diff --git a/Exercise11_files/.DS_Store b/Exercise11_files/.DS_Store
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Binary files /dev/null and b/Exercise11_files/.DS_Store differ
diff --git a/Exercise11_files/Problem1/Arthrobacter.fasta b/Exercise11_files/Problem1/Arthrobacter.fasta
new file mode 100755
index 0000000..4b4caf5
--- /dev/null
+++ b/Exercise11_files/Problem1/Arthrobacter.fasta
@@ -0,0 +1,22215 @@
+>tr|A0A0P7G4T1|A0A0P7G4T1_9MICC
+MSELDALLSETERSFGLRQIQAGHARMLVIGRELGQPIGEVWNVLSDPQRLGAYFAEPQG
+ELRRGGEYEVANFATGTILRCDPPRLLTVSWIPSHGNPGELEIHLTDVDGTTKLELRYAS
+VRKRFAVMDPDVAAWAAGPGWEAFLDRLQTYLQEGTGHPAAIGWQQMEEDELELYQARNA
+EWERVREEFERQHAPLPGPE
+>tr|A0A0N8HZ52|A0A0N8HZ52_9MICC
+MGSVLVFIDVPSLPLPRASRELLALAATIGTPAVASPQPLSEDAAAELAGYGVQRIFEPS
+QPLPEVLVAAKAAFLAEAVRAAAPDAVLLGNSFEDREVAARAGVKLGSGVITDAVAVAPD
+LAVTKSVLAGSYTSTCRVETGVPIITVKANSVEPAERGAAGSPERGLVTVPETGPAAVVM
+ERSEKRVSGRPELSEARVIVAGGRGLDGDFGPVEELADLLGGAVGASRAATDAGWIEHSA
+QVGQTGKTVSPQLYISAGISGAIQQKAGMQTAKVIVAVNKDADAPVFEIADFGVVGDVFK
+VLPQAAEEIRKRRA
+>tr|A0A0P7FYV2|A0A0P7FYV2_9MICC
+MARYFDVHPENPQPRTISQITAMLRGGGLIAYPTDSCYALGAQVGNRDALDRIRSIRDLD
+PKHHFTLVCRDFAQLGQFVQLDNDVFRSLKAVTPGSYTFILPATKEVPRRLLHPKKKTVG
+VRIPDNKVVQAILADLDEPILSSTLLLPGQEEALTEGWEIKERLDHVLDGVVDSGHCGPD
+PTTVVDFSSGVAEVVRHGTGDASRFE
+>tr|A0A0P7HLQ0|A0A0P7HLQ0_9MICC
+MLLFAALPLAAGLLAFFTGVLLPVSIMTGILVTLSLAASRGLGGPAAAVPAGDPGSRKGV
+APWWNRRRRTGFYAALSVLLMLGLTLAHSALTDTWGGGDLLFAVGLAVPLFVILRPPPRT
+RTQV
+>tr|A0A0P7GK28|A0A0P7GK28_9MICC
+MGLWLTVTRLPFLRPASFADRIAPQLRSVTHGSRLLEPADTTPFGPLQRVFRPVLQELVH
+KLARINPANSALQRRLDRAGNRMTVLEFRSGQLLFAGAGLLIGGAAAVWLAANALISVPA
+VALLALTSGLLGFLLRDYLLTREVRRREAVMLTEFPSMAEMMALAVGAGESAGGALERVA
+RTSRGELAREFGHALAETRSGAPLLTALRNLSKRTQLAPLSRFVDGVSVAIERGTPLADV
+LRAQAQDVRDMAKRELMEEAGKKEIAMMVPLVFGVLPLTVLFAIFPGLSLLSIGL
+>tr|A0A0P7GJR7|A0A0P7GJR7_9MICC
+MRNKIAVPLIVLGILMMLIGIGQRTLWAPPETVTAQAPQDAGTAPVAVLEADLLASRPDG
+AEIRVRSADPVFLAVGRSADVDAWVGDAAVTRISAGTEDSLSAETAEGETTVPNPAGSDL
+WVSEEAEDGEVSYTWTAPAAGDFSVLIASDGTAPAPTDITLSWANDEGTPLAVPLIIAGA
+LAAVLGLALAFLTRSGGKPTPPAPGSRRAVRESDTAAQRIVARRGAGAASSSATNTAPRT
+AAGITAAVLAGGLAVSMVPGAATAAETSAPEENYPVVLDGQLARILSSVAGTVQKADAAK
+DAKLLADRTASTALELRKANYAAAAKVPDTEAPAAVAAAPLLTDLVATGTEFPRTVIAVT
+QGEDNTVPQALMLVQESARENYKLVSAIQMLPGTTFPQPPADGAGVEAAAADSDEDLALA
+PQASVEALADALTNPDGDNKGTFAPNSFAEAVTKFQAEVTANPDNEFATITFKHTPVAAD
+TRALRTADGGAIVFGYMSHDYSSVPREAGDSINLEGTIYESLTGEKNTEKGIDVTYGEAV
+MLYVPPAGSSDQVEVIGAAQELLSAKLK
+>tr|A0A0P7GIQ8|A0A0P7GIQ8_9MICC
+MLDTNNVEDSCAEAILGAGMDEYVIVVETGYKLASANHKITPTEPMTRLAAERMFTEMMD
+GGHPELLPEKNDTSFLEVSPVEFLRLHRAMGGAVELDRVTLARVH
+>tr|A0A0P7GAM0|A0A0P7GAM0_9MICC
+MTINNSRPAAGSTPTDLKPEEIQGVIDRILAKDDAAAAKQSVTPAGGFRGQAQALSAQEA
+EHSDFDGDQQDLQDRRALRRVAGLSTELEDVTEVEYRQLRLERVVLAGLWSEGTAADAEN
+SLRELAALAETAGSEVLDGMIQRRLKPDPGTFLGSGKAQELKDVVMATGADTVIVDSELS
+PSQRRGLEDIVKVKVIDRTALILDIFAQHAKSREGKAQVELAQLEYLLPRLRGWGESMSR
+QAGGQVGSAGAGMGSRGPGETKIELDRRKIRTRMAKLRREIAGMKPARETKRANRQRNQI
+PSVAIAGYTNAGKSSLLNRLTDAGVLVENALFATLDPTIRRAETPDGLGYTLADTVGFVR
+SLPTQLVEAFRSTLEEVADADLILHVVDASHPDPEGQIAAVRSVLADVDARRIPEIIVLN
+KADAADPFVIERLRQREPRTVVVSARTGEGIEELLQAISEGIPRPGVELDLMVPYERGDV
+VSRLHSQDAEILSLEHEESGTRMRVKVRDSLAPELEPFLNHA
+>tr|A0A0N8HY26|A0A0N8HY26_9MICC
+MATRFDPFRELDRFAQAVRSESLRGMPMDLYRQDDRYVLSVDLPGIDPGSVDIDVDGQLL
+TIRAERTLRGTDGVQWLTREREGGSFLRQLSLGQGIDTDGITAHYENGVLNVIIPVSEKA
+RPRRIEVQSGSSASLGAAEDHQETEAVSA
+>tr|A0A0P7G9M9|A0A0P7G9M9_9MICC
+MMNSGTNTMVDLAVADLTACQGELEAARRAIELAIGARISDDGLNYHLIKSRVKSVESVR
+GKLGKLKPNGLPKYSNGLSDLDDLIGMRVITHIKPDVSRVVTALTGQFNVIKDEDKSEVH
+LREGTIGYAAHHLILEVGDDYPAGCGQHIGQRFEVQVKTVLQHAWAEFEHDIRYKSSGDV
+NPAINRAFTLASGLIELADDQFVTIHTEMSRESQSTAPVNTLVHGSEELTAKELTSMLVT
+ELPENPRSRREHYQWLVELMAAVGITTVDEANRLLTEADWDALTERMGYRFIAGHVRILD
+DLLLSKFGQDYIDKTASLSDASREGKLKYRLNKLCPADG
+>tr|A0A0P7FI89|A0A0P7FI89_9MICC
+MSRIAPVSTNLVVQVRNLAKAYGDHVVLRDVSLSVPEGSVTAMIGPSGAGKSTVLRCMNL
+LEKPDSGEIEIDGHLINAGAKVSARNLAALRRSAGMVFQHFNLFPHMSVLRNISLPQERV
+LGRSREEANAKSMELLTRMGLADKADQYPARCSGGQQQRIAIARALALGPRVMLFDEPTS
+ALDPEVGVEVLEVMKELAAEGMTMIVVTHEMGFAANVADELVVMADGGIIESGDPHEVMS
+DPQHERTRRFLRAVLER
+>tr|A0A0P7GIF8|A0A0P7GIF8_9MICC
+MPTIQQLVRKGRSPKVSKTKAPALKGSPMRRGVCTRVYTTTPKKPNSALRKVARVRLNGG
+VEVTAYIPGVGHNLQEHSIVLVRGGRVKDLPGVRYKIVRGALDTQGVKNRKQARSRYGAK
+MEKK
+>tr|A0A0P7GAQ5|A0A0P7GAQ5_9MICC
+MPTEIAVILLLATAAIASIATWQVTARRHRRHAAAGRITRPVAAADQRVAMVINPIKAQA
+AEAGAALEAACEMAGWEPPLILETTVDSPGFNQAKEALAAGADVVLAAGGDGTVREVARA
+LAHSRAAMGLLPLGTGNLLARNLGVAVNDLAGSIQAALHGNERRIDMGRMELDNSHTGVR
+SASNFLVMGGIGLDAEVIAATRDDLKRRVGWLAYSEAGVRLMPGPRRRMRLQLDDGLPKT
+RKVRSVLFANTGKLPAGIDFIPTAAMDDGMLDIVVLTPRTVLGWLAVAGKVVTRNRRELS
+LIEYTRARKVTVSTEEPIITQLDGDLTGAATRVRVSVDPHCLRVRAPATVTGSAAGNGRT
+GGFRRN
+>tr|A0A0P7GB76|A0A0P7GB76_9MICC
+MITRTSNLMLTRNAQQNLQANMSRLAKLQEQAQTSAAITRPSDDPAGTADALKVRAEMRA
+NTAYKSNISDANSWLSTVDAALTRTTDILTRIKDLAITASTATATAANKAAIATEIEGLK
+SDLLGQANTSFLGRNIFAGNSDAGVAVKAETSGTPPTQTYTFTGEGHGPVNRRLDANTEV
+RVDASAAEVFGGVNGEPDVFTKLDSLVSALRDNGDISTHLPGIDASTQRVITQQTDVGIR
+HARVLKAEETNLEQSVSLEARRSGIEDLDTAQVILDLKLQELAYQSSLAVTAKVLQPTLM
+DFLR
+>tr|A0A0N8HXN3|A0A0N8HXN3_9MICC
+MNKPRTAPRPSAARPSRAAAAAGFLRRTLALGLLACVIAGLGLTAGSGAEPERPRSFSEQ
+ALNEAFATSRVLAAEAESRAAAAQGPRAAALLDAADTLSRQSLLLTSPGGAAALRESEGV
+EEQSFTKALQDSARKNLAAAGRADYGTARLLASTGTGQLLLSQNLAEALGETPEPVQESG
+WTPVLNEDGQTKCTNDGAGSDRAEIRERPGAAESLQAVLDAEFGAAYAYEVAQAQAGSAF
+TVLGSTPAKLREAHLEAGLEGAKRLPSLCLPEITPVPAYALSPGFLANPVTSLEELEEAM
+PTLYAELTGTSDGAVRAWAIDRLVASSLFLYDGAAEIPPAPGLDAEPAALPWAAQG
+>tr|A0A0P7FPK0|A0A0P7FPK0_9MICC
+MPAATVLVGIVVASFVSPGATALFTGAAAALAGFSWPYLLGVPARRSQGLVLGLVGAGGV
+AAAYFAPATAMLTWLPGVVAVGVGAVFLIQLLRGTGQPHRLESTIGVIAGALVAGMAAGW
+VAADRLPGAAGSEGLITSSAAAVLVAVLVSLIPLPDRIIAPFGVVAGALAAAAAAALVPG
+LPVLSGAFLGALCAAVIVAVRRLALTRDDSPGVLGILAAGMAPVLALGTAVYFAGRLLVP
+>tr|A0A0P7HND9|A0A0P7HND9_9MICC
+MTALPGPDGALRCAWALASGDYMEYHDHEWGRPVRGEAALFERLSLEGFQSGLSWITILR
+KREAFREAFAGFDPATVAGFGETNVERLMDNPGIVRNAAKIRATIANARALLALGEDESL
+EALLEKHRPPVHAAPRAAADIPPSTAESASLSRELRARGFRFVGPVTAYAMMQATGYVND
+HLADCAFR
+>tr|A0A0P7G001|A0A0P7G001_9MICC
+MGAGSTVADGVVRNGGDLVVETLEALGATTVFGIPGQHALGLFDALSRSTLEFVSSRVEN
+NAAFAADGFTRATGKVGVLFLSTGPGALTSLAGLQEAYATGVPMIVVASQIPIEGLGARR
+RGMLHQLDDQKASAANVTKSQRLIQHASGIPSAIQDAWTEAISAPMGPVWIEVPQNVLLA
+PVVVPAVEDALAEPFDNPPRSELVTEAVKWLAGARRPAVIAGGGTRRGRGEESLLSLAEK
+LRAPVICTPGGKGAFPWNHPLSLQSWVEDRWATDLLEDADVLLVVGSSLGEITSNYFTFA
+PRGRIIQIDAEPRVLESNGPALGIRADAGQALAALDAALPVPATAPDWHGQSAAEITADT
+LARISDRLDAQDLAPERKFMADIREAVPADMQTFWDMTIAAYWAWSCWDTKTGAFHSAQG
+AGGLGFGYPAALGAAVGTGERVLAVSGDGSAMYSISELATARQHGAPVTWLIVDDGGYGV
+LREYMVDAFGKATATELAGPDFVKLAESFGIPARRAEPGGVREALEESFAQEGPNVVVVQ
+TVLRLFAPTHLAP
+>tr|A0A0N8HX12|A0A0N8HX12_9MICC
+MSRYYAPEAGLPPQTALLSGRAVVTEAYTVIPRGVLRDIVTSVLPEWQGTRAWILNRPVA
+GGATTFAQYLMEVAPGGGSRSPEPQQQVESFVFVLDGGPLAITIDGERHKLDPGGFAYLP
+PERLWEAANDGSEPARFQWIRKAYEPLAGHTPAVVVGHESEIEPAGVPGTDNRWRTTRML
+PVDDLAYDMHVNVVTFEPGASIPFAETHVMEHGLYILEGKGVYRLNEDWVEVQEGDYLSL
+RAFCPQACYAGGPSNFRYLLYKDVNRQIML
+>tr|A0A0P7GJR3|A0A0P7GJR3_9MICC
+MPSYQWGPQDISAPARKALRQVGAEKGLVLEEVQTGWVGAVIRTEKSGGMHVVVLEDARG
+RTRSFELGFGFLLEGEPVEVVPALKAAAPAARRTASGSVAVENVRARTARASRIWVEGKH
+DAELVEKVWGDDLRIEGIVVEPLHGVDDLASVVRDFSPGPGRRLGILVDHLVAGSKESRI
+AAEAMKVPGAAGNVLIVGHPYVDVWQAIKPDVIGLRAWPVVPRHEDWKTGILKGLGWPHR
+DHTDVALGWKKLLGSVRTYADLEPALLGRVEEVIDFLTVP
+>tr|A0A0P7GTF0|A0A0P7GTF0_9MICC
+MEVPQDTRSTCIGYSAGGSLLGTAEREGLTASNILYVAPAGSGHEVSSPSDTASPDANRY
+WIQTRDDPISVAQVGGGGFHSGSFWTGGSPKTQMGAVRLESGFVDPKKPDSLMRGHTDYF
+AEGSTSAANIQAVINGNRVSMYVEEVFHYGFGYAYSESPIEERPEDYANMKLQTVTTESL
+EK
+>tr|A0A0P7G9N8|A0A0P7G9N8_9MICC
+MGYLNVDLSALEKLPPPGTLRVQASLLAAAGMGFAESVKDTAGKWQALEGLYETPHKHLV
+LNALAAPAHQATGLAESTDSVAAAIRSFADAVDTIRAATNSLRSDIAAADRQLGAILEEP
+VPGIGDDFSNSLIRYQWDFEDRASKLASDYQEARDVCLKALSAVGRASTDVNSYYGSNRL
+DLLSHEAERLHRLALSPDAAPEDVQAYYNQLAGMDAGRYREFAADYPEAAVLPPRVGLAA
+EHQAAFWHSLSPEQQAALAESLPAVAGNTEGVPYTVRAAANTAVLALVMKPAWRATEEQR
+RSYAAIEESLEKTGSKAADRSLISFDPAEPPLAAVAIGNMDTATSITANISGMGSSTQDM
+GGAVRVAENLYNEQRRLGADPAVLAWIGYDAPDMPPSTEVLFSDKARTGGAKLATVIDGF
+YYTRGAENPPFISVTAHSYGTTTAAYALSQTENTIDSLVFYGSAGIDPEAAESAADLKVR
+SGEVYATLGRADKVAPAGQLGSNFGDPRVTPTSETWGAKVFSSEPAVVDGRELLGNGGHG
+GEGSTVGAGITETEKGRGYLDPDTASLRHIAAASSGSGERIGLIPEAETDAALGRLADRG
+SAVYYAPGRAVDSVQDGAAAFADAAQASVNRAADAVQGGLMFATDTLQEQHLRDVSPFRN
+PLNPLVDGLQGIALEKTDALQEQFNNAMDGAQSTVDTIIDAHQKAADEYFKRKWRAFEFV
+AGKLVALQGSD
+>tr|A0A0P7G4B2|A0A0P7G4B2_9MICC
+MRLCIIGPSRFPISEPFAGGLEAHTHALVSALTARGHEVTLFAAAGSDPNLGVHFLDVPA
+FEMSDAARNDVGALPEQWMGEHHAYLSLMLDLAEHGEQKYDAVLNTSIHHLPVAMSRMLR
+LPLITTLHTPPVGWLESAIHVRGPLTRFIAVSAHTRDAWAPLVESTAIRNGVDTDTWLRG
+PGGGPAIWFGRIVPEKGTHLAIRAARAAGVPLDLAGPVYDRAYFDAEVRPHLGADIRYLG
+HLDHAQLRRAVGHARAALVTPRWDEPYGLVAAEALASGTPVAAFRRGALPEILTEDCGRL
+AEADDADALAGALQDACGLDRGAARHRAETFCSHERMVDEYEALLLDTTARKAAA
+>tr|A0A0P7HJY3|A0A0P7HJY3_9MICC
+MVFRLNDHWAWDSWLADDGEQYHLFFLRASRALQDPQRRHYRASIGHAVSNDLEDWELLP
+DALVAADGPAWDDLATWTGCTVQGADGRWHLFYTGVSRAENGLQQRIGMAVSEDMVTWTR
+RDRPPLEADPRWYEKLGEGTWPDEAWRDPFVFWDEDTALWHMLVTARSREGDPAGRAVVG
+HAVSPDLEDWEVRPPLSGPAGFGEMEVIQSRIVDGQPVLIFSCLPEFAPGVDAPRVPTGT
+WIAPGGSLLGPWKLEESAEFYLEGIYAAQLVQKRDGEWVLFGFQNGSFTGEISGPTTLKE
+LTNGAPLFS
+>tr|A0A0P7GVM2|A0A0P7GVM2_9MICC
+MISLLIGCSLALVLAFACTPLFIRFLVKKGYGQFVRDDGPTSHHTKRGTPTMGGAVIVAA
+VVVSYFATHLISYAINPTSFGPSVSGLLVLFLMVGMGFVGFIDDYTKISRQRSLGLNARA
+KIILQAIVGIVFAVLALQFPNNAGLTPASTNVSFVRDTAIDLAFAGTIIGAILFILWSSV
+IITAATNGVNLADGLDGLAAGASVLVFGAYFLIGIWQFNQSCLGPANDGGVCYEVRDPMD
+LALLAGAMAGALVGFLWWNTSPAKIFMGDTGSLAIGGAIAAFAILSRTELLLVILAGLFV
+IISASVIIQVGYFKLSGGKRVFKMAPLQHHFELKGWAEVTVVVRFWIIAGLCVAVALGLF
+YADWVAGQ
+>tr|A0A0P7GSF5|A0A0P7GSF5_9MICC
+MDTAQVRLWWLPVGAGGHLVIHTSRWWELWRSVRERRRPQPLFHAALEVAADGSSYAIEM
+TPSWGQGSGERGVVAEGPVGLRVLGRLKLFRYEVRCWRGGVIPDLGYAPEPPLVFNVSTS
+GADALRARVPQVPDMVWGAKMPDGDMWNSNSLVSWLLQSSGIDAGALYPPHGGRAPGWRA
+GIDAAR
+>tr|A0A0P7H471|A0A0P7H471_9MICC
+MAGFDHFTTLKVTVGEDRISAVLNRPEVRNAIDQAMVDELHELCAALESDPKVLILSGTN
+GVFASGADIAQLRERRREDALRGINSTIFHRIAKLPMPVIAALDGYALGGGAELAFAADF
+RIATPTVKIGNPETSLGIMAAAGATWRLKELVGEPMAKEILLAGRILNAEEALAARLVTE
+VHEAENLLGAANALADRIARQDPLAVRITKSVFHAPAEAHPVIDTLAQGILFESEAKFDR
+MQAFLERKKKK
+>tr|A0A0N8HXN4|A0A0N8HXN4_9MICC
+MYYWNDLAEVPSDLGPTVVTIGNFDGVHLGHQHVLSRLVKTARDRGAAAVALSFDPHPAA
+VHRPESAPVLIMGPADRTEALAETGLDGLLMVHYDLDLAALSAEEFVRRFLADGLHAVAV
+VLGHDARFGRGNTGDLDTMRELGAELGFDVVAVDDFDALPEGPGDIQGRRCSSTWIREAL
+AAGDVRTATRLLGRTHRMRGTVVHGAARGRELGFPTANLAPESTGLIPADGIYAGWLVDS
+AGTRWPAAISVGSNPTFDGVSRQVEAHVIDRPQEAVEDFDLYGQTVGVEFVDRLRGMVAY
+TGPEALIEQMRLDVARTREVLSTEGPVAG
+>tr|A0A0P7FIH8|A0A0P7FIH8_9MICC
+MNELDLPPDRQAAVRRAEILARKINLLLDVIMSDSGKPFDYPAIRDGAQKAGYYLSRTRW
+SLLKSGKEQVVPDEALRAIAAVFDVDPEYLIQDGGKLPERVEAELELIRSMRRAEVRNFA
+ARALGPVDPEALRAIAKILDEDD
+>tr|A0A0P7GE88|A0A0P7GE88_9MICC
+MGRISVSTENSSPIELYYEDHGKGQPVVLIHGYPLDGASWEKQTAALLQAGYRVITYDRR
+GFGRSDKPAEGYDYDTFAADLNAVMETLDLHSVVLVGFSMGTGEVARYLSTYGADRVDKA
+AFLGSLEPFLLQTEDNPEGVPQEVFDGLLEAATADRYAFFTEFFKNFYNSDDFLGTPRLS
+QEVVNAGWHLAASASPIASVAAQPTWLTDFRDDIPKIEVPALIVHGTADNILPIDATGRR
+FAKALPSAQYVEIEGAPHGLLWTHADEVNEALLAFVAQDTKPETKEVPAEA
+>tr|A0A0P7H5Y7|A0A0P7H5Y7_9MICC
+MATIDLNADVGESFGLWSLGDDAAMIGAVSSVNVACGFHAGDAGTMYAACLAAAQAGTAV
+GAHPGYRDLSGFGRRALDVDPDELTGEVIYQIGALQSLAQAAGTRVSYVKPHGALYNRIA
+VDPLQAQAVVDAVCAVDPGLPLVVLPGSVVERLAAQAGLRSIAEVFADRAYNPDGSLVSR
+TQPGAVLTDLAEITEHVLRLAVDGKIQTADGTVIDVAAESICVHGDTPGAVAMGQAVRGA
+LESNGVTVASFI
+>tr|A0A0P7GL98|A0A0P7GL98_9MICC
+MPSPDSESSIAAANDGESAAAPSGSAKSGPAKLNELVDEPAKVMRIGTMIKQLLEEVRNA
+PLDDAARNRLAEIHERSLKELYDGLAPELVTELERINLPFPDDATPTDAELRIAQAQLVG
+WLEGLFRGIQTAIAAQQTANQQLQSRLQLRQLPPGTVLAPGVVIGENGEPRRAGTAQQPG
+QQPGAGRTEPHAGPGQYL
+>tr|A0A0P7G404|A0A0P7G404_9MICC
+MLRPPDDGSVPGTRQDWPKELAMSWVVLIASGMLEAVWATALGKSNNFKKPVATVVFAVA
+LAASMAGLAWAMLSIPVGTAYAVWVGIGAVLTAGYAMLFGGEKATVIKVVLLMGIVGCVV
+GLKLVA
+>tr|A0A0N8HZ12|A0A0N8HZ12_9MICC
+MADYGVTAPVRETNPAHPILEHDATSEWLGIKVEHLADGEAVITMDLRPEMLNGFSIAHG
+GMVFAFADTAFALACNPAGADSLANMETITVASGADINFISSARSGDKLRAEASRRAAAG
+RSGVYDIEVTAESPDGATRVVAEFRGRSRTIPNPARRS
+>tr|A0A0P7FI98|A0A0P7FI98_9MICC
+MDNVAEAIGRTLAQLGASHAFGVVGSGNFHLTNALRANGVPFTAARHEGGAATMADAYSR
+MSGLVSVLTTHQGCGLTNAATGIGEAAKSRTPMIVLTADAAAPAVRSNFRIDQDGLARSL
+GAVPERVHSAATAVADTIRAFRTAQNERRTVVLSVPLDIQSQPVPAGLPDRAAAVPPTGF
+VRPNATLVRGLADILGTAKRPVFVAGRGARDAGPELRALAVQSGALLATSAVANGLFNGE
+EFNLGIAGGFSAPETAALISEADLIIGWGCTLNMWTMRHGSLINPDAVVVQVDLEDSALG
+ANREIHLGIIGDCAATAADVLAELQATVSEPAEKYRTPETAARIAAGSRWQDVPVEDLST
+ADRIDPRVLTLELDSLLPAERLVSVDSGNFMGYPSTHLAVPDEFGFCFTQAFQSIGLGLG
+TAIGAALARPDRLPVLGTGDGGFLMAISELETAVRLNLPLVAIVYNDAAYGAEVHHFGTG
+GAEADMETVTFPDTDIAAIARGYGAEGITVRTRGDLAAVRQWLEGPRTVPLVIDAKIASD
+GGAWWLAEAFKGH
+>tr|A0A0P7HHY1|A0A0P7HHY1_9MICC
+MGVSAKAFQAWRTLMAPEESTADLCRRTGIKRSTLAQQLVRGKVSVSTVVSAARAYGQDP
+VVTLSSFEGYQDLAAGRRDPTPEELISQVPYRDILRYLLSRTDADEDHPAAPRVAEYAES
+IAVRPWFEAVDPGDLRQQLSAATGIAPQNISAQLTAGRLAPRLAIQAARIAGVSLTSGLV
+VTGVLQPNEGGWPPRGREAALAELSDAELVALARDRLDALGKVLRKREQDEKYNHALLEN
+LG
+>tr|A0A0P7G4D5|A0A0P7G4D5_9MICC
+MQTPAGWYPDGQNPQIVRWWDGQQWTQHTQPIQHPGVPDTGSSVPPSTSQETVGTPESTD
+RTRTGPGRKKVGLFNARQVAQEQLAENERLQRLIDAHGLQDLAEISRLREEAEEQLRRLR
+SEFQAEMAAAGREREAIQQELAVARREIVSIHDQAGLQDAGLFAYSHPAESSAELAAELE
+VVRSQIKDMVRSKAAITATSNFTFNNSAKQGQKFVAQMSQIMLRAYNAEAENCVKTVKAG
+NLQTAQARLSKAREQIMRQGTMIDLAVSPEYHRLRLIELSLASRHLQALQAEKEAERERK
+AELREQRRVEQELAQAKEKLEKELNHYQTTLAALEAKGDADGAARMRELVLDAERAIADV
+DYRAANIRAGYVYVISNVGAFGENMVKIGMTRRLEPMDRVRELGDASVPFTFDVHALFFA
+EDAVGVEAMLHRTFAEQRVNKINTRREFFYVNPTQVLEALKQHRVEVVEFRTDYVAEEFQ
+LSRGNLEAKM
+>tr|A0A0P7HDH5|A0A0P7HDH5_9MICC
+MYAWIFRHLPGPLWVRILTALVLAAGVVLVLMMYVFPWFSEFSFLAPLTDSTIGGSETQ
+>tr|A0A0P7G6S6|A0A0P7G6S6_9MICC
+MRKPLGAVAGGLALMLALSSCGLDDSSSGSEGSGGETLTIYTARDKGLAEAVVADFESAN
+PDYAGKVEILTLGAQEALERIRAEKANPQGDIWWGGTGQQMKQAATDDVLAPAPDAVVEA
+VPEELRDPDGLWVGEMQLAEVIFYNHDMLSEEEAPKDWDDLVAPEMADKLAIRDVEASGT
+MRSIYAAMIDRQYDAAGSPEAGYEWLGKLDANTKVYAANPTDLYLRVTRQEAAASAWNLQ
+DVMLQIENQNAPFTPVVPESGAPMLVDGVAKIKNGPASDAADAFLEFLFSEDAQKKLSET
+YYQIPSISMSEQPAWLADLDLVEMKVDWDRIGQNESEWIGYWAENIKGKN
+>tr|A0A0P7H4Y8|A0A0P7H4Y8_9MICC
+MTIRIDDHAQNLKMLLFIRQAWMIAQDIAIPELSPVPATGASKIPASASREVWDERWKQQ
+WDRSWDWFNVSTVQNEPISQEEMQKLSSPGQVLHPIVPPFWPVEYGEDGVDLVAFNTWDK
+ETTPNFPSRSEQDSLPALVKAWQDGLTTIVVLPYLGYFAQRLNGSHLAISAETRNDPKLY
+TAALQTSR
+>tr|A0A0N8HY20|A0A0N8HY20_9MICC
+MIIPCHNEERVIGATLDSLASVIAAGTEVIVVCNGCTDGSAAEAGARAGVRVLEIMQASK
+TAAINAGNAAASFWPRLYLDADITVGEETVRAVFEALDTGSLAVRPPVDYDLNGAALLVR
+SYYRARRHLPGAGTALWGAGAYALSAEAGQQLGTLPPVVADDLYVERFFPAAEKSVLDCP
+PVLVRLPRDVPSLLAVLRRTYRGNAEQGALNSTALNSAAGIFGSVRGPRSAFDAVVYTAF
+TLAGRRLAAASHPGTTWERDESTRTMFRA
+>tr|A0A0N8HYZ9|A0A0N8HYZ9_9MICC
+MSTAPQLQGWKHIYSGKVRDLYVPEGPDAAHDRVLVVASDRISAYDHVLSSTIPDKGRIL
+TQLSLWWFDQLGNVPNHVISADDGVPAEVSGRAMICKKLDMYPVEAIARGYLTGSGLAEY
+KQSRTVCDVPLPDGLVDGSRIEPAIFTPSAKAEVGEHDENINYDAVVAAVGAETAAKIRD
+VTLEIYTTAEAIARDRGIILADTKVEFGLDPATGLVTLGDEVLTPDSSRFWDASLYEPGK
+AQPSFDKQYVRDWLTSAESGWDRASDTPPPALPADVVERTRARYVEAYERLTGKSFV
+>tr|A0A0P7G6B9|A0A0P7G6B9_9MICC
+MSVATLPGTGTQTDSRTAEQTATDVPWVVIVWNDPVNLMSYVSYVFQSYFGYSEAKANQL
+MLQVHNDGKSVVATGPREEAERHTLAMHSYGLWATFQKADQS
+>tr|A0A0P7GAP3|A0A0P7GAP3_9MICC
+MSQDLSPSRTSGGEPVRTDVEAALLGGRTFRTLSEQTLSPREERFERARQTIGFFLAPAV
+TIVFALWPSDMDQTQQLLAAILLGVIVLWICEPVPIPVGGLIGVAAVVILGVAPSTAVLA
+PFGSTTIFTFIGAFILAQAMLKHGLAQRLAFAVLSLPGVGRSTYRVIIAFGAITCLLSAF
+VSNTATVAMLLPTALGILVVIAKLMQDRGEVRPDFDPLRLRVGAALMLMLAYGASVGGLL
+TPVGSPPNLIGRGLIEEATGERISFAQWMAAAAPLCLGMFVILALVMFLLNRPEVRRIEG
+VEEYIREQKAEHGKMSRAEINTLIAFGVTVVLWLTPAVASLIAGTDSEVYAFLDDRLDEG
+IVAVLGASLLFILPTNWKERKATLTWTDAAKIDWGTILLFGTGIIFGALLAETGLAETIG
+NAASDSLGITSIVAITAFSTLLAILISETTSNTASAAVVVPIVIPLCTAMGLDPFVPALA
+ATFAASFGFMLPVSTPQNAIVYGSGAVPIIRMIRTGLVFDILGAALIIALLPLMVGLVGI
+GG
+>tr|A0A0P7HUP2|A0A0P7HUP2_9MICC
+MKAVVLYDSAFGNTRHIAEAIARSLDGTGAEAVQVPEFRPKDLHPGDLLVVGSPINGWRP
+TPIISAALEAFGPDQLHGVKAAAFDTRVRLFVHGDAAKKLSDELRQHGAEIISAPQPFYV
+KGTEGPLLPGELEKAAFWARSLLHAVGR
+>tr|A0A0N8HX18|A0A0N8HX18_9MICC
+MALEHLPASEFDSSALNETLVPAPGSAPDGMVQLLTPEGERTGHELYGRYVEDIDGEALR
+SFYRDMFLIRRFDVEATALQRQGELVMWVPLTGQEGAQIGSGRALAEQDYVFPTYREHGV
+ALTRGLQLSHLLRRFRGISHGGWDPRESNFHLYTLVLAAQVPHAVGYAMGMARDNAADPS
+QPAGATVAYFGDGASSEGDIHESMVFAASYDAPVVFFCQNNHWAISVPTEVQSRIPLANR
+AQGYGFPGIRVDGNDVLAVHAVTRWALEHARSGRGPVLIEAFTYRMSAHTTADDPTKYRL
+SADEQAWVGRDPLTRLEKHLRASGAGDDAFFASLSTEADDLAAQLRADVQAMEAPSFAES
+FADVYAEPHPLIAEELEFHRAYEAGFADTDSDGSDPQDTVDTEEVGA
+>tr|A0A0P7H8M2|A0A0P7H8M2_9MICC
+MAKKKTLNDLTAGQKKGLGILSSVQFLLAGAALVDIWRRPGSEIRGPKAAWSAACAVNFI
+GPISYFVFGRRRS
+>tr|A0A0P7HD67|A0A0P7HD67_9MICC
+MTLVDNAVYVDGERVHSPQTLEETFDLTRETGGMAWIGLYRPDDIELLAVSEEFGLNLLI
+VEDALAGHQRSKLEQYGDQLFVVLRPARYLDDVERVEIGELHLFVGPNFVVTVRHAESPD
+LARVRKRLEHEVDLLSLGPQAVLYAILDQVVDEYAPVSAGLENDIDEIEDQLFGGDAEVS
+RRIYELSREVIGCQRAISPLETVVGELQRNPEKYGVPPQLKDNLGDVLDHVLRLIDRITA
+YRSLLDNALSLSSTLASNRLAETSVAQNEQTKKISSWAAILFAPTLVGTVYGMNFEHMPE
+LDWALGYPMALALMVVLGILLYAAFKRNNWL
+>tr|A0A0P7FP52|A0A0P7FP52_9MICC
+MSTAATLFIDGAWVPASDGGTREIRNPADGELVATVSEGTREDAGKAIASARSAFDRGEW
+ASVPAPERGDFLLRVAAGLKERKAEFARAETLDTGKRLVESEIDMDDIAACFTYFGKIAG
+QNAGRIVDAGNPDVVSRIEYEPVGVCGLIAPWNYPLLQAAWKIAPALAAGCTFVLKPSEL
+TPSTSILMMKVLEDLGLPRGTANLVLGAGAVAGAPLAESPDVDLVSFTGGVATGKTIAAA
+AAGTVKKVALELGGKNPNIVFADADFDAALDNALNAAFVHSGQVCSAGARLIVEEPIAER
+FVSELVRRAEQIRMGGPFDETAETGPLISAAHRDKVTAYVQKAQEEGARIRCGGTWGTGE
+LEKGFYFAPTVLDNVKRGSAALLDEAFGPVVTVETFNGEDEAVALANDTAYGLAGAVWSA
+DAGKTQRVARRLRHGTIWINDFHPYLPQAEWGGFGISGVGRELGPTGLGEYQEAKHIYQN
+INPQVTGWFTDHGKVS
+>tr|A0A0P7GIF3|A0A0P7GIF3_9MICC
+MTNVTHTRKPKSVQLAVISVWIVACLAALGSAAEAFVTIFGRTPLAFGGADPRVQLVMLP
+QINQAELREGAVGYLVDIPLWLRVLCATPALLYIVMALVAAFLIARVLQEISAGRPFTAR
+VRKNLLALSFLLIGAGLLYGTLDATANRAVFEVASNFGTEGFPLGADYAVISTDAPRWPY
+FMITSGVVGLALSSAFKAGGRLQEETDGLV
+>tr|A0A0P7GJJ2|A0A0P7GJJ2_9MICC
+MAPDTGVNAAWPLWEVFVRSSRGLSHVHAGSLHAPDADMALRNARDLYTRRNEGVSLWVV
+PAEAIISSDPDAKGQFFESPQGKDYRHATYYRKSEGVKHL
+>tr|A0A0N8HZ38|A0A0N8HZ38_9MICC
+MKSRLLAGTALVSLLAVSACGQETDAAAEPAATEAGTITVEHTQGTTEVPVNPEVVYTFD
+LGALDTLDALGIEVDGVPAANFPESLSKYGSDDYAKIGSMKEPDFEAISAGAPDLIIMSG
+RTADSYEEFSKIAPTINLSTDAADPWNSFIENTEIIGEIFGKEAEVEDKLAALDSKVEDT
+KATAADAGNGLIIMTSGGEMTAYGAGSRFGLIHDVLGVATAADIKSEAQHGESVSFEYVA
+EINPDNLFVIDRDVAVGNAGEVASAVLDNELVMGTKAAKNDRITMLDSSSWYLVGYGLNN
+VDAMVSAVQDGIS
+>tr|A0A0P7GLC9|A0A0P7GLC9_9MICC
+MLPSPAAAGRRVFVGIDGVDGSGKTTFADALAASLQGPVVRVSIDGFHLPRRERYRQGRD
+SPRGFWEDSYDYGAFLRLVVEPLRPGGTGAYSCSSHDLDSDLPLAGPKFTAPELATVLVD
+GLFLHRPELAGVWDCSVFLDVSLETSCGRMALRDGSDPDPQARSNRRYVLGQKIYLSTCD
+PRSAAEIVVDNNDYQAPRVLWGSADEMPPAG
+>tr|A0A0N8HX03|A0A0N8HX03_9MICC
+MKLSGKYGTWLGREYELLQTSPIDGLMILVQQGGESRGAEWERHEHGERFPQPRVSYTLG
+VPPEEVTNVHAVTATGELKSGLEVEIVAEDAEGKFEVVVGDEVPTERKWDLVEDHGFHTF
+HNEPVERSGVYGWLPAEMIHGLKSQVHWRKGDK
+>tr|A0A0P7FHH2|A0A0P7FHH2_9MICC
+MRPARPADVVLLPALEAASDTLLASRPEIHTGLLGTLPPPASPRDLAGSRHLLVAGSPPA
+GFARLEEVGGCAHLEQLSVHPDAAGAGLGRALVAAAVQWARNEGYPALTLCTFARVPFNA
+PFYRSCGFSEVEPAGELAEVRRHEAELGLDSIGERVAMRLELGSAGGRSSCWKLAEASSN
+V
+>tr|A0A0N8HX08|A0A0N8HX08_9MICC
+MYTDLPVDQLGTYLGSQGEPADFDEFWARTLEEAQAHPLGLILEPVETVLSTVDVWDVTF
+NGYGGEPIRAWLRVPSGASGPLPGVVQFVGYGGGRGDAHENLFWASCGFAHLEMDTRGQG
+AGWSTGVTPDAAGSAGPQGQGVMTRGITDPGTYYYRRLITDAVRAVQALRSLDRVDPDRC
+AAVGMSQGGSLAVAVAALAPELAAIVAKVPFLSDIPRALQVTDAYPFRELVDYLAIHRTR
+VQQVHQTLQYFDSINFAKRARVPALFSVGLMDQITPPSTVYAAYNNYSGPKEQQVWPFNG
+HEAGGIEDDVAAVAFLRRVFGA
+>tr|A0A0P7G928|A0A0P7G928_9MICC
+MKPARQIHLARAGKTITAAAFALALAGCSTSGASADSDDTKSTQPPAASASASPEAETVA
+QEEAAPESVEATSLKVGDCLADDPDTEEVSDVDVVPCTQPHESEVYAAMDIDAGEYPGQE
+AVETMAQDFCLAEFQPYIGTEYADSLVDIGYLTPTSYSWTLGNDREILCTAYRVDGEKLT
+STVRNSKV
+>tr|A0A0P7FPL1|A0A0P7FPL1_9MICC
+MSTEAFAGPGTDSIPEVVIVGGARTPQGRLNGQLASFTAVELGAFAISGALERSGVDASQ
+VDSVIMGHVVQAGCGQNPARQSAIKAGLGWDVPTVTINKVCLSGLAAVIDAARLIRGGEA
+TVVVAGGQESMTRGPHVLPGSRQGWNYGSMSVLDSVAHDGLTDAFDNESMGVSTERGNSA
+LGIGRTAQDEVAAASHQRAAAAAAAGIFDVEIAPVTVPQRKGDPVVLTADEGIRPSTTVD
+TLAGLRPAFDPEGTITAGNSSPLSDGASALVLTTRAFAEEQGLEILAGVGMPGQVAGPDN
+SLHSQPSNAIAQALKRAGWTAADLDFVEINEAFGSVAVQSLQELGVELEDCNIHGGAIAL
+GHPIGASGARLALHAAHELNRRGSGRAAVGLCGGGGQGEALLLYRN
+>tr|A0A0P7H4L6|A0A0P7H4L6_9MICC
+MVQDRSGKTEGMNSHPTDPGRPSGDPSQPFPPAAPGAAPQGTPSGAPGENSFFNWLRQLG
+IRRSPDRWIGGVAGGIAQRTGLDPILVRGIVIVLALFGIGIVLYGVAWALLPEPDGRIHL
+EAATRGTWTAGMTGALTFTILGFSGPGISFWAWDGWLGSIFWGLFWVAAVVLVIYWLTTR
+NNNSPNRAPQTQGPSAPGQQGWPSAGGSTAPGQGTNLPGPFPETPAANPPAAGYPGPDAP
+TMPLPFGAHAAGSTGQPPAPERPFDGLYVQFPPPAVVKDTPKPPSTTPPGAWVALICGLA
+LLAAGVLLALDYSGIYQTGSPAAVALAAAGVVLGLGIVGLGAAGRSSGLAGGLGVITLIA
+ALLFTGSFAYRNLVVANQSNWSADRSGTAAEGYSVAAADGNLDLRGVAADLRDGDVTVPV
+SVAAGDLTILVPDDVPVSVYSEMAMGNVELEHDGTHTSSGGLWVGPQERKLNPDARGNRI
+IIEIKGIASSVLVTTNESSLDR
+>tr|A0A0P7HDI4|A0A0P7HDI4_9MICC
+MQPPAENQGPDDPAADGSDLPDAAREQLNRMRQAAQARGNQRVPASQRKQGARRTPRFVP
+GEYTGRDPQGLGKVFSRFVNERGWNSPVAVGSVISRWEELVGPEVSAHCKPESFSDTTVQ
+VRCDSTAWATQLRLLRQTLIERFDAELGSGVVTRIEVIGPAAPNWRKGLRSVKGRGPRDT
+YG
+>tr|A0A0N8HXL6|A0A0N8HXL6_9MICC
+MPVVSTPETLKPAAGPIDNAEVLRIRNDFPILDQQVNGRSLVYLDSGATSQNPLSVIEAE
+QEFYEQRNSAVHRGAHTLAVAATDVFEDARTTLAGFVGARPEEIVWTSNATEALNLLTYS
+FSNATAGRGGAAARRFALAEGDEIVVTEMEHHANLIPWQELAARTGATLRWIPVDDAGAL
+RLEEAEQIIGPRTRILSFTHASNVLGTINPVAELVAMARRHGALVVLDACQSVPHLPVDV
+KALDVDFAAFSGHKMLGPTGIGVLYGKSELLNAMPPFLTGGSMITTVTMDKAEYLPAPQR
+FEAGTQRISQAMALGTAANYLQETGMDRIHAWEMELGQRLVSGLEAIEGIRVVGPPSGVE
+RIGLAAFDVAGVHSHDVGQFLDDKGIAVRVGHHCAQPLHRRLGLVSTTRASTYLYNTTDD
+VDAFLDAVAGVRPFFGVK
+>tr|A0A0P7HVW7|A0A0P7HVW7_9MICC
+MSSERLETPGRGAGFVDLVRSRFLLKLLVSKELKVRYRGSVLGLLWSYVKPGVQFVVFYV
+ALGVFLNLEQSDSNPRGLPNYAIYLFSGIVLINFFTEALGNASRSIVGNGGLIKKIYLPR
+QLFPVASVWVSGVHFVPQILILLVACLFNGWRPGVLEVAAALGGFVIVGLLATGLGLLFG
+AVNVYFRDAENLVDMLLMIATWASPVLYSWVMVRNKLGETAFNLYQLNPITVGVETFHFA
+FWLPTTDGAEQIPPHLLSVWLPVGLAISAAVLLFGQFVFRRLEGRFAQEL
+>tr|A0A0P7GBQ5|A0A0P7GBQ5_9MICC
+MDAARALQVYRQQESFGAAEDLQHALDLLDAARRGTLGPSLRVYRPQPTVAFGQRDARLP
+GFPDAAAACRDLGFEPLVRKAGGRAAAYHGGCLILDHIEPEPNAVAHSLARFAGFAELLA
+GALQDAGVPAGVGEIPGEYCPGEYSVHGGTGARIKLVGTAQRVVSGAWLFSSVVVIEDSA
+PLREVLSAVYKALGLDWDPSTAGAAEDLRPGLRVSEAEDALLAAYGRYAPLEHGDPSRLL
+QIVADGPGTVLPTTAQSR
+>tr|A0A0N8HXJ9|A0A0N8HXJ9_9MICC
+MDFPVPSPNDRCPCLSGETYGNCCSRFHAGSAWAPTAEALMRSRYTAFVTGDKEYLLRTW
+HPSGRPARLDLDSEMRWRRLDILSTEAGGPLDSTGVVTFEARYRQDGDAGVQRERSTFVR
+EDGRWLYVAGE
+>tr|A0A0P7GHB9|A0A0P7GHB9_9MICC
+MSHGTDRREIPQRSSRWAAKAADLLAAAKLTPNQISVGSVLFAAAGAVALIWSGNASDAV
+VRAVLLAVAAACIPLRLLLNMLDGMLAVEKGMSSPVGDIYNELPDRISDVLFLGAAGIAT
+AGLATAGRVDLGITLGLLAAILAVLTAYIRCLGAALGTGNFFDGPLAKPHRMWLLMIGVL
+ASIAEPWLPWQEGWALFCTLALIALGSLITCARRLRRVSAALRARSKDLPA
+>tr|A0A0N8HXS7|A0A0N8HXS7_9MICC
+MPKIRVLVYGSEAAVNLLATYSDNAVRAGYVARQSLISAMNGASSVDLTALPSLTSAASR
+VLMDDARSSLTDELVVKSGQLDCVLWDLADERFGVYRLTDGTYLTASPHLAKTSVRGAQI
+TRHVRFGTREHLALWKTAADGLIALLGTLGLHSRTFTLKLPPAAHSQKAPGASQRLHGRA
+RAIAYAPYYRHLRRRGIAVLDAKPNIAMTKGARGEPAPSIGDQHYHDLAAQLAAALKNRS
+SEKPRHWNWDAQHQAPVLCWSDPDQLDVRIEGRTEHVIVPRPGTGEKYPIRFLVQNTGAD
+TLLVVSHGALARAKYEVPRFEFLSTLQSRGENLLFLSDGALEAYPELELAWFTGDAEDDL
+TARYSSTVRAVAEQLDAKKILFVGGSGGGFASVNLAASVEGSRTLAFNPQTDIRKYWAKS
+VLTYQRTLFPEMNSPEELSHLQERVSLVHRVSTSAPGTYQVIYVQNDDDAFHIEKHLKPF
+AKQLGMTPTTSVSANGNVQLIVEPFAVGHNMPYRSVLNPLIDYALHDWGEKLNPWNKQQY
+ERLDLSAQ
+>tr|A0A0P7GIS3|A0A0P7GIS3_9MICC
+MSTAASGTFGLNLPEYPWEAMAPYVQQASAHADGAVNLSIGTPVDPTPEFIQEALAGAAN
+APGYPTTHGTAELRQGIADWFSRRRSVPGLDPQDIMPTVGSKELVAWLPLLLGLGAGDVV
+VRPTVAYPTYDMGAVLAGATPVAADDLSELDDETRSRVRLVWVNSPGNPTGSVRGAESMA
+ALVDQARSLGAVVASDECYAELGWGEWDTARGGTPVPSVLDPRVSGGSNESLLAVYSLSK
+QSNLAGYRAAFVAGDGAIIANLVNSRKHAGMIVPAPVQAAMLAALSDDRHVAEQKDKYRA
+RREMLVPALEAFGLKISSSEAGLYLWATAGEDTWTTIQRFAALGIVVGPGVIYGDAGAGF
+VRVALTGSDERIAAAAQRLEAAAR
+>tr|A0A0P7GB30|A0A0P7GB30_9MICC
+MSMRATTAEIAPAAGSVEAIAKELSKGQALEKAEITKDLGLAAETAHGRMARALEGLATA
+VPVEQADSPPFADTGDVDAWMRDLRAAATAFETVKVGTSDQSVAQEAFVGAAQLLLTAVQ
+DYNRLSSSPAEDRNLLLGSVAERRDAAVRLWQAGAAQLDTLTIDSGGGHMHVFLAPDGDP
+DAVPMEFHDAE
+>tr|A0A0P7HWT8|A0A0P7HWT8_9MICC
+MRDLGISFGSKEVLRDVNLQVQPGQFVALVGPSGAGKSTLLRLINGSHRPTTGTVSVLGV
+NPGTCGRRSLQKLRTRVGFVFQQFGLVGRLSAMENVLMGTLGSLRMPRYGISTYPRQLRE
+KAVANLERVGLVDQRFQRCDTLSGGQQQRVAIARTLMQDAEIVLADEPVASLDPSASMSV
+LNTLKRLSAEDGFTVVCSLHQVDLALQVSDRVVAVRNGSLILDTRTSDTSEEALRAIYEK
+AKGARP
+>tr|A0A0P7HIR4|A0A0P7HIR4_9MICC
+MGNRGADAYRRRMERAARLRAAGTLENAEPEESAEEAELRRRKEQVDPADKAEYLIRDAM
+MRGEFDNLKYAGKPIPNLGEANDPDWWVKGLLQRENISGLGPPALLLRVEDEQLDALLDS
+KPSEALVRETVEDFNRRIIEARRQLLGGPPVITKLRDVDAEIQRWRNRRSDRTPEEPAPQ
+PPRPWWRRVWKRPQ
+>tr|A0A0P7HFT6|A0A0P7HFT6_9MICC
+MPAAAHPSPAPEAGSGDTAAGAGGFQVQLENFRGPFDVLLGLITKHELDITEIALATVTD
+EFIAYIRALTDSGQGWALDEASEFLVIAATLLDLKAARLLPAGDVEDDDDIALLEARDLL
+FARLLQYRAFKEVASLMGSRLEEEGLRFPRDTALEPHLAAMLPELIWRTSAEEFGRLARK
+ALEPKPGPPTEVGLGHLHAPRVSVREQAQIIGDRLRLASPLTFTELAQGATPLEIVGRFL
+ALLEMFRDGVLAFEQPVPLGELRVTWTGKPGGSADWSAGTLTEEYDDADEELHAAAEA
+>tr|A0A0P7HML0|A0A0P7HML0_9MICC
+MTGSSKSPSQNSSASPSGQGAGNSLSSLQSARSAIRALARAGVRDVVLAPGSRSAPLAYA
+LAEAQTQGLVQVHVRIDERVAGFTALGLARGGARPAAVVTTSGTAVGELVPAVMEAHHAG
+IALVVLSADRPAELHGTGANQTTVQDGIFGRFPAAQANIEAGLDPQGAIAEAFAKVGGPS
+PYGPVHINLQFRDPLIPTEADALGAAEAGPVEALAAAEEAAPGALADLGGVHRTVVVAGD
+GAGEIAAIFARRAGLPLLAEPSSNARFGPNSVTAYRLLLAELGPQIERVVVFGRPTLSRP
+VSALLARPDVAKALYVPRPVNWFTPGKRPEKVVTDLSGLLAFAGRGAPGWLKMWQRASAA
+AETAIHAVLDAESELSGLHVARLVWENSDANLVLGSSNTIRDVDLVAAGRWHPLDVYANR
+GLAGIDGTISTASGIALANGIPTRLLLGDLTFLHDAGGLLLGDGEAEPDLQLVVLNDAGG
+GIFTTLEHGELGEREEYRDVVERFFGTPHRADLRALAAGYGVRHQALDTAGELDTALRAP
+VRGRSILEVKVQRSALRALHRRIEEAVTGALPAAP
+>tr|A0A0P7FUP1|A0A0P7FUP1_9MICC
+MPPAPASAHPSGASEPIGLSHRGFSPDGLENTMASFEAAVDLGFGYLETDVRTTSDGVLM
+VFHDETLDRVTDSTGPLSAYSLRELAGVRVGGTEPIPTLEDVLVRWPDVRLNVDIKDAAG
+AAALAALIEKHQAHDRVLVTSFSDRRRLDCLRRLSSPAASSAGSFSTAALLLLSPLGLGR
+LIARLGRFQAVQVPVSFRGVPVVRPAFVRRCHSAGIEVHVWTINTRPLMEGLLDLGVDGL
+VSDRADLLASVLSARGAWPQGAGA
+>tr|A0A0P7GBH0|A0A0P7GBH0_9MICC
+MLAEALEHLVRGIVDSPEDVKVSAKNNRRGETLEVRVHQDDLGRVIGRQGRTARALRTVI
+SALAGSDQVRVDVVDTDRRR
+>tr|A0A0P7HEE9|A0A0P7HEE9_9MICC
+MHSSPFPLPPRQVEIGDAAQLTGATPDAIHRYRELGLLPELERAGDGHHRYGYDDMIRLL
+WIHKMVSAGIDEDDIRDIFADAAPAAVDNGRHTAVVQRMRTVEGRMGLLSEFVTGRLRGL
+PAGSLRQADLDNLLVIERIFGPLGAAVNAGRYIALATHPGLREESDRVEAAEDALDDTVA
+VDDPCVAQAAAERHAFELKLDAAINDSGQAQSDDELFDSWDAVHPAGAENEDDAGGGGER
+ISLLEAVGMMPYNYSPARLRCMELTGELAANASSAS
+>tr|A0A0P7GSX0|A0A0P7GSX0_9MICC
+MSIFAVEYVYDAESAAQRDEHRPAHREWLASLVEEGKVLASGPFTDGAGALLIFAAADEE
+ELNSLLKQDPLAVGGGISGLKTTEWKPVTGAFAHLAG
+>tr|A0A0P7GAR6|A0A0P7GAR6_9MICC
+MPLIDSSLDTAAERVSISWHLDASPDRVWWGLTDPEALPQWMGRLVSGQFETGSTVIIEH
+AEDYCCTSEILECEPERLIVMTWHFPEEPVSRLRFKLTVTGTGTQLVLTHEALGAETGNY
+LPGWHTHLLYLEAQLAGEPRPMAEFWATYETLAGTGPEP
+>tr|A0A0P7HWC2|A0A0P7HWC2_9MICC
+MSTETGPPDGQSTSSDSLKSSLRRVFDSQIPNYGDYNLVCATPLADSAGYYVLGYRWSPP
+ELIFAPFAADSMVSLEAPTAVNTTNLSHTDEVSPGSYEVGTSTGRIFRFGVEPSPELPPV
+SGGQRRVLVQHGDREDFRLFLETFLELA
+>tr|A0A0N8HY48|A0A0N8HY48_9MICC
+MGRVSRRARITRFRTDGTVSRRDDMLAGEEPLEIRFQGRSFTVTMRTPGDDFDLVAGFLV
+SEGVIWEAGQLISMRYCAGVDEEGQQTFNVVDVQLRPGTALPDTGMERHVYTSSSCGICG
+TASIEAVRKSSHFDVADDGVRVPLQVLAALPDRLRESQALFDKTGGVHAAGLFTADGELL
+CLREDVGRHNAVDKVVGWALRSGLLPLRGTVLQVSGRASFELVQKAQLAGIPVLAAVSAP
+SSLSVELAHDAGMTLVGFSRGNSLNCYCYPERIEAHATVGVQ
+>tr|A0A0P7FYM3|A0A0P7FYM3_9MICC
+MSNENLSRDEAAARSALLRVDSYDVELDLGNAADPAAAGFRSRSTITFDCSEEGASTFLD
+FIHGGIDAVVVNGRAYDPVETVDGSRVLLRNLQVGTNKVSVEGTALYSRSGEGLHRFTDP
+ADGRTYLYTQYEPADSRRVFANFEQPDLKASFTFHVIARSDWEVVSNGVEAARTPLGDGS
+LSRWDFSATQRISTYITCILAGPYFKAQDMWSTTLPDGTDLMVPLGAYCRASLAEHFDAE
+NIFDTTKRGLDYFHGLFAYPYPFGKYDQAFVPEYNLGAMENPGLVTFTEAYVFRTKATEA
+QYEARANTIMHEMAHMWFGDLVTMQWWDDLWLKESFADYMGALAVDEATDWTNSWVSFAN
+RRKAWAYVQDQLPTTHPIVADIPNLEAAKQNFDGITYAKGASVLKQLVAYVGFEAFIEAS
+RTYFSRHAWGNTTLADLLDVLGDASGRDMSEWSRMWLQTAGVPVLAVEAETAPDGTYTSV
+AVRQDAPDPASGEQMPRPHRIRLGSYDFAADGWLERTGTVEIDVAGRRTEVPELVGAQRP
+ALLIPNDGDLTYAKIRFDPESLATLLESMERLRDPLSRAISLSALWNSVRDGVLSARDYV
+RLVIRTAPSESGAGVKQVLLDNARAAVERYAPAEIRSELREQLFTAVAQQLADAPAGSDS
+QLILARTAAALARYSTSHNALLRGLLSGEVSYPGLGVDTDLRWRLWQGLAGTGSAGPEEL
+KTELASDNTAAGRVGYTVAAAALPDPEVKAAAWTAAVHTEDLSNELLSATIEGFSIGGHE
+LLDPFIPDYFASLTDVWASRSIELASRVVAGLYPSAQDLPLHTVPADHPVLLLGQEWLET
+NPRAPGALRRIIIEAQDQLLRALRAQAAAR
+>tr|A0A0P7FXC1|A0A0P7FXC1_9MICC
+MKKLIKPRPDADAAAPAARNAGPGRLIVAVYGVFALAATARAAFQIATKFEEAPLAYLLS
+AFAAVVYIVATVSLAKSGETSYKVSVAAVSIEMAGVVAVGLFGLLDAAALPDDTVWSGFG
+MGYGFVPLVLPIVGLLWLYKHRNRQHA
+>tr|A0A0P7GU65|A0A0P7GU65_9MICC
+MAGRRGSFGPAGRPYLRALAAAAAAGSAAGVYLRLVRLLRQLDNGPVHRLPGDAVLTGPA
+LQVTRSVLIPAPAADVWSFLNRIGHGRAGWYVFDRVGLPDQQQADRAAPQLRELDIGDLL
+TTATGHRLRIKEVQPSEWMLWAGGDGRSTWLWLLQPVRHNQTRLVVRARFQYGLRHPGAL
+AAVPLDAVDLASVRRAMVAVRDRAVIRSATRLGKR
+>tr|A0A0P7FP40|A0A0P7FP40_9MICC
+MPQDTYSHGHHRSVVNAHATRSASDSAAYLLPRLQPGHRILDVGCGPGSITVDLAAVAAP
+GRVTGLDRSEDVLVQARALAAERGTENVEFLPGNVYDLDFPDDTFDVVHAHQVLQHLTDP
+VAALHEMRRVTRPGGLVAVRDADYHGMSWYPELPELDEWMDTYQRIARGNRAEPNAGRRL
+VSWALEAGFTGLEPSSSNWLYATEDRRRWHAGAWSQRVLQSAYAEQAVERGLASRADLAR
+IAETWLRWGEAADGWFLIPNGELLARA
+>tr|A0A0P7GC90|A0A0P7GC90_9MICC
+MALTAAVKEELSRLSVKKSSVRKAEVSAMLRFAGGLHIISGRIVIEAEVDLASTARRLRA
+AIAEVYGHSSDIVVVSGTGLRRGNRYIVRVVKDGESLARQTGLLDARGRPVRGLPSVVVN
+GSAADAEAVWRGAFLVHGSLTEPGRSSSLEVTCPGPEAALALVGAARRIGIQAKAREVRG
+VDRVVIRDGDTIAALLTRMGAHDALMVWEERRMRKEVRATANRLANFDDANLRRSAQAAV
+AAGARVERALEILGEDVPEHLRYAGELRVAHKQASLDELGRLADPPMTKDAIAGRIRRLL
+AMADKRAVELGIPGTEANVTPEMLDQ
+>tr|A0A0P7GL46|A0A0P7GL46_9MICC
+MRRDVPQAESAEGKPRTEPALKPVPAKSFSGRLLALGIVMVVITVLLAPSVRTFLQQRSE
+IAALEAEIAEEQKTGQELEQTLDRWEDPAYIKAQARERIFLVMPGETRYLVKGENGVNDV
+EEEAAADGPADLEWVDALWDSVVRSATAP
+>tr|A0A0P7GHK0|A0A0P7GHK0_9MICC
+MVDQYVIHELQGSNVWAKDGERLGLVGNVHLDRATGQPAWVTVALGLFEGRQYFVPLTGS
+RRDDDDLYVNYSRKAIEDSPDMDHGGALTPDEEAQLEDYYKAW
+>tr|A0A0P7FZV2|A0A0P7FZV2_9MICC
+MPIDSDAPLPSYVSGSLPGVETVMNHRIRVDGSRWQKALADRGLPALEGALADPGLTFVS
+RSDVFELGAREIAPENAFQLLYYSLAWGLGRKARNLPKRLDGLAEDPERTAELLVDAWTA
+VRSREPAEDIYSILATPKGKARIPQFGPAFSTKFLYFAQGPTVPPRYVILDKVVATNLHE
+VWPGAPKAGWYPDTYERYCAFMSRWADLATDELHGERTVRADEIEYAVFHRR
+>tr|A0A0P7HE93|A0A0P7HE93_9MICC
+MESCYPVRSFAAASIAAAGSAVAELASRLSGAPVQAEADPDLARAWFGGSFRPAGWEIPP
+PWDPLSRDYPCTDGWIRLHTNAPHHRRAALAVLGLPADTGPETAAVAVRAWKGGELEEAV
+VDAGGCAAQLRTAEQWQLHPQGQAVRAEPLIGWSRRAARLPAETSGTPERPLDGVRVLDL
+TRVIAGPVATRFLAGFGARVLRIDPPGWQEPALEAEMTVGKSCTRLDLRTPDGTAKVREL
+VSTADLVVHGYRPGALAGLGLDEHRLQQLRPGVVTVALNAWGWTGPWRGRRGFDSLVQTA
+SGIADAGMAWAAADAPLPLPVQALDHATGYLAAAAAVRAWTRRLDGEVNAARLSLARTAV
+ELQRAADARGPVPPRWESPPDPAPPSLPRTAEQTWWGPGERLVPPLGFRSDGPVPSMVWD
+RPAAPLGSAPAAW
+>tr|A0A0P7HIA7|A0A0P7HIA7_9MICC
+MDPATIIGLVLAFGALFAMITLEGAHLTSILLPAPMILVFGATLAVGLAGGTLKDFIFSF
+KSLPRAFMGKKPKPQETIDNVVALAEKARSEGLLSLERDAAEVDDPFLRVALQNIADGTD
+GEELRILLEDEINTKASSDKVAVKFFNSLGGYAPTIGIIGTVVSLTHVLENLSTPATLGP
+MIATAFVATLWGLLSANFIWLPISARLKRLSDLEVEQMTLLMEGVLALQAGSQPRLLGER
+LRAMVPAHELNAPARETSEAA
+>tr|A0A0P7HV70|A0A0P7HV70_9MICC
+MSATAARPQALRLRVGKTEVGLRSSGTPGPSVVLVHGIGASPRYFEPLVRELSRDHSVHC
+VELPGHAGLPKPEEPLSMAGYGAAVAQSLRQAGISEAVLVGHSMGCQVVVEAALADPDLA
+RSLLLLAPTVNRAERTIAEQALRLGQDTLREHPAVNWTVFSDYLRTGPRWYLGTLRRMME
+HRLEERLALAACPAAVVSGSRDPIVPRSWLLRLEQAGSGVQLGEVPAAPHVLMWTHPAQT
+AQWVRKLGKAVP
+>tr|A0A0P7G467|A0A0P7G467_9MICC
+MNKKDRIARDFEANVTAGVETARDWATPKVEAAVGWAVPRIEKGIETASPKIQDGLKRAA
+DEIAQGVAVVTPRLQDGLQKVGPRISQVVDDAAPKIQTTLDKASPALTHAKDKVVDSYIP
+TLSTRIGDAADSVTRSLGTAAVPVQTAVAKATGNKKALKQAQKAAAKAAKEARKQNKSGG
+KGWLIFGIIASAVVAGVAAWRASRPVEDPWKTPAPAQPSVPVPAPAPAAEAKPAAPAAKA
+ADTPADKAKDTAATAAEKAKDAAQTVKEAAASNTQKAGTKAADAANNAKDAAAAKSGGAH
+ADTSAKADKPQK
+>tr|A0A0P7GW92|A0A0P7GW92_9MICC
+MQDHDDDATEGDSRQRPRSPLAVRMRPRSLDEVVGQQHLLAPGSPLRTLAEAPQGGPAGP
+SSVMLWGPPGTGKTTLAHVVARGPGRKFVELSAITSGVKDVRRVMDEALTARDLHGVTTV
+LFLDEIHRFNKAQQDALLPGVENRWVVLIAATTENPSFSVVSPLLSRSLLLTLKPLTEED
+IAALLVRAVQDERGLAGRVELSDEALEHLVRLAAGDARRGLTALEAAAGVAYSERDPDVE
+VPVVLLTHAEQALDVAALRYDRAGDQHYDVTSAFIKSLRGSDVDAALHYLAKMLEAGEDP
+RFISRRLMISAAEDVGMADPTALQTAVAAAQAVQMIGMPEGRLILAEAVVHIATAPKSNA
+AYKAIGAATADVRAGYGKGIPAHLRDAHYPGAKQLGHGKGYVYSHDEPHGVAKQQYPPDD
+LVGKDYYKPTANGAERDIAARLERLRGIIRGQ
+>tr|A0A0P7GJ82|A0A0P7GJ82_9MICC
+MPDQPNHRLPEEFGGNEWLVDELYEQYLKDKNSVDKKWWSIFDSFKAEDAKQASGNSASG
+NGSTPPSELGANPATRQLPVVNTEAQAPKASAESPAATQQSGKPPVAKEASSPKDEPKSA
+AAAAKPETKSAPIPAQLPKTKPNTETEEDTVTVLRGPAKAIATNMDLSLSVPTATTVRAV
+PAKLLIDNRIVINSHLERARGGKVSFTHLLGYAIIRAAAQFPSQNVYYDEVDGKPVAVQP
+AHINFGLAIDMPKPDGTRLLVVPNIKKAETLNFSEFWHAYEDLVKRTRAGKLTADDYKGT
+TISLTNPGGIGTVHSVPRLSKGQACIIGAGALEYPAEFQGANEKILARNAISKIITLTST
+YDHRVIQGAGSGEFLRIIHQLLLGEQNFYDDIFESLRIPYEPVRWSPDIQVNPDEQINKV
+ARIQQLIHAYRVRGHLMADTNPLEYVQRRHADLDVLNHGLTLWDLDREWPTGGFGGKPML
+KLRKILGVLRDAYCRTAGIEYMHIQDPEERSWFQDRLEAPYSKPSREEQLRILSKLNAAE
+AFETFLQTKFVGQKRFSLEGGESLIPLLDAIISGAADEGMEEVGIGMAHRGRLNVLTNIA
+GKTYAQVFREFEGTQDPRSVQGSGDVKYHLGTEGTFTSDNGNQTKVYLAANPSHLEAGDS
+VLEGIVRAKQDRLDRGDEFPVLPILIHGDAAFAGQGVVAETLNLSQLRGYRTGGTIHVIV
+NNQVGFTTAPTSSRSSVYATDVAKMVQAPIFHVNGDDPEQVVRMAQLAFDYRQRFNKDVV
+IDMVCYRRRGHNEGDDPSMTQPMMYSLIEAKRSVRKLYTESLIGRGDISQEEAEQALRDY
+QSRLERVFAETHAAQTSPIPVITKDSEAVSDLERPAAQQEGSTVVAPASTAISADTLGRI
+GKAHVTIPEGFTVHPKLKSLLEKREQMSREGNIDWGFAEIAAFGSLLMEGVPVRLAGQDS
+RRGTFTQRHAVFHDRATGAEWTPLGDLDPNQAKLWIYDSLLSEFAALGFEYGYSVERPDA
+LVLWEAQFGDFVNGAQTIIDEFISSAEQKWGQRSSLVMMLPHGYEGQGPDHSSARIERFL
+QLCAEDNMIVANPTTGASHFHLLRRQAYSRPRKPLVVFTPKQLLRLKAAATSVEDFTQGS
+FQPVIGEHAELDGSAVDKVLLVSGRLYYDLLANRQKSGDEKTAIIRVEQLYPLPYKEIQE
+AVAKYPNAELIWAQDEPANQGPWPFIGLNLPPELDRPLRLVSRPASASTATGSAKRHAVE
+QDILVKKAFERR
+>tr|A0A0P7HF66|A0A0P7HF66_9MICC
+MQDLGVISPSLEEFRELAADRRVVPVRLKVLADAHTPIGIYRKLTGGEPGTFLMESAASG
+GVWSRYSFIGARSRATLTTRDGEAFWLGEPPAGVPVDGNPVEAMAATLALLATDRFEGLP
+PFTSGLVGFVGWESVRHWEKLTSPPVDDLDLPEIAMNLVSDMAIHDNSDGTVLLVANAIN
+FDGSDERVDDAWLDAVGRLHSMLDRLAAQSPQAVTVLEGGTVDVSALTAGVKESWPKPEY
+LRAVERGKEAIVDGEVFQVVISRRFEMDCRAEALDVYRVLRTTNPSPYMYLFNFEDARGN
+PFAVVGSSPEALVTVTGREVITHPIAGSRPRGKTQELDRALAEELLADEKERAEHLMLVD
+LARNDLSKVCRPGSVDVTQFMEVERFSHIMHLVSTVVGELSPQHSSYDVLSATFPAGTLS
+GAPKPRALRLLDELEPHRRGIYGGVVGYLDFAGDMDMAIAIRSALLRDGKAYVQAGGGIV
+ADSDLEAEALETVNKAAAPLRAALIAGGLEPVTESVARQIFNSQEENK
+>tr|A0A0P7FXV6|A0A0P7FXV6_9MICC
+MVNPFQLHAPGLTNDPNWYRKAVFYEVLVRGFRDSNGDGNGDFTGLISQLDYLQWLGVDC
+LWLPPFFKSPLRDGGYDISDYYDVLSEFGTISDFKRLVAEAHARGLRVIIDLPLNHTSDK
+HPWFEESRNDPDGPYGDFYVWSDTDQKYEDARIIFVDTEESNWAFDPVRRQFYWHRFFSH
+QPDLNFENPKVVEAVFDVVRFWLDQGIDGFRADAIPYLFEEDGTNCENLPATHRFLKDLR
+TMVDENYPGRVIVAEANQMPHEVVEYFGDETGPECHMCFHFPIMPRLFYALRDQKAAPII
+QTMEETPDIPAGSQWGTFLRNHDELTLEMVTNEERQAMLGWYAPDSRMRANIGIRRRLAP
+LLDNSRSEIELIHALLLSLPGSPFLYYGDEIGMGDNIWLEDRDSSRTPMQWNPDRNAGFS
+TADPGKVYLPVVQSLVYHYNHVNVEAQLASSSSLLHWMRQMIMVRRTHPAFGLGSYRNVP
+TDSEAVLAFLRELPEDNPEGEVGETMFCIFNLSQHPVAATVNLPEFASRGLRDAFGGTPF
+PTFSEDGSLTLTLGSHDFYWLRLRSARSNPSSPQTEAIPLILASEATSK
+>tr|A0A0P7GA71|A0A0P7GA71_9MICC
+MSSVITAQGEKRLVLATGRAHPELAEEIAKCLDTDLLPLAAYDFANGEIYVRPGESVRGK
+DAFVIQAHPAPLNNWLMEQLIMIDALKRASAQRITVVSPFYPYARQDKKGRGREPISARL
+VADLYKTAGADRIMSVDLHTSQIQGFFDGPVDHLMAIPLLADYIRTRVDVSNVTVVSPDT
+GRVRVAEQWAERLGGAPLAFVHKSRDLTVPNQAVSKQVVGQIEGRTCVLIDDMIDTGGTI
+AGAVRVLKEAGAKDVIIAATHAVFSDPAARTLAESGAREVVVTNTLPIPANKRFEQLTVL
+SIAPLIARAIREVFEDGSVTSLFDGKA
+>tr|A0A0P7HF39|A0A0P7HF39_9MICC
+MTISLRRADFLDPRLSVFLQAHLDELRPTAPAESRHALDLDALRHSSVRLWVAWDGESIA
+ATGALVVLEPGHEELKSMRTAPAARGRGVGRLMLEHLLEDAAARSVQRISLETGSVDFFA
+PARRLYESAGFVACPPFGRYNEDPNSVYLSLALPVPSGPA
+>tr|A0A0P7HKI4|A0A0P7HKI4_9MICC
+MEVLFLHGAGGWADDQPIAGELRSRLRVPVVMPRFSEDEMTAGAWLAGIDEAMEPLGTET
+VIVGHSFGSSMALLRLAAAPPEPLPRGMVLLATPFWGSEGWQGEYALPAGFTLPPGLPVF
+LHHCLDDDTVPFDHLARFQALLPGAVIRRHETGGHQFQERMNAVAGDVAALGS
+>tr|A0A0P7HW77|A0A0P7HW77_9MICC
+MPRSNRPRRQLPASSTAAGRNARRKWAAPVPDIDLERARAGLPQRESASDGEWSVRRITA
+RNAAKDYRCPGCGQIIPPGIEHLVVWQEDSLFGRQSAVEDRRHWHARCWRTRPGSAPRR
+>tr|A0A0P7HHJ0|A0A0P7HHJ0_9MICC
+MKYMMIMRTTDSAVEASKDMPFEEIINAMGAYNESMINAGVLLAGEGLAEATEDANFLVD
+FAQDPPLITDGPYGETHELFNGFWIIQASSKEEAVEWASRCPLGPGAKLEVRRVTDASDF
+EDFADNEYIQKEEGWREQEEKLRAENP
+>tr|A0A0P7GSV9|A0A0P7GSV9_9MICC
+MNRTAPLVLGIESSCDETGVGIVRGDTLLTNAVSSSMEEHVRFGGVIPEIASRAHLDAFV
+PTLRQALDEAGVTLDEVDAIAVTSGPGLAGALMVGVCAAKALAVATGKPLYAINHLVAHV
+GVGVLDGGELPENLGALLVSGGHTEILRVGSLTSDVQLLGSTIDDAAGEAYDKVARILGL
+GYPGGPAIDKLARQGNPKAIRFPRGLTQPKYMGTAEAPGPHRYDWSFSGLKTAVARCVEQ
+YEAAGQELPVADIAASFQDAVVDVITSKAVLACTEQGITNLLLGGGVAANSRLRELTAER
+CAAAGISLRVPPIRLCTDNGAMVAALGAQIVMAGGQPSGVDFTPDPSQPVTSIHLPAA
+>tr|A0A0P7HHG6|A0A0P7HHG6_9MICC
+MSQNTPAPLGKVLIANRGEIAVRIIRAARDEGIGTVAVYADPDRDALHVRLADEAFALGG
+STAADSYLDMDKVLAAATRAGADAIHPGYGFLSENAEFARKVIDAGLTWIGPSPEAIEQL
+GDKVQARHLAAKVGAPLVPGTPDPVTSADEVLAFAQEHGLPVAIKAAFGGGGRGIKVART
+LEEIPELYDSAVREATAAFGRGECFIERFLDAPRHVETQCLADAHGNVVVVSTRDCSLQR
+RNQKLVEEAPAPFLTEEQTRSLYESSKALLREAGYQGAGTCEFLVGTDGTISFLEVNTRL
+QVEHPVSEEVTGLDLVREQFRIARGEELGYTDPEIRGHSIEFRINGEDAGRGFMPSPGTV
+ETLRLPTGPGVRVDSGIEAGETVGGNFDSMLAKLIITGATREQALQRARRALQEMEITGL
+PTVLPFHAAVVSDPAFAPEQGPFSIHTRWIETEFNNTIAPFSGEPANGNDDDASRQRLTV
+EVGGKRLEITLPAGLAQLSGRGSASSNGKQRKGRSRSATAAATGNDLTSPMQGTIVKVAV
+EDGAQVAEGDLVVVLEAMKMEQPLTAHKAGTVSGLTAAPGATVSAGAVIATILD
+>tr|A0A0P7FU43|A0A0P7FU43_9MICC
+MEPLLLSFPFTGRWTVQNSPANRVPSHGTHLFGTAYAIDFVAVDGHGRSAPPSFRSFFGT
+EPPEAFTGFGSPVLAPAAGTVAAVHDGEPDHEARRSPLSLAGYALTQRERVRRGPAGIAG
+NHVVLAVGTGRDLSYVLLAHLRRGSIAVSVGDSVSAGTPVGACGNSGNSTEPHVHVQVAD
+SMDWERAAGLPLVFAHPATGQPWLPRNADVFEVS
+>tr|A0A0P7GL51|A0A0P7GL51_9MICC
+MGSLRLCSRSACRQAAVATLTYVYADSTAVLGPLATYAEPHCYDLCELHAQRLTAPRGWE
+VLRLDLGTLPRSPGPDELSALVDAVREAEEQAPAEEPARRSGKHALEPPADLAGSRRSHL
+RVLREEVSEPS
+>tr|A0A0P7H3E5|A0A0P7H3E5_9MICC
+MEFVVIALFVAAIVLVNFLVGRAQKKRAARPEAAKAKAAGTGNPKGTGRAPAGTSLEAAR
+EAVARLDEKGHQQVYAAIAQGQPIRAIQLYAQSTGCGLRAASAAVASMASHPIPFTRPES
+RQPQQPSGVDPAPSEGAAPLEPEAAETEALKPETAPEVRDSAERDTPAKDTARSAAGSPG
+AEGAGSGKDKPRGTAKDKEPAAPDDAEISKWAQNLRPEDF
+>tr|A0A0P7H3R0|A0A0P7H3R0_9MICC
+MWWTVTAPNWLATSLTILDFAIRIIALGVVPGNRRPTTAMAWLLAIFFLPVPGIILFTLF
+GNHRLSEQRVERQTMINRRVRENTRELEAESSSYSGPDWVLSAVELNRRLGSLPSLDGNK
+VELQRDYEESIRQMTDAVRGAAKYVHVEFYIMSYDAVTREFFTALKDAAERGVTVRLLFD
+HIGTLRVKGYRQLLKELKTSRIQWHPMLPIQPLRGHWRRPDLRNHRKILVVDGVIGFTGS
+QNLVEPGYRKPHNHRMGRKWVELMSRLEGPVVDEINVVFATDWNMETDENLEQELSLYEW
+TSKPGDITCQVVPSGPGFTTENNLRLFTSLLYSASERISITSPYFVPDDSLLYAITTAAQ
+RGVQVELFVSERGDQFLVDHAQRSYYEALLDAGIRIWQYPAPLVLHAKHFTVDNDVAVLG
+SSNMDMRSFSLNLEVSMMMFGGNIVEKTRQIEDTYRSLSKELILEEWRNRPVWQRYVDNV
+ARLTATLQ
+>tr|A0A0P7FB39|A0A0P7FB39_9MICC
+MNFLKTPSASAAALTLSALLLSACSSPSGSTPAGSPSSEPAASPSIQEQSAAAPRLVLTH
+DGGLTVFDAESLEPISEIPLEGFLRLSSAGDGRHLAVSANEGFHLLDTGSWSEAHGDHAH
+HYTSEPSLTEAVVKAAKPGHVVSAAGQTAFFDDSTGTVSFVGTDSLGDGHLETDEVQLPE
+AHHGIAVPLDGGGLLASVGSVEGRTGAAVLDAGGTELLRSDECPGLHGEAAAAGSLAFGC
+EDGMLVYRDGSFHKVPSPDSYGRMGNQAGSPESTVVLADYKTHRDADLERPERVALVDTA
+SDRVQLVELGTSYTFRSLGRGPAGEALVLGTDGALHVIDAGTGVVASSISVIDPWEEPAD
+WQQPRPALQVLGSTAYVTDPAGSRLLAVDLATGSVARSVQLQHTPNEIRAAL
+>tr|A0A0P7HNQ3|A0A0P7HNQ3_9MICC
+MRRLPFRVAGILTAAALALSACSASEDGGDSGDGTIRVVASTNVYGNILETVGGEYVSVE
+SIINRPSQDPHSYEATARDKLAVSEASVVVLNGGGYDAFMETLVKEESVASENVLNAVQI
+SGLEEESHADEDHAEEETGGDHAGHSHGAFNEHVWYDPEAMGLLAEAAAERLAELDPENE
+QVFRDNAADFSAGIQELEQRLEGLRDQASGRDVAMTEPVPAYLLEDAGLHNVTPDDFTES
+VEEGQDVPPAVLKTMQDLMASGSIAFLAYNEQTSTAQTEAVRRTAEDAGVPVVDFSETLP
+ENEDYLAWMNRNVTAVQDVLK
+>tr|A0A0P7GCZ5|A0A0P7GCZ5_9MICC
+MPGPEAARRALGSAAERARPRVLNIGQVLADLSAEFPGISASKIRFLEEKGLVSPQRTPA
+GYRKYTSQDVERLRFVLALQRDQYLPLKVIKDYLDAVDRGERPESLPGGITLAPRAVSEQ
+LAEELAARTRARLLSFSELVAESGASVELVRSLISFGLITAPDQQYDEHALKVAKACRQL
+EAHGIEPRHLRPFRAAADREIGLVERVVAPVASRRDVASQARAAETAREISDLCLSLHSA
+LVHGQIARMES
+>tr|A0A0P7H571|A0A0P7H571_9MICC
+MSSPLRTPDSPQLGRLPLARGAIDRGSERRTAGDLFEQISALETTRVMYFSRGKALIREE
+KLVLEPAGPEGFGDEPVYLGRTLEDGQVPAGADIVMVTLAEPDPEMESSGARWAGLRDVA
+VTLGSLDAGLFVEACAVANWHATHTHCPRCGAPTRMEQGGWVRRCSEDGSQHFPRTDPAI
+IVAITDPQDRILLGRAAAWPGNRYSTLAGFVEPGESLEAAVIREVAEESAVVVRNPQYLG
+SQPWPFPCSLMLGFCAEADGTEPRADGVEMADVRWFTRRELTDAVASGELSIPSSISIAR
+NLIDRWYGGPVPEPEGSK
+>tr|A0A0P7GC83|A0A0P7GC83_9MICC
+MSIYIYPRLPRDVAHRIIAELADKGLTELVGYGALSHPSAAPAAVGGIPVPQQELQRIQV
+GLREIASGFGFPSKLDQRSQQNLDRTLGTYLYKELGIVPGDAAVEGVWSFLTLVLVPELS
+PWRFPQRAESRLIGVPRNALRRLWWRAWALGPDLNAAPGGCSPLGEDEFVQIMERSGLSG
+SRKAARAARDAVWRAEANGLLPILRTELMRGLIPRVLAARSHVVLDILSDDELAALLDGY
+VRQILERAQP
+>tr|A0A0P7HPU8|A0A0P7HPU8_9MICC
+MNSTTTALILENVTLEYPDGQNNTVRALDNVGLSAVRGTVTGLAGPSGSGKSSLLAVAAT
+LIPPTSGTVLVNGADVGGLDDAERARLRREEIGIVFQQPNLLPALTAVEQLVAVAHLRGE
+GTGPAAERAGELLNLVGLGGQVNQRPHQLSGGQRQRVNIARALMGNPSLLLVDEPTAALD
+HERSASIMKLLRDVTEEFNVATILVTHDVEFLPLADVVVRMRDGVLTLPAAVDQP
+>tr|A0A0P7FP87|A0A0P7FP87_9MICC
+MTAQHNVPSDTGSQSGAAADGSFVVMPEVVIAILSEVQSMAIEFNDLLGSAETNIAGLAE
+ASKAPPISTELSTFHTDVLARIIRTAGGRTMIAVDAVADAVSALVQGDGQMSANAREASA
+LAAQERVDDAPGSADRQSLRNGHPNAF
+>tr|A0A0P7GUR0|A0A0P7GUR0_9MICC
+MEILKIILLVLLGISSLLLTLLILLHKGRGGGMSDMFGGGMSTSMGSSGVAEKNLNRFTV
+ILGVSWGLIIVALGLIQRFSGES
+>tr|A0A0P7H5S8|A0A0P7H5S8_9MICC
+MLPSAEPVQLIDADGTHRHSEKYPLPDGDALKAAFEGLVSGRRINDQANALVRQGRLAVY
+PSSHGQEACQIAAAAVLADGDWLFPTYRDTVAVVHRGVDPLQVLTLLKGDWHAGYDPYEH
+NVAPQATPLATQLLHAVGVAHAAKLRGENTVVMAMCGDGATSEGDFHEALNFAAVFHVPV
+VFFVQNNEYAISVPLKNQSVAPSLAHKAIGYGMPGERVDGNDAAALLAVLGAAVERAREG
+GGPALVEAHTYRMQAHTNADDATRYRSEEDVAQWVPRDPLARLRTYLTGLGVLDDAAEEE
+MAASAETIASRIRDGLNTDTVPEPMDLFNFVYDSRTPQLAEQAALLQDELSRAQD
+>tr|A0A0P7HDA0|A0A0P7HDA0_9MICC
+MSALIAPEGLPRPAVSANDAVQLAAEFYGLEVSGIKELGSQQDRNFLVTDEDGTRRLLKI
+SNPVFSRTEIEAQNAAMERLTAAGFATPLPLRSAGGELVETTDLDGRIHCLRLLTFVEGT
+PVIDRPYLGGALRTALGDWLGRTSAAFADFEHPGLERALQWDLRNGEDVVAALVPFVRKD
+WKRALLLQTLERISAVLEALKDQLPVQAVHGDMTDDNVVCTPGTGGGVELAGIIDFSDAM
+YSWRVAELAVGCSALFHHDPANPLTVLPMIQAFHAQAPLSDAEVRALWPLIVLRGAVLAV
+SGEHQVTVDAGNDYASDALDREWTMFEVPARCDWNAAEASIRAALGMPVQAGQDMAAWLP
+LVPALAAPVRVDFGWDSEDFHNGSWLAGEAEEQRILAAAIGSDSAAGVAGAVLTRFGEAR
+LTRAAANSAEEPANTALAVELRATEPTAVHAPFAGTLSADGNGTVRLDGGDAAVVLSGLQ
+PDAGAGPVDAGARLGLADRLTVWVQLSGAYPASGTPPRFVKASEFPGYAAGFADPAPLFG
+LPAADAADETLLRRRTCAYDALQTHYYDAPPRIERGWKEHLISTTGRHYLDMVNNVTALG
+HGHPEVAETAARQWRRLNTNSRFHYASVAELSERLLAKVPDSFETVLLVNSGSEAVELAL
+RLAKAFTGREDVLCVHESYHGWSLGADAVSTSVSDNPRALETRPGWVHVADAPNAYRGRH
+RGEGAGAAYAADVARQLQQLHDAGTPVGTFIAEPRNGNAGAVGTPTGYLEQVYAAVRAHG
+GVNICDEVQMGYGRLGRHFWGFEEHGVVPDIVTMAKAMGNGHPLGAVITRKAIAAALAPE
+GSFFSSSGGSTLSSRIGVTVLDVIEKEQLQQNADAVGQVLSEGFRELMDRHPLIGAVHGM
+GLYQGVEFVRDRETLEPATEETRAICDRMLELGVIVLPTGDRQNILKVKPPLCFTAESAR
+FFLATLDRVLSEGW
+>tr|A0A0P7FI28|A0A0P7FI28_9MICC
+MGETAVTIPAELLPKDGRFGAGPSKVRPEQIQALSDAGTRLLGTSHRQAPVRNLVGSVRE
+GLSSLFSAPEGYEVVLGVGGSTAFWDIASFGLVENKAQHLSFGEFGSKFAAATNKAPFLA
+SSSIIKAEPGTRPEAAAEAGVDVYAWPQNETSTGVAAPVRRVAGADAGSLVLIDATSAAG
+GLDVDLAEADVYYFAPQKNFASDGGLWLGMFSPAAIERAARINASDRWIPDFLNLQTAID
+NSRLNQTYNTPSLSTLVTLDAQIKWLNSNGGLKFAAGRTADSAGRIYSWAEKSGVATPFV
+SRPEDRSNVIATIDFDDSIDAAAIAKTLRANGVVDVEPYRKLGRNQLRIATFVAIEPDDV
+SALLQCIDYVIEHS
+>tr|A0A0P7GS98|A0A0P7GS98_9MICC
+MTEPITNPAALSSFDVRVLPKVSLHDHLDGGLRPSTIVELAETVGHTLPSTDPVALGEWF
+RESANSGSLVRYLETFDHTIAVMQTREGLSRVAREFVEDLVEDGVVYAEIRWAPEQHLAG
+GLTLDEAVEAVQAGLEAGVADAEANGRLIQVGQLITAMRHGDRGMEIAELAVRHRDRGAV
+GFDIAGAEDGFPPSRFKDAFTYLAEQMFPVTVHAGEAAGVESISDALVHGRALRLGHGVR
+IAEDIEVDFEDEEAPDAGEDTSVGMVTLGDVAAWVRDRGIALEICPSSNLQTGAVESFGG
+DIESHPIDLLFQTGFVVTVNTDNRLMSGVSLTDELELLVETFGYDLDDLLELTLNAANAA
+FLPLEERAVLAEYITDGFNNARG
+>tr|A0A0P7H4I1|A0A0P7H4I1_9MICC
+MATSEVGAAKAEPSLLKVLGNWDVLALGFGAMIGFGWVVLTGDWISSAGTMGAVLAMAAG
+GLIMAVVGLTYAELVASMPKAGGEHNYLLRGMGPRWSFIGSWAITGGYISIVAFEAVALP
+RTATYLFPNLNAVPLWEIAGDQVHLTWALVGVIAAVVITGINILGVKQAGIAQTFVVLLL
+LVIGLMLVFGSFTGGSAVNMEPFFSGGLGGFFAVLVVVPFMFVGFDVIPQSAEEAKIPPR
+QIGRLVVIAVVLATVWYVGAILTTSSAMPASELAGADIATADAMGALFNSDTMAKVLIAG
+GIAGILTSWNSLLLGASRLMYSMARSGMLPEWFGRLHPKYRTPANALLFIGGLSVLAPFF
+GQNMLGWLVDSGSPSIVIAYAMVSLVFVLLRRREPGMDRPLRIGGRGNGGQVIGIAALIL
+CLGLLSLYLPGMPAALGLAPWVMFGLWWILGMVFLFRIPAGIRPGIGAEENLLERLAARK
+GR
+>tr|A0A0P7FHK6|A0A0P7FHK6_9MICC
+MRIVIPVLLIVVWFGLGGVGGPYFGKISEVQQNDQASYLPASSASTKVSELQSEFTDSES
+IPAVVLYVNDAGLTDADRTFIQDREKAFADAPGVSGGVSPAQFSEDGKAAEIFVPVTDDD
+AAADNVENLSTVAKDGLPDGLSAYVTGPAGQLADISQAFGGIDGALLIVAVIAVLVILVI
+VYRSPLLPILVLLTSILALSAAILAVYWLAKAGAVTLNGQVQGILFILGIGAATDYSLLY
+VSRYREALRDHADRWGATRAALRGTLEPVTASAGTVVAGLLCLLLSDLNSNKALAPVASL
+GIVCSYLAAMTLLPSLLFVFGRAAFWPRRPAFGSPHPDRDHQARGFWPAVARTVRNHSRR
+TWLICAVVLAAAAVAVVDFRASGVPQSDFVLGQTEAKEGQAALGEHFPSGSGSPVLIVAP
+ETELQSVADTVLGTSGFSDVTVVAQGTPAGSLPVTDAGVQVPPIPGSENASPKTVDGQVL
+LQATLTENADSSAAEDTVRELREKLADKPEVLVGGTTATTVDTNDAAEHDRNLIIPVVLV
+VIFILLMLLLRAVLAPFLLILTVMLSFGATLGISALLFNYVLDFPGADPAVPLYGFIFLV
+ALGVDYNIFLMTRVREESLVLGTRDGIVRGLMITGGVITSAGIVLAATFAALGVIPVLFL
+AQLAFIVAFGVLLDTLVVRSLLVPALSYDIGPRIWWPSKLGRAAQPEKSEARSR
+>tr|A0A0P7GCI3|A0A0P7GCI3_9MICC
+MSTNALDQQDTKPENDSEAHASIHDETIGHGNTPAAWTCVLIMMAGALVSSIGFVMASWL
+IFGIGLGVMVLGLVVGGVMKKAGYGVGGSKLKNSGH
+>tr|A0A0P7GTI8|A0A0P7GTI8_9MICC
+MNRTQKYRKAVFIAGVGLFGAIAVVLIPGLFAEFRTGRLIAVLVLLAGVVVFAVAANLPR
+WPGNAVDP
+>tr|A0A0P7H5H2|A0A0P7H5H2_9MICC
+MAAKSKKNAAGQVPAAFEAPLSKRRAILQYVLSGIIALGLIGWGLDSLLETRWILFAGIA
+LGGLSGYYVAAAHGLTSTKPKPPAGGERPDEG
+>tr|A0A0P7GU74|A0A0P7GU74_9MICC
+MNGRSGPAPRTIRLLAALVMATSLVLTACTATQEGGGESPSAAPSSAAAAPSPTPEPSVT
+AGTGPDCPGLRCTSVMLAGDLLVHPQLWDQARADAAATGNMPLDFVPLLEGMRTYVDGSD
+LAVCHMETPVAEADGPYAGYPMFNVPPQILTGAAAVGYQACTTASNHTVDAGTEGLNRTL
+AVLDSLGLEHTGSYATEAESRIPLIMDTSGARIGIIEATYGLNGLEAEYPWQVDLIDAED
+MIARAQAAREQGADIVLGAVHAGDEYASMPNSQQIETAHALADSGQFDLIYGHHTHSVLP
+IENYNGTWIVYGLGNAVTELSPWYAVNNEGLIVRAQFVQEDDAADWRVSDLAWAPSVIVR
+DPYRWCSVAADLPQGACASEAQQAEVRQRTISVVEAMGAGQDGAREWLVSEDVSSR
+>tr|A0A0P7FEH9|A0A0P7FEH9_9MICC
+MLLGLAGLLLLALGAGLVLLSVDPAAASWWQETGPAVMAEGGRILGSTAIPGQTQSWLWP
+ALALAMIVIAVLLVLWIAAQGRGRVDTLIAEYDDEGASGRIAISGAVPEQALREALLKDP
+DVTSVGVSTWALRNGNGLRVRIVPRQGAAPHLVAADATNLVDALDAALGRSSTVLISLEA
+GRRYRIGREERVR
+>tr|A0A0P7GEK0|A0A0P7GEK0_9MICC
+MPEPLPPWPSTAPSCGRVRLRSVCESDAGMAMALAEDPYVSATGTLPHRADRDEARAWVK
+RQQHRHSEGRGFSFTIEDVGARVPVGHCGLWLSHLADGYASAGYAIAPAFRRNGFAAEAL
+TALTGFAWSLAGLNRIDLFIEPWNAGSIRTAERSGYIRSGFRSGYQLAGGGQRDMLVFSA
+ARSGGP
+>tr|A0A0P7GK17|A0A0P7GK17_9MICC
+MIAVSELELRAGARLLMEAVSFRVDKGDKIGLVGRNGAGKTTLTKVLAGETLPAAGHIKR
+TGDIGYLPQDPRTPDMEQLGRDRILSARGLDKVLTELKKCQDEMASDDSKVSDKAMKRYD
+RLEAEFLSAGGYAAESEAATICANLALPDRLLNQPLKTLSGGQRRRVELARILYSDAETM
+LLDEPTNHLDADSIAWLREFLKNHTGGLIVISHDTGLLEATVNKVFSLDANRATIDIYNM
+DWKRYKVQRETDERARKRERANTEKKAGALLAQANKMKARASGASAAQSMLKRVDRLMSG
+LDAVRATDRVAALRFPDPAPCGKTPMMAEGLSKSYGSLEIFTDVDLAIDRGSKVVILGLN
+GAGKTTLLRMLAGVDIPDTGRIIPGHGLKIGYYAQEHETLDTDRTVLENMRSAAPDMDDA
+EVRSVLGSFMFSGDDVDKPAGVLSGGEKTRLALATIVASSANVLLLDEPTNNLDPASREE
+ILGALSNYSGAVVMVSHDEGAVAALNPERVVLLPDGDEDHWNEGYLELVTLA
+>tr|A0A0P7FWY1|A0A0P7FWY1_9MICC
+MSRTAASAAGSVYTDPVRYPQSASPRLRNRRAFLLLFLTLVLPGSAQIVAGDRRLGRTAL
+RVTFLVWAAVIAVAVLALTNRILLVNIFTNNWGSFLIMAVLALLAVGWALLFLNTFRIIR
+PPLLERNVRPAVAAAMVVLMALTSGGLGYGAWLLNVSRQTFDSIFASGPAFDPVDGRYNF
+LLLGGDAGADRTGLRPDSMSVFSVDADTGQIVTFGLPRNFQNARFTQDSPLWQVFPDGYS
+CGDECILNSLYPVVTEQYPDLYPGSEDPGAEAMMDAAGGILGLEIQSYVIVDMEGFSSLI
+DAMGGVKIDVGGWVPITAAEIPGTNRHYPPDGWIAPGLQTMDGYTALWYARSREFVTDYH
+RIARQQCVQQAMVAQLDPATLLTRFQAIASAGEQVVHTDIPQDQLGSFVDLALKSKNHEV
+ERMTIGPPDFGTAADNFVTYPDFALIHARVQEMLAETDAAAEATAEQEAPAPVEDGAIGQ
+DSPENPDSQQAPAEPEVPEPAAPAQPEITEEYLQELATIGDTATLSMLLDNNGVCSAG
+>tr|A0A0P7FTT8|A0A0P7FTT8_9MICC
+MARQQMNNSLETSGLLNDSSRRNFLKLAGVMGAAAAFAGTISACSPGGSPAPAGTAAAAE
+GTGSIEAGISYQLSTGFDPMISTGATPQAANLHIFEGLTELHPATREPYLALAAAEPAKI
+DDTTWEVKLRDGAKFHNGDPVTTEDVVFSFERVLDPANKSLFAGFIPFIDTVSAKDDTTV
+EFKLKYPFPGFSPRISVIKIVPKSVVTADPAGFDLKPVGSGPYSLVSAVKEDRIVFKKFD
+DYNGKYPARVADMTWLLLADPAARVASVPSRTQVIEDVPYLDVDQLATKVEVESVQSFGL
+LFLMFNCAKFTDKRVRQALHYAIDTEAVITKALLGNASAATSYFQKGHPSYSEAAAVYGY
+DAEKAKSLLKEAGMENITITLTSTDTGWVTRVVPLIKEYWDAIGVSTTLEILQSAAVYAP
+EKVGGKNFDVLCAPGDPSVFGNDGDILLSWFYRGATWMENRAGWNTTPEYADVQAKLDEA
+VKLDPEKAKAIHADVVDVVSEEVPLYPLFHRKLPTAWDANALDGFAPLPTTGVSFVGVGR
+K
+>tr|A0A0P7HDI1|A0A0P7HDI1_9MICC
+MQTIKPDCMDQALLEATQEFTEPLPPGVEWKFESVDYSNPEENPSLEMPAIMDGNQDTMV
+AHYWLCAWADSYLQSVENNDFQGQEQGMGYLAKYTQLPAVQAWHVDPEVFEANVITPAQA
+GDPAALQNWARSCPL
+>tr|A0A0P7HVN3|A0A0P7HVN3_9MICC
+MVLGALAAGILGTSLHAQVLYAGDTALPLGAVGALIFSAAVASFAGLWTRSVAVSAATGV
+LTYVLLGTFSLDIFSGPLIVTGTSSGLDLPVVTAGQIWLFGQSLATIAAVLVTAVVLRSE
+ARFERASAKENTLPYGTDPGYRPGPEPLS
+>tr|A0A0P7GCL3|A0A0P7GCL3_9MICC
+MGQQASHPFPYADRQDAGRVLATALEGYRGRENLLVLGLPRGGVPVAAEAAAALGAPLDV
+VLVRKVGHPRQPELAAGAVAEAGGEAAEVWNQEIVRSWLSAAAPDGQAALDSVLAAERRE
+LLRRAARFRGSRGPQKIAGGTVIVVDDGVATGATMRAALTAVRSLHPAWLIAAAPMSCSA
+ATSIAAAADDVVLPWPDSGLPAVGSAYRRFGQTPEDEVRSLLGIT
+>tr|A0A0P7GJB8|A0A0P7GJB8_9MICC
+MPNPQSEPETEVFRPRTTKWFVGVAAVLTAAAMVSAVWTGGFGGLLATAPLLLIPAGAAW
+LFWYPSVRVSGSGVTLANPFRTIEVPWAALIYVDTKFALKLVTPKGSYTAWAAPAPGVWG
+THQGKPEHLRNLPGTTYGAGGSVRPGDLSNTDSGQAARLVRGRWEQLVNAGLIDTDQTEA
+ARASVGINWRWLLGLPVLAAVLFALAGTA
+>tr|A0A0P7GCW8|A0A0P7GCW8_9MICC
+MTQSPLSVVLAGGGTAGHISPLLAIADAVRRLRPGTRIKVVGTSAGMETRLVPAAGYELA
+VIDRVPMPRRPSGDLARLPARLARAVRQAGEILEKAEADVVVGVGGYVSTPVYLAARKRR
+IPVVVHEANARPGLANRVGAKSAAVVGVAFEETKLPGARWVGMPMRREISGLDREAARQE
+ARTALGLELDLPTLVVTGGSSGAASINAAVTAALPALAEAGIQTLHVTGRGKAAADAEGK
+SLTAPLYRQVEYVDGMEQAYAAADLLLARSGAGTVSEISAVGLPAVLVPLPHGNGEQALN
+AAGLVAAGGALLVRDSLFTPEWISGHLIPLLLDPQALKTMAEASAARGIRDADAQMADLI
+VQAAERKNA
+>tr|A0A0P7GDU4|A0A0P7GDU4_9MICC
+MNTKTRLLAVPALALGALALSSAPALAHGDDSWSGQATLGTMNNSGTTGQAMVDVHGMDA
+TVTVNVSGAAETFMDGPFPHAQHIHIAAQGTCPGPDADTDGDGVVNTTEGHPFYGHIGTS
+LTTEGDTSADSALAVERFPGGSSYTYERTLELTPETAASLKDGSAVVVVHGVDPERMPEA
+AAAKMSDLDPALPAAATLPAACGTLAASQMAATPEGGAATGIEAGASNSAGLTVAGAGAG
+LTALALGIAAVARRRTRA
+>tr|A0A0P7FXZ3|A0A0P7FXZ3_9MICC
+MAVKIRLKRLGKKFSAHYRVVVMDSRAKRDGRAIEEIGLYRPTEEPSYIDIKSDRAQYWL
+GVGAQPTEQVAALLKITGDWQKFKNIDGQEGTLRTKAPKEPFVAPEKKSVIVPEAITPKA
+KKEEAEAASTEAEAE
+>tr|A0A0P7GC74|A0A0P7GC74_9MICC
+MNPYEPVPPEALEDLAERLARFRPVPEPRLFNRSRDSLGFGGEQLAELVEHWRTGFAWPA
+QETWISALPWEQTELSTVPVRAVVSRAEAAYGSPSSPVVLLLHGWPDSILRFQRLFPLLT
+DLTYVAPALPGYPFAAPVPAGGMSTVEMADAIASAMSEFGFARYVVSAGDVGSDVAEALA
+VRHPDVVTALHLTDVSQYHVNLAPPQDMDDAEREYQQRARRWQGAEGGYAHEQSTRPVTL
+AAGLGDSPAGLAAWIGEKLVRWTDSDGTLTNAFSLDEALTWISAYWFTGSIGTSFAPYAA
+GRPTGWPRIQTPTVFTLFPKDLLNAPRQFAERYFNVVGWMEFESGGHFAAWERPQQYLEG
+VRAAVKLGFG
+>tr|A0A0P7H8Q8|A0A0P7H8Q8_9MICC
+MTFLLAVVGVLGVSASGPIMAATAAPALAIAFWRNALGALIMGVPAGVRGRQQFLSLNRT
+ELRWTALASVALALHFACFITALQLTSVAVATALVCLQAGWIALFDVFRGRKVAAQTLAG
+LVIAFVGVLVITGFDIALSPQALLGDALAVAGGALAGLYTIAGGKARRTMSTGTYTTLCY
+GFCALVLAVMCLAFRQPVIGFPPAAWAGILGVTLMAQLLGHTVFNHLLAVISPLVVSMII
+LLEIPGAAILAAIFLGEELPGGTYAGLAVILGGLAVVLLGQAKRRESTPPPPCGEPLPPA
+PPALGGDVER
+>tr|A0A0P7HI88|A0A0P7HI88_9MICC
+MNLNIQNSFLPQTDPDESLAFYRDALGFEVRNDVGYEGMRWITVGPPDQPEVSVVLYPPT
+ADPAITDEESRMIAEMMAKGTFATLVLSSADVDAAFDSVMSAGAEVIQEPTDQPYGIRDC
+AFRDPAGNQIRINGV
+>tr|A0A0P7FXJ7|A0A0P7FXJ7_9MICC
+MATPIEDYALISDLHTGALVSRTGSIDWLCLPRFDSPSVFGALLGTEGHGRWLLEPDQHG
+ARVLRREYLESTFILQTHWHTVSGEVLVTDFMPVKDRRASVVRRVKGLSGTVRMRQELQC
+RFNYGTTVPWMRRETVGGVERLLAIAGPSAMVLTGGNIPHGSDHRHTGEFLVGAGETVDL
+ELLWYPSHRETPGQADIDAALARTTRYWQDWAGLCIDGERYLLPVRRSLLVLRALTHEDT
+GGIVAAPTTSLPEEFGGSRNWDYRYCWLRDAALTLEAMMTHGYDEEAAHWRNWLLRAVAG
+DPDDLQIMYAVDGGRELPEKILPQFPGHAGSIPVRLGNGAVEQYQADVVGTVMVALARLR
+DRGVAEDSFSWPLQRALLGFLERHIEEPDHGIWEVRGEPRFFTQSRVMMWAAFDRAARAA
+RQGGMEGPVELWEAIRDGLRREILDRGFDAGRNTFVQSYGAVEADASLLQLTHVGFVDYD
+DPRMLGTVAFLERELLDSQGLLLRYRSGTGVDGLEPGENPFLACSFWLVEQYAHTGRLDD
+AIRLMDQLVGYANEVGLLSEEYDTVNGRMAGNYPQAFSHLALVRAADAIHAVEARQRSRS
+AQPAETLESSS
+>tr|A0A0P7G575|A0A0P7G575_9MICC
+MDPIAPPVLAAAPALPGETTSRVGLTAAARDLLRKLKQQHGPLMFHQSGGCCDGSSPMCY
+PEGDFITSEADVLLGVFDLDGEDIGFWMSAEQFEYWKHTHLTVDVVTGRGSGFSVEAPEG
+KRFLIRSRLMDVAGEA
+>tr|A0A0N8HZ03|A0A0N8HZ03_9MICC
+MAELFSENDQYAYIMLAWASRAETPDEVAGRGWATVCALEDSVPRDDPRYQDLAWVAPPW
+DRTAEDNPELYELPAPRTLEELQREVRDRAKVRPDGMLAEGLPIGADLTCARSNGTSIAS
+YEGNVGSSKAYLENTVTIRFEPTFPTGDKDDLAALFRRIVSIWQPDWALLDTLRTSREVQ
+ESLETYADYLIWLSEAELGPAPVLKAAKTERFGDGTLITVNDWSIDGVRTLHQELVSAGI
+PAASVKHPLNPQKVPQFS
+>tr|A0A0P7G8W4|A0A0P7G8W4_9MICC
+MSTALAPRQAGLGYFRGVGTVFGLEMKQRLRSRGWYVLLGVWFVVIGLVAAFTAWVAGEE
+PSAGQVLFELMVAFVLFFGLLVAPALSANAVNGDRAAGTLAVLQVTLLRPGQLLAGKWLA
+SWAASLGFLAASLPFLIWSLALGGVDPVIAVVSLLMLGVELGLVCAIGVAVSTLANRPLF
+SIVVTYMLVALLSIGTLIAFALSTPLVRGTAEANTPMWAETYTSPAAEEPGFTCEGPMYE
+VEVLHTDRIAWILAANPFVVLADALPYGEGSLSGGPLEGISETVRYAQGGSEYSGPLCVN
+GEARSPSAPAPSSSFPIWPLGLGIQVLGTGILLVLARRRLVTPARKLAAGTRIA
+>tr|A0A0P7GJ02|A0A0P7GJ02_9MICC
+MSAIPVVTSGSGTADLVQGLERLQGPVTVIRRCTELSELIAACQSGMARAAIVDDDAGEL
+TASLADRVAAAGVALVVLADDQAARSRFEQLGVRCASRNLDSPALAELVASAVQSMEARG
+REEGAASALADPADSLRSWELAGGTSGGSSDSQNHRQGKIVAVWGPAGSPGRTTLAVNLA
+AEAAAAGSQVLLVDADTYGPSVAAMLGLTEESAGLAQACRLADQGLLEPAGLEASAVQVD
+VRAARLRVLTGVTRADRWIEIRGTALARVLEEARSLAEITVVDCGFSLEADEELSFDTMA
+PRRNAATLVALEHADTVYAVGAADPLGVPRLVRALAELENAVPSASPLVVMNKVRASVTG
+RSPERQLSEAWARFGPGQIDAFLPADWDAADAALRSGAVLLEAAPSSALRTAIAALANVP
+ASGRVKRRRRRRIPAK
+>tr|A0A0P7HCC1|A0A0P7HCC1_9MICC
+MDTINNFVLTYSGAPWVYLVLFACCLLDGFFPPIPSESLVVGLAALVFLDGGPNAWLIFL
+SAAAGAFVGDNIAYALGRTLRTDRYRWMRGPRMQRGFVWAGRELEKRAVSLILIARFIPV
+GRVVVNLTAGATRFPRRMFVALTGMSALLWAAYSVAIGALAGAWFKENHLLAVVVAIAVA
+LVLGLIIDRIIAKLRGPTPIRTRLPLEERVDSEP
+>tr|A0A0P7GIY8|A0A0P7GIY8_9MICC
+MPATSSDNVPAGPGQRPLEGIVVADFSRVLAGPLCTMTLADLGARVIKVERPGTGDDTRS
+WGPPWSPTGSTYFESVNRNKESVCLDLGDEGDRQLARELALRADVLVENFKPGGLDRLGL
+GYAELSAANPGLVYASISGFGSAGGRDLPGYDFVVQALGGLMSITGEADGTPLKAGVALV
+DVLTAKDAAIAVLAALSSRRATGRGSHVQVNLLSSLQGALANQAQAWLGAEVVPGRMGNA
+HPSIVPYQLLDCGDVPLAVACGNDAQFARLAAELGVPELASDERFATNSARVAHREVLIP
+LLERRLAAAPAAQWQERLSKAGIPAGKVSGIDEGIAFAESLGLDPVLEVLDSNGDPAGRQ
+IRHPATWEPPLATRAEAPPKLGAHTEEIRAWLRTPVHEGHLSR
+>tr|A0A0N8HXZ4|A0A0N8HXZ4_9MICC
+MRSDWVAATVRAKAMARRRAGAGLCREAAALTSLPQALELLEQTAYASELAGSRNLAEAQ
+HATRRSVLWQLRVLAGWLPVAGARMVRAAGAAFELANISVLARRLQEAADAGAEGSLHRS
+VPLPEYFELGGLATAWPRLSQAGSSTELTDLLRTSPWGDPGPAQDFADTLTVVWIRRLAA
+AAPQTRSWMVAGAVLIAARRVLLAPGPGRHGAQDTGNRLHMLLQPLLGGTWAEADDVASF
+RAALPAAAAPVLEGVEDPSGLWRAEASLRARVEEDGFRLLRSGLPGPDVAVGAAAVLAVD
+AWRVRAALAAAASGGGSEVLDAVA
+>tr|A0A0N8HX28|A0A0N8HX28_9MICC
+MTADTVQAPPPFDPVRYTRQASRAFSRGRTRFRDVFVDVYTAVLALGTIAALAVGLVLAL
+REQVAQAWNVGSGRTLVAPPSFALPDGAAAAVLVFAALAAVMVIARKLGPAAVSGPEGYW
+WLSLPLERRPMLAGRLVRRLLLVWAGTAVLYLPFGFVMDLETSVRGQVLAAATFGVAAVS
+AVLLAGLQQARRDPPSAAERRRGMLPGLLVLALLSLFTVRVAAGASVLAVGGLAVTVALG
+LLVFARLDRVPGRELIRGGAVSGHTGAAVFLMDLNEVGRALSAVPDGVASGRAARWYARG
+GRTPFGALLRADTAAFLRTRGLWIRPVLVLAVFAVVLLAGGAQPPLVQLGIIAVAVFAAA
+PGLGAVARRTAIMPGLDMLLPLSVSVVRLSRMALPAAALALWTAMLCAVLVLLGAGDPSL
+IALGALAGVGFGASVVRGAYRVQPDWSLPPKDTPFGPMPSAQAGSMIRGFDTTLLALVPL
+LLGLFLGYVPGVLLLAQAGFSAVCVLVVMYSDQK
+>tr|A0A0N8HX40|A0A0N8HX40_9MICC
+MKASQQLTTNLQAVLVDLIELHLQGKQAHWNVVGKNFRDLHLQLDEIIDDARLFADELAE
+RMRALEAVPDGRSTAVAEGTSLPPFPAGLVDTKDTVTLVVSLLRGTVQTMRDVHDQVDEE
+DPTTADILHGFIGKLEQYAWMVDAENLQPTAKVVTPEGAETAATT
+>tr|A0A0P7H4P1|A0A0P7H4P1_9MICC
+MAKAKFERTKPHVNIGTIGHVDHGKTTLTAAISKVLADKYPDLNEQRDFAAIDSAPEERQ
+RGITINISHIEYQTEKRHYAHVDAPGHADYIKNMITGAAQMDGAILVVAATDGPMAQTRE
+HVLLARQVGVPYLLVALNKSDMVEDEELLDLVEMEVRELLSSQEFDGDNAPVVRVSGLKA
+LEGDPKWVASVEELMEAVDNNVPDPVRDKDKPFLMPIEDVFTITGRGTVVTGRAERGTLA
+INSEVEIVGIRPIQKTTVTGIEMFHKQLDEAWAGENCGLLLRGIKREDVERGQVVVKPGS
+ITPHTDFEANVYILSKDEGGRHNPFYSNYRPQFYFRTTDVTGVITLPEGTEMVMPGDNTE
+MTVELIQPIAMEEGLGFAIREGGRTVGSGRVTKIIK
+>tr|A0A0P7FHE0|A0A0P7FHE0_9MICC
+MNLWPPFLFSGIKITELPEDFLSATVRLRLRWWNRNVAGVLFGGSLFAMTDPFWMMLLLR
+HLGKENVIWDRAAEIDFIKPGKGDVVAHFAITEADIERLRTAAAGGAKVLEWFTVEVKDS
+DGDVVARVRKQVYLRRKRELSAAAETATLPPLPDQAVR
+>tr|A0A0P7GDZ3|A0A0P7GDZ3_9MICC
+MTFEETTGSVLTPEAQVALDRATGSAHRHDGLLSNRAFHIKQSAVRDVFDISIRPGLISL
+AGGSPYLQELPLDELAEATASIIRNQGLAALQYGPGQGLQELRELACEVMAAEGILDADP
+ADVVITTGSQSGQDVAAKVFCNPGDVVLCEDPTYVGALNAFEAYEVDLQPVAMDGDGLIP
+EALRERISALRAAGKSIKMLYTIPSFNNPSGITLAEERRDQIVRICRENNILVLEDNPYG
+LLRFDGEPLPPLRASHPEDVLYLGSFSKIFSPGMRLGWALVPRHLFRRFYLACEAVVLCP
+SPLTQMITAAYLRDFDWMGRIRDSRRLYAQRCAAMLAALQEHMPDGVSWTVPDGGFFIWV
+SLPEGIDTYPLLAEAIDAGTVFIPGTAFTPGDETSSKLRLAFSAVSPDDIAEGMRRLAPV
+IRRAVSGADAASGAAGA
+>tr|A0A0P7H619|A0A0P7H619_9MICC
+MLVWNPGYGGSPEAAAAPSSTLRSWLLSKGYALAGSTAAAAGGWGVEGLIANQPALLEVV
+RSELGEPSSVVAWGSSMGGLTAVANMEAHPRLFDAALPLCGSVAGAVPMLNGSLDGAFVL
+KMLLAPGDERLELVNIQDEPTRQAAFREVLDEAQATPAGRARIALAATIAQLPVWTQQNA
+PEPSPRDYAAQQEQLYAAFMFGVISPRQPLEERAGGNFSWNTGVDYARSLTQSGQEKMVR
+SLYAEAGISLEDDLRTVNSAERITGNPAAVAYMQAYATPLGDIDGPVLSLHETGDTAPTV
+SQAGTYAERVRRNGDNALLRQAFVDRPGHCNFADAEIAAMVTSLQQRLDSGRWSNLAHPA
+ALNRLADRISEEDNLGRGGSFSAFQPPRMLRPERTEAN
+>tr|A0A0P7GEG9|A0A0P7GEG9_9MICC
+MFPDIDAEAVDRILHDAASRHEFSGAVQLSRGGRVLHEGAYGVASRRWGVPVSLGTRFDV
+ASVTKLFTSVAVLQQVDAGALALDSPIGRFVELGGTRIDPDITIGQLLTHTSGIGDDADE
+EAGESYEDLWVDKPTYSVTRTADFLPQFVHKEPNFAPGAGCRYCNCGYILAGLALETVTG
+TGYRDYVREHVFAAAGMKDSGFFSMRDAVPNVAEGWDPVRDGAGKVISWRQNIFSYPPIG
+SPDGGAHSTAADLVRFLDAVRGGRLMSAESTAAFLSPQVKHSDLDAGELHYGYGLEFRLD
+ADGQVGLIYKDGINAGVSAFLGYYPQEGVTAALVSNSEDGAWGPLKEITGLLQSAQAPTP
+>tr|A0A0P7GDX7|A0A0P7GDX7_9MICC
+MDPVRVCLWIFVATTAATWILSLITREYSWTDRIWSVTPVAYVWVFAAASDFESRLVLMA
+VLVTLWGARLTFNFARKGGYAPGGEDYRWGILRKRLRPWQFQVFNFAFISLYQNLIIWLI
+TLPALTVFQHPRALGPLDWVLAALFLAALAGETAADQQQWNYQVWKKMQRMAGQDTGAGF
+VQTGLFRYSRHPNFFFEQAQWWLFYGFAVVASGTWLHWTLAGPLLLTLLFAGSTVFTESI
+SAGRYPAYRQYQRRTSPVIPLPQRGRSRPLEAG
+>tr|A0A0N8HZ10|A0A0N8HZ10_9MICC
+MRIMAQVAMVMALDKCIGCHTCSVTCKQAWTNRAGTEYVWFNNVETRPGQGYPRRYEDQE
+KWRGGWELNRRGNLKLKAGGRMAKLFGIFASPVQPELSDYYEPWTYDYENLIQAPAGNDF
+PVARPKSLITGENMKIEWSANWDDDLGGAPETAQQDPVVEKLRQDAEDKVKFEFDQTFMF
+YLPRICEHCLNPSCMASCPSGAIYKREEDGIVLVDQDRCRGWRQCVTGCPYKKIYFNHRS
+GKAEKCTFCYPRIEVGLPTVCAETCVGRLRYIGIFLYDADRVTEAAATPNEQDLYEAQLD
+LMMDPNDPEIIAAARAEGIPEDWLDAARRSPVYALAKELRVALPLHPEYRTMPMVWYVPP
+LSPIVDVLKEQGHDGEKAENLFGAIEALRIPVEYLAELFTAGDTDLVTSVLRKLAAMRAY
+MRDITLGDAPDETIASDVGMTGEEIVRMYRLMAVAKYEERYVIPSAHLEDAHNLEEIGCS
+LDTDGGPGMGQTGVFGEASGRPMPVAVENFAALEARQRGDDPAGNRDMTGRVNLLNWDGR
+GSPRGLFPPGQTDGGERT
+>tr|A0A0P7G081|A0A0P7G081_9MICC
+MGWAEFWGAAAGWAIIWIPVLGPLGILTTAVIAYFAYRQKLEADRRAQWWVRAQWALEAS
+LSANPRRSLAGLAVLNDLKTSSLATKEDRELFRLIALTARDELAGTSSLRAPASSQQAQP
+AGAEELIREQVERLLLDDHPGQPVGSTPAPPEVAR
+>tr|A0A0P7HFD9|A0A0P7HFD9_9MICC
+MSSQAQTPVRASANPAIGKEAARRRTFAVISHPDAGKSTLTEALALHARVIGTAGATNGK
+DNRRETVSDWMQMEKDRGISISSTALQFAYRDTVINLLDTPGHADFSEDTYRVLAAVDCA
+VMLVDAAKGLETQTMKLFEVCRSRNLPIITVINKWDRPGLDPLALMDEITERTGLAPMPL
+TWAVGIAGDFRGVWDLQKDEFVRFTRQNSGASLALEEHFSPEEAAAAEGDAWEDSIGEAE
+LVIDGREFDRQAFLDAKATPILFSSAALNYGVRQILDALVDLAPSAGPRVDSDGGQRPVD
+APFSGFVFKVQAGMNKAHRDHVAFIRVCSGIFERGMVVTHSNTGKTFATKYAQHLFGRER
+EVIDQAYPGDVVGLVNASALRVGDSLYVEEPVQYPPIPFFSPEHFRVARSQDPSRYKQFR
+RGIDQLEHEGIIQVLRSDRRGDQAPVLAAVGPMQFEVVEDRMNQDFNAPMRMEQLSYSLA
+RLTDASAAEILSNVHGAEVLLRTDGAHVAVFNDIWALRRVEKNHPEVPLSVIGTESPNSR
+GY
+>tr|A0A0P7HDG3|A0A0P7HDG3_9MICC
+MPLAVLAVSVGLTGCGDSASETAGLSRVTFAVADQSLSATSASYATVPGAMGYFEEAGLE
+VEMQPVETALAAIQSVASGNSFCTYASTYSALSAIKDDPNLVIVGTTTGNIFRVIAPESL
+DIKSAGDLAGKSIGVSSLTGIAADIASIGMRKDGVEPEEDQFLAVGYGAQTAQAFKNNDI
+QAYSGFDGPNMVIESLLGEPMVDVASEADSMTGTSSLVCRAEDVAEKPDMVTGLWTAFFK
+ALVFSKENPEAAIKMHWEKFPSSKPTQGDESANLELATGQLGLRMETTAQVGSAGFYGEQ
+TPADMQRLIDEGVEGGILHGSTSDFALKKMFNYDLVEGYNDFDADAVIQQARDWADE
+>tr|A0A0P7HLT8|A0A0P7HLT8_9MICC
+MTDLELNWTLGTPGLLLIAVAAIALLLVMIMKFRIHAFLALILVSLLTAVATGVQAGDIV
+PTMLSGFSSTLGTVALLVGLGAMLGRMLEVSGGAEVLTNALINKFGQKRASLALSVASLL
+FGFPIFFDAGLVVMLPIIFTVARRMGGSLLTYAFPAAAAFSAMHIFVPPHPGPVAATGLL
+GADVGLVLIFGLIVAIPTWYLAGYLFGHFLGRKFNIPVPSILDAPKGSVESEFRSSPSLG
+TIITLLLLPFVLIFLNTGLNMAAAADLVSLDDTWVQILRMLGETPVALLITVFLAMWLLG
+RRQGKKGTLIETVVDSALGPVCSIILITGAGGMFGGVLRASGIGNAIADSLDAVGLPVIV
+AGFVIAAIVRVAQGSATVALTTAAALVQPVVLDNPDFNAVQTVAIVLALAAGSVFAGHVN
+DSGFWLVSRFFQMDTKTTLKTWTVGQALIGVVGFVLALAIYLVASGF
+>tr|A0A0P7FAM0|A0A0P7FAM0_9MICC
+MKPVLLLDVVGLTAQSLRDMPRLSRLAGTGWSSELATVLPAVTCTVQSTMLTGLPPAEHG
+IVGNGWYFRELGDVFLWRQHNKLVGGEKIWESARRKEPDYRAGNVCWWYAMGMSTDMTVT
+PRPIYHADGRKSPDAYIRPPALHDDLVSRYGEFPLFQYWGPGAGIQSSQWIIESTRHLMR
+TQSPELLMAYVPHLDYDLQRFGPSHPQAARAAADLDAALAPLLDEAEARGYAVIAVSEYG
+IEDAHLPVDINRVLRREGLLEVYVQDGKEQLDTWTSRAFAVADHQVAHVYVQDAGDVART
+AEILRATSGIDEVLDRRAQAKYGLDHERSGELVVIAEPGAWFTYYFWLDDARAPEYARGV
+DIHRKPGYDPSELIFNPADKLAKAKAGLNLVRKKAGLRYAMSTVSLDPGHIRGTHGRLPG
+SRDSTPLVISSEDRMPPFAEELIRLGKPIPAASVKSLVLQTQGLPE
+>tr|A0A0N8HZ40|A0A0N8HZ40_9MICC
+MVPPPRSRSGAGRSGAQRGRLRSAEDRGLLESRAMAVPLAELLTAGGLVLHSFNHERTFD
+RPGAGVTVLFRIQAVDQDGAEITVYAGATTSPAAARGPALRTSLSGTQLFLWLHPRDPLL
+PDLAWALSPEDLARDVFAPGTSPAGVGVRVTGYRPLRRAVVHASSGLDGVYLKVVLPGQA
+EELRHRHRLLAASAVPAAALRPGPAHRSAVVLEQLTGTPLLRGLAAGSHGLSAGDLTGLL
+DELPAAALDLRRRPAWAERSRAYGQAAAALLPGQRMRVQALAAGVESLVAELDPGPVVPV
+HGDFYEGNLLAAAGRITGVLDVDGLGPGHRVDDLACFIGHLAVLARLSPDSALPGELAAF
+QAGFESAAAAAGSSPAALNARAAGVALSLVPGARAGRLDRESNALARLEAAEHLLEQAQG
+RAA
+>tr|A0A0P7G6G7|A0A0P7G6G7_9MICC
+MAPVLRSAAWTAGSFAAAGAAAFAYGSLIERNLFGIRTETVAVLPPGSRPIRVLHLSDIH
+YVPGQERKTRWLQSLADLEPDLVVNTGDNLSHQEAVPPLLEALKPLMRFPGVFVPGSNDY
+YAPVLKNPFTYFTSPSKLRKNPAKLPWADMFFSFGNAGWIDLTNRNQSTVLNGLRLDFSG
+VDDPHLKRDRYAGFPSGSSTSDSARHLRIGVAHAPYQRVLDYFTDGGAQLILAGHTHGGQ
+VCIPGYGALVSNCDLPTWRAKGLTDWEHNGRTVPLNVSAGIGTSRFAPVRFACRPEAVLL
+TLTPAA
+>tr|A0A0P7GJS0|A0A0P7GJS0_9MICC
+MYLALREMRFAKGRFALMGTVVALISFLLVMLSGLTAGLADQSTSSIKSLRADEVVFGAP
+PGTEPKASFTESSVSPEQQQAWQDAPGISSAEPLGISQGRIQAGGTASAAIFGVNPGSSI
+APDGVAPGKAVVSQQFADDLGLEPGSEASVNGQQLIVAAVVEDQWYSHTPVTWISLPDWK
+TAAHTEPDVAGTVLAVDYDGGQRDSGALDAANTEAGTTSMERSASLSALPAYSSENGSLL
+MMQAFLYGISALVIVAFLTVWTLQRTRDIAVLRALGGTRSYVLRDSLAQAAVILAAGTAA
+GGLLGVAAGAVAATAAPFAATAATTVLPVAGVFVLGLAGAALAVRRVTKVDPLLALGGN
+>tr|A0A0P7GE05|A0A0P7GE05_9MICC
+MAVRFRKSAGGDRAASETAVASLGLGQHVTFEELLDVVSQAHGKPIEIREIDNSAIPAVT
+GLWIEKEKKSIILVPSGDNRLHRTHAACHEFGHILLRHQGCGGVETANPSVFQHIGSRKG
+IKRMLARSLDWNETERAAEHVAYLLSLALLPKEPASPSDFERTFL
+>tr|A0A0P7GST6|A0A0P7GST6_9MICC
+MNLLNIAHRGNSAQAPENTLAAFASAAAAGAGMIETDLQLSADGAVVLIHDQTLDRTGGR
+AGRVDELTAPELGQADAGSWFSPIFAGEPIPRLEDLVDFAARNTGLRWLLEFKGDWTPDQ
+AAPAAGMLRDAGLGGRCVLQGFSPRTLRSLQAAAPDIDRGLLITLPPAPGEEQHLLGFLA
+ETGAGYCNPHGGVLEASPQLVSALQAAGVKVCTWTLNLPEQWAAAAAAGVDGIITDRPAE
+LAAWIAGIPDTP
+>tr|A0A0P7GC45|A0A0P7GC45_9MICC
+MAASSTSAPAPAPGTGPAVRNAVVIGGNRIPFARSGGAYAHSSNQDMLTAALDGLVARFG
+LQDERIGTVAAGAVLKHSRDFNLTREAVLGSALSPETPAYDVQQACATGLETVVSLANKI
+KLGQLDSAIAGGVDSASDAPIAVSEGLRRALLDLSRAKTTKQKLAAIAKIRPKDLAPNAP
+TTGEPRTGLSMGEHQALTTAQWKITRESQDELAYNSHRNLAAAYDRGFFDDLITPYRGLS
+RDSNLRADTSMEKLAKLKPVFGRALGDEATMTAGNSTPLTDGASVVLLGSEDYAREHDLP
+MLANIVDAEAGAVDFVHGRDGLLMAPAFAVPRLLSRNNLTFADFDFFEIHEAFAGTVLST
+LAAWEDDEFCRTRLGLDAPLGSIDRSKLNVNGSSLAAGHPFAATGGRIVASLAKMLAEKG
+SGRGLISICAAGGQGLVAILEAR
+>tr|A0A0N8HXQ5|A0A0N8HXQ5_9MICC
+MRSTERPALSSSLGAAEFRRWYWLKEELQAFARTQEISAAGSKEQLAERIAAFLAGTPLP
+APVAPARSSRQRLVPPLTIHTVIPAGHPCSQVLREFFVNALGPGFRFDAPMREFFAANDG
+TATLAAALDHWHATRDAAPRPISPQFELNRFSRDWHAAHPGGSRDQMIQAWKAYRALPVD
+QRIQDSV
+>tr|A0A0N8HY57|A0A0N8HY57_9MICC
+MMNMSLMEIELAKLDYRQRMDEAEQYRQERQRLDRLRGTGRLTRRAKMDIPVFGFRIGGF
+RYRLWFTRTVAL
+>tr|A0A0N8HZ47|A0A0N8HZ47_9MICC
+MPETQNPLKDAARAALERVIDPELRRPITELGMLRSVEVNDAGAARIGVLLTIAGCPLRG
+TITADVERELSTVPGITSVQVDLDVMTPAQREELKEKLRGPAGARGVPFNRPGSLTRVYA
+VASGKGGVGKSTVTVNLAAAMAASGLRVGVVDADVHGFSVPGLLGITAPPTRVDEMILPP
+VAHGIKTISIGMFLDRNQPVAWRGPMLHRALEQFLTDVYFGDLDVLLLDLPPGTGDIAIS
+VGQLLPGSEILVVTTPQAAAAEVAERAGTVAAQTGQKVSGVIENMSWLTLPGGERMELFG
+SGGGTLVSERLGEALGYSVPLLGSIPLDVRLREGGDAGEPAVLDESAEEAESAGGELRRI
+AAALAGRPRGLAGLNLGVTPRS
+>tr|A0A0P7G5A5|A0A0P7G5A5_9MICC
+MSAPVDLTAVFVPNPGEFFRVKLALEIAIEQVQAEPGCLRYEITEESEDRIVLTERWASE
+DDLARHAAGAAKQDLDESLSALLAEPVALHRG
+>tr|A0A0P7G826|A0A0P7G826_9MICC
+MFALFSPGTELSRFRRGTLPKIAVVVMLFIPLIYGALYLWAFDSPDKHLDGLSVALVNED
+KGADRDGEALNAGDELETKLLDGADLDWHSTNAADAAAGVSDGTYYLSLTIPEDFSASAV
+SVGTDNPVAAKLKVDYNDSNNFLAGVLGKQAMAQVQAAVSSQLGNQVASTLLVGLNDAGS
+GLRDAAAGAGELSEGIDSAVTGAGELTAGLGSLADGTVTLQDGAFRLSAGAGTLAAGLTD
+LSSGTAALSAGSSNLSAGAQSLSAGTATLSDGAADVASGAQTLDTSLSALSGKLGDAVPQ
+AGQLNTGAAQVSSGLDQLVAGLAAQDPDNALLAQLMPLAEGAQQVASGTESLQAGIGQAA
+DGAGRLAAGSSDLAAGAAQVSAGAQSAADGAAALSAGAADLTAGASQVDDGAQAAARGAA
+ELNAGAATLSGGTTDLADGAGKLVDGGTSLSEGAGELSAGSHTLADALADGGSALPQDDG
+SLIDAKAAVAADPVELDAGFATQADSFGEGFAPFFLALATFVGALITWLLLRALPTRALA
+AGVSGFRAAATGLIPALAIGLGQVLIMMAVMVWGLEIHPAYLLGTGAFLYLTTVAFLALQ
+QMLIIVLGTAAGRVVSLVLLMLQLSSSGGTYPVETTPAFFQALHPFMPATYVVNGLRALI
+TGGVDARMWIAVAFLGILTAMCVAVSSLSAGRQRMWTIKRLHPELHL
+>tr|A0A0P7HJJ6|A0A0P7HJJ6_9MICC
+MIDIPVLLTVWMLCVLTDWSTPAKIMLNVFAVAFLCLKEVAVHRYLQQREHRPARLVLVP
+QQS
+>tr|A0A0P7GS30|A0A0P7GS30_9MICC
+MVSPASALRTADWRRRMFDIYAQVRATAEADSPSSAHDLWRRERDTLFASHPASPLSGEA
+KQRFGGLAVAPYDPELRCSAEIDDDGAGQQLEVATGTDGTVYFERLGTVTTPVGRLAVWR
+LATYGGGLFLPVRDGLAGTDGGTYGGGRYLLDTIKGAHLGEGPGDSLLLDFNFLYNPSCA
+YDERWACPLPGPDNRLDVPLLAGELYAEY
+>tr|A0A0P7HCF4|A0A0P7HCF4_9MICC
+MANLTADLLDTLRCPQTHSRLLQEGNELVSSAPGPDGKPVRYAIEEGIPVLLPAAGTTAE
+NTPN
+>tr|A0A0P7GIX7|A0A0P7GIX7_9MICC
+MHRHFNGLKTALLFGVLFAVLLGIGGLLSSGTGNSSFIWIFLVIGLATTAYSYWNSDKLA
+IRAMHAVPVTEAQAPEMYRIVRELSAKANQPMPRLYISPTMAPNAFATGRNPQNAAVCCT
+QGILALLNERELRGVLGHELMHVYNRDILTSSVAAAIAGVITSLGQFLLFFGGGDRRNQN
+PLAMIAMAILAPLAASLIQMAIGRTREYDADEDGATLTDDPLALASALRKLETGTQQAPL
+PNTDQKLVNTSHLMIANPFRNGVRGLLATHPPMADRIRRLENMAGRPLGS
+>tr|A0A0P7FDZ3|A0A0P7FDZ3_9MICC
+MVLFSQDSAPGTALTVNIGTGPLDPEAVLAVARQNAPVALTSEVLAAMESSRSVIESLAA
+DSKPHYGVSTGFGALATKQIPASQRTALQRSLVRSHAASSGQEVDREVVRALMLGRLATL
+ATGRTGVRPAVAQAYAGLLNAGVTPIIGEYGSLGCSGDLAPLSHCALALMGEGRVRDADG
+REQDAAEALVSAGLEPLELQEKEGLALINGTDGMLGMLTMAIADLHRLLTIADVAAAMSV
+EGLLGTDAVFAADLQALRPQPGQAESAANIRAVLHGSVLVEEQKTGTFTRVQDAYSLRCA
+PQVHGAARSTLAHAEHVAACERASAVDNPVVTVDGRVESNGNFHGAPVGYVLDFLAIAVA
+DVASMSERRTDRFLDRNRSHGLNAFLADDPGVDSGHMIAQYTQAGIVSELKRLAVPASVD
+SIPSSAMQEDHVSMGWAAGLKLRRALDGLARVLAVEVLTSARALDMRDGGLATSRSAPVS
+TAVRTAVRSVVQGPGPDRYLAPEIEAVYRLVAGGALLDAANGVLEEPLH
+>tr|A0A0P7FX99|A0A0P7FX99_9MICC
+MSSMTFGRAITAGLHDALAADPKVVLMGEDIGKLGGVFRITDGLQAEFGPKRVMDTPLAE
+SGIVGTAVGLAYRGYRPVVEIQFDGFIYPAFDQIVSQVAKMHYRTRGAVKLPLTIRVPFG
+GGIGSPEHHSESPEAYFTHTSGLRVVSVSNPQDAYTMIRQAIASDDPVLYFEPKRRYHTK
+GNVEQTLEGALPMGSARVAAPGTDVTLVAYGPLVMTALDTATAAGDEGISVEVIDLRSLA
+PVDYDAVEASVRKTGRLVVTHEAAQSGGLGAEIAASITERCFDFLEHAPVRVTGFDIPYP
+PARLEKHHLPDLDRILDGVDRVMRRPNSLETAAVLEGVRG
+>tr|A0A0P7GT00|A0A0P7GT00_9MICC
+MRAFFGKFSKVDWISFASCATLFALTLIPVFFDVNTTGGWLRTALISFVALIISTVVLAQ
+IGARESDKELARNVETLQSLVESAVDQNAVHEIPAGHIRRVLDEMLGSSKEWYFRGGSAR
+WQREHVLPALARVTDRPVQYKVQVISPFDSELCAKYAAYRRKSRPDDERADPQRIQMELL
+AFIYGAVVWTSRSKIVSHITLLHRFSPFRLDGNSESIVITVADPHRNGLRTRVGNWYHAA
+LLDEFEFEAGYATPLILPAEASDAEGIPDVKRFFMRVRELNQEATANWNEDYTDEEWGKI
+FEFAGTTNA
+>tr|A0A0P7HCK7|A0A0P7HCK7_9MICC
+MAKNTALKATGLVSGAVLLGLLTVQGTYALWNAAVQAAEGSIQAAAFNVEMDGGIGTVMM
+AQPDGSQGTVALATTALGTVDAGKSVYAGVRLTNHTDAGGEFTVRASAGQANTGSLGGLL
+SVQQRAVSGSDLNACYDPSLYAGTATGHVDIPKHGSGVLCFEVSLAASASAEGQVSTISV
+PLTVEQIVEHKG
+>tr|A0A0P7HP23|A0A0P7HP23_9MICC
+MTAQPGRDTSGSEAAESLEEAADNTGLDVMARTGFAVMALLHILIGAIAVSVAFGGYGEA
+ETSGAIGPLARSEPFGPALMWAGCAFCSSLALWQLAEATVRARHKPGKERVSKGISSGSL
+FFIYGSVALTFAAFASGRGKDSGDRTADFSAAVLDSPAGAPALGCVGALVLGIGAYFVFK
+GSARRFRPELRYFEDTRRGHLLNALGVAGHVAKGIALVLVGSLFITAAVNHRADESTGLD
+GSLQSLLQYPLGAPLILAIAVGLICYGIFALARARWGRM
+>tr|A0A0P7HV22|A0A0P7HV22_9MICC
+MATQADTERDLYAVPAQQDDDAAGQAAFDAIIADDSRIEPRDWMPEGYRKTLVRQVSQHA
+HSEIIGMQPEANWITRAPSLKRKAILLAKVQDEAGHGLYLYSAAETLGTPRDKMTEDLIA
+GKARYSSIFNYPTRSWADMGAIGWLVDGAAICNQVPLCRASYGPYGRAMVRICKEESFHQ
+RQGFEILLELANGTEAQKQMAQDAINRWYAPALMMFGPPDDDSPNSRQSMAWNIKRFSND
+ELRQRFVGMIYEQVKVLGLTLPDDQIRFNEETGKWEHGPLDWNEFKEVLAGRGPCNSQRL
+ARRREAHEDGAWVREAAAAYAAKQARKTEVA
+>tr|A0A0N8HX25|A0A0N8HX25_9MICC
+MSTFGDYVELVRAPAILTVLGDTAAGAAASGRLLRGRRLGLPLASACLYAGGMALNDYAD
+RDVDARERPERPIPSGRISARRALGTASALTAAGLGLCALAGGRGALAIGIPLAASIWTY
+DLAAKKHALIGAASMGSCRALDVLMGAGAGHVRQALGAAGIMGGHTVAVTLLSQGEVEGT
+DAATASGVAATTGLLTAALMAGSAGPPARMLPMLAATAAYAVRCAPAQLRAARNPVAHNA
+LEATKAGIRAMVPLQTALALRYGHPAAAGALVAVDVVGRVLRSRPGGRKVSES
+>tr|A0A0P7FAN4|A0A0P7FAN4_9MICC
+MIPVFNQDGHLPLGRYSTSPDQARAVLVDDPQFASSATRPGLWENLETYLAEFLYLEEKY
+AHLLPGPLLDRIWLGGSFVSTKLDPRNVDVTLIINKEAKDVLKGRQGAGLFTRSRASVLS
+KYGVSPLYLNYKPVVSVFKLDELEDDERTYLAARGAWDDWWQRRRQSGLQQEPTLESCVP
+RRGYLEVVLSD
+>tr|A0A0P7FPD8|A0A0P7FPD8_9MICC
+MASRGTPERVRVPEGFRNGSAPALAAHLLVPILLGLLGFCAVAAAVASSGGILKITASGL
+AVVLTLLLAAGAAPRYLPAALAGKPGRPLAVLAGVVLAHILLYWTAGSTVLLTLPAVPVA
+LAGGGLLLATSLWSQFRRGPATEDPVTVVPSTGPRPFAHTLILVLANWVFFAAAGMFSAW
+ILLGR
+>tr|A0A0P7GA56|A0A0P7GA56_9MICC
+MPTPDFILSLREKVGHDLLWLPGVAAVVFNPAGEVLLGRRADNGRWTIITGILEPGEEPG
+PGLLREVEEETGVRAKLEHLIHVGTTDPIMFPNQDRCQFLNLAFRCAWVSGTARVNDDES
+SEVGWFALDGLPELNARHRMLIELARTSTGVPVFEV
+>tr|A0A0P7GI90|A0A0P7GI90_9MICC
+MNDPITLNGISLTASPVRRQEEILTPQALDFVKALHQATHTRRQELLQQRQARRQKISNG
+ADPSFLPETRHIREDDSWKVAPTAPGLEDRRVEITGPVDRKMTINALNSGAKVWLADMED
+SSTPSWSNVINGQLNLRDALNNRLGFTSPEGKEYKINGTTLTDLPTIVVRPRGWHLPEKH
+MLVNNTPIAGGIVDFGLYFFHNAHRLIAEGRGPYFYLPKIENHLEARLWNDIFILAQDLL
+GIPQGTIRATVLIETITAAFEMEEILYELRDHAAGLNAGRWDYIFSVIKNFRTRGPRFIL
+PDRSMVTMTAPFMRSYTEQLVRACHRRGAHAIGGMAAFIPNRRDKAANDVAMERVHADKT
+REANDGFDGSWVAHPDLVPVAMEVFDGVLGDRPNQLDRSREDVIPNDKELLNVAATPGVI
+TEAGIRSNIEVGIRYIESWLRGNGAAAINNLMEDAATAEISRSQVWQWIHSSAVTDEGEI
+VTQHWVEELMDDEFSKLERFDGDRFEDALELFEEVACGEQFPTFLTVPAYARFLHESREP
+AAAA
+>tr|A0A0P7FZE1|A0A0P7FZE1_9MICC
+MNTEQNPAQFRLGKPLVVAIDGPSGSGKSSISREVARRLRANYLDTGAMYRAVTIACMRA
+GIDLGDAVAVEAATRNADIELSTSPDAEWVLVGGEDVTQAIREPEVSSNVSAVATTLGAR
+AELVRRQQQLIKDSGLRIVAEGRDITTVVAPTAEVRILLTASEEARLRRRGVQLGGSQSA
+AALREQVLTRDVKDSTVVNFQQAADGVITVDSSDLDFEETVQAVLDVVFSSTH
+>tr|A0A0P7FQL0|A0A0P7FQL0_9MICC
+MLPDGKNLTILDGVDLQIHGGDHVSVVGRSGSGKSTLLNILGMLDLPTSGQMEFDGIPVE
+SMNPNARAVRRGSAVGFIFQQFNLLPERTAVENVMTPLLYARGRSFWQRERIAAQMLDRV
+GLGSRLHEKPQKLSGGEQQRVAIARALVRGPQLILADEPTGALDIGTGQAVMALLQEVVA
+ESGAALVTITHDPNVAALADRHFLLDAGRLSAGEEAA
+>tr|A0A0P7GL71|A0A0P7GL71_9MICC
+MELRAVEPGDVDEFFTHQLDPGANHMAAFAAKNPSDRGVFDLHWQQILSDSGVTVRTIVA
+DGEIVGSILAYRDGAVPEISYWIDRSRWGQGITTAAVGLFLEEFPERPIRARAVADNVSS
+IRILERYGFKVIGEAQTFANARGAVVRELELELA
+>tr|A0A0N8HXU1|A0A0N8HXU1_9MICC
+MLAAGVAAAAALTAACGYSGDPADESEGVTNFASIIELSEFSSIGDLYDAADAAVGCGEG
+ITAESVEFTFDIYTPEYAMCTDSLQLVLYQSWTDREKVHERIVQGGENSPDGFAEGENWH
+AFELPRPEAADPADVQSLAEELGGVWVQIGGTDS
+>tr|A0A0N8HZ17|A0A0N8HZ17_9MICC
+MTVYAQPGQGEALVSFKPRYENWIGGEWVPPVKGGYFENVSPVTGKVFCEVARGTSEDID
+LALDAAHKAAPSWGKTSVAERANILNRIADRIEENLEMLAVAETWDNGKPVRETLAADMP
+LAVDHFRYFAGAVRAQEGTLSQIDDNTTAYHFHEPLGVVGQIIPWNFPILMAVWKLAPAL
+AAGNAIVLKPAEQTPASILVLAELIADLLPAGVLNIVNGFGVEAGKPLASSKRIRKIAFT
+GETTTGRLIMQYASQNLIPVTLELGGKSPNIFFADVAAQDDAFYDKALEGFNMFALNQGE
+VCTCPSRALVQDSIYDSFMSDALARTAAMVQGNPLDTNTMVGAQASNDQLEKILSYMDIA
+GQEGAKVLAGGQRNMLDGDLAGGYYVQPTVFEGTNNMRIFQEEIFGPVVSVTRFSDYGEA
+LSIANDTLYGLGAGVWSRDGNTAYRAGRDIQAGRVWVNNYHAYPAHAAFGGYKSSGIGRE
+NHAMMLDHYQQTKNLLVSYAESKQGFF
+>tr|A0A0P7HCD8|A0A0P7HCD8_9MICC
+MAVPSGTGTLTSKDVGFTIPDATTAVVDFNVTKPVDTTVDCAVQVLNESYAVVGWKTVRI
+PPAETQTVSLSTTVRTDSLGVTGGVNACWIVEPES
+>tr|A0A0P7HD94|A0A0P7HD94_9MICC
+MRLPPAPRRAFSIVLAAVILVLGAGTGAFASTPQSVPAAPYGDNDGSGPQFYSGLNVDVR
+DDVSGDIYVSGQSITISGNVTGDVIAAGQTINITGDVDGNLRLAGQDVTISGEVSRSGTI
+FASTIDLTDTGSFGDDLVGAAGDIDIAGAIGRDVEVGVGDLTIDGTVGGNVTYNSANEAD
+ISDGAVTGTIEQIVPEPNEEPTAGEKFVGWLLGLLYALVALSLITLAAGWLLPRLLHRVT
+NQLIPRPWKALLVGFVAFIAVPLVLLLLLATVIGAPLALTALLVWLTLMLATFVFSAYYL
+GRLIFRDRRHPVVMALVGGLILIVALQIPWLNVLVWFAMVFFGLGAQLLAIYEKRPWRRE
+LPAGAGLDPGAGPAGGAPGTGPAGGPRYDGGQPPPPPAQTPPPVQPPPVQPPPPAQ
+>tr|A0A0P7HHR1|A0A0P7HHR1_9MICC
+MSQLAAHVRSVDPNQIREITQAAWATPNAVVLSIGEPGFPTPVHVLQAAQETLARDETGY
+TPNAGIAPLRAAFAERVSAQTGQDTDPSRIFVTSGAQQGLHLAMSMLLDAGDEILIPNPG
+YPTFAMTARLLHAVPMEYPLHPANGFQPQIEEIEARITPRTRVLLLNSPSNPLGAVFSPD
+LTRELVELARRRGLWILSDECYEAFTYDVPHVSPLAYDGANGGRVIASYTLSKTYGLTGL
+RVGALVTPAGLEAQLSTVMESIVSCVASPSQYAALAALTGPQDYVREAAAHYRGNRDAAS
+AILEAKGIPFLAAQGAFYLWADLSHVSGGDIRTWTRQFLAEEGVAVAPGTAFGSIGEGWV
+RIALCGRRDELVAGVTRLPGVG
+>tr|A0A0P7HWQ2|A0A0P7HWQ2_9MICC
+MAGSQGTPDSGPDYGNVPVIASGIIAGFVAITTAVVSTGGATNESRWQLGLAAGCIAFIV
+CLATFLLMIIAGKPNPDSMGHGSGVNRRFGAVPGAEDKDPEEPGKD
+>tr|A0A0P7GE59|A0A0P7GE59_9MICC
+MNNKELVLDFYEKYNNRDVEGAMAYLGDTYIQHNPWVADGPEAFRRFVTYLRENYPDGRN
+EVKRAIADGDLVALHVHSRRVPGEEGRAIVDIFRVEDGKVVEHWDVIQPIPKEIYPPIND
+NGYF
+>tr|A0A0P7GD19|A0A0P7GD19_9MICC
+MDESLESGTQSGTEHRAEAGTETGAGDAARDKLPLTGDPAVDAVLSCLDAVGETPVTDHA
+ALYADLHDGLLAALNEDPAEGTSPDRPGNALPGPGVA
+>tr|A0A0N8HXM3|A0A0N8HXM3_9MICC
+MEIIAEDDKGCLAVVADGGFSMEEKMDLMEKYDFQTFMDSEPVGRQGVFGWIPAQMVHNI
+KSEVHQRSGSK
+>tr|A0A0P7GAK1|A0A0P7GAK1_9MICC
+MTIPASGPEENPRRAAATPRQQTEHSRPDAATAPGTGPAADSRGGKVGARPPKRGPKAAA
+AGSKTWKSSDDWGVFRAVVVGVGVVIAAIGAYYLITGTAGVAETSGGAVNASLESQFRFF
+SAMMIGVGAAFIAIAIKFQWANMLWLVCLMVFLGGIGRVLSWAFSGTPHFTLIILMIVEL
+AFPPALLVWHRFIAKTSELRREIHHGSEGGSAPAGTGA
+>tr|A0A0P7GD34|A0A0P7GD34_9MICC
+MSAQDAVDSNSPGQAGSRFLGSLYARNIRAVFARGLKATWGTNWSIMISGFVEPVLYLIA
+MGIGLGALIGTVTGPGGEQISYAAYIAPALLAVSAMNGAVYDSTMNVFFKLNYAKLYEGM
+LATSLGPLDVALGEILLALLRGAMYATGFTAVMAAMGLVTSPVALLMIPAAVVVAFGFAS
+FGMAITSYMKTFQQLDWVNFVMLPMFLFSATFYPLSVYPQAVQWIIQALPLWHGVEMLRQ
+ISAGAFSIATAGHLLYFVVMIAIGLIVTTRRLEALFQK
+>tr|A0A0P7GRW4|A0A0P7GRW4_9MICC
+MSTTELSRESGAAAQGSGADLVLSGVTKRFTEFTAVDNLDLVIPSGSFFALLGPSGCGKT
+TTLRMIAGLEQPTAGSISIGGKDITGTSPYQRPVNTVFQNYALFPHMSVLDNVAFGLKRR
+KIRDAEAQAKEALELVELAHLAARRPAQLSGGQQQRVALARAVVNRPAVLLLDEPLGALD
+MKLRRQMQVELKKIQTEVGLTFVHVTHDQEEAMTMADTVAVMNHGQVEQMGPPQELYELP
+RTAFVANFLGKSNLMQATVTGDAGEYLQIDVAGNSLTLLKERATDHTGKILVGIRPEKLR
+MEADTAAAAPGSIRGVVLDASFTGASTEYLVDAEGIGTVGVFAQNHGGALFNDGDRVRLA
+WDPEHAFGLSGSEDREAGAGEDGL
+>tr|A0A0P7FPG9|A0A0P7FPG9_9MICC
+MIDALLRRPASTAEVASDGVRLLGVVSLLAVLLWHGPVEAALFALVLLGLLVSRCLPAAP
+LFSSLYGLTLLLAAWSSVMDLYARISWWDLAVHFAATGTIAVMAWYLLAAYGAVTAWHPG
+GRPVPRFAVPAVVTTLGLALSVLWEFGEWWGHNYVDATINVGYQDTIGDLAAGGFGSLLS
+GFLLGRMIRRNPGAAVPGVRPGVPLQRRLQE
+>tr|A0A0P7FY36|A0A0P7FY36_9MICC
+MPSRSISTTPAAAPDGSAGEAGIVRSVQQKPFAWLVLITSVIGWLGSGILVIERLRVYAD
+STYITSCDISPWVSCGTVFQTWQAALFGFPNPLIGIVAFAVMITVAMSMLAGGRFARWYW
+AAVQAGVTLGMVFVVWLWSQALFDIYVLCIYCIVVWTAMIPLFVFTTVRNLAHGVIPAPA
+ALVRFVSEWAWVITALLWVATAASIFFRFMNSFLGS
+>tr|A0A0P7HL62|A0A0P7HL62_9MICC
+MGTQGWADVDSYLTATVVHPDPALEAAVEDSAAAGLPPIEVSPGQGKFLMLLARIHGARR
+ILEIGTLGGYSTIWLARGLADGGTLVTCEYEPLHASVARENLDRAGVGHQVEVRVGPALE
+TLPGLEGQEPFDLVFIDADKVNNPAYLEWAVRLSRPGAVLILDNVVRYGGVLDSGGDETV
+QGTRAALELLGSHPRLEASALQTVGAKGWDGFAIAVVK
+>tr|A0A0N8HXW7|A0A0N8HXW7_9MICC
+MSDVLEFAGVSVVRGGKTLLDGVDWQVREGERWVIMGPNGAGKTTLLQIAGGRMHPTRGM
+AGILEEVLGAVDVFELRPRIGLASAALANQIPEHETVLNVVLTAAYGMTGRWREKYEKLD
+ERRAFHLLHDWGMSTYINRRFSSLSEGERKRVQIARALMTDPELLLLDEPAAGLDLAGRE
+DLVQRLANLAADEEAPAIVLVTHHLEEVPPGFTHALLMRDGAVVAAGEIDTVFTEEHLST
+AFDLPLTVQRDAAGRYSATARR
+>tr|A0A0N8HZ49|A0A0N8HZ49_9MICC
+MTSHSSESTFNPLEGVSEDGVMAPAEYDAILLASFGGPEGQEDVIPFLRNVTRGRGIPDE
+RLEEVATHYRANGGISPINEQNRALKAALEAELDRRGIKLPVLWGNRNWDPYIKDVLQDA
+YDAGYRRLLMVTTSVYSCYSSCRQYREDLGINLVETGLDKKLQVDKVRQYFDHPGFVEPF
+VEGVRESLARVREQLAEAGKENGKIEILFSTHSIPTADAEASGPRDVEFEEGSAYVAQHL
+ANARAIMDRVPEAAGLDWQLVYQSRSGAPHIPWLEPDINDAIAELPAKGVDGVVIVPLGF
+VSDHMEVIWDLDTEAMETCTELGLAAHRAPTPGIHEKFVSGLVDLLCERTVENHIAERPA
+LTKLGPWYDVCRPGCCANLRGEKPTIAGADSTVGVQ
+>tr|A0A0P7H873|A0A0P7H873_9MICC
+MRNEGLGSWIHRRRVKSAGMPAVAGAGIELTYDQLAERIERLATALAARGVTRGSRVAYL
+GNNHPAFLETLFAATSLGAVFVPLNTRLAPPEVRFALQDSGSTVLIHAEELDGLAVLGCT
+ESPVQHRLMVAAELGQKAGVHQAETAAPAGGPAAEPYEEVLQGAAGESRDEPVSLEDPAI
+ILYTSGTTGNPKGALLTHGNMTWNSINVLVDYDVSSETAALMIAPMFHVASLGMGALPVL
+LKGGKLVLHSRFEPGATLAAIEEHRITSLSGVPTTYQMLAEHPAWESTDLSSLRMLTCGG
+SPVPARVLDAYEERGLSFSGGYGMTETSPGATALPARYSRAKAGSAGLPHFFTNVRIAGS
+GGTQAAPGEVGEIQIRGGNVIREYWNRPDATLTAFSDGDWFNSGDMGYFDQDGFLYISDR
+IKDMIISGGENIYPAQVEQLIMELREVSAVAVIGVPDERWGEVPHAVVVRAEDAELDEAA
+VLAHLEGKLARYKVPKSVEFRDALPTTASGKIRKADLRQAALGTAG
+>tr|A0A0P7G796|A0A0P7G796_9MICC
+MFGAPLIDHHCHGVMARPLQRAEFEDLATESSWPGPAGTTFFDTQLGFAIRRWCAPVLGL
+EAHVSPEDYLARRAELGADAVNSLLLSAANLDTVLVETGYRGEEITSPEQTGLLASAGFR
+EVVRLERIAEEVAAAGTTPGTFAADFAAALEERSRNAVGVKSIMAYRYGLDFNPDRPSDQ
+EVQTAAAQWLAAAGNEPRMDHPVLLRHLLWAAVDLGKPIQFHVGYGDADVDLHRCNPLNM
+TAWLRAVRSRNVPVMLLHCYPFQREAGYLAHVFPHVYADVGLAVNYTGSRSDAVIAESLE
+LTPFHKAVFSTDAFGLPELYFLGAHLFRRGFDRVVGRWVEDGEWSPADAERVAHLIGHVN
+SERAYGLEPR
+>tr|A0A0P7GNU7|A0A0P7GNU7_9MICC
+MSAASPSAVSRVFTAVIAGASIPMALIIPAWITAGRILVGADGRLVTVFALTAGPLLAVL
+MLTAAVKITAGAAARTPFGAPMKTSVLLLANWFLGGIFGFFVPDFGTPQAGSVFSSLAGP
+EVLGYSAALANPFGIATLFITVVVLVRAFRDASRSRSIGVIRR
+>tr|A0A0P7G7H9|A0A0P7G7H9_9MICC
+MGAPHPKAPWVPILLRSAIAAVYGGVTIFWQEPTLSVLALAGGLYLLLTGVSLWRMSALA
+RSCNVPQVPAALLVSAAVYAVAGVVTAVVQSATVFAFVAGAALLVGGLIEFAFWFRVRKA
+FTPARDWLITGAAAIGAAVLMPVFLSLAESSHIRALLGVSGGSAVIIAVVLAISGLGLRH
+DASLAPESKDARQAVN
+>tr|A0A0P7GWW3|A0A0P7GWW3_9MICC
+MTEYPDLLSVWMVNSAEGTGTQGITQANPIGVSVEAGDVLAALDSKSDRHLLIPLLPGEA
+VSDQADGAAVRLSRVKFQSRDYLSAFCTVRRLDTVFTQFARELLEVLRESESPAHDVTHA
+FHEWKALFAAATGPELNVSEQIGLLAELQLLERLVRAGDHQALSHWHGPDKSQHDFCADD
+TAIEVKASLAREGRRIGISSLQQLEAPNNDTGRLFLAYTRYEHSSTGDSLPSMVDTILNL
+GVESSLFERKLRRAGYFDSHREAYLNSRFALKEQRLYDVKQEHFPRVIPPSFEQSELPPG
+VVSITYVIDVTNEPPTPLEQVETLALIEGFADSDS
+>tr|A0A0P7FAD9|A0A0P7FAD9_9MICC
+MTSFDLVIRGHRIFATAGTGAWEVGVRGGVIAAVEPLGTGLSGTREIELATDEVLLPGLV
+DTHVHVNEPGRTEWEGFASATRAAAAGGVTTLIDMPLNSIPPTVSVAALEAKREAASGQV
+YIDVGFWGGAVPGNTARLRPLHNAGVFGFKCFLVHSGVDEFPHLEPEEMEKDLTELAAFD
+SLLIVHAEDPQVIAEAAQPSGPQYGRFLASRPRAAENKAIARVIDAARRTGGRAHILHLS
+SAEALPLIAAAKREGIRLTVETCPHYLTLTAEEVPDRATAFKCCPPIREAANREQLWQGL
+TDGTIDLVVSDHSPSTLDLKDLQHGDFGVAWGGVSSLQLGLSVVWTEARRRGIPLERVVA
+WMSRGPAELVQLDRKGRLEEGADADLAVFAPDESFVVDPARLHHKNPVTPYSGKMLTGVV
+RRTFLRGTQVTHVAESPEAPSGCLLRR
+>tr|A0A0P7FFY7|A0A0P7FFY7_9MICC
+MTNNTSTRKHSNFPPGFIWGSATAAAQVEGAAREDGKEDSVWDAFAAIPGNVLNGDTPSV
+AVDHYHRMPQDVALMKKLGLDSYRFSTSWARVRPGGGALNSKGLDFYSRLVDELLSAGIL
+PWLTLYHWDLPQGLEEQGGWTNRDTACRFVEYAQDVYAALGDRVKHWTTFNEPFCSSLLG
+YGSGVHAPGRQDPNAAVAAVHHQHLAHGMATSELRTLGAEQVGITLNLSNSIPKDPNDPV
+DLEAARLFDSLQNRIFLEPILLGAYPEDSLRDLEPYGLHDIILPGDMEVIGAPIDFLGVN
+HYHDDQISGHPDTSGEDGHGGGSGRPVASPWVGAEHITFPSRGLPRTGMNWEVNPEGLRK
+LLVRLGQEYPQLPPLYITENGAAYDDEVSGDGAVHDTERTSFILDHVKAVGEAIDEGADV
+RGYFVWSLLDNFEWSWGYDKRFGIIHVDYQTQERIIKDSGLAYSRFIAESRGGSVAGAHS
+TSPETAPVG
+>tr|A0A0P7GCU8|A0A0P7GCU8_9MICC
+METGPGTEADAFEDAGTVRPPLLPEEAWRTGPCLGTGSGASVWLVEHIGEGQSYALKIPH
+AGSTLRDDYELRRELTILSRYHHENLLGVHGIVAAADGPGLLLEYAPGGSLARVVAARGA
+LTPGQAVTVLVGVGRALQALHDEGAVHGRLTPGNVLFTANGKPLLADFGAGVILPPAHGL
+KAGDPGSCTAGVSTSVPGHGPSEDVYALGALGWFMLTGRPLVPGLRPPLGVLVPEAPAVL
+RDLLDSALREDPALRPGAGEFAAEVLGAWDPEPMDLLTAGLRRPGAGASVSLRAGSGRRR
+RQKQGRKPRSAGTGPARRRVAEGGHGKARMVIATLLVSATAGLGAVAVLAPEVLYPRQHA
+FVPASGDTVEGSALPGRSDAADERPGSGEAAGTGEPSAEEQAALAAEDPLTAVRVLSALR
+ARAFEQGSTELLAWVNQEGSAAQAADQAQLARLEERGERLAGFGVEVLQASAAERDGPGG
+PPAGAARIHVSAQLSGWQQVRADGTEAAPAGSPVRQDVLLEMVRVEGQWRIAAVLPAAAS
+LDRRGEAER
+>tr|A0A0P7GT40|A0A0P7GT40_9MICC
+MSERIVLAYSGGLDTSVAIGWIAEATGAEVIAVAVDVGQGGESLETIRQRALDCGAVEAY
+VADARDEFAAEYAMPALKANSLYMDSYPLVSALSRPVIVKHLVAAAREFGATTVSHGCTG
+KGNDQVRFEVGIQTLGPDLKCIAPVRDLALTRDKAIAFAEEKNLPIVTTKKNPFSIDANV
+WGRAVETGFLEDIWNGPTPDVYEYTSDPASGIAADEVVITFKEGVPVAIDGKPVTPLQAI
+EEMNRRAGAQGIGRIDIVEDRLVGIKSREIYEAPGAMALIAAHKELENVTIEREQARFKK
+TVGQRWTELVYDGQWFSPLKNSLDAFIEDTQKYVSGDIRMNLHAGRATVTGRRSESSLYD
+FNLATYDTGDTFDQSMARGFIELFGMSSKVASARDLRLAEGK
+>tr|A0A0N8HX53|A0A0N8HX53_9MICC
+MQKASLAYGVVFLLVGVMGFIPGITTNYESLAGAGHHSEALLLGIFQVSILHNVVHLLYG
+VAGLLLARSAGGARAFMLWGGVVYLVLWIYGLVIDGESTANFVPLNNADNWLHLFLGVTM
+IGLALLLTRSRDRAAAHPA
+>tr|A0A0N8HXR9|A0A0N8HXR9_9MICC
+MSTATDPATQHDAVHPADSHGLIQVLGARENNLKNISVDIPKRRLTVFTGVSGSGKSSLV
+FATIAADSQRMINETYSAFVQGFMPNLARPDVDRLEGLTTAIIVDQERMGANPRSTVGTA
+TDANAMLRILFSRLGDPHIGSPNAYSFNVPSVKASGAITVERGGKTKAEKATFNRLGGMC
+PRCEGMGNVSDFDLTVLFDDSKSIQEGALTIPGYSMDGWYGRIFSNTGLFPADKPIAQFT
+KKELQALLYAEPTKLKVDGINVTFEGLIPKIQKSMLSKDREAMQPHIRAFVDRAITFSTC
+PECGGTRLAQEALSSKIKGKNIADLCSMQISDLAAWVRKLDEPSVAPLLAGLQHLLDSFT
+EIGLGYLSLDRPSGTLSGGESQRTKMIRHLGSSLTDVTYIFDEPSIGLHPHDIERMNQLL
+LALRDKGNTVLVVEHKPEMIAIADHVVDLGPGAGSGGGEICFEGTLDGLRTSGTVTGQHL
+DDRARLKDSVRTDSGKLEVRGASLNNLQDIDVDIPLGVLCVFTGVAGSGKSSLIRGSVAK
+RDGVVVIDQSGIKGSRRSNPATYTGLLEPIRKAFAKANGVKPALFSSNSEGACPVCNGAG
+VIYTDLGVMATVESTCEECEGKRFQAAVLDYTLGGRNIAEVLAMSVSEAEEFFADGDAKT
+PAAHKVLDRLADVGLGYLSLGQPLTTLSGGERQRLKLAAQMAEKGDVYVLDEPTTGLHLA
+DVQQLLGLLDRLVDSGKSVIVIEHHQAVMAHADWIIDMGPGAGHDGGKVVFEGTPADLVG
+GQSTLTGEHLAAYVGG
+>tr|A0A0P7FYA1|A0A0P7FYA1_9MICC
+MSGNAATARPLGGFDATTAGIGSIVGAGVFIVFPAAVAADGGPLTVPLVIAAVVAYACGV
+AVFQISAALNEGQANYDDGGTRAARVILGPTAAFVTGWVFLCSRLAASAVAALMVGTYLA
+PDYAVAVAVAAVAVTAVLNLLGATRSDWVSRFIVAFVIAVLAFVAVVAFNSELPAGNPKL
+ATLPEPGLAGLLESSALLYFAFIGYGYLASLGPHVRSPGRNIPLALPAAIAVVLGLYLVL
+GHSLLSYFGPARLAAETTPMVVPVADMSGGVGVGVVLIAAAATGLGALSALNAGCARIGA
+AMAAEGELPAPFGRKRSLLRGRPEIPWVGVVAGAAVVMALVIAFPLSTLLGVAAFTGLLY
+AGGTAVIAFTLHKRRWYTPRVLNVVGIAGTLLLALSLPLLDISLGLMAVIAGAVVRLTFR
+RGRGDARGGPVRPPD
+>tr|A0A0P7HWR1|A0A0P7HWR1_9MICC
+MEDVLSGRGLTIGYDGRTVSEHLDVRIPPGSFTAIIGPNACGKSTLLRALSRLLKPQAGH
+VFLQGKDIESYPTRDVARRLALLPQSSTAPDGITVADLVARGRFPHQSLLRQWSAADQEA
+VSAALEATGVQDLADRTVGELSGGQRQRVWLALVLAQDTPVLLLDEPTTFLDISHQLEVL
+RLCRTLHRTGNYTLVTVLHELGLAFRFADHVIAMKDGRIVAQGPPAEIATPELMKEIYGI
+DALVIPDPATGGPLVVPLEPGHSGPETPRSRADVPLTLTTEGAPA
+>tr|A0A0P7FXL6|A0A0P7FXL6_9MICC
+MPSTTPHHTDLKRGLTLRHIRFIALGSAIGTGLFYGSSETIQAAGPAVLIAYIIAGCAVF
+LVMRALGEMAVRHPVAGSFAQYAGRYLGPRMGFLTGWTFAFEMIIVAIADMTAVSMYMGL
+WFPDTPGWIWMIAAMLLIGGLNLLRVGVFGELEFWFTLIKVSTIVAMIAGGLYLIVFGVS
+TGGYQPGVNNLVDHGGFAPFGVWGIVMSLGIVVFSFGGVETLGVTAGEAGDPQRAIPKAV
+NTVPVRILLFYVLSLGVMLCLLPWDRIGSEGSPFVQVFAGLGIPFAEHLINAVVLTAALS
+AMNSIFYAASRTMYGLAEQGHAPQAFTWVSRFGIPVWPVAIIMACLIAGLGLFLWIPEQL
+FLVVASIATFATLFTWSSILLSHHRMRLQMRREATPSAGFAFPGWPVLNYITLGFMALVT
+VILAFTGPGRTALAVGAVWLLLMLAAYQFLVKDEGRKPIELPEPAREA
+>tr|A0A0P7HNG9|A0A0P7HNG9_9MICC
+MELAALASAAVPALALTGVAGSPDDAADFDSALLVDDAGKQWRVRSPKHVEASMRLETEL
+LVLRAFVPAVRAELPFALPYVAGTVRQGELCTFVYSHLPGATKDIDELAVAGGDLAADVG
+RAMAAIHALPQSLVNNADLPSYTANEFRQRKLNELDQAATTGKIPPTLLRRWEHALEDVG
+LWRFSPTVVHGDLHEDNLLISGNRISAVNGWTDLRIGDPADDFAWLIAANNSRFTDTVHS
+AYVAARPDAVDPHLIRRAALSAEFALAQWLVRGLAAENQSMVEEAEEMLATLEADILAQE
+EALEDAADAGADAAAGPSAPSSPAVQAEPLLQTGSAAKAVPAKPGAPAVSTGTRPSTGGG
+KVTVMPIPEPEPSPKPEPAAEPAEVRAEKDAPPTPEETPAPDVDETGEEAEAGPATTAIP
+LVVADSPAAKDTRNS
+>tr|A0A0P7HWM2|A0A0P7HWM2_9MICC
+MPKVIYYVASSLDGFIATEDNSLDWLLSFGFASFQDHYDSFIAGIGAIIMGAETYEWIRR
+EQPGTWDYGELPCLVLTHRELQAPPGSGVRFVSGDPEPILEEAMLHAGGRNVWVVGGGDV
+AAQFADAGLLDELWITYMPVALGTGRPLLPVRNPISGMHLVGTTSFNGGAAELRFARG
+>tr|A0A0P7GT35|A0A0P7GT35_9MICC
+MSADKQSTWSYTEALPFEDEVLLRARERSHELGVAPVSTGVGAALTVLAASSKAQTVVEI
+GTGAGVSGVCLLRGLGPGSVLTTIDSDVDHLRAARQAYSEAGVPGNRTRTISGRAAQVLP
+RLTDNAYDLVFIDADKPSFVLYAEQAVRLLKPGGLLIINGALDNGRVADPAAREPLTATM
+RQVGRLIRDNDSLVSSLLPTGDGLQLAVKVLPGR
+>tr|A0A0P7GC28|A0A0P7GC28_9MICC
+MERRIFGVETEFGIAYSGPDSRPLSPEEVARYLFRKVVSWGRSSNVFLTNGSRLYLDVGS
+HPEYATAECDDVAQLIAHDRAGELILDDLVDEAEERLAAEGFNGSVYLFKNNTDSAGNSY
+GSHENYLIPRRLEFSRLADILIPFLVTRQLLVGAGKVLRTQSGSLYAFSQRADHIWEGVS
+SATTRSRPIINTRDEPHADAEHYRRLHVIAGDSNMSETTSMLKVGSVDLMLRMIEAGVIM
+RDLRLENPIRSIREISHDLTGSAPLKLANGSTMTALEVQRIYLDRVTDFVQDNGPHNRYV
+PRILDLWGRALDAVETGDTSGIDTEIDWAIKKKLVDRYAARAGLDMGSPRLAQIDLTYHD
+ISRKRGLFYLLQSRGETARVVDDSAVKEAVDVPPQSTRAKLRGDFVRRAKAANRDFTVDW
+VHLKLNDRAQQTVLCKDPFAAVDERVEALLSTL
+>tr|A0A0P7HCZ2|A0A0P7HCZ2_9MICC
+MSTFFSGLFHNKAKIGVLLVTVLLVFYILVVAQRGWLLMTSDGLVAKAMGTAYFVLPAVG
+VWALVRELLFGVQTEKMARILADEGGLPVDDLPRTPGGRIVREAADAEFPKYQAEVEAAP
+EQWRAWFRLSCAYDAAGDRKRARASMRQAGKLFSGSGQPAA
+>tr|A0A0P7GJX0|A0A0P7GJX0_9MICC
+MKPSDLDLLNSVSEPALSPDGTRAVVSVQRPDFAADAYVGQLWSVALDGSAPRRLTRGFS
+DSSPQFSPDGSTLAFLRSAPGGRPQLYAVSADGGEPVQLTDRHLGVSWFRFSPDSSRIVF
+SSREPEKGRYGTLDGVSGGAEDPRLVTTLNYRMNGAGYTRDKFVQAFILTLPDLAAEPFV
+TPAGRAAEGAEKKSGGLPESVKLTSWEADVQNPVFSADGSSVLFTAALHEDADTDLVTDV
+YELRADGTGEPHRLTNLAGSRLTASSPLQSSDGRWLYYLGQDLSETGLDFVARNTALFAA
+PMADPSAAVRLTEPETTDLAGGGIVPADGTDVLVFNLDRGGCELLRAGHSGEVRALVSGP
+RVVTGAACASGTVVVTFTDPQTAGDVAVVDPSAPDSLRVLTDFSAGFREQAGVLDLHEET
+HPSADGYPVHGWVVLPEGEGPHPVLLNIHGGPFSQYGWGLFDEAQAYASAGYAVLMCNPR
+GSSGYGQEHGRAIKEAMGTLDLQDVLGFLEGALEAHPELDAGRLGVMGGSYGGYLTAWTI
+SQDHRFTAAIVERGFLDPLSFIGSSDIGWFFSAAYTGSDPGHVLSQSPFAQVDKVRTPAM
+VIHSEEDLRCPVEQAQRYYTALKLQGVPTEMLLFPGENHELSRAGTPWHRRQRFEHVLRW
+WARWLPTKANPGDESAGAASEPAAARA
+>tr|A0A0P7GWC3|A0A0P7GWC3_9MICC
+MEAWTSGGLGTIRLNRPRALNAMDRSMVEAMDRVLQDWEADDSVQAVVLYGGGDRGLCAG
+GDIRAIATGTDAEAMRFWSAEYTLNARVAAFPKPYVAVMDGVVMGGGIGVSAHAGIRVVT
+ERTMAAMPEVRIGFSPDCAGALLLAQAPGELGTHLALTAGTMSGADAVLCGFADYYVPSD
+LLPEMLAALENAGADAADTVAKFAVEPPAAPLAAEQDWIDECYAGADVAGILERLDQRPE
+AAAGEAAQAIRQMAPFSVAVALEGIRAAAREPDLAKVLQRDLVMAERMIGRPDFREGVRA
+RLVDRDRPVWNPSELAAVDPRDVAWTLAL
+>tr|A0A0P7HLI1|A0A0P7HLI1_9MICC
+MTPSLFSHAPEPEPESPREPVSDVEETCVVPRETEEAFRGFHEYPHLWWPTEFTAFGEGT
+HVEFEGGALVETSEEEESATRAAVQEIRPGQLLELEWNPGTGSTTVSVSFTAEGTGTALR
+ILHTGFDSIPDRADQREASEALWRNVLQRYARFMGAR
+>tr|A0A0P7GJH1|A0A0P7GJH1_9MICC
+MSEEASKVISLAVIPGDGIGPEVTAEAVKVLKAVTASGTAKFDLTEYQLGAEHWLRTGET
+LPDETLESLKQHDAILFGAVGAAPGDTKMPSGLIEREMLLKLRFSLDHFVNLRPSKLYPG
+VASPLANPGDIDFIVVREGTEGPYVGNGGSLRTGTPHEIATEVSLNTAHGVERVVRDAFR
+RASERPRRKLTLVHKHNVLVYAGSLWKRTVEAVAADFPEVEVDYLHVDAATIFLTTDPSR
+FDVIVTDNLFGDIITDLAAAITGGIGLAASGNINMEGTFPSMFEPVHGSAPDIAGQQKAD
+PTAAILSAALLLAHLGFTEEAARVERAVEADVAARAGNTRTTAEIGDAIAAAVS
+>tr|A0A0P7GNZ5|A0A0P7GNZ5_9MICC
+MTPAPYRFQQLSREDFESLAAGHPGVVIPLEQTPYWADFETRLGRDPYGIWAYYDGGKLV
+ATASYLRSRRRLRPSLVVVNGPTWFTERTPEAEARLVATVQEQFRADPAVDPLYVRMQVE
+HVQPPVAGPLEHGWYEREIVVDLTPDTDKIFAAFRPNARNLIRKAEKLGVEVRAVEREQW
+ADVFRTELFPIMQETAARDGFSSFDSAFYETLLTELGDHLRLMVAYVDGKPVSWLITTEY
+RGYAVYYFAASSRDARKTNAPYLLLWEAFKILKDAGNTACGLTGIESENYPSLANVTTFK
+RNFSKTVVTVPTTYDIPLHPLRYRALATALRVRRDAPGLLRRAAARIRRPDAKAGRD
+>tr|A0A0P7GVG0|A0A0P7GVG0_9MICC
+MQDLRLVGVHEGGEHLLLSGRGGETFRLRIDEALRVAAARPARRAGQPAEPDAGPTMTPR
+DIQARIRAGASAEDVAELSGHDLAHIRRYEGPVLAEREYIARQAQSVEVAAPMSAAQDSH
+RSAFGDSPVSLGEMVSHRLRAFGVDPETVVWDSWRRPEGSWDVVARFSLAENSRVSVGEE
+PPARWTYSPLRRQVTNSNRWAQLLSELAPVDSPVPARRLSAVADRVFDFETDTAPEEPVT
+VSEEETDELLNVLRSRRGQRLGTDEEGDDALAALLAKGSIPAAHPREGQAELEDESAHRP
+RTGRLSLAPVPPGGEEDATDAPDPEPVADPLRLDEGISTSTKEISILAKPLRGSRPDSQS
+APEKPDEDRGETPEQAVKEPVTERRIKPKRSSVPSWDEIVFGTKGD
+>tr|A0A0P7FF58|A0A0P7FF58_9MICC
+MTDQPRPASLPLTASNPGTGFTAPAYNFYEAVGGHETFVKLVDVFYDGVADDPLMRPMYP
+EEDLGPAKERLLMFLEQYWGGPKTYGELRGHPRLRMRHMPFQVTPAARDAWLRHMRTAVD
+SLDLAPLHEATLWDYLERAAHSMVNSA
+>tr|A0A0N8HXX6|A0A0N8HXX6_9MICC
+MSPAPITAAGSDVELSDGQLLDAYAWPPEQPDERPRFRFNFVASVDGAASWKGRSGALGD
+DADRRVFALLRSTADVILVGAGTVRSEGYAGELLPLQTQSLRTAQGYPPHPGVAVVSGSL
+DLDPRSDFFTAAPVRPLVITAAAASSARRAALERVADVAVAGARTVEPELAAQVLAERGY
+KRVLCEGGPQLFATFQSAGLVDELCLTLSPAFAPGTAGRITSGTLEAPLQPLLLHHVLRS
+QDTLLLRYTAGNSRPR
+>tr|A0A0P7FXP3|A0A0P7FXP3_9MICC
+MVNSINPGEDHLDVVDLEVVNNGPLLLKRRELTLISERVFQHYGVANGAWAAARNNFLDV
+VVILKEDALTGLAELAESSSPLHPGGLGVEVSSDGRRIDARHQHALVVGAIVGNAIESQL
+ADSHTVSLSVVHVASPRFLVGIVHRLARRGVQVRIVEGENSATFLAQGAIHSAQPSSHGD
+LVEGITAAPSLWWPIYNASTRALSDVTEISRFHTGNTPSPTARRLAIK
+>tr|A0A0P7G4X9|A0A0P7G4X9_9MICC
+MEPDGPGLALGGNIFDVGSLLVGGGLLTALGKVSTKTATRSAANGARKAIEKARSGLDNL
+NIGNPGNHGLVPTIPNGRLPVHIQNPATPEGTWFKDGKARMWRCLS
+>tr|A0A0P7G6L3|A0A0P7G6L3_9MICC
+MTETSPESPLLEVTDLAVGFQTMEGPVQAVRKAGFSLGAGKTLAIVGESGSGKSTTAMAV
+IGLLPGNGKVSAGSIRFDGQELVGLPESKMRAIRGRSIGLVPQDPMSNLNPVTKIGTQVA
+ETLLVHGMATSKDVDRKVVEVLTAAGLPDAAERAKQYPHEFSGGMRQRALIAIGLACRPR
+LLIADEPTSALDVTVQRTILDQIGRMTEELGTSVLLITHDLGLAAERASDLVVMHRGEVV
+ETGPARQLLEDPQHPYTKSLVSAAPSVAAVRLSPGAFAAPAAERLTLVDGNATEPAAPAA
+EPASGPDAGEGAAPDNIVEIRDLNKVFKIRGKSGDFHAVRNVSLEIPRGRTVAIVGESGS
+GKTTTARMLLKLIEPTSGSMTFDGVDIASLAKGQLTDFRQRVQPIFQDPYSSLDPMFTIE
+RILDEPLKTYKRGDRRERAARVRELMEQVALPASMLRRYPAELSGGQRQRVAIARALALN
+PELIVCDEPVSALDVLVQAQILKLLGDLQRDLGLSYLFISHDLAVVRLISDYVCVMKDGE
+LVEAATSEEVFQNPRHPYTRKLLASIPGNELNIEGELAS
+>tr|A0A0P7GDA0|A0A0P7GDA0_9MICC
+MAALSKNRVNHAYLFSGPRGCGKTTSARILARCLNCAQGPTPIPCGTCDSCVELARNGAG
+SLDVIEIDAASHGGVDDARDLRERATFAPVRDRYKIFIIDEAHMVTSAGFNALLKIVEEP
+PEHIKFIFATTEPDKVIGTIRSRTHHYPFRLVPPEPLLAYLEKLCVQENVPVAPGVLSLV
+IRAGGGSVRDSLSVLDQLMAGAGEAGLDYELAVNLLGYTHVALLDDVVDAFAAGDAATVF
+SAVDRVIQTGQDPRRFVEDLLERFRDLIVVSAMPDSAAAVLRGVPEDQINRMRTQASQFG
+GAELSRAADITNTALTEMTGATSPRLHLELLCARILLPAADKSERGTAARVDRIERRLSY
+AGDAAQAMPQDTSSQAGGRPAVRPVSGPTTAPAASPRTAAPQAAPETPETAAPAAVSAPS
+PVSAPSSGGSADWGGTWATPAADSVTSPGNGAPATPAAPAASGRTWDDVSREAASSQPVQ
+QPAQGTRPDSGQSAQAGPDAGRTPQSGVSPAGAPQGQPTGGPAQQQTQPARQVPPQGQPS
+GAPSEATRHQAPAQQQAPAQQGAAPAAPAAGGAGQVEMIRRAWPEIMDALTSIRRATWLN
+VSKNASPRAFDGRVLELAFSNPGAATNFNRPDHLENLRKAIHQVLGVDCQVNAVHDSSAA
+AGEPGPKAGSRLTPPAQTPAPAPQVQATAQAAASVPQVQSQQAPAPAAQAPAATAPAPTV
+PAAVPADVTPPVQPQSNAPAQAQPQAHSGASAAVPGRATADSGSGPVQDAPAAAVPAESR
+AASAPTSASASAEQQAPAAQASAPASATHVSAPHGQAPQAPAEQSPAQQSPGRPDPARPQ
+PAPQARDDRQRPAGATTPPRRTAPLPEDWPQEPSEPADVPESNAWETAAVPDDIHVSSAV
+SDEEWASTNWAGTTSARPGTARAASGQAVPAGRNPSAAGQGSPAAHGASAHLPGRNATQG
+PPAGAQHGAPPSAAPAQERPAPGHNGQGAPAAQQPAPGQKLSRYQQLLHEAAQRNGTAPA
+AAARGKVDLGYVEDVPSADDVTLEDSGLVGRKAIERILGGRLIEERSLDGHGVHR
+>tr|A0A0P7GSW7|A0A0P7GSW7_9MICC
+MPLNGYSVNPEGCASVLSQVEEDDARHEAVSALRNGMCAAEAACTGGFGMVAQALAEVWQ
+DTMSLQIEAAEARIRNAAEGVRKAVFILAGADQEMAETAKAGLAELQAGFLREPQLNRAS
+>tr|A0A0P7GTY2|A0A0P7GTY2_9MICC
+MSFLSRLREDLTAAASHDPAARGSFENLVVYSGLHAIWIHRLTHRMWANPALRFPARALS
+QFARFATGIEIHPGATIGRRFFIDHGMGVVIGETAEIGDDVMLYHGVTLGGRSLAKVKRH
+PTLCNGVVVGAGAKILGPVTIGANSAVGANAVVVKDAPADSIITGIPATWRHRDPKMNQP
+AVDPAEYVDPAIYI
+>tr|A0A0P7FAK1|A0A0P7FAK1_9MICC
+MAEFLYRLGRAAAKRARSVLALWIGVLVICGAAFALFGGTLSTAISIPNTPTTQVTDRLQ
+QELPEASGGTGSVVFQTEDGSEFTAEQREAIAALAEDAKEVDGVENAVDPFATEAQREEQ
+ARQLEEGQAQLDAGRAQLEAARAELDAGQAQLDAARAQAEAAGMLPMAAPQLDAQQAQID
+AGRAELESSAATAEEQAPQLEQGAALLEMSANIRMVSEDGSTAILTVVFEDPQMEITQET
+KDDLVAVFEDAPVEGVSTDFSTDIAQGIPSIVGIGEVIGLIVAAVVLIIMLGTLIGAGLP
+LLSALIGVGIGALGALAFSGVVEMISVTPVLGLMLGLAVGIDYTLFIVNRHRRQLKQGYD
+VEESIALANGTSGNAVVFAGATVLIALLALNITGIPFLGLMGTVGAACIAIAVMIAVTLT
+PAMLKLVGIRILSKKERASISAAAEAPKPAAAPVKPMSTLTAVLTALVSIAALLFIAVPS
+LDLRTGLPDGSSEAHDSTQYRAYSALSEKFGEGQNGTLLVVAELPGEPTEAEATEIQAEI
+AGILFDQDGVSAVAPVGSSEDGSTVAFQVVPEEGPTSESTENLVHTLRDMSPLNGEYEIG
+VAGTASGNIDISDKLSDALPIYLGVVVGLSLLILILVFRSIYVPIIATLGFVLSYFGALG
+GVVAIYQWGWFAPVFNVETPGPILNFLPTILVGILFGLAMDYMLFIGSGMREAYAHGAPS
+RVAVVQGVRAGRAVVTAAAIIMVSVFGGFVFSHSAMIRPIGFALAFGVLLDAFVVRMLLI
+PALMHLAGDKAWWLPKWLDKILPDVDVEGASLERRHPHVDHREPEPANRS
+>tr|A0A0P7GT95|A0A0P7GT95_9MICC
+MGIIAFLILGLIAGAIAKALLPGRQGGGWVITLVLGVVGALLGGFIGNAIFGIGLEEFFS
+IQTWIVAILGSLIVLLVYGMITKRGARA
+>tr|A0A0N8HXX8|A0A0N8HXX8_9MICC
+MSTTVIDVRNAALRLSGKPVLRDVSFTVAEGEIFGILGPNGAGKSTTAECLSGALVPEHG
+SIRVAGMQPHHDLAGIRETVGYQFQSAQLPPALRAREAIELFASFYPSPRNSVELLEAVG
+LGDCAKTPYGRMSGGQQQRLSIALALVGNPRIIVLDELTTGLDPEGRRDVLELIRQMRRE
+GVSVVLITHFMDEAQRLCDRVAVLFRGTTCWTGPPSELVAEARGRNPEVNDLADAYLGLL
+EELRRNQ
+>tr|A0A0P7GAZ6|A0A0P7GAZ6_9MICC
+MTAAVATRQLNTLDRCDRCGAQAYVRAVLESSGGELLFCAHHARAVEANLRPLTSEWQDE
+SARLHQKAGSPED
+>tr|A0A0P7HPH7|A0A0P7HPH7_9MICC
+MGVLIIGYVLLALLVITVVAGASSVYLGHKKLLSAADGAALAAADTFSLAQVQGSGAGVP
+AAALETSRVVSEVERYLQESRAGERIHGLQISPETGTPDGRTARVVLVAVVHPPIVNVLV
+PGGIPITAESDARARLTR
+>tr|A0A0P7GTN3|A0A0P7GTN3_9MICC
+MPPPDQFWDGFYRESTQVWSGNPNALLVREVEGLKPGTALELGCGEGADAVWLAKQGWDV
+TGMDISAVALERASAHAREAGVENLVTLVEADLAEWSATDSGTDHGYDLVCAQFLHSPTD
+LPRNAILQRAVSAVAPRGRLLVVGHQGFPPWGRHPAPDPALPTAEELAAELGLAERGWII
+ETAEAIPRTVQGPEGQEAVIHDNVLLARRGA
+>tr|A0A0P7HD98|A0A0P7HD98_9MICC
+MIPNSEAFQWDSVSPHANEELSEAQCWSLLGGQETGRIAFLQDGRLLVFPVNYLVHDKSV
+YFRTSEDSGLALLPGDLNTSFQVDAHDGEAMAGWSVLVSGRANSVKDESLLTTLWGMRTA
+APYGGGQRNLFVGIDPTQVTGRRVRMG
+>tr|A0A0N8HXN8|A0A0N8HXN8_9MICC
+MSRNVTVLDYGSGNIHSAVRALERAGASVTLSSKSADVLEADGLVVPGVGAFAAVMKGLR
+DVDALRMIGRRVAGGRPVLGICVGLQVLFDEGVEHGVRTQGMGEWPGVVERLAADVVPHM
+GWNTVQAPEGSRLFAGIEDERFYFVHSYGVQKWDFDVTQPAMQPPLVTWSNHGGPFVAAV
+ENGPLSATQFHPEKSGDAGAALLENWLKGLG
+>tr|A0A0P7FDJ9|A0A0P7FDJ9_9MICC
+MAARLEELFARDIAEAAGREEPALAMSLAAAEASTVLNIPHMTAMQLISESSRLCTEAPQ
+TLTQLAEGKIAIQHARIILEETHNLPTDIPEATTANLDGGDPATGDTAGDQSAGEASQLD
+LGLDGMGAPAGRDGGDKSDESSDSANTGVAGGEDMRTGQGGDPRSPGGGTAGALSTGAVL
+SVRAAFERDLLAAAEGRTAAGFGRRARRLRESRFPDLIPIRHRQAKDRRRVTFQPLPDGM
+SCLSAIIAAEKGQAMFAALTGAAKAGRRAGDPRTMDQLRADTLTELLLEGDSRHINPDGP
+SDGAGTVVEHHTGTVSGTGTGTGTGTGTGTGTGTGTGTG
+>tr|A0A0P7GDQ0|A0A0P7GDQ0_9MICC
+MSSKIVKSARAALITLFLGLVVIVGLFSIPVPENESSTVGQLSDKYQVTQVQELLKEFPD
+AQQSTALVVVSREDGGEMTETDIAGIADISAAATEAGVEAPPAQVPPLVSENGVVALIPV
+TLQAASDDGDAVGDEVAALREAVSDAAPQGLKAELTGGAAFTADLAGVFAGANFTLLAVT
+AAVVALLLIITYRSPWLWIVPLAIVGTIEQLSLRMVDVLAPLAGIEVDPSAVGITSVLVF
+GAATNYALLLIARYREELRVHDSVYAAMGKALSRTREAIIASGGTVILALLTLLFTDTMS
+YRGLGFSAAVGIVFAILSALFLLPVALVLLGRKLFWPFVPKVGDPAREGKFWGKLGDATA
+RKPKTIAGIAVIVLLVMASGLFSAKIGLSENEQFTDKPEAVTAAETLSEGFAAGSTFPVI
+VLVDSDEAEAAAEELGSVDGVDNATVSAEHDGLTRIDLITAYEAGTDEANTFIRDLRSDL
+AENPDYGALVGGEAAERVDQLDANTHDVTLVVSLVIILVFLVLLVLLRSLVAPFLLVASV
+LLTFFAASGLSWLLFENVLGFPALDTLTLLYSFLFLVALGVDYNIFLVTRARENAGTMGT
+KKGMLAALRSTGGVITSAGILLAAVFVVLGVLPLVTLTQVGITVAIGVLFDTLIVRTVIV
+PALVFVLGDKFWWPSRPGAKNGKHGRHQAEPEEDPAGDREDAGQASVTGR
+>tr|A0A0P7FYP2|A0A0P7FYP2_9MICC
+MSTLEIKDLHVSIETEQGVKKQILKGVSLTINTGETHAIMGPNGSGKSTLASTIAGHPRY
+TVDSGSITLDGEDVLAMSVDERARAGLFLAMQYPVEVPGVTMTNFLRTAKTALDGEAPSL
+RHWTKDVKGAMSQLRIDADFAQRNVNEGFSGGEKKRVEILQLELFHPKFAILDETDSGLD
+VDALKVVSEGVNREHANGNMGTLLITHYTRILRYIKPDYVHVFVDGRIAEQGGPELADRL
+EEEGYDRFTNAGAASA
+>tr|A0A0P7FYU6|A0A0P7FYU6_9MICC
+MAAKATTISVPGPDGVREVRISSPDRVLWPESGFTKLDLATYMVAVGGAFVAANGDRPLS
+LQRFPGGIDGEQFFSKNPPKGAPDYVRDVMVVYPSARSHPQLVIDEPAAAVWAVQMNTIV
+FHPWPSRAEDSDNPDQLRIDLDPQPGTDFDDAVPAAAALREVLAEAGLEAYIKTSGNRGL
+HVFAPIEPVREFQDVRHAVIAAARELERRMPQQVTTSWWKEERGEKVFVDFNQANRDRTM
+AGAYSPRALPHAPVSTPVTWDELESVDPRSFTVETVPDRLADTGDPWADFGDRPGSIDVL
+LQWWQRDLESGLGELPFPPDYPKMPGEPPRVQPSRRKMDLPEES
+>tr|A0A0P7G9V3|A0A0P7G9V3_9MICC
+MNTRRKPLTILASGLAITALALAGCGGESGDGSAAADELTPVKLQLQWFAQAQFAGYYAA
+LDQGFFEEEGLDVEILEGGADIVPQDVLASGDADYAISWVPKVLGSIEQGAAITNVAQIF
+ERSATLQVAMADSGIDGPEDLAGKKVGSWGYGNEWELFAGMQQAGVEIDDIELIQQAFDM
+NGFLAGDIDAAQAMTYNEYAQVLETENPDTGELYQPEDLTVIDWNEEGTAMLQDAIWADT
+QRLEDDEEYQKTTVAFIKAAIKGWAYAKDNPEEAAEIVTGAGSTLGTSHQLWMTNETSKL
+IWPSTNGVGLIDEAAWEQTVEIALGTKNETGATIISEEPPATAWTNEYVEKALAELEEEG
+VDTKGADFAPIEVELQPGGN
+>tr|A0A0P7H5H9|A0A0P7H5H9_9MICC
+MDSTYVFIALAAVLGLLVLATALFWVRRTQLRRTLGTFDASICFPPGGWRMGVCRYTDTH
+LEWLRLLSLSPVPPYRFLRSSLVLKGWRQPTEAERARIQPGALVVTFEYEGRELHMAMKY
+DVYTGLSSWLEAGPVIGIGTWR
+>tr|A0A0P7GE99|A0A0P7GE99_9MICC
+MDSEQIHEQIQRLVEQEQKLRDTGPSDNAEAHAEQLRSVAEQLDQCWDLLRQRRARMDAG
+EDPDEAEVRPVGEVEGYRQ
+>tr|A0A0P7GI63|A0A0P7GI63_9MICC
+MPVVTMRQLLDSGVHFGHQTRRWNPKMKRFIFTERNGIYIIDLQQSLSYIDRAYEFVKAT
+VAHGGTVLFVGTKKQAQEAIAEQATRVGQPYVNQRWLGGMLTNFQTVAKRIQRMKELEEI
+NFDDVASSGHTKKELLLLKRELTKLESNLGGIRNLTKAPSVVWIVDTQKEHLAVDEAKKL
+NIPVVAILDSNCDPDDVDFPIPGNDDAIRSVNLLTRVIADAVAEGLIARHNKSGNTEAPA
+EPLAEWERELLEGAAAPAAEAAAEAPAAEAAPEAPAAEAPAEEAK
+>tr|A0A0P7H3J1|A0A0P7H3J1_9MICC
+MLQVRNLTRRFGDKTAVDSVTFDIPSGQMTGFVGANGAGKTTTMRMIMGVLSTTAGEILL
+DGEPLTAEARSSFGYMPEERGLYPKQPILDQLVYLGQLHRMSGAAARKGAIELLERFGLG
+GRTKDKLESLSLGNQQRVQIAASLLHKPTVLILDEPFSGLDPVAVDSMVELLRERTSAGV
+PVLFSSHQLDLVDRLCDNMVVLQQGKVIASGTGDDLRAQAVNRHRITISPDAGWVRDEPG
+VRVLDVAGPTAILQFDDDDARQRLLATALTRGSVEEFAPIRPSLSEIYREVTAA
+>tr|A0A0P7GE18|A0A0P7GE18_9MICC
+MPGSSTPASATDHSAAVSSSKDPGLARSMSSRHIQLLAIGGAIGTGLFMGSGKTISVAGP
+SVIFVYMIIGFMLYFVMRAMGELLLSNLRYKSFSDFAADLLGPWAGFFTGWTYWFCWVVT
+GIADVVAIAHYVTFWWAQIPLWIPALACIILLLALNLPTVKAFGETEFWFALIKIIAILT
+LIVVGLVMILTRFESEPGTTAGFENLWENGGFFPTGPMGFVAGFQIAVFAFVGIELVGTA
+AAETKDPEKNLPKAINSIPLRIMLFYVGALVVLMSVIPWTDFNAEESPFVGMFALAGLGT
+AAAVVNFVVLTSAASSANSGIYSTSRMVFGLAHDGDAPEAFGRLSRRKVPQNALFFSCTF
+LLAGVVLLYAGDSVSAAFTLVTTISALCFMFVWTIILFSYLTYRRRRPQLHAESKFKLPG
+GRVMVYVVLAFFVFIVWALTTQPDTLTALLVTPIWFALLGGAYALLRRTPLHQARVAEYK
+AMAEAERKAVEQLSRV
+>tr|A0A0N8HXN2|A0A0N8HXN2_9MICC
+MDLLWIVLGLAAAALGGWPVTSGVLKLARAVEASRPGRDPAHDPAADQAHELHGVPAIPP
+LPRRPPLPPGPVILRGGLVIGFLERIAVATAVLADEPVAIAYVVAIKGLGRYAELKETPA
+AAERFIIGTLASMLWAVGIAVAVRVALGRA
+>tr|A0A0P7GDR3|A0A0P7GDR3_9MICC
+MTPRKLFTTLAFAEAVTWTLLIAALVAKYAFGNEAFTPIAGGIHGFVFLSYAVVTVFVWV
+NQKWSAGTGVLGVALAVVPWATIPFEKSVDKRGLLEGGWRLAPGGEEPKNFLDKVQAMVL
+RRPGASALVAVAGVAVVFSILLYLGPPIPKG
+>tr|A0A0P7GBL7|A0A0P7GBL7_9MICC
+MPRTDRIPAWVRRTGIEVAGWTLIALGAVALVLPGPGLLMLVAGLAILSLRYHWASRWLH
+PVKVQAFRAAEQGVQSWGRIAVALTSALTLIAAGITWGLWRRVPSWWPLEDTWWLPGGWT
+TGTALILSGCIAIALVVYSYVKFRPSK
+>tr|A0A0P7G6Q4|A0A0P7G6Q4_9MICC
+MSDPHQPAWWTSAVVYQIYPRSFADGNGDGIGDLRGILAHVDYLQDLGVDVVWLSPVHES
+PQRDNGYDISNYRRIDRLFGTEEDFDELLGQLHVRGMKLVMDLVVNHTSSEHPVFKEARK
+SRENPYRDYFWWRDARPGFEPGEPGAEPNNWGSHFGGPAWTFEPETGQYYLHLFTPHQPD
+LNWENPKVRHDVYETMRWWLDRGVDGFRMDVINFISKDLALPDGLVGAGSVWGDGSPHFT
+NGPRIHEFLQEMRREVFSGRDGDFLTVGETPGATVDQALLYTDPYRGELDMVFQFEHVSL
+DQIGGRKWDYRPLSLPDLKTSWNRWQRGLADRGWNSLYLSNHDQPRHLSRFGKDDEFRYE
+SATLWATLLHLQRGTPYVYQGEEIGMTNAGFTSIDQYRDVESLNFYAESTAQGMPAEEAL
+EALRAMSRDNPRTPMQWTAGPNAGFTEGRPWIDVNPNHVRINADTDRSAEKSVFRYYQDL
+IRLRHTHDVVVLGDFHLEAPEHPHLFAYRRRLDEAEWLILANVSDQELELPAVLAEEGAL
+VLGNYAEPGEAGRLRPWEARVVHVAGAGT
+>tr|A0A0P7HDY6|A0A0P7HDY6_9MICC
+MHILDSLDAASLRSDIPEFRAGDTVKVHVNIVEGKNTRVQVFQGFVMKRQGDGLRETFTV
+RKVSFGVGVERTFPVHSPVIDKIEVVSRGDVRRAKLYYMRDLRGKAAKIKEKRDFRPAK
+>tr|A0A0P7HFX7|A0A0P7HFX7_9MICC
+MFPAPAESEQRPVWIGLPGIGDGYADESELGWQADALCAQTDPEAFFPEKGGSTRDAKKV
+CAACTVRSQCLEYALANDERFGIWGGLSERERRRLRKQAV
+>tr|A0A0N8HZ32|A0A0N8HZ32_9MICC
+MTRLLIIGPPGAGKGTQASRISERLGVSAISTGDIFRSNVKNLTPLGIEAKKYIDAGNFV
+PDEVTNNMVRARLLEEDVTEGFLLDGYPRTVAQVEELDDILAAGGDSLDAVLLLTADDEE
+LVSRLLRRAEIEGRTDDNEEVIRHRLELYKQQTADVVDAYEKRGIVTRVDGLGDIDEVTE
+RVMQALKQTS
+>tr|A0A0P7FYY3|A0A0P7FYY3_9MICC
+MARTPGTSVPQPVRAAEERSARIAVTVFPLLILAGGAVALVFPEPFSGLGPLINPGLMVI
+MFGMGLTLTLPDFALVVRQPLPVLLGVIAQFLIMPLLGLGIAWALQLPPELAAGVILVGC
+APGGTASNVVAYLARGNVALSVAMTSVSTLLAPLFTPLLALWLAGRYMSVDAGSMALTIV
+QIVLIPVILGLVIRSVAPRAVDRVLPALPWISVLAITFVVVAVVAGSAAAILTAGWLILL
+AVVLHNGLGLALGYGAGRLFRLPVPSRRTMGVEVGMQNSGLAAGLAREYFSPEAALPAAV
+FSVWHNVSGALAASYWRRRPSS
+>tr|A0A0N8HZ30|A0A0N8HZ30_9MICC
+MGIRKYKPTTPGRRGSSVADFTEITRSTPEKSLVRPLPKKGGRNNTGKITTRHKGGGHKR
+QYRLIDFRRHDKDGVNARVAEIEYDPNRTARIALLHYVDGTKRYIIAPNKLKQGDFVEAG
+AGADIKPGNNLPLRNIPVGTVIHAVELRPGGGAKMARSAGASVQLVAKEGRFAQLRLPSG
+EIRNVDVRCRATIGEVGNAEQSNINWGKAGRMRWKGVRPTVRGVAMNPVDHPHGGGEGKT
+SGGRHPVNPNGKPEGRTRRPNKESDKLIVRRRRSGKNKR
+>tr|A0A0P7FF48|A0A0P7FF48_9MICC
+MSSSPVAAEPRYMQTKALWLAFAGVHLLFFGLLSPLIFTGEVLSDIQFYRQWAFEGIRDG
+AWQGISSDWVYPIGALVPMLLASAFGYGAYQFAWFLIFTALNAAGFAVLTAPRTRQRCVA
+AYWWLGITALLGPVAVGRIDGLTVPLVIMGLLLLASRPVVASLLLSAATWMKVWPAAVIL
+AVLAVSKRRLTMLITGAALSAVIAAVVTAAGGLRHLLSFVGAQGDRGMQLEAPFTTPGLW
+QAILGRSDAHIFEDTVINTREVRGALGEPVAALMTPLLALAAVAVVALLIWALRRGADTG
+ALLATGSLALVAAFIVFNKVGSPQFMLWLGAVVAVGIAWEGRAWRLPAAMMIAVAALTTL
+VYPMFYEALYDDLNIGVALLLTVRNLLLMALFVWAVGKIVGLARAGALSESAVRPGQVP
+>tr|A0A0P7GM26|A0A0P7GM26_9MICC
+MALNAQGLAALETLEVLMKTSVSKDAAINTLRIMLNNDGLVEDVLTERDLIIKQRLADAH
+GVTVFDEESETEPWYAGPQPHDVFWPSLKAKLQADPGWANAVPSLDKTSTDVVSLLADPH
+SETIRTRGMVLGYVQSGKTANFTATIAKAADAGYRLFIVLSGVHNSLRRQTQLRLDSQLC
+DLRPADWVQLTDEFGDFGNPVKALPLVAGSQLRLLAVVKKNVSRLTNLRDWLLDAHEKGG
+LNKCPVLIIDDEADQASPNSARDAELDQTAINGLLVDLLGLPRVAYVGYTATPFANVLAN
+PADPQNIYPRDFIYSLPKPAGYFGSEELFGAAVAEPEESSEDQGHDMIRFVPDAEAEAYK
+SSSKSPYSPKVTPSLSDAIRWFLLATAARRFRNGEAKHSSMLIHTTMRVDPQNTLVPVIR
+KHVKDLQKELQSGDTSKWQNQWESEVQREPAARHNLVAPSFEELLGLLPDVLTDTKVVAD
+NSASPERLIYAADPATVIAVGGNTLSRGLTLEGLVSSFFLRTAGAYDSALQMGRWFGYRR
+GYEDLPRVWTTRKLKDDFQFLAEIESDLRSEIKRYEGGAASPRDVAVRIQTHPRMQVTSP
+LKMQFAIKASASFSETHPQTTYFDRTNSEILVGNIEATKELLSAAKNEALDKGVYGQGDV
+FKGVPAESILSFLDHYHFNDKSEMSEGMLSDYVKTQLEFGALREWNIAVVSKSGQSDGSA
+KTLDLGLEQNVNLITRSQLNSSEPDTANIGTLMSRVDRVLDLGWTASQAKVASDAQLQEV
+RNAEGRPLLVIYPIDKDSAPQPHLKSRKELNAAEHVVGVAFSFPAAAAGSEPKNAIQVDV
+SMLNTDEADDSLSTYVDAEGSHDKVALG
+>tr|A0A0P7HF19|A0A0P7HF19_9MICC
+MEYLVLEVQANKLEVWVPMAKAAEVGLRPVLNGPELQKLMEVLKAGADAEETQWSRRFKE
+NTELLASGNITDVARVVRNLTLRSLDKGLSHAERDMLRHARRPLLTEISLSLGVSEDEAS
+AVLDGVWSGSADSLSEPVT
+>tr|A0A0N8HXK9|A0A0N8HXK9_9MICC
+MKNSAAFDGGLRERKRAATHSAITSAARALTAEHGLAGFTVEELCDQVGISRRTFFNYFP
+AKEDAVLGAPATLPEELTGPFVAAGSADHGLTPTLLQDLVDLSVAYMESMAVSRAELAQL
+KDALSTEPRLVLKLMQGTREADERLRGLIARREHLDPGDPQVTAVATVFSALIQRAGPEF
+FDPENKLSYRAVLTSAVESARAAFSSFSPVTSSKDQS
+>tr|A0A0P7GIE2|A0A0P7GIE2_9MICC
+MAKRSKAYEAAVAKIDADKLYAPVDAVALAKETNPSKTDATVEVVFRLGVDPRKADQMIR
+GTVNLPNGTGKTARVLVFATGEKAEAAIAAGADFVGSDDMIEKVAAGWTDFDAAVATPDL
+MGKVGRLGRVLGPRNLMPNPKTGTVTPNVAKAVSDIKGGKIDFRVDKHSNLHFIIGKTSF
+DAQKLAENYAAALEEVLRLKPSASKGRYIQKATVSTTFGPGIAVDPNVTKVLADA
+>tr|A0A0P7FU59|A0A0P7FU59_9MICC
+MEIIEYRPRPDQLVYTFGGAEPVLRINPGTALKLWSEDAFNNALTSVEDLSSEKVNLNFV
+NPQTGPFYVEGAEPGDTLALHIVELTPARDYGASATIPFFGGLTSTDRTAFLQAPLPDTT
+WIYHVDSARQTVGFSARFGDFEVALPLEPMLGTVGVAPPGGEVRSSLVPERFGGNMDAPE
+VKAGTTVYLGVNQPGALFSIGDGHYRQGEGEACGTAVEGAMHSTILVELIKGGAPAWPRL
+ETDAEWMAVGSSRPMEDSWRIGQVEMVRWFGELFGLHQMDAYQLLTQTAQAPIANAVDAN
+YSVVVKARKSLFPAAEAYDGLHADLRRRSAELL
+>tr|A0A0P7HDN8|A0A0P7HDN8_9MICC
+MAYPALGGHDVERAVERGRTQGHAAGYAAGMHAAAAETARLREELRIRFDAETAALRARA
+DHALQLLNNAEQSLAKLTVPVVAEVQDSLAAAALDLAEALLGRELANGETSARAALDRAL
+SGVDTRLVHQVRMHPADLAVLGDDVLNQAGVVFTPDASLKRGDAVTEFPDGFLDATLGTA
+LARAKAALLGDDTP
+>tr|A0A0P7HJA8|A0A0P7HJA8_9MICC
+MPEPAALRAKLPGLAAAAAAVAVCLVLHRLLPAIPVLTAAVVLGLLAGNLPGAAALSAGP
+WRPGLALSAKKLLRLGIVLLGLKVSLMDIAGLGWLTVLLLVGLVGFAFAVTYWICRAFRL
+PGEQPVLMAAGFSICGVSAVGAVAAVRQVRQEQTAVPAAMVTLCGTLAIAVLPVLGAVLG
+LTPEVFGFLAGASVHDVGQVVATAQTGGAAALALAVVVKLVRVLMLAPVSALAGLQHRRR
+SGGEGKMPPLIPLFVAGFLAAVLLRSTGLLPVSVLEAAALIQELLFAAALFGLGASVDFR
+RLARTGAPAAAAGLISWAVLVGAALLLAVLLVPAA
+>tr|A0A0P7GD59|A0A0P7GD59_9MICC
+MSACGGGSGSSDLDPEADISQQKLVVGIWADYYPEDLAETFEAETGVPVQIVHHATNEEI
+MAKLTAGGDSGIDVAFVSGQYAQALNEGGMLQELDHSLIPNIENLYPEAMEMAYDDGNTF
+SLPYTWGTTGLCYRSDLLPAEPTSWKDLLEPSAEASGKTTMLSTERWMALPALKALGYSV
+NSDNPDELAAVKEQLTATKPTLLSFDDTTFYSKLVTGEAVLTEAWDGWCNYGIAEDPNIK
+FTVPEEGSDLWVDTMTVLKSSQNKEAAMAFLNYVLEPEVHSWAAENILYKVPNKAAMEAL
+DAELLATYPNLTVTPAELAEQEVIVDLGDYSTEYTRLATEISAK
+>tr|A0A0P7GVR8|A0A0P7GVR8_9MICC
+MARIYPQRMTHQHEGPLVVFLIGMRVNRIFRPDLWMPVFMAMPRMLAELSADSSSGLLGY
+RITVGAGGPLVIQYWKTPEQLYAYAGDTSAEHRPAWAEFNRRARKVPGAVGIWHETYAVD
+RAESMYVGMPVTGLAAATGSREAAAGSRAAQRLGQPRTAA
+>tr|A0A0P7HCS8|A0A0P7HCS8_9MICC
+MTNTYAPEPDAVPGSRPAAVTQTQPRRPAFFRSATWRAFGYHGVTLLLAPFALAYAVTTV
+SLGASLLVTVVGLVIVAAMVVAGRYWGTVNRSLTASLLGRHIDAPPPFTPRRGFFGFLWS
+GLADTAGWRAIAHMVVSFVTSVTAAVLSITFLVTGLGCMTHWYWSQWLPATQASDGSWHR
+GSMIAPDVFVEGFWWQAAYVGVGVLMTFVLWPAINNGSARLQAALTAALLGPTAAQVRVR
+DLEASRSSSVTTADAPAGQDRTGSTRRNAGAAGCHCHEARGCPGPPLRR
+>tr|A0A0P7GHV3|A0A0P7GHV3_9MICC
+MTSADLLATLRRRWYVLLAGLCCTGLAYWGLSQSAPVYAAQSDFVFAEPGLPGQGRSLTG
+TEPQTLIDFTAIVERKVLAGATSTKLASPTASLFGTGIRQGTSISMLDTGGQWLSSFSRP
+VLSVQVAAPSPEEVSAEMERVLLEVRAVSEALQADAGAAPSSMISVERAPEDLIITSFGK
+TKMGEAKALTVLSVTGLGLSCAAAAATDAMALRRARTGRRHRSGNGKRARAEAAAWQG
+>tr|A0A0P7FP91|A0A0P7FP91_9MICC
+MVENGGYPVIGSGGEFRRSSEYLFDGESVLFGRKGTVDKPLYVNGKFWTVDTMYYTRIDT
+HRLLPKFLYYWATRIPFDFYVTSTALPSMTQTDLGSAKIGVPALHEQEAISNYLDCETDE
+IDAFISDQEDLIALLEERRTAITAQAVTKGLNSSVPMKDSGVTWIGEVPAHWLLSTLGHH
+FEVVLGKMLDGAKETPVGARVLPYVRAGNIQDAGLDLSDVNEMAFTSYEAERLNLMAKDL
+LVVEGGSVGTVHYLDSAMDGWSFQKTVNRVRSLGSADTKYLGYLIRVFRDSGVFEVICNG
+STIMHLTAEKLRALLIPVPPIDEQRSIAEFVDHETAEIDAAIADARQAIKLSKERRAAVI
+SAAVTGKIDVRDRMARASTNKVGAESVGVA
+>tr|A0A0P7FPZ7|A0A0P7FPZ7_9MICC
+MSGAAVETAAGHAVGGNVSGTSAGPSRLRRRFRAWRLWIILALVLAGGVVLSLLTSTSAD
+RTPLSAGNPSPNGAQALVRVLGERGVDVVQAPDFDSALRALDAQDATLLFFDPNEYLGAG
+QLAELRAAAGKAVLVEPTFAQLRGLAPGISQAGLVPEETVETGEVTGPRCADPAAEAAGT
+VSAGGLAYRGPVTCFPVTGGAGEPAGLFAAEEDGSAAVLGYSGLLANGTITENGNAALAL
+RSLGSAGTLVWYLPVPSDIPAGDAPANPFSLLPDWVDPLLVWVVVVAAIAAFWRGRRLGP
+LAMEPMPVVVRASETADGRARLYQDSRALDRAAANLRAGTMVRLAARLRLGPGSTSAAVV
+EAAARSTGRPASEIDALLNRHAPANDSDLVTWSQELLYLEEEITES
+>tr|A0A0P7GIH0|A0A0P7GIH0_9MICC
+MPRSLKKGPFVDQHLFLKVQAENEKGTKNVIKTWSRRSMIIPDMLGHTIAVHDGRKHIPV
+FVTESMVGHKLGEFALTRTFRGHVKDDRKGKRR
+>tr|A0A0P7G887|A0A0P7G887_9MICC
+MASTVVVPEALRRRYGRSREGRDWVDSLPDLVDAAFAAFGLQFDGTAGTAGWHGHGALVL
+PVLAADRSPAVLKLPFPHPEAAAEAPALHLWAGRGAVRLLGQDPTGSALLLERLIPEVSL
+LQAPMEDAVQVWGGLIRQLGIPVADEPEWAGIPSAAERAEQLSDELPAEWEDLGQPFERW
+LLEEALAVCQTRGIVGRRSSRDVLVHADLHFGNVLARPAGGYAAIDPQAVCGEAEYAVAP
+MLWNRLQDLDPAAPEAALLQRLQDLCAAGGLDAEAAAEWSILREVANAVDYLRDGMAGDA
+QRSLWVASALAGKAHPGLPPVSELPAA
+>tr|A0A0P7HCS1|A0A0P7HCS1_9MICC
+MSANWSFETRQIHAGQEPDAVTGARALPIYQTSSFVFPSAEAAANRFALAELEPIYTRIG
+NPTQEAVENRIASLEGGLGALLLASGQAAETYAILNLAQAGDHVVASPSLYGGTYNLFKH
+TFKKFGIDVTFVANPDNLDQWREAARPNTKAFFGEVVSNPRQDVLDIEGISAVAHEAGIP
+LIVDSTLSTPYLIRPIEWGADIVVHSATKYLGGHGTVIAGAIVDSGNFDFGADPEKFPGF
+NTPDESYNGLVYARDLGANGVLGANLAYILKARVQLLRDLGSALSPFNAFLLAQGLETLS
+LRMERHVENAAAVAQWLEAHDDVISVAYAGLESSPWYERGRKYGPRGTGAIVSFEIEGGV
+EAGKRFVDALELHSHVANVGDVRSLVIHPASTTHSQLGAEAQAAAGVSPGLVRLSVGLEH
+IDDIIADLDAGFRAAKGA
+>tr|A0A0N8HZ37|A0A0N8HZ37_9MICC
+MSDLLVFGILGGLGLFLLLCGIMVHLKRWLRLLLMNGLFPGQPALATTWLGLSFCLLALG
+GLVGTERLPDPVPGLLGLILFPAMIAGVVGMFWYPMFLRPRWMRRDAALQARGEDLFAKR
+FLQGQGKPSDGQQP
+>tr|A0A0P7GHQ8|A0A0P7GHQ8_9MICC
+MPTKITFVIYNPADPSAFESSYEAIASNARRFPHLVRYEAAKVWPKENGSPTPAYRTLDL
+YFDSYEDASEAVTAPVARELFEQLGATDTPFIALFSDIEAS
+>tr|A0A0P7HJ17|A0A0P7HJ17_9MICC
+MAAVDGTPSRRKPSRRQPRSVVARAAMDAALEHGFERVTVEMICSRADISRSTFFNHFPS
+RDAAILGKPLDVPGPEVTHPILSRHPEDLVRGLLEMQVPGLVTRTPNSDILRDRTRLITE
+QPAAMRQYSAGLISIQNGLTDTVEGWLRANPQHARLPGKPRTEAVLTVTAAYAAIYAASN
+GWTIPLRDLAEPLSACLTAADALRDMVGVNDPSRPVSRPDVRPPGSADTSAPGTGLRERK
+RRDTENRIELAAARGALERGFAAVTVDEICQEAVISRSTFFNYFPSRDAAIVGRPLRVLP
+QETAEEVLSRHGRDTATGAFALVFASLGYSSINSEVARLRAELSRKQPAARDAGTTTLVD
+AGTQIMATIRDWLAASPQYSSLGGDPAYEASLASNAAYAVICVMEDGWLGAASDVHASAN
+GFAAAMTDLRTALARPDSSA
+>tr|A0A0P7HDL3|A0A0P7HDL3_9MICC
+MIFIVVKFKVKPEWTDRWPELTAAFTAATRAEDGNLWFDWSRSLEDPNEFVLVEAFKDDA
+AAAHVNSDHFQQAMKDMQPALVETPRIINTLIDGQEWSRMGELEVK
+>tr|A0A0P7HLK9|A0A0P7HLK9_9MICC
+MSSVNSGRRRAATPQVSTLTALSKAVTANAGSVGRQAAVVVAASGLVLAAGMPAQAAPVS
+TDRQALEATPLNVVTSNGTVTVSEQAPFELPVQPLAGSLSGAETRAQIAAAEQAAAEEAA
+AVAAAAQQEAVAAAEVAAQQTAAAPAQAAGNVTTASSAPAAPEVGASGVAAGLVASAYAQ
+IGVAQDCTAMVENALRSVGKSVGDLAPGQFFAFGAVVGSPQAGDLVITGGHVAIYVGNGQ
+VISGGLNGMNTGLHSLSDLPGASFVRVS
+>tr|A0A0P7GVP8|A0A0P7GVP8_9MICC
+MNTDLIPAAGTGAVEPAPRRRARIRTYVALFAGVLIANAALFGWGLAAGWWHPHASSLQV
+IAAISQVNILFSILPRQHWMVNLLSFLATRAPTSWPLRLRWRLAQYYHVGGLHVGGAIAG
+TLWYVVYVSELAPAWADGEAGYDDASLAIAVTVCLVLLTICALAAPGFRTRHHDVFEASH
+RFGTWTVLILSWANTLILAHLQTPERTFGEALLASPIFWMLVVSTGLALWPWLLLRKVPI
+TTERPSNHTIIVRLDHGFVPPVGTTRAISRHPLLGWHPFACIPAAAGDSGYRMVISRAGG
+WTSEFIENPPPHVWVRGIPTVGVANAKRLFNRVLYIATGSGIGPALGHLLTDTQGARLVW
+VTKTPRATYGDGLVSEVEKAQPEAVIWNTSEQGKPDVFELSYEAFKASGADAVIIVSNKA
+VTGRVVSEFERRGIPAFGPIWDS
+>tr|A0A0P7GJD6|A0A0P7GJD6_9MICC
+MAPAEDFDPTAALIDLLDLSDAGGAKTDEDIFVGGSQHEPRKRVFGGQVLGQSLVAAART
+VPGDRHMHSMHGYFLRPGDTEVPITFGVERLRDGRSFSARRTHAYQNGVPILSLIASFQI
+PDEGLDHQEPMPEGIPDPESLPTTADLLAQFNHPVAKAWSYYRPMDIRHVSQPVYFEADP
+ERTARNAVWMKTFGPMPDDQNLHRAALAYATDYTILEPVLRRHGISWASRGMSVASLDHA
+MWWHRPLRVDEWLLYVQESPSASGARGLSTGRIFNRDGQLVATIAQEGMLRLPDYPASQ
+>tr|A0A0P7H4Y0|A0A0P7H4Y0_9MICC
+MAEFTQSQKLHNVLYDIRGPLLEHAQRMEAAGQRILKLNIGNPAPFGFEAPEAILVDMIR
+HLPTAQGYSDSRGIFSARTAVVQYYQSRGIHNIDVDDVYLGNGVSELITMSLQALLDTGD
+EILVPTPDYPLWTASVSLAGGTAVHYLCDEDNHWWPDVEDMEERITPRTKGIVLINPNNP
+TGAVYPEYVLRQIVDLARKHDLIIFADEIYEKILYDGAVHINAATLTGDDVLCLTFSGLS
+KAYRIAGFRSGWMTISGPKRAAADYIEGINLLANMRLCANVPAQHAIQTALGGYQSINDL
+ILPGGRLKAQRDLAYKMLNDIPGVSVENAEGALYLFPKLDPEAYPIQSDELFALDLLKQQ
+KILVSHGTAFNWIRPDHFRMVTLPALEDIEDAISRLAEFLSTYKP
+>tr|A0A0P7H609|A0A0P7H609_9MICC
+MPVEVRPATVFADTAAVLGPKNPESNACWCLSYRLLSSKENQALQRQARGEKMRGLLGEV
+PPPGVLAYDDGEPAGWAAIHPRADTSFAKNRKIPTLDDLPVWSLWCVRVRPGHRGRGISH
+ALVSGAVDFARGHGAPAVEAYPVDNQGAKVDLTMAYVGTRSLFEAAGFVKAADTDSVLNG
+FPRVLMRLPL
+>tr|A0A0P7HCI0|A0A0P7HCI0_9MICC
+MPRLLFFRWAKPGLPGFLNRHLDEHVQTLEHFFDVRVIDRDCDYAAECDAFSPDLCVFES
+GVYAGERSIRNTASRPEIPKLGFLHSDPYDLARAVFLSDMDRWGVEEYFTTSVAMAEYTP
+EIADRLFVWPNSVDPAVFHSYPGEKNIPVLFTGSQERHYPWRNAVGRTLSRNFATMTMPH
+YGWGKSGGRTVFGADYARLLSASVFVPACGSMSRDLVRKHLEIPAAGACLIAEDTPAVAA
+FGFVDLENCVLGEAEEIPDKLDALLADPGRLEAVVRAGQKLVQERHVQSRRSQVLEWLQL
+QAVRSPAERIVQASPAGSLFLSPKDSTQVPFAAGGRDRQFLASGWHLLEEPDPDGARREF
+LKCLNFYFIPEAVIGAAFSELAAGNAEAARDWTTQALVDTFTDRSAPDPDPVLWATHLRA
+LLCSGEREQAVAGARRFPHLSHRELDRMRSLLGLETAAVRSARASICPVPETSQGKWEAT
+LAHALMACGQSRDGLRFTAAPTAASTPAPVVPGHGPAALLRKRLLRRIRWRMRTGAVRQL
+RLRLSPLKQRLLTDEFSRTLTDILRREGLESAVLFGDPAGDRLQRAMRRGLELNPSLPPL
+TVVRAAQVDTSVIAGAAGDAERGTGTNRTAAFVADARAAEGSAEFLSRCALVVLTDTTTP
+GGYRLLTGLTAGSRFVLLGHEPVRGTAILAGSDRPPVQEKHHGEQALQQTEGSAQ
+>tr|A0A0P7GHA2|A0A0P7GHA2_9MICC
+MLPRPARPAETDPSPAESVTSFVPPLAPSPPPAVPPTIHKLTSAPATNSGPAALPPSAPA
+PAQPEADAFEGILRQHALPPEDSRVHHLRGPSRVRFQLERPAVSDTTRRIVVTAMIAAAV
+PSAYLLTRSDSGWPVHVHGDGDVLDPGGSHLGVFAWVWVLWLPVFAGGIGYAIHQWLPSQ
+RSNPRHGWTGPVAASGVVLGALWLWAAQSGSAAAAFWLAAALVGIGLTAIHLGTTSPAGS
+RSEQAVTDIPSGILLGVGSLALLVCLGSWLVETDADVGGWGAEAWTLIALVSLVVGVTTV
+CMTGRGQLPVALSVVFGLAGLGFARLLANQPAVWMAAAAFIAGFLVIVSAGSRRHQVDHA
+RRRAQRAWLKAEASAHADAEEPEAVRI
+>tr|A0A0P7GB60|A0A0P7GB60_9MICC
+MDISWPGLIIGTLMTAACIFAFRKRDAISGFASSQPEFFLGKKVATKVDTGPERMKAALL
+LPILGGIVMGAVLVILSLTGVMARSAHDGPDPLSQGFDPLVLVFIVLVLIALGFGALGLI
+QTVVRRTNPPTPAQLRGLGLAGMGFMVAAGVVFYFITSS
+>tr|A0A0P7GAX8|A0A0P7GAX8_9MICC
+MSTPAAQSPAQTVLYSERLLPAFWIWLVVAGIAGTFVLAFIPISLLTGIIVAVVAAVALT
+VLLLMSTPVIRVTPQVLQVGRAQIERKWVGEVQAFRGEDATQQRGPALNATAYLCIRGWI
+SPVVKIEITDPADRTPYWLTSTRHPEKLAAALQAAA
+>tr|A0A0N8HZ31|A0A0N8HZ31_9MICC
+MAKIKKGDLVQVITGAKAERGGDRGKQGKVLKVFPETNRVLVEGINRVTKHTKVGQSSRG
+SKTGGIEVVEAPIHVSNVAVVDPETKKPTRVGYRTEIVEKDGRTRTVRIRVAKGSGKDL
+>tr|A0A0P7GIC6|A0A0P7GIC6_9MICC
+MAAALLVGATPAAAGEYPTWDEVAAARADTAATEEQVRELEGHLDRLHAEAGSLGNAAVT
+ASSHYESLRSELVASDARLADLAARRSAASARASELRSQVGALAAQTYKTGGMDSTVLFI
+LDADEGAAHFDRLSTLSLVTERTSRLFEEAAAAEQTAESLEETEQSAREAREKLAESAEA
+QYRDAEAATAAAEKAVREQEERTAVLAAQLAELRNTTAEAEMSRLQAARLEESVRQQAEQ
+AGKEAGKTPPREAGTVINPTRPTSPAVPEKPVAPAPAPAPAPSNPPVAAPQPPAPAPVPA
+PQPPPPPPPAAPVNDPAGAQAYASSLMPGYGWSSGEFRCLVDLWNRESNWLTSAMNPYSG
+AYGIPQSLPGDKMAASGSDWRTNYRTQIHWGLSYISWRYSTPCGAWAHSERVGWY
+>tr|A0A0P7FYJ8|A0A0P7FYJ8_9MICC
+MSNTDKSPAAGLQDFFAGGTGERVTVMVAAFEGWNDAGEAASDALNFLSLYWDSEKIAGI
+DADEYYDFQFTRPAIERTSSGKRRIKWPTTRISRAEVPGSNLDLILVTGVEPSYKWRAYT
+AELIGLAKELDVDCLVLAGALLADVPHTRPIPVTATCEEEDLRSHLDLEPSEYEGPIGIV
+GVLAEVAALADIPTLSLWAAVPHYVGQPPSPKAQLALLHRIEELLQVPIDTSVLTEEAEA
+WERGVDDLATEDPEIAAYVRQLEEAKDTAELPEASGESIAREFERYLKRRRRD
+>tr|A0A0P7HEF7|A0A0P7HEF7_9MICC
+MALETDLQPNALRRAFGRFPSGIAALCAEVDGAPQGIVASSFTVGVSMDPPLVMFAVQNT
+SRTWPLLRAADRIGVSILGTGHDGVCRQIASRDGDRFAGLSLHEADTGALFLDEAALWLE
+TSVENEVPAGDHAVVLLRVHGYSTHDGAHEPLVFHGSAFRNLAVPAFA
+>tr|A0A0P7HMT5|A0A0P7HMT5_9MICC
+MANNTPAAALRQFIAGKWEDGEAARLSSANPARPQETVAEGNQASVEQLKQAVAAASDAA
+RSWAAVPMHERGAVLLRAAALLEGSADELGLELAREEGKTLAEGRGEVARAAQILRYYGN
+EGDRSAGEIFSSPRRGEQILVVRKPLGVIGVVTPFNFPIAIPAWKIAPALVYGNTVVWKP
+ASTVPLLAQRLAEALDAAGLPKGVLNLVIGPGALGSVLVEHPLLDGLTFTGSTGVGRKLA
+AAGAARGVPVQAEMGGKNAAVVLAGADLDLAAEQVLFGAFRSTGQKCTATSRLIVEEQVA
+DDLLARLTSRLGEWSTGDPADPSIHMGPLVSASAAADVRRGIDAAVSAGARVAFQGSIPR
+DAGEDSAFVAPTILELPEGSEAERNPAWTEEFFGPVLAVRRAASTAQAFEWANQGDYGLS
+AAVFTQDVTRVLDAVDGLDVGILHVNSESAGADPHVPFGGAKKSGYGPKEQGQSAREFFT
+HTTTVYLRGGTPG
+>tr|A0A0P7G7A2|A0A0P7G7A2_9MICC
+MSSDIRTASPAGSIPAQVAAVRKVYESGRTRPLAWRKEQLKSLMRMLSEREKEFAAALRE
+DLGKNPLEAYLTEISITRSEAGHALKHLTDWTRSTKVPVPLGLQPASARIEPQPLGVVLI
+IAPWNYPVQLLLAPLIGALAAGNAAVLKPSELAPATSAAVARILPEYLDPEAVVVVEGAQ
+EASQALLAQQFDHIFYTGGERVGKIVMRAAAEHLTPVTLELGGKSPAVVLDGNLTAIARR
+LAYGKLINAGQTCVAPDYVLVTEDAAPKLLKALGKVIREFVGRDPSRSANFGRIVNEGHF
+DRLTGYLADGTVVSGGRTSREDLYFEPTVLTGVSLDAPVMQEEIFGPILPVVTVRDLDQA
+MEIINARPAPLASYLFTSSASRQRKFEQGVRAGSVNHNAAIVQLAVPELPFGGAGASGMG
+AYHGKQSFDTFSQARPVFSKSTLLDTLRVAYPPYNGFKARILRRLL
+>tr|A0A0P7GBK0|A0A0P7GBK0_9MICC
+MRRTTTIFAAAGLAAAAGLAAAPAASAADEAQLSVFHAVPDTTVDVYVNGELTLDDFTPG
+SMAGPLSLPAGSYELAITAPDAADASAPIIGPVTADLTAGGNFTAVANLAEDGTPTANLY
+TNDMSTIEAGKAHLTVRHVAAAPAVDVLANGTPVITNLANPDEKTLPVDAGTISASVAAA
+GTTEPVIGPADLTLPEGVHTIVYAWGSLEDGNLALATQTVEGMESAPNAVPGALPAAQDN
+SGVMLAAAGGLTLMALAGTAVVARRRSTVDATSAE
+>tr|A0A0P7GIX1|A0A0P7GIX1_9MICC
+METEHLPDERIGQKQVERVLDGFFTAAKERAERISPSYLSLWETLEKSTVGGKRLRPQIV
+MTAYTHLGGTDLEAAARVGAAFELLHTALIVHDDVIDLDFVRRGQDNVAGVYRRMAETAG
+EPNEVARHRGLSVGVIAGDLALSGAFRMLDSVSTDPLTREVLAGILDEAVFASAGGELID
+VDFSFAAGSPPVSEILDMERLKTAVYSFEAPLRAGAVLAGAGVEVAAALGRFGRDTGIAY
+QVVDDLLGVFGNESATGKSSMGDLREGKRTVLIAYAAQTPCWEELSGLIGRPDMRPADAD
+RARQILVDCGALAYAQDLADRYASTARSHLECAEVPAGLASVLDDVVSSSVNRGR
+>tr|A0A0P7GKI0|A0A0P7GKI0_9MICC
+MPSASTSPCRTNAPARRVRHISSIHRGDYVEARSGDHVYYRGEVRDTAPGLATLWLNDEE
+SGMHTAVSTEDFTIWRTQR
+>tr|A0A0P7FYH1|A0A0P7FYH1_9MICC
+MTGVNRRASRAGRIIGIAAAAALIPGLQACSVPGFPGSSDSSESRAETREPGPAAENELA
+EGSTSHRLGAASHTLVLDYWTNEDPAGWTSESSPIINVSVKIDGAPGPGAVRVTRFNARV
+DALGMELTNDQGSFALEPPYAYTSGFALPANPSAASTTVLFTIDLLTETEPGSGVFTRQT
+VLDTLTVGYSGEAPGAGTEPEG
+>tr|A0A0P7G3S8|A0A0P7G3S8_9MICC
+MSTMTMAKAINAGLRAGLAADPKTLLMGEDIGALGGVYRITEGLQAEFGTDRVMDTPLAE
+SGIIGTAIGLALRGYRPVCEIQFDGFVFPGFNQITTQLAKMHSRSEGALSAPVVIRIPYG
+GGIGSIEHHSESPEALFAHTAGLRILAPSSPQDGYWMIQQAMQGKDPVIVFEPKRRYWLK
+GEVDTSAPSGDPFTAQVLRAGTDATIVAYGPLVPVALAAAEAAAEDGRSIEVIDLRSISP
+IDFDTVTESVRRTGRLIVTHEAPTFGGIGGEIASRVAERAFLHLEAPVLRVGGFHMPYPV
+AAVEEHYLPDIDRLLDALDTVFSY
+>tr|A0A0P7G3X8|A0A0P7G3X8_9MICC
+MNANPIPKPSINPPDIVRCAYMELVVTDLAKSREFYVDVLGLHVTEEDENAIYLRSLEEF
+IHHNLVLRKGPVAAVASFAYRVRTPEDVDIAEAYYKEMGCRTERRANGFTKGVGDSVRVE
+DPLGFPYEFFYHVDHVERLTQRYDLYSAGELVRLDHFNQVTPDVPRGRTYLENLGFRVSE
+DIKDSDGVTYAAWMHRKHTVHDTALTGGDGPRMHHVAFATHEKHNIIQICDKMGALRISD
+RIERGPGRHGVSNAFYLYILDPDDHRIEIYTQDYYTGDPDNPTITWDVHDNQRRDWWGNP
+VVPSWYTEASLVLDLDGNPQEVIARTESSEMEVTIGADGFSYTRGDETDFKVGSQL
+>tr|A0A0P7HUP9|A0A0P7HUP9_9MICC
+MTTDPALPVSDAADGSESPDSVHFRAPVSFVRRGSRLQGRRQQAWDELSDVFVIDVPRVH
+SDTSVDPDYVFDAEAAFGRKAPLVVEIGSGLGEAITHAAEQNPEKNFLAVEVYLPGLAQT
+LQRIGQKNLTNVRVVQANAPEVLTTMLPAGSVDELWVFFPDPWHKTRHHKRRMVKDSFAE
+LAARALVPGGLWRLATDWSDYAVQMREVLDASPQFESLHPGERAGTESPLTQVRAQGLEG
+KEASDDVDTRGGWAPRFDGRILTSFENKAHQAGRLIFDLTYRRL
+>tr|A0A0P7GJC6|A0A0P7GJC6_9MICC
+MGRHRAEPEVRRREERAAKQAGRAQRNPELLGWGVFLTGITALCLLWAGIPVSFTAGTSG
+LLLTAFVSAWYASRSAAPEAAVASPAPSSEPAAEAGGTHRLLPDPQPDTNAKQHAEVPPI
+PLAPDAAQEFLTGRRTESAVPGSRWTRTFGPPETGSLPVQPYVPALRASVQTADPDRQDR
+RQRSHSKL
+>tr|A0A0P7H8T9|A0A0P7H8T9_9MICC
+MSTAAAPGSRSQRSWAGRPVTFGRVLRSEWIKTATVPSTVILLAVSFAVMVGLGALVAWG
+IVQLASDPESGPPEGIGQSLQTAAYDVPSAGLPFGQLLIAALAVVLIGSEYTTGMIRSTM
+VAVPTRIPALLAKTLVIAVISFLVGVLAAFTTYLLAQPILGGSDLDFGLEADGVLPSIIN
+TGTVLALIAIMGVGIGALLRNTAGGVVTLVGALFVLPIIAGLLTGLADWVEDAARFLPSS
+AAGQLVATQVQPGQFNQVEGGLILAGWAVVLLAAAILVLRKRDV
+>tr|A0A0P7GJD1|A0A0P7GJD1_9MICC
+MRNTRYAVAAMAAAAALTLSACGGDSGSDSASGSADSGSGDSIRIGIKFDQPGLGFDEGG
+SYSGFDVDVAKYVAGELGYGEDQIEWIETPSAQRENMLENDQVDMIFATYSITDTRKEKV
+AFAGPYFVAGQDLLVRSDDSEITGPEDLNGKTLCSVTGSTSAQKVKDTLANEANLVEQPS
+YAECVTAMQGGAIDAVTTDDIILAGLASTDANKGQFKVVGNTFSEEKYGVGIQKDSDKCE
+DINAAIEKMIEDGAWEEAIKKNTEGADYTFNADLNPPTMDACA
+>tr|A0A0P7HD90|A0A0P7HD90_9MICC
+MLVLVVNSGSSSLKYQVRDTDTREVVAKGLIDRIGGPDVPDHHEALVLLRKQVAEALDGR
+RIDAVGHRVVHGGERFSQPVLVNNEITRAIERLSPLAPLHNPASAMGIRAVTDLYPDVPQ
+VAVFDTAFHRSLPQRAWRYAIPQSLYRRYGIRRYGFHGTSCAYVSGLAADFLGVPANQFD
+AVVAHLGNGASVTALKNGRSIDTSMGFTPLAGLVMGTRSGDIDPSILVFLGREGYGPDEL
+DDLLNRESGLLALGGAADMREVEEAAEAGNEEAKLALEIAAYRLAKYIGGYHVAVGGAQA
+IVFTAGVGENASDFRAQVAGHLSALNVRLDPEANAVRSKETRRISSPESAIEVLVVPTDE
+EEAIAEATVDTILAAGRE
+>tr|A0A0P7G7F5|A0A0P7G7F5_9MICC
+MVSAMETNAPIPNRSQASAALAAAQSAQDSIRSQPWPWWLYVSNGLFLGVSALLPLLGRP
+GSGLLAVLVVAACAFNYWAGSRMGLPFAVPRCRVFIVAVVLSTLFVVASLAASWAGMWGL
+VWVCAAGTVLSFGTGSVFHYRATRR
+>tr|A0A0P7FDP4|A0A0P7FDP4_9MICC
+MTLSVTPCTDPSRWNGFVNQFNGHPQQLWGWGKTKAEHGWSAERLLLSDGGQVVGTAQLL
+LRRLPFPFRALAYIPRGPQGEPGRETQLLDAVAGYARDKHHAVALTTEPDWEASSDAAGL
+LPAAGFRQSTNTILIPRTLILDLRLSEEDLLAAMSKKHRQYIRKSGREALEYRAVRREEI
+PQCLAVYKQTAERAGFGIHEDGYYLDIFDNLGADSPVYAAFKGDDVVAFLWLSASGFTAF
+ELYGGMSEEGERLRANYALKWLAIREMKERGITRYDFNGLLNDGVSKFKMGWAQHEDLLA
+GTWDKPLSPLYPLYNSALPLAKTALRKVRGAVAGVRERLGR
+>tr|A0A0P7G8L8|A0A0P7G8L8_9MICC
+MSKRIDVKDLNVYYGDFLAVEDVSIKIDARSVTAFIGPSGCGKSTFLRTLNRMHEVLPGA
+RVEGEVLLDGENLYGAGVDPVTVRSHIGMVFQRPNPFPTMSIRDNVLAGVKLNNKRISRS
+DADDLVEKSLTGANLWREVKDRLDKPGSGLSGGQQQRLCIARAIAVSPEVILMDEPCSAL
+DPISTLAIEDLIEELKSDYTVVIVTHNMQQAARVSDKTAFFNIAGTGKPGKLIEYDDTTV
+IFNNPSVKATEDYVSGRFG
+>tr|A0A0P7G6R7|A0A0P7G6R7_9MICC
+MPTPMPTEPPATAPAFPPPREPVPQPPVPIRVLAGHFRAHWDTLSAPERQQLLADRYAWE
+TPLIEDDPEADPGYRAVTFLYRNPAASAVVLSANAMVHPDTLGACEFEALPDGLWALSWR
+MPASWEASYRITAHSGPGTPPWRAATDRRSVRLAADAGGPDPRNEAQSTGMSGAATSVVR
+LPAVPPSPWLAAPVPSAPRGTSIMGEPSALRSLGREDTGAGSRAPAPPRVLGNFVRGLEL
+RRVRDRRAGRLRNVWLYRPQAANSGSTPLLVLHDGQVWAKYQNLAGTLDAAIAAGIIPPL
+HVAMVDSVDVPTRSLELSGPTGTVDFTACDLIPELRRSLPLSPDPLRTIISGASYGGLAA
+LWQVARYPHTAAAALAQSPSLWRYSLEQPLLTAPGQLLVRLQAGIYEPSIHEPAQALSRA
+LVNGGVDAGFQSITGGHDWAWWHPRLIHGLAGILTG
+>tr|A0A0P7GBS1|A0A0P7GBS1_9MICC
+MLNKYARGFFTALFTPLASWLIRHRVSPDAVTIIGTLGVMVGGLVFYPLGELFWGTIFIV
+LFVFSDVVDGIMARQQERKGKWGAFLDSTLDRFADGALFAGVGIWFFTGGENDAVGIAAV
+ICLVLGMLVSYIRAKAESLGFDANVGLAERAERLVFLLTATGLVGLGIPEVVLLVVLVAL
+CLASCVTIFQRMATVRRQAAAQVPDEDLHRDMGKDT
+>tr|A0A0P7H4W2|A0A0P7H4W2_9MICC
+MSQQSPEHDPFGFVGLTYDDVLLLPGPTDVIPSEADTSSRLTKRITVQTPLLSAAMDTVT
+ESRMAIAMARHGGLGVIHRNLSIADQAEHVDRVKRSESGMITNPVTIDPDATLQELDDLC
+AHFRVSGLPVVDPDNKLLGIVTNRDTRFIPRSEYPTRKVGEVMTRMPLITGRVGITPDET
+VELLGKNRIEKLPLVDDAGRLQGLITVKDFDKAEQYPFATKDDEGRLRVGAAVGFFGDGY
+ERAMALVDAGVDVLVVDTANGHSAGVLEMIARLKKDPAAAHVDVIGGQAATREGAQALID
+AGADAIKVGVGPGSICTTRVVAGVGVPQITAIYEAAKAAIPAGVPVIADGGLQYSGDIGK
+AIVAGADTVMLGGLLAGSAESPGDLVFVNGKQFKTYRGMGSLGAMQTRGKNTSYSKDRYF
+QADVPSDEKLIPEGIEGQVPYRGPLSAVAHQLVGGLRQTMFYTGAHTIAELKAKGRFVRI
+TPAGLKESHPHDIMMTAEAPNYGRR
+>tr|A0A0N8HY67|A0A0N8HY67_9MICC
+MVVKAKSDSTKADILLLDAAAPADANVPVPLHLDVPGTELGGRLTLTTFILVDASVPLDP
+LAPHQRGSILWKHSAHVYLQGIGAQFPTDAEDFRRTRPDTPDALWQLDADLSDPEASFAS
+AVRLSMNTSQPAIKRLLQGLHSPENKELQHLLDIDVTRQMAVLAVQSDAVLDREPDHEDP
+SVAAVLRCLLLQLWPQISDPHILRKLWDSEPSKFEAHVQSTRGKLS
+>tr|A0A0P7GJF9|A0A0P7GJF9_9MICC
+MLIQLSSAALMAAEVAEEHAGTSPFVYGGVIFGIFMVLMFATMAFTSLGHRHEAVPEHVD
+PQRQFPNKHDHGQGIPE
+>tr|A0A0P7FYB7|A0A0P7FYB7_9MICC
+MPEHSTEAAGRRAPFGARLRAAMDTRGPLCVGIDPHPGLLAAWGLNDDAAGLERFSLTVL
+EAVGEQAAALKPQVALYERHGSAGIAVLERLLAACAETGVLSIADAKRGDIGSTMAAYAD
+AWLRDGSPLAADSVTLSPYLGYESLRPALDLAAAMGRGVFVLGLTSNPEGSTVQHVGADR
+SVAARIVDAAAAENAAAGTLGSTGLVVGATVGSALSDLGIDLAAANAPILAPGLGAQGAT
+GEDLRKTFGAAYANVLATSSRDILKAGPERQALREAASRTLDGLPQP
+>tr|A0A0P7HUM3|A0A0P7HUM3_9MICC
+MNCSIVPPYLLSRIADRPDRLAAAADAARRTLMEFTSVAETRQLGRSAMPPSSGTAFSPK
+LRRTVFDALGQQELPGKEVRTEGTPPTGDPAVDETYDGLGATYALFSDAYGRSSVDGAGQ
+PLLATVHYGRDYDNAFWNGAQMVLGDGDGEVFQRFSKSLTVIGHELTHGVIQYTANFVYQ
+DQAGALNESVADVFGTLVEQKLRGQTAEQASWLIGEGLFTPEVSGTALRSMSAPGTAYDD
+DVLGKDPQPANMADYVETTSDNGGVHLNSGIPNHAFYLAAVRLGGFAWERAGQVWYDTIT
+EPGLPVDCTFSVFAAATVAAAEKRYGSGSEESSAVQAAWEEVNVMV
+>tr|A0A0P7GVS2|A0A0P7GVS2_9MICC
+MLGDPFTVDLFEVAQLRTGDLVQLLACNVVVDFRRAFPVSAVGAAQVTGIVLAFGDGSFV
+STVALWAVVVLAERLPLTPIVVERLTVTPIVTEGTTLTITRRTITPRLTIPITTSKRLTL
+TPVVTEGTTLTITRRTITPRLTIPITTSKRLTLTPII
+>tr|A0A0P7GDP8|A0A0P7GDP8_9MICC
+MPTSSRHIASSDGTTISYMVFTGEAPAVVLLHGLAGSSRELLDTAQALSGREVILIDQRG
+HGMSTRTPADTSREAFMDDVLRVVAAEGHREVDLVGHSMGAHTAMLVAAARPELVRRLVL
+LECGAGGMPAGEAESVAKFFRSWNVPFASKDSARSVLGEGPLPDAWIADLEDRGDGLYPR
+FQAEVMARTLAGLMAPRWEEWQSITVPVLAVFAEHGMFSEEEKRLFVASGNDVSRADLTG
+GSHDAHLDAFHRWADVLRSFIAVG
+>tr|A0A0P7GTE1|A0A0P7GTE1_9MICC
+MNATSASRQSPSDVRHPERGRRYGREELEELAEQGDPWALGKLDDWDQFDAADYIGSGRD
+RCPDPDCDLYGERVTLCYADDGTLLEIDHGDWSHYPSRTQAKAS
+>tr|A0A0P7GJ07|A0A0P7GJ07_9MICC
+MDLDPGTIAIIQLAWSRRLGLEDDALSGAECEERIYDVHDTASEVRFVRLFDREVFSGPE
+WAADQVRSKSTAEMVRQSTLLRLSMDHGGRGMAEEHLYYTDSYPPVPAAEELAVADDSRY
+AEALERLCPPDDVVEAKLSRHDILFVLVDDRGPGTPVPVAGAGYTIREGILADVGTLTAP
+DHRMRGLGSYVTSIAVEDAMAAGLIPQSRIQSNNLGATRTAAGAGFIPAGLCTSVSLPA
+>tr|A0A0P7HH70|A0A0P7HH70_9MICC
+MYGTEVPAYNTLVDVSTQVNQAYLLQHGADAERLGSIDRVTAERHGAIRVGSEREMSQVA
+RIFAAFGMYPVGFYDLRDASKSAVPVVSTAFRPVTADELARNPFRVFTSMLAVEDPRFFD
+PALQSELKDFFDRRELFGQELLELADRAAAGSGLEEEEAGRLLELATGAFELSAEPVDHD
+WYRRLEAISAVASDIGGVTSTHINHLTPRVLDIDALYAGMEALGITMIDEIQGPPRWDGP
+DVLLRQTSFRALGEERLFRYPDGSVRKGELRVRFGEVEARGIALTPAGRDLYDRMVADVD
+RRLQDDPSQDSQGAARAVWEENLPRTEKELAARGLAYFTFTADKAAAAGLPQGPFTLAEL
+IESGAAVPEPIVYEDFLPRSAAGIFQSNLTDEGSKNESELAADYDMARMSGIIGRPVHDP
+YELYQRQQDGSVRALADALGIDLLPSTAEAAAAATGAGN
+>tr|A0A0P7HKR0|A0A0P7HKR0_9MICC
+MEWILHSGTVFDGHRLIPGASAVAVSGGVISAVGTDEDLRVLAGPSTQTIDLAGRLVSPG
+FTDAHIHAAYAGVERLGCDLAELSGAEACLQHIAAYAQLPPAPGNDAGWVTGGGWYKGDF
+PGGYPDRRLLDGVVSHRPVYLINRDHHSAWVNTRALELAGIDASTPDPADGRIERDPDGF
+PTGTLHEGAMDLVARVLPPVTEEMLTAGILHAQEHLFSVGVTGWQEAILGSYGGYPDASA
+AYRSAAEAGTLKGRATGALWVPRDTTVETVPDLVQEFVERRAANAAAGFSTTSAKIMVDG
+VPENYTAAMLDPYLRPCSCAEPTPAEERGLLYLSPEVLAAVSTALDAAGFDLHMHVIGDR
+AVRTGLDAVAAARAANPGSAGRHHMAHLQIIHPQDIARFAELDVTVNAQALWACNDDQMQ
+ELTVPLLGGERAGWQYPFADLQAAGARLAMGSDWPVSTPDPWQAIHVAVNRAHPDYPDAA
+PLLPGQSLALGSALAAYTSGSAWLNRAAGGTLTPGAPADLVVHSVNPFDLPPAALSTVQS
+DVVMVAGEPVYARSSAGSGAAVLPRTTT
+>tr|A0A0P7H815|A0A0P7H815_9MICC
+MLNLETLRSSLIVSCQAYPGEPMRDPRTTAQVAQSAVIGGAAAVRVQGLSDIARVRSAVE
+VPVIGLWKDGHDGVFITPTLHHALACAGAGAHIVALDGTRRERPDGLSLAETITGVHEGS
+PALVMADCGSAADAVAAAEAGADILGTTLAGYTGERPKTDGPDLELLAEIASLDLGLPLI
+AEGRIHTPAQGRAALDAGAFAVVVGTAITHPATITGWFADALAP
+>tr|A0A0P7HUU3|A0A0P7HUU3_9MICC
+MKKPHTLDSARKAQALRRLRRDILSSQVQVILDEKERKKTPHEIELLAKLNLPLSAEVKE
+IKRSDAPRAMHAGG
+>tr|A0A0N8HXZ5|A0A0N8HXZ5_9MICC
+MAEAFIIDAVRTPVGRRAGGLSGVHPADLAASVIGEAVRRTGIGSEEFDEVILGSIDQVG
+PQAMDIARTAWLAAGLSERVPGTTVERQCGSGQQAVSYAAQAVMSGTSDLVVAGGVQNMS
+AIPIGYSNTAAADRGFPDPFTGSTGWEARYGTQPISQFIGAEMMAERWELSRSEMEDFAV
+GSHERALAAQAEGRFDREILPVAGIHADEGPRTPDRAKIESLAPLRDGGKLTAATASQIS
+DAAAVLLIASSDAVRRYGLRPRARIHHISARGDDPVMMLSAPIEATRHALKRTGMSLADM
+DLIEINEAFASVVLAWQRELDPDMDRVNVNGGGISLGHPIGATGARIMTTLLHELERTGG
+RYGLQTMCEGGGQANVTIIERLG
+>tr|A0A0P7H890|A0A0P7H890_9MICC
+MRIELDRPRCEGHGLCEEAAPELMHLDDDGELVIDVPEVDGADLAAANAAVRICPVAALR
+LAS
+>tr|A0A0P7HEC4|A0A0P7HEC4_9MICC
+MTLDNLTTEPSAGTSAPTSRLVITPIQGIGEVRSGDDLADLIGRACGKHLRSGDILAVTS
+KVVSKAEGRTMPSSARDEAVEQETVRVVASREHAGGTTRIVENRLGIVAAAAGVDSSNTE
+DGTVLLLPEDPDASARAICRRLKQDFGVDIGVVITDTLGRPWRQGQTDAAIGTAGLTVLL
+DLRGTPDASGRPMSATVAAVADEIAAAADLVKGKTAGLPVALVRGLDTLITVGGMDKDPG
+AKALLRPAEEDMFRLGTAEAYEEGRRSGTRNGYNAGYDDGHAAGYEDGYAAGYAAAAAEA
+RRRARSAGTQG
+>tr|A0A0P7HLV7|A0A0P7HLV7_9MICC
+MENATYSPAPAPLPAPPAKPGKGLAVTALVLGIVAFALCWVPVLNNLFLFVGIAGLGFAV
+AALVVASKRRAPKGMPIAGLILSVLSIIGVFATQALYSAAIDSVVESIEDGSDGVVAATE
+EEQEEAGTQSLAIGNSAEIGEYTVTVTGVNLNANEQVLAENQFNEPPAGQYVLVDMAVVY
+NGAEEGDPWIDLSTEFAGSDARQYSTTTCSAVSPNPAHEVPTLTNGGAGDYSVCFDVPAE
+AVNDAKVLVKTSFSFKDDRVYWAAQ
+>tr|A0A0P7HW41|A0A0P7HW41_9MICC
+MESWSFEAIGTQWEISAEAPLDAETRAAVTGLVSEYDAALSRFRSDSILSGLSHGGGTVS
+LPRYTAELFSLFDSLDRLTGGRMNPLVGGSLELLGYGPGYRLTPQGPAAGAPPWPEAVRW
+ESGARDDVRLSLDRPGTLDVGAAGKGQLVDLVWELVTGRGYASVVVDAGSDMRHCGPGLR
+VGLEHPFDPNQAIGVVHLQDRALCASATNRRAWGNGLHHVLDASTGLPVRAVAATWVLAR
+NAMTADGLATALFLTDPSSLAAEFQFDYVRMFSDGRAEYSPAMAGVLFS
+>tr|A0A0P7GAV1|A0A0P7GAV1_9MICC
+MAISFLPLVESVSESQAVVQFLTSNRFPFHVRAEHSAESARKLVDEGRFWSDESIGFWIQ
+DGPERIGLVVLDDLEEDTPMFDLRLAEEFRGRGLGVPVLKALCALVFDRFPEIVRFEGQT
+REDNIAMRKTFLRAGFLKEAHYRLGWPTADGGRVASVAYAILRQDWVNQEITPFEWEDVP
+A
+>tr|A0A0N8HXL2|A0A0N8HXL2_9MICC
+MAHLLGAENLSIAFGTRTILDGVSLGLDEGDRIGMVGRNGDGKSTLMRLLAERQSADGGR
+VTRRRDVTVGYLDQSDVLDGDLTVGQAIVGDAADYEWASDPKIRDVMSGLVQEVDWNAQV
+SSLSGGQRRRVALAKLLMGDDDVIMLDEPTNHLDVEGVAWLARHLKQRWRATDGALLVVT
+HDRWFLDEVCTRTWEVHDAVVEPFDGGYAAYVLARAERDRMAAVVEGKRQQLIKKELAWL
+RRGAPARTSKPKFRIEAANTLIADVPEPRDTLSLNKMATARLGKDVLDLENVSLELGDTQ
+LFRNITLRLAPGQRLGIVGVNGAGKTTLLRLLNGTVEPTSGRLKRGKTVQTAVLTQEVRE
+LDDVADLRVIEVIENEKRVFNVGGRELSAGQLVEQLGFSSQRQWTPVRELSGGERRRLQL
+LRLLVGEPNVLMLDEPTNDLDTDTLAAVEDVLDGWPGTLIVVSHDRYLLERVTDTQMALL
+GDGKLRDLPGGVDQYLELREAALASGAGGGSSSQASRAAQAGASRPDAAGTGSVATAVAG
+SAYSEAEKRNARKDLTRIERQLTKLAGQAEKIHTQMNAETAGGSPDFEVLADLNAKLQAV
+AAEQEELEMEWLEASEILE
+>tr|A0A0P7GTR9|A0A0P7GTR9_9MICC
+MDRFPVSIKDVAREAKVSIGTVSNVINRPEVVSEDRRRRVLKVIEDLGYVRNDVARQLKA
+GRSRTIGLVVQDTGNPFYNEIARGAEAAADTLGQAVIVGNSGLSRTREEVYLDLFEEQRV
+RGVLITPQSSQDRSRIDRLSSRGTPVVLVDEQAPASQYCSLAVDDVEGGRLAVAHLLSGG
+ARSITFVGGPAGLHQVTDRQAGAQAAVEAVPGSSLDVVGTTALTVLEGRRVGEELLRRPA
+RSRPEAVFAANDLLAIGLLQAFVFDHRIRVPQDIALVGYDDIDFAPSAIVPLSSIRQPAR
+LIGRTAVELLEDELAEDHRHRHVRFQPELVVRESSGAR
+>tr|A0A0P7GJY8|A0A0P7GJY8_9MICC
+MNNPGTPDSPTAHGADMRRGPLRPGERVQLTDEKGRRNTITLTEGGAFHTHRGYLPHEAV
+IGVPEGTIVTNTTGHQYQVLRPLLSDFVLSMPRGAAVVYPKDAGQIVTMADIFPGARVVE
+AGVGSGALSISLLRAVGDTGSLHSYERREEFADIARGNVETFFGGPHPAWNITLGDFQDQ
+VVQNQEPGSVDRVVLDMLAPWECTDAVATVLAPGGVWISYVATVTQLSRTAEAIRADGRF
+TEPEGWESMVRGWHLEGLAVRPDHRMVAHTGFLLSARRLAEGATGLVAKRRASKTDFSQE
+DLNAWTPAAVGEREVSDKKLRRAAKDASSTIQRGALAKAERFQEEHGDGTNPED
+>tr|A0A0P7HGK1|A0A0P7HGK1_9MICC
+MAQGIVKWFNGEKGYGFITVDEAKTDVFVHWSAIQSAGYRTLEEGQRVEFEIGEGQKGPQ
+AEDVRTV
+>tr|A0A0P7GP78|A0A0P7GP78_9MICC
+MPGNRLHLPDVVRLADPDPDSPGNPATGKWWPPVMLHADWIEANAGTFDVFHIHFGFDAL
+DPKDLQDAVDALRRHGKPLIYTVHDLRNPHHESPAAHDAHLDVLIPAADALITLTRGAAV
+EIERRWGRTAEVIPHPHVVELDTMAEYAHRPRDNGDDRYRVGVHVKSLRASMEPLPVIRT
+LLETAREDGGMVVQVNGHCDVLQRGGARYSAELAEFLERESATDELELHVHDFLPDEKLW
+EYLARLDLSVLPYRFGTHSGWLEACRDLGTAVAAPDCGFYSDQGPVFGYHHNEAGLDARS
+LQRAVRAAREAGPPVPLSVYSRATQRGAVAEQHAGIYARLLERTGVLQ
+>tr|A0A0P7GTM8|A0A0P7GTM8_9MICC
+MTEENRRRRDPDRPGSGATDAELLVQDPDLPPVAIDEQEAEAEERRWTPLKVAVWVAIAL
+LGGISWTMLAIVRGETVNAIWFVFAAVCTYLIGYRFYSKYIERHLLKPNDRRATPAEYKA
+DGKDYAATDRRVLYGHHFAAIAGAGPLVGPVLAAQMGYLPGTVWIIVGVILAGAVQDYLV
+MFFSMRRGGRSLGQMAREELGLIGGTAALVATLTIMIIIVAILALVVVNALGESPWGVFS
+VAMTIPIALFMGVYLRYLRPGKVSEVSIIGFVLLMLAIVGGGWIADTEWGVAIFSLDRVT
+IAWGIIIYGFIAAVLPVWLLLAPRDYLSTFMKIGTIVMLAVAIIIVRPEISVPAFSEFAS
+RDDGPVVAGPLFPFLFVTIACGALSGFHALISSGTTPKMIMKERQTRFIGYGGMLMESFV
+AIMALVAAISLDRGIYFAMNSSAAATGGTVEGAVAFVNSLGLVGVNLTPDMLTSLAADVG
+EESVVSRTGGAPTLAVGLAMIMQSFIGGPAMMAFWYHFAIMFEALFILTAVDAGTRVARF
+MLQDSIGNFVPKFRDTGWRTGAWICTAIMVAGWGSILIMGVTDPLGGINTLFPLFGIANQ
+LLAAIALAICLAILAKKNVFKYIWVVVLPLAFASVVTITASMYKIFSPVPAVGYWAQHNA
+FRNALEAGETSFGTAKTVEAMEAVVRNTFVQGVLSILFVTLAIIVIITAVIASVRSFRSG
+GAPSAEDPAVPSRTFAPAGFFATPLEKQIEAQWDALPEDRKPARTRH
+>tr|A0A0P7GP05|A0A0P7GP05_9MICC
+MLTFFNALKRILVGRPYGNEQLSRTLLRKRVALPVYASDALSSAAYAPDEILLTLALAGV
+AAVTLSPWVGLAVIVVLLTVVASYRQNVHAYPSGGGDYEIASENLGRRAGLTVGSALLVD
+YVLTVAVSMSSAAQYLVTAVPVLHGQQGLLAAAGVIILMLVNLRGVKEAGSLFAVPTYLF
+LVSVLGMCAVGLFQAATGSLAQAPSAGFELRPEAGLDAGLTGLAGAFLLLRAFSSGAAAL
+TGVEAISNGVPTFRQPKSRNAATTLLLLGGLAAAMLAGILALASLTKVHFVQDPATQLLQ
+NGVPVQDYIQHPVISQLAETVFGDGSLFFYVVIAATGLILVFASNTAFNGFPILASVLAK
+DGYLPRQMRTRGDRLAFSNGIIVLGLAALALILVFNADVTRLIQLYIVGVFVSFTASQLG
+MIRHWTAKLRTERKPEVRRRMQRSRIINSCGFGMTALVLVIVVVTKFEHGAWIALLAMAF
+LYVVMDSIRRHYAAVAEELQVEDSPEALALPSRVNAVILVSKVHKPVLRALAYARASRPS
+SLNAIIVDLDPEETQKTVEDWERLRIPVPLTVLSSPYRETVSPVLAYLREARRSSPRELF
+VVYIPEYVVGRWWEQLVHNQTALRIKARLHFEPGIMVASVPWQLASSKDAAAASRQAARD
+TQGTQPGHGTQGPGAS
+>tr|A0A0N8HZ59|A0A0N8HZ59_9MICC
+MAGAMIFAVSLGGCALNTETPPDSAAAQESPDYLTQFEELLPAMVEQAGAGLQIEDLREE
+SCLRPEIEEQQLETRWLGKASSPVADTETANTVLDRIGAWLDEEGWERQNEVSYPPEEGG
+DVRVLMSQGQHRCHSYV
+>tr|A0A0P7GHM3|A0A0P7GHM3_9MICC
+MSAPAIQPAAPGALPASGASRLAAANPLATLGAAVAVTAAVLLTVDWVSATVVLAGELAL
+LPLLRINPWTLVKRIWPLLIAALVGAWGTALLAEKTGEVLLDAGPLLFTADSVAAGIAIG
+LRGLAIALPGIFLLVTVDATDLADALAQRLHLPSRFVLGALAAMRLVGLLVEEWRTLGLA
+RHARGADAAASPLGRLRNFLGQGLALLVQAIRRATRLAVAMEARGFGSGERTWARSSTFS
+RIDLWVLGYGMGLAAAAVAASVAAGTFNFILT
+>tr|A0A0P7HPA1|A0A0P7HPA1_9MICC
+MVELSFSDGVAEVVLNAPYKLNSLDEQALADLSKAYDDAAAAGVRALLLRGEGRAFCAGR
+DISGVVPAEDDAYAYLGDLVTPLLKKMAAFPAPTFAAAHGACLGVGLGLLVATDVVYVAD
+NAKIGSPFANLGATLDSGGHWLFTERLGAHRTLDLIYTADLMSGAEAVGAGLFSRVFPAD
+ELLDSTRATVARVASGATGAFRASKELVAQIRDARLGLWDSVEDENKAQGVLCGTEDYAE
+GFAAFKEKRKPVFKG
+>tr|A0A0P7FXP7|A0A0P7FXP7_9MICC
+MSFTENAVARWAELQRLQASPGWKLTNANPWVLALFREAFTRTRPRIPLDEFHSLTDSFL
+QQLRLNGQSLREDWTGKNYADDWVARRFLARPRADGRFVYELTEPAVRFLSYLDGFTGDT
+TSLNSSRLNTLLSSVETLAHESNPDPEARIAVLEEEIARREDLIRSLRAGDAPPPLDDDT
+AVEAARDILDLAAALPADFKRMRDGLEKMLHTLRQEMVESQASKGLTMGEILEADKRLRS
+TSEGRTYEGFTAFLNDADQQGRFRHAIAQVLERDFADAMTPGDRQALYRMISDMREQAAE
+IQRIYGRLSESLHTYVQSDEYRESVQLRKLIRAAETAIHKAPRGRRRAAVVPAPKLYASA
+FESLSMVRSYDPAEHAAPRKLPEPPSFTEADIHRAARTPKADRRVLRDAITRAGSRRGRA
+TVAEIFAELPAEHRHLNSIRALLASAAPTGDSGTTTAASESIPFLQIDGSSRTAVLPVLT
+VAESQS
+>tr|A0A0P7FXK2|A0A0P7FXK2_9MICC
+MLKQGSKLDRYFEISKRGSTVGTEVRGGLATFFAMSYIVVLNPLILGGADGAGNVLGGPA
+IAAATALVAGVLTIIMGAWAKHPFAMATGLGVNAFVAVTVATTDDLTWPDVMGLVVLAGI
+TMFILVLTGFRTAVFRAVPASLKTAIVVGIGLFIALLGFVNAGFVRRVPDAAGTTVPVEL
+GSGGDLLGWPTLVFVFGLILTIVLMARKVRGAILIGILSSTVLAVVVENVASPGSQGAGV
+PTGWSLVTPSMPQWGAPDLSLIGSFNLFGSFEKLGIIGASLLAFVILLSIFFDAMGTMVG
+LATGAGSIDKNGNIPNVDRVLLVDAAGAIAGGGASVSSNQLFVESGAGIGEGARTGLASI
+VTGLLFIAAMFLTPLIYLVPFEAVAPALVVVGYLMVTQVAKIDWSDIGLALPSFLTIVLM
+PFTYSIANGLGAGFVSYVLIRTVQGRAREVHPVMWIVATAFAVFFCVGPIEAALGV
+>tr|A0A0P7GBN8|A0A0P7GBN8_9MICC
+MALFALGWRGRRQRQSDIPRPLPLPEELELPRFEADGQYVATTTAGDWLDRVAVYGLGVK
+SVATAAVFDEGLLFARHGAPDVWIPRADLRGVRLERGMAGKFVEKEGLVMVTWQLGPKRV
+DTGFRTRAADHKNPLVSAIKALGPESATSSEEQL
+>tr|A0A0P7GI29|A0A0P7GI29_9MICC
+MTARAARLVRGWAGAFAATAVAAASHVLGGGAAPEPALVLFCLAVSGMVSCLLAGRGLSL
+PRLSTAVVFSQGLFHLIFSFGSAPAAVVAGSGHAHHSGPSLTEIGTAAAASSAPVHGLMM
+WLSHALAAAATVWIVAHGERTLIRILEALGVRPGALLPLFRPAHLPRPIASALAVRPLGL
+RNLGIPLLTLRHRGPPAVFVSS
+>tr|A0A0P7HLE9|A0A0P7HLE9_9MICC
+MSLAVQAAIPSPPAEFSSFSLGPLTIHAYALCILAGIILALWMTSARWKHRGLPQDTVWD
+IAIWAIPFGIIGGRLYHVISSPDAYFGPNGDLALIPQIWRGGLGIWGAIALGAVGAWIAC
+RRAGIKLSTFADVAAPGILLAQAVGRWGNWFNQELFGGPTDLPWGLEIDPNNTNFPDGTA
+PGTLFHPTFLYESLWNLAGVALLLALDRRFRLRGGRLFWLYAAFYTAGRVWIEMLRIDDA
+EMVTLFGTTQRLNVWTSIALLVFSIGMFIFLSLRARKVPEPSPYLPGYTPPAGETAGGSN
+NSPVDNKSETDSRNVKSASQSSDTRANVAETKNEAAKPQRPGDSGPAT
+>tr|A0A0N8HXU4|A0A0N8HXU4_9MICC
+MARDYDGVHLSVAGYLLTAGSVLDAAGMKTMLAGWAPAETWWLNDVLAPAGEPATWTAVP
+GRHGWQVQATAVP
+>tr|A0A0N8HZ09|A0A0N8HZ09_9MICC
+MAFWKFTALRLALVAVFFVAGLYLQLGLVLSAIVAAVLAWCVTYLFFRDMRDAAAKGLQS
+RFSERTPPSRNRAELDDSAAEDSMLDANPDVTIDSDRKPREPKPRDS
+>tr|A0A0P7HMB9|A0A0P7HMB9_9MICC
+MPNFDGSQNSSDALSSPSRRILGDWRSAEDIAAEHMRTTLALFDARLTGGVSDRGVDVEH
+PEAVAQVKMQATPVGSPQVRQLRGARPHLDFHLFYSTSGYTRAALQEAADSGVALFTIGE
+DGNVQGLGEWAESLVMDGHRRRGGNEAMVARYVTEVTDRITQARENYGGWRTGIGFVNHE
+ALKNLGPHDVIDRAQLYLEGAIEAAEEGPRIGTVSNRVVVSHYRNADLRAAFCCSMLGVP
+YPGETPIGEKFKRKKLSAADFY
+>tr|A0A0P7HI52|A0A0P7HI52_9MICC
+MSAAVTQQRQAQQIMHPRWLGALQPNRLSAARSFVAKMVREHWDIQLVNTEVDRLGNGTL
+IYRLDTPGGVMSFVAFVSEPRSVNRTSRIIGSSWDMLGSLMDGEPDLDRIEQNRRELPKL
+YAGRAPEGTLTWFRANQSTRLFEHVRECLAAGRQPSKELVAEVGYLMRNTGLDGNGTFGT
+RDFRELGPGHPLSTPYHAQMLSAYLMREVSIDLVQHLAKLDHEGAALLAPDIRRSIAIGN
+GSALGLVLFTFNRPHLIGTLIERYEKALSHALDLPLASDDPAWDRLEALVNRSILYRQQD
+LGRYVTLPSGPQISSELRFVKRLIDAARGGGYPLPLRALEESMAGRVLPETIETIHSILL
+ELDPAATDRFMVTAALDESLLTDGAQRIAALRQSIRQNFSWAVDIQLASADEASRVWYKS
+RDSEEPRCGPSNEVPEGTIDLSFDIPREIQRLLRRIDQDSRLTTVGALLVADPTLEQIVA
+HVQNLADLPYAIPRMDIKDDYLVPVHLIHLLNGFAFGVDKTVDRLERILRGVIFEGAPYR
+DELGCPDAADWYWAPHHDSYVLPVVETVEWSDR
+>tr|A0A0N8HY24|A0A0N8HY24_9MICC
+MILPLGWINQADAGGRVSACIPVLLLTKAAHFAEFPQLPRAAVNNVYRSVCDKLTSMSTP
+QSNPAGDSARHSFPGTTEEAHSHAEAPVSAQVRDIAEVPAVEVITTAAVHLMSAAAVKCG
+LAEGADAEDLKDLDEARKLITALAGFVTAAAPEIGSQHAGPLRDGLRSLQLAFREASMVP
+DAPGQGPGEKFTGPVN
+>tr|A0A0P7G938|A0A0P7G938_9MICC
+MSTFSGLNTAYTGLSAARKGLDVVGQNIANVNTPGYTRQRVTTSAMGGAAITGKFATGAR
+VGQGVSVDGIARLGSMQLDTRVRATAAASGFSAIRANALAGLETSLNEPGKNGISASLTE
+FWAAWQGVANKPGNEAAATALIGQATTLASQISTGYKAVEEQWTGAYKQLKDMEAELNGT
+ASQIASLNAQIRTVQASGGTANELIDQRNALTTTIAALAGGTVRESDNGMVDVLIDGNAI
+VSGDIVRPVQVAGGIKMGDEAPRLEWSHRPGTNMAASGEIAGALSVLAPAADGGILASAA
+EGYNNFAKSLATAVNGAHNGGINTKGDVVGDFFSHGTDPAAKSLTVVAKSASDIATGAVD
+MGNLDNSVADKIAQLGTAAKSPDAEWANFVSGIGASTRVEMQQAELAGVAASAAIDMQLS
+NSSVDLDEENLNLLAYQHAYQGAARVMTAIDEMLDTLINRTGIVGR
+>tr|A0A0P7FDT2|A0A0P7FDT2_9MICC
+MSAPLSKTRPQPGFRESFDQLKRAQKTRKGAPLYLLYVNRPAGRTIAAALRFTRVAPNHV
+TWAGAALTYGTLLWVALWAQPTPAAALAGVLLAVGYALDSADGQLARLQGTSSAYGEWLD
+HLLDNGRITVMHVAAFCFLARTTEYDVVLLALGCGAFLLASSVIFFGGILFDQLAKHSGT
+GGGPEPVRDDRRLFVRSVVMLPVDYGVTCLVFLLLPGPVVFLAAYLTLAAAHVLIGAAFV
+LHWRGKLLRLR
+>tr|A0A0P7G8T7|A0A0P7G8T7_9MICC
+MNSTSSNPSDREAVRRLLAESGVPETPELGEALMGLRAEGHTAVPAASPQLEAFFTAGVT
+PLRRPSRRRGYLLGGAIIAAMAAGTTGVAATSGGLWVTAEDSPEVPAPFDYEQVPAPSPS
+PEAQNPAAPDPAAVPSAVPVEPDAPPADETPDPAGDQPVQGEMQTGLEQDPDTPGKWQHQ
+GPGQSGNPGQSWNNGRDSDNNPGRKDDQHSEKTYGWQKTQDWPGQAAENKDRGQGGNRDR
+KDDRGGQDAGKDGNRGGSGQPGGRGHGSD
+>tr|A0A0P7GBD6|A0A0P7GBD6_9MICC
+MRGHRLALRPGDILSPLPGIRVTSPARTWFDLAGVLPLPALVAAGDWLVSAHGRSFGYPR
+QAVVALNELQDFVAELRGVPGIRTARFAVDLLRSGVDSPQESYLRLMLQKNGLPEFRPSC
+PLLDGAGRPVVWADLGCPEFRTCVEYDGEHHLTREQQLRDHNRDLLVRELGWHQVKVSSG
+DMRRGSAWVAAKVARGLKLGGWIPEG
+>tr|A0A0P7HKA1|A0A0P7HKA1_9MICC
+MDFLHSFLVFLHILGAGIIVGIWVAKIKNPTVMPGQFHAALLQLVTGILLVGVNEMGDGD
+VNHIKIAVKLAIALVIAVMAFIGQRKYKKDQPVSGVLANGVGILTVVNVALATMW
+>tr|A0A0N8HYZ3|A0A0N8HYZ3_9MICC
+MAGMRRTWSSEVSPEEAEERWLPLLQDPPQEEQNGADRFTYEISVGKEAVTIPETSLKGR
+WRELVERARSGEAARRA
+>tr|A0A0P7G9W9|A0A0P7G9W9_9MICC
+MTSEIPVSTRPFVQVDVFSPEPFGGNPLAVVLEASGLTAAQMQRFANWTNLSETTFLLPP
+EDLRADYRVRIFTPTEELPFAGHPTLGSAHAWLEAGGKPRQEGTLIQESAAGLVRIKADG
+GGRLAFAAPDLTRFGPVAGHELDRVAAGLGLPREALLDAAWLVNGPEWIGVLLGSAEQVL
+AIQPNYPAMAGLAVGVIGPHPDGAATEFEVRTFISDELPCEDPVTGSFNAGAAQWLIGSG
+RAPSSYTAAQGTVLGRTGRVHVEADGEDIWVGGECTTRISGTISI
+>tr|A0A0N8HY50|A0A0N8HY50_9MICC
+MDSQPGSSSNLTESRRLQGYWNDGLGHAALRSAQLLLVLLLVGVAVYALTRVTLVVIPVL
+LALILAAAIAPFVNWLRRKGWPGALATGTSFLLLLIVFGGLVTGIVFAVRSEWSTLVDQA
+VAGFDELYRLVQEGPFAVDDSAMQEARDAVLDFATSSTVGSGALAGLSAAGSFATGFVLM
+AVVLFFFLKDGDKIWAFVLRWFSGERHRKASLAGARAMEVLGGYVRGTAIVAAVDAICIG
+AALFILGVPLALPLSVIVFVGSFIPLVGATAAGILAALIALVANGPVVALIVVIVIIAVN
+QLEGNFLQPVVMGRTLSIHALVILLALTAGTILAGIVGAILSVPIAAVSWAVIKVWIGED
+QGDPAEVPEVASDDAESPEMGSTGAGQAGD
+>tr|A0A0P7FPF0|A0A0P7FPF0_9MICC
+MPYKARSSVLAAAALSALALSACGGGSDSASDSGMNLVSDGKLTVCSDIPYPPFEYEENG
+EYVGFDMDLIKEIASGMGLEASIQDVGFDGLQGGTVLAAGQCDLGASAMTITEERQKNLT
+FSDPYYDSLQSILVPEGSDITGIEDLAGKKVGVQQGTTGEAYARDNAADAEIISYPSDAE
+LFPALQAGNVDAVLQDLPVNLGHTQEGAFTIAAKFETDESYGFAMAKNASEELVSGVNEQ
+LAALRDNGKYQEIYDEYFTE
+>tr|A0A0N8HY29|A0A0N8HY29_9MICC
+MSGNFNFHHTNTALLSVKSVEAPVVVSSQDFDERLSPSLKRLRLSKGLLKRVAGVEERRW
+WAPGTTFEDGAIEAGAKAMAEAGVEPSQIGLLINTSVTRKNLEPSVAVKIHHNLGLPSSA
+LNFDLANACLGFVNGITMASNMIESGQIDYALIVAGEDSQVVQETTFGRLNREDSTREDY
+LREFATLTLGSGAAAAVIGRAADHPGSHRILGGVSRAGTEHHELCVGGEGGMYTDTKGLL
+DGGLDLVVTAWHEAHENGWDWTSMDRYVTHQVSNSYTNAIIKAVDLDRTKVPITFPRWGN
+VGPASLPMTLAQEARTLVPGDRVLCMGVGSGLNTTMMEIAW
+>tr|A0A0P7FZ74|A0A0P7FZ74_9MICC
+MFWASYFLAALAVILAWPVPVFLSRAKWPARSPFTAMVLWQSIALAGGLSMIGAMLTWGL
+EPIGDNLAQGLSGLWDILMQRRSVASLGLVHVFAISAAVLLSVHLVFTLLLTYYRIVTGR
+RRHRDMLNLLSSPSVDTPATVVIPHPSPVAYCLPGGAKSVTVLSDGLMDILTESELSAVL
+THEKAHLSQHHHLLLWAFAAWRAALPWLPTSQLAQHAVNELIEMLADDEALKRVDRPTLI
+RAVAIVGSATGSGAETAASLPGSSGTAVTGGGSDDEIDMAARLSRLLTPRPPLSGWVKAL
+IQAAAVLLLAVPTVLLFAPGLIH
+>tr|A0A0P7GDY5|A0A0P7GDY5_9MICC
+MGNTHTPEGADHDYYRRPADGVEPQRSMQMPSVQIVDDGAGNGGSVHVGAGADAAGAGGS
+GRSGIQELGQAEPAGAVPAPVPVWQRFNFALTAAWTLVAVLLAVGLAWLTGAFSAPQMYY
+DPSTNQPSDGSSTVITMNLYSMGPFMFLFGILGAFTLLVVQSARFRRPGR
+>tr|A0A0P7GTB6|A0A0P7GTB6_9MICC
+MDWRSRAACLDKDPELFFPVGNTGPALLQIEEAKSVCRRCPVIDTCLQWAIETGQDAGVW
+GGMSEDERRALKRRAARARRAS
+>tr|A0A0P7GAC1|A0A0P7GAC1_9MICC
+MSEAHDGSRHGEYKVPGGKLVVVDLQVKDGELDSVSLSGDFFLEPDDALGEINSALNGLS
+AESTAEQIAEAVRARLRPDAVLFGFSPEAVAITVRRALAKATSWGDHEWEIIPPTPLSTH
+MHVAMDEVLAEEVGAGRRNPTLRFWEWESPSVVIGSFQSLRNEVDPEGAERHGVTVVRRI
+SGGGAMFMEHGNAITYSLYVPQSLVDGLSFADSYPFLDAWVMESLERLGIKAWYQPLNDI
+ATDEGKIGGAAQKRLSSGGMLHHVTMSYDIDADKMVEVLRIGKEKLSDKGTRSAKKRVDP
+LRRQTGLSREEILDTMMQTFAERYGAKTTGLSEHEMERAREKVAEKFDTSEWINRVP
+>tr|A0A0N8HZ56|A0A0N8HZ56_9MICC
+MVNAIEVRNVNKQFVLRHTRSMKEAFVWLVKGRKGDLSEKFHALKGVSLDVEQGETVALL
+GLNGSGKSTLLKHISGVMRPDSGTVGTRGRVAGLIEVGAGFHHDLSGRDNVYLNGAILGM
+SEEEINEKFDSIVEFSEIGQFIDTEVKFYSSGMYLRLAFSVAVHTDPEVFLVDEILAVGD
+EPFQKKCINKIKELAAEGKTLVVVSHDLDLVSRICERGVLLEHGEVIMDGPVHDVVSRMR
+AN
+>tr|A0A0P7GIN8|A0A0P7GIN8_9MICC
+MWALEATASPSDRMFGYGAATLIELAGSDAASKEEKVLLDAVWRVSGTQMRDTSIRQLLA
+EHSTVSEPSEEAETQRSECGLGKASSLYREVLAARLKVILDEEFRRETSPLVSELAKIQV
+SPAL
+>tr|A0A0P7GL32|A0A0P7GL32_9MICC
+MWACTGNPLVAEICAGSGFDWLLIDGEHSINSLESISTQLQVVAGYPIHPVVRVPANDTV
+MIKQYLDLGVQNLIVPMVDNAEQAAQAVAAVRYPPRGVRGVGSALARGSRWNRIEGYLNR
+AEETITLLVQVESAEAVANVAQIAGTDGVDGIFIGPSDLAASMGHLGQQDHPEVTSAVEH
+CIRTARELGVPVGVNAFVEATARRYLDAGADYIAVGADVAMLARASEALAAKYLPEGTGD
+TPASY
+>tr|A0A0P7GHS6|A0A0P7GHS6_9MICC
+MSGALTGLLLAAAWALLLARPGQILVERAPGSNGPTSPADGPGSRRRSRSTGSGFRPGSR
+AAQQEEALHRLPLLVHQLAGLLAAGRTPADLWSDAAALSRDGGDTDTAGVLESAARAAEL
+GLSPVSALRDAALSAHGLEAAVWNDLAACVHTAEHSGAPLAKILARYAQGLEGMLDSRAA
+RATALAGPKATARLLTWLPVGGLGLGYALGADPLSVLTQSPAGWAAAGTGTVLALAARIW
+SRVLVRRATGSEIQ
+>tr|A0A0N8HXZ0|A0A0N8HXZ0_9MICC
+MILEQESIDVFLGLDVGKTGHHAVALNRAGKKLYDKALPQDETKIRDVLTKLAGHGKVLV
+VVDQPATIGALPVAVAQAAGAAVGYLPGLAMRRIADLHPGQAKTDARDAAIIAEAARSMP
+HTLRSVELDDETLAELGVLCGFDDDLAGQITATSNRIRGLLTQIHPALERALGPYLDHPA
+VADLLTRYPTPAALKTAGRGHVRARLKKHAPRAAERLTEAIFTALGEQTVVVVGTGAAGI
+VLPKLAEQLLALRRQRDEIADQVEALVEAHPLYEVLTSMPGIGVRTCARILTEVTGKHFA
+SAAHLASYAGIAPVTRRSGTSIRGEHPSRRGNKKLKRALFLSAFAALHHPPSRAYYDRKR
+AEGKRHNQAIIALARRRSDVLFAMLRDGTLYEDPAPKNLPSAA
+>tr|A0A0P7HGW7|A0A0P7HGW7_9MICC
+MTTTQKQPTQPTPTASRFQGTSGRYTTDGVPHGLTSLTPFVSVPRAAEAIRFYQDVFGAR
+VIDVTEMNGVTAHADLDFGTGHLQLGEPSEAFGLVPPPEPDTACYSLGFYCSDADQVVAR
+AEAAGAVIREPLTTFVSGDRFASIRDPFGIRWSIMTRVEDLSEEESARRVAEWAAQQA
+>tr|A0A0P7GIW3|A0A0P7GIW3_9MICC
+MPEPDLLTDELTLTGRITTASNATYLGSIGDAEVVYKPIAGEKPLWDFPDGCLAHREVAA
+YLVSEALGWNIVPRTWLRDGPLGEGMVQLWQDADPEQDAVDLVPLGEVPESGFKLVLEGE
+DQAGQIVALIHEDTAALRRMAVFDVVVNNADRKGNHVLAMPGGHRYGVDHGVTLHAEHKL
+RTVLWGWIGESLSSEELAGIDRVLAGLDGDLGEKLAELLTAEEVEALASRCARLRTTAVF
+PGPSGGMPAVPWPLF
+>tr|A0A0P7FQ20|A0A0P7FQ20_9MICC
+MQQSDATVGIYIPFWGELEYLRVAVDSVLAQTNPDWTLTVVNDAHPDYSVDAYFATLDDP
+RIRYIRNELNRGITENFRRCVQMAVEPRVVVMGCDDFLLEGYVEAITKAHADHPEADLIQ
+PGVVVVDEEGTVVAPLVDRVKQRLLRPRHESPLLLSGDKLAANLMHGNWLYWPSLAFRRE
+AVQRHDFRDGFPVIQDLALILDVLLDGGDLLVVPDVVFAYRRHNSSASSLELLDGSRFAG
+ERKFFEHAALLAKAKGWPRTVSAAKLHVTSRLHALVLLPGVLVRRDFRTAKVLLRHVFGS
+>tr|A0A0N8HZ55|A0A0N8HZ55_9MICC
+MRWEALFTDLEAQLAAAGQADLEAEIADRQRGEVAGLDLAARLRAQRGRSLSVYLGLAGG
+PLNGVLGQLGADWFLLESAAGSHVVALDAVSMIEGMNRYSVQAAPTVQLRLVSALRGLAR
+DRYPVGLQLRSGQQPLHGSIDRVGRDFLEFAAVEPGAARRRENISSYRVIPLGQVAAVST
+IR
+>tr|A0A0P7GV60|A0A0P7GV60_9MICC
+MTALAGAVGVASSGILALTLVVDERMETWLLRRGAARPRLVMAVITAVTSLVLDLIMDSK
+DAEHASP
+>tr|A0A0P7GNY0|A0A0P7GNY0_9MICC
+MSSTNSNARSGGPRVKTPARPAQRPGTGQSAPGNRQPLVKPAPKAKARKARLLVSKIDPW
+SVLKMSFLLSVALGVVTVVAAIVLWTVLDLTGIFDQVNRLLGEIAGSESGGFDLREFASL
+GQVVSFATIIAVVNVLLLTALSMLSAVLYNIASTLVGGIGVTLTDD
+>tr|A0A0P7FIP0|A0A0P7FIP0_9MICC
+MLSVDKLSMSYGEGADEKHILRDLSLEVQAGEFVSIVGPSGVGKTTLLRCLSGLVKPKSG
+AVVVDGTQITGPHPDIGVVFQDYSRSLLPWMTSADNVAFPLQGKGMPKAERFAQAEASLA
+EVGLAGQGHKYPWEMSGGMQQRVAIARSLSYNSRLVLMDEPFASVDAQTRFDLEDLVLKL
+RNAHGTTILLVTHDIDEALFLADRVVVIAEKPATVVDIIETGFGRERDQIETKALPFFSE
+ARARILHRLRGESVASAGRNP
+>tr|A0A0P7FPW8|A0A0P7FPW8_9MICC
+MSESMGQNAPAEAETQEQFFTLWTVFKRSDLPRETSDGASGAFEELVGSFAADNVTLRGI
+YDVSGMRADADIMIWLHGGKAEALQAALRQVRRSELFAGTEIAWSAMGVHRDAEFSKNHW
+PSFARGIDPESWICVYPFVRSYEWYLLPAEERGAMLRDHGMLGREFPQVLANTVASFALN
+DWEWILGLEAPNLVDLVDMMRHLRSTEARNHVREETPFYTGRRISAAEVSEVLR
+>tr|A0A0P7GUL4|A0A0P7GUL4_9MICC
+MQVSVSGAQAGMAEEVQAACQWLLREEARPFPSADAAECVASAMRAGNGAQQTVATTASW
+LPPGSYTMDFRTGSDFGMMLRSTDGELEISVESGMRTLRTGDSSVRADASGGAEESYAAV
+LVDAAELTANPDRLAGLIKSGNPASVEYAVDYMGVSATRLTAVVEPENPGDFSGALTLTL
+DELYRPLLIEHAGRTRGIATSIRAEITGWGSTGPLR
+>tr|A0A0P7H553|A0A0P7H553_9MICC
+MTLSASHPLMDGRTADSPLIAAYRGKTPSRRPVWFMRQAGRSLPEYRKVREGIGMLDSCL
+QPELASEITLQPVRRHDVDAGIFFSDIVIPLKLAGVDVDIVPGVGPVLGAPVRTAADVAA
+LPELTDEALEPIREAVRLTVDQLGSTPLIGFAGAPFTLAAYMVEGKPSRDHLGPRTMMHA
+DPETWQALTNWAADASGKFLRAQLEAGASAGQLFDSWAGSLGLADYTSKVAPASARALEH
+VRGLGAPLIHFGTGTSELLAAMRDVGVDVVGVDYRLPLDEANRRLGGSVPLQGNIDPALL
+EAPWPVLEAHVRQVLEAGSAAPGHVVNLGHGVPPETNPEVLTRVVELIHSVEP
+>tr|A0A0P7GAX4|A0A0P7GAX4_9MICC
+MENRFHPHAESVWSYPRPPRVEPSGEHVQVWLAGTLIADTIHALRVLETSHPPVYYLPLD
+VFAPGVLQPVPGTTHCEFKGAAAYFDVVSGPQRAARAAWTYPHPFPGYEELVHTAALYPG
+LMDTVLVDGEEVQPQEGDFYGGWITSRVTGPFKGAPGTWGW
+>tr|A0A0P7GCN7|A0A0P7GCN7_9MICC
+MNSKDTGTQVPVQKSDDEWRRELTPAEYQVLRQAGTERPYTGEYWDTKTEGVYACRACGA
+ELFTSSEKFDSHCGWPSFFAPLAEGKVRYLHDRSMGMDRIEVRCANCDSHMGHLFEGEGF
+DTPTDQRYCINSVSIKLVPKTDGN
+>tr|A0A0P7GWD0|A0A0P7GWD0_9MICC
+MPEEVLRHAGSPRSLPVGSPGKVGVLQLGFDRNRGRTELVEHYQKSPLQIMHPLYFNLLR
+PDMPYTYLMSSGGGILQGDRQRTDLRFSAGTSAHVTTQAHTRIYRMDYGYATAVVNIAAE
+EDAYVEYLPDPVVPFADSRFYQQTSVVLDESATLLLGETVYAGRLARGERHAYDVYASDF
+EVRRPDGRLVALDRVRLCPGDGEDGRGVNGLGVLAGHDVLAMLYVFTPLVPPAQLADSLS
+RAVRESGGDLIFGVSTLPGDTGVWMRLLGNDTVAVAAANTAAASAMHELLTGKQAPLIRK
+N
+>tr|A0A0N8HXP7|A0A0N8HXP7_9MICC
+MTESNASVPRHHKPKLYAPMDFANHPGGADPARVSEAAHLAAQALVHHGRESDDPEVTRR
+LVELADRQGLEAVAEIWATSPARSLPGALWRLYALRAAVQQNPEKVAAYYAAGKEAAQVS
+KVVAGVAEPLGADEVRAMADTILSGAFEGDFDVALERFAAFCRVVALGETHHADSTESAS
+AERATELTRRARQLILTAEDLEHSAESWRRGELD
+>tr|A0A0P7HDP8|A0A0P7HDP8_9MICC
+MTGISIRDLHKSFGTKTVLDHVSLDVEDGEFICLLGPSGCRKSTLLRSIAGLESPEGGTI
+YLGDDAVFDGAGRINKAPEQRKLGMVFQSFALWPHKTVFENVAYPLKRAKTPKREINDRV
+REALVMVDLWDFRDSYPGTLSGGQQQRVALARAVVPRPRLLLLDEPLSSLDTNLRAQMRR
+EVRRIQQHLGATAVYVTHDKEDAGGLADRVLVLQDGKIVQEGAPRDVFVAPKTAFVAEFV
+GFDNFFDATVLESSDDRASVEVGNGNRFTAVTSSRLEPGSTVTVATRSRLVRVEPSDGSF
+SENGFTGTVLSKAHLGDDVEIVLSDGAAEIVARVRPGYAKDIHPGQTAVGLPPEGTVVVV
+EGTRKGGQRTTSSPRISALA
+>tr|A0A0P7FAA5|A0A0P7FAA5_9MICC
+MSGAPSAVTVVGNTNLDIMVSGAAALPEPGTESIVPGISIRLGGSAGNLAVRCAGLGQST
+TLVSKVGDDASTRLLEQELALPGLESVLVRDAGLPSGITVAVEAPGRDRAFLSSLGAMAE
+LTPQDVPPAALEAGAVVLAGYFLLPKLRAGAAQALFAAAHARGALTVLDTGWPAEGWTES
+VREEVHSVLASVDLFLPNSDELAGLTSSPSPQAAALSLAAGTATMVVAKLGAGGAGLALP
+DGTWIHEPARQVVPVDSTGAGDGFNAAFLACLARGDSPARSLAAAVRYATELVATHPDLR
+GSVPLPEPLSL
+>tr|A0A0P7H4A7|A0A0P7H4A7_9MICC
+MSTPVPTPSAGTPAIEVRNLHKSFGDNEVLKGIDFHVNQGEVVCVIGPSGSGKSTLLRCV
+NRLEEPTTGTIRVEGTDITDPETDLDAVRTRIGMVFQQFNLFPHLNVLQNLTLAQRRAKK
+RGKAEAEATAMKNLAKVGLADRAKAFPAQLSGGQQQRVAIARALSMDPDMMLFDEPTSAL
+DPELVGDVLEVMRQLAQEGMTMMVVTHEMGFAREVGDRVVFMDGGVVVEQGAPETVLGNP
+QHERTRSFLSKVL
+>tr|A0A0P7GSK2|A0A0P7GSK2_9MICC
+MSSDLEQLYQQIILDHAKTRHGEGLQEAPAGAPAGESHQLNPTCGDEITLRAVLGDGAGS
+DARVDGISWEGQGCSISMASASVLTDLMAGMSRDEALSLVENFREVMRSRGTVEADEEVL
+GDAAAFSGVSRYPARVKCAMLAWVALEEAVRAAE
+>tr|A0A0P7G9Z4|A0A0P7G9Z4_9MICC
+MSFTAPGTFTTRPTLQGTFGMSASTHWLATAAAQSVLERGGNAFDAAAAAGFVLHVVEPH
+LNGPGGDLTGVFATAENPAEPVVLMGQGAAPKAATREHFLSEGLELVPGSGALAAAVPAA
+VDAWLLLLRDHGTWELADVLAYAEGYARDGHPVLAQVGRTVGQVAELFREHWPTSAALWM
+PEGRPPAEGELVTNPAYAAVLQRLAAAGGEGATREERIDAARREWSTGFVAQAAADFAGI
+PHRHSSGTDHAGVITASDFAGSEAGYEPAVTFEFRGYTIAKTGPWGQGPALLQTLAILDG
+FPDEYLDPSTELGVHTILEAQKLAIADREAYYGDSHVPLEYLLSEEYAARRREQITPLAS
+HEFRPGDVPGHTPFVPPLRTEYVPPALAGNDAAGLGDGTGEPTVSPTGETRGDTCHVDVV
+DRWGNMVSVTPSGGWLQSSPTIPELGFCLGTRLQMTWLEDGAPSTLQPGRRPRTTLTPTL
+VLKDGNPVAALGSPGGDQQDQWQLLYLLRTIVGGYTPQQAIDAPAFHTTSLPGSFWPRTW
+TPGGAVVEDRLGTEVIEALADRGHAVTRAGDWALGRLSAVVRDPQTGVLMAAANPRGAQG
+YAAGR
+>tr|A0A0P7FQP3|A0A0P7FQP3_9MICC
+MLADLLITNAHVLTQDPAHPRAGTLVIHGGRILAVDPDIDIPARTVFDAAGLTVVPGFND
+VHSHSVWFGLGLMEAALGDARSLEDVYAAIGAAAAELAPDDWVVASGFSPLLLGGAQPDR
+DRLDEASGGRPVWIKHSSGHACTLNSAALDLVAATQDLTAVIDGGVVVRGADGRPTGLLE
+ENAMRLIQELMLPYPLETIEKALELATAHYLTEGITSVTDAGIAGGWIGHSPREFGAYQS
+ARDKGLLSVRMQPMLVLDALRPLSGHSDDGGGLGLDAGIRSGLGDEWLRIGPVKIFSDGS
+LLGSTAYMSEDYVGCTHNHGYLQMDAGELREQALAAYRAGWPIAMHAIGDAAVEHAISII
+TEAQETYGLNCFPNRIEHGGVVQPEQLDRIAEAGIVLVPQPHFITEFGDGMAELLGPART
+ELSYSAAGLLRRGAVLPGSSDRPVSNGRPLDVMQSFVERLTPSGRTYGPEERITAEQALA
+AYTTGSAAATGTSGEKGSLSPGLLADLVFLDQDPTTVHPSRIGATQVLGTMVGGELRYAH
+PDFPSFPNTAEDSR
+>tr|A0A0P7GTZ9|A0A0P7GTZ9_9MICC
+MAEFIYTMTKARKAVGDKVILDDVSMSFYPGAKIGVVGPNGAGKSTILKIMAGLDTPSNG
+EARLSPGYTVGILLQEPPLNEEKTVLGNVQEGVGEIYSKIQRFNEISEEMAQPDADFDSL
+LEEMGKLQEAIDAADAWDIDSQLEQAMDALRCPPPDSDVTVLSGGERRRVALCKLLLQKP
+DLLLLDEPTNHLDAESVLWLEQHLSSYHGAVLAVTHDRYFLDHVAEWIAEVDRGHLYPYE
+GNYSTYLEKKRARLEVQGKKDQKLAKRLADELDWVRSNAKGRQTKSKARLARYEEMAAEA
+ERTRKLDFEEIQIPPGPRLGSLVLEAKDLQKGFGDRKLIDGLSFSLPRNGIVGVIGPNGV
+GKSTLFKTIVGLEPLDGGDLKIGESVKISYVDQSRGGIDPNKTLWEVVSEGHDFIQVGQV
+EMPSRAYVSAFGFKGPDQQKKAGVLSGGERNRLNLAMTLKQGGNLLLLDEPTNDLDVETL
+SSLENALLEFPGCAVVVSHDRWFLDRVATHILAWEGTDENPADWYWFEGNFESYEQNKIE
+RLGPDAAKPHRVTHRRLTRD
+>tr|A0A0P7GCK6|A0A0P7GCK6_9MICC
+MVQATTLVSGLGMGESARWHGGEFYFADWSAGTISALDAAGNVRRVAGVPSFPITFDWLP
+DGRMAVVSGADGAVLAEVPHAGLVPLADLRSFSPHPWNEIAVHPAGNIYVNGIGQDYAGE
+PQDNGLIVLIRPDGTARQVAGNLAFPNGMLVSADGSTLVVAESNAGRLTSFEILPDGTLA
+PSRTWATVEGSAPDGISWDGSGGIWFAEVPGERCVRVQEGGTVLETVELDDGCFSCAAGG
+DDGGLLFMMTAQWPQVMDPGWEKTGRVMVQRVRPPELP
+>tr|A0A0P7GJ32|A0A0P7GJ32_9MICC
+MSATTAKDPRDVVLAPVVSEKSYGLIDEGKYTFLVDPRSNKTEIKLAVEKIFSVKVDSIN
+TINRAGKRKRTKFGWGQRKSTKRAIVTLKEGTIDIFGGPLS
+>tr|A0A0P7H661|A0A0P7H661_9MICC
+MSISAEDRAASGNAISLSAVTKSFGDFTAVKNLDLDIRSGEFFSLLGPSGSGKTTVLRMV
+AGFEPVTSGTIKLHGTDVTSKAPFERDVNTVFQDYALFPHLTVAQNVGYGLKLRKTPRAE
+RERRVAEALEMVRLPHVAGRLPSQLSGGQRQRIALARALILRPQVLLLDEPLGALDKQLR
+EQMQIELKQIQREVGITFIFVTHDQEEALTLSDRIAVFNDGGIEQVGTPEDLYERPATRF
+VATFLGSTNLVEGGLARRLTGADGLVSIRPERIHLAAPGALAPEGFSSVPAVIEEIVYTG
+PTTRYVALTDTGDRLIVQEQNDSRATEAARGDAVELQWPSRFNFHVS
+>tr|A0A0P7GDD0|A0A0P7GDD0_9MICC
+MSFDVSGLLEGGIIILAAMIVWLIARFLISKVVARAQKGSALLRTQGLRWAQPVMRNLDN
+KRRAQRADTIGALLRSSVTVAIWTVAVIMVLDAVGINIAPLLASVGIVGIALGFGAREVI
+RDALAGLFITMEDQYGIGDVIEVGDTTGTVQSVGIRITRLVDERGVIWYIRNGEFAKVGN
+RSQGQFVPPADEPGAAAGSAALQEEERK
+>tr|A0A0P7GUY5|A0A0P7GUY5_9MICC
+MAAWTVGSGAAVAVLMGVELVWVLRTARANRERVRVWPQVFTLAAVIGAVALAVAVLSGE
+GAGWRLEEIAAGAAVIVGVQVIWWISQARPRRGLEEQS
+>tr|A0A0P7GIB5|A0A0P7GIB5_9MICC
+MADSDIRSRPFGTLVTAMVTPFTADGEVDFDATAFLANKLVEDGCDGLVISGTTGETSTL
+EDSEKEDLFRVVAQTVGGRAKVIAGTGTNHTSHSVEMARRAERAGADGQLVVTPYYNKPT
+QAGVIAHFDAVSQATDLPIMIYDIPGRAGIPIATETMFRLAENPKVLALKDAKADFAAVT
+RVLANTSLDVYAGDDGLTLPWMVAGAVGVVSVSAHVATGAFRALVDAAAAGDFDKARRIH
+FELDPVVRAVMTHIPGAISAKQILKMQGVIPDAAVRLPLVAPDAIEMEAVLADLAEAGWD
+FSQDKA
+>tr|A0A0P7GTN9|A0A0P7GTN9_9MICC
+MPRFVLLGVIVVAAVIIYAVIDCLMSRAHEVRSISKPAWIAVIVLLPVLGAILWFLFGRP
+ASGPEPKPRAPRHPTAPDDDPEFLRNLEIRRRQKQKEEELKRREQEIADREKRSKQNDDE
+KPSSN
+>tr|A0A0P7GSS9|A0A0P7GSS9_9MICC
+MTEANKEKENQVTEATSAEATETKETAAAGTDDRRGGRRGEQRSDRGGRDRGGRGGRDGG
+RNDDKDKFIERVVTINRVAKVVKGGRRFSFTALVVVGDGNGMVGVGYGKAKEVPSAIAKA
+VEEAKKSFFRVPRIAGTVPHLVQGEAAAGVVLLRPASPGTGVIAGGPVRAILECAGIHDV
+LSKSLGSSNAINIVHATVDALKRLEEPQAVAARRGLPLDEVAPAAMIRNMQKAGA
+>tr|A0A0P7G7E9|A0A0P7G7E9_9MICC
+MHVRLSTQPVTNAPLSEVDPEIAAVLNGELARQRNTLEMIASENFAPRAVLEAQGSVLTN
+KYAEGYPGRRYYGGCEQVDVAENLAIERVKALFGAEFANVQPHSGAQANAAALAALIKPG
+DKIMGLNLAHGGHLTHGMKLNFSGKLYEVAAYGVDEHTYRVDMDKVREQALAEKPQVIIA
+GWSAYPRQLDFAAFRSIADEVGAYLWTDMAHFAGLVAAGLHPSPVPYSDVVTSTVHKTLA
+GPRSGMILAKEEFGKKINSSVFPGQQGGPLMHVIAAKAVAFKVAGSEEFRERQERVLEGA
+RIIADRLTAADVAEHGVSVLTGGTDVHLILVDLRNSELDGKQAEDLLHSVGITVNRNSIP
+FDPRPPMVTSGLRIGTPALATRGFGAKEFTEVAEIIAAALKPAPDTDALRRRVTALAEDF
+PLYPGQEEW
+>tr|A0A0P7HUR5|A0A0P7HUR5_9MICC
+MTEQRSAPPEPWDGTWDSLPPKRRRFFFWALLWNVIVDTVFRGLLELAGVPGPAASALTI
+AAGLAVLVPLGYAAWKEMLLRRSRGEELPPRPMTARRLAGWTVLAAVSWIAFTALLFWQM
+RPLFPTLPLILTWAAVFGFRRRRHELRSAVAEREADGTGSEAGER
+>tr|A0A0N8HXL0|A0A0N8HXL0_9MICC
+MTENPVPNILSTLRSEQATSPALIWYGPGSERVELSGKVLDNWVAKTSNYLTEELDAEPG
+TIVQLDLPAHWKTLVWALAVWQSGCTLALSAVPGVDVRVTAENPEPQGAELVAAVALPAL
+AMAWPGALPAGTSDYSAEVRSFADTWAGPLYRSEPAQPVAGDAGVLGFGLDAGEAPETGR
+QVVLLPAEAGTAGILAKALSVWAGGGAVVLTGDGVEPTERMLQAERVTARLEA
+>tr|A0A0P7HI34|A0A0P7HI34_9MICC
+MSTPLIGDYSAAPEDAALRAVRVGVITFPGTLDDRDAARAVRLAGGTAVELWHGDANLHD
+VDAVIIPGGFSYGDYLRAGAISRFAPLMEKVVDASKGGMPVLGICNGFQILTEAHLLPGS
+MIKNDHLKFMCRDQLLRVENNATAWTSGYTQGEGMVIPLKNQDGQYVADEKTLDELEGEG
+RVVFRYDGFNPNGSRRDIAGITNAAGNVVGLMPHPEHAVEAGFGPDSSARGDVALRGGTD
+GIGVFTSVLTSLVAGGK
+>tr|A0A0P7FGE0|A0A0P7FGE0_9MICC
+MLAVASVFALIAAAIHVYIFVLESIRWTAPATMVLFRIPNNEQAAHTQALAYNQGFYNLF
+LAVGAVIGVVLLGMGSVPVGATLVGFATASMVLAGAVLLLKDSRMLRPAMIQAVPALLAL
+VFLVAGL
+>tr|A0A0P7H5L0|A0A0P7H5L0_9MICC
+MRTEMGAGTLDSTSPLLHSQIHEPDGGSVLRPVLALHGFASSAEMNWASTGWIGALTGAG
+RRVITVDLPGHGLSGSPEEREHYRPSRIRKAILELLDESGVTPLVDADPASGVDVIGYSL
+GSRLAWEFGAAAPQLVHRMVLGGPGAGDPLADFDLEGARKFLSEGTPVPDPVSADLLKMA
+QIVPSNNLEALFTLIEAIKEEPFRPAESVPSMPLLLVAGDQDELAVSAPQLAELNGKADL
+LLLPGRRHANAVTSRAFKTAALEFLGG
+>tr|A0A0P7G3X2|A0A0P7G3X2_9MICC
+MPAVLKKRKMLIHAGAFLAVGALVAGCSSGDDGGDTQPSNASVEGNEAEGDTVVIGFSGP
+AADHGWLGAINSAALAAAEDLPDVELRVAEGTNDANLQISQVEQFINDGVDAIVLLPTDG
+AALTQVATQATEAGIPVINVDREFSSPTAARATVLGDNYGMGVSAGNYICERLEGQNDAV
+VAEIAGIDSLPLTQDRSQGFADALESCGLEVSNRVAADFTVQGGEATTSQLLSAAPEIDA
+IWNHDDDQGIGVLAAIDNAGRDEFFMVGGAGSANAMREIQSGESVLEATVIYPSTQAADG
+IRLARLIAQEKAMSDLVEVEVPKRIVLNAPVVTKENVEQYLPTAFES
+>tr|A0A0P7GJH8|A0A0P7GJH8_9MICC
+MVITSPFGWRLNPITGYGQEWHTGTDFRGALGTDVRSARTGTVTEAGWHTTGGGGLRIVV
+DHGDGVLTTYNHLNDIWVEPGQQVEEGQVIGAVGSTGNSTGPHLHFEVLINGEYIDPMSW
+L
+>tr|A0A0P7HGX7|A0A0P7HGX7_9MICC
+MTAQPTAPGDSRTALSGRVGELLFAAAVLSLGVTGFLAGAGIQTPPSASDIGPRAFPYLV
+STLLVIVGTALIVQVMRGRTGDAEEGEDIDPTVRTDWAALAKLAGFLILHIFLIEPLGWP
+VAAAVLFFGVSWALGAASWIRSLVIGVVLALILQVGFAGLLGVSLPAGILEGVPFLNG
+>tr|A0A0N8HX44|A0A0N8HX44_9MICC
+MSRKEASAAAFVLRRPEPDDADELAALHVQTWQETYDHLLPAGFFTSEFLDGRLRLWQHL
+TSATGGARLVRLAEVAEGNTGAVGEEYLHKIVGFAVAGPDTESGDGKDNRQLFSLYVLRR
+LHGTGVGQTLLDEVLGKEPAVLWVAKDNPRAVAFYRRNGFEFDGTVRSDPAAPGLVECRM
+LRPSMLRPSMVR
+>tr|A0A0P7GBR4|A0A0P7GBR4_9MICC
+MAEADKPGWSEERADLEHALDRANNDPGQDSLLGVDSDGVPRAFGLVNLNPDSVRVIGFG
+GVDPAWRRRGIGTAVYRWQADRARARVQDRKSDEQPLLRSYAEADNPSHVAMLESAGARV
+SRYFTEMTRPLSDGLPDARLPEGMEFQTFSDEISERLRVAHNEAFLDHWGSEPRDEQSWR
+FTVGHPQFRRDWSFVVIEKSSGGIAAYQLASYDPESPEIFGYSEGYTELLGVLRDWRGMG
+IAPAMLAEAMRRFRASGMQNAGLGVDTENPSGALRIYEQLGYTPVSRQIVYDLPLDAEPA
+>tr|A0A0N8HXV8|A0A0N8HXV8_9MICC
+MRVYPTFFRVVFSGMDPEKAHKIGYEAIRAMAFTPAAPVLRALTRPSPELATEALGLTFP
+SPFGLAAGFDKEGAAVVALANLGFGHVELGTVTAQAQPGNAKPRLFRLVEDRAVINRMGF
+NNDGAAAVAPRVRKAVDGLYRRWGRTRPIVGVNIGKTKKVGLEDAVEDYLASTRLLAADA
+DYLVVNVSSPNTPGLRQLQSIDSLRPLLTEVGRTADETAGRHVPLLVKIAPDLTDEDIDD
+VARLALDLNLDGVVATNTTIQREGLVTDPETVIAAGVGGLSGAPLKQRSLEVLRRLRAAL
+GEGPVIISVGGVETGDDVQERLDAGANLVQGYTAFLYEGPFWAGRINRRVRQLQRRRG
+>tr|A0A0N8HXY1|A0A0N8HXY1_9MICC
+MEIGSKAKKIIVWSASGLAAAGLLTGTFFTGMAVADNTEPASVTSELDGERPERPEHGDH
+GDLPQDNDTEGRDSQNKDSGSQDTQDEDTQDEDSQDSGSARPDRPDRDGGPDDDGRSGKD
+GSGKEDAGQGDNKDGHGERGGHGPRHGLPESEGEVPAEDAPARS
+>tr|A0A0N8HY36|A0A0N8HY36_9MICC
+MDGGGLESGYGMASAESRQLNVLRDKLRNLDRQLASLTHNNARLVTMLETARAEIVRLKD
+ALEKEGATPFSFGTVLSVNSRTEPEPGITTTATVQESVDIIQSGRKLRVAVSPLLDLGQI
+VPGQEVLLNESLTVVAGLGFEKAGELFTVQELLEGDRALVVGRADDERVVRLNGPLVKEK
+IRVGDALTVDTRIGYALEKIPRSEVENLVLEEVPDISYSDIGGLGPQIEQIRDAVELPFM
+HPDLYREHGLKAPKGILLYGPPGCGKTLIAKAVAHSLAARVMEQTGTLGTRSYFLNIKGP
+ELLDKYVGETERHIRLIFSRAREKASDGSPVVVFFDEMDSLFRTRGTGVSSDVETTIVPQ
+LLSEIDGVEKLENVIVIGASNREDMIDPAILRPGRLDVKIKIMRPDAEGAGEIFAKYLTP
+DLPLHRDDLAEHGYDPVATVKEMIRRTVEKMYAEDKSNEYLEVTYANGDTEMLYFKDFNS
+GAVIQNVVDRAKKYAIKDFLTLHQRGLRIEHLMRAVVDEFREHEDMPNTTNPDDWARISG
+KKGERITYIRTIIQGKAGQEPGRTIETTANPGQYL
+>tr|A0A0P7GC96|A0A0P7GC96_9MICC
+MMYAAHKAAGGMTSIYRQLGIGCERLFREVIKDTLSLSEEQVKWRYQVPIDDTDRLKTLT
+LDGRIELTDVVDDDQRNRISAWIDHQRARLNITQELKGVVFEVRQGYKSADSKRQNGDLS
+NSAQALGRGYIMGLVLMSTQMNRAVRARYELANIPVLLGTSGDEDNATSTFAFFRDVIGY
+DLGDFFERNSDSMRAEVIQILEELLSA
+>tr|A0A0P7FFM8|A0A0P7FFM8_9MICC
+MEILRMYKQDPPRGMLFREAVYEPEDGSLMVTKGRVGHEGTVSIRENVDSTDSQRLLKEF
+AEAGAGEGFAEIPEDQHHWVIAQYALKSKDGTERDRYLEHKASTAIGTYFAWRGLGSVEE
+SGFSPYKLNILCLVPDVKLAVKGIQVAIRESRLDFTKLSIGSAPFADLEHPVRRYPLPSR
+VPFEL
+>tr|A0A0P7GEA8|A0A0P7GEA8_9MICC
+MMGGHHAASGAAAWVAVASTAPYALGIYPVSPLGVVSGALLTAGAALLPDLDHHSGTIAH
+SLPPLTRILAKITEQISGGHRRGTHSLLGLAVFVAVAGALGELTAEVPGFGTVEVGAGLL
+SVLLMGFALKALKIAGGAGRSWLLAILLSVFIALYAPENNGWLPLAVGLGVAVHIVGDLL
+THQGVMILWPLRIKRPRKIASMPLLAKFWKTSGCLSLPIIGRAGSWREWAIMVPVSVYAV
+YGVIEGSFNALRDWLT
+>tr|A0A0N8HZ90|A0A0N8HZ90_9MICC
+MSTLTDRYVFAALRSIPEGQRGDIERELRGSITDDVEARVEGGQSPAEAETAVLTELGDP
+ARLAAQYTGRELYLIGPDLFLDWWRLLKTLAIIITPLSFVGSIVVRMALEPGEPAGAFGA
+AIGTAISVLVHLGFWVTLVFAIIQFNGTRRKDLGLQPWSPATLPQVPRKSQVTLGDTIAS
+VVLVAFFIGVLLWQRIGSLLYLNGEPVVVLQEDLWSFWLPYVIVLLVLEAGFAVVLYLAG
+RWTYAFAAVNTVLALAFMVPVLWLLSTDQVFDWSFLANVDWGADASTWIAGITAATVLVI
+GVWDIGDGFIKAWKAGRPAAVPADVR
+>tr|A0A0P7HDB3|A0A0P7HDB3_9MICC
+MANRFASLALDAVNAESQANFWTEALGYRVAELFDGGISLAPAEGVAGPPIDIIPVPDAK
+TAKLRLHIDLVPDGCTQQEEVDRLLALGAVRADVGQGPDVSWVVLADPEGNEFCVLSARD
+>tr|A0A0P7G4A6|A0A0P7G4A6_9MICC
+MVAKSQPGGTQKRNSVKAPLVFSAVLAVIAGITTMIFATGGATKELRLDLGLTAAGIAFI
+ASLLISSLLLMTEKPNPDHLSEGSGVNRASAKIPGGAGSVGAPARRQETSEDGESTPGDS
+RDGNA
+>tr|A0A0P7GIX3|A0A0P7GIX3_9MICC
+MRFRTTRLAAVLALGLLGVLVPTAAHADPPVTIPPGQYLVDTNDSLGAGTSEVRDAITEL
+QESTGYTLYVVFVDTFTDPSDATAWARDVVETKGMGAQEALLAIATEDRKMQVATGDQSV
+LNESRRNAMLQAAQEPLLGNQDITSQDWTASAVNAAESLEDIAGGGNGETTSRGGGGSLV
+PAFLVAGLVLVGAFAVFALVRSRSRKQRALTSREAAAPKDPLDAMSVPELRKQAGSLLVA
+ADDAIKSSEQELAFAAAQYGDDAVSTFTDDLAVARAHMSESFKMQQQLDDEIPDTEEQQR
+AWLKDIIRRCEAVNDSLQAHKKDFDALRELERNAPAALAAAQDSARNAEERLDSARAALE
+GLSAKYSDSALVQVRDNIDQARERLAFVSNASATAEERLQGGDTSAAVLAVRAAEESVHQ
+ANVLLDAIDRTGKGLDEAAAELDRAVADAKQDLAQARAFSQGGAQPALAGPIAGVEQALD
+AVAAARGEKYDPVDLLGRLEASNAQLDAALEGLRDRQEQERRARDALQHTIMSAQAQIAG
+TSDYIRARRGGVGSEARTRLAEAERNLQQAIALQSSDPVSALAYAQQANALAAQASQMAQ
+QDVDGFGGMGGMGGFGGGGMYGGRGGGSGLGGAILGGILIDSILRGGSHGGGGGWGGGGF
+GGFGGGGGGFGGGGGFGSSGGNF
+>tr|A0A0P7GVZ5|A0A0P7GVZ5_9MICC
+MFEPDGTPAFQAPPEPLLQVLSGNPTEEELAALTAVVIGLGAGSPDSVQASGSASGLDPA
+RNRRAWTRRRALSLQPMPGPGSWRRSYR
+>tr|A0A0P7H8W4|A0A0P7H8W4_9MICC
+MVFTYDTEMALASAAALVNTGYEEPDPLVDDAGLTDFLLRERFSGSRTHTPAELRAVLEL
+RADLAALWTAGEDDLVHGINRLLSASRALPQLVRHDGWDWHLHCTPPEAELADRMATEAA
+MALADVVRAGELGRLRTCAAPDCRSAVVDLSRNRSRRYCDTGNCGNREHVRAYRRRLASA
+ESKAGNS
+>tr|A0A0P7FFC9|A0A0P7FFC9_9MICC
+MAKVLVHATVTLDGYMADPEGGVDWMFDVDATGEDTELVNRIVGEIGAVVGGANRARTVE
+DGEEPYGGLQGVPVYLMTHEAQEPLVKDGVTYTFVVDDIVAAVEAAKTDAGDKAVSLLGG
+RISRQCLQRGLVDEIQLHVLPILLGSGISLFEGLNQRVNLELVENAAFGNGVHLRYRVLR
+>tr|A0A0P7GNH9|A0A0P7GNH9_9MICC
+MATKIVLLADTHLPVRAKVLPDEVWAAVETADLVVHAGDWVSEDLLNELEQRSTKLLACW
+GNNDGPALRARLPEVARAVVEEVRIAVVHETGAAQGRETRMAEAYPDADLLIFGHSHIPW
+DTTAPGGLRLLNPGSPTDRRRQPFCTYMVAVIDGGTVDVELRRLPLRS
+>tr|A0A0P7FZH1|A0A0P7FZH1_9MICC
+MLDTSVLLSDPKAILRFAEHEVILPLVVISELESKRSDPELGYFARAALRLLDDLRVQHG
+GLDKPVPIGDAGGTLRVELNHVSLEVLPLGIRGSENDNRILAVARNLADEGRTITVVSKD
+LPLRVKAAAVGLTADEYRNELVRDTGWTGMVELEVGDADVSSLYDHQPVFVPEAAELPVN
+TGLVLLAGRSSALGRLGADKQVRLVRGDRDVFGLHGRSAEQRLAIDMLMDPEVGIVSLGG
+RAGTGKSALALCAGLEAVLERREHRKVVVFRPLYAVGGQELGYLPGSEADKMGPWGQAVF
+DTLEALVSKEVVEEVLDRGMLEVLPLTHIRGRSLHDSFVIVDEAQSLEKNVLLTVLSRIG
+QNSKVVLTHDVAQRDNLRVGRHDGIAAVVETLKGHPLFGHMTLTRSERSPIAALVTDLLE
+EGAIG
+>tr|A0A0P7GBP4|A0A0P7GBP4_9MICC
+MREQILRPDVSFKTAPAKDYEYLVLSVGPHESLPDARRLITDHAEYGKWELQRTRIYRGG
+THRYWLRRKIMRVTRTV
+>tr|A0A0N8HZ79|A0A0N8HZ79_9MICC
+MTEDDIPAVDALEKAMFPVDAWPTEMFYDELHQRDTRSYYVAEGSDGTVIGYAGLMCVLP
+IADVQTIAVDSAHEGAGTGSRLLATLLDEAKQRGADDVLLEVRADNPRAQRLYRWFGFEQ
+IHVRPRYYRDGADALIMRLELSSWHGAPVRESNPVKDVQ
+>tr|A0A0P7G669|A0A0P7G669_9MICC
+MATLTVWKFPDADAAERATQTLASLESQNLINVQDEAIVTWPRDKKKPRTIQEHNMAGAG
+ALGGGFWGLLFGLIFFIPLIGAAVGAAIGALSGSMVDVGIDDNFIKQIRQEVTPGTSALF
+VLSSDAVEDRVLDAFKDSFPGASLIATNLSKDQEANLRKAFAEAD
+>tr|A0A0P7HD26|A0A0P7HD26_9MICC
+MADSSPAPRVSLASVTPAIALGPLDGRYRSATAPLVDYLSEAALNRDRTHVEVEWLIHLT
+SNSVLPGTAPLTAEQQAALREIVSGFDGNSVNELAEIEQVTVHDVKAVEYYIGRRLAAIG
+IENLTPLVHFGCTSEDINNLSYALGVKGAVENVWLPAARKMVAQIAAMAEETRSVPMLSR
+THGQPATPTTLGKELAVTVHRLTRQLDRVAGTEFLGKINGATGTYAAHYASVPGADWQQV
+AKSFVEGLGLTWNPLTTQIESHDWQAELYADMARFNRILHNFCTDVWSYISIGYFAQVPV
+AGATGSSTMPHKVNPIRFENAEANLEISNGLLDTLASTLVTSRWQRDLTDSSSQRNIGVA
+FGHSLLAISNVAKGLERLNVAEDVLAADLDTNWEVLGEAIQMVMRAEAVAGAPGMENPYE
+RLKDLTRGHRVDAERMKEFVSGLGLPAEAEARLLALTPAKYIGIAENLVDHLQK
+>tr|A0A0P7G8R4|A0A0P7G8R4_9MICC
+MSPDDFEAAVDDALNSIPEDLAKAMNNVAVFIEDEYIPAPHEDPETELLGLYDGTPLTER
+DSWWGAGSLPDRIVVFSGPLTRMCDSRDELVDEIRITVIHEVAHHFGIDDARLHELGWG
+>tr|A0A0P7HGW0|A0A0P7HGW0_9MICC
+MESFTPATDAVGSSITLSALLALVPLVVFFVLLAFVKTKAYVAGAWALLAALVVAVAGFG
+MPVGLAVLSATQGAAFGLFPVVWIIVMAVWLYQVTVRSGRFEDLRRVFDAVGGGDLRVQA
+ILVAFCFGGLLEALAGFGAPVAITVTMLLALGIAPVRAATAVLIANTAPVAFGALAIPIT
+TAANLTSYTGDEIGAVVGRQTPLLAFIIPLVLLFILDGRRGLRDCWPVALFTGIVFSVFQ
+FLCSNFFSYELTDIVASLVALAAAVGFLRVWHPRGGKAAAERMQGELAAAKAEGWTSAGG
+GNTPVGSAATDTATDRLTPSRAWMALFPYVLVIVIFGFVNLWTLGVNVPEALARTTIRIP
+WPWLHDALLDADGERVSSTVYNFEWLVTPGTLLLISGLIVAVVYSRFNDHGRYPLSVGGA
+LQEIWLTARRMTSAALTILAVLALAYVMNFSGQTISIGTWLAGTGAFFAFLSPVLGWIGT
+AVTGSDTSANALFARLQETAGAAAGLDPKLMVAANTGGGVMGKLISPQNLAIAAAAVNMS
+GRESVLLRKVFGWSVALLLALCVIVFLQSTPVLGWMLP
+>tr|A0A0P7HI46|A0A0P7HI46_9MICC
+MYSDSSQFPGPAALELTGVSKDYRTGSTTVAALSEVSLAVPAGTFTAVMGPSGSGKSTLL
+QSAAGLDVPDAGQVRLGGTEISRLRGKALTRFRRDHVGFVFQSYNLLPQLSVTANVTLPL
+LLAGRGTDNAWLQYVLDAVGLTGLGERKPQELSGGQQQRAAIARALITRPDVVFADEPTG
+ALDSGTARQVLQLLRHTVSALNQTVVMVTHDPVAASYADTVVFLADGRIDGSMDGASARD
+VSDRMAYLGGN
+>tr|A0A0P7GAF2|A0A0P7GAF2_9MICC
+MIWRSAGLNPHPAHESNAGSPDSVLASFLLYECLLGVQYPAVYRRTILDGAVEFPNQILL
+LPEEIRSAKQLSSRRTKLTLQVWWGKTIAMQQRP
+>tr|A0A0P7GNK1|A0A0P7GNK1_9MICC
+MRSERSQPERRRGRAARQFAAAAAAAAMVLTGCGSGSADGRQEIVVAIVSNPQMTDAISL
+QDRFKEEHPNVDVRFVSLPENEARAKITASVATGGGEFDVVMVSNYETPMWAENGWLTNL
+QEYADGTQGYDPDDFIPNIREALSYEGDLYSVPFYGESAFLAYRQDLFDEAGLTMPEQPT
+WEDIAGFAETLHNPDDGFSGICLRGLAGWGEVMAPLTTMINTYGGSWFDEDWNATLDSPE
+VEAAVTDYVDLIRNSGQPGAATSGYGDCLTRYSQGNAAMWFDATAMVSTVEDPDSSLVVG
+KTSYAPAPVQETDSAGWLYSWSLAIPATSEEKDAAWDFVSWMTDKDFIQLVGEEISWERV
+PPGSRLSTYEIPEYAEVAEAYAEPTLSAMAGAAQETSFTGSVPYPGLQFVGIPEFQDLGT
+RVAQQISAAIAGQKTVQEALEQSQRYAQTVAESYQSGDNG
+>tr|A0A0P7H460|A0A0P7H460_9MICC
+MTTQLPAQVSDIFDPRQWRVVGGFEDFQDMTYHRQVERDADGAVVRDLPTVRIAFNRPEV
+RNAFRPGTVDELYRAMDHARMTPDVATVLLTGNGPSPKDGGHSFCSGGDQRIRGRDGYRY
+AEGETQETIDPARAGRLHILEVQRLMRTMPKVVIAVVNGWAAGGGHSLHVVADLTIASRQ
+HGKFKQTDATVGSFDAGYGSALLARQIGQKRAREIFFLAREYSAEDMVAMGAVNEAVDHE
+NLEKVALEYAADIARQSPQAIRMLKFAFNLADDGLAGQQVFAGEATRLAYMTDEAVEGKE
+AFLSKRDPDWSNFPYYF
+>tr|A0A0N8HXY6|A0A0N8HXY6_9MICC
+MATDTTPQTPHTDSELDPAVAATLKRDDAGLVAAVIQQHDTGEVLMLGWMDDEALHRTLT
+TGRVTFWSRSRQEYWRKGDTSGHVQLVKSVALDCDGDALLVRVDQVGAACHTGTRTCFEG
+RGLPVSS
+>tr|A0A0P7G6P6|A0A0P7G6P6_9MICC
+MSISRSESQPFPAAQPEDVGIFFQELLEHLEEWKPRLEALFSDPAAPPLRREVDAAVEPL
+TTALLGGSDYPVAGGGFVAAHQAVSDAPWHMAWWQGRSKENQLLTSLESMGEAYARREWF
+SVPLETGASHVTGPYVDFICTDEYTVTLTSPVSVGGRVVGVVGADVFVESLEEVLLPDLR
+SLHPEASLVNRVGRVVVSADPQLAAGRLLVGDWRNAPDLLRMELRGAEYAGRLAAVYPCG
+SLPLAVAVPA
+>tr|A0A0N8HX30|A0A0N8HX30_9MICC
+MSTQQELVNKYLDGFRRSDHPAILACLTDDVVWRIHGSRTARGKAEFDAEIGEPGFEGSP
+DLSLERMVTEGNTTAITGAGHGVHRTIGPVFFNYCDVITFRDGLISEVDSYIVPIA
+>tr|A0A0N8HXM6|A0A0N8HXM6_9MICC
+MGAQPLCEVPQGSPLQGRQSLAVVRTENMVHSWNGVFKGQIRSHVQCCLGPARDGYAVDG
+CDRLQQLTLSPPKVSAAASVCIGWCKEHDFR
+>tr|A0A0P7G586|A0A0P7G586_9MICC
+MPQRREEVILVDNEGQMIGTADKMTVHTTDTPLHRAFSTHVYHPDGRILVTRRALSKLTW
+PGVWTNSFCGHPGPGEATEDAVVRRAERELGLKLRDIAVALPDFRYRAVDASGIVENEIC
+PVYTAIAEADPVPAADEVMDWTWADPARVVESVRLTPWAFSPWLVLQLPLLYPENA
+>tr|A0A0P7HI60|A0A0P7HI60_9MICC
+MTENPTAETEEYDELDEDAQFDDYPQPARDVLIDGPELFPGDTGTLPLKLRQALIRLLRG
+PYLDANSSDNVYNTVVDNQEQLRVRLSELFLELVVDEDHKVALLRPVEMAEPHTTALQRQ
+REMTREETLLLLRMRLVLDRHSGTGNEATIARQDIIDVLEQYVDPQAHDAKGVEDLADAA
+IRKLVTERRLLLPTELDDVWVISNALPLALPYEHIGDIITYMNSLTEAPAEPDTADEAPA
+EEAVTETQHDGEEPA
+>tr|A0A0P7GJL2|A0A0P7GJL2_9MICC
+MTPPFPVPSRFLRPAALAALAVLALTGCAGTPGDPAQAQRPETPGSSLNAGFPLELDNCG
+TAVSLDAPPERVVAIKSTSTELLLALGLGEKIVGTAFADGPVPEAWADAHVPPVLAEKVP
+SREAVLGLAPDLVFAGWESNFSADGAGERAQLDELGVASYVSPAACQGDGYRPSPLTFDD
+VFASIEEAGDLFGAQEAAADLVEAQRVELAGLTPSDKGLSALWYSSGSDTPYVGAGSGAP
+QLLMESAGLENIAAGIDAGWSPYSWEAVAEADPDVIVLVDSAWGSVEKKKSVLESHPVIS
+RLSAVQEGRYLVVPFAASEAGVRNVETVRSLAEQLAALD
+>tr|A0A0P7HIV2|A0A0P7HIV2_9MICC
+MSRDIHIVQLYPRDMNIYGDWGNVLVLKQRLKWQGYNPVVTEYNPGDGFPSDADLIVGGG
+GQDSGQVVIQQDLQALAPSLRAMADDGLPMLVICGLYQLFGRFFKTHDGVLIPGIGVLDI
+ETHGGPERLIGNVLSVSEEFGEIHGYENHSGQTFLGPDANPLARVRKGEGNNSKDDTEGA
+RYKNVVASYLHGSLLPKNPAIADFLIEQAVTRRYGSYEPVPVADADLAELARLSELARSH
+AANRPR
+>tr|A0A0N8HY60|A0A0N8HY60_9MICC
+MGNTQTPDGTDYDYYRRPADGIEPEWQRQPSVQIVDDGAGTGAVPGSAGAAGDGREPMEP
+RPTGPAGVPPDSLPFWQRFNLALAAAWVLVGLLLAAGLAWFTGVLPPSQMIFDPSGNNLN
+PPSSVIVMNLQSMGSLPFLFGLMGAFTLLTVQAAGFRRKARS
+>tr|A0A0P7HLM7|A0A0P7HLM7_9MICC
+MCVVAAGIVLAAGSVSPIPPAAPAAGPPAGGAELTAAELGEEQQVLAGSLTDALDPAGWT
+YQDGSALRPGTPPVPRPVACPASSGTAVTQGTGSAAGPRRHLLELQLAGPAPASPESARD
+RAQRVLLGSGADMLSALTPGPDAPPETAYTFTASFAGGIVKFSATDYEQTLQITSACSSD
+PALAATGNPAT
+>tr|A0A0P7FG88|A0A0P7FG88_9MICC
+MSEPAAEQWQRLSSRVVWVDVLVSVLSLLPGVAAIWVFGADPSLTALWPLAFVAVAGLSG
+AAADILRWAFTTYRLTAMDIEQRSGVFVRRHRTLHRDRVRSVDIATKLRHRIAGLRIVTV
+GAGQQAGAGEAALVLDALSAADAAALREDLFNTTVASPSPTATTADVLDTTDKRGEREGG
+DRAAEVLAVFKPWWAVYNMFSIWAYAMAAGLLWGGFWLLSSFGIDVVGVVANMADWDSLG
+WVVITILVLAVTGLLGALGLGVNFLLGYWKFELARIRTGDHSHLRTRRGLLSTREVLRDE
+LRMRGLSISEPLLWRWMRMADTNVITTGLNAWDPQEPTAILPRGPVTESHRVAGKIFGPE
+NPFEATLTKHPRTALRRRLWWGTAGSAAAPAALLLPALTGVIPGWMPWAAAAAWPPALLA
+AVVAYRALGHAIADEYVVVRSGLLSRTTSALRRDAVSTVAVRQSLLQRRLGLATVSAMTA
+AGWSTYEIPDVPTDQAAGLASDAAPGVLCDFIEQGRPLASTIMAK
+>tr|A0A0P7H531|A0A0P7H531_9MICC
+MTAVSGLAPLSERAGDPAGGTGLAPRTDEGVDVLAVAIAPGPPGDRTVPEPRRGAVEAAV
+QYGIDVAARAEAAGVTGKAGEHLVVEPPRGSAGLAGRLIYLGVGDESHQSLRRAGASLAR
+ATSGAKRIRTSVVDGLTPQAQQAFLEGFFLGGYRAPRTGVTDPPKPMAEVMEVTGLKPQA
+LELAEVAARAAWLARDLTNTPPDVATPEWIAAQSEAVAAARGLDVEVWDPARLAAEGFGG
+LTAVGSGSANGPRMVRVTYRPAGVETTDRVVLVGKGITFDSGGISLKPRESMPPMKMDMA
+GSAVVLAAVQAAAELQVPFEVTALLALAENAIGAASYRPGDIVRTYNGTTVEIGNTDAEG
+RMVLADALAYAVQELKPSAVIDVATLTGAAMLGLGKRHAALFGNDPELLTALEAAASASG
+EPLWQLPLVPDYEYLLESATADLAHVAPVKAKAGGGAILAALFLEKFVDGTPWIHLDIAG
+PMEVSSDTHEYSKGATGFGARLLIAFLRARAARARAETA
+>tr|A0A0P7GID5|A0A0P7GID5_9MICC
+MTVETATGRTARLERTTSESSVLVELDLDGTGRSDISTSVPFYDHMLTALSKHSLIDLTV
+KATGDTHIDAHHTVEDVAISIGEALKTALGNKAGIRRFGEATVPLDEALANAVVDISGRP
+YLVHSGEPAGQEYHLIGGHFTGSLTRHVFEAITLHAQICLHMNVLGGRDPHHIVEAQFKA
+FARALRAAVEPDPRVEGIPSTKGAL
+>tr|A0A0P7GJZ5|A0A0P7GJZ5_9MICC
+MGTKLLLLFIIGDILGTGVYALTGRIAGEIGGAAWAPILIAFAVATITALSYLELVTKYP
+QAAGAALYTHKAFGIHFVTFLVTFAVLCSGITSASTAAKFLAENFLVGFDLGWGQFGVTA
+IAVGFMLLLALVNLRGVGESIKFNVFLTVVELTGLLIVIGIGFWAMGQGNVDFSRVVVFE
+TEGGKSIFLALTAATSLAFFSMVGFEDSVNMAEETRDPARIFPKVMLTGLGITVFIYLLV
+SIAAVAVVPVGTLSESQTPLLEVVQTGAPDFPIDVFYPFLSIFAVANTALINMLMASRLL
+YGMSRQEVLPRLLALVLPGRRTPWASIVFTTILAIGLIILVTNAMGPETVSALGGTTALL
+LLCVFTVVNIACLVLRKSPPDPVEGESPGQTRRTFRSPGIMPWVGALSCAFLIGPWAQDP
+IEYQIAGVLLAIGVVLWFFTWLWNRAVKAKRTRFTDPEELHG
+>tr|A0A0P7GJB5|A0A0P7GJB5_9MICC
+MSTPTLKQSPVNEFSRIHGIGAFRPDVIVSNDDVCQWIESSDEWIRQRTGIVTRHRADKG
+TSVVDMAEMAGRDALAHAGIDGSALDAVIVSTVTHPFATPSAAAQIADRLGATPAPAYDV
+SAACAGYCYGIAQADALVRSGAAKYVLVVGVEKLSDFIDNTERTISFLLGDGAGAVVIGP
+SDTPGIGPSVWGSDGSKSGAIGMTHSMLEIRELSLAAEAEGTLPASVLAERETKLWPTLR
+QDGQTVFRWAVWEMAKSAQQALDAAGITAEDLGAFVPHQANMRIIDEMAKQLKLPESVVI
+ARDIADAGNTSAASIPLATHRLLSEHPELSGKLSLQIGFGAGLVFGAQVVVLP
+>tr|A0A0P7GNW1|A0A0P7GNW1_9MICC
+MAGRQGEIDPRYDPAYQRGGGEMQLSRGADEAPAIMEISDSPEPQQLGITQPPWSELEQR
+QRKYRLAAWSLAAALVVLGIFFMFADAIFPQDPELTQPNWSGYPVEPWTQKLRWVAPNMI
+MLGILTLVVQVFIEQMQTFRLRMGK
+>tr|A0A0P7GUD6|A0A0P7GUD6_9MICC
+MSNPRPNHPQPENNGSPARPDYQGAPANALPLTASEDRQWATLSHFGGILGFVPSLIIYL
+VFRDRGPFTAQESKEALNFTLPPTILALVAWLLSFIPVVGGYFAILNALIWIAVAVFSVI
+AGIECNRGRPYRYRFNLRRIR
+>tr|A0A0N8HZ57|A0A0N8HZ57_9MICC
+MTNTLVPFIMALLVVGAVVWLLRQRKLREKYAVLWILVGLATLVLAGFPQLLTMAADLAG
+FALPSNLLFLLAILLPIGVCLHLSLEISVVEDETRALAEEAAILRAQLDAVQARVDRMDP
+VQKLRHSGDKDEMHGNSIPEHHSEEQ
+>tr|A0A0P7HNJ4|A0A0P7HNJ4_9MICC
+MAALRRLEELLALPGPAAAAAALNELRSVLLPVECVACGTPDASLCLPCLAAFRQATLRP
+FDASERAAMLPRHEEADHLPLPVTAAGRYGAELARVMLAYKNHGHTDLTGILAEAMARAL
+YSARSSAAHSGHLAVVPVPGSFRGRTRRGYDPLELILAKIERRGLLPAGTGIHRSLRFRP
+AAAAAGVLGRSRGGQKTLRARARRRNVHGTMTARPVTLQGATVLVADDVLTTGATLAEAV
+RALRAAGAHVAGAVVIAAVRAPS
+>tr|A0A0N8HX41|A0A0N8HX41_9MICC
+MSELAAPAKPRRNIEAVLLVLALGVGVGANMLVGIDEDRAFDSDFWVQGGTLVALVLAFH
+FVLRFRAKYADPVILPVVTALNGIGLAMIHCLDIAEGTTAADRQLLWSTLAVAVAIGVLF
+LIKDHRILRRYTYISLIVSAVLLLLPLTPLGLTINGARIWISVGGGTFQPGEIAKITLAI
+FFAGYLSTNRDLILLAGRKVGPLQFPRFKDMGPMMAAWAVSIGVLVFQRDLGSSILFFGL
+FMAMIYVATSRVSWVLIGLGLIGAGGFVATQLFSHVALRIDGWLNAFDPEVIERSPGGSY
+QVVQGLFGLASGGMTGTGLGQGRPDMVTYANSDMIIAALGEELGLIGIFAIVLMYVLLVS
+RGFRAALGTRDGFGKLLACGLSFTIALQCFVVIGGVTRLIPLTGLTTPFMSAGGSSLLAN
+WIIVALLLLISDAARRPAATGLLTDMEPALASPAAGRGPGRKGRNEVTGV
+>tr|A0A0P7G9D5|A0A0P7G9D5_9MICC
+MVAELWPGVPAAWSRYVQVPSSAAVDQPGTVHKWHLLDNSPDLEARGAEPAGTLLCVHGN
+PTWSYLWRTLAAAGSTAERPWRVIAVDQLDMGFSARTGTFRRLADRISDLGDLTDALGIT
+GPVVTVGHDWGGIISLGWALAHRSQLAGVVLTNTAVHPAGFSLPPALKLALHPAVHGWGT
+KRTDAFLRVTHSLAQPALQPEIRAAYAAPYRGASRREGVGNFVADIPGDETHPSFRALTR
+VAEGIRKLTVPVLALWGPKDPVFSDRYLRDLLKRLPQADVHRFEGAGHLVAEDRDIAAPV
+FDWLGALHAKETPSASRPADTSGTAGFRPMPAELDDRATDVSPAVVDMAPASSGEAPAVL
+SWAELDTRVNALAAGLADIGVRPGNRVNLLVPPGIELTTLIYACLKLGAVVVVADAGLGT
+KGLSRAIKGAGPDFIVGIERGLAGARLFGWPGTRILAGEASPARLRLLGAAHTVAELTAA
+GTGRPAPDWKTDPDADAAVLFTSGSTGPAKGAVYTHRRLAAMRDTLRETYNLKAGSSLVA
+GFAPFALLGPALGATSVTPDMDVTAPRTLTAAALANAAAAVQATTVFASPAALANVLATA
+PDLNPDQRQALAKVELLLSAGAPIPEALLTRVQELVPAAELHTPYGMTEALPVTDISLEQ
+IRKAGIGNGVCVGTAVAGARVALAPLAADGTAGVEITEDAGVTGEILVSAPHVKDRYDRL
+WITEQHSSSLPGWHRTGDVGHFDADGRLWVEGRLGHVLTTPGGAVTPVAAEQAAESVPEV
+RLAALVGVGPAGTQVPVAVVETVNGARRPGPADASLSTAVRTAVAERCGLDLAAVLVLPQ
+MPTDIRHNSKIDRSALGTWAAEVLAGGRVSAPGARR
+>tr|A0A0P7HGF3|A0A0P7HGF3_9MICC
+MNAVAAESKTENSTDGYGDYDFIVVSNRLPVDRVADNGSEGSDEWRRSPGGLVTALAPVM
+AKADGAWVGWHGAPDETLEPFDHENMHLRPVPLSASEVELYYEGFSNATLWPLYHDVIAP
+PEFHRTWWDSYRTVNRRFAEAAAEVAAEGATVWVQDYQLQLVPQMLRKARPDLKIGFFNH
+IPFPPLEIFAQLPWRKDIIAGLLGADLIGFQRPSDTANFLRCVRRFAGHSVRQQQVHVTT
+EDGDTYVSRAEAFPISIDVEQITKLAQREDIIERSKQIRRELGNPKVILLGVDRLDYTKG
+ISHRLKAYGELLEDGRISVEDAALIQVASPSRERVEQYRLLREEVEGTVGRINGTYDTMS
+NTAIRYLHHSYPVEEMVALYLASDVMLVTALRDGMNLVAKEYVAARTENTGALVLSEFAG
+AADQLRQAVLVNPHDIDRLKDAIVSAIQMQPREAQRRMRLMRRQVLQNDVERWSQNFLNA
+LRLEGEAQ
+>tr|A0A0P7GJP7|A0A0P7GJP7_9MICC
+MDGISTARRVLRRLGSFSFVGTVAFLVDIGLFNLLVSTVLDDNPISAKIVSVVVATTISW
+LGSRYLTFRRTRGRSVRSETILFALTNLIGLGIATGCLFVSHYVLGFTSQFADNISGNVI
+GVLLGNVFRYFAYRYIVFTEPRGSVGSPAREDAELPR
+>tr|A0A0N8HXS2|A0A0N8HXS2_9MICC
+MSTATGHGHTAAQFSPETTVVAAGRPERTADSAVNPPIVLSSTFHGTRATREGDRIYGRY
+SNPTWDPFEEALGTLENAELPALVYSSGLAAVIAAMSLIPAGGTLVMPRHSYQGSLLLAA
+GDARDGRITVRTVDIANTDEVIAALDGAAMLWLESPTNPMLEVAELAVLADAAHAAGALV
+VVDNTFSTPLVTRPLDLGADVVVHSVTKYLSGHSDVVLGATVTSDPELRSRLLTYRSLHG
+AVGGPFEVWLALRGLRTLALRVQRSMETAMELAGRLATHPGVEAVRYPGLPQDPGHSRAA
+AQMDGFGSILCIEVAGGAEAADAVTEKVELWLPATSLGGVESLIERRRRQPEEPVSVPEN
+LLRLSVGIENVEDLWNDLDQALPR
+>tr|A0A0P7G9B3|A0A0P7G9B3_9MICC
+MITDMSELRRSLWHLRKSGWSGLQTKIRRDRAERGIYRGSADGALAFQTGRRRRISFNPM
+VVDTPEPRTGVSAAVILDDFSLLAFGYEWHQTVLSRDGWADQIAAKQPDLLFVESAWSGN
+KGEWKHQLTGTKRPSANLRALVEECRSRDIPTVFWNKEDPPHYDDFLETAKLFDHVFTSD
+SNRLVSYRRDLGHDRVAVLQFAAQPVIHNPARPRYGWHLRDIAFAGMYFAHKYPQRREQM
+DVLLGAAEQISAQLPIGLEIFSRHAEADDNYKFPAPYDGRVVGSLPYDRMLTAYKAYKAF
+LNVNSVVDSPSMCARRIFEITASGTSVVSTPSAALTQLWDNDEQFIVSDRAEAAQTLSAL
+MRNPELSSRQLHLAQRRIWAEHTYAHRAETVLRLAVPEKAQAVRLPSVSLLVSSNRPHQL
+EHVFRTVGGLVGPAAELVLLTHGFDVGKEKIAQWQEKYSVPNLVLLHQSEDLSLGECLNH
+CVKAASGDVLSKMDDDDYYGPNYLLDLVNALGYSRADVVGKQAHYMYLAERNAALLRFAE
+REHRFTNMVMGPTIAARKDVFGDIPFQSLRTGEDSTFLNDVIARGGTIYSADKYNYFQFR
+GSVNHAWKVSDAELLTSGDIQFFGSPEEHVTL
+>tr|A0A0P7HIM8|A0A0P7HIM8_9MICC
+MADNIPGTDTPAATVSVPDKPALEGLEETLSRRWREEGTYAFDPDTVRDEVYSIDTPPPT
+ASGSLHVGHMFSYTQTDVLARYQRMKGKNVFYPMGWDDNGLPTERRVQNYYGVRCDPTRP
+YDPDYRPPATAPKNQRDFDVISRRNFIELCEELAVEDEKVFENLFSTLGLSVDWTRTYRT
+IDDHSRAVSQRAFLENLKAGDAYMAEAPTLWDVTFRTAVAQAELEDREQPGAYHRVSFHA
+PDGEKIYIETTRPELLPACVALVAHPDDERYQRLFGTTVKSPLFDVEVEVKAHPLAKPDK
+GSGIAMICTFGDLTDVTWWRELNLPTRAVIGRDGRILADTPEWIQTDAARENYAAVAGKT
+VFSAKEAVVEMLRESGDLDGEPKKITHPVNFFEKGDKPLEVVTSRQWYIRNGGRDADRRE
+ALIARGKEIDFHPAFMRSRYENWIEGLNGDWLVSRQRFFGVPVPVWYPLDNSGNPDYDNP
+ILPAFEALPADPAADPAPGYEESQRNQPGGFIGDADVLDTWATSSLTPQIVGGWGVDEDL
+FSKVFPFDLRPQGHDIIRTWLFSSVVRADALQHAAPWRHAAISGWILDPDRKKMSKSKGN
+VVVPTDVLNEYGSDAVRYWAASARLGADTAYEIAQMKIGRRLAIKLLNASKFVLNLGATE
+ANVVKDDASAITNPLDQSLLVQLVDVVNNATKAFDSYDYARALQITESFFWSFTDDYVEL
+IKDRAYGAAGDAEQASVLATLATTLDSLLRLFAPFLPFATEEVWSWWRAGSVHRASWPEV
+QGLSAGVTGADAAILGTVAQALGGIRKAKSEAKVKQRTEVLNATVTAPAALVERLRAGLP
+DLLAAGNVRNLELKAADAELTVSDVELAPAE
+>tr|A0A0P7FQH2|A0A0P7FQH2_9MICC
+MRRVRYRLRLAAAWAADYAYVARWQVQGFLFRLDPAPYLEPAGGQAPRLPVVLIPGVYEN
+WQFLRPLAAALAERGHPVHTVNSLGYNRGRVDRMARLVEAYLDSAGLQDAAIVAHSKGGL
+IGKQVLLGPKGHRIRHLVAINTPFSGSPYARLFFLPSIRAFSPRNALLRSLQASLDANAR
+ITSIYAGFDPHIPGGSRLDGARNIQLEAMGHFRPVGDPEVHRLVAEVLENQGAPGSAQSR
+P
+>tr|A0A0P7GJ03|A0A0P7GJ03_9MICC
+MSTVAVHLRGLVRFFRDVMGEDAYRKYQAYHAASGCSSPPLTEREFWRDKMDRQDANPGS
+RCC
+>tr|A0A0P7HHA5|A0A0P7HHA5_9MICC
+MSRINVMKPWLGAEEIAAVSEVISSGWIAQGPRTARFEAAFAKKMEAGHAVAASSCTTAL
+HLALVVAGVGPGDDVVVPSFSFIATANAPTYVGARPVFADVDPETGNLTAGTVEAALTPN
+TRAVIAVDQGGVPVDLAQLRALCDPRGITVLEDAACAAGSRYAGRPAGAGAEIAAWSFHP
+RKILTTGEGGMVTTQRADWADRARRLREHAMSLSAAERSASVLAPAEAYTEVGFNYRMTD
+LQAAVGLVQLERLDAVVRRRRELAAAYSKAFAELEFLRPVADPPWGESNFQSYWVEVLPG
+FGTDRNKVLEALAGQEISARRGIMAAHLEPAYRNRDTGTASLDVTERLSAGTLILPLFHE
+MTESEQSRVIDAVAASGRKR
+>tr|A0A0P7GJI5|A0A0P7GJI5_9MICC
+MALGTVLGAIVLFLGVLLLVQATIGAARAAAAADLAALAGADTIRGLRSGDPCGVAAEVA
+ARNAAELSACVPDPGARTVVVWVEASAASLLPWRATAQARAGPPGPLGSREGVQ
+>tr|A0A0P7G6Y2|A0A0P7G6Y2_9MICC
+MNATRWCLVIGLVLGIVLAFGGWFAFLVTVLFGLIGLVVGLVADGKLDMAGMFGRAASR
+>tr|A0A0P7GJ73|A0A0P7GJ73_9MICC
+MDAYRLYILDNFGSQGSYYFADHRDRTIFNAVQEFIAETARQLGVDRMDITMLGTSKGGT
+AAIAHGLRLGAGRVVAGAPQYLPGSYLKGAAPHILSFIAGADDQESVAWLDRLIPESLGE
+SSRDTSVSILVGENDSHLKIHVRPFMEFAERENLDATVLVVKDLTHQDIGRAFSPYVGDV
+LRSGDDPARRRSLIPYQFEWRNGAAGNEVQLKVWVPPGEVVSAVFKTEQGALPLMSSHTP
+TYFRTEVPDGQSVWATVTRRASDGSGGLRTFDTRILAPRDN
+>tr|A0A0P7GK75|A0A0P7GK75_9MICC
+METSHPQPGPDSELKNRHRRMWALGDYKSVAAEVVPELGAVLAAEAGIGPGDYVLDIAAG
+TGNASIPAALAGADIVALDLTPELLEAGRAIAGSQGIDLEWVEGDAEDLPFDNGTFDAVI
+SCVGVMFAPNHQRAAAELLRVCRPGGTIALLNWTPEGFVGELMSIMRDYQPPQAAVPGPP
+LWGRQDYVSGLFGGGVQDWQGRQQMVTVDRFENPGHFLEFFKANFGPVVGVYRGLGEDIE
+RTAALDRELTSLAERHARAADNGIEMDWEYLLLRGTAGEGR
+>tr|A0A0P7FFP4|A0A0P7FFP4_9MICC
+MPTGKRRLLACPNCGGELLPDEARSRLSCPAGHRFDAARQGYFNLLTGAGTKFQADTAQM
+VQARCDFLAAGHYAPLARRLGLLAAEAAERPVLLDAGAGTGYYLNEVRKTVDASEAVALD
+ISKFALRRAARALPGGYALVWDVWRTLPLADGAADILLNVFAPRNPNEFRRVLAPGGMLL
+VVTPMPEHLQQIRALTGMLDIADEKEMRVARSLGPSFAPGRTEHVQYRMELDRADVQNAV
+MMGPSAHHVDSLELSKTLDGVDFPLAVTASFAVQQFRAAEAAAG
+>tr|A0A0N8HXT4|A0A0N8HXT4_9MICC
+MLILLPPSEGKTRPQSGPALNPDLLRFPELAAARKEVLSALMDASAAQDAHTVLGVGASL
+ASEVQRNTVLEGEPCAPAHQVYSGVLYDALGYDSLTPGQQAAADEAVVVISALWGAIGFG
+DAIPAYRLSMGTKLPGIGRLAAFWKAALTEPLNRHAEEQLVVDCRSSTYAAAWQPAPERT
+AAVNVFQVRNGQRKVVSHFAKHTRGELARHLLARDSKAPATAEELLAAAAEKWEAELLAP
+AGRKPYQLNLILPGEH
+>tr|A0A0P7GAB0|A0A0P7GAB0_9MICC
+MVDSAVPIPDETATAADDCVSEPRESHAEVYQDDGHVTIVLPAGEVITGGIAAQAAKEFE
+GLAGTGFSPLLLELTGVESLTRTARKIFGAARNASAVAVVGSSQVDRVIANFLLGGDLPP
+CPTRYFSSKSDALNWLRGKAR
+>tr|A0A0P7GNE7|A0A0P7GNE7_9MICC
+MEIDRSAVVLVVAEVCQGSVRASLVDLDAAVLETREFAFNAEDPVSSTAQAVSELAAAAP
+RQPARLVLALPGVVGTDGTVSLAPDFAAANGSQLADELQRRTGLAVTVENDVNLVALGER
+SAGAAAGVDDLVLIHIAEGIGATILSGGKLLHGSTRSAGEVGFLPVAPRPLPHGNRGPFE
+AAWSTPAIAAAAESAGLDSGGPVVGRICSDHRAQTLLNDVLDAWAWAAVVCACVLNPALV
+VFSGDAVQLDDPARAALTDRIRAAAPSAPDVTFASLGGAGILHGAVARVLEDPSALITPG
+G
+>tr|A0A0P7GIL2|A0A0P7GIL2_9MICC
+MSTSLNELPRIGAPASRGLGAAGFTTLRQLAGIPREDLAKLHGVGPKALNIIEAALNEYG
+LGLKE
+>tr|A0A0N8HXJ6|A0A0N8HXJ6_9MICC
+MTSSSSLDYGQAVATVQIDNDRVRVTEWRFPPGTQTSWHRHELDYVVVPTVAGHMSYETA
+EGQATRDLVVGESYAREAGSEHNVINKTDTEFAFVEIELKPQG
+>tr|A0A0N8HXX1|A0A0N8HXX1_9MICC
+MTEVDGLQSVKPAESELLVVTGMSGAGRSTAANALEDHGWYVVENLPPLMLGTLTELVSR
+MPHSIPKLAVVIDVRSKGLFQDIREALNNLRAAGVSYRVLFLEASDQTLVQRFESGRRPH
+PLQGDGRILDGIAAERDVVKELRDASDIIIDTSKLNVHALATTITELFTEQGPIVLRINV
+MSFGFKYGLPVDANYVADVRFIPNPHWVPQLRPHTGQDADVRDFVLGAHGTSEFLDRYVE
+ALEPVIDGYRRENKHYATIAVGCTGGKHRSVAVTEELAKRLAKLPHVTVSAHHRDLGRE
+>tr|A0A0N8HZ41|A0A0N8HZ41_9MICC
+MRTFGSAVLVLAALLLAGAAVCGAWLSQNAVSAQGFSQLAEPLGEDEAFQSELSSAVASQ
+ASASLSEGLPAGLAALVEPVIENVVSGFQQAPGYPEAWTQTLERSHAATFDSGTPSLDLG
+PLLNLVSSEVAGEIGTEPADAGQRLLTVSSAEYSRELETLVRFSDSWPLFAAAGVLAALL
+GLLAARRRSTTVALIGAGTAGMAGALWLASGAAASIVERQTPANPVASAFTAGFVPLAES
+SFHSWLVVMLIAAAVLFVLGLVFRVAAGNRRTVR
+>tr|A0A0P7GIM5|A0A0P7GIM5_9MICC
+MAVRVDLNISLDGYATTTDQTPENPFGEDWARLVEPYVATRTFQERVMHQSGTGTTGVDD
+KYAAAYFEGIGAEIMGAGMFGLHNFPDDPDWKGWWGDETPFHYPVFVLTHTPRPSIDMPD
+GTRFEFLSASPQDALERAADAAGGQDVRIGGGPTVVREFLEAGLVDRIHVGVTPILLGRG
+TNLWEGLRGLEEGYGASAEAAENGVMHLTFSR
+>tr|A0A0P7G016|A0A0P7G016_9MICC
+MSEQQPPANNYSYNAYSSNQAPAAPPAPVRPKQVDLGFWLLIAAAVVSVISIPVTLSWMN
+SSEFKEMLAETSTTPISGSEMDAIIAVTAAITIFFSAVSVVIALLVAFFIRKGHNWARIV
+ATVFAALGAFGLINLSTAGALMTLLTVLSILLPIVAVVMLWMKPSTEYFNASKAFRQFRK
+YNPGA
+>tr|A0A0P7HJP6|A0A0P7HJP6_9MICC
+MPSLRVAEAARFLGVSDDTVRRWIENGTLTGHRDASGRQVIDSLELAQLARRQSQLPEDP
+TEIASSARNRFVGLVTEIISDKVMSQVEIQCGPFRVVSLMSTEAVRELGLEPGSTATAVV
+KATNVIVETPPGKKLP
+>tr|A0A0P7FY45|A0A0P7FY45_9MICC
+MDLLVSPALTIPAAELEWRFSRSSGPGGQHVNTTDSRVALTWNVADSAALSEEQRARLMH
+RLKHRLIAGALVVTASEQRSQLRNRETALAKLAEMVADGLAPGPATRRRTKPTRGSNYRR
+LDAKKQRSATKQQRQKPPRD
+>tr|A0A0P7HD46|A0A0P7HD46_9MICC
+MSKVDSSLRYSAEHEWVDASSPVKVGISAVAADALGDVVYVDLPAVGDTVTAGETCGEVE
+STKSVSDLYAPVSGTIVEINQEAVDNPAILNEDPYGAGWLFTVEVTEEGALLSAAEYAEK
+NGGEL
+>tr|A0A0P7GIM2|A0A0P7GIM2_9MICC
+MSLFRTKPIEQSLADADEEGRRLKRSLTTWDLMIMGVAVAVGAGIFSVGAKAAAEFSGPA
+VTLSFILAAITCALAIMCYAEFATAIPVAGSAYVFTYATMGELIAWIIGWNLILELFTAA
+AVIAKYWGIYLSEVFALIGWDIPATISLGPVDMTWGPFFIVALFTVLLVMGTKLSARVGN
+VFTLIKIGVVLFVIVAGFFYIDFENYTPFIPEAVSTEATGTEGVMAQSLFSFLTGAAPAQ
+YGMLGVLAGAAVVFFAFIGFDVVATSAEEVKNPGRTLPRGIFAGLAVVTALYIGVSLALT
+GMVSYTELASVEAPNLATAFSLVGNTGAAQVIAIGSLIGLTTVIMVLLMGLARVVLAMSR
+DGLLPRALSRTSSKHATPARLQILCGVLVALVAGFTQVDLLEEMINIGTLSAFVVVSAGV
+LVLRRKRPDLKPAFRVPFGPVLPVLSTLLCLYLMTNLSVETWIYFMFWLALGFALYFMYG
+QRKSRLNPRNEATAGNIAADTAADSAAPEATPGT
+>tr|A0A0P7GTN4|A0A0P7GTN4_9MICC
+MGFTIATNTSSLNAMRNLTLNQTAQSKSVERLSSGLRINRAADDAAGLAISEGLKNQISG
+LTVAGRNAQDGISLVQTAEGALTEVHNILNRVRDLAVQASNDTNNEDSRGAIQKEITALG
+SELERIAKSTNFNGIDLLTEEAAGAPLKIQVGANGGTTDAALNEIEVNLANIEAVATAVK
+DIAIQTFTDGAPTMTSAASQTAASEAIVTLDAQINNVSTARADLGAQQNRLESTARSIAV
+SVENLSAANSRIRDTDMATEMGNFTKSQILSNAATAMLAQANQMNSGVMQLLQ
+>tr|A0A0N8HXM4|A0A0N8HXM4_9MICC
+MNSIAIRAEGHTVRIPSRTRRGTGWVHAATDVAFSAYRGGVHALVGESGCGKTTFASAVL
+GMLPPGTMAAGELDYVDASGTRTPLTAGRDGAARAAKLRGRVIGYVPQSPATYLTPVRTV
+GSQLGETVRELGGARNPQDLLAQVNLEAQALDAFPHELSGGMLQRAAIAFALAGGPDVLL
+ADEPVSGLDPDLAQLTLGLLRRVADAGAAVVLITHDLQRLADSGTADEVSVMYAGRIVES
+GPASEVLELPSHPYSRDLLAALPANGLQAMPGTSPELTDLPPEYSYAERLAAAAEAGYAR
+>tr|A0A0P7FEZ1|A0A0P7FEZ1_9MICC
+MKFFPAAVSAGALVLAAVLTGCTPAADVEAAPDAANPDCAPVMVALPENLAGADQRETTS
+QATSAWGSPAEIIVRCGVPVPGPTTDACATVNGVDWVLREEGNLWTATTYGRDPAVEVLI
+DTEKVASSTVLVELENAVSRIDQTRECVSTNDVDLPG
+>tr|A0A0P7GAC3|A0A0P7GAC3_9MICC
+MTKRPPAPPPEIPGFRFLQHLGSGGFADVYLYEQDRPRRRVAVKVLLSDLREDASRAGFE
+AEANLMAQLSSHPYIVTIYEADKTAEGRSYLAMEYCSRPSLDARYRQGGLPLAEVLAVGI
+QVASAVETAHRAGIAHRDIKPANILTTDYNRPALTDFGISGTMDADDEGDVGMSIPWSPP
+EALTGSRVDGVRADVYSLGATIYTLLAGRSPFMRPGRGNTQRDLMDRIISEQLTPTGRSD
+VPESMELALATAMAKSPESRYSSAYAFALALQRTQAELNLAVTEFAVLEDAGRQQAESDD
+DDRTRVRRIVSIDPSATTFPPTLRGSGPRRNNGGGLLEEEAEGTILRAPAGVPGQILNAA
+APAAPAAAAVDQKPRPAGAGNGTPAAPAAPGNAADNRKTGSRRIRVLAALGGAAVVAAAA
+VALLLPPESAPREEPPPPVQPPSNALGGLDGAVAPPSGLSGTEDSGTAVFTWTNPEPQEG
+DIYLWRSVTATAKGDLVRTSQPEAVLPATGTETCIEVQVARANGRASEPAAVCTD
+>tr|A0A0P7GJV5|A0A0P7GJV5_9MICC
+MLVRAGRFRPDHGSGPDPEAVTARKEADMPGWKQGMPGSFDAGTLEISSLDAATGTPGRT
+WIVHNGPEWQGLPGERVVLPWERGRGPGRPAM
+>tr|A0A0N8HYZ7|A0A0N8HYZ7_9MICC
+MPPTKDAGVPVELGSSDCWDYIRQASVGRLAVVVDGRPEIFPINFAVDHGTIIFRTAKGT
+KLSAALDDSPVAFEVDGYDDRLGYAWSVVLKGDAAQLESIEDVLDSQDLELFPWQSGEKN
+HFIRIVPAETTGRRFLITNEARRHVLAARRRQLLTE
+>tr|A0A0P7G735|A0A0P7G735_9MICC
+MSTGTILEIAITTGITLSIALISWWARKHPNRSKDHPERIRPPKVVPGVGWLFIAVGLLM
+GLAALSIENPEIGMVISSVAIFAGGLMFLWIYRKVYVAPRQYELAFRKIFGPEHVLPYSD
+IVDYRMQRMRGQPFLWVRFANGVKYSLNVGAFNVAPMMQAIDFHRATGRWPMPVDSAHLP
+PADAAARSNSPRTK
+>tr|A0A0P7H494|A0A0P7H494_9MICC
+MAQDQAPGGVGRRRLLFGGAAAGLGAVAAAGGHLLGSRSTPDLERTGLDEAGSNGQETVP
+FYGLHQAGIETPPAAYAAFVALDLREGIGRDRIQSWLRLLTDDAAALTQGQPALADTEPE
+LAVHPARLTVTIGFGRSLVAAAAPDRVPAWLGPLPAFGIDALQDRWNGGDLVLQLCADDP
+LTLAHAQRMLLKDSRSFASVRWVQTGFRRAYGSEPAGTTMRNHFGQVDGSANALPGTPEF
+ERVVWGDAELPAWLEGGTSMVIRRIAMNLDTWDELDRRGREESVGRRLSDGAPLTGEAEH
+DEPDFDAVTGLGFKVIPEYAHMRRARPDNPRQRIYRRGYNYDDAPEPGGSVSNAGQIFVA
+FQADVTEQFVPIQQRLDQLDLLNEWTTPIGSAVFAVPPGARKGGFVGEELFT
+>tr|A0A0P7GHF4|A0A0P7GHF4_9MICC
+MTAAAAGTVLAVTPWPAALLIRGVFHRGARQLIDQMKPWSPQVPEHRNIKYQADGGARRL
+DIYLPPGHTAETPAPVVFWVHGGAWISGSRRDVAPYLRMLAARGFAAVGVDYSVAPGSIY
+PRALQELNQALQYLRDNAGDYGLDMDRVVLAGDSAGAQLAAQLAAAVSSPGYASELGISP
+GLSGPQLRGALLHCGVYDLEAMGKLTGILGWGFRTALWAYIGKRRFSETPAAEQMSVISH
+ATAAFPPAFISGGNGDGLTAAQSVPFADRLESLGVAVTRSFWPQDLSPALPHEAQFQFSR
+PEARAVLDETADFLNTVLHVRPPSATAESPAGSATDYVQPAERPTA
+>tr|A0A0P7GHN9|A0A0P7GHN9_9MICC
+MSADLIRFTAVPSRSWGSGSGRSKDLASGPAWDSGTPGWRLSAATIEKSGPFTRFENTDR
+ITVPVEGELLLLNVDGTEHAMERLRPLRYPGDVPVQASLPTGEVTVLNTFAERDRFGAAV
+MVVELSKKNSPALGPDQFLVLLQGSAKASFDGGAPEDLDLLDTVAGSEESPAVLGRGFAA
+VVSFYPLD
+>tr|A0A0P7HCV7|A0A0P7HCV7_9MICC
+MPKSAKQLTVVVADDEAPAVDELAFLLGRDSRIGTVLRASSGAQALHAIETADVDAVFLD
+IHMPALSGLDIARALARKERAPAVVFVTADEDHALDAFDLAALDYLLKPVRTERLTESVR
+RISEALAGSGTESAEDGDVVTVVQGATTRMIRREDIRYVQAQGDYARLHTEETSYLVRIP
+LAELEAQWADAGFLRIHRSYLVARSQITQVRLNAGRASIRIGSDELPVSRRHLPTVRSTL
+ASGRVRPSA
+>tr|A0A0P7HLS0|A0A0P7HLS0_9MICC
+MTSEHQEGVDRVVKILEHAKIGNLTTQDLQGNLVSRPLELQETDSDGNLWFFTQDPSPKA
+DEIRANPNVNVSVADKKGYLSISGRAEISRDQEKIQELWSASASAWFEEGREDPSIALIK
+VNSDTAEYWVSDEPKIASIFKIGKSAVTGQTPDIGKNDVVDL
+>tr|A0A0P7HMZ8|A0A0P7HMZ8_9MICC
+MALDVLTDLNKVRNIGIMAHIDAGKTTTTERILFYTGVNHKIGETHDGASTMDWMAQEQE
+RGITITSAATTCYWDNNQINIIDTPGHVDFTVEVERSLRVLDGAVAVFDGKEGVEPQSET
+VWRQADKYNVPRICFVNKMDKLGADFYFTVDTIINRLGAKPLVLQLPIGAESEFEGVVDL
+LEMRALTWRGDAKGDVTMGAKYEVEPIPADLQEKAEEYRAKLVETVAEASEELMEKYLEG
+EELTVEELKAGIRKLTVNSEVYPVLCGSAFKNRGVQPMLDAVVAFLPSPLDVPNIKGHDI
+RDEEVILERAADADAPFSALAFKVVTHPFFGRLTYIRVYSGKAASGAQVMNSTKQKKERI
+GKLFQMHANKENPVDEITTGHIYAAIGLKDTTTGDTLCDLQNPIVLESMSFPEPVISVAI
+EPKTKGDQEKLSTAIQKLSEEDPTFQVSLDEDTGQTIIAGMGELHLDILVDRMRREFKVE
+ANVGKPQVAYRETIRRTVERYDYTHKKQTGGSGQFAKIQIAIEPLDTAEGALYEFDNKVT
+GGRVPREYIPSVDQGIQSALNDGILAGYPVVGIKATLIDGAYHDVDSSEMAFKIAGRQAF
+KEAAKMASPVLLEPIMDVEVRTPEEYMGEVIGDINSRRGQMQSMEDASGVKVIRALVPLS
+GMFGYIGDLRSKTQGRAVYSMQFNSYAEVPKAVADEIIQKTRGE
+>tr|A0A0P7FEF6|A0A0P7FEF6_9MICC
+MDGSLFAALPALLLAAAAVGLTAPALDSALRREDGERLFWVGLTGGLAAVAAIAWAGLAA
+TGAAAVTGILVLGGAAGSWYWLARRQRARKLARARKLRNRRLDSLRKRREAVLLEWSSYE
+LDPWKGAEYPGLADVREKETSLLARASREAQAAQEAASDDAADEDAVNRYGTAVQELESA
+WEQALEAARRRAG
+>tr|A0A0P7GIY0|A0A0P7GIY0_9MICC
+MSEVSSAAPRRRLSKQERRTQLLEVARGLIRDAGTYEFTLGRLAERAGVTKPLVYDHFGD
+RAGVFAELYREFEEQQRKTLADALADAEPELSVVAGLVAGAYIDCCLAEGRELADVVAAL
+AGFSTLGGVRQEAEDAYLAMCRTALEPFMGPLGLAGLQAVTGAGDALARTALDGRISAAQ
+ARSTLTTVVLAVVGGNGFKED
+>tr|A0A0P7GU35|A0A0P7GU35_9MICC
+MTVQDTSSVPENRTASAAPSPEEVEAGVHRIADRARAASRRMARANRAWKDLALEQIAQD
+VVARRDVVLAANARDVERGRENGTSEALLDRLTLTVERIDGLAAALRNLAGLPDPVGSVA
+RGQTLPNGLRMRQVHVPLGVVGAIYEARPNVTLDIAGLALKSGNAVILRGGSAAAETNTV
+LVNLIRDALDTVGLPSDAVQTIDQYGRPGANFLMKARGRVDVLIPRGGRELIQNVVTNAA
+VPVIETGEGNVHIYLDESAPEEMAVDILLNAKTQRPSVCNTVETLLVHSNSAAAREVLAV
+LASAGVRLHADDRIRSILPEGATASEATEEDWGREYMDLDLAVAMVDSMDEALLHIRTWS
+TGHTEAIITNDLANAERFIAEIDSAAVIVNASTRFTDGGELGLGAEVGISTQKMHARGPM
+GLKELTTTKWIIQGDGQVRG
+>tr|A0A0P7HGZ6|A0A0P7HGZ6_9MICC
+MRTLYTNCTVFTAGGQSAAAFVTDGGKFRYVGDAAAAAAAAGTGAGTVDLGGAFVLPGII
+DAHTHLLMTGQSLGKVQLRDAGNLAELQERLRQAVRDTPDAPRILGAGWLHSALDGAEPT
+RELLDAAVPDRPVYLDSNDVHSVWVNSAALAELGIGSGTPDPLGGRIGRDANGNADGMLY
+ETAAVQIVWPALANAATDEDRDSWLDSAFAHYAAAGVTGAVDMAVQDDDVAAFQRALARR
+HGRLPLRVKGHWLIHRTDSPEENLAQVERALEISRQLTASPAAEWLQLCGIKIIVDGVID
+SCTAAMKEPYADGSSAGPIWDRQSLLPVVAAADAAGLQVALHAIGDEASDIALDALENAV
+RTNGPRDRRHRIEHLETVTEANVQRLADLGVVASVQPVHADPAIQANWQAVLGDSRVDRA
+YPWTEFTAAGATLAISTDAPTAPYQALPNLYVAATRKSALEPGLPANLPQYALDLGEALC
+HATRDAAFSCRSETSQGRIAPGYCADFTVLATNPLTAPAENLLVNAVLLTVTGGETVFDA
+AAATLS
+>tr|A0A0N8HZ01|A0A0N8HZ01_9MICC
+MSAQAQLEAFGNLVSAGGGDYGRYLRFLTRAVDPAVAREAAVLILFGVLDEHPSRFHSEA
+IPDDLDVLFVERASTLNDHPGQVAFPGGGVDASDADVVAAALREANEETGLDPSGVRVLG
+TLPKVGLPVSNFLVTPVLGWWDKPTPVDVVDEAESASVFRVPVADLLNPANRRTTVLRRG
+GQEHRGPAFLVNGVVVWGFTALLLDEVFNQLGWTLPWDEAQEMVPEV
+>tr|A0A0P7H8H0|A0A0P7H8H0_9MICC
+MTLHPPHARNQSHNHPDDRQDALDKALQLIDAQDDGVELLVEALARRSQTLAPALDAVVN
+AQRSLDALRPALASLPPAVTPELAQGAMATENAWRSMEREFGMLSAQEASKTLGSRAKGR
+STLAHDRRESGQLLGVRRGNAVLYPGFQFDRNGNVHQVIPALIQLGRQARRSEEDLAQWI
+CLPSGYLDDDRPVDRLEDADAVLAAAQGHFGVEW
+>tr|A0A0P7HDG0|A0A0P7HDG0_9MICC
+MTPEKSSQSMKPATAAKKLGIYLPAAPQEFQDNPVTRAQLDEMQSTPPEWLSELRRNGPH
+PRPVVAQKLNISIGGLSRGGITEALTTAQINELLASPPEWLVAERASFAAVRAENQRVKQ
+ENAKKSRS
+>tr|A0A0P7HH25|A0A0P7HH25_9MICC
+MEGIEADTLAARLGMPDIDEGSLGTNILILDPDFGHRTVQQGMTFIAESVLWHLWPKLVG
+DDRAMDIRTTLDGSEISIPKPNSRPPLNHFVAAYSALRGDGGEPTAVVRLHEIKRNKERL
+GRLATVPFPTPPFSTPVAIDDGHKPVDPDSPPPASPFTNRACNHTVLLRSPELVVEYREG
+PPAKEGIEWAGVFRAEDALDDAFAHAEPPTHDSWQPNLVTLRDQRLRVLKALREIDQAVL
+TQWGKPKPAAAAESTSTASVANALSHLIGTSGQGKGRPGAPGGGGAGKRGPKRASIELLD
+AGPRMLGNQTASYLRCLVTPPKGADVTVVTVSVGVALDGATSDATLDPQLELVSAEFEGN
+RETLEGHRSEFKVFGDEPVHAVICAKRSSASSVLWDVSTDVESSTA
+>tr|A0A0P7HN89|A0A0P7HN89_9MICC
+MKTITRQGKRKALTGAAGLAAVAMLAACGANSDPQSVESSTAPTGVEDSSTVVVGSADFP
+ESQIIAEIYAGALNAKGIQATTQPGIGSREIYYRALEDGSVQIIPDYSGNLLLFADTEAT
+AQSAEEIMDALPAALEEESPDMNIAVLEPAEAESKDALVVTQATAEKYGLTSLEDLAEVC
+GEITIAAPTTFQERAYGLPGLKDKYGCEPAGFEAINDGGGEATLQALLTDKVQAADIYTT
+TPSIEENSLVVLEDPKNNFIAQQVVPLVNMDAVNQEAQDVLNSVSAILTTEDLIALNQAV
+SGDQKQDPRDAARAWLEEKGLA
+>tr|A0A0N8HXX3|A0A0N8HXX3_9MICC
+MLKVGLTGGIAAGKSLVARTLVECGATLIDADALAREVVAPGTPGLAAVVEAFGSGVLAE
+DGSLDRPALAAIVFGNEEKRKVLNSIIHPLVRSRAAELAAAVPPEGILVQDIPLLVETGQ
+AGSFDFVLVVEAPQETRLDRMVRDRGMEPEAAQARIDAQASAAERAAVADVVLENTGTEA
+EVVAAVQRLWDEQLVPRNEALLRGEPPAVMP
+>tr|A0A0P7GAV6|A0A0P7GAV6_9MICC
+MSEYLPGIIWLFVLLAVNAFFVGAEFAVISARRSQIEPKAAQGSKAAKTTLWAMEHATLM
+LATSQLGITVCSLLILNVSEPAIHHLLEIPLAGTPLSPEAISITAFVVALLLVTFLHVVV
+GEMIPKNISFSVPTRAALLLAPPLVLVARIFKPVIWSLNSIANGVLRLFKVEPKDEATSA
+YTLDEVATIVEQSTREGVLDDTTGALTNAFQFTSKTVADVEVPLAEMVLVPAEPTPADIQ
+AAVGSHGFSRYILADADGGLTGYLHLKDVMDLNTAEKFNAPVPAKRIRRLASAFRGSELE
+DALDTMRRTGAHVARVFDSEGNTTGVLFLEDIIEELVGEVQDATSV
+>tr|A0A0P7GJJ3|A0A0P7GJJ3_9MICC
+MTLRFRGFSVLALAPAFSAAVVGVFGVIGGILGVEWSIWVYAAGTVLTCAAAWAATAFWT
+RNVKSARSVNQSAPSSWRTILVPFAAVAVAAAMISRRVMQLIGQPEHFAQNFDNVFHLNA
+IRHVLETGNASSLTLGELQGEGGVGVYPAVWHSFAALTVQLTDASVPLAENAINIVSASV
+VWTLACVFFARSVFGNNPLITLAAGILSASQIAFPYLLLVWGPLFPNTLATAMLPLLLGI
+VVRLFRGADLDQDQHLQRSWWLAFLLALAGASTAHMSVVNALLVFSLPLILTVWWRVAKQ
+RWTNRAEAPSSLVLFGILTAAGAVVATLVWLYLRPAFYDSWGPHDTTGGAIGEALTNSPM
+GTPANWFVTILVLAGAVYLFQTKTNRWLIASYALAVWFYVVDASQERGFLRNFLTGNWYQ
+DTNRLAAFLPVFATILGAVGAWAILQWILKAMPERTARRLEVRWANAQSLRVLALTILTA
+SLALFGYFGPVKAYIQFTMSLYSFDESSPLLTPTELELVEVIDEYVPEDAVIANNPWNGS
+SMAYAFGGREVLTPHMFASTDPERILISAELPEFDADVCAALQDEDVEYVLDFGTRALSD
+TGPEYAGVMDLAGKPGFELVKSTGPDANLYRITGCD
+>tr|A0A0P7HJI2|A0A0P7HJI2_9MICC
+METSLGTDTGQVRPAPTLEMVAALAGVSRATVSRVVNGSPSVAPELVQSVEQAVRTLNYV
+PNRAARTLASRRTYTITLLVPESTSKVFADPFFATVVEGVAKYLNSTDYMLNMVTSSESN
+PGKTQRYLMGGNVDGVLVVSHHSGDHSWEHLSDALPIVFAGRPLLNASDSYYVEVDNEEG
+ALAAVQRLIETGRQNIATIAGPQDMPPGVDRFAGWRTGLHRAGLDDALVEYGDFTVASGA
+AAMERLLARGKPIDGLFAANDQMAAGAHAVLREHGLRIPEDIAVVGFDDDQFATGVSPAL
+TTVHHPIAELGEKMARMLVELIEGRAAERVCRLPTSLVVRESA
+>tr|A0A0P7FUK1|A0A0P7FUK1_9MICC
+MNTGTPAAKNRSLGQQILALALPALGALIAEPLFLLADAAIVGHLGVNQLAGVGLASTVL
+QTAVGLMVFLAYSTTGTVARFLGGNRLREAVAAGRDGIALAILLGAGLSAAGILLAPWIA
+SVLGAEGEVHQYAVDYLRWSMPGLTAMLVVLAATGVLRGLQDTRTPLVIAVAGFSINIAL
+NFLLVYGFSLSVTGAALGTSISQWGMAAAYLVMVARMARREGVSLRPTGAGIRAGVHVGS
+WLMLRTASLRAAVLAAVVVATAQGPVSLAAHQLVMTFFTFLAFALDALAIAAQAMIGKEL
+GAGNRTMARDLTRKMSAWGVGFGVITGVLLALAAPFVGWIFTPDPGVQQALTAGLWVLAA
+AQPVCGLVFVLDGVLIGAGDAKYLALTGVLNLLAYLPLLWWVHVSGLEGGSGIAWLWAAF
+GLGYMAARAVTLSLRARGDAWMITGSAPVLRKD
+>tr|A0A0P7GHL2|A0A0P7GHL2_9MICC
+MASITLNHLVKKYGDGFPAVNDVSLDIADGEFIILVGPSGCGKSTLLRMIVGLEDITSGD
+LLINGERVNDKAPRDRNLAMVFQNYALYPHLTVFENIAFPLRLNKGKYNDEEVKRLVNDA
+ASTLELTEHLDRKPANLSGGQRQRVAMGRAIVRQADAFLFDEPLSNLDAKLRGQMRSEIS
+QMQRRLGVTSIYVTHDQTEAMTLGDRVAVLKKGILQQVASPRELYEQPVNLFVAGFIGSP
+SMNFLPATIKEGNILETAVGDIQVPEDKAAKAQGKKVVLVGIRPEFFEDASLVEGDKLAK
+GSTFKAAITHTEWLGNEQYGYIHFDPTPEVRELLDNLARDMDADELRPQIVVTLDAASRV
+RGGREAELWLDTRKIHIFDPETGENLTRDPEAGAELTEEANERRAEEIAMARDEQKEAAA
+TAADA
+>tr|A0A0P7HL80|A0A0P7HL80_9MICC
+MQKAAVILMQLETSRAATVLQQFTEAEAQELAAEIVNLRRVDVAVVESVINEFYDMTVDG
+RRRAHGGRDVAMGLLEASFGTERASGVMDRLASSMAGKSFEFLERAEPSQIVSLLEHELP
+QTIALVLAHMRPQRASAVIGGFPDQLRTDIAQCIANMSRATPEAIRIVAETLKARATAVG
+AAREAADQIGGIQPLVDIINRADAATERAILEALDARDPELAEEVRSRMLTFADLTKLER
+RDVQLVLRGIDVGVLALAMKGASETVLETVRSNVSERNREILDDEIAASGPARLSQVEEA
+RATIVRAIRDLEAQGAITIHHADEEEYVY
+>tr|A0A0P7FPT9|A0A0P7FPT9_9MICC
+MRFARISKAVGVAAVAALALSACAANQGTTDGGSTDSESTGGSVRVVEVNAFSSFNSNTA
+NGNVDINGKIAYATHSGFNYITDELKVEPLEDFGTYEKLSDDPLQVKYTVNEGVNWSDGE
+PVDADDLMLLWAVNSGHFNDATQNEEGETVSGTTYFDYAGDTSGLGLTDVPEIGDDGRSI
+TLTYSKPFADWEVAFGAMTDGGVSTPAHVVAEKAGLADGDALIELLQNTPAGDPANPAPV
+NEELKAVADFWNTGFDTKSLPSDASLYLSNGPFIVSEIDPENSMTLTRNEDYNWGPEPKI
+DEIVVRYIGEAPAQVQALKNGEVDIIAPQPSADTVEQIEAIDGVSMNSGNQLSYDHVDLN
+YTGVFADQNVRTAFMKVIPRQAIVDSIIKKLNPDAAPLDSEIFLADQAAYAESAANNGSS
+EFAEVDVEGAKELLAGATPEVRIMYNKDNPNRADAYTLIAQSASEAGFKVVDGGLGASDW
+GSALGTGTYDASIFGWINSGVGVTGVPQIFKTGAASNYNGFSSPEADALMDELIIETDVE
+KQEELQIQIDKLIWESSYGLPLFQSPGVDAHSDRIGGIDSFMPNQTGVWWNFWEWEVLE
+>tr|A0A0P7GCJ2|A0A0P7GCJ2_9MICC
+MLRVAVPNKGALSESASAMLSEAGYRQRRDSRELVMVDPDNDIEFFFLRPRDIAVYVGSG
+TLDVGLTGRDLFLDAQVDAEELMSLGFGASTFRFAGPVGEFASLEELNGKRIATSYDGLL
+RDYLAEHGVDASVVRLDGAVESSVRLGVADAIADVVETGTTLRAAGMEIFGEPILKSEAV
+LIGRKGANPAGLEVLKRRLKGVLVARQYVMMDYDVRKELVEAAAALTPGLESPTVSPLRD
+SDWVAVRSMIKKSDTNRIMDELYDLGARAILVSTIHACRI
+>tr|A0A0P7GNR2|A0A0P7GNR2_9MICC
+MGPSRGRFRHFLRFILALGLLDGESTGQASARGNIPDPSVLGLPLSAGCYSGPMPKDTAD
+PVAVCRQLDQINRRIAKHPLNSEKFTRARALMREAPAEERGTVSAALREQDLPSVPTQMR
+MMLFGLTSLARLNRRRIKLEEQLADAEGRG
+>tr|A0A0P7GSF9|A0A0P7GSF9_9MICC
+MTTPVPPAAKKVPVERTHHGETFTDDYEWLREKENPEVVEHLNAENAYTEAVTADQEPLR
+QQIFDEIKARTVETDLSVPARKRGWWYYTRTEEGQQYAIHCRTAAQDTGDLHADWTPPVV
+EPGVPVPGEQILIDGNAEAEGKPFFALGGLAVTEDGNLLAYCEDNAGDERFTLRIKDLRT
+GELLPDVVSNVFYSLAFSPDGTRVFYTVVDDSWRPYQIKAHTLGTDVSQDAVIYQEDDVA
+MWTGFDLSADRRQLLIGISCSEYSEYRVLDFDDPSDTVRTLIPRSERILYEVEPFTGDGV
+RQYLITHNKDALNSMVSLVAEPEFAKPLQEQQWHTVVAHDDAVRVNGVSVTSTHVLVSVR
+KDTTERVQILPLAGIGTVEQQAPAEPAFDEQLYTAGLTNAEYDSPIIRLSYTSYLTPPRV
+YDYVLATGELELRKETPVRGGYNRSDYVAERDWATAADGTRIPLSVLRRREVAQDGSNPA
+LVYAYGSYEISMDPAFNIARLSLLDRGVVFVVAHIRGGGEMGRAWYDQGKKLNKKNTFTD
+FVAATDHMAASGWVDPERIAAMGGSAGGLLMGAVANLAPEKYRAILAQVPFVDALTSILD
+PDLPLSALEWEEWGNPITDPEVYRYMSEYSPYENIRAVDYPRIAAVTSFNDTRVLYVEPA
+KWVAKLRETTTGSEPIVMKIEMDGGHGGASGRYEAWKDRAWDYAFVLSALGARDLLPGVV
+SPAAAR
+>tr|A0A0P7FGA9|A0A0P7FGA9_9MICC
+MTAPALAHATEFGRMYSRSLTEAPAVPSITTVIAQGTTSLDGWHSYMAASAVVKHPGLPQ
+ALGNASQLKTIVQEASRASERYRDAAAERGTRVHHYCEQVALRALEQPHQVAEAREALAQ
+HGEHQFADRFDEWWHLYDVQPVAAEITIWNQELGYAGTLDLVAKIGGRLCLIDYKTKNTD
+RDGQVKPLDDKVVMQLVAGMKAEESLVDAAAGTWEPWAYGQSPLLLGVAVGQTEVRPMRA
+NPEVLPAHWYKFCALRRVWQTNYDAAAAGRALLPIAPPPVQASGSHAVPAGQPAAN
+>tr|A0A0P7G5P3|A0A0P7G5P3_9MICC
+MLKTALQPRWIAGLLFALAISTVFVLLSEWQFSAAESEGPPPAEDTEVVRPLTEVFTPGV
+PLYGTQADQMVTFTGSFQPEDQVLIGNRLLDGEEGYWVVTSFDVDGAPQDASIPVVRGWT
+EDPGNAGTAPDGDVTITGRLLPPEAPIAGPVPDGTIAALSSAELGNIWDEPLYSAFVTAH
+ETLVDGVPAESGLETVTVAPQPQETTINWLNIFYAVEWVVFAGFAVFLWWRLLADSYQRS
+LEEDEYEDDDEFEDDDEYADGQGEGTGPTTSEVKK
+>tr|A0A0P7HGW3|A0A0P7HGW3_9MICC
+MTNALEVTVPDGVPYIDYVREFDYPAREVFRAHVSPDSYVQWVGPEGLDTRIDAFEATPG
+GSYRFVQSEGGEEYAFRGVFHNIRADEFILQTFEFEGYPDQASLDYLRFEDLPDGRSRLV
+GHSVYPSVETRDNFVSSGMESGMAEGYDKLEQLLAFATA
+>tr|A0A0N8HXV3|A0A0N8HXV3_9MICC
+MDLVDPQQAAAAARTVLTSADIDRVLTRIAHEILEANKGGTDLVLMGIPRRGYPLARRLA
+AKISAADPTLDADAITGQLDVTMFRDDLAHQPTRPPHPTELPASGIDGKVVVLVDDVLYS
+GRTIRAALDALIDLGRPRAVRLAVLVDRGHRELPIRADHVGKNLPTAAVEKVRVRLTETD
+QPAVDEVVIEGTA
+>tr|A0A0P7GHD8|A0A0P7GHD8_9MICC
+MLIEKIVGDFGDKRRWRQYKARVKGLPGPYRASAEALERYLIYFGALSDGSTMMTMLEDL
+ADLFERASVDGTSIRSVVGDDPVEFAETFLRNYSDGQWISRERQRLIKAIDAAEEDDDGG
+EGS
+>tr|A0A0P7GIV6|A0A0P7GIV6_9MICC
+MISTPKPLPVFRRAVIDSWRSTLIWTAALAAVLLLYLPLYPSMNGADMRSLISSLPPELV
+NALGYEDILSGPGYVQATFFGLLGFVLITAAAVSWGSTAIAGAEESGRLELVLSHGVGRV
+RYAVESALGILVRLLWFAVATAVVVLALSGPSELGLDAANVAAVEAAWLGLGYLSGSIAM
+AAGALTGRRTVALGTAAGVAAAGYVMNALANQNSDLDWLRNFSPYSGAYRNDPLADGFDL
+PGLGLLAAACILFTGLAVWALNRRDILG
+>tr|A0A0P7FTV7|A0A0P7FTV7_9MICC
+MAQTPAAGRVTLAELAAEAEVSLSTISKVLNGRADVSRKTRTKVEALLDGHGYQRRAARS
+SKSALLELVFHELESAWALEIIRGVENVAREHGLSVVLTESGTRHSPGPEWVEGVIARRP
+AGVVLVFADLAQESRRLLESRGIPFAIIDPAGDPAPDVPSVGSANWAGGMMATRHLIDLG
+HRRIAAITGPEDLMCSLARIDGYRSALNTAGLPFDPELVRYGNFHVDGGRDHAMELLAAP
+DRPTAVFAGSDLQALGVLDAARQLGISVPEELSIVGYDDLPVARWSSPALTTVHQPLIEM
+AEEAARMVLMLRDGEQPKNTRLDLSTSLVIRQSTAAPAGA
+>tr|A0A0P7GTP7|A0A0P7GTP7_9MICC
+MSITIDQAWLEAVMLAGVRMVAFLVIAPPFSYNAFPGRVKAMLAIGLALAVAPQVSEGYS
+NLGTAAFITGLVLEFVVGAVLGFLVLIVFSAVQSAGQLIDLFGGFSLAQGFDPQSMVNGA
+QFTRLFQITALALLFASDGYQMIISGLARSFSALPLAGGIDLSDPAQAMITAVTQMFIAA
+VQIAGPLLVVLFLADAGLGLLTRVAPALNAFALGFPLKILLTLTLVSVVFVALPRVVSVL
+VDQIVRTLAGVG
+>tr|A0A0P7GA64|A0A0P7GA64_9MICC
+MAVSAEREAELLAQVPTGLLIDGEWREAAGGKTFEVEDPATGKVLLSIADASTEDGAAAM
+DAAAAAQESWAATPPRVRGEILRRAFELVTARAEDFALLMTLEMGKPLAEARGEVAYGAE
+FLRWFSEEAVRVTGRYGTAPDGKSRIMVTKKPVGPCLLITPWNFPLAMATRKIAPAVAAG
+CTMVLKPAKLTPLTSQLFAAVMMEAGLPAGVLNVVSTTKAGEVTGPIMQDDRLRKVSFTG
+STPVGQGLIRDAADKVLRTSMELGGNAPFLVFEDADIDKAVEGAMAAKLRNMGEACTAAN
+RFIVHEDIADEFSEKFAAKVSAMTTARGTEDESKIGPLIDAKSRDKVHSLVEDAIDAGAT
+AVVGGSPVDGPGYFYAPTVLKNVPAGARILKEEIFGPVAPVITFSTEAEAVKLANASEYG
+LIAYVFTEDLNRGLRIGEKLETGMLGLNAGVVSNAAAPFGGVKQSGLGREGGDEGIEEYL
+YTQYIGIADPTA
+>tr|A0A0P7GK83|A0A0P7GK83_9MICC
+MATPFEEPAIPSGNEEDTLEQQLPAAPELEEDENAGDPVRPHGDPLLPGGSEADRLDQER
+DGTAPDGEDDYPRDTGEEYPEAGE
+>tr|A0A0P7GBX5|A0A0P7GBX5_9MICC
+MTDSKQQYVIAIDQGTTSSRAIVFDHDGKIVSTGQKEHEQIFPRAGWVEHDPMEIWTNVR
+EVVGTALSKANLTRHDIAAVGITNQRETAVVWDRNTGKPVYNAIVWQDTRTQPIVDELAR
+DGGLERFKDTVGLPLATYFSGTKIKWILDNVEGAREKAENGDLMFGNTDSWVTWNLTGGT
+DGGVHITDVSNASRTMFMDLDTLTWDQSILDVFGVPASMLPEIRSSSEIYGKVHGSQLLR
+ETPVAGILGDQQAATFGQAAFGVGDAKNTYGTGNFLIFNTGEEKVMSENGLLTTVAYKIG
+DAAPVYALEGSIAVTGSLVQWLRDNLGIIKSAPEIEKLASAVEDNGGVYIVPAFSGLFAP
+HWRSDARGAIVGLTRFVNKNHIARAALEATAFQTREVLDAVNADSGVPLTEMRVDGGMVA
+NDALMQFQADILGVDVVRPEVVETTALGAAYAAGLAVGFWKNTDELAANWNEGKRWTPNM
+DESERERQMRLWSKAVTRTFDWVDEDVL
+>tr|A0A0P7HVI5|A0A0P7HVI5_9MICC
+MSADAAAPAWEHEYRTSSAAQTRELARTLGGALRAGDLLLLTGELGAGKTTFTQGLGEGL
+GVRAGIISPTFVLVRIHPALGTGPDLVHVDAYRLGSPAEIDDIDLENTMDTAVTVVEWGH
+GLVEHLSESRLEITLLRATGGASGATGELVTDFSAEDDDEERTIRIAGYGPRWAEAPVPA
+P
+>tr|A0A0P7GU87|A0A0P7GU87_9MICC
+MSARTPGTVVTARRDLSAERVRVVRGGRVLVDGVDCTLEPGTFTGLLGPNGAGKSTLLHL
+LAGVLGPDGGTVRFGDRALSATRSRERARSIALVEQSLPAETGQSVREVVALGRTPHRGL
+LAGDSPRDLNVVERALVAAGVVHLADRAYSTLSGGEQQRAQVARALAQEPSVLLLDEPTN
+HLDASAQLETLELLEGLAARGTAVGAALHDINHAAASCSHLIVLLSGKVVASGPVRSVLT
+PELIRHVYGVQAVMLEHPLTGRPLVALGR
+>tr|A0A0P7HJH2|A0A0P7HJH2_9MICC
+MNFFEVLWSIIAVFFLFAYLMLLFQIFADLFRDDSMNGWVKAVWVFFLLFLPYITALVYV
+IARGRSMAARSAQRASESQEQAAAYIRRTAGTQNAAEQISSAKSMLDEGLITSDEFGRLK
+AKALA
+>tr|A0A0P7FWU6|A0A0P7FWU6_9MICC
+MTQTPARQRILSGMQPSADSLHLGNYLGALVNWVRLQEQYDAYFFIPDLHAITVPQDPAD
+LRQRTRVTAAQYIAGGVDVDNATLFVQSQVPEHAQLAWVLNCLTGFGEASRMTQFKDKQQ
+RFGADAASVGLFTYPILQVADILLYQPHGVPVGEDQRQHVELSRDLAKRFNTRYGDTFTV
+PEAFIQKESAKIYDLQNPAAKMSKSAESPAGLINLLDPDKVIAKRIKSAVTDDGTEIRFE
+RDTKPGISNLLSIYSLISGRSIDTLVKEYEGKMYGHLKVDLAEVVTEHIRPIRERALALL
+DDPAELDRLLAKGALKARETASATLADVYEKIGFLPLGSTAR
+>tr|A0A0P7G6F7|A0A0P7G6F7_9MICC
+MASADDVRTFCLSLPGVTERTSWNQPAWFARSLMARMWEDGVLTVKTEEREGLAGTDPET
+YFWTPHHNRSPLLVLARLARLDMAELEELLLESYRIAGPVPPTG
+>tr|A0A0P7G7K4|A0A0P7G7K4_9MICC
+MQRSHRLPSGLEYTTTTGRVVFRREETSDGKSEGFKPKAEIFLSAYTANLAAEETPNPRP
+VVFAFNGGPGSSSVWLHLGLLGPRLVDSGDAGSLTPPPYGLVDNPQTLLEHADLVMIDPV
+NTGFSRVVDGNTADEFHAFEQDRDLVAEVIRLWTTRNNRWLSPKYLVGESYGTLRAVAVA
+GRLFDAYGMSVNGLGLISTVLNLGTVMFAPGVDTPYALHLPTYAAIAHFHGRHPGRELAD
+VVREAEEYAAKDYGYALSQGSRLTTEEYDAAVQRLAELTTLDPGFIRRTNLRWDYAQFSA
+ELLRDQGLAVGRIDGRFTAPAEDPQASVNWDDPSLAAINGPYAAAINHYVRAELGYENDL
+PYEVLTGRVQPWSYKEFEGVPIDVTKTLERLMAHNPSLRVHVDYGYYDGATPHFAAEYVW
+AHLRLSDAARARFTHHYYEAGHMMYLQPEARSGQLAALAEFVAPPAD
+>tr|A0A0P7FQB1|A0A0P7FQB1_9MICC
+MSSQLTEGARPMEADAPAGTVETMSMQAALNRALAEILAEDPKAVVLGEDVGRLGGVFRI
+TDGLQKQFGADRVFDTPLAESGILGMSVGLAMAGFHPIPEVQFDGFAYPAVNQIITQLAR
+MNYRSRGTMPMPVTLRVPSFGGIRAPEHHGESLEALFAHVPGLKVVSPSSPHQAYHLLKH
+AAAQPDPVIFMEPKSRYWQKDTVDTGTPGNLHGSQVVREGRHLTLVAWGAMVARCLQVAE
+LAAEDGIEIEVLDLRWLKPIDAEGLAASVSKTRRAVVVHEAPLTAGLGAEVAALITQHCF
+DTLKAPVERVTGFDVPYPSGDLEDEYIPNIDRILFGIQRVLEYRRG
+>tr|A0A0P7GAF8|A0A0P7GAF8_9MICC
+MPRVSGTKRSILDAALELASLNGITGTTMEDVAVRAGVAKGSVYYNFSSKDKLFEQLLLD
+GVGALAETLRQAREGRSGAPALSSMITAMLEVISGNQPLAKLIAAEIFRTDRSWQTPLQL
+VRREALAEFVAVIRQTHPERPDAELMAGTVFGAVLVGGIEWLVFAPERSLGEVADSVLFT
+LSGQLTA
+>tr|A0A0P7GLY3|A0A0P7GLY3_9MICC
+MSALPAVQVNACIGPAPVYDLVEEYRRGAPLREIAFSSGLGLEILCRELAYRHSSGPLHL
+QRSKAVRRAVQKAEKSIVDNLRLIHQLRDTDITPREIPIVLQSLGRIEDVDYVGDLLEYP
+RPPSSEPYKTERPRPTAADRISLLYVTGIHHGIEPDHQLALARISPETVAGFRQLFPDSF
+SYRRFADFLAVAETTALAIRARTVTHLSYADYVSCADTIRRRLGTITVDGAAPWPVSGPD
+LRRRLGDTYWDDTLRSAGLKVMHSQDLFHHDDFVDALDAFVEEATDMELPLTLGSYDAWY
+IAEQACSQNRPSAVEVIQRFGTWESALKLVGGPPEEKEDGTRTCPVCGEEAWPIVLGMWF
+PDPDNPNPKVIHTGCVVTDETPKHRWQCMNQSCGFGWS
+>tr|A0A0P7GS59|A0A0P7GS59_9MICC
+MPQGAKHHGRHRMKKSAAAGFALAVGATLLAGCSSDSGSAPTLTWYINPDDGGQAELAKR
+CTDASDGAYTIETSLLPNDAPSQREQLARRLAAGDTSMDIMSLDPPNVPEYAEPGYLAPI
+PDDVRERTTANVLEGALAGATWKDEVVAVPFWANTQILWYRKSVAEAAGLDMSQPVTWDQ
+LIEAVASQDKYLSVQGARAESMTVWVNALIESAGGQIVENPDASADEIRLGIDSDAGKKA
+AEIVSTIGKEGLGGPGLPTQTENFSMIQFQGDKGAFMVNYPFVWPATNAAVEEGALPASL
+IDDIGWALYPQVNEGEETAPPLGGINLGVGSKSKHPDEAFDAIECIVSPENQAYYFASNG
+NPPSNPDAYNDPEVVDTFPMAGTIRESLDLAKPRPQTPYYNEISTGIQQTWTPPQDVNPD
+TTPETSQQFILEVLKGERLL
+>tr|A0A0P7GUX5|A0A0P7GUX5_9MICC
+MELPLTPPVQPMLASSAKGIPEGNFAYEPKWDGFRSIVFRDRNEVEITSRNGRSLNRYFP
+ELVEAFGQGLPERCVVDGEIILIKPGGKRLDFDLLQQRIHPAESRVEMLAEQTPASFVAF
+DLLALEDRDLTGTPFGERRTELEAVMRTAGGRLHLTRQTLDSATAGNWFESFEGAGLDGV
+MAKDLDGAYEPGKRSMTKIKHRRTADCVVAGYRVHKSGDDRIGSLLLGLYDGDGVLANVG
+VIGAFPMARRRELFDELQPLVTWDTSHPWSAGEGESATRTPRSSEGSRWTGSKDLSFTPL
+RPERVVEVAYDHMEGPRFRHPPSFLRWRGDRDPETCGYDQLEEPVSYDLAGVLQKPGTAA
+S
+>tr|A0A0P7GSB9|A0A0P7GSB9_9MICC
+MALHNEIEFENSICSHLAAHGWLYSATDEGYDRERALFPEDVFGWLQDTVPEELAKVLKP
+DLNPTMLAKAKLRVLDRLSSVMGADPFNGGGTLNALKKPIGVTPATLRMFQPKPADGLNP
+STVERYGRNRLRVMRQVHYSQANNKSLDLVLFLNGIPVATVELKTDLTQDAEAALKQYRQ
+DRNPKGEPLLCHGRGALVHFVVSNQEVHMTTKLEGPSTRFLPFNAGRNNGAGNAEREGTS
+PTAYFWEDLLEPEAWLTVLGKFIHYRFEEDTHPITGKKSFKASTRFPRYHQWRAVNALTS
+AALAEGPGHNYLIQHSAGSGKTDSIAWTAYRLASLHRENGSKVFDGVIVISDRTVLDGQL
+QKAIEQLETVAGVFAPITRGSEGSKSKQLAEALIKGRQIIGVTLQTFPHAMEEIRKNKGL
+AGRNYAIIADEAHSSQSGDAAKSLKNVLTSMGLEEGEDITTEDVLAAEMAARAGATMNLS
+FFAFTATPKAKTIDLFGRPDENGTMEVFDLYSMKQAIEEGFILDVLQNYTTYEMAARIAQ
+SDQDAATQEVDRDQGTKALMQWVRLHPHNIAQKVAIIVEHFRENVAHHLAGRAKAMVVTS
+SRKEAVRYKLAIDNYLQLKGYETELAALVAFSGEVTDPESGPNGFTEYTMNPGLKGRSLT
+KAFGSDDYQVMLVANKFQTGFDQPLLVGMYVDKKLSGIAAVQTLSRLNRVIPGKDKTYVL
+DFANDPDTILDAFQTYFEEASIVKASNPDVIHDMIMKLDAAGIYNDREVELVAAKWVAQR
+NHNGLVSHLQPAIDVFHDRHKKAVFTNNTLELEQLEEFRKTAGAFNKSYDFFSQIIDYGS
+TRIEKLAIYLKLLSKALQTSATGNNLDLSDVVLTHYALKKQEARDLKLVDGEGKGLKGIT
+AVGSGVVREKTLGTFGGLIEQINKLFEGTGIRDEDQLNVFESVSRHVESNEQLQREAIAN
+GPLDFRSSPTLNETVEESIYTAGDGHQKATNVLLELGGPEKIVEILLAAGLQDRLRARAQ
+LDAMGND
+>tr|A0A0P7GDI4|A0A0P7GDI4_9MICC
+MTDAARANWRDEPTNWDQPGKLPRSHAEATKDPLGSLNITAASMDPALLDLPWSIPLEEW
+PKENLAALPRGISRHVVRFARMGDSLIAIKETSEHVARQEYHMLRKLRRLNVPSVAPVAV
+ITGRMDAQGNELDPVLVTRHLRFSLPYRAVFSQTLREVTLTRLIDAQALLLVRLHLAGFY
+WGDVSLSNTLFRRDAGAFAAYLVDAETGELYPELSNGQREYDLEIARVNIAGELMDLAEG
+GLIEENIDPLATSERIMDSYRNLWAELTEQESFELGERWRVNARIRRLNELGFDVDELTI
+RTTPDGSQVQLQPKVVDAGHHQRRLMRLTGLDAQENQARRLLNDLDSYRADNHPDMNEEL
+SAHLWVTQVFEPIVKAVPRELGSKLEQAEVVHEVLEHRWYMSEKENRNVPLAEAVQSYLD
+TVLRHRRDEAAILLNPDTTTMRILESGAAPG
+>tr|A0A0P7GIT0|A0A0P7GIT0_9MICC
+MSDAEDGTRPISAKRRGPVELRRGQARVPQSDRFLLDTADGTHFTHTDPWRVLRIQSEFV
+EGFGTLSELGPAVSVFGSARSLPGSRWYKLGEEVGRLLSEAGLAVITGGGPGSMEAANKG
+AVEAGGVSVGLGIELPFETGLNDWVDLGINFRYFFVRKTMFVKYAQGFIVLPGGFGTMDE
+LFEAMTLVQTQKVTSFPIVLIGTEFWSPLLEWVRGTLLEEGMISAKDLDLVHLVDDPAEA
+VKLIIADSAGHVSL
+>tr|A0A0P7FZJ8|A0A0P7FZJ8_9MICC
+MDPLFIVGTIVCLVSTVLCVGAAVLRHGPNDLTILSAAAVELFLIVYAIAAVIRQTGGET
+LNGPAWEFWGYLFTAAVIPIGAVWWSLMDRSRWSNLVLGAVGITVFVMLFRMEQIWDGVP
+LA
+>tr|A0A0P7HLH5|A0A0P7HLH5_9MICC
+MEPSDTVQPILLRVDKEDPAAHRDAVAAAAVACVLAFAHRNSDDAWLDWVRGRFTKTVRR
+AGPKPFAKLTAGAPSGTVVIGKAEAAAFEPQRYADMPRALRSLQVSGTQLPAAEPAPAQP
+GAPLIVLNEDLAMSTGKAAAQAAHALLAWYLELAPEQAAGFAECPAALVTELPGERFREL
+ARHPGNGPLIVDAGLTEIDPGSSTAFVAAGELRVPAAEA
+>tr|A0A0P7HFI5|A0A0P7HFI5_9MICC
+MVDASSVDAVEERGYASDKEAYLRRLKRIEGQVRGIARMVDEDKYCIDVLTQVSAVTKAL
+HAVSLGLVQDHISHCVVSAAREAEAAGDPAIVDVKVQEAADAIGRLLR
+>tr|A0A0P7HWN3|A0A0P7HWN3_9MICC
+MSVNFLRRVLQLLAGLFFYGFSIGLMIRAGLGVSPWDVLGQGTSIQTGIAFGLVTNLIGL
+AVLLLWIPLRQKPGAGTVLNVLLVGPSAEVALALVSEPAQLWARILMFAAGLGLLAVATG
+LYIGARMGPGPRDGLMTGLHARFGWPLWAVRTGIEVTVLAIGWALGGAVGLGTVAFALLI
+GPMVNRTVPFFHIPARPASAV
+>tr|A0A0P7FYZ7|A0A0P7FYZ7_9MICC
+MSVAIRVIPCLDVDAGRVVKGINFEGLRDAGDPVELAHRYDRAGADELTFLDVTASSGAR
+ETVFDVVSRTAEEVFIPLTVGGGVRTVEDVDRLLRYGADKASINSAAVARPDVIDEITRH
+FGSQVLVLSVDARRTHDGSTPSGFEITTHGGRKGTGIDAVAWAREAADRGVGEILLNSID
+ADGTRDGFDLEMIRAVRAAVQVPLIASGGAGVPEHFPPAIAAGADAVLAASIFHFGPDNA
+IADVKKAIADAGYPVR
+>tr|A0A0P7G729|A0A0P7G729_9MICC
+MGIFGKKRSSGKEPAQEEGPDPYLTVFSASEANDFRALSREVFAEMGFEVGIHPDHAVDS
+EGRKYGFWNIAALCSGLPRTEWRPAIAGHLRNVLTGFDQDPFAALTPKDAAQQTYSRLYE
+ESAFPSLEGYPHREFAPGIVELLALDLPDSVAMFDHQKAQQFGGWEALRNQGIANLQGLD
+VERLETIPAYGSTFSCLSGNSFYTGSRAVLLPGLATQVTGKRVHEDFGWLLCVPSRHQVA
+WHIIEDSSVMGAIQGMAGFGIDAYGSVPGPVSPHVYWWNGSGYEQLTHRKDDGALAVRVS
+PGFQRVLASVAAVIPES
+>tr|A0A0P7H5V7|A0A0P7H5V7_9MICC
+MNIVVLVKHVPDTQFDRQLAGPDHTLDRSESILSELDEYALEAALQLAEERGGEKRGNSV
+TAVTMGPSAAANAVKKSLQIGAYKGVHLLDDALAGSDAAGTSLALAAVVNHLNATAGPVD
+LVITGMASTDGETSLVPAQLAERLGYAQLTFASELEAANTASGPGLRARRDGDSYSEIVE
+APFPAVVSVTDQANEPRYPNFRGIMAAKKKPVTVLSLQEIGVDSAQVGKAGAWTSVAASA
+PRPARGQGTIITDDGNAGVALVDYLASQKLI
+>tr|A0A0N8HX20|A0A0N8HX20_9MICC
+MAIEVTDLNPAEGAGTILTPEALAFIEELHHRFAPTRNDLLAARTARREAIAAGEPLDFL
+PETAQIRDGDWQVAPAPPALQDRRVEMTGPASPAKMAINALNSGAKVWLADLEDASTPTW
+HNVVDAEYNLYRAARGELAFASPEGKEYVLRTDAPLAVVVMRPRGWHLPEKHVMIDGEPA
+VGALVDFGLHFFHNAKQLLENGQGPYYYLPKMESHLEARLWNDVFVFAQDYVGVPQGSVR
+ATVLVETIPAAFEMEEILYELRDHAAGLNAGRWDYLFSMIKVFRDSGKDFLLPDRADVAM
+TAPFMRAYTELLVKTCHRRGAFAMGGMAAFIPNRREPETTAKAFEKVTADKTREANDGFD
+GSWVAHPDMVDTCREVFDSVLGEKPNQVDKLREDVQVTARDLLDVTTAEGSITEAGLRSN
+LYVAVAYSAVWLSGNGAVAIHNLMEDAATAEISRSQVWQQVRNAVTLEDTGETVTPELVK
+RLLAEETERLRGEVDEEKFNRYYAPASELIGRISLAEDYAEFLTLPAYELVD
+>tr|A0A0P7GIQ5|A0A0P7GIQ5_9MICC
+MYRLTDMTEDGMEDQELGTGVTSQFRWLTRKHNDVRSSRMLEVEHHLTLHHIPWPPMGPT
+ETNSNL
+>tr|A0A0P7HW94|A0A0P7HW94_9MICC
+MRIHRLEMQAFGPFADRQKIDFDELGAQGLFLLNGPTGAGKTSVLDAICFALYGAVPGAR
+QEARKLRSDHAAPGVPPEVVLEFSAGPRRFTVVRSPQWERPAKRAGSARGTVTEQAKTLL
+SEQVDGEWVQKTARNDEAAAEIQQLLGMSREQFTRVVMLPQGDFAAFLRADVTSRAELLQ
+RLFGTWHYEEVERELKLQADDAKAELAQAQTSVDLLRAQARNEAARCAKLLGREDPQELV
+QAAAGDTDAEAADAQTAAAVPPSQRAETGSDWLRTVREALAGHLSTLKAAQAVRTVTLAD
+AEAFLHKLEARRARGLAVLQLEAEERELARRQSSSLPQRAALESHTRAEGLRGYLDAFAS
+AEAGAGKSAAAAVEALTELRIAAGPAGLGDLVPDAEYQGSGSSVLPEADALQGLEERTAK
+ETTAAENALADAERAAALDRQAAGERSRETSLRAEAAAAEEKADELRIEQESLRTDLPRL
+RALAAGTEPARRRMEDADKVLAAIEAFTEAQAAAAASAEKAALSRQRYQDAREEWQNLLQ
+LRLDQAAAELASSLEPGEGCPVCGSEAHPSPAPLPEDGKFVTREEESAARTAARNAERSW
+EGARTAAETDASHAAALQAQGGDSDPGESRIARDQAAEDLQAAEEAAAILAVSEERLQEV
+ETELGRLGEKRSGLLQEAAQAQARASAAQEEIEELARRGSAELTETAELSDRLERLRTVR
+RLTASAKTGLQGFQQAAVFREEAEASLAHALDGTEFADAAAARKALLPADEAGALRRELE
+ALDAQAARLALRRENEDALAALDSDGTPEQIPDEEDVAEASEAAGAARRAVSDGAVQIGQ
+LEGSAGTLEELGAQLAVAEEELQPLHSRHELLQSLSDTARGNGENNYRMALSTYVLAARL
+EQVAAAATERLAAMTAGRYSLVHDDSRSGNRRAGLGLHVIDDWTGVRRDTSTLSGGESFM
+ASLALALGLADVVQQESGGTSMETLFVDEGFGSLDEEALEQVMDALEGLRDGGRVVGLVS
+HVAEMKLRIAAQLQITRGRNGSTVRYRAAEALPA
+>tr|A0A0P7GUR6|A0A0P7GUR6_9MICC
+MGLYNLTRSSTRGLIKMCRPKITGLENVPTTGPFIVAANHLSFLDSVLIQALMPRRVGFF
+AKAEYFTTPGLKGAAMRNFFESVGSIPVERDQQAASVAALKSLLDVLESGGGIGIYPEGT
+RSRDGLLYRGRTGVGWLALTSGAPVVPVGLIGTERLQPAGRKWVKPHSFTMSVGRPLYFS
+KTGPRHALPERRRVTDQVMDAIAELSGQERASSYNQNKPDGA
+>tr|A0A0P7GRX4|A0A0P7GRX4_9MICC
+MKTELPELLLPDAAAWRAWLEEHHLLSAGVWLVIGKQGGTATALTRQSALDEALCFGWID
+GQAARRDEESYLQRYTRRGPRSMWSLRNVGHIGRLEAAGKLHPAGRDAVESAKADGRWDA
+AYAGPATAEVPQDLLDAIAANESAQSMYEVLSSQNRFAMAYRLGQLKTPAARERNIARFV
+DMLSRRETFYPQKRFPD
+>tr|A0A0P7HH61|A0A0P7HH61_9MICC
+MELRPRTANRSAGRRRAEPAHRPLGGSAQKFAITAAASGLVLTVVMPTTAAATDPVMEPE
+PTAAEMPVSADPDAVLSFDRAALTSKFDPDAKLRGLTVAGTDVIPAAAKGTLANPLDSEP
+VQTSAFGYRVSPITGAAGELHTGQDYAAACGTEVTAAAAGTVKSAGWHPYGGGNRVVLDH
+GNGVETTYNHLSAMSVSVGDTVERGHLVGASGSTGASTGCHLHFEVLVNGTPVDPLAWL
+>tr|A0A0P7GSU5|A0A0P7GSU5_9MICC
+MAQNTEELNENTEELTSYTSETPDAAESAVKERPALTVAGSAVGRRKEAIARVRVVPGTG
+KWIVNGRELSDYFPNKLHQQEVNEPFKLLDLDGAYDVIARIHGGGASGQAGALRLGVARS
+LNEIDRENNRPALKKAGFLTRDARVIERKKAGLKKARKAPQYSKR
+>tr|A0A0P7FU87|A0A0P7FU87_9MICC
+MAAARAAGRTLEEQERVAGEAAAHYASVTEAYRLRREAVEGVMPSGPSSAILTLAGTARR
+MHDLASERGDIAAAHLTEIRSRREKVHRLVADLVKAQAELRLAVTVEQSRARLDGLGGAS
+ASVPAGAENPFDEELREATRLAREAEALAELKGGWA
+>tr|A0A0P7GIR6|A0A0P7GIR6_9MICC
+MTETFSTAETRSTGRPPVLEVRNLSVDFGVDKEWVPAAKDLNYYVNAGEVLAIVGESGSG
+KSASSMALLGLLPSNSRVTGEVLLDGEPLLGLSQHKLRQVRGNDVAVIFQEPMTALNPVY
+TVGFQIVETLRLHNELSPDEAKQRVLKLLDMVELPDPEKAFKSYPHQLSGGQRQRAMIAQ
+SLSCDPKLLIADEPTTALDVTVQAEILDLMRNLRNKLDSAIVLITHDMGVVADLADRIAV
+MRHGVIVETGTAKEIFANPQHPYTRALLESVPHLGQGADGDGDVDVVAALAAATHVELES
+VDQEELERREAEVLSGLRTDEAAKIDAAGGEPVLVLENVAIEYPKQGRVAAFRAVEGANL
+RILPGQVMGLVGESGSGKTTIGRAAVGLLPVAEGELRVVGTDISELKPNSKAMHNLRRQV
+GMVFQDPSSSLNPRLPIGESIGEPMFLAGEAKGAALQQRIEELLDQVELPRAYRNRYPHE
+LSGGQKQRVGIARALSLKPKLMVADEPTSALDVSVQAKVLELFQNLQRELGFACLFVTHD
+LAVVDVLADHICVMRNGRIVEQGTRDQILRNPQEEYTQRLIAAVPLPDPDKQRERRELRA
+KLLQASGPVA
+>tr|A0A0N8HZ53|A0A0N8HZ53_9MICC
+MTQEPETSQPAPPSGVTATAAGTWPGTDPLEAAKTIRGELGEPHLPFLVELPQRGPGADA
+TGRTAALLVELPVDLQPHGWRLVDRPGVDHRRAVSLLSRDINTLADVIGEEEAPGSALKV
+SLRGPLSLAASLYLHNGERALSDAGARREIAESLAAGAAGYVERVKSIARGAAITVQLDE
+PLLDRVLSGRIPTASGYRTLRSVPAQEASQTWTALRETLLAAGAGEVVLNLPSAEHGRPG
+SGLDLALGAGADGVALPARGLSSRDWEGLAEAIEAGKQIWLGILPLPAAGAAPRQVTGLV
+EDVTGPWSRVGLPLRDLQALRIMPDGDLADLAPSSARRVLERLAQTASALDQLAAEG
+>tr|A0A0P7FEN2|A0A0P7FEN2_9MICC
+MLTLAKASIRHHRGGFAGVFIAVFLCAALITALGVLIESGLRGGTSPQRLQAADVVVGAP
+QSIPVPEDLPAVFPERVLLPTTTVEEIEAIPGVRSAVGNMEIPLATAEGDPVVAAAWESA
+ALAPYDLTAGEPPQAPDEAVVDASFNAAPGSRIVLSHGGIPTEYTVSGTAAPVDGSNPAV
+FLSTTGAAVLWPHAGSVATVGVLAEPGVNPAQLAADIEAAISGVVSYTGDGRGDVENLGG
+AGARSMLLLLSGSMAGIAAMTAVFVTAGTLSLSILSRRREFAMLRAIGAGAGQTLGLVVR
+EVLLVATAAAVLGAIPGFWLAGFLGGQFTAAGVIPEGFQLAFSPLPAAGAVLLSVAAAVG
+ASLVSARGTVRAAPVTALREAVTESGRLGRGRIITGLLLLGAGLVAALLPAAVPGSAGLA
+SAASSILLLVIGAGVLGPWIVTGALNLVAPLLRRSRSASLVLAGAGAEAFPRRLAAGIVP
+LALALSLGSVQFFLPTTVEAEAQRQSRDGVVAGYLVSAPGGGIAPELTDTVAALPGVETT
+TPVASSALLAQTRFLGMDDGVQPVGVQGIASENLDKALDLGVRDGSLDRLSEPGTVAVST
+ALARESGLAPGDTFGFHFGDGAGGDAVVVATYERGLGFGDVAMDNAALLPHTTTGLNSHL
+LLTAPNADPAELVSALEGLGLSVLDREALDAAGSAERSAESWVNVLAMLILLGYLAVSVG
+NALVMSTARRRPEMLLLRRLGATDGQLRRMTGAESALMVAAAVVVGTVLPLPPLMGIALN
+VSGQPVPTIQPFVYLALAGGTALLGIGAVAAATRFALRTEHS
+>tr|A0A0P7HI68|A0A0P7HI68_9MICC
+MTVRVREANAISSALAGLDDAGVRALIDDAEQAGIGIGGTTKTARLGETTIFIKQLPLTS
+AEEADPCSTASRLRLPFVSHYGIGTPANAVGRELAAHQVTTQWVQSGLADFFPLLLGWRV
+LDVKSEADLSEFDGDTPPRQWGPHWPEVQGKLSAMKAARKTMALFLEYVPVTLGDLIRRS
+LKEGFGAEVFPGIVDQLLEATAWMNGQGFQHFDVHPGNILVQDGRLLYTDFGLALHQDFE
+LTPEEAWGMRTHDGFDRDSALMHLFHWTLFELGYISGEARLGLLRAASAGPTSPALDPVR
+AALGNGADLIAQYADTAIYITELFAALTQNVYATEYRRL
+>tr|A0A0P7FDL0|A0A0P7FDL0_9MICC
+MTLETVLQLGVLALVDSTSIGTLVIPLWLLMRRDAGRTTGKVATYLGAVGLFYFLVGLLL
+LSGAAGLGRMLGGGIGAVLELPAVQVVMLVAGAGMLVWSFKDTGRNRAAATATAAGAAPA
+AGDLRAAGAAHAVPGSVTGGQAGSDLPGSTAPGTSASAHGTPTSAALQRSQATEHRWQSR
+IGKALDTRGGLLGLALLAGVLELPTMLPYLAAVGLLTASGVGWSASAGILVLYCLVMLLP
+AALLLLSRWLLGRRLDGPLERLRAWVSKASGEAVLWIVGIVGFLLLRAGLAGLFPGASWN
+PFGG
+>tr|A0A0N8HX37|A0A0N8HX37_9MICC
+MTDTRTPEERLPGTALPPEDQLQAVDAWWRAANYLSAGQIYLRDNPLLRRPLEAGDVKAR
+LLGHWGTTPGLNFIYAHLNRLINDTGQQFLFITGPGHGGPANVANSWLEGTYSEIYSHIG
+EDEDGLAALFKQFSYPGGVPSHAAPETPGSIHEGGELGYSLAHAYGAVFDNPDLVAATVI
+GDGEAETGPLAASWHSNSFLDPAADGAVLPILHLNGYKIANPTVLSRMPESQLVKLLEGY
+GYRPHFVTVSDPDAVMAAHEDFAAALSTCLAEIHAIQEPYRTGEKSAAPADAPRPAESDP
+QAPRWPMIVFRSPKGWTGPRSVDGKPVEGTWRAHQVPLSEVHDNPEHLAQLQEWLQSYQP
+EELFDAEGRLRGEIAALAPAGNLRMSATPYANGGRLLQDLRLPAYADFAVDIGEPGSERV
+SPMLNLGRYLAEIIRLNPENFRIFGPDETASNRLQEVYGVTDKVWQQRIEAVDEHLARSG
+RVVEVLSEHLCEGWLEGYLLTGRHGVFNCYEAFVHIVDSMFNQHAKWLKVSRELSWRQPI
+ASLNYLLSSHVWQQDHNGFSHQDPGFIDHVVNKKADVIRVYLPPDANTLLAVTQHILGTR
+DRVNVVVSGKQPAPVWLDPEQAKLHVKRGIGVWDFAGSEDESPGAKPDPDVVLGCAGDVP
+TLETIAAAALLKNQLPELRIRVVNVVDLMRLQDSTEHPHGLSDRDFDTLFTKDRPVIFAY
+HGYPWLIHRLTYRRTNHGNLHVRGYKEEGTTTTPFDMAMLNQIDRFQLAIDVLDRVPSLG
+STQAGFRQWLQDERQRCRQYTRDEGQDPPYISGWTLEEAQRSTQD
+>tr|A0A0P7G526|A0A0P7G526_9MICC
+MGATELILIRHGESAGNVAATQAQRTGAEVIDVGLRDPDVPLSGDGERQAVALGAWLASL
+PADERPESVWCSPYLRARQTAELAGLSPFRVDERLRDRELGILDLLTSRGVAARYPVEAE
+RKQWLGKFAYRPPGGESWADVALRLRSLLRDLDDAEDGRRVAVVCHDAVILLLRYVCEGL
+LEAELLDIASASSVRNGSITRLVRPSGTGFWEVASFNGVEHLAAGGAPVTEHAGDENVHP
+R
+>tr|A0A0P7G565|A0A0P7G565_9MICC
+MRYVVGYTATERGRDALFLACAIARSQGASLDLVIVDPEESPYTAVYPPERTYASLLAKQ
+LRDWLDEALALVPEDIEARGHIRTADSDARGLIEAAEAFGAGLIVVGAGSNGLFKRFTVG
+SVANALLHAAGVPVALAPRGYSRMEPLTRITCAVGERRGAEDVLEVACDSAARRGLPLRL
+LSLLALDSSGGAALDEARLHVADRVRRAEELTKGKSSITGVVAHGRTIENAVDDLEFDDG
+EVLIIGSSRLARSNQLFLGTTASKVLRSLPVPMVVVPRNYSRAAHGQAPQSGDTQ
+>tr|A0A0P7GBJ3|A0A0P7GBJ3_9MICC
+MTYKVILLRHGQSEWNEKNLFTGWVDVDLTDLGRAEALRAGELLVENNILPDILYTSRLQ
+RAINTANIALGEADRIWIDVKRSWRLNERHYGALQGKDKAQTLAEYGEEQFMLWRRSYDT
+PPPPLPDDSDFSQAHDARYADLSDEEKPRTECLKDVLERFLPYWESDISQDIRSGKTVMI
+AAHGNSLRALVKHLDGISDADIAAVNIPTGIPLVYELDEDLKPVKAGGTYLDPEAAAASI
+QAVANQGKQKK
+>tr|A0A0N8HYZ5|A0A0N8HYZ5_9MICC
+MRVQATRPLLIGIDGFSGAGKTSLALALAAELRARRSVEVFHLEDVYAGWDGLRDGMEYY
+RLKVLSPLAAGEPALWQAWDWVAGCYAQTHRTEPADIVVFEGVGAGHRAARDLLDAVVWI
+QAPEQLRKERALARDGETYAPHWDRWAAQEGAWAASDPVADAADIVVSTGTASGQLHLYV
+KRALESLPLPSAGWGRQVR
+>tr|A0A0P7FHQ7|A0A0P7FHQ7_9MICC
+MTSGHNPHHAGDLSRLVVKGAREHNLQNVDLDLPRDAMIVFTGLSGSGKSSLAFDTIFAE
+GQRRYVESLSSYARMFLGQVDKPDVDFIEGLSPAVSIDQKSTSRNPRSTVGTITEIHDYM
+RLLWARVGTPFCPVCGEPVSRQTPQQITDQLLELEEGTRYQILAPVVRGRKGEFVDLFKD
+LAAKGYSRAKVDGNLVQLSDPPKLGKQYKHTIEVVIDRLVAKEGIRQRLTDSVETALSLA
+EGRVLADFVDLPEDSPERTRAFSEHLACPNEHPLAIDEIEPRSFSFNNPFGACPVCTGIG
+SRLEVDEELVVPNPNLSLAAGAIAPWSMGTATTEYWNRLLAGLAKDMGFSMDVPWKKLPA
+KAREAVLHGKDHKVVVQYRNRFGRERKYTTGFEGVIGYIKRKHTETESESSRDRYEEYMR
+EIACPECGGARLNPASLSVLINKRNIAEASAMPLREAADFFEHLELTDRETKIGEQVLKE
+INARLTFLLDVGLEYLSLDRPAATLSGGEAQRIRLATQIGSGLVGVLYVLDEPSIGLHQR
+DNRRLIETLARLRNLGNTLIVVEHDEDTIHEADWVVDVGPGAGEKGGEIVHSGPLSELLT
+NTRSITGDYLSGRRKIEIPAKRRKVDKSRQLKIVGARENNLRNIDVNVPLGVFTAVTGVS
+GSGKSTLINDILYRVLASKLNGAKHVAGRHTRVDGLEHLDKVIHVDQSPIGRTPRSNAAT
+YTGVFDHIRKLFAETTEAKVRGYLPGRFSFNVKGGRCEACHGDGTLKIEMNFLPDVYVPC
+EVCHGARFNRETLEVHYKGKNIAEVLNMPIAEAAEFFAAFAPIARHLNTLVDVGLGYVRL
+GQPATTLSGGEAQRVKLAAELQKRSNGRSVYVLDEPTTGLHFEDVRKLLLVLQGLVDKGN
+TVITIEHNLDVIKSADWIIDLGPDGGTGGGMVVASGTPEKVAKSPDSHTGRFLAEIL
+>tr|A0A0P7G5U4|A0A0P7G5U4_9MICC
+MTSPTPEERLRAAGTGQRAVVRYRIDGGLTDALGTITALDSEGCTLMTRKGPVRIPWNLV
+TAGKPVPPAPERRRPRTA
+>tr|A0A0P7GAI2|A0A0P7GAI2_9MICC
+MKWDPERYTQFSSYRDRPFFDLAARIGAEEPEWVADLGCGTGALTAVLADRWPGASVTGI
+DSSEDMIREAAPRSAGNLAFAQGQIQDWEPSPGRGVLLSNAALQWVPEHTDLLARWAKEM
+DPGSWLAVQVPGNFHAPSHALMRELAGSPRWSPALAGVLRGGDSVAEPAQYLELLVEAGL
+EADVWETSYQQVLTGPDPVLDWVRGTALRPVMAALDPQDYAAFETEYGALLREAYPANSW
+GTVLPFRRIFMVGRKGVTA
+>tr|A0A0P7GIT9|A0A0P7GIT9_9MICC
+MTENSGSLKRGLDSGPDIERTMFFSDAVFAIAMTLLAVDIKAPDVPSDQLGQAILDQRPE
+FFAYALSFAVAGAYWLSHHRLFRLLKGFTGGLQRLNLLLLFFVALLAYATDMLALHDDTS
+LGVVIYAAALGLIGSVNTLMWSYCRRHGLFRDDVNPGLLQYARVRAPITPAVFLLSIPIA
+LVSPSAAEYSWLSILVISLGLRLAGSRRRKAAAGP
+>tr|A0A0P7GBY1|A0A0P7GBY1_9MICC
+MTTEPTGPANEAEDPLGPSAPQPEPTGAPRMPGQEQESAGNIREAQGTHAAGTVPPAHSG
+DDDEPGGQAQHPEDALNEPDSADG
+>tr|A0A0P7HD78|A0A0P7HD78_9MICC
+MTTVLLVAVFAFAGAYAFINGFHDVSNSVAAAIRTRALTPGVAVVLASVFNLLGALISTA
+LALVLADLFVKLPAGSNGLGILIAGLAAACAWGLWTWWRRMPSSSTHALIGGIVGSGAAS
+TLVGGPSISESIQLLWEQIALPLLLSPLIAFVLAYLLVYPVMWLMRYSSLRRGDAGNRIA
+QSVLSAAFSLGHGMQDGQRTMAVLVLGLVAAGYSTGAEIPWGVQAFAGAALALGALFGGW
+RITHTLGYRLVRIDPLRGMSAQAVATGMLFLGGLWLHIPLSSTQTMTSAIVGAGANRRFA
+AVRFIPLREILVTWLVTAPAAALLGGIFYLALSPLL
+>tr|A0A0P7H4G8|A0A0P7H4G8_9MICC
+MTTGSLLAICRVHALRPTSDAVGVSAIDKRAVEGPVKLYSLGLTGDVQADRRHHGGESKA
+VYAYSQEDADYWAAELGEPVPPGRFGENLRVAGIDASHAVVGEQWRIGADVVLEVTCPRT
+PCRNFAQYMGQPKWVARFAAAGRLGTYLRVVSRGSIQAGDAVEVISRPEHGVSVADVFTG
+LSAEQHFRLSEAHSEGMYLSPEIRKVLRRQAAVQDAV
+>tr|A0A0P7HIC6|A0A0P7HIC6_9MICC
+MKAIRRFTVRTVLPDSIAPLARLAGNLRWSWHQPTRDLFKDLDPRIWAESGHDPIRALGM
+VSRQTLERISGDPALVEQIRSLDENLEHYLTAPRWYQSLGEDAPRSIAYFSPEYGISAVL
+PQYSGGLGILAGDHLKSASDLGVPLVGVGLLYQAGYFKQSLSRDGWQQETYPVLDPNGLP
+LTLLREEDGTPARISLPLPNGRHLMAQIWRADVGRVPLLLLDADVRGNDDAARGITDRLY
+GGSGDHRLQQELLLGMGGVKALRVFERLTGAPAPEVFHTNEGHAGFLGVERIRELMDTGM
+HWEEALTAARASTIFTTHTPVPAGIDRFDVGEVRHFLNAGLAQSVPTNKVLALGAEDYEG
+GDPNVFNMAVMGLRLAQRANGVAKLHGQVSREMFSGLWPGFDVSEIPITSVTNGVHVPTW
+VDPELTALAQDQFGVATVHDRDWTRAYEVDDEVLWDLRRRLRMKLIEDVRHRVRSAWRKR
+GAPDASLGWTDDVLDPDILTIGFARRVPTYKRLTLMLRDPARLKALLLHPDHPVQLVVAG
+KSHPADEQGKRMIQDLVQFTDDPEVRHRIVFLPNYDIAMARTLFPGCDVWLNNPIRPLEA
+SGTSGMKSAINGGLNLSVLDGWWDEMYDGENGWAIPSANPREGTHTRELYTADQRDDIEA
+AALYDLLENTVAPMFYGQEPSADAGAAGPSEAPADSLPHEWLEMVKHTLAELGPKVSANR
+MLRDYVNNLYRPACQSGRAAAADQYQAARELAAWIMRVRDAWGGVNVEHVDSIGISDAPQ
+IGDTLTVQAYVSLGSLKPADVVVEAAYGKVSGADKLSDHQLLDLSVAEDLGSGRFLYSGE
+MPIELAGPFGYTVRVLPYHSGLASKAELGLVANA
+>tr|A0A0P7GBM1|A0A0P7GBM1_9MICC
+MPEAYKGLGYHELNAMLNLYGKNGEIQFDADRAAARQYFLQHVNNNTVFFHDLEEKLEYL
+VKNEYYERETLDQYSMNFIRELYQRAYKKKFRFETFLGAFKFYTSYTLKTFDGKRYLERY
+EDRVCMVALHLARGNEQLAEQMVDEIIEGRFQPATPTFLNAGKKQRGELVSCFLLRIEDN
+MESIGRSINSALQLSKRGGGVAFALTNIREVGAPIKQIENQSSGVIPVMKLLEDSFSYAN
+QLGARQGAGAVYLHAHHPDINRFLDTKRENADEKIRIKTLSLGVVIPDITFELAKRDEDM
+YLFSPYDVEKVYGMPFSDVSVTEKYYEMVDDSRIKKTKIKAREFFQTLAEIQFESGYPYI
+MFEDTVNRENPIDGKIIMSNLCSEILQVSQPTTYNDDLSYDQTGKDISCNLGSLNIAKTM
+DSPDFGRTIETAIRALTAVSDMSHIGSVPSIAKGNDQSHAIGLGQMNLHGYLARERVHYG
+SVEGIDFTNIYFYTVVYHAVRASNLLAIETGRTFAGFEKSKYASGEFFEKYVNGEWVPQT
+ERVRELFENVHIPTQADWAALRASVMEHGIYNQNLQAVPPTGSISYINNSTSSIHPVASK
+IEIRKEGKLGRVYYPAPYLTNDNLEYYQDAYEIGYEKIIDTYAAATQHVDQGLSLTLFFK
+DTATTRDINKAQIYAWRKGIKTIYYIRLRQLALEGTEVEGCVSCML
+>tr|A0A0P7GBZ1|A0A0P7GBZ1_9MICC
+MTESSAGIGTIREDQQTIVFDSTEHMVQSLGANDEALKIIETSFPEVNLHVRGNELSVSG
+PASEVERTVRLINEVRVLARHQTRVTPQVLEQLITMLRDQSAERPAEVLTQNILSTRGRT
+IRPKTLNQKNYVDAIDRNTVVFGIGPAGTGKTYLAMAKAVQALQQKEVNRIILTRPAVEA
+GERLGFLPGTLNDKIDPYLRPLYDALHDMMDPESIPRLMAAGTIEVAPLAYMRGRTLNDA
+FIILDEAQNTTPEQMKMFLTRLGFGSKMVVTGDVTQVDLPGSTTSGLRIVHEILDGIEDV
+HFSELTATDVVRHRLVSDIVTAYSEWDEERRSRTGSRSAGQEKKR
+>tr|A0A0P7GHL5|A0A0P7GHL5_9MICC
+MTTGLLIVVLASIFVGALAQRIAGLGFALLISPFLVIILGAHAGVLMVNVCGLVSSLLIM
+FRVWKDVDWSMYRWLVIPAVIGSVPASIAAVYLPAAPMAVIVGAIVLVALGASLILARNS
+VVVTGNPAKAIAGFASGVTNAVAGVGGPAVSAYAVMARWPQRPFAATLQPFFVTIATVTL
+AVKLTMEPGQMPPFSVVAWVLIGLMIVGGIYAGERLQKHIRDDHVRFAVIVIAFLGAGAA
+MVKGIIDLMA
+>tr|A0A0P7GT78|A0A0P7GT78_9MICC
+MPEQHPLAETFNAGALDFERLAPSLWNPMGNALVAAADVSMGESVLDACSGGGAITVPAA
+QSAGPEAVVDAVDLSAELLEVAAAKAQTLSLENASFHVSDVLSWQPDTEYDVVLCGYAVF
+FLPDMDAGLRHLVSLLRSGGRLALSTWAEGALTEFTSALFRHCAAEGVELPEASGGSRDN
+MLSINTPEKATDRLQSAGLTGVKAVHTPVPVALSQDLAWALVMGSPLRQLLPADPGAAER
+VRTAFLAELGEEYTLNADTLIVTAVKP
+>tr|A0A0P7GSS5|A0A0P7GSS5_9MICC
+MKYSVTTYPPAPQHSVRTLDGVLQYAPIGDLELETGGVLPDVVLGYETWGTLNSDASNAV
+LIPHALTGSTHVAQGSTDEPGWWDGLVGPGRTIDTNRFYVVSINMVGGCYGSTGPASADP
+EGLPWGSRFPFVTIRDSVHAEARLADQLGIRRWHTVLGGSLGGARALEWAVTEPERVARC
+AVIAATAASTGEQIAFAQAQVAAIRLDPDYNGGDYYNGRAPLAGLGLARRIAHITYRSEA
+ELQYRFGRTPQPGEDPLGAALPAERGRYQVESYLDHQGQKLASRFDANSYVILTEALMSH
+DVARGRGSLTEALAATESQFLVAAVDSDRLYFPEQSFELAAALPGDNSVHLISAPIGHDG
+FLTDVLQLREVLEQDFFA
+>tr|A0A0P7GJ97|A0A0P7GJ97_9MICC
+MSRDFDVRVGAYAVVVRDGKILLAHWNQHGNSAWTLPGGGLEFGEDAPTAAVREVQEETG
+FRVELQDLLGVDSHFVPPERRMRGEGRMLHALRVIYRARVTGGSLVNEASGSTDEAAWFP
+LDDVEGLERVGLVDVALKLLAAAPGSGPAPIR
+>tr|A0A0P7FP98|A0A0P7FP98_9MICC
+MRPVERRFGGEAGAVTAELAVAMPAVAVLLAGLLTGAAAGITQLRLEEAARAAGRAVMRG
+EAAAAAASVTRLAGQRASLELAVDGEWVQVRVSSPLDAPLLEHLPVTLQASASVLPDQLP
+>tr|A0A0P7HMJ3|A0A0P7HMJ3_9MICC
+MNTASAIKATAADPATLDAEELMSRDQIEALQLTRLKETVRYAYDRVPLYTKKFDDAGVH
+PDDLKELSDLAKFPYTTKEDLRQSYPFGMFAVPMDEVSRIHASSGTTGRPTVVGYTKGDL
+DRWGTLVARSLRASGVKSNYKVHNAYGYGLFTGGLGAHFGAEKLGCTVIPMSGGQTERQI
+QLIQDFQPDTILATPTYLLTIADAMKRAGIDPRSTSLKNAVLGAEPWTEEMRHELEQMMD
+IDACDIYGLSEVMGPGVAGECVETKDGAHIWEDHFRPEIIDPFDDTKVLDDGEHGELVFT
+SLTKEALPIIRYRTHDLTRLLPGTARPGMRRMGRITGRNDDMIILRGVNLFPSQIEEIAL
+RIPALSPHFQLEITRPDRMDELAVKIERRAESSADECVKAAAELKSQIKIHIGSSCAIHV
+VEPGSLARSSGKLRRIYDLRKQENKPA
+>tr|A0A0N8HXT5|A0A0N8HXT5_9MICC
+MTWAVSFWDRITSGFSRTGGLEADPWLLVAVTAAAVLLAVPRQTWRWFGLFVTFVHELGH
+AFAALLVGHRISGIELRFDHSGQMKSLGRGGFGALWAGFWGYPVPALTGLVLIWAAQTGW
+ASAALSGGVLVLAAALVFIRNLQGAAIAGGCAVTAVLLLWFVPATFAASVVASLGIALLV
+GAVRDWLNVVTVHTRRRRSLQSSDAWILAQRSGVPSVVWLGLFAGVIGACTATAFRLLAP
+AFSLPGWLAG
+>tr|A0A0P7HLG9|A0A0P7HLG9_9MICC
+MNSEKDARTGLLRPVTEWLGASPVLPRIATGLLLAGVLAVFPGFMMFLFVAGGKFIPWWM
+AGGVLLAAAAALVLIQASARKSVPEDHAFKWSEVQNSWFWTSLVLCAFCCGIGMAVDAWD
+RSGYSVVSRNNSGCTLIAKETTYFRGGGGVMYLAEPWGLAHRVGDWSVNEGGRPARDGLV
+KVSWAGSGVTYSVDGAPYGPYGGVGKGRCWTKAVTDRLGGD
+>tr|A0A0P7GJA1|A0A0P7GJA1_9MICC
+MSGDEKVLLGILVKLEKRAQRVSGGKLFDEGLDAYLDLQEQLFELQVEVQTAIAEAKRRG
+PKNAEVLDYLNKLRWVRWQSRRLGDAIAWQALLLNRQVIYALAENDPVPVPSSWSEGHRG
+AFQFARSMTSSEWGIPIVHDITNVLRIGDLTFMRPTGLAAEADYRTIELKTSRLDEREIE
+GGKTTVTLGITAISTEPFPSYVTDPPHSNPDHTPNTTRRRRADRRIERQLARMEIATASK
+NAPLHKSTKIGNQHVFPISLPEEQKPHWKELRRAIRQARRDGNAYFELGGFVGYSLIYNS
+DGVSSEDILSTSLNHDVRGLLHEEIGDRNSITLSMIPDNDQDTYSSRVLPFYLWEVPQRA
+VRDILRNRLVIAATYNSGWMEKLLANAGLTIVPDETDRDRRGFEVIASFGWEGEARAEYH
+FHVWEEMFVAVHEFRGPDAVVQRALAPTSLPTLVKFEEFIPAEGPADNGGRQHP
+>tr|A0A0P7H4V0|A0A0P7H4V0_9MICC
+MTEMAVDSLDVLRRRTSAKWRTHPEDVLPLFVAEMDYPLATPVARAMIGRIEASDVGYVS
+GPGPVGPAFAGFAQRRWNWEVDPEDVRTTTDVSVAIVETLRQVLDPGDEVIITPPVYPPF
+FDLPLEAGGKIREVPLLQDDAGWSLDLGGLEAAFAAGARALLLCNPHNPLGLVHPKETLD
+AVARLAARYGATVVSDEIHAPLVYSPEAFTPFLSVSDEARAHGVCVTAASKGWNIAGSKC
+ALMIASAPETRLLLDEMPEEVGFRTSILGLHGTAAAYAEGEEWLDGVLVVLASNRELLRE
+LLAAELPGVGYRMPDASYLAWLDLRALGWGTDPAEYALEKARVALEPGLKFGTAGAGYAR
+LNFGCAPEVLEEAIHRLSAARG
+>tr|A0A0P7GIL4|A0A0P7GIL4_9MICC
+MGFKTNSALRLAGGAVFDRDGRPKSHIARGIERAVEVQRPLVLANIRRLQRRHPEASAAE
+LVKILEHHYLAAVAGGGAAVGATAVVPAVGTAAALGLSVAATVGFLEATALYAQSVAELH
+GIRLQDPDRSRTVVMAIMLGEEGTAMMQQLSKGQPWGSAIGGASSGVLGTVGTTIRKQFM
+KRMLARQGSVIIGRALPLGVGAVIGGAGNYTMGRSVIKAAHRAFGEAPDTIPGELAAEIQ
+ALPENPRA
+>tr|A0A0P7GNL2|A0A0P7GNL2_9MICC
+MNPGPGNRGGGPQIDWKRTAWILVGAFIVSSLLIILFPNLGMLWRLAIMALLFVIVVPLF
+DKRRRK
+>tr|A0A0P7GW10|A0A0P7GW10_9MICC
+MSVSRPAPVQLNGLDTEEHPRTYQVRTFGCQMNVHDSERISGLLEDAGYVPADEGDADVV
+VFNTCAVRENADNKLYGNLGQLAHVKETRPGMQIAVGGCLAQKDRDTILAKAPFVDAVFG
+THNIGSLPALLERARHNDAAQLEILESLEVFPSTLPTKRDSVYSGWVSISVGCNNTCTFC
+IVPSLRGKERDRRPGEILAEVQALVDDGAIEVTLLGQNVNSYGVEFGDRGAFAKLLRACG
+SIEGLERVRFTSPHPAAFTDDVIDAMAETHNVMPQLHMPLQSGSDKVLKDMRRSYRSKKF
+LGILEKVRRQMPHAAISTDIIVGFPGETEEDFQATLDVVEQARFATAFTFQYSKRPGTPA
+ADLPDQLPKAVVQERFERLTALQDRIAAEENAKQVGTTVEVMVTAAAGRKSEETGRLSGR
+SRDQRLVHFSVPEGAPVPRPGDLVTVPVTSAAAFHLVADPASAADYSVRRSRAGDAWDRS
+QAESCGVPAADGAARAGVSLGMPALPPRR
+>tr|A0A0P7FWR8|A0A0P7FWR8_9MICC
+MTTEELPPVVELTAEEAWKYVEKTFHGRIAVSVGNQPDIFPINYFAHDGVLLFRTAPGTK
+LAGLTINSQVAFETDGIMSDEAWSVIIKGSCRELDRSAEIEEAEKYPLKPWVRTPKYRYV
+ELTPTSITGRFFNLGPEPDPDVL
+>tr|A0A0P7HD48|A0A0P7HD48_9MICC
+MLKIDNVQKTFFAGTVNERVALAKIDLELHAGEFITVIGSNGAGKSTLLNMVSGKLRPDT
+GSVLIDGKDVTKLADYQRAKFIGRVFQDPMAGSAPQLSIEQNMSIAYERGKRRGLGWGVS
+GKKRELFREELKSLELGLENRLKAKVGLLSGGQRQALSLLMATFSEPKILLLDEHTAALD
+PQRAALVSRLTGEIVARHKLTTLMVTHNMQQALDLGTRLIMMHEGRIILDLDSTQKSAMT
+VPDLLHEFEKIKGGLDDRTLLQ
+>tr|A0A0P7FH87|A0A0P7FH87_9MICC
+MNAVPMPEKPVNPDASGTIDREDVRRLEAQLIGGPRTLKRREAAAGAGVSLLSARKLWRA
+MGFPNLDDDAVFFTEADRDALSTVIQLVRDEQLTEEAAISIMRSIGQMTDRMVVWQIEAL
+VEEMVVQRGITDAEARKKLVAALPDLIEPLEKTLVYAWKRQLNAAIQRLALRAEAGLASH
+EGETDDNPLPLARAVGFADLVSYTSLSRQMNEKTLAQMVQRFEHKCSEIISVGGGRLVKT
+IGDEVLFNAETPEAGAEISLALAKAFTEDELLPSARVAMVWGRVLSRLGDIYGPTVNLAS
+RLTSLAEPGTVLTDASTAAALRNNDRFILIPHSPRNVRGFGEIHPVTLARGTGPGLVLD
+>tr|A0A0P7FP45|A0A0P7FP45_9MICC
+MTADLIIHNALVRTMESAAPEAPGFGPASTAVAVTGGQITAVAGDADVLALAGPDTRVID
+AGGAALVPGLIDSHMHPIWGIELTRGIDLYGLDLEGIRDALAKEAARLPEDAWVCGWNLD
+HNAFDGPLRGDLFDDVLGGRPLAVVLYDLHTGLGNPAALAAAGITGRETFDDASLVVVDE
+QGVPTGELREIPAYLLLLDAVPPIPQDEYIQRLQSLFSTLNGVGITSAVVMDGRDKHLDL
+LADMEKAGNLTVQLHIAMWHQPGDGDERVAQIISQLGRSGRGWRVQLIKMFLDGVIESGT
+AWLNEPDTCGTGTHSFWKDLDRYEEVTRRYVEAGYQIATHSVGDAGVGQILEAYKRVGTA
+SAAGAPNRIEHLEVLTDPDISNLAETGVVASMQPLHMQWRAGDGTDAWASRLGPHRSHGG
+FRVRDVLEAGGRVALGSDWPVAQYDPRLGMAWARLRRTPGNVQAPVFEPEQRLSGYEALL
+GYTRWAAEALGRGDLGVIKPGATANLVLFAEDPAETDGDALTDLPVLLTVVGGEPVHSAL
+A
+>tr|A0A0P7G6W9|A0A0P7G6W9_9MICC
+MTTTENDTNAVADPAPGISPRPVVDRLPRYAAGKPPVAIEGLQSYKLSSNENPFPPLPSV
+LEAIAAHPNVHRYPDPLATALRMELASFLDVPAEDIVTGGGSLGALNQLLATFAGQNEDG
+TPDEVIYPWRSFEAYPISVGLSGARSVQVPLLADGRHDLDAMAAAVNDRTKMVLLCTPNN
+PTGPVLSTEDVESFLAKVPSDVIVVIDEAYEDFVRDPGAVNGVDIYRRHQNVVVLRTFSK
+GAGLAGLRVGYSISHPHLTQYLRVTAVPFAVSQIAEQAAIASLKYHDELVERIQALVSER
+TRVVTGLQELGWDIPQAEGNFVWLALGENTPEFAVLAEQQALAVRAFGTEGIRVTIGEEE
+ANSRFLALCATYTKGPRVS
+>tr|A0A0P7GKH3|A0A0P7GKH3_9MICC
+MISNEQVEGLMAASGNVLGPNGDKIGSVGTFYLDDQTNEPAWVTVNTGLFGTSETFVPLS
+EASVEGIDVLVPYSKDEVKNAPQIASDGSISAEEEVTLYRYYGFTYDDGTSDVESVDADA
+GTDTLVESDTETVSDTSGTRSGLVDDTQSGSGVGSGSGMGSGSGVGSGTGSGMGSGSGTG
+VGSGAGTSGTTGMSGTSGSGIDDAMTRSEEKLDIGTERHETGRARLRKYTVTDTVTTEVP
+VSHEEVVIEREPITDANRDAAMSGPEIREDEYEVTLHSEEPVVQKHTEPVERIRLDTETV
+TDTETVSGDVRKEKIDTEVEDASGRTMSAGSESGSGSGQESGHHSSGHHDSGSGHDSGSG
+SSGSGGSR
+>tr|A0A0P7GS20|A0A0P7GS20_9MICC
+MAKSRVDYTKVDASYMSHRQLKRGAAGWILLAGLGVAYVISGDFSGWNLGLAQGGWGGLL
+IAFVLMGIMYTCMVFGLAELSSTLPTAGAGYGFARRALGPLGGFATGMAVLIEYAVAPAA
+IATFIGGYIEALGLFGLTNSWPVYLVTYAIFIGIHLRGVGEALKLMFVITAIAVLALIAT
+VVGLVPKFDAANLFDIVPTDAAGASSFLPMGIAGVLAALVYGIWFFLAIEGVPLAAEETS
+DPKRDMPRGIIAAMAILLVFGALMLVLVPGAAGAEAMSTSDNPLPEALRIAYGGNTFLAD
+FVNYAGLAGLVASFFSIMYAYSRQLFALSRAGYLPRWMSLTTRWRTPYMALIVPGTIGFL
+LAALTGDGGLLINIAVFGATVSYVLLNLSHIVLRRREPDLPRGYRTPGGAVTTGVALVLA
+VVAVVATFVVDVLAASITAGIFVAALAYFWFYSRHHLVASAPEEEFAQITEAESEIR
+>tr|A0A0P7FQ11|A0A0P7FQ11_9MICC
+MNVDLVVVGSGFFGLTVAERAAKELGLKVAVLDRRHHIGGNAYSENEAQTGIEVHRYGAH
+LFHTSNERVWNYVNEFTQFTNYVHKVYTSHKGEVYPMPINLGTINQFFRSSMGPAEARAL
+IQEQAGELAGTDPQNLNDKGIQLIGRPLYEAFIKYYTGKQWQTDPRNLPAEIISRLPVRY
+TYDNRYFNDKYEGLPVDGYTAWIERMADHPNIQVHLKTDFFDEGHEFSRATTLGQVPVVY
+TGPVDRYFDYAEGDLSWRTIDLEEEVLPIEDFQGTSVMNYPDEDVPYTRIHEFRHFHPER
+DYTKDATVIMREYSRFAEKGDEPYYPVNTAEDRSKLLAYRDLAKGEKDVLFGGRLGTYKY
+LDMHMAIGSALSMYDNKIKPHFTGGAKLESGGVDA
+>tr|A0A0P7GU94|A0A0P7GU94_9MICC
+MISVVKIGGGTSGVNMSPEDARPLHDEVLAIANDAPADIAPLVKQFSSPTENVLRKADNP
+DASWNLDADAWTAAATELQARCEAYEASS
+>tr|A0A0N8HZ43|A0A0N8HZ43_9MICC
+MTTQTREPSSHRKHAAIWAGLTVGLSVILLALLMLFISPSLLSGPRDLGLGVVGAEHQAE
+SIAETLEEQSPGAFVVQPYDSAADLQQGIRDRDIVGGFDFSAPDMTVYVASAGSTAVSGT
+VSNVGATMAGSMGQTAEIVDVVPLPSADPTGVGIGGLAFPLVFGGIVPAVAFRSMLSGKR
+WWIFAGLTGFSVAGGFVVAAVLKYLFGSIEGPLVPVAASVALGIAALALPLAGLNECFGT
+KGFTIAAMSMMFVGNPFAGIATSAQWLPAGVAMIGQLLPPGAAGTLVRAVAYFDGVGGAG
+AAVTLGVWVLVGIVLWFAGPKLRNAKAGKAGKESTLQQV
+>tr|A0A0P7GBD7|A0A0P7GBD7_9MICC
+MSQETKIEMGAKNVPVRVDLRVLARVGAKPGLIDYLISLWNYRHFMVYDARARVQSGNKR
+DRLGSAWLLLDPLLNGIGYFLIFGLLLGASRGVENFIGFLILGVFLFQMSSRAVVSGARV
+IPSNRNVIQAFNFPRATLTVAVNIRELLANIPVIIMMLLMILVIAPAEEITWRWLLLGPA
+VGLQFIFNLGAGLLLAPLVAKINDVVHVVSFAMRFWMFASCVMFPIDRYNSVPVIKAIVE
+ANPLYLVLDIVRSSVLYAQTPGWQSWAGLAAWALGTLMVGMLIFWKGEESYGRDD
+>tr|A0A0P7HGC7|A0A0P7HGC7_9MICC
+MSALEVETADGWVRGVVDDGVRTWRGIPYAAPPLDDLRLRAPLPPQPWTGIRDASEFGAI
+PPQSRGIALTGSRRRPLMSEDCLTVNVSAPLEPEKSGLPVLVYLYGGAFSSGSSAVRTYR
+GANLVRTGEVVYVCLNYRIGALGFMDFTSFSTPERPFDSNVGLRDQVAALQWVQRNIAAF
+GGDPENVTIFGESAGGISVTALMCIPAAAPYFHKAFAQSPAPSGAYYPDMHERWALDLLE
+ILRVNEADAAEALSRMPAAKLVNAIRHLTTKVGPVQQPGSLSVSPVIDGEFLPLHPIDTF
+LGGKSAPKPLVLGTMAHEGALFAKLDNILPSTPARLERMFAGTDPDALARVVAAYPGYPS
+RDRSVQISGDLVFWYPSQMVAEGHSRVAPTWTYRYDYATRLMNLLGFGATHAFDVPVMFG
+ETNERTMRALSLLGGMEELRELSARFQGSLLSLAHRHLPGEDWPRYDEKDRHTRIFDRED
+RIESDPFPERRRAWEGYRGYI
+>tr|A0A0P7FAZ1|A0A0P7FAZ1_9MICC
+MTASMGSSAAHSAHAALPTVEEVSAGGIVVNCTDPELPVAIIARFNRGGRLEWCLPKGHP
+EHAEDNEQAAVREIAEETGIDGRILAPLGSIDYWFTVSGHRVHKTVHHYLLEAVGGELTI
+ENDPDHEAVDVAWVPLAVLGRRLSFPNERRIADLAREVLPKYR
+>tr|A0A0N8HXM7|A0A0N8HXM7_9MICC
+MAISFREWREDDDLALIQLWGDPETGEAAHFRSVLRPSANEPWSRCIVAEDDGVPVAAGV
+VYETSLHPDRLWVYIEVARENRRAGLGSTLLGMLRKEAESAPSGVTKLRAKVSPDTPGAA
+FAAAAGMEPIQRSRAVIVEPGKIKLPVFEDHGPQLEEAATGSVELTRAVADFYNAVHDWD
+RADMGIGRAQQMLLQEATGASGAVVLRDKPKHEGGKIAAFAVSYTSERTDAPADVLLGWD
+TGLEESEAEAAVASLLAMLAYQYPVQLEVDDSMTALVRVLEPLLAAGAARQDGADTLIVS
+S
+>tr|A0A0N8HX26|A0A0N8HX26_9MICC
+MFDEDQPPLLEVRGLSKHFGAVQVLKGVDLQVLPGEVHCVMGQNGAGKSTLIKTLSGVHE
+PDGGAILWEGREVSLRHPTEALDLGIATMYQELDVVDGLTVAENIFLGHEKARGGVLNVR
+KTRGLTRELLKRLGHSRLSPAAEVGTLSAANKQIVSLARALSRDTKLIIMDEPSAILDSG
+EVANLFRVIRELTAQGIAVVYISHRLEEIRQIGDRISVLKDGKSTASGLKVTETSRSELV
+RLMTGRDVENVFPPRHPVSPDAPVILDVEDLQLRGEFSKVSFQLRAGEILGFAGLVGSKR
+SEILETICGVRKPTSGRISVNGKRLRPGSVPAAVNAGIGLSPEERKSQGLILDEPLFKNV
+TLSTFERFARAGYLNEKAEREAAREQITALELRPADPDRPTRTLSGGNQQKILLARWVVH
+GTPVLLLDEPTRGVDVGARAEIYNLIRRLAADGTAIIVVSSEIEEVLGLADKVLIIDDGN
+VLAEKNPSDIDEHGVLDLIMKGSAA
+>tr|A0A0P7FWP4|A0A0P7FWP4_9MICC
+MLEQNAGDWSPVRTQRLLLCRPEARDEAAAVDLHTDPRTNVHHPVPSSVTRASSARTFHE
+IRQHWYRHGFGVWAVFDPDDRGTLIGFTGVSHRVIRGRPALNLYYRYSPAVWGQGLATEG
+ALEAVRLAEELLPGLPVVAYTSVDNIGSQRTALAAGLERREDLDVDRGAYLDLYLAKGW
+>tr|A0A0P7GJF2|A0A0P7GJF2_9MICC
+MARMTKAQREWRPGMPKKRRSIRVMFASTVLSLEAFVVLFGTLAIFGLQRDRVEPLVILA
+GGILLAVALIVACAFLSKPAGPWIGWILQLCIIATGFLEPMMFLVGALFAGTWWYALRAG
+ARLDRENRQRDAEQAQWEATHSTETGEASS
+>tr|A0A0P7H8I6|A0A0P7H8I6_9MICC
+MNVVLDITTRNLRLFFRDRLGVFFSLVSALVVFLLYTLFLGNLQTEGLGESFPQATTEEI
+GGFVDSWMFAGILGITTITTALGAMVVFVEDSGSGRFQDFLVSPIRREKLILGYLLSAVL
+ISMIMTALVLVVSLVYLFVVSGVTLGAVQLLRICGYLALSCFAFSALSAFAVSFIRTAGA
+YSALSTIVGTVLGFIAGSYIPVGNFPEGVREFVSALPFLQSSMLVRQEMTSETLPAMTGD
+QPAAIEEMQSVFGITAQVGDWQVGTGYVLFVLVAMTVVFTVIAALRIRGRVRA
+>tr|A0A0P7HI07|A0A0P7HI07_9MICC
+MAQTAAQAPAQSLASETGELHLDHLYKHFGAPDAPAAVDGINLAIRPGEFITLLGPSGCG
+KTTTLRMIAGFEQPSDGKLTLDGEDILGLTPDKRPMSMVFQSYALFPHMSVFDNVAYGLR
+LKKTPAKTLEQEVNFALASMSLTQYADRAPNQLSGGQQQRVALARAMVMKPKVLLFDEPL
+SNLDAKLRVQMRTEIRSLQHKLGITSVYVTHDQDEAMTLSDRIVVMRQGRIEQVAPPTEV
+YRRPASVFVADFIGRANFLEVQNHRVTGDGEARQATVSVLGGMHQVPAHDGVSDAQPATL
+LVRPESVSVTRIDAVNHAEVQIAGNVGRILNSVFYGSWIEYEVETQDGNITSVVSDPAPE
+DIMDSGTCVEVRIRQERCWLMPAQD
+>tr|A0A0N8HXK3|A0A0N8HXK3_9MICC
+MAHIVTLRGKTPVTDPSVFLAPTASLIGDVELGPGASAFYGVCVRGDSNSIRVGAGTNLQ
+DNVVLHADPGFPTSVGERVSVGHNAVVHGCTVEDDCLVGMSATIMNGAVIGAGSLVAAGA
+LVLEGTQVPPRSLVAGVPAKVRRTLTDEEFASVQRNAAHYLEMAAEHREALAGR
+>tr|A0A0P7HHQ2|A0A0P7HHQ2_9MICC
+MRTLRRGTCLLAAALMLTACSGGGGDGASTAPSVTVPAGPVPSPSGLIAPGDSSSSGALQ
+DQSPETEEDRRGTDAGSGRTAGPGQSSAPVSGYGTSDPVFSAARLQAAVAAVDRALYLDG
+EVLDEATLRQILPAATGTSGEVTFDPPVCAGLAVSESVEAVQGAALAGLAYGVPGEAPTV
+LNVAAYGDGSILDTLGFIDEAVLSDCADVRMSRDGTTVTVTNTRLEISTTAEETLALDTR
+VSGAAGQTRLVAVSARTGSVRVVVSIPAPQDPEGAAREAAVLIDAVLTELGVAVL
+>tr|A0A0P7FQF3|A0A0P7FQF3_9MICC
+MARGDGMLSHDLMPGEKGPQDACGVFGVWAPGEEVAKLTYYGLYALQHRGQESAGIATSD
+GNRISVYKDMGLVSQVFDETTLNTLLGHIAIGHCRYSTTGASHWANAQPTLGATAAGTVA
+LAHNGNLTNSAELYEMILARQGRPRAGEIAQGNTSDTALVTALLNGTDGRSLEETALELL
+PKLRGAFSFVFMDEGTLYAARDTYGVRPLVLGRLNRGWVVASEGSALATVGASFIREIKP
+GEFIAIDENGIRSQMFGEPTPAGCVFEYVYLARPDASINGRSVYESRVEMGRQLARENGV
+EADIVIPVPESGTPAAVGYAEQSGIPFAHGFVKNSYVGRTFIQPSQTLRQLGIKLKLNAL
+ESVIRGKRVVVVDDSIVRGNTQRAIVRMLREVGAKEVHVKISSPPVQWPCFYGIDFASRA
+ELIANGAKVEEICASIGADSLAYISEDGMIGATQQPREKLCTACFTGKYPIELPAADRLG
+KNLLESSTDGSNGCDPGPDSDFETLLTPTDKKEAV
+>tr|A0A0N8HXJ7|A0A0N8HXJ7_9MICC
+MDNFIHLMEGFAVAAQPVYLLYALGGVLIGTAVGVLPGIGPAMTVALLMPITYSLDPTAA
+IIVFAGIYYGGMYGGSTTSILLNTPGESASIVTALEGNRMAKAGRGAAALATAAIGSFIA
+GTLATIALTFVAPYVAEFAVQIGPVEYVALMVVAFLTVGALLGASVLRGLASLGIGLFVA
+VVGVDQLTAQQRYTFGSAFLADGVDVVLVAVGLFAVGEAFYVASRLRHGPVEVIPVTGRW
+NTWMRREDWSRSWKPWLRGTAIGFPVGTIPAGGADVATFLSYASERKLAKGRRKAQFGKG
+AIEGVAGPEAANNAAAAGVLVPLLTLGIPTTATAAMMLVAFQRYQIQPGPLLFESESALV
+WALIASLYVGNLMLLVLNLPLVGIWVKILQIPRPYLYAGILVFAALGAYSVNFTSVDVVL
+LLLIGVLGFFMRRYGYPIAPLVVGLILGPIFENQLRRSLAISQGDPLALVQSPIAAGIYA
+SLVVIFGLSIWMRRRQRALAATAVAADEREVTA
+>tr|A0A0P7GIT7|A0A0P7GIT7_9MICC
+MSTNPTRVFIARLLGLDVFDPLGDRLGRLRDAVVLDRGAGRPPQAVGIVVEVPGKKRVFV
+PITRITSMDPSQIICTGLVNLRRFQQRGAEMLVVAELFDSRVVLADGSGEATVEDIAIEQ
+NRAGDWHVSSLFVRRGGGGSRLRSLRRKGELLIIEWPEVGHWDITGPQAATQFVAQHDDL
+KPADFAEALHEMSGKRRIEVASELQDERLADVLQELPDDDQVQILQSLDVERAADVLEEM
+DPDDAADLLNELPEEQKEELLQLMEPEDARDVRRLLQYEEDTAGSLMTPVPVILPPEATV
+AEALAHVRREELTPALASSIYVCRPPLETPTGRYLGVVHIQQLLRTAPPEALGNILDTDL
+EPVRDFANIAEISRMLATYNLNSLPVVNDTGRLVGAVTVDDVLDHLLPDDWRASDDTGPI
+TWQGRKNG
+>tr|A0A0P7FGI3|A0A0P7FGI3_9MICC
+MEDKNEKDPKTEPSNPIENAADNLMQNLGEEVPDGSGSQDQSDPRTEVHSNLAQGLNADN
+EGFSAEHKDR
+>tr|A0A0P7GNT8|A0A0P7GNT8_9MICC
+MQDRISHPGLSNLVMSAEQAASMIKPGMTVAMSGFTGAGYPKAVPQALAEQIEQAHTRGE
+DFQIKVLTGASTAPELDGVLAKARGMELRLPYQSDPTLRKRINDGELEYIDIHLGHVAQY
+AWFGFYGHIDLAVIEVVGINEDGSLIPSSSVGNNKTWIEQADKIILEVNRQQPAAMDGMH
+DVYYGTALPPHRKPIMLVNPDDRIGEPYLRLDPEKVIAVVETDAPDRMTPFAAPDETSQM
+IAGHLLDFFESEIKAGRLTDKLLPLQSGVGNIANAVLAGLSGAGYTGLTAFTEVIQDGML
+ELIRDGVIRVASATSFSLSPAGIEEFNSNIDFYRKRIILRTQEISNHPELIRRLGCIAMN
+GMIEADIYGNVNSTHVGGTSMMNGIGGSGDFARNGFLSAFMSPSTAKGGKISGIVPMASH
+VDHTEHDTMLIITERGLADLRGLSPKQRARMIIEKCAHPDFQPLLQDYFDRASRDSVGKH
+TPHLLDESLAFHQRFVETGTSLPEAALS
+>tr|A0A0P7GVX7|A0A0P7GVX7_9MICC
+MRLDGGSGAGEPDPAAARPFRRRRRNRHGRGLRGELLPAHLAGSRTRAERFDDWVMESAQ
+RLERLWGEDIQSYQFVVQEIPDGLEDLVRRGGNVPLAASAPGNGPKPPVITIYRRPVEST
+ARGLVPVNELIHDVVVEQLASLMGLDPESIDPTYGRFRPL
+>tr|A0A0P7HCX7|A0A0P7HCX7_9MICC
+MSGLQTRADGTEVVSTASEAASLERPPLLVLDVVTGFLDEHGLGSGELAWERIGDGQSNI
+TYRITRGGESFVLRRGPRPPLPRSTHDMVREARVQQLLGDEGIPVPQILAVCSDETLLGV
+PFYLMSYLDGHVITGSAPEHLDTPEQRGDISRAVVEALARLHGVDVTGPELSGLGRAEGY
+LERQVKRFAGLWEANTLREVPLVAQVARDLGTNIPVSQRASVVHGDYRLGNLMFGTQQPA
+TVTGILDWEMATLGDPLADLGYLVATYAEPGAEQTVMDLTSVTRQPGYWSRDQLVSGYAD
+RTGLDVTELPWYQALALWKSAIFCEAIYTRYLKGERPGDTFGPTLEEGVPLLLESAAETL
+RRS
+>tr|A0A0P7HH53|A0A0P7HH53_9MICC
+MQAAAVRSSRAGDDVPYALRVSASWAWRLGIVLVVGGGLVWLLGHFSLLIIPLMVAALLA
+GLLAPVSSWLRRNKVPSGLAVAVTIVSFLGLIVAALTLVGRQLALGFRDLWDEVISGFDQ
+VQGWLADGPLRVTSTQIDSLLNEATSALQNNSASILSGAVSVGTSAGHFAAGVLLALFAL
+VFFLLDGRRIWRFTVGLMPQRARAAAFGAGIRGWESMTNYVRVQLVVAFIDAVGIGGGAA
+IIGVPLALPLSVLVFLGSFIPLIGAFVTGGIAVLLALVANGWINAVVMLGIVLAVQQIES
+HILQPLIMGKAVSLHPLAVILGVTGGTLVAGIAGALFAVPLMAILNATVRYIAGRKWEQD
+PMLSRDSEFGPPGAPPPDPDDGDDAEDLETIRTGAGPDGDTDTTEENLR
+>tr|A0A0P7GSV1|A0A0P7GSV1_9MICC
+MRKSLGLNIREAEPGDWPGLWELMEPTVRAGETYCWDRDMEQDGARETWLEPRPAYVYVA
+EEAGRIFGTAQLHPNRGGGGSHVANASFMTAAAATGRGVARALAAHVLEQAAAQGYLAMQ
+FNAVVETNTRAVALWQSLGFQILATVPRSFRHPVHGLTGLHIMHKDLVDGGR
+>tr|A0A0N8HXP0|A0A0N8HXP0_9MICC
+MLDAMMSAQGPDRVAQVDAVSIALAAAGILSGNLLGLPPDAQAAQLMLLFTGLAAALQVI
+RDRRAAARHETFRTFQPTGKRLAGTLLLLGVVVVPVALYVSSIPGHGWIAIGYLLIGMGM
+TAPLLVANRKTSSTDPVGNRPY
+>tr|A0A0P7HHK8|A0A0P7HHK8_9MICC
+MPSASADSVPDAGTRRRLKVEILIVLGLSLGQSGVYAVVRLLDKMTQGPLQGQTTTLNPV
+LNDSPLFDLVYQLLGIFFSLVPVALVLFLLTEPGRSAFRRIGFTFSRPLLDFGLGFALAA
+VIGVGTLGVYAAGRAMGITTAIVPAALDTYWWTLPVLVLSAMRHAVLEEVIVVGYLFTRL
+RALGWSVPAMILTSALIRASYHLYQGIGPGIGNFLMGLLFGYAYYKTKRVMPLVIAHALV
+DIAGFVGFALFGSAIGIGD
+>tr|A0A0P7HHI3|A0A0P7HHI3_9MICC
+MAHAYTRVTLVGRQRHLDLLLPSDQPVAALMPQVLDLLGDEPAADVAAKVLVTPDGSELT
+PTDTLAQAEVLDGTALQLCNASEAPPAPVVYDVTDLVVAETEAVRGRWTRTWKNATAGIF
+AAAGLWAGAELIIAAVAPEAAWWLLAAISVLAAAAGILVCRRSPSSPAGPAAIGAAWLAG
+LGSALHAAGFLGGTDGDYARAGLLLAGSTTVTLLALGAANRRPKAMYTGALATALTAAVW
+SASVVLTGTAVQAAALAGIASVLLLGLLPGLALAASGLAALDDRRAKGGQVGRPDALEAV
+ASAHGGLVAGTAAAAASAALALWTLGTDTAQQAWSLPLLAVLTLAVFLRARAFPLAPERL
+ALYAATAVGLAALVAGSSRWFTDQPWATGVVVLVLTAAVWIALSLNLPDHAQARFRLAAK
+RLETLAILASVPLAAGMFGIFAQLLESF
+>tr|A0A0P7GA10|A0A0P7GA10_9MICC
+MPGNLQPVPQLAGRTGALDHVPYGTELFQDACHHRVKLIIFLPAVVDVSTFGEQAHQLVT
+ADIGEVRPGRHRGNALLPAPAGRGTLQRGVCLKREMQDGIRPASAFPAGP
+>tr|A0A0P7GDR7|A0A0P7GDR7_9MICC
+MTATVQTRRKPKARIVAGCVAAAVVLACGLAAAPWPPRLSGNITGDTALADRVRPLLTNP
+AQHISVAYIDGDSIRYAGFGADEHTEFEIGSVSKTFTASLLADAVKRGEVTLETTAADIL
+GDDLADASAEIGTVTLAELASHRSGLPRLATGLDALPSLLAGQLLNRDPYTATPEQVLAQ
+AQAAGLNNRGTVTYSNLGYAFLGQLLARAAGQSWEQLLEERILAPLQLKETYAPVTAENL
+RDGAPTGRSAAGRPEDAWTANGTAPAGGIRSTTADLAVYAQAQLDGTAPGAAALEPQWNG
+KEGSRYGLAWVTSREGGAGGPEITWHNGQTGGFWSIVALDRDNGRAVVMLSNVAAGQEEA
+AFELLAGGPE
+>tr|A0A0N8HXK1|A0A0N8HXK1_9MICC
+MPAEAKAESKEGLIAFAQYWYDLVNYGYESGDLIPIGSQTLGDCRDCSRYEQVITDGYAN
+SDWIFGGQITVWGMDSEYVLTDAGRYQVLVQFSQDRIELRGPNDVLYTEHPGSKHPVVQM
+LEARWTDAGWVVEELVSL
+>tr|A0A0N8HX56|A0A0N8HX56_9MICC
+MTVSNQKGGVGKTTTTVNLAAALATAGLNVMVIDIDPQGNASTALGIDHRADVESIYDVL
+IEDLPLGKVVAQCPDIKNLICAPATIHLAGAEIELVSLVAREQRLRRAIDVYAAERKEAG
+EERLDYIFIDCPPSLGLLTVNAFVAAREVLIPIQCEYYALEGLSQLLKNIEMIQKHLNAD
+LVVSTILLTMYDGRTNLAAQVAAEVREHFPQQVLSAVVPRSVRISEAPSYQQTVMTYDPS
+STGALSYLEAAAEIAQRSV
+>tr|A0A0P7HC53|A0A0P7HC53_9MICC
+MSKRPVNDPMLRSIVNAQLSRRKLLMGAGGLSVAGMLAACGTGGGTSGGSSSKPSPAADV
+SDTDKIVNWANWTLYLDYDDSTRKYPSLEAFSEATGIKANYSEDVDGNDSYFGKVQGQLS
+AGQDIGQDIITLTDWMAGRMIRLGYTQELNLDNIPNSKNLLAGLQNVDFDPGRKHSLTWQ
+SGFGGIVWNKEAFPKGLKSVSDLWQPELKGRVEVLDEMLDTMGLLMMDQGVDITGDWGED
+EFENALDVLSKQIADGQIRQVKGNSYKEDLISGDALAVIGWSGDITQLNFEEGDKWEFAL
+PEAGGTLWSDNLLVPIGATHKTNAEKLMDYYYDPVNAATVAAYVNYICPVEGAREAMEAI
+DPELVENPLIFPTDEYLANAHVIRTLSPDEETDFNDRFQTAIGN
+>tr|A0A0P7FU22|A0A0P7FU22_9MICC
+MTDYLNSHLAEIDPEVAEQIDNERRRQQEGLEMIASENHTAVSIMEAQGSVLTNKYAEGY
+PGRRYYGGCEYVDVIEQLAIDRAKELFGAGFANVQPHSGAQANASVMHALIRPGDTVLGL
+SLADGGHLTHGMKINFSGRLYNIVPYGVDETTHTVNMDDVARLAREHKPKLIVAGWSAYA
+RQLDFEAFRAIADEVGAYLMVDMAHFAGLVAAGLHPSPVPHAHVVTSTTHKTLAGPRGGI
+ILSNDADIAKKINSAVFPGQQGGPLEHVIAGKATALKIAGTPEFRERQERTLAGSRILAE
+RLLSEDVAAKGISVVSGGTDVHLVLVDLRNAELDGQQAEDRLAQIDITVNRNAVPFDPRP
+PMVTSGLRIGTPALATRGFGEEAFGEVADIIALALTAGNGEDLSALRDRVHTLAAAHPLY
+PQVADLAGAPARA
+>tr|A0A0P7GS66|A0A0P7GS66_9MICC
+MLFVLTVLFAVALVAPLFFRRIGRSAFYLLAAVPAGAFIWLMATYPRYIDSDQSLASGAP
+NAPPSVIISWIPDLRVELAFRMDALSAVLAILILGVGSLVLFYCARYFRPEDPKMGSFGA
+QLLAFAAAMFGLVTADDLILLFIFWELTTILSYLLIGYAAHRLSARRAALQALIVTTFGG
+LAMLVGMIMLGSAAGTYRISEIMAMAPELAASGVIVDVAVVLLLLGAVSKSALFPFHFWL
+PAAMAAPTPVSAYLHAAAMVKAGIYLVARLAPGFWETTYWTPVITVLGLATLLLGGWRAL
+RQHDLKLMLAYGTVSQLGFLTLVVGLGNREAALAGLGLLVAHGFFKATLFLVVGIIDHQA
+GTRDIRKLSGVGRSAPILAVVAAIGAASMAGLPPLLGFVAKESVYETYVHFAEEQGTPTA
+VVLLIGVVAGAILTFAYSCRFVWGGFATKESCKPTAFKAIPWPFLAPPALLAAATVFFGL
+WPKPLDTIISPYADLYPLKGEATHLALWHGLTLALGLTALTIAAGSLLFWQRTRMEKFQA
+RVASPLDAERSYRGLIGILDDAAVWVTGRTQRGSLTFYLFVILSMAIVTPLSAVLLRNAP
+MPENFYWFDTPLQAVVGAAVVIGAVGAARANKRFLAVLMVSVSGYGIALIFALQGAPDLA
+LTQMLVETIVLVAFVLALRSLPARLWKREPTGQRLLRALLGISFGAAMVVFAMSAMASRV
+AEPISLSYPELAYKGGGGLNIVNVTLVDIRAWDTFGEISVLAMAATGVASLIFIRGRGDK
+RRRANEVATGSVDRGREHFASSEREAATLALARKFSSVAREAWLVAGRTLAPERRSIIFE
+VVTRLLFHSVIIFSIYLLLAGHNTPGGGFAGGLMAGLALTIRYLAGGRFELAEATPVSAG
+TLLGGGLGLAALSAAAPLFFGGQVLQSAIIEFTWPVFGDIKFVTSTIFDIGVYLVVVGLV
+LDVLRSLGSEIDERSEGGSDDDDDDDLVEPEPEILETEGVSR
+>tr|A0A0P7FZW7|A0A0P7FZW7_9MICC
+MRDFSARLATAEEIADWDKLVQSNPNGGNVLQSAAYAEVKSHHGWNPIHVVFSCPEYTSY
+NLVIEKKVPVLGSLWYLIKGPDAAAPEDVPAMARALGRFIKETRRRVFALKVEPDIIDGD
+DIRELFSSAGFVKTFNLQPNDSTALLDTTPDTEQILKNISSRARNAVRRAIREGADVRRV
+EPTEENMRAMYKLMSHIEDRSDARMRSYEYYHRFWSNFVAAGQGRFYFAFDEDGEPTVGA
+FVIAYGKKGTYKDGGSKPRRKQYGDSHLVQWTALTELKEDFGIEEYDFCGTPPSSELKNK
+EHPHHGLGLFKTSFSKTVTDFAGCWDLVLDPLRYRIWNTIGERVTRQIYWRRHHQPFY
+>tr|A0A0P7H8T3|A0A0P7H8T3_9MICC
+MDSTPRRRPMRIVVPSRNDRLLSRFTEGLGGPMGKFTAPGMVSPGFFTVERVLILMTTGA
+ALLALLAKTPCRANGWSNQFYQACYSDWPALFGARGLGEGIYPFISAGSEFEYPVLLGLL
+AGFVAWLVPAEAESRWLLYFDLNAVFATAAWIVTVIATMRMANRRPWDAAMVAVAPAMIL
+SMFINWDIWAVMLAALGMLAFARSKPALAGVLIGLGTALKLYPVLILGAVLVLAIRTFKW
+RPAVVTFAATALTWLAVNVPFALRDFEGWKYFYEFSRDRGAGNSSVWQAWNITFPEFEAD
+AAFIGFWAYFLFALACAGIALLALAAPRRPRMAQLVFLIVAAFILTNKVYSPQFVLWLVP
+LLALARPRWRDFLIWQFFEVMHWWAIWLYLAAILGGGPPENNLDSGWFVLSVAGHMGATM
+YLMFRVALDIWDPRTDPVRRMGIDDPQGGPFNQAPDRWRLRLGRRPRVPLETDAAPAKEA
+Q
+>tr|A0A0P7G5Y2|A0A0P7G5Y2_9MICC
+MSFPQHRPRRLRTTPAMRRMTAEYRLDPAELVLPAFIREGITEPNPITSMPGVVQHTTQT
+LKRAAAEAVELGVGGIMLFGIPAERDAEGSAGTDPEGVLNKAIADVRAEVGDDLVIMSDV
+CLDEFTDHGHCGVLDSNGVVDNDTTLEIYGRMAVEQARAGAHVLGPSGMMDGQVAVIRHA
+LDRAGFQDVSVIAYAAKYASAFYGPFREAVDSQLKGDRRTYQMDAANRREALLEVELDLE
+EGADMVMVKPAMSYLDILADVAAMSPVPVAAYQISGEYAMIEAAAANGWIDRRRAIEESV
+LGIKRAGANIILTYWAAELAAWLKESK
+>tr|A0A0P7HE69|A0A0P7HE69_9MICC
+MHLNPYGEYAVLFAASLANDWPDSRGGIVARAREHGMTMAFPQAPGDHTEVRTVVDRWLA
+VVDATDPARRAELLNEMMKDAAAYPRLTDHDQEGWHLHYRDGGQSLAEVLLAVFSVGTAL
+HLTTRGMTRLRRCEAGVAPGDPCRNVVVDITRNGRQRFCSVRCGNRAAVRRHRAAHS
+>tr|A0A0P7GBB1|A0A0P7GBB1_9MICC
+MIFTSRNRARNAAAAGVIALSLLGATGCSAVNDQATTMEYSPSDGIVQDLGDLQLRNILV
+VSEGDGEPGRLMGTVINDSADPINFELSVGGSNLSWNIPGGGKVVYDDAPQAEVLVEAVN
+VLPGTGIRAEAKDGSETATLNLPVVDGQVSYYEDYLPTPEPTPSEEPAAEATETPAP
+>tr|A0A0P7FFQ7|A0A0P7FFQ7_9MICC
+MTQEPTRTQRSEGIPLGRIGGVPVTLAWSWFIIAVAIIFLFGPRVAAAIPGLGTAAAYGV
+ALGYALLLLLSVLVHELAHALTAKAWNWPTPKIVLTLWGGHTQFGDVRATPGRSLVVALA
+GPAANFLLALIGLGLLLFLEPGTVPRLLADIFVWANLLVAVFNVLPGLPLDGGRIVETIV
+WKATGSQDKGTLAAGWAGRIIAAALAAAIVVPPFLQGRTPDFSLLLITALVSGFLWMGAG
+AAITNARMRLRLPAVSAAALMEPATQVPSWTAVSELRRLAAAAGPRTALVLTAPTGHPEA
+VVDRGALFAVPDHLADSTPAAAVARALAPGAYIPNVANGQELIAYLSKLDGSEYAVIDRE
+GTVVGLLRQETVVAAITGRRPQGRRS
+>tr|A0A0N8HZ20|A0A0N8HZ20_9MICC
+MSTHPTEPKEPPRTAAKAETEEPEGQSPVPPGTPVPPGAAALVSAASPRLSAGIRLRRVA
+ASSMIAAVSVTGVGAASAQAREPQEAAWLVPAEDVEETSAQLPLASPAAAARDGAERLAG
+VRRDLANAVAWGSVTASQAEHFYAQISARIARGL
+>tr|A0A0P7GKM3|A0A0P7GKM3_9MICC
+MTRENLPEMNPPRELELTVGPAAHGGHFVARHEGRVVFVRHALPGERVRARLTDAGPKAK
+FWRADTVEVLEASPSRVAHFWAPADALKAGSRGRLPVGGAEFGHIELGEQRRLKAGIFAE
+QLKRLGGVEREISVEVPADENPDGLGWRTRASFSVAPGGRLAMHPHRSDDLVPVQEMPLA
+TAAINALSLWEVDFTGADRVEVAAPAAGGPPLVLLIPSAGTHPRTLARIASEVGAAADAG
+AGETVSVAAWDPENHELTRLRGRTWVREHAAGHEYRVTGAGFWQIHRSAPEVLTAAVLSG
+LQVQEGERVADLFAGAGLFTAPLADAAGPSGHVLSVEGSPGTSRDARKNLFAAGQVEVVQ
+GRVDRVLRTREGGLDVVLLDPPRTGAGRTVVDQVSAAGPRAIGYVSCDPASFARDLAWFR
+EAGWELDTLRVFDLYPHTHHMESFAVLNRP
+>tr|A0A0P7FA98|A0A0P7FA98_9MICC
+MSDNPTSIPVLDLSTARNADGTFNTEFIDKLREATHKIGFFQLVGYGAGEERVKDLFDVT
+KRFFDLPLEDRLELDNRKSPHFRGYTRLGTELTQGRPDAREQVDFGPEREPVADYPADQP
+YWLVQGPNLFPDTVLPELRETSMEWAELMSEVGAELLAAISVSLELPEDHFTEPFEGTPA
+WMAKLIHYVGGVVKEAGTQGVGAHADYGFVTLLLQDEVGGLEVKPHESDEFIPVEPIPGA
+LVVNLGEMLEVATQGYLSATIHRVQAPPPGVDRYAIPFFWSPRLDSVIDPVQLPPALAAQ
+SRGISDDPQNPMLASYGANVLKGWLRAHPQVAAIHHPELVPAKK
+>tr|A0A0P7FAQ6|A0A0P7FAQ6_9MICC
+MLPKDTARLRFREMTPDDLDQMAALLGDPEVMAYYPAPKSRDEAAKWIAWNEANYAKYGH
+GLWIVETHDGEFLGDCGLTWQKVNESETELEVGYHVRTASQGLGYATEAAAACRDFARDT
+LQARKLIALIHPENTASRRVAEKLGMKPVAEDHGGPIPVRTVMGMDLRPEP
+>tr|A0A0P7FDN1|A0A0P7FDN1_9MICC
+MTSGTKDAAMPATGRQYRLSRGNSSAVIASLGGALRSYTVGGTELVETYPDSSIPPSASG
+ILLAPWANRIAGGQWTLDGTKQQLDITEPQLGNAIHGLLRNTGYTARESSAASVTLAAEI
+FPQHGYPFHLVHEVRYSLDNDGGLRVRQELANLSARRAPFALGAHPFLRLGEVPSEDLVL
+RVDAAEKLTTDGAMIPNGRVPAEGADDLSSGKRVGGLDLDAAFTGLTVRDGAYRHVLTAA
+DGRSVQLWAEPGFEYVHVFVTDKFPGRSCAVALEPMTAPADCFNSGEGLRWLEPGGKFGA
+EWGILADL
+>tr|A0A0P7GC54|A0A0P7GC54_9MICC
+MEKKSLTALVRNNLETARQASSGRSAATVYGGHEHVLRQTVIALAAGFALDEHENPGEAT
+ITVLKGRITLNSEGESWEGSAGDLLIVPQARHAVTAVEDSAFLLSVAMHR
+>tr|A0A0P7GT96|A0A0P7GT96_9MICC
+MPAAFSLDRARRTILGAQQLAKPRPVRPTSGQAGRVFDALALLQIDSVNVLARSHYLPLF
+TRLGAYDRAALDRMSTRHPRRMVEYWAHEASFIRPDLFADLRQWQRRTWVRATSMPEEPR
+SQLTEAVLGLLQQKHPLSAREVETVLGHGTQPGTKSWGWNWTDSKRVLSDLFEQGLISSA
+GRGTAFERLYAPAAAVHPDGEAALEPADRDEALLRLTETAARAIGLGTAPMLADYFRLPL
+RDTLAAARRLALQGRLEEITVEGWKDPVFLHPEAGTPRRCHGRGLLSPFDSLVFDRRRLQ
+AVFGVHYRIEIYTPAHKRQYGYYVLPFLLREAIVARVDLKADRAGRALLVQAAHSEPGSP
+DDTAVELAAELRLMAQWLGLAEVMVRPVGNLAPALKLAVDRG
+>tr|A0A0P7GWA5|A0A0P7GWA5_9MICC
+MDLSYIAVFAALVAAFSLLPGIPLPVGVPITLQTLAVILTGMVLGPGRGTAAVGLYLVAG
+LAGLPVFSGFRSGIGVLAGPSAGYLLAFPLAALVVGLLTRALMGRIRRARFAVLFAAGLL
+TSFSVVHPLGIAGMMLNAKLSFPAAVAADMAFWPGDVVKNLLAAAVAVSVFAAFPRMVPG
+TRQVRR
+>tr|A0A0P7GE29|A0A0P7GE29_9MICC
+MAPFRNSRAAALPAKLSRSWLLASAADEANFAPALASEADSVVFDMEDAVPAEGKAEARE
+RVVEALSTGMTAWVRVNGIETDYWADDLAALSKAPGLRGVMLAMTEKPEQVTHTAMRLQA
+GTPVLALVESALGIENATAIASAPGTFRLAFGVGDFRRDTGASDDPMALAYARSKLVVAS
+RVGQLPGPIDGPTPGTLGEKLLDACKVTASMGMTGKLCLMPEAADTINKGLSPSESEIVW
+AHELLEAHAAGAVVGDGSYLPRLARAQKISSLADSYGLWNA
+>tr|A0A0P7G9F8|A0A0P7G9F8_9MICC
+MIALLLGSAALILLSAFSGPLGRRGVTSAIAFVVSGLILGLALGDQLGISLETHSVLRVA
+ELALVFLLFNDAARLDLGALRRSPGWPARLLGLGLPLTLLLGFAAGAVLLPSLSLSSVFL
+LSAMLCATDAALGHRVVEDPSVPVPVRRALNVESGLNDGIAVPFFLVSLDITMSVLDDSV
+PSAIAAALAQQIGWGLAAGVLIGCTGGYLQRAAARRGWFETRWRQPCTLAVALAAYAAAV
+TLGGSAFLAAFVAGLAFRLAHGTGDGEATRFTEETGGILAAATWMIFGAAAIPAALPHIT
+WQIVVYAVLSLTAVRMLSVGTAMAGTGAPWQTLAFLGWFGPRGLASVVFAILAFERGTPA
+AETLLTAVVVTVGLSVFAHGFSARPLVAAYHRWTESGPADRRPSARSE
+>tr|A0A0P7GAS1|A0A0P7GAS1_9MICC
+MSNCCINPSILSADFVNLEAELERISGADAVHVDVMDNHFVPNLTIGLPVVKRIQEVSAL
+PLDAHLMIADADRWAPAYAEAGLASVTFHVEAAAAPIRLARELRDRGAKAGMALKPATPV
+EPYLDMLPELDMLLIMTVEPGFGGQKFLDVTLPKIRRAAEAVRGSGLPIAIQVDGGIAPD
+TIERAAEAGANVFVAGSAVYGTEDPNEAIAKLRAQASAVSRTG
+>tr|A0A0P7HI20|A0A0P7HI20_9MICC
+MTAVLSSGSHAVSAAARTAPDTALSVTFDGVGRSFGSGADAHVVLRDINFEVRPGEVLAI
+LGSSGCGKSTLLRATAGLDAASTGQVLIDGTAVRGIDDRCAVAFQEPRLLPWQTLQANVA
+IGLPKGTSASDGKAKVSELLKLVELDRFAKHQPRAVSGGMAQRASLARALARKPGVLLLD
+EPFGALDALTRLKMQDLLLDVHRAAPATVLLVTHDVDEALQLADRIIVLGREPGKPGATI
+TQTITVPGARPRDRASAELARMRGELLASLGVDRH
+>tr|A0A0P7GIK3|A0A0P7GIK3_9MICC
+MEVWPGDAYPLGATYDGNGTNFALYSEVADSVKLCLFDDDGTETCIPLTEVDGYVWHCYL
+PHVVPGQKYGYRVDGPYDPANGNRCNPNKLLLDPYAKAVSGQVNWDQSLFGYNFGDEDSR
+NDDDSAANMMKAVVINPFFDWDGDRRPRAEYHQSVIYEAHVKGLTQQHPEVPEEQRGTYA
+GIAHPAVIAHLQKLGITTLELMPVHQFVNDSTLQDQGLSNYWGYNTIGFFAPQNTYSSTG
+DDGQQVQEFKAMVKALHLAGIEVILDVVYNHTAEGNQLGPTLSFRGIDNAAYYRLMEDDQ
+RYYMDYTGTGNSLNVRNPHSLQLIMDSLRYWVTEMHVDGFRFDLASALAREFYDVDRLSS
+FFEMVQQDPVVSQVKLIAEPWDIGPGGYQVGNFPPQWTEWNGKYRDTVRDFWRGEPSTLG
+EFASRITGSADLYESSGRRPVASINFVTAHDGFTLRDLVSYNEKHNEANGEDNNDGESHN
+RSWNCGVEGPTDDPEVLSLRARQQRNFLATLLLSQGVPMISHGDELGRTQQGNNNGYAQD
+SELTWIDWEQMDTPLMEFTAAVNKLRAEHPTFRRRRFFDGRPAERGEGDVLPDIVWLNED
+GTPMRPEDWDSQLGRSLGVFLNGEGIRGNDRRGQRITDAGFLLYFNADDEPVTVTLPPKE
+YGTLWDNVIDTAGAGADGEPVGADGKLQVEAKSLVVLREHQQEEEDHDHSVAASLAALAG
+AKTREGTV
+>tr|A0A0P7GJE9|A0A0P7GJE9_9MICC
+MTQTTSSEELFDRARALMPGGVNSPVRAFGSVGGTPRFLVSAKGPYVTDSEGREYVDLVC
+SWGPALVGHSHPDVLAAVHAAVDRGLSFGASTPAEAELAALVMDRVKPVERLRMVSTGTE
+ATMTAVRLARGFTGRNLVIKFAGCYHGHLDSLLASAGSGVATLALPGSAGVTEATAAETL
+VLPYNDVAAVEAAFAEHGANIAAVITEAAPANMGVVTPAEGFNAALSRITTAHGALLILD
+EVLTGFRTSPAGYWGLTGQKEGWAPDLYTFGKVIGGGMPVAALGGRAEVMDYLAPIGPVY
+QAGTLSGNPIAMAAGVATLTAATAEVYANIDARSAQLSQAVSDALSAEGVNHSVQRAGNL
+FSIAFGSAGNGVHNYADALAQEAFRFKPFFHSMLDSGVYLPPSVFEAWFLSGAHDDAAMD
+RILAALPAAAKAAAAAQP
+>tr|A0A0P7HD15|A0A0P7HD15_9MICC
+MPIHPEIAKILATLPAPPEGPLNPVAMRAGEQAQVPPLEDRTPVHRVEDTVAATPAGDVP
+VRIYTPEEAGSYGVLVYFHGGAFFLGSLDTHDHVARALANESGFKVISVGYRLAPEAAFP
+AGLQDCYGVLQWVTEQWAELNWNGKDLAVAGDSSGGTFAAAVTAMAKDDGFDAVSHQILF
+YPSLDLDFDSDRYASMRENAVGYGLETAGLKPFNAFYLDSGADPADPLVSPIKRKDLAGL
+PPALVITAEFDPLRDEGELYAERLRSAGVETVLSRYDGANHGFVANFSWIPEFYAALEEA
+GRFLRGRESK
+>tr|A0A0P7FZQ1|A0A0P7FZQ1_9MICC
+MTPAPKPAPKPVQKPVPVRRHGTRARLARLAGRGGTSYSPMLEPLLRTVRANNPREDLEL
+IQRAYVVAERCHEGQKRKSGDPYITHPVAVATILAELGMTGTTLAAALLHDTVEDTAYSL
+DELRSEFGPEVAMLVDGVTKLDKVTFGDAAQSETVRKMVVAMAKDIRVLVIKLADRLHNA
+RTWRFVSPESSARKARETLEIFAPLAHRLGMNTIKWELEDLSFAALHPKVYDEIVRMVGD
+RTPEREKYLSTVRSQIAEDLHNVKIKATITGRPKHYYSIYQKMIVRGKDFDDIHDLMGVR
+VLVDSVRDCYATLGALHARWNPLPGRFKDYIAMPKFNMYQSLHTTVIGPGGKPVEIQIRT
+HDMHRRAEYGVAAHWKYKDGAKNGSAAPDNSDMGWLRSLVDWQQETSDPDEFLDSLRFEI
+NAREVFVFTPKGEVMALPAGSTPVDFAYAVHTEVGHRTIGARVNGKLVPLNSELQHGDWV
+EIFTSKAEGAGPSQDWQGFVKSPRARNKIRQWFTKERREEAIEKGKDLLTRGMRKQNLPL
+QRLMTHDALIAVAQDLHHQDISALYAAVGDGHTSAQNVIEHLVALMGGHQGAEEDLAETP
+VSSANAKRPKFSDSGVTVRGVGDVWVKLARCCTPVPPDPIVGFVTRGSGVSVHRTDCRNV
+QELRDQPDRIVPVDWAPTQSSVFLVEIQVEALDRKSLLSDVTRVLSENHVNILSASVNTS
+SDRVAMSKFVFEMGDPKYLSHILSAVRRIDGVYDVYRTTGDQRRV
+>tr|A0A0P7G969|A0A0P7G969_9MICC
+MDDSAVMALRVLVSLGVVLGLLWWLQRRLVRGRASSGVEAPVRVLSRQAISPKASVVVLE
+TGGQRFLLGVTEANVNVLHTSEAPPAPDAGFAASLQDASGVPVPGTDDGGLPRRRDTRRA
+APEGAASMLNGSILSPDTWRQGAAFLRRGRTE
+>tr|A0A0P7HUN6|A0A0P7HUN6_9MICC
+MNLILKLLGTGVSVGAGLASAKILDFVWTKATGNEPPKDKDGALDASLRSAVIFALVSGA
+VSQVIRVLTNRGTQRAIARYSRTPEVV
+>tr|A0A0P7HLF6|A0A0P7HLF6_9MICC
+MRSTVPNPAAAPAAAQAAARLSTLDRFLPVWIVAAMAAGLLLGRFIPGIGAALDSVKVAD
+VSLPIAVGLLVMMYPVLAKVRYSETGKVVADRKLMVTSLILNWVAAPGFMFALAWIFLPD
+LPEYRTGLIIVGLARCIAMVMIWNDLACGDREAAAVLVAINSVFQVLAFGALGWFYLQVL
+PGWLGLETTSTDFSFWVITLSVLIFLGIPLLAGFLTRTFGERARGRAWYEGRFLPKIGPW
+ALYGLLFTIVVLFAMQGDEIAANPLDVARIALPLLVYFVVVFGAGMLLGRILKMGYPRTT
+TLAFTAAGNNFELAIAVAIGTYGATSGQALAGVVGPLIEVPVLVALVYVALWAQKKYWPA
+ATPTPAAPAEEARR
+>tr|A0A0P7GT89|A0A0P7GT89_9MICC
+MKLRLFPQENAGLDLLSRMAAQAVRGTATLSEALGADPSEFARLAEELHAFEAETTDLHF
+ALMTQMRTSFINPLPREDLYDISLILLALMERLDSAAEIISLYRLTNVSGRAAEQLEVLG
+RQAELSVAAMRTLASMDDLEDYWIEMLRLSKRVERTHRMWLAELIHDHKALVYIRHRDLA
+DQLAAASKEFRRLGTYVGNILVRES
+>tr|A0A0P7HHX7|A0A0P7HHX7_9MICC
+MPARDRLSSWNRFLRNRFRIGVKRSGASIYPALQMTICAVGAYAFAEYVLGHEGPLFAAT
+AALISLGFSREPRTRRVLEVGIGCTLGITIGELLLQVLGNGLWQAAIVLFSSLMLARFLD
+RGVIFTTQLGLQSLLVVLLPAPEGGVFTRSMDAIVGGVFALIVTMLAPRDPRREPKSNIR
+ELLSELSAVLRQVADALVRSDSTLAWHALVRARSTQPQLDLLARSIRDAREIARISPAYR
+RHLAELGDLRGSVGYLDLAIRSSRVFARRTTSVINHASLSDTAVDKVSEVINDTADAVDI
+LARALGGGESQPTRERHLRQARSELAAVGARLHPASLDVHDLYGDALVMLFRPLVVDLLE
+ATGLSHEEAVSYLSEV
+>tr|A0A0P7GWF6|A0A0P7GWF6_9MICC
+MASATDLPAADTRALTGTAGGVLMAYLQAQYAEMLSQEQRLRTEEPEAVHKMRVSTRRMR
+SVLASYRKMLHPEPANGIRDELKWLSQLLGAARDAQVMRHRLQELLAAQPEFLVKGPVSA
+RIDEELLGDYSAALDAIRRGLDSPRYAALVRDLGVLVAAPQLTGRAERPAAKAGKKLVRK
+DLRRLKNRVRAAKQETGGAARSELLHEARKDAKRLRYAAEAFVPVGGKAAESMVEAAEGI
+QKVLGEHQDSVVTQDLLLRLSRRPGRGGGGFTYGRLHAVEEQRLKAAEKRFRRLWKGFAG
+AHGW
+>tr|A0A0P7GWI4|A0A0P7GWI4_9MICC
+MDLFEYQARDLFEAHGVPVLAGIVAHTPEEAKAAAEKIGGVVVVKAQVKVGGRGKAGGVK
+VAKTADEAFEHASNILGMDIKGHTVKKVMIAQGADIAEEFYFSVLLDRANRNYLAMCSVE
+GGMEIEQLAVERPDALARVAVDPAVGIDQAKAEEIVDAAGFAPELREGVVNAILKLWDVF
+TKEDATLVEVNPLVKTGAGDIVALDGKVSLDENADFRQPGHAELEDKDAADPLEAKAKAN
+DLNYVKLDGEVGIIGNGAGLVMSTLDVVAYAGEKHGNVKPANFLDIGGGASAAVMAAGLD
+VILNDEQVKSVFVNVFGGITACDAVASGIVKALEILGDEANKPLVVRLDGNNVEEGRRIL
+AEANHPLVTLATTMDNGADKAAELANAAR
+>tr|A0A0P7GHM1|A0A0P7GHM1_9MICC
+MRKFAKSFAVVATVAALSLSACGRADESTSGEAAGFEEGSAIGVALPQKTSENWVLAEGL
+FNDGLKEAGYEPQVQFANGGVSEQQNQISSMITNGVKVLVVGAIDGAQLGSQLQEAKDAG
+ITVIAYDRLLTNTENVDYYVAYDNFQVGQLQGQALLDGMKANKPEGPWNIELFAGSPDDA
+NAQVFFDGAMDVLKPEIEAGNLNVVSGQTEFNQAVTQGWKAENAQKRMDTLLSGSYGSEE
+LDGVLSPNDTLARAILTSVAAAGKPVPVVTGQDSEVESVKSIMEGVQYSTINKDTRALVN
+HTIDMVKGLGAGEELEINDDESYDNGVKVVPAYLLEPQIVTKDNAAEAYANDPTLAELVK
+>tr|A0A0P7G4E0|A0A0P7G4E0_9MICC
+MKKALVTTSLALSMTLAVASCSSGSGNGDAAADGKDRLAELAVTTEAASGELESATWNLP
+FGEPASLDPILAFNYPENTVVANICEGLMMIEPDFSVTPNLAESFDTQDGQTYVYQLRQG
+VTFWDGSPMTAQDVAYSLNRHLDPAEGSYWASDAVSGNVESIEATSDTEVTVTLKAPDWT
+FNSYMATPMGVVVSEEHRKATGEAYGTPQGGVMCTGPFSVDEWQSGQSITLAKNEAYWNT
+DRTPKVNSLEIQFIVDPAAITNALVSGAIDGSYDVPLSAVSQLEAAGNGELILGKSMQML
+AIIATGDGPLGDPAVRRALWTATDQQALSGTVFENTARPAVSLIPDGGWSFADDVFSSAR
+AELPGAEADIEKAKEILADATADLSETITIVYPTERSYYADMISEFTRAGKEIGLDVQPQ
+GVPSAQFGAFFSDPEARAGHGAFVTTNYMDVPDPLVFLRTIVQEGGSQNFSGYSNPEIEE
+LLAKAEAASDETERAELTTEIEALAMADMPWLPVVDPAVRLFMSDRVTGVPASFAYLYYP
+WAADLGAAG
+>tr|A0A0P7GHF2|A0A0P7GHF2_9MICC
+MAGWLALGQFLAVALFLALVHRPLGDYMAHAYTSQKDLAAERGVYRALGVAPRSGQPWQS
+YLRSVLVFSALGVLALYLLQRLQPLLPASLGLPAVPEGLSFNTAVSFVTNTNWQSYSPEA
+TMGYAVQATGLAVQNFLSAAVGLCVAIALVRGFAGRGAVTIGNFWVDLTRSLTRILLPGA
+AVGAVILLLGGVIQNFTGFTEVSTLAGGTQSIPGGPVATQEAIKLLGTNGGGFFNANSAH
+PFENPNAFTNLVSVLLMLILPFSLPRTFGTMIGDRRQGYAILAAMAGIFMLSVAAMTAFE
+LAAADGTAGAMEGKETRFGVAGSTLFGSTSTLTSTGAVNSMHDSFGALGGMMAMLNMMLG
+EIAPGGVGSGLYGMLVLAVVAAFISGLLVGRTPEYLGKKIGPREIKLACLYVLAMPALVL
+AGTSLSFALPGIRAEIEETSMLNTGPHGFSEVLYAFTSAANNNGSAFAGLTANTPWLNTA
+LGLAMLLGRFLPIIFVLALAGTLAAQGKVPVTAGTLPTHRPQSVLMLSGVTVLVTSLTFF
+PVLALGPLAEGLI
+>tr|A0A0P7HIH5|A0A0P7HIH5_9MICC
+MNLQVNAQDLLPANLAMGTVMLKVGDMEKVSGYYRQALGLQVVAEADGGMYLGRGTVPLV
+HLAPAAGLQVPSRGEAGLFHTAILFETQADLAATVALAAQFDPSAYVGSADHLVSEAFYF
+TDPEGNGIELYWDRPREAWDWDDTPQGRTVRMASLALPPQQYFRTHLSEDALARTPEAAA
+GVGHVHLQVGDTDTAAAFYVDTLGFERTADFHGQALFVSAGGYHHHMAMNVWNSRGAGPR
+RDTLGLGEVLISVPGQDDVGSLADRLKSAGIASHHTGSELRFEDPWRNRIRVAAS
+>tr|A0A0P7HMU4|A0A0P7HMU4_9MICC
+MSINTELQGRRYPATEPYQVGREKIREFALAVKATHPAHFDTTAAEKLGYSDVVAPPTFA
+IIVAQRADAQLINDPEARIDFSRVVHADQRFTHHRPIVAGDELLAELHVDSIRAMGDGAL
+ITTRAEITTVEGEKVATTLSSILVRGEGQ
+>tr|A0A0P7GDW5|A0A0P7GDW5_9MICC
+MSLKEAIRPNADVRPAETPPEDSDELVHVFCTPCKRRAMQHARRPKPYCGKTMPNRPLRS
+DNAHLPVCVVCVELARSGPCPSCGMQARL
+>tr|A0A0P7FE56|A0A0P7FE56_9MICC
+MADPARAAKLADRIKVVVAQALERRIKDPRLGFVTITDARVTNDLQHATVYYTVFGDEAQ
+QADTKAALDSARGVLRSEVGKNITVRLTPTLEFVADEIPVNASHLEELIREAKKRDEELA
+ALKQGAAYAGDADPYRRDEDDDEEDLQDAPAEDSDARS
+>tr|A0A0P7FUI5|A0A0P7FUI5_9MICC
+MAHLDVSGIDYFLSDGRQLLSGVSFKVGEGHKTALIGPNGTGKTTLLRIIAEDIKPDEGT
+VSRSGNMGIMRQFVGQVRDGSTVRDLLVSAAPPAIAAAARAVDEAEEAMMENDDEPTQMR
+YAQAIADWGDVGGYEQETVWDEVTTAALGMPFDAAQYRQASTLSGGEQKRLVLEALFSGP
+DELLLLDEPDNYLDVPGKRWLEAKLAESRKSVLFVSHDRELLANAATRIVTLEPGINGAS
+AWIHGGGFGSYIKAREDRNARFEELRRRWDEEHVKLKELVNMYKNKAAFRSDMANRYHAA
+QTRLAKFLEAGPPEALPIEQNVKMRLRGGRTAKRAVVAQKLELTGLMKPFSTEIWFGDRV
+GVLGSNGSGKSHFLRLLALGGSDPDKEHEPVSEVEIAPVPHEGSVKLGARIRPGFFAQTM
+LRPDLLGKTLLDILHRGDEHRSGLGREAAAGALDRYGLASSGEQKYDSLSGGQQARLQIL
+LLELSGATLLLLDEPTDNLDLHSAEALEKAIEAFEGTVLAVTHDRWFARSFDRFLVFGSD
+GRVYESEEPVWDEKRVERAR
+>tr|A0A0P7GJM4|A0A0P7GJM4_9MICC
+MTVKNAPSKWGRAKFGGSSAHLLAASLAAGVLLSGALGWLFMVLRNGDRPLLAFAVMAVF
+TLPVAAVLAWAVLVDRATLAGALEKPEDSVESAWYEKAASGAFTDILLVGGLGCAALSFL
+GTEGTAGPILGSVVAFAMLDFGARYLWLKKTAA
+>tr|A0A0P7HE09|A0A0P7HE09_9MICC
+MVRTRTSHLSVGARTDNGRTRREKTPRSVHGNWVPAPRRRDPVALLEEQNLTREPDLVPV
+RHGRMIASALTFYRGAAKIMASDLKDIPRSGLSVQLCGDAHLSNFGVFASPERRMLFDLN
+DFDETLPGPFEYDVLRMGASFTIAARNNLFSPGQAHLITTAALRSYREAMLRFATMGILE
+IWYARLEEQDVLKAIQLAVGSSKGSGRKKAAKQAGLMAEKTVLKARSRDSLQALSKLAEL
+VDGKYRIVSQPPIVIPARDAHASFGMSAGELRRAVHEQLRSYRDTLQDDRRQLLERFEFV
+DAARKVVGVGSVGTRSFIVLLQGRDSRDPLFLQVKEATPSVLEDHLPGSQYRQPGERIVQ
+GQRSMQAASDPFLGWTKGVQANRFMYWRQLRDMKGAAAVEAMRPLGMEFYAQLCGWTLAR
+AHARTGDPVAMAAYLGRGTKFDEAAAAFCERYADQNERDYQAFAEAVRSGRLSAVEGV
+>tr|A0A0P7HNL2|A0A0P7HNL2_9MICC
+MSKSPRTAFSGPANRSIGGKSAAGVGSASLVSAAVGYVLLLVAARTLDTEANAVFLAFWS
+FLFFIFGVLGGITVETTRATKASADLPEADRGSRFAGPALLIGAATSVVLLATSFWWGGE
+LFGPLAPTLVPVICIVAVVYAGHVTTIGALGGTGRWNKYSVAVFAESGVRLAAAGVVFAV
+GATVGGLAVASALAAAAWLLMLLSSKDVRSAFFSRADVGAGRYVRNVLHACMAAMASAAL
+VVGFPAMLKFTTPDPVYLASAPLLMALSLTRAPLMIPLTAFQGVAITHFMSRKDDGAKAY
+VPIFLSVLGVAVVGAAAAALIGPWLMVFLLGPDYHVSGAVLAALTLDSGFLALLTLTGSL
+TVAAGRHRAYSLGWVCAVVVSLAVLLLPLGIEAKTVLSLALGPICGITVHTVFVQKSLKP
+TRV
+>tr|A0A0P7GKS7|A0A0P7GKS7_9MICC
+MAKKHKTKHDAVIGIDIGGTGIKGGIVDLAKGKLIGDRFRIPTPQPATPEAVAGVVGQIV
+AELSSRPEGPGTDVPVGVTFPAIIQHGVARSAANVDKSWVDTDVDALLTKALNREVQVMN
+DADAAGLAEARYGAGRGVDGTVLVITLGTGIGSALISNGALVPNAELGHLEIDGVDAETR
+ASASARERDDISWEEYAKRLQRYFSHVEFLFSPDLFVIGGGISKRSEDFLPMLDLRTPMV
+TANLKNNAGIVGAALQAALHFKYIK
+>tr|A0A0P7FXM1|A0A0P7FXM1_9MICC
+MGVAGTPVLRRILDPQDHESQREALAGWAATLSRSGVPQMTIRSTGKTAGGKYGAPFSGA
+SFA
+>tr|A0A0P7GK25|A0A0P7GK25_9MICC
+MLIALLAQTACTANLDSTGDDLSPPVETAAALWEFEPNAYVSEALDFIEANGLYLEDIDW
+PAVRERALEQTAGAKSPDETYPALKEVIDLAGGRHSALREPNPNPPGYSFIHTPEAELLG
+DGVAVLNIPAFRSPRPEHIEEYAEAGWDEIARLSAETQCGWIVDVRENYGGNMLPMISAV
+TPLLPEGTLMQFIDRDGNSSAVAARDGGIFQNGEYQAGASSRAADMSHLPVAVLQSGSTA
+SSAEAVVITFMSRDGVRTFGADTAGLSTGNVTKTMPDGAVLRVTRAYMANSSGVPADGAL
+PVHTASDDPLSAATEWLRETCEMGSR
+>tr|A0A0P7HUJ3|A0A0P7HUJ3_9MICC
+MILLDAPPSADDILSYFTAQGLSPTIRHRTRHFELARSLVAQGLGYSLFIQLPRNPSSYE
+GLPVLARALDPQPHLERVSVVWPAGRTLSAKALRFIELAQQNVTSYAPDPLYPSHS
+>tr|A0A0P7GW39|A0A0P7GW39_9MICC
+MDPARGDDAVIRDAAVVFESERISWLGSAGAAPAADRMVDAGGRAMLPGWVDSHTHLVFA
+GDRSAEFAARMAGESYSAGGIAVTMEATRAAGDYDLTRMLLARRAEAAAGGTTWLETKTG
+YGLDVEQETRSARIASSVVDDVTYLGAHLVPDGLDGDEYTDLVCGPMLAGVLPYVQWADV
+FCERGAFTEEQSRRVLNACRDAGLGLRVHGNQLGPGAGVQLAAEFGAASVDHVNYLSAQD
+IDALAGTWTGWNSSTGTGTPGTVATCLPACDLSTRQPLAPGRELLDAGVEIALATNCNPG
+TSYTSSMAFCVATAVLQMELSVPEAIRAATYGGALALRRHTGNDADGQRAVGSIAVGHRA
+DIHLLNAPSAAYLAYRPGMPLTAAVWRAGKRVPGTRAGS
+>tr|A0A0N8HXY7|A0A0N8HXY7_9MICC
+MYRSFRVTAPVLTAVAGLALVTGCTNPAPEPLETGIPSTSAGTPESVSASPTDSGTSAAS
+GNSDETITLSRDEEHRITEPNTSITVTCNGGGDIDVQTNGTSVKTTGQCEDIDIRGNDNS
+VTGENAESLDIDGNNNEANLRNVPEIDVGGTGNTVGVEETRDIDVEGENNSVTYASGDPT
+VETTGTNSISAR
+>tr|A0A0P7GW49|A0A0P7GW49_9MICC
+MNVLPTRYAVLLRGVNVGGVTMKMADLRATLEQTGLRDVRTLLASGNAVVTAAKEPTEVK
+GMVETVLRREFGYDAWVIVLTVDRLAELSAAVPYPADDPGVHAYVTFCTDSDILEELFAL
+GAAAGQEQVRLGPEAVAWTALKGATLESELSRATAKPRYKSSTTTRNLRTLDKIVAAG
+>tr|A0A0P7HM20|A0A0P7HM20_9MICC
+MRQPRILTIILAGGSGGRLGSLTDTRAKPAMPVGGSYRLIDIPLSNLHNSGLSDVWIVEQ
+YEPKSLNDHLVSGRPWDLDRTNGGLRVLPPFQGSDGEGFAEGNADALYRQVDYIREYDPD
+LILVLSADHLYRLDYRDVIATHSAAGAALTVVSHRIVHDPSEHGVLEVDGGTVTGFEYKP
+ENPRTDLIAAEIFLYDAEVLLRSLEELMERDGKLEDYGDQLLPYLVEREKVVEHRLDGYW
+RDMGTPDSYHQAHMDLLDGHGMVFDDPAWPILSATPRRLPAFVGASARVETSLLAPGCRV
+DGEVTRSVVGPDCHIEPGAEVHGCVLLDGVRVITGARLRNMVVDSGAVVGGATDLDGVKE
+DPETGIAVVTSAGALEKPSAD
+>tr|A0A0P7GDF5|A0A0P7GDF5_9MICC
+MYDWLVAYGWVLWLVLFLGFAAIETLTLDLFFAMLSVGALAAMLAAVLSAPLFLQVVVFC
+VVALLMIVLVRPAALKHLKTGTKEQRSNIERLIGEAAITLEPVGSRTGTVKIGGDTWTAR
+SGDGSLLPAGEQVAVTRIEGATAVVEPLRSGGIHSEDRGSDGGRPGHH
+>tr|A0A0P7HCP9|A0A0P7HCP9_9MICC
+MSYNVNPGAVSGVLQQVAPLLEEYGAEFAAVGEKISELATACMAEPVAAELGALTEKLIN
+PAFTNIAGRSSNAVNAVNNVLAILLESDAQMAADAREASMRAAQSAADAPPPAPEPAAHY
+GPGPQAV
+>tr|A0A0P7HN80|A0A0P7HN80_9MICC
+MPTYAYACKDCGHAFDIQQSFTDDSLTVCPECGGNLRKKFNSVGVVFKGSGFYRTDSRDA
+ASTVPAAPSKDTGAKESAAKSAPAPTPAASPAPAASAS
+>tr|A0A0P7FGX0|A0A0P7FGX0_9MICC
+MHEPVSDPLLETLVDNRYLVRSRIARGGMSTVYLATDTRLDRDVALKVLYPHLAADRGFL
+DRFEREAKSAARLSHPHVVGVLDQGVTESLSYLVMEYVPGRTLRDVLNERRVLTPRLALA
+MMDAVVDGLAAAHEAGLVHRDVKPENVLLAGSGAIKIADFGLARAVTTSTNTGTLVGTVA
+YLAPELVTGAGADARSDIYSAGIMLYEMLTGSQPFTGEVPIQVAFAHVHSSVPAPSQACP
+GLAEDLDELVLWCTSQDPEDRPVDGRALLGELRHIRTSLTDEQLDFHAPGTLEAHPEAPG
+RNERTTVIAPAPSGATEVISRGEPNGTEVLQRTDNATTVLGRTGTAAVPAYQPEEDGYGA
+DEDDGYSEPSGWAGRRQARRNFKASQKQANRDAQRPEVSLRSGRPRRRGVLLALLLALLV
+AAAAFTGWFFGAGPGALVTIPEVSNSSVEAAGSRLGEEGLRYTTNEVYDEVVAAGLVVGT
+DPAAAQQVRRFQPVTMLVSRGPELFTVPNVIQRPLESAEENLVDAGLALGTVTEEFSESV
+PAGQVISQVPAADADLRRGTPVDLTVSKGPAPVEVPDVTGKSEQEAVRLIEDAGLEATVS
+PERVNSADIPKGSVASQNPASGLVERGGTVTLTLSDGPRMVQVPSYVGKQADTARRELEA
+LGFKVEVNEILGGFFGTVRAQDPSGGSVPEGSVITLTVV
+>tr|A0A0P7FF02|A0A0P7FF02_9MICC
+MSSKQPRLLLWADMIFCDAETDQEIIKAYLNRFSRTLASIGEQSPLSDGTDMQIVIHVSR
+DKSAYLPALELSINRMDSLTRAITRIHLYDHPSGGYDAPPTSHVDKLKNPNKQPGRREAL
+FASASKYLRLDQYDALIRVSMDDDDLLHPDHFEQINLIARKVLCSTPQSVSAVGMYRQFL
+AYVRPEGVTLENVSFRRCIPGNKFFVIPRAHYETLEAYSPWGIPEFIDQEAEDLFSQRGI
+VLTLVRNNEPTFVYMRRGSNLSQDNKSAYIDNLEGRLQFQDEDELHDFVANQSNDLTYSP
+DLAPLAREFRLTVSRSPGGRAVVAANLEKMFGQDAMIAYYLVKGAERLETLWYSREEVVV
+FKDVPPGCSVRAFVRLGDEIIHRKAVRIWG
+>tr|A0A0P7FYW9|A0A0P7FYW9_9MICC
+MPAHEPRSRRGTEPSARPQYNGSRAGAYFSPRTWLLPLLVLLVLGGAGSALYIGGLGSPE
+SNLNHLPVAVVNRDQGADTPTGQENFGENLTRTMEDGFSSSDEIELRPLSWDEAQSQLRS
+GQVFAAVVVEEDFSEAAVSLVSSSLTDGDASRPQITLYTNPLASPLASQLAAEAVEPALK
+QASTSVGEQLEETARQAQGEATERQDAELTEAGVPAQVQEQLAPKIDGTSAEVLRDPIQI
+TETAFQKPPDGAALGMGAFFYSVLLMVVGLSGSVTLHFLVDSRVGVLPVELGPRYVLGPR
+LLPARWVDFLLKWGIAVVAGLPTAGLMMWVANAVGMPIPHGGWFFFSTWLSIVTVSAVTF
+ALITIFGSAGMVLSLIYVVFMGLPAATGVVPLETLPGFFAFIARGEPLYQMTIANKAILY
+YDAEASAGLQAGLIGMGIIVLIAVVLALLFSFLYDRMRGVREAAADVEKHAPRAA
+>tr|A0A0P7HG26|A0A0P7HG26_9MICC
+MAELNGAASEVDQPRIERAVREILLAIGEDPDRDGLKETPARVAKSYAEIFAGLHQSPSD
+LLATTFDLDHEEMVLVKDIPFYSTCEHHLVPFHGSAHIGYIPSHDGKVTGLSKLARLVDV
+YARRPQVQERLTTQIVDALMENLQPVGAIVVIECEHLCMSMRGVRKPGAKTVTSAVRGQL
+RETATRAEAMSLILGR
+>tr|A0A0P7GCC1|A0A0P7GCC1_9MICC
+MSKRKNVSALFLAFGLTAGMAACAPAGTTNSDSEGGDGVECNVGISMPTRSLERWINDGE
+GLKENLEARDCTVDLQYADDKTDQQISQIQNQVAGGAKILVVAAIDGETLAPVLEDAKSQ
+DVTVIAYDRLINGTDAVDYYATFDNYQVGQLQGQFIEEELGLADGEGPYNLEPFAGSPDD
+NNAKFFFSGAWDVLLPYVESGQLVVPSGKSPASNDDWTSIGILGWGSADAQAEMDNRLQS
+FYTGGDKVDVVLSPNDSLALGIEQSLASAGYTPGTDWPVITGQDGDVANIKAILGDQQSM
+TVWKDTRELGAQVDTMIEQIVNGDEVEVTDTETYDNGVKVVPTYILEPQVVVKDEVQSKL
+VDSGFVEAGDVGL
+>tr|A0A0P7GAJ8|A0A0P7GAJ8_9MICC
+MSDIFTPGQAGPAQGEIPRLQELLDAGVPAELHPWLAESGVGPLVVKLGIRFLEMTPSRI
+VATMPVEGNQQVAGILHGGAHVVLAETLGSFAASLHAGPGRYAVGIEVGATHHRSVSRGL
+VTGTATAVHLGGTVTTHEVVMTDEEGRRLSTARITNLIREVR
+>tr|A0A0P7GHJ3|A0A0P7GHJ3_9MICC
+MTRVLIAGFLHETNTFAPTPARWENFRNGEGFPGMHLGNDVLNLTSVNIPLGGFVLAADP
+AWEMLPVVWCAASPSGPVESSTFERITGMIEDACAQETPDAVYLDLHGAMVSEDYPDGDG
+EILRRVRSVVGADTPIVVSLDLHANVSDLMLETANAMVAYRTYPHVDMAETGRSAAALLR
+RMLAGEDMTMRAERINFLIPTISGSTLEGPARFVYELLDSPDHGAVLSIAMAFPAADVEE
+CQPCVFGYGVDEGQLSQAVDGIAAAIHNLEPEFRLKALPADQALDEAVRAIADGQTPVVI
+ADTQDNPGAGGDATTTGLLRQLVQRNIASSALAAMWSPEIVQAAIAAGRGETVTASFAGS
+EVDGDSPFGEIFHVEEITDGKIHFDGPMMNGNELSVGPSVLLRRGNVRIVVNSHKAQIMD
+RNQFRAAGVSPEKQQLLVVKSSVHFRADFAGMGGKIIVALAPGPFPADPAILPWRNLRPG
+LRLGPLGPAFTPMESSGQIDGPERVNERRRSSA
+>tr|A0A0P7HCR3|A0A0P7HCR3_9MICC
+MAPDVVETQVADLLEKAFDGETRGPNRPGASPLENALRGIPTRYYYDLTDAQAIMVHDVR
+RLLGSGDTSQPFQKILTAGEAAIVRAGNDKYPGSVGGFISQASDAAGLRTVDEIILGLRL
+DYMHLDRDGVAIQPINMPYRVGATEEVYAVRFSVGGGRCGQDRDPRWFPPYAGRGVAPRS
+GGGS
+>tr|A0A0P7HN98|A0A0P7HN98_9MICC
+MGKSLWDGHQYRASEQRADLLNALDEALVVVDTNVLLDLYRYVSSPREALLDALRSLGDR
+IFIPYQVSVEFWRGREGALNDSAIRRPKALEDLSAAQDSAVQVFNEWANRVALDEGTRRD
+AHGALAKAFEQVTKTIEGLVGPERAMRVVDTNSDSILGEIIDLCDGKVGLPPELPVIETR
+TKEGMRRAAAGEPPGYKDKKKEPARVVGDYLLWCEAIDTAAERGADLVLVTRDTKEDWWK
+IVGGEPVGPRVELLEEFWVKSAGKRAYFLRPSQFVSMVAEKAGQPTSETVGQLARAERSQ
+TGGAWNFATASELISALREWYPPQYEAMKYAALHSGRIPREKIYELSGYQNDRTLRGFGR
+PVNRLARSIYDPTDAMEDFPPVFDSYYDPAVSWVQAAGFEVDGDLASAMRAVLSPADNPA
+KDD
+>tr|A0A0P7GT25|A0A0P7GT25_9MICC
+MFDAGRSPAPLMSNPRADRVKEAAKLAGRPARLKTGRFLAEGPQAVREALVAHRDALAAG
+RPGVVVEAYATQACLERLPELEELAEGAALRLATDEVLAAMADTVSPQGIVAVCRIPSPT
+LQDVLGTRPKLLAVMCEVRDPGNAGTILRAADSAGADAVVLTASSVDIYNPKAVRSTVGS
+LFHLPVVTGVEFEELAEAVKEAGITVLAADGYGSEDLDALQDASSLRRLAPEAADPAAAG
+PRLENPTAWLFGNEAQGLSDTELSSADFRVAVPVYGQAESLNVGTAATVCLYASARAQNR
+>tr|A0A0P7G5G1|A0A0P7G5G1_9MICC
+MANKATVEFPAAIFDVQTNVPLLHQVVVAQLAAARQGTHKTKTRAEVSGAGRKPFKQKGT
+GRARQGSIRAPHMTGGGVVHGPTPRDYSQRTPKKMIAAALRGALSDRARNGRIHVLETLV
+AGETPSTKAAREALRSLTDRKNMLVVIERANDIAALSVRNLTDVHVIYVDQLNTYDVLVA
+DDVVFTQAAYDEFVGKNTVKEDAK
+>tr|A0A0N8HY40|A0A0N8HY40_9MICC
+MAASEGGPRPGRWRVMRSRWLWAAIAGWLAANIWTVLAAPAQLPFDWPARAGRSTVDVLI
+DVNLALLQILLLMGVVTLLTRRRPDPRLAARSPGRRRALWETFGLLGYGALGMTGGFFLA
+KAAGWHPFGLHLAGTIFGTNDAPAPAEVLAWAGYNLVVYAVIPLIYFRRRYSPLALGLKS
+TAPRNDLLVIVVVLALELAFQIYALKPGSLGLPLHQLLPGAALTFALYLAGAVLPAMVFV
+YMILIPRYLRLTGSAIATVLLGGLTYAGLHFWDAWTLFSSAETTVLSVIFVIFTYLGPGM
+FKSFLTLRTGNAWVHVWAYHAFAPHTLIDTPNIVGAFRLK
+>tr|A0A0P7H4B8|A0A0P7H4B8_9MICC
+MDSPAQPAKTLHWAGIDDPGRRDSAVVSFRESELAASGTTTCDEYCATWSLSTSPGWVTR
+RLHVEVTGNGWSRTLELTRSVDGRWDSHVTASGTVDLPGPGIEDPRSLDNAQDCDLGLCP
+LTNTMPILRLDLLNNAAPPDETRLTMAFVQMPSLRVVASEQVYSQVSPYRGERGSAIVLF
+SSDSGGFTAEITVDSDGVVLDYPGLAHRTA
+>tr|A0A0P7GIK8|A0A0P7GIK8_9MICC
+MLVPAPRGELSASLLNVLHAGPQATAAMYGQLDETAARALAADPDVLRSDDLQLTLFCLY
+ELHYSGLDGIDPDMEWQPELIRVRRVIEAAFEAALRRTVPVPRAPAPEAEAVASTLFRLA
+AEDHGPSVSRFIARHATTDQLREFLVLRSIYQLREADPHSWAIPRLPVGRAKAALVEIQA
+DEYGGGRPERMHSHLFARTMAGLDLDTRYGYYLDQAPALVLASSNAMSLFGMNRRLRGCI
+AGHLAAFEMTSSIPNSFYARGFKRAGYGPDVTFYFDEHVEADAVHEQIAARDLAGGLAES
+EPELLEDILFGASTVLTLDAMLGEEQLAAWKEGRSALREASPTGIDMQTLAADAAASGVP
+A
+>tr|A0A0P7GK48|A0A0P7GK48_9MICC
+MAHPVIYLIGTSGHPNFGDEFITAAWLKYLAERAPQADVWLDCPQPGSSSTLFAGMHPRL
+NVTDTLWRAVSESCHLPADQIGPRVRELVTNLGSPAYDLGLLKLRDARSLHLLGGGYLNG
+VWPHHFALTEAMLAVKEMTGAKLYATGHGLMPAVTEPADPKAFFRDFDYVSVRDKDSARA
+YGVPLGIDDAFLGANAEIARDTPDAEGLFVCIQSDMTDTETFEKTIASVRPIIERAISAG
+KQVSYVEAIPGIDHAAFARLADLIPGERFIPFAHIWQHGLPLSAQQEWVTTRFHFHLLAS
+AAGARGVALGIRPGYYDVKHRSLIELGSGWEYIGADENAASEPVTPAGGNLSSHLQNLNA
+RKRAEADRLYPAPPPGSQSQDRRGGSGTLLGRLGSARRR
+>tr|A0A0P7GJM3|A0A0P7GJM3_9MICC
+MKSLTALRHLPAFVAASLLVRLTAALHPRASERERGDVPGWVMITLMSAVLVAAILVVAR
+TALVDLFNSAIDQVRQ
+>tr|A0A0P7FFX8|A0A0P7FFX8_9MICC
+MAPSTRYGTLPGTVVPPPWDPWRRISSAVLAVLAGLALVAAVIAGYAGSLVSNTDRYVAT
+IGPVIQDQAVQDDLSGQISDQITSRMDISSSIQDAVAERSDTRAAQGLASVLGPRIAERT
+NTLVEQTVSKAVASQAFAAIWTDANRAAHQVLVRAVEDDPGGIASIAENGNVSISTTAMI
+AEAKSRLLAQGVGVASAIPDDAGQDYTVFSAPGLASAISALDALGRVAALLPWAAFLLAA
+GAVLLAPAGRRLRSGIIFSLSSAGAALAAVLAIRVIEQGIVNAAGGSAVSPEAAAAVSNA
+FLGPLSGALRSVLVLALLAVGVLYAAGHPSRWSGWAMRHLRICQACAAALTVLVLFLPGI
+AAGIVLGVAAVMVAAIIVLEVMARTQQTPASPAAA
+>tr|A0A0P7FGL8|A0A0P7FGL8_9MICC
+MEALDIARWQFGITTVYHFLMVPLTIGLGLVVAALQTAWVRTGKEEYLRLTKFWGKLFLI
+NFIMGVATGLVQEFQFGMAWSEYSRFVGDVFGAPLALESLLAFFTESVFLGLWIFGWNRL
+PKKLHLATIWLATGASALSAYFILAANSWMQHPVGVELVDGRAVMTDIWAVLTNNTLLVA
+FPHTITGAFAVAGGFLLGISWYHLWKRRRDGIDTVDENGRVIVGEDAAIGRDTTDHAVWI
+KALRIGAAVAVVAFAGTAITGDLQGKLMFEQQPMKMAAAEAACHNGTSFSILSVGDVGAR
+DCDDVKTLIEVPGVLSFLANGDFNTPVDGVNTLIPEYQENYGTHLPDDPMYGEQAGQEID
+YLPVMAVTYWGFRIMIGFGGVAAVAAAVALWVTRKGTVPQSKGLMRLAVFGILAPFGANS
+AGWIFTEMGRQPFVVVPNPSFTGIDNVFMFTAAAVSPGVSKAELLFSVISFTVIYLALLV
+VEVGLLAKYVRGGVPSAMPEVLPGNGHDGDGAGGPDGADSDGDGGPGKPGGRKSDDVLDF
+AY
+>tr|A0A0P7GBF3|A0A0P7GBF3_9MICC
+MARRPPSRLLRGIGAHAELDEDAFTDGAWILSIGGAQQSHVNLARPDEIFYEYLRRIGNV
+LDLAAPPGAPLRVLHLGAGALTLARYVQATRPGSDQVAVELERELLDYVLAYLPLPEGTV
+LQTVIGDARAELERFDAGSFDAVVLDVFAGADAPEHLASEEYYAELLALLSERGVLLVNV
+GDDPPLAFARAQTAALQRVFGAAGGEVAALGDSSMFTGRHPGNIVLAAVPFRWPAEWTQS
+LLQAGPHPAAVLTGADLDAFAGGR
+>tr|A0A0P7GVH9|A0A0P7GVH9_9MICC
+MSDVRQLLTSLQFADSAFPSGFYTMSHGLEGYSQARLVSRGDVQPLLADLLLHSVGPGDA
+TALAAAHRAASDGDIELVQEIDQLLFASKLNAEMRTTSVRSGHQLIDLGAELIEQPLLAE
+YGARVRSRATPGCQPVASAVIYAANGVQTRQAVASDLFAFSASFVGAALRLRLTDHRHAQ
+AVLLETAGVMEQATDAALERGLADLGGCVPLADVMSAQHEKAEARLFAS
+>tr|A0A0P7GI31|A0A0P7GI31_9MICC
+MQNEIRLAPGMIVRCEKGISSVRLRVMGASRCDCSKMGVIVQVMEDAVVDNFHYWKGHVI
+VMDRDKITVDSKTAVPSWTGAY
+>tr|A0A0P7GJ28|A0A0P7GJ28_9MICC
+MNRNLLKLTIPVGVIGIILLLVVPIPAGMLDVLIIINILLALVILLTTMFVKKPLDFSVF
+PSMLLVATLFRLGLNVASTRLVLGEGYAGQVIEAFGHVAVGGSLIIGAVIFLILVVIQFV
+VVTKGAERVAEVGARFTLDAMPGKQMAIDADLNAGLITDIQARERRAEVSAEADFYGAMD
+GASKFVKGDAIAGLIIIIINVIGGIAIGMLQRGMSAGEAINTYTLLTIGDGLVTQIPALL
+MAVSTGMIVTRSNAESDMASTASAELSQSRNALMIAGAAAIVMALIPGMPKIPFIVIGAL
+LIFASQRVKARQAAEEAAAADPVAQLTAAPAADTTEDLIEQMRVHALEVMLSPDLVDIVT
+GGSDDLLARVRALRRKIALELGIVVPPVRTRDSVDLPASTYVIRIAGVEAGRGEAPAGKV
+LALGDFLDGLPGTATVEPVFGLAGKWVPTEMRHAAEMAGATVIDRVSVLVTHLSAIITAN
+AARLLTREDVRVLTEGVKQVSPSAVDELIPGVLSLAEVQRVLQGLLAEQIPINDLPRIYE
+SLLLKAKASPDPEGLVEAARQALGPALAAQYVNSGVLRVIMIDPSLEQSMLENLRPSDQG
+TQILLDPTRIESIIGSLKSTVATVENAGHTAVLVCAPALRPAIRRLVAAQTNGLPVLSYQ
+EATAANVNIETVGVLRGTETISA
+>tr|A0A0P7FAH5|A0A0P7FAH5_9MICC
+MFPLPPNLSIREVPWSNPVGADLRRAQQAELDSRYGRPDHDPSPPTEADTAVFVIAYERS
+SGQPLGCGGLRRLDPSTAEIKRIYVLPYARGSGVATAILSSLEFRARAAGYGAVTAEAGS
+AQSDGKRFYAQAGYNQVPNFGPYTDLPHSTCFAKVIEPGVRATELSASFRVEGP
+>tr|A0A0P7G089|A0A0P7G089_9MICC
+MTALQVIPVLVLWSVVGVRLLGLAFGWKPGILGAVFLVALAATLNIDPVYLAVDRYLGGW
+NLLNLIVHLLMGIGMTDLSRLLLRVTGRARRIKVLICVGAVLAAAQMVLLLISNTQGSAA
+SFTDTFGDQPTIALYQGTFFAWFGMISGYTGVETLRRDRAGESRTFRIGFDLLSAGCFVG
+VAAAALKMFEISTEIRGGGENYDDALILGYRILLAAMVTGFAVGFILPTIGRIRSALRAR
+AVRRSDLDALRPIVRRLMETSEGQRSMGAASISLESRTSKTQLYRWFIFIGDIRVLDPKL
+LSQQENRTIDEIGTRIEHHHSPARNTAASGV
+>tr|A0A0N8HX46|A0A0N8HX46_9MICC
+MLAAAAVLGYRFVSEDVLGPKAKVEDYLAALASGDHSAAHSLLPAVEALVPQEEAVYREA
+GHRITGFSILGQEIRDGRAVVQAAVVQNGETKPVEFRLRDTGIRAWIFTVWQLEPTAART
+VQVDVPAGTETILINGAELALPPGTSHAEVLLLPGSYLIQGPPQRYLSYGPGQTVTVEPG
+MAGGPEGVRLRPAVTGELAPEVQLQAEAYLSDCLAGHEAAPAACPNAAYTAFGPERYRNL
+EWSLEKAPQYRIVGTPETGLAVYATGGKARAVYQEDVSGAGRWENRTDLVSISFGSELEL
+AGDTPGLNFRP
+>tr|A0A0N8HY02|A0A0N8HY02_9MICC
+MGSPQDILAFVPHCLGFGPQESLVLLGLRGSRLGATLRLDLPDASYAAEDGGSGDFGLVC
+AYTARISSLLAGDDETDGVLMVMYTDLPWQEGTPPPYSGVVELLTEDLAENGIRLRDGWL
+VGQGIWRDYFCGDSGCCPWPGNPLGDVMESRLNAELVYRGSAYASSLQDTVGGAGRFRND
+DLDAAVDSVSQRMLGLWTRPGKFGPVLEAWDRRIRSMPQPNSPGSPVRGSSGTLRADRQA
+EDDALLLASLAVKPVRDTVLVLAALGMETALEGSGLWLGGEAGPVSGRSAQAGVLFRAVL
+IGNSRLSPDWDRLDRAYGAFSELALMAGGEQAAALLTLLGWIEWARGRSSRAELYLSGAL
+GEEPGYRLAVLLRELLRRGELPKWSQSPETAWRGAPVL
+>tr|A0A0N8HY31|A0A0N8HY31_9MICC
+MIQGFIGSVMMLAGSLGVGWLSLSSFELRRVEFIMWLRFEPAGAVISVLLLALGGMLLVR
+SWLRFGQRIGDWGPHSRPYVLKAILAWGGPMCLTLPLFSRDVFAYIAQGLVMVSGLNPYK
+DGYSQISNYLQLGADDLWAQSPTPYGPIFLWLEEIVVRITGGQTEFSILLFRLIALIGVA
+MCVYYVPKLAELHGINPNRALWLTAANPLFLTNFIASIHNDALMIGLALAGLYYAATKRG
+VLGILLVTLSVGIKPITLIFLPFIGLMWAGKGASWPRKFLFWFLTAGISLGFLAILGVVN
+GLGFGWVGALSTPGSVWIWYAPVGFLGLIVATLGNSLGLPGWSFADFVHTIGRLASLAVV
+AWLMFVGDYSRLVRRLALAFAAIVMLAPMIQSWYVVWLIPLFAVTGIRNDWQVKTLYLFV
+SFFMVYAISDQLDIWPYFEFSLSAARQIAAVTAVAFALYLIFLDPKTKVLFRKKLTEPVP
+GELRIR
+>tr|A0A0P7FU35|A0A0P7FU35_9MICC
+MAQDIRKPIVVGVDGSALSLVALRTARRLADLLQCRIEAVTVWSYPVALAVPIASSEWSP
+RVEAESILDDTVQEAFGEDLPEGLQKTVVSGQPVPVLVEASNDAEMLVLGSRGRGGFAGL
+LLGSVSSAAAAHAHCPVLIVHPTERD
+>tr|A0A0P7G7S0|A0A0P7G7S0_9MICC
+MPAANATRTSRRALLGIALASYGALLVAIVFWPKPVDRGFSSQLGRFLDGIHSLGVPSWV
+DYGMVESAANVLLFFPAGLLLAAWLSLRWAWCAAAAGIVCSAAIEAGQSLLLPERFGTPQ
+DVIANGLGAALGTIVVYAFRVRRLQPATHTEHPVRPAKH
+>tr|A0A0P7HCU3|A0A0P7HCU3_9MICC
+MEKRILDYPDWQDTADTLHLFLQMAGKVKIEHSDKQPGWGHVRMPLTIDGIGTGIIPGNG
+SSFEIYFNLRQHHVDVQNTDGGKSRIPLSDGLSVAEFYSQLMGALDYIGMPTEINTTPQE
+FYDETPFDQDTKHHSWDREAVAIYLENLHFAYRSLSRFLAPFRGKRDMPEFWFGTMDLSG
+SVFAGQAAPYSGTDVIGVNCFDEKFMEFGFWPGDVKTSKPSFFGMPYPFMASIDSYSSML
+KPDRAQFQARQNEFILTLEDAFSYPDPEQAVVDMCRTSFEIVQRIDRWADLDWITEPLGY
+PVSSA
+>tr|A0A0P7GBP7|A0A0P7GBP7_9MICC
+MPDNSAASPTESTGNPSSASGRPAPEVFAGFMAMASGAVDATKTGGWIHEDGSPWDPEAP
+DLVFYPHRCPESKGGPNARDLQLALEGPAPADPRAARDQMRDYLVASGFTLTSMIDPSEG
+DESDMPYSVGAKGQEGELIVYSASPVLAFLTLESECSDHPSLEHEVSAATR
+>tr|A0A0P7FYT8|A0A0P7FYT8_9MICC
+MSATLVARSLSGGYAHRVLFSDLSLTVAPGDVIGIVGANGAGKSTLFQLLAGAGVPFEGT
+VERHPTDAFVGWMPQEHERVEGETIAEYVARRTGAAAATAAMEAAAEGLESESVQAQDEY
+ASALDTWLASGAADLDERMPAVLADLGLDVGTEALMTGLSGGQAARVALAALLLSRFDIV
+LLDEPTNDLDLDGLAKLEEFVRGLRGGVVLVSHDREFLARCVTRIVELDLAQNQVAVYDG
+GYDAFLEERAVARRHAREAYDEFAGRKAELVSKARTTREWSSQGVRNAMRKSPDNDKIRR
+RASMESSEKQAQKVRQMESRIARLDEVEEPRKEWQLQFSIAAAPRSGSVAAVLNEAAVSR
+GSFRFGPVSLQVNAGERIGITGPNGAGKSTLLALLRGTLSPDEGTVSLGSSVALGEIDQL
+RTQLAAREPLAAAFESCVPEMNAGEVRTLLAKFGLKADQSGTAVGALSPGERTRAALALL
+QARGVNLLILDEPTNHLDLPAIEQLEEALESYTGTLLLVTHDRRMLQNVRLDRMWNVSNG
+TVTEK
+>tr|A0A0N8HZ06|A0A0N8HZ06_9MICC
+MGKREDRKAATRRDIQLATLDLLETAGMDATTVARIAEQAGISERTFFRYYDSKEAAAVP
+GQGELLGSLLARELQSSWSPARILRELMDASRQQFAYEVEQSEFKRISRLLLREPRLLQA
+VSRQEMHLVTVLSKSLQERGLLETMQAQVLAELVACTWRIAWQCFAREESAGRASDPAAL
+FEQAVASLAEATAPAAFGK
+>tr|A0A0P7G8Z8|A0A0P7G8Z8_9MICC
+MKLLLTSGGVTNPSIESALVSLLGKSIAESHVLVIPTAQWGHPACGPASVGRLVAAGPGS
+PHLTGLGWASLGVLELTALPSIGVERWVRWVRKTDVLLVDGGDATYLNHWMHASGLADLL
+PSLPDTVWVGVSAGSMVLTPRIGDYFVEWPAAANDRTLGVVDFSIFPHLNAFPTNTPADA
+ERWAADLGVPSYAIDEQTAIQVLDGTVEVVSEGLWKKFESG
+>tr|A0A0P7GDJ4|A0A0P7GDJ4_9MICC
+MRDKIPSRWISASFFAWAILFAVWQPLEWWRIVAAVVMVCFGLYGFFLWWKGRSKEPQRT
+DPSLHSGTGDM
+>tr|A0A0P7GJQ0|A0A0P7GJQ0_9MICC
+MPTGPAPRDRERLRAMLEARSQARGGTAVDLYRDGGYLVLNADLPGIDPGSLSVELDGHF
+LLIRAHRSLRGLDRETRWDVREREDGMILRRVPVGSRVAADRIAPHYANGILSLHIPLAE
+SGHQRSVPVQYRGSAPEAA
+>tr|A0A0P7GIY6|A0A0P7GIY6_9MICC
+MALAAFLTSTALVMTGALLWPGAEVFQLIASVFLGPLALTFAVLVLWFRSGGISAPAALI
+TAVLTIPALALAALALASWSAGFAVADAGGVFTWFEALSLPLGGAAWIAGTAALIPPVSC
+LLRLRSDYARTAKIVLLAAVAALALGLLYVTVLPAGPLAAAAVLFLALRSGQDKEGQDRE
+SQARESHGPDAHRTEGAVRGSNSQDLLHPVAARPEPVPVSRAVRTSVAGIAAATLLIGLL
+SAWFALFGSGTSLAGNSTEAMNLGLAAGALNAIPVVLALGMVLVPRFGRVLTGSAVLASA
+GLATESAAQLAGAGHPVQWPLTVAAGLLLGVALVLPFARLIPGSTAVRVCATAAAGLAAA
+FVGLNVVAAAGFIAPIVAGALLVWCFARPSQSPAVLQGA
+>tr|A0A0P7GJY7|A0A0P7GJY7_9MICC
+MGRSEWLTARGWQQAYDAGVRTVVDLRNSSEIGRRDTDPVVPPSAVTGIRFLNLPTQEAD
+DPDFTALTGPYMSSPRFYPENLRRWPEKFAAIARAVADAPPGGVVLHCSAGRDRTGLVAA
+LLLDLAGVAPGEIAADYREALTGINDWHRTQQRPRERPLDDSELAARAGSAEAELLDMLR
+NFDAAAYLRRAGAGEGTLARLRSRLLQEDF
+>tr|A0A0P7GWG5|A0A0P7GWG5_9MICC
+MATDQPPNDSSAEQNGGEHTPAPQAHGASATPPPPPYGKPPGEYDPQQPGYQEAPQGYQQ
+APQPGYQQAPHGYQQPPQGYHQPQAPGPYQQVPPPGAYPQGYPQGAAGPYYGFPEPKSRL
+AAGLLGIFLGGLGIHRFYLGYTTLGVVQLLVTFFTFGFGAIWGFVEGIMILAGAQSFRTD
+SRGVPLRE
+>tr|A0A0P7HFZ5|A0A0P7HFZ5_9MICC
+MPTAIDAVAEAFTENLLSLDPSFATSLGIPGHETEYADYSPAGLESMAEAMRETLERLED
+LQPADDVDRVTLDAMRERLGLALEIHASGWDLADLNNIASPAQDIRAIFDLMPTDTVEAW
+EHICGRLHNVPDAVAGYITSLRSGAEQDRIAARRQVKIVMEQATKYAEDGGFFDAYTSGA
+KLPDGSALPEQLQAALKENSDGARAAYRSLVNFLETELLPAAPEKDAVGAERYALFSRQF
+LGSAVDLEETYAWGVAELDRIIAEQEKVANQIKEGASVREAMELLDADPERQLHGTAELQ
+AWMQELSDRAVAELSETHFEITGPMRRLECMIAPTNEGGIYYTGPSEDFSRPGRMWWSVP
+EGEDTFTTWKETTTVYHEGVPGHHLQIATATAARETLNSWRRNVCWVSGHGEGWALYAER
+LMEELGYLSDPGDRMGMLDAQRMRAARVVFDIGVHLELEIPERWGTGTWTPEKGYDFLKQ
+NIAISEGQLNFEFTRYLGWPGQAPAYKLGQRLWEQIRDEVRSREGDAYDARTFHTRALRL
+GSVGLDTLRRALLEN
+>tr|A0A0P7HKC6|A0A0P7HKC6_9MICC
+MGVVTLSADARTDQPFPSLRTIDLRGKVHTPAQLKTLMPRAETTTDVASDTVAAIISDVR
+TRGFAALAELAEKFDGVHQTHPLVPRDALVSALENLDPAVREGLEESIRRARVFAQAQRP
+SDVEVAIADGATVTHRWVPVNRVGLYVPGGLAVYPSSVVMNVVPAQAAGVASLALASPPQ
+KEFGGLPHPTILAAAELLGIEEVYAVGGAQAIAAFAYGIPAAEAGPALEPVDVVTGPGNV
+FVATAKRLVKGVVGIDAEAGPTEIAVLADASAEPKLVAADLISQAEHDPNAASVLVTDSE
+ELARAVRAELDSQVSATKHTERVRTALSGAQSAVVLVDGLDAGIAVCNAYGAEHLEIQTA
+NARDTAGRITSAGAIFVGNYSPVSLGDYCSGSNHVLPTAGTAAFSSGLNVTTFMRAIQVI
+DYSRDALDEVSRHVVALSRAEDLPAHGDAVSIRFAG
+>tr|A0A0P7FHY6|A0A0P7FHY6_9MICC
+MLVFLWVAEIVLALLYFGLGVMRLVQSYTKLVRVLRWPADFPAWAVKLIGVAEILGALGL
+ILPAASDVAPILTPIAASALALMMAGAVAVHVRRGERHRVALPAILLAMNVFIAIGRFGP
+YPG
+>tr|A0A0P7FGK6|A0A0P7FGK6_9MICC
+MSPLLSAERRSLDASMERAGFYPTLLADVVHDALDGREPLSHLIHLETHFDRTEVHRHIT
+VLVLTEDMLVITHVDDQQLDEAGEQMMAQVSTESVPVTQIRSVVLGYMYSQPQNYKPSDQ
+ARELTLAIAWSGGQRLDMGPAGCADPQCEADHGYTGTIAQEDIVLRVSAEADGIQAVQNA
+KAFARALRKVNTDTMNVRAVDPALDRQRMPGIGSRFNRGHHQR
+>tr|A0A0P7GC10|A0A0P7GC10_9MICC
+MLTDQELPNAGYLKVVQRKTAEKSSDRATIACVIPAYNEEDTIVDVLNALLKQTRLPDVI
+HVVINNTDDETFYLAREFAGPHEHTYQDLTFQTEVFVHDIGVNTDKKVGALNYGFSQVCD
+DYDYFLGVDGDTILDKHAVEHLEKEILSDPRVGGVSAIYTVAETKKGMIAKYLTTGQRAQ
+FAAFNMDNLLRGRNMAVLGGQCSILSMDALKNVMVDNRQATPWVKDSEVEDSLLSLQIKS
+IGYATKISARARASVGGMETLRALDGQQVKWNYGAIDLMWPGQRSNTPGQPLHPNLRLRW
+SENVSMLFNIVTRMGFILLLAASLSIGAYVFYWFWLIPPLVAVLLNFRIALSLKDRSARD
+IAFALLAVPAELYLWLRIGHFVRAWAKFFSKQQTDNWAAQARAERGAGYGFLMPALVALV
+IIAGLTFAWLNLPGGVQSAVLAIGWPILYITTLVQTLFMLRKALRRHRGFKV
+>tr|A0A0P7GD13|A0A0P7GD13_9MICC
+MLYSSTTPEQKRIAMREGLASGTLQQYPGAFNPLSARLIQEKGFNGVYISGAVLANDLGL
+PDIGLTTLTEVAARAGQIARMTDLPAIVDADTGFGEPMNVARTIQELENAGLAGCHIEDQ
+FNPKRCGHLDGKNVVDLETATKRIRAAADSRRDPNFLIMARTDIRAVDGLEAAQDRARAL
+VDAGADAIFPEAMKTVEEFAAIRAAVDVPILANMTEFGKSELFTYDQLAGAGVNMVIYPV
+TLLRSAMGAAERTLEAIKADGTQAAAVPSMLTRARLYDLVDYEAYNRFDTSVFNFQVPGT
+SGTPATA
+>tr|A0A0N8HZ68|A0A0N8HZ68_9MICC
+MSILTSASVDPASSESALGGVAQWAVDIMEAIGAPGAGLAIALENLFPPLPSEVILPLAG
+FAASQGNFSLVEALIWTTLGSLLGAWALYGLGAWLGRDRMRAIVAKVPLVDIEDVDKVEA
+WFNRHGYKAVFFGRMIPIFRSLISIPAGIEKMPMLKFLGLTFAGSLIWNSIFVFSGYFLG
+ESWHIVEEYAGIFQKIVIAAVLVGGIWYLTTKIRSYRRRKAQRAAEES
+>tr|A0A0P7HV91|A0A0P7HV91_9MICC
+MTSAGHLIVRQLEAHGVPRIYTVPGESFLDVLDGLHDSPIETVVCRHEGGAGFMALAESR
+LTGTPGIAMVTRGPGAANAMIAVHTAWQDATALVLFVGLVPVGDRGRDAFQEFSLEGWFS
+TTAKRVLVLEDELRAAEVVADAMRIASAGRPGPVIVGLPEDVLVRTASAGTVPPRQQSAA
+DPGAPAMQEFTERLSAAGRPLMIVGGDGWAARDSHELARWAAAARIPVAGDWRAYDAVSH
+QSPAFAGWLGYGRADTLAQRLDEADLLVYVGCARTDVPSDGYTRGMETPTVLVLPDPEAS
+GHAGRIDQHIAVQPASFAAALPDPDAVSGERDRTWVKALAADQQRFCAPRVPDIQKDAGT
+GVDLAAAFALLDQRLPQDRVVTYGAGNATIWGHRYLAHSGPGTLVGPRNGAMGLAVPAAV
+AASLVHPSRCVVAVCGDGDFLMNAQELAVAAAHGAAPLVIVVDNGIYGTIVAHQQKHYPG
+RPSGTAIPNPDFAGWIANFGGHGERVEKTSEFGPALDRAMESGRLALIHLVVDPKLMPPE
+ASNSEQTASAGGPA
+>tr|A0A0P7GTJ8|A0A0P7GTJ8_9MICC
+MFAAFKVVRQLHEMLWYLTEASSRTFDPDTAHVVDSIRMEIEEVTADARGVLSVDLSDMH
+ARVRAVLMEVSEEVRSAYLATGDDHLDGTLVPGADLMGMQMKGASLCGADLRGAYLIAAD
+LRGCNLSGTDVLGADFRDARLEGADLSQTLYLTQAQLNSASGNAQTLLPVELVRPSHWLS
+RRDPGCVPLSRAKASP
+>tr|A0A0P7GLW1|A0A0P7GLW1_9MICC
+MRSIAKTLMGAAAIGLVLSGCAGDSSGGDGDTQTLRIAYKKADPVLEQLMQNTKEQFEAA
+NDGVTVELAPIEGNDEDYATKLALSQRSPDTAPDVFVEDSFKLRADVDAGYVLQLDDYLA
+DWEDWDTFNETAKQAGLGDDGGTYAVPLETDTRVIWYNQNVLGEAGIELPWQPETWDDLL
+TMARTVKAANPEVVPFSMYAGTMQSFYELLYGTEDGTLYDEDEQKWVTGSQGFTDSLAFL
+KTIYDEELAVTPAEALDPNVWQKIVGEMLPQDQMGATVEGSYAPQFWQEGADYEWPEYSE
+VMATTPFPTQDGQEPGAVSMSGGWTLAVGAGTENPELAVDFVKTAMDYENSLAYTVDASK
+IAVRTDVAEAAEYQEMNPFAAEVTEVLDVSNYRPATADFAEIDTAVLTATQEVVAGGKSP
+EEAAKTYDETLLKIVGEENVVEK
+>tr|A0A0P7HD60|A0A0P7HD60_9MICC
+MPEQIPARERVLSAYEELLINEGPRGATLDAVTALAGVSKGGLLYHFKNKEALAAGLLDR
+LRVLAAADLERMRTDPEGPARFLVRTSVYVDSGLDRALIAAVRLAQANDAAASELLQQIH
+RDWFDLVLVEVGDRAIARAIMLLGDGLYYNEGLPGGWPQDENSPTSGSVEELLQVVDLLK
+AQAAAKHA
+>tr|A0A0P7GHG1|A0A0P7GHG1_9MICC
+MTPDELTVVSGEDLLDEDELTDAEDLSYPGAAEDNPDAWQDDPLINEEPLAGQPGAESDQ
+TLRDETAEERYEDGDSQIPPEEPTIGEAARDVDFGDSSVDPLEDGSDDPAHAGGDPLSSF
+SPDDEPL
+>tr|A0A0P7HDQ7|A0A0P7HDQ7_9MICC
+MSVWDDLQGQAPVVEQLRRAAAEERPTHAWLFTGPPGSGRSNAARAFAAALLCEEPDPAL
+RGCGTCHSCRTAMAGSHADVSSVTTEKVTISIEEARELVKKAQDKPSTGRWRVLIVEDAD
+RMQERSTNVLLKAIEEPPPRTIWLLCAPSPGDVLVTIRSRCRPVGLRLPPVADVAELLVR
+RDGIDPQVAQDAARSAQSHVGVAKRLATDEGARQRREKIVRLPLSLRSVSGAMKAAADLV
+ALAEAEAASSFEARDAEEKAALLASLGAPESGTLPPSMRSQVKRLEEDQVRRAKRSKNDY
+FDRALTDLLSFYRDALVLAMDSGTDLVNESLRPELEAFAGQTTPEAILGRMEEINAVRRR
+LVTTNVAPLLAIEAMAVSLL
+>tr|A0A0P7HFA0|A0A0P7HFA0_9MICC
+MALPVYALHENPEWFPPFAKAFEAEGVEVHEWLLTDGVLDLDAAPPEGIFWSRISASSHT
+RGHSLSKDYARAVLAWLEAHGRRTVNGRRVLELEMSKVDQLTALRAAGIETPRTAAAIGR
+SQILAAAKEFPVPFILKHNQGGKGLGVRKFESHGELADYVASAEFEEPQDGITLVQEFIQ
+AAEPSISRVELVGGKFVYAISADTARGGFQLCPADACAIDPATGTPIMPPGASIAPDPDT
+QLFSLREGFDHPIIARYEDFARRMNLEVCGIEFIEAADGRVLTYDVNTNTNYNAAVDAAA
+PVSAPRQLARYLGGLASR
+>tr|A0A0N8HXX4|A0A0N8HXX4_9MICC
+MQRQEAISPQAAELEPEIRRRAQAAARHVTPVQAANLFNGVVEAERTEAFEDLSAAEQLE
+QDLHERYPRYFEAADAVRDTEAKADLPRFRAWRREQHRLAREADSWSAGNAGRIRAAGGI
+LLAAVVLTRPFGLISADVFYTAGLAAAALLVLGTQLLKKRRSPLWNGAFADPRLASLYVW
+GYASGVAAVALIRTREPDADQWETAMRQMEAMWERRNRRSTLWAEEDYTGIRYTSA
+>tr|A0A0P7GB67|A0A0P7GB67_9MICC
+MDKDRADRLKAERAAAEAEAARAAAEAELEAQRLAAEQEAAAAEAQRQANEQAAAAAAAA
+AAAAAEAQRVAEEQARQAPAAPAPPPPAPPAYFKNCDAARAAGAAPVYAGQPGYGRHLDR
+DGDGIGCE
+>tr|A0A0P7GCV3|A0A0P7GCV3_9MICC
+MSLTRRLIAAGFTDLEKSERFLGAPELSGIDQERLFAGFVRSANPDMALQSLVRLLSRIP
+SLGELVSADQDESEALFRVLGASEALAEFVMRHPENADLFRTGLRAEPGQTPVRTLRASL
+LESVQAGSGPNPVARLTGTDAYVQLRTRYRRHLLDLAIRDLGAASPEDTMPAVGRELADL
+AGAALEAALAVSRAELAEAFDPADVSAVHLAVIGMGKCGASELNYISDVDVIYVMEAPDL
+DETLAARIGTAMAAGISRVINASAPEPGLWDVDANLRPEGKDGPLVRTLDSHLSYYQRWA
+QTWEFQALLKARAVAGDPDLGRRYEDAVAPLIWSSSERDGFVESVQAMRRRVTDHIPTHE
+ETRQIKLGKGGLRDVEFTVQLLQLVHGRIDESLRVRTTTAAIAALSEGGYIGRGDAADLD
+AAYRYLRVLEHRIQMVHMRRTHLMPESDAALRALSKSSAGALALVRPSAERLLETWQRTK
+RLVRRLHEAIFYRPLLATAANLSEAEVRLSPEAAQARLAALGYADPRGAMRHIEALTNGI
+SRRAALQRQLLPVLLGWLGDGVDPDAGLLGFRRLSESLGDSHWFLGMIRDSSAAGERLCQ
+ILSSSRFISELLEVSPESTVWLGSDKDLQPVSFDSLWQEMRAKMSRHPRPDEAVRLIRLI
+RRREMLRIALADSAGLITQEEVGRALADNDRAAVLGTLHAAENEVYAQEEQLTELLVVAM
+GRQGGREIGYGSDADVLYVHRPLPGSDPQAAQGQAERIIQMVSSLLQQPCRPAVQAERVL
+VLDAGLRPEGRQGPLVRSLDSYSGYYERWSLAWEAQALLRARPMAGDDRLGEDFLSLIDP
+IRYPETLSESDVREIRRIKARVESERLPRGADPSRQLKLGRGGLSDVEWLVQLLQLQHAR
+EYPALRTTATLPALDAISDAGFLPDPDTAMLRESWLFASRIRCANVIRGGRNPDVLPSSR
+RELEAVARWCGYAAGQGGVLEEDYLRITRRARAVFERWFYGYGLEDS
+>tr|A0A0P7GKK7|A0A0P7GKK7_9MICC
+MASDSAGNDSEHGASTGNDAEPPQAASRFMWWPIAAFLGVFTALNIILIVADAPTGMRLI
+PTGLLLAAALGAAVAVLLHRARN
+>tr|A0A0P7FIA8|A0A0P7FIA8_9MICC
+MPLANNLYPPLVVMGVQGSGKSTAGQAIAAELGMPFLDGDDLHPASNKAKMASGHPLTDE
+DREPWLRAIGRELEAGLQNGTATVVACSALKRKYRDLIRSYAPTVEFVHLEGSRELIAER
+LSRRDHEYMPPSLLDSQFETLEPLGEDEAGIRLSITLSLDEIAAGAAAAVGPAGR
+>tr|A0A0P7GDG7|A0A0P7GDG7_9MICC
+MTDKRIAWQFTALTFVIAYGFAGALIIAARFGYEVNNVVTTLPEFLANVPFSIYILSPAI
+ASYLVLRRAGKVSGPGAWLRMVFFAKGRPAAYLLVFSALGVYFSLHLLISGPSAYALPWF
+MFFLSLPGNLIIGGMEEAGWMTALQPQLYRRWGYFVSSLVVGIIWLLWHVPLFFIPGTNH
+ESGVIDYWMFAVQIMAFRFLYGAILALSPRNAVFLCILFHTMFNAASFTLGVPPTTWAGT
+VTANAAVVALAVAVVFSRRNGKRAPGRRTGS
+>tr|A0A0P7HHU0|A0A0P7HHU0_9MICC
+MAKRELPGHIAAALAAAGGPADSAGVPWAGRSLEGEGNPLHRFDKDDGQPDAGYTSAVAA
+LTAGTGSEADVVRSLATARVYVAIVATLGEEAESAHGLAADKEADLALVTLTAPDGRKAL
+PVFSSVDALARWHPEARPVAVYAPRAALSAVSEEAQLLVIDPGGDITFVVRRPAMWALAQ
+QREWVPSYEDGSLAGIVSDAAAQESAVRQVRLSAGTGVTSRTAGGTLVSGGGAGPELRIT
+LQLAPGLDAAGIQSLAAALQQRLASHPEFVERVDSLEMKITR
+>tr|A0A0N8HX29|A0A0N8HX29_9MICC
+MDNYVSSSTFWFTLAVINAGLAEQKNRSRWVWFLVSILLGPIATLLIVVWRAPEPAPPSM
+TRRGGWQEPAPEQPR
+>tr|A0A0P7FFT1|A0A0P7FFT1_9MICC
+MLLSSAGWLHDALVLFAGLWAGTINAIVGSGTLVTFPVLVALGYAPVAATISNAMGLVAG
+NIAGSWGYRRELAGLGGTLLRLLPASILGGITGAWLLLHLPEDVFGTVAPFLIVVALLFV
+VFQPKLQSWVRERAARSAEPGTVLQGPARPSWTLTVLIYLAGVYGGYFVAAQGILLVGIL
+GIFLHGTLQNANAVKNILVLGVNLVAAASYMLFAFDRIVWPVVALIAVGSLIGGFIGAAV
+GRRLHPVVLRTVIVLLGLGALWIMVF
+>tr|A0A0P7FHB5|A0A0P7FHB5_9MICC
+MVPAAGTEAAADFSVTECPGGPLLVRGEFEVQDADGAAIPKNRETVALCRCSGSRIKPWC
+DGTHKLLRGASEN
+>tr|A0A0P7G540|A0A0P7G540_9MICC
+MNTDSATRITPGNALRPEDIAASDAKAPEAVAEYALRLGDDALILAQRLGWWVARAPELE
+EDIALSNIALDLIGHARSFLTYAGTAWDKTEDDLAYWRGEEEYRSAHIVEQENGDFAKTI
+ARQLVVSFFQYELYTAMLSSKDETLAAIAAKAVKEVDYHRDHSAQWVLRLGQGTEESRTR
+MIRALELIWPYVGELFEDDDLVRSLDGIAVVPSTLRAAFDEKVGAVLAEAELEAPEVQPA
+PGGGRRGEHSEYLGYILAELQVLARQHPGATW
+>tr|A0A0P7HNU7|A0A0P7HNU7_9MICC
+MCTGIRFSDGSGNLYLARNLDWTAGYGERVVLTPTGYATRSPFGAVPRIRHAVIGMGIVE
+EDTPLYFDCGNDAGLAVAGLNFPGYADYAAEPADGAVNVAAFEFPLWVASQFASVDEVEA
+ALGQVVIVDKPINEKYPSSLLHWIIGDSTRAIVVEYTSDGMHVFQDDVDVLTNQPGFGWH
+HENLRNYLNASPDYPEKVVLNRADLVPFGSGSLMRGIPGDYYSPSRFVRAAYVHAHYPGK
+DTEEENVSRAFHTLQQVAMVEGSAAMGSGEFEKTIYTGLFSSRTNSYYWNTYEDPSVHSV
+SMADHPSGGTDLLVL
+>tr|A0A0P7GIP6|A0A0P7GIP6_9MICC
+MGQRRGGGRNSIARDVAKLLSDLDEAQREAANRIASITGSGRSYAEHDLNMRDGPLPYGF
+DDSEYLGQNGGRMDRDLPWYQDTFNFTRDTLIGIPEAGWEFVKDLGVFMAFQGADKRGVA
+WKGLYRLSENVLVFAGAH
+>tr|A0A0P7HUL0|A0A0P7HUL0_9MICC
+MQNKLQARDLVLSYADRTVVDGLSLELPAGKITVIVGANACGKSTLLRGLARLLKPASGA
+VELNGRDINAMPSREVARILGLLPQTPNAPDGITVADLVGRGRYPHQGWFRQWNAEDEAA
+VAAALEATGTLELAGRDIDELSGGQRQRVWIAMALAQQTDILLLDEPTTFLDVTHQVEVL
+DLITDLNKRAGTTVVIVLHDLNLAARYGDHLIAMKAGRIAAQGTPEEIVTEELVQDVFGL
+EAAVIPDPVSGTPMVVPVGRHHTRPPAAPAKQPPAVGYLPNPHDSRLETRNPMEAAS
+>tr|A0A0N8HY45|A0A0N8HY45_9MICC
+MPDAPATRVPAPARRARPTHTMTVLRREQLSPHLVRIVAGGAGFDTFTPSESTDAYCKIW
+FGRDGRPLDGSVSLETLREQTPREDWPVSRTYTVRWVDMARRELAMDFVVHGDAGLAGPW
+AENAQPGDVLTFGGPGGGFAPDPEADWYLFAADESALPATAAALEALPQGAVGHAFIEVD
+GPADELPLTAPAGVVVTWLYRGGAKPTGNLLIAAVDALPWHPGDVQVFAHGEREAMKGLR
+DIFFNRHKLDRSRVSLSGYWADGRTEDTFQAEKRTPIGKIL
+>tr|A0A0N8HZ25|A0A0N8HZ25_9MICC
+MPMEIPTDLTPELVPLSWLLGTWEGSGRLGEGDAESEHFSQRVTFRQNGLPYLQYTAESW
+LTDEAGTVLRPLAVETGFWALDRPLNDSDGGPGLIPADIVPALRSADEVEALRNDSGGFD
+ITATIVHPGGIAELYYGQIKGPQIQLTTDLVMRGVNSKEYTAATRIYGLVNGDLYWRWDV
+AAEGKALEAHASAILKKQA
+>tr|A0A0P7GSZ0|A0A0P7GSZ0_9MICC
+MLIRYFGAAKAAAGIEEETLDAGPLQLGELLEKLAALHPDAPEGTPVLQTVIGRSTFLVN
+EVAARNRTLLLGPGDTVDILPPFAGG
+>tr|A0A0P7HDA4|A0A0P7HDA4_9MICC
+MIESPETNPAAEPSAVPEVGVGPWEGPWPEGEQWDPELLAAGDRRNVVDEYRYWKHEAIV
+ADLDSKRHEFHVAIENWQHDLNIGSVVRTANAFLAKEVHIIGRRRWNRRGAMVTDRYQHV
+RHHPTVEEFTAWARSEGLVIIGIDNFPDSVPLETYDLPRNCVLVFGQEGPGLTPEVHQAA
+EATLSIAQFGSTRSMNASAAAAIAMHGWVRRHVFGQKVS
+>tr|A0A0P7HVX6|A0A0P7HVX6_9MICC
+MPAVSDPAAVQTEPAPTTAAPSEPAAPPEATPEATAAAKDDLESIIGILGAKMGQGLERI
+EDTQDPQVPSAVELAERVDAEQTLIEEDLADPELATPSNAAETLASAQQLHIGPASMARI
+AAREPAISLASTWMPSGLQGMDVSSHQPAVNWNRAWTQGARYAYVKATEATSYVNPLYTR
+QTSGAVSSGMLHGAYHFAIPSVSSGAAQANYFVNNGGRWSADGNTLPPLLDVEYNPYPEL
+GNTCYDMTPSQMVSWIRDFSATVAARTGRPPMIYTTTDWWKTCTGNSSAFSSQPLHIASY
+GKTAGSLPKGWGNYTLWQYSSTGPFEGDSNVYNGSLQKLRDFARGSRVSGVARLYYNSSP
+VASLSYGHTTDEFVTCDWDGDGIATPAAFRDGVWYIRTGLTGTSPVTRLVYGEKGDRPIC
+GDWNGDGFDTMGVFRNGMVYLRNSNTTGRADGTFAFGAAYDTPIVGDWNGDGYDTLGVAR
+MEGIGKRFYLTNSNIRPWVHQSFIYGNAGDTAISGDWDNDGHTTAGVQRNNVWYLTDDHA
+TLAVTSKFAFGNPDDRPLTGRWSRGAATSVGVIR
+>tr|A0A0P7GD66|A0A0P7GD66_9MICC
+MDTARFAAIIDDHIDSARAKIDTVLADIREVTAAAKDTPADDEHDPEGTTVSVERANEVS
+MLAALEASLVELLDARVRLDDGAYGICERCGEPIPEARLEIRPEARFCVACAAAARRR
+>tr|A0A0P7GW71|A0A0P7GW71_9MICC
+MGGTFDPIHHGHLVAASEVASVFDLDEVVFVPTGEPWHKSAQEVTPAEHRYLMTVIATAS
+NPRFKVSRVDIDRPGPTYTIDTLRDLRSARPDAELFFITGADAMAQILSWKDVQELWSLA
+HFVGVTRPGHELQNMGRDDVSLLEVPAMAISSTDCRARVAASEPVWYLVPDGVVQYIAKH
+NLYTPVQQQARPATTEPVA
+>tr|A0A0P7FEK1|A0A0P7FEK1_9MICC
+MNSRSRFSRRPFAALAGAAAALTLALTGCVAGEDSTGAAANDAADGGTLNIDFATYNPLS
+LVIKDQGWLEATLEDQGVEVNWVQSAGSNKANEALRAGAIDVGSTAGSAALLARSNGSPI
+KTISIYSQPEWAGLLVSPGSDITSVEDLAGKSVAATKGTDPYFFLVQALEEAGLSTSDVT
+VENLQHADGRTALENGAVDAWSGLDPIMAGAEHAGAEFLYRNLDFNTYGFLNATESFLEE
+KPELAQTVVNVYEKARAWAAENPEETAQILADVAGLDLEVARTVILERSNLDVDAAPGDA
+QRKVLEKVGPVFVETGDVANQKAIDDAVASLLDDSFVQKADPEAVKES
+>tr|A0A0P7FX34|A0A0P7FX34_9MICC
+MESTPERTAGRRILFLLTALTAFSLFVTACSNAGNEEDTANNATSSAAASTLSSDCQTGP
+EATSSSCEAAGPGTTVNADRCAAPSPTPLEGGVIEGAFGPWCEGAVATAYPTSDTGALIP
+EGAETELRITETDMDTTVEMQVQDFAASTAYTGMLHEGPCTENPGELGPQYVHPGSGDNP
+NATVTLDFTTESDGSADTTVTVPFQVPNQAKGNSIILTDQQMAVVGCVNIP
+>tr|A0A0P7G5Y5|A0A0P7G5Y5_9MICC
+MNRPLAVARMQLLNKWLYLGIPGIIIASSTLIAIAILAMVPSDGGEGTRMAFSGQAVMWY
+FLAAGVQSLSLTFPFSQAMSVSRRSFYIGTLGLFSVLALALGVLYWVLGLVEQATNGWGV
+DGNIYALPWVVESAWWVQILLYFALTILLFMFGFWFATVYRRWRTTGLVAALVGFGLLLL
+GAVGLASYTDSWASVGAWFMQLTPLALTGWLLLVGVVLAAGSYGTLRRATP
+>tr|A0A0P7GSR6|A0A0P7GSR6_9MICC
+MPPQFAGVQQRPFYVKARSVITAVSVVWLVLAVAGYGSFSGGTTSLALSLALMYGTGVAI
+LVVASALYRLVKRSAVRRTENAPQDHAAAVFVDATRFAAEELKFALAPSWSGSRPASAWP
+AAVPATAGLDSAAQQESAPAAHKPLSKPDVSRPAAKAAPVQAKTVKPGVSQQDGKAASVE
+AKANKPAAGRPQAGHPTVSKSVVNKKAAAKKKKGSKPRQIKPGTGVHHQRPAKQAESGLK
+RAA
+>tr|A0A0P7GWE3|A0A0P7GWE3_9MICC
+MESQGIPQPKLYIMTVFQAAKVYAGYGETGEGRALCERAWEFAESVPALNHDREVAVHVY
+DAGWDHRRPLDPMYLTGAFFLAVEEYGPGSAWVPYLMRELYWYFQEISDCDEFGSLKKRD
+EDRELAEDVRQVAMAALGGFPRGTSHPERCQRSDVAGYAAQFLYLAGDDLCRHALQEWLA
+GPVSGYESGTALVNFLLRLEAYGPARAAAERTLQTVEADPDSTGAEKASVLLDVAFGIAM
+APDEPGLESLPELEKQIGALAHGPFTEGQAHVLQEKLYRYVIQRLDEGGEGQPARLAMFG
+RLLFNPFTEGSTWTQGS
+>tr|A0A0P7HDC9|A0A0P7HDC9_9MICC
+MDPSAEASGRVLSADGTPIAWQRRGEGPPLVVVDPVMMDRTTSGMAGVAELLAAGHTVYT
+YDRRGKGESGDGEEYTPESEVDDLLAVVETAGGTADLLGTSSGAVLALRAASESAVISSV
+IAVEPPLTGDTDEDPDIRPELDELVAAGDRAGAVRLFQESIGVPAEIIEASDPAPFEPAA
+HTISYDLTLLLETDVRSLTGIRVPVLVLASSGSDDRLREWARETAELLPDGSFQLLEGSW
+HGLDDQTLAAAVDAFLE
+>tr|A0A0P7FPR6|A0A0P7FPR6_9MICC
+MLGSAIWPVTLENGDLILRPIRYRDRTEWNSVRSRNAQWIGPWEATNPLPGTDLPTYAGM
+VRSLNQQARQDTALPFVITERQGSLRTPPPIVGQLTVSSIIWGSARMATLGYWVDQAHAG
+RGIAPTAVAMATDHCFRVLGLHRMEINIRPENRPSLRVVQKLGFREEGLRKRYLHIAGSW
+ADHLSFAITAEEVPEGLLARLASTR
+>tr|A0A0P7HM96|A0A0P7HM96_9MICC
+MSGLAVSVLLAGAAAVLWGINGTSVPRAIRHGFAGRHPSDGGTSGDAGRGVSDPALMLDL
+MAAMLTAGRPLPAGMRALSEVAEPGLGRILARVVTALELGAGWHESWELVLRAEKSSGRG
+AAVSIPAAAELQSSLAFAATSGAPSAAVLHAQAAQLRRRKAREAERRAAALGVHLVLPLG
+LCALPSFICLTVVPLLLTLLPSF
+>tr|A0A0P7GBL1|A0A0P7GBL1_9MICC
+MKIGKLALLATLTAALAFGGLPAANAVATAPAIPPEVQNPLVPSATGEATPEGTELPDEE
+ASEAPAPETLDPAPVPAPSEAVAPVPEPHPATESETAGAEDDGYVYVPVGEGHVVPGPDT
+PLVTEEDGSIRSVVESEHEHVEPMLARGGAASMLAAPSRAGNIKVTLVRATVRGNGNLIS
+LPSARNSITSANNYWRSMSNGRLSMSIASERVHYSSTANANDDYAVMMNKIAKELKWVDN
+PYTALVVFVPTADLKSGGYGGILGGGWTVGGTAGRILMPAPSSFTNNVVTHEVGHVLGLL
+HANSLQCTNGHQDVGSGNGGRWTDGACSSREYGDTTDLMGSAQYNQPVINSYFWDAGSFG
+RGNEIADAGRAGTPRTYTLRPWGGTAANRAVKFTDPQSGDTYYIELRQPAGYDQYLQSGP
+SGNRGVKIVKADKANSWAVNSLIIPPSTRPFAGYYNGNHAWQAGQTFTTHTGTTVKINSV
+SASSASITVAAKSAEWHLRNSGASAIPFGSRSEEVLSCDWNGDGVASPASFRAGKWTVRS
+NNSSSAGTSVFYFGDTGDQPICGDWDGDGKDTPGVYRQGKVFLRNSNSSGPVDGTFYFGQ
+RGDIAITGDWDGDGCDTLGVTRPEGRSNRFYLTNSNIRPATHGTFIYGNAGDVPVAGDWN
+GDGFSSVGVHRGNRWYLSDSNLRPVAHHEFAYGNPGDRPVTGIWKRGQGTGVGIVR
+>tr|A0A0P7GNX8|A0A0P7GNX8_9MICC
+MRPTSGITLGGRFQLTDRIAIGGMGEVWKARDLVLGRIVAIKILKEEYTGDPGFLNRFRA
+EARHTALLNHEGIANVFDYGEEEGSAYLVMELVPGQPLSTIIEREKVLSPDRTLSIIGQT
+ATALAVAHRQGLVHRDVKPGNLLIMPDGRVKITDFGIARLADQVPLTATGQVMGTAQYLA
+PEQATGQQATGSSDIYALGVIGYELLAGTRPFSGESQIAIALAQVNDTPPPLPESIPAPV
+RALIMSMLAKDPADRPADAEALARAVAAIRRGDISAAQQAVPGMLLFGSGGTAATSTVTA
+PVPMPGDTSATRVVDTSPSTSALPMANAGEQTGALAASREWTDEDVDSDGDGYGNDGYGN
+DDADQPKRKKWLIPLIVILALVLAGIIAMIVVNLNSDPAGDSKPTTSPSASVSSSPTRSS
+ASPTSNSPSPTTSEPSPSTEAPEITINAAQYQGRNVNEVSQELSSLGLAVSRNPVPSDQP
+EGTVLDVNPVGPLSRGDAIAITYSSGPELVTVPGGLMDTQASAASQSIVAAGLVPNRVEQ
+PGSQPAGTVISVNPREGSSVPRGSTVTIVISSGPAPSASTPAAGETTNPDGP
+>tr|A0A0N8HZ48|A0A0N8HZ48_9MICC
+MGELMLAAAGTAAAGFIVWGADPRRRAYGILLLPGISLAAGLFAWIILQFTPVVTSPSFY
+WLSWAIPVLTGPAAAVTAALAAGARRTARDKDELERILKL
+>tr|A0A0P7FDH2|A0A0P7FDH2_9MICC
+MSTTAESAVTEEELAAGRRAYELDRKHVFHSWSAQKQITPMTITRAEGSFVWDGEGRKLL
+DFSSQLVNTNIGHQHPKVVAAIQEQAGKLCTIAPQYVNDARSEAARLVSELTPGNLDTVF
+FTNGGADAIEHAIRMARLHTGRYKVLSAYRSYHGGTALAVNVTGDPRRIPNDYGTAGTVH
+FHIPFLYRTQFHATTQEEEVQRALDHLEQLILLEGAGAFAALVLESIPGTAGIMVPPPGY
+LAGVRELTRKYGIVFIADEVMAGFGRSGKWFAVEHAEGVEPDLLTFAKGVNSGYVPLGGV
+AISDEIAATFADSAYPGGLTYSGHPLACAAAVATINAMRDEGMVENAARLGETVFGPVLA
+EMARRHASVGEVRGTGAFWAIELVKNRETREPLAPYGGSSPAMNELIGACKERGLLPFAN
+FNRIHVVPPLNITEEEARTGLAVLDEVLDIADGFTE
+>tr|A0A0P7H4E2|A0A0P7H4E2_9MICC
+MATDYDAPRKAEEDAGTASIEELQARRSDKQSAVVDVDESEAAEAFELPGADLSSEELLV
+RVVPAQEDEFTCGSCFLVRHRSQFAVEKNGTKYCKDCEG
+>tr|A0A0N8HX42|A0A0N8HX42_9MICC
+MTAIPTAKATVHTTKGDIRINLFGNHAPKTVRNFVGLATGEIEWTDPATGEKTSRPLYDG
+TIFHRIIKDFMIQGGDPLGRGTGGPGYQFDDEISPDLDFATPYKLAMANAGIQMGRGTNG
+SQFFITSVPTTWLQGKHTIFGEVADDESKAIVDALNAVPTDMRDKPTEDVVINSITVEQL
+>tr|A0A0P7GEF7|A0A0P7GEF7_9MICC
+MPNLAGILAETAARLPDQTALRINDTVISYSALNAMSAQVAGLLRARGVQRGDRVALMMP
+NIPPMASVYYGVLRYGAVVVPMNPLLKGREVAHTLSDSGAGLLFAFELMLPEAVAGAEEA
+GGVDVIPVNTGSFRQLLADSEADDGVAEVDDEDIAVILYTSGTTGRPKGAALSHNNLRSN
+AEVARNLLDTTESDVIFGGLPFFHVFGQTSALNAAVLTGASISMLPRFDAAAALEIIERD
+QVTIFQGVPTMYIAMLRHPDVASTDTSSLRGAITGGSAMPLEVLREFEEVFGNDLLEGYG
+LSETSPIVSFNLPGDTRPPGSIGKPVYGMEVRMLDGAGHDVPIGEIGEISVRGLGVMKGY
+WNNPEATAAAIPDGWFRTGDLGRFDDEGNIYIVDRKKDMILRGGYNVYPREVEEILYEHP
+AVAEAAVVGVPDELNGEEIAAVIGLKAENLPAGDEERQALAAEIQQFAKDRLAAYKYPRR
+VVFADELPKGPTGKILKRQIRDEQAAAQAAAADA
+>tr|A0A0P7GSN8|A0A0P7GSN8_9MICC
+MRLEPGEQVIVSARPHAGPLAGPVLLAVVACAAGGFVLGYLGRDSAPSELLDWAPVLGPA
+VVLLVFLVLLRFSVPAVLRWNTTRYVLTNRRMIHRRGVLRRREHDLPLASVYQLEARQGI
+LQRMQRAGTLRVDLGRGRVIDYPSVPEVHRFKSIVLATIEDLPMTVMFDGVDIEGSAVYE
+DEWSTDE
+>tr|A0A0P7HJ34|A0A0P7HJ34_9MICC
+MAQNWQPDRLGDGYRCLTLDLGEDDEGPVAATLVSYTPEPPPPPTLAAKVRERIARMRGP
+VEPAPVHAVVYIHGWADYFFQTELAAFWAERGVAFYALDLRKYGRSLRPGQSEGFITDLS
+EYDADIEAALAAATEDIRSSRGAGTPVRMSLMAHSTGGLVASLWAHRNPGRLETLILNSP
+WLELRGSSLARNAAAGLLEPLARTRPKARLKIPELDYYWRSLSNEADGEWELDPVWKPPG
+SWPIRAGWISAVLAGHAQVAKGLSIDCPVLVMTSARSTIGTTWNESMMTSDSVLDVSLMV
+QRALQLGPVVTVLRFDGALHDILLSAKPVRRLVYRGMDRWTRAYLLGAGPG
+>tr|A0A0P7GJD8|A0A0P7GJD8_9MICC
+MAEKNRPRTDGLDTPRTARTRWFPRLSPNPDAFGHATENFARFMGTPQFLLYMTVFCVVW
+LVWNTWGPEPLRFDSVALGFTLLTLMLSLQASYAAPLLLLAQNRQDDRDRVSMRQDRERA
+ERNLLDTEYLTREIAELRIALREVATRDYVRSEIRGLLEELLEANDNREDGQRRSTRRRG
+QDGTTPPSKATQGAGED
+>tr|A0A0P7HCW2|A0A0P7HCW2_9MICC
+MRHFITRRAAKALALGAVATLALAGCGGGSLSGNDSSSSPSASGSAAANGELEQIVVGVI
+GIAPSAAMQYGVDEGIFEEHGLDVELQTGQGGAAMLPAVSTGDMNFAVGNPLTVMVAKDK
+GLDMKIVTGYSNSYAEGEDINGVVARADSGITTFADLEGKTASVNAVNTQGDLTIMEAAS
+LAGADPTQIKFSEMPFPDMEAQLDLGNTDAIWIPEPFLSKALSNPDNVLVGYSNQEAVPG
+MPTMVTFTSGNYASSSPETVEKFKSAMEDLLTQAEANIDDVKAVLPAFMNMPAEVAANLK
+MEQYDAELRTEELENMGELMVKYNFVEKAPDLGAMTVD
+>tr|A0A0P7FXR9|A0A0P7FXR9_9MICC
+MRKETLWEAKKRQNPEHSAWYIERFEKMREDGTDLAGEARLVDAMLPRGARILDAGCGPG
+RVGGELARRGHDVVGVDVDPELIAAAKKDFPDLPWFTMDLTELDLPAQGISEPFDLIVSA
+GNVMAFLAPGTAPDALEHMKQHLAPNGRIVVGFGAGRGYDFGTFFEDASSVGLTVQQKFS
+TWDLRPFDVESDFLVAVLGRR
+>tr|A0A0P7HH12|A0A0P7HH12_9MICC
+MPHNHTILEMRSITKEFPGVKALSEVSITVKAGEIHAICGENGAGKSTLMKVLSGVYPYG
+TYTGEIIYQGEEVQFKDIRSSEAAGIVIIHQELALIPELSIAENIFLGNEPRRFGIIDWD
+KANLEASELMARVGLDEDPTTPIKDIGVGKQQLVEIAKALSKRVKLLILDEPTAALNETD
+SQHLLDLMAGLRSKGISCIMISHKLNEIEQIADSITIIRDGKSIETIDVAADGADEDRII
+KGMVGRSLESRFPDHTPSIGEVFFEVRDWTVGHPTVADRRVCKGSNFHVRRGEIVGFAGL
+MGAGRTELARSLFGRSYGNFISGQIIKDGKEIVLKTVPQAINHGLAYVTEDRKTLGLNLL
+DDIKATTVASNLKKITRGVVVDKDEEYRYAEEYRRSLRTKAPTVDEGVSKLSGGNQQKVV
+LAKWMFTDPDLLILDEPTRGIDVGAKYEIYGIIQQLANQGKGVIVISSELPELLGLSDRI
+YTIFEGAITGEVAKAEASQENLMRLMTSAGKQTSDYATQGPLS
+>tr|A0A0P7HWD9|A0A0P7HWD9_9MICC
+MQEFLDAIDPLRPLIAVAIAVAAALIAARIVRGSATRIFRKVPHIRDVTALGRNPLRLVL
+ALIGTRIALGATVRGEPWHETVDYILVIGLIAAIGWLAVVALLIVEAVILTKYSTDTKDN
+RRLRRLKTQVILGRRVAVALVITVAVACVLLTIDEVRALGAGLLASAGLLSIVAGLAVQS
+TLGNVFAGLQLAFTDAIRVDDVVVVEGQWGTIEEITMTYVVVHIWDDRRLILPSTYFTST
+PFENWTRKQSAILGTVELDLDWETPVGELRTELKRILADTDLWDGRTGVLQVTDAIQGLI
+RVRILVSAPDSGTLFDLRCLVRESMVSFLQENHPKALPRQRFERLGESYAAVRPRSRETV
+RRPAGGDPEDTSTSQLFTGSIDAVQRNRAFAGPGNDAWEDRDENVDR
+>tr|A0A0P7G4Z7|A0A0P7G4Z7_9MICC
+MNGLTDDLLETWVTGWAKARGYQTRHEGRFPAAFLHDKTNDWEYFALEPSHDEFAALASS
+ARQGAGRLFTIVTSRVADLYGAANVYGLSVRSTDEVFMVLPMEGQDIEDPIPPDSYTAQT
+FRSGTGGRVEVSFGEIPAARGHVAVVDGFAVYDQIATEPDFRRQGLGSYVMRALTALALE
+HDAETGLLISPATGLELYRYLGWESLASVMMFEPRL
+>tr|A0A0P7G3U1|A0A0P7G3U1_9MICC
+MTTMQVETARRPRRAVEDRGSTSMSRKVLEKIASQVARDETDAGGTTGGFLGIGSRADFS
+ARPEASVELAGNIASLRVTVGLPYPVPLRQATHELRERIAGRVTELTGVQVRQVDITVAW
+LRPRPASSGRRNLL
+>tr|A0A0P7G8C4|A0A0P7G8C4_9MICC
+MPKKDTAAEVLDLLETAIAAMGGQQRPGQQQMAREVAESIESGKHLLVQAGTGTGKSLAY
+LVPLIHHALQSSKPALVSTATLALQAQIVGRDVPRLLTALKPKLPRDVDVALLKGRSNYV
+CVHKTGGGFPDDDDPGALFSLSEEKAVPHPAPAPGATSALGREVVRLREWAEETETGDRD
+ELLPGVSDRAWRQVSVTAMECLGAQRCPVAEHCFSEQARAKAALADLVITNHAMLAISAF
+EGLAVLPDYDVVVIDEAHELQDRVTGAVTGQLSGTVISAAVTAARKHTSASVEELAAAGR
+AFDLSVEGIPAGLLPSGLNEEQQLAVARVREACRVALSDSKPEGGDAGDGGRQMARSRLL
+AVLELCERVLEAPESGEVLWSSRPSTFSPGEGYSPPDESAPATLNVAPISVAGRLRDGLF
+DGHTVVLTSATLAIGSEFGPVAGGLGLSGAGAPAWTGTDVGSPFDYPRQGVLYVARDLPK
+PDRGTSPAQLAELEALLKASGGAALGLFSSRRAAEDAAAALRDKVDFPILCQGESSMSAL
+VKQFAEEDSTCLFGTMSLWQGVDVPGDACRLVVIDRIPFPRPDDPLMTARTRAVAKAGGN
+GFMTVSATHAAVRLAQGAGRLIRAAGDRGMVAVLDSRLATARYGGFLRAALPPFWSTTDR
+TVALGILERLNTGQRADA
+>tr|A0A0P7HIW2|A0A0P7HIW2_9MICC
+MCRDGLVSWVFGQTYVRWDVTPGPLARGLAAHHSLPEQVRGRYVFGRLTAAWIYGCAPAP
+QRLALLADHRRRSTALPAFSGAGLHEVALGPSDRLALGPAWVTRPLRTALDVALHTPVEV
+AAPVLLAMSRDKSLNCPTTYVRTLLQSGHRVPGTRRALQAVASAETAAGQAEPAAAG
+>tr|A0A0P7HUZ9|A0A0P7HUZ9_9MICC
+METGTDAAVRSSRAEQEYNKRWLIGVTAGPLAAGLLAGAWMFSVAGNLPDPLASHWGPDG
+VDGYMSLPGNAAIAVFVCGGSGALVAGLAIAARATSRAVARIGVGFGLAMGIAMTGLAVA
+VVAGQIGLDDASQASASAPVIWTSVLVAALTGAVLGWLYRPGEVERLQSPETREQSNAAS
+GPLLSATARAAAAAQQSLAVNVSMGPVKWLLSMGIGAVVTLSLVFILPPLGLLGIPAAAL
+MLAFCQGKIVIDPDGVRVLAGGFWKLMPLSYEEIRGESVEDIIAMDFGGWGYRLTGGSVG
+FIMRSGPALVLTAGFKQRFVFSMPDAETAARACALVSAYRTGSGDDFHPPAV
+>tr|A0A0N8HY53|A0A0N8HY53_9MICC
+MNNGYTDGAGAADLHELAALYAVDALEPAERAAFEKHLARCPQCREEVAGYAEASEHLAS
+AAATEPPAELRASVLSAIHGIRPGTDSRLKAVPAEEPAAPPGNRVSSLQERRQRRNRRLL
+AAAAAAVLIPGIAVAGWSLGAEQERQQQEQAAAQEQQRENRLLTAADVTAESVDVNGEPA
+TLVYSREQDSALFVASGLPDPGTGKEYQLWLLDDGAALPDVRFSGGAVRTWLTGDLVPAG
+GAALTIEPEGGSATPTFPLIAAVEFPES
+>tr|A0A0P7HDZ4|A0A0P7HDZ4_9MICC
+MARKVVITGLGATTPIGGDVPTMWKNALKGVSGARTLEDDWVEKYSLPVTFAARVSTPAT
+DVLSRVEAKRMDPSTQFAVVASREAWADSGLAETDVDHDRLAVSFATGIGGVWTLLDAWD
+TLREKGPRRVLPMTVPMLMPNGPAAAVSLDLGARAGAHTPVSACASGTESLHQGLELIRS
+GKADVVVCGGAEAAIHPMPLASFASMQALSRRNDDPERASRPYDKDRDGFVMGEGAGAIV
+LEAEEHAVARGARIYAELAGTAVTADAYHITAPDPEGLGATRALKAALYDARAQAEDVVH
+VNAHATSTPVGDKPEYTALKTALGAHVDNVAVSATKSQTGHLLGASGAVEAVMTAMAVYT
+RQAPATINLDNQDPEIPLDVVTSARNLPSGDIVALNNSFGFGGHNAVVALRSH
+>tr|A0A0P7FE81|A0A0P7FE81_9MICC
+MKAGAAVVALGGLVVLGTAGAAAGDEDLRATAGIQLASIALPLFAEDRASEPTPSAVPDS
+AESDASPAPESTPAAEGGEEEAKQDAAAADAADAAAADVVAAEEAAQAAAARQAEEAAAS
+AAAEQAQAAERAAAEEAARIAAASVPVDDPAGAKAYASSVLGSHGWDASQMTCLDTLWNK
+ESEWLTSATNASSGAYGIPQALPGIKLATAGGDWQTSYRTQIDWGLTYIESRYGSPCSAL
+NFHYANNWY
+>tr|A0A0P7GAB6|A0A0P7GAB6_9MICC
+MSIDQDIDLQTTAGKIADFRRRQAQARVPSGEAAVEKQHARGKHTARERIDLLLDEGSFV
+EFDALAVHRSTAFGMEKKKPLGDGLVSGYGTVDGRPVAVYSQDFTVYGGSLSQVNGEKIV
+KVQEFALRNGCPVVGILDGGGARIQEGVASLAMFADIFRNNVHASGVVPQISLIMGPSAG
+GAAYSPALTDYVVMVDKTSHMFITGPDVIKTVTGEDVDMETLGGARQHNATTGTSTYLAT
+DEEDAVDFVRELLDFLPSNNLAEAPLAPFDQDEETNDGDLALDALIPDSANQPYDMRTVI
+EQVVDDAHFLEMQALYAPNVIIGYGRLEGHTVGVVANQPLQFAGTLDIAASEKAARFVRH
+CDAFNIPILTFVDVPGFLPGKDQEFQGIIRRGAKLLYAYAEATVPKLTVITRKAYGGAYI
+VMGSKKLGADLNLAWPTAQIGVMGAQGAVNILYRSQLAAAAADGRDVEEARQDYITAYEE
+ELLNPYQSAELGYVDAVIAPSETRLQLIRGLRVMREKRATLPHKKHGNIPL
+>tr|A0A0P7GIB7|A0A0P7GIB7_9MICC
+MKARRKSSVRNALREHGIAGAWGFAEATFFFVVPDVWTSWVGLRRPKRAVGTTFSALGGA
+MAGGAVTYCWGRKVAAETSRKALAKVPAVTDAMIGDVEQEMAESGAASLLRGPTRGVPYK
+LYARAAGLQRTSLVAFLAWSVPGRMIRFLAVTAAVSGIAALGRHWFPGMSERRISTVFWL
+CWAAFYAVFIPLKSRRGSA
+>tr|A0A0N8HY44|A0A0N8HY44_9MICC
+MKVRTTGTTAFGRRTFTLGAVSVTAALVLSACGGGSDTGEGAESSDLASAGATTLTMWVD
+AERSPALTEVTEKFKEDTGIEVKLVTKDFQQVSDDFITQVPTGKGPDLIVGPHDWLGKFV
+QNGVVAPIELGDKAGQFQESAIKAMTYEGNTYGVPYSIENIGLLRNTDLVSEPAATMDEV
+IANGKAAVADGKAEFPFLVQMDPKQGDPYHLYPLQTSMGVPVFGTDETGSYDASKLELGN
+PGGVEFAEKLVAWGDSGERIFNSSITPDIAKEKFNAGASPYLLTGPWNVPDAVAAGINLA
+VDPLPTAGDAPAQPFVGVNGFFISSKSQNALAANEFALNYLTTEAVQDSMFEAGGRPPAL
+TASFDKAAADPIVAAFGEIGANGVPMPAIPEMEAVWADWGGTQLALIKGEADPATAWPAM
+VSNIESKISK
+>tr|A0A0P7GAZ9|A0A0P7GAZ9_9MICC
+MSQTEKDGSTPVLSARGLHKRFGSVEVLKGIDLEIPRGQVVALIGPSGSGKTTVLRCLNG
+LEVPDSGTVRFDGGETVDFGAKPPRSAVSGLREHSAMVFQHYNLFPHRTVLENVIEGPVR
+VQRRPKAEASADAMDLLSRVGLEDKAGAYPNELSGGQQQRVGIVRALALKPRLLLFDEPT
+SALDPELVGEVLETIRELASEGWTMLLVTHELRFARDVADQVVFMDGGVVVESGPPSEVL
+AAPRQERTLAFVQRLLNH
+>tr|A0A0P7HDC4|A0A0P7HDC4_9MICC
+MTYASLPLHARPAAHSPVRPTGVGRVFVAAGELLIRLGERAAQRPQPDVFRLAAHAELRR
+DLEGRAHSALWP
+>tr|A0A0P7H8J1|A0A0P7H8J1_9MICC
+MASTAVTGMYRKTMNAGIVLGIAGLVFALSTNLFLQNFGALNYNGENGLFVAVTQLYLLA
+PEACLCFSAALIAAALVMRHLDNARAESASGLR
+>tr|A0A0P7HCE7|A0A0P7HCE7_9MICC
+MTSNSAEYRIEHDTMGEVRVPVNALYRAQTQRAVENFPISGKPLDDAHIEALARIKKAAA
+TANAELGVLDDERAKAIAAAADEVAAGKHNGQFPIDVFQTGSGTSSNMNTNEVLAELATR
+ALKAAGSETSVHPNDHVNASQSSNDVFPTSVHVAATSALINNLIPALEHLAASLERKAEE
+FKDVVKSGRTHLMDATPVTLGQEFGGYAAQVRYGIERIQASLPRVAEVPLGGTAVGTGIN
+TPAGFPQRVIELLAADTGLPLTEARDHFESQANRDALVEVSGMLRTIAVSFSKIANDLRW
+MGSGPNTGLGEIAIPDLQPGSSIMPGKVNPVISEAVMQVAAQVVGNDAAIAWAGTFGYFE
+LNVGIPVIASNLLESIRLLANSSVIMADKMIDGIEANVERARYLAEASPSIVTPLNKYIG
+YENAAKIAKFAVKEGKTIRQAVVELGFVERGEVTEEQLDAALDVLSMTKPPQA
+>tr|A0A0P7GAP7|A0A0P7GAP7_9MICC
+MKDEASAPVVPAESILETIDRLCAVVPDYPTPGVIFRDLTPVFADGPALRGMVDALLAGF
+EGTFDYVAGVEARGFLLAAAAAYASGHGVITVRKPGKLPRPTYNETYSMEYGTNSLEVHI
+GDIPAGSRVLVLDDVLATGGTLGATARLIERAGSTVAGIGVVLELDGLGGRENLAGYKVL
+SLRTY
+>tr|A0A0P7GBI9|A0A0P7GBI9_9MICC
+MRTDLLKPAAALLLSAGLLSTAITGCTGQPAPQSVTVPGSPATPSASSEPELALRMELDR
+YAAETGADFSVAIYEYGSNRAWSYQPDGRYLEASLVKVPILLTLLRQATEEDRELTAEEM
+ELAELMICQSDNAATDELYARTGGAGELQRTYGLLGVSGTEASEVWGANETTVEDQLRIT
+TAVARGVDWISAGLQDYAVQLLESVVPEQAWGISAGILDPLAQVGLKNGWLQDDFLAWNV
+SSSGFVVGAGSEYSIVVLTAGTETLDQGITVLEGAAAIVNRWELGAGG
+>tr|A0A0P7FE06|A0A0P7FE06_9MICC
+MTLPQVFRTAGYTDVDLARWVTEPAKSTHRTQFGRDRARVLHSSALRRLGAKTQVVAPDT
+DDFVRTRLTHSLEVAQVGRELGNALGCDPDVVDAACLSHDLGHPPFGHNGETALNDIAHA
+IGGFEGNAQTLRLLTRLEPKIIAPDGSPAGLNLTRASLDASCKYPWSAVDAPLVNGHRTT
+KFGVYEDDLPVFTWLRDGAPPGRSCLEAQVMDLADDISYSVHDVEDAIVAGHVQLKWLDN
+PDQRARVIGYTQQWYVPTAGTAAVDAALARLEAEAVWVREADGSRRAMAALKDMTSQLIG
+RFCSSALNATRDIYGPDPLTRYNAEMVVPEETQLEIAVMKGLATTFVMTTDQRQPLYERQ
+REVLTNLVAQLSATGDRHLEPMFAADWREAPDDGARLRVVIDQVASLTDGSALALHERLV
+GPVPALW
+>tr|A0A0P7GJJ8|A0A0P7GJJ8_9MICC
+MRVTLRPWRPDDAASLLAAVQATPDLDTQMNRSAVHGLEAAEEYIHSALAWDPDAGTCSF
+AIDVDGRAAGNAGLSHMDYRHRTAWLSYWIASDSRGLGLAGRAAAGAAGWAIQELNLFRI
+ELGHRVNNPASCAVAKRAGFLPEGIERSKLEYGGLRFDVETHARLATDPVPALDLPTTKL
+>tr|A0A0P7G5E6|A0A0P7G5E6_9MICC
+MSNDSTFGLMRIGLATADEIRNWSYGEVKKPETINYRTLKPEKDGLFCEKIFGPSRDWEC
+YCGKYKRVRFKGIICERCGVEVTRAKVRRERMGHIELAAPVTHIWYFKGVPSRLGYLLDL
+APKDLEKVIYFAAYMITSVDEENRHAELPNLQAEHDLERKHLVDQRDSDIAAIAKDLEGE
+LARLEGEGAKAADKKKARDSADRQMAKVRRDADNNIERLEQVWERFKNLKVGDLEGDEGL
+YRELRDRYGLYFEGSMGAEAIKKRLEDFDMQQESENLREIIQNGKGQRKTRALKRLKVVN
+AFLTTSNSPMGMVLDAVPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDL
+GAPEIIVNNEKRMLQEAVDSLFDNGRRGRPVTGPGNRPLKSLSDMLKGKQGRFRQNLLGK
+RVDYSGRSVIVVGPQLKLHQCGLPKQMALELFKPFVMKRLVDLNHAQNIKSAKRMVERFR
+PQVWDVLEEIITEHPVLLNRAPTLHRLGIQAFEPQLVEGKALQLHPLVCGAFNADFDGDQ
+MAVHLPLSPEAQAEARILMLSSNNILKPSDGRPVTLPSQDMIIGLHHLTTKRADAAGEGR
+VFSSTAEAVMAHDLGELHLNAPVRIRVDGFVPSDEQPAPEGWEEGTPALIPTTLGQVLFN
+QTLPADYPWVEAVADKGQLSKIVNDLAERYPKVVTAATLDNLKDAGFYWATRSGVTVAIS
+DIAAPIDKPAIMEVYEARAAKVESQYGKGLIAEDERRQELIDIWNQATNEVAKAMRDNMP
+IQNNINRMVSSGARGNWLQVRQIAGIRGLVANPKGEIIPRPIKSSYREGLSVLEYFIATH
+GARKGLADTALRTANSGYLTRRLVDVSQDVIVREEDCGTERGLNVTIAVPDHNGELVLHE
+EVENSAYARTLATDVTDAEGNVLAKGGDDVGDVLIEKLFKAGVTDIKVRSVLTCESAVGT
+CALCYGRSLATGKTVDIGEAVGIIAAQSIGEPGTQLTMRTFHTGGVASAEDITQGLPRIQ
+ELFEARTPKGVAPISETAGRVTIEETDRQMRLVVTPDDGSEEIAYPVLRRARLLVADGDH
+VEVGQQLVAGAVDPKQILRILGPRKAQEFLVDEVQRVYRSQGVGIHDKHVEVIVRQMLRR
+VTVIESGDSDLLPGELAERRRFESENRRVVSEGRRPAAGRPELMGITKASLATESWLSAA
+SFQETTRVLTQAAMEGKSDPLLGLKENVIIGKLIPAGTGLPRYTEVTVEPTEEAKANLFT
+GPSAFSDFDYAGVDGGLSPEFHAIPLDDYDMGSEFR
+>tr|A0A0P7GK51|A0A0P7GK51_9MICC
+MTDGTGTELPQPAMDLDYRELFHGSPSGYLVTLDDGTIVEANATFANWIGHPREELVGTS
+LLSLLPVGDRIVYSTHALPQLGVGRSFAELAVDFVSADGTRLPALISATRHPAEGSRPAV
+DRVVVFNAHERRLYERELVTALRAAERAESARASAEADVLEKQRALREKDRVLQESLAES
+RRKESLLQTVLDTVEVGVSVVDEEGNTILTNSRQRFIHRRALPPGTTEANECELLIFGPD
+RTTPLPAEMRPVRRTVLGQSFSDYLVWFGTGEQQRAFSVTARSVQRQGGFQGSVLAFSDV
+TGLVNAVAAKEDFVANVSHELRTPLTSIMGYLDLALEEEDKMPAYVATSLRVAQRNSEKL
+LELVSDLLSAAAGPSSIERAPADLAELLRSALTSAAPQAEISKVQLVADFPGSLPAVLDP
+QRVGQVIDNLLSNAVKYSPDGGRVTVRAWDSADTVEFEVADTGIGMTEAEQSEVFTKFFR
+SGTSRKAAIPGVGLGLVISKNIVDAHGGTITLSSEAGKGTVFRVRLPKLA
+>tr|A0A0N8HX47|A0A0N8HX47_9MICC
+MSDALAHVKDLGDYVAASPSSFHAARTAADRLAAAGFTELSEDQDWPTAPGRYVVVRDGA
+FIAWIVPEGAAAGTGFNIFGTHTDSPTFKLKPSPTTGKFGWLQAGVEVYGGPLLNSWLDR
+ELELAGRLVTLDGVEHLVATGPLLRFPQLAIHLDRAVNEGLKLDKQQHMNPVWGLGDPSA
+ADLLGLLAASAGVDRGEIGGYDVVAADTQPARVFGADSEFLASGRLDNLSSVHAGLRALE
+AAAETKTAGSIAVLAAFDHEEVGSGSRSGAAGPFLEDVLARVSTGLGADAMQAQRAFAAS
+FCISADAGHAVHPNYAERHDPANRPVLNGGPLLKINANQRYTTDAPGAAYWAGLCREAEV
+PYQEFVSNNAIPCGSTIGPLTATRLGIRTIDVGIPLLSMHSAREMAGVNDPFHLSRAAEA
+FFVR
+>tr|A0A0P7HHR7|A0A0P7HHR7_9MICC
+MTGTRFHRRNVSSTGSRARPVEEHREAVRALLSDHLRRRAETLSLAEASGRILAETIRAP
+RSLPPFANSQMDGYAVRSADLAHAPAGALVQLPVSQPIPAGVPAPDLDPGSAAPIMTGAM
+LPAGADAVVPIENAVPDAFFASEERAGAIVGLPSGVPAGQYVRAAGSDIPAGAAALPEGA
+RLGPAQLGLLAALGIAEVPVYAPVRVLLLSTGDEVVEPGGELAPGQIHDANTTLLAASLA
+GAGAEVVRSRILADSPEDFLAALRQELDRGQADLVLTSGGISKGAYEVVRLALAAEGVTF
+CSVAMQPGGPQGIGSVDGVPFLGFPGNPVSALVSFEVFLRPALTAVTGIPSPRRTLSAVL
+AGDASSPKGKLQVRRGTYAGGRVELVGGPGSHLVHALAASNALVLIPADTEQVKAGSEVT
+VWLLD
+>tr|A0A0P7HWE8|A0A0P7HWE8_9MICC
+MGTAGEDNLNLDREQNRAVRRRSLSLLTSLVRPNRGRFIFTIALVVFSQAARVAGPAIIA
+FGIDHALPALQDGSSLPLLAAGGTYLLAAILAAGLTAGYVRSTAQLSQAMLLDLRLRVFR
+HTQRLSLEFHERYTSGRIISRQTSDLEALRELLDSGISSLASGAMYMVFVAISIFALDWR
+TGVLLCIAFIPMFLLTRWYQKRSQVAYRASRVTSARLIVHFVETMTGIRAVKAFRSETVN
+AEKNDELAEDYRRATLRSINLNGVFQPGLILIGNTTVAVVLLVGGYRVLDGGLEVGALLA
+LLLYAKRFFQPVDQMAMFYNSFQSASAALEKVSGLLEEVPTVRPPKNPVPLPEASGDVLF
+DGVEFRYGNGPLVLPRLDLHIPAGQTVALVGQTGAGKSTLAKLIARFYDPSAGTVLLDGV
+DLRDLTQRDLRRAVVMVTQEAFLFSGSVAENIGLGRPSASRKEIEAAARAVGAHEFIESL
+PEGYETDVNKRGGRVSAGQRQLISFARAFLADPAVLILDEATSSLDIPSERLVQQGLKTL
+LGNRTALIIAHRLSTVEIADRVLVMADGEVVEDGSPAELTSGTGRFAALNAAWQDSLV
+>tr|A0A0P7GVC5|A0A0P7GVC5_9MICC
+MQVKELSFTGAARRAQIIDATLTVIAEQGYDRASYARIAEQAQLSSTRLISYHFSGKADL
+ISACASHVIGRIGAWTGSAVHAERTAAGALRAYITATVGFIDRNRAAMAALTRIVLAGAL
+EYTTADDAQAAAPLEDLLRRGQKSGELRSFDPVVMAHAVQRSIDGLPFVLERAPGTDCAA
+YGRELAALFDLATRIDAANILSS
+>tr|A0A0P7FHZ9|A0A0P7FHZ9_9MICC
+MESPWAPLRSKWFLVLWLAQLGSNIGSWMQTVGAQWFLVETGASPVLVSLVQSASLAPAL
+LLGLVAGVLADAFNRRRLILGSNLFAAGAGCLLTGIAALGLLGPDSLLLYTFLIGCGVAL
+SSPAWQAVTPSLVPREQIRSASALGSVAVNTARAIGPALGGLLVSVAGPAFVFGVNAVSF
+IGTALAVFLWRSAPQSPEDREHFGEAMGAGVRYIRAAPRIRRILLRCILFMVPASALYAL
+LPVAVNGHLGLGSSGYGLLLAALGSGAILGVVLLSRTRALLNDTALLGASAAVFAAAVFS
+AGYLPPLPLGLLLVLAGMAWINTLSTLNSAMQLTLPEWVRARGLSVYLMVLTGTQALGSV
+LWGSLATAYGYAPVLAASAVVLLLVALSVLPLPLLPGTGKLDRSVPEPDLGLEVEAEPNP
+GDGPVTILVAYELEPGKASEFVESMREVRLSRLRTGATTWELVHSVTDSRQFREIYDVPT
+WREYMRQEHQRLTGADRQNIEHAASLAEEEPRTRWFLPTSV
+>tr|A0A0N8HX34|A0A0N8HX34_9MICC
+MTGAAVVRQGSGTETSAALFAELNAALDLELGGAVELRHRLHAAPCLSGAEQPAADQLAG
+FIGRPVQPVASTGFYLRTGPEDGPSVAVRTELDGLPLVEENDVSFASANGAMHACGHDVH
+QAAFAAFVRAAAAVELPFALTAIAQPREETYPSGALDIINDGLLAREQVASVLAVHVHPG
+IPEGSVATGSGAINAAADEFEIVVRGRGGHGAYPHSSVDPVPVAARICLAAYDLIRSTVS
+PVSPAALTVGELKTGTASNVIPDQALIRGTLRTMDKHEQSLLHTALRRCAEHTAQAAGAT
+AEVSITVGEPVLRNDAVLSSRAERWLAQQGLGSAEPLRSCGADDFSFFTEAVPGVMAFLG
+VRSPSPAPQSPLHSATFLPPDTAVGECARTLVALYVGAVEELLAQQPAGG
+>tr|A0A0N8HY43|A0A0N8HY43_9MICC
+MTAALLGWDPVWPEVWQPDYQAAAAGAAESGFFRAVWDISGAADELEAGADVWFTVPGER
+AGVAGHGVVVSSPYGFHDEDRRGQRDQPVLVDIDIDALLPLEEHIPLVHLPPVLAGLCPG
+GGDLTILDSSTETDLRHAWARNVSSTNGLGPALLPGSLPQAAVRWSLTSRYESDPDAARI
+ALAHYGPSCSVCGFDPETVFGREGAGIMQVHHIVPARLVTDDYDLDAAVDLVPLCGNCHA
+MAHSGFPDPYSPAELRAMLAAQGVSPHAAHVASPGPEQLRAEADARALLGLGGRENDWAA
+RKAAD
+>tr|A0A0P7GIF1|A0A0P7GIF1_9MICC
+MAAVRTVLKTKVGIVGGGPAGLMLSHLLAQSGIESIVVEKRDHETIRTTHRAGILEHGSV
+RMLTEGGVSKRVLTDGYKHDGIDLRFGGESHRIDFEDLVGESVWLYPQNEVFVDLAAARE
+RDNGDVRYAVSDTEVLDQTTSVPKIRFTDAEGADFEIHCDILVGADGSQGICKRSIPREL
+RTDNFIEYPFAWFGILTEAPPSAPELIYANSEHGFALISQRNDNVQRMYFQSDPNEDADA
+WSDEQIWNELQRRVDGPDGFQLKRGPIFEKTVLKFRSYVCEPLRYGNMFLAGDAGHTVPP
+TGAKGLNLALADVKVLHEAIDSFYATKSADLLDGYSDKALQRVWKAQNFSYWMTSMLHTR
+PDATDFERKRALGELNGVVSSRHGQAYLAEAYTGWPEH
+>tr|A0A0P7HUS6|A0A0P7HUS6_9MICC
+MDIEVLRRAPLFASLGDDVFAALTDELTEVDLSRGASVFREGDQGDQLYFIVSGKIKLGR
+SAPDGRENLLAILGPGELFGEMALFDPSPRTATATAVSETRLAGLRHENLRALIETRPEV
+SVQLLQALARRLRRTNESLADLVFSDVPGRVAKALLDLADRFGRPATDGILVAHELTQEE
+LAQLVGASRETVNKALAEFVQRGWLRLEARAVVILDVQRLRQRSR
+>tr|A0A0N8HY33|A0A0N8HY33_9MICC
+MHRIALVDVNSFYVSCERAFDPRLEGVPVVVLSNNDGCVVARSDEAKALGIKTGEPWFKL
+AEAAPHLGLIQRSSNYELYGDLSSRVMELLGRYALWQEVYSIDESFLGLTGTAQELDTQG
+TRIRAAVARHTGLPVCVGIGTTKTLAKFANRIAKQNGHLGGVCNLDTMDPGAVATIMSRV
+PVTGLWGVGAKLGKRLEALGIRTVADLKAADPAVIRSRFSVTLQRTVLELNGTPCLPLEE
+ERADRQQLIFSRSFSVPVTTAAEMRQVMSIYAQQAASRLQREHQQARVLTAYAGTSHFSH
+KAASFPSITVKLQSPTSDPVVLTRAAVGALEDQIVEGIPYTKAGVMLSGLSDAGAQPVFD
+AFVPDQEHRNLGELLGKVADKYGSASIGLGVAGMPSARPEWTMSRKFSSPRYTTVWDELP
+VVKAR
+>tr|A0A0N8HXM9|A0A0N8HXM9_9MICC
+MDHALTETDTPRRRVLLKLSGEVFGGGKLGVDPETVRSVAKQIAATVGEVETAIVVGGGN
+FFRGAELSQSGMDRSRADYMGMLGTVMNCLALQDFLEQAGVETRVQSAITMGQVAEAYIP
+RRAIRHLEKGRVVIFGAGAGLPYFSTDTVAAQRALEVHADEVLMAKSGVDGVYTADPNKD
+PNAQRLETLTYDDALRQDIRVMDQTAMTMCKDNNLSMVVFGMEGEGNVTRAIRGEKIGTV
+VSN
+>tr|A0A0P7GDT0|A0A0P7GDT0_9MICC
+MASEQNAVLIELLNRLLAQWTAPGFTTAVAAREGVVLDSAALTLLSILNNSGAQRPSALS
+ERMVTGASNISKITARLEEAGLVRRMPDPNDSRASLIDLTEAGTRAGQALRRSGNTLVDL
+LLQGWSPRDRAELVRLLARFESETQRVVGTLRDGGN
+>tr|A0A0P7HG44|A0A0P7HG44_9MICC
+MSSRGATEQRLRDLAVLRRVRDRIDREYAQPLNVDALARDAHMSSGHLSREFKRAFGEAP
+YSYLMTRRIERAMALLRRGDLSVTEVCFAVGCSSLGTFSTRFTELVGVPPSTYRREQADA
+TKGIPSCVAKNVSKPVRNREAHAAER
+>tr|A0A0P7HLG2|A0A0P7HLG2_9MICC
+MRATAVGRAIASYLQHMAVERGLARNTVDAYRRDLLRYARFLSAHGRDAIKDITRHDVTA
+FARSIAEGSDGASALSVRSAARTIVAVRGLHKFWALEGLTESDPAADVHPPLPGKRLPKA
+ISVDEVTRILEAIPLDTPMGLRDRALLEFLYSTGARISEAVGLDLDDLSLERIPASGPDV
+VRLFGKGSKERLVPLGSYAARALDDYLVRGRPGAAAKGKGTPALFLNARGGRLSRQSAWT
+ILKSAAERAKIDRDVSPHTLRHSFATHLLEGGADVRVVQELLGHASVTTTQVYTLVTADT
+LREVYAAAHPRAL
+>tr|A0A0P7FPI0|A0A0P7FPI0_9MICC
+MSGNRAVAYIEPGVVEVQDIDYPTFELRDGPGVNPANVGRKLPHAAILKVLTTNICGSDQ
+HMVRGRTTAPANLILGHEITGEVVETGPDVEFIKVGDVVSVPFNISCGRCRNCKERKTGI
+CLNVNPDRPGSAYGYVDMGGWVGGQAEYALVPYADWNLLKFPDSEQAMEKIMDLTMLSDI
+FPTGYHGAVTAGVRTGSTVYIAGAGPVGLAAAAGAQLLGAAVVIVGDLNEDRLAQARSFG
+CETVDVSKGDPKDQIEQILGVPEVDCGVDAVGFEARGHGHGSGQEAPATVLNSLMDITAA
+GGALGIPGLYVTGDPGGIDEAAKVGSLSISLGTGWAKSLSFTTGQCPVMKYNRDLMMAIL
+NDRVQIAKAVNATAIRLDDAPEAYREFDSGAARKYVIDPHGVTGANAN
+>tr|A0A0P7FF70|A0A0P7FF70_9MICC
+MSTERTLVLIKPDGVKRNLTGAILARIEAKGYTMVELKKMDATRELLEEHYAEHVGKPFF
+EPLVEFMLSGPIVAAVFEGQRVIEGFRSLAGTTEPTTAAPGTIRGDFGRDWGTKVQQNLV
+HGSDSVESAEREIGIWFGK
+>tr|A0A0P7FXF8|A0A0P7FXF8_9MICC
+MDPSDPRSALAVPATEAAPWLLGAVLRRESPDGDVAVRITEVEAYLGEADPGSHAFRGRS
+ARNATMFGPAGHLYVYFTYGMHYCANVVCGEAGQATGLLLRAGEIVEGHGTARRRRKEPK
+TDLDLARGPARLAQALGIDRELNGADVFSGPLRLELPPQPADPARISVGPRVGVSGEGGG
+AAFPWRFWLTGEPTVSKYRPAVVRRRPAGATSRATGR
+>tr|A0A0P7G5D4|A0A0P7G5D4_9MICC
+MTISPEPAQDGAEDQEMLELAERLFDAARQGDTELLRSYISAGVPATLTNAAGDSLLMLA
+AYHGHAGTVQLLIDLGADVDTLNDRGQSPLAGAVFKGYADVVRTLLAAGADADTGNPSAR
+ATAAYFQRGDLLDS
+>tr|A0A0P7FXG8|A0A0P7FXG8_9MICC
+MKSKNFFKGPIIWIVLALAALLIILPNLAPSGAAQVDTNVGLQLLQDNKVEQAKIYDGEQ
+RVDLTLREPYEDKGENVQFFFGTARGEDIVEAVNNSDVDGFTDQPVQTNWFTSFLGLFLP
+ILILGAIFWFLLTRMQGGGSKVMQFGKSKAKLTNKDMPQVTFADVAGADEAVEELHEIKE
+FLKEPAKFQAVGAKIPKGVLLYGPPGTGKTLLARAVAGEAGVPFYSISGSDFVEMFVGVG
+ASRVRDLFEQAKNNAPAIIFVDEIDAVGRHRGAGVGGGNDEREQTLNQLLVEMDGFDGNT
+NVILIAATNRPDVLDPALLRPGRFDRQIGVEAPDMQGRLHILQVHAKGKPMAPGIDLETV
+ARKTPGFTGADLANVLNEAALLTARSNAQLIDDRALDEAIDRVIAGPQKRSRVMKELERK
+ITAYHEGGHALVAAALRNTDPVTKVTILPRGRALGYTMVLPQDDKYSVTRNELLDQLAYA
+MGGRVAEEIVFHDPSTGASNDIEKATSTARKMVTQYGMSERIGSVKLGSGGGEPFLGRDM
+GQERNYSDQVAYVVDEEVRRLLDNAHDEAYQILTENRDVLDRLALELLERETLNQQEIAE
+VFRDVRKRDVREVWLSKPTRPVHDIPPVVSPREREEAAAAGEPNPDTVAPQDQIADADLP
+QDFDVSGNGLPEPENSGRGSHTGSANHE
+>tr|A0A0P7GIV1|A0A0P7GIV1_9MICC
+MTQTHPQTPDDWIELAPRTYVRASPGWGMNSGLVIGEERALLVDTGAGPAQAKALLDGVR
+KLTSLPVIAVNTHAHFDHFFGNAYLMDNGVEEIWATSACVGTITATGEEQRSAVAVVEPG
+MAAGTGPGTAIAAPTRLVEGAPVDLDLGGISVTLFHLGRGHTDHDLLVGAGDVLFAGDLV
+EQGADPNFGDSYPKEWIRTLGKIVALEDLYGTVVPGHGKPVDMDFVTTQMNKMRTAVAVT
+RSAMDQASTDMTKAVPILPYGPEQSRALLMRLRTLARWKWLKQ
+>tr|A0A0P7G9H4|A0A0P7G9H4_9MICC
+MTDTITLRGYVATEVRTTTADSGLAIAGFRMCTTERRFDRDSGLWVDGHTNWYSVSMFRQ
+LATNAGVSIHKGDRVIVTGRLRVRQWATDGGRSGTSVDIDADAVGHDLMWGTANFRRNIG
+EKASLRTAAAGEDGETQGGNAFEGDVDPVTGELLGSGGETDSTGGLDNLAGFETQSLPHD
+AEPEPAAY
+>tr|A0A0P7HCJ9|A0A0P7HCJ9_9MICC
+MRRRITAWLTGAVLGTAFLVGVSPPAAAVSPGVAFSATDLPTWQTNGIVWAMAESQGVVY
+VGGTFNAVRPPGVAAGGAGTRSAVNFVAFDAYIGNPTGCNLSFTGTSATVRALEVSPDGR
+TLYAGGYFSAVNGVTANRLAAINIPSCTVKTDFKQAAVAAMVRAIEATADAVYFGGDFKL
+VQNVTRNRLAAVTPTGELLPWAPVADLPIRAIHAPAGRNAVIAGGDFTSMNGADSKALAV
+VDRATGANLRTYPNFFIPRTSVVKSIDSDSTSFYIGNEGTGGGVFDGRARFDLSNFNQIW
+RDTCLGATQAVNLYKEKLYSAHHAHDCGSMGAFTDGSRIHLSAQDLDKPGPLLQWNPTTN
+EGIGEGIGPRTLAHTTTGTRDVLWVGGEFTKVNGKAQQGLTRFGPGPGTAGPSAVKFLSA
+ESRAPGQNTIRWQSTSDPDDSGLTYSIYRNGSATPLGTVQASSLWWDLPQVSLTDSTAVP
+GTAYTYRVRATDPDGHAGPLSGEVRVTTASSAQAYPGAVRADGAVAYWRLGDPFAAAADS
+STGNRMGLPFGGPALASSAGALAGDSNRATTFDGVDDFIYGPQRAASPPAYSAEAWFRTT
+TTTGGKVFGFGNGIPRRDGAGPGLSSNNGKHVYMTNAGNLIFGEWSGSARTVKSPARYND
+GAWHHVVATQGPAGMALYVDGVRVASNTVTATQAITGSWRVGGDQLTTAWPEAPSSRYFK
+GAIDEFAAYHLVLSPAQVSRHNQLGRG
+>tr|A0A0P7HI92|A0A0P7HI92_9MICC
+MKAWQYMGGRKPIQLNDIPEPVPGPTQVIIDVKAAGLCHSDVMYMEVGDQAMPFLPMTQG
+HENAGVVTALGNEVTGFKVGDVVGVCSSGVQPPLGMFTPGGFADRLAADYRDLARVPEGL
+DLSLAALATDAGMTSYHAMIKVGGAAKGMKVGVIGFGGLGQIGARAAVLTGAEVHVAEMK
+EEAWDNAREVGAVSCVKDAAEWVQDPRAGGDFDLIVDYAGFDTTQKAINAVKRGGKVVQV
+GLGKPTFTVATNTILGKKLEGSLGGTVEDIEEVFDLMLRGEIRPGYEEIGFEEIANGLER
+LKNNEVLGRLVARFGD
+>tr|A0A0P7HIM0|A0A0P7HIM0_9MICC
+MNLSEHRYGVSLEWTGNRGTGTQTYRGYGRDHVLRSPGLPDLPGTADPTFHGDRDRWNPE
+QLLLSALTQCHMLSYLHVAVRNGISVTSYEDNAEGTLRLNRDGSGEFTSVLLRPRVRIGT
+GDPVLASSLHDEAHRLCFIARSVNFPVEHAALTLD
+>tr|A0A0N8HY41|A0A0N8HY41_9MICC
+MQEYEVTEPVPGESLPEKLLTRVEVAAWLQISPKTLANWSSNGVGPRPLKLHGFVRYKRA
+TVHAWIERAARDAA
+>tr|A0A0N8HXU8|A0A0N8HXU8_9MICC
+MARKASLSGFPEWLPQERLVELHVLDVLRRTFELHGFANIETRAVETVGQLLRKGEIDKE
+VYALSRLQAEEGEASGKQDPNQLALHFDLTVPFARYVVENAGHLAFPFRRYQIQKVWRGE
+RPQEGRAREFTQADIDVVGDGDLPFRYDVELALVIAEALGALPIPDFRIRVNNRKLAEGF
+YRGIGLEDTAGVLRSIDKLEKIGADRVAELLQEELGATPEQASLALKLASIRTDDVSFVE
+QVRSLGVSNELLDTGLDELEQVIAEAARRAPGKVIADLSIARGLDYYTGTVYETVLVGHE
+QLGSICSGGRYDSLASKGSRTFPGVGLSIGVTRLVMRILSQEFAEASRSVPTAVLVTLAD
+DDSWSAAQDVAAALRGRGIAVEVAAKAEKFGKQIKYADRRGIPFVWFTSEDGMHEVKDIR
+SGDQVQADPAVWTPPAEDLLPQVSARG
+>tr|A0A0P7FEB8|A0A0P7FEB8_9MICC
+MSNSNLRRTLRALPDFAENLPGFDPEQAPEDPAELFLAWLDEALAAGVPQPHAFSLATAD
+AAGNLSSRMLILKNLDGDGWHFATSRTSRKGRELEENPRAAMNFYWHGLGRQVRVAGNVV
+LLSAEASARDWAERPAADGSENPDWQLYALAPREVEFWQADPGRRHIRHRYVL
+>tr|A0A0P7FG37|A0A0P7FG37_9MICC
+MALISLRNVSKTYPPARRGEPPVTALQDISLEIEAGEIFGIIGYSGAGKSTLVRLINGLE
+ASTGGEITVDGRAVSGVPERKLKSLRLDIGMIFQQFNLFNSKTVRSNIAYPLRVAGRSKD
+EITARTNELLAFVGLTDKAGSYPEQLSGGQKQRVGIARALAASPKILLADEATSALDPET
+TQEVLALLRRVNRELGITIVVITHEMEVIKDLATRVAVMDAGRIVEQGGVFEVFSNPREE
+SSRRFVSTVVRGIPSAEEVRTLRSRHEGRMVTLSFRDGHSSQAAVFLELAAAGVGFELVY
+GGINDISGRAFGHLTLALKGADQAIDGALAAVGHGIKVTELG
+>tr|A0A0P7GJY1|A0A0P7GJY1_9MICC
+MVTQVRADVLSRDTAVTGAALAQAVRASGRLLGAEGALRAVDRVRADLQGLGPLQPLLAL
+PGLTDILVNGPEEVWTDTGQGLQPAGIRFGSDTEVQALASRLIAAGGRRLDDSCPCTDVQ
+LGSYRVHAVLPPVSTGSTLLSIRLRSPRSFPLEALEAGGMLDGVCARVLRDIVAGRLNFL
+ISGATGTGKTTLLSSLLSLSDPGERIVLIEDAAELDPAHPHVVGLQSRHTNVEGAGKVDL
+PDLVRQAMRMRPDRLIVGECRGPEVRELLAAMNTGHDGAGGTIHANSAATVPARLAALGA
+LAGMSPRALAMQAAGALDAVVHLERSAEGRRVAGISVLTTSAEGELLALPALSLSSGGMQ
+RREGWERLLMRLEAKGRR
+>tr|A0A0N8HXV5|A0A0N8HXV5_9MICC
+MSRVCVTGGNGFLGSAVVSRLAADPAVSHVLSLDLREPSAERKVDGVVYALADVCSPDVS
+KELQEHRIDTVVHLAAIVNPGRDTTREQEYRVDVTGTQNVLAACLESGVKHVVISSSGAA
+YGYHADNAPWLNESHPLRGNDEFGYSRHKRLVEEELARLRTEHPELRQTIFRIGTILGER
+VRNQITALFDAPRLLRVAGSESPFVFIWDQDVADAMAQAVITGRSGIFNVAGDGALTVRE
+IAGLLGKRTLTVPAPLLAAGLWAGQKLKLTVHGPEQLRFLRYRPVLDNTALKHEFGFTPT
+RTSREAFLEFRKAREAAGARQR
+>tr|A0A0P7G5J4|A0A0P7G5J4_9MICC
+MIVGIGVDVVDVPRFGRQLERTPGLRSRLFVPAERELNLRSLAARFAAKEAVAKALGAPA
+GMNWQHCQIELDSAGAPRIRVEGTVAAAAEARGVRTWHLSLSHDGDLATAMVVAEG
+>tr|A0A0P7FFJ8|A0A0P7FFJ8_9MICC
+MVPAGWRTTGAAAGSGPDVRPSTELRLVPVAACAWAGAAAAVRVPGTLTLLAALASAALL
+VLCLLAAWRNPRPGVRRRASAVLAPLAVLVLIASSAGSAAVARTAGAAGEAVADGASITG
+EFTARGDARAAAVDRFSGKPRYLLEAEMNSFTRRGERSAARLPVLIIGDESYAGIHLGDT
+LVTAGKLSATEPGDRSAALLRASRAPAVNPSDGLQGLATDLRTGFAQRSTLLGATDAAGL
+LPGMVLGDRSTAAPDLSTAMQDTGLTHLTAVSGANCSYLLAFIFLVSRLVRLPRGWAATA
+AVAALACFVLVVRPDASVLRAAVMGSIGTVAVLTGRGKVPAALLCLCATVLLVVDPWLSG
+SYAFILSVCATAGLIFLGPRLTAALARFLPRPVAVLTAVPLAAQVACAPVLVLLQPNLPA
+YSLPANIAAAPVVPFVTIAGMAAVVLGHLAPPLDYPLLAAAGAGAGWVAGVARFFAQAPG
+ALLPWLPGPAGAGLMAAAAAILTVCIVRTGQSSERTRADAGAPAGPLRKHGLLFRRWTTV
+FLSLVLASLAAVALAAGWRLIVPAPGPPKDWLAAACDVGQGDALAVRTGPRSAILIDAGP
+DPSALDECLDRLDIDTLDLLVISHLHTDHYAGGPAAGDGREVRALAYSSAESGVPEEIAG
+LGRELAVKPERLGTGMNGIIGGVRWKVLWPQADAALPAPPGMSENDASAVLLISSGGLNF
+LFTGDLEEEAALKMLRASPELRTETVHVLKVAHHGARNSGPVLPDELRPLLALISVGKEN
+TYGHPAPETLKSLELAGSQVARTDLLGSFFLHIDDGKLLVSGLGSGW
+>tr|A0A0P7FQG2|A0A0P7FQG2_9MICC
+MLWGVLPYVVIAVLVLGSIWRYRYDQFGWTTRSSQLYEARILRIASPLFHFGILAVIAGH
+FIGLVIPQDWTKDVGISEGLYHAMALGIGLIAGIGTMVGVVLLIYRRRTTGPVFMATTRN
+DKLMYVVLVAALFAGLATTLISVFDPNITDYRETVSPWFRSVFIFQPDIAAMTAASLSFK
+IHTLWGLALFAIWPFTRLVHAFTAPLQYLFRPYIVYRSRGKRNTPGAVPPRRGWAPVGTP
+DRVRKGVPRQ
+>tr|A0A0P7G9J0|A0A0P7G9J0_9MICC
+MRVHIATDHAGLELSSHLQEHLTASGYEVVDHGPQEYDAEDDYPGFCIDAAKAVAADQEA
+GLDALGIVLGGSGNGEQIAANKVRGIRAALAWNLDTARLARQHNNANVVAVGGRQHTLAE
+ATEIIDAFLAEPFSGAERHVRRIAQIAEYEANGAITAR
+>tr|A0A0P7GCB1|A0A0P7GCB1_9MICC
+MSEFEAAPGRYTTVSGDHRSELEIKRSRFITVLRRTETEDAARALIAELRREFHDARHHC
+SAFVLGPGREVQRSSDDGEPSGTAGIPMLEAITKRETFDGASDLSDITAVTVRYFGGILL
+GAGGLVRAYSESVSSALASAPLLRRQRMQLYSVPAGHAGAGRLENDLRSAGYAVRGTEYG
+AAGAVITVALPDTPGADTAFRERLASLTAGDTAADLITTEWIDL
+>tr|A0A0P7H3M5|A0A0P7H3M5_9MICC
+MRVAVLGATGNVGTAVLRRLQAARTERPGGLEIVGVARRVPAQATGPYEGVQWHSIDVAA
+RSGTEDLTDVLRGVDAVIHLVWAIQPNRDEAELHRINVRGTQNMLAAAAEAGVRQVVCAS
+SVGAYSPAPKDRLTDENWPARGIATSHYSRHKGEQEELLDDFERRYPEIRVARLRPGLIF
+QSDAGSEIGRYFLGPLVPRSILNKLSLPLIPLPAEFSFQVVHADDIADAYWRVVDQRAEG
+AFNIAADPVVTPELLAGLLGARRILNIPVKAVRAVVGLTWAAGLQATDPGWIDMAAGAPL
+MDTTRAREVLGWEPKRSSLRAFQDVLDGLSEQAGVPASPLLGPGR
+>tr|A0A0P7G7L1|A0A0P7G7L1_9MICC
+MHVPSSTADDAPDTLHVAVVGAGKAGTAIARSLLDAGYRVSISASGDPSRLELMIDFVTP
+GAEPKWTRDAVADADLVVLALPLHRLKTIDPALLAGRVVVDTMNYWPPVDGEIPAFAAGD
+RPSSEVVQEMFPGAAVVKTFSHTGYHHLEPDRRPAGHPERRGLAVAGNEHDAVALVSAVV
+DRIGYDPVPVDSLAGTGFLQPGGPAFGARLTAAELRGLAAVTAPVA
+>tr|A0A0P7G4B3|A0A0P7G4B3_9MICC
+MAAGSKSEATRQRLVEAATQLFRDQGFERTTMRGIAAAAGVSTGNAYYYFSSKDAIVAEL
+YRSLQDEHRSAALPLLREGHNLGEHLRVILQANLDVLAPYHSLGHQFLKTAALPAPQKTR
+QGTGAAQAVQADAAQVGRGKSIAVYRQAVQAARPQPPLAVRDDLPELLWLVHMGVTLFWV
+YDSSPGQARSRRLVANTAPLVAKLVILSRLPVVRNIVEDVVKLLRGARSHD
+>tr|A0A0P7FZK2|A0A0P7FZK2_9MICC
+MPSEEGIGSFSALTLRDALASGEVSARETTEYFLGRIEALNPDLGSFLTITADAAMKQAH
+EADEALASGRPLGILHGMPLAHKDLTDVAGVPTTMGSTAVPPVPAKADGPLPAVLRAAGA
+ISLGKTQVPEFGLSSYSENYVAPPARNPLGPALSPGGSSGGSAAAVAAGMLPFAPGTDGG
+GSVRIPAAATGLVGLKPNRGRVPSGGGQRDLGQFVVAGPLARTAADAALLLDAMAAEPNF
+HATSADRAAGSFLHAALRAQGQFRIGVSTRSPFESRLDIRLDPEAVLGLEAGILALTGAG
+HEVEEADVHYDERYPDAFAMVWTAPLASIPLPREAEEKLTPLTATMRRRALQRSAAELAA
+AVDILRGFEEDTIRQFAAWDMILTPTVAMPPRPVGWYWTGDADEDYARQCRYSPFTSMVN
+VCGLPAISVPTYQTAQGLSMGIQLIGRPGAEADLLAVAAQLGSQ
+>tr|A0A0P7GAB3|A0A0P7GAB3_9MICC
+MGIVNTAVKQDTPSQDGRSVRWEAHRTERRTALIRAARRAVHTLGAQASMEEIAASSGTS
+KSVYYRYFGDKSGLQQAMGEVVINQMQDKILAAGRSADSPRSGLRAMVSAYLQMAQTSPN
+VYAFVTGSAAGEAPGTSEPGVAVALSHFFANISKMMDHAVQAYLEGHDSGSMTQAAAGFW
+PIAALGMVRAAGERWLATPEPDRPTEAEMTDQLTAWLFDGIGWDTPARNTTDASEPTTAH
+GSRGDSSAAPNADQ
+>tr|A0A0P7G8H2|A0A0P7G8H2_9MICC
+MPQNTQTSEGLAAQQNDPSFANIWQELKWRGLIKLSTDEAELEKLLAGDPVTYYCGFDPT
+APSLHLGNLVQLLTMRRLQLAGHRPLALVGGSTGLVGDPRPTAERTMNTKETVNEWVGYL
+QGQVQRFLSFEGENAARMVNNLDWTAPMSAIDFLRDIGKHFRVGTMVKKEIVASRLNSDE
+GISYAEFSYQVLQGMDYLQLFRDYNCVLETGGSDQWGNLTSGTELVRKVEGATVHALGTP
+LITNSDGTKFGKSEGNAVWLDGSMTSPYAMFQFWLNTADADVIDRLKVFTFRSKAEIEEL
+ERSVQEAPHKREAQRALAYDVTSLVHGTDATDKVIAASAALFGQGSLEELDEATLTAATA
+ELPRAEVGTDALGIIDLLVATGLSKTNSEARRTVTEGGAYVNNRKVTEIDAVIGETELLH
+GKYLLLRRGKRNLATAVVSAK
+>tr|A0A0P7FI42|A0A0P7FI42_9MICC
+MFADSLSEDLPALVAVGDSSLTADVERALGHARLRPVRRGGDAEGPLPVLAVVDTAALEA
+AGPDLRRWLLPAADGSGPPVILISSGELLDVEDMVRRGITDFVLAPVSMDELTYRAALIR
+AESLAVRRRREVNALLRGKTRVISAAVRATNDPHVMADAVVSGLGDAFGADHVLLTTFAD
+ERVPALENCWSRPGTSAQIPVPNPEQAGQVARLLWGNGKMLAARDHLDPDCDTHPILYPA
+PREAGLRTSVIVPLGHGDRPFGIIWLAGEYEERVWTPTELSLIQHVSGNLAHGLVQGHLI
+TAQRTVLARQRELDREKTDFVATINHELRTPLTSITGYLDLILDTTGEGISPEIAQMLEI
+VGRNANRLNHLIGDLLTISRSDAEETRMDVEELVLRDLLEPVIASLTPSATSRNITLTLD
+ETDPELRLDLRLDGDREQLERVFSNLISNAVKFTPPNGSVRIGADLAEAEDGSPPMIRVC
+VRDTGIGIPEEDLPKLFSRFFRASNATSAAIPGTGLGLSIVQDIVNQHGGKLCITSEMGK
+GTCAEVKLPAS
+>tr|A0A0P7GAT7|A0A0P7GAT7_9MICC
+MPEREATIASSVGLHARPASLFAEAAAAQPVEVTIAMQGEPAEEAMDASSMLSLMSLGAS
+HGDVVVLRADGEGADDALDALVKILETDLDAT
+>tr|A0A0P7G548|A0A0P7G548_9MICC
+MSVRTFLLPDLGEGLTDAELVNWLVAEGDTIAVDQPVAEVETAKSLVEVPSPFAGVVQTL
+HGAAGESIDVGKPLISVRTTADAPAPGETSPSAPSDPDPAGEAYRQEERAGSGNVLIGYG
+TPDQTSHGTNRRTRAPRRASAVQAVPAAPAPAAVAVADLAPAAAATATLEAPRCINPLVR
+RLARESGIALRTVDGTGPDGLILRRDVELAISAGSPDTAVAPVPASPAAPAAGDTDPRSG
+LGVASRTPVKGLRRTVAANLSASRSEIPEATVWVDVDATALLELRADLKRRDPENTPGLM
+AFLARFTLAGLRRFPELNTRYVAGTGPDAELVAFDGVNLGFAAQTDRGLMVPSIRHAEKL
+SARELDAEIRRLTASARSGAATPSELTSGTFTVNNYGVFGVDGSAAIINYPESAILGIGR
+IIDKPWVVDGQLAVRKMTELTLVFDHRVCDGGTAGGFLRYVADAIENPGSVLADL
+>tr|A0A0P7GBW5|A0A0P7GBW5_9MICC
+MTKTAAKAAPTSNGKKPSLVLVFTALVLAMLLSALNQTILGTALPTIVGELNGANLMLWV
+ITAFILASTVMMPIYGKLGDLIGRKYLLVAAIIIFLAGSVVGALSPDMTWLIIARVIQGI
+GAGGLMILSQAIIADVVPARERGKYMGWMGGVFAFSSVVGPLIGGWLTEGPGWRWAFWFN
+IPVGVLALLGALFFLKPRAVTSRPRIDLWGMVFIALATTGLVLVSSWGGSTYEWTDPVIL
+GLVAGTIVSAVVFVMVERRTAEPIIPMELFRDRNFNLSTASGLLTSVAMFGAIGYLPTYL
+QMATGASATEAGMLMIPMMGALLFSSVLSGSLVSKTGRYKWMPIAGSAIMILALLLMGSI
+TADSPVWQLCVYIAVLGLGLGLNMQILVLVVQNSFPMRQVGTATAANNYFRQIGATLGSA
+VVGSLFAHRLSDLLGERLPASAASATGGGNSLTPKLVHELPEAIQDIIIRSYNEALIPLF
+LFMVPMAVVATILCLFIKEKPLATRLEPEVMPEAIGEGNVLISAEDEGNGPSTTELRQVS
+ASTPR
+>tr|A0A0P7G793|A0A0P7G793_9MICC
+MESASGNHSVDDISKAIIEQLQEDGRRSYAAIGKAVGLSEAAVRQRVQKLTDSGVMQIVA
+VTDPLQLGFPRQAMLGIRVNDDVLAVADRISVIDQVDYCVVTAGSFDLLAEVVCENDQDL
+MLLVNRFRSIPGVSTTETFMYLSLRKQAYNWGTR
+>tr|A0A0P7HP92|A0A0P7HP92_9MICC
+MDGKPAAPPRPALSTKQLTGIIGALALAAFLMILNETVLTVALPSIMADLQVTAAAGQWL
+TTGFLLTVSVVIPTTGFLLQRFTTRSLFIFALSSFLVGTLLAIFAPTFAVLLVARIIQAV
+GTAIVLPLLMTTTLTLVPMHKRGAIMGLNSIVISVGPAVGPTVSGAIVNAFSWHWIFVLM
+TPLAVIILLLGIIFIKIPSSTRKLPVDVPSVILSALAFGFLVYAISSLEHASENLVLLGA
+SVVVGAGSLALFIKRQIVLTRSGRELLNLAPFRNRNFTISVVLIMVAMGTLLGTVVIVPI
+MLQTGRGLDTLTIGMMLLPGGLVQAAVGPVFGRVFDRFGPRPVLIPGAAMLALGQWLYVG
+VTPESPLWVFTVSHIVFSIGLAMLMTGLLSAALATVEPRLYGHGSAIFNTGQQLGGAIGT
+TIFVTVLSMLSAAKLDAGSELADSLFSGGHTAFIIGALLATAAVVLAPFIKIPRRA
+>tr|A0A0P7HVN1|A0A0P7HVN1_9MICC
+MVTYIVRRLLTAVLILFGASFLVYLLTAASGDPLQDLRENPAPNRDELIRARTELLDLDV
+PAPLRYFYWLGGAVKCLAPFAATCDLGQSIQGEPVTEALARAMGATILLVTTATLLAIVV
+GISLGIITALRQYSSLDYGVTFMAFLFFSLPIFWLAVLLKEYGAIGFNNFLADPQIPLPV
+VLSVGAASGLIWVVFAGGNLKRRAIAFVGGFVAAAGLLWVLGATGWFTTPSLGPVVIAIT
+GVAIAYGVTLLSAGLKNRKALYSALITVALGVVAYYALQPLLNSATWLMMLLLAVATVAV
+GCLVGYLMGGYDRGQSMRGAALTGLLVGGLIVLDRFMYAWPSYMDNSRIRDRPIATVGAS
+TPGLNGDFWISGVDTFTHLLLPTVALLLASLASYSRYSRASMLEIMNMDYIRTARAKGLS
+ERTVVMRHAFRNALIPLATIVAFDIGALIGGAVITEQVFAFSGMGQLFVQALSRVDPNPI
+MGFFLVTGILALVFNLVADLVYTVLDPRVRVKS
+>tr|A0A0P7FE13|A0A0P7FE13_9MICC
+MANYTAADIKALRERTGAGMMDVKKALDEANGDADKAMELIRIKGLKGATKREGRSTAEG
+LVAAKVIDGTVGVMVELNCETDFVAKSAKFIELADRVLAAAIESAAADAETLLAYEVDGK
+PLSEVVVEEGAILGEKVVVRRVARVEGKTVDAYLHKTSKDLPAQVGVLFAVDGEGDAAFT
+AAHDIAVHTAAYAPTYLTRDEVPSDIVENERRIADETARAEGKPEAALPKIVEGRLTGFF
+KEIVLLDQPFAKDAKKTVGAVLEEAGVKPTAFARFRVGA
+>tr|A0A0P7GKZ7|A0A0P7GKZ7_9MICC
+MSESTAAAPRVAVVTGGSGGMGRAIAKRLSNDGFALAVHYAGNMNKATEVVKELTAAGGR
+AMAVGGDVADEVAMTRLFDEVEAAFGGIDVVINTAGVMVLSTVVDLDLDELDRMHRTNIR
+GSFVVSQLAAQRLRRGGALVNVSSSQTRLQDPTYAPYAASKAAVEALTPVLARELRGRDI
+TVNAIAPGPTATPLFLDGKDQEAINRMAQLAPMERLGTPEDIAEVAAFLAGPSRWINGQV
+IYPNGGLA
+>tr|A0A0P7HIA2|A0A0P7HIA2_9MICC
+MFDSVSSVALQSALNGLSLRQRAIANNIANVNTPGYHAQRVSFEDALAKSVKAGSKSFTE
+SATARSLEPTRLDGSNVNLDTETLSNIDTVLRFQFASQAVGGEANSLRTAMRTQ
+>tr|A0A0P7FFS4|A0A0P7FFS4_9MICC
+MSSTDLSPEDLSTCLRVLSTIHALDEDHPDHVAVRRATAKMFKAVKKHRKVAKRDAVAEA
+DRAVVARTATGAPDRIDDETRGAQLRSSAHGPSAGTLLKPRNCYICKQPYTLVDAFYHQL
+CPECAAFSHAKRDARTDLTGRRALLTGGRAKIGMYIALRLLRDGAHTTITTRFPKDAARR
+FAAMEDSADWLHRLKIVGIDLRDPAQVISLADAVAAAGPLDILINNAAQTVRRSSNAYQP
+LMDAELEELPSNAAMPELVTFGNTYNAHPTALAGSVASHPVLAGDAVTSLALTAGSSSLS
+RLEAGTAIDAGGLVPDTAPINSWTQVVDQVEPLEMLEVQLCNVTAPFLLVNRLRPAMAAA
+PARRKYIVNVSAMEGQFSRRYKGPGHPHTNMAKASLNMLTRTSAGEMLETDGILMTAVDT
+GWITDERPHPTKVRLAEEGFHAPLDLVDGAARVYDPIVMGEAGEDIHGVFLKDYRPSAW
+>tr|A0A0P7FPB4|A0A0P7FPB4_9MICC
+MPRSTFVRADDSPAAAGNPGEAAFFDVDNTLMRGASLFHVARKMYQKRVFTLREAAGFAA
+KQLRFMLQGENLKDVHSVRDAALAFATGLAAEDVRILGEEVYDEMIVSKIWPGTRALTEQ
+HMRAGRPVWLVTGTPIEVASVIASRLSLTGALGTVSEVSDGLYTGRLVGEFLHGPAKADG
+VRVLAQQEGLDLDRCWAYSDSYNDVPLLSMVGHPVAINPDARLRRHAREKNWPVYDFRSG
+RRAATLGLKTASLAGAAYGLWRGFSWVRSR
+>tr|A0A0P7FPM3|A0A0P7FPM3_9MICC
+MAIGSKELATDQLDGFDNERLVEELRKAKEELFNLRFQSATGQLENNGRLRAVKRDIARI
+YTVLRERELGIRPEAVAPVEEAAPEKKKSKKKAAESEAAVAEDDAK
+>tr|A0A0P7GS28|A0A0P7GS28_9MICC
+MIETQPSGTDTAGPVVQEKKPGVSGESLRSLAGRIRRFRLSLPWNSEDDWERPAPDPEGY
+RRDVIGVLIALLLSAVMLEFMRGFAFGDGDIGNPWVQHLVQASIFVVLVFRRRFPITVLL
+LSSATFLIVGITMPPISQTLGFQAAYFASLYSAVAWARNRRALWLAVTVVVAAMFLWIIV
+GFTLSSSYDEILKAFNISSNDPVGLFAPLTSYVLYSFMLNAAYFGGAIMFGWNSWRSAHQ
+REQLAEQALQLEAQAADLARKAVIEERLRIARELHDVVAHHISVIGIQAGAARRVLEKKP
+DAAAGALQTIESSSRDAVAEMRSLLGVLRSSDSETDGPAQRQPEPGLEEIPQLLEDFRNN
+GLDVKFHRAEHEPGVLENLSAPLALSVYRTIQESLANIRRHSTAGSAVVALRSGSTPAAP
+EAPSLGWVEVETVDDGRPRQGTGGTGYGLRGIRERAALHGGITDIGPRDGGGWRVRVRFT
+LR
+>tr|A0A0P7GSL9|A0A0P7GSL9_9MICC
+MARPKNQTARRSEIVAAAQRAVAKHGPDGARLNRVAEEAGLTSGAVLYYYPNLDDLILEA
+NREVMERFYEGRVQMLASMPDDPGTRLLALIRSGLPSGPDDVQVAMLCALGGSAANHPVT
+ASLLTTLYERQVGMYQVVLEQGAARGEFHLAQDALTVARNLVALEDAYGYRIIARHPSID
+SETAAALIADYARIATGHELTVS
+>tr|A0A0P7GE36|A0A0P7GE36_9MICC
+MELSYCTNVHPAEDLDGVIRQLREYAGPIRRRAGLDVLGVGLWLPAGLARRLAENPGDRE
+LLRGVLSEQGLQIHTLNAFPYGGFHNEVVKTDVYLPTWAQPERLRYTLECAEVLAALLPE
+GTAGSISTLPLGWREPWTAEDDAAATTAFALLCEGLKALRERTGKIVRVAVEPEPGCALD
+NVSDVVDWLAARISRGIDPDCVGLCLDTCHLAVSFADPLDAVRSVGDAGLRIVKVQASAA
+LHVDEPSTKAARRALERFAEPRYLHQVRELDLDGTILTADDLPQALGELPGRGPWRIHFH
+MPLHLVPVPPLDTTVEVLERTVAEVGSLPYGEEVHLDIETYTWSVLPGKTADLVEGIAGE
+IAWAQSRLLAPAAS
+>tr|A0A0P7G6V0|A0A0P7G6V0_9MICC
+MSKLKTESLAGLAGSVAVPSYDRSAVRTGIVHFGVGGFHRAHQAMYLDRLMNEGKALDWG
+ICGVGVLPGDAAMKSVMDAQDCLYTLVLKNPDGTREGRVIGSITEYLLAPEAPEAVIEKM
+AAEDTRIVSLTITEGGYNFHHVTGEFDAANPAVAADLEPGAVPATVFGLVTEALLRRRER
+GLAPFTVMSCDNIQGNGDVARRMFTAFADLRDPELGEWMRANVAFPNSMVDRITPVTTDA
+DRDMVAADFGIEDAWPVVSEDFEQWVLEDDFPLGRPPFEDAGVQVVDDVEPYELMKLRLL
+NASHQGQCYFGYLAGYRYAHEVCQDPLFARFLMDYMDREATPTLKPLPGVDLDAYKQKLI
+ERFSNEHVRDTLARLCAESSDRIPKWLLPVIRENLDSGGDIHRSAAIVASWARYAEGTDE
+QGAAIDVVDRLRERLMAAAARNGEDPLAFISQPELFGDLASNERFVQAYTQALEFLHDAG
+ARATVEQLVHGHGNREGS
+>tr|A0A0P7GWZ0|A0A0P7GWZ0_9MICC
+MDEWGPEKIVAVSDTKTGMKGVLVIDNTARGIGKGGTRMLPTVSVREIARLARVMTWKWA
+GVDLFYGGAKAGIQADPQSPYKEEILRAFVRRLSNEVPAEYVFGLDMGLTEDDAAIINDE
+LGDRGAAVGTPYELGGIPYDKLGITGYGVAEVVDQAAVRIGLEGRRVALQGFGAVGHAAA
+ARLHALGYSVVSISTAAGALHDPAGLDVPLLLQLREDRGDTLVDALPQLRIEPGSELLVD
+ADIAVPAALQDVITVNNAADIKARLLVEGANLPTSPDAQALLHRRGVTVIPDFVANAGGV
+VSAAFAMDARYSAFRPETEQIFTTVSAKLRTNADQVLDETLRRGGTSHEAARAMAQERVL
+VAMELRGKPRRNRTAFPALSASR
+>tr|A0A0P7HM71|A0A0P7HM71_9MICC
+MSASENAITYASAGVDVEAGDKAVELMKAAVKATHNNSVIGGVGGFAGLYDVSRLLTYKK
+PLLATSTDGVGTKVAIAQALDIHHTIGFDLVGMVVDDIVVVGAEPLFMTDYIACGKVVPE
+RIADIVRGIAAACEVAGTALVGGETAEHPGLLGVDEYDVAGAATGVVEAADLLGPERVRE
+GDVVIAMASSGIHSNGYSLVRRVINHAGWQLERQIPELSRTLGEELLEPTRVYAADCLDL
+ARYAPAGVHGFSHVTGGGLAANLARVLPKGMEATVDRSTWALPPVFKLISELGNVPLPDL
+ERTLNLGVGMVAIVDAAGADAALTRLAERGVPAWTMGTVGAAGDPETGNPDYVQGAKGVD
+GGAVRLVGSYA
+>tr|A0A0P7GL10|A0A0P7GL10_9MICC
+MASATIPGGEQPPVKAKKKDRTHLLYIAVIAAVVLGAVIGLVAPEVGKSMKPLGTAFIGL
+IKMMIAPVIFCTIVLGIGSIAKAATVGKVGGLALGYFIIMSTFALVIGLVVGNFIHPGEG
+LGLEAAGGPAPAAAEDDGGTVGFLLSIIPTTLLASLTGESILQTLFVALLVGFALQKMGK
+AGAPVLKGIGYIQVLVFRILMMIMWLAPIGAFGAIAAVVGETGVQAIVSMATLMIAFYLT
+CILFIAVILGGLMKIVTGFNIFKLMRYLGREYLLIFSTSSSEVALPRLIAKMEHLGVSKP
+VVGVTVPTGYSFNLDGTAIYLTMAALFVASAMGKPLELGEQISLLVFMIIASKGAAGVTG
+AGLATLAGGLQSHRPDLIEGVGLIVGIDRFMSEARALTNFTGNAVATVLIGTWTREIDKE
+QVRRVLDKELPFDEESMNVDAGSGEPEPTEESREVESAVPATGVRG
+>tr|A0A0P7HDF7|A0A0P7HDF7_9MICC
+MEDPQESEDVRQRVHEGKIALVTGASRGIGRRVAERLAAQGAQVVIGYRKNADLAKETVA
+ELQRVGGGGLAVQADIENPEDIVRLFDAAAAEYGRLDYFVNNAAAAAFKKVVDLKTHHLD
+RAYAVNVRPFVLGAQEAVKLMDDGGRIVALTSYGSVRAFPTYAALGSYKAAVESFVRFMA
+VEFAGYGINVNAVNGGLIDSDSLEYFYTMDGMAPMDSVISRIPKRRPGTVDEMAATVDFL
+LSPGAEYITGQSLAVDGGLSVIAPPFFSETTPPVALPERPRRPHPED
+>tr|A0A0P7HDB7|A0A0P7HDB7_9MICC
+MKLEGEDETPVARRISEALSASTPSGRRIARELLNDYPRAGLESAARLAGRAGVSAPSVI
+RFVSSLGYAGYPEFQDRLRSELAHRHVSALEQFGGSHSTGQGSGSLRDAGRVLSRSVQDG
+FDVLPVGAFEDAVALLARTDRKVSVIGGRFSGFLAGYLAVHLGLMRPGVDAVPDGSLSRA
+ARVLDLGAADVLVVFDFRRYEEETVNFGRRAAKQGATLILITDQWLSPLASDAAVTLPCP
+VESTVPFDSLTPAMAVTEALIAALAAALGTAARDRLAAAEEAYPISPGAEENRAI
+>tr|A0A0P7GIH7|A0A0P7GIH7_9MICC
+MQQEAPDMSSAPPGSLPGAAARKPKRSPLRRRRLEVEDVNVVDHAMMKKAVGGTVVGNTM
+EWFDIGVYGYLAVTMGAVFLSDADPASQLLFSLGVFAATFVARPLGGVIFGRIGDRIGRQ
+KTLATTLILMAASTFAIGLLPGYAQIGMAAPVLLILMKLLQGFSTGGEYAGATTFVSEYA
+PDKRRGFLASILDLGSYMGFALGALTVSTLQLTLSEETMLDWGWRIPFLIAGPLGAVAIY
+FRLKIEESPAFQATLDAQQEQAASAAGKAADKDAVAQGTFGIFRTYWRPIVLAMVLVAAA
+NTVGYALTSYMPSYLTDSKGYDPVHGTLLTIPVLVAMALCIPLTGRLSDRIGRRPVLWMG
+AGSTIVLAVPSFVLIGLGPIWSTLLGLALLAVPVTFYVANLASALPALFPTASRYGAMGI
+AYNFAVAIFGGTAPLIMQGLITITDNDMMPAYYLMATSAVGAVAIGIMKESAKRPMPGSM
+PSVATEAEARELVETQDENPLLDVDSLPFDAAGVSAPPADQGDREPVR
+>tr|A0A0P7GNV6|A0A0P7GNV6_9MICC
+MSNAPLTARNTIQEWLDHPVGGPVLRGFLAQTGSDEASLGPALGLKLQQLVDLSQGQMPQ
+AAVDEMVKAANGGVMPELEETVLPTVPGRFENKTVIVTGAGSGIGRATAARIAREGGRVI
+AVDIAETKINELAEELGDAIVPVAADLTDLAAVDRIIAAAGGQIDGLANVAGINDDFSPL
+HEVSDAMWQKVFAVNVDGLVRLTRAVLPGMLEAHKGAIVNVTSEAGLRGSASGVAYTASK
+HAVVGITKSAAFMYAKEGIRVNAVAPGGVATGIPMGGKVSEYGEARLTPARVMIPGLASA
+EDLAASITFLLSDDSVNINGAIMPSDGGWSAG
+>tr|A0A0P7GEC1|A0A0P7GEC1_9MICC
+MSDETPEVPGGELEPLSGNVLSDRVEQIDLQTEMQRSYLDYAMAVIVGRALPDVRDGLKP
+VHRRVIYAMYDGGYRPDRSFNKCARVVGEVMGQYHPHGDSAIYDALVRLIQDWVMRAPLA
+LGQGNFGSPGNDGAAAPRYTETKMAPLAMEMVRDIDEETVDFMDNYDGRNQEPTILPARF
+PNLLVNGSSGIAVGMATNIPPHNLREVADGVQWYLEHPEASNEELLEELIKRVKGPDFPT
+GATILGHKGIEDAYRTGRGSITMRAVVNVEEIQGRTCLVVTELPYMANPDNLAIKIAELV
+KDGKITGIADMRDETSGRTGQRLVIVLKRDAVAKVVLNNLYKHTQLQDNFGANMLAIVDG
+VPRTLSLDAFIRHWVTHQLEVIVRRTRYRLRKAEEVAHILRGLLKALDALDEVIALIRRS
+STVDEARTGLMQLLDIDELQSQAILDMQLRRLAALERQKIQDQHAKLEVEIAEYNAILAS
+EERQRSIVSEELAEIVDKHGDDRRTKVLMGYDGDMSMEDLIPEEEMVVTITRGGYVKRTR
+SDNYRAQHRGGKGIRGAQLRGDDVVEHFFVTTTHHWLLFFTNLGRVYRAKAYELAEAGRD
+AKGQHVANLLAFQPGEHIAQVLDLPDYEAAPYLVLATKRGLVKKTQLSDYDTNRSAGVIA
+INLREGDEVVSAQLVSETDDLMLVSRKGQSLRFTATDEALRPMGRATSGVTGMKFREDDE
+LLAADVVTEDSYVFIVTEGGYAKRTSVDEYRVQGRGGLGIKVGKYNEDRGHLVGAMIVQE
+EDEVLVVMQGGKVVRSAVSGVPAKGRDTMGVIFAKPDKNDRIIAVARNSERDLAVEADED
+DAAAEGESVEATVDEVPLSTDETAGRDAQSAEDGGSE
+>tr|A0A0P7G7D7|A0A0P7G7D7_9MICC
+MDGSLTLTLLRYGFLILLWVMVLGVVGAIRRDLVLGARNRTGTPTARQVRKNPELERVAA
+PPAKVQAREMVVTEGPLRGTTLELASSPILLGRAQEATLVLEDDYASGRHARLFPQGSRW
+FIEDLGSTNGTFLGGSQLTRAQPVDPGVPIRIGKTVIELRP
+>tr|A0A0P7GCQ5|A0A0P7GCQ5_9MICC
+MSHSSPALPENQQPHSIWRGVHQTLGKDTTGGALLLGATVIALILANSPLADFYESVREF
+SFGPEALHLNLSVAAWAADGLLAVFFFVVGLELKEEFVAGKLRDPRTAVVPIVAAMGGVA
+VPALIFTLINLNAGGDALNGWAIPAATDIAFAVAVIAVVGRMLPPALRTFLLTLAVVDDL
+LAISIIAVFYTDDIAFLPLLAALLPLAVFAVLVQRGVRTWWVLIPLGVCVWALIHASGIH
+ATVAGVLLGFMVPVVAKGRAKVPAGTREDGTPLFEGLAAHFADRWSVFSSAIAVPVFAFF
+SAGVTVGGFSGLLESLGDSIALGIIGGLVLGKAIGITGGTFLITRLRGITIDKSLAWIDI
+VGMSFIAGIGFTVSLLVGELSYDPSGAASDHMKVGVIVGSMISATIGAVILTVRNRYYRA
+AASDAPGAASPLQR
+>tr|A0A0P7GTA1|A0A0P7GTA1_9MICC
+MARGIYVSAMTPGSGKSLISLGLADMLQRHADRIGFFRPIVEGNDRDNDPMVRLMQRRFD
+LSTSNCRGGLTRPELRALLVAGERGEVDARCLAVYSEIAANCDVVIVEGTDLSGHDVALE
+FDLNARLANNLGAMVMAVVNARDMGVEEAADAVDVARGQLAAAKCDLLAVMVNRAEESAV
+DELRAHVRPGASHRPVYVLPELNEISQPSVSEVAKALDARQIAGSRSLERDVTGVKVAAM
+TVGNFIGQLEDGSLVIAPGDRADVMVAALASSFSAEFPVPSGMILTGGLPLEAGILALLA
+QAPFPVFAVDSDTYAAARDVSNVRGEIATGQSRKVAAALGVWSRYVDENELLERLELPRP
+EKTTPLRFLNELIVRARTNRRHIVLPEGLDVRILRAAEILRRRDVCALTLLGPADQVREL
+AASEGIDLSGITVINPATSGMRDDFAREYQQLRAKKGVTLEEAGERMLQGAYFGTMMVKL
+GRVDGMVSGAAHTTANTIRPALEFIRTRDGVQIVSSVFLMLLQDRVLVYGDCAVNPDPDA
+GQLADIALASAATAEQFGIPPRVAMLSYSTGASGKGDAVEKVRQATELVRKARPDLPVEG
+PIQYDAAVDASVAASKAPGSSVAGQATVFIFPDLNTGNNTYKAVQQSAGAVAVGPILQGL
+RKPVNDLSRGCTVDDIVNTVAITAVQAQED
+>tr|A0A0P7HVC1|A0A0P7HVC1_9MICC
+MVASSTSNNATATTPENAASRISFAKIHEPLDVPNLLALQTDSFDWLVGNERWKERLRKA
+QEEGDAGFATTSGLADIFEEISPIEDFQGTMSLSFSEPEFADPKYTMAECKDRDATYSAP
+LYVKAEFMNNNTGEIKQQTVFMGDFPLMTDKGTFVINGTERVVVSQLVRSPGAYFERAAD
+KTSDKDIYTAKIIPSRGAWFELEIDKRDQVGVRLDRKRKQSVTILLKALGWTEGQILETF
+GEYDSIRATLEKDPTETQEDALLDIYRKLRPGEPPTVEAAKTLLENLYFNPKRYDLAKVG
+RYKINRKLGVEKPIGDSDASVLNIDDIVAMIKFLVALHAGEKTIPGKRDGQDVDIRVEVD
+DIDHFGNRRIRAVGELIENQIRTGLSRMERVVRERMTTQDVEAITPQTLINIRPVVAAIK
+EFFGTSQLSQFMDQNNPLAGLTHKRRLSALGPGGLSRDRAGMEVRDVHPSHYGRMCPIET
+PEGPNIGLIGSLASYARINAFGFIETPYRKVVDGVVTDQVDYLTADDEVERTIAQANAPL
+REDMHFEEDLVLVRARGGSGEPVLVEPEGVEYMDVSPRQMVSVATALIPFLEHDDANRAL
+MGANMQRQAVPLLRSERPVVGTGMEKYAAIDAGDSVTAVKAGVVTEVSADLVTVMNDDGT
+ETSYPIMKFARSNQGNAYNQRVIVSEGTRVEVHDVIADGPSTDQGELALGKNLLVAFMSW
+EGHNYEDAIILSQRMVSDDVLTSIHIEEHEVDARDTKLGAEEITRDIPNVSEEVLSQLDE
+RGIIHIGAEVEAGDILVGRVTPKGETELTPEERLLRAIFGEKSREVRDTSLKVPHGESGT
+VIGVRIFDRDNDDELPPGVNQLVRVYVAHKRKITDGDKLAGRHGNKGVISKILPIEDMPF
+LEDGTPVDIVLNPLGVPGRMNVGQVLEIHLGWAAKQGWKIEGEPDWVKDLPALPRETGPT
+TVATPVFDGASEDEITNLLDSTNVTRDGDRLIGASGKTRLFDGRSGQPFPDPISVGYMYI
+LKLHHLVDDKIHARSTGPYSMITQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQELLT
+IKSDDIHGRVKVYEAIVKGENIPEPGVPESFKVLIKEMQSLCLNVEVLSTEGNTIEMRDS
+DEEVFRAAEELGIDLSRAEPSSVEEV
+>tr|A0A0P7FFK8|A0A0P7FFK8_9MICC
+MSEPRRLEVLRAIVEDYVHSREPVGSKALVERHHLGVSSATIRNDMAVLEEEGLIVAPHT
+SAGRIPTDKGYRLFVDQLSDLKPLSAAERRAIQTLLEGAEDIDDILDRTVRLLSQLTNQV
+AVVQYPHLGNAKVRHIEFVLLAPAQVLVVLISTTGRVEQRVITVPGPVTEQALHELRQHF
+LQALAGTTLTRITSHLTDAVATVPVQLRGVAQALGQSLEQLAGINREDRMVMAGTANLAR
+ATGDFPLTIGPILEALEEQVVMLRLLSEMEQDARGVSVRIGSENPYGSLSEASVVATGYG
+PDASAMVGILGPTRMDYPNTMAAVRAVARYLSRVLNT
+>tr|A0A0P7HM60|A0A0P7HM60_9MICC
+MGKNRLITIVLAVSLVGLPLSACSAEERPGPEEAVESLADGLSRLDVTGNEFAGSTVEAV
+NGMLLHLVSGMDIEPSVTVEGIEEVSGNEARATLHYVWDVNASPEDYTYNTTVTLERGPD
+SGWETRFRSTTVHPDLQPGQRLIRESSSLPRADILGAGGDVLVRHWPVWRVGLDKSVLGE
+HEYASAAGYLAVYLGLDPAAYTAEVLGAGPKAFIEAVTVRQDKVIPAFEKDIATVPGAAA
+LSERRVLAPSPTFAAALLGAVGEATPEMAADAGIPLAAGDLIGVSGLQLEYDSMLRGADA
+VAVRITDADKNRSKPLFEAAAVPGVPLKTTLDAGVQALAEAALSDQSAGSALVAVQPSTG
+NVLAVANGPRSKGAQTALLGEFSLGSAFTPAASLAALRSGNAPGGTGSATAGSEQELDAA
+ARSLGLGVEPNLGTPAFSGTAAGEPESTGEARQAAANEGNTVVSPFTLAVAAASIARGER
+VEPALVLNAADAPAGSGTTAGEEPLPDASGAPEPLTAAESKALQSMMRGVAEEVLPDTDV
+LALAGTAVSGGGTPRPHAWITAARGDIAVALLVEGSDPEQAAPALQAFLDGL
+>tr|A0A0P7GSN6|A0A0P7GSN6_9MICC
+MSHILLLTNSPGSSVDVLPALELLNHRVHIVPAEPTALLDIDPCDVVLIDARKDLVGARS
+LTQLLKATGLGTPLVLVLTEGGMAAVAANWLADDVVLDTAGPAELEARLRLAVSRTQAAA
+EDTNSEIHASGVVIDEASYTARVSGTALNLTYKEFELLKYLCQHPGRVFTRDQLLHEVWG
+YDYYGGTRTVDVHVRRLRAKLGPDHENLIGTVRNVGYRFAKARIHEDQAAGARHEA
+>tr|A0A0P7GTU1|A0A0P7GTU1_9MICC
+MRRAVCPGSFDPIHNGHLEVIARAANLFDEVIVAVSTNYAKKYRFSEEERLEIAAETLGS
+LAGISVLPMGQGLLADFCREHGASAIVKGLRSVQDYQYELPMAVMNRQLTGVETVFLAAE
+NSYTHLSSSLIKEVAALGGDITDFVPSTVLKRMV
+>tr|A0A0P7FAX0|A0A0P7FAX0_9MICC
+MANDNELGNELDNTEPAPQEDSEALAPHEYGANEITVLEGLEAVRKRPGMYIGSTGPRGL
+HHLVYEVVDNSVDEALAGYCDRIDITLQADGGVRVTDNGRGIPVDMHPTENMPTVQVVMT
+ILHAGGKFGGGGYAVSGGLHGVGISVVNALSARVETEVKRQGFVWRQTFENGGHPVGGLR
+KGEETEETGTTQTFYPDPEIFETTEFDFETLRARFQQMAFLNKGLRIVLTDERQLDDVTE
+EIAEDGAEDDAPKHRSVDYMYANGLLDYVHHLNSSKKVEVIHDDIIAFETEDNDKKMAVE
+MALQWTTAYSESVHTYANTINTHEGGTHEEGFRAAMTSLINRYAREKNIIKEKDDNLTGD
+DIREGLTAVISVKIAEPQFEGQTKTKLGNSEVKGFVQRVVTDQLGDWLERNPGPARDVIR
+KSIQASQARLAARKARESTRRKGLLESGGMPGKLKDCSSKDPSKSEIYIVEGDSAGGSAV
+RGRNPETQAILPLRGKILNVERARLDRALSNAEVQSMITAFGAGIGEDFDVEKARYHKIV
+LMADADVDGQHITTLLLTLLFRYMRPLIEQGYVYLAQPPLYRIKWSNHPHDYVYSDRERD
+EVVARGLANNQRLPKDNGIQRYKGLGEMDYTELWDTTMDPDHRTLLQVTMDDAASADQVF
+SVLMGEDVESRRNFIQQNAKDVRFLDI
+>tr|A0A0P7FZS3|A0A0P7FZS3_9MICC
+MAFRAFYALPAENFSTDTGQHTNAVYGFTSMLINLIKNEEPTHIAVAFDLDTPTFRTEEY
+AEYKGGRNKTPEEFHGQVDLIIKVMEAMRIPTISLDGYEADDILATLAEQAAGRNWDVMV
+VSGDRDAFQLVNDRVTVFYPKKGVSDLPRMDAAAVEEKYLVPPDKYSDLAALVGESADNL
+PGVPGVGPKTAAKWIKLYGGLEGILEHLDEIKGKVGDSLRANIEDVKRNRRLNRLLRDLE
+LPVDLDAMAARRPDREAIEELFDALQFNALRKRLFDVYGEEETPGDHPEMLPPEHTTITA
+ADALEAWFRTTNQKPAGVRLVTEGSGEAREAVGLAVVTDESAAYVPLTELDADAESVLAA
+WLADQNAPKVVHDFKDVYKLLSRRGLHLDGEVDDPAISGYLIQPDRRSYDLPDLSLQHLK
+LSLESSAASGNQLELSLDGEDTAAPAVMEAFASLRLSEHFSGLLVERGANQLLGGLELPL
+AEVLAEMELAGIAVSTDKLDRLLDEFGRTIDQAKEEAFAVIGKEINLGSPKQLQVVLFEE
+LGLPKTKKIKTGYSTDADALADLIVKTNGHPFLAHLLAYRDASKLRQTVEGLRKSVSDDG
+RIHTTYAQTVAATGRLSSINPNLQNIPIRSEEGRRIREVFVVGEGYETLLTADYSQVEMR
+IMAHLSGDESLIQAFRDGEDLHRFVGSHIFGVRPEEVTSAMRSKVKAMSYGLVYGLSSFG
+LSKQLSIPVDEARTLMRDYFTRFGAVRDYLRGVVEQARKDGYTSTIEGRRRYLPDLASTN
+RQLREMSERAALNAPIQGSAADIIKKAMLGVDAELRKQGMKTRMLLQVHDELVLEVAPGE
+REAAEKLVREQMAGAADLSVPLDVSVGWGASWHEAGH
+>tr|A0A0P7GCB6|A0A0P7GCB6_9MICC
+MLGGLQTSLVLTVSSLLLGLPLGLLLSFGVVTPNRVLRWISVFFVEVGRGAPALVLLQLM
+YYGLPNVQITLSSLVSACLALTWTTAAYTAELIRGGIQAVPSGEVEGADALGLSAGDRLR
+FIVIPQGLRIALPSLMGFAVLLFQATSLAYTVAVPELMSQAYSTGSSTFKYLPAFIAAGI
+LYAAISIPATWLSVLAEKRMSRHL
+>tr|A0A0P7G721|A0A0P7G721_9MICC
+MSEPNTTVADPTDTPPGSSSSSSGTNPLKNALGGSAGRSLGLVVALGLLVAVGAITSGDR
+FLNVENWLTILRYASILGVVSIGVTFVITAGGIDLSVGSVLGLATVVASLTSVQLAATQS
+SWLLMVLVALAVGAGVGLLNGVVIAYGNVVAFIATLATLVGARGLAELISGRSTQIVTNR
+DFSKAMRGEFLGIPVLVWIFILAAAVGWFLLNRTTFGRRTVAIGGNREAARLAGIKVKRH
+LVALYVLSGLFAGIGAVMMLGRTTAGTSTHGTLLELDAIAAVVVGGTLLIGGRGTIMGTV
+LGVLIFATLTNIFTQNNLDTSVQAIVKGTIIVVAVLLQQRFATQRPSKRGG
+>tr|A0A0P7HLS3|A0A0P7HLS3_9MICC
+MDAATVRFIDGARLRRALSPSGAVDALHTALLSGLDPEKDSPRTRVELPSGQFLQMPSAF
+DGAVGTKLLTITPENASRNAPVIQGLYVLFGGPNNEPRAVLDGIELTNLRTSAVSAFGAR
+LLVESDGMRIVVFGTGVQAWEHIRTFDDVFTISEVAVVGRNPEAAASLAARAQRELGLAA
+RAADAGAAAQADVIICCTAAREPLFDSGLVSSNTVVIAVGSHEPSAREVDEALMGRSAVV
+VESCDSALREAGDVIQAVQLGAMADPPDLITLTDLVTGRRSRREGVPAVFKTTGMPWEDL
+AVARAVAAADLGQPVRITK
+>tr|A0A0P7FB70|A0A0P7FB70_9MICC
+MSLPAPSPAPESVPDIRQSVLATLRSPRLLKTEVLAGLVVALALIPEAIAFSVIAGVDPR
+MGLFASFTMAVTIAFVGGRPAMISAATGAVALVIAPVVANYGVQYLVPTVILAGVLQILL
+ALVGVAKLMRFIPRSVMVGFVNALAILVFSSQLPELIGVPWLVYPVTAVGLLIVFLLPRL
+TTSVPAPLVAIVLLTIAAVAAGWNIPTVGDKGELPESLPALLFPDVPLNLETLKIIAPYA
+VAMAFVGLLESLLTAKLVDDITDTRSSKPREAAGQGIANIVTGFFGGMGGCAVVGQTMMN
+VKASGARTRISTFLAGVFLLILVVVLGDIVALIPMAALVAVMIFVAYAAFDWHSIRPSTL
+RRMPKSETAVMLITVLATVLTHNLAIGVGAGVLAAMVLFARRVAHFVTVQRTVADDGASV
+TYAVQGELFFASSNDLYTQFEYALDPSDVVIDLSGAHVWDASTVAALDSIIEKYRSRGKS
+VEVTGLNQASLSIRDRLTGELP
+>tr|A0A0P7HVF7|A0A0P7HVF7_9MICC
+MLSAIGRAFRTPDLRRKLLFTLGIITIFRMGAFIPAPGVDYGNVQQCLALGATSGGLYEF
+VNLFSGGALLQVSVFALGIMPYITASIIVQLLRVVIPHFQALYEEGQQGQSTLTQYTRYL
+TIALGLLNATTVVSLARSGALFNNMCSVPIIPDDNIITILLLIITLTAGTGLIMWMGELV
+TEKGVGNGMSLLIFTSIVASFPSALGAILSAQGWTIFLGVIAIGIVTVALVIFVEQSQRR
+VPVQYAKRMVGRRTVGGTNTYIPIKVNMAGVIPVIFASSMLYLPSLLAQFNTPSDGSAPP
+EWVVWINNYLTSGDHPLYMAVYFLMIVFFTYFYVSITFNPEEVSENMKKYGGFIPGIRAG
+RPTAEYLQYVLSRITLPGAMYLGIVALIPLIALVLVGANQNFPFGGTSILIMVGVGLETV
+KQIDAQLQQRHYEGLLR
+>tr|A0A0P7HIU3|A0A0P7HIU3_9MICC
+MSVPEQFTLIVDGEETTVDTGTTGAQLFFERREVVVMRVDGVLKDLDTPLAPGQSIEAVT
+IDSEDGLNVLRHSTAHVMAQAVQQLRPDAKLGIGPYIKDGFYFDFDVAEPFTPEDLKTLE
+KMMQKIVNSNQKFARRVVSEEEAREAMANEPYKLELLGKKDGADEAGEGANIEVGAGEIT
+IYDNVDRKSGDVIWCDLCRGPHLPNTKLISNAFALTRSAAAYWLGNQANQQLQRIYGTAW
+PTKDALKAYQERLAEAERRDHRKLGTELDLFSFPDELGSGLPVFHPKGGIIRKAMEDYSR
+QRHTEAGYEFVYTPHITKGHLYEVSGHLDWYRDGMFPPMHVDEVTDPETGEVTKPGQDYY
+LKPMNCPMHNLIFRSRGRSYRELPLRLFEFGSVYRYEKSGVIHGLTRVRGMTQDDAHIYC
+TREQMKDELTNTLNFVLDLLKDYGLDDFYLELSTKDPEKYVGSDEVWEEATRTLAEVAEA
+SGLDLVPDPGGAAFYGPKISVQARDAIGRTWQMSTIQLDFNLPERFELEYQAADGTRQRP
+VMIHRALFGSVERFMAVLTEHYAGAFPAWLAPVQVVGIPVAEAFNDYMYDVVDKLKAAGI
+RAEVDAGTDRFPKKIRTASKEKIPFVLIAGGEDAEAGAVSFRFRDGSQDNGVPVEEAVKR
+IVEAVRNRDK
+>tr|A0A0P7GDC4|A0A0P7GDC4_9MICC
+MESFCSYLTSERGRSEHTVRAYEGDVAGLLDYAAGLGLTTLADIDLHVLRSWLGTLSDSG
+LARATIARRAATVRSFTGWAMREELIAADPALRLKAPKRTKTLPGVLRPAQVESLFEALA
+EAAAEGGPVALRDRAVVELLYATGIRVGELASLDVDDLDQDRRTLRVVGKGNKERTVPYG
+LPAALAVDDWLRRGRPALAGDGSGYALFLGQRGRRIDQRQVRSVTAALFAALGDTSATGP
+HALRHSAATHLLDGGADLRSVQEILGHSSLATTQLYTHVSVDRLRKSYQQAHPRA
+>tr|A0A0P7GHX2|A0A0P7GHX2_9MICC
+MTDHDPYRILTVCTGNICRSPMAERLLQAGFDSFAPGEFSVTSAGTGALLGHGMEPHVAG
+YVNVFGGDSSNFVSRQLSEEVLADQDLVLAMTRGHRGRVLELVPGLLRRTFTLRELARLL
+PDVDGDPNASAPERWRNAVSRALRLRSAHPAGPGGDDVTDPFRREDSVYLQMVRELTPAV
+RDLLAWEAQYR
+>tr|A0A0P7GTI5|A0A0P7GTI5_9MICC
+MIALALPAANEEGFVPPTLDEMHLPEILPWGAEYGEGFGKQMLLILLSVALISWFFIAAA
+RKRQLVPGRLQFLGEFSYNLVRNSIGRDIIGEKDFRPFIPLLFSLFFFILLNNLWGSIPL
+AQLPTTSHVGTAYALAAIVYFTWIILGIKKHGIKYFKYATVPSGVPMAILPLVVLIEIIS
+TFLVRPITHSLRLFATMLSGHLIIMLAASGTEFLLLEAEGLLKPLGALTLVGGVAMFLFE
+VLIQCLQAYVFTLLTAIYIQGSVAAAEH
+>tr|A0A0P7HE17|A0A0P7HE17_9MICC
+MERTLFEEDHELFRDLAREFNSREVAPGYPTWETEHMMPRRLWKAAGEQGLLGLAVPEEF
+GGAGMPDYRYRVVLDEEFARANHLAVGLAFHLHDDMVLPHLLAYGSAELKERWLPQMVSG
+DKVTSVAWTEPGAGSDLRGIRTRAVRSADGNWILNGQKTFIGNGISGDAALVLARTDGGT
+GRGGPKSFSMFMVEKTAGYTTGRQLDKMGLKASDTAELYFDDVLVPEVNLVGEEGRGLEY
+AAGQLPQGRLAIAVASSAVARTVYEATAAYTAERGAFGARISDFQNTRFALADILTEVEV
+TESYVDSAVQAFNSGALDAVSAAKVKLWASERAKSVTDRCLQLHGGYGYIMEYPVAQAFL
+AARLLTIFGGTSEIMREVIGRSITRPATQEGKQNP
+>tr|A0A0P7GLP3|A0A0P7GLP3_9MICC
+MSSKPAASRKVPGDHRRALRRATWIATLGGFLFGYDTGVINGALPYMQDDLGLTPFTEGL
+ITSSLLFGAAFGAVGAGQLADRLGRRRLLLILAVVFMAGAAGTAAAPGVGLMVLARVVLG
+LAVGGASAVVPMFLAELAPASRRGQLVTRDQLMIVTGQLAAFVCNAVIGNLWGEEGNVWR
+WMLLVATVPAVALWIGMHFVPESPRWLGSKGRYAQMLTALQEIRSAEEAQAEYEEIKGLA
+GTTRTGRLKDFAEPWLLRVLLIGMGLSIVQQITGVNAIIYYGTQILADAGFGTEAALTAN
+IANGVVSVAAALIGIWLLGKVSRRPMLITGLLGTTTTLALIGAASILMPEGTARGFTVLS
+LTVLFLAFQQGAVSPVTWLMLAEIFPLRVRGLGIGLSVFVQWMANFAVGFSFPMLMAALG
+ISNTFFIFVALGICAVLFVKRFMPETRGLSLEEVELKLRKA
+>tr|A0A0P7GW57|A0A0P7GW57_9MICC
+MDLTAGHVWVMVSAALVLLMTPGLAFFYGGMTRAKAALNMMMMSFVSIGLVGVVWVLWGF
+SMSGGDGVAGLFGNPFASFGLEDLIGTEDMIGAGFGATFAIITVALISGAIADRAKFSAW
+AVFVPVWVTLVYCPLAFMVWGGGLLGEEGAIGSVVGEAIDFAGGTVVHINAGVAALVLAL
+IIGKRRGFGSDPSHRPHNIPFVMLGAAMLWFGWFGFNGGAAGTAEEAGLIWVNTLAAPAA
+AMVGWLITERVRDGRPTSLGAASGIVAGLVAITPACASVSPIGALGLGLVAGILAALAVG
+LKYKLGYDDSLDVVGVHLVAGLVGTVAIGFIALPVDGEGGGLFYGGGFAQLGAQIVATVV
+AIVFSAVMTLIIGLAIHKTMGFRVTEEQEINGVDLSEHAETAYELGGIGVGGSFRPVAES
+TTAPIKESVNS
+>tr|A0A0P7G7G5|A0A0P7G7G5_9MICC
+MSERFDTVDIIRVKRDRGTLSPEQIDWTIDAYTRGVIADEQMAALNMAILLNGMNREEIS
+RWTAAMIASGERMDFSSLGKPTSDKHSTGGVGDKITLPLAPLVAVFGVAVPQLSGRGLGH
+TGGTLDKLEAIPGWRAALSNDEMMAQLADVGAVICAAGAGLAPADKKLYALRDVTATVEA
+IPLIASSIMSKKIAEGTGSLVLDVKVGSGAFMKNVDDARELARTMVTLGKDAGVNTVAFL
+TNMSTPLGLTAGNAIEVQESVEVLAGGGPSDVVELTVALAKEMLAAAGRPDADPAAALKD
+GRAMDVWRRMISAQGGDPEAELPVAKEAETIVASADGVLTELDALSVGVAAWRLGAGRAR
+KEDAVQAGAGVRLHAKPGDTVKAGQPLMTLLTDTPEKFDRAKEALEGAAVISPEATAIQP
+LIIDRIS
+>tr|A0A0N8HXT9|A0A0N8HXT9_9MICC
+MASFVDRVVLHVSGGAGGHGCVSVKREKFKPLGGPDGGNGGDGGDVILRVDGQTTTLLDY
+HHAPHRHAGNGGPGMGDWRAGKTGETLVLSVPEGTVVKSKDGKVLADLVGMGAEYIAAAG
+GQGGLGNSSLSSQKRKAPGFALLGTPGDERDIVLELKSIADIALVGFPSAGKSSLIAAMS
+AARPKIADYPFTTLIPNLGVVQAGDVRFTVADVPGLIEGASEGKGLGHHFLRHVERCAAL
+VHVLDCAALEADRDPLSDLDVIEAELEKYEVDMSYAGADGDVVPLNQRPRLVALNKVDVP
+DGRDMAEFVRPELEKRGYRVFEVSAASHEGLRELGFAMAAIVAEARKTVETAPPRIAAPV
+VRPRSVNAKGGFTIRREERNLEPLFRVLGEKPVRWVQQTDFTNDEAVGYLADRLAKLGIE
+DQLFKAGAKPGDAVVIGEGDGVVFDWEPTMIGGAELLAASPRGSDIRIEDFSRPTRNEKR
+EDHQQRKDARAAARAELEAERKAGIWTESVNYKHSRPTAGDDD
+>tr|A0A0P7FXC9|A0A0P7FXC9_9MICC
+MSGEELSGDSPALTHVRADGTAHMVDVSAKTETSREATAQAVLKTTAEVVRLLTDGGLPK
+GDAFAVSRVAGIMAAKQTSNLIPLCHPLPITKVTVDFEPGESAVVMKATVKTKALTGVEM
+EALTAVSVTALTLYDMVKAADKHAVISDIMVLAKSGGKSGDWSL
+>tr|A0A0N8HXS3|A0A0N8HXS3_9MICC
+MSESTPGPFRVGVILVAGGSGQRLGYGMPKAQVPLAGEMLLSHALRGVEASGVASYIAVA
+VPAADTALRALCAATPLSCPIEVVDGGATRSDSVRAALRALPEDLDAVLVHDAARALTPV
+QVFHRVTAALAAGAGAVIPAVPVVDTVKAVELAAGAENDPAPARVTGTPDRASLRAVQTP
+QGFDAGLLRRAHAAASDFDEQRAAAITDDAMLAESLGETVHVVEGSAMSLKITTPLDLLL
+AEAVLGGGSSMQED
+>tr|A0A0P7GJK2|A0A0P7GJK2_9MICC
+MDAVRIVEDEVRELIRVRGLDPARQAGEVRRLVEAAVQDYDQRSLLGTLPALGQLDRARK
+QVFDAVAGFGALQPLLDDPTVEEIWINSPGEVYAARDGRSELTPLNLTSEQVRDLVERML
+KSSGRRLDLSSPFVDAALPDGSRLHVVIPDVTRKHWAVNIRKFIVRASRLEHLVELGTLT
+PQAARFLSAAVSGGLNILVSGATQAGKTTLLNCLAASIGARERVVTVEEIFELQLPLRDV
+VGLQCRQANLEGTGEIPLRRLVKEALRMRPDRLIVGEVREAESLDMLIALNSGLPGMCTV
+HANSAHDAVTKISTLPLLAGANISSSFVVPTVASCIDLVVHCVRTPAGRREVTEILALGR
+RVENGVIESTLVFQRVDGRLEASPSALPSPDKFARAGMNLAELLEPAA
+>tr|A0A0P7G8U3|A0A0P7G8U3_9MICC
+MHADTNADDLTPANAYIDVAVEVFRLLADATRIRIVLALREGELSVNNLAEIVERSPAAV
+SQHLAKLRWGKLVRVRQDGNRAFYRLTDEHAMRLVVEAIRQAEHAVEEKPGHHS
+>tr|A0A0P7GKF9|A0A0P7GKF9_9MICC
+MAILTIRIIGDPVLRTRAEEVTEFGPELAKLVADMEETMDDVDGAGLAAPQVGVSLRVFT
+YRIDGVSGHVVNPVLELSDDFQEDQVEGCLSIPGLGYPVPRRRWTRVTGQDKDGNPVTVE
+GEGMLARAFQHETDHLDGVLFIDRLKGEDRKAALRAIRMAEYDSIAERTTAQRAQSVGSS
+FGTFGQSTGA
+>tr|A0A0P7GCA1|A0A0P7GCA1_9MICC
+MLDTKNVSIRSASVGSMDNNVYVLTARNSGAQVLIDAADDFPRIRELLDAGAADLYGGHT
+EASVRMIITTHSHWDHVRALADAAAATGARTAAGTEDVPDIEVPTEVPLSHGDVLDFDGF
+DLEVIALRGHTPGSVALVYRDPEGPAHLFTGDSLFPGGVGNTQKDPERFNSLFTDVVERI
+FEKFPDDTLVHPGHGAGTTLGAERPHLAEWKERGW
+>tr|A0A0P7GIS5|A0A0P7GIS5_9MICC
+MTTTLTENSVAFDAAAARYRPVFARIAAGALRRELSRELPFEPISWLKEAGFGAARIPAE
+FGGDGLNWVEFTELLIELAAADSNIPQALRGHIALVEDQLYHHGRGADRSTWLRRFATGE
+LAGNAWTEPGAGGTATILAESAGKLVLNGLKFYTTGTIFADWIDVTAKRPDGSVVSVIVS
+TRSGGVETQDDWDGFGQRLTGSGTTGFKDAEVDPAHVFAFGDRFPYQTALYQHVLLVSLA
+GIARAAAEDVSRAVRERKRVFGNGNAPLVRNDAQILQVVGEISAKAYAAGATTVQVARSL
+DRAYVARNADSGSEKAANIDAELEAARAQIVLSTLVPEAAGAIFNTLGASSTRAGAALDR
+HWRNARTVATHNPFIYKARIVGDWEVNAAEPPFVWGIGVASADGGTAG
+>tr|A0A0P7GHU3|A0A0P7GHU3_9MICC
+MQGFASQELVGRDREVDAVLSALRSPELRGALIVAEAGMGKSALANVVAGKLAQEMPVHR
+IHASSALTGIPFGALAPLLPVLSAEDTDSPLAVMRALLGRLRPAGAGSGQATPLVVVDDA
+HALDESTADLLSQLMASGRVRMLILTRSITDIPAGIPAQVWSGVIARFHLHPLTDAQVHE
+LCSQVLGGAILSTTSAELARRSGGNPMFILALLAETRRTGSLTERHGVWLMGVNADPPQG
+RLADLLKAQLSGLSSEEREAMEIIALAEPVPVAVAFRLGLHRSVDALTAANLVSVEEAGS
+RLLRPRHPLYGQLVRHMVPAARSARLRQRVLKVLPEDTESMDGLLRSVGWSLDCGATVPD
+ETLLRAAYMANNFFDSDFALRAAREIQDPALQPAARVQTARAHYQRANFDAAQELVTGTV
+EQAADLTTVKLGTLLRVQLHQRLASDVAGLDQARRAWQEAIERIAAEAEAAGTLNDELRA
+DIESSWRGAALLEALIDVAKGAYSSSEAGISSLLEKARSAGDIEAELVSLALLGEIHSAC
+GRAETAMVYTREALGIVNRSDHRFLNYHEFVLHRHLSALLWAGAWDEMANSVNQDLVISS
+RSALRIGGTVDMCLAVRELRRGDMPAALLKLTAAVEGMRTHDPEGHLGLALAIAAQLAAG
+AGDTDTADEMLAECDKAPPRGGLSTRVITRGNRLAAGYARTNDPRILAALRETAEQAEEQ
+GLVAAEFELRCLSMYLGDPTVMNRLLKLEVEGPRGRAVNIFARAVLDHDIAGLLRFAAEP
+ADPDARALGPLALQEALRLAKASGDRTQIQRVQRVISKTDNGTSSSRSSTAPILTRRETD
+VAALVAKGLRNAEIAGRLHLSVRTVEGHIYRIFEKLGIGKREELTAELLQE
+>tr|A0A0P7HDC2|A0A0P7HDC2_9MICC
+MSENRTWAGPSAPERLALLRSAKSIAIVGASDKPSRASYFVATYLLSSSPYKVYFVNPVA
+KEILGQPVYASLADLPETPDIVDVFRRHDDLPTVLEEAKAVGAKTLWLQLGSWHEDVARD
+AEAAGMNVVMDRCVKIEHARFHGGLNLAGFNTGVISSKRQLTA
+>tr|A0A0P7GJH3|A0A0P7GJH3_9MICC
+MDAVFRAMADPVRRILLDELASQGGQTLYELCVRLITNHAVGISRQGVSKHLSVLEEAGL
+IRVEADGRFRRHHLCLEPLTSGVAGWIAGLADGLPPQPPGQNEAEGQEP
+>tr|A0A0P7G429|A0A0P7G429_9MICC
+MSRFGTDWKIHGNGRTVTPGSYVAPDERLSWPRTIGIGAQHVVAMFGATFLVPLLTGFPP
+ATTLFFSGVGTILFLIITAGKVPSYLGSSFAFIAPISAAVNQHGPGGALGGIIMAGATLF
+LIGLAAQLAGTRWIQVLMPPTVTGAIVALIGLNLAPTTRTNYEAGPITATVTVVVILLTT
+VLFKGLIGRLSILVGVLAGYVAAIIQGEVDFSTISDAAWFGLPQFTAPTFHFNVIGLFVP
+VVLVLVAENIGHVKSVAAMTGRDLDPYTGRALMADGVATMLAGSGGGSGTTTYAENIGVM
+AASRVYSTAAYWVAGITAVLLSLFPKFGAMIATIPPGVLGGAGVVLYGMIGILGVRIWVD
+NRVNFSNPINLSVAGVALVVGIANYTWNVGGLTFEGIALGTAATLVIYHGMMAIARWRGT
+MPDEPQEDVGATPSSLG
+>tr|A0A0P7GWT5|A0A0P7GWT5_9MICC
+MQFHHHGYVSGDPRIEPAAGVGLDRPDELPDEVDVLIVGSGPAGMLAAAQLSQFPNITTR
+IIERRDSRLVIGQADGIQARSVETFQAFGFAEEIIAEAYRITEMCFWRPDPENPENIVRS
+GRALDDPTGISEFPHLIVNQARVLDYFARFMANSPARMKPDYGYEFVDLEVDDDAEYPVT
+VTLRHTAGPAEGRERTVKAKYVVGCDGARSKVRQSIGSTLAGDAANHAWGVMDVLASTDF
+PDIRTKCAIQSSNGGSILHIPREGGHLFRMYVDLGEVPEGDNGAVRQTSIDEIIAKANAI
+LHPYTLDVRNVAWHSVYEVGHRLTDRFDDVLPEHVGKRTPRVFITGDACHTHSAKAGQGM
+NVSMQDGFNIAWKLGHVLDGRAPESLLSTYSAERQVVAKNLIDFDKEWSTLMAKKPEEFE
+NPSDLEDFYVRTAEFPAGFMTEYAPSMLIGEAVHQDLAAGFTIGKRFKSAPVLRVSDTNP
+LQLGHQAKADGRWRIYVFADAAPAGTPSPLTELADWLQNAPESPLAAQPAGGDDDAWFDL
+KVIYQQDHTEIDINAVPQVFKPQVGPFRLTDLNKVYGTNPEDDIFDLRGLDRNGVMVVVR
+PDQYVANVLPLTATAELGEFFAPLLPARQPQH
+>tr|A0A0P7FAB3|A0A0P7FAB3_9MICC
+MVRIAVLQAASEVGKPEANLALIRSAAVRAADAGADLIVTPELFATGYAPARAAGSDGAG
+LRRELAAIADEEGIGVVASTVEEEGGARFIAASLFDETGTELLRYRKAHLFGDDERGAFT
+PGAGVPRVTGFRGLKVALGICYDIEFPEYARAAVRAGADLLCIPTAVPATGDVGGPQPLH
+TYNAERISTLLVPARALENGVYIAYANHSGPGFTGNSVIASPYGTLLAAGGADTEELLLT
+DIHPNEVHRARHINTYAQDMRPELYR
+>tr|A0A0N8HX35|A0A0N8HX35_9MICC
+MSNRAGTPAQPSDLVDLTALLDAYYDVAPDTADPGQRVAFGTSGHRGSSLKGSFNEPHIA
+AITQAIVEYRTGAGITGPLFMGKDTHALSEPAQNTALEVLAGNGVNVLIDSRTGFTPTPA
+LSHAILTHNATRTDQADGIVITPSHNPPADGGFKYNPPSGGPADSETTAWIANRANELLE
+NGLRGVQRIPLGEARLAESVGAYDFLQHYVGDLGSVLNMDAIKASGLHIGADPMGGASVD
+YWGAIGEQYGLNLTVVNPSVDPQFGFMTLDWDEKIRMDCSSPDAMASLIAQAGRYDIATG
+NDADADRHGIITPDAGLMNPNHYLAAAIEYLYANRTGWRGDAMVGKTLVSSSMIDRVTSS
+LDRRLMEVPVGFKWFVPGLLSGEVAFGGEESAGASFLRLDGSVWTTDKDGILLALLASEI
+TAVTQKTPSQHYRELTGRFGDPVYARVDAPATREQKAVLSKLSPSDVTATTLAGEEITAR
+LTEAPGNGAPVGGLKVTTENAWFAARPSGTEDVYKIYAESFKGAEHLSEVQAEAKAIVDS
+VIS
+>tr|A0A0N8HXW1|A0A0N8HXW1_9MICC
+MIYESGAAESPAAIRSLVLPILEEELVPIVQLGHPVLRRPAVPFDGQLDPEELKALTALM
+RRVMHHAPGVGLAAPQIGIPLRLAVLEDAYAPDPEAAEVRERTPLDFFTIINPRYEPLDG
+RTAAFYEGCLSFEGYQGVVERHHSVRLDYDDELGNVQQRTFSGWPARIVQHETDHLNGVV
+YVDKVMTRSLTSNAEYIRWAAPEIDEARRVLGF
+>tr|A0A0P7FYQ8|A0A0P7FYQ8_9MICC
+MNEYTLPELPYDYAALEPHISARIMELHHDKHHATYVAGANTALAQMAEAREKGEFGNIP
+KLSKDLAFHLGGHTNHSIFWNNLSPEGGDKPVGELAAAIDDFFGSFDAFRGQFTAAANSL
+QGSGWAILAYEPLGGNLVIEQLYDQQGNIPVGTIPLLMLDMWEHAFYLDYVNVKADYVKA
+FWNIVNWADVAARFDAARAGATQLVLPA
+>tr|A0A0P7HGN4|A0A0P7HGN4_9MICC
+MDYLFDPYFSTPAKTKASADSADEQGGQDKTAEAARQDAGHSRGRSPRVDEARAADLLRG
+LNPQQEEAVKHAGSPLLIVAGAGSGKTRVLSHRIAYLMATGRSNPGQILAITFTNKAAAE
+MRERIESLVGGVAKTMWISTFHSSCVRILRREAKAVGMNSNFSIYDSADTLRLITLVAKG
+LDLDPKRFAPKAIANKISGLKNELIDDESYASSANYSDPFEQAVAQVYTGYTQRMRQANA
+MDFDDLIAQTVYMFRAFPGVAEYYRRRFRHILVDEYQDTNHAQYALVRELVGVEGEGHLD
+IPPAELTVVGDSDQSIYAFRGADVRNIVDFEKDYPSARTILLEQNYRSTQTILSAANAVI
+SRNPNRPEKKLWTAEGDGAKIVGYVGENEHEEARFIAEEIDRLQDEENLRPGDVAIFYRT
+NAQSRSLEDVLVRVGLPYKVVGGTRFYERKEIKDALAYLRVLANQDDVVNLRRILNEPKR
+GIGDRAEYSVAALAERERISFMTALRRAEEAPGLATRSLNAVNGFVKLIDDLAEVASGSG
+ASAALEAVLEQTGYLAQLRSSADPQDESRVENLAELVAVVREFERDNPEGTLEQFLEQVS
+LVADADQIPDAPEGSAEEVAAAVEESRRQGVVTLMTLHTAKGLEFPVVFLTGMEQGIFPH
+QRSATDPAELAEERRLAYVGLTRARQRLYLTRSEVRSMWGQSQYNPASQFVGEVPADLIE
+WKREGMDRPTWGGGGSITSSRYSGSHWGAGSSSSTGGSIAAAPVSKAMGRVQPQKEVISV
+AVGDKVNHTSFGHGTVLAVEGAGDKTVAKVKFDAGEKRLLLRYAPLTKES
+>tr|A0A0P7GTK6|A0A0P7GTK6_9MICC
+MSSIPWVLHVDLDQFIAAVEVLRRPELAGKPIIVGGRGDPTERAVVSTASYEARAFGVGS
+GMPLRIAARKVPDAVLLPVDAEAYLAASDEVMATLRAQPGAVVQVLGWDEAFVGVNTEDP
+EAYARQLQAAVLERTQLHCSVGVGDTLVRAKNATDFGKPAGVFRLTAENWLTVMGAKPTK
+ELWGVGNKISARLAKLGIKTVDELAAADPQSLVPEFGPKMGPWYASLGRGDGSSTVDDTP
+WVARGHSRETTFQTNLTEPDQVNDAVSQLAAEVLKDVEAEGRPVVGLTLKVRYAPFTTKT
+HARKIPETFDRGDVLARALDLAGNIEPGRPVRLLGLRAEMTMPDDARQGHTPTRGGW
+>tr|A0A0P7HHD6|A0A0P7HHD6_9MICC
+METQRVAVIIEDDKDIRDLLHAVLQQSGFEVHASPTGTEGVEAVRRHKPAVVTLDLGLPD
+IDGFEVIRQLRLFSDAYIVMLTARAEELDTLMGLEAGADDYITKPFRPRELRARISAMMR
+RPRKDDGETAPAQPASPQADPMVSPAVPVPASGNEVFTHNGLLLNPGTRTTSLGGQEVEL
+TRTEFDLLHAVLESGRRVRSKTDLVRRLRGEEYDTGSYISESDERTIEVHVGNLRRKLGD
+DSRSPRWLETVRGVGYRLAPSR
+>tr|A0A0N8HX15|A0A0N8HX15_9MICC
+MTTLVERHNAKARRDVEKRQSGGMSRAEGWRRRGPLLPALIFTIIVTQVPFLFTIWYSLQ
+NWNLLNPEGDRFVWFSNYVEIFADSTFRQAALNSVIFTLGCVFFAMILGIIFALLLDRSF
+AGRGIVRTLLITPFLIMPVAGSLLWSVSILNPSYGLLNWLIGLVGISPVDWTSAHPIASI
+LMSLVWQWTPFMMLLVLAGLQAQPKDVLEAAQVDGAGWWRTFFSVTLPQLRRYIELGVLL
+GAIYVVNTFDQIYLMTAGGPGTASANLPFYIYQRAFLGFDIGQAAAMGVVVVIATIIVAT
+FALRLIFRSFDTKD
+>tr|A0A0P7GC05|A0A0P7GC05_9MICC
+MSTFSSSEHTWPSLITALIAGQDLSSEQTWWAMDTIMAGDASDAQIAGFLVALRAKGESV
+EELTGLVEAMLANARPIDIPGETLDIVGTGGDRHNTVNISSMAALVCAGAGAKVVKHGNR
+AASSSSGSADVIEALGVRLDLPVDRVARSAVEAGITFCFAQVFHPSMRFAAVARRDMGVA
+TAFNFMGPLTNPSRPSASAIGVADERLAPLIAGVLAARGVRALVFRGGDGLDELTTTGTS
+TVWEVRNGTVERSTVDPMDLGIPRATLDDLRGGDAAANAAVVLSVLAGDRGPVRDAVLLN
+AAAALVALDPAAEGTLTERLRAGLRRAEESVDSGQARKALDRWVEVTQ
+>tr|A0A0P7HHH4|A0A0P7HHH4_9MICC
+MSTETRASVRSRERNRERTQKPVGGDRSAQLRRALEAGALAVLLGAGVLGFGPSFGGDPR
+YLAAGLGGVVLGLLTAAAALARRWGPWTVTGAAAGGYLLLGSALAAPVESAAGVLPTLAS
+LRVLVLGAVFAWKDLLTVAAPVGTAGGMLVVPFLLGLLAALAAGLLCWRARGAYWPALPV
+LGLFAAGIAFGTKDVPLPGLRALLLAAGLLVFLSYRRRSVQETSAAPQAALGSAPARAAR
+LRRRIYGAAVLAGAAALSLAAAPLLGVDAERKVLRDVVEPPVDLFNFPSPLTDFRRYVKD
+NAETALFTVEGLPEGQRIRLAAMDAYDGVVYNVSGQAAGGFARVGDAGTLGAGSDTGTEA
+SLRFTIQDYTGAWLPAGGKIRALDPAGDRARDIAGGLYYDAGSATLLSTAGVRSGDTYDA
+DVVFPDQYDDAQLAQYGFAQSAMPRLQQEPPIIGAKAAEFAGEETTPIQRVRQLQQILAT
+EGYFSNGKDGQTPSLPGHGAARMVSLLDAEQMVGDDEQYAVAMALMARKLGIPARVVMGF
+YPDWDELDGAPAKIEITGDDVHAWVEVQFERVGWVPFFPTPDEDNEPVPPQQQPKSTPKP
+QVLQPPPPPQEPAELPPDTAADPQDAEQKDEDLWETVSGFLRIAAIVALPLLVLFGPLLA
+ILLFKRRLSRKRRTSGGTAQRVAGGWREVLGAAADLGVAVTGRRTRREEAAALGRAFPTR
+AGATTSLARRADAGIFGPGNPSEEEVQDYWREVEAVRESLTGTAGFWQRQGARYSLRSVR
+LESRLQQPRRTGRRRVAEFAANARGSAGRMTRRRGDAQGPSSPLG
+>tr|A0A0P7GU12|A0A0P7GU12_9MICC
+MKSAVENLTPTRVKLNVEVPLEELKPSIDEAYKTIATQVQVPGFRKGKVPNKLIDQRVGR
+GYVLETAINEGLNGFYQAAVQETGIRPLSRPEVEISEVPDPTSDEGQLVFNVELDIRPEV
+ELPDYAGIEVTVEPAEAGDADIEKAMDELRGRFGTLKSVDRPAAENDFLTMDLVAKVDGE
+EVDSASDLSYQVGAGTMLEGMDEAVTGLSVDESATFTTKLAGGEHAGADAEVTVTVKAVK
+ERELPEANDDFAQLASEFDTIAELREDLAKRAAEAKVMEQGVEARDKVLEKLLEMIEVPV
+PESVIEEQLDQHFNSDSAHAAGEDHDTEEHRAEIRENTAQAFKNEIILDAVADKEEVGVN
+QNELIDYIVSMAGQYGMDPNQFAQLIDQGGQVPMMVGEVRRRKALAKVLELAKVTDTAGA
+EVDLTAFVRPEGEEAAAETEAAEEAGEEKA
+>tr|A0A0P7FEM6|A0A0P7FEM6_9MICC
+MDTGTADDDLLLEHQLCFALSVASRSVVGAYRPVLDELGITHPQYLVLLALWEDSPRTVR
+NLGDTLLMEPATLSPMLKRLESAGLVERNRAPGNDRALAVDLTGKGRALRQQATQIPAAM
+LERLQLTREEVRQLNTTMRRLIQATQLPDRHTRQ
+>tr|A0A0P7GKA7|A0A0P7GKA7_9MICC
+MVPPSSTVPLPRWVLAGAVAGALFLLLPLAAVTAEVNWAEFIPLVTSDASLAALSLSLRT
+AAASTLLCILLGVPLALVLARTRFPGKRLVRSLVLLPLVLPPVVGGIALLYTFGRQGLLG
+GTLDLLGIQVAFSTTAVILAQTFVALPFLVLTLEGALRTAGTRYEAVAATLGARPWTVLR
+RVTVPLVLPGLASGAVLSFARCLGEFGATLAFAGSLQGVTRTLPLEIYLQREADADAAVA
+LSLVLVVVAVAVVGLSYRSAPGRSASTRSAAGRSAPAGAAG
+>tr|A0A0P7HGX1|A0A0P7HGX1_9MICC
+MQTTKHWINGAFTAPADTRVADVTNPATGKTTSQVALASEETVNEAVAAAAAAFPAWRDT
+SLARRTQILFNFRELLNARKPELAAIITAEHGKVLDDALGEISRGQEVVEFACGIPHLLK
+GGFTENASTKVDVHSVRQPVGPAAIISPFNFPAMVPMWFFPVAIATGNTVVVKPSEKDPT
+AVNWVAELWKEAGLPDGVFNVVHGDKVAVDTLLHHPDIKSVSFVGSTPIAQYVYREGTAS
+GKRVQALGGAKNHMIVLPDADLDLAADAAVNAGFGSAGERCMAISALVAVGPIADELVAK
+IAERTRTLRIGDGLRGTDMGPLVTSAHRDKVAGYIDAGEAAGATVVLDGRKVEADADGEG
+FFLGPTLFDNVTPEMSIYTDEIFGPVLSVVRADSYDEALDLINSNQYGNGTAIFTNDGGA
+ARRFQNEVQVGMVGINVPIPVPMAYYSFGGWKNSLFGDSHAHGTEGVHFFTRGKVVTTRW
+LDPSHGGLNLGFPQNA
+>tr|A0A0P7GHL3|A0A0P7GHL3_9MICC
+MLISDRDIRAEIADERIVLDPYDPAMVQPSSVDVRIDRYFRLFDNHKYAHIDPSLDQPDL
+TRLVEVAPDEPFILHPGEFVLGSTYESVTLPDDVAARLEGKSSLGRLGLLTHSTAGFIDP
+GFSGHVTLELSNMATLPIKLWPGSKIGQLCFFRLSSPAEYAYGSGVYGNRYQGQRGPTAS
+RSHLNFHRTSI
+>tr|A0A0P7GDV6|A0A0P7GDV6_9MICC
+MLAAVAEQGSMRGAAEQLGYTVGAISQQMTALQKETGQSLFIRDGRRLLLSDAGRILHRH
+ILGVLAAESEASAALDEMGSGIDSAVRLGVFGSAALACAVPALGLLARTDPQLRVELREV
+EPDHALAAILSGSVDAALGLEYSAVPVKTPAEITRRALVREDLLVVCAAGRPGAAGRPAE
+ARHWILPPAASAFGRAARSALETEDIVPETEHTVMDTALALALADQGTGATLATASMLAL
+YPADRTIMRLGSGAERTIVAMARPAMLRRASVERLLEALVEAAAPSSGLRSGVGEVLHHE
+PLKHL
+>tr|A0A0P7GIS8|A0A0P7GIS8_9MICC
+MSETDTRISVALVDDQPLFLAGIRMLVESQEDMVFAWDAGEGLQAARLAAEKRPDVILMD
+LRMPVLDGVEATRRIVAEAEGTGEEPPRIIALTTFNRDQAVVQAVQAGASGYLLKSAEPE
+FLLAAIRTVHSGYSVIAPGSIHSLFDHAARNAPAREPDLAVLEVLSARERDVFLLAAKGL
+SNGEMAQSLFVSEATVKTHLRSVLDKLQLRTRIQLVSFAHERRLLGS
+>tr|A0A0P7FGC1|A0A0P7FGC1_9MICC
+MTSHSHPAPKYYVLKERIRALAAKGEPGTLISTERALAAEYGTSRTTVRQAIAELVAEGV
+LDRTQGHGTFVAHNRPTYVRQLTSFTEDAAAQHLRTSSELLGISTVPAEGEAAHRLQQSA
+GAPLTRVERIRLINEEPLAHETALLPGELPQLADALAHSGSLYAALQESYGIRITDAEDT
+VETQLAGPEDVRLLGLEMGFPLLLIHRLGLAGDTPAEWTRSVFRGDRFRFQARRHRD
+>tr|A0A0P7GTH0|A0A0P7GTH0_9MICC
+MFSRIGEIVWTGGHLPRLPDGTIPESFADQARLVLEKIARTLETAGSGIDRLVKVNAYLS
+DLDDLPEFNDIYIRFLKGCRLPVRTSVEVTRFRDASKLEIEVIASSRA
+>tr|A0A0P7H5J8|A0A0P7H5J8_9MICC
+MGVDFTSIDFETANGFRGSPCSVGLSKVRGGRIVEEASWLMRPPEGHDFFDRRNTRIHGI
+EEHQVADKPRFGELFPEIGAFIGDDLLVAHNAAFDLGVIRSALEVSGLAGPAYDYACTVV
+LSRRTYSLPSHSLPFVAEAAGVPLEHHHDATADARACAGIMIDIVARSGAGSLAEYFALQ
+GLRPNHAPAYRPGLDELSKATRDALERGTGTAATAGSSFGGWPSEGVNPPPNPAAQPGHP
+LYGQTIVFTGNLGMPRQNAKDRAAELGARPASNVTRATTVLVVGDGFEAGDLRNGRVTGK
+ARRVLELHERGQRIEVLSEAEFLQMIGGTWPVGSQ
+>tr|A0A0P7HLN6|A0A0P7HLN6_9MICC
+MDSPQTQPRINVDGKVGPIDAAKVPRYAGAATYARLPRLDQVERADVAVLGVPFDTGVSY
+RPGARFGANHIREASRLLRPYNPAQDTSPFANLQVADAGDLAVNPFNINEAIETVQAGAL
+DLTADGARLLTLGGDHTIALPLLRAASERAGEPVALLHFDAHLDTWDSYFGAEYTHGTPF
+RRAVEEGILDTEAISHVGTRGPLYGKKDLEDDRRFGFGIITSSDVFRQGVDEVVAKLRDR
+IGGRPLYISVDIDVLDPAHAPGTGTPEAGGMTSRELLEILRGLRGMNLVGADVVEVAPAY
+DHADITGVAASHVAYDLITLMGLTK
+>tr|A0A0P7GC06|A0A0P7GC06_9MICC
+MSSRLHSLVIESLGRRVVSGELKPGDTMLSEQLETELNVSRSVAREAVRVLQSLGLVETV
+KRVGIRVLPETSWNVFDPYIVRWRLASVPGKGAQLRSLTELRSAVEPAAAELAAEHAPED
+MAAELMAVAAKMRAVGRAGDLQQFLELDIHYHALVLAASGNEMFAQMQSMIAEVLRGRTD
+YGLMPSRPHEEALQWHVDVANAIQAGNPDAAREAMDQIMRRTKSEVEGVWRDEPRIFTQP
+ERQPGAVEG
+>tr|A0A0P7GU83|A0A0P7GU83_9MICC
+MSSPESLTAPAPDPDDKAIEAALRPKNLDDFVGQKRVREQLSLVLEASRLRGRSADHVLL
+SGPPGLGKTTLSMIIAAEMNAPLRISSGPAIQHAGDLAAILSSLTEGEVLFLDEIHRMSR
+PAEEMLYMAMEDFRVDIVVGKGAGATAIPLDLPPFTLVGATTRAGLLPGPLRDRFGFTGH
+LEFYSTAELELVLRRSAMLMDMKVNSAGFAEVAGRSRGTPRIANRLLRRVRDWALVHGID
+QIDARSAGAALDMYEVDERGLDRLDRAVLHALVTKFGGGPVGLSTLAIAVGEEPETVETV
+AEPYLVREGLLGRTPRGRIATRAAWEHLGLQMPDAAAQLIPEALFTGEAAPVPGESSES
+>tr|A0A0P7G5I2|A0A0P7G5I2_9MICC
+MPPKTRGAVRKPRRKDKKNIALGQAHIKSTFNNTIVSITDPTGAVISWASAGEVGFKGSR
+KSTPFAAQMAAEAAAKRAQEHGVRKVDVFVKGPGSGRETAIRSLQATGLEVGTIQDVTPS
+AHNGCRPPKRRRV
+>tr|A0A0P7GK67|A0A0P7GK67_9MICC
+MSLNSAARQRIASPYGPYQPPLMYPVHRIGTRSLDFRREVALMAIINRTPDSFYDAGRTY
+GLEAARDAALRAVADGADWVDIGGVPFAPGPALDAGEEAARIVPVIRAVREASDVIISAD
+TFLPAVAEKAIVAGATVINDTTGMHDPDMARVAADAGVHLVITHSLAAPRTVYPRPQYGD
+VVDEVAEFLHSRAEYARELGVPPEKIIVDPGHDLNKNTLHSLELTRRLAEIAAIGYPVLA
+AVSNKDFIGETLDEPKSGRVEGSLAAAVASIINGGRILRMHNVRAASRAIRMTEAILGWR
+EPALLRHNMGERNEPQA
+>tr|A0A0P7HLM0|A0A0P7HLM0_9MICC
+MSMEGAAWSSLHKISTAKGTDRKISRETLKRILAFASPYRRQLIGFLVLSTGGAFLAVAT
+PVLAGEVVNAIVAGSSVDTVIWLAALIALVAIADAAVSLATRWFSSKIGEQVILDLRTAV
+FDHVQRMPIAFFTRTRTGALVSRLNNDVIGAQQAFSGTLSGVVSNLVALILTLIVMLTTS
+WQVTVLAMLLLPVFLIPARRMGSRLAALRREAANHNASMGTQMTERFSAPGATLVKLFGR
+PDQESTEFAVRAARVRDIGVKTAMMQTVFVTALTLVSALALALVYGLGGWFALQGTLNTG
+DVVTLALLLTRLYAPLTSLANARVEIMSAVVSFERVFEILDLKPLIREKENPAPVPQGPL
+GVEFDDVTFAYPTADKVSLASLEDVAVLDSRGGEDVLHSVSFRVEPGQTVALVGSSGAGK
+STIAQLLSRLYDVDSGAVRFSGTDVRDLSFEGMRSALGMVTQDGHLFHETIRSNLLLANP
+GASDEEIWDALRRARLEEMIRSLPDGLETMVGERGYRLSGGERQRMTIARLLLAQPRIVV
+LDEATAALDSTSEAAVQAALTEALEGRTAVVIAHRLSTIRNADRILVIEDGRIAEQGTHT
+ELLAKGGRYAELYNTQFAAAEPEAVGGQGQA
+>tr|A0A0P7G7F7|A0A0P7G7F7_9MICC
+MTTEVAEPASKIDLAESSASEIPSFDITLKVRRYNPEISDEAHWDEWTLTMYGTDRVLDA
+LHKVKWEHDGTVSFRRSCAHGVCGSDAMRINGRNRLACKTLLKDLDTSKPILVEPIKGLP
+VEKDLIVDMEPFFQSYREIMPFLISKGHEPTKERLQSAEDRERFDDTTKCILCAACTSSC
+PVFWTDGQYFGPAAIVNAHRFIFDSRDDAGDMRLEILNDKEGVWRCRTTFNCSEACPRGI
+QVTKAISEVKQAILNRSI
+>tr|A0A0N8HZ54|A0A0N8HZ54_9MICC
+MPDSFRTQVRARLQRALAAVRRGAESAHRASTAKVAARWRTSLQFKTVLATLLLVTVAAG
+GIGAFLSNQIAGALYEERLTQFQAEASSGLSSVKENFRTTAAVDRESTERLVSNTLSLLE
+GRGAETPRRYLLTPLPDQENLYVSPLGDGITASGIPDPLSEAVAALDPEGEDVVHWSALA
+LAHGEPGLAFGTKVTLPPDRSEYALYLIYDLSTMQQTLDDIHRILWIAGGLLLVIIGTIA
+WVVTKAGVGAVSAAASVSEKLAAGELQERMEVKGEDEVARLAASFNHMAATLQDQITQLA
+QLSRMQQGFVSDVSHELRTPLTTVRMAAEVLYDARDGFDPVSKRSTELLYHQVERFQALL
+ADLLEISRFDAGAAEPDLEAADILGIVRDVVEATEPLALNNGSQVRIVCREERVVVDADP
+RRVERIVRNLVVNALEHGEGKPVEIAVATNADAVGVAVRDYGIGMTEDDAARVFDRFWRA
+DPARARTTGGSGLGLAIAAEDARLHRGWLEAWGSPGDGACFRLTLPRRHGEGFAASPVPL
+SPQDTALPAPPRALTAAPAEGEESNA
+>tr|A0A0P7FPA4|A0A0P7FPA4_9MICC
+MQNLPRLSFLGCGSMNEAILGGILAGGYPAELITATVRRAERAAQLRERHGITVLAGSED
+PGANRTAAENADVAIVGVKPVGVRAMLEEVAGVLSRDTVVVSVAAAVPLELMEAALPAGT
+PVIRTMPNTPAKLGRGVTALAPGSAATPDSVKLVRSLLSGTGRVVEVREDQINAVGSVSG
+SGPAYAFYLAEAMAKAGAELGLDPELAALLAAETLAGAGAMLAEPGADAGALRKAVTSPN
+GTTEAAIRVFDDRDLPAIIGAGMTAAERRSAEITAELSASR
+>tr|A0A0N8HX04|A0A0N8HX04_9MICC
+MTMFIRLLGRRLAVLPIMLLGVTVMVFVVLSVIPADRATAVLGENASEEAKDAWREERGL
+NESLVVQFFRYLGGVIRLDFGVTNPPEESVATKIASAFPVTLQLTFLGILLAVVLALSLG
+ITAALYRDRWPDQAIRIFSIAAIATPSFWLAILLIQWFALPEGSIFPTGGLAWADQYGFV
+GWLYSMALPALALGIPVSASLIRVVRTSMVEELDRDYVRTAIGNGVPYRTVVARNVLRNA
+LVTPVTVLGLRVGYLLGGAVVIEKIFSLNGMGDLIVVGLTTSDTNLVQGAVLTIAVAFVL
+VNIVVDLLYLAINPRIRTV
+>tr|A0A0P7GJN4|A0A0P7GJN4_9MICC
+MALTISYPPELPVSERRDDIMAAIAANQVTVIAGATGSGKTTQIPKMCLELGLAEKGLIG
+HTQPRRLAARTVAERIAEELDVEIGAEVGFQVRFTGETSRDTKVKLMTDGILLAEIQHDR
+KLRKYSTIIIDEAHERSLNIDFILGYLKRLLPERPDLKIIITSATIDPDRFARHFAAPDG
+TPAPVIEVSGRTFPVEIRYRPLNQPALGTDDEEEDELEEDRDPLDAVCDAVDELSREAPG
+DILIFFSGEREIRDAADALRGTVTRNPRLANTEILPLYARLSLAEQHRVFSPGKHRRIVL
+ATNVAETSLTVPGIKYVIDTGTARISRYSHRTKVQRLPIERISQASANQRSGRCGRVSDG
+IAIRLYSDEDFQARPEFTDPEILRTNLAAVILQMAAMGVAQGPKDVADFPFVQPPDPKAV
+NDGALLLRELGALAPKGGITAVGRKLAQLPVDPRLGRMIVEAGQRGCVREVMVLAAALTI
+QDPRERPSKDDPARAQKAAELHKRFVDENSDFTGFLNLWRYVQEKQKELSSSQFRKLCKN
+EFLNFLRIREWQDLFAQLRQLAKPLGITLSPGDVDPVGKEKDVHISLLSGLLSHIGLYDQ
+RKREYAGARGTRFAVFPGSALFKKSPDWVMAAELVETSRLWARIAARFDPLWVEEVAPHL
+IKRTYSEPHWSKRNGSVMAYEKVTLYGVPVIPRRSVNYGRIDPVLSREMFIRHALVEGDW
+RTHHKFFHRNQALLAEVEELETRVRRRGLRVDDETLFEFYDERIGSEVVSERHFDKWWKH
+ARHEDPKLLDFDPDALRTDDAAGLDEAEFPKTFRYADFDLPLSYEFTPGVPGANDGVTVE
+VPVLFLNQLDPEPFRWQIPGLRAELITALIKSLPKAVRKNFIPAPDVARAAAAALAADFD
+PASDPLEPSLELALRRLKGHIIPPGSWNWDAIPEHLRMRFTVVDSSGRVLDEGKDLAALE
+ESLAPATRRAIAESLGATPGTVKPSQKTATAKPSRAAAANGNGKASSSFREETGLTEWSV
+GTIERRIDTLVAGHTVTGYPALVDEGSTAGLRVFQSADEQAAAMRAGVIRLLALRVPSPA
+KYVLEHLSNAEKLTFSQNPHGSVAALIEDCTLAAIDKLTPEELPWTREEFDALYERVRAD
+LIDTVFTVTAIVEKVLSATRRIQKQLKGTTSLALISALNDVRAQLEQLVYPGFVARTGYA
+QLAQLPRYLGGIERRLEKLPTNVQRDSLNMAVVQGLEDDYDDAVAALAPGRGTPPALAEV
+RWMIEELRISFFAQELGTARSVSEKRIRTALNQALAPA
+>tr|A0A0P7HEM4|A0A0P7HEM4_9MICC
+MTTRTYIVTGSASGIGAATAQLLKERGNTVIGVDLRNAEVEADLSTPEGRQIAVDRAVEL
+AGGTIDAVIACAGISAPVPLTVSVNFFGVTEFLDRLAPVLARSEAPRAVVVSSMASLQPN
+SPELVDAMLAGDEALARQIGQKLADQGPQIGYLNYPSSKRALSRWVRRASVSDLYAGNGI
+PLNAVAPGTVLTAMTKELLATPEGVKMVDENVPMPLNGHSEPVVIARLLAWLASEENSHL
+AGQTIYCDGGADATLRGDDIWQS
+>tr|A0A0P7GSB7|A0A0P7GSB7_9MICC
+MGMLVAVAGIFAGLLLAAPAVHATTAPPPASESPAPESSTEATAQDSGSAGEGEVTDGAE
+YQDRISGVLRNAGSPVSGVRIKASANGYEAETETAENGSWSIGVPEQGAYEVELDESSLP
+EGVALAEGQQNPRTVTFAGTSNITTLFLLGEGIVLQGDSFGTKLIERAVAGLSFGLLLAL
+SAVGLSLIFGTTGLTNFAHGEMVTFGAVLAFGFASLGLPLWLALILAVVGGAGLGYVQDA
+GLWKPLRMRGTGLVPMMIVSIGLALALRYTILFFFGGATQQLPNSQSPMLELGPISISRN
+NLVSLAVSLVVILIVAALLLRTRIGKATRAVADNPPLAAASGIDVDRVIRIVWMAGGALA
+ALGGILWAYYRPGVSFNMGQQILLLIFASVTLGGLGTVFGALIGSIIVGLFVEISTLWLE
+ADLKYVGALLIMILVLLVRPQGILGRRERIG
+>tr|A0A0P7FAF9|A0A0P7FAF9_9MICC
+MVKSADTAPDVAHASSFPEWKRLVSESFVPLEATPVEPGAAAFSGRLTGRRLRELAIVQV
+DAMPHCVERTPELINGADGGFYKLSLQLSGTGILVQDGREALLEPGDLAIYDTGAPYTLT
+FHEQFTTLVLMFPKQLLGLAPEDMAEMTAVRLGRGHRLGRAVVPFLTQIGRMLPELDGPI
+GHRLAMNTVDLLSTLLADEAHALPDAEAGGQERLLRRVQHFIDGQLANPDLSPGYIAAAH
+FMSVRSLHKLFEDSGTTAAAWIRARRLDGARRDLADPLQADVPVGAIGARWGLPDPAHFS
+RVFRAAYGQSPSAYRAGR
+>tr|A0A0P7GVK4|A0A0P7GVK4_9MICC
+MPQNIATAPLGRLQPGSVSPRRHVPSSIARPEYVDRDAPAKFTGSEVKSAETIEKIRIAS
+RIAAQAIVEVGNRIEPGVTTDELDRVAHEFLMDHKAYPSTLGYRHFPKSICTSINEVICH
+GIPDTTVIQDGDIVNVDITAYINGVHGDTNYTFLAGDVDEESRLLVERTAESLRRAIKAV
+MPGREINVIGRAIESYAKRFGYGVVRDFTGHGVGEAFHTGLIIPHYDAAPAYSRLIETGM
+VFTIEPMLTLGTIEWDMWEDNWTVVTKDRKRTAQFEHTLLVTDNGAEILTLP
+>tr|A0A0P7HUE8|A0A0P7HUE8_9MICC
+MQLSGASAIVTGAASGLGRATARRLIDAGAEVVLVDLPSSGGLAYAGELGDYAHFVPGDV
+TDPDQMQAAVEAAMAAAPLRVAVNCAGIGTPGKVLGRNGVLPLEDFNRVIQVNLVGTFNV
+TRLAAAAMAETDPVSGDGGTSERGVIINTASVAAFDGQIGQPAYSASKGGVAAMTLPLAR
+ELARHLIRVMTIAPGIFETPMVAGLPQDAQDSLAAQIPHPSRLGRPDEYASLVEHIVSNP
+MLNGETIRLDGAIRMGPK
+>tr|A0A0P7HVA8|A0A0P7HVA8_9MICC
+MSIQSPLLARPGAVEAAGADAGTAAHYGDPLREQRALARGEAVTDLSSRGVVTVSGPDRL
+SWLNTLSSQQVLSLAPGESTELLLLSVQGRIEHDAHVLDDGERAWLIVEGSEAADLAAWL
+ESMKFMLRVEISDVSGDWAVVGSTAPVPAWADFLVWTDPWPRVGSGGHAYTETEDAAHPG
+YERPWYEYLIPRDGLEAAVDESGRSLAGAMAAEALRIAAWRPRLGAETDDKAIPHELDLI
+RTAVHLAKGCYKGQETIARVHNLGHPPRRLVFLQLDGSQHTLPAAGSPVKLGERAVGRVT
+SVAQHYEMGAVALALIKRSVAPDTQLVVEDEGELYAAAQELIVSPDAGAAVGRPAGLLRA
+PRSRS
+>tr|A0A0P7GAY2|A0A0P7GAY2_9MICC
+MDTTPARHIRFNAFDMNCVGHQSPGLWRHPEDRSADYTKLSYWTHLAQTCERGLFDGIFI
+ADVLGTYDVYGSSNEATLRQGTQVPVNDPLLLVSAMALVTKNLGFGVTAGTAYEHPYPFA
+RRLSTLDHLTEGRVGWNVVTGYLPSAARNMGQEDQLEHDERYNHADEYLEVVYKLLEGSW
+EDDAVVRDKETGVFTDPAKVHDINHEGKYFKVPGIHISEPSPQRTPVIYQAGASPRGIAF
+AAENAEAVFVGAPTAEKLKATVTKIRDAAEAAGRDRHSIRIYTLLTIITAETSEEAEAKH
+QDYQRYASHEGSLALLSGWMGVDLSTYNLDEPLGAVKSNAIQSAAANFQKVKDDGEPWTV
+RDIAESAGIGGLGPRLVGSGAEVAEELIRWVEETDVDGFNLAYAVTPGTFEDVVEFVVPE
+LQKRGAYPTEYAPGTLRQKLFGAGDKLPEDHRGAKFRLAPAVAG
+>tr|A0A0P7FAM8|A0A0P7FAM8_9MICC
+MSHPPTNGTPEQPLKVGVIGLGWAGQQHLDAYSRAPGVELIALAGLEEELRGELQEQHGI
+PHAFADWQDLVALEELDAVSVAVPTFLHAPIAVAALDRGLHVLSEKPLARNAVEGQDMVD
+AARRAGRVLDVAFNHRRRGDIMTLRRIIEAGDLGRPYYAKASWLRRAGIPMLGSWFTNRE
+MSGGGPLVDLGVHVLDYALHLLGEPKVLSVSAATYSELGRHGRGGDERYSAMATQSAFEV
+EDFASAFVRLEGGGTLVLEAGWAAYREQDDLLDFQVYGTEGGARLHALGASKNPTADLRV
+FAEKDGRNADWSPEVKPGAGHQAVIDDFLAAVRGGPDVWGAHDGSLALTRARVIDACYRS
+AEQQREVDV
+>tr|A0A0N8HZ45|A0A0N8HZ45_9MICC
+MTERPSAELHYGTEPADKLELPRIAAKEGNDGFDVSKLLKQTGTVTFDPGFMNTAATTSA
+ITYIDGDAGILRYRGYPIEQLAKHSSFLETSYLLIYGNLPTPAELEAFDHRIRRHTLLHE
+DLKGFFGGFPRDAHPMPVLSSAVSALSTFYQDSLDPFDEEQVELSTVRLMAKLPVIAAYA
+HKKSIGQPMLYPDNSMNLVENFMRLSFGLPAEPYELNPKLVKALDLLLILHADHEQNCST
+STVRLVGSSNANMFASISAGISALFGPLHGGANEAVLNMLRDIQSTGMQPETFMEKVKNK
+EDGVKLMGFGHRVYKNYDPRAKIVKATAHEILADLGGNDELLDIAMRLEEKALADDYFIE
+RKLYPNVDFYTGLIYKAMGFPEKMFTVLFAIGRLPGWIAQWREMMQDPQTKIGRPRQLYT
+GVPERNYPER
+>tr|A0A0P7GBB3|A0A0P7GBB3_9MICC
+MASTGESGTEPAAGSSALRIATVNVNGIRAAYKRGMADWLAERGVDILCLQEVRAPDAIV
+RELLGSDWHILHAEAEAKGRAGVAIVSRSEPVAVREHIGEDYFALSGRWVEADFKVTVEG
+EEKILTVVSAYVHSGEAGTPKQEDKYRFLDVMAARLPVLAATSDYALIVGDLNVGHTTLD
+IKNWKGNVKRAGFLPEERAYFDRFFSDEIGYVDVARKLAGEVPGPYTWWSWRGQAFDNDA
+GWRIDYHMATPALAERAVSAVVDRAATYDSRFSDHAPVVVDYKF
+>tr|A0A0N8HY01|A0A0N8HY01_9MICC
+MKPVLPVSATSRRALYLLGLIAAVKALALVLLASGVAAGIAGLAADGPDWGYVAATGITG
+ALLRSLAIWAQDTVAQRAAAGVKDELRGQLTDRVLADGGSVPGMGSGALSVLLTRGLDGL
+DNYYAKYLPALVTCAVLPLLIGVRILAADWVSAVVIVLTVPLVPVFMVLIGLHTGDKTAK
+AIDALNRLSDNMLELAKGLPVLVGLGRARAQTRALRDVADRYRTTTLQTLRVAFMSSLAL
+ELIATISVAVVAVFIGVRLVHGDMSLEVGLLALILAPECYQPLRDLGTAHHSSEDGLEAL
+KRTNSVLEAPAARPLAETGTGEPGRQEDGSVAVRGLTVHYPGRPEAVLQDLSFALPAGSI
+AALTGPSGCGKTTVLEVLAGLRRDGDEAQVSGEARGVDRDRIAWIPQHPVLVEDTVAAEI
+GLYSGLSDPGAQRAAAEQALADINSLHLLDAHTADLSPGEQRRVAVARALARIYNVPGVR
+VLLADEPTAHLDESSAAAVRTALARLRSRCTVLLVAHDRRTAAIADTVIAVGGSGRDLDP
+VPPQEEYVPAEQVLPVDFAGSAPQEAPGHQPLWKNLLVLRPWSPQFLKALAYGTGATVFA
+VALSALSGWLIVRAAEQPPILYLLTAIVGVRFFGIGRAVLRYRERLHLHDAVFRATNSIR
+IRLWNGLLNRPEGWRRLARGGGALERLVGDVDELRDIAPRVVFAPLTAFVTSIAACVATG
+LLIPEALWIQVGLCLVGLIAAPAVALWADSAARARTVTLQSKAMASMAKLLTAARDLEAN
+SSSTPVVTRQRLLDAAAADAARRSAWAQGLANALTALACAGSALWILTVAQNVPATVAAV
+IVLMQLALLECFAAVNGSIQQFTAWQVLGDKVLPDLGSDSVDPGADPGAQARPPRPGAIE
+LSGIRYRYPGGSRDVLSGVDLHLEPGDWLAVTGPSGSGKSTLLGVLLGFLEPQAGTFSIG
+GQPASSFSRENRGMAWCPQEAHLFDSTLRGNLLLARDRSKAPSEAEMLAALDAVGLGSLT
+AELEDGINTRIGNGGHLLSGGQRQRLAVARALLTEADVVLLDEPTAHLDPPAGRQLMADL
+SVGLAGKTVVVVTHNPADAAWCSRRLELGAAESSLALR
+>tr|A0A0P7FHI2|A0A0P7FHI2_9MICC
+MFDPSDSEVHASPAPSRRVLIVEADGGSRGNPGHAGYGALVRDPETNAILMEKAEYLGIV
+SNNVAEYSGLIAALELAHEIDPDAWILAKMDSKLVVEQMSGRWKIKHEDMQRLAAKARSV
+VNPRRVKYQWIPREINKDADRLSNEAMDAGIAGVPWKGRVLPGASGTDTEENGKAAAAAP
+ADPVPTGRLHHLEIWVPDFPRAEASLGWLLERLGYVRRDSWSSGASWMGAAGYIVIEAGT
+DVAGERHERTRPGMNHLAFGAGSPADVDLLARRAASHGWSLLFADKHPHAGGAGHYAAYL
+ENADGFEVELVADRS
+>tr|A0A0P7GSH1|A0A0P7GSH1_9MICC
+MKPSTRRRLTRGILYAVFVLAVVAVVLLADWQAIGVNFFDPEVARAAFPTIITVAVKNTV
+VYTIIAFIGGLILGLILALMKLSPVGPYRWAATVYIEIFRGLPALLVIFAMAFAVPIAFS
+WRPPGGNAGAGLIALIMVSGAYIAETIRAGIQAVPAGQTEAARSLGMGPAWTMVSVTLPQ
+AFRIITPPLTNELVILIKDTSLLFIAGMAMQDRELTTFARDAVSQNANSTPLVLAAIMYL
+IITLPLTQLVAKLERHNQRGR
+>tr|A0A0P7GUY1|A0A0P7GUY1_9MICC
+MDPAGSGAFEPARTHLADGRELLYFHDGGAGLRQGGVPPDTRSLPPRPDTPVMRFDPLLG
+DWISYAGHRQNRTHLPPAAECPLCPSVPGRATEIPAQEYDVAVFENRFPAFGPGTAGSLP
+DPAGAEAPAAGRCEVVAFSPDHQGSFAGLSLERIRTVIRAWTHRTAELSKVPGVAQVFIF
+ENRGADIGVTLHHPHGQIYAYPYVTPTTQRQLDSLAGYHAAAGGDLFTDLLARGQEGQRI
+VAHGQYWTAYVPYAARMPIEVHVVPHRHVPDLPSLTEDEQTELAAVYRDVLRRIDGLYPT
+PTPYIAAWYQAPVDHPGREKYRLHLQVTSPRRAENKLKYLAGSEAAMGAFISDVTPEQTA
+ARLRAALVDPAGTGGKQ
+>tr|A0A0P7GAI4|A0A0P7GAI4_9MICC
+MRIVIAGAHGQIARETGRLLVAAGHDVAGLIRDPDQAADLEADHVAPVVLDLENSTLEDL
+TQVLTGADLAIFAAGAGPGSSAGRKDSVDRAGAVMLSEAAEQAGVPRLIQVSSAGTDAVS
+GGQRPEGLADAMYAYLTAKLAAEEDLMARDELDWTIIRPGTLTNGDPVGLVELAPDVPQS
+TVPRQDVAAVLAELATTGRGSGQALGVVTGMYPIPDAVAALPLAL
+>tr|A0A0P7FY19|A0A0P7FY19_9MICC
+MSSGAPERDDGLDQAFAAGEEAALAEAYRRFAPLVRTMSLRRLIDPGAADDAVQEVFIRA
+WRYRETYSPERSTLAAWLVGIARNVASTMTSSRIREEDVLEGAAARSERDETRGPDQEGV
+ADKVVLDAELTRLGEPQHSILRLAFHEDMTHQQISEQLSLPLGTVKSHIRRGLIQLRQRL
+EVSDAAPAR
+>tr|A0A0P7FZ57|A0A0P7FZ57_9MICC
+MTTYNRLGNSGLTVSTVGLGCNNLGRSGTVTESQEGTDAVVHAAIDAGITLFDTADIYGA
+EPGLSEIRLGKALGSRRGDVVLATKFGMDMHGANGPDFGARGSRKYIVTAVEASLRRLGT
+DWIDLYQFHTPDPLTPIDETLAALDDLVSSGKVRYIGHSNRTGWQIAEAEFTARMNGTTR
+FISAQNHYNLLDRRAELEVTPAAEAYGLGVLPYFPLANGLLTGKYSSGQAPEGSRLTHSR
+TNLLENADYDQLREFGDFAKDRGLTEVQVAFSWLASRPSVASVIAGATKPEQVQQNAEAA
+SWVPSEKDLEELDRIFPQTPQVALF
+>tr|A0A0P7G027|A0A0P7G027_9MICC
+MATQERPIGFWLKLLDQLVDEQFGASFEEHGVTRRQWQMMNLLTNGPASEKELSDQLKPF
+FPTVEAGTSAEMIEELAESGWVELREQEYALTDLGTRSLENLRGAVERIREQLTVDVSEE
+EYTALVSVMQRMAANLGWKDGPDTQDTPGM
+>tr|A0A0P7G4J6|A0A0P7G4J6_9MICC
+MSQFTLRQLRYFCAIASAGSISAAAAREHVSRSAMAAALDELERALKSQLCTRHKSHGVM
+LTASGQYVFEQALSLLRSAENLEATAGARELAGPLAVGCYPSLAPTILPQLVKLFARLHP
+DVELSIHPSDQETLLQQLKAGDLELAIMYNMHLDRRVETAWLYDTAMHVILAAGTRSPKA
+RQCGPRIWKTNR
+>tr|A0A0P7HJ61|A0A0P7HJ61_9MICC
+METTVLLVILAVLVIFVLVILVKSIRIIPQARAGVVERLGKYLRTLNPGLNILIPFVDRL
+LPLLDLREQVVSFPPQQVITEDSLVVSIDTVVYFQVTDARAATYEIANYIHAVEQLTTTT
+LRNVVGGLNLEEALTSRDRINGQLRGVLDEATGRWGIRVSRVELKAIEPPLSIQDSMEKQ
+MRAERERRATILTAEGTKQSQILTAEGRRQAAILAAEGDAKAAILRADGEAQAIQKVFDA
+IHKGNPDQKLLAYQYLQTLPKLAEGDSNKLWIIPSELGEALRGVGSALGDYLPDLKAGAA
+PASPESNGSAGAANPAAAGSPAELRVGTGDTAS
+>tr|A0A0P7GEH6|A0A0P7GEH6_9MICC
+MTSPKTSPAALSVSGDKPQVRPATEGWEQAKEPDGRPLLQFKSPRVSQPPEHLADLTLAQ
+RQEKLKSLGLPAFRAKQLSVHYFQHYTTDPEKMSDLPKERRDELVKEMFPTLLTEVKRLT
+TDKGDTIKFLWRLFDGSLVESVLMRYPGRITLCVSSQCGCGMNCPFCATGQAGLTRNMSA
+AEILDQIVQANRVIAEGGLGGKRRDGGHDAERVTNIVFMGMGEPLANYKRVMNAVHRMAA
+EAPEGLGMSARNITVSTVGLVPAIKKLAEENIPVTFALSLHAPDDELRDDLIPVNSRWKV
+DEALDAAYNYYRVTGRRVSIEYALIKDMNDHPWRAALLAKKLNSRGRGWVHVNPIPLNPT
+PGSIWTSPEPDVIQEFIDTLIDAGVPTTVRDTRGKEIDGACGQLAAAD
+>tr|A0A0P7GSL6|A0A0P7GSL6_9MICC
+MTESPAWDCNSARTYVLAAVRARCPVPLMRNTPLLDNAQDILEENTTPEAEEAEVLFSDF
+DLDPRVLAALKDVGYKTPSPIQAATIPLLLEGRDVVGLAQTGTGKTAAFAVPALSLLAGR
+PATKDTQVLVLAPTRELALQSAEAFTSYAAHMDAITVLPVYGGSAYGPQLAGLRRGAQVV
+VGTPGRVIDHIAKGSLDLSNLEYLVLDEADEMLRMGFAEDVEQILSSTPADKQVALFSAT
+MPPAIRKIAKKYLNNAAEITVKSKTTTGVNTRQRYVQVMGPHKLDAMSRILETEDFDGVI
+AFVRTKMATEDLADKLKSRGYKAAAINGDIPQQQRERTVEALRDGKIDILVATDVAARGL
+DVERISHVFNYDIPHDTESYVHRIGRTGRAGRSGDAILFMTPREKYLLRAIEKATRQPVE
+HMQLPSVDLVNAKRLAKFSERITETRNTEDLSVFRDLVTKYIAENDVPAEEIAAALAVMA
+QGGRPLLMEEIPQAPARQRERSEGRNDGFGSRGPTRPLTEGNATYRIAVGRRQRVMPGSI
+VGAIANEGGLSSSQIGGIDIRADHTLVELPADLSKDQLRALSRTRIGGELIHLELDKGRR
+PSREGGSYDRADRGFKKDFKKRDGERSFGDRGSDRPYKKKFDGDRSFSKPAGAGAGARKP
+RFRD
+>tr|A0A0P7GT06|A0A0P7GT06_9MICC
+MAAPDRAKALEAALAQIDKQFGKGSIMRLGDETRAPIETISTSSIALDIALGIGGLPRGR
+VVEIYGPESSGKTTVALHAVANAQKNGGIAAFIDAEHALDPEYAKKLGVDTDALLVSQPD
+TGEQALEIMDMLVGSGSLDIVVIDSVAALVPRAEIEGEMGDSHVGLQARLMSQALRKITG
+RLSQTKTTAIFINQLREKIGVFFGSPETTTGGKALKFYASVRIDVRRIETLKEGTNPVGN
+RTRAKIVKNKMAPPFKQAEFDIIYGQGISREGGLIDMGVEHGIVKKSGAWFTYDGDQLGQ
+GKENSRRFLRDNPELADEIERRLRVKLGVDAQPEEQVADDKAKAAAPGA
+>tr|A0A0P7GKE7|A0A0P7GKE7_9MICC
+MTPPEYPSRTFTGTARRAQIIRAAITTVNEIGYHRASLSEIAVRAGVGKSAIVYYFASKE
+ALLLGVVDEVFGNQYEEIVPAVQAEKDPAGQLRAYARAYLAYVDSHRAEITAGFEIVVSH
+RTEDGTPLYLAGTEEDSALLRGILSAGMDAGVFRLMPLHIAVSLVESLLDVWATELQRDL
+QAELGNFGEETVNFLLQGLAVSPPGLCGAER
+>tr|A0A0P7GS84|A0A0P7GS84_9MICC
+MTDLQKTEFDYIIIGGGSAGAAVASRLSEDPSVEVALVEAGPDDRGLEEILQLDRWMELL
+ESGYDWDYPIEPQENGNSFMRHARAKVMGGCSSHNSCIAFWAPREDIDEWETRFGAEGWN
+SEMAFRLFRKLETNEDAGPDAPHHGTDGPVHLMNVPPRDPCGVALLDACEQAGIPRAKFN
+TGETVINGANFFQINRRADGTRSSSSVSYIHPIMERENFTLLTGLRARELKFDASNRCTG
+VDVVDGQFARTHALTARTEVIVSAGAIDSPKLLMLSGIGPAAHLAEHGIEVRVDSPGVGE
+NLQDHPEGVIQWEAKQPMTETSTQWWEIGIFTPTEEGLDRPDLMFHYGSVPFDMHTLRQG
+YPTTENGFCLTPNVTHARSRGTVRLRSRDFRDKPMVDPRYFTDPHDMRVMVYGIKKAREI
+VASPAMAGWAGRELYPGPQVQTDEQITEYIKKTHNTVYHPAGSVRMGAPDDAMSPLDPQL
+RVKGVTGLRVADASVMPELTTVNPNITTMMIGERCAELVREARAGSVSAAAAGAAAV
+>tr|A0A0P7GSD2|A0A0P7GSD2_9MICC
+MTLTSPRNVPTETHLPQIPVALSSSSVYPLSVHDTFAVAHDLGYDGVEVMVTGSQISRNP
+ETIRGLSERYHMPVLAIHAPTLLLTQQVWGKAWTKIELSAAMAAEVGASTVVAHPPFRWQ
+SGYAENFAEGVRRIADEYGVTIAVENMYPWRVRGREAKAYLPHWNPLPEPYEHVTWDFSH
+AAIAGMDSYEEIRKLGSRLSHVHLTDGTPNGRDEHLLPGEGTQRCAEALQYLSETGYTGT
+VAIEVSTRKAKEPGEREEMLRQTLEFARVNLNQVLDE
+>tr|A0A0P7FAY0|A0A0P7FAY0_9MICC
+MTEKRRGLGRGLGALIPSTAESVEASETGQATRPGRPVDLFFTSVGDEAGPGRTAGPRRG
+AGINKDALRAPAKKKPATRTASTRAAKSSTSTPAEPSASAASKAAATEPSEALKQDAAPS
+KARTRKPAAKSSQKPSRPALEAPETAVEDERIQPSAADEVQTELPVDDAGSEDVSRETLM
+EVPGARFAELPIDSIHPNRKQPRSVFDEDDMSELVHSIREIGVLQPIVVRPSAEGDDEHP
+YELVMGERRWRASREAGLTAVPAIVRSTQDVDLLRDALLENLHRSQLNPLEEAAAYQQLL
+DDFECSHEELAERIGRSRPQISNTLRLMKLPPLVQRRLAAGVLSAGHARALLGLNDPAEM
+EKLAQKIVAEGMSVRATEEVVALSDGIRRPAKESKPKVGARHERLDYLANSLSDRLDTNV
+KITLGARKGKVSIEFASVDDLNRIMSVLNPSDGQAQ
+>tr|A0A0P7FZ80|A0A0P7FZ80_9MICC
+MATVRSAHTVWNGDLFHGKGEVTLDSSDLGTFDVTWKARAEEAEGRTSPEELIAAAHSAC
+FSMAFSNALAEAGKTAERIETAAEVSFVPGTGITGSHLRVNAVVPDLTAEEFTDIAESAK
+TGCPVSQALSGITITMDATLET
+>tr|A0A0P7G4S2|A0A0P7G4S2_9MICC
+MTTFAALGVPKALVSNLSAQGIAEPFPIQVETLPDTLKGRDVLGRGRTGSGKTLAFSLPL
+VTRLAEAEAAYRRRPNRPLGLVLAPTRELATQINNVIEPLAAELGLNTTVIYGGVSQQRQ
+EKALGAGVDIVIACPGRLEDLMKQKVISLESVEITVLDEADHMADLGFLPVVQRLLDRTP
+EKGQRMLFSATLDNGVDKLVRRYLSNPLTHSVDDPQAAVTTMEHHVLLVQDQTAKKLLVK
+ELASGQGRRIMFMRTKHHARKMAKYLTDSGIPTVDLHGNLSQNARDRNLAEFASGDVRVL
+VATDVAARGVHVNDVELVVHIDPPTEHKAYLHRSGRTARAGSDGTVVTVTLPEQKGEVSK
+LMKAAGVDVSIEKVSHNSPSIAKLIGERAAVVEPHVRAAQLAAKSPQQGAGRSTGANAQR
+KRAARSGAGTRAGGRGGAGGRGRVSAERTASADAPRAQRSPEGRRGSAAAATSQGRNRRP
+ATGQRAGDVAAAGTHRSGGTRSAAPAGSGRPARSAGPRRATAPASNERRGR
+>tr|A0A0P7G871|A0A0P7G871_9MICC
+MSVLLFILGVLFVAVGIAVSIALHEVGHLLPAKAFKVRVTQYMIGFGPTVFSRRRGETEY
+GVKALPLGGYVSMVGMFPPNKETQDGDVRRSSTGMFQQLAVDARQAETDRLEPGDENRVF
+YKLPVWKRIIIMLGGPFMNLLIGVVLFAVLLMGFGTSQATTTLASVNECVISGSQAAAGQ
+TECTDADPAAPAHEAGLLPGDKITGFDGKQVSDWTELSELIREAAGRSVTVTYERDGVEA
+EATITPLLTERPVTAEDGTPQLDADGNAVTQEVGFIGVGSQTALVRQPATEVLPMVGENL
+QGIAGVVINLPQRIADVAQAAFSSEERDPNGPMSVVGVGRIAGEISSMEQAPVQNRVATL
+IGLVGSVNLALFVFNLIPLLPLDGGHVAGALWESLRRGVAKLFRRPDPGPFDMAKLLPVT
+YAVAVLLMGMGALLIYADIVKPVSLF
+>tr|A0A0P7GI41|A0A0P7GI41_9MICC
+MDTRNLLNKRQPVRRPAGHNPALFLFAALLAAAGAAVTYFGFVRTTTGQAADESAWREAE
+LVAPGTRVPSLQILDSLPLASVFIALAVIAGVTIYRRRLSPAVIAIATMAGANLVTQLLK
+NLLLDRPDRGVATLAFNSLPSGHTTMAASAMAAVFLVSSPRWRPLTAVLGGTYAVLAGTA
+TFFNLWHRPADVVAAFFVVAACTLVGGLVMMRTNQDWNTLPPGSRGAGGRLWTGLSAAGG
+MFFLALSAALYAYARWGAGVAGLDGRPLYFWCGLSLILGVGYMIAALGSWLFTQQAGDR
+>tr|A0A0P7HMK3|A0A0P7HMK3_9MICC
+MKKLTLAAAVLALSAAGLAGCAATDTPAAETAQTAEQAAALSVTGAWAKAADAGGMTGAF
+GTLENSGTEDLTVVSASTPAATAVELHEVAMDDDGAMVMREIEGGFVVPAGGEYLLEPGA
+SHLMLMGLQDGLLAGDTVTITLELEDGSTVEMDATTKDFAGANESYGDISGADGHGTEGD
+HGSTETHGHADN
+>tr|A0A0P7GIH3|A0A0P7GIH3_9MICC
+MPSGSLPRSVVVIGAGPAGFSAAAELRRRGYQGAIQLLDPAGMPYDRPPLSKDYLTGGLA
+FPALAEPGWYGSNAVEVVPGTAVKLDPDNGSVTLAGGGELRADVLLLATGGVARTLPFTG
+SDLLHTLRSRSDADLLRSRLGPDKQLVIIGAGLIGAEVASSAASLGTAVVLIDPVPVPLV
+PAVGPELAAYLHSLHETAGVRTLTGLPIDVVRANGALSVLMEDGSALPADTVLAAVGMVP
+DTTLAAAAGLGVDDGVLVDAAGRTSHPRVFAAGDAVRRSSNGGLQRRTEHWDAAVRSGQA
+AAAGILGEEPPEDAVPWFWTDRYGMHAEAVGNMSASGTTVERGSPGPGYMVFRQKPDGTL
+AGAAGINAGNSLRAARRLITLGKPVEAADLSNPDADLRRLLRARPSKTD
+>tr|A0A0P7H3P9|A0A0P7H3P9_9MICC
+MASTTHASPGHSGAPAKARRREVWAWASWDWGSASFNAVMTTFVFTVYLTSDSFGGEDHA
+SAVLGAGLAVAGVLVAVLAPVAGQRSDAGGRRKLWLGINTVAVCIATSLCFFVYPGENFL
+LLGVALIALANVFFEFANVNYFAMLKQVSTPSTIGRVSGFGWAMGYVGGIAALALVLVGF
+INPDVGWFGVTSENGQNIRAVAVFSAVWFLVFSLPIFFTVPEVPRQRAAKIGFFASYGLL
+FRRIKAIYKTSPHTIFFLLASAVFRDGLAAVFTFGGVIAGGTFGWELPQVIMFAIFGNIV
+AAAGSFAGGFLDDRIGPKPVIVGALTGLLLAGSAIAVLGAGDVSVLGLEWTGDTTFWIFG
+LALCLFVGPAQSASRAFLARLAPEGEEAELFGLYATTGRAVSFLAPSLFAAFIAIFGAQR
+YGIIGILLVLLLGLLALLPVRSPDRTPRAVVPEI
+>tr|A0A0P7GTG5|A0A0P7GTG5_9MICC
+MSAQPSSPRRPAEPRVTRQRLAVGRTLDSLDDFVSTQELHRLLQDRGEKVSLATTYRILQ
+SMADEEQVDVLRGIDGEVLYRRCQAEHHHHHLVCRNCGKAVEIEAPAVESWAARLGREHG
+FTEVAHTVEVFGLCPDCSR
+>tr|A0A0N8HX52|A0A0N8HX52_9MICC
+MSVSEDRTDILSGLTSQLPDRDPEETAEWIESLDELIRSQGTERAQFIMRSLLQRAGSRS
+VGVPMVTTTDYVNTIPVDQEPEFPGDEETERRYRAWLRWNAAIMVHRAQRPGIGVGGHIS
+TYAGAATLYEVGMNHFFRGKDHPGGGDQVFFQGHASPGVYARAFLEGRLSEEDLDGFRQE
+KSREGHALSSYPHPRNMPDFWEFPTVSMGIGPMNAIYQAQSNRYLHNRGLKDTSDQHVWA
+FLGDGEMDEPESRGLLQLAANDKLDNLTFVVNCNLQRLDGPVRGNGKIMQELEAFFRGAG
+WNVIKVVWGREWDSLLEKDNDGSLVDIMNSTLDGDYQTYKAESGGFVREHFFGKTPQTKD
+MVADLSDQEIWNLKRGGHDYRKVYAAYKAATEFKGKPTVILAHTVKGYGLGTHFEARNAT
+HQMKKLTLEDLKAFRDHLRIPITDEQLEADPYQPPYYHPGADSPEIKYLLERRRELGGNV
+PERREKHAPVKLPEASAYEVANRGSGKQLAATTMAFVRLLKDLMRDKEFGKRIVPIIPDE
+ARTFGMDSFFPTAKIYNPKGQNYLSVDRDLVLAYKESPQGQIVHVGINEAGSIAAFTAAG
+SAYATHGEPLIPVYVFYSMFGFQRTADYIWAAADQMARGFLISATAGRTTLTGEGLQHAD
+GHSPILASTNPAVKTYDPAYGYEIGHIMRRGLEEMYGEDSEDRNLIYNIMVYNEPILQPK
+APEDLDVEGVIKGIYKVSASDAKGPKAQLLASGVAVPWALEAQQLLANDWGVSADVWSVT
+SWNELRRDGLAAEEEAFLNPGSEPRVPFVTQQLAGAEGPIVASTDYMKAVPDQIRQFLPN
+DFASLGADDFGFADTRAAARRYFKIDSHSMVVKTLQLLAGRGEVDADAPRLAMEKYDLLN
+VNAGTSGNAGGDA
+>tr|A0A0N8HXU7|A0A0N8HXU7_9MICC
+MPLRVLGVDPGLTRCGLGVVDVEGNRRATMVAVGVAGTVAGTALDARLLAISEAIELWLD
+THSPDVLAVERVFSQLNVSTVMGTAQASGVVIAAAARRGIPVALHTPTEVKAAVTGSGSA
+NKEAVGRMVTKILRLTEMPRPADAADALALAIAHAWRRGAVGPGQAATQGSASSGGGPAA
+SGLTAAQRLWAEAEAKAKRARR
+>tr|A0A0P7GAM7|A0A0P7GAM7_9MICC
+MRLVGPAGEQVGVVRIEDALRLAAESDLDLVEVAPQAKPPVCKLMDFGKYKYEAAVKARE
+ARKNQTNTVLKEIRFRLKIDTHDYETKRGHALRFLGAGDKVKAMIQFRGREQQRPEMGIR
+LLQKFAEDVAEVGVVESSPRIDGRNMVMVIGPLKNKAEAKAEARRASQRAEAKAANEAAK
+KGEAPARVDTSAEKAPMTQSLADLLPDGLRLGSSAAEADKARAEKEKAEKEKAAQAAKAA
+ADKSAADARRAEEAAKAAAAKPAQAAKPAAAAPAAAKPAEAPKPMAVPKPTAVKPSAPKP
+AARPKPAAAPKPAGKAPSQGASGQKKPGTAE
+>tr|A0A0P7HNF3|A0A0P7HNF3_9MICC
+MVLLSLIATHSDVDLETVARLSAGAPKVPSSLLENGPAVAGAVVLATCNRFEVYCEARSE
+ADLEAARSAAVAEISRHSGLDEDLVSRSFTTNTGQDVAKHLFAVGAGLDSAVVGEREIAG
+QVRRALIEAQEKGTASGTLTRLFQTASRTAKDVGALTALGKRGLSIVSVALELATDLSVD
+TDWRNKAVVVFGTGAYAGATMALLKERGCTDISVYSSSGRAESFTASRGGTALDRESLGE
+AVARADVVIGCSGSENQVSAEDIRRVRNGSGKPLVIIDLALTHDFDPAVRELDGVDLITL
+ESVRLAAPAEQAESLQQANRIVTDAAQAFSEAQLSRELDSAIVALRKHTLGVLDKELEKV
+RAQHGCTGAGQEVEFAMRRMVKALLHVPAVRARELAASGQQDDYIRGLEAIYGITVDQPR
+EKHDDGSTDTARSA
+>tr|A0A0P7FYT4|A0A0P7FYT4_9MICC
+MSAAPTQSAQATAKTPKKAAAASFMGSAVEYYDFFIFGTAASLIFPHVFFPDADAQASIM
+SLATFGFAYIARPVGAVILGHFGDRVGRQKILMFTLVLMGASTFLIGCLPDFSTIGWWAP
+TLLVLCRLAQGLSAAGEQAGASSMTLEHAPDGRRAFFTSWTLTGTQGGQILAAMVFIPVM
+ALPDDIKYGIGWRIPFWLSAVVVIVTYFIRRTLHETPTFQEAKANNQIAKLPVGDLLKHH
+WRDVLRVICCAFIAAVSTVYGTLAIKYGTEVGNVDAAITLWLVVAGNIAALFTQPLFGMA
+ADRFGRKPVFIYGALSSAAVMPFYLLSMESGNSLLQFALSVVVFGCGYAAANAVWPSFYA
+EMFSARVRFSGLAIGTQLGFLMAGFAPSIVAALGGLEPGGWVVISWFTAAVAGIASISAL
+TAKESFRIPTAELGLKK
+>tr|A0A0P7G676|A0A0P7G676_9MICC
+MRAVYAQSQSQEDPLSGLVVGELPVSEPEPGFRRVRVLASALNQHDLWSLRGVGLPAERL
+PMVLGCDGAGVDDEGRDVIIHSVVSSPGWEGDETLDPRRTLLSERYAGTMADEVWVPERN
+LIPKPAQLSFEEAACLSTAWLTAYRMLFTVSPAAPGSTVLVQGAGGGVATALVSLASAAG
+YRVWVAGRNPGKLEHARSLGAEAVFEIGARLPERVDTVFDSVGEATWSHSLKALKPGGAL
+VTCGATSGGNPPADLNRIFFLQLKVLGSTMGTKAELQRLIGFLLATGVRPEIDSVLPLEE
+AAKGFRRLNDGEATGKIVFRH
+>tr|A0A0P7H912|A0A0P7H912_9MICC
+MVRALATAVIASVVCGVLSCWLVLIGWSLMGDAVSHAVLPGVVLAYVVGAPFALGAVIFG
+FLAVGLIGLVRDTSRIKEDAAIGIVFTTLFAAGLVLISVTPSQTDLNHIIFGNLLGVSSA
+DLAQVAVLAALTLAVLLFKRRDFTLYAFDPTQAHAVGLNPRLLGAALLGLLALTAVVALQ
+AVGVVLVVAMLIIPGSTAYLLTDRFSRMLLIAPLMAAGCAVAGIYASYYLDTATGPMVVL
+AQGAVFTLAYLFSPRQGVVGRGIAARRRRRTQAV
+>tr|A0A0P7G6J8|A0A0P7G6J8_9MICC
+MWAVVGATGFIGSALSSTLASHGITVRYVKAPRLSALSGDAAGILSEAASLADARQDLFG
+ELEGADVVINAAGLATPSGAETPGLRGANALLPALIADAADDAGVRRFIHLSSAAVQGHR
+PYLDESAHVEPFSAYSRSKALGEAVLAAREPGTCSVLSLRATSVQGPARETTATLVRIAS
+TPLSSVAGRGDSPSPASSVDALCEFVVSVGLHRGAMPPVILQPWEGATVASVLQAAGGRK
+PLHLPVWFCRAALKTGYLVSALLGERLHGVLRRVEMMWFGQRQEPGWAEATGNVPEPRVE
+QVVRAAREKR
+>tr|A0A0P7GHN3|A0A0P7GHN3_9MICC
+MNFSPGPDAPARRIRREDILLAPGYAALAWLLHSLDLTATGNPAVPSLEPWWPVLTVVGC
+GAVLLRRRHTAVMVAVCGTMAVALVLANSSAGLFLAFEAVFSLVLFGSDRAARRAEVSVL
+ALCLASGTAVWSLTGDLRDAVTVILLTGMVLLLPAEWASNLRKAAQLAESEGARAAAIRA
+AARDQERLAAREQELALAAERQDMARELHDVLSSRLSAIALQSGAALRAPAGSTLHAEVL
+AHARRESVQGLEELNGMIRTLSSGVPRPLAGSVRDLDAVVDGHRSAGLQITWNNLLDPDK
+ALPGPVQAAVYRIAVEALVNAARHAEGARVDMSLEPVPGGVRLVVEDDGGTAGRAVSVPG
+TGTGLPSMLARAEQLGGQAWAGPTTQAGPVTQAGLTTQSGLAAQSGPAAQFDPADGTGWR
+VEAFLPDGSQEAPAEDVQCDPAPANTRVSQRTMMPGNVFRGNVA
+>tr|A0A0P7GLQ9|A0A0P7GLQ9_9MICC
+MQRIPHVINGQHVTDAERYGRVFNPATGSQEKEVALASAARVEEAIQAAQAALPAWRATS
+LARRTAIFFKVRELLTERKAELAAILTSEHGKVLSDAEGEITRGLENIEFASALALSLKG
+ERSEQVASGVDVHSIRQPVGVVACITPFNFPAMVPLWMIGSALACGNTVLLKPSEKDPSA
+SVFIAELFAEAGLPDGVLNVVHGDKEAVDVLLEHPGVKAVSFVGSTPIARTIYRRAAEHG
+KRVQALGGAKNHMVVLPDADLDMAADAAVSAAYGSAGERCMAVSVLVAVGSIADDLVEAV
+RSRMVDLKIGPGTDPSSQMGPLITAEHRDKVASYVAGAAEEGATVVVDGRDEQFDGGGFF
+LGVSLLDHVKPGMRAYDDEIFGPVLSVVRVETYADAVQLVNENQYGNGTAIFTRDGGAAR
+AFEFDVEAGMVGVNVPIPVPVGSFSFGGWKDSLFGDTHMYGPDSIRFYTRGKVVTTRWPD
+PSTSEIDLGFPQVL
+>tr|A0A0P7HKB1|A0A0P7HKB1_9MICC
+MSGTRAPYLRWAAIGLVFVGGGAGAASREGLSLVIPNLGEVPIAIPIINVIGAFLLGYLY
+EAVTRLDKARPTGANLKLLLGTGFCGGFTTYSSLATDTAVLFRDGLPGSAVVYALATVIV
+GACATWAGIAIATAVNNRAPGPRRDEQEDAT
+>tr|A0A0N8HY07|A0A0N8HY07_9MICC
+MAAPQNYLAVIKVVGIGGGGVNAVNRMIDVGLRGVEFIAINTDAQALLMSDADVKLDVGR
+ELTRGLGAGADPEVGRKAAEDHAEEIEEVLRGADMVFVTAGEGGGTGTGGAPVVARIARS
+LGALTIGVVTRPFTFEGRRRSNQAESGIDTLRDEVDTLIVIPNDRLLSISDRNVSMLDAF
+RSADQVLLSGVQGITDLITTPGLINLDFADVKSVMQGAGSALMGIGSARGEDRAVKAAEL
+AIASPLLEASIDGAHGVLLSIQGGSDLGLFEINEAARLVQEVAHPEANIIFGAVIDDALG
+DEARVTVIAAGFDQVDVTSQPASAKPAEPLTPPAAAAAAAGAGTSAWAQRPQSSDVPADA
+GFDIDLPAVVEPDLSAGRQDDLDVPDFLK
+>tr|A0A0P7GJK4|A0A0P7GJK4_9MICC
+MAQTTTDTGAQGGFSFSSLLLPILLGLFIFMMFRKQKKTQKTVQEQRTQMVPGTEVMTQF
+GLFGTIVSVDQEENKAVLELSPGNTATIHLQALTKVVTTSPEPAETEDAVVPDDASSLTG
+DVPRDRSNESDETPVDETPDETLKRLDRENKKDN
+>tr|A0A0P7GUW2|A0A0P7GUW2_9MICC
+MPQNESHEFLTVNPLFARPGEATEASKYHLPQSEMAPETAYQIVHDETMLDGNARLNLAT
+FVSTWMDDHANRLYAETYDKNMIDKDEYPQTAAIEQYCWKMLAGLWHSPDPQGTIGTSTI
+GSSEACMLGGLALKRLWQHRRRSEGKSTEKPNLIMSSAVQVCWEKFCNYFDIEARLVPIS
+EEHKCLDGFELEKYVDENTIGVVAIMGVTYTGMYEPVKQIAAKLDEIQASTGLDIAIHVD
+GASGGMIAPFIQPDLEWDFKIERVHSISTSGHKYGLVYPGLGWVVWRDRQWLPEDLIFYV
+SYLGGDMPTFALNFSRPGAQVVLQFYLFLRLGFDGYRKVQQASQDVALFLSHGISEIGPF
+ELWNDGSDIPVFAWRLKQGHTDRWTLYNLADRLRTKGWLVPAYPMPDNLSNLTVERIVVR
+NGLSMDLAESLLSDIRTETAYLENLSAPMPSEQEHPGFHH
+>tr|A0A0P7FFV9|A0A0P7FFV9_9MICC
+MTIKTLDELISDGVDNRYVLVRSDLNVPLDDGKVADDGRIRASIPTLQLLVEHGAKVIVM
+AHLGRPKGQPDEKYNLRPAADRLDELAPFAVEFAEDVVGTSAKELAGSLASGSVLVLQNI
+RFDPRETSKDDSQRMELARELAGLTGGSGAFVDDAFGAVHRRHASVYDIAEVLPAYEGNL
+VRSELEVLSRLTKDPAKPYVVVLGGSKVSDKLAVIENLMTRADYLLVGGGMVFTFLAAQG
+HKVGASLLEEDQIDTVKDYLSRAREAGCEFILPTDIVVADKFAADADHEVVSADAMEDSR
+FGASGIGLDIGPASGAAFADRIRSGATVFWNGPMGVFEFDAFAGGTRAVAEGLKECSGLT
+VVGGGDSAAAVRKLGFSDSDFSHISTGGGASLEYLEGKELPGIAVLDK
+>tr|A0A0P7GHW9|A0A0P7GHW9_9MICC
+MDATLTRVRDEVFRRNPGETEFHQAVVEVFDTLEPVLRKHPQFGEAAILQRICEPERQII
+FRVPWVDDQGHVRINRGFRVEFNSALGPYKGGLRFHPSVYLGIVKFLGFEQIFKNALTGM
+PIGGGKGGSDFDPRGKSDAEVMRFCQSFMTELYRHIGEYTDVPAGDIGVGGREIGYLFGQ
+YKRITNRYESGVLTGKGVSWGGSLVRPEATGYGVVMFVEEMLKTRGLSLDGQRVIVSGSG
+NVAINAIAKAQAFGGKVVACSDSSGYVVDEAGIDVELLRQIKEHERGRISEYAQRRGGNV
+SFVAGGSVWDAGANVALPCATQNELSEDDAVSLVKSGAVAVAEGANMPCTPKAIEVFQEA
+GVLFGPGKAANAGGVATSALEMQQNASRDAWSFEHTEQRLSQIMVNIHDRCAATADEYGS
+PGNYVVGANIGGFVKVADAMLALGVI
+>tr|A0A0P7G481|A0A0P7G481_9MICC
+MHPTDESLRRLDSSRRVVALREALLRAGISMSYLAPDSVNNAAFFDDHVDAAVRAFQQSR
+GLIVDGVAGPDTQRALAEAQFRFGDRVLEFVEDQPAVRGDDVAELQRHLSHLGFYYGHID
+GEFGIRTRYAVAELQENLGIPGTGVCDGDTMTAMSRVNRAISPSQAFALRDYERLDRSTA
+ALRGRTITLNTGRSEISSAHVTERLTGQPLTELLVASDVRARVERILGEFGAEVVEYDAA
+AASVSGRSPSLNVNIHCDWLDQPAASGMAAYYWGLPVTGEPRSPIGQRAAILMMKELAAR
+TDMANLGVHARTWDTLKLPGIPSVGIDLGYLSNFHDAHRLADPVFRQTLADSIVIAIQRL
+YLLEEEDQPTGTLALDDVSRFNPVEDRRRVSGL
+>tr|A0A0P7GJB9|A0A0P7GJB9_9MICC
+MTAQTAEHGATSVAPGATGRIARVIGPVVDVEFPADAIPTIYNALTTELTLNGETKTITF
+ETSQHLGDNLVRAISLQATDGLVRGAAVVDTGAPISVPVGDGVKGHIFNVLGEPLDVPAE
+QLEINERWPIHRKAPNFADLEGSTEMLETGIKVIDLLTPYIKGGKIGLFGGAGVGKTVLI
+QEMITRVARNFGGTSVFAGVGERTREGNDLWVEMEEAGVLKDTALVFGQMDEPPGTRLRV
+ALSGLTMAEYFRDVQNQDVLLFIDNIFRFTQAGSEVSTLLGRMPSAVGYQPNLADEMGLL
+QERITSTKGHSITSMQAIYVPADDYTDPAPATTFAHLDATTELSREIASRGLYPAVDPLS
+STSRILDPQYVGQEHYDTAVRVKQILQKNKELQDIIAILGIDELGEEDKIVVARARRIQQ
+FLSQNTYTAKQFTGVEGSTVSVKDTIEGFKAICDGDVDHIAEQAFFNVGGMDDVERQWAK
+IQEQTGK
+>tr|A0A0P7FWW7|A0A0P7FWW7_9MICC
+MTDLPHLPVTLDDIQAAAKLLDGVIAHTPIEQSRALGRLTGSNVYLKCENLQRAGSFKVR
+GAYVRMAKLSEEQKARGVVAASAGNHAQGVAVAAARLGIKARIFMPLGVALPKLAATQGH
+GAEVVLHGHNVDEALAEAQRFADETGAVFVHPFDNVDIVAGQGTLGLELLDQIPELDTVL
+MGVGGGGLLAGVAVAIKERARELGREVRIIGVQAENAAAYPPSLAADALVPLSKVSTIAD
+GIAVGRPGQLPFSIIKELVDDVVTVSEDSLARALIFLLERAKLVVEPAGAVGVAALLDGK
+IENPGNTAVILSGGNIDPMLMLKVIQRGLAAAGRYLVVRMLLDDRPGSLATISRIIAESD
+ANVTGVDHTRVGGSISMGDVAITINMETKGHDHCEKVLQNLRAEGFHPVVLHG
+>tr|A0A0P7FZR3|A0A0P7FZR3_9MICC
+MWLSSELMFFAALFAMYFTLRSTSGEMWEIETAKLNVPFAFVNTVILVSSSFSCQFGVFA
+AERLQPRRTGGLFQIARWGMVEWFYLTFFLGAIFVAVQAFEYAELVSHGISLSSNAYGSS
+FYITTGFHGLHVAGGLIAFLFIIGRAYAAKRFGHFEATSAIVTSYYWHFVDVVWIALFVI
+IYFLK
+>tr|A0A0P7FIF9|A0A0P7FIF9_9MICC
+MNLNSLQNDRAAGVLVALAAGDALGAGYEFGPPLTDGADVCMKGGGPFGFEPAEWTDDTS
+MAIPIAEALLEYGAAPAAFDAVVQAWTDWARDGKDVGAQTRTVISAASRAADKDRRTVTA
+GDFAEAAAEFHGRSGRSAGNGSLMRTAPLALAYLHRDPTDLMTAAVGLSALTHYEYDAGE
+ACGLWCIAIRQAVLTGQLDLRAGLALLETGRADLWRKRIETAERSRPRDFAQNGWVVEAL
+QGAWSAITSTGASPAGPQHLRAALEEAVRGGNDTDTVAAIAGSLLGAVYGFSAVPFEWRR
+RLHGWPGLRTRDLMILGAELAAGKGKQNYIWPRTGHQDYSGRSRTDALVQHPDDDGVWLG
+GVGALCRTEELGIDAVVSLCRLGTEDVTGIAPENQATFWLVDSASPESNAAAAHVLNEAA
+AAVELFRAEGRTVLVHCVRAESRTPSVAALYGARVAGGSALDASKRVLRALPRANPNPAF
+REVLAAQDADAGSTPA
+>tr|A0A0P7HK47|A0A0P7HK47_9MICC
+MSQSDTALSQLPVAVIGSGPVGLAAAAHLLERGLTPVIFEAGSSPAAAVSAWGHVRLFSP
+WQYDVDAAARRLLAGTGWQEPDAQALPTGNELVEQYLRPLAAVPALRAALRLNSEVLAVT
+REGLDKTRTGGRESAPFLLRVRDESGSVADHRVRAVIDASGTWNTPNPLGQAGLPAAGEA
+EAYAAGVITAPLPDVAGRERDRFAGRHVLVVGAGHSAANTLLALGELAELEPATRISWAI
+RSSSPAGVYGGGDLDGLPARGALGTRLRALVDAGRIELHTSFRITGFKTSDSLTVVGSTP
+AGEAQLNVDLLVPATGFRPNLDMLREVRLDLDPAVEAPRQLGPLIDPEFHSCGTVEPHGA
+RLLSHPEKDFYIVGMKSYGRAPTFLMATGYEQVRSIAAALAGDREAAERVELVLPETGVC
+STDLGGSCCDAPAAEEEAESSCCAAPEPAFLGIPTGLAHGRSAREEG
+>tr|A0A0P7GKL5|A0A0P7GKL5_9MICC
+MTLRPATSVWPAVHEERSALIRDLENLPASQWVTPSLCPGWDVHDVLAHLVDTAKTTRLG
+FLRRMVAARMDFDRDNAVGIFRERARDPEITLAAFRSVQPRTSGPPVPSATRLVEAVVHG
+EDIRRPLGIVRRYPLEPVLTAMRHQLKTSVKVGGGRELADGLRLIATDAAFEHGTGEEVR
+GPAVALLLAVSGRHVRDTELQGSGAAQLQERSAAY
+>tr|A0A0P7GII6|A0A0P7GII6_9MICC
+MARIISGVALVLAFAVLLVPLAVYAGPPVVKALSGTPAERQIAVPSYQRPPSELTSNPVV
+QPLDPAAPLPDPAALAAALDAELSLAGSGTVSAVVSDALTGNVLYERDPDAAGMPASTLK
+ILTAAAVAATLDPGSRFETTVHAAQSGDETVLTLRGGGDVLLGSGASDEDAVVGRAGLTT
+LAREALQAIGDGAGTVRVQVDDTLFSGPALSPAWSEADVEAGEIAPVYSLAVNSAWVDES
+RQAGERTDDAALAAGDAFRNALASAGSGAGITVAGGVERGALPSGAREVASAESATVAEQ
+IQQMLLVSDNYLAEALARSAAAASGQEASFEGAASTVAAEVSRLGVDTTGLALADVSGLA
+AENSVTAAQLAQTVRKVLTSGNESLRPVSRGLPVAGLTGTLQGRYSDGAAAGLVRAKTGT
+LSAVTALSGYVTDADGRLLTFALVARNLDGNTAEARGAVDAAAAVLAGCGCR
+>tr|A0A0P7GKR2|A0A0P7GKR2_9MICC
+MFKNADEVLKFIADEDVKFVDIRFTDLPGVQQHFNVPAKSVDADFFINGQLFDGSSIRGF
+QGIAESDMQLIPDVTTAFLDPFRIEKTLALNFSIVNPRTGEPYHRDPRGVAERAEAYLAS
+TGIADTAFFAPEAEFFIFDNVQYESAPQGSFYKVDSIEAPWNSGREEEGGNLGNKTPFKG
+GYFPVAPVDKQADLRDAICVELDNAGLEVERSHHEVGGAGQAEINYKFTTLTHAADDLLK
+FKYIVKNVADAWGKSATFMPKPIFNDNGSGMHCHQSLWNGGEPLFYDEKGYAGLSDIARW
+YIGGLLKHASAVLAFTNPTVNSYRRLVKGFEAPVNMVYSQGNRSAGIRIPITGSNPKAKR
+IEFRAPDPSSNPYLAFAAQLMAGLDGIKNRIEPADPIDKDLYELPAEEAKDIQKAPGSLE
+EALDALEADNEFLQAGGVFTQDMIDAWIAYKREYEILPLAMRPNPFEFELYYGV
+>tr|A0A0P7GWJ0|A0A0P7GWJ0_9MICC
+MKALSVEPSNAPIAIGSRIRTARQARHLTIEQVAESTGLTKGFLSRVERDLTSPSVASLV
+TLCQVLSISIGDLFLPPQTTLVRWPDAPGINLGGSGINERLLTPRTERQVQVIRSEIGPG
+GSGETDLYSVDCSVEVLHVVEGRLDLIFAAETMNLAAGDTVTFPGKESHSWRNPDTGAAA
+VVIWTLVSPGSA
+>tr|A0A0N8HYY9|A0A0N8HYY9_9MICC
+MPVTRQGRLDGSQSAITEESVYRKINRRLLPLLLLCYTFAYLDRVNIGFAKLHMQEDIPA
+LTEVVFGIGAGLFFLAYACLEIPSNMLMHKVGARRTITRIMVLWGITSASMMFVRDETTF
+YVLRILLGIFEAGFAPGIILYLTYWFPARRMAAVMGIYMLAGPIGSILGSGVSAAIIAAM
+DNIGGLAGWQWMFLIQGLPCVLLGYLFWKRVSDRPEQAGWLNEAEKALVAKAIGQTTAGQ
+STHRFIDALKEPSVYVMAVAYFGIMCGIYAVSFWLPTILQDNGVEGTLSIGLLTAVPYAL
+TIPTMIILSRSSDRLQERKWHAVVPALIAAGGLTVAAFTATNFMVSFIALCIAVCAVWAA
+YTVFWAVPSQHFGGTAAAGGIAFINTIGILGGFVAPTLMGFVREATGSTQGGLLTMVGLL
+VLSAVTLLLLPAALRQRKLEVSQ
+>tr|A0A0P7GAJ0|A0A0P7GAJ0_9MICC
+MTPANPAFDFEQLGRAPDVEAENLQAFDAADRLLLDLAADDLSAAAQEPGAVTVIGDSYG
+ALTLGAASLHGLHGIRVHQDPLSGELALDRNAAVPGLTGSYSHYPLDASLATGAKVVLLR
+LPRSLDALEEIAELIAANAAPDVRVYAAGRIKHMTMAMNDVLGRYFQSLTVSLARQKSRV
+LVAGGPRPQGELPASRFPLEAAYDVGLPAPLQLRARGAAFGGAALDPGTRFLLPFLARAR
+ETGTAVDLGCGNGAIAAYLALARPAIRVLASDQSEAAVASTELTLEANGVSDRADVRRAD
+ALSWLQDESQDLVVLNPPFHIGASVHTGIAFKLFADAARVLRPGGELWTVWNSHLAYKPT
+LNRIVGPTEQVARNPRFTVTVTTRR
+>tr|A0A0P7GI55|A0A0P7GI55_9MICC
+MSVATTKTRLELPPLKLGRLTVDTPVILAPMAGITNKAFRRLCREYGGGLYVTEMVTSRA
+LVERSPESMRIIEHDDDESIRSVQLYGVDPVTVGAAIRILVEEDRADHIDLNFGCPVPKV
+TRKGGGSALPWKLDLFTAIVQTAVREASKGGVPLTIKMRKGIDEDHLTFREAGKIARDAG
+VAAVTLHGRTASQFYSGKADWNAIAELRESLPDVPVLGNGDIWSAEDAIAMVEQTGVDGV
+VIGRGCQGRPWLFADLQAAFEGSAERHRPGLKEVADSVYRHAELLVETFGDEVIALRDIR
+KHMAWYFKGYVVGGELRAKLATVPSLEVLRGLLAELDPTAPYPGADAEGPRGRAGTPKKT
+ALPEGWLDGRELNPAQKAIIAAAELDVSGG
+>tr|A0A0P7GJR2|A0A0P7GJR2_9MICC
+MGQCPYGFASSDENPGLESAVDGPRPSEWSPALNETFGSAHRDYAELRRTNPFPWSEDFG
+GFWAATSYEDIVRITQDDELFITSVQNVVPHVPRSSRRPPLHFDPPEHTAYREAIDPVLR
+RSTVRAHESAFRESAGELVQGLLAKNDDADGVRDFAAPFVMDCFASFLGVPSSLTRHIRE
+IGVRYSFAIQDMDEDVIGECSAELYRIAEEVYRERLAAGADSAQDLVSSLHEAALNPENH
+ITEKTAIATIRQMIVAGMGAPQAVLGSCLVHLAQDQDLQQHLRSNPENLPAAIEEFLRLH
+APYRVFARTAKQDALVHGRMVREGDPIALIFPSGNRDETVFPDPDEFVLRRPNNSHLAFG
+RGSHKCPAATLGRMELLIALEVLLENTDRFDLAGDVVMMNWLEYGPRAVPLRLIGKTAAG
+AARVPKPRTVSQ
+>tr|A0A0P7FH66|A0A0P7FH66_9MICC
+MVLAATPIGNMGDATVRLIDLLQHADVIAAEDTRRLHRLVSALKISTTGRIMSYHEHNEQ
+SRTPELLELVRGGATLLMVTDAGMPSVSDPGYRLVEAAAAEGIAVTAAPGPSAVLTALAL
+SGLPTDRFCFEGFLPRKSGERASRLSELAGEQRTMVFFEAPHRLEAMLRALDTAFGGDRP
+AAVARELTKLHEQVLRAPLRELLEWAEASEVRGEIAVVVGGAGEAAPEAPEDHVGAVNEL
+IAQGSRLKDAVATVASDARISKRELYAAVLAARGSK
+>tr|A0A0P7HUH7|A0A0P7HUH7_9MICC
+MTIGSTTITPGALGWDLSILAGCYQSRVEAALEGAAGGLRGFQVLSTVVRLDPPNQQALG
+AHLGIDRTVLTYLIDALAEAGDVERIPDPADRRARKVVATKAGRARLASCEERVAAAEAD
+FLAGLEPSESELLRVLLHRLASQAHQPASGLNPCAAMDDA
+>tr|A0A0P7HIG7|A0A0P7HIG7_9MICC
+MKNTEELLKRLGVDIDAGTLQLALTHRSYAYEHGGIPTNERLEFLGDSILGFSVTDALYR
+DNPDLSEGELAKRRSAVVSTKALASVARQLKLGDFILLGQGEKLTNGKDKSSILADTTEA
+LIGAVYLCHGIETARSMVMRLIGPLLHDADALGAGTDWKTSIQEIAAARKMGDIEYRVTG
+SGPDHSRSFVAVLHIGGRAFGTGTGRSKKDAEQEAAADTCRQLRETLPAPAAPSGT
+>tr|A0A0P7H8H8|A0A0P7H8H8_9MICC
+MILNETYTLANGAPIPKLGFGTWFIEDGAAAQAVQDAIGIGYRNIDTAQAYGNERGVGEG
+VRSSGVPRDELYVSSKLAAEIKDYDGAVSAIDGSLTLMGLEYLDLMMIHSPQHWNDWRGG
+SYAEGNRAAWRALEEAHDAGKLRSIGVSNFEQADLQNIFAACTVPPQVNQVLLHVGNTPT
+ELLDFCTENNMLVEAYSPIAHGEILGNAEVGVMAERYSVSVPQLCIRYALQLGTVPLPKT
+TNPEHMRTNADVDFVISDADMEALHGMSVTDYGKSGKFPVFSGK
+>tr|A0A0P7FTY0|A0A0P7FTY0_9MICC
+MAVPGPGNSIALRVKSPSDVGAASELAAAVGAAGATLTGLDVVESAQRFLLIDLTCNTVD
+AAHAARVAEALEGLDGVSVQSVTDRTFAMHLDGKIGVVPTVALDNRDDLSRAYTPGVARV
+CLAIAEDAAQARRLTIKGNTVAVVTDGSAVLGLGNIGPAAALPVMEGKAALFKKFGGVDA
+WPVCLDTQDSEEIIRTVKAIAPSYGGINLEDIAAPRCFEIERRLREELDIPVFHDDQHGT
+AVVVLAALKNALRVVGKPLPGTRIVVSGVGAAGSAIIRLLLADGAERITAFSREGVVSSA
+DVQPDPTRAWLAAHTNAEQFSGSLPEALAGADVFIGVSAPNILTEADIAAMAPDAVVFAL
+ANPDPEVDPAAAARHAAVVATGRSDFPNQINNVLVFPGFFRGLLDSGVTDFSDAMLVAAA
+HAIAERVTPAKLSAAYIVPSVFDPGVAPAVATAVEAAAGAASSSGTAP
+>tr|A0A0P7G6Q8|A0A0P7G6Q8_9MICC
+MAELRVLLVDDHPVVRAGLRAMLSGFEEVSVGEEAADGDEALKILGREAAVGERIDLVLM
+DLQMAPGMDGVTATRRIKEQYPDLPVLVLTTYDTDADILAAVEAGASGYMLKDAPPEAIR
+DAVRSAAAGQTALAPEVAARLMGRVRNPEPSLSAREIELVELLATGMSNRAMSRRLFISE
+ATVKTHLVHIYEKLGVDNRTAAIAVARERRIIRG
+>tr|A0A0P7GHJ4|A0A0P7GHJ4_9MICC
+MSEDISRTMIAGRLNIETGTFALKEVPVPDPGPGFVRVKVGAAGVCLSDVHLIQGLLRPK
+FLKGSEVTLGHEVAGTVDLPGPGVSSLAAGDRVVVQAGYEYNGVTLTMGVDYDGGWAEYL
+VVPAGVCVPLGDDIPFDQASIIPDAVSTPWGAIASTADVRAGEAAGVWGIGGLGAHGVQL
+LRLIGAAPIIAVDPIPEARARALEFGADIALDPMAGDFADAVKAATGGRGLDVALDFAGV
+DAVRAQALDSLGLRGRLVLVGLSGKPVTIGDSTGFSYARKQVLGHYGSEAHHVPQLVSLT
+RLGRLDFAKSVSARLPLAEAEQAVKSLDAKEGNPIRIVLIP
+>tr|A0A0N8HZ69|A0A0N8HZ69_9MICC
+MNTLKKAGYLVGLPVLLIFIWWFNTLGSTNFFVPKPGMLVDKLLTVWTGERLVQDVLPSL
+IRLVTGILLAIVLGTVMGILIGTTRWLRSLLEPVLEFFRAIPPPVLIPVLMLLIGVNDQM
+KVAVIVSGCIWPVLLNTIEGVRAVDGVLSDSARTFRIGGFARLRYLVLPSASPQIMAGIR
+QCLSIGLILMVISEMFASSEGLGFTIVQFQRSFAIPEMWSGIVVLGLIGVAMSFLFQWSE
+RRILGWYHGLREVEHAE
+>tr|A0A0P7GD75|A0A0P7GD75_9MICC
+MTSRAGDPALEIGDPAGAVVRRSVLPGGVRVLTESMPGQRSATIGFWVGVGSRDEAEGRH
+GSTHFLEHLLFKGTSRRSAMDIASAFDEVGGESNAATAKETTCYYARVLDTDLPMAIDVI
+ADMVTSAVLDAEELEQERDVILEEIAMDADDPADLCHEKFAEAVLGDHPLGRPIGGTPEA
+IKAVPREAVLEHYRRHYRPETLVVTAAGGLEHEIVVSLVLDALKRAGWELDETAEPAPRR
+DTTPAQITGGGGIHVINRPVEQANIVLGCPSLTATDSRRFAMSVLNTILGGGMSSRLFQE
+IREKRGLVYSTYSFSAAYTDAGYFGMYAGCSPAKTRQVIDLLQSELERLAADGVEPGELA
+RALGQISGGLVLGMEDTGSRMSRLGSAELVRGEYVDIEESLARIRAVTAEQVQELAAELA
+AAPRTITVVGPFNSPADLGF
+>tr|A0A0P7FX88|A0A0P7FX88_9MICC
+MGASQTGPSRGSAGNVAHPAKVIAVTVAAAVGGLLFGFDTAVINGAVDAIGGEFSLSAGV
+LGFTVAITLLGCAIGAWFAGQLADRLGRKTVMVTAAVLFAANSIGSAWAFSVWDLMLWRL
+IGGLAIGTASVIAPGYIAEVAPAKWRGALGSVQQLAITLGIFAALLSDAWLANTAGSAFN
+ELWWGMAAWRWMLLVGVFPAIVYGVLALTIPESPQYLVRKNRDEDAARVLRDITGVQDTD
+RKIREIRDSFENEERATYSDLRGTMLGLKPILWVGMAIAALQQLVGINAIFYYSTTLWQS
+VGFSESDSFTTSVITSVVNVLMTIVAIAFVDRVGRRKLLMTGSIGMFVGLLAATVSFFQA
+DSSSGEVVLPQPWGAIALIGANLFVVFFAATWGPVMWVTLGEIFPNNIRSLALGLSTMVN
+WIFNFIVTLSFPWVSENFGLWIMYAIFTIFAVVSFWFVKTKLPELSGRELEENRDHL
+>tr|A0A0P7GIM9|A0A0P7GIM9_9MICC
+MSTSSTPVNPAQRSRMARRVAGASFVGTALESYDFYVFGTAAALILNRVFFPDVDPLTGT
+LLAFLSLGMGFVARPLGAVLFGHIGDRVGRKKSLIYTIVLMGLATGIIGLLPDYAAIGVW
+APILLVALRLLQGLAVGGEWGGAVLIASEHAEPKKRALYAAIPQIGSPVGTIMVTATFLI
+LTQVSPEAMEAGVWRIPFLLAFPFMAVALYLRLAIDETPVFKDVAEHHQVARVPVLEVLR
+SQPAAVVIAMAAALLGIGSYFLMTTYTQAYGTTVLGLSESTVLNAALVGSVLQLATIPAF
+GWLATRVGSARVVAGGAAATAIISFPLYYLISIADQPLYILTILIGGIAPTAAWAALGGL
+MADLFPARTGYTAMSLAYSFAGIAAGFTPAVTQLFSDATSAAWWHPGAVLALMSLITIAG
+ALAASRKIRAQSQTESAEAVAA
+>tr|A0A0P7GDT3|A0A0P7GDT3_9MICC
+MADGSERVRPARAGRSARTPRPGLAWTLPATVFFLLFAVIPLIAVVVLSFMSWRGIGEPK
+FVGMENWQELSSDPVMLKSLWLSLLFIVLGVATQTPVSMLLGVWAAGPQRNRAVLSAIYF
+VPLLLSSAAISVLWRALLDPNFGVPSQFRWLFGDGNLFGHQATAIGVIIFVSMWQFTPFH
+TLIYQGAARAIPQVLYQAAEVDGAGRARTFFSITLPQLRNSIITSVILMVVGGLTTFETV
+LILTNGGPGTDTTITAFYMFEQAFRRFDFGTGAAVALVLVVVATTISLIMVKVSGYDKMR
+STMEGV
+>tr|A0A0P7G918|A0A0P7G918_9MICC
+MAETAKADSTTRTVERALSLLSVVCRQGAVTQSEAAKAAGLSTSTALRLLRTLEGTDFLR
+REENGTYRPGPAIVQLGVLALSSESLIATYRDAMDRIVDQTGESTYLSIPAAGGHGLYIA
+ISEGTQSVRHANWVGRRFDLETSAAGKAMRGEVDGTGCAVVSDGVEPDITAIAVPLTAGG
+KAVAAMSVVVPSYRVTPGRIKDISQILATETAAVHAFG
+>tr|A0A0P7H5U6|A0A0P7H5U6_9MICC
+MNQGAPPTAERRYRPEVQGLRALAVVLVVVYHVWLGRVSGGVDVFLLISAFLLTGSFVRK
+AEAGRALALGRYWLHMFKRLLPAVAVVLLAVLAAAAVLLPASVRQDLIGQTWASLFYVQN
+WALANNAVDYLAADHSAASPLQHFWSLSIQGQVFILWPLIFAAAVLLARLTGKSCRLILA
+AIFTTVFAASLTFSVWETGANQAYAYFDTRTRLWEFALGSLLALALPYLRLGRRARILLG
+WAGVIAMLSCGIILQVQQQFPGYLALWPTLAAAAVIAAGDTGTRAGADHWLKAKPLVMLG
+NNSYALYLWHWPVLVFWLIASKQENAGIVDGAVVVAVSLLLAVLTTKLVEVPLREWAWPQ
+TAPWRSAMVLAASFALVAAPLAGWQARVDAQAEAVRLQSIADNPGALSLDPDFEMASATQ
+ALVKPAPSDMDQEWAQLDEPCEEGVAPAAGNLLEKHCKQIGSADGAAKTLVVLGDSHAMQ
+WTAALGPVALANDWHVVTVLKMGCRYGAEDPDRSEGCNEFNQAAGDYVMDLMPDAVFTVA
+SVTRESVPDETLAGGYDDGVRGFAEAGIQVLAMRDNPRFEFDMFKCLESNDFNAQACHVP
+RSQLLTETSPLEGLEARIPGVRVLDMSDQFCFEDACPGIIGNVIVYKDHDHLNRTYLETT
+SHVLAERILAVTGWEGVTVPGTT
+>tr|A0A0P7HH92|A0A0P7HH92_9MICC
+MVTAVPSSVRISAPGKINVSLQVGPRRPDGYHAVASVYLAVSLREEVLAAAGAHPGITVS
+VTGGGPLGIAVDGIPLGPDNLVARAAAALAEHAGIQDPAVHLAITKRVPVAGGMGGGSAD
+AAAALMACNLFWDTGLDQTELSRLAAGLGADVPFALAGGAAVGLGVGDELTAVAADKALH
+WVLVASGAGLSTPAVYGRLDALRAEAETVGAPTASEPQAAAPRVLEAVRSGNAAALAGVI
+TNDLQPAALSLAPELETVLNRGRELGALAGLVSGSGPTLAFLAGDAGAAAQLQAALRAEG
+HNALAVHGPVAGAGMTADKT
+>tr|A0A0P7GEE2|A0A0P7GEE2_9MICC
+MRAYELMVIIDPEVEERTVEPSLDKFLNVVRNEGGTIDKVDIWGRRRLAYDIKKKSEGIY
+AVVNFTASPAAAAELDRQLGLNETILRTKIIRPEDQKVVAE
+>tr|A0A0P7FE00|A0A0P7FE00_9MICC
+MSSTESQDLPIRDDMIRLGQALKLANLAEDGIEAKELIENGMVKVNGEIEERRGRQLHSG
+DTIEVNSQAIRIVSGG
+>tr|A0A0P7FF65|A0A0P7FF65_9MICC
+MPENTAVADFWFDPTCPFAWVTSRWMGEVEQVRDVRTEWHVMSLSVLNEGRDLPEDYRAR
+IDKAWGPVRVIIAAAELHGQENIKKLYDAMGTRIHVQGMKDYDAVIAEALAEVGLPAELA
+DVAATDKFDTQLRASHQEAIDKVGDDVGTPVVAFNGTAFFGPVLTRIPRGEEAGKMFDGA
+LALASNPHFFEIKRSRTENPQFG
+>tr|A0A0P7GTR2|A0A0P7GTR2_9MICC
+MLSGPGEAQVVSAASTCTPGLAAAPWDFDAAPGYGPGASLSDPVPAGTPRQDELPQEYRQ
+ATDTELEERIARAKDALGERAVILGHFYQRDEVVRHADFVGDSFQLARAARSRPEAEAII
+FCGVHFMAETADLLSGPEQAVLLPNLAAGCSMADMADADSVAECWEQLTALYGETPDADG
+RQQVIPVTYMNSSAALKAFCGESGGIVCTSSNAAAVLEWAFERGCRVLFFPDQHLGRNTA
+RAMGIPLEKMPMWNPRLPLGGNTAQSLLEARVLLWNGFCSVHKRFTVDQIARARAEHPGV
+RVIVHPECPMPVVDAADESGSTDYIQKAVAAAEPGSTFAVGTEINMVNRLAAQYPEHTIF
+CLDPVVCPCSTMYRIHPGYLAWVLEGLLDGQTRNRITVPGHTAAAALTALERMLAVRP
+>tr|A0A0P7GRW9|A0A0P7GRW9_9MICC
+MPEMPEVQGLADFLRTKLLPEYAPPAQVSDVEVLSFAVLKTAGVPLDELQSGPVSAVERR
+GKYLIITAGGVHLVMHLAKAGWLRWSDALKPGRLRPGKGRMAMRVRFSPPEPGGDEPGFD
+LTEAGTKKSLAVYLVRDPDEVPGVARLGPEAFDVDPKTFAALVAGHRGQIKGLLRDQSVI
+AGIGNAYSDEILHAAHLSPFANAAKLKPEEVERLYQAMHAVLESAIDNAAGRPAAELKDS
+KRRALRVHARTGEPCPVCGDTVREVSFADSSLQYCPTCQTGGKLLADRRMSKLLK
+>tr|A0A0P7H3Y4|A0A0P7H3Y4_9MICC
+MAVELGDAQRRLGELIERVNRDHTEIEIVSGSASAVLMSKAEYDALVETSYLLSSPANAR
+RLMSALQSVRETATRRNDPSRAP
+>tr|A0A0P7GA49|A0A0P7GA49_9MICC
+MRQRAKSALVVAAGFTACLWIIYFLTLPFQATLLPGLGIIPRQLQGLDGIAFAPLLHAGT
+GHLISNSLPLLAFAFLVLLEGLRRFAAVLAICWLASGIGVWIFGGGLTIGVSGVVFGLFA
+YLMVRGFYNRDLMQILLGGVLFLIYGSLLWGVLPTAAGVSWQSHLFGAAGGVAAAILLRR
+RGNGPENRSGPAIRRTRS
+>tr|A0A0P7GBJ9|A0A0P7GBJ9_9MICC
+MNETLSIVIYVVIGLAVVGSLAALLVRTRRTPKGMYPTKRDADDLPGGSGATSVLDRPGT
+AAPEAEPTVTVPDDLRDLEEAPAEPAAPALETPEPVQGRLARLRARLAKSNNALGKALLA
+LLSSDKIDEDVWDEIEETLLLADLGTEPTMELVDALRERVRISGSRDPQEVHAMLREELI
+KLVDPSMDRSLAVERHADKPAVVMVVGVNGVGKTTTVGKLARVLVAEDKDVLLGAADTFR
+AAAAEQLATWGQRVGVPTVRSEVDGADPASVAFEAVKAGIDGEVDTVLIDTAGRLQNKVG
+LMDELGKVKRVIEKQAEVDEVLLVLDATTGQNGLTQAKVFAEVVNITGIVLTKLDGTAKG
+GIVVAIQRTLGVPVKLVGLGEGPDDLAPFDAEGFVDALLS
+>tr|A0A0P7FX82|A0A0P7FX82_9MICC
+MASTKSKLDPIISLAKRRGFVFQSGEIYGGSRSAWDYGPLGVELKENIKKQWWQSMVRGR
+DDVVGLDSAVILPRAVWEASGHVEVFSDPLVECLSCHKRYRADHLEEEYEEKKGRAPDNG
+LADIACANCGTKGQWTEPQEFSGLLKTFLGPVASEEGMHYLRPETAQGIFVNFNNVLTTS
+RKKPPFGIGQIGKSFRNEITPGNFIFRTREFEQMEMEFFVEPGTDEEWHKYWIETRKNWY
+TDLGIDPENLRLFEHPLEKLSHYSKGTTDIEYRFGFQGSEWGELEGIANRTDFDLGTHSK
+HSGTDLSYFNQATNERFTPYVIEPAAGLTRSFMAFLVDAYTEDEAPNAKGGVDKRTVLRL
+DPRLAPVKAAVLPLSRNEDLSPKAKELAAQLRRNWNIDFDDAGAIGRRYRRQDEIGTPFC
+ITVDFDTLEDQAVTVRERDTMAQERVSLDKVEGYLAERLIGA
+>tr|A0A0P7FE78|A0A0P7FE78_9MICC
+MIETAGNALQTPPRLKDGTLRIVPLGGLGEIGRNMAVFEIDGKLLIVDCGVLFPEETQPG
+VDLILPDFSYIEDRLDDVVGVVLTHGHEDHIGAVPYLLRLKKDIPLIGSQLTLALIEAKL
+QEHRIKPFTLTVKEGQVEQFGPFECEFVAVNHSIPDALAVFIRTRAGNVLHTGDFKMDQL
+PLDGRITDLRAFARLGEEGVDLYMADSTNADVPGFTSPEGAIGPVLEELFGKVKKRIIVA
+SFSSHIHRVQQVLDAAAAHGRKVCFVGRSMVRNMAIAEKLGYLHVPEGILVDLKNVDNMP
+DHKLVLMSTGSQGEPMAALSRMANGDHRISIGKGDTVILASSLIPGNENAVFRVINGLMK
+LGADVVHKGTAKIHVSGHASAGELLYTYNILKPKNAMPVHGETRHLIANGKLAVQTGVPE
+QNIILADDGTVVDLVDGKAKVVGAIECGFVYVDGSSVGEITDTDLKDRRILGEEGFISVI
+TVVNRSTGTIVSGPEIHARGFAEDDAVFDEIKPKISKALEEAVTSNRDHTAYQLQQVVRR
+VVGTWVNRRLRRRPMIVPVVLEA
+>tr|A0A0P7HWA4|A0A0P7HWA4_9MICC
+MATDQLDARIVSLFTDDPRMSVLEASRKLKVARATVQARLDRMQRSGVIAGWGPRLDPAA
+LGYVVTAYCSLTIRQDMGHDAVVAALAEIPEVQEVHTVSGESDLIARVAARSNSDLQRVI
+DSMVATGAVLRSSSVIVLNTHFEGRMLPLLHAAAGAEAKESGQSA
+>tr|A0A0P7G8J4|A0A0P7G8J4_9MICC
+MNAVRTVLALGSNLGESRSTLADAVAALADHPAMKLVAVSPVARTRPVGGPEGQPDYLNL
+VAEFETTLDAHSLLDHCHEVENRHHRTREVRWGPRTLDVDIITYGDQRISDDVLTVPHPR
+AAQRAFVLQPWAWMDPEAVLEGVPVAELAARAADLPGLELFEGE
+>tr|A0A0P7GC38|A0A0P7GC38_9MICC
+MNTAVHIPLKDQDHRTLIATELDTTVFVEAGAGSGKTHAMVERIAALVESGVGIGSIAAI
+TFTEKAAGELRERLRKTLELRISADGGSHSLFSTALDRLDAAPIGTIHSFAARLISEYPI
+EAGVPPLITVVDELRGQLAFERRWETAQQAVFTDPAADGALRVLLALGITLDQLRSVAKE
+LDSNWDRLRDHPPVGQTVPRLDVGPLLRAAELVLENKSLCTDPADALMARFPVVEDWRSR
+LQEVGGSGDLGRTIDVLEALPPTGYARKGAKKNWAVDVESVRQQFKDLVEMRDELVATLV
+APAVETISSIMALVLLDAARTRQRSGELEYHDLLVHARDLLVGESDEQAPARRPLQQRYT
+HLMLDEFQDTDPVQAEIAVRLAASAGCGPDGWEKLPVPAGRLFTVGDPKQSIYRFRRADI
+ATFLAARGRAELDAGSQIASLQTNFRSTTGLLDWINTVFGTLIHANGTVQPPYAPLNPAP
+SRPIWTADGAGPAVAVIGRSGALPNGDGKVTAADRSRQEAADVASAILLATGSAGGSAWQ
+HEGGQSDGFRRRALELKDICILLPTRTALPYIEDALDAAGIEYRAEASSLVYATQEVTDL
+LLALRALANTADQAALVLTLRSAPFACGDDDLFRWKQAGGSWNLYAPAPDGQETSAVGSA
+MAYLAALHRELPVLSPAELLERVAADRRVLEAATDTPRYRDVWRRIRFVSDQARAWTEAT
+HGGLRDYLAWAASQQEENARVKESMVPETDLAAVRIMTIHASKGLEFPMVILAGAGSAPR
+SSKALALWDSSGRALVHFVSDIESPGYAEASEAEKEFADAERRRLLYVACTRAESHLVVS
+HYSGSESSLSGLLASVNDDEELAPDLVLPAELVPLSKEPMPPAHVPPYPDWAAEREGWMK
+QSSLESRTSVTALAKGKDVSAEYGTSVSFVVPEESAEDLPGFAGAPAEHGPAFGTALHRL
+LELTDLELTPSLPELAAGVAAAAGLRIVQDLEASARSALESEPVRRAAEREHWLELPVVV
+SEGDRTVEGIIDLMYREDDGTLVIADFKTDISVGQEQLAAYWRQLGSYARMVERITQDKV
+NALVLIFCRADGAQVLRRTRG
+>tr|A0A0P7H821|A0A0P7H821_9MICC
+MATVPGPLDHTFTAPIGVKVKGDVWSCVEMPGSAEFFGTGKTVKVAATVDNEPVRGGLMP
+TGQGGHMLSISAKLRKKLGKDIGDTVTVRLTERLS
+>tr|A0A0P7FAE5|A0A0P7FAE5_9MICC
+MATDRGLQGKTAIVTGASRGIGLAIARDLVSHGVRVCLTARKADALKEAADSFPDGTVIA
+VAGASDDPDHRSDVLDTVAREFGGLDVLVNNAGINPVFGPLVEMDLDAARKIFEVNVLGT
+LAWVQDTVAHPGLGFRERGGSVVNLSSVSGDTPSPGIGLYGISKAAVSHLTRSLAVELGP
+EIRVNAVSPAVVKTRFSRALFEGKEEAVTGAYPLGRLGTPEDVAAAVTYLVSDDSSWVTG
+QVLTLDGGLLAAGGTA
+>tr|A0A0N8HXK4|A0A0N8HXK4_9MICC
+MQSIRNGKTPSATNPGRGISRQMATIGTTVMVFVFIVAVLFAANENDVVGWLVVIISLGW
+LLLFAFVVFSIRGAARKAGAKLAQAQDSLNRAAGGAPSVEVMDEATLIRDQKLDHSFKII
+QVQSKVIRDNLGTDAGQVSRAIETIEITAHNARGMMKKDEGGPVEGTVVD
+>tr|A0A0N8HXN5|A0A0N8HXN5_9MICC
+MEPVRRNETVPRRTAAILVASTRAAAGVYEDQAGPLLQDWLYTHGYDVVLAEVVPDGEEV
+GKALQRMLALEPSVLFTSGGTGVSPTDATPEQTLPLLDRQMPGVMEALRADGLTKTPMAA
+LTRGYAGTAGKTFVLNLPGSPSGVTDGLAVLEPILGHICGQLEGINEH
+>tr|A0A0P7GDX0|A0A0P7GDX0_9MICC
+MHEADIATEIADSDLVDLMRVLEELKSAAAGVQARAAAAFDASQRRAQSRAGVPADQLGR
+GIGAQVALARRDSPHRGARHLGFGKALVHEMPYTLAALSAGVLSEWRATLLVRETACLDL
+EDRARVDELICKDPDKLEGLGDRRLIARIRTVTQALDQASQVKRNAKAVADRYVSCRPAP
+DTMSYLSALLPVAQGVAVYAALSRAADGLRASGDERGRGQIMADTLVERVTGQGSADRVP
+VEVQLVITDRSLFRRSGPDEPAYFPGYGTVPGYWARELISKALTNPPGHNNIPRSPLGSG
+SSTQRNSSSPRSPLGRGSPQAPPGSSNSPQSPPRNGNSSQTALGTNHSHHQTAPGNSNSS
+HQTAPGPGNSPQTGRPGGPEPADVVTLRRLYLDPVSGELAAMESRARAFPPGLARLIRTR
+DQTCRTPWCDAPIRHIDHIQPHAQGGPTTYTNGQGLCEACNHAKQAPGWNSTTLQPRQAE
+QPQRPPRPPEAVPQPPQPRHKVRITTPTGHAYISASPALPGSGDIATCASTTTGESG
+>tr|A0A0P7GIR0|A0A0P7GIR0_9MICC
+MVIDDVFAVIAEGTRREILGALRGGDKSVGALVEELEVSQPTVSKHLKVLREAGLVDMRA
+EGQRRYYSLKTAPLDEVVLWLSAFDLPSITAAQATTPTLASVAAGTSGEARGRSLFAGIP
+GAARQTAAAAAAAKMPSGTAENPTAAVDASVQQQLGRTVGRAAERAADLLGALPKFRRRR
+P
+>tr|A0A0N8HXN1|A0A0N8HXN1_9MICC
+MPSFELSEEHQALSDTVREFADEVVAPVAALHDAEHSFPYKVVEQMGEMGLFGLPFPEEY
+GGMGGDYFALALALEQLARVDQSVAITLEAGVSLGAMPIYRFGTEEQKQKWLPGLAQGTA
+LAGFGLTESEAGSDAGGTKTTARLDGGQWVINGSKEFITNSGTEITSLVTVTAVTGTSEN
+PDGSIRKHISTIVVPSGTPGFTVEKAYNKVGWNASDTHPLTLADVRVPQENLLGAEGRGF
+ANFLQILDEGRIAIAALATGAAQGCVDEAVRYAGERVAFGTTIGSNQSIAFKIARMQTRA
+HNARLAYYDAAARMLAGKPFKVQAAMAKLVAGEAAMDNARDATQVFGGYGFINEFPVARH
+YRDSKILEVGEGTSEVQLMLIARELGL
+>tr|A0A0P7G8M9|A0A0P7G8M9_9MICC
+MRTIKGIGVSPGRVLGPSLRMPPPVPEPDADSKYAPESSVDEEKARLKDAAEAVREDLKR
+RSSVASGDAKAVLDATAMMATDPMLLKAAGKHINQGMAADRAIWEAGLEVAAMLQGLGGY
+MAERTQDVLDVRARIVAQLDGLPPPGIPASDVPFILTAEELAPADTATLDPSLVVGLVTS
+GGGPQSHTAILARSLGLPAVVGAGSADSIVDGAEIYLDGATGTVVVNPGVAEREAAQKYA
+SRASLPAFNGTGTTSDGHRVPLLANVGSGRDAAAAAAAGAEGVGLLRTEFCFLGRDSEPS
+QEEQVAAYGAVFEAFPGRKVVVRTLDAGADKPLPFLTDTTEPNPALGVRGFRTDRSSPGV
+LARQLEAIALAAGSHESDVWVMAPMIATADEASDFAVMCAAAGLATPGVMIEVPAAAIKA
+ETVLSKVKFASLGTNDLTQYTMAADRQLGTLASLNDPWQPAVLQLIALTVKGGALAGAAD
+SVPRSVGVCGEAAADPALAVVLTGIGVNTLSMTPRALATVGAVLASVTLAEAQELAGIAL
+VARTAAEARTQVRSRLPVLEQLGL
+>tr|A0A0P7GIJ0|A0A0P7GIJ0_9MICC
+MSVDRNTRDLEPGIERDFSRKMSYGSYLGLDELLSAQHPVSDHHDEMLFIIQHQTSELWL
+KLVLHELRGVRTRLMNDDLRAAMKGIARIKHIQRSLTEQWSVLATLTPSEYAEFRGELGA
+SSGFQSYQYRAVEFLLGNKNAAMLEVFRADPQAQELLADLLAGTSVYDEFIRALHRRGYP
+VPQELLDRDVTQAHVFSGPLMDIFRDVYENPAENWDIYEACEELVDLEDNFQLWRFRHLL
+TVQRTIGMKRGTGGSSGAHFLRSALDLTFFPELYAVRTEIGQR
+>tr|A0A0P7GDV4|A0A0P7GDV4_9MICC
+MATQTPPAPAERTPTAPGTPPQRRKPKPRAGASLITVFTWIIAIGFFSPVLWMVLTSFKQ
+ESAAASNPPSFFFTPTLDQYRAVLDAGAGSYFVNSAIATGVSTLLVIILAVPASYALSIR
+PVKRTQDVLFFFISTKMLPVVAVIMPIYVIAGQLKVLDNVWTLVVLYTSMNLPIAVWMMR
+SFFQEVPSEVLEAAQMDGAGLLKTLWRVLMPMVAPGLAATALICVIFAWNEFFFALNLTA
+AKSATVPVFLVSQMTSEGLYLAQLSAASVLASLPVVLAGWVAQKQLVRGLSMGAVK
+>tr|A0A0P7FZC7|A0A0P7FZC7_9MICC
+MQEVEVVGVRIELPSNQPLVLLKEVEGERHLPIWIGAPEASAIAFVQQGIVPPRPMTHDL
+MVSVIKALGRRVTEVRLVSVEDTVFHAELVFDDGARVGSRASDAIAVALRAGCPIMCADA
+VLEDAGVRITESDDEEDEDETENAEQELRQFREFLADVEPEDFER
+>tr|A0A0P7FHW1|A0A0P7FHW1_9MICC
+MMYPLVRELAARDASIRVPVAVCCRVLNFSRQAYYQWVANPVPSRDWEEAHLINAAIDHH
+RDDPAFGYRFIADEINAGPGPTVSERRIWRLCSENGILSVIHRRRRSGLKAGPPVHDDLI
+ERDFSATAPNRKWLTDITEHHTGEGKLYLCAIKDLHSNRIVGYSMDARMKASLAVAALDH
+AVALRKPAGTVVHSDRGSQFRSRKFVLALSTYGLSGSMGRVGACGDNAAMESFFSLLQKN
+VLNRKRWETRAELRLAITTWIERSYHRKRRQRALGRLTPIEFETIKNTAIAA
+>tr|A0A0P7FPC1|A0A0P7FPC1_9MICC
+MKPGGKAVVALLACCIAQFVLTVNGSIVSIVLPDIAREFGSSMTLLQWTVGVYVLAFACL
+LTAAGNTADRLGRRRILIAGLAVILIGSLVCALSPDVAVLIAGRVVQAVGAAMLASSGLA
+AVSAESTVTAVRVRAIAWWAAIGGVALAAGPFIGGVLSEYFGWRGVFWMSVPVALIGLIL
+VPISVKESRNPSPLPFDAVGQILLSGFLAALAFAMIEGTQLGWTSAPILIALGAAAVLLT
+VGLLRARRRPDPLIPLRLFADRPFVRASLTSIIGFAAAAGFFYIAPQYLRSIRGESALEA
+GIFLLPLALAALASAQLSGRIVAAGRAGQDLVAGGVVMAVGSVMLLLWSDGSLWVVAAAF
+IVFGFGYGLLNDPLSVEELASLPGSEAGLASSLFSTSKQTGQLFGIAAVGTILSAASPDF
+APAYRDVGGWGWAALVVCGVAVSALNVPSLGSRAKPIRTPTITTPDGPSR
+>tr|A0A0P7G684|A0A0P7G684_9MICC
+MSTLFTKIIEGEIPGRFVWKDDDVVAFLSIGPLADGHTLVVPRQEIDKWTDAPADLLARM
+TAVAQAIGKVQVDVFGAERAGLTIAGFEIDHLHIHVWPANSLQDFDFSRAETSPDQDKMA
+ANAEKLREGLRAAGHGEFVPEA
+>tr|A0A0P7HIJ3|A0A0P7HIJ3_9MICC
+MAAEDKTDILSGLTGQLPDNDPEETSEWVQSLDDLIRTEGTERAQFIMRTLLQRAGAHSV
+GVPMVTTTDYVNTIPVDQEPDFPGDEEIERRFRAWMRWNAAIMVHRAQRPGIGVGGHIST
+FAGAATLYEVGMNHFFRGKDAPGGGDQVFFQGHAAPGMYARAFLEGRLTEEDLNGFRQEK
+SREGHGLSSYPHPRNMPDFWEFPTVSMGIGPMNAIYQAQLNRYMDNRGMKDTSNQHVWAF
+LGDGEMDEPESRGLLHVAANDKLDNLTFVVNANLQRLDGPVRGNGKIVQELEAFFRGAGW
+NVIKVLWGREWDPLLAADDDGALVDIMNSTVDGDYQTYKGESGGFIRDHFFGKSPQTKAM
+VSGLSDDDIWNLKRGGHDYRKVYAAYKAALEFKGKPTVILAHTVKGYGLGPHFEARNATH
+QMKKLTLDDLKLFRDSLRIPITDEQLEADPYQPPYYNPGPQAPEIRYMLDRRRELGGFLP
+ERRTDYKPIHLPGEKSYEVANRGSGKQLAASTMAFVRLLKDLMRDKEFGMRIVPIIPDEA
+RTFGMDSFFPTAKIYNPQGQNYLSVDRDLVLAYKESPQGQIVHVGINEAGSIAAFTAAGT
+SYATQGVPLIPVYIFYSMFGFQRTGDFIWAAADQMARGFMVSATAGRTTLTGEGLQHADG
+HSPILASTNPAVKTYDPAYGYEIGHIVRQGLDDMYGPDSKDPNVIYNIMAYNEPILQPKA
+PEDLDVEGVIRGIYLLSPASIDGPRTQLLASGVGVPWALEAQRLLAEDWKVSADVWSVTS
+WNELRRDGLAAEEEAFLHPDEEPRVPFVTQQMAGATGPVVATSDYMKAVPDQIRQFLPNE
+FASLGADGFGFADTRAAARRFFKIDSHSVVVRALEMLARRGEVDSKAPSEAISRYHLLDV
+TKGTSGNAGGDA
+>tr|A0A0P7FPU4|A0A0P7FPU4_9MICC
+MSETNTAVNSAVRSDLRNVAIVAHVDHGKTTLVDAMLKQTNSFASHGDVEERVMDSGDLE
+REKGITILAKNTTVFYNGPAANGETITINVIDTPGHADFGGEVERGLSMVDGVVLLVDAS
+EGPLPQTRFVLRKALAAKLPVVLLVNKTDRPDARIDEVVSESMDLLLGLASDLADEVPDL
+DLDLVLNVPVVYAAARVGAASLEQPADGQAPANDNLEPLFQTIIEHIPAPTYDPEGVLQA
+HVTNLDASPFLGRLALLRIFNGTLRKGQQVAWARHDGTLKTVKITELLATKALERVPAES
+AGPGEIVAVAGIEDITIGETLTDVDNPKPLPLITVDDPAISMTIGINTSPLAGKVKGAKV
+TARQVKDRLDKELIGNVSLRVLPTERPDAWEVQGRGELALAILVEQMRREGFELTVGKPQ
+VVTKVIDGKIHEPMEHMTIDVPEEYLGAVTQLLAARKGRMVNMANHGTGWVRMEFIVPAR
+GLIGFRTRFLTETRGAGISASIAEGYEPWAGPIEYRTNGSMIADRAGVVTPFAMINLQER
+GSFFVEPTSEVYEGMIVGENSRADDMDVNITKEKKLTNMRAASSDTFENLTPPRKLTLEE
+SLEFAREDECVEVTPESIRIRKLILDANERAKAYRARAKA
+>tr|A0A0N8HY14|A0A0N8HY14_9MICC
+MRASDRAYAMLREDIVEWRLPPGTVLGEVEQSQRLGISRTPLREALGRLTADGLTAPHNG
+RGVVVTPISPETVGSLFELRQALECQAASLAARRGDPAVFRGLRADFEAAAARLGADPDE
+DPARRGYYALVARLDAAIDGAAANPYLTQALGNVRLHLARVRRLAKDNPARLRDTAAEHA
+TIAAAIAAGDPALAAAATSVHLHKSLEHFNTVHHP
+>tr|A0A0P7GAW9|A0A0P7GAW9_9MICC
+MPNNLPPLAVTGATGALGSMVARLLTDAGVPVRLLARHTAKIPQLPDTATFAVSYADKEH
+AARALQGTTTLFMVSAAENPYRAQDQRTFVDAAKEAGVQHIVYTSFMGAAPNDVFTFGRD
+HWDTEEYIKAGGFGYTFLRDSFYQDILPSFVGRDGVIRGPAGDGRFAPVARSDVARSAAR
+ILMAPQEHAGRTYTLTGPQALTMAEVAEILSRVTGQDITYHAETLKEAVESRRAAGALDW
+QAVGWATSYAVIATGELAQVSDDVALLTGAAPLSFEDHLRSED
+>tr|A0A0P7HLE0|A0A0P7HLE0_9MICC
+MKLLDQLPAAAAGTKTIDPDEVYTSFLEWVESRGMSLYPAQDEAVMELVTGNNVILATPT
+GSGKSMVAIAAHYYAMAMDERSYYTAPIKALVSEKFFALCDIFGAENVGMVTGDSSVNKD
+APIICCTAEILANIALREGADADIGTVIMDEFHFYSDPQRGWAWQVPLLELPQSQFLLMS
+ATLGDMTRISTDLSKSTNRDTVTVTSVQRPIPLHYYYVETPVQESLEELLATKQVPVYVV
+HFSQIEAIDRAQALMSINVCTREEKDRIGELIAGFRFAPGFGKTLNRLVRHGIGVHHAGM
+LPKYRRLVEQLAQAGLLKVICGTDTLGVGINVPIRTVLITALSKYDGVRTRPLNVREFHQ
+IAGRAGRAGYDTAGTVVVQAPEHVIENAKAMAKAKAKFGDDQKKLRQVTKKKPQAGFVSW
+GEPTYKKLVEGTPEPLTSSFNVTHAMLLNILERPGDPFAAAKKLLTHNHETRASQLRLMR
+KALGIYRELKTAGIVEKLPEPDADGRTVRLKVHLQPNFALNQPLSPFAMAALEILDPESP
+SYALDVVSVIEATLEKPRQILSAQEKKARGEAVAAMKSEGIEYEQRMALLEDVTYPQPLA
+ELLFQSFDVYRSSAPWLGDFELTPKSIVRDMYERAMSFSEYVAFYSLARSEGVVLRYLAD
+CYKALLQTVPPEALREDLSDIIEWLGELVRQTDSSLLDEWEELAAGIDSSAGSEPVLPPA
+PEKLTGNTRAFRVMVRNEMFQRVKLFADEDDAALGALDGGSGWDADRWAGVLDDYFEEHD
+DIDDGPDARGPQLLIIKELADKWEVRQIFKDPAGHLDWGISAEVDLAASDEAGSPVIRVI
+QAGRLD
+>tr|A0A0P7HVM0|A0A0P7HVM0_9MICC
+MTSTAVSVPMPTVPRRRRSPEEVAAAAPVSGARRVLLAAPRGYCAGVDRAVIAVEKALEH
+YGPPVYVRKQIVHNLHVVSTLEERGAIFVDETDEVPEGSLLIFSAHGVSPAVVQSAEDRG
+LRTIDATCPLVTKVHREAVRFARDDFDILLIGHEGHEEVEGTYGEAPEHMQIVNGPEDVD
+KIQVRDPDKLIWLSQTTLSVDETMTTVKLLREKFPNLQDPPSDDICYATSNRQAAIKKIA
+PDTDLVIVVGSANSSNSVRLVEVALEYGAKASYRVDFANEVDESWFEGVSTVGVTSGASV
+PENLVQDVLNLLAEYGYGDVEEVVTAEEDIIFSLPKEIRATLKAMGDSSRGLGGRRS
+>tr|A0A0P7FEE8|A0A0P7FEE8_9MICC
+MATKTSRAKTANYRCTECGWTAVKWVGRCGECQAWGTVEEAGEVLARTTPAAVVARPAQL
+IADVDATTAAYQPTGVGELDRVLGGGLVPGAVILLAGEPGVGKSTLLLDVAARVAGQGRD
+VLYVTGEESTAQVKLRAERIGAVSDSLYLSAETDLGQALGQVEQVKPALLIVDSVQTLSS
+AAVDGSAGGVSQVREVAASLINAAKTRNMTTLLVGHVTKDGSIAGPRLLEHLVDVVCQFD
+GDRHSRLRLVRAVKNRYGPTDEVGCFDLTEDGIEGLADPSGLFVSRTKEPVSGTCITVTL
+EGRRPLVAEVQALLAETGNAQARRATSGLDSARVAMLLAVLQQRASMNLAKDDSYVATVG
+GVKLTEPATDLAVALAVASAKMNKPLPARLIAFGEVGLAGEVRPIPGIARRVQEAERLGF
+SHAVVPASPNGPGQVPAGFKVREVSTLSEALELLF
+>tr|A0A0P7GAS7|A0A0P7GAS7_9MICC
+MTETAVITGATAGLGAEFARALAERGYNVVLTARDKERLQSKADELAARYHVEASVLPAD
+LSTSEGVQDVAARVGRPDVAVLVNNAGYGLKNDFHANPVQTEIDHLNVLVQAPLLLSHAA
+VNSMLERGGGRIINVASVAGFIPRGTYSAAKSWVINFSRWANLHYASRGISVTAVCPGFV
+HTEFHERMQMDKTLYPKWMWLDADRVVREGLADAFAGKGVSVPSKRYKVLAAVGSRGPQG
+LIAKIGGRGR
+>tr|A0A0N8HX54|A0A0N8HX54_9MICC
+MDQAPGRHTGPGRRTSARPGRATPSGRTQAERRLARKMVAPALTVMALVAAFPIAYAVWL
+SMNQYSLRQSGLSRFVGLNNYISALTSGEWWTAMGQTFIFTAFSVSLEIVLGIGLALLLN
+MAFRGRGLLRTVVLVPYAVLTVVSAITWRTMFEPNLGLVTTVLNALGLPGGDVVWLGEPG
+YAMAVIVLADVWKTAPFVALLVLAGLQVIPTDVYEAAELDGAGKWKTFLNITLPLLKPAI
+VLAAIFRTLDALRVFDLPFVLTRGANGTESMSMLAYRELRENRLVGEGSALSILTFITVM
+VVSLIYIRFAGGNIRAVAEEKE
+>tr|A0A0P7GKY9|A0A0P7GKY9_9MICC
+MVRMDGALRRLLQQGAGSGDLRPDVEPADIYLLMSTMPADEPDESRRRWAEIISRGLLRT
+A
+>tr|A0A0P7G6E8|A0A0P7G6E8_9MICC
+MSKGSPISPSLMAHKTGPARSVQTKSKDAAFSVNPAEAMDTRVQGPNNVVPPTEMTGSQA
+IVRALEELGVEDVFGLPGGAILPTYDPLMDSTKLRHILVRHEQGAGHAAEGYAMVTGRAG
+VCIATSGPGATNLVTAIADAHMDSVPMVAITGQVNSSVIGSDAFQEADIVGITMPITKHS
+FLVTNADEIPRILAEAFHIATSGRPGPVLVDITKDAQQGKTTFSWPPKIDLPGYRTVVRG
+HSKQVREAARLIAASQRPVFYVGGGVLKADASAELLELAEAVGAPVVTTLMARGVFPDSH
+AQHMGMPGMHGSVSAVTALQQSDLLITLGARFDDRVTGVLSSFAPGAKVIHADIDPAEIS
+KNRTADVPIVGSVKEIIPELTEAVRSQFESTGTPELGAWWSVLNRLKETYPTGWTEPEDG
+HVAPQQVIKRIGELTGPEGVYVAGVGQHQMWSAQFINYERPRAWLNSGGLGTMGYSVPAA
+MGAKVGNPDRVVWAIDGDGCFQMTNQELATCLINNIPIKVAIINNSSLGMVRQWQTLFYE
+SRYSNTDLNTGHDTVRVPDFVKLADAYGCVGLRCEREEDIDATIEKALSINDRPVVIDFV
+VSRDSMVWPMVPSGVSNDLIQIARNMTPTWEEED
+>tr|A0A0N8HXZ6|A0A0N8HXZ6_9MICC
+MDTTAVILGAGYAGVMAANRLAGQGVRVRLVSPERRFTERIRLHEFTAGTRADPTVPFSS
+LLHPDIEMVYGVAEDIDAASRRVALSNEAVLDYDWLVYAVGSGNSSVPAGAEAPSCLSGA
+GPARDKLRSLKPGDPVAVVGGGLTAVEVAAETAHAYPHNPVTIYAAGPVIQHFSDSTRHG
+VLRSLERAGISVRQEMVEADRLPEAAAVLWCTGFGVPDLAARSGLAVDAAGRLAVDSRLR
+AVGRERIFGAGDAAVITDPGYSYLPQTCATAMPMGAEAASNILRTLAGEPLPPHNSGFQG
+QCVSLGRQDGALQFLHAGYTPRRIHLHGRAAAMLKEVLCRMTLKWIRGEAKRSGAYTWPA
+GPRMTPAPALAEA
+>tr|A0A0P7G7X5|A0A0P7G7X5_9MICC
+MGDLAIDFSGEWYEPEDGSVFRIGREGDLAIDDNPYLHRQFLTISQEHSIWWLTNIGSRI
+SATISDSSGGMQAWVAPGARIPLVFEQTRVIFTAGPTTYEFDVHLKTPAFRPDPLNGSGS
+GETTIGPVVFTESQRAVIVALAEPLLRRDGTGYSSLPTSADAAARLGWSQTRFNRKLDNV
+CDKLDRVGVGGLRGGPGKLAVNRRARLVEHAVTSQLVTAADLVLLDQVSADPEA
+>tr|A0A0P7GI39|A0A0P7GI39_9MICC
+MNSPQSPSGSARDQIRVTARVSGLVQGVGFRYRVMRQALKLGLTGTVINQADGSVAITAE
+GLPSALDGLMEWVRSPSAPGAVENVEERHSPATGEFNGFDAG
+>tr|A0A0P7FU95|A0A0P7FU95_9MICC
+MSASTQRRVNVGALMAALLAACVAFQLNASMLSPALVTIEEELNTTSAAVGLTQTAFFTA
+AALFSLFLPRLGDIIGRKKVLAGMLIVLTIGSVVAALAPSIEVLFVARLIQGVSGPVVPL
+TLIMLRVEIRDAKLYGTLMGVITAVNGGIAGIDAVAGGYLAQNHGFASVFWAMAAVGALA
+TVLLLFLAPESTAEKKEKMDWVGVVPLVISVGTLLTAFNEAGKLADANWPLVVGLIVVAA
+VAFAVFWKVENRTEQPLVATYLLKQRSTWALLLTTLLTMTGVFAVMNGIIPALAQDGVIG
+FGMGAEESAWWTLTPYALAGLIVGPIAGRLAATWGYGKVLRIGMIGSVIGLTLVLLVVGS
+DSKLGLLGVSLLIGITYAGIGNIMLNGLGIVLSPKENPGFLPGLNAGAFNLGAGLSFAVI
+YAVKTATTPADGGAGGYYGGIVAGLVILVLALAASFLIPKPVAAEVSADAPADR
+>tr|A0A0P7HGD6|A0A0P7HGD6_9MICC
+MRRSSPRHRAGITVHYFALVITSLVFLAPVAYMVAASFAPASDTLAGFKVFDVSHWGLHN
+YSGVTASLSSDSTGHLWRFFLVSFTVTVAVVGLGLVVNSMAAFALSRLEWKGRGIALLGI
+LMLLIVPFEAVAVPMFYLYNDARNTLWIQIVPFIGNALSIFLFYSFFSGIPRSIDEAARL
+DGAGPWRIFALIIAPMSKPVYASVAILTFLTQWGAFLWPVLMVSEPNLRPLPLQISVFAG
+QLPPAWGQVMAFGVLLVLPVLVVFLLFQRWFIEGVASSAVKG
+>tr|A0A0P7GCG1|A0A0P7GCG1_9MICC
+MPHPDADSAALGDLMHAAFRGLRGRWMKQLAPFDLTPHQFRALNAVARSGGEGGLRLKDL
+AEMLRIAPRSATEVVDQLESKNLVQRGPDPSDRRATLISLTDEGIKMRSEVREDRARQAD
+EYFAVLSEEDRTELERILAQLAQEKPHGSRHHSG
+>tr|A0A0P7HJS1|A0A0P7HJS1_9MICC
+MAPKTIVITGASDGVGAAAARRLAADGHHVVPVGRSLEKTAAVAEEIGSEYFTADFADLG
+QVRSLASDLLQRYPEIDVLANNAGAIFGKERQTTVDGHEMTFQVNYLAPFLLTRLLTDRL
+LHSRGTVINTSSAASRLFAKLDINDLEEEKNYSPQKAYGNSKLEQILFTEEFDRRYRAAG
+ATSTAFHPGVIGSSFSSAEGSAMRSVYQGIIGRFLQSPEKGAQTLVFLAEGTPGADYPTG
+KYFVRSKPARTNRLAGDHLLALDLWNRSVAMLEG
+>tr|A0A0P7HIZ6|A0A0P7HIZ6_9MICC
+MPRRTDLKSVLVIGSGPIVIGQAAEFDYSGTQALRVLKEEGLRVILVNSNPATIMTDPEF
+ADATYVEPITPEVVEKIIAKERPDAVLPTLGGQTALNTAIALDKNGVLEKYNVELIGANI
+EAIELGEDREKFKGVVERCGAESAKSIIVHSMDEAFAAAEELGYPMVVRPSFTMGGLGSG
+LAYNAEDLRRIAGAGIQYSPTSEVLLEESILGWKEYELEMMRDKNDNVVVVCSIENFDPV
+GVHTGDSITVAPAMTLTDREYQKLRDIAIAVIREVGVDTGGCNIQFAIEPDTGRVVVIEM
+NPRVSRSSALASKATGFAIAKIATKLSLGYTLDEIPNDITKKTPASFEPTLDYVVVKVPR
+FAFEKFPAADPTLTTTMKSVGEAMAIGRNFTEALQKALRSLEQKGSQLSFDPVDPAEVPA
+LIEAAKRPTTGRLAQVQQALLGGATAEQLYEATGIDPWYLDQLELINEVAEEIRGAAQVT
+EDVLRLAKRHGFSDEQIGRLTNQSEAVVRGVRHVLGIRPVYKTVDTCAAEFAAYTPYHYS
+SYDEEDEVAQHAKPSVIILGSGPNRIGQGIEFDYSCVHATMALREAGHETVMINCNPETV
+STDYDISDRLYFEPLTLEDVLEVIHAEQRTGGVLGVFVQLGGQTPLKLAQELADAGIPIL
+GTSPEAIDLAEHRGAFQRVLDEGGLIAPKNGTAVSFEDAKKIADEIGYPVLVRPSYVLGG
+RGMEIVYDEANLSRYIANATEITPDHPVLVDRFLEDAIEIDVDALFDGTDLYVGGIMEHI
+EEAGIHSGDSACVLPPITLGTDVIDRVVEATRAIASGVGVRGLINIQFALASDVLYVIEA
+NPRASRTVPFVSKATGVQLAKAAALIGTGTTIAELRAAGKLKAAGDGSALPLDAPVAVKE
+AVLPFSRFRTPEGTVVDSLLGPEMRSTGEVMGIDKYFDTAFAKSQAAANSALPTAGKIFV
+SVANRDKRAIIMPVKLMSDLGFEILSTGGTADVLRRNGIQATTVRKVGEGAGPDGEGTVV
+DLITAGDINLVINTPSGGQARGDGYEIRAAATSIGCPVMTTVSEFTAAVQAIEAMRSYEW
+DVCSLQEYAAKLQASTVA
+>tr|A0A0P7GC11|A0A0P7GC11_9MICC
+MPAPQRTSLEAIVEAGRAALEGGGPEYVTMNAVAERVGVRAPSLYKRVKDREALLALIAR
+ATLEELRELMQAEDSLAGLARAYRSFAHQRPEAFRLIQTRAASPDDLARASEPVLAAARS
+AVGEADALEAARFMTAWLTGFITMELAGAFRLGGDLDRAFEYGVERVAAALGD
+>tr|A0A0P7HMW0|A0A0P7HMW0_9MICC
+MDSDTVASARSPFGSSEAMPAPRATQDRIDIPDFGPALLPSGDITPERFLDREISWLHFN
+ARVLELAEDPDLYLLERVNFLSIFASNLDEFFMVRVAGLKRRIATGLAVPSAAGLSPVEQ
+LEQITEAGYRLQQRHAEVFARQIRPALEKENIHLVGWQDLDDASKAQLHRQFAAKVFPIL
+TPLAVDPAHPFPYISGLSLNLAVVVRNPVSGKEFFARVKVPDQLPRLISVDGPRAGNIAG
+RTARFIPLEDVIAEHLDQLFPGMDVMEHYTFRVTRNEDLEVEEDDAENLLQALEKELLRR
+RFGPPVRLEVTPDINPSIRELLVRELGVEADEVYTLPGPLDLRGLSPISQIDRPDLHYPK
+QVPHTSLHLKESETSKPADVFAAMRRRDILLHHPYDSFSTSVQAFLEQAAADPRVQAIKQ
+TLYRTSGDSPIVDALIDAAESGKQVLALVEIKARFDEQANISWARKLEQAGVHVVYGIVG
+LKTHCKLSLVVRQEVDGLRRYCHIGTGNYHPRTARYYEDLGLLTANEKVGEDLTKLFNQL
+SGYAPKSTFKRLLVAPRSVRSGLIDRIEREIANKKAGLDARVIIKVNSMVDEAIIDSLYR
+ASQAGVRVDVIVRGICSVRPGVPGLSENITVRSILGRFLEHSRVFAFANGGDPVVYIGSA
+DMMHRNLDRRVEALVQLGSTDDIADLIELMDRYLDPKTASWHLDADGIWTRHHKDEDGSP
+LEDVQSWLLASRSRLRALARR
+>tr|A0A0P7FXD5|A0A0P7FXD5_9MICC
+MTAAAAQVIAAAVAAGSRIAAAESLTAGMVAAELGSVAGASAVLQGGVVAYQNSVKAAVL
+SVDRNLLAEAGSVDARVAEEMAAGVRALLGADIGVSTTGAAGPEPHDGKPVGTVFIGISG
+PSGTRSREYLFAGDRSSIRSQACSAALEQLAQELGAA
+>tr|A0A0P7GBR1|A0A0P7GBR1_9MICC
+MARAVGDLVAEAEAEADANLELRQSWNIAPTADVPVALERLIDGKPVRQVHVARWGLVPS
+WARDIASGVRAFNARSETLLEKPTFREAVLARRCAVPMDGYYEWKTGPGNTREPYFVSRS
+DKKLSWFAGLYEWWADPAVQAGEPGRWLLSASVITLAAPDPETSEPALRPLAELHHRMPL
+PLAGPDLEQWLAPGNLGATEALALLGRVLGNAWKTAEGLRVEPANPAVGNVRCDGPWLLD
+PETGPGGTAAPGVVPALF
+>tr|A0A0P7FFI0|A0A0P7FFI0_9MICC
+MTVNQTPAPRTAVLMLEDGRSFRGRSYGATGTALGEAVFATGMTGYQETITDPSYARQLV
+VQTAPHIGNTGVNSDDAESRRIWVAGYIVRDAARKPSNWRSERTLDEDLAAQGVVGISGV
+DTRAITRHLRERGAMKAGIFSGEAAQRTDAELLAEVRAQEAMAGSRLAEEVSIEASYVIE
+PSAHGWEGEPLFTVAALDLGIKSMTPVRFAERGVRVHVLPASATLEDVQALNPDGVFMSN
+GPGDPATADNQVKLLRDVLDTGTPFFGICFGNQILGRALGFGTYKLPYGHRGINQPVLDR
+RTGKVEITSQNHGFAVDAPLDGPVTAPEARFGKVEVSHISLNDNVVEGLACLDIPAFSVQ
+YHPEAAAGPHDSAYLFDRFVDLMASSKNKESR
+>tr|A0A0P7GTE6|A0A0P7GTE6_9MICC
+MPIRLHRPALVLAAAAVLLTGCADSTPGTAPASSSPASSPSASASSPASEAATSLTVEMM
+SDGESVTDTWTLECDGAAPAGESGAPDPAAACAALADGGIRLFAEPPADTACTMQYGGPQ
+RAAVTGTVDGETVDAEFAATNGCQISRWEALTGLLGPAMAAM
+>tr|A0A0P7FAI0|A0A0P7FAI0_9MICC
+MLDQVSVEVYRYAVSHPGWTPAEASDALGYTTRAIDRAVDELRSRCLLFVEGSETPVYTA
+VSPDVALAELVDPDERALLELRARIGAKRRELAGLVPTFTEARRQVAADASVEVLEDPEQ
+VQRVLIEYGRSASESVLIARPGQGSNADFQEESVQKDLDLLRAGVRRQTLYHSSTRDHVP
+TCKAVERITEAGGEFRTLPYVPLRTLIFDDKVAVVARQLHTYDRAGLVIRDPNLIGLFTK
+LFEFAWSLAEPFMEEDPSKAGLNSTQRSVLAGLAAGHSDEVIARRVGISVRTCRRHIAWM
+LEELKAESRFQAGIKAHKAGWI
+>tr|A0A0P7FGW1|A0A0P7FGW1_9MICC
+MAKAGQAPAQENHRVSLVTGRLRTGLIIVLVLLTVLGVRLFQVQGVDPEGMADAAVANRL
+VTVNVPALRGGILDSEGNYLARSVERFDIVVDQRLSAAYDEEEYERRNSEGDKETVTFDD
+AFEELAGILGQDAATLRRSILGDKGFNFVAKTVTPEIRDKVLAVKFPGVYADRTTLRTYP
+SGPVAGSIVGFLGTEGAQEGLELTQDSILAGEPGSKTYEIGGDGIRIPYATNEDVPVQDG
+DSIRLTIDQDLQWFAQQTIASQVRDYNADWGNVVVVEVETGNVLAMAESTTVDPNNPGAT
+EAESRKARSVTDSFEPGSTTKVITMAAAIEEGIISPTSQFQIDNTYTIDGQTFKDAFDHG
+TVRMTAAGVLAKSMNTGTVMVGQQLTPQQRYDWLRKFGIGTELGTGLNGETSGLLAAPET
+WDTRQQYTVLFGQGLTQTALHTAMVYQTIANDGVRLSPRLVDARIDAEGVEHPTERKKGT
+RVVSEKTAVEVQHMLETTTVEGSGASGALEKYRVGSKTGTAEAPSPSGGYDGYTVSYAGI
+APMDDPKYVTVVTLQRPKGDLYYIEPGKTFQKVMEQVLTTNNVAPSEGKPVTYPIEY
+>tr|A0A0P7G4H1|A0A0P7G4H1_9MICC
+MARCPTAAGLSGSAPQAHPERRGLWVRQNGMVSSSGFSFALGKRLRETVPDSGSRAKENG
+GEFQGRTGVISTPHGEIHTPAFIAVGTKATVKAVLPESVAQLGAQAVLANAYHLYLQPGA
+DILDEAGGLGKFMNWPGPTFTDSGGFQVMSLGAGFKKVINMNADGTTHATGADDDVAPGK
+ERLAHIDDDGVWFKSHLNGDKHRFTPEISMQVQHQLGADIMFAFDELTTLLNSRGYQERS
+LERTRLWAERCLVEHRRLTEERSHRPYQALFGVLQGAQYEDLRRKASRDLGAMGFDGFGI
+GGALEKENLGTIVRWCTEELPEDKPRHLLGISEPDDIFTAIENGADTFDCVSPTRVARNS
+AFYTPYGRKNLSNAKFKRDFGPLVDGCDCYACANYSRAYIQHLFKANEMVSHTLISIHNE
+RFTVKLVDDARLAIEDGTFFEFKDEVLRKYYS
+>tr|A0A0P7GHR5|A0A0P7GHR5_9MICC
+MAPTPVRPVRERILAAAGEAFYREGIRAVSADKIIAAAGTTKVTFYRYFPTKDNLVEAYL
+DQQSERIREAAGNLPDDPCRALAALAQAMGDETCRPGFRGCPFINAAAEYPEAEHPVRIA
+VARHRDWFRALVAELAGRLGAQNPGLVADQLIMLRDGAMVHGYVSDPALVGDSLLQAGGA
+VLQQHIPAIRPA
+>tr|A0A0P7HJG0|A0A0P7HJG0_9MICC
+MHGRGAPAAKPASFAASSARLLRLLSPDRWRVAAVLLCGVVSVALAVTAPKVLGDATNVI
+FNGVIGASLTPGVSKEAQVEALRASGESQLADMLAAMDAIPGEGINFGTLGALLAGVLAI
+YLASFFFGWAQARVTARIVQNAMYRLRRDVDAKLFRLPMSHFQQQSRGDVLSRVTNDIDN
+LAQTLSQSITQVITSVLTIVGVLGMMLWISPLLALIAVLTVPVSALVTILIARRSQVQFK
+AQWKTTGEVNGYIEEMFTGQDVVKAFGQQERVVAGFVPGNERLYESSFRAQFVSGVIMPT
+MTFISNLNYVLVAVVGGIQVAGGTLSIGGVQAFVQYSRQFSQPLGQLGGLINMLQSGLAS
+AERVFALLDAKEIAPDPKDPVRLGRVRGDVAFRHVSFSYTPEAPLIRDLSFEAKPGQTVA
+IVGPTGAGKTTLVNLLMRFYDVDSGEITIDGVNTMSMTRDDVRRSIGMVLQDAWLFEGTI
+RENLAYGAPDATEEQIIDAAKATHVDHFVRSLPDGYDTVLASDGGSLSQGQRQLITIARA
+WLANPAILILDEATSSVDTRTEVSIRLALGALREARTSFVIAHRLSTIRDADVILAVRDG
+QIVEQGTHTALLEAGGFYAQLYQSQFSEPAAAADAPE
+>tr|A0A0P7FGV0|A0A0P7FGV0_9MICC
+MFWWEGQGPGGLRVAFTDTSAGNLALHVGDDPAAVRSNRNALEEQMGIASGSLRFMEQIH
+SADVAVAGGQDVPVADALLSPDGSVPLAVMVADCLPVLFAGTRPGGAVTAAAHAGRRGLL
+DGILLNTVAALRSAGAQDLMGWVGPGVCGRCYEVPEAMLADAQHLPGAESRTRWGTPALD
+LPAAALHQLKSLGVSAVQVPGCTMEEPALFSHRRDAPTGRFAGLVWPGL
+>tr|A0A0N8HXM1|A0A0N8HXM1_9MICC
+MPQISALPAALRRALPAASRSVTSLGWITAALAAAFWLAGGVLGWREALIAALALTLVLA
+SAVAFVTGRQAYAVHLDLARTRVAVGDDAVGSLTVRNPGARLLLPALLELPVGSSTAVFE
+LPRMAPGAEHEELFRIPTQKRAVIVVGPVESVRRDPFWLLGRRLRWTDPVDLFVHPRTVN
+LQGSATGFIKDLEGLPTRDLSTADVSFHALREYVPGDDRRHIHWKTTARTGTLMVRQFEE
+TRRSHLAVALSTRLADYGSAADLELAISAAGSLGLQALREQRDLSMLTQDGILRSGSGSM
+LLDGLTRLEGTDRREGTRELAAITTDAVPNASVVILVTGTTPTAAELRSAAAAIPPGIRC
+LAVRCAEGEPPGRRDIADLTVLTCGSLDDLPALIRKGTA
+>tr|A0A0N8HY72|A0A0N8HY72_9MICC
+MASGTAARRPGRLRALWLAAAVVLLSLLMLASVTVGARDVDWADIVAALGGSADGFSEAA
+VAKRIPRTLLAVLAGAALGVAGAVMQGVTRNPLADPGILGVNMGASLAVVVGMAFFGLTA
+ANSFVWAAILGAGITALFVYSVGSLGRGGATPLKLALAGTAISAALASFISAVVLPRNDL
+AGGVRSWQIGGVGGGSFDAIGQVLPFLAVGFLVCLITARSLNSLALGDELAAGLGERVAL
+ARGTAALGAVLLCGASTAVTGPIAFVGLMVPHACRLLTGVDHRWLLPFSAVAGAALVTAA
+DVLGRIIARPAEIDVGIITALIGAPFFIWIVRRQKVRAL
+>tr|A0A0P7FWT9|A0A0P7FWT9_9MICC
+MSAESPSTMRALPAGRRRTKPGSQSALRARNQLRIQEALLAAGPQTQAELSRSTGLSSAT
+VSNIVRQLSEAGLVMTEPTTSSGRRALSVRLNDNGAVAAGIDIGRRHVRVVLATLGYRII
+GEDAISLPAGHSADEGMDAAAELFDSVLRDAGVDRDRVLGAGVGIPGPIDRRSGTVVRGA
+ILPEWVGINMREDLAGRLRVPIHIDNDANLGALAQVTWGPHGGCENLIFVKVATGIGAGL
+VINGSLFYGHVGITGEIGHATISDQGLICRCGNRGCLETVASIATMIDLLSRAAAEPVTT
+ADIIRQASAGDPATLRVVDDAGMAVGRAMAGIANALNPEVIVVGGSLTGLGDAFLNPIER
+GLLRHAVPLIGETTTVTMSSLGDRAEALGAAALVLAQADAVL
+>tr|A0A0P7HE50|A0A0P7HE50_9MICC
+MTEETAEAKTIATPRRPLKSRAGLARARRIVVKVGSSSLTSVAGGISDEALTSLADVLAA
+RRGQGTEIILVSSGAISAGLAPLGLSKRPSQLSTQQAAASVGQGLLMARYTEAFGRHGVT
+VSQVLLTIEDLMRRTHHANAHRALERLLNFGVVPIVNENDTVASHEIRFGDNDRLAALVA
+HLVKADALILLSDVDALYDGPPSAGARRIPEVTGLKDLEDVRIGKVGKAGVGTGGMVTKV
+EAATIAAQSGIPALVTSTDNAAAALAGEDVGTWFTTRGVRQPIRLLWLAHLARIQGTLVL
+DDGAARAVGERRRSLLPAGIVAVEGHFEPGDPVALRDTSGRVLAHGLTNYASDELPRMLG
+RSTRELAKELGRGYERSVVHVNDLVILQPHGSSAVQAAASRTPQADGTAATLGS
+>tr|A0A0P7HP61|A0A0P7HP61_9MICC
+MSVSALEFTQKLSAQPKSEQERAAILADPGFGNHFTDHTAVIDYRVSEAGEGTWENARIE
+PYGPIAMDPAAAVLHYGQEIFEGLKAYRHEDGSIWTFRPEANSARLNASARRLALPELPE
+ELFLESLRRLVAVDRDWVPSGDGESLYLRPFMIATEAFLGVRPAREVSYRVIASPAGNYF
+GGELKPVSIWLSTNYARAGRGGTGEAKCGGNYAASLIAQMEGEANGCQQVLFLDEFNDNA
+IEELGGMNVFFVFKDGRLVTPALTGTILRGVTRNSVLELGRDRGLKVEERKITLDEWRDG
+VASGDITEVFACGTAAVITPVGELKSETETIGSPEAAAGEVTMSIRRELLGIQTGAVEDT
+RGWLTRLA
+>tr|A0A0P7FF30|A0A0P7FF30_9MICC
+MAASTPDPLPRHNRDLSGVLSGVRIYAQLKPDGAGLDRLLRLQSAVRERAPRARPVSSGR
+VHLTLIHFGKADEAYDRLAKATGVSREVFVLALADYLDESEAALPAQDFVLFPRGLAGFG
+RTGSTLALEFDPTPDLRAVHEALYGLLLLFLDRCGVPDPAAYTAQDPALEFSSVLRPHIS
+ILHGFPGAGPDAPPLPAPDGGPFRLRPLPVLYRA
+>tr|A0A0P7HI74|A0A0P7HI74_9MICC
+MPIRVVIDSLLAERGLSVGEFADRIGITPANVAVLKNGRARAVRFSTLDAICRVLDCQPG
+EILVWEED
+>tr|A0A0P7HWP2|A0A0P7HWP2_9MICC
+MSTSNSSFLSDFAVMSSFGATEGGGVDRQAGTAEDHATRAWFSTWLADHGLTEAVDPAGN
+QFGLAELVPGAPWVLLGSHLDSQPLAGRYDGAYGVLAAAHAVVRAAAAAEAGELVPAFNL
+AVVNWFNEEGSRFTPSMMGSGVFTGKLPLETAHATSDLAGTTVAQALGSPSAPGTAPTLD
+SVARYAEIHIEQGRILEETGTQVGIVDKTWAAAKYRVTVDGDQSHTGSTRMVDRRDALYG
+SALVIAAARDLTDEFEPGLLHSSVSQLQVLPNSPVTIARQVVMNLDLRSPDESVLSRAMD
+LLDKRIADAEARSRTEISLALTHQWGLNPYQPAGVQLGRAAAAALGFSHRDIMTVAGHDS
+TNLKDHVPTVMLFVPSVEGISHNEAEFTRDEDAVRGVELLAEVARRLVRGDSVED
+>tr|A0A0P7GIG5|A0A0P7GIG5_9MICC
+MVNGKPSIETGTNLPGAGGSTVQGALWGGRFAGGPADALAALSKSTHFDWRLAGYDIAGS
+RAHARVLHKAGLLSDEELAGMLKALDELDADVRSGAYLPAESDEDVHGSLERGLIERAGP
+QLGGKLRAGRSRNDQIATLGRMYLRDHARIIAAGVLATIDSLVEQAEKHLGVAMPGRTHL
+QHAQPVLLSHHLLAHAWALLRDVQRLADWDKRAAVSPYGSGALAGSSLGLDPNAVAADLG
+FDSAAWNSIDGTASRDVYAEFAWVAAMIGVDLSRISEEIILWATKEFSFVTLDDAFSTGS
+SIMPQKKNPDVAELARGKAGRLIGDLTGLLATLKGLPLAYNRDLQEDKEPVFDATDTLEL
+LLPAVSGMIATLVFNTERMQSLAPQGFALATDIAEWLVRQGVPFREAHELSGAAVKLAET
+RGVELWDLTDEEYAGISEHLTPEVRTVLSTEGSLDSRSSQGGTARSAVESQLAELKQQLD
+AARAFAA
+>tr|A0A0N8HXY5|A0A0N8HXY5_9MICC
+MSESSESVPSNSPARRVLVAEDETLIRLDIVEILTGEGYDVVGEADNGEKAVQMANELKP
+DLVLMDVKMPVMDGISAAEAIVKARIAPVVLLTAFSQKELVERAREAGAMAYVVKPFTPA
+DLIPAIEIALSRHEEIKALENEVTDLKEQFATRKLVERAKSLLTTKMGLTEPEAFRWIQK
+TSMDRRLSMREVAETIINQVN
+>tr|A0A0P7FX25|A0A0P7FX25_9MICC
+MSDRRISLSLVSVGTLRELSNQMGPDVCRQFVGNYMEMWDGRYSKLVSTLHMQDYPAALD
+VVLSIKISSHMAGADRLAKLAQHAEQLVHKQDQGGLVSMLESFRKCGEDTLHQLEQALPN
+V
+>tr|A0A0P7G4G4|A0A0P7G4G4_9MICC
+MKRGELRVFLGAAPGVGKTCTMLEEGHRLRSEGRDVVVALVETHGREATAAAARGLEEVP
+RVTLEHRGLELEELDLDAVLARCPDYALVDELAHTNAPGLAHSKRWQDVEALLAAGINVL
+STVNIQHIDSLNDVVEGITGTVQRETVPDDVLRAAGQIELVDIAPELLRARLSEGIIYPA
+ARIDAALSNYFRVGNLTALRELALLWLADEVDSALNRYRNEKGIRSKWEARERVVVALTG
+GPEGQTLLRRGARIAARSAGGELLAVHVTNPDGLRESHPGELAVQRALVEKLGGTFHQVV
+GSDIPGSLVEFARSANATQLVIGVSRRPRLKALFGGPGIGATVIRLSGDIDVHIVNHGAA
+ASHRGLPRLGGALSPRRRLAGFGLALAGGPLLTWLLVGISTPESITSDVLAYQLLVILVA
+LAGGIWPALFAALLSGVTLDYFFIQPLHTVTVAEPLHLFALVLYAANAMLVSFVVDRAAR
+RSRSARRAASESDLLAAVAGNVLRGEDAVEALVGRVREAFNLDAARLRTADADLAVSGSI
+PPGLPEHRLEVGEAVLELYGRSPEPADLRLLEVTAAQLAAALDHRTLSAKAEGIGPLAAA
+DRVRTALLAAVGHDLRRPLTAATAAVTGLRADDVDWSEQDRQELLATAEESLNGLSELVT
+SLLDVSRLQAGALAVSLAPLETADAVLPALEELRLGPGEVELDLAPGLPPVLGDAVLLQR
+VLVNVLANAVRFSPPDAKVLLTASEFGGRVELRVIDCGPGISPERGEDMFVPFQRLGDTD
+NETGLGLGLAVAKGFMEGMGGTVEIEKTPGGGLTMVLSLPAAVAFGRTESAAAL
+>tr|A0A0P7G6I0|A0A0P7G6I0_9MICC
+MDRQTWSRLSHEIESPLNQEDITRLRGLGDQLNLDEVREVYLPLSRLLNLYVAAAGKLHS
+ATTTFLGEQTTRTPFVIGVAGSVAVGKSTTARVLREMLRRWPDTPNVELITTDGFLYPNA
+ELKRRGLMERKGFPESYDRRRLLRFVSAVKSGAEEVRAPRYSHLTYDIVPDSEIVVRRPD
+VLIVEGLNVLAPARTRPDGRSGLALSDFFDFSIYVDARTSYIEEWYVQRFQSLRSGAFAN
+PASYFHRYAGLTDHEARQTALDIWKRINEPNLVTNVLPTRGRAQLVLTKDADHSVRRMLL
+RKT
+>tr|A0A0P7H515|A0A0P7H515_9MICC
+MSKNQRTQEHFVAPVDSAGLPETDAVQDGREPLSMWGEAWRNLRRRPLFIISALLILLIV
+AVAAFPQLFTHTPADGACYLADSNAGPAPGHPLGFTLQGCDVYARLIYGTRASLLVGVIT
+TVCVVVLGGSLGALAGYYGGWLDAVIARLGDIFFALPLILGAIIVMQLPMFRENRNIWTV
+VLTLVVFGWPQIARITRGAVISVRNADFVVASRALGVSKFQALVKHVLPNALAPVIVTAT
+ISLGTFIVAEATLSFLGIGLPPDIMSWGNDISAAQTSLRANPAALLWPAGALSVTVLSFI
+MLGDAVRDALDPKARKL
+>tr|A0A0P7H5T6|A0A0P7H5T6_9MICC
+MGVRSFPHVFSPGGIGGLALPHRIIMGSMHLNFESNPQALAAFYGERAAAGAALIVTGGA
+AVNREGSGGSTYLVSAEKPFLKAARSALEAVHDAGGRLALQLFHAGRYGFQDTYGLQPLA
+PSAVWSAYSSVLPRAMNESDIARTVQDFAAAASLARELGFDAVEIMGSEGYLVNQFASPL
+TNLRDDEWGGDAERRQAFPLAVLAAVREGAGSGFPVIFRMSGDDLVEGSGPPREHLALAA
+ALARAGADALNIGIGWHESRTPTVQALVPHGSWLPVAGRIRRNLRGQGLSVPVIGSNRIN
+SVAQAEAVLTDGTVDFVSMARPFLADPRILAKTEAGRMDLVNTCIACNEACIDRSLGTEP
+VSCLVNPRAGRELDYPALRLTGRISGDRARAAVVGGGPAGMQAAATLAAAGIQVVLFEAE
+AELGGQFRLARLVPGKADFDETIRYFSVELPRLGVKIRTGFRAGAVHLAGFDHVLDATGV
+LPRAVRLAGSGGVPVLDYHQAFADPDALPGRVAVVGAGGIAVDLAHLLLQPHALPRSGPE
+STDAARARFAREHLRDGTAQPGGRCVTLLRRGGRIGEGIGPSTRWAALQALRSAGVRLYT
+GVSYRGLAPGGLEITAAGGTEELIPAEAVIVAAGQVENTRLQRDLRRAGVPHTVIGGAAS
+AAGLNAVRAFAQGLEAGTAVAQQLAGVTRERKRAPLP
+>tr|A0A0N8HY70|A0A0N8HY70_9MICC
+MPSQSQPSPAASAQLDGADRIYAQIAAELGVASWQVRAAVELLDSGSTVPFIARYRKEAT
+GTLDDTQLRELDERLRYLRELSDRRRAILEAIQSQGKLTDQLRTAIEAADTKSRLEDIYL
+PYKTKRRTKAQIAREAGLEPLADALLSNPSLVPETEAARYVGEGVPDAAEALAGARAILV
+ERAGQDADLLTDAREKLWKQGRLRSQVRPGKESEGQKYADYFDFAQAPSGMPSHRVLALL
+RAEKEGIVELGLAEADPADGDALAAARQRFENSVASRLGVAARGGAADPWLRQTVQLAWR
+RILAKLSVDLRVRLFQDAETEAVRVFAANLRDVLLAAPAGNRATLGLDPGLRTGVKVAVV
+DGTGKVVDTDTVYPHAPARRWDEALSRLAALVRKHRVELVAIGNGTASRETDKLAAELIL
+AVPEAKLQKLVVSEAGASVYSASALAAAELPGMDVSLRGAVSIGRRLQDPLAELVKIDPK
+SIGVGQYQHDVTAAKLDRSLDAVVEDCVNAVGVDLNTASPALLSRVAGIGELLSENIVAY
+RNANGPFARRADLKKVPRLGAKAFEQCAGFLRITGGTEPLDASSVHPESYRIARRILDAA
+NARMSPAGADLSGLDPAAFVDESTGLPTVLDIMAELRKPGRDPRPAFQTATFSEGIEKIS
+DLRPGMVLDGVVTNVAAFGAFVDIGVHQDGLVHISAMSSSFVSDPREVVKSGQVVKVKVM
+EADPERKRISLTLRLEDEVPAAGESSGGPRPRVSRPQGKNQQGKNQQGGAKPRGSKTGNA
+PRKPAAPDSAMAEALRRAGLA
+>tr|A0A0P7FQC0|A0A0P7FQC0_9MICC
+MKLTADSPAEKSANRTDVLLIGGGIMSATLGAFLKQLAPDWDISLFERMDRAGTESSDPW
+NNAGTGHAALCELNYSPAGPDGTVDPAKAIGINEQFQVSRQFWAHMVGQGDISGNFINPL
+PHMSFVWGDAHSEYLRKRWESLSAQPLFKSMEFSEDHSKIAEWAPLLMQGRDSGQRVAAS
+RVAGGTDVDFGALTRELVNYLGANGADLNFGHEVTNLTRNSNGGWDVTVRNRATKTTRTV
+SARFVFIGGGGGALHLLQRSGIPEGKGFGGFPVSGQFLRSTDESIISAHNAKVYGQASVG
+APPMSVPHLDTRFVDGKKSLLFGPYGGFSPKFLKNGSFTDLPFSVRPHNLLPMLAVAKDN
+MSLVKYLVTEVLKSREGKTKALREFYPEAITEGWDLITAGQRVQVIKKDPKSGGVLQFGT
+ELITSADGTVGALLGASPGASTAPPIMINLMKRCFPAEFPAWEAKIKEMIPGYGVKLNEN
+ESLADEILAETNRVLKLG
+>tr|A0A0P7G6X8|A0A0P7G6X8_9MICC
+MLLGAAAQLSAEATRLFLAELSLTENSVRVLKVLSAPGMPAARAASLTHLSLDEASFALA
+SLHQAGYARPRRPGRWSRTASGTAVVEELARVRQQCDSRAGETELRKGLHKLIQSISTDS
+PEPA
+>tr|A0A0P7GAK6|A0A0P7GAK6_9MICC
+MPSEINGLDQAEKAELLSGSGMWETPGSERAGIRSLVLTDGPNGVRLSAAGDTGPGLGES
+RPATCFPAECATASSWDPELLEELGRAAGLEAAALGVDVLLGPGLNIKRSPLCGRNFEYF
+SEDPLLTGSLGAAWVTGVQSCGVAASPKHFAANNQESYRMTVDVIVDERTLREIYLRGFE
+TVVRRSAPWTVMAAYNRINGFHAAQDPWLLRQVLRQEWGFDGVVVSDWGAVTDRAAALAA
+GLDLEMPSSSGIGPAELVAGLDAGLVSPDDVDASLARLRELGRRTADKPAAPPDLTAHDA
+LARNAAARSMVLLKNDGALLPFSSAATLAVVGELARTPRYQGSGSSRVNPTRLSTAWTAL
+SERIPGAVFAAGYLLEPGAPDEDLIAEAVRAARGADQVAVFLGLPDAAETEGLDRSTLQL
+PQAQLRLLEAIAEVRPDVAVVLANGSVVATDWVPKAAAVLETWLPGQAGGEAVTDVLLGD
+VNPSGKLAETFPRRLADTPAYGNFPGEAGQVRYGEGLLVGYRWYDTRMVEPAFPFGHGLS
+YTEFRYSGLEATVSNRGGEEEVRAVLQLANTGAREGAEVVQLYVAAPAGGAPRPVQELRA
+FKRVNLAPGETRTVELVLAPGSLDRFDPLTGLWATDPGTYELRVGSSSRDIRLTAAFTLA
+AAAPKPLPTASSTLAEWMEHPLAAAVLAEAFGAGAGDPGVAASMLTLMGSLPLDRLGRFP
+GSPLSAENAAALARKLAERAEQQEGST
+>tr|A0A0P7GEF0|A0A0P7GEF0_9MICC
+MKNSKITRNVRRGLAAVAITGAGAAGLAGLAAPANAASMDWDALAQCESGGNWGINTGNG
+FSGGLQFTPSTWAAFGGTGDPANASREQQIAVAERVLAEQGPGAWPACTAKLGMTGATAN
+PQAAAPVEQAPVTETPVQTYSAPVEAPAPAPAPVEAPAPTYTAPVEAAAPVEVPATSQGP
+AAAVPAPAVSGETYTVQAGDTLSAIAEKLGIEGGWQALYAANTGSVIHPDLILTGQTLQL
+PA
+>tr|A0A0P7HCS0|A0A0P7HCS0_9MICC
+MRNSLAERLSSTGARFTALNLSSKLALGFLGFIVLVAIVGPFFAPFGENESSAPVLAPGG
+EHLFGTDGSSYDVFSRLLYGARVSIAIGLGAVALALVLGSILGAIAATSRKAVSETVMRI
+LDILMAFPGIALAAALLFALRDHSLNLFGSTVPVLILAIAIVYTPQLARVVRANVLAQYG
+EDYVRAERVIGAGRTYILLKHIARNCAAPVLVFATVMVADAIILEASLSFLGAGVQQPAA
+SWGNVMADGRNVVFSGAWWPTTFGGITILLTVLALNILAEGLTDAMVNPRSRKPRTQAPA
+AVGAVATAAQPSALDAAGTSLTEHDGATPDAGAGAPSVGANVHKPGSLEALAVELDRLAA
+VEASRTDRLPAVAADAPVILEVKDLSIRFPERYGDTAIVDRVSFTVREGETMGLVGESGC
+GKSITSLAIMGLLPRTAQLSGSIRFNGKELLTNVPKERDRLYKGLRGEQIAMVYQDALSS
+LNPSMLIKDQMAQLTRRGGRKSPRELLELVKLDPDRTLKSYPHELSGGQRQRVLIAMALS
+RSPKIVVADEPTTALDVTVQKQVVDLLNELREQLGFAMVFVSHDLALVASLAHRVTVMYA
+GQVVESGDVSDLLQDPRHEYTRGLLGAVLSIEAGAERLHQIQGTVPSPREFAAGDRFAER
+SLRPDADPNQVLEFVQVEDSTHYWASHETAGSQDLVESGTSTRQEA
+>tr|A0A0N8HZ13|A0A0N8HZ13_9MICC
+MPTTFYRQARTRASLLAAALLAAFAAVLFLAAPAHAHDELISSNPADGAVLEEAPSEIEL
+VFSSALMDLGNQVIVADAAGNNVAESEPVLNRETLVQAVPALEAGDYQVNWRAVSSDGHP
+ITGTFSFTVNAPAGAEESTAPAASESASIPAASEPAPSASADPAEAEPAAEESDVASHLP
+WALAGAGVGAAAALAAWAIVVQMQKRRGDHA
+>tr|A0A0P7FUC4|A0A0P7FUC4_9MICC
+MTDTQRVLVTGATGYIGGRLVPLLLADGHTVRVLVRSPEKLNDVPWHDDVEIVQGDLSDA
+ESVEGAFQDVDTVYFLVHSMASGKGFAAQEENIANIVADAAEKAGVQRIVYLGGLHPNEG
+ELSPHMASRTAVGEILLNGPVPAVVFQAGVVIGSGSASFEMIRHLTETLPVMPAPSWVRR
+RIEPIAIRDVLHYLVRATDLPKDLNRTFDIGSGEVLEYADIMNGYAEVAGLPRRRIYALP
+IPAPKLAGLWVALVTPIPLSMSRPLVESLQHDAVAKERDINDYIAAPDGGLTNYHDAVTR
+ALGKEARNEVETTWASASSAADLASEPLPSDPNWAGQTVYVDQRRRGSDVDPAHVWQVIE
+GIGGKNGWYSLPMAWAIRGVLDKTVGGAGLTRGRRNPATLLTGDVVDWWRVEFLERGTLL
+RLRAEMRVPGKAWLELRVDPDGDGSVYSQRAIYFPRGLLGRLYWWLIYPFHGLIFPSMAK
+NITRQAARMAELDAV
+>tr|A0A0P7HM00|A0A0P7HM00_9MICC
+MKDSYLFELKLLEKVPKIIEVTMTTLEVHATDLEIVDALQINPRASWAMVARALGVSEVT
+VARRWRSLEERGLAWACVALHPSTSQGAFIEVRCNAKHLERLMMSLGRHPDVITVGQTTG
+DYNLFCITIATVLGDVLRCVHGGLPELLDTAQMRISLFRQMTGGVDWRQGILSVSNEKQL
+QEEHHSRHPESVSPISISDRQLFLQLGVDGRQSPAELGRSLGRAAGTVRRRLAELEARNQ
+VVFRCDVARPAFDLPLGMLVLMKAPPLEAEGTARLLGRRRETRFCASVIGTANIILVVGL
+HDLADAERVLGELSQDHPSAEVLDRRVVTRMTKIYGRMLDSAGRSVGVVPVDPWIRTMRP
+MGVAEDGTEQSI
+>tr|A0A0P7FWN5|A0A0P7FWN5_9MICC
+MSTYLGMPTLPVYGQGNLNAVESFPTAARRELKNEQLRANLGHATHTIRDKRLRVVGELP
+DWEDLRDAGSAVKESVMARLPELLEQFEANFTARGGVIHWARNADEANEIVRDLIRAEGV
+DEVVKVKSMATQEIGLNEYLEEQGIAAYETDLAELIVQLDHDKPSHILVPAIHKNRTQVR
+DIFLREMPEVDPNLTNEPAKLAEAARAHLRRKFLSAKVAISGANFAIADAGTLAVVESEG
+NGRMCLTLPETLITVMGVEKLLPTWQDLEVFMQLLPRSSTGERMNPYTSLWTGVTEGDGP
+QNVHLVLVDNGRSAALADEMGRSALHCIRCSACMNVCPVYERTGGHAYGSTYPGPIGAIL
+SPMMTGIKSEENNSLPYASSLCGACYDACPVKINIPEILVHLRSVDVESKRGTRKVPTQM
+DLLMKGASWAFSRGRNLGLLEKGLPLGKLAAGRKRKITKLPGIAAGWTQSRDIPAPPAQS
+FRDWWAKEHEGSAAAGTAAQGEKRS
+>tr|A0A0P7G518|A0A0P7G518_9MICC
+MKSLLTSARRWAAPVAAATFFVLWCVAEAGRMGPVVGVLPIFWTAAVPLLMITTAIGVAV
+RWPVLSLALTGLLLAGQLVKAVPPLYSTQWPIYLGSFICLGLIAWTGTRQLRIIAVVVNT
+VFAALMAFMMLSWRYGEGVGWFPPLYGGDSATLQAFGLQLFALLLLIAAGCFTVGLLLAL
+AEERGSLFRARELAQSTLKDREVDLIVERERTRISRDLHDVLAHSLAVIAAQADGARYSV
+KNQPEPVLRALETIAGSARSALVDAQRVIEGVQDDGMSAPQPQMDDIAGLIEGMRSSLDI
+QEGISGEPVKLSSGQQLAVFRIVQECLTNALKHGGRRTTVRLNFDWSGPGLTLHASSARH
+PNATEGTAGQRTGRGIPGMRERASLAGGWLTAGPDGDQFRVTLFLPYGPAEGRPAAADPA
+AGQEPGETPQLALSSGGKVPGDV
+>tr|A0A0P7HFN1|A0A0P7HFN1_9MICC
+MSIPSTGNPRLDSLTTWDSDWRGLRVVVAGIGLSGFSAADTLIELGARVVIADGVDSEEN
+RGKADTLRIVGAADVLLGDAAVAALPQVDGAPAELVVTSPGFRPSHPLLAAAADAGIPIW
+GDVELAWRVRIREGRPTAPWLAITGTNGKTTTVGMTESMLRAAGLRAIAAGNVGTPILDA
+IRDPQGWDAIAVELSSFQLHWTYSMSPLASVCLNIAEDHVDWHGSFEAYQADKARVYENT
+QVACIYNAEQAATEHMVEEADVIEGCRAVGFTTGMPAVSMVGIVEGLLVDRAFIEERRNS
+AAELASLDDLGDTAPRHLAADALAAAALVRALGVEPVAVRDGLRNYAPGGHRIEPVAKLN
+DILWVNDSKATNPHAANASLAAFGHVVWIAGGLSKGVSYDELIEAHRQRLRAVVLIGSDS
+SELRTALSRHAPDVPVIEAPQADTGGEGTPTGEAVMVQAVAAAAAVAKGGDTVLMAPASA
+SMDQFRSYAHRGEAFIEAVRGYVEGQAQTTKEP
+>tr|A0A0P7H669|A0A0P7H669_9MICC
+MKKIGFLSFGHYQDVPGSLTPTAGDALLQAIDLAVAAEEVGADGAFVRVHHFAPQQASPF
+PLLAAMAARTSRIDLGTGVIDMRYENPLYMAEEAAATDLISGGRLQLGISRGSPEPALRG
+AESFGYVPGEGETNADMARQHTEIFRAAITGRGMAPANPQMTGHSGLLPIEPQSPGLSDR
+IWWGSGTRATAKWTGEQGMNLMSSTLLTEDTGVPFDELQAEQIHAYHEAWKAAGHPGQGK
+VSVSRSIIPLVSDQDRRYFGLRAQAEAKDQVGRLEGGLARFGRSYVGEPDVIAKELADDA
+AVQLADTVLVTVPNQLGVDYNAALLENIVKLVAPDAGWR
+>tr|A0A0P7FHR8|A0A0P7FHR8_9MICC
+MLVVEDDVRLAQMLTEILESEGYSVTAAHDGQRALHVGLTQDFDVLLLDRGLPAIEGLDV
+LARLRSRGVAVPALVLSALGNPSDRVEGLDRGAEDYMGKPFDVDELLARLRALRRRTAPQ
+VPVLPVPGGMFDTGGRTVTQSDGAVAVLSEREAALLEVLARRPLQVFPREDLHDLVFPDA
+DDDGVVDTYVHYLRRKLGRASVLTVRGIGYRLGKSA
+>tr|A0A0P7HJ79|A0A0P7HJ79_9MICC
+MPLPGTSVPGPVPALQAVFWDLDGTIVDTEPYWIEAEKELVREHGGTWTDEDAEELVGQA
+LTYTARRLQQAGVDLPAEGVITALTDRIARRVRQEVPWRPGARELLEELSAKGVPCAMVT
+MSTGPLARLVAEQLPAGTFRLLVTGEMVKHGKPHPEPYLLAFNELAATVPGLSKARCAAL
+EDSYPGYTSAHAAGLPTVSIPHFVPLPPDPQRLEWKTLAGRSVQDLENIVSAQAGARP
+>tr|A0A0P7HEQ8|A0A0P7HEQ8_9MICC
+MTQSVSTPQRQLPPSTVIREDDSATVNVEELGRALLGKWQDIRLQARKLAGTDALHTPAG
+LTHTEHRLRVMDQLKILVDADAVHRAFPAYVGGQDNHGGNIAGFEELVVADPSLQIKAGV
+QWGLFGSAVLHLGNREHHEKWLPGIMSLEIPGCFAMTETGHGSDVSSIATTAEYDEAAQE
+FIINTPFRAAWKDYIGNAAVNGKAAVVFAHLITKGVDHGVHAFYVPLRDENGFLPGVGGE
+DDGVKGGLNGIDNGRLHFSNVRIPRTNLLNRYGDVAEDGTYTSSIDSPGRRFFTMIGTLV
+QGRVSLDGAAVAASKLGLNIAIKYATERRQFNGASDTVEEVLMDYQQHQRRLLPLLATTY
+AASFAHDELLAKFDDVFSGADDTDENRQDLETLAAALKSLSTWHALDTLQECREATGGAG
+FLAENRLTALRADLDIYVTFEGDNTVLLQLVAKRLLADYAKEFQGADFGVLARYVVGQAT
+ERTFHRSGLRQIVQTVADTGSEKKSAIALRDPRTQHDLLADRVATMVAEVAGELQKARKL
+PKAEAAAVFNRNQHDLIEAARAHAELLQWEAFTRGLERIEDEGTRQVVTWLRDLFGLGLI
+EKNLSWYLMHGRLSSQRARTLGEYINRLLAKIRPHAMDLVNAFGYGPEHLRAAVATGAEK
+ERQDESMEYQRLLRASGAAPVDEKILIQRRKQAAKGKR
+>tr|A0A0P7HM10|A0A0P7HM10_9MICC
+MAQQDKSDQAGEASLGTASKPDSPGEVTKPSWMYIFRKTAREFSKDQCTDLAAALTYYTV
+LSLFPGLLAMVSILGLVGQAESTTNAMIEYLEGFAPAAAVEVLKGPIEQLTSSRGAGLAL
+FVGLAGALWSASGYVGAFGRAMNRIYEVEEGRPIWKLRPLQLLVTLIMILLAASLLIMLV
+VSGPIAESIGNFIGLGSQALLVWNIAKWPVMVIFAVILIALLYYATPNVKQPKFRWMSMG
+AFLALVVLAIATLGFAFYVGNFGSYNATYGAIGGVIVLLLWIWLANISLLFGAEFDAEVE
+RGRELQAGIQAEHSIQLPPRDTRQSDKRAEQEEKDVQQGRELRQQHAGKDYDDDL
+>tr|A0A0P7FXM5|A0A0P7FXM5_9MICC
+MTASLLTRYGHTVPAEAQRWFDVADEVAAILGADALERDAANKPPFTELEILRRSGLLPL
+TIPARFGGAGINWSTAFEIVQRVARADNSIGQLLGYHYIFQAFPYIDLDPERGQELAEQC
+LVHQWLWSSTGTPQGPQATAVRTEGGYLVTGRKPFATGSRVAEKIYARAVLDGGDRLALI
+IDTASDGVVRHDDWDVLGSRLTATNTIEFRNVFVPDAEVITNLGTHDGERRPHQVLTTPA
+FQLLFAHVYLAAAEGAVLAARDYTLSSARPWFHAEVESASDDPFIQNHYGSFAARLQALA
+AVVDQATTALQWAFDAGDALTAADRAGVAEQIAAAKVTAHEVSLDVTARIYDVTGARAAG
+SKYGFDRYWRDVRTHTLHDPVAWKYNELGRYFLNGTEPVPSAYR
+>tr|A0A0P7HDR5|A0A0P7HDR5_9MICC
+MENLPRTGIGTDVHAFAPDDVPRPLWVAGLLWEGERGLAGHSDGDVVAHAAADALFSAAG
+IGDLGSHFGTDRPEYAGAAGTVLLAEAARLVREAGFRIGNVSVQLIGNRPKFSPRRAEAE
+AVLTKAAGAPVSVSATTTDGLGFTGRGEGIAAVATAVVVAG
+>tr|A0A0P7FI62|A0A0P7FI62_9MICC
+MADRVSYANNDGMNYDVDVLIVGAGPTGLALAAQLSGYGTSFRIIDRRQGPSTQSRALAV
+QPRTLEALRPFGISAAMASRGTPAHQLKLHLPEETVSVGLFDVGIEDSAHQQLLFLPQSE
+TEQILLSYLASRGVRVERGAELLELERLVPDDPFAGMEARVQRQDRGIDRIRARYIVGAD
+GAESTVRRRAGMDFRGSGYADTFVLADLEVDGADPGAVHAYPTEDGFMVLFPLGRPASWR
+MISLKERGDNSAVTLESLQAVADKFSGGGLVLHDPKWISSFRLSHQMAEFFQSGSVFLAG
+DAAHVHSPIGGQGMNTGIQDALNLGWKLALGARGLATDELIDSYDAERRPVARGIVGFTD
+RLFKLATSRSGLKKLPRTKLLPALAPSIAANERLRSRAFRTMSQLGIHYRGSTMTESALN
+RRPALLASGPRPGDRLPDAVVHYQEKERRLQDLVAAPGFHLLLTGPGWPEDTPQQIHAAL
+AGLGRLLTVQRLVVGSKLTASGPGVIEDVSGLAFERLGLSPRRPEVLVIRPDGYIGYRSS
+GTDITGAVAYLERLIGAGARSSLQRA
+>tr|A0A0P7HK18|A0A0P7HK18_9MICC
+MAGIEANQTPPQTQQGGPAGRIRRVSGPLVEVTGLPDVSMLELVALGPERISAETIAVNG
+SEATLQAYEYTGGLKAGDTAEGTGHQLSALLGPHLLGQVFDGLLRPLSSAPMWLSADRED
+SAEDRLVLDRQWNFEPQAPVGKAVGPGQVLGVVPDAGSVPFLVTVPPGVAGELTWLGSGL
+LRPLERAAVVGGTEVTLAQQWPVHRPRPVASRLSDAVPMHTGQRVLDLMFPLPRGAAAAV
+PGGFGTGKTLLLQQIAKWSDADVIVYVGCGERGNEMADVLDGLSGLEDPRTGGALLDRTV
+IIANTSNMPMMAREASINTGVTVAEFFRDMGYHAVVIADSTSRWAEALREFANRNGDLPA
+EEGYPASLASELAALYERASLAVTLGGSTSSVTVIGAVSPPGGDMSEPVTTGTQRFVRSL
+WQLDRDLAYSRHYPAVSWRGSFSRDADALGRWHAANGDPEWATRRARAGLVLAEADRLTA
+LAEIIGSASLPAHEQVVLLGGRLLRDGVLVQNALSANDGYSSAAKGSALLQAVLDTIDTC
+QDLVAHGVSAAAVDSFDFSPLLRLREAAGPSDAAGVAERAAAFLAELKELR
+>tr|A0A0P7HN48|A0A0P7HN48_9MICC
+MKQADVITTDSVCMQVPPGWEASREGTEALVLAPPTGGFRANLTLRTRPFEGTAGRAATQ
+EIAGVLAALGCPQVLSWNLWPYGQGAEGRWIEYTYETSEAVLHVQQWFHLRDGLLTTCTA
+TCRTSQLPAYDNDFSAMAGSIEVTDGNRG
+>tr|A0A0P7G990|A0A0P7G990_9MICC
+MVFEVGETVVYPHHGAAKIEEIKMRTIKGEEKMYLKLKVAQGDLTIEVPAENVDLVGVRD
+VVGKEGLEHVFDVLRAELTEEPTNWSRRYKANLEKLASGDVVKVAEVVRDLWRRDHDRGL
+SAGEKRMLAKARQILISELALAEKTDEDQAAAVLDEVLSS
+>tr|A0A0P7G6A6|A0A0P7G6A6_9MICC
+MAELTINADDVRNALNEFAASYEPGNAERVEVGRVTTASDGIARVEGLPSVMANELLRFE
+DGTLGLAQNLDTREIGVVVLGDFGGIEEGQEVHRTGEVLSVPVGDAFLGRVVDPLGEPMD
+DMGPIQAEARRALELQAPGVTQRKSVHEPLQTGLKAIDAMIPIGRGQRQLIIGDRKTGKT
+AIAVDTILNQKANWASGDAQKQVRCIYVAIGQKASTIAEIKRTLEDAGAMEYTTIVASPA
+SDPAGFKYLAPYAGSAIGQHWMYGGKHVLIIFDDLSKQAEAYRAVSLLLRRPPGREAYPG
+DVFYLHSRLLERCAKLSDELGAGSMTGLPIIETKANDVSAYIPTNVISITDGQIFLQSDL
+FNANQRPAVDVGISVSRVGGAAQQKAMKKVSGTLKLELAQYRDMQAFAMFASDLDAASRQ
+QLTRGARLMELLKQGQYAPFPVEDQVVSIWAGTNGYLDDVPVEDIRRFESEFLDHVRHSS
+KVLTVLAETNKLEDSTVDELKTLITNFKQGFFGEGDNRMVAAGHEEASALDEDAVDQEKI
+VKQKR
+>tr|A0A0N8HXV4|A0A0N8HXV4_9MICC
+MRIVLGVGGGIAAYKAASLLRLFTEAGHSVQVVPTEASTRFVGIATWEALSGHPVSTTVF
+DAVDTVNHVRLGHEADLIVVAPATADLLAKAAAGLAADLLTNTLLMARGPVFFAPAMHTE
+MWNHPATQANVATLRARGAVVMDPATGRLTGKDSGPGRLPEPEDIFAAALAAARTDSVPA
+GPSGLLSGKTVTVTAGGTREPLDPVRFLGNRSSGKQGAAIAEAALAEGARVRFIAAHLEV
+PVPRGVELVQVETALELREAVHEAAHSTDVLVMSAAVADFRPGENAETKIKKRDDGSDPV
+ITLVRNPDILAETVQNRAETGAGPALIVGFAAETGDGSGSVLEYGRRKLERKGCDLLVLN
+QVGRSLVFGQDSTEVRILSPHDDPQAEPAALTGSKAEIARHLMERIAAEFSGSSRGRDGS
+IPVPPG
+>tr|A0A0P7FU71|A0A0P7FU71_9MICC
+MATLGIIGSGNIGSAVARLAVAADINVVIANSRGPESLQDLVAELGPLAKAGTVEEAVNA
+GDAVVLSIPLMAVKNLPEGLLAGKLVLDTSNYYPSRDGRIQELDDSTVTTSEMVRDQLGG
+ARYVKAFNNILAAHIPALARPAGTDDRTALPIAGDDAAAKSEAAAIIGQLGFDTVDAGTL
+AESWRFEPDTPAYGRIYFSDPNASDQQLASTPPGVTPSEQVRSALDAATRVNVAERRF
+>tr|A0A0N8HY28|A0A0N8HY28_9MICC
+MSESRAGLFIAFEGGDGAGKSTQASLLTQALQDAGRSVVRTREPGGTPVGEKLRSLVLEH
+GHGQIDARTEALIFAASRAAHVDQVIRPALDRGDVVVCDRYIDSSVAYQGAGRNLGTDAV
+RSINEWATEGLVPDLTVLLDVDPESGRSRRTASDAAEDRLESEPDSFHGSIRQAFLALAE
+ASPGRYLVLDASAPVADLAQKILARIGGLLP
+>tr|A0A0P7G8P8|A0A0P7G8P8_9MICC
+MKAVTWQGKRKVSVEEVPDPVIQEPTDAIIRITSTALCGSDLHLYEVLGPYMNAGDIVGH
+EPMGIVEEVGSAVTNLKRGDRVVIPFQIACGECFMCRQGLQTQCEVTQVREKGSGAALFG
+YSELYGSVPGGQAEYLRVPHADYGPIKVSSEGPDDKYLFLSDILPTAWQGVQYANVPDGG
+TLAVYGLGPVGQFAARIGTHLGYRVIGIEPQAERRELAARHGAEVLDFSKDMGDELREMT
+QGRGPDSVVDAVGMEAHGSHVGSFAQAAVGLLPDALAQKAMETAGTDRLSVLHSAIDAVR
+RGGTVSLSGVYGGTASPMPLMTMFDKQLNFRMGQANVKRWIDDLLPLVEDSSDPLGVMDL
+VTHRAGLEAAPELYEKFQKKEDGCIKVVFQPGLNQAS
+>tr|A0A0P7HVH8|A0A0P7HVH8_9MICC
+MCGIVGYTGRPGAAAAVGHSALDVVMEGLKRLEYRGYDSAGVAVLTSGRVESRKKSGKLA
+NLVAVLEETPLPVATTGIGHTRWATHGGPTDGNAHPHLADGDRLALIHNGIIENFAELKE
+ELLADGTVFRSETDTEVAAALLGRIYAGDGGQDLARSMQLACQRLEGAFTLLAVHADSPD
+TVVAARRNSPLVVGLGDGENFLGSDVSGFIDFTRRAVELGQDQIVTITPDTVQITDFQGN
+PAEGTEFEVDWDAAAAEKGGYDSFMEKEINDQPQAVADTLLGRSDADGRLTLDELRVSPE
+ELKSINKIMVLACGTSAYAGQVAKYAIEHWCRIPVEVELSHEFRYRDPIVDANTLIVAIS
+QSGETMDTLMAVRYAKEQGAKVMAICNTNGSTIPREADAVLYTHAGPEIAVASTKAFLAQ
+ITATYLLGLYLAQIRGNKFQGEIKDILADLAKVPAKIQQVLDSSGSIKELGNLMAGTSSV
+LFLGRHVGFPVAMEGALKLKELAYIHAEGFAAGELKHGPIALIEEGQPVFVVVPSPRGRD
+SLHAKVVSNIQEIRARGAKTIVIAEEGDDAVKAYAEHVFYVPESPTLLAPLLTTVPLQIF
+ACALATAKGYDVDQPRNLAKSVTVE
+>tr|A0A0P7HLR5|A0A0P7HLR5_9MICC
+MQPKDADVIVVGAGLAGLVATAELVDAGRSVILVEQEGEQSLGGQAWWSFGGLFFVDSPE
+QRRLRVKDSVELAWQDWQGTAGFDRDEDYWPRRWAEAYVHFAAGEKRAWLHQMGHRVFPV
+VGWAERGGYGATGPGNSVPRFHITWGTGPGITAPFESRVRDGVERGLVRLACNHRMQSLV
+STAGVVTGVRGSVLETTATPRGRFAERNTVGDFEYSAGAVIVTTGGIGGDHDLVRSAWPS
+RLGTPPGAMLSGVPKHVDGHGIKAAQAAGGRVINPDRMWHYVEGIKNWDPVWPNHGIRIL
+PGPSSLWLDASGNRLPVPLFPGFDTLGTLEHLRRTGHDYSWFVLNKAIIRKEFALSGSEQ
+NPDLTGKSVRGVLGRATADIPGPVQKFLDHGEDFLTAGSVPELVAAMNALAKSSTDGNAP
+VLSVEAVLNELQARDREIANPFSKDGQVTAIRGARAYLGDRLIRTAAPRPILEPRDGPLI
+AVRLSVLTRKTLGGLETDLDSRVLGAEGKPIPGLFAAGEAAGFGGGGMHGYRSLEGTFLG
+GCLFSGRAAGRAASR
+>tr|A0A0P7G5D8|A0A0P7G5D8_9MICC
+MSEQELDSQINDETADLDTEDQVTEADAAAAAGDASAEDAEEAPAEEAEEAASEDAEAAP
+AAEPEEDPVVAFKAKLRRQEGDWYVIHSYAGYENRVKANLETRIQTLDMEDNIFQIEVPM
+EEVVEIKNTTRKIVNRVRIPGYVLVRMELTDASWGVVRHTPGVTGFVGNAHNPVPLSLDE
+VFSMLEHTVVSPKTAASGAPAKAAQSAIAVDFEVGESVTVNEGPFETLPATISEIKPESQ
+QLVVLVTIFERETPVTLSFGQVTKIQ
+>tr|A0A0P7GLB0|A0A0P7GLB0_9MICC
+MAANATPSSRVKTLLILGGTGDLSHRLLLPGLARLIARGRAPGLVVVGSGSRDWSQDEWK
+QRVRDSFSSEYEAASADARRELDAAVQRSSYLQLDLASPSGLGPDLLELEPPLAVYFALP
+PKLTLQTVEGLSPRDLPPETLLVLEKPFGSDQASARDLNRRLVSLVPEERIFRVDHFLGM
+TTVMNIVGMRFSNRLLEPIWNSLHIEKMEIVFDEQLALEGRAKYYDASGALEDMIQSHLL
+HTMAFMAIGPPASLAERDLRDLVAATLRASSVSGDFSRSTRRARYTAGVIDGKEVEGYAD
+SPGVDPARNTETLAEIEIAIDNDRWAGVPFILRSGKAQARTRKEAVVTFRPVNHLPEGFT
+GSTTLPSRLRISFNPAYLELELNVNGPADIFRLDRSTLSSKLHTSQLTPYGEVLEAVLEG
+NRLLSVRGDIAEECWRIVDPVLAAWRSNEVPMGTYAAGTQGPSGWESSRGSL
+>tr|A0A0P7HPK0|A0A0P7HPK0_9MICC
+MKDDLPKTTDAPIGIFDSGVGGLTVARAVIDQLPNESILYVGDTAHGPYGPLPIADVRAY
+ALGVMDELVDAGVKLLVIACNSASAAVLRDARERYTGRYGIPVIEVIQPAVRRAVAATRS
+GRIGVIGTAATVSSRAYDDTFAAAPHLTVSSVACPAFVEYVEAGVTAGPELLEAAEEYLA
+PLKDDGVDTLVLGCTHYPLLTGVISYVMGENVTLVSSAEETAKDVYKALLTHGLQRGAGV
+PPRHRFVATGDAESFELLARRFLGPEVVRVEHADSVAARYPTGVLARITPEMIAAARAQA
+GLPAAGAALGNGAR
+>tr|A0A0P7GK59|A0A0P7GK59_9MICC
+MKIDKSAIQAAVRTAHSDFRSDQGGQNASYIPYLASVDPALYGISVVTADGEVFETGDSN
+FEFALESISKVFSMARAMDEVGLPQFHEKVGADPTGEPFNSVIAVALHDDKPLSPLVNAG
+AMSTVSLIPADGPEQRWQKILETQSAFAGREIKLSDAVNDSEQSTNFHNRAIAWLLYSGG
+TMYSDPMEACDVYTRQCSTLVTAVDLATMGATIAARGTNPLTKKAAITHTDIVPPMLAEM
+TMEGLYTASGDWAYRVGLPGKSGVGGGVLAVMPGVLAIAAFSPPLDPAGNSVRARKAVAQ
+IASALSLNLYNASDYAT
+>tr|A0A0P7GJM1|A0A0P7GJM1_9MICC
+MEQRRIRLAAVGDELLAGHGDPRALGWLGRVLARTTPENATLQAYSLAAPGEGTEALANR
+WLMEAGRRFDETCENRLVIGLSDRDLDLELSTARSRLNLANILDGAAQMSIKVLVVGPPP
+GLDAERNRKLADLSAAFGDVTTRRKHVYVDTLTPLLNHEQWRTDLASNGGTPGQAGYGLI
+AWLVLHRGWFRWLDLPDMN
+>tr|A0A0P7GBZ3|A0A0P7GBZ3_9MICC
+MANQVVSLSGETTQPSRADVVIIGGGIMGVSIAYHLASAGVRGVVVIERAALGSGSSAKP
+LGGVRATFSDPANVALGKRSLDAYKRFGEEFGADIGLRQVGYLFLCRSEAEVLDCEASVA
+VQNSFGSNSRMISGAEAARINPFLDPEVLLAASFSPQDGYAEPSRAVAAYAAAAQAAGVR
+FLTGTEVLAVETAAGSIRSVTTNRGTIRTDSVICAAGAWSRHVGQMVGVELPVTPVRRQI
+GMTRQQPQPYPEVPFTLDLSTTMYFHNYGNGMLLGISNQQAPGFGRDFSFEWLGEFNAAA
+RICAPSLAEPDLEFGWAGLYENTPDHNALIGASDEVSGFFYATGFSGHGFLQGPAVGELV
+RDLYLGRQGFMDVSTFSVTRFHNDDEALVREVHII
+>tr|A0A0P7GIQ7|A0A0P7GIQ7_9MICC
+MALNRIALYYAFTPLADPEAIRLWQRALCEKLGLRGRILVSKDGINGTVGGELSAVKAYV
+KATREYPAFKKMDIKYSEGSAEDFPRLSVKVRPEIVSFGAPGELKVDENGVVGGGTHLRP
+EELHELVEKKRADGEDVVFFDGRNAFEAQIGKFKGAVVPDVSTTHDFIKELESGKYDDLK
+DKPVVTYCTGGVRCEVLSALMVNRGFSEVYQMQGGIVRYGETYGDKGLWEGSLYVFDKRM
+HMEFTDDAVTIGECVRCHAPTSKFENCSNPSCRKLTLYCAECAADPSTLRCPDGCEA
+>tr|A0A0N8HXP4|A0A0N8HXP4_9MICC
+MDSHDVQSDLKHVLYTKEQIAERIKELAAEIDRDYAGRDILLVGVLKGAVMVMADLSRAL
+HSHVSMDWMAVSSYGSGTQSSGVVRILKDLETDLLGKHVLIVEDIIDSGLTLSWLRTNLE
+SRGPASVEICTLLRKPDAAKVQIDVKYVGYEIPNEFVVGYGLDFAERYRNLDFIGTLAPH
+VYE
+>tr|A0A0P7GAL4|A0A0P7GAL4_9MICC
+MVKQPVSVNGVIRWRDVGLAEDAHREPKERKMVVLRHEIGDVLRDVRQRQGRTLREVSHS
+ARVSLGYLSEVERGQKEASSELLSSICSALDVPLSLMLREVSDRVASAEGVSIPDTVPTE
+FSREFARDFPEDLARDLARTP
+>tr|A0A0P7FDN6|A0A0P7FDN6_9MICC
+MRFPGVVYAYYERRLRRSLVNDRIPEHIGVMVDGNRRWAKLAGAPTSDGHQAGADKILEF
+LGWCEELGVRVVTLYMLSTDNLNRDPDELEPLLGIIANTLDRLGEKGDLQVQPVGALDIL
+PPELSGQLARLGEATASATGLHVNVAIGYGGRREIVDAVKELLRDAHAQGKAIEEITSEL
+CDAQISEYLYTRGQPDPELVIRTSGEQRLSGFLMWQSAYSEFYFCEALWPDFRRVDFLRA
+LRDYASRQRRFGS
+>tr|A0A0P7G8X8|A0A0P7G8X8_9MICC
+MSILEKPSQPASSGAVMTTAVDEVPNRLALTLRSTSLRAGIIAVALLVGGFTLWTIATEN
+EWVSPLVVAPPDEVGKALGDMFVTGAVWKNLGATAYVTLIGFSVATATALLVSFVFVFSE
+SLQKAIYPFLVIIQTFPKVAIAPLIIASFGYGLLPKVILAALMAFFPILVNSMVGLTNIN
+ADQLNLFKSMRANTWQVLFKLRIPNAISYILPALNTALVLSLIGTIVAEFVSARQGLGFA
+IQSATQTGSVATVYALLVVLGGFGAMIWVVMAILNRVFRNYKQ
+>tr|A0A0P7H3H9|A0A0P7H3H9_9MICC
+MCLGWLALVALLAVLGPMITPFDATEGNIVDRYLPASAEHWLGTDQAGRDLFTRLAVGAR
+STILAALAVAGLTVLIGGTLALVAVWFGGRVDGAITRFLDFLFSFPNLLLAVLAVAVFGA
+GVETAVVALAIGFSPYTARVIRSVALRERNLAYVKSAELQGISGLVITFRHLLPNVKQQI
+LTGASINFGYAMIDLAALSFLGFGVQPPDADWGLMVSSGQASLLAGYPQESIFAGTCIVL
+TVAALGYLGEQLGGRRAAGRA
+>tr|A0A0P7HH43|A0A0P7HH43_9MICC
+MSPEAKWRRKGAAFKRAAVAGAFSLTAVMLFQLSAPAAAHADEWREREYWLGDYGITEAW
+KKSQGEGVKVAVIDTGIDSTHPDLAGAVTGGTDVSGAGDPAGTRGIGVNPSHGTLVATLL
+AGRGHTAESEDKDSKDEDAKDAKDKDKDAKEYDGPGNGPDGIIGVAPKAELLAVSAWIGE
+ANPGGIPIDEQLPNAVRWAVDSGAKVINMSLGSSSTSWPESWDEAFLYAEQNDVVVVAAA
+GNRGVGMTQVGAPATIPGVLTVAGLDRDGRASWDSSSEGISIGVAAPAEELLGGLPEGDA
+SRYARWSGTSGAAPLVSGVAALIRSAYPELTAAQVINRIITTARDSGAPGRDTLYGYGIL
+DANAALNADVPAVAGNPLGTIEEWIRIHRRGETPASETIAPAPGQSLPDIPEPQVPEAAD
+PRTGDDPLPAMLVFGFGGLILLVGAGGAFAVRRVRRSAQTEDAETAGPETAADEELERAP
+QP
+>tr|A0A0P7FAC4|A0A0P7FAC4_9MICC
+MPSKPATDSIRVQNLSRVLTLLHRRGPLSRAQLTRLTGFNRSTVGALTSELSRLGLAYET
+EPAAAGRAGRPSPLVHPNERVAALAVHPDVDAVTVGLVGLGGKVHRRVRYDAAAVPGVAE
+TLSITRAVVEGMTAELASMDRIVGVGAAVPGLVDSTDGSVRLAPHLGWENEPLAESLSRT
+LGLPAFAGNDATLGTLAESVFGAGVEQADVVYLNGSASGIGGGVIVGGMPLGGAAGFAGE
+LGHTLVRSDGLACFCGRRGCLETEVNLGGLLEPLGLKHADLEQLEEAMAARRTPGFEAAA
+ARQLDMLAEALVNFVNIFNPSTILLGGFLGVLFSFDPRRLQNAVAHGGIGGLGRQVQIRR
+AALGADLLLVGAAELAFADLLAAPAAALNSAEQTPQPAAGA
+>tr|A0A0P7GK42|A0A0P7GK42_9MICC
+MTDSRLLVLFDLDGTLVDPAGSITGGIASALAATGLPVPAEAELQRMVGPALKESLISIA
+GVPENLLDAVITRYRAGYRETGMAESRPYPGIAEVVSELRDAGALVAVATQKPEPIARQL
+LAVQQLDSLFDSIHGSPADERLAAPDGKVSIIRAALDAHAGEYSAAVMVGDRSHDVHGST
+ANGVPCIGVAWGFAPDGELEAAGAAAVVHSAHELPQAVYAAADRAGAHGTV
+>tr|A0A0P7HDL9|A0A0P7HDL9_9MICC
+MKAIVITEPGGPEVLTLSDVPAPVPGPGEVLIDVVAAGLNRADVLQRQGNYPVPPGAPEY
+PGLEVSGRVAAIGTGVEGLGVGADVVALLSGGGYAEQVVVPAGQVLPVPAEMDLVTAAAL
+PEVAATVFSNLFMSAGVREGEYVLIHGGAGGIGTMAIQLVAAFGAVPMVTASSQAKLDLA
+ASLGAKVLINYKDQDFVEEVRAATDGHGADVILDVMGAKYLQRNLDALAVEGRLVIIGLQ
+GGTRAELDLNALMRKRCAVMGTTLRARPEEEKSAIMAAVGEYVWPMLRDGSVKPLVDRTF
+PLAEAAEAHRYFDSGQHTGKILLTL
+>tr|A0A0P7HW86|A0A0P7HW86_9MICC
+MTRALIVVDVQNDFCEGGSLAVPGGNDTAAEISDYIETSRDRYAVVAATQDWHIEPGSHF
+SDNPNFRDSWPVHCVAGTHGAALNPDLDTEFIDAYFRKGQYEAAYSGFEGLLAPDVEVPL
+GDPDAEPEPDEDAVSLDDWLRDNGVDEVVIVGLATDYCVKATALDAVAAGYATYVIPELC
+RGLDKVDVLAALDELEDAGVELLDL
+>tr|A0A0P7GV52|A0A0P7GV52_9MICC
+MQFVEPSREVLAETLLAAGPHAPTLCEGWETRHLAAHLYLREHRPASALGFFVKPFAAKT
+AKAMDTLAARASTSEGYAKLVKSFRSGPPLLSPMQIKSVDNSANLVEYFVHTEDIRRAGD
+RWAPRALDSEYSEALWSELLKRAALLYRGVDVGIILVRPDGPRHVAKRAAVSVAIVGEPC
+ELLLHAHGRTQQALVMFEGQADAVALLESADIGL
+>tr|A0A0P7H8U8|A0A0P7H8U8_9MICC
+MNQDVRTVVDGIGPRLRSLRTSRGHTLTAVSSATGISLSTLSRLESGQRRATLELLLPLA
+GAYGVSLDELVGGPRTGDPRVNMRTTRHRGATVISLTEKASGIGAFKYILPAAKRPATPT
+PQAHDGYEWLYVLSGRLRLVLGATELSLGAGEAAEFDTRVPHWMGNAGQDAVEFLALFGP
+QGEKAHVRARPSDPRPRPEPS
+>tr|A0A0P7HD71|A0A0P7HD71_9MICC
+MALALAALMAVSIAAAPAQAKPKPGAPVAPPPDSAFQKVTLNDTPGEPVDLAVLPNSDVL
+HTTRQGEVWLNDSETGLNTLAGTLDVYEHDEEGLQSIAIDPNFGKKGNNWVYMYYSPPLD
+TPVDDPATPGINEGDAPATGTAEDFERFKGYLQLSRFKFDGKTVDVASEQRMLEVPVDRG
+ICCHVGGDIVFDAKGNLYLSTGDDTNPFSSGGYSPLDERPESNPAYDAQRTSSNTNDLRG
+KVLRITPTKDGGYTIPKGNLFTPGTPLTRPEIYVMGLRNPFRIELNQKTGELYIGDYSPD
+AGSPDPLRGPAGTGKWAVVTEPSNYGWPYCATAELPYVDYDFATNTSGETFNCAALVNES
+PNNTGLRELPPVAQPEVWYSYGASPLFPELGTGGIGPMAGPVYDFDKKASKGRAPIAWPE
+YYDGKSFFYEWTRDYIKAMTMKKGELVSIEDVVSSIVVDNPMDMEFGPDGALYVLEYGDG
+YFGENPDAQLSRIDYIGEGGNHTPVAAASGTPTVGMSPLTVQFSSAGTTDADGDRLRYAW
+DFNSDGVVDSREANPSYTYEEIGTYRASLQVTDQGGKHRGKSSSAEVVIEVGNQAPVVEF
+VTPVAGQSFQFGDTISYEVRVTDDQPVDCSRVQVTYILGHDNHGHPQTTTSGCTGTITTT
+VPEGHDPATDNLSGVFSASYTDAGDGGTGPLTGTAEVVLRPTN
+>tr|A0A0P7GJV0|A0A0P7GJV0_9MICC
+MSATALAARVGLTVAPCHRRIKELERKGVLTGYRAVVDPAAVGLGFQTLVFVTLRDRAQM
+LAFEEAVGRHEQIVKADRLFGDPDFLLKVIAADLPGYQQFYDDVLVNLPGVEKLTSTIVM
+KTVKEEAGLPL
+>tr|A0A0P7G6S4|A0A0P7G6S4_9MICC
+MSVVIIGGGQAGLQVADSLRSGGYQDGITVIADEPGLPYQRPPLSKDYLAPEGSPAPLPL
+RAASFFADKEITLRSGVRAAAVDRAARTVILAGGEQVGYRHLVFATGTANRALTCPGADL
+PGVHLLRTLPDAEALHSALAAARRVVVVGAGFIGLEVAAAARARGCEVTVLEFAPGPMGR
+ALSPAMGAWFAGAHARAGIRLRFNEGIAAFEPSMDGRVGWAVSTTGARYRADLVVAGIGV
+VPNDALAAAAGLETGNGIVVDAALRTSDPSVLAVGDCASFPSAHAGARIRVESVQNATDQ
+GRHAARTILGSAEPYRDLPWFWSNQGSLRLQIAGLSAPGDQTVLSGDPESGKFSVLCFRN
+GRLAAVESVNSPGEHLGARKLLAAGISPEPEEAAAPGFSLKALARQDVAASSSV
+>tr|A0A0P7HDK9|A0A0P7HDK9_9MICC
+MNENTPRTVRAPRGTGLNARSWQTEAPLRMLMNNLDPEVAERPEGLVVYGGTGKAARSWE
+SFDAIVRTLKTLDDDETLLVQSGKPVGVFRTNEWAPRVLIANSNLVGDWSTWPEFRRLEA
+EGLTMYGQMTAGSWIYIGTQGILQGTYETFAAIANKRFGGTLAGTATLTGGCGGMGGAQP
+LAVTLNGGAVLIVDVDESRLQRRAGKRYLDDVETDLDAALAKVMAAKAEGRALSVGLVGN
+AAEVFPELLRRRNAGDGADFDIVTDQTSAHDPLSYLPEGIRMEDWHREADADPVGFTKKA
+QASMARHVEAMVGFQDAGAEVFDYGNSIRDEARQGGYDRAFDFPGFVPAYIRPLFCEGMG
+PFRWVALSGDPADIAVTDAALKELFPEKQHLHRWLDAAAEHVEFEGLPARICWLGYGERA
+KAGLLFNRLVAEGKVSAPIVIGRDHLDSGSVASPYRETEAMKDGSDAIADWPLLNALLNT
+SSGATWVSIHHGGGVGIGRSLHAGQVSVADGTELAARKLERLLTNDPGTGVMRHVDAGYG
+EAAQVAKERGVRIPMAE
+>tr|A0A0P7FPJ2|A0A0P7FPJ2_9MICC
+MAQTTNLEVGAARTLTDKEAMKVSVGALIGTAMEWYDFFLFSAAAALVFNVQYFSNENAT
+AAALASFATFGVGLVARPIGGMIFGSMGDKIGRRKTLMVTIVGIGVITGLIGALPTYAAI
+GIAAPVLLVLLRIAQGLFVGGEWSGAMTIVVENAPLERRARYAAFPQIGSPIGTILSSGG
+FFIMTLIFSQENFDSFGWRIPFLAAIPMLLVAVYIRSKLDESPVFAELLERGQVEKTPIR
+TTLSESWRQIFIGMAAALLGVGGFYLVTAFVVYYGVSILGYSSQLMLLGGMVAAVVEIPV
+LILGGRLGERFGASRVILYGGIGSAVAAVPSFLLITSGTPVLVILGMTLAVATLSLPYAA
+NGTILTGLFPARTRYTGVGFAQNTAGMVSGFIPLAATGMVAAAADHWWPAAALLVGLSLF
+TAAAGILAPRLSVDLPGFKH
+>tr|A0A0P7GC01|A0A0P7GC01_9MICC
+MPDTMPLIDVTDIIRVVGGSAFQRGQGYAKGGSVESLDWDGAGHVLRARVRGHASTPYST
+MLVLEAKRQGDYRLVDNHCSCPVGYDCKHVAAAALQSNTEHLIGRQELRSASAQPAVPAW
+QASLQSLLEGSTSSEPSRITPLGLQFELRRRDGGSSGVWGPPASRRTVRAPAWRLGVRPV
+VRNARGAWVKNNLAWTNLAYQTYGLKLDPEQHRWFSQFPALHRSNGVSYFGQNDSWLYLD
+DFANPLLWQLLSEARRLGVEFVGTKKDVTVHVGSEAILALDVRSAAQEHGPLQLLPSLEI
+DGQSYPLDTAGIIGSHGLYVRAASGMILLAPSPRTLTEQDRTLLAGNAPVTIPESDTGLF
+LEKFYPKLRQVLPVTSSDESVQFPEVEPPVLVLTAAFQPEDELALGWEYEYRQGTTSIRI
+ALDTRPSPSDPAARDVGAETELLETARQVLGSAPRNTVLHEIETAEFSEYTLPKLQKADG
+IRVDILGERPDYRELTSAPQLKITTVETERRDWFDLAVMITVEGRQVAFADVFKAIAKGK
+TKIKLVDNTYLSLDRPEFERLHALIEEAQALQEWDTGELGISRYQAGLWAELEELAEETE
+QAAAWRTAVSGLLELESVEPAPLPAGLRAELRPYQVQGYNWLSFLWEHGLGGVLADDMGL
+GKTLQTLALIARAREVQLAGPAGNGPRRPFLVVAPTSVVPNWISEAARFTPGLRAVSIPD
+TSNKSRRKLGDLIDGADIVVTSYAVFRLDFAAYRTQEWDGLILDEAQFVKNRTTRANQCA
+RDLPAPFKLAITGTPMENNLMELWSMFAIVAPGLFPSARRFAEEYQRRIEKSQDMAQLGK
+LRRRIKPLMLRRTKEAVASDLPAKQEQVLEVDLTPKHRKIYETHLQRERQKLMGLIEDMD
+RNRMIVFRSLTLLRMLSLDASLVDPENAGVPSAKLDALLEQLQDVTAEGHRALVFSQFTS
+FLKLAAQRLDDAGITYTYLDGSTRNRAEVIAAFKDGQAPVFLISLKAGGFGLNLTEADYV
+FLLDPWWNPATEAQAVDRTHRIGQTRSVMVYRMVARGTIEEKVMALKEQKAALFSSVLDD
+DAVFSSALTAEDIRELLQ
+>tr|A0A0P7HLD1|A0A0P7HLD1_9MICC
+MRAFPEGIDPKSGVPKHRQLEEILRRFVAQHAPPGTAVPSERELAEHFKVARMTVRQAID
+ALVADEVLERVVGIGTFVARQKMDLQIKLTSYSEEMHRRGMVPDARVLTFEQVPASHLVA
+RELQIDQGQPVIRFRRQLLADGEPMSVDENFIPAWHVPGMLEEEPPTSLYRVLSERYGMV
+IEWGEDTIEATAATASTARLLNVDLGAPLLKIQRHAYVSRSMVDYSVSYYRADRYKLWVP
+LQRPGIRTPRTYHPGRHQAT
+>tr|A0A0P7H841|A0A0P7H841_9MICC
+MSNTTTKRVPWRDASLSPAERADALLSQMTLEEKTAQLIGVWVGASADGAEVAPHQHEMN
+EPPDLESLLPNGLGQLTRPFGTKPVDAGAGALSLMRTQERIAASNRFGIPAMAHEECLAG
+FAAWGATAYPVPLAWGATFDPGLVRRMAAAIGTDLRRVGIHQGLAPVLDVVRDARWGRVE
+ETIGEDPYLVGSVASAYIQGLEQAGVVATLKHFAGYSASRAGRNHAPVSMGPREFADVVL
+PPFEMAVRESGVRSVMHAYTDTDGIPSAANRALLTGLLRDTWGFEGTVVADYFGIGFLED
+LHGVAGSRGEAAAAALDAGVDVELPTVDAYGEHLLAELEAGRVDPALVDRAARRVLLQKI
+GLGLLDEDWSPVPAALASGAGDLGSVQDTVNLDPPENRGLAARLAEESIVLLSNNGTLPL
+RSPARIAVVGPNAENPMAFLGCYSFPAHVGSQFPEVPAGIELPTVAASLRAEFGDSDVVY
+AQGCGIDDPDTSGIGDAVAAAKESDVVIAVLGDRAGLFGRGTSGEGCDVESLVLPGVQQQ
+LLDALLDSGTPVVTVLLTGRPYALGQAASRSAAVVQAFFPGEEGGSAVARVLSGAVNPSG
+RLPVSVPATPGSQPATYLAAPLAGPTDVSSIDPTPAFGFGHGLSYTEFSWDGLHVETPET
+STDGETAASLAVTNTGARDGVEVVQLYLHDPVASVVRPVQRLIGYARVPLKAGESARVRF
+TVPADAASFTGVDLERIVEPGVLELRFGASSTDIRLTGDVRLTGPVRSVDHTRRLHCAVD
+VEAAEAGPGVEITAP
+>tr|A0A0P7GU71|A0A0P7GU71_9MICC
+MNTPGTAGSPNWKAVAAALADSRRLEVYGRVIAAAGQGEPLSVRELDRAGSKSLAALLKA
+GLVREGEDGLHPVPEVFSRLLAADRAPRDESPLRHLGPGSSGSLPSKRADRLEVLHYLAG
+EVFSRHGVLDAGAGDPAASPARLTEAEVTVRLASFTQDPAMFRRAMVDEGIVQRSPDGSS
+YWLSRPRPAPGMEFAG
+>tr|A0A0P7GVF0|A0A0P7GVF0_9MICC
+MSNVDSFGSKGVLNVGGNEYEIFRLNSVEGAQSLPFSLKVLLENLLRTEDGANITADHVR
+ALAKWDANAEPSTEIQFTPARVIMQDFTGVPCIVDLATMREAVADLGGDPKRVNPLAPAE
+MVIDHSVQIDAFGNAGALERNMEIEYQRNGERYQFLRWGQTAFDDFKVVPPGMGIVHQVN
+IEYLARTVMTREVDGVLRAYPDTCVGTDSHTTMVNGLGVLGWGVGGIEAEAAMLGQPVSM
+LIPRVVGFKLTGEIPAGATATDVVLTITEMLRKHGVVGKFVEFYGEGVASVPLANRATIG
+NMSPEFGSTAAIFPIDDVTLDYLRLTGRSEENVALVEAYAKEQGLWHDPSNEVKYSEYLE
+LDLSTVVPSIAGPKRPQDRVELTNAKQQFRADLKNYVHESVEAENGTVDEALEETFPASD
+APSFAEGSTKIQDKEHDLVKESDAPAERSVNKVPVTMPDGRSFELDHGAVTIASITSCTN
+TSNPSVMMAAAVLARNAVEKGLVAQPWVKTSIAPGSKVVTDYYEKSGLIPYLEKLGFFVV
+GYGCATCIGNSGPLEDEISTAINEADLAVTAVLSGNRNFEGRINPDVKMNYLASPPLVVA
+YALAGSMDFDFENDALGQDAEGNDIFLKDIWPNPVEVQEIIDASIDKKMFTDSYGTIFEG
+DDRWKSLPTPEGATFEWDSESTYVRKPPYFEGMKAQPEPVTNIDGARVLLKLGDSVTTDH
+ISPAGSFKSDTPAGKYLLEHGVARKDFNSYGSRRGNHEVMIRGTFANIRIKNQLLDGVEG
+GFTRDFTQADAPQAAVYDAAMNYQAAGTPLVVLAGKEYGSGSSRDWAAKGTALLGVKAVI
+AESYERIHRSNLIGMGVLPLQYPAGVNAESLGLTGTETFSVEGVTELNNGTTPKTVKVTA
+VPENGEAITFDAVLRIDTPGEADYYRNGGILQYVLRQISAK
+>tr|A0A0P7GHR9|A0A0P7GHR9_9MICC
+MRLDVSQGAQYSTLSPALAVGDDEPDRNLALELVRVTEAAAIAGGHWVGFGDKNAADGAA
+VDAMRSLISTVHFNGVVVIGEGEKDEAPMLYNGEHVGDGTGALCDVAVDPIDGTRLTALG
+INNALAVLAVAERGTMFDPSAVFYMEKLVTGPEAADMVDLRLPVKQNLHLIAKAKGKKIN
+QLNVMILERDRHKPLVQEIRDAGARTRMLMDGDVAGGIAAAREGTDVDALMGIGGTPEGI
+ITACAVKTLGGVIQGRLWPTSDEEKQKAIDAGHDLDRVLSTNDLVTSDNCYFAATGITDG
+DLVRGVRYKKDRVLTQSIVMRSKSGTIRMVDGEHQSHKWESYARLR
+>tr|A0A0P7FAF2|A0A0P7FAF2_9MICC
+MTGQLFPRERSTPSAGAVHVPGWLDTGRQQEIVEACRRWAVGPVPMRSAVLPGGHRMSVQ
+TVCLGWHWQPYKYTRTADDAGGGRVAEVPEWMVELGRDAIRAAYFSQGEAGYAPEIIQPG
+EYTPDTALINFYAHGAHMGMHQDKDERSSAPVVSFSIGDTCIFRFGNTQTRTKPYTDLEL
+ATGDLFVFGGPSRFAYHGVPRTLAGTADPASGLDSGRINITLRMTGLE
+>tr|A0A0N8HY47|A0A0N8HY47_9MICC
+MTDLIDTTEMYLRTILELEEENIVALRARIAERLRHSGPTVSQTIGRMERDGLVVVSGTR
+QLELTDLGRRRATEVMRKHRLAERLLADVIGLDWAYVHDEACRWEHVMSERVERRLYDLL
+GKPTESPYGNPIPGLEALGGAAAVPPAMPYQDLLSAVGTAGAGQSMVLERLAEPIQVDPE
+LLTQLDEAGLRPGATITAEVVGGYVSVRVPGIEGALELPAEVASHVFVSASSS
+>tr|A0A0N8HXQ3|A0A0N8HXQ3_9MICC
+MTTQARAAILRGINEPFEITDVVLDDPRPDEVLVRVQAAGVCGTDLGVQAGHIPFPLPGV
+LGHEGAGVVEEVGSAVTSVVPGDHVLLSFTSCGVCRNCRSGHPAYCTYFLELNLVGGQRM
+DGSATISKDGKGVHGHFFAQSSFSDLVLADERGVTKVDPDADLSLLAPLGCGIQTGAGAV
+MNVLRPEPGSILAVFGAGPVGLSAVMAAALSGSTRIVVMDLVDSRLELARELGATDVVNS
+GSTDALQALFEMTDGAGVTHALETTGSTRVAATAADALAPLGKLGLIGAPAPGSTVELDV
+NFMLNGRQVIGITEGDSTPQLFLPALVELVQQGRFPLEKLITRYGFQNINDAAAAAKSGA
+VLKPVLHFGDLH
+>tr|A0A0P7GKA4|A0A0P7GKA4_9MICC
+MALTGVLLIGVNLRVAFVSVGPLLADIGREFDFSSAQSGLLTGLPLIAFALFSPLAPAVA
+IRIGLDRALWLSLALLAAGTVFRSTPVPTALWTGTVLIGIAIAFLNVLLPSLIKRDFPGR
+ISQLTGLYIAAQSLVTALGAAVVVPVSLVPGSGWRLALGIWAGLALIAMAILLPGLKRGK
+ADGDAAGSAVEEPSAPVRFRSPWRTLLGWQVTLFMGLQSVGFFVVTTWLPSIERDQGISE
+TTSGLHVSAFLVVGTASSLLTGAVLGRFADQRLLGMAGSLLAMAGFLGLLAAPELSLVWV
+VVSASGCGSMIVTALSLFSLRTTNHVQAAALSGMAQSVGYAIGAAGPVLFGFLYDLSGGW
+TVPLAASAGIMGLSCAMAFLAGRDRVLPELPRQRPAAQPGT
+>tr|A0A0P7GJC0|A0A0P7GJC0_9MICC
+MKTYVLGGGCFWCLDAIYQKTRGVQSVVSGYTGGFTAHPDYESVCSGTTGHAEVVEVTFD
+EKVIPAEVILDMFFISHDPTTLNRQGYDVGTQYRSSMFYRTEEEREEMEKARQRAQALWS
+DPIVTEITRLPVFHRAEEYHQDFYAKHPEQGYCQVIINPKLAKARKYYAEWLDN
+>tr|A0A0P7FAI6|A0A0P7FAI6_9MICC
+MSQQSRTTPALTGKDAKALDRALSAGDVTVFVDGTALRLPPAARDAVLDLLGRLATGKAV
+TVSSTAEAAVERDGEARGHNPLLTTSQAAAAAGISHTYLRNLTDAGVIPVEYRGTHRRIR
+MSDVEAWLQSQREQRAAKAARGGDGKPGGTDT
+>tr|A0A0P7FZ69|A0A0P7FZ69_9MICC
+MARRSASAPTPGEPIAENIIDIDVTTEMEGSFLEYAYSVIYSRALPDARDGLKPVQRRIL
+YMMSEMGLRPDRGHVKSARVVGEVMGKLHPHGDSAIYDAMVRMAQDWALRLPLIDGHGNF
+GSLDDGPAASRYTEARLAAAALTLTDHLDEDVVDFVPNYDNQLTQPEVLPAAFPNLLVNG
+ASGIAVGMATNMAPHNLGEVIAATQHLIRHPEATLEDIMRFVPGPDLPSGGRIVGLDGIR
+DAYATGRGSFKTRAKVEVEQLTARRTGLVVTELPYMVGPEKVIEKIKDAVTSKKLQGISD
+VVDLTDRQHGLRLVIELKNGFNPKAVLAQLYRYTPMEDSFGINNVSLVDGQPRTLGLVEL
+LQVYASHRLGVVRRRTAYRLGRKKDRLHLVEGLLIAIVDIDEVIQVIRSSEETAEARTRL
+MSIYDLTEIQANHILELRLRQLTKYSRLELEKEQEELRAAIEELQAILDSEDRLRGLVCD
+ELGEVAARYATPRRTVLLESEAVAPMASEAVAVKAGKGAKAVLPLQIPDDPCWVILSASG
+QLARTANQEPLAEGGQRTRHDVFRSVVATTARGEIGAVTSSGRMIRVQVMDMPALPPTNG
+LPNLAGGVPAKDFMTLAKGEKLIGMVPLNAVLALGTRNGVVKRVNPDYPLNRDDWEAITL
+KPKDEVVGAAVAANEDDELVFATRGAQLLRFPASVVRPQGRTAGGVAGMKLSDGDQVIFF
+GVVPAGDPDAVVVTVASGTETIPGTPGGSVKVTDFSEYPAKGRATAGVRAHRFLKGEDAL
+VVAWAGHGPAKAAAANGVARALPTEHGRRDGSGVPLASPVDHVGPSF
+>tr|A0A0P7FUD1|A0A0P7FUD1_9MICC
+MNFNADQLRALGAVLDHGSFEAAGAALHLTTSAVSQRVKALEARTGCVLLRRTRPVTATE
+PGAVLLRLARQIAALEDDAVERLGLDSAAGRPAVQLVINADSLSTWVLPALARLDGISFE
+LALEDQDYSAESLRNGTAMGAVTSSPEPVQGCSVTPLGTMRYRPAASETFARRWFPQGWN
+AASAAQAPMVVFNRRDTLQERFLGENFGPGIDPPRHYVPASWDFLQAVRHGLGWGMLPDL
+QSRDLLADGSLVLLDRERHIDVQLFWQQWRVDLPALARVAEALSGAAGDGLLY
+>tr|A0A0P7GSU2|A0A0P7GSU2_9MICC
+MATIDVDNLPYADGDFYAFEDLLSDKERDRLHEVRSWLTTEVKPYANDWWNAGTFPMHMI
+PKLAELDVVSPVYRQGYSNLFAGLCHAEFTRADTSFATFMGVHDGLFTGSIEALASEEQK
+EAWLPDIYALKKIGAFGLTEPLGGSDVAGGTRTTARREGSNWILNGAKRWIGNATFSDWV
+VIYARDEADNQVKGFLVDTKTEGYTATKIENKIALRTVQNADIVLDNVVVSDDFHLKGAN
+SFRDTNKVLKVTRLAVAWQAVGQQMAAFDVARRYAVEREQFGKPLASFQLVQEQLVQILG
+NTVSSMGMMVRLAQLEDEGRAKDEQSALAKAFTTARMRESVALGRSILGGNGIVTDYGMA
+KIFADAEAIYSYEGTYEINTLVTGRAITGVAAFV
+>tr|A0A0P7GDE2|A0A0P7GDE2_9MICC
+MARPGAPAVEQPARRPRSRRPWLVGAALCLGLAGAGLWALTVGPAGLGVRDAWLALTAPG
+SGSLTPLQEAIVRDLRLPRVLTAAAVGAGLALSGAVIQALTRNPLADPYLLGLSSGASLG
+AVSVLLLGAAVVLPVAAFAGAMLAMAATLTLAGALGSITPTRTVLAGLAVSSLAAAAASF
+VVFWTAQGDSYREVLGWLMGSLAGATWSSTAIALPALAVVGIPLMFCGRLLDAFSFGDTA
+ASALGVPVPAVRWTLLGATALLTGAMVSVSGSIGFVGLVLPHAVRMLAGASHRSLLPLSA
+LAGALFLVLADTAARTVFDPREIPVGIVTALIGAPFFILLLLRRRSGA
+>tr|A0A0P7FXZ7|A0A0P7FXZ7_9MICC
+MSLGRTYGIGLIGLEGRIVEVEADIGQSLPAFILLGLPDASLNESRDRVKSAAKNAGLPL
+SRRKITVNLMPADVHKRGSGFDLAIVMAALAAAGDVRGTGRTVFLAELGLDGRLRPLRGV
+LPAVMAAVDAGFPDVAVAEPNASEAALVPGARVRAFGSLAAVALAYGARADQLVFPPADD
+AGDTDIPESPSAAAVPDLADIAGQDEARFALEVAAAGAHHLLMTGPPGAGKTMLAERLPG
+LLPDLADTPAMEVTAVHSLGGRGASCTSLIRRPPFESPHHTATAAAVIGGGNGIPRPGAA
+SRAHRGVLFLDEAPEFEGRVLDALRQPLENGQLVLHRAAGTAVYPARFQLVLAANPCPCG
+LASGKGTECTCTPQQRRRYFSRLSGPLLDRVDLQLEIRRISLQDFAAAGTAEPSEAVAGR
+VAQARERQADRLGQLGCETNSEVPGTVLRGALRPARSSTAALDRAMDRQTLTARGYDRVL
+RVAWSVADLAGHDSPDADDIGQALGFRQQAVAA
+>tr|A0A0P7FZA5|A0A0P7FZA5_9MICC
+MSRLNLADLGRVHFIGLGGAGMSAVARVMIGRGVRVSGSDARDSAGLRALEALGARVSVG
+HDAANVAEVDTVVVSTAIRPDNPELAAAESSGLRVIHRSVALAAAMGGKEVVAVAGTHGK
+TTTTAMITVALREAGYDPSFAIGGDVAALGVNAAAGAGPMFIAEADESDGSFLNYTPRIA
+VVTNVEADHLDHYGTAEAVFASFDRFVELLPEDGLLVACADDPGVRDLLHRSKPPRVRTY
+GYAEDADIRISGTQADGRTSTSTVHFRWNYRNQEQTLLLQVPGRHNVLNAAAAFAVALEA
+GTGPEAALRGLAAFSGAARRFEPKGAARGVRVFDDYAHHPTEVAAALQAARAVAGERSVH
+VLFQPHLFSRTRNFAAEFASALDLADSVTVLPIYPAREDPIPGVTSDLITQQLKTPGTVA
+ADPAAAVQDIAARAAEGDIILTVGAGDVTQYGPQLVAALSAAAPHGSGSDAG
+>tr|A0A0P7FXV1|A0A0P7FXV1_9MICC
+MSRILIVEDEESFSDPLSYLLEREGFEVAVVDNGLDAVAEFDRSGADLVLLDLMLPGQSG
+TEVCRQLRQRSDVPVIMLTARDAEIDKVVGLELGADDYVTKPYSSRELLARVRAVLRRRS
+DSGDLGGATVQAGPVRMDVDRHVVSVSGQNIPMPLKEFELLEMLLRNSGRVMTRGQLIER
+VWGADYVGDTKTLDVHVKRLRAKIEPDPSAPAHLVTVRGLGYKFEA
+>tr|A0A0P7GSI6|A0A0P7GSI6_9MICC
+MAFRSPETLQRDAWRAHESLGSQSQILDMLRPGVRESWQRSLRHHPDPDAARSALVLEGP
+DLNAYRDSHPLASIMPVIQRLLVEPGRDSGLLVAVGDQLGRLLWVDGDPELLRRAESMMF
+MPGADWSENAVGTSAPGTALATGRSVQIAGAEHFSPQVHPWSCTAVPVQDPETGSVLGVV
+DITGKEEAVAVHTLALVEAAVAAATAQLRVERLQLGGTGLRRSTERASRSSLYQDSLQVL
+GTDTADLCVDGVRLQLSQRHSELMTLLALHPRGLTAEELAVLAYPTEASVGSVRAEMLRL
+RKLLSKSSSARIVPDSRPYRLPVDLVLDAGQVRACLGRGAHRLALNIYKGPVLPHSEAPG
+IVELRQSLSAELREAVLGEAGIETVLQYLKLEEAAHDAEAWRLALQLLPPRSPRRAGIVA
+GLQRMERELA
+>tr|A0A0P7GK14|A0A0P7GK14_9MICC
+MTLCISLAARPSNIGTRFHNYLYEQLGLNFIYKAFAPADLAQAVAGIRGLPIRGAAVSMP
+YKEDVIAFVDRMDPSAAAIDSVNTIVNDDGVLTAYNTDYLAIARLLADHEVSPAGSVLLR
+GSGGMAKAVAAALRDAGFGGVTIVARNEGTGRALADLYGFNWIPEPGDATADLLINVTPL
+GMAGADEDIQSYENETIAAAQTVFDVVALPSETPLIRAARAAGKKVITGAEVIAIQAEEQ
+FVLYTGVRPAPEQVREASEFSRS
+>tr|A0A0N8HXL3|A0A0N8HXL3_9MICC
+MTHTHPLNGAAVLVTGGAGTIGSAIVDQLLDAGAREVRVLDNLVRGRRANLADALSDSRV
+GLYEADIRDRDAVNDLTAGADFVFHQAAIRITQCAEEPRLALEVLADGTFNVLEAAAAHG
+VQRVIAASSASVYGLAEQFPTPETHHLHNNDTFYGAAKAFNEGMLRSFHVMNGLSYTGLR
+YFNVYGPRMDVHGVYTEVLVRWMERIADGLPPLIFGDGAQTMDFIFTTDIARANLLAAAQ
+ETPAGIYNIASGTETSLLELARQLLAVMNSDLDVEFGPERAVNGVSRRLADTSKAHKELG
+FTAEVPLAKGLAELVEWWLPLRSEIAAGRKA
+>tr|A0A0P7GST5|A0A0P7GST5_9MICC
+MPTATERSAGSEKGLARVAQALARWTEKWFPDAYIFALGGVVLIGLAALLNGSSPQAVVD
+SFGDGFWDLTAFTLQMSMVVLTGYVVATSPPVARLIAWLARIPQAPATAVSFVAFLSMSV
+SVLNWGLSIVFGGLLARAIARRRDLHVDYRALGAAAFMGLGAVWALGLSSSAAQLQATAA
+SLPPALLQITGVLDFGKTIFTWQSMLTCVLLIALTTVIAHFSAPRGSAIRTAEDLGIDLN
+DQPEPASKRQRPGEWLEYSAILPALIGLLTAGWVVSSFATKPFLSVISSLNAYLLVFLVL
+GLVLHRTPRNFLQAVTKAVPATAGILVQFPLYASMAAILTEAEGAGGLTLSEHLAGFFTD
+VGSGGAFAVVIAVYTVILGIFVPSGGGKWLVEAPYVMQSATDVDMNLGWTVQIYNISEAL
+PNLINPFFMLPLLAVLKLRARDLVGFTFLQFILHLPVVLLLVWLLGMTFTFEPPVIPEPA
+AQ
+>tr|A0A0N8HXT2|A0A0N8HXT2_9MICC
+MRTHKVIYSPLGILTLIAEDGALIAVETAPMGGELPDTARLGLAAENGFEAAERQFEEYF
+AGRRCCFDLQVLQTGTPFQERVWEAVKAIPYGQTRTYKQLALALGDSSKARGVGAALSRS
+TLDIVVPTHRVVGSKGALTGYSGGVDAKRALLELEAAPGNEVLRQQCSGAGVPA
+>tr|A0A0P7FZU4|A0A0P7FZU4_9MICC
+MSENRNNADAGHPEPQDETTPDQTPTPDQTPTPDQTPTPAAEDAAPTQRLYGQYGTQDDS
+GSQPFAAPASLPYGQTAAPNPGAEAAQGSGDSGTQDTSGQGEASSWGQPSGQPAGDPAPS
+ESGGQSGYGQPSGQPGYGSQPSYGQPAGQPAGQPSYGQPGYGSQSAYGQSSTPGPYGQPS
+YPGGSQPGPYGYQGAYQPPAQQPGKTMGIVGLILSCLFFIPFASLVGVILSIVAFVQSRK
+AKMSNGPALAGIIIGGVVFVLTLLATILLFVFALDQVGTLIEVCEDRGPGTHFVDGEMYE
+CDPMELEFEQSL
+>tr|A0A0P7HF27|A0A0P7HF27_9MICC
+MQLKNKTAIVTGGAGGIGRGIVRRFLAEGARVAVVDIDQDQGEKLLAELDGEAIFIARDI
+SVEANAAAIVAETVERFGGLDILVNNAHASRQASILETTKEIWDLSFNTGTMATFYLMRA
+AYPELKKTRGSIINFASGAGMKGLPNQVAYSAAKEAIRAITRTAATEWAADGIRVNVVSP
+VALTPGIVQWSKAFPDAYQEVLDGIPLGRLGDPETDIAPVVVFLGSENSRYMTGQTLMAD
+GGSIKLY
+>tr|A0A0P7HG98|A0A0P7HG98_9MICC
+MVWQSIDVEREALADQLAQVDEAQWSTPSLCAGLTVREVLAHLTVSGAVSGPRWFAGVVR
+ARFDFDKQVEDRLREQLGTSSSETLSRFRSTIGSRTSPPLPRLALLGEMVVHGEDIRRPL
+GLVRDYPAAALVALLRYYAGTNQVVIAKKRVRGLRLEAVDTGISLGEGDVVRGSTVALIM
+AMTGRSAYCAELTGPGVAELEARTS
+>tr|A0A0P7GC65|A0A0P7GC65_9MICC
+MPETPLSTRTPPPAVAGVVTEIFAPAVLVGVLLLLQPVLTPGVTWLHGIVAAVFTVGLPF
+AGILWLKRRGSVTDHHIGVRSQRAPVLLGAVVSLVVGALLLALLAAPAALFGEIGGVFIG
+LVLCLVANLFWKLSVHSAVAAYVGLALLAPIPALGPALALLLASATGWSRIQLGAHTPTQ
+VLAGHAAGCIAFAAALLLP
+>tr|A0A0P7HVJ3|A0A0P7HVJ3_9MICC
+MDIEFAASPQSTLGVEWELALVDRESGELLSVADEVLRAVNANDPNLSPDDEHPHIKQEL
+LENTVELVTGICSTVAEAKADLARSMAAVRAVTDEMGVELFCAGTHPFAVPRSQPVTDKE
+RYAKLIDRTQWWGQQMLIYGVHVHVGLDSRDKVLPVLDGLVNYFPHFQALSASSPFWSGD
+DTGYASQRALMFQQLPTAGLPFQFRSWAEYESYVQDMFTTGVIDSISEIRWDIRPVPALG
+TIELRVCDGLSTATDIGAIAALTQCLVDEFSTILDNGGTIPTMPPWHVQENKWRAARYGL
+DAIIILDAAGNEKLVTEHLLEDVLPRLAPVAEKLGCSAELADVAGIIERGAGYQRQRRVA
+EANGGDLRAVVHDGVAQLRGEG
+>tr|A0A0N8HXY8|A0A0N8HXY8_9MICC
+MAETAPAPADKRSRLLVVAILASFVAFLDGSIVTVALPAIGEELGGGLATQQWTVNAYLL
+TLGALILLAGSLSDSFGRLRVLTLGLIGFGAASIGCALAWDPEVLVIARAIQGMAAALLV
+PSSLALITTAYAGPARARAIGTWTAWTGTAAIIGPLLGGVLVDWFSWRLIFAVNVLPVAL
+TLLLMLGLQDSPRRRTALDIPGALLAVAGLGGPVYALIEQERLGWSDPAVYLSLAGGLAA
+LVLFVVREARARAPMMPLYLFRVRNFRYGNLVTAAAYGALSLGTFALTVFVQEAAGFTAI
+QAGLISLPLPVAMLLLSTYFGNLAGKYGPRIFMTCGPAIMGIGFLLMLSVSPPLNLLTQL
+LPGLLLFSLGLAVMVAPLTAAVLGALNETDAGIGSAVNNAVSRVAGLITVALIGTISAGS
+LDYAGFQRTVLATALLMFAAALIAFLGIRTPERDGSPA
+>tr|A0A0P7G049|A0A0P7G049_9MICC
+MATTAFKQSPVRTAGELPATGSSAPAFDLVGTDLAPVTAGDFAGRRVVLNIFPSVDTGVC
+AASVRRFNEIAAGLENTTVICVSKDLPFALGRFCGSEGIENVVAASAFRSSFGEDFGLTQ
+TEGPLAGLLARAVVVIDADGTVVHSQLVPEITTEPDYDAAVAALA
+>tr|A0A0P7G3M2|A0A0P7G3M2_9MICC
+MRTRPNYIAGAAAVVWLLIVALPLYVMIAASVQTRSDFSAGGPLSFPTSFTLENYAGVFQ
+SGFGLYFLNTLIVTGGVVGIVLLVVPPLAYAIVRSQSRTTTLIFRFFLLGLAIPVQAVIV
+PMFYLINTVGLYDTLLGIILPTAAFALPICTLILSGTMRDITPELYEAMAVDGAGTWRTF
+VRLVLPLSKAGISTIAVFAALQGWNGFLLPLILTQSESTRVITLGLFNFQTQYGINVPGI
+LAAVMLSMIPVLLVYLFARRALVQGLMGAGGK
+>tr|A0A0P7HHJ8|A0A0P7HHJ8_9MICC
+MSEINREAVAHLARLAHIEMTDDELDKMAGELDVIVDSIKSVSEVAGEDIPATSHPIPLV
+NVFREDVVGQTLTNEQALSGAPDNAEGRFKVPAILDEE
+>tr|A0A0P7G6P8|A0A0P7G6P8_9MICC
+MKIAIAEDSALLRVGLVELLGGRGHQVVAAAGNAEELFTALETAEPDVVILDNRMPPTHT
+SEGIRAALTLRATRPEIGVLLLSQYVETRYATQLFAGQPRGTGYLLKDRVADIRAFLDAL
+ERIREGETVLDPEVVRQLMGAGNTAGLGSLTPREHDVLELMAQGRTNAGICAELFLSAGA
+VEKHITSIFSKLDLAPAAGDHRRVLAVLQYLQAASPGVA
+>tr|A0A0P7GAR3|A0A0P7GAR3_9MICC
+MDSLAATPGTGPATNPLPVIRPGAKKRRFEDLPTGRTLVMGILNVTPDSFSDGGEHATTD
+AAIRAGLKLHYDGADIIDVGGESTRPDAERITAEEEQRRILPVVEALVKAGALISVDTMN
+ASTAQKAIEAGAGLINDVSGLELDPEMPELIARTKVPYVLMHSRGSVRTQDPKANYDDVV
+EDVITELTALRDRFYEAGVAPEQIILDPGLGFAKNAEHDWALLRNVDRLTVLGHRVLVGA
+SRKRFLGSLLTTAGKAAPPAERDNATLATTALAASQGVWAVRVHDVAANVDAVKVAAAWQ
+G
+>tr|A0A0P7G6C7|A0A0P7G6C7_9MICC
+MSPEPFTQQAGTESGISTNSASAVDAPPAKGRYARIYEIAGAAFFSVAFLARLPLAMLTI
+GALTLVTSITGSYAQGGFAAGAVGVGSALGGPALGYLADRIGQRPVLLGAAVANPLLIVA
+TLLTASQLPDGGPLLAVLAAAFGMGATGPQVGPLARVRWMALTAKDRSGREMGTALSYES
+MADELSFVLGPALVGLLAAAVAPWLPLALAALLSATMVSAFAFHRSAAAVVPSRRRDSRA
+AAAESGTPERGGVSWGLLALPVLGMVAMGTFFGATQASLAAFGGSFGAADTAGLLYSVMG
+ISSAAAALSVAFWPQRLSQSVRWVLSAAAMTGGTLLLLLPSGIPGMLLALFVLGIPVGPT
+MVSIFGIGAELAPRHLMGTFMTLLASGTVAGTAVGSGLAGPLAEEFGHPAAFLVSVGAAC
+ALLILGLASAVAVHRVKSRQV
+>tr|A0A0P7G9E3|A0A0P7G9E3_9MICC
+MFFSAPAFWPRPTTLGESMQLQVARIGKPHGIRGEVTVQVLTDAPEDRFAPGAVLTVEPA
+AKGPLTVLSARWNKDILLLGFEEIVDRNGAEEIRGAKLFIDTEEAEEDDDAEGWYEHELV
+GLKAKVGSDVVGTVTALRTLTVQDLLIVEDTKGQEILVPFVEAIVPEVNTEEGYVLLTPP
+PGLFELNLPEAGKDGAER
+>tr|A0A0P7FET6|A0A0P7FET6_9MICC
+MSTLKYSADEGTTVPPRVVPVSRGRIVVDWLTTTDHKKIGYLYLITSFIFFCLAGVMALI
+IRAELFQPGLEIVSSREQYNQLFTMHGTLMLLMFATPLFAGFANVMMPLQIGAPDVAFPR
+LNALAYWFFLFGSLIAISGFLTPQGAASFGWTAYAPLSNTTFSPGIGGDLWVFGLALSGF
+GTILGSVNFVTTIICMRAPGMTMWRMPIFTWNTLVTAILVLMAFPPLAAALFALGADRRF
+DAHIFDPENGGAILWQHLFWFFGHPEVYIIALPFFGIISEILPVFSRKPIFGYKGLIFAT
+IAIAGLSMTVWAHHMYVTGQVFLPFFAIMTMLIAVPTGVKFFNWIGTMWRGSITFETPMM
+WALGFLITFLFGGLTGIILSSPPLDFHVSDTYFVVAHFHYVVFGTVVFAMFGGFYFWWPK
+WTGKMLNERLGKIHFWLLFLGFHLTFMIQHWLGVLGMPRRYADYLVEDNFTAMNQLSTIG
+SLILGFSMIPFFWNVYVTWRRGKKVEVDDPWGFGCSLEWATSCPPPRHNFTSLPRIRSER
+PALDLHHPELKPRANEKTDNPVASVLGAADMGSEDPKNPDPRQ
+>tr|A0A0P7H3N1|A0A0P7H3N1_9MICC
+MAAYCQVTGAVPGFGHSISHSHRRNKRRFDPNIQKKRYWVPSLRRNVTLQVSARGIKTID
+VRGIDAVVTELLAKGVKL
+>tr|A0A0P7GLI6|A0A0P7GLI6_9MICC
+MDGVTRVYSKHAATKGKAENALLAAMKERQDQGRQPVENISFGEVARRWLSSIEPAKVVV
+DERGEETWESPRGRIRRQTWDQYEAVMRRYLIPGLGALPIRSIRTSTCDAFLRSLTVDGK
+GSSNVRIGKTILRQIMSYAIRHDLYVDANPVLEVDRLSRNAKKPQALDMPALEAIRAAVR
+NWRSEPGVPGPAPTSALSDVVDVMLGTGARIGEVLALRWQDVDLSGEVGKVSITGTIVEP
+RKGPKFRQDATKTASGARIIPIPRFVVDVLLRRRLESPATNTIGAVFWTRNGTYMQAWDC
+>tr|A0A0P7G3L8|A0A0P7G3L8_9MICC
+MTVLIAGCGDLGTEAGLRFAAAGFPVLGWRRSPEKIPAPLAGRAADLTGTLPRVPADTDI
+VVICVAAGERTEAAYRSAYVDGTSNVLDALERDGVQPQRILFVSSTAVYGDADGGWLDED
+SPTAPASVTGAVIREAEELLHSRRPDAIVLRLAGIYGPGRTRLIDQVQAGAADPGPGQLT
+NRIHRDDAAAAVVHLTTGVADPASLYLGVDNEPVEQRDVLTFLAGELGTELGPAAPSSSS
+RGGNRRLSNARLRSTGFEFTYPTFREGYRAVLAGQGMRHS
+>tr|A0A0N8HY16|A0A0N8HY16_9MICC
+MSDRIRRDIIRGELVPGAKITEAALAARYGSSRVPVREALRALAVEGFVESRPYAGSRVA
+RLDPDEAGDLFAVRETVEGATARRAAERSARQAASGTPDPAWWETRRRLGEILAAGDSAA
+ADGRLAELPELNLAFHRGIAELAGSVSLQALLAQLAGKIEWLYASDVGFRGRDSWSEHRP
+ILAAVDAGDARGAEQLMRDHIQRSRQSWLSRFAEGS
+>tr|A0A0N8HY11|A0A0N8HY11_9MICC
+MPEVIVAGAGPTGIFLAAELRLHGVDVEVLDREREPNPVVRSLGLHARSIEIMDQRGLAG
+QFTAAGIRHPLDGFFAGIIRPAPDLDSTHPYVLGIPQTETERLLTARAVELGVAIRRGCE
+VTTISQDASGVTVTLADGSALRCRYLVGCDGGHSTVRRLIGVGFPGEPSRREFLLGEVEL
+SAPLEEVAGVVARVRETHRDFGAGPVSGGGYRVVVPAAGVAEDRAVPPSLDELKEQLRQY
+SGTDFGAHSPRWISRFGDATRLAESYRAGRVFLAGDAAHVHPPFAGQGLNLGLQDALNLG
+WKLAAAVNGWAPEELLDTYFTERHPVAADVLNTTRVQSELVSTDPGPQALRRLLTELMEY
+DVVNRHLIGKITGLDIRYDLGPGPAQLGRRQRDVQVGTKRLYDYMHTGRGILLDRTGRLL
+PEGWQDRVDHIVDSRAGPAAPSLLLRPDGHIVWVGEDQEEDGSLSAGSEADLVEALTTWF
+GPPSLPSIAQLAQLD
+>tr|A0A0P7FZ49|A0A0P7FZ49_9MICC
+MTSAAKPSVLFVCVHNAGRSQMAAAYLRVLGAGRIDVRSAGSEPADRINPAAVAAMAEDG
+INMSAELPKVLTTDAVRESDVVITMGCGDTCPVFPGKRYEDWELDDPAGQGLDAVRPIRD
+SIRSRIEALVADLLPGDSSRPTPLA
+>tr|A0A0P7GBX3|A0A0P7GBX3_9MICC
+MAASGPGNLRDVDVAVVGGGPVGLVLAILALQDGLRVRVLERRTERSSHSRAIGIHPPGM
+AALEATGVAGQLAAEGVQIRRGAARTRDRDLISISFSKTSAAYPYVLALPQERTETVLEA
+RLRELDPDALQRGHQVTGLRDDGAGVTLTGAGPGGEFSLRASWVVAADGARSPVRGLLGI
+EATGTLLRDSYLMGDFPDTTGDGPVGVLYLEPEGIVESFPLPGGKRRWVAHTRTLLSDAD
+AKDLATIVAARTGKKPDAGASTMLSAFSVRTTALRQLVHGRTVLIGDAAHEVSPIGGQGM
+TLGWLDAAELAPLLSAAVGGADVTRQLAAFDLRRRRAAVVASAQARLNMALGRPLPPRLM
+QARNAGLARLFRSRRLAGLVAKRFTMQ
+>tr|A0A0N8HXT1|A0A0N8HXT1_9MICC
+MRIDVFSIFPEYLAALDLSLIGKARQDGLLDVRVQDLRDFTTDRHRTVDDTPYGGGAGMV
+MKPEPWAQALATALDGAPEPGVKPTLIVPSPAGEVFTQQTAYELAAAEHLVFACGRYEGI
+DERVLEWAGEHFTVRPMSLGDYVLNGGEVAVLAMVEAVGRLVPGVVGNPESLVEESHSDG
+LLEYPVYTKPSQWRERAIPEVLLSGNHAKIARFRRDEQLRRTSERRPDLIAKLDPASLDK
+ADRATLAALGWTVTEGAVLPQA
+>tr|A0A0P7G9G6|A0A0P7G9G6_9MICC
+MTVRPIVIYGEPVLHRRAAEVTAFDGSLRTLVADMYETMDVANGVGLAAPQVGVSLRIFT
+FDFANDDDAPDRGVVVNPVLLTTKVPGSAPDPDEDTEGCLSVPGENFPLTRADWARVSGF
+DENGVPVQFEATGWFARVLQHEYDHLDGKLYVDRLNDRWGRKARKTLKSNGWNVPGLSWM
+PGVDPDPFGH
+>tr|A0A0P7H634|A0A0P7H634_9MICC
+MNGGKPPRLVFLTLEAERRLARWISRRGRPHGISAPAAGVLFHVAAAPGTTTGEVASALH
+GSAAGTSGLLSRMEQSGLITRSPDPADRRTIRVELAPAGEDAMADIREAITDLNALITDG
+FSAEELETVARWLRHVSRSVG
+>tr|A0A0P7FI81|A0A0P7FI81_9MICC
+MSGYFKLVDAHDGAFRIKLISGDGALMAVSAMFPTKEAAAAGIEQLREIAGTGPVVDHSR
+DADVVAEANRNTGRAKAS
+>tr|A0A0P7GUC6|A0A0P7GUC6_9MICC
+MVSTQSQTDQSEEAVYSFAAMEKKWPAVWDDLGVFTPADDGSKERRYVLDMFPYPSGDLH
+MGHAEAFAMGDVVARYWRQLGFDVLHPIGWDSFGLPAENAAIKHNAHPSEWTYRNIDTQA
+GSFKRYAISVDWSRRLHTSDPEYYRWTQWLFTRFYDRGLAYRKNSPVNWCPKDQTVLANE
+QVVNGACERCGTQVTKKALNQWYFKITDYADRLLDDMEQLKGHWPERVLAMQKNWIGRSE
+GAHVRFAIEAAGNKPEEQVTVFTTRPDTLYGATFFVVAADAPLALDLVDDEHRDALLQYR
+EDVKALSDIERQATDRTKTGVFTGRYAINPLNGERLPVWAADYVLADYGTGAIMAVPAHD
+QRDLDFARTFDLPVRAVLDTGEEDPAVSGTATTGEGTLVNSGELNGLPKSEAIPAAVRIL
+EEKGTGEKFVNFRLRDWLLSRQRFWGTPIPIIHCEKCGEVPVPDDQLPVTLPTGLKGEAL
+APKGTSPLASVEEWVNVSCPSCGGAAKRDTDTMDTFVDSSWYFMRFVSPHFTEGPFDPEA
+VRNWMPVGQYVGGVEHAILHLLYSRFFTKVVKDMGLIEADEPFTALLNQGQVLNGGKAMS
+KSLGNGVDLGEQLDKYGVDAVRLTMVFASPPEDDVDWADVSPSGSAKFLARAWRLGQDVA
+SEPGVDFTSGDKKLRSVTHRTIADATELLDAGKFNVVIAKLMELVNATRKMIDSGAGASD
+PAVREAAEAVAVILSLFAPYTAEDLWNALGHPASVANAGWPAVDSSLLVEDTVTAIVQVK
+GKVRDRLEVPADITEDALRELALASEQVQKTLDGAGIRTIIVKAPKLVNIVPA
+>tr|A0A0P7HDN9|A0A0P7HDN9_9MICC
+MQDRAKATREAILAGAASIFEELGYGRASLSQVAVRAGVTKGALYFHFPSKEELARAVIA
+EQHAFITADNTAVLERGLPPLESMILICRRFAGNLLAEPIVRAGIRLTLEASSFDQDVRQ
+PYSDWVALMSGLASQAQRRGQLRDGLDPAGFGQFIVSSLTGVQIVSAVLTERADLLERVE
+DMWMILLPGVVTDGLKSQVPALARYSGAPLGQHS
+>tr|A0A0P7FP20|A0A0P7FP20_9MICC
+MASGGAAVSSTAMVSTPVSGPQLSAGNRRRIQPTLLLGLSLAVLLAAAFASVALGARPLS
+LETVWQALTSADPANGDHAVVLSRLPRTVAALLIGAALGLAGTALQGMTRNPLADPGIMG
+LNAGAAFAVVTAIYVFGVTSFTGYVWFALAGTALAALLVYAVASLGREGATPVKLALAGA
+ALTAGLTSLLSAVLVSSQQTLNTFRFWQVGTVSGRGWDVLVPLIPFLAVGAVILLASGRA
+LNNLSLGDDAARGLGQNVALSRGIMAVGVVLLCGAATAAAGPIAFLGLVIPHLVRGLAGP
+DYRWILVISAVLAPVLLLVSDVVGRLILPPGEVPVGIMTAVIGAPVFIAIIRRRKLAEL
+>tr|A0A0P7G6P4|A0A0P7G6P4_9MICC
+MSLPHASLPPARFSAQNRSRALQAEIMELILERDLKAGDALPTEAELAAALGIGRNTLRE
+ALKVLQALGVVEIRHGFGMFVAPANFDALADGLTFRGRLSLRHEGKEALQLVDVRQALEA
+GLIGEAMDLWTPEHLEEIEATVQEMEAAAADGKTFTEVDERFHYQLFEPLGNELLSNLMS
+VFWQVYRKIHLELGGDPLVNLQENAAVHRGILEAVKAGDKELASERLRRHFDGIRAQLAK
+LRDA
+>tr|A0A0P7HHV2|A0A0P7HHV2_9MICC
+MTISVAVSGASGYAGGEVLRLLAGHPGVEIGAITAHSNAGSRLGELQPHLHALADRVLVD
+TTVENLAGHDVVFLALPHGASAEIAAQLSEDTLVIDAGADHRLTDPAAWQKFYGSPHAGS
+WPYGLPELPGHREMLRGARRIAVPGCYPTSSLLALTPGFAAGLLEPDDVVIVAASGTSGA
+GKAAKPHLLGSEVMGGMSPYGVGGGHRHTPEIEQGLSAAAGEQVSISFTPTLAPMARGIL
+TTATAKVRPGVDAAALRQAWEAAYADEPFARVLPEGQWPATKMVVGSNYAALQLAYDPHA
+GRVIVSAVIDNLTKGTAGGAVQSMNIALGLEETTGLTLQGVAP
+>tr|A0A0P7GJ20|A0A0P7GJ20_9MICC
+MANSPSGDSMAERIVRVISAFDAERPAMPVAMLARRAGLPLSTAHRLAGELVSLGLLQRT
+TSGELRLGLRLWELASRSSSALDLRQVAMPFMEDIQAVIRQHTQLSVLQEDEVLFIERLS
+SRGSVSNFAKVAGRLPLHISSSGMVLMAHSPRHVQEEFLKRHRDAPRPFPAADVLRRQWA
+GIRREGCATLPGVVDPDTTGIAVPVFGPEGSAVAALGVVVPRGQENTAATVPALMTAARG
+ISRGLGTAASEAGPRNEGPAD
+>tr|A0A0P7GWD7|A0A0P7GWD7_9MICC
+MSDRNPKQTKAERQAVAREKARALREAQLKKERRNKLLTRWGIVAGIVAVIVIVAVIVIN
+SVRGDIPDAGPAPANGNINGGFTLTSTTSLEPADTGEVDVNNLPEATTTNEAGDTVPAGV
+EAAAPGEPVQIVEYVDINCVHCADFSATYADQVQTWLDAGEVTLEYRTVAFLDRNSPTNY
+SSRGANAAACVADTNPESYWDFMKAIFAQHAAGEVNNAALVDMAESVGATEAADCIENDG
+FRTYVKYADAVARAAEVGGTPTVYVNGAEADLNSFVETVQTAIDANNEEASS
+>tr|A0A0P7GJ60|A0A0P7GJ60_9MICC
+MISAYSGTTVRAAERPLLDAGAGSELMQLAAHGLYAAAARLLKERRGRIYGASTVVLAGA
+GNNGGDALYAAARLLRRGSSATAVLTASSAHEQGLEAFRRLGGRVLELSAENASETVRLC
+RSADLVLDGILGTGGRGGLRGPAAELAALLPARLRRGQSPAVVACDLPSGIDADTGQTPG
+KHLRADVTVTFGALKTGLAAGPGAEAAGRIELIDIGITEYLGAPEVQRLELQDIAALLAE
+PVPGDQKYSRGVLGIAAGSETYPGAAVLATGAALATGTGMVRYLGAEPVRRLINQAHPEA
+VCADSTVSLTHVQAWVAGPGAGTDETQRRRAVDAMASGLPCVIDADALSAVEPGLGPQVI
+LTPHAGEMTALLNRLGESADRAGIEADPLNWVRRTAALTGATVLLKGWATLVAAPGGPVY
+SQAEATPWLATAGSGDTLSGILGALLSTARTQSPEPGYYARLAAAAASIHGRAGALAASD
+GPVQPSQLPAAVRTVVAGLERWRPGSVEADIL
+>tr|A0A0N8HX27|A0A0N8HX27_9MICC
+MDLQLNGKTALVTGGTRGIGRAIVEAFATEGANVAFCARDAAEIADTEAALADSGVKVEG
+AILDVGDGDGVAAWVDDVAGRFGGLDAVVSNVSALAIPESPESWEASLRVDLMGTVRLMQ
+AAIPQVRRSESGSLLAISSVSGREVDFASGPYGTVKTALIGYMAGLAFQLADTGIRANTV
+SPGNTYFDGGVWQGLEANAPEMFGESLALNPTGRMGTPQEVADVVVFVSSPRASRMTGAN
+VLVDGGLSRGIQF
+>tr|A0A0N8HYY6|A0A0N8HYY6_9MICC
+MHGVTTAFDLSSSFKAYDVRGVVGETITPEIVKAVGAAFVDVLGLAGETVLVGGDMRQSS
+PEFIKDFASGATARGAYVLLLDLISTDELYYACGSLNAAGVTFTASHNPAQYNGIKMAKA
+GAIPISSETGLKEIQKAAERYLNDGVIDSVEKPGQISVRDVLGDYSAYLRDLVDLRGIRP
+LKVVVDAGNGMAGLTTPAVLGDSILPGLPLDIVPLYFELDGSFPNHPANPLEPENLRDLQ
+AAVVEHGADLGLAFDGDADRCFVIDELGAPVSPSAITALVARREIARAKAAGEDVPVIIH
+NLITSRAVPELVEACGGRAVRTRVGHSFIKALMASEGAVFGGEHSAHYYFRDFYNADTGM
+LAAMHVLAALGEQDLPLSDLAREYEPYFSSGEINSKLDDVQAAVDRVRGEYDRAGVTVDE
+LDGLTFTSDDGQWWFNLRASNTEPFLRLNAEAEDLSTMEMVRDRVLELVRK
+>tr|A0A0N8HZ14|A0A0N8HZ14_9MICC
+MAEAIDTFSLRGIAVPAFGPTVLYGTAIGAILPVVALTARDLGATVALAAAIVTLTGIGS
+LLTNVPATLVTTRFGEKWALVGAAAWCAAAMVLAASVPVLWVFAVAVFMVGMAGAVFGLA
+RQSYVTEAVPLHYRARALSTLGGSNRIGVFIGPFAAAGVMSFAGTPGAYWVGAVAALGAG
+LLSLTVPDLSVRGPGHGNWASRSEELEEAVDAVAAPTIRSILRSHSHVFGTVGIGVLLIA
+AVRATRQAVIPLWAQHLGIDPAQTALIYGISAGIDMLIFYPAGRVMDLRGRRAVAVPCML
+LMAAGLGLLPLTSSPLQLLLAALLIGFGNGIGSGIVMTLGADFSPQPGRPQFLGLWRLLS
+DIGILSGPGLLSLVTALISLSAGIAATAVMGLAGAAVLWRYVPKGRRTGP
+>tr|A0A0P7FNX7|A0A0P7FNX7_9MICC
+MPTAPAPQETADAAALRAEATTLLRALVGRDDAEFHEGQYEAIEALVRGGRRALVVQRTG
+WGKSAVYFVASLLLRARGAGPTLIVSPLLALMRDQVAAAARAGVRAAAINSANQLEWQDI
+SARLEADDVDVLLVSPERLNNPGFRENHLPELVRRSGLLVIDEAHCISDWGHDFRPDYRR
+IRHLIEQLPHSVPVLATTATANSRVVKDVEEQLAAGGEEVFTIRGALARDSLRLGVLRLP
+SPRSRLAWLLTHINELPGSGIIYALTVSAAEDTARLLQKAGHPVLAYTGRTDPADREQAE
+AALKNNEVKALVATSALGMGFDKPDLGFVVHLGAPSSPVAYYQQVGRAGRGTPNADVLLL
+PGTEDRDIWEYFATSSMPSEGPANAVLRELADGSVLSTGALETLVNLKRSPLELLLKVLA
+VDGAVERVTGGWRGTGRPWTYDRERYERIAAARVREQQAMLDYENTDGCRMEFLSRQLDD
+PAAAPCGRCDNCAGRWYSDDVATEAADTAGQALSRVGVDIDPRGMYPTGMDRLGVPVKGK
+IKPDAAVSTGRALARLTDLGWGGRLREIFGPGAVDGPVDQSLLNGCVQVLAQWGWTQRPV
+AVVSVPSRSRPQLVGSLAQGLSELGRIPYLGALQLPHGGPAGGPGGNSAFRLASVWEQFA
+VPAEGAAWFAANPGPVLLVDDFADSRWTLTEAGRTLRLAGAESVLPFVLALKA
+>tr|A0A0P7HJB7|A0A0P7HJB7_9MICC
+MSPNASPEYSVVSYGRELADAYLGSVQQAVVAAGARIVELENAEGDGYVASKLFVTYDGG
+LEALRLAVASAAAAALDGGAAQASSAVVPASLIQPGRKLLVMDVDSTLIKQEVIELLAAH
+AGKEEEVAAVTEAAMRGELDFAQSLHARVKTLAGLPESVIAEVGTRIELSDGAEALVKAF
+LSAGHAVAVVSGGFNQVLAPLAQRLELTCARANELGVENGVLTGKVAGQVVDRAVKAHSL
+RQWAAELGVREDQTIAVGDGANDLDMLAAAALGVAFNAKPAVQAAADAVLNLPSLDVVQH
+FVKL
+>tr|A0A0P7H3Z8|A0A0P7H3Z8_9MICC
+MWLPRTAVSVDARVSTTEQSLESQQQQLRQAGCYEIYSDHGRSGATMARPELEACLRALQ
+PGNTLVVTKLDRLGRTVRGLVELLDSLHERGVAFRSLTEGIDTTTPSGRLMFNIIASVAE
+MERELIRERTRAGLAQPSETGPETTRTFQRYTGRKPLDLGPKPLIIQMNKWENRSITNST
+DSD
+>tr|A0A0P7GAT1|A0A0P7GAT1_9MICC
+MIETALTRSSSLTKNQLPGWALWAILAASIVLGAALSALLGFSIATFAIFAAVLFVAGST
+IATRIVEGSRRATDRFATNLIYGAFILALVPLVSVIFTVLVRGIPGLSGDFLFTSMGGMT
+GTVDNNTVENGTPVLGGAYHAIMGTLLITLWATIISVPIGLLTAVYLVEYSKGGPLARAI
+TFFVDVMTGIPSIVAGLFAAAFFGLIFGPGTRTGFVAAVALSVLMIPVVVRSTEEMLKIV
+PNELREASYALGVRKWRTILKVVVPTAISGIASGVTLAIARVIGETAPLLVTAGFVNTIN
+LNVFAGWMASLPTFIYRQLMSPTSPTNTDPSTQRAWAAALLLILMVMLLNLGARLVARIF
+APKTGR
+>tr|A0A0P7GDX5|A0A0P7GDX5_9MICC
+MKLGPNLHRIGNDIVAAYLVETDDGITVIDAGLAGHWRDLQQELAALGRPLADIRGVVLT
+HGDTDHIGFAERLRRETGVPVYVHAADEARARGTKRYKPAPGSAGSMRPGPTARFLAYSV
+RKQGWRTTYLTDVVPVADGDVLDLPGSPRIIGLPGHSPGSVAIHVPEAKALFVGDALTTR
+NVLSGKAGLQPSPFTDDPAQALDVLDRLTQLSDVGWVLPGHGTPWNGNVSTLANEVRSRA
+>tr|A0A0P7GHP1|A0A0P7GHP1_9MICC
+MSKLPAGTLYRGREGQWSWVAHRITGVVIFFFLLVHVLDTSLVRVSPEAYNVVIGAYKNP
+IMGLGELGLVAAIVFHAFNGLRVILIDFWKKGPKYQRQMLWGVVGLWVVTMIGFSIRHLP
+IVFGGH
+>tr|A0A0P7GLI4|A0A0P7GLI4_9MICC
+MHVDMDAFYVSVELLRRPDLRGTPVIVGGLGGRSVVLSASYEARRFGVRSAMPMATARRM
+CPQAQILEPHQEVYRQVSARLMGIFESITPLVEPLSVDEAFLDVAGSMRRLGPPRQIGEL
+IRSRVSRELGITASVGIASSKFVAKIASTRSKPDGLLVVPKEETIAFLHALDVSALWGVG
+AKTRETLARVGINTVSDVAHTPPTVLQRLLGATGRHVYDLSWGRDSRPVTPVRVEKSIGA
+EETFARDVDEDEVLETELLRLAHRTAARMRAAGLQCRSVSLKLRYADFSTLTRSRTLSEP
+VDSAQLLYEAVRGLLGGLGVRPMSVRLIGLRAENLEPAGAAQQLTLDGRDDNWRSAEDAL
+DKINQRFGQAGIMPARLIGREKSRKPEGTG
+>tr|A0A0P7HM29|A0A0P7HM29_9MICC
+MESSPIRRRITWTIISILVIVYALFPVASIFATSFKLPSDLTSGTFLPTTWSTVNYEQIL
+VGDAQELFLSALRNSIGISLIATFIAVVLATLCAYAIARLDFPGKRLVLTTALGVSIFPV
+ISIVTPLFNLWRNIGLYDTWPGLIIPYLSLTLPISIWTLAAFFRQIPWELEQAAQVDGAT
+TWQAFRKAIVPLAAPGVFTTAIIAFFIAWNDFVYGISLTSTSAARPVPAALAFFTGASQF
+EAPTGAISAAAIIVTIPVVVLVLLFQRQIVSGLTQGAVKG
+>tr|A0A0P7GAN2|A0A0P7GAN2_9MICC
+MAADQPLSSAVIARTAARIADNEGLEAVSMRRVAGDLGVSAMALYRHVAGRQELLLLMAD
+AVKSYSLLPEGEHRWQDMLAHMAGSLWHTFTTHPWLLGIILSPRRVVNLADPADVERLLS
+SLSAAGLTEDEGFDCLLGVSAAVIGTVSVAAAADSTPAVPATPVSGPDGSKRESGNLQPH
+NPEPYPRAERFQHRSINDEVSRQSLDFLVANFIRGIEFSAQAPGPSREPVLRKEDHATEE
+>tr|A0A0P7FNS3|A0A0P7FNS3_9MICC
+MNVNRFAVIGGGIVGIAVARALALRGLGEVTVFEKEARLAAHQTGHNSGVVHAGLYYRPG
+SLKAQLCAEGRQRIRDYCLEKSLPYREVGKLVVAVDEADLPALVDIESRSLASGVPGLAR
+IDDPAKLREIEPHVAGVAAVHSPHTAVVDYAAITEAMAQDVRASGGTILLGQEVTGLRME
+GARVRVQTAVSEQVFDHVIACAGLQSDVVARLAGADPSPKILPFRGEYWELSPKRNHLVN
+GMIYPVPDPAFPFLGVHFTRGVYDDVHVGPNAVPALAREGYSWGKVSVRDTLESLRWPGA
+LPLAKRYWKMGLDSVGESLLKPVYFSRARRFIPELKPSDLTAKTAAGVRAQAWGRDGSLL
+DDFAVDQNGPVTLLRNAPSPAATSSLAIADYLIDNYLT
+>tr|A0A0P7GLN7|A0A0P7GLN7_9MICC
+MPSKAPKDGINESELRVGDPKTHAVGLPAVINSLRISFDQMGPLRSAKTLLNVNQKKGFD
+CPGCAWPEGDKRHAAEFCENGAKAVAEEATKRKVPPEFFAEHSVADMLEKDDYWLGQQGR
+LTHPMVLEAGDTHYRPISWDAAYSIIVEELAAMDSPDEAVFYTSGRTSNEAAFLYQLMVR
+GLGTNNLPDCSNMCHESSGSALTETLGIGKGTVSLDDVQNSDLIIVAGQNPGTNHPRMLT
+ALERAKKNGATIIAVNPLPEAGLLRFDNPQTASGLLGTKFGGGTQLADDFLQIRLGGDQA
+LFQGLGKYLLEQEEKHGNVFDHAFISAYTDGLDAYLAELRKTSWDEICLASGLTRPQIET
+TGARLIASKSTVVCWAMGLTQHKHSVPMLRDIVNVLLLQGNVGRPGAGVCPVRGHSNVQG
+DRTMGIFERMPEPFHDRLDAEFGFASPRRHGFDTVNAIRAMRDSKVRVFMAMGGNFIRAT
+PDSAVTEDALRNTALTVQVSTKLNKSHLVHGRRALILPALGRTDRDTQAGGDQRVTVEDS
+MSAVHASQGRLDPPGPQVRSEVAIVCELSERLFTGDNAPFRANAPQLDWIGARADYSLIR
+RHIENVIPGFEGFEAKIKHGGGGFVLPNGPRDGRKFATETGKARFTANELAYPKVPEGRL
+ILQTLRAHDQYNTTIYAKDDRYRGIYGGRRVVFVNKQDLAAAGLKDGDMVDMVSEYEDGV
+ERRAESFRAVAYNTPVGCAAAYYPEANVLVPLDSVAEVSGTPTSKSVIIRLEAASPATAA
+AAH
+>tr|A0A0P7H5B3|A0A0P7H5B3_9MICC
+MQNLLVTGGAGFIGSNFVHYALANTDVSITVLDKLTYAGNMASLQGLPEERFTFVQGDIC
+DADLVDRLVGETDVVVHYAAESHNDNSLHDPRPFLDTNIIGTYTLIEAARKHGRRFHHIS
+TDEVYGDLELDAPERFTESTPYNPSSPYSSTKAGSDLLVRAWVRSFGLQATISNCSNNYG
+PYQHVEKFIPRQITNVIDGIRPKLYGAGENVRDWIHANDHSSAVLTIIERGEIGQTYLIG
+ADGEKNNKEVVELILKHMGQPADAYDQVIDRPGHDLRYAIDSTRLRTELGWEPKFSNFEA
+GIEDTIAWYRENEAWWRPQKAETEAKYKVQGQ
+>tr|A0A0N8HZ89|A0A0N8HZ89_9MICC
+MFKTPLRQHRQATTWALGLALLVLLAFASFASGSRTIALADTWAALTAFDPSRDSHLLVR
+ELRLPRTFLAITVGAALGLAGALMQALTRNPLSEPGLLGVNAGAAFAVAIGLGFLNMRSP
+YQYMWLGFAGAAATSVLVYLLGRAHDAGTNPVRLVLAGAGLSVMLGAGTKIILLGGPDET
+ITAYAAWASGSLQGRGYDVLPWVFGACLIAVLAALPLSQSLDSLALGADLGRTLGVRTRS
+IWVLGAVAILVLAGAATAAAGPIAFLGLAAPHVARLVTGPSHRRLLPLSMLFGALLLLFA
+DVAGRLVAAPAEIGAGVMSALVGAPFFIALARRRKLAKL
+>tr|A0A0P7GDQ5|A0A0P7GDQ5_9MICC
+MTRVLLESLEKRYPGAAPSVSDLDLTIQDGEFFTLLGPSGCGKSTTLRMVAGFIAPTRGR
+ILFNDRDVTNTAPNRRDTGMVFQNYALFPHMSVRANVGYGLSVRRTPRAEKNKRVDRALQ
+QVGLERYADRRIDMLSGGQQQRVALARALVIQPSVLLLDEPLSNLDAKLREETRAEIRGT
+QKAAGITSIYVTHDQAEAMAMSDRVAILESGRLHQVAPPREVYHRPATSFVARFIGRSNV
+LPCTVLAIGSDTVDVRLEDGSLLRAPRVAGTPSWLAAVGDQAAVSLRPEAFTMSVQHGAP
+SLPEAGELEGTVKTAEFTGAVNVYEVDWNGTELVVSVPDAEDRAQPGDRVILAPHPARVW
+LVAP
+>tr|A0A0P7G6G2|A0A0P7G6G2_9MICC
+MASSSLPPVPPAPAPKPTIFSGILHACRGGLIGLVELVPGVSGGTVALVLGVFDRLIASA
+NHFISGAVHLLFRRDRAGAARKLAPVEWNLILPLVLGMFLALVVLSRPLHAFVENYEVIA
+SALFFGMVSASLVVPISMARAAGPTTPAGRFTGPFLVLLTAAAAFMLLGIPALQIEEPSW
+WILILSGAIAVCALALPGLSGSFLLLTFGMYEPTLAAVSNRDLGYLALFATGAVLGLASF
+VRLLGYLLRVRRRAVLLVATGLILGSLRALWPWQENSALLAPGDAWMGPLAACLSGAGVV
+LILWFGQTRAAAAAYKSSS
+>tr|A0A0P7G6N6|A0A0P7G6N6_9MICC
+MRLEGWHIVIIVVLAILLFGAPKLPGLARSVGQSLRIFKSEVRQLKDEDAPAKPATDPVT
+GAVIPPVPPAPAAAATTHREGTYGSNEAAKEP
+>tr|A0A0P7GCP1|A0A0P7GCP1_9MICC
+MSGSGRAARAETERRLETARRGAELLDRKQQILRIAISNRAEQAEESRRRFEAAAARAAP
+WLGRSLALDGLGRIHEAVPDSFAEAEIRWGGAMGIAYPEGASVKLPEQIPSSGSSALLYA
+AAAHREALAAAVEHAADARALLLVSRELAATRTRQRAVEHRWIPRLEAELDRILRSLAEQ
+ELEESLRLRWAAGAV
+>tr|A0A0P7GUH7|A0A0P7GUH7_9MICC
+MRLEGWHIVIIIVIAILLFGAPKLPGLARSVGQSLRIFKSEVRQMKDENTTSGADGDPVE
+GRVVNNPGTSAPHQGPAAGHTPPPGPNTGSGNPPANP
+>tr|A0A0P7HKP1|A0A0P7HKP1_9MICC
+MSRRILVLAHTGRKAAMAAAQEVCTQLNAAGLVPVMRRKDLEDVQGEYGQLTVPTEILDE
+DVQLTDVDLGMVLGGDGTILRAAELVRDTEVPLLGVNLGHVGFLAESEREDLEKTVGWVV
+DRAYTVEERLTIDVKVWLDSTLLAHTWALNEAAVEKADRQRMLEVVMEVDGRPISSFGCD
+GVVMATPTGSTAYAFSAGGPVVWPEVEALLITPISAHAVFSRPLVVAPDSILAVEILTRN
+AANGLLWCDGRRSLDLPPGARVEVTRSDVPVRLARTHQTPFSERLVRKFQLPTQGWRGPV
+AHPADAADSGGVIP
+>tr|A0A0N8HY63|A0A0N8HY63_9MICC
+MQDNQGRGLALGGLIVGIVALLLCWVPVVGLVLALVGLGLAIAALVIAVRRRTSAKGLAI
+AGTVVSGVALIAAIVVAAFLSAVITSISDSIESASPSASGTNPATSTPSTGTGSASATAT
+AAELLPIGTAAEVGEYTVTVSSVQLDATAAILGFSELNQPPDGQYVLVTLDVVYNGNEEG
+DPWLDLTANFVGSDSRQYDESTCSAVLDLEGTSVPTLENGGAAQYEVCMDVPAAALPGQR
+VLVEETFGLTRPLEASWRTE
+>tr|A0A0N8HZ66|A0A0N8HZ66_9MICC
+MAQGTVKWFNAEKGFGFITPDDSDGDVFVHYSEIQSNGFKTLDENQRVQFEIGQGAKGPQ
+ATGVTAL
+>tr|A0A0P7HKM1|A0A0P7HKM1_9MICC
+MGTLGYAETYAASIKDPEAFWLKAAELVDWDVRPRRALDDSGAPLYRWFPDGALNTSYNA
+LDRHVLAGRGADTALIYDSAMLGLKRTYSFSELLAEVESFAGVLHAQGIGAGDRVVIYLP
+MIPEAVIAMLACARLGAVHSVVFGGFAAAELAARIDDARPDVVVTASGGLEPKRRVEYLP
+NVAQALEAATHPVRAVIVASREGFEHGAAEFDGAGGTAWLDWAKLAASAQPQGPVSVEAT
+DPLYILYTSGTTGAPKGVVRDNGSHAVALAWSMANIYDVAPGQVMWTASDVGWVVGHSYI
+VYGPLIAGAATVLYEGKPVGTPDAGAFWRVAAEHGVDVLFTAPTALRAIRRADPDAALAG
+EHDLSGLRTLFAAGERLDPETYRWASDALNIPVVDHWWQTETGWAICANPMGLDPQPAKA
+GSPTFPVPGFRVRIVDGTGAEVPSGSEGNIVLDLPLPPGTLATLWGSDERYRASYLEAFE
+GSYATGDSGYVDEDGYVFVMGRTDDVINVSGHRLSTGAIEQVVAAHPAVAECAVIGVRDT
+LKGQRPCGYVVLKAGSEATETDIQAALADLVRTRIGPVADFREVRVVEALPKTRSGKILR
+KTMRQIADGDDYTVPSTIEDRSVLDDLIPLLRPGQ
+>tr|A0A0P7GAM3|A0A0P7GAM3_9MICC
+MSRGKHHPPRPKPANSEDFLIAADLKKERGWTETQIRTFLPEPDRTARNPFSRKAAPMKL
+YSRERVEAVEATEDFRRAREASRKRQLAARERALAKKKEAVAAARALELRIDPEPWDEVQ
+QLALDHYNSRLRRNQSPAGPRTSQARRDRMTVNYLRHRQTSYEEELKEFKGVVGVGEAYL
+IVRNRILDLIAQTYPPLQAECERQKFDAPELPDGVVL
+>tr|A0A0P7HHT3|A0A0P7HHT3_9MICC
+MSTTSPAALSASGLPSGLAGLAFAKGHGTGNDFVLVADPDGLRDYDAADVAAVCDRHNGI
+GADGFIRAVRSVHVPEGQALLQSNPEAQWFMDYRNGDGSVSEMCGNGVRVFVHFLIEEGL
+AELAEGEVLAIGTRAGLKTVTRTGTGYAVDMGPWEFIFPDHAAAKAMDTVVNAGGLEVPR
+PGLSVSMGNPHTVVALAELSELAATDLVNAPSVEPVPEDGTNVEFVVPAEPLVVDGVGQL
+TMRVHERGVGETLSCGTGACAAAVATRFWAGAGAPNAWSVAVPGGVLGIRFLTGPDGREH
+VELSGPAVLVARGTLL
+>tr|A0A0P7HLA6|A0A0P7HLA6_9MICC
+MDLGVPARGTAWRSPGEYWEGLGRAAAQLPAPAAVLDLDALRWNTQDMVRRAGGVPLRVA
+SKSIRVRAVLEALLRVPGFAGVFAFTLPEALWLADRCSDVVVGYPSVDRRALARLLNDDA
+LAARITLMIDDASQLDLIDSIVPADRRLPLRVCLDADASWQAPLLGFIGTRRSPLHSLQD
+ALMLGRHIAARPGFRLVGLMMYEGQVAGVGDNVPGAGPMNRVMRWVQRRSMAELTERRGA
+IVHGLREATDLEFVNGGGTGSIEATAADPAVTEITAGSGLFAGHLFDNYRAFSPAPAAAV
+ALDVVRRPAPGIATALGGGWIASGPPGHSREPQVAWPPGLRLLPREGAGEVQTPLAGAAA
+AALRPGDRVWLRHAKSGELSERVNEFHVVNGGAVTATVPTYRGEGKAFL
+>tr|A0A0N8HY09|A0A0N8HY09_9MICC
+MNELEELVSDWLTLPDVAEQLDVTISKVHSLLEERALLAVRLGDRKIRSVPAEFINDGAI
+LDSLKGTISVLTDAGFSDEEMLRWLFTADETLPGRPVDALKEGRKTEIRRRAQALAW
+>tr|A0A0N8HZ61|A0A0N8HZ61_9MICC
+MSDLAGIFWLVVLLLGNAFFVGAEFAVMSARRSQIEPLADAGSKRAKTTLWAMEHVSLML
+ACAQLGITVCSLLILYVAEPAIHHLLAAPLEAVGVPAEVANLAGFLAALLFVTFLHVTIG
+EMVPKNISVSVADRAALALAPPLVMVSRVVRPITASLNWVANHSLRLVGVTPKDEVTSSF
+TLQEVQSIVQESTRHGLVADDSGVISGALEFSGQTAGEVMVPLDELVTLRTDCTPAEFEK
+AVGRTGFSRFVLMDEAGNFTGYMHLKDVMAIPEEAYERPITENKVRTLANLRLADGIEDA
+LAVMQRTGSHVARVLGEDSQTRGVLFLEDIIEQLVGEIRDATQAQGLRRSGESFTG
+>tr|A0A0P7G6R8|A0A0P7G6R8_9MICC
+MDSEYTIRQEQPADYAEVESLTREAFWNVYRPGCVEHYLVHSYRSLPEFVPELSCVVKLD
+GRIAAHIMYSRAEVALDGGGSLPVLVLGPVSVRPELQRRGLGGKLIRHTLEAAAERGFGA
+VVLSGSPEYYSRFGFTDAQSLGIRYAGVPEDVPTPFFMVRELRAGYLAGVTGSYADPPGY
+AVREEDVEAFDAGFPPKEKLKLPGQLQ
+>tr|A0A0P7GCY1|A0A0P7GCY1_9MICC
+MFLGTHSPRLDEKGRLILPAKFRDELADGLVLTRGQERCIYVFSQKEFEKVHEQMRQAPL
+SSRQARDYIRVFLSGASDEVPDKQGRVTIPQALRSYAGLGRELAVIGAGTRAEIWDATAW
+QEYLEEQESAFSETDEDTMPGIF
+>tr|A0A0P7G6W5|A0A0P7G6W5_9MICC
+MATFQTINAGGMPITVQKDLRVPMRDGVELAADAYQGAADKPRPALVALSPYGKELQAMA
+LTMPPQRRPSPMWDGCIEAGDIARIVKEDYVHVIGDLRGSGDSGGEHIGNYNAGGVSLGQ
+DAYDFIEWVAAQPWCDGNVGMVGISYFGSMQVLAAAERPPHLKAIFVSGGHYDFYETTYH
+GGVMWFMPRAAREGRGGDSGWAFTDRVKSRMVEKHSPEELKKLVAERLTDPDIAAWPNLV
+HVLNYPTNHEAWFDIVMNDVDGEWYEERNPITLAPNIDIPVWLQLDQGRGWTLDGTIELF
+NALKGPKKLDIGPYPPMQSRPFVEEHDKMFRWYDYWIKGIDNGVMDEPAVSVFVEGSREV
+VTADAWPPKDVEYKPLYLRTRRKLSAEPELMGTEYAAPDGFYQAPLTVTDKVEILSWSTD
+VFESPTEMIGTGAAHLFVEIDQPDTNFILRLWDAAPNGKRQLITTGYLKASHRELDEERT
+SEGNPYHPHTRAVPVEPGTVQEYVVRLYPFANTFLPGHKLVAELSNNEPLADEHNALLPP
+DAFHLPVGRPVTHKVYRDAGHPSRLLLPFTVS
+>tr|A0A0P7HLY8|A0A0P7HLY8_9MICC
+MSANTGTEPSLKKVLGRIDVLALGFGAMIGFGWVVLTGDWLSSAGTGGAILAMLTGGAIM
+AIVGLTYAELCAAMPKAGGEHNYILRAMGPRTSFIGSWAIIGGYVTIVAFEAVALPRTVQ
+YIFPDLSQIPLWTVAGFEVHLTWALVGAVAAVVITWINIRGVKEAGVVQTFVVLFLLAIG
+LVMIAGSFTGGSASNMEPWFTGGMNGFFAVLVVVPFLFIGFDVIPQSAEEVNIPARQIGR
+LVVVSVILATIWYVMVILTTSSAMPASALAGTDIATADAVGAMFNSDFMAKILIAGGIAG
+ILTSWNSLLMGASRLMYSLARSGMLPAWFGRLHPKYHTPHNALLFIGGLSVLAPFGGAEM
+LGWLVDSGAPSIVLAYTLVAISFLILRRREPLMERPLRVGGKGKGGIVIGIAAAILGTAL
+FSLYMPGMPAALGVQPWLLFGVWWIIGLAMFFRVPGGIKAGPEAEDQVLAKLRARAAARS
+>tr|A0A0N8HZ77|A0A0N8HZ77_9MICC
+MRPADPASAAAWDVAATVCDPEIPVLTIEDLGVLRAVQVQQDNSVRVAITPTYSGCPAMD
+AIRDDVTAALVAAGYGPVRVDLVLAPAWTTDWMSESGKTKLNEYGIAPPTGRAAAGPVRL
+GLSVKCPQCSSLNTREMTRFGSTSCKALYVCRDCQEPFDYFKVL
+>tr|A0A0P7H8K0|A0A0P7H8K0_9MICC
+MTSSAPPASTLHPATARPLVSHARYRQEPYVRCLLLEVDGKAVAWTRTQVLVHWIDDDGR
+AHNRWVPASAVTRISRDSSAWQDPYDDFGFYYPAQSPLSAPVR
+>tr|A0A0N8HXR2|A0A0N8HXR2_9MICC
+MPTTVHDFDWPDRVVVGTVGVPGQRTFYLQARAGKQLISIAMEKLQADQLAEKIDEILDQ
+LMTVDGNPFHVPANTPLELVDNDDLDEVEEQFRAGVMSLGWDPTTAQVVIEAYPIEEVDE
+DDDGLVEDEDDADAAEVLRVRMPVGTARAFAKRTREVVGAGRPICVICGQPIDDDGHICA
+LPEN
+>tr|A0A0P7FFR6|A0A0P7FFR6_9MICC
+MASVIVGYVPAPEGAAALSHARREAKLQEDRLLIVNVRTTGRGLGHGHSHGDDATTELEL
+IAAELRGSGQDFEILHPEGDYDPADEILRAAEHMDGRLIVVGLRHRTPVGKLLLGSTAQR
+VLIEAPCPVLCVKAGQ
+>tr|A0A0P7GBT9|A0A0P7GBT9_9MICC
+MNSTTDSMGGTATADGGAAPVPAVHAASVSRIFGAGRSPVQALRDVSLSVAAGEFVSLIG
+PSGCGKSTLMRLIADLDAPSSGTLTVFGKSARQARLDQDYGIAFQQAGLLPWRTVRGNIE
+LPLQTHGAAPAARRARSDELLEMVGLSDFGEHYPDQLSGGMQQRVAIARSLAESPKLLLM
+DEPFGALDEMTREKMQNELVRICAETGCAVVFVTHSIPEAVFLSDRVVVMSPRPGEIRDI
+VDITLGSAGARGAGLREEASFYEAIRTVREALHGAEPAAVRGAETR
+>tr|A0A0P7G4P4|A0A0P7G4P4_9MICC
+MDNGINNTPDGAAEEAAGTPAGETRPSSPEPATALEQAIVAGQSGTISNQDVITAIWNSE
+LLSVGRLTVEDDPASFQALVLQSPEGAAPVAATFTDAQRIPQRIRDTAPIMVKASGEATL
+RSIAPGYGLAINPGNSLGLELGPEGVEAVVAAFGGSAAGTDSSNE
+>tr|A0A0P7GIN6|A0A0P7GIN6_9MICC
+MTDTLFWRPGPQPREAEVSSAALQPDDSVVLVRPAAQQLQDEVARIAVAAGVDLVLAETL
+AEAEQGRPGIVLVDRLGLRGTGGAGLFSRRGPETVCVGYASDQPWAQAAQAGADRVVVLP
+EGGAWLAEYLARSRGPAGRVIGVAGTFGGSGGSTLACLLAQEAASAGNTVLLADGDPAGA
+GLEHRLGAEFTSGLRWRDLADVRGTVNPQQLASALPGIGSFSLLAHPAGEAPPGRLGLDV
+LPTVLQAARGSYGLTILDLGTSPAPGSPALEQCDGVLAVVAGQPRRLLSARSWCASLGER
+IPPVWAVVRGPLAEGLDEVRVAELLDLPLAGYLPWTRSLNSAQDDGQLLRVRRRRLQRAL
+AGILAALDPLSAP
+>tr|A0A0P7GIM3|A0A0P7GIM3_9MICC
+MLDTTGLQGWAEPETTQAGADAVKSAGAAFRSAVADQAAAWSALSGCYSAPEREDVLAVF
+TNITPHAELVGSASEEAAAALGNFAEHVAALKPLRQQLLERAGSFGPAACTPEDPDGSMQ
+ELSRLVLQSEIDGLARRYQEAEETCAAALNSVTGHDPGWLGAVAGPNIGLVAAAADNVMG
+VHTFQRVTVVNVREVPMPVLERRFTPLLGSYDLLTGPEQQGHRWLRQNGQWISVHSPLHP
+DAGITRRQWFTQEVYRTVREWRPEVNRTLYNQSGWYRTRVDASPGRWHVPDPQTPRWAET
+PNSLKAVKIGGGALTLAMAGITFADNRAENHNQLLRENPDMSAADREFRANEMAAVQTGT
+SVVIDVGAGAAGAAIGTMVGGPVGTIVGFGIGMGISWLTDAGSDGNSFKDKASDIAVDAY
+DKTKDLISDGFEAAGDAWDRLWGK
+>tr|A0A0P7G440|A0A0P7G440_9MICC
+MQEKSSRKRRFALAAAAGVLLIGGAAGVAAATGVFDTEAPGAQQSTTPTQSPTPSEPAVP
+VAFTAEPADNAAEVNPASTPVLKVQNGTIESVSLAPKSGGGDVAGELSANDSEWTASEPL
+EFNTEYTFAFTLADTNGNTTKGSQTFHTVTPPNEANAFMAPMDKSVVGVGHPIEINFSEP
+VLNKPAVEAAITVTSTSAQTGAFYWISDTKARYRPETFWEPNSTVTVDMKLFGVDFGNSM
+IGNFNETRTFQVHNSRVAVVDNLTKTMQVFIDGQLTRSFPITLGDAEWPSPSGYQVVMSQ
+HETLPFRAESIGLKPGDPAYYEPFDASWASRLTNSGVFVHQALPGALGALGVINVSHGCI
+GMSPEGAKYFYDTFEPGDLVQVLNTEVGPAAVWDGYGDWNMPWAEYSTQPKA
+>tr|A0A0P7HGY6|A0A0P7HGY6_9MICC
+MADLLKELADTVAAAQESGPLQPVTVIAPSHSAALDVAHYLGRVSNGGRGSAGVRLLTLR
+DLADEIAAARGQLARRVPLPGVVREGAITAVLTEAPGLFSEVAGQPATARAVAETSAVLD
+SVCPADIDRLPPLVAEVARIHRKAAAALTSRWYTDHDLFTAAAAALDSPQILKRLGTVLA
+VQPAADRDPSAAAFRTSLVQHAGLIQFTAAAPPLPGQMVLSASDADDEARAVVRLVADKL
+AAGVPGHRIGVFYSAADPYRALLAQRLHEAGIEFVGTGSHGLADTSLGRGVTRLLSLDPA
+APDLRIILDVMAQGSLHWQNGSLPSSAACERLHAHPPAEAEENDDDSELSGYEVQRQQDY
+ASFMEFAAVLGERLTEVFSAAGWADAADALTRFVAEFFAPRSQAERPEVAKAGEDLLQVI
+RELELLQGIAPAPTPAAVRSTMERGISSHHFWHGSSGTGVVLGSYDDGVGRDLDVSFILG
+AADGLAPARIRENPLLPDSIGELLEAPLPTIHERTAALKEQFRRLLATGTERTILFPRGS
+LRSGGTYSPSRWLDGAEPSHLPSFAHGLTQGAPTGRPATAQEWRVRTLLANDAVDDAVLK
+SSLEARSHRRDGTFSRFNGDLSGVAGQVVDPQKPISPTHLEDWVISPLTYLLRRVLRAEL
+FEDVTLEVQISKMQRGNLMHQVLEDYVRGLALGTHPVSSERLLKLAEDAFAATANPAWLK
+HTWERDQSRIRADLLKSHVTDDRERGNGWQHVAVEAEFGGSAGDPPVELKLSDGSTVLFR
+GKVDRVDRHSDGRVRVIDYKSGKSDKYKDLSPDNPTAGGTRFQLPVYGLFARRFQQDTGV
+EVLAEYRFLSSAAKKPTVGYAVGPDVVATLREDVGLIMNAMRAGIFPPRPESDRYTNHTT
+LMGAAGVRHIWEQLKSDPALSDYSRFFQEEK
+>tr|A0A0P7GVL3|A0A0P7GVL3_9MICC
+MAGAMRRTMIYLGLADGDELYEDEQKPVREAPARDEERTQDNERSDREPAVTSAPERKTA
+VEEYRAPVTPIKRAPSSAKEDVAGLRQITTVHPRSYNDAKIIGESFRDGIPVIMNVTDMG
+EADAKRLVDFSAGLVFGLRGTIERVTNKVFLLSPAYVEVLGDDKKVSESQSTFFNQS
+>tr|A0A0P7GIZ5|A0A0P7GIZ5_9MICC
+MGAGVRLSVDTGGIVASVETGTDARPGDLVLNGIVFPAASNAHSHAFHRALRGRTHLGGA
+GSFWTWRQEMYRAAGALTPALYEELATAVFAEMVTAGYTSVAEFHYVHHRLDGTPYAGHA
+MELALARAAQSAGIRLTLLDTCYLSGGFGEPLSAEQARFSDGSADAWLRRLTDLRHAFEA
+EFDPAYVSVGAALHSVRAVPAEALQTIADGLDPELPLHVHVSEQPAENQDCLEATGLTPV
+QLLHRHGLLGPRLAAVHATHLAPEDIALLGDAGATVVMCPSTEADLADGIGPAAALSEAG
+SRIALGSDQHAVLDPWLEMRALEHGERLSSGVRGRFSPAALHASLSDGGAAAQGRRAPGF
+APGRVCDLMAVDPHTVRTAGSDPAQLALTATAQDVTAVVIGGAPAADRGRHLRLGDPGPL
+LAAAIVNLDLAGSAPAAEPVKEGRR
+>tr|A0A0N8HY59|A0A0N8HY59_9MICC
+MNRNQFLQPGSAYAPSGSEPRPGRALAVGALSVALAGLVSCWIPFLNVFAFATALVAVGL
+AVAALVKGGTHPRAPRVLSVVSIALAVLSVVLAWAVNSWVINAWNNADGSPKSLQESAPW
+APDANGRPGDYSYDLPETMLEDIYAQPVAAAGETARVGIYAVTLTEVERDATARVQQHDP
+SAGTPRHQYVLLEFGVHHDGEGATELSADMLPEFIGADGRWYSHLNCSANLAGPGRPLLA
+PGETGTYQTCFDVPPEAFGADSRVSLRTRSTLETVYWQLP
+>tr|A0A0P7FEY2|A0A0P7FEY2_9MICC
+MDNKSKDMTIEQVGAELAASERNAVLLAELHDLQGKLDTAAQIIGSQEAVHDADLALLRV
+ENQMLREESRAFMGTLAALRKSAGNADHKPILSLSKFGKSPNKNVSSLRVAGIMDEFSGT
+AFGKACELLRFSLADWESELERFKPDVLLVESAWKGNLGQWTDKVHRVSPDLLSLIEWFK
+NAGLPTVFWNKEDPVHYGSFISTASLFDYVFTTDLDSVERYKSMLNHEHVYLMPFFCEPL
+LHSPVQVEKRLPAASFAGAYYARYPERQRDFDSIMSGVASLGDVAIFDRNFGSDDPAFSY
+PEKYRAMIKGGLPYADIDRSYKGYDFGINLNSVKESQTMFARRVFDLMLCNTHVVSNYSR
+GLRLMFGDLVISSDNSGTIEKGVQRLVGETGSVRENPFAAYVRHLALRKVLTEHTTTSRL
+EYMARKVWPDGPQRDLGDVTVIGLASSVTEVKRLISQFDDQVWERKELVVLTPADTDLRS
+CRKSKHIRYISVGAAELSIDEISKTDFTAFWTPDGSYGPNYLADALYLMQLGVSCVSRDG
+SDRADPLGLKKAFTDISSSHLISSVLRTDEFGHVIVDIEELSRQRIVAGSILAVPSFDYA
+EPGQQLFDTSSWDKNISVGISIDSLLQAAENVPVHGRVLDVSVGIVAEELLAEFPCREVT
+ESVSLKHSANGVMIQSSMDSDKHAYLYAKRPLEIERFSAADARLTINALVGVGAMSSVVV
+LFLDENGTRIGSKILPVNINNEIEVPPTARKVHLGLRVQGSGSMEIHGFSFERMDPAQRA
+TPVKVLGRHLVLTNVYPSHDDLYRNGFVHSRVRSYQAAGIEPVIFCLNSRGTRTSYEFEG
+VDVIVGDDSDLAAAIACNEFAAILVHFLDESMWKVLQAKIPQVPVIVWVHGAEIQPWHRR
+DFNYENDEQRAEAQVISARRMLFWRTVFSSLHPHLHFVFVSEYFAAEVMEDIGIVLPERA
+YSVIHNVIDTDIFDYHPKDKDLRFRLLSIRPFASRKYANDLTVEAIRILREHPLFEMAEF
+TIIGDGPLFESVLAPLKELGNVSIERGFLSQDSIASVHKEHGIFLTPTRMDSQGVSRDEA
+MSSGLVPVTNAVTAIPEFVDESSGILAPGEDAEAMAIGIMGLWDDPEKFMRMSRQAAERV
+RRQSGFDRTIGAEIRLINDFNPEGPVR
+>tr|A0A0P7GM56|A0A0P7GM56_9MICC
+MDSPDCDLARLERTYAQFPVINAVVSGWRRNYRRYVRPVLAAKGGGTVLDIGAGGGDLAR
+ALARWARRDGLAVQVTGIDPDERAHAYASRRPVPGLSFRAALSSDLVAEGTVFDVVLSNH
+VLHHLDDAAFRGLLADSEKLAGSLALHSDIERSRWGYALFSAGTLPFFHGSFIREDGLTS
+IRRSYTAGELAAVAPAGWETRQQRPWQNLLLYRSGR
+>tr|A0A0N8HXK7|A0A0N8HXK7_9MICC
+MALGGNPVFNGKNFRSQTRGGAPTVPAGGPFAGQDPMSPQDLQNLYSAPAAGPRETGRMT
+YDDVIMKTLGCLAVVLLGAAIPVFVLPGAAGLLMIVGALGGFVLGLVNSFKREPVPALIL
+GYAVLEGMFLGALTQILDALYPGIGLQAVVGTLSVFAVTLLLFKSGKVRATPKAMRFFMI
+ALIGYAVFSLVNVGLMLFGVVDDPWGVRGFQIAGIPLGVIIGLLAVGLAAFSLIMDFTSI
+EQGVKAGAPQRYSWTAAFGLTVTLVWLYVEIIRILAILRGDD
+>tr|A0A0N8HXV9|A0A0N8HXV9_9MICC
+MSATSVTGTYEPKTKLGRITNFVDTRVSGSMMVKEFGRKVFPDHWSFMFGEVALYSFVIL
+LLSGTFLTFFFDPSMAETHYEGSYVPLKGVEMSVAYASSLDISFDVRGGLFMRQVHHWSA
+LLFVASVSVHMLRVFFTGAFRKPRELNWVVGGVLLILALAAGFTGYSLPDDLLSGNGLRI
+IDGVIKAVPVVGTYISFFLFGGEFPGTAVIGRLYVLHILLVPALILLMIAIHLFMVVIHK
+HTQWRGPGRTNNNVVGYPVGPVYAAKAGGFFFIVFGIIAFISAVFTINPIWNYGPYDPSP
+VSAGTQPDWYIGWVDGALRLMPGWLFGFPFEWNIPFPWGVNTLSLNVLLPALVPAGIVFT
+LLFTWPWIEAWVTKDKRIHNLLDRPRNAPTRTGIGVAGVIFYCVMWAAASSDLIATHFLV
+SLNDVTYWLRFLFFFGPVIGFIVARRIALALQRKDREIVLHGVESGRIVRLPHGEYIEVH
+EPLDEFKRYKLVAFESPEVTPAQPDAKGKISRSEKRRGALSRFFFEDRVAPVTPAELEAA
+HHHEAPAEVEASEVDDAPASIEKH
+>tr|A0A0P7FXD9|A0A0P7FXD9_9MICC
+MGSEHYFSSQPATPEVRRPLSVTLAGREVTLATSGGIFSPDGVDKGTQVLLSGIPDPAAE
+GNLLDIGCGWGPIALTMALKSPAAQVYAVDVNERSLGLTRDNAATLGLSNVHASLPADVD
+PSLRFETIWSNPPIRVGKDELHALLLLWLPRLAPDGTAWLVVQKNLGSDSLQRWLAENLG
+ADFSVSRYSTAKSFRIIKVQRSA
+>tr|A0A0P7G4A8|A0A0P7G4A8_9MICC
+MKIRRQVLAIDAPDLNVESTFWASMLGGTVVETDYDWHSIRVDGEKVLAIQLAPDHIRPQ
+WPDGQPQQMHLDLYVEDLDSAHAEALALGAELLQAAPDTTVPNGFQVYADPAGHPFCLCW
+GEG
+>tr|A0A0P7GBP9|A0A0P7GBP9_9MICC
+MNFHTRKWVRPEDLNANGTLFGGSLLRWIDEEATIYAILQMGNGRVVTKLMSEINFVSSA
+QQGDLIEMGLCATKFGNTSLTMRAEVRNMITRSSILTIERIVFVNLDENGRPAPHGYTTV
+TYDRDRLPTHHLPAFPPQTQPQL
+>tr|A0A0P7HLX8|A0A0P7HLX8_9MICC
+MTTQTSTTSQAARDAVAKVSTGVFIDGQWSEAASGARFDVVNPATEEVIATVADGGPEDA
+QRAIETAGRVQKEWAATAPRERSEILRRAYDLIMARQDELALIMTTEMGKPLAEAKGEVA
+YAAEFFRWFSEEAVRIGGDFSSTGDGKTRILVSKEPVGPCVLVTPWNFPLAMGTRKIGPA
+IAAGCTMVFKPANLTPLSSLALVDILVEAGLPAGVLNVVCTSKASSVVSPWMSSGIARKV
+SFTGSTAVGVRLLEQAAEHVMRSSMELGGNAPFIVFEDADLDRAVDGAVAAKMRNMGEAC
+TAANRLLVQRSVADEFARRLAARLGALSVGDGAEPGTDVGPLVEEKALSKVQELVDDAVA
+KGAEVICGGSRPERPGYFYAPTVLSGVNPESDLMNEEIFGPVAPVIPFDTEDEVTRLAND
+TPWGLVGYLFTQDVDRGFRMGEALEVGMVGLNTGIVSNPAAPFGGVKASGLGREGGRVGI
+EEFLETKYLAMPRT
+>tr|A0A0P7HDT3|A0A0P7HDT3_9MICC
+MSESRKSRTTFTILAAVVRPAMNLMLGRRWEGMENLPKDTGFIACPNHVTEIDPLVVGHF
+FYNQGMLPRYLAKASLFKVPVLGPALRATNQVPVQRGGAGAAASLDGAQAVIDAGGALIV
+YPEGTLTRDPDLWPMKGRTGAARLALQTGAPVIPVAHWGAQDLLPRYGKMLHLFPRKRVR
+VLVGKPVDLSDLRGVPLTKTVLEEATERIMAELTSLVASLRGETAPAERWDPARKGQKSV
+GRGYDPETEKKK
+>tr|A0A0P7GIV4|A0A0P7GIV4_9MICC
+MGKLLESWRRQLVGTFSNNSETIPEWELELANGTDRGYYGPGSAVWAVHGSMTTIIAGIR
+ALLLQALHPGAMAGVRDYSNYKEDPLGRLAGTIRWIFTVTYGDTTAARSASNWVLRLHER
+VQGTYEDASGMERPYSANDPELARWVHLAFTDAFLASHIEFGGPIPGGPDQYVAEWATAG
+ELMQIDNPPRDLAGLRKQMAAFDPELRSSPTVEEVVRFLRRPPLPRNQMIGYRVLFAGAV
+ASLEPRHREMLGLREPHLGPFKLPVHGPVKLVLRVIRFGLGDMGPSERSARERIARLAQE
+PGETRSDV
+>tr|A0A0P7GSZ8|A0A0P7GSZ8_9MICC
+MSRTRLTGIDAARGVALLGMMSTHIFPLYDPETGSPTFVALVFSGRASALFAVVAGIGIA
+LLTGGQNPGAGRSPGQNRRGIAARALVIALIGLLLGGLDTSIAIILFHYAVLFLMVLPFI
+SMPLGRLAAWAGAWICLSPVLAYLVRPWLNENVSPPEVGGNITWEHFLEPATLFADVFFT
+GVYPTVQWLSYLLVGMVIGRLNLGALGVQAGLVIGGIFAAVAAKFVSAYLLVDAGGFAEL
+LGTESGQRWPIGRMMEVNLTGVDQSGSWWWLAVSAPHSGTTLDLLHTCGTAAAVVGVCLL
+LTRARPNLLLPLSAAGAMTLTLYSMHIWVMALVDAQEPALEPVWVFWPQAAAAVLIGIAF
+AKLGSRGPLETVASGASRLARDGTLAENRR
+>tr|A0A0P7GJ90|A0A0P7GJ90_9MICC
+MAINVKDLGRSPGTMRTMHEHVPAPKDFGVALIGVPFGSDIELDLRFEAVHEGILVSGSA
+LVPVKGECGRCLVPIEYNEDVDVQELFYYEDTESFEEEEEEEQRRIERDVIDLEPVLRDA
+VVTSLPFQPVCREDCEGLCPECGVRLEEDPGHHHEVVDPRWAALAGLAGTAAEDAATSTE
+SDEREES
+>tr|A0A0P7G412|A0A0P7G412_9MICC
+MLFRRARTALALVGVFWLWLLLGSAGFVASLFDRPFYAMLALYALGTLTLISLLIAPVAL
+AYLLMNRPDRNGQAAVARPASRPESAPADAHRSVRSDLAPVIRMIPRKVKDSGTSLGTKA
+AAKWRDLAS
+>tr|A0A0P7GIR2|A0A0P7GIR2_9MICC
+MGSLTFSYNVTLDGCVDHQEGIADDETHTHYTRLLHESGAMLWGRTTYELMETYWPLVAR
+GEVEAPAAIRDWALTLEDKPKYVVSATRSDFPWNNSHRLEGDLRTAVQHLKDQTPDGVLL
+GSGKLASTLDRLDLIDEYRFLVHPMITGHGPTLYGGLLDSARRLELISAEPMSNGAISVH
+YRRAG
+>tr|A0A0P7HFR4|A0A0P7HFR4_9MICC
+MPNARCPGTKRRLSAIAAAAVLALAACSAGNSRAPGPEVSTAALSEPETISTGLQSPWSI
+AFLDSTALVSERDSGRILELDGAGNQREAGLINAQGRGEGGLLGIAVQDGYLYSFLTAGD
+ENRIERRELRGAPGSLSLGEPQPVLSGIPAGPVHNGGRIAFGPDGMLYATAGDAGDRDSA
+QDTQSLSGKILRLMPDGGVPGDNPFPGSPVFSYGHRNPQGLAWDGEGRLYASEFGQNTWD
+ELNIIEAGGNYGWPEAEGMADGDGFIDPVQQWDPAHASPSGIAVLGDSVFAANLRGERLR
+EIPLADTASAVEHLPGYGRLRDAVAAPDGSLWVLTNNTDGRGSPGPDDDRILRIVLDR
+>tr|A0A0P7HGE4|A0A0P7HGE4_9MICC
+MSENVLRIGIGGPVGSGKTALTEALVPRLIAAGRTPGVITNDIYTQEDAHHVRRELDGIL
+DPERVMGVETGSCPHTAVRDDPTMNLAVGAEMLERFPDIDTLIYESGGDNLTLTFSPALA
+DVFVFVLDTAEGEKMPRKRGPGITDSDILVINKIDIAQYVRTDLGVMEADAHRVREDRPV
+VLTNSLTGQGVDELYQQIMTQWNGARTELIG
+>tr|A0A0P7FQ36|A0A0P7FQ36_9MICC
+MVECSEQGPAVLVVTAGEVVVQLDGKIGALPVKGDLLLLGFSLYGIEPLQISCKRPEVRA
+CSPWR
+>tr|A0A0P7HDW2|A0A0P7HDW2_9MICC
+MTSAVLAALTAKKAAAQPEPVWTRTRRHGPDSLAFDFKAGGSSFTLELVETGSGVALSVT
+APTDEARRILRNALVGRFALVCSGGERHVLERRVKDSSPSALLASAAGWIGHVSRLVNDM
+LGAVRPGGDVPPEFLNLLWWDERPNFGDAAGPWLAARLSGLTPVNGRGRQLGSPPLASVG
+SIAGWLEQDGSRIWGSGLMGPLGAESLERLRGLRDIRVHAVRGRHTREELMGKAGWEVPE
+VFGDPALLLPQFLPAGQFLPAEQFSAADRHSSPPVAVVPHLDHRSVLAHLAGPGVQLVDV
+REGVEAVVAQIAGAQVCISSSLHGIIVAQAYGVPWVWLRISDLLISGDTFKFEDFFTTLE
+AAAVSACNLPARSLTQPLLTEIAARASLPETTVDVGLVLESFPFRRACSGAGQFTG
+>tr|A0A0N8HZ91|A0A0N8HZ91_9MICC
+MTPPRGRTLLKAAATGTIAGLAGVAAMTAAEKLEQALTHRPSSYVPARTLLTLLGRKPGD
+EPQSPAWNHTMHWGTGAALGALRGIWSVTGIRGPLANTWHTVVRLATDQTLENATGVGAP
+PPTWDRQDQVVDVLHKSIYSWAAGTVSDALIRPVLESRRGTSSH
+>tr|A0A0P7HDT5|A0A0P7HDT5_9MICC
+MIQARGLTKVYKSKSGPVYALNGLDIAVPQGTVKALLGPNGAGKTTAVKVLTTLIKPDAG
+TAVIDRFDVLQRPKDVRRIIGVSGQYSAVDENLTGIENLRMVGRLYHLPAPAARRRAAEL
+IEQFDLADAGNRPVKGYSGGMRRRLDLAGALVNEPRVLFLDEPTTGLDPRSRLALWDVIK
+SLVAAGTTLLLTTQYLEEADQLADSVAVIDGGKVIAEGTSDQLKAMIGGHRVAVALVEGF
+DAGVARDVLARYGSGEVQTASDGRSLEVAVTEGPSALQHVLADLAAAGIELHDAGIRRPT
+LDDVFLKLTGHMAEAGQEKADAGSAQ
+>tr|A0A0P7FXJ3|A0A0P7FXJ3_9MICC
+MTAGFVVQVLAFAVSALFALIRLPDAIRGRNRSMFACLVLMAVSTGLSLSVFYEFIDSLL
+GGVNVANLVLRISLYAVFTILGFKGAAAFGAPRARSAVAGPVGLAVLGATVLLTIYFFAV
+SELPYTSTGLYAFDDQESVHIYAHLGRLYPAYVAACISLPALAASWNRRYRPAHRTGSGL
+FGAGLAVVVVFAVLTLFGKLGAFMLILPFSAVILVVLGLTVMWISHRLSTRRPKANLLRE
+RYGNVS
+>tr|A0A0P7HGX5|A0A0P7HGX5_9MICC
+MTVNSYAARSQPTRSAAGDRAILPLADRAAGLVGSVIDSSTSLLASQTHDIVRFAMGSPA
+DEAVPLEEFRDIAAQVLDHSSLTYGATEGEPVLLEALVDYLAGTADPVDADRITITAGGM
+QGLDLACKIFINPGDLVIVESPTYTNGSATALSYGADLLEAPVDQDGLIVEALPELIAAA
+GRTPKAIYTIPNFQNPSGVTLSLERRHRLLELAHEWNAVIIDDDPYGLLRFQGEDLPSLQ
+ALSPGDPLLFSVRTFSKILAPGLRVGWVDTDPSLRQLVINAKQAMDTCTNVPAQHLVAEF
+IRRGGLNDHLAGLRTEYKRRKDAMQENLHRHLGSRITTTDPEGGFFLWLTLQGPDARIST
+QKLFETALAEGVAFIPGPALSPSGKFDDALRLCFASTTPERAEEGILRLRRAMDRELAGL
+DSGAGA
+>tr|A0A0P7GIU0|A0A0P7GIU0_9MICC
+MTSTAIDVQVVPSFVQDEWWTPEGTSANPAEVRDASTGELLALVSTDGLDTAAAVEHGRT
+VGHRGLAGLTFHQRALKLKELAQYLNGRRPELYEISARTGATKIDSLVDIDGGIGVLFTF
+GSKGRRELPNSTVVIDGTAEVLSKDGSFIGEHIYTSIPGVAVQINAFNFPVWGMLEKFAP
+AFIAGVPTIVKPATPTGYLTEAAVRMMIESGILPAGSLQLISGSARDLLDHLDYRDMVSF
+TGSASTANKLKNHTNVIEGGVRFTSETDSLNASILGPDAVPGTPEFDAYVKSLVTEMTVK
+AGQKCTSIRRAIVPKALVNDVVAAAAKRIEERVVLGDPRAEGVTMGALASAEQRDGVRSS
+VQTLLDAGAKIAFGSLEAPETVQADGSRGVVEDGAFMAPVLLTWDDPNAEALHSVEAFGP
+VSSVVGYEDTADAVRLAALGGGSLVATVCSNDPSTVREVVAGIAGHHGRVHVLNRETART
+STGHGSPVPHLVHGGPGRAGGGEELGGIRAVKHHMQRTAIQGSPNMLTAITGVWHTGADQ
+FFDETHPFRKDLSTLKIGDAMASELREVTLEDITAFANSTGDTFYAHTNQEAAEANPFFP
+GIVAHGYLLLSWGAGLFVEPAPGPVLANYGLENLRFITPVAAGDSIRVTLTAKKITPRET
+DEYGEVAWDAVLHNQNDEIVATYDVLTLVEKKRA
+>tr|A0A0P7GAH0|A0A0P7GAH0_9MICC
+MGFLTGPIPVLPEGTTLKAPNGAKSPAVVALGGGHGLSASLSALRLLTTDLTAVVTVADN
+GGSSGRLRNELDVLPPGDLRMALAALCDDTDWGRTWRDVMQHRFRSRPGVEGSLDNHALG
+NLLIVTLWELLGDPVAGLQWAGALLGARGQVLPMSTHPLTIQGDVLHQTDTGLRHETVTG
+QAELAAAGTHSNVLNVRLLPSDAPACAEAISAIERADWVILGPGSWYTSVLPHLLLPQMR
+DALCATKARRCLTMNLRNETKETAGMSAVDHLQAIRRYAPGFKVDAVLADPAVVEDQDAF
+GEAAAEMGAKAVFGKVGAAARRPIHDPLRLAAAYHDIFGEN
+>tr|A0A0P7GK91|A0A0P7GK91_9MICC
+MAERPRQGHRGRVSRPSQVVFLGFVAAALCGTGLLMLPVSDAAPGSASFTDALFTAVSAL
+CVTGLSVVETHVYWSTFGHVVILALIQIGGLGVMTFASIVGLAVIGRFTFRSRLQAIAEN
+RSQELDGTPKVVAGVVKISLGTEAVIALVLAVRFWLGYGKEPGEALWLAAFHAVSAFNNA
+GFSLFEGNLEAYASDPLICLPVAAAVIIGGLGFPVLVQLRRAWRQPLRWSINTRLVVWGT
+LILLPAGSVFIAASEWNNPDTFGGMSGPERVLAAFFMSVQTRTAGFSSIDVAQMEPLSWL
+GMDVLMFIGAGPAGTGGGIKVTTFAVLVFVVVAEARGNPEVSALGKALPAYTARQALVVV
+LVAAGLIAVSTAALMALTDYSMDRLLFETVSAFGTVGLSAGVSSALPVAGELILVVLMFT
+GRLGPILLASALALQERRLKYRLPEERPIIG
+>tr|A0A0P7GSQ6|A0A0P7GSQ6_9MICC
+MSVPQIKATQLSNAGPSAPVLIAGPSLGTSGTALWASTAALLDGFTVIAWDLPGHGNSPA
+AADGFSMEELATAVSRLVEGAVSAGDISAAQELHYAGVSLGGAVGLQLGLDFPSTFKSLA
+ILCSGAKIGDADSWEARAETVRNQGTPAVLIGSAQRWFAEGFIEREKGASAALLHSLQDA
+DRFSYAFCCQALAAFDVRSRLAEIQVPVLAVAGAEDVVTPASFAELIADGVPGGRSAVVP
+DAAHLVPAEQPADTAELLGSFFRAAQ
+>tr|A0A0P7FWR2|A0A0P7FWR2_9MICC
+MATGTVKWFNSEKGFGFIEPDDGSADVFAHYSAINASGYRSLEENQKVSFDTEQGPKGPQ
+AVNIQPV
+>tr|A0A0P7G5B0|A0A0P7G5B0_9MICC
+MSAHDISGKKVAFLLTDGVEQVELTSPWEAVKEAGGSPVLVSPSSGSIQGFNGVDKGDTF
+SVDLDVADANASDFDALVLPGGVVNADYLRVNKDAQKFARDFFEAGKPVAAICHGPWLLI
+DAEVVKGRDLTSFHTLATDLRNAGANWSDEEVVVDQGLVTSRTPDDLEAFNAKVVEEISE
+GQHAGQHA
+>tr|A0A0P7G7H2|A0A0P7G7H2_9MICC
+MTAENFEGDSVVKVTDLVAGYIPGVNILNGCSIEARRGELIGIIGPNGAGKSTLLKAMFG
+LVKVHSGTVMVRGQDLTGLKANKLVTRGVGFVPQNNNVFSTLTIEENLQMGLYQQPKHFK
+ERFEFVADLFPELKKRRSQRAGSLSGGERQMVAMGRALMMEPAVLLLDEPSAGLSPVKQD
+ETFLRVHEINRAGVSVIMVEQNARRCLQICDRAYVLDQGKDAYTGTGRELMKDPKVIQLY
+LGTLADTA
+>tr|A0A0P7GVN2|A0A0P7GVN2_9MICC
+MSQAPAESDANREKKGAEETAALEQTAYRQALSSDLEQFLGRQREVLEDVSAESLPLLGA
+VHTLAQGGKRLRALLNYWGWRGAGGEALGEPAVRAGVALELFQSAALIHDDIIDRSDTRR
+GAPSVHRHFSNRHAEADWFLDGTHFGSSAAILAGDLCLSLSEEAFASVGERAAYNTRARS
+VFNRMRTEVMAGQYLDILEEVVGPGHEPEHAVIRARNILRYKSAKYSIEHPLVIGGALAG
+AGDELLTAYSAFALPLGEAFQLRDDVLGVFGDPEVTGKPAGDDLREGKRTVLIAYALSAG
+SGAVRKEITDKLGQPDLDDAAVQSLRAAIEDSGALATTEALIAEHTEQAFNTLAALAVDE
+QTRSALGSLAHAAVTRTA
+>tr|A0A0P7FQI6|A0A0P7FQI6_9MICC
+MIRFRDVTKSYPGSDSPAVDNLSMDIAKGAITVFVGPSGCGKTTSLRMINRMVEPTSGTI
+HVDGMDASKVAPSALRRSMGYVMQSSGLLPHRTVLDNIATVPRLNGVPRRQARARAAELL
+DVVGLDPGMAKRYPGQLSGGQQQRVGVARALAADPPVLLMDEPFSAVDPVVRSELQQELL
+RLQRELAKTIVFVTHDIDEATVLGDKVAVFAVGGRLAQFDTPEGILRAPVDDFVAGFVGR
+DRGFRHLGFQPGKEVPVYPVQTLDPDQLADRSVPVRDGWALAVDHGSRPLGWVPASSRDS
+VTSSEHVVPGGSLHRLGESLRSALDAALSSPSGLGVVVDADGRAAGIVRAGEIFELIEAA
+RLRRGRALHGSEV
+>tr|A0A0P7H877|A0A0P7H877_9MICC
+MITGTGTSHEELLARIGRDYYLNNRSKVDIARDYGISRFQVARYLDEARALGIVRIDIRF
+PEAAAELAPDRLAAALGVQRVRISPTGADERTTREAMAAAAAAEIMDAAAPGANIGVSWS
+RTLDLAAGHVTHLPPCNIIQLAGALPVPGSGNSLELIQNLGRHDGVATWPLWAPLVVENA
+QTAQSLRRQPEISETLAKAGSLDAAVVAVGAWMPGLSTVWNRVDNHLKLEAAKAGAVAEC
+SGRLLDAAGRPVNSELDERVLAVSLAQLENTPNVVAVAQGAARADAVRAVLAAGFVTTLL
+IDEDLAVALSGDEPGTAAGNR
+>tr|A0A0P7HDD8|A0A0P7HDD8_9MICC
+MATTGTAPKQRETVNVDGHRLRLTSLDKVLYPETGTTKADVLHYYAAIAPTLIPYARNRP
+ATRKRWVNGVGTPKDPGQVFFQKNIDDSAPSWVKRYTIEHKDHNNVYPLVNDLATLTWLA
+QLAALEIHVPQWQFGPRGVRQNPDRLVLDLDPGEGATLADCAEVARQARSILTDMGLDAR
+PVTSGSKGIHLYAALDGGQTSDEVSAVAHELARALEADHPDLVVSDMKKSLRRGKVLVDW
+SQNNANKTTICPYSLRGRFHPMVAAPRTWEELEDPDLAQLDYEQVLDRVEDIGDPLAGMH
+GGEADAEVIESAAETDKLHKYRSMRDAAKTPEPVPDEAPKAVEGDGNSFVIQEHHARRLH
+WDFRLERDGVLVSWAVPKGPPTTPDKNNLAVQTEDHPLDYGGFEGSIPKGEYGAGEVTIW
+DHGAYETEKWRPDKEVIVTVHGQPDGGLARDGSAVRRFAFIHTGGQDGKNNWLLHLMKEQ
+PARQEAGESAKPAAKNAAKPKEKESPVQVAQTAAKSRPEPLPLPDGSALKKDIRDSGMPS
+LKPMLATLGSRADINDDAEWAFEMKWDGVRAIAEVTPEGTRLISRNGNDMTVAYPELQEL
+GGALNGERAVLDGEIVALNKAGRPDFGLLQPRMHLTRARDAEAAAAKTPVQFMVFDLLWL
+DGNSLLDLGYEQRREILEQAVEPSDAGGHIQVPPALDLDMDAAVEASKELGLEGVVAKRR
+SADYSAGTRSRSWIKLKNQFTQEVVIVGWRPGQGNRANKVGSLLVAIPDGTELQYIGRVG
+SGLSEKDLALVGSRLKKLARKTPPLDDVPRADASDARWVRPVLVGEVTYAERTGTGKLRH
+PVWRGLRPDKRPSDVVPEIPAQP
+>tr|A0A0P7HH03|A0A0P7HH03_9MICC
+MKLLKRPKKPGVLPMPLWLQGMFELGQAAVLSALVVILPLTGVWATNGFSDRDYASLARL
+SGQAWLLLHGVPLSLSYPAGTVGPEPSGGLLSLIPLGLTMIPFFLCWRAGRRLARASYTD
+QLWQALLGALGTYAILGICAAYFSANEDVSISLVAGALIPLISAGLGVIIGARVEAGSWV
+RLIGVDLTDWIARTSQHSRWAGSYLWAAIRAGVVGITAAVGLSAVLLVVALTISWAEIVT
+VYEKLDAGIIGGIVLTVAQLGLLPNLVAWTLAWASGAGFSIGTGSMISPLETTVGPLPAV
+PVLAALPTGQLEFAYAALLIPVAAGVLAGWWFLREGENHFDEWLSIKIRARWFTASASTV
+CLGVVIGVVSGLLAAAIALIARGSLGIGRFVEIGPDPLWTGIWVAAEVAVGAVIGYAAGP
+WLEREKTRRPSVGATGVNS
+>tr|A0A0P7FED4|A0A0P7FED4_9MICC
+MESNQHHLSTSTAARLVNWDFAAATAATLVAPGPKLSPREIQAAVADLRRLADESVAHVH
+RITGLDAAEDLRDSQVLIVDRASWAKANSQSFAALMNPMLQHLAETRPEAVNATNTAVAG
+RLTGAELGAVLAFLASKVLGQYDPFAALASDDPSKTGGRLLLVAPNIISTEQELNVEPSD
+FRLWVCLHEQTHRVQFAAAPWLRDHLLDQIQLLSTGLMDKAQSLPERISSMAKQLSAAAS
+GRDESPDDGVPDRQMDVLTLLQDPQDKARLSHITAVMSLLEGHANVVMDAVDASIIPSVK
+TIRRRFNDRGVNRGWLDKFFRRVMGLDAKMRQYADGSKFVRGVVDKVGMPGFNRVWEQAG
+NLPTEAEIHNPDLWIKRMGL
+>tr|A0A0P7GUK5|A0A0P7GUK5_9MICC
+MRVDIVSKEFPPEIYGGAGVHVAELSRVLASRVDLQVHCFGTPREADYHGARVQAYPVPA
+ELGAANAAVQTLGTDLDMLQGLAGTDLIHSHTWYANMAGHLGSLLYGVPHVLSAHSLEPL
+RPWKAEQLGGGYALSSWVEKTAYDAASAIIAVSEGMRKDILRAYPEVTPGKVRVVHNGID
+TEQWRPEHDPEAVRALGIDPDAPSVVFVGRNTRQKGVPYLLRAAALLPAGVQVVLCLGAA
+DTPELAAETAVLIEELTRSRTGVVVIERMLPRSELIRVLSSATVFACPSIYEPLGIVNLE
+AMACGTAVVASATGGIPEVVDDGVTGLLVPIEQVQDGTGTPLDPEVFVRDFAAALTVVVT
+DPERAREMGESGRQRAARHFSWDAIAEATLKVYRSVLP
+>tr|A0A0P7HGU7|A0A0P7HGU7_9MICC
+MRIALFATCIVDAMYPRTARATVTILERLGHEVVFPSGQTCCGQMHVNSGYLPEAVPVVR
+NHVAAFNPADYDVAVAPSGSCVGSVKHQHPMVARSAGDKELEAQAEAVGAKTYELSELLT
+DVLGVTNAAEQLGSWFPHKITYHPSCHGMRLLRLGDRQLNLLQSVGGIEVAELPQADQCC
+GFGGTFSLKNADVSSAMLADKAENVKATGASLCSGGDASCLLHIGGGLSREGSDVTTLHF
+AEILASTRENPVSITGDVLVSGKAAR
+>tr|A0A0P7HHV4|A0A0P7HHV4_9MICC
+MVSIHVQEGRGMSESPAGSSNSESRPVPEGRIEKVSDGWVLAFDKQLDYPAAHIWDVLTN
+PQKVENWLGQISPGWELGKAYTLEMGGSGVSGTVLQLSPRSNLQITWDDQLGEEAVLDWQ
+VLESDGGALLAFRAHTDTADFLAEGSAGWQGIMAAFGAVAAGESPSQEEPGSSEALRDAY
+SREFGVSPTMGTVRDAADGRTLEFERWYRAPAEDVGSAVESSSGNLGMGQEAEIEISEDG
+GVAKLHVRQYIPGGTPEDTAALMAAWHLALDSAAIRLQGGTPNPNSHRLRALEALYRTAL
+>tr|A0A0P7HUL6|A0A0P7HUL6_9MICC
+MAMNRSELVAAVAEKSGNSQTAVNGVLDAVFDIFATSVANGEKITIPGWLAVERTDRAAR
+QGRNPQTGETIQIPAGHSVKLTAGSKLKAAVAKK
+>tr|A0A0P7HD00|A0A0P7HD00_9MICC
+MHTTESLTSFQDLLGAIPAAPESRDILDPATGEVVAAAPVHTLADLEAAVASARLAQPEW
+AALGHAERSAYLLKAADAVDAAAEGLAELLSREQGKPLNGPNARFEVGACAAWLRATASF
+ELEPEVLVDDNSGRAELHYRPLGVVGAIGPWNWPMMISIWQLAPALRMGNTVVMKPSEYT
+PLSVLALAAVLNQALPAGVLHVVSGGRDVGEALAGHADIDKVMFTGSTATGKAIIRSSAD
+TVKRLTLELGGNDAGIVLPDADPAAIAEDLFWGAFINTGQTCAALKRLYVHEDIYDAVVD
+ALAGVANAMPMGVGLDENNVLGPLQNKAQFQIVADLVQAAKDAGARIVTGGNPQTDQPGY
+FYPATLVADIDNDNPLVAQEQFGPALPIIRYSTVDEAVEMANALDVGLGASVWSSDKDAA
+LAVAARIEAGTVWINKHGAVDPRMPFGGAKQSGYGLEFGVEGLKALGAPQVLSY
+>tr|A0A0P7FUF4|A0A0P7FUF4_9MICC
+MPESKSRKKPPAATGAVPAKAKSEPKPNPVWYKPVMFGLMIIGLIWIIVFYISEGVYPVP
+ALGAGNILVGFGVAIVGFLMTTRWR
+>tr|A0A0P7G5B8|A0A0P7G5B8_9MICC
+MKLDLILRGADILTLEPKRPSAHAVGVLNGRIAGFDEELEGCTAERDIDLGGAVVVPGFI
+DAHCHTTWWGLGLSAVDLEQARGLEELYGLIEEEARRLKDSPGAWIKGTGFNHKHHGGAY
+PDIRRLDEITGDHPLYLRHVSGHLSITNSATLRLAGVFEPGFENPTGGAVQRGAGGYPNG
+IVEESAQQLLQNLLLPYPVEEIIEALDAATTRYAMAGITSFTEAGVGGGWIGHSPVELQA
+YLQARLAGKLHARAQLMPALDTLHPITSNAGDMHGTGTGRGLDLGAGAGFGDDWISLGPV
+KVFMDGSLLGATAAVTEDYCGHHHTSGYLLDAPDTYRERVDAAYRAGWPIALHAIGDAAI
+DLATEIILSCQEKYGRNALPNRIEHYGIARPDQLEPVAAAGIAVTPQAAFIGPLGDQFAQ
+MVGPEREGWLYRGRSLVDAGILVAGSSDLPVADNNVLRALQSCVDRRTEGGRILGGPEEC
+LTPEEALRSYTEWAARATGALADKGTLRRGKLADFAVLSGSPLTAPDISELSVLATVAGG
+EFTYNQLAAWDGSVLSPANRRTGAQA
+>tr|A0A0P7HLX7|A0A0P7HLX7_9MICC
+MSTVSRPTPAWAIVTLREVMVKARDRSYLISTLVTLVLIVGVVVFNAYMSTKAEEYTVAV
+NDSAATAVVDLAHETGQADGGNTSFEAVVASSAEGAEELVSSEEADAALTRDADGQWMLT
+GNEELSSGLQQGMTEALRAYALEINAGEAGTTSEALLEGSEFETALLNGNAENQFVAQFT
+GFVFGFLFYMAAIIFGMAIATSVLEEKQNRVVEILATAIPIRQLLYGKVAGNTILAMIQL
+ALYAGAALLALTFTGTADSVSTIIPASGWFLVFFLVGFLILASLWAMLGSMASRSEDLNN
+SSGPVLTVIIAALFAGLFAKGQLLVVASFVPVISTVAMPVRMLSSEIPLWETFVSLAIAL
+AAAYALLRFGEKIYRRAVMQGGGALTLRKAMKLEQ
+>tr|A0A0N8HXL9|A0A0N8HXL9_9MICC
+MTSDFILNEYKARQMWERREYSSAMAAAKTAAESAALRNDDAGWWRMMFLYGECQLELGF
+MDGCAETARLLADHPVAQNAPEVAGKAKALMSLGLQGMGLLPEALVVARSAALDSPEAGM
+GGRGRIEAQQALVAVLSESGHLEDAWHEAQTLAQMVGDEAVLEKAGKAYWSIGNVAFLAG
+MEREGTYYHGLAASSLSPSNDVNLWALFNKASAFMRLTANLVEPETLQCIERAEMALSIT
+GGTRQDELDIEVIRAYWSYLTGDIAAARRQMSAVLDESAALSPLSHGDARLLFARIIADD
+GDLHASVDHATTSAEIFGKAGAVAREELAREFGRQVRARAEQRAGRAASSLGHGVTGQEI
+DH
+>tr|A0A0P7FG20|A0A0P7FG20_9MICC
+MGIRRSELQAYPDGAGPPRRPRSGREKALVVLEFATGTAAAASGALLTARPGGAFLHSGP
+SVLRNTPFRSWRLPGALLAAGCGGGFLLAGFLQLRGHRRARALSVAAGTALVALEVWEAA
+YIEFQPLVLLYGTAGCAVAVLALSLPPEKKLSPQG
+>tr|A0A0P7FPQ0|A0A0P7FPQ0_9MICC
+MNYLETVPAAERSAVVDLAAIRHNVRHLAEIAKPARLMAVVKADAYGHGALEVARAALDA
+GAAWLGTAHISEALALRTAGITAPIVAWLHTADSDFSAAVAANIDIGVSGWELDAVVAAA
+RELEVPARVHLKIDTGLGRNGCPEELWESFVGEALAWQEEGLLRVVGIFSHLAVADEPRR
+TETDQQLRKFRDAVAVAEDAGVDHEVRHIANTPAVLSRPDSHFDLVRVGLGMYGLSPFPG
+QSAAELGLIPAMTLKTRIANCKEVPAGQGVSYGLHYRTAAPTTLALVPVGYADGIPRVAT
+GGPVMVNGEVFPVVGRIAMDQMVIDLGRTGIAGTAESFLGKEAVLFGAAGAPSVDEWAQA
+AGSINYEIITRISGRVTRSYVDSEAGSADVSLDADSEAVLP
+>tr|A0A0P7GS15|A0A0P7GS15_9MICC
+MTAANPAASGWIPAKQFIAGEWREGRSHKASPDTNPYTGEELLTLQLASSEDLDDAYRSA
+QEAQPDWAATPPAERRRILERAADILEERRDEIAAWLAAESGSTAVKAAIEIDSATAITR
+ESASFPHRVHGQILDSDIPGKEDRVYRGPLGVVGVISPWNFPLHLSQRSVAPALALGNAV
+VLKPASDTPVTGGLLIAKIFEEAGLPAGVLSVVAGAGSEIGDAVVEHPVPSLISFTGSTA
+VGKNVGALAASGDHLKYTALELGGNGPFVVLADADVDQAVRAAVMGKFLHQGQICMAINR
+IILEDSIHDEFVEKFTQHVRSLPVGDPSDPKTVIGPIINAKQLEGLETKINQAKEEGAET
+VLEGSTNGQVLSPWIFTGVTQDMELAREEIFGPIAGIQRAHDAAHALELANATPQGLSGA
+VFTASAEGGLQFARKLQVGMAHVNDMPVHDEVHVAFGGVKNSGLGRFNGEWAVEEFTQDQ
+TVTLQHEPRQYPF
+>tr|A0A0P7HEX7|A0A0P7HEX7_9MICC
+MAGLSRRDRFELPEPMRRLFEGDWEVPAFRVEEFRDNGAMVVRAELPNIDPEQDLDVTVT
+DGTLRIHGERREETSNKSKNGYRSEFKYGSFSRDIALPAGTSPDDVTASYHDGILEVRVP
+IQSEGGTGRKVPISRN
+>tr|A0A0P7HMG6|A0A0P7HMG6_9MICC
+MSRASIHLVRHGEVFNPDGILYGRLPEFHLSELGREMADRVAGHFEQRRNDGAKLVHLVA
+SPLTRAQETAAPIASALGLETMTDERILEAENRFEGLPGVKRQLRNPRYWPLLRNPMKPS
+WGEPYAQQVERVMAAVHDARIRALELGGSGAEAVLVSHQLPIWVTRLAAEGRRLWHDPRS
+RECTLTSVTTLEFNDMELTGVRYAEPSADLLPGAANLPGA
+>tr|A0A0P7FHX1|A0A0P7FHX1_9MICC
+MSVEQALLGFTAVAVLLTIMPGLDSAMVLRSAISQGPKHAVATGLGINTGAFAWGAAAAV
+GISALLTASEAAYTALKLAGAVYMLWLGSSLLWKSFRRRHVPVPVDGVPAPAGERLATAW
+AKGLGTNLLNPKVGVFYIAMIPQFMPAGVSPLLMGLALAGIHVLLSVVWFGLIISAAHLA
+RKALQAPRSVKITDRLTGLALLGFGTSLAIKH
+>tr|A0A0P7GVV2|A0A0P7GVV2_9MICC
+MLGASALLLAGCGAAPEEDSASSGEASANGDFLACMVSDSGGFDDRSFNQSGFEGLKAAE
+TDLGIEIKTAESQSETDFGPNLDSMVVQNGCNITVTVGFLLADATQEVAEANPESHFAII
+DDNSIELDNVKPIIYDTAQAAFLAGYVAAGTSETGKVATYGGINIPTVTIFMDGFADGVA
+YYNEENGANVEVLGWNKADQTGSFIGNFTDTGAGKTTTENFINEGADIIMPVAGPVGTGT
+LDAVVEANAGGGTNKVIWVDSDGFETAGNGKEYILTSVMKLMGEAVEEVISEDVDGNFDA
+SPYIGTLENGGVTLAPYHDQEDAVPADVKTAVDEIKAKIISGEITVESAASPK
+>tr|A0A0P7GVA8|A0A0P7GVA8_9MICC
+MKALTQAAIRKSFINASKSQTAAVNFPADFDEIDWENIDQFGWRDHKMPQRSYLVTESAG
+KPVTILLRAPELVSAGRKAMCALCEDLEDNDDVYLFVAPKAGSAGKNGNSVGTLIHSAFS
+CSRNVRMDVLPNPIHPDPELVKAERIRKLRERTEQFIRKVRG
+>tr|A0A0N8HZ58|A0A0N8HZ58_9MICC
+MAEIDFPAEIRALRSTFASIEDVSDVAAMKEDIAELSEMAGEPNLWDDPDAAQKITSKLS
+HRQSALERLQKLEARIDDLEVLVELAQDESDADSKEEAAKELQSLRKALSELEVVTLLSG
+EYDEREAVVTIRAGAGGVDAADFADMLLRMYLRWAERHGYPTQVLDTSYAEEAGLKSATF
+EVKAPYAFGTLVVEAGTHRLVRISPFDNQGRRQTSFAAVEVIPLIEATDHIDIPDNEIRV
+DVFRSSGPGGQSVNTTDSAVRLTHIPTGTVVSMQNEKSQLQNRAAAMRVLQSRLLLLKKE
+QEDAEKKAFAGDVKASWGDQMRSYVLNPYQMVKDLRTEHEVGNTSAVFDGEIDDFIDAGI
+RWRANGSVSARK
+>tr|A0A0P7GNN4|A0A0P7GNN4_9MICC
+MGRSVIVPTESEPSGLLGQVDSSVNEFMEPIATAFNDIVFFPLTIGDFSFPIVVAWLIIA
+GVVITIYFGFIQFRGLKVSGQVIRGKFSTKQDPGEVPHFQALTSALSGTVGLGNIAGVGA
+AMALGGPGATFWMILAGLLGMATKFAECTLGVKYRQVHEDGTVSGGPFKYLPVAFKRFGS
+LPAKVLTGVFAVAILLFGVAGGNMFQANQTFAQVRNATGGDEGFLGSDGAALIFGAILAA
+LVAIVILGGIKSIGATTSKLVPAMAAVYLVACVAVIAANFENIPSAVGAIIEGAFRPEGF
+AGGILGVMIIGFQRASFSNEAGVGSAAIAHSAVKTRRPVSEGFVAMLEPLVDTVLICTMT
+ALAIIMAGAPSLQAGIDQVQGGGGAPDGVILTSDAFATVLPWFPIVLSVAVALFAYSTLI
+TWSYYGLKAWEYLFGRGRMREIIYKVIFLTFTVAGCVLSFSQVISFTDAALFICAFVNLL
+GVYLLLPVIKREMKKYLADRKSGKLDILGIEDEEIEDAAPAR
+>tr|A0A0P7FQ45|A0A0P7FQ45_9MICC
+MTIVRTLARPLLAAGFVAAGVERLRNADQTAQQLTPTLNRLGATVPSAAGLAENPVAVAR
+VLGATQLGAAAMLGLGKFSRLAGLVLAATAGVNTFVEYRNADASTQEGRKERRTQLLKNL
+SLIGGVLLAAVDTNGRPGLAWRAEHLVSDTQRSVRAMGKDAGRRSRKVTKQTRKQIAKAD
+RAVRSAASDITGS
+>tr|A0A0P7HFY4|A0A0P7HFY4_9MICC
+MDLSKAPGSGESWGKPKPVVYLWSACELVFVTNPWQISSRLRVAVLRAFGAEIADGVIFR
+PRTRVKAPWKLHIGPRSWIGEGVWFHNQDHVWIGADVVISQESFLTTGSHRVRTDMGLIT
+SPIRIDDGAWVTSRCMVLGGSRIGRSAVIQPMTVVKGTVGENRVYGAAVQPEELGDRFPD
+EAGGSAAGDQP
+>tr|A0A0P7GCJ9|A0A0P7GCJ9_9MICC
+MSTKITFIIDNPADPEAFETAYKGFEGSARELPRLQRFEAGKVWPKENGSPTPAYRTVDL
+YFDSYDDASAAVATAEAADFMGQLKATGTTFMALFTDIGDD
+>tr|A0A0P7GT84|A0A0P7GT84_9MICC
+MTQHYPSVSGSAEAPGVSSDAGENARRALQGVRQEVAKAVVGQDAAVTGLIIALLARGHV
+LLEGVPGVAKTLLVRTLAAALSLDTKRVQFTPDLMPGDVTGSLIYDGRTSEFSFREGPVF
+TNILLADEINRTPPKTQASLLEAMEERQVTVDGVSRQLPDPFLVAATQNPVEYEGTYPLP
+EAQLDRFLLKMTLELPGRDDEIEVIRRHGSGFDPRNLAAAGVRPVAGETDLLAAREAVAR
+VETAPEVLGYIVDLVRATRSAPSFQLGVSPRGATALLNTARAWAWLSGRSFITPDDVKAL
+TLPALRHRVALRPEAQMDGVSVDDVLGSILATVPVPR
+>tr|A0A0P7HLW8|A0A0P7HLW8_9MICC
+MGPHRTPVDDRRWNMAEAEFKKLHKRNSRTTFLVLLAIYVPLGLIAAGLVIYLFNDSRDP
+IYDVGTVLLGLGFALVWGLAPLLLGGALFAATQTAVVEPSKRSRRWGAALTAAAVFPGVL
+HVEVLVWVVIDEVVSPTASLLYALDPVIIPLRLIMVAVPLVMALALLPSIRRSDRIRKER
+GLRPRHDAPATRRNIP
+>tr|A0A0P7FF27|A0A0P7FF27_9MICC
+MAQQRIVFVHGAGRFGAAAWPGQHALARSYDCLFLRRAGYGLNVPPAPTDHAADTAAILQ
+ALGQGGHVVAHAEGAVSAMMAAVSDPARVHSLLLCEPAVFSLTRDLPATAARRALLDPLF
+RAAAGLTDEEYGREHARLVFSAESAPDPGNDPHAAARQRLQAPPWDAPLDIVPGVPTLVL
+TGEWEPLYEEVAAFLASTGAEHRPVGGNHRPQDTPAGREAIAEFIARTAAAPVAVDCA
+>tr|A0A0P7FB29|A0A0P7FB29_9MICC
+MTQTTDNILAVGTRKGLWLARSNDRTDWLLSGPYFLMNEVASVALDSRHSPPRILAGLLS
+PHWGPTVVMSDDLGETWTEPEAGAITFPSGSGESLGRIWQLQPDSAARPDVVWAGCEPIS
+VWKSTDGGTSFELNQALWNHPHRPDWGEGYGGAAAHTVLPSPADETVHVAISSGGVYRSD
+DGGDSWAARNRGISAYFLPDPDPEFGQCVHKVARDAGDPSRLYAQNHHGVYRSDDSGDTW
+VSIAEGLPADFGFVMLAHPRTSGTVWTIPLVADGERIPPDGELAVYRSTDAGGTWARLDS
+GLPQSEYNAVLRDAAALDTSEPVGVYFGTRAGDVYASADEGGTFTLVASNLPDVLCVRAA
+QLGSPEP
+>tr|A0A0P7GP22|A0A0P7GP22_9MICC
+MFTGLSAFPLTPLQNDAVDEGSFSALVSRLAESEVDSIAVLGSTGSYAYLSPEERGRVVQ
+LAAAHKGSKPLIAGVGALRTSEVLANVRSAEEAGAAGILLAPVSYQVLTDEDVYGLFRDV
+TDATDLPVIVYDNPGTTHFTFSTALYRRIAELPGIASVKIPPVSAAAAAARVQEVRAVIP
+EHVTIGISGDAAACDGLNAGCDAWYSAVAGTLPEPAVRIVRAVTEGRYDDAAAESARLAP
+LWELFAEHGSVRVIAAAAEDLGLAPRNCLPLPVQGLGAAQRRRVAGALEELGLMA
+>tr|A0A0P7H4Q7|A0A0P7H4Q7_9MICC
+MAISINKKRNSKSKAASRSRRQLRIRKRIAGTAARPRLVVNRSSRHVFVQVVDDSRGVTV
+ASASTMEADLRSMEGDKTAKSKRVGELVAERAKAAGVEAVVFDRGGNRYHGRIAAVADGA
+REGGLAL
+>tr|A0A0P7GBI6|A0A0P7GBI6_9MICC
+MAIILKTPRPPELPEVARTLGAWQLDWLPVQLHPGDLGWAWQIGARNLAARLRVWARDGK
+MLAVGFQDGASLLRVAIDPEASLDAELAARIAADAADPKRGVLPAGEASVEARVGEALRQ
+SIKEAGWTPGELWTPLVRELGQPVEDPGLRLEVVGPNLAQTRVEVQNASFGTSRFTLDRW
+HTMAAGPLYAQARRLLAYDAAGRAVATATVWSSGPGSPGLIEPMGVHRAHRGHGHGRAIT
+LAAALCLQQLGSSTAVVCAESANKGATATYTAAGFKPFPVVADFHRGL
+>tr|A0A0P7HJW0|A0A0P7HJW0_9MICC
+MTAIPEVEKPNIKVRPPAHQVDPRATAWWLVRNLLLCGIPLVVLIAAAVLWDQARIWLAA
+PIAAAALVLAARVVIEPWWRRRVHRWEVTDRATYASSGWLVTEWRVAPTSRIQTVDALRG
+PLEQVFGLATLRVTTASSSGAVNIRGLDRRVAEDAAARLAVIAELSEGDAT
+>tr|A0A0P7GJS9|A0A0P7GJS9_9MICC
+MATGFKLTRKGITAQLEPGERSLLRGLFSDVTTMLEPESAAHEDPLAAMVGLDASAEVPG
+DPALLRLLPDAVRENDADALEFRRLTERSLREGKIGSLRAASLALESSPLNLDPAQARHF
+AQALNDVRLVLGSRLGLETDEDAEALHDITEPGDAQNVDEYLALVYNFVTWLQETLMKAL
+LDSLPRR
+>tr|A0A0P7FDY4|A0A0P7FDY4_9MICC
+MSITVRRATPADYEDIRRITREAYLKAGFIEADNPYVQELENVEHRDEHAELWVAEKDGV
+VAGSAAVTFAGQPYTDIAVEGELEFRMLAVDPAVQRGGVGRALVNAIVEHARSLEGIHAV
+SLTSMTSMLGAHSMYLSLGFERVPERDWTVPGEDYILWVFRLEL
+>tr|A0A0P7GE52|A0A0P7GE52_9MICC
+MNLFTPLTVGTMELPNRLVMAPLTRMRANLDGVPTDIMVDYYRQRASLGLIVSEGIYPSF
+TGQGNTRMPGLVTEEHVAGWKRVTDAVHEAGGRIVAQLMHSGRVGHENVSGRQPVAPSAI
+ALSGEAHTYDGKQPYPVPHALTEAELPGVAQEFAAAAANAIKAGFDGVELHGANGYLLQE
+FLSPVSNTRTDNYGGSPENRARFVLEAFRAVVEAVGAERTGIRISPEHNIQDVLETDRDD
+VLATYTALVDGIAPLKPAYLSILHKDPADDLVQELRRRFAGPVLLNTGFGVETTRESALG
+LLDEDLADAVVVGRPALANPDLARRWQEGADLNAPDYSTFYTDGAAGYTDYPELAPVS
+>tr|A0A0P7GLC2|A0A0P7GLC2_9MICC
+MRIEPPAPGEPRRPHGPRDPGDAWVVAPDGQRYWGRFGAAGLLAYDPGRGILLQHRVSWS
+HHGGTWALPGGARHEGESAMSAALRESAEEAGVPPKSVRPRFISILDLEIWSYATVIADV
+TAPFTPVISDEESNELAWVAPAEVERLPLHPAFADAWQRLRPLLDTRPALVVDTANVLGV
+VPDGWWKDRAGAAGRLLAAMGRLSLTGVPAGVLGLPADCWYPEIAAVLEGQARSADPGEH
+PASLRIIRADGSGDDAVLAEAQELLGRGRRVTVATSDQELTNRCLRAGASVLGSGTFRAL
+LEN
+>tr|A0A0P7G485|A0A0P7G485_9MICC
+MKSLPATFRGRAAAALAAAGLLVGGGLTACTQDSGTESSSPSPTAESGSASQLADECELP
+EPSATPSPESGDFSAADPDKSALEVGSGQQRAVGASTISKSGDSSSTDSSSFSGLNAAVL
+ISGGGSLSMNGTTVETAGSGANGVFATGTGSSASLQDVSVKTQGSFSHALDVTDGGSLTA
+VSPQLSTASDHSSVIATDRGGGDIQVSGGNATASGDLSAVIYSTGIISVCGLTGSSALAE
+AAVVEGANSVRTTSSDLTGGTHGAYLYSSTPGSTGGGTFTMSGGTLTAKDGNAVFVDGVS
+ATINLSNAPKLDPGSGALISVSSNGSASASLQETVLEGQLTADAGSTLSVSLTANSRVTG
+TLSNVGLELDNTSMVELAADSSATSVQGALVTGNEITNITGNGHTLTYDPGADGNGYLNG
+QDYQLAGGGTLQAS
+>tr|A0A0P7H8I5|A0A0P7H8I5_9MICC
+MEWIDERPTWLPPIPPPHRGRARIVAGMLLVTAVMIVVLVTAFVGGTISMYLWWPLAGGL
+LLLGSGLLSRRRLP
+>tr|A0A0N8HYX9|A0A0N8HYX9_9MICC
+MSGFPHPSPALITVAAESAGERGVQRGKACSPQLASGWQTYAELFSAGGISAARVEAEAL
+ASLAAVDAWLPDLAAEIRGTAAGAGLPEWQVAALNARTEILSLSKTQLPGECSTVISTIP
+GRVFSAQTWDWHEELAKAWHLQSVAHADGAFVGMTEYGILGKIGVNSHGVGVHLNVLGHS
+GDTPGAVPVHVAAAAVLYYAKTLEEAVDLLTAVPVTTSSSISVVTAEGACMVELSPVGAQ
+VIPAAGDYLLHTNHFLSPLPAAGERTELYQPDSGQRLDLLKRRCSGHFDPSDPLDLVPYL
+CSRPGDGADLCCVPAAGARFGDRWRTLATALIDPETARLSVSPGAPTEAGQETWRVLSAQ
+SQQQPARRARGI
+>tr|A0A0P7GUS7|A0A0P7GUS7_9MICC
+MSVQHTASDPVLVRGMRTVEHRFTVPLDHSRPDGEQISVFAREYSDPEVSPAADLPWLLY
+LQGGPGGKGNRLLQFGGWTKAASRRFRILMLDQRGNGLSTPANRQSLALRGDAAAQAEYL
+THFRADSIVADAELVRTALGSGPWSIYGQSYGGFCALTYLSFAPAGLKEALITGGLAPLT
+GPADRVYQATFSRVAARNAEYFAKYPGDRELTTRIARHLETVPEYLPDGTRLSTRRFQMA
+GSYLGGNTRMDGLHYLLEEAFIDTPDGPRLSDTFLAGMWQLAERSTNPLYALMHESIYAQ
+GQATRWAAWRVLGSRPDFLPSAAEPLYTGEMVYHWYFEEDPALRPLQRTADLLAAKSDWP
+ELYDPRQLASNTVPAAAAVYTNDIYVDRDLSLETAAAVRGLKVWETDEFHHDGIADDGEG
+IFNRLLGMVRGRE
+>tr|A0A0P7H434|A0A0P7H434_9MICC
+MNLTTAQHSQATTDLRVSEFRPLPAPEELLAELPLSAELAQTVSQGREAVRAVLDGVDDR
+LLVVVGPCSIHDPDAGLDYARRLAEAAQEHSSDLLIVLRAYFEKPRTTVGWKGLINDPHL
+DGSHDIESGLFAARRFLIAAGELGLPVATEFLEPISPQYVADLVSWGAIGARTTESQIHR
+QLVSGLSMPVGFKNGTDGSLQIALDACTAASAPQSFLGIDGSGRASMVRTAGNADAHLIL
+RGGNSGPNYSAAHVAAASEALAARGLNPRLIVDASHANSNKDHHRQAEVALELAAQLESG
+TAGAHQLAGVMLESFLVGGAQAHDAANPGPLVYGQSITDKCMDWETSAGVLSVLAQAART
+RRNAS
+>tr|A0A0P7FP66|A0A0P7FP66_9MICC
+MPSVSTRHFQLPPWQQGAAQSWFERGEGTPRKPRAASSVLLLRDSRQGAETYLRYRRGES
+PLGKIAFPGGSLEAADDDPVAWYGPAPAEWARMLGMDDPQQARRHVVAAVRELFEETGVL
+LAGPDEATLLESNRGADWMAAREGIASGELSLPQLLSKRGLGLRSDLLRPLTHWLTADFA
+LRRFDTRYFAAVQPLGQDTSLLESKGVWGQWRVASDEIERAATSELGDEVGQPDTVGLTL
+EQLTVPGVLLMIEKLAKARGCIAYLAHRRANDVFQPQLIDAGGAYVLQVSTVDAAEGCGQ
+RGR
+>tr|A0A0P7G904|A0A0P7G904_9MICC
+MSITTTTHLNFRGTAGPALEFYQSVFGGILTRATYGDFGMPKEVPGADKIVFGQLETGNG
+FRVMAYDIPGKDSTDVTETAGTTRRENGTTVTDRTFFQSLRGQSLAEVTPLWDGLADGAD
+IIEPFAASAWSPGFGMLTDRFGVTWVIDVEAPYNG
+>tr|A0A0P7HGG5|A0A0P7HGG5_9MICC
+MFLYESIPWYSWAMFGVVLVGLIALNEVTRRWKWAGLAFFVALPILLTVFVWPTTAGDGS
+STGTWFHWVKVYSALLGCLGFMLIRYVPRLAKNRWMLLFPALILAINIAEAVIRDFEVAG
+LQGMHDGVFMVGGPWNYMNAIAGILNLLTICGWTGIIVSSDKSKDMIWPDMMWFWIVAYD
+LWNFAYVYNCVGDHSFYAGAALLISCTIPAFFIKKGAWLQHRAHTLALWMMFTMAAPTFV
+STSPFAVESSHNPTALFVVSAISLAANIAVAVYQVFTILKRHRNPLRDELYTHLPQYQEV
+RSANLPSGSSAGLPGSHGTDRTVTV
+>tr|A0A0P7HMX0|A0A0P7HMX0_9MICC
+MDKFFDVLRTSPIKRAPGGWVAGICAGIAQKFGWDVSLVRIAVLLSFLLPFIGLGTYLVA
+WLLLPKTDGTIVLQKLLNR
+>tr|A0A0P7G4F3|A0A0P7G4F3_9MICC
+MLLPDVLAPAAGGTRELSVPGTAGLTVGSLLDGLGEKFPVLERRIRDETGTVRRFVNIYV
+DGEDIRGLDRQHSAVGPGSEVMILQSIAGG
+>tr|A0A0P7HFB1|A0A0P7HFB1_9MICC
+MAKPSKKPQTPNQVIPDPDLQVNIAPAAARRLSEEGMRRLAAAQQQEAGLPGWQSLGKGG
+KPNHANGRQGPRERKVRW
+>tr|A0A0P7FYZ0|A0A0P7FYZ0_9MICC
+MSLSTASKSAAAIDRARADGRAALVGYLPAGFPSVKETIEAGIELARGGADLIEIGIPYS
+DPVMDGSVIQAATSQALEAGFRVQEVFDVVAGITAETDAAVLVMTYWNPVMRMGVDEFSR
+RLAEAGGAGLITPDLIPDEAGEWIEASDKYGLDRVFLVAPSSTPERMKSTVQASRGFVYA
+VSIMGVTGTRTQVSDAAEGVVSAARAAGADRVCVGLGVSTSNHVREIGAYADGVIVGTAL
+VAALRDGGPAAVGELARELSTGTGKN
+>tr|A0A0P7GIZ4|A0A0P7GIZ4_9MICC
+MPRAHIARRTAAVLIAGLLFVSGCSSIPTVGPVGTATANAGGNSLTNQLNYSPPGPPEGA
+GPQEIIEGFIRAGVGAAEDYSVAREYLTPELTASWVPNERVVIYGADPNIVPLPEPNAFQ
+IQLEVVGSVNAKGIRTVSAPGTTETIQVRLVEQDGQWRINGIPNGVMISDVTFPTVFRAH
+NLYFYSSTYRYWVPDTRWFVQRSGMAASVVNAMLAGPAPYLEGAVTSAFPVETKLARDAV
+PVVSGVATVDFSAEVLEDSTDLNRQQMELQLQQNLRQLNNVNSVEMTVNQRAVDLGPESS
+ELLPVQADPSVGDTQVGVLGKELVFFRDRQAKGIENLPDVSEYGPRDPAVSVDLSTIAFL
+SGDRSTLLVTGPDKDVAQVATGSGLSGPSIDPEGWIWSAAEAGQGSRLIAVGPNLAASTQ
+AGLTPSWLADMRVRELRISRDGARALLVVEQDGASRVLVAGVVRSSDGTPQTLTTPLELW
+TTEPVSTAVWAGENRVAALQRGQDDALTPVVLDPAEDNRELADWEGSFGISGGDGPEDIF
+LQTGEAVYKKLGNGWIREIDGIRDPSFPG
+>tr|A0A0P7HFG8|A0A0P7HFG8_9MICC
+MGLLETIRDPRDLSRLSSSQLTALAGEIRSFLITNVAQTGGHLGPNLGVVELTMGIHRVF
+DSPRDSIVFDTGHQSYVHKILTGRQDFSTLRQQGGLSGYPSRAESVHDIVESSHASSSLS
+WADGISRARQLNGEGDRYTVVMVGDGALTGGMAWEALNNIAADQKRRVVIVVNDNGRSYA
+PTIGGVADYLASLRPTIDAVRTHHMYENTMDWWKGRLQSGGPVGRFAYHSLHAAKKGIKD
+WWAPQGLFEDLGMKYVGPIDGHDLEAVEQALEKAKNYGGPVIVHAITEKGHGYAPARAHV
+EDQFHAVGVIDPETGAPVSSGAKQSWTSVFATEIADIADERKDIVGITGAMLIPVGLHRF
+AERHPERVIDVGIAEQHALTSAAGMAFGGLHPVVALYATFLNRAFDQLLMDVALHKAGVT
+IVLDRAGVTGPDGASHHGMWDMSMLQIVPGLHLSAPRDATRLREELREAVAINDAPSVVR
+FSKGTVGPDVDAEDRTGDGVDILARRPSGDASNDVLIVSVGAMAEMALEVADRLGDQGIS
+STVVDPRWVLPVPRSIVRMAAEHRIVIVIEDGVRAGGVGSRIRQEMRAAGVDTALNEVGL
+PVEFLDHGTRAEVLERVGLTARQVANDVVAQVLGTKVPFARPLPGQQAPTGQIPKIK
+>tr|A0A0N8HY37|A0A0N8HY37_9MICC
+MAPLTRVRSGADGVPGELVAEHYRQRASLGLIVSEGTYPSREGQGFSGQPGLVTPEQLAG
+WRRVTNGVHEAGGRIFAQVMHAGRVSHPEINGGFQTVAPSAVAIDGVIRTPAGKLPHTEP
+RGLTEPELDEVRDIFVRGVLAAVEAGFDGVELHGANGYLLHEFLSPASNRRTDVYGGSPQ
+ARARFVVEVVTAVAAAIGAERVGLRISPAHNVQDAWETDGQDVLATYGSLVDAIKPLGLA
+YLSILHNDPAGALVQELRQRFGGTVILNTGFAVVTTREEAAELMEQGLCDAVAVGRPAIA
+NPDLVRRWSEGYPVNEPDPSTFYTDGAEGYTDYPEYAGVPALSD
+>tr|A0A0P7HCZ5|A0A0P7HCZ5_9MICC
+MRISDFWRLMDDEFGPAYSRVLAGDLVLTGLGGMTAQQALERGTEPKRVWLAVCDMQEVP
+QDRRLGRDIKPKQV
+>tr|A0A0P7GBK8|A0A0P7GBK8_9MICC
+MTRSTPQETKAPQSGADPLILERLKANIGKLSTATLKQLDVSLPWYRGLRPDERSALGMV
+AQKGIASFVNWYERPASPAWVLSDVFGTAPTELTRAISLQKALALIRVVVQVVEDRVPEL
+AAGSVQGPLREAVLRYSREVAFAAADVYARAAETRGAWDTRLEALVVDAILRGESSDALR
+SRIAAVGWTSTAGVTVIVGSSPADPSPSFVNELRRVAGRLAEDTLVGIQGDRLILVLGGM
+SEKSGALSRLADLFGPGPVVYGPPAESLVEAGPSAQAAFAGLTAARAWPAAPRPVAADDL
+WPERVMSGDDTARKALVRSIYRPLLAASNGLAETLSAYLSLGHSLEATARELFVHANTVR
+YRLRRVCDITGWDPMLPREAFVLQTALVVGRLSPAGKAVPERQAARS
+>tr|A0A0P7FZS7|A0A0P7FZS7_9MICC
+MAQRKLNQPLETVQERAAQAAPALDAFDALGGNDNPRTALRVISEVKRSSPSKGALAEIA
+DPADLAVRYEQGGAAVISVLTEARRFNGSLADFDAVRTAVGIPLLRKDFTVDPYQIWEAR
+AHGADLVLLIVAALDDDQLRSFLDLTHELGMNALVEAHTAEEIQRAGAAGARIIGVNVRN
+LKTLDVDRSVFASLSESIPAGAVVVAESGVRDASDVAHYAAHGANAVLVGEALVKHDDPA
+ATIAEFMETGAAAIADRLQASGR
+>tr|A0A0P7FI50|A0A0P7FI50_9MICC
+MRSPLRKLPALLAAGTLVAASVLAAPPASALTDPDAGAAAPKVRTDVVVQSFDGTPIHTN
+FFPALGLQAGEKAPTVMVGPGFGLPGGRIPSTSTSTLIGSIGLAPLREAGYNVLTWDPRG
+FGFSGGEAYVNNPAYEGRDGQVLIDFIANQPEAALDAPGDPVLGMAGASYGGGIQFVLAS
+MDDRVDAIAPTIAWNNLTTSLYKEGSFKSGWGSLLCLEGTLTGQLGELVGNSGALAAPVR
+KACREGMRYPNTLSPESLAYFESLTPQSMFTSITAPTLIIQGTVDTLFTLNEATRNYNLI
+KSAGTEVKMLQFCGGHGLCTSGVAGPDRITGAVLNWFSKHLDGNDVSTGPGFEFIDQLGT
+SRAADGYPAPVGSLTGTGKGTLLLSPAAVSGGVIAAAWAPVAVNAPVTAPAAATQVFGAP
+QLTLTYRGTSRTPNTHVYAQIIDKSRSSLVAGNQVTPVPLILDGTERTVTVPLEEISYLV
+TPQSRLVLQVTPSSSVYISPKVTALTSFTASVSLPVIADYPVVQ
+>tr|A0A0P7GW17|A0A0P7GW17_9MICC
+MRDRIRLSGLRATGYHGVFEHERRDGQEFTVDLVLYTDLRPAAAADDLTLTAHYGELAEQ
+VCAIIAGDPVNLIETLAERIAAAVLAGFSVVDAVDVTVHKPHAPITVPFADVEIQIHRER
+A
+>tr|A0A0P7H5C2|A0A0P7H5C2_9MICC
+MLTGLTDRLKHAAKSGGEDGSAAVEFVFLGVLLLVPLVYLIVAVGQVQGAAYAVVGAADH
+AAKIYAAAPAGTAPESQARAAAELALSDFGFDPNGLELQISCSPECSAPGSTVTVTAALD
+VPLPVVGAMPGMNLAPVRVDSTSMQTVERFG
+>tr|A0A0P7GI23|A0A0P7GI23_9MICC
+MTRGRLNLVFLQKALSPAQVEFLVGGNRDTVSGFVVNAGDAVNARTPEDLFAVHGLDFPG
+SPWDRSAGYVDVLRFQVPLSVYVHDAAGPEFVDRPPFTGTGFAGWSGGVVPVYFLDECAL
+PPGAELWRIRAGQPEELIAVYFEVATGWGVSDTSGISRPGAHTPSHIMGWSAVWQGQVFR
+ADLVNEGRSVEVAAASDPGVEGFEQTPKGVWRRTVGLGEIQDFYELLATCSWQGEPFRIT
+DAAQGEDGQVYRLFYTGHNADRAEALGLNKADAGVYWTVVPASQVQDVQVVQNRLPSLAF
+RGWPGD
+>tr|A0A0P7GA50|A0A0P7GA50_9MICC
+MITAFVLIQTDSARIPECAEEISEIEGISEVYSVTGEWDLIAVARVRRHEDLADAIANRL
+SKVPGVIGTTTQIAFRAYSKHDLDAAFSLGFDG
+>tr|A0A0P7HDE2|A0A0P7HDE2_9MICC
+MSIEATPEDPQCPADAGMQAPAEYVPWCSYCGTDEYLIIESVEPSRTADAAEFLEISYTC
+GECDRFYGHPVRHSPLWARVATAEPADTTEYLHCGEPMKPKDTRTVSLSEPLSTEADADT
+GDVRLEINILRCDCGFQIELPA
+>tr|A0A0P7HNP2|A0A0P7HNP2_9MICC
+MASSGPKLDGLRRRQLGGSYRTGAEHYDRIRPGYPAEAVDWLFGVPSLAERPAASISVAD
+VGAGTGKYTAALLSAGFRVHAVEPSADMLAQLSRTLPDVPVTEGTAEHTGLPDTSFDAVT
+VAQAWHWCDPAAASAEFARILTPDGFAGLVWNQLDVNVPWVHRFSRIIHAGDVLRPGFRP
+ELGPQLQLQEFHTTSWSVAMTPEDLAELAKSRAYYLSASESTRAKVLANLSWYLYEHLGH
+APGQELQLPYLTFTWRAVRA
+>tr|A0A0P7GIJ9|A0A0P7GIJ9_9MICC
+MDRSISAVSRPVAVTARDWGWRHAGRKAPAVQGASFEISAGERVLLLGASGAGKSTLLHA
+LSGVLGEDTGGTESGTLALDGVHPQSARGRAGLLLQDPDSQIVLSRVGDEVAFGAENLGV
+PRTEIWARVQSALDDVGLALPLNHSTAALSGGQKQRLALASILAMSPGLLLLDEPTANLD
+PEGVLEIRDAVARVLDRTGATLIVVEHRVAAWAELVDRVIVLDAGGGLLADGPPQEVLTA
+ERTRARLTEAGVWLPGAAQSIPEPSAADPSAEALLNARELEVARTAKGPAVLSGVSLSLK
+AGDALGITGPNGAGKSTLALTLGGLLRPRGGTLEAAPGLAREAGSIPSKWKSAQLVTRIG
+TVFQEPEHQFLTGSVRDELAFGPRHAGRGDSETAATVESLASRLRLHGLLGVNPFTLSGG
+EKRRLSVATMLATAPDILLLDEPTFGQDANTWRELVALLAEQRRDSGCAVVSVTHDREFI
+AALGGSVLQVQNGTARLLPSPQRMTGEAA
+>tr|A0A0P7FYL2|A0A0P7FYL2_9MICC
+MSVQELEAIPALGRLYLTAASNAARSRISPSSAPKELPAARHTVHGARVDLSRLSEFQRL
+VMHSAQDTLPSGYVHTFAFPVAMSVMAREDFPLPLLGLVHLRNEVQHFRPIHYSEPLTVT
+AWAENLSGHRAGTQVDLIAEVRAGDEVVWTGRSVYLAKGVFLPRFDRPVSTGERTEFVPP
+LPTAQWRLGADAGRNYARVSGDFNPIHLSALSARALGLKRSIAHGMYMASRVIAETGPAV
+QEPFEWSIGFESPVFLPASVSVRISDAGAPGERGTTSFQGWNQRSRRRHFHGWARPIPVG
+APSEAG
+>tr|A0A0N8HXW6|A0A0N8HXW6_9MICC
+MGQAVTARRAPAHAGSGGQEQVSAGVLPRVAGYVWCAAILWLLGSNIVAPSFGSTRYQTL
+AALLAAAAILLLTLGVPWLLARLDMVFRRHSWVLVIGSVAGWGAVFAAIARLADAVRLPP
+DWDAYPVFNSAAALAAENTDEANHSYFRVNPNNVLLTLLLSRYLAAAEDLGSVDLRQSAA
+YLSAGVLFCGMILTYAAAAMIAGRQAARLTLVPSLALTGASPWLPVLYSDTAGLVFPVLI
+LCLLLLAGKSVLWLRLVLWALAGALSAAGYGIKPTVLAVLAAAVLVGLFSLRGPTWKRQL
+LGTLLTAAVAAAAFGGMRQAVHSWEQSSGIYGAGGTAEAALPPTHFLKVGAQHYPGPYGE
+FYGAFNQADLSGTLESAPGQERFNAGLEAYRDRVTAMGPAGYAGFLNAKLRWITGDGSFF
+SWGEGQMKAENFLADDPLSRTIQDFYGPGRPGFDFLRSVWQGTWFIVLALCGAGLFLRSP
+ALVSQPAAIARISLACLFVFLMFSEGRARFLYLYVPFFIVLGSLSLLRLQQLVRGHPARH
+RERRRGQAPSSAAEVVE
+>tr|A0A0N8HY68|A0A0N8HY68_9MICC
+MEDGFPYLPSGSQIILDRVAQQTVLANIRDQLRVNRKQLVAEVRSYGEHLLEDYLRESGR
+DLPDVYRKTGDSWTSLIREAGLVDISQAHDVVLASQLNETSELEEDLLRRMTAMLCVDDP
+ERAETYTKLVSEDAPPYAELSDREQILARMLFFALWPNGGGHTSYDAGLQFLRSYPLVCA
+EIRQLAALGVQRSGYAPKGLGLGMQQVPLYSHTTYRREEVLAALGYFGLGGKTSHREGVA
+WCEETKTDAFFVTLEKDEKERAASIMYKDYAMSPEVFHWESQNTTSPESVTGQRYINHKA
+LGSKVLLFTRPRQRDENGMTMPYTCLGQLDYMSHSGSKPVGIVWKLHRAMPADVYVEASA
+VAH
+>tr|A0A0N8HY58|A0A0N8HY58_9MICC
+MTNALQLSVPDGVPYIDYSREVDFPVADVFNAHRDPELISQWLGPRGMKMEMDHYDFVTG
+GTYKYTHTGPDGVPYDFSGIFHTVRENEFAIQTFEFSGYPDVVSIESLTFEDLGNGRTRL
+TSHGVYPTMEARDGMASSGMEDGLGQGYDRLEELLASLAGARSPQEAS
+>tr|A0A0P7G5K6|A0A0P7G5K6_9MICC
+MVSWDIDLAAARSVVNRTADEAASLADAARSLQEAAEGAQAAARSAVVGDALKAAYEEYA
+GLLIANARKRAETSCTSLHQALDAYQNADFDMAARAQANAAAAG
+>tr|A0A0P7HVL6|A0A0P7HVL6_9MICC
+MDFPLNSSLVLAAAVGLWLLWVAPQYLHGKQVPAPSQGRAGTAVRAASSAVTEPDPSSQG
+KTMHNTSTGVQHTPLPQGGSGHGSGSPAGQATPANASRSLQVRYGRLTLAVLGLLFILTF
+LAGGTVALFGPLSGWIPAGAALGTVAVFASLRSLAVRDLRARRARQAAAAARRKDSVPPA
+APAPHNPRADKVFDAVGEDAARKAASPAAAEPTRPEAPQPKPVPRLTAQELRAAALAEAA
+KSAEASSWQPVAVPKPTYVDAPVAQRPAPAPLAAPASPRPVLKTPIRPVATPAAGSTAIE
+PRPATGILNLDDVLQRRRA
+>tr|A0A0P7GSC7|A0A0P7GSC7_9MICC
+MVTHLLLEAYEDDEVASAFQSAMPTDDIFLSPVVPSKSIAAARAWFTELLRDESRLQPYK
+APVYWAERTGASGTIAADKPYESFAEDFFELIDELQEAGYFPKVLKKDCVDDPIDLDDVR
+KTIRRATRLDIKWPMTPGDILSLSDDAVYSLVEYFHDQAQRPRTATLHSYGDCGLHFQNW
+NSQTGQSVYRWRLNALLENHGVPLRIGPTGEEQGRLIRHFGSPLDDLAESEVDRRAEEPE
+DEVAHAVRKYRARDASVVEKRSAIVMLYGEMEPKRKRIESTLSSSDASDLFRIANKFNLR
+HRGQSQQTEYGEEFLDWVFWTCLATLRLLVDLDTSGPPSGNRVE
+>tr|A0A0P7FG80|A0A0P7FG80_9MICC
+MNRKTLKDDGFAGFRQIEHLEVNRIPQRQGLFAILRPEGFEPRYLPKSTAGVFKKKNPSL
+AEAELAGEWVAEADILFIGKAGPGSNGNRGLRRQIQEFVDFGKGRPPGHWDGRLIWQLAG
+AGALLVAWKELPVEELNRAHADYHARFRGCYGRLPYANLVQARA
+>tr|A0A0P7GSQ8|A0A0P7GSQ8_9MICC
+MPAELSAVNAGFSYGGTPVLRNVTISVPAGGQIGLTGPSGSGKTTLARILAGLLPAGEGT
+VTCNGQPVQRPWKQKGHGCGIAMLFQSPRASCSPRLTLRQIIAEGAGRTSRGGRARRVEQ
+LAAQVQLTPDLLDRYPSEVSDGQLQRACLARSLAAEPGYLICDEATAMLDAATTASLVRV
+ISSEVESRGMGVLALSHDRPLLEAWCTSVTSLAALSAASGER
+>tr|A0A0P7GUB8|A0A0P7GUB8_9MICC
+MTSSNTTAPADTRALRLFTSESVTEGHPDKICDQISDAILDGLLKADPESRVAVETLVTT
+GLVHVAGEVTTEGYVEIPQLVRDTILEIGYDSSANGFDGARCGVSVSIGQQSPEIASRVF
+NSVENRSGEAQDPFDAQGAGDQGIMFGFASDETSVLMPTPIWLAHRLSERLTRVRKDGTL
+PYLRPDGKTQVTIGYEGDRPVSVDSVVVSTQHAAELEQAQLRQDMIEHVVNPVLAGTELD
+TSGVRHIINPGGPFVIGGPVGDAGLTGRKIIVDTYGGFSRHGGGAFSGKDPSKVDRSAAY
+AMRWVAKNVVAAGLARRAEIQIAYAIGMARPVGIYVETFGTETVDPMKISQAINEVFDLR
+PLGIINALDLKRPIYQKTAAHGHFGREDEGFTWERLDKVEELRRWFNA
+>tr|A0A0P7HCT0|A0A0P7HCT0_9MICC
+MQPLISAEGLSLAAARGRVYGPLSFTVADPLSVVCGPAGSGRTSLLLTLAGRMKAGSGSL
+EVLGHALPRAARQVQKETAIAGFRDIDDLEPGVTVGQALRERLAWLAPWWQFVPKVSDRQ
+AARACGPVFGSSTPVPAGNTVIWNLGEAEQFLLRISLAMLSRPRVLFVDDIEQVHSEEAR
+ALVTERLAALAADGTAVVVGAASLETRLWSGLEIQPSALLIAEEAH
+>tr|A0A0P7G5R2|A0A0P7G5R2_9MICC
+MALTIGIVGLPNVGKSTLFNALTRNNVLAANYPFATIEPNVGVVSLPDPRLAKLAEIFGS
+ARILPATVSFVDIAGIVKGASEGEGLGNQFLANIREAEAIAQVIRVFDDPDVVHVDGKVD
+PRSDMETINTELILADLQTLEKAIPRVEKEVKIKKRDAAQLAAMQAAQAVLERGDTIFSS
+IASDKLDMEHLRELSLLTAKPFIYVFNVDDAVLGNPDRQAELRELVAPADAIFLDAKLEA
+DLVELDEEEAREMLEMSGQEESGLDKLARVGFHTLGLQTYLTAGPKETRAWTIRKGDTAP
+QAAGVIHSDFQRGFIKAEVVSFDDLVEAGSMAEAKAHGKVRIEGKDYVMADGDVVEFRFN
+V
+>tr|A0A0P7HCL5|A0A0P7HCL5_9MICC
+MPESAYGPTNNCIGIGNELLKRGHRVVFAAESSWRGKLAPLGFEEALVDFAPPADEDAGA
+GDFWKEYIKAISPEFRKSTLEQAETVIRPIWEGAIDGAKYCEPELRRIIEQVNPDVIIED
+NVVAFPALVTAGKPFVRIVSCNPLEVPGPGIAPAYSGLGKDDEGAWAEYRAEYERTHKDL
+WEDFNAWVQDQGAPALPRLEFIHSGVHNIYVYPEELDYTGSRPLDGNWTRVDSAVRETES
+AVELPEHFLDASKPLIYFSLGSLGGADVELMQRTVDILGAATEYNFIVSKGPRHEEITLA
+ENMWGSEFLPQTRIIPLVDLVITHGGNNTTTEALHFGKPMILLPLFWDQYDNAQRVHESG
+YGRRLDTYTCTPEELLGTVAELLNDTELQARCRAAGERIRAADGLSAAATALENVAASH
+>tr|A0A0P7GD92|A0A0P7GD92_9MICC
+MKPTVVGMAVGAVLAFTALLFDFWGFLLMALFIAVGAFLGRAAEGKVDFRSVRDALTGRR
+SSS
+>tr|A0A0P7FY59|A0A0P7FY59_9MICC
+MAESYYRSLGEGTFESTRHTQGAWNEDEQHMAPVAGLLVHCLEEAEPRPGMRLARVSYEI
+LGVIPQGVFDVTTKVIRAGRTIELLEAELTAAGRTAVRATAWRLATGDTSEVAAVEDERM
+PGPEDAEGFDGMTAWPGDFINTLEFRAVPGLRPGRGQVWVRSPFEMLDGAATSPTVGLLG
+LVDAANGIAARVPPGGDSWMFPNVDLQIHLHRRPEGRWLGLDTRVSFGTDGIGLTSSVLH
+DESGPFGRSEQILTVRPLGRN
+>tr|A0A0P7GBN9|A0A0P7GBN9_9MICC
+MPRQLVKTHIALIGCVCLCLLGYLSWFESQAQQASAQTARLDFDSPDSLAVVVNKTRPLA
+DPAYIPAELHDAGGVLLRPEAAGAFGQLSAEAAAAGVGITAVSGYRTAADQAHIHESYSA
+SYGAPTADGISARAGHSEHQTGLAVDIGNADGSCALEPCFETTPAGAWAAANAHRYGFVI
+RYPAGATTITGFAYEPWHLRFVGTELAAELHETGQTLEEFAGFPPAPSY
+>tr|A0A0P7FGE8|A0A0P7FGE8_9MICC
+MSSLPRSAGPALEPIREAIRADAAAQSGRILDTAERQAAEIRQRGRSEAEQIRSRAEADG
+REAARAEAQLRSARARRAAGGTVLAAEEELRGELRREVLAQAAALRSGPRYPALLDALRD
+QARELLGPDAHVVEAPAGGVTATLGSRSVDLSLPALADAALERHAGEVRSLWQE
+>tr|A0A0P7G7B0|A0A0P7G7B0_9MICC
+MPQRFSYGSHPEQFGELTLPPPGTPPRGTAVIIHGGYWRSLYSLELGRPLAADLSGRGWA
+ALNLEYRRAGNGGGWPETFEDISAGIDALAELAGFAGTEGIRGPVIALGHSAGGHLAVWA
+ANRDAPRVPLDAVVSQSGVLDLLLAHELRLSDGAVENFLGAAPNAEPERYRAADPVQRVP
+APVPVFVLHGRDDTTVPADLSESYVRAAKAAGGTAELRRISGDHFEMITPGTQAWDEVIQ
+ALEDAAKTASG
+>tr|A0A0N8HZ60|A0A0N8HZ60_9MICC
+MPFVQNYNDDLRLAHVMADSVDDQTMSRFKAQDLRIETKPDLTPVTDADKAAEDAIRGQL
+SRARPRDAVLGEEFGSTGSGPRRWIIDPIDGTKNFVRGVPVWATLIALVDDGVPVVGLVS
+APALGKRWWAATGTGAYMGRSLASATRLKVSNVSSLDDASMSYSSLTGWKQRGNLDEFLG
+LTESVWRTRAYGDFWSYCMVAEGAVDIACEPELNLYDMAALVPIVTEAGGRFTSLEGEDG
+PFGGNALATNGTLHNEVLQRLNPDLDDLF
+>tr|A0A0P7GI48|A0A0P7GI48_9MICC
+MTESTNASPDALGDAETALPPGFTPIAEDPVLGPAIVAGLGKIEDELREAIANSDPFADA
+TSRHLMEAGGKRIRPLLVLLASHLGPNPGNEQVRMAAVVVELTHLATLYHDDVMDSAPVR
+RGAPTAHEVWGNSVAVLTGDLIFARASSLVSVLGAEALGIQARTFERLVMGQLHETLGPA
+DGEDPLEHYLSVIAGKTGSLIAASGQLGALFGGADRETVEIMVEYGEKVGVAFQLADDVI
+DVAGLQDKSGKTPGTDLREGVPTLPVLLLRRNAAAGDTEAAAVLELVDADLSSDEALAAA
+VAAVRGNRATAEAWEVARQWAADAVAALAPMPESLVKSSLAAFAEAVVEREA
+>tr|A0A0P7G4F5|A0A0P7G4F5_9MICC
+MSTASAETPQDSEDEFLWLEDIYGDRQLDWVRARNSETEALLSATGFARTEERLLEVLDS
+TDRIPMVVKRGDWYYNFWRDAEHPRGIWRRTSWEGYTAPETQWETLLDLDALSAEDDTEW
+VWGGARFLRPEDGVSYRRALVILSPDGGDASRYREYDVVDRTFVPGGFDLPVAKTQVSWA
+GPDTLYVATDYGPGSMTASSYPRTVRVLHRGQGPVDAQLYFEVPEDHMMGYVHHDQTPGF
+ERDLAVDIIDFYDSITYLRKDGDWARIDVPLDVNVDLHRQWLVMRPRTDWLVGETLHKAG
+SLLAADLEDFLAGSRNLRTLFTPEPTVSLQSWSWTRDYLLLNLLRDVSSEIQVLDPAADW
+QASELDACPPLHSVDAYAVDDEDEQAGNDYWLVSTGFTTPSTLSRGTLGQPGSPASPVKA
+SPSFFDASGCTVEQHFAVSEDGTRVPYFQVGHKDMVLDGGNPTVLSGYGGFEQALTPAYS
+GVVGRGWLERSYTDGSGTLRRGVYVLANIRGGGEYGPDWHRAALQQNRHRAYEDFAAVAR
+DLTARGVTSREHLGCTGRSNGGLLVGNMLTLYPELFGAVSCGVPLLDMRRYTKLSAGASW
+IAEYGDPDDPEQWEFIKTFSPYHLLREGVQYPPALIWTATSDDRVGPVQARKMAARMKAL
+GVDRVWFHEALEGGHAGAADNRQSARMHAMSYEFLWEALTGRLS
+>tr|A0A0P7G7C5|A0A0P7G7C5_9MICC
+MTSTAARNPVVDEFKDAFRGHPAGVAIITASGPEGPVGLTASSVSSVSAVPPILAFSLAS
+TQGSAGVIAASDTIVVHLLGSGNAGLAALFAARGSERFGPDLDWSTLPGGEPLLGGVPRA
+LVCRILSRTQAGSSTLMAAAVLEIHAGPAAEPLVYHDRTYHRLGSHSALELP
+>tr|A0A0P7GJA8|A0A0P7GJA8_9MICC
+MLQDESLLLRPHLQSDADAVVERSRDPLTIAWTTVPLDYTREMALNYIAAVGVPQQDIVS
+WALEENGEYAGSIDLRRQGAGTGSLGFVTSPRFRGKGLMSRAVRLAVSYAFDTLGWESLN
+WTANVGNLGSYKAVWRNGFPLPVTVPRLLAHRGEMVDGWFSELESDAPRVPRILWSDCLA
+LLPSVPQAPAGPGRPLTDD
+>tr|A0A0P7HUG8|A0A0P7HUG8_9MICC
+MSGHHLKKLMLLRHAKADWPREVTSDHERPLSGRGHRDAPQAGIWMRENDSVPDFILCSY
+ALRTRQTCTWVCDELGEKAPTAKLEDRLYDASASGIISVINHVPETVTSLLVIAHMPGVQ
+DVGMRLASLASNEDAVMEMATHYPTSGLTVMEVEVPWAELDGRDARVTDFVVPRG
+>tr|A0A0P7HUW6|A0A0P7HUW6_9MICC
+MSNHASFIWGIADLLRGNFKAHQYGDFILPFTVLRRLDSVLADTKPKVLEVVADAEAKGI
+PIRPVLLKSRAGHQHSFFNTSRYDLATLVGDAENLRENLLAYINAFSENVRDIFVKYKIE
+DRIEELEDNNLLLLVVQRFAEVDLHPQKVSNAQMGHVFEELIRKFAEASNETAGEHFTPR
+EVIELMVDLLFENDDEALRDGDIVRSVYDPTAGTGGMLSVAEDHLTSMNPKARLTLAGQE
+LNAQSYAICKADMVIKGQSVDAIVNDDTLLYDGHAGTTFNYCLSNPPFGVDWKKQEKTVR
+EEHSERGFAGRFGPGLPRVSDGSMLFLLHLISKMREPGQYSAGGRAAIVLNGSPLFTGGA
+GSGESNIRKWVLERDYLEAIIALPTDMFYNTGISTYVWVLSKEKAPERRNKVQLVDGSKL
+FRKMRKGLGSKRNELGPKDVQAIVKLYGDFMASDQSKIFDTTDFLYRTITVERPLKLNFA
+TTPDRIEAALAVKAFSKLTAEAMANVRTALETMDTGVVWKNRDEFTKALKKQLRATGADL
+SGPHLKALVAGLSERDDTADVCTGAKGKAEPDPDLRDTENVPWNEDIHAYVEREVKPFID
+DAWIDEDKTKDGCEIPFTRHFYEYIPPRPLEVIDADLDAVLGRIRSRLEQVKA
+>tr|A0A0P7GBW1|A0A0P7GBW1_9MICC
+MSAYAAEEDFALAASLVREAGALALAMRREGLTGKQKTSVSDVVTAADHAAEELVLETLR
+RLRPEDGILGEEGASHEGTSGRTWVIDPVDGTYNFLSGSTYWCSALALRDDREADTVSGN
+PPVLLGAIFQPQEDRLWLGGPGHPATLNGEELPALKDADLDRLSAGTYLHPTWLKREDVA
+GPWTRAASGAATLRMLGSGSCDLGSVATGRLGLWFQHSCPEWDWLPGKAIVEAASGTTAV
+IEVRGFRWYIAGPAAAVREVQRRLADS
+>tr|A0A0N8HXW9|A0A0N8HXW9_9MICC
+MSNTPAPAPAARKAELSAGPATGKLVRTLAVATLVANIAIVVTGGAVRLTASGLGCPEWP
+LCTADSLVTTPEMGVHGIIEFGNRLLTFVLAAIAFGMLASVWKARSTRPDLLWLSAAALA
+GIPAQAFIGGITVWTDLNPWVVGLHFIVSMVIISVAVVLVNRAWLTSGQLAEGNAPLADR
+PLRPLVWAIGVLTAITVVLGVMVTGSGPHAGDHGAARNGLDPDFITRLHVVPVYLLVFAT
+AVALYLVYRRTADVRLRRSLVVFAVVVLAQAVIGYVQHFLHLPIVLVALHMLGASLLTGA
+AAYVVYTALSHKVPGAVDASSEARD
+>tr|A0A0P7FE70|A0A0P7FE70_9MICC
+MAVSNLEGTYNFRDTGGTPLAGGGRTKPGVLYRSDALSNLTPQGLQQLSGSGISVIVDFR
+TPAEAQMAPDRLPVSVEFTKVNLPLLEGAFTGTAQEAMQRAGLHPEAAARAVQAALDRLP
+DLGEVYTGMLEHGAPEFAATARAITSAQGSTLVHCTAGKDRTGVSIALVLDAVGVEQDAV
+IADYQQSERSLAGEWSERMLGMVASMGVPVNEQIVALVTRAPADAIRTALAWVQEHHGSS
+AGYLRSGGLTDAELFELRARLRDQDHPAA
+>tr|A0A0P7FF18|A0A0P7FF18_9MICC
+MAVPKRKMSRSNTRARRSQWKATAPNLVKTVENGRVTYSLPHQAKVVTDSAGTALFLEYK
+GRKVADV
+>tr|A0A0P7GDQ9|A0A0P7GDQ9_9MICC
+MSQLLSLRDRKRAETWAALHAAAARRAVEDGLEGVNVEVVAEEAGVSARTFFNYFPCKED
+AVLGLRDPWVDPAMLESFDIEGDLLAEVSTLMLSVLRTIQGGEDSAEQRARIYEAFPHLR
+HQRYQYILKVEQLVLETVRNQLAESRRWREQGPDSGWYGHDVDDVAFTIVLTASTRMRYV
+MQKTWLTPTSTAQFEALDQGLELLRDVFKELL
+>tr|A0A0P7H3W1|A0A0P7H3W1_9MICC
+MSEQPPVKQHGDALENLYHESRSFPPSAEFAASAVAQPGLYEEAAASGPEFWARQARELL
+TWDEDFTQTLDWTDAPFAKWFVGGKLNASYNALDRHVEEGRGDRVAIYFEGEPGDTRTYT
+YAELTEEVKKAANAFESLGVSKGDRVAVYLPMIPEAVITMLACARIGAVHSVVFGGFSAD
+ALRSRIDDAEAKLVVTADGSYRRGKPSLLKPAVDESLVKEGHTVSNVVVVKRNGEPVEWT
+EGRDLWWDDVVGSASGEHTAVPHDSEHPLFILYTSGTTGKPKGILHTTGGYLAQTAFTHR
+ATFDLKPETDVYWCTADVGWVTGHSYVTYAPLVNGATQLMYEGTPDTPHQGRWWELVEKY
+KVSILYTAPTAIRTCMKWGRDIPGKFNLDSIRVLGTVGEPINPEAWMWYRTVIGGNGGKK
+EVPAPIVDTWWQTETGAHMIAPMPGVTATKPGSAQVPVPGISVDVVDEMGEPVPNGSGGF
+LVVKEPWPAMLRGIWGDPQRFKDTYWSRFDNMYFAGDGAKKDEDGDIWLLGRVDDVMNVS
+GHRLSTTEIESALVSHPSVAEAAVVGATDDTTGEAVVAFVILRGSAKDDDDIVTTLRNHV
+GKEIGPIAKPRHILVVPELPKTRSGKIMRRLLKDVAEGREPGDSSTLADNTVMSQIAESL
+RK
+>tr|A0A0P7H4M7|A0A0P7H4M7_9MICC
+MATPIKVSAVEEITNDFKDSTAAVLTEYRGLTVAQLKELRRSLGQDTKYSVVKNTLTGIA
+AKEAGIDAFDGQLSGPTAIAFIKGDAVAAAKSLTDFAKTNPQLIIKTGVFEGNALDASGV
+AALAALESREFQLARVAGVLKAPMSMLARSVDALRVKLEEEGGAAAPAAEEAPAAAEEAP
+AAEAATEE
+>tr|A0A0P7GLU7|A0A0P7GLU7_9MICC
+MPLTGEYAPSTSKRSREQAEEIESSGGTRGTTLGGRPVVLLTTKGAKSGKLRKTPLMRVE
+HDGDYAVVASMGGAPKHPVWYFNIVANPHVELQDGPQKWDMQAREVTGDEKAVWWERAVA
+AYPPYADYQARTDREIPLFVLERMD
+>tr|A0A0P7GJ87|A0A0P7GJ87_9MICC
+MTNPATPPIEERPVLVVDYGAQYAQLIARRVREADVYSEVVPHTYSTEDLLAKNPAAIIL
+SGGPSSVYAEGAPKVDPELFESGVPVFGICYGFQAMAAALGGKVAETGLREYGSTDASAL
+GAPRSILEGTPEHQNTWMSHGDSVQEAPEGFEVLASTAGAPVAAFANEEKKLYGVQWHPE
+VKHSAHGQQVLENFLFKGARLDRSWTTGNIVEEQVERIREQIGSARVICGLSGGVDSAVA
+AALVQRAVGDQLTCVFVDHGLLREGEAEQVERDFVAATGVNLYVANEQERFLNALAGVTD
+PETKRKIIGREFIRAFEEAERAIMAEAKASGEPIRFLVQGTLYPDVVESGGGEGAANIKS
+HHNVGGLPEDMQFELVEPLRLLFKDEVRAVGRELGLPAEIVGRQPFPGPGLGIRIIGEVT
+RERLDLLRRADAIARAELTAAGLDDDVWQMPVVLLADVRSVGVQGDGRTYGHPIVLRPVS
+SEDAMTADWSRLPYDLLARISNRITNEVDGVNRVVLDVTSKPPGTIEWE
+>tr|A0A0P7FAW3|A0A0P7FAW3_9MICC
+MSTRILVVDNYDSFVYTLVGYLQELGAETTVIRNDDLSADQAREMAAEHDGVLVSPGPGA
+PAEAGICIDLIRWCSTNNKPMLGICLGHQALAEAFGGTVTHAPELMHGKTSQIQHEGTDV
+FAGLSSPLTATRYHSLAAVAESVPEELEVTARTQSGIIMGLRHRTAPLSGVQFHPESVLT
+EGGYQMLGNWLETLGLTGAAAHASTLSPLISSAG
+>tr|A0A0P7FEQ5|A0A0P7FEQ5_9MICC
+MATVILVRHGRTTANASGLLAGRTPGVSLDDTGRAQAAATGERLAVVPLVGVVSSPLERC
+RQTAQFILDSQKGTPHAPVDDDLTECDYGQWQGGALADLAKEELWKVVQSQPSAVTFPGG
+ESMAGMQARSVAAIRRHDAAFEAEHGPGAVWAAVSHGDIIKSVLADALGMHLDMFQRIDV
+GPASLSIVRYGPGRPTVHATNTDTGDLSWLAAVHGQDDAPVGGGAGHAAPPAQGA
+>tr|A0A0N8HXT7|A0A0N8HXT7_9MICC
+MNHNFGTPGSAAPQMPTSRYVLPQFEERTPYGFKRQDPYTKLFEDRIIFLGVQVDDASAD
+DVMAQLLVLESTDPDRDITLYINSPGGSFTAMTAIYDTMQYIRPEIQTVCLGQAASAAAV
+LLAAGTPGKRLALPNARVLIHQPALGGGERGQASDLEIQAAEVMRMRTWLEDTLALHSNK
+TSEEVNRDIERDKILTAAGALEYGLIDQVLDSRKIKTPAINKS
+>tr|A0A0P7HCT4|A0A0P7HCT4_9MICC
+MDWKIELVPVPVSDVDAAKHFYVNQVGFAADHDHRVDDSLRFVQLTPPGSACSVVIGEGT
+TDMVPGSQRIQIVVPSAAEARQHLLDGGVQASELAPLEWGTFVYFSDPDGNQWSLQELPA
+VSPI
+>tr|A0A0P7FTT0|A0A0P7FTT0_9MICC
+MKREKDLVDKDDGHPVRDPAAWPNNGLGLPSSRVEHSPVIPELKASKGVPLQDGAEMWRI
+DRDGKETLAAVYNRRQQRWISL
+>tr|A0A0P7HDE5|A0A0P7HDE5_9MICC
+MSTDILTPLLTGFVSGLALIIAIGAQNAFVLRQGLRREHLPAVVAVCILSDAVLILAGTA
+GVGRLTQSAPLALDVIRWAGAAFLLAYAFLSLRRALRPQSLRAADAGRGTLAAALITCLS
+LTWLNPHVYLDTVVLLGSLAATHGPDGRWIFAVGGVAASAVWFSALGFGARLLAPVFARP
+RAWQILDLAIAVFMIVLAVSLVTGSL
+>tr|A0A0N8HXK5|A0A0N8HXK5_9MICC
+MKLELKGITKRFGTLVANDHIDLVIEPGQVHSLLGENGAGKSTLMNVLYGLYEPTEGQIL
+INGKPVVFSGPGDAMAAGIGMVHQHFMLVPVFTVAENVALGNETTRAGGSLNLETTRARI
+RQISEQYGFDVDPDAVVEDLPVGVQQRVEIIKALIRDAEVLILDEPTAVLTPRETDELLA
+IMRQLCDDGKSVVFISHKLREVKAVSDVITVIRRGKVVGDAPPSASTTELASMMVGRSVS
+LNLQKEPAKLGEATFQVRDLVVLSDTGQAVVDHISFEIAKGEILAVAGVQGNGQTELTEA
+IMGLQEHVTGSIKLDGEELIGKRVAQIIDAGVGFVPEDRSVDGLVGTFTVAENLVLNRYN
+KTPFAKGLSMRPAVVAANAAEKIDEFDIRTQSAEAAAGTLSGGNQQKVVMARELSRPLSL
+FIASQPTRGVDVGSIEFLHRRIVAERDGGTPVMIVSTELDEVLELADRIAVLYSGRVMGI
+VPGNTSRDVLGLMMAGMSAEDALSHQSENEGGAQ
+>tr|A0A0P7GHP5|A0A0P7GHP5_9MICC
+MGRGRQKAKATKQAREMKYFTPATDYSALQRELSGPSSRPSSRYPEEPAEPDYSAYEDKY
+ADQFGDEDDDDEDSRRIG
+>tr|A0A0P7HVP7|A0A0P7HVP7_9MICC
+MSVPSPREDLASRIVADTASARVPQIPEARSRRRYAVAIGGILTLVSGFVLAGAYVLGSI
+ADEPLSAPRQAHLLAGWNQLAEQRSLSAEELQSLRDAGWSCPELTELGFTLASARTLEVA
+GHPAVAMELTRNGETVRVYEQRPREGDANPEVLHALTGRPAALEGFSAPDAGQSTTPRLW
+RNEERPGEAVLSARNVTYTLATSKPDETMSSVVGELSLSESARLLVPSGDADSGAAERIL
+RGLALLAGAGRSS
+>tr|A0A0P7GH95|A0A0P7GH95_9MICC
+MFHIAPANNDHRVAIRCGIGIGVPLLTLLLLGRIDLAIFVAFGAFTGIYGRNEPHRQRLG
+HQMRAGTLMFAVILAGVLTSRLGPGEWGIVLGTTVVAGLGTVATGFWRLRPAGSLFHIFA
+YAAISSVPGHPPIWQAMLAAGATIAFALLLGCSGMLRARYRTPWEKPVRLPLSSAQRKAV
+WTDGGLYAVAAASAGSIATLLGIGHNYWAMVAATVPLVGATFRHRIHRGINRMLGTFGGL
+GITAVILLAGLAPWQLVLVIALLQCGAELFIARNYALAQVVITPLALLSTELSHASDPVT
+LIQDRAVETVIGAAVGMALVILLQVRANRVQPRKSGTHPGAAARA
+>tr|A0A0P7GIU7|A0A0P7GIU7_9MICC
+MSERVVITGMGAQTPLGGSWPLTWEALKEGKSGVDRITAFDASEFPTRIAAEVKGFDPAA
+WLPVKRINRSSRASQLAVAAAREAAADAGFGTTLEELDAAVVINSAVSGYPEVQDATRLF
+DAQGIRPVSPSFVASSLTNMPACEVAIDLAVHGPVNASALACASGTHALLEARRTLLAGD
+ADVVIAGGTDAAITPVMFAGLTTMRGLSRSNDVPQEASRPFDVERDGFVFGEGAVVCVME
+TLEHARARGARVYAEVLGGAMTSDAFHIVAPEPSGKYAAEAISRTLAQARLDPGEVDLVC
+AHGTSTKANDRTETLALHSVFGEHAGSLAVTAPKSMTGHLIGAAGTLASLLCAMSIVEGV
+VPPTINYTTPDPECDLDYVPNTAREQEVQYAVTNAFGFGGQNCVVAFGRV
+>tr|A0A0P7H828|A0A0P7H828_9MICC
+MSKPKNGAARTAGALAVALGVSAASMLAGCGVQEPEPYRTVLPAPSPAVSVPATVQAQAP
+AQQYVPAPAPTPESETPDPGLESNAGDPADSGMPGSGESGAVPPAPAPAQIQIPAPAPAP
+TPTPEQLELAGRVVWDPSERDRAAAALAEADAYTAAHPDTAEAAVFSSIRRDLACGSGEN
+GTALVTRALRAAGYTFSGLAPQDIVSWFAAHPGSGTLVRDPGAARPGSVLLTTGACGTQT
+LGVYLADGLAVFAGADVPASAGFTAFGTARIAPVDQLPPGVPALPADPVYVRVAPYV
+>tr|A0A0P7FEV8|A0A0P7FEV8_9MICC
+MEPRRFQLEGPSIDALKAKVLAEHGPRARIIGAEKVTVGGIGGFLARHHYEVTVELPPRG
+RRAAPVEADLPSRAGIGALLASAEEAESKLSPRTPPLPDVSTATSAFADLIADLSQNTGA
+PARAPEPARAPEPARILEPVEFPQISSPGPGDAVQRQEVPSPLAGAGDLVIVVGLGQDPM
+LVCESMAAAAGFSAQALRAAGAVDGGGVGRAGDRRSVATARAAGVLAGHPIFLAYGIGRG
+VSEIARHTTLISALSPDQLWVAVDAGRKTEDTAAWVGAVRAAALVHAVAVEGLEGTSTPQ
+TVNTLGLPVGWLDGAAAPAPIL
+>tr|A0A0P7G4D0|A0A0P7G4D0_9MICC
+MTGSSGGASPSSSGSPDASADASAPEGIWGNPENTREPSLELHEDGRLTGTDGCNRLMGH
+WVLEDGTVRFQEVAMTMMACPDVDQWLASAASAVPSEDTLLVYDGAGNEIGTLTR
+>tr|A0A0P7HLZ7|A0A0P7HLZ7_9MICC
+MASRHRHPGKVLAGVRLPLLPLKNPELIDPAGSACGVRTREATMGIQPNDPMYNYNQGYP
+GGRRSNQGWGMALAGLILGIIALGLFWIPVINFLALVLAIIGLGLSIAGLVIAVRNQSSA
+KGLSIAAVIVSGIAFLLCVASTFLWSALFSAVDDDSTRRTPAPAVTVTSPATTDGTTPSV
+SPSAPGTGGTGTGGTGTSGAATGSAATSSPTP
+>tr|A0A0N8HXV0|A0A0N8HXV0_9MICC
+MSTQQSTTGFKRRGRSTRPDLLVAVVGVVAFLPILLSVVLFAVTLISFVQRTGAVWTQVA
+MYLPFVALAFAALLTWRAMRRAETNRKAWAMCLVTVTLLISAAFPPVYSLGKGIAEELCE
+SAPGGRGYAGTSLEAPGVCGWART
+>tr|A0A0N8HYZ1|A0A0N8HYZ1_9MICC
+MSSQSQTQNAPAPDPHSSGRRAAVVINPTKKTDVDIRALVEDICRSEGWAEPLWLETEAD
+DPGHGMAREALKQGADVVIAAGGDGTVRCVAAELTGTDTPLGLLPLGTGNLLARNLDVPV
+DDPEGAVRTALTGTERRIDVVHVKVDEAVDSEIFLVMAGLGYDAVMMGDTNTSLKDRVGW
+LAYVDAGIRNLPGKPVKTMISIDGGKPFSRRLRSVMGGNCGKIMGGLEVFPGAKIDDGLL
+DIMTMAPKGSLGWLSVAAGLLRRGKGRGTAVEYFQCKSADIWADTPQDFEMDGDHLGSAT
+RLSLRVDPSALRIRMPHGKKDPAILTNPEP
+>tr|A0A0P7HV17|A0A0P7HV17_9MICC
+MIPSSDPRCTAFAPGHKIHWIHGGRLMKYDDWIDVEVHADPELDLICLVLDGRQQIMWHH
+DVPLLAEALAASPGTPQWCPRYSSLMVPGAFEGRNRSSFFYLATTERVFPCRGRLPRNDI
+TMQDQSA
+>tr|A0A0P7FQA0|A0A0P7FQA0_9MICC
+MRILHTSDWHLGRSFHGVGMLQAQRSFLDQLLATVREENVDAVLISGDVYDRALPGVDVV
+GLLDEALASITAAGARVVLTSGNHDSAARLGFGGRIFEQGGVHLRTGIAGITSPVLLETG
+SSTVAVYGIPYLEPRLAAPELGKDISPTHAAVLGEAVNRIRQDVSERREAGHPVQPVVMA
+HTFASGGITSDSERDLTVGGVGAVPLDLFSGFTYAALGHLHGRQELAPNVWYCGSPLPYS
+FSEARQSKGGLLVDLGGEGLRSVTPVPWTAPKRLEILRGTLEGLLADPGLTDAEDAWCQV
+TLTDDSRPAWAMERIRSRFPGTLVLSFEPASGSRGVNESYSQRLAKATDDLDVCCGFLDH
+VRSREAAPEETDLFAEVLRKVNAAEVAK
+>tr|A0A0P7GDR9|A0A0P7GDR9_9MICC
+MEFLILLIGLLFGTVLVVGIGERIRLPYPVLMLIFSALFAFLPVIPEIHIDPELILPLFL
+PPLLYAAAQRSSWSVFRLRWRSLVLLAVALVAVTVGVVAGVSWAIVPALGLPAAIALGAI
+VAPPDPVAVEAVAGKVNMPRRLITVLQTEGLFNDAIAIVIFQAAVAAAVSGGDVGWSIVP
+SFLIGAAGAVVLGLGMGWLVGALNRFVPNLVARSAVTLVAPYAVYVLSEELHFSGVVAVV
+VTALELGRRARPQDSEERLTRTAFWEVVELLTTGVAFGLVGIEMRYVIEDEGREIFGYIP
+GVAAVCAAVVLVRFLWMYCLYRFGGTERRNRVPGSAKEVLVLTWCGMRGLATLALALALP
+STTLAGEALPGRNFMIIAAGSVLLVTLVLPGLTLPWLMRRLKLPSDHGAVARQERELARR
+AERVAMETMKRSKAGDKLPPERRAALARRMSSLHSILERDSEADPQKMLQLKATLEIMDA
+VQREALAAARKEVLAARRQSGMDPEAVDRVLRRLDLRTVTLDRGGH
+>tr|A0A0P7GED1|A0A0P7GED1_9MICC
+MAVQNPAPSTARSSAVMAAGTMVSRVLGLVRTSLLAVAIGGSFGVTDLFGIANVLPNFIY
+LLVAGGVFNAVLVPQIIKASKREDRGAEYVSRIMTLSLVFLAVIALVVTVAAPLILSVVV
+ELDEQQLALTTVFAYWLFPQIFFYGAYAVIGQVLNANGRFGAYMWAPVVNNVVAISGLIL
+FINLIGRESTERFSPDNWTNSATVILAGSTTLGVALQALVLLFPLKKLGLGLRPTFGFRG
+VGLGETARVAKWTIITMLVGNGAYLVYTNVASIATKARPAYLAMDPPQLIAGQVNLETAA
+MLYIIPHSVITLSLATVLFNRMSHAYVERNLDAVRATISRGLRVIGVATVFSAAVMVVLA
+GPIGMWFGGGSNATAAIQGQVLILLAVSSPFLSATFLMNRAFYASEDAKTPMVMQLILAA
+LGISLALVASSLPANHIVYGLAVAYSIGNIAAVVLSHIFLTRKLGHYGAARVFDVHVRLT
+VAALAAAAAGVAALAVLGGYSPDGFAWSSLISATVVLVVCAALMAGVYFVMLRLLKVREL
+DELLEPVLAKLARRA
+>tr|A0A0P7GIT5|A0A0P7GIT5_9MICC
+MSTRAELVTPALLRSWQVSRDAEGKDDRGTVLVIGGARRTPGAAILTGRTALRAGAGRLT
+LAVAETAAVASAVVLPECGTVGLPENGERINGNAAADALGTDLDSADVLVVGPGLDDAED
+TADLLRSISPRIPEGASVVLDAYALGVLPGLPELRELLSGRLVLTPNRTEAARLLDTDEV
+QDADAAALEIARVYGAVVTSKGRITAPDGRAWEIPAGNPGLATSGSGDVLAGAVAGFLAR
+GASPDQAACWGTYLHAAAGDRLSSSKGPLSFLASELLEAMPQIMTELTV
+>tr|A0A0P7GU43|A0A0P7GU43_9MICC
+MALRGKSLPKPSMAAVSNRLTGMLRYTRFQLAVKAAVAVGIAWTLAPLVPGVAAEYPYYA
+PLGALVCMYPTVAGTARAGIQTLIGLAIGIGLALIALLFGGPTVWTIALIVGLGVLLAGI
+PNLGAGRDYLPVAALFVLVLGGDDADGYSYGYAVQMLVGVVVGLTVNAVLYPPLHLNGAV
+DGLASLRLTLARQLREMGMAVGESWPPEHEDWSNRRTELISFSREVREAVQLADSSRHGN
+LRRRRHQRDLNADFRALRAMERVTLYVEDMTEVLATAIWTSPEETPVPGTVSEALERAML
+ASAEAVETWDADTEEYAEAVQAVQELVTTMNGNASPDTPMDATASLAMSLRRIMRTIRTE
+EDQP
+>tr|A0A0N8HY52|A0A0N8HY52_9MICC
+MTQSAPVRPSAAQGQGVKSAGHVIVDSLIAHGVQRTYVVPGESFLDVLDGLHESPIETVV
+CRHEGGAAYMAEADGKMNQRPGVAMVTRGPGAANAHVGLHTAWQDSTPMVLFVGLIPFEH
+RDREAFQEFDIKAWFDTGAKRVMVLDHPERASEIVAEAFFSAMSGRPGPVVIGLPEDIIR
+EEISGALHPPIPVAPGGMTVTDWKALQAALKDADKPLFVTGGNDWTQEGAETLTRWLEEH
+HLPAAAEWRCEGTVSFDSPSYVGPIGYGRPKPTYDLLEETDLLIFVGTVPGDVITDGFVV
+RQDWEKKNFLVTIDPSLRGRSGPVSYQIVAKPDVFVRDLVMMDLPVKDEWKAWTSRMRQE
+QEKFAALPPAEPANGPARMDTLMANLVPTLPEDAVITLGAGEHTNWAHRYFPTRRYASML
+SARNGSMGYSVPSAIAASLAEPGRRVVTIAGDGEFMMNGQELATAAQYGATPLVIVMDNQ
+EYGTIRTHQERHYPGRISGTQLKNPDFALMAQAFGGFGVRVENDADVPAAVEAALRAIDS
+EKKFALIHLLVEQRVKAY
+>tr|A0A0P7HCZ1|A0A0P7HCZ1_9MICC
+MLVAAAIFTLVSAAIHFYFFGLESLRWTVPETMGVYGITAPQDADTTQPLAYILGFYNLF
+LGVGAVLGVLLLGLGNPVAGLTLISFSTACMVLAAVALLASRWPMARIAMIRGIPALLAL
+VLTLMGS
+>tr|A0A0P7GD52|A0A0P7GD52_9MICC
+MITRFNLPTPGPESLVRAREGWLKERAGLFERFCLPSVAAQSNARFRWIIYFDPESPAWL
+IERIRAWSAGGLFTPVYRSSVGRTELLVDLRSMVSEPAAELMTTNLDNDDGLAADFVDRL
+QHAAGKTGGRRTALYLPNGLILAGRRLFARTDRTNAFCSVAEPWPDAVTCWADWHTLLGR
+SMPVLEVPGPPGWLQVVHGGNVSNRVRGVRAVPEIHSPRFEGLLGGAEAPTAGERIRELL
+LETPRRTAGAGLRTAAKTVLLRTMGKDGLDRVKNRIGAMQGVLVRGQQ
+>tr|A0A0P7GTA7|A0A0P7GTA7_9MICC
+MSTAVVPAQPRTGTSLAGHNRISTQALTSTAQAVSAEHFGIPASAVRVTWSDDQGLLALS
+LALPVTMPPLSAVVKDPGLVERTGGSVWDRVHASKPALLERITYLTGSILSLVDIRVTGI
+RVQEGARVK
+>tr|A0A0P7GSE7|A0A0P7GSE7_9MICC
+MASSSVTGTDGPASDALLKLGRFFTRWDETADGRAVFREGGRKGDAFYRNRWSHDKVVRS
+THGVNCTGSCSWKVYVKDGIITWEAQETDYPTVGPDRPEYEPRGCPRGAAFSWYTYSPTR
+VRYPYIRGVLLEMYREAKRSTGGDPVLAWESLIADQGKRRTWQQARGKGGLVRSSWQEAL
+EMTAAAHVATIRKYGPDRCTGFSPIPAMSMVSHAAGARFINLIGGVMNSFYDWYADLPVA
+SPQVFGDQTDVPESGDWWDATYLMMWGSNIPVTRTPDAHWMVEGRYRGTKVVSVSPDYAD
+NTKFADEWLPAQAGSDAALAMAMGHVILKENFVDRRVPFFEDYVVQYTDLPFLVTLVDGP
+GGTTVPGKFLTAQDLGGEDAQAADAAFKTVLLNRETGAPTVPNGSMGFRYNDDDAGKWNL
+DLQGVYPALSLADGAGWLGETSGVDLPVFSDPSGAGTVVHRGVPVTTVAGRKVTTVFDLM
+LAQYGVGRDGLPGDWASGYDDAATAYTPAWQEELTSIKPSAVIRTARDFAANAEKSKGRS
+MIILGAGICQWYHGDVTYRAILAMLMLCGCEGRNGGGWAHYVGQEKCRPITGWAAMASAG
+DWNRPPRFMIGTAFWYMHTDQFRSDGYSTDAVQSPLAEGHLRGMHSADVIAKSTRMGWMP
+FFPQFDAKNSLDVADEAADGVARGEAPNEARWVADRLKEGSLRFAVEDVDAPENWPRTLI
+LWRSNLLGSSAKGEEYFQKHLLGTLNNVMGKDHGDARPKDVVWREDAPQGKLDLLVSADF
+RMTSSTLLSDVVFPAATWYEKYDLSSTDMHPYVHAFTPAIAPPWEAKSDFELFRLLSVEF
+SRQAQKHLGVRRDMVATALTHDTPGEIAQPGGHAPDWKNTDIPAVPGKNLPNLAVVERDY
+TAIADKFVAMGPLAEKAGFTTKYITYEVSKQVRQLAAKHGVFDSGAARGRPAVDTDARMA
+EAILLFSGTTNGELAVQGFETLEKRTGTPLADLAIGAEDKLITFRDTQDRPTPVITSPEW
+SGSETGGRRYAPFTINIERLKPFHTLTGRMHFFLDHDWIRDMGEALPVFRPPLDMARLFG
+EPQLGTRGELSVAVRYLTPHNKWSIHSEYQDNLFMLSLSRGGTAVWMSPQDAELIQVRDN
+DWVECVNTNGVLVGRAIVSSRMPAGVVYVYHAQERIIDTPKSEATGRRGGIHNSVTRILV
+KPSHMIGGYAQLSWAFNYLGPTGNQRDIVSVVRRRSQEVSY
+>tr|A0A0P7FQ62|A0A0P7FQ62_9MICC
+MTVSLSTPSARLQRLLGRMSMYRMLVVLLLAMAAWSFVLSLAGALFYTPAELAATLATAV
+VSTLMASRVMGLLFRTFPQTDSALITGLLLFFLFWPTTDGVQLGWIALAGLAATASKYVL
+VWRRRHIFNPAAVGAFVMGVTGLNAPVWWVAAPLMLVVVIPAALLVLYRSRLLPMAGMFV
+LVATAVVVIRFASAGESVLEGLATALGSYPVLFFAGFMLSEPLTLPPLRWQRLAEAGVVG
+ILFSVPFSLGPVFMSPELALLIGNLLAFAAGQRGGISLRLRGSRELTPTARELVFEPERP
+LRYRAGQYLELSLPHPSPDSRGLRRIFSLTSAPEDPQTVSVALRVSSPGSSFKTKLLALK
+PGARISATSVGGDFQLPRDSGRKILMMASGIGITPFLSQLRSPDAAGRDIVLVYSASSTA
+ELAYADELAALGVRVVACTPEDPSRPGWTWLGARLPDAAALAKAVPDAAERTAFVAGSPS
+AVAAARSALKGAGVRRVHTDPFLGY
+>tr|A0A0P7GSP4|A0A0P7GSP4_9MICC
+MHDSAYDFLTASTAMVFCDQPVAALSPWLARAHAGAVESGRRFVLLTPSASSLTLPLSAL
+FDGDSASWMATGSDGGFFDAVTGQAQTWDGGTLQPAGTVADDFLAAERSPSAYFHVRAGV
+LHPASLSTRAGTFTERVFEAVTGTSPVGWGLYEPVSETWDAAAFSDYCYGRAPLPSRLVV
+LGSAPGAPGSPGLAAGSIAVVTVERTRSGVVESVELLAGARAPLDDAGLDTFLAAMHRAR
+ARTAVLAYGLGYRDLLRPARFTGTAVPGAALFGPEALAGRPASSALASAGPRAKLIGTAP
+AQSLGVRYASEPVPGEPHPLEAYAQLAVELAPEPRRPVRD
+>tr|A0A0P7FGT1|A0A0P7FGT1_9MICC
+MPQITEELWDAVDSRVESCWCPGLVAGVRIGGELEVHSCGTYAFGSPRAMDTSTPFRISS
+LSKLVGGALALSLVDDGTLALDDDAARWLPQLADLRVLATPDAPLSVTVPARGPVTVRHL
+LTLTAGFGVDFGQTPYAAATRDLLWGPNPPAMEPDAYLDQLGSLPLAAQPGERWMYHAGA
+DVLSALLAAAAGMPLRELVADRISGPLGLTATGFPSGNEEFPAVYESTASGLVEAAAYRD
+AFASPPMFESLAGGLVSTVPDYLTFLAALADDRLLPHGLRESMTSDQLTGTQRAGAAEMN
+GPDESWGYLTGVQTGPGPVWSDPGMWGWAGGSGTSAAVYPNGDIGVVFTQRFLSGPGDGF
+DWFWEPLGAARGR
+>tr|A0A0P7FYI1|A0A0P7FYI1_9MICC
+MSDRSLRGMRLGAQSMETESGVEPAPRQRVEYRCEDGERVFVTFAAEAEVPPVWVSKTGK
+EALLVDGEKPDTSNEKPVRTHWDMLLERRSIEELEVILQDRLDKLRERRGERTASK
+>tr|A0A0P7FEX0|A0A0P7FEX0_9MICC
+MAHVVTGDRQTQRISRAFPLGVHRSVAGVPDVPGAVNVSVFAPGLEAVDVWFEPRPGQWA
+SALLERRSAGVHHGRVEGLRPGIRYGFWGHGAHLPAEPGSFQLLLDPYGRGIDTVQREDR
+EPLWFSVATTPDFDWGNDEPPHTRWRDSVIYEAHVRGMTKLNPALPEDLRGTYAGMGHPA
+TIGYLQDLGITAVELLPVHFHIDEPHLQELGLSNYWGYNTLGYFAPHTDYATPTAQAAGP
+QAVQDEFKTMVKNLHAAGIEVILDVVYNHTAEGGKDLPALSWRGLGEETYYRHDSDGRYI
+DTTGCGNSLDFSEPRVIQMTLDSLRYWVREYHVDGFRFDLAPTMARDAENRFDRRHPLLV
+ALATDPVMHGIKLIAEPWDLGPDGWQTGNFPPGWADWNDHFRDTVRDFWLADQAALAAGE
+PAGSLARLGTALAGSAELFARSERTPLSSVNLVTAHDGFTLADLTTYNHKHNQANGEDNR
+DGSSHNRSWNHGIEGPTDNPRILPHRRQTARNLMATLLLSVGVPMITSGDEVGRTQHGNN
+NAYCQDNKTAWLSWQDDDDARRMFAATAALVRLRREFLARQPYAFPADPRDAFLLWFDAS
+GQPMTDAAWHDPGCRVLQLLIGSGQGERAGLMVINGGQETEQIVLPSRATLDDAGVTANE
+GHLYELVFATADPEERRTGARLAPGEKDHIEGNSISVYRI
+>tr|A0A0P7HE78|A0A0P7HE78_9MICC
+MGANQWDIQVQGVLSLLHDAENLILECEPAKDSALEALNALETALADCPELADAVDRLRF
+EVIANDMTDIMVRCNNAVEGTRESVQAYVDGDREMADTAGKAASLSYPAASGFSGGTRRW
+MVQ
+>tr|A0A0P7HCU9|A0A0P7HCU9_9MICC
+MAYTAYNPVPIPTAEELKARIPGWGADLNPLDRPSVPKLQFDPERTGAHWDFPDRQEETY
+PRERSIEHKMLTPVFGTAVPLKGVSGAMRRLAYKRYSEARAAHWLILLAADRVDAFGAHV
+TSLATVRPDNPVTETGVLSEFRVGGLSSRARSRRADVNHQWIDPILVGAPWILAGGAVFA
+GVRALVRRRR
+>tr|A0A0P7HIP9|A0A0P7HIP9_9MICC
+MSATESSMNIARTAAKAASAKLADDIVAIDVSERLAITDVFLIASASNERQVNAIVDGVE
+EELAKEGLKPVRREGRSEGRWVLLDYANVVVHVQHEEDRVFYALERLWKDCPAVDLQLPE
+GEAAAGQD
+>tr|A0A0P7FES0|A0A0P7FES0_9MICC
+MTATESEQTSILNPSLWDGKIYTTGWTAGSAEPIEVKEPATGSVLATVGMASAADAFAAA
+TRAAKAQKEWAATKPEDRAAILRRAGDFFVTHAAELGEWVQRETGAIGAKAALETHVAAN
+ECFDAAGLPHHPAGDVLTSNADHWSFARRTPAGVVAVISPFNFPLILSIRSVAPALALGN
+TVILKPDPRTPVSGGVMIMRAFEEAGLPAGVLQLLNGGAETGAALTEAPEVRIISFTGST
+AAGRKVGEAAGRNLKRAHLELGGNNALIVLPGADLAKAASAGAFGSFLHQGQICMTAGRH
+LVHESLTNGYVSALREKAEHLPVGDPMSGQVALGPIIDDRQRDNIHRIVEEAKAAGATVE
+AGGTYDNLFYSPTVLTGLDKENPAWAEEIFGPVAPVMGFSTLEEAAEIVNSSEYGLSVSI
+LGDVGEAMKLADMVHSGKVHINEQTVMDESNAPFGGVGASGTGSRFGGYTANIEAFTETQ
+WLTVRPDIAPYPF
+>tr|A0A0P7GBE6|A0A0P7GBE6_9MICC
+MVVALYNVAEYVPAFLESLRTQSYPVRDLEIVVVDDGSTDGSAAIIERWAKDHHPGLKLV
+RQDNAGPGAARNAGLHLVENAWITFCDPDDVFHPAYFREVANFLAGDVHGKAQLLATRLV
+QFNDGTTEMRHTHPLGKKFRLGNALVSLDSNPEYIQLHGPTAFLRRAVLAENNLEFDSRI
+RPKFEDSNLIGRYLAAAGKPVLGIVADARYLYRRNRRHGASLVAGTWADPRAYDELPRYG
+YLGMLRAVQTRLGRVPHWAQYMVLYDLVWFYIDDKRMHSQTAGASPSQRASMHALLEEIM
+AFIDVEVIDTFSVVSQGWVFHNILRSYYKGQALHPPVVQQIRRDGQRGTVRYAYLFQDSL
+PEEKIYLDGVPSAPAAAKTRDHQVLGKTLIRERVLILPAACTPELTLNGIRAEVTTDRRV
+PLQPGRVPEKLAGFELHPPAVPAEAVRGQAKLATDPLRKMRENRLVRRSLTGGGAFEEVL
+ASARRYVNRLTRNLKSRRRAAADRRLIALAHREPAASQYRDAWILMDRIGRADDNAEHLY
+RHLLRNRPDVNAWFLLDPKSRDWERLRAEGFKLAAYGSDEAVLLYLNAVYKVSSHANVNI
+EFPVSRRRFGSGKARFVYLQHGVIKDDMSLWLNSKDIALMATASVAEHESIAGDGNNYSL
+TPFEVKPTGLARHDSLYHAAIHSALEDRRTILVAPTWRQYLGKELSAASCDAARVAIFEN
+SEYGRAWLELLRSPRLEAHCLRHGQRVLFLPHPELELMVPLLQLPGHVHSAAFSEISVQK
+ELVQSHTLVTDHSSLAFDGAYAGSRILYLQPDSEEIFGGGHVYRKGYFDYTRDGLGPVAA
+DVDEAVELLTHPDPDKLHAPYRERIRRTFLHWDSRSCERITAAIEDLGRPVTPDPNDRLA
+>tr|A0A0P7H5D0|A0A0P7H5D0_9MICC
+MVEMGGIEPPSDVVLSGLLRAQFTSDFLGPSHHVNKWLIRAQPSKSPEHSNGKSTQQWPS
+K
+>tr|A0A0P7G4M1|A0A0P7G4M1_9MICC
+MTGTRTTTKAAAAAPRRQGANAAVLAFDVEVRAVQRLSANFQRITFGGECLRDFGVQGST
+DDLRIKVVIPPQAADGTRTPLPVIDCEDAGWYRNWLAMDVQERGSMRTYTVRAARCSLPQ
+PEIDVDFVLHFDADGVGGPASTWAAEAKPGDRVTVIGPNVVHCVTAESYGGIEWRPGLAQ
+HVLLAGDETAVPAIASILENLPADFTGHALLEIPDASDIQPLSTPSKVAVTWLPRNGRPH
+GEALESAVRSAVAVPGYASVGRIEAAPVPARRQELEDVDIDSVILWETPARLAPEVVENS
+PSPNTPAGALPFYAWIAGEAAVVRGLRRYLVREAGIDRKQVAFMGYWRHGRAETA
+>tr|A0A0P7G6J2|A0A0P7G6J2_9MICC
+MPAWNESESVGNTVAEVIRTVPNCDVLVVDDGSTDNTADLAAAAGATVLRLPFNLGVGGA
+MRSGYKYAKRWNYTRAIQVDADGQHDPKDLVSVVKGLEKADISIGARFAEKGNYEVRGPR
+KWAMSFLGWSISRVAKTRLTDVTSGFRAANSRAIAQYCEHYPAEYLGDTIDSLVVAVRSG
+LTVTQVPVEMRPRQGGQPSHNPAKAALYLARSGFALVIAMTRKKTRTPEQSGAAK
+>tr|A0A0P7FHN2|A0A0P7FHN2_9MICC
+MKRVFWMSIGITIGVIAVRRISDAKQTLGPAGLNRAVGTAADALHDFTDAFRDAMTTREG
+ELRSALGLETTDTVAQTMSSARR
+>tr|A0A0P7G7J9|A0A0P7G7J9_9MICC
+MAEANEATRAGNRIRRSAGRKAAYTVFSGTVLLGVAGGLVAASAIAAPERSDLSVPPPRT
+EVPAGVLTGVCPEPLRLLSGSGDGTDAEFSPVSESAATAVTTAVVGGTGAALPAAELSVL
+GGGESVAALEPGADVPLAGARLAGVLAKQAVTKVTAFEAAPSGGQQATANAVMGYTANDG
+DLAGLAAANCQTPANDMWLVGARTTVGATAVLRLNNPSGTAATVDLEIYGADGRVETGGS
+RGIVVAPGETRSIILAGLASNQESAAVRVRSSGGPVSAFIEQTILRGLTAGGVEIIEPTA
+APSPRQVITGVALQKAEDTRKLAEQDGYSSVSPVLNVAVPGTSDASVHLRVFGPKGEVEL
+PGGGIFSVPAGTVGKIPLAELPEGTYSLDLSADVAVAAAAVFSRGTEPGERVELAVASAD
+TRLGSEHLAVAVPGGDSSLVFTAPDGAAEVSVRGIGMNGTIQEARTVQVPEGRTLTLQRG
+DIGKGELAAVLVSAAGEAVYGAQLVTGEGPGISVLPLPDGASGTRSVQVGIGY
+>tr|A0A0P7HI01|A0A0P7HI01_9MICC
+MAGTPEATVWRTFPYVSYLRAYEPLDAFDDDQQLRILDQRSRARHETEVLERSDAVRRLV
+RAVSDPFPHNSTDLVRVLHHPGPDGTTTRLYCPNQLAVRTSLAAESLGETVHGPLVDVLL
+PEVAREAHAARIDPDSFADSLAKLHTRSATWGVPFGWFVLMHEDDQTEVVEEDGRVLTVR
+LSAPILQCIERARHAAAALALAAPDLDLLDELTDLVAWMEVFSPAAVLELDYGLVADLVY
+PDDSPSDVRLGIESLADGDMTGAAAAYRRLAGRWIPIRQLARAS
+>tr|A0A0N8HXW8|A0A0N8HXW8_9MICC
+MVVRFEEAAVEVQDAESGPQTILHPVSLTLAEQRIAVIGANGSGKSTLLRLINGLLLPSS
+GSVSVDGADTVRSGSEVRGRVGFVFTDPLSQLVMPTGRNDVELSLRRSVRNARERRVAAE
+KVLDRFGLLQLADRSIYDLSGGERQLMALAAVLATDPAVLVADEPSTLLDLRNTARLRAI
+LAALPQQVIFTTHDLEFAADAERVLVVDEGSVVFDGPAAEGIAAYRQLAARAGQWAE
+>tr|A0A0P7HFS5|A0A0P7HFS5_9MICC
+MVIAPALIIGFRGRPVSSSSEISLLAAIKEIFIDAFTPEQLANLEDAAAALRTHLGMPAR
+>tr|A0A0P7GAW6|A0A0P7GAW6_9MICC
+MSDDPAKVLRYAESLGRFSRRRFLVGAAAGLTLAADLFVTRLIQEQREQLEILPVRDDAA
+ASRFPRAMWFLFPGYKTSWEEAVWIVNSLRPALASRGQMAAVGYSNKGLDIDTIEAEVFR
+YIRTRRINRVYFYGHSFGGMVAVELAARLLARGVQVELIILDSSPAGRFNVLDQNMIRGV
+VLLYEAGYRIPSALRGGYELGERILHKDERSWSTVVDQTLEQLSPLAPSSTLIQSESSYI
+YHYDAAAYAGAIGDAELAFIGNPDDETVNYYTARSRWTEVFPDNMVSNSLITEGARPAHA
+SPQWNPVIYQRVVEQVLDTYAPLPAVGGGGRKIPF
+>tr|A0A0P7GBZ8|A0A0P7GBZ8_9MICC
+MTSTPESSSSLPDEAALRNSVAAAFPRTLEDLTRLVAIPGIAWDSFDPENLDRSADAVAE
+LLRGAGLDDVQILRVDNNGKPGGPAVVARRPAAPGKPTVLLYAHHDVQPPGDLSLWETEP
+FTATERNGRLYGRGAADDKAGIMVHVGALRALDEVLGADSGVGITFFIEGEEEAGSPTFR
+TFLETHRDLLQADVIVVADSGNWKVGTPALTTSLRGLVDGTFEVRVLGHAVHSGMFGGPV
+LDAPTLLARLIATFHDERGNLAIEGLEGFDDAEVDYPEEDFRQDSSVLDSVRLAGEGSIA
+SRLWTKPALSIIGIDVPSVAMSSNTIQPSARAKFSMRLAPEQDPEAAMDAMARHLAANAP
+FGAEVVFTPGERGNAFATDTAAPAAQTALWALEAAWGTKPVEMGVGGSIPFIADLVEVFP
+AAQILITGVEDPDSRAHSANESLHLDDFRNAVLAEALLLARLGMPETP
+>tr|A0A0P7GIA1|A0A0P7GIA1_9MICC
+MKRHIPGHRHRRRRSGLLFVLTILFSSVLAAPVSAATPSVLEAPPEAAQVWIDVESEAAR
+TGVASVSWRAGGGTWTDAAVSRTVFGATATAPVSSGTYEVRFSVERRITADVAVSFTDTA
+GRVLSEHLIREAALDPAEANGGWVTWKDLVEGPAPDGGGEVTPVQPGGNGAEDESGPASG
+PVAQGSDPKALGKTGASAPFLALVLSVAAALTGTGLFLVLRGKGSTPASEGGEEQ
+>tr|A0A0P7GK01|A0A0P7GK01_9MICC
+MIWAQTTDGVIGKDGGMPWHLPEDLAHFKASTLGHPVIMGRRTWESFPEAFRPLPGRKNI
+VISSREGLAAELEPTGAVVVPSLEAALEAAEGSEGSSRIWVVGGSQVYAAAEPLADIAVV
+TVINTETEGDSYAPHLGSDWTFSGVSPAQDWYTSANGLQYRFALWTRNRNVTEQDG
+>tr|A0A0P7G5F5|A0A0P7G5F5_9MICC
+MSEKAVNTTVSEKLDRNSLAELVAGDIAPGSFVNLGIGQPTLVSNYLKPEQHVTLHTENG
+MLGMGPEARGEEIDGDLINAGKIPVTELPGASYFHHADSFAIMRGGHLDVCVLGAFQVSA
+TGDLANWHTGAPDAIPAVGGAMDLATGAKDVYVMMSLFTREGVSKLVAECSYPLTGVGCV
+TRVYTNEAVFLLKEDGVHVRETYGISFEELAAKVDVPLIGPSAGTD
+>tr|A0A0P7GHZ8|A0A0P7GHZ8_9MICC
+MATAAQWFEGARPRTLPMAVAPVIIGSAAAFDLGSFRWFNALLAALVAILLQVGVNYAND
+YSDGVRGTDDNRVGPLRLTGSGAAAAKHVKYAAFLCFGLAMAAGLALVILSQAWFLLLVG
+VGCIAAAWGYTGGRNPYGYLGLGDVFVFVFFGLVATLGTTYTQAGQVNAAAWIGAISTGL
+IATALLMANNVRDIPTDRESGKRTLAVRLGDDAARISYVMMLALALLLPLLLVGDYPWVL
+LVLLLLPACLMPSWLMLKGKKRRSLIPVLKQTGLINLGFSVVYGLALVLTRVLA
+>tr|A0A0P7G4R1|A0A0P7G4R1_9MICC
+MSRAVGIDLGTTNSVVSVLEGGEPTVIANAEGGRTTPSVVAFAKSGEVLVGEIAKRQAVN
+NIDRTISSVKRHMGTDWNVDIDGKKYTAQEISARILQKLKADAEAYLGEKVTDAVVTVPA
+YFNDAERQATKEAGEIAGLNVLRIVNEPTAAALAYGLDKGKEDELILVFDLGGGTFDVSL
+LEVGKDEDDFSTIQVRATAGDNRLGGDDWDQRIVDYLLSQAKAKGADLSKDKIALQRLKE
+AAEQAKKELSSATSTNISLQYLSVTPEGPVHLDEHLSRAKFQDLTKDLLDRTKKPFNDVI
+SEAGIKVSDIDHIILVGGSTRMPAVSELVKELAGGQEPNKGVNPDEVVAVGAALQAGVLK
+GERKDVLLIDVTPLSLGIETKGGVMTKLIERNTAIPTKRSETFTTADDNQPSVAIQVFQG
+EREFTRDNKPLGTFELTGIAPAPRGVPQVEVTFDIDANGIVHVSAKDKGTGAEQSMTITG
+GSSLSKEDIDRMVREAEEHAAEDKKRREAADVRNSAEQLAYSVDKLLSDNDDKLPEDVKS
+EVKGDVDALKKALEGTDNDDEVKSAFEKLQASQTKLGEAIYSQAQAAGDSGAGAAGGSAD
+GENAGGSAAGDEDIVDAEVVDDEEKK
+>tr|A0A0P7GNW5|A0A0P7GNW5_9MICC
+MRAIWKGAIAFGLVNVPVKVYSATEDHDVSLHQVHEKDGGRIRYQRRCEICGEVVEYKNI
+AKAYDDGEQTVVLTDEDLASLPVEKSREIEVVEFVPSDQVDPILFDRTYYLEPDSKSTKS
+YVLLRRTLEDTDRTAIVQFSLRQKSRLGALRVRGDVLTLQTLLWEDEVREAAFPSLEESV
+RISAKELEMSSALVDSFSSDFDPSEFTDEYQEQLRTLIEAKLEKGEALDTQETFGEDSEE
+EGGKVLDLMEALRRSVEKNRGRKSAPAKDKEEKKPAAKSSGRKSRKGA
+>tr|A0A0P7FXL3|A0A0P7FXL3_9MICC
+MSDEFRKNLLGPEPTYLPEETDVVARLAAGDEAVDLAAKFPTSSQVWAILADEAFNDGRP
+VESYAYARVGYHRGLDALRRAGWRGTGPIPWEHEPNRGFLRALYALGRAAAAIGESEEVD
+RIEKFLDASDPSAKAAIEG
+>tr|A0A0P7FXX8|A0A0P7FXX8_9MICC
+MSRIIAGVAGGSTLSSVPGSGTRPTTDRVKEALFSRLESYGILDGAYVLDLFAGSGSLGV
+ESASRGAARVDLVELAEKPAGVCRANAAMVNRILGSERVRVHRTKAESYLQRVPPGLVWD
+LVFLDPPYPLDEDGLAAVLQSLSPRLAPGAVVVVERSTRSPEPVWPAGMERFSEKAYGET
+TLWFAEPAGAEEG
+>tr|A0A0P7HIX8|A0A0P7HIX8_9MICC
+MSKLPCAELHLHIEGTLEPELIFELAARNGIELPYADLDELRARYEFTDLQSFLDLYYAN
+MDVLRTEADFAAMTRAYLARAAAAGVRHVEMMVDPQAHLARGVALETCIGGVASVLKTSE
+AEFGISTALIAAFLRDRPQEEASRVLADLLAMDAPIIGIGLDSAELGNPPEDFVPLYEQA
+RAAGLKLVAHAGEEGPSHYIEQALDLLLVDRIDHGIRCMDDPELVARLERDQIPLTICPL
+SNVRLQAVDSLESHPLPLLLEQGLNVSVNSDDPAYFGGYVDDNFAVLRETFDLNPAQLAR
+LAENSITASFASAERKAELLAEVEAWLLVEGID
+>tr|A0A0P7G6B4|A0A0P7G6B4_9MICC
+MSEDRDLPVDEPLPAPGAPPTRRERLSSASSRVWRMVSRIPGARPRPQFDFPPEEEELEI
+LPEPEVDPDAKLSDERRRFGGAQPPIVTGAGPDKHPIRFGFMFTVGVGFALLLFFIITNV
+GELLVWIGAALFIALGLDPVVRWLSARGVPRPAGIAIVVVVLAGAVTAFFATLIPTIVSQ
+TTEIVNNAPSYVDRFLSSDFFVTIEAQFKIRERVDEEVQKFFSNADAVGGIFGGVLSVGT
+VIANGLFGALIILVLTLYFLASLPSMKKWAYRLAPRSRRRRVEALSEEITGSVGNYVIGQ
+GFVALLDALYAFIIMTITGVPFSVLLAFVVALLAFIPLVGPPIALVLVSLVALTASWQTA
+VVFAILYMAYLQFEAYFVSPRVMQRAVAVPGAVAVIAVIAGGTLLGVLGALIAIPTAAAV
+LLLMKEVVIARQDRI
+>tr|A0A0P7HPY7|A0A0P7HPY7_9MICC
+MPTETEELTVNVGDGTVSAVFARPADAWASMVVAHGAGSGMEHPFLTGFTNAMNDGGVAT
+WRFNFPYREAGKKFPDRAPAAIAAWRAVMFAAEDNAGGVPVWACGKSFGGRMASMAVAEG
+MQAAGLVYLGYPLHPPGKPEKLRDEHLYGLRLPMLFLQGTRDPFALPGELEPVAERIGPN
+AVVERIEGGNHMFEVAGNKRPQDVIGASLAAPVLDFMRSHRS
+>tr|A0A0P7FNP7|A0A0P7FNP7_9MICC
+MPAAQTVRLAEQRADTAAHSITAAFGGRLLGLPGTHLGAVRAPQPLPRGVGPWHYWWQAH
+YVDVLVDTGLRSRAPVAGADPVALAEQVVRTIRIRNAGRYTNHYFDDMAWLALAVLRLDT
+LPGPPRGNKPRHQRAREALGRALRSGHTQDLGGGVYWNRARNFKNTPATSPAALYFARTG
+ERERAQELVDWLNATLLDRSTGLYYDGVRQGAENAPPALERAHFTYNQGPVLGALLELGG
+NANLGRAADLVRAVSRNLVHNDGGTPLLRTHGSGDGGLFTGILCRYLAEAAAAPTLDAGS
+RRTAGALVTELADRFWKGRAERNNLAVFPSDPRSTADETYPPGTGVELSTQLQAWMVLEA
+ALRVTRLETDPQDT
+>tr|A0A0P7FP59|A0A0P7FP59_9MICC
+MPATFTAADAVELAVLERNGFVESRHVGSAVVLSGDGSVVTALGDITTPVFPRSSLKPFQ
+AVAAMQSGVPLRGPQVALAAASHIGAKEHTEVVRGMLEAAGVTEDHLQCPADWPQDEAAR
+TELIRSGKGKQRIAFNCSGKHAAFLWACTENGWDTATYLDPAHPLQQRIAGVFEDFCEEK
+PTHWAIDGCGAPLAAVSLTGLARGIGKLAKAPSDKHGDARAATVATAMLDYPWAVHGAGK
+ENTVVMEDLGILAKSGAEGVLVLGTDTGVSVALKMLDGNGRAATLVGLTLLAASGAVDPD
+AVFKVLAKVVPPVLGGGEPVGSLRLAAPVTALLD
+>tr|A0A0P7G509|A0A0P7G509_9MICC
+MATTPAAPSSSGAGSKSLPRRILHTGLRRHGREPLPPTGRTRELPADGSAGRQPKTGVGD
+RLFGWARFPDAVIKLALTSPASVHAPEAEPVQAQADTASEATTTAPAPAGRKSPARPRPA
+AKTPPRPDHRPSPVAAPAPAPRITDRRSRRRAPLPVNLAALLITGGGVLTLLIGLREAMD
+PQRAAPAAASQLEALGVPVETVLSMARVADAAVAAVAFGFYVLLASLIRDGRSWARAGCV
+VLVAAALFFGFKDLAYQHVTAGVLAGLGTGLLFIPQSARYFASRGNRLVPA
+>tr|A0A0P7HNG0|A0A0P7HNG0_9MICC
+MPPVIETRALTKRYGSRTAVDSLDLSVQPGCVFGLIGPNGSGKTTTLRMLLDIIRPSSGQ
+ALVLGVPPRSGGPALRRRIGYVPGDLRLNGRARGRTLLEHFAQISSPVPAGRVETLAERL
+GLDLSRPVRTLSKGNRQKLGLVQAFMHDPDLLVLDEPTSGLDPLVQREFLEMLAEARAAG
+RTVLLSSHVLSEIQQSADQVAVLSLGKVVAQGDVASLRLNRLRHVRASLAAAGGAGPVLE
+DELAAAGLQGTVTWQDGTARVRGTLDGGVDAFIRVLARHRILDLAVEEPDLEESVLQLYG
+GPDAAPGDIRKGPE
+>tr|A0A0P7G7J7|A0A0P7G7J7_9MICC
+MRIERWWPYLDTTAKQWLRENLRQDGIPPKVQDRIAEAGGPVIDPILGVQDWDFIETQSE
+LVD
+>tr|A0A0N8HZ67|A0A0N8HZ67_9MICC
+MTLPPDPFESDPMRRADSGSSTAVIEREEQRELVEPGDAERFSHYVRKEKIMESALSGEP
+VIALCGKVWTPGRDPKKFPVCPTCKEIYEGLRPGKDKGDK
+>tr|A0A0P7HHX1|A0A0P7HHX1_9MICC
+MEYVEVLLPSICVAALFYFVMKAVLNADRSERKALAEAEREVDQKEHQQSDPKTDAAGPA
+DKE
+>tr|A0A0P7GKU3|A0A0P7GKU3_9MICC
+MSTTTPERVNDLRQRLDAVRRRIAAAAASSGRSEPNLIVVTKYFPASDAAILAALGVHDV
+GENKAQEAEAKAAELVDSGLRWHFIGQLQTNKAKSVVRYAAAVHSVDRAGLVGALAKAMA
+AENRRRGGEGKPARGPLDCYLQLDLRQGQGLEPGRGGARPEEMLELADAVAAQPDLRLAG
+LMAVAPLGEDPAAAFERLRDLSAVLTDRYPDAAGISAGMSQDLEAAVEHGATHLRIGSDV
+LGPRPAVG
+>tr|A0A0P7FFU8|A0A0P7FFU8_9MICC
+MSVGRKLRAYVALTKPRVIELLLVTTLPTMFFAQGGVPSVWLMVSTMVGGALAAASAGVF
+NCYIDRDMDRLMRRTEKRPLVTGEVSPREALVFGWALGIVSIALLWFGANPLTGLLGLGA
+ILLYVVFYTLILKRRTTQNIVWGGAAGCMPVLIAWAAVTNTVEWPAVILFMVIFLWTPPH
+YWPLSMKYGEDYRNASVPMLGAVAGAKVVSVQVVLYAYATVVCSLLLIPVGGAGWVYTAG
+AVLSGAWFLAETHRLHARAQRGEVTDKTAMKVFHGSISYLTILFVALAVDPFVGGPLL
+>tr|A0A0P7FG46|A0A0P7FG46_9MICC
+MSRCRFGTVITASLVVGVLAGCSNTAAQQRESGQLTVFAAASLSAPFTRLAEDFEAANPG
+TAVRLNVAGSADLAAQILAGAPVDVFASADEANMAKVVDGGLTAGEPRDIATNTLTIAVP
+KGNPAGITGFADLAGAGVQVVVCAVQVPCGAAAAELEEAAGLRLSPVSEETSVTGVLGKV
+ASGEADAGLVYVTDVLAAGESVQEVPFPEAQQAVNRYPLVQLAGPADADLAAAFVRFIRG
+AEGQAALEEAGFGAP
+>tr|A0A0P7GL63|A0A0P7GL63_9MICC
+MPVPLWVAVPVGVPVPVSVGVGEVVSGVGVVVSGVGVVVSGVGVVVSGVGVVVSGVGVVV
+SGVGVGVVVSGVGVVVSGVGVVVSGVGVVVSGVGVVVSGVGVVVSGVGVGVGVGVGVGVG
+VGHGGGALQPLARTAWL
+>tr|A0A0N8HX45|A0A0N8HX45_9MICC
+MAHLSDSSFPTTKLPDVIPQLGELFQAAGFELSLVGGPVRDLFLGRVSPDLDFTTNARPD
+DIISVVRRWCDTYWEIGREFGTIGMRKDGFQIEITTYRADAYDPDSRKPAVAFGERLEDD
+LYRRDFTMNAMALRLPQMELVDPFGGLRDLNAGMVRTPGASASSFSDDPLRMMRAARFAS
+QLGVTVAPEVFAAMKDMAGRIEIISAERVRDELVKLINGKSPADGVDLLVESGLADYVLP
+EVAALRLEIDEHHRHKDVYQHSLTVLRQACGLETGPDGPVPSPDFVLRFAALMHDVGKPA
+TRRFEGTGAVSFLHHDVVGAKLTAKRMKALRFDNDTIKAVSRLVELHMRFYGYGDAGWSD
+SAVRRYVTDAGPLLQRLHRLTRSDVTTRNRRKAERLAFAYDDLEARIEKLAEQEELASIR
+PDLDGSQIMALLGIRPGPVVGRAYRFLLEERMENGPGTPGEAEAKLREWWQQQPESREAE
+ELP
+>tr|A0A0P7GAT5|A0A0P7GAT5_9MICC
+MSTTSPSAAVPAQLQEIVDDFQAMTEPERLELLLEFSRSLPDLPARLADHPELLEQVVEC
+QSPLFLTVEVGSSQDQPVELFFSAPPEAPTTRGFAGVLHEGLNGLPAAEILAVPADVPDR
+LGLTRAITPLRMRGMSAMLGRIKRKVAEQVPAGTLTAATGSGN
+>tr|A0A0P7HLQ5|A0A0P7HLQ5_9MICC
+MQSPLPVRNGVNATRLRLPAEGPWETAMEYVLDRFGHVDPDGIIDRFDRGEVVGLGGVRL
+SRHTPLREHTFIWYYRELPTEDRLPVEINILHQDENLLVVDKPHFLPTTPGGMYVAESAL
+VRLRVALDIPDLIPMHRLDRMTAGVLLFSTNPQTRGKYQIMFEKRRIQKEYEAVAPVRED
+LELPRIVRSRMIKSRTYLLAQEVDGEPNAETRIELIEQSNGIGRYRLLPHTGKTHQLRVH
+MASLGIGILNDPFYPVLLDQAPDDYTRPLQLLARSVQFTDPLTRQPAEYRSQLSLGAYPA
+PAVTD
+>tr|A0A0P7G8K8|A0A0P7G8K8_9MICC
+MTPTAQKAPFTIRRARTSDVRQIRELVAPLADERVLVAKETVAYYEGLQEFRIAEDEAGR
+VIGCGALHVMWEDLAEVRTLAVHPAWLGRGVGHVLLETLLTDALEIGVSRVFCLTFEVDF
+FKRHGFTVMESQSAVDPEVYSELLRSNDEGVAEFLDLARVKPNTLGNTRMIRDVRA
+>tr|A0A0P7HDQ8|A0A0P7HDQ8_9MICC
+MGSSDYEHVAQSLRPTDKLLARAYPGDDGSRQPVQTVYVPANTFTPSLPLEWGRRALAAV
+QGQEGLERLASRLGLGEPDVLAGLVARKLSTEPVEDLRLDFEDGYGTRPDDEEDADAAAA
+GFAVAAAASAGSAPAFMGIRFKSLEAGTRERGLRTLDLFLSALLAELKVHGLELPEGLTL
+TLPKVSTAAQVEAMTYVCGRLEEVHGLPAGQLRFEVQVETPQVILGADGTAAVARLLHAA
+SGRVSGLHYGTYDYSAALGIAPEHQSLEHPAADYAKTVMQAAAAGTGVRLSDGSTNILPL
+GDAENMHHAWALHARLVARSLAAGFYQGWDLHPHQLPTRFLATYAFYRSGFSAAASRLAN
+YAAGREGTVLDEPATARALARFIQRAAACGAVTEAELSAAGVPPEELNRLARTREPEHM
+>tr|A0A0N8HYX8|A0A0N8HYX8_9MICC
+MCRLFGMHAGPKPVTATFWLLTAPDSLAEQSRRMADGFGLGVFDSDGKPVVDKAPMPAYE
+DRAYASAARTLKGTTFIAHVRYASTGEDTLVNTHPFLQDGRLLAHNGVVEDLDKLDDRLR
+SLEVMDLVKGQTDSERVFALITGLARQNGGDLGEALTEAITWIAENLRLYAVNLVITTDT
+ELWAVRYPDTHPLYVLQESADDPHRGKRSARISVKSDEMEQLQTPAVMVATERMDENPNW
+RMMDAGEILRVDKDLNTERFFPLPQHPQHLLTLADLDPHTAASQHPLKVAGT
+>tr|A0A0P7GTP0|A0A0P7GTP0_9MICC
+MGRDFPLAGLLRLRRLQQDSAAGNLAAANAALRRSSEARSEAYDSLAATPLEAADAATLT
+AIAAARASSRSMLADLLAAEALESAAVNSAQAEFQAARARSVGLEKLETKHSDAVAVEDL
+RTEQNILDELAGTAWHRRQKEAL
+>tr|A0A0N8HXK8|A0A0N8HXK8_9MICC
+MSTETSSVPGELRLLAVHAHPDDEASKGAATMAKYAAEGVRVMVATCTGGERGDVLNPAA
+AGIPAAKRDLAGLRRTEMAASQAALGIEHRWLGFMDSGLPEGDPLPDLPAGCFALRPLET
+AAAPLVKLVREFRPHVIISYDENGGYPHPDHIMAHKVAVEAFHSAGDAEKYPGTGDPWEP
+LKLYYDRGFNPERFRALHEALIEAGLESPYAERLAAWLEADTEGHQPPAPVHPTTTQVDC
+GGYFPVRDAALKAHRTQVDPEGFFFAVSTDMQSQVWPWEDYSLIESRVPAQVPETDLFAG
+IR
+>tr|A0A0P7HKT5|A0A0P7HKT5_9MICC
+MPQITTSKTPAVRGFQGPVIAASNLTKSYGDFTAVDGISFEVPAGESFGLLGPNGAGKST
+TMKMIGGVSRRTSGDLAIMGLDPNTNGPEVRAHLGVVPQQDNLDEELRVRDNLLAYGRYF
+GLPKSYLQPKADELLEFAQLTDKAKARVDDLSGGMKRRLTIARSLISDPQILLLDEPTTG
+LDPQARHILWDRLFRLKEAGVTLILTTHYMDEAEQLCDRLIVVDKGTIMAEGSPSALIRT
+HSSREVVELRFGSERNTTVAAELEGIGERIETLPDRVLIYANDGEAALEAVSARGLRPIT
+SLVRRSSLEDVFLRLTGRSLVD
+>tr|A0A0P7FAV0|A0A0P7FAV0_9MICC
+MTPARLGVVIPARDEEQLLPRCLVSVAAAAAIVEETGTHVSVVLVLDSCTDGSTAAAAGT
+AAELGLELHLLETSAGNVGSARAEGVAYALELNAEWIANTDADTVVPGNWLRTQTELAEA
+GYGLVLGTVVPDARDLRSGHLALWQDRHVLAEGHPYIHGANLGFSARAYRAGGGFLPGVS
+HEDVELVERIKAAGLSWVATDWIRAVTSGRRDGRAPDGFSSYLQTLLN
+>tr|A0A0P7FFD6|A0A0P7FFD6_9MICC
+MGKLPAFARFGNELYTGKRSYNFVGRYKLWFLIAAAAILLSILIPVVKGGFNLGIDFRGG
+SEFTVSGVEDTQVSVGEEAVTEIVSGSDPRVTNISPGTMRIQTEELSDDQTLDVKTALAE
+SYGVNEDQVTSTFIGPTWGNDVSRQALIGLVVFVALAALLMALYFRTWKMSLAAITGLMA
+VMIVTAGLYSLSGFEVTPSAIIGFLTVLSYSLYDTVVVFDKIRENTANLAKQTKRTFAEQ
+VNLAVNQTLVRSINTSVVAVLPVASVLFIGAYLLGAGTLKDLSLALFIGIILGTLGTIFV
+AAPLYALLRRGEPEIVKHTKRVMERREHDSKGTAAQVAAT
+>tr|A0A0P7GNQ0|A0A0P7GNQ0_9MICC
+MRIFDPHIHMTSRTTDDYAALYASGVRALVEPAFWLGQPRTNVGSFIDYFDSLLGWERFR
+ASQFGIRHHATIALNPKEANDPRCVPVLEEIPRYLAKEGVVAVGEIGFDSMTPAEDKAFI
+RQLELAAEFSLPALVHTPHREKLLGTRRTLDIIRDSPLAPSMVVVDHLNETNAGIVKDAG
+AWMGFSIYPDTKMDEKRLVAILHEYGTEKALVNSAADWGKSDPLKTASTAKAMLAGGFSE
+SDVDRVLWQNPVDFYGQSGQLILDPIPGFDEAESGGAAATFEGNSLLRGARA
+>tr|A0A0P7FZ23|A0A0P7FZ23_9MICC
+MSQHSAPNPYTPAQPGTTDLSQPLYGAGIGDAVKRFFKKYATFSGRASRSEYWWWMLVNF
+VVITALVIWMFAAAAGSVDPVTGELEGTGFLFPYALIGLWSLATLVPSLALTVRRLHDGG
+FNGWLILLGLIPGVGGIAILVFSLMPSKPEGARFDAGAQQYGAYPQAPYQS
+>tr|A0A0P7HV29|A0A0P7HV29_9MICC
+MTVTAQAPAPEDTRVSLTFAKALNTALADEMAADSAVVMFGEDVGPLGGVFRITDGLTAR
+FGEERCFDTPLAESGIMGMAVGMAMNGIRPVVEMQFDAFAYPAFEQVVSHVAKMSNRTRG
+KVKLPLVIRIPYAGGIGGVEHHCDSSESYYAHTPGLTVLAPATVADAYTMLREAIRFPDP
+VVFLEPKKLYWTKEDVDLAALRAPFEDSTPAADPAIGKAAVAREGTDATLIAYGPSVSTA
+LSAAEAAAAEGRSLEVIDIRSIVPFDDETVCASVRKTGRAVVISEAPGFASVASEIVARI
+QERCFHSLAAPVLRVTGFDIPYPAPKLEHFFLPGVDRILDAVDELQWEDK
+>tr|A0A0P7GIR5|A0A0P7GIR5_9MICC
+MSTPSDPHENQDLPGRQPETGEGQDQRPEPKYGQYSPPLQPNQPNQPAQTHIPPEPGQHP
+GHAAGPGPYQQPGQPYGQYGQGQYGQSYGYQPAQPSGYSYPGAVQGPSTQPKGPAPREVV
+TGFWLIIAAGVLSLINNIVTAVRLPDVLTISQTDALRDANIDVQDAGGFLIWFSVVLSII
+GLGIYVLIAWFVLKGHNWARIVGTVFAAFSAFGLLLSLPAYVTSLIGWISLLSSLAGIAG
+IVMLYLRPSNPYFQRHNFNPYRPY
+>tr|A0A0P7GE33|A0A0P7GE33_9MICC
+MTERAVPPELVVADAAAWRAWLQENDAVSDGVWLILAKKGTRIPTSLTYAEALGEALCSG
+WIDGRRNTVDSATFRQHFTPRRVRSLWSKRNVELVAGLIESGRMRERGQAEIGRAKADGR
+WDRAYRGPATLEVPADLEAALAAVPDAAAAFAGLGRSARYPILHQVVTAPNDTVRAARIA
+RQVASLADGLA
+>tr|A0A0P7GJ83|A0A0P7GJ83_9MICC
+MIGWQVPFRAARKLEQRQNWPAAARIYRAILRNGEGENPRVNFQLGNALFRANDLGEAER
+FLSRAVELKPGTAAWHYRLGFVLERQARPELAIRHYQSALEVQPENPSWHYRLYRCHTAV
+GNRQDAYDHLAKALNGDQENPKYHDLVAAELRSRGPRWQEAQALERGQPYHEADPSWHLR
+MAESYASLSRHRQSAESYRRANALKPAVAENLFKEAEQWERAGRTSEASAAFSAGVALKP
+DGEESRFGPGAYYQLKGNWDMASKAYDLRKRARLLDAELHYRAGLAHDRCFRWKEAAASY
+LSAVSLEPSQPYWHYKLGFAHERMQAWPEAVDAYEYAASLRPSNRYWWYRAGYAGVKAGD
+LERACLSFLRAAPADFQPVEPGTQPVSPKGGYLSQLASQRLVLRDIAKDPDLQCTIADGF
+AAAGDWASAAEGYEKAIYCSNRHEPRFYFLWGHALMQTGNLCGAADAFLQTRIFMTPDGI
+DVPKYLKNTAQKHSMQYLEYYETVALRPKTILWESNHGATVGCHPLALFRHLADLPEFSG
+YRHVWAVNDPAVVPDDVRDRGNVFFAVPHSDLYLRVLATASHLVNNVSFPPYFMRRVGQR
+YLNTWHGTPLKTLGRDMRGPAMEHSNLARNFLHSSHIMSPNAHTSWALIERHDLEGLFRG
+KIRVTGSPRLDRMVTGGGPLRNHIRKTLNVPEDLPVVLYAPTWRGSTTDRVLDRDALLAD
+LEALASTRHQLVFRAHRLTEKLLAGLDLGVTIVPPEIDTSDLLSAVDVLVTDYSSVAFDF
+LPTKRPIVYYAYDYEQYSAERGLYLDLGEMPGEVCLTREELGPLVSDALSGGHTAFQDQY
+AAGAEQFAPYEDGGACARVTDFFFHDSDSDSDSDSGTGIGIEPAAEPPAALFHHSLIPNG
+ISSSFRNLAGSLSGEIRKVLVVEPHVLNKDPGRLSQFQLLPEDVQLVGRVGIHAFRPEER
+WLHDRFNRSHRLDSPEQQKIHSAAMKREFYRIFGSSVFQSLVEFDGYSPFWTALLAAGGR
+ETKRTIYLHNDMLNEWKMKFANLEAVFRLYPEFDRLLSVSESLGHENARNVGSAFNIDRD
+LFGYCNNQIDAEAVMQRSGASLDPDLAEWFAAGEQNVLAIGRLSPEKDHAKLISAFIRYR
+ENNPDANLTIIGDGPLRADLEQQIHNSGAGEYILLAGQRENPYPALALASALVLSSLHEG
+QPMVLFEAMILQRPIICTNLPGPRDILQDRYGLIVENSEDGIHGGLMRLADGNLPRETFD
+PAAYAKEAGYQFLTAVL
+>tr|A0A0P7FAU4|A0A0P7FAU4_9MICC
+MVRHQSTVPSFHRGLVSAAALAAAGMLLVGCSAQRADKVPDPPFAVFETEPGEQDVLPDW
+VELDTGREEVRYLTTSGTGRYYVSRNSTDYCLVVVREGPGESYSAFCRSGPLTQGFVLSG
+TSPGTTLDGRAGQASLVVDGYMDGAELGEDSELIHENVLVRLGVPNGDN
+>tr|A0A0P7GTT5|A0A0P7GTT5_9MICC
+MENELVELETAGWHALSTGPEEATAFYSEVLAREPVMMLTNGLRIADRRQVIESMGGPPW
+SAFEIIDPEESYLGPDVGVLSYKVRADRDGTPYTALLSSVYAKEDGEWKLALHQHTPY
+>tr|A0A0P7HJ06|A0A0P7HJ06_9MICC
+MRIVFDARFTRTDQHDGISRYGASLIEAVSRHADVRMLISDERQLALLPAVPWTKINSPL
+SPAELFVAGRINRLGADVVVCPMQTMGTWGRRYPLILTLHDLIYYQNPTPPGFLPLPVRL
+LWRLYHLAYWPQRLLLNRADVVATISRTTRDLMARHSLTRRPVRMVSNAPQPGTVPRDVS
+RPPEKTLLYMGSFMPYKNVETIVRAVDSMPGYTLHLLSRIPPQRQAELAALTADPDRVVF
+HNGVTDAEYDALLRRATALVTLSKAEGYGLPIIESMATGTPVIAADTPIFREVSGGAALL
+VDPDSPQEFAGAVRRLSDPERWRKASAAGLVRAAEYDWEASAKQLLEAAEEAASLFTART
+RRANR
+>tr|A0A0P7FYD5|A0A0P7FYD5_9MICC
+MNPAVPKKSSAKQAAGTVSWRQAAPAPVVLLTGPEDYLAGRAMENIRLQQRSQAPDTEVI
+RIDAAAYTAGELTLIASPSLFGEAKLIEAGNLAHMSEEFLNDTLAYLSDPAPDTVLVLHH
+SGGNRGKKLLDAVKAGKAPVIDCQPFKKDSDKADFVSQEFKAAKRRIDGEAVRALVSAVG
+SSLAELAAACQQLMNDSSGAITEELVEKYYGGRVEATAFKVADAALAGRAGAALSMLRHA
+LATGVDPVPLVAALAMKVRAVAKVADLRGSSGALAKELGMAPWQVDQARRDAQRFTSESL
+IKAVQVLAEADAQVKGAGRDPVYAVERAVTVIALAASGR
+>tr|A0A0P7GA94|A0A0P7GA94_9MICC
+MSTTSNTSARSYRVINPATGEPGDEFPVATDAEIQEALAASQSAFESWREVPIEERGRIV
+TRVAALFTERKDELAAIITEEMGKPLPESAGEAEYCTDIFNYFATEGPSLAADQEIKAIG
+GGRAMIQKLPVGPLLGIMPWNYPYYQVARFAAPNLMLGNTIVLKHAESCPKSALAIQKIM
+DDAGVPSGVYQNVFASHDQIADIIADPRIQGVSLTGSERAGAIIGELAGKNLKKVVLELG
+GSDPYVVLDTDDVKEAAANAWATRLENTGQACNSNKRMIVSDGIFDEFVAELTNLAKDLK
+PGNPAEAAEGTYAPLSSRSAAEGLAEQIQDAVSKGATLHAGGTLQDGPAAYLAPAVLTGI
+TPEMRAYREELFGPVAVVYKVGSDEEAVKLANDSDYGLGGAVFSTDVERARKVAQQLEVG
+MANVNGVGEGADIPFGGVKRSGYGRELGPLGMDEFVNKRLFYVAD
+>tr|A0A0P7FUL8|A0A0P7FUL8_9MICC
+MDVKAASLVDAWNERVRRNPEGRALAYFDGSISAAELDQLSDAFAAALEARGITYGDRIG
+IQLQNIPQYVIAFLALWKLGAIAVLMNPMYKERELRHLIEDSGARGILADDSLYPATAAA
+AAGTAVEWILTTSGLEYQRRNDPRIFHSAVPAPSSPDGDMAAWIAEFAGRKPADRTLAHS
+DVALLAYTSGTTGAPKGAMNTHGNILNVAATCSAWMGLQPGDSVLAVAPLFHITGAVIDA
+ATPLLADTTLVMVNRTDPAVVVDAFAEHQITCTTGSITVFNAIYQVPDAAAAHFASARTL
+YSGGAPIPPSTVHAFKERFGAYIHNIFGMTETTSAVIGVPPGVQAPVDPASGSLSIGLPL
+PNVTARIIDAAGNALPFGEQGELELSGPQIVPGYWNNPDATARTMPGGRLRTGDVATMDE
+SGWVYIVDRMKDQINVSGYKVWPREVEDVLYEHPAVYEAAVVGMPDAYRGESVVAYVSLK
+SGHTATEEELIAFTKERLAAYKYPRSVYVIDDLPKTQTGKIRRRELRKTPKEG
+>tr|A0A0P7FYW2|A0A0P7FYW2_9MICC
+MPETQPSPGDIFDLAASHGLTLDPGSVSFNEAGLDYRVAFATEAGTGQEWVLRLPRRPDV
+AAHQAREQAILDFVRPRLGVAVPDWKIQESDLVAYPLLPGTPGLTMNAENQPNWHFDPAS
+AKYLESLAALIASLHTMDPAAAAAAGIPSENPEAVRGYWAENLERVEGEFRIDSALLSGW
+RRWLDEDGLWPQRVVLTHGELYPAHLLLDETDRIVSVLDWTTAKVSDPALEFMYVQLISP
+DSFDAVVRAYQDAAGVAEPRLAERCTALIAAGPLNYAMFALTTGQAEHREAAQAQLLQV
+>tr|A0A0P7HM27|A0A0P7HM27_9MICC
+MFLRAVDGAGGSLDQRLSAGLARTLWQGRSKHKLSRRGGFLDPQEAGLMGISQAHRGRIL
+TRMPFARWPNGGGAQLTTPDVSSGTAMHWSAR
+>tr|A0A0P7G9K9|A0A0P7G9K9_9MICC
+MAHKKGASSTRNGRDSNAQFLGVKRFGGQVVKAGEIIVRQRGTHFHPGAGVGRGGDDTLF
+ALEAGAVEFGSRRGRRVVNIVAAAE
+>tr|A0A0P7HI82|A0A0P7HI82_9MICC
+MSEGPTVLDASAEVFRAHGMTTIFGNPGSNELPFLAGLGKDFDFVLGLHEQAVVGMAEGY
+ARATGKPVLVNLHAASGTGNAMGALTNARYANIPLVILAGQQVRRTVGQETMLANVNAGM
+LTYPLTKYAHEPLAAADVPRTLSQAILEASTQPAGPVYVSVPLDDWNEPALPADRLLTQR
+SVRTAGVLSEEIAAELVSAVDGARSVALVLGPQVDAAAVSDSSVWDAVIELAEHTDASVY
+VAPSPARGPFPTTHANFAGVIVPGIDSVRRRLSEHDLVLVVGAPVFRYHRWEPAEYLEEG
+TQVWQLTQDPSEATRAPFGTAVVADVARAITTLAKRVTDRGVRRPERELPQAKTSAEGMT
+GTEILEVLNEHVTEQVVYINETTTLDLDYLERISIDKPGRYHFPASGGLGFGLPAAVGFS
+LGDPGATVVATVGDGSANYGITALYTAAQRQTRTVFVIVNNSGYGALAGFAKRMGVPDVP
+GLTLGGIDFVALARGYGVPASATTTRQEFEEAYRQALASEGPVLIDARIVND
+>tr|A0A0P7HWL2|A0A0P7HWL2_9MICC
+MTGCTAARPEEESPSVSPSPAETGGPSAAFAFATAARPSGLDPFLAVDTESHRVTRQVLE
+TLVGVDPLTSAPVPALAEEWSESEDGRTYEFVLRRGVTFHDGEPFNAEAVCANFDRWYNL
+PESARGHEVLMFGSVFRGFADTPDLSAFKSCSPAGEYTVKLELNTRLPGLVPALASPEFA
+ISSPRALSEGRADELDQELNGTRLSAYARHPVGTGPFMFSSWVEDELALVSYPGYWGDRG
+QIQDLVFRTITSPESRLRALKNGDVDGYDLVTVSDVGELARAGMQILQRDPYSILYLGIN
+QNFPGMDEPKMRQAIAHAIDKPALLEGIFLNGSKSANQFLPEKLGLRSDNVTNYGHNPER
+AQELLKEAGYAGEELPFYYPRRVTRAYLPNPEKVYAELSRQLTAAGFNIRPVPMEWSEGY
+IEAVSKNGDRALHLSGLSGSYMDADNFVGSLFGSYIEEFGYDDAQLFTKVDRARTLADSE
+ERAEAYRSISDRISTRVPAVPLAFPISTLTVSPRVAQYPTSPLLNEVFNNIRLAD
+>tr|A0A0N8HY15|A0A0N8HY15_9MICC
+MIEEIRIRDLGVITDATLTLGPGFTVVTGETGAGKTMVITALGLLLGARSDAGAVRTGAK
+SALAEAVVRLSPDSPAVLRSADAGAELEEYDGQVELLVARAVNADGRSRAHLGGRSAPVG
+VLAEVGGHLVAVHGQTDQLRLKSAAAQREALDKYAGESLAGALRAYRQGYERWRAAGAEL
+TELRETARERLREAEYLAASLEEIDAVAPLPAEDENLKAEAMRLGNVEELRTASVGAHQA
+LIAGDFSDGSDATSLVDAAKRQLELAGEHDPVLAAAAGRLAEVGYILADIAAELSSYSAS
+LDSEGPGRLAEVESRRAELATLVRKYAPSIDEVLEWAETSRARLADLGDDSNRIEALEAE
+LTELQARLQDEAAGLTKLRSEAAAELAERVSSELTALAMPDARLLINVEPTGELGPHGAD
+AIEFLLAPHPGAPPRPLGKGASGGELSRVMLAIEVVLAEVDPVPTFVFDEVDAGVGGKAA
+IEIGRRLAMLARHVQVIVVTHLPQVAAFAGHHIRVIKTSSSTGDGTGVTASDVVVLDREA
+RIRELARMLAGHEDSESARAHAEELLATAAVPGK
+>tr|A0A0N8HZ65|A0A0N8HZ65_9MICC
+MNEAVILAATEGANPLIPNIWEILVTLLGFAVLMFIVVKFVVPMFEKTYAERTEAIEGGL
+AKAEAAQAEASAALDEYKQQLIDARTEANRIREEARAEGAQILADLKAKAAAESARIMEQ
+SQAAIEAERQAAVVSLRSEVGSLATELASKIVGESLADDARSARVVDRFLDELETSQNAG
+AVQ
+>tr|A0A0P7H8N9|A0A0P7H8N9_9MICC
+MSTVEESIDVAVPVTTAYNQWTQFESFPHFMKGVESVTQTSDTESRWVTKIGGVERTFDT
+KVTEQHPDERVAWKSTDGKSQAGVVTFHRLSDTETRVTVQIDWDPETFAEKVGAVVGADD
+HRVKGDLKRFKEFIESRGSETGSWRGNVDAAPTAATGGPGLKAAPTADPSLDDPESGGPR
+AAV
+>tr|A0A0P7GJX8|A0A0P7GJX8_9MICC
+MIWVALTAVALLLYVLIGYRLFRKFMAVLSEVQAAGSRLSFISATAPAAPEKAFQPAVFA
+DPEEERRRYDEGKAVRKDARRERRVQRRIQHGQPRAWRDIPGL
+>tr|A0A0P7GSJ2|A0A0P7GSJ2_9MICC
+MVSAVLLAAGAGIRLGRGPKALLPFNGRPLIEHLAGELRRGGCTRVVVILGSGSARVRTE
+ADLADSHVVINPDWETGMGSSFRAGIAEALTLAPREPVLVALADQPGLTAQTVARLIERA
+APARVSCAAYRLPGGNLLRGHPVLFAPQLARAAAAGALGDSGARSFLAAHPGLVDLVACG
+AEAEGRDIDTPADLTLLESRGPAEAEG
+>tr|A0A0P7GI16|A0A0P7GI16_9MICC
+MVVSTGEPDRRTVVQALAETMPEKSMREAAAGEVLEILDGDSVPLAVELPRLIQLPGEIL
+RLHPGAEVSAPAGSSIPEFFTAEGTGSDAPLWWLEVYATGGVPDGGRLADALSHALARLT
+GGVVLMPDGVRS
+>tr|A0A0P7GUP5|A0A0P7GUP5_9MICC
+MSAPASLPVRVLNQGKYEAETMLRNGEQLILAVVLPLLGLIALSVTPVLDDFGPSRIDTA
+TPGILALCALSTAFTGQGIATGFDRRYGVLRFLSTTPLGRAGLIAGKVIAVLSVLAIQVV
+LVSVVALFIGWRPSLPGIPLALLLLVLGAVAFTSLGLLVAGTVRPEATLAITNLLWILLA
+GIGGIILPAASLPSDMEPFVQLLPSAALGDVLRSALIDTQFNLSATLILLAWTILGGLAA
+VRWFKWS
+>tr|A0A0P7GBA0|A0A0P7GBA0_9MICC
+MLQQNQELPGAKITTFRKALRKHSPAMQTAGYALHVFFGVCIFAFVDDPVARIIAIMPVV
+FGLMGLIRALRRFLLRRRPR
+>tr|A0A0P7G8I3|A0A0P7G8I3_9MICC
+MIDVNELRENPEKFRASQRARLAEPELVDAIISADARRREARTRYETLRAEQNAFGKRVA
+QAMGEEKQALLAEVKELAAAVKAAGAEADAVQAEQEGLVRRVANVVEDGVPAGGEDDFTV
+LKTIGKPRDFEAEGFTPRDHLELGELLGAIDMERGAKVSGSRFYFLRGVGARLELALLQM
+AMDQAVKAGFVPMITPTLVRPETMQGTGFDVAHDAEIYRLAEDDLYLVGTSEVPLAGYHA
+DEILDLSKGPVRYAGWSSCYRREAGSHGKDTRGIIRVHQFNKVEMFTYTTTEEAAAEHQR
+LLAWEEEMLAKVELPYRVIETAAGDLGMSAARKYDCEAWVPTQNAYRELTSTSNCTTFQA
+RRLNIRERHDGKTRAVATLNGTLATTRWIVAILEHHQNPDGSVNVPKALQPYLGGMEVLP
+VQQ
+>tr|A0A0P7GAJ4|A0A0P7GAJ4_9MICC
+MVSGLEDITLATIALVVVAGLAAGWVDAVVGGGGLLQLPALLLVPGITPVQALATNKMGS
+VFGTTTSAITYYRRAHPDLKTALPMAGVALAGSFGGAVLAASLPSSVFKPIIVAALIVVA
+VFTATQPTVGELTKLRHSGNRHYITAGAIGAVIGFYDGLIGPGTGSFLIIAMVTLLGYNF
+LAASAKAKIVNMATNIGALAFFLPHGSLLWGVGLILGLANMTGGYIGARMAVKKGSKFIR
+IVFLVVVGALIIKLGTDVWMENFQG
+>tr|A0A0P7GNG3|A0A0P7GNG3_9MICC
+MMAAVIGWVLPLGLVVYCGWLAYFAWTQSVPEKSRGSYVATLLEAAFVAVLMRLVVEWSA
+ATIWLWVLSAAALAAAAAGLVIRWPRLPARRAQVTEPRAGFPAAVPARKPKEPGPATLTG
+YAALLAAALAVCVIVG
+>tr|A0A0P7GVT6|A0A0P7GVT6_9MICC
+MTDITAEHDVYYGTPEDGVEAEDLQTASLAVVERVEHRPNVSKIKGRLTLMDTGLTPHQA
+MVEDLLFVRRVLDDAGIDYLLVRGNDQRPVIAIDLQLREDLRRALVEACRDEPFYSRSVD
+TEKARTVLVADGDLSPHQKTRIVRLFRPRGTSGTNLVFGASAGVQVELWELGEKEITLPV
+ENSLTRRTLPASEVVRGSVDKHGLIWPTIENMFADHATDIRFDVDLVFSWVDGNSPEYRA
+RRAALMQDAVVGEGDDSEARYRQINELKYALRSIYMFAPWIRRIFIASDSPRPEWLADHP
+SVTFVPAVEHFRDTSVLPTFNSQAVESQLQHIPGLSEHFLYSNDDMFFGRPVGPDLFFSP
+GGITKFIEASTRIGLGANDPERSGFENAARVNRRLLWERFGRITTRHLEHTAAPLRKSVL
+VEMEAVFPEEFAATAASKFRAKDNISVTNSLYHYYALLTGRAVTQETAKVKYVDTTSYRG
+LKDMDRLLAKRNKDLFCLNDGSFPEVSTEERTNRVTDFLEKYFPIKAPWEN
+>tr|A0A0P7GEJ2|A0A0P7GEJ2_9MICC
+MTPAGTRLPTFWLVRHGETEWSREGNYTGLTDIPLTMEGEAQATAAREKIGDVRFDRVFS
+SPLIRARRTAELLGHPSPEVLPHAHEWDYGKNEGRRSTEVREENPGYIIWNDGVPGGETL
+AQVAARADRIISTVQAGCGTAMDRDPDAVPLERALLVAHGHFLRILAARWLGLAPDAGRH
+LVLGTAAVCVLGWDKHTPAILKWNM
+>tr|A0A0P7GBG8|A0A0P7GBG8_9MICC
+MHFVLTINQRDTREVGDQVPDLLRSLRHIPAAVDFQRSVGDEAQGILAHPSAAVEAALVA
+VRARRWNVGIGVGELRRPLPSAVLEAEGFGLVYARRAVERAQRTGDRIPLAVEGPDAEVA
+AEAEAVLRLLGQIVASRTAAEWKVLDLMTPGARGQQKYVAEELGITAQAVSKAVVRSHWV
+EEWATRPAAARLLDLVAGPASLPPAPLPYSAR
+>tr|A0A0N8HXP3|A0A0N8HXP3_9MICC
+MSEHPNEDEQLTNPKPSGQASGDDNYRGDIGDQGNDLRFAEEQELIREQASPASVKHDEG
+EYTDADGRKQPPSSRNSDADTEGSYTDSEGTQD
+>tr|A0A0P7FPT1|A0A0P7FPT1_9MICC
+MRQYEGKAELSKADEFVCSQRAIAEWLEEQRPELGHTYRGARELLNATPDPGQERTRVLL
+ICHSMREVINRLPTAVMLGRGSIYHSAEANHKTSSELVRGLPSFRVDYPEMDLSLEVENV
+PVPHGVAVALNRLIDAAVHENQRRLSDIATFLTDDANPKHPAVRDWRGLSEYFTRWAHLS
+DKPEQSIPTDQQLAAKIRIFEEHVDAIRLAFFESKSVVEGLLAAANALIEEGQYSVPARI
+DVEAAARRLTSYQLRRLFYEGLKNPHWVKPLADLGVFIDPPEPEPVGDGNIRDVFWPEVS
+YLTNVCTEVPGDVVDILLSLEASSNSWVRRAAFVIGSQVPAVEAVRLKPLLKVWAKSGGF
+GWRTDPRDMVAFAINLLTGGQTKYGVSFANLLFRPRETPGDGRNSVVELENYWYVEEMPR
+LLEALGDTALKTVLPWLVENERIKKTVTDDFDHSGFARSSVGQQLNERHDIGDTLIDAVR
+ACAITGFGSDAASTWSLFSRKPILITERIAMHSLAQVLGSLSDSEAPLLVEIGKELLCRP
+KCRDEGALLEFVALARALAQRCEREALERIVAQGHFTDEDRDRIRRNMAASGEPLNEIES
+SIERWEDHWQHRVLSGIGRELLSDGLVSELDRLETMHGVLEDPLRPSFQLTSWEGPNSPV
+EQAEMAAMSPSELVAQLESWHMTDERFGPSPSHEGQSRVLVAVLTANPRALGEVTGLVRR
+LRPTYIRAAFSGWEAAFKAGLDLDWVVVIDALADAVKHGRESSFPAEGRQYDDDADFTSA
+KKAAVGLLEELSKPKNAETIGSEWLVPVADLIVEVSGDEAAWTDYARSDASSSAMDPLTV
+SLNWQWPILIRALVNLVAHGSEAQWHEVAESVLRRELARDDPRGASHAVLGEGLGRLHDG
+ASEWLRENLALYFGSAGVLTRHQQIALTTAIAMYHYHPALYRLLSGSMIAALQEHDIAVG
+WGDPGNPKGRIGQWVVQAIIRGHISDDDELRQAFYQIAAPEVRGDAIGHIAWSFMHADVV
+DASIRDRLGSLWDERVRHVEFHPAHNAELKDFYWFVRCGKFSASWWLPRLTQAVQRYPEL
+STHGMIGGQLAKAASTMPADALAALTALLKPEDTESLNNWDLRREALAPVIASALESGDP
+QLGQEAMDLMNAMGARGEIDLDRRVAELREKPGG
+>tr|A0A0P7GSG3|A0A0P7GSG3_9MICC
+MTQSYDPNNDPANPDKPKEADNAAEAQKGPGTQEGTGNHAGSGEKGRRVNPDPAEGNITG
+LEPGGGVPPGETPPAEDQMSMDQGHDED
+>tr|A0A0P7HIP0|A0A0P7HIP0_9MICC
+MAIIYQADLHPTKMELISGWLPTAPWFPPEEAGSGIQAEPLAAYRFDDPKGEVGMETHIV
+RAGTQTVQVPLTYRPGPLQGAEAFLVGTMEHSVLGRRWVYDACGDPVYVDAFAAAVIDGV
+GQASLYTEENGVRRELPQTMTLETSGMPDGEELVEAPEREPAGWTVTRMQKEHWELSLVR
+LLDLGGRAAPPPSLVGVWDGQREPAVLGWAFPLG
+>tr|A0A0N8HXZ2|A0A0N8HXZ2_9MICC
+MDIVDFLLTRFHEDAAESRKLLGGSEISLSDRWYEERLLRECEAKLMLIDIIGGARRNAL
+SRMLQDTEADTRTYADELEWTTLALAALAAPYAEHVDYQDVWRLVEKRP
+>tr|A0A0P7G4F0|A0A0P7G4F0_9MICC
+MTESLETDVVVIGGGAAGENAAGRVVQAGLQAILVESALVGGECSYWACMPSKALLRPGT
+VLAEARAVDGVRQAVTGGLDARAVLDRRNSFTSDWDDAGQVEWVRETGIGLVRGRARLTG
+ERSLQVSDDDGTRATIRARHAVVLATGSLPVRPPLEGLDQVSFWGTADATSSQEVPPRLL
+VVGGGVAGTELAQAYARLGSEVSMVVRHNLLDAFPRPAADLVEEALRADGITLHTGTTAE
+RVFQDESGSIVLALPDGEMLHGDRLLIATGRRPALHGLGLEELGLDPDSLVSDASGLVAG
+SGNWLYAVGDAAGKVLLTHQGKYEARATGAAIAARAKGEIGFEAPPDWSRFAATADHYAV
+PQVVFTDPEIAMTGLSPEQAKERGIRVSETSLPISVAGSSLYADGYSGWAQMVVDEDRGV
+PVGFTFAGPGVAELLHAATIAVTGQVPLDRLWHAVPAYPTISEVWLRLLEKYGL
+>tr|A0A0P7GIY5|A0A0P7GIY5_9MICC
+MSTAPADDDFDPKASSLSGKVADEVMDELLAMRSSIDNIDATLVYLLAERFKATQRVGHL
+KAEHHLPPADPGREVAQIARLRRLAEDAHLDPAFAEKFLNFIISEVIRHHQAISETRNGG
+SNDAGA
+>tr|A0A0P7GJM8|A0A0P7GJM8_9MICC
+MYTDHYELTMLQAALHAGTAERRSVFEAFARKLPDGRRYGIVAGTGRLLEALGSFRFEEA
+QLDFLGSTGVVDDRTLAWLADFRFTGTITGYAEGDVYFPGSPILQVEASFGEACILETLI
+LSVLNHDSAIASAASRMTSAAGGRPCIEMGSRRTHEEAAVAAARAAFIAGFDSTSNLEAG
+LRYGIKTVGTAAHSFTLLHDSEMDAFRAQTASLGLNTSLLVDTYDVEQGVRNAVAVAGHK
+LGGVRLDSGDLVAQAQWVRELLDDLGNTSTRIMVTSDLDEYAIAALASAPVDTYGVGTSL
+VTGSGAPTAGLVYKLVSREGSDGNFVSVAKAAKNKASLGGRKYALRRLNERGRAVAEVVG
+VGARPANDGDDRELLETFVSDGVVQEGWTGPEAVTRARVRHDASLVELPAPAYRLQRGEP
+VIPTEFEEETR
+>tr|A0A0P7FE20|A0A0P7FE20_9MICC
+MQILDSTDFRVLRAMATDPRRTVVALAGRLGISRNTVQARLSRMEKKGAFLSFERRINPV
+ALGYPLMAFVHVHVQQQRLAEITADLSAVPEVVEAHGLTGAADLLLRIVALDAEDLFRVN
+KAILSVPGVERSDTTLAMGELIPYRVAPLLDRGPAAGE
+>tr|A0A0P7GV29|A0A0P7GV29_9MICC
+MLLFPPLVKGALTLDTSASTPQLLRRTNLRSVLDVLRGVPSATGTDLIEATGLTRATVIA
+VCDDLIARGWAREAPSPRTGGQKGRPARRFEFNESAGFVLGLDVGLATVRVMVSNLAGTV
+VGGTESRFPHRGGTPADRRSAVIAAARKALSDAAVQESSVLGVALGIAAQVTPEGSIAPG
+QELAPMFDLGLTEEFSKGFGWPVLVENDAKLAALAERWRGAGANEKNLAVILAGERLGTG
+VIESGRLVHGARGRAGTMGGLELVEGVGNQDGIAKLARLWGTAALDAGHTGMIRELVGTQ
+TNRVSARYVFEAAAAGDGTAAEILDRIARRMARVVALVSTFFDPRLIVIGGAVAASATAL
+LPVMTEELAHYVPDPPRLAVSELGEMLVATGAVRLALDYVEARLLDLRPGSVPAVSPEAE
+NPA
+>tr|A0A0P7HG69|A0A0P7HG69_9MICC
+MGSHPTGQPQEEVAGLVSAAAGVPRIGDPAPAFELPNQYGETVRSGDLAGAPAVLVFYPF
+AFSRVCLGELDELAALQPQFRTAGARLLAVSCDPKYSLRAWAAEQGWDFDLLSDFWPHGA
+AARSYGVFQEDRGMAARASFIIGVDNTVKEILRSDLDMPRSPGDYVRALADLSSVERS
+>tr|A0A0P7GAD0|A0A0P7GAD0_9MICC
+MKFDMGSSTLGTLTQQTGHSNEDLGQLVRNLMDAVTPLQGKFNGQGRVRFDEFKARTDEI
+ANELNSSLSAILMGQSEMDRSFQMGDQESADNAAQQQGAASFDAARFGSSR
+>tr|A0A0P7GBM2|A0A0P7GBM2_9MICC
+MVYAIVRAGGRQEKVSVGDLVTLDRVPGGAGSTFELPALLLVDGDKVTSAAKDLAKVTVT
+AEVIENFRGPKIVIQKFKNKTGYKKRQGYRSSLTKVKVTSINS
+>tr|A0A0P7GT09|A0A0P7GT09_9MICC
+MLLTIIGGSKGTGAQLASQARSAGHEVTVLSRSGQGPEGVRVLTGDATDPAAAARAVQGA
+DAVVITVGGAKGNPRHRADVTRTVIDAMKKEGVQRLMVQSSLGAGDSGSLMPAPLRLAMK
+VALAKPLADHNEQEAAVKDSGLKWTIVRPTGLTDKEPAGSWQALETGDSGTLRGSVPRAD
+LAACMLGLLEDEDSIGKAMGISS
+>tr|A0A0P7GVQ4|A0A0P7GVQ4_9MICC
+MLTASPQHGTDARDHPVRRAGVVVIGAGQAGLSAGYHLNRRGFASALTGGDAERSFVMLD
+AGAAPGGAWQHRWESLTMATVNGIFDLPGFRQTPPEPGTPARIAVPEYFAAFEDRMQLPI
+LRPVKVHSVYPADDDPEGDLLIQSDAGTWATRAVINATGTWDNPTLPAHPGRASFAGRQL
+HTRDYSSLDEFAGQRVAVVGGGISAIQQLEEISRVADVFWYTRREPVFRDGPFDAEAGKD
+VVSRVAADVEAGNPTGSVVSYTDLLWTPYALAAKERGALQRRPMFTGIVRDGVREADGSL
+TRVDAILWATGFKPSLSHLDPFQLRNERGGIEVHGTVAAADPRLHLIGFGPSQSTVGANR
+AGREAVRALAEHFDVAPVRG
+>tr|A0A0N8HXM8|A0A0N8HXM8_9MICC
+MTSTVASAAISQQEIYAAHEGGKLSVETKQPLDSIRALSIAYTPGVAEVSRGIAADPSLA
+QTHTWASRLVAVVSDGTAVLGLGNIGPAASLPVMEGKSALFKTFAGLNSIPLVLQTTDVD
+EIIETLVRLRPSFGAVNLEDISAPRCFELERRLIEALDCPVMHDDQHGTAIVVLAALTNA
+ARVIKRDMSGLRVVVSGAGAAGVACANILLEAGVKDVIVLDSRGILSESRALDGAKGELA
+GRTNPRNLDGGPAEALAGADVFIGVSSGTVPEDILATMAPDAVIFALSNPDPEVHPDVAS
+RYAAVVATGRSDFPNQINNVLAFPGVFRGALDSGARRITSAMKVAAAQAIADLVGDDLSA
+AHIVPSPLDPRVAPAVAAAVASAAE
+>tr|A0A0N8HXS0|A0A0N8HXS0_9MICC
+MLRSLYSGISGLRSHQTMLDVTGNNIANVNTTGYKATAVQFQDTLSQLTQGATAPGANNG
+GGNPAQVGLGVLVSGITTNFTQGSAQSTGRATDMMISGDGYFVTKAGNQTTYTRAGAFDL
+DADGRLVTTDGKIVQGWTGVNGVINTGGAVGNVALPDGAIAPAVATRNATMGGNLPSETL
+PANPTAVPAVAAGTIVRDMDVYDANGNATVVSLTFTRTAGGWDVSAPGATTVSLAFNNGT
+QAAGNPAALTVAGPSGNVAVDLTGLTSYAGVSTASVTGQDGRAAGTLESFSISKDGTIIG
+SFTNGAKQSLARIAVATFANPAGLEKAGNSGYTATVNSGNPVLGGPGDPGMGNAIAGSLE
+MSNVDLSQEFTNLIVAQRGFQANARIITTSDEVLQELTNLKR
+>tr|A0A0P7GDH5|A0A0P7GDH5_9MICC
+MQQAGPSVKVQLKMLDDGLEAPSYAHPGDAGADLRARVDVELAPGERALVPTGVAIALPF
+GYVALIHPRSGLAAKHGLTVVNAPGTVDAGYRGEISVTLLNTDKAEPIRLKRGDRIAQMV
+IQRVETAEFEPVAELSDSVRGAGGFGSTGGFGTATA
+>tr|A0A0P7GRY2|A0A0P7GRY2_9MICC
+MTYPLSILDFASIEEGGTAADSFQESLALARHAEKLGYRRVWYAEHHNMPTIASSATSVL
+ISFIGANTSTIRLGAGGIMLPNHAPLTIAEQFGTLESLYPGRIDLGLGRAPGSDQKTMRA
+LRRDPMSADSFPRDVQELQGYLTGNSLIPGIDAIPGKGTNVPLYILGSSLFGARLAAALG
+LPYSFASHFAPQALQDAVALYRREFKPSEQLAEPYVIAGVNALAAPTTGEAEEIFKQSQR
+RRVTQLLGKDRTYTDEEADLVLESPAGQHIKMMGHYSAVGTPAEVRSYLDWFAGHAQADE
+LIVATHAPTLEQRLRSFTLLAEAAELVPA
+>tr|A0A0P7GSY1|A0A0P7GSY1_9MICC
+MDIDMSALRLLEAEREIPLDKLIPTIEQALLVAYHKTTGSQENARAELDRKSGHVTIWAT
+ELDDDGEAVGEFDDTPAGFGRIAASTARQIILQRLRDVEDDNILGEFKGREGELVSGQIQ
+QGNNPHMVQVNLGSVEALLPPTEQVPGEKYLHGSRVRAFVVDVRRGFKGPSITLSRSHPG
+LVRKLFELEVPEIADGSVEIVALAREAGHRTKIAVKANVPGINAKGACIGEMGSRVRAVM
+TELHDEKIDIVDFSEDPATFIANALSPSRVNSVTITDADTRSARVVVPDYQLSLAIGKEG
+QNARLAAKLTGWRIDIVSDAKSA
+>tr|A0A0P7GKJ3|A0A0P7GKJ3_9MICC
+MNAPATVAALGAPGLLAGYELAGARLIPAWSEEEVQAAFEQLPTDTAVVILTADAAAALT
+GRLDDPAAPLTVTLPA
+>tr|A0A0P7GTF7|A0A0P7GTF7_9MICC
+MTPTPALQPVTEGWPAPTPGRPVSGVARVPGSKSLTNRYLVLAALADGPSRLRAPLHSRD
+SALMMAALRSLGATITEAPGSGPFGPDLLVEPIPAAASGDAAVDCGLAGTVMRFVPPLAA
+LRSGTTGFDGDPHARLRPMGATIDALRGLGITVDDDGRGALPFTVTGRGEVPGGRLEIDA
+GASSQFVSALLLAGARFTEGLHLVHTGENVPSLDHIAMTVQVLRQCGVAVDDSTASEWRV
+APGAIRAFDVEIEPDLSNAGPFLAAAVATGGSVSIPGWPAKTTQVGDKWRQILPQMGATA
+ELSDGVLTVTGTGRIRGGVFADTSELAPTVAALCALADSPSVLTGIAHLRGHETDRLAAL
+KTEINSLGGAVSETADGLRIEPAPLHGGMFGTYADHRMATAGAILGLVVPGVIVEDIAAT
+SKTMPEFAELWTALVTGAAPGAEEG
+>tr|A0A0P7FX69|A0A0P7FX69_9MICC
+MSELITSPAAVLADKLASREVSAVEVTQAHLDRIAEVDGEINAFLHVNTDEALEVAAGVD
+KARAAGEELHTLAGVPIAIKDLIVTVGQPTTAGSKMLEGWMSPYDATVISRIRAARMPML
+GKTNLDEFAMGSSTEHSAYGPTRNPWDLDRIPGGSGGGSAAAVAAFEAPLALGTDTGGSI
+RQPASVTGSVGVKPTYGGVSRYGAIAMASSLDQIGPVSRTVLDAALLQEVIGGHDPRDST
+SLTDPVGNLAEAARNGSVAGMRIGVIKELQGEGYQPGVQARFNESLELLKDAGAEIVEVS
+CPNFKYALGAYYLIMPSEASSNLAKYDGVRYGMRRLPADPPLTIERVMGATRAAGFGDEV
+KRRIILGTYALSAGYYDAYYGSAQKVRTLIQRDFNAAFAQADVLISPTSPNTAFKLGEKL
+DDPLAMYLNDVATIPANMAGVPGISIPGGLADGLPVGIQFLAPAREDVRLYRAGAALEGL
+LEQKWGGPLLASAPVLGGVK
+>tr|A0A0P7FXN9|A0A0P7FXN9_9MICC
+MRPSQAGLRTRAADAVFLLREAAYWLASLGILVAGIVLLPFLSLGIGLYALPGVLGTLDL
+LAARAQGRSAGFAGAVIPFDRRRLRGRYSFGELASLVTAPETKRDLSWLLFNAAFALVAG
+VLALALPLGALLYLVVSPLWLLFPADAPLEMTITITSWPAAFLGMLLGVAYAVLAWLLLP
+WMARRLSEGTLAILSPRRYDELSRRIQDLSAARASALAAHAAELRRIERELHDGAQNRLV
+GVVMMLGLAQRAAETDPAAAVPFLERAQDAASEALAGLRAAVHDIYPPVLDELGLGGAAS
+ALTSRSPIPCSLDVAGLLRAPAAVESAAYFVLAEALTNAAKHSGASRIEVVLRTESTSRE
+DVLVVEVTDDGRGGAAVAPAGGVGVAAAGADTGAGTGAGAARRGADGTLHTAGAGSFGAA
+GGDSDLGTGAGAVAAAVDVGTGDAGSGTGLAGIARRAAAFGGRLVLSSPRGGPTKVRVEL
+PCAF
+>tr|A0A0P7GNP0|A0A0P7GNP0_9MICC
+MTSRITTHVLDTSTGRPAPGIPVSLQIRGDLDWEELGTGTTDADGRIPDLGPQDLPSGSY
+RLEFATETYFAAAGTPSFFPSVTVTFTVAEQEHYHVPLLISPFAYSTYRGS
+>tr|A0A0P7GP15|A0A0P7GP15_9MICC
+MSPSRADLQRTASEVFGWDDFRPGQLEAMEAAVNGRDVVCVMPTGAGKSAVYQVPAMALP
+GTAVVVSPLIALQRDQAEAINEAVGSTVAYVLNSGQSQTYWDEAWAAAKRNDGNGTAKFL
+FLGPEQVAREEVLAQLEDLEVSLVVVDEAHCVSAWGHDFRPDYLQLDVLVRALDKPVVAL
+TATAAPPVRAEILEQLGMRDPVEISLGFDRPNLHLAAGRYEDADDKRRAILDQVARLDSP
+GLLYVATRRETEEYAEALQQSGLRADAYHAGRSHEDRHLIHEQFLADELDIVVATTAFGM
+GIDKPNVRFVVHADVPDSVDSYYQEIGRGGRDGEPTEIFLHYRPEDLGIRRFFAAKAADE
+DALSALYKAVKKRSEPVSAADLRDELDLNARRVSSLLGQLEQSGSVSASDEGYSARSGVG
+VKTAVKNAVDFAEQRRNIEESRLEMMRQYAESSECRRRFLLNYFGEDAPDMCGFCDNCER
+AEQEGEELGPAESAAPQPFPLQSRVVHREWGPGMVMSYEDETVTVLFESEGYKTLSLELV
+QQKDLLESA
+>tr|A0A0N8HZ33|A0A0N8HZ33_9MICC
+MKVQPSVKQICDKCKVIRRNGRVMVICENPRHKQRQG
+>tr|A0A0N8HY03|A0A0N8HY03_9MICC
+MLGTPSYDHKQEDIEINAGRPSVTLLVSNTGDRAVQIGSHFHFFETNKALLFERERAYGM
+HLDLPAGTGVRIEAGDTREVTLTAYAGNRRVIGFNNLVDGGLDAADTKIRAMERMRELGF
+QDGKPTTKPTAGNKGGAGKTGAAKEGKK
+>tr|A0A0P7G009|A0A0P7G009_9MICC
+MLFENQAALVTAAGAGIGRAIALRLAAEGASVVVSDVNDQAGAETVALIEAAGGAAAYVH
+ADVSSPDEVGTLVPFALETFGRLDLAVNNAGVGAMPKPVQEISTVDWDRTVNVTLRGTFL
+ALQGQMAHFTGQGRGAIVNIASLAGISATPNLTPYGAAKHGVVSLTRSVAKECAEAGIRV
+NAVAPGAIETAALASLPEDAKAGYAAEIPMKRLGQPEDIADAVAFLLSDQASFITGVVLP
+VDGGTEA
+>tr|A0A0P7GHX9|A0A0P7GHX9_9MICC
+MIPTGLTAGTWNLDSSHSEVGFTVRHAGISKVRGNFDKVTAVLEVGQDLNDSKISATIDA
+ASFNSNEPNRDGHVKGADFFDVEQYPELTFAATSVEGSGETYKLTGDLTIKDTTRPVTLD
+VEFNGVAVDPFGATRAGFSGSTVISRKEFGLTWNAALETGGVLVGDKVTINVDVAFVKA
+>tr|A0A0P7GLX3|A0A0P7GLX3_9MICC
+MSNTVSKPRLVILAAPGQPLPSNLAEIQALADVRITDAAGLANAMPGARALFLWDFFSSA
+LADAWPYADSLEWVHVAAAGVDAMLFEDLRRSDVVLTNAHGVFDQPIAEFVLASVLAQDK
+QLHLSKRLQQEAVWQHRELTGTHGSRALVVGTGGIGRATARLLRAVGLSVRGVGRTARED
+DPDFGTVVPSAELAEHAGWADHLVLAAPLTDQTRDLVDGAVLAAMKPSAHLVNVGRGALV
+DEDALLQALRTGQIAAASLDVFREEPVPASHPFWGTENVHVSAHMSGDIRGWRNTLALQF
+LTNLQRWSAGSIPENVVDKQRGYVSSSV
+>tr|A0A0P7GIE5|A0A0P7GIE5_9MICC
+MLPDADFFSFEQLLSTQERAKLTELRSFLSTEVAPYAAAWWNEARFPVELLPGLASLGLS
+TPVQRGYSPLFAGLVIAEMTRTDTSIATFFMVHHDLFVEGLHAFGSEEQQARLLADAQSL
+KITGAFALTEPDHGSDVAGGMATTAVRDGDTWVLNGTKRWIGNGTFCDWMLLWAREPATG
+KVRGFLLDASLPGIKRTRIENKTALRTVQNADIELTDVRVSEADRLAGIDSFEDTKHLLR
+GSRIMVGWQAVGQQLAAFDVARAYAVERLQFGRPLASFQLVQEQLVRMQGNTVASTAMLA
+RVSELEQGGYGAVSDDGSARGDMARAALAKSYASRLMRETVSLGRGLLGGNGIVTDYGMA
+KIFADAEAIYTYEGSYEINALIAGREITGVSALR
+>tr|A0A0P7GBN0|A0A0P7GBN0_9MICC
+MSGLGRHIGAPLLLGAAALLLWQGAVWVLEIEPFIVPGPLAIAEAFAGNLANVLGAAVVT
+GVNAAVGLVVGALLGVAAAVAAAAVPVLDRLAAPLVVALSVIPIVALAPVLYTMYGADQQ
+ATRQIVAGIAVFIPVYVNSLRGFRQVKPVHRDLMRSYAAGKWQITRSVTLPSAVPYMFTG
+LRIASSLAVVSALIAEYFGGPVGGLGKSVTSAASSSNYTLAWAYVLGAVLLGLLFYAVTA
+ALEKYFSRHTGGS
+>tr|A0A0P7GNI9|A0A0P7GNI9_9MICC
+MSLRYALLALLSVEPMTGYGLYKQFESSVGYVWHAPDSQIYPELRRMERDGLLVGEEIQW
+GVKGRKRQYHITADGREAFRSWANTQLDYPRERDPIHLKAAYLEWAEPDSARSQLQAHLE
+HYGARLVQWQQKIQEIDAGTSDMLNRRLATVPDEDHSRVAAFKRFTYEGLTARAEQEIAW
+ARRGLALLDELYPAQ
+>tr|A0A0P7FX77|A0A0P7FX77_9MICC
+MPLLTPWGEALDPENVLPEYPRPQLVRSGWTNLNGYWDYAFTSASRTAEPEDWDGKILVP
+FSPEASLSGVERQLQPGDALWYRRTFALPDGPGERVMLHFGAVDQSCAVYVNGQEAGTHD
+GGYLPFAFDVTGLLGAGQQELVVRVLDGTDTNGASRGKQKLERGGIWYTAQSGIWQTVWL
+EKVPQTWIRDVVITPLDSLDGVEITVVAGGSAREAGAVDGADVESGAADGGAFDSDKAVR
+DLPAQVTVYADGVAVAAAAYIPGEPIRLALPDPRLWSPEDPFLYDVRVRLGTDEVQSYFG
+LRTFGTGPDSAGHQRLLLNGKPYLHAGLLDQGYWPDGLYTPPSDEAMVFDIQTAKDLGFS
+MLRKHIKIEPLRWYHHCDRIGMLVWQDMVNGGMGEGRAPEPVPLPGRGSRSDRRYVRFGR
+SDPAGRAAFRREMGSAVELLRSVPSIAVWVPFNEGWGQFDAADIAAELRALDPTRSIDHA
+SGWHDQGAGDAKSLHVYAVPFRIRRRWQRDPRAIVLSEYGGFSLPVEGHTWNNKVFGYGK
+TLHSSAELERAYTALHRTQIEPALQQGLAATVYTQLTDVEDEVNGLLTYDRRVLKLDANV
+VRAVNADLVRAFSGN
+>tr|A0A0N8HZ22|A0A0N8HZ22_9MICC
+MTFTASEATLPQTRHLATAVPGPRSRELHAERRQQVSSGFGTVLPVFIERAEGGILQDVD
+GNRFIDFASGIAVTSVGASNARVRERVAAQLERFTHTCFMVTEYESFTQVCRWLNEHTPG
+TFEKRTALFSTGAEAVENAVKIARAATGRPNVLVFDEAYHGRSLLTMAMTAKENPYRLNF
+GPLPGEVLRAPSANPLRPSRASVPGADPAAAALAGVEELLSEHGAGSFAAMVIEPIQGEG
+GFVVPAPGFLQGLRSLADQHGIVLVIDEIQAGMGRTGTLYASEHEGVAGDITLSAKALAG
+GLPLSAVTGRADLMDAVHTGGLGGTYAGNPLACEAALAVFEEFEDGTLLANARAIEETVR
+EVLEPLVAQVPAVAEFRGRGAMLALEFADPETLEPRADLAQAASAACHAQGVLTLTCGTY
+GNVIRLLPPLVIPRDLLLDGLHVLRSAILEAAANS
+>tr|A0A0P7FPH5|A0A0P7FPH5_9MICC
+MTSTAASAAATDKWSAQLRAHGRRVTKQRLAVLDAVEHSPHAGADEVAAIVRTTLPDISL
+QSVYVVLTDLTETGMLRRIEPPHSPARYETRVDDNHHHAMCTGCGHIEDVDCAVGHAPCL
+TPSNTHGMTIQIADVLYQGLCADCAAKPDTAGKTS
+>tr|A0A0P7GBA3|A0A0P7GBA3_9MICC
+MKALVYEGPGQKAWKDVPDPQIQDPRDVIVKIDTTTICGTDLHILKGDVPAVTPGRILGH
+EGVGTVSETGSSVTNFKVGDKVILSCVSADGSCSFCKEGLYSHCTGSEGQSGIGWIFGHL
+IDGTQAEYVRVPYADTSMYLLPEGVSEEHGVLLSDIFPTGFEMGVQYGRTKPGDVVAVIG
+AGPVGLAVISTAGLYGAAKIIAVDLDQNRVDQARKFGATHGVNSGDSDWKEQIMSQTDGW
+GVDVAVEAVGIPRTFEMCTEIVRPGGNVANVGVHGKPVSLELDRLWIENIDISMGLVNTD
+TLSMLLKLMAEGKLPAEPFISHRYPLNDMMTAYDTFSRAAETDALKVILSTE
+>tr|A0A0P7GIU6|A0A0P7GIU6_9MICC
+MSIDQAAALPPLTEPATELDREEKERYSRHLILPGFGAEAQLRLKNARVLVIGAGGLGSP
+ALLYLAAAGVGTLGIVDDDTVDTSNLQRQVIHSMNDVGASKARSARDSVLALNPLVNVQL
+HEVRLDAGNALEIFSGYDLILDGTDNFATRYLVNDAAEILGKPYVWGSILRFDGQVSVFW
+GKHGPTYRDLYPEPPAPGSVPSCAEGGVLGVLCAQIGSVMVNEAIKLITGTGRPLLGRLL
+VFNAADMTWREVGLQRDPDRGAVSELTDYEAFCGLGAVPDTQQVPGISVTELAGLLAGRA
+AGELDFDLLDVREPGEYQIVNIDGARLVPRARILAGEELPEAGRTVYVYCKSGGRSAEVT
+SFLRAAGYGSAFNVEGGILDWVRSVEPEKPAY
+>tr|A0A0P7GBV7|A0A0P7GBV7_9MICC
+MSGPGEESFNAVILAGGRSSRLGGEPKAGLLVNGEPLLVRTLRAAGDAVQTAVVGPPGLA
+GLLSGVPFAGVIVREDPPFSGPAAAVGAAVTALTELQDENPPSPWTLVLACDMPESARAV
+DALLEAARLGPPQSVLAVDSSGKAQPLAGIYRTDDLLAAVTGSPDGLANLSMFSMLARVQ
+WREVAVPEGSTADVDTWADAGKWGIQRGPRTA
+>tr|A0A0P7HDM1|A0A0P7HDM1_9MICC
+MAKAELRKPKPKSNPLKAADITVIDYKDVALLRKFISDRGKIRARRVTGVTVQEQRKIAQ
+AIKNAREVALLPYSGAGRG
+>tr|A0A0P7GJG8|A0A0P7GJG8_9MICC
+MENTQLAPAAARVQQELAERGSAAQVIVTDGSARTAVEAAQTLGCEVGAIGNSLVFMADG
+AALLVITSGAHRVDTAALAGRLGKQKIKRASPEEVRQATGQVIGGVAPVGHPAPVETVVD
+RDLGAYSDVWVAAGTPYTVFRTDLAELVRITAGTVEQVD
+>tr|A0A0P7GTP8|A0A0P7GTP8_9MICC
+MTADGRGSSIPEGEYRELLARVTDWVQGPGEAWAEEIESSGSVSDDLWKELRREGFLSLA
+APRSLGGAGLSFLQWMGLMEVFSRSHASVRMIVHVLNGTWRAMNPFADETQRQKFIIPAV
+AGESVVAFTLTEPANGSGVDITSSVRRDGDTYYLTGRKHLITFGVRCDYWLLFARLEGST
+GRGGTVALLVDRNTPGTVVEDTSRTMGVHGTDHASLTFTDAPVPVANRLGAEGDGLAVAL
+GGFLTPSRISVAMSCVGLAQRAQQLAVDYARQRTTFGKPLTSRQAIAFSLAENAADIAAA
+RALTLTAASAWQDADPGAAALSSMAKLTAVDMLTRVTDKALQVHGGIGYWQTQPIERVYR
+DARAQRFEEGTNEIQKAVIARDLLGGDLG
+>tr|A0A0N8HXY3|A0A0N8HXY3_9MICC
+MQNIRIVKKPGYAVDSADRALQLILLLQENSWLRIADAARALDVAPSTAHRLMSTLVYRG
+FALQDDQRRYCAGPALRSGTAAGPDRALIAAARPHLEALALGLQETVNLVERVGTTARYL
+FSAEGPQLLRVGNRAGTVLPAHLSSAGKAILSTLSDSAVGHLYARQPQPGTSGTVRVPEL
+LNELREVRRLGYAVNIGGTEAGLAAVGVPVSASPRHQAVLGISVSAPLDRAERIQETATL
+RTLMTAGRDLVRGLDTGGLIPGTS
+>tr|A0A0P7GE44|A0A0P7GE44_9MICC
+MSTSSTATPETLARAGKVIAVHINYPSRAAERGRTPEMPSYFLKPSSSLALTGGTVERPA
+GCELLGFEGEIALIIGKTARRVSIEDAWSYVGGVTASNDLGVYDLRWADKGSNLRSKGGD
+GFTPVGPAILDAASVDPAALRVRTWVNGELAQDDTTEDLLFPFAQLVADLSQLLTLEPGD
+MILTGTPAGASVAVPGDVVEIEVDSPSTGQTTGRLSTTVTEGTTPLAPFGAQPKIDDKQR
+EEAWGSAEKAGLAPSEEPTSALTPELKAKLESVATATLSSQMRARGLNNVSIDGLTGTKT
+GRKVVGTARTLRYVPNREDLFKTHGGGYNAQKRAIDSVREGEVLVMEARGEKGTGTLGDI
+LALRAMHNGAAAIITDGGVRDYSTVASFDLPVYCANPHPAVLGRRHIPWDTDITIACGGS
+TVQPGDIIVADDDGILVIPPAIAEELVDACIKQEHQEEFIAEMVKAGHGVDGLYPMNAAW
+KEKYEAWAAEQA
+>tr|A0A0P7G3L0|A0A0P7G3L0_9MICC
+MSATAQNFAPATASLEGEGISTREIDRRKMAHDASHYLLIPQAVATPTNTAEVAQLMRRS
+RELGIPATFRSGGTSLSGQAVSDSLLIDTRHHFRDIEVLDGGARVRVAPGATVRSVNSRL
+AAFGRKLGPDPASEIACTIGGVVANNSSGMACGTEFNTYRTLESMVLVLASGTVLDTAAP
+DVEEKLRALEPELFEGLLRLRGRIVANPDSVATITRLFSMKNTMGYGLNSFLDFENPADI
+LAHLMIGSEGTLGFVAQATFRTIPALPKVATGLMFFESLDAAATALPELTATGLATVELM
+DATSLRVAQQAADAPLELRGLQIQAHAALLVEHQATTADELEAKREASRPLFESLRLAAP
+FAMTSNARDRAGMWHMRKGLYTTVAGARPSGTNALLEDIVVPVPSLARTCAELATLFTDH
+HYRDSVIFGHAKDGNIHFMLNENFSDPAELARYEAFTEEMVELVLGEGGSLKAEHGTGRI
+MAPYVRRQYGDELYEIMLEIKRLIDPANLLNPGVLINEDPRSYVQNLKIAPTVEKEVDRC
+VECGYCEPVCPSKDITTTPRQRIVLRREIADAEARGDSVLAATLRADYDYDGVQTCAVDG
+MCGTACPVLINTGDLVRRLRAENTNKAADAGWKAAAGRWGTMTSVGGKALTFAKAVPSPL
+PKLATAVGRAILGADNVQSYETVLPAGGTRRAAHEDTDPVAVFFPACIGTMFGPGEGGEG
+SAPAFMELCERAGVGVRIPKGIENLCCGTPWKSKGFTSGYQVMTEKVLANLWVATGGGEL
+PVVCDAASCTEGLDTMKRLAGESPVYPGLRFVDSVDFVRENVLPRLEVTRKLGSLALHPT
+CSSTQLGANDALTEIAAAVSAEVFVPPSWGCCAFAGDRGLLHPELTASATKRQAEEINSR
+VFDGYASLNRTCELGMTKATGHTYRHILEYLAEATR
+>tr|A0A0P7HW69|A0A0P7HW69_9MICC
+MAGISSESLAAAQGQLEARLPNATLGLAEELFGILGLLDGQTGLLRALTDPARDGHEKAA
+LVSKLVGGKVSADAEQIVASLVESRWRTPRDLGDALETLAATVVSAVAENKGPGAAGLEE
+LEGDLFRFNETVASSHEVQRALSNPQATVQARAEPALKLVPGASDAAKVLIRQAVTAPRG
+LRPTALVTRFLELVAGRQQRWIAEVRTSRPLTDEQRARLQASLNGLYARELKINATVDPS
+IVGGIRVTVGDEVVDSTVVTRLSELRRKLAV
+>tr|A0A0P7GIA5|A0A0P7GIA5_9MICC
+MPGKRGWAAAAGMVAAGIAVAAGELAAAALSPSLSPVTAVGSVVIDAVPGPVKDWAIAVF
+GTSDKIALLASMLVLILLIGAACGVLEKARPPAGSAVLGAFGVLGAAAVLSRAQFSPLAL
+LPPLAAGLAGVLVLRALAARIRRYEAAPPSDAGASRRDVLRAVGGGAAVAAVGGGLAVAS
+RSSQVAVEDLRANLQLPAPVQPAQAIPAGADLGVPGAEPLVTPNGAFYRIDTALRVPLVN
+PDTWSLRVTGMVDREVEISYAELMAKPLQESWITLACVSNEVGGSLIGNAKWLGWPVRTL
+LAEAGVQPGADTVLSRSADGWTATTPLEALTDARDSLLAVAMNGEPLPPEHGFPVRMVVP
+GLYGYVSATKWVTELKVSRFADEAAYWTDRGWSERGPVKLSSRIDTPGRGENINAGKTTV
+AGVAWAQHTGISAVQVKVDDGEWLDARLAAGISADTWRQFAAEVDLPEGEHTLSVRALDA
+NGNVQDAAERPVVPDGATGLHTVRVQAA
+>tr|A0A0P7GKD2|A0A0P7GKD2_9MICC
+MRRAKIVATFGPAIASYENTVAVLRAGVDVARMNMSHGDHSVHNNTYENVRRASAELGKP
+VGIFADLQGPKIRLGRFVDGPHHLNRGDVFTITIEDVPGTSEICSTTYKGLPGDVNVGDT
+LLIDDGKVGLRATAVDDTKVVTEVTVPGPVSNNKGINLPGVAVNVPAMSEKDEADLRWAI
+RRGVDMVALSFVRNAVDVARVHEVMDEEGRRVPVIAKIEKPQAVAAIEEIIDAFDAIMVA
+RGDLGVELPLEDVPLVQKNAIELARRWAKPVIVATQVLESMIDSPRPTRAEASDCANAVL
+DGADAVMLSGETSVGKYPIDTVKTMARIIESTEEHGLNRVPPLGSKPRTRGGAITRAAVE
+IADQLDAACICTFTQSGDSARRLSRLRPKKPVFAFTPVESTLNYMSLFWGIQPMLVPFVE
+HTDKMTEQVDQTLLEKGIVEEDAMVVIAAGSPPGQAGSTNLIKVHRVGDAADTGQSGDGR
+RREKEKVGPWPVKEANKGKARSI
+>tr|A0A0P7FPM6|A0A0P7FPM6_9MICC
+MAEDNKALKVHHLRPAPGAKTAKTRVGRGEGSKGKTAGRGTKGTAARYQVKAGFAGGQLP
+LHMRLPKLRGFKNPFKVEFQVVNLDKISELFPEGGEVTVEALVAKGAVRKNQPVKVLGTG
+DITVKVDVKADAFSASAAEKIAAAGGSTTAL
+>tr|A0A0P7G3R6|A0A0P7G3R6_9MICC
+MTLRRVVVVGNGIAGLSACDALRSAGFDGRLTVVGAEKHQPYSRPALSKALLHGEDQLSA
+HQLPDPSHGAEEILGVAAAGLDTVANLVRLDDGTELPYDGLVIASGSSARRLGGADSPEL
+TLRTIEDAVALKNRVATGSPTVIVVGGGALGMEIASGALQQGCRVTLVSDVQPLSRQLGS
+HLSGVFIDAARRSGLRFVTAGKARLAGTAQAPAVALQDGVVLSADVVVSTVGDEPNTAWL
+QDSGLLTGGRLLADSRGRVGPGIVAAGDVAAFPGAGGHGRVPLWTSAIEQAKTAALGLLQ
+GDAAPELSFQPYFWTEGFGLSLKVAGPAPMTGKPSFAETGTSADSMLLRWEDADGRGTAA
+ALNYRIPVPKLRRLANLGPSALRPAVRV
+>tr|A0A0P7G5T5|A0A0P7G5T5_9MICC
+MSTTFSAETPSNPPGTDPETPAKGKTKGLSQGQIVRKRFFDNTAAIISLVVFALICILAF
+SSIGFAGIPGWWKYDHRQFTEQINGGAPTFVNLFNWGEHPFGQDRIGRDMFAMTMRGTQQ
+SIIVMFLVGAIACVVGSVVGAVAGYFRGMVEAVLMRLTDVVIIIPIIVMAAVLGQIANRL
+VGEGIGVVLLGIFLGLATWTSLARLVRGEFLSLREREFVDAARIAGASNKRIIFKHILPN
+AVGVIIVNTTLLMSTAILLETSLSYIGFGVQPPDTSLGLLISQNQEAFQTRPWLFWWPGL
+FIVAICLCINFIGDGLRDAFDPRQKKFNAKKAKTKPAGN
+>tr|A0A0P7HDU4|A0A0P7HDU4_9MICC
+MKEFKSVAVIGLGYIGLPTAAVLAGKGLNVIGVDVKESSVEAINRGEVPFVEPDLGEAVS
+KAVSAGTLKATTDTPVADAYIVAVPTPFNADRTADLSYIEAAARSIAPQLTGDELVILES
+TSPPGATQHLGDYLVELRPDLSLDTQSGKPVLHVAHCPERVLPGRVMIELVSNDRIVGGL
+TREAAEMARDLYSVFCEGEMHVTDAKTAEMAKLVENSYRDVNIAFANELSVISSRLGIDV
+WELIELANHHPRVNILQPGPGVGGHCIAVDPWFIVAAAPEDAKLIRQARETNDAKPEWVI
+AKVKELVAGRTNATVAALGLAFKADIDDLRESPAISIVASLSEQLPEVRFSVVEPHVEDL
+PRALTGRSNVCLTATKDAIEQADVVLLLVDHTAFKELDRALLAGKKVIDTRGVWR
+>tr|A0A0P7HEJ8|A0A0P7HEJ8_9MICC
+MTEPTFRAGFVSLVGRPNAGKSTLTNALVGQKVAITSAKPQTTRHTIRGIVHRDDSQLIL
+VDTPGLHRPRTLLGQRLNDLVADTLAEVDAIGFCLPANEAVGPGDRYIANQLAAVRGKPI
+VALVTKTDLVDRAALAKQLMSVTALGSEVMGEAGWADVVPVSAADGFQVDTVADVLASHM
+PASPPLYPDGELTDEPEAVMVAELVREAALEGVRDELPHSLAVVVEEIIPREGRSEENPL
+LDVRVNLYVERPSQKAIIIGRGGSRLREVGTNARRGIEALLGTRVYLDLHVKIAKDWQRD
+PKQLVKLGF
+>tr|A0A0N8HYZ2|A0A0N8HYZ2_9MICC
+MDSVPNSAKTQNTLPGRPAGGASEPGHPARNGWLAAGAAVMLLALGVALLFTGSAAAAQL
+ADPGALTRWGLPIAKAVQNGAVAAVIGALVFAVFILPKHAGPKRGRGERETRPEHPAFTQ
+AMYLASGAAALWTLSAIAVMLFTYSDVSGLPLSPDPSYTDGLASFLTDFANGRAWLAVSI
+IAAVVTTLTFGVRSLTGLALTLILAMGGLLPMALVGHAAGGDDHSAAVNSIGLHLIGVCV
+WIGGIIVLAVIAKQLGDITGTVLRRFSALAGFGFVLVSLSGLVNASLRITSLEQLDSRWG
+ALVLFKVAATLVLGILGLLHRRWIIPQLPVAASGKGATTPASGGMSARRVLWQLIGVELL
+IMGAISGVAAALARTAPPRPEELPPNASPARILTGYDLPPELTAERYLTEWRFDWLWVAI
+VVTIGVAYLLGVRKLRRRGDKWSFVRTVCWFVGLIALTYVTSGAPAVYGMVLFSTHMLGH
+MALTMVVPLFLVLGAPVTLALKALTPRGDGSRGLREWILIAVHSRYSKIITNPIFAAANF
+AGSIVIFYYSELFGFALREHVGHELMILHFLLTGYIFILTMIGIDPLPSRAPYPLRLVIL
+LATMAFHAFFGVAVMGQTSLIQASYFGNMGRDWGVSALEDQQLGGAIMWGIGEIPTVLVA
+IGVALQWSRTDARETKRKDRAAERNNDAELTAYNNMFAQLAERDARTDQGERR
+>tr|A0A0P7HDK0|A0A0P7HDK0_9MICC
+MKAIVYSEPGASSVLSLAEREVADPGPGEVRVRIAVSGVNPTDWKARAGSVPFPEVVPNQ
+DGAGIIDAVGEGVDGLQPGDRVWVYLAAHGRPTGTAQEFAVLPAERAVPLPEGIGFDVAA
+SLGVPAMTAHRALTVHEAGPLRLAPGALADRTVLVQGGAGAVGHAAIQLAVWAGATVIAT
+VSSDEKAELARAAGAHHIVRYPDAAEADRIREIAPDGVDHIVEVSPAQNAALDVEVIANH
+GSVAYYANNNGEEFTVPIVASFAKNVRWQGVLVYTVGEAAHLAAVEDITAALQDGALPVG
+EEAGLPLTWFPLEGTAAAHDAVENGTIGKILIQVGE
+>tr|A0A0P7HM78|A0A0P7HM78_9MICC
+MPPQTSLWQSLGRLYPHVKPILPRLFLGFLCAIGASVVALAIPQVLRVLVNSYLSPGGAV
+TALWWATGIVLVLGTLEAVFMALRRQFAVAPSTIVETSLRTSFYRHLQDLSVAFHDRWGS
+GQLLSRAMSDLNLIRRWMAFGALMLIVTALTVLIGVTIMFFTAWQLAIVFLLAAMPIIIY
+GFRFRRFYGRVSRQSQDQAGDLATTVEESVHGIRVLKAFGRSPEALDAFQEQAEELRQTE
+VYKANSLAKFSLVVTLLPEAALAVSLVLGVLLVNDGQVSIGALVAFFATAAVVAGPVESM
+GPLLSMTLTAATAIDRHFEVMDAKRTITDPARPDRPAEVHGQLSFRDVHFSYPDAAPERK
+DVLDGVTLDLRAGETMALVGITGSGKSTLLQLVPRLYDVTAGSLRIDGIDVRDYSLAELR
+SIVAVAFEDTTLFSSSVRDNVLLGAGTTGGAEAEHVLSEALDVAQAQFVYSLPDGVDTLI
+GEEGLSLSGGQRQRIALARAIAARPSVLVMDDPLSALDVRTEELVEHRLREVLADTTTLV
+VAHRPSTVSLADRVALMEDGRISAVGTHAELLAGNEHYRYVIASLPAEPRDLDSENENEG
+EVLR
+>tr|A0A0P7FDH9|A0A0P7FDH9_9MICC
+MKQKLGRWLVPVFGGLAFLFLLVPIVYVFAFSFNDAGRTNLSWRGFTLDNWKNPCGAPGV
+CEALGNSLQVGLAATLISTVLGTAIAVGLVRYRFKFNATANMLIFLPLATPEVVLGASLL
+AQFLNVGAELGMGTVIIAHSIFCISFVVVTVKARVASLDPKLEEAAGDLYASPIQAFWRV
+TFPLLLPGIVAAALLAFAMSFDDFIITNFNSGNLDTFPKFIYVAATRGIPAQANVIGSAM
+FIISLLVVIGGQVLAHRRAKMLAAR
+>tr|A0A0P7H3R7|A0A0P7H3R7_9MICC
+MPELDPVIHAESRLRALTTLNEVGENNQIAFTKLQKMLEMTAGNLSTHLRKLETAGYVEV
+TKTIEGRTPATYVGITPEGRAAYARYRKNLSDLLSGLA
+>tr|A0A0P7GM14|A0A0P7GM14_9MICC
+MNNISSQVADYVLETNLSDIDSGTISRVKDRVLDSLGTIMIGRNADGNDAAARVYGGEGG
+PPEATVLGRGSRTGAANAAAVNALMQRSWDFEACGAEDSQRRLHPAHVSGSTFPTALAVG
+ERTHASGADLLRALTLGDDLATRITVASGFNLAIGTDNTGISNGIGCVATAGALMGLNAQ
+QLVDAFGLVLNQLSGTIENIFDGAMAFKLPQAMSARNAINSVDLAVGGFSGPKDPLGGRY
+GFFSIFGGSSNQDTLLEDLGKVFYGDKVIKPWSCCRIVQGPVEAATVIRKEIDLDGIQEI
+RIVAPPSVLNGFTAVPFIHGESTPVSAIFNLSLCVVLALEFGEVRPEYITEEVLGSPRIR
+ALHGKVRLVDSESGGISAGSVPTPIRVDVEMKDSRVLSRSTPVALGDIYANPLSSEQLLD
+KYYRNMEHGGVDRRIADEARQMVEALESVDDVRLLADVLSGPFNE
+>tr|A0A0P7GLG7|A0A0P7GLG7_9MICC
+MEGVKARIGAPSGDRRVRIDGFTEEGENLSPLNDSSPVLGGDSSKSHSHGAGAGIPDSSR
+AGRLTSFNRADFGKLTGREEDWRFTPLKRLRGLHTQDLTGTAPEVAVVAPEGITVAGIGR
+DDARIGTAGIPEDLVAAAAWEAFTEATLVSIPKDMQAEGTVTLSITGAGTDPAAQHVVIE
+AGAFSKAVVVLDHKGSATLSQNVEIIVGDGAELTVISVQDWDDDAVHASAQYAKVGRDAR
+FKHVVVSLGGDLVRVTPSSKFTATGGDVQMFGLYYADAGQHLEQRLFVDHAVPNCKSRVM
+YKGALQGKDAHTVWVGDVLIRKEAEGTDTYEVNRNLLLTDGGRADSVPNLEIETGLIEGA
+GHASATGRFDDEHLFYLMARGIPEDIARRLVVRGFLNEIIQQIRVPELEERLTAAVEREL
+AQVEN
+>tr|A0A0P7G8E3|A0A0P7G8E3_9MICC
+MRIPLSWLREYAQVPADATAEDVMAELVKVGLEEEDVHRPTDELQGPIVVGQVLSKEPEP
+QKNGKTINWCSVRVVPEGAEQTLTGDGIDPSGVQGIVCGAHNFEVGDKVVVTLPGAVLPG
+DFRISPRKTYGHVSAGMIASVRELGIGEDHDGILVLSTLGLDPEVGTDAMELLGLYDQAA
+EINVTPDRGYVFSIRGAAREYAHATGTKFTDPAATVEVPEADGAGYPVRLADEAPIYGKA
+GCDRFVARTVRGVDPTRPTPPWMSSRLRLAGMRSISLVVDISNYVMLELGQPLHFYDLDK
+LTGEIVVRRANPGETLKTLDDKVRTLDPEDLLITDGSGAIGIAGVMGGNATEVSDATQNV
+LIEAAHFEEVSIGRSRRRHKLPSEASKRFERGVDWYVADIAAQRAVDLLVELAGGTADES
+ITDAGTAPETRSIFLPADFPARLIGLEFTEDQITGTLTDLGADVEKADGGFRVVPPSWRT
+DLETREDLTEEIIRLVGYDKIPSTLPVAPPGRGLTRVQQQRRRLQQSLAASGLTEVLSYP
+FVTEADNNTFGTPVAGEERPAMKLANPLSAEFGYLRTSVLPGLFDVAKRNLSRGFRDLAL
+FESALVFLPGEQNGTESIPPLGVKPSEEVLDGLYNGIPDQPLHIGVLFTGHESPAGAGHT
+PRAWDWADAVDTARLMGDVLGVELVIGQGEHQAFHPGRTARISLRSGETVGYAGELHPKL
+LAARDMPARTVALELDADALFDAAPDVIVAKEISTYPATTQDVALIVGEEIPAESVLETL
+REGAGDLLEDIALFDVYTGKGIEPGHKSLAFALRFRADDRTLTADEASESRAAAVALAAE
+RFGAVQR
+>tr|A0A0P7HFC1|A0A0P7HFC1_9MICC
+MAGGRRKGGHGATPATAALDAAGVTYRTLSYQHDASTPSYGLEAAEKLGVPPEAVYKTLM
+VALEHRLAVAMVPVAATLDLKKVASMFGMRKASMADRAEAERRTGYVVGGISPLGQRHHS
+PAVIDSSAELLDLIYVSGGRRGFEIELSPFDLIRLTEAQTGPIAVYKD
+>tr|A0A0P7GIG6|A0A0P7GIG6_9MICC
+MTVKLLPVFQQLLNDPVVAALAQGGETAWFRGQPIPVADGIERSGISPATVADARARFQR
+FAPWFADRFPDTRPAYGVIESPLVGAPSTQRALSSLLGRDLPGRLWIKRDDILPVSGSIK
+ARGGIHEVLQLAEQLVAGSFPLDRDGYAQVFTSSGVRKTLGAQGITVASTGNLGLSIGIV
+ASELGFRTTVHMSLDAREWKKELLRSRGVDVIEHDADFSTALIEARETTASSPNTHFIDD
+EDSLGLFAGYAVAGARLAGQLAALEVPVDANHPLFVHLPCGVGGGPGGVTFGLKLAFGDA
+VHCVFSEPTRSPSMSLGVRSGLHDQICVEDIGLDGRTAADGLAVGRPSRLVGQRMQDLVD
+GYVTVSDERMKSLVSLLQDAEDISLEPSATAGFTNPWRILSDDAYLAAFGLDEDCLAAAN
+HIVWTTGGGMVPTAEMNRYMEEGRNILLHTDGADAEVTDSAEIK
+>tr|A0A0P7FDR8|A0A0P7FDR8_9MICC
+MHPYPTAGTEFPEKPLSVAVIGAGYWGPNLARNFHGSPGWRLAAICDLDTARASRLALSV
+GGVAVTDSLESLLADPELDAVAIATPARTHHGLAASALAAGKHVLVEKPLADSLARGEEM
+VRLAKSAGLVLMADHTYCYTPAVLKIRELVEQGELGEILFIDSVRINLGLIQPDVDVFWD
+LAPHDLSILDFVLPGGLQPVRVSAHGSDPLGAGTSCVGHLVLELGTGAMAHIHVNWLSPT
+KIRQLVIGGTRRTLVWDDLNPQQRLSVYDRGVNLSRHTGEEERSQSNISYRLGDTWSPAL
+PEHEALAAMVAEFAGSIRAGRPAQTGGAAGVRVLSVLEAATRSQLSGSPVLLSPTLELES
+AS
+>tr|A0A0P7GWN2|A0A0P7GWN2_9MICC
+MLIERIYDEDLAQASYFIGCQRLGEAIVVDARRDVAPYLELAAANGMKITAVTETHIHAD
+YLSGTRELAAATGAQIYISGEGGADWQYGFDGTRMYDGDAITIGNLTIKALHTPGHTPEH
+LSYLVTDGAFTDQAGYLLSGDFVFAGDLGRPDLLDEAAGGVDTRFEGARQMFASLRDKFL
+TLPDYVQVHPGHGAGSACGKALGAIPSSTVGYERLYAWWGPYLAANDEQGFINELLDGQP
+EAHAYFARMKKQNKQGPAVMGPREPLAEIPAADVVTRLETRVATFVDTRSVPELHEGTVP
+GALHIPAGGKTASFGAWAVDPESERTRPLILLTADQDQAHAVRDSLARVGIDDVAGFVTS
+LEGLPQAAPATISATDLDSFDAAMVLDVRARTEHAAGNIPGSHQLHGGRALWNLDELPSE
+GKIVAYCASGMRSSIVGHALRNAGYDVVELEGAYPAWAAAHAS
+>tr|A0A0P7HLW7|A0A0P7HLW7_9MICC
+MTSAGSVLQKFTPATRDWFQGAFAEPTAAQIGAWDAISAGSNALVIAPTGSGKTLAAFLW
+SLDRFIADAAAAAPSIPPAPATGRGKSREPKRKTKVLYISPLKALGVDVERNLRAPLIGI
+TQTAKRLGLPAPGITVGVRSGDTPQNERRALLTRPPDILITTPESLFLMLTSQARETLAE
+VDTVIVDEVHAVAGTKRGAHLAVSLARLDALLDKPVQRIGLSATVEPKETVARFLGGNAP
+VQIVSPESRKNWNLTVTVPVEDMTDLGGAPAQDTVEGGFAPQASIWPHVEEKIADLIEAN
+RSTIVFANSRRLAERLTARLNEIHAYRLEAAQAATGTDGVPVAVPAARPPAQLMAQAGVS
+VRSRQEDVAVEDNTPVLARAHHGSVSKDQRAMIEDDLKSGRLRCVVATSSLELGIDMGAV
+DLVIQVESPPSVASGLQRVGRAGHQVGEISQGVMFPKHRGDLLNSAVTVERMLAGAIEPL
+FIPANPLDILAQQTVAAAALGSIDVEEWFDVVRSSAPFAGLPRSAFDATLDLLSGRYPSD
+EFAELRPRIIWDRTENTITGRPGAQRLAVTSGGTIPDRGLFGVYLVGDSEGKNSRRVGEL
+DEEMVYESRVGDVFALGATSWRIEDITHDRVLVSPAFGQPGKLPFWRGDSQGRPVELGRA
+LGKFVREMAGTSEPAARERLAAVGLDEWAAGNLVAYLHEQQQATDVVPSDRTLVIERFHD
+ELGDWRVVLHSPFGMPVHAPWALAVGARLQQRYGLDGSAMASDDGIVLRVPLMDDEPPGA
+ELFLFEPDELEAIVTAEVGGSALFASRFRECAARALLLPRQNPAKRTPLWQQRQRSAQLL
+DVARKFPTFPIVLETVRECLQDVYDLPALKELASAVERREIRLVETTTPQPSPFARSLLF
+GYVGAFLYEGDSPLAERRAAALSLDPTLLNELLGRAELRELLDARIIAQTEAELQRLAPD
+RHARGLEGAADLLRLLGPLTAAEVAVRLEPVEPGNTQTGSGETARPSHATEAEAEQLLRE
+LVRANRALQAGIAGTQRYAAIEDAARLRDALGVPLPMGVPLAFVEPVPDPLGDLVGRYAR
+THGPFTAAEAAARLGLGVAVVTTTLQRLAGEGRVAEGEFRPTEAQVLDAASGVDQFPPAV
+ITVPGVPAGSEWCDAEVLRRLRRRSLAALRSDVEPVDPPTYGRFLPVWQNVGSSLRGLDG
+VATVIDQLSGVPIPASAWEPLILGSRVRDYAPAMLDELTATGEVIWSGTGSLPGNDGWIA
+LHLAENAPLTLNPDPDFVPTELQARLLELLSGSGAYFFRQIAEVLNSGPLQDGGSLLPDS
+EIVPALWELVWAGRITNDTFTPVRSLLSGGKTAHKQRSSTPRARTARLGRLGRTPRGSLS
+TSSLRLAGEQNLPARGPQPLVAGRWSLLPPVETDTTVHAHATAELLMDRYGIVTRGSVAS
+EGVPGGFGLLYKVLARLEEMGRCRRGYFIEQLGAAQFAVPATVDRLRSFSRENQLAVPEP
+QAVALAATDPANPYGAALPWPAAEGGHRPGRKAGALVVMVDGELVLYVERGGKTLLTYTD
+EAEILLLAAASLVDIIRRGAAEKMAVEKANGADVLDTPVATALMAAGFYSTPKGLRYRV
+>tr|A0A0P7FHT1|A0A0P7FHT1_9MICC
+MVFTIAYNVTGSVADAEDVVQETYLRYAAVAQAPAHPRAYLARAASRQALNAVRAASRRR
+EDYQGEWLPEPLPTGPDAGGRLNPEAAALTEAEVSTAMLVLLQQLSGPERVALVLRDVFG
+FAYSEVAAALESSEPAVRQLLHRARDRVRTPQPRSLPDKDEHRAAVERFLEAALTGQTQA
+LLDVLAPDVVLHSDGGGKVSAARRAVYGPERVAALLLGLGAKFGQAAAPEFVELNGLPAV
+AFRENGTVTTVFQIARENGLITGVYAMRNPDKLDRVQ
+>tr|A0A0P7GTR6|A0A0P7GTR6_9MICC
+MSELRSGRPTGVLFDIDETLVDLRTAMGNTLREISARDLAHFTEEDWAAYQRLYTADPQG
+YYDRYLAGELSFTRQRLLRVAHAQQAHGLPAFDGDAEEAWNAAYDEVLPGHFKPFDDVVP
+VLDQLDALEIPYGAVSNNVHDYQRAKLDAAGLERIQILVGIDAVGAAKPDPAIFLEGVRL
+LGTDPVRTLYVGDNPVVDGRGALAAGLQALWVERSGSRELRAAHPDLPVSGSLAAVPAMV
+GQSSPAPG
+>tr|A0A0P7FQU8|A0A0P7FQU8_9MICC
+MIRRLWTQRDSLVSDFLSRFEAVSYDDAKVPAEDVYQTAVDTMDMFLYQMAGLELPPDLR
+NLPREVATRRASQGVPLHSFLEAVRNDFRVLWKGLERVAHGDGVNVLVSNMDRVMDVVEG
+YVSSIQQSFVEAEALLARDKQLYRQRLLSRLFSAEPKAQQDVEDIAAGLGVRAADTFELL
+AVIGDAVAEAQRTFLNDRRLHSYERAGVLYIFRQQRAGSWQQEPPGFAAGYIPDIAGLSA
+VPAAASSALVLARSGGPGLQTVQEAWQRIAAELLEQTLPGFCSGVQEALRKCTDHERARL
+LQVAESYARTGSIKETSEELYCHRNTVVNRLHSLQQVIGLDLAVPGEASWALIALSTLPE
+YPRTV
+>tr|A0A0P7GCD8|A0A0P7GCD8_9MICC
+MPQQGKSTRDDAGDGRLWSKPFSLAIAVNFFISLVFYLLMTSMALYAVDRFGASDTAAGL
+TAGSFVLGALTARVFAGKFLDFVGRRRMLLAGLLFYTVAALFYTPAGSLEILIAIRVIHG
+AAFGLASTALSASVMALIPAGRRGEGTGYFSISNTLATAVGPFLAVLLVDRTSYGVLYMV
+TAACAAASLLVALALRLPERTLSPAEVAAKWRMRPADVLEPRAAAIASVMLVAGVAYSGV
+LTFLNSYAQEQDMVAAASGFFLIYAGVVFVSRFVVGRLQDTRGDNAVVYPILASFAVGLG
+LLAWAPNSTVLAIAGAFVGMGFGALMPTAQAIAVTVAPDHRIGIATSTFFLMLDAGIGLG
+PFLLGLLIPLTGFTGMYAVLAVVVGAAMILYHFVHGRSARRPSRP
+>tr|A0A0P7H5G4|A0A0P7H5G4_9MICC
+MTDTTDLTAGVDSSASAGSNGETNSKSSGLAGLKLAQLQALAGQLGITGGSRMRKGDLVT
+AISNHQRGGAVADRAAADRPVRGSKAEATKADKAGADRPVKEAAAPAAAAAPAAEAPAAA
+EGEKAAERPSRTRNRNRRAASDGVVTPAAGEAPEAAQAEAPAAAPAQEGTREEGQRERGR
+NRRNRRSDSETSSEGNAAETAGADASQEKGDSSRESREDDRGERQGRNRNRNDRDNNRND
+RENNRDNNRNDRDNNRSDRENNRNDRDNNRSDRDNRDSDGDDNSRSGRNRRNRNRNDRND
+RGDRNDRFRDRNERRRNRDRSPEVDDVEVTEDDVLLPVAGILDVLENYAFVRTSGYLPGP
+NDVYVSLAQVKKYNLRKGDAVVGAIRAPREGENQGNTARQKFNALVRLTSVNGKPAEDNK
+DRVEFNKLVPLYPSERLRLETSPKVIGPRVIDLVAPIGKGQRGLIVSPPKAGKTLILQAI
+ANAISINNPEVHLMMVLVDERPEEVTDMQRTVKGEVIASTFDRPADDHTTVAELAIERAK
+RLVEMGNDVVVLLDSMTRLGRAYNLAAPASGRILSGGVDSSALYPPKRFFGAARNIENGG
+SLTILATALVETGSKMDEVIFEEFKGTGNMELRLSRNLADKRIFPAVDVNASGTRREENL
+LSAEEVKIMWRLRRVLSGLDTQQALELLTGKIKETQSNVEFLMQVQKTTLGTKND
+>tr|A0A0P7G7E5|A0A0P7G7E5_9MICC
+MSYGVPAGTPAHDVPVCPRHPDRVSYIRCQRCGRAACPECQHTAPVGIQCVDCFQESRRQ
+SPAYRTQYGGAVRAGKPVVTITLMVLCGVAYALQWIVPGFTELFWFAPVYAQVEPWRMLT
+AAFLHSPGFIFHIAFNLYALWLLGRSLEPLLGRLRFTLLYLISALGGSIGVLMLAPGLQA
+VVGASGAIFGLFGALFVIQRQRGGEVKALLILIGINLVLGFVYPSISWQAHLGGLVTGAA
+CGAVLAYAPKGPRRSLFQFGGLALITVVLAVLSFVWAPSFQP
+>tr|A0A0P7GBT3|A0A0P7GBT3_9MICC
+MSTPNSSSKTVRIDAWLWAIRAYKTRSAATAACRAGHVKLNGNAAKAAQPVQPGDTIRVR
+QPGFERILEVRGLIAKRVGAEAASHFYTDHTPERPAAPALGIPQRDRGTGRPTKKDRREL
+ERLRGAR
+>tr|A0A0P7G4U0|A0A0P7G4U0_9MICC
+MKVLVVGPGGREHAIVRALLADPYVTEVHAAPGNAGIAQVVPVHSVNANDPDAVTALARQ
+LGSDLVVVGPEAPLAAGVSDALAEAGIPVFGPSRAAAQLEASKAFAKEVMAEANVPTAMA
+RVAATAGEAADALDTFGAPYVVKDDGLAAGKGVVVTSDRDEALAHAQACFDAGGTVVIEE
+YLDGPEVSLFVLSDGRHVVPLAPAQDFKRIFDNDEGPNTGGMGAYSPLEWAPANLVDDVI
+ARVAQPTVDEMASRGTPFVGVLYCGLALTSRGLRVIEFNARFGDPETQAVLARLKTPLGG
+LLLAAAKGELDVMEQLKWDPRTAVAVVVASENYPDTPRTGDPILGLVDVEAIEGVHVLHA
+GTAIEASEIVSAGGRVLAVVALGSDLTQARDLAYAGVQVIELEGSQHRTDIALKASRGEI
+VVPPGSAGIDNEQDLA
+>tr|A0A0P7FXU2|A0A0P7FXU2_9MICC
+MPPKSPRQVEVYDFRRPTTLAREHARVLELAFDTFGRQWGTQLTAKVRVLSQVTSEQVQT
+MTYDEYVATLPENTGMVLFSMPNISAKAVIQFPMAAALSWVRHMLGGSGNQPAPERKLTH
+IEQALLGRIMDEALEDLHYALGSLLAAPLSPSSIQYNSQFAQAAGSTVPMIVARFEMVVG
+DAVAPATVALPAEAILPQLGPVRPNLSDATPAELITEQLANLPVDVSLQLNPVMVKPSKV
+LELSVGDVLSLEHPQHRPLNVTVDGQTLAQAAVGASGSRLAGVIVSTEENI
+>tr|A0A0P7H8X4|A0A0P7H8X4_9MICC
+MDAVSNALDELPHRIAEEVERADLTVALAESLTCGNLTGNLGKGENTGEWLSGGIVAYLT
+EIKQSVLGVSEGPVVSARCAEEMAAGAAKLFGADLTVSTTGAGGPGSLEGQPAGTVFIGW
+SLRGETGHAKHSFDGGPAEILEQTEAAALQQLLELAQKAQ
+>tr|A0A0P7FPC7|A0A0P7FPC7_9MICC
+MSLLEKLLGKPGKGTMAPERYADRNPRRSAVVRQVASLLLQYPEEDLIASLPVLRSALEE
+SGALEPGVQELFGWLAARPLPGVQSVYVQEFDLSKRHSLHLTYWTDGDTRRRGEALAAFK
+EVYREHGMLPEGTELPDYLPLVLEFAAKVSPEDGYELLQRYRPSLELLRLALRDAGLPYH
+HVLALVCTTLPGVSPEDAQTVMRTAGYGPPTETVGLEPYSSRLLPLSERNRT
+>tr|A0A0N8HZ93|A0A0N8HZ93_9MICC
+MPAAGEFREAPVADWVTIPDLYRDPFPIYRRMREEAPVHWVPAVNRYMVTGYAACHTIEQ
+DDATFSADETGSLMKRSMGHSMLRKDDPEHRVERDSYGSTLRPGTIKNHWKALFEANNEK
+YLRELEAKGSGADFVWDYAAPYAAENLRLVCGFHNATQQDLQRWSQTMIDGTGNYADDAD
+VWEKSARSSAEVDAAIDEMLPYFRKNPDHSLLSGLASMPIPLEAIRANLKMTIGGGLNEP
+RDVLGTTVWALLENPDQLASLQEDPKLHAAAFEESVRWVAPIGMYPREATRDTVLEGIRL
+PKGARIGVVIGAANRDPAVFENPETYNIHRPRKPHLGFGGGTHFCAGTWVARTQVAQVAM
+PALFDRFPRLRLDPSAETVDAGWVFRGMLKMPVRWD
+>tr|A0A0P7GS89|A0A0P7GS89_9MICC
+MARRRISSADGVSALAAAAAGGADRNTTATAVRYTLEELAERVPGNSVEVRVPPFGVTQC
+IPGPRHTRGTPPNVVETDAATWLALVTGDLSWADAVSAGKVSASGLRADLSGCLPLFARF
+AARGKP
+>tr|A0A0P7HG15|A0A0P7HG15_9MICC
+MDSQKGPTPGSPADSTPEADPYSVARAIVLRQLTSSAKSRKQLADKLAERDVPEEVAEAV
+LDRFEEVQLIDDSEFARMWVRSRSQTRSLARSAIRRELSEKGIDPELAEDALEQISSDDE
+AEAARALVERKLSRAAVPQDPKERDKQVRRLVSMLARKGYSPGLGFSVVNDILAAQESGE
+L
+>tr|A0A0N8HY13|A0A0N8HY13_9MICC
+MTALANGGTHLSGPVLVIGTGLLGASIGLGLRARGIDVVLSDISPSTAAVAKDIGAGRLL
+DDAEEGFAPQLVVIAAPPDVTASLAARALKDWQGAVVVDIASVKAAVLADLRATGVDLAR
+YVGTHPMAGREKSGPVAALGDLFMSMPWVICAGEESSPEAVKTAEALAIDLGAVVSRMSA
+DDHDASVALISHLPQVMSSLVASRLQETPPSALALAGNGLRDVTRIAASDPKLWVQILSG
+NAPKLVNILHGVREDLNRLINTLEHPTADGARLDMAQLISEGNTGQARIPGKHGTPPQSF
+VSFTVLVDDTPGQIAQLLTEIGEIGVNLEDLRLEHASGREVGRVEISVLPSKVHGLVSEL
+TSRGWKVVE
+>tr|A0A0P7GU23|A0A0P7GU23_9MICC
+MSTEDTPSGSIDGFSVESVYAELLSRAPENKMEPRMAPLFRAMEILGAPNKAFPIIHITG
+TNGKTSTARLIEGGLRAYGLRTGRYTSPHLTKVTERISIDGEPVADETFVRIWDEIHPYL
+QMVDAELDAAGEPRLTYFECVTILAFAVFADEPVDVAVIEVGLGGITDATNVGDGAVSVV
+TPISLDHTELLGDDVADIALEKAGIIKENGFLVSAAQPVEAAQVLLEKATEAGVPFRFEG
+IEFGVESRTMAVGGQMVTVNGLAGRYEDLLVPLHGEHQAQNAAVAVAALEAFIGGGNKEL
+DVELLRTGFQTVTSPGRLEVVRTAPTIIVDAAHNPAGAKVSAQAVLESFNLSSLVLVVGI
+LAEKDAVGILAELHEVLGDIVTGICLTQSSSPRAIPADELVQDAVDAGFADEDIQVEQGL
+DNAIEWAVAKAEENNDLAGGVLVIGSITVVAEARTLLGK
+>tr|A0A0P7GTD4|A0A0P7GTD4_9MICC
+MVEFSKALTPHETPIPGVVLYDLPVHGDNRGWFKENWQREKMLALGLPDFGPVQNNISFN
+EKAGTTRGIHAEPWDKYISVATGRIFGAWVDLREGPSFGTVFTAELDPSQAIFIPRGVGN
+AFQTLEDNTAYTYLVNDHWSADAQGQYTFLNLADETAAIEWPIPLDQAELSDKDKAHPRL
+ADVVPMKPRRILVLGADGQLGKALRNAYDGDASVEFAGRAEFDLADPASYERNWKNYSAI
+INAAAYTAVDAAESPDGRRMAWEINVSAVARLARVAAANRLTLVHVSSDYVFDGTRHTHP
+EDELFSPLGVYGQTKAAGDAVVSVVPQHYIVRTSWVIGEGSNFVRTMVSLAKRGVSPSVV
+NDQIGRLSFTEEIAAGIVHLLASGAPYGTYNLSNAGEPASWAEIAASVFELAGRKRSDVS
+GVSTQEYFEGKESAPRPLNSAFDLSKIKGTGFVPADYAARLPAYVSGVSNAAI
+>tr|A0A0P7FGT9|A0A0P7FGT9_9MICC
+MYCPYCRNADSRVVDSRLADDGSAIRRRRQCPECGRRFSTVETTSLSVIKRSGVAEPFSR
+SKVINGARKACQGRPVSEDDLALLAQEVEETIRASGVAEIQAHEVGLAILRPLQKLDQVA
+YLRFASVYQSFESLEDFETAIAALRAESARSGGVPAGSQRPLTAQ
+>tr|A0A0P7HF84|A0A0P7HF84_9MICC
+MSGHGAPDNDVSSIRAQGLDIRVAIVAASWHTEVMNGLVEGALRAASDAGLGPKLVRVPG
+TFELSVAAARLAPHFDAVVALGVVIRGGTPHFDYVCSSATQGLIQVSVQTGTPVGFGVLT
+CDTEEQALDRAGLEGSSEDKGYEAFAAAVNTVAVLRGAGV
+>tr|A0A0P7G775|A0A0P7G775_9MICC
+MFTTATTFGRLLSFLGVSVLCGVLTAGLFVPMAAGAGSAASASITFFDGLPADLERATLA
+TPTRIVAADDSLIATLYEENRQPVTFDQISPHMVDALLSVEDYRYYEHGGVDVQGIFGAI
+ASNVSNGTSRGASTITQQFVTNVLINSANERGEEATYSGSKGVSDKVREIRLAIAVENEM
+TKDEILEGYFNIVPFTGNTYGVQAASKYFFNKDAIDLNIQESALLAGLVNGPGYYDPQVY
+PERAIERRNLVLGTMLEHGKIDQAQYDAAVATGLDLTITPTKQGCVAAEQAPYFCSYVEH
+LVLNSEEFGATAAERRSVLYRSGLTIKTTLDPAVQEAAQTAVNETANPDTTAGQVGHSMI
+SLQPGTGNILSMAQNTRFTPGENPGDSMLNFNVDQYQDGDPEKSLGGIGGFQPGSTFKPF
+TVAAWVDAGKSLNTQLDGRKKTYPQGDRWTASCLDGGAFPIGEPEGWTPQNYGDTNYGDA
+TVLHGLAQSLNTITFSTARQLDLCRIMEIAEDMGIHDGKSDSGEKEPLDIKPSALIGGVQ
+DVSPMVMAQAFAGFAAEGNVCEPRALLEVTAANGKTYDVPEPECEQVISKETARGVNYAT
+QEVMKSGSGSLLNYGYQPMAGKTGTNDSRSQTWFIGYNSGMATASWIGNWKAGTESLSGL
+EIGGRIYPEIDGSLIAAPSWAKFMQQAGDLYPGEAFANPPGNLLMNPNPSPSPSESEEAD
+KDKEKDKPKPSATPAPRPTTAPAPKPEPEPTTEEPSEPAASPPAAGPVPGPENPEAPEAS
+VP
+>tr|A0A0P7GBC9|A0A0P7GBC9_9MICC
+MAEHTAGRTLAEKVWDEHVVSKGTDGAPDLLYIDLHLVHEVTSPQAFEGLRLAGRKLRRP
+DLTIATEDHNTPTLAIDKPIADPVSRTQIETLRANCAEFGVRLHPLGDAEQGIVHVVGPQ
+LGLTQPGLTVVCGDSHTSTHGAFGALAMGIGTSEVEHVMATQTLSLKPFKTMAINVEGTL
+KPGVTSKDIILAVIAKIGTGGGQGYVLEYRGSAIRSLSMEARMTICNMSIEAGARAGMVA
+PDETTFAYLKDKPHAPQGADWDAAVEHWKSLVTDEDAVFDEEVFLDANELEPFVTWGTNP
+GQGVSLSESVPSPEDFGDENAKAAAERALEYMDLAAGTPMKDIRVDTVFLGSCTNSRIED
+LRIAADIIRGRQKDPNVRMMVVPGSARVRLEAEAEGLDRVFKEFGAEWRFAGCSMCLGMN
+PDQLEPGERCASTSNRNFEGRQGKGGRTHLVSPVVAAATAVRGTLSSPSDLDPLPGAAAG
+STATAAA
+>tr|A0A0P7GNL7|A0A0P7GNL7_9MICC
+MHLKDRIEDSALSRRQVGIIAICTALYMIDGFDVLVMAFSASAVSAEWDLNGAELGFLLS
+AALVGMAVGSIFVSTVADIIGRQKTLLIGVCVVAAGMFASVFAPSYEVLLLLRLITGVAI
+GTLQATINVFASEFSNAKRRSTALAIVSIGQPVGGVLGGLVTGALIASFGWRSAFLFGAL
+ATLVMIPLVLKVLPESIDYLSVRRPANALERINKTLRSIGQAPVDELPEAAPRGEKKSRF
+ADVLTGVNARRTILLSLAYFILMASFYFANSWTPKLITASGFSAQDGINAGVLFSVGAIT
+GAVVLGVFGSRFEMRRVLAVFFVVGAATFVVFANSTEGSLPLALFAAALVGFGSNAPIAG
+MLAISPTYYDSEVRGTALGLVIGMGRVGAIVSPILAGSLIDGGWTPGDLYFLFVIPMGLG
+AVVISMLGAPVLRGAAAKVPVSH
+>tr|A0A0P7FB09|A0A0P7FB09_9MICC
+MAGETTITVVGNLTNDPELRFTPSGSAVANFTIASTPRTFDRQSNEWKDGETLFLRASVW
+REAAENVAESLTKGTRVVCQGRLKSRSYETKEGEKRTVMELEVDEIGPSLRYASAKVTRT
+QRSGGGGGGFGGNAGGGFGGNSNSGWGGQQQQQSAPADDPWGAPAGGNSGGWGAGPDSND
+PPF
+>tr|A0A0P7HWH6|A0A0P7HWH6_9MICC
+MRTMREAGLVLIKALDAAVAAARPGITTAEIDQVFAGVLAEAGATSNFLGYYDFPATICT
+SVNEEVVHGIPGNRVLADGDIISIDGGAIVDGWHSDSARTVIVGTADPEDQRLSDVTENA
+MWHGIAAAAKGRFVGDIGAAIDDYVSSVPGKPLGILEDYVGHGIGSEMHQAPDVLNYRTS
+HRGPKLKAGMCLAIEPMLVRGGIETATLDDDWTVVTTDGARSCQWEHSVAIHEKGIWVLT
+SPDGGASRLAPLGVTPVPIP
+>tr|A0A0P7GRZ8|A0A0P7GRZ8_9MICC
+MRVLVVDHPLVAHKLTVLRDKDTPSPVFRMLTEELVTLLAYEATRTVRVEPVNIETPVTS
+AIGTGLVKPTPLVVPILRAGLGMLEGMTRLVPTAEVGFLGMARNEETLEAITYAERLPDD
+LTGRQVFVLDPMLATGGTLREAIKFLFNRGAAEIICICLLGAPEGLSVLEEELADANVTI
+VLASIDERLDEKAYIVPGLGDAGDRLYGVVH
+>tr|A0A0P7GJP1|A0A0P7GJP1_9MICC
+MKHLLSTLDLSYQDAISILDTAEAMAAVGEREVKKLPALRGRTVVNLFFEDSTRTRISFE
+AAAKRLSADVINFSAKGSSVSKGESLKDTAQTLAAIGADAVVIRHGASGAPARLANSGWI
+DAAVLNAGDGTHEHPTQALLDAFTMRRHWAQLHGTPSQGTDLKGMHVAIVGDILHSRVAR
+SDLWLLKTLGAEVTLVAPPTLLPFGVESWPCKVSYSLDETLETRPDAVMMLRVQAERMHS
+AFFPTVREYSRRWGFDDVRLDRLDTLGLDNTILLHPGPMNRGLEISSRAADSPRATVLAQ
+VSNGVSVRMAALYLLLSGEGSSQRTTQEVSAQ
+>tr|A0A0P7GK00|A0A0P7GK00_9MICC
+MAPKKVLSVVLAGGEGKRLMPLTADRAKPAVPFAGKYRLIDFALSNLVNSGYLQIVVLTQ
+YKSHSLDRHISETWRLSTQLQNYVASVPAQQRVGKSWFLGSANALFQSMNLIDDARPDIV
+VVIGADHVYRMDFSQMVEAHIASGAPCSVAAVRQPLAMADQFGVIETDPSDPGRIAAFVE
+KPSSTPGLPDDPGSFLASMGNYVFTTDALVEALRVDAERLITKHDMGGDIIPWFVERGQA
+NVYDFTENIIPGATERDQRYWRDVGTLDSYYDAHMDLISPVPSFNLYNLQWPIYTRQSIS
+PPAKFVRDSSSQPGTAVDSIVANGAVISGGSVSGSVLGHDVYVDAGATVSDSVIMDGVRV
+GAGAVVRRAIVDKFVQIPPGGTIGVDRELDLARGYTVTASGLTVISKGQTVRVE
+>tr|A0A0P7HIS6|A0A0P7HIS6_9MICC
+MKYTHLGRAGLQVSRLCLGTMNFGPKTPEGDAHAIMDSARESGINFFDTANVYGWENKGL
+TEEIIGRWFAQGGGRRESTVIATKLYGSMGPGPNQTYLSALNIRQALDASLKRLQTDYVD
+LYQFHHIDRNTPWDEIWQAMETAVAQGKVIYNGSSNFAGWHIAEAQESARRRQYAGLISE
+QSIYNLVNRSVELEVIPAAQKYGLGLIPWSPLQGGLLGGILKAQDDGGRRAEGRVQDLLS
+RHRDQIQAYEDLAAEIEVEPGILALAWLLHQPAVSAPIVGPRVQGQLDDALAALEVELDK
+ATLEKLDGIFPGHRPAPEDYAW
+>tr|A0A0P7G7J3|A0A0P7G7J3_9MICC
+MTTTAARSSGPLLLTQKRIWIIFSALIAGMLLSSLDQTIVSTAMPTIVGELGGVEHQTWI
+TTAYLLATTIVMPIYGKFGDVLGRRNLFLFAIALFTLASVGCAFATDFWMFVLFRAIQGL
+GGGGLMILSQAIIADIVPANERGKYMGPLGGIFGLSAVAGPLLGGFFVDHMTWQWAFYIN
+IPIGIAAFLIAFFTLTLPTKKAEKRIDLPGVVLLSIATTCLIFFTDFGGDADRGWTDPLT
+LAFGAGLLTAAFAFVLAERRAEDPIIPLSLFRNPIFVNSTAIGFTLGMGMFAALAFLPTF
+LQMSTGTSAAESGLLMLPMMVGMMGTSIWSGLAITKTGRYKKYPISGGILVLAALLWMTA
+LTAETPVWVICSQLFVFGAGLGLIMQVVVLVVQNSVPVDQIGTATSSNNYFREVGASLGV
+AIFGAMFTTRLSENLMGVFEGAGFDAAAAGEATATLQPAAMAALPEPVRDGIVNAYAESL
+APVFWYLVPFLALALILAFFLKEIPLSDVAGMVARGEAIGGEEANRLEAERLAGQQGSSV
+EGGPGAGEADAARPGAVASDEDPMPDQRP
+>tr|A0A0P7GUZ7|A0A0P7GUZ7_9MICC
+MNTAFPAADLLPKGPFDLSRLGRGLVFAQALPAAAAALTPGSTCAGSAVVQAPPGTGKTT
+LIPPLVANLVAGAGVPGRVVVTQPRRVAARAAARRLAALDGSAVGERAGYTVRGESHAGS
+RTLVEFVTPGILLRRLLADPGLDGTAAVILDEVHERGLETDLLIGMLAEVRQLREDMTLV
+AMSATLDAGRFAELIASPETPAPVIDCPSALYPLEVRWQPPAGKRLDERGITPGFLDALA
+GLAARGHALALAEDPTTDALVFAPGAREVAHVARRLRQELGTGTEVLELHGQAPAAEQDR
+AVSGRSPGGLPRIIVSTSLAESSLTVPGVRLVVDSGLSREPRRDAARGMSGLVTVSCSRA
+SAQQRAGRAARQGPGTVIRAYSEAAYAAAPAQPAPEAAAADLTAAALVLACWGTPGGRGL
+PLPQTLPAPALEDAEAVLRSIGAVDAEGRATDTGQALARIPADPRLARALVDGSPRLGAR
+SAAEITAMLAGDYRPAGADLVRLLAALRSGKDPGSRAFSREVLRLQQFARSPQAATASDQ
+RVGTGEAVGYLVALAFPDRVARRVAGASDEQYLLASGTRAGLPADSPLRGHEWLAVADVS
+RAAGRAAAGTGAVIRAAAPLDDGTAEDAASQLLVEEIIARFDGGKVSARRVRRLGAIELA
+STPVRPAAAQGRGAVARALAEQGLGAVGWSPAAEGLRRRLALLHRELGAPWPDVSDRALL
+ARLDDWLGPELEALASGARASDVNLLEPLRRLLPWPEASGLDALAPERILVPSGTQERIS
+YPDVEDDAGRPVLAVKLQKCFGWAESPRIADGRVRLQFHLLSPAGRPLAVTDDLASFWSG
+PYSQVRAEMRGRYPRHPWPEDPWTAPATARTKARM
+>tr|A0A0P7FX48|A0A0P7FX48_9MICC
+MDGLRYRQAAEPAWLVLTRGSRTAMLPAESSQERVDEVWAALQDGSSLDEVFEAVTGGLS
+GSLSRLPSFGLLSVDGQVHVLLRGPLDLLVDGAAVTTGKNLRTWSEQVLPASGRLTVQAS
+GEPAGAAGPVLVLREGMAPANSVELELGALPAAAAPPRAGQAAPISKPAAPAPAAPAPAA
+AEPAAPAPAAPAPTVAAPAPSSGPDLSDAVPWLKLTPPPLSADAGADAGAADPATEVTGD
+FPALEDGEPTETLPPVPEDHDGDTVMGFSPQPGTALPGTPASAASGTGDLDDDGETIRSA
+PGAPQGPGAAPGNRQSTDTGPTVLARTCPQGHVNPPTAAACRTCGSEISGEPRPVQRPCL
+GILRLSTGQTYELDRNIIIGRQPSASRVAGAALPRMVQVPSDSGDISRSHAEVRLEGWHV
+MLKDLFSTNGTVLIREGALPRRLAQGEAAILLDGDIAELGDGVTLRFEGLA
+>tr|A0A0P7G3Y8|A0A0P7G3Y8_9MICC
+MTPSRESVLTQLRKGTVDYCVLACLRSGPAYGLEIAERLGEGKILFASGGTLYPLLSRLR
+QQGWVTTTLEPSPVGPPRRYYHLTGEGEAALKIFTHTWNVFAADVTAAIKETS
+>tr|A0A0P7HJL2|A0A0P7HJL2_9MICC
+MENTFTVAVRAPFKEAVRLTKESLAAHGFDIMSDSDFAAQLGASAPDWMLGYRILGTCNT
+ALAGEAMELDRAIGVAVPCNVVVREDPGGAVSVIEALNPESLVDLAGQEQLAQVVSRTSD
+GLQAAMHTLSESAGPV
+>tr|A0A0P7FPS3|A0A0P7FPS3_9MICC
+MQNDAEAQEPGHADAGNTLAPTAALTSPENPWPLALLSKNLKAYIDRAPAAWVEGQVIEL
+NRRSNASFITLRDVDAEVSLSLTVWSTVMNRLELPLERGARVVALIKPDFWVKTGRLSMQ
+TRDIRPVGLGDLLARIERLRQALAAEGLFAASRKKRLPLLPNRIGLITGRNSDAMKDVMR
+NASLRWPAVQFEVREVAVQGVNAVAEVTRALSELDALPEVDVIVIARGGGSMEDLLPFSH
+EDLVRAVSAAQTPVVSAIGHEADRPLLDEVADLRASTPTDAAKRIVPDVGEELSRIGTAR
+SQLRRIMELMLSREADRLAHIRTRPVLSAPETMFASRSEDIGRLRDRAFSAMRSEVRRDT
+DRISYLRAQVRSLSPQKTLDRGYAVVQLADGSVVRDAAAVETEAQLRIRVAAGQLDAVAT
+GHR
+>tr|A0A0P7H8Y6|A0A0P7H8Y6_9MICC
+MDPSRFVHPIAPGDYVQSLDKGLSVIKAFNSDRRTMTLTEVAEATGLSKPSARRFLLTLQ
+ALGYVSQEDGRFRLRPRVLDLGGSYLTSGELPALVNPYLSELNAKLREACSVGVLDGDNA
+VYIARASAQQRIMTFNVQVGTRIDPVITALGRVLLANLPPAVLQAYLQRRQQLASAPQIP
+PDGGFTEDLDRIREQGWCLMDQEIEVGVRTIAAPLRNSAGTVIAGINVAAHTARVSLDRL
+QDEFLPELLDTQARIEKDLAEYGPDMLG
+>tr|A0A0P7HP42|A0A0P7HP42_9MICC
+MTATKPVVLLAEELSPATVEALGPDFEIRQTDGADRSQLLSAIADVDAILVRSATQVDAE
+AIAAAKNLKVIARAGVGLDNVDIRSATQAGVMVVNAPTSNIISAAELTVGHILSLARHIP
+QASNALKGGEWKRSKYTGTELFEKKVGIIGLGRIGALVAARVQGFGTEVLAYDPYITSAR
+AAQLNVKLVTLDELLEQSDFVTIHMPKTPETLGMLGAEAFEKMKDTAYVVNVARGGLVDE
+DALYTALTEGKIAGAGVDVFVKEPSTDLPFMALDNVIVTPHLGASTDEAQEKAGISVAKS
+VRLALAGELVPDAVNVAGGVIAEDVRPGIPLIEKLGRIFTALAHDSMTAIDIEVAGEIAS
+LDVKALELAALKGIFTDIVSEQVSYVNAPVLAEQRGIAVRLITTPDVDDYRNLLTIRGAL
+SDGTQLEVAGTLTGPKQIQKLVGVNGYDLEIPISEHLLVLLYQDRPGVIGALGRILGEAE
+INIAGMQVARNSEGGQALSLLTVDSSVPQDVLETVREAIGATVAREVDLQD
+>tr|A0A0P7FF42|A0A0P7FF42_9MICC
+METPRNGEPEGSSDELPEEGGPSPDSRTQPSLGDVLLAVEELWPESLAEDWDAVGLVVGR
+PERTVERILFAVDPTHEVIDEALEWGADLLITHHPLLLKAVHSVAGTGFKGDAVHRLIEG
+GCALVTAHTNGDSAVGGVSDVLADAFGLQETVPLVPAANGLPEEGIGRVGNLPDVTTLGE
+FAELVFSIMPAVAGGVRAAGDPQGLIRRVAVCGGAGDSLFDAVRAQQADVYVTADLRHHP
+ASEAREAAVNGRPYLIDVSHFGSEWLWLTPAAGALGNVLADQGFDVEIRVSSRNTDPWDF
+VLTPG
+>tr|A0A0P7GCV7|A0A0P7GCV7_9MICC
+MTESSGAAAPQPQPPARPKAALTRYALIMAVIALAAWVFDQLTKIWVVSTMTEGQVTDVL
+PPVLRWHFIRNPGAAFSIGTDYTWIFTIIMAVVSGFLIYLMFRLRSAAWSIALGLVLGGA
+VGNLTDRLFREPSFGQGHVVDFIAFPNFAIFNIADSCVVSGVILVCLLTLRGINMDGTRA
+AATGKDTTNA
+>tr|A0A0P7GBQ9|A0A0P7GBQ9_9MICC
+MAAPAMLLLILFVAVPFVAAIGFSLYNVRLGDPREPNFMGFTQYARILTDPDVSAQFLSS
+LGHNLIFAVIVVPVQTALALALAMLVKRALPGMAVFRAVYFLPVIFPMALVAIIWRLILA
+RGDQGLLNATLNFFSGGNFGAQDWLGSELTALGSVIVLSIWQGCGFQMVILLAALQQVPG
+ELYEAAELDRANGWQRLLHVTLPGIRTTLVFVALYTTILSLRVFDQIYVLAKSGGGLNED
+ATRTVMYQAVTAAFDQNNIGRASAISVVFFILVLILSLIQRRLTREREA
+>tr|A0A0P7H904|A0A0P7H904_9MICC
+MSNVSGLASSGASELFQILRDGKPRTRSELAELMGLARSTVTLRIEALMDLGLVGFVQDA
+VSTGGRPSSRIALKAGSRVVLGVDIGASHLQVAVTDLTGHLLAQSARALEITQGPEAVLG
+AVVEIGTELLSSTGRSTSDLLAVGIGLPGPVEHRTGRPINPPIMPGWNGYDVPGYLQARF
+HVPVLVDNDVNIMALGERNMAWPQVDNLLFVKVATGIGSGIVSSGMLQRGADGVAGDIGH
+IRVHGGGGVPCHCGNTDCLEAIASGPAVASKLRELGLDATGSEDVVELVRGGSTEAIHAV
+RQAGRDVGDVLSACISLINPSVIVIGGSMSLTGEHFIAGIRETVYSRTIPLATQHLQIVH
+SSSGLDAGVLGASILAIHHAMSPQRIDAMVSSLSETSAG
+>tr|A0A0P7HDM7|A0A0P7HDM7_9MICC
+MGTQKLSALLWEERELLELLTFKLEEEQLLLTSGKTRWLQHATREVEQVLERLRAANLAR
+TVAVSELAQEWGIAEDATLREIIAAAPPGPWTEIFTAHLQAMTELTVKIRDLRDTNEQFL
+RTAARSAQETLAGLGTESKTYTASGTSAKPGSGARIVDKQL
+>tr|A0A0P7GTQ7|A0A0P7GTQ7_9MICC
+MATLGIEEEYLLLDPVSGLPVHKAEEVAGYLHRSPRVTDGEIQRELLSCQIETATPVSAT
+LTEAEEYLLNFRSQLEAAARKTAVVASGTASAPFIEDHYPELTDKERYRELRDSAPGIVG
+DQFVNGLHVHVSIPDREAGVQALNRIREWLPAIVALSCNSPYWLGRDSGFGSWRVVHYRR
+WPVQGCPPTFKDAADYERRVAQLVSTGAIIDRGVLTWMARLSDSYPTLEVRAGDAQLRAR
+DSVLIAALVRGLVSTAVEEAGRGIDRPVPEAELLDAAMWQAAREGLTGHLVDPVSAKLVP
+AQDRVQALLDFVAEALDAENDTEWVHAGLQDVRESGTGAERQRRAMAEGGTARLLGLYGT
+TLTGE
+>tr|A0A0P7GIY2|A0A0P7GIY2_9MICC
+MKYANTVLDLIGNTPLVKLHHVTEGIKATVLVKLEYLNPGGSIKDRIAVKMIEAAEAEGK
+LRPGGTVVEPTSGNTGVGLALVAQQKGYNCIFVTPDKVGVEKRDVLRAYGAEVVVTPTAV
+APESPESYYGVSDRLVREIDGAYKPDQFSNPAAPASHYESTGPEIWNDTEGKLTHFVAGA
+GTGGTITGTGRYLKEVSADRPSGPVKIIAADPDGSVYSGGTGRPYFVEGVGEDMWPGNYD
+PSVPDEVIAVNDAESFAMTRRLAREEGLLVGGSSGMAVVAALRAAKDLGPDDVVVVLLPD
+SGRGYIGKIFNDGWMKSHGFLADQDQDASVADVLAARGGEPAPYVPKTATVLEAVELLAR
+HGSSLPVLSHEPPAVLGEVHGSVDERSLSEKLFRGEAKPGDPVSEHLSAKLPQIGAGESV
+SAAMERLAEADTLLVASGGTWHGILTRRDLLSYLSA
+>tr|A0A0P7GJX7|A0A0P7GJX7_9MICC
+MVHDVRRRTGRRRRRVLAALAAAVVVLFFAGVLLGSYTVTIPDFVRILAGEKIPGASFIV
+MESKLPRAVTAVLIGAAFGVSGHLFQTMLRNPLASPDIIGISYGASAAAVTAMVVFGAAG
+ASVSLAALIGASLIAVCLHLLSRRGGAAGARLVLIGIGFAAVLQALVNFLLTRTDVRTAA
+ESLVWLTGSLNSASWERAGIVAVALAVLLPAAVLLGRRLRVLELGDDFAAGLGLPVEGTR
+AGLLFTGVALAAVATAAAGPVAFVAFLAGPISRRLIGGRASLAAAGLTGAVILLAADFTA
+SNLLPGALPVGVVTGALGAPFLLWLLVSSNRVGQGG
+>tr|A0A0P7G9P7|A0A0P7G9P7_9MICC
+MPRKTLENTALRLKAILEVLAAQDPSAGAGTGRAEVLRQALEQVPLEGTEAELLASGVAR
+GERALITASTKLVKAGWILKEGRAGWSITPEGRSALTEFPDVHHLNEALSGSKHSVTALT
+SAETQSEAVLEAALVESGAAAEPEAQVHGSHAEERYAGPSFPQPDAVAVAGTFAAALGGA
+DWDPAADTVQLGFDRSDELWKLTVDLPAGNYEYKAALNRTWAENYGQNAHFDGANYRLEH
+SGGSVTFLYDHATHTVITKPDGF
+>tr|A0A0P7HD59|A0A0P7HD59_9MICC
+MTTLTSAGIEDRFNSDSKHLIALDVDGTLVDHDGHMSPNVRSAAKDAIGAGHHLVISTGR
+SFGAALPVLENIGLTEGFTVCSNGGVTLHVDTSLPDGYEIVDRVVFDPRPALDALRVELP
+TAKFALEDHEGRFLSTERFQDASFGAEAKAVDFEFLRECRAVRVVVFSTDSTAEEFGQAV
+ESIGLHGVTYSVGWTAWLDIAAAGVTKASALEQVRRRLDIDPMHTVAVGDGRNDIEMLSW
+AARGVAMGQSPSEVVAAASEVTGSVYEDGAAAVLRSLIAAR
+>tr|A0A0P7FZW6|A0A0P7FZW6_9MICC
+MSLPALHDLEVSIPGVRIDTDPETLKRYARDQGPVQELIDPLAVVWAESAADVQEVLRWA
+SRTGTAVVPRGAGTGVSGGAHATRNCIILSLEKMNRILDIRPGDELAVVEPGVVNADLNE
+AVKSHGLMYAPDPASYKVSTIGGNVATNAGGLRCAKYGVTRDSVLALDVVLADGTLIHTG
+HQSFKGVAGYDLTGLFTGSEGTLGVVVGITVRLRYLPSDVRTVAAFFPDFRTAAAGVLAV
+GAARVQPSIMELLDGATMAALDGAHGSDLGTRGGALLLIQTDGFGAEAEAAAVRAVLREL
+GGTVSSERSEEAERLLDLRRHSRGDDVEHEIRVGEDVAVPRSQLVHYVAELERMAQDHRV
+QLKVVAHAGDGNLHPTFWIEATEGEAGVHRLNAALDESITVALRMGGTITGEHGIGQFKL
+RWLPQEQQEEVLQLQRQIKAVFDPAGILNPGKAVPGI
+>tr|A0A0P7G474|A0A0P7G474_9MICC
+MGTDEINDVGSSWRKVIRTLESDDRVSPRQRGFVVLAQAQGLIGTTLLVAVPNELTREVL
+QTQLKNILDEVLKTVFQADIQCAFVIDADLTPAVQAEPEPEPEESTPSPVPTGESAPSPT
+PPSTSQEFGRLNPKYVFETFVIGSSNRFAHAAAVAVAEAPAKAYNPLFIYGDSGLGKTHL
+LHAIGHYARHLYTGIRVRYVNSEEFTNDFINSIRYDEGASFKQLYRNVDILLIDDIQFLA
+NKDATQEEFFHTFNALHNHNKQVVITSDLPPKQLSGFEERMRSRFEWGLLTDVQPPELET
+RIAILRKKAIGDSLSAPDDVLEYIASKISTNIRELEGALIRVTAFASLNRQQVDVGLAEI
+VLKDLITDDGAQEITAASILGQTAAYFQISLEELCSKSRTRTLVTARQIAMYLCRELTDM
+SLPKIGQELGGRDHTTVIHADRKIRELMAERRAIYNQVTELTNRIKQQQREA
+>tr|A0A0P7GJE3|A0A0P7GJE3_9MICC
+MARIGESTDLLKCSFCGKSQKQVRKLIAGPGVYICDECIELCNEIIEEELSETSEGDSFV
+LPKPREIFDSLQEYVIGQEPAKRSLAVAVYNHYKRIQAGHASRGTGNLADAVGTEDVEIG
+KSNILLIGPTGCGKTYLAQTLARRLNVPFAVADATALTEAGYVGEDVENILLKLIQAADY
+DVKKAEQGIIYIDEIDKISRKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHP
+HQEFIQIDTTNVLFIVAGAFAGLEEIIGSRSGRKGIGFGAPLNETNKDTDSYADVMPEDL
+LKFGLIPEFIGRLPVITTVSNLDRSALIQILTEPKNALVKQFQKMFQLDGVELVFEPEAL
+DAIADQALGRGTGARGLRAILEEVLLPVMFDLPSREDIARVVITREAVTEKAEPTLISHD
+VIAKRRNKSA
+>tr|A0A0N8HZ34|A0A0N8HZ34_9MICC
+MTRLFGTDGVRGLANGLITAEVALGLAQAAAVVLGHRQVPAGKRPVAVVARDPRISGDFI
+SAAIEAGLASSGVDVYDAGILPTPAAAYLVADLEADFGVMISASHNAAPDNGIKFLARGG
+QKLDDALEDAIEAEMDAPSLRPTGAGVGRIKRFADAEDRYVVHLLQTLPNRLDGLKVVLD
+CAHGAASGCSPQVFADAGAEVVVIGAEPDGININDGYGSTHLAPLQAAVLEHGADLGIAH
+DGDADRCLAVDAEGGIVDGDQIMAIMAVAMKASGELKDDALVATVMSNLGLKLALREAGI
+SIRETGVGDRYVLEAMREGGYSLGGEQSGHVIFSQYATTGDGVLTGLQLAAQVARTGRSL
+KQLASIMEKLPQVLINVKNVDKNAAASNEAVRQAVIDAQEKLGETGRVLLRPSGTEPLVR
+VMVEAADMDTAQSVAAKLAAVVEANLSLKASEGAGV
+>tr|A0A0P7G706|A0A0P7G706_9MICC
+MPDPQSERRNAAPIGAGLLLVLAFLAATGPFTTDLYLPSFPGIASDLEVTASGVQLTLTA
+FLIGMAAGQLGFGPISDRFGRRRPLLLGSAAFVLASVACAAAPNLGVLIAARFVQGLCAA
+AGPVIARAVAADLTSGASAARTFSLLMTIGGVAPVVAPVLGGALTGLLGWRGVLWTLAGI
+AALMFICAAAAVRESLPAGNRATGPAFGGLAVVLRKSRFLGYVLLFASAFGVLMGYISAS
+PFVYQSIMGLSPEAYGLMFGLNAAGMVTSGFIAARLSRRVPPRSTVRRAVAVLVGFAVVL
+LVLVLAAVPPLLLAIPIFAMVSSLGFVMGNTTALALAEVEGSTGSGSAVLGGAQFLMGAA
+VSPLTGLGGEFTALPLALVMVGSALLAATALFLTRQRQPA
+>tr|A0A0P7GNR1|A0A0P7GNR1_9MICC
+MSTSSNAGTVSKAEQAYQTVQSKISSGEYGPGYRLVLGRIAAELGCSAVPVREAIRRLEA
+EGLVRFERNVGATVTGIDPTEYLYTMQTLSLVEGYATALSAPLVTAEDLAQAKEINAEMR
+DCLEHFDPVRFTALNRDFHSALFTNCPNPHLLDLVHRGWNRLGALRSSTFSYVPGRAQDS
+VAEHERLLELIEAKADAGTIEAAARAHRVATLEAYLKHTPSTTS
+>tr|A0A0P7GID1|A0A0P7GID1_9MICC
+MGKQATEMLKGVLEGIVLALLSRRPAHGYEITGWLRDQGFNDIAEGTIYALLIRIEQRGL
+VDVEKVPSEKGPPRKVYAINTAGRDYLNEFWRTWSFLAERLEQLHQGER
+>tr|A0A0P7HEK9|A0A0P7HEK9_9MICC
+MSSQDRTSSRRARILKISAVTSAGALFLSGCSSDVQKGWLPTERDTTNHTGRIMDLWVNS
+WIAALAVGILTWGLILWCIIAYRRRKNETGYPRQLSYNLPLEIFYTAIPLFMVLVLFFFT
+DQDIRALDARDDNPDVIVDVRGKQWAWDFNYVKEDKYYSGVQVNLDGEEKSQDEFPTLYL
+PVNKSVELQLNSRDVIHSFWVPAFLQKRDMIPGRTNYITLTPQQEGTFEGKCAELCGEYH
+SEMLFNVKVVSEAEYEAYVATLEDGQLGAEYDRNTNLNPTK
+>tr|A0A0P7HUK4|A0A0P7HUK4_9MICC
+MQNEGDWEAIRLLSTAARMLRREMDNRLRAMGLTQERVTALKVLRDFGPMRRAELARRLR
+VTAQTLGTTLVSMRAQGLVNEVGEGAEAPKRAVHISEYGREALDQAIRLEDQSLTAELRP
+ALRRELISLISELEGNRQYGTAGTAGA
+>tr|A0A0N8HXY4|A0A0N8HXY4_9MICC
+MGTEENSGKAAVITGASSGIGAATARTLHAAGFSVALLARRKDRLDALAAELGPGTLALE
+ADVTRRDDLLLAAQRVETELGGADVLVNNAGVMLLGPFGPELDSDYQRMVNVNLLGAITA
+TEVFLDQLRERSGDLVNISSVAGRTSRPGDAVYAATKWGLIGFSDCLRKELLPDVRVTVI
+EPGAVATELPGHITDPETRAQTEASYAEVSITAEDVAAVVAFAVAQPPGVGLNEVTVRPR
+KQLH
+>tr|A0A0P7GBN4|A0A0P7GBN4_9MICC
+MSTEARPVPTPLTPAADRPAPDRLDARTKTVIGLLLVSSFVVILNETIMSVALPRLMADL
+DISAATAQWLTTGFMLTMAVVIPATGFLLQRFSMRALFLAAMSLFSTGTLVAALAPGFEP
+LLAGRIIQASGTAIMIPLLMTTVLNTVPAHRRGSIMGTISIVIAVAPAIGPTVSGLILSV
+LDWRWMFWLVLPIALLALVLGALKVQNLTETRRTPFDILSILLSTLAFGGLIFGLSSIGE
+AAAGEAPMPVWIPLAVGAAALAAFVARQLFLQRTDRALMDLRTFASRPFVVAIIMVLISM
+MALFGCLIVLPLYLQNVLGLSALNTGLLLLPGGVVMAILSPIVGRLYDRVGPRPLVVPGA
+LVLSTALWGMTLLDQDTPVALVIALHCLLNAGLGFIFTPLFTSSLGSLHRSLYSHGSAIL
+NTLQQLAGAAGTAVFITLMTTGTASALSEGAAAVPAAAAGVHTAFFWGAVVSLGALAVSF
+LVRRPALDAAGAPAESPAPH
+>tr|A0A0P7FH10|A0A0P7FH10_9MICC
+MNRDGSIGVLVVEDETVVAEAHAEYVRRAEGFALVGVAHTAADALRFLQESPQAADLVLL
+DMNLPDLHGLDLLRRIRGSGIPADVMAITAVRELPVVRQAMSAGIAQYLIKPFTYAAFSA
+KLDAYRQFHTNLSGQGASATQSGVDRALAALRPSVPAPLPKGLSPETLEAVSETLRKAGT
+ALSASEAAAQLAMSRITVRRYLEHLTAQRVVIRSPRYGAPGRPELEYAWRR
+>tr|A0A0N8HX32|A0A0N8HX32_9MICC
+MECLMVKVFPARVRADFVDLVCSGVPLGEAARRLGVSRTGGRRWWAQSGQMELHDGRIGG
+LADPPPGAQGPGRALSLAERGMIQMGRRSGFSYARIAEMTGRDKSVIWREVKRNSGADGV
+YYASAAHAKAHQSRRRPKALKLLQVQGLGELIALFMDEGWSPRLISSMLAFYFPDDQTMQ
+VSHETIYRALYVQTRGTLRADLARNLSLKRKARVPHTADRHRNSPYKDAFKISERPAQVQ
+DRAVPGHWEGDLIIGANSTAIGTLVERSTRFTILLHLPGDHSAETVACAMIAQMGKLPEH
+LRLSITWDRGTELAHYTRIQTALDTKVYFCDPHSPWQRGTNENTNRLLRFWFEKGTDLSA
+HTQNDLDRIAAKLNRRPRPTLDMDTPANRLNMLLQPAA
+>tr|A0A0P7GAA1|A0A0P7GAA1_9MICC
+MSLNGLRAALAEDPSYARLRAHAARPPAKRSQDLEIGAPQGMRAALLAEMVDGLAEAHDG
+AAGDTAGAPVVLAVTATGREAEDLAAALRSYLPLAGIEEFPSWETLPHERLSPRSDTVGR
+RLSVLRRLAHPENDPVQIVVAPVRAVVQPLVKGLGDLQPVSLAVGDERPFDDVVKALADA
+AYARVDMVSHRGEFAVRGGILDVFPPTDDHPIRIDFFGDEVESMRWFAVADQRTLTGEHV
+IHPKELYAPPCRELLITPDVMSRAAKLQGQMPAAADMLEKIAGGIAVEGMESLAPVLVDE
+MVPLMAQLPPGSISVVIEPEKVRARAHDLESTNEEFLAAAWATASDGGAAPVDLSAGLSA
+DLEAASFRSLTDTRSAALANDVAWWAITSFNPDAETVLDIDTLSINAREPRGYKGDVAEM
+MDFIGSRIKDQWRLVVVTEGPGPASRLAELFHDNDIPAARVESLDSEPQPGIIEITTASA
+GRGFVFDNLKTGLLTEADLLGRASTYSTRDMRKMPSRRRNAVDPLQLQEGDYVVHEQHGV
+GRFVELLQRATGAGVNKTVREYLVLEYAPSKRGAPGDRLFVPTDQLDQITRYVGGETPVL
+SKMGGSDWAKTKSKARKAVKEIAGELIRLYSARMASKGHAFGQDTPWQRELEEAFPYVET
+PDQLTTINEVKADMEREVPMDRLVSGDVGYGKTEIAVRAAFKAVQDGKQVAVLVPTTLLA
+QQHMETFSERFSGFPVRVATLSRFQTAKQAKEVIEGVRNGSVDVIIGTHRLLSQEVQFKD
+LGLVIVDEEQRFGVEHKEALKKLRTNVDVLAMSATPIPRTLEMSLTGIRETSTLATPPEE
+RHPVLTYVGPYTDKQASAAIRRELMREGQVFFVHNRVSSIDRTAAHLQELVPEARIAVAH
+GQMSEAKLEQIIVDFWEKRFDVLVCTTIIETGLDISNANTLIVDRADHFGLSQLHQLRGR
+VGRGRERAYAYFLYPSEKPLGEVALERLKAVAAHNELGAGMQLAMKDLEIRGAGNLLGGE
+QSGHIAGVGFDLYIRLVGEAVADFRGEAEEKAAEMKIELPVNAHLPHEYVPGERLRLEAY
+RKLASALTNEAIDEVLAELVDRYGEPPQEVKNLIDVARFRVDARAAGLTDVALQGNFIKF
+SPGDLPESRVMRLQRMYPGSQVKPALNAILIPKPKTAKIGGRDLQDAEMLQWAHQVLDAI
+FKE
+>tr|A0A0P7GSK9|A0A0P7GSK9_9MICC
+MATIDITEATFPETIEENDIVFVDFWADWCGPCKQFAPVYDAVSQQHEDITFAKVDTEAE
+QGLAAAAGITSIPTLMAFREKVLVFSQPGALNANQFSELVEAVKGLDMKAVHEQIAAQEQ
+GQAAAGQDGQVS
+>tr|A0A0P7HUI4|A0A0P7HUI4_9MICC
+MLVEIWSDIGCPWCFIGKRRFEAALSRFEHAPEVEVRWRSYQLDPTLPERFEGSEVEYLS
+KVKGMDPAQVSGMLQHVTEQAAGVGLSYRFDELKVANTFTAHRLIHLARDTRGAEAAAAV
+KEALLSAHFEKGLDISDKAVLAGIGADAGLDAEAVREALSGTDYTDSVNADIAEARALGV
+TGVPFFVLDRKYGLSGAQPEDLFLQALTQAWAESHQPLQPVVAEGGACAVDGSGC
+>tr|A0A0P7FP22|A0A0P7FP22_9MICC
+MAKKSKIARNEQRKVVVERYAAKRLELKKTLVDPNATDEAREAARLGLQKLPRNASPVRL
+RNRDQIDGRPRGTLQKFGISRVRFRDMAHAGELPGIKKSSW
+>tr|A0A0P7H588|A0A0P7H588_9MICC
+MAISSRLVLLAAAGAVAVVLFPGPVSILGWLGVLAAAAALDLALAASPLKVRLERVLPES
+ARLDEDVPAALVVRNGSGRTLHAVIRDAWQPSAGQLQPQRRLTVPAGEARRAPGTLRPER
+RGDLRTASVTVRSFGPLGLAARQRTVPYPGTLRVLPPFRSRRHLPAKLRRLREIDGNASV
+QLRGAGTEFDSLRDYVRGDDVRSIDWRATARRRDTVVRTWRPERDRRVIIALDTSRTAAA
+RILDEPRLDTGIEAALLLGMLAQGGGDRVDFVAFDRRVRARVDSAAKANLLSRLAGAMAP
+LDAELIEADFSLLPGIISSVSSRRSLVVLVTSLDAGAVEEGLLPVLPALLAKHVVVVASV
+RDPALDDLRSRRGSAADVFRAAAAERALLDRAAVTAQLKSMGAEVVDEPPYELPPKLADM
+YIRLKASGRL
+>tr|A0A0P7FUE6|A0A0P7FUE6_9MICC
+MGLLDNVERGIERMVRGAFSSGSSGRVEPLELAIALRRELDEKSMTLGQGRTLAPNVFTA
+RLSDDDFARAQEWGAPLAEELCDVVIKHARSQSYTLQGAVRVSFTRDSSLKPGSLEIDSA
+TEKSHAAATRPPQPPAPRQSPTRMQPVLDIDGQRYSLNASSVVLGRSSEADILVDDTGVS
+RRHLEIRTDGGTVRAIDLGSTNGSYVNGQKVQGETILTDGSTIAMGRTRIVFRLLPVRSG
+GR
+>tr|A0A0P7GJF1|A0A0P7GJF1_9MICC
+MRALGPVVLFLVLVEITSGILQGYYTPILTDIARNLGIADGDVNWFEAAQLMFSALAVPV
+LSRLGDMFGHKRILLVSTVLTAAASWGVAFAPDFWTFLVAWSLQGFYVVWLPLEVALIFA
+RAASAPNRAALTRKAAGVLVGGLQFGVIAGALAAGALVDVFGGDLRLTLMVPAAAATLCV
+FAVWFGVPETGLRAGGALDVRGFTLLAIGLLLLTSGLTFMRINGAGTWWVWAVLAAGLAA
+FVPFVRYQLRISEPLVDIRMLCAPTMWPVQLTAGLFGISVLGAQAPMSTFARTDRELHGY
+GLGLEAGSVSLIIGAYVLSVLTGALLFPLAARLTTPRITLCGAAAVVGTGYGLFLPFHDS
+LGQTLTNMVIAGLGSGALVAALPSAAAAAAPLNRTGMATGLTNTTKTIGGSFASAVFGIA
+LLSAAGETLGEVAGAATAAPLTGYLTVWSVCSVTAFVAAAALLFVPKLAFADPPLVPGSG
+NSPIGVPGDNAPR
+>tr|A0A0P7GAE8|A0A0P7GAE8_9MICC
+MKPATQAAARESEERTRDRVLGAVLEHGPVSAAELGERLGFTPAAVRRHLDALERQGLIE
+VKRVSSPGAGAGRPARRYVVSQQGQSYLGNDYLTIATEALRALGAAAGPEAIEAFAAERF
+RKMEERYRPVLDAAGPALEDRARALSAELTRDGFVASTTMIGTSRTPSTLLSIQLCQGHC
+PIQALASAYPVFCDKETEVFSRLLGVDVRRLSTLSRGGHVCTTHIPVGRSKSAPHQTVGS
+ATNQSTSTHQQERP
+>tr|A0A0P7GA13|A0A0P7GA13_9MICC
+MLDPVSSAPPRRLEGRSAVITGGGSGIGLATARRLASEGAHVVVGDVDPVAGKAAADEVG
+GLFVPVDVTSEEEVRRLYEITRDTYGRVDVAFNNAGISPPEDASILDTGIDAWRRVQEVN
+LTSVYYCCKYALPHMLAAGKGSIINTASFVAVMGAATSQISYSASKGGVLAMSRELGVEF
+ARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAGAVAFLASDD
+SSFITASTFMVDGGISGAYVTPN
+>tr|A0A0P7GBJ4|A0A0P7GBJ4_9MICC
+MSQKSDTCLDAWMDREAMAEAMIPLIGRLYRENSVVTSVHGRPLVNRSVIDILKAHRFAR
+QIDDVELPVAETLPILQALTELELGAASVDVARMNAKYQREGNGAPLVDFLRAELADVAG
+KHGADERTSTDVVLYGFGRIGRLLARILIDHEGGGHGLRLRAIVVRKGAENDLVKRASLL
+RRDSVHGAFPGTITVDEENNTILANGTLIQVIYSNDPSTVDYTAYGIHDAIVVDNTGRWR
+DKDGLAQHLQAKGASRVLLTAPGKGDLKNIVHGINHQAITDEDKILSAASCTTNAITPVL
+KVLNDKFGIVNGHVETVHSFTNDQNLIDNFHKGDRRGRSAALNMVITETGAAKAVAKALP
+ELAGKLSGNAIRVPTPDVSMAILNVNLETETTKEELNTFLRETSLNSELHKQIDYIDSPE
+VVSTDFVGSKRAGIVDGLATISNGRNAILYVWYDNEYGYSCQVIRVLEEMAHVNPPAFPR
+AEELVASL
+>tr|A0A0P7GJ15|A0A0P7GJ15_9MICC
+MAPKKKVTGLIKLQINAGAANPAPPIGPALGQHGVNIMEFCKAYNAATESQRGNVIPVEI
+TVYEDRSFTFITKTPPAAELIKKAAGVAKGSGTPHTVKVAKLTQAQVEEIATAKMEDLNA
+NDVQAAAKIIAGTARSMGITVEG
+>tr|A0A0P7GAP8|A0A0P7GAP8_9MICC
+MKAWQFTGTNKPLELNEVPEPHAGPGQVVVEVKAAGVCHSDVTALDDPGWMPLFFELPRT
+MGHENAGVITEVGPGMEHWKVGDRVGLAPVMSDGDALGYGKWDGGFAPKLVATDDNLVKL
+PDEVPFDLAAMATDAGLTAYHAIMAVGGAKAGMKVGVIGLGGLGYIGARVAVLSGAEVYG
+AEINAETRKLADEIGLAGVAESITEFKDKGLDLIVDYAGFGTTTSQAIETLAEFGTLVQV
+GMGRLEATINTYPIIINQLSIKGSKSGTKEDLEALYELMKSGKLNPPMNIITHAEIPDAI
+DKLRAGGVIGRFIAQY
+>tr|A0A0N8HX19|A0A0N8HX19_9MICC
+MSDQSTSANGLPIPGAPAPQPPSLSEPTEPHDPLPPKPDQDGPETVSPTGVPTGAPKTSN
+AQSGRYLTTAQGARLRDTDHSLKAGPRGPVLLQDHHLREKITHFDHERIPERVVHARGAA
+AHGVFVANGAAEGITRAGFLARDAQTPVFVRFSTVLGSRGSADTVRDTRGFATKFYTDEG
+TFDLVGNNIPVFFIQDAIKFPDVIHAGKPHPDREIPQAQSAHDTFWDFVSLHTEAQHHAI
+WNMSDRGIPRSYRTMEGFGVHTFRLVNAKGETSLVKFHWKPRLGVHSLVWEEAQIINGMD
+PDFHRRDLADAIEAGAYPEWDLGVQVFPDTEDEMFEGIDLLDPTKIVPEELAPVQIIGTM
+TLNRNVTNFFAETEQVAFHPGHLVPGIDVTNDPLLQGRLFSYIDTQLTRLGGPNFAQIPI
+NRPHAPVNDMHRDGFHQDAVHSGVAPYQPNSLDGGCPFLAGADMGAFIDVPAPVAKSRKV
+RENPATFDDHYSQPRQFFRSLTPVEQDHVIQAYTFELGKCYEENIKVRQLQALANIDERL
+CAEVAAGLGLPAPAPTVKVEDTDPSPALQQVGGTWPVDGRIIGILADDTTDLAALARVRA
+AVDAADMVPLVIAPQGGMLGGQVPVQRTYLTARSTEFDAVIVAGSGEYGTDAVDSLDAKA
+GNPAGHPAIDPRVAILLTEAYRHSKAIGAWGSGTGVIGASGIPGDAPGVLAESPEDIVPG
+LITLLGQHRVWERFPLAAAS
+>tr|A0A0P7HHS5|A0A0P7HHS5_9MICC
+MRGRKSALKARIFGGLSPPSGSVAGMATRTSPAARGSSSSRTPARSSGKSAQRGKSSSRP
+SAAKAQPEETLPLPLRVVQSAWMGIARIVGAGVRKLGTDVVPDREIRRDGTGFFLILTAL
+LVATVEWWALRGPVADIIHAAAAGTFGWMAVVLPFMLLTASVRLFRYPERHRANGRISIG
+LTIMLCSGAGITHIIGGAPALSDGFDRLWVSGGIVGFLVAGPLSTAITQWPVIILLSLLV
+FISILIVTATPFRHIPLRLRALYEHLMGQDLAQDDPEAHDQSYLYESDRAAKPKKERRFG
+RGRKEAEPEHSDGYAGDEAFEAALLRDEEERKEAEAAAEPAVPPGVRRPTKSELATQKLR
+RQQGLEDTEPPTEAISLVPEAAASLVAAPPVPPVPSRPVAHVPPSTPIPQRTEQLQLSGD
+VTYTLPPSDFLPSGPPAKERSEANDAVVAALTRTLEQFNVDAKVTGFSRGPTVTRYEIEL
+GEGTKVERVTALSKNISYAVASSDVRILSPIPGKSAIGIEIPNADKEVVVLGDVLRSNAA
+RKTEHPMVMGVGKDVEGGFVVANLAKMPHLLVAGATGAGKSSFVNSMITSILMRSTPDEV
+RMVMVDPKRVELTAYEGVPHLITPIITNPKKAAEALQWVVREMDTRYDDLANFGYKHIDD
+FNKAVRNGKVVPPAGSKRVLKPYPYLLVIVDELADLMMVAPRDVEDSIVRITQLARAAGI
+HLVLATQRPSVDVVTGLIKANVPSRMAFATSSVTDSRVVLDQPGAEKLLGQGDALFLPMG
+SNKPIRVQGAWVTESEIHRVVEHVKSQLQATYREDVTVTAPKKQIDDDIGDDLDVLLQAT
+ELVVTTQFGSTSMLQRKLRVGFAKAGRLMDLLESRGVVGPSEGSKARDVLVKPDDLAATL
+AAIQGGEPLGGPDAAETAALAENANVNHGFETDGPVDLVAQDLESRPQATEYYDGAEESG
+EDGEGSEDAWNLTGR
+>tr|A0A0P7HCY0|A0A0P7HCY0_9MICC
+MAGRPSPKKDTSSNYRKNAQRAEVAAETQRLKDYLAPTVAGENLFLEDIEIRIAGAHRTV
+HVIVDLPETESGGVSLDRIADVSRVLSDAMDQDPNDDGRPYSLEVSSPGVSRPLTEPRHW
+RRNAGRMVSVTPVRGDGITGRLIEVDDKGITLIPEIAVKKGMKAKQGEKTHLAFDQIAKG
+RVEIEFAHLEDEPAGEDADGMKSTAEEA
+>tr|A0A0P7HLI9|A0A0P7HLI9_9MICC
+MHTHIYDDKAAVVAQQIELGLDTFGDVTQAADGAKLPMHEVIRNVVAEAVLADSVGLDFI
+GIGEHHRDDFAVTSPETVLAAIAGQTSRIRLGSAVTVLSSDDPIRVYERFATLDAVSSGR
+AEVILGRGSFTESFPLFGFDLADYEVLFEEKLDLFTRLLGEEPVTWEGSIRPPMRGVQVY
+PQTGHGRIPTWIAVGGTPQSVVRAAHYELPLMLAIIGGEPARFTPFVSLYKRALKEFGKP
+SLPIGAHSPGYIAATDEQALDEAWPHYAQMQNRIGRERGWPPVTRAEYEAGAGPDGALFI
+GSPETVADKITRTARTLELSRFDLKYSLGTLPHANLMKCIELYGTEVAPRVRAALAEAED
+>tr|A0A0P7GTZ2|A0A0P7GTZ2_9MICC
+MTGLDISADALIEVAVLVTDSELNILGDGVDVVIKPEDAALEQMGDFVRQMHTTSKLLDE
+LPGGMTLAEAEAEVIEYITKWVPEPKKAQLAGNSVGTDRMFLARDMPEVIDYLHYRIIDV
+STIKELARRWYPRAYFQAPAKNGGHRALGDIQDSINELRYYRAAIFVPAPGPDSAEAKKI
+AARISSPASDS
+>tr|A0A0P7FQH8|A0A0P7FQH8_9MICC
+MTTPKRVAVSSAQLEITQIKSTIGGKQNQRDTLRSLGLKHIGDSVVRSADAVTVGMINTV
+PHLVKVEEAK
+>tr|A0A0P7FZE7|A0A0P7FZE7_9MICC
+MKSHNVRVYRSEENLPREDQLAWKIAEVAADPVAVTDDVADMVINRIIDNASVAVASLNR
+GPIVAARAQALSFAPSSGGAGASVFGVQDKTSPEWAAWANGVAVRELDYHDTFLAAEYSH
+PGDNIPPILAAAQHTGATGADLLRGIATGYEIQVDLAKAICLHKHKIDHVAHLGPSAAAG
+IGTLLGLDTETIFQAVGQALHTTTATRQSRKGEISTWKAHAPAFAGKMAVEAVDRAMRGQ
+TSPTPIYEGEDGVISWLLDGPDAAYSVPLPAPGEAKRAILDTYTKEHSAEYQAQAWIDLA
+RKIHRQYPAAADPANVASVLISTSHHTHYVIGSGANDPQKYDPTASRETLDHSIPYIFTV
+ALQDGAWHHVDSYAPERAGRPDTVALWHKVTTVEDPEWTRRYHSTDIAEKAFGGRVDITL
+TDGTVITDEIAVADAHPLGARPFVRADYINKFRTLAAGLVPDEEMDRFIAAAERLPELAA
+GELGQLNITAASGVIDPAAAPKGLF
+>tr|A0A0P7HE41|A0A0P7HE41_9MICC
+MTNKRVVVTGASSGIGAAAVRALRKTGWDVIAVARRRERLQELAEETGARIVACDVTDRQ
+SVDAMAREVLADGGVDAIVNNAGGAFGMDPVAAGKPEDWVNMYNVNVLGALNVTQAFLPA
+LRDNGHGSILMLTSTAALAAYEGGAGYCAAKAGEQAMTQALRLEEAEHNVRVIEILPGMV
+KTEEFSLNRLGDAAAAEKIYAGVEKPLTAEDVADVMAYALNAPHHVNLDQVVIRPVAQAA
+QHKVIRR
+>tr|A0A0P7HV54|A0A0P7HV54_9MICC
+MEHMHAAVANTLGEPLTVGEVDVPSPGPGQVLVKLISTGVCHTDLHAVQGDWPVKPSPPF
+IPGHEGVGRVVSVGEGVTALKEGDMVGNAWLWSACGICEYCRTGWETLCEQQQNGGYSVD
+GSFGEYMLVDEKFAAHIPEGADPVEVAPVLCAGVTVYKGLKMTEARPGQWVVISGIGGLG
+HIAVQYAKAMGLRVAAVDIAEDKLALAREFGAEVTVNALDEDPVEAIQAQTGGAHGVLVT
+AVHPSAFGQAIGMARRGGTIVFNGLPPGDFPAPIFDIVLKGLTIRGSIVGTRQDMVEALD
+FYDRGLIHPKITTRPLEDINDVLDELAAGRIDGRVVVQY
+>tr|A0A0P7FYQ0|A0A0P7FYQ0_9MICC
+MSSTPTAALSEAGVSIWLDDLSRERITSGSLKDLITARNVVGVTTNPSIFAAALANGESY
+ATQVEQLAASGADVDKAVFEITTDDVIQACDVFAPVAEATGGVDGRVSIEVDPRLSRDTQ
+GTINEAKELFDKVGRSNVLIKIPATEEGLPAITAVLAEGISVNVTLIFSLQRYREVINAF
+MAGIEQARENGHDLSKIHSVASFFVSRVDSEIDKRLDAVGTDAAKALKGKAGLANARLAY
+QVFEESFATERWQVLAAAGANAQRPLWASTGVKDPALPDTLYVTELVAAGVVNTMPEKTL
+EATADHGRITGDTITGTYAESAAVLDDLDAAGVDYNDVVAVLETEGLDKFVVSWGELLET
+VTAALENARKA
+>tr|A0A0P7FZ99|A0A0P7FZ99_9MICC
+MPEIHSRFTIGEEHNGVRADAALAELLEVSRSTAAGWCAEGWLTRAGRPLAKSDRLHTGD
+SVAADVPEQPDPLAVVVEPVDDLRILGDDEHFVVIDKPVGVAAHPSPGWVGPTVVGALAA
+AGYRISTSGAGERQGIVHRLDVGTSGVMVVAKTEHAYTLLKQAFRDRTVEKEYHALVQGL
+PDPLEGTIDAPIGRHPGHDWRFAVVDDGRDSVTHYKVLEAFGRASLVEVHLETGRTHQIR
+VHFSALRHPCAGDLTYGADPRLAAELGLTRQWLHARKLGFSHPGTGEWVEFVSSYPQDLQ
+YALDALGRGDI
+>tr|A0A0P7HGQ6|A0A0P7HGQ6_9MICC
+MSTDNPRRTARQKAPVPEGLRKVVVASMAGTVVEWYEFFLYAAASTLVFARLFFPNANTE
+LDGIIAAFVTYAVGFVARPVGGIVFGHFGDKFGRKKLLQLSIILVGVSTFLMGCLPGFDS
+IGYWAPAMLVALRFVQGFAVGGEWGGAVLLVAEHSPNKSRGFWSSWPQSAVPMGNLLATG
+VLFLLSATLTDEAFLGWGWRVAFWLSAVIVLVGYYIRTKVSDAPIFLEAQKEVETEAKGY
+GVMEVFRRYPRGVFTAMGLRFAENILYYLVVTFSITYLRTVVETDTSRILLLLLIAHFIH
+FCAVPVAGKMSDALGRRPVYLAGAVLGATWGFFAFPMMDTANDLMILSAVTIGLLFHALM
+YAGQPSIMAEMFPTRMRYSGVSLGYQVTSIVAGSLAPIIATSLLARYDSSTPVALYLLGA
+CIVTAISVLVLRETNGISLHDVDAADAKGTADLLAASKAAEEKPSQTPADK
+>tr|A0A0N8HX17|A0A0N8HX17_9MICC
+MGNTAIQLQAPELTAPPKAPTRRSAGMLLAVCIVLIGLNLRTVFSSFSAILPEITDASGM
+PPVLVTVLTTGPVLLLGLVAPAAPAFARRIGIERTILAAMAVLTAGLAVRGTGDFAAMIA
+GTVAAGAGIGVVNVLLPTLVKRDFQHRLGLMSGLYTGSICAAAALGAGFTHPLLQATGSW
+QEALAFWTLPAALVVLLFAPLALRRGRTPADRNADAGPSVWRSPLAWQITGFMALQAMMS
+FSVFAWLAPILRDRGIDGGTAGYVVAGSIVVQVLGSFLAPPLAARLRSQGWLNASIALLT
+GAGFALTILGPLDLVWLWAVMLGVGQGSLTALALTMIVLRTRNAGTAARVSGMMQCVGYG
+VGSSGTLLVGVLHTSTGSFTPAAVMFLVIGTAAAGMGLLAGRARFVGDPR
+>tr|A0A0N8HXN9|A0A0N8HXN9_9MICC
+MPSLRVATPKTRNVSLAITALAAGGFAIGTTEFAIMGLLQEMVAELGVSVPEGGHVISAY
+ALGVVVGAPLLAAAGAKMPRKWLALGLMAFFAVANLSSFIAPDYGWLLVTRFLSGLPHGA
+FFGVAAVIAASLVAPTKRGWAISMVMLGLSIANVIGVPFATWLGQLAGWRWMFVLVGAIA
+LLTVALVAWFVPFQAAHPDASIKRELSALRRMQMWLALLVGTVGFGGFFAVYTYISPTMT
+EVAGFSMGVLPLIVGLYGVGQVVGNIVGGRIADRSVMGSIYAVLAGTVVILAVYAWGVQY
+KAGAIILVFLVGAIGSALTPALQTRLLDVSPGAASLASSLNHAALNMANALGAMAGGLVI
+AWGWGFRSPAIVGAVLALLGLGVALLSGALDRRRSVTAPLQDEPAEPAPSTSR
+>tr|A0A0P7G0B5|A0A0P7G0B5_9MICC
+MRAVGYNLETALADLVDNSITAGAETVDIRFSAAGEPYVAIIDDGLGMTELEAQDAMRLA
+GNDSRNLRASHDLGRFGLGLKTASISQCRKLTLVTKQRREVHAFRWDLDYLSSSSSWSLL
+RLAPEEYQALPEYAALEALDHGTMILWQDLDQLENTSGNSIASMDEAMMRAASHLGLVFH
+RFLAGEHGRPLDIRLNFTSVPATDPLLKDHKATQIGPLERISLDQGTIELRPYTLPHLNM
+MSPSDRRKAHVNGSLRDSQGFYIYRAMRLVIWGTWFRVAPKQELGKLARVQVDVPNSLDH
+LWSLDIKKAQAVPPPVIRDRLRAVAATIVGPSQRAHTYRGRTERSPITHIWNAVSDAESF
+RYEVNRNHPALIALSSTFDRHESAALETVLSLMERTFPIEDVYNKMGQDLSHSGAEVQDQ
+DLRDLARALWGQLQTTLAPEAFVKAMLTSEPFDKHPRAEAALRETAYGTEF
+>tr|A0A0P7HCX0|A0A0P7HCX0_9MICC
+MHSVFSLPSPDLTVNCSIMLADLPLLERPAAAAAAGFDAVEFWWPFESPVPGDQEVDAFL
+RAISDAGVRLTGLNFYAGHMSAGERGVLSSPSKSAAFRSSLDTIAGIAERTGCRGFNALY
+GLPEDDVAPAVQADCAVENLAAAADAVAHLGGTVLLEPLSGLPSYPLESAADCFTVLERV
+HGTGRQNIALLADFYHLAVNGEDIPALIAGHAARFGHIQLADAPGRGAPETGNLPLVEWT
+AEAISAGYSGFISLEYRSPSTEAFAWLEPYRAGAAGTR
+>tr|A0A0P7HIB5|A0A0P7HIB5_9MICC
+MLVLTRKSGEQILIGDDIVITVLDSRGDGVRIGIDAPRGMKIQRNEVVRAVEEANVAAAT
+PSPDGEERIKALLELRRPQAD
+>tr|A0A0P7GP43|A0A0P7GP43_9MICC
+MWLIGARGSVATTAAAGLAAIASGLVKPQGCVTEHEAFQDVILPGYSDLVVGGHDISGVG
+MAKQAERLVEAGMVPGHLLESVRAQLLEADLRVRPGYHPAGTPETQADAVKRLCGDILSF
+KEANGLQRVIVLDVASTEAPPEQLDEFCDAGLLETALQDPARHVLPASSVAAYAAVMAGS
+PYICFTPSTALNIPALYELAGAGRVPTAGQDGKTGQTWLRSVLAPALTARGLRVLSWAGT
+NLLGGGDGATLADSRAVSGKLLSKNRGLRDLTGGAVTPLHIDNVPDLGETKVAWDHIHVE
+GFLGSRLTIQTTWSAYDSMLAAPMVLDLTRLMALADAAGETGPIGALGFFFKDPWGSAEH
+SFSQQTTNLVQWALDASARLSSAAGGDRL
+>tr|A0A0P7HPR0|A0A0P7HPR0_9MICC
+MFAAGASITEIEQDVEDMIVQLVHRLGDLADADPDPVGAQERAYIKAFSDVRANSSMDQA
+ALLETAISRPNLAESLLYLNRRLDAANLGPRDPAGIIGVVIRLAMDGLWVSDILDSSRFT
+RAERERITTLLTALSRLSDERMAELLPECAATR
+>tr|A0A0P7HVP0|A0A0P7HVP0_9MICC
+MSQSVLFDAPGPRARRRIMVGNILGTLFILALLALVVYGLAEKGQFDAAKWNPFIEGRTW
+EYFMLPGLLETLKAAGVAIVTSIVFGLVFGLGRLSSVKAISWVAGLVVEFFRAVPVLLMM
+IFFYQFLSKSTPVPSSDVPFVAVVLALTLYNGSVIAELVRSGVFGLPKGQREAGLAIGLT
+RSQSLRIVEVPQALVAMLPALLSQFVVILKDSALGTFIGYTELLGYARRLASGEGNILPA
+LLVTAAIFIILNMILTFAAQRLSRLLGARAGALLKTDEAVDPEGVPAPVR
+>tr|A0A0P7FQ53|A0A0P7FQ53_9MICC
+MKMTKYTHSCVRFEKEGSVLVLDPGNFSEVEEALRNADAILLTHEHADHIDREQVLPILA
+DRAGLQLYAPAALAASLREETGDDARTRIHDVEPNTVQDVAGFSVRSFGGQHALIHPLIP
+MVENLAYLIEDRIYHPGDSFVVPNGLKAEVLLVPIHAPWSKVGEVIDFVIAVGARTAHPI
+HDALLNGKGRGIVEKHLERFGAMYGTSYQQLAPGDVVEL
+>tr|A0A0P7GLF2|A0A0P7GLF2_9MICC
+MANSTRARRQARASRALGIALTPKAAKYFERRPYPPGEHGRARRKQDSDYAVRLREKQRL
+RAQYGIREAQMTRVFEEARRTAGLTGENLIELLEMRLDALVLRAGFARTIAQARQLVVHR
+HIMVDGARVDRPSFRVSEGQLIHVHQRSETMTPFQVAAAGAHRDVLPAVPGYLDVSLDKL
+QARLVRRPKRSEVPVTCEEQLVVEYYAR
+>tr|A0A0P7G7L3|A0A0P7G7L3_9MICC
+MSEQKLAATTRTDFGKGAARKARVAGMIPAVIYGHGADVMHILLPAKATTLAVRTPNALL
+DIDVDGEAHLALAKDIQRDPIKQIIEHIDLLTVRKGEKVEVEVNVHVEGELAPGSSVYNQ
+EANTVLVSADATNLPETIVVSIEGRKAGEHIYASDLELPAGVELLLDPETMVINISESAV
+QDLGEGEEEAAAPAAPAATEEA
+>tr|A0A0P7GS62|A0A0P7GS62_9MICC
+MSTDITVLLADDHAAIRLGMRMVLETEPGFQVVGEAADGATALSMARTLRPDVVLMDLRM
+PVVDGVQATGEIVGAGLAKVVALTTFDHDSYLFGVLSAGASGFLLKTAEPVEITTALRRV
+HDGGTVIAPEVAGRLVTAFVAGRERAAQQTPASPAAPAPELELTAREEEVLDCLAEGLSN
+VRIARKLGISETTVKTHVSRVLSKLGVESRLQAALVARVRAS
+>tr|A0A0P7GIH9|A0A0P7GIH9_9MICC
+MTMTDPVADMLTRLRNANSAYHDTVSMPYSKLKARVADILKAEGYIAGWKEEEAQVGKTL
+TLDLKFGPNRERSIAGVRRISKPGLRVYAKSTNLPRVLGGLGIAILSTSSGLLTDRQAAK
+KGVGGEVLAYVW
+>tr|A0A0P7GAH8|A0A0P7GAH8_9MICC
+MIREFRLPDLGEGLTESEILSWRVAEGQLVTLNQVIAEVETAKAVVELPSPFEGVVARLH
+EAEGTVVEVGKPIISFDVIDTDVPVPAAPEPQRRQPTLVGYGAEPDRAGRPARRARRGLA
+APAEPTPPAPAPARTPSPAAAPAPAAAPAPAAVITDAPVRERPRSTPPVRKLARDLGIDL
+ALLTGTGPQGRILRADVEAARLADRGRSGESVTAETAVPPVVADAPHLGQGREERIPIAG
+IRKHTAAAMVSSAFTAPHATVFLTVDVTASMQLLEKLRSRKEYDGVRLTPLVLAAKAVCL
+ALRRHPELNARWDEPAREIVRYRYVNLGIAAATPRGLMVPNIKDAQDLGLRELALAISDL
+ARTAREGRTPPAALSGGTVSISNVGVFGVDAGTPILNPGEAAILALGAVRSQPWEYEGGI
+ALRQVTTLSLSFDHRLVDGAEGAAFLRDIGDVLAEPAMVLAMD
+>tr|A0A0P7HLK0|A0A0P7HLK0_9MICC
+MTKSAPEARLLVVDDEPNIRELLSTSLRFAGFDVVAAGNGREALAAVDEHSPDLAVLDVM
+LPDMDGFTLTRRLRAAGRHFPVVFLTARDDTEDKVTGLTVGGDDYVTKPFSLDEVVARIR
+AVLRRTQPLDDDDAVIRVEDLELDDDAHEVRRGGVTIELSPTEFKLLRYLMLNPNRVLSK
+AQILDHVWEYDFNGDASIVESYISYLRRKIDRSPDAPALIQTKRGVGYLLRTTEKR
+>tr|A0A0P7H5A5|A0A0P7H5A5_9MICC
+MAIFTDPIKDHADFGPGDAEWLHLLVGDWQLVADLAFADLALWFPLPEGTYVALAHARPS
+TSHTVFHSDFVGERIRADLQPLVDKAWKSQTIERSSETNWTTETAMRVEAIPFVRNGRTL
+AVVTSHMDLSSSRMPSRLELTYRQCAYDLLRMGTLGLWPDFATPTGSRRGAPRVGDGLIR
+LDAQGVVQYASPNGVSAFRRLGDMETLEGRPLAEITTALLKDRRMVDETLPLVVTGRMPW
+RTEIESRGVSLSLRAIPLRDEKERFGALVLCRDVSELRRREMELVSKDATIREIHHRVKN
+NLQTVAALLRMQSRRMESEEGKQGLAQAMRRVSTIALVHETLSQGLTQNVDFDELIDRQF
+RLSAEVASPSQAVRTERQGTFGELPSDLATPLALVINELVTNAVEHGLAGKENGTVWLNA
+ERHQGKDGEENLTVTVADDGVGLPDEPRREGLGLQIVRTLVQSELAGTIEWSKRPGGGTE
+VTIQIGLDGARRR
+>tr|A0A0N8HXP2|A0A0N8HXP2_9MICC
+MPEESSAHTELENERQYVAGLYHRLDELREEKREQLAQVRRSHSAGSHQNRSERDAFATM
+YEDRLAQLMAVDDRLVFGRLDLDDGETRYIGRIGLSTADLQRLMVDWRAPEAGTFYQATA
+FERQGVRRRRHLMLKGRDVQGLEDDVLDYSMLEEGQDLQGEGALLAALNSKRTGQMSDIV
+GTIQAEQDRIIRAPLPGTLVVQGGPGTGKTAVALHRAAYLLYTHRERLKSAGVLLVGPSN
+AFIRYIERVLPSLGETGVVMSSLGQLMPGITASGEETPAAAEIKGRLSMADVVARAVANR
+QRNFTEPRRLNIEGTWITLTPKQVARARDRARATGKPHNEARVTFVKILLRELTDQMTEI
+LEESAGAGNSTDRAYLAEDVRSSRDVRVALNLCWMPLTPEKLISELFSKPGQLEAAAPEL
+TEAERAALRRSPDAPWTESDVPLLDEAAELLGELDASAGRDSAALEEARKRDLANAERAI
+ENTEGFLEDSGAHGILSAEDLANHNMATEQRLTAADRAAVDRTWAFGHVVVDEAQELSAM
+QWRLLMRRCPLKSFTVVGDIAQTSSAAGATSWQQALEPFVGERWTLEELTVNYRTPAQIA
+EAAVRMANAAGLVVSAPKAVREGQWAPFLDTVPEGSLLTRLLETLPEDLAAIEGGLLAVI
+TEDHRLETVRREITALYGDRVGTGAGGLSQDIVVISPREAKGLEFDGVVILEPSELLTAA
+AGKVGDLYVAMTRPTQRLRLIAEHGIPAGIDAAES
+>tr|A0A0N8HX05|A0A0N8HX05_9MICC
+MVRNLEPQDIGPAAAVLVLAALNARRDPVIGVATGSSPSPLYDALSASGADFTRAAWFAL
+DEYVGLPPGHPESYAEVLRREIIGPLGLDPKTVHLPDPHREDLQAACDDYERRIAAAGGI
+DLQILGIGRNGHLAFNEPGGALDSRTRVEVLTEDTRRANQRFFDSLDSVPTRCLTQGLGT
+ILEAGQLLLIAQGEDKAPALRAALHGPVSPECPASVLQLHGRVTVLADAAAASLL
+>tr|A0A0P7G3W0|A0A0P7G3W0_9MICC
+MGSGELMANENTSDQYTFQDPVNRYPSVSPPKQDQPEPGLDADLEPKTDRGEDSYRGTGR
+LKGRKALITGADSGIGAAVAIAFAREGADVALSYLPEEEEDAAKVMELIRDAGRTAVGLP
+GDLKDRDYCIQLVQDAVDGLGGLDILVNNAGKQVAVENLEDLSDEQLDDTFKTNIYSFFR
+VTKAALPHLPAGSSIINSTSIQAYSPSPHLLDYASTKAAINNFTKGLSQQLAPKGIRVNA
+VAPGPFWTPLQVSDGQPKDALPEFGKDTPLGRAGQPTELAPAYVFLASPESSYVVGETLN
+VNGGMPSP
+>tr|A0A0N8HXK0|A0A0N8HXK0_9MICC
+MKQQERKLPPNGLDLEELRERTEDGSIDTVIVAITDHLGRLQGKRCGARSFLEDVHPHGA
+EGCNYLMAVDVDMNTIEGYESSSWENGYGDLVMRPDMDTLRLVPWLPGTAIVQCDVLHTD
+GTPLAPSPRQILRRQLDRLEELGYRAYIGTELEFILFDDSYSDAWDREYTGMQAASRYNV
+DYSLLATSRLEPVLRAIRTGMESAGMVVESSKGECNYGQQEVTFRFDEAMRTCDNHAFYK
+TGAKEIADQQGKSVTFMAKFNEREGNSCHIHFSLRDLDGEPVFPGDSEHGFSEVMEHFLA
+GQLAALKELTYFLAPNVNSYKRFVEGSFAPTAIAWGMDNRSCALRVVGHGAGMRSENRVG
+GGDLNPYLAAAALVAAAIHGLENRLPLEPVTAGNAYTTGADRLPTTLRAARDLLAGSELA
+RKAFGDDVVTHYVHAADVELAAFESAVTDWERKRGFERL
+>tr|A0A0P7GTS1|A0A0P7GTS1_9MICC
+MTNTTTRPGERGAPATISGKDAGTIARASFVGTALEWYDYYLFGTAAALVFNRLYFTTMD
+PTAALLASFATFGVGFAARPIGAILFGYIGDKFGRRPALLATIVMIGIATGLIGLLPDFG
+SIGLAAPILLAVLRLVQGLAVGGEWGGAVTMAIEHAPVEKRGRFAALVQVGSPVGTLLSS
+AAFSLVLLFPSETFDAWGWRIPFLMAFPLLLIALWIRIKVEESPIFKDLLAQEETSKVPA
+LDVFRNAGGRLAVAVMAALLGVGGFYMITTFIVSYGSNTLGVDRQIMVNATLIAAVAQIF
+VTIAMGRLSEKIGPGKVTMWGGILTAAAAFPIFAMVDTKSTPMIMLAITLGIVLIAVAYA
+VNGALLTELFPPKLRYSGVALGYNIAGATSGFMPLLATAMLGFSGNQSWGGALILAIIAV
+ITAVGGFLGERLRVQDKRIVSAD
+>tr|A0A0P7HMB6|A0A0P7HMB6_9MICC
+MTKFIRWAFTHFWLVIVAFAAWWFLSAGSTNIFVPPLSRILEVLWRDLMNGVILGHIGYT
+LTNLALGLSIALIVGILGGILIGERAVVRETSEPIIHFIRSIPQAALVPLVIGAFGIGMG
+PKVMTIALACVWPILLNTIDGVRAVDATARSMSRVYRIPKTLYFRRVVLSSALPQILAGV
+RVSLAIGVTVMVVAELFGADRGLGYYILNSSATFKIAESWGGALLVGLIGYLLNLAFLAF
+ESVTLRWYFASGSK
+>tr|A0A0P7G6E1|A0A0P7G6E1_9MICC
+MSTVLPPPSGGAVRPDEPSAPDTRGSGMWQDAFRRLRRNPAAIAGAVIVGLFILVAVFAP
+ILAPYGGEELPGRTQITPTSIPGPGEVEGFPLGLDRFGGDVLSKLIWGARASLLIGVIST
+ALGLLGGMLLGVIAGGFGGWVDNVIMRFVDILLSVPNLLLAVSIAAVLGQTPSAVMIAIG
+VSQVPIFARLLRSSMISQRGADYVLSAQALGLSTRTITMSHLLPNSVGPVIVQATLTLAT
+AVIDAAALSFLGLGGGRPESAEWGRMLTYAQNELAVAPQLAFLPGICIAITALGFTLLGE
+SLREALDPKTRRK
+>tr|A0A0P7FFH0|A0A0P7FFH0_9MICC
+MSGYPRGTKLGVDVGLARVGVASCDPDGLLATPVRTLKRDAKKNSDIQVLVREAAERGTV
+EFFVGLPQSMKGTETASTAMARDYAQVLAEFLDKAGLDVPVRLIDERLSTVSAHRSLREA
+GLDTRNHRRVVDQVAAVGILQQAIDMQRSLGRDVGVPVTLRRSKRSAAPAPNEEPTISEE
+SRPESDTAS
+>tr|A0A0P7FPR4|A0A0P7FPR4_9MICC
+MATDALSPEYREAALERLRATAEPGGQLDVLIVGGGVVGAGAALDAVTRGLKVGMVEARD
+WASGTSSRSSKLIHGGLRYLEMLDFALVQEALKERGLLLQRIAPHLVKPVPFLYPLTKRF
+VERPYVGAGIFLYDTLGMTSGNSRGVPMQKHLSRRGTLRAAPSLKDDAMIGSIRYYDGQV
+DDARYVANMVRTAVHYGAAAVNRLSVVDFLREGERVVGARVRDQETGEEFDIAASQVVNA
+TGVWTDETQAMVTDRGQLKVRASKGIHLVVPRDRIQSTVGMILRTEKSVLFVIPWGRHWI
+IGTTDTDWNLDKAHPAATSADIDYLLEHVNRVLKRPLTREDVEGVYAGLRPLLAGENDST
+AKLSREHVVAHPVPGLVVVAGGKWTTYRVMAKDAVDEAARALDEKVPESCTQTIPLLGAV
+GYKAAWNRRHRTAEEYGIHVVRVEHLLNRYGALAGEVLDLIAADQTLGEPLPGADDYLGA
+EVVYATTHEGARHIEDVLARRTRISIESWDRGVSAAPVVAGLMAPILGWDEARVEEEVRH
+YRARVEAERLSQEQPDDISADAARLAVQDIAPR
+>tr|A0A0P7FHG3|A0A0P7FHG3_9MICC
+MSGRESTVKINALKELSLVAYQGEAIGVIGLNGSGKSTLMNLICGKIQPTTGAIYASSTP
+IMLGVSAALVPDLSGAHNVILGCLAMGLTKAQIADRHEAIMELAGLGSSINLPMRSYSAG
+MASRLRFAIAAAIDPEILIIDEALNTGDDEFRGRTKQRMDQLREQAGCVFLVSHSLKTIQ
+DLCTRVIWIDKGDLLFDGDTETALGWYRKYTKELAGGDRFAAAKIRRRMQNTLDTVSIEP
+LQPGRRRSVRA
+>tr|A0A0P7GIM0|A0A0P7GIM0_9MICC
+METKFTNKSQEALQAAAMNATTAGNPQIEPAHLLKALMDQRQGVAVALLKAAGANPDAVS
+AAASNAIHDLPSSSGSSVQQPQFSRPLLQVINAAQQEAAQLGDAYVSTEHLLLALSVDNG
+PAGKALRDNNAGHDALASALPSVRGDRKVTNADPENTLQALEKYSTDLTEMARAGKLDPV
+IGRDSEIRRVIQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQRIVAGDVPESLSGKTLLSL
+DLGSMVAGAKYRGEFEERFKAVLEEISNSEGQIVTFIDELHTVVGAGAAEGSMDAGNMLK
+PMLARGELRLIGATTLNEYRENIEKDAALERRFQQVFVGEPSVPDTIGILRGLKERYEAH
+HKVAIADSALVAAANLSNRYITGRQLPDKAIDLVDEAASRLRMEIDSAPEEIDELRRAVD
+RLTMEELAISGETDAASLERLEVLREDMANKKEQLAALNARWEAEKAGLNRVGDIKARID
+ELRSLAEKAQRDGDLTEASRILYGEIPAMQKELDAAQEAEEDKYGDGARELMVSEEVTAD
+DIAEVVSSWTGIPAGRMLQGESQKLLDMEAVIGSRLIGQTKAVTAVSDAVRRSRAGVSDP
+DRPTGSFLFLGPTGVGKTELAKALAEFIFDDERAMVRLDMSEYAEKHTVSRLVGAPPGYV
+GYEEGGQLTEAVRRRPYSVILLDEVEKAHPDVFDILLQVLDDGRLTDGQGRTVDFRNVIL
+ILTSNLGSQFLVDPGLTEDQKRDSVMSMVNANFKPEFLNRLDDVILFDPLNLEELSEIVD
+LQVKALAARLRDRRLTLDVTDAAREWLALTGYDPAYGARPLRRLVQREIGDKLAKGILAG
+RISDGDTVLVDRPEVSSDELADPGLTVQAAAPVS
+>tr|A0A0P7GE80|A0A0P7GE80_9MICC
+MKSVYVTGPGTNEWVEVDRPTAGPRDVLLKMKACGICGSDAMYSHMGGIPPRQGATPLGH
+EPAAEVAEVGAEVDGFAVGDHVVIDTMAFTDGLLGSGGAQGGLSEYVLVRDAVPGRQLRV
+IPQEIPWEVAALNEPMAVAYHAVNRTNPKAGDKVVIFGAGPIGLGAVLGYRRRGVSHIVV
+VDIIPSRLEKALEVGADAVINSAEEDVAARLVELHGDGATMMVRGTRSGTDIFLDAAGAP
+VVPQTVAGVAKSGAVLGIVAVHKKPVELDFGSILTTELTIVFAMGYPTEIFEVTDDIIEN
+WRKYALIISDVLPFDRALEALELAQTPGAADKVVVRFD
+>tr|A0A0P7GKB5|A0A0P7GKB5_9MICC
+MTSQELSREQAQREVEQNLRLLTEVVRSRMREAARGVDPSLSLFGLKVLQLLKRFGPLHS
+GAVAELLMVDKSVISRQSRQLEVLGLIEVQPDPADGRVRVLVLTPAAAERVTAVQTGIML
+DPAVLGSWSTEDLHRFAGYLARLGGGGSPGLRESLARQDAQGTTAVLEEPA
+>tr|A0A0P7HK80|A0A0P7HK80_9MICC
+MAEQGQYPEYWEADVVLRDGGTGHLRPVSPADAEALQAFHMRQSQSSIYLRFFTYKAKLS
+GRELKRFTNVDYRDRVAFVITLGTEIVGIGRYDRLDDPTEAEVAFNISDEHQGRGIGSIL
+LEHLAAAARENGIRRFSAEVLPENRKMLSVFADAGYEVRRAFDDGVIALDFDIDPTEKSR
+AVMEAREHRAEARSVANLLSPSSIAVIGASREWGSVGYQLMEHIVEGGFTGSVYAVNPEA
+FELAGMVSYGKISEIPEPVSLAVIAVPYDQVQRVAEECAAAGVKHLLVVSAGFDDGEAGL
+ARQRRLVRYARANGMRVVGPASLGLINTRPEISLNASMAPALPRRGGLGLFSQSAAIGVL
+LYAAAQRRRLGLSSTISAGNRADVSGNDVMQYWEDDADTKVVGLYLESVGNPRKFSRIAR
+RLATSKPVIVAKSDVTGLQLPPGHSVRLTQAPRGALDAMLRQSGVIRVPTNEQLMDVAQI
+ACSQPLPRGRGLAVLSNSAALGRVLADAAVALDLDTVHLRTDLELDRGQSAALPALREAV
+AKALSDEAVHSAVVTLLPSAGLSNDAVAETLLDCALEASKPVVAVFTGIMDPNQHTEGVL
+ALRAALQPAAADEDGAEPGTDAQLPAGLPCFASPGAAVTALAALVRYTEWSGREHGHFTS
+PAGVDTEAAHAFIEEQMARVANTELLRLGPAETARLLGFYGIDVLPSLPFRSEDEAVEAA
+NRLGWPVVLKTMDEHLRHRLDLGGVRLNISSEQSLRSNISEMRTALEPYGRFELEVQSMA
+PSGQGCVLRAIEDPLLGPVLSFGIAGDAVNLLDDWAHGIPPLTDVDIADLVRTPRTSRRL
+FGYQGLPKVDVAALEELISKVALLKDEHPEIALLEINPVLVSVQGVTVLSADIRLGNPQQ
+RTDSARRALRD
+>tr|A0A0P7GNK4|A0A0P7GNK4_9MICC
+MSQNMPTAGGGSVRATFLAAYSAVTLAQMTNALPGALNGTFAAEFHTSGAGLTWIAGVFM
+IGVVVFELSWGVLGDLFGRKKLLIAGAGLTIGGSVLAALAPVTGVMIAAQAIGGIGAGIL
+FPISLSMIAAITPDPRARAKVIATWAGFLSLGAVISPVLAGLTSQLFTVPGAAPGDPNVY
+SGWRVAYFVAAGLAAALLLLSLKAQDSAAPQGRKLDLPGQTTLALGLIAALFATVTAVDS
+GFGSPVVIAAYVAGAALLAAFVLIESRTPQPLIHLSLFKNRAYSITGIVAVIGMFAFLAV
+CFSTSVAVGGLALTETWKVGVLFVFIQGPAFVFIPVVGWLIHHVAPRWVLTAGFALMAAA
+GYWLSGFSLGTPEAFGGTPWTAFIPPLALLGTGFALTVGSVTAVAINTVAPQEIGMASAT
+TNLLRDLGFALGPVIGSAIAFSVGASLFAAPLASILGGAGLPAEAAEGLGQIPPLAFLSG
+WPDVISGFTGQAAASGAPQAAVDGMVQALNSAQPAIQGAAGSSLGQGFQSVYLVAGITAT
+VSAVLTLFVPGRSSSAPAAGTGAPAAAATVPAGS
+>tr|A0A0P7GLN0|A0A0P7GLN0_9MICC
+MFRSLRIFNYRIWFLGALVSNIGTWMQRTAQDWLVYDILTNQDAAAMGIVMALQLGPQLL
+LAPWAGLVADTYDRRKVLLTTQVSMAALGAGLGLLVLSGHAHLWHVYAFALALGVVSAVD
+APARQSFVSEVVSEENLPNAVALNSASFNGARMVGPAAAGLLTVAVGPGWVFLINTVTFA
+AMVLALLKMRSSELRVLPKAPPGKGRIRAGLKYVRYRPDLVMVLVAIFIVGTFGLNFAVY
+IAAMARTEFGQDAGIFGPLNSIMAIGSVAGALLSARRDKPRLRFIFGAAGAFGVACMLAA
+LSPNLWIFALSLIPVGLFALTLMTSANAYVQTTTTPVMRGRVMALYFAIFLGGTPLGAPI
+VGWVSNAFGPRWSLGVAAASGLITAVIGLVWAWRAHHLRLHYDRTMPRRLYLTSNATESI
+TEEDPRP
+>tr|A0A0P7GAL2|A0A0P7GAL2_9MICC
+MARVAIIGGHGKVALQLAKDLAANGHEVSSLFRNPDHVEEVAATGAAPIVADLEKLDTPE
+LAERLSGHDAVVWSAGAGGGSPERTYAVDRDAAIRSMEAAEQAGVRRYVMVSYMGAGKDH
+GVDPDNGFYAYAEAKAAADDHLRRSGLDWTILGPSALTDDPGTGRISVGGGQDGSVSRTD
+VAAVAAEVLEQPGTVGQFIEFINGDTPIRDAVSAVTKA
+>tr|A0A0P7HJZ2|A0A0P7HJZ2_9MICC
+MTETAHRTARVSTPPAAETGIERLYSSELANETEFLAARARSVGSRRANEELAALDLKVR
+SYSVLSLVCSGLNPSQRELAEFLFLDPSQIVALVDQLEKRGAVKRKADPRDRRSNIITPT
+AAGKRLYAEAAAIVQAAGDHALSALSPAERDQLRDLLRRVAFADQQG
+>tr|A0A0P7FFQ0|A0A0P7FFQ0_9MICC
+MSPKSAETRTERLLNLVIALLSSRRGFTKQELFEEIELYSEAATPQAREKLFDRDKAFLR
+EQGIPVESYSDDPLYEQDNAAQRYRIRSEEYRLPEVSFSPAESAVLALAAQMWEQAALGS
+AAARALRKLRARGVLAEDAASSPVQPAIRTEDPNFTPVFRAVTDRTAISFGYRTSNGQES
+TRKVQPWGMGSRYGHWYLVGWDTDRNAERWFRLSRMTSAVKAVKQKNGEGYSVPAGFDIH
+ASLASLDTVFSPQSAAVDVRSGAGAELRLRAAEPQESVELPEPRAGRDRLWFTVTDLETL
+ASDVAALGESAEAVHPPALRTAVAEALTRASVAQEAPVPEFKAPSAPRGQAPKTPGAQDR
+LSRLLDLVPYILANQGADMAETAAKFGVSQEQLASDLNLLFVSGPRYYPNGLMDVNFETG
+DIYIDNAENLSQPVRLSMEEAAALVVGLDTLAALPGAAPTDAVASAHAKLTEAAGTAGTA
+GNSLAAELLPGGAPPRLLAELRTAISDNRRLAIRYVVPSRDEVSERLIDPRRIFSDNNVW
+YVDAWCERAQAGRLFRVDRILSLADAGASPSDVPGPQPRFPENLFTPAESDEFVTIRLTP
+DAAWVADAYSAQMRTSLDDGGQAVVLRTGSTGWIPGFIARLAGGGAVLEPADLRAGTQDW
+LASALVNYA
+>tr|A0A0P7GNQ7|A0A0P7GNQ7_9MICC
+MARNFTLFTGQWADLPFEEVARLASSWGYDGLEITVAGDHLDAWRWDDEDYIGEKLELLE
+KYNLKVWTISNHLKGQAVCDDPIDFRHKAIVGPRVWGDGDPEGVRQRAAEEMKNTARLAR
+ALGVNTVVGFTGSSIWQYVAMFPPVPQSVIDAGYQDFADRWNPILDVFDECGVRFAHEVH
+PSEIAYDYWTTKRTLEAVNHRPAFGLNWDPSHFMWQGIDPVGFIYDFKDRIYHVDCKDTL
+LNLSGQRTVLGSHMPWGDPRRGWDFVSAGRGSVPWEASFRALAAIGYDGPISVEWEDASM
+DRLHGAPEALERLRAYDYPAPSASFDAAFGTGD
+>tr|A0A0P7GK33|A0A0P7GK33_9MICC
+MTSSTNGKYDRTPLIAGNWKMNMDHVQGITLLQKLAWTLSDARHDYGRVEVVVFPPFTDL
+RSTQTLVQGDKLKIGYGAQDLSPEDSGAYTGDISGQFLSKLGCSYVLVGHSERRSVHGES
+DELLNAKLKAALRNGLVPVLCVGEGLAERQAGNHLLHTLEQVRNDLVGLSAEEVSKIVIA
+YEPVWAIGTGEVAGPEDAQEMCSTIRDELADLYDDAVAAKVRLLYGGSVKAANAASILKE
+RDVDGVLVGGASLDVAEFANIVRFEEHLVTD
+>tr|A0A0P7HNR9|A0A0P7HNR9_9MICC
+MAHQWRGVIREYADRLPVTEKTEVITLGEGGTPLVHAKALSELTGNEVYLKVEGMNPTGS
+FKDRGMTMAITAAVEAGAKAVVCASTGNTSASAAAYATQAGLTCAVLVPDGKISMGKLSQ
+AIAHGAQLLQVNGNFDNCLEVARKLAEAYPVFLVNSVNPARIEGQKTASFEVVDFLGDAP
+DYHLLPVGNAGNITAYWRGYQEYAQPWTNNAGTELAPVATKTPVMWGFQAEGASPLVKGH
+PVTDPDTIATAIRIGNPASWDQAIAARDESGGLIEAVTDTEILEAHRWLSSREGVFVEPA
+SAAGVAGLLKKHAAGEAPTGKKIVITVTGHGLKDPQWALRTADGSDVEPTKVDFDVVSVA
+AALGLEEAAPASAG
+>tr|A0A0P7FDU3|A0A0P7FDU3_9MICC
+MASNEPNRQPSGANPVFFGRNSYGEHLRIGEILRKETVGGVLLLIATVAALIWANSPASD
+SYFALRDFRFGYEPWHLDLSLGAWAADGLLAIFFFLVGLELKKEFVAGDLRQISKAIVPV
+AAAFGGVIIPALIYVGVNMLSGSDGLRGWAIPTATDIAFALAVLAVISSHLPTALRIFLL
+TLAVVDDLIAITIIALFYSEDVNLVMLGLMLIPLAAFALLVQREPRFFGARRWPFWVILA
+PLAVAVWILMHASGVHATVAGVLLGFTVPVLRRTPDGTPIPPNENKPGLAEIFEHRFRPI
+STGFAVPVFAFFSAGVAIGGFEGLSRALMDPVALGIVAALVLGKPIGVLLTTWLLTSATR
+ATLDKSVKWVDLTGIGILAGIGFTVSLLVNDLSFGLGSAHHEDAKIAILTASVLAAVLAS
+ILLSIRNRHYAVLEKAERLDADDNGIPDVFEEGDKPAG
+>tr|A0A0P7GP38|A0A0P7GP38_9MICC
+MASGLALIAATYGLARFGYGLFLPRFAEAFDMGPGLSGAIQAGSFLSYCLTALLAARLGS
+RPRLVVGLAGTAAALGSAGVAAAPNAGLLAAAVVMAGAGAGFATPGLVSLIERNVKPDRQ
+ENAQTIVNSGTGAGLVAAGVLLVLVAGQWRLGWAVIAGVVVLATVATLRSDRRRDGQSPA
+GTKQNPGWKNLAALARPLAAAALAGASSGAVWTFGRTVLAEGRETELYSIGAWMVLGAFG
+VLGAGAGRIVQAWSLRTAWTVTTLPMAGATMLMGAFPGTAAAAYAAAALFGASYIAMSGV
+LIVWAVRIVPEQASAGTVALFIALAVGQAAGSVGLGAVLAPDAPVGAFSLAAAVGVLAVF
+PAWIRGRAAPKHSDDTVSIPSR
+>tr|A0A0P7HHW9|A0A0P7HHW9_9MICC
+MSDTHPLVPAARARRRLNPTLGKARAMLRDFLRDAGLPPQRSNPHVLLVACSGGPDSLAL
+AEAASFFNRRGDYTVGAAVVDHGLQPGSAEIAEAAAGKLRGMGLSPVTVRRVQVPESGMG
+PEAAARTVRYEALDAAAEEAGADAVLLGHTLDDQAEQVLLGLARGSGTRSLAGMPARRGI
+YLRPFLGLRREEVEEICAAQGLEPWHDPTNADPAFARSRVRTSVLPFLENELGPGIAEAL
+FRSSRILAQDADFLDAQAARTYARLRAEAAQTPGTDGPAETETPAAGGGPEEILLSEESL
+RDLPPAMRQRVLALAAAELGAARPSWERVRAVESLLRREGSAGPVQLAGKVSAYRQVRGK
+PVPQGGPSYGNLVFRKKSSA
+>tr|A0A0P7FDG9|A0A0P7FDG9_9MICC
+MLEKQTIEKIADELVAAGASRTPVPRLTARYPEMTVEDSYAVQELWSRRMQEHGRKLAGR
+KIGLTSKAMQAATGITEPDYGVIFDNMVLENGCTVQWDAYTHPRIEVELAFVLGKPLSGP
+NCTIFDVLDATEYVVPALEILDSRIEMEGRTIVDTIADNAAMGAMVVGGRPVKVDDVDLR
+WISALLYKNQTIEETGVAAGVLNHPAAGVYWLANKIAAHGASLGAGEIILAGSFTRPMWV
+HKGDTVHADYGQLGSVTCRFE
+>tr|A0A0P7GED6|A0A0P7GED6_9MICC
+MTDVTVVGSGPNGLAAAVTMARAGLSVRVLEAAPTAGGGSRTSELMRPGYRHDVCSAVHP
+MGLASPFFRDFGLADRIRMEVPEASYAQPLDGGQAAVAYRSLERTIQDLGPDGNAYKRLM
+GPLVRHSEAITRTLMDPLLKVPREPRSALRFGLAALDQGTAAWNRRFSGEAAPALLTGVM
+AHPVGQLPSLPSAGGGLLLALLAHTVGWPVPVGGSQAIADAMVEDLLAHGGELESGVRVD
+SLAEVSGSRAVILDTAPAGLLRMAGGRLPARYEKTLRQFRYGNAACKVDFILSGPVPWKN
+PAVAAAGTVHLGGTRTETAAAEAEVAAGRHPGEPYVLLSQPSSFDSTRAPAGHHILWTYC
+HVPAGSNRDMAGEITAQIERFAPGFRDVVLETRTTTAQGLAAYNENYVGGDFGAGAVTLG
+QMLRRPVLSPSPWQTPLPGVYLCSASTPPGPGVHGMGGYHAARLALKDVFGLPVPALGPA
+AGSS
+>tr|A0A0P7GTK5|A0A0P7GTK5_9MICC
+MSAAFRPLTLGVIAIVTCVAFEAMAVTTAMPVIGADLGAGAGYGLAFSMFLTASLLGSVL
+AGSRCDVEGPRRSLITGMALLIAGLVLSAAAGEFWLVTAGRAVSGLGSGAMVVALYVIIG
+QVYPSKLQPVIFGWVATAWILPSMVGPLAAGLLAQYASWRWVFAVAIPIVLIAAALVWPR
+VRHLGPPDSPDLDRALGRRRAVWGVFLAGGVFAAQWAGNEAAAAGSVFLGVLTAAGVLAA
+VAALAVLLPRGTLWLRRGLPSVVATRGLINAAFVAAEAFMPVMLLAVYGVSPATAGIALT
+AGAVGWAIGSFLQARVPGDRRHLLLAGGSGLLTLSIGGTGLMAGAQAPFWLLVAVWSLAG
+VAMGAALSSTSVLVLDASSAADRGQNSASLQLADQVGAVAGTTVGGVLLAVLVQREPVGQ
+ESGYALMWLALAAFAVIGTAAGIRSASVRPSTGKVHSQA
+>tr|A0A0P7GJQ4|A0A0P7GJQ4_9MICC
+MGAQIRVYRQKIASTTSMQKIFKAMELIAASRIGKARTRVAAALPYSNAITRAVSAVASQ
+SEIDHPLTTEPEQIRRAAVVIMTSDRGLAGSYSAGVLKQSESLNELLREEGKEVKTYLVG
+RKAQAYYDFRDRAYERVWTGGTDAPEFETAREIGKTLLDDFNTAYEDGGVDEIHIVFTRF
+KSMVVQEPAVIRLLPLEVVEEEAPSESDILPLYEYEPEPEQVLDALLPRYIESRIFAAML
+QAAASELAARQRAMKSAGDNASDLIKKYTRLRNNARQAEITQELSEIVAGADALSAS
+>tr|A0A0P7GNH3|A0A0P7GNH3_9MICC
+MLGALAALPAVTTDMYLPALPEVASDLATTTTAAQFTLSGTLLGTAVGQLVIGPLSDRFG
+RRLPLLIGISMHVVTSLLCAIAPNIGLLIGLRIMQGFFNAAASVVAIAVIRDRFTGSDAA
+RLLSRLMLMIGLAPLLAPTLGQAVEGIWAWRAVFYALALIGVILVVIVWRWMPETLPPER
+RLAKAKKGTPKSGKPGGYRILLRDRRFLAFAVIPGLSMGIIMSYVVGSPFVMQEEYGLSP
+ATFALIFAVNGVAMVVSSQVNASLLNRFPSAGILRIAAPVLLLLAVILPIIIATGFGGVI
+GLVAGLWVVLGMLGFIFSNATSLALDGYGHMAGTAAALLGCLQVGLAGLISPLVGVFGGS
+ALSMAGVIIGCALAINLVLATTPAYRRGGRRLQGSAATAAPRETESGEPADTV
+>tr|A0A0P7HK35|A0A0P7HK35_9MICC
+MSTAGAGEASALPGLTVLVAGASSASGTAVCTALAAAGARVVAVGSSAGRLAESLENVPG
+VELRTCDLSRQGDVDALASDLQAEGGIDGLIHLVGGWRGGGTLTDQSDADWDFLQQNILT
+TLRNVSRSFIGQLTASPHGRLAIVSSTAVETPTSGNAGYAAAKAAAEAWVQAIASDLSGT
+GAAAVIFVVKALVDDAMRAAAPERRFPGYTDVSELAAAAVRLFTTDAAQINGKRINLVPR
+T
+>tr|A0A0P7FTX0|A0A0P7FTX0_9MICC
+MAELLRTSGRTVVKLDPSVQPADVTALADAGLTAYHAVRRAVPLLRPGSEAVVIGAGGLG
+HIGVQAIKALTGAHITVVDTSDQALALAKELGADATVNPNDLHPAARAVGEPPADAVVLA
+VLDITCGGAHVVFDFVGEHGTEITGPAMLRNRGSYYAVGYGGTVMLPTIDLISREISVVG
+NLVGTYRDLVELMTLNSLGQITLTTSSYDLLDAVQALHDLDAGKLTGRAILVPGLE
+>tr|A0A0P7GSJ1|A0A0P7GSJ1_9MICC
+MLAGLISAYALSQSGTGQAQEPQTPVSTAAALEETRARIDVLGDSYVAGSDEGGKGLSNW
+TSLTGTRFYEDGNPVELNPVAQPGSGYITRGATGLVFGEAANQFLSPEADVVLVFGSRND
+GRQSDAAMYEAARSLYMDLQTLAPKAEIIVVGPVWVDANVPSSISANNQAIARAAADAKV
+RYVDALAEGWFAGSDSTLIGTDGVHPTNAGHAYLADKIYPILAETVAGLAR
+>tr|A0A0P7GU59|A0A0P7GU59_9MICC
+MPVFSGNVPGTSSRSQAQPDPDAASGFPSPSRDYFDGRIDLNRHLIRDVTSTYVVRVSGD
+SMSGTGISDGDELIVDRSLTPRDGSVVVAVLDGELTVRRLRLTGRGIVLSAENPGYADVN
+VPDPAALTIWGVVTRCLHHV
+>tr|A0A0P7HGA7|A0A0P7HGA7_9MICC
+MAITPDTKNWTWVLDRTCPECGFTASETNFEDIPRMLRANADAWQDVLERTDAAQRPDES
+TWSPLEYAAHVRDLCEVYRMRLLLMVDTDGAEFADWDQDATAVAERYGEQDPARVAADLA
+DEAEATAAAFAAVEPQDRSRRGSRSDGSTFTVESLARYFMHDAAHHLWDVRIR
+>tr|A0A0P7HHM4|A0A0P7HHM4_9MICC
+MAGLIKREDIDEVRSRTDIKAVVDGYVTLKSAGIGSFKGLCPFHDERSPSFHVRPQVGTY
+HCFGCGESGDVISFVQKMDHGTFSETVEKLAARLGYELHYEDGGTGPRREDVGKRQRLLD
+AHKVAAEFFREQLVTPGAAAARGFLAERGFDPAAAEHFGVGYAPQGWDSLLKHLTGRGFT
+RDELAQTGMFSTGQDASRFYDRFRGRLIWPIRDLTGAVIGFGARKLYEDDQGPKYLNTPE
+TPLYKKSQVLYGIDLAKRSIAKDRQLVVVEGYTDVMACHLAGITTAVATCGTAFGTDHIK
+IARRLLSDDGTGGEVIFTFDGDAAGQKAALRAFEEDQRFNAQTFVAVDPNGMDPCDIRQQ
+KGDAAVAELIRSRRPLFEFAIRSTLAKFDLNTVEGRISALRAAAPVVAEIRDSAMRPAYA
+RELAGWLGSEVDDVLRAVNAAAKRQRESRDPNSQHNQHNQRSQHGGQETARDRSTHTPPA
+EDPAHQAFTRPDPNDPAARMERQALEVVLQQPGLLDAGQWERFKAARFTVPAYVAVHNAV
+RAAGDVPGSAAAWVEQVRQELPDALRGFVSELAVTPIPARDADALALYCRDILNRLFELQ
+VTHLKAEKLGQLQRLDPNADPALFQQLNRELMELEMQRRALREMQ
+>tr|A0A0P7FZJ1|A0A0P7FZJ1_9MICC
+MGVAVLVLIASYAVFVPMLAGTDEKLTDFSSARLPPSAAHPFGTDHAGRDLFIRLASGLR
+VSLLIAVLCALASMGLGMLIGAVSAALGGRTDRIVMRVVDGINAVPHLLLGVVIVAMFRG
+SVTAIIASIALTHWTQVARIVRAEVLSLRSREYVEAAYLLGSTRREVLRRHFLPGTLAQG
+VVATVMLLPHAIWHESTLSFLGLGLSPDQASLGTLLKEAQSEVMLGGWWALVFPALLLLV
+TTLAVAACGKGLLSRTEGRQ
+>tr|A0A0P7FHP3|A0A0P7FHP3_9MICC
+MRALSKRGLGVVGFEAHSDVGGLWNISNPSSTVYESAHLISSRTTTEFAEFPMPEGTPDY
+PGHRHLLEYFRAYAGHFGLTGRIRFGTRVTAAFQTDDGGWELAWEGPEGVGSGRFSAVVV
+ASGTLHTPYLPAFRGEFSGEIRHSAQYKEAVELAGKRVLVVGAGNSGCDIAVDAVHHAAA
+VDISVRRGYYFVPKYVFGRPTDTLNQGKPLPRPLKQFLDKRLLRMFTGDPARFGFPKPDY
+RIYESHPVVNSLVLHHLGHGDLSVKPDIDRLEGSTVHFRDGTSGEYDLLLCATGYVLSYP
+FLAPDLLGWTGASPQLYLNIFSRQAENLMVVGMVEASGLGWEGRYRQAELVAAYLAAKQE
+KAEVAAAFDAAVSGPSPDVTGGYRYLGLDRMSYYVNKDAYRAELEAHLDTLAAPAGASVP
+APAEVNR
+>tr|A0A0N8HX57|A0A0N8HX57_9MICC
+MQKTASGPPVAEAVEFSGHRRGSPGYRGVLVGLAAAGMATFAQLYSVQGLLPQLAGDFGV
+SAATAALSVSAATLGLAVAVIPWSAAADRFGRLPVMRTAIIAAVILGLLVPLATDFSVLL
+ALRFAEGAALGGIPAVALAYLSEEVSPAHAAVAAGTYVSGTTVGGLAGRILAAPLGEYSN
+WRIGVAAVSLLAAVAAVVFMLSAPKQRGYVPQRRADGGASLAARLAGNLRSGRQLVLYAQ
+AFLLMGGFVAVYNYLGFRLELAPFNLPQSLASSLFLAYLAGTWSSRIAGRAAGRVPGGRR
+TVLLAGTGVMAAGLALTLLQSLPAVIIGLVVFTGGFFGAHAVASGWVPVMAAGGRAQASS
+LYNLAYYAGSSLLGWLAGFFFQGAGWPGLAGFVLVLLAAAAGLAATLPGLRQQGNTGTGR
+RLEP
+>tr|A0A0P7GJ26|A0A0P7GJ26_9MICC
+MSETIAASDQFVQSLARGLAVIRAFDAEHVQMTLSDVSRRTGLTRATARRFLLTLVELGY
+VRTDGRSFELTALVLQLGYSYLAGQSLPQLAQPLLEDLSREIHESTSASILDGNEIVYVA
+RIHTRRLMTVGITVGTRFPAYATSMGRVLLAGLDAEALNAYFAAVELTPLTERTITTESG
+LRAEVRKVRDQGWAVVDQELERGLRSVAVPIFSPGGEVIAALNTSMQATLGLDGPTLEEA
+AAQVLPHLQEASRKITQALAARS
+>tr|A0A0P7FG54|A0A0P7FG54_9MICC
+MTHRQVLESLSGLLLGMFVSILAGTVVSTSLPLIISDLDGDQSAYTWVVTGTLLATTVST
+PLWGKFADLFNRKLLIQLALGIFVLGSALAGFSQDTGTLIVFRVLQGLGAGGLAALSQII
+MADIISPRDRGKYAGLFGAVMAVGTVGGPLLGGVVTDAFGWRWNFFIALPVAIAAIILLQ
+LTLHLPKHAKRKVHIDYLGAVLIAGGVSLLMIWVTLAGNQFGWASLASFLMVAGSALLLI
+AAVIVEFKSPEPIIPLSMFKNRTFTLAVVASISVGVSMFGTSVFLAQYMQLARGATPTES
+GLLTIPMMAGLLIASTLFGGVISRTGKWKAIMVSGGVLTVLGTILLGTLTYETNLVLVGV
+YMAVLGAGLGMLMQNLVLVVQNSIEVKNLGVATSAVTFFRSLGGTVGVSVLGSVLGTIVS
+SHIKDGISALAPADQAAAAVALGSGTIPKISELPAAIAALVESAYGVGVGHVFMYSVPLA
+VVTLIAVIFLPNAKLGRQNAVQLKKAAAAKATAGGPAAAEVESAEHALSAAATGSVGLVD
+PSSPAGQPGGEHAGK
+>tr|A0A0P7G621|A0A0P7G621_9MICC
+MAQDRPAPGRVLEDLVLAVTAAGLGALLLWAGTQLGADPRGLWPWAPGSALSLPDLQTCA
+GLGASFLGLLVLLWWAAGLAAGFIAAILWRSGNPGAARAVGRLSPAFLRRLAAAALGLQL
+VAVPLPALAGGTENTTSIGAVASSPVDPVWRPSAAGADAATRSSPAADPTWQPSGQLNGS
+LLIPRAPRPAQTAETVTVAAGDTLWALAAAQLGPSAAEAEISRHWPRWYHLNRSVIGPDP
+NVIIPGQVLAVPPPPADY
+>tr|A0A0P7FHJ5|A0A0P7FHJ5_9MICC
+MDRHGWQNWARTVRVRPFQVHAPASVADLQRAVADAAAAGLRVKAVGAGHSFTAIAEAPE
+VLLDLSRLQGLLRADPATGQATFLAGTRLHAVPGLLAPYGLAMANLGDIDRQSIAGAIST
+GTHGTGAGYGGLSAQVAGLVLIQPDGGRLTLDSGDPLLAAAALGLGALGVIAEVTLQCVP
+AFLLRAEERSEPLETVLADLADRVKAADHFEFYWFPHTGRAATKTNTRLPWTSTRAPLPP
+LRRWVDESLLSNTVFRATCAAGTVIPALVPAVNRAAAAALGGREYTDESPRVFTQRRTVR
+FREMEYSVPAGSLERAFGALQEVLAENPGWRVSFPVEVRWAPADDRWLSTAYGRDCAYIA
+VHRYYREDPADYFAAVEQVMLAHGGRPHWGKEHSLEADTLAERYPRFADFQAVRNQLDPD
+RVFTNAYLDRVLGA
+>tr|A0A0P7HKK3|A0A0P7HKK3_9MICC
+MNANATFDGDSEEYVPAGEDQIDERLAALDDDEANLRAETLRAGLSDYELDEEDAALLAG
+GYDEYDADAPLRLDPVVAIVGRPNVGKSTLVNRILGRREAVVEDTPGVTRDRVSYPATWN
+GVNFTLVDTGGWEHDARGIHARVADQAEIAVDVADAVMLVVDATVGITATDEAVVRMLRS
+KGKPVIVVANKVDDIQNEADASVLWGLGFGEPYPVSALHGRGTADMLDAVLDVLPEYSAY
+GGLESSGGPRRIALIGRPNVGKSSLLNKLAGTDRVVVDDLAGTTRDPVDELIELGGRTWR
+FVDTAGIRRRQHMAQGADFYASLRTQAALEKAEVAVVLLAVDEVLSEQDVRILQLAIDSG
+RALVLAFNKWDLLDDERRRYLQTEIERDLAHVEWAPSVNISAKTGWHKDKLVPALDLALE
+NWDKRIPTGKLNAFLGELVAAHPHPVRGGKQPRILFGTQASSRPPKFVLFTTGFLDPGYR
+RFITRRLRETFGFEGTPIEVSMRVREKRGKTSRR
+>tr|A0A0P7HJI9|A0A0P7HJI9_9MICC
+MSTTTESWLVGLIGDGITASLTPPMHEREALENGLRYMYRPVDLSVNGRSGTEVGDLLRY
+GRDLGFNAFNITHPCKQLVMEHLDEVSDDAARLGAVNTVLVTDSGFIGHNTDHSGFGRAL
+SAGLPGAALEKVVQLGAGGAGAAVAYALLKAGVGTLTLVDLDPGRVRERVQALSALFPDA
+SVTAGTGADLPGLLAAADGFVQATPVGMHSHPGMPVEAGLLRPEMWVADVIYRPVRTQLI
+DTAEALGCRVLDGGYMAVGQAVDAFELITGIRPDSARMRAHFLEMVNSGL
+>tr|A0A0P7GSH4|A0A0P7GSH4_9MICC
+MAAGLVGRDAVLEQVESALAGGRGALIVGPAGIGKTALARALVEGARGYYVETLYGTEVS
+RRSPYGALAPLLSELPLSGTLKPMHALQQIHTLLRRKAGTAPLLIVVDDADDLDEFSVLV
+ISQLARRGDAAVVATATDLLRADPEVLSLWADGFIQRIDVEPLTPAQSRSLMERILGGPV
+SERAGREMWQETHGNPHFTMLMTKEQVNRGRLILSDRTWVRARSFVHSGMVAEVLAARLA
+KLPADQRKLIEVVSRISPLPLELGLGLTAPETLDALEEDGTVEFEPGPVPSIRLGNGLGA
+SVIAANIPLGRSHQLWNEVSALLEDTDVLAPPALAGFVAWTLACGADPGPERILRAAQYA
+NDSGTPSDALGFVRSVESAVRGQELVCEEVRALSALGEYQDAYAVLTQFEPGFDPNQRES
+WMNLMLHKAALLRSLPKLGDAQAVLDSAGARGDSTEAAAAVELARAELLMAEGDYALAVG
+PLRELAGRAGVSDRVRALASSAAAEALAVTGHAADALALIGEAQRFLQTPLPAPDQSVIV
+TRLFYALFAAGELNQAVRFVHENIDGAGNSYRGSAGELVGGVIRAAAGEADAAIEALVPA
+VAQLRFCDPEDLLPLATALLSYAYGMRGDPAQAASYRFLAPRLRHRPYWHAERVTTFFHT
+LSLPEEMAGAVCRRLIRMGEEAESRGNVSMAMACYEAAASRGDLAAAAELARISSTATGR
+WAEALSTYGRGLLSNDPHLLLTAARGAAELGHQFLSYRAAGLVRTNVPAPGGSLARRAAA
+VENAAYRKLRRENSLEHILGSLTDFEARLVDMAAGTWSRTRIAEELHLSPRTVDWHLSKL
+FRKLRVTGRTELREVLLSAG
+>tr|A0A0P7GJG5|A0A0P7GJG5_9MICC
+MVNPIHLKTLLEVIRCGSFAAAAVHLGYTASAVSQQMSALERETGTTLFERSARAAVPTE
+AAVVMSRHAAKVLTDMDALLAAAARAEAGTGHELRLGIFPSLATFALPRLVNSPDWKDLG
+IDLKIFVAEPGQTIQGLRAGGELDVALVFQVGQGGLAWPATVSRQWLGDDNFRVVLPERW
+GIRPGAKVSAEQLSDMPWIMHHPGTPDALVIERLFASCSLHPRVAAYCDDFNASLEMASA
+GIGAALVPELAMLNHSQGVVVLDVPEIRLARSIFALLINERQGPRTRVFLDRLAEVLEGI
+SISPGSSRR
+>tr|A0A0P7HN23|A0A0P7HN23_9MICC
+MSNAVRPALTARRPGGPGTRRRPAGYAALAAAVAVMILPLVWMMLASFKEPDEIYTVPIQ
+WLPAGWDLSNYAAALERVPFGAFFANSLLVTVIGAGLKILLGLTTAYALVFLDVPFKKVF
+FAVVIFALLVPQQIVIIPNYTLVAELGWLNTYQGIILPGLASAFGTFLFRQHFLSLPQSV
+MEAAVLDGAGHLRRLFQFVVPMSAPTIAAVALVSVVNEWNEYLWPLLVVDRAEMMTLPVG
+LTLLQNNDGVTNWGVLMAGTVLITVPVLALFFVLQRRIVSGLTAGAVTG
+>tr|A0A0P7G3N7|A0A0P7G3N7_9MICC
+MRTAAGLPDLGEQAAATVLARLQASTRPVLGVATGSSPLPLYQALARRRAELPPLRAFAL
+DEYLGLPAGHPQSYREVVRREVTAPLGLDPAEVFVPDGGTNNPDRAAAAYEDTIRAAGGI
+DVQVLGIGSNGHLAFNEPGSPLDSRTRVVDLDASTRQANARFFASPEEVPYRALTQGLGT
+ILEAKALVLMAAGESKAEAVERALYGPVTPELPASVLQLHPDVTVLLAEGANKLLPREAG
+ANLK
+>tr|A0A0P7H8C7|A0A0P7H8C7_9MICC
+MDAVSRLDFLAEFNQASFDRAEEMLRPCVDLPRWTSEISFARPFGTGAELVSFAELAAPD
+WTETEIDAALSHHPRIGERASGAGREVELSRGEQAGIALSAGIREQLVEGNRRYEERFGR
+VFLIRAAGRSAEEILAVLSERLENTDEAELAATAAALREIAILRLEGLLNA
+>tr|A0A0P7GCE3|A0A0P7GCE3_9MICC
+MILSGCGGGSGLAGDPTETPAGQTDLQPAGNKKDRGPKKPRPDEPQAARNIILMVGDGMG
+TAQRNAIRLSHVGLTGELVMDSLPELGLVHTNSADPETFVTDSAAAATTMSTGVKTYNGA
+IGVDLNGLPVPTALEIAAALGKSTGLVTTAQVTDATPAAFGAHVADRGAQSEIARQFLES
+SRPDLILGGGEDHWYPAGNPGMHPDNPPEDPSEESTGTVNLVEQAQADGYEYVWDEGGLL
+QAQGPKVLGLFANEEMFQYGDDVEEIYEPTVPLTTMTQKALELLSTSAPQARHGGGHGGG
+HGGGGGHGGGGGTEGEGFFLLVEDEGIDSMSHVNDAELTIKSGIAFEQSVAVARDFAEAD
+GNTLLIVVGDHQTGGMTIEAFNDDQDESGDGISAEDGPLPVANSDQVFSVDWTTDGHTAL
+DVPLTAMGPGSERLGGFYEDTHIFDVMVEQMRTGAKRSALDLQSHRGGRGEYTEESLAAF
+RHSLQLGVSTLELDTHLSEDGAVVVWHDDVILATKCRDTEPAGANDPDFPYVGDRVAELT
+LAQLKTLDCGFAQLPGYPEQQVVEGNRIAELRDVFALAKELRARNVGFNIETKVEDGRAG
+GPGMEALTRAVVNEVRRSGMSDRVTIQSFDWSALNLVGRLAPRLPRVALVAAPGTLEIGQ
+PGAAPILGGIDIDDYDGSAVMAAAAQGYDVISPIYTSVTRQMVAEARDAGLKIVPWTVNE
+PAVMNYLIDLGVDGIITDYPTRLRLVMEQRGIPLPRAYGRS
+>tr|A0A0P7GI87|A0A0P7GI87_9MICC
+MTSVNLGMPAAPPPVLAPRRKTRQIKVGSVGVGSDFPISVQSMTTTPTTDINATLQQIAE
+LTASGCDIVRVACPSADDAAALPIIAKKSQIPVIADIHFQPKYVYAAIEAGCAAVRVNPG
+NIRKFDDQVKQIAKEAKDAGVSIRIGVNAGSLDPRLLAKYGKATPEALVESAVWEASLFE
+EHDFHDFKISVKHNDPVVMVRAYELLAERGDWPLHLGVTEAGPAFQGTIKSATAFGALLS
+KGIGDTIRVSLSAPPVEEIKVGNQILQSLNLRPRKLEIVSCPSCGRAQVDVYTLAEQVTA
+GLEGMEVPLRVAVMGCVVNGPGEAREADLGVASGNGKGQIFVKGEVIKTVPEDQIVETLI
+EEAMRIAEDMGEADGEDAGTGGPMVTVG
+>tr|A0A0P7GCP7|A0A0P7GCP7_9MICC
+MTAQTSGKSASELSADEPDAAPLPVLDAPREGVPLVIDSVSGLGRAARALAAGTGPAGID
+AERASGFRYGQRAFLVQIRREGAGTWLIDPEPLRDLSIINEALQGVEWILHASTQDLPCL
+SELGMWPDKLFDTELAARLAGLPRVGLAAVIENLLGFSLAKEHSAADWSTRPLPEPWLRY
+AALDVEVLAELRVELIKLLEADGKLAYAEEEFEAIRTADPAPPRTDPWRRTSGMHQLRDR
+RQLAAVRELWQEREQLAERRDTAPGRLIPDAAIVAAARAMPSTVPQLLSTPGFHGRAAHK
+EAPRWLRCIAAARETQDLPPLHIPTNSPPPPRVWARNDPAAAARLHTAKPRLAALAERLN
+MPVENLLTPDHLRRVAWRPPAVIDLDTITAALRGLGAREWQIQQTAAVLTVAFLDPDPLP
+EKETEKD
+>tr|A0A0N8HXZ9|A0A0N8HXZ9_9MICC
+MKVVIAGAGSVGSSIAKELLSHGHDVLLIDEKPGTEGRSELDGASWLIGDACELSTLKDA
+KLDLADVVVSATGDDKVNLVVSLLAKTEFGVARTVGRVNNPKNDWMFDDSWGVDVAVNTP
+RLMTALVEEAVEVGDLVRLLTLQTGVSSMVEFTVPGASPMVGARVGSVPWPQDSTLVAIL
+RDDAPITPSADDVVEGGDELFFVTTIAAEDELRDLLAPKD
+>tr|A0A0P7GID3|A0A0P7GID3_9MICC
+MKIGILTSGGDCPGLNAVIRGAVLNGIKTHGVEFVGFLDGWRGVVDGDIIDLPRARVRGI
+SKQGGTILGTSRTNPFEGPNGGPENIRKTLDRLGIDAVIAIGGEGTLAAAQRLTDAGLKI
+VGVPKTVDNDLDATDFTFGFDTAVQIATEAIDRLRTTGESHHRCMVAEVMGRHVGWIALH
+SGMASGAHAILIPEKPVSLDQIAQWVNEARERGRAPLVVVAEGFVTTDMEAPHSERGLDS
+FGRPRLGGIGELLAPEIEARTGIETRATVLGHIQRGGVPTAFDRVLATRLGMAAVDSVVD
+GLWGTMVSLDGTDIVRVGFEKALGNLKTVPQHRYEEAAILFG
+>tr|A0A0P7HFW8|A0A0P7HFW8_9MICC
+MPESPCWVGIVIPVPEPMASELRRARASFGDPMASVIPAHITLVTTTPAPDWDSALQHVR
+EVTSAQAPFTVTLRGAASFRPVTPVVYVQVEDGFSECAQLHEQLQSGPLDHQIPYPYHPH
+VTVAHDVSEASMDNAVDTLRDYQASFTVDRIGVFEHDPHGLWVLREEMALKG
+>tr|A0A0P7GCS8|A0A0P7GCS8_9MICC
+MVPLDTEYNARHLSVLEGLEAVRKRPGMYIGSTDSRGLMHCLWEIIDNSVDEALAGYGQS
+IRIILHADNSVEIHDDGRGIPVDIEPKTGLSGVEVVFTKLHAGGKFGGGSYAASGGLHGV
+GASVVNALSSRLDVQVDRAGKTYQMNFRRGEPGVFADSGSKPSPDAKFTPFLESSKLEVV
+GKAKRGVTGTRIRYWADRQIFTPDAKFSYAELEARARQTSFLVPGLRITLRDERRLPGTP
+GEDGPVEEVFHHDGGISEFVEFLAADAPVTDIWRLHGAGKFKESVPVLDERGHSKITEVE
+RECEVDIALRWGIGYETSIRSFVNIIATPKGGTHQAGFEQALLKTFRKVIEANSRKLKAG
+NDKIEKDDVFAGLTAVLTVRLAEPQFEGQTKEILGTSAVRAIVAKVVEKEITARLNSTAR
+GDKAQTALLLEKVVSEMKSRISARVHKETQRRKNALETSSMPVKLADCRIDDNERSELFI
+VEGDSALGTAKLARSSDFQALLPIRGKILNVQKASVSDMLSNAECAALIQVVGAGSGRSF
+QLDAARYGKVIFMTDADVDGAHIRTLLLTLFFRYMRPLVEAGRVYAAVPPLHRVEVINHG
+SKANEMVYTYSEKELHQLLDRLEKEGKRYKEPIQRYKGLGEMDADQLAETTMDPRHRTLR
+RIRLSEAEEAERHVDESTFELLMGSDVAPRKEFIIAGAAMLDRDRIDA
+>tr|A0A0P7FHF3|A0A0P7FHF3_9MICC
+MSASPVRLLTMLYDRMLLDLNRAEAAQQAGNWNAASEQLIHAQSIVAELSGTLKVDEWEG
+GENLQAMYGYVMKAMVEANLQHSAAMTRECINLLEPLRAAWHEAAAQLPAQAPAAGPTGT
+GGTLGVG
+>tr|A0A0P7GHC8|A0A0P7GHC8_9MICC
+MAVTDEAITKIKAMLISGELKAGDRIPPEKDLSERLGLSRSSLREAVKALELARVLDVRR
+GDGTYVTSLEPAILMETMSFVVDLHQERAAAELLEVRRILEPGSASLAARRITGDAAKEL
+QGCVASVEENSSVEELIAHDLAFHALVAKASGNAYLHGLLEGLSASTLRGHIWTGLMQDK
+AVSATLAEHAAIAAAIAAGDPDLARALMTVHVSGVESRIRAAA
+>tr|A0A0P7G4K3|A0A0P7G4K3_9MICC
+MKALQYRSIGAAPEVVEIDTPEPGPGQVRLKVTAAGVCHSDEYIMSLPEGEYVYGLPLTL
+GHEGAGIVDKIGEGVKYIEEGQSMAVYGPWGCGLCYECSSGRENYCRNAAKFGIAPPGLG
+APGSMAEYMIVDSARHLLPLGDLDPVKNVSLTDAGLTPYHGIKGSLEKLHSGATAVVIGV
+GGLGHVAIQILRALTSATVVALDIDEAKLNLASDVGAQYTFPSEAGAATMISDLTNGLGV
+DAVFDFVANQATLDLGQAMVRHQGDHVLLGAGAGTLKMGLVSGAAWDVSVRSPYWGSRTE
+LFEVLDLARGGHINVHTEVFSLDDAPAAYEKLKNNQLLGRAVVVP
+>tr|A0A0P7G7T3|A0A0P7G7T3_9MICC
+MASGTFISNDYRDSAGEVQELINPATGEVSGILTSSTVSDVDSAVAAARDAAAGWAAQTP
+GQRARVLLKLADALEEDAEALTEREVTEGGKPWTTVLDGEIPFGADNLRFFAGAARSVDG
+TGAGMFSDGYTSMMVRRPVGVVAGITPWNFPLIMALWKAGPALAAGNTVILKPAPLTPGS
+TLRLAELAAGAGLPAGVLNVVTGGGDIGSALASHRGVDMVSVTGSTATGRAVMQGAVKDV
+KRVHLELGGKAPALVFADADIPQMARAVALGATYNTGQDCTAATRVYIHRSIFDDAVAAL
+RAELKGINIGDPHDPATHIGPLISAAHREKVAGFVQRAVDSGAQALEGGSPLEGPGFYFP
+PTLVVGAAQSSELVQGEIFGPVLVALPFDTEDDAVALANDSAYGLASSVWTADVGRAIRV
+SHQLEVGVTWINDHLPLASEAPHGGVKGSGFGKDMSIEPLLDYSVTRHLMIRHAVPPETT
+GYRPA
+>tr|A0A0P7GJL4|A0A0P7GJL4_9MICC
+MLIGTRGSALAVTQTTTVANTLAELGGFDVDLVRVRTEGDVNRAALSQIGGTGVFVAALR
+ESLLAGDCDVAVHSLKDLPTAEADGLTIGAIPARVDVRDALCARDSLTLAQLPAGAKVGT
+GSPRRAAQLRAARPDLEIVDIRGNVDTRLARVAGLVDGGPGDLDAVVLAAAGLSRLGRLD
+MVSEFLDPAVMLPAPGQGALAVECRTSDAAEGPLSRALAAYDDTASRLAVTAERALLQRL
+EAGCTAPIGALARVTEQGLALEAVVCSDDGTRILRRYSSTMQVDEDGARALGIRMAEDLL
+AAGAADLTELAS
+>tr|A0A0P7GJE2|A0A0P7GJE2_9MICC
+MSNQPAGKSTRLPREERRRQLMRAAQEVFVSRGFHGAAMDEIADTAQVSKPVLYQHFPGK
+RELYLALLDDHLGTLTQFLQTALTSTTDNKLRVRETMRAYFRFVAQDSQGHRLVFESDLT
+SDDEVSSRIEAFNARFASDIADVIAEDTKLSHLEATLLGRALAGMAQVSARYWLETDGDL
+DIDAASELVYRLAWRGISRFPKEI
+>tr|A0A0P7HEU4|A0A0P7HEU4_9MICC
+MIVDLPDTTTSKVSKKIVGMRDKGGVVALGRVLTLVVVTEPDYVEEAIEAANDASREHPC
+RVIVLAAGSPDEPSRLDAQIRVGGDAGASDVILLYGYGELAAESESLVSALLLPDAPIVV
+WWPHGLPHSAASTPLGRIAHRRITDAANEPDPKQALLDLSKTYADGDTDLSWTRLTHWRI
+QLAAVLEQNGADGIQSIVVEGASDSASTFLLAAWLKHALKVPVEIIEDPAGAGIRRVRIE
+RDGGALELRRPEGSTAYLTQPGQPEQRIALPLRGLHECLAEELRRLDPDEVFGEVLTQGL
+AACLAPEGTTA
+>tr|A0A0P7HLR1|A0A0P7HLR1_9MICC
+MTDETYKLIALIIYMIAMLGIGWWAYRRTSNLDDYMLAGRGLKPGVAALSAGASDMSGWL
+LMGLPGAIYLSGLTEAWIAVGLTVGAWLNWKFVAPRLRSYTLVANNSITVPSFFENRLKD
+RTRVLRVVSGIIILVFFTFYVSSGMVAGGVFFESSFGSSYTTGMLIVGGVTIAYTLFGGF
+LGASYTDVVQGLMMLLALIAVPVVGIFLVGGPSGMAESLREIDPAMLNPVAGTTALAVIS
+ALAWGLGYFGQPHIIVRFMALRSPSDAVAGRRIGVGWMLLSVIGAVFTALVGAAYFQQNN
+LTLSDPEAVFLSMAQALFHPIVAGFVLAAVLAAIMSTISSQLIVTSSALVEDLYKIVVKK
+DASQRVLVMLGRGAVLVVSVVSIFLALDRSNSILDLVGFAWAGFGAAFGPTILLCLFWRR
+LTTAGALAGMAAGAVTAFVWGSSELSSTLYEIIPGFAVNLILAVVVSLLTRAPAGLDSDF
+DEAREIARRGAEEPEAVPAR
+>tr|A0A0P7G7V2|A0A0P7G7V2_9MICC
+MTEPEPGDTRLQQVVDGIVRIAAGDLSTRIRTSPRRDDVDAVITGINLLAEELNSVYQEF
+EDRVETRTRELEAAHRQMQRMAMSDALTGTANRTALMHELAVALLAADGGDKRPAVLMID
+LDEFKDINDSFGHQTGDQVLVEVARRIRWAVRRGDTVARLGGDEFAVLLPETGLTTAMSV
+AARIQEALGECIRVEEIDVWPHASIGVHAALPGESAEDIMVRADTAMYSAKDSGRSQSKA
+FEPVMLYSRQLRRDMAAELREGVGRSELFLDYQPVVELATGRMTGVEALVRWRHPERGLI
+MPDDFIPIAEETGIILDMGRWVLRAALEQLARWEDELVLDEDFKVRVNLSAMELQRLDLI
+DHVRQTLAETRIAPSRLVIEITESAFVSGGDVEMYSLKSLNALGVGIEIDDFGTGYSSIS
+YLRRLPVHTVKVDRSLIRDISADPGQRRFVDAVHGLIQAAGMEAVFEGIETLDQAADLLV
+LGCRNGQGYYFSRPLTGQQVAAIITAGTTLPLVDSAIAAGE
+>tr|A0A0N8HZ08|A0A0N8HZ08_9MICC
+MPDEQDVTAVGASAHGRHIPPASLARLTVYLRVLGTMLTEGVERVSSEELAEAAGVNSPK
+LRKDLSYLGSYGTRGVGYDVPYLSGQISAALGLTLDWRVAIVGAGHLGRALAGYPGFGTR
+GFEVVALFDADPMTVGQEIGWLRISPVNSLERVLETTRANMAVLAVPAEAAQQMCDRLVK
+AGITSILSFAPVVLQAPPEVQIRKVDMATELQILAYHAQRAQVAALATDAQARLMR
+>tr|A0A0P7G4U8|A0A0P7G4U8_9MICC
+MTTERTRNLLILNGPNLNLLGTREPAVYGTDTLEDVEETAVAAAESHGWTADCIQSNHEG
+DLIDAIHGAPGLADAIIINPAAYSHTSVAIRDALSGVGLPVVEVHLSNIHKREEFRHHSY
+VSAVADVVICGAGVAGYRMAVDYLASTLDAKAGSGAATR
+>tr|A0A0P7HGI9|A0A0P7HGI9_9MICC
+MSTSTALPPRPDAPAVPAAPAARPSRRRFGAWFKDTGWRHLVGLVMTAFALLPLAYVLSA
+ALSPTGTLVASSGLFRDIGFANFQALFTDPQKPFGRWFLNTLVIGLITSAATVFLGALAA
+YCFSRMRFTGRRMGLLSLLLLQMFPQMLGVVAIFLLLSGISDVVPWLGLGSQIGLIMVYL
+GGALGVNTYLMYGFFNTVPKTLDEAARIDGAGHFQIFFTIILRLVTPILAIVGLLTFITT
+TGEFMIASIVLNDPDSQTLAVGLYSFVGDNQSRTWGVFSAGAVLAAVPVMALFLFLQRYI
+ASGLVAGAVKG
+>tr|A0A0P7GHK3|A0A0P7GHK3_9MICC
+MEMPHFDSGALPPRPVRRGNAFEETVERVLENLKLGIYAAGTRLPPERELAAQLGVSRAT
+LREALAELQAAGYLESRRGRYGGTFAAQILPGPAAQPDQGDAHDLEDVLLFRRVVESAAA
+RLAAEATLTPAARAHLRSALEEVDCATTETFRPKDARFHIAVAELSGSPRLVAAVADVRA
+QASDLLDRIPLLQANLDHSQAQHRELTEAILRGDADAASAAALAHLEGTERLLRGFLG
+>tr|A0A0P7GID8|A0A0P7GID8_9MICC
+MTTLRSTARQLAVAAKALAVFTLLLGIGYPALATAAAQAALPHRANGSPVTVDGAAAGSA
+LLGQSFTDGAGAALPEWFQSRPGTYDGAASGGSNLGPSSPELAAQIEERRQAVAALESVP
+AEDVPADALTASASGLDPHISPEYAYLQVPRVAEARGLPEPDVRALVDDAVAGRTAGILG
+EPTVNVLELNIALLELDT
+>tr|A0A0P7GV81|A0A0P7GV81_9MICC
+MRVLFAGTPAVAVPSLDALITAGFDVVGVLTRPDAPLGRKRVLTPSPVAARAAELDLPTI
+KADRIDDDAVAAISALAPDAAAIVAYGALIPERALSIPKHGWINLHFSLLPAWRGAAPVQ
+HSVIAGDEITGASTFLLEKGLDTGPVFGQLTESVDPALTSGELLERLSHSGAVLLAQTLA
+AIQAGKAAPVPQTGEVTLAPKLTIEDGHLNWEQPALALRRRINGVTPEPGAWTTWDGARF
+KIGAARPRPDVTDLAPGQVRLGSGSAAEALVGTGSTALELQRVQPAGKKMMSGADWARGL
+GQREDVVFK
+>tr|A0A0P7HEP9|A0A0P7HEP9_9MICC
+MSIRAEDEVTRICQELIRIDTSNYGDGSGPGERKAAEYVAALIEEVGLEADVFESAPGRT
+SVVTRMSGSDSSQPALVVHGHLDVVPAQKEDWSVDPFSGEELDGLIWGRGAVDMKDMDAM
+ILAVMREMARTGTRPRRDIIFAFFADEEAGGSYGAGWAVENRPELFDGATEAISEVGGFS
+ATIGGRRTYLLQTAEKGISWLRLKAHGRAGHGSQINTDNAVTRLAGAVARIGSHEWPIEL
+TDTTRAFLDGVTELTGVEFDPDNPEKLLAELGTVARFVGATLQNTANPTLLQAGYKHNVI
+PGTAEAFIDARTLPGQEEHLLEVVRSLAGEGIDVSYEHKDVSLEVPFAGGLVDSMVSALQ
+AEDPGAPVLPYTLSGGTDNKSLSRLGITGYGFAPLRLPEDLDFTGMFHGVDERVPVYSLK
+FGTRVLGRLLRGY
+>tr|A0A0P7GA24|A0A0P7GA24_9MICC
+MRIVVLVSGTGSNLQAVLDAVAAGELDVEIAAVGADRNATYGIERAAAAGYETFVVNFKD
+YPVRADWNRALTEKVASYDPDVVLSSGFMRIVDEHFINTFEGRYVNTHPALLPSFPGAHG
+VRDALAYGVKVTGCTVHIADAGVDTGPILAQAAVEVLDGDTEETLHERIKVQERRLLIET
+LSKISKEGLPAL
+>tr|A0A0P7GLQ2|A0A0P7GLQ2_9MICC
+MHPDRELAERRIARFLAQRLPPQLWTSLSPLQAEAWDCPGEPVSFAEAAEQAYQPVLPGA
+RWGKPWHTTWFRLTGTVPVPAPGFAAEALVDLGFSADMPGFQAEGLVYDADGRVLKALES
+TNMAVPLEQEPGSALLLWVEAAATPNVIGDFSFRPTPLGSWDTAGEEPLYVFRRADTALL
+DEQVWNLAQDFSVLWGLMHELPMDSPRRHDLLRAMERAAAAVAPEDVSGTAGRARALLEE
+ALSAPAASSAHRIHAVGHAHIDSAWLWPVRETRRKVARTFSNVLALMDTDPDFVFTASSA
+QQYAWLEEDHPELFARVAARVAEGRFVPAGGMWVEADTNLPSGESLVRQFTFGKRYFLEA
+FGVEPLDVWLPDSFGYSGALPQLIRAAGSRWFLTQKLSWNESDVMPHHTFLWEGIDGTRV
+FTHFPPVDTYNSALTGQELARAQRQFREKGATNLSLVPFGWGDGGGGPTREMLAAAYRTA
+SLEGSPRVQLSSPRSFFETAERDYADPPVWSGEMYLQFHRGTYTSQARTKRGNRRSEALL
+HEAELWAATAAVRCGTDYPYQELDAAWKTVLLGQFHDILPGSSIAWVYEDAEREYAGAAA
+HLERIIARAQRVLAGEGNAVLTFNAAPVRLRGIPAMGGEAEMAAPAAARLEAGDGGWQLS
+SDHLTARVSSTGAITSLRGDSGRELVVPGEVANHFQLFRDTPNQWDAWDIDAADRTAPVS
+LHGVMTGSGDRSVTFKYKFGSSAVTQTLSLSPDGRALDLDIEADWHEEQKLLKLGFPLAV
+LADRASAEIQFGHVQRPTHENTSWDHARFEVPAHRWIHAGEHGRGASLANDSTYGYDITR
+TGTRDAGTGTLLRASLLRAPLFPDPGADQGVHTFRFSLRPDATVAEAVQDGYRLNLPLRT
+VAGAGAGSVPPLAVLTPSSVLVETVKLADDRSGDVVLRLYESLGGHTSAVLTAGFAARAA
+AATDLLERPAAAGAEIPRRADGRWDLEFRPFEVKTVRLLR
+>tr|A0A0N8HXR7|A0A0N8HXR7_9MICC
+MRFTRWRAALGTALSAGLLAGPLAALPAHAEEAAPSGVVINEAYLSGGSANAPFTNKFVE
+LYNPTSSAVSLDGWSLQYRAAGSTGAPTGIGRLSGSIPAGGYYLIQGASNGSSGVALPAA
+DATIGASFSGASGTLVLANQAAAVNPLPTGSVTTQPGVVDLLGYGSSNTFETAPATAPAG
+NSDPKSLNRTDFADSNNNAADFALSTSVTPTNTAGTGTVPDPEPTDPEPTDPEPTDPPAG
+TVAIAEIQGTGDASPLVGANVTTRGNVTAAYPTGGFSGYYIQTPGTGGELDPATHTASDG
+IFVFSAATVGQVAVGDYVEVTGTVGEYFGLTQLTVPAGSMTKLSEAAEEVKPATVPWPAT
+DTERETLEGMLLAPQGEFTVTDNYTLNQYAEIGLAAGSETLVQPTAVAPVGTPEHAAVVA
+NNAAKAVKLDDGATTNFLSAANQSKPLPYLTSTDPVRIGAPVSFTTNVILDFRNSAWRFQ
+PLTELTPANAETVQPASFENTRTAAPQSVGGNLKLAAFNVLNYFSTTGDDLTGCTYYNDR
+SGAPVTVRGGCDARGAANEANLDRQQAKIVAAINSLGADVVGLMEIENSAELGQDRDTAL
+AHLTEALNAAAPGTWDYVRSPAALPDDEDVIRTAFIYRTATAEPVGDSVILNDESVFSNA
+REPLAQAFKPAGGEDSESFVAIANHFKSKGSAPSSGENADNGQGGWNADRVRQAQAVAEF
+ADTVAQEAGTERVFLLGDFNSYAAEDPMQVFAEAGYVNLGKATGKHSYAFSGLVGSLDHV
+LASPAAAEDVTGTDIWNINSVESIAFEYSRYNYNATDYYAADPYRSSDHDPILVGMDLTP
+AEAEVTDLNLLNINDFHGRIDANTVNFAGTVEQLKAAAPEGSSLFLSAGDNIGASLFASS
+VQEDQPTIDVLNALDLRASAVGNHEFDGGFADLTDRVVPASQFEYLGANVYLKGTTTPAL
+PEYTILDVDGVQVAVIGAVTEETGTLVSPGGIADLEFGDPVEAVNRVAEQLVADGLADVI
+IAEYHEGAGSGTPDGASLEEEIAGGGAFAEIVTETSALVDAIYTGHTHKQYAWDAPVPGV
+DGKTRPVVQTGSYGEFIGQIELAYNAETDEVLSYTAGNVARTTTPAADLVAAYPAVAEVS
+RIVDAALAYAAEVGNQPIGSVTADITTAFAGTSRDDRGNESTLGNLVADSLLSSLGSPER
+GGAEIGVVNPGGLRAELYYGEDGVITYAEANAVLPFVNNLWTTTLTGAQLKSVLEEQWQP
+DGSSRTFLALGLSDNVTYTYDPDQPRGSRIQSVTVNGEALDTTRAYRVGTFSFLAQGGDN
+FSTFAQGTDTRDSGLIDRDAWISYLQASSPVSPDFARQGVIVKAAPANVQAGSSVSFAVD
+KLDLTSLGSPANTTLAVSWVPAGGTAVALGSVPVTAGAASVTAAIPASASGNGTLVLTAD
+PSGTTVSIPVTVDEAPQQPTCIRPVPPKNWWDVRGWLKYAVDYARYLICTISRG
+>tr|A0A0N8HXT8|A0A0N8HXT8_9MICC
+MTNMPQIYPKASTGESAEAAASSPRFPEIEERVLKYWDEDGTFQASIDARPAGEDGSNEF
+VFYDGPPFANGLPHYGHLLTGYVKDLVARYQTQRGHRVERRFGWDTHGLPAELEAMKQLG
+MSDKVQIEKMGIDKFNDACRASVMKYAGEWQDYVTRQARWVDFENDYKTLNVEYMESVIW
+AFKTLHEKGLTYSGFRVLPYCWKDETPLSNHELRMDDDVYKMRQDQTVTVTFPIIAGDNV
+LSAELEGVNAIAWTTTPWTLPTNLALAVGPDVRYAVVPAGPNGTLVDQGTAGEGRFLLAE
+DLVASYAKDLGYDDADAARAAVTSVHTGKELEGLRYTPLWDYYADAEKWGTSNAWKFVVA
+DYVTTTDGTGIVHQAPAYGEDDQKVCEANGIPVILSVDEGGKFLPMFGEGPLSEIAGLQV
+FEANKPITRELKSEGRLLRQASYEHSYPHCWRCRNPLIYKAVSSWFVEVTKIKDRMIELN
+QEINWIPENVKDGQFGKWLENARDWSISRNRYWGSPIPVWVSDDPNYPRTDVYGSLAEME
+ADFGRLPLNKEGQPDLHRPFIDELTRPNPDDPTGKSTMRRVEDVLDVWFDSGSMPYAQVH
+YPHENADWFEHHNPGDFIVEYIGQTRGWFYTLHILATALFDRPAFRNVISHGIVLGSDGQ
+KMSKSLRNYPDVSEVLDRDGSDAMRWFLMASPILRGGNLVVTEQGIRDGVRQVILPLWNV
+WHFFTLYTNAANNGAGYEATLRHESTEPLDTYMLAATGDLIRDMTTALDTYDVSVACEML
+RAYMDTLTNWYVRRSRTRFFDEDTQAFDVLYTCLEALCRVAAPLLPLVSEEIWRGLTGGR
+SVHLTDWPEAGAFPRDPDLVARMDLTRKIASVGSSLRKAANLRVRLPLAGMTVVAPDAEA
+LEGHFAAIIADELNLKSVRLVDAGAADPAEFGITQKLVVNARAAGPRLGKNVQTAIKASK
+SGDWSVAEDGTVTAGGLELQEHEYTLETVVESGEGESSKAVAVLPGGGFLVLDTEVTPEL
+AAEGTARDAIRAIQQARRDADLHISDRIRTTISTTEADAAALEANVSLIKAETLTAELIV
+VGDLAVKDNDKDTDKYIVTVEKI
+>tr|A0A0P7G5N3|A0A0P7G5N3_9MICC
+MTNAAGFSYERATGIRFPRPDGWEIAESSGNTIAVAHPPVPSGIFRPNMVLRWAPANRIS
+LARYATAALASTMQTAQQIRIIAHEVWTLNAAPDGPVTGRRQRFVHQIEQHPVCVDRWLW
+IAGNRVYEATASYTVDQLVGMKLLFEQMIMDLRIDPGDETGNGAAEDQETSLMDTIAPTE
+PRLDKGATRLAGEDREDLDRLAASQPYQEPALLLPIPALELMDSMTKRNRLGMFQRKGSE
+FAALRDAGFLAADGSLTPAGTAFVAPLRSPDAAFSVTAGDAHGGAVLQVWTGGGIGRVTA
+EPSRFSTPSVQVPGPDDLSVQVLQANAVPKAIADWLGFSPAWSIAHEPVVLTKDQYEARM
+KSAQVSAPEGLGEAARRMWEQPWTDWEIVDERDGGWFGFVNAGSAGQYRLGPAAGTGSVM
+LEPVSTAVVWDTLVRFIHAAVEGTPLWIPELTGFDQRPEDGTAPEGKVWADYA
+>tr|A0A0P7G3P9|A0A0P7G3P9_9MICC
+MAATNVEVWQRAVVRETSDAAEGIRRIVLEPSQPVPAAPGTHVDLMVSINGERHRRSYSI
+VEAPDGGARLAISVFRTATSRGGSAYMHTLVPGDELEITQPLQNFPLRVGAPRYVLLAGG
+VGITAILNMARVLKNVKADYRLVYAGRSRSAMAYLAELQAEHGTALEIHVDAEGTALSVP
+DLLGGIDDGTELYMCGPIRLMDAVRRTWQGLGLDPSSLRYETFGNSGWYHPEEFIVRVPR
+LGLETRVGPGKSMLEALEDAGADMMFDCRKGECGLCEVRILDLDGAVDHRDVFYSERQQR
+AREKMSCCVSRAVKLPAGPGGSAGPGRDPAVVTIEVS
+>tr|A0A0P7FH01|A0A0P7FH01_9MICC
+MPKLVNYEERRRELALAAWRVIRRDGVEGASVREVAREAGLSTGSLRHYFRSQPELLTFA
+MRHVMERVERRAAGVPRPAEPLEAAKVVLAELLPLDEERRAENEVWVAFVARAMVDAPLA
+ALRDEAYDRLRGACARWITELRPAGADEERVLETERLFGLIDGLAVHAAMRPGLATPDLL
+SAVLENHLEQLVQAKPTGTAGEP
+>tr|A0A0P7GB87|A0A0P7GB87_9MICC
+MTETQIHKGLAGVLVDTTRISKVNPETNSLLYRGYPVQELAAKCSFEEVAYLLWHGELPD
+PQELAAFSEAERSQRALTPELKAVIDALPATCHPMDVCRTAASVLGAQHQQADDSTAEAN
+LAKSVSLFAGMPAVVAYDQRRRRGEELVEPREDLGYSANFLWMTFGEEAAPEVVDAFNVS
+MILYAEHSFNASTFTARVITSTLADLHSAVTGAIGALKGALHGGANEAVMHTFQEITAAT
+AEEADAAAYAAAWLDEALAEKKKIMGFGHRVYKNGDSRVPTMKASLDAMIKHYDRADLGE
+LYTALETAMAERKNILPNLDYPAGPAYHLMGFDTPTFTPLFVAARITGWTAHIMEQLEAN
+SLIRPLSEYNGPEERHLA
+>tr|A0A0N8HZ81|A0A0N8HZ81_9MICC
+MAGRQQPPTRRSSKKSTYRPEVQGLRALAVLMVVTYHVWFGRVSGGVDIFLLISAFLLTL
+SFIRKVEAGRALDLGRYWLHMFKRLLPAVVVVLIGVLAATALFVPRSRWTEILSQAWSSL
+FYFQNWALAANSVDYYATDQSLASPLQHFWSLSVQGQVFILWPLLFALAAFIAKAGRLRF
+RRVVLLVFGTVFTVSLVFSIYETYTNQVQAYFDTRTRLWEFAFGTLLALALPYLRLPRPV
+RIVAGWVGLAAMLSGGFILDVQGQFPGYVALWPLVAAALIILAGQTDSPIGADRLLTWKP
+LIRLGDMSYALYLWHWPVLIIYLIWRGREEVGPVGGTAIIALSLLLAYLTTRFVERPLRS
+MTWAERKRRRAAVVIGVCIALVTVPVAGWQSGLKLEAEKLAAGADRNNPGAVALLPGFVS
+VAEEGARILPQPEHASAEWPELPGDCTDTQRMEVVCQLDFNEDPNAPRVALIGSSHAQVW
+LSAVVPIAEQRGWNVSVRVKGFCPVTFEDGTDEACLRFNEQTMSELLASPPDLVVTTGSI
+TVLDGEEHMHDTWVRSIEQMRRAGSAVVAIRDTPRMDGFAPVCIEENEDQPQLCGIDASR
+TLGASNPAVEASRELGIIHLDLNDFLCPDGYCPAVIGNVLVYLDNHHLTKTYVRSLLPVF
+EQRLDDGLVSSGTTPSLTPKVPADG
+>tr|A0A0N8HX38|A0A0N8HX38_9MICC
+MTLADERGHVIEVADRLFYERGIQAVGMAELRREVGLPLKKLYTLFPSKQAILFAVLDRR
+HSTWTEQLQHRIDAAPQPREKLLAVYDYLSDWFTEDSFRGCAFINAFGELGSQSPDVAER
+TRAHKESFQQVLGELVAAAGGSPALAPQLALLAEGAQTTAAISRSAEPARQAREAAEILI
+DAQLERAAT
+>tr|A0A0P7FFB0|A0A0P7FFB0_9MICC
+MAARIDKVVTSGTFSLDGGTWDVDNNVWIVGDDAQVIIIDPAHDVDAIEEAVGDREVMGI
+LLTHGHDDHIRAVTAAQDRFSAPVFLHAADRMLWDAVFPDEEPDDVIEDGDTFEIAGVTL
+ETLHTPGHSPGSVCFYAPELGTLFSGDTLFSGGPGATGRSYSDFGTIIDSIRERLLTLPA
+ETVVNTGHGDSTSIGAEAPHLQEWIDRGH
+>tr|A0A0P7FPQ2|A0A0P7FPQ2_9MICC
+MNRSSDTTDFRSIDREQDGAAGGVPGADSSSSSCSATRFAASGGAVFCADPALVDDTPVP
+ALPEGFSGRLSLRGAESLSYEETVSALQRLGMLVSWAQAQQARVAARLEVLFARDIADAS
+GREEPALAMSLAAAEASTVLNIPHMTAMQLISESSRLCSDAPQTLAQLAEGRIALQHARI
+ILEETQNLPTDFPELPEVDADAEDAAAPTGAGTPSDGESGQLDLGLEDSNARSGQSGPDG
+PGGADAPCGADGAPAGTAAGSDGPGEAATAGNVHAGAVLSVRGAFERDLLAAAEGRTAAG
+FGRRARRLRESRFPDLIPVRHRQARDKRRVTFQPLPDGMSCLSAIIAAEKGQAMFAALTD
+AAKAGKRAGDPRTMDQLRADTLAELLLEGEPSATPPGAPETSGIRPDLPTGLETTSLSGG
+PQISGSDSAIGPRAASVPGDLHASSSHVSRVRKRPRRAERHRDQYRSKVRTEVMVLISAD
+TLAGLNENRAELSGYGPITPETARSMILDALHWTPLLQDPTTGEILNVGRTRRIPAGLKR
+WLQARDGTCRFPGCSVAVTNAEIDHTTPYSHGGPTDHANLEHLCPKHHRFKTLGHWKARQ
+PRAGTIEWNSPTGRTYTTDPALDSLLDGNTGSNRFAASRSSVAKAPGQGPVTKGPGDDPP
+PF
+>tr|A0A0P7HC73|A0A0P7HC73_9MICC
+MAENTPRANAVPHSERIDDDGGKAAKWKIVGPGLVVAATGVGAADMVATLVAGSRYGYGL
+LWAVILGVILKIILVEGAGRFTLATGKTIFEGWRSLGRWTTWYFGPYIMIWGFVYGATAM
+SSAALPLAAVFPFLPLWAWAIVMGLAGFVMVWFGKYATFEKITAALVGLMFVTVVGLAII
+ATPNIPEMFKGLVPMIPEGGIVYTLALAGGVGGTITLAAYGYWLREKGWYTPKWMKVMRI
+DNSMAYVMTGIFVIAMLIVGAEVVRTAGITLSAGDKGLLDLYDVLKLEYGDFIGTGFLIG
+FWAASFSSIIGVWNGVSLMFADFWGNMRGKESGHPDTRVGGKYFKFYVLWLTFPPMILFA
+LGQPIGLILAYGVLGSLFMPFLAVTLLGLLNGKRIPKEWANRLHTNIALGITALLFIILG
+LQQAWKALSPVFGGE
+>tr|A0A0P7FIN6|A0A0P7FIN6_9MICC
+MFDISGRIALVTGSSRGIGNAIARGLAGAGAVVVLNGLDADRLEGARAALAAEFGEDRVF
+ARRFDVTDAVAAADGVAWVEREIGPLDILVNNAGVQHRVPMLELDVEDWERVMRTNLTSA
+FLVGREAARHMIPRGRGKIINIASVQADLARPTIAPYTASKGGIRNLTRAMTAEWAAEGL
+QVNAIAPGYIHTEMTQNLVDDEAFNSWILGRTPARRWGSVEDIVGPAIWLASDASNFVNG
+QVVFIDGGMTTVV
+>tr|A0A0P7GTB0|A0A0P7GTB0_9MICC
+MNWLWYLLALAPLAGFLPLRHSSLPRVARAWLAGLILAASAVVLAIGRFVDSPLTVEGLL
+VALLAGMLAVLLLVLRRWASDRAEAHRLRGIAQRNADQISVVSHEIRTPLSLMKGAADLL
+AEGSPGPLTDSQTRFVQTISSNCHSVITLSEDLLTQARIDAGMFELHPQRVNLRALTMSV
+ISELRHLHPLPIALDCPGAPPRLWADPMLMRQALTNLINNAVAHARNAELITVRVVNADA
+QILVSVSDDGEGIRDDERRRLFERFQSGKPLRDGTGLGLVITRAIIQMHGGDVFVDSTPN
+RGTTMLFTLPKDSSHSVEAEQGLLR
+>tr|A0A0P7GJA4|A0A0P7GJA4_9MICC
+MKTLKVALLGCGNVGSQVARILIDDAADLTARTGAKLELAGIAVRNPDAPRDAELPRELF
+TTDAEALVESADIVIELMGGLEPARTLILHAIGHGASVVTGNKALLAADGAALYEKADAA
+GVRLAYEAAVAGAIPILGPIRDSLSGDRITRVLGIVNGTTNYILDQMDSTGAQFADALAE
+AQRLGYAEADPTADVEGHDAAAKGAILASLAFHTTFDLANVSCEGISSITAEDIAAAKDA
+GFVIKLLAIAEKLEADGAEGVSVRVHPTLLPRTHPLAAVHGAFNAVFVEAENAGELMFYG
+QGAGGTPTASAVMGDVVTVARRLVLGGHMGVEAASGHVPALPMDKVTTSYSIGLDVADAP
+GVLSAVARVFAENGVSIETMRQKSHTDAAGASAELRFVTHRAPEAALAATVQAIKGLDVI
+NSVTSVLRVEGV
+>tr|A0A0P7GJG4|A0A0P7GJG4_9MICC
+MTDMYYDDDADLSIIQGRKVAVIGYGSQGHAHALSLRDSGVDVRVGLKEGSKSRAKAEAE
+GLRVLNVADAVAEADLIMVLTPDQVQRFVYAEDIAPNLKSGDALFFGHGFNIRYGYIQPP
+ADVDVALVAPKGPGHIVRREFEAGRGVPDLIAVEQDASGKAKDLALSYAKAIGGTRAGVI
+ETTFTEETETDLFGEQAVLCGGASQLIQYGFETLTEAGYKPEVAYFEVLHELKLIVDLMV
+EGGIAKQRWSVSDTAEYGDYVSGPRVITPEVKENMKAVLADIQNGAFAKRFIDDQDAGAP
+EFKELRQKGEDHSIEGTGRELRKLFSWIKSDDDYTEGSVAR
+>tr|A0A0N8HXQ9|A0A0N8HXQ9_9MICC
+MRVLIAEDDALLRAGLELLLKGEGFEVAGSWNNADDLLAAFEPGTADAAVLDVRMPPTFT
+NEGLRAALELRSRVPDFPVLVLSAYVEDRYATRLLGSGAQGVGYLLKERVGKVGDFVDAL
+RRVADGGTVMDPEVIAQLFSRRSNQDPIRSLTPREFEVLGLVAEGLGNTAIAQAISVSET
+AVSKHIGNIFAKLGLAPSDTGHRRVLAALAYLRS
+>tr|A0A0P7GJE6|A0A0P7GJE6_9MICC
+MKSAKRLPTGPLLGVAGILGFLLTWELIPRLGIVNPRFLPPASEVLGVFVSNLGLGAFWA
+AVLDTMTGWFLGLLIATVAAVVLGLLIGSSNFLRKATNSTIEFLRPIPSVALIPLAVLLF
+GLRLESTLLLVIYASFWQVLIQVLYGVADVDPVANNTAKSFGLGRLARIRYVVWPTTLPY
+LMTGVRLAAAVALILAITASLIIGSPGLGKEIANAQSGGAIAQMYALVLTTGVLGILINM
+GMRVIERRTLSWHSSVRGEVVV
+>tr|A0A0P7GNF6|A0A0P7GNF6_9MICC
+MTSSQAFLKDFHDVAAIGATEANGVDRQAATAEDKQTRDWFAAYAEARGWEVRVDSIGNM
+FALIELVPGAPYVLVGSHLDSQPLGGRFDGAYGVIAGLHAASRITERLQSGAGTPVFNLA
+VVNWFNEEGGRFAPSIMGSSVFAGLMDEAAMLEVRDLAGVSVREALSGIGYLGTDERPEV
+ASYAEIHIEQGRILEREQLPLGAVDYSWYTQKLDIEVLGEQSHTGATAMADRHDALVAAS
+KVVLLVHDVTKKFAEEALVSSVGRMTLEPNSPIVVARRVHLVADLRSASPEIVSEARASL
+LADIDAIAREHDITINVNDFDIRGIQYYPEEGLELAEKVAAELGLGIRRIQTMAGHDSVA
+LNRIAPTVMLFIPSVDGVSHCEREFTKDEDMVAGLDALTELGWKLVHGALTDQATGPAA
+>tr|A0A0P7G6T7|A0A0P7G6T7_9MICC
+MAERTTGTGVQSVERVFELLELITDAGGSATLSELAASADLPLPTIHRLLRTLVGLGYVR
+QLPNRRYSLGPRLIRLGEAASAQLGALAMPVLKNLVDELGETANMAVLDSDQALYIAQAP
+SRHSMRTFTEVGRRAHTHATGVGKAILAQLSDEQVRRVISRTGLPAATQASITDVEELLA
+DISRIRQRGYSVDEQEQELGVRCFAVGVPGAPTPTAISVSGPTSRVDDAFGRRAVPLLQA
+AAREIAEDLTRHR
+>tr|A0A0P7GEI9|A0A0P7GEI9_9MICC
+MTGSQPPAEVDREPPAGPVRAGNGIARWVFWPAATIIVVFAVFAIAFPGTATEMFNSVQT
+NVIRWFGWYYVAAIAIFVVFALWIGLSRYGDIKLGKDDDEPEFSIRSWFSLLFAAGMGIG
+LVFFGVAEPLNHFAAPRPGVEGTPIQLAQQALTQTYLHWGLHAWAIYVVVGVSIAYAVHR
+RGRPISIRWTLEPLLGKRRVSGGWGNLIDVVALVGTLFGVATSLGLGVLQISAGLEEANI
+MQATQMTQVGLILGITTLTIASLISGVGKGMKWLSNINLALAGLLLMFVLFAGPTLFLLR
+EFVQSIGNYLQNVIGLTFNTLAFSGAEGEAWQAAWTTFYWGWWISWAPFVGIFIARVSKG
+RTVRQFVAGVLLVPSIIGFLWFSVLGGTAMYRELFGNGGLVGADGSVDTEGSLFGMLGGL
+PGGTALTIGAVLLITIFFITSADSGALVTGMLSTGGDVEPKNWIRIFWALSAAAVAIALL
+LANGLEAIQTAAILTAVPFSVVILLMCVATAKAFHQEHETLMRAQRKIARDELTAHVTEH
+VQDSMQEQYEDQMADQVDAAVKKQFGRRTAAQKDRRL
+>tr|A0A0P7GJX4|A0A0P7GJX4_9MICC
+MRQLEVFAAVADQGSIAAAAQSLHVSESAVAGALNNLERAFGTQLAIRRKAHGITLTTAG
+QNVLGRARNLLVDAVDLQLHAGGSDAEVRGSLVLGCYLTLAPTVLARLIEHYGRRYPLVE
+LDFYDGPQSEIHRRLADGQLDVAIAYDLSLPAGLNRQPLFAAEPAVVLSAGHPLAERTEL
+SLADVAPEPMILLDVDPSRENTMTMFDAAGLVPNVRFRTTDYEVTRSLVGRGMGYAILVQ
+QPAGELSYEGRPLVVRPLSPAVRPVPVSMVWPSALRPSRSVAAMLGLAAELYG
+>tr|A0A0N8HY08|A0A0N8HY08_9MICC
+MPHSNHQRALDGMRPERVRPVSLADAAAALPPGSPAITAAPGTGTDAWKTELTGISINSR
+EIMPGDLYLALPGARHHGAGFAADAAAAGAAAILTDAAGVSQLPRTVLPVFLADDIRRLV
+GPLSAAVFNSQPQDGSAPALFGVTGTNGKTTTTYFITSLLQALGRTTGLIGTIEILAGGE
+AIPSVLTTPESPQVHGLLALMRERALDAAAMEVSSHAISYRRVDGVVFDIAGFTNLTQDH
+LDLHGSMEEYFAAKANLFRSERSRRAVLTVDDEWGRRMAAVAGDRGVTLQTTGEPGDADW
+QVRSVTREGLGHSFELHPRQGTPLRARTGLPGSFNVSNAALALAMVMESGADPAEVQRAL
+EEHDPFTVEVPGRMQLLCEAPAAIVDFAHNPDALERTLESVRRPEGRVIVVFGATGERDQ
+TKRPLMGSIAARLADVVIVTDDDPHDEDEAAIRADVLRGAFSAGEESGTEILEVAPRAEA
+IARAVELAGPQDTILVAGRGHEVWQEVKGVNLALDDRVELRAALAKAGFTVPTYDGVES
+>tr|A0A0P7H8A1|A0A0P7H8A1_9MICC
+MTEKTFKLPDVGEGLTEAEIVQWRVKEGDTVAINEVIVEIETAKSLVELPSPYAGTVTGI
+LVPEGATVEVGTPIFQVAAGAAKKAAGKSGTGKAANPATTAATPAPAAADGPPSASLTGT
+GPKADAVRRRPRRNRPAAAQKAAPAETAQRDAAGTEPAARPASRHDPRGAAVAAAGAAVQ
+DRFNQLLLRVLAKPPVRKAAKDLGINLADVPATGAGGEVTKQDLISYQAQRESEVDSAGT
+FWSPSSGPQDSRIERIPVKGVRKATAKAMVDSAFSAPHVSIFVDVDASRTMEFVKRLKAS
+RDFEGIKVSPLLILAKAVIWAAARNPSVNATWAGDEIHVKHFMNLGIAAATPRGLMVPNI
+KDAQDLSLKELAVALNELATTARAGKTPPADMRGGTLTITNIGALGIDTGTPIINPGEVA
+IVAFGTIKQKPWVLDGEVIPRWITTLGGSFDHRVVDGDLSARFMADVAAILEEPALLLD
+>tr|A0A0P7GTT8|A0A0P7GTT8_9MICC
+MLYARPKARLTGLLLLPLGWLGVLYIGSLILLFITAFWRTDSFTSKVIPAFTLENFIEII
+TVPAYQQTALRTIGIALAVTVLCAALALPLGLYMAKVASPKMRAALAIGITLPLWAGYLV
+KVFSWRITFSSGGPLDWLLAPLGMTGPGYGTAALIVTLAYLWFPYMAVPVYNAFRQIPDS
+LFDASSDLGAKAWATVWTVAVPLLKPAFVAGSIFTFSLSLGDYIAAQFVGGKTQVIGTVI
+ASNINLNPPLAAAFGTVPIIVVVLYLFLARKSGALKQL
+>tr|A0A0P7GDT9|A0A0P7GDT9_9MICC
+MERVLDPDGISSGACLEGFAPAGSLSRRLQGSLSVSGLDAMDAAEAAEVLEELARLTAWA
+QAQQARVLHRMEQLISRDVEKTLKKPDPAMAMSLTAAEAGAVLHLPHMTAMRLVSESEAL
+CGRYSETLAGLSRGSFSYRHAQAIIDQADSVPEDKQQGFQSELLQLAEGRTCAQFMRSAR
+RLRERQWPETMIERHRAALERRRVGFDPLPDGMGQLTAFVAAEKGQAIISRLTSVARGQQ
+DGGDPRTLDQLRADILASLLLGSEAGSSPQSRDLPQTAAEIMVLIPADTLFGADDQPAEL
+NGYGPISSEAARRLARQALHWTGLVQDPGTGEILAVGRRRKVPAGLKRWLQARDGTCRFP
+GCSVGTPRTEIDHTVPWAEGGETEHGNLANLCRKHHKYKSLGFWSAKQPVPGVLEWQSSF
+GLTYRVNPVLNYSQRTEPDAAAEPDPAAGPRARAG
+>tr|A0A0P7HCW7|A0A0P7HCW7_9MICC
+MFVLTIDQKGSRSSQDRVPELLELLRPLGMELPFERTVGDEAQAVVSSPDAVVDAALLAL
+RQGGWSVGIGVGTVGLPLPRSSREAGGAAFIAARAAVERAKKTGDRPPIAVSAAPDAGPS
+AAEAAAHAEAVLVLIARLVCGRSEAEWRILEHVDPHKWGAQSAAARMLGVSSQAVSNAVQ
+RAGWQEEWAARPAAAVLLERADRAAGSPPR
+>tr|A0A0P7FUA1|A0A0P7FUA1_9MICC
+MRESKNRDDELVFVATNDISAITRGRAMRLGDLDFATGCGWVPANIGIGPFGHIVDGIAF
+GSIGDLRLIPDAGTLTRIDGIPGKPPVNVVLADITHTDGTAWECCPRTFLRRAIEDLESE
+TGLSVHAAFEHEFMLLSDAVPDAPFSYQAMRSVEPMGTELLQILADAGLDPENWLPEYGA
+HQWELTVGATGALAAADRAVLLRDIVRDYAVATGRRASFSPLVDAEGSGNGAHVHLSLRD
+AAGAPATYDPDLPGRLSKAAGSFAAGILRHTAALVALTSPSDISYLRLSPHRWSAAQAFL
+GERNREAMLRVCPTIDMAGKEIGPQFNLEFRAGDAAGNPWLTMGALIRAGLEGIRDGLPT
+PVVVDRQVEELSPEERGAAGVSDLPGSLAEALDALQADEVVRGWFAPDLIDIHRAIKRDE
+INQLVGLSEAEKCRRYTGVY
+>tr|A0A0P7GI21|A0A0P7GI21_9MICC
+MPSPTSSATSSPSGANGTRRGRPGYDQQTVLNIAVDVFNRHGYEATSMGILAENLGITKS
+AIYHHVPSKGDLLRLALENALGGLEGILDDPQASSGPADARLEFVLRGTIKVLTERLPFV
+TLLLRLRGNTEVERDAMERRRQFDRRVAELVDAARSEGSLRSDIDPRTTTRLLFGTINSI
+VEWYKPGGSLSAEKLADDIISMMFDGLHGKP
+>tr|A0A0P7GDD6|A0A0P7GDD6_9MICC
+MQTPGNPVTNDDLVYFTSASGYTGKFADKLERPASRIPLLTSAPTLLAQRPYVLLLPTYG
+GTAAQPGAAAKGAVPKQVIKFLNVEANRALIRGVIGAGNTNFGENYCLAADIIAVKCKVP
+VLYRFELMGTSEDVAKVNQGLEEFWTHQSQKPA
+>tr|A0A0P7H8C0|A0A0P7H8C0_9MICC
+MPKTTKTGKAKKSELPSTLERSDKKAQDTFAKTYDSALEEYGDEQRAAQTAYASLKRTHE
+KVGDHWEPKDSSGPSDKKAEQGRKSDARTAGGVDANASKEHLYDVASKLDISGRSKMNKD
+ELVDAIQKANQKETRKSRS
+>tr|A0A0P7FYA9|A0A0P7FYA9_9MICC
+MLRWLTAGESHGPALVGIIEGVPAGVEVSTPSIQEALARRRLGYGRGARMKFEQDEVRIL
+GGVRHGLTQGGPVAIEVGNTEWPKWEQIMASDPVAPEILEGQARNAPLTRPRPGHADFTG
+MQKYGFSEARPVLERASARETAARVALGAVASAFLNQLGVELVSHTVSIAGVGSPEGSAL
+PLPADVAALDENPMRCFDPAVTEAMVAEVDAAHKEGETLGGVVEVLAYGLPPGLGSYVHW
+DRRLDARLAGALMGIQAIKGVEVGDGFLTASRRGSAAHDEILQDELGRVVRSGNRAGGIE
+GGMSVGEVLRVRAAMKPIATVPRALKTVDVATGEPARAHHQRSDVCAVPAAGVVAEAMVA
+LVLAEAMTEKFGGDSVVETARNLRTYLENIPEFLASTGTVTGA
+>tr|A0A0P7FYC6|A0A0P7FYC6_9MICC
+MDPAPKLTLNNGVLMDQAGYGTYKVPPQDTAPLVSAALSTGYRHIDTAALYGNEEGVGKA
+VRNFTDNGHVVQEDLFVTSKVWNTDHGYDAALRAFDVSMAKLGFEYLDLYLIHWPCPDRG
+LFLQTYKALEELYASGRVRAIGVSNFNRGHLEELLDSAAVVPAVNQVELHPWLAQKELRS
+FHEAHGICTVAWSPLGRGAVLEDPAVVEIANSIGRTAAQVVLRWHVQAGHTVIPKASSED
+RMSANLDIFSFELEPEHAAVLDGLDSGRRTGSNPAEVN
+>tr|A0A0P7HUH1|A0A0P7HUH1_9MICC
+MIKSPNLSFDATAELLAHALSSGSLTGIARVLQPLDVSETLEQLERLNTIDRAVAYRTLS
+KGRAMEVFERFDAPVQADLLAGLKDAQVAEVFTALSPDDRVALLDELPAGVANRLILGLN
+EKDRALTTAVLGYPRGAVGRYMSPQFVTTSPDRTAAESLARVRSQLDDAESVYTIPVTDG
+RRHLLGVVSLRDLLRAADSDPVADLMKAPLSVPATLNAEEAARYCADAKVLVLPVVDSEN
+RLVGILTVDDALRILESAESEDSARSGGTEPLRRPYLATPVRAIVRARVVWLLVLALGAT
+LTVQVMDTFEATLAEQVALSLFIPLLIGTGGNTGNQAATTITRALALGDVRPRDVAKVVA
+REVRVGAVLGLLLGGLGFAITSVIFTVPLGTVVGLTLLGVCTMAAAAGGLMPLLGKALKV
+DPAVFSNPFISTFVDATGLIIYFLIASAVLGI
+>tr|A0A0P7FXB5|A0A0P7FXB5_9MICC
+MVLRLSTLFLRTLREDPADADVASHRLLVRAGYIRRAAPGIYSWLPLGLRVLGKVETIIR
+EEMAAIGAQEVHFPALLPREPYEASNRWTEYGENLFRLQDRKGADYLLAPTHEEMFTLLV
+KDLYNSYKDLPVSLFQIQNKYRDEARPRAGLLRGREFIMKDSYSFDIDDEGLEASYQAHR
+GAYLRIFKRLGLDVVVVSAVSGAMGGSKSEEFLHPTPVGEDTYVRSAGGYAANVEAVTTV
+APEPVDYTGAPAAQVVDTPDTPTIDTLVADVNARFPKDDGEWTAADTLKNVVLAVTLPTG
+ERQIVVVGVPGDRAVDLKRIEANIGAHLEIGGELGIEAATDEDLKKNPGLVKGYIGPGLS
+LDEAVLGSESATGLLYLVDPRVVSGTRWVTGANTQGKHVIGLVAGRDFGWDGVIEAVEVR
+EGDEAPDGSGPLEAARGIEMGHIFQLGRKYAEALGLKVLDKNGKLATVTMGSYGVGVTRA
+VAALAESNHDDKGIIWPRSVAPADVHVVATGRGEEIFEAAAKISEELEAAGLEVIYDDRP
+KVSPGVKFGDAELIGVPTILVVGRGLADGVVEIKDRATGEAENVPVAEAVEYVLRAVRG
+>tr|A0A0P7FID2|A0A0P7FID2_9MICC
+MLTDNRIDPPDAAGERETLNGFLDYLRASAVYKAQGLSDADAARRVLPSLTTVSGLLRHL
+ADVERSWFRERMDGQDGVPSRWSDEDPDGEFRVSESDSLAGIIADYEAACAESREVAARY
+ALDDVARAETCPHNLRWILVHMVEETGRHCGHLDVVRELLDGVTGE
+>tr|A0A0P7HM45|A0A0P7HM45_9MICC
+MTVLVFLDPAFPAGRVADASKPQLMATDLGVTRGDGVFESMLAVDGHPRKLAMHLERMAS
+SAAALQLDFPSSALWEAAITTALAEFERDHSGVPAVVKLMLTRGPEGAGVPTAWVAASPV
+PDSTAKQREEGLDVLLLDRGYDSSVAERAPWLLLGSKTLSYAVNMAAIRFAKQHGADDVI
+FTSSDGKVLEGPTSTVVLAVVEDEIKTLLTPELESGILPGTTQSALFAAAENAGWQLGYG
+PLEPSHLMQADGVWLISSIRLLAPVKSVDGEPLPVSAELTAELSALVETVL
+>tr|A0A0P7HM59|A0A0P7HM59_9MICC
+MEQRPRGAGIKEVAARAGVSAATVSRALSGNGRVSDATRRKVQAAAEELGFVISYNASSL
+ASGRSRNIGIVLPTVGRWYFSQVLEGAASALIEAGYDLTLYNTSDGPGHRESVLKEMLQR
+KRLDAVITVALRLTEEELGQLREVGKPIVAIGGPLPDTPTIRVDEFSISALATRHLISLG
+HTRIAHIGGGEELVRDFRMGSTRQDGYLHALAEAGLGVEPHWLRSSEFSVAGGYAAAKAL
+LADPAASVTGIFCAADEIAVGAILAARELGLRVPEDISVIGIDGHELSAVFGLTTIAQDP
+SGQGAAAVGAVLALLRKQHVGRDLMEGFYPTEFVVRSSTAVPRGSQGSAAP
+>tr|A0A0P7GC37|A0A0P7GC37_9MICC
+MIAWKSRPLPELPGHSPELVLFDTARRRPVPVRPGPEAGLYVCGITPYDATHMGHASTYV
+AFDLLNRQWRDAGHTVNYVQNVTDIDDPLLERAEATGVDWTVLAKEQTQLFREDMEALNV
+LAPRSYVGAVESIEWIVPVVEDLLERGIAYRVPGNGSEPDGDVYFSVDAAQALEKEAPDA
+WRLGQVSNLTPEQMLPVFAERGGDPDRPGKRNPLDALLWRVARTGEPQWPGGSLGDGRPG
+WHIECSVIARRFLPANFTVQAGGSDLVFPHHEMSAGHAYACSGEPLAQVYAHAGMVGLDG
+EKMSKSLGNLVLVSKLRAEGVEPAAIRTTLAGHHYRSDWFWTGADLARAEERLSRYRQAL
+DLTNAASAERLLQQFRMSLADDLNAPAALAAADEWAASLQGAGLTPEPRGAQLAAASFDA
+LLGITLR
+>tr|A0A0P7FX42|A0A0P7FX42_9MICC
+MTSPQTTPQSPAAAETRRRLPRWATSFGPQIIAALLIGLGLGLLAKNMGTVDGEPNWLTT
+TLSTIGSSYVSLLKAAVVPLIFTAVVSSIANLRQVSNAARLAWQTLLWFAITALIAVAIG
+IALGVILQPGANADATAPDGYDGGTGSWIGFLTGLIPGNFLGLTASTSETLTTTLNFNVL
+QVLVIAIAVGIAALKVGKPAAPFLALNASALAVIQKVLWWIIRLAPLGTVGLIGRAVATY
+GWDTIGSLGTFTLAIYLGLALVLFVVYPVLIKAHGLSVRQWFSGAWPAIQLAFVSRSSVG
+TLPLTQRVTERNLGVPRAYASFSVPLGATTKMDGCAAIYPAIAAIFVAQFFGIDLSIGQY
+LLIAVVAVLGSAATAGTTGAVVMLTLTLSTLGLPLEGVALLLAVDPILDMGRTAVNVAGQ
+TVVPTIVAKRNGLLLPELYNAKRNGDPFDDDSETITPDPSELPAQEDTSSSSVPAGSASR
+G
+>tr|A0A0P7GJW7|A0A0P7GJW7_9MICC
+MSMSNYIEAGSIIALATSLSLWQEYFGFSNLLVGLVAALSANAFGAAIGALIGGPLGDRY
+GRKFIYTYDLILYMLGTLLVIFAVAPWMLIAGVILTGIAVGAGVPVAWTYIAEEAPAEHR
+AKHVGTAQLAWSLGPALVFLFATIVVPLGLTGSRIIFAHLFVVAFVTWWIRRGLSESVTW
+KKSDEERRTAEAGGIKRRNYRELLTNATNLKALLFLTGVYALWNLVAGQMGIFMPRVYET
+AGVESATQQNLLQVLLWTLTVVATYFGFMKYGDRVDRRKLYGIGAVLGIIAWLLLVFAHV
+TMPVLILFAALWGISAGIGAQAFYALWAAEMFPTRLRASAQGMLFFVARIVVGVLSYWFP
+TLLAEQGVPFVGMIMIGALVAAMVIGVLWAPNTRGRTLEDIEAERYGNAPDTAKQSV
+>tr|A0A0P7GSV4|A0A0P7GSV4_9MICC
+MPAALEVALVCAVAVLTLAAVAALGYRLSRSQRDLGSDAERAAYATLHTASLASRHLRAG
+LTPAGASRASRHLRGLLRCETLFMTDTGGVLAWEGVLADTPQRRERIFFAARGVLESGRT
+KVFRGPALRALGLQDGGELLVCPLRANGQAVGTLGIFAPSISAGLIRATNDVADWVAAQV
+ELAELDASRALLMEAEVKALRAQISPHFIYNSLNAIASYINTDPQRARELVVEFADFTRY
+SFRRHGDFTTLAEELQSIDRYLLLERARFGERLKVSLQISPEVLGTVIPFLSLQPLVENS
+VRHGLDSIDGEGHITISARDAGALAEITVEDNGVGMDPQKLQALLAGHADGDHVGLRNVD
+LRLRQVYGDAHGLVIDTAEGAGTLITMRIPKSQPGHQT
+>tr|A0A0P7GHN2|A0A0P7GHN2_9MICC
+MQDRGRGHQLASQDWVDKDFYKILGVPKDASDADIKKSYRKLARKYHPDQNQNDPAAEKM
+FKDVSEAYSVLSDAEERQQYDAIRAMGSGARFSAGGGGGPAGGAGAGFEDIFGGLFGQPS
+GRSRRTTYSTGGGNIPPEFADLFGGGGFGGGGGFGSAPPQKGADRTASTTISFAGSINGT
+VIGLREPSGEVVEVRVPAGVKDGQRIRVRGKGMPGAAGNGDLMVTVHVTPHDFFVRDGNN
+IRIHVPVTFPEAALGATIEVPTLTSDKVKLKVPAGTPSGRTLRVKGRGVHTSKGNGDLLV
+TVDVAVPSHLNKDAKAAVEAFAEATRGEDPRAGLAAKARL
+>tr|A0A0P7FH31|A0A0P7FH31_9MICC
+MTVYDLAESQFSRPRAAKALAGAARTAYWLDDPERPEALPALAGNTSADLAVVGGGYTGL
+WTALMAKERDPGRRVVLLEGSRIAWAASGRNGGFCEASLTHGEANGLKHLPGEAAQLDRL
+GRENLREIAETVQRYGIDCGFELTGSLSVATEQHQVDWLAEEADESNPDLVFLDRDAVRK
+EVDSPLYLAGLWDRTSTAMLNPARLAWGLQRAALAAGVEIYENTPVRGLENAGRTVQLKT
+DGGTVTAERVALATNVFPSLLKRTRLHTVPVYDYALMTEPLTPGQLAAIGWHNRQGLSDL
+NNRFHYYRLTTDRDGASRILFGGYDAVYNFGRTMKPEYEHRQATYERLAAHFAATFPQLA
+DMRFSHAWGGAIDTCSRFFAFFSTAYGNKVAYSAGYTGLGVGATRFGANVMLDLLSGEKT
+ERTELQMVKSKPLPFPPEPVAWLGVKITTAAMVRSDRRQGRRGPWLKAMDAVGMGFDS
+>tr|A0A0P7GII7|A0A0P7GII7_9MICC
+MPPRRAEARRPDARRRNKPSNWLLFALLAGPNIVLLLVFTFKPLLQSLYYSTLQWNIGSA
+IARPVGFRNYTDWLTAPGTPQVITVTLIFTLATVGGGMVIGLALALLLNSRLKLRGAART
+IVVAPYVLSGVAVGLLWLFVFDPNFGVTSALLQAFGLSSPDWYNDPGYALAMVIIVYLWK
+NVGYVALIYLAGLQAIPRDLLEAASLDGAGRLRTLAGITLPLLGPTTFFLSVTTLLSSLQ
+SFDIIQAMTRGGPLEGTTTMMYQIYQQGFVAGTAGYSSAIATILFLVLLAVTLLQLKFVE
+RKVHYS
+>tr|A0A0P7FQD0|A0A0P7FQD0_9MICC
+MSPEPQKIRTITVPTAELYEALQPLPAGISAAVWDFDGDPDGIEYADIDAVVAPYTGGKV
+WQESLVRVPNLKLLQAQTTGYDGLPELAGESTAVASAAGVHAAATAELALGLILASLRGI
+DAAVRDQLRANWNPQRYPGLADRRVLLVGVGGIGQEIAARLEPFEVELTRVGSTARDDDA
+GHVHGVAELPVLAAEAEVLVVITPLNEKTRHLIDAKVLAALPDGALVVNVARGPVVDTAA
+LTKEVTSGRLRAALDVVDPEPLPADHPLWNCTNAIITPHNGGNSGAFTPRIQGFLRRQVQ
+RLADGREPVNLVQAGPWKQSRDAD
+>tr|A0A0P7FTW2|A0A0P7FTW2_9MICC
+MEAMVYRGPYKVRVEEKEMPRLEHPNDAIIRVTLAAICGSDLHLYHGLMPDTRVGTTFGH
+EFIGVVEEVGPSVQNLKPGDRVMVPANIYCGSCWFCVRGLYSNCHNVNPNATAVGALYGY
+SHTTGGYDGGQAEYVRVPFADVGPSLIPDWMAEEDALMCTDALATGYFGAQLGDIKERDT
+VVVFGAGPVGLYAAKSAWLMGAGRVLVIDHLDYRLEKARDFAHAETYNFTEYDDIVVQMK
+KDTGYLGADVAIDAVGAEADGNFLQHVTGTKLKLQGGSAVALNWAIDSVRKGGTVSVMGA
+YGPIFNAVKFGDALNKGLTLNMNQCPMKRQWPRLFEHIRNGYLTPSDIITHRIPLEHIAE
+GYHIFSSKLDNCIKPVIVPSAS
+>tr|A0A0P7HVA0|A0A0P7HVA0_9MICC
+MTSAASSVPTAGFVGWRGMVGSVLMQRMQDEGDFDLINPVFFSTSNAGGAAPSFAEGAGA
+LQDAYDIETLAKLPIIVTTQGGDYTSEVYPKLRDAGWDGLWIDAASTLRMDDSAIIVLDP
+VNRDVIDAGLARGVKNFVGGNCTVSCMLMGLGGLFRNGLVEWGTSMTYQAASGGGARHMR
+ELLNQFGALNSAVASNLADPASAILEIDRAVLAQQKDPSMDSSQFGVPLAGSVIPWIDAD
+LGNGQSKEEWKGGAETNKILGRHTVDAARIPFDGLCVRIGAMRSHSQALTLKLTEDLSVA
+EIERIIDADNEWAKVVPNTKEATMEQLTPVAVTGTLDIPVGRIRKLEMGPEYISAFTIGD
+QLLWGAAEPLRRMLRIATGNL
+>tr|A0A0P7HUG0|A0A0P7HUG0_9MICC
+MDTSFRAQVFEWRGPAPFYWVLLPVHAADYVRAQAAEATYGWGAIPVLVRIGATEWETSL
+LPHSGAYALPLRKDVRIKEEIGDGDTVAVALTVAPREGRTASGPGPAVQVIEEDR
+>tr|A0A0N8HY49|A0A0N8HY49_9MICC
+MSIFLNKDSKVIVQGITGGEGTKHTALMLKAGTQVVGGVNARKAGTTVTHGDVELPVFGT
+VTEAMEKTEADVSIVFVPPAFTKDAVMEAIDAGIGLVVVITEGVPVQDSAEFWAHAQSKV
+DADGNQVTRIIGPNCPGIITPGEALVGITPNNITGKGPIGLVSKSGTLTYQMMYELRDLG
+FSTAIGIGGDPVIGTTHIDALAAFEADPETKAIVMIGEIGGDAEERAAEFIKANVTKPVV
+GYVAGFTAPEGKTMGHAGAIVSGSAGTAQAKKEALEAAGVKVGKTPSETAELLREVFASL
+>tr|A0A0N8HZ35|A0A0N8HZ35_9MICC
+MTYTPAPDRYDSMPYRRVGRSGLQLPAVSLGLWHNFGDDVPFDRQRAILRRAFDMGVTHF
+DLANNYGPPFGSAETNFGRHLKDDFRPFRDELIISSKAGYDMWPGPYGNWGSRKYLLASL
+DQSLERMGLDYVDIFYSHRPDPETPLEETMGALDTAVRSGKALYAGISSYSAEKTLEAAR
+ILGEMGTPLLIHQPSYSMLNRWVEQGEPNLLQALAETGTGSIAFSPLAQGLLTNKYLGGV
+PENSRAAAGKSLDPAQLSEENLERVRGLNRIAEARNQTLAQMAIAWVLRPQRNSSVTSAL
+VGASSVRQLEDSVGAVQNLSFTDQELTDIDTFAQDSDINLWAAALKA
+>tr|A0A0P7GB19|A0A0P7GB19_9MICC
+MNRQQEFVLRTIEERDVRFVRLWFTDVVGSMKSVALAPAEVEGAFEEGLGFDGSSIEGLA
+RIFESDMLAQPDPSTFQILPWRGDEEQTSRMFCDILTPDGQPSAADPRYVLKRQLAKAAD
+MGFTCYTHPEIEFYLLKSDQPGPDGEPVPVDRAGYFDHVPGGVAQDFRRTAVSMLEAVGI
+SVEFSHHEAGPGQNEIDLRYADALQTADNIMTFRTVVKEVALMTNCYATFMPKPFSDHPG
+SGMHTHFSLFEGDSNAFFEAGAEFQLSATARQFMAGILRHAPEFTAVTNQFVNSYKRLWG
+GGEAPSYLSWGHNNRSALLRVPLYKPGKGQSARIEYRGIDSAANPYLSYAVLLGAGLKGI
+EEGYELPPGAEDDIESLSAAERRAMGHAPLPSSLHDAIRVMEDSELVADILGEQVFENFL
+RNKQADWNEYRQQVTAFELKKNLSIL
+>tr|A0A0P7HUJ8|A0A0P7HUJ8_9MICC
+MSWLDRERIIAPPGFNRWLIPPAALAVHLCIGQAYATSVYKTALVQYFDASLTQIGVIFS
+VAIVMLGLSAAVMGTWVDRNGPRKAMFVSALFWSGGFMVGALGIFTGQLWLVYIGYGFLG
+GIGLGIGYISPVSTLIKWFPDRPGLATGMAIMGFGGGALIASPLSSALLAFYDPDSGTDG
+WVASGDAVGKLFVTLGIVYLVYMLYGAWTIRVPADDWKPKGFDPATVAKKPLVTTANVSA
+SNAIKTRQFWLVWIVLFCNVTAGIGILEQAAPMIQDFFRQPDGASLVTAAVAGGFVGLLS
+IGNMGGRFVWSATSDVIGRKRIYMIYLGAGAACYVLLALFGSSSTILYVLLAFIILSFYG
+GGFATVPAYLRDLFGTFQVGAIHGRLLTAWSAAGIAGPLIVNSFLDAQGTPGELTAQAYQ
+PALLTMVGLLIVGFIANLLIKPVAEKHHEPAKTPAPGRTAEAADATAADATAEKDLDSTL
+EEGTR
+>tr|A0A0P7FYI9|A0A0P7FYI9_9MICC
+MRKVLALLLPALLMLTACSGSGSSEPLSSVKVSSNGDGAVPTVEFDTPLTAEEPTLVRVN
+DGDGEELAEGQTASVRLVVLDPESGEAGQETYTAEAAEDIAVDDSLKQGNEQMYDALVGA
+PVGSDFAYYVPGNEQAGTATQFIVFTLTDARDVPTRAWGSDVDPVEGQPTVTLDDDGKPS
+ITIPEGDAPTELIAQELKKGDGPVVEADDTVTVQYHGVKWSDGSVFDSSWERGAPTSFGL
+NQVISAWTDGLAGKTVGSQILIVAPPATAYGANEGNELQNETLVFVVDILETK
+>tr|A0A0P7H861|A0A0P7H861_9MICC
+MTGDPHNPDSHSAAQGAIENLFASLGVPDKNAVLAGEVVSLVEQDPLITSVRDLCTVLGL
+QERTLERFCARFLGVSPRWVIRQRRLQEAGVRIRAGASLAELSAQLGYTDQPHFSRDFRA
+ATGWTPGEFAGMVQGRTGTEPA
+>tr|A0A0P7FXI7|A0A0P7FXI7_9MICC
+MSSKSIQGTGGAGRAGDKVFSGITLLAGCLILTVLFAVAAFLLWQALPTFSAPSEDISGG
+SGFLAYIFPLVIGTVIAAAIALLIATPVGLGVALFISHYAPRRLSQALGYVVDLLAAIPS
+VVYGAWGMTVLAPALVGPYNWLAENAGWFPLFTGPASQTGKTMLTAGIVLSVMVLPIITS
+LSREIFLQTPKLHEEAALAMGATRWEMIRMAVLPFARPGIISAIMLGLGRALGETMAVAL
+VLSSGGLIASLIRPGNQTIAAEIALNFPEAYGLRLSELIAAGLVLFVITLIVNVIARWII
+SRHKEFSGAN
+>tr|A0A0P7HLB4|A0A0P7HLB4_9MICC
+MGSPASTSQTVPAPASPAPPPGHGPGAPAPHSRRQLALVFSGLIMAVLISALDQTIVSTA
+LPTIVGDLRGLEHLSWVITAYLLTSTIGLPIYGKLGDLLGRKNIFIFAIAVFLLGSALSG
+QAHSMGELIAYRALQGVGGGGLIIGAQAIIGDIVSARDRGKYMGLIGAAFGVASVSGPLL
+GGYLTEYWSWRWVFYINLPLGAIALALIITSLHLPKRSAAGIKLDYPGAILLAFASAALV
+GITSWGGTTYAWTSPTILGLGAAALVAIAVFIPVELRAPEPILPLRLFRIRNFVVCSLVG
+LAVGLAMFGSISYLPTFLQMVNGASATDSGLMMLPMTAGLLLSSIGTGQLISRTGRYKIY
+PILGSLVMILGLLLLSRISAETPYLFTALGMFVLGLGIGALMQNVVLIVQNSVPPQNMGT
+GVSSANYFRQIGGTLGIAVYGSVFISRLNDQVANAPEAVRGVTSQGVNSISPSQLKALPA
+PARDFIADAFGTALPPIFLLGIPALGAAFVLTLFIREIPLAKTANVQLEGEAQR
+>tr|A0A0P7GIK2|A0A0P7GIK2_9MICC
+MRVGLVIVSHSDKVAEGLTELAGQMAPDVAIIAAGGTDDGGIGTSLEKIQSGIAQAQGGA
+GVAILADLGSAVMTAEMALEFLDPDQSESVRLADAPLVEGAVAAAVAAQTGQDLAAVVRD
+AEAVAATMGSKGAEPASGPETTAEPADTLDDIDQDDNGVHEASWQLINPMGLHARPAAAV
+AQAMADLDADITINGVDGKSVMMLMTLGLKAGDTLTVSAHGPDAARAVEMLGLEVRNGFG
+EI
+>tr|A0A0P7H5M6|A0A0P7H5M6_9MICC
+MPDMEHWPTGRLLSTAARLVEHAWNERLVRIGVTHAGVIALGVLDSQGPMTQAHLAQLVR
+VQAQTMGKTLARLEAHGHVTRVRNDLDKRSHMVSITPAGIEALHEAQDIERTLLDGGELL
+SEDLRSQLRTVIRELGNPRWHMAVDVPGLPVPLDAPLDIPADTASQTA
+>tr|A0A0P7H8E2|A0A0P7H8E2_9MICC
+MSTPSPLPFSIGYGTNGFTDHPLPDVLELLHELGYGAVALTLGHPHLDPYAPDLDARLGS
+LRSRLDELDLRVVIETGTRFLLNRKEKHRPALVDEEAAARVDFLLRAVDIAAALNAECVS
+FFSGILPPGASPESGWQRLETRVAEVLRHAAGKGVLLAIEPEPGMFVETVADALALRTRL
+GNPDGLGLTVDIGHCVVVEPDGVRGALLEAGPLLANVQLDDMRSAAHEHLPFGEGEVDVS
+LALATLAELNYRGVAAVELPRHSFDAPNLAARSMAVLQAAWREVQAGKAAEQWLQEGKAR
+LAADPGALPGLFATAGRSVGRTPLRPDADPTGVLHGSVGDHVRGQLVRHLLDLMPPQELA
+ETVLSLYDRGDSSERRGVLRGLGALAEAQPDLPAPVVAAGVQITADALRTNETGLVAAAA
+GPFAAAYLDQHNWRHAVLKLVFMGVSLTAVTDLQDRADDELARMAADFAAEREAAGRTVP
+DDVHLLLNRAATNLP
+>tr|A0A0P7FUJ3|A0A0P7FUJ3_9MICC
+MAKLILTHEVTGLGAAGDVVEVKDGYARNYLVPRGFALTWTKGGEKQVESIKAARAAREH
+ASLEDAQKQAAALSAKPVKLTVKAGESGRLFGTVKPADVAAAVEAAGLGSIDKRKVELPT
+HIKSVGSFQANVRLHDDVAAVIDLEVVAS
+>tr|A0A0P7GNU9|A0A0P7GNU9_9MICC
+MEHGSARQAAGRYLRWPVDGLRGTITRSPVTVSVLVLFWFLGILTSSIITGPEGELLPWV
+SVSVTTLPQYWPALILSALWANGLAGYLSGTLLALVVGLPAERLLGSRRFLAAALGTQLA
+GALLAIGFTAVTRTVFDAWGRELSTDTFVGPVALFCGVAGAASAGLGTLWRRRIRLLLYT
+LLVVLALFSGSLRDVMALGSAVVGGLWGPYLFGRRPRRPQGFVSSRREARILVALAVAAT
+AAGPVIAALNVRAVGPLAILAYLFTNAETLDPAALASLCADSARQAECRAAKLELSAGPA
+GFFLAVLPQVLLLVFAVGLRRGRRFAWISALTLQGLMILAAGIRIILFLSGELGPVFGFG
+ASGQPLPLVLPMLLPLLVFVLLAVSGRRLFQVSAPPGTYRRLFLTCFAAAVLLAGAWVGG
+GLLLRSGFTPAATLSSLLADLPLRFLPVSELTVGAPQLLPAYAPATILYEGVGVVFWILV
+CVLVLRSFSLPAYAPYTEAKERARSLLKATGGSTMAWMTLWSGNSYWFSPTGNSYIAYRL
+GSGVALTVGDPVGPPQELQQSVDGFAAYCADSGVTACFYSVNAATREATARLGHTDLQVA
+EETILPLGSLVFKGKRFQDVRTAFNRAGKAGIRAEWTTYSKAPLSVLDQINAISEEWVAD
+KQMPEMGFTLGGLEEIDDDGVRLLLAVDQDRTVHGVTSWLPIYRDGRIVGWTLDFMRRRG
+RGFPAAMDFLIASAALSLQDEGFSLLSLSGAPLARSAASAAGKSAEPDAAAPPPALDWVM
+NRLGAALEPVYGFRSLLAYKAKFQPQYVPLYMTYLDAATLPAIANALTRAYLPHVSVGQT
+FTMARRIVGSQR
+>tr|A0A0P7GKW4|A0A0P7GKW4_9MICC
+MTVQPTAKPRTAALPRKLSVAVTTAAIPAVMMSSLALAEPAQAAPAPSPSKALFPQLPLQ
+AKKQLTGALIPASQLAAQVPATVAAESAAPATHRIVPGDTVSSIAARYGLDLNEVLRINN
+LTPTSIIFAGKELKLTGTATAPAAEAPAKGTYTVEAGDTLSAIAAKHDVSLASVLKANGL
+SMTSVIHPGQQIAVDGAAPSAPSAPAAAPSAPAAPAPASAGTYTVVPGDTLGAIAARHGV
+SLQTVLEANNLSMTSIIRPGQKLSLSGSSTITTASSTPAAPAAPAAAEAPTDLVPSTFLH
+YTYPQHVVANANLNKQALNAVAVPSRAQMQQMVADTAVSMGVDPALAQAFALQESGFDQR
+AVSPANAIGTMQVIPSSGEWASDLVGRQLNLLDPQDNVTAGVAIIRALVRTSPSLEVAIA
+SYYQGQYSVTTQGMYPDTQAYVASVLAHRSGF
+>tr|A0A0P7HEN3|A0A0P7HEN3_9MICC
+MTSPSERYLAAKERTGHARTRLGIFEQSLGFDLDPFQLEACRSVEAGRGVLVAAPTGAGK
+TVVGEFAVYMALERGLKAFYTTPIKALSNQKYTELAASYGSENVGLLTGDTSINPEAPVV
+VMTTEVLRNMLYANSETLDDLGYVVMDEVHYLADRFRGAVWEEVIIHLSSDVQLVSLSAT
+VSNAEEFGAWLDTVRGDTDVVVTEHRPVPLWQHVMVGREILDLFANDVTFDEAAGDNSAA
+EGAKDRIKVNPELLEVARSESRMNHRGRWGGPRSGTGGRKPANVRGASAGHTMTRTPRAS
+RPQVISQLDKRGLLPAITFIFSRNGCDGAVRQCVDSGLALTNEAERAVIARTVDEATQDI
+PEDDLEILGFWTWREGLIRGFAAHHAGMLPTFKEVVEKLFAAGLVRAVFATETLALGVNM
+PARSVVLEKLDKFNGEAHVDVTAGEYTQLTGRAGRRGIDVEGHAVVLWQPGTDPAAVAGL
+ASRRTYPLNSSFRPTYNMSINLIAQFGRDRAREILESSFAQFQADRSVVGLARQVRSREE
+SLAGYEKAMTCHLGDFTEYAGLRRQLSDLEHTASRTRARSQRSAAAASLETLRPGDVVDV
+PGGRNPGFAVILSPDSEAREPRPTILTEDKQIRRLHVQDLDGPVDVVSQIRIPKSFNARA
+PKDRRDLASSLRNALREHRPPRTAGGRGASMHAAGSERQERAIAELRRKMRAHPCHGCSD
+REDHARWAERWWKLRRETDNLAAQIRGRTNTIAKTFDRVSGVLEHYGYVRPDEQGVLQVT
+PAGSKLRRIYGEKDLLAALGLENGAFDDVDAVELACLATALVYQPKREERGLRPKMPSAV
+LDGAVDILIRQWSELTDLEEAEKLPVTGEPELGLVWPMYKWVRGKHLQVALNGTELAAGD
+FVRWSKQVIDLIDQLAKVPDIPADLRRRCRDAIGLIRRGVVAYSAVSE
+>tr|A0A0P7HUE2|A0A0P7HUE2_9MICC
+MTSARFGLLLDVDGPVASPVTRSVSPAVIGHLVSLASAGWPVVFNTGRSDDFIRKQVMEP
+MIAAGLPSGVQLHAICEKGGVWFSFNGSGPGDVSVDEDLALPDSYAAAIRELVARKYTGH
+MFFDETKRSMVSVEQNVDVANADYLAEQKEFDADALALMSEFDMGVCRLDHHAPNSDDSV
+DYRIDPTIISTDIEALGVGKDLGARRALALLEANGTAVPRTWRTVGDSRTDYAMADELHA
+LGYDVAHVDVRPADGVPAKPYPVLTAGERIHDDAGEAFLRRWTQMAAGEASDDSSVV
+>tr|A0A0P7HNT7|A0A0P7HNT7_9MICC
+MADTAELEVEIVAADHFVWSGPAKMVKARTADGEIGILPGHAPVLAILAEGELAIEPVSG
+SRITVGVDGGFFSVDSNRVVIVADNAQLNDAANAGTR
+>tr|A0A0P7FH97|A0A0P7FH97_9MICC
+MVPRRVVLLGSTGSIGTQAIAVADAAPERFQIVALAAGGNNLDLLAEQAVHTRAAAVGCA
+AADLAALRHAISRASTSAGVTGYDPELFVGAGAATAVAAWPEAEVVLNGMTGSIGLEPTL
+AALAAGHMLALANKESLIVGGALVKQAARPGQLVPVDSEHSALAQALRSGTFEEVDRLVV
+TASGGPFRGRRREELADVTPEQALAHPTWKMGRMVTTNSATMVNKALEVIEAHLLFDVPL
+DRIDVVVHPQSIVHSMVQFTDGSTIAQASPPDMKLPIALGMGWPERVPGAAAPCDWTKAT
+EWTFEPLDEEAFPAVRLAKEAAASGGTGMAVYNAANEEAVDAFHDGLIGFTDIVDTISAV
+LAEHTASGELTLQSVLAAEKWARSAARARIGRG
+>tr|A0A0P7FZ30|A0A0P7FZ30_9MICC
+MDGLGAAGQVEQLTKRTPQVSTDELLQGFFPSPRFGEVSFDSYIPDPSQPSQAEAVAAMR
+DFAASVDTPAPSGFRKLFGAKKPETKAGFYLDGGFGVGKTHLLASLFHAVEGPKAFGTFV
+EYTNLVGALSFRKTVDALSQYKLVCIDEFELDDPGDTVLMSRLMRELADAGVKLAATSNT
+LPGSLGEGRFAAVDFQREIQVLADQFDVVRIDGEDYRHRGLPESPPPLDEAGLAERIAAE
+FDGKTVGEDDFADLVNHLSNVHPSRYRQLIDGIDAVAWHNVHTITEQSVALRFVVLADRL
+YDKDVPILASGVPFDQLFTKEMMAGGYMKKYFRAVSRLTALAREGQTGEAS
+>tr|A0A0P7G8S4|A0A0P7G8S4_9MICC
+MERETVGENENIECWLTDMDGVLVHENQAIPGAAELINRWVDTSKRFLVLTNNSIYTPRD
+LAARLHASGLDVPEENLWTSALATAEFLKDQLKGSPSPGRAFVIGEAGLTTALHEAGLIL
+TDTNPDYVVLGETRTYSFGTITKAIRLILDGARFIATNPDVTGPSAEGPIPATGAIAALI
+TAATDREPYIVGKPNPMMFRSAMNKIDAHSETTGMIGDRMDTDIIAGIEAGLTTVLVLTG
+ITQREDIARYSFRPTQVIGSVADLIGTI
+>tr|A0A0P7G452|A0A0P7G452_9MICC
+MESLWLDTSPAIPADPFAPGTVYDTVVVGAGLTGLTTAVMLARRGQRVAVLEARRTGAVT
+TGNTTAKISLLQGSVVSEVARHHDTGTAAAYVAANRRGQEWLLGFCDASGVGYEIRDAWT
+YAATEQGAAAVAQERDACRAAGLPVESTTETELPFPVQAALRLPGQAQFHPLEALAALAS
+ELKSLSGTLVEGVRVTEVHHTDAGVRVVTRPGDVLAAQVVLATGIPILDRGGYFAVVKPQ
+RSYASAFPVTGDVPEGMYLSVDSPSRSLRTVTAGGTKYLLAGGNGHPVGREPHTRDKVNG
+LHEWTREHFAVDAARYDWSAQDYQPASAVPYVGELPVLGKNIYAATGFNKWGMTNGVAAA
+ITLAARILGEPDPGKDLYKTRVSVPDAVTTVQNNAEVGLQMISGWAQGIARTTEADPPEG
+LGVVVRESGSPVAVCTVNGVTTRRSAICPHLHGVLSWNDAEASWDCPLHGSRFSADGEVL
+EGPAVKGLDPA
+>tr|A0A0P7GJ72|A0A0P7GJ72_9MICC
+MATFGIEEEFLLVDPATGLPTPRAEEMSRALAAQPAFPATDPPVPVGQSEFLACQLETST
+IICDTLDDAAVSLLGARTAIAAAAASTGIGVVPSGAAPRIADTPAEVTGTERYRAMGKLT
+GAVAGEHYVNGTHIHVAVPGRDSGINALNKLRPWLSTLAALAGNSPFWRGLDTDFSSWRL
+IHYRRWSVQGCPPEFADASDYDRRLARLLGSDAVLDSGHIGWAARLSEHYPTVEVRVGDA
+QLEAADSVLLAAVVRGLVLSNSAAPDSHPDPELLDAGLWQAARYGLGGRLMGVLGDSSAA
+AEQVDALVDHIRPVLDENGDLAYVLAGVQRMLTEGTGAVRQRAAYAAGGWNGLTGLYESA
+LTAGS
+>tr|A0A0P7GAK7|A0A0P7GAK7_9MICC
+MSTSEVVAAAVGTEVLDTESAYAQAWTPQAGAVVTFSGIVRNHDGGRDVRSLGYSAHPSA
+SAVIADVAARIAAKYDGVRIWAAHRTGPLEIGDAALVAAVASAHRGTAFAACSELVDTIK
+AEVPIWKEQVFADGTVEWVGVSDAPA
+>tr|A0A0P7GCH6|A0A0P7GCH6_9MICC
+MSDRLMLLDTASLYFRAFYGLPDSLRRQDGTPVNAVRGLADMIARLVTEFKPTHLIACWD
+ENWRPQWRVDLLPTYKEHRVARVVDGGSDVEEVPDALEAQIPMIQEVLSLAGIAVAGVPD
+HEADDVIGSYAAQAGMPVDVVTGDRDLFQVIDDSRGIRVLYTAGGMKNLKEMDDAAVVAK
+YRVLPEQYADYATLRGDSSDGLPGVSGIGEKTAASLLAEFGTLDSLLAAAGDKGSTLSAN
+MRSKLDAAREYLEAAPAVVRLVRGLEVPSLKDARLQPVTGDRRARLETLAGDWNLGGSVR
+RLLASLDSAA
+>tr|A0A0P7GD27|A0A0P7GD27_9MICC
+MIGSMSLRSQLFLLQLLIVLVVVLVAGSVAVRMQAEQIRDAYEARMVGVATSVAQLPSVV
+EAFSEPDPSTAIQPIADLITQATGVTYVVVTDDAGIRYSHPNPARIGSKVSTDPSVPLSG
+DVYVGTQTGTLGTSWRVKVPVFAPDSTVIGTASVGILESELQAELQEDMPELIAWLIAAA
+VLGFAGASWLSRLVWKRIYRLEPEEIAQLLKTRDAMLHAIGEGIVAIDERGNVALVNDEA
+RRLLELPADAEGRPAKEVLPANLAAMLHSAGETDETVLAGERVLLARAGGAVVDGRRTGG
+VLILRDRTELHQLLQDLDGARDATSALRAQAHEFSNRMHVISGLLELGHTEQAVDFIARS
+GHGGSLLATTTTDGITDPDSAALLMAKGSLCEEKGIDLVLEPGADLRPDGTTDCVTVLGN
+LLDNAMDAAGKGGRIRVALSWQAGRQWVTVSDNGPGIPAEERVLVLREGYTTKGHNRPGT
+RGFGLALVSRIALRRSGTVRITDAPGGGAQITVELGPSQPPVAAGRRGSSEHDAGRGTE
+>tr|A0A0P7FGJ2|A0A0P7FGJ2_9MICC
+MAHYVIMGCGRVGAMLAHTLDNAGHSVAVIDQDPQAFRRLRPAFTGSRVTGVGFDRTTLE
+QAGIEEAYAFAAVSSGDNSNILSTRVARETFHVPHVVARIYDPGRAEIYQRLGIPTVAAV
+RWSADQVLRRILPEQSINGDFRESSGRLILGELSLDPSWLGRPLHEVEAAAGVRIAYLTR
+FGEGVLPRPDTSYQQGDVLHAMMHVERTAEISRVLSAPPAKENP
+>tr|A0A0P7FEL0|A0A0P7FEL0_9MICC
+MLERIAEVWPELLAALGQTGTMLLVAIPLAVLIGTPLGVLLYSLGPDGLGHKPRLHRVLD
+SLVNLVRSFPFLILLIAIIPFTRFVVGTTIGTAAVIVPLTINAIPYFARFVEQNITALGG
+GVVEAARSMGATRGQIVRDVLLVEARPALISSVTIMTVSFISYSAMAGLVGGGGIGDFAI
+RYGYYRYETGLMLTAIVLMVLLVQAVQLGGSWLSRRADKRL
+>tr|A0A0P7GV04|A0A0P7GV04_9MICC
+MALRIQAELPDRGVDVAFEIGDGETVALLGPNGAGKSTVVSLLAGLVQAENGRAELNGTI
+LFSLSNGKGLSLPAYRRGTSLLAQEALLFPHLSAEENVAFGPRSTGTSRRAARAAARRWL
+AETDAAAFASKRPGELSGGQAQRVALARALAAEPDLLLLDEPMAALDVETVPVMRRLLKR
+VLAGRSALIVTHDVLDALTLADRVLVMQEGRIVESGPPAEVLRRPQNPFTASLAGLNLIR
+GGVSGGRLVTADGLQITVPDAGAAAQAAGALLAAFPPSAVAVRRPGAPGTADPGREVLSV
+TVTDLEPQGDRIRVRGAGLAADISPAAAAELSLGVGEQAEFLLDTSAVTSYAATAVPG
+>tr|A0A0P7GM60|A0A0P7GM60_9MICC
+MLAELRQSLKGEVDGGPARRAQYSSDASNYRIAPLAVVLPRDEDDVLAALKIAGRHQVPV
+TVRGGGTSCAGNAVGPGLVLDMSRSMNRIISIDPETRTAVVQPGVVLSDLQAAAAAFGLR
+FGPDPSTATRCTLGGMIGNNACGPHGLAYGRTADSVLGLRLLTGDGRVLELGAGRESFDQ
+VPGLEQFVLARLETIRTEFGRFSRQISGYSLEHLLPENGRNLVAALTGTEGTCGIILEAR
+LQLVQRSPAPALAVLGYPDMAAAADAVPGLLPHGPLALEGLDSALVESVRRSGADLPDLP
+AGGGWLMAEVGGATESEAVASAQAMVRDGGALDAVVLPSGPEARKLWQVRADGAGLAGRT
+AGGLQAWPGWEDSAVPPEHLGDYLRSLTALMEKHRLSGLAYGHFGDGCVHLRIDFPLDAD
+GKAMRAFLFAAAELAASYGGSLSGEHGDGRARSELLGAMYSAEAIAAFAAFKALFDPQGI
+LNPGVVVDPDPLDAALRRPQAVEVRAGDGFAFAHDAGSVTDALHRCVGVGKCRADLRAEG
+GFMCPSYQATRDEAESTRGRARVLQEMLNGGIIEIGWSAPEVHEVLDLCLSCKACANDCP
+TGIDMAMYKSEALHQTFKGRVRPLTHYTFGRLPAWLRLAGPVAPLINLAGRIPGFGRLAM
+RLAGADPRRALPKLPNRPFRALHQARNRPTENGPESGHPVLLWVDSFSDTLSPDVAKAAL
+KLLTAAGCDVQLAGPGACCGLTLITTGQLTAAKAKLSRTLDLLYPHVQAGRVIVGLEPSC
+TAVLRSDILELLPQDPRAQAVSRATKTVAELLDSMGWTPPQVGEALLVQPHCHHHAVMGY
+SADLALLEKAGCDVEVSSGCCGLAGNFGMEKGHYEISAKIAGDGILSLAAADPERAVLAD
+GFSCRTQVADLAGLPARHLVQVLADALDKPEDSRL
+>tr|A0A0P7GKP4|A0A0P7GKP4_9MICC
+MAEEATAQEFDILILGGGSGGYAAALRSVELGFSVGLIEKGKLGGTCLHNGCIPTKALLH
+SAEIAENAKTAEKYGIKATFDSVDMNAVNSYKDNIIAGKFRGLQGLIKSKGITVIEGEGR
+LTSEKTIEVNGRTYTGSNIILATGSYSRSLPGLEIGGRVITSDQALTLDYVPKSAVILGG
+GVIGVEFASVWNSFGVDVTIVEGLPSLVPNEDASIIKNLERAYKKRGIKFSTGIFFEKVE
+QNDDGVVVTLADGKTFEAELLLVAVGRGPVTANLGYEEAGLTMDRGFVITNERLHTGVGN
+VYAVGDIVPGLQLAHRGFQQGIFVAEEIAGLKPVVVEDVNIPKVTYCEPEIASVGLTEAK
+AKEKLGAENVQVQEYNLAGNGKTSILGSSGLIKMVREKDGPIIGVHMIGGRIGEQIGEAQ
+LIVNWEAYPEDLAGLLHAHPTQNEALGEAAMALAGKPLHG
+>tr|A0A0P7GLS5|A0A0P7GLS5_9MICC
+MQMLQAILIGLPMTILVTVLSLALGTVAALPLLAGLRSGNRLLWLLSRGIIDLLRGVPPV
+VWLFILYYGVSVGALRLTALQAGVIGLGLVSAAYLAEIFRGAISSVHSGQWEASSALGFT
+RTTLWRRVVGPQAWRTAIPSYTTYSIGLLKDSSIASTIGVAEIVYMSNQYARQSGEGILI
+FFIAAGVYIALSLPLGILSRHLDTKMRKVVAR
+>tr|A0A0P7G5V6|A0A0P7G5V6_9MICC
+MEGFLELFGEYDVVGAFWVNIQLTFWAALWSLVLGTILAVMRISPIASLRWFGTAYVNIF
+RNTPLTIIMVFGTLALWSQLQVNLSGDFQLNFFRLAVLSLSVYHAAFVCEAIRSGVNTVP
+LGQAEAARSIGLSFLPAAWLIILPQAFRGAVAPLGNVLIALAKNTTVAAVASVAEASGLM
+KTMIEFRPDLMTQIFLTFALGFVLIVIPIGLLTTWASKKLAVAR
+>tr|A0A0P7G625|A0A0P7G625_9MICC
+MYGSCSLSEEQREAAVALFELGWGYKVATKLGVGKKAIGGLYDRWRVRGGTTLLAKPTER
+RFSFEFKLMFVQRFLAGETKVALAQEFQLSSPILIKTWAGQYRSDGEEGLRPKPKAARKH
+LPGPRSPRRHCTKG
+>tr|A0A0P7H8Z4|A0A0P7H8Z4_9MICC
+MVNTVLGPVPAAELGVTAVHEALLSVVPGAEYAPDITMDRAEIFEILAGKLRDFAEAGGG
+TVVDSTGMFHGRDLPLYEALSRSTGVHIVASTGMGPEEMLGGYFLTPQTNPPTPWPAEKF
+ADLFSREVAEGMVIPRLERRAAAGLVATAADRAGITPTEESLFQGAARTALATGIPVSVR
+FGSDAVRELELVLAEGLQADRVVVGGLDRKDSAGTAVEIARRGAYAAIDHVGLNDDGSYL
+DDSERAALVLELVAAGCADRILLSSNSIGAAFGQPDYDLPYGHVLTSFLPFLLTQGLTEA
+DARLITAENPQRLLSVR
+>tr|A0A0P7HI28|A0A0P7HI28_9MICC
+MSIPSTRFPGGRPRLLLNAFLMNTTSHIRGGQWRHPDAEQHRFNELSFWTDLARQLEAAK
+FDALFFADVVGLYGDHDGGWSSHVRRGLQVPANDPLLLLAALSGATRDIGLAATSSVVQS
+HPFQFARQLSTLDHLSGGRAGWNIVTSVLENAHRNFGGDGLTEHDRRYDWADEYTDAVYK
+LWEGSWDDGALVQDKASGVHADPDKVHKIHHRGERYSIDGPHLSSPSPQRTPVLFQAGSS
+GRGQQFAAANAEATFIFAPNHAHAAKVSAGVRARAAEAGRRPDDIKVFTGLSFVVGGTEA
+EAQRKKAEQDEFLDLDAVIAHIGGGLGIDLGGLDLDTPLGDVQTEGGRGVLQAIIDSTPG
+GNPTLADVARYRTEAQQVTGTPEQIADELERWQDAGVDGINIINAILPGSYTDFIDGVLP
+ELRRRGLAQSEYAPGTLREKLFGAGPLLNERHRASQFRGAFTPENTLATPGVTR
+>tr|A0A0P7GSG2|A0A0P7GSG2_9MICC
+MSIDFKVADLSLAEAGRHQIRLAEHEMPGLMALRREFGPSQPLAGARIAGSLHMTVQTAV
+LIETLTALGAEVRWASCNIFSTQDEAAAAVVVGSGTPEDPQGVPVFAWKNETLEEYWWTA
+EQILTWPEGSGGPNMILDDGGDATLLLHKGVEFEAAGAVPANPDEDDPDYAYEYTVILDT
+LRRSLAEAPGKWTEIAKGIRGVTEETTTGVLRLYQLAADGQLLFPAINVNDSVTKSKFDN
+KYGIRHSLPDGLNRATDTLIGGKVAVVCGYGDVGKGAAEALRGQGARVIVTEIDPICALQ
+AAMDGYQVARLESVVGQGDIFITTTGNKDIIMASHMAQMKHQAIVGNVGHFDNEIDMAGL
+ARVPGIRKVEIKPQVHEWIFDEGKDTQRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQT
+IAQIELFTKYGQNKEDGTPEYANQVYVLPKILDEKVARLHLGALGVELSELTKSQAEYLG
+VDVAGPYKPDHYRY
+>tr|A0A0P7FYN0|A0A0P7FYN0_9MICC
+MGQLEHKGAIVTGSSRGIGAEVAKLVAAEGAGVVVNYRQKAPRANKVVAGIEAAGGRAVA
+VGADLTSPEGPAALVEAALNSFGSLDLLVLNASGGMETGVEDNYALKLNRDAQVNMLTAA
+AAQMKPGSRVVFVTSHQAHFINTVPTMPEYEPVARSKRAGEDALRAMIGELEEKGISLVV
+VSGDMIEGTVTATLLDRANPGAIEARREEAGRLYSVEEFAAEVARMALADVPTGHTEYVG
+GADYLSA
+>tr|A0A0P7H8N1|A0A0P7H8N1_9MICC
+MIQQPDLESLKGAVRGIVSLPGEGTYAEDTAAFNLAQVHHPDAVLGAVDAEDVRSAVVWA
+AHRSIPVAVQATGHNAAAPMDEGLLVNTSRLQDLHVDPESGTFSVGAGVRWDTALRELVS
+RGLTAPHGSSTRVGVVGYTVGGGLPLMGRALGFASDHVRSFDVVTPDGTLRYVDAETEPQ
+LFTALRGGKGNYGIVTALRMAAVPLGDFYGGQLVYPEEAAGDVLDAFRSWAPGLPNEASA
+SLAFMHMPDVPFLPPEIRGTAPVILRFGLFGDEEWGDQLLGPMRSLPAVSDTAGPMDYLG
+VDAVHGDPADPAPSMERGMILADLDEDAAAELLRQIGPGSGTPVVMLELRLMGGALAQEP
+PFPDTVSGRSAAFHLFVLGVPGLPAPDQVESALARLAVALEPYAAGSLINFHGPAGDEQD
+RARAWEPAAYEVLKSAKASWDPQNLFRFGHAVPPVGLMDIPAG
+>tr|A0A0P7HG89|A0A0P7HG89_9MICC
+MFTEDFDTIVVGAGVSGLSAARALAASGQRVVVLEARDRIGGRLHTERLDGRVTDLGASW
+IHGVDGGPLHSLTRSFDMPDVEFTVGSYQAGGRPIAYYGPDGTRLPDGAVERFVADAALV
+EVRLVKVIEAMAPGASYAEAARTAVGEVAAAEGWDAERAERVVEYLDHRSEEQYGADSRL
+LDAHGLEDEVISGDEVVFPRGYDELASKLAAGIDVRLEHAVTRVNRIGAAGVERGVVVET
+DQGVFTAAQAVVTVPIGVLQSDLITFDPPLPELVTGAISRFRMNAFEKVFLRFAERFWDA
+DVYAIRRQGEAAKWWHSWYDLTDLHGEPTLLTFAAGECAQEIREWSDERVVDSVMASLRD
+IYGSRTLDPVHARITDWQGDVWAGGAYAYMMKGCTGEDHSRIATPIDGVLHLAGEVTWED
+DPATVNAALCSGHRAAERILGAEIPYSSLSTEGVL
+>tr|A0A0P7GUA5|A0A0P7GUA5_9MICC
+MRNRPGSRRAVSAAAAALGGSAELVDFLIPLWAGIELEIGSAAIGVLIAVELTVSVAARP
+VAGRLTDAFARTRIAAAGALVYALSCLGYAFAGSLSWALAAAALGGIGGALFWIAVRAVA
+AEFLDSDSGSMAGLLSSESFGSWFFWIPAMVLLPAIGFFGVFTALAAACLAAALWLVLVP
+AAPSSAPEAAEAESRGSGLRPLLFLAALTAVAEAGVGLLLLLYLQNTAGLEVYQIALVYL
+PGGIALTVLPRVLHRYTERRGRRAGYVAASVCSGVAAGCLAFTPSPLVIAVLWVLTCASW
+AMLIPMHGAVVAETGRVRLGRGMALLSNAGLIGAAAGSLLAGFL
+>tr|A0A0P7FQL7|A0A0P7FQL7_9MICC
+MPLPVTEVETVVTAALAEDSPWGDLTSHALVPEAAEVTAFLTAREEGIFCGEQILEAAFR
+LAGPGTSVMCLVRDGERFDAGGILAEVSGPARSVLTGERVALNLVQRLSGIATQTARFVA
+QAAGTRARIADTRKTTPGLRALERYAVRCGGGFNHRYSLSDAVMAKDNHLAVIAAAGMDL
+ATALRQAKDRLPHTVHFEVEVDSLDQIEPVLAGGADTVLLDNFSIEDLRRGVAVVNGRAL
+VEASGNVRLDTVAAIADTGVDIISAGALTHSVRALDLGLDIRATVPQAQPR
+>tr|A0A0P7FB54|A0A0P7FB54_9MICC
+MLYSVVITVLSMAVAIFFATVNTRMDVPFRRFITPVMVILVAMPTVLYSLSWAMLGAGQS
+GLINRFFAFIGMDGLAEAFNTRSWFGLVLVTVLKAGALAYMIVLGAFRNQNSALEEAARI
+GGASRAQSFFGIELPALLPALAAASLFVFVKGLEAFETPAVLGLPAGINVYATHIYDYLR
+GGYEADYPAASASSLVIVVILAALVLLQLKLTGGGKTYTSVGGRSKGTNLRSTGKWMPVV
+VGIMLLHFFIALVLPIAQVILSAFQPYLGAPTLTLQNIERLLNTPNVMQALQTTIIVSTV
+GGVLTVVLALVVSFAFVRMKGKLGRFIQLASWVPAAMPGLVLGLAFLWSVLLTPGTRSLY
+GTVWILVIGLAVATVPLATRTLEGALAQIGVDMEEAARIAGDNFLRAVGTVTVRLMGPSL
+ISAWFLVAITMSGILDVPILLGSARTEMIATVSFGFYNSGETVLASALYVIFTCAMAALA
+GAAFLAWLLVRALVRRSSTRTAAEVQGVPQ
+>tr|A0A0P7FI10|A0A0P7FI10_9MICC
+MLRRWKSASLRSQLVVIMAVLMVVTVTITGLATIYVLRQILISRLDTDIQDNAGAISRYL
+VSGSASTDASLFRFYGLYLNEDGTHGPETHSEPTFDTPVIDPLTSEDVDALGGRGFDVPG
+TAPGSKGWRVKVFHIANFPGSIAVAVPLDSVAETVDEAASLVFSVGLLGTLGATGIAYWA
+VTRQFRPLSQVEKTAAAIAAGDLSRRVEVGNPATEIGRLSRSLNAMLAHIETAFAARTAS
+EQKMRRFVQDASHELRTPLVTIRGFSELYRQGALQKPEDVAAAMGRIESEAKRMGQLVED
+LLTLARVDEQRPLEYQPVDLMILGNDAALDARASAPDREIRVIGLDGNSPRSAPTMGDEA
+RLRQVVANLMTNALRYTPPGSPIEVAVGVAPVIHNRMDAVLEVRDHGPGISEEDAARVFE
+RFYRADSSRYRETGGTGLGLAIVAALVAQHDGTVRLTETEGGGATMSIRLPFIPADGSPD
+QEPDNEEHPGGP
+>tr|A0A0P7GT66|A0A0P7GT66_9MICC
+MKLDVTIEIPKGSRVKYEIDHETHRLRLDRVLFTSMQYPTHYGYFENTLGEDGDPLDAMV
+MLQDFDLIPGVLVESRPIGVFNMVDDGGGDAKVLCVPTDARFDHIKDISDVSDFLLDEIK
+HFFTKYKDLEPGKWVEAADWEGREAAEAEVEASLARFKAQGEASEEDEPQGRDVDASPEN
+N
+>tr|A0A0P7FEL7|A0A0P7FEL7_9MICC
+MTVSANSTAEQKKFNIDTVEHAASTPDTPLPWAELGLKEDEYNRVVEILGRRPTAAELAM
+YSVMWSEHCSYKSSKVHLKQFGDKVTEKMKEHLLVGIGENAGVVDIGEGWAVTFKVESHN
+HPSFVEPYQGAATGVGGIVRDIISMGARPVAVMDPLRFGAIDHPDTARLVHGIVSGIGGY
+GNSLGLPNIGGEVVFDSVYQGNPLVNALAVGVMRHEDIRLANASGAGNKVVLFGARTGGD
+GIGGASVLASESFDDAKPSKRPAVQVGDPFAEKVLIECCLELFKASVVEGIQDLGAAGIS
+CATSELASNGDGGMHVELTKVLLRDPSLTPGEILMSESQERMMAVVTPENVEAFEAIMDK
+WNVEYSWLGEVTDTGRLIIDWDGETIVDVDPRTVAHEGPVYNRPFHRPEWLDGVQADSFG
+EERPFGGEAVKNAVLELMASPNMCDKSWVTNQYDRYVQGNTALAMPDDAGVIRVDEETGL
+GVAISTDANGRYTYLNPYEGAKLALAESYRNVATSGARPMAVTDCLNFGSPEDPEVMWQF
+AEAVRGLADGCQELGVPVTGGNVSLYNQTGGVAIHPTPVVGVLGVFDDVARRTPSGWRED
+GQAIYLMGVTRDELDGSEFANLRGHLGGQPPKVDLQAEKLLGDLLINASRDGMIDAAHDL
+SEGGLAAALSEMALRFGVGARIGLDEVAERDGVDLFTLLFSESQARAVVSVARSEEVRFK
+DMCSARGFAHSRIGVVDTEIGALDFQGHFVLPLDELKEAHEGTLPKHFG
+>tr|A0A0P7FF38|A0A0P7FF38_9MICC
+MLAIVCPGQGSQTPGFLAPWLELPGVREHLEALSDTAGLDLVAHGTVSDEETIKDTAVAQ
+PLIVAAGLIAARQLLDTGALTAATVVAGHSVGEITASAVAGALTEQDALLFVRERANAMA
+RAAAEVPTGMSAILGGDPEDVARVLDGLGLTAANANGGGQTVAAGTLEQLQELSANPPAK
+ARVIPLKVAGAFHTTHMEPALSVLEALRPSLSPAQPLPTLLSNYDGAAVVSGEANLDSLI
+AQVSRPVRWDACMETMTAMGVTGILELPPAGTLTGLARRGMRGVPSLALKSPEDLAAARA
+FVAEHSGAAAVTTQEGNA
+>tr|A0A0P7H4X2|A0A0P7H4X2_9MICC
+MSAEMKEQVRSRFKKLRRDLPETVSTAQELRTAAAPLLQPLKPGSLVSCYLSAGKEPDTT
+DLLQAITLAGHTVVVPVCEPDHQLSWCVWTPDTELVPGLFPGIPEPAGPRLDLTRVLGLD
+LLLIPALAAASDGVRMGKGGGYYDRFLTAFRARGGTAPVVALVHDHEFVPAGGLPADALD
+VPVDGILTPSGYTRADGREVYT
+>tr|A0A0P7G7Y7|A0A0P7G7Y7_9MICC
+MGSATGKAPEDSAARALDAVDVAAWCTRFELISDPTRLQLLLCLHFSPGITVTRLAAASG
+VSQTVVSQSLRRLRDREWVQAAKVGREHRYRIVDDSLHQLLHVIGAPHSDHSDQHSRTHG
+VPGPA
+>tr|A0A0P7H4D0|A0A0P7H4D0_9MICC
+MSNSAPDSSQRPMRVAIIGAGPAGVYAADILTKADRDFEVSIDLFDQYPAPYGLIRYGVA
+PDHPRIKGIVNALEKVLDRGDIRFLGNVNYGRDLTLKDFRHFYDAIIFATGALKDAPLNV
+PGVDLEGSFGGADFVSWYDGNPDVPRDWPLDAREIAVIGNGNVALDVARILSKHADDLLT
+TEIPSNVYEGLKKSPVTDVHIFGRRGPAQVKFTPLELRELSHSRDVDIVLYPEDFEFDEA
+SDEQIRTNNQTKTMVNTLTNWLVEEQDTGASRRLHLHFLHSPVEIHDDPSTPGKVAGIKM
+ERTELDGTGNARGTGEIIDYPVQAVYRAVGYFGSELPEVGYDSRRGVIPNEGGRVVDTSG
+TPVPGIYTTGWIKRGPVGLIGHTKGDALETIGYLLEDRRSLPAAEEPQPEAIIALLEERG
+VEYTTWEGWKRLDAYEKSLGAKYVHGDPGIGDLVRERVKVVDREEMTRISREGSE
+>tr|A0A0P7H4S1|A0A0P7H4S1_9MICC
+MRTYTPKPGDINRQWHVIDATDVVLGRLASQTATLLRGKHKPTFAPHMDMGDFVIIINAE
+KVALTGAKLEQKRAYRHSGFPGGLSSVNYAELLEKNPVRAVEKAIRGMLPKNSLAAQQMG
+KLKVYKGAEHPHAAQQPKTFEITQVAQ
+>tr|A0A0P7HM80|A0A0P7HM80_9MICC
+MWTGTLEFDLLLDDVHSLKQKRSLVRPLVAELQRKYSVSAAETGQLDLHRRAEVGIGIVA
+ADRAHVVEVLDSAERLVAYRPEVQLLSTRRRVLSSEDE
+>tr|A0A0P7GNY4|A0A0P7GNY4_9MICC
+MSTEHVDETVEELPEPGESGTASRLEEEGDVAADYLEELLDIADIDGDIDIEVRSGRTYI
+SVVSEEGDDSGLQSLVGEDGEVLEALQELTRLSVLTATDSRSRLVLDISGYRQERSEELH
+RIAEDAVSRAKTSGKDIALAPMSAYERKIVHDAVADLGLVSESEGEGAGRHIVVSLPDA
+>tr|A0A0P7GW31|A0A0P7GW31_9MICC
+MQGPPAAPSRNTAAAGLLSKSWARVALGLVVPFLLLGLWQLVSVLGVFSAVQLPSPGAVL
+TSAADLIERGELGTHIAISTQRVLTGFALGAALGLVLGALLGLSRLADVLLGPLFGAVRA
+VPSLALVPLLILWMGIGEDSKVTLITIGAFFPVFTTVSLALRHVDKNLVEAARAFGLNGI
+KLLTTVQLPAVVPAVFSGLRLALAQSWLFLVAAELIASSMGLGFLLTDSQNNGRTDRMFL
+AIVLLAVIGKTTDALLGVAEKWAVKKWA
+>tr|A0A0P7G3T5|A0A0P7G3T5_9MICC
+MDDLRSATATAAQLQDLLIHHEDVLEFLQHLARLSASSLSTRGTVYCGITLQRSRGHSYT
+VASSESVALEMDEMQYAFDDGPCLHALRIHEAIYVPDTAADERWPDYMKHVVSQGVRSMY
+AVPLALEGHARAALNLYSRSANTFDEDFQRVARAYASEASQALRLAVRMSQRASTVEDLQ
+AVLQSRTDIDLAIGIIMGQNRCSQSEAFETLKRASNSRNLKLKVLAGEIVAKLNGAPSQT
+HFQPS
+>tr|A0A0P7HDS8|A0A0P7HDS8_9MICC
+MGMGLLYAERAVREGARAVVLWDRNAEALEAAAQRLRGLGSAEIRPYTLDVSSAAEVAEN
+AEAVLAELGAPDVLINNAGIVRGKYFWEHSGTDIDAVMDVNTLAPMHITRAFLPGMIERR
+TPARILNVASASGTLSVPKMSVYTASKWAVIGWSDSLRLELEEAGHGHVQVTTLIPSYIK
+TGMFEGARGPLMTPLMEPEYVVDKAWKALLEGRARVQLPWTVPLGSALRGLLPQPAWDVV
+AGKVFKVYQSMDHFTGRPAQAAEKPVQESGNRA
+>tr|A0A0N8HXU9|A0A0N8HXU9_9MICC
+MKTEVRRRWRPSAIAWGLGGVLLPVLLWEGYKAVGPASGVSVGGMPLLPRTTDLAMPHVW
+TMLQRLLAPESSAPGAGPMWVAVLQAAGFTLGIAGAGWLLGVVVGLGLAMLMQRFRSANS
+AMLPWIILSQTVPLIAIAPLVRRWGSQLEFGPFTWENWMSVAVIAAYLAFFPVAIGALRG
+FGAPEKAHEDLMRTYALGWWQTFLRLRLPASVPYLLPALRLAAANAVIGAVVAEVSIGLR
+GGIGRMIVEFAAAAGGDPGKPWAPIFGAVVLGLAAVGFVALIGALLRRYRRGEQAV
+>tr|A0A0P7H3V0|A0A0P7H3V0_9MICC
+MAARKSPFFDTATTLGKIVAFFGVSALCGVLAAGLLVPAAAAAGTAASGSIQFFDELPSE
+LQRGALAEPSRIYANDGSLIATIYEENRQPVTLDQVSPHMVDAMLAIEDDRYYEHGGVDL
+QGIFSAIVSNVTSDRTRGASTITQQYVNNVIIDTNLQEGGEVVFSGQKTIGDKLREVKLA
+IAVEKELSKDEILEGYFNIVPFSGTTFGVQAASRYFFDVDAKDLSIAQAALLAGVVNGPT
+YYSPELNPERSIARRNLVLDAMLEKGRITQEEHDAAVATDLELNLTPVLNGCVGAEQAPY
+FCDYVKQLVLNDERYGATYEDRTKLLYRGGLSITTTLNPTLQNAAQAAINETANPDTTDA
+EIGHSMVSVEPGTGKILVMAQNTRYTPELAAGNSVQNFNVDAYQDGDPNKLLNGLGGFQP
+GSTYKPFTVAAWLDSGKTLNAQLNGNKRTYPAGHTWNASCLPGGRYAILDPWTPINYGDT
+NYRNTTVLEGLAQSLNTITLASANELDLCKFQQMAFAAGVHNGKSASGEREMLAVNPPST
+FGGGGDASPLAMATGFATFAAEGLMCEPRALESVKGSDGTEYPVPEQDCEQVMRKEVAQG
+VNMATQRVMTNGSGINLQVGVPIAGKTGTNDYRSQTWFMGYSTGMSTASWIGNWKANNTS
+MSDKLIGGRYYPEIDGSLIAGPSWKNFIQRVPGQYEANPFANPPANIVGQAPAPRPAPSA
+PARDNNRDNGNSGNNRNNDD
+>tr|A0A0P7GSM9|A0A0P7GSM9_9MICC
+MSNDEPFELARHAAAYIAEKTGVPRHDIALVLGSGWGEAAELIGETTATIPASEIPGFSA
+PAVQGHVGTIRSILTPGGKRALVLGARTHYYEGKGVRAVVHGVRTAAAAGAKVMVLTNGC
+GGLNLDWKPGTPVLISDHINLTATSPLEGATFVDLTDLYSPRLRDLARTVDPTLAEGVYA
+QFPGPHYETPAEVRYAKTIGADLVGMSTALEAIAARHAGMEVFGISLITNLAAGISPQPL
+SHQEVLEAGAEAGPRISRLLAGFIGAL
+>tr|A0A0P7FPD2|A0A0P7FPD2_9MICC
+MLSIGAFAQIGQVTHRMLRHWDTSGLLVPAHVDVFSGYRSYDPAQLERLHRIVALRSLGF
+GLEDISAMLDSGVDSGRIAALLRLRRAEVAEEARIAAARLIDVERRLHLIEKEKHMAQIE
+IIEKPLPALRLAARQAMVAEQPEVPGVVGPLFDSVAARLSPSGAPSGVPVAQYDMGEDGM
+RITAGFASPDPVPDGVEAVELPSVPMAICGVHLGSMDGIADSWQAVHAEIIARGLTPSGP
+CREVYLRSGSEDQADWVTELQQPVGKA
+>tr|A0A0P7FU04|A0A0P7FU04_9MICC
+MSAAVHPLVSPWGRFGLYSYFIDAPEPAIVDTGIASSPAEGLLPALQQLGRSIEDVRWIL
+LTHGHIDHLGGAQALHDLTGGKAKVVIHEADAPLLRSRQAHVDEYVQGRSRYLNAPDGAQ
+QQAQTAQAVISGEMEPAVLVRGGETLSLGGDVRVKVHAVPGHTPGSVAYQLDDAVFAGDA
+VQIHGAANRFPGYTDPDAYRSSLAYLRDEVRPERLYLGHPYRGADGEPYGVELDAAQARR
+ALDESLALEARIRGSVTRCLEAGLAATDSVYSPFEPVAAELGYTSDPTLEPSPFFTTLDG
+YRSRFTQ
+>tr|A0A0P7FP73|A0A0P7FP73_9MICC
+MPTGNDASQLALKRRARKINRLLGELYPYAVAELDFTNAFELLIATVLSAQTTDVRVNAV
+TPVLFARYPDARALSEANEEELQELIRPTGFFRAKSAAIKKLATQIVDDYDGEVPNRLED
+LVKLAGVGRKTANVVLGNAFGVPGITVDTHFLRLSRRFGWTGSKDPVKVEQDVAELFEPK
+DWTPLSNRVVFHGRRVCHAKKPACGACAVAQLCPSYGEGETDPDKARKLLKYELAPGRED
+LLARMMASETRAQLRAAGYGLEA
+>tr|A0A0P7FEE2|A0A0P7FEE2_9MICC
+MNHPRLATTPAELSKAITELLEATGKDRPALGLVPTMGALHSGHAALAAAARADNDVVVA
+SIFVNPLQFDDPADLARYPRTLDADLELLGEAGVDLVFAPSEETMYPGGLPLVRVSSGSL
+GTRFEGAARPGHFDGVLTVVAKLFHCVQPQVPAEFRAYFGQKDAQQVALIRRMVADLNFP
+VDIYPVPIVRSGDGLAESSRNVFLGPADREAALSLSRALAQLQERAASGRPLDLPGAAAL
+VSSAPGVELDYFEVVDPLTLDPLPAGAQDVLSGPALALVAAKVAGIRLIDNAELHG
+>tr|A0A0P7GBH7|A0A0P7GBH7_9MICC
+MKIATWNVNSIRARADRVEAWLQRSDVDVLAIQETKAKDDNFPWEMFEFNGYEVAHFGLS
+QWNGVAIASRVGLDDVERTFPDQPHFGKTAETTAAEARAIGATCNGVRIWSLYVPNGRAV
+DDPHMPYKLEWLKVLKDQAASWVEADPNLNLALMGDWNIAPRDEDVWDIDWFRAQNATHI
+TEPERAAFQAFLDAGFQDLARPYTEGPGVYTYWDYTQLRFPKKQGMRIDFALGSPALAAR
+VTGASIDREERKGKGASDHAPVIVELD
+>tr|A0A0P7GIN1|A0A0P7GIN1_9MICC
+MSVSIKPLEDRIVVRPLEAEQTTASGLVIPDTAKEKPQEGEVVAVGPGRVDDNGNRVPID
+VAEGDVVIYSKYGGTEVKQGGQEYLVLSARDVLAIVVK
+>tr|A0A0N8HXZ7|A0A0N8HXZ7_9MICC
+MDTAQRAPEPLADACCPSVTQEILSTEDAQRFAQLLKAVAEPTRLRLVSIIAAQENREAC
+VCDLTEPVGLGQPTVSHHLKILVDAGILRREKRGVWAYYAIIPGALERAAAVLSPAS
+>tr|A0A0P7HVK6|A0A0P7HVK6_9MICC
+MSDLSLNASGAVLTDPEMVILEMEAKDRDDAAAQLAERMYRQGRLKDLDGFLKDVTAREH
+QMATGLPGGIGLPHARSVYTVKTSIAVGICKYGHSVDFGASDGPATVVLLIATPAAAYSE
+HLEVLATLARSLFRPSFRESLRRAQDPEVIAELINSSLVFFDH
+>tr|A0A0P7GCM9|A0A0P7GCM9_9MICC
+MPLPADPNPKFADYAHPERLVSTEWLAENLGTPGLVVLESNEDILLYETGHIPGSRKIDW
+HTDLNDADTRDFVDGSAFAKLMGEKGVSRESTVVIYGDKSNWWAAYALWVFTLFGHEDVR
+LLDGGRDKWIAEGREMTTDKPVVTATDYPVVERRDEPVRAYLPDVLAHLGNGPLIDVRSP
+AEYTGERTHMPDYVDEGAMKGGHIPTAVSVPWGKAAAEDGTFRSRSELDSLYGGEAGLKT
+GDDVVAYCRIGERSSHTWFVLKHLLGFESVRNYDGSWTEWGNAVRVPIVRGSEPGAAPAK
+R
+>tr|A0A0P7H8K7|A0A0P7H8K7_9MICC
+MRVLIAPDKFKGSLTAEEAAAAMAQGVFAVYPDAEVTRIPVADGGEGTLEAALAAGAVER
+STGVRGPLGREVTAVWAMDGTTAVLETARSSGLMLVEPSVQTSLAASSFGSGQLITAALD
+AGAREIILGIGGSAMTDGGSGALTALGLRILDAAGEPVPPGGAGLALAAAVDASGLDPRL
+KDTRIRIAADVTNPLTGHNGAAHVFGGQKGADSSARLLLDEALANWARLLQEATGIDVDI
+PGAGAAGGFPSAFLAFTDAGIEPGFELIAALVGLEPALSRADLVLSGEGSIDEQSRFGKA
+PLEVARLAADRGIPVVLVAGAITLGPKVLAEYGVEAAVSVLDLAQSPEDAMARAAFYVAR
+ATQAALEGA
+>tr|A0A0P7GIU5|A0A0P7GIU5_9MICC
+MTTSTTEAGAAPASRRTAFHPLTVSAVRRLTEDAIEVTFAVPEELTGSFDYLPGQYVALR
+TTLDGAEIRRSYSICAEPKPGEIRVAIKRDLGGKFSTWANENLKAGDVLDVMSPTGGFIS
+KHPMTALNHPEDIDVADENVFVAVAAGSGITPVISIARTVLAASENVRFDLVYANKAAMD
+VMFLEELADLKDKYPARFAVHHVLSREQRISPLLSGRIDADKLSALIESVLPTRDVDEWF
+LCGPFELVQLCRDTLAERGVDSEKVRFELFTTGQPGKPEGQIGRPIQVDPSADNYEISFR
+LDGLQGKVASPTHARESILNAALRVRPDVPFACAGGVCGTCRAKVVSGTVEMEENYALEP
+DEIEKGYILTCQSRPTSPEVTVDYDA
+>tr|A0A0P7GDB0|A0A0P7GDB0_9MICC
+MLTALFVLAATLVLLLAGAAAGHATTFDPVAPADPAAPTQPGDPEETGGFSVDINGVDGT
+PSTAVVTLIGITLLSVAPALLLMMTSFTKIFVVLAMTRNALSLPSIPPNQVLAGLALFLS
+LFIMSPVLTEINNLAVQPYLNGEFTFNDALGAGSGPLQQFMLAHTREEDIALMTRAAGQP
+NPESPETVPLLTLIPAFMISELRAAFIIGFVIFIPFLVIDLVVSAALMSMGMMMLPPVMI
+SLPFKILLFVLVDGWGLIITSLVNSYQGGG
+>tr|A0A0P7GS43|A0A0P7GS43_9MICC
+MSAPQFIRTPPCVLQGAPSPVQATGRTLRWGVVATGRIAARVTEDIARLEDAVLQAVSSR
+SEVTAVEFADRFGFATSYCDDELRGPGYTQLFADPEVDVVYIASPHAQHYELTREALEAG
+KHVLCEKSITINAAEMADLMEVASRRGVFLMEAVWSRFLPCINRLWEILSSGELGQIHWV
+QADLGFPAPYDPASRLWDPAAGGGALLDLTIYPLTMAVGALGFPQRIQATGSLNGDGVDT
+QNAITLGYDSGALAQLTSSLLSSGPRTATISGSEGWIRTGAPLHNPVELHIQQHMGPSRV
+ERFQQVGNGYTYELREVTRCIQEGLTESPTMPWDDSLQTMQLFDEVRAQLGVRYPNDDRR
+LASLEPLSKLSDSV
+>tr|A0A0P7GWJ9|A0A0P7GWJ9_9MICC
+MAEVGWIGLGNMGAPMAANLVKAGHNVRGFDLSPRAVATAEAAGVQAVGSIAEAVAGADV
+VFTMLPKGEHSRAVYLEPDGVLASASTETLLVDSSTIDVESAQVIHDAAAAAGFRFVDAP
+VSGGMSGAEAGTLTFMVGGAEDAVADASGFIEPMAGNVIPTGGPTTGQAAKICNNLMLFI
+NLAATAEGAVLADRLGLDKQVFWDIASVSSGDSWALRTWYPVPGVVGTAASNNDFEPTFT
+TELANKDINLAIAAAQDTGTPLEIGEHVQQLFSRLIDAGHAGKDCSMIVKLVDGSLTGTP
+DQVPAP
+>tr|A0A0P7GLZ2|A0A0P7GLZ2_9MICC
+MPSDSIRRPARAATVLAAACAASLILMPSATAAPGNGNGGKPGHAGKDQTANVTVMGTSD
+LHGYIENWDYYKDAEYDDAAGNDVGLAKISALVNQVRADRGRSNTLLIDAGDTIQGTSLT
+DYFANVQPITETGETHPMAAAMNAMDYDAAALGNHEFNYGTELLDRFEEQVDFPLLAANA
+VDWNTGEAAFSPYIIQTVKPKGNKPIKVGILGLTNPGIAIWDKGNVEGKLRFPDLVETAA
+KYVPQMKAAGADVVVVSAHSGTSGTSSYGDELPLENAATQVAEEVPGIDAILVGHAHQEI
+PERFVTNKATGEQVLLTEPLNWGMRLSVMDFELAKVRGKWQVESASASLLNANTVEPDPV
+VSALVKDAHQRVIDYVNTPVGTATETMPAAESRYRDTAVIDFVNEVQTDAVERALAGTEN
+ADLPVLSVAAPFSRTAVIPEGPVTIRDIAGLYVFPNTLYAVEMTGAQIRDYLEYSAKYFV
+QTAPGTPVDPETLTNADGTPDYNYDMFSGISYDIDISQPVGERITNLAFDGAALDDAQRF
+AVATNNYRQSGGGNFPHIADAPVLLNQQTEIRELLIDYVVANQVIDPALFAEENWRLVRT
+GEPVFG
+>tr|A0A0P7GDE8|A0A0P7GDE8_9MICC
+MLSANGTYLIRGASLLGAQTADLLIQDGLIAAVGQDLEAPEGAVTVEAAGLVALPGMVDL
+HTHLREPGREDAETVETGTRAAALGGFTSVHAMANSNPVADTAGVVEQVYSLGLKSGWVD
+VRPVGAVTVGLKGERLAELGAMADSRARVRVFSDDGMCVHDPVLMRRALEYVKAFDGVVA
+QHAQEPRMTEGAQMHEGDVSAVLGLPGWPAVAEESIIARDVLLAQHTGSRLHVCHVSTAG
+SVEIIRWAKERGINVTAEVTPHHLLLTDEAVRSYDPVYKVNPPLRTESDVQALRRGLADG
+TIDIVGTDHAPHPSEHKECEWAQAAMGMTGLETALSVVQATMIDTGLMDWAGFARVTSAT
+PARIGGVRTQGRPLESGEPANVILVDPAARRTVDPHKMATMGKNSPYAGLELPGQVRATF
+YAGHPTVLEGALNGPRAAAAEETPWIG
+>tr|A0A0P7HJT8|A0A0P7HJT8_9MICC
+MTDAMSPQAAQVVSPFQRFAAYPEDSGLYRAENEKDACGLAVIATLRGEPGHDIVDAALT
+ALRNLEHRGAVGADEGTGDGAGILTQVPDEFFRAVAGFELPAPGGYAVGTAFLPTEEREQ
+ETARAGVEAIAESEGLRVLGWREVPVVADLVGAMSRACMPYFVQVFLAPDDEDCTDLDAR
+AFRVRKRSQNKFGVYFPSLSSKTMVYKGMVTTAQLEPFFPDLSDPRFKTKLGIVHSRFST
+NTFPSWPLAQPFRTIAHNGEINTVKGNRNWMRARQSQLKSPLLGETPEELFPICTPGASD
+SASFDEVAELLMLSGRPITHAVMMMIPEAWENHATMDPARRAFYQYHSMLMEPWDGPAAV
+SFTDGDQVGAVLDRNGLRPARYWITEDGLVVLASEVGVVDIDPAKVVRKGRVSPGKMFLV
+DTAEGRLVEDSEIKAEIAAANPWAEWVRENQVSLEELPEREHVLHTKASINRRQRTFGYT
+QEELRILLGPMARSGAEPLGAMGSDTPIAVLSKRPRLLFDYFVQSFAQVTNPPLDAIREE
+LVTSLQSSIGPNGNLLALGQVKTHQIALKFPVINNDELAKIANLKNVEGEKVALKVRGLY
+RPDGGESELRARISEICEKVSGAVNRGVQYIVLSDRDSNAQWAPIPSLLLLSAVHHHLLK
+SANRTKISLIVEAGDVREVHHVAVLIGYGASAVNPYLAMESCEELVRNGDITGVTREQAV
+ANLIKGLGKGVLKIMSKMGISTVASYCGAQTFEAIGLGQELVDEFFHGTQTQLGGVGLDV
+IAAEAAARHTHAYPADEIEEPHRSLENGGEYQWRREGPPHLFNPETVFRLQHSTRERRYD
+VFKAYTRGVDDQSKNLMTLRGLLDFKTGERPPVPLEEVEPVSSIVKRFSTGAMSYGSISK
+EAHETLAIAMNRLGAKSNTGEGGEDVDRLLDPERRSAIKQVASGRFGVTSLYLTNADDVQ
+IKMAQGAKPGEGGQLMAQKVYPWVASTRHSTPGVGLISPPPHHDIYSIEDLAQLIYDLKR
+ANPSARVHVKLVSEAGIGTVAAGVTKAKADVVLVSGHDGGTGASPLNSLKHAGAPWELGL
+AETQQTLMLNGLRDRVVVQVDGQLKTGRDVVIAALLGGEEFGFATAPLVVSGCIMMRVCH
+LDTCPVGVATQNPELRSRFTGKPEFVVNFFEFLAEEVRELLAELGFRSLEEAIGHSEMLD
+TRAAVDHWKADGLDLEPILRGHEVDPGAPLRSLVPQNHELDAHFDNKLIEMSSDALASRQ
+PVRIALDVVNTDRSVGTMLGHTVTKTFGTDVLATDTIDITLTGQAGQSLGAFLPAGITLR
+LYGDSNDYVGKGLSGGRIIVRPDRGNVFPAERNVIAGNVIGYGATSGEMFLRGQVGERFL
+VRNSGATAVVEGIGDHGCEYMTGGQTLILGSTGRNFGAGMSGGTAFVVDLDPARVNKDAL
+ENGELLLLQPDAEDVDIVRGLLIKHAEETGSTLAAGLLEDFENTVSRITKVLPRDYAAVL
+DARASAAEAGLDPDGAEAWTKILEVTGG
+>tr|A0A0P7GJP9|A0A0P7GJP9_9MICC
+MNDSSRDRTTPARDEKPALWLWSQYVLDSLAWVVAIVLALVLRYELSVDEINVAGLAAFC
+GVAVVTQLVVGYSFALYRGRYSFGSFHEMRLLAVVTIVVSAILVLVSALFGLAIDIPRST
+GVLAFPFACLFMAAIRYMKRMYVESKARPGDEAQRTLIYGAGFLGNSLVTRMMNDPDSPY
+FPVGLIDDDPAKKHLRLGTVPVVGKLVDLPDLVQRTRAKVLIIAIADVDAAQVREVTDRT
+EGLNLRVMVLPPLRDMLAKGAGAGLTDFREVAVEDLIGRRPVDIHVDEVAGYLTGKKVLV
+TGAGGSIGSELCRQITAFEPSELIMVDRDETGLQLTQLSITGQGLLNGKDTVLADIRDAR
+ALDEIFSQRRPDVVFHAAALKHVSLLEQYPLEAWKTNVLGTANVLRSAQKAGVSHFVNIS
+TDKAANPTTVLGHSKRVAEKLTAWMAGQTGQRFVSVRFGNVIGSRGSMLPLFTEQIRQGG
+PLTVTDPEVTRFFMTIPEACQLVIQAGAIGRGGEVLILDMGEPVKILDVARRMIAMSGKD
+IEIVFTGLRKGEKLHEILVGTGEDDSRPLHPKISHTSVAVLAPEDLDAADWLRRCGFDPS
+AEADAAGGVAAALFPLPDTAALRLADLQGGTPATGQGERRTG
+>tr|A0A0P7GC29|A0A0P7GC29_9MICC
+MSVKPSVMEETVLELIREDELVALASELISAGGENPGGTEAATVVVLAEFARAAGLEVMV
+SEVAPDRPNLTAVLPGGTRPGLLFLGHSDVVPAGSGWDRPAFEPYVRGGRLYGRGSTDMK
+GGLAAILIALRALRTAGVELPGPAALACTVDEEDLGLGIRAFTAGTGPFPYSACVVAEPT
+DLETVIACRGDSYLELHVTGKSAHSGRPADGRNAIDAAARILDLVRADHARLQADADPLL
+GSGSWNTGMIRGGTGTSMVADSCHLSLDRRLMPGEDPEEILASLLAGIRAAGIDSDGITV
+EGTVTMEMPGFRTTSGHPLVAGTVSALAEVGVDSAVTGWTAACDGGFIARDFSIPVIVMG
+PGGLNDQAHQVNESVSVAELLAAARAYALMCLRHGSVC
+>tr|A0A0P7HG07|A0A0P7HG07_9MICC
+MPEPAGHPSPQAHPFNRYVAIGDSFTEGIGDPSPESPGGNRGWADRLAEELAAGHPDFAY
+ANLAIRGRLLNQIVAEQLQPAIDLKPDLVTICAGGNDVIRPGGDPDRLAETMDSTIARLR
+ETGATVVLFTGPDIGATPVLGSVRGRVAIYNENLRTVAVRHDAVIADMWALRELGDPQMW
+APDRLHFSPLGHQTIAAMVLETLGVPHTLEPARVKELPPKKWRTARSEDLVWAREYLVPW
+VVRRVRRRSSGDGISPKRPDAGPFFGTRMPQGSSEAAGTEAAGAAPASQD
+>tr|A0A0P7HJK4|A0A0P7HJK4_9MICC
+MSNSATQSLQDHAVVSSEALDTLFLEARTANTFSSEPVTEEQMRAIYELTKMGPTSMNIQ
+PMRITWVNSPEARERLVKHMAEGNQGKTASAPAVAVLSFDTEWHEGFPTFFPHAAERKAM
+FDGNEELRTVMGNNNAHMQAAYFIMAVRSVGLAAGPMGAFDAAAIDAEFHAGTSQRTFMV
+VNVGKPGENPWFDRLPRYDYEAVTTTL
+>tr|A0A0N8HX21|A0A0N8HX21_9MICC
+MTEQYTALYEEHKRLGASFTDFGGWQMPLKYSSELAEHHAVRKAAGLFDLSHMGEVEVTG
+PDAAAFLDYALTGRLSAVAVGRAKYSLITNADGGIIDDLISYRLGEDEYLVVPNAGNAAV
+VAAELAARAEGFDVAVQDKTAETSLVAVQGPEAEAILLDLVPADFRDAVTGMKYYAAAPV
+ELTIGGSSHTLLVARTGYTGEDGFEIYVPNDDAAALWQALLAAGEGHGLVPAGLACRDSL
+RLEAGMPLYGNELSLEVDPYAAGLGGVVALSKDSDFVGREALAAKKQQTPARKLVGLKGS
+GRRSARSHYPVLKDGETIGEVTSGAPSPTLGYPVALAYVDASHAELGTTLDVDLRGKPEP
+FEVVQLPFYKRDK
+>tr|A0A0P7GTS5|A0A0P7GTS5_9MICC
+MPISTAPAITLRNGLELPALGMGTWPLDDSQAADAVATAVEVGYRLFDTAENYGNETGVG
+EGIRRSGIARSEVVITTKFNKQWHSREGVRKAFSASAQRLGTEYIDLFLVHWPNPGQDQF
+VEAVQGIADLLEEGMVRGVGVSNFKPEHLQRLAEAGLVPDLNQIQVDPRHIREASRQANN
+RLGIVTESWSPLGRGEGLLHDPSVTDLARKYGKNPAQIVLRWHVQQGLVPIPKASSRAHL
+EENLAVFDFVLEDSEIAALSALDTGEAGILDSNAFGH
+>tr|A0A0P7GLL3|A0A0P7GLL3_9MICC
+MAKIIAFDEEARRGLERGLNTLADAVKVTLGPRGRNVVLEKKWGAPTITNDGVSIAKEIE
+LDDPYEKIGAELVKEVAKKTDDVAGDGTTTATVLAQALVKEGLRNVAAGADPLGLKRGIE
+KAVAAVTAELLASAKEIETKEQIAATASISAGDQQIGDLIAEALDKVGKEGVITVEESNT
+FGLELELTEGMRFDKGYISGYFVTDAERQETVLEDPYILIVNSKISSVKDLVAVLEKVMQ
+SGKPLLIIAEDVEGEALATLVVNKIRGTFKSVAVKAPGFGDRRKAQLADIAILTGGQVIA
+EEVGLKLENATLDLLGKARKVVVTKDETTIVEGAGDPEEIAGRVNQIRAEIENSDSDYDR
+EKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVALIQA
+GQKAFANLVLEGDEATGANIVKVAIDAPLKQIAFNAGLEPGVVVDKVRGLAEGFGLNAAT
+GEYEDLLAAGVNDPVKVTRSALQNAASIAGLFLTTEAVVADKPEKAAPAMGGGDDMGGMG
+GMGGF
+>tr|A0A0P7HL94|A0A0P7HL94_9MICC
+MAGWRFVLWALAGAVVLAGLVRAFLLDVYYIPSESMQPLLEPGDRVLVSRTEYRGSGIQR
+GDVVVFDGRGSLAPLHSSDPVLKQALDSTAQWLGLAGSDTVYIKRVIGVPGDRVACCTDG
+MLTVNGQPIREPYLFPGDTGSETPFDVVVPEGRLWLLGDHRSDSADSRSLLGAPGGGLIP
+EERVIGRAQRILWPFERSTEIERLELDTVWHSAE
+>tr|A0A0P7G534|A0A0P7G534_9MICC
+MFQLRKWGRAAALLSAGCLLTAGSLAVPAADAAGAPPGWTAAGTGADRDRGHHGPHNGWD
+RGPKRTVDYVALGDSYAAGFGGGAVLGACGRTAEGYPALLDELRKVELDADVTCGGATAA
+STPPSAPTGPVDLPEQIASLQAAGSIDRNTDLVTLTIGGNDVRFGEVVAACAGAQLPATC
+APALAAAQEYAETALAPQVRQSLGQLRALAPRAELVLTGYPHLFDGAGVPGLLSPDAAAL
+FNAGTDALNAVLAAQLPDRRSTYVDVVDEFAGHGIGSAAPWIIYANSPFDLHPNATGYRE
+GYLAAITADVDLHPGGGHPCRGRL
+>tr|A0A0P7H5X1|A0A0P7H5X1_9MICC
+MSLFDRRYEPNVAEVNQLCDTLADLKPGSEVPYIDPQHDVDEARIVSLFSNNGAAHPSGF
+ITAGSDEAVTRLLGVHWQVGLQPKYVMPWNVHPWYTPGEPHTKLTKEEVAEGLKPLLRFL
+ALVPRVSVIVAHGTEAQRLAAAFLKTENRMIYRRSFKVYKARSAEGRSFGATEERQQESL
+AEMRIVYKDAMARTGLAATGR
+>tr|A0A0P7GSA6|A0A0P7GSA6_9MICC
+MSPTIAPSPRVAIYARQSEDVDQGIVQQLDDCRKEAVRRNWRVVAEFRDNDTGASKARGP
+KTDWSKMLREFDAGTFDVLLVTETSRLTRSLTDVLDVCPPRRDMRVVVIREGIDTDIDDF
+MLKQLVLLAEREVKIKAARAARYAAERRKEGHPGAGKTPHGYRWVPASDRGLTNTRYTIN
+EAEASDVRRIFAEFLAGAPLGQIARDLNDAGRSTRRGARWRSDLVRRILMNPFYAAQLPP
+AQPTGKHSLANIDVEACTPGAWEAIVGLEQLIAARGRLVGVKPNHNGTARRWLLSGLAVC
+SVCSEPVRSARGRTHPTARKDGTGTSPSKLYHTYRCVNGHFMRNGDVIDDYVAVMCVARL
+SEPDAVALLVAQPDGEDISALHNRRDALRASRKNVFRLIDDDPARLADAEDRLNDLEHQL
+RTLDEEITKVTSRSPFADLVGVEDVRAWWESATLARRRSVVDFLMSVSIRPVGKGRRVAT
+WEAVADSVRLIPKV
+>tr|A0A0P7GSR3|A0A0P7GSR3_9MICC
+MYLSVLGTQQRIFGEAQVPNSKYHAHRALILASLAPGISRITGLTDARHVHYTVAMLRLL
+GTRIDIDGGTYVVHGGPYRPVRNEVSAGSSGTTLYFMVGLAALGSSDVTVTGQKYFQRRP
+VGPLLAALTDMGLDVDSPTGCPPIRVRARRPSGGEVHIAGTLSQWISGLLLLAPFADRPT
+SVVVDGTLNERTYLELTVNMMRRFGLEVEVRDDWHRFEVPPQQEALPTDMRMPEDIGSAA
+FGLAAAALHPADLLLKGLRSVTAGGADHPESDFLDIAGAMGLPMEYDAGADGVRVRHNGL
+RLQPAEIDCRTVPDMLPVLSAMAACADGESIFRNVGHVRLKESDRVAAMLQLNSMGAGVR
+ISGTDLLVSGTEQLTAADLSSFNDHRVLMSLAVAASGAVGRSTLSYPNAYRISYPEFLDA
+MNSFGLPMKVQEGPVPRQKTSRTASAQANRQQVLSPDEAASVTGADWVRRWAAERPDQTA
+VTDGREDGHLTWAELDAGADQAAALLLNLGVRPGDRVAFQLPNWSEFVLLSAAVLRIGAV
+AAPVMPIFREREVAFALHRSRAAVVVVPEEFRGRRYAEELRGILSSGTGADPAYELAVRH
+AVVIGAAAPALPPADGGLTWHAWEQALAETFVDRTRIDAAAPASDAPAQLLFTSGTTGEP
+KGVLHRHSTLSMAAALQARHLGLQPQDAVFVPSPLAHQTGFLYGMWLSFVLGIPQILQPV
+WDPNRALNLLQGWKGSFVQAATPFLSDLVKAVEAGAPAPASLRIFVNTGAAVPRHLAERA
+TRVLGAWVCGAFGTTETCLGAVSSPGGDPALVWGTDGQLLPGVRARIVSDNGQLLPPGTE
+GNFELLSPTMFEGYLDRPDLTKEAFTEDGWYRTGDLAALDDAGYLRITGRVRDVINRGGE
+KIPVAEIEQLLYRHPSVDDVALAAMPDPRLGERACAFVVPAPGTPAPTLAELTDYLDSCQ
+VSKHYWPERLELLEAIPRNPVGKVQKFLLRERARQAAGNPSAGTDRSQS
+>tr|A0A0P7GUA1|A0A0P7GUA1_9MICC
+MTNDSSRRIVEALQEWIKSAPAGAKLPSTRSLVSRHGASPVTVQKALRALASQGLIESRP
+GVGTFVRAARIARPADFGWQTAALGAPRNRLSSSPAAMRPASTDAIALNGGYPDRELLPE
+RLIRSALGRAGRHDTALSRSPASGLPELRSWFASELAAVTPAGVAPASAADVIVLPGSQS
+GLSSIFRALVTDGRPLLIESPSYWGAILAAAQADVRLVPVPTGPAGPDPEEVARAFEETG
+ARAFYVQPNYANPTGSQWTRDTSQQILEVARTYGAFLIEDDWAHDFGITTDPAPVAAHDD
+SGHVVYIRSLTKSASPALRVAAIIARGPARERIMADRAASSMYVSGVLQTAALDIVTQPG
+WQTHLRGLRHQLRSRRDLLADSLEKHAPLATLTALPSGGLNLWIRLPDATDLPSFIQRCE
+TNNVLVAGGNEWFPAEPTGPHIRLNYSGPNPGAYPEAARVIGHILGESAIRE
+>tr|A0A0P7HEY7|A0A0P7HEY7_9MICC
+MSPSQLTTESLISEWLEHPSGRAILIDVLARRGPDVRALYAIQTLPLSSVITLSRGTVTA
+EQLDLLVEAANQRISDTPPNPELAHLFPSAPPPSPTDWTEKVIPGRFSGKRFIVTGAGSG
+IGRATALRLAREDAAVVAVELNTLRMEALLENPAAHSITGVVADISREADIQRIIAAAGS
+RIDGLTVIAGVADDMTPLHEVDDDLWERIFRLNVTAPFRLTRKVLPIMLSRGAGSIVNLT
+SQAGLRGSVAGAAYTAAKHAVIGLTRSAAYSYSPRGVRVNAVAPMPTRAILDSNYGFPGG
+LGPSPAASLIPADLEAASVAAPIAYLLSDDAVAVTGTVLPADEGWGLG
+>tr|A0A0P7G033|A0A0P7G033_9MICC
+MEILGVVAHGAGDLRVEPVELDAPAADEAVVEIAYGGVCGSDLHYWQHGAAGESVLKAPM
+LLGHEVVGRVVRAAADGSGPAEGAAVAVHPATPGPGDGSRYPEDRPNLSPGCTYLGSAAR
+FPHTEGAFARFVNLPTRMLRVLPETLPMRRAALIEPAAVAWHAVSRAGDVRGKRVLVTGS
+GPIGALITAVLKTRGAAEIITTDMHEFPLQTARAVGASRSLLATDAEAIAAVDADICFES
+SGSYRGLMSAVQGATRGGRVVMVGLLPSGEQPALISLAITRELELVGSFRFNDEIDEVIA
+ALADGSLQIDPVITHEFAVEDALEAFAVAKDASVSSKVLLRFGE
+>tr|A0A0P7HDH1|A0A0P7HDH1_9MICC
+MTDIQIAEHSEQATAAVRAQVPMAELADFFSQAFSDVMAALQEQGVQPVGPPFGKYYGQP
+GALVDVEAGFPVPGVIAPDGNVVPGSLPAGRIVEATHTGSFDTLANTYADIENFFSENKL
+KPSEVMWENYLADPETEQSPEHARTQICWPVD
+>tr|A0A0P7GIJ3|A0A0P7GIJ3_9MICC
+MNTADQRRRGRLGIGVIGAGKVGAVLGAALRAAEHAVVGVSAVSDASRERAENLLPGVPV
+LEIPDIIERSELVLLAVPDDALPPLVSGLAATGAWQAGQLVAHTSGRFGTAVLEPARQAG
+AIPLAIHPAMTFTGLSLDLTRLADCSFGVTAPTAVLPIAQALVVEMGAEPVVIDEADREL
+YHAALAHASNHLVTIAAQSSELLHGIGVEQPERLLGPLMRASLENALASGEHALTGPVAR
+GDTGTVEAHTRALHRNAAPDLAAAYQALSAATARRAVARGLLSPAQGERIIEVLNSEPEG
+PR
+>tr|A0A0P7G0E3|A0A0P7G0E3_9MICC
+MAPAVVLLLVFLGGPILWAFYGSFTDTGLTGASARNPEWIGLENYRSLLADPLFPQSLWL
+TFLFVFCSAVIGQNCLGLGLALLMQRANRAVAAVVGTCVVAAWVLPEIVAAFITYAFFFR
+DGMLNQLTGLAGLPAVDWLYEHPMFALILANIWRGTAFSMMNYQAALNDVPPEVTESATI
+DGAGGFARLRFITLPMIRRSIATNLMLITLLTLGTFTLIFVVTRGGPLNASTTLPIMAYE
+QAFQFGDIGYGTAIAVVMLLIGAVFSIAYIRMLRERKD
+>tr|A0A0P7HPF1|A0A0P7HPF1_9MICC
+MLVLGGTAVLLLAIVSMFVGVSDVSLSSLLAGDEHAWNIFWISRVPRTLSIILAGMALSV
+AGLIMQLMARNKFVEPSTVGTIESASLGILVVTVLIPGASLFMKMSTATLFAVAGTALFL
+LILRRIPLRNTLIVPLVGIMLGGVIAAVTTFFAYRFDLLQTLNSWMTGDFSGVLRGRYEL
+LWIVGALTLIGFLAADRFTVAGMGQEFTTNLGLNYNRVMTLGLIIVSLISAVVVVSVGSV
+PFLGLIVPNLVSLLVGDNVRRAIPWVAIFGAGFVLACDIIGRTIRYPYEIPVGVIVSAVG
+SVLFLYLLLRKRSARA
+>tr|A0A0P7FII7|A0A0P7FII7_9MICC
+MSATMQSTPELREQISQRKKAAPRRLPVPALVIAVILLMLLGWQTLVWLHLLPTMTPGVL
+EVFSAIIALVVSPAFWMSLWQSVSAAFTGWIIACVLAIVVGMLVGSNSFARQSTSVLLDF
+GRSFPTLALIPVVILLLGTSQQMKIIMVVLACFWPVVIQTVQGSKRIDPLVIDVARTYRT
+PPSLMFFRVRLPSALPFIATGVRISAAMAILVAVGVEVLSQAPGLGRQITLAQQGQNWDI
+AFANLFFAGLFGWAVTLLLAKAERRLLRWNRLGDE
+>tr|A0A0P7GIF2|A0A0P7GIF2_9MICC
+MAPRPAAAAGFSWRQAAAAFPLALRKLDPRRMWRTPVMFIVEAGAVLITTVAVSESFTGV
+SPSSGGSSVPEGFTWLVALWLWLTVLFANLAEAVAEGRGKAQAAALRATRSTTAARRIRG
+YDPQSDPAALGPVEDVASADLRLDDVVIVSAGEVIPGDGDIIHGIAAVDESAITGESAPV
+VRESGGDRSAVTGGTRVLSDRIIVRITSRPGETFVDRMIGLVEGAKRRKTPNEVALDILL
+STLTLVFLLVVLTLNPMASYAGATISIPVLTALLVCLIPTTIGALLSAIGIAGMDRLVQH
+NVLAMSGRAVEAAGDVTTLLLDKTGTITYGNRQAAEFIPVAGADAEELIRTAALSSALDP
+TPEGRSIVDLAASRGVVATAPADAEGIPFTAQTRMSGLDFADGSSIRKGAGSAVIDWAAE
+SDGVEVSVLADLTYRVDTVSAAGGTPLVVAERDTAGVSRILGVVYLKDVVKQGLKERFAE
+LRRMGIRTVMVTGDNPRTAKAIAAEAGVDDYLAEATPEDKIALIRREQDGGRLVAMTGDG
+TNDAPALAQADVGVAMNTGTSAAKEAGNMVDLDSDPTKLIDIVRIGKQLLITRGALTTFS
+IANDVAKYFAIIPAMFVGLFPGLEVLNVMNLHSPASAILSALVFNAVVILALIPLALRGV
+KYRATGAAAVLNRNLLVFGVGGVVAPFLGIKLIDLAVSLLPGF
+>tr|A0A0P7GSK0|A0A0P7GSK0_9MICC
+MSNFTTTQTGTPVASDAHSLSHGADGAVVLHDRYLVEKLAQFNRERIPERIVHAKGGGAF
+GEFTVTEDVSMYTRAAVFQPGTTTETIQRFSSVAGEMGSPDTWRDVRGFALRFYSSEGNY
+DIVGNNTPVFFIRDGIKFPDFIHSQKRLPGSGLRDADMQWDFWTNSPESAHQVTYLMGDR
+GIPRSWREMPGFGSHTYQWINAAGERFWVKYHFTSNQGNHEITGAEAERIAGADADYYRR
+DLYENIAAGNFPSWDLHVQVMPYDDAKNYRFNPFDLTKVWPHADYPLIKVGTHTLNRNPE
+NFFAQIEQVALSPANLVPGIAASPDKMLMARIFSYPDAQRYRVGTNYNQLPVNAPKAPVN
+NYSQDGSGRFFFNSPETPVYAPNTLGGPVADPALAGEGTWENDGALVRSAATLHSEDSDF
+GQAGTLYREVFDDAAKARFLETITGAVSGVQRPHIREAAIQYWTNVDADLGAKLRANLAT
+GETTANEQAEFVGVAD
+>tr|A0A0P7HM87|A0A0P7HM87_9MICC
+MSALYTAVATATGDGRNGEARTSDGLLEVDLAVPKEMGGAGGATNPEQLFAVGYAACFHS
+ALKMVARQAKAEISDSAVTSEVSINPKEEGGFQLSVALHVEMSGVDQATADKLVHEAHQV
+CPYSNATRGNIEVEVDAVVG
+>tr|A0A0P7FDT7|A0A0P7FDT7_9MICC
+MAFLGIQRNFHELTLRRRVALSQLPLFVAVLVSVPIVFMNKPSAFADPAFLAGLGLITVL
+TVLSAALPWEKYFQPAYWVIPILDFAVIALLYRAVQPDVTGMLLLTVFPVFWLAWSGFAP
+RTASVLTIFGSLLIIWSPLLGTQPSPQEFARSALVPVIMLLVHKSATVMTQDASGQQRAL
+EAKDRELKQSLQDSRRRAQLLDAVLDTIDVGVIVLGKDGHVMLMNHRQFATHELALPEGP
+GPWSEADMFLFEPDGATPMASDQRPLARARRREAFSDSLLWVGSGAQKRALIVSARPMAD
+ETGAFNGSVVAFGDVTETMLALRAKDDFVASVSHELRTPLTSIIGYLDLALADAEEMNSD
+SLQAALGVALRNAERLLVLVADLLTTASGSVHLELAELSLRELVSCAADSAAPRAAESGI
+KIELQAPADVVGSFDAMRMQQVLDNLISNAIKYSPGGGTVTLRVLRGKTAAILEVQDEGI
+GMTAADQSEVFNRFFRSAAVKKAAIPGVGLGLGITRDIVEAHGGSITLTSQPGQGTTFRV
+ELPLESCSVRASTAG
+>tr|A0A0P7GCR1|A0A0P7GCR1_9MICC
+MEQVCEGPVADFLRECTITGLDESEATPAADLYGMYIIWCEQAGLTPVSTTFFSRRAKES
+GIEPRRRNRENIYTGLLPTGPIPVQYILETDKPPSPNGALSVFGS
+>tr|A0A0P7GJH5|A0A0P7GJH5_9MICC
+MKARILVVDDDEALAEMIGIVLRNDGFDPVFCADGAQALEVFRSSKPDLVLLDLMLPGMD
+GIEVCRQIRAESDLPIVMLTAKSDTADVVRGLESGADDYVPKPFKPAELVARVRARLRPV
+DSKAPETLSIGEISIDVAGHSVSRGAERIALTPLEFDLLVALARKPWQVFTREMLLEQVW
+GYRHAADTRLVNVHVQRLRSKIERDPEAPEIVLTVRGVGYKAGQN
+>tr|A0A0P7GTS2|A0A0P7GTS2_9MICC
+MTAAALPAKVAVLGAGSWGTTFAKIAADSGAARKTDVLIWARRPEAAEEINESRRNTRYL
+KETVLPANLRASADAAEVLDGAQLVVLAVPAQTLRQRLREFKDLFPKDAVILSLMKGLEV
+GTDARMSTVIAEELDWPQERIAVLSGPNLAMEIAREEPTASVVACSDIGVAGWIAAACTA
+PYFRPYTNTDVIGTEIGGIVKNVIALAVGICEGKQMGDNTKASVMTRGLAETTRLAVALG
+GKTETLFGLSGMGDLIATCSSSLSRNHTAGRLLAQGLTLDEVTETMAQTAEGIKSAQAVL
+DRATQLGVYMPITENVVAVLQGAISVDELGPRLLARELKPEGVHAS
+>tr|A0A0P7GHQ0|A0A0P7GHQ0_9MICC
+MGSTTHVANPQPGSSDLGPAFVRLAQVVAQLRERCPWTRALTHESLLEYLLEESYEVIEA
+VEAGHTGAEDSRELSGELGDLLFQVLLHARLQEETGNFSINDVVSGLTGKMIRRNPHVFR
+PDGSLTEDTTEDTAEIERAWDAAKKTENPRRSNPFEGIPASLPALALAAKTQERARRAGV
+PVPAKPETLPAFEGRDELGDLLFEAVRQAAERGIDPEAALRGAVRRFTAQGPGTAD
+>tr|A0A0P7HN57|A0A0P7HN57_9MICC
+MSGGLISEVAAGLVVPRPEGWEQLDAPADSVVLAHPPVPEGHFRPNLVLRRSESDSVSLP
+RLSTAALAGTLVLPGTHIISNELWHQQLDPQGALVEGRRQRFVRVAEGQVVCVDRWLFSD
+CGGSLEATASYALEQHTGMRPLFEDMVFQMRRAAPVAAGAPASPAGAQPRLDPAASRLLQ
+TAAEDLAPLRAEQRHRVSGQVIGPESLSLLLSMANRDALGRFDAAGARESAAQLQALGLL
+DGRRLTPSGREFVEPLRGLQAQFTVSAVGPDGSTGMDAWLGAGSALVAAGPSASEMQSTV
+IPFGSCELLCVDAAALPVFLAKWLPLVPAWTAGQYPLRLSGDLFEHRLNGGSDVEAPAGL
+GEAEARMWAQPWVGWNVEHVHSGRKLGWVTAGDAGPFLATADPRNGGVALEPEPASAVWD
+TLVDFILAAAQGAFDPR
+>tr|A0A0P7G7G6|A0A0P7G7G6_9MICC
+MNTKTLDRALLAVFAVFALNGLIFASWAARIPAAAQALDIGSAGVGLLLLFSAVGSVAAL
+PLAGALAQRVGTANAVRTGGLLASAAALVIAAGLAWASIPLTAGGLLLFGAGIGLWDVAM
+NLEGTEVERGLRRTLMPKFHGAFSGGAFIGAMIGAGLSALGVSLPVHLLGIVVLAVVLVI
+LVPKAFLPDSPEMLHAHDDDGGPKPSSFGAWKEGRTLLIGVVVLGAALTEGAANDWVAKA
+TVDGLDASETAGAVMFGTFVAAMTATRWFGARLIDRMGRVRALRLCMGASLAGLILFVFA
+PSLWLAGIGVILWGIGAALGFPMGMSAAGDDPAHAAGRVSVVSTLGYTAFFVGPPLLGFL
+GEQWGLRNALLVVGAAMLMSILFAPVAAERKPEDLGTGNPAA
+>tr|A0A0N8HZ51|A0A0N8HZ51_9MICC
+MSIDTLEARILAGLDDEQREVATTLSGPLCVLAGAGTGKTRAITHRMAYGVHSGMYKPQQ
+VLAVTFTARAAAEMRTRLRDLGAGGVQAKTFHAAALKQLQYFWPQTVGGPLPALLDHKAQ
+LIAEAARRLRLSTDRAAIRDVAAEIEWAKVSMLTPDSYVRAAAGRDAPAGFDLTTVSRIF
+QSYEDVKVDRNVIDFEDVLLIIVGILQEDPRVAATVRDQYRHFVVDEYQDVSPLQQRLLD
+LWLGERDELCVVGDASQTIYSFTGATSRHLLEFTHRFPGAQVVKLVRDYRSTPQVVNLAN
+RILAARTAEGERSRNAPSWPAPLELIAQRPSGPEPEFTECSDDEAEAAQVAGRIRKLLDA
+GVEASQIAVLFRTNGQSEAYEQALSTAGIGYQLRGGERFFARREVRDAMLQLRAASRSVG
+NEPVPQLVRDILANLGYTAEPPSGGGATREKWESLAALVALADELHANRTLDPDSIFTLQ
+DFTAELEERAAAQHAPKVQGVTLASLHSAKGLEWDAVFLVGLSEGLMPISFADTPEAVDE
+ERRLLYVGITRAREHLFLSWSTARTPGGRANRKPSRFLDGLRPNTSRDTGTPRQAKPARR
+KVTGPAKCRVCGSLLVSGAERKMGRCGDCPATYDEATFEALREWRREAAAEAGVPAFVVF
+TDATLVAIAEDKPPTLNRLATLPGVGPSKLERYGEAVLEVLSKSPQL
+>tr|A0A0P7GAA4|A0A0P7GAA4_9MICC
+MKSAEDILTPDLLERLRGRAAKYDQANAFFTEDLEDLREAGYLALFSTAEMGGSGLDIPG
+VVACQRLLASAAPATALAVNMHLVWCGVAHLLSLRGDDSLRFLLEEAAAGELFAFGVSEP
+GNSAVLFDSKTDAVPQDGGGYAFTGRKIFTSLSPAWTRLGIFGKDSSNPDEPQLVFGFAD
+RGTGGITTLDDWDTMGMRASQSCTTLLENAVVPAGRIVRHTPVGPHSDAFVFGIFSLFET
+LLSAVYAGLAERALTLAGEAAGKRSVQGQPAAHDPHTRFRVADAAIRLDGILLQLDAVAR
+DLETGVDHGAFWFPRLSGLKLRTTDTARGIVETAMQVAGGSGYSRGQELERLYRDVLAGM
+FHPSSEDSAHDSMAKAVLGPVP
+>tr|A0A0P7HIC0|A0A0P7HIC0_9MICC
+MNPVLLGLLSGILGLAVGVFGVVAYVSSQRHRRNLAEVDEPALSEGAAEILGVLGRAYIV
+VDGIDGVVRASPGAYAFGLVRGHTLMQEEVLALTARVRRDGVIEERNVELNRGLLGEASL
+ILQLRVAPIAEEYILILADDRTEATRTEEMRNDFVANASHELKTPVGAISLLAEAIDDAA
+ADEEAVRRFAKRMHKETVRLSALVQDIIELSRLQGTDMVDHAEPVDINELVSDAVEANRL
+PAEKRNITVVMGGSADNPVYADGPMLTTAFRNLIDNAIRYSPEGSQVGVGIRSRDGLAQV
+TVTDRGPGIAPDDQERVFERFYRIDSARSRNTGGTGLGLSIVKHVVSNHGGEVNLWSQPG
+QGSTFTVRLPEMDAADSEEMADSPPRTDGAAAPAGKE
+>tr|A0A0P7HCR4|A0A0P7HCR4_9MICC
+MHKAKTPVLVIGGGIAGLSLASRIAGDTGVVLLEAENELGYHTSSRSARQLIPSYGPPAV
+QDLTVRTLALIRELEADLPEPILVPRAFMLVGTEEDVRDRASGHMHPVTIAEAAALAPEL
+GTGTFEAAGLDTTSVSCNTDILLDWHRARIESSGGRILTGRRVDSASRTGDGLWTVTAGG
+ESFTAEVVVNAAGAWADPVAALFGVRERGLQPYRRTAAIVEAGNPPAADGPMVASAEDTF
+YYRPDLEGVLISPSEAVPSPAEDARHRPEDIAELISLVNTLTGLELGRTVRAWTGLRTEA
+ADGLPVVGFDDAVPGFYWLAGQGGYGFQTSSGIAEFAAAQLLGRDPVLDVSGALSPARTG
+L
+>tr|A0A0P7HGB6|A0A0P7HGB6_9MICC
+MGTDTATGLTEQQVARRSAEYGANQLAGRPPVPAWRKILALLSDRLILVLLAAAVLSAVV
+SRDLETPVVILAVVILNTCLNYVQERRAENSLEALRRTDVGTTRVRRGGSTATIPRTDLV
+PGDIVLLEAGDSVPADGRLLEAVRLQAAEAALTGESQPVNKDAASVQPADSPVADRHGML
+YMGTDISRGRAVLVVTSTGMGTQMGRIAHLLGSTANEKTTLQRSIDQLAALLTWIALGVV
+GLVFVLGLLRGEDLNTLLLTSVSLAVATIPEGLTAVVAFTLAMGASRLAARGAIIKQLSA
+VETLGGTSQICTDKTGTLTLNEMTARRIISATGRRFRVTGTGYSAEGKILSPDGGEVPAL
+TEAYLAMVLCNDASVTDGVLSGDPTEGALVVLAEKGGIDPVGARAEHPRIAEVPFDSEYK
+YMATFNTSERTPGDIVCHVKGAPGVVLDLCTQVAAPEGLEPLTQERRDLLLAEVEAIADS
+GLRTLAVAGRQLAQAPPEDPAELRKSVSGLVLFAVVGIMDPPRREARDAIEEARSAGIKV
+HMITGDHLVTASAIAKDLGIPGETVSGSALDTLSDEELQELAPKVGVLARVSPEHKLRVV
+EALQADGSVVAMTGDGVNDAPALKRADIGIAMGITGTDVSKGAARMILTDDNFATIVAAV
+REGRGIYANILKFVRFQLTTAWGFVLIFLAAATFGFAGGAPFTAIQILWVNIIMDGPPAL
+ALGVDSTDPKVMRSPPRRPREPLLTGQRLFGLLVSGAVMAAGTCWVLVAAPDIFPDGAAA
+GPDFATTMAFTTFVFFQVFNLLNVRSETSSLFSLQTFTNRTIWFALGAVVLLQILVVQLG
+VLEELFDTVPLTSDQWLFCIGVAAVIVVVSELSKGIGALRRRRATRQTGGNP
+>tr|A0A0P7HIT4|A0A0P7HIT4_9MICC
+MVHKVQAVVVKEKNAPVSLETILVPDPGPGEALVDILTCGVCHTDLHYKQGGISDDYPFL
+LGHEATGVVSAVGPDVTEVAPGDRVILNWRAVCGECRACRKGQPQYCFNTHNATQKMTLE
+DGTELSPALGIGAFAEKTLVAAGQCTKVDDDVDPAAVGLLGCGVMAGIGAAINTGEVKRG
+ESVAVIGCGGVGIAAIAGAKLAGATTIIAVDIDQAKVDLALANGATHGINSREEDPVEAI
+RALTGGNGADVVIEAVGRPETYKQAFYARDLAGRVVLVGVPTPEMQIELPLADVFGRGGS
+LKSSWYGDCLPSRDFPMLVEQYKLGRLDLDAFVSERIGLGDIEEAFTKMHDGKVLRSVVE
+L
+>tr|A0A0N8HXU0|A0A0N8HXU0_9MICC
+MRSTESREQHREFSVQDVARLAGVSSRTLRHYDAIGLLKPSRTGANGYRYYGSRSLVRLQ
+RILLLRQLGLGLPEIAEVLERGDNPAEALRTHLVWLEKEQDRLGRQLASVRRTITALEKG
+QDIMAENTFDGFDHTQYREEVEQKWGKEAYTRSDEWWKGMDDGERAAWQKETAELGRAWA
+EAAAQGTDPTGPAAQGLAARHVDWLRSVPGAPTGPESLPGYVKSLAEMYVADPRFAANYG
+GADGAAFVREALLAYADGKLAG
+>tr|A0A0N8HYY4|A0A0N8HYY4_9MICC
+MRILLADDDVQILRALKITLAVYGYEVAVAQDGEAAVRRAVDSHPDLLVLDLGMPGLSGM
+EVIEAVRGWSTMPILVISGRSDSAEKVRALDLGADDYVTKPFSAEELLARIRALKRRTGP
+AQESPAVSFGNVRVDLAARRVSRIGDGGVVRLTPTEWHLLAALLRQPGRLVTQAQLLTEI
+WGPKTTDAGYLRLYMAQLRRKLEPDPAHPVHFLTEHGMGYRFQH
+>tr|A0A0P7GBF7|A0A0P7GBF7_9MICC
+MAGAGVPEQLDGLVDRYGRRATDMRLSLTDKCNLRCTYCMPASGLDWLPKDKVLTAAEII
+RLVGIGVNGLGVRELRLTGGEPLVRADLVEIVGGIRANHPDLPVSLTTNGLGLDKKASAL
+KEAGLTRINVSLDSLHPGTFAQLTRRPFLDRVLAGVEEAARVGLGLIKINAVLMRGINDA
+EAPALLDWAVQHGFELRFIEQMPLDADHGWTREGMITAAEIRALLEERFVLTPDPRNRDG
+APAERWEVRHRPSPAEVAGVVGIIASVTEPFCADCRRTRITAEGKVRSCLFSHEETDLLE
+LLRSTGDDTAVARRWQEAMWGKPKAHGMDHAGLGAPDYVQPERTMSAIGG
+>tr|A0A0P7GB13|A0A0P7GB13_9MICC
+MARGKEEKRRVILEASLECISRHGYEATRLRDVSEVAGVSIGVIQHYFGTREQLLGEALG
+HASGALVEHFASLDPSLLSPWEELRGMIGVVCGMPSLHGRGLLWLEMSSLARRHPELRER
+LDSVYVLWDAHVRAAVGRGVQDGSLALDSDAGSGSGSVDDLVAIFLAFFDGYEYEIASSL
+VPDDPALLERRAVLLAERLFRPVRA
+>tr|A0A0P7GBY2|A0A0P7GBY2_9MICC
+MANIKSQKKRILTNEKARQRNNSVKSELKTLIRNVDNAVTAADKEAAQAALQAATRKLDK
+AVSKGVIHKNNAANRKSAISKKVNAL
+>tr|A0A0P7H502|A0A0P7H502_9MICC
+MRADAARRRQNIITHAKHVFAERGGDVALEAVAAASGVGIATLYRNFPSREDLVRAVVQD
+MVDQIIHAVDQARSRLDIDPSEAWQALLSRLTSMELGALTDGLALQAGAARNLEATPLAQ
+VQQPAVDALNTVLAELKRHQAVREDLTALDVIVAVATITRPQVSPIRGAAPNVPAQLAEA
+YLLWSRAT
+>tr|A0A0P7FEN9|A0A0P7FEN9_9MICC
+MRRVVPSLVIAGLLVSGGIVSCGTSAESPAESPSASTSTSAPAEFSIPADQQDKLVPADA
+RTITNPADPQATLVLFTDYQCPYCAMMDTLIQQAKADYGDQVQIVVRNYPLPKHQNAEPS
+ARAVEAAAEQGAMEQMAAKVFEHQQDWKTESSVDDVFAGYAEELGLNMEQFEADYNSDAI
+KDRVARDLQDAQDLSIQHTPTLLLDGKEIQLSTGAYSEIQEQLDAALGR
+>tr|A0A0P7G6U4|A0A0P7G6U4_9MICC
+MSAAETLYSADRYGYSDLLSGAEREVLGKLRAVLDAEVAPLLADYWEAGEFPYQIRQPLV
+DLNLMAPDGVADSQGRTSGLYGGFRNFELARTDASVATFYNAQSGLFRSTVLHGGSAEQA
+AELDPLIRSFEFTGVFALTEPEHGSDIAGGLATSARRDGDSWIIDGAKRWIGGAATADVL
+AVFARDEADGQVKAFLVPREAEGVTLTKILRKTSLRMMQNADIELRSVRVPDSARLANIN
+SFKDVAALMRRLRSDVAWIAAGMQAGAYEAAVRYTLEREQFGRPLASFQLTQQKLATMLA
+NLTASLGMVVRLTQRQEEGIFRDEDSALAKMFTCTSLRETVALAREVVGGNGITLDTGVA
+RFHADAEAVYSYEGTHDINALIVGRSIAGTGAFR
+>tr|A0A0P7H3P0|A0A0P7H3P0_9MICC
+MSTSVEMRAAAAGGSPKGRKPGLSDRARAERRLGFWLAGPAFIIMLAVTAYPILLALWDS
+LFKYRLTAPDDREFVFLSNYATILTDEVFWRDLGVTLLITVVTVVIELVLGFALAMVMNS
+ALKAVRGWLRTAILVPYGIITVVSAFAWFYAFDINSGYINHWFSWVPGISTDLNWFADFG
+TAITVIMASEIWKTTPFISLLLLAGLAQVPGELTEAAEVDGATWWQRFSRVIVPNMKAAI
+MVAVLFRALDAFRIFDNVYIMTRGAYGTETLSLLAYRTSITRLEIGMGSAVSVLLFLCVI
+LICFVAIKLFKVDLTGARGGN
+>tr|A0A0P7GS04|A0A0P7GS04_9MICC
+MEMRLLGNSGTAVSNYALGTMTFGNETDEKTSHRMLDDYLAAGGNFIDTADIYNEGASEE
+IVGKWLHSNQTARNTVVLATKARFPTGQDTNDAGNSRRHLRRALEASLRRLGVDHIDLYQ
+LHSWDPLTPLEESLGFLQDAVSSGLISYYGFSNFTGWQLTKAVWMAKLHNWPAPVTLQPQ
+YNLLEREIESEIVPAALDAGLGLLPWSPLAGGWLTGKYHRETVPSGNTRVGENPARQFQG
+WDLRSSNPQTWEVLDAVQQIAASHGASPAEVSLAWLAGRPGVTSVILGARTPDQLEGNLQ
+AAQLELTPAEIQRLNHASAPAVGNYPYGLDGRNQRARKLG
+>tr|A0A0P7GNT6|A0A0P7GNT6_9MICC
+MADSALETGVETWLNAFNTALTGRNTTAAAELFEEDGLWRDFVSFTWNLKTLEGHREISD
+MLDTVLDDVQPANWQLTEQPTEADGVTEAWISFETAASRGWGHLRLRDGKAWTLLTTMQE
+LKGFEEAKGTNRPKGVEHTVERGRKSWLEQKQEHQTRLGYEEQPYCVIVGGGQGGIGLAA
+RLRRLNVPTIVIERNENAGDSWRKRYKSLALHDPVWYDHLPYLKFPDDWPVFAPKDKIGD
+WLEHYTALMELDYWSGTECLGARYEDDAGTWELRVRRGGEDITLHPQQLVFALGVSGYPN
+VPEFEGANAFLGEQYHSSKYPGGGDQTGKKALIIGSNNSAHDIAADLWEHGADVTMLQRS
+STHIVRSDSLMEYALGDLYSERALAAGTTTEKADMLFASLPYRILPDAQIPIYERIAEHD
+ADFYDQLRDAGFSLDFGEDGSGLFLKYLRRGSGYYIDVGASQLIIDGRVKLKQGQVSKLT
+GNGAVLDDGTELDADVIIYATGYGSMNNWLADLISPEVADQVGKCWGYGSGTTKDPGPWE
+GELRNMWKPTNVDNLWIHGGNLHQSRHYSIFLALQLKARMEGVPTPVYGLQEVHHRR
+>tr|A0A0P7GDV0|A0A0P7GDV0_9MICC
+MKPFEAIVREHGAVVLRVCRAVLGPDDADDAWSDTFLAALRAYPSLDPDANVQAWLVTIA
+KRKAIDVHRSAARRPVPVPDLPEPARAEAPPGEHDGLWAALQTLPQRQREALAYHHLAGM
+PFAQVAVLLESTETAIRRAASDGMKKLRTLDAEDLR
+>tr|A0A0P7GT60|A0A0P7GT60_9MICC
+MITVTDLRKVYRQGSRDVVALDGVSMSVPKGSIHGIIGHSGAGKSTLVRCLTLLDRPTSG
+TVTIDGRELTNVKDSEIRLARRRIGMVFQHANLMDSRTAAANIAHPLELVGTSRKDTEAR
+VAELLSLVGLQDFAGAYPAQLSGGQKQRVGIARALAAQPDVLLCDEPTSALDPRTTDEIL
+DLISELTNRLGLTVLIITHEMNVVKRICDSVSLLEAGRVVEHGPLQEVASHLGGRLAKAL
+IPLPATPPVPGGPVVELLMVGEHATEPVLSGLTRRFDTDVNVLAGSVETLAGERFGRLRV
+QLDERTDMDAVKDYLAGQGVSVEVAA
+>tr|A0A0P7HLC2|A0A0P7HLC2_9MICC
+MVLVLAVFAGAVFGLTVFLRDLLGMNEVKDYEGPGEGTVSFVVQPGDGPLVIGNNLAGQD
+IVANSKTFLEVFQQESQGREIQPGTFEMRYQMSSSGALEALLGDGGTAVHYAAIDRDLRQ
+SETFDKLVESTGIPLETFTALAQNPQDFGLPAQAVSLEGYLFPGEYRFPVDMTAEDIIGE
+MTQNAFAALEDAGITDPTQQYEVLTKASIIQAEAGEADYATVAGAIENRLRADNTETNGL
+IQSDATVTYGLNRKSYNLTPEEKADTSNRWNTYANPGLPVGPIGSPSEEAIDAAANPADV
+PYFYWVTVNLDSGETKFSSTLAEHGRYVAEYQEWCGTQKAGRCE
+>tr|A0A0N8HZ18|A0A0N8HZ18_9MICC
+MTVSPLIWGVTIAVILGLLAFDYFFHIRKAHIPTLKEAAIWSSIYVGLAIIFGVLVLVFG
+GVTMGGEYFAGYITEKALSVDNLFVFLIIMASFRVPREDQQKVLLFGIVFALIARTGFIF
+LGAALINSFSWIFYLFGLILLITAGNLLKPEDSEKDEANNFIIRIAKRVLPTTDHYDGDK
+LMTVENGKKVLTPMLLVMVAIGGTDILFALDSIPAIFGLTQNTFIVFTATAFSLMGLRQL
+YFLIDGLLDRLIYLSYGLAAILAFIGVKLVLHALHENTLPFINNGEHVEVIEVSTGLSLS
+VIIGVLLVTVIASLVSPAGKAQTAVNNARRHANDYLDLSYTSDDSERERIYRALCEEEKQ
+ILQMDKKYRDKVKDIEDIRAEVARAHEEHTRYSSK
+>tr|A0A0P7GIJ6|A0A0P7GIJ6_9MICC
+MPTPTKGKRLGGSPAHQRLMLANLAAQLFEHKQITTTVTKAKRLRPYAERLITFAKRGDL
+SSRRRVLALISDKGLVHELFTEIAPAVAQRDGGYTRITKIGNRKGDNAPMAVIELVLEPL
+SAKQSVVAEASTAAAAAAPAPVAESADSAESADSAESAESADSADSAESAESADEAAEET
+EEKK
+>tr|A0A0P7G6D6|A0A0P7G6D6_9MICC
+MSPRYANVSEREQEPPSLAISTVIFALRPDPDTGSLTLWLPLVRRIRQPYLDLWALPGGP
+LQPSESLQDAAARNLQETTGLQPSYLEQLYAFGGPDRSPSPRVVSIVYWALVQPDEAALA
+RQDENVAWFRADKVGTLAFDHNQIVDYALWRLRNKLEYGTVAYAFLGPTFTLAQVREVYE
+AVLGRGLDPANFRRQLQASVHIEPTDGYLQGGRHRPPRLYRYAGPDPRTDSFPASQARPQ
+ATEH
+>tr|A0A0P7HKZ7|A0A0P7HKZ7_9MICC
+MAEQRIPAATVTAALAGAAPAPYWLDRPERPAPLPPLDSRISADLVVVGGGYTGLWTALL
+AKERDPSASVVLLEGREVGWAASGRNGGFVSASLTHGYSNGVKHLPQEVDLLKDMGDENL
+AEFAQAIQRYGIDCDFQWNGTLALATDPHQVQWLREEAGHDGVEFFDREQVQSEVKSPLY
+LAGAWNKKGSALVDPAKLAWGLKRACLELGVRIFEHSPVRSLAKSRHGVEVETDGGTVSG
+AKVALATNVFPSLLRRARLHTVPVYDYALMTEPLTEEQLESIGWTRRQGLDDVSNRFHYY
+RLTEDNRILFGGYDAPYHYGRSMKPEYEQSEESFRRLAAHFLATFPQLEGITFSHKWGGA
+IDTCSRFFSFFMKAYGGRVAYAAGFTGLGVGASRFAANVLLDLLSGVQTRRTSLELVRKL
+PIPFPPEPVAWLGVKITTAAMVRSDRRQGKRGPWLKLMDAVGMGFDS
+>tr|A0A0P7H596|A0A0P7H596_9MICC
+MEFMISGRNVAVSDRFRQYAAEKIGKVENLGDKVQRVDARVTKHENVREADSSLTVELTV
+LGRGPVVRAEASSADKFAAFDLAYGKLMERLRRASDRRKVHRGRHTPVPVRVATAGLEPV
+SSSEPLSSQFAAAEPAPAESSETDQDMQTGDCPVLIRRKVFPGAPMSLDDAVDNMELVGH
+DFYLFVDAATGAPSVVYRRKGWTYGVITLDSKCAEGAEEIREEMRGYRDATPAKDVNAGA
+>tr|A0A0N8HX13|A0A0N8HX13_9MICC
+MSAPAHTAVSREAVEDLRLRTRAFIRDVVIPAEPVPGQALSDAERARLQQAAKDAGVFAP
+HVPVEYGGQGLPLQDWPEIFEEAGYSPIGPTALNCMAPDEGNMHMLELIGTPEQKQQYLV
+PLAAGDVRSCFGMTEPHPGAGSDPDALQTTARKGDGTWLINGHKRFTSGAIGAGFCIVMA
+RTESDGDTPAGATMFLVDMDNPGVRVGELIHTIDRAIGGGHPHVYFEDCAVPDSAVLGEV
+GLGFKYAQVRLGPARLTHCMRWLGLARRSLDIALDRTGSREIFGSRLSELGLAQELIAQS
+VIDIETSAAIITRTAEMLAADPKAGSAMSSVAKVHCSEAVYRVIDRCVQLCGGDGVSDGL
+PLAQYLNEVRPFRIYDGSNETHKWAIARRASARRRKEVEAGAPYQGNAVVRGEQEQ
+>tr|A0A0P7FY42|A0A0P7FY42_9MICC
+MTSRIVVFGATGYTGRLVVESLLAKGQRPLLAGRSHTGLQALADPHGLPFQTADVTDPST
+VRALVDPGDVLVSTVGPFSRFGHAAAAAAAEVGAHYLDSTGEVDFVQEVRRRYSAQAAGN
+GATMVPAFGYDYVPGTLAGAVAAERAGTAAGRLSIGYFTVGSLRRGISGGTRATLAEGLA
+LPAAVWRAGSLQYTRMASRTHAFRIHGRVRRAFLATGTEVLFLPEAFADLGAVEVYNGWF
+PALSRIAGPLTWVTQKLERVPAGKRILAAAAKQAGGSGGGPDAQERSKSLSHAVAELDGQ
+DGRPAVEVHVQGPNVYTLTGELLAEGAMALQQGKAVGSGVLGPVQAFGLEGLTTLCASAG
+LTLASD
+>tr|A0A0P7GDG2|A0A0P7GDG2_9MICC
+MQRTPAWAVTAIMALGGITVSLEKTAVVPLLPEYPRIFGVTPDDVSWLVTVTLLSAAVAT
+PIVSRLADMFGKKRMLMISLAVMVAGGFIAALGGSFAAALIGRTLQGFAGAVIPVGISIL
+RDTLPQRRIAGAVSLMSASFGIGSALGLPLAGFIYERLGWEATFWVVALVALVILAAVAI
+FVPESDLRTRGRFDYAGALLLSGAMTTLLLAITKGGVWGWTSDVILGLFAACAVLLALWF
+PLELRNGQPLVDLRTSARRPVLLVNIAAILVGFSMYANMLVTTQQLQLSRVTGFGFGLSV
+LVAGLTMIPSGLAMVAIAPVSARITNSVGAKATMVSGCAVMAVGYLSRTVLVNTVTGIIL
+GAMVISVGTAMAMAAMPTIVMSNSPRTDTAAANGLNTLLRSVGTSTCSAAVATILASVTV
+TVGGRVFPGLEAFRLIFILAGLAAAAATAICLLLPKAARREATHPELHRSGPGEPDGAAP
+EAAPAPGQAFQVTGVLRPPGDRGPIEQGTVTVTGISGEPVDWDRTDEHGGYAVVLPGPGE
+YVFIASHRRWQPVSEILSFPGTALPHDIHFRRRLVLAGRVTHHRRAVPGALVLLVSPSGE
+SEPVSVRSARDGSYELPLPSPGRYVLTVAEPGGATHTRRVQLPAPETRLDVDLGDEPPPT
+VLRV
+>tr|A0A0P7HUF6|A0A0P7HUF6_9MICC
+MKYIAKRLLALAGILLASSFAVFGGLYLAPGSPEQFLVQGRTVSAEVLASIREQYNLDDP
+FLVRYVSWVGNALQGDFGQSLANRQEVADLLASRLPTTLWLTGLAAVLIVVLGIGLGTLA
+GLRPGVLDNIILFASNLGFAVPTFFAGLLLMSLFSVQLGWFPVFGSGSGEGIASRLTHLT
+LPALALALPSIAVVSRITRTAVREERESEHAMTARSRGVPERVLIPRHVIRNSLLPVTTV
+SGVHIAGLLAGAFVVESVFTLDGIGALLVTSIQQKDFAVVQAVALIMVVAFGLINLLVDL
+LYAVIDPRVRLGGAS
+>tr|A0A0P7HF49|A0A0P7HF49_9MICC
+MSIRVGINGFGRIGRNFLRAALQKGSGFDVVAVNDLADPEQLAHLLKYDSVAGRLAEDVS
+VSDGNLLVGGRTIKVLAERDPGSLPWRDLGVDIVIESTGLFTKAADAEKHIAAGARKVLI
+SAPAKDEDFTVVMGVNDGDYDSEKHNIISNASCTTNCLAPMADVLNREFGIEQGLMTTIH
+AYTADQNLQDSPHRDLRRARAAALNVIPTSTGAAKAIGVVLPELKGKLDGYAMRVPVPTG
+SATDLTVTVSRETTVEEVNEAFRAAAASDRWSGILTFTEDPIVSSDIVGDPASCIFDSGL
+TKVQGNQVKIVGWYDNEWGYSSRLVDLTSLVASKLS
+>tr|A0A0P7HJ26|A0A0P7HJ26_9MICC
+MSDHYQVLGVSRDATGEEIKKAYRKLARKLHPDVNTAPGAADEFKAVTHAYEVLSDPQKR
+RVYDTTGQENGTDNGFGGGFSGQGFGFQDIFDTFFGGGAPGGGRGPASRTRRGQDALINV
+RIDLKDAVFGTNKKIDVETAVLCPTCEGSCCQPGTSPRTCDICHGSGQVQRAVRSILGQV
+MTTAPCGSCQGFGTVIPDPCHECAGEGRVRSRRTLTIKVPAGVATGTRIQLSGRGEAGTA
+GGPQGDLYVEIRVNADPVFMRDGDDLHATLTVPMTAAALGTVITMETFDGEREINIKAGT
+QSGEVTTLKGLGVTHLRGYGRGDLLVHVQVETPQKLDSAQEELLRRLAELRGEQFAEGRV
+SGGNSAGVFAKLRDRLGNH
+>tr|A0A0P7HC99|A0A0P7HC99_9MICC
+MGTEVNARSFTREERTRYRARLLENLDRFAGFLGTAEFADTGSIGVELELNLTNDDFSPA
+LRNSSVLDEIADPAFQTEMGAFNIEMNHPALSIGGRGLLDLEESLRRQLNRADELAAKAE
+ANILMVGILPTLTNSVLDGDAWISAGARYAALNTSVLQARGEDVYLSLNGLESLTQYAKN
+IAPEAACTSLQLHLEVSPAEFAPAWNAAQLIAGPQVALAANSPIFLEHVLWQETRIELFK
+QAIDTRPPEMRNQGVRPRVWFGERWITSIFDLFEENVRYFPALLPELSAASSGSTEAGAP
+LLPELRLHNGTVYRWNRPIYDPGADTPNLRLENRVLPAGPTVLDVTANAAFFYGLVQKLR
+TADRPLWTRTAFKTAADNFLACSRLGLDASVYWPGIGDIPVAELVVRHLVPMAAEGLREL
+AVEDALIERYLTVIRERARTEQNGSAWQISVLGKLEAEGYDRASALAEMTRRYWHHMHSN
+EPVHLWPVD
+>tr|A0A0P7G7B8|A0A0P7G7B8_9MICC
+MSRRAREHARAQHRPGAFRHDIEGLRALAVLAVLAHHLLAWPAGGYAGVDIFFVISGFLI
+TTILVREITSPQKLSLPDFYRRRVRRLVPAAAAVLSATSAAAFIIFGPGRAVTILEDAVW
+SFFFLGNWRFAASGTDYLNAGTAVSPLQHFWSLGVEEQFYLFWPWILLTGIAVTAALRCT
+DRGMRVLLLLFIGAFCAASFAFAVWETLNRPTTAYFSTFSRAWELGAGAMLAVAAPWLSR
+IPALGRAVAGWAGLAGIAASFAVLSADSLFPGPAAALPVVSALLVLAAGTGARGRSHNRA
+MWPLTNPGSRYIGRISYSLYLWHFPVIVFADALFPDASPLPVLALTVLLSVLSFHWVENP
+VRHSRWLQPRYAYRERGRRYRRPAMEPRPARLAGLAATGGFLSAALIAVALQTTLHTADT
+PAAADPPALDARAPSAGAVTDGPGPDPLIAHTAALRTALGSSTWPDLDPDPGAFTEGGRN
+AKPAEWIQDGCLGGNEALDPNPVANAGHCVYGGPKADRDLVLYGDSVAMGYLPALRAALS
+ADEWRIHVFTAAGCAPADVPQVRIGGEPYPECTEFRDWAVQRIGELAPDLLVVSSFRYDP
+ALASRATGEAADAEWSAGTQLIHQRLAGKAARTVVLSAPPEAKDPAQCVTRFSSPGDCES
+ALPDNHQLRADIESSAAAAGNPEAEWVDTTAWFCVEGGCPAFAGSTTLYADAYHLSAAGS
+RLLAPLVASVLEKDGVAG
+>tr|A0A0P7GAY9|A0A0P7GAY9_9MICC
+METQLNISGMTCGHCVASVTEELKEVSGVQDVRVDLVAGGVSTAVVTSAEPIEPKLLGEA
+VAEAGYTVVG
+>tr|A0A0P7FPJ6|A0A0P7FPJ6_9MICC
+MTKAAAVREAPAHPRLADALSGQPKTVWVTAFAAVIAFMGIGLVDPILNTITEDLGASPT
+ETTLLFGSYLGVQVLAMLLTGVMSYRFGAKRTLVAGLVLIVLAAGACSLANSIETLVWLR
+AVWGLGNAFFIATALSVIVGAAAGGQAGAILLYEAALGVGLAVGPLLGAALGTISWRGPF
+AGTAVLMAIGVILCSAMLAKDKGRTQRQKIRLVDPILALRNRNLLMTSLGSAFYTAAFFS
+IIAWSPFVLEEGAFFVGFVFFGWGLCVAVSSVVLAPKVAGWFGERGGAVITVLIYALVLL
+GMAAGNKTVVVIGIVVSGIFSGILNTLFTGTAMSSGTGPRAVNSAGYNFLRWFGGAVSAI
+LVGHIAQWLGMRAPFWVGAICCAVAAGLLLLRGGAGDPEPHAVPEEAAAVGAD
+>tr|A0A0P7GJ98|A0A0P7GJ98_9MICC
+MFNSLSDRLTSTFKNLRGKGRLSEADVDATVREIRRALLDADVAVPVVRAFTASVKERAL
+GSEVSQALNPGQQVVKIVNEELVGILGGQTRRLNLAKNPPTVIMLAGLQGAGKTTLAGKL
+SRYLKDQGHSPLLVAADLQRPNAVKQLQVNGERAGVPVYAPHPGVSSEFEAATGDPVAVA
+RQGVEEARAKLHDIVIVDTAGRLGVDAELMQQAADIRAAITPDEVLFVIDAMIGQDAVAT
+AQAFNEGVNFTGVVLTKLDGDARGGAALSVASVTGKPVMFASTGEGLKDFEVFHPDRMAS
+RILDMGDILTLIEQAEKSWDKDEAARMAKKFVDQEDFTFEDFLAQMQQLRNMGSMKKMLM
+MMPGAAGMREQLENFDEREIDRVEAMVRSMTPHERVAPKIINGSRRARIARGSGVHVSEV
+NALLERFTQAQKMMKKMAAGGGIPGMPGMAGPGGFGGGSRKKQQAAKGKKKARSGNPAKA
+AQERAEAEARRAGARSALPTGSAFGQQGGDFDPSSLNLPKGFEKFLGK
+>tr|A0A0P7GS53|A0A0P7GS53_9MICC
+MAKDKDVRPIIKLKSTAGTGYTYVTRKNRRNDPDRMVLKKYDPKIRQHVEFREER
+>tr|A0A0P7FZF5|A0A0P7FZF5_9MICC
+MPCPDRGWRSVARLDQELVSRGLARSRTHAAKLISAGRVLRGSTVLTKASTPIQAQDQLS
+VSEDGNPDYVSRAGHKLAGALAAFPAVDPTGLRCLDAGASTGGFTDVLLRAGAREVAAVD
+VGHGQLVDSLRADPRVRVFEGMNVRYFTSEDIGGTVDLTVADLSFISLTKVVEPLAAVTR
+PGGSLLLMAKPQFEVGRELLDRSGVVTDPARHRLAVERVAEAAVAAGLEISGIARSPLPG
+QNGNVEFFMWMTVPAGPVRDAAERGAAASTAVNGVFEG
+>tr|A0A0P7GIP5|A0A0P7GIP5_9MICC
+MDWFLSNTEMISRLTALHLFQAVVPLILGLLIALPLAQFARLHRLAGGAILGTSAILYTI
+PSLALFVLLPVILGTKVLDITNVVVALTIYAVALLVRSTVDALNSVDDDVRQAATAMGYK
+PLRRFLAVDLPLSLPVLFAGLRVISVSNMSLVSVGALLGIDSLGRLFMDGLYRNFLTEIV
+IGIGLILLLALVLDLVLVLAQRLLTPWTRAVRSTKPKLPLNTVEARTAAR
+>tr|A0A0P7G3P1|A0A0P7G3P1_9MICC
+MTEALRIWRERAHPFTAVVMEVTDWDAATPCTEWRARDIVAHIISTEREFLETHQLIADP
+HQIETSGEPAGQWAGHESLVAGLLADPDVANRRFAGYFGPSTIGETLAGFYGGDLLVHRW
+DLAVSQGMEAGLTEKELQDIDSSMDGFGELAYAPGLFERPVDIPGTAALEQRVLARTGRS
+VPFAAARSVVRPIQ
+>tr|A0A0P7HHU3|A0A0P7HHU3_9MICC
+MVVDALSDEAVNRLFHALADSTRRDILRRAAAGELSVSRLAEAYPMSFAAVQKHVAVLEA
+AGLVFKVRRGREQLVSTAPDAVDQAHRALDALAEAWEGRLNRMSDLLRQETPGNGPR
+>tr|A0A0P7GB62|A0A0P7GB62_9MICC
+MAGEDFNAARADDQRGFSAEDTTSISLPPITDATSIEPKLSTDERAAVAALPSGSALLIA
+HTGPNAGARFLLDQDVTTAGRHPNADVFLDDVTVSRKHVEFRRTPEGFRVVDAMSLNGTY
+VNNDRVDNLLLRTGNEVQIGKFRLTFYAARPAAGTA
+>tr|A0A0P7GSM8|A0A0P7GSM8_9MICC
+MSFDDSLQLSRQLRPMLPRLYHLSRRRIPGWDLTGSQSSAMATLVDRGPLRMGELAALEG
+VQLPSATSVVNGLVKLGLVERRADPADRRAVVIDLTAKGRRQVDQLVERRNHSFALLLER
+LPAQDRRLLQDALPAVERLLSMGPAPENTPDPEARNTAGAPAAD
+>tr|A0A0P7HH16|A0A0P7HH16_9MICC
+MHEPDHQDTYFAPVDEQLGRFVDQHRSMLAHCLEGLTEDEARRRLVPSKTTLLGLVKHAT
+FVERVWFGEAATGASRAELGIPETPDESFNLTETDTIESVLDVYTRAVELSRRAVEGLNG
+DDLLPGNRRGPLPLRWVQQHMLRELAQHCGHADILRELIMAARTTRPD
+>tr|A0A0P7GHZ3|A0A0P7GHZ3_9MICC
+MTSQLDFTARKIAILGGGPGGYEAAMVAASLGADVTIVERNGLGGSAVLTDVVPSKTLIA
+TADVMTRFSSASNLGVDFGDAQPVAADLKMVNHRLLALAREQSNDIRRTLERMGVKVVLG
+NGRLLDNHTIEATAEDGTVTTVDAEALLISTGANPRELETSMPDGERIFTWKQIYNLTEV
+PEHLIVIGSGVTGAEFASAYNGLGARVTLISSRDRVLPGEDADAARVLEDVFQARGMTVL
+SRSRADSVKNTGDGVLVTLSDGRTVEGSHCLVAVGAIPNTQGIGLEEAGIALDDRGQIKV
+DGVSRTTAPNVYAAGDCTGVFNLASVAAMQGRIAIAHLMGDSVKPLKLKHVASNIFTSPE
+IASVGVSEADVDAGRYQGDVIKLSLHTNARAKMMDVKEGFVKIIARKGSGTVIGGVVVGP
+RASELIFPIALAVTQKLHVDDVANTFTVYPSLTGSISEAARRLHVHI
+>tr|A0A0N8HY04|A0A0N8HY04_9MICC
+MDLQFLRVGLAPGYLDYQEGWDLQRRAHREVSEGTRQNTVYLLEHTPVYTAGRRTEPHER
+PFDGTEVVNVDRGGKLTWHGPGQLVGYPILRLPDPVLVVDYVAALESALISVLADYGLAG
+ERVDGRSGVWIRGTDGGQDRKIAAVGIRVDHGVTMHGFSLNCSNDLAPYAQIVACGISDA
+GTTSISAETGTAVTPSDVVARVEEELRHTLANLSPHPGAAPPAPGNSGTANKAQGAMT
+>tr|A0A0P7FDV7|A0A0P7FDV7_9MICC
+MSTNTPSAETEKAPANSRGRVIVASLVGTSIEFYDFYVYATAAVLVFPILFFPNAEGVTA
+LLSSFAVFGVAFIARPLGSIVFGHFGDKVGRKGTLVASLLTMGIATFLIGCLPTATMDGW
+TFWAPALLVVMRFAQGLALGGEWSGAALLATENAPANKRAIYGTFPQLGAPIGFILANGL
+FLILSFNLAEEQFMSWGWRIPFLASAVMVIIGLYVRLKLVETPAFQKVVDSGEVSKLPLA
+AAFKFSWRPMIAGTFIMLATYVLFYLMTTFTLSYGTAAKTEEEAAAKAEAAGKAFDPDAF
+ASGLGYARNDFLIMLIVGVVFFGIFTMVAGPLAEKYGRRKTLLWVTAAIFVFGFAFDPLF
+GGGFVGTMALLIIGFTLMGLTFGPMGAVLPELFPTNVRYTGSAIAYNVSSILGAAVAPFI
+AVALWQAADGSPWLVGIYLSSMAVLTFIALWVTRETKDVDYVNHSS
+>tr|A0A0N8HXL1|A0A0N8HXL1_9MICC
+MTVSLPSAPAPERAARVQAPAQAFTEQSLRERLLGAALPSRYWAWGAALGAALLAGVLRF
+VRLDEPGTLVFDETYYVKDAYSYLVSGYERAWPDGANESFTSGRQDVLLEGPEYVVHPPV
+GKWMIAFGMALFGSDSSFGWRFSAALTGTLTVLLLALIAYRLFKSPLLGGVAGLLLAVDG
+HHLVLSRTSLLDIFLTFWLLAAFGALLLDRDDGRRRLARKLARPPGSIPDAAVLRTGPWL
+LWRPWRLVAAVCLGLAVGTKWSALAFVAVFGLMTVLWDVSARRTAGIRNWPAGLLKDGVP
+AFFTLIPLAACTYVATWTGWLVSSGGYGRQWAESNPAGALGWVPDPLRSLAEYHRSAYSF
+HNSLSSEHNYEASAWTWLFLGRPTSFFYESPDGAVCGADTCTSAITSVGNPLIWWAALLC
+LGVLLAYWLGRRDWRAGAVLSGIAAGYLPWFAFPDRTMFYFYAVSFLPFLVLALTFTLGL
+VLGRAADPPLRRRRGALITALFLLAVVLVSAFFYPVWTAEIIPYSDWRLRIWMPSWI
+>tr|A0A0P7G9T8|A0A0P7G9T8_9MICC
+MKTPLRIGYAAMLEQFHPTEAVALSAYAEERGFSGVMAADHFQPWVPAQGQSAFVWNVLS
+ALGERTKGDLGPGVTAPTFRWHPAMVAQASATLAAMYPGRHWLGLGSGEALNEHITGQYW
+PEAPERINRMFEAIEIISKLFAASLAGKDVRHSGTFYKMESTRLWTMPEVAPEILVATAG
+PVTAKRAGRHADGLITVGAPLEKIEGLFARFDAGAREAGKDPENMPKVLQLHMSWAPTYE
+EALANAMTEWPNGGMKFPKADIRSPFELEQMARLVRPEDFEGRLLISEDPDVHRAYIQKF
+LDLGFDRVYLHNVGRNQREWIDVFGASVLPELHR
+>tr|A0A0P7H8A8|A0A0P7H8A8_9MICC
+MIIPADAAGRAPLRTVLFGFGLGGRVFHAPLLEQDARFSLDVIVTSDPGRARAASAAYPG
+AVVVPSADAALALAGGLDLAVISTPPATHAPLALAALDAGLNVVVDKPFAHSPEAAAEMM
+AAAAAGGKLLSVFQNRRWDGDFLTLKALVERGDLGSVTRFESRMESHKPAVTKAWKKQAG
+AAEGGGILFDLGPHLIDQALQLFGPAEPVWAEVHARREAGGPDDDVFVVLRHDSGVLSHL
+WMNSLAPQAGERFRVTGSKAAWTKRGVDPQEAQLDAGLRPGDAGYGSEDPAAWGRLGVDG
+STVAVPTEPGRYQDYYAAVAAAVQDGKPNPVDPADSLRGLEMIRQIHAGL
+>tr|A0A0P7GC57|A0A0P7GC57_9MICC
+MDQIQSAQGRVPLTAKRAVAVFGIGVVGFMTANLVPIMIVALTEDLDFSVTAAGTLMTAS
+LLACALSCLLTSRWAAASGRYVIARTGLALTAAGFGAAAFIPSEPVVIAGIILGGLGAGG
+AVSAGGAALGALRNPDRASGISGFSNRAIVSLVLLVIPVLGAGMGSAFGLFAGLALAALL
+VTGWLPERPTAEPAAAAAALGVAAGAGTSVSAKPSRSATFAGLGLLVCFALWGLSEDSLW
+AVAATMGADQAGLDETGMGLVLSLSTLGGLVGSALVALAGRRLGRTVPLAVVLAAGAAMK
+YISGMVEDSGTYMAVIIIWNTLYLIAFVYIIAIAAALDASGKWSAPALGVYLIGSSFAPF
+MGTAISASAGYPTLGVVLAVMTLVLMVPLLGISRYSVRAEKAASAPETEAAAV
+>tr|A0A0N8HXR4|A0A0N8HXR4_9MICC
+MDLQLRDKTAFISGSTQGIGYAIAKTLAGEGARVTLNGRDQGKVTAAVEALRREIPGASV
+DGLAADFSDPIQVERLCTELSDTDILINNVGLFDLKPFADISADEWRRYFEVNTLSGALL
+SRRLLPGMLERGWGRIVFIGSESGVNVPADMIHYGASKAAMLALGNGLAKLTKGTGVTVN
+SVLGGPTYSDGVAGTVEALAAQTGLAAAEMKQAIIGTNQTTLLQRFIEPEEIAAMVTFLA
+SPLASATNGSAVRVDGGVLTAML
+>tr|A0A0P7HCY7|A0A0P7HCY7_9MICC
+MEGPEIQYSEAVIDNGRFGKRVIRFETGRLAAQAAGSAMVYIDEDTALLSATSAGKSPRE
+GFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTEAILACRLMDRPLRPAFVKGLRNEVQ
+VVVTVMAINPDVLYDVVAINASSMSTQLSGLPFSGPIGGVRVALVEGQWVAFPKHSELER
+AVFSMVVAGRIAGDDVAIMMVEAEATDNAWNLIKEEGATAPTEEVVAEGLEAAKPFIKVL
+CDAQSDLAARAAKPTVEFPIFLDYQDDVYEAVEAAAAAKLAEVFTIADKQERDAASDALK
+DEVKASLAERFEGRENEVSAAFRSVTKQVVRQRILKDQIRIDGRGLTDIRQLTAEVEVLP
+RVHGSAIFERGETQILGVTTLNMLKMEQQIDSLSPVTRKRYMHNYNFPPYSTGETGRVGS
+PKRREIGHGALAERALMPVLPSREEFPYAIRQVSEALSSNGSTSMGSVCASTLSMLNAGV
+PLKAPVAGIAMGLVSDQVDGETRYAALTDILGAEDAFGDMDFKVAGTSEFVTAIQLDTKL
+DGIPASVLAAALKQAREARLHILGVMDAAIDTPDELSEFAPRIISVKIPVDKIGEVIGPK
+GKMINQIQEDTGADISIEDDGTVLIGATDGTSAEAARAAINAIANPMVPELGERYLGTVV
+KTTTFGAFISLTPGKDGLLHISELRKLSGGKRVDNVDDVVSVGQKIQVEITKIDDRGKLS
+LSPVVAEDDAEGEAAAETAE
+>tr|A0A0P7FFL6|A0A0P7FFL6_9MICC
+MVPPRNSPTPPWPHPSGAVPPPVPRELVPGHVAIVMDGNGRWANQRGLPRTEGHRAGEAA
+LLDVMAGAVEIGIQHVSVYAFSTENWKRSPEEVRFLMGFSRDVLRRQRDQLDEWGVRIRW
+SGRRPRLWGSVVKELEVAEEQTRNNTTCTLNMCVNYGGRAEITDAVSAIAEDVKNGKLRP
+GSISEKTIQRYLDEPDLPDVDLFLRTSGEQRLSNFMLWQSAYAEMVFMNTLWPDVDRRTL
+WEAVEIYARRDRRYGGAVDQAAAGS
+>tr|A0A0P7FPP7|A0A0P7FPP7_9MICC
+MLKGFKDFIMKGNVLDLAVAVIIGAAFTTVVNALVNSVLMPFISGLVGSPNFDSFAVVTF
+NGNQIQFGVLLTAVVNFLLVAAAVYFAIVLPMNKMIERRNRRLGITPEQSADPQVMLLTE
+IRDALTAQPPNGAAQAPGGPKH
+>tr|A0A0P7FPF6|A0A0P7FPF6_9MICC
+MSTSATAPAFRLEQKRNITGTFPGPKSAALSERRAAVVAKGVASSVPVYVQDADGGIIQD
+VDGNSFIDLGSGIAVTSVGASDPAVVAAAQEQVSRFTHTCFMVTPYEGYVAVAEKLAELT
+PGTHEKRTVLFNSGAEAVENAVKIARSATGRQAVVAFDHAYHGRTNLTMGLTAKAAPYKT
+GFGPFASEIYRMPMSYPYREENPEITGTEAAERAILAIEKQIGADQLAAILIEPIQGEGG
+FIVPAEGFLPRLAEWAKANGIVFIADEVQSGFCRTGEWFAVDHEGVVPDIMTMAKGIAGG
+MPLSAVTGRADLLDAVHPGGLGGTYGGNPVACASALAAIETMETQDLAGRARRIEEITVP
+RMRRLADETGVIGDVRGRGAMLALELVKPGTKTPDAAAAKAVAAACLAEGVIILTCGTYG
+NVIRLLPPLVIGEELLSDGLDVLEAAIRAQA
+>tr|A0A0P7GDN2|A0A0P7GDN2_9MICC
+MVDGPLIVQSDKTILLEVDHPQAVEARHAIAAFAELERAPEHIHSYRLTPLGLWNARAAG
+LDAEQVLNTLLTYSRFPVPHTLLVDIEETMSRYGRLRLEKDPQHGLVLRTNDYPVLEEVL
+HAKKIQPLLGPRIDGETVVVQSAMRGQLKQLLLKLGWPAEDLAGYVDGTPHPILLNEDGW
+TLRPYQKVATENFWAGGSGVVVLPCGAGKTLVGAAAMATSSTTTLILVTNTVSARQWKDE
+LLKRTSLTEDEIGEYSGAVKEVRPVTIATYQVLTLKRGGLYPHLELLDANDWGLIIYDEV
+HLLPAPIFRMTADLQARRRLGLTATLVREDGREGEVFSLIGPKRYDAPWKDIEAQGYIAP
+AECIEVRVDLPREERVAYAMAEDGDKYRLCSTSETKSKVVQDLVRRHEGDQILVIGQYID
+QLDELAERLDAPVIKGGTPVKERQRLFNDFREGKLKTLVVSKVANFSIDLPEASVAIQVS
+GSFGSRQEEAQRLGRLLRPKSDGRAAHFYTVVARDTLDQDFAAKRQRFLAEQGYAYSIQD
+AADIEKPA
+>tr|A0A0P7G4C1|A0A0P7G4C1_9MICC
+MRVSVLDAPGKLRLEDRPVPVPGPGGVLVRIVAVGVCGSDTHYYREGRIGSFVVESPLVL
+GHEASGRIEAVGDGVDPARVGQRVSLEPGIPQPYSQQTLSGHYNLDPDVRFFATPPVDGT
+FAEYVVHPAAFSHPVPEHVSDDAAALLEPLSVALAARAAGQVQLGDKVLVAGAGPIGLLV
+SAVCALAGADVTVTDVRAERLDAAARYGAAHAFTSADAPEPAPEYQVFVDATGAEPAVLS
+GIQRLAPRGRCVLVGMGADTIALPVPLVQGRELTITGTFRYANTWPLAVDLATRGLVDLD
+GLVTSRHGLDDVEAALVAGAREGALKAVVTP
+>tr|A0A0N8HX10|A0A0N8HX10_9MICC
+MPFDPLTKSLSGGQFACEESSAAAADRAAKVAGMSARWRRSWDFADPEQGDADQGAEAEA
+DRWAAELDDNHIEHAAFVTAGGNDAMAKLVARGGGRFLGMAAMADPFQPGAAENFRQALE
+RYDLRGLKIFAPLMSARIDDPGADPVWRVAAEHRVPVLIHFGHCGSAGGIAHNEMIEPAW
+LETVAKRHPDVTFVIPHFGIQHVQQVLFLMWACPNVQVDTSGSNQWVRFMAQQLTLEDVF
+RRFYETHGPERIIFGTDSSWFPRGYVRRYLADQLRICWEMGMPASHVQQIFGANAASLLR
+IEGWTPADPALHTAQAPGAKL
+>tr|A0A0P7G9R3|A0A0P7G9R3_9MICC
+MGETVETDPTTEQLGAVRTAIDEIDEEIVALIWRRERLVRLAGGLKDDDAQVRARDRVEE
+VINHVRDAAKAQEQDSTVVEKTYRAMIDAFIDYELRTRHEDEVQARLDAFSRS
+>tr|A0A0P7HEI0|A0A0P7HEI0_9MICC
+MTAGTDFEACAAGETQALAENRVDLRQARRDFLVALEPVRASVYAYCRSLTPTVWDAEDL
+LQETLTKALAEASQRYEPIRNTQAWLVRIATNTWIDSLRRSGRVTLEWTESALDLPDDGA
+EDPLAALAVESALRQLLHLLPPRERACVVLKDVFSYSLAEIAGMLETTPGAVKSALHRGR
+TTLRAARTDSAGPSPETLAPGPRAAGRHPGHQALLRRLAAAFNAYDIDAMVSLFLASGRS
+EVVGNATETGHGEIRAGSLTDTFGPDAAEIHRSTVHHFDGEDIILMWERQKNVPGASEVV
+SDVLRVRPAFGAPLVAELKWYFFCPEVVAEVAGGLGLPFKTNGVSYF
+>tr|A0A0P7HWK3|A0A0P7HWK3_9MICC
+MEVQAADAASGDRIAAGQDLSVRVPATSANLGPGFDSLGMAVSLYDTVRVRTTDSDTVRV
+RVRGEGQDVLPTDETHLVARTIADTIRRAGFVAGGFELECENVIPHGRGLGSSASAIVSG
+VLAGNALLPASARLDAAGLLHACSALEGHPDNVAPALSGALAVSWEEAGVFRSIRAGVHP
+DIVPVVAIPATELSTESARGLLPAAVPHRDAAANSGRAALLMHAMTTDPSLLREATEDFL
+HQGYRAPAMAPSADLIRALRSEGYAAVVSGAGPTVMTLAPDADQARAAEEFISAYLDAHS
+GQNWRVLGLGVDQDGARVVLHHR
+>tr|A0A0N8HZ62|A0A0N8HZ62_9MICC
+MLETSARLLHLLSLLQLRREWTGSALAERMSVTERTVRRDIGKLRSLGYPISASPGIAGG
+YQLGAGAQLPPLLLDDEEALAVALGLTAVASGPVSGIGEASIRALVKLEQVLPGRLRPKF
+SALRQSVSVMAGPSATVSAVNPEILTAFSTAISERRAAAFRYQAHEAAEGRRIVEPYKLV
+STGRRWYLVAWCTERRDWRTFRVDRCQSVPVLREKFAPRPLPAQDLAAYVQAAITRSPYR
+YDVVIRIASPLAAVAEQVPAEVAVLEADGPGHTVLRSGWDSLDQPLVRMAGMGVEFEILA
+PEEMRERARTAAGRLARAAGEIPPTH
+>tr|A0A0N8HXZ3|A0A0N8HXZ3_9MICC
+MRVLEELKSAAAAVQARAAAAFDASQRRAQSRAGVPADELGRGIGAQVALARRDSPHRGS
+RLLGLGKALVHEMPYTLAALSAGVLSEWRATLLVRETACLDVEDRHRVDELICKDPAKLE
+GLGDRRLIARIRTITQALDQASQVARNAKAVADRYVSCRPAPDTMSYLSALLPVAQGVAV
+YAALSRAADGLRAAGDERGRGQIMADTLVERVTGQASADRVPVEVQLVLTDRSLFRQSGP
+DEPAYFPGYGTVPGRWARELISRALTNPPGHSNIPRGPFGNARSPQGSSSSPRSPRSPLG
+SGSPQTPLENSSSPQAPPRNSNSSHQTAAGHGNGPQTGEPSGPEQADLVTLRRLYLDPVS
+GELAAMESRARAFPPGLARLIRTRDQTCRTPWCDAPIRHIDHIQPHADGGPTTYTNGQGL
+CEACNHAKQAPAWNSTTLHRQQPLQPLQPQQRPEAVPEPAQPRHAVSITTPTGHTYISVS
+PPLPGAAVCGH
+>tr|A0A0N8HZ27|A0A0N8HZ27_9MICC
+MAKLTNEELIEAFKELSIIELSDFVKLFEETFDVTAAAVAVAGPAAGAAEAAEEKSEFDV
+ILEAAGDKKIAVIKEVRALTSLGLKEAKDLVDGAPKAILEGANKETADKAKEALEAAGAT
+VTLK
+>tr|A0A0P7G7W3|A0A0P7G7W3_9MICC
+MTSNTASSSPRSLAGRTILMSGGSRGIGLAIALRAAADGANVAMLAKTGEPHPKLEGTVY
+TAAEQLEAAGGKALPIIGDVRRDEDVERAVAATVEQFGGIDIVLNNASAIDLRNTDDVTM
+KSYDLMQDINARGTFLLSKTALPALRESDNGHILTLSPPLNLDPKWAGNYLAYTMAKYGM
+SLTTLGLAEELKKDGIRVNSLWPCTSIDTAAIRNMPGGSELARVSRSADIMADAAHAILT
+RSGRESTGNFYTDEEVLRQEGVTDFTKYSLGAPEDKLMADFFL
+>tr|A0A0P7HEI8|A0A0P7HEI8_9MICC
+MTPSALPLGDPAPKDGLLPPDAAAAAAERKFGLYVHIPFCAVRCGYCDFNTYTATELGGG
+ASQDAYAATAQQEVRFAAKALAASGIPERRIETVFFGGGTPTLLPAEDLAAILGTAVEQW
+GLAPGAEVTTEANPDSVTPESLQLLADAGFTRVSFGMQSAVPHVLAVLDRTHTPSRVPQA
+VQWARDAGLKVSVDLIYGTPGESLADWKHSVEEALSYEPDHISAYALIVEEGTKLAARMR
+RGEVPPIDDDDHADKYLLAEELFAAAGLHWYEVSNWARTPQDACRHNLAYWRSDDWWGIG
+PGAHSHVGGVRWWNAKHPSAYAGRIAAGESPAVGRETLDADTRYLEDVMLRTRLAEGLPR
+EVLRPEGRHEIAGLIADGLVEPRAAMAGTVLLTLKGRLLADAVVRRLLP
+>tr|A0A0P7G7L7|A0A0P7G7L7_9MICC
+MNSRIIEVLGREIATGTCGPGTRLTLDGLQERFAVSRTVVRDCMQILEAMNLVYSKRRIG
+IVVQDPVYWNVYDPRIIRWRLSGPGRKTQFRSLTELRIAVEPLAAAGAARKATPEQRESL
+VDLARQMRESAADSEAFLAADIAFHTLLLQASGNEMFTALSEVVAEVLSGRTRENLMPAR
+PRPEALDGHEAVAAAVADRDSAGARARMAGLLVEVEEAILGQE
+>tr|A0A0P7H3L1|A0A0P7H3L1_9MICC
+MSTYPAPAAAGPHRLAGRTAVITAASRGIGLATAHRFVAEGARVLITGRDQAALQEAAAG
+FPEGTVVAVSGNAADPLHQRSVLDAAAEAFGALDVLVNCAGTNPVYGPLLDLDLDAARKI
+LETNVLTALAWVQAACRHPGAGFLRGGASVINMSSVSARTAAKGIAFYGISKAALEQLTR
+SLAVELAPAVRVNALAPAVVKTRFSQALYEGREEKAAAAYPLGRLGAPEDVAAGAAFLAS
+NDAAWVTGQVLTLDGGLLAGG
+>tr|A0A0P7HD85|A0A0P7HD85_9MICC
+MSDLITPDLVTLDQDLGTSKDAVIRHLAEKVVAAGRATGFDGLYADAMAREQKTATGVPG
+GIAIPHCRSASVTTPSLAMARLKPPVDWGAKDGPADIVFFIAAPEGADQEHLQLLAKLAR
+SLIKKDFTGALRTASTPQEIVALVNGALGLGPAPETSQASGTAGGESESPAGGRHVGGAE
+ATGATAAGTAAGAAAGASAAHAGNASGEVHGGSGTATSGEPPASATGPRPEKLVAVTACP
+TGIAHTYMAADSLAAAAAERGIDLQVETQGSAGSTPLDPDVIKNADAVIFAVDVDVRDKG
+RFAGKPVISGPVKRGIDEPGVMIDEALAAAKDPNARTVSGGGGGGEERASAGGENFGGQL
+KRALLTGVSYMIPFVAGGGLLIALGFLLGGYELSLSNDEGVANGDIILDGTSIFSLPPDG
+LLAYLGAVFWKIGNISLGFLVPALAGYIAYALADRPGIAPGFTAGAVALYMDAGFLGGIA
+GGLLAGYVAMWVGGWKVPSWLRGLMPVVIIPLIASLIASGLLLLVLGGPIAALTLALNDW
+LSGLTGVAAIGLGVILGLMMGADLGGPINKVAYAFAVAGLGEGAFDNQAPWQIMAAVMAA
+GMVPPLGMALATVLDKSQFSMALRENGKAAWLLGAAFISEGAIPFAAADPLRVIPSTMLG
+GATAGAICMAAGVTSQAPHGGIFVFFAIGNIFMFIVAILAGMVVSALVLVGLKRLTAPKR
+TEEPVVA
+>tr|A0A0P7HMN8|A0A0P7HMN8_9MICC
+MPNEQSPAGMPAASATQSPGGTSYVSSRPAGGTPPDDKPSTSGLLFGIGAYGIWGVLPLY
+FLLLEPAGPVEIVAARVLFSLVFCAALLTVMRSWRLVFAAARNLAVVGTLTLAAFLIAVN
+WLVFAWAVLSGHAVEAALGYFINPLISVLLGVLVLKERLRPLQWAAIAVGFIAVLVLAFG
+YGTVPWVALALAFSFGLYGLVKKNVGGKVDAVSSLTIETAVLTPVAAAVLVILAVTGSGT
+LLTEGPAHFWLLAASGIATAVPLVFFGAAARRLPLSTVGLLQYLAPILQFTLALLVFKEA
+MPAERWAGFGLVWLALLMLSIDMLGSPRRARIRRAAAA
+>tr|A0A0P7FIG8|A0A0P7FIG8_9MICC
+MTDHVEAVLAQWAAERPDLDVSPMAVLGRLSRTSRRVDAELAGTFAAHNLDAASFDVLAT
+LRRAGSPFTLSPKDLAAQSMVTSAAVAQRLNRLEARGLVSRSRNNDDGRGTLVSLTAAGR
+KLIDGALPDHVATEHRLLEPLTAVERQTLAELLGKLGG
+>tr|A0A0P7GLH3|A0A0P7GLH3_9MICC
+MRESDAVAVIGLGRFGQSLALELMASGIDVLGIDGEQQVVQSLDGRLTYVVMADATQEDV
+LRQLSIPEFNRVVVAIGQDVGASILTISLLLRFGVPQIWAEAVSEAHGTVLRQLGVQHVI
+FPEKDMGRRVAHLVQGSMLDYIPLGGDFAVVETSPRQFLAGSTIHGAEVRRRYGVVIVAL
+RKSDGEWKFAEPDIVLEEGDELLVAGPTGKAEAFSRL
+>tr|A0A0P7G7K7|A0A0P7G7K7_9MICC
+MSAAAVMLCAMSIHGVVEGSAWIWPLGMAVGAVAGGAALARWLRFPTALVPAAGLAALAM
+ALTLMFAADESFLGVIPTGGTLARGGELLAGAQTTVITQVIPVVPDAGVVFIACLAVGLV
+AVLVDTLAVTLRMPAASGLGLFTLLLVPAVIKPQSVGVAGFTAAAAGYLLVLAAGTWQDR
+RDRSAETSVARPTGPQAAGAAGIGAAALVAALLVSLAIPGFTTGAFPQGARFTIFSGSTG
+LNPVVTLGNDLRQPTATGRITYATDSTRPVYLRSTTLEDFSGSRWAPDPRNQERRSGISG
+MEPPEALDSAIPTDTVTTVVSSPSYASPWLLAPYAPSEVSELSGSWTWDPATMTILSASG
+SSEPRAGYRVLSETPVVTSETLSGLPAASPDSVEPMFTSLPDNLPQIIRDTAQEAVAGAE
+TPYAQALALQSYLRGAQFDYSLEAPVEGGYDGNGIDVLARFLEQRSGYCIHFASAMAVMA
+REVGIPSRMGLGYAPGRATGETIESEDGTELNEFAVDARDAHAWPELYFEGVGWVRFEPT
+PSRGVVPAYAVQRQQNAASAAQADADPRELQNPLPAVPPAASPAPGSQTEALNPEETAGA
+PWAGVGIGVLVAAAAVLAPWAVRRRRSSLRRLESTRSGSAAPAWAEVTDLAQDFGYRART
+ADSPRSYSDRLAVQAAFPPPAAAALARLRAAYETEAYAGPASPDRNGPGRNPADWADVDT
+LHRALRSSVSTGVRLRARFFPASFLPSSRRQADAASPAA
+>tr|A0A0P7HM98|A0A0P7HM98_9MICC
+MSNVVLLLFAACFVLPLAWLVSASLNADATYELTAPSTLTLDNFGAILNAQQTFLPLLNS
+FLLATGSALVTVTAAVLAAYPLSRYQLRFKRPFMYTVLFGTCLPITAIMVPVYSLFVQLN
+LLDSLGGTIFFMGATFLPIAIWMTKNFMDSVPVSLEEAAWIDGASSMKALFYVVLPLMRP
+GLAVVFIFVFLEGWGNFFVPFILLFAESKQPASVSIFRFFDQYGGVAYGELAAFSILYSL
+PVIVLYIATRAMGGSFAISGAMKG
+>tr|A0A0P7GKA0|A0A0P7GKA0_9MICC
+MEDLIPLTPQLWTAVGETLYIVGLSLLFGGIGGLLIGLGLYTTRSGALLANRAVFGILNV
+LVNIFRPIPFIIFLAAAQPLARSVTGSGIGNNAIIFTLSLAAAFGISRIVEQNLLTVQPG
+VIEAARSVGAGRRRIILTILIPEALGPLILGYTYIFVALVDMSAVAGYVGGGGLGNFAIQ
+YGYRQFNPVVTWAAVAVIIVLVQLVQFLGNQTARKVLRR
+>tr|A0A0P7G8B4|A0A0P7G8B4_9MICC
+MTEKPPAIQSAPSRAVETLEQELSVLWRRARAVSHRVAKAVHPDLEPAAYGLLVLLQRRG
+PLRLTDVAAAIGVGKPSVSRQIVMLESLGLVRKQADPEDGRAQTISLTDSGSEQLMKAQR
+AREKHFRALLSSWDEEELQTLGVLLHKLNASEVPGTVPSS
+>tr|A0A0P7GLT2|A0A0P7GLT2_9MICC
+MSLPRTEPGLLQHLIAALDGGALEVVDLTAPLSSTIPTLKLPDPFVNLIDFSLEQVSAFD
+EPGPFWKHNNIHTGEHIGTHVDAPSHWITGRDGDDVSQIPVKRLVGPAVVLDFSAEAAAD
+PDFLVEPEHIQAWEAEQGALPKGAWLLLRTGWDKFVDDADAFLNFDETGSHTPGISAACA
+KWLAEETPIAGLGVETVGIDAGNAGAFDPPFPAHYYLLGNNKYGVTLLQNLAQLPATGAM
+VVVSPLKIVGGTASPARVLAFVERQP
+>tr|A0A0P7GLR7|A0A0P7GLR7_9MICC
+MAHIRILATGGTIASHSGRDGAASVGRAEDITASLSGRHSYSVQDITNANSFRLRLAEVR
+AVAEAVQAAVADEGVDGVVVTHGTDTMEETAFLLDLVHDSRKPVVFTGAQRPADSPMADG
+PANLEEAVTAAAASGLRGAGVLVSFAGQVRSARGIRKTHTVAANPFGGGVEVAHFVAGAL
+HITAVPVRPAPLPLPGEDFDNVRVEIIVCALGTTPDLFSHAVHTGADAVVLAGTGVGNAG
+AGFAEAVQDAVRGGCPVILCSRVPAGPVVPAYGAGGGLDLVRAGAIPGGDLAPTQARMLA
+ALLTSLPATQDEILQALTTGTSRNN
+>tr|A0A0P7GVB7|A0A0P7GVB7_9MICC
+MNPWFAGIPLALIITVLLAGGALWLLRRRRGAGIKVMLGVNGLIMAGALALLAAAFAAAP
+ATASGGAAETAVSMATDGSDSSSAALIGAAIAVAGSSIGAAIAVAYTGSAALAAMSERPE
+IFGRAMVVVGLAEGIAIYGLIISIILIGQA
+>tr|A0A0N8HZ76|A0A0N8HZ76_9MICC
+MHRRSFLRLGAGLAVGVPLAAALAGCSTDDPLAEQAKAGDNKNYIAGDGSVTEYAPSERG
+EPVRLSGTLFDGTEVSAADWAGDVVVLNFWYAACAPCRKEAPDLVELHDTYAPEGARFYG
+VNIRDEAKTAEAFERNFAIPYPSFEDRNGEVLLAMTSFVPPQAVPTTLVLDREGRVAARI
+LGLADKGTLKTLISDALAA
+>tr|A0A0N8HZ80|A0A0N8HZ80_9MICC
+MIAVAAAAAFLATFNETFLNVAFTPIMQDFGVNVSTVQWLTTGYLLVAAVFVPVANVLYH
+RFPTRPLFVAVVAIMVLGSVVGALAPSFEVLLIARLLQAIGTGLLTPIGMNITLAVSPRE
+KLGLNMGIMAAMTTLGPSLAIVLSGAILTVAPWTTLMWAFGGLTVAVLLAGAIVLRNVTE
+LGRPVLDILSFVLVAVGMVGILYGVSSAFEGSALYAGVAGVVGLLAMWLFILRQRRIENP
+LLDLRPFSSAPFVFGVLMTMLGLVFVFAMNVVIPLFLQGALEMPPLGASLTLAPGILLTV
+GMGPIAGRLFDRHGGRWSIPLGFLVMAIFVTLVGVAAGQGSVWIFGLLYVPAVLATAFVV
+GPSQTFALANLDRETSPHGVTVVSTSFQIAGCVGTSLATGIYGAVIASNIESGSSEGDSL
+LAGFHGSVALVVATSLLGILLAFLAYRSVQSRRAAENAQAPADTVQSIMKSDVYALSSDA
+SVLDALQTFAERGISGAPVLNADGTLAGFLSDGDVLRYLSATHPSSTSIYSYAIGAADDL
+EQAMSDLANLNVMRLATHDVVTLDAGASVSDAVAALSDARLKKVPVVKGEDSRPIGIVSR
+SAINRLAIATYLRSRSEADVRTPA
+>tr|A0A0P7FPV6|A0A0P7FPV6_9MICC
+MTGTTDVAAEASAGTEWVRPTWQEVVETHSAKVYRLAYRLTGNKHDAEDLTQEVFVRVFR
+SLANFQPGTLDGWLHRITTNLFLDQARRRSRIRFDGMSEEAESRLPSQGPGPERSFEFNN
+LDVDIQRALEELPPDFRAAVVLCDLEGLSYDEVANALGVKLGTVRSRIHRGRSMLKEKLA
+HRDPAQRRTPAVGLKIPRVAGAG
+>tr|A0A0N8HY38|A0A0N8HY38_9MICC
+MTGQVTESFLAGGPSLRHAAGPYFGEYGGRWMPESLIAALDELTDTFEKAKADPEFTAQI
+AELNRSYSGRPSLLTEAKRFAEHAGGVRIFLKREDLNHTGSHKINNVLGQALLAKRMGKT
+RIIAETGAGQHGVASATAAALLGLECVVYMGAEDCRRQALNVARMELLGAKVIPVTNGSQ
+TLKDAINEALRDWVANVSNTHYLLGTAAGAHPFPAMVRYFHEVIGEEAREQILEQTGRLP
+DAVCACVGGGSNAIGIFHGFLDDPSVAIYGFEAGGDGVDTPRHAATITLGRPGVLHGART
+YLMQDEDGQTIESHSISAGLDYPGVGPEHAYLADIGRVSYEPINDSEAMEAFKLLCRTEG
+IIPAIESSHALAGAIKVGQRLAAEGDPSGKIVMVNLSGRGDKDVATAAEWFNLLDEKSAE
+AEIGKEGEQL
+>tr|A0A0P7FP16|A0A0P7FP16_9MICC
+MAWMETERQAMVRTLHGTDPSAPTLCAGWTVARLLAHLIVREEQPWKMAGDAIRRDRPGQ
+ETSLNPLVAEAATEQGYRRLVDRFAAGGRGFSVMRFSGDAANLLEFVVHHEDVRRGAGEP
+APRQLPPGELAEIRRRLPLMARVGYRRSPVGVLLELPSGEQARVRRGDRPVTIRGDVTEL
+ALHAMGRRSAARIDLSGEPDSLEQFESFAGR
+>tr|A0A0P7GB52|A0A0P7GB52_9MICC
+MDSRKVPDDAGAPPSRRTSRELNDAGAPAEFSPEQEKQARRAVVSSYVGTSLEWYDFFLF
+GTTASIVFAPLFFGGDDPALQTIQSFLTFGVGFIGRPLGALVFGHFGDRLGRKGILVLTI
+VLMGVASTLIGVLPTFETAGIVAPILLTILRFVQGIAAGGEWGGATLMAVESAPAHKRGF
+YGAVVQLGSPTGTLLSTLIVAAVVALTGPQFLEWGWRIPYLVSIVLVGVGVWLRLRVNET
+IDYRAASGTAAAHEKVPFLRLLAEAPARLIVGICAYLMNNAGFFLLTTFMISYVTGTLEL
+EATVILTSISWGAVAQLIVTTIIGKISDRFTPSRMLIIGYAVSVVTAFPIFWLVDTRQSL
+AISAAMFLALGLGSISYAALGTTLTQLFPVRLRYSGIALSANIAGIIAGFMPALAAWILT
+LTGGSSIGPALLLLTVALISLVGSIIARRMILADQRTGLPGGAPA
+>tr|A0A0N8HXJ4|A0A0N8HXJ4_9MICC
+MAPKNLQEVLDASNGVVDLLRNSQIGAYIYPVVAPEFTNWRSEQRAWRESAVLFDQSHHM
+DNVFIKGPDALKLISDTAINSVANFPVNKAKQYVPTTPSGHVIGDGILFHQDEDEYVYVG
+RAPAANWLLFNAETGGYDLDIEVDRRSPSRPMGKPVNRRYWRFQIQGPNAWSIIEKVNGG
+SLEQLKFFNMDTMNIGGERVRTLRHGMAGAPGLEIWGDYASYDKVRDALMEAGAEFGMAA
+VGARAYPSNTLESGWIPSPLPGIYTDERLRPYREWLGADSYEATNAVAGSFVSEDIEDYY
+LTPWELGYGSFVKFDHDFIGREALEAMDPAAQRRKVTLGWNAEDLGTILTSQLDTENTPY
+KYFDLPLANYGSSNYDSVIDADGNVVGVSMFTGYSANERRGLSLATVNPDVPEGSELRVV
+WGEPDGGTAKTTVEPHRQMEVRAVVSPVPYSETVRKDYQGGWRTGYTGA
+>tr|A0A0P7GAS0|A0A0P7GAS0_9MICC
+MFERFTDRARRVVVLAQEEARMLNHNYIGTEHILLGLIHEGEGVAAKALESLSISLGAVR
+EQVQEIIGQGQQAPSGHIPFTPRAKKVLELSLREALQLGHNYIGTEHILLGLIREGEGVA
+AQVLVKLGADLNRVRQQVIQLLSGYQGKEPVSAGGQQQEGQPAGSVVLDQFGRNLTQAAR
+EGKLDPVIGREHEMERVMQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQAIVRGDVPETIK
+DKQLYTLDLGSLVAGSRYRGDFEERLKKVLKEIRTRGDIILFIDEIHTLVGAGAAEGAID
+AASILKPMLARGELQTIGATTLDEYRKHIEKDAALERRFQPIQVNEPSVAHAIEILKGLR
+DRYEAHHRVSITDAALASAATLAERYISDRFLPDKAIDLIDEAGARLRIRRMTAPPELKE
+IDERISALKMEKESAIDAQDFEGAASLRDKEQKLQDQRAEKERQWKSGGLDDIAEVDEEL
+IAEVLANSTGIPVVKLNEEESTRLLKMEDELHKRVIGQDEAIKSISQAMRRTRAGLKDPK
+RPGGSFIFAGPTGVGKTELAKALAEFLFGDEEALITLDMSEYSEKHTVSRLFGAPPGYVG
+YEEGGQLTEKVRRRPFSVVLFDEVEKAHADLFNSLLQILEDGRLTDSQGRVVDFKNTIII
+MTTNLGTKDISKGVMTGFQSGTDTKTGYDRMRARVTEELRQHFRPEFLNRVDDTVVFPQL
+TQEEIVQIVDLFLERLGKRLAEKGMSIELTPAAKVLLATRGYDPAMGARPLRRTMQREIE
+DQLSEKILFGDLKPGELVSVDVEGEGDDAKFTFVGHGAPRAIEEAPSAIEAGVGDGQ
+>tr|A0A0N8HX48|A0A0N8HX48_9MICC
+MTGNGGGKVDYDVVVVGGSAAGLSGALALSRARRRVAVVDAGEPRNAPASGVHNYLGREG
+ASPAELYAVGRGEVEGYGGTIVDGTVESVLRAGDGSFRIGLQDGTVLISRRVLAASGASD
+ELPDIPGLAAHWGTDVLHCPYCHGWEAGGKRLGVLATHLDTAVHQALMWRQWCEDIVLFL
+NDAGEPDTEQSRQLAARGIRVVDGAVAAVEGDAGLTGVRLASGKFVSRQALVVLTRLRAR
+ADYLSGVGLEAEEQYFGDLAVGTAVAADSSGVTSVPGIFAAGNLTAPMTQVIGAASAGLA
+AATAINAELIEEDTSAAVAAAAQRGGILQG
+>tr|A0A0P7H867|A0A0P7H867_9MICC
+MTAVSTHPATQSSTTSKVLGYPLNAWYVAAWDHEVTRKPMSRRIADRPLALYRTEDGKAV
+ALADACWHRLAPLSMGKTMGRDGIQCPYHGIVYNSAGRCISMPAQETINPSATVPSFPVV
+ERYRYVWVWLGDPTLADPDTVPDMHQVSSPEWAGDGETIFAPCNYQLVLDNLMDLTHEEF
+VHSSSIGQDELSESEFVVTHDDDTVTVTRWMLNIDPPPFWLKNMRDKFPGFEGKVDRWQI
+ITYRAPSTINIDVGVAKAGTGAPEGDRSQGVNGFVMNTITPETAKTCHYFWAFMRNYRLD
+SQLITTQLRNGVHGVFGEDEEMLAAQQAAIDANPDYEFYNLNIDAGGMWVRRLIERRLAA
+EGRLPDGTRAPAALG
+>tr|A0A0P7HFW0|A0A0P7HFW0_9MICC
+MTDDEKQYAAQEHLTTRQGHPVSDNQNTRTVGSRGPATLENYQFLEKISHFDRERIPERV
+VHARGFVAYGEFEASGKWGDEPIAKYTRAKLFSEPGKKTDVAIRFSTVIGGRDSSESARD
+PRGFAVKFYTEDGNWDLVGNNLGVFFIRDAIKFPDVIHSLKPDPVTFRQEPARIFDFMSQ
+TPESMHMLVNLFSPRGIPADYRHMQGFGVNTYRWVNAAGDSKLVKYHWQPKQGVKSLTEE
+DAGNIQAQDLGHASKDIYEAIERGDYPQWDLYVQMMDDNDHPELDFDPLDDTKTWPEQDF
+VPQYVGTMTLNRNVSDHHNENEQISFGTGVLVDGLEFSDDKMLVGRTFSYSDTQRYRVGP
+NYLQLPVNSAKNAKVATNQRGGQMSYGTDLAPGQNPHVNYEPSITGGVQEAPKTGPTEIG
+PELKGRLMRARIERTNDYMQAGQRYQLMEQWEKDDLVKNFVDNISEAARAVQERMLWHFY
+MCDDELGARVGEGLGIGLSEIKDLGPLPTQTLNEEELDRVKNLGNNGPRNVEGLTMTHCV
+PNEHVVVSR
+>tr|A0A0P7HHN1|A0A0P7HHN1_9MICC
+MIEETLKEAADKMDKAVEVAKEDFSTIRTGRANPALFSRVLVDYYGSPTQLQQLASFATP
+DARTLLITPYDVTALRAIERALSDSEVGANPSNDGKVIRVIMPELTQDRRKEYVKIVRGK
+GEDAKVSVRNIRRKAKDALDRLVKDGEIGEDDGNRAEKDLDALTKAHTDSIDELLKRKEA
+ELLEV
+>tr|A0A0P7GLA3|A0A0P7GLA3_9MICC
+MGSVLTIRGGVPLTGKVPVRGAKNLVPKAMVAALLGNTPSLLRNVPEIKDVDVVTSLLRL
+HGVEVTKDPVTGDLLMDPQNAKTAASRDIDAHAGDSRIPILLCGPLMHSIGEAFIPDLGG
+CKIGDRPIDYHLQMLRNFGALVEKRPGGISISAPKGLKGAKLELPYPSVGATEQVLLTAV
+RAEGITELSGAAVEPEILDLIAVLQKMGAIITVQTDRVIRIEGVPELTGYNHRALPDRNE
+AASWASAALVTKGDIYVEGANQQDLTAFLNIYRKIGGAFDVDDDGIRFYHPGGKLNPLVL
+ETDVHPGFMTDWQQPLVVALTQAEGVSIVHETVYENRFGFTDALIRMGANIQVHRECLGS
+IPCRFGQRNFLHSAVISGPVQLKGADVDIPDLRGGFSHLIAALAAEGTSRVTGVELINRG
+YEHFLDKLAGLGADFDVTDGK
+>tr|A0A0P7FQE4|A0A0P7FQE4_9MICC
+MQDAQNTGEDDSVRRLRERKVSEKDAREVAEASRITDEQRPSFAKGIYLGDFDLSLIRPH
+PAPAPEEVARSEKFLADLTAYCSTMDGQLIERTGVIPDEYLAGLAELGVFGIKIPQEYGG
+LGLSLLYYGRALMVLGTVHPSLGALVSADLSIGVPEPVKVFGTEEQRREYLPRCAAGAIT
+AFLLTEPDVGSDPARMRTTAVPSEDGSEYVLDGVKLWTTNGVIAELVVVMAAVPPHDGQK
+GGISAFIVEMDSPGISVENRNNFMGLRGIENGVTRLQGVRVPAANRVGREGQGLKIALTT
+LNTGRLSIPAMCAAGAKWSLKIARGWSGAREQWGRPIGRHEAVGKKLAFIAATAFALESV
+FELSAEMADAGTKDIRIEAALAKLWASEMAYNIADELVQVRGGRGFETAASLAARGERAV
+AAEQQLRDLRINRVFEGSTEIMHLLIAREAVDAHLKAAGDLAVADAPMASKVRAGAKASG
+FYGKWLPTLAFGQGNVPTSYAEFGPLAKHLRYAERASRKLARSTFYGMARWQAGLEQHQA
+FLGRIVDIGAELFAMSASCMKAETIRRRDPAEGASAYELANAFCAQSKVRVDALFTELWN
+NSDAVDHKVSKKVLDGRYTWLEKGVLDQSEGTGPWISTTASDGEPKENLHRKYR
+>tr|A0A0P7HV75|A0A0P7HV75_9MICC
+MNGADTAWVLVCAGLVLFMTPGLALFYGGMVPVRNVLTMMMQNIIPLGVITLTWILVGYT
+LAFSNKGNSVLGEFDAFALITVDTPQFHTVTAGVTIPALAFVAYQMMFAIITPALLTGAT
+AGRLKFAGWTVFLVAFSILVYPQVARWLWHPKGWLAQLGAQDWAGGLVVHASAGAAAVAV
+LLVVGRRRGWPQLKTSPNNLPLMLVGAGILWFGWFGFNAGDGLQANDIAAQALINTHVAG
+GAAMLTWLLVERLTSGHSTLVGAVSGAVAGLATITPCAGFVNTGSALLIGLIAGCVCCFA
+VRLKHLLRYDDALDVIAVHFVGGLIGSFMLGFFADSAVNPVSADGLFAGGGGLLLWHQTV
+AIVCVVVFSFVLSWIVAALINRTIGLREPGPEQDSLDQVQQGQSGYSLSGVTAHPTTSGR
+GAGAPQGDAAGPGEPRHVISAIVNTERIDGLRDALLMAGARSIELMETTVYTGRVRTEVF
+RSDVRKLDFEERMRVYAAVDDEHEEAVAAVLRRFGAEPESVHRLEISP
+>tr|A0A0P7GAN4|A0A0P7GAN4_9MICC
+MSNSIPGTDSPDNAAPNPLDETAIAAAVESALAAISSAADLDALKDVRIAVTGEKSPLSL
+ANRQIGSLPKDQKAAAGKVVGPARGRINQALAARTVELEAERDARILVEEAVDVTAAPRR
+RRMGGRHPLSTLQDRVSDIFVGMGWEVAEGPEVESEWFNFDALNFKPDHPAREMQDTFFV
+EPPEAHLVMRTHTSPVQVRSMLERDLPIYVLCPGKVFRTDELDATHTPVFHQFEGLAIDK
+GLTMADLVGTLEHFTRVLFGDEAKVRLRPNYFPFTEPSAELDIWHPGAKGGPRWIEWGGC
+GMVNPNVLRAAGIDPEVYSGFAFGMGIERALMFRNEVSDMRDMIEGDVRFSEHFGMEI
+>tr|A0A0P7FPG3|A0A0P7FPG3_9MICC
+MTSELTGSGAEPQPGRYIRYRWWGLLAISLGVAMIIMDATIVSVSVPSIVADLGISSTEI
+QWVQEIYTLLFAALLLTWGRIADRVGRRRIMLTGVVLFVAASVLCAVAESGGILILGRAL
+QGLGGSMILPTTLALLNANFQGRERGIAFAVWGSTIGGMAAIGPLLGGWLTENASWRWAF
+GINIPVGVLVVAGLLLFVAESSEAVTGAAQRLDLGGAALSILGFGALVFGLIEGRSYGWW
+NATEDAPFQAGTLSPVPLAFLLAAVALVGFVLLERSRTEAGKGVILDLSLFRIPSFANGN
+VTALIVSFGEFGLILSLPLWFQNVLGYTAFEAGLALLPLALGSFLASGGVAALARKYSPV
+VVVRMGLGLEILSIAALALLIRPDSSAWLTSPILLFYGMGVGLATAQLTSVILAEVPLAK
+SGQGSATQSTARQTGSALGIAVLGTAFFTTLRTGTENQVADAVAGAPQLAGAVDSVNATS
+GGSIAALAADPQTAFIADAARDAMTSGASLAGWIAAGALLIGFLTSLRIKPVIGPQAGDP
+AGVRAPEPDNETRG
+>tr|A0A0P7GA03|A0A0P7GA03_9MICC
+MSSMSESVKTALVRTLVVDDDQQVAGLHSGFLLAHGGFEVAGTAHTGSQAMELIGALRPE
+LVLLDIHLPDMSGIDVLRAARNLPGEPVDIIAITAARELETVRAAMAGGVLHYLVKPFGS
+RVLLDRLDAYLQAREQLRGKEGSRDTLDQASIDRLLRPGTAASFPTVLSGLPKGLSEPTL
+TAVVRELKKSGESSASAVAAGVGLARVSARRYLEFLVTRGMAAVAPRYGDAGRPEKFYRW
+IGIDG
+>tr|A0A0P7GSP3|A0A0P7GSP3_9MICC
+MRPPLLRSPEKVVAGVCAGLAAHLGMPVRTVRILMMVLSALAGAGVVLYGWLWIMVPTAE
+EEAAAGPQNPRSVAENFARYLQQGQGTANGTGASLLGTREILVGVGLLLAAGAMVAQALG
+AQINLQLLFPFAVIVAGAVLAWSQLDASRKAGLVAGAGADRKMGLVRLVTGLVLVVSGFL
+LVISGSFSWDVLLAASLASLAVLAGIALVLAPWAVKSWRAFHAERAGRIRQTERAEIAAH
+LHDSVLQTLALIQNRAGSEADVIKLARAQERELRQWLYADPEKGTGTLADALKSAAAEVE
+DAYGHPVDFVAVGTAELTAQSSALVQAARAALFNAAQHAGGQISLYLECSPEAAEVFVRD
+RGAGFDPDAVPQDRLGLRESIIGRMQRHGGTARVRSGADGTEIHLALPLAGADAPAAQER
+EAENS
+>tr|A0A0P7FPU8|A0A0P7FPU8_9MICC
+MTVLPAKPLNLHNDVASLTAALMDIESVSGNEAAIADAVEAALQDLGHLEVVRDGDSVMA
+RTNLGRSERVILAGHLDTVPLPSVPGSRGTVPSSWDGEVLYGRGATDMKGGVAVQLALAA
+KLTEPSRDITFIFYDHEEVDASLSGLGRLEKSFPEWLKADFAILLEPTDGTVEGGCNGTM
+RFQARTTGKAAHSARAWMGENAIHAAAEILVRLRDHEPATVRVEGLDYRESLNAVKIHGG
+TAGNVIPDSAVVEINYRFAPDKDLAQAEAYVRELLDGFDLVRTDASAGARPGLDRPAAAS
+FVEAVGAEPKPKYGWTDVARFSALGIPAVNFGPGDALLAHSDNEHVTAGAIRECLRALQD
+WLA
+>tr|A0A0P7FAL4|A0A0P7FAL4_9MICC
+MTTKSASAAPSQRMSREERKVLAGTLVGTTIEWYDFFIYAQAAGFVLATLYFAPVGEGTA
+LAQIVSFASIGISFLFRPLGAIVAGHLGDKLGRKQMLVFTLIMMGAATALIGVLPTYAQI
+GVAAPILLLVLRILQGFSAGGEWGGAALLSVEHAPVNKRGFFGAYPQIGVPVGMILATFV
+MFVISSTLSEEAFLEWGWRLPFLFSVVLIFVGYFIRRSVDESPVFKEMQQRKKESSAPLG
+QLFKYNSREVILAALIFIANNAAGYLVIAFFASYAGKALGMERPAVLLATTVGSFGWLIF
+TMYGGMLSDKIGRVRTFQIGYAWVFLWAIPMFLLIDTANVFLFGLSIFVLTIGLGLSYGP
+QSALYAEMFPARVRYSGVSIGYALGAILGGAFAPMIAEMLLNATGWSGSIGIYIMVLCVI
+SFVAVTMVKETKGADLGVEESHRAPQPK
+>tr|A0A0P7FFZ5|A0A0P7FFZ5_9MICC
+MDGTHGNWYVKSVEKTFTVLGAFTEEQPLQSVSEVAAKADLSRAAARRFLLTLTELGYLS
+TDGTRFSLAPRVLTIGSAFLSNLTLPALAEPHLKPLSADLQETASLCILDDVHVVYVARI
+TSPRLVSVAVHVGTRFPAWATSMGRVLLGALDDADLQDRLERSDIRRLTPATIPSHSALL
+EEITGVRERGWSVVREEYEEGLSGVAVPVHRAGRVVAAANVSLHQSYSQAALEGVLLPRL
+RQAAADISADYSIRLTG
+>tr|A0A0P7GJ43|A0A0P7GJ43_9MICC
+MANHGRPGAVRKAKKGPSQGTGGLGRKALEGKGPTPKAEDRPYHKAYKSKQLSERSAAKH
+GGQRPGGRNAPARGKVAEEVVTGRNSVVEALRAGIPAKALHVAVRIDMDDRVRESLKMAA
+ERGLPVMETHKPELDRMTNEAVHQGLVLQIPPYEYADPIDLAEETIASWKKGHIANAPLF
+VALDGITDPRNLGAIIRSASAFSAHGVVVPERRSVGVTASAWKTSAGAAVRVPVARAGNL
+NNTLKTFKKMGIFVLGLDGDGDVSLPDLALAKDPVCIVVGSEGKGLSRLVRENCDQIVSI
+PIDSAMESLNASMAVGITLYEVSRQRSA
+>tr|A0A0P7HDP6|A0A0P7HDP6_9MICC
+MDTSAVLDIGLQGLWVAAKLAAPVLLTALVVGFSISLLQSITQIQEITLSFVPKAIAVCI
+ALLVCGHWMITEMITFTQQLFEKIPSLLGGG
+>tr|A0A0P7HG34|A0A0P7HG34_9MICC
+MQPVAAPAPPPAKKTGKKAAGRRLDPLTKIVIGIVMAILVLLIAYPLVRILTQSFSESGR
+ETLAEMFTSSTNRTIITNTVVLGLLVGAFGTLIGFAFAYAQARLEFKGKKLLHLIALLPI
+VSPPFAVATAVITLFGRGGLITNKLLGLEYNIYGLTGLTLVLSLSFFPVAYMNLLGMLRS
+LDPAMDEAASILGANKWKIFRSVTLPMLIPGFASCFLLLFVEAIADLANPLVIGGDFTVL
+SSRAYIAITGEYDVAAGAAYSLVLLLPGLLVFLVQRYWAERRSVVSVSGKPAGSVRLIRS
+AAGRIPLLTVVGLIAALIVTIYATVIIGAFTKILGVNNTFTLANYRYVLSGIGSDAMFTT
+TILALIATPIAGVLGMIMAWLIVRKVRRGRGLLDFFGMLGLAVPGTVLGIGYAVAFNKPF
+IIGNIQLLPALAGGAGIFGGALAIVMVYVIRSMPSGQRSGVAALQQIDPAIDEASTSLGA
+SSLTTFRTITLPLIRPALLSGLTYAFARAMTTLSPIIFITTPKTKIMTSQILSEVDAGRF
+GNAFAYCTILIVIVLAVIGLMNLLIRDPKVKTRSR
+>tr|A0A0N8HXP1|A0A0N8HXP1_9MICC
+MTRHFLVDTDLTQAEQAEVLDLADALKKDRWKYQPYAGEGSGRQTVAVIFDKTSTRTRVS
+FAAGISDLGGVPLIIGAGESQLGHKESITDTAKVMERMVSTIVWRTYAQSGLEEMAANSS
+VPVINALSDDYHPCQLLADLMTIREHKGTLAGLTLTYLGDCANNMANSYLLAGVTAGMHV
+RVAGPVGYLPDPKIVDAAAARAEETGGSVTITTDAAEALAGADVVATDTWVSMGQEDEKA
+ARQELFRNYAVDSAAMAQAAEDAVVLHCLPAYRGYEISADVIDGPQSVVWDEAENRLHAQ
+KALMVWLMARSGLTGIPEEAV
+>tr|A0A0P7HUT3|A0A0P7HUT3_9MICC
+MELAAAGAAGPCYGPAAVGNRDCGDPFSIEVPVPDMGKENEYWHTPEECDTEDELLEAGG
+PAICDFSKGGSDAEVVWLVGDSHAQQWQEAVMQTAQERGWILKYSYRGGCPLVDVPLVSF
+NGSMLDSGSIEGCGRWSQVVRDAVEADLPDRVFTSTFAVREVIDDGSGAPQTEQYSSAFA
+RIWQRWTDTGIVVYPIVDAPLNGVGRSVDCLSMNGATPRACEVPRTQAVEFEPVGDVVRR
+LGNERIVPIDLTDYFCDDVSCFSAVGGVAVYYDANHLNRLYVRELTSHIQDMVD
+>tr|A0A0P7FZI3|A0A0P7FZI3_9MICC
+MRVPFWAAIAFLYLPILVVTAMSFNASSNLFSWSGFSLKWYAEVFRSPEILASLGNTLVV
+AAAAAVLATVLGTLTAVGIHRYTSGGLIRAIAIAPAMLPDLLLAIGLLSLFTLLNFTLGL
+VSVILAHTVFAMAFVTAIVLARLAQVDPSLEEASRDLGASPARTLLKVTVPQLGPAIISG
+GLLAFTLSLDEFVIAFFTTSPTVSTLPINIYSMVRFGVSPEINALATMLLGLTVLAVLGT
+QRLTKIADSL
+>tr|A0A0P7HID3|A0A0P7HID3_9MICC
+MAKHPQQVAELGEGELLSRIFPRLGGARMPLGPGDDAAVLAAPDGRTVISIDTLVQDQDF
+RLQWPGGYSTTGYDVGWKCAAQNLSDINAMGAVPTSLVVSLTLPADTPVSWVEDLADGLS
+AALRALGAEQCSVAGGDLGRGNQLVVTAAVTGDLEGRDPVLRLGAQPGDVLAVSGVLGEA
+AAGLALLESSLVYAELSGWERALTAAQSRPCPPLAAGPAAAKAGAHAMMDISDGLVRDAG
+RLCDASGVRVDLDADVLKQEGAPLADTAAKLGTDPLQWVLGGGEDHGLLAAFAPERVLPR
+GFRRVGTVLPRLEEQGMVTIGGEPPSAAGWDHFAG
+>tr|A0A0P7G7F8|A0A0P7G7F8_9MICC
+MANNPIRVAIVGVGNCAASLVQGVHYYRDADPTATVPGLMHVQFGDYHVNDVQFAAAFDV
+DAKKVGLDLADAIGASENNTIKIADVPATGIKVLRGHTLDGLGKYYRETISESDEAPVDV
+VAELKAAKIDVMVCYLPVGSEQAAKFYAQCAIDAGVAFVNALPVFIAGTKEWADKFTAAG
+VPIVGDDIKSQIGATITHRVMAKLFEDRGVTLDRTYQLNVGGNMDFKNMLERERLESKKI
+SKTQAVTSNVTAELAANDVHIGPSDYVAWLDDRKWAFVRLEGRNFGDAPVSLEYKLEVWD
+SPNSAGVIIDAVRAAKIALDRGVGGPILSASSYFMKSPPEQYNDDIAHEKVEQFIRGEVE
+R
+>tr|A0A0P7HC43|A0A0P7HC43_9MICC
+MIEITRTGALRSPAAARASTRETLRVGVVQHRWQPDPEALKAELNDGIARAADQGAAAVF
+LPELTLSRYPADTLPDGPAAALAEDLTGGPTFAFAAEAARRHEVCVHASLYERDDAPDGL
+GLNTAILVSPEGELLGRTRKLHIPGTEGYHEKQYFRPGPDSGDAYQVHAVAELDGAKLGL
+PTCWDQWFPEVARVYSLGGAEVLVYPTAIGSEPDFPDFDTQPLWQKVIVGNAIANGLFMV
+VPNRWGNEGNLTFYGSSFICDPYGRILVQAPRDESAVLVADLDLDQRSHWLELFPFLQTR
+RPETYGALTHASEPAEHPLQMARDRV
+>tr|A0A0P7GDW2|A0A0P7GDW2_9MICC
+MSKVNTVLGTVPAEELGIVAVHEHIGYGMPGSELDSKWWKTPEERYAETVPKLRQFHEYG
+GGTFVDATGICNGRDVDYYKSLSKKTGVHIIACTGFVGGDTALPHFARASVEYLAKVFVH
+EITVGIGDTGAKAGVIKVGVSRGGRMTELDKRIYRAAARAAVATGVPILTHLAIDPQPAI
+EIFSQEGLPLDRVLFGHADDGLNAPNTPSEWIMSQGGRIGFDTFGYETELPDPPFWARPR
+KERLDHFMDLVEKGHLNQLLASADANCSPLGWPGVKGHTVNYIFEDLIPDLRRAGMDEAS
+INALLIENPADFLSIHA
+>tr|A0A0P7FY13|A0A0P7FY13_9MICC
+MVTLSAPRRHLVLRNANFRALWVSSTMGILGGSVTAVVLPVIAAVELGASDFAVAALSGM
+VFLPWLLFGLPVGVVVDRRRRRPVILVSLVARVVLLATLPVAYWLGVLTTAQLFVVSFLA
+GLAAVYFTLAEAALIPRAVSKDELVEGNGLMTGSGASADAVGRGLGGWMTQAVGASNSLL
+VQVVASIASFVAILGLKVQETLPVSSEKPHIWREMNSGLRYTLSTTPLRVLLLVAALWNL
+GGNIVVSLIVLLVVRTLGENGTWLGFLMAATAVGGTVGGLTVKRLADRFGSGVVWRYSMF
+PAALGYCTLLLMTPGWGMLPGFFGMFLTGLAISMNIVVSTSFRQRVCPPEMMGRLGSATR
+MVSWGMLAVASLVAGVLATTVGVRGGIILGIAIAVLAPVVASMGPLKGVQHLEDLEPAAP
+EPERAA
+>tr|A0A0P7FNR6|A0A0P7FNR6_9MICC
+MSVASGYVHISLRNAQTRAAGIPARPAGFARQFGAPATGQQFPGQVVPNAARSPRPSYPE
+GMPVTAPTPVVGPSGVPGPQPVANDTVARGFVIYVGLDEHAAAAAGTTLTKLAQEIRAHV
+QTLVPGAQSHAAVALAPASAAGSDIDVVRQALGDPTVSRKPRQEMPAPSPVQQSAPRPTG
+VLIDLSRREVHLDGETLNLTFKEFELLNYLVENASRTVGREELLSGLWRNAEEVPNERTI
+DVHIRRLRSKLGRLANTVRTVRGQGYRFYEHPEVVVWAAPEYSI
+>tr|A0A0P7GKV5|A0A0P7GKV5_9MICC
+MIELNAAEIAAITGGELVGAAAADPSISVTSATTDSREAGPAALFIAKPGEFSDGHLFVA
+RAFEAGAELALTERPVTNDAGEVFPGIVVPDAVAAMGQLAAEIVRRLRAESPLTVIGITG
+SAGKTTTKDLLAGLLRSHGPTVAPVGSYNGEVGVPLTIFSAGHGTRYLVVEMGATGIGHI
+TYLTDMVRPDIGVVLCVGSAHAGEFGGVENIARAKGELAEAVAPEGTVVLNGDDIRVAAM
+DKRTTANVLLFTSSTDDLPGNHATLRALDAGTDEQGRPVFTLEFPNGEQHRVESGLIGAH
+HTANLLAAAGAALAAGIAPADIAAGLSGQKAASRWRMERTDRADGVTVINDAYNANPESV
+RAALRTLAELGSGRRTWAVLGEMLELGDQSVTEHDAIGRYVVRLNISKLIVVGTGARAMH
+TGAVMEGSWGDESTFVSSPEEAEAILESSLEPGDIVLFKSSNGAGLRFLGDRIALKTLPA
+AGGAQENTARGEAL
+>tr|A0A0N8HX14|A0A0N8HX14_9MICC
+MTTETLEAALGAGEDAALADLHSRLAAAAAKENLLDVAYTVTGSPVGELLLAATPEGLVR
+VAFGVEGHDAVLARLAETISPRILEAPERLADPVRQLREYFAGTRKRFDLPLDLRLATGF
+RRTVVEHLRDVGYGSTVSYAGLAALSGSPGAVRAAGTACARNPLPVVVPCHRVVRSDGKI
+GNYLGGSGAKATLLEMEAAA
+>tr|A0A0P7HDF1|A0A0P7HDF1_9MICC
+MVSFTHRDTTQDEAVWLAALEGVPALDSVLPDKPARLVLLAAHPDDETLGAGGLMAALAA
+GGTSIDVIVATAGEASHPDSVTHTPRQLAEVREREVREAVAVVAPQARLHLLGLPDGELA
+AHRDELQGALQEIAGDDTTGLWLAAPWRNDGHTDHDTAGETAAGFAAAARIPLLEYPIWL
+WHWGTPEDIPGTLRVAELGPSAADAKRRAMAAHHSQVRPLSDQPGDEVLLAAEVLAHFER
+PFEAFTVTVPLSPREVFQELYARSADPWNFEGSFYEHRKRALTLAMLPRDRFARIFEPGC
+SIGVLTGELARRSDSVVAMDLSRRALELAAERLNGVTGVELVEGSIPADWPDGEFDLVLI
+SEIGYFLAPGQLQAAVQRASETLSPDGVLLLCHWRHPNEGWPLTGDDVHNAFREHSGLEL
+LSEHVEEDFRIDVLVHPPAQSVARREGIR
+>tr|A0A0P7HWS1|A0A0P7HWS1_9MICC
+MNTVTFIQPSGAPATVSVEPGTSLMRAAVTNGVDGIVGECGGQAMCATCHVYVRPEFAAA
+LPEPSDDEEEMLDCTTAERTELSRLGCQIKACAELDGIVVDVPAEQV
+>tr|A0A0P7GTP3|A0A0P7GTP3_9MICC
+MRVKFRGILHREALVLQGPAGWGEFSPFPEYDDDEAVPWLASAVKSAWEPFPQPVRSSVP
+VNATVPAVAADQVEKVLARFGAVPAVKVKVAERGQILANDLERVSEVRRLLPDAGIKVDA
+NGGWSVEEAVHALTLLSEYGLEYAEQPAADIPGLRAVRLELARRQIPVPVAADESVRKES
+DPLLVAREDAADLLVVKVSPLGGVARALEVVAEAGLPAVVSSALDTSVGIRAGVALAAAL
+PELPFACGLGTLSLMEGDVSDQPLLPDGGALAVRDAPVNPDLLERYAAAPDRQQWWLERL
+ERVYSKLALAPETGR
+>tr|A0A0P7HUQ6|A0A0P7HUQ6_9MICC
+MTKTAETEALPAEAGKTRMNKAVFTGSAVGITAIALWAMISADSAEAVIGAMVGWVSTNM
+GWYYFLVVTLVVIFVLVIALSGIGKTKLGPDHSKPQFGLFTWGAMLFAAGIGIDLMFFSV
+SEPVTQYLAPPAGDGSTAEAARQALVWTLFHYGITGWALYALMGLALGYFAYRHNLPLSI
+RSALYPIFGKKIDGPLGHGVDIAALLGTIFGIATSLGIGVVQLNYGLSFMFGVPENLSVQ
+IALIALSVIMATVSVVSGVEKGIRRLSELNVILALGLMLFILIAGKTSFLFDGIVQNIGD
+VLSRFPSMTMDTMAYDRPDEWLSGWTLFFWAWWIAWAPFVGLFLARISRGRTIRQFVLGV
+MIVPFAFILLWISIFGNSALELVMGGNAAFGEVAMNQPERAFYGLLEQFPWVPATAAIAT
+FTGLLFYVTSADSGALVMANFTSHLKDADSDAPKWMRVFWAVITGLLTLAMLMVGGVTTL
+QNATIIMGLPLSILLLFIMLGVYKALRVENSLAASFRASLPGMIAGRGGDPRGGRSWRQR
+LTRAMTYPGPKQATRFVETLAQPALQEVHDELAARGADVTLTLGEAGPNHIPCVDLAVGL
+GEERPFKYQVYPVQYETPSYALRSASTETKYYRMEVFSLEGSHGYDVMGYTKDQLITDVL
+DHYERHLEFLHLNRGVPGNTAITEDLVVKDNWDADFVGGEEKV
+>tr|A0A0P7FY70|A0A0P7FY70_9MICC
+MESQDQYPHDGDVTDEFELAGVPDAFQRLWTPHRLAYIKGGQDQVSSKDNCPFCAAPSHT
+DEEALIVHRGMHAFVILNLFPYNAGHLLVCPYRHVPDYTDIDLEETAEIAALTQTAMRVL
+RKVSAPAGFNLGMNQGVAGGAGIAAHLHQHIVPRWSGDGNFLPIIAHTKAITQTLGEVRQ
+MVADAWPASADETSSGGASAAAGNDEA
+>tr|A0A0P7GK53|A0A0P7GK53_9MICC
+MSVLQRARAVPGTGTGSGAGKPVRKRRQGQSFGSGRRPGFLTYGILLVFLFCSAYPLWWS
+VIIGSNGNPALGQEWPPLLPGGRFWTNVSEVINTVPFWQALANSVIISGTITVSVVIFST
+LAGYAFAKLRFRGRGVLMVAVIATMAIPTQLGIIPLFMVMQKLGWTGELGAVIVPGLVTA
+FGVFFMRQYLVDVIPDELIESARMDGASMLGTFRHVALPAARPAMAILGLFTFMTAWTDF
+MWPMLVLADNPTLQVALSQLQSARYVDYSIVLTGAVLATVPLLVLFVAAGKQLISGIMQG
+AVKG
+>tr|A0A0P7FY53|A0A0P7FY53_9MICC
+MLGLELVVALGVAILAASLGAERLRIAAPLLLLVSGVLLGFVPAFRKVELPSEVVLLLFL
+PALLYWESLTTSLREIRSNLRGIVLTGTGLVVVTAAAVAFTAHALGMPWGPAWVLGAALA
+PTDATAVAALARSLPHRNVTVLRAESLINDGTALVIYAVAVGIVAGDGGYTPLSITGILA
+LSYGGGIVAGLLLAWAGIWVRKRIQDPMLSNVATFITPFAAFLLAEETGGSGVLAVVVVG
+LIMSQAGPRVTAALARRQSQAFWSFSTYMLNAALFVLIGIELHVAVRLLDGPQITVGLVA
+VAAVSVVLVLVRIAFLFSTTYLIRLIDRRPSQKLRRVSNRSRILSGMAGFRGAVSLAAAL
+GVPALTAAGTPFPDRGQIIFVTAGVILVTLTVQGPLLPVIVRWAKLPEDNRLEEERRLAE
+IRSAEDGLSSLPELGARLGTDGRVVERLVHEYRHHLEVLRADGEVQSAGEPAPALERWQQ
+ETELRLALLDRKRTVILALRDERTIDDRVLRLLETRLDVEELRLTQPDRDE
+>tr|A0A0P7FXN0|A0A0P7FXN0_9MICC
+MPRIVVDVMPKPEILDPQGKAIAGALPRLGLTGFSGVRQGKRFELTVDGDVTPEILEQAR
+AAASTLLSNPVIEDVTRVEVISEA
+>tr|A0A0P7GCT7|A0A0P7GCT7_9MICC
+MNLTPKEIDKLYVYQVAELARRRRDRGTKLNVSEAIALICEAILEGARDGKTVAEVMELG
+KHIVSESQCMDGVRERLPLLQVEATFVDGSKLVSCHDPIGV
+>tr|A0A0P7HVR6|A0A0P7HVR6_9MICC
+MTGGSSRENRAAGGSGGSLSGADVVLLRSPGRAGPMTRELRSRGARVHLMPLIDFQRPAD
+TEPVSAGLRRLGAGDFTWIIFTSATTVGALSLAAEDLGGTLPGLCSGTRVAAVGKGTARA
+LEAAGISTDLLPGADQSARGLAAAWPASEDGANRVFLPQANIADPFLRTALAASGWDVCT
+VAAYETVDYPAPEDRRISAEPEGDQELLSPSRYRAGAAFPHAVVVTSPSTARRFVRDALV
+PGTAVLAAIGDPTAAELRGLGHPAAATAEHPTPAGIARAVEAALATIDFPHPDPEGREQP
+>tr|A0A0P7GIP1|A0A0P7GIP1_9MICC
+MSTKPLALVVDDEPQMIDIVSFALETQGFTTLSARDAEKAWQIFKSRELDLLVLDVMLPQ
+SSGLSLCRRIRQTSTVPILLLTARGEAKDRVAGLEAGADDYVTKPFHPRELALRAEAIVR
+RTRGAAGLRAEVVCGPLKIAEGSAVLAGHILTLTPTELRLLTRLAAEEGKPVSFRDLLLA
+GWQVDEGPGGRQMLKTALYRLRRQLSEHGYPHAVEAVRGTGYRLGIK
+>tr|A0A0P7HL11|A0A0P7HL11_9MICC
+MDAVWRIDGAGIVAALARATGDLGLAEDVAQEAAAEALASWPAGGVPRNPAAWLTSVAKR
+RAIDAWRRAERLEEHYADLGRELRDEAAPAWDPLPDDVLKLVFVACHPVLSREGQVALTL
+RIVGGLSTGEIARLFLLPVATVQQRIVRAKKTLAAANVPFGVPEPNEWRDRLGGVLAVIY
+LLFTEGYAASAGQSWMRQDLAAEALRLGRLLSRLVPQEPEALALVALMEFQASRFRARTR
+ADGSPVLLDEQDRTLWDRAQIERGRAAMAQADALGRGRGNYALQAAIAQCHAVAPSVEGT
+NWRRIVLLYEALGRLSPSPVVELNRAVAVSMATGPATALEMVNRLAATGALRGSHLLPSV
+RGELLSRLGRVEEARTEFSAAAALARNDREREVLEGRAAGMP
+>tr|A0A0P7FX10|A0A0P7FX10_9MICC
+MSGAHALLAHAPLIQEQAVGKQIQDVPFLGRSGLIQAMADCLKPESAVSGCLVVGDSGTG
+KSALIRHVLSVYGGAAYVVNVRGSAFAGRTPFGALTFMLSELEPESASHPVLILRGLTEL
+IRERAAGRQVILAVDNAEELDEFSAMVLSQMVVNRSAHMFAAFRDFSAAPAEFMGLWREG
+LLTRLDLEPMLPSECAHLLEANLRGPISRAAAEELASASGGNPNMLLAVAEDYRECGRVK
+SMDGVWVLDKTRHCTFPRLYAAMAVRLTGLSAGQRELLDLLALSGALPLEQVLERLDSLE
+VDALQEAGLLQLQHRGAPALSLGDPALGTVLRGQLDSGRRRELLEIMVPDTAVALPSHAA
+EWLLSAGAKLSAPLALSAGRAANAAGDPEAAQEYIEADPDYLSSTAAVLELSRAQLRRGN
+AAQAADAILRHRSFDETGIVSPDSVRLLLVEAASGCRALAEQQFVASGSADPHAALFGDA
+DRMLAELRKQGLAHREAAMLERELVLERARCLTQHGQYSEAASFLSGIYARGDENGRGFR
+ALVGSWLCVAWGMSDRQSDAHELAAALWPILTDVHQPDLDEGQAAPAQARILHVLMVTGA
+LDAAADFLYQDAGTEGDGSLGGTLREVCEGMLHAFAGRGAAAIALLHPAATQLAVFDPDG
+LQHTVSAVAAYCAALQGQYERAEEHLRTADAVPATPSWALQRTAAHFTVLAWNLLGSEDA
+HEALAELAAKDDARGAGAYAVLSLLSAVRLGDTAAAQQLLDTASVLQGRFARLCEDYAKG
+AAGCDPQQLLLASDAAAAMGHELFARDTGERALEIAAGSGDRATVRFIHRSRRLQSGETE
+NDAEVEDCLRGLTARERVIARQAASGTSNKMIAAELSISVRTVEGHLYQIYSKLHVGSRR
+ELSHLLSASQTGSANQSGAVRGVR
+>tr|A0A0P7G448|A0A0P7G448_9MICC
+MDGQPRALEELTVGQVSQRSGVAVSALHFYERQGLIRSRRTGGNQRRFDRSVLRRVAVIR
+AAQRAGIPLSHIASVFAELPEDGVPDQADWQRLSAAWRKELDERIGQLEALRDRLGGCIG
+CGCLSLAECGFVNPDDASGRDYRGARLLEPDS
+>tr|A0A0P7G6H8|A0A0P7G6H8_9MICC
+MTSMQLASLTTSRVGGPARRYLNAETPDELISMVRAADEASEPLLIVGGGSNLLISDAGF
+DGAVVHVGNRGIEFRTGEGGTAVVDVQAGHPWDELVATTVAEGYSGLEALSGIPGLAGAT
+PVQNVGAYGSDVSHSIVSVLAWDRHARERRRFGAAELEFGYRDSLLKRTTVNGSPRYVVL
+SVQFALARGSASAPVRYAELARALGVEVGESADTADVRREVLRLRAGKGMVLNPEDPDTF
+STGSFFTNPILPAPDADRLPADAPRYPVAEPGMVKLSAAWLIEHAGFTKGFGLPGTAGAG
+LAGGRASLSSKHTLAVTNRGSASAEDLLAVARAVADGVEQAFGIRLRPEPLLINCAL
+>tr|A0A0P7GKQ4|A0A0P7GKQ4_9MICC
+MSSVGATAPHPAIPAAGWLKGWCQGLSQIFFQSNVFTALLILAAFAVADWRMALLVLIGA
+AGNTVTGRLIGADSSSVTAGMQGFCGALVGAATFAAIGGQWAAYPIALIGGALCAPVIWL
+VNALFTKTPLRIYGLPSTTAPFCIVATIILFSTEALHVSAPTSATIDSAPLAFVRSLLTN
+VSEVVLINNEWSGALILLGLFVASWKVGLAGLLGSVVGSLCALALGEALTETANGLAGYS
+GVLTAIALAVVFLRSSTISWVLATIGTAVTAVVTLLMHEIAAPTYTWPYILTTWVFLIIA
+HYIPAAKRP
+>tr|A0A0P7GM64|A0A0P7GM64_9MICC
+MSAGSSATIAAVVRGRRNRGLRLRTVVTVLTILILAVFALSVMAGRTFYPLGDVLRVVFG
+EDVPGASFAVGRLRLPRAALAVLAGASFGLAGVAFQTMLRNPLASPDIIGISSGAGAGAA
+FAIVGLGLGGASVSLFAITAGLAVALVVYALSYKAGVADTRLILVGIGIAAMLESVTAYI
+LNQAPDWELQEAMRWLTGSLNGASWNQALPVLAALLVCGHVLLSQARNLGATRLGDDTAS
+ALGVRVGRTRLVIIIAAVLLISFATAATGPIAFVAFLAGPIAARLVGPGPSLLVPAALVG
+ALLVLVADFCGQYTFGTRFPVGVVTGVLGAPYLVYLIVRVNRAGASL
+>tr|A0A0N8HXK2|A0A0N8HXK2_9MICC
+MTTTHSLPAGDEVVQNLPWRWRVQGRIFLIGGLGFMFDAWDVTLNGVLIPLLSEEWNLVP
+AQAAWIGTANLLGMAIGAFLWGSIADAIGRKQAFTATLLIFSIFTVAGAFAPDIAWFCVF
+RFLAGVGLGGCVPVDYALVGEFTPRKQRGRVLTAMDGWWPVGAALCGVTSAVIMATVADW
+RWTMLVMVLPALLVFWVRRSVPESPLFLVRKGRTEEARAVINDLIRRTGGTQTEWRLPEP
+EAAQKFSLKTTGSQLAELWRSNPKSTVTAWSLFVTILLVYYLALQWMPKILVDAGYAEYK
+AFLTTSGMAAVGLLGVVAAALLVERVGRKWLLGITGPAAAASLVVVALVVDVPAAATTWL
+LIYGFVVQVAIPVLYTYVSELYPTRLRASGFGWASTASRVGAGFGPLLFVSVLWPYLGLP
+LSFAVAGLLVLAAVLWMARFSPETRGAALD
+>tr|A0A0P7GA59|A0A0P7GA59_9MICC
+MSTAKTPLVGIVMGSDSDWPVMDAAAAALAEFGIPYEADVVSAHRMPAEMISYGQEAHRR
+GLRVIIAGAGGAAHLPGMLASVTPLPVIGVPVPLKYLDGMDSLLSIVQMPAGVPVATVSI
+GGARNAGLLAVRMLAAGTDPLAAGLQQKLIDFAGELRQTAMAKGARLRTSVPESA
+>tr|A0A0P7GTW9|A0A0P7GTW9_9MICC
+MASNEEILAGLAEIVNEETGLAPEAVELDKSFTDDLDIDSISMMTIVVNAEEKFGVRIPD
+EEVKNLKTVGDAVDFISNAQA
+>tr|A0A0P7G594|A0A0P7G594_9MICC
+MLTRNVADGIHLIEHAYTNVYLVEGDGEVMIIDSGLPAAQHEISGAVRSLGYGPGSVSAI
+VLTHGHFDHVGTAAKLRIEFRAPVLADPADHYIAAHPYRYAHERARFQYPIRFPGSLRQL
+GAMTMAGALMVRGVADVHALDAGSAAVLPGAPQVIPTPGHTAGHVSLHFPDRGALIAGDA
+LVTLNPYTGHRGPQIVSGAATANSAAALESLNALAETRAPLLLTGHGDPWTAGVESAVGQ
+ALAHGAS
+>tr|A0A0P7HF90|A0A0P7HF90_9MICC
+MSSSDRNAKGHQRSRPSVRSRTSAAPSQRTRAADPARLVAFEVLRAVSGEDAYANLVLPK
+SIRKHRLDKRDAGFATELAYGALRGQGIYDAILARCVDRPLEKLDPAVLDALRIGAHQLL
+AMRVPAHAALDQTVGLARAVIGAGPSALINAVLRKVAARDLAEWTALLTEDEQDAVKRSA
+IEYSHPEWIVRALRQSLVAHGRSVEEITDLLQADNDAPVVNLVALPGLGSLDEAREAGAV
+EGGLVKDSALFAAGDVGRLESVRAGTTRVQDAGSQLVARALAELELDGVAPDEDGMEKWL
+DMCAGPGGKAALLAALAHEKGAVILANEPAPHRAQLVRQALEAVPGETWNVRTGDGRTVA
+EDYPETFDRILVDAPCTGLGALRRRPESRWRRQPGDVGDLGSLQRELLTTAVDAVKPGGV
+VAYVTCSPHPAETKAVVADVLRKRNDLELLDAGAALDAVSLTGSLEAGHEATAQLWPHIH
+QTDAMFLALIRRKI
+>tr|A0A0P7GVP0|A0A0P7GVP0_9MICC
+MTHYDLAIIGSGSGNSLITPDWDNRKVAVIDGGTFGGTCLNVGCIPTKMFVYPAQLAASA
+QEAGRLGVDQHVEKVRWREIRDRIFGRIDAISEGGRRYRAEELENVTLYSEYVRFTSPHR
+LETASGQEITADQIVVAAGSRPVLPDIPGMDLPQVHTSDTVMRVDDLPDRVLILGGGYIA
+AEFGFVFSAFGSRVTMAVRSGALLRAQDETVSERFTAAAAAQWDVRLHTQAESLQENPDG
+SVRAVLNGPDGRTDLDVDLVLVATGRVPNTDRLDPAAAGLDVEPDGRLAVDEYQRVLSGG
+KPVPGLWALGDVSGADQLKHVANLEARTVAHNLVHPEDLQASSHRFVPAAVFSHPQIASV
+GLTEAQARDYALANGLDLVMAVQEYGSTAYGWAMEDSTGFVKLLADRTTGKLLGAHIMGH
+EASMLIQPLIQAMAFGLDAATMARGQYWIHPALTEVVENALLSLGTDPQDTELRP
+>tr|A0A0P7GI06|A0A0P7GI06_9MICC
+MPARLRAHRKAISAGAAVAAAGALVATAILYPGFASADVDLNDGGVWVTNQTQGMVGHLN
+YPSRMLDGAYASNSDRFDVTQHEKTVFHTNSDQAKVSPVDVANVARGTEVQLPASAVLSQ
+GGTAVAITDPATGSVWLTSTGSLPFFSETEAEPVLENSPGAAADVSPEGTAVIADPRGGR
+IHTYDVAADGSYGEPKTTDVEELQGFGDVQVAAVGNKPVAFDAESGTLLLPGGRSVGFAD
+TRGAQLQDSGPEADFVVLATGTSLIKQPLNGSEATVTEIGDAGTPAPPVLVDGCVHAAWT
+GAGTYLRDCADDKDDVREDIPGVGASSELVFRVNRSVVVLNDINGGNVWLVLENMQLVDN
+WGDVIPPKQESSDDEEESASENPVNTLPDRTAENRPPVASDDRFGVRAGRTTILNVLDND
+TDPDGDLLTVRPAGEQPAAGTVQEIYNGAGLQIVVPPEAAGTSSFSYEVADGRGGTASAT
+ATVQVLGAGENSPPEARRSTRILVEEGKSVSQNILNDWMDPDGDDLVLVSAEPTADGDQV
+RTRSDGLLTFRDIGKTQGVKDVAVTVSDGSETAAGTVTFDVRPAGVLPPVTNFDHFTATV
+GEAVTFYPLQNDLDPAGGQLSLARVNAEEEDASELVPNYETGAVSFTPAAASTYYLEYLV
+TNGPQSAGGLIRVDAAESGRQGAPVAVRDVALLPRGGSVLVDVLGNDTDPTGGVLVVQSV
+NAGASSPLDVEVLDHNILQIHDVRGLQQQGAIRYTVSNGTASASGEVSVLPVEPPETLLP
+PSASADTATVRVGDVVDIPVLDNDSSPTGDELTLNPVLAQGIDPLDGQLFVSENTLRFVA
+GDTAKTVYAIYEVQDSTGQSDSAQVRVNIRPRDDEKNTPPVPRNLEGRAIAGTTVRIPVP
+LNGLDADGDSVFLDGIAAAPAQGAAVPGPDYIDYTASASGAGTDSFTYTVRDRLGLVNSG
+TVRVGIAPAAEANQKPVAVNDAVTVRPGREVAVPVLDNDSDPDGDPISLVPDGVTTQAAG
+MEVRADGPRVRFTVPEEAGTYNVRYAVRDNRGGTANGNVAVVSDPNAELLAPIARDDRVE
+VSEIRGRTAVDAAVLDNDEDPDGVAEDLEVSVDPSRTTASVVGDSVRVELLEEAQAIPYT
+VQDMDGGTATAVLWVPGLSAQYPTLRSSAVQEVQAGDTLNLELRDLVDVREGRTPRITET
+AKVSAIGSSNRDTWVTDEDTLAYTADEDYVGMGSITFEVTDGTGPDDPEGLKATLTVLVN
+VTPLPEQNLPPAMSPGSLEAAKGEDALRLDLAPLASDPNPEDAGRLSFALAGPVPEGFEA
+RLSGTVLQVAAADDAAVGTLGQLAVTVTDGRSDPVPGRVDLTVLASTRPLPVASDDSVDD
+AVQGRPVTVDVLANDDNPFPDTPLQIVEATADGNGTAEVQGDSIVVTPDAEFVGSMSVQY
+RVEDKTGQADRQASAQIRLSVQGRPDPPSTPVVESTRSRTVVLAWDPPAANGSPITGYTV
+TGSSGFTQECRATTCTLTGLTNNVEYTFAVTATNANGTSDPSPQSAAARPDTQPAQPAPP
+VLAFGDKQLDISWTAPANDGSPIESYDLQISPAPPGGTAQKTVPASMTRTTWTGLSNGTS
+YRVRVQARNAAPEPSGFSDYSSPEVPAGAPAAPGAPTTARANPVGVQSQLNVDWPDAAAN
+GADVTAYQLREFRGSTLVRTHEAGATSNMTIRVDNSEQDYSYSARARNKAGWSEWGPASA
+PRRAVGIPDAPAAPALAASRTGAEGRALTITFTPLSASARNGARAEEISYRASFSDGRSM
+MVSNGQEITGFGNGASVTAQLTAVVNSDGSSYDSPASAASGAVKVFGSPGTPSASGSNGG
+QGSRTATLSWGPPDQNAHDVAQVQISVNGGGWENVGVSGSRSVGDGYNQDHGIRVRVLNS
+QGTPGPEVSASARTGSEPPPATWTLTVGNQLSTGDRRTCMDPVGSTNYTGDRRCLGNHWA
+YHGDRIDTRCYIVRGGGAIWYRQHSGRPENDGLHIKGTHTSFGNNPPGGMGRC
+>tr|A0A0N8HXS4|A0A0N8HXS4_9MICC
+MRIARFIQDSDPAFGVVDGEEGHEEIVVIKGDPFFSGVQLTGERHKLEDMRLLAPIIPRS
+KVVGIGKNYADHAAEMGGEVPPAPLMFFKPNTSVIGPNDPIVLPSFSEEVSYEAELAVVI
+GRICKDVPLERVDEVVFGYTCANDLTARDAQRTDNQWARAKGFDTSCPVGPWIETDLDTD
+SLAIRAYLDGDLVQDGNTSEMIWGVKELVSYVSQAFTLLPGDIILTGTPAGVGQITDGQR
+IEVQVEGIGTLANIARG
+>tr|A0A0N8HY56|A0A0N8HY56_9MICC
+MSEDSIIGVSVGAGPKERRVLDPVDRRILELLRSDARMPNNAVAAAVGIAPSTCHGRIRA
+LQEQGVIRGFHADVDPAATGRGLQAMIAIRLHAHARSNLATFKDYLAQLPGVESIFFVTG
+DRDFLIHVALADSGALRDLVANNISVHPEVAGTNTSVIFEYVSVQQSVR
+>tr|A0A0N8HZ29|A0A0N8HZ29_9MICC
+MPRKGPAPKRPLAVDPVYGSPLVTQLINKVLVDGKKSTAERIVYGALAGAQEKTGQDPVA
+ALKKAMDNIKPSLEVKSRRVGGATYQVPVEVKPGRATALALRWLVGYSKARREKTMTERL
+RNEILDASNGLGAAVKRREDTHKMAESNKAFAHYRW
+>tr|A0A0N8HX16|A0A0N8HX16_9MICC
+MRTRAESDLDIWDDAVLLDPYPAYATLRETAGVVYLPKNDLYVLTRYDVIRDALNDPETF
+SSTSLGFNPMVNEALQGTSLASDPPVHTQLRAALSENLTPRALRGLKVVIDEKAENLVGG
+LVAGGSFEAIDALARAFPLEIVADLIGFTGQVKENMLRWGQAAMQVLGPLNQRTQENFPI
+AGELYGWCSTVTAEDLAPGSIGRGIFDAETRGDIPEGTAGHIIHQYLGAGVDTTIAAIGN
+AVALFGRHPEQLALLRENPDLVSSAFAEVLRFWPPIHVWGRTATRDTEVDGTLIPAGAQL
+GILFGAGNHDPRHYEDPDTFDITRNPVDHLSFGYGPHGCAGQGLARLEGHAIISALGRQV
+AEIQLGEEVRVPSNITRSIEELPVIKVVAA
+>tr|A0A0N8HZ63|A0A0N8HZ63_9MICC
+MTPEELSSAVTACLKDAIDAGDFSIELPSEVRVERPRNRDHGDWATNIALQLSKQAGMNP
+RQFAEILSSRLEKIDGVAKVDIAGPGFLNITLDAGAAGELAKAIVEAGPSYGRSDALSGT
+RINLEFVSANPTGPIHLGGTRWAAVGDALARVFESQGAEVTREYYFNDHGAQIDRFARSL
+LASAKGEPAPEDGYAGAYIEDIAARVLAVESNILELPEAEAQERFRAIGVDLMFGDIKES
+LHNFGVDFDVYFHEDSLHENGQVDKLLEQLKGSKNLYEKDGAWWLNSTEFGDDKDRVVIK
+SDGNAAYIAGDIAYIQNKRERGFDLNLYMLGADHHGYVARLKAAAAALGHDPECVEVLIG
+QMVNLVKDGKPVRMSKRAGTVVTLEDLVDAVGVDAARYTLARFSTDSNIDIDLDLLTKRS
+NENPVFYVQYAHARTYALARNAEAAGVDNSAFDATLLSHPTEGALLAALGQYPGVVAQAS
+TFREPHRVARHLEVIAGTYHRWYDACRIAPQNGEEVTDVNRTRLWLNTAARQVLANGLDL
+LGVSAPERM
+>tr|A0A0N8HX55|A0A0N8HX55_9MICC
+MDSSDLLIDAFGRLPQTVSRVLNGLSAKDLNHRPYPDGNSISWLIWHLARVEDAQVADVA
+GHQQVWTAEGWADRVGLPLAVEDTGYGHTSEEVAKVQVQSAEVLQEYYDAVSARTIAFVS
+GLSASDLDRVVDTSWDPPVTLGVRLVSSLADCLEHVGQAAYVRGMLTSGGAS
+>tr|A0A0P7FUG7|A0A0P7FUG7_9MICC
+MNPVLDPVIHPLYRLQLCAMLDAGTAVESSVLRAHLGLSPSAFSKQVAALVEAGYVRQER
+GELDSRKTWLSLTKAGSRAYRGHIRALETIVSGTFQEES
+>tr|A0A0N8HXR6|A0A0N8HXR6_9MICC
+MTDLTIIGTGNMARGLAARAVAAGRSVQLLAHEDKAKADSLAAELDGKITTGVLGEQLTG
+ALVIPAVYFDASRAIAEQYGDALTGKVYVDITNPVDFATFDSLSVPADSSAAEELQKATG
+AKVVKAFNTTFAATLSNGTVAGHPLDVLIAGDDAAATQAVVEFASAAGLNPVVVGPQRRA
+RQLEHMGFLHILLSANEELPAYQWNSALKVVPAA
+>tr|A0A0P7G7D8|A0A0P7G7D8_9MICC
+MSNTPLDRVPIRRALISVYDKTGLTELAQGLSAAGVSIVSTGSTAKQIAAAGVEVTEVAE
+VTGFAECLDGRVKTLHPRVHAGILADRRRQDHRDQLDELGIEPFDLVVVNLYPFVETVKS
+GAAQDDVVEQIDIGGPSMVRAAAKNHPSVAVVVDPAKYSAVTAAAAEGGFDLNARRRLAA
+EAFAHTAAYDTAVAKWTAAQFGDGTEEGATWPAYTGMALERSEVLRYGENPHQAAALYAD
+QDSMPGVAQADQLHGKAMSYNNYVDADAALRAAFDFDEPAVAVVKHANPCGVAVASPGAA
+DPIANAHLKAHACDPVSAYGGVIAANRTVTAGMAETVKDIFTEVVIAPDFEPEAVEILSR
+KKNIRLLTLPDGYGRNPLEFRQVSGGVLMQQPDTVEAEGDDPANWTLAAGEPADEKTLAD
+LVFAWRAVRAAKSNAILLARDGASVGVGMGQVNRVDSCKLAVERANTLAGSDDERARGAV
+AASDAFFPFADGLEILLNAGVRAVVQPGGSVRDEEVIAAANAAGVPMYFTGARHFFH
+>tr|A0A0P7HQ20|A0A0P7HQ20_9MICC
+MDGTLVDTEPYWFAAEKELMARFGVSWSDEQAMELVGNALPDSARALQAAGADLGIREIL
+DGMLDSVIRSVRREIPWRPGARELLAELYAAEIPCAMVTMSESLLARVIADQLPEGTFRF
+LVTGEMVANGKPDPEPYLLAAKLMGEELGTTMDLDRIVAVEDSLPGVASAKASGAVTIAV
+PNAVDIPTQSGITRWETLAGRTVEDLQALVADRVTASF
+>tr|A0A0N8HZ24|A0A0N8HZ24_9MICC
+MTTIPTPYEDLLRDILAHGTPKSDRTGTGTRSVFGRQMRFDLSESFPLITTKRVHFKSVA
+LELLWFLRGESNVRWLQERGVTIWDEWADDDGELGPVYGVQWRSWPTPDGGQIDQIAKLI
+DGLKNNPDSRRHIVTAWNPAEVENMALPPCHAMFQFYVADGKLSCQLYQRSADTFLGVPF
+NIASYALLTLMVAQQVGLEPGEFVWTGGDVHIYDNHLDQVTEQLSRSPFPYPKLRLRRKP
+DSIFDYELDDFEVLDYQHHPGIKAPIAV
+>tr|A0A0P7HGR8|A0A0P7HGR8_9MICC
+MTESSRPLRGVLFDVDGTLVDSNYLHTVAWWQAFRRLDYDIPMANIHRAIGMGGDKLIGH
+LLGSDPEAEVEEKLDSSHGAIFSTSWPSLRAFDGAAELLRACASRDLAVVLASSASEPEL
+QALRRAIDADDAISSATSSSDADESKPAPDILQAALDSADLEAEATVFVGDSVWDVKSAA
+ALGIPTIGLTCGGTSEAELLDAGAKQVYASPRELLQNLQDSLLGQTDAG
+>tr|A0A0N8HY05|A0A0N8HY05_9MICC
+MHSGKRALKGPASLAVPITTLLAAIALLVGVPASGALAATSPASDSVAGKTYTIGTDTTF
+APFEFRENGELVGIDIDLMNAIAEDQDFSVEIRSLGFDAALQALQSNQVDGVIAGMSITE
+ERQKVFDFSDPYFESGIQMAVAENNNEITGYEDLEGKRVAVKTGTEGQAFAESIREEYGF
+DVIAFAQSAQMYDDVKAGSSVAVFDDYPVLAYGIKSGNGLKTVTDKEVGSSYGFAVNAET
+NPELLEAFNAGLANLQESGEYDEILDRYLDAGAADSSFWSLVTDNAPAFAKGLGLTLLAT
+ALSLFFALILGVIFGFFKVSSKIVLRGIATTYVSIFRGTPVLVQAFFFYFGLPQIIGQPV
+DVLTAGVLTLSLNAGAYMTEIVRGGIQSVDPGQMEAARSLGLGYGKTMQKIVIPQAVKIM
+TPSFINQFVITLKDTSLLAVIGFAELTYQAQQVYAVNFRTAEVLIIVAALYFIVITLLTK
+LADVLDKRFNK
+>tr|A0A0P7GD42|A0A0P7GD42_9MICC
+MNSPLTAPLTPAEAWQRLREGNERFVSGASRHPNQDAPRRSSLVNEQNPFAVIFGCSDSR
+LAAEIIFDLGLGDVFVVRTAGQVTDDAVLGSLEYSVGVLGVPLIVILGHDSCGAVTAAKH
+TVDTGSMPSGYVRNLVERITPSVLAARRNGLEDVNDMVVEHTRQTAERLVESSRLISDAV
+ASGSTAVVGLSYRLAEGRADLVSSIGQLEAGAPDLAAG
+>tr|A0A0N8HZ46|A0A0N8HZ46_9MICC
+MTSDTTSGQPVPEQAGPLVSLKNVNKHFGDLHVLRDINLDVARGEVVVVIGPSGSGKSTL
+CRAINRLETIDDGEITIDGKALPAEGKALAKLRADVGMVFQSFNLFAHKSILDNVALGPV
+KVKRMKSAEAKEKAMALLKRVGVDNQANKLPAQLSGGQQQRVAIARALAMKPKVMLFDEP
+TSALDPEMINEVLDTMVELAQEGMTMIVVTHEMGFARKAADRVIFMADGQIVEQAAPEEF
+FTNPKSDRAKDFLGKILAH
+>tr|A0A0P7H4T9|A0A0P7H4T9_9MICC
+MLILAIDTSAIASAALLNGEGETLAAFATEDTKSHAEVLAPGIQKLLADAGVSGGQIDAI
+VTGVGPGPFTGLRSGIATARTLAFAWNKPLHGLMSLDAIAVDAALDAWRAGVDEFIVATD
+ARRKEVYWARYRSTGGTAELLDGPHVSSPAEVPGLPAYGAGAGLYPDVLRTVQDFAGAQP
+TAEALGRTAVVRLVRGLELLPDLPLYLRESDAKVPGPRKRAL
+>tr|A0A0P7H5P6|A0A0P7H5P6_9MICC
+MNESAQPVPGQVVRSTPLARYRLADNPGPMSLDGTKSYILAAEAGGPCVIVDPGPADEEH
+LAGLAAAGDVELVLITHRHPDHTEGAKRFHQLTGAPVRAADPAFCFGGEPLQDGEVIVAG
+GVEIQVLATPGHTSDSVCFVLRADGPSGSVLTGDTILGRGTTVLDYPDGTLQDFMASLEK
+LGRLGPATVLPAHGPDLENLESVVLTYRDHRDERLAQIRGVLSLLGEDATVEQVTDAVYA
+DVPASVRGAAELSVAAQLEYLRVRG
+>tr|A0A0N8HZ05|A0A0N8HZ05_9MICC
+MTIATETFARRLTVERQRAGLSQAALAALITDRIGRSIDPSAVARAEKHERAVRLDEAVA
+IADVLQVPLTSLLQDRGAIDEEIDELRRELSLLQWRLGKAEEEAHHAQDSISATRRRMEE
+LEAARGE
+>tr|A0A0P7G894|A0A0P7G894_9MICC
+MALDPAVKQAIIKEFALTEGDTGSPEVQVAVLSRRISDLTEHLKTHKHDHHTRRGLMALV
+GRRRRMLGYLRETDITRYRALIERLGLRR
+>tr|A0A0P7FEB0|A0A0P7FEB0_9MICC
+MHKAIVVPKAGGPEILRYEDVDLPVPGPNELLVKVAAAGVNFIDTYQRSGVYKMNYPFIP
+GSEAAGTVVQTGMDVAAFSDGDRVATAEGGGAYSEYMLLDASKALPVPRDVSSEVAAALP
+LQGMTAHYLCNSTYPVQSGETVLTHAGAGGVGLLLTQLLKAKGATVITTVSTDEKEALAS
+AAGADHVLRYDGFADRVRELTDGRGVDVVFDGVGEATFDGSLASLRPRGMMVLFGGASGQ
+VPPFDIQRLNALGSLYLTRPTIRDYLLSAEERQWRARELFEMVEAGTLDVRIGATYPLAD
+AARAHEDLEGRKTTGKVLLVP
+>tr|A0A0P7GJK6|A0A0P7GJK6_9MICC
+MPSALTVQRRRPVRNISPRFWIIALSVVAAALVAVFMTIELRGNIGYVLPRRAIKVGSMI
+LVAYAVGVSTVLFQTVTANRILTPSIMGFDALYVLIQTVLVFTFGGGLVLSMSEPLRYGM
+EVALMVAFSFLLYRWLFTGGGKSLHLMLLVGIVLGTMFRGMSSLLQRLIEPSEFIILQDL
+FFASFNNVDGALLGYSLIAVAIVSVPAWRMRHSLDVMSLGRETSINLGVNHKRSVTGVLV
+ICSVLVAVSTALVGPVTFFGLLVASLAYQLCSHFSHKAVVPIAVLLGIIALVGGQLVLER
+IFAFDTALSIVIEFVGGIVFLILLLKGSLK
+>tr|A0A0P7HH77|A0A0P7HH77_9MICC
+MFEPVVRESTPSIIAGKLRTAIGRGQIPAGSQLVETELARELGVSRGPLREAMQRLTQEG
+LLISIRNRGIFVITMTEEEVQDMYVARTAVERAAAELILQKDGGKDIAAQLSRVVKAMKK
+AADKADLDAMSEADMEYHSTLVAAAESPRLSRMHNTLLTETRMCLTALEQRYPDPHTRVG
+EHQAIADALAKDDQDLVGKLLIRHMDDALDRLTGSGSADAATA
+>tr|A0A0P7HN72|A0A0P7HN72_9MICC
+MAKQLEFNDSARRSLEAGVDKLANTVKVTLGPRGRNVVLAKTWGAPTITNDGVTIAREVE
+LDDPYENLGAQLAKEVATKTNDVAGDGTTTATVLAQALVKEGLRNVAAGAAPGALKHGIE
+TAVEAVAARLLENAKEVEGNQVAHVAAISAQNEEVGQLLAEAFDKVGKDGVITIEESSST
+STELVITEGMQFDKGYLSPYFVTDAERQEAVLEDALILINSGKISSVAEFLPLLEKALQA
+SKPLFIIAEDVDGEALSTLVVNKIRGTLNVVAVKAPGFGDRRKAMMQDIATLTGAQVVSP
+DLGLKLDQVGLEVLGSARRITVTKDNTTIVDGAGSEADVADRVAQIRAEIERTDSDWDRE
+KLQERLAKLSGGIGVIKVGAATEVELKEKKHRIEDAVSSTRAALEEGIVAGGGSALVHAA
+RALDTDSEVAKLDGDAATAVGLVRRALAQPLRWIAENAGAEGMVVVSKVGELEVNHGFNA
+ATGEYGNLIEAGIIDPVKVTRSALRNAASIAALVLTTEALVVEKPADDEDDHGHSH
+>tr|A0A0P7GD05|A0A0P7GD05_9MICC
+MTQAPRSGSGRSNPRSGGGAGGNRGFGKGSKPASGRTGGPKSSGGPSGAPKSGGFKSGAP
+KSGGFKSGAPKEGGFREGGFKPGGPRTGAPKGKGGSERAFRNERFGKNLGPVTKRTHTRR
+PGKPVISEHHDPEGIRLQKVMASAGVASRRVCEEMITEGRVEVDGEVVTELGVRVDPKTV
+AIHVDGMRLQLDETQKYYVFNKPRGVVSTMEDPEGRPCISDYLKSTNKHERLFHVGRLDT
+NTEGLLLLTNDGELANRLTHPSYEVPKTYLVQVRGPMAHGVGAQMREGLELEDGFAKVDS
+FRLVDSTPGHILVEVVLHSGRNRIVRRLFDAVGHPVERLVRTQMGPIRLGDQRQGSIRVL
+GRHEVGHLMATVGL
+>tr|A0A0P7GVA0|A0A0P7GVA0_9MICC
+MLLNGRNAIIYGGGGSIGGAAARAFAREGARVFLAGRHPEPLQEVAAEIREAGGLAETAI
+LDALNQQAVNAHADDVASEAGSLDISLNVIQHGDVQGTPMAAMSVEDYLRPVSTAVQATF
+ITAQAAARHMMEQKSGVIMAFGGSGTEDRGQYLGGLITALEAIESMRRQLAIELGPYGIR
+VVTLRSGGVPESLPRDMEGHDDVAGAITSATLLGRAATLEDVGNAAVFAASDMAASITAT
+TINISAGALID
+>tr|A0A0P7GJC8|A0A0P7GJC8_9MICC
+MSTPNHRPAPAPSMNLRGAVDLSALKNRASAPPAAPAPAGGEGAGGSSYVVEVSEQTFPQ
+VVQLSATVPVIVNLYSARSPESAEVTAVLEQEAAGRRGKVLLANVDVDAHPQIAQAFQAA
+SVPTVAAVIKGQPVPLLDRAVPAEQIRALITELMQVAEANGVSGSLGEGGAAAEEEAPLP
+PLHQEAYDAIVAGDYDGAAAAYRKALAEQPADADAKAGLAQVELMQRLRDADAEALRSAA
+AQEPDNVDAQLAVADLDMSGGHVEDAFNRLIRLISRTFGEDRERIRVRLLDLFEIAGPAD
+PRVTKARSALARALF
+>tr|A0A0P7HNH6|A0A0P7HNH6_9MICC
+MSEHFGGSEGPQRPLPPRPPAPPSSSVQPEPSAQPGSQVPQEQQGGSAAGSAPTAAGAHA
+AGGAASRDASWTQTQPAFYGPPAAPPGNGGGYQDPNYGGGYSGSAYPANPGKRRYGTGTL
+VGAMLVAGLLGGGVAVAANSVMGNGNATAGTTGQSQTVVVNDRDDVNAITAAAVKASPSV
+VTIEVSGSGASGSGSGIILDDDGYILTNTHVVTLGGTVATPTIEVQTEDGRVLSATVVGT
+DPLSDLAVIKVDAPDLVPATLGDSDELNVGDSVIAIGAPLGLSGTVTDGIVSTLNRTISV
+QSSAAPENESDTAPEDDGFGFRFAPPDGSSQNQSSAASSIYLNVIQTDAAINHGNSGGAL
+VNTDGDVIGVNVAIASASSTGSGEDSGNIGVGFAVPASYAQRVADEIIENGSATHGFLGV
+SVTPATGAGSSSSFTIGAAIADNPASGTPAAQAGLQKGDIVTAVDGIPITDAKSLTAAIR
+MQPADSKVTIDYVRNGQAESTDATLGDSADQ
+>tr|A0A0P7FPL7|A0A0P7FPL7_9MICC
+MAGQKIRIRLKSYDHEVIDVSARKIVETVTRAGATVVGPVPLPTEKNVYCVIRSPHKYKD
+SREHFEMRTHKRLIDIIDPTPKAVDSLMRLDLPADVNIEIKL
+>tr|A0A0P7GHR3|A0A0P7GHR3_9MICC
+MAERLKDQASAYLRQHAGNPVDWWPFGDEAFDEARRRDVPVFVSVGYAACHWCHVMAHES
+FEDPETAQILNRDFVSIKVDREERPDVDSAYMAATQALTGQGGWPMSVFTLPDGRPYFAG
+TYFPPRQLQGTPSFRQVLEAVASAWRDRRSEVEQSAAQIAAHLASNQVANRNLLGDLSAV
+HPAPGAGSGAAEALEAAVTALAAAEDTEYGGFGGAPKFPPSPLLRFLLAHARSGAPTAET
+AAALARRTLTVMALGGLYDQVGGGFARYTVDRRWQVPHFEKMLYDNVQLLRVYAHFSRQE
+ADGDLQALALRVTRETARWMADELGVPGGAFASSLDADTMVDGHRVEGATYVFTRAELSD
+ILGAGSPALDLLDVDADDGASHRLTGSTLRLKSVPDEAQAAVWEAARSRLAAVRSHRPQP
+ERDGKVVAGWNGLAVAALADAALALADAGMPEDWMLPAAEAAAGYLMDVHWDGRILRRVS
+NEGAAQGIEGLLEDYAGAAEGLFALYAATGDPRWHRDAQQLTATAVERFLGPDGLSDTAL
+EPEQIRQAQGGQSAANPLDDAVPSGTALFAGVLLTSASYGGPGRHRELAEALVAHVQRAA
+PAIPQAVGWAMSVQQSILDGPRELAVTGTDPGAVARLLAAARGAGGPGLVIAHGPAGGVP
+LLEGRETDEPALAYVCRGMVCRRPVATADELRAELAAGQAD
+>tr|A0A0P7GRU8|A0A0P7GRU8_9MICC
+MHQFSEGHLFINGSYRQGRGDEAKRINPATGDVAETLRYADASDVDDAVAAAKAAFTGWS
+RRTPGERAEALLALAAELDKRSDLLAELETAQTGKSIRMSTQFDVPGTVDNVSFFAGAAR
+QLHGLAAGEYGAGGTSMIRREPIGVIGSISPWNYPLQMAGWKILPAVAAGNTIVLKPSEL
+TPATSLVFAEAAAAAGIPDGVINIVTGSGPVAGEALVTHRDVAMTSFTGSTAVGRRIMAM
+AAQTAKRVHLELGGKAPFLVFDDADLEAAAHGAVAGSIINGGQDCTAATRAYIQAPLFES
+FTERVAELMDAVVVGDPTDPDTDLGSLISHAHRDKVAGFVNRARESGARILAGGEAPGGD
+LAAGAYYRPTLVTGAAQDSEIVQDEIFGPVLTALPFGSDDEGLALANDTPYGLAASAWTR
+DLNRSLRASEEIAAGCVWVNDHIPIVSEMPHGGYKASGFGKDMSVYSFEEYTNVKHVMMS
+RDAAAHKEWQDTVFKER
+>tr|A0A0P7FIE8|A0A0P7FIE8_9MICC
+MTKTGLAAPSAAAAGAPDAGELLDGLAAAGVEADGSSRRRAEYSFDASNYRVPPLAVVFP
+RSVDDVVAVLKVCRETGTPLISRGGGTSMAGNAVGPGVVLDFSRYLNRIGTVDEDARTVA
+VEPGVVLAVLSREVERATGNRFSFAPDPSSRNRATVGGALGNDACGNHSVRYGRTSDHVA
+ELDVVTADGAQLTATGTGIRATHPGDAYSEQRAAELAAGLQDLAHSNLAGFRTELGRIQR
+QVSGYHLANLLPEHGFNVARALVGSEGTCAVIVGARMKLVPKPASALLVCLGYEDVVEAA
+RDIGTILEFSPAAVEGIDEAIVDTMRFRRGANSVTGLPAGRAWLYVDLDGDDPASVQVDA
+DRLLARLQENGRLVEGRPVPDGVERASLWRVREDGAGLSSRLSTGGESWPGWEDSAVAPE
+NLADYLADFRDLLARFELKGVMYGHFGAGCMHIRITYDLRTDAGRAVFREFSREAAELVV
+RHGGSLSGEHGDGRARSELLPLMYSPRMLAAFAEYRRLWDPDGILNPGSLTDPDPIDAHL
+ALQGVPSREWRTSFDLRPLHAGGGSTAETDDPGTSAGAAVDPFVHAVQSCIGVGRCRTDT
+GGVMCPSYRATRDEKDSTRGRARVLQEMVRGARTVEEGWKSEEVREVLDLCLSCKACSTD
+CPTGVDMATYKSEFFDHYYRGRLRPLSHFSLGWLPRWLKLTGRIAPLVNAVLATPFGKVA
+ARLGGLTTERSLPRFAPAGAWRKEVAAASSAAGTPGAPGGPGGTGNEVRGAEASGAAVTG
+VAGRNAGVVLFVDTFTRGFRPEVAGAAARVLEGAGERTECSADACCGLTWISTGQLGTAK
+KVLAKAAETLDDGTERPIVVVEPSCAAALRKDLPELVHTDQARRVAARVRSFAGYVGELA
+ASGWTPAPAAALPEKVVLQTHCHEYSVFGAGTQKTALAALGIPEVVDATGCCGVAGNFGF
+EKDHYEVSMQVAEQALAPALRGTDAGTVVLTDGFSCAMQVQQLDAARPGTHLAQLLDPGT
+GPNLDAPTSFPTPQAKDSEE
+>tr|A0A0P7GTV8|A0A0P7GTV8_9MICC
+MAFSGIRGQHMAQDFPDDPTGGTADSGEARSQAAHAKGKDGKNRGFGAWLREVVIIVAIA
+LLLSFLIKTFLFRAFFIPSGSMEETLEIDDRIFVNLLVPEPFDLARGDVVVFKDTQAWLP
+ATQQDDGGNILADALTFVGLLPDESEQHLVKRIIGMPGDHVVCCNADGKVTVNGEPLDEP
+YLYPGAQPSEIPFDVVVPEGKVWVMGDHRNASADSREHQNGPGGGFINIEDIEGKAAVIA
+WPLGRAGFIGSYPEVFENVPDPSGAETASK
+>tr|A0A0P7HD01|A0A0P7HD01_9MICC
+MPRRTNSDGSPAAAAAADSSRPRALTPRQKKILETIQASVSTNGYPPSMREIGDTVGLAS
+LSSVTHQLSQLEKMGYIRRDPKRPRAMEILVPLLMHKEPQGTESSAPDGTAAASVTELTT
+AVDTAMVPLVGRIAAGGPILAEQVVEEMVPLPRQLVGHGELFMLRVSGDSMVDAAICDGD
+WVVVRRQQTAENGDIVAALLDDEATVKTFRQRNGHTWLLPQNTRYEPIMGDHATIMGKVV
+SVMRSL
+>tr|A0A0P7GIF9|A0A0P7GIF9_9MICC
+MSPTATNTGTPGGITVGKKRRDLVAVNIGNTLEWFDWNIYAIFAPFFAAQFFKTDNPVSA
+LLSTLAIFAVGFLMRPIGGWLFGRIADERGRRFSLTLAIALAALGSLVIAVAPNFDAIGV
+FASILLLLARLVQGLSHGGETGSAFTYLAEVAPEGRRGLWASSPWIGVGVGSMLATGLGA
+ILTAVLSDEDMASYGWRIPFAIGALLGLYAIYIRRTMTESSVYEANAASKTERETGIRWA
+LRQLAANRRGTLQIVGLTISGVVAFYTWFIFAPGYAVSVHGMNPTSALVAGLCGQAVFLL
+AIPLMGTASDRWGRRPVLLVFSVGFFIAAIPLEFGLGSSPFSLFGTVALASILLAANCAP
+LGAVFAELVPTRLRATLIGIAYATSGAIFGGTAPYLNTWLSSIGLHVVFVVYIMVLCAVS
+TVVILTMPETRNRRLD
+>tr|A0A0P7GK73|A0A0P7GK73_9MICC
+MSAELDRPRAGERVLRVLRLALHVGFALLLAVAVGRMLLMGPLSWVSFLALLLSAVLAAV
+YVIGTVAEKRASDGGRGRRALRFDPERHGLAWLGAVTGLWAVLLVLSPDFSWLAFPLFFL
+QLHLLPLRPALLGVTATTAAVVAAQWAHAGEFHAAMLLGPLIGAGFAVIMALAYQALYAE
+VTNQREALDELHRTRAELARSQREQGVLEERGRLAREIHDTLAQGLASIVLMSRSARASL
+DAGNLETVRERLGTVEETAAENLAEARQFVRNLRGSENGGGSLVDRLERACRSVQERAAA
+QGQELACSFRLEGVPAALPAPYEVAVLRAVQAMLANVLQHASASRAVVTLAFVGRDVTLD
+IFDDGRGFDPAVERARSGPRHDDSGYGLISIADRVEALGGRMDLESVPGEGTAVGIRLPL
+PDARQAPAAADLPASVPGQVPDAGGQGRG
+>tr|A0A0P7FX39|A0A0P7FX39_9MICC
+MPTNAAPQENQSTADLASYIDHTLLKPEASREDILRVCEEAAQYGFKSVCVNPLWVSTVH
+TALKDSGVDTCSVIGFPLGATTTEVKVFEAQGALQDGADEIDMVIDIAAARRGDRETLVR
+DIAAVADAVHEAGSILKVIIETSLLTDEQKVLACEAAVAAGADFVKTSTGFNGGGATVED
+VALMRRTVGPDLGVKASGGVRSREDALAMIDAGATRIGASSGIAIVKGGNGGSGY
+>tr|A0A0P7FFG3|A0A0P7FFG3_9MICC
+MENTLTSRRSELGWSQQRLADELGVSRQTIISIEKGRYDPSLPLAFRLAAVFHCRIEDLF
+TPGHAPGK
+>tr|A0A0P7FZZ4|A0A0P7FZZ4_9MICC
+MRATIIHGPGDIRVEDREYPQVLRDGDAVVRVSAACVCGSDLWPYRGIRETREPRAIGHE
+FVGVVESVGTGVASLAPGDFVIAPFTGNCGKCPPCRSGVTVACEELVGWGSTDTRGDFVQ
+GAQGEAVRVPNAEATLVKVPGVVDPDDALLADLLTLSDVMGTGHHAAVSAGVGPGQTVVV
+VGDGAVGLCAVLAASRLGAGRIIAMSRHEDRAALAREFGATDVVAERGREGAARVRELLG
+GVPADAVLECVGTAESIDQALRCTRPGGRVGFVGVPAGGAELPIGVLFAKNITVGGGMAP
+VRTYLPELLEDVLAGKIHPGRVFDSVLSLEKAPEAYAAMDQRQAVKVMLKP
+>tr|A0A0P7FTU8|A0A0P7FTU8_9MICC
+MKLGDARDRLSAGETNEDLQRLLDSAHGTAKDALADLRGIARGIRPAVLNDGLDAALESL
+AATSPLPVELDYRLVVRPAPAVEAIAYYSAAELVTNAVKHSRGSAVRISVASEGGQLVLN
+VSDNGTGGANPAAGSGLAGLAERVRTVDGTLELDSPAGGPTTVTVRLPLA
+>tr|A0A0P7GB80|A0A0P7GB80_9MICC
+MQPQKPDHGPASVDVRPGGIRAAAEAVLMVANEPVTAASLAEALGVGPAAAVQVLHDLRR
+EYDGYTGGGPDGLHAVEPRGFELREVAGGWRIYSRPAFADIVGQFVLEGQSARLSQAALE
+TLAVIAYRQPVSRGRISAIRGVNVDSVVRTLVQRGLVTEAGTEPETGSLLYVTTPLFLEK
+LGLGSVEELPQIAPHLPGLENLPEFEETTY
+>tr|A0A0P7HIY6|A0A0P7HIY6_9MICC
+MPGRKRAAVLGHPIGHSRSPQLHRAAYEYLGFDCSYEAIDVEEAAAADFAAAARQDPAWN
+GLSVTMPLKAAMAAAVDHLDPLAHALGVLNTVTFDHGPGGAVLTGWNTDVLGLVNALRHA
+GAGDAPRGIVLGAGGTACAAVAAFSRMGCTAVDVYARSHQRGDQAQNTQSRGSAQAANVS
+KVGAALGITVNLHPWNDAAQACTEADVVICTLPPRGADALADAFNALGAARTGAVLLDAA
+YDPWPSRIAQAWESAGGTIVPGLEMLLYQAVEQVRLFTGNAFRDEDAVINVMCDAVGLPA
+R
+>tr|A0A0P7GAE3|A0A0P7GAE3_9MICC
+MSVHTMEETVPFDEAMEKYDPVLGFEVHVELNTKTKMFSDAPNEFGDVPNTNVTPVDLGL
+PGVLPVVNKKAVEYSILIGLALNCKIAESCTFARKQYFYPDTPKNFQTSQYEDPIAYDGW
+LDVELEDGTVFRVEIERAHMEEDAGKLTHMGGAAGRIQGADFSLVDYNRAGVPLVEIVTK
+PIEGAGSRAPELAKAYVAAIREIVKNLGVSDAKMERGNVRCDANVSLRPHGQEKFGTRSE
+TKNVNSLRAVERAVRFEIQRHAAVLDSGEKVVQETRHWHEDTRSTTSGRPKSDADDYRYF
+PEPDLLPVVTTEEWIEELRSRLPEPPAERRKRLKADWGYSDAEFRDVVNAGVMEAIEETI
+AAGASAQVARKWWMGEVARRAKEAEVDPVDTGVTPELIVELDRLVQAGKINDKLARQVLD
+GVLAGEGTPEEVIEKRGLAVVSDDGALLEAIDAALAAAPDVADKIRGGKIQAVGAIVGGV
+MKATRGQADAGRVRELILERLGVSA
+>tr|A0A0P7GWM2|A0A0P7GWM2_9MICC
+MDAAPVITILPEAPAHLADAVRDGGGVTAPLSDQTTGLIVLAGESLADLTDILKSHPAIR
+WIQVYLAGADAWVPLIQQYPEIRWTSAKGAYGQPVGEYALTLTLAMLRAVPTFARARSWG
+PPQGTSLYGKRVVIVGAGGVGREILRLVGIFTPHITVVRRHDEPVPGAERTVTDAGLDDA
+LGGSDVVILAAAMTTATRHLIDARRLGQMSPHAVLINIARGPLVDTDALVAALAEGRLAG
+AALDVTDPQPLPDGHPLWSEPHALISPHTAETEAMIRPHLAARVRENVRSFRNGDPLAGL
+VDPAKGY
+>tr|A0A0N8HXY0|A0A0N8HXY0_9MICC
+MVQEPSGSGVRLPVQEIVREIVIPAGVAGPDPLVMDVRCYAVAQPGGIVVIDTGMPDAES
+GIAEAVEALGGSFGDVRDIILTHLHMDHVGSLFAIAEQAPMAAIYAGGPDSPDIRAPRRV
+QGLGEGDYVQDLQIFATPGHTPGHVSVFHEGSGTLFIGDAAVSAEGGVERSPEAFTSDAA
+RAEESLERIAALEPERMLFAHGAEIASPVQSLARLLGGPYGS
+>tr|A0A0P7GIA2|A0A0P7GIA2_9MICC
+MSTTTAPATETLDPSDLISFDSLLTSEELELRARVRTFVDEAIRPNIAGWFEAAHFPLEI
+VPEMGKLGLLGMHLHGYGCGGRSAVEYGLAGAELEAGDSGLRTFVSVQGSLAMSAISKWG
+SEEQKTRWLPGMARGEEIGCFGLTEPTAGSDPSAMKTFARRDGDDWVLNGTKRWIGLANV
+ASVAVIWAQTEEGIRGFVVPTETAGYTATPIEPKLSMRASIQCEIELSDVRLPADAMLPG
+ARGLRGPFSCLNEARYGIIWGSMGAARDSFEAALAYSKERLQFDKPLAGYQLTQQKLVDM
+ALEINKGFLLALHLGRLKDAGTLQNHQISVGKLNNVREAIAIAREARTILGGNGITLDYS
+PLRHANNLESVRTYEGTDEVHTLILGQHLTGVPAFR
+>tr|A0A0P7GDP0|A0A0P7GDP0_9MICC
+MRTLVLNAGYEPLAVVTFRRALVLVLSGKASVLAESGDPVVGPGDVFGRPSVILLNRYVN
+IPYRDSTVATRRGVLRRDGHSCAYCGKAASTVDHVVPKSRGGQDSWENMVACCLRCNNNK
+GDKTLNQLGWKLRFTPRAPRGTRWQIRELERPAEQWSPFLGDTAA
+>tr|A0A0N8HX11|A0A0N8HX11_9MICC
+MTHFSGEPDREQQFRTLYAAVYPDLLRFVRRRADADRAEDIVADTFLVVWRRVDEVPPSA
+GDARAWIFGISRNILLNNGRGERRNGALGLRLAEAADLPASTADIDLATRRIDVARAWRM
+LSETHQETLGLAVFEDLSGPQAAAVLGVSPVAYRLRLSRARRALRLLLDHLPASSASPQP
+ILGRTPSS
+>tr|A0A0P7HPT0|A0A0P7HPT0_9MICC
+MPTPTLPRFQNGARPQQLLTVLLGDYWHARSEPIPSAALVDLLQVFEVTPSGARAAIQRL
+AQRGFLVGTKAGRQTAYAVSPMSRERINTHVRSLFMSHLQQVWDGSWTLVGYSLPENAKG
+TRRILRDQLRQLGFGNLYDALWVRPGNHLGSVSSLKTSMDGLLGPDQLTVFTDARLPAAA
+GLEAVQSAFDLQALATGYSEFIDRWEPAASALKHGTDSVVSAAPGTGLRPGDAVLQLRTS
+IMAEWRTLRRQDPCLPHELLGPDFPMHRAVAVCSALYDSLGPAAESGFRRILRAHEESLA
+DLATHHTFAASASLLRSKD
+>tr|A0A0P7FFW7|A0A0P7FFW7_9MICC
+MNDGVLSWVRIDTASSVPPFEQIRLQILDAANDGSLPVGTRLPPVRTLAAQLGLAVNTVA
+RAYRELEHAEVVTTRSRAGTVVAAAGDNGRRRVAEAARVFAETVSANGVSHKDALAFVEA
+ALRQR
+>tr|A0A0P7GBH8|A0A0P7GBH8_9MICC
+MNDLEPILLARAALSRLIEPSDTIGQALVAAAGPVTAARVAAGHQQAGSALRRATAALLD
+ERGIPATGRAFDEALQRWHPRAADLAPQRDLQTASRFGGRVLVPEQEGWPAALADLGQAM
+PFCLWSRGGGTVPPAGNCLALVGSRDATSYGLAITGDLAAGLVLRGKTVISGGAYGIDAQ
+AHRSALAAAGGTTATTRAARGGDRSAEAGSTVPEAADAPPTIAVMAGGIDRFYPAGNEDL
+LRAVADTGLVLSEVPPGSAPTRWRFLQRNRLIAALSAATVVVEARWRSGALNTAHHAAAL
+GRGLGVVPGSVYSANSAGCHRLLREGSAVCVTDPAEILELADPFTLLPASPDSGKESAVL
+PAVHDGLSPPDILLLDALPLRKGALPQKLAVVAGLDPPAVRAGLARLEIAGLARRTGAGL
+WQRSHRHKQQENTGTASTEHNGD
+>tr|A0A0P7GJ55|A0A0P7GJ55_9MICC
+MLIAQRPTLTEEVVADNRSRFIIEPLEPGFGYTLGNSLRRTLLSSIPGAAVTSIRIDGVL
+HEFTTVPGVKEDVTEIILNVKNLSVSSEHDEPVVAYLRKQGPGVVTAADIAPPAGVEFHN
+PDLHIATLNSKGKFELELTIERGRGYVSASQNKSGDQEIGRIPVDSIYSPVLKVTFRVEA
+TRVEQRTDFDRLIVDVETKDAIAPRDAVASAGTTLVELFGLARELNTAAEGIEIGPSPTD
+AALAADMALPIEDLELTVRSYNCLKREGIHTVGELVARSEADLMDIRNFGAKSIDEVKAK
+LVELGLSLKDSPPGFDLAARAAAIEEDESEFSDDEL
+>tr|A0A0P7FZ03|A0A0P7FZ03_9MICC
+MRILITGATGQVGRHLATELLGAGHTVRALTRSPSKADLPKGIEVAAGDLTNTASLLTAF
+EGVDAVHLITFGGDDGEDLTNGAEIVNLAERAGISRATVLGGWSSTSVDNALKASSISWT
+IIQPAEFMGNALELAPEIRASRTVSMLADYPSAVVHEADIAGVAAAALATDRHAQKTYGL
+TGPEALTPAERTSLLAGAIGEPIQFVQLSEDEERERLRNYGYDADYIEFGIQLATHAPRN
+AGTVLHTVKEVTGRPARTFRQWAHEHLDQFRAMH
+>tr|A0A0P7H5Z8|A0A0P7H5Z8_9MICC
+MNAHASNTTTGRTVAADLIARSNRLGSDPKNTNYAGGNTSAKGTAADPVTGEDIELLWVK
+GSGGDLGTLTEKGLAVLRLDRVQALKNVYRGVEHEDEMVAAFDYCLHGKGGAAPSIDTAM
+HGLVDAAHVDHLHPDSGIAIATAADGEELTAKIFGDKVVWVPWRRPGFQLGLDIAAIKEA
+NPGAVGTILGGHGITAWGETSDEAEANSRWIIDTAEAYIAEHSKAEPFGPVLAGYEALPA
+AERHAKAAALAPVIRGLASHDRPQVGHYMDDPRVLDFLSAAEHPRLAALGTSCPDHFLRT
+KVKPLVLDLPADAPVEDCIARLKELHEAYRADYQAYYERHADAASPAMRGADPAIVLVPG
+VGMFSWGKDKQTARVAGEFYLNAINVMRGAEGISTYAPIDESEKFRIEYWALEEAKLARM
+PKPRSHATRVALVTGAASGIGKAIATRLAAEGACVVIADLNLEAAEQVAAELGGSDVAIG
+VRADVTDAGQVAAAIDATVLAFGGIDLVVNNAGLSISKPLLETTEKDWDLQHDVMAKGSF
+LVAKAAAKAMIAQEMGGDILYISSKNSVFAGPNNIAYSAVKADQAHQVRLLAAELGEHGI
+KVNGINPDGVVRGSGIFAGGWGAKRAAVYGVPEEELGKFYAQRTLLKREVLPENVANAAA
+VLTSSDLSHTTGLHIPVDAGVAAAFLR
+>tr|A0A0P7HL45|A0A0P7HL45_9MICC
+MVISAAPLPEDWDALREVTGLDLQPASSPYWATRLEYDGGELSPEDYWASVLGRRVDEEE
+LARLEELDARQWSRLNPHTLKVLEFLAGEGAQLALLSNMPAEMSYRYESESSWPAFFAAR
+YFSGRLGMVKPNERIYRHVLDGLGVAPEDVVFIDDNPANIEAAKALGMQVVLHTEGTDLR
+KEFALLADPA
+>tr|A0A0P7FU01|A0A0P7FU01_9MICC
+METEYLVIGAGSAGNVVARRLLDAGKKVTVLEAGDQDTNPDIAHLNTLGALWHSPQDWNY
+YTTEQAGASGRRIHLPRGKVMGGSHALNASIWVRGDRWDYDSWADAGCEGWSWEDVLPVF
+KQIENYDGGASETRGTGGLLDVVQDFPRNPVQEDMLAGAQEIGLELNPDYNSGSVEGVSR
+MQLNVRDGKRFNTWHAYLKPVMDHPNLTLLTGAHVRRLLVEDGTVTGVEFEYDGELRTIH
+AGETILSAGAINSAELLLRSGIGPAAELAEIGVEPVLDLPGVGKNLQDHLLAPVIFSAGA
+RPVPDGEVAPAEVHMFAKSRPDLPVPDTQPIFFSVPMYSQDYGLGEMTGPENGFSMLGGL
+VRPASRGEITLTGPSPEDPLRIDLGALSEQADVDALVASVRQCREIGRSEALANWEPKEL
+HPGPGISDEDLDQYVRDSVVTYHHQVGTCRMGIDDLAVVDPADLKVRGLSGIRIADASVM
+PLVTTGNTNAPTVMIAERAAGMILG
+>tr|A0A0P7HD38|A0A0P7HD38_9MICC
+MSSRTIRGAVLERTGAERPYARSRPLTVTELQLDGPGPGEVLVRIEAAGVCHSDLSVVNG
+SRIRPLPMLLGHEAAGRIEELGPDVPGLAVGQRVVMAFLPRCGECAACRTNGKMPCTPGS
+AANNAGTLLGGGIRLARNGEPVLHHLGVSAFATHSVVNYRSLVAVEDDVPPAVAALLGCA
+VLTGGGAVMNAVRPGPEDDVAVVGLGGVGMAALLAARAAGVRRVIGVDALPEKLKRALEL
+GADAVYFPEEAAAEGIRAALTVEAAGHPRAFETAVNLTAPGGTTVTVGLPAPDQRSEITP
+LTLTAEARTIIGSYLGSAVPSRDIPVYADLWRQGKLPVEELVSSEVALEDINEAMDTLAD
+GQAIRQVIHFE
+>tr|A0A0N8HY23|A0A0N8HY23_9MICC
+MNSVRPAAGSGHVPQRTCIGCRKKDDQAALMRLALDSGDGMNAVLVDESRRMSGRGAWLH
+PDAACFATAVKRRAFGRAFRAQADPSAVAQWFEAQEAGPARNPLETVQPESGSEI
+>tr|A0A0N8HYY7|A0A0N8HYY7_9MICC
+MEPIRVLLADDQALVRAGFAMMLSVEDEIEVVGEVANGQEAVDFAAANDVDIILMDVQMP
+VLDGIRATEQIVAADRAKVIILTTFERDDYLFDAIQAGASGFLLKNADPDDLVGAVHSVA
+CGHALLAPEVTVRVIERFARQLEAERNTAAAPAGPAPVEPQPDPAQQKLLASLTAREREV
+LELVAAGLSNAEIAARMFVAEATVKTHVSNLLGKVQVRDRVQAVVFAYESGLILPGEAGR
+EA
+>tr|A0A0P7GWX0|A0A0P7GWX0_9MICC
+MELRTALATLAATDHLLVATDFDGVMAPLVEHADQARPLPEAAAALRSLAAVPRTSTALI
+SGRALDSLRRAASPEPETLLVGSHGAETWTGPNAAPLQLTPEQAELLARARTAVTSVAQD
+APGCWVEDKPAGVVLHTRSAPDDVASAAVDAARARLGELDGVQVTDGKRVLEVSVVHTSK
+GEGIRALRELTGATAVFFAGDDVTDERGFEALESEDVGIKIGPGDTAAPFRVDSPAEFAA
+VLEHLLELRRAAVEN
+>tr|A0A0P7G460|A0A0P7G460_9MICC
+MALVLRYAARSDVGMVRFKNDDSAYVGRYLAVVADGMGGHAGGNVASASTVLDLVHLDRP
+DLDDVAVTVLADEIQAANSLLSELVTTSPDLSGMGTTVTAMLLQGDRLALAHIGDSRAYR
+LKDGVFEQISVDHTFVQRLIDEGRLRPEDAEVHPHKNVLMRVLGDVDASPELDLATFEVE
+PGEKWLLCSDGLNAVLRDSDIETVLRDSTDLGAAVDTLVELTLAGGSPDNVTVAIIEVVE
+EAEAPAPAPVREPAPVTAGTAAVKAEGAAARPLPDQADTTDEPHADGEGTGTDGEEAREA
+DSPARAELIRRDLESRPHVLVGAASLATETGQIPIVTKRSAERRAARLLMHKADDAGSPD
+APEDAPVEPRRRRRWILLVVLGVIAALLAAVLWVGYAWTQTRYYVGSADNRVAIYNGVSQ
+TIGPIKLSQVAETTNIPVDSLPEYWRSRVNDTVPARDLVHAEQIVDQLRGTAKAILCPQP
+ADPVPSPSPSVLAEALDAATTTEALPPIDACGGQQ
+>tr|A0A0P7HD39|A0A0P7HD39_9MICC
+MTMPTTKTARQARIRALLTGLSVRSQAELAALLADDGVQVNQATLSRDLVELGAVRMRGK
+DGVLVYAVPSEGGERTPQSGISPEVLDARLARLCGELLVTAEASGNIVVLRTPPGAANFL
+ALAIDHSIMPSILGTLAGDDTVLLVTREPDGGAELAARFLSIADEATASGQAPDNRIL
+>tr|A0A0P7HEV4|A0A0P7HEV4_9MICC
+MADPATYRPRTGEIPTEPGVYRFRDEHRRVIYVGKAKNLRSRLNSYFASPGQLLPKTRAM
+VFTATSVEWTVVGTELEALQLEYTWIKEFNPRFNIMFRDDKSYPYLAVTMGEKYPRAQVM
+RGDRRKDTRYFGPFYPAKAIRETLDTLLRVFPVRTCSAGVFKRAERTGRPCLLGYIDKCS
+APCVGRISAEDHRALAAELCSFMSGEGKRFIHDLEKQMQAAVAELDYESAARLRDDIAAL
+KKVFERNTVVLSEDTDADIFGMVQDELEASIQVFHVRGGRIRGQRGWVVEKVEDMDTGEI
+VEHLLQQVYGEAAMSDRIPRRVLVPVLPDNAEELQVWLRGLRGSKVKISVPQRGDKKSLL
+ETVTRNAEDAMRLHKSRRAGDLTTRSAALSELQEALDLPVPLLRIECYDISHVQGTNVVA
+SMVVAEDGLMKKSDYRRFSITGEAARDDTASMYDVISRRFKHYLAENFDPAAAVPDAEPK
+TEADGGNPENPLADTLTAPPKAKFAYPPNLVVVDGGKPQVTAASRALADLGITDVYVVGL
+AKRLEEVWVPESDFPVILPRSSQALFLLQRIRDEAHRFAITFHRQKRGKSMTASILDSVP
+GLGPAKQKALLKHFGSVRRLKQADTAQLLEVPGIGPSMAAAVQAALANAAEAAPAVNMAT
+GEIVES
+>tr|A0A0P7GW62|A0A0P7GW62_9MICC
+MSAQIGVTGLAVMGANLARNLARNGYTVALHNRSIEKTDALLEAHGDEGDFIRTESLQEL
+VDSLEKPRRVLIMVKAGGPVDSVIDQLVPLLEPGDIVIDAGNSHYEDTRRREAALAEKDL
+HFVGVGVSGGEEGALLGPSIMPGGSRESYDSLGPMLEKISAKYNGEPCCTWIGTDGAGHF
+VKMVHNGIEYADMQVIGEAYDLLRSAAGIEPAEQAEIFTEWNKGQLSSFLIEITAEVLAH
+KDARTGKPFVDVVVDSAGQKGTGRWTVVSGLDLGSPVSAIAESVFARALSSQRGQREEAQ
+GILAGEETAVELPETFVEDVRQALYASKLVSYAQGMDMLTGAAKTYGWDLKLDEIASLWR
+AGCIIRAELLDDIMKAYADGKAPANLLLAPAFAESIAAAVPAWRRVVSVAVQLGIPVPVF
+SSSLAYYDGLRRKRLPAALTQGLRDLFGAHTYNRVDAEGTFHTLWGGDHSEVEAVDTH
+>tr|A0A0P7G5S9|A0A0P7G5S9_9MICC
+MARVVIFGGTGYAGGHIAREAASRGHDVISYSRNAPEQPLHGVEYRTGSLASPEVPAAAA
+ADADVLVVAVHGADVDGAPLSTYVPALIEAARTSAARLAIVGGAGSSLVKEGGPRLVDTP
+DFHDDWKPEALAHAEVLEALRQAPEDLDWFYVSPAALFGVFAPGEATGSYRTGGDVLVTK
+DDGSSEISGTDYALAFVDEIENRAHPRQRFTVGH
+>tr|A0A0P7G6T4|A0A0P7G6T4_9MICC
+MSKSSPPRTRTLSLGPVLLRCRRRTLVTGVVLAAAAVVLGLAGMQTGTIALAFGDVLGAV
+FGQGENRSVKVVQKIRLPRTLTALGVGACLGAAGATFQSISRNALGSPDIIGFTTGAATG
+AVAQIVLFDAGPGATALAAVAGGLLAAGIVYLLSLNGGITGGYRLVLVGIGVGAMLTAVN
+TILLAKGDSDLAAQAHLWLSGSLAARTWGHAVPVLAAVVILLPALLALSRNLNQMEMGDD
+AARSLGIRTERTRILAMAAAVGLTAVATAAAGPIVFVALAAPQLASRLTRSPGVHLGTGA
+LMGAVLVAGSDLLSQRLPIQAAVPIGLMTGLVGGVYLLWLLTRSKQV
+>tr|A0A0P7HL30|A0A0P7HL30_9MICC
+MDKPQGWTSHDVVGRLRRLAGTRKVGHAGTLDPMATGVLVVGINKATRLLTYIVGTSKTY
+DATIRLGQSTITDDAEGEVIAETIAAAVTDEEIRAAVADLTGDIQQVPSSVSAIKVGGER
+SYAKVRAGGEVNLPARPVTVSRFEIHDIRREHGGKLRDVDVTVECSSGTYIRALARDLGA
+ALGVGGHLTALRRTSVGPYTEERASTLEQLAEDLSLLELNDAARALFPVRELTSEEADNI
+SHGRRISASGVPLADGEPVPVAAFAPDGELIGLLADKADTARALLVFAPGNERS
+>tr|A0A0P7G715|A0A0P7G715_9MICC
+MRGVIMHGPGDVRVEDRADPAVEEPTDAVIRLAATCICGSDLWPYRGVEEVQDSPMGHEY
+IGVVEEIGADVRTVKPGDFVVGSFWASDNTCVICRAGFQSRCVNAFPMGAIGTQAQRARI
+PLADGTLVATPGTPPPELIPSLMAASDVLGTGWFGATAAQAGPGKTTVVVGDGAVGLMAV
+LAAKELGAEQIIAMSRNPERQQLARFYGATDILPQRGDEGVEAVRELTGGVGAESVVEAV
+GTQESMLQAIRSTRPGGHMGFVGVTYEVALPGMELFFAEINMLGGPAPVRRFLPDLIQRI
+WDRRIDPGRVFDLTLPLEDAAEGYRAMDQRRAVKVLLTP
+>tr|A0A0P7G8D3|A0A0P7G8D3_9MICC
+MPKMKTHSGAKKRFKLTGTGKLKRQQANRRHYLEHKSSRLTRRLAGDKIVTPGEAKVIKK
+MLGK
+>tr|A0A0P7HJF0|A0A0P7HJF0_9MICC
+MTTRVGINGFGRIGRNYFRAALEQNADLDIVAVNDLTSPETLAHLLKYDSVTGRIGASVE
+VQDGNLVVGGKTIRVLAERDPAQLPWKDLGVDIVIESTGFFTKADDARKHIDAGAKKVLI
+SAPGKGADRTIVMGVNDSEYDPANDTIISNASCTTNCLAPLAKVINDAFGIERGLMTTVH
+AYTADQNLQDGPHRDLRRARAAALNIVPTTTGAAKAIGLVIPELDGKLDGFALRVPVPTG
+SVTDLTVTLTKEASVEQIQEAYKAAAEGNLNGYLRYSDEPIVSSDIVTDPASCIFDAPLT
+RVMGNEVKVVGWYDNEWGYSCRLVDLTSLVASKL
+>tr|A0A0P7GS70|A0A0P7GS70_9MICC
+MYRIITVCTGNICRSPMAQFILAQALSEAGLEAETAVDSAGVTAWEAGRPIDPRAAAELL
+NHGYPEPAVDSFRARAFEPEWYGERDLILALDYGHLTHLQAEAPSGFRSRIRMLRSFDPA
+AADLPASGQGIDDPWYGDMSDFDSSYALIQAAVPGVVDFVRSALADRHP
+>tr|A0A0P7GI56|A0A0P7GI56_9MICC
+MRLRKLAGVFAALALALGATAVAMPSASATSLDGSAAARLHTLINDYRQVHALKPLAWNQ
+GIANVAQQWTLDSAKTASVSGAGTFLHNPSFAAQYPAGAKHASENIAWNMSVDQAFQWWV
+NSGPHKANMLRAADTELGIGVVQLTEGPNRGVYLATVNFGQYETPPPAPVPPAPEPEPAP
+EPDPTPVPAPEPDPTPTPAPEPAPAPAPAPAPAPAPEPEPAPAPAPAPAPAPEPAPAPAP
+EPEPAPAPEPEPTPEAEPAPAPVQVAGTAPDADNVPAAETGPLPESEPAVDENTAPEEPA
+VLQEDPAEEPAPAASRAELLTSDPAVLTPEARGTFEAKASGSLLVVAGLTPGTQYQVFLH
+STPVKVGTLTVDAAGVLPVSIPADLEAGDHRVALYDMDGTLAGWQSFTLQPAVTVLGAPG
+QSAGTAPAVLAETGVTPAQMLVGGAGVLMALAGGAVLLALRIQGRRPETATVAAS
+>tr|A0A0P7GE22|A0A0P7GE22_9MICC
+MVMGFEGLRTAVITGAGSGIGRATAREFLDAGWQVVLAGRREEALQETADGDARALVVPA
+DVTQPGDVDRLFREAADRFGRVDVLFNNAGSFGPSGSVDQISLADWNETVAVNLTGTMLC
+AAAAVRQMKAQDPPGGRIINNGSLSAIAPRPLAAAYTATKHAVTGLTKSIDLDGRAYGIS
+CAQIDIGNAATELLAGITTGGALQPDGSRKVEPTFPAEEAARTVLFMAELPASANPGSVV
+LTAAGMPFLGRG
+>tr|A0A0P7HI13|A0A0P7HI13_9MICC
+MLVSVGQFSPSGDVEANLAVMRSLAEKARAEGSELIVFPEESMFSIGKVEGPLTAAVDAG
+WSTFVQRLSLTAAELGIAVVAGGYESSGEERPYNTLVAIEAGGRIAATYRKLHLYDAFSY
+SESTRIKAGDRGIQVVELGGLRVGLMTCYDLRFPELARALAVQEADLLAVPAAWFKGEHK
+IDHWETLLKARAIENTVWVAAAGTSSGHTIGHSAILDPMGVPQVFLGDDPEAVATADVNR
+NRIEEVREYLPVLANRRFAPGEVVVETS
+>tr|A0A0P7FZX5|A0A0P7FZX5_9MICC
+MPHFAVVPGPPRPNPLVLSRARLLHALDDAAAAPLTLVRGPDGAGKTTLLQHWATARERP
+AAWVSARRSPMAPVEQPGPSARFLAALLAGAFEVPGPAEAALIEKVGREAANGAELRSML
+TRLAHLAARDLLILEDLHLATGFPAEDLLLDLLRAMPGLRIVASTAALGSIELRKALLEL
+DVAVIGPEELAFTAEECQRALTGSGLQSQAQEIRTLTSGLPRWVRFMALTATAPACSIPR
+RQLSAVLDAGAADLAELLSPPRISAAFADFLLGACVPDELQASLAAHIWGSQNADAMIRE
+AEQKGLLTRSGDGGAAMVPLVRSAVLAGARKSSPARVHALEEICGRYFLEQGKPLEALRH
+AMAADSLDLATEIIRHRALELFTFHGPETRKLLEGVSLRRLARQPAPALALAVLYNSSAF
+RRVRGAELATLALSGARVLFRSMPEAERLLLILVEAVTLRGSGQLDRSAARARSGLQTYM
+EMPLTERERIGPLESVAVAHLGISLWRAGATEEAESAFTQAASLAAAQHKPDYEGYYHSL
+SACLLAGRGDLTGAAHFLRLCSTLDWGTGELHHYSETPLRLAEALTALEVGDAAAAKASL
+ARVLDRADAMELWPRVRYLDALSDLVAGNPEPAAARLEEVLSHREGLPPTGGTEYALLVR
+MQSFLMLAAGFPGRALAVAGSLPKTQRDLVTARIHLATGQPGKTLSAVIRLGTGGSLRRQ
+AEVAGLSAAARLQLEPGPGLAPGVKLELARLSVLYQSQGLRLSTALLPAGGLERVRDAAA
+EAGLDVGLEPFPASVIGSTAGIPELTPRELAILNSLAQSGSLAEIAGMQFVSVNTVKSQL
+RGLYRKLGVTGRDEALNEALRRGLL
+>tr|A0A0P7G8V5|A0A0P7G8V5_9MICC
+MDQPTWDLIAASFLPLLQGAVTGTIPLALISFAVGLVLALGVALMRLSKIRLVSGIARAY
+VSIIRGTPLLVQLFVIFYGLPSIGVLVDPWPSAIIAFSLNVGGYAAEVIRAAILSVPRGQ
+WEAAYTIRMSPAQTLMRVILPQAARVSVPPLSNTFISLVKDTSLASLILVTELFRRAQEI
+AAFSQEFMVIYIEAALIYWLICVVLSTGQSALERRLDRHVAN
+>tr|A0A0P7HCB4|A0A0P7HCB4_9MICC
+MQVHKYDVVIVGAGGAGMRAAIESGQRARTAVLTKLYPTRSHTGAAQGGMCAALANVEED
+NWEWHTFDTVKGGDYLVDQDAAEVMAKEAIDAVLDLEKMGLPFNRTPEGRIDQRRFGGHT
+RDHGKAPVRRACYAADRTGHMILQTLYQNCVKHNVEFYNEYYVLDLLTVQDSFGQKRVAG
+VVSYDLATGELHVFQAKSVVFASGGAGKVFKTTSNAHTLTGDGMGIAFRKGIPLEDMEFI
+QFHPTGLAGLGILLSEAARGEGAILRNSEGERFMERYAPTIKDLAPRDIVARSMANEVRE
+GRGCGPNKDYVLLDLTHLEPAHIDAKLPDITEFARTYLGVEPYTEPVPVFPTAHYVMGGI
+PTNIKAEVLQDNDTVIPGLYAAGEVACVSVHGSNRLGTNSLLDINVFGKRAGIYAAEYAL
+QADFVDLPEDPEADTIALLDTVRNSEGTERVAEIRRDLQNTMDANMQVFRTAETINKTLS
+DIADLEERYKKINVQDKGKRFNLDLLEAVELGFLLELAKVMSVAALHREESRGGHFREDF
+PDRDDEKFMLHSMAYKVDEAENAEHTAGIRLDTKPVIFTRYEPMVRKY
+>tr|A0A0P7GB93|A0A0P7GB93_9MICC
+MSTTLAQHAEAAAALVGLLPTPAPLQPAPHSSLGLPLEAMTQAVTASFVGSVSADLAVVL
+LSAAGSVSDVAGTDSPVVSAADVLRPALEAASATLGAGVLGDARTEDASALFSHMDASVF
+ELRGPEGTAGWFAVRVRSGENGSTAAQSVVGKLGRINNVEMALTVEIGRTRMAVRDVLNL
+EPGRVVELDRSAGAPADILLNGRLIANGEIVVVDQDYAVRITKILDVAEGLG
+>tr|A0A0P7G6I8|A0A0P7G6I8_9MICC
+MPNDDVIQARGRALSSPVRLRILRLCLHAERTNKEIAEALELNPATALHHVRTLLGTGFL
+AAGTPRTGNRGAKEIPYRATGLSWKASLPEGTNMVFVETFLQEIEGLPPSDIEVVRMGLC
+LNEENRRILMDKLRAVFDDYALRGPDPDGTPTSLMLAHHRDRTSEKLSGDLTS
+>tr|A0A0P7H3S4|A0A0P7H3S4_9MICC
+MGKNRVLASVLSVAVLGLSLSACSASGPTPEEAAQTLAEGLAELDVSDSTFLDSTAEEAN
+TRLAEWTSGMEPLKPAVSVTSVEETADDEAVATLSYVWDVNSTENDYSYETTVALQRGGE
+DDWQVRFTSTAVHPDLAPGDHLLLETGPQQRGNILGAGGEVLVTERSVWHVGIDKTRIEA
+EQLDSSATALAEFLELDPAPFAAQVQAAGPEAFVEAITLRQDDVSPPPVFQAEVAEIPGA
+AALNSTLSLAPTRTFARALLGSAGEATAELIENSDGALSPGDITGLSGLQREYDDVLRGS
+DPVTIRTATAEDARSAPLFEDPGKKGDLRTTLDTRMQLLAESVLEDEPSASALVAVQPST
+GNVLAVANGPGSQGQQTALLGQYAPGSTFKLATTLAMLRSGATAQTTVSCPEELNVDGRN
+FNNASTYPAQFLGEIPLIQAFSQSCNTAFINARGDVSQAGLAEAARSLGLGVPAPIGTGA
+YFGSVPDSADGTLHAASMIGQGEVLVSPFALAVAAASIGNGSRVSPVLVQAPAEGTGEPV
+ATNSPEPSASASPTGTDTDSAPLTAEEAAALREMMRSVVTEGGVQLLQSVPGEPVLAKTG
+TAEFGSDTPPRTHAWVVALQGDLAVALFIEEGELGSTSGGPVMKEFLDGLAG
+>tr|A0A0P7G7I4|A0A0P7G7I4_9MICC
+MSHKERPVSTNSASVAWLTQESYDRLKAELEHLSGPGRSEIVARIEQARSEGDLKENGGY
+HAAKEEQGKAEARIRQLTQLLENAHVGEAPADDGVVEPGMLVEARIAGDLERFLLGSREI
+AGDSDIDVYSEKSPLGSAISGLRAGESTSYTAPNGKSISVEIVSATPYAG
+>tr|A0A0P7GU53|A0A0P7GU53_9MICC
+MNAIMPKLTLNNGVVLDAVGFGVYRNPPAQTTVAVETALANGYRLIDTAAAYRNETEVGA
+ALAQSGVDRAELFITTKLWVDDYGYDSALRAFDASMARLGLDVLDLYLLHQPLPSDFEAT
+IASYQALQTLYEQGRVRAIGVSNFSVRELSELMAGTDVVPAVNQIQVHPYFSEPALRAFN
+LQNGILTEAWSPIGGVTRYWDHGPGAGPKDPLHDPAIVAIAAAHHKTPAQVILRWEIQLG
+ICVIPKSVTPKRIAENIDLFDFSLSAAELSDISALDTGIRSGPDPDTIARS
+>tr|A0A0P7G758|A0A0P7G758_9MICC
+MTSASNGSGSQSQTLSRGIQALELLAESETPLSIAELSAGLGVHRSIAYRILRTLEAHSL
+VMRDDAGRVSAAPGLAALARGVSRDLQSAALPELTVLANELSMTAFIAVWDQHDCVTLVT
+VEPRHSRTALIQRPGTRHSFTAGAPGIAIQSAVSEEHWNRLAPGQPYRDEARLARRRGYA
+TSHSEVIDGVGSVAVPVQVPGQLPASLSVVYFGTGKDDAGIGARLIESVRQIEAQLT
+>tr|A0A0P7GW84|A0A0P7GW84_9MICC
+MSTDVLVIIGTGGMGLAVLRRSGAGRKVLLADFNETLLEHAVDTAVSEGYDVASQGVDVS
+SRNSVAALAATARELGRVTGVVHTAGLSPAQAPAEAIWKVDLYGVALVLEEFEKVIAPGG
+SGVVVSSMSAYMAGGNIPADALAELAAKPADDLLGLPFVTGIDHPGFAYSAAKRANQVRV
+QAASLRWGARGARVNSISPGVISTPMGQQELSSESGAQMRAMIEGSGTGRVGTPGDIANA
+AAFLLSADASFVTGVDLLVDGGVVAALDTGQRAKSAG
+>tr|A0A0N8HZ11|A0A0N8HZ11_9MICC
+MTVPSKVGVLGGGRMGAGIAHAFCTAGASVVVVERDEQAASAAYERVASNLAKSVERGTT
+DETLDSLVARLSVSTDYADFAGSGLVVEAVPEDFDLKATALTAVEEQLDADAWLASNTSS
+LSVSELAEKLQRPERFCGLHFFNPVPASTLIEVVLGKQTSEELAEAARTWVADLGKTPVV
+VNDAPGFASSRLGVAIALEAMRMVEEGVASAEDIDAAMVLGYKHPTGPLKTTDIVGLDVR
+LGIAEYLASTLGPRFEPPQILRDKVARGELGRKTGKGFFDWS
+>tr|A0A0N8HZ23|A0A0N8HZ23_9MICC
+MSTSPGSAQETGSFLADFRSMSTFGATAGGGVDRQAGTAADGQVRNWFRGLLEGHGFEVR
+YDAVGNQFAVLELVPGAPCIAVGSHLDSQPLGGKYDGAYGVLAGAHAAIRLLEKVRRGEL
+DAQFNIAVVNWFNEEGCRFKPSMMGSAVFTGKLPLGQVLATTDPSGTTVQEALESIGTIG
+DFEVDLAAYLEIHIEQGRSLEDAGLTIGLVESTWGANKYEFIVHGEQAHTGATVIADRHD
+ALLGASALVMAAREIADTFSTAEHAVITSCGEFTVFPNSPVVVASRVNLLVDIRSTDPDV
+LAAADTELHRRVAAIEKSASVRIERGAEHVWAAKAYDQAGMELAGACAQELGLPHGTVRT
+LAGHDSTNLKDVVPTIMLFVPSVEGISHNEKELTSDEDMLAGLDLLTELLGRVAAGGFVS
+RS
+>tr|A0A0P7GTL7|A0A0P7GTL7_9MICC
+MAAVTTLLEAISGIGRDPVRGGYSRPVFSAAETDLRSWFVSEAQARGLDVETDRNGILWA
+WWGEPQNGALVTGSHLDSVPGGGAFDGPLGIAAALAAVDVLKERGVQRNRSLAITVFPEE
+EGSRFGVACLGSRLLTGAIDPDKTRNLRDDGGTTFAEAARAAGLDPEHIGRDEEALARIG
+DFVELHVEQGRGLGEDGPAVAVGSSILGHGRWKLTVHGQGNHAGTTLMEDRADPLVAAAQ
+IISAVQQAASAEPGARATVGRISAVPGGTNVIPSRVDLWLDARHEEDAVTAQLVETIHGK
+AQKIAAFEGCSVSLAQESFSPTTSFDPALQRQLQLALPQAPVLATGAGHDAGILAGHVPA
+GMVFVRNPSGISHSPEEYVEDADADYSAEALADVLESLL
+>tr|A0A0P7GL40|A0A0P7GL40_9MICC
+MSSPYTLTLSCADRPGIVHAVSGALAGVGGNITESQQYGSPDSGTFFMRVDFTAPGGYDD
+VRARISVVAEQFGMDWELHRAGVPVRTLIMASKDGHCLNDLLFQQRAGDLPIEIPAIVSN
+HRDLAGLAEFYGVPFHHIPVTPDTKQEAEDRLRALMAELDIELVVLARYMQILSNELCQD
+LSGRAINIHHSFLPSFKGARPYHQAHARGVKLIGATAHYVTSDLDEGPIIEQEVIRVDHS
+RTASRLAALGAGVEGRTLSKAVQWHAEHRVLLDGRRTIVFN
+>tr|A0A0P7H541|A0A0P7H541_9MICC
+MNPADSGLEELSEGQPLEDRVNNRSQRPTSQAFKDFMSSGWASASDELPEQSAVAPHAAA
+RRRALSERFKGERLVIPAGPLKVRSNDTDYRFRPHSGFAHLTGLGLDHEPDAVLVLEPVE
+EGKGDDGGHHTATLYFRPLAGTDNEEFYSNARYGAFWIGSRMNLEQVSALVDLPTRDLSE
+AETAITSNVGDPQFGGVSVRLLRKVDEMVDALVDTVRYNTALDPENMDFSALDSKDEELT
+EALSELRLVKDAWEIEQMREAVAATVNGFTEVVKALPRAITHPRGERVVEGAFFARAREE
+GNDLGYDTIAAAGNNATVLHWIRNNGAVKAGDLLLLDAGVEADSLYTADITRTLPVNGTY
+SEVQRRVYQAVLDAADAGFAAAKPGNKFRDVHAAAVRVLAERLQEWGLLPVPLEEALSEQ
+GQQHRRWMPHGTSHHLGLDVHDCAQARRELYLDGIIEEGMVFTIEPGLYFKEEDLSIPEE
+YRGIGVRIEDDVLITADGPENLSAALPRDPSDVEDWMAGIYAS
+>tr|A0A0P7H835|A0A0P7H835_9MICC
+MSTPATGELPAPAQGQPLHYLDAVTALKLFRSRELSPVELLQSMIDRAASANDSVNAFTE
+TMFDDAMVQARSAEAEYLRGSAGRRSLLGLPVATKEKHALAGRSFSQGLLAQAGAVATAD
+HPVVERIRAAGGIVHARTTSPEFSCATVTHSPMWGVTRNPWNLERSPGGSSGGAGAALAA
+GLAPLATASDIAGSTRLPAAFTGTVGYKAPYGRIPGLAPLSVDWYRGDGPMARTVADTAL
+LANVMSGRHPGDHSSFGGPGTLPLEFDDAGNAAGLRVALCLRLGDYPLDPAVEANTRAVA
+ETLQAAGAVVEEVELPWTTAEIRDTIFTHFGHILGPAMEEATAGTEDSLASYTRRFMADA
+RVAAERRTLVEGLAAEAKIQSELADVMDGFDVLLCPTSGAGSLAADAEYLDGIEVAGSRL
+QHYWEGHLTAPFNIANRCPVLAVPSGFGADGVPTGVQIVGHPFAEESVFRVGAAIEVLRP
+WAGRYPQL
+>tr|A0A0P7H5E5|A0A0P7H5E5_9MICC
+MELSDFLSSVFDFSDYSQLLPLVTNSLWAAAILGLVGGLIGVFVMMRDLAFAVHGIAELS
+FAGAALALLLGVNVVLGSLVGSVAAALILALLGLKARDRNSITGVLMPFGLGLGILFLAL
+YEGRSANKFGLLTGQIVAVDSVQLNLLAVCAAVVVVGLVAVWRPLTFASADPELAQARGV
+PVGGLSIVFMFLLGLSVALSIQVVGALLVLSLLITPAAAALLVTSSPRLVVGLSVLFALA
+SAVGGILLALGGRIPISPYVTTISFAIYVICRIIMAIRGRTRRLATAA
+>tr|A0A0P7GK58|A0A0P7GK58_9MICC
+MNMPHNTAPQKRLLTAVFAPLGDAGKASRVEERIVQGISAGALLDGDRLPTEMELAASMG
+VATVTAREALAGLRSRGLVETRRGREGGTFVTLPSGDRSVLVRRRLTSMSRVELRDLAIH
+YAAIAATAAELAAEAAEHEDVQALEQLLDVPARSSRAVGDFLLELAALSQSARLTREYVR
+LHTDYGSLLGLAHADPVFDSTMVRLCRRICTAVSEADPSTARSLVRQYVQASVAWLIDEH
+TRLHSAALTTAEPSPPAPARRKA
+>tr|A0A0P7FIE0|A0A0P7FIE0_9MICC
+MSPAATAETTKTIDAVTLKSLLEENPNLTVIDVRNPAEFESVHIAGSHNIPLPLLSAHTV
+ELAARLDDGVVLLCQSGVRAKQAHERLAAAGLQGGQVLTESVDDVEKAGGSVVRGRQVWD
+MERQVRFAAGSLVGLGLLAGRIASPKFRVLAGGISGGLVFSALSNTCAMGKALAYLPWNQ
+GASEPSWEEIQANLDR
+>tr|A0A0P7GDB8|A0A0P7GDB8_9MICC
+MTMRGFKSFASATTFEFEPGVTAVVGPNGSGKSNVVDALAWVMGEQGAKTLRGGKMEDVI
+FAGTSGRPPLGRAQVSLTIDNSDGALPIDYSEVTISRTLFRAGGSEYAINGAPCRLLDIQ
+ELLSDSGLGREMHVIVGQGQLDKVLHASPEDRRGFIEEAAGILKHRRRREKTVRKLDAMQ
+ANLARLTDLTAELRRQLGPLGKQAAVARRAKQVQLDVRDARARLLADDIVTLAAAVEQDT
+AAENALRVRRQQVEQEAEAQGARLAELERLAAQATPRVNAARDAWYALSSARERLRSLAA
+LAEERRRLLGSAEPAADPGRDPEKLQAQAERVRAEMQALEAEATEREGMLEDAVEVRAAA
+EEEAAAEERRLASLLRAAADRREGMARLSGSVSAARSRVEAAEAELGRLRASIAQAEERR
+RTAEGDFAALEQEAAGAESGEEGLDAEYEEATDALEAAETRLAGLLEEERQAVRDRETLT
+ARRDALAVGLDRRDGSRAVLDAGLEGVLAPLADLVTVTPGYERAVTAALGTAAEALAVRE
+LDTALQALKLLKDTGSGQVSLVLAGVRGPGDNEELPGLPDGCVYATDLVQAVPEAAAAVR
+TLLRRAVVVDSLERAAGVLAAGPGLRVVTADGDVLTTFTAAGGSTTAPGLIEIQAAVEET
+QNRLTEAVSRAEAARFAISAARAERDAAQARADAALAVLHESDARLAAVGERLGALGSAL
+RSAAGEAERLTRLAEAAQENLAREQEKLAEVTGRLAAAQDSSADTAEPSTDRRDALALAA
+AQARQAEMDARLSLRSAQEQLAAVSGRAESLERAAAAERRARAAAAQRARVRAAQAARAQ
+AVAQAALLAGRWADVSLEAAAAERDKAEAVRAEFDAELTTVRAANAEAVAELAKLTDSVH
+RDELLRAEKRLRIEALETRAVEELGITADNLVAEYGPDKLVPVPAETAEGAGKWAALHVP
+VDDDGNPVTEGVPYNRAEQEKRLKRAQRDLSALGKVNPLALEEFAALEERHQFLSTQLED
+LKATRKDLLDIIREVDQRVEEVFTSAFQDTAVQFERVFARLFPGGEGRLVLTDPQDMLTT
+GIEVEARPAGKKIKRLSLLSGGERSLTAVALLVAIFKARPSPFYVMDEVEAALDDTNLGR
+LITIFEELRESSQLIVITHQKRTMEVADALYGVSMRGDGVSAVISQRLAAASGRSGQ
+>tr|A0A0P7G0E7|A0A0P7G0E7_9MICC
+MVLTTFMLPAGYHKDSWRKQGSRVEELPGPDFVRDLTLKAEEAKLHAVFFGDMANANAVL
+EGDIKMNGFYEPVTTLSSLAAVTKDIGLIGTISTSFESPYTVARLIAGVDHMSKGRAGWN
+VVTSGSGFQNYGVETTPSPAERYARATEFVSVVQQLWDSWADDAVIVNRKNGAYTDNSRI
+RKINHRGEYFNIEGPMPGPRSPQGRPVIVQAGSSAQGVELGSSIADGIYTAQPRKEPSVE
+FYAKMKDLIRSKGRNPDHTKILPGIVPILGSTVKEAEELSEELKSYVHLEHGRAQLGRSV
+ELDLTELDFDERIPSSMFVDKPHLGSRYLLYKYKAVDQGLTLREMIIDAARSTGHQSVVG
+TPEMVADVMIDWFEAGACDGFNLNAPYNPGGFDQMCTMLVPLLQERGYFRDKYEGTTLRE
+NLGLPIPPA
+>tr|A0A0P7HCN8|A0A0P7HCN8_9MICC
+MVTNPNLVNATAGQRLAARAVDSVPLVVLALVAVLVPGRLAVGLCAAGAAAYLAWTWLWE
+AGSGQTPGNRVLGLRTVNEDGLAPGFAAVLVRNLLLAVSALTVVGPWIMTVSNLWDHPTR
+RQGWHDKAARTLVVDIRAGRDPLLTGGRWAGAAAPAPVPAAVPAPTAAPATGWVPGPSTP
+APAAPAGPAAPISSVPGVGAAATQTAVSSAAPEEEEDVELTRIVSRGQGTGCRLVFDDGA
+AVRVTGTALLGRNPAPAIGEKVNQLIDFADMGRSVSKTHLHLQSDGSTGLWITDRGSTNG
+SSIVAPDGRHEALAAHSPVLAPSGSTVYFGDRHFTVG
+>tr|A0A0P7GE16|A0A0P7GE16_9MICC
+MHCIPEDPIFKDGHLAEKAVWDTLRAQLPDDVVLAHSVQVRHGRAEHEIDILVLWPGVGL
+AAIEVKGGKISVDQGQWYQSDRQGKHRIESPIAQSQGSQHAFKDWVKDQIGSPLVSRFAY
+MAAFPYSDVPHDWEMAGVPRPLILDHDDLTDCRERLRAAIETQAQGGSSLAPKYAQRIIP
+LLSGDLEPTSDPSLSADELEDLQEHLTERQKVLLDCSRSIPRARFVGGAGSGKTWLAVEK
+AKRLAKEGKRVGLFCYNRGLAEHLRRQVAGWRQAKPVYVGEFHDYAVSLGVPNGHGQAYF
+DEDMPALMRDLAAGLPSDQKLDAIVIDEAQDFAPLWWKSLLGCLRDPEGGETYAFMDERQ
+NVYGRWDSQSAGTALDPTGSLVTLHIDENLRNTKRIAQTFKGFAGKHFAPRGGDGLPVRL
+VPCSTDAAIDVAGDCVDALIDEGWANNQIAFLTTKNRHSIHKEFENDPVGYWKAFHDDDA
+EFYGHVLGFKGLERSVVILCVNGFKDMGRAAELLYVGLSRARCLLVVVGDPDLIAEAGGP
+EMAHAMDRMQKWQPELEPAAASSAS
+>tr|A0A0P7FU77|A0A0P7FU77_9MICC
+MALNRVSFQKAVRHYPVVAATVVVLAVVLVLWGAGAGGPAQWIASLYTLGIVAITGAGMV
+RDIKRGHYGLDILAVIAMLATVAVGEYIASLIIVLMLSGGEALEDYAAGRAKGELDALLD
+RAPQIAHRLPAEADTGGNPVSGKPAAELAEDIPATEVAVGDILLVKPSEVVPVDGVLLSP
+AASFDESSLTGESIPVSRSAGDAVMSGSVNGTHAVRIQATATTANSQYQRIVALVQEASE
+SKAPVVRLADRFAVPFTIVSLLIAGIAWAVSGDPVRFAEVLVLATPCPLLIAAPVAFMGG
+MSRSARHGIIVKGGAVLEQLSAAKSAAFDKTGTLTYGRPELVSVNPVNGFDADELLILAA
+SAEQYSSHVLAASVLASAEERGLPVHPAETAQEVATNGVEAFIDGRTVRVGKRRFVEEVD
+PATQAADLAPGQMVVYLSVDGRFAGTLILSDTARENAAATLERLRGLGIRETVMLTGDGL
+ATAESMGQTVGITDVRAELLPEDKVKAVAALPLRPVIMVGDGVNDAPVLAAADVGIAMGA
+RGSTAASESADAVIVADDISKVATAMDISKRTMQVALGSILLGIALSLVLMLVAAFGYIP
+AVAGALTQELVDLATILNALRALHGKTLFRRAGKPAAVASAPVPGSV
+>tr|A0A0P7G067|A0A0P7G067_9MICC
+MSANSQPLNAPAPVPGAEPEGREAKKTLHRSILGSALGNAVEWFDYGVYGYLTIYMAVNF
+FGSEDGDGGLGVTLTLATLALSFLVRPLGGLILGPLGDKVGRQKVMVLTVTLMTLATGCI
+GLLPTFETAGLLAPVLLLICRLVQGFSAGGEYGGAAVYMAESAPDKRRGFFGSFLEFGTT
+VGFILAAIVCTTTITLVGDEGMLEGWWRLPFLLTIPLGLTALWIRTRLVEAPVFAEASAH
+RETLKSPLRQVLAQNWRQLLVLAGFVVLLNVAFYLILGYMPTYMSGQLGHSTAQGNWMLV
+AVMALMLLAIPPVGALSDRIGRKPLLLTAAVGYIVLSVPAIMLLGVESLILQFLGLAVLG
+FLLVILVSSVSSTLPALFPTAVRYTGFALAYNFSTAFFAGPSQTIANQLIETTGNQLVPG
+WYMAIAGVIGLVSILCMRETAQATLRGEVIPGAPDSVGWPKKVYLEENRVDAEERRRVGV
+>tr|A0A0P7HE31|A0A0P7HE31_9MICC
+MPEGHSIHRLARQFTSVFAGQRLAVSSPQGRFAAGAAKLDGQVLTGAQAHGKQLFLEFGN
+DLFLRIHLGLYGAFDFGGDDTFRGASSIGAPRRVGEQETADDGDASPYAGPPPPKGAVRV
+RLVSDHGWADLRGPTACDVITDPERRAVLARLGPDPLNAGEDSALEFQSRLLRRRTPVAA
+LLMNQEVLAGVGNVYRAEVLFRQRISPWHTGTQIRPEQAQGLWDDVVSVMTDGVADGRII
+TTRPEHREDPRLPVPVSEAHYVYRRQGLPCRICGTAVALTELAARKLYWCPSCQAE
+>tr|A0A0P7GB70|A0A0P7GB70_9MICC
+MVRQVLSVMATCGMYDAAGDWATQVGIPAKSGVAGGMIGALPGQVGIATFSPRLDAHGNS
+VRGVSLFERFSSDMGLHVMEVPPAARAVVRSSHVLGEGTSAVRVLQAQGGIRFAGAERIV
+RGFVGGDIAESRVVLDFALVYSIDDVARRMLLELARRLMLEGRGVYFVDPELIVPDPDRG
+DGSLVPVIADAGQLLKGLVRNQENDRNGMFAVDP
+>tr|A0A0P7HCM9|A0A0P7HCM9_9MICC
+MHLHYSSMERPPLEPERLRASLVAPVGPLARLDVIAETGSTNTDLAEFARLVPSEYPDMS
+VLTAELQTAGRGRLGRSWQAPERSSLFVSVLLRPVNPAGRPLPTQSYGWLSLLAALSLTK
+SVAARTGVAPRLKWPNDVLVDGRKLAGVLAQLVPDSSGNPPAVVVGAGLNVSLTDEDQPV
+PTATSLLMEYASTTDRNVLLQDFLLQLNLDYRAFCAVDGDATAPWSGDGSLRDNIAERMV
+TLGQTVRAHLPGGGEVVGRALELASDGGLVVIDSDAGIRQTITAADVIHLRPSEA
+>tr|A0A0P7HJQ8|A0A0P7HJQ8_9MICC
+MQFYSDGYRPGDPDVRPAAPGRENGQGPLPEEVDVLVVGTGPAGVVLAAQLAEFPGITAR
+IVERREGPLAKGQADGVACRTVEMFEAFGLADRLVREAYWVNETTFWGPAAAGTGIERTG
+RVQDVADGLSEYPHVIVNQARMQDYLLEHMRNSPTRLEPDYGLEATAVTVGNGGGYPVTV
+TLRRTGGPDTGEEVTVRAKYVVGCDGARSAVRKSLGIQLRGDARNHAWGVMDVLAVTDFP
+DIRLKSAIQSASGGSILIIPREGGYLVRLYVDLGDLDPGDRDARNRFTAESIIEAARRIL
+DPYTLEVQDIAWWSVYEVGQRVADRFDDVRPEERGSRSPRVFIAGDACHTHSAKAGQGMN
+VSMQDGFNLGWKLGAVLQDRSPASLLDTYSAERQVIAQRLIDFDLLWSSAMAAKPRDPAN
+PDGGGMDPAERQAIFTQGGRFTAGFATEYPQNQITGTADYQDLAKGFPVGERFHSAPVIR
+LADAKPLELGHQAQADGRWRLYAFADAAAPGDADSRLAGLCRYLSGDPASPVRLYTPAGA
+DPDGVFDMRAVYQQGHRSFSVADLPAFLLPRKQPFGLIDYEKTFTPDPRAGDIFDERGID
+RSGGALVVVRPDQYVAHVLPLDAHGELADFFAGIMLEPAN
+>tr|A0A0P7FAK8|A0A0P7FAK8_9MICC
+MEKSTADLYDEHGEALASVSLQFQDLGGRTRFTGPVRTIRCHEDNGLVKSTLNSPGNGSV
+LVVDGGGSLNTALMGDMIAESAVANGWAGVVIHGPIRDRAAVAKLPLGVKALGSNPRKSA
+KDSVGEVDVPVEFGGVTFRPGAVLYADEDGILVER
+>tr|A0A0N8HXT0|A0A0N8HXT0_9MICC
+MVSTPRIPIPREIKVLIAAAFLIALGFGLVAPVLPQFAQSFNVGVAASSVVVSAFAFTRL
+IFAPAGGALLEKLGERPVYVMGLLIVALSTAACAFAGNYWQLLIFRGLGGIGSTMFTISA
+MALIIRLAPPAIRGRISGAYASSFLLGNIGGPLLGGLLAGFGLRVPFLVYAAALLVAAVV
+VAYLLREARGGTGPKEKDGERVHVSVREALSDSAYRAAMVSSFANGWSSFGVRNSLLPLF
+AAAVLSAGPEIAGISLTAFAAGTALALTFSGRLADSWGRKPLVITGLAVNAAATAAIGFS
+GSVTMFLVVSAIAGLGTGLLNPAQQAAVADVVGSGRSGGKVLAAFQMSADTGAIIGPILA
+GVLADTLGYTWAFAVTGATALVALLIWLTARETLAPEMRMARMRSSRTTIEE
+>tr|A0A0P7GAS9|A0A0P7GAS9_9MICC
+MDNPLPLAGRTAVVTGVSRRQGIGYAVASRLARMGASLFTAHYRPHDLDQPWGGDSLEAV
+ADGLRGQLAPDAVLAHQSTNLAEPDAASELISSAAGELGHLDILVCNHARSGGDGPLAEM
+TPEMLDAHWQVNARSTLLATREFAAQHDGRPGGRVIWMTSGQINGGVMDAEIAYATSKAA
+LAGSTASVAAGLVRQGIILNTVNPGPVNTGYLDVETADRPPEVLAEVLSRFPGGRFGEPD
+DPSRLIAWLVSDEGRWMVGQVLSTDGGFR
+>tr|A0A0P7GV13|A0A0P7GV13_9MICC
+MPDGPGAVPGTSGPGGGGGGRGPARLNPADKKQLTRHPVSLRRIAALFAPHTRTIAVVVL
+LISAASVVNLAQPFLVRAVIDDALPNQDLRLLAILTASMVGVAALTSVIGVVQTWLATAM
+GQRVMHTLRTKLFTHLQAQSLGFFTKTRGGEVQSRLTHDISGMQSVVTTTATGVASNLTT
+TIATAIAMAALSPGLSLISLVVLPPAIWLSRRVAKLRRSITDERQRELAALHTQVEEGLS
+VSGVRLAKTLGTVPRDAERFTARSENLVGLELRSQLAGRWRMATMQIVFAAIPAVIYLAA
+GFPATSGGMTIGTLVAFTGLQAAIFRPVMGLLDIGVQWVTALAFFSRIFEYLDLEPQLKA
+PEDPVRLESGRVRGEVRFEDVDFAYDGGTPVLRNIKLTLASGTTTAVVGATGSGKSTLAS
+LIPRLNDPAAGRVTIDGVDVRDIHPQDLSRIVGVVSQETYLIHASVRENLLLAAPEAADD
+ELWQALRAAQISAAIDSLPEGLDTLVGARGHRFSGGEQQRLAIARTILRNPPVLVLDEAT
+SALDNTTEAQVQLALEQLSAGRTTLTIAHRLSTVQNADQVVVLDAGQIVERGTPAELAAA
+NGPFARLAARRAEAPALN
+>tr|A0A0P7GHH3|A0A0P7GHH3_9MICC
+MALLTAGKAAGTGPSAAEEEAGKRRGRIGYLLILPGFIFLLLFFAMPVLSLLATSLYIKP
+EGADVGQFVPALEFGNYVVVLQNYWPAVLRSFGFALIATVAALVIGYPMAYLVAVRLRDR
+KLLKGILLVLIIAPFFTSFILRTQAWKQILADEGPVVSVLRAVSLLPEDGRLTATAFAVI
+CGLTYNFLPFMTLPIYANLERLDTRLIEAGGDLYANGITTFRKITFPLSLPGVMAGTLLT
+FIPATGDYVNAALLGNNQNTTMIGQVIDSRFFRVVDYPGASALSFLLMLAILFLVILYVR
+RFGTKELM
+>tr|A0A0P7G3W6|A0A0P7G3W6_9MICC
+MCFGFDATGALNRSLEKKGVDRRNFIRGAFAAGVGVGLAGLGAAPAVAKGPGHNGKPGHH
+DKPGHKGRRPVPPGQISIQMYTLRSIMNGDEIDKNFARLARYGYNRVELAGLYGRTAKEM
+KRTLDRLGIRASSSHEGISATPADLQTKISNARTLGQTYMVVPYLASTKADDWYRWADQM
+NAEAAVVRRAGIKYGYHNHAHEFTTDLGGGLTPWDIFTSRLDPKLIHLEVDLYWAVTGGV
+GVGAADPVQFAIDTIREAPQETLQYHVKDREASGDFADLGTGTIDFPRIFRAHQPKEYIV
+ENDQPDVTPLQTAEVGYRYLRNVRF
+>tr|A0A0P7GB09|A0A0P7GB09_9MICC
+MTLAPEGRRLLRIEQRNVAVPVERKPDWIKAKVNIGPEYVHLKGQVKKEGLHTVCEEAGC
+PNIFECWEDKEATFLIGGSDCTRRCDFCQIDTGKPSPLDRMEPLKVARSVQSMNLRYATV
+TGVARDDLADEGTWLYAETIRQIHALNPGTGVEILIPDFSGKPEHIQAICDAAPEVFAHN
+VETVPRLFKRIRPAFRYERSLDVITQGQALGMVTKSNLILGMGETRDEISGALRDLREAG
+CDLLTITQYLRPSERHLPVDRWVKPEEFVELSAEAEELGFLGVMSGPLVRSSYRAGRLWA
+GAMRKKGRVLPPNLAHIADSGTAAQEASAVLARR
+>tr|A0A0P7GDU2|A0A0P7GDU2_9MICC
+MTKAAHQPSSTDELSPDWRNYAADDLPPILASALECFMEHGYHGTTIRQLAARAGLSVPG
+LYHYYPSKHALLVAIASHAMNDLWIRSEQALAEAGADLSRQFDLLVECLVLFHARRRGQA
+FIAFSEIRSLEAGARAEHIAARDRQQRLMDDILAKGSAAGIFTAPHPREASTAVVTMCTG
+VAQWFRLDGELTPEELAERYRIIARMAAGAQPA
+>tr|A0A0P7HNC3|A0A0P7HNC3_9MICC
+MRILVTGGTGYIGSHTTLELLQAGHDVVVMDNLANSSTESLNRVQELSGRTASFVQADLL
+DPQALEAIFAEHSPEAVIHFAGLKAVGESVAKPLHYYRNNVAGTLNLLAAMDRHDVRTIV
+FSSSATVYGASEEVPLVEDMPMDAVNPYGRTKEQIEDILADLGASDERWSIALLRYFNPV
+GAHESGRIGEDPTGVPNNLLPFVAQVAVGRREKVMVFGNDYNTPDGTGVRDYIHVMDLAA
+GHLAALDYIAARKGVKRWNLGTGNGSSVLEVLAAFSKAAGKDVPYEFAPRRPGDAAVSYA
+DPSAARAELGWSAGRSLDDMCRDHWNWQKQNPQGYATQA
+>tr|A0A0P7HC36|A0A0P7HC36_9MICC
+MDPTAALLDDFSLEMTGKDVPALREAQDALPSGTRVNVTFLGNEDLPMRLAAAAAVKAAG
+HVPVPHISARRLGSAAELEKFLGALAEAGAVENVFAVAGDPAEPMGPYADSLAVIASGLP
+AAHGARHISISGYPEGHPDIDNQTLWSALEQKLAAIRDQGLDASIITQFGFDTAPVLAWL
+EELRSRGIDAPVRIGVPGPAGVKRLLGYARRFGVGTSASIAHKYGFSLTNLLGTAGPDRF
+LTELAAEHDPGRHGVVKLHFYTFGGLRPTAEWVRSFRGY
+>tr|A0A0P7GLT9|A0A0P7GLT9_9MICC
+MYPRAEAPRTAVVVGAGMVGLSTAWHLQERGVEVTVLDRSGIGAGASWGNAGWLTPGMAM
+PLSDPSLWSYGAKALLDPSAPLHIPARLDPQLFSFLLRFAAHATPRAWARTMSALTPIDR
+MALEAFDELTAAGVQASTHKGPFIIGFEKDAQSAPFIQEIHHVEKAGQSVPLNRLQDAQL
+KVPQLSGNVESVFAMEGQRFIEPGPFVQALAEAVQSRGGRILTGAEVQSLRHGPHGIAVE
+TYAQEPVTADVVVLATGAWLPRLARPLGVKTLVQAGRGYSFSVATDQPAEFPIYFPARRV
+ACTPYQGRLRIAGTMEFRGPDEPLQTGRIDAILASVRPLFTNMDLDDLEDIWVGPRPVTP
+DGLPLVGATRAPGVYVAGGHGMWGIVLGPATGKLLAEQITTGAVPEEIRPFDPLR
+>tr|A0A0N8HX06|A0A0N8HX06_9MICC
+MTESPRPPLTDRPDLSVYWDNHLRDAFEEAASYIYPPMVEASLAHVWMLDDEGILPRERS
+ARLEKGLLDLWKRITDGTQEYVFDGSVEDPYYFMEQQLAAACGISTSELDVQLARSRNDL
+DAGAFRMVLRRQILDQVDLVLQTAADAAELARRHADALIIGFTHRRPAQPTTIGHVMGGL
+AEALLSQGRELLDIYAEMNVSPLGSAAFTGSDVPINPQTVADLLGFDSTFTSSYEAVAGA
+EHFMRLAAAQARICATGARFSRVLLEWMTFGWVATPDAYTQGSSIMPQKKNPVVLEHMVS
+MAGAAAADMSATYANINSGWYEDSNNATTDVQKQLWRASDRVIRFVRMLDGLLGEFTVQR
+LPEKEEIVRSGATTTSVAEALAVAGVPWRGAHDVVGRLFKSADPTAWSREQVEEALAAGN
+ISTALTDLVLAAGTDPGRVLDRPQAGSPGSKAVTVTADLASSAAQHLAARAAELRSGIDG
+ARETLLQRAHSLAGAA
+>tr|A0A0P7GWH7|A0A0P7GWH7_9MICC
+MNGPLPVILPLQPNTSWEQARRAAYAAARPLPFETVPLAEALGHTLASDAVALHAVPHYA
+SSAMDGWAVSGPEPWTIVVPEPDPEPWQIHKESGRRPLKSGEAVSILTGGLVPAGAEAIL
+RSENGILNPTEPATLVTAATAREDEPRLGEHIRPAGEEAAAGETTIPAGTVLNPAHIALA
+AVCGHDTLPVLRAPRVSLLFTGDEVIESGLPDSGQVRDTFGPQLPQLVEMLGARVDAVRR
+LPDRLDDVIAALSTDAVDETSLAMSSGDVLVTTGGTGISDADHLRRALEAVEAELLIDGI
+AMRPGHPTLLARLPDGRFVVALPGNPLAAMMAVFTVLQPLLEGLRGAAPAPEHHVLAGVD
+VAPLPGRTRLVPCRIQDGRALPSQYFRSGMLRGLAEADAIMVLPEEGCTADQSVSALQLP
+WPVKQPPAG
+>tr|A0A0P7GK66|A0A0P7GK66_9MICC
+MKETAADTRPDGVGTKRRRSNSGQLPPGATQAVPKRPRVSAATLGIPLAYLAVTVFGVWW
+IDIRPAAVAAGFGDIARLLERMVPPTTGPFPDLLALTLETLWIAVAGTGLATIASVFLAA
+AASRHFTGPRVVRWLAQGIIIVTRAVPSLIFAILFVRIFGLGPLAGGLAIAFHSIGMVGK
+MMADVFEEQAPSPREAIASVGANRLQNFVSTTLTRALPAVTSLVIYRLDINVRASAILGL
+VGAGGIGVALQTAIGSLNYRRAAGIILVIVCLLLILELVAYLVQRAVAEHADEHTQSQLH
+VAGAAQADPGWNRSRVLRTAAAVSALMLFLFSLSQLSLNPARLGQAWDNAAALLSGFVPP
+VFTEQILLGIFESVIMAFTATFFGVLLGLIIAVLSTRHLIRFEPLSLTLRAVVVFMRGIP
+DIVYALIFVAALGLGPFAGFLALSISCTALASKFFTDSLQNVDPAPLRALEATGAGRVQV
+FVSGVWPQFVPSFIGNSLFTSDLALRESAVLGIVGAGGIGFLLDESVATLNYQQTAGILI
+GLIVVVVALESVARWARRKVI
+>tr|A0A0P7GSX5|A0A0P7GSX5_9MICC
+MTNEIEIGRGKRGRRAYSLDDVAIVPSRRTRDPQDVSINWQIDAYQFEMPVIGAPMDSVM
+SPATAIALGRLGGLGVLNLEGLWTRYEDPQPILDEIAVLSEENFNPSATRRLQEIYAAPI
+RAELITSRLAEVREAGVTVAGSLTPQRTQEFYKTVLAAGVDIFVIRGTTVSAEHVSKNVE
+PLNLKQFIYELDVPVIVGGAAGYTPALHLMRTGAAGVLVGFGGGATTTTRRALGIHAPMA
+TAISDIAEARRDYMDESGGRYVHVIADGGMGTSGDIIKAIAMGADAVMLGSALARAEEAP
+GRGWHWGQEAHHSELPRGDRVHLDTVAPLKEVLWGPSHHTNGTSNLMGALRRAMATTGYS
+DLKAFQRIDVLVSPYLYNN
+>tr|A0A0P7GJ62|A0A0P7GJ62_9MICC
+MSVQPVSPDGGSKPRVAVLFGGRSSEHSVSCVTAAGVLEAIDHSKYDVVPIGIARNGQWS
+LASVDPEQWSLRSEALPEITAGPESVVISSDGASQELVSHAPDAMPRSLGRIDVVLPLLH
+GPFGEDGTLQGLLEMADIRYVGAGVLASAVGMDKHYMKVVFESAGLAVGPYEVITDRQWN
+QDPDTCLERGSRLAFPLFVKPARAGSSIGITRVADPTGLRAAVETARQHDPKVIIEAGII
+GREIEVAVLQGRGHDDPRTSQPGEIAVTHNGHEWYDFEAKYVDGAAAELSCPADLPDDIT
+TRVRELAAVAFEAVGAEGLSRVDFFYTPDGSLIINEINTMPGFTPISMYPQMWAKSGLPY
+TELIDELISLALERPTGLR
+>tr|A0A0P7G742|A0A0P7G742_9MICC
+MSTTERMPELLEAYFADLDRALTGSDPREHAETVQAMREHAAEMLSLHGNSEQTAERVIA
+DFGPVEDVAAASTAAPAVPAPAAARSWADVWLLAGSVAGLVFYVFPLLSIAMLTWAVLRL
+RQHAGNRSLQRAALWVSVAAVVISVGLFTLRLIRVL
+>tr|A0A0P7FGR2|A0A0P7FGR2_9MICC
+MTPGIFLLLALAGGVGATVRFMLDGFIRAHSKTQFAWATTIINVSGSLVLGFLTGLTVEH
+FVPTDVSIVIGTGFLGGYTTFSTASYETVQLIKKGRYGASFISGVVMLLLSVVAAVLGLW
+IGASI
+>tr|A0A0P7GT70|A0A0P7GT70_9MICC
+MRINPGIYVLDLGSDRRQFGLGSGALLLAGLTDADLTFIHALRSGIPDGGEPEAAAAAGV
+NTQRSEQLLRALAPVLLANPADRRLLPPLRQERLGPDLERLSAVYGRDALEPVALRGSAA
+VEVLGLGRCGALAARILAAAGIGTVLLGDAGIVRPSDVGPAYALTDIGMPRFQAVKRQLY
+RIDPTVRVVQIPWPSAEAGPAGVDLSILACEQPAPLHALPEGRREQPHLAIAAQQYGYQV
+GPLVVPGATPCLGCLDRHRGDADPGWYAAALAPEGPAQDENAGPGGEEVSSAALAAAAAA
+GQALSFIDGVAQPVTWSAVLQFRAADGHAGIEPLEFHPSCGCRLQSARAA
+>tr|A0A0P7HIF8|A0A0P7HIF8_9MICC
+MQDRIPGELDFELNRRIGKKSADKIEKQLGITTVGQLLLHVPRRYMERGELTRILELPFD
+EDVTLVARVQSINSRRMQTRKGMIVEVTVTDDDDAGALGMLHLTFFNGYNALKDLQAGTR
+AMFSGKVGVYKGQLTLTNPNYVLLSDEADDEEEAKRPIPVYPATAKLTSWEIKTTIDVLL
+DSLQTERLQDPIPPAIRAREHLMGIAAAFEAIHRPSVIEDAYKARHRFRYEEALVLQTAL
+ARRHAYTAQQHATARPPVQGGLLDAFDASLPFTLTAGQASIGGELAADLAKPHPMNRLLQ
+GEVGSGKTLVALRAMLQVVDAGGQAALLAPTEVLAAQHYASITRTLGPLGQGGMLGGSEN
+ATRITLLTGSMSAAQRKAALLEAASGSAGIVIGTHALLSEHVQFADLGLVVVDEQHRFGV
+EQRDVLRTKGRDSTPHLLVMTATPIPRTVAMTVFGDLDVSTLTELPAGRAPISTYLAPLA
+DKPAWGPRIWARAREEIDAGRQVYVVCPKIGDKEEEPGTEPALLEDLPQSTAQRNQRPLA
+SVLETVERLQELPALAGIRLGMLHGRMEPSEKSATMEAFNRGEIDLLVSTTVIEVGVDVH
+NATMMVILDAERFGISQLHQLRGRVGRGGLPGTCLLVTNLENGHPSRERLDAVAATTDGF
+ELSRRDLELRREGDILGASQSGGRSTLKLLRAIQDEKVIERARADAQALIQEDPDLLEHP
+ALNEAIEAYLNPEKEAFLDRG
+>tr|A0A0P7HK91|A0A0P7HK91_9MICC
+MATLGELERAMMDLLWESAEALTANELRERLAQNDAGRAEAKGLAVTTVLTVLSRLEKKA
+LVARERDIRPHRYRAVTTRAEHTAELMHEVLGSANDREAVLARFVGSVSATEAQTLRRLL
+DGA
+>tr|A0A0P7HCV4|A0A0P7HCV4_9MICC
+MEGTRQVAVVGGGVLGLSTAVQLLRGGAEVLLLTETEVGSGASGRSLSWLNAGGGYSDPY
+FRLRMAGIDRYRTLLARNPGVDWLAFDGGLYWDDDPFTVIERHNEQSRQGYDARMLDRDD
+VPAEVPGVDPGVLPHRVLVNPGEGWVSLPHLVRRLAEEFTLRGGVLIEHAGLCTVVGGDG
+APARGVRTGTGEEYPADAVVLACGAGTPAVVGQLGVELPNASDKAMLLISAPLEHGLRAV
+LNTPRISLRPHPGGRLAMDHTWYLDRVVQRPNHSWDADPAVMAELAAEASRVLAGNPQVV
+VESWQPGLKPVPADGEPVFGELQAVRGCWVAFTHSGATLGLIGGELVADEILTGRRHPLL
+EPFRPERFGFGWES
+>tr|A0A0P7HLP2|A0A0P7HLP2_9MICC
+MTSATWNRPISTGKANDDGAADSTLDVISLGRRVRHLRKGKGMTLDDLGAAVGTVASQLS
+LIENGKREPKLGLLQSLAKALDVSIDQLLGSEPPSRRAALEIELERAQRGPLYQSLGLPK
+VRVSSRLPLDVLESLVGLQTELERRLNEQVATPEEARRANGELRAMMRERNNYFPEYEQA
+AQKVLDSVGHTNGPLSQHVIADIAAHLGFSLHHVSDLPHSTRSVTDLKNKRIYLTQSQRS
+EHDPRSVLLQALGHYVLDHQTPRSYGEFLSQRVATNYFAAALLLPEKATVEFLQRAKAAK
+EIAVEDIRDAFAVSYETAAHRFTNLATEHLGIHTHFQKVHESGIVYKAYENDGVTFPSDH
+TGAIEGQPICRYWTSREVFSVPDKFSAYNQYTDTPAGTFWCTARTERSSGGLFSLSIGVP
+YAHVKWFRGRDTTERSKSRCPDPDCCRTPPSELATEWSGMAWPSARAHSHLLAALPPGAF
+PGVDETEVYSFLQAHSGD
+>tr|A0A0P7FPX3|A0A0P7FPX3_9MICC
+MSINLRLVPPAAAGQAAPQLSPDQRAAVERPAGSGPLLVLGAPGTGKSTVLVETAVERIT
+HGGLDPAGVLLLAPSRLAAAALRDSLSARLERTISAAPARTWASYAFDVIRRAKAEGLMP
+HVTRAPKLLSGAEQDVIIKELLAGHGQNGVPQLPWPDSLSLALGTRGFRQEIRQLFDRVI
+ELGLAPEQLEDFGRRYGRQDWIAAAHLYAEYRDVLDLRMPEAFDPAGIITTATDILASEP
+GFLAAEHERLQLILVDDLQEANGAIHRLLGLLARDREAVVTASPDTVVQGFRGARPDLLG
+DLKNVLGSDLQTAVLQTQHRLAEPVAAAWHRCASRISVVKGLAAARTPGGRSGNDGTGPV
+SATAHVVDSPMHEQRYVAQRILEAQLLDGRQLEDIAVIVRTGGQLARIQRYLISQGIEVR
+VPVAEKAVRDEAAVRPLLDAYGVVLDQDLLTPELAVSLLTSRIGGAGSLDLRRLRQALRR
+EELRAGGGRSSDALLVEALLDPLSDSGLALAGLGWEAAPAKRLAAMLRAGREAAGQPGAS
+AETVLWALWSTSGWSKKWAEAALSGGSAGIRADRDLDAIMALFQTAERYVDQLPGSTPAQ
+FLDYLTSSELPMDTLAARAQQRDAVELLTPASAAGREWPVVIVAGIQEGVWPNLRLRGEL
+LGSGDLVAAVEFPDTDYRSARNPQALMQATRYDELRSFSTAISRARDVLVCTAVASDDEQ
+PSQFLDLVDPLPDGVGVRPRTEVLRPLTLRSLVAELRAHAQQAETDPETAREAAFHLGRM
+LRHPVRVPGAAPAEWWGLRPLSSTGPILPPQAPIPVSPSKVDAVMKSPLSWFVSAVGGEQ
+ATDFARSLGTLVHQIAQEMPDATGTEYTQELRRRWPSLGMKDNWEGKTDLKRAETMVGKL
+AEYVIKMRQGGRSLVAVEQDFEAAIPVEVRSAVRTALLRGQIDRLEKDAEGRLYIVDLKT
+GRSAPKKADLEGHPQLASYQEAVREGALDEGPRVPGGAALVQLGTSSKGVAVQEQPPLGP
+DDTSALEMIQQAAALMSDEKFDTVHDPARSGHGGHGCRLPEICPLCTEGKQVTE
+>tr|A0A0P7FNZ3|A0A0P7FNZ3_9MICC
+MFAAEGQDLLPDLVSLRRDIHREPEVGLHLPRTQQKILDALDGLGLEITTGKSLSSVTAV
+LRGGEDGPSVLLRGDMDALPVQELTDLEYASTNGAMHACGHDLHVAGLVGAARLLAAQQR
+DISGNVIFMFQPGEEGDGGAGLMIEEGVLEAAGEKPVAAYGVHVRPGPLGVFRTRPGTLM
+AGANELRITIHGSGGHGSQPHNALDPVPALVEIAGALQVMATRKFSVFDPIVLTVTQLEA
+GRAINVIPDTARLGASVRTLSAESVDRLIVETKALADGIAAAHGCTAEVSFEILYPMTEN
+DPSRTFEAIRELRELFGEERVIQSRDPLMGSEDFSLVLQKIPGAFLFLGATPPEVDPETA
+AWNHSPRVLFDDSVLADQAAALAQLAFNRLT
+>tr|A0A0P7HP03|A0A0P7HP03_9MICC
+MSSETSQVSNVKQTAEAWESLFRAQVGVMRRLQRDPEFKELTMREYDVLFNLSRCPTGWT
+RLNELNEHLLISQPSLSRMVERLENKGLVQRRPARNDQRGVELALTDEGRAMQKRLGRIH
+VRGIHDLLAPALTAEELDQVKELMDKLLASLASEGKPGTE
+>tr|A0A0P7GE65|A0A0P7GE65_9MICC
+MTDPDTGRRQPRDPAGAELLVELMQRSSLGDEAAFAALYDATSPKVYGLALRVTRSPEMA
+AEVTQEVYFMAWQQSGSFVPERGTVLGWLCTLAHRRAVDRIRQVVKERDREEVYERRQNI
+TSPDQTWQEVEEAMDVTEVRAGLTALTPLQREALGLAYYQGCTYQEVARQLDIPLGTAKA
+RIRDGLRNLRSALGGQP
+>tr|A0A0P7FEW6|A0A0P7FEW6_9MICC
+MRKVFQAELHQIGEELTQISQLVTEAMKKATQAFETADTELAQDVIAADARIDFLQNDLD
+ERAIDILALQGPVASDLRMIVGSLRMSASLERMGDLARHIAQLARLRYPANVVPENMVET
+FKEMARLDIAISELLTELLETRNLDLSKEIYAHNTRINELHAGVFKAVASTDWNNSPVTT
+VDLTLASRYFERFADHGVSVTRKVNYLVTGEWQPISESAV
+>tr|A0A0P7FQ70|A0A0P7FQ70_9MICC
+MPALSLDQALRHAAAELSAAGVPSPRVDAEILAAHLLGESVGRVRALAFTDAAAPEGYDE
+LVAERARRIPLQHLTGKAYFRRLELAVGPGVFVPRPETETVAQLAIDRALLVPGGAKAAD
+LGTGSGAIAGSIAAEAPGSEVYAVELSPLALAWARKNLEPLGVQVLEGDLRTALEGHNGT
+FDVVASNPPYIPADAVPNEPEAAEHDPAMALYGGGADGMELPDAAARTAARLLRPGGYFV
+MEHAEVQADTIAERLASNPAWQEVTSHQDLNDRPRATSAVRSTAVTTSRDVKE
+>tr|A0A0P7GV71|A0A0P7GV71_9MICC
+MDAANVVPGPVVQLPTAFGDFTARVWTDTRTGAEHLSVSAPGTDPDGGTPLVRLHSECLT
+GDVFASYRCDCGEQLEQALGLISLHGGTVLYLRGHEGRGIGLANKLRAYALQEAGADTVE
+ANEQLGLPVDARDYQAAAEILLQMGTPRIRLLTNNPVKRDRLEAYGVEVEAMVPSEVPVR
+AENERYLQTKRDRMNHHLNLLRANPVKQS
+>tr|A0A0P7GLB5|A0A0P7GLB5_9MICC
+MARIYDDVTQLVGGTPLVRLNRLTEGLPGDVAVKLEFYNPANSVKDRIGVAIVDAAEKAG
+ALRPGGTIVEGTSGNTGIALAMVGAARGYKVILTMPETMSTERRVMLRAFGAEIVLTPGA
+DGMRGAVEKAKEIVATTDNAIWAQQFANAANAEIHRTTTAEEIWADTDGQVDIFVAGVGT
+GGTVTGVGQVLKERKPGVQIVAVEPKDSAILNGGSPGPHKIQGIGANFIPEILDTEIYDE
+VFDASIEDSVSTARALGTQEGILGGISSGAIVWAALELAKRPENAGKLIVAVVCDFGERY
+ISTVLYDDIRG
+>tr|A0A0P7GHQ4|A0A0P7GHQ4_9MICC
+MTEVHPEPAAVFQDLLLGAEELQPYLSELAVVAVTLLGASQVLGCSILIDRPRRTRAEAH
+SDARTARMAKAVFAPEGPGAVGLSGGESVVVTDAWNERRWHGFPGAAAAEGIRSLASVPL
+SLEGTARGALCAFSPRPHLFQPRVLRLVERTAAEASRTLRLALRIDNHMNRAHNLQAALE
+SRTVVDIAVGIIMAQNSCSQEAAVEILRSVSNTRNIKIRTVAAGVVAAVSDRVSTHFEE
+>tr|A0A0N8HXX5|A0A0N8HXX5_9MICC
+MRTSIATVCLSGTLEDKLRACAAAGFDGVEIFEQDLVVSPSTPEQIRALAARLGLTLDLY
+QPFRDFEGVTEELLEDNLRRAEAKFKLMRRLGIDTMLVCSNVATATVDDDEVAASQLRRM
+GEAAARYGIRLAYEALAWGRYVSDFEHAWRIVELADHPNVGTCLDSFHILSRRWDPAAIE
+QIPAEKIFFVQLADAPELSMDVLSWSRHYRVFPGEGAFDLVDFMGHLVRSGYNGPVSLEI
+FNDVFRQAAEERTAVDAMRSLIRLAEQTSIHLRDTGTGKATMELATLPGVGEPLGFNFAE
+VKAGQPELIRTLLYQLGFTSQGTHRSKAVELWTQNGARVIINNQNAQGMEPGISAIGLDV
+PDAVAAASRALQLKATAVPRRSQANEEVLQAVAAPDGTEIFLCEAEPSGPGWIREFGAGT
+PEPAPGSITALDHVNLSQPWQHFDEAVLFYESTLGLTPRPSVEVPSPMGLVRSQVMRSSD
+GAVRMALNIAPMVFNSEGNGSGYPQHVAFACSDLVQVARNAAARGLEFLPVPGNYYEDLD
+ARFGLEPAFLATLSELNLLYDRDADGEFLHFYTSTVGNVFFEVVERRPSYEGYGAPNAPV
+RLAAQYLADA
+>tr|A0A0P7GI77|A0A0P7GI77_9MICC
+MNSAKTKSRPRTAIVIGGGITGLATAALLAREGLDVTVLEKNSTAGGRTGSWETDGFRFD
+TGPSWYLMPEVFDHFFRMLGTSAEEQLDLVQLDPGYRVYFEGDEAPVDVQATREKNIALF
+ESLEPGAGARLASYLDSAAEVYDMAKKRFLYSTFASFLPLLRPDVLSRGPRLAKLLLQPL
+SSFVAKRFTDPRIRQILGYPAVFLGSSPYTTPSMYHLMSRLDLQDGVLYPRGGFHRLITV
+IAALAESEGVKIRLEANVTAIRTEGSGKGKARATGVEYRDAAGNPVALDADLVVSAADLH
+HTETRLLPAQLQTYPPKYWESRIPGPGGILLHLGVRGELPQLAHHTLLFTKDWKANFEKI
+FGKHTSVPDPASLYICKPSATDEDAAPAGQENLFVLVPVPSDPALGAGGIDGAGDPRLEA
+MADTVIGQIADWAGIPDLAERITVRRTVGPGDFSADFNSWRGTLLGPAHVLKQSAFLRGT
+NASRKVENLLYAGGSTLPGIGLPMCLISAELVLKRLRGDTSTEALPEPACPAERLD
+>tr|A0A0N8HY21|A0A0N8HY21_9MICC
+MLGPGVVFLFVLAVLPVALVTVYAFFERGRFGGVEYNFTLENFVRLADPLYLGVVLKSIL
+IAGAATAIALLIGYPAALFIARLPKRWRTLALIAVLLPFWTNFLIRTYAWILLLNNAGWI
+NQGLQWLGITSEPVAMLYTEPAVVVGLVYMYLPLMILPLYASLSSQDPQLTEAATNLGSS
+PFRVFRTVTLPLSAPGALTGCIFVFVPAMGNFIIPELIGGGKTVLIGNLIRDQFLKARDW
+PFGAALALVMTAFLVLLLVLQQRASRAVSGGKTPRKAGA
+>tr|A0A0P7G6Z9|A0A0P7G6Z9_9MICC
+MSYTVNGRPTDAEPAPGQCLRTFLRELGNTGVKKGCDAGDCGACTVHVDGMPVHSCIYPA
+RRADGRDVTTIEGLADGGILHPMQQQFLAAQGFQCGFCTAGMIMTAAAFGPADRADLPRA
+LKGNLCRCTGYRAVEDAVAGTQRVDDGGSGVGESVPAPAGPAIVTGAARYTLDVPPGTYP
+DLLHLALARSPHAHARIVSIDAAAALAVPGVEAVFTHEDAPALRFSSAQHELHTDDPADT
+RVLDDVVRFKGQRVAVVAAASVAAAEAGVRALRIDYEILPAVFEPDEALAPGAPLLHEAA
+AAEPGVGTPAPSNIVAELHAELGNPEAGFAAAVAVHEGTYYSQRLQHVALETHAAIASFD
+EHGRLVVRTSTQVPFLVRRTLCRVFDLQLEKVRVVSGRVGGGFGGKQEVLVEDVAVLAAL
+RLGRQVQIELSREEQFTASTTRHPFRVRVKAGADAQGMLTALAVDVTTNTGAYGNHGPGV
+MFHGCGESVAVYRCANKKVDARAVYTNTVPAGAFRGYGLSQMIFAIESALDELARTLDLD
+PLEFKRRNLVVEGDPMLSTSPEAAGDVLYGSYGLDECVDLVRGALKDGAKDPLRSGGDLG
+PGWLVGEGTAVAMIDTVPPRGHVAHTRIALRPDGRYGLDVGTAEFGNGTTTVHTQLACTA
+LATLPQNVVIRQSDTDLVDHDTGAYGSTGTVVAGKATLAAAAELATKLQGFAASLFRNTS
+AQVSLEADAVACGDERVPLAEVYLRAAEAGVELAAEGRWGGTPRSVAFNVQGFRVAVDPS
+TGEIRILQSVQAADAGVVVNPLQCRGQIEGGVAQAIGAALFEEVLVDRSGEVQTRVLRQY
+HVPAFADVPRTEVLFASTSDSLGPLGAKSMSESPFNPVVPALANALRDATGLRFTRPPFA
+RDRVYLALRGAGVPARPLTVQ
+>tr|A0A0P7GCS2|A0A0P7GCS2_9MICC
+METREQQHLGAEREVSLDIQGMTCASCVNRVERKLAKIDGVQASVNLPLNSATVKVPAGV
+SDQQLVETVEAAGYRASVATPAHNGHEDHMAHGGTAGELRPRLITAAVLTVPVLLISMVP
+AFAFPNWGWAAALLSLPVVLWSAWPFHRAAAVNARHLASTMDTLVSIGVSAAYLFSLGQL
+IADPALTADPGMSEAHLYFEVAAVVTTFLLLGRFLEARAKTSAADALTSLLSLGAKEAVV
+LRDGREEKIPAGDLVPGDVFVVRPGEKVATDGIVVDGESAIDAALITGESLPVEVHAGDP
+VTGATVNTSGRLLVRATRVGSETTLAQMGALVSAAQSGKAPIARLADRISSVFVPVVLAI
+AVLTFVLWLVLTGDLQGAFTSAVAVLVIACPCALGLATPVGLLTGTGRGAQLGILIKGPQ
+VLEDTRMVDTILLDKTGTVTSGKLSVARTVLLPGSRTEDETELLRLAGSLENAGEHPIAR
+AIAAAAEQGPGLAPVSGFQSSPGGGVRGMVEGRSVVAGRPGWLQENGILLDAAAQDVLLH
+EQETGATAVVVAVDGVPAGVISLQDTIKEGSREAVARLSALGLRPVLLTGDNAVVAAAVA
+REVGIPAGDVLADVRPEGKVEAVRRFQSEGATVAMAGDGVNDAAALAQADLGIAMGSGTD
+AAMAAADLTVMGSSLGQVATAIELSRRTLRTIKVNLFWAFFYNAVGIPVAAFGLLNPMIA
+GAAMAASSVLVVLNSLRLRSFGK
+>tr|A0A0P7GAP1|A0A0P7GAP1_9MICC
+MSTATQQDQAAAQDKAATLIEALPWIQRFAGSTIVIKYGGNAMINDELRQAFAEDIVFLH
+HVGVHPVVVHGGGPQISALLDRLGIESEFKGGLRVTTPEAMDAVRMVLTGQVGRELVGLV
+NSHGPYAVGLSGEDGGLLQAVRTGTVIDGEEVDLGLVGEVVGVNPGAILDLIEAGRIPVI
+STVAPEIGADGSPTGQVLNVNADTAAAALAVALGACRLVVLTDVEGLYANWPDKSSLISA
+LTAGELRDMLPTLESGMIPKMEACLAAVDGGVDRAAVVDGRMAHSMLLEVFTTAGIGTQI
+IPDGAEA
+>tr|A0A0P7GSZ2|A0A0P7GSZ2_9MICC
+MNEAAALPADIEAMSYEQARDELVAVVSRLEAGGASLEESLSLWERGEALATRCESWLEG
+ARQRLEAARAARETSE
+>tr|A0A0P7GVD6|A0A0P7GVD6_9MICC
+MTATDFQRLAGLFPNEVVTHSYVSDVELPGGAGTFALITLDNDVDHSRPTTLGPNTLLEL
+GGVLDTLKERADKGEIVGVGVTGKPHYLVAGADLSAVKTLGEYEDGVAMAALGHEVYAKL
+GNLGVPSFAFINGVALGGGLEIALQSDYRTVSTGAGALALPEAFIGLVPGWGGVYLLPRL
+IGPENAVKVMIENPLSNNRTLSGPAAYKLGVADALFEPADFLEQSLAWASRVITGAESVN
+RPNAVEPSEVADRWDAAVAAGRAFVEARTSNAAPAPAKVLDLLEAGKDWTREQSREAECD
+ALAELMQTPQFQSTVYAFLDLVQKRGKRPAGAPDKKLARPVTKVGVVGAGLMASQLALLF
+AKQLKVPVVMTDIDQERVDKGVGYVHAEVDKLLGKGRISPDAANRTKALVTGSVSKEAFA
+DADFVIEAVFEEMSVKKQVFAEVEAVVSPECILATNTSSLSVTEMAADLQHPERVVGFHF
+FNPVAVMPLLEIVRAPKTDDAVLATAFVLAKQLKKTAVLVKDAAAFVVNRILGRMFGEIT
+KVFDEGTDPATADNALRPMGLPMTPFSLLALVGLPVGQHVQESLHTAFGDRFYVSENSQK
+LIDAGIKSLWQKDGDGKPYVPQETLDMLTFGDSPSTSEEVLGRTQDALAEEIGMMLDEGV
+VAGPEDIDLCVILGAGWPMHLGGITPYLDRVGASDRVNGKLFNAGAVPVAAG
+>tr|A0A0P7GEG2|A0A0P7GEG2_9MICC
+MDTSEISRIVEELVAAGTNRQPVKRLTARYPGMSVDDAYRVQNAWRERCEESGRRLAGRK
+IGLTSRAMQAATGITEPDYGIIFEDMVLENGCTLQWDQFTHPRVEVELAFKLGEDISGPG
+ATIFDVLKATEYVIPALEILDSRIEMDGRTIVDTISDNAALGAMVLGGTPVRPMDVDLRW
+ISAILYKNQVVEETGVGAAVLNHPAAGVYWLANKIAAHGDGLKAGEIILAGSFTRPMWVS
+AGDTVFADYGPLGTITCQFD
+>tr|A0A0P7GJI8|A0A0P7GJI8_9MICC
+MASGAHAAVPAVPDAAASAQDDGARRGRVLVFTGLVLSVLLAALDQTIVATALPTIVGDL
+NGLEHLSWVVTAYILAATIGLPIYGKLGDLFGRKNIFIFAIAVFLLGSVLSGLSQSMGQL
+IAFRAIQGIGGGGLMIGAQAIIGDLVSPRERGRYMGLIGASFGLASVGGPLLGGWITDSW
+SWRWVFYINVPIGAAALAVVITSLHLPKVATSRPRLDYAGAGLLAVASTALILVTSWGGT
+TYDWGSPQILGLSAAALLAGAAFVWAERRASEPILPLGLFRLRNFLIPVLAGIAVGIAMF
+STISYLPTFLQMVNGASATESGLMMLPMMAGLLLTSIGTGQLIARTGRYKVYPVAGCAMV
+ITGLVLLSRISQETPYWFTAIGMAVLGLGIGALLQNLVLIVQNSVPPKNMGTAISAANYF
+RQIGASFGIAAFGSIFIQRLTDQLAEAPAGTAGTLPAEGINSLTPAVLQALPGPVQQEIG
+AAFGTALPPIFLLSIPLVAAGGVLCLFIREVPLSTQSRVEAAAE
+>tr|A0A0N8HX51|A0A0N8HX51_9MICC
+MNTEVLIVGAGPCGATIANLLGVYGVRTILLDRAPAVIDYPRGVGVDDESLRVFQACGLG
+REVHADMIQNQALIWFDSNQTKLAEIAPSGQPFGWPRRNSFLQPMLETKLRTGLQRFEHV
+QLLLERELVGMRETGDGLEAHVIGADGTEETITAQYVVGADGGRSTVRKLTGAVLEGSTL
+GARWLVVDIKDSTYHAPFSGNYISSKRPFVSIDLPFGYRRFEFRLNDDETDEQMVRPEAV
+EKLIRTHFNWTGPMPGLERSRVYSHHSRVADRFKVGRAFLAGDAAHLQPPWFGQGMNSGI
+RDAANLAWKLAAVVRHGAEPGVLETYGQERRGHARALVELATTLGRVYGPKTMAGEKLRS
+YGLRAMQRIPATRDYLLQMKFKPMPFYAEGVVLDPSPKDPVGRMFIQPDVELPSGERVKF
+DEAAGDWFALVGINTDPAEHLDEESLQYWRSLGARFLRVNRSRAGSHMLSAGSETVVLDD
+VQGGFRDWARTRGDREIIVIRPDRYLAATCSSRQANSMTRRFSAVLPVKTKTLTSK
+>tr|A0A0P7HUY6|A0A0P7HUY6_9MICC
+MAERPPHNAPVLVIGLGRFGSATAEQLVKQGREVLAIERDPDLVQKASGKLTHVVQADAT
+NIDALKQLGAQDFSAAVVGVGTSIESSVLITVNLVDLGIEHLWVKAITPAHGKILTRIGA
+NHVIYPEAAAGQRAAHLVGGRMLDFIEFDDDFAIVKMYPPKETQGFTLRESNVRSKYGVT
+VVGVKSPGEDFTYAQADTKVSSRDMLIVSGHVDLLERFASRP
+>tr|A0A0P7FG70|A0A0P7FG70_9MICC
+MADPRGFLKVRERETQPRRPVSVRIMDYKEVYERQEKGVLKEQAGRCMDCGIPFCHQGCP
+LGNLIPEWNDLTWRDKGQEAIERLHATNNFPEFTGRLCPAPCEASCVLGINQPPVTIKQV
+EVSIIDQAFDENWVHPHAPERLTDKTIAVVGSGPAGLAAAQQLTRAGHTVAVYERDDKIG
+GLLRYGIPDFKMEKLQVDRRLEQMRAEGTRFRTGVEVGKDISWEQLRRRYDAVVIATGAT
+VPRDLPIPGRELSGVVFAMDYLVQSNRAVAGEKVKNQIHAEGKHVVILGGGDTGADCIGT
+AHRQQAASVTTLAIGKQPPAERAAHQPWPMYPTLFEVASAHEEGGERTYLASTVEFVGED
+GKLTGVKVAETEFVDGKRLPKAGTERVIPADLVFLSLGFTGPEPAGLAEQVNTEFDERSN
+VKRDGYYMTATPGVFAAGDAGRGQSLIVWAIAEGRACAAAVDLWLEGSTRLPAPVAPGDR
+AIAPL
+>tr|A0A0P7GBV3|A0A0P7GBV3_9MICC
+MGGNWCFPQVTVVERNAVLRTHALGSLRAEHIGQTVTLAGWVARRRDHGGVAFLDLRDAS
+GVAQVVVREEDVFHGLRNEYVLQITGKVERRPEGNENPALATGEVEVIADDVVILNTSDP
+LPFQIDEHVEVGEEARLKHRYLDLRRPAPSAALRLRSEANRVARELLHDEGFVEIETPTL
+TRSTPEGARDFVVPARLAPGSWYALPQSPQLFKQLLQVGGFEKYYQIARCYRDEDFRADR
+QPEFTQLDIEASFVEENDIIALGEQIVKALWKLIGVEIQTPIARMTYADAMARYGSDKPD
+LRFGLELTELTEFFKDTTFRVFQAPYVGAVVMPGGASQARRTLDAWQEWAKQRGAKGLAY
+VLVQEDGSLTGPVAKNLTDFEREHLAEKVGANPGDCIFFAAGQTNEARALLGAARVEIGH
+RTGLIDPKDWAFVWVVDAPMFEPAAAAVAAGDVAAGEGEWTAVHHAFTSPKPEFLDTFDK
+DPASALAYAYDIVCNGNEIGGGSIRIHRRDVQERVFKVMGISEETAQEQFGFLLEGFKYG
+APPHGGIAFGWDRVVALLAGADSIRDVIAFPKSGGGYDPLTSAPAPISAQQRKEAGVDFK
+PEKKQEKPAETPAS
+>tr|A0A0P7GJW9|A0A0P7GJW9_9MICC
+MLLHQRLYAWTQANPFKVDLAGALLAILFFAFPFLLMGVGEGLIEFFLSLAICLPLAWRR
+TRPVPAAAVMAAACLIQLPLVPETGLPADVLVLVMVHALAAYAPRWASLAGLALALIGGV
+LLILQYVARPTISGVGTAASLANGMIWFWLIMLVAVDAVVLVCWTFGDLARTRRLAMESL
+RDRARRLEVERQQERDLAAADERTHIAREMHDIVAHSLSVIITQADGARYASAQDPEIAT
+ATLGTIAETGRGSLREMRRLLGVLRGDDGASTRPLPSLADIGDLVEGVKRAGLDVQVLTA
+GAMRRALPAGAELTAYRVVQEALTNVLKHAGPLARARVELDWTARGLGITVTDDGRGAGA
+DPALNAGTPSDGAARTPGAGQGIVGMKERVALYDGTLEAAPATGGGFRVDAFIPYTEA
+>tr|A0A0P7G7E8|A0A0P7G7E8_9MICC
+MKFRVERDVLAEAVTWTARSLSPRPPVPVLSGLLIKAESGSLSIASFDYEISARLQIPAD
+ISEEGTILVSGRLLAEICRSLPSAPVDVETDGSKVTLTCRNSRFNLATMPVSEYPELPAL
+PDVSGVVDGDAFAQAVSQVIIAASRDDTLPILTGVRMEIEDDLITFLATDRYRLALRELQ
+WKPATPGISTSALVKAKTLNEVAKTLGGGGDLNIALSGDSELIGFESGGRRTTSLLVDGD
+YPKIRSLFPENTPIHATVETHALVEAVRRVSLVAERNTPVRLAFTDGQVTLDAGTGEDAQ
+ASEALEASLIGDEITVAFNPHYLSEGLGAFPSKYVRFSFTTPPKPAVISAQEELTGDDQE
+DYRYLLMPVRLPNQ
+>tr|A0A0P7GAX7|A0A0P7GAX7_9MICC
+MADPLTETIVSEARANTPAALRAVYESLAPSVLGYLKSKGCEDPEALTQDVFLAVFSRIS
+TVSGGPAGLRTFVFSVAHARMVDDYRRRERQPATAPYDPQLDQRTTESAEDAVVHSPLAA
+AELLDGLSEPQREVLLLRVVADLSLEETAATMGKTVNSVKQLQRRALLALKERMAGTEAA
+DKHEQHVQQPQ
+>tr|A0A0N8HX43|A0A0N8HX43_9MICC
+MHIGLIGLGKMGFSMRERLRSKGIQVSGFDRDPVRSDAGSLAELASMLPVPRIVWVMVPS
+GAVTSAVITDLSEVLTEGDLVIDGGNSRFTEDGKHAARLAAKGIRYLDCGVSGGVWGREN
+GYGLMVGGDPADVAEAMPVFDALRPEGARADSFVHAGATGAGHYAKMVHNGIEYGLMQAY
+AEGYELLEAQDIITDVPGIFGAWQNGTVIRSWLLELAVKAVQEDPGLSRVAGFVEDSGEG
+RWTVEEALAAEVPVPVISAAIFARFASRQDDSAAMKLVAALRNQFGGHAVKEAAGDGNGS
+AGTRARTPAEEAIGEAGAPE
+>tr|A0A0P7FY85|A0A0P7FY85_9MICC
+MEFGAVLQCNPPAQRTVALAKKAEEHGFDYVWTFDSHLLWQEPYVIYSQILAETRSIKVG
+PMVTNPATRDWTVTASTYATLNQMYGNRTVCGIGRGDSAVRVTNGAPTTLKTLRESIHVI
+RELANSRPVEYNGATLQFPWSKGSELEVWVAAYGPLALKLTGEVGDGFILQLADVDIAEW
+MIRTVRQAAADAGRDPDSISFCVAAPMYIGTDREHMRNQCRWFGGMVGNHVADIVSKYGS
+DSSVPQALTDYIAGRQGYDYNEHGRAGNTHADFVPDEIVDRFCILGTAEEHMEKLEKLKA
+LGVTQFAGYLQHDNKEETLRVYGETVIPALRDHVAAKA
+>tr|A0A0P7GJ61|A0A0P7GJ61_9MICC
+MPKESGRKVVATNRKARHNYEILDTYEAGMVLMGTEVKSLREGRASLVDGFATFYNDELW
+LEAVYIPEYLNGSWTNHAARRRRKLLLHREQLDKIAQKIRESGFTIVPLQLYFLDGRAKV
+EIAVARGKRDYDKRQTLREKQDNREALREMRAKNRGA
+>tr|A0A0P7FQ29|A0A0P7FQ29_9MICC
+MSTEAFLPADLDGRRAVVTGGGSGIGEACARMFAALGAKVVVADVNGEAAERVAADTGGT
+AWTVDLSDTRSLEELSLKTDILVNNAGIQRINPIQDFDPDTFRLIHRLMVESPFLLMRAA
+LPGMYERGFGRIINISSVHGLRASAFKSAYVSAKHALEGLSKVAALEGGPHGVTSNCINP
+AYVRTPLVEAQIADQARIHSIPPDEVVSSIMLTESAVKRLVEPEEVASLAAWLAGAGAGM
+VTAASYTMDGGWSAR
+>tr|A0A0P7GB84|A0A0P7GB84_9MICC
+MPVPAVGAVAGTLPTAYIENTAPAVPATDGSGFATQLAGAVDNAQQLSSASKELAVKAVT
+GDLDDIHAATIASTRASVTLELVAAVRNKSVDAFNEIMRMQA
+>tr|A0A0P7FIN1|A0A0P7FIN1_9MICC
+MDTAGRLPSPDDLLILLTVARLGRFTAVAETLGTTHTTVSRRIIALEKQLGGRTLSRTPR
+GWELTALGAEAVRAAEAIEESLGALRCTLAKDADPLAGVVRISTVDGFGAEFVTPALVRL
+QASHPNISVEMFSATRKVSQNRSGVDLEVVVGHTDVRTAQAILLGHYVLRLYAAPGYLQR
+HGTPHVPADLAKHCFVSYVESALLVEELGHRSTGLPEPRSSFQATSIFAQVEAVRREAGV
+GLLPNFMVAGRDGFVPVLAESFERRLPIWAVARPEALRSRRVQAVIEAVHAEAAARQEHL
+DF
+>tr|A0A0P7FXE1|A0A0P7FXE1_9MICC
+MNFSVYRDLLAIVPVRRVLLVGMLARFPHAAAGVLLTLHVVLTLEKGYAAAGAVAALVTI
+GIAVGAPWRGRRVDNVGLRKALIPSVISEAVIWSVAPHVSYEWLLVLALIGGLFTLPVFS
+VVRQSLGVLAKGDKRRTAFTLDSIATEVVFMGGPAVGAVLATSVSTAVGLTLVGICTAGA
+GLFLMWFNPPTRSEALELPDHDVEAAAAAVVSSAPAHLSEPAAELTQAAGAAAEEEDPNL
+RRGLLARVAAGFSWMTLSVAVVFAVAAGAGLLLAGSDVGIVASVEASGNPGQLGIVFAVW
+CFASLIGGLVYGAMKRRISPMLLLLAMAVLTLPMSLATDTLSLALLSIPGGLLCAPVLSA
+ASERVADLVPEERRGEAMGWYGSALTTGTAIGAPLVGMAIDFVGPWAGFAFAGTAAALLV
+LITLGTRAVVNSRRVRV
+>tr|A0A0P7GA80|A0A0P7GA80_9MICC
+METQVRNTGLFLRMAEAEAIANHLLDPVLRGSIVLAPEGMGKSVLAEAVLGRLEGIVTPY
+RVHSSPVLASIPYGALTPFMERALAEDLGSPLMVLRNIRRYFRARAESGHPQALLVVDDA
+HHLDESSSHVLVQLVMSGEVRLLVLARSRSENIQELLSLARDGLLSRVDLEPLSPGAVHR
+FCAEELGGPVLRASSAVLAQVSGGNPLYVKALLAAARKRGDLLQRNGSWYLRSLPGVLEP
+TVQDLAKRLLAGRSAQERTVLEAVALSGSLSRSSLAAIAGPAAVQSLLDEGYLATAMDTP
+DQLRMAQRLHSDAIRSLVPPMRSIEIRSQLAGGTSDERLVQDPRQVAWALDSGGTPPDSV
+LLQAARAANADGDAELALRLALAVRPGPMAVRARVEAASSELALGNLSEARAGLEGVVKS
+APDQETLDLAVLVTAQLAACSDLSAERLRALAEDWAARDAQLSGTGPDASRTAWLAAGRS
+VLALWARAADGNLLTPGESAVTTMELLEEETGLAPASASAARHELRALGYALVCEVETAA
+GNISEALRAAGQAQRELHQEPMAHSRVRGSVLVRHGFALLHGGHFEKLGTLITSELGAAP
+HHLLRMGGSMGVLEGALEIHQGRFREGLRRLRPAIEALRAGDPERLLPYALAVSGYTAVV
+VEDTSPAIRFAGELRSLGYAGPPSLKLTSQAFAAAALAPQGSEDAPPPQVREFAEQARSL
+GQYAAEKDILELALAVGDLKQARRLVDLAERFEGGEAEALHAYAAAVAADNPERMVLAAD
+EAVRRRKYLLAVECIGHAIRYYGAHNNLRRQRALIQQLRRRRDELAGVTVSYLSPSVHQV
+RLTKREHEIVELLLEGAGTKDIAAKFTLSQRTVEGHVYRIYVKLGISKRTELEVVYRALE
+AEPKAHASL
+>tr|A0A0N8HY18|A0A0N8HY18_9MICC
+MQTTPLSSSPVPSIRGSVAPILGELIDFRRDLHSHPELSHKEFRTTDRIVEALEAAGLQP
+KRLENTGAYVDIGDGPIALALRADIDALPVLEETGLPYASVNTGIAHSCGHDIHTTVMLG
+AARVLARLDAEGTLGGRIRVIFQPAEEVMPGGALSVIEQGVLSGVPRILALHCDPRVDVG
+QVGTRIGAITSASDTIRIELSGQGGHTSRPHLTQDLVFALSQIAVSVPAILSRRIDVRSG
+VSVVWGQIHAGSAPNAIPGHGFMAGTMRCLDAEAWHAAGELLDDVVREVAAPYGVKVALE
+HTRGVPPVINSEAETGLIEASARAELGEESVVLTPQSMGGEDFAWMTQAIPGAMMRLGTR
+TPGGETFDLHRGDYNPDELAISCGVSVMAAAALRAARGLRR
+>tr|A0A0P7FYR3|A0A0P7FYR3_9MICC
+MLLRLVRENLAPYKGAVTAVVILQFLQTAATLFLPTLNADIIDQGVVRGDTAAIMSIGGW
+MLAVTAAQVVCSVAATYYSARTAMRVGRNVRNALFTNVETFSGREVGLFGAPSLITRTTN
+DVQQVQMSLLLTMTMMVSAPIMGVGGVLLALNQDIPLSGILLLILPVLVVIIGLVLRRLV
+PLFRRAQKQIDRVNGVLREQIMGIAVIRAFVRERSETQRFDSANQELTGTQLRVSQYLAL
+LFPATMLVANLATVAVVWFGAFRIDAGQMQIGALTAFIAYIMQILMAVMMSMFMIMMLPR
+AAVCAERIYEVLDTRTSVQDAPGARELDYDGGRLVFTGVGFTYPGAEDPVLRDISFEAEP
+GQTTAIIGSTGSGKSTLLNLVPRLLDRTEGTISVDGQDTAGVTLHSLRAGIGLVPQRAHL
+FSGTIASNLRFGKPDATEEELWEALEIAQAADFVRAAEGGLDHQVEQGGGNFSGGQRQRL
+AIARALVVRPDIYLFDDSFSALDFVTDARLRAALKQRTAHATVLVVAQRVNTITDAARIV
+VLDEGRIAGIGSHLELMETSPTYREIVSSQYTPEEAL
+>tr|A0A0P7FTY5|A0A0P7FTY5_9MICC
+MAPTRYELGLDVASLTAIDMHVHIEIDGHGHVSLPQELMDASSKYFKAEERTPSLDAIAA
+TYRELNMAAVVFTVDARTRLKHEPNSIEDIAEGAARNNDVLIPFGSVDPLTGADAIDRAK
+ELAEDYGVRGFKFHPSLQGFNPSDERYYPLWEALEQLGLPAVFHTGQNGMGAGTPGGSGI
+KLGYSNPLLLDEVAADFPAFQIIMAHPSVPWQDEANSIATHKSNVFIDLSGWSPKYFPES
+LVKLSNSVLQDKVLFGTDYPLITPQKWMSAFADLPLKDEVRPKIMKENAVRLLGLGS
+>tr|A0A0P7GP75|A0A0P7GP75_9MICC
+MRPDAAGSVPEIRDVIIVGSGPSGYTAAIYTARANLKPLLIASSVTAGGELMNTTDVENF
+PGFPEGIMGPDLMAGLEKQADRFGTEILFEDVTSVDLTGDIKKVTIGTGETFLARSVIIS
+TGSAYRELGLEDEKRLSGRGVSWCATCDGFFFKGQDIAVIGGGDSALEEALFLTKFAASV
+TIVHRRNTLRASKIMQDRALANEKIRFVWDSEVIGIHGEDKVTGVRLRNTVDGAESELAV
+TGIFVAIGNDPRVDLVREQLELTEAGTIAVQGRTSKTSLPGVFAAGDVIDPTYRQAITAA
+GSGCVAALDVEHYLADVASAATAATVPTPASETVSENASV
+>tr|A0A0P7HJ42|A0A0P7HJ42_9MICC
+MGDHSHGSPNTSGTVATAGQGEEGEFQNPGLPPHRPRLADTDPRAEKRSEKQVAILFAIS
+ALGTLLFFYGYFFIRLDESIGTLRIQNLFLGLGTAFAMLGIGVGIVHWAKTLMPDHEVIE
+ERHEIRPEEDRVVAEKMIGDIIEETGIKRRPLIRNTLLGAMALAPLPAIVLFRDLGPLPG
+DVLRHTMWDNGVRLTRDPSGTPIKASDVTLGSAFHVIPEGLNDAEHKLEEKAKAVVLLMR
+LDPSELNPSPGREDWSVDGIVAYSKICTHVGCPVALYEQHTHHLLCPCHQSTFDLTQECA
+VIFGPAVRPLPQLPIAVDDEGYLIATSDFTEPVGPSYWERG
+>tr|A0A0P7G4L3|A0A0P7G4L3_9MICC
+MSEGIRVAAADEIDEGEAVTVDSTTAGTADDIAVFHSDDGNFYALNDTCTHEEASLAEGW
+IEDGEVECPVHSARFCLKTGAALCLPATVNAVAHRVEVVDGDVILYPGDAPAGS
+>tr|A0A0P7FTV4|A0A0P7FTV4_9MICC
+MTEQTENTLSATIDLKDLGTVRRLGFGAMRIVGPGVWGEPESRGTAVEVVRRAVELGVDF
+IDTADSYGPNISEEIIAEALYPYPDGVRIATKAGFVRTGPDEWIPLGRPEYLRQQAELSL
+RKLRVDSLDLFQLHRIDPTVDAEEQFAVLRDLQQEGKVKALGLSQVSVEELQAAEKYFTV
+STVQNRYNLTDRSSEDVLDYATANGIGFIPWAPISAGELAQPGGVLDEAAKKLNATTSQV
+ALAWLLQRSPVMMPIPGTGSVAHLEENLGAGDLVLDADTFAEIDAAAS
+>tr|A0A0P7FXF4|A0A0P7FXF4_9MICC
+MTTTAATGITAPAGFRAAGVTAGLKASGGRDVALVVNDGPSKAAAAVFTRNRVAAAPVHW
+SRQVMSDGRADAVFLNSGGANACTGPQGFQNTHATAEKVADLLGISAGDVLVCSTGLIGE
+QLPMDKILPGAEAAAAALDADGGALAAEAIMTTDTVSKQAVFTGSGYSIGGMAKGAGMLA
+PGLATMLVVLTTDADLDAAALDAALRAATAVTFDRTDSDGCMSTNDTVILMASGASGTTP
+DTDEFTRGLTEVCHSLAQQLITDAEGASHDIAITTVHAATVADAENASRAVARSNLFKTA
+IFGNDPNWGRVLSAVGTTDAAFEPDQINVTINGVQVCRNGGIGEPRDGVDLTGRAVSVEI
+DLAAGTESATIWTNDLTTDYVHENSAYSS
+>tr|A0A0P7G020|A0A0P7G020_9MICC
+MLESDSAPVIGLHGLTLHRGTLKDEALAVVRSALLSGDMKPGRIYSANSLAAQLGVSNSP
+VREAMMDLAGKGLLEVVRNRGFRVVEMTDADRQEVYDLRMLVEVPAVVQAAQRGLSNKEQ
+SEVRRLLQEVLDTAETGDLRNYLDADQALHMGIVALLGNRRLYGIVENLRDQSRVRGSYH
+LTERGVLAQSAQEHLPIVEALISGESEVLQRLMVEHLSYARP
+>tr|A0A0P7GWL3|A0A0P7GWL3_9MICC
+MEQSSSTAPSSAVIVGAGIVGLSTAWHLQERGLKVTVVDAGRPGSGASWGNAGWVVPGLV
+TPLAEPGAWKHGVEGLFRPDAPLHIPMQPNPALWHFLARFARNMTPSRWRRTAEALVPLC
+RQADKAFKEMAVEAEIPSVTPAPYAVGFRNEGDAAHFREHLGELAALGQPLSVGPAAHIP
+QFSRAITSSLTVLGQGYVDPGVFVQGLCAAVRRRGGRVLEGWKAVTTAESAKGVQVVSSQ
+GGVLQADVLVLASGAWLPRLARQWGLRVPLQAGRGYSFTVDSAFPLDGPIYLPKERVVAT
+PYQDGMRIAGTMEFRSPDGQLVQARVKSIVAAASPVLHGVDFSSLRDTWVGSRPVTSDGL
+PVLGRLRSNRVYAAGGHGMWGVVLGPVSGRLLADSIAEGTSAPELGALDPLRR
+>tr|A0A0P7GIR9|A0A0P7GIR9_9MICC
+MIRIENVSTVFGGGESAFTAVDNVTLSIPKGSIQGIIGFSGAGKSTLLRNINLLERPTSG
+RVLVDGTDLTSLGDAELRAARHEIGMIFQHFNLLNNRTAAQNVELSLKFAGVKNAAERRA
+RALEALAVVDLSEKAGTYPAKLSGGQKQRVAIARALATRPKVLLCDEPTSAVDPRTTASV
+LQYLSDVNARFGITIVVVTHEMNVIKAIADNVAVMEEGRVVEQFALAELARPGFTPATAI
+GRYLISDEITLDRAAGREGARVA
+>tr|A0A0N8HZ71|A0A0N8HZ71_9MICC
+MLRVIGKRLLMLIPTLIGLSILLFIWVRSLPGGPATALLGDKATPEAIARINEAYGFDRP
+LIEQYFTYVGKLLQGDFGTSTVTGRPVLEEFATRFPATLELAAVALIFAIGIGIPLGYLA
+ARHYGRFWDHSSVVLSLIGITVPVFFLAFILKWLLAIQIPLFPTDGRQDPRINATHVTDF
+YVLDGLLTREWDASWDALMHLILPGIALGTIPLAIIVRITRASVLEVQGADYVRTARAKG
+LMERTIRNRFVLRNAMLPVTTTIGLQTGLLISGAVLTETVFAFSGVGRFLRDAIFNLDYP
+VLQGFIIFIAVAYSLINLLVDVSYGFIDPRVRVQ
+>tr|A0A0P7HCM3|A0A0P7HCM3_9MICC
+MSLTATERNELLVEARHWADSDPDHATAAQLRKLLEEASAEGAAAEAALAELTDRFSGTL
+EFGTAGLRAALGAGPMRMNRAVVRRTAAGIASFLQDKSEGWVPSAVIGYDARYNSKAFAL
+ETAAVFSAAGIEAFLLPCTLPTPVLAYAVRALDTDAGVMVTASHNPAQDNGYKVYLGGRT
+VKGPGRGAQIVPPYDAEIAARIDYTVPLGSIETAPEGWTEVSESIVADYISAVDGLVSRD
+GYPARDLKIVLTPMHGVGGETMTAVLRDAGFTSVKLVAAQAEPDPDFPTVAFPNPEEPGA
+LDLAVAMAAETDADIVLANDPDADRAAVAAKDPSTGEWRMLRGDETGALLGAHLATRIRA
+GHLKLRGAAGRPPVFANSIVSSRLLARIAASAGFAHHETLTGFKWISRVPGLVYGYEEAL
+GYCVAPGLVRDKDGISAGLLIAELAASLKASGRTLFDMLDDLALEHGLHASDQLSVRVDD
+LALIPQMMTRLREEPPVSLGGSAVISAVDLSAGSADLPPTDGLLYRTQDDTRIIVRPSGT
+EPKLKCYLEVIVPVAGGAELPAARAAAADRLAAAKADISAALGL
+>tr|A0A0P7GVG5|A0A0P7GVG5_9MICC
+MGPVGKKELTSAAEDYLKVIWTAQEWTDAPVTVSALSAHLGFSASSVSEAVKKLAAQGFL
+THARYGSVSLTPAGEQAAVNMVRRHRLIETFLVEYLGYGWDEVHDEAENLEHAVSDKMVE
+ALAVRLGHPVRDPHGDPIPARDGSLPALDASRLSHSEPGTMLRIARVSDNNPELLRYLGG
+MGLGLDTEISVLERQAYAGTLTLERSGDRVELGLPAAEAIWVVQA
+>tr|A0A0P7GWR6|A0A0P7GWR6_9MICC
+MLFSQEEYDARLAGVRARMARQGLSALLVTDPANLYYLTGYNAWSFYTPQVLFVPADGPM
+LFFAREMDAGGASRTSWLPPDNIVGYPERYVHRPHLHPFDWIAFALRERALIAPAAAGCV
+GLEMDSHFFSPKGYRALVNALPEWTLVDCFELVNWVRSVKSPAELDLMRQAARICNGAME
+AAVASIAVGVRQCDAAAAISQAQITGVDGTGGDYPAIVPMLPTGEAADTPHLTWSEDRFQ
+AGQAVVVELAGAYRRYHAPLARTVVLGTPSPRLGKLADAVADGLDAVLTEIQPGVPVSEL
+ARTWNRTLGKYGLEKPSRIGYSIGIGYPPDWGERTISLRSEDETILAENMTFHLIGGMWM
+EGYGYELSESICVSSDGVETLTSFPRELLQKGS
+>tr|A0A0P7FH40|A0A0P7FH40_9MICC
+MEGAVDNAETAQAPATAQILDGIKAAKEIKTELAGRIQVLKDEHGITPGLATVLVGDDPA
+SHSYVGGKHKDCAQVGINSIRRDLPEDITQEELEKAIDELNEDPAVTGYIVQLPLPKHLD
+TNAILERIAPEKDADGLHPVNLGRLVLNVSDPMTSPLPCTPHGIVQLLVRNGLVLTGKNV
+LVIGRGVTVGRPLGLLLTRRQINATVTLAHTGTVNLPELLADADVVVAAAGFPGMVKAAE
+LKPGAIVLDVGVTRVTDPESGKTTLSGDVEKDAMSVASWMSPNPGGVGPMTRAMLLANVV
+EAAERSVGILPAA
+>tr|A0A0P7H395|A0A0P7H395_9MICC
+MPEGDTVWRAARGLDSALAGSKLTRTDFRVPRFATTNLSGREVEEVVSRGKHLLIRVAPG
+PGESEGWTVHSHLKMEGLWHVYGRGERWRRPAFKARAVLETADHQAVGFELGILRVFPRS
+GEEEAVGYLGPDLLGPDWDAEEARRRLASVPERPIGLALLDQRNLAGLGNVYRCELCFLI
+GVHPMTPVGDVPDLVRLVDLSKRLLEANKSRSRRITTGMAGRDPLWVYNREKRGCLRCGT
+KVVHELLGDNELELRDLYYCPHCQPAPVTQLG
+>tr|A0A0P7G957|A0A0P7G957_9MICC
+MTQVNAAFGRLGKTISQFTLAQKTLALIGIAVLALGIFALASWATKPSFTPLFSGLQPGD
+ANSIVEQLQADGVPYEIAGGGSTIMVPEQNVYDQRLKAAGAGLPASSTGGYSLLDDMGVT
+SSEFQQSVTYKRALEGELAKTIGALNGVKTASVQLAIPEDTVFVSEKVDPTASVFIDTEN
+GVTLSGDQVQAIVHLTSAAIDGMKATNVAVIDSAGTVLSAVGVGATGSADKQATDYEQRI
+AASIQGMLDQVVGPGNATVAVAADMSYESANRVEETFTNPAGNPALNEATTTEEYTGGGA
+GNTAAGILGPDNIAVPDGDGDDGAYTSESTTKNNAVNKVTETREIPAGALNRQTVSVALN
+SATAAGMNVADIRALVTNAAGINVARGDELTVEMVAFNASGAEAAQEALAAADAAAEAER
+RAELVRMGILAAGIVAIVILALVAYAMRSRRQNRQAVDIGILPELDPLAPPAGLAMIGQD
+QGRTALEPPVDTASLRIVANAADSERKLEELDHLALQDPVRTADYLRNFMDEGQRV
+>tr|A0A0P7GTT1|A0A0P7GTT1_9MICC
+MDEELLGGHLQELRRGTVVLACLSILKQPGYGYGLLEALEQAGFGVEANTLYPLLRRLEK
+QGLLTSSWDTEEARPRKFYTTSEEGRELLRALLQDWENLHNSIRQLNEGQSS
+>tr|A0A0P7GE10|A0A0P7GE10_9MICC
+MTRDRIDQFEQAWVEAYPDLDPVPLRILGRVTRLAGILEEQGQALRSEFGVHLGEIQVLA
+ALRRSLPDFTTSPKELAELTLVTSAAVTNRLNSLETKGLVSRRIDELSRRRILVTLTPAG
+VDLIEGYIRAFVERQSRITDELSASQRDEYISAMRHLLILVGDTADEESPALNVPGMDPL
+>tr|A0A0P7H4G0|A0A0P7H4G0_9MICC
+MKEDLALDRLAEQFREALREAVFLVRHMDTEFGITSNQLGTLRMVDGDGMRVSDVARNLG
+VKVPSATEQIIRLEHAGLVRRSPDPEDSRGVRVSLTPDGRRKLAVETERRESLLSDLLGQ
+LGAAEQEKLREALPVIAKVTQMGFSTVG
+>tr|A0A0P7GTJ3|A0A0P7GTJ3_9MICC
+MEDVIVATGPSTLNGSVTVPGAKNSVLKLMAATLLAQGRSTITNVPNIQDVWIMSELLRR
+LGCAVDYDADAAEVRIDVPAVPGHQADYDLVRAMRASISVLGPLVARCRRAEVALPGGDA
+IGSRGLDMHRAGLEAMGTSISIDHGYLIASVPEGLHGARHILDFPSVGATENIMMAATLA
+RGTTVIDNAAREPEITDIAQMLCSMGARISGIGSNTLVIEGVESLSPVTHRVVPDRIVAG
+TWAFAAAITGGNIEIRNADPRALTMVLDKLSQAGCAVETGQDSFTVKGPARPEPINVSTL
+PYPGFPTDLQPFVVALNAVSTGSGMVTENVFEARWGFTSELARLGAVVRLDGHHALIQGV
+SRLSGAPVEANDIRAGAALVIAGLAAEGTTEVRGVDHIDRGYERFMESLRGLGANVLRRR
+S
+>tr|A0A0P7GS48|A0A0P7GS48_9MICC
+MAETASGGDYSTKGSYVSGGQEYTRDTNYIETRITRDGRDGYPVEAGRYRLIAARACPWA
+NRTIIVRRLLGLEDAISLGTPGPTHDSRSWTFDLDPDGKDPVLGIERLQEAFFRRTPGYS
+RGITVPAVVDIPTGAVVTNNFPQITEDFCTEWVDFHREGAPDLWPAEHLDEMREVNKRVF
+TEINNGVYRCGFAGSQEAYDAAYDRLWTAMDWLEDRLSKQRYLIGDTITESDVRLFTTLV
+RFDSVYHGHFKCNRNKLTEMPNLWGYARDLFQTPGFGDTVDFVQIKQHYYIVHEDINPTG
+IVPKGPDNSVWLTDHGREALGGRPFGNGTAPGPVRPGEEVTPGHGAE
+>tr|A0A0P7FF88|A0A0P7FF88_9MICC
+MTVTVYTKPSCVQCNATYRALDKKGIAYQSVDMSQDPEALERVRALGYMQAPVVITEQDS
+WSGFRPDKIEELAQASVTSVA
+>tr|A0A0P7GS78|A0A0P7GS78_9MICC
+MSTPSVEAPRAGRISPKYTRSGPGKGNFEMIAWLFMRISGALLVILIFTHLFVNLMVGDG
+IHAVDFGFVAGKWASPLWQVWDLVMLWLAMLHGTNGVRTIINDYADKNSTRMWLKTVLYA
+ATVVIIVLGTLVIFTFDPCPANATLDQLPSFCPAP
+>tr|A0A0P7H5L7|A0A0P7H5L7_9MICC
+MQIGVFSVSDITRDPVTGRMPTEGERIKAAVAIARKVEEIGMDVYATGEHHNPPFYASSP
+TTLLGYIAAQTERIILSTATTLITTNDPVKIAEDFAMLQHLSDGRTDLVLGRGNTAPVYP
+WFGKNAQDSVDLTVENYNLLRQLWDNETVNWQGKFRTPLNNFTATPRPLDGVAPFVWHGS
+IRTPQVAEIAAYFGDGFFANNIFWPKEHYMQLIGLYRERYEHYGHGSADQAIVGLGGQFF
+MRKNSQDAVNEFRPYFDNAPVYGHGPSMEDFTAQTPLTVGSPQEVLEKTLTFQEYFGDYQ
+RQLFLIDHAGLPLKTVLEQLDLFGELVLPELRRELDSRRPAHVPDGPTHAARAAARAAAL
+STTDAPSSVG
+>tr|A0A0N8HZ16|A0A0N8HZ16_9MICC
+MQTLERNVVIIGAGPSGLTAARKLKAAGLSVAVLEARDRVGGRTWSDTIDGAFLEIGGQW
+ISPDQEALSELVEELGLETFPRYREGESVYIGSDHRAVRYSGDMFPVAESTAREMERLIT
+LLDELTAKTDPATPWTHPDARALDTISFSAWLREQSSDEEACNNIGLFVAGGMLTKPAHS
+FSALQALLMASSAGSFSNLVDENFILDRRVAGGMQQVSERMAAELGEDVILGAPVRTLRW
+NEDGHSVTAEADGVTVHARYAIMAVPPNLYSRVSYDPPLPRRQHQMHQHVSLGLVIKVHA
+VYEKPFWRESGLSGTCFGAHELVQEVYDNTNHGDSRGTLVGFVSDEKADAMFELTAEERR
+QAILESIARYLGDEALTPEVYYESDWGSEEWTRGAYAASYDLGGLHRYGPDQLTPVGPIY
+WSCSDLAAEGYQHVDGAVRMGAKTAERIISRFQG
+>tr|A0A0P7GB20|A0A0P7GB20_9MICC
+MYLDSLICSRLDRDGLKGLVDGGVRCVTVTCGFWEDATESMDSLVSWHRLIADNSDLAGL
+VVSPADVDAIAGQGRVAIILGFQNSAFLQGRLGYVEMFHKMGVRVAQLTYNIQNDVGSSC
+YDPEDAGLSRFGEEVVGEMNRVGMVVDLSHVGNRTSLDAIQASTKPVAVTHANCSDLVDH
+PRNKPAHILKELAGRGGMVGLTVYHNITRGYNGSPDQWASMVAKTVDLIGVDHVGIGTDD
+NQGGDPAFLTWMRNGRWSFREQLGASVGPTFPRSGKTDWYKGPEDFHVFGSALRGVGFSE
+DETCKILWGNWNRFYKEAMK
+>tr|A0A0P7HV45|A0A0P7HV45_9MICC
+MPAARTRRSAGRPSKRVLTRENIAAAALEVITAGGYEGFTMSSLAARLQVAPSALYNHAS
+SKAEVLRWIQDDLMAEVDVACFAELPWNDAVRTWARSYRAVFARHTPLIAVIAVLQVSGA
+PRTLAMYEAVTEGFLRAGWKQAQIIPAIVALESFIFGSAFDAVAPEDIFDTGSLAGASPL
+FTAAVAAAPGRESGKAAEQAFETGLDAMIRGFAGFSRA
+>tr|A0A0N8HZ84|A0A0N8HZ84_9MICC
+MDSGNTAWLLASSALVCLMIPGIAFFYGGMVGSRRILNMMMMCFGGASLVAVLWVLFGYS
+AAFGNSLTPLGVLGNPLEFLGLEGLLTEDPAAALPVALFAAFQLMFACVTTALVAGAAAG
+RMKFGAWMVFAGLWAALVYFPVAHWVFAFDSEDGSVTGGWIANSLGAIDFAGGTAVHMNA
+GVAALALALVLGRSRGWPHVISQPHNRPLVILGASLLWVGWYGFNAGSALSAGHTAAVVF
+LNTAVAAAAGLLGWALMERLRLGRSSTLGAASGLISGLVAITPACGAVSPLGAVAIGAVA
+GLVCSLAIEWKFRLGYDDSLDVVGVHLVGGVIGTLLIGFFATEAAPNGVSGLFYGGGWSL
+LGIQSVATVAVLAYSFVLTWAIAKVLDLVMGLRVPEEHEVQGIDLAAHSESAYFNDEEPA
+QLGAPARP
+>tr|A0A0P7GWS4|A0A0P7GWS4_9MICC
+MLAVESGSVEASAAGTRNRSLFSQVRAAVVRHLRSSTEPVFCDDENTAEGLRAAGLTASH
+TYPPAAAIVALDEALCRDIQVLHARCTITADSSRGRTSPWLGHGWLVDFGSQSRLVLGQK
+ASRGSSILEGELRSIRLGLQAARNTYAGSMLGETEITVRSDSQLALRMLTDPGFEPPSAN
+RFCREEVARILHCVRFSSVTFSWVRGHNGDPHNTAADRLAVLARRAQEAELGHEETLRLA
+EQVRLDVAVDIRRSSMALAA
+>tr|A0A0P7FYG3|A0A0P7FYG3_9MICC
+MKALSQRRRHPLAAVALLLLGLIVTGGIYAAASGANEAQAATTYTADDVQQGEKLFIANC
+ATCHGMEASGTENGPSLVGVGAASVDFQVGTGRMPMAMQGPQAQQKPQQFNEEQTAQMAA
+YVASLGAGPSVPEEQYLETSGDAAAGGELFRVNCAMCHNAAGAGGALTRGKFAPALEGVS
+EQHIYEAMVTGPQNMPVFSDANLSPEEKQDIITFLKNIEANGSPGGAELGSLGPVSEGLF
+IWTAGLGLIIAFTIWLTSRSS
+>tr|A0A0P7HHB5|A0A0P7HHB5_9MICC
+MVSAIESNGGSVIVGPEGIGKTALANAAARAVRQGFHVVQIRGSRFSAGTGYGALGWLLS
+ELPDTPLDDPVQVLRALKAYLQERAGGRRTLLVVDNIHELDPLSQTATVQLIRQSAAALV
+ATTPDLLRCGDELVRLWSEGMIRRIDLGPLEPPDSLALMEDLTGGRLSALAAHSVWLQTR
+GNPLFTSLLCRDQMTAGRLKERGGIWTLAGPLTFKGEIADWMASWYRRIDDAERRVVDLV
+SLCPGIQLQVLLAMGDERSVENLEEQGILVVAQREGTVWMREPLYARLIAELVPMGHFFE
+LWQELLATGPDLDTWADIPARAFAEWAAAAGGPVDPDLAARACAVANLAGAPESAIKIAA
+AVEDPRPHPRLKLERARALRACYQAPAAEVELRSLTGLQDPETLVPALLELAQVARLVPD
+PYVSPQDALRQAETAAQGQSEPLHTQSLHLITAARAAFAVLDADPSAAPEELSALCLDWT
+APTALVLGAQASRCQLLALEGRTGEAQKEAAELWERLRQVHSLPLTTGSEILSGVLCTHV
+MCAEPGRALAMLNQANGVRYLEHHLSAWSELPAGVIHALTGRADAALECLIPALRQLEVD
+DPRDLLPLARAAMAYCYAERQEWDKMGEYLGSVPEFRAAPAGHVLVGTRYFQLAAALSRG
+TTSRSGDPAGQLAREGQRAAAAGSFPAAVLYLAAAGLDGDLASAQLLETTAAAGDGPMAG
+TWQKLGAGLWKQSAQLLFEAAEALLARGFYGMGYKAALAAQETADAADQRELSRRARVVA
+NECYRMLADANSLQSRMDTLSDFERDLAVRAASGASSARLGSALHLSPRTVDWHLGRIFQ
+KLHVSGRAELRRLLGEGSGIAGTGRDSATRTTESTRVYK
+>tr|A0A0P7HFL0|A0A0P7HFL0_9MICC
+MANSTDSDASKGARRGLFSRKPKAEKKNKQPGRMKQIADVFKMTRRNDPSVIWRMVGAFA
+GIIAIGLIIGFLIDNWVTMLIIAIPLGLLAAMFILSRRAERAAFAQIEGQPGASGAALSV
+LRRGWILEEQPVAVSPRTQDAVFRAIGRPGIVLVTEGPSNRVKTLVDGERRKMNRIVPNV
+PVHVIQTGRGEGQVPLQQVAKKVKKLKKSLTKQEVAAVNKRLSALGQRLPIPKGIDPYKA
+RPDRKAARGR
+>tr|A0A0P7HGV0|A0A0P7HGV0_9MICC
+MTANTPAAVTSVDAQTLRTWMKDPDDLIVIDVRFAAEFEAMHIRGSYNVPLPLLSEHTDE
+LAERLGKRVVLVCQSGTRAEQARTRLGSAGIGSAHVLTGGVPAFAAAGGDVVRGQKRWDL
+ERQVRMVAGSAVVLGLAGGRFVSPKLRVLAGGIGAGLTFSAATNSCAMGAALARMPWNKT
+ASEPTRESAIQSLPKQGGPAAS
+>tr|A0A0P7FUG0|A0A0P7FUG0_9MICC
+MYVDYLSLTGFRSYAQLDLSLTPGVSVFVGPNGTGKTNIVESIGYLASLSSHRVSSDAPL
+VGFDAGQALVRARIVRGSQATALEVEINPGRANRARINRANPVRARDILGICRTVLFAPE
+DLALVKGDPSARRRFLDDLIVSLVPRHAATRADYERVLKQRNALLKSARVSGRFTSAHEA
+TLEVWDHHMAEAGAQLLAARLQALDRLTPHLQGAYEDLTDGSKKACSTYRSTLVGEVDDD
+GAAPGGADSAELLGLTQEELRARFLQAFAANRKREIDRGISLVGPHRDDVELILGQAPAK
+GYASHGETWSLALAMRLGSYYLLRDDDPTPGSGPILILDDVFAELDAGRRGRLASIVAGA
+EQVLVTAAVGEDIPEALAGEQIHVVPGGIRAASS
+>tr|A0A0P7GNS2|A0A0P7GNS2_9MICC
+MRLTTVMEIVGRRWVGGILLALGTGAERFTEIQNRVQGLSARMLTLRLRELEGYGLVERI
+VEPTVPVSIRYHLTGRGIDLLRALQPIGQYSRRWEETPGEEAAAS
+>tr|A0A0P7HL86|A0A0P7HL86_9MICC
+MSKAEVSLGNHSDRLNAINIFPVADGDTGTNLYLTMRAASAAAADLDTQDIGELLSAAGR
+AAMEQAKGNSGTLLSVFLTSMAEPLQGNTRLSAPLLARSLERAQLRSWSVLSDPVPGTML
+SVLEEAARGAAQVEAAQTGDDSNAGLAETLRAMMTSALAAVVRTEEQLETLSDAGVVDAG
+GVGFLLVLDAMRAAALGEELQGELLDGLHGYDVQDPHIHGTQPQLEGVEVMCTITLSPLD
+AATLRLQLDELGDSVIMSAVSPVGDGYRWRVHVHTPDAGAAMDALHAVGEPTNVSITELA
+ANGHQTTEIPQVPPRGQSAVGDFAREA
+>tr|A0A0N8HXS5|A0A0N8HXS5_9MICC
+MDNSSGVGVIDKAAMVLDALEAGPTTLAQLVAATGLARPTVHRLALALMHHRLVGRDIQG
+RFVLGSRLVELASAAGEDRLIASAGPVLLALRDATGESSQVFRRQGEWRVCVASAERPIG
+LRDTIPVGTQLSMKAGSAAQVLLAWEDHDRLLEGLQNARFTPTVLAGVRRRGWAQSLGER
+EPGVASVSAPVRGPSGRVIAAVSISGPIERLTRQPGRIHAEVVSKAAQQLTEALRTNTD
+>tr|A0A0P7GI95|A0A0P7GI95_9MICC
+MAKVRVHELAKELGITSKDAVAKLQELGEFVRSASSTIEAPVVKKLRGAFPDAASKPASK
+PASSGPRPAAPAPAAPAAEAPAEASAPAAEKPAAPAPAAPAAPAPKAESKPAAPAPAPAA
+PAAPAPKAAEKPAAPAAPAADSSSAPRPGAPRPGASGPRPGNNPFAPSQGMPRPRGRGDG
+ERGQGGPRPGNNPFATSQGMPRPGQRRDDSERTGTPGAAGPRPAAGSGGPRPGAPRPGAP
+RPGAPRPGAPRPGGAGGNRPTPGMMPNRTERPAAPARPGAGGPRRGPGGAPGTGGGPVGG
+GFGKGGRGRGGTAGAFGKGGAGRGKQRKSKRAKRQELEQMSAPSLGGVSVPRGDGNTVVR
+LRRGASITDFADKIEANPAALVTVLFHLGEMATATQSLDEETFGVLGEELGYKIQVVSPE
+DEERELLSSFDIDFEAELEAEGDDELEARPPVVTVMGHVDHGKTRLLDAIRNTKVVEGEA
+GGITQHIGAYQIAFDHEGTERAITFIDTPGHEAFTAMRARGAKVTDIAVLVVAADDGVMP
+QTVEALNHAQAANVPIVVAVNKIDKEGANPEKVRGQLTEYGLVPEEYGGDTMFVEVSARQ
+NLNIDALLEAVLLTADAALDMRANPDKDARGIAIEANLDKGRGAVATVLVQSGTLRVGDT
+IVAGTAHGRVRAMFDENGDTVTEAGPSRPVQVLGLSNVPRAGDTFFVTDDERTARQIAEK
+REAADRNAALAKRRKRISLEDFDQAVADGKVDTLNLILKGDVSGAVEALEDSLLKIDVGD
+GVQLRVIHRGVGAITQNDVNLATVDNAIIIGFNVKPAERVADLAEREGVDMRFYSVIYAA
+IDDIELALKGMLKPEYEEVQLGTAEVREVFRSSKFGNIAGSIVRSGVIRRNAKARVTRDG
+KVIGENLTVDSLKRFKDDATEVRTDFECGIGLGSFNDVKEGDIIETFEMREKPRV
+>tr|A0A0P7G789|A0A0P7G789_9MICC
+MPHKIILDCDPGHDDAVALLLAHGSPEIELLAVTTVVGNQTLEKVTRNALAIARVANITG
+VPFAAGCDRPLVRTIENAPDIHGDSGMDGPVLPEPTVELDSRHAVDLIIDTVMAHEPGTV
+TLVPTGGLTNIAMAVRKEPRLAERVKEVVLMGGGYHVGNWSAVAEFNIKIDPEAAHIVFN
+EKWPLTMVGLDLTHQALATDEVADRIAAVGTKPAKFVGELLEFFGHTYKDAQGFDFPPVH
+DPCAVAYVIDPSVMTTRRVPLDVELTGSLTLGMTVADFRAPAPEDCNTSVAMELDQDKFW
+GLVVDALERIGEVDL
+>tr|A0A0P7GBW4|A0A0P7GBW4_9MICC
+MPAEATTIEVTGERPAENYDVVIGNGLLGRLPAMLGERVRRVLVIHPRALRTTGDTVRDE
+LAEAGLTALTAEIPDAEEGKHIQVASFCWQVLGQNDFTRSDAIVAVGGGAVTDVAGFVAA
+TWLRGIKVVHIPTSLLGMVDAAVGGKTGINTAEGKNLVGAFHPPAGVLADLDALGSLPKN
+ELLSGMAEVVKCGFIADPAILDLIEANPEAVADGGSDVVRELVERAVRVKAEVVSGDLRE
+AGRREFLNYGHTLGHSIELAERYQWRHGAAVSVGMVFAAELGRTVGRLDDATADRHKEIL
+TSLGLPVSYRRDRWSALLDGMRRDKKSRGDLLRFVVLDGLAKPSILEVPDTSLLFAAYQE
+IASEPETGIRLSL
+>tr|A0A0P7GL77|A0A0P7GL77_9MICC
+MRLTRRGRLLLIGAPVLLGGAALLTFIGFFTAPALAASGSGELTRTQQVSVSTGDSLWSL
+ATEYAPERDPRAVVADIMELNNLSDAVVPAGVQLYIPVAG
+>tr|A0A0N8HY64|A0A0N8HY64_9MICC
+MAKPVLTILTGNRSVTGLERLEELAEVRLAEDATALAEALPGTEIVYLWNYFADGLRQGW
+ERADSLKWVHLPAAGVDKLLFPELAASEVTVTNARGIFDAAMAEYALAGILYFAKNFPQA
+GRNQRERRWKHFPTSNLGGSRALVAGTGSIGRSTARLLRAVGIEVDGMGRTERDGDADFG
+AVFASRDFAAVAGDYDYVVLAAPLTDTTRGMLNLDVLSAMRPSAVVVNMGRGALVDQYAL
+QSALAAGTIGGAVLDVTDPEPLPGSDPLWGLDNVLITPHLSGDSRTHLPAMAEQFEANLR
+AYIAGRPLVNVVDKQLGFVPAGS
+>tr|A0A0P7GAM8|A0A0P7GAM8_9MICC
+MSSKNRGRHCAESSIWTTIAKAAPGKARTVTGTAAAVVAGSGLMFGMAAPAQAGVVANDT
+AAPAAAASFVAPVAETVAAPAAETAAPAAATTHTVVSGDTLGEIAAAYGVSLDSVFALNG
+LGMESIIYPGDVITVSGEAAAAPAPAAYTAPVETYTAPVEAAAPAAAYTDPGTYTDYSNV
+TTQAAVPAAAPAAASGAGAIMLSSAYAQLGAMQDCTILVEQALRAAGHSVGDLAPAQLAA
+YGTPVSNPQPGDMIYYANGGAGVPHIAIYIGDGQAIHSGMNGNQTVIATANLGSGPVYYR
+A
+>tr|A0A0P7HPF9|A0A0P7HPF9_9MICC
+MRPRAPGKDSRLRSPNEEPPAGSAAGAEPAGTSPRARPGQRPPRRRALMIAGGTAFVLGA
+AALLLPAPYVLESPGPTFNTIGEIGDSPLITIEGEQTYSTSGELALTTVYVSGGPNGAVN
+MGEVVGAWLDPQDAVLPVDFVYPPGTTRGEIQEGNAEAMTSSQESAVAAALDELGIPFTE
+EISVAGIMEGAPAEGVLETGDIIVSVDGNPVTSVESLRESLNATGGDAAGITVRRDGEEQ
+TLEVTPSLAESGAYQVGAYLSIDFTFPFEVAIALENVGGASAGMMFALGIIDKLTPGELT
+EGHRFAGTGTIDADGQVGPIGGIEQKMVGAAESGAEFFLAPVANCDDVTGNIPDGLEVVS
+VSTLEEALTAVKTLASGSGAGDLARCP
+>tr|A0A0P7HVG8|A0A0P7HVG8_9MICC
+MARLAGVDIPREKRVVIALTYIYGVGKTRAEQTLAETGISPDTRVKDLTDAELVQLRDYI
+EGNFKVEGDLRREVAADIRRKVEIGSYQGIRHRRGMPVHGQRTKTNARTRKGPKRTVAGK
+KKAGR
+>tr|A0A0P7FQ05|A0A0P7FQ05_9MICC
+MASLLERVLRTGDKKTLKTLRNYADAINVLEDEFKGMTDAELRAETDNLKERHADGESLD
+DLLPEAFALVREAAGRTLGMRHFDVQMMGGAALHLGNIAEMKTGEGKTLVATAPAFLNAL
+TGRGVHVVTVNDYLAEYQSDLMGRVFRFLGMSTGCILANQDPATRREQYAADITYGTNNE
+FGFDYLRDNMAWSSNELVQRGHHFAIVDEVDSILIDEARTPLIISGAASGDVNRWYTEFA
+KVVQRLTLDVDYEVDEKKRTVGVLESGIEKVEDYLGISNLYEAANTPLIGFLNNAIKAKE
+LFKRDKDYVILKGEVLIVDEHTGRILAGRRYNEGMHQAIEAKEGVQIKAENQTLATVTLQ
+NYFRLYEKLAGMTGTAETEAAEFMSTYKLGVVPIPTNKPMARLDQSDLIYKNEVAKFDAV
+VKDIAERHASGQPVLVGTTSVEKSEYLSKQLAKAGIRHEVLNAKNHAREAAIVAQAGRKG
+AVTVATNMAGRGTDIMLGGNAEFNAVAELNSRGLDPAEDPEAYEAAWPAALEKAQEAVAA
+EHDEVRALGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLTDDLMRLFNSGAA
+ERIMNSSSMPDDVALESKLVSKAIQNAQGQVEARNAEQRKNVLKYDDVLNRQREAIYGDR
+RRILEGDDLQEKIGFFLEDVITAVVNDATAEGHGDDWDLETLWKNLKIVYPIGLTIDEVI
+DEAGGRSSLTRDFLLDEILSDARLAYQAREDAIGSAAMRELERRVVLSVIGRKWQEHLYE
+MDYLKEGIGLRAMAQRDPLVEYQREGFVMFQTMMEAIREESIRYLFNVEVQVTQPAAPEA
+LQGIKDARGVVGAPVIKAPGLDAPERPASLQFSAPNSQGQVETRVERTAAAKPGSAQSPS
+PSRKDNRAKKKRRK
+>tr|A0A0P7FX63|A0A0P7FX63_9MICC
+MSTAKTSPEEAVDAVSTDTPPSDSLREEYETLSDQVRKYRFAYYNEDAPLVSDAEFDELY
+RRLEKLEALHPELVTNDSPTQEVGGEVSAAFAPVEHLSRMYSLEDVFSLDELDAWVKRAE
+ASIASIAPGSKVRWLTELKIDGLAVNLLYRNGELVRAATRGDGTTGEDITHNVLTIASIP
+RRLEGEDLPSEVEIRGEVFIPSKEFTRLNEKMVDAGKAPFANPRNAAAGSLRQKDPKVTA
+ERPLSMYVHGIGAREGLGAASQSETYELLKAWGLPTSPYYKVLDTYDEVLGFIAVNGEHR
+HDLAHEIDGIVVKVDDFALQRALGHTSRVPRWSVAYKYPPEEVNTKLLDIRVNVGRTGRV
+TPYGIMEPVKVAGSTVEMATLHNQDVVKAKGVKIGDTVVLRKAGDVIPEIVGPVAALRDG
+SERDFVMPTHCPSCGTELKPAKEGDVDIRCPNARSCPSQLRERVFHLAGRGAFDIEALGW
+EAAIALTSPAEPENPPLTSEAGLFDLKVEDLADVRIERPKRTKGVVVGTELVPYFYTKGT
+AKKPSEPSANTRKLFEELEKAKSQPLWRVLVALSIRHVGPTAARALATAFGSMENIRAAT
+EEQLAHVDGVGPTIAAALEEWFAEDWHVEIVDSWARAGVRMADERDESQPRTLEGLTIVV
+TGTLPNFSRDEAKEAIITRGGKASGSVSKKTDYLVAGENAGTKLDKAESLGVPVLDEDGF
+RQLLESGPLDSDSADNAEDNAEDEETTP
+>tr|A0A0N8HXR0|A0A0N8HXR0_9MICC
+MSIDKTSAGTKLLSTGLKMLQLIDAVADYKNGVGVSELARHLGWSRNVTHQYLTSGVAAD
+WLVQGENQKYSVGFHAAVVARNASPHGRIRPLLLAEMNELVQIVNATVSYAVLDKETPIV
+IDRVEPNRAIQIRSGLESRFSLRTSASGQVFLAHAPGLIESSVIDSDEEELQEIIRRVKS
+HGASRVHSRWLGDEIIAIASPVFLRGHCVGALSVIMPAIRSDADAVEAALVACSKSINHQ
+LLNQQNGMSQW
+>tr|A0A0P7H848|A0A0P7H848_9MICC
+MTITKPANPPAAKASPQPDRQTDRGSLRALWYLVPALLVFALFLFYPLGRSVFLSFQGSD
+LFGRPSGFVGFDQYTRLFTDSGFWNVMWVTLGFTVLTVVPSIAIALALALLLHQKIRGIR
+FFRTAFALPFAYSVATASVIFGVMFNQATGVLNGMLAFFGLDRVGWLTDPAWALLSVSLA
+TVWMQLGYNLLVLSAGLGAVSDDVVEAARLDGAHGWRMQRSIIMPLLTPQLFFLLVTGTI
+HALQSFGQIHILTKGGPQDSTTTLVYSIYEQAFANNNSNFGYASAQAVVLLIIVVAVSAI
+QFGVLERKVFYR
+>tr|A0A0P7HDD1|A0A0P7HDD1_9MICC
+MRLVASDLDGTILGPDNRISDRTVNAFRKCADAGIAIVFVTGRPPRWLDPLREQMGHTGT
+VICSNGAILYDLKSGEILWSRPIELDGMFEAAGIIRGLYPAVHFAAETEEGFHLEPGFIE
+DAGADMLGAVTPKPLKDSLGGDARVVKFLARVKGVHPDEFLDKVKPEVAHLVSTTHSAPS
+VPLLEMSASGLDKSVTLAEYARSLRIEAADVVAFGDMPNDLGMLGWAGRGYAMASGHPAV
+RAAAGHLAPPFAEDGVAQVLEDLLRGRQP
+>tr|A0A0P7FWW0|A0A0P7FWW0_9MICC
+MASQTQFSDRPRVLVVGGGYVGLYVAKNLQKQVKANGGIVTVVDPLPYMTYQPFLPEVAA
+GTINARNAVVSHRMHLKDTELISGKVVGINHATHTATVEPADGGAPFELSYRDVVVSAGS
+VTRTFPIPGLAEVGIGMKTIEEAVEMRNKVLERIETASLMTDQAARARALTFVVVGGGFA
+GIETITEIEDMARGAVRENNRLKREDLRFVMIEAMGRVMPEVKPDQAEWVVSSMRERGIE
+VLLNTSLASAEGGLLKLINMADKSPAGEFEADTLIWTAGVQANPMVRATDFPIDDRGRVR
+ANAELRITGDDGPLEGAWAAGDVSAVPDLTGGGVGGFCVPNAQHAVRQAKRLAKNLLADR
+YGIGQVEEYRHKNLGAVAGMGQYKGVANIMGFGMKGLPAWLAHRGYHGMAMPMFERKFRV
+VSGWAANFWFGRDFTQLLHLKNPRQAFVEAATPAKKPAAK
+>tr|A0A0P7FZY5|A0A0P7FZY5_9MICC
+MVEMNALRREIVNAVRGMGLDGQLVADAFAHNHGLNSTDMRALTLVMEAEVRGEPLTAGR
+LSALLGTSTGATTAVIDRLEKIGHIHRARSEEDRRKVTLHFEPLARELAGAYFGPLGALT
+TEVMDRYSEAELETIHGFLTGMRQAYNTYLQRIDGADGHHPDPSARPATPRQGVRAGRAA
+PGAENR
+>tr|A0A0N8HXW5|A0A0N8HXW5_9MICC
+MTDTYLSLVNSGLTKEIAKKLGLPRPAILRRYHPSKPLIPGPVLVLGKGETADSLSSLLL
+SWDQDVRRHATPREKLGAILMVLDEAATPEDLGAVSLDAGASLRDLAAGGRIVTVSRPAA
+EAQDPAAAAARQGVDGTLRSLAHELRGGSTANGIVLANGTDASAPSVAAALHFLLSGRSA
+YVSGQFITVGSAAGEIPQDWNASLAGKTAVVTGAARGIGASIARVLHREGANVIVVDVPA
+AGEQLAAVANEIHGTALQVDITRDDAADRILAHAAERYGRLDIVIHNAGITRDKLLANMD
+ASRWDSVIAVNVASQLRMNSRFLESETFSPDGRIVSLASTSGIAGNRGQTNYAASKAGII
+GMVRATAPLLAPRGGSINAVAPGFIETDMTARMPALTRQVARRLSSLQQGGKPVDVAEAI
+AFLASDAAAGVNGQVLRVCGQNMVGA
+>tr|A0A0P7GUJ5|A0A0P7GUJ5_9MICC
+MDGSALLNVILVLFFILLGGVFAGAEMALVSLREGQILRLEGSGKRGARIADLARNPNLF
+LSAIQIGVTLSGFFSAAYGASALAPAVSPVLQSWGLGAAGAQTTAFIAMTLVVAYLSLVF
+SELVPKRLAMQNAEGFVRALAPPLAVFAAVMRPVIKLLSVSTNGVVRALGGDPDLKNVPV
+SQQELLEMVKASPVLADESRSILADVFGAGQRLLQEVMRPRPQVEFLPADLTLAQARERV
+HVRPYSRYPVIGDSPDDVLGFVHVRDLLAQDPEVAGDMLLAEIARPILFLPGTATVVPSL
+SRMRRENSHIAVVADEYGGTDGIVTLEDLVEEVVGEIYDEYDTGKDPEDQHVALEGELVV
+DGGLILQEFDRLTGMQLPEGQYETVAGYILDQLGRMAEPGDTVPAPGGRLRVLDVDHHRI
+RTVRVVPDLPASQPGPAAGG
+>tr|A0A0P7GB06|A0A0P7GB06_9MICC
+MSLIVQKFGGSSVSDAEGIKRVAKRVVDTQKAGNDVIVVVSAMGDSTDELLDLAGQITTG
+AYPREMDMLLSSGERISMALLAMAINELGASAQSFTGSQAGMITDAIHGKARIIDVSPHR
+IKTAIEKGDVAIVAGFQGMSRDSHDITTLGRGGSDTTAVALAAALDADVCEIYTDVDGIY
+TADPRVAHNAQKIEKISSEEMLEMAASGAKILHLRCVEYARRFGVPLHVRSSFSQHEGTW
+VLPSPDDKIKIQEGEPLEQPIISGVAHDRSEAKLTVVGVPDIPGKAAEIFGIVAGANTNI
+DMIVQNVSTKGSGKTDISFTLPIVDGQAAMAALNAAKAEVGFDSIDYDEQIGKLSLIGAG
+MRSNPGVSHRFFEALHLAGVNIDMISTSEIRISVVTSAALLDSAVRAVHAAFGLDGEAEA
+TVYGGTGR
+>tr|A0A0P7H363|A0A0P7H363_9MICC
+MIEILNPAEVAKARVTGRLVADILQTMKKRATVGTNLLEIDRWTGEMIREAGAESCYIDY
+APSFGRGPFGHYICTGVNDAVLHGLPHDYELQDGDLLSLDLAVSKAGIAADSAISFVVGD
+AKPAESIKLITATERALAAGIAAAGPGARIGDLSHAIGTVLSEAGYPVNTEFGGHGIGST
+MHQDPHIPNTGRPGRGYVLSPGLMLALEPWVMADTDQLTFDADGWTLRSATGARSAHSEH
+TIVITDDGAEILTLPTPS
+>tr|A0A0N8HX22|A0A0N8HX22_9MICC
+MNRSVSSPLSAIAAAAAVALVLTACTPASSDAASYHACLDESTLQFTSIATSAGDLNCGP
+DGVPVSWLAAGADSAVPPIAATASADAKGPKGDTGEPGTDGKPGASGPAGAPGQAGAAGP
+AGLAGAAGQAGAAGPAGSTGANGPAGEQGATGPSGEQGATGPAGAPGAAGPSGAPGPAGP
+AGEPGPAGLPGRDGNSIHNGSGSPASSLGADGDFYLDTTTFAIYGPKTAGTWPVGAQSLI
+GPQGPMGPQGVQGDPGAQGPAGSTGAAGPTGAAGSVGPQGKTGPQGPAGPQGDKGDTGDT
+GPIGPAGPQGPEGAAGPVGPQGPEGAAGPVGPQGPQGPQGPAGAGTVFVSFLPGTIDPAA
+FADAAAYFPISGSVAPSSSRAANEIRMPRAGTITEMRVEMTERSSSIDVYLVRDGLFQPA
+MSCTTTSQCGRTGSLAVAQNQKLVLWVRGVGPAPIENLRVSLLFE
+>tr|A0A0N8HX36|A0A0N8HX36_9MICC
+MKGSVPVEAYDPTESLPQVPALEVSSANFAAGGPLAASQYATGAVPGGRDASPQLSWTGW
+PEATQSFAVTMVDPDAPIPGVFWHWAAVNIPVRETSLTENASRSGMPKGTLQLLNELGET
+GYTGAAPPVGHGKHRYFVMVHAVDIPFLDVAEDARPGVLSMALRSHALARGVIIGTAERP
+AP
+>tr|A0A0N8HZ04|A0A0N8HZ04_9MICC
+MTITVYTKPGCGPCKLTIGRFKNAGLDPQVVDITATPAALEYITEELGYVQAPVVVYERD
+GSEDHWSGLNPDKINQVIALETPST
+>tr|A0A0P7FZ86|A0A0P7FZ86_9MICC
+MSSTAYLRFPNLHGDRVTFVAEDDVWVAPVSGGRAWRVSSLQLPARNPKFSPDGSRIAWT
+VIQGAAPEVVTADTEGGDFRQLTFWGNQNTRVRGFAPSGAVIATSPFEYEDFRLRWAYEV
+PLDGAAPSRLPYGPLDTLAHGPALGDERPLVIGSVLSREPARWKRYRGGTAGKLWIDADG
+NGEFVRLVPELDGNLAYPMWVDGRIAFFSDHEGYGNIYSVTPAGSDLRRHTDFQDFYVRH
+PSSDGTRIIFESAGALWLLANLDAEPERLDISLGSAGTGRRPRPLNAARHLAAAVPDTAG
+KSSVVESHGTLHWLTHKDGPSRVIEATPGVRARLGRPLPGGRAVFVADPGNEEALFIKDV
+FASLPAVAEQAKRDTETPAAPAEDGQDELPRPVSALGRPPAGSTAVPAAPAAVSAPAAGV
+PAEGGEQGASEAVLASQESAAGNAVVRIQFPAPTRVSQLVPSPDGKLVAAATEFGQVYLL
+DVESGLLSEIADSGHGAVEELAFSPDSRWLAWAEPVAIEGARRRIRLRPANGSDAAVTDV
+TDGRFHDHSPSFTPDGAFLAFLSERSFDPVYDTHGFDLGFPTSTKPFLVALAASTNSPFG
+PSAHTVEQPSAGPAVGSDDPGDASGDAVETLVDLDRLAERIIPVPVPQGRYSKLRAADGA
+LLWLAEDVYGVTGDGKASSSDRLPGKRLERFDLAKREVSVLVPALDDYELSGDAGTVVLR
+QENRVRAVPASARVDEDSPESTTIDLSRIRVLLEPLQVWGQAFDETWRLQRDFFWTPDMG
+GLDWDAVHARYRPLVQQLGSHDDLVDLLWELQGELGTSHAYVTPAGIAEAGGGPQGFLGA
+DLRPGNGGWEVARILDPESSDPQAISPLSAPGADVRPGDVIAAVDGLPVPADKGPAALLV
+GAGGRVVELTVIRNGDSPQQRRIAVVPLRSEERLRYQNWVNANRRAVRAASDGSFGYLHI
+PDMVASGWAQLHRDLDSEAAKDGLVIDVRHNRGGHTSQLVAELIGRKVTAWSLPRGDQAG
+TYPAQAPRGPVVILTDEFAGSDGDIVTQVAKLRGIGPVVGTRTWGGVVGIDGRFALADGT
+SVTQPRYAFWFTGGVGFGVENRGVEPDIEVPYPPHSYMAGADPQLEQGVAILKEMLAEIP
+TDQPPAREGYPSLRPAPLPPRPQGRSGKDS
+>tr|A0A0P7FH78|A0A0P7FH78_9MICC
+MGHLEAFQAAADANDGNRAAGTPGYEATAQYVEKQLRKAGYEPFRQAFTYEQFILNAESL
+EQVSPDPVVYTAGTDYRAMSYSGPGDVTAEVTEVDINLTGDRANTSGCEPEDFADFTAGN
+IALMQRGTCPFADKVANAAAAGASAAIVFNQGVIPTEDRTGLVNGTLGGVTSAIPAVGTT
+YALGETLAGTEGATVRVVVDSTVQETETFNVIADTPKGDPTRQVVVGAHLDSVQEGAGIN
+DNGSGSAAILETAIQLGKTGKFKLENQVRFAFWGAEEDGLLGSTHYVEQLSEAELGNTLL
+NLNFDMVGSINGGRFVYDGDGDAFGLTGPTGSDVIEGVFEDYFASQGQASAPSEFSGRSD
+YQAFINNGIPAGGLFTGAEGVKTEEEAALFGGTAGVSYDPCYHSECDDLSNIDRKLFHEM
+SDAVAHSVLTFAQTDADIRGGAGLFSARALPAAPEYRGHEALR
+>tr|A0A0P7HN09|A0A0P7HN09_9MICC
+MEAKAIARHIRVTPMKARRVVNLVRGKQANEALAILKFAPQAASEPVFKVVQSAMANARV
+LADRDGVAFDEGDLYISEAFVDEGPTMKRFQPRAQGRAYRINKRTSHVTVVVATPENEED
+R
+>tr|A0A0P7HMR8|A0A0P7HMR8_9MICC
+MASESSFDVVSKIDKQEVANALNQAQKEIAQRYDFKGVGAEVDFSGEKILMKANSEERVK
+AVLDVFQSKLVKRGISLKSLDDGEPYASGKEYRIEASMKEGIAQDQAKKINKMIRDEGPK
+GVKSQIQGDELRVSSKSRDDLQATMAMLKGADLDVDLQFINFR
+>tr|A0A0P7GSD7|A0A0P7GSD7_9MICC
+MADESNFSDVRFLTVSEVADVMRVSKMTVYRLVHSGELPAVRFGRSYRVPESAVQQVLRN
+AVIDRQSGTA
+>tr|A0A0P7GTD8|A0A0P7GTD8_9MICC
+MTIATNEVTLQAARSPWSGHASREELVHWRRTAEDVAAALSSDVLERDRRNADPHAEVQL
+LRESGLLNLLIPAVWGGGDGHWESALNAVRILARTDASIAQVLAYHYANLGAVVFYGDPG
+VQERLLRRSAQSGWSWGDSVNPVDPSLELIPDGSGYRLQGTKHFSTGASVGNAILVNAVV
+TGGENNGKLLALVVDHDRSGIEYLGDWDALGQRLSASGSVKYSGVLITPEDIIGEVGEEP
+FSTLVTPYIQLAFGNLYLGIAQGALERGRGITLGRRNAWFLSKAETYAQDPLTQRIYGEL
+DSRIAAVEALADRTNHRFDGAIAAGGQLTAQARAEIAIEIARLKVVSSEVGVDTANRIFE
+VTGSSSAKTAVGLDLYWRNVRTHSLHDPVDYKKVEVGARYLLGEVQPISLYT
+>tr|A0A0P7FPE4|A0A0P7FPE4_9MICC
+MAETQATLDEIDKRILEELTRDGRASVSAVAEAVHISRAHAYSRISKLTGSGVLTRFTAL
+VDPVKAGLRSSAYVTLKVRQHSWRELKEALRKIPEVHHVALVGGSFDVILLVRAEDNLHL
+RQVIFDQLQSAPGVLDTQTFLVFEDLDVR
+>tr|A0A0P7FEC7|A0A0P7FEC7_9MICC
+MSPSPTTTSPVPAPPARKAFFGHPRMLANLFSVELWERFSFYGMQGILLYYMYYSVTDGG
+LGMSEGVAAGLVGAYGGGVYLSSIAGAWVADRILGSERTLFYSAMIVMIGHISLSLVPGY
+AGLAIGLVLIAIGSGGLKANATSLVGSLYDEKDERRDAGFSIFYMGINIGGLMGPILTGL
+MWNAFGFHIGFGLAAVGMAIGLAQYAATRKYLPESAHLVANPLPKSQFARVGAIFAAAIA
+VVVVAIALGLITSENLVGLMAALALLAAIAYFVVILTSKRVTQIERRRVFSFMPLFVAST
+AFWALFQQQFTVVALYADTKLNLNLFGWEMPPSFVQSINPIFIIVFAAVFASMWTKLGTR
+QPGTPVKFGLGLAVMGLAFLAFIPFSGGGPASTPLLALAGILLLFTFAELSLSPTGLSAA
+TKLAPAAFPTQMVALFYLSVSLGSTLSGWLAQFYSEDTEVSYFAFLGITAIVLGIILALC
+APAIKKQMGGVR
+>tr|A0A0P7GTM7|A0A0P7GTM7_9MICC
+MSKLTSGDPAPDFTLTASDSSVVSLADLRGRSVIVYFYPAAATPGCTKEACDFRDNLNSL
+AASGYSVLGVSPDKVEKLAKFAADEALNFPLLSDPDHAVAEAYGAWGEKKNYGKVYEGLI
+RSTIVVDPEGKVSLAQYNVKATGHVAKLRRDLGLD
+>tr|A0A0P7G3S2|A0A0P7G3S2_9MICC
+MTTGAKLPARGRLLAAAEEVFFHRGIRATGVDEVLRTAKVSAASLYSHFGSKDGLVAEAL
+RIRLAEWQSVWDECVVNAGSDLDRLLAVFDALGAFRARQPAARWCAFLATATEMPDAGDE
+ISDVLAADTALLTERLSHFAKPLAGNRAAELADDVVLAYNGALTAYLRGYPADPIAAGRR
+VATAAAASYSP
+>tr|A0A0P7HCH1|A0A0P7HCH1_9MICC
+MTSNTWLVAGLGNPGPGYSRNRHNVGQMVLDELASRMGGSFKSHKSRAQVLEGRISIGGP
+RVILAKPLTYMNLSGGPVSALARFYGIEPGNVVAVHDEIDIPFGTVKLKLGGGEGGHNGL
+RDISKALGTKDYLRVRVGVGRPPGRMDTADWVLKDFGTTESKDLPFLVSDGADAVELLLS
+DGLVAAQQKFHSVA
+>tr|A0A0P7GWQ7|A0A0P7GWQ7_9MICC
+MKGDPVEEHWRGPLYPARLPSFHRVPAPALLADRFRWFWIPEWDLAAGRTSRQEVLPFPA
+LNLVIEQDGVRLHGPATRRSVRDLQGTGWAFGLLLRPAAVPFLCPDPAALKDASTALELP
+GLRMPVTAAMESKANDDGGARRAAAVAAASAWAETALPTSPPESLLANRFEDLIEADPSL
+TRVDQAADLLGVSVRSLQRIARKHVGLPPLAMIRRYRLQEAADRLRTDPDLGIADVAAEL
+GYADHAHLTDVFREVLGFTPSGYRREAASDGD
+>tr|A0A0P7GE11|A0A0P7GE11_9MICC
+MIIGIPKEIKNNEYRVAITASGVHELTTRGHTVLVEAGAGAGSNITDEEYSTAGAELTAS
+AGDVWKRSDMILKVKEPIASEYQYFRPGLILFTYLHLAAAPELTRALMDSGVTAIAYETV
+QEGRALPLLAPMSEVAGRLAVQVGAQCMMAPAGGPGLLLGGVPGVRPAKVVVLGAGVAGT
+NAVAVAVGAHADVTVLDININRLRELDALYAGRIKTVASNAFEIERALLDADLVIGSVLV
+PGARAPKLVTNDMVARMKPGSVLVDIAVDQGGCFEDSRPTTHEDPTFRVHGSLFYCVANM
+PGAVPNTSTYALTNVTLPYAAALADKGVHDAFEASPALSRGLNIANGAVTHHSVSDAHGL
+ELTEGWRELVAP
+>tr|A0A0P7FP27|A0A0P7FP27_9MICC
+MFKSKIHRATVTHSNLHYVGSVTIDEDLLDAADILPGELVAIVDVDNGSRLETYTIAGER
+GSGVIGINGAAAHLVNIGDKVILITYADMTTEEARAYVPTVVHVDADNRILQLGTDPAEA
+LTPGTERPPLAASRS
+>tr|A0A0P7GSS1|A0A0P7GSS1_9MICC
+MLIPRRVKYRKQHHPGRSGAATGGTAVSFGEWGIQALTPAYVTNRQIEAARIAMTRHIKR
+GGKVWINIYPDRPLTKKPAETRMGSGKGSPEWWVANVKPGRVLFELSGVSEEVAREALRL
+AIHKLPLKARIVRREGGE
+>tr|A0A0P7HD79|A0A0P7HD79_9MICC
+MSTAQGTVAALPAAAPRPARKVRRPRNAGPGPFLWLIIVAVMAFSLVPFYWLLNTSLKAG
+SALSSGELFPSAPTLANYVTVFQDGDFLLSIRNSVIIAVSATAIAMVFASFAAYALARLR
+MRRKAFLLALILSVTTFPAIAIAAPLFSIWTQIGLYDTLLGVIIPKLTFALPLAIYTLTS
+FFREIPRELEESAYMDGASPFQAFYRVILPLAVPGLATTAILVFISVWNEFLLPVTLTSS
+PEARPVPVAIAFFSGTSEFDQPLGTISAASIIITIPLVILVLVCQKRIVSGLTAGAVKG
+>tr|A0A0P7FG98|A0A0P7FG98_9MICC
+MFTGIVAEQGSVVSLESDSSDAGKVLVIDAPRTSGELGLGGSIAVNGVCLTATAIDGNRI
+SLDVMGETLDRTTTGSLEAGRKVNLERCVPAGGRLDGHVVQGHVDGVGTLLEREDLGSWD
+RLRFRVPARLARYIAEKGSIAVDGVSLTVTAVSEPRDPEPWFEVGLIPTTLAETGLGALK
+PGAPVNLEVDVLAKYAERLLAFAAPASGPEEEA
+>tr|A0A0N8HXP6|A0A0N8HXP6_9MICC
+MPRSPEDALKATLARVAPGTALRDGLERILRGRTGALIVLGFDRTVDSICSGGFDIGIEF
+SSTRLRELAKMDGAIVCDKDGTNILRAAVQLVPDHTIETHESGTRHRTAERVAIQTGFPV
+ISVSQSMQIIQLYVGGLRHVLEGSEPVLARANQALATLERYRTRLDQVTNSLSALEIEAM
+VTVRDVAVTLQRQEMVRRISEEISQYVLELGVDGRLLSLQLEELTTGLGPGSEMIIRDYA
+DIGETQGNIEEQVATLQGLSSSDMVDLGKIAAVVGFQPGQDSLEAVVQPRGYRLLSNIKS
+VPPAVSNRLVDHFGGLQNLMAANIEDLMQVDGIGEQRARTVREGLSRIAETSLLDRFM
+>tr|A0A0P7GIW4|A0A0P7GIW4_9MICC
+MIDDSKPIFQQIAERIESDVLDGVLAEEEQVPSTNEIAAFYRINPATAAKGVNLLVDEGL
+LYKRRGIGMFVAPGARAQVLAKRREQFYRQYVQPLHLEARKLGISMEELTNLIQRSAAEH
+EGTPAP
+>tr|A0A0P7HLU6|A0A0P7HLU6_9MICC
+MPDYGRDLLFGAFITPVASPPLRAVELAVTAEEAGLDLAAFQDHPYQPRFLDTWTLMSYA
+AARTSRIRLVPDVLNLPLRQPVIIARSAASLDLLSGGRLELGLGTGAFWDAIAAAGGERL
+APGDAVTGLEDAISIIRGIWDTGATAPLRVDGKIHQVHGAKRGPAPAHDVGIWLGAYKPR
+MLRLTGAAADGWLPSLGYLRGGPPDLAALNAVIDDGAASAGRDPGSVRRLLNISGSFGST
+NRGLLQGPPGQWADELTDMALQYGISGFILASDDAAEITRFGTGVAPEVRERVERARTHS
+QG
+>tr|A0A0P7GB97|A0A0P7GB97_9MICC
+MTKALLSSFDALFADLDGVVYAGPHAIPGAPEALQGLEAAGVKLAYITNNASRSSATVAE
+HLRELGAPATPENVFGSAQAGAELLAGLVPAGSTVLVTGSATLTEQVRAQGLVPVASAED
+KPAAVIQGFDPGLGWKDLAEAAFAITTGAVWVATNTDLTIPQARGIAPGNGTLVAAVAAA
+TGKTPVVAGKPEAPLFTTAARHLGVERPLVIGDRLDTDILGGTNARYATALVLTGVDSPA
+SAMAAPSSMRPDFLVPSLAALYEPYPEVEPLDGGFRCGAASAQVSGGEVRIDSAEGDLDG
+WRAACAAWWAAHPDAAEPTAPTVRWTVSAAS
+>tr|A0A0P7HCG3|A0A0P7HCG3_9MICC
+MRKPAQFKVSRPALTTRGWGLVAAGVAALLGAQILGRRDLLLLGVFLILVPLISVLALRL
+LKPQFTVQRTFSPSTAEAGTAVGITLAVQPVRPFAGTARMKEELPARFGASPEFHYPAAQ
+TDSSRASRYSYRLRSTRRGLYRIGPVSAGFPDPFGLAVARHTIGGTAELVVTPAPLDLPP
+AVLEGLRGSDGSVPTRVQGNPSQDDVTTREYRHGDPMRRVHWSATARHGELMVRQEETVA
+APRATLVLDQRESSYEQGFLSSLWAESADDSAPASSEAFEWAVSALMSVGAHLLEHGFEV
+RILDALARPGLQRSPSAVLPDVDLFSGTAAVADLGEGLAALGLEAAASSGAGGPLPLRSR
+PWRRSGSAPPAGAHPYPERTPSAAQAERGPFGDSLLQALQDGRHRGPLAVITGALTEEDA
+ARLAPMADYVPSALALVVTERPASLSAQLAVLRSAGWTAVAASPSQAVAAAWAGAAEHAA
+SLANPGHRP
+>tr|A0A0P7GT33|A0A0P7GT33_9MICC
+MLLQRGMTLTELSVRTGITMANLSILKTNKAKAVRFTTLTAVCDALETTPGELFSIEPRT
+>tr|A0A0P7HW27|A0A0P7HW27_9MICC
+MTGVLISAAGLQQALAGGTPVRLLDVRWELGRSDGYLRYRTGHLPGAVYVDLDTELSAPA
+GAGGRHPLPSPAVFAALAQGWGINDGDLVVAYDASGGGAAARAWWLLRHAGFADVRLLDG
+GLQAWQEAGGELETADVTAVPGNVVLSWGHMPVLDIDRAADLARVGVLLDARAPERYRGD
+SEPVDPQAGHIPGAVSLPAAGNQDERGRYLPAGELRERFAGAGADGSKPVGTYCGSGIYA
+SAQVAALAQAGIEAALYPGSWSEWSSTPGRPVATGTGDR
+>tr|A0A0P7G4I1|A0A0P7G4I1_9MICC
+MYLVTDAAQCGDRGVAAVAAAAVAGGVRTVQVREKHASAAEFYAQVLAVADAVGDRALVL
+VDDRVDIYLAARAAGARVHGVHVGQSDLPVDSVRSLVGPGAVVGLTANSPAHLDAVRDLA
+PGTVDYLGAGVIHPTSTKPDHPAPLGVDGFRSFASAAPVPCVAIGGIGLSDIRGLQAAGA
+SGAAVVSAICTAADPRRSAEELVAAWES
+>tr|A0A0P7FF96|A0A0P7FF96_9MICC
+MKTRELGTAGLKVSELGLGCMGFSQGYGPAGTREDAISLIRTAFDRGIRLFDTAEVYGPF
+TNEELVGEAVAPFRDRVVVATKFGFKINRDGRQIGLDSRPEHIREAVDGSLRRLGTGHID
+LLYQHRVDPEVPIEDVAGTVRDLITEGKVKHFGLSEASAGTIRAANAVQPVTAVQSEYSL
+WWREPEKKVLPACGELGIGFVPFSPLGRGFLTGKISAGTEFAPGDMRGRLPRFTPEARKA
+NQAVVDLLDTLGRTKDATPAQIALAWLLAQKPWIVPIPGTRKLERLEENLGAAGVTLTPE
+DLANLDDAVARIPIEGARYPEELEKTIDR
+>tr|A0A0P7GS95|A0A0P7GS95_9MICC
+MSAAPEAVSAVEQRLAELGLELPPVAAPVAAYVPAVVSGNHVFTSGQLPFIDGELPAAGK
+VGAAVSAEDAKAYAARCAVNAMAAIKAQIGDLDRVTRIVKVVGFVASDPSFTGQPGVING
+ASELLGQVFGEAGSHARSAVGVAVLPLDAPVEVEVIAEFA
+>tr|A0A0P7FYS2|A0A0P7FYS2_9MICC
+MSLAQDIKRVVAPFEVVSDYSPAGDQPTAIKELAERIQAGEKDVVLMGATGTGKSATAAW
+LVEQVQRPTLVMVQNKTLAAQLANEFRELLPNNAVEYFVSYYDYYQPEAYVPQTDTFIEK
+DSSINEEVERLRHSATNALLTRRDVIVVATVSCIYGLGTPEEYIQGMVTLRRGMEMNRDD
+LLRKFVSMQYVRNDMDFHRGTFRVRGDTVEIIPMYEEQAIRIEFFGDEIESIQTLHPLTG
+DLIRDEQEMYVFPASHYVAGPERMNRAIKGIEDELRERLQELESQNKLLEAQRLRMRTTY
+DLEMMQQMGFCNGIENYSRWIDGRGPGTAPHCLLDYFPDDFLLVVDESHVTIPQIGAMYE
+GDMSRKRTLVEHGFRLPSAMDNRPLKWDEFLERIGQTVYMSATPGKYELGKADGVVEQII
+RPTGLVDPEVVVKPSKGQIDDLLSEIRIRTEKNERVLVTTLTKRMAEDLTGYLLENGVKV
+EYLHSDVDTLRRVELLRELRMGTFDVLVGINLLREGLDLPEVSLVSILDADKEGFLRSST
+SLIQTIGRAARNVSGQVHMYADRITDSMAHAIDETNRRRAIQVAYNKERGVDPQPLRKRI
+ADITDSLAREDADTKALLEEAAKKQTKSGKGKAAKGIRKDGLAAAPAEDLTGLIEQMTEQ
+MHAAAAELQFELAARLRDEVGDLKKELRQMQNAGHA
+>tr|A0A0N8HY62|A0A0N8HY62_9MICC
+MSESRPPSSLLDFPRPSVAVDTAALTVDDGALKVLLVRRREKHHPGEWALPGTFLRERET
+LAAAVLRSLRDKAGIEGRVPQQLHVFDDPGRDDRGWTLSVAHLDAVPFRELEKPLESDDV
+RLASVTPDAELIAGLPYGHAEMVLLAVDRLRQDYARVPDPAGLLEQPFTLKELRDLHEAV
+AGRSLMRDTFRRQMEPQLMGTGEMSDGTRGRPSRLWRRGR
+>tr|A0A0P7FYX7|A0A0P7FYX7_9MICC
+MVSIAWLRDDLRTADNPALLAAVHEGDAAALYVLDEETEGIRPLGSAAKWWLHHALLALK
+KDLSALGIPLVLLRGPAARSVPGFLRQSGADRIFWNRRYGGPEREVDTAIKQWAAAAGLQ
+AESFQGSLLHEPWTVRTGQGAPYRVFTPFWRTVSALDFRAPLDTPARCAAPPSGLPAGED
+LNDWNLLPRNPDWSAGLSKAWTPGERAGLASLREFLDGPVQDYEDGRNHPATPGTSRLSP
+YLRWGHLSPFQVWHALSRVRGNGPGPDVFGTEIGWREFCWHQLFHNPDLATRNLRPAFDA
+FPWEWPEDAGPQTPPILRAGRAADPLQDLDPLDAWKAGLTGIPLVDAGQRQLWEMGWMHN
+RVRMVAASFLVKNLGVHWRVGEEWFWETLVDADPASNPANWQWVAGSGADAAPFFRIFNP
+VTQAKRFDPDGAYIARWVPEALTPSYPEPLVDLGESRQHALDAYGSIR
+>tr|A0A0P7FY74|A0A0P7FY74_9MICC
+MSSFSILVGKLVRGASRLRGGGSALPGLVVEKIDPDFIRRTLSTLPLGVAVVSGTNGKTT
+TTKMVVELLEGQGLKVFTNRTGSNFTRGVAAALLGEVNLRGRLDADIAVLELDEAHAVHF
+VKLIRPRYALLLNVLRDQLDRFGEIDKTTRLLEQIAQATTDTVVLNREDPRVASIADSLS
+SQKVTYFGLDASLRSTFPNDDEMRGSRSEAIAAAQPADVVLTRVAETEADFLVDGSPTTT
+GLKLRGVYNVFNAAAALTFARQILGTRADRTKLFESLANVEPAFGRGESLTVNGAPLELV
+LVKNPSGFRLGLKSFAAHGYATMIAINDNYADGRDMSWLWDVDFETLSGGVDMVTGVRAY
+DMALRLRYDDVPVREVVPDIPDALAKFISGAGTQPMRIFCTYTAMLAVRRELSKITKVEV
+VS
+>tr|A0A0P7HPM2|A0A0P7HPM2_9MICC
+MALVDDQQLVRGGFKMLINSQPDLTVTAEAGNGAEAVRVLSQTPADVVLMDVRMPGMDGI
+EATARILEQAGSREAEVKVVVLTTFDLDEYALSAIRAGASGFLLKDAPPEELLEAIRTVY
+RGDAVIAPSTTRRLLDHVAPMLREPTPEVSRHAASVETLTPREREVFTLIAGGLSNPEIA
+AKLFLSEATVKTHVGHILAKLGARDRVQAVVIAYETGIVTP
+>tr|A0A0P7HFJ4|A0A0P7HFJ4_9MICC
+MSARKTTAVKETDTVTAAAEVAEAAPAAGTKTAAKPARKPATRKTPAKTAAAKAKKAAEP
+AEDTDVHTDDADAEPADVEVAEADAPEAAPTGSGFVYSDADDDDAPAQQVVSAGATADPV
+KDYLKQIGKVALLNAEQEVDLALRIEAGLYAEEKIAADPDMDPKLKRDLQQIIHDGKRAK
+NHLLEANLRLVVSLAKRYTGRGMLFLDLIQEGNLGLIRAVEKFDYTKGFKFSTYATWWIR
+QAITRAMADQARTIRIPVHMVEVINKLARVQRQMLQDLGREPAPEELALELDMTPEKVVE
+VQKYGREPISLHTPLGEDGDSEFGDLIEDSEAVVPADAVSFTLLQEQLHSVLDTLSEREA
+GVVAMRFGLTDGQPKTLDEIGKVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLD
+>tr|A0A0P7GT54|A0A0P7GT54_9MICC
+MPASRSNPGQPASEVTRPAAVVVGGGISGLIAARDLAREGFEVTVLEAADAFGGCVGTHT
+VAGLQLDSGAESYASRSPAVPGLLAELGLQEKIVQPNPDGAWLQLGGADLAAAAQRMPQT
+GLLGIPADPRAEEIARAIGRTGVARASLDRLLPVAPLLRREQVSLGEVVRSRMGDAVLKR
+LVTPVVGGVYSADPDVLDADSVAPGLRKAMAEHGSLGAAVGAMRKAAPAGSTVASLRGGM
+GTLSRALTEDLAARGVHLYAGTPVTGIERTGTGFRVSAAGTAYAAAALVVAADGPSAVDL
+LAPCVPELEAYRPGPGPGVALVTLVVDKPELDAAPRGTGVLVSRDAEAVQAKALTHATAK
+WQWLADSTGPGTHVLRLSYGRGLGPGQEADATALRPDGELFEAALADASALLQVPLEKAD
+VIGWDVVRWIGALPSATVGHADRVASVRAAVAEVHGLEVVGAWLAGTGLAAVTADTRYRT
+EHLAEAVKS
+>tr|A0A0P7HUZ3|A0A0P7HUZ3_9MICC
+MNDVLPDAAVPELLLLTRPGCHLCQAAREVLDRVSADLGVPWQERSIADDPELLERFAEE
+IPVLMIDGVQRDFWQIDESRLRRLLSA
+>tr|A0A0P7GCF6|A0A0P7GCF6_9MICC
+MTRRWFRTERGNDADPRRAARRLALQFTALTVVLLSLAGAVVYYLAAAGAERALQDRLES
+AAALKNPRDAPLDIFLAVYDRGRLSVSRDMPEGLPVETSLASVAAGGGEVEETVDASGTT
+FRVLTRTDGRDVVQAAIDTSETRGQLDRLVLALVSAVLLSAVVAALFSVLAARAAMRPLV
+EALALQRRFVSDASHELRTPLTLLSTRAQLLRRRLGARPAEGGPAERFEPPEQKFVESGL
+DEIIADTGVLTGILEDLLESADPRRAGPPEPVDLGAAARQGAETFATALRANGLQLKLDV
+PGTPVRVRAAPAAVQRVITALLANASDYARSTVWVQVSASGREGVLRVSDDGPGLPSELR
+GRVFERFASVRETSGGHTRHYGLGLALVAEIAGRFGGTVQAEPGHGMGASLTVRLPLD
+>tr|A0A0N8HY30|A0A0N8HY30_9MICC
+MGHRVLAGCDEVGRGALAGPVSVGLVAVQLESVRALKGVRDSKLLTPADRQTLVPLIKKW
+CPAWGVGHASAAEIDLLGLMGALRLAGTRAWTQVCETLTPDVVLLDGNHNWLSPEMQASL
+FDEPSDDDDAACTAPVHTRIKADMTCLSVAAASVLAKVERDAMMVEYSSLHPEYGWDVNK
+GYATEAHRAAIDTLGPSPLHRLSWRLGTGRTDEDGPAPGPVGG
+>tr|A0A0N8HZ44|A0A0N8HZ44_9MICC
+MTRYIARRVLQMIPVFFGATLLVYFLVFSLPGDPIAALFGDRPVNEVVAAQLREQYNLDQ
+PFIVQYLLYLKNLLTFNLGNDFSGRPVAEVLGQIFPVTMRLAVLALLFEAVFGIVFGLIA
+GLKKGRIFDATVLFVSLVVIAIPVFVLGFLLQFIIGVKLGWASPTVGASAGWSDLILPAV
+VLGLASFAYVLRLTRTSVIENMNADYVRTATAKGLSRGRVVTVHILRNSLIPVITFLGAD
+LGALMGGAIVTEGIFNVPGVGQKLYQAVIRGEGPTIVSIVSVLVLVYVVANLLVDLLYAW
+LDPRIRYE
+>tr|A0A0P7FZM1|A0A0P7FZM1_9MICC
+MAAARPQRVGRVSTVVGLSVEVTGLDCAVGDLVSLGAPGSDVDAEVVAATRDGVRCMPFG
+RLAGLTAGSPARSKGMPLRVPTGNGLFGRVLDGLGRPIDGKGPLHVEQYVPLDHDTPSAM
+QRSRITEPLQLGVRVLDTLTTVGKGQRMGLFAGSGVGKSSLLSMIARGTDAEVSVIALVG
+ERGREVREFLEDDLGEEGLARSIVVVSTSDEPALMRLRAAFVATRIAESFRDRGADVMLM
+MDSLTRVAMAQREIGLSVGEPPATRGYPPSTFSLLAQLLERAGTDKSGSVTGMYTVLVDG
+DDHNEPIADSARSILDGHVVLDRKLAVAGHFPSVDALGSISRVASRVNPKDRSQAASGLR
+RVLAARRSAQDLIDVGAYQRGTNPLVDAAVANEDMINTFLQQRMDEQTPADAAWEQLHRL
+TLNLGV
+>tr|A0A0P7HHW3|A0A0P7HHW3_9MICC
+MNKMENVSVDAIGEGVRVLDVREDYEWEAGHIPNAVHIPLDQLPDRLDELDPDQDLAVIC
+RSGGRSARATQWLESHGYSALNVTGGMGAWLEAGQEMVSENGKEPTVV
+>tr|A0A0P7H3T5|A0A0P7H3T5_9MICC
+MTSEQHSPERREITIRRAPRFVPFMALGVVAAFVVALIMAYTGEENPQYTREAVLGFFTV
+MFALPGVALGSIAALVLDRLSIRRSEHAVVEAADDEPNSTGTSPTA
+>tr|A0A0P7FGN1|A0A0P7FGN1_9MICC
+MSETVNLPALGESVTEGTVTRWLKQVGDTVAVDEPLLEVSTDKVDTEIPSPVAGVIEEIL
+VAEDETAEVGEALVRIGDGSGSSSDSDSPEPAQEEAAAEEAPEPEAKEEAPAAEEAPAED
+SGSGDSGDSTEVTLPALGESVTEGTVTRWLKSVGDDVAVDEPLLEVSTDKVDTEIPSPVA
+GKLLEIKVNEDETAEVGSVLAVIGSGSAAPSKAEPKEAEPVAAAPSTEREEPVAEPKQEA
+PKEEAPKEEAPKQEAPKQEADKEESGSGTYVTPLVRKLANEHGVDLSTVKGTGVAGRIRK
+QDVLAAAESAKAEEPAAAAPSSSDKAAPAKISEESAKLRGTTVKAPRIRQTIARRMKESL
+DTSAQLTQVQEVDMTRIATMRQKAKAGFKEQNGANLTFLPFIAKAVVEALKAHPKLNASY
+DSESQEITYHDAEHLAIAVDTEKGLLVPVINDAGDLNLAGLAKRIADVGARTRSGKIGPD
+ELSGGTFTITNIGSVGALFDTPIINQPQVGILGTGAIVKRPVVRTDEDGNDTIAIRSMMY
+LSLTYDHRLVDGADAGRFLQTLKARLEEGSFEADLGL
+>tr|A0A0P7GTQ4|A0A0P7GTQ4_9MICC
+MVEKRFLTLADVGEVLNISSSQTYALVRSGELPAIQVGGRGQWRVETAKLEEYIAGAYRR
+AEAARAALPQDEGAEA
+>tr|A0A0P7G5C5|A0A0P7G5C5_9MICC
+MSAQIRVDLASPVPPYEQIRSQVSTLASTGTLAVGDRLPTIRMLAADLGVAPGTVARAYK
+ELEAEGTVTALRRRGTVIAQRAAPPAAEPDAAPDEVRAAVGQLAETARRHGLSDAVVHSL
+LASALARPTRLEP
+>tr|A0A0P7GJQ6|A0A0P7GJQ6_9MICC
+MRLSASAKITLRVFAGLVMAAIYLPLLLVIANSFNATTSGAFPIQEFTTRWWVAAWHNEG
+VREALWTSLKVASVATVIALLLGSMVAFALSRYDFFGKNTINLLVVLPIALPGIVTGVAL
+NNTFKTVLEPLGIGLGLFSVIVGHATFCIVMVFNNVQARLGRMNRGLEEAAMDMGANVVK
+TFFQVTFPGFRSAFVAGGLLAFALSFDEVVVTTFTAPPGTETLPIWIFNNMARPNQAPVV
+NVIAAVLIVASMIPVYLSQRLTGDDKK
+>tr|A0A0P7GCB7|A0A0P7GCB7_9MICC
+MLTAEPTAPALRTERFRAGLSETDPQRADDRTSDWLQAVNVGFHDPAWKPEQAASLVEAY
+LADGRMLTGVYDGAAPEYAWNPKAPVATYATMSNDLNAGGTLLPAHQITSVTVRPTHRRR
+GILTSMISGDLQRAKEDGFAVAALLASEAVIYGRFGFGAATVETNVEIDARGRLELKTPP
+SGSTVLAEPARMEELAPEIFRRHLRVTRGALGRQAGYAKRAAGLWGDLPEIQQDVRAAVH
+YDDAGTPDGYVTYRFLPWETEPHTLKVLDLVAVDDTARLELWRYLGSIDLVEKITASGPL
+ADPLPWALADRRRYQITGVEDTLWLRALDPAAMLRARGFESDGELVLGVADPLGLAQGRW
+LLQVSGGSTVLTELGEELPQGLPVVEADAAAFASLYLGGVPASVLAAAGGIRGTAVALTA
+LGRLFDVARAPYCSTHF
+>tr|A0A0P7GUE3|A0A0P7GUE3_9MICC
+MRNAQQPSGMPIHKYVPFQDQIAVDLADRTWPDKVITKAPRWCAVDLRDGNQALIDPMTP
+ERKHKMFDLLVNMGYKEIEVGFPSASQLDFDFVRQLIEGDRIPDDVTIQVLTQSREHLIE
+RTYDALEGADRAIVHLYNSTSVLQRKVVFNTDQDGIVDIALNGARLCKKYEEQLSGIDVT
+YEYSPESYTGTELDFALRISNAVAEVLEASTDRQMILNLPATVEMATPNVYADSIEWMHR
+NLANREAIILSLHPHNDRGTGVAAAELGYLAGADRIEGCLFGNGERTGNVDLITLGMNMF
+SQGIDPQIDFSNMDEIRRTVEYCNQLPVPERSPYGGDLVFTAFSGSHQDAIKKGFESMEK
+EAAAAGKSVDELEWGVPYLPIDPKDIGRSYEAVIRVNSQSGKGGVAYLLKNEHNLDLPRR
+AQIEFSGVIQRRTDTVGGEVTGAELWRVFQDEYLPTSPDTGAEPWGHYALTSVTADTAEN
+GSFLLTASLRAGGVQQRRVASGTGPIDALLQILSQDGVDVRLLDYSEHALSASGKAMAAA
+YVELAVGERVLWGVGIDSNTTLSALKAVVSAVNRAIRDASGE
+>tr|A0A0N8HZ07|A0A0N8HZ07_9MICC
+MTSTGLSLPAVPTHIVWDESLLAYNFGPGHPMSPLRLDLTARLAKELGIFDLPQVSLGAP
+FVADDAQLARVHDPAYVAAVREISRNPERPNAPLGLGTEDDPAFEGMHEASARLFGGSLA
+AAEAVLSGKVRHAVNFAGGMHHAAAGKASGFCIYNDAAAAVARFLDAGYTRVLYIDVDAH
+HGDGTQAIFWNDPRVMTISIHETGISLFPGTGFANESGGPDAPGTAVNVALPPGTRDAGW
+LRAFHAVVPQLAGAFEPQVIISQHGCDGHRDDPLSNLRLSVDTQRQAALSISGLADQFAE
+GRWIATGGGGYNVASVVPRSWALLLAVAANTRMPLTTPVPPAWREYVRERHGIDTPAAMG
+DGVDMWWRSWEVGYDPNDDIDRTVMATRKEVFPLHGLDPWFD
+>tr|A0A0P7FAC0|A0A0P7FAC0_9MICC
+MQNDAEPRLRALEERVAALEDRLAGASVPPAPAADDVFWVLNGIRDRYPDSGVVLFAGKA
+AVGPGERYEYQYGLETAHLLDVDWTAYAETLASLGNPVRLSILRAVLGGTETVAQLVEEL
+GAGTAGQIYHHVNQLLAQGWLAAHARSRYRIPAPRVIPLLAILTAATGGN
+>tr|A0A0P7H8S3|A0A0P7H8S3_9MICC
+MSNAKDVTDSSFSTDVLAADKPVIVDFWAEWCGPCRMLSPILDDIAAEYSDKVDVVKVNV
+DDNPAIAAKYGITSIPAVYVFKGGEVAATSIGAKPKQVLEQEFAAYLK
+>tr|A0A0P7HG52|A0A0P7HG52_9MICC
+MPSNVQPATELRFGRIPVLNVSPVIQCGRFAAKAVPGEDLVIGATVFREGHDLVGVSAVL
+YDPQGQEVQRRRMHPVGQGLDRWEGQLRPETTGDYTFTVEGWADLFGTWHHNADVKIAAG
+IDVELMLAEGAALFSAAAAGRNEADAAVLRETARVLEDTALDPGMRFAAAGRPELAEVLE
+REPIRDLVTPSQRFPVKVERDRAGRGAWYEFFPRSEGASFDPATASWTSGTFRSAARSLD
+RVAAMGFDVIYLPPIHPIGTTFRKGPNNTLVAGPQDPGSPWAIGSAEGGHDAIHPDLGTF
+DDFDFFVQAAEGFGLEVAIDLALQASPDHPWVTEHPEWFTTRVDGTIAYAENPPKKYQDI
+YPLNFDNDYEGLSQEILRIVLMWISHGVKIFRVDNPHTKPLRFWEWLITTVNREHPDVVF
+LAEAFTRPPMMHALGMAGFQQSYTYFTWRNTRQEIEEYFTEVSKETAAFFRPNFFVNTPD
+ILTEFLQYGGPPAFKIRAVLASTASPLWGMYAGYELYEHVARPGAEEYIDNEKFEYKQRD
+FAAAEAENRSLAPYITRLNKIRHDHPALGDLQNLTVHSSTDEATVVYSKHKQIDLTDASS
+KDTLIIVVNTDPHSARECTVTLDLDALHLAPQDFNEDGTFWVDDLISGASYRWGQYNYVR
+LDAHYEPAHVLAVRRGAQW
+>tr|A0A0P7FPW2|A0A0P7FPW2_9MICC
+MNTELSQVSDASLTADDSNEELDVTETIATTEAAAEIPELTFADFGVRSEIVESLAEAGI
+THPFPIQSMTLPVALGGHDIIGQAKTGTGKTLGFGIPALQRVVVPADEGYNALPAPGAPQ
+ALIVVPTRELAVQVASDLTTAARRRGARIVTIYGGRAYEPQIEALEAGVEIVVGTPGRLI
+DLHNRRQLSLKNVRIVVLDEADEMLDLGFLPDVETLMAATPATRQTLLFSATMPGPVVAM
+ARRYMTKPTHIRAADPEDEGLTKKDIRQVVYRAHNLDKSEVVARILQSRGRGRTIIFTKT
+KRTAAKLSEELVDRGFAAAAIHGDLGQGAREQAMRAFRNEKVDVLVATDVAARGIDVDDV
+THVINYQCPEDEKTYLHRVGRTGRAGNKGTAVTFVDWDDVPRWGLINKALGMDQAEPVET
+YSSSPHLYTDLDIPEGTKGRLPRNKRVLAGIDAEKLEDLGETGKSGGRRAPRSDSGQRSG
+GRSSDRGRSSDRARGSREGSRDGSGRSPEKAAEAPAAAGESAKSDRPRRNRSRTRRRNGE
+VVSKAPAAE
+>tr|A0A0P7HUX4|A0A0P7HUX4_9MICC
+MAIRDSLIPLLGGGADPEQLVHLHEIPAREAQTVPWPEWVHPDLVEAYGRLGVHTPWRHQ
+AEAAEAAHSGRHTIISTGTASGKSLAYQLPVLDEIHRTALDDRISLEPTGSVALYLSPTK
+ALAADQLAALNSLHLPTLRAETYDGDTDPGARRWIRDHANMVLANPDMLHFGVLPNHAWW
+ARFFRRLTYVVIDEAHSYRGVFGSNVANLMRRLRRICRYYGADPIFIGASATSADPAQSF
+GRLIGSEVHAVTRDYSPHGATTVALWEPQLTDGKGENGARERRTVIAETSDLLANLVAAQ
+VRTIAFIKSRRGAETIATITRRLLDEVHPSLPGRVAAYRSGYLPEERRELENQLRSGQLL
+GIASTSALELGIDISGLDAVLVAGWPGTRASLFQQIGRAGRSGQDALAAFVASDDPLDTY
+LVHHPEAIFDISVEATVFDPSNPYVLGPHLCAAAAELPLTPDERELFGPAAAGLLDQLVA
+QGYLRRRPAGWFWTHAESAASMVNLRAAGGGPINIVEAETGTLLGTMDGAQSQYQAHTGA
+VYVHQGQTFLVEELNEADHCAVVTRANPEFYTQARDVTQIEVMETERTEQWGEVQMCFGT
+VKVTTQVVSFQRKALVSNEILGEEPLELEAKELFTKAVWFIIDEKLLLGAGLAAADFPGS
+LHAAEHASIGMLPLVATSDRWDIGGVSTALHADTGKPTIFVYDGHPGGAGFAERAYEAAT
+IWLTATRDAIRACECEGGCPSCVQSPKCGNKNNPLDKKGAVTLIEVLLADAPGRPDAGNR
+VSAGTGVRD
+>tr|A0A0N8HXN7|A0A0N8HXN7_9MICC
+MTAGTLPVIAVVGPTGSGKSDLGVALAQRLGGEIINADSMQFYRGMDIGTAKLPEDERGG
+IPHHLLDILDVTEEASVSDFQAQARETIDRIRSRGNYPILVGGSGLYVRAALDVLEFPGT
+DPQLRRRIEDELESVGFEALRAKLRDVDPVSADRLGDARRVVRALEVHELTGRPFSSFMP
+ERTYYQPAVQLGLAVERPVLHVRLARRVDQMVQQGLLDEVRVLDAAGLRSGRTASRALGY
+AQFLKVLDGHWNTGQAVEDTVIATRKFARRQLTWFRADPRVTWLDFDNPELLKAATTAIL
+EG
+>tr|A0A0P7GBU0|A0A0P7GBU0_9MICC
+MAVSTDAPVRPLKPAPAKTRRRSPDSLAGTLAKIVLLGLVDAFAVYVLMALFLNEQWLVF
+GVAAAVTVIINWIYLRRGGLPAKYLAPGVLFLLVFQVFVVVYSGYVAFTNYGDGHNSTKE
+DAVAAIQLTAQQRVPDSPAYAVSVVEQGDELFLLVTDPDGAVQLGGADQPLEEVAGAQMG
+GAGKATGAEGYETLAFNDLLNRQSEILELKVPFSEDLDDGTLQTADGSNAYVYKPVLVYD
+EAADTFTNTETGTVYRDSGEGSFVSDAGERLATGWKINVGFENFERAVTDPELRGPLMSV
+IGWTFTFAVASVALCFGLGLFLAITFNHPTLRGKKIYRVLMIMPYAFPAFLAGLVWSGML
+NQEFGFINGTFFGGASIPWLNDPWLAKASVLLVNTWLGFPYMFLVCTGALQSLPEEVNEA
+ARMDGAGAWRIFKSIKLPLLLVSTAPLLISTFAFNFNNFNVIFMLTGGGPRFPGTSQDIG
+ATDLLITVVYKVAFGQGTGRDYGLASALAILIFIIVAVISAVSFRQTKSLEEVNS
+>tr|A0A0P7G5G9|A0A0P7G5G9_9MICC
+MIQQESRLKVADNTGAKEILTIRVLGGSGRRYAGIGDTIVATVKDAIPGGNVKKGDVVKA
+VIVRTKKERRRQDGSYIKFDENAAVILKNDGDPRGTRIFGPVGRELRDKKFMKIISLAPE
+VL
+>tr|A0A0P7HP80|A0A0P7HP80_9MICC
+MTFSQRYVALGDSFTEGVGDWDPSRPNGVRGWADRVAEQLALADDSWGYANLAIRGKKLR
+QVIDEQIEPALALEPTLVSIYAGGNDILRPKVDIDAIVQSYDSAIGRLRASGAAVLVFTG
+FDSGQSPIFGRTRGRTALYNELVREAADAHGAILVDYWRLKVLQDERFWDVDRLHMSPAG
+HILTAKKVLEVLRATDALDVPELDTLPARDRIQRLRHDARWAREYLGPWVGRRLRGVSSG
+DNLSARFPSLVQLTPQG
+>tr|A0A0P7GJP2|A0A0P7GJP2_9MICC
+MSVSPLAPAWLSLPEDPNALRPDMWAQDVRRGEHGELEISGIPVSALAAEFGTPVFVVSE
+ADFRARARDFKDSFDAAFAEVCGGVDVYYAGKAFLCTEIARWVGDEGLRLDTCSGGELAV
+AARAGIPGANLGLHGNNKSDAELNRALDMELGRIVVDSLPELHRLGALAQDRGVRANVML
+RLTPGVHAHTHEFIATAHEDQKFGLSMAADPETGTSPAAEAVAAALENPGINLLGLHSHI
+GSQIFDPAGFEEAARRLLAFLAEVRAVHGVELPELDLGGGYGIAYTEADTPRPAAEIAQA
+MAAVVSSTCAELGLAAPRISIEPGRAIVGSTTFTLYRAGTVKTVRVDTPAGETAARRYVS
+VDGGMSDNARPVLYDADYSAVLASRASEHDAVMSRVVGKHCESGDIVVRDVYLPSDVDHG
+DLVAVPGTGAYCWALSSNYNYIARPPVVAVRDGAARLIIRGETEEDLLSRDVS
+>tr|A0A0P7G906|A0A0P7G906_9MICC
+MSAPSNALTLGILASTRKPAERRLAIHPLHVERIDPGPRQRLILEEGYGETFGVSDDFLK
+PLVGAMLPRTQLLAEADVVLLPKPQPEDLAEFRDGQTLWGWPHCVQDRAVTQLAIDKKLT
+LIAFEAMNHWKSDGGFGLHVFHKNNELAGYSSVLHALALTGSTGDYGRRLSAVVIGFGAT
+ARGAVTALNAHGIHDVQVLTNRDVAAVGSPIHSARIIQFDHDPQAPFLSEVITEDGRVPL
+APFLAESDIVVNCTLQDPNAPLTYLSTGDLAAFRAGSLIVDVSCDEGMGFEWAKSTSFAE
+PMFEVGERINYYAVDHSPSYLWNSASWEISEALLPFLETVLSGPEAWQGNETIRKAIEIQ
+DGVIRNKDVLQFQQRGAAYPHLPLG
+>tr|A0A0P7GJD7|A0A0P7GJD7_9MICC
+MTTASSSALRADGRTPDQLRSISITRGWSSQAEGSALIEFGSTRVLCTASLTPGVPRWLK
+GEGKGWVTAEYAMLPRATNTRNDRESVKGKIGGRTHEISRLIGRSLRSVIDTRALGENTV
+VLDCDVLQADGGTRTAAITGAYVALADALAWAKENKLVARNAEPLLDTVAAVSVGIIDGV
+PMLDLPYVEDVRAQTDMNVVVTGSGKFVEVQGTAEGAPFDRAELDALLDLALLGTSELAD
+IQRRTLAGQ
+>tr|A0A0P7FAT1|A0A0P7FAT1_9MICC
+MTDAVSARMKQRLAGAMEVLGRHGLLLLTLAAGLIPALLLALAAGGVYEAVVEEDGVAGL
+DQPVLDAAITLRSPGVDTAVTWLTNLGGTIGLPVLAAAAVLALCRWQRSWTPLILTASAA
+AGSLLLTVAGKALVGRSRPPLSDAVPPYEHSASFPSGHSLNSVVVIGTLAYLLVLYLNTR
+RSRFLTVLAGVVFVLAIGLSRVYLGHHWLTDVLVAWILGLAWLAILITVHQLLHARRLRS
+LPAG
+>tr|A0A0P7HN18|A0A0P7HN18_9MICC
+MSRIGRLPISVPAGVDVAIDGNTVTVKGSKGELSHVVPSPISVSMDENTITVARPNDERE
+SRSLHGLTRTLISNMITGVTEGYKKDLEIVGTGYRVQAKGSDLEFALGYSHPVSVKAPEG
+ITLTVTGPTKLTVSGIDKQQVGEVSANIRKLRKPDPYKGKGIRYAGEIVRRKVGKAGK
+>tr|A0A0P7HV08|A0A0P7HV08_9MICC
+MASASSAPAAPDLKSGQLLNLITATIASTVGFWAWTIIGPLSARYTQTMDLNPSQASILV
+AMPILVGSIARIPVGAWTDRYGGRRMFTLVLGVTAPLVLLTAVAGETGSYGLIIVVAFFL
+GIAGTVFAIGIPFCSAWYDRSRKGFATGVFGAGMVGTAVSAFFTPRLVSGVGYFNAHLII
+AGVVALMAVISWLVLRESPAWSRPTEPTLPKIRHAFTLKVTWQLCFLYGVVFGAFVAFSN
+YLPTYLGNVYDYDATAAGTRTAGFAVAAVIARPIGGTVADKVGPKIVTLTSFAGTVVLAM
+VVAFQPSQERVYGTAFLLMALFLGLGTGGVFAWVGRATPPKDVGTVGGIIAAAGGLGGYF
+PPLVMGATYDAENSSYFIGLTLLAVFAALALLLTFTVRNGGKTDERLRAPA
+>tr|A0A0N8HXK6|A0A0N8HXK6_9MICC
+MAIIDAIHAREILDSRGNPTVEVEVLLDDDTFGRAAVPSGASTGAFEANERRDGEKDRYQ
+GKGVLQAVEAVIDQIQPALLGFDAADQRAIDQAMIDLDGTENKSGLGANAILGVSLAVAR
+AAAESAALPLYRYLGGPNAHILPVPLMNILNGGSHADSDVDIQEFMIVPLGAETYSEGLR
+WGVEVYHNLKSVLKEQGLSTGLGDEGGFAPNLPSNRAALDLILEAIQRAGYEPGRDIALA
+LDVASSEFFKDGAYVFEGQNRSAEEMSAYYEELVRDYPLVSIEDPLDENDWDGWSALTAR
+LGDKVQLVGDDLFVTNPARLETGIKQNAANSLLVKVNQIGTLSETLDAITMAQRAGYTTI
+TSHRSGETEDTTIADICVATNAGQIKTGAPARSERVAKYNQLLRIEEELDDAARYAGRSA
+FPRFTA
+>tr|A0A0P7FFI6|A0A0P7FFI6_9MICC
+MSYPATSREIQLASRPEGWPADENFRLAEAKVPELQDGQILVRNTLMSVDPYMRGRMNDA
+KSYVPPFQLGAPLDGGAIGEVVESRAGTHKAGDTVLHNLGWREYAVLDARRARVIDTGIA
+PASAYLGAMGLTGLTAWAGLTKVAGFREGDAVFVSGAAGAVGSIAGQIAKALGASRVIGS
+AGSAEKVQRLRELGFDAAFNYHDGPVRDQLKAAAEGNGIDVYFDNVGGDHLEAAISVLNK
+YGRVAMCGAISAYNSTEPQCAPRNLFQAIGKELTLRGFIASSYNEYAGQFAELMAGWLRD
+GKVSYDETFVDGLANAPQAFIDLMKGANTGKMVVRLS
+>tr|A0A0P7GB37|A0A0P7GB37_9MICC
+MPIRVAIDRLLDERGLSVGEFADRVGITPANVAVLKNGRARAVRFSTLDAICRVLECQPG
+DILIWEKD
+>tr|A0A0P7GT83|A0A0P7GT83_9MICC
+MELNAQWAEAWMRAAAASLNENRQRLIDLDRAVGDADHGENMDRGFTSIVEKLDADGTPA
+TPADVFKLAAMTLMSRVGGAAGPLYGTAFLRGSTAVAGKDVLDAGDVVAFLRAARDGIVS
+RGKAEPGDKTMVDAFTPAVEAAETAASAEASGAETLAAAANAAEGGLAGTEPLIARKGRA
+SYLAERSAGHLDPGAASTALILAAAARAAGEQA
+>tr|A0A0P7H4P9|A0A0P7H4P9_9MICC
+MGQKVNPHGFRLGITTDHVSHWFADSNKPGQRYKDFVREDIKIRQLMSTGMDRAGIAKVE
+IERTRDRVRVDIHTARPGIVIGRRGAEADRIRGELEKLTGKQVQLNILEVKNPEMEAQLV
+AQGVAEQLSSRVAFRRAMKKAIQSAQRAGAKGIRIQCSGRLGGAEMSRSEFYREGRVPLH
+TLRANIDYGFFEAKTTFGRIGVKVWIYKGDVTSKELAAQQAAAPSRGRSNDRPGRGPADR
+GDRRRRNDRGDKAAAPAAEAPAAEAAAPAAEGGQA
+>tr|A0A0P7HVS4|A0A0P7HVS4_9MICC
+MSVDVSDDVEQNTPFQPQYSARRLAEMLHDGDPQDVQYPTEAQQQIIEGPLEPLLVVAGA
+GSGKTKTMADRVVWLVANKLVAPEQILGVTFTRKAAGELASRIRGRLRLLERKLGEDTGD
+HDPQLEAAVSTYHSYANGIVNDYGLRIGVERDSVMLGGAQSWQLANEVVEAYTGDYEHFT
+AAKSTLVTSVLQMASECSEHLKTPARVRAELEKHVAGVLALPYQAGKPKQPTQAAKDLVN
+KLRTRISVTELVEAYQRAKTERRQLDFGDLVALAARIAEEIPEAREMERAKYKVVLLDEF
+QDTSHAQMVLFSTLFGNGTPVTAVGDPHQSIYGFRGASAGQLGTFREHFPRFNSDGSRSL
+AGVANLSVAWRNSTSILAAANAVSGALNAPVPWLKNNRPLDVPELQAKPKARVGDVFLGR
+YLSEKTVTLPDGTVSVGEAEALATEIARVRTQWFRHPSHETDGRGNALPPTVAVLCRGKK
+QFDPIRRALEDRGIPVQIVGLGGLLSTPEIVDLLAVLRVLSDPGRSDSMLRILAGARWRI
+GPADLMALADWSRHLVRVRERAVRVQDLSDVHGPDETGAAVVETDLAEAGSLVEAVDYLP
+KPGWVSSAGRTLTEEGLARLSALRDELRQLRGYVGEDLTTLIGEVERRILLDIEVAAKPG
+ISIHESRRNLDAFIDAAATFSASADRVDLAAFLAWLEVADEEENGLPVTALETSREAVQL
+LTVHASKGLEWDVVAVPGLSEGQFPNVKDSRWSSGNSAIPWNLRGDGPDLPQWDWEQPDQ
+KSWLEAEKQFAEDARGHAEREERRLAYVAFTRAKDILFCTSSAWGGGRTKPTPASRYQLE
+LYELGKGGAPGYHLLSWLEPEDEGDENPANAAVERASWPKDPLPAERRAAMEAAAEAVLA
+AARESVPPAGSRDKGAVSETGNDVFEPRRWGRDVELVLARHRAPDEVMEVELPAHISASM
+LVDLQDDPEAVTRQLRRPVPREPGMAARKGTAFHAWIEEYFGRSGMLDIDEYPGAADAYV
+DEAYQLEDMVATFEASEWAPRTPAYIEVPVETRVNSVVVRGRIDAVFQDEDGGWDLIDWK
+TGAPPSKEKLAVRSVQLAVYRLAWARLKGVPLETVRAAFYYVAADKVIRPHNLLGEEELE
+RIILDAAGGPDA
+>tr|A0A0P7G7H4|A0A0P7G7H4_9MICC
+MSLAHADSAESTRTSDFGRTPPQDLVAEQSVLGGMMLSKDAIADCVEVLRGVDFYRPAHE
+AIYEAIIDLYGRGEPADAVTVSDELTKRGEISRIGGPAYLHTLIQSVPTAANAGFYAEIV
+RERAVLRRLVDAGTKIVQLGYSNDGEVDDLVNAAQAEVYAVAERRTAEDYVPLKDIIEGT
+VDEIESAGHRGEGMTGVPTGFYELDELTQGLHGGQMIVIAARPAVGKSTFALDFARSAAI
+KHNMTTVFFSLEMGRNEIAMRLLSAEATIGLQDLRKGTIKDEQWGKIATTMGRMNDAPLF
+IDDSPNMSLMEIRAKCRRLKQRHDLKLVVLDYLQLMSSGKRVESRQQEVSEFSRALKLLA
+KELEVPVIALSQLNRGSEQRTDKKPMVSDLRESGSIEQDADMVILLHREDIYDKESPRAG
+EADVIVAKHRNGPTKTIVVGFQGHYSRFSNMAVEGGSGF
+>tr|A0A0P7GTD1|A0A0P7GTD1_9MICC
+MVHLNDPEVITRLLTAKGRWAVVGLSNNPARPAVGVSRFVRDSLGMEIIPVNLSGQAVHG
+QQGYSKLADIPGQVDVVDCFVNSAKVGNIVDQAIAIGAKAVWLQLGVVDEDAVKRAANAG
+LDVVMNTCPVIEAGRFGL
+>tr|A0A0P7GM03|A0A0P7GM03_9MICC
+MFDVVEAGIAELREALESGKTTSEELVLAYLARIEAYDQSGPQLNAVVVRNPEALAEARA
+SDARRARGESLGPLDGIPYTAKNSFKVRGLTVAAGSPAFADLVAQEDAFTISRLRNAGAV
+LIGLTNMPPMANGGMQRGLYGRAESPYSADFLTSAFASGSSNGSGTATAASFAAFGLGEE
+SWSSGRAPASCNALCAYTPSRGVISIRGNWPLVPTMDVVVPHTRTMADLLEVLDVIVADD
+AETRGDFWRAQPWVEIPSASSVRPPSYAGLAVPAPEAARAVLAGKRFGVPKMYINADPDA
+GTADSPGIGGPTGQRIETRESVVELWRAARRDLEAAGAEVVEVDFPVVSNYEGDRPGAPT
+IATRGLVSPEFLHREIVDLSAWAWDDFLAANGDPNLNTLADVDGDAIFPHPEGALPDQYT
+GFDDDIANYPDHVRNHPVESFTEIPHLAGGLRGLEETRRVDLEVWMDSLGLDAVVFPAVA
+DVGPADADVNPDSAALAWRNGVWVANGNLVPRHLGIPTVTVPMGTTADTGMPVGLTFAGR
+GWDDNALLRFGAAFEATGSRRTEPPRTPRL
+>tr|A0A0P7FXE8|A0A0P7FXE8_9MICC
+MRWQEQEPKAAPSADALLPLQGLVRSVQTPGFAGVTFHEVLAKSVLNKVPKTSSMPFCWT
+VNPYRGCSHACVYCFARKTHSYLDLDTGADFDSQLVVKTNAGEVLRKELAKPSWQYEHVA
+MGTNTDPYQRAEGRYKLMPDIIRALADSGTPFSILTKGTLLARDLPLLAEAAQQTSISMG
+ISLALLDPDLAHQVEPGTPSPKARLDLIRRIRDAGMDCNVMAMPILPWLTDGDESLDALF
+SALADAGAMSVTAGALHLRPGAREWYREWLARDYPQLSARYDQLYDGGTYASKEYRQWLA
+GRITHFKKRHGFAGKNQFLATRGAARPAPKTAAGLPVAAGTLF
+>tr|A0A0P7G656|A0A0P7G656_9MICC
+MRMAFVLGEIGSGIRRNLSMVVSVILVTFVSLTFVGAAGLLQMQINQMKGYWYDRVQVAV
+FLCVDNDVSPSCASGAVTDEQRSAIETKLNSAEFEQYIDTVHFEDQATALGHFREQFANS
+PIVDSVTADQLPETFRVSLVDPEKYEVINEAFSSMPGVESVSDQRELLEKVFSFMNIASL
+VALIIAVLMLVCAILLIATTIRLSAFSRRRETGIMRLVGASKAVIQLPFVLEGVIAALIG
+AVLASGTLWAVAHFFIGMLARQYPATAFISAREVLLLSPILLILGTLLAGVSSLLTLRRY
+IKV
+>tr|A0A0P7GAF9|A0A0P7GAF9_9MICC
+MFHKEETGSASPLRDPRDRRLSRIAGPSSLVIFGVTGDLARKKLIPAVYDLANRGLLPPS
+FSLVGFGRREWSDSDFAGYVKEAVQEGSRTDFSENVWEQLVEGIRFVQGGFDDHKAFDAL
+RSTLQDLDEKRGTRGNVAFYLSVPPKSFEQVCQQLSSHGLADSSGGSWRRVVIEKPFGHD
+LQSARDLNHVVESVFPADSVFRIDHYLGKETVQNILALRFANQLFEPIWNANYVDHVQIT
+MAEDIGIGGRAGYYDGVGAARDVIQNHLLQLLALTAMEEPISFNAGHLRAEKEKVLAAVR
+LPQDLSRHSARGQYTGGWQGGEKVTGFLEEEGFNPESRTETFAAVRLDINTRRWAGVPFY
+LRAGKRLGRRVTEIAVVFKRAPNLLFRDHAEDDFGQNAVVIRVQPDEGATIRFGSKVPGT
+QMEVRDVSMDFGYGHSFTESSPEAYERLILDVLLGEPPLFPRHQEVELSWKIVDPFEEYW
+ASLDEQPEPYAPGSWGPASADELLARDGRTWRRP
+>tr|A0A0P7HPP2|A0A0P7HPP2_9MICC
+MPVFDDIAPQLAAQAIELPSWAFGNSGTRFKVFSTPGTPRTVQEKIADAAQVHRFTGLAP
+AVALHIPWDKVDDYAALARYAADQGVSLGTINSNTFQDEEYKFGSLTHADPGVRRKAIDH
+HLECLEIMNATGSRDLKIWLADGTNYAGQQDMRGRQDRLAESLAEIYSNLGSEQRLVLEY
+KFFEPAFYHTDVPDWGTAYTQVAALGDQAKVCLDTGHHAPGTNIEFIVMQLLRLGKLGSF
+DFNSRNYADDDLIVGAADPFQLFRIMVEVVRGGGLNPENGVAFMLDQCHNIEDKIPGQIR
+SVLNVQEMTARALLIDGEALAAAQAAGDVLGAHEVLMDAFYTDVRPQLAAWRESRGLPAN
+PMAAYAASGYQQRIAEERVGGTQASWGS
+>tr|A0A0P7HWI5|A0A0P7HWI5_9MICC
+MFEWLTAPSSWEGSRGIFARILEHLGYTALAVGIAALIAVPLGLYIGHTGRGRVVVVSGV
+GILRALPTLGLVFLFVLLAGVGLMPPIWALVLLAIPPLLAGVYAGISSVDRTVVDAARAM
+GMSETQILFKVELPNGLKVVFGGVRAAVLQVLATVSVVAFISLGGLGVYLTEGTQLRDNG
+RLFGGALLIALLALAVDLVLAAVQRLVLSPGLRSSSSRKPATHRSRQVSPAGVQGGRTA
+>tr|A0A0N8HXQ0|A0A0N8HXQ0_9MICC
+MGDHSGHSHGLPSGTATGRHRRKLLAVFLITISVVVIQAIGALLSGSLALLADSGHMLSD
+AAGVSIALLAAWIAGRPATSKRTYGYQRAEVLAALANAVLLIVIAVVIFTEAVRRIGDAP
+EVQTGIMLFAAILGGLANLVSLLILRSGRKESLNVRGAYLEVLGDLLGSAAVVISAVVII
+LTGYQQADVWASFLIAAMILPRAWSLLREVIDVLLEATPQGVDVEMIREHIGRVEGVQDA
+HDIHIWTITSGVPVFSAHVVVDEEYLTPQGMDTILDRLSGCLSSHFDTEHCTFQLEPERH
+AVHEGERHA
+>tr|A0A0P7FZL5|A0A0P7FZL5_9MICC
+MRREKKKYPHDTHPGLIPGIAVDEQRVRYGTDPLVFGVAAVLILGFVAWGVFSTESLKSV
+SDVALGWVVTNTGWLFSALIAVVLVFMLFVGFSRYGKIPLGVDGEKPEYSTFSWVAMMFS
+AGIGIGLFFFGPYEPLTYFMTPNPGEAAPESAVALHKAMAQSFFHWGLNAWAIYALVGAA
+IAYGSFRRGRVPLMSAIFTPLLGRRKTEGVAGRLIDMFAIIATLFGTAASLGIGALQIGR
+GVEIISGIGRLPNAVLIGIIAILTAAFIASAVSGIGRGIRWLSNVNISLAIILVAFIFLT
+GPTLFLLNLIPSSLAEYLSDLLHLMSKGPSWGAEAADFSANWTVFYWAWWISWSPFVGIF
+LARISRGRTLREYVQYVLVVPTLVSVIAFGVFGGTAIWMRMQGMDISADGAPESLFFQVL
+DGLPLSTITPLLAMFCIAIFFITSADSASLVMGSLSQRGKPHPDRKVTVFWGLAMMGIAV
+VMLLVGGNQALSGLQNLIIVSALPFAVILLLMMVALIRDLQTDPLIIRREYATAALENAV
+RAGIDEHGDDFAITVEKTPHGQGAGADFDSHDRTVTDWYQRTDEDGKPVEYDYESGEYAD
+GWTADDDSAAATESDAGDGDSGQDRGSGASGDHRRAPVS
+>tr|A0A0P7GK90|A0A0P7GK90_9MICC
+MDFQQLAGFAAVSITLAMTPGADWAYCISSGLRARRVAPSVAGLCAGYLVHTALIVAGLA
+ALIAASPGLLTGLTLAGAAYLLWLGISTMRSWRGAGFTDGSTTPVPAAGAEAEPAGAEGS
+GSSGSGSVALAVRAPVRSRRAVERREFLKGLGTSGTNPKALLLYLALIPQFVDPAAALAL
+PLQSLVLGLSHFGVSVLVYTLVALGARRLLRSRPAAARAVTLASGILMVCVALVLLGERL
+LLLA
+>tr|A0A0P7FU49|A0A0P7FU49_9MICC
+MTAAAQGSSTARTYLGSNRDSNRQHNLSTVLQLVHSTAGISRAQLTRTTGLNRSTIAALV
+AELSQLGLVVESDIDPAQQHGRPSIMIEPGPAILALAVNPDVDVVSVALVSLGGRIVNAV
+RFHTVRAPSVVEVVNIVSAVYAGMRTALPPDHRVVGAGLAIPGLVEPGGGKVIEAPHLDW
+RDEPLPALLGDALHLNTVTANDAVVGARAQAAFGAGQGVPDLVYLYGGASGIGGGIISGG
+HLVKGATGFAGQLGHTHVRTGGAPCSCGSRGCLEAEVTREALIQAIGLPAGETENLEEIL
+LEKLEDGSAGDEVRAVIQEQVSLLAVGLKTVTSLVNPSVVVLGGFLRILVRAAPGALEKA
+LAGFRNHGPWENVKIELAPLGEDPILIGAAELVFEPLLADPAGFLQKQSGS
+>tr|A0A0P7FXR1|A0A0P7FXR1_9MICC
+MLEPNIRRQILDAVDTAFEKQLAFTAELVAVPSLRGQERSAQDLMYSAMEERGLAMDRWT
+LDVDELSSHPGFGPVTVSYAEADNVVGTYEPAGPGGRSLILNGHVDVVPTGPLENWSRSP
+WDPAVVDGWMHGRGAGDMKAGHAAALFAFDAVRAAGFDPAGRIHFQSVVEEESTGNGSLS
+ALMRGYTADAVLIPEPEENMLVRANVGVIWFTVRVAGQPTHPREMAKGFNAVDAAYAVIA
+ELRELEERWNAERGRHEYFSDLDHPINFNVGGIAGGDWPSSVPAWCELQMRVSIYPGQGV
+DEAWAEIEETLRSAARRPELAGTVPAAQRTGFNAEGYVLEPGSDAERTLAEAHQTAFGTD
+LESFTTPGYLDARVFTLYAGIPSLVYGPRSEDIHGFDERVHLESVRRVTKSIALFIADWC
+GVSPRA
+>tr|A0A0P7G3V4|A0A0P7G3V4_9MICC
+MDLNTVDELIPTADPAEYRPGDAWLAGGTVLFSNGSSTLRRLLDLSGAGWEPLTVREAGL
+EIAATCTIAELHGFASDLPPAAAGWPALDLIHPCCNAFVASHKVWNVSTVGGNLCTALPA
+GPMTAITAALDGQALLLSPAGTRRTLPVAELVTGDGQTALTPGELLRSITLPAHALASRT
+AMRRQSLTNLGRSAVLLIGRVDPDGAFVLTVTAATIRPVQLRFDLVPDAPELCRALEAAI
+PFSIYHDDVHGLPEWRRFMTEQFSEEIRSELAGEPKG
+>tr|A0A0P7GUT6|A0A0P7GUT6_9MICC
+MTATLNRPVQKQPVKPRTTFRQRLSRWDMKASPYFYISPFFILFGITGLFPLVYTFWVSL
+HEWHLLKGQGDFIGLQNFVSVLGDTRFWGSLFNTFSIFLLSAIPQLVVAVFLAAILDQHL
+RAKTFWRMSVLLPYVVTPVAVALIFSKMFAENNGLLNNLLGNFGVDPIMWQTGTLPSHIA
+IATMVNWRWTGYNALILLAAMQAVPRDLYESAAIDGAGAVRRFFSITLPSIRPTMIFVII
+TATIGGLQIFAEPKLFDPVNAGGIQGQFQTTVLFLWDMGFQRQNFGKASAVAWLLFLIIV
+LVGLVNFLISKRIATGDSQRPRVSRRKS
+>tr|A0A0P7G785|A0A0P7G785_9MICC
+MVNITTRPVTRLGIVGAGSVGTAMAYASLIREAAREIVIYDIDGTRAEAEALDLSHGTQF
+TGANTVTGGGRMEALAGADVIVVTAGARQKPGQSRLDLAAANVRIMETLMPALMEQAPEA
+VYILVTNPCDILTVAAQKITGLPPNRIFSSGTVLDTSRLRLLVARTAHVLMTSVHATIIG
+EHGDSEFPVWSSATIGPVPIREWTISGRQVFTDEVLDSITDDVVNAAYKVIEGKGATNYA
+IGLAGTRIVEAVFQAENAVLPVSAMLRGVHGISGVALSLPSIVGSGGVYKMLEMPLDERE
+TQLLQDSADTLKQNLAALGI
+>tr|A0A0N8HY22|A0A0N8HY22_9MICC
+MEAASRPARRRRRLRQTRVIVLRRLGLGVPVAVGVSLLVFLLASISPFDPLAAYLGDRFA
+QTSAEQREVLSESLGLGTSWIQAWWHWVTSALSGDLGYSRVFRQPVASVISERLPWTLLV
+AGTGLLLAAVGSLLLAARCARRPGGLLDRITAAAATLLQGLPPFVISLGLLMVFALGLGL
+LPGGGLSDPGTEPTAGQVLRHMILPVTATALSQLPWLALSLRASTREALASDAVRGALLR
+GLSERTVVRRHVMPAALAPFIAVLGTRLPEVIVGAVLVETVFSWPGLAAAVVSSAQALDF
+ALLAALTVLTTAAVLAGSLVADLLYVWIDPRVSADV
+>tr|A0A0P7FB89|A0A0P7FB89_9MICC
+MVQHYREALPPNDYPICVTCGTQYGGPRADCPVCLDERQYVPLSGQAWTTLSKLRSGARR
+ASIHPQGPGVLGIGSEPKFAIGQRALLVKALDGNVLWDCVPYLDEEMIDLINAEGGLTAI
+AISHPHYYAIMVDWAREFGVPVYLHSADREWVGRTDPALQFWDGDRLELAEGLVLYRPGV
+HFPGGTVMHWADDPDGLGALFSGDIIQVIPDFTHVAFMYSYPNLIPERPDVVEAAAELLA
+PLSYERLYGAWWDYILPNGADRIVQDSARRYLKFTRG
+>tr|A0A0P7GA92|A0A0P7GA92_9MICC
+MTQQFYVSPEQLMKDRADFARKGIARGRSVVVLTCRDGIAFVAENPSPSLHKLGEIYDRI
+GFAAVGKYNEFESLRQAGVRYADVRGYSYAREDVSARGLASVYAQSLGSVFTAEGKPFEV
+ELAVAEVGREPYSDHLYRLTYDGSIADESNYVVMGGQAEIVNDSLARTWSPDTPFSEAIQ
+IAVRALSATRQAPESAPAPDTEPAPGTELLGAGLLEVAVLDRDPLSTRGTVRAFRRIGTV
+ELDRLLSSAEGD
+>tr|A0A0P7HGY2|A0A0P7HGY2_9MICC
+MDSPIDHYLQRIHAEIADLKDGKPYSSIPAMANVDPDHFGIVLATADGFVYEVGNTREEF
+SIQSISKPFTYGLALADRGMDEVDAKVDVEPSGDSFNEISLAEGTGRPANAMINAGALTA
+TSLVRGAGGNSRFKRILNTYSAFAGRQLSVSEKIYQSELRSGHRNHALAYLLRSFDIIES
+DPTPVIEDYFRQCSVMVNTLDLAMMAATLANSGRNPLTNDQVLDIAPVERVLSVMATCGM
+YDDAGAWMSSVGMPAKSGVAGGTIAVLPGQIGLAVYSPPLDAHGSSVRGVAVSQRLSSDL
+ELHFVRAGRTGRSALRGSYDIGTTPSGIRRSEEAANVLRSNIHRARVLELNGDLLFAGAE
+AMVRELASLDDDVVLVVLDLRSVDEVSGVAMRMFAEAADMLTRGGRSLAIVDADGTVAAS
+LVEDGHDVQAFATRSGAVEWCEEELLERYAADLVQPARILPKDSPALAPLGEDSAKDLSS
+RMEKLTYDDGDVIRRIGQRFSGVYFIASGHVQTLMPGPDGHRVKLTRLGAGMTFGEMALG
+EDRRQETTVKADGAVEVWRLPADVIHQIEEDEPRLAMQFWRALTQDAYTRVEQYLRETAV
+RVQD
+>tr|A0A0P7GE57|A0A0P7GE57_9MICC
+MAPDWAEALAPEAARLHSIGDELERRRRSGTHILPPPESILRAFALPAERVKVLIIGQDP
+YPTPGHAVGLSFSVAPTVRPLPRSLVNIYRELKDDLGIEPAAHGDLSAWADQGVLLLNRA
+LSVDAGQANSHRNLGWEPITELAVRTLAARRRADGSPAPLVAVLWGRQAQALSPLLGAAA
+RIESAHPSPLSASRGFFGSRPFSRVNALLREQGASPIDWRLPGVR
+>tr|A0A0P7FQ78|A0A0P7FQ78_9MICC
+MTGEINGSLNLIGYGLSAIGGAIGVGLVFAAYINGVARQPEAQRVLQPIAFLGLALTEAL
+AILGLVFAFVLG
+>tr|A0A0P7GA37|A0A0P7GA37_9MICC
+MSTSTSENAGLVGTEAAEELPTHDVMLSEVAAGKVRSLLEQEGRTDLRLRVAVQPGGCSG
+LIYQLYFDERVLDGDAVRDFDGVEVIVDKMSVPYLAGASIDFEDTISKQGFTIDNPNAGG
+SCACGDSFH
+>tr|A0A0P7FXY6|A0A0P7FXY6_9MICC
+MPELPEVEVVRRGLARWVRGRTITGVEVLDTRSIRRHAPGPEDLRGNLEGARVLDVVRRG
+KFLWMPVAEASAPDAEPPFALMAHLGMSGQLLMEDPSLPDEKHLKVRFTLSPAVDADGTV
+MPQELRFVDQRIFGGVFLADLLPTPDGEPGGLSETGLPLVPSEAAHIARDPLDPAFSFDT
+FYRRLRARRTGIKRALLDQGLVSGVGNIYADEALWAAKLHFARPTDTMRRADALRLVEAA
+RDVMLRALEAGGTSFDSLYVNVNGASGYFARSLNAYGREGEPCPRCEVAGLPTLIRRDSF
+MNRSSYSCPVCQKRPRNGRW
+>tr|A0A0P7H8F4|A0A0P7H8F4_9MICC
+MLNDVSPLRVAMIGHGFMGAAHSQGWRVAPRFFDLPAAPEMALLVGRDAARAEVAARKWG
+WEQTETDWRAAVARDDIDVIDIVTPGASHAEIAVAALEAGKHVLCEKPLANTLEEAEAMA
+AAAERADGRAMVGFTYRRVPAASFARDLVQSGAVGEIRQVRAVYLQDWLVDPEAPLTWRL
+QKDAAGSGALGDLGAHAVDLAQFITGQKITAVSGTLNTFVHERPLLGEASGLAGTGTEER
+GPVTVDDLALFNSRFDGGAMGSFEATRMSTGRKNALRVEVAGSRGAVSFDLEKMNSLGFY
+DATAPATRQGFTDIMVTEPEHPYMSAWWPTGHMLGYEHGFTHQVRDFVEAIAAGRQPEPS
+FADGLQVQTVLSGVERSAANESTWTKTES
+>tr|A0A0P7HNK1|A0A0P7HNK1_9MICC
+MSSGSNSTDLSSSDTSLEDFIGNYYEHLAAEDAALYPPQALRERAEAHRSLAWTRAEGTA
+AVDVFDQGDASVILIVTDDMPFLVDSVTAEIVRQNSGIRLMVHPTFLATRHKDSDTLQQV
+KRVPNAAGISSGDTAALPDISGLLGGSGATTRIESWIAVEVPRLTDESRRKDMVDGLVRV
+LDDVRLAVKDWSGMRAKVHEIAAELATAGPGIPDLQQARELLTWLDDGNFTFLGYREYDL
+LNEDGEDVLRASSGTGLGLLRRRSEAGKVQHLTTAGRAKAREKRALVITKANSRSTVHRA
+AYFDYIGVKRFDADGNVNGERRFIGLFATGAYTGSVREIPILRDKVQDVMRRAGFPADSH
+SGKDLLSIMETFPRDELFQMDADSLLETAQGILRLQERRRTRLFLRPDVYGRFMSALVFL
+PRDRYTTSVRLRIQDELRATFSAESIDYEARLTESALARLFFRIRLPKGAEIGDVDAAAL
+ERRLVNATRSWSEGIDEVLRGKFEREQAEQLSALWGDAFPMDYRVGYEVEDALEDIARFE
+DRLQNTETAPELFVYLPAGGADSADARVKLYLLEPRSLTQILPFLHNLGLEVLDERPFEI
+KRQDGVELFLYDLGLRYRPGVDPLETGSLLAAAFRAGISGASESDALERLILGQGLGWRE
+VVMFRSYAKYMRQMGNTNSYGFIADTLMGNPRVTGALGRMFRARFDPSLEDEKRAAEMEA
+ARSDLDAGLEQVPTLDADRVLRTFANLIEATLRTNFYQDKPYVSHKLNTAAIDGAPFPRP
+KYEIWVYSPRVEGVHLRFGEVARGGLRWSDRREDFRTEILGLVKAQTVKNAVIVPTGAKG
+GFYAKQLPDPAQDRGAWMEEGKESYRTFIRGLLDITDNLVVTEDGEQVRPPENVVRHDGD
+DSYLVVAADKGTASFSDIANALSAEYGFWLGDAFASGGSVGYDHKAMGITARGAWESVKR
+HFSELGVDTQNEDFTVVGVGDMSGDVFGNGMLLSKHIRLVAAFDHRHVFLDPNPDAARSH
+AERRRLFELPRSSWADYDENLISEGGGVFPRQSKSIPISAQVREVLGLDASVTRLSPPEL
+LRTILKAPVDLLYNGGIGTYIKASAETNAEVGDKANDAIRIDGRDVRAKVIGEGGNLGMT
+QRGRIEAALSGVILNTDAIDNSAGVDCSDHEVNIKIFVDRMVAAGRLDASERSAFLHSMT
+DEVGRLVLQDNIDQNMLLLNDRQRVIEWSPSFERLMDWLEEHAGLDRALEALPTKDELRA
+RVAEGHGLSAPELSVLAAYAKIELTRALTASDLADDPYFRRTLRRYFPKQLVERFDDQLD
+THPLRREIISTMVANDMINIGGITFAFRVMEETSATEATVARAFSALREIYAIDDVVAAL
+GELPASFPTETWTSIHLDMRRLLDRAVRWFVNHVGRGSSIDEDIQAFKPIVEPLRKDLMR
+FMCGADRDRVEAALEKASGWDVPKELGTYWAEQFESYGLLDVALATRQVQEPAENIAAVY
+YAVYDRYGIDDLLERITKLPRGDRWQALARAALRDDLYSTVADMTVAALQATPSMEGEEP
+VARVEAWEQENADNLERATKMFAEVNQLEQDDMASLSVALRLLRSIVRR
+>tr|A0A0P7G7A1|A0A0P7G7A1_9MICC
+MGQLRIGTSGWTYSDWRHVLYPAGVPTGKWLEYYAAQFDTVEFNGSFYRWPREEAFARYR
+DRLPDGFEFSVKAPRGLSHARKLRDPEVWVDRITRCWQVLGNRAGVLLFQLPPDFERDDA
+RLAHVLGLLPETIRVAVEFRHASWNDPEIFALLARHNAAYCVMSGAQLPCILEATSDFVY
+VRLHGPDQHTLYAGSYPDEDLRWWAERIREWLAGGRDVYAYFNNDGGGAAVNNARRLREL
+LQ
+>tr|A0A0P7HEZ1|A0A0P7HEZ1_9MICC
+MSTAAAAFSELYGYAPDGVWSAPGRVNIIGEHTDYNDGFVFPMAIDRRARVAAAQRQDGV
+LRLATTAPGEPAEIAAADLAPGVLSGWSRYLAGVHWAFGQRGVRVPGMDILLESDVPVGA
+GLSSSAAIECAAALAFAEAAGADLPREELVLICQQAENDFAGAPTGILDQSASLLSREGH
+GLFLDCRSRQSRLVSLDLGSEGMTVLVIDTKVSHAHDSGGYAERRRDCERAAEELGVGAL
+RDVDLSDLVLSAQGMDQRAYRRARHVVSENSRVLTAVGQLEAGRPIRSLGPVLASSHESL
+RDDFEVSCPELDLAVEAAMAAGAAGARMTGGGFGGSALALVTEAGADSVERAVTRVFARA
+GYTVPEVFAVDPGAGARRES
+>tr|A0A0N8HX09|A0A0N8HX09_9MICC
+MSRTATAAATRSGDARPVRGTLAARKRQRRPLTLGRVLTYAALTLGAVVVLFPVYFGFVG
+SFMGPADINAYPASLWPFNGFRVENFTGALDSIPLGRQYMNSVVMAGLITLGQIVTSLLA
+AYALVFLKVRGRVFWFALFLCSMMVPAEAIIIPNYLTMSSAGLINTIPALVLPFLAHGFG
+IFLLRQAFLSFPVELWEAARIDGAGHMRFLLSVLVPLSKPTLAALGIWSFLSAWNMYFWP
+LLVTQTPQMQTIQIGITQLRSADNFNAGLVLAGTVLAIIPTLLLVIFGQRFIVRGLTAGS
+IK
+>tr|A0A0P7GTC6|A0A0P7GTC6_9MICC
+MSDRQFGFRTRALHAGGTPDAIHGARAVPIYQSTSFVFKDTADAANLFSLQKYGNIYSRI
+GNPTVAAFEERIASLEGGIGAVATASGMSAEFVTFAAICSAGDHIVAASQLYGGTVTQLD
+VTLRRFGIETTFVPGTDPADYAAAIQENTKAVYAEVVANPSGEVTDIEGLAKVAHDAGVP
+LILDATLSTPYLVQPFKHGADIVIHSATKFIGGHGTTLGGVVVESGTFNWGNGKFPAMTE
+PVPSYGNISWWGNFGEYGFLTKLRSEQLRDIGPTLSAQSAFQLLQGVETLAQRVDEHLRN
+AQAVAEWLEADERVAWVSYAGLESHPHHERAKKYLPKGPGSVFSFGVKGGRSAGQTFIES
+LQLASHLANVGDSRTLVIHPASTTHQQLSPEQLAAGGVPEDLVRISVGLEDLEDILWDLD
+QALTAAAAGAAPAAAEPAAACSIPLETEESANV
+>tr|A0A0N8HXU3|A0A0N8HXU3_9MICC
+MARATSDLVSAFSADQVVGEDVEPSWNVAPTDDVRIITERKGPDGNVRRLATAKWGLVPV
+WAKDTKIGARLINARRETILEKPAFRKAAVKRRALVPADGYYEWEKTEEGKIPTYLHPTV
+PDPIAFAGLYEFWPDPNLPEDHEHKWLLSVTIITTEATDELGHIHDRTPLVVPPDLYSEW
+LDPGLTDAEAIASLLDSIPEPVLSPRVVSSEVNSVRNNGPQLIEPAQDR
+>tr|A0A0P7GC80|A0A0P7GC80_9MICC
+MTTLSFEAAGAAREAVEAHVPALVRDEVATRLLAQDPTLWGPDAEAEASIRLGWLNPAPS
+SRPLLGQIRELREELAAEGVDRVVLAGMGGSSLAPEVITRTAGVSLTVLDSTDPDSVAAA
+LAEDLASTVLVVSSKSGSTVETDSQRRAFEDAFTTAGIDAKSRIVVVTDPGSPLDAAARE
+AGYRAVFNADPNVGGRYSALTAFGLVPSGLAGADIEGLLDAAEDTAEILSDNAEDNIGLA
+LGAALGGTNPLRNKIVIVDEESGLAGFPDWAEQLIAESTGKLQTGILPVVAEPGAPETLS
+GAPDVLVVRIVSPDSEALPEGDQVVVSGSLGAQMMLWEYATAVAGRLLGINPFDQPDVEA
+AKKAARGLLDAQPEPVAASFVDGSVEVRGEEALLGDSHTLTAALQALLGQLGGDGYLSVQ
+AYLDRAKQTELEKIRPELAQATGRPVTFGWGPRFLHSTGQFHKGGPAQGVYLQITGTPAG
+DQAIPGRPFTFGELIAAQAAGDAQVLADHGRPVLRLNLLNRDAGVAQLAAAIQDLGGK
+>tr|A0A0P7GUF2|A0A0P7GUF2_9MICC
+MTTLEYTSEEAGTRVAPRVVPVSKGRIVVNWITSTDHKTIGYMYLIASFIFFCLGGVMAL
+VIRAELFEPGMQILQTKEQYNQLFTMHGTVMLLMFATPLFSGFANVMMPLQIGAPDVAFP
+RLNALAFWFFLFGSIIAVSGFITPQGAASFGWFAYAPLSNTTFSPGVGGDLWVFGLALSG
+FGTILGAVNFITTIICMRAPGMTMWRMPIFTWNTLVTGILILMAFPPLAAALFALGADRR
+FGAHIFDPENGGAVLWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPIFGYKGLVYA
+TIAIAALSVTVWAHHMYVTGAVMLPFFAFMTMLIAVPTGVKFFNWIGTMWRGSITFETPM
+LWSIGFLITFLFGGLTGIILSAPPLDFHVSDTYFVVAHFHYVVFGTVVFAMFAGFYFWWP
+KWTGKMLNERLGKIHFWLLFLGFHGTFMIQHWLGVIGMPRRYADYLVEDNFTAMNQFSTI
+ASFVLGASLIPFFWNVYITWRHGKKVEVDDPWGFGASLEWATSCPPPRHNFTSLPRIRSE
+RPALDLHHPELQQTVTNESAPGQVYGSADRKESVK
+>tr|A0A0P7GE23|A0A0P7GE23_9MICC
+MLEETVIPVVDIFAGPGGLNEGFSSIRDQDGNRVFKTVLSIEMETSAVKTLTLRAAHRFL
+LDLPEGQPEIYKRFLAKDVTYDEMRVAPEVAAAFAHAEDEVRQFTLSEDSRPESDALIRE
+SLKDASEWVLIGGPPCQAYSMAGRSRRKHDATFKDDHKHFLYKEYLHIITEFRPAVFVME
+NVKGMLSSKSGDGKIFELIEQDLRGPGYDLHSMVVSSDTGELKPTDFIIKSEQFGIPQKR
+HRVIIVGLRRDAQLPAPKVLEPREAVTVQDAIWSLPHLRSGISRQPQATWEDWARIRQQA
+HKSLRALPGKEQAAAPRLYELGTRSTAVRPAEPFAEDSAAGELQKWLREDAAPVTWNHEA
+RGHMLEDLVRYYLLAALVTADGQSPKVRSLPAAHWPKHNNINNVVVPFEDRFRVQAWGRP
+SSTVVSHIAKDGHYYIHPDHEQMRSLTVREAARLQTFPDNYVFLGNRTQQYTQVGNAVPP
+LLARKIASRIAEVLGVR
+>tr|A0A0P7H3B5|A0A0P7H3B5_9MICC
+MALRVLMVGRKHEDWVVDGIHRYEKRLKKPFDLSWVSIPHSARENDAARKEESERLLAKT
+GSDYVILLDERGKAITSPQLAKTLQKPLDNSRNVTLIIGGAYGVDQSVHDRADFVWSLSP
+LVFPHQLVRLILAEQVYRAQEIAAGRPYHHE
+>tr|A0A0P7FUA9|A0A0P7FUA9_9MICC
+MEQQSPPHDAQVLDVTRLKALAHPIRIALLESLSRYGAQTACSVAERLGESSGSTSYHLR
+QLAKHGFVREVEGRGTARERWWERVPEPIQTSAEMAKSPAARDATRILAKTVTNSNAKAL
+GDFVDHGESLPDEWVETSILLGTSLRLTLEEAQEVSRQASEQLEKLLSPFRGREDADGTR
+PVELHFNFFPLIDPGAQS
+>tr|A0A0P7H5X7|A0A0P7H5X7_9MICC
+MNNSAALPPVDPSSFRSKVHGCLLGGALGDALGYAVEFDSAEGIRARFGPSGLTGFNQLE
+LPAPVSDDTQMTLYTVDGLVEVLQWANDGVGADETACLWLAYLRWLKTQGEALPVNAPDQ
+PDRWIDGQEVLHHRRAPGNACLSGLLTGEMGTRKRPVNPDSKGCGTVMRSAPFGLLPYVA
+AETVYKFSADGAALTHGHPSALHSAAVFSTLIHDLLPADATLQAAAANAVERAAASGVPE
+LAQRLEAAVALASEDLAGQSRPSPERLKAALGEGWVAEEALAIGLYAALATADAGSPEQH
+FRKAAALAVNHDGDSDSTASVTGNILGVLYGREAMPAEWAAAIDARVTVEKMAEALLGVT
+VG
+>tr|A0A0P7GIV5|A0A0P7GIV5_9MICC
+MSVLIVGAGPAGSTAAYYLASAGIDVTVLEKTAFPREKVCGDGLTPRAVREIQLLGLPHD
+EADGWRRNKGLRLIAAGRTIELPWPDLADFPSYGLVRTRLGFDEELAQHARSAGARILER
+HSVTEAIRDEDGRVRGVVANVLDENGRKTGEAREFTADIVLAADGNSTRTALSLGIEKRD
+DRPLGVAVRTYFTSPRTNDDWMEGWLELPDAAGNPLPGYGWVFGVGDGTSNVGLGILNSS
+KEFGKLDYRQVLRDWTAGMPEEWGFTPENQVGEIRGAALPMGFNRTPHYSPGLLLLGDAG
+GMVSPFNGEGISYAMESARFAADYIVSAEQARRTPGVLSPQAAYDAALAGYAERVRNEWG
+SHFTLGRIFAGLIGKPAVMKLALRTGMPIPVLMRFVVRMLANLRDASPRGIEDRVIALME
+MLVPAASNQDGAPQPVRGAGSNARV
+>tr|A0A0P7FXT5|A0A0P7FXT5_9MICC
+MTFDAIGIAGTSLTVHRKWLDAVSDNLANMNNASSTDGAAFQARYVVAREGAANTGVYVS
+GVEYGDAEGRMVHEPNHALADENGYVRYPDIDMAEQMSALIMAQRGYEANAAVVDRAKAT
+YEAALQIGRS
+>tr|A0A0P7G3K6|A0A0P7G3K6_9MICC
+MTVTNPVPSSADHPRLVLRGAAVLETLLPDAAVVLDGGVVTYAGPSGGLAPAPADDVVDL
+APGQVMVPGLVDLHCHGAFGVDFSRADAAAIRGAVARLHAAGSTTLMASLVTDEPEVLLR
+QVALLAGLAEEGLIAGIHLEGPFLSEVRCGAQDPRWLLAPDLELAEALIRAGRGWLRTMT
+YAPELPGADALVELLAGHGVTPSLGHTACTAEQAHESLVRARQLLAASGQSGARPTVTHL
+FNGMDPMHHRAPGAVSACLRAAKAGNAAVELIADNTHLDPYLVATMFDLLGAGNIALVTD
+SMAAAGLADGQYRLGPAEVLVQDGVARLVSTGSIAGGTAAMVDLVRNSVGAGVPLADAVI
+SAAPVPAGVLGRGQELGSLVPGASADLIVLDQALVPVRVMRRGSWLS
+>tr|A0A0P7GHH2|A0A0P7GHH2_9MICC
+MSAQSSAAVPARPASATAGKKKSLLATTAGNILEWYEWSAYAVFAPFIAAAMFNPDDPVS
+ALLSTLAVFAVGFLMRPLGGIVFGRVADRRGRKFVLITTMLMMAGGSLVIGLMPSYETVG
+VWASVILLAARIGQGFAHGGESATANTYIAEIAPNHRRGMWGSIVFVAIFAGSILAYTVG
+GSVTAVLGESAVAEWGWRIPFILGAFLALAALYLRKGMMESEVFDAAAGAGADAAPPLPR
+RQIVRAIILMIAMTSGITAAHYTWTSYASTYAITQQDMPAASAYWVTVVAQLIALISLPF
+WGRLSDSVGRRPLMLGFAALMILLQLPLMGLISSDPWTLLVASSLALVVVAIPGALLSAT
+LSENFPTKVRTQGIGFAYSISVAVFGGTAPYLNAQLIEWNVGWMSSVYIMILCGCTAVAV
+WMMPETKGIDLKDA
+>tr|A0A0P7HDS3|A0A0P7HDS3_9MICC
+MLRTGVVLADQVGIDGFTMRTLAQELGVVPMALYKHVANKQELLEGMVDLVWSEVAEPRA
+RDGWKPAMRERAASLRNAMLRHRWAVGLMEAAGKPGPENLKQHNAMLGCLRESGFSFRST
+VHVMSLLDAYVYGFALQQKTLSFETPEESAKAAADTHAGETAEAAERYPYLIEVVSELAR
+SGYDYDAEFIVGLDVLLDGVEKLRGSWRVVES
+>tr|A0A0P7GE02|A0A0P7GE02_9MICC
+MPRPRSPLLSVEAIVSTALDLIDESGNFSFPRIAKRLEVSQSSLYNHIQNREHIIELIRA
+QVFAEQLQVPVEDLPWDEALRAVIRAYRDCIAAHPRLVPLILTQTVEDPGALSAYDTMAA
+ALEQAGLPPERIMAALSLIDNLVLGSAMELTAPAVVWAPPAGSFPALHRALDIPYTVEGR
+SEAAFELGLEVFISGLRALEFT
+>tr|A0A0P7G098|A0A0P7G098_9MICC
+MTITAAEYQARHDRIRESMRNEGLELLIVAGRDDIYSRGNMRYITDLAGAGYLVFPLEGK
+PILFMHPVQAASPKPGRGRPINDFVDIQVYANGAYGDPVLDVMNELRRRGTRSGIGFVGI
+AEIGAPVFQAVTEYATEPVRDATHILREARLIKTPEMLEYSRTSARLADEAYAILKDMAQ
+PGVTDYELYGAVKNHLFKNGSEYSLEVIDAEGAKMNFTWAPTGEVLQEGGHLFMEVTPAV
+GGVYAQLPFCLPIGEMTPKVHDLRSAWLDGFKVGESMLGPGARVSDISRAMKEPINARGY
+LTPFAQGHAIGLDVVDGWAIGDETNVVLQPGMTLALHPAAVEELGGDAFTCGATYLITDS
+GAERLSSLDFTN
+>tr|A0A0N8HY71|A0A0N8HY71_9MICC
+MDSPYVIRDAGPGDAPACAALYAPYVLETATTFEAEPPEPDEMRRRIAAAQEQHAWLVAA
+HDGGVAGYAYAGTWRSRAAYSRTAETSIYLDESVRGTGLGKRLYAALVQRLGEQGYRTLV
+AGMTLPNPASEALHGSLGFTPVGVFRRVGFKHGAWHHVGWMQLDLLPGSPPDSEG
+>tr|A0A0P7GBU7|A0A0P7GBU7_9MICC
+MARNKTVSGKSLLYFLGFSIVIGVVVGLTQGWQYSLLGLGAGLGPIIGVYFGNKKAAEVD
+AYRDEWLAKRKARREERSPESSTE
+>tr|A0A0P7GWP9|A0A0P7GWP9_9MICC
+MNKASEDVLLDRAFLALADPARRRIIARLSRGPATVNELAEPFEISKQAVSKHIQVLEQA
+QLVTRSRDAQRRPVHLNPARLEALTAWIDRYRLVLEGQFRSLDAVLKSEAVQHGQQAKDT
+QT
+>tr|A0A0P7GHK8|A0A0P7GHK8_9MICC
+MTEPQPTRWLSPQERSAWLSIYAVATRLPGTLDADLFRRARITLFDYHVLAMTSEAEGQQ
+LAMSELASRSNASLSRLSHVVKKLEQRGWMRRFPSPADARVTTAALTKEGMDALVELAPG
+HVEAVRAAVFDALDDKDVEDLTRVGTKILTLLDPASDRPGAPTEGS
+>tr|A0A0P7G4N4|A0A0P7G4N4_9MICC
+MTETVRAGYRVRASELEGRNWLNTGGRQLGLEDLRGKIVLLDFWTFCCINCLHVLDELRP
+LEAKYSDVLVTVGVHSPKFEHEADPVALAAAVERYEIHHPVLDDPELATWQAYTARAWPT
+LVVIDPEGYIVAHLSGEGHAAGLESLVAELVAEHEAKGTLHRGDGPYVPAEATSGDLRFP
+GKAVALPEGTFLVADTGHHRLVELEADLTTVRRTIGEGTKGWRDGDAGTARFNEPQGLAV
+LPAAVAETLDYDVLVADTVNHRLRGVNLATGAVTTVAGNGVQRLLDAENQSAPVSTDLGT
+DPLGTSLSSPWDVLWSTALNQAVIAMAGTHQIFAFDPATGALSILAGTGLEGLLDGDGDA
+AWFAQSSGLAQDAEGSIWVADSETSALRKLTFDTSGAETAVTVETAVGAGLFDFGYRDGA
+SAEARLQHPLGVAVLPDGSVAIADTYNGAVRRYDPAAQSVSTLSRGLAEPSGVLIDTTAA
+EPLLIVVEANKHQLVRLPIPKEAQSVDEGARQTQRPKTAIAAGPLGLTVRFAAPKGQKLD
+DRWGDPTQLKISSSPEELLVSGGGTAVGLVRELVLSDAVTEGVLHITARAAACDGEPGGE
+IPDHAACHLYQQDWGIPVVVQAGGETELTLDLRGLD
+>tr|A0A0P7HEG4|A0A0P7HEG4_9MICC
+MSARSKARTRALEVLFEAEQRSMSPLESLRSRREKTDQVINPYTMDLVEGVIAKQEQIDE
+FLSTYSQGWPLERMPAVDRIILRLGSWELLYNDEVPDKVAISEAVELAKSLSTDESPAFI
+NGLLSRLHQLKDSLLA
+>tr|A0A0N8HXM5|A0A0N8HXM5_9MICC
+MPISWRHSVRVQTEGDGHVTEDSCGFSASSAWVIDGATSLLPELDLPGASNPSWYARTLD
+LLLAESAVAVTGPADTGSAAGGVLAEALRRVDRVAEEQAGSERTRFPSAALALAQLTGNG
+VEVLVLADCHVAVELEDTSVVHVTSEPADLRVHRERPADPDQARELLRRDRELRNTPGRL
+WVARREPEAVQHAHLVRLPAPRRVVLASDGAWRAVDLGLVDSPCSFLRAASTPLGAQQLL
+LELRERQAAVGEKADDATILTVVPGA
+>tr|A0A0P7HIX5|A0A0P7HIX5_9MICC
+MLAESVPTFSNWDQDEQAEINDYLNSDRLALSADLESQLELAARVFDQVPDNSWDRAGLR
+GDGKEFTVQSFSSFVLHEVEHHLQDAKEGLRKVV
+>tr|A0A0P7GBG1|A0A0P7GBG1_9MICC
+MSRRILVTGASGLLGGAVAGVLAGQGHYVRTLQRRPASDPGLESVAGSITDRTAVDAAMA
+GIDAVVHLAAKVSFTGAWAEFQATNIDGTRNILDAARAAGVRDVVFVSSPSVAHFGEPIA
+GAGAGTADPERARGHYARSKAAAELLALAEDSADFRVAAIRPHIVWGPGDTQLVERVMDR
+ARSGRLPLLDEGAALIDTTYVDNAASAIARALDRMEQAHGQALVVTNGQPRMVREMISGI
+CAAAGIPAPSLSVPGWLARGAGSVIEKAWLAAGARGLVQDEPPMTRFLAEQLSTSHWFDQ
+RKTRQVLAWEPEVSVEDGMARLAKHYAA
+>tr|A0A0N8HZ50|A0A0N8HZ50_9MICC
+MREDFREAVLAVAALIPPGRVLAYGDIAELLDAGGPRQVGSVLSREGGSVPWWRVIRSSG
+EPPACHGRRAWTHYLREETPLRGSVEPDGSGYRVRISQARWQPDDAGWETLDALRNRLAA
+GASQAKQGMSPGHGEVEV
+>tr|A0A0P7G0C1|A0A0P7G0C1_9MICC
+MRYVKLGRSGATVSAIGLGCLGFGDPNRGTHAWTLREEESMNLIRRGLELGINLFDTANV
+YSAGDSERILGQALREYARREEVVIATKAHGEMAPGPNGWGLSRKHILWQVEESLRRLGT
+DYIDLYQIHRWDGSTPLEETLSTLDQLVQDGKVRYLGASTTYAWQLAKAVHLQRQNGWTG
+FVTMQDHYNLIYREEEREMYPLCLDEGIGVLAYCPLARGRLARPWHVESRRRGHDALADA
+MYGAHEETDRRISDAVGTVADAHGVSRAQVALAWVLGHPVVTAPLIGVTSLAQLDDDVAA
+LDLELTAEDLALLSEHYVPHGVVGF
+>tr|A0A0P7FG03|A0A0P7FG03_9MICC
+MSAHYDVVVLGAGPGGYVAAIRAAQLGLSVAVVEEKYWGGVCLNVGCIPSKALLRNAELA
+QIFTRQADTFGMHGEVSFDYGAAFDRSRQVADGRVKGVHFLMKKNKITEYDGRGVFKDAH
+TMEVTLSDGKTEEITFENAIIATGATVKLLPGVELSENVVTYETQILSRDLPRKMVIVGA
+GAIGMEFGYVLRSYGVDVTIIEFMDRALPNEDADVSKEITKQYKKLGIPIHTSAKVESVE
+DNGSSVTVKYTDKGGKEQSLEADRVMMSVGFAPRLDGYGLESTGVEVTDRGAIAIDDYMR
+TSVPNLFSIGDVTGKLQLAHVAEAQGVVAAETIAGAETMPLGDYRMMPRATFCQPQIASF
+GLTEAQARDEGHDVVVSTFPFTANGKAHGLGEPVGFVKLIADSAYGELLGGHLIGPDVSE
+LLPELTLAQKWDLTAAELARNVHTHPTLSEALQEAFHGLTGHMINF
+>tr|A0A0P7HWF7|A0A0P7HWF7_9MICC
+MKAVLQNGYGGPEVLTLQTVPLPSVSDKEVLVQVRAAGLAKGTWHVMTGTPYLLRAFFGL
+RTPRRPVAGLNLAGEVVAVGSSVTRFKPGDRVYGIGKGSFAEYSAALERKLAPMPRGLDF
+EQAAVLPVSGLTAMQSVTDVARVSAGQRVLILGASGGVGSLSVQLAVAAGAEVTGASSAA
+KADFVRELGAQTVLDYRLEDFAASPDGYDAVVDIAGNPSLSRLRRALKPGGTAALVGGEG
+GGRVTGGMFERQIAGGVLSILDRGHRQFRAVLAKESGAELERLTGLLESGGIVPHIDSRF
+PLAAAASAMERLESGKVQGSIVLTVSRD
+>tr|A0A0P7HVU2|A0A0P7HVU2_9MICC
+MGLTPSATSEQIKSAYRRAARRSHPDQGGSSELFHLVSEAYQVLSDPLQRSAYDRRLGHA
+GTGAAPNGSSPARPAGTGAGTAPGRPGRPAPNPDFGKSPVFEPDFSPQRPPAIPLAMISR
+QVNGEPERPGLFKRMGSSAGSRYDAENLTIGLLANSLLPDYPAGRLVNSLRIPDSGRRGG
+VLEIGHVLLGGYRMAVIDSMMASPGAWYWDGNTLRHRGHAVGSLRLDDAVRTLQERFPDV
+RVSGWLVLHNANQNPFEPVIDSPPNLPESAPVDVVNPGTLARDLRRFFSTGPQPNTVLLP
+VLGALLDAAKQ
+>tr|A0A0P7HEB3|A0A0P7HEB3_9MICC
+MIASLRGVVTYVGTASAVIDVNGIGMAVQATPQTLMSLRTGAEALLHTALIVREDSMTLF
+GFSEPGEREVFETLLGVSGVGPRIALAVLAVHTPEAVRIAASTGDDKAFSKVPGIGPKGA
+RRIVLELADKLVPLGTEEAPAAAPAWNDQVLSAMTGLGWSEKDAAAAIEATAAEHPEAAA
+AGSVAEILRLTLRRLGQDGARARSPQRAG
+>tr|A0A0P7GDS6|A0A0P7GDS6_9MICC
+MTKTPTPADRFTFGLWTVGWTGNDPFGTATRADLDPVEAVHKLADLGAYGVTFHDDDLVP
+FGSSSQERDLILKRFRAALAETGLQVPMVTTNLFSHPVFKDGGFSSNDRSVRRFALRKVL
+RNMDLAAELGAKTFVMWGGREGAEYDGSKDVSAALDRMREGVDTAAGYIKEQGYDLRIAL
+EPKPNEPRGDILLPTVGHALAFIAQLEHQDIVGLNPETGHEQMAGLNYTHGIAQALWAGK
+LFHIDLNGQKSIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPVYDGPRHFDYKPSRTD
+GYDGVWESAAANMSMYLLLKERALAFRADPEVQEALAASGVAELAEPTLAAGESTADLLA
+DTASFEEFDAEAAAQRSFGFIRLNQLALEHLLGAR
+>tr|A0A0P7FFE5|A0A0P7FFE5_9MICC
+MTIVRTALTQTTWTGDEESMVAKHEDFVRRAAAEGAQVICFQELFHGPYFGIVQDSKYYE
+YAQAVPGPLTERFSKLAAEHNMVIILPVYEEEQPGVYYNTAAVIDADGTYLGKYRKNHLP
+HVEKFWEKFYFRPGNLGWPVFDTAVGKVGVTICYDRHFPEGWRVLGLNGAQLVFNPNASK
+PGLSNRLWELEQPTAAAANGYFVVVPNRVGEETNEFGEEAVDFYGTSYIADPQGNYVGEV
+GARDGEELMIRDLDMELVRTARNNWQFYRDRRPEAYDPITAP
+>tr|A0A0P7FUM8|A0A0P7FUM8_9MICC
+MPVAEGAAAVLSAAARSSVEHEHRLKASTDRSGFVADSLPEGVVFAQDAGEVADVLRMAT
+RHGVPVVPRGAGTGLAGASSARQGEVVLDVSGMNRILRIDPEEQLAVVQPGVLNAELNAA
+AAEYGLFYAPDPASTAICSIGGNIATNAGGMRCAKYGVTREAVLALRVILADGRELRTGR
+ETIKGVSGYDLNALMIGSEGTLGVVVEATLRLRPLPVQTATVAAFFPNVEQAARAASAVV
+AARIQPSMMELMDGQTLEAVDAALGTDYRSRGASFLLVQTDGHGAFLEQDVVMDAVSPFG
+ICERAVDDEQAAALVTARREAIPSLEKLGRVSIGDIGVPRGKLAEVVAGLEDIAERTGVR
+IFTIAHASDGNLHPMIVMEPEDSVTEGPPKAALGEMFHLAKSLGGTLTGEHGIGLLKRDW
+LQEELGDVSLEVMHTIRQALDPLGILNPGKAI
+>tr|A0A0P7FY63|A0A0P7FY63_9MICC
+MTATAESFTPDAGTITMFSTSWCGYCRRLKSQLDSAGIGYTEVNIENTEGTAELVESLNG
+GNQTVPTVIFPDGSTATNPSAAEVKARLGL
+>tr|A0A0P7HDJ1|A0A0P7HDJ1_9MICC
+MSKLRIRVLGPICAEIEHTPLRLSKPRQREVLGILAAARGRSVSTQYLIEELWEDAPPGA
+VGAVRTFIGELRRILEPDRPARTPPAVLLTTAGGYALAPQMADVDLWRAEHAVQAAAGLD
+LAARKELLASALDEWRGAAFQEFSTRRWARAERARTAELRASTVEQLAETRLGLGRPGDV
+LTLLDGHVSEHPWREEGWRLLALALYRCARQGDALALLANARSTLRHDLGLDPGHRLADL
+EQRILRQDPSLDLVPDGGSSLLWQAVAAAGQTGKRAQLEGVACLLPVLAVSGSVRLAAEQ
+RLAAITAAEQFGDPELAARVIGGFEVPGSWTRSDDPVQSAAIVDAAVRTLNVLPPGTSAR
+VRARLLATVAMESRGTASRMAEAREAEQIARDLNDPSLMCFALSARYQQSFETAGLASAR
+EALGAEIVAVALEAELPTFEIQGRLLRMQALCALDDVAAASREADRIDGLAARFDRSLAT
+VFTGWFRWTFTDGPPPPDGTEMPGFHTGLPALAELTRAVRSGTDLPDGGFGPYEQWVRPL
+LLVRAGLREEARSALDTLPDPPRDLLLEVLWFLTGLAAVESRHRPAGRRASRALLPAAGE
+RAAGSGAVDVGPVQRLIDALRQLTGDVDQPL
+>tr|A0A0P7HVQ5|A0A0P7HVQ5_9MICC
+MDAPFEPANAEGGKTPPPQGVPAQAWAALENFLDVRTAAGAPLPEPAADPDCSLPGPGCT
+WDFGAETLVWSAGTGPRALRAEIYDRWKSSVRSLGWPVTSEYLFGGDYRTDFEKGSLIYV
+PRLGRIMDWNPAVEKAAVVIGDSQAGHDTWVGKGLASLGYTPVILGAGGTGYTQGNGTVD
+NYPSALETEQWLMPWGDPGLVVLQGGGNDAYGADNTQIRQNALQLIREVKRTYPRSRIVV
+VGVIGDGTGRRAEIDDLLGRVAAEQGLDFLSPRNWWKRYSLTSKLADGLHLSQAGHTAAA
+PVFARELGAVLKQGGD
+>tr|A0A0N8HXR8|A0A0N8HXR8_9MICC
+MTTSPLVTFNDGNTIPQLGYGVWRVEDELAEKTVGMAFEAGYRHIDTAKIYGNEAGVGRA
+IAASSLPREDMFITTKVWNADQGYEETLAAFDASMERLGLEYLDLYLIHWLQPKQGKYVD
+TWKALIELQKSGRVKSIGVCNFTVEALQEIIDATGVVPVLNQVETHPYLAQAELREFEAK
+HNIKHQSYSPLGSGQGLLDDAVLKDIAAKYDGATPAQVVIAWHLALGNIVIPKSVTESRI
+RENWAALDLKLSDEDIQAINALDNGTRFGADPATSDFA
+>tr|A0A0P7H3G7|A0A0P7H3G7_9MICC
+MDKGQTLRVAVIGAGPRGVSVLDRLLARYLELPAADRPVLQVSMVDPFNPGPGHVWRTSQ
+SRQFLMNTPCLFPTVVPAGRTAEELAPSATGLSLGQWVRLMAQDPAPALSAGDREEIACL
+GPADFPSRALYGRYLEWTYAHLADAAAQAGAVVVHHRAEALSLQRLGTGFVIELAGEDPL
+AADAVVLALGHLPAALTPEQNRLSDAASRLGLQYLPPAVPSDADFSVLPAGEPVLVRGLG
+LNFFDIMAHVTLGRGGVFVPTGEPAGRALRYEPSGREPVLVAASRRGTPYRAKAKLESYV
+PRSVTLRWFTQETAGRFAAEGIQPGFDHDLWPLLHRDAVWAYYSTLARTTPDCLTIPADD
+FLAELEAALNVAGPDWDAAKEEVLARCVPSDQRASLEALAQPLGRRPFAGPEDLDAEILR
+YLEDDAAGSAKGEDDPLKMAIGALNAGRSLLKAVVADGGLAEESWLTELRGWFEPLVEGL
+ASGPPPERIEQLAALVRAGLVHFVGPDPRFDVDEARAVFTASSPWVAGEYAATTLVEAMM
+PPNRVNATLSPLLADLLHRGEARPKVMMAPNGTPVLTPGLDVSLPPYRPLDVKGKPQENL
+YVLGLQLSSVQWGTAIAAESGAPASAGSRTLRDADDIAAALLAGPGLPRDRQEPARTGTD
+AVRAGA
+>tr|A0A0P7FNW0|A0A0P7FNW0_9MICC
+MAGIQPDAAGLAAVMGVLLCEGTFLTMPGITKHTYFLFPVWSGNLGLFGPFQPVHDRGAE
+PGSVPGPSSFGEISVLGLAAETFGE
+>tr|A0A0P7GKE1|A0A0P7GKE1_9MICC
+MGRNCVFASVTRLAAAGTAAALLLVACSSPDTARDSETTPFSSPSPGVSAEDELPDALQA
+ELQAQLEQVMERYEVPGAAAGVWVAGAGSWQAVSGTADAAGGAAVSPGMEWPLRSITKSY
+TVTLLLQLADEGLLNLDDTIGEYVDGVTNGDRITLRQLAEMSSGNADYTGDAFASEYEQD
+PARIFTLAELNSFVLGEPAEFEPGAQRVYTNANTNLLGAVIENVTGQPFSQVLGERILQP
+LALTSTSYVTDPSDWAQPHPTGYVEQDGVLEPQQENPSIFAAAGSLFSTVDDARVWAEAL
+ATGSLLEADTQDERQAGAPLETGPPYDQYALGIGETGGWWGHNGEGIGFTSAAFHDPDTG
+ATIVVFMNESNVPGVHPADEAFRSFAEVLAANPGR
+>tr|A0A0P7GSQ0|A0A0P7GSQ0_9MICC
+MPESSPAGRERVLAAAERLGLDVQVTERPAAASLAEAAALLGITPADIVKSLVVRRKAGE
+YLFVLVPGDAQISWPKLRAAAGANKLMLPPADEAFEATGYTRGTITPLGSTVAWPVFAAP
+DIRGRRVSMGAGEHGASLFVDGDALLAALDATIADITDPLP
+>tr|A0A0P7GC64|A0A0P7GC64_9MICC
+MQNDSQTQAGRSVLVTGGNRGIGLAIAKAFVEAGDKVAITYRSGDVPEGMLGVKADVTDM
+ASVDAAFTEVEAAHGPVEVLVANAGITRDTLLLRMSEDDFTDVIDTNLTGAFRVVKRASK
+GMLKLRRGRVVLISSVVGLYGSPGQVNYAASKAGLVGIARSLTRELGSRNITANVVAPGF
+IDTDMTRSLPEDTQKNYLSSIPAGRFAAPEEVAAVVRWIAGPEAGYISGAVIPVDGGLGM
+GH
+>tr|A0A0P7FXU6|A0A0P7FXU6_9MICC
+MNAWNAGTDVLVKRYTDAQRDSHVAALCAECGRRLVPDWADDKRPSDKTGYWVIRGYRYP
+GVRCSTHERRVLQDYYGTRSDKGQVVRQVAGSRTRMSAPARRTIRLFGTKVRSGS
+>tr|A0A0P7HF76|A0A0P7HF76_9MICC
+MPLRRPTTSLQPLPLSLESAMDAAWPALDRHKSGGWILRAAGGVTQRANSVWPRGINGHS
+GEELSGLLREARSWYGRRRLPVIFQISEDADDAAALHNLLDVEGFTRQSSTRVLTRSAKD
+LPDPALFPGAPAVELSSVPSDDWMHVWWLVDGRGGNEEQAIALRILSGCPSVYALVRNND
+GRPAAVGRLALPEGSSMGGIYCMSTLPEARRQGFAAAVLEELLRAGNDSDVTDFWLQVTA
+ANLDAQGLYARAGFRLSGSYVYRQDSRHSAPSGR
+>tr|A0A0P7G862|A0A0P7G862_9MICC
+MDSTKSTPRTATGRSAAKASRRAAMLDAAAALFAEKGYNGVSIEELGAAAGVSGPAVYRH
+FSGKSAMLSALLVGVSKDLLEGGIAVVAESDTAEAALSGLIEFQVDFALRQPNVIRVQDR
+DLASLPEDDERAVRQLQRQYVEVWVDAISALHPNSGLPLLRHRAQAVFGLINSTSHTLTS
+KTTARETVKLRALLERMAWAALNA
+>tr|A0A0P7HUE5|A0A0P7HUE5_9MICC
+MTENADDDGVATAGTDSAASSANAPMLLAPRVTFGPVAFVTGYAIACLLVAVMATVAIGW
+GTSRDFWGYLWIIVIAAFYAAGMGLPTAAPVGLVLGLMLRGVPNQWLHVLAFFLVPTLLA
+WLVIGLIAGSIGVPLLMALAIGMSAAAGRLAVWRLMDVRY
+>tr|A0A0P7GSY4|A0A0P7GSY4_9MICC
+MTSRPKITKAVIPAAGLGTRFLPATKAMPKEMLPVVDKPAIQYVVEEAVNAGMPDILMIT
+GRNKRSLEDHFDRVPFIEQTLKDKGDDEKLALVRESSELGEIHYLRQGDPKGLGHAVLRA
+KLHIGDDPFAVLLGDDLIDARDPLLETMVEVQAKTGGSVVALIEVEPDQISSYGCADISV
+IEGEDYVRVNKLVEKPDAADAPSNLAVIGRYVLHPSVFDVLEETGPGRGGEIQLTDALQT
+LASAEGEGSGVYGVVFRGRRYDTGDKLSYLKAVVTLASEREDLGPDLRAWLKDFNSSIED
+>tr|A0A0N8HX07|A0A0N8HX07_9MICC
+MAKPFTLVQLRYFSAVAAAESMTAASRELNVTQSALSAAVSQLEKDLEVQLFIRGRQRGM
+RLTAAGRQFAKDITPFLEDADALYESARGYSDALTGELRVGVFAPLAPFRAPVILQAFEA
+AHPDVQISFLEGDQEYVRTSLLQGDCELALMYGLGLDDGFTTKVVERIPAHVLVSADHPL
+AASAEGEVSLRQFEDEPLILLDLPHTREYFMSLFAAAGVRPRIRHRASGYETVRSFVGRG
+HGYAVLNQRLHHDQTYAGGRVVPLRLTDDVPGIEVMLVRPAGVRPTRRALAFEDVCGRLY
+GAAR
+>tr|A0A0N8HZ26|A0A0N8HZ26_9MICC
+MSIAAEPITVVVVDDHAIFRSGLKADLDGRIRVLAEAATVETAVAAIREARPQVVLLDVH
+LPGGSGGGGAEVIAGCTDMLGTTRFLALSVSDAAEDVVTVIRAGARGYVTKTISGAEISD
+AVTRVAGGDAVFSPRLAGFVLDAFGASTTVSVEDELDRLSVREREVMRLIARGYSYKEVA
+KELFISVKTVETHVSAVLRKLQLSSRHELTRWAAARRLL
+>tr|A0A0P7GTS8|A0A0P7GTS8_9MICC
+MRNIEAPRTEARQVSIGVRTAGTIFGTLRLPLEGEPLAAVAIHPATAVPQRLYSGFAEYL
+ATRGFAVLSYDYRGTGASGSARENRRLRMRDWMDVDVPAAAAWLRERYPELPQVAVGHSL
+GGHALALNNGGEGLHGFMTVASHAGVTRSIPDRAERARVELILRVLGPGAARVLGYVPGR
+RMGLGEDMPAAAMLEWSKWSRTPGYFFDDPTMHARERTARVRTRVLCVGLDDDPWATPEQ
+IGVIARQLVNAQVQTRTYAPEDAGVPAIGHMGYFRRGPGVVLWPDAAAWLAARAGISGS
+>tr|A0A0P7GJT6|A0A0P7GJT6_9MICC
+MPETANPTGAGYWYNQSAETAGGVDVLNALRAYRAAEAAMRRRTRDSMRMNETDLLAIRY
+VMQARQAGKSIGPKDLSRVLSISTASTTALIDRLQKGGYLTRRPHPTDRRALEIIPTENA
+DHEVRETLGKMHRKMLDTAESLTPEEAVIITRFLQEMTRVLESDG
+>tr|A0A0P7FAG6|A0A0P7FAG6_9MICC
+MKTTEIKNLSIAVVGGGYGGAAAAIALRNIGAENVHVYEQAPALGQVGAGIGLRPITVEL
+FRQWGIFDEIAAVSSPSDYLEIRSADGQQVLAQEVWPQLNDFDQPNHTRIIHRGDFIEAL
+LGVLPEEVVHLDHKLTSIEDLGGQAKLTFENGSTVTADVVIGADGIRSLVRKQLFSDQEP
+VFAGEHAYRAVISMDDAFGLGAEDNNPRFYMGQNGTIAYNLPLPHRGQLSYDITAPSEDG
+SWAPEITNDYLISLLEGFDERIVKIARNLDISQVTSRSVFDIDPVANWHTDSVALIGDAA
+HAMLHHQGQGANSAIQDAGGLADAFLEAGSVKEALALYQATRKPVTDELQRLSRLGWNAN
+AVENAFPEQAAAK
+>tr|A0A0P7FWQ0|A0A0P7FWQ0_9MICC
+MSISTAPVNGNVSFWYADTGVPEPRPGLDGNREADVAVVGAGYTGLWTAYYLKKARPDLS
+VVVLESRFAGFGASGRNGGWLTNSITGGRSQYVKSHGRAVVGRFQELLNETVDEVIAVAA
+AEGIDAAMAKGGELNVARNEAQLGRLRAWAEDEAAWPEAGTRLLDAAGTAERIHVAGALG
+SIHHPHCARIHPARLVRGLAAAVERLGVPIYEGTTVTDIQPGRAVTDCGTVSAKYILRAT
+EGFTANLRGHHREWLPMNSSMIATEPLPDAVWQQIGWNSMDTVADMAHAYMYAQRTADGR
+IALGGRGVPYRFGSRTDTDGATQPETIASLTALLQDMFPAAADARIEHAWAGVLGVPRDW
+KATVGLDPKTGLGWAGGYVGTGVAATNLAARTLRDLILDPGSELTAMPWVNRRVRKWEPE
+PLRWIAVKAMYAAYYAADRAERNGRSTTSPIAKAANLVSGR
+>tr|A0A0P7G7P1|A0A0P7G7P1_9MICC
+MKSLVTGAGGFIGGHLVAKLVSEGHEVRAVDCKPLHEWYQVHDGAENIQGDCSLLETAQQ
+VTRGMQHVYNLAADMGGMGFIENNKAACMLTVLTSTHMLVAARDQGVERFFYSSSACVYA
+AEHQTTSNVTALKEEDAYPAQPEDGYGWEKLFTERMCRHFQEDYGLQTRVARFHNVYGPE
+GTWEGGREKAPAALCRKFATAALTGKPDLEIWGDGEQTRSFMYIDDCVHGILEIMNGDSA
+EPVNLGSAELVSINQMADLLEQISGTVVNRQYKLDAPQGVRGRNSDNTLFKSTYGWEPSI
+SLQEGLERTYEWILGEIKAQRRLVDATPAA
+>tr|A0A0P7G8A5|A0A0P7G8A5_9MICC
+MSNKLPVAVLGATGRMGSEAVKAVEAAPDMELVAALGRRDSLQTLVSAGAQYVVDLTVPD
+STEANVRFAVEHGMHAVVGTTGWSADRLQRLEDLLSEHPETGVLIAPNFALGSVLASAFA
+AKAAPYFESVEIVELHHPNKVDAPSGTAVRTAELMAASRAEAGTPASPDATAKELPGARG
+ADVDGIRVHSVRLRGLVAHQEVLLGGEGEQLTIRHDSYDRASFMPGVLLGLREVAAHPGL
+TVGLDGYLNLNA
+>tr|A0A0P7HM08|A0A0P7HM08_9MICC
+MSTTIHQPGTRRPLASSYSRLLQPALLLAVLVILAGLKAGMSLLGVAAILAGIVGVPALL
+YKGSKGLFRRWGLPDRARIILLAVLTLASTIACFVLPLPAPVPLTVAAMFLGNASLAIFR
+RWLNVSAHVSVVTFTALWVTAMFGGVWAWLLISSPLMMVSRVQLREHTWPEALSGAALGV
+ATFCCFLAATTWS
+>tr|A0A0P7G6Y7|A0A0P7G6Y7_9MICC
+MAVGVFDLFTVGIGPSSSHTVGPMRAGAAFAAELADAGVLPSVAGLRVDLYGSLAATGRG
+HGTFPAVLLGLEGFAPEEILPEQMEERLAEIEASGKIQLGSELEAAGGVGVVLEYGIEDM
+VLHPLTVLPRHTNGIRFAVSGADGEVLHEATFFSVGGGFIVRDGEEETAAVELEASKQAL
+PYPFRTAVQLLEHCTANGLSISQVMLANELVSRSEEEIRAGLLHIRDVMDQCKDSAIARY
+GLLPGGLKVRRRAPQWHTRLREEDPNRDPRFWQEWVNLVALAVNEENASGGRVVTAPTNG
+AAGIIPAVLFYATHYGPGMDTAGPEQKDDAVVRFLLAAGAIGVLYKEQASISGAEVGCQG
+EVGSASSMAAAGLAEILGGSPEQVENAAEIAMEHNLGLTCDPIGGLVQVPCIERNAIGAG
+KAVNAAKMALWGDGEHRVSLDEVIVTMRETGRDMSSKYKETAMGGLAVNVVEC
+>tr|A0A0N8HY39|A0A0N8HY39_9MICC
+MIGVGLVLTVGTGLFVASEFALVNLDRSDLEARQAAGEKRLGPTIKALKITSTHLSGAQL
+GITLTTLLSGYTFEPAISSLLRGPLTSAGVPEAVVGGTGAVIAIAVATLLSMIIGELVPK
+NFALALPKATAKVVVPFQALFTTVFKPVILLCNNTANKVIRSFGIEPKEELSGARSAEEL
+SFLVRRSALEGVLDQDHAELLHRTLRFSDHTAEDVMTPRVRMVGVQATDTAEDIITIAVS
+TGYSRFPVLGRDSDDILGVLHVKQAFALPLDQRATTTAADVMVPPLRVPESMGVDSLLAI
+LRSQGLQIAVVTDEHGGTAGVVTLEDLVEEIVGELEDEHDRARVGVVRTGRAVTFDASLR
+PDELLDRAGITVPEGEDYETLAGFVTHCLDRMPELGDEVEVDDGVLRVERVVGTHVERLR
+FTPNPGSESPRSAHDRLVDTLTKEAIHE
+>tr|A0A0P7HEH0|A0A0P7HEH0_9MICC
+MSTQPEGIINPPIDDLLTAADSKYALVIYGAKRARQINAYYSQLHEGLFEYVGPLVETKL
+NEKPLSIALREINDGMLVVRANETAE
+>tr|A0A0P7GIK6|A0A0P7GIK6_9MICC
+MAAENGNGNQTPGNEPEENQEPQSQQAGSSEAGSQPAPEGGSAEGDALSQAEEILNSAGA
+EAPAAAGSPEAAELRNDLLRLQAEYVNYRRRVERDRDVAREMAVIGMLNSLLPVLDDIEA
+ARKHGDLAEGPFASISVKLENTLKGYGLTRIDETGVEFDPNVHEALIQQQSPDVTSDTVT
+QILRTGYKSNDRVLRAAQVIVSVPEQ
+>tr|A0A0P7H5N6|A0A0P7H5N6_9MICC
+MSTSLPGAPLLAAANLTKSYGNSTALAGVSLQVRPGEATAVMGASGSGKTTLLHCLAGII
+LPDTGSVRLLGTASDVPAEITSLDDAARSALRRTEFGFVFQQGLLIPELTAGENVALALM
+LNGTPRQVAEQQAAAALAALGLGGMEGRRIGELSGGQAQRVAIARAQVNGARVLFADEPT
+GALDSRTSADVMALLLQSVAGTGRALVVVTHDPEVARWCSRVVTLADGQIVADTAGVAR
+>tr|A0A0P7GM31|A0A0P7GM31_9MICC
+MPKAFPDEFRRDVVAVARKGEAPITQIAKDFGVSPAALHRWMKIADKEDGVKSGSVSDDS
+AKLREANRRIRLLEQEAEVMRRAVAYLSRDINPKK
+>tr|A0A0P7H581|A0A0P7H581_9MICC
+MSAFPTGVPGRVLAFAAHPDDIDFGAAGTLAKWCAAGAEVTYCIMTSGDAGGFEPGDREG
+VTARRNAEQRAAADIVGAGEIHFLGERDGFLAADHEVVGRTVELIRRVRPDVVLSMHPER
+NWSRLQASHPDHLACGEIVTRAVYPAAENPFAYPELAAGGLEAYKVPWLFFYGAPREREN
+HAVDITAEVDRKLSAIRVHASQHPDLAGMESAVRSFLQENAVRHGLPEGASAEVFHAVGV
+NTPATIAGF
+>tr|A0A0P7GE72|A0A0P7GE72_9MICC
+MSLSLTTGPVPAVVFLLGLAGLCWLCWGTRRYLTRLVPLALIGAGAGTILLFLAAEVLLE
+WWNASFPRYLYLYSTAGILALLLVVPRWRASRRALSRIVTAAAAAAVLLAAVSGANMAYS
+QYPTLESLVVNPGESSGPLPTRSPPAGQDPPQPATETNWTPPADMPAQGKVYQTRIPESG
+SGYQAGSGLVYLPPAYLASPPAQNLPVILALHGQPGSPADWFTGGQLQSVMDDFAAGHKG
+LAPVVVVPDLSGGANANWSLCLDSSQGRGATYLAEDVPRWVRENLAAGLSSSRQWAAAGY
+SYGGTCALQLAVNFPDAYPTFVDIAGENAPTVPGGIQSLLSTYFGGNSAAFTAQNALDVL
+KTGSFPDSAGIVVVGRDDSTYADQGRQVYEAAKAAGMDVTLQELPGGHSWVVWKEGLAGN
+LNWLSRRLGILDQ
+>tr|A0A0N8HYY8|A0A0N8HYY8_9MICC
+MSEQFKVGDRVRWNSRTGSVTGEITEVHTSDFEFMGRRRLCSEDEPQYKVCSDATSLHAV
+HRREALRKLG
+>tr|A0A0P7FU65|A0A0P7FU65_9MICC
+MTFPGAVLDISNLSVGYGGMPVCGSITARADAGEILGVVGFNGAGKSTAARTIAGKQQML
+DGEVRVYGLPVNEDAIPFRRSVAALFDEDAFFPSLSLREHLQLVARGHSVPDPDAAVDAE
+LEFFALQERADAVPASVSSGQRRRLLLASALIRPSSLLILDEPEQRLDPAMRERVGERIQ
+AYADGGGTVLLVTHDPALLLATAQRCLLIDDDVREIAPERAAAEIAGR
+>tr|A0A0P7FWV3|A0A0P7FWV3_9MICC
+MSTATTLASKGQPADVKAIRSWKTPVILGVLAILGFIMFGLGSPSSEVTFRLTDADAAIQ
+LPNIVVSAPVLGWIASVVLLASAAYAFILVNRYQHVPGWLIAIFAVFFIAAFLTWAVGSA
+RSPSVALYGLLAGSFTLAFPLIFGSLSGVLCERSGVVNIAIEGQLLFGAFAAAVAGSLSG
+NAFVGLFAAAIAGVLVSLVLAVFSIKYIVNQVIVGVVLNVLVSGLTGFLFSTVLSADSAK
+WNSPPRLDKIAIPLLSDIPILGPILFDQSVIGYLMYIAVAAIYFGLFHTKWGLRTRAVGE
+HPKAADTVGINVNRMRFWNVLLAGAVAGVGGAFFTLVAVSSFNRDMTSGQGYIALAALIL
+GRWNPIGALFAALLFGFASNLQSVLSLLGTPVPNQFLAMLPYVVTIFAVAGVVGKSRGPA
+ASGIPYIKS
+>tr|A0A0P7H8G1|A0A0P7H8G1_9MICC
+MAEHNIPENLPTHLQHFINGEFVDSLNGATFDVQEPVSNENYATVASAQPEDVDRAVASA
+KDAFKNGPWSTMLPRERSRVLHKIADIVESRDEELALLESYDSGLPITQAKGQARRAAEN
+FRFFADLIVSQEDNAFKVPGRQINYVNRKPIGVAGLITPWNVPFMQESWKLAPAIATGNT
+VVMKPASYTPLSAVLWPEIFREAGLPDGVFNLIFGSGSVAGDYLVKHPDVPIISFTGDSS
+TGATISTAAAPQFKSLSLELGGKSPAVVFADADLEAALDATVFGVFSLNGERCTAGSRVL
+VQREIYDDFVAAFAERAKNIRVGLPSDPATEVGSLVHPNHFDKVMSYIEIGKTEGRLLAG
+GGRAEGFPTGNYVAPTVFADVKPDARIFQEEIFGPVVAITPFDTDEEALQLANDTKYGLA
+AYVWTSNLKRAHNFAHAIDSGMVWLNSNNVRDLRTPFGGVKASGLGREGGYRSVDFYTTQ
+QSIQITLNEAHSPRFGADDAAKIDA
+>tr|A0A0P7HIQ4|A0A0P7HIQ4_9MICC
+MTEKLKLIDQVQAINWNRIQDDKDVEVWNRLVNNFWLPEKVPLSNDVQSWNTLTPEEQQL
+TMRVFTGLTLLDTVQATVGAVSLIPDALTPHEEAVYTNIAFMESVHAKSYSSIFSTLAST
+KEIDEAFRWSTENENLQRKAHIVTDYYRGDDPLKRKVASTLLESFLFYSGFYLPMYWSSR
+AKLTNTADLIRLIIRDEAVHGYYIGYKFQRGLETVSEERRQELKDYTYELMYELYENEVQ
+YTHDLYDGVGLAEDVKKFLHYNANKALMNLGYEAMFPSTLTDVNPAILSALSPNADENHD
+FFSGSGSSYVIGKAVNTEDEDWDF
+>tr|A0A0P7FE28|A0A0P7FE28_9MICC
+MALTRNELAARVARELENGQYVNLGIGMPTLIPNYIPEGVEVVLHSENGILGVGPYPEEA
+ALDPDLINAGKETVTVNRGAAFFDSAQSFGMIRGGHVDVAVLGAMEVAANGDLANWMIPG
+KMVKGMGGAMDLVFGAKRVIVMMEHLDRSGRPKIVEQCSLPLTGKGCVNLIVTDLAVIEV
+GSEGLVLRETAPGVSVEDVVAATGAPLEVSLGV
+>tr|A0A0P7FGZ0|A0A0P7FGZ0_9MICC
+MPADQLNVIIHGAGGAIGGAVAAEFARHGASLFLAGHNEGPVNATADKVRALGGEAHTSR
+VDAYNRVEVDAYTNAVADTAGRIDVMFNAVEIPRVQGVPLLEMDADDVVAPAAAWLRTQF
+LTARSAAGYMVPQGGGTILMLSASPARLALAGVGGFSAACAAVEALTRTFAAETGAAGVR
+TVCLRPHRIRETIGNTADLPMELEEFTRFLESLTTSGTLPTLGDVARSAVFLASGGAASM
+NGTVLNLTGGMSPD
+>tr|A0A0P7HE21|A0A0P7HE21_9MICC
+MKAAKQVNRFRFRIGAAAAVPAVLALALSGCSPAPQPAVPSASESSSAATEGSPAPAEAA
+PELSAQVQAVEAALTELLAASPSPSREAVREAYVSAGFSPDAVEVSQDGTPTGLGVDSIV
+SAAPEGSDCIVGEIRGGSLSITTIPVLSNGDCLLGDDR
+>tr|A0A0P7GJK5|A0A0P7GJK5_9MICC
+MDSRRSLPRNAAAVPFDAVRKTAATAAAVLLALVLAFISVNPAARADELNDRKNALEAEQ
+QRVQEEYEYLDADIAQTVAQLNIYQNEELPAAQAVLSEAEGRVSSASAKVGALTDRVALA
+QESRNKIAAQIEEDRKALDETQKVIGQIASQAYKSGGVPSSLTLMFGADGADSLTDSMGM
+AGQALRGQNAAVERLSQQAATNVNSEARLTAVEEEISSLKAQAEEALKAEQTARDEAAAE
+KEKVDGLIASAEALNGELEAKKPVIQAKLASIQSEQAAVQAEIAERQRILLEEARRAEEA
+RIAEANRRAAEEAARNNQPAPPPQTVQPTNPSAFGLRYPVSAPLTSGFGWRATPAGTIDF
+SGTGGYLHSGIDFGAQCGTPVYAPASGEVWRSDTGGGEMIGTGNRIVLNHGVIGTSALAT
+NYYHLSSRVVSAGQWVNAGQLIGYVGTTGNSTGCHLHFETMLNGQLVNPMGLL
+>tr|A0A0P7FWQ5|A0A0P7FWQ5_9MICC
+MLLNRAMTRRSALAAVAAGAVLALGACGASEGSTADGGIDRLNIVVPADPGGGWDQTGRA
+IQSDLQENDLVGNASVQNIGGAGGTNGLAKLATEKDPNTLMVMGYVMVGAVETNNAANRI
+EDTTPIARLTEEQLVVVVPADSEYQTIDDLLAAVKEEGQGVSITGGSAGGADHILAGSML
+KAAGIDPGNLNYIPYSGGGESLAALLGNKVNAGISGVGEYAEQVKAGKLRALAVSGEEPA
+VQLPDVKPLSQQGIDVVLTNWRGVVAPGSIDDSQAEALTELVTELHGTEAWKATLEENNW
+TDAFLTGPEFQDFLTEDIKTVKTTLTDIGLL
+>tr|A0A0P7HM17|A0A0P7HM17_9MICC
+MMLSSSKLSKPRRAAAVALASVLGLSALAACSSGQASEAAESGLTPLKIIVAPVHFEPAY
+IADRMGFFEDHGLDVSVQPGADAQANFAQALSGDVDIVTTSWTVMATSNAEGVPVTAIAS
+NGYISAESKGSGVLVRPDSGITSVADLAGKTIGVQGVRSGSDLAVLLAAEDAGTDPDSLV
+QVALPFPAMQAALESGQVDAVMAVDPFFSQIAGAGMENLGNMQAQFTPDVPSTVWATTDN
+WLAENEESAEKFAAAMEDAVAYYEDPANLEEVRAITAEISQTDIDKVTKVLPTISVAFKR
+QAASDNLSALSRLGYLTKEVTFEDMVWDRAPMN
+>tr|A0A0P7HLS9|A0A0P7HLS9_9MICC
+MGKRIYVEIPVSAPMDRLWHLTQDLSCHSRWDLRFSRIIPTNAAEPLTFRYEFRLPFHTI
+HGTGTSLGTRTGVQGHATSVLKFTTADPLSPIGPGAGYWRYVPDGKRTRFITGYDYSPGW
+GRLGRWLDAPLIRPALGWATAWSFDRLRLWAEEGLAPERTRNAWLLDAGARAAAVAAAVT
+LCAVRPGPAAGLAAGSAVAAACLAPARREVPRAARCLRRARDGKTGVAPSSLASLKEPA
+>tr|A0A0N8HZ70|A0A0N8HZ70_9MICC
+MYTSTPAEALPRDLGEAAAPRLARLITCRTVSSRSPEEVDDAEFARFRAELAALYPGVHN
+SLTVEEVGGGLLFHWAGRNPGLEPVVLMAHYDVVPVEDEATWDYPPFAGVVAGGYVHGRG
+TLDDKGSLAAVMEAVETLLAEGFVPERSVYLSFGDNEETAGETAAKAAALLETRGIRPWL
+VLDEGGAVAAQAFPFVKSPVAVVGVSEKGILDVELSAEDPGGHASTPSRMGATARVARAV
+VRLDRRPFPAALHPVTIEMLNRLAAGAGFPARLVFSRAGTLRGPLTRIFGALGGEPNALT
+RTTVAVTQLQGSKASNVLATRASANANVRIAPGESIETALERLRRTVRDRKITLRVVEGT
+EPSPVSPTSNAQFAALERTIREVFPDAIPAPYIMLGGTDSRRFTGISGAVYRFAPFRMDR
+AARASIHADNEKLSIQALGEGITFYRRLLQNLAP
+>tr|A0A0P7H855|A0A0P7H855_9MICC
+MTPHDTSVQSAPAEGAKPRITGMQKRVLAGGSVGQFIEFYDFALYGLSAVVLSQLFFPSE
+SAFIGLLSTFATFGVAFLIRPLGGLFFGALGDKIGRRRVLYITLVSIGAATAAIGLLPTY
+ATIGALAPALLVLCRLVQGFSAGGESVGAPSFVFEHAPANRRGFWLNITLAATALPSVVA
+GTLILILSQSMSDADFQSWGWRIPFLLALPLSLFGLWIRAKTEESEVFKAVLAKNQTKEY
+SPIRETFRTNKVRMLQVIFVMGLTAMGFYFLSGYFVSYVQTTGNLSRDQSLLANAAAMAF
+YALLLPLGGIIGDRVGRKPMLIAGSAALAVFAVPCFMLVTSGVLGLAILGQLLFVIPLCI
+YGGGCYTFFVEIFTTKTRFTSAAISYNVAYAIFGGTAPFVGTALVAATDVAYSPGFYMSA
+AAVIVLLLLTLTKVPETRGRMG
+>tr|A0A0P7G8Y7|A0A0P7G8Y7_9MICC
+MTKQLDKAKDLAEAGRHADSADKLNAAAAQVKAHVARGSQAQVLLTEKVRDLQIWQEEHN
+>tr|A0A0P7GI13|A0A0P7GI13_9MICC
+MAYDIQICIDCENAHDQADWWAETLGWPVEETNQDFIDEMLAKGFATPDDVIDHNGVRMW
+KAGSAILQPVPRVSPVAPMRILFQPVPEPKTVKDRIHLDIRLSGDDINATRAALEARGAK
+FLWEASQGPHLWYTMADPEGNEFCIS
+>tr|A0A0N8HYY2|A0A0N8HYY2_9MICC
+MADVELTGGEPSAQVQDDLNSLLGTALGVTQEQLEAQGAFLPAALVVQNDGELRMVAVSP
+EESDEDLDAEAMIDDLYTVLEEQKDQNRAVAVFSDITLPDEGTDAIHVVAEHSEGVCISA
+IQTYSEQDGQWTFNDPIWESGEPIVWASSEAADS
+>tr|A0A0P7HVV8|A0A0P7HVV8_9MICC
+MSILIVLPAPGEASPELSRASGEPLPVFSTVPGQAPPVLPQRHPAVIRELRPAPAKTEAN
+WSSSPEDDARIEAISRSVTMGALEVLAGTRPLQQLARWMDFEEFERLQLRTNLVRGREGT
+RLHRNVRILRVRVCPVAPGVYETAVAAAETDRVRAVALRLELRRGLWKVAALEIG
+>tr|A0A0P7FEV5|A0A0P7FEV5_9MICC
+MIVLTRLNDAQFAINPDLIERIHSNPDTTLVMVDGAKYIVTESLDEVIALIAQFRARVIS
+MARDLPQVPLRPGTGLGLVPDAGAGGTPAASDSITKTVPLRPRNK
+>tr|A0A0P7GTN6|A0A0P7GTN6_9MICC
+MDLHSALRVVQDAERSARRTLSGNTSLVYLLWGVTWIIGYGSLWGTQQGWLPMEPSAALA
+ILGIALAAATGSTIAIFFRSSRGLRGQSAFQGGMYGAAWALGFTVMGALSAVIGRAVDDF
+WLRGLLINSVAILIVGLLYITGGTTFNDRAQSFLGIWLLVVTVAALVSGPDFFLAVFLFL
+GATGMLAGAVVEHLRTRRLRNGRAHA
+>tr|A0A0N8HZ88|A0A0N8HZ88_9MICC
+MTIAAATVSEAIVTNTYTFNPGTLVVTKEIAGAAAGQQGEVVLNVVCTVDGETVLDETVT
+IQAGATGEVMNTYGGLVQGSECAVTETATGATTGLEVSTTLPDPVVITAAAASELRVVNT
+YTATAGPTPRPTPAPYQPAKKRLPSTGAEMAGGFLALGAGLVAMGGIGVAAANRRRGSRH
+>tr|A0A0P7G9W0|A0A0P7G9W0_9MICC
+MEWVGILPEDAPDPRAEWAENLKLMPIPVLGLMSQPSLEDTDSVSLNYALDDHGYSGMTA
+SITYSLWRNPDDRSDPVNLADLDEETLRGIDDVPRWPRPPWLIEQVERMRYPQLWEAVRT
+TWHREPHSSLESLLADHVNHILLNQYRQHLWPGGKPWDQHAPVVTARTVNGQARTVVNGV
+EVPGAEVDTDPFVYGIGASLAGGGVVTAVLPRAELKWIQVRFATRR
+>tr|A0A0N8HX23|A0A0N8HX23_9MICC
+MESTESAAVASPRIILGSNQYGKAEVRLVKTTRDTARHSLEDLSITSQLHGDFAAAHTEG
+DNAHVVATDTQKNTIYAFARVGVGSPEAFLLRLADHFTSSFDWVSGGRWAAEQYFWNRIH
+GHDHAFSKDKSEVRTAGLLVDGAGRHLVAGISGLTVLKTTGSEFHGFPRDRYTTLAETTD
+RILATDVTAKWRYSDVDVPDFNAAYASVRSALLDAFADTHSLALQQSMFQMGRAVLEAHP
+GIAEVRLSLPNNHHFLVDLEPFGLDNPGEVFFAADRPYGLIEAAVLREGAEESNPVWNTI
+AGFC
+>tr|A0A0N8HY54|A0A0N8HY54_9MICC
+MAKRTLALAATSFAVLALTACGGDTSASSVADDCVPQHEVETLQEGVLTVAAPEFPPFSS
+VSSGKATGADADLIAAFAEENCLELKLEPTSYAGTIPAVQSNRADVAIGCYYRTAQRAEI
+VDLSAPVYTDDMSSISADGVTSIPAMESLKVGTVDGYLWVADMKAVLGDALTIYPSAVEM
+QADLKSGRIQVGLDGFGSAAQMYKDSADFSVEVVEPDDRVIASKDAAQIGFPHTKGNSSL
+TEALDASIEKMKEDGTVAEILTANGLPESAAETGEPRLIQ
+>tr|A0A0P7GUB3|A0A0P7GUB3_9MICC
+MTFQPGSGYSQLPEQPAGQVPELSVPSPARGTTGVLNVLLITAAGIVLVLVGLFLFATLG
+SEAFILCGVLALIPLGICLLGLHWIDRWEPEPRGALVFAFLWGAGVSVAITLLLGGAVNE
+VLVVLLPLTPADVITTVIQAPLVEEAAKGLGVLLLVFVRRSHFDGPLDGIVYAGVVGAGF
+AFTENILYFSAALFEAGGVGLQLGFVFVLRGLFSPFAHVLFTAAIGLSLGIAVRKPGAWR
+IVVGFLAGLAAAVAGHMFWNGGMALVADDFFVFYFLLQVPLFALAVGGVTWLRRQEQRLT
+RQRLGEYAAAGWFTPAEVNLLSTPAGRRRALHWAGAFGAKAPMRTFIREATHLALTRQQL
+VNGRDLEKNLQREHLLLAALTRTRTSLLSVTAAGRRY
+>tr|A0A0P7HD87|A0A0P7HD87_9MICC
+MELLYVVELEVQGDDNYNRVLRHLAGWLSNSSKTLLAEALDESGQQELAPAHINGRTVSR
+RGEWQVVSNDQTRALKLVVQQTAETGLNLTTRVTVGTAGERTRFRIGIGRAATHTSLMPV
+SSTDVYQPDILRRLDQDPALALYSAGQRVEGRYLQIKTLAEAQAVSEVLPLPNRLPTVLV
+HVRSPESWDVARTLSKKLLGLARTLTLNFATSQAIAAAHSGAAVPFGGLTLVWPALAANP
+MVIGAAEIRDLGRDEILRSLTRRLGSIAALSHGRDKIWATVKQADSEAHMRELLLQAETA
+RDRSDHRGEIDALKRQVAVLQASNAELVEIGEDAMQSLDSISAQLTARDADLEKALLEAK
+TWRESYEGVVTNNTGTILVDPWTQIPTLTPRHNPEETFTAITDAAMDHIVFTDRAHKSWQ
+DIDYPEPDDMTVKLVRLAQAAVALYSGTEQNMPKLDAWFKNEHNLTVALTDQTISKWNGK
+QMRWLNSFEFDGRTGLDATPHVKVKDAVKLNECGRIHFALEQEKYRLVVQHVGIKTYK
+>tr|A0A0N8HXP8|A0A0N8HXP8_9MICC
+MHHVSWSVPENARAGTHLLVMLHGYGSDETALAPLFDHLPPGVTGAALRGTFDVGGRYGW
+FLLDPLLASDEAEVLAAGTSLLATIDELRKKGNFTGVSLLGFSQGMAMAVCALRLRPGGF
+SCAAGLSGFIVESQLLAMAEPLEVRPPFFWGRDRADWVIHPDAVAAASAWLEENTMLTAR
+TYPGMGHRIGPDELRDLGVFLRRFAVSAEKNKVTDYGSD
+>tr|A0A0P7HMY9|A0A0P7HMY9_9MICC
+MDENTMDTDNGSALAEDLFADSHVIERLDAAEASQDQISDEIRTIHEAYRKGVENGAAEE
+TQPRVDFRPYRSSLLRHPTKNLHHTDPETIELWSPAFGHQDVHPLESNLTIQHNGEPLGE
+RIIVRGRVLDGDGRPVRNQLIEVWQANSAGRYIHKRDQHPAPIDPNFTGVGRAITGDDGS
+YEFTTIKPGPYPWKNHFNAWRPAHIHFSLFGTDFTQRMITQMYFPGDPLFALDPIYQSIT
+DQKARDRLVATYDHGITSHEWATGYNWDIVLTGSNRTWMEEEDAE
+>tr|A0A0P7H8P9|A0A0P7H8P9_9MICC
+MNQAIRNSWIVALAMFLAILGSLTYVQFFAADELNKNPINSRQLYQDFGQNRGSILVDGV
+PIAESVPSNDQFNFQRVYNNPEVYSALTGYFSLVHGSSQLEQAMNDELAGNSDQQFFDRV
+VQLLSGSQAEGASVELTIDPQLQQMAYDLIPDGQRGSIVMMDPKTGDILAMVSKPAYDTN
+LLAGHDTEEVNANMDALLSVPGLSPYLNPATQSLLAPGSTFKLIDAAAALETGKFNAESV
+IPNPAALPLPGTNISLPNYTNGACASRTEADIQFALEQSCNTVFAQIAWEVGQDALSEQA
+SKFGFGESFSIPTPVTASQFPETEDQAELALSSIGQGSVTATPLQVAMISAAIANNGVQM
+TPNLIKTVRAPDLSVLNEPEPTVLNDSISPGTAAQLTDWMVSVVDNGTASAARIPGVKVA
+GKTGTAEVQDRGDNAWFTGFAPADDPEVVISIVMENVDLATGSQLTTPSAQKLLEAVLNK
+>tr|A0A0P7HGZ2|A0A0P7HGZ2_9MICC
+MPEEAKVESKEGLIAFARYWYELVNYGYETGDVEPVRAVSGPDCTDCNRYFDVVQRGYRD
+EDWMAGAMIDFRSVHSDYVLTPDGLYQVLIQFTQEPIEFFGPEGAEYGVDPGSDAPVVQI
+LEARFQDEKWVVAQLSSM
+>tr|A0A0P7GDL2|A0A0P7GDL2_9MICC
+MLALPGGVYLYQGEELGLPDHTMIPHEYRQDPTFHRTEGTRVGRDGSRVPLPWIADAPSY
+GFSSTGKSWLPQLGLWGTHSRDIQQRNPDSTLSMYSKALKLRRELDLGHGSLAWWPEHDA
+EGVVGFVNGNVLAVMNMGTEPVELPEFEILCQSSPGAMSHTQLRPNRAVWMRIP
+>tr|A0A0P7GDM1|A0A0P7GDM1_9MICC
+MAGSAEAAAFSLDGAVDPQSPLSERDQQMLALERSWWKYSGAKEQAIRDLFGMSATSYYQ
+VLNALIDTEEALAHDPMLVKRLRRLRTTRQRARTARRMGTDA
+>tr|A0A0P7GNX1|A0A0P7GNX1_9MICC
+MGAAGSGKTTVATTLSEHLGWIAAEAEKFHPTANIERMTAGTPLCDDDRWPWLEAIRSWM
+TTQALNGRSTVIACSALKRSYRDLLSGAEGRVQFVHLDGAPDVLAERMASRRGHFMPLSL
+LPSQLADLEPLARDEDGLTVDSLGAPAQISARIMQDLLTDP
+>tr|A0A0P7HJN2|A0A0P7HJN2_9MICC
+MKISRKLLSLAAAPLLVLGIAACGSAAGDEGTVKIGVVGASDPYWATYEEAAEAEGIDVE
+IIDFAEYTQPNPALTEGELDLNQFQHIIYLARYNVSAGEDLVPVGSTAIYPLGLYSTQYD
+SVEEIPDGATVAVPNDESNLARGLLVLQSAGLVTLADGGSAFSTLDDVDEAKSKVKVTTL
+EASLTPTSLPDVAAAIINNDFVEDAGLSAADAIAQDDPSDPKAIPYVNVFAARSGEENNE
+TYLKLVEIYQNTQAVQDGVQKASGNTAEFLKVPVEDLRSSLADVQKDIEEQ
+>tr|A0A0P7H445|A0A0P7H445_9MICC
+MKPEPDSEKTPTPPAPDAGTKTAAAGGKGKKAASDVALPSLGLLGTLRWAWTQLTSMRTA
+LFLLLLLAVAAVPGSLFPQRPANPAAVTQYIQDNPGSGPWLDRFQLFDVYSSVWFSAIYL
+LLFISLIGCVIPRAKVHWRALRSKPPRTPTKLSRLPEYGTLAVPAGTGLTASQAARDAEA
+ILRKRGYRVEARDLDGDRPSVGAERGFLKETGNLVFHVSLIGVLASVAVGGLLGYNGQRV
+VVEGDTFVNTLVGYDTFTPGTNFTESQLSPYSLTLDEFEVTFDRQPNGNVQPLDFHADVT
+VQEDPDEEPRKETLKVNEPLNIGGTKVYLVGNGYAPVVTVRDGEGEIAYQGPVVGVPTDG
+VYTSLMVIKAPDAKPDQLGFVGFFLPTAMLDSQGVSFSGDPDPVNPQLNLNSYYGDLGLD
+DGVPTNVFVLDTEDLTPLNNRDLDSGGIVLGMNQTYDLPEGKGSISFDGLLRYAALDVHY
+DPAKTGVLIFSVLSLAGLSASLFLARRRVWVRTGTAEDGRIMVEYGLLARGEDARLETEA
+EALRNLLEKKWLAGAPAANPAEGPDTLADASVAGSTGRTEETGKDS
+>tr|A0A0P7FBB0|A0A0P7FBB0_9MICC
+MAPLLAMSLNGIGVAGLVGTSVSFVFLVAFAGTAFIAYGFVRLTRRFNHAGSVYALAGRT
+IGPRAGFFGGFALLGTYVTFAACTLAACAVFLEAWMTAWNPDAASLPWILASLAAAVLAL
+AANFRESRFTARLLTAIGGFGVLLMLILGGVILVKAATGAAPVETAVDLSLLLPGEVPLS
+TLLTASVFAFLSWAGFESCASLGEETANPRKAIPLALGGSVVGCGLIYVFMMFSQQVGFG
+SSEEGAAAFAASSSSLTELAGMYISREYALLLAFAAFMVAFASTLSSTAAASRLVFALAR
+DGFGPRSLSVIHPGSGIPRRAVAAVTATAAVLAVLLWAGGVGAFDAYYWYATIAVLCLLV
+AYATTTAGVAVHILSGKGSIPRWELVLPVIGIAYLVFVFVVQSVDQPAPYSYFPAVAAAW
+CLVGAGIVIAAPAMARRIGERLIEEDASHA
+>tr|A0A0N8HXX2|A0A0N8HXX2_9MICC
+MANPASTDSAGPRGPGQIGLVACVAFGVGTTVGGGVFTLSGTALNLAGPGAALSYILAAT
+VLVTALNLGPTSLVARAETWIVGIKLAKVPRSIMLTTLVSAAVYLGTVLAMSASGITSFS
+ATGVSQAAEIVMGAWGGLLAAFAACLSTLSGAKANVLGASEIMLRMVARGDVPPALGRHT
+SHGHPYVSVLLLGVITVLLVVLRDTTFVVSVANVAAIIAMIVVSAAAAVLGFRKWPGEGA
+RLPLGPVIPLLAVLAAASPSTRR
+>tr|A0A0P7HGV7|A0A0P7HGV7_9MICC
+MATGKNGSQSGTKTSARIGKAEDELAEELTERQASSDGGKSRVSVAEDYAAELDELGELD
+SKTAKVRDKGDDAAWRHNYPYTKKLSRRSYERQKRQLQIELLKMQLWVKDTGQKMLIIFE
+GRDAAGKGGAIKRFNEHLNPRGSRVVALEKPSDQERTQWYFQRYIARLPSGGEIVMMDRS
+WYNRAGVERVMNYCTPAQYLEFMREVPELERMLVNSGVLLRKLWFSVGRAEQLARFAARE
+TDPVKQWKLSPTDLASLDKWDDYTQAKEAMFFYTDTGDAPWTVVKSNDKKRARLEAMRFV
+LDSVDYPNKDRRVAHAPDPLIVGPAASHYEEGEEPDGLFPVVKPQP
+>tr|A0A0P7GSI0|A0A0P7GSI0_9MICC
+MTTRQSLLVFVRRWYLVLSGIVLTALLSWAASLLVPPSYDAQGSMVLMPPSANVGEDGNP
+YLQLGGMSEALDVLVRQSNAPAVRDQVLDEYPSATYTIEPDRSTSGSIVVVQATAENDAE
+SLELLDRAMETLPAVLTRMQDDLEVTPEQRIDIMPLVVDAEGTLNVKQTLQIVAVAVAIG
+LAGTLMFTALADGLLLSRQRRLKPAAEENLHQKASVPGPASDVHVRGAGRRAGERKDSQG
+KRTARTGGERPAAGEKPQESVTGEDLRTR
+>tr|A0A0P7FF78|A0A0P7FF78_9MICC
+MTNGPESADAPRRSRRAAESGAAAGAQERESQQRARDREALRAYKALTDNQPRRETSDAN
+PPTRRQLRLAQQAAQQAAQQRDTAPASPAAAAAPEAADAVHGGAHAANVRSTAAAPAQSA
+PPVPAAPATRRERRRRAAEEAGPEAAPGQARAAAGQVVSPVTPAPGHAPSIQEKPASGNK
+PVAQDPGVQKQTASAPSPDAAKQAPAEPNADVANMTVEQALAAREALKHQARNQVAAMEA
+LQQTDPNAVDLELLAQQRALAERAAVLNRRTQNIQRLAQENEQRRSSTQSDPTAAHNLAM
+VTPLEFVEVPGLDRPVMKPPPTSHVPVVTSSNPAARKAPATGRMPSVRQSGADRRPGWTP
+EKAPAAAAEVRHSKILARADALVNAPLEADQGAKPVGARSAFGLDPLDVMTAGLGRTRRI
+RFVSLGIVGVGLLALTLGVLMIVGGLGS
+>tr|A0A0P7HIL2|A0A0P7HIL2_9MICC
+MQHLHDDALALLALGEEPAAEESAHLESCEQCRSEISAYGRVVRAGRSSAPEGSVPPPAV
+WAGIHQALNLDPALRRDPLENARGQEPAAGAGPRASSTDTSQPVSLADERRRRRSGAKWL
+AAAAAAAVVAGAATWGVVRNLEPAPEVIASVPLAPLPSYSDEGTATVDLLPDGERELVIT
+SSSADAEGYREVWLISPDITSMVSLGEMDGTEARLRIPDGLDLSAYPIVDISDEPHDGNP
+EHSGNSILRGQLDL
+>tr|A0A0P7GDY9|A0A0P7GDY9_9MICC
+MDNRPIHDQRIIEQVASLLGYYVYILIDPRGNQPFYVGKGTKVRLLSHGLAAEALTSPED
+EPSGEHSRKIDRILDIRAAGLEPQIWILRYGMSASEYTAAEAVAIDLLMSFQLAPVQPAY
+PLETSSQLTNARREASREHGIRTLDSLVAEFAAPVLESEDEPLLLITLKNWHDEPLQTPG
+GTIRSGYGFKASWFNPETLKMEIDQLADSVRCWWKLNQDRVEKENIQHVVAVHRGVTRAL
+FEIVPGTWETNEHGRRGFQVKPVFEGTLYEGVIGPYGHRTPKKQAGDQSTINYWPRRVPA
+SAEKIWDVAHERLVEDIRWLKDGDFTSVEYHVETANGLSPYAQVAREDDYYWCEIVSEEF
+LPGSVWPLDEDALRNAGWSAPDQDCPNWYSQRYGAEAASAAVLYGLRHGRACSDPERLRW
+RLATTPSDGG
+>tr|A0A0P7GI65|A0A0P7GI65_9MICC
+MTEQQVSRREQNKTATRRAIADATLQLVRSKGAGQFTIDDIAEAAGISRRTFFNYFPSTT
+AALNVAMEDFLDGVLGHFQARPQNENIVDSMLHALSQPADPANLAVMAELHGLAEERPEM
+ARVHLEAWDHAEHRIVDSLRTRLGQEADPFYTGTLVAAVLACGRSAFAQWQHRTHGEITP
+QTLTLLEELFSEAIGFLRDGFSR
+>tr|A0A0P7GV91|A0A0P7GV91_9MICC
+MTAAQEPLWVKHYQPGVPAEIELPTESLTAMVEDAVARFGPKVALEFFGAETTYERLGDQ
+INRAAEGLRKLGVRKGHRVAIILPNCPQYLIAFYAVLRLGGVVVGHNPLYTERELRHQFE
+NHGAQVAIVWDKAVEKIQDFPDDVAVPSIVAVDITKAMPRLKRIGLRLPIPSIRRTRAGL
+TTKTEHTIPWEKLLDSDPIDPKHPKPAVTDLAALQYTSGTTGMPKGVMLTHYNLRSNALQ
+GQAWMHGAKEGEEVIYGVLPMFHAFGLTLYLTFAMLTGSRLVLFPKFDVDLVLDAAKKSK
+PTVFCAVPPIYEKVALESKKRGIDISTIRYAISGAMTLSAKTVEIWEEVSGGLLVEGYGL
+TESSPVALGNPFAETRRNGTIGVPFPSTRMRVADPEDLSRDVPQGESGELLIKGPQVFSG
+YWNNPEETEEVLTEDGWLRTGDIVTVDEDGFVKVVDRRKELIITGGFNVSPSEVEEVLRS
+NQSISDVAVVGLPRGTGGEQVVAAVIMQPDTELDEQALRAFCRERLTPYKVPRRIVAIDE
+LPKSMLGKVLRKQVRESLQDSL
+>tr|A0A0P7G3U8|A0A0P7G3U8_9MICC
+MAERGNSTHGRRMDEEMKQETQNLTRNAVPDHVEEWRQPEPVADETDSVEVQDVMGVAQE
+AEASVIQPEGDD
+>tr|A0A0P7GJ54|A0A0P7GJ54_9MICC
+MFDAANYGGTTLRVGENGDIQVTQLDTLISETVDLIKIDAEGMDYQVLLGAREIIENDMP
+AIVIEAMTDQALNEIDDFLAPLGYSIVGQYNATPTYVFLPMRTTEQVRRAIRFLGLSAAN
+QQVLQRSQEATLRQVGRYAERLSTETYARIMKQIDEGETPAGSETTNARASEGNAAALER
+RLHNLEATLGSERTAFKKLTERFNEVACRAQRFEQDLSTRSQRMTDWRNLEMSATSGDLD
+NLMKSFLNEIGQPIQNAAEIVKNLQSENRLMKSAVEAAAQNEKQFTEQMRTLTVSRGEFG
+RQNRRLNKQLLDMSRALEHQRAENVKLRADANKKAQAPLYRWLLVPRNVLRNIKKRLALG
+GE
+>tr|A0A0N8HXU5|A0A0N8HXU5_9MICC
+MNWTMSVIFRAIPLLMGALCLSYGLYILAGPGDPGHFVAGHVNVGLTAICYALFTTAATI
+IRQLIGRYGRGWSIALPLTGYVAAAAAVVWGIILANRGNTPQNLTAGFVVIGVGLVAACV
+STVAAASTKFTLIQSAQLLEPLGGPPEGAHSRAAGAVLIAVPAAAAVTGFSLATGLLLRG
+DAPGFVAGHVLLGLSAICTSLIALVASIVRQVRNVFSDGERFAWAWLVAAAGTANLLLGI
+FVLFSSDESYRLAPGCVLLGLGLICFSILSKVLLLALVWRRTFALANRIPLMPIGTALTC
+LFFAAFLFEAAGTDPAFFVGAHVLVGLGAVCFTLFSIVSILEEGTS
+>tr|A0A0P7GK44|A0A0P7GK44_9MICC
+MSALVLSGCAESNRDAADDGATASEVDGTFVFAASSDPKTLDPAFASDGESFRVSRQIFE
+GLVGVEPGTADPAPLLAKSWETSEDALTYTFDLEEGVTFHDGTPFNAEAVCANFDRWYNF
+TGIQQAESLAYYYSKLFKGFADSPETATYESCEAPAENQAVITLAKPFAGFIAALSLPAF
+SMQSPTAMEEYAADEASGTAEAPTLTTYAKEHPTGTGPFKFEGWEVGNQITLSAYEDYWG
+DQGQVTDIIFRVIDDPNSRRQSLQSGDIDGYDLVAPADTQALADAGFKVIPRDPFTILYL
+GMNQKVEQLADPLVRQAIAHAIDKEALVNQTLPEGTKVATQFIPDVVNGYNEDVTTYEYD
+PEKAKEMLAEAGYPDGFTVDFNYPTGVSRPYMPTPEQVFSNISAQLEEVGIKVNPQPSKW
+SPDYLDRVQATEDHGIHLLGWTGDYNDTDNFVGVFFGQEKPEFGFTNAEIFDQLEAARQV
+SSLEEQTPMYEKINDDIAKFVPAVPLAHPAPSLAFSERVDSYPASPVNDEVFNQIKLNK
+>tr|A0A0P7GHY0|A0A0P7GHY0_9MICC
+MNKGTMDTNDTRQQRRGGMKRLAGLPGSRTAAAAFVLTVALGAGGPAAYAWWNQQGTAAI
+TVTAGKPTASAVTPPATPDPTPSPTVPGPTTPAPTPTTPPVTTPAAPAAPTVLSCARNPG
+TGSNGGRDTTISWSAPGAPAGTSTIVDVILMSKNGQAVSGTLSYAVPGASGTVALAALPG
+VETYLADAQGKNTKFAVAVRNAWLSTSIAAPVVLGGPVTVAGTPSTALTRDGFQYKENGD
+WFNCPNGTH
+>tr|A0A0P7G7I6|A0A0P7G7I6_9MICC
+MRTAVITLVHGRHAHLAAQQQALLRSSVLPDDYVIVAMDDPGIADAPAPGLAGTVVEVPG
+TGEQLPLARARNTGARTAIDRGAELLVFLDVDCLPGPGLLAGYVSAAGAAETKGRLLCGP
+VTYLDPPGPSGYDLERIEELDAPHPARPAPVPGTIIPDDSPDLFWSLSFAATNALWQYVG
+GFCEDYSGYGGEDTDYARRAQQRGVGLAWIGAARAYHQWHPTQDPPVQHVADIVRNANLF
+YQRWGSWPMGGWLEGFRRMGLIEGGTGAVPCELKQSAELA
+>tr|A0A0N8HXT3|A0A0N8HXT3_9MICC
+MAEPVSRGTGLTGFVTREASEASAEPSAAERRQLDAAVGLLSGRRIALLTGAGLSTDSGI
+PDYRGPDAPPRNPMTYQQFVGDPVMRQRYWARNHVGWHHLRHAVPNAGHEAVVHLEERGL
+LTGVITQNVDRLHSDAGSIRVIDLHGRFDRVVCLSCGSVYTREGLARLLERLNPGYLERV
+AAEGDIAPDADAEITDTEGFTVADCPVCEGMLKPDFVYFGENVPKERVRLAYAAVDDAGA
+LLVAGSSLTVMSGLRFVRHASKEGKPVVIINRGQTRGDDLADLKIDMGVGTALQYLARNL
+PDPGPRSENHARDTD
+>tr|A0A0P7GA26|A0A0P7GA26_9MICC
+MSIEVNNESAVPADEEALARLGRFLLDAMYVHPEAELSIILVDEDAIEKLHIEWMDLPGP
+TDVLSFPMDELRPGSPGRPTPAGVLGDIVLCPQVAARQAEAAGHGLEDELLLLTTHGVLH
+LLGYDHAEPEEEAEMFGLQRRLLSDYTGKEAPKETRS
+>tr|A0A0P7G691|A0A0P7G691_9MICC
+MNSKKPLLTAAAGLALLGTAGCGSTGTAQDAASDEAAGASTPAASSGTASSGAPATGGQY
+QNGEYTATGSYIPPSNTKEEVTVSLTLSDGVVTDVEVSTSGNHPTSKRYQAEFTGGVQQE
+VVGKPLDEVKVDKIASSSLTSSGFNKALDEIKSEAAR
+>tr|A0A0P7HJ69|A0A0P7HJ69_9MICC
+MSFGKREYDRQKPEIDFPAHDAPTDLVIEDIIVGDGAEAKAGDTVSTHYVGVAFSTGEEF
+DASWNRGAPLDFKVGIGQVIQGWDQGLLGMKVGGRRRLEIPAHLAYGDRGAGSAIAPGES
+LIFVVDLLGVR
+>tr|A0A0P7GHS5|A0A0P7GHS5_9MICC
+MSTVVTGEAVVLELRPASFAARALSVLIDVVSQVLVLLLLFFLVLGNALEGALDPALSRA
+LLLVSVVLLILVIPVTVETLTRGKSLGRWIMGLRIVRDDGGAIRFRQAFTRGILAVLEIY
+MLAGSLAFVVAVFNEKSKRLGDMLAGTYAMRERVKAPPPPTVSMPAELEPWAGLADIGRL
+PDPLSRRVSRFLAQSGRMAPQARASMAASLATEVSAFVSPPPPAGTLPETYLRAVVSQRR
+ERDYVRLSTQHRRTDQLGQRLHRLPFTDEG
+>tr|A0A0P7HK00|A0A0P7HK00_9MICC
+MLLSESEVPGSASSLTAPWVKWTAFGAGMGVAASTAVLAATSGLAVYFARQIVTPRRERD
+ENLEILAVIDSPHGLQVILPANEDTTVPGTYGLYWDRGAGHARIGQIRSYVPREGTVQRD
+VEHVYSGDLATAVRGWWSGAMHPTPSAAGFPQEDVEIDVENGKAPAWLVRSLDDNGTWAI
+MVHGRGAQRTETIRGLGAARRAGLTSLLISYRNDGEAPYASDGRYGLGLTEWHDVEAAIR
+YALENGARDVVLFGWSMGGAIALQAADRSPLSRHIRALVLDGPVVNWVEVLAHHARLNRI
+PAQVGRLGQWLISNAAGRTLTGLAAPLDLRSMDWVSRAEEIRTPVLIVHSERDEFVPVGP
+SADLAEKNPDLVTFARFPQGGHTREYNVDPARWEDTVAGWLHSALGRTRRPSEHR
+>tr|A0A0P7HWG6|A0A0P7HWG6_9MICC
+MVSLSELCAVLGPHLVPVSGHSLRGRQLTGVHVSELEDPTPYLDGGELLLTTGMPLGGSP
+ATTARYVERLRAKGLHALGIGLGPWLAEVPDYLSQACDEAGIHLLAVPDGVPFQNVSRAF
+WSLSARSGQAELLGSLGTQTSLAQAAMRPDGAAAVVRGLAQALGGWAVFLPSGTEPARYW
+PESTGALLEPLREETIRLNRAGTHSAATFELHGQPVVEYPIAVNGRIHGFLAVGPGRKLA
+APDRQVIMTVCTLLALKARQREAASGAAAVLQSAVAKLILHGLTEAARILAEDAGHSELP
+RRVRVLALSAPGGHAAEQLVRAALSLEPAPGVEPLPAQSTSCTLRHERDRVLYVLVPDNG
+QEAWAAAESVPLPAEVPELSGAVSEPVTLGEVPGVLPGLRRALGQAAAGALAGTAGPAHP
+AAQAWAAALAEYPRTDLAGTVREYLRHRGHWENASRALGVHRNSLRHRIGLATALLGVDL
+DDPDVSAPLWLELRQRER
+>tr|A0A0P7HHN8|A0A0P7HHN8_9MICC
+MRIKVSLHIPVDHPENTGTEPNDPYVQLIRPDGTRVADTFYSRWVQDVDAEILRGLYRDM
+VLVRRIDTEATSLQRQGELGLWPPLLGQEASQIGSARALRPTDFVFSSYRENAVAYCRGV
+EFADLMRVWRGNAAGGWDPYSVNMAPTQVIIGAQALHAAGYAMGIAQDGADDAAISYFGD
+GATSQGDVNEAMVFAASFQAPVIFFCQNNQWAISEPVGLQAAIPIANRAPGFGIPSIRVD
+GNDVLAVLAATREALDRARSGAGPTFIEAVTYRMGPHTTADDPTRYRDAAELEDWRRRDP
+ITRLGTLLQNEGEADSAFLASVDADADALAGGLREACLTMPDPGPQDVFAHVYAEPNSWL
+DRQQEHYGAYLAMMDVPAEGNTR
+>tr|A0A0N8HZ02|A0A0N8HZ02_9MICC
+MKRTTFAAATLLALTLTACGTSEPAPNNRTATGADAEYVKELIAKLPPLADYSDKEILGM
+ADDFCAILNGTTTPSKAMNALYESIGDDAETFAFLTVGAKCSNQLYPLSEYLGYL
+>tr|A0A0P7GRY1|A0A0P7GRY1_9MICC
+MSTSDTEQIVAVSNLFRTFTTGTGKSRRTVQAVQDVSFSIPRGTCLAVVGESGSGKTTVA
+RMLVGLESADSGSIVLNGREVSAGSSRRIRRQRSKDIQMVFQDPQGSLNRRLPVSSAVTE
+ILQAHTDLDAAARREKCLSLFAEVGLEPEHAACYPDQLSGGQKQRVAIARALAAAPAVIV
+LDEAVSALDVTVQAQILALLERLRLEKQLTYLFITHDLAVARQVADTVMVMQLGSVVEQG
+TAAEVLDSPKHPYTRQLLDSAPRPGWVPRRRDTTGVTS
+>tr|A0A0N8HYZ4|A0A0N8HYZ4_9MICC
+MSVNITLLLIMGALYAAGIYLVLERSLTRVVLGLAMMTNATNILLLATGGYQGLAPLFNA
+EIPPEDYNDPLPQAFILTSIVISFSVTAFMLGIIYRSWVLGRQDEVQDDIEDRRVASQSS
+YDAEDDADVPEDTTEFTPADEAEEAPGSQRGQGTGPTGEAKR
+>tr|A0A0P7GS11|A0A0P7GS11_9MICC
+MGELSVRDVPRILSIAGTDPTGGAGIQADLKSIAANGGYGMAVVTALVAQNTHGVRAVHT
+PPVGFLREQLEAASDDVIIDAVKIGMLGGAEVARTVGSWLADVRPPAVVLDPVMVASSGD
+RLLSPDAEDALRALLHHVDLVTPNLPELAALLKVEPAQDWEKALEQGRRLAGTYDTAVLV
+KGGHLAGTTAPDALVMPDGERGFTISEFSSVRVDTKNTHGTGCSLSAALATLFARTGNWA
+HALEGAKAWLQEALETADLLEVGTGHGPVNHFAGLWQRGLAPLPAPTGSDVPPAGKLTAA
+LWSRTAALRERIDGLAFVRGLGDGTLDQTVFGRYLAQDAIYLRGYARALARASELAPTLQ
+EQLFWAESASGALEAELDLHRSWLTANAERRGNSPDSGGSGSGSGVRQVPADPAGGLVPG
+PVTRGYLDHLLGPDRLPDGELEYARLVGAVLPCFWIYADVGARLQSPNHAQHPYREWLQT
+YADPGFAAATVRAIGILEGVLAVGGTARDAAQEAFVASVRWEHDFFAAG
+>tr|A0A0P7GE68|A0A0P7GE68_9MICC
+MRLSKTAAALSLAALLASGTAAAPAFAVGEGPNYNGNETINTSILHTYDEMVAELKKQDA
+KQPAMELEVIGQSVKGRDLYLAKYISNPNNPTILYLTQQHGNEQLTTEGALEFVKHLGTG
+KTKGVLDGVNILIVPMLNPDGAMGDVDFPLDGYIAKGRTLTRANATGTDLNRDHVAKIQP
+ETQALHNNVMRAYDIDYMIDLHHQGTQSERDGQLVSGSILYPTTPNASPDVVEGSKQLGA
+VVFNAIDPTGWGHLGRYVGGSAETISRNGIAVEYGISTLLFEMRGMSDHSNPSAVLGQKS
+NGYLIKQTVTTLDATARAIADRSIESTDTSIWDTLAEQTTRPSE
+>tr|A0A0P7G6A1|A0A0P7G6A1_9MICC
+MPESVAVAAVTFDRPDDVKTLLGALAAQSAGISSVALVDSGRSPVKDIAEASDANVTYVR
+SETNLGGAGGFSLAILTAIASGAEWIWIMDDDAHPEDPGCLQALLDAANERGLDVILPLV
+VAPGKPDTLSFHFRIDGRLTHDRAEVAKAGFLPGVGHFFNGALIRRDVFFRVGLPDLRLF
+IRGDETDFMIRLRKAGIPFGTLTSVALSHPAAWSEVQEILGGRLHVLVPDTEFKRFFFYR
+NRGHLTAKYKRVRSLAADVVGYTVYFARTRDLRGFRSWLRAYTGGVRGKTFGPPSDLGF
+>tr|A0A0P7HWB4|A0A0P7HWB4_9MICC
+MTKIEEGRIAWDRGTWRNPPVRVVDDGNCLQVTAAGQSDAWRHTSYGFVHDSAHALLAPL
+GAEGAVEVSFLLDYSEQFDQAGIFLHVSEPVWVKAGVEVSDGIPQVGAVVTHEVSDWSVA
+PVPEWTGQEITVRLSRAGDAVTIRARAGDEPFRLIRVAPLSKTARAQAGPFCASPTRDGL
+TVTFTRWVETEADRSLHPEPG
+>tr|A0A0P7FNM9|A0A0P7FNM9_9MICC
+PGAKQGVAVELEWFWPVRSDPGTRVRHPGVVNTAGIEVAFDFPADHRAVPADQPPDLGLT
+PASP
+>tr|A0A0P7G845|A0A0P7G845_9MICC
+MSGENRPQRVRVTAPPRPGAVPPAFPVARELDEQSEVGEVFLSSLIRSQLRLALVVAGGF
+GLILLGVPLVLALFPEIGALELLGIPVPWVLLGFGVYPLVIISGALYVRSANRNEKRFQD
+LLDEG
+>tr|A0A0P7HD17|A0A0P7HD17_9MICC
+MARVKRAINAHKKRRVILERAKGYRGQRSRLVRKAKEQLLHSYVYSYGDRRKRKGDFRRL
+WIQRINAASRANGLTYNRLIQGLKAAEIEVDRRMLAELAVNDANAFATLVQVAKDALPSD
+TSAPAAAAAPVAKKPAAKAAAKSAPAATATVVDGGFKASEGEAPEGYVIKGAATGKYHVP
+GSTWYEQTEAEYWFNSVEAAKAAGLEPAGGENRQKFQG
+>tr|A0A0P7GA86|A0A0P7GA86_9MICC
+MLTAGLLVPLLGTATACTASDPDPQGTPKAAATSSPSTSPASPKAGASSSPASDQAPPAA
+SEEQDGAGQSPQPAPVPTFNETEQRFLEGKVPEGMDPNAVLQVGQERCELLLTAKSADPE
+AVISELITSPLAETSEAITVLCTDLLPELEAAALGFPDGEFAVAEAAPQAEKPSIAAGTY
+RPYTVTEGCTISVFTASGATIGEYDGTVPVTIGADAARVESSQCYSWLRV
+>tr|A0A0N8HX39|A0A0N8HX39_9MICC
+MGVTSYFRDRRGKQTVVLPPNLPLLAWAGFGAASAMALTPRYQDLMRRASQGAMMWWAAG
+ETFRGRSPFRRTLGAATLMRSLTR
+>tr|A0A0N8HY25|A0A0N8HY25_9MICC
+MALEPEQMRKLHRRIADWFSDEARDLPWRKPDCSPWGILVSEIMLQQTPVVRVLPVWHQW
+MERWPGPADLAAEPGGEAVRAWGRLGYPRRALRLHAAAAEITARQGGKVPDTYDSLLGLP
+GVGDYTAAAVASFAYGRRETVVDTNIRRVHARLVTGNALPSQSLTAAEKKLAVSLLPRDD
+AESVVWNAGVMELGALVCTARSPRCSDCPVLADCAWVRAGRPEPHYVPKGQAWHGTDRQV
+RGAMMAVLRQAQGPVLRELLLTGPVDLVAPEADAALAPLAALHALAAPAEQLERALDGLL
+RDGLAETTGSGVQLPA
+>tr|A0A0P7G6V7|A0A0P7G6V7_9MICC
+MSSLREAQKQLTRDTIVERALELFTTKGYAATTIDEIASAAGTTRVTFYAYYPSRTDLMR
+EFMDRVNSFLDRASGPDSTSTATDLVDVVREGEPAGIRAWLESRAALWPVFRPYLDVLDE
+AAAVDPEVRTMVEAWHEEVISDIVTGMQQAGRFPEETHHVRGSLAYTQLDYVATLWTRRK
+LEPNREHAIEVLADSWYHLLCDE
+>tr|A0A0P7GWU9|A0A0P7GWU9_9MICC
+MRSSKLAALSAAALLTASLAACSSTPAESQAAPEGDWETITIEHALGTAVIDEKPERVAT
+VNWANHEVPLALGVVPVGMAAANFGDDDGDGILPWVEEKLEELGGEAPVLFDENDGIDFE
+AVADTQPDVILAAYSGLTQEDYDTLSEIAPVVAYPETAWGTSWREMVEYNSTALGLAEEG
+EQLVADLEQEMTDAAAKFPSLAGKSAMFMTHVDTTDLSEVSFYTTHDPRTLFFEDLGMSV
+ADSIAKASAETEKFSLTQSAEQADAFSDVDIIVTYGGGELITALESDPLLSQIPAVANGA
+IVTLPGDNPLGTAANPTPLAISWVLNDYLTVLAEAADAAK
+>tr|A0A0P7FZ93|A0A0P7FZ93_9MICC
+MSKIQTIGLRKSYGPVEVLKGLDVAVAEGEVVCVIGPSGSGKSTFLRCLNKLEDITGGKV
+VIDGFDLTDPKVDLNKVRQHIGMVFQHFNLFPHMSVLENIMLAPVELKKGSKDEVRKNAL
+ALLDRVGLSDKADARPAQLSGGQKQRVAIARALAMKPDVMLFDEATSALDPEMVGEVLQV
+IRDLAQEGMTMVVVTHEMGFAREVADRVVFMADGLIVEENSPEELFGNPQSPRLQDFLAK
+VL
+>tr|A0A0P7HMD5|A0A0P7HMD5_9MICC
+MSAFCSLPSRRSTHIETPAPFHQLEKLVEVHAKGKPLGPCDPAFEVFRLSAVQVKVSEMM
+TLL
+>tr|A0A0P7G9Z2|A0A0P7G9Z2_9MICC
+MSQPRLTVLAGPTAVGKGTVSTYIRDNYPEVWLSVSATTRAPRPGEENGVHYFFVTADEF
+DDLVEEGQMLEWAVVHGHNRYGTLRRTVESAMAEGRSVLLEIDLQGARQVKKSMPEANFV
+FLAPPSWDEMVRRLVGRGTETPEEQQRRLETAKLELAAEPEFDHTVINDDVQRAAAELVS
+LMGISPRQR
+>tr|A0A0P7HGI0|A0A0P7HGI0_9MICC
+MTDHVAPVSDCSVHNCDFNHDGCTAYAITVAGAKDHASCATFIDTSATGGLPKVLATVGA
+CQREECRYNDHLMCDAHDVRVGPGAELADCLTYQPR
+>tr|A0A0P7HKD6|A0A0P7HKD6_9MICC
+MPGRKPRQPPAGAGADRQAPGAKKPGGQAQPARTAANSAKVELLPGHGAQIHELRPAAPG
+YQDAVISATRDSADSYTGAGEPGTKESGAKEPAGQGGGKQASPEASILAFPEPPVRRRRR
+YFLASAGAAAVLAAALLFVLFFSPALALKNLQVEGNSLLAAEEAETALAPLLGTPLTRIS
+DADAGELLAGRPEVESVRVTAVPPSDLVVTITERVPVAVLQNGREFLLIDEDGRQLKAVA
+SRGDAPLPLIDGGTEAVNSDVFPTITAVLAALPANVLALLDHASAETVDSVELKLTSGQT
+VFWGSAEANVAKARALEALLLMPAADPPVSVFDVSTPNRPVTR
+>tr|A0A0P7GIZ2|A0A0P7GIZ2_9MICC
+MAAARLPGRAATRVRYREMEPVPHPGGLRSMTSSFFLCGGTAWDGDGAFLRLAEPGGAAA
+FLRLAPGTELRFRNRSEARRYCLGYELVREDGRTSHPCPDQACAERGYQCRRCFFQDEGR
+LVHNSHRGGDLPAGLRSFLARPQWLYIATFADGTTKVGTAADRRKVLRLTEQGALAAQYV
+ARADNGIRVRVLEDTLSSALGLTQAVRSGHKCAALSAPLPSATLEAINAGHADAARTVLF
+DLGQDGFEVVKESWGRPREFDAVLQNYGAGVYPLPLTAGEHGLVLRGVLGSTALAGTDDA
+GLDFLADLTSLKGQRLELGDYSTSLPALQEPLF
+>tr|A0A0P7GC73|A0A0P7GC73_9MICC
+MTDQVTRKVEAPAVPDSVISDILEKNPELEGIGTYEYGWADSDVAGSNARRGLSEEVVRD
+ISAKKNEPEWMLDLRLKGLKYFDRKPMPTWGADLSGIDFDNIKYFVRSTEKQANTWEDLP
+EDIRNTYEKLGIPEAERGRLVSGVAAQYESEVVYHQLREDLERQGVIFLDTDTALKEHPE
+IFQEYFGTVIPVGDNKFGSLNTAVWSGGSFVYVPKGVHVEIPLQAYFRINTENMGQFERT
+LIIADEDSYVHYIEGCTAPIYTSDSLHSAVVEIIVKKNARVRYTTIQNWSNNVYNLVTKR
+AIAHEGATMEWIDGNIGSKVTMKYPAVYLVGEHAKGETLSIAFAGEGQHQDTGSKMVHIA
+PNTKSSIISKSVARGGGRAAYRGLVQVREGAKNSANTVRCDALLVDTISRSDTYPYVDIR
+EDDVTMGHEATVSRVSEEQLFYLMSRGLPEDEAMAMIVRGFIEPIARELPMEYALELNRL
+IELQMEGAVG
+>tr|A0A0P7FFB7|A0A0P7FFB7_9MICC
+MGLFSEAVEVVCSPAGIPLRLVWQGRTYKVAANPVRWYERRSWWDEEPRAERGHGPGLVD
+SEIWRVQARLSPRSPLRTLDISRQAASNTWRLIRIHDALRESA
+>tr|A0A0P7H522|A0A0P7H522_9MICC
+MARNPQPAARRRTISVLLLAAAAAAAVLIYLLVLALGRDEEKPVRERCTATVNDASWSLN
+PDQAANASTIAAVAVARGLPPRAASIALATAVQESGLRNLDYGDDAGPDSRGLFQQRPSQ
+GWGSQEQVMDPVYAVNVFYDALVEVPGYQDLPVTVAAQTVQRSAYPDAYADHEPEGRAFA
+SALTGQSPAALACTLNPAQAPGDPNAVLAAMNTLYGEQQAMVLGEVLVVGASGEYGWSLA
+QWAVANAKALNINEVSFDSMTWTRGSGTWTPSDAPGTQVAIHIAPASVGGQG
+>tr|A0A0P7FER2|A0A0P7FER2_9MICC
+MEKLPQKISLQMVLATRAALTLLLLATVAAQIGVVSTGRSMASAYPEFADLEAPLVGAAI
+LFGICVEVVLVITAILVGYIRDERIFGSTSRKLIDIMAAALAAATAIVLGTLFLIPGPPA
+LGLLVIGGALVGATLTMVLLVLRSLLRKTAFMRAELDGVV
+>tr|A0A0P7GEC7|A0A0P7GEC7_9MICC
+MVEITPAEHTAAVKVFGERLPLAERYVEHLATSGMERGLLGPREVPRLWSRHVLNCAVVA
+DLIPASSRVADVGSGAGLPGLCLAIARPDLSMTLIEPLERRVTWLNEVIDDLGLDNVEVI
+RGRAEQVIGKVDVDVVTARAVSALSGLAGLTIPLLAGSGEVLAIKGRSAAEEIEKAAKQI
+RRLGGKETTVVTAGEDVLEEHTTVVRIVV
+>tr|A0A0P7FU18|A0A0P7FU18_9MICC
+MAESSQSPGQSTASSATARESTERDSDLSQHRPSGPLHTPRGDTTIEETVVQKLAGIATR
+EVPGVFAMGNAARRAFSAVTERIPGSQTNYGNGVSVEKGERQAAVDVSVIVEYGYSIVEV
+SQAIRTNVIRSVENATGLEVLEVNVNVTDVHLPDDDSDDDSQPQKKQPGRLE
+>tr|A0A0P7HFV3|A0A0P7HFV3_9MICC
+MAGRLIDTDPELAFQHALAASRRGGRLAAVREAVALTAYAAGEFGDALREFRTHRRISGS
+NEYLAMMADCERGLGRPDRALDLVRSEEAAELDNAGKVDVAIVASGARMDMEQYDAAVSA
+LEIPQLDKNRAFSYSPRLFRAYADALELAGRGSEAEPWRRQALLAESVLGLGEFAEPEIM
+DLGEDDEPEAKPRFRRDAEKAEHAASAEDRSGNYAERAEAAPDASGVDSDGDDDDALPSD
+EREALLGAEEAEADSEDDDARETADSND
+>tr|A0A0P7HNN5|A0A0P7HNN5_9MICC
+MSGTFWEPQTEEEAAAETRKPAWAWVIAAVDLLIVLAVVPVVILVVVPFFVVFYVYLAQL
+LVWVSPVLLAANGLLFTWAFRRKFAGMTALAILSVLFVLLSALVLVLWGAPVTVFGLTF
+>tr|A0A0P7G073|A0A0P7G073_9MICC
+MKLSRALEQQIAVFGESGSGKTVMLSSFYGATQEPAYLQKNLFHVVADDIGQGARLHRNY
+LGMRDSNRLPMLTKFTAASYSFSIRLKEGAKAKAFRGQPFDALRLVWHDYPGEWFEQGVS
+GSTEALHRVDAFKSLLGSDVAFLLVDAQRLLDNAGEEERYLKSLMANFRNGLLSLKDGLL
+EDGKPIADFPRIWVMALSKADLLPDMDVFRFRDLLIEKACDDMDALRKVLAELVDGSDAL
+SVGEDFVLFSSARFNGGGIEVDKRIGIELIQPMAAILPFERHAKWAHAMQLPRKVVENLL
+GGVGALAAAVSGRKLNIPGPIGHLANLIGPSVLNSAVNLAGDKVREMNADAMAKREYLAA
+TLTRFKMDLDQAEEDGILLRSRR
+>tr|A0A0P7HNS7|A0A0P7HNS7_9MICC
+MSQANGGLAKRISVSGPTDAPWIGILKTSLLWTAVPALAAACVALAGPGINGAFSVAAGW
+ALIVLFFGISLLVGHVVGRKNPSGAIGMFAVTYAVKVVGFAAVLWMVGVPQWLERPWFAY
+AALGTVVIWQVAEIRAFSRTRQLIYSDAPAGADKKVKGV
+>tr|A0A0P7GK20|A0A0P7GK20_9MICC
+MEAPGTPEAYRQFLADLLGVIAYGELSAFERMSSDARFSPTLRDRAALGRLAVREYNHFE
+RVTAYLESMGVNAEDAMAPFQQSVDAFHDRTRPGDWYESLMKFYVTDAISDDFYAALGSL
+LDPAASSLIASLKTEGEAPVDVLFVRLQESLKDDPRLASRLALWGRRLVGEALTQAQRVV
+IERALPQGLDGFLSREEFDVQIRDLFSQLTRNHSRRMSLLGLTA
+>tr|A0A0P7H8L3|A0A0P7H8L3_9MICC
+MTSADVARAAGVSRATVSYVLNGRPGQSISAATRARVLAAAQELGYAPSNAARTLRRGRS
+DLVLMLLPPEPLGRALAMVLDGASDQVEQAGLRLIAHRLPDGGAAAPLVRSLVPAALILA
+TPLQEKDLDALEATGVPMASLQQDHADPLGPDLGIGALQVQHLAAAGHRRIGVALPAASG
+YQWRAEARLAAIEEACDRHGLLPPAVERIDLDPEQASGIIGRWVRTAEPVTAACAFDDEY
+AFALLAGLSALNLSAPADLAVIGAEDIPLARLAVPPLTTVSVHARRIGVLFAQLATESLV
+EPGSFGGITGDPEQNLPPVTLVRRASA
+>tr|A0A0P7HFL8|A0A0P7HFL8_9MICC
+MTSAEQPKPYGTEQAAAPVPPRRVRTSYLQQLKDTGGRFAMLTAYDQYTAQIFDEAGIET
+LLIGDSAANNVMGHETTLPITLDEMIVFAKSVSAGARRALIVCDLPFGSYEVSPAQAIES
+SVRLMKEAGVQAVKMEGGAHYAGHVRAMTAAGIPVMAHVGFTPQSEHALGGYKVQGRGDA
+AQAVIDDAVALADAGAFCVLMEMVPADVAAAVDAAVRVPTIGIGAGNATTGQVLVWQDMA
+GMRGGKAPKFVKAFADVRSVLSAAAKEYGDEVRSGSFPGPEHSF
+>tr|A0A0P7HJ90|A0A0P7HJ90_9MICC
+MRTTSRLAHRAAELDAADPLSGLRARFLGHDDPDVPAYLDGNSLGRPLAATLERLNEFVR
+NQWGGRLIRGWDESWLELPRRLGDELGRTVLGAAPGQCVVADSTTVLLYKLARAAVEAGG
+DRTEIVLDRDNFPTDRYIMEGIAAECGLTLRWAEADYDGGVSPEAVAEVIGPRTSLVVLS
+HVAYRSGYIADVPAITDLVHRAGGRVLWDLCHSAGSVPAELDAWNVDYAAGCSYKYLNGG
+PGAPAWAYVAARHQADFRQPIQGWLGAGDPFGMARDYVPAAGIQRVVSGTPPIMGMLAIQ
+DMVALIGEAGMDAVRAKSELLTGFAVDAFDEVLAPLGAVLASPRDPARRGSHVTVDHPSF
+REVTARLWDQGIIPDYRNPNGIRLGLSPLSTSFAETWTGIEAIAAELGSRA
+>tr|A0A0P7FBA6|A0A0P7FBA6_9MICC
+MNVETIPRGKAPRRAGQLLTAVAAAVMLAACGGGGDTGTTETQSVNPGMADGASGEVKLC
+GHKDASGINRGTVAEFTKENPDIQAEYVEIGANSDQSRTQMVQRLEGQSAECDLFLMDVT
+WVSEFASQNWVMDQTELVSGYEEGTIPSTLETALYEDKYWAAPFYTNASLIYYMPDKVSA
+PESWQQLYEEAGAAPENAFVYQAQQYEGLTVNFLELLYSAGGEVLDKDGNVTIDSPEARE
+VLEFMAQGLEAGAAPRSVLTYDEDATRLAFESGDYGYQRNWPHVYRLLNESALAGTFEVA
+PLPAFGEDGTPSGVLGGWNLAINAFSDNPEAAVALINFATNPDWQKRVAADYSQAPVSEA
+AYDDPAVQEKMPFAQQLRESVEGAKPRPKSPVYPQISQAIYENAYAVISGDASADEAVTR
+MAEQIEAAQETF
+>tr|A0A0P7HHL5|A0A0P7HHL5_9MICC
+MSQPARLPAAVGLPVALAAGIAIPAQSRINGALGTALDDSLAAALVSFGVGLAVMILVSA
+VLPRGRAGFAQILPALRERRFPRVYIVAGVIGAWFVLTQTMTIALLGVAVFTVATVAGQT
+LTGLVVDRMGIGPGGKKTLTLMRVVGAVLTIAAVAWAVSPKLTDTGGTGDWLLAVLLPLS
+AGMAMSFQQAMNGTTGMHYGTPITATLLNFVSGFAALLVLWLIKVAVAGFGNPLPDTWWY
+YLGGPMGCIFIGVSAMLVKSLGVLLTSLGLIGGQLIGSLLLDIFVPAPGSVVVAATVLGT
+ALTLAAIVVATLPWNMPGVRLGTGRRRPRARR
+>tr|A0A0N8HY12|A0A0N8HY12_9MICC
+MPWSTRELADLAGTTVNTVRHYHRLGLLEEPVRRYNGYKQYEVRHLVSLLRIRRLAVLGI
+PLSQMHSVTAGAPGTPEVLRDVDAELQLRIQSLQEARAHIAEIIRHQAPADVPAGFESVA
+SRLSENDRSIVHLMTRFYDDDALADIREMTADETDDTGPDIDNLPADADEQTRQELAERV
+AATIVKHLIKYPWLSNPAAHMPKGSEVSTQTFGDALVHLYNDAQLDVLFRANTIAEEQLS
+AMGVQSQEEISRKPG
+>tr|A0A0N8HY35|A0A0N8HY35_9MICC
+MQLSLLHGFAPPAAPVGKSLPAPELPIARVLLDSPLPHLDRPFDYLVPAELDGDAVPGVR
+VKVRFGGQELPGFLTERLATTVTTARLVSLGKVVSGVPVLSPEVLSLAEAVAARYAGSVH
+DVLRVAVPPRVARVEKEFSGRTPGVRVPEAPDGARPDGARPDGARPDGAQPGKESGTDND
+AAPARDAAASPYRRYPHGPRFLSHLAAGHSPRAVLSSLRGYGPDAWPEEIAAAVEATLLS
+GRGAVVVVPDQKDLARVMAALEQRIPNGTAVRLTAEDGPTPRYRSFLQLLYGDAAVAVGT
+RSAAYAPVANLGLVCIWDDADDLHAEQRAPYQHARDVLLLRAEAAGAAMLVASHTRSTEA
+QRLVESGWAAALNAERPVVRASTPRVMSTADTFNMERDPLAARARIPHAAWKAAQDGLKH
+GPVLVQVARTGFSPALSCQDCREPARCRQCQGPLAQSRRNSPPACRWCARPEPRWHCPHC
+GSFRLRASTAGAGRTAEELGRAFPSVTVVSSAGDHIRAEVPDTPALVVATPGAEPVAPSG
+YAAALLLDGTMMLSRQSLRAQEETLRRWLTAAALVRPAADGGVVVVTADDTATVGHLLRW
+DPAGAAERELALRRELGLPPAVRYAELSGSRDALDAFASRLELPRDARTVGPAPVEEPPS
+YRGEDAETLNGAARWRTLCFFPYGEAPAVTSAMRAAKAALSARRTGDPVYVRVDAPDGL
+>tr|A0A0P7GJI1|A0A0P7GJI1_9MICC
+MSLKTAAPAAAAPRLKKPSWKDPRLLLGILLVLASVAGVSALLASQDRTTQVLAASRDLP
+VGTALKAADFDVVQVSLGGLEGTYVSAGDPFPQDAVAGNLLRSGELLVKADLTEADKLDR
+KPLGLDVQAPLPSGIRAGDRVDVWASLPNGQNGYSEPRRLLEAAEISELSVSDSVIGGAD
+STRLLVLVEDQDLPALLGALSNQAKIAVVPNPSAG
+>tr|A0A0P7GLK3|A0A0P7GLK3_9MICC
+MYVVVNTLEITPDTAEAFEKAFIDSMAHLEGVPGLGRSTLMRPEGSSNTYLSTMEFDSKE
+SFLAWLKSDSFKASHSDDQAPGMQAPNAVASYTVIKDTAA
+>tr|A0A0P7G4Q4|A0A0P7G4Q4_9MICC
+MQETTFTTARNRSSWRVVDIVVASVLAVATGVVFWAWSLAYGGVAALFVAFPPLGGLYTG
+GWLIAGVLGGLIIRKPGAALYCEVLAAAVSGVLGTQFGLSVLLSGAIQGLGAELVFLIFL
+YRKFTLPVSLLAGLGSGIFLGVSETILYMPEWAFQWKALYAVFAAVSGMILAGALSWLAV
+RALARTGVLSAFASGRTADA
+>tr|A0A0P7HII5|A0A0P7HII5_9MICC
+MKAKDQLGRAGEEFAAEYLSAAGYDVLERNWRCPQGEIDVVARDGNTLVITEVKTRSSLD
+YGHPFEAVTAAKLSRLYLLAAAWIREHPAECSRWRVDAVSVLLPRAEQEPVIEHLKGIG
+>tr|A0A0P7FP32|A0A0P7FP32_9MICC
+MNASSFAPLAVVLPFFGAALAFLLIRHQRSQRIVSISVLTLTLVLECILLGAVWQTGAQA
+VNLGGWIPPFGITMVVDQFSALMLVVSTAISLAVLIYAAGQGMTDGDEDGPISIFHPTYL
+ILVAGVSNAFLAGDLFNLYVGFEILLTASYVLMTLGGTTPRIRAGVTYVVVSVISSVLFL
+TAIGMIYAATGTVNMADLAIKLGELDPGTQMMLHLMLLVAFGIKAAVFPLSFWLPDSYPT
+APAPVTAVFAGLLTKVGVYAMVRTETLLFPGDRINTLLMVVAGLTMLVGILGALAQTDIK
+RMLSFTLVSHIGYMVFGLAVASVVGIGAAVFYVVHHITVQTSLFLVTGLIERRGGTANMD
+RLGGLARLSPLLAVLYFIPAINLAGIPPFSGFLGKLGLMQAGVELGTPLAYILVAASVLT
+SLLTLLVMARVWNRAFWRTPEDAVHPDPILLATTTDGSTVRDSGNVSGQSSGRFGGRSTV
+NLLPKSMVYPTVGLVALGVSLTILAGPLFSLSDDAAQDLLDRTPYIEAVLGEGSAP
+>tr|A0A0P7FXA7|A0A0P7FXA7_9MICC
+MTTFPMGPALLFCPADRPERFEKAAQRADAVILDLEDAVAFEDKEQARENLAASALDPEK
+TIVRVNPVDSTSFRADLEALAAANYRWVMAAKAEDPGKIGHSLRHLSVVALVETALGVLR
+APEIAREKNVAALMWGAEDLLASLGGESSRRSDGSYRPVAVHARSAVLLAAGGYGKGAID
+SIYGNIADTAGLEEEARDGAASGFAAKACIHPGQVAAIRSVYAPSEEEKARARDLLEAAK
+GQGGVFSFRGEMIDGPLLRQAEQTLRRAGIPG
+>tr|A0A0P7HGP4|A0A0P7HGP4_9MICC
+MSKASKGFPDFHRPWTRHYAEGVPQNLKLPEGSLVDMVEDSISKYGSKPALQFFGATTSY
+RDMGDQIRRAAAGLKRLGVKRGDRVALVLPNAPQHVVAFYAVLRLGAVVVEHNPLYTDRE
+LRHQFEDHGATVAVVWDKTVDRIQSLPADIPVRTIVSVDLISAMPRTTQLALKLPIPAAR
+RSRAALAPEKKPRSAGRRVVAWKDLLDHRPLPRRHPHPKAEDLAAIQYTSGTTADPKGAM
+LTHANLMANAAQGRAWIPGLRMGRETVYGVLPMFHAYGLTLSLTFAMSIGARLVLFPKFD
+VDLVLKAAKKTPPTFLPAVPPIYDRIVAGAQEQGISLKGVRFAISGAMNLPAATVDAWEK
+ATGGYLIEGYGLTETSPVALGNPMGPTRKAGTVGVPFPLTDIKVVDPEDPTRERHRGEAG
+ELLIRGPQVFQGYWNKPAETRAALLDGGWFRTGDIVSVDDDDFVTIRDRIKELIITGGFN
+VSPTEVEEALKRHPAVAEAAVVGLTRTGGGEDVVAAVVARPDMQFDPDELRSHVRKELAA
+YKVPRRIVQIPDLPRSLIGKVLRRHVKESLQTKDAGPEAGPTT
+>tr|A0A0P7FDJ5|A0A0P7FDJ5_9MICC
+MYEVQAASLEFEYRSDWQVEQVEALANDPAGGVSLRVHDADGDVIAWLDTGIITDQVCMG
+MQEPVAYTEYDSQMMPDLESEQGTEQRFVYRSVAPAAGEALVTYAVVSTPPPSAEEAACG
+LFDFFTLTEASGGRFAGVVRADEGSDMTAHLEKASAFAGSGEYRDVRRMLVSLRNSD
+>tr|A0A0P7FQK2|A0A0P7FQK2_9MICC
+MLVFEALALLGVAGWYVYNLINSTATSFGGAVFSLFLIVLVAVWLLVVGHFFFRGMRWTR
+AAALVWQLFMIVIAVPTLQGGVVLVGLVLLLPAAAVILLLFSKPVIAWTSRTSGDTKAF
+>tr|A0A0P7GII4|A0A0P7GII4_9MICC
+MQASSPVIRAVTIWLTVLMLTIASAVVAIWLVNAKVYGPANQVEDYFQALQEGNGGQALG
+ILNAKVPDANAALLDGEALKASMDGLEVLSMDEAEASVKGRTDVVVKYRLDGSEHQSTFE
+LERTGTRWIFFDEWKIRPQELPTFQVNAANQNEAVLNGSQVLLPEGSNTFTAFYPARVAA
+SYSSGYFEAPEQAAVLSSPGDSLDLTLRSQPTDELVEAVDTRVREFLDSCAGEQNRLAPP
+GCPFYHLTDNRVEPPITWEIVDYPSVEISPAEGHWVLAPLQGTARVKATQTDLFSGVQSP
+LVEDKDFTFGARLSVTDGGISLTAVIE
+>tr|A0A0P7GSA1|A0A0P7GSA1_9MICC
+MNQPHVEHEERAAAETPGALASAPGAGVRAVAGPFGLRDIVVGAAVLVMLVGSVLPFAVA
+GGRNLWTVFSLFYVGIGIIMPLLVAGLFAARRLAPSVRLRVGSLSLDQFASVIAVLAAIF
+FFLQLVYVFSIGSLLGFIGAVALLAATTFAPHIPPFSAEFSNRTEIPAHPVARDAKPLLR
+APKPVPAPKPENAGGPSGAGPAGAFGQPGPSAAGPAAAGPATGAQRPVQGAPAGAQQPGT
+QSAPGSEPTAHTGTQSAAGRPAGTGAGAAAAGVAAAGAAGAGAGAGASSAAAGAGDSATG
+TPAPEPSGSVPEPGAPESAAAEPGAPGARAQEPRTSAGEDPLPATTVNPAVRGGAPGSEQ
+PAPESISATREENENVVEAFWFAVGTPRQIVDERTGLPLFMFYPGDWELGLEDRGHEFLV
+QDKRTGRIGVLRDLTNIERVSDDSSGH
+>tr|A0A0P7FZ35|A0A0P7FZ35_9MICC
+MNATIVVLTEETLNEADARNLGYLAEDNAVRFEILVPADPGRHMLVDVLDNLSLLDFAAA
+YRNIAGPHLTAKQEVKAAEQELAESLDLLRGLGFDADGRVTGENPVEAVVEEARSSQAQQ
+VVVITTPHAVEDTFGTDWANEAQDRLGVPVLHLYSGSTFIGDS
+>tr|A0A0P7G9S2|A0A0P7G9S2_9MICC
+MPTETPSQPAASTGGSRVKRGMAEMLKGGVIMDVVTAEQARIAEDAGAVAVMALERVPAD
+IRAQGGVSRMSDPDMIDSIIDAVSIPVMAKARIGHFVEAQILQSLGVDYIDESEVLTPAD
+YANHIDKWKFTVPFVCGATNLGEALRRINEGAAMIRSKGEAGTGDVSNATMHMRQIRTEI
+ARLSSLPEDELYVAAKELQAPYELVKEVAASGKLPVVLFTAGGIATPADAAMMMQLGADG
+VFVGSGIFKSGNPAQRAAAIVKATTFHDDPDEIAKASRGLGEAMVGINVDEIPQPHRLAE
+RGW
+>tr|A0A0P7GP09|A0A0P7GP09_9MICC
+MAKPVSAAAGKARIRSAGASGILIALLSSSVFGLSGSFAKSLMEAGWTPATAVAFRMGGA
+AAVLLIPALIALHGRWYQVRQNWKTIGLFGLVGVAGCQFFYFNAVERLSVGVALLLEFLA
+PVLMVLWMWLRTRRRPGAATIAGAAAAVAGLVLVLDLGGDIRVDPLGIAWGLAAAVCLAM
+YFFITAKQNDTLPPLVLTTGGLLVGAATMVLLGLTGLLPVGFSTDDVELAGWVTRWWVPL
+VGLVLLSTVLAYVTGIIAARALGPRVASFVSLTEVLFAVLWAWLLLSELPRTVQLVGGAL
+IVAGLVLVRSDRKTDLPDVSGEAVPEPAVSRIAGERAQ
+>tr|A0A0P7FZP0|A0A0P7FZP0_9MICC
+MPIHRFPIQLRFGDEDSNGHVNNVRYVQFLEEARVRLSLLPLEPAGSQESAAEAETFRSV
+TRQAGSTVVARQEIEYLTPLTYRQDPVWIEIWVSALGGSSFSYGFRIMDEDAGTVYAVAE
+AAMVMVGRESGRPEQLTDRQRAILGSWAGGRVPFRREAAGAAK
+>tr|A0A0P7HH22|A0A0P7HH22_9MICC
+MDIVLLEGDITTRNVDAVVNAANSSLLGGGGVDGAIHRAAGPELLQACRALRRTDYPDGL
+PVGQAAATEGFNLPARWVIHTVGPNALAGETDPELLRQAFTNSLDVALQLGASTVAFPAI
+SAGVYGWDADDVARTAVQAVRNHPGTGIERVEFVLFSEPVAQAFRTALESRD
+>tr|A0A0N8HYY3|A0A0N8HYY3_9MICC
+MTLLILDLAGVFFFAVSGSLLAARRNFDIVGSLMLGSLVGLGGGVVRDLIIGQGVPQAFT
+NPVYLAPPVLAALLVFVHALGVQRYRRTLLVFDAAGLALFCVTGTQTALAAGLPPVSAAL
+LGVTTAVGGGLLRDVVANEVPQVFNPNGVYAIPALLGAGLVSFFSALGVYNAVVGMSVAG
+LVFTLRILSLRYGWRIPLAGRTAAVADES
+>tr|A0A0P7G4W0|A0A0P7G4W0_9MICC
+MYIVLTPAKTADRNSGGPAEASNWILQETDGSGVPTAPPAVVTGPELARRIAATGSVRWV
+WDRTRETYGRLLAAGITVERSHDLSLCREILRNSEFAAETPYIKELRSRRPEDEPDLAPR
+QLLPLPPAQDQGSLFEGLDGADSLDPRARQQSRTVEELTEELQDQLAAVAGSPERRRLTL
+LLAAESAGGLVAAEMEHAGMPWRRDLHEAMLEEQLGPRPPEGQRPAKLEAAVAELRAKLN
+NPSFNPDSPQELLRALHRAGIEVRTTRTWELEQQDHPAIEPLLRYKKLARLLSASGWNWL
+DDWVENGRFRTEYVVGGVVSGRWSSRGGGALQIPKNVRDAVRADPGHKLLVADAAQLEPR
+VLAALGQDSALATAARGKDLYQGIADQGFNGDRSLAKVAMLGAMYGATSGEAGRLMPVLT
+RNYPRAIAVVERAARAGETGGTVSTRLGRSTPPASEAWLASQRTSSAEEQRRADNLARSR
+GRFTRNFVVQGTAAEWATCWLAGIRRRLRAASGTSPAGQLVFFLHDEVMLHVPAGRVAEA
+EAIVTEAAAEATGLLFGNIPLEFPVVCAAVDSYAEAK
+>tr|A0A0P7FXN3|A0A0P7FXN3_9MICC
+MATVVPDPGSGQEPRLPEDEIPEPSQIELPDYAVEIDSEGHHYGVDREYINGKPHREPAE
+PVVYPDYMHSPLFREHLY
+>tr|A0A0P7G7C9|A0A0P7G7C9_9MICC
+MPEEAKAESKEGLIAFVRYWYELVNYGYETGDVEPVRAVSGPDCFACQNFYSGMGDVYGR
+GGWIQGGDIEIVTLNSEYQLTSEGRYQVLVSVKQRDMTYWDEAGQADRRPGDEISFLQIM
+EISFENEGWYIHLAESTGD
+>tr|A0A0P7FGD4|A0A0P7FGD4_9MICC
+MTGNDDAVLPDRALLEQLAEAKQVATTFTGWDGGVQHVADESLQTILAARGAPAATRAQA
+QASLEEALLAPWRSALPPAVVVRQQHPAPVQVHLPAGAQPRAWIVLEDGGSMPLSIATET
+RETAVVDGAELEARQLPLPADLPLGWHTLHLATGELSAESVLAVTPDTLKTPPTGDRAWG
+MMAQLYSVRSERSWGIGDLVDLADLTAVSGEAGAAFMLINPLHAAQPVPPVEDSPYLPAT
+RRFFNPLYIRVEAINEYGYLRAEDRTAVEALATVQQGVNRDARLLERNTSYAAKLQALRM
+VYQVPRSPSRTQQFDQFVTEAGPGLESFALWCALAAEYPADAPEWSAGLHSPQVRAKEEE
+LAAEIGFYKWLQWICDEQLESAQRAATRAGMGIGIIHDLAVGVHPGGADAWTLRDVLVPE
+VSVGAPPDMFNQLGQDWSQPPWDPDRLAQTGYGAYRDMLRTILRHAGGVRVDHILGLFRL
+WWIPRGQAPGQGAYVYYDHEALVGILALEAHRAGAVVIGEDLGVFEPWFQSYLAERGVLG
+TSILWFEQTEDGPRPPADYRVGALATIGTHDLPPAAAYLAGEHVTLRDSLGLLNRPVEEE
+RELDRAATARVLELAGSEGLLEADASEQETVEALHRLIARTPSVLVGVGLADAVGERRTQ
+NQPGTSREYPNWCIPLGGPDGKPVLVEDLAANPRFVSLARAMNSALAAG
+>tr|A0A0P7GLJ0|A0A0P7GLJ0_9MICC
+MKYRLLPVFAAAALLATGCTASASEEPPASADESGTDSRLAEITERGTLQVCTTGDYRPF
+TYKDPDTGEWSGIDIAMAQDLAARLDVDVEFVQTSWKDLMPDFLAGCDIGVGGVSISLAR
+AEQAFYTDPVLDDGKTPITLCGKEELYDTVEEINTPGVRSITPIGGTNEIFADTHYPDGE
+IIRFEDNNTIFDEIVAGRADVMTTDAAEVKWVANEYPELCAVDPDNPFNFSQKAYLLPLG
+DTVFQEYVNQWLNLAENDGTYDAAKEPWWG
+>tr|A0A0P7H5R1|A0A0P7H5R1_9MICC
+MRSHPRIPLLKELPLIIWLVLLWGALWQDFSLGNLVFGAIIAFVVTNIFYLPPVDLSGRF
+NLIYAAGFGARFLWKLVIASFHVLWLATVQGPRIRNAVVAVKLRSHSDLLVTATGHALSL
+IPGSLVVEVDRSTSTLYLHCLGVDSQEAAEKIRDDVRATESWLIRMMGTKEDLALVRAEQ
+KDLKELRAGEVSR
+>tr|A0A0P7GHG4|A0A0P7GHG4_9MICC
+MSTTTQLPAGTAVHPDSLELVHETVPAEAVASGSPTTGLYPLGSFAGVDLGVWEMTEGGM
+YDTEADEVFLVLSGSATVDFLARDGSVESTAELVPHTLMRLAAGTRTRWTVTRPLRKVYL
+TA
+>tr|A0A0N8HXQ8|A0A0N8HXQ8_9MICC
+MGTTETGGISAQDVKRSFGAVQAVRGMSFEAPAGAVTALIGPNGSGKTTLLLMLASLLAP
+DSGTIRIAGADPVEDPLSVRRSVGWMPDTLGVWDSLTATEILITMGRLYGMAPAAAASRA
+GELLEQVRLADLAHKPARVFSRGQQQRLSLARALIHDPAVLLLDEPASGLDPGSRVELRL
+LLRRLAADGKTVMVSSHVLSELDEMADRAVFVSGGETVKTQNMDDVGTQLRWYAVSAGNT
+GALLRALEAGGLTPDVGEGTRRRHVRVQLAGEEQAVAVLRHLVQSGVDVSAFAPATGALE
+ETYMSLEAGKA
+>tr|A0A0P7GWK4|A0A0P7GWK4_9MICC
+MADTVSAEQRSRNMSRIRSKNTKPELKVRQLLHRAGYRFRLHGAARGGALPGKPDLVFAG
+RRKVIFVNGCFWHTHSCPAGTHAPATNPEFWAAKRARTVARDAAALQALRTAGWEALVVW
+ECELRNTSALENELIAFLGPPGKPVSAPDEA
+>tr|A0A0P7GEI4|A0A0P7GEI4_9MICC
+MDRFFTDAKLRAVSVHPAYLSLWEAIERSAANGKRFRPRLLMLAYRMLGGTEPPAAARLG
+AAYELLHNAFLIHDDVIDRDDIRHGVPNVSGHYTNKARRTGASREAAQHAGMAAGILAGD
+LVLAGAYRLHESVEACEATRTKLNSILDYAVFSSIGGELLDVEFARLEGMPSPEEIKTVA
+RRKTAVYSFEAPLQAGAVLAGAPASLVQTLADFGREAGIAYQIADDVRGVFGAEQHTGKA
+ESGDLREGKRTAMLSYAAAKPQWEQISTLMGSDRLTAAEADSVRALLTECGAREHAVQLA
+SEHAQAALKHLDDDVPGALGDSLERLTLSFVSGLHSL
+>tr|A0A0P7GWZ4|A0A0P7GWZ4_9MICC
+MTSLSPALKQATPVIVDHALGCWIHGTDGRDYLDFTTGIGVTSTGHCHPKVVEAAREQVG
+KIIHAQYTTVMHKPLLELTEKLGEVLPTGLDSVFYANSGSEAVEAAVRLARMATGRPNIV
+VFQGGFHGRTVAAASLTTAGTKFSAGFAPLMAGVHMAAFPYAYRYGWDEDTAVAFALQEL
+DYLLQTRTDPKDTAAFLIEPALGDGGYLPTPPAFLEGLRERADKYGIQLIIDEVQAGVGR
+MGKFWGHQYSSAVPDILITAKGIASGFPISAIAASTETMSKAWPGSQGGTYGGNAVSAAA
+GVATLEVVQEENLVENSQIRGEQLQTGLLEIQERFPVIGNVRGLGLMQGIEFTGQDGTPD
+AATAAAVQQATTEQGLLTLTCGPAGNVVRLIPALVVSAEEIATGLERFEAALAAVAGAVP
+AAAGTAPATTSASTERR
+>tr|A0A0P7GIM8|A0A0P7GIM8_9MICC
+MSETTAAPPTESATGRIVRRETHAARTVPAVIAAVLGILLCLYVLLESVLQSLGQEEWLI
+DPPTFAHWLAGLPRDADPLFLGLAGALIFLAGLWFFLMAVLPGRRARYAIPNPRAAVVVD
+AEVLASSLARRARLTAGVTSSQVLVTVGRSRVEVRIRPTSGIPVDSDAVRAGVEDELALT
+GLQPQPEVTVLVSTVGAIGQ
+>tr|A0A0P7GNE5|A0A0P7GNE5_9MICC
+MLRLITPTADLHGSWLEAHGEWGPGLHEDGFGIAPGDEVISPSGFTAWLARLTADSQCSY
+RWIIDGPQVLGGIALRHSGHPLISRAGHIGYGIRPSARGRGVATWAVGRILREAQGLGLD
+HVLATCLSGNTASQRTLEANGAVLDGLSGDGAVLLYRIDASGK
+>tr|A0A0P7FFA5|A0A0P7FFA5_9MICC
+MKIVTASIFVDDQEKALDFYTRVLGFEKRQDQPAGGARWLTVGNPGEEGGVELLLEPSSH
+PAVAPFKEALVRDGIPYNSFGVDDVQKEYERMLALGVEFSQPPASMGPVTTAVFSDTCGN
+LLQIAAMNQG
+>tr|A0A0P7GCE8|A0A0P7GCE8_9MICC
+MSTKPARASRKIFLLIPFGAVVGMGLGLLNFQLRLADTVESGDAARFILWTLIGGAVLGG
+SFTCSASVAAYLSASAGRSRAFCAGAAALVLGLCWLLLAGVSGISGLALVAAGVLTAAAA
+GWFVWFSTK
+>tr|A0A0P7GJG7|A0A0P7GJG7_9MICC
+MKVLAAMSGGVDSAVAAARAVEAGHDVVGVHLALSRMPGTLRTGSRGCCTIEDSRDAWRA
+CDILGIPYYVWDFSERFKEDVVDDFVAEYAAGRTPNPCMRCNERIKFAALLEKALALGFD
+AVCTGHYAKVITDADGNPELHRAADWAKDQSYVLGVLTHEQLRHAMFPLADTPSKAEVRA
+EAERRGLSVANKPDSHDICFIPDGDTRGWLEERIEMTEGEIVDPTGETLGTHPGANAFTV
+GQRKGLKLGRPAADGKPRFVLEIRPKENKVIVGPEKLLEIDQMRGIKVSWAGLPIREIAT
+GETFECTAQVRAHGDPVPATAWMETGEDSRSELVVRLKDPMRGVAPGQTVVIYQGTRVLG
+QATIDSARSLQWDPAAVS
+>tr|A0A0P7GTM2|A0A0P7GTM2_9MICC
+MAEISFPLPDLGEGLIEATVLEWLVAPGDQVERNQPLVEVETSKSAVELPSPQAGVVARV
+YGEAGEKINVGEPLVVFEVPDDTAGIVGTVPQEAPARRRVRLSAVLDED
+>tr|A0A0P7GA00|A0A0P7GA00_9MICC
+MTETTVQPSTSSSTTPRGTDRQQAARDHLWMHMARHSGTAAGGNVPIITRGKGHHIYDDR
+GHELIDGLAGLFTVQVGHGREELAEAAARQARELSFMPLWSYAHPPAIDLAERLAAGAPG
+DLNRVFFTSGGGDSVESAWKLAKQYFKLTGRPTKHKVISRAVAYHGTPQGALSITGIPDM
+KSAFEPLVPGAFRVPNTNQYRAPAGLEDPEAFGRWAADRIGEAIEFEGPDTVAAVFLEPV
+QNSGGCFPPPPGYFKRVREICDQYDVLLVSDETICAFGRVGSMFASTDFDYVPDIITCAK
+GITSGYAPLGAMIASDRLFEPFTKGDTTFYHGYTFGGHPVSAAVAMANLDIFEAEDLNNR
+VKTNAPAFRATLEKLKDLPIVGDVRGAGYFYGIELVKDKATKETFSADESERLLRGYIST
+ALYDAGLYCRADDRGDPVIQLAPPLTIGQPEFDQIESILRSVLTEGLNHL
+>tr|A0A0P7GVJ4|A0A0P7GVJ4_9MICC
+MVDRRSIGSWLEGPPSDEENWPGRRLGRPRTGPGSIARVGPRLGALIIDWALASLIAYAF
+FGGTGNSILLVFAAGQIVLVGLLGYSIGHRVFSLQVQKLDGSAAGPLAGVVRTVLLCLVI
+PALIFDADQRGLHDRAMKTVLVKVKHGR
+>tr|A0A0P7GKN9|A0A0P7GKN9_9MICC
+MTLPTFWFIVIAFLWVGYLFLEGFDLGVGMLMKLFARNERERRVLLNTIGPVWDGNEVWL
+ITAGAMTFAAFPFWYAALFSALYLPLTLVLLGLIFRAVSIEYRGKRDSDRWRNRWDWAMA
+LGSFVSAFGVGAALALTSTGLPLNENGDRVGGAFAWLTPWAVLGGLAVVGFALVHACAFL
+MLKTDGEIRARARRAVVRWLPVGVLPLAVWAIGVQFTSGELMSLIPLAVAVVALVVAWLM
+AFRGREALSFAALGAFLLFGAVSIFAAMYPVVLPSSLDAAWNLTVDNASSSPYTLKVMTW
+VSVFGLPIVLLYQGWTYWVFRKRVTAESIPAVHKVKVQ
+>tr|A0A0N8HZ78|A0A0N8HZ78_9MICC
+MLLGEREIALDLTGEPKVIAAGALCWRVRAEQLEVLLIHRPRYGDWSWPKGKLDSGETIP
+ECAVREVMEEVGLEIRLGIALPETRYPVASGLKSVHYWAAHVSTAKPRPDGKEVDGVRWC
+SPEEAASLLTNPTDRLPLEALAVAHEAGDLDTWPLIIVRHAKAKPRSSWARAEGDRPLAA
+TGQRQAKAVARLLQAWHPDRVVSSPWLRCVQTMGPYVNARKPKFKTVDALTEHNAKRKPG
+KARLAVDNLFEKARPVALCTHRPVLPLVFEVLSQQMTNSMSSLLPEKDPYLAPGEMIICQ
+VSRRNPRRIVSLERYRPFDD
+>tr|A0A0P7GHA9|A0A0P7GHA9_9MICC
+MPDAALRSLKVAGPAVARLFRARLCLCAVQVLMLTSWGLLLPLLLVLPFGGMLPPRAGDA
+VVYLMAGCLLGGFLLCIPEAYFRRRRESAQQDAFGDVQSALGRLRAGWNLEWESPYAGAG
+PERLISFGSWNERFEWRVSYRRGALLLTEIPAGEHEVDEE
+>tr|A0A0P7FEP7|A0A0P7FEP7_9MICC
+MTTATAAGYERFAAVEARGVSPLYEEWAASIADDDAVLALIDSLPRPKRQPNLVFAAARL
+AGAPLARYPGFRDWLLENWPVVEPVIQARMTQTNEAGRCAVLLPLLSRIEGPVVLIEAGA
+SAGFCLYPDRYSYRYQHDGGETVLDPVSGPSAVQLTCALAGMEPPKRLPDVVWRAGIDLN
+PLDVQDFEDMAWLEALVWPEHSERRDRLSAVAKVAAEDPPHLVRGDIVEEIPQLVDKAPK
+DATVVVFHSAVLPYLEPDHRQRFVDLVKGLDVTWISNEGEAALPEIKDQLPRSAEGRLVL
+SLAGVPQAFTGPHGQSYEAL
+>tr|A0A0P7GJ40|A0A0P7GJ40_9MICC
+MTETVTKIVPRLKTRYAAEIKQTLQDEFNYANVNQVPRLVKVVVNMGVGDAAKDSKLIDG
+AVRDLTAITGQKPQITKARKSIAQFKLREGMPIGAHATLRGDRMWEFVDRLVTLALPRIR
+DFRGLSGKQFDGNGNYTFGLTEQSMFHEIDQDKIDRVRGMDITVVTTAKTDDEGRALLKA
+LGFPFKSED
+>tr|A0A0P7GVQ9|A0A0P7GVQ9_9MICC
+MSSEQSSTTLQDATQGAADEAMGPTGRPLTEFPEPPVLTSHGPARIIAMVNQKGGVGKTT
+STINLGAALAEAGRKVLLVDFDPQGALSAGLGTNPHELDVTVYNVLMDRKVDIRDAIQET
+HVENIDLLPANIDLSAAEVQLVNEVAREQVLERALRRVSDDYDVILIDCQPSLGLLTVNA
+LTAAHGVIIPLICEFFALRAVALLVETIEKVQDRLNPGLQVDGVLATMYDARTLHSREVI
+GRLVEAFGDKVFETVIKRTIKFADATVAAEPITSYAGNHAGAESYRRLAKELIARGGAP
+>tr|A0A0P7HWT1|A0A0P7HWT1_9MICC
+MGERLVADVIVDRLQAWGVDRIFGYSGDGINTVLGALRRSGSPEFVQARHEENAAFMAVG
+HAKYTGQPGVMLSTQGPGAVHLLNGLYDAKMDSVPVVAIIGQQSRSVLGSAYMQEIDLLN
+LTRDVASSFRQQVNSPEQVPLVLDRAFKAALADRAPAVVIIPHDVQQAPAPELEQEHGIV
+TSAPVWSPPNVVPALADLEAAAEVINAGERVAFLVGQGARGAGRQVEALAQKIGAGITTS
+LMGKPYVDESHPLAAGVMGHLGTSASGTVLGECDTLVIIGSNDPWTEFYPPPGAARAVQI
+DVDAAAIGNRYPVDVAVTGDAAAALEALDLLVKPRTDSPWRSRVEEAVQNWHRLAAERAA
+TPARPVNPELAVRELSGRLPENAQVAVDVGSVVYWYARQLRLPAGVPAHLSSTLASMGCS
+IPYGLAAKLSDPARAVVALSGDGAMQMAGLSELITVSRLWPRWADPRFVLMVLNNGELAE
+VTWEQREMEGDPRFEQSQALPDFSYARYAELLGLQGIRVEDPSQIAPAWDAALDADRPVV
+IEVISDPDVPLLPPFEAGRQKGKDMMDALVKEGPDTAHARELLETYLRQEENLSIS
+>tr|A0A0N8HZ36|A0A0N8HZ36_9MICC
+MSDFTAAEPRLEPFASEQAAEPLEALSGLAASQDFRSEGPWLSPGAQDVLLLLGRGGRLG
+RFGLGSAQEGLAELEAAGLATGRGRLTAEGRLVASPLGGTSGSVQFTAGCGGEKSAFYGA
+LGSEGVLVLAGPSCTRLRMGGQTETGRRQVDFLSLDQFFPALAAWLGLGPSWLLDAEANI
+SPDAVQARMSGASGTEVPLPEDAGAAVRNMWEQEWFVWQQVGGSTGLQTGIQAGSAGTWQ
+LVNSPGGLLLKPWPAAQAYRRLLQAVGAELA
+>tr|A0A0P7HKX4|A0A0P7HKX4_9MICC
+MPQTYLAQGHTQREDSPGTKKSWAPAPEPLPVPVMDNHTHLDFGVPGAGTAAAALDAAQA
+AGVRGAVQVGTDLESSREAVRLAEEEPRLLAAVAIHPNDAPELAAAGTLDSALEEIGALA
+ARPRVRAVGETGLDYFRTGPEGMDAQQYSFRRHIGIARRAGVAVQIHDRDAHDDVVRILK
+EEPLPPAVVFHCFSGDAGLARICNENGWYMSFAGTVTFRNAQGIRDALAIADPSLILVET
+DAPFLTPHPFRGRNNASYMIPYTVRAMAEIRNADLAEICTSIAANTSAVYGSWD
+>tr|A0A0P7GUZ3|A0A0P7GUZ3_9MICC
+MTQTARPTDQPRQDDGYFGPESISWRLYADPSSKLGGIAALLLQALNPGMMRLFSEVSVT
+GQDAAARGERTGQYIDTTIFGDKAHADAAARAVRGMHKHANWQDPTTGETLRAETGDWMD
+WTHNTLVYAVLRAADAFGPSLTAQERDQFVVEQHIAAELVGIDPARLPATCADLEKYIDD
+QRHWLALSLPAAEVSRAIRKPSLRGNPVKVWTGIVIQDGILSLLPDWALLLYGVAGRPMN
+LRGAARTTRGMMAAARHNHSYENVITGLTTKVDTHPYRKVRNRAGK
+>tr|A0A0P7HFE7|A0A0P7HFE7_9MICC
+MSPQSRARQIRDVVFVDGVRTPFGRAGEKGMYADTRADDLVVKCIRELLRRNPSLPPERV
+DEVAIAATTQTGDQGLTIGRTAALLAGLPRTVPGFAIDRMCAGAMTAVTTTASGIGFGAY
+DVVIAGGVEHMGHHPMGADADPNPRFVTERLVDPAALNMGNTAENLHDRFPDITKERTDA
+YAAASQEKLAKAYAGNQIQPDLVPVATKKAGAGWTLSTVDEGPRPGTTVEDLATLRTPFR
+PHGRVTAGNASGLNDGATTALLASAEAAEELGLPVKMRMVGYAFAGVEPEVMGIGPVPAT
+EKALKQTGLSIGDIGLFEINEAFAVQVLSFLDHFGIADDDPRVNRYGGAIAVGHPLASSG
+VRLMTQLARQFEEDPSVRYGMTTMCIGLGMGATVIWENPNHPDYNTESTEASK
+>tr|A0A0P7GT76|A0A0P7GT76_9MICC
+MHNQAIDPQGLTWQRVSPRYLTLRVLSLAVEALITLAVVSVPLVLRSLDIWGGFPAWIAW
+GLPGVFLVGFIWRGVLLPRQVRAIGYAERGEDLLLRTGIFFQRTLVVPYGRMQYVDVAVG
+PFERLFGLCTLKLHTASPGTDATIPGLPTDEGARLREHLSARGEAQLAGL
+>tr|A0A0P7G7R1|A0A0P7G7R1_9MICC
+MPIKIGYASGVFDLFHIGHLNLLRNARERCDYLIAGVSTPDMAFEVKGTRPVVPLDERIE
+IVRSCRYVDQAVADKYIDKTGAWHEHGFDVYFKGSDWIGTQKGTDLQQGMAELGVEVVFL
+PYTPTTSSTELRRALSRLTIVSGDAAIIAGDTAATA
+>tr|A0A0P7HNM8|A0A0P7HNM8_9MICC
+MVGALLTVIVVAIVQLALVLHVRNTLIDAAASGARYGTLADRSPQDGLERTRQLISGSLS
+EGFAQDISYSRTGEPGAPMLQMRVRAPLPLIGLIGPRGGMEVAGHAYWPD
+>tr|A0A0N8HX49|A0A0N8HX49_9MICC
+MEQKLRSALPPRTAWSVLGICALFWLLSAFGLLQMPPSVPPVLMFLWLYLNALATLASAM
+AAAAAGAALLLHRRESLPVRDGDDQPGPAPVSALEAAEETDLQQLLSEPAGSLEPQPMAA
+PAGKTGQQKKPQRKKRRTR
+>tr|A0A0P7FYF7|A0A0P7FYF7_9MICC
+MFGRKKEAPTAQETVDHAAAQATESAKAGTSAGKGAPTPRRKDQVAARKRPLVPNDRKAA
+REASRAAMREERLKTRAALDTGDERYLPLRDKGPNRRFVRDVVDARWNVGEFVMIAAAVF
+VVASFIQNLTIQSFILMAFWALIVLVVVDSFRIRFLLRRRLTEKFGAPNQGDVWYGISRA
+LQLRRFRLPKPQVRRGDKVS
+>tr|A0A0P7G7B1|A0A0P7G7B1_9MICC
+MSGPAGLLLDTPVLAEVRSGSPDPAVVGFLRSRSHLRVFVSALTVGEFESAAPGWLKELS
+QRFAGNILPVDHEVAMLWRTLPVSAAEGPRDSHRSWLAATAIHCNLTVVTPEPEAFVAYG
+AHAVSPFTEFG
+>tr|A0A0P7HHZ4|A0A0P7HHZ4_9MICC
+MGRKRPGKTAPEELPGGGRGPVEGRYEIDTGTCELLPDQFSPTGWLLKINGVHSSHIDLA
+NPRELDFEYMRWIAALVQSRFPEDARLRALHLGGGGCSMARYFADVYPGARQVVVELDGK
+LAELVRGWFDLPRAPLMRLRVGEAREVTESLSEDSRDLLIRDVFAGDKTPLPLTSAEFLV
+HAKRVLAADGLYVVNCGDAPDLRMARREAATIAASFRHTAIVADPAMLKGRRYGNIIIAG
+SDVPFAEDAALPRTLLGGALPAQLWDDAKVRAFGRGSQVIHDAEADGEARPA
+>tr|A0A0N8HZ00|A0A0N8HZ00_9MICC
+MLGFTVLDIILGLSLLFYLLAGLRNGLAVTLGGIVGFVAGAVAAFFAIPLVSSWVPDEGW
+RLAAVIATAVVLVLVGHAAGAALGGAVRRWFNFAPLRALDRILGGALNVVVAALVMSMLA
+FSIGTLGMPFLSQQIASSKVLMAIDSVTPNAVKTLAAQVRSFTLDEGLPRIFDSAAPEAV
+ELPAEGISSEALTAASSSVLKITGTAFQCGQNQTGSGFVIADDRVITNAHVVAGVSEPVV
+QVPGGGVLPGRVVHFDPARDLAVIAVENLSAEPLDLGEELPNGTTAAFAGYPAGGPFRLQ
+TAVVQNLGDVSVRSIYGTSPEVLQVYTLAANVQQGNSGGPLLDIDGQVAGVVFAKTTGDQ
+PIGYALSLAELAPIAEAAPDYRSAVSPGECISE
+>tr|A0A0P7GKF4|A0A0P7GKF4_9MICC
+MSTRMDPIHAAIRAIAAGGAVVVVDDEDRENEGDIIFAAQHATAELMGFTVRYTSGVVCV
+PLPGEWADRLDLPPMTAVNQDAKGTAYTVSCDAASGTSTGISAADRALTSRVLADPASLA
+GDLNRPGHIFPLRAHDGGVRARRGHTEAAVELARLAGCTPVGVIAELVRDDGSMMRLPAL
+RQFADEHGLPLVSIEDLVVYLAAAAPAIAGGRR
+>tr|A0A0P7GCC4|A0A0P7GCC4_9MICC
+MKTNFDRYRQMAEILYRNGLGYLVSVSGLESRLPFRRRGTDGTDSGRLASPAYLRRALEE
+LGPTYVKLGQLLSTRPDLLPPPYMDELAKLQDRATPAAWEDVRAELQQELGADPLEVFAE
+FNTTPIASASIGQAYAATLKDGSDVVVKVRRPGIVPEVETDLSILQSLAGHASRHWEAAR
+DYDVKGFMDEFADTLRKEMDYVQEGHNADRFALNFQDDPDVVIPRIYWEHSTHKVLTMQR
+LYGMKVTDTQALEAAGLNRKELAVTAANAEMKMVFEDGFFHADPHPGNIFVQPNSQIGLI
+DFGMVGELDDKMRGQLSALFVAVIRKDPERMATALMRMTVSRSRPDRIKLRVDLAGLIRL
+YSNRTLGDAPVGRIISSGLAIIRTHHLQLPGEVALLLRMLIMTEGMGEVLDPDFSMGKTL
+APYARRMTMQQLNPAAYAKRLGKAGGELLELGTELPGQLQRLINTLDFEGMEVHLRAGDL
+LPLVERMERVGNRMVAAIFAAAFIRGVGELTLGDPSRWRSWQAPLMGAGLASTGALGGYL
+AWSARRQRRLDAG
+>tr|A0A0P7FZV6|A0A0P7FZV6_9MICC
+MLKRVARRIAAAALVLFALGSGLAVLGVYALLSFAAWAIWGAVPPGYTFVLAFAVPPLGI
+AALTGLGIGAGKSARLLRARRNRLSRAAAAASSLEAAQLRRDAALVAWSRYETDVSLLIE
+YPVMTDYTDPVIREVIVAMQDIREAERDADPARLHLAVDRFEVAFKTAENYARRCGQSRL
+TDAERSKLATARASLNLLLDGSASPSEVEGAYRSLRRSLRGIIDLPAPAAADLDARARDA
+RRIGAHKVAS
+>tr|A0A0P7G979|A0A0P7G979_9MICC
+MTHERRPPRGLSRTLRRAAAAGTAAVVLAGLVACTPGDSEAPREGTQSAAPEVVGEVPED
+LQDFYSQKVVWESCEDDSFLCATVEVPLDYEDPGRQSIELSVILAEAGGTPEGTVLVNPG
+GPGGSGYATVRDSLEGITTARLRGEFNIMGFDPRGVGRSTPVDCLSDKEVDEARAEMTDP
+STPAGLEEARASAAEYAAACAETSGELLGFVDTESAARDMDILRAVAGDPKLNYLGFSYG
+TYLGATYAELFPEKVGRLVLDGAIDPAASNEEITLGQARAFEQAIRAYVEDCQTSSNCPL
+DGTVDDGVQTIRDLIASVEASPLSAADGRLVTAATFVSGFILPLYNDANWPALTQALGSA
+LRGDPTTMLMLADLGAERNPDGTYESNSYEVFSAVNCLDYPMESDPEQMAADAAELEAAS
+PTLGRFLAYGGLTCEAWAYEPVNEPRPLTAEGAAPILVIGTTGDPATPYEWSQALAGQLD
+SAVLVTWEAEGHTAYGRGNQCIADAVEDYFIDGTVPEDGLVCS
+>tr|A0A0P7G9Y0|A0A0P7G9Y0_9MICC
+MATTNDIKNGTVLKLEGNLWSIIEFQHVKPGKGGAFVRTKMRNVRSGKVVDKTFNAGIKI
+ETATVDRRDYQYLYKDGEDYVFMDTSDYDQLTVPGSIVGDYANFMLESMMVTIAMHEGAP
+LYIELPASVVLEITYTEPGLQGDRSTGGTKPATVETGYEIQVPLFLETGTKVKVDTRTGD
+YLGRVNE
+>tr|A0A0P7HUI8|A0A0P7HUI8_9MICC
+MLGRELSLLRELGAGQHAVTVLVSDGLTELVVRGFPRADPAVGHELPVLDRIAPLWELVP
+RLVVHGHEEGYPVIVTTALPGSTPAPDLPLDAVAKQMASALARIHSLDGQGLREDHPAPA
+AGESAIAVQARNELKTLDLSERVLTHHDFWCGNAVWQGDVLTGVVDWSGARHAPRGLDIA
+WCRQDLILLGSTEAAQTFLGEYRRLSGLEVSDIAAWDVLAAAQAHPVVETWAPNYHGIGR
+LDITPGVLRQRLDRWIADISALKPSGGN
+>tr|A0A0N8HYZ8|A0A0N8HYZ8_9MICC
+MAGAKRPATGGKGLVAKGLLGSKGGSKRPAVRLGPGAKKSSGPADEPKPQPQEPASKAEP
+SDSKDTAAAKPAPLPDLAAHTETPAWLSPTGSRDEEIWDGAFEAEDTSEAAVVEPEVIPA
+EDVHLAEPSLETPAISSEAAEAASLPETAAEVRAVSEEAAEAGKQAGISEPAPEGTEVAV
+EPSSELTDMEPAADAEEDTGNNGDGTAVEHPAEDGAATDDAAAEVSDADSELAGGEAAAE
+AAADGAATHDAAHDEPTDDSAPDGDGSDEAAAGDAAADDTETGEAAPGKDGEPVSGKPID
+KKPDAPAEDKATPGSVGAEGTGKEKPTASKTDAKAGQAAGPKIQTSVLKQDETDVAGPVT
+DSFASLSMTKKDAEDSGLIHTVNPSGSSPVPADSRRARRTREAEEAAQSKGASRTTRMLV
+LLGSILIVVLLGIWLATIIADSNREAGVLEDSVAPVDLEAGACLKDFQSVNAEVTVVTCD
+TPHNAQLVATQSYAESDTFPGTDSLAAKAEEVCSSVIYTDAASKYTDLELNRAVPTQNSW
+NAGDRRVDCFVVAAGEDLTESLIVQP
+>tr|A0A0P7GP70|A0A0P7GP70_9MICC
+MTTTLTSRLRRLAVLPAAAALFALSACSGSADADGAGDKPVVLTTFTVLADMAENVAGEH
+LQIESITKAGAEIHGYEPTPGDIRRASKADLILDNGMNLEAWFEQFTADLDVPRVTVSEG
+VEPVNIAEDAYKGLPNPHAWMSPLNAQIYVDNMAEAFAELDPENAESFRANADAYKQELR
+EVQDQLVTELGALPETQRALVTCEGAFSYLARDAGLTERYIWAVNAEQQATPQQIAATIE
+FVKDNQVPAVFCESTVSDAPMQQVVEAAGTQFGGVLYVDSLSEEGGPVPTYLDLIRHDTE
+TIITALTGAGS
+>tr|A0A0P7H3D5|A0A0P7H3D5_9MICC
+MESPTAAHQAWMGLALEQARAALDTDDVPIGAVVVGPDGTILGTGRNEREATGDPTAHAE
+VVAIRQAAAALGEWRLEGCTLVVTLEPCAMCAGAIVLARVPRVVFGAWDEKAGASGSVFE
+ILREPRLNHWVEVFPGVRERECAELLLTFFGSRRRSRGSHGIKQ
+>tr|A0A0P7G4Z0|A0A0P7G4Z0_9MICC
+MDFGAPDGDTKNPETAQITLPYLDLLLKDFAPVDETEAPESEEGTSMGDASTDEKSSEDD
+AQANEETVETVAMGSDDVVGEDPDSGIPEEEGRKQLAVVRVKSAVRYQGAVLLDTVYGIV
+GDHALAVDPEGKKDDTDLTSLATTRHYRALVIAPTSGKNGLLAVEVVSRSHAGGRLPSRL
+HAGAKGHNFKVRTFGAIADDESVRNLMKDGRIREVNLFQTLPSSDSSQSTTIPAKITFTI
+GAGSTEETSLKKRLTHWLPTKENKAKKDKPVAADEAKALASYLWPKLAESAAFETAEVVV
+DGIQRKRLKPLDMASGFTYDLGDVRPNNDTFVASVADVVNDLAATNQIDLESDWSAPIGG
+>tr|A0A0P7HKC0|A0A0P7HKC0_9MICC
+MTETPAHDNLPLPDYDHIPLGTLPTRITALDQGGISALLSYEREHGNRLPVVQVLEARLD
+SLKYGAEPSGSIPEDNPEMSEGSAGSKVSPATAGPKINPPSQGVPTNPAQPRT
+>tr|A0A0P7FDG3|A0A0P7FDG3_9MICC
+MDHFTATTDPVFGSVAASAIVALIPLLTFFILLAFVKVKAHVAGGLSLLVAIAVAIWAFK
+MPAGLALLSATQGAVFGAFPVVWIVIMAIWLYQITVVSGRFEDLRRVFDVIGGGDVRIQA
+ILVAFCFGGLLEALAGFGAPVAITATMLVALGLKPMKAAAAVLVANTAPVAFGAMAIPIT
+TAANLTGLDADHIGTVVGRQAPLLAVVVPLILVFILDGFRGMKETWPAAVVTGVAFAGAQ
+VLCSTFFSYELTDIVAALAGLGAAVVFLRFWQPKGLEGARVRMGLPAMALAGSGSTGSAS
+GSAGRPAAVRDENSLTGSRTWLALFPYFLVIIIFGIAKLWKIGVDIPAFLASTDIKVPWP
+ILHERLVDAAGEPVSSTIYTFNWLSTPGTLLLITGLIVSFVYSKYDDGGRYRMTVGNGVA
+EIGRTVWNMRWAGLTILSVLSLAYVMNFSGQTVSIGTWLAGTGAFFAFLSPVLGWVGTAV
+TGSDTSANALFARLQQTAGIEAGIDPNLLVAANTTGGVVGKLISPQNLAIAVTAVKLDGQ
+ESVLLRKVVGWSVALLLVLCTVVFLQSTPVLGWMLP
+>tr|A0A0P7GE48|A0A0P7GE48_9MICC
+MTQPSTASSTETEEDTAPGLLAPAEDRRVLLRKRTGLALGVVLAALVYLIMPQDVAQPAR
+ATAAIAVLMAVWWMTEAIPLAATALLPLLLFPALGVSTIKETAPPYADPIIFLFMGGFFL
+ALALQRWNLHRRIALATVLLVGTKPKQLIAGFMIATGFLSMWVSNTATAVMMLPIGISVL
+TLVANLNEEKKAPRNFSIALMLGIAYSASIGSLGTIIGTPPNALMVGYMADAHDVNIGFA
+QWMLVGVPLAVIFMALAWYLLTFVIFKPEITEIPGGKEMIRGEYKRLGRMSGGEKQVLAI
+FVLAAASWITVPLLWPDSNFADAVIAMGVAILLFVIPANVKKGVPLLDWSSAKDLPWDIL
+ILFGGGLALSSRFTASGLSEWIGTKVSGLEALPLILIVLLIAALVLGLTELTSNTATAAT
+FLPLIGGVALGLGVDPLLLVIPVAIVATCAFMLPVATPPNAIAFSSGHVQIADMVKAGVW
+LNLIALVLTTLVTFTLAVWVFGIVY
+>tr|A0A0P7HLU0|A0A0P7HLU0_9MICC
+MTARLDGRPAVRVTGLKKSFRELDVLRGVDFDVAPGSIFALLGSNGAGKTTVVRILSTLL
+KADAGTALVDGFDVAAEAAEVRQAISLTGQFAAVDEVLSGRENLVLVAQLRRVKEPGRTA
+DALLEQFGLSESGGRRAGTYSGGMRRRLDIAMSLIGNPPVIVLDEPTTGLDPQGRLEVWA
+MIRQLAGQGTSVLLTTQYLDEAEQLADRIAILHQGKIIANGTLAELKQLMPPATAEYVEK
+QPTLEEVFLAIIGSGAGTPSRDTGTPPEHQQQGEKP
+>tr|A0A0P7FYE6|A0A0P7FYE6_9MICC
+MTNPIFFGDPELVAASGPGSVFALTGPEARHAVAVKRLSPGEDVDIVDGAGRRLRGTVRS
+ADPALLEIDVHEAESEPEPQYEFTLVQALAKGDRDEQAIEAATELGVDAVLPWQSERSIV
+RWRAEKAAKGQAKWRAVVTSAAKQSRRSRIPRVLDTADSKSLAARLAGMDLVLVLHEEAD
+MPLSLALETPGSGDDLPAARVRSVAVVVGPEGGISPAELQELRAAGAVAVRLGPHVLRSS
+SAGPAALVLLNHLLGRWE
+>tr|A0A0P7G9A4|A0A0P7G9A4_9MICC
+MEKITTHTGIGVPLRQSNVDTDQIIPAVYLKRITRTGFEDALFAGWRKNPEFILNQEPFN
+AGSVLVAGPDFGTGSSREHAVWALKDYGFRAVLSSRFADIFRGNSGKQGLVAAQVAQDDI
+ELIWKVLEESPGTEVTVDLQARTVICGTVTAPFQIDDYTRWRLLEGLDDIGLTLRHEEEI
+TAFEARRPAFKPTTLPART
+>tr|A0A0P7G6S9|A0A0P7G6S9_9MICC
+MAPDRENQEWGVSTLSGRVFIDKQNRPVYQALGATAAAIRSAAEEAGLGRIIMELVNLRV
+SQLNGCAFCLDLHTRQAREAGESDQRLSVLPAWRDTDLFDDTERAALGLAEALTHLPSDE
+VRQELFAKYRGQLSPEQFSVLSWAAVAMNAFNRVSIISGHPVKPR
+>tr|A0A0P7G4E5|A0A0P7G4E5_9MICC
+MSGGLVALLDDVAALARIAAASVDDIAAGAAKAGAKAAGVVIDDAAVTPQYVSGADPSRE
+LPMIKKIFWGSLRNKLLIILPALLLVSAFIPGVIPFILMLGGTYLCYEGAEKVWHKFFGH
+HEAKKEPAVERGPDAESKVVKGAITTDFILSCEIMVIAMNEVGDASIWVRAVILVVVAIA
+ITVLVYGAVALIVKMDDIGLHLAGKDSAGSKRVGGLLVRGMPAVLAAITFVGTIAMLWVG
+GHIMLVGASDLGWHAPYDLVHLLEHPVAELAVVGGFLGWLVNTLCSAVAGLAWGLVVMAV
+LVLVKKVFPFGKKKEGHEPGDTRAAIAGHRPKKTDTDAG
+>tr|A0A0P7HDR4|A0A0P7HDR4_9MICC
+MPAAQYEQVLDPIGDSLVLSAILAALPLLLLFVMLGVFRLKAYQAGIISLVLSILLALFG
+WGMPLDQTLSATALGAFYAIFPILWILINALWIYNLTVATPWFDVLGRTIRSISDDLRIL
+SILIAFCFGALLESLAGFGAPVAIAAAMLMAAGMKPLKSAIVALLANTAPVAFGAMAAPI
+IALNGVTGIPLQELSSMTGRQTPFIALVVPLILVFLVDGKRGVRQTWPVALVAGVVFGLA
+QFVASNFFVVELTDVVAAVATVIAVLLMLRVWQPKELIGMSGESMNDDAGAARGAGAGEL
+AAEEGTDTLTRTGGDGSTAPGHGGAGSSAAGGDETGSAGVDSGASGSAGDSDRDNTRPPA
+RSVWLSVAPYLIIIVVFSLAQIPPIKAWLTQVGGVTFHWPGLDVVNSSGDPVGAQNLRFD
+HLKATGTLLLISGILTMILYRIAPAKGVRIYGETLKTLRWTIVTVCSVLALSFVMNLSGQ
+TTTLGVALASAGGFFALLSPLLGWIGVALTGSDTSSNSLFGQLQVAAAEETGLSPTLMAA
+ANSSAGVLGKMLSLQNLAIAAAAVGLNGVEGTLLRKLIGWSLGLLVLMTLLIWLQSTPVL
+GWMVP
+>tr|A0A0P7HKH2|A0A0P7HKH2_9MICC
+MSPKGDAGEHRAVAPGKVLPASAQGLLFTEDLPVLDEDAGYRGPTACKAAGITYRQLDYW
+ARTGLVEPAVRGASGSGTQRLYSFRDILVLKVVKRLLDTGVSLQQIRTAVEHLRERGVED
+LAQITLMSDGASVYECTSADEVIDLVQGGQGVFGIAVGRVWREVEGSLAQLPSEHADDHS
+YPEDELSRRRAARKIS
+>tr|A0A0P7FA91|A0A0P7FA91_9MICC
+MSTENSTAPVLELMGIKVHHRARTGSLFRPNIVKAVDGVDFTVRRGETVGIVGESGCGKS
+TLASVLVGLQEPTAGEVLFNGQKVSTRASSSKKTFGRAVGVVFQDPATALNPRMTIQDIL
+TDPLQVHGIGTQASRTARVKELLSLVGLPQSAAEVTPHQVSGGQRQRVAIARALALGPSV
+IVADEPTSALDVSVRAQVLNLLSDLKRELNLGMVFISHDIQTVRYVSDRICVMYYGRIVE
+EGPAAEVFDRPADDYTKSLLGAAPSLLHV
+>tr|A0A0P7FPY9|A0A0P7FPY9_9MICC
+MFRILFYTPEIPGNTGNAIRLAAITGAELHLVEPLGFDFEDSKLRRAGLDYHDLAVLRVH
+PNLEAAWKALQPERVYAFTSDGDTSYTDVAYQPGDVLLFGPESVGLPAEVKNDPHVTARV
+RLPMLPSLRSLNLANSASIAVYEAWRQHGFAGAQL
+>tr|A0A0P7GJQ8|A0A0P7GJQ8_9MICC
+MADHRWDTEPPAILPSRLAARRRAAGNGTMFSGAEDPGANAPAPVGDGTVNDHQVPVPAS
+VSAGDSGTDSAADSQRPARRWRFPLGAGILAACLMLAAAVALPLLRDRDRDPVLSVEMGT
+DVSAGRIADTGEADPEGQDSPAGSPPPPTETIGPADTAGPAAEPGSAGDGLVVHVAGAVA
+APGIVRIPEGGRVADAVAAAGGATADADLTRVNLAAPMPDGSMVVVPAEGDPAGAPVDAA
+GTAPGTGPVPGAGSPGGSPGTPGGSVVNLNTASEAELQTLPRVGPVLAARIITWRTEHGP
+FQRAEDLDAVPGIGEAMLAALLPLVVV
+>tr|A0A0P7G776|A0A0P7G776_9MICC
+MRKMLAAAATAALLGLTACGSGSLSDGEETAASGAAAEGLTSIEVGVIPIVDVAPIYLGV
+QEGLFEDEGLDVTLTLAQGGAAIVPAVTSGQMDFGFSNITSMIVGRSKGLPVQMVAPGGS
+STGDTDADFASVMTLPDSGIETITDLAGKKVGVNTLNNISDSTISEAVKQAGGDYESIEF
+VEIPFPELSGQLAAGTVDAVAAVEPFVTIAAADGAVPVFSNYAEPVDDLTVAVYFTSDQY
+VQENPEIVEKFVRAMNASQEFAEQNPDKVRAVLPTYTSLQPEVIEQLTLPRYATSVNRAS
+VEEVARISQDRGLVEELPNMDELLPQD
+>tr|A0A0N8HXX7|A0A0N8HXX7_9MICC
+MPAKRRPNKYVYRSIVFAGVAAVKLFRVKVIPSGLEHLPKDEVIRGLNRQVVPGKGAVVA
+ITHFGYLDFVFAEYLLWKQLKVHMRFLVTKKAARKKFVAAVCDWCEHIVVDRSNGGAAYP
+ISVEKLHKGDYLAVLPEAGVSRSFEVRQLKTGAVRMAAEAGVPIIPVSVWGGHRMLTRGH
+GLSLKAVWKTPVRIHIGEPLRIDPAAPVAEETLRLQKILQEGIDQCIDTYPEKAPVGAWW
+MPVSRGGSAMTPEDQVLLDEADRAKYKITG
+>tr|A0A0N8HZ82|A0A0N8HZ82_9MICC
+MQLRGASMAFGSRTLWQGLDLDINAGEFLAVLGPNGTGKTTLLKVLLGLQPLSSGTVRIN
+GHKAERGSKDIGYIPQQKTFAAGTPLRARDLVGMGVDGDKWGIRLRRAPVRARVDELLAQ
+VGAESYADAPVGKLSGGELQRLRAAQALATDPDLLLCDEPLLSLDLHHQQAISALIDARA
+HVHDSAVVFVTHEINPIIDYVDRVLYLAGGQFRTGTPSEVLRSDVLSDMYGSHVEVLRSH
+GRIVVLGVPDATTHHHGEGEADLGTF
+>tr|A0A0P7HFM6|A0A0P7HFM6_9MICC
+MSIIFALLYLVLMLFQLALILRIVFDAVQMFARQWRPKGPALVLATSVYGATDPPIRALR
+KIIPPLRLGGISLDLAFLVLFIVVSIAMQITLAAA
+>tr|A0A0P7FPQ7|A0A0P7FPQ7_9MICC
+MEQTGDTWKQLGPHYAGDGATEMITAYRNVAPNAGLLADTAKVVSRALTEFADGIRFLQI
+RRTALLERVKAANLRAAQEQESVCRAEPVYTPQPAATADLLLPAEVSALAAQYRALEEET
+AAKLRSASHGDGGLLDLATGIPATIINGMVAKGISATTARQTVTKVPTPVPVYRRYLTAE
+ERIRHMARGRWITDGEWKLTTVFGFDLRPNVFRGLYNHSGWYRNRVSANPSNWVLPDKFK
+DLGTAAKGIKISGGVFTAVTAGFTIAGEREDAYNELLQANPGWSRDELNGRANLEGGVKG
+GTKVGIDLTAAATGALIGTAIGGPAGTLLGAGIGIGISVVTSIEFDFLGGRTPKDFAADG
+VMEAIDNFANGWNKLFGE
+>tr|A0A0P7FY24|A0A0P7FY24_9MICC
+MNLTRAEARERAELINVESYDINLDLTRGDEVFGSTTVVRFGAQPGASTFIDAVTSKVHR
+ITLNGVSLDPQEVSDGVRIQLPNLAASNELVVEADAFYMNTGEGLHRFVDPVDNEVYLYS
+QFEVPDSRRMFAVFEQPDLKATFRFTVKAPEHWDVISNSPTPEPVHASAEDSGSPSATWS
+FEPTPRISSYITALIAGPYQSVRSELTSSDGRTIPLGVFARKSLMEYLDAENIFELTRQG
+FEFYESQFGTPYPFEKYDQLFVPEFNAGAMENAGAVTFLESYVFRGRVPDATVERRAITV
+LHELAHMWFGDLVTMRWWNDLWLNESFAEFMSALAAAEATEFKQAWTTFASMEKAWAYRQ
+DQLPTTHPIVAEIRDLEDVQVNFDGITYAKGASVLKQLVAWVGQDKFMQGVREYFGKHSW
+GNTELSDLLSELETASGRDLSDWSAKWLETAGVNTLRPVIEADDDGVITSFAVAQTAITE
+YPTLRPHRLAVGFYNTAEDGKLRRTHRVELDVDGELTEVPDLAGLKRPDLILLNDDDLAY
+AKIRLDDASWHLATRRLRDIAESLPRTLVWASAWDATRDGEIPARNYVELVLQNIASESD
+SSVVQVLLRQLATTLTFYVAPQDREPMSAAAADSLWELARGAAPGSDSQLQFVKAFASHA
+QTPEQLDEVAALLSGDLVLDGLEVGSDLRWELLTALVAGGRMGEAEIAAELERDATATGQ
+LAAAGARAALPSAEAKAAAWDAIVVRSDLPNAAQRAAIGGFSRVHDTGLLEPYAERYFDS
+LRDVWATRTHEIAQQIVVGLYPARLTTQETVDRTDAFLDSLGDEAPALRRLLLENRDGVV
+RALKAQAADH
+>tr|A0A0P7FZQ7|A0A0P7FZQ7_9MICC
+MAAGKSVVGRSLAARHSLPYVDTDQLVVEEHGPIPEIFARHSERFFREAEAQAVAGALGS
+PKRSVISLGGGAVLNTGTQQLLDRATVVFLDTDLATVLPRISRTAHRPLLAGDPAARWSA
+LAEVRRPIYESLADIVIDTRGLAVAEVVERITAALDEGEN
+>tr|A0A0P7FZG6|A0A0P7FZG6_9MICC
+MRSPLTPEQTASRARRFGAVYYAEHWLRRMRGYGVTVLVTAVGTPLVYLFGMGIGLASLV
+DTGTNAAFETGNGNSVSYLMFVAPALLATAAIMVSSEENTYTVMSGFKWRRTYYGPNASP
+LSSGQLVDGHVLGLGVRLLITCGAYFAFLLLFGAAGNPATAWLMIFTAILGGLAFGLPLM
+AYSASITEDRGQFAMVQRFIVMPLFLFSGTFFPLDTLPMIIRWIGWISPLWHATELGRLF
+SYGLAEPAALTVVHVAYLLVLAAGGWLLARRTFTRRLGK
+>tr|A0A0P7G834|A0A0P7G834_9MICC
+MTGIAIACALASAVFLAFGAQRQGSAVSADTGGLSLNSAGLGRLLRNPRWLFGLLLLGVG
+TGLNVAALAMAPLTVVQPIGSLALVITTIVNSRDQGLRLNRVTVVSIVACVLGSMLFVLL
+AVGATRSEPVVEARQEIVIVLILAVVVAFFGMLNLVFGKRLGAIAHILGAGILFGFVAVL
+TKTIAADLLDPNGRFLLNVPWYTIVGIAVAGGLGAWFVQSAYSSGPPDLVIAGLTVIDPM
+VGIAIGIGVLNELRPDVPAVLGVAMGVCAVIAIVGVVALSRYHPDVIKRRAMNKRRQKPV
+STRATPTNKP
+>tr|A0A0P7GB02|A0A0P7GB02_9MICC
+MLVGGHESGNGEDLCFVPDFLPGSLVTPAGRPLHNLLTRLLGRSRDADGSVPQPVVVLPM
+TFGRNPTLVADTAKTLRWLGTGDSNGDAAAPLALADAFGTGDHLTAWLRTAAVEVRRRSA
+EAAMLITADAANPFDDAELYRITHLVRTHGAGVPVETAAAGSAAGLLEAVRRLRLLGSKH
+TIVVPAGFRRTPVVSSELVPYGSGDFSDTEFYGGLLSERAVLRVIGERVRDALHALSHGR
+TGVEAGLQADHGHGYAHSHAFEESVGHSHPHSHGTGASHPHSHPAPIGRN
+>tr|A0A0N8HXX9|A0A0N8HXX9_9MICC
+MQLDSEDTGPIINRLKRAQGQLAAVARMLEEGRDCKDIVTQLSAVSKAVDRAGFAIIASG
+LEQCLTSDDPAVDRAEMEKLFMSLA
+>tr|A0A0N8HY17|A0A0N8HY17_9MICC
+MTRIIWQFIKDRLINPYLDVDLKYYDLSIQNRDATDDQVTIDAANAIKEHGVGVKCATIT
+PDEARVEEFGLKKMWVSPNGTIRNILGGVVFREPIIISNIPRLVPGWNKPIIIGRHAHGD
+QYKATNFKVPGAGTLTLTYTPADGGEEIKQTVVTYPEEGGVAMGMYNFNESIKDFARASF
+AYGLQRNYPVYLSTKNTILKAYDGQFKDLFQEVFDAEFKDQFEAAGLTYEHRLIDDMVAS
+AMKWEGGYVWACKNYDGDVQSDTVAQGFGSLGLMTSVLMTPDGKTVEAEAAHGTVTRHYR
+QHQQGKPTSTNPIASIFAWTRGLMHRGKLDNTPEVINFAQTLEDVVVKTVESGKMTKDLA
+LLVGPDQPYLTTEEFLAALDENLKVRLG
+>tr|A0A0P7HEL7|A0A0P7HEL7_9MICC
+MNRGTRLWPVQLAADVVLIIVFAALGRDTHAHGVDPAGVLITASPFIAAALAAWALLRLW
+RRPASLWPHGVLLWVITAGGGLAVRALAGGGTAFSFQLVTFGVLGAFLLLPRLTASLATR
+GRARRDSTRLINRA
+>tr|A0A0P7HFK2|A0A0P7HFK2_9MICC
+MARIPRKQYTDLFGPTTGDRVRLADTNLVIEIEKDFNEGHYGDEVVYGGGKTARDGMAAD
+PQATSAEGVLDLVITNAIILDPILGVVKGDIGIRDGKIAGVGKSGNPHTQSGVDPRLIVG
+PGTELLAGEHFIATAGGIDSHVHYISPEQALAALSNGITTLFGGGTGPTDGTNGVTTTPG
+VWNIATMLRSIEAMPVNMGILGKGNGSLPDALIEQIEGGAAGLKVHEDYGATPAALSRAL
+SVADDYDVQISVHTDSLNEAGYVENTLDAIDGRTIHTFHTEGAGGGHAPDIIKVAGYPNV
+LPSSTNPTLPYTANSVDELLDMVMVCHHLSHDIPEDVAFADSRVRAETISAETVFHDEGI
+ISMVSSDSQAMGRIGESFMRTFQIAHHCKDQRGKLPEDSADNDNFRVLRFLAKITINPAI
+TQGVSDYIGSLEEGKMADIVLWPIQSFAAKPRLIVKGGLINWALMGDPNASLPTPQPVFY
+RPMFGAQGKALQSTRATFMSKAAIDKGVPETLGLESQVLPVHRCRGIGKEHMVRNNATPD
+ITVDPETYDVTYNGTLAKIPPAQSLPLTQLFFLA
+>tr|A0A0N8HXL7|A0A0N8HXL7_9MICC
+MNKMAKGALATGVGVALLLGGGGTLATWNASADATAGSIVAGELNLVSTTGTWTNAAGVQ
+IDLQNYKIVPGETIKYSQPLEIKLDGPELKATLTPDLNGSTDSFRGMATYDYSIKSAAGR
+ELKGQILTQKDAGAATVTATVTLSKDAKNDMQKVAQDVSKIQYNLQQVIR
+>tr|A0A0N8HXN6|A0A0N8HXN6_9MICC
+MSNSGTERVPTLNIANVLTVIRIVMVPLFIWFLVADDGRDGLFRWLAVATFAVAIYTDKL
+DGDLARSRGLITDFGKIADPIADKLLIGSALVMLSVLGELWWWVTILILVREIGITVMRF
+VVIRYGVMAASRGGKLKTVIQTFAIFLFLLPLTTWLGDWAWWISAAVMAAAVIVTVVTGI
+DYVVQAAKLRAGARGKTGA
+>tr|A0A0P7HVU9|A0A0P7HVU9_9MICC
+MPVEPDADQARDWLQSELSKPEYQEAQPGLLERALTAVLEWLADVVSGIQGVGASTGVLL
+LGLGALLLLALAILVIRPRLNARRRPDGVFDDAETGQDAVSHRALAEEALRAGDWDRSLA
+ERLRAILRSAEERVILDPRPGRTAHEAGASLSAVFPAAAEEILWLSRRFDEVRYGGGQAA
+EQDARRAGELDARLLGSSPAAPQRTAQPSLAVPK
+>tr|A0A0P7FXI1|A0A0P7FXI1_9MICC
+MAQKVKIILVDDLDGGSADETVRFGLDGSQYEIDLSNDNAKNLRAALKQYVDAGRKTGGR
+TGRPRGTGAARSNEAAQIREWARSNGYTVSERGRVNSEIIEAYRAAQG
+>tr|A0A0P7HGL1|A0A0P7HGL1_9MICC
+MGSNPANAASNGRETTPRIGGEKLTATAGTAPVHSKRSPLRVVMTVLAGILAVAGVGSLA
+ALLLEAFRGEVIWPGFAAGAFYALPIAFLLMAGLVIDSIVRRRRG
+>tr|A0A0P7FEH1|A0A0P7FEH1_9MICC
+MLVAFSVAPSGVGPETGPGGPSADASVHDAVAAAVKIVRQSGLPNRTDAMFTTIEGEWDE
+VMDVIRRATEAVGRYGSRVSLVLKADIRPGHTGELTGKVERLEEILAAEDEYRGHS
+>tr|A0A0P7H408|A0A0P7H408_9MICC
+MTGAENKEIKHQKPVRGQFAGATFFVVCLAATAAHYGAYAALGVLNEVEFRPLTVGLLPL
+TATIVMGVTCRSWSQWRKWIWPWAMAAGVLGFMLANLNFYMWSESVVEAERSEKLAVERA
+ASEAESRACEYLSLAIDQRSEIDQHRPQFESDGTPWGDHFAKHLMGESPVTANLREEYAQ
+YC
+>tr|A0A0P7GL89|A0A0P7GL89_9MICC
+MTYPDAGFTDRPYPQTLEGGWPEGYRLVLRSVRLDVPDPAAAFLRLADGILSWGLHRESG
+LRVAADTPRAAAGVEMASGVGVGPLRWQAPCRVLWSAEPVLDGGVPVPGQRAGFGYGTLR
+GHPEAGEEGFYAELTSDGQLFFRVAAYSRPANWFVAAGGPANRWTQEMITRRYFRTARRL
+AVGGQQPPSGG
+>tr|A0A0P7GA35|A0A0P7GA35_9MICC
+MPEFESVSFPGVNGTTLAGTLDVPDGDPLGWAVFCHGFALGKNSAAASRISKALAERGIG
+VLRYDAAGLGRSTGSWEDGSFTTKVTDLHNAMDFLRSSGRPATLLIGHSLGGAAALAAAA
+SEDSLAALVTIGAPFRPSHVAHLFEDELETIAAQGEADVELGGRTLTIRQELVEDLNGHD
+LRECIKSLDLPLLVMHSPTDETVGIDNASEIFNAARHPRSFVSLEGSSHLMPDREQTTRA
+AEIIAAWSGIYLRQAREQVP
+>tr|A0A0P7H561|A0A0P7H561_9MICC
+MRKAFSLVATGVAAALALTACGGSESSSSAVESLDPANPVSLTVGASPQPHAVILEYVAD
+NLAADAGLELEVVPFDDYVTPNISLDDGSIDANYFQHSAYLDAQIEERGYDFERGEGIHI
+EPYAVFSKKHQDISDVEEGARVAITNDPSNQARALALLEDAGLLKDVPADASVISLNDEQ
+NPKNLDFVENQAELLVNDLSDPTVDLAIINGNYILDAGLKTEDALLVESLDNNPYANLLA
+WKAGSKDARIDKLEELLHSPEVKSFIEEKWPNGDVTPAF
+>tr|A0A0P7H928|A0A0P7H928_9MICC
+MSPTATRPAARSRWTKLIWMIPASLAVLALIVLAARWLRETPGGQEFLGMYPGHTDLPEG
+APVGLPAWVGWQHFLNSLLLLLIIRSGWLIRTRQRPVGSWTRNNKGLIRTRNQPKKISLD
+LWFHLSLDVLWVLNGLVFYVLLFATGQWMRLVPTSWGVFPNAASTALQYASLDWPTENGW
+VNYNSLQVLSYFSIVFIAAPLAILTGLRMSPSWPSKAKRLNRFFPIETARALHFPVMLYF
+VLFIIVHVTLVLTTGALRNLNHMYAASDGTGWTGFWFFAASVVIMVAAWVAARPLFLRPV
+ASLTGKVSR
+>tr|A0A0N8HX24|A0A0N8HX24_9MICC
+MDTDLIITIVAGLLIAVGVAGIVVPVLPGSILILLAFLGWAIGVSSGAGWWSFAFGALFA
+LSGLSASAVLTGRKLKQRQIPNRSVLIGLAAGIAGMFFIPVVGLIVGFAGGLLLSEFARQ
+RSFPAAASSSWAALKATGLGMLVELGLALAAGTAWIIGVWVHFASR
+>tr|A0A0N8HY00|A0A0N8HY00_9MICC
+MDSPAAPEPLPKAPGYGRSSVAEVLSSAAAALQVPGFTNTLELPAARRVCVVMVDGLGRS
+LLKQRAGHAPYLRSLLDSGRTLSAAFPTTTAASLASLGTGLPPGQHGMVGYDVLDPAQDK
+VVNMLGNWDPGVNPRLWQPFPTVLEQAAEHVPVTTVSLPRFADSAMTKAALRGGSHASGI
+GIHARIQAASESLASEKRMLMYFYFNELDKIGHRHGAQSSEWGGALEELDSALKRFTAKL
+PQDTLVLLTADHGMVDTAPADRIDFSADPALVDGVRHTAGDPRLVQLHLEPDAPSGTLER
+LAAAWRRALGSKTWIMTRDEAVAAGLFGPVRPEVLPRIGDLLVAAREPIALYDTRRASPS
+ALQMVGQHGSLTRAEREVPLLTLARPAKSGRK
+>tr|A0A0N8HXQ1|A0A0N8HXQ1_9MICC
+MTSPQITASRARLLELIKELAVVRGKVTLSSGKEADYYIDLRRITLHHEASQLVGEVMLD
+MIDSAGIQFASAGGLTMGADPVATAVMNASARSGGTVDAFVVRKAQKSYGMGRQVEGPDV
+AGRDVVVLEDTSTTGGSALTAVEGVRNAGGNVVAVAVIVDRDTGAKERIEAEAGVPYLFA
+FGKDELGLD
+>tr|A0A0P7HCA7|A0A0P7HCA7_9MICC
+MARRAAAAAVACALIATGMTLTAPAAAQAAPLLEHEFTFSDPKGSDWVVPGVVTDVLVAL
+RGGDGGCVNCSQPGGRGQSYLLQLAVTPGDTLTLYAGQSGDVFRTAGQGFVDGGKGGDKS
+RSGSVGNGGGGASALKLNGELLAVAGGGGGGGGHGGDRDFRPFNIDVDFGGAGGDAATGE
+QPGWGWGKHAGNPGKNAEDNPSFARYGKEGENGKSAGFMTSGGGGGAGGGGYPASGTAGG
+AGKKRLGFGAGSGGGAGMSWINSDAPQLTVLEEACPNLDFTCWGLQRADSTVKVTIPLQV
+DAVLYGPAEVAAGSPFEVRGIAQDSILGGSPVDGTYTLELDGEPIATGTTDGDITLPVEG
+IAEGTHTLTYTFTAKHRMGAYWNDSAVTRAELTLAATPTPPAESADDYVDLPQDTRNGGT
+PDKDTNGKGTPDKDTKAKGTEGKDADAQDEDAEDESDEPLSPAEERLREANKPLTDTIER
+P
+>tr|A0A0P7HH40|A0A0P7HH40_9MICC
+MTSDLQNPHLTYKANAGVGRHGWLRLTPAYGVRLVREKISLLPPGSIITDPFSGTGTTPL
+AAMELGHYGQSLDVNPFLIWMANAKMSHYSENDISNGWKYLGIIREEASKLHADMSLWQP
+NIFKIDRWWSAGSLQALKAIAHVIFEFLPDDRSRNLLLIGFCRALIDASNAAFNHQSMSF
+KENSKDITSFEIKVFEATLDIYAQEAGEILKSASQDLPGVGIAYEGDSREMENPLKPADL
+LVTSPPYVNRMSYIRELRPYMYWLKYLDAASDAGDLDWKAIGGTWGSATSKLNSWRPSET
+GTPVDASMDSVRARIAADGEKNGPLLSNYVGKYFHDMWSHFNATLQHVKHGGSVSYIIGN
+STFYGHEVPAHEWYASMLSEVGYVDVEVKPIRKRNSKKALYEYDVTARRPQ
+>tr|A0A0P7HMC8|A0A0P7HMC8_9MICC
+MTPTLLEKNAPEPDPVDEAITALTAAARGQRIIGAGTANEHSVPTNFAGTLSRILASVAA
+NVGGIEALLQGRPESWEADYVCQLLRSTVGENEEYLLQYRTELVGSRGLRGLSNRFPPLD
+RHRHVRVRICDLTKN
+>tr|A0A0P7GDY2|A0A0P7GDY2_9MICC
+MVLAILALLICWIPLVNFASFPLAAVAVGLGIPALVKGLKGRNIAKPLSIAALSIAALSM
+VAAIVVNTVVVDSLRDAGLWEDNGPGTETSAESFAEFLEESEELSESAQNDYAYEYSAGY
+IAEKVAQPANAAGDEVTVGDYTVTLVELDRDAEAEVLDRDPSAGAPDHNYVIARFSAVYN
+GEGDGRPWLDLPAELVGTDNKIYSVMGCSMSLGMRTVDQELLSKGDTVTQEACFDVPDSA
+LGEDSRLSMRMILAEQNNDEVFWRLP
+>tr|A0A0P7GWV7|A0A0P7GWV7_9MICC
+MHNDMQEHPADENSPSTRRTTPLMNVPASGIVNGGASASRPRDVDPAEVAVLAEAEDPGT
+APQRLQELAAEQPLARPAVAANPAAGPELLTWLRNLDDPAVNEALRRRAQAEPGQ
+>tr|A0A0P7FZC0|A0A0P7FZC0_9MICC
+MFYWVMKTIFIGPVVNLLFRPWVKGMDNVPATGPAILVSNHLSFSDSIFLPLAVPRPVSF
+LAKSEYFTGRGIKGKLTAAFFRLTNQLPIDRSGGAASEAALRAGVKVLEGGNLLGIYPEG
+TRSPDGRLYRGKTGVAKMALQTGVPVIPVAMIGTDKVQPIGRRIPNIRRIGIIVGEPLDF
+SRYAGLENDRFVQRSVTDEIMYELMRLSGQEYVDVYASTVKDKMAAARKASKSAESRSAA
+VRLPHAETPEPGVGPGVVRRPSAKEPGEVTLIGGPVPAEPASPAAEEDPRQPGENSSDGS
+AQSPHSA
+>tr|A0A0P7HD70|A0A0P7HD70_9MICC
+MKKLINDPRAVVAESLEGFGMAHHDLVEVHADPAYVTRRDAPVAGKVSLVSGGGSGHEPL
+HSGYVGRGMLDAAVPGAVFTSPTPDQILPAITSTDSGAGVLMIVKNYTGDILNFETAAEL
+AQAEGIEVRSVVVNDDVAVEDSLYTAGRRGVGGTVLVERIAGAAAERGDSLQSVTDLAER
+VNAGVRSMGVALSACTVPHAGEPSFDLGEDEIELGVGIHGEPGRRKMPMATADVITDQLL
+EPVLSDLGTGSGERVLLFVNGMGGTPLSELYIVYRHAAKVLADRGIHVERSLVGNYITAL
+EMQGASITVLKLDDDMIDLWDSPVHTAALRWGV
+>tr|A0A0N8HXU2|A0A0N8HXU2_9MICC
+MGITRLEHASPADIARLSAVLGEAFADYAWTRWTVDSERREARISAIQRLYLEHLGLPHG
+EVWADEVRTAVAVLLPPHLAVLDPAPLTAGLQDKLASLHGDSARNLHYPLPQAPAGAWTL
+ATIGVAPAAQGNGLGTQLMEAILAACPDRAIALETSAESNVAFYRRFGFGVWAVSEMPDG
+GPLVWSMLRGPGG
+>tr|A0A0P7GIN7|A0A0P7GIN7_9MICC
+MSEQNPGDSASDFLLPWLAGLGQHAGSDTLLHFTVSPESSIDLTHAHPSGLAQLLAGRRT
+RLSTLLRDADHYRVAMRAARALRAKIYELGSDRGLDVGYLAAGTASWRYASDEALRPESL
+TAPVLLTAVSLTVHASQDDYELQLTGKAELNPAFIRHLQSQQGLDVDSDALARLAYGTAR
+FDPHPVLDRLRALTEGVRGMNIEHRLLVSTFADLPDLAEDTALDPSHPILRALMDAAVDG
+SSTPAEPADPGLPPLDDRAPADELLVLDADKEQQEVLDLAGAGVSLVVSAPPGTGQTQTA
+VNAAASLVHAGKSVLVVAERRGTLNEFVSALDSLNLGSMVLQLGAGLSEEALRDRLVRAI
+VRSEKATEPNLGNLHKVLQESRHQLRDHVKSLHNVRQRWGCSPYQAMQSLAELTSMTPAP
+ATTVRLKRSVLDSITDRTELTGRLRRAAELGSFSRAAVSSPWFGAKLLNRKETEAAHKLT
+EELAEALPQLRARVQEVAEHSQIRLGETFAQWGEQLELLVAVRESLDKFTPDIFDRPVTD
+LISATASSSWRREHGVDMSSMTRSRLRRVAKEYIRPGVHISDLHTSLVQVQQQRLVWARY
+ATTQRHPSVPTGLADLNRTYLEVKEQLDTLTRILAGTPDKPDLAAQSLDDLEKKLRALAG
+DKETLETLPERTLLVDEMRGQGLGELLDDLEAREVTPRQVGYELELAWWQSALEAMISGD
+DYLAMSDGDSLRRLEAEYRLADNAHIASGASRLRWGLARRWSEGIKSQAKDAARLKETIK
+TGPLTVDSLSSQSDELVTSLLPVWAASPLLLPMMLPGTRRFDALIILDAESMSLQAAVPA
+IARAGQVIAFGDGNLDGPKPFSINVQRQESGAADELPSAFDALCRILPSRTLSTVYRGTD
+KHLLKQLSDEFYAGRLSWVPRGDEVATGERPLTVEYLADGTGMPSADQEGVESVSAEVNR
+VVDLVFEHVRRRPSQSLAVITASPRHAVRVAEAIRVQMANFPWASDFFAPGAESFRVVPA
+DRAAGLVRDAVIFSLGFGRTPHGRALHNFGLLSEPGGRGRFVNAMTRARHRLHVLTCFQP
+SDLDESRLGHGAKDFYQLLVRELDGSPVAAASRERSAGNSIMSDDPLVADLVGRLRSRGA
+EVWDHYDDAIDIVATVRRSADSDPAVPMAIESDGTSRYRSMSVRERSRLRPQLLERLGWR
+YMPLWTIEVFTDPAACADLVGRYLGLSAPAPEPEPIREAHTAAAPVKVVPHGSTRIRPRS
+EEQPNPAIRAAAAAAAAAGGIDKANEPRTEK
+>tr|A0A0P7FTX4|A0A0P7FTX4_9MICC
+MQNQGVGSWINRQRIKSGSRTALVFGGEAMTYEQLDARINSLAAALRANGVEHGTRVAFL
+GDNHPSFLETFFAAASLGAVFVPLNTRLAPPEIQFALQDSGSAVLVSTLALDELASRGAR
+DTAVRLRLLVDDGTKTPAAEAGALTVQPYEDCFAGTAPFADAQVSLDDGAIILYTSGTTG
+QPKGALLTHGNLTWNCFNVLVDYDVAENDIALMISPLFHVASLDMGVLPNLLKGATVILE
+TRFEPGRTLELIERYRATYISGVPTTYQLLCEHPDWAKRDISSLRKLTCGGSAVPLRVID
+AYEERSLSFSGGYGMTETAPGATALPPSYSREKAGSAGIPHFFTSVRVARPDGTTAEPGE
+VGEVQISGPNVIKSYWNRPDATESAFTDGTWFRSGDMGYFDADGFLFISDRLKDMIISGG
+ENIYPAEIEQIITEIEAVSGVAVIGVPDEKWGEVPRAIITLREGFTLEPDAVAAHLDGRL
+ARYKIPKTVEIVPDFPRTASGKIRKADLRREHAG
+>tr|A0A0P7FXK9|A0A0P7FXK9_9MICC
+MRELQAEIIAEMGVHPAIDPEAEIRRRVDFLKDYLHASHTKGFVLGISGGVDSTLAGRLA
+QLAVEELNAEGTDANFVALRLPYRVQHDEDDAQAALSFIQPKTCWTYNIGDAVDGFEKAY
+AAMDAGPLSDFNKGNIKARVRMTAHYAVGGEHNLLVIGTDHGAESVTGFFTKYGDGGADI
+LPLFGLNKRQVRSLLTALGAPEKLVGKAPTADLLDGVPGQTDETELGITYDEIDDYLEGR
+EVSEEAAEKIEKRFLMTRHKRTTPVSILDSWWK
+>tr|A0A0P7GE39|A0A0P7GE39_9MICC
+MDAPENQVQFEDKLRVLVWNEGVHEARNQPASMADDYPAGIHGALADSLRSFFPGAGIST
+ALLSDPGHGLDEERLAATDVLLWWGHKAHDEVSDEVVDRVHRHVLGGMGLLVLHSGHFSK
+IFTRLLGTTCSLQWRNDGERELVWTVKPSHPITEGVPNPIHLPRSEMYGELFDVPEPDDL
+LFISNFEGGEVFRSGLTFTRGKGRIFYFSPGDQDYPIYHSPGIQRVIANGVRWAAQPEAA
+RSQPEVGNPERRWS
+>tr|A0A0P7GJ22|A0A0P7GJ22_9MICC
+MSVPVTFLTPRLAPAGNGPRSSSDGGAGFGSALEAAAGAAAETLPEAPGSAAEPAEPETA
+AMPAGTEASASAAGLSFDDTSLLNGLVAPVAVLQPRQAVTTAEGSPEGTDPESALLTGDG
+TLLPAVSAAGTAETPAAAAMATAAGIAAATVPTDADPASADSGDTDTPRPVTAAQGEAAK
+APQAAAQFAGGSGTGAGAGPSSRPDRGAAPAGTLPAASAASGTFQSGVLQGGTAGPVPAG
+AEPAAEAAAETVKVLPSAAQPAAAAAAAPVVSVPAVQVAAPVPVQATVPAQPAPLLTQVA
+QPLFSLSSAAAGEHVMTLSVTPENLGPVTVRAHVSADGIRVELFAPNDAGREALRTILTD
+LRRDLSGSGMNASLSLSAQDQPGTEAEGRGEAPERGTARTGAEPDAGPVPVQQIFRPVAH
+GPQTTLDILA
+>tr|A0A0P7HJD9|A0A0P7HJD9_9MICC
+MPHLEEQNLTWSETDSKAVDTVRVLAADAVEKVGNGHPGTAMSLAPAAYLLFQKVMRHDP
+ADPHWLGRDRFVLSPGHTSLTLYIQLFLSGYGLELDDLKALRTWGSKTPGHPEYRHTDGV
+EITTGPLGQGLASAVGFAFAQRRLRGMFDADAPAGSSPFDHTIWVIASDGDLQEGVTAEA
+SSLAGHQELGNLVVIYDENHISIEDDTDIAFTEDVLKRYEAYGWHTQRVDWTAGGEYRED
+VNGLYDALAAAKAETNRPSIISLRTIIGWPAPNKQNTGKIHGSALGRDEVAALKETLGFD
+PEKTFDVDPDVLAHAREVRSRGAEEHALWNDSFAAWQESNPEGAALLERIQAGKLPAGWE
+ESLPAFEAGKDVSTRAASGKVLSAIGPVLPELWGGSADLAESNNTTIEGAESFVPAGRQT
+AAWSGGPYGRVLHFGIREHAAAAIVNGITMSSNTRAFSGTFLIFSDYQRPAVRLGALMGV
+PSIYVWTHDSIGLGEDGPTHQPVEQLASLRAIPGLDVVRPADANEVAVAWRTILENTENP
+AGIVLTRQNVPTWERGTGAADAGSFGAADGAARGGYVLAEAVRGGETVTPDVILIGTGSE
+VQLAVQAREALAAEGIAARVVSMPSVEWFNRQDAEYRESVLPRSVKARVSVEAGIAQGWR
+EFVGDDGRMVSLEHFGASADYKTLFNEFGITADAVAQAARDSLAAVHGHDAAPAGTPAAP
+SGAASTETGDQK
+>tr|A0A0P7GTQ0|A0A0P7GTQ0_9MICC
+MAAAACGLAVQSLLPQEPRTVAVAAAAGDLPSGHVLASRDLRLVQLPPGAVPAGAFADPG
+QAAGQQLAVPLRKGTVINDSFLIGDGMLAGAAEGSSAVPLRPADPAAAALLSPGVLVDVV
+AASETGFDGAGPLDVLASAVPVLWITAADSGPGPWSGPDEGPLVVVAAPAADAARLAVAS
+AQSQLYLVPNGG
+>tr|A0A0P7HEX1|A0A0P7HEX1_9MICC
+MTVKKFRNSAAVVAGAAAVALLAAGCGGGSSNSGEPASEENPIELSVTTFGTFGYDDLYA
+EYEEANPGITIKPNNIDTGGNARTDLFTKLAAGSGVSDVVAIEEGWLGAIMEVSDKFVDL
+NEYGAEDLKDNWVGWKYKQGTDPDGRVIGYGTDIGPQGICYNGDLFEAAGLPSDREAVAE
+LLGGEDATWEKYFEVGNQYKDASGKAWFDQAGFVWNSMVNQMEEGYYTKDGELNIEGNDA
+MIANFKMLSGSIDDGLSANQEEWKWNNGQSFLDGTFATMVCPGWMLGNIQGGIETAGGST
+DSGWDFADVFPGGASNWGGAFLSVPETSDHKEEAAKLAAWLTDPEQQIKQSAAAGNFPST
+LEAQEQLASDATPNEWFNDAPTGAILASRAEGVEAQFKGPDDSVIQEKVFGPAIDDLETG
+TANADQAWEKALKLLNDLVINN
+>tr|A0A0N8HXP5|A0A0N8HXP5_9MICC
+MTSSNVVPEAADSSEQMRIRAEKRAKLLERGQEAYPVGVERTHSLRQVRDKFGHLQADET
+SGETVGVSGRVVFIRNTGKLCFATLQEGDGTRLQAMLSLASIGEESLADWKAMVDLGDHV
+FIHGEVISSRRGELSVMADSWSMASKALRPLPVLHAGLNEETRVRQRYVDLMVRDEARDM
+VYKRASIIRAVRDTLHSHGYVEVETPMLQLIHGGAAARPFETHLNAFDQPMTLRIATELY
+LKRAVVGGIERVYELGRIFRNEGVDSTHSPEFTTLECYEAYADQYVMADRIKEIILNAAD
+AAGSRQIETEAGTIDLDGEWRWLSVYPGLSEAVGEEITPDTDAETLRALADKHGVKVDPK
+WDAEKLVIELFGEIVEPTLLQPTFVYDYPPSAQPLARPHREDPRLIEAWDLIIGGMERGT
+AFSELIDPVIQRERLTEQSRRAAAGDDEAMALDEDFLRALEYGAPPMGGIGLGIDRLVML
+FTNAGIRETILFPLLKPEVG
+>tr|A0A0P7GLH7|A0A0P7GLH7_9MICC
+MGDLSQVPPEFLTALGALRRAKCRPELRLEEIPAPTRLAPFAVSLAADVTASGPQPVNGT
+FHGPVGPVLPESRELATGRFILLHDPDGSDVWNGTFRIVTYIRAELEPDMGNDQMLGSVA
+WTWLVDALQEHGARYCAAGGTATRILSESYGTLAGRSDAIDIELRASWTPADADVQAHLE
+AWSDMVCTFAGLPPLPDGVSPLPRRRLN
+>tr|A0A0P7GHY6|A0A0P7GHY6_9MICC
+MDEVRAGHGSLRLETDGALTALDAAGLPAAAGSGLAADLTHAVLSGSPDTLKASVGELHV
+VRTALAAGECLGETPVPVDMTNLSVVVGGDKIIKLVRQWSGADRSARLLARLADAGVDSV
+PGYYGSLDWEHPEHGRGTLALLSAVIPDAGDGWTWAVDDVVAWFRGGKAPEFPAALGRLA
+AEVHAALLAGGAHPAPGAAEVRARADGVLDVALALTGGDAGIRLSNRAGRIREQLAAVPE
+TAAPAFDLHGDLHVGQVLRSGEQYWLLDFDGDPQLPDAERDRPDSAARDVAHLAASLEMV
+ASVAAKRLQAADEASLGRLYGWADEASVQLTGAYQLAAAEAGLPDLLDEAMLPGLIAEQL
+LRELIYAHRFLPRWQYAADGAITHRFARDSARAPRTKEPAWTPPAL
+>tr|A0A0P7GBS6|A0A0P7GBS6_9MICC
+MSHSWDGNPPESCPGWLDVYINGQHTAHLNMGATDAPVTWSCVIGVGLGMATLFAPGAGQ
+VGWALAGTLAGIGVTIAGCAGF
+>tr|A0A0P7HIK3|A0A0P7HIK3_9MICC
+MAKASSAEQLRLLDLQALDSKMRQLDSRARSVRENPDLKALAAKAAAARSALGAAATQSA
+DIERELARAEADVASVTSRLERDRKHLDSGAGGSKELTALQSEIESLTRRRSDLEDTELE
+VMERLESVRGVEAERRAEAASAETEMAELEAKRDAELAEIEAERAETMRQRTELAGRFAP
+DLLAVYERTLARHGIGAARLFHGTSEGSGMQLSPGDLADIRKAADDDIVFCPDSGCILVR
+SSEWGS
+>tr|A0A0P7HD32|A0A0P7HD32_9MICC
+MKVLASQETLDRLKSLLVALQEQASGVIGHLSVTHSFGDPACDRLSPGGADPQDPRVEAD
+LAKYGGVEGLALAEEVFELSSDLGTWATARFPKVQNRWALGSLLLFDSARSMMKGPRASS
+WPDRRRLSWDYYWDSHLRSCTAGFGPRAASVRQAMTVQVGAKVMPTHRLMAATAAESAVE
+NWRRRWFRTMDTYLYRADKARVSRSAQHLTVYQAHMLLNRLGLSLREEAAMGLYARTWST
+EREAMLLDKH
+>tr|A0A0P7FDX8|A0A0P7FDX8_9MICC
+MYGVLQGEWFRANSLGHGRLFLYTPAEESPGEQWQPSDDADDRGRPLSWTRIVSERELDR
+LVDISVLATWQGLGVGIQKYREGTVYAFVDGGPKEDQIRRGEIPEITIAGPGEYHGEFRW
+EDLSDVVLTEHDLLMR
+>tr|A0A0P7GAG9|A0A0P7GAG9_9MICC
+MTWEVSPGVGYTALAAVTLATLLIGAYGLRISRTTGDFYVASRTVKPWWNASAIGGEYLS
+AASFLGVAGLVLVSGVDALWFPIGYTAGYLMLLLFVAAPLRRSGAYTVPDFARARLDSLP
+ARRVTSLLVVAVGWLYIVPQLHGAALTVGLTTGLPGWAGSAAVVVIVCLSVLSGGMRSIT
+FVQAFQYWLKLVALAVPVLFILFRLGADGVSWTSSGAAFDFGTDTAVADSVYRNVSLSIA
+LLCGTLGLPHVLVRFYTNPDGVSARRTTLIVLGLLSVFYVFPTLYGILGRTYLPDLAGDG
+NADATVLLLPAQVFDGALGDLLAAFVTAGAFAAFLSTSSGLIVSLAGVISQEFFRGSIRG
+FRTATLLAGAVPLGLALLTNTQALAGSVGMVFAFTASTLCPLLLMGIWWRRLTAAGAVAG
+MLTGAVLCGGAIVAGGVLSVSGGAVPVWLEQPAAWTVPAAFAVTVLVSLRGPGTIPAGTA
+RFLARLHTPERILRP
+>tr|A0A0P7GAG3|A0A0P7GAG3_9MICC
+MGLSKVMARLLPRQVSDELSLALAEMKQKGIKAGVAAAFLVVALLFLAALGVALIAAAIL
+GLATVMPAWLAALLVAALFLVIAAVAALVGVNRFKKTMPLLPEDALRGIRYDLGVLKEGR
+SFDPSTLDAPRKPKEKPEEGKQEKAEDAVQKPTPEELRIRLRQRREHMAAVRDGLGEKAD
+VKKQMQDLKARRAADRKNGSSAAGAQGEGLADEVGAMFRERKQPLAVLGASLLAMGILLR
+RLARK
+>tr|A0A0P7FB04|A0A0P7FB04_9MICC
+MGNLKEEVPMTDTPEHLNNHHRDTLNQILRHPVSHNIEWKRVRSLLDTVADTTREHNGKY
+EVTIAGQTDYLTPPRGKDIDEQTVVDLRELLERAGFSLEE
+>tr|A0A0P7HPD2|A0A0P7HPD2_9MICC
+MNQAYIYDAVRTPFGRFGGALAGIRPDDLAAQVIQASVSRAPELDPGRIDEVILGNANGA
+GEENRNVARMATLLAGLPVSIPGTTVNRLCGSSLDAAMIASRQINTGEADLMLVGGVESM
+SRAPWVLPKNEKPFPAGDQTLASTTLGWRLVNPNMPREWTVSLGEATEQLREKYGITRER
+QDEFAAKSHEAAARAWDEGRYANLTIAVDGADLARDESIRAGSTVEKLATLKTVFRPVSD
+SPAGGTVTAGNASPLNDGASAAWLGSEAAAGMLGLAPLARIAGRGAAANEPQFFGYAPVE
+AANTALKRAGISWGDVGAVELNEAFAAQSLACLDAWDIDPDIVNAWGGAVSIGHPLGASG
+TRILGTLARRLEATGERWGVAAICIGVGQGLAVVLENINA
+>tr|A0A0P7FTZ3|A0A0P7FTZ3_9MICC
+MRTSRPLRAVAVAAAAALALTACGSDYPLGDEQREAAENSNSTLSGIISGSGSTAQGPAM
+DAWIGGFRVLHPKVQVQYSPDGSGAGRNALLAGAVQFAGSDAYLQDEELAEAREVCGPGG
+ALDIPSYISPIAVAFNLPGIDSLNMDAATIARIFRGEIDFWNDPAIAAQNPGVELPEIRI
+TAVSRADDSGTTENFTEYLHEAAPEAWPNDPSGSWPGGLGGENAQGSAGVISTVTRTEGS
+VAYSDDSVVDDSLGTVNLKVGEEYVPISADAASIAVEQSTRVPGRSANDIALHLDRTTTA
+PGAYPLVLISYQIFCSGYEDANTVELVKAFGEYVISDEGQQASADAAKSAPIPKSLAEDA
+RAAVESITTLP
+>tr|A0A0P7G7M0|A0A0P7G7M0_9MICC
+MTAPPEASGLGSIGARAARGALWSGANALMMKLAGIAVMVVVVRLVTPHDFGVFAAALVV
+HAIVSSFGELGLSSCVARRDLDPEKVASTVAVLALVSSFVLAGGMVLAADPLAGLLGAPE
+AAAPIRVLSIAVFLGGVFTVPGALLVREFRQGKVFLASAVAFVPTNLVLILLAIGGDGAM
+AFAWSRVVSQLVSGIVMALSVDRTYWPSLRRAQVGPVLRFGLPLAGANLLGYSLLNADYA
+IIGAFLGPAELGIYTLAFTVASWSTSVMSSTINSVAMPAFSALQSGSAELRGFLARTSRM
+VALIAFPVMALTIALAGELVAVLYGSTWAAAAPVLRILALYGGVFALSLLMSNLLVGQGR
+AGSVFAVQAVWLIVLIPAVGLSLGPFGLSGAAWVHVAVIAIVIMPLYLRALRGTVPAAGR
+LLVRASGAPAAAAAGAALLGLAAASPVSGDVPRLILGGLTGTAAYLVLSAPMLRRALPAA
+VRGRAGTLLAFYDRLESTLPALRQRSKESIQ
+>tr|A0A0P7HV61|A0A0P7HV61_9MICC
+MQAPDLPAVSVVIPCLNDAGVLRTCLASLAEQSMQPAEIVVVDNNSTDNSAEVAAEFGAK
+VVFEPRPGIPAAAAAGYDAAASEIIARCDADCILPPNWIQQLAEHFAADPQLAAVSGPGR
+FYGFSPWLGRALSRIYLGSYYQAMTLALAHRPLFGSNLGLRTAVWHEVKDAVHREDPEQH
+DDVCLSAHLGLDYRCAWDRTLVVGMAPRAVLGGANLARRFRRAFHTLAVHWQAEPPWQRW
+VRRFRDKAGAAAVPARD
+>tr|A0A0P7GH86|A0A0P7GH86_9MICC
+MTQVPSHEQTARTAEQLAQDWATDPRWDGIERDYTAEDVVKLRGRVQEEHTLARRGAEKL
+WDQLRNAGDEGYTNALGALTGNQAVQQVKAGLKAIYLSGWQVAADANNSGHTYPDQSLYP
+ANSVPTVVRRINNALLRADQIEFAEGIQSVDDYLVPIVADAEAGFGGPLNAYELMKSMIQ
+AGASGVHWEDQLASEKKCGHLGGKVLIPTSQHIRTLNAARLAADVADTPTVVIARTDAEA
+ATLITSDVDERDQEFITGERTAEGFYKVRNGIEPCIARAKAYAPYSDLIWMETGTPDLEM
+ARKFSEAVRSEFPDQMLAYNCSPSFNWKKHLDDDTIAKFQRELGAMGFKFQFITLAGFHA
+LNYSMFDLAHGYARSGMSAYVELQEREFGAEDRGYTATRHQREVGTGYFDAIATALNPEG
+STLALAGSTETAQFH
+>tr|A0A0N8HXS8|A0A0N8HXS8_9MICC
+MPLVMPIYGTRPEAIKMAPLVAELRRSPGLDCFVTVTGQHRSMLDQVNRLFGIVPDHDLN
+IFSPGQTLSGILTRTIDGLDKLFSVNQPDAVVVQGDTTTSTAAAIAAFNRRIPVVHLEGG
+LRSGNLLSPFPEEANRRMTSQIASLHLAPTATSRDNLVRESVPAENIVVTGNTVIDALLA
+TVGKQVPFTDPALEKVAVSGMPILLATTHRRENQGGAMRGIGRALARIADAEPGLAVVVP
+LHKNPAVREALLPALEGKRNVFVSEPLDYGEFCRLMAISHLILTDSGGIQEEAPTLGNPV
+LLMRGNTERPEAVLSGAVKLIGTDEDRIVSEVQHLLHDGAAYRSMAELPNPYGDGTAARQ
+SVAAIRRLLGRTHQRQDN
+>tr|A0A0P7GA69|A0A0P7GA69_9MICC
+MHRTGESLNSTAPANALTLYRNGSVYSSADPFATAMLVDGGTVAWVGSEQAATSIQDDQM
+QVVDLQGALAAPGFVDSHVHLTETGLAASSLDLTGVHSLDGLLDAVAAAAHGSLGLIIGH
+GWDESAWPEGRVPTAAELDRASGNRRVYLARADVHCAVVSGTLAAELGLARLDGWEDGFV
+TGGAHEAARAVSRSLSLSERARYQRTALDLAASRGIVAVAEMAAPHIAPAEDLRQLLGLE
+GSMPDAPAPQVLPYWGQLAQNEAELAEITEAFGGRLLGLAGDLNIDGSIGARTAALRSPY
+SDAPETSGSVYLSAEQAARHLELTTRAGLQAGFHVIGDAGLDTVIGALRLAAAAVGEQAL
+RAAHHRLEHLELSDDAAVAELVRYGVTASMQPSFDALWGGDGGMYSQRLGERSTSMNRFA
+ALFSAGVPVVFGSDAPVTGLDPWRTVQAAVMHNSPAERISARAAFIAHTRAGWRAAGTGN
+PMLGQLAPGTPASFAVWEADELMVQTPDASVASWSTDPRAGTPLLPALDTAELPRCLQTV
+HLGTELYRAPDFS
+>tr|A0A0P7GS41|A0A0P7GS41_9MICC
+MPLYAYRCKDCADFEIQAPMGQVREAVPCPGCGAPARRRFTAPNLSRSSSSAYRLIESTA
+RTASEPAVVSSPGTGRRSSGTGITRNPLHQKLPRPD
+>tr|A0A0P7GAU9|A0A0P7GAU9_9MICC
+MNKQNASAAAMAALLAASAVNHFRNPGFYAAVVPRSLCRDKGGRLGVLTRSQWISASGVI
+EAAAAGALLVPATRRAAATGTALMYVAFIAGHLSALERAFGERGSERDKVIHTLRLPLQL
+PLIRWAWSLRRA
+>tr|A0A0P7GUF9|A0A0P7GUF9_9MICC
+MPRITAPTVAEHRAAQQRALLDAARTLLARTGEAPSMAEVAALAGLARPSAYQYYKSRTD
+LLNALVMDVFPRWAQRVEDAMSAETEPADRILAYVLTNIALVAEGEHAVGSALASVAPSE
+ELDAQSARMHQAILDPLVGALKDLGAEDPHSTAELINAIVHTGTRLLESGKDLQQVGRLV
+RELLVPYIREHGGGTAGAGQ
+>tr|A0A0N8HZ83|A0A0N8HZ83_9MICC
+MDLDTTSIPELTAEELRQLYKLLISTRELDLAAVAWQRQGILPGYAPELGQEAAQVGSAF
+ALDTSRDFAFPTYREMGVALTLGVDMVEYMSTHKASWHGGLYNPVTTRLAPIQAVVGGSV
+LHAVGWAHGQRLGAADVVRSEDETGGLPAAITYFGDGASSQGDVHEAMNFAGVLKAPVVF
+FVQNNGWAISLPTEEQVAGGTVAARAAGYGMAAVTVDGNDAPAVVRATRAALKHARSGNG
+PVLIEAMTYRRGPHSTSDDPGRYRTLDEERRDGGEDPVARLAHLLLESGAADQAFLDNAG
+AEAKAHTETVREGVQALKPRPGQEMFDYVFAEPTDALKAQARAWREESEHV
+>tr|A0A0P7G3K0|A0A0P7G3K0_9MICC
+MKTSVKPFRDRVDPELLPGLAYSETYPPPVSRAELADFRNQAPPPVAVDPADVQIRDTVH
+GGLALRVFTPAGPGPHPAVYWLHGGGMIAGSVELDTAYCAFLCSSIDAVVVAVDYRLAPE
+HPFPVPLEDALAGLEWLFASAAELGVDPQRVAVAGSSAGGGLAAGLALLNRDRSGPPLAF
+LYLMYPMLDPNHTSGSAREFAGIPTWNRTHSEFAWDCYLAGSPAAHASPYAVPMLAADLS
+GLPPVLIQTGELDLFRDEDISFAMRLLQDGVSTELLVYPGAYHGFELSCPDSAASRRTLR
+DRNQALFRALHGPSAVFSLTNAMKGTCS
+>tr|A0A0P7FXT0|A0A0P7FXT0_9MICC
+MSTVTPVSFLAPPPGLEPLTEFALEDIDGASGLYSLTGTDTSAGVRRFYAIDASVYLPEY
+NPEISDEQAAQLGLQDPADARVLVVANPADNGTTVNLLAPVIVNTRTWQCAQVILEGRDL
+PLRAPLEAVAAA
+>tr|A0A0P7HFF7|A0A0P7HFF7_9MICC
+MHRTYRCALAIALGSAVILSPVPAIAAPSNGSTGTPAPDGTAARIDDRSDPAADERRAAN
+QRAVEKVIRGEAPVQKRGGSQAVQVAPGQWAEYGLEDSDQILSFLIEFGDQVDPRFPNSE
+PGPLHNRIPEPDRSVDNSTYWEEEFDREHYMDLFFSPQDESLKTVYEELSSGRYTVDGDV
+SEWVTIPYSSASYGETESQTDMTRFVQDAADAWYDAQIAGGKTPAEIDEYLAGFDQWDRY
+DYNNNGNFDEPDGYIDHFQAIHAGEGEEAGAPSSAIWSHRWSVGQGGRGTDGPAANPFGG
+VRIGGSQHWIRDYTTEPENGGLGVFAHEYAHDLGLPDLYDTSGGENGTGFWTLMSSGSWL
+GHGRGDIGTTPNHMGAWEKLQLGWLDYDVATAGKKSTHMLGPAFHATKKQQALVVTLPKD
+SQGNGRYYLAENRQYIGYDATLQTGPYNFGWPLTAPDTVEHYPYQNGLLVTYWNAGQRNN
+NTRQHPGTGLALPVDARPQALTWSDGTLVRNRIQGFDASFGKESTDAITLHRETPAGMTT
+LQVPSRPGIPTFDDTNPNAYYDPANPQNSVIVGGTGTTIQVVQSNPKGMMTVRVN
+>tr|A0A0P7G491|A0A0P7G491_9MICC
+MIEARELAKRYGGKTAVDGVSFSVQPGRVTGFLGPNGAGKSTTMRLIVGLDHPTSGTVTV
+NGKPYARHRMPLHEVGALLEAKAVHPRRSAYNHLRALAATEGISTKRVNEVIELTGLGPV
+ARKRVGGFSLGMGQRLGIAAALLGDPQTLILDEPVNGLDPEGVKWVRYLVKGLAAEGRTV
+FISSHLMSEMAVTADHLIVIGRGRILADAPIETVLTGGQAERVLVRTDDADGLAAAVAAA
+GVEIRREAADELTVLGLSARSIAEAAFARGILITGLIPQQETLEDAYMELTGGEVEYQSQ
+QIGAQAFPANEGQSE
+>tr|A0A0P7HVE7|A0A0P7HVE7_9MICC
+MSENKNEAAVTTDANGADARGYRKTARGYVVSDKMDKTIVVEVEDRVKHALYGKVLRRTE
+KRKAHDEQNAAGIGDLVLIAETRPLSATKRWRLVEIIEKAK
+>tr|A0A0P7FGY0|A0A0P7FGY0_9MICC
+MQVVSISSLKGGVGKTSVTLGLASAALAAGIPTLVVDLDPHADATTGLAVSPGNNLGIGE
+MLRNARRADLKANVMPSGWVETALKQPGSDPKRQPVLDVAMGSAYSGIYDRPDLGKRDLK
+RLSTLLGRVEGYGLVLIDCPPSLNGLTRMAWTASNRVVLVAEPGLFSVAGTERTMRALDL
+FRQEFAPNLAPAGIVANRVRPTSNEHTFRLAEMKQMFGELLMEPNIAEHANWQQIQGAAH
+SVHHWPGDSAKQAAATFDALLKNLVQTGSVRNRVMRRPAG
+>tr|A0A0P7HGM3|A0A0P7HGM3_9MICC
+MGTQQQELEDWTQRLLRAFELDETQVDINAVLDLAAAAAHNVVRPAAPLTTFVAGLAAGL
+AAGSGQADESVAIRAAIRAAQRECDAVSTQEETQ
+>tr|A0A0N8HXL5|A0A0N8HXL5_9MICC
+MGGLAGPGAAAGGVWVVARTQSDALAAAGAEVELVGGWLGTLPQEDPEPARQLRRDDGSS
+DKGSSAEGKRAVAARLFRMRRPVPGAGLRAPVSFAFPRHMRRSAPAADVAHVHLCRDFVT
+CISTLLLGRAGTPVVAQTHGMLLPSDRRALRMFDRLITRRVLQIPALWLTLTEDEERGLA
+RLGVDPGRFRRVVNATPEPGQAWSDPEKPVFLFAARLAPRKQPGVFVQAALEALAAGLDA
+RFVVAGPDQGEAAKVQALVEGSGYADRFELVGELGPAEVRQRMAGCTAYVLPALSEPYPM
+TVLEAAALGAPVILTEQCGLAALMDRQEAAVVVEPSVPAVRDAMLRLAGDRAERERIGGN
+ARLVHRENWSTEALAQDLLDAYRGAAGLQGGQP
+>tr|A0A0N8HY27|A0A0N8HY27_9MICC
+MPKAELFDRARSIDAHKDSMARSREEAVAGVTTGLISLGKDVTWRAWHFGVPFRMTSRIT
+GMEAPDYFVDEQVNGPFKRFRHEHEFKEDSAGTVMIDRIEFEAPFGPLGRLVEKLVLARY
+LRNLIETRNRFLVMDSAQGPTPDP
+>tr|A0A0P7FQR8|A0A0P7FQR8_9MICC
+MRFPLPKKALALSATAVLALTLGACSSEAADADPAASSSPSTEWPRTITHEAGETVIDAM
+PETIVSTSLSVTGTLLAIDAPVTATSVSTARSGTADENGFFSQWADVAVERGVEPLYTIG
+ELDLEAVIAEDPDLIVVSTSGADSVLDQYDALSDIAPTIVVNYGDQTWQDLAVELGEATG
+LEDKAVSVVEEFDSSLAEAARKLDIAEGTTASIVSYNAGDVSPVGKGTGPHSQLLTALGF
+TVAEPDEQYDTSTQKREDFTFTSYEGLSASVTGDYTFLISSTEKTVEAFTADPTLANLPS
+VQAGKVYSMGPESFRLDYFSASDIVEWFTATFPAK
+>tr|A0A0P7HF14|A0A0P7HF14_9MICC
+MQASRHDGKVRPNLSQRAAGIPRLARRAGLQEWPAGLRSRVLFPALLKAGWSILRQGGWR
+LLLVYALSQAVPLAIISPLIHWMFTEALAAAGVHAVDSAALASAFGNGRSLGWIAALCVL
+AVATVSLQLSVLVVAAGRVRSGLSLGPAALFRGMLPVLKRLPRLGSLPLGVYLFLVVPLT
+QAGLFSVLTHSIAVPNFVSGEMLKSTPGTLAYVGFLMVVGTLALRYSLAVPFFALGGVAG
+GKAMRLSWQVTSRTTLALLAAGAAATAGALLAGAALVFLSLLPTLAADLFLPAGAARVAA
+YSLGTAQVAGVVLAGSFVMFIAGMLIELTERSLPLLPGKVTWHSGDDGGVAGGTADSAKA
+GTGTESTGVHGLGRGGGSGVQAAATSSARHGIRSGAARAGAASAAVVLALILGTLNIPVM
+EGLREVPQALILGHRGFSGGGAENTISGLRAASSAGADMVEMDVMQTSDGGFVVMHDASL
+QRLAGRNAAVADLTLAELTSMTVQDQFGHTDLIPSLTDYVRAAQEIGEPLLIEMKMHGGE
+TEDYVERLVAELESLEALEENIYHSLDKDSAEELKRLRPGLYVGLTMAVAGVAAPETTAD
+FIVVEEASYTDAVRESAWKDGKEFYVWTVNGPEAIRNMLRDGVDGIITDHPDLALQDRNQ
+MGPNEPMSSKLYDALMRFVVIF
+>tr|A0A0P7GA38|A0A0P7GA38_9MICC
+MNAVTPAHEIDWDALQDAARAAMAHAYVPYSRYPVGAAALTDDGRIVSGCNIENASYGLT
+LCAECSMISQLNMTGGGHLVAFTCVDGEGEILMPCGRCRQLLYEFRAPGMQLLTVSGIRT
+MDEVLPDAFGPQHLEGQAGK
+>tr|A0A0P7FXQ6|A0A0P7FXQ6_9MICC
+MSEERPREIGESEAPVEDELQESFENTITEGAERLHRTFRNVLVTGVFGGLEVGLGVMAY
+LAVMYQTGDHLLAGIAFSVGLIALFLAHSELFTENFLMPIAAVVAKEASLRQLGKLWGGT
+LLGNLAGGWVIMWFVMQAFPQWEDTIAESARHFTDAPFSLQTVALAVLGGSTITLMSRMQ
+QGTSSDPAKIVATVIGGFLLAGLQMFHSILDSLLVFGAIQSGAGITYLEWLTWFSYTLLF
+NVLGGLVLVTALRLVRSKELLKERRAGAPADPDASRRNG
+>tr|A0A0P7HFD1|A0A0P7HFD1_9MICC
+MARPTILDRFRPVGAPGPSGPAGVPSADHEGTDAELLPVFAALKPDVDAARQQTEDAAGQ
+ARRQLAEARRQADAEVSQARLDSGAVRAKAAEEVTQQAAAREKELLTQAQNRAEQIRGAA
+RGRIPRLAAEIAGSIVSEYLDGPGSHAGNPEHRTENL
+>tr|A0A0P7HHC7|A0A0P7HHC7_9MICC
+MGGLRRFVTFADQGVSSVSNFVAVAVAANVAGTGEFGQFSLAYAGLLLFLGAQRAFVGET
+LLVRYSRTGALTARVAAASLGGSLLVAVPAALFLLAGAALAGERNALLWAVMAAAAPLIL
+LQDGLRYLFICEGRPGRALAIDGLWAALSIPAMVLAAGEGWSLAAVLGWWIAGAGAALAV
+GLILARAVPAVRAGGRWLWLNRDCSFRYLAEFAALNASSFAVLYLLVFPLGPAGVGALRA
+AQLLFSPLNTVFAALRTAIIPELVRARGTVVFRRRLTEATAVVLGLALCWGAAVLMLPQA
+AGEFVLGDTWSNASDLRWPSAFQYLAMVPYTILLAYFRASEANRFSTLVRGILAGATLVL
+PLGFALTGSTAASVWGFTAAVGLAAVCGLLAVRAGRGRVPSGPTQEQPQRVHGR
+>tr|A0A0P7G806|A0A0P7G806_9MICC
+MRLDHVSYACESDGLLATTERIAAALQTDFVKGGVHPRFGTRNMIIPLANHQYLEVVEVL
+NHPASDKAPFGQAVRARSEAGGGWMGWCVAVEDLAPFEERLGRSSVPGNRKFPDGQELTW
+RQIGINGLIADPQVPYMLRWDEDKADLHPSRAFAGTVSLESLTIAGSAERVTEWLGMPVE
+KPLESVDVTWVSPKGTPGIMSVTFATEKGLVEI
+>tr|A0A0P7GJ48|A0A0P7GJ48_9MICC
+MNSPRTEVLRPARRNVLSGVLVGIGVAAFVDEVVFHQLLQWHHFYDKSTASVGLFSDGLF
+HAFGWFAIVAGLFLFADLRRHNVLNPARWAGAVLLGTGAFQFYDGTIQHKLLTLHQIRYD
+VELLPYDLAWNIAAVVMIAAGIFLLLRTRAAAAGEPGR
+>tr|A0A0P7FX56|A0A0P7FX56_9MICC
+MASDYDNQLIESVAVRRNRLLTALLYGGNPNERRWADTVKLFLFSVAVAALIAAVCVGYS
+FVTNLLEQNRAKQQQQQQQQQSTAAGPLIDGGSAAGAAGGSPVTKHTSVTEHTIIDHLSH
+ETGAWQPWRMPTHG
+>tr|A0A0P7GAW2|A0A0P7GAW2_9MICC
+MGTISLDLFMTLDGVYQGPGSAEEDPSGGFEYGGWQADFADAESGSAILEGIRAMDALLL
+GRRTYDIFASYWPERGSSNPIAEKFNSMDKFVVSGTMDDAGWDGTTVLADTAGAAALKER
+YGDIHIVGSGSLARSLLEAGILDRLNLFVYPVTLGKGKRFFPEGSGIPAAFRLAASPQGF
+PQGTVRLVYERAGDPVTGINAGAD
+>tr|A0A0P7HMR2|A0A0P7HMR2_9MICC
+MGVLYLLFLLASIGCMVLLDHRFKLFFFSGAPLRAAVVLAAGLVFFLAWDLLGIGLDIFY
+RGETQFMLGLELAPHLPVEEAFFLAFLCYLTMVLFGLLKVAATHYGRPRSGQAVER
+>tr|A0A0P7FUP7|A0A0P7FUP7_9MICC
+MDLAPTEGSAIGRWASDGWTVTKRNLIKIRRSPDMLAFAVLQPIMFVLLFSQVYGGSIQV
+QGTDYTQYLMAGIFAQTVVFGSTFSGSAMAQDLKEGIIDRFRTLPMSPSAVLVGRTNSDL
+VLNTISVTIMMATGLLVGWRVNTSFASFLAGVGLLLLFSYAFSWVMALLGMSVRSPEAIN
+NASFIILFPITFISNAFVQSSTLPEPLRIFAEWNPVSALVQAVRQLFGNLGSAPVPDTWP
+MQHAIATVLIGSAALLLVFVPLAVRKFEAVSSR
+>tr|A0A0P7HH81|A0A0P7HH81_9MICC
+MRDEAVASQDHDPTTEGASTGETPDGRGTGPSDASETIVSGSHAAATTGGPQDPAQHDDW
+DAEFAGLAGAAPEDSKAAAGSEAPDQSKAAAGSEAPAEEAAGKPVAGDLEGAEGSAGGMA
+AAGKDMADAGARRRAAEPEPLAETGTGEGATAAKPGSKRDEVPGGHPSLPQRSTLPMRAA
+STMPDLNRFKGEDKSDAVGSTPEPEAEHTQPAPHPTEAAGGPWYGPGDAAEAAAPKAPAA
+DPVAEDPAISTEEAARRSAERERAATAKPVLGRVIQVAIAVFFPVMLLAAAIRAVATPLF
+LWVEYNRPGFPVDSFGFSSEDRLTYGSYAVDYLLNFASPRYLGDLVTPDGDPLYLASEVS
+HMADVKTVLTIAFVTALGMALLSLAGGVYLARRCPGGIRRALFAGAVATLALIAGLLVAA
+VLAWEEFFTMVHTIFFSQGNWTFRLDDTLIRLFPAQFWMDAGGAIAGIVLLVCVLVMIFT
+WPTRKRRERSRLAREEARRRYLESLEGI
+>tr|A0A0P7FUH5|A0A0P7FUH5_9MICC
+MANDLDISRAATLQPITDIAHSAGIPEDALELYGRYKAKVNPALVPKSSKPGKVVLVTAM
+SPTPAGEGKSTVTVGLGDALARAGQKTVIALREPSLGPVLGMKGGATGGGYSQVIPMEEI
+NLHFTGDFHAITSANNALAALTDNHIFQGNALGIDPRRITFRRVMDMNDRSLRHIVVGLG
+GPGQGTVREDGFDITVASEIMAIFCLATDIEDLTTRLAQITVGYTWERQPVTVADLGVQG
+ALALLLKDALKPNLVQTIAGTPALVHGGPFANIAHGCNSVIATTLGRNLADVVVTEAGFG
+ADLGAEKYLDIKSRVADVAPDAVVVVATVRALKMHGGVPRERLDEPNLTGLEAGTANLRR
+HVRNLGKFGFSPVVAINRFTTDTEEEIDWLLQWCAREGVDAAVADVWAHGGGGPGGDDLA
+AKVLSALKKPVDVRPLYPLQMSVEDKIRTVVREIYGADDVEFSVPALRRLEEIKANGWEN
+FPVCMAKTQYSFSDDAAKLGAPEGFTVHVRDLVPKTGAGFIVALTGAVMTMPGLPKEPAA
+LRMGVAPDGTPSGLF
+>tr|A0A0P7HFH6|A0A0P7HFH6_9MICC
+MATDYDAPRKADEDASEESIEELKTRRTNTQSAVVDEDEAETADSFELPGADLSGEELMV
+RVLPAQQDEFTCASCFLVRHRSQIAEEKDGLYYCIDCVG
+>tr|A0A0P7GSH8|A0A0P7GSH8_9MICC
+MPISLTDLLSAEDLDLVVRGTAAIEPVPVQWVAVTELENPSPFLSGGEVVLTTGMRQRTG
+AVQRRFVESVHRAGALAIGFGTGLSLDRVPGPLLEEANRLGLPVFEVPYRTPFIAIGKLV
+ADALSSDHVEHLHELLTGHQVLAKALLSGQGLPGLLAELGSILETDVALHQFGTEVFSTG
+GAAADSEWHRVPIATGLRDRCTLSVARPFRQPDLIAYAQSLISVELNNQARRRVRERAVN
+GQLLDDIVAGKLTGQDADHRLRASGVSTGRRQLTLLVEAAPSQAKALTSLPLPAAFESAV
+SAICEERLAVLVPEGNPAQLAPALGAYLQEAGIPAKIGVGGPYTEPAGLRWGYYEAKEGL
+LRGAAVNEPDRLSLASLLMGSRDVPLADLAAEALDPLLAFDRTHDAELVPTLEKYLALNG
+SVAKVAQELGLHRNTVRYRLTQIADLSGYDPAVTADRVHLYLALNVRRLAG
+>tr|A0A0P7FZ47|A0A0P7FZ47_9MICC
+MTPVTETTSLHDPALRAFASDNYSGVHPEILDALTAANLGHQVAYGEDVYTAKLRDVFTE
+HFGNRMRAFPVFNGTGANVISLQSLLPRWGAVICASTAHINVDENGAPERVGGMKLLTVP
+TPDGKLTPELIDREAWGWGDEHRAQPLAVSITQSTELGTLYTVEEIQAISEHIHARGMKL
+HMDGARLGNAAAALGVPLRAITTDAGVDILSLGGTKNGMMYGECIVALDPDAAPGLDYLR
+KMNMQLASKMRFVSAQFIALYGTDLWERSASTANAMASRLRAAVEKIDGVSLTQPTQSNA
+VFATLPAGVADKLRDKFRFYDWDQATGEVRWMCTFDTSEADVDAFAAAIASEVAAVR
+>tr|A0A0P7HN43|A0A0P7HN43_9MICC
+MRTPRSTYRLQIHSGFTLYDAAALVPYLQDLGVDWIYLSPLLTAEEGSTHGYDVTDPSSI
+DPARGGPDGFRALADAAHAAGMGVLVDIVPNHMGVATPRANRWWWSVLKEGRGSRYAEAF
+DIDWAAGGGRLRLPVLGDNADALDELRIEDGELRYYEQAFPIAEGTAGPGDTARDVHARQ
+HYELVNWRRADSELNYRRFFGVNTLAGIRVEVPWVFEESHAEIRRWFGEGLADGLRIDHP
+DGLADPEGYLEQLSELTGGAYVLVEKILEPGEKLPGSWPVAGTTGYDALAEVDRLFVDQA
+AAGLLTEASDAEPYRHMIHDTKRAVADGLLHSEVQRLVRLLPAGSGLDTGTAADALAELL
+ACFPVYRSYLPEGAGYLEEAALNARVRRPDLDSVFDVLVPLLRGNTPDSRDGLGELAVRF
+QQTSGMVMAKGVEDTAFYRYTRLTSLNEVGADPSLFALEPHDLHLGMLVRQQEAPDAMTT
+LSTHDTKRSEDTRARISVLSEMPQEWTEAVLRLEELLPLGDRPLADLMWQALSGTWPLDR
+ERAHAYAEKAAREAGQSTTWTAPDEAFEKQLHSLVDGAFDHPEANAILETIAERISSAGF
+SNSLGAKLVQLTMPGVPDVYQGTELWDYSLVDPDNRRPVDFQTRTALSAASPDWAGTGKL
+PGIDRAGEAKFLVTREALRLRRDRPDLFSGYSALIASGPAAGHFFGFDRGGAMTLVTRLP
+LGLARDGGWRGTTVALPPGSYRDRLTGRTFSGGAAHADELFAVYPVALLSLEEER
+>tr|A0A0P7GTT4|A0A0P7GTT4_9MICC
+MVKNEEDIIEAFVRHTLSQVDHLYVADNLSTDGTRDILDALVAEGLPLTVSLDPAQAMEQ
+NVKMTSMYRRYAAADNFDFAFFLDADEFLRLDKDLMVAVPRRAGKGMAFYVPRLNYVYTG
+EPKAGDALSVFDTMITLDTMKLSPKSMIFHDKAGCRRYHIGNGNHHVRDWAQGGQTVSEE
+QPQPFATMLHFPIRSVEQYLSKSLLGWLAMQLRAEGVNDADQTIGKHWRTQYRLILQENA
+DVTEELVKKNLYGSAPENRRGEERPFRPDFPIRYANLMRHESVMVQLVKMYSRTIDALWQ
+ERAEWEQRLEGLKTQATEPEASVP
+>tr|A0A0P7FH55|A0A0P7FH55_9MICC
+MTDDRPIAADTAAPGCRKRDPILIASNVTRTYGGINAVDVEHVEIPRNKITALIGPNGAG
+KTTLFNLLTGFDTPQSGEWRFEDRDLAGVSAYKVARLGMVRTFQLTKVMGKLTVLENMRL
+GANEQPGEALRRALFRPLWKKRENEITEQADALLAKFKLDTKRSDYAASLSGGQRKLLEM
+ARALMVNPKLVMLDEPMAGVNPALTQSLLDHIKNLKAEGMTVLFVEHDMHMVRHIADWVI
+VMAEGKVVAEGPPGEVMKDQAVIDAYLGAHHDVDLGDSEGFEKLEAVLEKDPESDIQGGE
+SLAPVIIEERKDTA
+>tr|A0A0P7H3K1|A0A0P7H3K1_9MICC
+MHLIFRTLLLLLTARRRRPKLDLFDTSSLPMRVLPTDLDFANHVNNGMYLSLMDLGRFDL
+MIRSGFWKLMRRKGWGPVISNETISFRKSLEPWQRYSIETKIIGFDDRAIYFEQRMVVDG
+EIYASAFIATRMLSKKGPVSNEEIFEAVGRRPPEDLVLPDWIQDWRANVALPGTRRPAPH
+AWAA
+>tr|A0A0P7FUK5|A0A0P7FUK5_9MICC
+MFFHKQELQFKATPDKPDAVYARKLQEVLGGQYGEITVAMQYSFQAWNSHIPGKYRDLLF
+GIGAEEFGHVEMLATMIAQLLEKAPLGITEDAVQSDPAIAAVIGGTDMQQAIVAGAGARP
+VDSNGNPWQGSYITASGNLLADFTANANAEMQGRVQVARLYHMTDDPGVRDMLSFLLARD
+TMHQNQWLAAARELQEEGAEMLPVPSNFPINKEERSVSYQYLNFSDGAAAAEGSWASGPT
+PDGKGEFTYHDGPTTSVPMPPPTHPDSRFYGTTELPNTVEKVSGVVQDKLRKE
+>tr|A0A0P7G7Y0|A0A0P7G7Y0_9MICC
+MSQDRLSYDTDTSAAVQGDIQAIVARLESLIGEREKAVNAAMSDFQADGVSEEYQAVENR
+FRNAANETRNIIALVKQTLNLNDQTASSAGSRARSAVQNIG
+>tr|A0A0P7GK08|A0A0P7GK08_9MICC
+MSLIHLESAGDPRVSDYTRLTDTSLRRLREPAEGMYIAESSKVLRRAIDAGHIPRSFFLA
+EKWLPDLQDILDRFPGTPAYVGTPEVLEAITGFHLHRGALAAMQRPAPLELAPLLASSRR
+IAILEDIVDHTNIGAIFRSAAALGVDAVLVSPRCADPLYRRAIRVSMGTVFQVPWHRLES
+WPGALTELREAGFVTAALALRDDSLTLQQLGAQRHEKLALVLGTEGDGLSAGTISAVDVS
+VRIPMQRGVDSLNVAAASAVAFWECRVL
+>tr|A0A0P7GS21|A0A0P7GS21_9MICC
+MGLLDWTSLKLLGGVVVVLVLATVIAWVLGRRVGKTGTIVNLKQRINAWWLMVALIGTVL
+AAGETVTILLFLVLSLLALREFITISPTGRGDHKVLVWLVFIIPAVHYWFLWEHWYGMFS
+VFIPVYAFLFLPARNALAGQTTGFLQRTAAIQWALMVCVYAISYAPALLQLPVAMEAGRD
+AAEGSAPGAGGATGAQLLLFLLIVVQGSDVLQYVWGKTLGKHPIAPGVSPNKTWEGFIGG
+VLSATALGAALWWVTPFSPLMAALLAFISCVMGFAGGLVMSAIKRDRGIKDFGSTIPGHG
+GIMDRLDSLCFAAPVFFHAVRFFYT
+>tr|A0A0P7GSL1|A0A0P7GSL1_9MICC
+MIPSRRTAALQGARIGLAALTGGMLAAAFLATAPSAQAAEDYLQVSLDGTTFGTSTAGAV
+FTDDVRLVPGTSNTARIWVRNAGPEAAFLTVAAFSRTMDPELSGHLSLAADPATVTAHGR
+TLLGPAGTCTDLDLSAAVPAGTDLRLDLAAGLAPDSPNTTMNKRGSFDLVFLLDAAGDGT
+RSACDGIPEAMPPIQLPQTGGRPVDAPDARAPGVSTLFIQGTPAAAAAPAGPPVVPAAQA
+EPPAQRAEPPAVPGAPADVEPASFIESTVEPIIRTWQGTLMVLLTVGFFAAAAVRTRISR
+RTAQA
+>tr|A0A0P7GTI0|A0A0P7GTI0_9MICC
+MFESIQGLLDEHAELQMRLSDPAVHADQGLARRLGRRYAELSRIVDAYNTWHGLEDDLAA
+AQEMADEDPEFAAEVPVLKDQLADAQEKLRRLLIPRDPNDGRDVIIEVKGGEGGDEAALF
+AGDLLRMYTRYAEHRGWRTEIISATESDLGGYKDVSMAIKGSSNDPAEGVYARLKYEGGV
+HRVQRVPVTESQGRIHTSAAGVLVLPEVDEPEEVEISQNDLKIDVYRSSGPGGQSVNTTD
+SAVRITHLPTGIVVAMQNEKSQLQNREAAMRVLRSRILAHEQEKIDAANSDIRKSQIRTM
+DRSERIRTYNYPENRIVDHRTGYKAYNLDTVMNGDLEAVVQAAIEMDEQARLDAIGDEA
+>tr|A0A0P7HJU8|A0A0P7HJU8_9MICC
+MEDARWVRIPVIALAAVFLAGCVTGDDGASSPADTAPATVEVSGEAANAEESAAKRWVPV
+PGDTWQWQLTGALDSRVDARIYDVDYERTSRVEVARLHRDGRRVICYLSVGSWEDFRPDS
+GGFPDEVLGKVMDGWPDERWLDIRRQDILLPLLAARMDICAHKGFDAVEPDNVDGYRNET
+GFELSSADQLSFNRAVARLAHERGLSVALKNDLDQIPDLVGDFDFAINEQCALYGECGDY
+LPFTEAGKAVLHVEYEGSLDFCAESTRLGLSSMLKPLDLGADRQPC
+>tr|A0A0P7GE71|A0A0P7GE71_9MICC
+MELGLLPDGTLEVPPASPGSPAGWYTGSPAPGKPGPAILLGHVNANDGGPGVFARLRSLV
+PGDHIAVEREDGTESVFVVVRGEQYAKDMFPTDEVYGNTPGPELRLITCDGFDSTTGLWQ
+DNYVVYAVLADPG
+>tr|A0A0N8HXY2|A0A0N8HXY2_9MICC
+MEADQQLRFAAQLQQAGCVFALEEADLLLRGASSASEAESLLRRRLTGEPLEYVLGWAEF
+LGRRVHVYPGVFIPRRRTEFLAAAALESANRRNAPVILDLCCGSGALSTVFAAAIPQVEL
+HAADLAPEAVAAARTNLGGQAQVYQGDLFDALPRHLRGRIDVVVANAPYVPTEQLPFLPR
+EARIHEPAAALDGGREGLELLRRIAAQAPQWLSRGGELLAECSGGQATDLAEDFAAAGFD
+AAVRTDTDTATAVVSGTLKNRYV
+>tr|A0A0N8HY42|A0A0N8HY42_9MICC
+MTDEVSQAKRSTDARAALAAALKARLRTEPLDKVTVTELVRDCGLTRQAFYYHFPDVRQL
+AVWVFETEVARQVRTFAAEVGWADGLVRLLLYMRENRSSTLGVLNGVGQPGLERFLFRQM
+RPITEAVMDQDGGGPADPGDRVLVVDFYTSAVLAVVLRWVAEGMEEHPYRVVGDLEIMLH
+GAVRESVRRLDARRR
+>tr|A0A0P7GB46|A0A0P7GB46_9MICC
+MALSEHEQRLLDQLEQQLHAEDPKFANSMASSAGRGMSTRRIVLGALVAVAGIAILILGI
+TLDSPANIVVGILGFIVMGAGMYYATTKGKQAETRVPAGRKEREAAPRGFMTNLENKWDE
+RKRDQP
+>tr|A0A0P7G503|A0A0P7G503_9MICC
+MASQPQQPLQTRQRRPLGFIVAGRDFIDAVANSSPARLALIVFSLVILLFTALLALPLAS
+ASGQATALHDALFTAVSAVCVTGLTVVSTAAHWSGFGQVLILVAIQVGGLGILTMASLLA
+LAVNRRLGVRGKLIAQEGMNTGRLGEVGNLLRIVVSTTVLIELVLAAILAPRFMVLGESP
+GQAIWHAIFYAVSSFNNAGFTPHSDGLVPYENDLWVLVPIMAGVFIGSLGFPVIMVLLQS
+RMKTRRWNLHTKLTVLVSLILLFAGTLLWAALEWFNQRTIAGMGVGEKILHALFASVMMR
+SGGFSLVEMADQDASTLVITDMLMFAGGGSASTAGGIKVTTIAVIFLAIVAEARGDTDVR
+AFGRNIPAGALRVAISVVILGATMVAVATIGLLIVTEETLQPVLFEVISAFATVGLSIGL
+SPELPPSGKYILAGLMFAGRVGTITLAAALALRQRKPLYHYPEERPIIG
+>tr|A0A0P7H8R6|A0A0P7H8R6_9MICC
+MGFFDTILFPFKWVVSWIMWIFHEGFVFLGMDAASGWTWTLSIIGLVIVIRAALIPVFVK
+QIKAQRGMQSLQPDLRKLQQKYKGKTDQLSRQAMTQEQMALYKKHGTNPFAACLPMLIQM
+PFFFALFQVLNGVSNASAGGEGIGALTPAAITQFDEATILGAPLSSSLLHGFGTEGHTSV
+VVLSIIMIIAMTASQFITQKQIMSKNMSEEALQSPFMRQQKMMLYVLPLVFGVGGINFPI
+GVLIYWTTTNLWTMAQQFFVIRRMPTPGSPAAKALAERRARKGLPMVPLLGEKKAEPAEE
+VPVPVKGQRQQPQRKNRKKR
+>tr|A0A0P7GA20|A0A0P7GA20_9MICC
+MPAMPEEAKVESKEGLIAFARHWYALANYGYQTGDVEPLREITGPDCYACKSYYKTVASG
+FREGWVSGAEIEILDVSSTYALTDNGRYQVLIQIVQEPLDFYTAANGFIKTVPGNDLPSV
+QMIEATFASSSWTAVDVVTIYHAG
+>tr|A0A0N8HY06|A0A0N8HY06_9MICC
+MLDGAARLTDLFSHADELGMNALATTDHGFVFGAFDFWNKARNSGIKPIIGVEAYLTPGT
+ARQDKTRVKWGGGGRDDVSGAGAYTHMTMWAENTEGMHNLFRMSSLASLEGYLYKPRMDR
+DLLQTYGKGLIATTGCPSGEVQTKLRLGLYKEAVQAASDFRDIFGKDNFFCELMDHGLDI
+ERSVQGDLIKLARELDLPLVATNDLHYTHAEDAKAHAALLCVQSGSTLADPKRFKFDADE
+FYLKSPAEMRAVFRDYPEACDNTLLIAERCDVEFNTKASYMPRFPCPPGENEESWFIKEV
+EAGLHYRFPKGIPDDVRKQAEYEIGIITQMGFPGYFLVVADFINWAKKNGIRVGPGRGSG
+AGSMVAYAMRITDLNPLNHGLIFERFLNPDRVSMPDFDVDFDDRRRAEVIHYVTEKYGAD
+RVSMIVTYGTIKAKQALKDSSRVMGYPFSVGERLTKAMPPDVMGKGISLSDVHNKEAKRY
+GEAEELRELLATDPDSQRVFETAIGLEGLKRQWGVHAAGVIMSSHPLIDIIPIMKREQDG
+QVITQFDYPTCEGLGLIKMDFLGLRNLTIISDAIENIKLNQDVDLDLEHLELDDKASYDL
+LASGDTLGVFQLDGGPMRSLLKLMRPDNFEDISAVIALYRPGPMGANSHTNYALRKTGVQ
+EITPIHPELEEPLKEILDTTYGLIVYQEQVMAIAQKVAGFSLGQADILRRAMGKKKKSEL
+DKQYAGFHQGMVDRGYSEAAIKALWDILLPFSDYAFNKAHSAAYGLVSYWTAYLKAHYPT
+EYMAALLTSVGDDKDKLAMYLNECRKMGITVLPPDVNESSVNFTPVGKDIRFGMGAIRNV
+GTNVVQAMVAAREEKGAYTNFKDFLMKVPAVVCNKRTIESLIKAGAFDSMGHARRPLAMI
+HEEAIDSVVVLKRNEAVGQFDLFAGIGEAEPEASISIDIPDLPEWEKKDKLSFERDMLGL
+YVSDHPLQGLEGILSQHADSSITSIVSEEGPPDGAIVTIAGMITSLQRRIAKNSGNAYAR
+CEIEDLAGSMEVMFFGQVYGPIAAVLAEDLIVVVRGRLQRRDDGAVTLNAQELTVPDLSE
+GHSGPVVISMATYKATETVVTQLGDVLRTHPGTSEVQIRLNGNRTVEVMKLGVDLRVNPT
+PSLFGDLKVLLGPACLDA
+>tr|A0A0N8HZ85|A0A0N8HZ85_9MICC
+MAMHRFPVRRLEEDPAHPLERSTWPAVLPPVAQVLDRGLDLGPATILVGENGSGKSTLVE
+AIALAYGLSAEGGSTGARHSTRATESVLADHLTLIRNVGTTRRGYFLRAETMHGFYTYLE
+ENPRMDRPDIPFHEMSHGESFLELAADRFRGRGLWVLDEPESALSFSGCLRLLSVLKGLL
+ADGRSQVIMSTHSPLLAALPGAEILEVGTWGLRRRTWEDLDLVESWRSFLSSPERFLRHL
+>tr|A0A0P7FQR2|A0A0P7FQR2_9MICC
+MRTLTQPAAKSTRPRRVAAVVLGVFLVFAGTSHLTFARDEFQAQVPGWVPLDKDLVVLLS
+GVAEIGLGAALAALPCRRIPVGLAAAAFFIAIFPGNISQYVTQTDGFGLDTDQKRFIRPF
+FQPLLVIWALWSTGAWQALRSRR
+>tr|A0A0N8HXJ5|A0A0N8HXJ5_9MICC
+MKRLNSVPTDRVHLWLMLALTFSTGVIDAVGYLGLDNVFTGNMTGNVVLLGMAFAGGADL
+PVLRPALALLFFMLGAALAGRMLRRGPEGWSGRVSAALMVVASGITALAVFTAVVDVQAD
+EVLGSITTSSMATLMGIQAATAKRLKVAEVTTVVVTSTITGLAADSRLAGGDGKFWARRA
+LAIALILAGAVAGAAALNVGLWLGLAVSALISTSVAVFGYVRHHRERRALA
+>tr|A0A0N8HZ74|A0A0N8HZ74_9MICC
+MPKNLFPLDSARKFEDQEKLGHNRWHPEIPPVATVKPGESFRVDCREWFDGAIVNDDSAE
+DILNAPLLTVHKLSGPFAVDGAKPGDLLVVDILDVGPIPQEDSGPLAGQGWGYTGIFAKE
+NGGGFLTDQFPDAYKAIWDFNGQTATSRHVPGVSFTGLIHPGLMGTAPSAALLAKWNKRE
+GDLIATDPHRVPPLALPPEAEHAVLGGLPRDDWARVGGEAARTAPPRENGGNQDIKNLSK
+GSRIFYPVFVDGANLSVGDLHFSQGDGEITFCGAIEMGGFIDLRVDIIKGGMDTYGVQEN
+AIFMPGNVEPQFSEWIAFSGTSVTLDGEQRYLDSHLSYQRACLHAIDYLTKFGYSPEQAY
+LLLGAAPIEGRLSGVVDIPNSCSTVYIPTSIFDFDVRPSATGPFQIDPGIGAPRASNS
+>tr|A0A0P7FUN3|A0A0P7FUN3_9MICC
+MEPSSRREQAEATYARLFGPRDQGAHEDDPELMEILRRFIFGDVFGTGVLDDQTRELITV
+TVLTCLQTLPQLRAHAAGALATGVTPVQLREAVYQLAPFIGFPRTLNAVSTINVVFTEHG
+IALPLPEQGTVDDAARYQRGLALQTPLYGTEIKDDLSDLPEPFNEAIPRFLTEFCFGDFY
+TRGGLTLAQRELLVLCALAAIGDTAAQLGPHGRACLQTGSSKTVVIAALVQCFPYVGFPR
+AAAAIRAVRDL
+>tr|A0A0P7G9J9|A0A0P7G9J9_9MICC
+MISTGALAANGFGRSKVAAAERSGLLQRAGRGYYRLEGAPAELVAAASLGMSLTCVSAAD
+VQGWWVLNRPDGLHLRADKSVHGPGIHLHRGRRSAARLVCSPSAIVLDAFRCLPQLDALL
+IAESAVARNAVSKSALIRAFNRPQDWRVRALLEGTSRKTASPLEVCARYHLWAAGLPVQR
+EVMVAGVGRVDFLVGERLIVEIDGYEFHSGRNEYRKDRDRWNRATAQGFITLRITAEMIL
+RNPEEFVRLVRAAAARA
+>tr|A0A0P7GT18|A0A0P7GT18_9MICC
+MTSNALQPDTDPAPLLDIRSLAISFETSNGTVDAVQDANLSVLPGETVAIVGESGSGKST
+TALAAIGLLPGNGHVSGGQIIFDGEDITHAGPKRIVELRGNSIGMVPQDPMSNLNPVWKI
+GFQVRETLKANGRPSSDEDVARVLSQAGLPDAGSRAKQYPHEFSGGMRQRALIAIGLSCS
+PRLLIADEPTSALDVTVQRQILDHLASLTREMGTAVLLITHDLGLAAERAQRVVVMYKGR
+VVESGPALEILRNPQHPYTRRLVDSAPSLASKRIDTAKARGLSAPDLLAADPGQQSGKAT
+AADVIEVRNLTKVFKLRSGLGRHADFRAVDDVSFSVKKGTTTAVVGESGSGKSTVARMVL
+NLETPTSGSILFDGVDITTLDKKKLFEFRRRVQPIFQDPYGSLDPMYNIFHTIEEPLRVH
+GIGNKESRSRKVRELLDQVALPSSVMRRFPNELSGGQRQRVAVARALALDPEVVICDEAV
+SALDVLVQAQILNLLAELQADLGLSYLFITHDLAVVRQIADDVCVMQKGKVVETGTTDEV
+FNSPKQDYTRALLAAIPGAGLDLPPEAA
+>tr|A0A0P7HVM5|A0A0P7HVM5_9MICC
+MRHRAEVGSDGTLTAGLPIGADLTCARSNGASMASYSGNVGSGVASLENTVTIRFAPLFP
+TGDKRDLTALFRRIVSIWQPDWALLDTLQTSREVQGAQESYADYLIWLSEAESGPAPALQ
+AATTGPFGDGTLITLNTWSIDGVRALHQELLSAGIPPVNIRRPLDLQIVPQFPAVDL
+>tr|A0A0N8HXP9|A0A0N8HXP9_9MICC
+MEHTLRVLVRIDTKTSSACIEVRGCLVPENCPDLVGILRHTALLGAHVVVNLSRAHHLDA
+LAMDELLARAEEIPPQPMTEGFTTVSVQMPPRMPLCPPAAPGPQAPLDNQQAFEMAFLQR
+TPAVFRLPG
+>tr|A0A0P7G9F1|A0A0P7G9F1_9MICC
+MTVVMAHGVLFVHSAPSALCPHIEWAIESVVEKRTDFEWTPQPAAPGMVRAELAWAGPQG
+TGSLLASALRGWAHLRYEVTEDPSAGSDGSRWSHTPELGIFHATTDVHGNIMVSEDRIRY
+AYENGAGDPAAVYHELSLALGEAWDDELEPFRHAADGAPVRWLHQVG
+>tr|A0A0P7HDN1|A0A0P7HDN1_9MICC
+MIYIDPPLWPAHGTHFSHLVSDTSLAELHEFAAASGIPLRAFDHDHYDVPLRRYEDLVAS
+GAKPVDGGTLVRALITGGLRIPARERAASLVHPLRGRWDTLVPGAEDLGAELLNRWGEPH
+RRYHDRRHLLQVLEALHSLGCAERPVLLAAWFHDAVYDGVPGSDEEASAVLAEELLPPAG
+VPDAETAEVSRLVRLTAAHNPADGDEYGKLLCDADLAVLGRDRAAYDRYAADVRQEYRHV
+DDNTFRAGRSAVLESLLDRGKGLFRTARGEELWGTAARANLARELASLADRRADADPENG
+VRPARG
+>tr|A0A0P7FIL6|A0A0P7FIL6_9MICC
+MLPLLARAGASAVSGGETASDSSLYLWGPPGRGKTWLLDAFYEAVPLAEKRRLHFHDFFR
+ELHARTFAGYGRKDFAQQSAFAAGLDALLGDARLLCFDEFHVNGPADAAFVTRLLRQVIE
+RGIVLVATSNYAPHELLPDPMFHHLFEPGIELLTTHLQVAALDGERDYRSAAPRGTSGFA
+AGHHLRAPDAAALEAAGLRYPAPEETAVLTPGTVALKAARASGGQIWFDFAELCGTRSAA
+SDYLVLVRQYSHWVVSGVPDTTREDPYAWQRFGNLVDVLYDAGCRLDVLGFSDYRGSFPG
+IAHQIDLARISSRFGVLSAPA
+>tr|A0A0P7HME5|A0A0P7HME5_9MICC
+MPVKATDKSTGKKKKLVIVESPAKGKTIAGYLGDGFEVTASMGHIRDLPQPSDLPAELKK
+TSVGKFAVDLDKDFEPYYVVSSDKKKKVAELKAALKDADELYLATDGDREGEAIAWHLLQ
+VLKPKVPVHRLTFPEITKEAIQRALQEMRDIDISMVDAQETRRILDRLYGYEISPVLWRK
+VARGLSAGRVQSVATRLVVERERERMAFRSASYWDLLGTFATASSESFKARLTSVDGARI
+ASGKDFTDRGELKSKNVTHLDEAAALSLAEGLQSASFTVRSLETKPYTRRPAAPFTTSTL
+QQEASRKLRFSSRVTMQVAQRLYENGYITYMRTDSSALSDQAINAARRQASELYGPEYVP
+EARRVYKGKSKNAQEAHEAIRPAGDSFRTPAQVASSLRGDEFKLYELIWKRTVASQMADA
+KGSTASVKLGAVSADGRDAEFSASGTVITFRGFMAAYEEGHDATRDGDEGSEGGRLPILK
+KDDPLTAAELGAIGHETSPPPRFTEASLVKTLEELGIGRPSTYAATISTIMDRGYVTQRG
+QALVPSWIAFSVVRLLEEHFTDYVDYDFTAEMEEDLDRIARGEAGRVEWLNQFYYGDRVD
+TGLHTIVNDLGEIDARAVNSIEIADGIVLRVGKFGPYLERPLPADAPEGTEPERANVPED
+LAPDELTAEKAIELMNTAGPEERVLGEDPETGRTIVARNGRYGPYVIELIPEPTAEELAN
+QPVEYYKNGKPKPPKKPAKVKPRTGSLFKSMSVETVTLEEALKLMRLPRVLGTDAEGNEI
+TVQNGRFGPYLKKGTDSRSIGSEEEIFTITLEQALEIYSQPKQRGGRQAAAPLAEFGTDP
+VSEKPVVVKDGRFGPYITDGITNITVPRSMAIEELTRERALELLAEKREKGPAKKPVRKR
+AAAKK
+>tr|A0A0P7GA75|A0A0P7GA75_9MICC
+MTAQQLMTVPLVDLASQHAEVEEEIQAGLKDVFAATAFIGGRHVDDFEAAYSQWLGSAHC
+IGVANGTDALELALRACGVEPGTEVVLPANTFIATAEAVSRLGARPVLADVDPLHLLMDP
+ASAANAVGPRTRALMPVHLFGQSAPVEALEATARRCGAAIVEDAAQAQGAERFGRRAGTL
+GDAAGTSFYPGKNLGAAGDAGAVLTGRADVAARVRMLADHGSSSKYRHEEPGMNSRLDAV
+QAVVLSAKLKRLTAWNERRRTAAAVYAELLRGIPGLVLPFSAEGNTDVWHIYGVRVPAEE
+RDRILKLLVSAGIGAGIHYPVPVHLTGAYAHLGHGPGDFPVSEDAAARLLSLPLHPHLSR
+AQQEYVAETLAAALQ
+>tr|A0A0P7GE70|A0A0P7GE70_9MICC
+MPVEYLMWIPAAALALLLTVTLTTGAVISLFRTEETTGAARALWLAAVLLLPVAGALAWL
+AVLQHSTRSRPAEETNTESLM
+>tr|A0A0P7GT28|A0A0P7GT28_9MICC
+MTSSTSAAPSPRTASGLGLATVAADGTFLDVWYPRPELAPLQAGEELAADLEKAAASMAD
+EVRGTRGEVVRTEINLDEAPAGTADAYLRLHVLSARLAAPNTINLDGIFGVLPNVVWTNF
+GPCQVAGFDSVRLGLRARGAVTVYGVDKFPRMVDYVLPTGVRIADADRVRLGAHLAEGTT
+VMHEGFVNFNAGTLGTSMVEGRISAGVVVGDGSDVGGGASIMGTLSGGGKERITVGERVL
+LGANSGVGISIGDDSVVEAGLYVTAGTRVSVTDPETNEVRTVKAADLSGVPGLLFRRNSS
+TGAVEALPRLARTVELNEALHAN
+>tr|A0A0N8HYY0|A0A0N8HYY0_9MICC
+MAARTPLFLSAGLLGAALVLAGCGGSNNTDEPPSPTPSGSTTASPAPSAAPGTSAAPQTS
+APAPEAGVVPCTAAMLSAAVEDTPGGGAAGSVYRDLVLSNTSSEPCSTFGFPGVSYLSVA
+ATQVGAPATRAGGADAVSVTLQPGQSAVASLRETRPENYGEECSKVPVSGLRVFPPEDTA
+FLDIARAGYGCSNDEIELLEVGPLTGPR
+>tr|A0A0N8HX50|A0A0N8HX50_9MICC
+MIGYYIHHHGMGHLRRAQAIAAELPPGSVTGLSSLPRPGDWPGDWVELERDDAGTEPRGV
+DANGHLHWVPLHDPGLRGRMGRLSAWILETGPAALVADVSVEAAVLARLHGIPVVTVALP
+GVRDDQAHKLGFGVSDALLAAWPPEAPRMLATSPEVLQRLQPVGAISGLPLQPGRSPGAV
+SRVLVLGGAGGGGMDDAALADARLQTPGVEWLELGTTPANRSTKPLPHLIAADLVVTHAG
+QGALADVAAAGIPAVVVPQDRPHEEQAATGRALAAMDLPVIVSPGFARRDWADVLAAAAA
+LDGRKWRLWNDGLAASRAAAAIRQVMSQDALPAGGRA
+>tr|A0A0P7GB27|A0A0P7GB27_9MICC
+MALTPEDVVNKRFQPTKFREGYDQDEVDDFLDEIVVELRRLNAENEDLRRQLAEAVAGAP
+AGNQVPAPVSAASKTEQVSQPVKEEKKPEPAPAPKAEEPKAEAPRAAEPAPAANTAESAA
+GILAMAQKMHDDYVSAGVEQRDKIIAEAQIEASGLVNEAQEKSRKILSSLEQQKALLERK
+VEQLRGFERDYRSRLKAYIEGQLRDLDSRGSVASETADA
+>tr|A0A0P7HIE0|A0A0P7HIE0_9MICC
+MTDLFSENREHAERKRRPVLKTVLVMATIVLIAGLAAGGYLYSLARTFDSGAATIPLSSG
+NAPPKTSDAEDTVNILVLGSDSREPGAAARSDALMLLHIPGDRQGIYAVSIMRDTWTTIP
+GHGEYKINAAMALGGVPLVVDTVQDMFGVPIDHAAVIDFEGFKDLTTALGGVSIQNPVAF
+QATGEGAAYFPAGTVTVEGAPALEYVRERYAFDDGDYQRVRNQQAFLHGLLSKLISTETL
+GDPVKLHGAIASISPYLSVDEGLTGLRVGTLALELRSVRSGDIEMFTLPNAGVGTSADGQ
+SIVLPDATAAGELAEALKTDTVAQYAAGLNGE
+>tr|A0A0N8HY61|A0A0N8HY61_9MICC
+MRVRWFDALAELKDGVDPRMATFLALFQGMDSALAVLTSAHSPASKFVVLQGLLDPDGLI
+QYKGLGLDAATFVDQIRAADGGDEEALSWLEDIQREQVLTSLAEVTGTNAAAEADFHLTR
+WSLQGAALIKAVTTKTKNAEFEFSEIRSILRMQADLSRRVEQRRARIAEMKASNPESAER
+LNSMLGYESRRPSPGTDPEYGILEDYFFEETRIYLQARFRQSLPGQFAAALIASSNAGAS
+DVAFAAAVRAMAAASSTDPKDYSADGISTPSPWHDALAKSLGISQRRYRSGDRIERILQA
+VKGVTQAVKAAGDDDLGTLVVAHEVLCYAQWKRDEFRASKQAEKVEQHKADAIERSRKAK
+QRAEASRLRDEQAQEVRSAVWDVDDAVRRYAQTLEHTIRSIRVENPFPESHLAAAKDRLE
+KALAKKAAADGWLAAADERALWAVAEVKVAATSSVEELLLAERDEAVAEQSEAKSEQQAA
+QRERDAAERDVTDLAAARYKFDKLIQPVLAENERRLEAETLRHKQEQEEKRRQAEELRKK
+QEAAVRRQEELNQRQQERASVAKHALGMEIDRLIALPTSASIWRRKRLAATRVSLEQAIL
+KLQAEITAPNIPPRTHWKTWPSMLSANDRYLGTVKKIMDYGAFVSLPAGVDGLIRFTGAG
+ASLHRGQMIIVEIVAMPSGKPFVLRQVAPRA
+>tr|A0A0P7G498|A0A0P7G498_9MICC
+MPKSKPRKKAVSKKKQARRAEHEVNAMLRGETAYFSDEAEALLAGRGWISERDQPGGADQ
+GDAWYWMPSQLPAYLEEGEPVPTSIYPSSETTFVSQLATPDGSVPPEAQTEYASLAELEA
+DLDRLQAYRVPADSWTALPAGEDETPADLIDSISEEWELIAELIHFPYSTDQGPRSFAAV
+EQAVQDGRLTEYAYRSVLAGRGTPGA
+>tr|A0A0P7GIC1|A0A0P7GIC1_9MICC
+MSKFTDLLEAQIGNEFNASQQYVAMAVYFDGEDLPQLARHFYAQSVEERNHAMMLVQYML
+DRDLPVRIPGVDPVKNDFSDVVEPIALALDQEKQVTSQIEALFAAAREEGDALGEQFMLW
+FLKEQVEEVASMSTLLTVARRADNLFDLENFMARERVGDGGDDAGAPEAAGGAL
+>tr|A0A0P7G6H1|A0A0P7G6H1_9MICC
+MQEAPLSYRFTKSDGAALAFYVGAMLLLSLTPAALAVTTVITDPVTASYAVNFTFYLIAG
+ILAFIAARSYVVRETRILATRPWLTLGVIPLSIIAMLVATMILVLLTGPPETAVNQVAAQ
+DLMTSVSPWLIVPLFVVLAPFVEEYIYRHLLIGKLSRRWNIWVCSLLSVLVFSGIHVLGE
+SEFSLAVLVPYLAMGAVLVGVYVWAGNNFMLSYFVHAAKNLLAVVLTYAVPAELLQQ
+>tr|A0A0P7FDW3|A0A0P7FDW3_9MICC
+MSMTEEQAAWFAETFAQLVTNVGKAVLGKPQAVRLILTSMLAEGHVLLEDAPGTGKTMLA
+RALAATVQGTTSRIQFTPDLLPSDVTGITIYDQKTQAFEFHRGPIFANVVLADEINRASP
+KTQSALLEVMEESRVTVDGTTYTQERPFMVIATQNPIEQAGTYRLPEAQLDRFLIKTSMG
+YPDHAATVELLAGSATRDRTTALAAVITSAAVRDMADLAATVHTDTSVLEYIAHLTAATR
+DAPETRLGVSVRGALAMVRAAKVWAASEGRNYVLPDDVLTLAPSVFTHRLVMDPEAEFAG
+ATASAVLEQVLASTAAPQQRVNA
+>tr|A0A0P7GNZ0|A0A0P7GNZ0_9MICC
+MLGGRYKVTAQVLASAENDLVLDGVDQVLNRAVSILVAAPQNASQVSASAREIAIGERHS
+TVQILDLGVSDGRTYLVTSNGNAADLLDLVIERDAPYVEPFFTDTLGSEIFGEPRSREPE
+TVQEDRYVEEYEPRERKPLLSNLPKPHLPRFGRGAAAGAAGAAGATAAGERELEFGGPQE
+APAEAATGAAAVPPPPSQSPRSAQYSAPTRDTPAQSPKVTRWEEEDDFPAEGYATAGQND
+RKASNFPRTALGAEYENEEEYDGYEEDQPDRGDNRKFGRILVGGILSVVLLVAVVLAFTG
+LGGVRDMFPAEEATTPVAEAPETSAGAAEETGAALPDPLTAGISRLVPGNQELDSVNDAA
+LPQIIDGNDASYWSSYVYASDTFGGLAPSLALVVELEEESAISKVDITQLNGSGGNFSVM
+LNDSPSLDGATTVAQSGFTGPTTSITVPKGPDGEPASASYVIINFTQLPRLSGVQAEYPW
+GLRIAEIEVS
+>tr|A0A0P7GCD0|A0A0P7GCD0_9MICC
+MSTATAEADLTVQTAEGAVLGRLAGAARVWRGIPYAKPPVGELRLRLPQRAAPWTGVRQA
+GDYGPWAPQRVRRLLPGAAAKTPMSEDCLSINVAAPAQPADSPLPVLVFFHGGAFNTGSA
+AMEMVDGSRLASEGNVVFVSMNYRLGALGFMDFRAYSTAGRTFDVNVGLADQVAALEWVR
+RNIAGFGGDPENVTIFGESAGAMSALTLMCVPSAAGLFHRAFLQSPAPGAAYGPELASQW
+AEQFLGLLGTGPGGAVEALATLPASSLVKAGDELSSKITPEAQPGALSLAPVVDGSFLPL
+HPLDAFEQGRAHRVPLVIGTMENEGALFDRLHDILPTSAERIRKMFELTDPEAQDRVTAA
+YRGFPHRKQAVELGGDAVFWYPSVQAAQAHSGYAPTWSYRFDYAPRAARAAGLGATHGLD
+LAAVFGNYDTGTARALLSLGNRRTTMNVGHRFRSALLRFARTGMPGPMWPGYDSSTRRTK
+IFDRYDRIELDPRAVRRRAWDGYQGYR
+>tr|A0A0P7GNJ4|A0A0P7GNJ4_9MICC
+MEKNLAEFLASFSTAVELAQQQGSRSSDREPLREVISRHLGMPAHDVPIVAEVIPFHRFA
+DVDIALEKLAAADPDSTLIGLGGGQQRQHLGLADVVQEEGYGFIPVGQPDFINIAVGPEA
+SREAVAWGILLFRHRGVPVAVMQRNGDQQTGSPDVQLAVMAAERPAAAAVLAAVQEDLRA
+NSILRGQVISLGFDPYGRGGAGVTFLQRPSLPRDEVILPDGVLDRVRSHVLGIAGHRSRL
+QAAGQHLKRGVLLYGPPGTGKTHTVRHLLSESPGTTAVLLTGAALGAIAQAASLARAMAP
+SLVVLEDIDLVAEDRSMGHGPQPLLFSVLDALDGLDADADIAFIMTTNRVDVLERALAQR
+PGRVDLAVEIPLPDSADRVKLMQLYSPRGVFSAEALASVAEDAKGATASFARELVRRAIL
+AAAEAGEEPADAHLLAAAQDLSGQREAMTRSLLGGADPSAGFSANGDGPQPGAAPGPSFG
+WS
+>tr|A0A0P7G9C6|A0A0P7G9C6_9MICC
+MTSTPRMPALRDSLDGSPAPWQRTAAGANLLGADGNLGITIFEEITALAGTHGAINLGQG
+FPDEDGPAEIRNAARKAILAGMNQYAPGQGLPVLREAIAEHQERFYGLQLDPATQVLVST
+GATEAIASTLLALTGPGDEVLTFEPFYDSYGAIIGLSGAAHTTAPLLAPDFLPDLDALEA
+AFTDRTRVVLVNNPHNPTGAVFPAEVLQRIVDLAVRHNTVIVTDEVYEHLTFGPRHIPVA
+TLPGAADRTITISSAGKTFSLTGWKIGWLSGPADLVAAIRTIKTFLTYSSGTPFQAAIAG
+GLRMDDSFFTDIAGTLRAKRNVLSAGLQAAGLDVFQPQGTYFVNADVAPLGITDATDLAR
+RLPGLVGVAAIPVAMFCHPEGAERTRTLLRFAFCKRFDVLQEAAERISRLGEVL
+>tr|A0A0P7GC21|A0A0P7GC21_9MICC
+MDKEQGQPDLTEAQDGKLSVSEGAGTAVEGVGDAEMSSGDADKTHGDADTRPGDAETVHS
+PAESAAEPAGLPEDRGYPVPPPWAERPFAPPSGPVSVPPIPPIPPAPGMQAPGIPVPGMA
+APGMPAPGPPGSGMPGGWPGNGTPGYGGPPSTGPGGYGGAAYGGFPGRVPIYPPKSPGKG
+LAIAALSVAGVGLLFCWIWFLNFITFLLGFVALGLGIPALVKGVKARNVARPLAIAALSV
+AVFSMIAASFVNVTIQYGLLPAAGEPGLSESEPEAAAPAPAPSRTPSPSLTPAPVAPSET
+PAAATPPVVADKDYSVDVSGPFFRHVIAQPANSAGESVQVGDYSVTLVEVNLKANEDVLR
+RDPDAGAPDHNYVLFEFNALYNGDATGRTSLDLGPQFIGADSRMYSVLNCSMNLGVSYAD
+EPTLSKGESATRRVCFDLPAEALGEDSRVALRMTLAEDNNESVYWRLP
+>tr|A0A0P7HLQ1|A0A0P7HLQ1_9MICC
+MSVPDKYAFRVNAELLVPGQKIVLDELTLAPLAAVRVEEDDLGTPALVIADLKDGETLRI
+AYGSAVRVAAPAPEKNAAEAVRSVPTEEETYAAVLAAAEAAHPEDRTVKELSARLGRGLN
+VKAGSNLQDVRDLAHTLYVDLGDAENALAVCSLITGLGFDGNYGRWNWIQGALALAAHIT
+HETGDREASAAFAQAVRAGDHAESDPLKAKLSAELLQRQLNEPNLYDREIQRAAEAGDEH
+SERDWRILRLDTLLYLRAHGGSQTYSDAELQRRIRTELSAVRGLNLDL
+>tr|A0A0P7HM37|A0A0P7HM37_9MICC
+MEPAESDALTDYLAALDHPMSSVVRHLREAILSVDPQIRENIKWNAPNFTLRDDFATFNL
+RRPDNVQVVLHTGARPKPDHREITVNDPHKVLRMVGRNRGVITLSSRAAAEAAMADFTDV
+VRQWVAQLE
+>tr|A0A0P7FWY8|A0A0P7FWY8_9MICC
+MRESSTGLFVELPEDSNITDLLLATAARTPDLALYARKNGAEWEDVRAADFLAQVTETAK
+GLIAQGVRPGDTVAVMSGTRYEWTVVDLAIWFAGAVTVPIYETSSPSQVQWILSDSGARI
+VFAGDGNKAAVVAAGAAAAERSVQVWMLTGGNSTDSLSALAASGTGVTDAELEAVRSSRR
+LSDTASLVYTSGTTGRPKGCGITHGNFALFAVNVIELLPEMLKRPGARTLMFLPLAHVLA
+RAVQVGCLAAGVTVGHSSGAAALAEDMRTFRPTFLLAVPRVFEKIYAGAEEKAQAAGKGK
+LFESAAATAVAYSRALDSEARGGRGPSLALRLRHTAFDRLLYPKVRAAFGGQMDIAISGA
+SPLSPQLSHFFRGAGIAVLEGYGLTETTAPASVNTIPLTRVGSVGLPMPGNAVRIAEDGE
+VLVSGVGVFSGYHRNPDATAAAFSGEWFHTGDIGELDGDGFLTITGRKKDLLVTAGGKNV
+APGPLEEKVREHRLVSQVVVVGEGRPFVGALVTLDDEALAAWSRENGVDPAKTPPADHPL
+VLAQVQEAVDAANATVSRAEQIRRFTVLPQDFSLAGGHVTATLKLRRQAVIADFSAEVEK
+LYTK
+>tr|A0A0P7G5X5|A0A0P7G5X5_9MICC
+MEVKIGIQNVGREIVFESGQSADQVADTVAEAINGSKELRLKDEKGRLIIVPAGVIGYVE
+IGAEEVRRVGFGAL
+>tr|A0A0P7HL72|A0A0P7HL72_9MICC
+MLTEDQWLPRQAAHEQRVRPFTEGFLQRRSAGTKHPVEDFLFTYYSYKPGQLMRWHPGAG
+VVLTGAAAAERESWKFYRSLSQEELAAAGLARDTPAVTVDWAGFTAARGPAADFTRMLLS
+RTAARKPSLGCFGMHEWAMAYRSEVNGIRHDYLGLRLGAQGTNDLVEKSRIRCTHFDAFR
+FYAPQAVELNELTPTRENQRDLEQPGCLHANMDLYKWAYKLTPVLPSELVMDCFELAWRI
+REMDMRASPYDLQDWGYEPIRVETPEGRAEYASAQRGFSAESQAQRARILDLLDSLEEKP
+CSPSPLDGSTAPENSPTTWS
+>tr|A0A0P7HNR0|A0A0P7HNR0_9MICC
+MAKQLATQLIDQLRAAGVERIYGIVGDSLNPIVDAVRRTGGSSRGGIDWIHVRHEEAAAL
+AASAEAQLTGKLAVCAGSCGPGNLHLINGLYDANRSGAPVLAIASHIPSVQIGSGFFQET
+HPDRLFTECSVYSELVSTTDQAPRIMHSAIQHAVALHGVSVVTIPGDIAGQRATAPTPEP
+ALCRPATMVPAAESIRELAAAVNEARKVAVFAGIGTEGAHDAVVEFAAKVKAPVGHSLRG
+KDFIQYDNPYDVGMTGLLGYGAAAEGIKDADLLVLLGTDFPYNQFLPDTRTVQVDRAAQH
+LGRRTDVDIAVHGDVLPTLEALLPLVEEKQDRRFLDEMLRKHDRLMNKAVGAYTQKAERL
+VPIHPEYAASLLDEAASPDAVFTADTGMCNVWAARYINPLGTRRIIGSYLHGTMANALPH
+AVGAQLSQPDRQVVALCGDGGLSMLLGELITARTNNLPLNVVVFNNSTLGMVKLEMLVDG
+LNDHGVDVPDTNYAAIAAAIGFHSVRVSDPADIMDAYRAAFDHQGPSLVELITDPNALSI
+PPKITTDQVLGFATAMSKVVLNKGAGQAVSMARSNLRNIPRS
+>tr|A0A0P7HVB4|A0A0P7HVB4_9MICC
+MRRKVTETAASSSKGHPSGKPAKKRGFFGAIALFLRQVIAELKKVVTPTRKELLRFTVVV
+LAFVVVMIIIVSLLDFVFGTGALWIFGSGGGES
+>tr|A0A0P7GE64|A0A0P7GE64_9MICC
+MELVPGNTLITATPEEGRKLALELALHSIYAIQPDEKVLRAGRDVYTTDPEELIASSHVV
+AIEFATIAAANNYWR
+>tr|A0A0N8HXZ1|A0A0N8HXZ1_9MICC
+MRSRRKTRLRAGSMGAAGVALALVLTACGGNGEAGNEADGTLEVWAHSGQASEAEALQSL
+VDQFNDANEDITVELTLVPEADYTSTVQATKAEDLPDIMEMDAPTMASFVYDRKLVPLEG
+IVSEEVLENRIGGVKESGTYNGETYAVGMFDVGLGLWGNASLLEAAGLEAPATAGEAWSV
+EEFRSNLAKLAEVSPSGNAIDLGEANSFAAEWGLFTTSPNLWSAGGTLMKDGKAEGVLNS
+QENVDALTEWSSWKEYTDPNTSGTAFQEGQVALTWTGNWMYPGFSEALGEDLVLMPLPDF
+GNGTKAGHGSWQWGATPAAEGNEEAAGAFLDFLMSDEAITAMTDANAAIPGSTSALETSE
+LYGDGKPLALFADNLASACGSEDVTAECIAVARPVTPGYPTVTSSVGSALLAIWGGADVK
+EELDKAARAIDSDFTDNNGYEDE
+>tr|A0A0P7GUN1|A0A0P7GUN1_9MICC
+MYKFLLSSRWLGWFVLVCALAAVCAFLGTWQLERRDAVREDIGWVETNYSAEPVSFQEAA
+GYFKEFDPSAEWLPVELTGSYDTANQRIVRNRPLNGRPGYEVLVPLRLADGTAVAVNRGW
+LAIGNNEAGWPDEVPPAPEGEVTVTARLKPAEPALLRGAPEGQLASIDLAEYQDQIGYPL
+EQAAYVLMDTEDPAPATRPEAAPKPDLDEGPHLSYALQWYAFGLLFFVGFGYAARQEAWN
+IIEAGEEDDEDWDDDDEVHSAAPLPRRTRPVRKRRGTTGEEEEDAILDAQGY
+>tr|A0A0P7FEA2|A0A0P7FEA2_9MICC
+MSVKSIDKDYDTLTITALAEFEAAPEQVWELWADPRKLERWWGPPTHPATVPQHDLTPGG
+TVTYFMTGPDGETYHGWWEVISVERPEKLRFRDGFAEEDGTRRDDMPISDVTVTFAARDR
+GTVVEVVTAFADREQMEEQISMGAIDGVACAMSQMDAILADA
+>tr|A0A0P7GTR5|A0A0P7GTR5_9MICC
+MQASSNPGTAPRFASGTGLHVRAVGERALLLETSGTAEASALHSLLTSSPLPGQIEAVPA
+ARTVLVRFATRTETREAAARAGQLAGEALPGEAQEPRMVELETVYDGEDLEEVVRLSGLG
+SVQAVIEAHTAAHWTASFSGFAPGFAYLTGGDPRLQVPRRSEPRTAVPAGSVALAGEYTA
+AYPGVSPGGWQLIGRTSAPLWDLEREFPALIAPGMRVRFVPARGRAELSARSPRDRGQGT
+DLARIDPDPGPQARPDAVVLETGLLVTVQDLGRPGHSHVGVGRSGAADRSALARANRLAG
+NTPDAAGLEVLFGGLRLRAEQDLVLAVTGASAGLTVQDASGPNAGMLPDRPFLLRAGSEL
+ELGIPVAGLRTYIAFRGGLEIPAVLGSRSTDTLAGLGPEPVAPGTALTIGAEPGSAVGHP
+EVPPPLPGGFAELRYVPGPRQDWFGPDGTSAFESRDWTVGGQSNRVGIRFEGSPLPCLRS
+GELASEAVLPGSVQVPPSGQPILFLADAPVTGGYPVIGVVLEADLDLAAQLRPGTAVRFV
+PVTLPA
+>tr|A0A0P7H4T2|A0A0P7H4T2_9MICC
+MSTNFDVWAPNAGNMRLVANGQQQQMTQGTGGWWHASEAVPGDVDYGYLLDDATDPVPDP
+RSRRQPGGVHGLSRTFDAAAFPWTDSAWISPGLTGGAIYELHIGTFTPEGTLDSAAQKLT
+YLADLGIQYIELMPVNAFNGTHNWGYDGVLWYAVQESYGGPAAYQRFVDAAHSHGIGVIQ
+DVVYNHLGPSGNYLNLFGPYLHSGRGTGWGDAVNLDGPDSDEVRAYILGNLEMWFRDYHV
+DGLRLDAVHALQDERALHILEEMAALTDDLSADLGGALFLIAESDLNNPRLITPRDLNGY
+GLAAQWSDDFHHAAHSNLTGETDGYYADFDSLAAVAKVLQGGYFHDGGFSSFRGRSHGRP
+LDTALHSARQLVVATQNHDQVGNRAAGDRNTATLGNQQLALAAVLNLASSCTPMIFMGEE
+FGASTPWQFFTSHPEEDLGRATAEGRLQEFARMGWDPAAVPDPQDTATFQNSKLDWSELT
+DDHHGELLRLYRDLLALRKSMPELTEPDFRKIDVDFDEVSRWLSIQRGKVVVALNFADSP
+RELPLPLQGPVKVALETAPSVMYDGAIQLPGFGAAIVSGS
+>tr|A0A0N8HYX6|A0A0N8HYX6_9MICC
+MTNEPPRGQRKGAQEEGDPTEWHGHRIVTEQDLGAVFDDDESTEAAEERARRKRTLHTVV
+LGLLIAVLIGAAVVAQGITAGWISLPRAEPRPAAESGCPAGPYTYQSPESVTVNVYNTTA
+TPGLAGQVAEALKTRGFAIGVVGNSTVNREGMTAIILSGPEGEPGAFTLQQQIPDTQYIQ
+DDREDASVDVVLGSGYSDLVPLETAQAAAPGPITCPWKSEGAEAG
+>tr|A0A0P7GLV2|A0A0P7GLV2_9MICC
+MDHSQAVHRHHNETGFHWPSFALGLVLLLFVLAQGEDNGAPGYVGMAGLIFLITGLYSVV
+SRRRSWMRLTTRTAAWIVAAGGAVLMLLALVLRLAGM
+>tr|A0A0N8HXJ8|A0A0N8HXJ8_9MICC
+MSNDPWYSLGITPIEALWVVVSAIGIYAAFFLLIRGFGQRALASWSTLDKAIVIALGGVV
+GRVILGYTPTLAGGIVGLITLFTMMRLEEYLRRTKRGVYLSSRPVLLMAGDEILADNLRK
+ARIQNDELYFKLRQAGIHNFSEVSIVLLEPTGDVSVMRRGVPVERELLRRVADRDRIPSQ
+LLLPEREGRQGT
+>tr|A0A0P7FDQ0|A0A0P7FDQ0_9MICC
+MDAFAAVHSQDWKRLDELIARRRLSGAEADELLQLYQRASTHLSVIRSVAPEGALSAALS
+MRLSRARTRFTGARSNFFEDLAGFFVYSLPAAFYRVRIMTVVIGAVFILVTVLSALWVVN
+TPGVLAAMGTDAQLRQYVESDFVSYYSENPAASFAGMVWTNNAWIALQAVAFGVTGIWGP
+YILYQNAVGVGTAAGTMASFDQLGVFFTYILPHGFMELTAIFIAAAAGLQIFWAMIAPGP
+RTRISALAQEGRSLMTVALGLVVVLFISGLVEGFVTPSALPAWLRISIGALVLAAYWAYT
+LILGKRAYQAGHRGDLLARDAGEATVRSA
+>tr|A0A0P7GVH2|A0A0P7GVH2_9MICC
+MSKASEPDLQVISRDVRKVQAQALVVGVGQSPDGPVLVDSPLSQKSSSAVAGSFALLGVT
+GAADQVVRLPGLPELDAEMLVLAGLGPVAAGEPLSTEALRRAAGSAVRQLAGTETVALAL
+PAATVEDAAAVAEGALLGAYSFTEFRSAHSAKAPAAVSRITVITSTAGEAELKSAMERAQ
+VVARAVNATRTLVNQPPSHLYPETFAAAAREAARPLPVKVTVWDEKKLEREGFGGILGVG
+KGSARPPRLVKVEYSPARAKAKLALVGKGITFDSGGISLKPAAGMQAMKSDMGGAAVVLN
+ALLAIAELGLPVKVTAWLCLAENMPSGSAQRPSDVLTTYGGRTVEVLNTDAEGRLVMADG
+LAIASEEEPDVIIDVATLTGAQMVALGNRVSAVMGEDGVRDAVKAAADRAGELFWPMPLP
+EELRASLDSPTADLANIGERFGGMMTAAVFLREFVGEVDGVKIPWAHLDIAGPAFNEGAP
+YGYTPKEGTGVAVRTLVSYAEDVLARAV
+>tr|A0A0P7HJC7|A0A0P7HJC7_9MICC
+MTDANLAQTSLEDVEEALKDVIDPELGVNVVDLGLLYGLKYAEDGALLIDMTLTTAACPL
+TDVIEEQTGKALEGIVDEFRLNWVWMPPWGPEKITDDGRDQMRALGFNI
+>tr|A0A0P7G8F2|A0A0P7G8F2_9MICC
+MSNPTTSAVQPSASAVVDPAGSGSEWLARYTDSLMGVFGTPQRVLVRGHGCTVWDADGKE
+YLDLLGGIAVNALGHAHPFVTSVIASQLNTLGHISNFFTSPTQVALAEKLLQLAQAPAGS
+KVFFANSGTEAIEAAFKLARRNSTPERTRIIAMDRAFHGRTMGALALTAKPAYREPFEPL
+PAGVEHIPYGDVEALRAAVDETVAAVFIEPIQGEAGVRVPPAGYLEAARQITRDAGALLV
+FDEVQTGIGRTGRWFASEGVLPDAMTVAKGLGSGFPIGGLITFGPDVSSLLSPGQHGTTF
+GGNPVATAAALATLSAIESGDILANVQATGEYLRNGLRGTAGVTEVRGEGLLIGIDLEQE
+IAPAVVTAALDSGFIINATGPATLRLAPPLILTTDQAQSFLDKLPALLQAAAATIGQP
+>tr|A0A0P7HJX5|A0A0P7HJX5_9MICC
+MSVFDGLKGKAGELKDKATELVGENADKIKGGIDHAGNFVDQKTGGKYSDKIDGFQSKAS
+EAVDNVDRKQGPGTGPETGQTPPAV
+>tr|A0A0P7FZ40|A0A0P7FZ40_9MICC
+MTSPNRNLVSYRDVRELRGPLMVVGETDGVGWDEFASVDVEGGTERHALVLEVDGGQAVL
+QVLEGTEGMRLGGISVRFQGRPLHIPVGSGWLGRVCNGRGEPLDGGPPVTSDTVEPVSGW
+PLNPVYRIPPKEAVITGISAIDALTTLVRGQKLPVFSVAGLPHLTLATQIAAQSRTGGRN
+FRVVFAAMGMTHADIAYIRDRLEERSAAGELVLLLNAADDPVIERILTPRIALTIAEHLA
+YEEGSDVLVVMSDMTSYAEAVREVSAARKEIPARRGYPGYLYSDLATLYERCGRVQGREG
+SVTIVPVLTMPSGDMTHPVPDLTGYITEGQIVLSPEIDARGIYPPVDVLSSLSRLMRSGA
+GKGRTREDHLDVAAQVLAAMARARQASELAELVGDAALGEADRAYIRFRSVVEEKLLNQS
+VDEYRSLEQSLGLAWEALGVLPRRELSMLSPELLDRYLPGPIGGARL
+>tr|A0A0P7HER7|A0A0P7HER7_9MICC
+MKSDIHPTYAPVVFRDLASDTAFLTNSTATSSKTIEWEDGNTYPLIEVEISSASHPFYTG
+KQRIMDSAGRVERFNARFKGFGGKK
+>tr|A0A0P7HVJ9|A0A0P7HVJ9_9MICC
+MESETNEWMLAAIFFFLGIVPFVGGVLLYTKKFVGLLILDSFMPGKPSLATTFLGAWLLL
+MAPQHFVNETGIDALIMPYSALLLGCLAIGLMGWFWMPKFLQPKWMKEGDKLEARGEDRF
+VRDFYDSNGEKKQ
+>tr|A0A0P7GNK9|A0A0P7GNK9_9MICC
+MSTDAAYLSQAVELATANVADNGGPFGAVIVTADGQVFEGVNRVTANNDPTAHAEVTAIR
+NACAALETFDLSGAVLYSSCEPCPMCLASALWARIGRVVFAADRHDAAAAGFDDAAFYEY
+FDTPVEERFMPVAQLAGDSRNAPFEAWNASVSRIDY
+>tr|A0A0P7FI72|A0A0P7FI72_9MICC
+MHNHGDFPAESLFLIPAVAAVAAYWAGVVSKKSGQWPPWRLVCFIAGVLAVLLTVLEPLA
+GWAHSDFGALALSHVLAGMAGPLLIVVSRPADLALLTLDDVPAARLRRAVNGPLARFLTH
+PVTATALVAAGMWGMFHTPLLGAMQESMPVHWMVTAYLAATGCLFTASVLDSAPVSHSFR
+LRAAALVTAAAVHAGLAAGLLVVPPEGNSSTAGALVLLVSGLAVQAVLALLLLGQQRGTA
+PLLPQIRRA
+>tr|A0A0P7GBE8|A0A0P7GBE8_9MICC
+MWAACILGLVHAGFSVYWAVGGEWLLATVGRFAVQAAEETPAQSALVLGAAALSKAAAAV
+IPLAAAYGRFPFPRLVRALSWAGGAGLILYGGVNTAAASAVLAGWIPAGPNADIEGLRGH
+ALLWDPLFLAWGASLLAYLWLSRRHPQRPGPGHAGPAHENPGAG
+>tr|A0A0P7G3Z8|A0A0P7G3Z8_9MICC
+MTENQPAISVRGLTKKYGAKTAVDDISFDVEAGSVFAFLGTNGAGKSTTIGCLTTVVPFE
+AGTAEVSGYDVRSGGEGVRSSIGVVFQESVLDPLLTGRENLRVRARFYSPDKAQNEERIE
+ELAELVQLGEFIDRRYGTYSGGQRRRVDIARALLHAPPIIFLDEPTAGLDPASRAIVWKT
+IHDLRDRHGLTVFLTTHYMEETEEADRVCIIDAGRIIADGTPAQLRAKYSSSILTVTTRN
+RPGLEALVLEVGGHIRPGDSEAVRIGVDTAEAARLILARHGEDILDFEFRHGTMDDVFLA
+LTGREAPENETHAAAEGSGK
+>tr|A0A0P7GDZ6|A0A0P7GDZ6_9MICC
+MSLIWATRGRAWGFKFLRDGGFEDPLPVYQEAFAGLEDEPEVCRRASHRVALRFLDPEGR
+TDRAGRVIPHDFVISGAPAEVIESVADGLQIIWPQVADEYARDWPEATS
+>tr|A0A0P7GNE4|A0A0P7GNE4_9MICC
+MRHVIGIDLGGTKTAGGIVDGAGNVLFSSAVPTPSQAGAGKVLQAAAGLVASLQAEAESR
+GLHVDALGVGSAGVIDSARGVVLSATDSIRGWAGTALAAELTVRTGLPATVLNDVHAHAL
+GESWLGAGAGVPSVLFMGMGTGVGGSYVLDGQPLEGASFAAGHTGHLASPFAVESGQPLP
+CRCGGAGHVEAVASGPGIFALYTRLGGSTAVDTRGVYALAADGDPVAAEALRRGAAAAGS
+AIGGLANVLDPHIVVVGGGLAFAGPLWWDAMENQARAELLPPLSGLKIVPAQLGETAAIR
+GAARRALTLIPATEGSHA
+>tr|A0A0P7GKX3|A0A0P7GKX3_9MICC
+MFSKILVANRGEIAIRAFRAAYELGAKTVAVFPHEDRNSIHRQKADEAYLIGSEGHPVRA
+YLDVEEIIRVAREAGCDAIYPGYGFLSENPQLARAAKAAGITFIGPDADILELAGHKVHA
+LNAAREAGIPVLRSTAPSADPETLLAEAEEIGFPIFVKAVAGGGGRGMRRVDTAHDLPEA
+LKAAMREADSAFGDPTVFLEQAVLRPRHIEVQILADNEGNVIHLFERDCSLQRRHQKVIE
+IAPAPNLDENIRQALYRDAVTFAKSLKYVNAGTVEFLVDTVGERAGQHVFIEMNPRIQVE
+HTVTEEITDVDLVQSQMRIAAGENLADLGLVQEDLQIRGAALQCRITTEDPANGFRPDVG
+KISAYRSAGGAGVRLDGGTVYAGADISPHFDSMLVKLTCRGRNYPAAVARARRALAEFRI
+RGVSSNISFLQAVLEDPDFVAGDVATSFIEERPELLNARGPADRGTKLLNWLADVTVHKP
+NGELPAQIDPREKLPTELPDPKPGSRQRLLELGPEKFAAELRAQQALAVTDTTFRDAHQS
+LLATRVRTRDLVGAAPAVAALTPELLSVEAWGGATYDVALRFLGEDPWERLDALRQALPN
+ICIQMLLRGRNTVGYTPYPTEVTDAFVEEAAASGVDIFRIFDALNDVSQMAPAIEAVRRT
+GTAVAEVALCYTADMLDPQEKLYTLDYYLDLAQKIVDAGAHILAIKDMAGLLRPAAAAKL
+VAALRERFDLPVHLHTHDTAGGQLATLLAAAEAGVDAVDVASATLAGTTSQPSASSLVAA
+LAHTERDTGLDLAAVSSLEPYWEAVRRVYAPFESGLAGPTGRVYRHEIPGGQLSNLRQQA
+IALGLGERFEAIEDMYTAADRILGRLVKVTPSSKVVGDLALQLVGSNVAPSDFEENPQNY
+DIPDSVIGFLSGELGDPPGGWPEPFRTKALQGRKPKARHVELTDIDEQGLAGDSTTRRET
+LNRLLFAGPAREFATTREAYGDLSVLDTRDYLFGLRPGVEHVVELEKGVRLIATLEAVSE
+PDEKGMRTVMTTLNGQMRPVMVRDRSVTTDAKVAERADPAQPGHVAAPFAGAVTLTVEEG
+AQVAAGETVATIEAMKMEASITAPVAGKVKRLAVSGVQQVDGGDLLVVIEPSA
+>tr|A0A0P7G6R4|A0A0P7G6R4_9MICC
+MRNNRSWLKPATAAAGAIALGLSLSACSSSGGDSAGSNRPENEVHVLVYGDAGNDVERAM
+VDKFNETSDVKVVLDTIPGADYQQKLQTVIDTDSAPDVFFNWGGGSITDYVDAGLLMPLD
+DFIEEDPQLKDAFLPSVFDTAVVDGEAYGIPMRGTQPVMLFSNEEVLAQAGVDGAPETWD
+ELLAAVEKLKAAGVTPIALGGADEWPTLMWVEYVYDRVAGPELFESALAGDTEVWDSEES
+REALGMLRELVDAGAFGTNFQSVKFTDGGSASLLSSGQAGFELMGSWAYSTHQDAAPEFV
+ESGLGYSEFPTIDGGKGDPQNLVGNTNNFYSVLANTRYPDTVRDFLKLMYSDEFVQEQVA
+IGNLPTTTNTEQFLDQSADPEYARFQYGLVEQAPAFQLSWDQAYPPSATPAIHGAMSDFF
+SGRIDEDGFIAAMQGL
+>tr|A0A0P7FDX0|A0A0P7FDX0_9MICC
+MTQITPGNGFGAPAAAQGDGFESTPQRLRRTLRTRPAEGPARRLLLQAADMFRGDDYPQS
+LAEAAAGVQRPVTTGRRIAVTGFRGGAGRTTAAALLARTYASLRTDAAAAVDLAEAGTLA
+LRLAAPQAPSLDAAAARLARTIPGSLAEVRNVVASPGPDNLLVTGRRSAAGTQKATDDDA
+THLSRVLSRYCPVTLFDCPAGLGSDAVHWALAESHLALFVTPASVAGIDDAGQAAELWRT
+NQALAQVPLLVLLTRSSRSPFKPVAEARRLARSGIDTAVLDYDAHLAAGVEIQPRLLSRA
+ARLQSAELAARVLAAASSAPGRPGKPAAARQAETGSGRRARV
+>tr|A0A0P7H4F1|A0A0P7H4F1_9MICC
+MTYWLLNLCFLLPAALVLAAALLRRRRAGRSNRTFLLRLAATAAVLLLLTAVFDNLMIAV
+DLFGYNPYRISGAFLGLAPLEDFAYPLAAVLALPALWELLSPRTTTLPEEKR
+>tr|A0A0P7FAT7|A0A0P7FAT7_9MICC
+MSNEQSTISVSRVIDAPAGDIFHLLSNPERHHELDGSGMVVSDEKTDRIAKVGDVFTMNM
+NNSKMGDYKTDNHVTGFDHNKLLAWQTAVAGTEPAGWEWMWELASMGPDSTEVTLTYDWS
+RVTDKETLKKVSFPMVSKEELEGSLNKLAAAVSGS
+>tr|A0A0P7GJ93|A0A0P7GJ93_9MICC
+MEILFIAVVTALLLLSIAAVIIGIRNDGRGHLPPVSSGRPWHGNSLWDVRDPRDLYLDRP
+YQPRGY
+>tr|A0A0P7GBS0|A0A0P7GBS0_9MICC
+MATVTFDQATRLYPGTERPAVNNLSLEIADGEFLVLVGPSGCGKSTSLRMLAGLEDVNSG
+RILIGDRDVTDVPPKDRDIAMVFQNYALYPHMSVADNMGFALKIAGVPKEERMERVRDAA
+KLLDLEDYLDRKPKALSGGQRQRVAMGRAIVRNPQVFLMDEPLSNLDAKLRVQTRTQIAS
+LTRRLGVTTVYVTHDQVEAMTMGDRVAVLKDGVLQQVDTPRNLYDKPMNVFVAGFMGSPA
+MNLLELPVTEGGVTFGGTVYPVPRSILDAAAGNTVTFGVRPEDMDVAAEGEGLKVEVDVV
+EELGADAFVYGHTFLDGQEHEITARVDARKPPAKGDSLFVRPKAGHVHLFDTSTGERLAD
+EA
+>tr|A0A0P7GSM3|A0A0P7GSM3_9MICC
+MVITQKRSINTPESERWNTLLDGLSVERLTNCFLDRVLQLEDYRDGTLPASEIRRTAAAS
+FEALIESLRSGQDSPELVAARQDIALEVGVSRARAGLPVESLMTAIRQDFTVLWSELTAL
+AGSSDAELMVHRAETVWEVVDSYAAQTQATYMRERQRMAQEASSLRQGHVAALFGTAVPP
+PEILSRIAEGLGVAAGATLVVAATTTENTPALHLVVAAAARRGTDLFTHPMPDGLTAFWA
+ADDRPGSPRQEATAQVRSLRCGLVEQVPGLAGVRTAAQTARTLASLAGEQDSGALTMSNA
+WARLARLRLAETGAPVVPDVDSALASCGPAERARLSEAVRSYLASGSVARSAEELFCHRN
+TLMNRLHRFEQLTGIDVTVPQQAARLVVAWS
+>tr|A0A0P7GWY7|A0A0P7GWY7_9MICC
+MPPTHGQSPPERSKPTSAERRRWRQYLADEQAEAATYRYLAERRDGEERDILLALAEAEG
+RHEEHWRRLLGPEADKPMRPSFRNRLLGLLARRFGSVFVLALAQRAEGRSPYSDDPSATS
+AMAADEQIHEEVVRGLATRGRTRLSGNFRAAVFGANDGLVSNLALVMAIGATGVSSTFVL
+FSGIAGLLAGALSMGAGEYVSVRSQRELLEASRPTQVTLSAAKSLDIDANELVLVYRARG
+MSREAAEHRAAERMGLYTCDCDPSLSLQPEKMQEASGEDHETVGTGIGAGLSSFCFFSSG
+AIIPVLPYLFGMGGLSAVVLSCVLVGIALLLTGSIVGLLSGASPLKRGLRQLGIGLGAAA
+VTYALGLLFGTGPL
+>tr|A0A0P7H3F5|A0A0P7H3F5_9MICC
+MNTTTTHFYGNTAVLTRRSLRHILRSPDTIITTAVMPVAIMVMFVYVLGGAINTGPYEYI
+DYMLPGILLITVASGIAYTAFRLFTDLQSGVFERFQSMPIARSSSLWAHVLTSLAANLMS
+LALVVGVALLLGFRTGAGPGAWLAVAGMLLLFTLALTWVAVVAGLSAKTVEGASAFSYPL
+IFLPFISSAFVPTDTMPGPVRWFAENQPVTSIVNSIRALFTQQSVGADLWLALAWCLGIM
+VVAYALAISTYKRRVS
+>tr|A0A0P7GAQ9|A0A0P7GAQ9_9MICC
+MKTFEELFAELSEKAATRPAGSRTVAELESGVHGIGKKVVEEAAEVWMAAEYESDEAAAE
+EISQLLYHLQVLMLAKGMTLQDVYKHL
+>tr|A0A0P7G5M0|A0A0P7G5M0_9MICC
+MPDTSLAHVLTPEGWALLNSLGPYLESESLKLNTDLRKAGHSPELVAAVLTQAKLRMKAR
+AKFGPFAEHMLFTPAGLEQATRLNVAALHAQRYQEAGLEKVADLGCGIGADSLALATLDR
+QVTAVELDEITAAVATINLMPWPEAKVVQGDAESFDLTGFDGVWLDPARRTTSTSGTSRI
+FDPEAFSPPLSFVESLADRGMPVGVKLGPGIPHESVPANCEVQWVSVGGDVIEATLWFNE
+LRRPGIRRAALVIGPNGAAELTSHDDYVPGAQDVRTGPAEGYLYEPDGAVIRAGLVADVA
+RSLGGHLLDPHIAYIAAPELMETPFARAYRILEVRPYNVKALKAWVRANDIGVLDIKKRG
+MAVTPEELRKQLLTGSGKGPNKATLVLTRIGEDRVAIVVEPVSFPVES
+>tr|A0A0P7GBL4|A0A0P7GBL4_9MICC
+MATVDPASRDDYIYNRLLKERIIWLGSEVRDDNANAICSQLLLLSAEDPEKDIFLYINSP
+GGSVTAGMAIYDTMQFIPNDVVTVATGLAASMGQFLLSSGTKGKRYATPHARILMHQPSG
+GIGGTASDIRIQAELILHMKQVMAELTAEQTGQTVEQILKDNDRDKWFTAEEGLAYGFFD
+KISAHAGGVTGGGGTNQDQDGEQG
+>tr|A0A0P7FFU0|A0A0P7FFU0_9MICC
+MRSTRHLGEYRAGNSMVHRAPLWLKAAVVVVVSGGTLFAARPLATAAAAALVAAVYAAAG
+LLRELPRPLRLMWPVLVLIAGFQLWHAGAASAVTVAGNIMVCVAAARLVILTVPVPQLLD
+GAVALVRPLRVLGADPERFGLALALMLRSIPYLLGSASDVRDSARARGLERNPRALAVPV
+VIRAVAYAQQTGEALAARGIGEPERGLKD
+>tr|A0A0P7FUL1|A0A0P7FUL1_9MICC
+MKKTSTFAALAAASALLISGCGGAEPEAAAAPTATSVEELYEAAQDEGQVVVYGPTEDLY
+AAVYEDFKAAYPGIEIVTSDIFGQELDSRLEGEQIAGGFAADLVHIGVSDVERYKEKDYL
+VPYRPFGTEDLDPAFIGPDEAWSVPSQHLYATAYNTKALSADEVPTTWDDLLAADLSGKI
+ATATPKQSGVTPQVLSAALEEGVIDEAWIDSFKAEANPKIFPSVANALQATVTGETNLAF
+VAGYGSYMRQVEQGAPLGFSAMTDGAYFSDVAYGVLDGGPNPNAARLLVAWMFSAEGQAS
+VAKHVFEFGTMPEAPLPAGADVIGDPVRLPYPGADGYRSTLQLLSTKF
+>tr|A0A0P7HCW0|A0A0P7HCW0_9MICC
+METLATALDAASASYAANDAAQRVLAGELRKRLAETAEGGPPRSRERHTARGKLLPRERI
+EALLDDGSPFLEIAPLAANGMYNDESPAAGLIAGIGLVHGRHVMVLSNDATVKGGTYYPM
+TVKKHLRAQEIALENRLPCIYLVDSGGAFLPLQDEVFPDRDHFGRIFYNQARMSAEKIPQ
+IAAVLGSCTAGGAYVPAMSDETVIVRNQGTIFLGGPPLVKAAIGEVVTAEELGGGELHSR
+TSGVTDHLAENDAHALEIVRNIAETFPDPRRAWEPVEAVEPAVDPRELYAAVPADLQTPY
+DVREVIARIVDGSSFHEFKKEYGTTLVTGFARLHGHRVGIVANNGVLFSESAQKGAHFIE
+LCDQRGIPLIFLQNISGFMVGRDYEAGGIARHGAKMVTAVATCRVPKLTVVIGGSFGAGN
+YSMCGRAYSPRFLWMWPAARISVMGGSQAASVLATVRRDALEARGEEWGSEDEEAFREPI
+RRDYDAQGSPYYSTARLWDDGIIDPADTRTVLGLALDVCANAPLPETSFGLFRM
+>tr|A0A0P7HNX9|A0A0P7HNX9_9MICC
+MDLFLGQRYRTTDLIGSGGAASVYRAMDENLGREVAVKVFRPSAQEDDDYRRQHTETLLL
+ATLNHPGLVTLLDAGLHHEEDEQVLNYLVMELVDGPDLRRTLKSGPLPAVSVASLGADLA
+DALGYVHSNGVIHRDVKPANILLYPQAEHDSRLYPKLTDFGIARMVEATVATAHGATIGT
+ANYLSPEQAQGGTVSPSTDIYSLGLVLLESLTGEKAFPGPIVEAAVARLLRDPEIPESLG
+SDWVELLRAMTNRLPEARPAAHEAAGALRLLAVEPEVAVPPASGDDADAEEVCTGGVTTG
+NIYIPLPPSHAPSLG
+>tr|A0A0N8HX33|A0A0N8HX33_9MICC
+MAWIILLLSAVLEAVWATALEASNGFTVLAPSIIFAVAAALSMAGLGYAMKHIPISTAYA
+VWTGLGAVLTVAWAMFTGTEEPGVLKVLFLAGIIGCVIGLKFVDNPAPVSAQAGGSPES
+>tr|A0A0N8HY69|A0A0N8HY69_9MICC
+MPRTGKPRARKTTPRQHSPTAAQRTDSSSAAARRVLRRLVQGETPPTQAMSIVERLAGSP
+YANPRVRSGGPDASARKTLDLALGMAETMFRYGAGALEVETAMIAVTAAYGLESIEVDIT
+NQSVLLNYSPKDQTPITVMRVVRSWTNNYAGLALVHRLVTDIVDGNVTRAEASQQLNAIV
+HKPKPFPRWAVTASAGLFSAAIVAFIGGGPLGSLVGFVSTILVSLLQRVLGRWRVPDFFT
+TAASGFLVTAVAMLFWWLDATDVADVDMAPGIVVAGGILLLLPTGRLVSAVQDAINGFPV
+TAAGRFLSAFLTFGAIVAGIAVALVAGALAGMPRLEVTEVASSQYPFAVTVLALAVALAT
+ISITEQSPANLVLPTVLIGAGGFLVSVASEAVGIGPRLTPAIAAIVIGMASRIVALRMGA
+PQLVIAVPAILFLFPGLSIFRSMYGLSIGLEDISNGVIGLFNALTVILAIAGGVVFGDNL
+ARPLTRNLNGNDRRNRRR
+>tr|A0A0P7GHV9|A0A0P7GHV9_9MICC
+MTDFSRVPGTPQSSNLPLLAALAADLQDAGYTVDGVAAFLGEEANAALGRDQLVPAMLAC
+REAAAAGTATAVAAAVALWLVGESVPVEQADEAFPRTGAAGLRELGLAEKDPAAPELLRA
+AVDLRPYEFETGSSAENASTHLWVASDLGEHQRPGVLPHGHVLGIGQASLSLAQLSLRAP
+ADRSLDLGTGCGIQVFHLLGHARHVTATDISERALGFTRFNLVLNAPSLGLDPEHLQDRV
+DLRLGSMLEPVAGEQFDQVVSNPPFVITPRVPGEEAEDRFTYRDGGLPGDGIVSGLFRDL
+ESVLAPGGTVQMLGNWEIQGPEDSKDAWNTRLRSWLPDTMDAWVIQREVLSPAEYAEMWL
+RDAAENRDRSEYAASYAAYLQDFASRGTTGIGFGTVWMRRRMDPKSAPLRRFEEITHPLE
+SPLAPHLAAAVERFDWTREHPDLAAEHLVVADDVTEERHARPGAEHPGVILLRQGAGLRR
+TNLMSTELTGFVSACDGELPAGAIIAALAALLGREDPEFGPALEEEVRNLVLDGFLLPAE
+Q
+>tr|A0A0P7GIW6|A0A0P7GIW6_9MICC
+MVKKMTFLAGIGVGYLIGSKAGREKIKSLWNDPKVQDTVNQGTEWAKQKAPVLQDKVTDA
+AKDAASSAKDAASSAKSSVSSSNGGSGSGSGSGSSGSGSTGGGSSAGASTVAGSSNPADR
+SHTSGGNYSMDPAKPQPDGR
+>tr|A0A0P7FWS4|A0A0P7FWS4_9MICC
+MTLQPSPHTLIGAHTNVYVEASSQVFEMELLGQSIRIEVEPTEYTFNYGDGTSYGPVSTS
+GGPLPEARWGEQTPTSHMYSQTGDFTVGITTFFSGQYSVNGGPMIPMDGRAEVASPSQLV
+SVWRAESRNVADNCLVNPAGVGC
+>tr|A0A0P7HM39|A0A0P7HM39_9MICC
+MTDAFLFPVSSVEATALSLLKDSDTDEYRPDLTADEIRLSFDRARTRLPTGSTESQMDEL
+VEHWVQKLTATGSSSEGGPLVKDDHIPWLQKSKADIVWRRWFAYRHMLSDAGRSGAVLDR
+LDHFSDEILDLAGDPRMTGFWNRRGLVIGDVQSGKTQNYLALMNKAADAGYRVIVILSGN
+TEYLRQQTHSRIDEGFIGRDTTLTGMHNGARVPRDVHIGIGNVDREIADATSLTTTLMDY
+LQVSRTAGDVALPTPTSPPLVFVVKKNTHVLKAVQGWAQAKAGSHQRIDLPLLLIDDESD
+YASVNTNDESDDPTAINAAIRRLLNLFTRSSYLAITATPFANIFIDDEATACLTEDGQEL
+PDLFPEDFIYPLDAPSNYVGVRAVFGRAPDEPGTQVQKLQDAVRWLPLKHKKLQRPEGLP
+SSLEEALRTFLLANAILDHRLKAPAKRSMLVNVSRFTDVQNHVADALREALFQYKTAIQL
+HAAAYAAGRTHPLLDQLKGTFTRQYSANGTSWESVLSALPVSVAEVRVKVYNSAPGIDHT
+EFDDEVPERQIAIGGDLLSRGLTLDGLVVSYFHRNVAAADTMMQMARWFGYRDGYQDICK
+LWISESTAGDYRFIATAVEELRVDLAYMRRSKMIPRDFGLAVQQHPQSLLITARNKSRHA
+MSAPKEINLLGRNLETTKLSTSVELQRENHTSIVKLLSDAVGNDCTVDTTRRGYARVRSV
+PKDMIADALLRFSAAPDDILFNGASLERMVRSSEGELFQEWDIIVVNGSVKRNAPLTLGP
+LSGCYPVERQMLLRPLFSKDGTSRGSSLWVSGKRGRLAGPDDLQKLLDQEIEQQASGRYM
+DALKELGQDAKKSIPETAFYGHLSKPQLLIYPVYISAGGQEQNRTIEVEDLAELPKDAVE
+SMRFLEEAQKQHLPFMALKVALPKTDYDPRGRNGRAKYLLNRVAQRYWVSDYEQLA
+>tr|A0A0P7FIK7|A0A0P7FIK7_9MICC
+MDIESYYQQQAAAVGALANAEGEFVATAFTRHCGEILTEAGEFDDIEVLDFEGSGTNQRK
+LKVNGYDLENADNSIAIVASVHYGTETIQTLSAPDAKAALRALHYFLLDALDGSFTQGRE
+QSSPAYQLAWDLRSRGRNVSRYRLYLMTDARLSDRLRSLPSEDVHGIPVDFHLWDVERFH
+QLHQSQSGHEPLQIDLTEWASQGIPALRVESTPEFATYLASVPGRVLSSLYGKHGSRLLE
+SNVRSYLSNRGKINKGIRATIHSAPQNFMAFNNGVTATATSVTTSEDGSALTSIEDLQIV
+NGGQTTASLFFVQRETKSDVVLDGVFVQMKLVVVAPELAAELIPNISRFANSQNAVSSAD
+FFSNSPYHVRLAELSRKVLVPSRSGAVHSTHWYYERTRGQYENERSKLSRSEAVRFENLN
+PKSQKFDKPALAKYLMSWDQRPHTVSAGAQKNFVAFADIVAKSWDKDPDQFNEQYFKQTV
+AKGILFAEVRNVIKNADWYRKAYLANIAAYTVAKIASLVEQQGQGKVFDFDAVWSAQAVP
+ESVLVVANQVGRLVQEVLTSEHRSTTNVTEWAKKAQCWDTVKAMHYTLPADFLSALVDAA
+TVAARGKAAKANQKVDNGIGLQTRLYEIPTEHWKALEGFAGMNRVASPTDMSILGLMTGR
+KSGVPSERQAARLIQLVANANERGFTLFSPW
+>tr|A0A0P7FP80|A0A0P7FP80_9MICC
+MDEAQIQEWVDQLTEALQGLRPLPQQQQPQPPEPGTWDFFVSTFSFAPVATLVIGAVAAG
+IAVGTLIQRRRSDARSEWWRRAEWALDARIHANSEMNRNGKSMLTALLSSKLAGKEERKF
+IREVTTPPPVADDPLSPEAQAFADAIKAENPEMSDEDALLLGRRAAAYYAESANSGVDDR
+DNDSDNGDTETEEARN
+>tr|A0A0P7GJL3|A0A0P7GJL3_9MICC
+MRDLSRPAWWTNAVVYQIYPRSFQDTTGDGIGDLTGIIRRLDYLRELGVDVLWLSPIHQS
+PQRDNGYDISNYRRVDAVFGTEEEFDRLLAEVHARGMKMIMDLVINHTSTDHEAFKRSIS
+SRDNVSRDSYYWRDPRRGFRGGEPGAEPNNWGSLFGGSAWTWHEPTQQYYLHIFSRHQPD
+LNWASTRVRNRIYTMMNWWMDRGIDGFRMDAVNYISKDQRFPDSMIQFGGVWGDGSPFFT
+SGPRVHEFVQEMMRAVFAHRSEDYLVVGETTGATVEEARLFTDPYRNELDMLFQFEHVNL
+DHGPGGKWDPRPVNLRDLKTSWNRWQRGLAERGWNSLYLSNHDQPRHVSRYGNDGAFRYE
+SATLWATLLHMQRGTPFIYQGEEIGMTNAGFTSIDQYRDVESLNYYADSTARGMNPETVL
+EILGHASRDNARTPMQWTPGPGAGFTEGVPWIGLGPRYSEINVEQDLAAPKSIFRYYQQL
+IRLRHELPVIATGDFQLLHANHPALFAFRRSLGEMNLAVMGNLSNRDLAVPEDLQKGELI
+LSNYGTGRQKTTLGPWEARVMDISGLP
+>tr|A0A0P7FZB1|A0A0P7FZB1_9MICC
+MSEDRPTEERHVPVLRDRCINLLAPGIEAAEAAGRTPVVVDATLGMGGHTEAMLERFPKL
+HVIGIDRDTQALALAGERLAAFQDRTDLVHAVYDEIADVVQDLGFNSIDGALFDLGVSSM
+QLDERDRGFAYSYDAPLDMRMDTSRGRTAAEIVNSYDEAELVSIIRRWGEEKFAGRIASS
+IVSTRAKKPFTTTGELVDAIRAVVPAAAARTGGHPAKRTFQALRIEVNEELDVLERAIPS
+ALSVLGVGGRIVVMSYHSLEDRIVKDIFAAGSRSSAPKGFPVELEEHKAQLKRLTKGTEV
+PTEQEIAENPRAASAKLRAVERIRATMDGAR
+>tr|A0A0P7FEG4|A0A0P7FEG4_9MICC
+MSTPLLEKDAVKAAALRRMKFIATGLLAVLGIIFVFAFAFQDRYPWLQYVRAAAEGGMVG
+ALADWFAVTALFKHPLGLKIPHTAIIPRNKDQIGATLGDFVEDNFLSDEVVKTKLDSIGI
+AQRAGAWLSRPEGAERVATEGAAAIRGILRVLDDEAVRDVLESMFRRHVVDVPWGPPVGR
+MAERVFEEGHHHQLVDLLVDSLNDWVHQNPEVVARLVAERSPSWVPSFLDDLVGDRVQVE
+LGRFLDAVQDDPNHQVRRSLDEYLRGLASDLQHDPGAMAKAERIKEQVLDDPRVKELMAQ
+TWATIKGALANAVDDPDSELTANFKSAVQDFGTRLVTEPELAAKVNAYVGDAAGYLVRTY
+RKDIAGVITETVERWDAEETSEKIELQVGKDLQFIRINGTVVGSLAGLAIFSVAHAIFG
+>tr|A0A0P7G0A6|A0A0P7G0A6_9MICC
+MIEPTSPRPDAATTIFNLPDYRVTGTEILACGQRRISVETTTEAGCPSCGVISTRVHSRR
+SQRLRDVPVAGPVEVQWVKRRFFCGEYLCPRRTFTEETAQVPRRARSTRRLREALVSAVI
+GSGRAAAEAASSFGVSWWLVQRALDSAALTLPDVDALAPRMLGIDEHRYRSVRFFRDPAT
+KAWKRYEPWMTTIVDLDTGQVLGIVDGRDSEGVGDWLFARPLQWRLGVQVVAIDPSAAFR
+KALRMWLPRTAVSVDAFHLVKLGNDMLTEVRQRLTQKVHGRRGRSIDPVWANRRLLLRAG
+DTLSDRARDRLSTVFATDDATGKLQAAWRVKEQLRALLATGSLADAAAAKDRLQALVEQS
+AQPETNRLWRTVCRWWKEIEVLIVTGATTAKVEANNTAIKHIKRTGRGFTNARNYKTRIL
+LRSAARTVA
+>tr|A0A0P7HGY9|A0A0P7HGY9_9MICC
+MVPSADPSGAPAAGGTNPGAPSASAADASSAPASAPGSVLAATGSAGALAIGAVAVLLLT
+AGLVLFFGGRKGRHA
+>tr|A0A0P7HNE5|A0A0P7HNE5_9MICC
+MSNLFGASSPRDLGRTLPRGELVGRYTAYLDAQKAVDYLADSKFPVHLVSIVGNELKSVE
+RVTGRLTYPRVAMSSAATGAWFGLFVGLALMLFGGGDSYLSLIPSMALGAIFWLLFGVLA
+YAFQRGRRDFTSTSQVVATSYDVVVAPEAANEARRLLSQLPMVGQSGHPAPQAGQPPFQQ
+PPYPGQPAQPGTAPERPSTWADPYGTRGAGRQDAPAGTGTPENSGAHAAPGQPVPGQPVQ
+GQPQPQPAQPSGTPRGQFPDLPDGRPRYGVRLPAAQQESPKEAPAPAGASQPKPGHGEQQ
+PVHEQPAPQDGGDSRTSGEGR
+>tr|A0A0P7GL19|A0A0P7GL19_9MICC
+MSEDRGFADEQSPRRLLESSVAYSGPIWDVVSEKFTLTDDGEPLVRDFIRHPGAVAILAM
+NEQGQILLINQYRHPVRMTLWEIPAGLLDVDGEDYLAAAVRELAEEADLVAEDWSVLTDL
+FLSPGSSREELRIYLARGLHEVPDAERHERFDEEAEIKMLWVDLDDAVKAVLEGRVHSPS
+AAAAVLAAAAARGNGYADLRPGDAPWPEHHSEHHAWPNGSVS
+>tr|A0A0P7GL84|A0A0P7GL84_9MICC
+MKVFRIGRTAAVLSVAALALAACGSDNATNAAAGTDSSASGSALTGTLSGAGASSQASAM
+DAWIAGFNESNPNASIQYSPDGSGAGREALLAGGVQFAGSDAVLKDEEVQASLETCGPDG
+ALHVPAYISPIAIAFNLDGIEELNLDADTIAGIFRGEITTWNDPAIAGQNEGTELPGTAI
+TVVHRSDESGTTENFTEYLAAAAPDVWTTEASGEWPAELDGQENAQGTSGVVSAASATSG
+AITYADASAVGSMGTVAVKVGGEYVPYSADAASKAVEASTPVTGEGRPELDMAMELARDT
+TESGAYPVVLVSYHLYCTTYEDQDTVDLIKAFGSYVVSAEGQAAAGEAAGNAPMSAALQE
+QAAKAIESIKAAS
+>tr|A0A0P7GTM5|A0A0P7GTM5_9MICC
+MDRLAKLSLSNRALIALITVFVAVFGVISLNSLKQELIPALEFPQISVITALPGASPEVV
+DAQISEPLEAALTAVEGLESSSATSRSSISAITLTFAYGTDLDRARGQVDRAISNARQAL
+PEDANPQSLAGSISDFPIVYLAVSSDQSLSELNSELQRLTVPRLQKIEGVRTAEVTGGSQ
+RHIAISPDQAALAALGASPSAIADALENSGALIPAGTVQEESRSLSIQVGSPLDSLEKVS
+ALPIEAEGATPGEAPPTIGDVATVEITDDEQTSITRTNGEATLAISITKTPAGDTVGISH
+EVLDLIPSLQDELGNGAKFTVIFDQAPFIEKSISDLTTEGLLGLGFAVLVILVFLLSVRS
+TLVTAVSIPLSLLVTFIGLLAFGYSLNILTLGALTIAIGRVVDDSIVVIENIKRHLGYGE
+EKRTAILTAIREVAGAVTASTLTTVAVFAPIALVGGLAGELFRPFAVTTSLALLASLLVS
+LTIVPVLAYWFLKSSKPVADPEAYRAEAEEREQKTFLQRGYLPILRGTQRHPVYTLLAGV
+LILGGTAALTPLLQTNLLGDTGQNTFSVRQELPAGSSLETTSAAAESVEDVLSGTEGIKD
+VQVTMGTSTSGIAAFTAGGASVANFTVITDEGVDQVALRDTVRRELEDLGEEAGTVSLGT
+QGGGFGTSNTVDIEISAGDPADLQPASEALVEAMSDLPGVAEATSNLASSEPVVQVSIDR
+AKAVAAGLDEQQVAGILASTLSPLPAGTVRLGTDDLPVLIGEGTEVTTTEQLAGIVIPTA
+AGPVPLSDLAVVEEVEVPTTVSSSGGERTAVVSVTPSGEDLGGPIAAVQAELENVDLPAS
+VTATLSGAATQQNESFTQLGLALLAAIAIVYVIMVATFKSLVQPLILLVSVPFAATGAVI
+LLLVANVPLGLPSLVGLLMLVGIVVTNAIVLMDLINQYRRPRDGEPGMNVREAILRGARQ
+RLRPILMTAMATILALTPMALGVTGEGGFISRPLAIVVIGGLISSTLLTLVLVPVLYQLV
+EGPRERRALAKEQAAKEEAARLRAEAAG
+>tr|A0A0P7HLA1|A0A0P7HLA1_9MICC
+MEGTGIDLEVVPVGVEDNGAMTIPDNHVQAGWYRYGPAPGADAGSSVLAAHVDSQTEVLP
+IAGLKDVAPGTKVTVTREDGSTVVYRTQQVENIAKRSLDGHRLFDRTGDHLLKLVTCGGQ
+WLDTENDYEDNVVLTATPVS
+>tr|A0A0P7GK82|A0A0P7GK82_9MICC
+MAGASVQGQTEDPAWARTLAHRTDPAERLDAALRFSDAGVSAAEVSSVLKDGGDALFAAA
+AAGRPGWAEPFGGLKAAALLAAELSALAAALNSRASGVRSAAVALLLEDYSAVSVARELG
+VSRQKVYEVSRSGFKPPYLDTVPWRRP
+>tr|A0A0N8HXV1|A0A0N8HXV1_9MICC
+MTNPLLPSRLPIAAAPMAGGPTSTALAAAVAAAGGFPFLAGGYKTPEALAQEISVLRAAG
+LPFGVNLFVPAPETVDEAAFRTYARALQPEADRYGLILSEHPVDDDDSWAQKLALLIQYP
+VDVVSLTFALPAASDIAALQAAGTKVLASVTTPGEAHQAQAAGVDGLVVQGPQAGGHSAT
+FDPARRIDPASTADLVKAVRAAAGLPIIAAGGVDGPAAVEALLAAGAEAVAVGTLLLLAD
+EAGTSPTHRAALTSSTFTETVLTRAFTGRPARALRNGFADRHGHHAPTAYPAVHHLTREL
+RQAAGKAGDADTLHLWAGTGWRSAPRRPAADIIAWLSGPEHTLQ
+>tr|A0A0P7HNI4|A0A0P7HNI4_9MICC
+MTDGSVYQRALGADFDRLQPELQDYFSLAPGEQRYGVGTGVFDVAGSPRPVLRPLMSALP
+VTNAFFPDYGRAVPFTIRNYAHLDPFGRSSLTAVRTFSFDRAERIFEDTTSLTSPAGLTD
+YVGRRRNLATDLQLSVSADGRLHMHSPHTRLFLGRLRVPVPVLAGADAHAEQWWDAESGM
+FRIRTLVRQRQLGTVFVYDGSFRYEYRDFDGVLPPDVEPEKWERRL
+>tr|A0A0P7FQD7|A0A0P7FQD7_9MICC
+MTSTDSKTPFYITTAISYPNGQPHIGHAYEHIATDAMARFKRLDGYDVFFMTGTDEHGLK
+MQQSADKEGITAKELADRNSAAFKQMEADMGTSYDRFIRTTDADHYAAAQAIWKRMEENG
+DIYLSKYSGWYSVRDEAYYSEDETEVREDGVRYSKETDTEVTWTEEESYFFRLSAYQDKL
+LALYESQPDFAAPRSRFNEVISFVKGGLEDLSISRTTFDWGVPVPGNPDHVMYVWVDALT
+NYLTGVGFPDTESETFKKYWPADVHVIGKDISRFHAIFWPAFLMSAKLELPKRIMIHGFL
+HNKGVKMSKSLGNVVAPKDWADQYGLDSVRFFLLREVPFGADGSYNHDAVVGRMNSDLAN
+NLGNLAQRSLSMVAKNCAGAVPQPGEFTAEDKALLEAAGKLLQVSREAYDAQDFHGALEA
+TWKVLGDTNAYFAEQAPWVLRKTDVERMNTVLYVTLEVLRIVAILIQPVMPGSAGKLLDV
+LGQPEGESRTFAALGTPLVPGTELPAPAPIFPKYEEPAE
+>tr|A0A0N8HXQ6|A0A0N8HXQ6_9MICC
+MVDNIAVTILSNEPVPASSLLTERLELAEMSAADVDALIVGTRCELWADDFPQGVDEDAA
+LQFFQAGLLGPRAGVFGARLIRERGGLVVGTIGFLGPPLDGALEVTYNIVPSRQNLGYAT
+EALIALSRFALSQPGVECVTAYTDEANEASISLLLTAGFMPVEFSGPAFAFVLHSKDQLP
+DAED
+>tr|A0A0P7GA43|A0A0P7GA43_9MICC
+MTALRKTGPLGLGDGYGRAAKMAALGVGIALFASACASGGDSGTDSSPSEDSSSPAANSS
+VLACPPSQGGTGEDPGEKGDASAVPASTGTTDAPLKLGTLLPTTGALAFLGPPEIAGVDL
+AAQEVNDAGGVLGQPIEIVHRDSGDTTTDIATQSVTDLLGQDVSAVIGAASSGVSKTVIN
+QITGAGVIQFSPANTSPDFTDWDDNGLYWRTAPSDVLQGRTLGNYIMECGAQTVGMIVLN
+DAYGTGLQQNIKSSVEAAGGQVVAEPMFNEGDSQFSSQVDAVTSANPDAIVVISFDQAKS
+IAPLLTGKGVDPSQIFFVDGNTSDYSGDLEAGTLEGAQGTIPGPFASENFKNALLEIDPA
+LKDWAYAGESYDAVTLLALAAEAAGSTDGAAMAAELQGVSSDGEKCFDYAGCVTILREGG
+DIDYDGYSGPITFDENGDPTEAFIGIYQFDADNKPVPSRSEVGKL
+>tr|A0A0P7GC46|A0A0P7GC46_9MICC
+MAPQSVRXXXEAGCPSCGVISTRVHSRRSQRLRDVPVAGPVEVLWAKRRFFCGEYLCPRR
+TFTEETAQVPRRARSTRRLREALVSAVIGSGRAAAEAASSFGVSWWLVQRALDTAALTLP
+DVDALAPRMLGIDEHRYRSVRFFRDPATKAWKRYEPWMTTIVDLDSGKVLGIVDGRDSQG
+VGDWLFARPLQWRLGVQVVAIDPSAAFRKALRMWLPRTAVSVDAFHLVKLGNDMLTEVRQ
+RLTQQVHGRRGRSIDPVWANRRLLLRAGDTLSERARDRLNTVFATDDATGKLQAAWLVKE
+QLRALLATGSLADAAAAKDRLQTLVEQSAQPETNRLWRTVCRWWKEIEVLIVTGATTAKV
+EANNTAIKHIKRTGRGFTNARNYKTRILLRSAARTVA
+>tr|A0A0N8HY19|A0A0N8HY19_9MICC
+MMAPAATELGFELRVLAENPDVSAVSAVAHAAVGDYTDYETLLAFARGVDVLTFDHEHVP
+GEHLKALQAEGINVQPGPDALLHAQDKLVMRAAVDRLGLPNPRWAAVASVADLVDFGKAA
+GWPVVLKTPRGGYDGKGVRIIDDAEAAAAAADWFTGSPLLAEEKVPFTRELSALVARTPA
+GESVAWPVVHSIQVDGVCDEVIAPAQDLAPETASAAADAALRIAAELGVTGVMAAELFET
+PGRGPGFLINELAMRPHNSGHWTMDGSVTGQFEQHLRAVLGLPLGGTGVLGGVVVMKNFL
+GADNTDLYRGTRLAMAAEPSAKVHNYGKAVRPGRKVGHVNVVGTDTADLPAVRRSAERAA
+AIIRDGREPNEEKA
+>tr|A0A0P7FU10|A0A0P7FU10_9MICC
+MARDEVFKKKEADVVSQRNEVVLAADDKDLGTVLGCDEGTVEDMRGMGYVESRGELWSVG
+PARDYLRDAAWADCLWE
+>tr|A0A0P7FG63|A0A0P7FG63_9MICC
+MRTSAGILLYRRTPEEAAGAAVEVWIAHMGGPFWARKEDHAWSVPKGEFTAPEPPLTAAL
+REFAEEMGWPAPEGEYELLGTFRQSSAKLITVFAAAADFPGREIRSNTFVLEWPAGSGNL
+GDFPEVDRAGWFTAEEARAKLVKGQIQVLDALLARLD
+>tr|A0A0P7G7D2|A0A0P7G7D2_9MICC
+MSYASSSRGLSSHRTSAQIAALVFGIIFLAIGVLGFIPGITTNYEALLFAGYTSEATLLG
+LFQVSILHNAVHMLLGFAGLWMARTNSSARTYLLGVGVLYALLFIYGLIVPLNGAGNFVP
+FNWADNWLHLILAVAMIVLGLVLGKDRSTDSSRGPSRGSPGEGSIPN
+>tr|A0A0P7GJW2|A0A0P7GJW2_9MICC
+MSTQTHTSGAKVSTRGLRIENANMALGDGESTVQALDNVSLAVEPGELVAVVGPSGAGKS
+SLLAVAGALATPDSGLVSVNGTDISTLSKAAKARFRLENIGFVFQSGNLIPALTASEQLE
+LIHRMAKMKGKFNAKQLLDAVGMGHKLDSRPDQLSGGERQRVGIARALVSKPTVLLVDEP
+TAALDRKRSQDVVELLARETHEFGVATVMVTHDHDVLHHCDRVVEMVDGRLAS
+>tr|A0A0P7FXQ1|A0A0P7FXQ1_9MICC
+MIIDYPGMTTSTPHAGSAVITLTRAALGLLFLAVIGGQIAAVFSAQAVVDSYPEFADLQG
+PLVTAAIAFGMCVQTVLVITGILAGHTRDGRIFGPQALRLVDVTAGVLVTATLLILGTLF
+FIPGPPALGLLILGCALVAATITLVLLVLRALLHRAAFMRVELDEVI
+>tr|A0A0P7GT51|A0A0P7GT51_9MICC
+MITAVELGLIYAVMALGVYLTFRILDFPDLTVDGSFTTGAAVAAISITNGVPPLAATAAA
+FGAGLVAGCVTGLLHTKGKINGLLAGILTMIALYSINLRIMGTSNLSLLREDTLITPLRE
+NGYLGGAVAIALFALLALGVKLFLDWFLHTDLGLAMQATGDNQEMVSSFGVSTDRMKILG
+LALSNGFVGLCGAMVAQYQGFADIGMGIGLILVGLASVIIGQAIFGSRLIVVSTLAVVLG
+AVVYRIVIALALDLGFEPNDMKLISAVLVVLALILPQWKLFRRLPTFSSLRKSTVTTAS
+>tr|A0A0P7HI99|A0A0P7HI99_9MICC
+MALFAAARQGRKDDVELGKGVWRRAHDRFTRGLDRYHQMLEGVEDDALYNELAVVANSLA
+ALLPRVRSVCAGAQKQLPSSGQDIPGGLIAVHRALSRSGNSLAAAAEAAAMSRLEGERWG
+IASAGVENVRRRAALVEEDVAEAERVLAASRP
+>tr|A0A0P7GUG9|A0A0P7GUG9_9MICC
+MATDYDAPRVKEEDQPTDSLEGLKAQQRGGAMTAVIDVEESDAIDGFDLPGADLSGEELL
+IKVVPAQADEFTCMSCFLVRHRSQIALEKKNGDKYCVDCEG
+>tr|A0A0P7HNA3|A0A0P7HNA3_9MICC
+MSIYSFHLAALPPLAAAGALLRPLKAPGLVHAEVFAGMELGAPIVSPRRMQLKRTAVFAH
+WEDERSLTDFLTGHPFGRKLDQGWHVRLQFLRRWGSVSEFSGLPESAESANPHEPVVAVT
+LARLRLPELPRFIRWGRPVETQIRDHPEATLAMAGIRLPRTVSTFSIWTSTRAMTGMVSG
+RDAGETGRRHTEAMTERERRDFHHEFTTLRFRPLSEHGSWQSRSDYIPWPAPSSR
+>tr|A0A0N8HXW2|A0A0N8HXW2_9MICC
+MALKEHLREFRNRLFKAAIAVVLGTVGGFFLYMPVFNELTRPVRELSEEQGRLATINFDG
+VATSFDQMIQVSVFIGVLVSSPFWLYQLWAFITPGLKTKERRAALGFLSAAVPLFLAGVW
+LAWLILPNAVGVLTDFTPEGAANVITASVYLAFVLRLLLAFGIAFLIPVVMVGMNLLGLL
+SGKTIVKYWRITVFIICLFAAMAAPGGDALSMFYLAAPLLVLFAVAVGLCFINDKRRVRR
+NAAREAAVSAEADKATSIQDL
+>tr|A0A0P7FYS6|A0A0P7FYS6_9MICC
+MTITTTEKSGTPQVAINDIGSAEDFLAAIDATIKYFNDGDLVEGTVVKVDRDEVLLDIGY
+KTEGVIPSRELSIKHDVDPGDVVSVGDQVEALVLTKEDKEGRLILSKKRAQYERAWGDIE
+KVKEEDGVVTGTVIEVVKGGLILDIGLRGFLPASLVEMRRVRDLAPYIGQQIEAKIIELD
+KNRNNVVLSRRAWLEQTQSEVRSTFLNKLEKGQVRPGVVSSIVNFGAFVDLGGVDGLVHV
+SELSWKHIDHPSEVVEVGQEVTVEVLEVDLDRERVSLSLKATQEDPWQTFARTHALGQVV
+PGKVTKLVPFGAFVRVEDGIEGLVHISELAVRHVELAEQVVSVGDELFVKVIDIDLERRR
+ISLSLKQANEGVDPEGTEFDPALYGMAAEYDEAGNYKYPEGFDPESNEWLEGYETQRAAW
+EQQYADAQARWEAHKKQVAQHNSEDVAAASDSVESSSTSYSSEPAASESAAGTLASDEAL
+AALREKLTGN
+>tr|A0A0P7FXW1|A0A0P7FXW1_9MICC
+MKRLRVLWNIIRVTGADVIFYGFLAVYACAALLLPLFEPAIPRVGDAFWYLFVSFTTIGF
+GDFVAVSVVGRLITVVVSLYGILVVALATGVIVGFYNALLRTRAKESLREFVSELERLPD
+LSREQLVTLARKVRERHLLE
+>tr|A0A0P7GDP3|A0A0P7GDP3_9MICC
+MSHAPKSRFHGVIPPVVTPRTADGAIDTASLEKLTKYLLDGGVSGLFILGSSGEVPYLTN
+EERDTVIRTVAGVNAGEVPVIAGSCEQTTARTIEEGRRLIGLGADAIVATSQFYAISDAA
+ETETHFRSLHAAFDVPLFAYDVPVRTHYKLPLPLLVQLAHDGVLAGVKDSSGDDVSFRQL
+LLATRGLPDFAVFTGHEVVVDGALLGGAAGVVPGLGNVDPAGYAALYSAAQAGNYAEAAR
+VQDRLAGLFDIVYTPTPGRVSPGAAGLGAFKTALMLLGVIETNVMSAPMAALNEAETAAI
+RTILERSGLL
+>tr|A0A0P7HUV5|A0A0P7HUV5_9MICC
+MDQQAIFIDAGFLLAVGGMQTAGTSLRSATTVNFEPLIEGIRKCTQEFSGLPTLRTYWYD
+ASKDALFTEQHKRIGMISGVKVRLGRMSVDGTQKGVDLKLGLDLVGIARNRGVNTVFLLS
+GDDDLAAAVEAAQDFGVKVVLVGFEDSSHRLGVTSVAEHLALRVDSIITLPAELVRECFT
+KQEKAPPLSPATAAVPALPMPSPGTIVGAAVLNGTVPKPKPGAAVRSGTSTLSFRPSQPD
+NSELVYSSERSVTGAGYEDSAMGAAYDVGFAVAESWYNNTTQGALRELVAERPILPPEID
+RVLLKDCASMIGEQKTDYQGIRKELRRAFWERLDQLA
+>tr|A0A0N8HZ15|A0A0N8HZ15_9MICC
+MKRATLEKRPDEVAAMFDEVAPKYDIVNDVLSMGQTRRWRRLVVDAVGARPGSRVLDLAA
+GTGTSSEPYADAGVSVVACDFSLGMLKVGKRRRPDIDFVAGDATNLPFEDNSFDATTISF
+GLRNVNEPKKALAEMLRVTKPGGKLVIAEFSSPVVPLWRTMYTEYLMRALPPIARKVASN
+PDAYVYLAESIRAWPNQDELAGWIAAQGWEDVAYRNLTGGIVAIHRAVKPADNPAVNPAD
+KPAEAAGA
+>tr|A0A0P7HMQ3|A0A0P7HMQ3_9MICC
+MASLLYRLGKFSFRHRWWFLSSWLVLLLGIGGAFAAFSAPTSNNFTIPGSESQRVLDEMR
+ERVPDVSGGSGRIVFETESGEAFTEAERQAVIDTVAELNGLDFLKSVSDPFEMQAQLDGS
+GEQLAAGQAELDAARAQLEAGKPQLDAAAAQLAAGREQLSLAQMQAGQLEAAGQTQQAEA
+MRAQLQTQEQQLQAGEAQLAEQQDAYDDGVAQLAAGEQELKDAERMAEATSGLRFVSEDG
+GTAFSEVQFQEQAYSVTPEQRQEVQDTANQITDSGVQVFYSKEIVEDVSSLFGPSEAIGV
+AVAAVVLILMLGTLVAAGLPLLMALVGVIAGVGTTMALTGVVDMTSISPMLALMLGLAVG
+IDYSLFIINRHRTQLLHGMELEESAGVATGTSGNAVLFAGLTVVIALAALAVPGLPFLSV
+MGLAAAGTVAMAILVALTLTPAFLGFIGNRILSKKAWAKAGITPPAAHAALSPQDRAAAV
+EHRENGNPRRWGRLVTNHPVITVILSVLLLGTMAIPAGSLRVGLPDGGSEPEDSTAYQAY
+QLLGESFGEGINGPVIVVGYLPDGVSESEASDMTYQVADSLRGLDNVTTVVPASTSEDGT
+MVVFQVIPEGGPAAEGTEDLVHTIRDDAAQIKADTGVEVAITGQTGINIDVSDKLMDAMP
+IYLLIVVGLSLVLLLLVFRSVLVPLIATGGFLLSLAASFGAVVAIYQWGWLGSIFDVHNP
+GAVLSFLPIILIGVLFGLAMDYQMFLVSGMREAYVHGEDPRQAVRSGFDHASRVVTAAAI
+IMVSVFAGFIFAHLTMVRPIGFALAIGVLLDAFVIRMTLIPAVLHLLGKSAWWIPKWLDR
+ILPDVDVEGAKLLNRTTAADRDDAEPELASAGR
+>tr|A0A0P7G4B7|A0A0P7G4B7_9MICC
+METLTIPDFTTDPFFGLEDAWVETAPGELTHYHELGEGTPVVFLHGSGSGVSAAANWWLN
+LPELSKHCRTIAVDLLGFGQTIEAPDSEFGIKAWVEHVVRILDALGIEKTWLVGNSLGGW
+VAFQFAIDHPERLAGIISMGTGGAPRTKALASHAKPTMTPDGIRQALLDFVVDPSLVSEE
+LVNSRYAAASREGATERFRAVVAARDIDRETLPLDMDVLSKLDIPVLLIHGREDKVIPMS
+RSLQLLDVIPHADLHLFSQCGHWSQVERAEDFNKVVASYLSTRG
+>tr|A0A0P7GJT4|A0A0P7GJT4_9MICC
+MKRTVPVVIAATAALALSACGGGSLSGDDSSSAAAGSSDLTALSVGVIPIVDTAPIWLGK
+EQGFFEDEGIDLDIQTTTGGAAAVPGVVSGDFQFAFGNVVSVMVANDKGLNLEFVSNGNS
+TTGDTTSDFGAVVVPADSDIETAADLAGKTVSVNNLSNIGDTTIRKVVENAGGDQESIKF
+VEIPFPDAPAAIEGGQVDAAWILDPFLTQSVDDGARVIAYNFAETHPNLDISGYFTSQQY
+AQENPELVEKFTAAMKKSLEYSQENPDAVREIVGTYTKIDEEMRAKMILPTFRPGFDREG
+LTVLGEAAASYGTLSKAPDLDAMLPAQD
+>tr|A0A0P7GI79|A0A0P7GI79_9MICC
+MIDKTVATAEEAVADIPSGASLAVGGFGLCGIPEVLISALHAQGADGLETVSNNCGVDDW
+GLGLLLGDHRIRRTVSSYVGENKEFARQFLAGELEVVLTPQGTLAEKLRAGGAGIPAFFT
+AAGVGTQVSEGGLPQKYDAEGLVSVASEPKEVRSFGGREYVLEESLTPDYALVHAWKGDR
+HGNLVFHASAMNFNPLCAMAGRTTIAEVEELVEPGEINPAEVHVPGIFVQRVVLTGPGEK
+RIEKRTVAQAKAAPATAAPETALAGEGS
+>tr|A0A0P7HVD7|A0A0P7HVD7_9MICC
+MSSSLTRQVKGLLGTKLGMTQVWDENNKLIPVTVVQADSNVITQLRNAEKDGYTAVQIGY
+GQIDPRKVTKPLAGHFEKAGVTPRRHVVELRTADADTYELGQELSVEMFEAGQKVDVVGT
+SKGKGFAGVMKRHGFHGVGASHGAHKNHRKPGSIGGASTPGRVFKGLRMAGRMGAVRHTT
+MNLTVHAVDTEKSLLLIKGAVPGARGQVVLVRTAVKGA
+>tr|A0A0P7G8S8|A0A0P7G8S8_9MICC
+MPAIVIVGAQWGDEGKGKATDLLGGRVDYVVKPNGGNNAGHTVVVGGEKYELKLLPAGIL
+SPNAIPVIGNGCVVNLEALFTEIDGLEARGADTSKLRISANAHLVAPFHQVMDKVTERFL
+GKRAIGTTGRGIGPAYMDKVARLGIRVQDIFDESILRQKVEGSLRQKNQLLLKVYNRRDV
+DTEEMVEYFLSYADRLRPMVIDSTFELNRALDEGKVILMEGGQATFLDVDHGTYPFVTSS
+NPTAGGASVGSGIGPTRINRAVGIIKAYTTRVGAGPFPTELFDDMGLYLQKTGGEFGVNT
+GRPRRCGWYDAVLARHASRVNGFTDYFVTKLDVLTGIEKIPVCVAYDVDGVRFDEMPMTQ
+TDFHHAKPIFEYFDGWTEDITGAKTLEDLPENARNYVLALEKMSGTRFSAIGVGPDRDQT
+IVIRDLISE
+>tr|A0A0P7HLU8|A0A0P7HLU8_9MICC
+MSILTLLLPLAGIIAAVILIVLIFRGSRIPVEDVQGRKRVNRWFWILGVFVAAVFVFLTF
+A
+>tr|A0A0N8HZ64|A0A0N8HZ64_9MICC
+MPGMAAGIDGLAVVIVTFNRSDYLQGLLESVAALDPAPARVVVVDNASTDGTASFLERIS
+GGFPVPLTVRTLTENTGGSGGFAAGIQTALDLGAKWLWLMDDDVVALPGAVAALGEWTGE
+YDCIHGRRFDEAGRPFFWQHRFIPVLGVHVPVRGNVFRDRPVFDTNVGCFEGMLINAETV
+RSIGLPDPRFFINGDDEIYGWLASLAHRVAYVNAFVLRKVRPQKQIDLGIRHLNDSSDLS
+RFCAMRNRGHTAGYLRAHGRFNRAGFAAGTALTAAKELLRLAVVERRLQGISSLWRGWRE
+SRAILKDSGWQPMPPLPQATSALGGTEK
+>tr|A0A0P7FZT2|A0A0P7FZT2_9MICC
+MEPVAADQSAPKTAGTTGTAGTGMVRVRGAEENNLRRVDVDIPRDAIVAFTGISGSGKSS
+LAFGTIYAEAQKRYFESVAPYARRLISQGHNPKVEQITGLPPAVALQQRRGTASSRSTVG
+TLTTLSNSMRMLFSRGGTYPADAEPGSLDSDAFSPNTAAGACRECSGLGIAHTVTEESLV
+PDPNLTIRQGAIAAWPGAWQGKNLRDILIHLGYDVDVPWRKLPRKDRDWILFTEEQPVVT
+ITPQRDRVAKPYKGRFWSARSYVLHTLADSGSAKMRERVLEYMVSGPCPVCGGAGLRPEA
+LAVTFAGRNIAELNGATLGELADIIRPTAELKAAGTASRSAASNEDTEVAVTITRDLLSR
+LEVLISLGLGYLSLSRATPTLSPGEMQRLRIATQLRSGLFGVVYVLDEPSAGLHPADAEP
+LLAVLQELKDAGNSVFVVEHNMDVVRSAEWIVDVGPQAGDGGGTVLYSGPVQGLANVAES
+ATRPFLFGEAEETVPARRRAERWLSLKGISRHNLKDLDADVPLGVLTAVTGVSGSGKSTL
+VSQVLAEAVGTQVNGVPPDALDDEETAESADPGVQVRRIQGLEHLDRLVKVDQRPIGRTP
+RSNLATYTGLFDAVRKVYAGTDEARARGYNAGRFSFNVAGGRCETCQGEGFLAVELLFLP
+GTYGPCPVCHGARYNEETLEVTYRGKSIADVLGMRVETAAEFLADVPAAARSLSTLLDVG
+LGYLRLGQPATELSGGEAQRIKLATELQRARRGHTLYLLDEPTTGLHPQDVQLLLAQLNR
+LVDAGNTVVVVEHSMNVVASADWVIDMGPAGGDDGGRIICAGTAEEVAACEASRTAPYLA
+AALKRIN
+>tr|A0A0P7GT42|A0A0P7GT42_9MICC
+MRIDLHTHSNVSDGTEAPGAVMASAAAAGLDAVALTDHDSTAGWGEAAEAARTLGLIFVP
+GMEVSCRTEDGISVHVLSYLHDPSHPGLLAEIAKSRSARVSRAERMVERLAEDYPISWAD
+VQEQVAPGATIGRPHIADALVAAGVVPSRSAAFAGILTGRSRYFVAHYAPDPAHAVRLIR
+DAGGVPVFAHPEASARGRVVGERTYLEMIDAGLAGVEIEHRDNPQDGRAYLRRLAAEHSL
+LVTGSSDYHGTGKPNLLGENTTSAEVLERITELGTGTPVVRP
+>tr|A0A0P7FY07|A0A0P7FY07_9MICC
+MSEADAVTEKNVAERMGFKDGDLIQEFGYDEDVDFDLREDLEELSGGELLTEDDHEVVDG
+VILWWRSDDGDLVDALVDSLTTLDDGGVVWVLTPKSGRDGYVPPADIEEAAPTAGLHVTT
+SPGVSQDWAATRLVSRRKK
+>tr|A0A0P7GI71|A0A0P7GI71_9MICC
+MAEHQPHSHPESEAPVDFREVQRSPQFQELRKRQRSFIFPMAVVFLVWYFAYVLLADYAH
+DFMSTPVIGNINIGLILGLLQFVSTFGITMWYVSYANRRLDPIASELRGELEAKGVSLPE
+ETK
+>tr|A0A0P7FAS4|A0A0P7FAS4_9MICC
+MLHKAAPAGSHPRIGRPRAGTRLPWLLGPALVAGVAYLDPGNVASNMTAGARFGYLLVWV
+VVAGNVMAWLVQYLSAKLGLATGRSLPELVGLRMRSTTGRRLYWLQAELVAMATDIAEVI
+GGAVALWLLFDLPLPVGGLITGAVSMAVLAIQGSGRHRSFEYAIVSMMAIIAIGFTAGVF
+IAPPDPAGVAAGLVPRFDGAGSVLLAASILGATVMPHAIYAHSALTRDRFPERAQSLTTS
+MLIRATRWDVTIALAVAGTVNLAILLLAATSLQGVDGTDTLEGAHAAIGGALGSGVALLF
+ALGLLASGLASTSVGAYAGAEIMQGLLKVRIPMLLRRLITLLPALAILAAGVDPTWALVL
+SQVVLSFGIPFALVPLLWLTSRRDLMGEHRNRWWTTALGVLVAGLLITLNVVLLYLTFTG
+GG
+>tr|A0A0P7GTS9|A0A0P7GTS9_9MICC
+MKYADERQSFSAAALARRQNYPSDMDGLLALYEETVARGQEDALALRTLQREFLEVRAES
+DQLRSELQTARSEVQRLKTELTKLRRSASLRLGKAMLAPIRKVRPAGQAQSLKHPVPQNA
+EGRTLAQAPGPSEPGWPGEQRMEREIRLEELLSDVRKEPSAANILRAVAHYYYVLGEIQA
+PAALIREHADALESLDAPGRRTVEAVLGQERLWRREPDIAPRQPNAGYLIERGRVMYCAH
+STGHFNSNGYSTRTAELVQGFLKQGVDVRVVARPGYPWDVPVDQPKPPVTRFTRDVLGVE
+HVFTPGPSWSNQPLDRYWLEAADVYVREAQRARVAAIHSASNHVTALPALLAARRLGLPF
+SYEVRGLWEITEASEKPGWEKSERFQLAKRLETLVASNADIVFAITEQVREELVRRGVER
+EKIQLLPNGVDTDRFTPMPASDELRLDLGLPTGVPVIGYAGSLVHYEGLSDLLGAVALLR
+DRGIDFHAVIVGDGPELPHLVARTDSLGLGDRVTFTGRVEATKVPDYVSVFDVMPCPRLR
+LPVTELVSPLKPLEAMAAGKAMVLTDLAPLREFAGADQGRALLAEPANPVPLADQLAKLL
+TNKALREELGKRARLWVVRSRQWGDIARTMSDSLLPLLHGEQPALPDQRDLKQISVGVIA
+DSFTTEGLRPEVQLTELLPGAWRDQLTQSPIDVLLVESAWEGVDGKWKQKVGYYDEERFS
+DLRGIIAFCNEQSIPTIFWNKEDPVHFNRFKRTAEIFDHVFTTDSGCIARYAESSSRNRT
+VASLPFYSQPKLHNPLPTDYPYEHTVAYAGSYYGDRYPARSAELAAILSAAKPFGLAIYD
+RQHLNEDSPYRFPSSLGPFVRGGLPYLEMVKAYKAHPVHVNVNSVDASPTMFSRRVAEIA
+ASGSVVLSGKGEGVTNVMAGLVHTVANSEEAHAVLSRWMKNETVRLRDAWLGYRLIHRGH
+TAAHRLAYMLRCAGMVVRAPEPPRYAVRLNDPSPDALRLLAAQTIRPTVVIIPDHYALEG
+SGLDFLTESEATPAMLERQGIRWIGEMPGEGTDRTVFEDLLTATTFGEWSEIGISAENGS
+GVGEGLLRYGTAPEGSPKLSSTVHGVDRINGKVVFRRYPAIDTLPAAQPRVSVRQRPDTT
+ILIAGHDLKFTSGIIRSLESEGHTVILDSWQGHNQHDEELSRQKLSKADVVFTEWTLGNA
+VWYSKNLHEHQRLVSRFHSQELFTDYPKMINTDRVEKFIFVGEHVKNIAVRDLGISLAKS
+IVLPNPVEALELAVPKDDDARFTLGLVGIVPAQKGLDRALDLLAALRAVDPRYRLRIKGK
+RPEDYTWMSARPDEMAYYESQYQRIEADALLRGAVTFDGHGPDMSRWYRDIGVVLSVSEF
+ESFHMTLADGGASGAAPVSLAWPGSDQIYPDSWLFPSVPEMAAYILRATRTTEEWKRHGA
+EASSWVSEHLSSKKVLPALTSVILGDHQA
+>tr|A0A0P7GBY6|A0A0P7GBY6_9MICC
+MAASGSGHRAGRTLCAVAGVLLAAGCAGSPSETGLSDRPESAAAAASPSAALPPPASSPA
+PEAAQRPSPPESLHIPATGTQSRLLHLGLRDDGSLDVPPEPPGSPAGWYTGSPAPGQQGP
+AVLLGHVNATGGGPGVFADLKSLKAGDVIEVGREDGTTAVFTVDRGEQYGKEGFPTLEVY
+GNTEGAELRLITCDGFDPATGEFEDNYVVYAVLDPGAGGAGE
+>tr|A0A0P7GHU1|A0A0P7GHU1_9MICC
+MTETKEIENAGSNFTQVLDAAAKLPGVRINRTAYLRTALKRHCTEEQIETAIADGPAAAG
+IPLKVITEIANTSIAYETSKVTGLSTLSGIPGGLAMIGTVPADLVQYLGHMLRIAQKLAY
+IYSWPDLFADAGEEIDEATQSMLILFVGVMFGVQMAQGGVMKVANLVAANVAKKLPQRAL
+TKGVVYPIVKKVAGHLSMKMTKNIFASGVAKAIPIVGAVLSGGLTLSTFLPMSKRLQKHL
+ASLELTKPGHRTEEAEVIDAEVIHQEAVRN
+>tr|A0A0P7HJM3|A0A0P7HJM3_9MICC
+MGAMDNLLGPAEVAVLHRCLAAAAPVHGLQKLMESVPALDPLSLRSRTDLLAGVLAGAYP
+SYAKASAAYRSALQDPGFEGWIMWPVSESAVTLALADGSSSAFDDVLELLAELTPRLTSE
+FAIRRLLQADLNRALDTVGRWVVHPDPRVRRLASEGTRPYLPWAIRVPALTERPRATLPI
+LDALRDDPSEDVRRSVANHLNDISRHAPEITVQTAARWQETASPATLRVIRHGLRTLIKK
+ADPNALALLGFTPAEITVEGPESPTTRLSLPGRMTFGCTLENTGSTAARLAVDYVVHYVK
+ANGQTAPKVFKLAVLDLAPGERRTLAAAHEFRQMTTRRHYAGKHSLQLQVNGVRYGGLAF
+ELELAEAADPSGQ
+>tr|A0A0P7GTN0|A0A0P7GTN0_9MICC
+MSASAVVARAVDSSPWAVPLRLTWLLNRPGTSGSAAAILPAASFAVVTTLLLTVLAGALS
+FTQWGDDEGNLYLLLAAFALILLVLPLLTLGGSAARLSARRRDEHLSTLRLLGASARTVR
+QVTVLEAAAQAFAGALAGVLGYVVFAPFVQLIHFRGAPLGSAYWLHPAAAVVGVAAVVAL
+AVVSSVISLRRVVISPLGVRTRADAQKVHWSRAGIAVLIVVLCVAALLTPVGAAALALAV
+LFGAFAGGLAVLNLVGPWLVTVSAKRRLRRAATPQALLAARIVLDAPKAAWRQVSALSMV
+CFTAVVAGAGAALLQTAQSEGPEDFLLQDVMTGVFITVIAGFLMVACSAGINQAATVLDR
+AELYRSMHRMGMPREVIDAARTGAVMQPVVLVSAASAAVSAVLLFPVTGAAILFNPVAMA
+FLAGCVVVGILLVRAGLAATSPVLTSVLERDVQ
+>tr|A0A0P7GA04|A0A0P7GA04_9MICC
+MPIDDVVLNFSPGSLVILNVVLAVIILGIALEVRPADFRTVARSPKAILLGIAAQYLLLP
+AVTVCIALALQVPASIALGMILVACCPPGGISNVLTHRAQGDVALSASMTAVSNLVAIIV
+MPLNVAFWAALSPSTDSLMRDFSLDRGGMLVQVLLIIGVPFALGMPLARRFPELTDRLRP
+WVQRIGLVALLAFIVAGTASNLGPLREHLGTIFLVVALHDAVALAVGYWAAAAVRLDEAS
+RRAVTFEVGARNTGLGLGLTLTFFSGLGGMAMVAAWWGIWDILAGLALAAWWRRRDARKA
+AKAQEAAL
+>tr|A0A0P7GNG7|A0A0P7GNG7_9MICC
+MPLVAGVDSSTQSCKVVIRDAETGALQRQGTARHAPGTEVDPETWWLALNEAAQAAGGLD
+DVAAVAVSGQQHGMVCLDADGAVVRPALLWNDTRSAGAAADMIAEAGPDGAQYWAETTGS
+VPVASFTAAKLRWLAENEPENAARTAAVCLPHDWLSWRLAGYGPGSGAEGLAALRTDRSD
+ASGTAYWSPATGEYLSSVLESTLGHVPVLPAVLEPLESGLTTPSGALIGPGAGDNAGAAL
+GVGAGVGDIVISVGTSGTVFAVADQPTADPSGLVAGFADATGNFLPLAATLNASRVLDST
+AGILGVSLPELTGLALSAEPGAGGLSLVPYFEGERTPNLPDAQASLHGMTLANYVPANLA
+RAAFEGVACSLADAFRAFTELGIEARRVILVGGGARSAAMQQTLSSVLGMPVEVPEPGEY
+VADGAARQAAAVLAGQWPEWKTQDSLTVDAPPAPQVLERYRAAADRQYR
+>tr|A0A0P7FZP4|A0A0P7FZP4_9MICC
+MPSTPVPGLPAMKRTKDQAIHIGARLEDRFHSYRMNAASKRGGVQTVLPFTGYGSDSWVR
+VLGRVVLAKPGKLSAPASGSVQALRDGVRGWRNFISPPVNDAVVCVRIGSEKHLVTADRG
+GVVDVVLPASLAPGWQTVSLLPEAEPDAEPVLSPVYIVDPAARTGVISDIDDTIMVTALP
+RPLLAAWNTFVLDEHARTPTPGMAVLMDRLVRENEGSPVFYLSTGAWNVAATLTRFITRN
+LYPAGPLLLTDWGPTRDRWFRSGPEHKRTQLERLAKEFPDISWLLIGDNGQHDEAIYSDF
+SRKHPQNVRAVAIRELSPSEAVLAGGRSAGRGTTPQDIPWIYAPDGAGMARQLTDRGLLP
+DAG
+>tr|A0A0P7GK36|A0A0P7GK36_9MICC
+MRGLAKRFGAKIAVNGINLDVPAGSFYGLVGPNGAGKTTALSMATGLMRPDYGQVWVHGV
+DVWEQPLAAKKLMGVLPDGVRLFDRLTGEQLVTYAGLLRGMDRDTVAERTADLLRALDLS
+ADAGTLVVDYSAGMTKKIALASALIHAPRLLVLDEPFEAVDPVSAANIRDILADYVSSGG
+TVIVSSHVMDLVQRMCDHVAVVAAGNVLAAGTVDEVRGGQSLEETFVNLVGGRSTSEGLS
+WLRTS
+>tr|A0A0P7GW95|A0A0P7GW95_9MICC
+MFRLPRRGSAGTGPAPFERQATVRTIPIEGTAQRFWDFPAATPAGPVVFMVHGFRGDHHG
+LLRLVEALPNNRVILPDLPGFGQGAVLPGTHDAAAYAGFVRSAFTALDLGPDTVLLGHSF
+GSIIAARTAAEHPELISELVLVNPICEPALEGPKGFTSKLAELYYLAAAKLPEKPGRALL
+ANPLIVRGMSVLMAKTRNPGLRRWIHAQHDAYFSAFASRAVVLEAFRSSISETVRDSAAR
+LRMPVLLIAADRDDLGSVPAQRRLAELVPDGELEILEGVGHLVHYEAPDAAAALITDFLD
+RRHHSA
+>tr|A0A0P7H5F3|A0A0P7H5F3_9MICC
+MGAARRIVFPILWLVVFAVIAAALFKLAFLDGMRAEAQTDVPSAQIQTATVQAELATITN
+TVEVQGSVLSDPGIPVRSTTDGTVVFIDAEQGQTVEKGQRLFQVRKLLEDQPVMPAADED
+DGPPPPAAPLYTYVDVTATAGGTLGTFTVLLNQQVTVGTEVASIDPGTFSVQGTLTPDQQ
+FRILNRPGTAEVALNGGPAPFACGDLTMGKTPAAAGGDGAAGQDGSAPGPQTPQGSGSVS
+CAVPGDVPVFGGLGATITITAGEASDAVTVPTTAVQGLVQNGVVWVVTASGDTEERPVTL
+GLTDGQAVEITQGLSEGEEVLLFVPGAEAPQDEQGMMYGPGVMGG
+>tr|A0A0P7FG28|A0A0P7FG28_9MICC
+MHELHRTLAAEWEAGRTAALATVVRTFDSAPRPPGAQMLVTGDGAVVGSVSGGCVEGAVY
+EQALDCIAGSGPVLASFGVSDGDAFAVGLTCGGTMEVFIEALPPAQSAVLGPAHAAVGSG
+LGTGIATIIEHPDPERLGRKLVVLPEGVLGSLGSPRADQAAADDAAGLIAGGRSGVLTYG
+PDGERLGTGMSVFVSAFAPPPRLLVFGAVDFASALSRLGAFLGYQVTICDARPVFATERR
+FPDAAQVVAAWPHVYYQEQLDAGLIDARCVVCVLTHDPRFDVPLLAAVLGGPAVAYVGAM
+GSRRTHRERLQRLAEAGISAEELAVLHSPIGLDLGARTPEETAVSIAAEFIGKAWGGSGI
+PLRLLDERIHHQERPLTARMDQPLPPAQVQTPGRRTGLR
+>tr|A0A0P7FHU8|A0A0P7FHU8_9MICC
+MRETAQDGHEVLLGMKKTGFGVGRIVTLGGHVEPGESPEAAAVREVFEESGVTITEADLE
+PAGTIEFIFPARPEWDMSTTVYRSWNWLGEPMPSSEIDPAWYPADAVPYPQMWEDSAHWL
+PRVLDGDYFAAAITLAPDNECVASVVFSST
+>tr|A0A0P7HCQ7|A0A0P7HCQ7_9MICC
+MPAGKHQSRTLAAGTILVCGVVAGCSGSPGETTGIILADANEPGQFNPVGGHGDSGQSQI
+YDGLLRLSPQDGSSALPELAPWLAEGMPESNAEGTQWTVHVRSGVKFTDGTDLDAGDVAA
+TYRAVVDPASASELATSFDMLQDVEASEDGTVTFTLKYPYAGFPSRLLLGIAPSERLTPG
+LAAESTLNTDPVGTGPYRLTSLRPGEAVLTANEDHWNGAPEVETVTIIHVPDDNSRAQRL
+QSGEIDGTVLPPLLAAQYEGKSGYIYEAVKTADWRGLSLPADSVFATDPAAVMAMNMAAD
+RQGMVNHVLGGRGKPAHTPVADIYGEAFDPDAVFDYDPEAAGQLLDDAGWLRGEDGIRTR
+DGERAGFEVAYNATDTLRRDLALAFASNMSELGVDVTLLGTDWNVIEERRGEVGILLGGG
+DKPYDLDTQLFETLHSPLEGGSPFANPGGTGSPEMDTHLEAARSSLDADERTKHYLAVQD
+LYIQDPGYVMLAFIDHNYVQEDQGWNNVQTVLEPHAHDVGWGFWWSLRHWTRD
+>tr|A0A0P7HDE8|A0A0P7HDE8_9MICC
+MYEGAVQELIDELGRLPGVGPKSAQRIAFHILESNAEDMSRLASAIVTVKEKVKFCQVCG
+NVTEQETCNICRDPRRDPTMICVVEESKDVIAVERTRSFRGRYHVLGGAINPIAGIGPDQ
+LRIRELLSRLSDEQISEIIIATDPNLEGEATATYLVRMLKTLGITVTRLASGLPVGGDLE
+YADEITLGRAFEGRRSLS
+>tr|A0A0P7FDM3|A0A0P7FDM3_9MICC
+MTPEQLTPTQEDLETLSRQLGRPVRDVVEIGARCVCGNPLVATTAPRLGNGIPFPTTYYL
+THPVITAAVSRLEAAGLMAEMTARLEQDPELAERYRQAHEAYLQVRNEIGERTGTGPVPE
+IDGVSAGGMPTRVKCLHVLVGHSLAAGPGVNPLGDEALDAIAEWWTRDRCYCEGAWDTNS
+PAPDRDLSRHTKTQGLSAEELDRKRAARRAALQAEEQQAREQEGTMEENAEGTAGDTVRV
+AAVDCGTNSIRLLIADARTENGVTRLTDVVRLMRIVRLGEGVDATGRLSDAALERTFEAT
+DEYAALIKEHGAEKVRFVATSATRDAENRKDFTKGIRARLGVEPEVISGDEEAGLSFAGA
+SSVLAGDKGARTLVVDLGGGSTEFVLGIDSEVLAARSTDMGCVRFTERHLVSDPPTDAEI
+AMARGDILDMIAQVLQTVPLATADQLVGVAGTITTVTAHALKLPEYSSEAIHGTELSVEA
+VDHASSSLIHMSRSERAALPYMHPGRVDVIGAGALIWQTIVDRMSELTDGRVETAVTSEH
+DILDGIALSTLR
+>tr|A0A0P7FPI5|A0A0P7FPI5_9MICC
+MDQGTNPAVPAVWEFMVTAMGAVILALTVAAVISLARDRTLTPGTKFLCLLGILGFPVLG
+PGVWFFHLYRVRRSRRVNQTEPAPPAANRQHQGR
+>tr|A0A0P7GKN1|A0A0P7GKN1_9MICC
+MAELVFFSGTMDCGKSTLALQMDYNHSARGRGGILFSRNDRAGNAMISSRLGLKTRAAEV
+RDTTDFWDEVIRSRSAGDRVDYLICDEAQFYSEGQIEQLARIVDEMDIDVFAFGITTDFR
+TRLFPGSRRLIELADRIEVLQVRALCWCGRRATHNARTVDGVMVVTGDQVVVGDVDKRSA
+DPAPEALFEPEEAGAAPVVGYETLCRRHYMRRMGAQQAARFAGMGEDPDVCALERPRS
+>tr|A0A0P7HH63|A0A0P7HH63_9MICC
+MLTHTRSEIALASGLAWTAGYVDAVGFLHLGGYFVSFMTGNSTRAGASVADASLSGFLQA
+FGLIAAFFIGVVAASTLRRTLSRHRRPAICLLSGAVLGAAWASTAVPGAEGVLAPALAAS
+MGLLNAVFERGGEVSIGITYMTGTLVKLGQKVTAALFGERGNGWHRYLLLWCALTLGSLC
+GGAGYLLLGLAALGPAIVALLSAAAASWGHPGHVNG
+>tr|A0A0P7HJW9|A0A0P7HJW9_9MICC
+MAFSDAEHTAMEQALQLACRGVRGANPLVGAVILRPSGDVLATGWHRGAGTPHAEADALA
+SAAAAGTDVRGATMVVTLEPCNHTGRTGPCSQAILRAGLARVVYGAADTNDDAAGGAAAL
+AAAGIDAEGGLLAGASRELNHRWAVATAARRPFLTVKTAQTLDGRTAAADGTSQWITSPE
+ARADAQDLRLRADAILAGTGTVQADDPRLTARDPDGSDAVQQPLRVVMGHTPVPGGARVR
+GADGRFLHLKTHDPAVVLAELYDRGVRHLMVEGGGTVAGAFLRAGLADELLAYTAPALLG
+AGTPAFAGLGIGSMAQIQRWRWDQAGGGAAVPVGPDLRLHLEPLPENDLRVRT
+>tr|A0A0N8HXS1|A0A0N8HXS1_9MICC
+MPEQDSGERSEAATPKRMKEVREKGQLSRSDDLTAWVGVGAAAAMMPTTIGRGADKGAES
+LMRVDSLMADPSPQAALRMFQDGLGGLTYVLGPMLSVVVVAVLATAALQGGIHFKKFKGK
+YEQFDVVKGMKRVFGGQAIWNGVKALLKTAVVGLVLYAVIQNLMPVLMTAGGMSISALIA
+EAGGGVATLLQFAVAAGLALAGADILMVMRRNRKRTRMTKKEVKDENKNTDGDPLIKSQR
+RSRQLAMSRNRMMAAVADADVVLLNPTHVAVALKYEPGKSAPRVTAKGAGTIAARIREEA
+ETKGVPMVRDIPLARALHSACELGQEIPVELYNAVARVLAFVMALKNRGAAAGVHTMAPD
+PASTVPAPQHRKAPL
+>tr|A0A0P7GTU9|A0A0P7GTU9_9MICC
+MKLVTAIVRPEKFDAIRGALESYGVQGLTVSQASGYGRQRGHTEVYRGAEYTVDLLPKLR
+VEVLAANEWVSDIVDVLVSTANTGRAGDGKVWVTNVEEALRVRTGERGDSAL
+>tr|A0A0P7FZD5|A0A0P7FZD5_9MICC
+MNPTQELVYNFQELLGQVPELLQPFILMLAAAVPFLESEAGAVIGVVGGLNPVLAAVAAA
+IGNFASVALVVFVTSRARTAVTTRVDARAEAAAAAAGGTSTLVAAPTAKPESKGRIRFKR
+WLVRFGVPGASILGPLAIPTQFTASILVAGGTSRRWVLLWQGVAIIIWTTISTVLIWSAL
+TFVVGV
+>tr|A0A0P7G0D6|A0A0P7G0D6_9MICC
+MPVAGFSTPVPIEGKTVRLEPLSADHVPGLIEGVRDGDLWNLWYTRIPTPEGMAAEVQSR
+LQQQAAGTMAPWAIRRLDTGALCGMTTYMNIKAEHRRVEIGSTWLAASAQRTGINAEMKY
+LLLTRAFEELDCIAVEFRTHWHNHASRAAIARLGAKQDGVLRSNEIWVDGSRRDVVVFSI
+LDSEWSSVRLGLKHRIASA
+>tr|A0A0P7HEE0|A0A0P7HEE0_9MICC
+MIALTHAPHDLVVGTTDGIDVRFAGVEFKDAPNYAGASAGKPSIHVHFSGVRGEETMSRD
+IRYERELEEWWKQRKAAGSERSEDPPQMPGVAVFEELTTVVSDDIGTEYQWSGGKSAGTR
+MEWDALRVYTPAPPAEAQMLRLEFSVGGELTGEYCEFSLSNPISADG
+>tr|A0A0N8HYY5|A0A0N8HYY5_9MICC
+MIFKAVGDERPYPDHGYVTPKDWAAVPPRQVRLDELVTTKATLDLGALLAEDSTFFGDLF
+PHVVQWRGTMYLEDGLHRAVRTALHQRTILHARVLVIDD
+>tr|A0A0N8HXV7|A0A0N8HXV7_9MICC
+MTRQQNRRSGRTRLFLAAAAAPLLLGSCGVVAELPTTSMPSSFGAASATEDHPMAVSAPA
+EETASKVVMPVYWLGLNGSDVQLYREFLPSENTGDPIGEAVHAMTAATPRDADYFTPWAA
+ASKVTASISSKNVITVDITSDAFKPSLDAGMAHRAVQQLVYTATAAAANAGLTAAGYNTS
+VVVLVDGKAGYQAFGHEDLEPALERDKTLPAPIWIISPQEGDGAETSVTVSGSAVARDEQ
+LSWSVDRVLNGRPESQPLKSGNIQLDAEAGETAMFEVVVELEPGEYNLRVFHGKGSNEDS
+KRITVY
+>tr|A0A0P7GJL6|A0A0P7GJL6_9MICC
+MIILNGGSSSGKSSIARALQEILPGIWLTFGVDTFIDALPAGGDSPRAGITFEQDGTITF
+SAEHRALERSWYTGLSDMARAGAHLILDEVLLSGGAGQDRLRSAFSDVELIWVAVRCDPD
+VAASREARRVDRVEGMARQQALSVHDGVDYDVEVDTTYRSTEGCARDIARQLSLEAFIR
+>tr|A0A0P7H420|A0A0P7H420_9MICC
+MRLGVLDVGSNTVHLLLVDAHPGARPVPFASHKRPLQLVSHLDDQGAITGAGQRLLVEFV
+AQARDFAVRHHAQDLLAFSTSAIRESANGPDVLEYVELQTGVALTELSGRQEASMTYLAA
+RRWFGWGAGSLLDLDIGGGSFEMAQGLDELPDVAVSVPLGAGRLTRDWLRDDPPSAASLD
+ALRGYIRGVVQEASSEFAEYGAPDLAAGTSKTFRSLARLTGAAPSAAGPYARRKLRRADL
+TGLIPRLAGRTAAQRSELDGVSVLRAPQVLAGALVAEAAMEAFNLKSLSICPWALREGLI
+LQRFDALRFDTLHLDPPGRLPAGHQSLTPEPAGALVLAAAGEPNGSAPL
+>tr|A0A0N8HXM0|A0A0N8HXM0_9MICC
+MIELILASASPARTKLLDNAGIAHRVMVSDVDEDAVTARYGLTDPHDTALLLARAKAEAV
+ASLPESEGALVLGCDSVFEFQGEAHGKPWEADVARERIRRMSGTYGVLHTGHWLVDCRDT
+DEDGSGATLGAVSSAEVHFAKLLDDEIEAYIATGEPLQVAGSFTIDSLGGAFIEKVVGDP
+HAVVGLSVSTLRHLLASAGVGVTSLWK
+>tr|A0A0N8HXV2|A0A0N8HXV2_9MICC
+MKSHEIARRWLDFFSRKGHTVVPSASLVTTDPSLLFTVAGMVPFIPYLTARETPPYSRAT
+SVQKCIRTADIEEVGKTARHGTFFQMAGNFSFGDYFKEDAITFAWELLTSPVAEGGYGLD
+PERLWVTVYEDGDERDDEARAIWRDKIGVPNERIIGTGKADNYWNTGQAGPGGPCSEIYY
+DRGPAYGLEGGPAVDETRYIEIWNLVFMQYQLSEVRSKTDFDVAGELPKKNIDTGLGLER
+LAMILQGVENMYETDQVRPVLDKAAELSGKAYTSAEDPSDPHHADDVKMRVVADHIRSAL
+MLISDGVTPSNEGRGYVLRRLIRRAVRAMRLLGVETAVLPELLPVSRDAMKGTYPEVETD
+FARISRIAYAEEKAFLRTIASGTERLEAAVQESKAAGKPLSGADAFALHDTYGFPIDLTL
+EMAEEAGLKVDEAGFRSLMQEQRQRAQADARGKKHGHSDMSVFNELLKSGNTVFTGYDEL
+ATESSVRGIVSNGQSVSYAGQGTEIELVLDETPFYAEAGGQAADVGLITGDGFVVEVSDV
+QRPVKGLTVHKAVVREGEISAGALAQAVVDAEQRHAAEQAHSGTHIVHAALHQILGPEAL
+QRGSFNKAGYLRFDFSWGEGLSDAAKSEIEEVSNLAIRSNHKVETKIMSLADAKALGATA
+LFGEAYGDQVRVVEIDGAWSRELCGGTHVDSTSRIGSLTLLGEQSVGSGNRRVEAFVGMD
+AFRHLAAERALVNELSEMLKVPSVQVPERVAATLAKLKQVEKELERLRRDQLAASAAALV
+GTAVDIDGVRLLAHDAGTVSGADDLRTLALDLRSRLGSEAAVTAVAGAANGRPVVIVATN
+EAARAAGVKAGALVKTAAGVLGGGGGGKDDVAQGGGSDAARISEALGAIRAAVANRG
+>tr|A0A0P7GAN8|A0A0P7GAN8_9MICC
+MREFVKLPRTVWSMVGFTIGWLIPLGIMRLVEGDGPRPVALALLLSGIALALIAFIHRAQ
+WRSSVRLADKRREDEERRRQAMAYQEELEARKREYEAFRCRNSPDP
+>tr|A0A0P7HF60|A0A0P7HF60_9MICC
+MPATAEETAVTAPAAETSAPTERDTLRPRAWARRASGTAAAAAPRVLMVAAIPDQAGEPD
+RAAASSAPRESVAPMPIPPRICPATRTASTRRWDRCAGAWEPVAGVLG
+>tr|A0A0P7G4B9|A0A0P7G4B9_9MICC
+MSRIWAIHPSVSLAGRVSVRGAVAALTAAALTLVAVPPPAAATTQDALANLSAVRTAPEP
+KFTPVEPSLPVIDSAVGRGDRLPTDPAGTVYLGSAAESHSAALVRLTVFEPAADLTAYTA
+ADTAVLHMGGSTAVSTAVLLPLNQGKVSLWADGEADARVEPLAYFDGSPASGGATLALPE
+PVLRADTAAGLAGNGLSQEPLWIGLTGDGGVSSVLARSVHVVLDVTLAAADTVVLGDGQR
+LVLPAGRTVVSTVVDAEDQGGVTAALETAGNTGTLRASVTGWVSEAIEDAAKANHHGSYV
+VNTEQRHTVRQRLAAGEEPSPVRLADDHDAAYALVLTQAGNVIGGQTTTLAWDGPVNGRA
+RGEAVDPTAGAQPQLALVPVANGESQVSIRRGSATLTLQPLGSFLGNPVPYNNADPASIE
+ITSPLDRQSLDLTETGYFTLEGTVSTGANSVDRIAISSPSVGFIGLAELNPAGDEILWSF
+RSLAPEDGDFDYVATVFDRSDPGTARASDRVRLTLDVAEEGDTVVSPEAEVFHLDTTELE
+FEVLDEFNLRFMQRPDLEPGDIIVSAPVPTAPSGFLGRLSSMDLVAGSWEVSTVEVPLEE
+LFLQVDIDETEGYGEGQDVVAEDLIAQAEDPLDVVTGTFAIGQESGGSGPDIPVADVQIV
+DGHGNPHVPAEGTYAEIVSGDDVDLELSNDEFNVPDPADFKTACRLPGTDGQEPLGEDIG
+DDGTWIAPGAPATGDGDCGGPLRGPGASLSADWTTKVDASVAFVVENGVPKIRTAGQKLE
+PWEFEAWSEKQRGDEGGVAIRGGGELNLGFAFVLKTKFQFKWKVIPRGVSIEEFRIEFKS
+KLKASASIQAWVQVESRWNADLKVAEVALPTTTFMAGPVPVAITNRLNFAMVFSGTLKAE
+ADIPAIGIERADTFGFVYTTANGMKRIKEDTPTTYVLPKPRQVLGETSFSLEGEVAAGPQ
+VSYQSRIYSFAGPDISLSAKAGFAAKLGVKGIPPTEAEIDASIFLALGLTGSAKLTLLRW
+DLLSLTIFQVGVRLNLFEYSEEWKL
+>tr|A0A0P7HW55|A0A0P7HW55_9MICC
+MTTSFDCSDTDSRSAGLAAAQQAIANRQCIVLPTDTVYGIGADAFSAQAVATLLAAKGRG
+RSMPPPVLVPRLQTMDGLAVDVAPEARALAEAFWPGGLTLIFHAQPSLTWDLGDTKGTVA
+LRMPDDEIALDLLALTGPMAVSSANRTGQPAAQTAAEAQAQLAESVAVYLEAGPRPESGS
+EGVPSTIVDATDFPLRVVRQGAISLEELRKVVPSLLGLGEEPGAQEHADAEPAAEAVEAT
+GVETEPASEPAETADAAAESRTAPQP
+>tr|A0A0P7FNT4|A0A0P7FNT4_9MICC
+MTIGLTPFSVSTHLSRVRSEPPLVQCLTNTVVTNFTANVLLALGAAPAMTDIPGEAGPFA
+RIASGVLINLGTPHAEQRMAMLEAATAANDAGTPWVLDPVAVGSLPVRTALAAELLAMRP
+TVVRANASEVMALAGLGAGGRGVDATDNPEDALPAAELLAAKHGCVVAVSGPTDVITDGE
+STLRISNGSALLTKVTGGGCALGAVTAAFLAAADEGGDLTATAAATAAYTIAAQQAAAVS
+AGPGSFAPAFLDALAALSAEDIENLLVAA
+>tr|A0A0P7G4E7|A0A0P7G4E7_9MICC
+MGGVEAAEPPSGKPRVPRRRRGKGAMAVQVMGELLITLGLVLVLFVVWELWWTNIEADRN
+QEAAMEELFAGFEPAPAAPAIPLPESYGDPAVLPAPETDGTTFAAIYIPRFGAEHARPVT
+QGVGTEVLDTLGLGHYPETAMPGEVGNFALAGHRQTHGQVLDAVDTLVPGDRIYVQTAQG
+YYTYVFRNSQIVLPDRVDVLAPVPTQPGIAPEERILTLTTCNPRFGSEERFISYAVLDSW
+QPASAGPPEEIAAVVSRNSAGQG
+>tr|A0A0P7GIW2|A0A0P7GIW2_9MICC
+MKTRTRAQGGAAASGLSSKGLKGGQVGLIGAVVIGISCIAPAYTLTSGLGPTISEVGVQL
+PAIFLVGFIPMILVALGYRELNNAMPDSGTSFTWATRAFGPWVGWMGGWGLIAATIIVLS
+NLAAVAVDFFYLMLAQVTGNDSLADLTLNLPLNIATTLVFVAIACWISYRGVETTKTVQY
+VLVAFQLVVLTWFSVAAFAHVAGGTAFDATQISWDWFNPFAVESFSAFAAGVSLSIFVYW
+GWDVTLTMNEETRDPDRTPGRAATATVFVIVLIYMMIALAVISFAGVGDGELGAGNPDNQ
+ESIFAVLATPVMGPFAILMSLSILSSSAASLQSTFVSPARTLLAMGHYRALPRRFGRISP
+AHKSPGYATVAAAVAAAGFYVITRLLSENALWDTITALGLMICFYYGITALACVWYFRRE
+AFASARSFLLKFLAPALGGVILFIMFIKTAFDSMDPDYGSGSSVGGVGLVFVLGMGVIVL
+GAVLMLIMYRANPGFFRGETLRTGDSVSAAQPESAPLV
+>tr|A0A0P7GJ78|A0A0P7GJ78_9MICC
+MIQVTGVTKQYAGKTVVDEVSCHIKEGGVTSIIGPNGAGKSTLLSIISRLLKSDAGSVTV
+DGLDVSSAPGKDLARKMAILRQDNHLTVRLTVRDLVGFGRYPHNGGRPTSVCREKIGQAM
+AFLDLTELADRFVDELSGGQRQRAFIAMVLAQDTDYLLLDEPLNNLDMKHSVEMMRLLRR
+LTDELGKTVVLVIHDINFASCYSDDIIAMADGKLLHQGPPSAIMQPEVLRDIYEIDIRIE
+EIEGNRIGVYFA
+>tr|A0A0P7GD01|A0A0P7GD01_9MICC
+MELKPASTPALQPFRWWEAFSRSLLHLYLRGPDGARQTWSVDVRHGGDTDGEVYAHFYRD
+GLHMARLKPPVLFPLPVGTIRIAVSTYGLRQADYVTHDGAVQPLVPDASSAEGLRAHLDR
+TRPGLSRLIGAASALVLLVSLALGVPQLLQSVTEFPPLAENIGTFASPILLPAWANTSLL
+LAGLAASTERALRLRYNWLLDGGLFSGGD
+>tr|A0A0P7H5D8|A0A0P7H5D8_9MICC
+MARGTAGWDESDVRIRPNKKGSRPRTKDRPAHEDAVTGRIITVDRGRYTAIVDEDTPRER
+IVTAARARELRRTPVVAGDLVGLVGDVSGSPDSLARLVKVNERATLLRRSADDTDPVERV
+VVANADQLVIVVAAANPEPRTGFIDRALVAAYDAGISPLLCITKADLKDPSELLANYEHL
+DLEVLISRTADAEDAGIDSESDDGLSARLAGGAVAALHEHLLGKVSVLVGHSGVGKSTLV
+NALTGSRRATGGVNAVTGRGRHTSSSALALKVQDAPAGSWIIDTPGIRSFGLAHVDPDRI
+LSAFPDLEPGTEACERGCRHDDDAVNCGLDPWVESGSAGAAGPARLASLRRLLGSGGLRT
+ENRAQAKELGTQ
+>tr|A0A0P7GJU5|A0A0P7GJU5_9MICC
+MKIEAKLFLLMAPFFAVVGVVYGYLVDWMEPVGFLALFLTAGMSLMIGYYLMFTARRVGM
+RPEDRLDAEIHEGSGEQGFFSPWSWWPLVLATACAGGFLGLAVGWWVLFISAGLAVVGLV
+GWVYEYSRGNHAH
+>tr|A0A0P7GJC5|A0A0P7GJC5_9MICC
+MTYVIAQPCVDVKDKACIEECPVDCIYEGERSLYIHPDECVDCGACEPVCPVEAIYYEDD
+TPEEWADYYKANVEFFDDLGSPGGAAKLGNTHKDHPMIAALPPQNQE
+>tr|A0A0P7FAJ4|A0A0P7FAJ4_9MICC
+MTAVPSTAAFVDRHIGARATETDAMLKAVGYDSLENLVDSAVPAAIRQDAPLVLNAARTE
+QETLAELRRIAAKNKTAVQMIGQGYFDTHTPPVILRNVVEDPAWYTAYTPYQPEISQGRL
+EALLNFQTMVQDLTALPVANASLLDEATAVAEAVLLMRRSNKAKSEGKIVLDADALPQTI
+AIVRGRAKALGFDVEVVDFAAGLPDGEITGVVLQQPGVSGAVRDFSGIIADAKERGALVT
+VAADLLALTLLTPPGEQGADIAVGSVQRFGVPLFFGGPHAAYMAVRKGLERSLPGRLVGV
+SKDSAGTPAYRLALQTREQHIRREKATSNICTAQALLAIVASMYAVYHGPEGLKAIALRA
+NGHARALATALTNAGIELASDTFFDTVTARVPGRAAEVVAAAEAKGINLRLIDADTVGVS
+ADETTTDAVIADVAAAFGAEAAEAAGFELPAELLRTSDFMTHPVFSSYRSETQMLRYLRR
+LSDRDLALDRTMIPLGSCTMKLNATAEMQAMTWPEFASIHPFAPDSQTEGWRELIADLEA
+QLATITGYDQVSIQPNAGSQGELAGLLAIRGYHHSRGDEQRNICLIPASAHGTNAASAVL
+AGMKVVVVGTAGDGAIDHADLRAKIDAHRENLAAIMITYPSTHGVYDDDVRDVCEAVHEA
+GGQVYIDGANLNALVGLAQPGEFGGDVSHLNLHKTFCIPHGGGGPGVGPVAAKAHLAPFM
+PGNAAAWDGGDDIPISASRFGSAGVLPISWAYVRLMGGEGLTAATKSALLAANYVAARLN
+DYFPVLYTGKGGLVAHECILDLRELTAKTGVTAEDVAKRLVDYGFHAPTLSFPVAGTLMV
+EPTESEDQGEIDRFIDAMIAIRGEIDQVAAGDFPVQESPLRHAPHTATVVAGNEWNRPYP
+REQAAFPLKTLRMDKYFPPVGRIDGAAGDRNLVCSCPPIEDFEN
+>tr|A0A0P7GWE9|A0A0P7GWE9_9MICC
+MNELIGVLDFWTVIQATALVSAVFGIVIVARACWDNTGLPALRDRYLELVSERADVLNNR
+TAGPGAHHAASYARRLTLAVADPRLGIRTSDASWLRQVNRLRQSRPGSSQRQRAAGALAQ
+LLKRPALVSEQAELVGAALRQVEPAVTSADSPKELAATRRLYSQSAGQLLRTGAARRFLG
+VFLPAMAKYLDFVGRGSALGLAVGVLLSGGLITESPVVGVLTTLCGVGGAIIYTGLAIRC
+DARSWPVRDGLPHALRRTYPEASFLLRLALTVTAVLLAVAIVRL
+>tr|A0A0P7GNZ8|A0A0P7GNZ8_9MICC
+MSTTSAPATSRRAVRTDGSGVNFARVMRSEWIKVTTLPSTVILLSVTLVVMVGLAALVAW
+SWATTAQMLADDPSMGPAMGVGNGMDLQAMVYDTPASGALFGQLLIAALAVVLVASEYST
+GMIRSTMVAVPTRTPALLAKAIITALVAFVIGVAGAFASFLISQPLLAPENLDFGLDAPW
+VLPSIINTGTLLAGIAIMGVATGSLLRSTAGGVVTIIGVLFVLPVIIQLISGLADWIPDA
+ARFLPSSAGSQLVATNIADGALNQLEGGLVLGGWAVLLLIVALIVTKRRDV
+>tr|A0A0N8HXQ4|A0A0N8HXQ4_9MICC
+MGVGTATETAAEPEFATEAERIAFWEDAARRLQWDQPWHTAHTFRPPQRVSGPDVPEADA
+EYSVPEIEWFAGGKLNVAVNCVDRHVAAGRGDKVALHAEGEPGDRRTYTYAGLQKEVSKA
+ANALLALGIEKGDRVVIYLPVIAETIIITLACARIGAIHSLVFGGFSAEALKFRVEDTRA
+KLLVTTDGQFRRGAAVPVKENADEAVSGDNAIEHVLVIQRTGCDLAWTEGRDLWWHETVD
+AASDVHEAEAFDAETPLFIMYTSGTTGKPKGLVHTMGGYLTQASWSYEYLFANPDEAARE
+ADVHWCTADLAWVTAHTYEIYGPLSNGVTQVIFEGTPNTPHPGRHFEIIERYKVTSYYTA
+PTLVRSLMGWFPDGVPDTWDLSSIRLLGTVGEAVNPEAWRWMRENIGRGEVPVIDTWWQS
+ETGATILSPRQTDTAFKPGCASRALPGVSTRIVDEHGANVPPNVQGFIVVDRIGPSMART
+CWGDPQRYLSSYWRQYAQQGWFLAGDGARYDDDGDTWILGRVDDVLNVSGHRLSTIEIES
+ALVSHPWVVEAGVCPVADPKTGHAIAAFVVLTDAASKDAETVTVELRAHVAKEIGPIAKP
+AAVVVVPDVPKTRSGKIMRRLLTQLFEGTTLGDTTSLQNEPCIPAIDAACRARRARSAA
+>tr|A0A0P7HD63|A0A0P7HD63_9MICC
+MRSIRYRWLAVITVFFGIAGWQVNAWATRNGFPAPVLNFTALLTLAFIVGFTLFLGLRVR
+RWRDGDREKPLDPIAAARTLVLAQATAYAGALLLGWHGGIFLDQLGLWEMRPNHGPTWAS
+LAISVGGVIMIATGLVVERFCRLPPEDKNGGEENNNGGEYA
+>tr|A0A0P7HD54|A0A0P7HD54_9MICC
+MLPASSAPDRRSAIKSRHRQAIVNACAALLSERRGTDFSVDELAQRADVSRRTVFNHFAS
+LDDVVTEVGTDVVASSLMLPEGTAPAGYSPLDDLVDLVSSPRFIEAVSYLTQVLGRADSR
+SSPQQAIMAFRSVTMAGDQVMAALVSRHPEADPEDIQLLVGTFAGGISVLYERWCAQTGA
+IDTPDSRTAWIELIQRLVAALRTGTGAGTPPSRS
+>tr|A0A0P7FEU2|A0A0P7FEU2_9MICC
+MAEDKYLPDDPHLREDISIPLPEPDNEDEHLAQDAGLPEESRVGPEFDDRHYTSGQLNAG
+QFAAGLSPDGEYAEKREEELESD
+>tr|A0A0P7FA82|A0A0P7FA82_9MICC
+MPNGMRVPGIYGVLHGEWYLANPLGHGRVLLYTSAEESPGDQWHPSDNSDDRGRPLSWSR
+EVAESDLERLVRVLVSAKWRSLSVGIQEYIDGTVFAFVDGGPKEEQIRRGEIPEITIAGR
+SDYHGKLRWEDITDLVMSERELLK
+>tr|A0A0P7H4N4|A0A0P7H4N4_9MICC
+MASAETADYGLLSPAWAGTRAAALTSDEALLQAMLDVELEWLRVLASAGLIDAHVPDAVA
+PACQAARYDIADLAARAQGGGNPVIPLLADLRAIVREEAPAAVGPIHRAATSQDILDTAL
+MLMSARALETILADAYRAQAGLAALARGHAETLSVARTLTQHSLPSTFGLKAAQWLHGIG
+QATAALESAAASLPLQWGGASGTMAALTATVEGTQASPLDLAAELAARLGLADPVAPWQT
+NRLPVTSLGTALADLLAAAGKVSNDVLLLSRPEIGEVSEPRAAGRGGSSAMPQKQNPVLS
+VLIRSAALSAPGYAAMLQAAAGAADDERPGGSWHVEWQALRQMLRLAGGAAAKLAELTSG
+LQVHTDAVAGNLSLAGPLVVSEKVMARVAPLLDAGTPGQGKKKVQELVSRSLAGEDFAAL
+LRSAVPAEALSDAEIKELLDPANYVGQSSALIERIISAYPGRNNA
+>tr|A0A0N8HX31|A0A0N8HX31_9MICC
+MSLIKDMLTSHPAGNSNVDMDALAACIEACFECVQTCTACADACLSEDMLGDMVTCIRTD
+LDCAEICGATGKVLARAGKDHASAVDLIRACAAACRRCAEECEQHASAHDHCRICAEACH
+RCAAACDALLLTIGS
+>tr|A0A0P7FZM6|A0A0P7FZM6_9MICC
+MKTLEQTQSWPAENVSAAVIAADGTVLGTAGDQQKRFPLASVTKLLSAYAYQVALEEEAL
+SLDDPAGPENSTVRHLLAHTGGYDFGDRTVRYEPGTRRLYSNAGFEVLGETLEHATGIPF
+ADYLQEAVLAPLGMKDSSLEGSPAAGAVSTAADLSRFAAELQNPTLISADSLAAATSVVF
+PGLAGVLPGFGRQKENDWGLGFEIRNGKSPHWTGQDNSPKTFGHFGQSGTFLWVDPELKT
+AAVALTNRDFGPWAAEAWPLYNDALVAELRSS
+>tr|A0A0P7GB53|A0A0P7GB53_9MICC
+MSDREPERNESTDEATWLDLVARLQETPDTDPRQHPPAPDQPGKQAEAPRTAPDTGTPPA
+AEPRTPAERTRAIFENQPLHRGRQQPASGPRDYIPEEDETDGTFIPEEPPPLGSGEPLVI
+LAWLGAAGGPLLLLLFAMFWRGAPMPVVLGIVAVFVTCAGYLLFRLPQSRDADDDGAAV
+>tr|A0A0P7G6Q6|A0A0P7G6Q6_9MICC
+MNNILMVVSAADSLTMKDGSKHPTGFWAEELVESHRTLLEAGHRITFATPGGKTPTVDRI
+SLQPDQAGGEEKAAHLSSYLEELRPELEAPMALADVAPLEYDAVVIPGGHGPMADLASDW
+DMGRILIAANDAGMLIAPFCHGPAALLSAETPETGFAFSGRRLTVFTNEEELNGGTGENT
+PWMVADALAEKGAVVDSGPAWESFVVTDGNLITGQNPQSSVDVARQVLASLPD
+>tr|A0A0P7GD84|A0A0P7GD84_9MICC
+MVYTYLGPEGTFTEAALLQVPGAAEAVRIPSTSVTSALEMVRSGHANAAVVPIENSVEGG
+VSATLDAISIGQPLRILREILVPITFVLAVRPGLELADIRKVSTHSHAWAQCRNWAELNI
+PKAEYLPASSTAAAAVGLQDDAAGFDAAICAPLVASRLGLNVIARDIGDISDAVTRFILI
+SLPGLLPEPTGADKTTVVIPLPEDRPGALMEILDQFSTRGVNLSRIESRPTGAFLGDYFF
+SIDADGHVSDARVADALKGLHRVSPELRFLGSYPRADHRRAQVLPHTSDAAFEAADQWLE
+SLING
+>tr|A0A0P7FP12|A0A0P7FP12_9MICC
+MHHEGGAHRRTPAVHAVHGTAVESEKGYSMTSSTTGRSTTRPLSILTGLLALFLVLLLAF
+FVLFTSQVASGATQLSEGAQRASAGAGDLKEGAAAAKEGADKVAAGTEKVDDGAQTLAEG
+IGTAKTGAKSLNEGAVTLNDGAAAASEGANKLATGATNAYTGASTLTDGAFSASDGANKL
+ANGATGAREGASTLANGAASASDGANQLAAGTTSAREGSEQIAGGTGQLVAGAEKLTAGA
+RQLESEMQPLVDGSAALAAGASEAAAGIEQLAAGGSRVSGGVQAVWDGINVPQDGQASSV
+AAQIAADYAAGAEMGAPGRPGGALRLEAAADRLEPYEPLLVPAGSADDLRLAAAKLQGLM
+ELVIGINQGLNEKELLAGSQQLAGGLAQLHVKAPELAAGADAIAAGAPKLQAGAGLLADG
+GAELTTGAKTLQAGARTLKTGLVTLEGGAQSLSDGNAQLAAGAGSLNSGLGTLENGAYAL
+SEGNAKLANGAGTLTSGLGTLETGAYSLSEGNAKLADGSGRLLSGSDSLNEGMGKLDDGA
+KTLKEGTTTLKTGAADLAEGNGKLADGTVTLADGNGEISTGADTMMERTSAMTPGELLRS
+PAILAILIPVALLLIPLALLLAGRSRRSQH
+>tr|A0A0P7GJS6|A0A0P7GJS6_9MICC
+MANKSFASRTYRDEGVVLRTHKLGEADRIVILLTRNHGQVRAVAKGVRRTSSKFGARLEP
+FMVVDLQLSHGRSLDIVTQAQTKGAYGAGIAADYARYTAAAAVAETAERLTDADGESANA
+HYPLVIGAMAALSRGAHPPELILDSYLLRALATAGWAPTFTDCARCGAPGPHSAFSAPLG
+GAVCPVCRPPGSASPSSETMELLAALLSGDWEHADSSGPQPRRESAGLVASYLQWHLERV
+VKSLQHVERV
+>tr|A0A0P7GTL3|A0A0P7GTL3_9MICC
+MTAEPHFPAGARAAAVETEGTMITSLRSYGLLGRSVAEAAGSFLLVLAGLGVSFFNPSGG
+LSAPLAFGLVLAAAMIAFGYISGGHFLPTITIGSALAGRTSWKSVVPYIVAQLVGALFAA
+LILWVSMTGHPQIPETQPFFAAVANGFGEHSATQFPVAGALLTEVIAAALLTAVFLGAGS
+RLASAAGAFAVGVTYAALLTFLVPITGGSINPARSTAVAVFAEPWALEQLWLFWAAPLLG
+AAITGLIYRSMDYAAPAVVAIIEDDELLAEDEDPAAEAASGASAAAGSEHDVRHTAADDA
+DARGFFESGEPGKAPESGSADADGDDPNGRPRS
+>tr|A0A0P7GS77|A0A0P7GS77_9MICC
+MAIPQPAPAAVRKPQLKRTLGLPSVVFFGLAYMVPLTVFTTYGIVTELTSGHLPAAYAVT
+MVAMIFTAVAYANMVRAYPVAGSAYTYVQQSFGASTGFLAGWALLLDYLFLPMLNYMVIG
+IYMGVAFPAIPAWIWVVAAIAIVTTFNVIGIRLVASANMILIAAQAVFILVFVVMSLGTY
+AGYAEPISPLAPFYSEGFDAGTIFAGAAILCLSFLGFDAVSTLAEETRDPRRIIPRAILL
+CTVLSGSIYLGLSWLGHVAFPDWMSFTDPDSAAVDVMVHVGGTFLSTFFTAAYVAGCIAS
+AMASQVSVSRILLSMGRDGTLPRGVFGRIHPRFKTPYSASLIVGAVSLVALVLSLELASS
+MISFGALIAFTFVNLSVIKHYAIDNGRRTGLDALKYVAVPAVGVALCLWLWTSLSATTFV
+VGLIWVGVGVLHLLYLTRFFRRPTPTLDFSETPAIPEDSRS
+>tr|A0A0P7GJ38|A0A0P7GJ38_9MICC
+MTTVAGLTLGIGLFLVWWSCWALPERPPKLRRAGRLAEMLSASGIRRVTPAGLVASSVLL
+GVLVLLTGWVLTGSLPIAACFGVFASAVPVSAVRWQAHRRSASLMELWPDAVDHLRSAIR
+AGLSLPEALIQLGENGPAELRTPFREFGADYRSGGSFEEALDNLKERLADPVGDRIVESL
+RLTRQVGGSDLGRLLGTLGEFLRENARTRSELLARQSWTINAARLAVAAPWLVLVLMSTT
+PEAVEAYNSAAGAAVLATGMVMSVGCYRLMLRIGALPAEKRVLR
+>tr|A0A0P7FZY1|A0A0P7FZY1_9MICC
+MTTSTERARHRAPVQRNNSLSALADAVSSAGNVGRQAAVIAAASGLVLSTGVAANAAGPE
+VSRDVQTSKLDLSSIPLQVPADAIGPDLTLTPVPGVTVAPEVAVQSQEVAVQATEETVQA
+APAANGTSTAAPAAAPVASPAAAPAAASGTAATIAAAAYAQLGVMQDCTMLATNALAAAG
+INFHDWPAGYLSLGRTVSAAEAIPGDLIYYADGGMGVAHIAVYVGNGQAVHGGFFGNQTV
+VAPAELGSGGVYIRVGG
+>tr|A0A0P7GA58|A0A0P7GA58_9MICC
+MSCRAQPPVKSHTAAAGVPRGEAESRRDAFRAASYPEKMKILPLAAAGFMAGAVAAAGTL
+AATAIHKDPRPSALFIRGVFSSGGKVQLRTLRKHVPSGGVRAHRSLPYLGRSGRQSMDLF
+LPMDTGDGPHPVVVWVHGGAWISGSKENVAPYLEILSGQGYAVAGAGYSISPEASYPQAV
+IELNQALGYLREHAGEYGLDPDRIVLAGDSAGAQLAAQLALIITDPDYAGRTGVTPAAAP
+EHLRGMLLFCGVYDLKTMSKLTGPLGWGFRTALWAYTGSKDWASTPAAEHMSIVDHVSAK
+FPPSFISGGNGDYLTEQQSKPLADRLEQLGVPVVRRFWPKDHKPALGHEYQFKLQLREAR
+MALAETLNFLDTVTGEKTVPVRSDFQATA
+>tr|A0A0P7H5I8|A0A0P7H5I8_9MICC
+MVAHLLKLKLILLRNSLRRSPWQIVGIVFGALYGIGILTLLIGALFFLGMSDPALARTVV
+ILAGSALLLGWGLVPLLATGVDMTLDPARFVTFAIPMPQMLTGLALGSLIGIPGLITLLA
+SLAQAFSWWAHPAAVLAGIPAALIAVMSCVVLARMTVAATTSLASSRRFKDVAGLIAIVP
+LVLIGPIFGTMATAFSASGNFLADLADGLAWTPFGAAWAIPGDIAMGNPGAAAARFVIAA
+AFLALITWAWKVLLARALVTPAHNATARRGAGKLGFFARFPATPTGAVAARALTYWIRDP
+RYGASLIIIPALVVVLVFTGIQGGEGIPPVVLGLGPLVAFLLAFGISADISYDNTAFALH
+ISTGVSGTADRAGRAIACAVFALPATLAAAVVPPVLIGQPEAIPVLLGLSLGLLLSGLGL
+SSVFSARYTYNVPLPGENAFKTPPGSTGRTMLVQFLWLAVQFVIALPLLVPAALYTFGAG
+GWWGWVTLVLGVLYGSAAMIAGIRIGGKWLDRRAPEVLLAVSVNK
+>tr|A0A0N8HXR5|A0A0N8HXR5_9MICC
+MAGRLSSATRRSAAIAGQILVYVLLWAGLVMLGAAGVIHFNWGRISVGQMLLNLMSVEPD
+GGGGSIVWTAILWIGVVPVVITLAAFLWQRHRRRSRRVNGGHLHAPRPNWIVRVVATFLV
+SAVVVGGTTAFATTVSLPDYIKAATSKYDVGDYYAKPSVSAGENKRNLVLVYLESGEQTL
+ADDELFEKDAFVPLKEATTADKGWQAIEDFQQYKGGGWTMAGIVSTQCGIPLKGTGLGGG
+NSSSGTDARNVGDGDVDTYLGGTTCLGDILQDNGYTNVFMGGASSTFAAKKTFLTGHGYS
+EVLGLADWRAAGEAEKDFRPDWGLSDERLMANAKDKVDELHANAEQTGQPFNLSVLTLDT
+HEPVHIYDYCTVDTENVVTSAFHCSMIQVADFVNHMEAQGYLEDTAVVIMGDHLKHMSAG
+DAFHEQLDHHANRTIFNRIWVPGGTETEPRAGVDQLSMFPTILEAAGLTVKDREAGLGVS
+AYSSVIPKDSAQALEPDLYADLLDSNSARFFAGAWAGEALAR
+>tr|A0A0P7HMS7|A0A0P7HMS7_9MICC
+MAQGLRSQAAGAALVLGAAAVCAALLALAMVLAPRDGIDFRVYVAGGQTVLKASGELYSV
+GIPNPPNPSLMFTYPPVSALLFAVLAPFGDVIGFNIFFGLSLALTALTALWLVAHFSGSG
+SVRAVLRGFWLRPAAIVAFGLIAALGPWRDTLALGQINIILFALVMIDFLNRSEQWPRGL
+LTGVAAGFKLTPLAFAFYYLVRGDWRGLRNMAFGFLATFGLGFLILPRESKTYWGELLPD
+TSRVGGGAYVDNLSFRGALLHFAGPDADVTAPWLLLCLAAAAAAAVIIRLATLAGMDLLA
+LAAAALLMLLASPVSWSHHWVWVAIFLPLTAAAVQGLPGRRRTMRATGWILLAATTVIFY
+LTPKGIATLLGAGDLDSQAPGLWLMAASAGVFCGAGLLAWFLVLLWPARPRRWWRAAPVS
+GDIQVPRT
+>tr|A0A0P7HPW9|A0A0P7HPW9_9MICC
+MTVVDSQQVPANPAPDDEPLSSLAMAASNLEAQQWAVDRAEQVLTELVQSAVSEGLETGS
+IAAVAGMTTEEIEKISAEGTAS
+>tr|A0A0P7GAZ0|A0A0P7GAZ0_9MICC
+MERRNFLKLALAGAGAASLTAATGCGLTGGAAASGDKTIKIIATESAPYQEPTKIAAELL
+KAKGWTLEATYVTDIIQPNLAVSNGEFDANYFQHGAYLQQFNVDQKLEVQPLFYVYGSPA
+GIWSERYSSLQELPDGARIALPVDPANNGRGLVLLRDAGLLELKDGVGVIHTSQESITAN
+PKNFEFVEVDQQSLSKTLPDVDAGVLFVRLAAEIGLSPADALAFEAEADQVPFRCVVAGT
+AEFADTEKAKVLQEAYQSPEVREWFAGYMGGVLPTPWDADPLEELDSWWQA
+>tr|A0A0P7H653|A0A0P7H653_9MICC
+MERIVDELLRAMYGAASPMIVAAPRGSVKTEDAGQSPGNPPELQVNRKGSGAGSPALALP
+>tr|A0A0P7GTH2|A0A0P7GTH2_9MICC
+MSLSGMAAALVEAWTELRIHRARILLALVGVALSVAALTAVVALADMARAAMAQGSEAQS
+GRPATVSVSAYPNDGSPADTAALREAYDATVERYSVKHASLFFPTVIPFQFPDGVVQIQT
+SVVDVDYGTMRRVKLDSGTWFTEADAERFAPAVIVNEAFHARLGYPDLDADPVVEIRNGS
+HPVDAVVTGVRPNLYPEESASAYLLTGAYDRLGTADNGSVPMLELWVPEDTAEALQHAIT
+ADLAAQFPGMQPNVYRSDYAAWGDPYAVMTLVVGGIAGMVMLLGAVGLLNISMVTVKHRV
+REIGIRRSFGATSGRIFFGVMLESVVATFAAGVLGVMAAVAVVKLPVVQQQVAFGVTELP
+PFPVEAALLGLGAATAVGALAGLIPALVAVRVKVIDAIRY
+>tr|A0A0N8HXT6|A0A0N8HXT6_9MICC
+MTQAQSLRLADPQVTADLRNFVSRARSADDGAVRLQAVGEVLAAYVCVLRPRVLGEAMPT
+VIGMRAMPLGVPAELDTTVQLSAVADRLARLDSGDTELPVPPMTVSESWAGIAAPRAGWQ
+HEAEVEVSLLEQAAHRGIKEVAARIPGNPGAAMVNNVRVPIWSEPIAGLAAELPAGAAFA
+ALTLGFLPKSGTASLFSNGRWLRLSTSTGHVLVRPPSVLF
+>tr|A0A0P7FX18|A0A0P7FX18_9MICC
+MDMREQILILRRNWMLIVSFALSGLIAAAVVSVAMPKAYTASSSLFVSTQNVDTSAELQQ
+GSAFALARVQSYVNLASKPQVLDPVIEELELNTSSAELAKNVKASTSRNTVIIEIKAVDS
+DPQRAADIANGVVSSLILAVADVERPTNGTPSPVRLTSVDTAQAPSAPSSPKTSLNLALG
+LLYGMAAGLAVAVLRNVLDRHVRTEADLRRSTSLPLLGGITESEAPKGSSAPFVLGGSGT
+DAFRQLRTNLEFAAVGHAMKSLLVTSAQAGEGKSTVSLNLALSMAQSGRRVLLVDADLRL
+PSVADATGLEPSVGLTTVLVGRTNLSDATQHWGNAGLSILTSGPLPPNPTELLASSTMQK
+LIGEMEAAYDVVIFDAPPVLPVADAAILTRHTDSLLLVVGARKVSQHNLSKAVEQLNLVK
+ANVIGVVLNGIPRSGPDANSAYLTDYGAVPASPLDGEQHSGRPSSPIAEAAEVVNGDRGR
+NSRRKQAVKN
+>tr|A0A0P7FDS4|A0A0P7FDS4_9MICC
+MDNINATADVDANAQIGTGTLIWHLAQVREDAVVGANCVIGRGAYIGPGVRVGNNCKIQN
+HALVYEPAVLGHGVFVGPAVVFTNDTYPRAVNPDGSLKNAEDWNPVGVEVSEGAAIGARA
+VCIAPVRIGAWATVAAGAVVTRDVPAYAVVAGVPARQVGWVGPAGHPLVPGSSDGEWTCP
+LTGALFRVHDGALAPISEHVSDPAALTFGD
+>tr|A0A0P7HE58|A0A0P7HE58_9MICC
+MSIAAQPRTTRNRENAVTSSYSTLLKIIRDEGLLKRRRAFYITTFVFLCAGLIAAGTGFF
+LIGESWFQLLIAAALGILFTQLAFISHEASHRQVFESGPANDRAGRFLANAVVGISYQWW
+MNKHSRHHANPNTVGKDPDIEMDTISFQVEQAETRKGLMAWLTRRQGWLFFPLLLLEGIN
+LHATSIRHLFSKNKVKGRYTEITMVFLRLGLYVAAVFFFLPVGMAFAFLGVQLGVFGVYM
+GASFAPNHKGMPLIPRDSKIDFLSRQVLTSRNIRGRGMNTFMGGLNYQVEHHLFPSMPRP
+HLARASEIVKEHCAKHKIPYTEASLTESYAIVVRYLNRVGLSARDPFDCPVRAQYR
+>tr|A0A0P7FY31|A0A0P7FY31_9MICC
+MYPSQVRVRRIYAEPDGGFRVLVDRLWPRGVSKARADLDEWFKEGAPSTELREWFGHQPE
+RWQGFVERYTQELEDNDAVADFAAACASRPDTVLLYGTRNEQENEAVVLRDYLLGRNFT
+>tr|A0A0P7GL58|A0A0P7GL58_9MICC
+MALSASTTLPYDAATLTKTFTDEGFVRSISEHVGGTLVSLTVDGDTSGPFKLTAVRQLPT
+DRLPDMAKKLVGSSLTVTQKESWDAPAADGSRTASIDLSVGGVPLKVSAVQRLVVLAEGT
+RVDVEGSVSSSIPFLGDKIAKAAEPMIGKALTIQAAQAGKWIENN
+>tr|A0A0P7GJ75|A0A0P7GJ75_9MICC
+MAVPGYDISVEACRGILNTVGTDPGPEAAHRELSAAVDQALAAMPSPSIASALMELWNST
+LHVQCEAAQARVHNAVTGVGSAVDAYIAGDLEMAEEARRAATQAPDLELDDVKSI
+>tr|A0A0P7FZ62|A0A0P7FZ62_9MICC
+MPPVAGASARLRIADLPERGRAHSSGYVESVTLVPADAAPRFTAVLGDLQGAYRDPAAAQ
+ARRRVRLVWIGQRRIPGIVAGTQVAFEGMVCSVGGQPTVFNPRYEIIGRPEGQL
+>tr|A0A0P7GJ11|A0A0P7GJ11_9MICC
+MRGIILAGGTGSRLHPITMGISKQLVPVYDKPMIYYPLSTLILAGIKDILIVTTPQDTEQ
+FQRLLGDGSQFGVSLSYVEQPSPDGLAQAFILGADHIGDGPVALVLGDNIFYGPGMGAQL
+RRFSEVDGGAIFGYWVQDPTAYGVVEFDGEGRALSLEEKPAQPKSNFAVPGLYFYDNEVL
+EIAKSLKPSPRGELEITDVNRVYLERGKLQVEILPRGTAWLDTGTFDSLNEASNFIRTVE
+NRQGLKIGSPEEVAWRMGFLTDDELLVRAEKLAKSGYGNYLSGLLQHGR
+>tr|A0A0P7HG59|A0A0P7HG59_9MICC
+MAGTAAAAVVIAAGITVPLVLNNDDSDPADAAGVTVIEDRPDPLPSAPEFTYYNQIGPPP
+GSPLNAVEPLSLKIDAETSGTSLPEGLVGLSLEATDLADPALSGDNPEMVQSLTGLGKPL
+LRFGGNAVDRRFFWTSAGEPLPGNLKGDKAHPVRAVTPADLERVATLLEAVDGTINLTVD
+LGNYDPARAADMAAHASRIFGGRLAGITVGNEPNGYPTNGLRDPSWTSDDYLKELKAYAD
+AIYAAAPEVKIIGPGVYTQPWWEPFTKVDLPQEKVFSFHHYPLSVCDGKADPYGEPTMEN
+LVSQRIHDHGNGYREAALEPANAAGLETWITEAGVSACPGSNETTKTHASALWAADYALS
+GAEMGISRLSYHSSLITCQGGPPMSAICTGGEYLQPDGTVDERANYFGLSMVAEMAPGQF
+LQREENGGGLSHTYAVHHEDGSVSVVIINANNPETDAQMEVTLELPARPLTAAMSQMTGP
+SYTSEDGTMIDGGRGEAVPVAERLTLPGFEYGSTTQKFSLTAGTVTVLNFTFQP
+>tr|A0A0P7GAQ4|A0A0P7GAQ4_9MICC
+MSTRPASGAPRWRRKSTVVLGTVLLGAAAFGTTTRTWLDVVLPQAAVETPDIAVAGSEAA
+TAVTAFAVVALAAALAASIAGKVARWVISVVLLVAGTGVAYASAAVISDPEQGAAGAVGK
+AVGVSGSAGAEVTLTAMPYLAAAAGVLIALAGVWLAVASRTWPVSRRYAAQPATGAAEKT
+ESTQPPIDDIDSWDRLTKGEDPTNFR
+>tr|A0A0P7HV83|A0A0P7HV83_9MICC
+MGPGTVVGGRYRLQERIGSGSMGSVHRAVDELLGRDVAVKLIASRARTEEERSRNEAEAK
+VLSQLNHHSLITLFDAGTEVSPSGTSIVWLAMELVQGSDLSRRLATGKLPARQVAHLAYD
+LAIGLDYMHRGGIVHRDIKPANILLFDYREDETRLRAKLTDFGVAQMAGDPNPQGEEFTG
+TAGFMSPEQVRSEPAGPHSDVYSLGLVLLRCLTGERAFPGLAVESALARLFRGPEIPDSL
+GRQWAGILRAMTALDPAERPSAHEVSEAMQDLATAGRGRRSMAAGEDPERVRAAEELGAA
+SEDEADPILDRITALTARVLGVPVAAVSIVGGEQVWTVSGSGASRGSTDQSGSLCPVTVR
+EDNLFIVDDVQKDPRTSDNPLVAASPGFGFYAGVPLRNANGLALGTLCVMDRRARSLTGE
+QEATLRDFAALAADVLQLRRDARDARHAAEFLNGEPAVAD
+>tr|A0A0P7HW12|A0A0P7HW12_9MICC
+MSDCQSLGDCDDARIERLYEYLDGALSHKDLVEIKEHLEGCPECAEEHDLECVIRSVVKR
+CCTEEAPQTLKASILARISQIQSVDH
+>tr|A0A0P7GM20|A0A0P7GM20_9MICC
+MAAVLSNFTQHVLLEPAQRQGPQRISGATIIPAGHDFGVQNQLAILIRKFKAEMSRSTNR
+LNSTASKAARFRHSEC
+>tr|A0A0P7FX94|A0A0P7FX94_9MICC
+MNMNDARQASAPFERVGRREYGYNVRQVDDFLTKARNYYNSETPGAKVITSRHVRSMAFD
+PAKGGYEAQAVDAALDRLEDVFAQRERDRLIQEKGEEAWLLQIGRTSAVLRARLHRKPGE
+RFRRPTKKRAHSYNVRDVDALCNELLGYFEHDRPLSVDVVRRAVFREAKGDAGYEETQVD
+AFLDRVVELMAAID
+>tr|A0A0P7G9L8|A0A0P7G9L8_9MICC
+MIKVLSIDGGGIRGILPATWLMKLEELTGRPAAELFDVVVGTSTGGILALGLTCPAAGGK
+GYSAEELRNLYVDHGSEIFSGSPSADAGSRARYSSEPLRGYLQQYFGDRALSAALKPVAV
+VTVDLAHFTGLLFSGGGLDQDPLGDAPMALAALATSSAPTYFEPVPYTEPDGTRRTLVDG
+GLAANDPAFVGLTIALVQQRTIRQGEEILLVSLGTGEQSGGGSLEPSALSQLAHPDQLAV
+LEPVIESLYGAPGRLARQLLSLSLGERYQRLQTELLPGVDHALDNATPANIAGLLRTAEA
+FLAAESGRLEDLAAKLTS
+>tr|A0A0P7HDS4|A0A0P7HDS4_9MICC
+MTTEPTSFADLPTVDDNTPVRVRFCPSPTGTPHVGLIRTALFNWAYAKHTGGKMIFRIED
+TDSARDSEESFLQLLDALDWLGITWDEGVNVGGPHEPYRQSQRGEIYQDVIAKLKDAGHL
+YESYSTPEEIEARHRAAGRDIKLGYDNYDRNLTEEQIAAFKAEGREPVLRVRMPDEDITF
+NDLVRGEITFKAGTVPDFVVVRANGAPLYTLVNPVDDALMGITHVLRGEDLLSSTPRQIA
+LYRALIDVGVAQYMPLFGHLPYVMGAGNKKLSKRDPESSLFLHRERGFIPEGLLNYLSLL
+GWSLSADEDIFTVDQLVENFDIHDVLSNPARFDIKKAEAINGTHVRMLEPADFRNRLVPY
+LQHAGLVGEQLTEREEEILTEAAPLVQERITLLGEAPDMLGFLFKADDAIDVADDARKGL
+PANLTEVLDATLTALEPVQEWTAENIQAALRQALVEDMGIKPRHAFGPVRTAVSGRRISP
+PLFESMVILGRESSLARIRSFRAAEA
+>tr|A0A0N8HXS6|A0A0N8HXS6_9MICC
+MRAQLLTHSYLPENSPPQRRWTQLIRTFRELGWDVEVIAPVAHSSGRRTLPRKEAGRAFR
+KDRGRHGETIRRAPYLYHRTTRLGRFADQCFSATCSVLAALMGPKPDVVIATVPSLPILG
+AGFAVAKLRGVPFVADMRDAWPDIARDARLVQGSAKSLAERAIVAIQQRAELIVTVTYGF
+AQTLRDRGLKNVATISNGIDTASRELLPPPPAEADRLQVLYLGNHGESQRLETVIRAAAQ
+ADDTVRLTMVGQGVHRRKLKALAEALGAPVEFHEPVRGIDAVMSYYRRADTCVISLRDDW
+KSFETTIPSKTYEVLAVGRHVTGIVLGEAREIIEESKAGDVVRSDPADIAALWKELAQDR
+SRLLTGSSGRDWVEANANVESLGRAYVELLTSVVSGNRSTK
+>tr|A0A0P7G612|A0A0P7G612_9MICC
+MSQDNHNEPEPGGAPRPGAGHEPSPPPQAPWGQQPQWGQVPQWGQPPWGPPAGNPSQPGG
+VPPYGPQGWNAGPYGAPGAGPQGPYPPGAYSAPPKPGVIPLRPLGLGEIMDGAFQACRRN
+PAATFGTAIIIQAVISVLTVIFGQSLLAPLSDIGLESELTDEQALSLGATALTGGTALTV
+VSAIGILLMQGLLVIPVARAILNLKTGFGQTWRLAKGSMLRLAGLGLLMFAAVAAGIVAF
+IFALIFVIEFLGPFGVFLTVIGVLALIAVFAWLSVKLALAPAALVAEPRGVFAAVSRSWT
+LTRRNWWRTFGILLLTSVIVSIIVSVISTPITMLITLFASFGTGEAAADDISSVIPVLIL
+TTAVSAFFGAIGYAFQAAVTSLLYIDLRMRREGFDVALMKDQEVAAASGPEFVPGRNQPP
+APAGQWPGSPYPGSA
+>tr|A0A0P7G9C0|A0A0P7G9C0_9MICC
+MTLPGSRAVLRRIRIRARKITERAVGPKPAAAARSRLLSLVLLAQHDEDALLRTVAALLA
+QDEHDLEIIVMVPHGAAPPALVAMEGEDQRLFLLPGTGRLEDAVNASAGAFLAFVEPGAV
+PDPGLHRRLAAALDKSAADFVAAVPATASSPAGRSIARLLETQREGFTLLTRPDALADTE
+TWTKLYRRAFVEPIIGDASGEDTESLALRGYLQAGRFDYVVTPTGTPPDMPGAVTVHEEL
+LQLAERASRVTDLVCEEGREEAVSAWFGAALGTEWLRFSKEVPRQEESYWKLVVAVAAHM
+SRTPGALDRFPVHSRILVFLAAGGSLEDLRTVLAELQDCGTGYRLGTNSGGSVDEIPGYL
+PLVSLPLPAGLLRLRGEPTVRSSVSLFGWKGETLQLGGFAYVEGLDAEKEPVKLNLWLVE
+PSTGTRLPLPVVRHHRSAIDEASGDQLNSYAGAGFSAELDAPTVLAAMEGTRTNEWYLEL
+ELSALGMVVRDRLASRDADRVPSRLPIGPVVGSRRLCALFDGVLGLRFTAVSYRYLADPP
+TVNDTTVSVTFRGEAPDGVVLDVPGVACLPFEAEPSDPATFTLSVPPEATPSLSGGELTG
+QIRAGKPGSLQHVGTAAGTGELEPLAGPGERIRAAATGFGFLTLTLGPARITVSGWRTEG
+SAVVVVLHGSAGSLQQPGDLALAGPETVVADALRAGVNGQTEAVFELSRDRWGAGASFPG
+FGHYRLVSRGSGRGRTDPVVVTGALAGVRAEADMARLRIVSPARSHGQAFQLRLLSSLKS
+GERGGYNRRRLIETYWGSSSPLDESAVLFETFGGITASDSGLAISQALAGYRPELKRFWS
+VADASTPVPEGCVPLQRFSTDWFRVLGNAKYLVNNNDFPVFFRKREGQVYVQTWHGTPLK
+RVGLDTPHQRLTPSYLRTLEREPGEWDMLLAQSPIAGERLAAAFRYSGRVAVLGYPRNDP
+LSSPAASSVRASVRERLGIPPQNTVVLYAPTWRDTAVDHSGRVQAVNYLNGPEAVAQLGP
+GYSMLYRGHHKVSGRQGNSVRGMTDVTGYPHVSGLCLAADVLVTDYSSIMFDFAVTGKPM
+FFLAPDFAQYRDRTRGFYFDLEEEAPGPVAENSEELFEQIRTYEPGRWTGKYRTFVETYA
+PLDDGGAALRVCRAVFGDD
+>tr|A0A0P7HFN9|A0A0P7HFN9_9MICC
+MRIPMKKTLALACSAAILAAVAGCSSTESAPSTSPSDSSSQVSASASPTATAKASASPSP
+SSAIAAGFPEDLVPVYTDSVPTASSFEDDGQLLTASLTASSSSSAEEILAFYTAHFEKLG
+FTALEGDAVDSTPAKDFARTTDSETETANVSVITREGSSIYTVGANVLPGTAE
+>tr|A0A0P7GNP8|A0A0P7GNP8_9MICC
+MGDVLEAGKLAGSASLEYSPDWGQLLSAGRAVIHMAWFDALEPLPPALTGRMAKAVGVII
+SGRSGPESLQRDAK
+>tr|A0A0P7FNQ6|A0A0P7FNQ6_9MICC
+MLTLENVGLVIGSGSSAKTLLEDINLQVGPGESLGLVGESGSGKSMTLRSILRTLPGGSV
+PSGSVRFRDREIPSLSREELRRFRAADVSMISQNPMAALNPVLRVERFLIEGIQAAKPRT
+SAAEARQTALGLLADVGIHDPERCLRSYPHQLSGGMLQRVVIAGSVARGSSLLLADEPTT
+ALDVTTQSDVVAILNEARTEAGMAMIFVAHDLDLAAAACQRIAVMNKGRIVEAGPAGEVL
+GSPRHEYTQMLVASKPSLTRRTPLRPIPGEAAE
+>tr|A0A0P7FNR2|A0A0P7FNR2_9MICC
+MSVRILRADGPVEELDDEENGTRYAYQVAPGGVLIVLECPDDGKWLVRKEVSANRWNEVS
+GRRFIGDATGVGGIEGGKADGRPKSTKLPPP
+>tr|A0A0P7GEB5|A0A0P7GEB5_9MICC
+MSSDFLKGHPTLNTDRILDGRYEVGELIGRGGMADVYLGRDSRLGRAVAIKVLRPDLARD
+PLFQSRFRREAQAVAGLNHSAIVSVYDTGDQAPASGSPDEVRLPFIVMEYVSGRTLRDLI
+KSGDVTVDEAVDYTLGVLAALEYSHRSGIVHRDIKPANVMVTHDGHVKVMDFGIARAIAD
+SAATMTQTQAVIGTAQYLSPEQARGETVDARSDLYSAACLLFEMLAGRPPFIGDSPVSVA
+YQHVREAPPKASSFNPEVTPALDSVLGHALTKDRNERYQNAHAFREALLAARAGTVDPHP
+TAATQAVPRQSVRSEPVPSDEPRTRAMARVLEGGPLTSISASDLDEEEDNSILPPSSRAD
+GNPERSGRRRAWIITLFAAIALILAGGSIYAYNLVNQPPPPPAVASIPDVENMSQTDAIN
+ALLAEGFRAPVTEPQYSDTVEPGLAIGTEPEAGSTVELDSDITLLISQGPSAVQIPDTLP
+GMSEAQARDTLRLLGLQGGDTATANSPTVPEGRVIETKPGVGTSVQTGSTVDLVLSTGKV
+TVPNLVDTNVEEAKAYLADPAYGLGVEVEEVENSVVEPGTVTGQSAPAGSDVPQGSTITL
+TVAKAPEPSPSASPSSSASPSAPGNRRGGNG
+>tr|A0A0P7FAP7|A0A0P7FAP7_9MICC
+MDPAPKAPVGLGDTPGLPATPANEPVLGSMNGSGSFSSEFAGTGTSAVAVYLACQSEGDV
+SVIVANGTPVTIPCGTKEESTRQLFAVPSQQDRISVDVESDGLILGLVLTDAGK
+>tr|A0A0P7FU28|A0A0P7FU28_9MICC
+MSEQSSGKNTQPGRRGWLTGGPLLTVLLFAGPQIPGLLSRLFSGAPDGVYSLATVYGGAA
+VTLIGAGVLVHFLGSRKPAAASRASEASEPERE
+>tr|A0A0P7H8D6|A0A0P7H8D6_9MICC
+MSTESGSTAAGEPRRRAADDLPAPNGPDASGTSTSEPDVTRRMDTRGTEDPGGHTRQSAG
+SSHETTAGPSGTEPDVTRRMDTAPERTSSRQHETEVLNTSVTGTRDPNDADYTSEDAPAG
+TTRRATHREDGDVRGAVAAGHTGSPRTADEPVMPNREALLAAERERFGGIKFGAAFFGWL
+TATGMVVLLSALAAAIGAAVGVSTDTDLGAALDQAAANQSSGLIGAIVTLIVLLLAYYAG
+GYVAGRMARFNGAKQGVAVWLWALVAAAVVIVLGLIFNDDIRSLTQLNSVAPLQQDLSQA
+SAGSWLALLATVVVSLVGAILGGLAGMRFHRRVDRAKFTPATA
+>tr|A0A0N8HXU6|A0A0N8HXU6_9MICC
+MSTALLSPSTLPYGLPDFAAITVSDLLPAFQAGMQEQAAEIRAITENQDPATFENTVAAI
+ERSGQVLARTGAVFFNAVMSHATPEIQELEQEISPLLSAHQDSIYQDSALFERVSSVPEQ
+GLDSESSRLLAEYRRRFVRAGAALDDAGKARMRELNTRLSELGTTFSQRLLADTNDSALE
+LGDEAELEGLAPEDIAAAAAAAQAAGSSAKYLLSLVLPTPQPALAKLKNREVRRRLFEAS
+VNRGYRENSNNTLGIAAEIAALRAERAALLGYENHAAYAVEDQTAPTTAAVEEMLSRLVP
+PAVRNAQAEADKLRAAAARDGIDDFQPWDWAYYSEQIRREEYAVDLESLRPWFELERVLH
+DGVFYAANQLYGITFTERKDLTGYHPDVRVWEVKDEDGTGLGLFLGDYFTRDTKSGGAWM
+NELVSQSRLLGHQPVVVNNLNISKPADGEPALLTFDEVVTAFHEFGHALHGLFSNVGFPR
+FAGTAVPRDFVEYPSQVNEMWMLTDEVAANFARHYQTGEPLPAGLLQKIRDASLWGEGFR
+TTEYLGATLLDWAWHVLPTGQEPVSDPEAFEHKALLDAGIDPALVPPRYRTGYFKHIFPG
+GYSAGYYSYIWSEVLDADTVQWFTENGGLVRANGDAFRSKLLSKGYSEDPLQSFRNLRGR
+DADIAPLLARRGLS
+>tr|A0A0P7HWD2|A0A0P7HWD2_9MICC
+MLQVALAQVRLNARRFIAVGVAVMIAVGFLTATLIINASSKASLTQSVGQSFRNADLVLS
+AGYDDDAESWAILDEETADVARSMDGVEDTYTVLAASVAVRDGRGSSYAVLANLPANDSL
+LPVDVVKGNLPATAGEVAIDEQTAERRGITVGSLLPVVSAEDLEGAETPLTVTALVEASS
+DPRSMGTAQLYATEETTEPFTSMEFGFGSIQLALAEGASVTAVQAALTQALSDAGIKAVT
+VRTVEEETTELMAGFTGGQDSLTVILLAFAAVALLVCALVVSNTFSVLVAQRTRELALLR
+CIGAGRSQIRRSVLVEALLVGVVSSIVGVLAAVGLVGGIVAYLQTLPESGFATMDVPPLA
+VAAGMAAGVVLTVLAALVPARAATAVAPLAALRPAEDVRAGTRKGRVRLIAGLVLTAGGA
+ALLGYGAYDGDLLIALPGGILSFVGILMCSTLFIPPLVRAVGFLASPLGVPGKLAAVNAV
+RNPQRTSATSSALLIGVTLVVMMMTGAATARSAFNDTLAGEFPVDVTVRGAIPVESPFTA
+KDAVAAAAVENVDRAAFLPVAGLIDRNGEEVPVYALDSADSPVLQDAAMVPAAGTITMPQ
+GTKEETLTVRGAGGDMELKVVTSESRSFSPLVTTETAQLLGGVPEEQTPEQFRAQPLLWI
+AIADGLNTSAIMELQSALSETLNVQDYQIAGAVIERAAFEQVIDVLLMVVTGLLGVAVVI
+ALVGVANTLSLSVLERTRESSLLRALGLTKGQLRGMLALEAVLIAGVAALIGLGLGAVYG
+WLGAQSALGAFADVVPALPWAQLGGVLAVALVAGLGASLLPARRAARLSPVAGLAAD
+>tr|A0A0P7H5S0|A0A0P7H5S0_9MICC
+MLLAIPVAVLAGLVSFLSPCVLPLVPGYLGYVTGLTGIDLQKQRRGRMFTGIALFVLGFS
+VVFVAIGAGIGQLGSWLRGAEQAWIQQVLGALIILLGIIFMGGLSWFQRDRKIEARPPAG
+LWGAPLLGVTFGLGWAPCLGPTLSAVQLLSFSGDDASAAKGALLTFVYCLGLGLPFLLIA
+LGFRRGMGALGFFRRHRVAMQRFGGGMLIALGLLMVTGVWNIWINQLQGWLDSVTLPI
+>tr|A0A0P7FE48|A0A0P7FE48_9MICC
+MARMLARVAPWLPSARTETMRSGNATGTLRILGAADTAALTGLAAADPVANTFLLSHLEA
+TGTAAPTAAGGQVLGVFDGGELTAACWAGVNVVPTAVTVDTGPEIGAYLARTGRRFSSLF
+GPAEAVLSLWSVLQHSLPRPFDVRSDQPLLEITGPSAVKPAPGLRKARPEDLDRLLPACT
+AMFEEEVGYSPVAGGSRHYRQRVLSLIQKGHALVEFDASGEVIFKAELGTVSSSAVQVQG
+VWMNPAYRGRGLSAGYMSAVVQFAQEIAPQTSLYVNHYNAPARATYESVGFRQVGTFATI
+LF
+>tr|A0A0P7GI89|A0A0P7GI89_9MICC
+MTSGFNTRAIHAGQTPDPTTGAVIPPLYQSTTYAQDGIGGLRNGYEYGRGTNPTRDSLQE
+QLAALEGGRHAFSFSSGLAAEDALIRALLAPGDHIVLGNDAYGGTYRLINRVLSAWGITN
+AAVDMSDTAALSAAISAGNTKIVWLETPSNPMMKISDIAAVAQAAHDAGALLVVDNTFAS
+PYLQQPLAFGADIVVHSTTKYIGGHSDAVGGAVILNDDAAAEKIGFIQYAVGAVSAPMEA
+WLTTRGLKTLGVRMDRHSSNAMAVARWLKDQTAVESVLYPGLEEHPGHDLAKAQMKDFGG
+MVSVSFKGGEAAARKVAESTKVFTLAESLGGVESLMNYPSEMTHASVKGTELAVPENLLR
+LSVGIEDVEDLIADLDQALKQL
+>tr|A0A0P7GSD1|A0A0P7GSD1_9MICC
+MNLLYSLPLTVTSPIEGDLKPGLEEGDITPGLLGFLATLFLALCVVFLIRDMVKRIRRVR
+YRSRMAGEFDGEGTGIPIRRDGDEAADEATEDAALDAAETEAAPDPAPRPSGTNPAG
+>tr|A0A0P7FDJ0|A0A0P7FDJ0_9MICC
+MKLSHIPLRLTTGAYILNSGLNKRNLDAESAAGLQHLAGNAFPQVLDIEPVRFGKLLCAA
+EITLGLALLTPFVPSRLAGLALGAFSGGMMRMYLKTPDFTEDDGIRPSAAGTPFAKDIWM
+LGIAAALVLDTKSKTKVKVVKVPTPVKATAAAAAVKAAKDIKDSKSKDSQDSKHRKDK
+>tr|A0A0P7H4J1|A0A0P7H4J1_9MICC
+MSIALSELVAGQEIGRTTVEISRADLVRYAGASGDFNPIHWNERFARSVELPGVIAHGMF
+TMGAAVQLVTDWIGDPGAVLDYQTRFTRPVTVEDVDDAPGAVVEITGTVGALDPDNSTAR
+IDLTVTFNGQKVLVKAQAVVRAW
+>tr|A0A0P7GJA7|A0A0P7GJA7_9MICC
+MSSKDEKNLAQVVDKIAGMHEPQRGLMQQVHNVIMGAAPGLKPRIWYGMPAYATSAGSPA
+MLTLRNDERLNLAVTEKARFRPAGGPDGTLMPAAWYFETIDAETEKRIAGIVRSVHD
+>tr|A0A0P7GVY7|A0A0P7GVY7_9MICC
+MRVAEAAAAVLLCAGLLAVILWPTPVDRPLYGRLVRFLNRLHEMGFPVISYSWLEGAANV
+ALFIPIGFLAARLLAPRRWWLALALCMVLSGAGELAQALFLPARNANAQDVLLNDSGALA
+GVGLAGLLAFAVRRKP
+>tr|A0A0P7GS03|A0A0P7GS03_9MICC
+MEISAAGGLNRLIAGRYRLIEPIGHGGMATVYKGLDEALGRDIAVKLFRASAVDPDDVGR
+QETEMRLLASLTHPGLVTLFDAGKDDAGRDDGPDGEPRAFLVMELVDGPDLRKRLRDNPV
+PAADVAYVGAELAGALAYIHARGVVHRDVKPANILLPPTIAGTAPRAKLTDFGIARMMDG
+ARLTATGATLGTANYLSPEQASGRSACASSDIYSLGLVLLECLTGKIEFGGTPLEAAVAR
+LSRDPEVPETLGTHWSSLLTGMTARDPESRPTAAEVSAALLDHGWSAGPVTPAATRDIAP
+PRTETAAPETAEASEVDGLAAEPETSASLDWLHTGTGASTAEDPRTPAMEQAAAAYLARD
+DLDHPDIHTPAAPPTPPSIGPLSGAGQGRPGSAGPKQAAIARAAAVPMPPGRAVLAGRVL
+LAVLAMTVLTVAVVLAAGRVGASDSLQPQKVPFQIGGTSSGEP
+>tr|A0A0P7GW05|A0A0P7GW05_9MICC
+MRLIGAGTRPGRGERVLDTFWTIPNLITILRFFGVPLFVWLIVQDNYGAAFITLVIVGST
+DWVDGYLARRLDQVSAAGKWLDPVADRLALIIVATVFVVDRIAPGWFILAIVIPDIILII
+NSLVLFCGSPNLPVSNIGKIRTALLLVGAPMLLLQKVPGFDYDWLAVAGNTVLILGCIGH
+LAAFVGYMQASWRKYRNRQVPAAKDAYGA
+>tr|A0A0N8HXS9|A0A0N8HXS9_9MICC
+MRVNACRPAALLYAYTVLSSLSRRRFLRTAAGCAAAAVSVLLVWLLVAVNLFYYPQATRE
+PSKADAVVVLAGAAAERLPVGRELMKQESAPVLVLSTTDTPGNTNMDIVCKYSRDPAIRC
+FEPSPLSTRAEARAIARLAADNGWENIIVVTSKYHLVRARANIEQCSNAHVQMVAAEPDL
+GPAQWAGRFVEETGGVLAAFLRPACSSPIG
+>tr|A0A0N8HXW4|A0A0N8HXW4_9MICC
+MNWFEAIFLGFLQGLTEFLPISSSAHLRIAGELLPGAQDPGAAFTAITQLGTETAVAVYF
+WKDIVRIVKAWFGSLSGRVSRSDPDARMGWLIIVGTLPIVILGLLFQDQIESTFRSLWIV
+ATMLIVFGVILAVADAVGKQQRTLDQLTYKHGILYGFAQALALIPGVSRSGGTITAGLLM
+GYTREAAARYAFLLAIPAVFGSGLYQLAKSWGDTGPYGGAETALATVVAFVVGFVIIGWF
+LRYVSTRSYQLFVWYRIGLGVAIYIALAFGVLQP
+>tr|A0A0N8HZ87|A0A0N8HZ87_9MICC
+MHKSFKTVTALAAASLLLTACGASPNARPASTGGSSDAPQSLVFAVVPTDNSKELEESFK
+PIVAAIEKETGLPTTIEAVSSNAGVIEAQAAERVDVATYGAFSYYLAQNVADVTPIAMDQ
+RTPAAGSGAVQSLGVVAAGADIKELADVEGKDVCFTDPASSTGYLAAAAGLIAIGLDPKN
+DINPIFAGSHDVAVTQMLAGDCDVAFVAGTFITDLLPARGVIKDGDVDTIWTSPDIPGTP
+MVIGNWLPEDLRTQITDAVLKYNAVTAAEAGLCPENQRESLAPWGNEYAGKMACQWGGTG
+AFAFEPATEEDFASIREICETTQAEVCRNE
+>tr|A0A0P7G5Z4|A0A0P7G5Z4_9MICC
+MSTVVMHRSFFQRRIKYQLVRNSDLLLRWTLVLVGLILIGTLGLVFDLVLGGWAGAVAAG
+AAALVLLLLWIVVPQRSRRLAVRRKLESST
+>tr|A0A0P7HLT1|A0A0P7HLT1_9MICC
+MARPLHQRTSMNSDSALRSLQVSLHGPVAEVKLRGPSKGNAMGPDFWAELPEVFAELDAD
+EGVSAVLLYGSGGNFSYGLDLPGMEPVFRPLLESQGTDARLRAGFRRQIKALQDAVSSVA
+RCSKPVVAAVEGWCIGGGVDVITAADVRVAAPGARFSIREVRVGIVADLGSLQRLPGIIG
+SGATRHLALTGEDFDAARAFELGLVTELADDVIARGRELAAQIAANPPLVVQGVKQVLNQ
+GSEAAAQSGLDYVQVWNTAFLPSRDFAEAGRAFAERRPAVFTGD
+>tr|A0A0P7HVC9|A0A0P7HVC9_9MICC
+MLNILQDVDEAVAPIYDGATVMIGGFGKAGQPVELIEALLRQGATDLTVVNNNAGNGEEG
+LAALIGAGRVRKIVCSFPRQSDSQIFDAKFRAGEIELELVPQGNLAERIRAAGAGIGGFF
+TPTAYGTPLAEGKETRVIDGRGYVFETPLHADFALVKALKADKAGNLIYRKTARNFGPIM
+AAAAKNAIVQVRQIVEVGGIDPETVVTPGIYVNSLVQVSREKEPAAA
+>tr|A0A0P7HN29|A0A0P7HN29_9MICC
+MTIERPAVPNPDGGPLRIRLDLSYDGGPFAGWATQPGLLTVQGTLETALAVLFRRPVRVT
+VAGRTDAGVHARGQVVHFDTPEDQWIAQARSTDLEPAEAFRRRLRGVLNRELTVPLKEAG
+LSKRTVEAMAGAIEVHQASIAPRGFDARFSALWRRYSYRIADRQQTWDPLQRNVTLWHKT
+TLDEDAMNEAAQSVLGVQDFLSFCKPRMGATTIRELQEFNFSRRPDGILEAHLKADAFCH
+NMVRSLIGGALLVGTGERKPAWLAERMFARIRDSNSKLAPPHPLVLEEVKYPSGAELAAR
+AETTRALRG
+>tr|A0A0P7GWP0|A0A0P7GWP0_9MICC
+MKHLRSALLSLAVLPVSLFGTACVPQETDSAAQLPASPAASSSITEPQAGTALEQLSGIP
+IKGRAPKTGYSREEFGPAWADVDHNGCDTRNDILARDLTNETFKPGTKDCVVASGTFVDP
+YTGSTISFVRGNTTSTAVQIDHVVALSDAWQKGAQQLSAEERRQLANDPLNLFAADGPAN
+GAKSDSDAATWLPPNKAFRCEYVARQTAVKAEYRLWMTQAEHDAIASVLASCPDEPVPVR
+EGTASRAVGPAPEAAVSSTTPVYANCAAVKAAGAAPIRPGDPGWDPKFDGDGDGIGCTS
+>tr|A0A0P7FEI6|A0A0P7FEI6_9MICC
+MKRKAALAFAIGATAMLGLSGCVVDDSTAAQDGELGGSLTVACGAMEDWCQAMTSAFQEK
+TGVQTSFVRLSSGETVARLESAKESPEFDVWHGGPADGYGTASAAGLLESYSSPNAADIP
+DKYKDADGYWTGVYVGTLGFCSNQAVLDKLGVDVPESWEDLLDPKLKGQVSAAHPSTSGT
+AFTTLWTQVVLNDGDQDAALGYARSLHNNILQYSKSGTAPGQTAGRGEVAVGLVFSHDCV
+KYKEAGMDDLVVSFPKEGTGYEIGGVGAVKGTRNLTAAQAYIDFALTAEAQELGAGVGSY
+QVPTNPEAAIDERMVKLDDVQLVDYDFSEAASAKKGLTQRFDAEIAAQPRE
+>tr|A0A0N8HXN0|A0A0N8HXN0_9MICC
+MNTLYIPAAVTADAVRETGWLNMLIFGLFVAVTLVVVLRASRNNKTAADYYAAGRSFTGP
+QNGTAIAGDYLSAASFLGIVGAIAINGYDGFLYSIGFLVAWLVALLLVAEMLRNTGKFTM
+ADVLSFRLKQRPVRIAAATTTLAVCFFYLLAQMAGAGGLVSLLMGIDSKLGQSLVITVVG
+GLMIIYVLVGGMKGTTWVQIIKACLLIAGAGVMTVWVLAINGFNLSELLGSAVEMSGNAA
+ILDPGLQYGKSETSKLDFISLGLALVLGTAALPHVLMRFYTVPTAKEARRSVVWAIWLIG
+LFYLFTLVLGYGAAALIERETIIGAPGGVNSAAPLLAFALGGPVLLGLIAAVAFATILAV
+VAGLTITAAASFAHDIYANVVRKGKVDADGEVKVARRTVLVIGVVSILGGIGAQGQNVAF
+LVALAFAVAASANLPTIIYSLYWRRFNTRGAVWSMYGGLGSAILLIIFSPVVSGAETSMI
+AGADFAIFPLNNPGLVSIPLAFFLGFLGTVTSKDDESPEKQAEMEVRSLTGVGAEKAVDH
+>tr|A0A0P7H8B5|A0A0P7H8B5_9MICC
+MAAATAGILRTAEPAVSAESPPVALRRRPSRSVAATICAVVLLALGVAAVVAALLRLTSG
+TWPEAVTAPLDWLAESAWNSPGVWAAGIALAAAGLVLLLAGIVPGRFHDLPVRLPAGDRS
+AEQATSGGPSAVMSRRAVAQLAAATCEHIDGVSSASATATDRDVRVTVTTALHDTQDLQR
+WVSDGVHSRLEASGLDPVPRVRVSIRSRE
+>tr|A0A0N8HXQ7|A0A0N8HXQ7_9MICC
+MRRLKIAAALAAGAVSIFLTACAGGTPTSLDAIQDQGRIVVGTEGTYRPFSFHADGVGDL
+TGYDVEITEAVAGKLGVEAQFGEAPWDALFAGLNAGRFAMVANQVSITPERVDSYEFSDP
+YTVSPGVIVVPKGDTSITSFTDLAGKTTAQSLSSNWYELAQENGASVEAVEGWAQSVSLL
+EQGRVDATINDRLTFLDYILQTPDAPIQVAAETDDPALMAFAFAKGNTELRNAVNAALEE
+LREDGTLAEISMKYFGEDVSQ
+>tr|A0A0P7FPP0|A0A0P7FPP0_9MICC
+MAKKDGVIEIEGSVNEALPNAMFRVELANGHIVLAHISGKMRQHYIRILPGDRVVVELSP
+YDLTRGRIVYRYK
+>tr|A0A0P7G6T1|A0A0P7G6T1_9MICC
+MMRDDQTDTLLRSLDASAAGAPVDRLRAQLDLERILGAGRPERPAPQPHRKLRRTILVGA
+AAAVTAGLVALPAIGGGDPAFATWTQAPAALDPEQAESAAEDCRSSDRNTAGESAGAAVA
+IAERRGEWTTVILSGQDGFSAMCVTDGSLFGGSFGYSGSGPGTEPEPRGLLPAAMGMGSA
+GAGELSMVVGAAGADVAGVSYASRTHGEVTGSVANGHFVLWFPGDELQDYPSGGVELLVK
+YSDGSSGPVMASLDWANN
+>tr|A0A0P7GI96|A0A0P7GI96_9MICC
+MSSPTPAAARQARPAPSYASRGSSHYDLILTLMCVVIIVSNIGASKGVVLGPVFGDFSII
+TDGGFFLFPLAYILGDVISEVYGFKAARRAIYMGFAMAAFAVLSFAVIIALPGFDDAYGV
+EKQAAFEAALGPVWQIVAASLLGFLAGQLLNALVLTRMKARFSERALVGRLMASTGVGEF
+ADTLIFCAIAAPVIGITDAGQFVNYVIFGFVYKTAVEFLFVPVTSAVIKAIKKREPTYGK
+SAPRKHSLRGRA
+>tr|A0A0P7GAL8|A0A0P7GAL8_9MICC
+MPSQMNPYLSFRDNAAEAMAFYQDVFGGTLESSTFGDMNMAEDPAEAGKIMHSSLTTDKG
+FVLMASDTPDSMNLDEGSSYSISLSGNDGDELRGYWDKLLDGGQMTMPLERAPWGDVFGM
+LTDRFGTSWMISIEDGGS
+>tr|A0A0P7FAR8|A0A0P7FAR8_9MICC
+MSTANKGTSVFRRKPIELTEDEASGSKLFKSLGLWQLTAIGVGGIIGIGIFTLAGLVANG
+GPDAEGVGPAVLISFLIAGLASAAAALSYAEFAGMVPRAGSAYTYGYVALGEIIGWFIGW
+DLLLEYTAIVAVVAIGISGYFTEFMAGIGLDVPVWMQGTGDVIEGGLVNLPALVVCLFIT
+FILSRGTKTFGRFELVAVGLKVLLILFIIGLGIFFVNTSNYTPFLPNGFGAVFTGAATVF
+FAVFGYDAMSTAAEEAKDGKKHMPKAILLSLGIAMVLYILATLVLTGMQNYTEISPTAGF
+ASAFQNVGLPVIATVISAFAVLSILTVMLTFLLGVTRVWFSMSRDGLLPRWFSATDSNGT
+PQRVTWIAGGVSALLAGFFPIRAVADLTNIGILAAFVVVCIAVIVLRRTQPDAPREFRVP
+LMPWVPAFGVLASAFLIAQLHWETWLRFGVWLLIGMAVYWFYSRKHSLLNPSSPRHSPSG
+DAGSPPSPSPEPDAAG
+>tr|A0A0P7GKK1|A0A0P7GKK1_9MICC
+MNTNQVHQVQGTGAGKRHAAARVLRAGIEFLVPVALFYILRAAGVSAYAALLAGTAVSLA
+GSVVDLLRSRRVSPFGLYALTLMVLSTVVSLIPGDERFLLARGALVVGVSGLWFFISAAT
+RRPLVYVMTRPILQGRFGWPGQWDRLWVQLPRFRRVWRVTSILWGAGLCADAALRIFMAW
+TLPADAVPALTTVLTTVTTVGLVVTANIYYQASGAARAWSPFYAGASWAADEYPKHRLAK
+RRRREQEA
+>tr|A0A0P7H919|A0A0P7H919_9MICC
+MFRAIRPVLTFFWNLPRNFLIGFLIAYRKVVSPLYGPVCRFFPSCSAYALEAITVHGAVK
+GTWLAARRLVRCHPWNDGGVDHVPAGRRTWPQDSVPKIIVLNHPVIPADEDSRSAA
+>tr|A0A0P7GVE0|A0A0P7GVE0_9MICC
+MAVPDPAAESGTPFPFRLRVLDADVPPPIMLHPHWEQALAGFVREEARGVPRGAGNRNYK
+DRNPKCEVAVALTPLRVLAGERTLEELQAIAAGLGLPWLHSYLSFHHETAIHSILRMSPE
+ETAAALRETADAVDRFPDAEGPAAEVVSVVHRLQQLFPHDRGILLAVCMKLLRLEPGQAA
+VIPPGCLHTYLSGQTVLVTGISDNALHAGLTEDFVDLCELQQLTCCGQPQPSPLPTVDAG
+GGEQRIPLWSSDLDLRRVVVGHDPKPVRVGPFSVVLAALDPAGITVDEVTAELEPEAKIL
+YAGEPVTATVTGPSQIFVASTL
+>tr|A0A0P7GJU9|A0A0P7GJU9_9MICC
+MIYFDAAATTPVRPEVLAALAPLYTSDFGNPSSVHSAGETAARALDYARRTAAGVLGCRP
+GDIVFTSGGTESDNLAIKGLALAAPQGRHIVSSAVEHPAVLESLAYLQRLHGFRITLVPV
+DGTGRVDPAGVEAALTRDTTLCTIMTANNEVGTLQPVSEIAEACRARGIPFHTDAVQAAG
+WLPVSVAGTGIDALSISGHKLGAPKGCGLLYVRGVLPLEPLIHGGGQERGRRAGTENVAG
+AVALATALSLAEQERPAAAERARKLRDYLIDTVLEQVPGALLTGHRTERLPGHASFCFPG
+TSGEAVLLEAERAGVLCSSGSACASGADEPSPVLTAMGLDRETAQTAVRLTFAPTVRENE
+VALAARALSGAVKRLRDLQQAPS
+>tr|A0A0P7FDR2|A0A0P7FDR2_9MICC
+MTESVSAPVPRPKPLLGASDIRELAEELGVRPTKTLGQNFVIDGNTIRRIVSAASVDPAE
+TVLEVGPGLGSLTLGLLDAAREVVAVEIDPVLAERLPLTVQTWRPEQAQNLHVVLADAMR
+VTDLPAEPTALVANLPYNVAVPVVLHLLETFPTLRHGLVMVQDEVADRLAARPGSKTYGV
+PSVKAAWYGTMRKAGVIGMNVFWPAPKIASGLVGFERHEPPATTATREEVFAVIDAAFAQ
+RRKTLRAALAGWAGSPAAAETALRAAGVDPSARGEVLDINAYTRIAEAKAAS
+>tr|A0A0N8HXW0|A0A0N8HXW0_9MICC
+MFLALRELRFARARFGLMGGVIALIAVLMVLLSGLSSGLVNDGVSGLKAMPASAIAFNEG
+TKTDNAFSRSIVDPSQAEAWSTQEGVEEVTMLGSTIVNGVTEDGTQVDLSLFGIDTGSFL
+APAVGDGRAIQAVNEIVVSPTAEDAGIELGSVITLDRLDVELTVVGYTDSQATFGHVDMA
+YLPLETWQYIASGQSQPGAPAEADIAALDFDTASALAIKAEDGAELDFAAGDAAAGTVTS
+TLKDSFDASPGYTAETMTLEMIQVFLYAICALVVGAFFTVWTIQRKHELAVLRAVGASTG
+YLLRDGIFQAVVILVLSTAVGVAAGLGMGAWLSGSAMPFALEAGPITTATAVTIIMGILG
+AAIAIVRISRVDPLAALGGQR
+>tr|A0A0P7FZF9|A0A0P7FZF9_9MICC
+MRWVHVAELRSLADLLEGGELVLTTGLAFGKSAGQAAEYLSGLQAAGAAGVVVEIPPDRP
+EAAAALETGARLAAERSSTALPVVRLHRTVRFVEVTEVVHRRIVASQLEQVEKARQVHEV
+FTMLSLQSAGVQEIVDRTAQLLDAPVVLEDSSHLVVAFAAGAMAAQELLQDWQRRSRAVH
+VSPETRVAGDERWLQTPVGLGSTQWGRLVLPGVPRAPGEASEAAMVLERAGQALSINRLA
+ERDQAGLAQQAQAGLIHELRSSRSQDEDEALTRASALGLKPSPAYLPLVLHLDSGSAKDP
+MSMQRKERALLEGLDAVLAATRNSALAAALQTGQVAVLLALPARMLEDGMLERICGDLAS
+RTAPGELVWTAGVGRVRTRLADAAAGLDEAAHVAQTASTLSAGANRYFRSTDVRLRGLLA
+LLREDPRAVSFAEAELRGLEAEEDLALLQRFLECGGNKTSLARTGYLSRPTLYARLQKLE
+SRLGVSLDDPESRTSLHVAVLLRQLQALSPAG
+>tr|A0A0P7GJG2|A0A0P7GJG2_9MICC
+MVKQSIFGRIAQLAKANINALLDQAEDPQKMLDQMVRDYSNNIAEAESAVAQTIGNLRML
+QDDYNEDLENARSWGNKALAASRKADEFRASGNTADAQKFDNLAKVAIQRQMASENEARG
+AEPTIASQEEIVERLKTGLNQMKDKLQQLQSKRNELIARSRNAAAQNQMHDAIKSIDVMD
+PTSEVGRFEEKIRREEAKVRGANELAASSLDAQFESLEDLGEQTEVEARLAALKASAANQ
+SAIEQN
+>tr|A0A0P7GJ67|A0A0P7GJ67_9MICC
+MKTVDFSSLPDFAEAGELERQAELLAAAGTDASGTTTACREIWQGLGAVYRAPEAQTAYG
+AFDKVEAYGDEAGTVTGLIRTALVEFAREARTLRRQADDLISLSGQCTAQAGADADPESR
+AAQIASLQLQVQEICRSYAAAEARCADSIRAATGLLPDSGILGSSGFGTTTSLADTVLEH
+VHQSQLHIRQTVDVSGDLAAELRLDNIPYEVMDGGVRYTRSPSGILIPVERSVDLTRVPF
+PADDFARPGPELRLNPEAATPPAWARWGGRGLFVLDAGITAWDQGSEQYNADRTEHPDWT
+PGQRALSVTENVAIVGGASLAGGAGGAWAGAKAGAVVGGVVGSWFPVVGTAAGAVAGGIV
+GGIAGGIIGSGVGEKIGKKAKDLWDSFWG
+>tr|A0A0P7GIC4|A0A0P7GIC4_9MICC
+MQDSKNREASSGAPTTHRGLLAWVQEVAELTQPADVYWVNGSAEENKALTDALVEAGTLT
+RLNPETFPNSFAAFSDPKDVARVEEQTFICSEKKEDAGFTNNWMDPAEMRTKLNGLFAGS
+MRGRTMYVIPFVMGHLDAEDPKFGVEITDSAYVVASMRIMARIGTDVLRKMEELDAFFVP
+ALHSVGAPLAEGEADVPWPCNEEKWIVHFPEDRSIYSYGSGYGGNALLGKKCYALRIASV
+MARDEGWLAEHMLILKLTSPEKKDYYVSAAFPSACGKTNLALLDPTVEGWKVETLGDDIT
+WLRFGHDGELRATNPEAGLFGVAPGTGWSTNPNAMRAIAKGNSIFTNVALTDDGGVWWEG
+MTDETPAHLTDWRGNDWTPEAGTPAAHPNSRFCTPIDQIDMLAEEYHSPNGVPVSAILFG
+GRRKTTVPLVTQARDWTSGIFMGSTLSSETTAAAAGAVGVVRRDPMAMLPFIGYDAGDYL
+KHWITLSGTANQEKLPQIFLVNWFRRTADGGFAWPGFGENSRVLKWVIERLEGKADAVET
+PIGFVPTGDSIDLKGLDMTPADVEAAVRVDPAEWETELAGIDEWYARFGDSLPEELSAKL
+AELKERFAAAK
+>tr|A0A0P7FEJ3|A0A0P7FEJ3_9MICC
+MSQHPGTAHRAERVEKLFTLPSRMSGSAPSPILDAAAWISGLWVVAAVLGVGIFSGGTTS
+LVLALVLLYGTGAALSVLGWLTWRGLRVRAARRLAAEPGASAARDFLAATAAAQAEFRAA
+VFPEGATGTPEVRRALASSRAAAEGAPSSVLPARPTTGSAVRTVPRSGKSPIRKNAVCKS
+AARRRGTNPPAPPVQDDFAPAA
+>tr|A0A0P7FFN5|A0A0P7FFN5_9MICC
+MTRVREAWHRLRHSRAVRWISVAVIMLLVFEYAVLPQILGSENVISALQRLPVVLLVAAV
+ALEALSLCCYSALTSVVLPGSVKPRYFTLLRIDLSDLAVNHVVPGGGTTSAALRYELLTR
+SGVRPQNALSAAMVQVVGANLVLGVLFGVGVLTALGEVRTNRYFVTAGIIVLVLLTLSLG
+VLSVLDRHLDAAVRVARRTARLVRIIKPDSAERFVRTMAAETAMFRSDPRRLVRALVLSV
+CYWGFDAACLWTFLAAFGHALGPGELLIAYSLANLVALAPLTPGGVGLVEGVLVPTLAGF
+GAPNDAAVLAVLSWRILNFWLPIPVGGLAWLSLRFGVLRGSTQPGGRLKKGGA
+>tr|A0A0P7GIX2|A0A0P7GIX2_9MICC
+MCRWLAYSGSPVRLDDLLYKPVNSLVMQSKHARMGAETTNGDGFGIGWYGTEPTPGLFHS
+TEPAWHDRNLRELGRQASASRVFAHIRATTGTAIQQTNCHPFRHGKWLWMHNGALADFPK
+VKRDMAMAVEPGLYPEIEGSTDSEMFFYLALTFGLEEDPRTAVAEAVGFIEDAGRRRGVE
+HPVQMTVATTDGDTTWAFRYSSQGKSRSLFTSRDITPLQALYPENVLLNKLSDDSRLVVS
+EPLGDLHGAWQEVPESTCVVVHGGEQQQYSFAPAAR
+>tr|A0A0N8HXY9|A0A0N8HXY9_9MICC
+MSLIRLQDVNVGFEKSQILREVFFRLEPKDRVGLIGKNGSGKSTLLKLILQQLEPDSGTV
+SVDDGLKIGYFSQFSELAGDSTVTEVLDGLFTEIKDVEAELASIDEALGADPDEKTMDKL
+IRRQSELFEAMDHLDGWDYPRRIDAALTTLGFSEAHRTCPIDALSGGWRNRAALAKILLQ
+APDVLLLDEPTNYLDVEGVQWLEGWFRDFRGAAVVVSHDRAFLDAVVTRIIEVENYHLHE
+YPGNFAEYVIQKQFRLKQLASQFVHESELLAFEAEGIADRREAAKAGGRTLGAKLARIKK
+SRAPRPVDQIITEIYAGLHVKDNLCRVQDVAKSYGGRTLFSGLSFEIQRGDRLVVLGANG
+SGKTTLLRVLTGEETPDAGKVAWANGAGMVSYNQVLAELDDADTVTHAVNAMPDSLALKA
+TKKSVNRFLAMFQFSEADLKQKIGNLSGGQKARVAMAQCLLSGASVLLLDEPTNHLDLSS
+TQVMEQALLHFPGAVVVVSHDRFFTDKVANRQLVFGADGGAPGEIDLRVA
+>tr|A0A0P7FQS7|A0A0P7FQS7_9MICC
+MTSTHTDTLPARGPEAVTVSITRRVDPRRVSEATHWVQEGVNLANTWPGFLGSGWVRASA
+TSDEWHMLYRFSDAAALDAWEHSEPRRDWLERGRDMVEDRTVTRRTGIEGWFDAPSSITD
+LETPVKPPRWKQAVAIWLGFFPVNLAFTWLVGLTVPVWDDILMPLRVLITTAILTPIMAY
+WVLPWVTGLLQPWLQRRRD
+>tr|A0A0P7GIL3|A0A0P7GIL3_9MICC
+MGFILGLILSLVVLTMGWRAYTGRWRTWVGHPGLLPKVKAYPALGMLYGGVGLLTGTLLW
+DVDGDSLPRPLLGVLLVLMLGGIWTFLMSLVWLPRFMLPRWVKMAENAMERTA
+>tr|A0A0P7HEA4|A0A0P7HEA4_9MICC
+MPTIASCQRLQHAWFTALASATGGRSFGTHESRWVWLPARRQLMLMFPEEISPAGIRPGL
+AEGSRLGASTVTAWLGGSVDYAPLEAFGFRRGPQTCWMTAPVRAPQAWPGAGASVETEPR
+EVTGADAEELRVGHSQPRQAWHIAARDSARMTGRAYAFYPSGIALPSKVGGIFSLAVGTS
+SRRRGFGTALLSAAAATAEAAGAEHLVVNASANGGQDLCSARGFTLVGRGRTYSMALG
+>tr|A0A0P7GHW3|A0A0P7GHW3_9MICC
+MSSSLLPALGAANGTKPRAGSRSASALAAFVVFAVVIPLLMRASSAVFYTDTDFLIRYAV
+VLYAAVKLSLLLGQPAVRPVSGVFWIFIYTCMGVAPLAQLTTGRTTALAIQVDERMLTGA
+SLLTLLGCACFDAAYHLRLRRPSALAPRLRFRELRSLRVLRIFSVAALAAGLVYIVQVGG
+PAVFFLSRQETGEALDAINPESGDALRAIISGAGTVACLCALIFYLHVIRARQHRLALQD
+IALIVALVGLNVIVNNPISNSRYWTLAVLFGLVLPLVRGHKVLFNVAIVAGTLASILVFP
+MADISRRAAGTQAPLEVDSVWTMIATKDYDQFTMLANTLGYTADHGLSWGMQALGPLLFW
+VPRVLWPQKPFDTGVEVGMWMNNSNLNLSAPLWAEAWINFGLVGVVVAFVGLGILAQRLD
+AGFRMDVLGMGSAGYLGIAIFAGYLFILLRGSLLQSTGRLMILILSILILTAVAKGRERS
+AA
+>tr|A0A0P7FAD2|A0A0P7FAD2_9MICC
+MSATVVTFEELPSLVGKDLGYTDYIEITQDQINTFADATDDHQWIHTDPEKAKDGPFGAP
+IAHGFLTLSLIIPLWSSLFDVEGVKTKVNYGLDRVRFTNPVKVGSKVRLHSVISEVTEVK
+GGVQIKTSNTIEIDGEERPAVVAEFLARFYA
+>tr|A0A0P7GSB3|A0A0P7GSB3_9MICC
+MDFGIREFEERLPDTDALRARVEAIKNVGERTYELTDSIRAVWLRLTGHDVYTAPGNEKV
+FTALDASRTSAETLSNRSVLLSTVMRSYADTVDELKVRLESLRARVAAFNRNYPQSEQDE
+WDNNSEAITARNTLASDVGRLHADLDEAQRDAATWISHLTDSDRTYAKDSENLNAGTTGY
+GYGYEDYAAAFSGGYLSKDLPWYVDMVNFIGDTAAGVPAAGWEMVEGIGVLIGFQGWNKA
+GAAWKSMYRTAENVYVLMGPGVPSARDSQAAMELVALGPVLIRYDQWQSDRPGLALGGNI
+FDVGTLFLGGAGAAGGAAKTGAKAATFAERLGAGAKSPGDGPGGFGGLTPALPGGQVPVS
+PRTFEIPDNSTMLREGKGSAGGKPFADTYSPLGRGPADQPRVGDADGGNGSWQDVSPRSI
+NGAPEQQYITGVDRVHDTQAREYLLPDSDGNMVAFDNHHWRGDPPREYFTEVKGNYEWMK
+PEWLRREFRHWVTNEFARQAKALEHAGTTGYVHEIVFTQKSVMDQFDAYLPRTHPLRKHM
+VLRFEPMP
+>tr|A0A0P7G7J1|A0A0P7G7J1_9MICC
+MAEIVGYVAMSHSPFWDESFDVEGPGADFAAGALKIKEKVQELAPDLVVIFGPDHMRNFF
+FDLMPAFCVGAGEIVSFGDYGSHKGSVPYMEGIGRKVVENVREQGFDPAFSLRMGIDHGI
+VQPYEVLLPEKIVPVLPIMVDCGAAPRPSFARSYEFGQAVGKAIRELEEDLRVLVISSGG
+LSHWVKASSPYDPSIDVETREFLIDGRDTVVEYNAAREAGLAERIAQGVEGDINDTWDRE
+FLKYLTGGDVEALLAINPDEMEAAAGNGAHEVRCWIAGLGAWDGPVETVAYEPVHRWVTG
+MGLVAGFAPKGI
+>tr|A0A0P7H4R3|A0A0P7H4R3_9MICC
+MNKRLAPAVAAAAPAGGLTRRSMLALAGLLGGTAALAACGGPSTAGTGGAMETAGTDWAS
+INAAGKITWWSNHPGASKPIEEELIRRFTAKTGIEVELVTAGADYDEVAQRFQASAGTNN
+VPDLVGASDVWWFRYMINGQILPVDDVAAHLGIETADYNTGLYNDYEFNGNHWAFPYARS
+TPLFYYNRDLFAAAGLPDRAPKTWEEYNSWAPALAEANGGAVPMALGSDTSWSAWWFCNI
+MWGMGGQYSKDWTLTLDDPRTLEAGEFLRGMIHERRSVAVSAADYVADFTAGVSACTIAS
+TGSLSGIMEAAKFDVGTGFLPEGPAGPACPTGGTGIAIAAEKSPEQQLAAAMFLQFIGEP
+EQTAYFSANTGYMPVRTSAADGAEMQAVYAKAPQFRTAVDQLGTTRVQDWARSFVPSGDQ
+HLTTALEKIMLQDTPAAEAFAAASDAIAKSFEQNVEPYL
+>tr|A0A0P7GBS7|A0A0P7GBS7_9MICC
+MSEITLQDAASPLVGVLALQGGVREHVQALEAAGARTVLVRRASELDALDGLVLPGGEST
+TIDRLMRLYGIADPLRAKIAAGFPVYGSCAGMILLADRITDPALDSAGEPQQTLGGLDIL
+VRRNAFGRQRDSFETSLDFGGLQELPSQEPGLKAAPVHAVFIRAPWVEKVGSTVQVLAKV
+LPATPEEDADDGGRESVARIVAVRSGKLLATSFHPEVTGERRIHELFIQMIRGDA
+>tr|A0A0P7GHT3|A0A0P7GHT3_9MICC
+MREREVSLLEAGRREPDIELISSLAGRLAAAPGSRPRPGGPDGALFLALAACQSWDERDY
+SGCLGLALAAARAATAEHDPQEWWLSSLLAGQARLKLEDYSGCIRQATELAGHRQVLKRP
+DLRSRAQGLAARACQGAGKLPDAVRHGRAAVVSAQDGKAGAETTLEAYLSLTAALAESGQ
+LPEAWELCRVMVLPLIDSVPDTLLAGKGFWTVGNVAFRRGDSAAGLRFHQRAGALLSPRL
+DVGLWASFNKASASMRLSSGLHDDQTFACIRQAEAALAVVGASRIDTVDLIHTHGRWEQL
+SGNYEHAVDLLSEAYAQRSSLPPQTAAEVALQLALSLASLGQTQAAADRLEESESLFNTA
+GAVDRRGHVRALSASLARYRRIP
+>tr|A0A0P7GCM0|A0A0P7GCM0_9MICC
+MTHTTSPHPGNDAPYSSDSESANLAEESIQLVRTWLAEASTLEVDASAAQLAGVLKDPGG
+LGFTVGFVDGVIRPEDLQVAARNLANLAPQVPGFLPWYLKAAVRTGGVLGPAVPSVVVPA
+ARRALRSMVGHLIIDASEDRLGQSIARLRRDGVRLNMNLLGEAVLGRREAERRLEGTRRL
+LERSDVDYVSIKVSSTVAPHAPWAFNEAVADVAETLAPLYRLAAGSPRPKFINLDMEEYK
+DLELTMAVFMELLSRPEFHNLEAGLVLQAYLPDALAAMQRLQEFAASRRAAGGAPIKVRL
+VKGANLPMEQVEASLHGWPLATWGSKLETDANYKRVLDYSLHPERIRNVRVGVAGHNLFD
+IAYAWLLAGARGVRDGIDVEMLLGMATAQAEVVKREVGSLLLYTPVVHPQEFDVAIAYLV
+RRLEEGASSENFMSAVFDLAEEEKLFEREKQRFLDSLAAADSSVPTPRRQQDRTLSPEPG
+PEEFGNTPDTDPSLPANRGWGRDILSRVPGSDLGLGLLAASRVETEEQLEEVMTGAAAAQ
+ASWAALGGAGRAEILHRAGDVLESRRAELLEVMAAEAAKTLDQGDPEVSEAIDFARYYAE
+RARELDAVDGARFHPARLTLVTPPWNFPVAIPAGSTLAALAAGSAVILKPAGPAARCGAL
+LAEALWEAGVPRDVLRFVQLGESELGRELISHPAVDRVILTGAYETAELFRSFRPDLELL
+AETSGKNAIVVTPSADFDLAARDVAASAFGHAGQKCSAASLVILVASVAESRRFHHQLLD
+AVQSLVVGQPEDPRTQMGPVIEPASGKLLRGLTELGPGETWVLQPQKLDAEGRVWTPGIR
+AGVQPGSEFHLTEYFGPVLGVMRAETLQDAVRLQNQVDYGLTAGLHSLDPEEISYWTGAV
+EAGNLYVNRGITGAIVRRQPFGGWKKSSVGAGTKAGGPNYLLGLGSWSTEASKADAAPGE
+KVGALLEQAGSASVLSSTDLGFLHRAAASDAAAWADEYGQAKDVSGLTAERNLFRYLPVP
+VHVRLAEAEPLPSVLRVLSAALLAESGVTVSVPDALAPGITAVLAAFSCSVTVENDAEWL
+SRVAGMETPPSRIRLLGGDRRALAAALGGRPDVAVYSQPVTESGRVELLPFLHEQAISIT
+AHRFGTPSAIADTEPGRP
+>tr|A0A0P7G555|A0A0P7G555_9MICC
+MTSLRSLTIPLSVPSAAIGLLEYLVRNDQLCWIRHGEGLVGFGEVLRHTSTGPDRFDSAR
+RWWNAVRAEAAVEDEVQVPGSGLAAFGSFAFSKRSPFLSRVVVPEIIVGSRNGTAWVTQT
+TLDPDAVLDRESVVAALAGYLEEISADSLSDGNDTIQPGVLSESEWKNAVARSVAHIAAG
+ELSKIVLARDIVASLSSPVATAQVLRELALRYESCWTYSVDGLIGSTPEMLIKVEEGKAR
+ARVLAGTLDRATAPLDDPDYAKRVLAGSEKQQHEHAIAIDSVTSHLEPFTSSMTSHSEPF
+VLELPNVWHLASDVTADLRVDGGTVPTSLDLVEALHPTAAVCGYPTSVAGELISELEHMD
+RGPYAGPVGWFDAAGNGEWGIALRGAVIEDPQAVRLFAGCGIVSGSNPAAELEETWSKFR
+PMLEALGLDRARVLSGQPS
+>tr|A0A0P7HMM2|A0A0P7HMM2_9MICC
+MSEMFLEKFRALVPKYLEDNWRPDDGLSADELDDMLDEHDFPIPLVLREFYLALGGCEDL
+MEAYHFFWDPDELEVEDGFLLFLEDEDEKFTWGFRADQLDIPDPIVWRRNNARGEWQSEE
+GTFSEYVFDMFEWVFEDDED
+>tr|A0A0P7FXS4|A0A0P7FXS4_9MICC
+MTVSLLGTRPTAPAPLHPTERRSWVRGHGAQLAVYEYGPEPGPGVPEVLLVHGYPDDHRV
+FAGVIALLAADHHVIAYDTRDAGLSTVQETALSNFRLPLLVDDLYTVLEAKSAGPVQLVG
+HDWGSIQGWAAARDPRAQSRLSRYLSISGPDLQHFRSWFAQRLRTPHRWPDVFQQCLRSS
+YVGAFQIPVLPELFFSVIGSSLYQRTQERPAGRNPQRGLALYRANLASPEQPAVLGTVQI
+AVDVIVPLHDPFLSPALNQGVEEFAPQVRFTVVDAGHWWPASHAADLAARLREGSARLIR
+P
+>tr|A0A0P7HD23|A0A0P7HD23_9MICC
+MQSDPAQETLAQRIRQNLSSHPDVREKNMFGGVAFMVDGHLAVSAGRDGDLLVCVDPAHY
+QDLLIAGGQPAVMGAGRPMGEGWMNVPMDIIADGEALDWWISVGRTSRGG
+>tr|A0A0N8HY66|A0A0N8HY66_9MICC
+MLSPTAAGTAASYGVHSEVGKLRKVLVCAPGLAHERLTPTNREDLLFDDVLWVENAQRDH
+ADFVAKLTSRGVDVVELHDLLGQTMDLPDARTWLLDRKIIANRVGLGLVTGTRAFLDSLS
+GPELARYLIGGLTTSDLPSDYRSGYVGLIRESQGRPEYLLPPLPNTLYTRDTTCWIGSGL
+TLNPLYWPARHDETLLMQAIYRFHPDYTGSKIWWGDAEQDWSQATLEGGDVMPVGNGTVL
+LGMGERTSRQAITQLAQALFADEAADRIVVAGMPKLRAAMHLDTVFTFADRDLATIHPAI
+VDGIHPFTIHPSDKDPGLEIRDERDRRFVDVVAEAMGYKQLRLVETAGDYHATERQQWDS
+ANNAVALEPGVVFTYDRNTQTNAALRNAGVEVIPIVGAELGRGRGGGHCMTCPIIRDGIE
+>tr|A0A0P7GSQ1|A0A0P7GSQ1_9MICC
+MSIDIAAFEAVLPDPEVIRAAAAALVSAVGDVVDTAEESATAWGHLQSPDVYDIAGSEVV
+FNAFRPVTSSAADLDSDVGTVDTAVLAYADTVDALKLRLDAVKADAANFFSRTRGRSQDD
+WDDDEGLIQAEQNIIGDLNRLYSDLQEAQRVCANAISAIYGGPKYVLTTEEGAGTGEVEF
+GFSGEQLDAAAVGGNVPWGQPTEWDKPWYRDAWDGVASFGKGVWSGVTGTVTGLGNMVGL
+GGAEAFEQTWKGLGNLAVNLAIMTSPVVQIALHASGNSDRVQQAGDELLAVGKAAIHWDE
+WQTDPAYAAGATSFDLASILLTAGAGATAKVGSVAGKIGDVANASGKVSAVVNATGIGKV
+AGVTVKVTDAAQAFKINAITTVVDTSRVTVGKVGDAWQAADQFVIDSSKSALDSGRAALN
+SALNKVDTVLANAGHGRFGTPALAGAGGAGPRVVAFTPDTPPARTGAGSGAGSTVPHSTT
+TPDAPVRTNAPESSGTSRSSAPDAPVRGNGTGGAEPSSGKPGHAVPEDHTPSGRTTETSA
+PAAHVDVDDARPGAKGDADDVRPGAAAVDDAASGPRNGDADSSASAEGPDAMDAPAPKPV
+VHYDAEGRVEKVDLGDRTHTVSTRNDQIAQLQRSLDPATWKNTDDFLATHLPPSEFQALD
+GLRGSDSKLPPHVVETQVADLLEKAFDGETRGPVRPGAGPLENALRGIPTRYYYDLTDAQ
+AILVHDVRHLLGSGDTSQPFQKILTAEDAAKVMAGTDTYPGTMGSFISQASDTAGLRTVD
+EIILGLRLDYKYLDRDGVAIQPVNMPFKAGETQEVYAVRFSVDAENGGKIVIPDGSNHAR
+VEELRRDRTGEAERAAAGSSTTRDWELQDTDWERETALIHEDGHPRRDSAEWPNNGWGTP
+TSRVEHTPLIPELKVDGGVPMQNGAEMWRIDRQGNEVLVGVFDDMRGWISL
+>tr|A0A0P7FZL0|A0A0P7FZL0_9MICC
+MPGPAAAGAPVPPPSAPGPDGEPGGRTSIAEQAVAKVAAIAARAVPGVFTLGTGAGRTLG
+AVRDAVAGSDSSATAGVNVEVGETEAAVDITLVADYGVPLTGIADAVRAAVYTAVEDLVG
+LNVVEVNVSIADVHVPDALDTRAVKRQPGTGQDQHA
+>tr|A0A0P7GIB2|A0A0P7GIB2_9MICC
+MLNTPWETGSPLYRRLVVIALSVTGAGILMVLLGAVTNQQIIMYLALPVIVVGMSAHLSG
+MVVRARDAKRRMKDNQ
+>tr|A0A0P7GI80|A0A0P7GI80_9MICC
+MRLILVRHGQTPSNIERLLDTGAPGPGLTELGLAQAAALPQALGHEQISGVYASNLVRTQ
+LTATPLANALAQPIEVREGLREISAGNLEMRGDSESIQAYLRTVYAWVQGDLSVRMPGGP
+DGAETLGRFDEVVSELQRTGQQTPVIFSHGAIIRAWATARARNVGPDFIVHNTLSNTGIV
+VLESKPRPEAHGHAWELLTWQGEAVGGSTLEDPGADGPAGEDVELTP
+>tr|A0A0P7GAD7|A0A0P7GAD7_9MICC
+MTEAPAPDPLELLDVARQAAAAGAAVLAKRSEAGLHVENKGASGDWVTAYDTEAEYAVRD
+VINRMRPFDTVTGEELEASVPEDPSGIRWSVDPLDGTTNFIRNIPFYATSVAAVNADGGW
+LAGVVHAPALVRVYWAAKGHGAWLAEHGSLRRLHGPDPERTGKLLGTGFSYEPEVRTEQY
+AALADLMDGYADVRRLGSAALDLCMVADGTLDAYVERGLNEHDFAAGALIAEEAGLTVRR
+PGSPDRKMDDAERLAAVTTAWLVPPA
+>tr|A0A0P7GBT2|A0A0P7GBT2_9MICC
+MKPSNRASRAARQRQARMAARQELAAEQKRRTLRDNVYAGAAGALVLALATALQVFWFSS
+NPTADDLELLREQSRVPAVTETPAPVPSASPLPSGTP
+>tr|A0A0N8HYZ6|A0A0N8HYZ6_9MICC
+MTAPSRSFQEVLAAAHGVSKAYGATTALDGVDFTVTAGETVGLLGPNGAGKSTLLNLLSG
+LRQPDSGRVELFGQDPRNPLARQALGTTPQATSVPATLRVRETVDFVGSHYASPVPTAEL
+LDGFGLGAASNKQCGGLSGGQQRRLLVALALVGRPRLVILDEPTTGLDVEARENLWERLA
+DYRAGGGTLLITSHYLDEIQTLASRVVVINGGSVVADGNVDAIRSRVSISRVSFHTSLPP
+SYFESQPGTVSASLSASGATTVLTHDADDTVRRLVREQVEFRGLEVHAASLEEAFISLTQ
+RAGGPEHNTERKAAR
+>tr|A0A0P7HHY7|A0A0P7HHY7_9MICC
+MQPQIYAHRGASGQYAEHTRAAYLQALAEGADGVECDVHLSADLQPVLLHDSVVDRTSSG
+SGPVSGFTLAELRELDFTGWKGVDIPADRGSAGEQFLTLAELLDLLAGAGREIGLAVEFK
+QPGPFGLQLEDAVLDLLASRGWDAGTSRLGSIQVSFMSFSPESVRHLGRTVGAEFLCQLV
+SDVDAAAVAEAEAVLPPESDARALLEAGLADAEGLIAAGTAGIAGPGVEYMHAHPERISE
+WVRLGRTVRAWTVDDPRDAEYAYSLGVREFTTNYPAGMRGILSEITAAKEPRARHQS
+>tr|A0A0P7GBV2|A0A0P7GBV2_9MICC
+MSAIRALAEDLAARSDEQLRELLTARPDLALPPVPDFQALAARASTRISVQRVLEKLTAP
+QLQVLEALDLTTNEDSHLSTTASWLKASISGSTIKSLDVILSYLHSLALLRRATPHPGAP
+KADAGRKFYLPVSVLGEALGAYPAGLGRPYSTLAAQQPEFGQRLVGIVEGLRQRGLPIEK
+ADTPSTAAHSLHHLVSDPAGWEALLADAPPQTHDLLRRFKYSPVGTIPRKAAISRAVLDN
+PSPTPVEWLVAHGLLVPLDALHVELPRPVGQASRGHVIVSDFQLDPVPPTPRPVPHNLRD
+NAAYGAVAETLRLVTELLAVAAEAPVGTLRSGGVGVREVRRVSDALRLDALATAWLLELS
+ALSGLLVLDAATSRWGAAETDWPTLDRELQWQHLVKAWLDAERAPSLIGAPLPGGGSVNA
+LAGELSRPDAPLVRRRMLEMFASLAAAESLEEAHSGAYDAEDLIGALTWHQPRLQRRFAR
+LVPGMLKEAAQLGLVGSGALTELGHAVAAGDFDRAAARLREALPEPLSSFLLQADLTAVA
+PGYLDPKVARQLSLVADAEGQGPATIYRFSANSVRRALDADMDAASILEFLAHYSATEVP
+QPLRYLVEDTAARHGRLRIGAAWSYLRSDDETGLNALMADPRAGALGLTRIAPTVISSAA
+TPQELALAIRDLGYSPVMEGRAREANGSHARPPVPAPSSSPTRINQWELGEDDLEAQLAA
+LRGRGPAVAPKGDESVPLVGLETLRKAIRTKSSVRMGVVDSQGNERQEIFVPLSVSEGRV
+RVFDPRRDVERVVSIHRIMDVEIVEGSPAHG
+>tr|A0A0P7HCD0|A0A0P7HCD0_9MICC
+MDFGNILLGAVNEFFTPTTAAYALAALGLAVHFGYTGLLNFGQAGFMAIGAYGFAIPTLS
+FNAPLPVALLIAMLASVAFAVILGLPTLRLRADYLAIVTIAAAEIVRYIVTTNGLTEVTG
+SANGLAAFEGGFYSLNPFAPGVYNLGPFSLNERDLWIRVVAWTVVALACVVIWLLVRSPW
+GRVVKGIREDENAVRSLGKNVYAYKMQALIIGGMLGSLAGIIFTLPRGAVQPANYGTELT
+FFLYTALLLGGMSTVLGPVIGAMIFWAVLSLTQGLLYGAIESGAITFLNTTQAGQLRYIL
+VGVALMLLMIFRPQGVLGNKKELSFA
+>tr|A0A0P7HVY4|A0A0P7HVY4_9MICC
+MITFDNVTKVYDRNSRPALNSVSLDVDRGEFVFLVGASGSGKSTLIRLVLKEEHATRGTV
+YVAGSNVAKIPSWRVPRLRRGIGVVFQDFRLLPNKTVFANVAFAMQVIGRSRAVIRDSVP
+EVLKTVGLEGKDNRLPHELSGGEQQRVAIARAIVNRPGILLADEPTGNLDPTTSLGIMKV
+LDRINQNGTTVVMATHDHDIVNAMRKRVIELRNGKVVRDEREGIYLATAMQPVVPAAGTE
+NPAADSNDAAAGDALRQGSPAGSEVSE
+>tr|A0A0P7GHT5|A0A0P7GHT5_9MICC
+MVKRVPARFRFRSEKDLEDYLETRLWHTGEDLLVIGRQLKIARNEIDLLAIDSTGLIYVV
+ELKLHASPSVIAQVLCYRRAFKGISRENLIRVVANGKLQIDLEEAFQQRFGHPLPENVQE
+LPALIIIAEDIHRYPAYSILGMLDSGEPVKAFRYEVEELTGAVRLVPCCRSARDVKEGTH
+IKKRPSARPGDMISGPRRPVRRVPIDENVRRFWLTHAQDFKPFVTFKSVYERYSDWVDAQ
+ADDDIHLYQSGHFGSQLSALTAESGEWTRVYIAPQDTMAVPSSPRTYRAMGYTRAAYQLN
+PVGADTEL
+>tr|A0A0P7FUB6|A0A0P7FUB6_9MICC
+MITVIGEALIDEVVSDTAPRRSHPGGSPLNVAVGVARLGRPVQFVGRYGTDAYGVLIAEH
+LKSNSVLSAQPADDRPTSVATAVLDPAGGARYTFDLEWDLPGLADALPRLLQGTTLLHTG
+SIATMLSPGAHEVLAAVERAHPQATITFDPNCRPTIITDVSYAREQAEKFVRLADVVKAS
+DEDLAWLYPDEPVEDSARRWLEMGPAVVVVTRGSKGPWAVAAAGTCEVPAVTVTVADSVG
+AGDSFMSALIAGLMDRDYDGAARRPELRRIGVGDLEALLAYAARAAAITVSRPGADPPYR
+SELL
+>tr|A0A0P7HCT9|A0A0P7HCT9_9MICC
+MTEEPADKPLTILIACDTYPPHLNGAAQFGFRLAQGMHGRGHNVHVLAPSPESGPSHSET
+DGLWTVHRLRSHGVPTHEYWRICLPWEIKKHISMLLDRVQPDVVHIQCHYMVGEYTLYEA
+RKRGIRVVATNHFMPENLDPFLPFPKWFKRIVARNSWRDMGKVMGQAAVVTTPTPLAAKA
+MVEYARLPDVMPLSNGIDASTYEPRPGESIDRPDHPTVLFVGRLAEEKHVDVLIDAVAKT
+PPELNVHAEIVGGGEVKSALIAQAKRLGIEDRVAFRGLVSDEELRQAYLRADIFCMPGTA
+ELQSLVTLEAMSASTPVLLADAMALPHLVEQGENGYLFEPGNSTEVSKRITEILELSEDE
+RAKMGRHSRAMVDSHSLESTLATFEKLYRAEGI
+>tr|A0A0P7HH34|A0A0P7HH34_9MICC
+MSPEEANRQQGDPAHRKEEAAADETRLLSAAETAGGALPPPAVPVPESELHPETGNESVL
+RRIVTGNALVSVLSVLMALVVGGLLIALTDEEVADAAGYFFNKPGDMLGAAWSAASGAYV
+ALFQGSVFNFEADTFSRMIYPLTQTLTVATPLICAGLGVALAFRAGLFNIGAQGQILIGA
+TLAAWVGFSWHLPVGLHLLIVIIAGAVGGALWGGIAGLLKARTGAHEVIVTIMLNYIAIQ
+LVLFLLTTPGFQRPGSTNPISPQLDETAMFPPLFGSGFRLHWGFIMAIAATVFIWWLLNR
+STVGFELRAVGANPAAARNAGINTTKGYVIVMLIAGALAGLAGVAQVSGTEKVLTSGVAA
+SFGFDAITVALLGRSSPWGTFAAGLLFGAFRAGGVTMQTSTGTNIDIVLVVQSLIVLFIA
+APPLVRSLFRIPPPGAFKTSGKRTTKKADAAQGAA
+>tr|A0A0P7GBB9|A0A0P7GBB9_9MICC
+MTDTIPTLPEILTAWLPRQRWFPAKGKDVVLRRVGGIKLADPRGAVQMNVHFVSVESGRR
+VDIISVPVSARPAPVEELDGALMGVVEHEEKGRQWFYDATADPVFVTAWLETMRAQASSL
+DGRTHGYALDGFADWDPFEEILPIRVLKGEQSNTSVIAATERAPVIVKFYRVLAAGESPD
+VLVSAKLTEGGSQDVPATFGWVTGSWQDVYDDAGSGTWVSGDVSVLREFVPNSEDAWRTA
+SSAAVSGRDFTAEAEELGAVTGRIHSQLEAAFGAHQPTPAEQAEFLSSLVRRLKWEWEEA
+RSYVGPYDQVVDQLLATVEELPALPNLQRIHADYHLGQVLHSPSRGWTVLDFEGEPLRPA
+AERSVPDVALRDVVGMLRSIDYAAAVAIIGSSGAGPEDLVENAGRKARAMAWAQSAADAF
+LRGYEKETGTHINRADPLYIALWLDKALYEVVYEIRNRPAWIEVPATAARQVLEELSLQQ
+DPPNGQEVSPVNKTPNSKSNQPKDARTDPAANPRHAAAAASGTATAVPDASGTDSSPASA
+PAPVGGNPLPVAQDVLDAVSNGSYYQPHAVLGAHLDDHGTVTIRTLRPLAREVTAVTTEG
+RVPLHHEHNGIWVGTLPAQTAGQVPDYRLEVSYDGVPPATFDDPYRFLPSLGEMDLHLIG
+EGRHEKLWTVLGANPHHYNSVLGEVDGVSFAVWAPNAQAVRVEGDFNAWDGRIHAMRSLG
+SSGVWEIFIPDVEPGSRYKFEILGQDGVWREKADPLAKGTEAPPLTGSRVVESTYRFEDA
+DWMTARAERDPHNSPMSVYEVHLGSWRLGLDYRELAKQLAEYVTWQGFTHVEFMPVAEHP
+FGGSWGYQITSYFAPTARFGHPDDFRYLVDTLHQAGIGVILDWVPGHFPKDSWALANFDG
+QPLYEHPDPMRGEQPDWGTLIFDYGRREVRNFLVANAIYWLEEFHIDGLRVDAVASMLYL
+DYSRPEGQWRPNQFGGRENLEAISFLQEVNATAYRRVPGIVMVAEESTAFPGVTSPTSSG
+GLGFGLKWNMGWMNDTLEYMSEDPVNRMYHHSKLTFSLVYAFTENFLLPISHDEVVHGKG
+SLLRKMPGDRWQQLANVRAYLAFQWAHPGKQLIFMGTEFGQEAEWSEQYGLDWYLTETPQ
+HSGVQLLVRELNDIYRETPALYARDNDPSGFQWINENDGAHNVLSFIRWDSQGNPLVCIA
+NFSGAPHEGIRVGLPWAGEWIERLNTDATEYGGSGVGNMGVVVAEEGGFEGQPASAALRL
+PPLGILYLTPRK
+>tr|A0A0P7HDV4|A0A0P7HDV4_9MICC
+MTVQAVILAAGMGTRLASPHPKSMTQLNDGRTIMEQQVGNLRSAFGEELHLTIVVGYKLE
+QIMEHMPDASFVYNEAFDQTNTSKSLLKALRNSYQGGVLWMNGDVVFDPAMFEELRPYIE
+ADQSFVAVDTSAVSDEEVKYTVDGHGHIDQLSKAVRNALGEAVGINYISAADKKNLLNRL
+AEVDDQEYFEGGIVGTIRHDGVAYLPVDISRYYAVEVDFAEDLDRANDEMHRSAQLTL
+>tr|A0A0P7GB43|A0A0P7GB43_9MICC
+MIQLSAIPGGTMRKTAAVPVLALLLLTGCTNAGSAASPQTASPSESSSAEQPAEADEAAT
+EATEEQICSELLGADGKGPLYQAISLMRIEDGTFGFVGSPDAAGSVDETLRGLAADAPPV
+LEPQLAELTQAMGGVLALAEPSTGAAVTFDPFAWTDTIGDILSVCARYEVGLAKPAAEGA
+SAAYPGYPMVVNASSVDYRVAAWFSGSLMDGRLVALAPGLYGPYNPDVPDLSLYYVSTAV
+AGDSAMKQAVFPGSGGTASWSGVRPGTEEP
+>tr|A0A0P7GJN5|A0A0P7GJN5_9MICC
+MSGGDIAGLIAAGVFAVLVALLAVPILKLGKVFDELRGSIKTLSDETTPLIDEVTTTVST
+TNLQLQKVDGISSNVSDASANVSALTSLVAATVGSPLIKVSAFTYGVRTALASRRPAGRG
+RRSR
+>tr|A0A0P7GLJ8|A0A0P7GLJ8_9MICC
+MNPAKDPAAPGPAETVTRLYSLLPGSFTAARNQEAAAAKSSGDAELGKRLKALPKPSAAA
+WLANMLVREESEAISSVLSLGASLREAQADLDRGELRRLNSERHRMLRALAASARELAEK
+LGNPVSAAVAAEVEQTLWAAMTDPEAAAALASGRLVRGLEANGWEPVDLDGAVADPDTAS
+PLVASGAASGSARGSASRGAGKEPAKEPSRRQEAARAKALRAAEEELADAREAAGEAERR
+LAGVQSEVEEQVTLRDGLTDEIDDLRERIRELEREVSAVDRRRGALERSRDTARREARSA
+RRAVEKAEAKLDGLR
+>tr|A0A0P7FWZ6|A0A0P7FWZ6_9MICC
+MQETQGTGPNEGAAPAAVIVLAAGAGTRMKSRTPKILHPVGGISMVGHALNAAGELHPAT
+LAVVVRHEREKVASHVAALMPGAMIVDQDEVPGTGRAVQAAMEAIDALSPVQGTVVVTYG
+DVPLLEAGTLRELVAVHNVDSNAVTVLTARVADPAGYGRVLRAEDGTVTGIVEQKDATAE
+QLAVNEINSGIYAFDAAVLRSALGEVSTDNAQGEMYLTDVLAIARAAGGRVAAVVTTDQW
+QVEGANDRVQLAALNAEHNRRNLERWMRAGVTVVDPATTWIDSTVTLDEDVTILPGTQLH
+GTTTIARDAVVGPDTTLSNVRIGEGAKVIRTHGSDAVIGAGADVGPFAYLRPGTQLGERG
+KIGTFVETKNAQIGTGSKVPHLSYVGDATIGEYSNIGAASVFVNYDGEKKHHTTVGSHVR
+MGSDNMYVAPVTVGDGAYSGAGTVIRKDVPAGSLAINVAPQRNLENWVAANRPGSAAAQA
+AERAQTQTSLSGTDNPTRESEQS
+>tr|A0A0P7HET6|A0A0P7HET6_9MICC
+MPNNEPCLSISGLIRDLGPVPGLDGKMIRVLAGVDLTARRGEVTALLGANGAGKTTTLEC
+AQGLQPIDGGEVRLLGEAPYGAGAELRARVGVMLQDGGLPPAARPVALLRHIASMYRDPR
+DVDSLVERLGINSFARTGIRRLSGGQRQRVALAAALVGNPEVLFLDEPSAGLDPQSRQIV
+FDLIQELRAEGLGIILTTHLLDDAQRLADYVYIIDAGRTVASGTVAELTARTAAHASGRE
+LTFEAPPGLKPALAGLEHLAFTEDTPGRYALRGEFSPADLAGLAGWWQDAGILPDSIHMA
+SRTLEDVFLELSGKEIR
+>tr|A0A0P7HIE9|A0A0P7HIE9_9MICC
+MPLVMPIYGTRPEAIKMAPIVAALQDSASLDHFTAVTGQHRSMLDQVNSLFGIVPDHDLN
+IFSPGQTLNGILTKTIEGLDKLFSVNRPDAVVVQGDTTTSTAGAIAAFYHSIPVVHAEAG
+LRSGDLFSPFPEEANRKITSQIASLHLAPTSTSRANLLKENIPSADIVVTGNTVIDALFM
+TVDKKVPFTDPALEELAAKGEKILLVTTHRRENQGEAMRGVGRALARIADAEPDLMIVVP
+LHKNPVVRAAVMPAIEGKKNILVVEPLPYGEFTRMLSMSHLVLTDSGGVQEEAPSLGKPV
+LVMRENTERPEAVVAGTVKLIGTDEDRIVSEVDQLLNDQAHFDSMANAVNPYGDGKAAAR
+TVAAIEQMLGVGSRIADFGDA
+>tr|A0A0P7HMI1|A0A0P7HMI1_9MICC
+MAEAFLVGGVRTPVGRYGGALSSVRPDDLAALTLRELVAREGLDPAVVDEVILGNANGAG
+EENRNVARMAALLAGFPETVPGITVNRLCASGLSAIIMASHMIKAGAADIVIAGGTESMS
+RAPWVTEKPTKAFAKPGDTFDTSIGWRFANERFVSGDLSRDGKMTYSMPETAEELASTDN
+ISREDADAFAVRSHENALAAIAAGRFKDEIVPVTVKGRKGDTVVDTDEGPREGTSMEVLG
+KLRPVVKPGGIVTAGNASSLNDGASAIIIASERAIKKYGLTARARIVDGASAGVPPEIMG
+IGPVPATQKVLERSGVRLDQIGAVELNEAFATQSLACIRRLGLDEGIVNNDGGAIALGHP
+LGSSGSRIAITLLGRMEREGASRGIATMCVGVGQGTAMLIEAV
+>tr|A0A0N8HXR1|A0A0N8HXR1_9MICC
+MSIETTLPMGDLINPGQNRLSRIQIVNWGTFDGAHTIHVDRAGTLLTGDSGVGKSTIFDA
+ILQVMDARPKMNEAAQNNGGTAAEEKRTAFSYMRGRLGTQGMEAGDGTAYQRPGATWSAV
+CLTFDNGLGQITSLSVLMDLPATGTEHHVGRFYAVHNRPLDITSLETGMRGRFTKGALES
+LLPGAQIFDSHKLFAERYRTALGVEDEKAFGLLRILQTGKGLGGTVNDFFRNHVLDTPKT
+LTAADEAVEDFSHLRSIRRQLERARQQRDHLANVPDQHRLFLTTKAELDRVRALTADGLP
+AYRRRLALASHERDVDRLTSAAATGREALKAAEKQRTKLKKQVAELTARYTQEGGGAIAT
+LEREVAAAQAQLVSRETVENAFRADLCAAGIDTDLSPAGLVTARSRANELIKTLNADVDA
+ARERSSDAHGEAWALKGSIAKLETEIASFRRRRSNIRPESLEQRARICEATGIDEAEMPF
+AGELIDVPAEHAQWRAAAERVLRPLSTALLVPGEHMPAVTRYLSETNLRGFLRCIDVSIP
+VDGPSEPGPRDLITKLSTYDSAMGDWVARKITAHYDFECVENPDELAKVSRGVSLGGAVK
+RNSSTTEKDDRHTKASDNVLGFDNKDKIAALAGELLALRASFEEADVVSRKHASEQDDLI
+RRLAAVRKVAADTREFEEISAEEHRAAVTAAVERLESARDANADLEQIRFELDTAELDLT
+AATEKIGVLKGDLARLEAELTAATERRDTLAGRGPDALAEDLRAQLDELFAPFGEITDVV
+HLNDAAGQVERNLLTDAARLDKTLLETRTRLERTFETYSEKWGSDFGTGVDSAEEYVHRY
+EDIVTEGLPQHESEFREYFNNRTYERFSDLLQLLDEERRSISARLLPLNSVLRRVPYHVD
+SHLEIEVKTTVPDDAHKFRMELKNALPMMGVRQDKADMDARYAALEGLVEKLKDPQERRW
+RAEVLDVRAHVTITCTNKLANGQSFTNLQASLMSGGEGQRFTAFIMASALAYQLGIVSQG
+FSTYGTVMMDEAFVKSSLSFAEASINALHEFGFQLLLAAPEDKVDLSRFLGSVTEILRDD
+AANRSGTLERVPVGSSGGSRAVDILLR
+>tr|A0A0P7FEU9|A0A0P7FEU9_9MICC
+MSAEPAEEYLTPHQENLERWDEVLTQLEDNLVAFMDGTTVLDQARTVASAWHPPHELGPL
+PAELATRARLLSMAQQRAYAQLRSESRMIRQQAELIRSVPSASSGGAVYLDVAG
+>tr|A0A0P7GCY9|A0A0P7GCY9_9MICC
+MTSPGGPAPFSSAGEGPNASTGVLLSHGFTGSTVSMLGWARYLADAGYAVSLPLLPGHGT
+TWKELARTPWQRWYEGYEDAYRELSGRTERVVAAGLSMGGALALRLAALQPVAGVAVVNP
+GLTVADPRARYAHLLKYVMPSVPAIGNSIRMPGQDEGAYSRTPVGAVAELLKLFRNTAEL
+LPRVNAPVIAFRSAVDPVVPESSMDVLRERIGTSELEVIPLANSYHVATMDHDAQLIFDR
+SHEFIQRVSAGAPA
+>tr|A0A0P7GCR6|A0A0P7GCR6_9MICC
+MAFGRRRKDRAESGYVPGAEEADGGSAADGGPEHGPFDVADRPSEDGYVDLGALRIAATQ
+GLALRLEVEEKTKRVVAVTLDMDGSSLQLQAFAAPKSETLWDEIRGQIVKSVSSQGGTAD
+ELEGRLGTELLARVPAQAQDGSKGYRVARFVGVDGPRWFLRGVFGGPAAMNPDAAAPLED
+VFRNVVVVRGDAPLPPRDLLQLTLPRDASPLPKRGEEASKPEPPQRGPEITTIG
+>tr|A0A0P7G4X1|A0A0P7G4X1_9MICC
+MQPRGSAMRAWSNPALESRRSWHTKTVGNFLAHEPTRLACCYLRITGNSQRIRVWACLKD
+TRGTQVFHSGEICCCGSGYLTAKSDMTISVADFQAAAFRLSEAA
+>tr|A0A0P7HGY7|A0A0P7HGY7_9MICC
+MDYLPAEHPRPRHFILHLSDTHLLAGPQPLYGSVDSRAKLLSLFERLSAAERKPEAFVFT
+GDLADKGEPEAYDELRSIVEPAAEQMGAKVIWVMGNHDKREHFKERLLDEAPDMAPMDRV
+YEVNGLRIVTLDTSVPGYHHGELSDSQLSWLRSVLRTPAPDGTILALHHPPVPSVQDLTV
+LVELRHQRDLAAVLAGTDVRSIIAGHLHYSTFATFAGIPVSVASATCYTQDLATPGTRGQ
+DAGQGFNMVHVYEDSVVHSVVPLEESATVGERVDETETRRRLEAAGRRILDARSLSNA
+>tr|A0A0P7HNW0|A0A0P7HNW0_9MICC
+MTAPGPRLVLATRNAGKLRELRELLRGRIEGLDVDTQVIDAAAAGVPDVPETGVTFEENS
+LLKARAVAAATGLPAIADDSGLSVDVLGGAPGIFSARWSGVHGNDQANLDLLLAQLADIG
+PEHRGAAFICAAALAVPGGQDVVEHGELRGTLLAQPRGSGGFGYDPILQPVGETRSCAEL
+SGPEKNAISHRGQAFRALLPAIVRVLAGSEPEQLT
+>tr|A0A0P7FWT3|A0A0P7FWT3_9MICC
+MWVFIALLLGMLISSDLALPWKLLPLILGIAALVVGIMTLVKVVRFGMGGFMRIVVSMGI
+AATAFMTIGLAAMVALWPMTEKYETCMQSALTVQATETCTKDYLSFGGMISQP
+>tr|A0A0P7G059|A0A0P7G059_9MICC
+MTTTTPEQAKTPAPPPAGGHGRKRMRIDLSQYGILAALVVIVLLFQVLTGGRLLYPGNVS
+NLIQQNAYVLILAIGMVMVIIAGHIDLSVGSVVATVGAIAALAMNNWGMPWWAAVILSLV
+VGALIGAWQGFWVAFVGIPAFIVTLAGMLVFRGVALILLTGGTISGLPRPFNAIGNGTLP
+ATGTPDLLTLGIGALASVALVVQQLKARSDLRKLDLPRERTASFVFKNAVAVAAIMYLCY
+LLAFNRGTPIILIILAALVLAYSFLLNRTVFGRHIYAMGGNLNAAMMSGVKTRWVNFMVF
+VNMGFLAGLAAVVSTARAGGAVASAGGGFELDAIAAVFIGGASVQGGVGTVVGAVIGGLV
+MGVLNQGLSILSVDAAWQQVIKGLVLLLAVAVGFARRGRRAR
+>tr|A0A0P7HHE6|A0A0P7HHE6_9MICC
+MDLPTPLALVLVIAGLWSILVWPVFLKRVLKDPQARDANGAPTRFLTTNLMMISTAIIFA
+LATAVIGVRGLIS
+>tr|A0A0N8HYY1|A0A0N8HYY1_9MICC
+MNLGRAARRSLAKLVGAFAGARVVTAAGEPGLDLPEQAIYYANHSSHLDFLTIWAALPAE
+LQRRARPVAAKDYWGSGVRRAFAERIFNAYLVDRHGSSSSRQRTSDSGVSPKGQVEGMAE
+VLAAGDSLIIFPEGTRGEGDTIAPFHGGLYKLARLHPEVPVVPVTLANLGRILPKGEVIP
+VPHLSTVIFCEPLHLGPDEDRQTFLTRARHVLVEGLAKHQGPQPADTAGLADGHSAPPSE
+TRQDNP
+>tr|A0A0P7FDL4|A0A0P7FDL4_9MICC
+MSTETANVNPGPASNAEIFERFYGVIPAGGVGTRLWPLSRAAAPKFLHDLTGSGSTLIRA
+TYDRLAPLSDDRVMVVTGQLHRTAVLAQLPEIQHENLVLESEPKDSGAAIGLAAAILYRR
+DPSIIMGSFAADQVITPVEVFQETVREAIHTAAQGYIVTIGIHPTHPSTGFGYIKAGEAL
+EVDGAPSAHAVLEFVEKPSEDTARGYLRSGNYSWNAGMFVAPVALMLKHLQANEPELHAG
+LMEIADAWDTENRREVVLRVWPTLPKIAIDYAVAEPAAAAGDVAMIPGIFSWDDVGDFAA
+IGRLNPAAENSELTVMGEGARVYSEDASGIVVSDTKRVIALIGIEDVVIVDTPDALLVTT
+KDHAQEVKKAVEHLKASGDTDVL
+>tr|A0A0P7HEW1|A0A0P7HEW1_9MICC
+MQIRAARKEDVPVILELIQELAVYEKEPDAVRNTPQALAEHLFAEHPAVFAHVLEDDGGI
+QGFALWFLNYSTWEGVHGIWLEDLYVRQESRGRGYGKALLRNLAQLAVERGYARVEWCVL
+NWNEPSIRFYKSLGAQPMDEWTTYRLTGGALEDFGTPGAA
+>tr|A0A0P7FZN4|A0A0P7FZN4_9MICC
+MSAEDLENYETDMELQLYREYRDVVGLFSYVVETERRFYLANHVDLQARSADGEIYFDLT
+LQDAWVWDVYRSARFVKSVRVITFKDVNVEELTRNDDLTLPKAEELG
+>tr|A0A0P7HES6|A0A0P7HES6_9MICC
+MNLLDSLSGGTPGEDRARCSRKGCRADADWQLLWNNPRIHTPERRKIWLACGEHRSWLEE
+YLQARSLWKETLPLAGDAGTESDTP
+>tr|A0A0P7GSW2|A0A0P7GSW2_9MICC
+MTMENKPLTAFGTVLVANRGEIACRVIRTLRRLGIRSVAVYSDDDAGARHVREADTAVRL
+GPADPRRSYLDAEAVLAACRASGAQAVHPGYGFLSENSSFARLLAENGIAFMGPGVKALE
+LMGDKIASKNHVSGYGVPVIPGIAEPRLSDADLLAAADAVGYPLLIKPSAGGGGKGMHAV
+SAPDELPGALASARRVAAAAFGDDTLFLERLVSAPRHIEVQVLADTHGNVIHLGERECSL
+QRRHQKVIEEAPSVLLDSATRERIGAAACEAARSVDYTGAGTVEFLVSGEAPDEFFFMEM
+NTRLQVEHPVTEMVTGIDLVEWQVRIAAGEPLELSQAEVRLDGHAVEARVYAEDPAAGFL
+PTAGRVDLLREAAGAGVRTDSGLLAGQTVSSSYDPMLAKVIAWGADRQQAMDRLDAALAG
+TVILGIGTNIEYLRLLLADPAVQAGDLDTTLIERRLPELAFQEPGDLELAAAALLKLAGL
+RGGVHGTHGKLAGAAAPWNRADSWRIGGPRPLSVAVTAAGTERTAEVLGSPDAARLNIDG
+GPERSAGLEVDGSLLRLELDGVVHTLHFALVPGAGGSEVLWTSREGYTAVLDLPDRTERL
+RNQLAAAGKTEGAADPVLRSPMPGTVVTVAAADGDTVEAGQVLLGVEAMKMEHQLSAPVA
+GRVSLALRPGDLVKAGQVLATVTPLDETEPPTQGAGHAQL
+>tr|A0A0P7G5W2|A0A0P7G5W2_9MICC
+MFGINGYELIILAVLAVAILGPERLPEYASQLARLVREMRRMASGAREQLREEVGPEIDE
+VDWRKLDPRQYDPRRIIKEALLDDVEDAVRPAAARSAGSARPVAERAGAAPAGSAPAFPS
+PAAPPPVQRIERLAAGERPPFDVEAT
+>tr|A0A0P7HDB1|A0A0P7HDB1_9MICC
+MSAGKVVVVGSLNADLTVRTDRFPSPGETLNGSELVIVPGGKSANQAAAAAILGADVRLF
+GAVGADGNGDLLLEAAAAAGVDASRVLRRTGTATGTAMIVVDASGENTIIVSPGANGTVT
+GEELPADLFDGAAVLTLSLEVPLEAVTAAARAGHDAGAQVLLNLSPYREVPAELLELTDV
+LLLNAHEAALVTGLADPAADWEAVIAALDALGVRRTIITLGGDGAVVLDGTTAGDQRVAT
+VEPTRVTAVDTTGCGDAFTAATAARLAAGEPLADAARFAARAGALAATREGAQSSYPVLR
+DLLEQDAPA
+>tr|A0A0N8HY32|A0A0N8HY32_9MICC
+MLPRDWWWGFVPFTALSVVHVAARAVEADWLAAPTKLTLMPLLAVAALWGMRKLRFGAPA
+ALILAALFFSWIGDGAATFLPQLPELPVMLGSFGIAHLCYIRLFWKYAALGRFPRWALVF
+PVWWVLMLVLLWPALGSLAIAVALYGLVLGGTAATAARCNPVIAAGGVLFLASDTILAFR
+IFMPESMPDITSALVMLTYCAGQGLIIAGYLRGSVPGKPVSRG
+>tr|A0A0P7HKG0|A0A0P7HKG0_9MICC
+MSQKPADLDPSFPPSSGAAVYPGLDNWRSLPISQQPTWHEDPGYAAAVAELSMVPPLVFA
+GEVDILRDRLAQAAQGKAFLLQGGDCAETFEAATADKISARVRTILQMSVVLTYGASLPV
+IKMGRMAGQFAKPRSSNEETRDGVTLPAYRGDMVNGYEFTPESRRHDPARMVRAYHTSAS
+TLNLIRAFTQGGFADLRLVHHWNRGFTANPAHSRYESLARDIDRAVRFMDVCGADFEALK
+RVEFFASHEALLLDYERALTRIDSRTGYPYDTSAHFLWIGERTRDLDSAHVDFLSRVRNP
+IGVKLGPNSTAEDALALIDKLDPEREPGRLTFITRMGAKNIREKLPALVEKVTASGAQVL
+WVTDPMHGNTVTSPNGYKTRNFDDVMDEVRGFFEVHNELGTFPGGLHVEMTGDDVSECLG
+GADPVDQEAFADGYESVCDPRLNHMQSLEMAFLVAGALAEKN
+>tr|A0A0P7FDU9|A0A0P7FDU9_9MICC
+MDTSRFIEDLQQVPDYLDRMAALLDGGYPGLAELPPAGRILILGMGSSAYAAATAARKAR
+ADGFNVQVELASTELLPAPAPDLLVVAVSATGTSVEVLAAAERYRGSGGLVAVTNKPDSA
+LAVMADYTVLMNAGDEVSGISCRNFRHSLLVIAAILERYGASYGVLSEAASGAAAGTQSL
+LERADEWLPEVSRALQGPDGTFLLAPAERFSSAAQGSLMIREVPRRPAFGSETGDWSHVD
+VYLSKTLDYRALLFNGSRWDQQALDWMVPRGASIVAVGGSFPEASVSVTYPGQEQWLVSA
+LVETLVPELVAWDWYVTDPGFSWSAWLSREAAQ
+>tr|A0A0P7FGG3|A0A0P7FGG3_9MICC
+MSSTAFSSPADQLAAPEDSAAWLRLKDAATAFAQFQEQDGSVPAEHRETAAPLVETVRDA
+VAELAPAFGHDAEYLDLVVRDLNRWLQDGLGVPDFLDSLLAFQPQLDRTDGLLHLVVFPM
+YTQNGSRSRLLEAVLVEVIWPEFIANLEAGEYSNKLFVPIRFRDFTPGYDTNSAVLFPET
+VAVRETPSFTWGAIFADREAARFRRVLRAAAEITSLELPEGAAELLDNQELTEETFVMWD
+LIHDRTHMRGDLPFDPFMIKQRMPFFLYSLEELRCDLTAFRESVKIQNDDDADPKARSTA
+QLVQYAVIFDRIFRFAITGSRVRNYDGLGGQLLFAWMHQHRVLHWTDGRLSIDWDEAPAV
+VIKLGQEIEDLYWRSIDRPKTAHWLAAYTLISSTLTPHPASRWAKGPDALPLDGPPRALT
+DQVLDDEFPLSMFYEALSKKMAPVIESTAGITGSSTS
+>tr|A0A0P7GWB4|A0A0P7GWB4_9MICC
+MDSQLGSIDWSVLPKGSVRLGLTVPSGVLAADAMGDPGCPPVVLVPGVMGSKEDFSLLMP
+LLAAQGYYVLAYDLAGQYESAAAGPENLTPPRDHYDYDLFVEDLYAVLQTLREPAHVLGY
+SFAGVIAELGLLRYPELYRTLTLMSAPPEPGLAFRSVSILGRFAPLVSGPASADLIVWGV
+KRNFARVPASRMDLVRRRFQVTRRQSIRDIITLMRHVPDVRAQLAEQALPKLVAVGEHDV
+WPNRVHAGFARAIKARLAVYRGGHSPCETAPNQLARDLLALYADGAPPAVG
+>tr|A0A0P7H644|A0A0P7H644_9MICC
+MMTLVGTAATVVLLRDGEHGIEVLLLERPRHTGTFAGAWVFPGGRVDPEDYDAAGSVPPD
+LEAEPRNPEKDLPAARIAGVRETVEETGLELAPESLVELSCWVPPLQAPKRLRTWFFLAP
+APAGEIRLNPGELIDYAWLRPGDALQLHRTGKMLLVAPTFVTLTLLQRFQDAAAALEHAA
+GAVPETFSSRLLDGYEPDAVIAWHGDEEYPGEGTGQSGDRHRLVMRGSDWRYERN
+>tr|A0A0P7GJB2|A0A0P7GJB2_9MICC
+MGLAVPAAVAFLASLLLPFAFIPLLRRLGVVDVPNERSSHTKVVIRGVGATIGAGVLLGL
+AAALVTGYVAVDRSLVLLLIGISGSAALLGWVEDFRGLSVQVRFGLQLAIGAAGTTALAA
+ALGQSFWWVPVGTLVIAGYINVANFMDGVNGISGLHGLAVGVLYAVAGVLSDQVWLTVAG
+TVIAAAFAAFLPWNLGRGSVFMGDVGSYLLGASIAGTAVAAFLAGVYVEYLLFPILIYVL
+DTFTTLVRRIWRGERWYAAHRQHVYQRLTDAGLSHLQSAAVVTVCTVLVGSTGLVTGGSG
+WGITAAGTVFVAAVAALYLASPRIAARLRQRART
+>tr|A0A0P7HDK2|A0A0P7HDK2_9MICC
+MPSFKLPSVGAYAPPSSSAEREPPSSPDRESTASSTNSRGGVSVRTLASGAFQLLRRALA
+ARVASSGALVDEQEQRQLSLLSHYSFPPGKGQ
+>tr|A0A0N8HXM2|A0A0N8HXM2_9MICC
+MSVKLLHRPARTTPPARSMEAFTLDAPPQIEGGKGGMNMMSLVPLLGAGVSMTVMMLFRG
+SPLAAVGALMMIVTILASIVMMVSQRGKQGRARREQRENYLEYLERCRTTLRVQEQEAAA
+VARAANPPPEALFDIVRNHRRVWERRRHNEDFLRTRIGTGTRSNREITIMDSGSALARDD
+TFMTAELQILKRRYEASPDLPVTVPLDGAGTVSVVGSREFVLQVSRLLLLQSAAFSSPED
+LHLAVVSPEQTRADWEWATWLPHLADQDKTHRTGPVRRIAPSMDTLADLVQDDLSRRSNM
+AAEARKNFLRGGIGSALPRLLVVSDSYGTLPSELPLPDRQAAPGQLGITTLHLAGDRGQE
+PGEVAVRISETDSGFLLENYREDPVQPRLDTGTLDSLPVALAESLARTLAPLRLSPDSLE
+HESTGSSEGFLDMLGLSPQLDEADIRRLWQPRSEVDFLRVPLGADDRGRPALLDLKESAQ
+FGHGPHGLCVGATGSGKSEMLRSLVVGLLATHPPELLAMVLVDYKGGATFAPFADAPQVT
+GVITNLSDDVSLIERVYASLSGEIQRRQEVLKDAGNLANITDYQLHRKHRQGQGEELPPL
+PHLVVIIDEFGELLTARPDFIELFLSIGRIGRSIGVHLLLSSQRIEGGKLRGLDTYLSYR
+IGLRTLSESESRTVLDTPDAFHLPPVPGFGYLKVDTTTYTRFKAGYVSGPLEDAAAPAEQ
+DVDEQPPVLEVPRYAASLESSRDGGAPAPASTSSSKRTTGPTVLSTLMDTLARFPRAVDP
+IWLPPLPRGLALDTAAGGVLTTSQGLRLNAGGNLSIPIGLLDDPAKQWQGIWNLDLAANG
+GNAAIVGGPSTGKSTALRTIAASLALTHTPSEAGIYAVDLLGSSLLPLEGLPHVGGVAVR
+TNREVVRRTVDEVLGMLTQRERIFEKHQIDSLGTLRTLHAQGRIPELPSADIVLLVDGYG
+QLSDEFEDIEKSVHALISRGGGYGIHVVVTCSRMNEIRIAQQSFFGNRIELRLADPGESA
+HGRKLAEALSPGTPGRALTDRKLQGHIALPRIDGDPDEGSAIQGTRDLVAAVAASTDGRA
+MAVRVLPAVAPADPAAVPSVPGLVPLGLRETDLGTENLDLQGREHHLVVMGDDASGKSNV
+LRSVVRTLAAQHTAENIVFAVFDPRRALAGEVQEDYLGGYATSAALAEKLAAAVASELEK
+RVGASPEEVAAAPRVVLVIDDYDVLTAGGSSPLARLTPYLPLAPEIGLHAVLSRRVRGAS
+RGMYESFFTALRDSGSAALILSGDRTEGGLINGVRARTLPPGRAQLIQPGRPVQMLQLFL
+NDPASAVAPVGGQ
+>tr|A0A0P7G8V0|A0A0P7G8V0_9MICC
+MATDRKSGSTGRIARTAERAADSKAFERAARMGYVASGVLHALIGFIALQIAGGGGGDAD
+SSGAVAALADQPGGIFLIWACFLGCLALALFQASRVFLDSGQDRKEIWKKRATDAGSAVV
+YGAIGVSFGVFALGGSSDSEQSQVTWTARILSQPAGQVVVGLAGAVIAGIGVYFIYKGAT
+RKFRKDLGPIPERTWQRTATATGIAGFVAKGVSLLILGGLVVAAAVTADPEKSTGLDGAL
+HTLHEAPLGWLALGAVGVGLVLYGLYMALIRARFGKL
+>tr|A0A0P7GWU4|A0A0P7GWU4_9MICC
+MSSSNTSMPAEWAPHERTWMAFPRPNDTFGEPGSDTLERARTAWSAVARTIARYEPVSVL
+ADPSDLDAARESLGDGIKVVAAELDDAWLRDSGPTFVHTADGSIAAVDWIFTGWGAQDWA
+AWGKDSQLGRFVAGQAGTPVHASTLVNEGGGFHTDGEGTVLLTETVQLDPGRNPGATRES
+VEAEVHARLGTSKAIWLPRGLTRDYDEFGTRGHVDIVACFSSPGTVLLHRQDDPAHPDHE
+VMQEIRAVLEEATDARGRKLELIDVPAPTVIDAGDGFVDYSYINHYVANNVVVLCAFDDP
+NDAAAAEILGRAYPGRTIELVDARDIFEFGGGIHCITQQQPAALGAGREAGA
+>tr|A0A0P7H894|A0A0P7H894_9MICC
+MKNANWTPVSTHAHELGEGLRRTADGARWVDLVRGEMYVWFPGRSPSLTHSLDRPLGFAE
+EDRTGRLIAAAGTGVVELLPDGGAVQLADTGLDPERYRINDGAFAPDGSLWFGTMVHDGS
+EPDGAVWRWDPESGGVVRLRSGIPIPNGPVFLPDGHSVLISDTDRGRILRTTTADPGSVE
+EFARVPEENPDGMHVDPDGRIWSAVWGASRLDVYSEDGERLTSVPVPVRQPTSVLVTGEL
+VLVTSAATGLSDPGRLDGYTLTAPLSEVLG
+>tr|A0A0N8HY51|A0A0N8HY51_9MICC
+MTVTLRSLETAVPSTVLVQDQVRDVFAAQPGLTRLGTRLVNTCFNSAAIDTRRTALEELT
+LSSTAENPQFFDPKTGLLLMPSTKTRNDIFATEATKLFIEAGRKAVENCPGITAADVTHV
+ITVSCTGFFNPGPDYKLVRALGLNPSVQRYHLGFMGCYAAFPAMRAAKSFCDADPNAVVL
+VVSAELCSLHVRSSNDPDIIMGSSLFADGAAAAVITARDLPGESPAIVLDHFETTLTPVG
+EESMAWNIGDHGFEMVLGTYVPHIIDDHIVGALEPLLARDPSLAPLAYNDIEHWAIHPGG
+RSILDKVEAKLELSEEQLVPARETLRDFGNMSSATVMFVLKHILDQPFNGGNERICSMAF
+GPGLTVETGLFTRVPGTAAAAEEHTLAAEPVPAPVG
+>tr|A0A0N8HYX7|A0A0N8HYX7_9MICC
+MSSNTHPPVTLTIAGSEATGGAGAQADLKTFQELGTYGIAALTCIVSFDPKDNWNHRFVP
+VDSQVIADQLEAIQTAYDLGTVKIGMLGTPATIDTVAKALQSQDWTNIVLDPVLICKGQE
+PGAALDTDQALKAQILPLATFVTPNHFESMSLAGMDAIESVEDLKEAARRIHEASGAVVL
+AKGGVRLEGEDAVDVFYDGQAMEVLRAPKVGDVAVSGAGCTLAAAITAELAKGATPLEAA
+RTAKAFVTEGIRNRVSSNTPFDALWQGGAASGPAL
+>tr|A0A0P7GTB8|A0A0P7GTB8_9MICC
+MKPVAFLGILLMFAGLIGCGLCFVFWAGTPSLQPPPGVAFLYVALSVLSVACIAASLFIR
+RRYQSGPR
+>tr|A0A0P7GTQ2|A0A0P7GTQ2_9MICC
+MALVLILQNLIYLVLGIVALVIELWAFADCARRKPADFERAYKRTKGFWMGLTGGAAAVG
+LLSVLLFGPLALLLFELAAVVAASVYLADVRPALNESKGRGGAYGSW
+>tr|A0A0N8HZ42|A0A0N8HZ42_9MICC
+MFMKVTEFIDDSAIIQPKVQPKPFASRRIHERCQFCMVESKWMLPYIHSVCFQNHCSKNT
+AN
+>tr|A0A0P7FF10|A0A0P7FF10_9MICC
+MRSGAKTAVLDEAAAAAPFTAQSASRSDPRADRSYRRKRAIAWTLTVLVVAAVPTLITLL
+VLFG
+>tr|A0A0P7FX05|A0A0P7FX05_9MICC
+MPTLLLLGAGGLGREVLAAIRMTGEYRITGFLDDDPALHETVVDGVPVLGGLGGAAGYPR
+SRFLACAGSGTARAGMVQTLAGMGIGEDRFATFIDPAVRLTGSCAVGTGSILLAGTVLTA
+AVAVGRHVAVMPNCTLTHDDVVEDYATLASGVCLGGGARVGSGAYLGMGATVRQGVRIGA
+GALVGMGAAVLRDVPGGQTWAGVPARELRPLAPSLQFPISEPDTSWKDPR
+>tr|A0A0P7GBC1|A0A0P7GBC1_9MICC
+MARQLTVTVSFIVCIIGSVIGVGVFGGTRIAEAAGGALSADATYLAPASPAFSIWSVIYT
+GLGAYTIYQWFPSQRATPRQRSLGWLVAASLILNAAWILSVQAGSVPLSVVVIAALLVVL
+AIIFKRYSRSRPDSLLGAVVVDGTLGLYLGWVCVAICANIASALTSGGFNGFGLDPVIWA
+FIVLAAAAAVGVGLALYGRGRLAPAAALAWGLSWIAVSRVNGELLSTPTAVAAAAAAAIV
+VIATAGARVAAIRRG
+>tr|A0A0P7FY81|A0A0P7FY81_9MICC
+MTDSQKSDETTGTAPENQRPTAPSPAAFAARRPAPAPAAPRAGSNAPAPAVAAPAAHTTP
+LEEAAKFARVEEDGHVFLIVEGEEFAVGQYPDATREEALGYFVRKYDDAVSQVILLEQRL
+AAKAPASDMYKTLKHLAAQVAERKMVGDVLALDARIAALEAGIKEAEAAERAEAEAVRAR
+ELAAREAIVAEAEEIAAKDPATVQWKTSSNRMNELFEAWKAAQKNGPRLGRSNEDALWKR
+FRSARTVFDRHRRAYFSQLDNENAEAKRAKEALIARAEALSTSTDWGNTAADYRQLMDEW
+KASKRASRKDDDALWARFRAAQDKFFAARQAANEVIDEEFAANLVVKEALLKEAQEILPV
+TDLNAARKALQSIRDRWEEAGKVPRADMGRMEAGIRKVEEAVKAAEDEHWQRSNPETKAR
+TNSALAQLEAAIATLREELAAAEKDGDAKKIANAREALEAREQWLETLRRSAQDFS
+>tr|A0A0P7G7Z9|A0A0P7G7Z9_9MICC
+MPGVPSQLRVDAGLVRGLLQNQQPHLADLPLLEVGDGWVNHVFRLGGEHAVRLPRREDAA
+ALMAKEQQWLPALTAGLQTDTSTPVYAGVPEESYPYPWTVSAWFDGLDVSLQPRDRNESL
+ARPLAEFLNAFHRPAPQDYPRNPVVGGPLLSRDEAVQERLHAGMVPRAARIGELWAEAVQ
+LPGWNSVPLWLHGDLHPANLIARDGTLQAIIDFGDLTAGDPAADLAAAWLVFDAAGRRSF
+RSALGTQYDGDPFVWLRARGWALCVASNLLAGAQRHPGLYLVGSETLMEILTDDLSWL
+>tr|A0A0P7G9T0|A0A0P7G9T0_9MICC
+MSGHSKWATTKHKKAVIDAKRAKSFAKLIKNIEVAARAGGADMAGNPGLELAVQKAKKTS
+VPIDNINRAVKRGAGLLGEAVDYQTIMYEGYGPQGTALLIECLTDNKNRAASEVRLAVTR
+NGGNMGDPGSVAYMFTRKGVVTLPKKDLTEDDLLMAVLDAGADEVKEAGENFEIISEAAD
+LRAVVAALEEAGIEYDTDEAEFLPSMHVELDADNARKFMKLVDAVEDLDDVQNVYSNADI
+SADVLAQLEED
+>tr|A0A0P7GWH0|A0A0P7GWH0_9MICC
+MPIGKVKWFDTGKGFGFLATDDGQEVFLHASALPAGVSEVKPGTRMEFGVADGRRGPQAL
+SARILEAPPSVVKATRKPADDMAVITEDLIKLLDGISNGLRRGRYPEKKHAAKVAAVLRA
+VADDLDA
+>tr|A0A0N8HY46|A0A0N8HY46_9MICC
+MLGTTPGPRQRSLRHAGTETGTPPTGSRPPAGDPAPRDAAAPGTAAEQHVLPAQAVIAGH
+WPVSFYRQERILQLPDQNGTGA
+>tr|A0A0P7G7M2|A0A0P7G7M2_9MICC
+MIEAHGLSKRYGSKTAVDNVSFTVEPGKVTGFLGPNGAGKSTTMRMIVGLDRPTAGTVTI
+NGKPYAKHKAPLHEAGALLDAKAVHTRRSAYNHLRAMAATHGISNKRVNEVIELTGLEPV
+ARKRVGGFSLGMGQRLGIAVALLGDPNTLILDEPVNGLDPEGVLWVRNLARGLASEGRTV
+FLSSHLMSEMAVTADHLIVIGRGRIIANAPIQDIIDGGGRQRTRVRTDHAADLLPVLEGR
+GAEITRVEDGLFEVSGADSRSIAEIALDRRILLTELTPIQVSLEDAYMELTRDDVEYKSH
+GFSQEPASAEPVVEGTRA
+>tr|A0A0P7GI47|A0A0P7GI47_9MICC
+MTEISPWNPVVLFSKPEEERAGTPLLVLFHGYLANEEDLMGLAGHLPEEFTIASVRAPQA
+LGPGYSWFPLMHEPDYSVDRVVSAVQDVSDWLDGMREQHSSVSLLGFSMGMAVASTLLRH
+RPEEFAAVVGLSGFVVPAEGNGFFHDEELAALKVPFFWGRDQADPVIDAERIEYTHAWLN
+GHTKLTKVLYAGMGHGINMQELGHVREFLTHTVLGSR
+>tr|A0A0P7GKI6|A0A0P7GKI6_9MICC
+MGETQARAERSPVGVDLGDAVRAADAAAGVSLLCAVGAGAVLALLCELSGNGGFTPPWEP
+LDLSMLLPGELYTLSILVPFLVPAALIFCAYFFVARTESRLKLRRQRGALALLGFAAVLL
+GPPLGGSSFSGVYGVALLALAVRTRETLTVATGVMALAAYVGTFSFLSAGWSVLPVLGFM
+AAAALTAAARVGKSG
+>tr|A0A0P7GIP7|A0A0P7GIP7_9MICC
+MEEIKEPVQLALGDGKLNPAAAGFSRAPLHAFADLLQGLRHGWRTKRWEYWGVLTPDLVL
+GMTIAHLDYAATLQLYVYERTTGKVISLAPLALPPGSSAVLPDTLPPLTAVGTTGGLHLR
+FHDDDGGTHLRAESPRVGVELYAPAEGDVLGVVVPWSDARYQYTLKDVARRVSGTITVDG
+REYPVGDGAFAVLDRGRGRWPYSRRWNWAAGYGTTEGTRLGLQLGGMWTAGTPATENALI
+VDGVLHHYDGELEFSYDLTDPQAPWHVRGDWLEATLTPFHRRLAATNAVLVASKTWQAFG
+AWSGWAAAPDGTRYDLEGVHGWIEEARNRW
+>tr|A0A0N8HXX0|A0A0N8HXX0_9MICC
+MRHSPKGVTIHPDFDALVSATAGRLITKLIDVQSRRGEATVVLTGGSAGEAVLASVAAAP
+ARTAVDWKRVNFWWGDERFVAPDSPDRNALAAQKAFLLPLGADQDRVHEVPSTAEAATVE
+EAAEIYAAELERAAQSEVLADGFTEADPRLPRFDVLLLGVGPDAHVASLFPEMAGIRTTG
+QTTVAVRNSPKPPPERVSLTLEAINSAEEVWLTVAGEDKAGAVGLALAGAGPVQVPAAGP
+RGQQKTRWLIDQAAASQLPDRLLEAGDHES
+>tr|A0A0P7FAR2|A0A0P7FAR2_9MICC
+MRTDFDPAEMGGRSFYRLLTSVVVPRPIAWVSTISSSGVDNLAPHSFFTIASVNPPVVSF
+TSVGEKDSLRNIRETGEFVISLTPEDLFEAVNATGTGFAADVSEFDAAGIAREPSATVRP
+ARVAGSPVALECRLHEIHPVGDCFVVYGEITRAAIRTDTLDGDSHPRIEALRPLSRLGLN
+EWGTIGDVREITRIPADEWPGHYRRV
+>tr|A0A0P7H378|A0A0P7H378_9MICC
+MNVRTPDPYPGWLSEEDLHEARQRLPMVYVEAVPVRCDPLGYVTEVGLLLQATPEGKMVR
+TFVSGRVMYRETIRAALLRHLEKDLGPMALPQLPPSLAPFAVAEYFPSPSQTGLTDERQH
+AVALAYLIPVTGECDPRQDALELSWLTPEEALSPAIYSEFSGGRGDLLRQALASAGWGR
+>tr|A0A0P7FUD8|A0A0P7FUD8_9MICC
+MNRPVLLASGTGPYPHRDALSDLMAMAADTNGSAVTSLLLLKPAADAAELPGSGRTLGLL
+ELLATLGAADLTAARVVEPHLDARAILAQAGELPAGHAGPPGGIDFASGTWGVYAAEAPG
+QELRAEEHDGAWQLSGRKPWCSLADQLDYAVVTAHTTPGNRRAFAVDLRHPGIELSGGTW
+VSRGLAAVDSSAVGFREVPAFPLGADNWYLQRDGFAWGGIGVAACWFGGAVALARRLFEA
+SRQRTPDQIAHMLLGEADLSLQAAASVLASAASDIDDGRAGGGNGAVLAQRVRGVVASTV
+EKVLEAAAHGLGPGPLTSEEEHARRVADLQVYVRQHHAERDAAALGEMLLGRGAMPW
+>tr|A0A0P7GB35|A0A0P7GB35_9MICC
+MVTTPTGKGRKPTARRRPAGTPPPSAAGTATLAPEAKGTQDPKKGGLRLRERLVSFMVLL
+EGSGAKATGSSYYMILGATLALTAIGLMMVLSASSVEAIAAAAGSDAGAATTFDLFVKQL
+MFAAIGVGAMLLLSRFGPRFYRFIAWLALAAAVVLLVLVLFIGVEVNGNKNWLAFGPVTG
+QPSEAAKLAMAIWFASVLSRKGPLLADWKHALIPVLPGGGLLIVLVLLGHDLGTVIIMGL
+IMLAALFFAGVRLKLLGMLALGAGAAAVLFSMISSNRTSRISAWLKLDCSAGLCDQANAG
+MYALASGGWFGVGIGQSRQKWNWIPEAHNDFIFAIIGEEFGLLGTLVVLVLFGILAVATV
+RVTMRHTQPFIRIVCGCILVWITGQAAVNIAMVTGLLPVIGVPLPFISYGGSSLTFTLAA
+VGVLLSFARTIPEREPTAP
+>tr|A0A0P7GJI4|A0A0P7GJI4_9MICC
+MEDLPAAQQLLAGPRGRELCLDLARSLVAEGQVFSCGSSAMLPPGMSQESSRVLQLLEAL
+PHRPEVTVAQVLQSLDRVVKGAAYWQPPSDTARLLAEPVPRDLLLPVAVAVVRSGPGWWR
+DPGAVTQYYVQWIASTTVPGTGPPILTGSAAGLRRWRESIAAEEGHTPLVANWTGRWWSI
+PALSDVPATTPAIPGNGPAGLVMVENPLEWTTARTYPLQAAKGARIYEIRDPRSWQDLVT
+AYPLEVTRSRGQLGG
+>tr|A0A0P7GBX0|A0A0P7GBX0_9MICC
+MNLKPLTEAERTRAREKATAARTVRADIKAKIKSGELSVQEVIVSRSSEEAVGRLKVVDL
+LRALPGVGERRAAGIMATVGIAPTRRVRGLGVHQRKALIELLESD
+>tr|A0A0P7FAV7|A0A0P7FAV7_9MICC
+MSSESPQPAHSAVPPLRISYVPGVTPGKWVSRWTERRGREVQAVQAEQEQALEELRNGSA
+DLVFIRIPEDGYERPGDLHAIPLYREQPVVAAPKDHPLAAFEEVEFADLAGENLMDAAEL
+GTPATALEVVASGAGLFILPMSVARAHSRRDVLTRPVHGVEGTRIAVAWLQDTTDPDVEE
+FIGIVRGRTANSSRQPSAKGEPARKTRGTPVSGDREGSKPSGGRKSGKPVRGKAPHSKPG
+KPGGKPARRRPGKGRG
+>tr|A0A0P7GLG0|A0A0P7GLG0_9MICC
+MTLGEVFVSEMLGTAALIVLGCGVVANVALGKTKGNGGGFLMVNWGWGLGVFAGVYLSVM
+SGAHINPAVTVGVITGGAEEFVPGVAVTIGSTLTYFGGQMLGAIIGAFVAWLAYKKQFDE
+EPDPANILGVFSTGPAIRSYGWNVVTEVVGTFILVFVIVAFAGTPSGLGPLAVGLLVVGI
+GASLGGPTGYAINPARDLGPRIVHALLPIRNKGNSDWAYSWVPVVGPLIGGALGGWAGGF
+IPLPDL
+>tr|A0A0N8HZ39|A0A0N8HZ39_9MICC
+MSDPAVTKKPRPRKKKRRFGGTHAQIRTALAFYKVSSWVTGIFLLLLVAEMIMKYVLDIP
+PVIVGGLNLYTAVLIAHGWLYVVYLFADFRLWQLMRWPFSKFIVIALGGVVPFLSFIVEA
+RTHKQVLAELEAHPEAAKRY
+>tr|A0A0N8HZ28|A0A0N8HZ28_9MICC
+MSEKLTATPGQTIGPFYGYALPFEKGGELLAPGLPGAIRLQGTVRDGAGDPIPDALLEIW
+QADADGNIPQKTGSLVRDGYTFTGWGRVPVDNTGNYTFTTVNPGPTEEGSAPFISVVIFA
+RGLLNKLHTRMYLPEDEAALASDPLLSSLPEDRRRTLIATREADGGLRWDIKLQGEDETV
+FLAYPEA
+>tr|A0A0P7GKC3|A0A0P7GKC3_9MICC
+MKSITRTELLRRRRHSHGLPLSASPSGDQAGPEAAGTRMFALQGQDLPGVLWSLGLRTDA
+TLAQVRESFDNAALVRTWPFRGTLHVMRAEDVHWILALTSERTLRSAARRREELELDPRT
+LDRARETAVESLSGGTALGRKDLLARFETAGISTAGQRGYHLLWHLAVAGTTVLGPFNGA
+EQQFVLLDEWIPQRRNLEGDAALAELVRRYLAGRSPATIADMAWWTKLPVTAVRRGIAAC
+GREVEEIEYDGAVHWQLAATAPAAQTARLESAVLLPGFDEYLLGYKDRSAALTAEHAPLT
+VPGNNGVFKPTLMLHGRVAGIWSRKTTRNATAVSVQPFSPVTTRDWNAVERAADRYAAYL
+GTPVTVKRA
+>tr|A0A0P7GIZ9|A0A0P7GIZ9_9MICC
+MSIVSGDPMAAAALSVFGTITFCAVIVAFLVLTVRPKPGTDPRTITEAAQKYARRIGMVA
+LGTALWFPGVLQPVLRETGGELWWDGHYAFSSALVQLGAPTVFALAVLAVGEITWPRPRG
+TVRTARLEHRGARALIPRYMTGIAGAFLAYNLLILATTLARDPGSASAQHLLTGWAPWLL
+VTVAAVAGVLKLISVRPAVPGTAPEADAALRLASAHRVMRTAAGILIMLAWSGGVFLSNY
+PNPPGLSAGGEALRYVSLWIVFAGILALLVRAPRVPLPEPSTTDAEVSAPSRLAVKSMAT
+SLRLSIAGPVAAAAAGAGVLALSWGHRMAAPLALAAAAVLFTVLCLGTEIIHARRIRQHT
+PGNEQPGPDAQNFLRPPRWLGWTGTVAAALSLAVLLGTAMLGPSVDRAAWQYARDIASRP
+DPSGGLGAVQEASPVIAPEPFFDWRFALTIALLVLLLPLLTDLVSRKVLFRPALPADRDV
+DLRLRRVALFRLTRASTATCLAAAGLVFWDLSSDNRWARTYNGDIDLQPPLTWLTPLVQQ
+TNALSSLLLLAAIVVAWRQFGPSHFPDDPRYTEQADLPPAQRA
+>tr|A0A0P7GRY7|A0A0P7GRY7_9MICC
+MSQTRAIILGGGGVAGIAWEMGVLAALLEEGINLNAADLVVGTSAGSMVGAALRSGLLPQ
+VLAAQLDDAGQAPAVQGTEAPYQDPSGFSSEAFIELTATAGRGDGDEMAARARVGQLART
+TPAVMTEGEWVASIRSLLPQREWPDRPFGIAVVDAEDGSFTVLDATSDVELARAVAASCA
+VPTVWPPVTILGRPYMDGGMRSATNADVAEGYGKVLVLACGPEAPASPFGPSLPQALAKL
+QQHSQTFLVEADEASLRDFGANPLLRSTRIPASAAGRRQGKEAAAALRDFWLA
+>tr|A0A0P7HE87|A0A0P7HE87_9MICC
+MFEYGNAFSGFAVDDVASARRFYGTTLQLPCTQAPGQLRLELAPHTHVLVYEKADHAPAA
+YTVLNFPVRDVQAAVHELSGRGVVFEPLDDAGGDGIFRRGDTAMAWFRDPSGNILSILEQ
+D
+>tr|A0A0P7FU08|A0A0P7FU08_9MICC
+MRLLLRIIINALALWVAGLALPGITVGESGTSATGNPTLDIVLAYLFIGLVFGVVNALVR
+PIVKLLALPLTVLTLGLFTVIINAAMLMLTAWLTSFTPVHFEIDSFFWTAIAASIIISVV
+SLLAGSLAGTRR
+>tr|A0A0P7FXG3|A0A0P7FXG3_9MICC
+MPRLRRSNCDHPGYTRLRWGKGFSYRGLRGEVLRDPAELRRIRSLAIPPAWEDVWISPYA
+NGHIQATGQDGAGRRQYIYHPHWREMKDREKFDRALEFAQALPAARRIVTKHLRAEGCGP
+ERAFAAALRIVDSGALRVGGSRYAEMNGSYGTTTLRVEHVRLEDTRLLLDFPGKSGQHWH
+VELEDEDLVAAMTPMLQRPDPDTALAYIGVDGQWHSIDASQLNGFLREATAGDFTAKDFR
+TWQATVSAAMGLARAARTASTKREQQQAVAQTIREVAERLGNTPAVARKSYVDPRVVDRF
+LHGEVIPVAGYSASETAVRELLDG
+>tr|A0A0P7GIB0|A0A0P7GIB0_9MICC
+MSSRTTIRDVARTAGVSITAVSHALNGKGTLSAATRERIRETAERLGYQPDPLARGMRSS
+PLGVVGLMLRPLDTLGTYRPTGVDYFTRLIGAVAVECLERNLSLMLLRDLSKLPRQPLAL
+TLDGYIIADPLESDPVIDLLQEASLPFITVGRVPDRPGFTDWIGSMDEDETELILRTLQE
+RGARRIALVTGCDHNSWNLDSASAYRTWAERHGMPARVVARPEADGTGGGRDAVAELLKD
+GDLPDAIYCLTGRHARGILDELTARGIAVPEQVQLVAGADSEQSRSASPAITAIDLDPEL
+IAAQAVEQLTSRVMAGLPAEPTPLSTHLILRATTLEGGHA
+>tr|A0A0P7GDK4|A0A0P7GDK4_9MICC
+MAAGFLRTGAAQAALTDFALVTDLQRRTVELPGPLYHLAPRRVEDSAPTGDVNLAVSQYR
+PLWHLLPAAGMYPSDPRRRPGLRSQHIVGRSPA
+>tr|A0A0P7FWX5|A0A0P7FWX5_9MICC
+MWGIVGEYWDQSRLAAWLVLVALGYFAVLAWKLARTDIQSRRLPDRLVLPAYPAAAVLLG
+SAALVGGDAGRLAGMAGGGFLLLAGYFLLRVLSPSGLGLGDVKLAGVLGLYLGFAGWSHV
+LAGAAAGFVLGGLWGLGLVLTGKGTGKTRIPFGPFMLAGTALALAVPGLE
+>tr|A0A0P7FQ93|A0A0P7FQ93_9MICC
+MSPDTLFGGGPALPPAYPERAAWGTAPKLRQWQAEALEKYFAKNDSDFLAVATPGAGKTT
+FALRVATELVDRGIVNRITVVAPTDHLKRQWADAAARVGLALDPNFKNADGRHGHGFIGV
+AVTYAQVASKPMLHRAKTEAARTLVILDEIHHGGDALSWGDGIREAFEPATKRLALTGTP
+FRSDTAPIPFVEYIEDGAGIRRSKADYTYGYGQALKDHVVRPVMFMAYSGQMRWRTSAGE
+EMAASLGEAAVTKDITAHAWRTALNPAGEWIPAVLAAADRRLSEVRRAVPDAGGLVIATD
+HEDARAYAGQLKKITGESPTVILSDDAKASDKIDEFSAGTQRWMVAVRMVSEGVDVPRLA
+VGVYATSTATPLFFAQAVGRFVRARKRGETASVFLPSVPHLMILANEMELERDHALDRPE
+NHLEEEGFGLDDSLMEAANREEKASGELQKQKFEALESQASFDRVLFDGGEFGTGGELGS
+EDELDFLGIPGLLDPDQVTMLLRQRQQEQLTRRGRKRTEEAVPEELPSVADHRHLTELRA
+QLAKNVSAWSARSGMPHGVVHSELRRICGGPAVAQANEEQLQKRLAKLQDWFIGRK
+>tr|A0A0N8HZ21|A0A0N8HZ21_9MICC
+MPGTMRLATAAWSVAAVVLFLAGGSFLFTAQTQRQDSQGLLTLGILGIALGALTAFYALR
+LRRGRRSSRETLTTLGLIAGVPLLFRGPSLMALGALLLACAVLLWLPQSTRFYAQTDPKV
+RRRRLTGRR
+>tr|A0A0P7FH20|A0A0P7FH20_9MICC
+MIGSNSVVQRSNSRFPKSSSTTKHIFVTGGVASSLGKGLTASSLGHLLRARGLSVTMQKL
+DPYLNVDPGTMNPFQHGEVFVTDDGAETDLDIGHYERFLDENLDGSANVTTGQVYSTVIA
+KERRGEYLGDTVQVIPHITDEIKRRMRLPSEAKKAPDVIITEIGGTVGDIESQPFLESAR
+QVRQDIGRNNVFFLHVSLVPYIGPSQELKTKPTQHSVAALRSIGIQPDAIVIRSDRPVPD
+AMRDKIGRMCDVDVDAVIGCPDAPSIYDIPKTLHSQNLDAYIVQHLGLKFKDVDWTKWDR
+LLEAVHNPKHHLEVALVGKYIDLPDAYLSVTEALRAGGFANNTKVKIRWVPSDDCATEEG
+ARKALAGVDAICVPGGFGIRGLEGKLGALKFARENKLPTLGLCLGLQSMVIEYARNVVGL
+EGASSSEFEPDTKYPVIATMAEQKDIVAGQGDMGGTMRLGLWDAKLDEGSVVAKTYGKTA
+VAERHRHRYEVNNAYREQIAEAGLVFSGTSPDGSLVEYVELPEEVHPYYVSTQAHPELSS
+RPTRPHPLFAGLIKAALAHQGAEA
+>tr|A0A0P7GHI7|A0A0P7GHI7_9MICC
+METSAHVIRVNVPMRWSDMDAYGHINNVEVIRMLEEARILAFGPPGGTGAHGIEPPVPLF
+NTVPPNTQSLVSEHRVKYLAPLEYRNVPADVDIWFSSVKGASLTISYLVSDPVTNKACIK
+AETTLAFVDAVTGALLRVTAEQRELCGRHTGTSVFA
+>tr|A0A0N8HZ19|A0A0N8HZ19_9MICC
+MSAPATRTPGSTLRMLLVSSRPLSWVNTAYPFAAAYLLTTGRIDAAWIIGTLYFLIPYNL
+AMYGINDVFDYESDLRNPRKGGVEGALLDRSFHRVTLFAAVVTNVPFLVVLALLGSPLSW
+LVLAVSVFAVIAYSAPGLRFKERPFLDSITSSTHFVSPAVYALVLAGAQFTPGLWAVLGA
+FFLWGMASQAFGAVQDIIPDREGGLSSIATVLGGKSVVRLAFGAYAAAGALMLFTPWPAL
+LGSLLALPYLLNLLPFLSITDERSEEANAGWKRFLKLNFLTGFLVTMLLIWYWPSR
+>tr|A0A0P7GUI5|A0A0P7GUI5_9MICC
+MTVRRVMGTETEYGVLAPALPNANATVLSSQVVNAYAASVRAGHGNLSGTRWDYTDEAPL
+NDARGYTVPRTAADPTQLTDAPPVLDAEQIAMEGGGPSALYGEAEDNSVLMNMVLGNGAR
+LYVDHAHPEYSSPETTNPQDAVLWDKAGDAVVLTAMRHIAATPGFAPVHLYKNNTDNKGV
+SYGAHENYLVPRSVPFTRLVAGLLPFFVSRQVICGSGRVGIGTSNQRRGYQLSQRADFFE
+TEVGLETTIRRPIINTRDEPHAVAEKYRRLHVIIGDANLSEVSALLKVGTTSAVLSMIED
+GTAPQIELRDPVGALQAISHDPSLTTLVELKDGRHLTGLDLQEIYLEAAAAHARREGGAD
+AATEDVLSRWSSVVGTLKRDPMAASAQVDWVAKLRLLQAYRDRDGLDWNDARLNLIDLQY
+SDMRPEKGLYYRLAARGQMERLFTDEQIAAAVTHPPEDTRAYFRGRCITRFPAEVIGASW
+DSIIFELPSRRRLQRIPTREPLRGTRELTGELFDVSADAEDFVTRLLTGPEPTVAP
+>tr|A0A0P7HIW8|A0A0P7HIW8_9MICC
+MATTLISGGTVVTATGRSAADVLVDGEKIAAVLAPGSTLLGHDLAGSVDTVLDATGKYVI
+PGGIDAHTHMQMPFGGTEASDTFETGTRAAAWGGTTTIVDFAIQRYGERVMDGLAAWHEK
+AAGQCAVDYGFHQIIGDVNDDSLKAMETLPDEGVSSYKLFMAYPGVFYSDDAQIYKAMRV
+GAETGLMTMMHAENGPAIDAMVTELLAQGKTDPYYHGVARAWQMEEEATHRAIMLANLTG
+APLYVVHVSAKQAVEQLAAARDNGQNVFGETCPQYLYLSLEDQLGAEGFEGAKWVCSTPL
+RSKHEHHQDHMWQSLRTNDIQMVATDHCPFCMKGQKDMGVGDFSKIPNGIGSVEHRMDLM
+YQGVVDGKISLERWVEITSTTPARMFGMYGTKGVIAPGADADVVIYDPNGHTSIGLEKTH
+HMNMDYSAWEGYEIEGHVDTVMSRGRVVINNNEYLGSKGHGQYVRRATSQYLV
+>tr|A0A0P7HDD6|A0A0P7HDD6_9MICC
+MDAVSLREYCLSLTGAFEDFPFGPETSVFKVRAGGPARPAKMFAMSTLEADPLMISLKCE
+PELALQLRAAHPEISGAWHMNKTHWNQLDLTGELEEELVRNLVEDSYDLVVASLPRRDRE
+SLAWKGLAEG
+>tr|A0A0P7HGT9|A0A0P7HGT9_9MICC
+MTSIAQTTELAPRIQNALAACGVTNDAYGEDRATRSPLTGEPLVSLRNTTDEEVEAAIAA
+AHSAFLSWREVPAPVRGNVVKRWGELLTEHKEDLAAIVQAEAGKITSEALGEVQEMIDIC
+DFAVGQSRMLYGKTMPSERPGHRLMETWHPLGVVGVISAFNFPVAVYSWNTALALIAGDT
+VVWKPSGTTMLSALATNALLARAVAESGAPAEIHQLIVTDRGGAQRLIEDERVALVSATG
+SVRMGREIAPKVAERFGRTILELGGNNGAIITPSADLDLALRGIVFAAVGTAGQRCTSMR
+RLIVHESIVEELIGKLVAAYSSLNIGLPLDENNLVGPLINEASYDAMQRALAQAREEGGT
+VLTGGERVLAETYPEAYYVEPAIVRMPEQSGVVHDETFAPILYVMTYTDFDEAIALHNAV
+PQGLSSAVFTQDQAEAERFLSASGSDCGIANVNIGTSGAEIGGAFGGEKETGGGRESGSD
+SWKAYMRQATNTVNYSGQLPLAQGVEFL
+>tr|A0A0P7GTG3|A0A0P7GTG3_9MICC
+MPYDAGRFKDYFESQMTYGAGFRRNVARYGSAVAMIDPPTGRQWTYARLGADVDRCAAML
+AEHGVRAGDRVMYQLFNGVEFALLYLAAHRLGAISVPINYRLAPGETAHILRDSEPSVFI
+VDAECAASAAQALELSGATPHILVVGQADLPQGWENFDAALQAASGSVPELPADYSAYDE
+STRLYTSGTTGMPKGVSLPSLAELMSAHDVIMHFPLSPQDRTLNMTPWFHRGGLHSGGPN
+PSFYIGAGVVPLRSFNPSTVLDWVGEYRLTFLIGAPTTLEMIAAEQEKQPRDISTLKGIV
+TMGAPLDRAAALRYQELLTPRIFNGYGTTEAFWNTFLRPEDLPARAGTAGRSCTDDDVAV
+VKVFPDRRGRPDELAAQDGTEAGEVIMRSPKAGYSYVNLPGVEEEKFFEGWLYPGDMATW
+DEDGFVTILGRKDDMIISGGENIHPVQVEGVLAEHPEVLDSVVVGVPDSQWGQRVVAYVV
+PRSEDATADALEEFCLSHPGLADYKRPRAYRFVDSVPLTATGKKMHFKLAETAAEDLGAG
+RLIAPGAAVARE
+>tr|A0A0P7FG14|A0A0P7FG14_9MICC
+MATISVVIPAHNDAPFLAVCLAALARQTRVPDEVVVVDNCSEDDTAGVCAAAGVRRVVEA
+LPGVAAATACGFDAAEGDILARLDADSVPPPYWLARMEELVEDAGPMTAVTGPGNFYGGN
+RLTRWIAENLYIAGYRWSMNILMGHPPIFGSNFALHASMWKRLREGMHRSGSRIHDDLDL
+SWQIAPDMDVLWVDSLRVGVSARPLESWRGLGRRLSMAWTTFRTDFEQQGPVERRRLRRR
+WRTEHGPGRA
+>tr|A0A0P7FE85|A0A0P7FE85_9MICC
+MSLTETPILELLPAVDVADGQAVRLVQGEAGSETSYGDPLDAAMAWQNDGAEWVHLVDLD
+AAFGRGSNLPLLKRVVEALDIKVELSGGIRDDESLDKALELGARRVNLGTAALENPEWTA
+SAIARYGDAIAVGLDVRGTTLAARGWTKEGGDLWEVLARLEDAGCPRYVVTDVTKDGTLR
+GPNVDLLRDVLARTDRPVVASGGISSLDDLAALRELVPLGLEGTIVGKALYAGAFTLPQA
+FDVAGHPER
+>tr|A0A0P7HQ03|A0A0P7HQ03_9MICC
+MQELVQLPAGVTSTRGCFLLHIRPERLAEYVEVHQRVWPEMLDALRETGWRNYSLFLRPE
+DGLVVGYFEAEDAEATQKLMDAHPVNTRWQAEMAQYFVEGTSAQALTQYFHLS
+>tr|A0A0P7FZ17|A0A0P7FZ17_9MICC
+MSMTNGAFYGWGGLGLDTSELSSRTINAVRTGFGISGVVSLILGLLVLFWPEATLSVIAF
+FFGLYFLISGGLRVVSGIISAMTPGLRVLNIIVGLLLFIVGIVAIRNPLSSLAVLGMLVG
+IAWIIEGIMAFVEIESGGSRWYAITFGILSVVAGIVVLFLPVASLAALVIFGGIFLVVLG
+VVQLVRAITFGRGSVPTA
+>tr|A0A0N8HY65|A0A0N8HY65_9MICC
+MSERTSVSEAVASAVAGHTAEVFALMGNGNAYFTDALARQGRVRMTAVRHEVATVASADA
+YYRVSRRIAAATTTYGPGYTNALTSLAEAAKSRTPLVFVVGGEPASGPRPWDVDQATLAQ
+AVGARTVTVSACSPTAATRAAFRLAETDRLPVVLFIPYDVATAPAAEEPAAENHSAAAAV
+NGRLEPGEEPGNIDNPETRKALDEAVRLLTEARRPLILAGRGARSARLLLADLADRLGAL
+TTSSAPARGTFAGRDYDLGVCGGFASEDSGELIRQADAVLVVGAGLNQFTTAFGTQFSSD
+AAVIQVDILPERTNPLVTTFIHAEAAQATEALLDRVGSHAKPSQPWDGAAEPARSSKLNY
+QRDSGTGQAPDGLLDPRTCMSRLNEILPAHRQVVSDGGHFIGWSSYFFDLPEPDSLTMVG
+TQFQSIGLGFPSAPGAVRARPDATTIVVTGDGGGLMGLPDLDSLVRTASSAVVLVFNDAC
+YGAEIHQYGSQGLDQEIMEIDQIDFAKVAEGFGAAGLAVRSMDDLERVSEWVDEGARGTL
+VVDLRISPSIVAPYIQEIVELTLKRN
+>tr|A0A0P7H3X0|A0A0P7H3X0_9MICC
+MSVMPYDPSPLFAGDQEGPRSEAVQHPAGRTADQGSAVQWRTAEPAAGLQHTAGTRGFAP
+AGPPRTVPPGPESEGGVPLARVIPLRPRQQANDLQDREAGMATAEYAIATLAAVHRVRRT
+LG
+>tr|A0A0P7HH08|A0A0P7HH08_9MICC
+MTAAHTLAVEGLTLGYGDRTVIESLDLLVPPGQVTAVIGANACGKSTLLRSMSRLLAPKK
+GHVLLDGKEVHRMPPKQLARTLGLLPQSPVAPEGITVADLVGRGRHPHQRLLARWNAEDD
+AAVAAALDATETAGLAERSVDELSGGQRQRVWIAMALAQQTDLLLLDEPTTFLDVSHQVE
+VLDLLTDLNRSRGTTIVMVLHDLNLAGRYADHLVAMADGKILAAGTPAEVLTEDNVRAVY
+GLENRVITDPASGKPLVLPLGRHHVVG
+>tr|A0A0P7G7C1|A0A0P7G7C1_9MICC
+MTTPILNPATEEIITTVAPLDLDAVDAAIATAARAFETWRNTGPSDRALLLRRFAAAVDA
+DLENLAALEVANAGHTLGNARWEAGNVRDVLNYYAGAPERHAGAQIPVDGGIDVTFHEPL
+GVVGVIVPWNFPMPIAAWGFAPALAAGNTVVLKPAELTPLTAMRLAELALEAGIPEGVFS
+VLPGKGSVIGERFVTHPSVRKVVFTGSTEVGQQIMAGCSAQLKRVTLELGGKSANIIYDD
+ADLDQAAAAAPGGAFDNAGQDCCARSRVLVQAGVYDRFLELLEPHVTGMAVGNPALAETA
+MGPLISAGQRGRVAGYVTGDDVVFQGQAPQGPGFWFPPTVLAPAPGSPSLREEIFGPVLA
+VVPFKDEAEAVRIANDSVYGLSGSIWTRDLGRALRTARGVEAGNLSVNSHSSVRYWTPFG
+GFKHSGLGRELGPDALDAFTETKNVFIATGR
+>tr|A0A0P7GNM6|A0A0P7GNM6_9MICC
+MNRTWLIILGIVLLAAGAASILFSSGLMAQMTGGNLAGADDPVLSDGPGVLETLPASAVL
+IGGIILGLLGLWWILAEVPRRRAASSYRLHEDPARGITRCDPAVLAAAVEDDASSLPGVV
+SSWALLRGTAESPDLALRLTLNERADVQEALRRVRSDVLPNLSRALEVPLHTAGIALEVS
+GRPAQLGSTVESTGTVVY
+>tr|A0A0P7GHI5|A0A0P7GHI5_9MICC
+MNPTPPTLTFLASISVQVGQPIEVGQTPGGLRRIIPILGGRVEGPELRGRVLPAGADFQL
+LRSATLTELEAKYAVETDSGERLYVNNFGLRSGSEEDIAALMRGEQVDPARIYFRCTPRI
+EAPDGGAWAWLSSRILVGTGVRLPDEVRLDISTVD
+>tr|A0A0P7HHP5|A0A0P7HHP5_9MICC
+MSDTAGGAAPDETAAAKVVVQRGLFFDELEPGTVYEHRPGRTLTEADNVLFSTLTMNPQA
+LHLDAAYSAGQPFGQRLVNSMLTLAVMVGQSVGQLTQGTLVAQLGLTDVAFPHPLFHGDT
+LYSQTRVAGKRLSGSRPGQGIVALEHTGRNQDGTVVATFTRSALMWTSDGYRQSGAPGGV
+LH
+>tr|A0A0P7HMY1|A0A0P7HMY1_9MICC
+MTPLAVEPFVLPQSSDSPDAGGFLAVARLFNDQQREIWGNDDFFETPQAQLAGLRSTSTR
+RRQLLVARAGSGQEILGVARLNLPLTDNLHTATLNVVVDARSRRRGVGAALCAAAEELAA
+ADGRRTLIAETDHRQDGGELTAGDVPAPSIPQDAAASFASACGFSLELIERISRLDLPVH
+SAGEGLPGSTDGSGYELVFWQDACPDALADAYAQLRQKMSTDAPLGGLDLTPEVWDVPRV
+REAEEKARGMGYDVLVCAVRHTASGELAGHTVLEVARSNPGVAYQDDTLVLQHHRGNRLG
+MMLKAGNLQRLGRLFPEVQRVYTWNAEENRYMLAINVQLGFRPIGYAGEWQKELSVS
+>tr|A0A0P7GCG8|A0A0P7GCG8_9MICC
+MEQSFRIAVIPGDGIGGEVIAAGQQVLEALARGSGGTCRFEWIEYPWGSAYYAGHGVMMD
+PKGLELLQDTDAIYFGAVGWENVPDHTSLWGLRLNITQNFDQWANIRPVKFLPGIQSPLR
+RADTADLGWIVVRENSEGEYAGLGGRNLAGRGPGNEVAVQTALFTEAGCERIIRFAFDLA
+LDRTVPKVSSVTKSNAQQYGMVLWDEVFRRVAADYPGVETESVLVDAMSAKFVLQPESLS
+VVVASNLFADILSDLGSALAGSLGLAASANLNPERRFPSMFEPVHGSAPDIAGRGISNPV
+GAIASGALMLDHLGLPGEARRLEQAIEAVTASGIRTRDVGGSAGTAEVTEAVIAALRATA
+AGGAG
+>tr|A0A0P7FAP0|A0A0P7FAP0_9MICC
+MTRKLHEFADLYRRRGPWCVAYIDASAGNVDSLEAAEVRPVDVRRALAKQGAPPEDQEAA
+ETAVLPAEGVPSPASRYLLVQQGTVALNELLPGELVLPERVSVDPIPDLLPLLKHRPEEL
+PYIVAEVSREDAEIRLLFVGREESSVEDVKGEKEDITKLPAGGWSQDKFQRQTEQVWRRN
+ADQVAEQIDRVVDSSGARLIVLAGDVRARGLVRDQLAEAHKPLVSMIDSHMPESRTGRRA
+FEDKVQERIALLWAAEQEQIMDRLAQQQGQANPESVTGFGGVLTALQQAQVELMILNDTA
+LAGHHLLALGAEPWVASAPEHSLGAEVLGQVPAPAALVRAASLTDASLLLVPDGVLPRGV
+DAAALLRWPTGPEAPGS
+>tr|A0A0N8HZ75|A0A0N8HZ75_9MICC
+MLAVAAAGAIFRIIRGPSILDRVLAADVLLAIVGGALIVDMVVYRNFDFLALVIAISLIG
+FIGSVTVARFVTDRR
+>tr|A0A0P7G634|A0A0P7G634_9MICC
+MDAVDVLLPYFGDPGLLQTAVRSVQEQDYENWRLIIVDDAYPSKEPIAWAASLQDPRITY
+VRNQENLGANRNFQKALGMAESPIVVMMGADDVMLAGYLKSVTAAMAAHPIASVVQPGVQ
+VIDENGRRTWTLTDAVKQLTQPGFRRTVNAISGETMACSLLHSGWHYFPSLAWRRDSIQM
+HGFNPEYDVVQDLALLLDIAAAGGSLLIVNDVVFQYRRHKASDSSVRAVDGRRFAEERRF
+FKNEARRFRALGWPHASWAAKLHWTSRLHALVVLLQNTRKVDRRTALMLARHAFT
+>tr|A0A0P7GAU6|A0A0P7GAU6_9MICC
+MGTDQYHEPPSELSAETRTFARMCASLSEEAEAIGWYVQRISVEPDADSRAIMEDSLGEE
+FKHFSMELEFLLRKTPEWREMARGILFTDGDIVAHGEASEAAATQDE
+>tr|A0A0N8HY34|A0A0N8HY34_9MICC
+MRQRWFKQVDVFGKKPYQGNPLAVVLDGEDLDDEAMLQFARWTNLSETTFVLPATQDEAD
+YRVRIFTPGGEIPFAGHPTLGTCHAWTEAGNTPMKPGLVVQECGIGLVPLRVNAGLAAFA
+APRLLRTGPVEPDVLARVTAALGLTPDQVLDHQWVDNGPGWLGLLLPDAETVLSVQPDHA
+ALGGLRVGLIGRQPEAAETDFEVRAFAPGLGVSEDPVTGSLNAGLAQWLIGQGIAEERYT
+VTQGTAVHRSGLVRVFTREGRIWIGGESVTCIDGSVSL
+>tr|A0A0N8HZ92|A0A0N8HZ92_9MICC
+MEQTASVAAVDLGATSGRVILGGVSGGRIRMRHVARFPNQPVRLHEGDGPGLHWNITELY
+RSLTAGLAQAFREEPDVRSIGVDSWAVDYGLLRGGKLLGLPYHYRDHRTAGGVQAVHAAV
+SPEELYSRSGLQHLPFNTVFQLAVDRQRGDLAMAERALMIPDLIAYWLTGRQVTEETNAA
+TTGLLDARTRQWDTALMDRLGLSADLFAPLIAPGKQIGGLLPFVAGELGAPAGVPVTAVG
+SHDTASAVVAVPFADENAAFISSGTWSLVGVELPGPVLTPESHAANFTNEGGVDGRIRYL
+KNVSGLWLLSESIRTWDGPGTTDSQRTSNLAELISQAAAVTAPVPVFDVQDERFTAPGDM
+PARITGWCEEHGVQPPRGRAEMVRSILESLAAAYADVIEQMETLTGRSIRTVHVVGGGSQ
+NTLLCQLTADRTGRTVYAGPVEATAIGNVLVQARAAGLVSGGLEELRRLVARTFEPIRYE
+PRVRAAL
+>tr|A0A0P7HNB7|A0A0P7HNB7_9MICC
+MRLQRVSKVVSVAVVAALALGACGGGSNNADSAATSTSITANGTEPQNPLLPANTNEVGG
+GRIMDLLFEGLLSYDADGKTVNEIAESIETTDSQNYTITLKDGKTFTNGEPVTASSFVDA
+WNFGAAAKNAQLNSYFFESIKGYDEVSAEGATTETMSGLNVVDEKTFTVELSQPESDWPL
+RLGYTAFYPLPAEAFEDPAAFGENPVGNGPYMLAGDNAWQHEVQIDLVANPDYTGTRVPQ
+NDGVTFKFYSSYDAAYADLQADNLDVLDQMPAAAQKTFKSDLGEGRYSEKPTAQNQTITI
+PQYLEEFSGEAGALRRQAISMAVNREEITDVIFSGARQPANDFTSPVIEGFNAELPGSEV
+LAYNPERAKELWDQAEAISPWPEGKAFTIGYNADGDHKEWVDAVCNSLKNNLGVDAQGKA
+YSTFKELRSDATAKTLSGAIRTGWQADYPSLYNFLGPLYATGAGSNDGDYTSQTFDDLLA
+AGLSAATAEEGAAIFNQAQEVLLKDLPVIPLWYQVSQTGWSNNVTDVETGWNGVPVYYNI
+ARK
+>tr|A0A0P7G9Z0|A0A0P7G9Z0_9MICC
+MSSAREEILERLRGALKDAPAVPDVPRNYRTGVDAPEEERISVLVDRLEDYKAGVTVVDE
+AGVAPRVAELLREASSYVVPQGIEEAWLAEADAAKPNRRRNDSRQAPLSVADLDATSAVV
+TGSAVSVAETGTIILDGSEGQGRRAISLIPDHHVCVVRAGDITMILPEALRRLDGTRPLT
+WISGPSATSDIELERVEGVHGPRTLDVIIVRS
+>tr|A0A0P7GBD0|A0A0P7GBD0_9MICC
+MLIGTVARFGAQAGELRVGPVATTYWVFSLLLAAGWLLALHIYRSRDPKIAGMGTDEYKR
+VVNATFAVTAGMVFASFALQVELARGYFAFVLPAGTAGLICSRWLLRQWLKSQRQRGRFL
+SRVVVLGRPKDVRYVAHQIAAKAGAAYKVVGVAVSGKRRSSLEVDGVSLPVVSDTEHVVD
+AVSRLGADAVIVAGPTKGGSSYVQELGWKLEESAVQLILTTGLTNVAGPRIHSRPVEGLP
+LMHVELPQYAGGKHLLKRGMDIVLSGLALLALVPVFLILALLVRRDSPGPVLFRQERVGR
+GGEVFEMLKFRSMVQTAEDDLAGLLDRNEGSGVLFKMQHDPRVTNVGRWMRKYSLDELPQ
+LWNIFLGHMSLVGPRPPLPREVAQYGDRVHRRLYIKPGLTGMWQINGRSELNWKDGVRLD
+LYYVENWSVAGDIIILWRTAKMLLRPVGAY
+>tr|A0A0P7HVT4|A0A0P7HVT4_9MICC
+MSSNPSDHGDTPQDPLSEMLARLFGGGGQAGGIDPQELAKAAGLPSDPNAMAMIFQQVQA
+MFSAPSDGPVNWQLAKDNARRVAAAGGDPSITASQAREVDEALHVAQMWLDPVTDFPSTT
+TLGRAWSRAEWVEATMDSWRRLTEPVAVSISQALSNAITTQMPEEMKSMMGGASSMLANM
+GGAMFGIQLGQAVGALSKEVLSSTDIGLPLSEGTMALLPTNVASFGEGLDVPDAEVRLYL
+AVREAAHARLFAHAPWLAAHLFGLIESYARGIHIDVSKIEEVARDIDPANPESIQEALAG
+GVFQPERTPAQDAALERLETALALVEGWVDEVTAAATSNLPSAQALREMIRRRRASGGPA
+EHTFASLVGLELRPRRLRDASALWAQLREERGIEGRDAIWQHPDLMPTSKDLDDPAGFSK
+RRELLDASDSDVDAALRRLLDGGFDTPEDDGAADSEDGTESRPDNGDGGSEGDGPDEHGS
+GDGSGKNGPSA
+>tr|A0A0P7GSE2|A0A0P7GSE2_9MICC
+MPSIDYQLAEYSDLFMLLAAFTYTVALLAFAWDLAKSSKTLQAVDRKAAAQAAPAKKVMA
+TAGAPTGPADSNRQWDSSEAVTADDAMGYTGPRRNAARVAVALTALATLIHAAAVVARGL
+AAHRVPWGNMYEFCTTGALVVSVIFLLVLLRRDLRFLGTFVVGLVLIMMMAATIGFPTPV
+GHLIPALQSYWLIIHVSVAVIASALFTLTFAMSVLQLLQADREAKARAGAKERFGFLKIV
+PSAQSLENFSYRINAVAFVLWTFTLMAGAVWAEQAWGRYWGWDTKEVWTFVIWVVYAGYL
+HARATRGWTGTRAAWLSIVGYLCVVFNFTIVNVYFAGLHSYSGV
+>tr|A0A0P7FZ10|A0A0P7FZ10_9MICC
+MDFLRWLFDAQIPVGSSSLLVREVLGNIFGLLSALGGMRRKIWAWPVGIAGNLLLLTVFL
+GSIFGDASTANLLGQAGRQVMFIAVAIYGWRRWQASKNSGADAVTPQWASGRARLGLVAG
+LILGTVALTPVFGMLGSYEPVWADAWTFVGSLLATYGMAKGWVEFWLIWVAVDIVGVPLL
+FSAGYYATAFMYLFYGIFTLIGFFVWWRAKANEKPQVQVSMPDPTVR
+>tr|A0A0P7FIJ6|A0A0P7FIJ6_9MICC
+MLRIEILMRDSLALAEVSQMMRLTIILGWYIHHCSTAPREMEHLWLRTKQSYFVFFFEDI
+LLEEPTIESRRDIIRH
+>tr|A0A0P7G3Y1|A0A0P7G3Y1_9MICC
+MVTPGPPGPLTADTHVLDEGTHLYRLFTNSPDRHADTFNPGLGTRTRFAFFGDPPMPVLY
+AGESEIAAISETLLHDIPASGGALLPGDYQNKVMGRLTALRPLRLASFMGTGFRTMGAAA
+EDVTRTPASRYGETVLWAEAAHAAGFEGIAWMSRQCDTEKAYVFFGDRVREDDFEVDPAY
+GRAFALPSDADWLTQLCAPLRIEVRR
+>tr|A0A0P7GSG7|A0A0P7GSG7_9MICC
+MDTRNTSAATTGFDAPGAGAPFAGGPAEEADTFLASSARILNAINTVIDGKDEAARLVLT
+VLLAEGHVLLEDVPGVGKTMLAKTLARAVDCSVTRIQFTPDLLPSDVTGVSIYNQDAHRF
+EFRQGPVFANIVIGDEINRASAKTQSALLECMEERQVTVDGGTYRLAEPFMVVATQNPLE
+MEGTYALPEAQRDRFMARISLGYPDTVSEIEMLETHQSVSPLDSIVPVVSVRDIAAMTAR
+VRDVYVSGAVKEYTVAIGAATREHPQVRLGASPRALLQLLRASKARAALEGRDFVLPDDV
+ARLAGSVLPHRLILERKALSSGETPASLLSAILAKVPVPRPPAARPGLART
+>tr|A0A0P7FDI5|A0A0P7FDI5_9MICC
+MATGTVKWFNSEKGFGFIEPDDGSADVFAHYSAINSSGYKSLEENQKVSFDTEQGPKGPQ
+ATNIQGL
+>tr|A0A0N8HXQ2|A0A0N8HXQ2_9MICC
+MPIATPEIYAEMIDRAKAGGFAYPAVNVTSSQTLNAALAGFAEAGSDGIVQVSTGGAAYW
+SGASVKNMVTGSLAFAAYAREVAKSYDVNIALHTDHCPKDKLDDFVLPLLAASEERVKRG
+EDPIFNSHMWDGSAETLEENLKIAQDLLARTAAAKIILEVEIGTVGGEEDGVENEINEKL
+YTTVADGMATIEALGDGSKGRYLTALTFGNVHGVYKPGGVKLRPEILDEIQAAVGGSIGK
+ERPFDLVFHGGSGSSAQEIADAVSYGVVKMNIDTDTQYAYTRPVADHMFRYYDGVLKVDG
+EVGNKKQYDPRVWGASAEKGMAARVVEAAQSLGSAGKHL
+>tr|A0A0N8HZ86|A0A0N8HZ86_9MICC
+MKITKALPLAALASLSLVLAGCGGDASTDSGTSGIQVPDLPMATEIGESEGQVNIIAWAG
+FVEDGSTNPDADWVSAFEEETKCQVNRKVGATSDEMVQLMRSGEYDLVSASGDASLRLIA
+GGDVAPINTDLIPNFGNIVDGLKGQVYDTLNGKSYGVPIGRGANVLMYNTDHVSEAPDSW
+APLWEEDTDYAGKTMAYDSPIYIADAAVYLMATQPDLGITNPYALDEEQLAAAVELLKTQ
+NGLVGEYWNDALKAVSSISFGTAHMGTGWQVIVNLAQGDGGKVESVLPKEGATGWSDTWM
+IAAEAKNPNCAYKWMDYASSAEVNAQISQNFGMAPANALACEGSEANAAHCETFHATDED
+YYKQVWMWTTPVEQCVDGRTDVTCTNYQEWTKAWTEIKG
+>tr|A0A0P7GAD5|A0A0P7GAD5_9MICC
+MSKLSRRSVHVPRITDARSAHTDEMHARMVKYTISMSIRMVCLFLLFFVHGWMLWVVVAG
+AVVLPWFAVVIANGGSDSSNLGGDSPYEAAAPQQLEARVSDAPENPGTTVLSGEIVEDHG
+PAGRGTAAPGA
+>tr|A0A0P7HMH3|A0A0P7HMH3_9MICC
+MELLPVHTPAGYNAGDLLPPLAAALAGEGPAVAPHSDPAQTFTGELPNDDVALVISTSGS
+TGVPKQTMLSTDALAASSMATAMHLGRDGQWLLALPVHYIAGVQVLVRSLYAGTEPVLMD
+TGAPFSPEAFTTAAQAMTDRTRLTSLVPTQLHRLLTDPAPDTLAVLKRFDGILLGGAAAS
+PALLAQAQAQGLNVVRTYGMSETAGGCVYDGVPLPGVEVQESEGRLWIAGDMLAEGYLGA
+PELTAERFAFHSGKRWFRTDDTGSVTADGLVSVSGRLDDVIVTGGVKVSGAAVAAAAEQL
+PEVHQAVAMGLEDPEWGAVVGLVVVGSVDTDLLRGAVRSALGAPAVPKIVVELERLPLLP
+GGKTDRLAVRQLLAAARG
+>tr|A0A0N8HXL4|A0A0N8HXL4_9MICC
+MAGLKKYPSAAPAAGSNGTSRDVSTFLSVYLLLTLALPSYLTITALGSLGRPSTLWGLLG
+LSWWAFERLRRTTRLNAGSSAVRWALLGFLAAVLISYAVSNLQGIPPNESSPADSGLLRT
+AGWVGIGLLANDGIGSAERWLVLVRRMTLLGGLAALLGLAQFVAGQSLLEWLTLPGFSAD
+SAHSASTRGDFIRPSGLATQPLEYAVVLSMALPLALTLALTDKHRNQAARWWPVLALALA
+TILSGSKSAFIGAAVGIIILVPAWSGAVRIRVLGGLAVLLGIVYVTVPGVAGTARGMFQS
+MGNDSSSLSRTDSYGVAIEIATRNLFFGRGFGTFLPRYRIFDNGYLTALVEVGLVGLMLL
+VLLLLCAVWNTLGAGYRLFPAGSRARELGAGLAASILAGAVLLAFFDGLNFSVSAALLFL
+SVGLAGAYRGLHRSGERRGSWTGIRLPDGDPLRE
+>tr|A0A0P7FIC1|A0A0P7FIC1_9MICC
+MTGAGRFAPSPSGELHVGNLRTALLAWLFARSTGRDFILRVEDLDRARAGAEAVQLRDLA
+AVGLDWDGEVIRQSDRTPVYLDAVEKLRADGRVYECFCTRAEISDAPRAPHSPPGAYPGT
+CRNLSEAERARRRLERPPALRLRADVSEYTVHDALYGDYTGVVDDLVLLRNDGVPPYNLA
+VVVDDAAQGIDQVVRGDDLLSSTPRQAYLASLLGLPPVEYVHVPLVLSPSGKRLAKRDGA
+VTLAALADLGISAQDATGMILGSLGLPGTLPDALQAFDPATLPRQPWIFSPPAA
+>tr|A0A0P7GTF4|A0A0P7GTF4_9MICC
+MSLRYRSARGAGSDRYLRRWKGRGAGVVGLLVFLFMLLPFAVPAQAVFSGESPGAEVPSD
+ITEITMTGTGAGQAVTGGLPTGAFDPTTGYPEDVPAGYEPANEGFAGIIITVDAVGNTQQ
+MYCIDIRTSTYTGLGYESGTWDESNVPNIGYVNRVLNSYYPDQPGLPDAPSDNVRAAAVQ
+AAVWFFSDGYVLQDTDPIRPYTAAIVADVLAAGPLTEPPAPNVAIDPPVASGPTDGVTGP
+FTITSDAATVTVEVPEGYTLYTDPAGTVPLAGTTVASGTQLWVGNDNQTTEPVVLTATAV
+VPVQTGNVYLYAGNNPQVTDAQKLILAADAQIESNAQATAEFFVAGDLTVSKAFAGEGAG
+AQGAISLLVDCGASGVFTFEIPAGTDTPVTETVTDLPVGTVCAVTEPVSGSTSEVTVTPV
+LPEPVTITDGENLLAVTNTVDFNPGSLLVTKTITGTGAGLQDDIVIHVQCGEGVVDEVFV
+LAAGTTAGEYTQLYEGIPAGTLCNISEPTSGANEDVTVESTFTGEVAILPGATQAAGVTN
+LYAPVPVSERLPKTGAESMNMVLMGGVAVIAGSMLVLASLRRRQSQEP
+>tr|A0A0P7HGT0|A0A0P7HGT0_9MICC
+MYLSKVEEGAVVAERRIVAVTAGLGTPSSSRMLSDQLGVAVQARLQELGHNAALTTYELR
+EYAVDIANAMVSGYAAPKLEALLNEVSDADALIAVSPVFSASMSGLFKSFFDVMDKNALD
+GKPVLVGATGGSARHSMVLDFALRPLFAYLRARVAPTAVYAAPDDWGAGSAGVLDLDGRV
+RRAGAELVALLGDAPAAKPRRAPSESLPFEELLAQIQPRS
+>tr|A0A0P7HFU6|A0A0P7HFU6_9MICC
+MRISELSAATDVPVATIKYYIRAGLLPEGRATAPRQADYTEAHAARLKLIRALVGPGGLS
+VASAAAVLGQLDDPPESAHDFLGAAHHALGTQDPEQDSHPRADALLDELGWEVDPLDHEA
+RFRLEKALAGLEDAGFPVTRELLETYAAAMHSVAAREVQGVPLESPAEALRYVVLGTVLI
+EPVLLALRRLAQQDVSGRLFARTGPPGPAVEGPGPQAS
+>tr|A0A0N8HXV6|A0A0N8HXV6_9MICC
+MAFSSRNLFGLARTALRIARQLAPGPARTPRTGGQGSDTAGMASRNGSGKRPAASPRPSA
+PSPASAPSAPSASAGRYAGDYTGRVDPVYAPKPDGAPDPGEVVWAWVPYEDDPAQGKDRP
+VLLIGRSGTRLLGLMLTSRDRNNSGVSDPDYIDIGTGAWDSKGRPSEVKLNRILTLEPSA
+IRRQGAVVDREVFNRVAKSLSARRR
+>tr|A0A0P7FXW8|A0A0P7FXW8_9MICC
+MNSTRILNNLSLAASTVVEHLGDDPAMLALQLSRRLPARSVRPVAAAAAAAPGVFLPALV
+DLIRGRKNDLEARLTGAAAAVPSHRLAVRLADVAVAAGLPELAEKILAETPMRVKGRPAV
+EARLCWYQGDMSGALSVLDQGTGTRSERRLRSRLASELSVFDGWAPTLAKVQGFSSEPKS
+VLHLLTNSLPATGSGYAQRSQSLLHAQHKRGWKVHAVTRLGYPVQVGSVWAPALEVLDGV
+TYHRLLPSRLPNGMAARLQLQTEAVLRLALEVKPAVLHTTTHFVNGLVAQTVAEALNIPW
+VYEVRGQLADTWASARGEEARRSERYRKFIAREAETMRAAGAVATLGQAMQSGVVAAGVP
+QEDIFLLPNAVGEDYLAEPLEQAAARERLGLPVGGQFIGTVSSLVEYEGLDDLLRAFAVL
+APQVPNATCLIVGDGAAAPGLKRLASGLGIAERVVFTGRVPREKAHLYHQAMDVFVVPRK
+DLPVTRAVTPLKPVEALASARPVVFSDLPALHEVVRAGVDGRAAPPENPASLARILQEVL
+EDDAARALMGNAGRQHTVATRTWSLLAETTIKRYMELGSSL
+>tr|A0A0P7G602|A0A0P7G602_9MICC
+MPVYLDHAATTPISASALAALTSELSRSGNPSSLHGSGRRARMVVEDSRETLAAALDCHP
+SEVIFTSGGTEGDNLAVKGLYWSRRDADPRRTRILCSPVEHHAVLDTVEWLEKHEGAVVS
+WLPVDSDGVVSLDAVRRELEEHGGETALLTVMWANNEVGAIQDIPALVELAHAHGVPVHS
+DAVQAFGAVPVSFRESGLDTMAVSGHKIGGPVGVGALVVGRAVKLTPVLHGGGQERDIRS
+GTLDKPGIAAFAAAARETTENLQEEAARLRTLRDYLITAVERTVPDAVLRGPRDDEAGTR
+RLPGNAHFTFPGCEGDSLLFLLDLAGVESSTGSACTAGVPRPSHVLLAMGLSETEARGAQ
+RFSLGHTSTADDVDALIDALPEAYERAKKAGMAGSESSIRTAGTGFIS
+>tr|A0A0P7GRT4|A0A0P7GRT4_9MICC
+MRRILLIILTALLALAVPAAPAFAVEPVDIIVEDTAGVLDQNTLLPALEQIQFRDPTTVA
+IYTYRGDPNADYQDGDTVTNEETLRFAREEHPEWISADGQKWADGLFIFTLDPDGRWIGT
+YFGEDRKVDSDQAQDIRDEAAELFRDAQWTDGTIAAVQEAAKLINRPWYLNPATWIAGGA
+LLLAAAGTWLTIVTVRRNRLKTNRELIAKAEKSYANVSMDLEATELNANTIPADSRYGAK
+VLEEHRTFRTRYNTATELGNTVRAFSDKDLKRGKTRKPVEEFAELATSLDGIDDVIADTN
+TLLNMGPGWQAAWDRQAQPLLGELEKLEDLFEQDHTGNTATAAALLAFRTECRRRLQSAA
+ADLADGSLPPEAALDIIRDSGSELAGLLKNHSETVIEKAAKDSSEKKLMREALEAERSRP
+RRYRDGYRPGILDTAYPNYFWSVASFNAGVQAGNGKIESARSTASGSSSGYGASGGSFSG
+SGSSSRF
+>tr|A0A0P7GA15|A0A0P7GA15_9MICC
+MSPLARFSPVPAATDPAIIRNFCIIAHIDHGKSTLADRMLQSTGVVEHRNMKAQYLDRMD
+IERERGITIKSQAVRMPWEVDGESYALNMIDTPGHVDFTYEVSRSLAACEGAILLVDAAQ
+GIEAQTLANLYLAMENDLTIIPVLNKIDLPAAQPEKYAEELAKLIGGDPEDVLKVSGKTG
+VGVEALLDKIVRDIPAPVGDPDAPARAMIFDSVYDTYRGVVTYVRVIDGSLSPRERIQMM
+STRASHELLEIGVSSPEPTPSKGLGVGEVGYLITGVKDVRLSKVGDTVTNLNKPAAESLP
+GYADPKPMVFSGLYPIDGADYPVLRDALEKLMLNDAALVYEPETSAALGFGFRVGFLGLL
+HLEITRERLEREYNLDLISTAPNVEYEVTLEDNKVVTVTNPSEYPEGKIKEVREPMVAAT
+ILAPSEFVGAIMELCQSRRGVLGGMDYLSEDRVEIRYRLPLAEIVFDFFDVLKSKTRGYA
+SLDWKADGEQVADLVKVDILLQGEQVDAFSSITHKDKAYSYGVMMTGKLRELIPRQQFEV
+PIQAAIGSRIIARESIRAIRKDVLAKCYGGDISRKRKLLEKQKEGKKRMKMVGRVEVPQE
+AFVAALSSDESKDKSKK
+>tr|A0A0P7FPK5|A0A0P7FPK5_9MICC
+MPSNGRISERIASIAESATLAVDAKAKALKAAGRPVISFGAGEPDFPTPGYIVDAAVAAA
+REPRFHRYSPASGLPELKKAIAEKTLRDSGYSVDPSQVLVTNGGKQAVYEAFATLLNPGD
+EVLVPTPYWTTYPEAIRLAGGVPVEVFAGPEQDYLVTVSQLDAALTEKTKVLLFVSPSNP
+TGAVYPADDVAEIGMWAADHGLFVVTDEIYEHLTYGDVPFTSIATRCPELGDKVVILNGV
+AKTYAMTGWRVGWMIAAPDVIKAATNLQSHLSSNVSNISQMAALAAVSGPLTAVDEMKIA
+FDRRRKAMVEALNSIDGVDCPMPQGAFYAYPDVRSLLGREFPNAAGPVRPRTSAELAALI
+LDAVEVAVVPGEAFGPSGYLRLSYALGDEDLATGMERLKDFLGQAKP
+>tr|A0A0P7HKV6|A0A0P7HKV6_9MICC
+METAADILDIKPRLRGWLHAGAAPLALAAGIVLVVLAPTTGTRIASAVYALTGILLFGVS
+AVYHRGNWSPRVKTVLKRLDHTNIMLVIAGSYTPLAWSLLPRDRAIVLLVIIWSGALAGI
+AFRLLWLHAPRWLYTPVYIALGCAAVFYIPEFWSVNMPAAVLVIAGGVAYIAGAVIYAMK
+RPNPSVDWFGFHEIFHAFTLAGFTCHFIAIMLAVLSVPA
+>tr|A0A0P7GIQ4|A0A0P7GIQ4_9MICC
+MHKPRWLRVFSRLNVFALLGDQFRYLTDLSTNRPEWIIRGLVVLLAPAAFTLSLVFHVQM
+QTVGDLVGALGLLAGVFISAFALVFSIRINLSAKPSKVLERRTARLIDESALTLLAAGLL
+SGIDAIWLAGVSASIPAEGYVVSEFATAVTVGLSSLVVLYFLLSIRRLHKLYTDTFVPFW
+RVQTVVEGSATRQETKDARGQAAEIDARRNS
+>tr|A0A0P7HDA7|A0A0P7HDA7_9MICC
+MGMSEESSVRLGVPYTPPRSYSEKAVSRLIFTAAAFIIFGGFNVIAVALAILLVVYPLLI
+ARERLVLRPRREEAETAALNRAVEQFFPGAPKIQREQWSALMTSRKGKTFRFRDDLGGEM
+RVVRTGRAALAGHSAIAGQPVRPRSAKRTEIEVTRRYGDVGLTDFDTVMTASGRDPNIAR
+AIAEVRRGYRHGRESA
+>tr|A0A0N8HZ72|A0A0N8HZ72_9MICC
+MTTESTPDIKPRSRVVTDGIHAAPARGMFRAVGMGDDDFAKPQIGIASSWNEITPCNLSL
+NRLAQGAKEGVHAGGGFPMQFGTISVSDGISMGHEGMHFSLVSREVIADSVETVMMAERL
+DGSVLLAGCDKSLPGMLMAAARLDLSSVFLYAGSIMPGFAKMEDGTEREVTLIDAFEAVG
+ACAAGKMSLKDLDTIERAICPGEGACGGMYTANTMACIGEALGMSLPGSAAPPSADRRRD
+EFARKSGEAVVNLLRKGITARDIMTKKAFENAIAVTMAFGGSTNAVLHLLAIAREAEVDL
+TLEDFNRIGDKIPHLGDLKPFGRYVMFDVDKIGGVPVIMRALLDAGLLHGDCLTVTGKTV
+AENLEAINPPDPDGKVLRALDNPIHKTGGITILKGSMAPEGAVVKSAGFDADVFEGTARV
+FEREQGALDALDAGEIHAGDVVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDG
+RFSGGTTGLCIGHVAPEAVDGGPIAFVNDGDRIRVDIAARTFDLLVEPEELEARKVGWEP
+LPAKFTKGVLSKYAKMVNSASTGAYCG
+>tr|A0A0P7G997|A0A0P7G997_9MICC
+MTGGTQKLRVADFLPGVLWGGAFVLAAFSSGITTPAAWAWGAGTVVLLLVFPWVLVRTLD
+SRGDLRSSIARAPVTPVILGAGALCFILLRLILWLDGPRVLAAAVFAMLASYAVVLVLAR
+AVKLDWPSVSTGAAVVVIPFLLSALTGGFALPVAAALLLCLLLVPQPRTRWQLVLGSAAA
+GAAVGGGLFTLLQGLPA
+>tr|A0A0P7FES8|A0A0P7FES8_9MICC
+MDIEQSQAKAQTEAAPGSKWQDRMDSVGRSRRRTALAMIALAVLSAGLWWGWFGWDTQRD
+IDPVTGSSSGPYEWWQVRSCLISWAFLAWLGTEVLKPSAVILIMPAAFTASWILSAALTD
+DSGLWAIGAVLVAVGTLAGNALFVGLLHLLFRWRRKPALPPAG
+>tr|A0A0P7FNN9|A0A0P7FNN9_9MICC
+MLKAGHRVSVRFGPGAVSNRDMDERAVSENLAASGGLRVAPLLVFPGNALGERWVAVGYV
+LIAVGPEDTALEATLVAAWSENGRANEFALVPEDDSERRKEIERMTAEHLHAAVGGARVP
+EDRAHAAASLAKHFSELSRNAVASVRQIRYALETCLAESSTDTKASEQYTDVIAALLQLN
+IICGRAADQARESVREGLWVHSTDSEAYHAYRKLQDPTLINQYEPAAYATRPWMRLHDAA
+VRQCQEMCRQLEKESESIRMLLSAASSISGSREADAQARFNLLVALLSIGLGIPALFLTM
+YGANLLLPMNTWPKVGAFLPVGLALLGAGAAAIWYAPRGSKRRVWLLCGTSVIVVLIFMV
+VAAILAPVSLS
+>tr|A0A0P7FXX3|A0A0P7FXX3_9MICC
+MSVIVPFHNVAPYLDRCLRSLVGQSYSRLEIILVDDGSTDPSARIAAGYARYDRRIKLIR
+GRNAGPGCARNIGIRASRGSLLAFADADDVVPFHAYESMAASLAQTKSDFCVGSYGRIRG
+NHRTSVQLADRLHQERRTGATLRDLPEIIDDVFLWNKMFQRPFWDREVGSIPEQTRYEDQ
+ETTARAYLQAASFDVLADTVYSWRIREDGSSLTQEKHLIEDLRDRLLVTERVRELLSEGA
+PEAAVAAWQRRVAGADLIPYLEQAADASNEYWAMLSEGATNLLQGSRQELDRIDPQARVL
+AYLASAGRRDELTLALVDRINNGTATPLVFDGRTITARPAFLASLDAPVPASLLHVDPSI
+LELVVSADPPQEQENGLFRVEGYAYFRNAELAGTEAVLAVGTTGTDGFKALPVQRMHNPH
+LDLISGDRNCSHADAAFAVELPGPTAELTVRLEVGGHLLERAVAVPAPSAASARRTGTPA
+AESLAAGPHGSLQIKVSGGAPGASYALVTARHRIPAETDAVQDGVLLSFPLAFRSWGQEA
+PAPPSGAYTLRWSAKGSGAGAGDVPVAVQEGVSRSFRSFLTPAVRVRGFRTSSGAMAVSI
+TAPLADSEAGDFHQYRLRRTCFAPGREPSLQPGIFFESFGGKNCTDSPRAISDYLASAGF
+DEPLYWSVADRSVDTPPYAVPLLQGSAEWYEKLATTRALVNNNNFPWYFRKSPGQFYLQT
+WHGTPLKKLGLDIPPRTLSLSYRDLMKREAQWWDLLLAQNEFAARTLPAALGYTGEILTS
+GYPRNDALVREGRKGDAVRDRLGIGAGQKVILYAPTWRDVASNGAGRPDWVGHLDMKLAS
+RALGPGYTFLIRAHHNVAAQRRVAASPNILDVTDYPDINDLYLAADALVTDYSSAMFDFA
+VLRRPMFFLAPDLAAYQAARGLYLDYVETVPGVAAANTAELVAAIAKNPWTSNSKVEAFA
+DTFAGREAGAAAAAAAQALLTAVGSPSRSDGTKEGIRG
+>tr|A0A0P7G3Q5|A0A0P7G3Q5_9MICC
+MSATVVTLEELPSLVGKDLGYTDYVEITQDQINTFADATDDHQWIHTDPEKAKDGPFGAP
+IAHGFLTLSLIIPLWSALFDVDGVKTKVNYGLDRVRFTNPVKVGSKVRLHSVIAEVTEVK
+GGVQIKTSNTIEIEGEERPAVVAEFLARFYA
+>tr|A0A0P7G3Z4|A0A0P7G3Z4_9MICC
+MAAPALELDSVTVKYDDVTALDGVSLTVQPGRVCGLVGMNGSGKSTLFKSLMGLVKPAAG
+TVRLSGMAPAKARKSGLVAYVPQSEDVDWSFPLSVRDIVMTGRYGHMGPTRRPRAADRAA
+VAEALARVELTGLAERQIGRLSGGQKKRAFVARGIAQGASVLLLDEPFAGVDKRSEATIT
+ALLRELAADGRTILVSTHDLHALPQLADEAVLLMRRVLAHGSPEEVLRPEQLARAFGLNV
+LDDGTPVPAGTLNAGTLKAGKP
+>tr|A0A0P7HCI9|A0A0P7HCI9_9MICC
+MRLQLHDFSGHPFQAELSRELAGRGHSVDHVYSAQYSSGKGVLERTAGDPDLLSFSPLDS
+GAPFQKYSALGRLRFEQAYARTWLEHNRRTAPECIVACNVPLFALDQFRRAASRSSQPWL
+LWHQDLFSNAISEELTRRLPAPAAAGGSSLVRRIEAGIVRSASQVVAIGEEFRLAYRRWG
+LDTGHVSIIPNWAPLEEIVPRPRSNAWTAANLPAGPELRLLYAGTLGRKHNPLLLSDLLR
+SARAAGLPARLIVASEGEGIDMLRADLQQDPDLPVTLLPFQPAADLPDMLGSADVLVTIL
+EPEASRFSIPSKVLSSLAAGRPLLGLMPEDNPAATDILAAEGYVGQPTEFGVAGAVAWLR
+SLNRDPAAAEALGAKGRALAESRFGIVPIADRFEAVLRRAVPGADRADDLRSRPAHAGSS
+RFRRRQQDAAA
+>tr|A0A0P7HM53|A0A0P7HM53_9MICC
+MTGTAAARPPATQPANKPLFELIRIHTRAQVLEQLRIPVAVLSSTVFPTLALVFFVLPQT
+AVTSDPQASLMSIAQLAVFGVMSAFLFNYGIGVAEERANPWSSYVRTLPVGAFPATVARA
+ITAMMFAFFALVPVLVVGATTTAGLQLYTDGTLSWWRIPVSVVVWLLCGLPFLFLGLLIG
+YLCTSKVAIAVTQVVFFPLAFAGGMMLPPVIFSPGLNTFSQFLPSRAARDISVSALSGED
+LPATSVLCFLVWTVLLCAGAVWANRRDQGRRFR
+>tr|A0A0P7HVZ6|A0A0P7HVZ6_9MICC
+MITRRQAAQYLDIPLEMAAKHGIPARLEQAELNELDANPPAWLVQSRANRTGKRPVWVQL
+ECEVCGFRETARPKKWWPEFSFVACEDHRACELPAVPEGSVRSEYEGVGSRFTGIVDVPV
+SGAN
+>tr|A0A0P7HC92|A0A0P7HC92_9MICC
+MQTFLPYESFRRSAGVLDSPRLGKQRVETLQILRALVLPDYGWRNHPVTRMWMGYVPALV
+AYGLAMTDAWTGRGYADTVRPQLVEFAPEADGGELPLPPWLGDAQLHESHRSNLLAKDPV
+FYANLFPGTPPDLPYVWPDPEELVLPAEPGGDALWVARSVPSEDGPVIELPMLSARGAPV
+TGKKARQLERFLDEMNDGDEVALLGPDRTVLQLGNVGEVSLTNDTARRTVRVSASVLRSD
+FAYPALLQDPRTLFTVPYPGHL
+>tr|A0A0P7HEP2|A0A0P7HEP2_9MICC
+MATQDRRKTGSRPQEVEETEEVPTPAGEPAEQSSAQTEGVDDLLDEIDGVLENNAEEFVR
+GFIQKGGQ
+>tr|A0A0P7FY93|A0A0P7FY93_9MICC
+MGSSELKDDPATAVYEPFIACSADYASGPGAALDRSDQIGPENSVMVSPEQLRAMGLPDS
+EVTAQAHAWHGLSPEMREEQLCRASQENAAVDELR
+>tr|A0A0P7GBU6|A0A0P7GBU6_9MICC
+MIPARSSGVGLIITVGVLALLVGLAAYFVLPRLGIGADSSASPGVSESTNPAAEESQEPQ
+ESPSPSVSPSPAETPTPTPTPTPTPEAVPADKTQPVVVLNASGISGLGAGISGRIGADGW
+TTAQVGNWAGAPLQTSVIFYNGEAQRVNAEELSALLGIPTITDSPEFSFVTVVAGPGFQ
+>tr|A0A0P7HKF0|A0A0P7HKF0_9MICC
+MAEGSGRRRPQAPARAIEGNLARALPLQSPQAPAPRRRTPLALVPAAARRRRVPVAALCF
+AVLAAGLAAVLGLNISVSSGQYELVQLQNQRTELIQKNEALTQQVEHHQAPQVLAGAAAE
+LGMVVSPTFGTIDLQTLAVTGTPEPAKEGTGPGTLVELPQVLTQPVAPVQPAAPEPAENA
+RAAEQQDDAAAGADPVPAPAAPAAVEPDLNGGTIPAPSQRSGQ
+>tr|A0A0P7GA29|A0A0P7GA29_9MICC
+MDVTFAPLMDKDEEELVKFLTTNAFPFHRITAPSEELVRRLLLEGRFESDGVRTFWVFGG
+NHRLGLVILEDLGEECAYFDLRLVEEHRGEGKGVPVLRALTDEVFRTYPNLRRFAGRMRE
+DNIAMRKTLLRSGFVKEAHLREQWPLENGRRLAEVTYGCLRSDWEAGNVTGFEWEELTAG
+>tr|A0A0P7GV38|A0A0P7GV38_9MICC
+MSTGPASAPPAAPAAFIPKSDTPWTAGRSGTSTASETSADAETTDADHPSPSRTRLTVTA
+APESAAVPATIKAASSSPCPNRITRWRPARSESQPKTGDNAYIPAMCRLMVNPTRLIDAP
+WLLRCTGVIDISATITAWLRAMTATAYRACALVRRILNPDRFEAGDASPAPAARRRFSSS
+SGSGRSPVR
+>tr|A0A0P7GJ12|A0A0P7GJ12_9MICC
+MALGIDGLISGIETSAMIKQLMQIEARPQTLLKNKVSTTQSFVTALQNLNTKIASLTEAA
+GKTAKPAGTDLFKASTTSDKVTATTTAGAAAGSLDISVTQTATAQVSLSAALAAWPSNSV
+LAISANGTVTSFDTTDKSLDQVISEVNKANLGVTGVKIATGSVDGVQQYRVQFTAAKTGS
+EGAFTASLGGTDMDVLKPAQDAKLTLWAGTPAAQEITSSTNTFKALMPGVDVTLAVDTPA
+NTALTIKVARDDEAISKVASDLVASLADAFAYINRNSAVTVSTSSGNTAASGGVFTGDAG
+IRDIKRQIMEAATSPVDGRSPSEIGVVITKDGTVEFDAEKFAAAMAADPTKTQETLQTIA
+GRVEAAGKVASDKYDGLLTQRITGQESTIRSLNTQIEDWDRRLASRESTLKMIWGNLEVK
+LSQLQSQQDWLTGQLASLNTSSSGKK
+>tr|A0A0P7FQM0|A0A0P7FQM0_9MICC
+MSNIETAPLEVECASTPAADVEIHTPRDVPLGGPRAMPVRRTLPQRSRSLIGAWCFVDHY
+GPDAVTRTGGMVVPPHPHTGLQTVSWLFAGEIEHRDSSGAHAMVRPGEVNLMTAGRGIAH
+SEVSTPQTATLHGVQLWLALPETSRHTDPRFEHYAPEPVRGGGWDLRVFLGELAGSASPV
+RVHSPILGAEICLEPGAVLELDADPRFEYGLLADTGELHFQGTGVVPGELAYVPTGNTTL
+RISASADAAVRAVLIGGEPLGETIVMWWNFIGRSHEEIVQYRRDWQQHIGAESHPGADPA
+DRFAVVPNDPLPPLPAPDLPNARLRPRS
+>tr|A0A0P7GIH4|A0A0P7GIH4_9MICC
+MKRSKTGALGALLLGASLAATGCGSDSASSGDSDMVKIGITQIVEHDALTSAKEGFKRAL
+AENGYTEGENISYDEQNAAGEQATATSIASKFASDDLDLVLAIATPTAQAAAQAITDIPI
+LITAVTEPEEAGLVDSWDAPGANLTGTSDLNPVADQLALIKELTPDAKTVGIVYSSGEVN
+SEVQIELAQEAAKDLGLELKLAAVSNTAEVQQAAESLDVDAFYIPTDNNVVAALDSVVQI
+AETKKIPLVTGDAGAVEAGGLATWGIDYEALGYQTGLMAIKILEEDADPASMPIETLDEV
+QLVVNKAAAANMGIEIPESMLEKADKVIE
+>tr|A0A0N8HXW3|A0A0N8HXW3_9MICC
+MTPTDPAHTMAAAAGSSFSEHLSRHHPELLPSARRLGTAPAGSASAAAPQATTIVSLTYA
+GGVLMAGDRRATMGNMIASRHIRKVFPADTYSVLGIAGTAGLALDMIRLFQVELEHYEKI
+EGTPMSLDGKSNRLAAMVRQNLPLALQGLAVIPLFAGYDTERHTGRMFSYDVTGGRYEEY
+EHHSVGSGSVFARGALKKLWRPGLDQDEAVRIAVESLYDAADDDSATGGPDMVRQLWPVV
+YVVNSAGIREIPERELHQLAEELVTRRSIAGREA
+>tr|A0A0P7GJ36|A0A0P7GJ36_9MICC
+MVKIPSKPVGNVTRGTTNPNRLRRVDRWLSGPEGWRLRRAADPLVIDLGYGAAPVTAVEL
+HSRISGVRADVSVVGIEIDPERVRAAKPLERDGLRFVQGGFELPLNGRRPVMVRAFNVLR
+QYSEEEYSAHWDMVCSRLADGGIFIDGTCDEIGRRSTWVVLEQAGPVSLSISLRFGAFSL
+PSDVAERLPKALIHRNVPGEKVHAFLQAMDKAWTEAAPMASYGNRQRWIAMCRSLRAAGW
+PLLTGPSRWRLGEITVAWDAVAPAADQV
+>tr|A0A0P7FZH7|A0A0P7FZH7_9MICC
+MGVATAIVRRGLKLGGQAAVMVALILGLVAFVGTNKSVVLNVDGETSDIITFGGTVEDVL
+AKADIQLAAADRVVPAASTEVQDGTTIEVTTAKTVDVNVDGTGHTIQTTGATVADLISEL
+RVSAKSSVSASLDTSLLSLQGLSISTPKTVTLLADGQTRQLETTAGTVGEVLAEAGIAVG
+SSDRLSVPARADVADGMTLKVTRVVSGTEDTVTEPVPFETRSVEDAELFEGEKKVTEAGA
+AGERILVFDTVVVDGREVNRVLVREDVTREPVTETVAVGTKKRPAPAPAAAPGGTAPAGG
+AWAALAQCESGGNWHINSGNGYYGGLQFSTQSWLGAGGGAYAPVASDATPEQQIAVAENL
+RANGGWGHWPSCARKLGLL
+>tr|A0A0P7HDX1|A0A0P7HDX1_9MICC
+MKPFLLLATRAEDGAAEEEYESYLHFGDLTPPQLHRVRMEAAPLPAIDLADYSGIIVGGS
+PFNSSDPEDTKSDLQLRVEKELSALLDTLVERDFPFLGACYGVGTLGRHQGAVVNRTYGE
+PIGAVPVTLTPQGRQDPLLEGLPDTFDAFVGHKEAVFRLPEHAVNLAGSPTCPVQMFRVR
+QNLYATQFHPELDVAGLLTRISVYRNAGYFPPEEADTVMDSVRTAQVTAPPLILRNFTAR
+YAR
+>tr|A0A0P7FPY0|A0A0P7FPY0_9MICC
+MPSVSTPATTRAGLPIEVRRSARRKRTVNAVFRDGVAVVSIPAHFTKAQEAEWVQRMVDR
+LETKTAAPPAADPAEAHSGLAERAAELSRQYLGGAARPVSVRWVGNQNSRWGSATPARGT
+IRLSDKLIGMPQWVVDYVLLHELAHLIEGSHSPKFWRLLQSYPHTETAKAYLSGAAYASA
+RGLKGEFAED
+>tr|A0A0P7G8X1|A0A0P7G8X1_9MICC
+MAIVRSIAQVEESEKEVEPLALPLADPLGAEIETKTYNLFSTEEETIHAGTWETATGLSR
+WDFSDGGEVIYVLGGRMTVQRDGEEPKEVGPGDLAVFPQGWTGTWNVTERLSKVYVMYS
+>tr|A0A0P7HK55|A0A0P7HK55_9MICC
+MTKDPGGTTSEKQTGLKRAIGVPLLFAFIVGDTLGAGIYTLVGTMAADVGGAIWIPLLIA
+LVVALLTAATYAELITKYPHAGGAARYADRAFGIPYVSFIVGFLMMASGITTAAALANAF
+AGDYLTALIDVPAVPAAIVFIILLTLINLRGVRESLAANLIASIIEVSGLVIVIVVAAVV
+LASGNGEPSRLLEFAPDVPPLQGAFAASIVAFFSFLGFEAAANMAEEVRNPSKAYPRALF
+GAICTAGVVYLLIALGAVIVLPPADLAESTGPLLEVVSASGVGIPPGLFSIIALIAIANG
+ALLFMVMASRVGYGLAEAELLPRAFARVLPGRRTPWVSIVVVSGLTIVLSLVGNVATLAE
+TTVLLLLLVFLSANISVLVLKKDKVDHDHFSAPRFVPILAIIASIALLTQQSGITWLGAA
+GYAVVGSLLFLAARAGRNHQKRVNAS
+>tr|A0A0P7GSE8|A0A0P7GSE8_9MICC
+MSEQQQPEEPVTPTLTAKQAKRANATVIGMLIATGITLAIVLVPVLLNPYQKMQPRNVDV
+QAIASEAADDAGYPPLAPDLPEGWTANYARWDSGVNTGVPTWEVGYLTPDTQFIRLTQTN
+TANPTWISQTTKDSLVAGERTAGGATWQLRDSANGEGHLVTEVNGMTVILSSEADLATVD
+ELAEAVLADINTQQQ
+>tr|A0A0P7GIE3|A0A0P7GIE3_9MICC
+MSNSELKQVVGAAIVDDLGQPRSLLAARRTAPEAYAGMWEFPGGKVEPGETCEAALHREL
+TEELGIEVVLGAEVAGPLDQGWPLNAKAAMRVWLVEVSAGKPQPLEDHDELRWVPLDSPE
+LADLPWIPADLPIVTAVRAAAGQPPAGIASPGPCRR
+>tr|A0A0P7FBB7|A0A0P7FBB7_9MICC
+MLSLHTSPLEQPGSGDAGGMNVYVRSVAVQMAKMGVEVDIFTRACAPDQPRAVELAPGVT
+VHHVVAGPRRKVAKELLPRLAGDLAEGVARSALHGGIRYDVIHSHYWVSGVAGTSLARHW
+DVPLVHTMHTMARVKNLQLQPGQAPEPQVRIQGEQDVVHAAARLIANTTTEADELVAWYG
+ADPQSIDVVAPGVDLDVFSPAGRTEARARHGVRRGEFHVVFAGRIQRMKGPQVLVEAAAR
+LRASRPDIPLRVSILGAPSGSEILDLDASVRELGLRGTVQLHPPVEANGLAGWFRSADVV
+AVPSFSESFGLVALEAQACGTPVLAADVGGLPKAVSSGRTGVLVQGHDPSLWAAELETLF
+DHRAWRSDLGRNAAAQARSFGWERTATLTTQTYRHAAEQPAVHPVGN
+>tr|A0A0P7HHF6|A0A0P7HHF6_9MICC
+MARTKAKQPTHSGEGHLVSNLVTFIVFFGLFLASIYALNWLTLDVVWPMVVCLVVGTLVY
+LVPFMMGRSDTTVELAEGQSHNE
+>tr|A0A0N8HYZ0|A0A0N8HYZ0_9MICC
+MALSRMRSLAAVAAVAVLSLSACSTGSSSDAGTSSAAGSSDQFPVTIEHAFGETTIESAP
+ERVATVSWVNTDTALALGVVPVGMPLYEWGGNENGTTPWIDDALEELGAPIGSENAPVQY
+AETDGINFDEIAATTPDVILAAYSGITEEEYDKLSAIAPVVAYPETPYYTSWQDSATMIG
+EALGKSDEAAQLVEDTEKAIADKAAEYPELAGTSFIYGNLDTTAGADQISIYTSGDNRPK
+FLKELGMVQAPIVDENAPDDAFYLTWSPERANELEADLFVSWVADDAAKDAITADPLLSQ
+IPAVKNGGLVADSDNTLTLSISAANVLSIPYALDNFVPMLGEAAAQVK
+>tr|A0A0P7HV38|A0A0P7HV38_9MICC
+MHHKARKAVAAVLAVGALSLAACGSGSDSADESGLGLVNDGTLTVCSNLPFQPFEYVDDN
+GEYAGFDMDLSREIAAGMGLDWELQNVGFDGLQSGTVLAAGQCDLIAAAVTITPERADKL
+AFSDPYYDSLQSLLVPEGSSVQSLEDLAGKKVGVQQGTTGESYARENAADAEIVSYQSDA
+ELFPALQAGNIDAVLQDLPVNLDHTDGGAFTISATYETDEVYGFAMKKTGSEDLVAAVNA
+ELAELRSNGKYQEIYDKYFTE
+>tr|A0A0N8HZ73|A0A0N8HZ73_9MICC
+MPQTEPGRTPRHESLAAYLDDHLLGAETGVRLFKAARTTWEGTKYESVFADLVQQISDER
+DELETLILALGYQRSRIKKGLAWIGAVGGRLGPINPLSTGKGTTGQLELETLQSIVRAKE
+CLYRTLLVLSAHDHRFHAPRIRELLKLAQDQQDAVAKVMEETVPSRFLA
+>tr|A0A0P7HLY6|A0A0P7HLY6_9MICC
+MKIPQLHVGAGTAVGPVTIFPVWTAGGGRLGISTGLKADIAVSELTSGARVGNLTILNKG
+KTNALLLEGELLEGGQQHRTCARDVLIAPGESMDVETFCVEAGRWEAGQSIHRRLARRAP
+LSVRSELVYAGAAPGRDSQAQIWERVRRFDAARGPSATSSLPEHLDRFGGNTRHHSVPQI
+PKPLEGQRGVVIGIAGQPLLLEVFGTATLFRQHYRQLIEAVLLDAELLLPDSARNAPPMP
+GQAARDLAAIAGPMDFGEFYGCGGARRHDTMRSRVISGTRGPVRASGIAVNLPDREPEIV
+HVSYWNTNHPLMEAV
+>tr|A0A0N8HY10|A0A0N8HY10_9MICC
+MREYSVPVLVESSPETNTTDLLLEQAAKPSNPALFAVRSTGENWTNISATEFLADVSRIA
+KGLIASGIGQGDRVGIMARTRYEWTLVDFAIWFAGAVSVPVYETSSPAQVAWILGDSEAA
+GIIVEAARHENVVRQAGADADLSSVKNVWQMDGGGLDQLREAGASVTDEELESRRSAATL
+ADTATIIYTSGTTGKPKGCELTHGNFVNLSRNSTAALPEVAKEGAQTIMFLPLAHVFARF
+ISVLAVAAGSTVAHTPDVKNLLPDLQSYKPTFLLVVPRVFEKVYNSSMLKAEDGGKGKIF
+HAGAKTAIEWSKANEAGKVPLGLKLRHALFDKLLYSKIRTAMGGRVQYAISGGAPLGDRL
+GHFFHGIGVMVLEGYGLTETTAPISVNTPQLIKIGTVGAPLPGNAVKIADDGEILTKGIS
+VMKGYFKRPDLTEDNFADGWFRTGDIGQLDSDGFLKITGRKKEIIVTASGKNVIPAMLED
+SIRADAIVSQCVVVGDQRPFIAALITVDEEALPGWLERHGMPATTTVAEAAQSQQLQDEL
+QALVDRANKAVSQAEQIKVFRVVTTDFTESSGHLTPSLKIKRAQVLKDFSDVVEEIYSGQ
+RV
+>tr|A0A0P7GT14|A0A0P7GT14_9MICC
+MTEQLEKLNRLPLRDDLRGQTPYGAPQLEVPILLNVNENTHGLPQEVAEAIADSVRDAVA
+GLNRYPDREFTELRKRLAAYLGHGLAIENIWAGNGSNEVLQHILQAFGGPGRTAMSFPPT
+YSMYPLLSSGTGTAYLTGVRAADFTLSPESAAEQVRAAKPNIVFLCTPNNPTGTALGLDV
+VEAVYEAGKASNAIVIVDEAYAEFSHAGTPSALQLLPGRERLIVSRTMSKAFALAGARLG
+YMAAAPEVTDALRLVRLPYHLSAVTQATANAALAHAGSLLANVEDIKGQRDRIVAELTEM
+GLQPAESDANFVLFGGLENPRKVWQGLLDAGVLIRDVGIPGHLRVTAGTEAETTAFLSAL
+RSLLSA
+>tr|A0A0P7HMG0|A0A0P7HMG0_9MICC
+MKASFSVTSKPPALTRRIPRVQDLAPLMQFKKPQLGAAARLQKANTIWDLRDLAKRRTPK
+APFDYTDGAAEGEITLRRARAAFEDLQFRPGVLRNVASVDLSTSILGRESALPFGIAPTG
+FTRMMQSEGEYAGSQAAAAAGIPYTLSTMGTASIEDVAAAAPDGRNWFQLYLWTDRDKSL
+ELINRAAAAGFDTLMVTVDTAVAGERLRDVRNGMTIPPALTLKTVLDASYRPAWWFNFLT
+HEPLSFASLNRYSGTVAELINSMFDPTLTLKDLDWLRSVWNGNLVVKGIQTLDDAREAVD
+HGADGIVLSNHGGRQLDRAPIPLQLLPETAAALKGKTSIILDTGIMSGGDIVAALALGAD
+FALIGRAYLYGLMAGGRAGVDRSIQILSAQAARTMALMGVASVSELTPDHVRLGSGA
+>tr|A0A0P7GK97|A0A0P7GK97_9MICC
+MDEGDGTVAGFAAYRDRPGSRAFTHTEVSDAYAGQGVASELARFAVEDVRDADLRLVPYC
+PYIARWLTKHPEYTGFVDWPQTAKTKNGESAR
+>tr|A0A0P7GJW0|A0A0P7GJW0_9MICC
+MARHTLSVLVEDVPGVLTRVASLFARRAFNINSLAVGPSEVAGLSRITVVVEAEGDLLEQ
+VTKQLNKLVNVIKIVELVPESSVQRDHILVKVRADAATRLQVTQAAELFRASVVDVSTDS
+LIVEATGTADKLNALLSVLEPFGIREIVQSGTLAVGRGAKSMSDRALRSA
+>tr|A0A0P7FFF4|A0A0P7FFF4_9MICC
+MSDDRARRVIRLFPDYGHRWPLWENSTPGHPSKYTMEPADFGLSETLTDRLRTWYDAWEA
+ETLYENGWSSSAKERAWKAEGASIAQQLRSEVKAFADVEYDE
+>tr|A0A0P7FHA3|A0A0P7FHA3_9MICC
+MSLARQCLSRRQAMRRALNLVNGTTAAGLLVARIGGVPVHRGSGGLLLAGGWKLGLPHAA
+AFTVGNVILYRSRVAQAFDAAPAAPASTLLRHEARHSSQYAVLGLAFLPLYFAAAGYSRL
+RTGDPASSNIFEVLAGLAEGGYRPRPSPRRKASYGSFRR
+>tr|A0A0P7GJK1|A0A0P7GJK1_9MICC
+MRVGTIVWGLVLAAVGALILTVQLTGIRLDAGMVLLGLLIGAGTALVIGGLLAVMGRKRT
+>tr|A0A0P7G041|A0A0P7G041_9MICC
+MTSELLLPALNAARKGKEEGGIPIGAALFVDGTIVSTGRNRRQQLGSVIRHAEMDCLEHA
+GRLPAGSYTRATMVTTLSPCDMCTGAILLYRIPRVIIGENRSFRGPEDLLRQRGVQVEVL
+DDPACAMLMEEFMTDYPTLWNEDVGML
+>tr|A0A0P7FQN0|A0A0P7FQN0_9MICC
+MEHMQILDRTFSELTAEARRLAAGPRRILGITGPPGAGKSTLASALAAGLGLQLAVVVSM
+DGFHLANQVLESRGIRERKGAPDTFDDGGYAALLGRLREQQEPVVYAPEFRRDLEEPIGS
+AVPVERSVPLVITEGNYLLLDSGDWSRARAQLDAVWYLELDEGERLKRLAARHESFGKSP
+ADARAWALGSDQANAELVARHAGNADAVIRLRA
+>tr|A0A0P7FDK4|A0A0P7FDK4_9MICC
+MKAVKQLLSGNGRQFGMIFALVVLIGLFQWLTGGKTLTPTNMINLFNGNSYILILAVGMV
+FVIIAGHIDLSVGSVAAFTGILVALAMRDWGIPWWGGILLGLVIGAAIGAWQGFWVAYVG
+IPAFIVTLAGMLIFRGANQWVGKSNTVPVPQEFQFIGAGYLPEVGPNTGFNNLTLLLGLL
+LAAFVVVGELRRRAKTVKIGSVNPPAWVAVTKTGLLVAAILYATYLFSTGRPGTSFPVSG
+IILAILVILYVFISTKTVIGRHVYAVGGNLHAAELSGVQSKKVNFLVMMNMSILAALAGM
+IFVARSTASGPFDGTGWELDAIAAVFIGGAAVSGGVGTVVGSIVGGLVMAVLNNGLQLLG
+IGADLTSIIKGLVLLIAVALDVYNKSQGKPSIIGMMMKNFGSKDKLTVPAPVNPKPEMPT
+GTKSTIGTDA
+>tr|A0A0P7G5H7|A0A0P7G5H7_9MICC
+MQHPSGAFPVEVLFLVPACAAAAAYVAGACSPRARGWPLHRTVLFILGVVLALLTVLGPL
+PGLAHGNFTLLALSHVIAGMLVPLLLVFSRPVTLALRSMDRMPALRTVRILRSAPARILA
+NPLTATVLNLGGMYLMFRTPLFDAMRAYAPVHWIVTFHLVAAGYLWTAALIGRDPNPHRA
+GLRLRAGVLVFTAAAHNILAKSLYAQPPAGIPAGEAETGAMAMYYAGGAVELAVMVVFCL
+QWYRRSAPRDDSAAAAAPPYRETQKGLSR
+>tr|A0A0P7HC82|A0A0P7HC82_9MICC
+MALNASDNRGTGRPLIGITTYYQEAAWGVWKGTAALIPGTYVEAVAAAGGIPVLLPPVGT
+GVHVLDRLDGLVTAGGTDVDPAQYGHQPHRLTISQPQRDAHDLALTKAALERGLPLLAIC
+RGAQILNVALGGTLIQHLPDVRPEANYQPAPGVFGEVSFTTTPGSLISSLLGPTASAPCY
+HHQGIAELGHGLEVTAVAPEGTIEAVELAGSNAWVLGVQFHPEQNPADLRLFRGFVAAAE
+GSGKPAPGPAAPAAVSTSEGARS
+>tr|A0A0P7HJ50|A0A0P7HJ50_9MICC
+MESVPGINPAVPPTGPGCVECTEAEGWWFHLRRCAECGHIGCCDTSPGQHATAHEQATGH
+PVIRSYEPGEDWFYSYPQDAAVTGPQLAPPQAHPADQPVPGPAGRVPPDWMSHLH
+>tr|A0A0P7HC64|A0A0P7HC64_9MICC
+MEQPEKSQQPDQPNQSGSGRGIYLHMVRDLRAQPDAVYNAWTDLAHVTDWWGPEGFTVPE
+DRVRMDSREGGEYRACMVNTITGDELWWGGTLERLDPPGHLSMTQRWEQPDGTPASNTTL
+ITVDLEPHDGGTRMAFAQGPFPDTRDRDGHETGWNSSFSRLAEYLARRA
+>tr|A0A0N8HXZ8|A0A0N8HXZ8_9MICC
+MEQSMTLSPAAAEVMGQLAALEDPKARAVNEKHGDDHGVNLSKLRAVAKSLKTRHGLALE
+LWGTGDTAARLVALLICRPKAFDAGGLDTMLRQARVPKVHDWLVNYVVKKSPHAEEVRAA
+WFVDPDPVVASAGWALTSERIVKNPEGLDVAELLGIIESDMKDAPGRLQWAMNTCLAQIG
+ITHPEYRSRAVGIGERLEVLKDYPTPPNCTSPYAPAWINEMVSRQQGA
+>tr|A0A0N8HY55|A0A0N8HY55_9MICC
+MNTGPSIFARALGADFERLHPMLQLRFGVDPGAGYACVGRGVFSELRRGAWWTVPFLKLG
+AFRNILFPEHGNNVPFTIENYPYVDGLGRTTVTFTRTLETRAGRPRRFDATMILGSRGTV
+VDYLGTHQHLATDLDLSVRSDGSLHLRSTDLRFYEGLVRFTVPRFLTGTADLYEAFDDER
+QVFTIQLQVRNPVFGFLFGYRGEFTCEFPPLAPGGTPARLRPAREESRD
+>tr|A0A0P7GJF5|A0A0P7GJF5_9MICC
+MNVIETRGLTRRYKDQVALDDVNLDIAPNRIYGLLGRNGAGKTTLMSILTAQGFATSGEV
+RVFGGNPFENEHVLSRLCFVRESQKYPDDFTVRNALDAAALFFPNWDKDLADTLLEDFQL
+PRPKKHRIKKLSRGQLSAVGVIIGLASRAELTFFDEPYLGLDAVARQLFYDRLLTDFADH
+PRTIILSSHLIDEVANLLEHVIVIDRGRIVMDDEVEAITGSAFAVAGKSSSVEEFVAGRP
+ILHREGLGALASVTVDTPLSADDRQRAQALGLELAPVSLQQLIIRRTLKANEHYGSHQEN
+NEKDLEVLR
+>tr|A0A0P7FQT7|A0A0P7FQT7_9MICC
+MASLLTPLITSAGLIGGYKTARDTGNRQLGGAVLAAAGAAAFALWKRDAGTGTAVALTTT
+YVAAFGLSHPLAKKMGAWPSVYTVTAATALASLVFGRKK
+>tr|A0A0P7FYV6|A0A0P7FYV6_9MICC
+MFKTKKSAPGITSPQTRVPALGGSYVARFGGAGPVASAAEPQAEFRSVLPSYTTQFDGGI
+RSRRDPAVDNYTAAFPEASSREPAVLRPAGIGRRGCYTDVDL
+>tr|A0A0P7G3Q9|A0A0P7G3Q9_9MICC
+MQTALTRRLGVPGIVLMVVAAAAPITVVAANFPLILTVSESVGMPLMVLAATAILLLFSV
+GYAWMTPHVPDAGAFYSYVDRGFGRRAGLGTAGLALFAYVLLTVSMTCYLGVQAGNLIEL
+WTRVLVPWWAISAAMIAVVGFLGYRDINLSAKVLGAVLVLEVAAVLAIDLGVLFSGRELT
+SLPFSPAEAMSGAPGLGLLFAFLGFFGFEATAVFRNEAKDPERTIPRATYIAVLSIGALY
+ILSSWLIISGLGAGNAVALATDSPDSVVVGFAGEILAPIMTDIVQVLVVTSMFACMLAFH
+NIVSRYLFTLGQRGVLPAGLAAVHPAHGAPSRASFWVTGVTAAVVVVSAVAQLDPVLEIY
+TWYSGAGAIGVIVMMTLTSFAIVGFGTRGGGVSAPGMVRAAAVAGGIGLLGVLALSLWNF
+PFLVGGNLAAIIWGAALVLVFVVAAALPASTRPAPADATEPADASRR
+>tr|A0A0P7HDJ4|A0A0P7HDJ4_9MICC
+MRLPAIRQSAFGELDSDTGWTLVEAFAAVHRWQSHHVGSFDQCFWLQHFGGPSVCQSRTT
+LMACRLHAAGLRGFT
+>tr|A0A0P7HG78|A0A0P7HG78_9MICC
+MTETDSPADEAVKTPAKRAPRARRKTAAAPAAEREEPALTESPAEQASAAPAVDEAEPAA
+KPKRTRAPRRKPAAAAEETPAAPGAGEEPATADTEAPAPAAEAPAKTVRRRRAPAKKAAE
+AVPDDAEQAVSGAGEPEAPVETAPAPRTRTRRRATAKAGPAAEAAAPSDKVPADEAPADK
+EQVEAPADAAPADAVTPAEEAPKAKGAKEEESKPAAAAAVLDPFAIPESPTSVLFHAPDL
+TAVQALAAAAASAEGSDEDESDEESRESNRSRRSRRRSRGRSRTEGEAGTDSEGADGSDA
+APAEENAEGVTSRRRRRRRRGDADLELTGGSDDDPPNTVTRVRAPRAHADAPVSDRVTSV
+KGSTRLEAKKQRRRESRESGRRRHVITEAEFLARRESVDRQMIVRQRDDRIQIGVLEDGV
+LAEHFVSNTQQDSLIGNVYVGKVQNVLPSMEAAFVDIGRGRNAVLYAGEVNWDAAGLDGQ
+PRRIELALKSGDSVLVQVTKDPVGHKGARLTSQISLPGRYLVYVPGGSMTGISRKLPDVE
+RNRLKKILKDHLPQNAGVIVRTAAEGASEEELMNDINRLRAQWENIEAKAKSTKTLPPEL
+LYGEPDLTIKVVRDVFNEDFSKLIVSGEEAWDTIEAYVTYVAPDLVGRLEKWTKDEDIFA
+ASRIDEQIAKALDRKVFLPSGGSLVIDRTEAMTVVDVNTGKFTGSGGNLEETVTKNNLEA
+AEEVVRQLRLRDIGGIIVIDFIDMVLEANRDLVLRRLVECLGRDRTKHQVAEVTSLGLVQ
+MTRKRMGTGLLEVFGEECQHCAGRGVITHDIPVEHRRSTSHTSHAVSEDNHSAHLKQEKQ
+TRGERKRRSRGGQNQNQQQPAAPVEQPKVEEPQTDDAERAAKAEAARAALATIAAATAAA
+HDAGTEAPAEENASRTDAAAEAGEKPLIKEPHDDVPAEAGAILRIQGETVVVPRRERRRP
+VRQDVQLTLESLTEAFNEVSPVSGREPQPAKDEQASAGTEKGNGRGTGEPVREAAPEAAE
+PARRPRRRRAARSPQGSADAQIIQERDASGAQGSSTTAVAAAPAAPRAEAAAPVILGVGV
+PASDL
+>tr|A0A0P7FGH1|A0A0P7FGH1_9MICC
+MKTEPGLLLEGPRGRRLCLELATELDSGVRSAVFHLGYDLDPGKGTSTVMFALSSSSSDG
+GTPSEDPSVEGLATTLLSIDTSSITDENVARALERAVGTARYWQEPDGEDVLAGIPAIAD
+ALRPIAGQVLATHAGQTWSQEHQAGQWAIDWRSAEDPAPLPRNPQEVLNRWAEEIRADEA
+QAAQDRPDSVYANVSGNWWSFPLGLLRATGAIPAALNLVEDSMGWQEATTIPVYTVGRTF
+EIRTATDWSALCRRFPLDVTASRRHDWFRTTRRDGPWVIPDWQRVANEWDAVHLTTMGYL
+NTAGRALDVDADTATVLAGWDPDSTLWLTDVVREAETPRQTWSRRPNDDLWSRTR
+>tr|A0A0P7HK71|A0A0P7HK71_9MICC
+MNTSPESEGKGRPDGQPSMSELAGQYAARSGVERGDDGQIDVLKSVGGVRGLAEAILPGL
+LFTLLYTITSGLYLSLGAAVVAAGAFAAANLVQKRPLVQSLTGVIGVAICAVFALRSGSG
+TTFFLPGFYLNGAYILAFIISVAVKWPVAGLLFGFIRGENVSWRNEPKRLRSYTLATWII
+ISVFALRLAVQLPLYLADNVAALGTMRLAMGVPLYALGLWLAWVISRPVAVREP
+>tr|A0A0P7FQ85|A0A0P7FQ85_9MICC
+MRLVIARCSVDYVGRLRAHLPLATRLLMVKADGSVLIHSDGGSYKPLNWMSPPATLRITE
+PAPDDAEAGVVEVWNVQSAKTDDKLVISVYEHLSDVAHELGTDPGLIKDGVEADLQRLLA
+EQITKLGEGYTLIRREYMTAIGPVDILARDADGGTVAVELKRRGDIDGVEQLTRYLELLN
+RDPLLAPVRGVFAAQQIKPQARVLAADRGIDCLTLDYDEMRGVDDVESRLF
+>tr|A0A0P7GNS9|A0A0P7GNS9_9MICC
+MVNIVATLSESFKSLAVTRVYGDPVKVGSETLVPVALVQAGFGGGGDADGDGGGGGGGLV
+LPLGVYAAADGNPAVFRPNPVALIAVMTPLAWILMRGMRSRT
+>tr|A0A0P7GTH7|A0A0P7GTH7_9MICC
+MRRGTSWWRRRSWALAILLTGIGILLLRDPTGWSIIGAVACTAGAGLTIYLGERMVKGLR
+HEYRYTTDEPLP
+>tr|A0A0P7G3N0|A0A0P7G3N0_9MICC
+MAAAGAAALALTLSACGGPGSAGAGDAPAADALENADGVTVVNFWHSMDGTNGETLNKLI
+TDFNAANEGKIEVKGVYQGDYDTTITKYKAAVQSNSTPSMVQIYDIGTQFMIDSGAVMPT
+QTFIDRDEYDVSDLQPNIAGYYSINDELWSMPFNTSMPVMYYNKTLFEAAGLDPEKAPET
+LAEVGEAANKLSKTNGGPAEFGFNAAIYGWLLEQEIAANGALYCSPDNGRSGERVTDYSF
+NNDTAVEFVDWWKGLVETGVAGNTGRATADAQNAFKSGTIGITLESTGALGGMQKAAEEQ
+GFELGVGFYPKIEQNDSGPIIGGASLWVSDEGHSDAEKEAAWQFMQYLAEPATQATWHTG
+TGYFPISKAALDEPEDVAWREQYPQFDVAVQQLEGTELTAATQGCSAGSMPQARKAAEDA
+LEGALLGGDSKAELTESVEALKTEVENYNNSVQ
+>tr|A0A0P7GIT4|A0A0P7GIT4_9MICC
+MQSQPTGRVHRTGEQSYNLVLTRRLAEPPEEVWHSFADPDQAAAWIGRWDGSPGTGSSFD
+SQMLYEEGQPHSSTRVVDCTAGQRVRVLMEDEGGSWDLEIRLWDDGGATALEFIQHLADP
+AAAEDTGPGWEYYLDRLSAARTGGTMPDFDDRYLDQGPYYAAQARAAKAAPAPS
+>tr|A0A0P7GTQ8|A0A0P7GTQ8_9MICC
+MSLRFYDTATASIRDFEPLIPGQVSLYYCGATVQGLPHVGHIRSAIAFDQLTRWLQARGF
+RVTTVRNVTDIDDKILAKAAASVGAEPADGVVPDEEWWALAYRFEQEFSRAYDALGVQRP
+TYEPRATGHIPEMHALIQRLIEAGHAYPALDDSGDVYFDVRSWPAYGSLTRQNIDDMQAA
+PDADPRGKRDPRDFALWKGHKDTDPETAAWDSPWGRGRPGWHLECSAMVTKYLGPRFDIH
+GGGLDLRFPHHENEMAQSQAAGDGFANFWMHNGMVTFEGEKMSKSIGNTISPSQMLAEAS
+PRVVRYYLGQAHYRSVLDYRPTSLQEAAAAVERIDGFIAKAAAKVGENEAPNPADVPEAF
+GAAMDDDLNVPQALAVLHETVRTGNTALAASDLDTVRTALAQVRAMTTVLGLDAVQSSGA
+AAGPEHTALDSLIQDRLRERSEARAAKDWARADAIRDSLAAAGVVVEDTADGALWSLEQG
+>tr|A0A0P7HFP8|A0A0P7HFP8_9MICC
+MRRRGLAIGIDIGGTKVAAGLVDASGRVLEVLRRSTPGQDPREVEKVIVELVRELSAHKH
+VWSVGIGAAGWMDLTGSTVLFSPHLAWRNEPLQENLERLLRRRVYLANDADGAAWAEWRF
+GAGRGESRLVCITLGTGIGGAMIMDGRLERGRFGVAGEFGHQIIMPQGQRCECGNRGCWE
+QYASGNALGREARELAAANSPVAQELLRSVDGRIPDITGAVVTRLALEGDRTAVELVGEV
+GEWLGLGLANLAAALDPGMFVVGGGLSDAGELLLEPARRAYARNLTGRGFRPEARIEKAA
+LGPEAGLIGAADLSRVAARR
+>tr|A0A0P7GJF8|A0A0P7GJF8_9MICC
+MSSEVRIESPAKDTYVLRNTSGRELQHVMVDLARTGATSQDLPAGMTLVPEEGVEFHLHH
+HGGYSPPASMHVRWDGGPEWVEVPVA
+>tr|A0A0P7GJP0|A0A0P7GJP0_9MICC
+MPGPGSSTAAAAAQALNKTYGKGDTAVHALRDVDVRFESGTFTAIMGPSGSGKSTLMHCL
+AGLDTADSGNIWIGGTEITSLKDADITRLRRDSVGFVFQSFNLVPTLTAEQNITLPVSLA
+NGKVDTEWLAEITRTLGLEGRLKHRPHELSGGQQQRVAVARALLTRPHVIFGDEPTGNLD
+SRSGAEVLSLLRRSSREMGQSIIMVTHDPVAASYADRVVLMNDGALVGELSNPTPESVLA
+ALTKLGA
+>tr|A0A0N8HXR3|A0A0N8HXR3_9MICC
+MWQAYSAAHPEAVAVSPEYTVEHFGDTRRLADELLTHVLSGRKRATSELAADFLARGDAV
+PRIGSHWIACDGTGTPRLILRSIELRLGPFGTADEAFARDEGEDDLSLASWQREHRRYWT
+RVSAAQGREWSETDEIVFERFTVVWPPAHADKVSTVHGSGRVPGSP
+>tr|A0A0P7GCB0|A0A0P7GCB0_9MICC
+MLAAAVESARAALLEVVPEEQVGEWLSVVPDADRLVTHRFRANRPGYRGWEWYATVARVP
+RGKVATVCEVGLLPSADAVLAPEWVPWSERVRPEDVATQEPGEEAAAGSQPDGAPVKEPE
+AAAEATPAETEPETEAEDEQEAAASPAAVEDE
+>tr|A0A0P7G434|A0A0P7G434_9MICC
+MSTWDTLDDRLRPVVQASTDEYARVRPALESVTAEMEASLRAVFTDSSVKPLFIASRTKS
+VESFRDKASRTLPPENPDEVPTLLFPDPLRNLTDLVGVRVIMTLPHEVDEAANLIKRQRA
+EFDCRGDREKDIGSIESGTYGYSSRHLILRTIQNETVREFHRLLEPSQKPNGSYLFEVQI
+RTVLAHAWSEIEHDIRFKAGDPRAWSPYFDRQFIATAAMLETVENEFAELHERYETVTGF
+WDEEGEGSAPLTPNRIRHVWMTLLPHVNRKAGDDWGWAAELLAAHGLKTTMDLAGLLQAD
+AITEVRAALDHRYSPGPDRLLDDLLLWRFGKAHIDLTAEPEDAPSKPRRESLGRRYRQMQ
+LYRAREN
+>tr|A0A0P7G6N5|A0A0P7G6N5_9MICC
+MTTDVTARNNVQVLGNSEGPVVMFGHGFGCDQGMWRRVLPYFTADYRVVLFDHVGAGGSD
+KGAYNPAKYSSLEGYVEDLLEICAELDLREVTFVGHSVSAMMAVAAGAADPARFANLVLL
+ASSPSYMDRPEDGYRGGFTSADIDELLTSLDANYIVWAAAMAPMIMGNPGSPELHNELEG
+SFCRLDPAVARDFARVSFCSDVRGQLPEVKVRSLILQCSQDLLAPPHIGVYTRDLMPEAT
+LVQLHATGHLPHVSAPAETATAILAFLAGTPL
+>tr|A0A0P7HF02|A0A0P7HF02_9MICC
+MTTLPSTHKPQPSATAALLGTEVRLFLRSPVLLFMALGFPAALLALQGLLIPGTRDPLNG
+AGSMSALDFFVPMALSVVMASVGLSNLPSTLGGYRQLGLFRRLGATPAGAHRVLGAQLAV
+STASLAAGAALAAVIAVWALGARPPEVPLAALAVFLLGSVQMLALGAVVGSRARSAQSAN
+GIGTLILFASLFFAGVWTPGPLMPEPAAAVAGYTPLGAAAESLTAAWYGQPLDLVPVVVM
+VLWTVLFSALAVRLFRWR
+>tr|A0A0P7HH72|A0A0P7HH72_9MICC
+MYLLSGTLRPYAWGSRTAMAELFGRDPSGEPEAELWFGAHPAAPSPVLTKGGEAATLDEL
+IARDPELMLGRETVAVHGPALPFLAKVLAAGSPLSLQVHPTREQAAAGFAAEEAAGVDRS
+APDRNYKDENHKPEMIFALTDFEALCGFREPDDSARLFRSVARLVDAAGQPVPALFSETA
+SDLESGRPEAERLEGVFRRLISGGDDVREAVAAAADAVRSLDAAERSELDPAIAELDELH
+GYYPGDPGVLISLLLNRASLSPGEAIYLPAGNVHAYLRGLGVEVMASSDNVLRGGLTPKH
+IDLPELLKTIDFQALGVPRLQAQRTGLGQEIYRPPFSEFSLQRLELAQSAEPGSMSAADV
+PLLQNGPTLVMALRGSLVLDSPKQDLILNPGDCAFIGADEAPVIAKLASHSAQHDDGALA
+FAVTAGSLAPAADPDAPTLQL
+>tr|A0A0N8HXL8|A0A0N8HXL8_9MICC
+MPDAIFSHPRLARVYDVLGGGRSDLDTYLGLAAEPGVNAVLDVGCGTGTLACLLAAKGVE
+VLGVDPASASVDVARAKPGAGAVRWVVGTAPDAAADPANHQRFDLATMTANVAQVFLSDA
+DWIRTLRSIHTCLRPGGRLAFETRNPADRAWARWTKERSHQVVDAGAEGLVEDWVEVTGV
+DGELVSFESPTIFQSDGERLDSTSTLRFRNRDALRSSLAEAGFGEVEIRDLPYAPTRGWL
+VLVQA
+>tr|A0A0P7GC19|A0A0P7GC19_9MICC
+MRVLTIIPTYNEIESLPKTLQRLRTAVPDSDVLIADDNSPDGTGAYADQQAALDPKVHVL
+HRKGKEGLGAAYIAGFRWGLENGYDVLVEMDADGSHKPEQLPLLLEASAAGADLVIGSRW
+VPGGSVVNWPLHRKLLSRAGSTYSRLMLGIPVRDITAGYRAFRRSTLEKLDLSAVESVGY
+GFQVDMTFRVARLGLRITEVPITFVEREFGASKMSGNIVFEAIANVTKWGLSARWEKLTK
+RG
+>tr|A0A0P7H4K6|A0A0P7H4K6_9MICC
+MSENPLTTWPVLTTRGTPEAAALRGVLELASSAAEADGNPPLSEQTLVELRSASADPDLL
+RVYLALTHDDGSDPATAQELAGVAVLTAQAGDPAGVLELVVHPNYRNKGVGSSLASAVRQ
+DTGLEFKAWSHGNHEAAVKLAARFGYRPVRELWRMRLSHDALADGLPTAKLPEGVLLRPF
+VPGQDEDAWLAANAAAFAHHPEQGAMTRADLEARMAEDWFDPSGFLLAVRESDGELLGFH
+WTKVHPRTGNHPAIGEVYVVGVTPQAQGSGLGKALTLAGINHLHESGLDAVMLYVDADNT
+PAVALYRKLGFVQWDVDVMYAAE
+>tr|A0A0P7GAV7|A0A0P7GAV7_9MICC
+MFDSEFEAGQVRSGIVVGVDGSDQSICALTWAAREARRRGVPLHVVTAYTVPIFAASSMD
+AGYTAVDDAVIRDGARSVQEKALARVSHDGLEVVARVESGDASAVLLELSEDADLMVVGS
+RGRGGFVGRLLGSVSSALPAHAKCPTVIVPLRTAGRLPESGVSAPSGSPVPEDVHQAVVV
+GVDGSEQGRAASLVAAEQARSTGLPLRIVCALPPFSGSLAWVPAPLDIDALHAELMEQLS
+AGRNWLQSHFPDVEMSVELVDGPPAEIMVGRTANVELVVLGTRGRGGFAGMLLGSTSQSV
+LHHAKGPVMVVPDYDDPRLEDRAKFGPMAEE
+>tr|A0A0P7H482|A0A0P7H482_9MICC
+MFATAAPGVLQPKSSLLPEWLDPQVFLSDPAVGPWVVLLICGIVFVETGLLIGFFLPGDS
+LLFTAGLLVATGAMQINIWVLILLIALCAFAGDQLGYYIGRKAGPVVFNRPESRFFHQDN
+VRRAEAFFARHGGKAVVLARFIPVIRTFTPVVAGVGRMHYATFIAYNAIGGAFWALSVTL
+LGYILGDRVPFVRDNLDLIFLGVIALTLIFVVAGLFRPGKRQRAAGKGPAGKEAGKEAGK
+EARPRIRPVPRPRPRAPEAGGID
+>tr|A0A0P7HI40|A0A0P7HI40_9MICC
+MAARESFTEKFMRVTGKARLIFGPAQSSSLTHDMTEENKRLLEAQQAEEKAMWETVTRAD
+GSSYILPRKKD
+>tr|A0A0P7FPL4|A0A0P7FPL4_9MICC
+MNESSSAKTQQEIYDEGMAVRREVLGDAHVDRANAAKDDFTTDFQDMITRYAWGTIWTRP
+GLDRKMRSAVTLTALIAHGHLEELAMHVRAALRNGLTRDEIKEILLQSAIYCSVPSANAA
+FKTAQNVFRELDAAEK
+>tr|A0A0P7GS35|A0A0P7GS35_9MICC
+MRLTVNTFLSVDGVMQGPGAADEDPSNGFVRGGWLVPLAGEEMDSLVSGWFRQADAILLG
+RSTYEMMQPYWELVTDGSDVVADALNHLPKYLVSSTITEPSWHNTSVISGDVLGAIGALK
+EHSQGELQVHGSYRLARALHDAGMVDEYRLLIFPVVVGSGKRLFEDGAAPSSFMVTGTHI
+TKSGVVALSLLPRPFTVAEMPREP
+>tr|A0A0P7G5Q3|A0A0P7G5Q3_9MICC
+MQSSTSAPHPDPFTAIGLDIGGSKTHGIRLEGQTVAAEAVTGSANVQNVTTEQARHNLAE
+IFAALGTDGVSRVVAGSGGVDTAQDAAALQSLILEHVPTAEVTVVHDTRLILAAGEAPSG
+IGLIAGTGSVAWGMDQTGAQARSGGWGYLLGDEGSAYWIGREAVRHALRLHDTGQQPDRL
+SAELLLAVGIESPDALIARFHGGTGRRYWASMARVVFDAAQEGHAPSRSIIATAARDLAS
+LVADVAAQLGISGPVVVGGGIGVHQPLLQELLTAGLSARGLGDIRFLTQDPVFGVRYLLQ
+DSAA
+>tr|A0A0P7GHV2|A0A0P7GHV2_9MICC
+MTEVFCGIDWAEGHHDIALVDSQGRLLSSQRVAESAAGLAELLDLLSTHGDRIEDRIPVA
+IETTRGLLVAALRSSGRDVYAINPMAVARYRERHTVSRKKSDTQDAAALANILRTDRHAH
+RPLPQDSELVQSIAVLARAQQDAVWDRQQHANRIRSVLREYYPSALKAFPHTSDLSSPTA
+RLLLRTVPTPSQAAVLTGSQLRRILLKSGRTRNIEATVTRLLPILREAAMHQLPGVEAAF
+GTQLTALLGQLDAACAGLDALTLAVEEIR
+>tr|A0A0P7HWJ5|A0A0P7HWJ5_9MICC
+MDTALLYVDTGTARGAAFNTMDGSMATTSKDGKVPVAASAAAAPQGEVNVEDFTSRTSGM
+ARPGQRLSFGTYFNAFAASYWRRWTRVENVRLQVATSGTGVVSVYRSNARGSLQHVETRR
+VADETVSRFDLPLKPFGDGGWYWFDLVAGSSPLVLDAAEWQAPGAAKAPGSVTLEITTLN
+KVDFCLNNLRILADNPDALAYLKEVLIVDQGTKKVKDAPGFAEIEARFGGKLRLIHQGNL
+GGSGGFARGMYEAVQNNSDYVLLLDDDVVVEPESIVRMVTFADHCNKPTIVGGHMFDLYN
+RTVLHTFGETVNPYRFQPDHPIKDQVLGHDFAMTNLRTTPWMHRRVDVDYNGWWMCLIPT
+KVIRDIGLSLPVFIKWDDAEYGLRARAAGYNTVSLPGSAVWHITWADKDDAVDWQAYFHS
+RNRIITALLHSPYPHGGRVVREGSFIDVKHLISMQYFTAQTRVMALRDLLAGPENLHGIL
+AHKLPEIQSMRNDYSEAKFEPDPDAFPTPGVSKPPRRGRGFQAPSYVTLVPWAAKTLVRQ
+LTKPVSSSSVERPEARVAHVDNKWWRMSQYDSAIVTNADGTAASWYHRDPAKLRELLVEG
+MRLNAIVLKDWQKLSEIYRQALPSITSLEAWGKTFDEYSEESK
diff --git a/Exercise11_files/Problem1/Bacillus.fasta b/Exercise11_files/Problem1/Bacillus.fasta
new file mode 100755
index 0000000..120e747
--- /dev/null
+++ b/Exercise11_files/Problem1/Bacillus.fasta
@@ -0,0 +1,23952 @@
+>tr|A6CMP1|A6CMP1_9BACI
+MRKEYPVILLCRVLKVSPSGYYAYLKRPKRSASSEEKETLKAIKKVYRAEKGTYGSKRIS
+KVLKAKGQIVNHKRVARLMKEANLKAVVRLPKTNEESKGKSTGTVYPNLLERDFEAQHPN
+QKWVTDMTEVIHRGEKLYISALMDLFNREIIAFKIGLSPNKQLIEDTIKAAKKKRKLKNL
+EGVLIHSDQGSVYRSLMYRSLKKEFKFTPSMSRKGNCWDNAVIESFFSQLKTEFPCFYPV
+NKDSNILQINLLKYIKRYNEKRIHSKIGFVSPKQFLKDYLKTA
+>tr|A6BZD2|A6CT85_9BACI
+TTTTFSVSTTVNATCVINSASALTFAAFDPSQGAQASTSSISVNCTNTTPFNIGLNAGTG
+TGATVASRVMTSGANTLTYSLYQDSGHASVWGNTVGTNTVAGTGAGMAAGNAITKTVYGL
+IPSQPNTVPGNYADTVTVT
+>tr|A6CJP1|A6CJP1_9BACI
+MTNFNKLSEVLQTFITDEEVENLCEKWGYRDTARKFSTRDLVRFFVISSAKDWKSFRDAE
+TKMPQEESLPSVDHSTLAKKAQNVPYQILQELFSRLVNRLGRGMRRALFKPYKLFAVDST
+TITFQHPDMSWAGYTRTRHAIRLHTKFDVEEGQPTQVIPTTGRHHDVMMAPKLYEDTEPL
+SIITADRGYARTRDFENLQEDNQFFVIRVASSFSFSEEIEHSVPLDEEGSVKEDLTAFIG
+KRTRKTKYRFRLVTFTDNEGNKIKVATNLMMMSPEDIAYIYKLRWQIELFFRWVKGNLDL
+SNLFGNSPNSVYSQVYGTLISYFLLRWIYNETQEDWAILHSFTFIEFTRRYVAYTLPVEV
+RCAIKSLFQRRGSLCQSLGKI
+>tr|A6CL72|A6CL72_9BACI
+MVRFLCGVAGVSRSAYYKYYSPESQERRKQREARDEELKEIILKAFRHKNRKKGARQIKM
+TLAGQFKIVFNLKRIRRIMKKYNIVCPFRRANPYRRLMKATQEHSVVPNLLERQFNQGKP
+GKVLLTDITYLSYGKSSRAYLSMILDGSSGEALAYHVSDRMTMELATDTIKKLKKNKRFK
+KHKDSLIHSDQGVHYTHPQFQKMVKKLGIRQSMSRRGNCWDNAPIESFFGHLKDETSIKT
+CLTLEDVQKEIKQYMNYYNHHRYQWNRKKMTPVQYRDHLLKVA
+>tr|A6CNT3|A6CNT3_9BACI
+MSPSGYYAYLKRPKRSASSEEKETLKAIKKVYRAEKGTYGSKRISKVLKAKGQIVNHKRV
+ARLMKEANLKAVVRLPKTNEESKGKSTGTVYPNLLERDFEAQHPNQKWVTDMTEVIHRGE
+KLYISALMDLFNREIIAFKIGLSPNKQLIEDTIKAAKKKRKLKNLEGVLIHSDQGSVYRS
+LMYRSLKKELKFTPSMSRKGNCWDNAVIESFFSQLKTEFPCFYPVNKDSNILQINLLKYI
+KRYNEKRIHSKIGFVSPKQFLKDYLKTA
+>tr|A6CST9|A6CST9_9BACI
+MVRYLCGVAGVSRSAYYKYYSRESQERRKQWEAKDEEMKEIILKAFRYKNRKKGARQIKM
+TLAGQFKIVYNLKRIRRIMKKYNIVCPFRRANPYRRLMKATQEHSVVPNLLERQFNQGKP
+GKVLLTDITYLNYGKNSRAYLSVILDGSSGEALAYHVSERMTMELATDTLQKLKKNRRFK
+KHKDSLIHSDQGVHYTHPQFQKRVKNLGFRQSMSRRGNCWDNAPIESFFGHLKDETSIKT
+CLTLEDVQKEIKQYMNYYNHHRYQWNRKKMTPVQYRDHLLKVA
+>tr|A6CIR0|A6CIR0_9BACI
+MKNTTDNTTDTSEIKTAKRENTKKLRKIIILLLFKILFPP
+>tr|A6CNT2|A6CNT2_9BACI
+MGEIIMPKKPISHTSVEVKLEAVKNVLENHQPVAVVAEEMGLHRDTVNRWVNKFKENGKE
+GLMNSRSITNSASSKDLKRIRELEKKLKEKEQENEILKKFQAFLKENE
+>tr|A6CIQ8|A6CIQ8_9BACI
+MIDWFWLNAGSLALGLIAWTLPIVNLMRYKNHNLNNWSTFSIMSISACAISLYFQIVYAH
+NLVKIGALSNLIEEGWVVASSVLLIVTLLLNIITIIVYRDKTKK
+>tr|A6CMP2|A6CMP2_9BACI
+MGEIIMPKKPSSHTSVEVKLEAVKNVLENHQPVAVVAEEMGLHRDTVNRWVNKFKENGKE
+GLMNSRSITNSASSKDLKRIRELEKKLKEKEQENEILKKFQAFLKENE
+>tr|A6CI39|A6CI39_9BACI
+MMLEYQQPNRNSIPYRRTIMNSNTNHKINQVSEDTMVIGIDIAKKKHFACAMDDRGRILQ
+KSFPFFQSGAGFDQLDKRIQSLQIQHQKSEVIVGFEPTGHYWMNLAAYLVGQRIRFVMVN
+PMHVNRTKELDDNLQTKNDQKDARVIASLIRDGRFNYTRTLEGVEAELRNGASLRSKIQE
+DLTAIKNRMVRWTDLYFPEFHHIFKSFGKNACAVLEMTPLPIDLYRKSDEDLIYLYKSVE
+GLQCLSFSKIKKLKSMAKQSIGLTEGLEMARFEMGTLISQFKALSKQLETLSSRLNELAQ
+QMTDYEFVLSVDGLGENTVVELLSETGSLSLYEHPRQLIKLAGLTLRENSSGQHKGQKKI
+SKRGRRKLRAILFRVILPLIQHNIAFKSLYHYYTTRTVNPLKKKEAMVVLCGKLLKILHA
+LCVKRMHFNASLMMRDLHCLQEAA
+>tr|A6CIR3|A6CIR3_9BACI
+MKSWIIIVFASLSLILGGCNPTSNSVDESLDDIKEVKELNYNFVGESENWEAELVFKGEE
+IFIKDPEGDINDYNTRTQSDFKLEYKGELSEIAGSSLSYSYDTGSEGSEGTREDLDKKVI
+ESHGGSKNGSIIPQDSIIEVTVEWNGEKENFILENTDSQ
+>tr|A6CL71|A6CL71_9BACI
+MTNRQLVEIGENTMSKKTFTEKEIKQLSINPFVKAVSAKGITYTDEFKRQFIAEKEKGKF
+SRQIFEEAGFDTDIIGMARIHAASKRWSAAYKRNGVLGLNDTRKGNSGRPRERELSLEDK
+NARLEAQINLLKAENELLKKIRFAERGLKK
+>tr|A6CLL7|A6CLL7_9BACI
+MDLYDIVVPQDNMLRRIVDLIDFTFIFEELKDKYCHDNGRNAIDPIRMFKYLFLKTIHDV
+SDVDIVERSKYDMSFKYFLNMAPEEAVIDSSSLTKFRKLRLKDMNFLDMLVNKTVEIAIE
+KEIIKSKSIIVDATHTKARYNQMKPKEILMERSKNLRKSIYKVNDGMKDKFPVKPNNDVL
+EDEIAYSQELIEVIEKEETLLEYPKVKEQLNLLKETVADDIEQLQSMNDQDAKVGHKTAD
+SSFFGYKTHLAMSEERIITAATITTGEKSDGKELQTLIEKSKTAGMKIETVIGDAAYSEK
+DNIEYSKGNGIKLVSRLNPLITQGARKKEDEFEFNKDAGMYVCKAGHMAIRKARQGKKGL
+GRNQVDTYYFDVDKCKRCPLREGCYKGGAKSKTYSVSIKSDQHSDQAKFQESDFFKEKAK
+ERYKIEAKNSELKHRHGYNVAESSGLIGMELQGAMAIFAVNIKRILKLMG
+>tr|A6CQT0|A6CQT0_9BACI
+MLKGGQVMQIHVVQPNQSLFGIAQTYNSTTEDIVEANDLPNPDNLVVGQTLVIPIVGLFY
+FVQPGDSLWSISNRFGISYQELAQINGISVNQGLQVGFRLYIPERPKRDGEFNAYVEPYG
+TTVQPNLEESARDAAPYLTYLAPFDFEAKRDGTLKEPPVGKLLEIGRANGNVLMMAITNQ
+EEGQFSDEVGRILLNDTNIQNKFLKNVVAAAKKYGFRDIHFDFEYLRPQDREAYNRFLRK
+AKARFNQEGWLLSTALAPKTSAGQKGKWYEAHDYKAHGEIVDFVVIMTYEWGYSGGPPMA
+VSPIGPVREVLDYAISEMPPSKIMMGQNLYGYDWTLPFKEGDTAKAVSPQRAIEIAAKYN
+VPIEYDEKAQAPFFNYQDEEGKQHRVWFEDARSIQAKFNLMKELNLRGMSYWKLGLPFPQ
+NWLLITDNFNVVKR
+>tr|A6CMD5|A6CMD5_9BACI
+MLFPLTKIHPFAFVVKKNITITTKRRRMSMENLKELLKELLLINSSTREGSNKAIEFCGQ
+WLEENGLPVNIIQNNGYKMLVTEIGSGDKKVIFNGHIDVVSGKEEQFIPREKNEKIYARG
+SADMKAGVACMMHAMVALKDEDLNTKIQLQIVSDEEIGGFNCTGYLVEEGYTGDFVICSE
+PTQLGIALQAKGVLRLNVEVEGVPAHGSRPWEGENAIEKAFDVHKKIKELPFMKESSEYY
+PTPSLNLAIIEGGDVYNKVPAKCMLKYDIRYLPEQTKDRIVQEIEEAVDSPVFVSMFSKP
+VRTDIDDFYVGKIKAAVEEQTGEKAVFFGQHGSADTQFFAQLGIPAIEFGPVGENWHGNK
+ENVEIDSLYMYQKMLVNFAHSI
+>tr|A6CK80|A6CK80_9BACI
+MKKLPVIIEFEKDCHLEGTAEIARVTNNHFRSKVKGDFSKISCCSADLSPSGLEEVLSSC
+RHVKKVYLNRKVHALLDNAVDSANAKNVIRQGRKLTGKGVTIAVIDTGIYPHQDLSGRII
+GFKDFINDRPDPYDDNGHGTHCAGDAAGDGTASAGQYIGPAPEADIVGVKVLDKMGSGSL
+DTVMQGVQWCMDYNENNPDNKIDIISMSLGSAAQSYESENDDPMVKIVEKAWASGIVVCV
+AAGNEGPDAGTIASPGISDQVITVGALSDNDTSDTREDDDVASFSSRGPTLFGKAKPDIL
+APGVNIVSLRSPNSYLDKLQKSNRVGDQYFVLSGTSMATPICAGIVALLLEQLPQAKPEE
+VRSLLMNGTDLWKDRNENIYGAGYINAENSVPGSNS
+>tr|A6CLY8|A6CLY8_9BACI
+MMKNKEKVNPNILKRFYYSTDQVIDKPFNWEQLWRLLGYLKPYSKSLLPLSVIMVLLTTG
+VRLVIPILIGVYTLDKAIIERDTSMLTTLIITIAGLYILSYIANVLRIRWMNMLGQGVIY
+DLRKHLFSHVQWLSHRFFDQRSAGSILVRIMNDINSLQELFTNGVINLLMDMILLIGIIV
+ILFTLSPPLTLAVLVILPIMFFISTSLRKKIRRSWQMVRLKQSKLNSHLNESIQGIRVTQ
+SFTQEKENMAFFDGVNTESFDSWRNATRKSAMFRPLVEVTNAVGTAVLIWFGATLIQGDS
+ITLGEFVSFAFYLGMFWEPISRLGMVYNQLLVGMASSERIFEFLDEQPNVDEKSNAKQLK
+DIKGHIEFKNVDFAYDSKRKALNNISLEMKAGETVALVGHTGSGKTTIANLVSRFYDPTG
+GKVLIDGHDLKDVSLSSLRSQISIVLQDTFIFSGTIRQNILFGRPDASPEDVEQAAKAVG
+AHDFIIRLPKGYDTEVEERGNILSVGERQLISFTRALLADPRIIILDEATASIDTETEMK
+IQEALRTLLKGRTAIMIAHRLSTIREADNIFVLDHGEIIEQGNHDELMDQQGEYYHLVKA
+QFKMLEVI
+>tr|A6CSY6|A6CSY6_9BACI
+MAKKKTKFMCQSCGYESAKWMGRCPGCSEWNKMVEEVEITGKQPRGAFKHSVQQGPSKAE
+KLISIESRQEPRVETDSQELNRVLGGGVVPGSLILIGGDPGIGKSTLLLQVSSQLAEGKH
+KVLYISGEESIKQTKLRADRLEIKADDLYIYAETNLEAIHGTIEELAPEFVIVDSIQTIF
+HPEVTSAPGSVSQVRECTAELMRIAKTKGIAIFIVGHVTKEGSIAGPRLLEHMVDTVLYF
+EGERHHAYRILRAVKNRFGSTNEMGIFEMKELGLEEVANPSEIFLEERSQGAAGSTVVAS
+MEGTRPVLVEIQALVTPTSFNNPRRMATGIDHSKVSLIMAVLEKRAGFLLQHQDAYLKVA
+GGVKLDEPAIDLAVAASIASSFRDQTSDPFDCIIGEVGLTGEIRRVSRIEQRVQEAAKLG
+FKRVIIPANNIGGWKAPSGIEIVGVKNINEALKQILGG
+>tr|A6CR37|A6CR37_9BACI
+MVNTVEVTDVRLRRVNTDGRMRAIASITLDNEFVVHDIRVIDGNNGLFVAMPSKRTPDGE
+FRDIAHPINSGTRGKIQEAVLTEYHRLGELEEEVELEEAGSAS
+>tr|A6CR38|A6CR38_9BACI
+MRSISTSKAPAAIGPYSQGIIVNNLFYSSGQIPLTAEGTMVEGTVEDQTHQVFKNLQAVL
+EEAGASLNTVVKATVFIKDMNDFGAINEVYAQYFDTHKPARSCVEVARLPKDALVEIEVI
+ALVK
+>tr|A6CTL8|A6CTL8_9BACI
+MSKLNKLREKFSANNIDGILITSTYNRRYMTGFTGSAGVALITADSAVFITDFRYTEQAA
+EQAQGFEIVQHKGPIPNEVAAQVEKLGIKKLGFEKNHLTYSAYESYRSKVQAELVPVSGM
+IEDIRLIKTEDELKIIKDAADIADAAFKHILDFIAPGKTELEVSNELEFFMRKAGATSSS
+FDIIVASGTRSALPHGVASEKVIEKGDFITLDYGAYYKGYCSDMTRTISVGEPSDKLKEI
+YDVVLQSQLKAMEEIKPGMTGAQADAVARDYIKEKGYGDHFGHSLGHGIGLEVHEGPGLS
+HLSETVLKTGMIVTVEPGVYVQGIGGVRIEDDTVITENGNETLTHSTKELIIL
+>tr|A6CHE6|A6CHE6_9BACI
+MNDVERVNNKERLLKLMKILREQTDEENELTFEELMYHFKLAYGADIKVNKNSLKDDIDH
+LIQSGFDVTINQEKEGLPKYYSHQYRLFELYELRILIDAVVSARFISVHETKSLIRKIKK
+LTSIHQAKLLQNEILIDSSVKSESPMVRLAIHSIHQAISEKKVITFQYGRYNVDKQFTLS
+RNGGKYYVKPLALTWTNDFYYLIAFFMEAEEIRHYRIDRLRNVEVTEGTFSYAPFDVSKY
+VQSTFHMFAGSEEWIKIRFKNELINVMLDNFGKEVDIKKEDDDHFLLTTKARDSEGLASW
+ILNWGSQAKVISPPSLVEKIKNEIARMQEVYK
+>tr|A6CNF5|A6CNF5_9BACI
+MNDQKLIKVNFYTRDRCPLCVDAKLILNLIKEDIPFELSEYDIDLSDDLTERFGLMIPVV
+EMDGEIVQYGQIDYFTLSKRLQDKT
+>tr|A6CLS5|A6CLS5_9BACI
+MQFVKPYRLQIIGTLIIGIIKFAIPLLIPILIQYVIDDIVGSDTLSNGEKKDKLLMIMGV
+MIVIFVIVRPPVEYYRQYFAQWTGSKILYDLRDKLFSHTQKLSFKYYSNTRAGEVISRLI
+NDVEQTKNFVITGLMNLWLDVATIIIAVSIMFTYDVGLTLVSLIAFPFYAISVKYFFGNL
+RKLTRDRSQALAEVQSYLHERVQGMSVIKSFAVEDHEQNNFRGHNSHFLDKALKQTSWNA
+KAFAVVNTITDIAPLVVIGYAGLQVINGSLTVGVMAAFIAYIDRLYSPLRRLVNSSTTLT
+QSIASMDRVFEFMDEKYDVDDVPGAVECRNVKGEIIFDKVHFQYNTEDAEVLRDINLKIP
+AGETVALVGMSGGGKSSLVSLIPRFYDVTRGKITLDGKNIKDYEVRSLRNNIGMVLQDNI
+LFSESVKENILFGKPGASDEDVIAAAKAANAHEFIMSLPEGYDTKVGERGVKLSGGQKQR
+VAIARVFLKNPPILILDEATSALDLESEHLIQEAMEKLAKDRTTFIVAHRLSTITHADRI
+IHIEYGEIAEMGTHSELMKKQGHYHKLFQVQQLDQ
+>tr|A6CJC0|A6CJC0_9BACI
+MVVIATKIRRYIVNIKFHDYISIKIHKTDLNLTSYIKSKLEEFNLAPEQNLVMMLLWEKD
+GLTQNQLAERLGKDKTNLARMASSLEKKGFIKRTSCQNDRRSLKLHLTEVGNELGCKVLP
+IAEEFNRIVCKGISQAEIKELERLLTKINENVQRER
+>tr|A6CQW2|A6CQW2_9BACI
+MVTLFTSPSCTSCRKAKAWLEDHEIPYNERNVFSEPLSIDEIKEILRMTEDGTDEIISTR
+SKTFQKLNVELDALPLQNLFELIQQNPGLLRRPIIMDEKRLQVGYNEDEIRRFLPRRVRT
+FQLLEAQRMVN
+>tr|A6CTK7|A6CTK7_9BACI
+MYAIIETGGKQIKVEEGQSIYIEKLAGNEGETVTFDKVLFVGGDNVKVGSPLVDGATVTA
+KVEKQGRAKKLVVFKYKPKKNYRRKQGHRQPYTKVTIDKINA
+>tr|A6CNH6|A6CNH6_9BACI
+MKIFTYMEKYDYEQLLFCQDENSGLKAIIGIHDTTLGPALGGTRMWTYDSEEAAIEDALR
+LAKGMTYKNAAAGLNLGGGKTVIIGDPRKDKNEEMFRAFGRFIQGLNGRYITAEDVGTTV
+ADMDLIHEETNYVTGISPAFGSSGNPSPVTAYGVYRGMKAAAKEAFGTDSLEGKTIAVQG
+VGNVAFTLCRHLHEEGAKLIVTDINKEAVQRAVEEFGAKAVDINDIYSVDCDIYAPCALG
+AVINDETIPQIKAKVIAGAANNQLKDTTHGDTIHEMGIVYAPDYVINAGGVINVADELYG
+YNRDRAMKKVEQIYNNVERVIEIAKRDNIPTYLAADRMAEERIERNRKSRSQFLQNGRHI
+LSYR
+>tr|A6CJ83|A6CJ83_9BACI
+MNLIAVEDYQEMSRRAAAIIIEKVRSSNAVNLGLATGGTPVGTYECLIEDHNENHTSYQG
+VTTFNLDEYVGFSGKNPKSYQYYMNEKLFNHIDIPSSKTHIPNGLAANMKDECLRYEQEI
+AHHGGIDLQVLGIGSNGHIGFNEPGTSFMSKTHLVELTPSTREANARYFENKEEVPTKAI
+TMGIASIIKSKEILLLVSGEKKKKALTQLFVGEVDERFPASALKLHPRVTVIADKASIPD
+KNEKLFNL
+>tr|A6CHW7|A6CHW7_9BACI
+MNKAEFHNIIQSSYPFDLLSQEQLEHLVSHTKFQKFAKNEFIFHERESEEELDVYLLISG
+TAKNVLHRPSGKQVSLRYYYPGDLVGLMILWTSGDMSFSVQAIEECTLFRFNKKVFFDML
+SNNKEFSQIIFESLGSRMKTLYDEIKYKESQEESADLSLFRTRVNVLMESPVTLPKTATM
+EEAAQKMLDEQVEAIVITDEETALEGLVIQTDILRYLTSSKDAISVSEWMNKKPYWVRDE
+AFAYEALSLFNYEGAKFVPVLRNGIVVGLLTGLSFVNIYDSSYLDLSYSITSASSTEELI
+PLSPIENTVFTSFISGLLEQDSFAYNVSEVLTNYNDRLYRKVIMLSEEEMISEGYGSPPV
+NYCFIVMGSQGRSEQSFNTDQDNGIILSDYAHLENASSVENYFERFTEKINTKLALCGFH
+ECTGGIMAKEPKWRKSYTEWLAAIDDWLYEIDAEEVQSFTMFYDFRPIFGDYSLAEEIRA
+YIAQKAGKSLNLQQLLRKDAIRFRIPVNALGRINLKGRNKRFNIKKAGLMQIVNMIRIHS
+IKHGIKEVNTVHRLDALKDKKVFHPRDAENAKTALHYLLYYRLNQNLSELAENQELTNEL
+LVDQISKEDKRKLREALQIANRMQQVMEISFNRNRVV
+>tr|A6CPB1|A6CPB1_9BACI
+MKHLDGVSEANVNFGASKLTVFGDTTIEELEKAGAFEGLKVIPEHQQFSDEKKPFIKRYA
+NVLLSAFFLILGWSLGHTYGEENIFSIAAFVASILVGGYRLFTTGLKNLVRLEFDMRTLM
+TIAIIGAAFIGEWGEGATVVILFAISEVLEAYSMDKARQSIRSLMDIAPKEALIRRDGRE
+MTVGIEDIQIGDTMIVKPGQKLAMDGVVEKGISAVNQAAITGESVPVTKQKDDEVFAGTL
+NEEGLLEVKVTKLAEDTTIAKIIHLVEEAQAERAPSQAFVDRFAKYYTPAVILVAILVAI
+VPPLLFGADWSTWVYQGLAVLVVGCPCALVISTPVSIVTAIGNAARNGVLIKGGIYLEET
+GALKAIAFDKTGTLTKGVPEVTDFISLREEKREENLKLIAALENGSQHPLASAIMKKAEQ
+GNLDYRSLAIEDFTSVTGKGIKGTIQGITYHAGSPSYMQEVMGVPAPDEVRNKITDLQHA
+GKTVILMGTAEEIMALTAVADEVRDSSAEVIEKLHKLGIEKTIMLTGDNKGTAEAIAKRT
+NVTDTAAELLPQDKLAYIKQLRERYDKVAMVGDGVNDAPALAASSVGIAMGGAGTDTALE
+TADIALMGDDLRKLPFTVKLSRKALRIIKQNIAFSLGIKLLALLLVIPGWLTLWIAIFAD
+MGATLIVTLNGLRLLKVKDK
+>tr|A6CRT3|A6CRT3_9BACI
+MKNIKKWSKRLVMALLFTAALFVTFQSISGVKAQSFSGWLSEQIETKHVESVSKEHSYKT
+LSLKEKLLKRAKSLRTLIAATEPVVAKPKSLEDAIDWSQYPKSTVTATGYTAGIESTGKL
+PDDPAYGITYSGVKVKRDLYSTVAADPNVFPIGTILFIPGYGYGVVADTGSAIKGHKLDL
+YYETVDEVYELWGKKELEVYIVTKGTGKLSEEELTALNENESMQVFRQKYIQKVEE
+>tr|A6CLS4|A6CLS4_9BACI
+MAVPSEGQPIQIHSYKHDGNIHRVWNELTVLKGTRNLVIGGNDRTMVTESDGRTWITREP
+AICYFHAELWFNIICMIREDGIYYYCNLSSPFVYDHEALKYIDYDLDIKVFPDMTYTLLD
+EDEYETHRKLMGYPDVIDHILKRNVDKLVRWIRQRKGPFAPDFIDVWYERFLYHRK
+>tr|A6CNW5|A6CNW5_9BACI
+MSEIIHRSKTRPVKVGNLTIGGNDELIIQSMTTTKTHDVEATVKEIHRLEEAGCQVVRVA
+CPDERAANAIADIKKQINIPLVVDIHFDYKLALKAIEGGADKIRINPGNIGRREKVEAVV
+KAAKEKGIPIRIGVNAGSLERKILEKYGYPTADGMVESALHHIKILEDLDFHDIIVSMKA
+SDVNLAIEAYTKAAQTFDYPLHLGITESGTLFAGTVKSAAGLGVLLSKGIGNTLRISLSA
+DPVEEVKVARELLKSFGLASNAATLISCPTCGRIEIDLISIANEVEEYISKIKAPIKVAV
+LGCAVNGPGEAREADIGIAGARGEGLLFRHGKTVRKVPEEVMVEELKKEIDILAEEHYRK
+QREEEEKQEV
+>tr|A6CS83|A6CS83_9BACI
+MLNKDIEKVLITEEELQEKIKKLGAELTEEYKDSFPLAIGVLKGAMPFMGDLLKRMDTYL
+EMDFMDVSSYGNSTVSSGEVKIVKDLDTKVEGRDILIIEDIIDSGLTLSYLVELFRYRKA
+KSIKIVTLLDKPSGRKADIKADYVGFIVPDEFVVGYGLDFAEKYRNLPYIGVLKPEVYST
+NE
+>tr|A6CKC1|A6CKC1_9BACI
+MLIFRLLKNPSFVVGAIFLFGLFISSFVYYWVTGDHIPTTELVKDEDGNYLSPPYSPLEF
+PPLGTDNFGRNVFYLMLVGAKYTIGSAMIIAFLRVIPSVLFGLIIHFVLHKIKRILASII
+DASNYFPTTLLAFLLMYWVMFDGPLHNPDTFPYSFEEKVMIYIVILVAISIPSVSLLFAN
+EVENVMNKEFIQSAKVLGAKELHFIKNHIRPFIVPQIYVVLIREFIASMLLISHLGVLGI
+FIGGARLAEDVFNVPNFISLSHEWSGSLGSWWQFLWTSYPWIAFIPVIFFTLTILAGKMM
+LIGLSKELEKNDIPASGSYKKEKTEGALAERGLFEMVESRKM
+>tr|A6CLP9|A6CLP9_9BACI
+MVVGELAEERELVIIGGGPGGYHAAIRAAQLGLSVLLIEKEELGGVCLNKGCIPSKVFTQ
+LAKKHKEMAHYQKMGLDSGSVSVNLTKLHDYKSSLIAQLKKGVDSLCKANKVEVIKGSAS
+FLAENKIGVENGHQFTVYSFQSAIIATGAKRELPSFISGYSSRVLNEISIYELSELPEEL
+VVYGSGYIELEAASSFAALGTKVTLVLDGELPFDDSINKELTRVLKKMNVKLMTGFSPEE
+VKETHDGVSVTLSKQDSDSVTIETSYFLAASKLKGNIDGLGVDRLKMNLTGDGRIEADSS
+CLTSIQGIYAVGDVTTGSPLAVKAIKQGKVAAESAAGLPSAYDDVLLPVIAQTIPPIASI
+GMTEKEAAENHEVSVSIYPMGGNGFAQLIGEKEGLIKVVADLNTDLILGIHMIGNSAVEM
+ISGSAVGMEMAGRDEDFSYPYYPHPHTSESLQEAMEALKGKAVHLPPVKQKEFSKV
+>tr|A6CSJ5|A6CSJ5_9BACI
+MEEIVNLAKHRGFVFPGSEIYGGLANTWDYGPLGVELKNNIKKAWWKKFIQESPYNVGLD
+ASILMNPQTWVASGHVGNFNDPMIDCKNCKTRHRADKIIENALDEKGVEMIVDGLPFERM
+AEIMDEYEIACPSCGSREFTEIRQFNLMFKTHQGVTESSTNEIFLRPETAQGIFVNFKNV
+QRSMRKKVPFGIGQIGKSFRNEITPGNFTFRTREFEQMELEFFCKPGEDLEWHSYWREFC
+KNWLLTLGMKEDNMRLRDHDDDELSHYSNATTDIEYKFPFGWGELWGISDRTDFDLKRHM
+EHSNEDFHYMDPQTNEKFVPYCIEPSLGADRVTLAYLCDAYEEEELENEKRTVLRFHPAL
+APFKAAVLPLSKKLSDEAFKVYEELSKDLMVDFDETASIGKRYRRQDEIGTPFCITFDFD
+SVEDGQVTVRDRDTMDQVRMPISEVKNFLEEKIQF
+>tr|A6CMX0|A6CMX0_9BACI
+MRRIISAILMLVLITSAFAPFASAEEKKTELAAGAKSAILIERDTGTVLYDKNSHEKLPP
+ASMTKIMTMILIMEALDKGQIKWEDEVRTSEYAASMGGSQIFLEPGEVMTVKEMLLGISI
+GSANDASVAMAEHIAGSEEGFVEKMNNKVKDLGLKDTNFKNPTGLPASEHYSSAHDMAMM
+AKELLKYQEITKYTGTYESYLREDTDKKFWLVNTNKLVRFYPGVDGLKTGFTNEAKYCLT
+ATAKKDNMRVIAVVFGEPTPKDRNAEISKMFDYAFSQYQTQPLFEKGASVGKAEISKGKA
+KEVEAMTNEPISLLAKKGEKLDGIEKKVKLQKLKAPVKKGDTIGKLVVEKDGKTLSETPL
+IAKEDVPQASFWQLYKRAFGMFTKSGN
+>tr|A6CU31|A6CU31_9BACI
+MLYQQNENIDAKQMNALALAYMGDAVYETYVRQYLLQSGRLKPNHLHRAATGYVSAKAQA
+AALKRLSDSDLLSEEEKAIVRRGRNAKSGTIPKNTDVQTYRYSTAFEALIGYLFLQSRKD
+RLEELIRTVLIDDSTDVKEGGVQ
+>tr|A6CP59|A6CP59_9BACI
+MFVNDMQELVYLYEKVLDSIDAGVHVIDSEGKTIIYNRKMMDIEGMDVDDVLDKNLLEVF
+QFSYGEESTLLHVLRTGNPALNVKQTYFNVKGSEITTINNTYPVFHKDAIIGAMEIARDI
+TKLEKLIREKRAKKDEPLYTFDHIIGEDSLFKEVIENSRRAAKTSSPVLIIGETGTGKEL
+FSHSIHNGSPRAKDPLIIQNCSALPEPVMEELLFGINNEESGETVESPGLFEQAAEGTLI
+LDEINSLSLPLQTKLLRALREKKVRRLCSDVDRPIECRMICTINEDPVDAISEGRLRKEL
+YYQLSVVSIFIPPLRERMEDLDLLLHYFIEKYNGLFGMDVKGLEDSVYERFSNYDWPGNV
+RELEHVIEGAFNLMGTGGRIGYNQLPMHFRQRTQLLDEKKLDSNAEDFLFDGDKEIKPLE
+EYMAEAEIYYIQKALLHHDFNVTKTAKTLGMSRQNLQYRIKKFEIERPD
+>tr|A6CPM5|A6CPM5_9BACI
+MAETPRSNVKEINISHEMRTSFLDYAMSVIVSRALPDVRDGLKPVHRRILYAMNDLGMTS
+DKAYKKSARIVGEVIGKYHPHGDTAVYDTMVRMAQDFNYRYMLVDGHGNFGSVDGDSAAA
+MRYTEARMSKISMEIIRDINKDTIDYRDNYDGSEREPIVMPSRFPNLLVNGSSGIAVGMA
+TNIPPHQLGEVIDGLLALSHDPEITIQELMDYIPGPDFPTAGMIVGRSGIRRAYESGKGS
+ITMRAKVRIETKANGKETIIVDEIPYQVNKAKLIEKIADLVRDKKIEGITDLRDESDRNG
+MRIVIEVRKDANANVLLNNLYKQTALQTSFGINLLALVDGQPKVLNLKQCLYYYLEHQKV
+VIRRRTEFELKKAEARAHILEGLRIALDHIDEIIALIRGSQTTDIAREGLMENFSLSEKQ
+AQAILDMRLQRLTGLERDKIENEYQELVKLIAELKAILADEEKVLEIIREELNEIKERFN
+DERRTEIVAGGIEQIEDEDLIPRENIILTLTHNGYIKRLPVSTYRSQKRGGRGIQGMGTN
+EDDFVEHLLTTSTHDTILFFTNKGKAFKAKGYEIPEFSRTAKGIPIINMLGVDKGEWVNA
+MIRIEEFVDDWYLFFTTKQGISKRTPVSDFANIRTNGLIAINLRENDELISVKLTDGSKD
+IIIGTQKGMLIRFPETDVRSMGRTATGVKGINLDSEDIVVGMEILEEKDDVLVVTEKGFG
+KRTPAEEYRIQTRGGKGLKTCNITDRNGELISVKAVTGEEDLMLITAHGVLIRMDVNDIS
+ITGRNTQGVKLIRLDENSSVATVAKVEKDEEKEEDIPVDLTEESSEQAAEDSADETDNE
+>tr|A6CPC7|A6CPC7_9BACI
+MSPVKQEVINFFLSHKEVILQGWSDQLTPSNTNFSKEQIVANGRQVYEQFIECCHIPKAE
+WDPYIQAEAYKFAKQRFEADTNIGEFVYNLNLGRSEALKYLDGLSTDWTELQRIVNKINY
+FFDKYTYYTVSHYTHMKDQIIKEKEEYIDSHHEDRLSLLGKMTSSFVHEFRNPLTSINGF
+IQLLKAENPGLSYLDIISNELDQLNFRISQFLLLSKKSTVTMEKTAFSLNELIEDALAFL
+YPRILEVNVSIKKQLEKDFEVLGWKEEFRQVIINIIFNAIDVLSISSNKPIIWIESELKD
+DLFTLCICNNGEKIPDDILSSIFEPFVTSKQEGTGLGLFICKEIVEKHNGELTCQSNDEY
+TSFVITLPAK
+>tr|A6CN20|A6CN20_9BACI
+MRFEASGVDEMKADLNRLDEVMKSHGMLREGQWDYERVTYDKKFEIKEGTYYLRIQGLAV
+SGDIGRHDAVIQLRTPLLGKHYYPHGVEYGEGEHFPAHLVTTCEKLLAEIKAEVSGFAE
+>tr|A6CPR0|A6CPR0_9BACI
+MFYYLIALIVVALDQLTKWLIVRNMTEGQSITVIEDLFYITSHRNQGAAWGILQGQMWFF
+YIITIAVIIGIVYYLEKQAKGDKLFSISLALLLGGAIGNFIDRLFRKEVVDFLNTYIFQY
+DFPIFNIADAALTFGVGLLIINMLLEERREKKEKLYGNNGTYRS
+>tr|A6CNZ4|A6CNZ4_9BACI
+MSYYYGAQHGYYYGYQPFRNVPSISYAQIEGGPLAPDLKGYVVFREVPNGTEVHVEVDGL
+PEFKEGEGDQDPIGPHGFHLHENGSCEVGDENEPFKAAGGHWNPTDQPHGNHAGDFPVLF
+SNNGYARMSFFTNKFSPKDVVGKAVIIHQNPDDYRTQPAGDAGKRLACGLIVKYQ
+>tr|A6CPU8|A6CPU8_9BACI
+MEKYRIDQSKGLEFGIYTLGDHLPDPNTGERIPAQQRLHEIIEYAKLADQAGLDFFSVGE
+SHQDYFATQAHSVVLSAIAQATKNIKIGSSSTIISTSDPVRVYEDFATIDLISNGRAEIV
+AGRASRVGLFELLGYDLRNYEELYEEKFDLLMKINKEEVVNWSGDFRAPLKNAKVLPRPQ
+GGSMPIWRAVGGTPASAIKAGYAGAPMFMAHLGGPASVFKRTVDAYREAARSKGFDPAQL
+PVATAGFFYAAETSQQALNDLYPHINEGMKKTNGGGFPKQHFDQGVDPHNIMNIGSPQEI
+IEKILYQHEMFNHQRYIAQIDFGGMPFKKLMKNIEIIGTEILPAIRKYTAQK
+>tr|A6CQJ5|A6CQJ5_9BACI
+MKPSTNRMLTRIKSIYIYIKKNGTVSTQDLVDEFCITPRTIQRDLNVLAYNDLVESPCRG
+QWTTTEKKVKMTS
+>tr|A6CUC5|A6CUC5_9BACI
+GVVEDVTTIIMNIKKLALKIYSDEEKTLEIDVNGEGVVTAADITHDSDVEVLNPELHIAT
+LSANSNFRMRLAAQRGRGYTPADQNKREDLPIGVIPIDSIYTPVSRVNYQVENTRVGQLT
+NFDKLSLDVWTDGSIGPKEAISLGAKILNEHLNIFVGLTDEAQNAEIMVEKEEDQKEKVL
+EMTIEELDLSVRSYNCLKRAGINTVQELANKTEEDMMKVRNLGRKSLEEVKVKLEDLGLG
+LRKDD
+>tr|A6CTI3|A6CTI3_9BACI
+KWMEIMKEESDDIVTEVVSDQVFVKTSHEFVDLLVSNLEDSKEYSARLDDFAEKVVRLGW
+PLTFVTSGLRMFGRIVYDHLTETGEINKENHMEAVEEFDQWISPMYNEIVQAYAKTWEKT
+VSLQKIALQELSAPLIPVFEKISVMPLVGTIDTERARLIMENLLTGVVKHRAEVVLIDIT
+GVPVVDTMVAHHIIQASEAVRLVGAQCMLVGIRPEIAQTIVNLGIDLNQFSTNSTLRKGI
+EKALEMTNRKIVSTEGTV
+>tr|A6CU53|A6CU53_9BACI
+MKVVLQRSREASVTADGKLSGEITSGFVLLVGVTHEDTEKDADWLAEKIINLRVFEDAEG
+KMNRSLLDVGGEILSVSQFTLYGDCRKGRRPNFMEAAKPPHAEEIYNYFNDELRKKGIRV
+ETGVFGSMMDVKLTNDGPVTLIIESK
+>tr|A6CPJ8|A6CPJ8_9BACI
+MTNLALLANIAAFLAIAGVLFYMQKKHLSFSKRVFAALGLGIAFGFVLQWLYGPADETLA
+QSIGWYNIVGIGYIKLLQMVVMPLVFVSILSAFTKLKLGNNLGKIAVLIIGLLVGTTAIA
+AVVGIAAAQGFGLEAIQIEQGDAETARGLQLEERSGALENQSYPQRILELLPANPFLDFT
+GERATSTIAVVIFAAFIGVAYLGVYRKERETAEFFKKIVDAIYAIVMRVVKLVLRLTPYG
+VFAIMAKTVATSDFDAILKLGKFVAASYAALLVMLAIHLIMLTLAGLNPITYLKKAFPVL
+TFAFTSRSSAGTLPLTINAQTKHMGVSEGIANFSGSFGLSIGQNGCAGVYPAMLAVMIAP
+TVGINPMTPSFIFTLIVIVAISSFGVAGVGGGATFAAILVLSAMDLPIALAGLLISIEPL
+IDMGRTAVNVSGAMTSGLITSKVTDELDADVYDNPTVVEG
+>tr|A6CP88|A6CP88_9BACI
+MLGFLQRIGKALMLPIAVLPAAALLLRIGQPDLLDIAFISAAGKAIFDHLALLFAIGVAI
+GISKDGNGAAGLAGAIGFLVLGEGTKAISDGINMGVLGGILSGVIAGLLYNRYHDKKLPD
+YLGFFGGRRFVPIITSLVMILLAGVFGYVWPPIQEAINAVGEWIVGAGALGVGVFGFLNR
+LLIPLGLHHVLNTLVWFEFGEFTNAAGEVVKGDLTRFFAKDPDSGIFMTGFFPVMMFGLP
+AAAFAMIAAAKKERRKLITGAMVGIAFTSFLTGITEPIEFLFMFLSPVLYLAHAVLTGAA
+MSLTYILDIHHGFGFSAGVIDYILNYNIAQKPLVLLLLGLVYGALYFVIFYFMIIKFNLK
+TPGREEEVEGEFSQSAASGGDYKGLAGKYLTALGGKGNVVAIDNCVTRLRLIVNDTGLAN
+EVELKRLGAKGVIKLNQRDIQVVVGTDVEFLANELKKL
+>tr|A6CLN5|A6CLN5_9BACI
+MFSEERRKKILEILEKERRVLVKELAEQFEVSIDSIRRDLSIMEDEQLLKRTHGGAIPLP
+SVRSMPRNNEERFGESTPYQKQIAEKAAAYINPDQTVFIGGASIHYAMIPYLPRDFSFTV
+VTNSVEIAYKLREFENIHTYLIGGKMKSSGNITDPLAAQFAGRFHYDLCFATGGGLTVRG
+LSTSTPEAALFHEKVYENSRRIITLAEHTKVGVDLFTNMYPLKKLDIILTDEETTTVQAD
+ELEAHGVKVIRITNS
+>tr|A6CJ11|A6CJ11_9BACI
+MGVHINQATLLNKKNSYLLLFGLGISTLGDFIYLVAINVLVLQLTGSAAAVAGLWIIGPL
+ASILTKFWSGSFIDRFNIRRIMIATDIIRAVIVGIIPFFSSIWLIYVCLFFLSISKAFFE
+PAAMTYITNLVPEKGRKQFNSFRSLITSGAFLIGPAISGVLLLITSLNISIWINALSFVI
+SAIMVYFLPNVNTASELTVRKINLEILKNDWNEVFKFSKRNLFIVKVYFLAQFFMIVSIG
+MDAQEVVFTQKVLNLSETEFGLLISLTGVGSILGASTVSFVAKKLSIRALISLGYSMVSV
+GYLIYAFSFSFWSVAFGFLVLGFFNSFSGTGFMTFYQNNVPVAMMGRISSIYGIFQSFLQ
+VIFILLIGFTGDIIPVRYSIIAASTLLLVTSILLIKLVRRPSKSRYFADAELANIS
+>tr|A6CM25|A6CM25_9BACI
+MESKVAIVTGGANGIGKAIVKEFCKENYTVILVDKKEEEGLELTRELNESGNTVIFKKCD
+VGNYAEVKHLFNEIKETFQKVDILINNAGISKFKNFWDMEEKDWNEVISTNLSSVFYFSK
+EAALLMKDMGGCIINMASTRATMSEANTEAYSASKGGIFSLTHALAMTLSEYNIRVNSIS
+PGWIETEDYDDLREVDHFQHPSNRVGKPEDVARACHFLCHGENNFINGENLVIDGGMTRK
+MIYEH
+>tr|A6CM31|A6CM31_9BACI
+MIDMEERKDIEQSLKLFIVLSRAYKAINEDVQVFIQNNGLNMTEFAVLELLYHKGDQPLQ
+QIGGKILLASGSITYVVDKLEKKGLIRRAACPNDRRVTYAQITEEGKEFIGELFPRHEEQ
+IHKLMSVLDNDEKETAIELLKRVGLSIKDLSY
+>tr|A6CJ63|A6CJ63_9BACI
+MVPFTFKGKGRDQMINIEIPKVDVSITERTQSPDSNEPVIKSVEGFIDLHQIPRDKGGMI
+LFYNINDDLLFVGKARKLRQRVKKHLEDNVSPLKPYREEVYRIDVMYVEDPMEREIYETY
+LINTLQAKYNVDKVFYK
+>tr|A6CJF7|A6CJF7_9BACI
+MKSSWKALIWIAVSELFALSLWFSASVTAPELINLWGAGPETEAWLSASVPIGFVIGSFA
+SAYFGLADRYNPRIIFAVSATLGAGFNGLILLSEGTWSGMTLRILTGMTLAGVYPTAVKI
+LSLWFPKRRGLAIGILIAALTLGSSLPHFIALFFSALQWQWIILSSSVLAVLSAGIIYFI
+LDDPPVATRNTPFSFSLLKKVRQNRPVMLANYGYFGHMWELYAMWTWLPVFLAASFQSHT
+GTVSPVLLAFCSFLTIGIAGAAGSVGGGWLADKIGRSSLTILSMGISSACALSIGFTYAQ
+PLWVTLTLSFIWGVFVISDSAQFSAGVTEFAESDYVGTALTFQMCVGFLITIFSINLIPY
+MQKLLGWEWVFSILAIGPLLGMLSMVKFKSYEVIKKKQPEHISKQA
+>tr|A6CMQ9|A6CMQ9_9BACI
+MLTGKGTISMKVLVVEDNESVTSMLEMFFIKEGIQGEFVHDGAEGYQRYKEGEWDLVILD
+WMLPGMDGVTICRKIREERTQIPIIMLTAKDSESDQVLGLELGADDYVTKPFSPLALMAR
+IRAVTRRYQGEKNNTAESTDISTTDFQISKETREVLLKGVPLTNLTPKEFDLLYYLSQHP
+RQVFSREQLLERVWGYDFYGDERTVDVHIKRLRNKIGSNEKPYLHTVWGVGYKFDETAAG
+DEN
+>tr|A6CKB7|A6CKB7_9BACI
+MTDSIQVDDNGKLKCSIEYTLNKIGGKWKPVILWHLAYDGIHRYNALRRLLPGITHKMLS
+QQLKELEQEGLINRKQYNEMPPKVEYSISEKGLTLKPLLEEMHKWGSSQG
+>tr|A6CHP1|A6CHP1_9BACI
+MKIMSNEQLVAAYRDAEKNGTDRDWIQMLKKEIHSRGMRPVRKV
+>tr|A6CNH8|A6CNH8_9BACI
+MSQEYDLVILGGGTGGYVAAIRASQMGLKTAIVEKGKLGGTCLHKGCIPSKALLRSAEVF
+ATAKEADSFGVMINDVKLDFTRVQERKEKIVEGLHKGVQHLMKQGKIDVYEGTGRILGPS
+IFSPMPGTISVEMNNGEENEMLIPKNVIVATGSRPRTLPGLDIDGEFVLSSDEALELEKL
+PESIIIVGGGVIGIEWASMLSDFGVEVTVIEYANRIVPTEDHEISKEMQRLMKKKGVKIV
+TGAKVLPETIEKDGGVKIKAEIKDTQKEFTADQLLVSVGRQANVEGIGLENTDIVIEKGF
+IKVNKHMQTKESHIYAIGDVIGGLQLAHVASHEGISAVEHMANENPEPIDYSLISKCIYS
+NPEIASVGLTENEAKDKGHNLKVGKFSFRAIGKALVYGESDGFVKIIADKDTNDILGVHM
+IGPHVTDMISEAGLARVLDATPWEVAHTIHPHPSLSEAIGEAALAVDGKAIHS
+>tr|A6CL06|A6CL06_9BACI
+MQMDRSVFRISVGISVVFVLIGVLLPEQLGSAMDVAKGFVLENFGWFYQLVATFFLIFAV
+FMIFSKYGKIKLGKQDSQPEFSRPTWFAMLFSAGMGIGLLFYGVSEPISHFSSPPLGDGG
+TAQAGITGMRYTWLHWGLHAWAIYAIVALALAYQKFNRGAPGLMSATLHPVIGEKVKGPI
+GKTIDVVAVFATLFGVAASLGLGSQQINAGLEYLIGIPNNFFVQFIIMMIITVLFIVSAT
+TGISKGIKLLSNINMSLAVILFIAMLILGPTLFLMNMFTTTMGSYLQNVVQMGLRLSPFN
+ADEAAWTQGWTVFYWAWWISWTPFVGMFIARVSKGRTIREFTIAVLLVPTLVCTLWFTVF
+GGTGINLQIAEGLDVSGQSLETALFFTYQQLPFGALLSVLTVALITTFFVTSADSATFVL
+GMLTTGGKLNPANSVKVVWGIILVASTLVLMASGGLTGLQTAIIVSALPLTFVVLVMCYG
+LVKELGKEYDMQMNHFKTKEKKAEEISHLERKPKITP
+>tr|A6CMF2|A6CMF2_9BACI
+MKDIFIAVGIPKATYHYHVKNFEKEDPDTELKELITNLFKKFHERYGYKRITKELKKLGH
+RVNHKKVYRLMRELGLKCVKFMRKSRKYNSFKGKVGKVEKNRLSRRFHTPNSLQKLVTDV
+TEFKCLGKKSYI
+>tr|A6CMX8|A6CMX8_9BACI
+MHLNGTARINGLDHLEIGGVDTVELAKEYGTPLYIYDVELIRERARGFKNTFENLGIKAQ
+VAYASKAFSSVAIFQLMNEEGLSLDVVSGGELFTAVKAGFPAERIHFHGNNKSEEELRMA
+LEHNIGCIVVDNFYELQLLEDVCKDMGQSMDILIRVTPGIEAHTHDYILTGQEDSKFGFG
+LENGQTEEALLRGVKSAHLNVLGLHCHIGSQIFETTGFVLAASKIIGKLADWKDKHGYVA
+EVLNLGGGFGIRYTAEDDPIAPSQYVEEIISEVKKKAEEFNLDMPEIWIEPGRSLVGDAG
+TTLYSVGSAKEVPNIRKYLAVDGGMSDNIRPALYEAKYEAILANKAGQPVHETVSIAGKC
+CESGDMLIWDLPLPESSQGDILAVFCTGAYGYSMANNYNRIPRPPVVFVENGKTKLVVRR
+ESFEDLLKLDLSLND
+>tr|A6CPI1|A6CPI1_9BACI
+MPLSMALVLFLLRIRRLLKGASSMSNITAVYTIHGPTDNLEKKAEGIALGLTVGSWTDLP
+LLEQKQLQRHKGRVVSVEALKENKGLIKICYPAANFSSDLPAILTTVFGKLSLDGKIKLT
+DLHFSEELQSAFPGPAFGIDGIRQRLNKYDTPLVMSIFKSVIGKELDYFSNQLRDQALGG
+IDIVKDDEILFDNPLTPFAKRIQKAKQTLDVVYDETGHRTLYAVNLSGKTYDLKEKARRA
+RELGADLLLFNVFAYGLDVLQAIREDNEIGLPIMAHPAVSGALTSSPFYGFSHSLLLGKL
+LRYAGADLSLFPSPYGSVALEKESALGIAHELTVEDSLFKKAFPVPSAGIHPGLTPLLYR
+DFGTDSVINAGGGVHGHPLGAAGGGKAFNQAIDAVLKGISLEKAANEHQELRQAIDLWGL
+SEVSV
+>tr|A6CS69|A6CS69_9BACI
+MRPTKKQRQAQLSDTIKVNPFITDEELAERFGVSVQTIRLDRMELSIPELRERIKNVAEK
+TFDDEVKSLPIDEVIGEIIDIDLDRNAISIFDVKGEHVFKRNRIARGHHLFAQANSLAVA
+VINDELALTAKSQIRFTRPVKEGERVIAKAKVTEIQKERTLVEVNSYVGGDKVFAGEFEM
+YRSNDAEKDDEQ
+>tr|A6CTL9|A6CTL9_9BACI
+GRHRQRRSFARISEVLDLPNLIEIQTSSYQWFLDEGLREMFRDISPIEDFTGNLSLEFID
+YSLGEPKYSVEESKERDVTYSAPLRVKVRLLNKETGEVKDQDVFMGDFPLMTDTGTFVIN
+GAERVIVSQLVRSPSVYFSGKMDKNGKKGFTATVIPNRGAWLEYETDAKDVVHVRIDRTR
+KLPVTVLLRALGFGSDQEIIDLIGDNEYIRNTLEKDNTEGIEKALLEIYERLRPGEPPTV
+ENAKSLLVSRFFDPKRYDLANVGRYKMNKKLHIKNRLFGQTLAETLADPETGEIVAEKGT
+VLDRRALDKIIPYLENGIGFKTYQQSGGVLEEDVVLQSIKIYSPNEEGEKEINIISNAFV
+EEEIKNITPADIISSISYFFNLLHGVGDTDDIDHLGNRRLRSVGELLQNQFRIGLSRMER
+VVRERMSIQDANTITPQQLINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSAL
+GPGGLTRERAGFEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSFAKVNRFGFIETPYRR
+VDPDTGKVTNRMDYLTADEEDNYVVAQANARLSDDGSFLDDEVIARFRGENTVVKRERID
+YMDVSPKQVVSAATACIPFLENDDSNRALMGANMQRQAVPLMNPESPIVGTGMEHVSAKD
+SGAAVICRHEGIVERVEAKQVWVRQIKEIDGQEVKGDLDKYRMQKFIRSNQGTCYNQRPI
+VSEGDRVTKGEILADGPSMEKGELALGRNVMVGFMTWDGYNYEDAIIMSERLVKDDVYTS
+IHIEEYESESRDTKLGPEEITRDIPNVGEDALRNLDERGIIRIGAEVKDGDLLVGKVTPK
+GVTELTAEERLLHAIFGEKAREVRDTSLRVPHGGGGIVLDVKVFNREDGDELPPGVNQLV
+RAYIVQKRKISEGDKMAGRHGNKGVISRILPEEDMPFLPDGTPIDIMLNPLGVPSRMNIG
+QVLELHLGMAARYLGIHVASPVFDGAREEDVWATIEEAGMARDAKTVLYDGRTGEPFDNR
+VSVGIMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAA
+YTLQEILTVKSDDVVGRVKTYEAIVKGENVPEPGVPESFKVLIKELQSLGMDVKILSSND
+EEIEMRDLEDEEESQQADTLNIADKDEQESETVGSKE
+>tr|A6CR13|A6CR13_9BACI
+MSNLFETLKAKVTGKDLKIVFPEGQDERILQAASRLASDGILTPVIIGNAGNVEAKAQEV
+NVSLEGCEILDPADNEFMDELVQSFVDRRKGKATEEDAKKILLDENYFGTMLVYTGKAHG
+LVSGAAHSTADTVRPALQIIKTKEGIRKTSGVFIMVREGEKYVFADCAINIAPDSQDLAE
+IAIESAKTAEMFDIDPRVAMLSFSTKGSAKSPETEKVTEAVNIAKEKAPELTLDGEFQFD
+AAFVPSVASKKAPDSVLKGDANVFIFPSLEAGNIGYKIAQRLGNFEAVGPILQGLNAPVN
+DLSRGCNEEDVYKLALITAAQAL
+>tr|A6CUE1|A6CUE1_9BACI
+FFPFLTIYFTEAFGKQMAGLLLIASQVFAVFANLMGGYCADRFGRKTMMVFSSFGQGLAF
+LVFAFASSPWLESAALGFVCFTFASVFGSFYWPASQAMVADVVPEKERSHVFAIFYTSIN
+IAVVIGPILGSIFYVHYRFELLLVSAIICMILGLMLAKMTRETAPKQHQSKHVSNVQPKA
+WYHALTDQFKDYKVIVQDRTFLLFILAGVLVGQTFMQLDLLIPVYIKDSMETASLLTFTL
+TGEQIFGVILSENGLLVALFTVVVTKWMTKYKERNVFILSSLIYAVSIFIFGQTASLYMF
+IISMAIFTFAELMTVGIQQNFISKLAPDHMRGQYFAAASLRFTLARTVAPVSITFSLWAG
+YEMTFIGLALLAALSAVLYFIMFQQIDKQNTMNQAAPASSEV
+>tr|A6CLE7|A6CLE7_9BACI
+MHRVNQGKLESKSKVEVKNAKDLSLAYSPGVAEPCKVIYDKPETVYEYTMKGNMVAVVSD
+GTAVLGLGNIGPAAALPVMEGKAVLFKSFAGVDAFPICLDTNDVDKIVETVKLMEPTFGG
+VNLEDIAAPNCFVIEERLKKETNIPIFHDDQHGTAIVTVAGLVNALKIVEKKMSEIKVVA
+NGAGAAGIAIIKLLHNYGVRDIVMCDTRGAIYEGRPNGMNDIKNEVAKFTNRDRVEGGLE
+DVIKDADVFIGVSVAGALTEEMVSSMNEDPVIFAMANPVPEIMPEKAKAAGAKVVGTGRS
+DFPNQVNNVLAFPGIFRGALDVRATHINEKMKQAAVEAIAALVDEKDLNEDYVIPAPFDA
+RVAPAVAAAVAQAAMETGVARQKVDPEEVRKKTEQLAVIGKGE
+>tr|A6CQ85|A6CQ85_9BACI
+MSLFSSTIQSLENGLNYSSAKQKVISQNIANVDTPNYKAKSISFKDQLNESISTFEAKRT
+NPRHFEFSGRGANGYYIKSQPFQYNHNGNGVDIDKEMSDLASNQIYFNALTDRLNGKFNS
+LQSVIRGGK
+>tr|A6CIG8|A6CIG8_9BACI
+MEFQLDQPLWLLLLPIAATGLFFYWKSRTGIPLLEKRLILTFRSLIILMLVLALAGIQVL
+IPLKGNSTVYVADLSDSLDNQREHLRQTIDQAVKEMKREDKFGVVSAGGSAVVERPLKEK
+SEAGVQFRSQLETYSTDISSGLRLGGSLIPSYTNGRVVLLSDGNENTGDAVKQAAYLKQQ
+GLTVDVFPVDPVFGEDVAMGSFDVPDNQFRGETAKLDIELESNVRKESRIRIYENEVPIV
+DSNVTIETGKNRFTFQHKAAEDGFRQYRAEVITEGDSIIENNEAFAFSNVKGEPKVLVVE
+DEQGQGKNLIDSLTASGLSVDVIPTELLPTVLSGYVQYQSIVFVNVPATSVTQQQMDAIH
+SAVKDFGTGFIMAGGDSSFGLGGYFKTPIEKLLPVDMDLKGKKELPSLGMVIVLDRSGSM
+AGYKIQLAKEAAIRSAELLREKDTLGFIAFDDRPWQIIDTEPIKDKEKVIEKINGLTSGG
+GTNIFPSLELAYEQLTPLELQRKHIILLTDGQSATSPDYLTTIQEGKENNITLSTVAIGE
+GSDSVLLEELSDEGGGRFYDVNDSSTIPSILSRETVLTTRTYIEDDPFYPTVIDASGFTD
+LFSGGIPQMNTYVATSLKGRAESILMSGKEDPVLARWQYGIGRTAAWTSDIPGAWSGDWP
+SWEGWPDMWNRLITWSFPNYQNTAFEVKQAREGNDMKVTITQPDFQAVPMEAVLVNNNGE
+HIPSSFKTTGPGQYEMTFAAQPGNYFLQLNEGSGEEGTGLFKTGISVPYSSEYQLLTANR
+SNLEEIAAAGGGEVLDSSENLYKDDLPKSFTKSSISQWLLLAVFFLLFLEIALRRFGLLG
+PASKWSEKQVQRQTKRKQSQQEKVERFQKLKTSAGKKTAVSKTEKKPVETAETVKPKKVQ
+RPPEKKKPEVNESSRADKMNQLLKAKDRRKR
+>tr|A6CQA4|A6CQA4_9BACI
+MNEFMEFFNSSSPDSVATSVKLLLLFTVLSIAPGILILMTSFTRIVIVLSFVRTSLATQQ
+MPPNQVLVGLSLFLTFFIMAPTFQEVNETALTPLFNEEINLEQAYENAAGPFKDFMSKHT
+RQKDLELFLNYSGAERPESIDDIPLTALVPAFALSEIKTAFQIGFMIFIPFLVIDMVVAS
+ILMSMGMMMLPPVMISLPFKILLFVLVDGWYLVVKSLLQSF
+>tr|A6CPI0|A6CPI0_9BACI
+MTKLKIFCDFDGTITTTDNIISIMKKFAPPEWNSVKDSILAQDISIKQGVGELFRLLPSS
+LRGDLVQYLLDTHQLRAGFKDFITWSREKNIDLKIVSGGIDFFVEPILEGIVPIDQIYCN
+SADFSEETIRITWPHSCDDHCNNECGCCKTSIIRQETVPGDFIIMIGDSITDLEGAKMAD
+LVFACDNFLADKCRELGLNYRYFETFDEVIADLEEINRRAEKHGQLF
+>tr|A6CL44|A6CL44_9BACI
+MNVTTETKGDFKMNSDKVVMITGASKGLGRELAFAFAKEGAKLAICARGEEKLKEVQRDL
+ERIGAEVLAVAADVSNQRDVDRFVSITEGVYGRVDVLINNASVFGKGPCLLLDYLNEEFE
+DVLRVNVMNTLMMTKRVLPGMLSRGGGSVINLTSEAGKTGFAEWGAYGISKFAVEGMTQT
+WADELSETGVRMNMVDPGEMDTEMHDRAVPDCDYELANPAEVVDVFLYLASDESSQINGQ
+RFEAQNFNVREEEI
+>tr|A6CN47|A6CN47_9BACI
+MKVGIIGGGAIGLLFAAYLGKKQDVTLFVKSPEQQDSINSMGIILRHPHTYETVMIKAVT
+DYENLSTNDLIIIAVKQYHLSALYETLKHIPADTPLLFLQNGIGHLTLLEKLPHLHLYVG
+TVEHGALRLAKNEVAHKGKGKTNVAIYRGSDQVLERLSQESIDFPVRVQPEYEIMLFEKL
+AVNAVINPLTAVLGVRNGRLIENEEFKSLAESVFDDITRLYPRFMHVIDFKDIITIAYKT
+RENTSSMLADLQAKRQTEIEAILGAMVDEAKRQNISLSIIPTLYKMVKGLDKEGRKG
+>tr|A6CT77|A6CT77_9BACI
+GSVMWMVVFMICIQISAAFYFPALQAAIPMVVKEKDLLQLNGIHMNVATLSRILGTALAG
+VLLVIMSLSMLYFLSLVAYLALFFLTFFLQLEEPAEGTIQKGKAKSGGFKEVFPIIKGLP
+IVMMTLIMTLIPLLFIGGFNLMVINISELQDSSAIKGWIYTSEGIAFMLGAFIVKQISDK
+LSPYIILFLFSFIIGLAQMLLFFADHAVISVVAFIVFGFAVGCFFPTAATIFQTRIPKEF
+HGRFFSFRNMLDRLIFQVVLLMTGLFLDLMGLQNMTLMFGVISISATALFYWKYCQLKET
+VLAEKAS
+>tr|A6CTN0|A6CTN0_9BACI
+MKKRVLVVGGVAGGATTAAQLRRMDNDCEIIVFEKDEYISFGNCGMPYYLGEVIQERDHL
+FAATPQSMKEKLNINVRTFNEVLSIDRKQKSITVKDVRSNKEYQEHYDTLVLAPGAAPFI
+PPIEGLEQSNYFVLRNIEDMDTIKQFLEKEKPSTCSIIGGGFIGVEMAENLAGLGLNINL
+VEASPHLMGVLDEDMSEMIEEN
+>tr|A6CLS0|A6CLS0_9BACI
+MTNKVALVTGSSRGVGKALALKLAQEGYDIVVNYARSKKAALETAEEIEKLGRKAIIVRA
+NVGDVEKIKTMFQKIKEEFGRLDVFINNAASGVLRPAMELEESHWDWTMNINSKALLFCA
+QEAAKLMDKEAGGKIVSISSLGSIRYLDNYTTVGVSKAAVEALTRYLAVELSKENIVVNA
+VSGGAIDTDALTHFPNREELLEDARTKTPAGRMVEIEDLVNAVMFLVSDEASMIRGQTII
+VDGGRSLLV
+>tr|A6CR81|A6CR81_9BACI
+MNLQNELNKWFGYSEFRQGQEEVIHSVLKGQDTIAMLPTGTGKSLCYQLPAYLTGGTVLV
+VSPLLSLMQDQVEHMKIMGEKKAVALNSFLDFREKNDILRNLGSYRFIFISPEMLMSPKV
+MEQLKSLSVSMFVVDEAHCISQWGHDFRPDYQRLGEVRTSIGSPVTLALTATANVEVRED
+IKKILKMKECEEIVYSADRPNISLALKNVSSFQDKMDYLLEYVSSFQKPGIIYFSSKKLA
+EETAEWLKQRGLHKTAFYHGGMEQEQRILIQQQFLHGHLDIICATSAFGMGVNKADIRFV
+IHFHLPSSAEAYLQEIGRAGRDGKQSIAMLLYSPGDEGLSYQIMDGEMPSDFQIEEYFQQ
+AGEIPDSELMDRFGLNEIHIRFLSFYKQVYINRSKDSIKGDNGLADFVKGIRDLRLESKR
+RKIGMMAEWAMGSGCRRSGILQMFGEEYSKSNNLCCDICGLDYSEFEGTYALEGIEEILT
+WEEQLSRMLLNK
+>tr|A6CLK8|A6CLK8_9BACI
+MNYFSNRPFGISSSMMPNAEVYHNENHQHYESEDRFYFQRLEEKGICLNEAQMKAVRHME
+GPCLTLAGAGSGKTSVLVSRTGYLLQVKHVPPENILLLTFSKKAAMEMKQRVASLPDINR
+NAVNRIQAGTFHSFFLFLLRSRGVSQEILGNERFKHIVLKQLQRKIGIQEPYQPETLLST
+LSNLKMKMETVEDLPDKTTAEKEVKKILLMFEEWKENNQKIDFDDILVKACEMLRNDEKL
+LDALQKRFQYIMVDEFQDTNWLQYELIQMIARQSRNLFVVGDDDQTIYSFNGADNSFILD
+FDKKYPDAKVITLDINYRSNSHIVGLGNQVISGNKYRRQKTLRAVKEEPVKPQYSRPSNS
+DEEAEWIISKIKEMTREGKLKYKDIAILHRTSSSSRAIFERLVIEEVPFFSYNLGDQHFY
+DHWIVKPLIDHLRLSLVPRNFSAIEGVLPTLYINREAGVKFITIQEETARKKYPMIHLTD
+MHTLQEFQRNKVKERIKLIKSLSAEAPAAAVKRMKKEFYDSYLDTNERVSVTEHKENIKE
+TLAELEASADRFPSISAFIAFIDNMTEKHEKMQHQDKESFAEAISLMTIHRSKGLEFPAV
+FVIGASEGNLPHSSAVNADKLEDKIHHEARKKDVMAIEEERRLMYVAITRAKRELFISSP
+AYYQGEKREISRFLTDAFREKLSKKETPLKKEPPKIKVAAWVCSSDQCIAWSRIKTEADQ
+KVKRKVCPMCEARMVVGEKLVSG
+>tr|A6CRV5|A6CRV5_9BACI
+MYFVDREKIEEILIYMEKQLDLFQSQEEWNSRVEQLALERIAHTLIESILDTGNAMIDGF
+IMRDPGSYEDIIDILLDEKVITKEMELSLKNVIGFRKMVVQEYTQIDHEAVVKSLKDNMD
+SLRLFPVHVREYLTNELGPVSAFRN
+>tr|A6CR40|A6CR40_9BACI
+MRTLVKAPAKINLTLDVLNKRPDGYHEVEMIMTTIDLADRIELTELKEDTIKILSHNRFV
+PDDQRNLAYQAAHLLKERLGINKGVSISIDKVIPVAAGLAGGSSDAAATLRGLNDLWNLG
+LSLDELAVLGAEIGSDVSFCVYGGTALAKGRGEKIQHIKAPPNCWVILAKPSIGVSTGDV
+YKNLKLDRVRHPDTKGMLAALENGDYGRMCTSLGNVLESVTLKMHPEVQQIKEQMERFGA
+DAVLMSGSGPTVFGLVQYESRLPRIYNGLRGFCDQVFAVRMQGDRNTLA
+>tr|A6CPR1|A6CPR1_9BACI
+METMEHIVREEEKSVRLDKVLTQLEEKWSRSQVQQWIKDGNVKVNGSQVKTNYKCAIEDK
+IIISIPEPEELDVVPENMDLDIYFEDADVIVVNKPRGMVVHPAPGHPSGTLVNGLMAHCK
+DLSGINGVLRPGIVHRIDKDTSGLLMVAKNDLAHEKLVEQLVNKTVTRKYKAIVHGIIPH
+DHGTIDAPLGRDPKDRQNMAVVDSGRDAVTHFNVLERFTDFTYVECKLETGRTHQIRVHM
+KYIGYPLAGDPKYGPRKTLDLGGQALHAAVLGFIHPRTGEYLEFEAEPPEVFRHTLQKLQ
+NNR
+>tr|A6CJH1|A6CJH1_9BACI
+MKEISPKEVELIVNEGKPADIIDVRETDEVAQGKIPGAVNIPLGLVEFRMNELDKSKEYI
+MVCRSGGRSGQACQFLENQGYKVINMTGGMLAWEGKTE
+>tr|A6CPT2|A6CPT2_9BACI
+MVKGKNILLCVTGGIAVYKAAALTSKLVQAGAQVKVIMSASARQFVTPLTFQALSRNDVF
+TDTFDEKNPEVIAHIDLADWADLVLVAPATANVIGKLANGIGDDMVTTTLLATTAPVWIA
+PAMNVHMYGHPAVQKNIDELYSFGYRFIEPSEGYLACGYVGKGRLEEPEKIVEHISSFFK
+GPSFSLAGKKVVITGGPTREKIDPVRFFSNRSSGKMGFALAEEAAKLGAEVILVSGPVSL
+QAPQGVKLITVESAEEMYNEVLANYETADIVIKSAAVADYRPKVTSEIKMKKQDTDLVIE
+FERTKDILKTLGEKKKGQFLVGFAAETNDVEKYAAGKLKKKNADMIIANNITVEGAGFAG
+DTNIVTLFRKDGTKRELPLLTKAETAQEILHEIHQMMDEG
+>tr|A6CHW2|A6CHW2_9BACI
+MAEAMISGLVESNKIPSEQIIVSNRSNRGRLQELQAKYDVTAITKDELKFEEIDMLILAM
+KPKDIDPVLESIKDLVNPDTVILSVLAGITTGHMEEGLPQGQKVIRVMPNTSSMMRESAT
+AIAAGKHTKVEDMTTAQELLECIGEVYTINEEKMDIFTGIAGSGPAYFYYLMEHIEKAGK
+DSGLEPEVARQIGAQTILGAAKMIMERDETPAQLRENVTSPNGTTAAGLDALAKFGGGEA
+IAQAVKGAEKRSKEISSQFKKVLVAN
+>tr|A6CMT5|A6CMT5_9BACI
+MIFGATGDLAKRKLFPSLYHLFRKGKIAKNFAVIGVARRELSNEEFQAHVKDSVLTSIGR
+DENIEEFISHFYYKSNDVSDSDSYIELNQLAAQLDEKYKLEGNRIFYLAMAPEFFGTITD
+HLKQDGLTDTEGFQRLVIEKPFGHDLESAEVLNNQIRASFSEEEIYRIDHYLGKEMVQNI
+EVIRFANALFEPLWNNRYISNIQVTSSEELGVEDRGRYYEKSGALRDMVQNHMMQMVALL
+AMEPPIKLTTDEIRSEKVKVLRALRPMKQEEVKDYFVRGQYDAGSMKGTDVPGYREGSNV
+DPDSNTETFVAGKLMIDNFRWAGTPFYIRTGKRMKAKSTKIVIQFKDIPMNLYYNTDKQL
+SPNLLVIHIQPEEGITLHLNAKKTGQNIETTPVKLNYVNNGVDGMNTPEAYEKLLHDCMR
+GDATNFTHWDEVKLSWAFTDTISNVWENTTEEEFPNYQAGTMGPLAADKLLAQDGFFWWP
+FSELEVDEC
+>tr|A6CR08|A6CR08_9BACI
+MLIVAAILKNDWNDVLEKELEKPYFTRLTEFLEEEFKTEKIYPEKQNVFNALNSTSFTDT
+KVVLLGQDPYHGEGQAHGLSFSVGKSVKIPPSLRNIYKELHDDLGCDIPDHGNLSKWADQ
+GVLLLNTVLTVREGKAHSHKGKGWETFTDKVIEHLNDREKPLVFMLWGRPAQEKLKLIDS
+DKHFVIQSPHPSPLSARKGFFGSKPFSRANEWLKKNGRKK
+>tr|A6CR31|A6CR31_9BACI
+MNSILHFIGQNEELQALASGVEEGLGEQLVAGLSGSSRSVFIASMFRKTGKSAIVLTHNL
+LQAQKIYEDLLQFLNDEEVYLYPANELIAAELSVASPELKSQRIEVLNRLATDQKGIFVV
+PAAGLRKILPPKSLWKSMQLSFTLGEDVDLDNLLEQLLVMGYQRNEMVGTPGEFSLRGGI
+LDIFPHTLETPVRIELFDTEVDSIRSFSLEDQRSIEKLKDVHIGPASETIMKGEHLANII
+DRLEAGLAKSLKKIKSDSVKEKLTQNIGYELEQLRNGQKSQQVYKYLSFAYDEPASLLDY
+LPEDGIFFLDELGRVQEMGESLDKEEAEWYTSLLQEGEIVHDAPVSHNLSKLLIQTSLPK
+VYFSLFLRHIPNTSPQNIFNLSSKPMQSFHGQMHVLKAELDRWKKGNFNIILLGPDEERI
+KKLQRVLKDYDIEVAVVQDNDKLLTGQAQIMSGHLTNGFELPMMKIAVLTEEELFNKKTR
+KAPRKQKLSNAERIKSYSELKIGDHVVHVNHGIGKYLGIETLEINGVHKDYLHIKYQGND
+KLYVPVEQFDLVQKYVASESKDPKLYKLGGTEWKKVKNKVESSVQDIADDLIKLYAEREA
+SKGYAFSPDGDMQREFETSFPYQETEDQLRSIDEIKKDMERERPMDRLLCGDVGYGKTEV
+AIRAAFKAVVDGKQVALLVPTTILAQQHYETMKERFQDFGLEVGLLSRFRTKKQQTETIK
+GIKAGTVDVVVGTHRILSKDIQYRDLGLLIIDEEQRFGVTHKEKIKQLKTNIDVLTLTAT
+PIPRTLHMSMLGVRDLSVIETPPENRFPVQTYVMEYNGVMMKEAIERELARDGQVYFLYN
+RVEDIERKAEEISMLVPDARVAFAHGKMNETELESVILSFLDGEFDVLVTTTIIETGVDI
+PNVNTLIVYDADRMGLSQLYQLRGRVGRSNRVAYSYFTYRKDKVLTEVAEKRLQAIKEFT
+ELGSGFKIAMRDLTIRGAGNILGAQQHGFIDSVGFDLYSQMLKEAIEERKGDLPKEKSHS
+FEVDMEVDAYIPDSYIKDGHQKIEMYKRFRSVSTLKEVEELQDEMLDRFGEYPEETAYLF
+QIAQMKVYARQAKLESIKQNKKEISIYMSPEGTQEIDGSKVFDICNKHGRAVGLGMEEQK
+LKITINTNRMKTSQWFNIAFDIVKNIQFARKDAEVHS
+>tr|A6CJV9|A6CJV9_9BACI
+MGGREMADKQSSVKNTKVAFFINLLFAIVEFIGGVMTNSMAILSDAVHDLGDSLSLGSSW
+YLEKLSGKGRNSRYSFGHRRFSLLGALINGIILIVGSLFVLYEAIPRLFHPQHPNAQGMV
+WLAILGIILNGIAAYRLHKGSSMNESILSWHMLEDILGWIGVLIVSIVLLFKEIHILDPI
+LAISIAGFVLFNAFKKTVKTMRIFLDGVPEGINLDAVEKDMKKVEGVEEISHLHIGSIDG
+EKNAMSAHVKVRNGLEARDEEKIKETIRSQLSSCNLTHSTIEINHS
+>tr|A6CJQ8|A6CJQ8_9BACI
+MKEYNIIHKDHINVGGLDFSWNLERGLFQFEGDDAVLFWITSAMKSFFDTIEEVSGKEAA
+KVVLETTGYRQGIVVGEYFQGLKMPLEDVAKAIPATYASAGWGKIEISHLNQEDYTATVK
+LKDSWEYKINLAQGKEKMTTFLAGHFSGIFSGLLGKNVWFSVERDQIKQGDYCEYKFAPS
+DITIEENIHDLARKSESEKILKLESMVEERTQDLTELVKEISSPIIPVLEGVVVVPLLGK
+YDENRSEDLITKTLNNLPKHKADYLVIDLTGLHQYISQFTVELLSKLASAASLIGTETIL
+VGISPKLAQEITGTDMQLSRFSCFSTLKHGIYYAIGQQGRQIY
+>tr|A6CQL7|A6CQL7_9BACI
+MEIILRKRKCRLSGDQIMDVVRYDYTINQLKEMGKLNKNLTEVVFLLDRSGSMAGLERDT
+IGGFNGFVKRQSEAEGKTRVTTVLFDDRYEVLSQGAAAEEVKLTEKEYYVRGCTALLDAV
+GKSIVEVGHRLAGTPEDQRPGRVIFAITTDGLENASCEFSYEKIKEMIKHQQEKYRWEFI
+FMGANIDVAQEADNLGISAENAYNFEATEEGVELMYAKMCEAVTEIRDLS
+>tr|A6CN69|A6CN69_9BACI
+MRKIIVGSRRSKLALTQTNWVISQLKELDSSFEFEVKEIVTKGDQILDVTLSKVGGKGLF
+VKEIEQAMLDKEIDMAVHSMKDMPAELPEGLCIGCIPEREDHRDAFISKDHVKLADLPAG
+AIIGTSSLRRGAQILAQRPDLEIKWIRGNIDTRLGKLETEDYDAIILAAAGLSRMGWTSN
+VVTEFLDPEVCVPAVGQGALSIECREDDEELLGLLGKFASDQVTKTVTAERTFLHKMEGG
+CQVPIAGYAELLQEEDVKLTVLVASPDGKDIYKETVTGSDPVQVGEEAAALLTERGAKAL
+IDKVKEELDQ
+>tr|A6CL08|A6CL08_9BACI
+MAFFMFDVDGVLTDEHAQPSEKVLHIIEKLYQQNEQLAFITGRSRKWLAENIFSSLDKEE
+DWSRLYCVAEHGAIKGKGHDISNWQLDEDFIIQDEIKDKLQRISKKPDYKGLIEWDETKE
+SMGTVEAVHGEPGDEEHLKKTRQALKVYAEEAKKVAEMHNKKVVVSTYGVDVVPPDLSKK
+IGAQWILEQHSVSEETVYVFGDSQGDFIMAETARQYGAKDITFFWVGDGDSPEKKDDTIT
+IKSASENFAAGTEIILKKLS
+>tr|A6CP54|A6CP54_9BACI
+MEKNHQHCLASIRSHYSQFSDTEKKIANYILNNPTDIIHSTINGLADELGVADSTVFRFC
+KRIGFKGYQSMKIALAAEIVTPMRDIHENVDENDTPQTIASKVFRSNMKTIEDTLMVLKE
+KQFQETADAMLTADNIEFFGSGGSGIVAMDAYHKFIRTGLRVHASTDSHIQLMTASQMTK
+KDCAVLISHSGSTKDILQVMKVLKESGAKTIAITNFAKSPLSEKADISLYTVSEETDYRS
+EALSSRIAQLSIFDALYVSIMLKRDQDGQDALKKMRNAISVKRL
+>tr|A6CP61|A6CP61_9BACI
+MSRNSQSIIEQTQEYGANNYHPLPIVISEAEGVWVKDPEGNKYMDMLSAYSAVNQGHRHP
+RIIQALKDQADRVTLTSRAFHNDQLGPWYEKICKMTNKDMALPMNTGAEAVETAIKTARR
+WAYDKKGVADNQAEIIACEGNFHGRTMSAVSLSSEEEYKRGFGPMLPGINLVPYGDIDAL
+KEAITPNTAAFLIEPIQGEAGIVIPPEGFLKAAYELCKENNVLFIADEIQAGLARTGKMF
+ACEWEDVEPDMYILGKALGGGVFPISCVVADEDILGVFNPGSHGSTFGGNPMACAVSVAS
+LEVLEDEELAQRSLDLGKYFMDKLKEIDNPKIKEVRGRGLFIGVELTEPARSYCEKLKEE
+GLLCKETHETVIRFAPPLIISQEDLDWAIERIQKVLSR
+>tr|A6CN06|A6CN06_9BACI
+MNIDNEILAKMVSEARPISAEGKLVDYIPALKKENKDNLSVSVCFLNGEFFYAGDYLEKF
+TLQSISKVITLALVLMDNGEEEVFSKVGMEPTGDPFNSIIKLETNRVSKPLNPMINAGAL
+AVTDMIKGSTNEEKWERLLAFVRRLTGDSEVTYNQEVAESEFHTAFLNRSLGYFMKQHGI
+IKGDIEHLIYIYTKQCAIEMNCQDLAKIGAVFANDGIDPVTGKQLITRDVARICKTFMVT
+CGMYNSSGEFAIKVGIPAKSGVSGGIMGSVPRKCGIGIFGPSLDDTGNSIAGLRLLELMG
+SEYKWSIF
+>tr|A6CR66|A6CR66_9BACI
+MKCPSCKFNGTRVVDSRPVDEGRSIRRRRECEKCSYRFTTFEKVEEFPLIVVKKEGTREE
+FSREKMLRGLIKACEKRPVSLDMLDSITGDIEKELRNEGSSEIQSEKIGELVMDRLAKVD
+EVAYVRFASVYRQFKDINVFIDELKDLIKKD
+>tr|A6CSY5|A6CSY5_9BACI
+MNEKKVQDKSMSDILQFVAPGSPLREGIDNVLRANTGGLIVIGYNEKVKSLVDGGFHIDS
+VFSPSYLYELAKMDGAIILNDSGTKIILANAQLAPDATVPSSETGMRHRTAERVAKQTKC
+LVIAISQRRNVITLYQGNFRYALKDISNILTKANQAIQTLEKYKVVLDQSISNLSVLEFE
+ELITYSDLLQVLHRFEMVLRIKNELLTYLSELGTEGRLIRLQMNELLSDIEEEAMLIIRD
+YSKARDIKPFDVLHKFQELVHSEVLDDTVLLKLLGYNGYIHLDDGICPRGYRVLNKIPRL
+PIVIIENLVTNFEILPN
+>tr|A6CPQ6|A6CPQ6_9BACI
+MKVIFLKDVKGKGKKGEVKNVADGYAHNFLIKQGLAVEATNSSVSQLEGQKNKEKKQAAE
+ELAEAKKLKETLENLTVEMKAKSGEGGRLFGSITSKQIADELKKTHKIKVDKRKIEMNDA
+IRSLGYTNVPVKLHPDVTATLKVHVTEEN
+>tr|A6CTE2|A6CTE2_9BACI
+SIRGAYGGYVLGNEPSQITAGDIIRILEGPISPVEGIEDEEPAKRELWMRIRDAVKEVLD
+NTTIEDLASYTDEGESDAYMFYI
+>tr|A6CNS6|A6CNS6_9BACI
+MREHYDQLTAGGVQLIAIIPSNRSLVERFIKEFGPYPFDIYGDPERSLYKKMGHKSMAKW
+KLLAKAGKAFLKGGKKSFLPENEARRQVVKESLNTQDIYIQGGSWISDETGKVVWKHIDE
+SPEKHAKIGELLKQVK
+>tr|A6CLJ8|A6CLJ8_9BACI
+MFHSILFNLMLIGLLGILSQWAAWRFRLPAIVIMSIAGLLAGPFLGIIHPQEEFGDLFKP
+IISMAVAIILFEGSLNLDFREVKGLGRPVFRIVTIGAFLAWILGSLGAHYVAGLSWAVSF
+VIGGLFIVTGPTVILPLLRQAKLKPRPAAILKWEGIIVDPFGALLAVFAFEIILFLTSEE
+GASNTLVMFFLASFFAVVFGWLCGRGIGWMFEKGHVPEFLKSPVVFVVVLACFTISDEIT
+HETGLLAVTAMGMTLANMHISSIDDMRHFKENISVLLISTIFVMLTASLSLETLIEIFNW
+KIIGFVLLMLFVVRPLSIFLSMIGTDLSWQEKTLVGWIAPRGIVALTVSSYFASILLDNG
+FEDAAILTSVTFALVFGTVTVHGFSIGWLAKKLDLAINERPGVLIIGGSSFSTELAKTFM
+DLKTPVMVADSSWKRLFSARKAGVPFYKGEILSEQTDYHMDLTPYEYLLATTEVDSYNAL
+VCTTFVPSIGRNNLFQLTLKGKRSDDIEDLVHTLGGRILFQEDATWDELNKRVERGDIIR
+RTNITEKYSFEEYLYEREEHTILLFVLKPSGKMEFFSPDGSAKAEAGDIVVSLTQPCKEF
+NKIQEKLVEQREKPAKKNKDEAKDE
+>tr|A6CU76|A6CU76_9BACI
+MEGIFIVYSRMSKLRNPEEEIARLNEKLKEYERLIDELSTPIIPSVIPNTILVPLTGALN
+EKRLDDIKTRVLFSIQKQQGDTVLIDFTGISHLEVETLGLPYLIHQIGEIQSGLKLMGVE
+TIFVGFSPKFAHDIISSGVDTSRFITHATFRDGLRFLMKKKGLEFKQVEPLS
+>tr|A6CQB0|A6CQB0_9BACI
+MKVKKFTAPTMPEAMKKIRAELGEGAVILNSKMIYTGGFLGLFKKKNIEVIAAIDPNSKQ
+ATKERRNPKYQQEVKKQVPAQVPVQESAKTDEGNSSLQFKKEITELKSIVQQLKSNNGFE
+HYPEDIRHLLLYLKEQEIDENYILEAAEHLVSLRESKDSLTASELKSTVSDFMKNKLETL
+SFGGTSYKKKYVNVIGPTGVGKTTTLAKMAYEAVLERRKKIAFITTDTYRIAAIEQLKTY
+AQLLNVPLEVVYKLEDFQKAIEKFKDYDMVFIDTAGRNFREEKYVKDLEKMIDFKNDMET
+FLVLSMTAKERDLNQIIHNFSTVPIEKFIFSKVDETSSYGTMYNILRNEEKGAAYITAGQ
+SVPEDISEASPKGIVDLVMEGKVK
+>tr|A6CHP3|A6CHP3_9BACI
+MRSFQQGGFRGSMKIFVYGSLRKNQRYHYYLEDSKLISEQAWIQGKLYDTGEGYPAVKEG
+KDRVFGEIYEINQTVLESIDDLEDYKENSDNNLYMRQVAEAQTDEGPVDVIYYTGFQSSL
+FKDYIASGDWTLHTFMEQKPDSLLYFAYGSCMDLERFQLAGVDHHFQQPLGKGVLNGYSM
+KYTYIVEDGGRGDIIEDGGVTEGIVYSLPFEAVDYLYEREGVVPGRYRAAMVNVVVNDVL
+IPNVLTFIVNHRGAETRPPAHYAREILRGSMPYVSQEYHQKLKKQLLLLGMSEAEVEGLL
+NSE
+>tr|A6CJ25|A6CJ25_9BACI
+MNNTKKLSTIALTAGVMFGGSATASADEVVIKEGDTIWGIASEYNVDVNDLMEANNDFDP
+LALPIGEILDVDTSEDVHVVGNGDTLETIAADNDTTVDDLITMNPGIDPYLLLPGDGIVI
+GNGNDELVIALEDENQTANNPQDSNVDVNTSEDNSADQDSVEENNSNEDSTSENNADETE
+NSTNENDAIQENADVNTNEESNTEENISDENQSEEAETSVDQNDVEEDDDMMNQYQGK
+>tr|A6CHS6|A6CHS6_9BACI
+MNIFHARNYLKEYFGYENFRPGQDEIIQSVLFGHNTAGIMPTGGGKSICYQIPALLLEGI
+TLVVSPLISLMKDQVDALNQTGISATFINSSLTQAEIERRLSEAELGVYKLIYIAPERLE
+SPYFVQYLRNLPIPLVAVDEAHCISQWGHDFRPSYLKIKDLLKGLPSNPVVLALTATATP
+QVQNDICASLEIEEENTFITGFSRENLSFKVIKGQDRSQFALQYVKANQDESGIIYAATR
+KEVDSLYNKLKKQGVSVGKYHGGMGDVQRNEMQEEFLKDNLQVIVATNAFGMGINKSNVR
+YVLHYQLPKNMESYYQEAGRAGRDGGESECLVLYSPQDVQIQRFLISQNTLDPERHTQEL
+LKLRQMVDYCHTEGCLQEFILHYFGEEDAAPCGKCSNCTDDRQAVEVTRETQMVLSCMIR
+MGERFGNSLVSQVLAGSNNKKIREFGFEKLSTYGLMKAQKQKDISLFIDFLISEEYINVV
+SGTFPILKVSERGKNVLQGKEKVTRKETMKAGKVTHQEDDELFQVLRAIRKDLADSEGVP
+PFVIFSDETLRDMCRRLPTDSASFLEVKGVGSHKNDKYGSRFNEAIAEYKADDMKDEDPS
+PTKGKNGEEPSFITTYNMFKEGMDLVKITEERNLSLTTVQNHILQSIEEEMEVNTDNFLT
+EEERKMIQQAIEKAGPDKLKPIKEELPDEISYFQIKIFMHERVMAIK
+>tr|A6CHW6|A6CHW6_9BACI
+MNDAGFNVGYRLIKYYLWHRYLFKKQVKKEKKNPSYQKLITMLKEFEEEKPLYQQQQLDS
+CTFTIFDLETTGFFPEIGDEIVSIGAIKMQGNKILDQKTFYEVINPLQNVSLETKRFTGL
+RRTDFIKAKTLPVGLKDFLEFCKGTILVAHPASFDINFLQKRIRKWDLPSFEPEYIDSYA
+LAKELLNEQKCYLDDLVKKFQISEKTRHHALNDAIMTAEVFQELLILCKEKKVETISELH
+EVAGI
+>tr|A6CK15|A6CK15_9BACI
+MDMPKMNVESFNLDHTKVKAPYVRLVGITEGQSGDKIYKYDFRIKQPNKEYMNMPALHSL
+EHMMAEFSRNHHDRIVDIGPMGCQTGFYITILNDESYETVLDVIEKTLKDVLEATEVPAC
+NEVQCGFAASHSFEGAKELARDMLAKKDEWTEVFA
+>tr|A6CUG1|A6CUG1_9BACI
+TAKRLPLYYRFIKNLHSSGKQRVSSKELSEAVKVDSATIRRDFSYFGALGKKGYGYNVNY
+LLSFFSKTLDQDALTKVVLIGVGNLGTAFLHYNFIKNNNTKIEMAFDVAPEKVGSVIGDV
+PVYSLDDLEKQLKDNGIEVAIMTVPAGSAQSITDRLVQANIKGILNFTPARLTAPDHIRI
+HHIDLAVELQSLVYFLKNYSEDDTEMSQEENQS
+>tr|A6CPP3|A6CPP3_9BACI
+MAKGLGKGINALFTNVDAAKEESVQEISLRELRPNPYQPRKVFEPEAIEELKESIKEHGI
+LQPIIARKSIKGYEIVVGERRFRAAKAAKLDKVPVVVRELTDKQMMELAVLENLQREDLS
+PIEEGNAYQLLIDKLDLTQEQLAKRLGKSRPHIANHIRLLSLPPQIQQLIIDDKITMGHG
+RALLGLRKKEKLQAVVEKIIKESLNVRQLEKLIHELNENVSRETKKPEKKDVFIKEQETL
+LRERFGTNVSIKQSKKKGKIEFEFFSQDDLNRILELLSDLEDK
+>tr|A6CM45|A6CM45_9BACI
+MKKAVLSTLNAKYIHTNLAIRNLKAFSEPEYQVEISEYTIKDPLMNIVSDLYTKKADVIG
+FSCYIWNIEETISVVKMLKKISPETVIIFGGPEVSYDVPYWLERLPEVDFFVIGEGEETF
+KSLLQQIYGGQNWDEVNGIGYLKEGKVKINPQRNKLDLRELPSPFRFEEDLKSLSKRVTY
+IETSRGCPFRCQFCLSSIEVGVRYFDREKVKDDIRFLMANGAKTIKFVDRTFNISRSYAM
+EMFRFLIDEHLPGTVFQFEITADIMRPEVIDFLNKEAPAGLFRFEIGVQSTNDETNDLVM
+RKQNFSKLTRTVTMVKDGQKIDQHLDLIAGLPEEDYQSFRKTFNDVFALRPEELQLGFLK
+MLRGTGLRINADKHDYIYMDNAPYEILGNNILSFDDIVRIKQVEDVLEKYWNDHRMDETI
+EYLVTHVFETPFDFFQSFGSYWEERGWSRIGHQLEDLFKRLHEFLSESSHELLPTIEATM
+KYDYLKNQRYKPRKAWWQSKMEKRDRSEVYQLIIQDQSLLGEDFTNLGLNEKDLHKHTLV
+EKLPVTPSSTGIIDESCYLLAYYEPASGAAQLFTIPESKLLHKQS
+>tr|A6CKI9|A6CKI9_9BACI
+MKAGIIMAKKRYKNLDNVNNQKSVGDLLKWMKERRSKTKDLKTQIPQAPHKEVRRLQHNR
+EQASITWIGHSTFLIQLNGLNILTDPVWARRMGAGKRLTDPGLDLKEIPAIDIVLISHGH
+YDHLDFATIRKIKGTPTFYIPHGLKPAFTRRGYKKVIEANWWDSFNSQGITIEFVPAQHW
+TKRTLSDTNTSHWGGWVLGFESQKQPIYFVGDTGYFRGFKDIAEKLSPEIILMPIGAYEP
+EWFMKDSHINPEDAVKAFIEMNAGLFIPMHYGAYRLADDTGPEALDRLLAEWQKTGLEDE
+KLKVLAIGETLWL
+>tr|A6CHB1|A6CHB1_9BACI
+MRKSFYHFLMKYRQPTARDELTAFANSVYDDLAFPKQAEEYNEVSSYLELNGHYLESMRI
+FDDAWERYLIEEE
+>tr|A6CMX2|A6CMX2_9BACI
+MKNEMNIQFSAVSQNESFARVTVASFIAQLDPTMDELTEIKTVVSEAVTNAIIHGYDNNP
+NCFVYISVKMEDGFIDLEIRDDGVGIQDVEEARQPLFTTKPELERSGMGFTIMENFMDEI
+EVNSQPGAGTTVRLKKHLANSKALCN
+>tr|A6CTF4|A6CTF4_9BACI
+MESIIDIQKRLLPDLLQVMQKRHQILKSVRLMQPVGRRSLAQTLGMTERVLRSEVEFLKD
+QDLIEIKSSGMIITAEGELLLGKTADMMREITGIDSMEKELKSLLNLHKIFIVPGNSDES
+PWVKEELGRSAALRMKDLLVGDNIIAVTGGSTMAEVAEKLTPEFAKSEVLFVPARGGIGE
+DVKNQANTICAKMAERTSAKHRVLYVPDQVSTEVYNSFIKEPDIKDVLSLIKSANIVLHG
+IGDAVTMAERRKTSEEVLGKILAGNAVGEAFGYYFNEEGEVVHKVTTVGLQLEDLRDKSN
+VIAVAGGRSKAKAIRAYFKSVPHSTILITDEGAAKELLKG
+>tr|A6CHT1|A6CHT1_9BACI
+MEPNKELEQIVEIKKKKTIFQRAKQCASGAWLSVESASRKAWKGAAAGAFIIIGLFAALF
+GIGLETGLGSTVDFVIVFIPVVLAASISPFLIYPVILLFKRINNRFLAVILSSAILMIIL
+LSQVRSTHQILPLSFVLVGYGVVAGGAVGFWLNSKRRKFSSLLVLTLGMLTIAGFAFWLI
+APGFNRFPTAENPVVPKPLQVGNPSQKGVYEVRTFTYGSGTDKRRPQFAEGVEYRTDTVN
+ASFVTGGWDKYRTWFWGFDRAEIPLNGTVWMPEGNGEFPLVLMVHGNHIMEEFSDEGYAY
+LGELLASRGYIAVSVDENFLNTSSWSGSLNNEISTRAWLMLKHLNQFEEFNEIKNMPLHN
+KVDFDNIALLGHSRGGQAVAVATEFNKLDRYPNNGIVTFNFDYKIKSIIAIAPTDYFTLS
+DKPVEMENVNYLLLHGSYDSDVSEFSGDRQYNDLTFTDENDWMKTSLYIHGANHGQFNTV
+WGDNDTTLPMNLFINKKPLLEGEEQRQIAKTYISAFLDATLKEKTEYKPLFQDYSYALQW
+LPDTIYVNRYSDNDFRVINDYENDYDLTTGNDSDITFKASRLKYWSEGELESREGNERKN
+HGVYLKWDESYSNSGLYQLTLPDGYFQKAGINEADSLTFSAASIEEVEEAADFTVRLKMN
+NGQSAEVSLSETLPLAPALHIQHTKTWFYQKSRYGNTHEPVLQTFHIPIAKFTAQGLDIN
+RVNKIEFVFDKTDQGKIFLDEIGVLKAIH
+>tr|A6CTU4|A6CTU4_9BACI
+MMQKKEVSVSDLVDESYKRIEAVEGKVKAFLTLDEDNARTKAKELDNKIGTDEAKGLLFG
+MPIGVKDNIVTKGLRTTCASKILENFNPIYDATVVNKLREAETVTIGKLNMDEFAMGSST
+ENSGFQKTSNPWNLDTVPGGSSGGSAASVAAGEVPFSLGSDTGGSIRQPAAFTGTVGLKP
+TYGRVSRFGLVAFASSLDQIGPITRNVEDNAYLLQAIAGVDANDTTSADVEVPNYAAALT
+GDVKGLKIAVPKEYLAEGVGEEARQSVMAALKVLESMGATVDEVSLPHSKYGVATYYILA
+SSEASSNLSRFDGIRYGYRTPNPENLLDLYKKTRAEGFGDEVKRRIMLGTFALSSGYYDA
+YYKKAQQARTLIKKDFEDVFANYDVIIGPTTPTPAFKIGEKIDDPLTMYANDILTIPVNL
+AGVPGISVPCGFSKEGLPLGLQIIGKHFDESTIYRVAHAYEQATDFHKQKPQL
+>tr|A6CTC4|A6CTC4_9BACI
+MLKPLKNKNFLLLFLGRLVTNIGDSIYAIATMWLVYDLTKDPFFSGIAAALTMAPGMLTF
+LIGPLIDRWSLRNILVRTQVLEFFLISLIPIAYYFDILSVWLILIIMPLASFIEQFVYPA
+QQAAMPRLLKKEDLVPGNSLMSFAYQGTDLAFMGISGLMIVYFGVINLFIFDSITFILAA
+LLFRMIRIPSETSAETNQEPVSFTDYKKELNEGFKAVRGSFIAKFLILIIFANFIFGSIQ
+AILPAYADFRGNSAYLGFYLAALTGGILIGSLVSAMLKKLPIGITVITGTFISALLWFSS
+AVIEHAVLSVILFGLSFIPIGYLNVNIFSIIQASTPENLIGRVFSFMGSITVLSMPLGAL
+AGGFTAKVIGAETVFVVGCSGNLLIAFFWLFSPSLRSYTTILSMEKTEETVSA
+>tr|A6CMK5|A6CMK5_9BACI
+MKIDDVDRKILQILTENGRTSYVDIGKELGLSRVSVRERVNQLIEGGVIERFSVVINSEK
+VGKSVSAFFEVDCEPAYLVEVAENLVDLPAVASCYQMTGPSTLHMHVLVEDFSALENFVN
+KELYALEGITRVESHILLRRFKSRNGLKL
+>tr|A6CUD6|A6CUD6_9BACI
+MTEKKKTTIVLFSGDYDKAMAAYIIANGAAAYDHEVTIFHTFWGLNALRKDENIEVNKGF
+MEKMFGKMMPRGADKMGLSKLHFAGFGPKMIKDVMKKHNAMPLPDLIDMAKEQDVKLVAC
+TMTMDLLGLQKEELLENIEYAGVAAYLADAEDGNVNLFI
+>tr|A6CMW8|A6CMW8_9BACI
+MKFEQIENAANFLKNKYTGKPAIGLILGSGLGVLADEIENPVVVPYKEIPDFPVSTVAGH
+AGQLVFGRLSGKEVVAMQGRFHFYEGYGFDKVTFPVRVMKELGVETLIVTNAAGGVNESF
+EPGDLMIISDHINNMGGNPLIGPNDDRLGVRFPDMSEAYSKSLRELARSTAEKISLKVRE
+GVYVGNTGPVYETPAEVRMIRTLGGDAVGMSTVPEVIVARHSGMNVLGISCISNMAAGIL
+DQPLTHDEVIETTEKVRADFLNYVKTIVKSM
+>tr|A6CIG6|A6CIG6_9BACI
+MTLLSPRILQRSTKHSLVLRKSVRGMHKGERRSSKQGTSLEFSDFRTYTLGDDPRLIDWN
+AFARTQKHYIKRYLDEQELFVSLFLDGSKSMMVPQGKWEMARSITACLGYMSLANDDRIS
+VYQVGTGDAPFTYKKGRAYAGRLLNYLADLNGEGSSTSFATGLQTIQQKRNGLSIIISDF
+LEPIEELKEALKRMQASRQEIRIIQVLSPDELNPAYHGDLKLIDSESRQQSEVSISKRVL
+LDYSERLKAHTAGLEEFCQGRGIGFLQCSSAQDLEELIFSKMAAKGWVM
+>tr|A6CL63|A6CL63_9BACI
+MLVDQAQIIEALIETIQMVAFSLLFSALLGLPLGILLVVTRKGHLLENLPVFNVLNGIIN
+VFRSIPFIILMVAIIPVTRLIVGTSIGTAAAVVPLVFYAGPYIARLIENSLLEVEPGVIE
+AAESMGATPWQIIIKFLIPEALSSLVLAFTIATVGLVGASAMAGAVGGGGLGDLAITYGY
+QRFDTTVMLITVGILVIMVQGLQTLGNISSKKIRRR
+>tr|A6CRT8|A6CRT8_9BACI
+MDVISLRKPRIVVLGAGYGGLMTVTRLQKQFSKDEAEIVLINKNDYHYETTWLHEASAGT
+LHHDKVRYDIKDVIDGHKVNFMQTTVEDIKTDAKKVITANGEVEYDYLVIALGAVSETFG
+IKGLHEHAFMIANINSARQLREHIEYQFATYKNEEEKKDERLTIVVGGAGFTGIEFLGEL
+GNRIPELCKEYDVDFKKVRIVCVEAAPMILPGFDPELVKYARAKLEKKGVEFRIGTPLKE
+ATANSVIISKGEDEVEEIQAGTIVWAAGVRGNPVIEKSGIENMRARVKVEKDLRAPGHDN
+VFVIGDCSLMINEETERPYPPTAQIAMQQGETCARNITALMKGNDALEQFTPDIKGTVCS
+LGEDDAIGLVFGKKLMGSKASFMKKMVDNRALYMVGGAGLVMKKGKFKFF
+>tr|A6CS28|A6CS28_9BACI
+AKSITQETSLYVTGVIQEDSRSPFGYEMQVKDIEVIHESVDYPITPKEHGTEFLMDNRHL
+WLRSRRQHAVMKVRNEIIRATYEFFNKEGFVKVDPPILTGSAPEGTSELFHTKYFEEDAY
+LSQSGQLYMEAAAMALGKVFSFGPTFRAEKSKTRRHLIEFWMIEPEMAFYEHEDSLKVQE
+EYVSHVVQSVLENCKLDLERLGRDTSKLENIKAPFPRITYDEAVKFLKEKGFDDIEWGDD
+FGAPHETAIAESYDKPVFITHYPTSLKPFYMQPDPNREDVVLCADLIAPEGYGEIIGGSE
+RLHDHEILSQRIEEHDLDPEAYKWYLELRKYGSVPHSGFGLGLERTVAWISGVEHVRETI
+PFPRLLNRLYP
+>tr|A6CI12|A6CI12_9BACI
+MEHFRSIMLMVVKFFFVSLGLILISGVIGLFTNGISLDFKQYILNVWEIIRSLSNPGEMT
+ITNELGNTYPMFPTFWAYYNYSLIIFLGSLLLAVMIAFILTFMTIRLPRKLSAYLLKVLS
+LLESIPDIFIIIIIQFTVIVTFKRTGILLAPVAGGNDPVYILPIVTLSILPTIFIFKLLL
+LFVEDELTKPYVELAESKGLGKVYIFSMHIIRNFSSSLMNHMKSFILILLSNLIVFERLF
+NIYGLTHFILAFPQIDVICFSLILFYVPIFIILTAIGIFIRLKTGQEGVAA
+>tr|A6CL07|A6CL07_9BACI
+MSKATHVFWYALAISLIVVIWGAVAPENLNNFSSNLTGRILSDFGWFYLLIVIAILLFCV
+FLMFSKFGKLKLGKKDDEPEFSKTSWFAMLFSAGMGIGLVFWTTAEPISHAFISSPMSDE
+GSNEAIKEALKYSFFHWGVHAWAVYGIVGLILAYFKFNKGAPGLISATLTPLFGEEMMRG
+ALGKIIDVLAVFATVIGVAATLGFGSAQITGGLSYLFGTPNNFTVQILVLAIATVLFIWS
+AWSGIGKGIKYLSNINMGLALFLLILLFIVGPSMYILNMFTDTLGRYISDFFDMSFRLAP
+LNEDNRSWINGWTIFYWAWWISWAPFVGIFIARISKGRTVREFLFGVLLLPSVVCFVFFA
+VFGVSALELEQLGTAAISELTLETSTFGVLAEYPLGFFMSVLTILVIAIFFITSADSATF
+VLGMLSTNGQLNPGNSVKIGWGLIQSTIAAVVVYFGGTQGLQNMLIIAALPFAVVMILMC
+VSFFKDIQKEVRSQRK
+>tr|A6CLU0|A6CLU0_9BACI
+MKILFTFDPPKELAEELLVGWEECQFEFFKDIQSAFGSISEAEVIVTFGEDMTAEHINQA
+KRLRWIMVMSAGLELMPLELIKEKGILVTNVKGIHAIPMAEFAFGLMLQHAKQFPAIREE
+IQRGLWQREVPGTELSGQNLFIMGAGAIGREIARLGKAFRMNVSGINTSGKITENFDEMY
+TMDQLERVIGKADFVLSILPSTEATRYILKKEHFQCMKASAVFINIGRGDLFKSSELVEA
+LEGNEIAHAYLDVFETEPLPEGHPFWNMDKVTITPHLSSRTKQYLPRSFAIFKKNLTTYI
+KNGTDYINEIEVERGY
+>tr|A6CRI1|A6CRI1_9BACI
+MLKNFLGDQKIPFKEVNVEKNPEIMNHIVTKTGQMGVPQTEINGQWVVGYDPNNIMMALR
+K
+>tr|A6CS77|A6CS77_9BACI
+MLEKTTRMNYLYDFYQSLLTPKQSSYMSLYYLDDFSLGEIAEEYEISRQAVYDNIKRTEA
+MLEEYEEKLLLFQKFQERSKLLREIKQ
+>tr|A6CSL3|A6CSL3_9BACI
+MIGCDQIMHKQKTAFFLMTIPALALFFIFHTYPALQGIFYSFTDWKGYGDYNFVGLKNYL
+NVFKDDRAFHAYGFTFKFAIVSTILVNVISLTIAMGLNAKIKFQKTLRAVYFLPNILSIL
+IVGYIFNFIFSHFLPEIAEKAGIESLTTNILGDPDLAWLGIVIVAVWQAVAFNTILYLAG
+LVTISNDLYEAASIDGANTWKKFWNITFPMIAPFFTINMVLAMKNFLMVFDQIVAMTGGG
+PGQSTESISLLIYRGGFQGGEFAYQSANAVIYFIVIVVISVIQIRILQKREVEM
+>tr|A6CJU4|A6CJU4_9BACI
+MQVEKAFGFFPVDYIFEIKNTLFSLLNWNDISYVAQGTNVERKIFPYILESYSYSLTLLF
+VSLLIALLFAVFLTTVTFYLPSKLQGAIRKLSHIAEALPDVFVIFSLQLGAVWVFKHTNL
+LVTEPYALSGQKIYFLPILTLSLIPMIYLYKNTLMMYENELGKPYVEFGVSKGIGKLQIL
+LRHVFPNVLLSFFYNLKYMYLLLISHMIILEYMYNIYGLLQFMTNHPSYEIITVGVLLLT
+LPISLVFFFIKLLLPKGVTYYDQAAV
+>tr|A6CU16|A6CU16_9BACI
+MLEFDTNLDSLATIKVIGVGGGGNNAVNRMIEHGVQGVEFIAVNTDAQALNLSKAEIKMQ
+IGGKLTRGLGAGANPEVGKKAAEESKEQIEEALKGADMVFVTAGMGGGTGTGAAPVIADI
+AREIGALTVGVVTRPFTFEGRKRSTQASGGIGAMKDAVDTLIVIPNDRLLEIVDKSTPML
+EAFREADNVLRQGVQGISDLIAVPGLINLDFADVKTIMSNKGSALMGIGAAAGENRATEA
+AKKAISSPLLETSIDGAQGVLMNITGGTNLSLYEVQEAADIVASASDQEVNMIFGSVINE
+DLKDEIVVTVIATGFNEEAVQPKQTRPSFGGMKPNTNNVSQQQAPTREPKREEPQQQEPS
+RTSGQGMEDTLDIPTFLRNRNRRR
+>tr|A6CJJ6|A6CJJ6_9BACI
+MIIKNEQELQSMKVIGRIVAFIRDEMKNAAKPGMTTKELDELGASLFEQHGAISAPKQEY
+DFPGFTCISVNEEVAHGIPGERIIQEGDLINIDVSGSKDGFYADTGISFVVGDGDEKLLD
+LCEAVKKSFDAGLKKIKAGAKLNGIGKAVHNEARKNGYTVIKNLTGHGVGKSLHEEPAHI
+MNYFDPWDNGLLADGMVIAFEPFVSTKAEEIVQESDGWTFVTEDKSSVAQIEHTIIVTKG
+EPIILTL
+>tr|A6CRY7|A6CRY7_9BACI
+MKIHIVQKGDTLWNISKKYGVNFEELKKMNAQLSNPDMIMPGMKIKVPTSGGMVKKEMAA
+KKEMPVKEMPKAEHPFAQKKPAAMPVQTPKEAMKPAAKKEMPVKEMPKKPYTPKMPQPVI
+PEIDINNYYMMNMANMQMHTQPQAMPKAPKAPKAPKAPKAPQMMPEAAKAPQKMPKAPTL
+PKPKEEPEAVAGVQDEESPQMDMPYPQQPMQDNCYPVSPVLPGSGLGPMQGGYPMQPGFP
+MQGGYPMQPGHPMQGGYPMQPGYPMGPAGQVQGASMMPQGLPGMQQMPMGYDEESSSFMP
+YMPQQQQMGAPMGSPMMGPMGSPSAVAGVQDEDDYPVAQMPMGGMQPQMGPYPGMMGPGM
+MGPDNCYPVSPVMPGTGFGDPGYGNPGMTSPAGYGNPGPGYGNPYGQMPQVQGAMMEESP
+GMYGAPMHQRGCGCGGPAPMGHYGPGMGQPGTPYGPGMMQPGAGYPGMYGPGAFGMPRFD
+DDNED
+>tr|A6CS94|A6CS94_9BACI
+MRLDKFLKVSRLIKRRTLAKEVADKGRISINGLQAKASSNVKVGDELQIRFGQKVVTAKV
+DRLQESTRKEEAGTMYTITSEERVPEE
+>tr|A6CT16|A6CT16_9BACI
+AMVPSELIKNKAYFTILKRYSHEKRSFSMNTYDKGPAFVVSIPPKWENVTAEALMRDIWQ
+APKKTVHQLRMDKAIILDGQPLNWTTPLKKGDKLHFSLTEKEYGVIPAEMPLHILYEDAH
+MMIVNKPAGMNTHPNNPSLEKDTLANAVAWHLQQKGEKVDVQHIHRLDKDTTGAVVFAKH
+ALVKGILDRLLAERKIKRTYWAIVHGLITNKKGTITKAIGRDRHHNTRRRVSPSGQPATT
+HFQLLEQNKPKNLSLVQLVLDTGRTHQIRVHMSSIGHPLAGDTLYGGKPIVSRQALHAKY
+IEFDHPLTEERLAFEAPFLDEPPLFSAFFKKEGE
+>tr|A6CTL0|A6CTL0_9BACI
+MMNNDEWNLVEALRHARHDWMNRLQLIKGNMDLGRIDRARQIIEEIVAEAQNESKLSNLR
+LPKFSEWMLTYNWQTHFIKLEFEVLQAEKHTIVDDRLYDWFSGFFSVLENSVKPYEENNM
+VVTIKICQEEARF
+>tr|A6CU66|A6CU66_9BACI
+AALVVVKDTFKAMAQLVNKYYDYPSLKMNVIGVTGTNGKTTVTNLIHSILRNDGQRSALS
+GTIGFDLDGELFPSENTTCDVMTNQEMIQKALDRDIENMVLEVSSHGLSLGRLWGVDFDV
+VTFTNLSHDHLDYHQTMEHYGYAKGLLFSQLGQNLANPKYAVLNSDDEWYERYSTMTAHE
+VISYGLETYADFKAENIQYYNDLTTFTLQSPEGVFEVESKLLGKFNVYNILAAMATLFAK
+GMSVEKLVTIIKDLPPVSGRMEKVHSDAPLSMYIDYAHTPDAIENAIQSVLPFKENKIIF
+LVGTGGNRDKSKRPSMAEKASIADYVVLTTDDPRYESYDSIVNDLGKGMRHGNYALIGDR
+EEAVKHAVDVSEPGDIIIFAGKGHEDYQIIENTKYPHSDKEIAIQRCKEKYGV
+>tr|A6CP67|A6CP67_9BACI
+MIELPSKLEGQHFQLYKLEQQLKPLGYSIGGNWDYDHGYFDYKIDDKVGYQFLRLPFAAV
+DGQLDSYGATVEFGRPFLLSHKYQRGLDDHASTGTFSGTTNQFSEPQDADASFPEEYVSI
+GVELVKELEDQLLR
+>tr|A6CI70|A6CI70_9BACI
+MRREHKDVNGSFFEWDLDNGDIFFENDEVVLFWVKTAFKTLFDSIEEIAGDKEAQLVLET
+AGYRTGKIVSNFYSNTIGDPQDILKKLPNTYLTAGWGKTDIVSVSFEEKTAKIHVRNGWE
+YKVNVAQKKQDEGTFLPGHWAGVFSGLFNNNVWYKVTKSQVKGEEYSEYEFFPSSVTPSL
+NVKTMIQEQKEAAQAELEKVTRERTNSLSEIIKEISSPIIPVMDSILVVPLIGRYDELRA
+EELLDRTLLNLPRYKATHLIADLTSLKGVNDYTLDFIDKFVKATSILGTKCILVGISSEL
+SIQITQRGHRIDKVPCLSTLQKGVMHALDELGLELTKK
+>tr|A6CQQ7|A6CQQ7_9BACI
+MELNFQKELAMTQNENLYKALLENKDSLADKWLTFREKRPNSIYSVDADEKYEKLLREQN
+ALTTETVASSLLEDKEEYHQKLEQWATLVAKSRAEVGTPIYEVLEAVHQYRSVVMDFLET
+YVGEKEEEVTKQHLMNWNYSIHSAFDLLIQEFSKMYYSITRDRMKAQHELIAELGAPVIP
+IGNTVAVLPLIGDIDTERAVRIMETVPARCMEKQVDKLCIDLSGVPIVDTMVAQQIYSII
+QTLSLLGIQTALSGIRPEVAMTSVQLGIDLKEINTYNTLEQALQKIGK
+>tr|A6CMW4|A6CMW4_9BACI
+MILFCISVPFCYNNGDIDGGGSRIMESRIDRIKKQLSSASYKLTPQREATVRVLLENEED
+HLSAEDVYLLVKEKSPEIGLATVYRTLELLTELKIVDKINFGDGVSRYDLRQEGAAHFHH
+HLVCIECGAVDEIQEDLLEDVEAIVERDWKFKIKDHRLTFHGICYRCQEKTEDGNENE
+>tr|A6CSV8|A6CSV8_9BACI
+MKLRKLNDNCYYLSGAVNVGYIVKDGAGLLIDTGIDDSTIKKVLKALEQENLPLNYCIVT
+HAHTDHFGGASYLREKRGIKLLAPKLEKALMENPVMEPVYLWNGAFPLKELRNKFLEGKP
+VEIDEILPAGKQEIGPFQLEILHLPGHSIGQAGILYERVLFAADAYFGGEALSKHIVPFI
+VDAEKTIDTLEKVKEMPLAGAVPGHGEFEDDITGTLEANLEVHKKLMKQISQIVETHNDK
+LSFDELLKKFLDGNRIQSGTLGQFLLYRTSFTAYITKLINDGLLKVDVEGNQVFISH
+>tr|A6CQ25|A6CQ25_9BACI
+MKFFIDTANMDEIREAFEWGILSGVTTNPSLVAKEEGVSFHQRLKEIADLVSGSVSGEVI
+ALDAEGMIKEGRELAAIAPNITVKVPMTPEGLKAVSVYSKEGIKTNVTLVFSANQALLAA
+RAGATYVSPFLGRLDDIGHDGMELIEKIAEIFAIHGIETEIIAASIRHPQHITDAALRGA
+HIATTPFKVLSQLFKHPLTDKGIQAFLDDWNKRAGQ
+>tr|A6CHD2|A6CHD2_9BACI
+MEHLEPRKKILIMLAIMSAMLFAALNQTIVGTALPTIISDLGGIEYYSWVFTIFMLTSSV
+TAILVGKLSDMYGRKPFILIGIGVFTLGSFLNGLSGSIIELIAYRGIQGFGAGMIMSTSF
+TAVGDLFAPRERGRWQGLMSGIFGLASVFGPTLGGWIVDNAEWHWVFWVFLPFGLLAFIM
+IWKLFPSQQVQEKKKVDYLGSLMLSLTIIPMLLAFTWGGNDFEWASFQIIGLFVLTGASL
+IFFIVTEKKAANPVLPLHLFKNDIFTLSNIIGFILGAGMFGAIMYMPFFIQGVIGTSATK
+SGFVMMPMTLSMVFASAIGGQLITKTGKYKLIALLGLFIMASGLASLSMMDSNTTNTTAV
+INMIIVGTGLGLSFPVFTLTVQNAVQHQYLGVSTAATQLFRQIGGTVGVAVMGTVMNNSM
+SSKMNEEMSKLKENTDLEALPPETAAQLQALQSPQSLMNGEKLQEIQASLPPEMQAVFGK
+MMDIVRDSLSYSLTNVFLIGAIIMSAGFLLTFFLREIPLRKTNKDEPKAEYKKAEPVSE
+>tr|A6CLD5|A6CLD5_9BACI
+MRIGVPAEIKNNENRVAMTPAGVVNLTQFGHEVYIESGAGLGSGFTDEDYTAAGGHIVES
+ASEAWSMDMVMKVKEPLPSEYQYFREGLILFTYLHLAPEPELTKALIENKVVGIAYETVE
+MNRTLPLLTPMSEVAGRMSTQLGAQFLEKIHGGKGVLLSGVPGVSRSRVTIIGGGVAGTN
+AAKIAVGMGAQVTILDLSPERLRQLDDIFGSDVQTLMSNPLNIEKAVAESDLVIGAVLIP
+GAKAPKLVTEDMIKSMMPGSVVVDIAIDQGGIFETTDRITTHDDPTYVKHGVVHYAVANM
+PGAVPRTSTIALTNVTVPYAIQIANKGYKAACLENEALLKGINTLNGYVTYKAVAEAHDL
+DYSDTKTLLDQI
+>tr|A6CLZ5|A6CLZ5_9BACI
+MAFSEYQLMSVLAQEMNMRKAAERLFVSQPALSQRLQNIEKEWGTKLFLRSQKGLSLTPA
+GELVVKLSQEMLQKEEKVKEEIQALQSQVHGTLKIACASIVGQNWLPQVLKKFVDTYPHA
+KISLITGWSSEILEALYEDEVHIGIIRGTADWKGPKYHLFTDRLYLVDREIQKVEEVLKT
+DRPFIQFKSDSNYYQEIQDWWHRQFQSVPKRTIVVDQIETCKQMTFNGIGYAILPAITLN
+GAEENLYKIPLMDEKKGSIHRDTWLLGYDSAFQLKQVKAFVEIVEEFIEENSNSIL
+>tr|A6CNC6|A6CNC6_9BACI
+MRFVIDAGHGFSTPGKRSPAGMKEYEFNRAAAQFVKEVLLTYENTEVFFTHSDQEDVSLK
+QRTDFANSMNADAFISIHANAFGSGWNEARGVETYVHKTKPPAAVRLASAIQNSLAAKTG
+LVNRGVKAADFHVLRETKMTSVLVECGFMTNKKEAELLKSPQYRKTCGQAIALALADFFK
+LTKKPDENSLYKVQAGAFSKKENAEALVTRLKKAGFESFISCD
+>tr|A6CPY2|A6CPY2_9BACI
+MRIFRVLNNNAVVVIDGPQEKIVMGSGIAFQKKRNDIVPKDKIEKIFVLRESSSEKFQQL
+LSTLPESYVEVAEDIIS
+>tr|A6CJX5|A6CJX5_9BACI
+MNKSSFSTDDAFFEYIFHHYSDDVLRLVFTYVKKKDIAEDLVQEIFIKCYKNMDKFQEKS
+SIKTWIFSITINQCKDYLKSAYYKYIYLSDKISAIAKGGTKTPEELFMEEYGKHRLTTEI
+LNLSLKYREVISLYYFQELKIKEIANVLAINENTVKSRLARAKELLKKNFEERGYKDGEN
+FERASERISNQ
+>tr|A6CJY1|A6CJY1_9BACI
+MISASVFVLLKYSILFRNSKAVGMNSVAASAVIWFVITLLTVEHGLHKQILLQDTWYIII
+CLFLFTILAFSLVFYNLKNIEQAKNSLGYFISSSISGVFLIAIQCNFYLEITGFDTYIFN
+NTLLFAVLHTVITLFLLTRVLQQIRFDQLHAPEKVRNASLLVISLICGHSLFGSLLTVTE
+AFGITVNHDLFNVEYISAILLFFITVAKGERQYLDERETLNYMAYHDSLTGLKNRSFIQE
+ALAKKTAESQAFHLLLLDLDYFKHINDTHGHFIGDEVLKQVAEFIKSKLAENDIAGRLGG
+DEFVILYHNENRTYTVEEFCLSILDYFSQPLVIDGRQMTVTPSIGVSAFPENAQTPGDLL
+VKADISLYKTKGDGRNSFTIFNEQLEKRFNQEITLQGDLSKALLNQEFEVHYQPMVSLKE
+KKVIGFEALLRWNHPEKGMISPGEFIHIAEETGLIVPIGEWVVKEACQQVHEWNRMLDKS
+YSISINLSLKQFSKKDIYEVLTGIIEDSGMSPSLVTIEITESMAMTNTEHTLLTLKKFKE
+NGYGISIDDFGTGYSSLSYLKDFSIKTIKIDRSFIKSVNDSGKDDAIVKAILSIAGNLGL
+EVVAEGVELPHQEHFLLSQHCNYAQGYHYSKPLNSRDLLSYLEKKSMEYTIEPALT
+>tr|A6CHD0|A6CHD0_9BACI
+MKKDVYLLSGFLGSGKTTLLKNLITALKDKNLKPAVLMNELGSISIDSQEVEEGTPLKEL
+LDGCICCSIQDKLESQLQELLFQDEFDVLVIETTGAAHPVEVVDAVMSPLFADRFNFKGI
+ITVVDGKQWVSRGAYSPQVLQLMREQIRHAHLLVFNKEDLLSEMEKGTSLFEIQQINPKA
+KLIMTNYSKVSSSDLLNLEGKQMSGEREKSAIGHQLNLRAYVHRFTDSISQTDFEEWLRN
+LPDSIYRMKGYIPFSGRRYPFMFQYSYGMPLLLPEDMNLPKTLVIIGEDLDENKLKTELQ
+ELERSEMQS
+>tr|A6CTD3|A6CTD3_9BACI
+MAKKSKVAKERKRQEIVERYAELRRELKEKGDYEALKKLPRDSSPTRLKNRCEVTGRPRG
+YLRKFKMSRIAFRELAHKGQIPGVKKSSW
+>tr|A6CL13|A6CL13_9BACI
+MKKTSKILAPALALGMIAGGGAASAAGTSVTVEKGDTLWGIAQNHDNVSVNNLYDWNPGL
+DARSLEIGSEIMLHDKPEYPNETFHTVTPGETLWSIANLHAGLTLEELYELNPEVDPYSL
+VIGSDVKVSPSSREVFHTVKPDETLWSISNLHANLTLDDLYDLNPDIDPRSLAIGSEVRV
+R
+>tr|A6CHY2|A6CHY2_9BACI
+MNESGIEMWITFGREYNEDPIIHTFFPSAIDSSRRLTIFIFCSDGEGGVDRFVLHPNPAF
+QPFYQNVWDSGKETQWECAVRIIREKKPAEIGVNRGGLHAASDGLTVSLFNKLEKAAEGE
+KCSFVSAESLAVDWLQTRSTLEMAAYPHICELAREIGQEALSNKVIHPGITSTGEVVDWI
+RQQVLDLGLQTSFYPTVDIQRQGCVEDRLEDTIILPGDIVHLDFGIHYLGLATDTQQLAY
+VLKKGENEPPEGLSRAFENALRFADIVTGFIETGKSGNDVFVNSIKAAEEGNLRAMLYSH
+PLGTHCHGAGPYIGLYDKQEEIPGRGELLIQDNTCYALEFNVRTYIPEWNQYIPIYLEEP
+ISFSGGKVHYMAKRQKGFYLIR
+>tr|A6CNQ7|A6CNQ7_9BACI
+MKPLKSCCSKEYEEYIHEYLDEEISQDHESKLKEHLQRCEECQQFFHEMKKSIALVQSTS
+HIQAPEDFTSKVMANLPREKKKVGVQRWLRHHPLMTAASLFIVLMMGSLFSSWNESDEFS
+FTKQPDLVVQGHTVIIPEGKVIDGNITVKNGDVKVEGTVNGDITVINGNQYLASAGSVTG
+EIKEIDAAFEWLWYQIKKGFKETISWFEEQPEGI
+>tr|A6CPN1|A6CPN1_9BACI
+MENIGDLWNKALSNIEKKISKPSFDTWLKSTKAHSIQGDTLVITAPNEFARDWLEGRYSQ
+LISDVLLEITGEELIVKFIIPQNQEPEEFDIPVPPKKVVDNDDGQEFQQNMLNPKYMFDT
+FVIGSGNRFAHAASLAVAEAPAKAYNPLFIYGGVGLGKTHLMHAIGHYVLEHNPAAKVVY
+LSSEKFTNEFINSIRDNKAVDFRNKYRNVDVLLIDDIQFLAGKEQTQEEFFHTFNTLHEE
+SKQIVISSDRPPKEIPTLEDRLRSRFEWGLITDITPPDLETRIAILRKKAKAEGLDIPNE
+AMLYIANQIDSNIRELEGALIRVVAYSSLINKDINADLAAEALKDIIPSSKPKVITIADI
+QRVVGEQFNVRMEDFKAKKRTKSIAFPRQIAMYLSREMTDFSLPKIGEEFGGRDHTTVIH
+AHEKISKMLGSDSTFQHQLKEIRDLLKN
+>tr|A6CNR5|A6CNR5_9BACI
+MVLPNIGAFIAWGLITALFIPTGFFPNESLSNLVGPMVTYLLPLLIGYTGGKLIHDQRGG
+VVGAIATMGVIVGAPDTPMFLGAMVAGPLGGYVIKKFDEMIEGKIRSGFEMLVNNFSAGI
+LGGILAVLAYLGIGPAVDAFTEVLVAGVDWLIAAGLLPLTSILIEPAKILFLNNAINHGV
+LSPIGLDQASETGKSILFLLEANPGPGLGVLLAFMLFGRGTAKQSASGAGIIHFFGGIHE
+IYFPYVLMKPMLFLSVILGGMSGVFTLTLLGGGLQAPASPGSIIAITAVTPNDGMVYLAN
+FAAVLVAAVVSFLVSAVVLKTSKTNDEDINEATKKMEQMKGKKSSVAGHVSGSQGTLPQE
+VNKIVFACDAGMGSSAMGASLLRKKVKEAGLDVFVTNTAISNIPADAQVVITQEELTPRA
+QNKQPGAYHISVDNFLSSPEYDKLIASLQDGITGEQAELVEESEQEAVDTEPNMDKDDDL
+LLEENIFVGKEFANKEEAIRFAGEALVKAGYVKDSYVDAMIEREGITTTYMGNNVAIPHG
+TEEAKKAVLKSGFTVIQVPNGVDFNGEQAKLIFGIAGKDGTHLEILSGIAVICSEQENVD
+QMVQAKTAKELKDLINSK
+>tr|A6CRZ5|A6CRZ5_9BACI
+MKVEDFDFHLPEELIAQTPLEKRSESRLMAIDRESGNLQHKKFKDITDFLKEGDCLVLND
+TRVLPARLFGVKEETGAKIEVLLLKQEEGDKWETLIKPAKRVKVGTKISFGEGKLTALCT
+GEKDQGGRILEFHYEGIFYEVLDELGEMPLPPYISEKLDDQDRYQTVFARERGSAAAPTA
+GLHFTEELLDEIRSRGVHVAFITLHVGLGTFRPVSVDSIEEHDMHSEFYQITEGTARLLN
+EVKESGGRIITVGTTSTRTLETIASKHDGKFVEESGWTDIFIYPGYEFKAIDGLVTNFHL
+PKSTLIMLVSAFTSRDIILNAYKTAVEEKYRFFSFGDSMLIL
+>tr|A6CLT3|A6CLT3_9BACI
+MFLLKEQRTQWSPELFKDFHNGAHDACGIVASIEKNKIPARENIDRCIEALITMDHRAGF
+INGEGDGAGIHIDIPRAVWSEKLEAASIDSSLALSPRFTIGHFFIKGIPVNQGTQEIVDK
+LEKQGFQVLLTDLDSTRPDTLGPIAAQENPHFLQAALLAPENQEKTKTYKQLFELLASIE
+ENSAIHVASLSPDHAVYKVMGAGASLPKYYKDLTNPKVASTMTLGHNRYSTNTLSNFFRV
+QPFSVIGHNGEINTISKLRAEAKKIDVPLVENGSDSQDLNRTIETLIGRDGYSLFEAMEL
+VFPPIINEIKQYPGHLQDLYTYLRETWGHFAQGPAGIISRFGEEAVFSVDSLGLRPLWLM
+EIESAYVFASEPGVIKSSEFTGDPKPLSPGEKVGFAWENDRITKYEYKEFQSEIYSRFES
+RIDFKGYKSRLETLNLPKHIMMSYPTSIENGQYNAFGWEREQVQLVEQMAEKGAEPIRSL
+GHDAPLAAINPNRKNVTDFIKESVAVVTNPAIDRDRETEHFSTRTIIGKRPHHNSKTEKH
+LAVELLTPLVIEGKAGWMASETLQQPSYDGLVHLFQQENLCHFISTTFTESETIQEALTR
+LADEAQEAVSSGKSLLVLDDGNSHHDGNLWLDPHLVLAAIDQRLTDVSLRRDCSLLIRSA
+AIRSLHDVIVAYGFGADVISPYYMFLTVLEEESNEPVLNLYTSLQKGLEKVISTIGIHEL
+RGYGRLFSAIGLSDEVAETLNIVNFFGSASLAFNYEEMKKDAIQRAADYFDEKQRIAKSF
+HLFPRIWKAIGDVARTGDYSGYREKITEQEETKPVTIRHLTSLKKSEKTIDPSKVDISVG
+EHSLPFAIASMSFGSQNEIAFRAYAEAADRLNMVSLNGEGGEIKDMIGKYPKTRGQQVAS
+GRFGVNAELLNSSNLLEIKIGQGAKPGEGGHLPGSKVTAKIAQARNATIGSDLISPSNNH
+DIYSIEDLAQMIHELKTANDQAKVAVKVPVVPNIGTIAVGIAKAGADIVTLSGFDGGTGA
+ARIHALQHVGLPVEIGVKAAHNALLEAGLRDTVEIWADGGIKSMQDVMKVMLLGANRIGF
+GTLSMIAIGCTTCRGCHLDTCHVGIATQIESEAQAKDHGLRRFVPRQLDLAVSGLTNLFT
+AFGEELKALAASIGVQRLQDAVGRSDLLEQVSGKDSMNLSTLLQPLEIGQFHKEAAASLE
+QPNMLQAVAGEYLDSSVDELHLSREFSGVISNQRVLGSRASGHRVRSKLQNLSSELQPVQ
+LSYKDCSIPGNGLGAYNVDGINITVSGGAQDGLGKSSYGGTITVTKGRTKNNHFFNGSAG
+KGFGYGAQQGLLMVQGNADARAGIRLSGADMVIGGLITKPIPAKEYGNIGANANIKGFAF
+EYMTNGRGLVLGDPGPWICAGMTGGVVYLRHQPEMGLTQEALNRRIAKGAKVQLQPLNDQ
+GLEDVTELLTNYINVLENEQPEEAESLRKLLASPGDHFLQVIPSKEQADPSVSTE
+>tr|A6CNG1|A6CNG1_9BACI
+METPQYLTIQALTKYIKRKFDKDPHLSGIYLKGEISNFKRHSSGHMYFTLKDEKARILAV
+MFSSANASMKFNPENGMKVLVRGDISVYEAGGQYQIYVKEMQPDGIGDLFLAYQQLKEKL
+EKQGLFNDGRKRPLPKFPRKIGVITSPTGAAVRDIITTIERRYPIAEILVYPALVQGERA
+SKSVADCIKKANDNKGIDVLIVGRGGGSIEELWAFNEERVALAISESSIPVISAVGHETD
+FTIADFAADMRAPTPTAAAELAVPHIDDLLERVLSRKVMLIRGMKARLNTEKSRLKSVSS
+SIVFRNPRRLYEQKIEAVDRLTEKLNRTQHLRMQTQRDKLAHLNSSLRRVHPGRLWEQKN
+EEYLRMEKHLQVQFLNILKQKQSDFSKTISTLEALSPLKVMDRGYSLVYSQDEKLVKTKE
+VVKEGEKVTVHLQDGKLHCRIDSIEESES
+>tr|A6CIR7|A6CIR7_9BACI
+MDKWEMYMEIQQLLNKGFSKSKVADKLGVSRATVYRHLKKSPSERAQWVESLQTRKKKLD
+PHKELILSWLRKHPDLSGAQVEDWLMERYKELEIGESTVRAYVRELRVEYKIAKESSPRD
+YEAIPDSPMGEQIQVDFGHTKQKTSDYKDVKLNFIAFVLSNSRYKYKEWLDRPFTTQDVI
+QAHENAFQWFGGIPGELVYDQDSLIVVSENGGDLILTKEFQHYKQTRKLNLRVCRKADPE
+SKGKIENVVGFIKYNFAKYRVFNNIDSWNEQGWEWLNRTGNKKIHNTTKKRPVEVFSLEK
+QHLRPVTGNINFLNNHENSITRSVHKDNTIRYLSNRYSLPLGTFYKHETVSIKETKDREL
+LVYHSETGELLAKHQIPDGKGQLIKDRKHTRDRSKGIDAFIDTVANRFEETETAYNYLEK
+LREKYPRYIRDQLQMILRETKQHNEHLLTAALSECIKRNLYSATDFSDIILYLKRQRQVH
+DTTNDKADTVSPLNSISGWIIETEAQKRNVDAYTVLLEEGDQS
+>tr|A6CLX7|A6CLX7_9BACI
+MSQLDNHQFVISKEDWSLHRKGYDDQQRHQEKVQDAIKNNLPDLISEENIIMSNGRDVVK
+IPIRSLDEYKIRYNHDKNKHVGQGQGDSQVGDVVARDGSQQKGPGKGQGAGDQAGEDYYE
+AEVSMMEIEEALFSQLELPNLKKKEQDIQTVENIEFNDIRKTGLMGNIDKKKTMMTAFKR
+NAISGKPSFHPIYQEDLKFRTWNEVLKPESKAVVLAMMDTSGSMGVWEKYMARSFFFWMT
+RFLRTKYETVEIEFIAHHTEAKVVSEEHFFSRGESGGTICSSAYRKALELIETKYQPTRY
+NIYPFHFSDGDNLTSDNVRCVKLVEELMKVSNMFGYGEVNQYNRHSTLMSAYKNIKDEQF
+RHFILKQKADVFHAMRSFFKKEENKMYA
+>tr|A6CRF1|A6CRF1_9BACI
+MAQLKRTPLFEVYKENGGKCIDFGGWELPVQFSSIKEEHEAVRTKAGLFDVSHMGEIEVK
+GSGSLEYLQKMMTNDISRIKDGGAQYTAMCYENGGTVDDLLVYKIEDNHYLLVVNAANIE
+KDYQWLQDHVDESVELNNLSGDYAQLAIQGPLAEQILQKLANETTLSDIGFFKFQNEVDL
+NGIKALVSRTGYTGEDGFEIYCPSESASSLWRDILKAGEQEGILPCGLGARDTLRFEANL
+ALYGQELSADITPIEAGIGFAVKVDKEADFLGKETLKSQKKEGSPRKLVGIEMLERGIPR
+HGYKVFLNNEEIGEVTTGTQSPTLKKNIGLALIKTEHSALDTELHVEIRNKKLKAKVVPT
+PFYKRPKK
+>tr|A6CIU6|A6CIU6_9BACI
+MEQLLMTPGSSGNEGKIRNYVAEKLKPLVDHITIDRAGNILAEKTCKGGHGPVILLNAHL
+DTVVEIESDREIIKDGNIWSSSNGILGADDRAGVAVLLHIAEYLNTPSSSFSGKVKFIFT
+VEEECGLVGARQVDDYFLWNTDAAIVVDRRGTGDIVTSCGGYIPFCHPAYGAFFEETAGE
+EGLYGWKTTLGGSSDTRIWASHGIQSVNLSVGYSHEHTDLESLDVEACYRTAKLIEGVFK
+RGRELKGVLRQIKREENINTIVNKVV
+>tr|A6CIW5|A6CIW5_9BACI
+MKRIWKVMTAAALALSLGACSTTASPEADVKNKSDLTLEQVFKNTVQADSELSSVHMDME
+INQVTHDEANEEGSMNMSTTSSTDLVMEPMTMYQTSTVNMQMDEMEGNEIPVAQVEMYLT
+EEEIYLKDNMQNEWTKLPNEMADLMKDSALQESSLPENQLKQFQPYLDQFTFKQDDDTFI
+LHLSLEGAQADEILEEGMGMMNEKLQASFDGMMEDISIANMELKMWIDKESFNTVKMELQ
+QNIEMKQNGETLTMDQTMKSEFSKFNEIQAIEVPAEVTESAVEMESPFGQ
+>tr|A6CQW6|A6CQW6_9BACI
+MFIDPLCPECWALEPILKKLHIQYGQYFRIKNVLSGKLTALNLTNKKKQENIANQWEKTA
+SRSGMSCDGNLWFENPIDSPHLASIAIKAAELQGRHAGIRFFRKLQENLFLGKQNVSNLE
+VLTDIADHSKLDLQEFKNDVHSESASKAFQCDLRITAEMDVDEIPTLVFFNENIEDEGIK
+VTGMYPFEVYVQILEEMLSIRPEPQPLPSLEYFLEYYQLVATKEISVVYDMSIDQVEKTM
+KKWMLQKKVEKIPAKHGTFWRYLSQ
+>tr|A6CJV5|A6CJV5_9BACI
+MEFFGMLMILIPVLIVAAIAGVGYFFWVRFRYRTAKSNQALIITGPRLGDPEKETNIFTD
+DEGRSMKIIRGGGYRLRRFQTSTPVNLTSFQLKLSTPRVYTNGGVPIVADAVAMVKVADS
+LNGIANYAEQFLGKDQDEIESEIIEVLGSNLRAILSKMTVEDINSDREKFNADVAEIAQK
+QLDLMGFKITSLGLTDLRDADEENGYLENLGRPRIAEVRKLAEIAEAENERETRIHRAQT
+DQQAKEEEYKRQISIAESKKEKDIKDAAFKEETERARAKSEQSYELEKAKLAKEVKEEEL
+TLKFLERERAVKLEEEESKVRKTKADAEYYETTRKAEAEARRAEIDGEAKAKIRREEGSA
+EADVIRERGKAEAEARKLLAEAMEKHGDVIITEKLIEMLPLFAEKIAQPLNNIDSVKIID
+SGNGNGIPSFGKSITKTMVDMQEPLKEMTGIDVGELLKSYASRGNTNRADHASGGQSHTV
+LAEPSASTEETPVEAKEKEKED
+>tr|A6CLQ8|A6CLQ8_9BACI
+MKAVISGGTGFVGSALTEELLDNGYKVSILTRNPDKHESRQNVSYIKWLTEGAHPEKELE
+GSNIFINLAGESINSGRWTEERKNRILKSRVDATREMIRILENLDEKPSVFINASAIGIY
+EASETKTHTGTDFLAETVKRWEFEASKAREFDIRTACTRFGIILGKGEGALPKMALPYKL
+FAGGTVGSGKQWMSWVHIGDVAKAIRFVIETSRIEGPVNVTAPSPVTMKELGKTLGDVLN
+RPHWIAAPAFAIKAAMGEMSKLVLEGQKVIPSILMENGYSFEYPDLKEALIEIYRH
+>tr|A6CHU9|A6CHU9_9BACI
+MAGISIGTISVPVSDILSILGAKIFRYPVPESVDQMYINIVYSIRLPRVILAFLVGASLA
+IAGAAFQGLLRNPLADPYTLGISSGASVGAVMTLFFHISIPILGNFTLPVLSIITATVTI
+FIVLLFAQKVERSMKLETIILTGIIFSSFLGSFISLMIALTGDELRQIIGWLLGSVSMRG
+WDYIKIILPFFTVGTILLLMNTRELNGMSFGEEQAQHIGINVQARKLVILLAGSILTGAA
+VAVSGTIGFVGLVIPHLIRLISGNDHRHLLPLSIMAGGGFLVLADLISRTIIAPTELPIG
+VITALIGAPIFAYILMKKRG
+>tr|A6CK36|A6CK36_9BACI
+MNKVGIDAGGSLTKVVFHEKGRRHYKTFPSRDINQMSQWIQWLSPSSEFYVTGGKAGLVK
+KILNNSTEISEFKAVCEGSAHLLAEEHARQGPFILANIGTGTSFFWVNQEKGEYRRLLGT
+GMGGGTIMGLGKILSGKVSFSEIISEAKSGNRENVDLLVKDLYEGEEPPIPGFLTAANFA
+GDLSGEETPNDSLRSMINMIAETIILLAARAAETEGIKTIVFTGGALSGNPLLKSDLSQF
+VDIMEYEPVFLENGAFAGAIGSLINS
+>tr|A6CNX6|A6CNX6_9BACI
+MNVKKITPRGYCYGVVDAMVIARNAALDKSLPRPIYILGMIVHNKHVTDAFEEEGIITLD
+GKNRKEILDQVNEGTVIFTAHGVSPEVKKLAKEKGLVTLDATCPDVTRTHDLIREKEAEG
+FDVIYIGKKGHPEPEGAVGVAPEIVHLVETMEDVQKLDIKNKKIIVTNQTTMSQWDVADV
+MEIVKEKYPHVEVHKEICLATQVRQEAVAEQAGEADVLIVVGDPKSNNSNRLAQVSEEVA
+GTKAYRIADISELEIDWIKDAELVAVTAGASTPTPIVKEVMNFIAQFDPENEETWTREKK
+VPLNKILPKVKKPKTAVE
+>tr|A6CL67|A6CL67_9BACI
+DEGYCFPQLNFLAPPVLKESSGEWLESQRNLLNDTLANFNVRASVVNVTEGPSVTRFEVQ
+PEPGVKVNKITNLADDIKLSLAARDIRIEAPIPGKHTIGIEVPNKQSRPVALSEIISSSS
+FQESSSPLTAALGLDISGEPIVTDLNKMPHGLIAGATGSGKSVCINSILISLLYKASPQD
+LKLLLIDPKMVELAPYNRMPHLVSPVITDVKAATAALKWAVEEMERRYELFAHTGVRDIG
+RYNLKAERNGEKSQKLPYLVIVIDELADLMMMSPADVEEAICRIAQKARACGIHLIIATQ
+RPSVDVITGLIKANVPTRVAFSVSSGVDSRTIIDSSGAEKLLGKGDMLFLENGSSKPVRL
+QGTFVSDDEIDEIVNHVREQGEPNYLFQQDELLKKAEVNEQEDDLFVEACEFVVDQGGAS
+TSLIQRHFRVGYNRAARLIDMMESHGIVSEAKGSKPRDVLISSRELEELQDTSTIN
+>tr|A6CKQ3|A6CKQ3_9BACI
+MIENITAFSKGMYTEGTSHGHKVIIDEPASMGGTDKGANPLATLLISLAGCENAIANFVA
+KEINFDLQGIDFEVSGDIDPRGMMGKRESARISRKSL
+>tr|A6CKK8|A6CKK8_9BACI
+MNSHEIEYQLYGDDMQFVEVELDPSESVIAEAGAMMMMEDGIEMETIFGDGSASGKSGFF
+GKLVGAGKRVLTGESLFMTVFTNQGMGKKHVSFAAPYPGKIISVDLSEMGGKVICQKDSF
+LCAAKGVSVGIDFQRKLGTGFFGGEGFIMQKLEGDGLAFLHAGGTIHRKELQPGEKLRVD
+TGCLVAMTREVDYNIEYVGKIKSAFFGGEGMFFATVQGPGTVWIQSLPFSRLADRVFASA
+PQGGGQSRGEGSLLGGLGDFLNGDD
+>tr|A6CRM2|A6CRM2_9BACI
+MKDCLYDITIVGAGVSGVFTAYQLLKENKDLNIHIIDVGKKLEDRICGLDTGGPCTCKGT
+CSKYIGFAGLGKSEGKFNYTNDFGGELGRKIGASQAMGLMKEVDDVLCSFGGDAVETYNT
+ENKELSAKAKRHSFRVLSTEVRHLGTKLANEVFQRMYEFLRRKKVTFSFETLIDSVTKTR
+EGFLLMSEDKIFRTKELVMATGMSGSEWLKQQTESLGLSPSETRLDLGLRVEMKGNQLQA
+ILKDTFETKLTYLGESYTATTYCMNPEGRIIRKHQHGLVMPDGQNVREKDTPSANLNFTL
+FVPQYFRSYGEAQEHARSVIGKINRGADRIVVQRLEDFKLHRKTKDLEKNTILPSLEADC
+GNITEEVPELYTHALLEMLSALEGLLGEKIHEDTLLYGIDAKFYEPKISTNPYFETEISN
+LFLIGDCSGETHSLSQAAASGIWLGKHLAGKYSGVVNLG
+>tr|A6CSC7|A6CSC7_9BACI
+MMDILQSSLLPMVKGALYYSIPLTLISFACGMILAITTALARLSGSKILRGIARVYVSAI
+RGTPLLVQLFIIFFGLGNLGIEALKFDPFPSAVIAFSLNVGAYASEIVRAAIQSIPKGQW
+EAGYSIGMTYGQNLKRVILPQAARVSVPPLSNSFISLVKDTSLASLILVTELFRKAQEIA
+ATTYEFLLLYIEAAFLYWVMCFILTLIQDRLESRLDRNIAK
+>tr|A6CHN6|A6CHN6_9BACI
+MKSHFLITINAVIEFVFGGTTMEQKKKWDLFALSSIPLVMTLGNSMLIPVLPTMEKKLGI
+SGFQSSMIITVYSLVAILLIPIAGYLSDRFGRKKIIIPSLIIAGIGGIISGWASWMMNDA
+YWVVLIGRFVQGIGAAGAFPVVIPTVGDMFEDESEVTKGLGLIETSNTFGKVLSPVLGSL
+LAAWIWFIPFFSIPLFSLIAIGLVFFLVKVPRKEKSDDKGQSVKEFMKEIKEILAKEGKW
+LSAIFLIGIVSMFILFGFLFFLSNVLESKYKINGVLKGLYLAMPLLFLCATSYLTGKFIG
+KNRSMMKWAVVSGMLLGAGAQVPIFFTDGKWMLLIFLSLASIGIGAALPCLDALITEGIE
+KEHRGTITSIYSSMRFIGVAAGPPIVALLSKGVTFMILIGVSAVSAFVALWLIKPEPEKS
+GKMQPKVT
+>tr|A6CT11|A6CT11_9BACI
+MNRRGGDMWKEFKEFISRGNVFDLAVAVMIGAAFSKIVESLVKDMIMPVIGILFGGVNFA
+GLSYRIRAEVIYYGVFIQTLVDFFLVAGSIFLMIKIFNRLRGKGKSYEIKSSTQLEVLLE
+IRDLLKKMQKDKEVDHPPIQGRRTSIRFKKRD
+>tr|A6CRU8|A6CRU8_9BACI
+MERKEVEIIVYGAEKVCASCVNLPTSKETYDWLDAAITRKFPEQPFTIRYVDIFDPPEEE
+ELQEFASRVIEEDMFYPVVSIFGKVVGEGNPKLKTVFSELEKYGYQAG
+>tr|A6CQ47|A6CQ47_9BACI
+MNIAEQVQDKLRTEIKSAVLKAGLATEDQLPDVILETPKEKSHGDYSTNMAMQLARVAKK
+APRMIADDIAANIDKEAASIEKIDIAGPGFINFFMRNEYLTELVANILEAGDEYGRSDAG
+KGERINVEFVSANPTGDLHLGHARGASVGDSLCNVLDKAGYKVTREYYINDAGNQIHNLA
+LSVEARYFQALGHDKAVPEDGYQGADIIGIGQKLADEFGDKYIEASEEERYKFFREYGLK
+FEMEKLKKDLEDFRVPFNVWYSETSLYENGKIDDALKALKDNNHIYEEDGATWFRSTELG
+DDKDRVLIKNDGTYTYLTPDISYHRDKFERGHDILINIWGADHHGYIPRMKAAIEALGYD
+REKLEVEVIQLVHLFKNGEKMKMSKRTGKAVTMRDLVEEVGLDAVRYFFAMRSADTHMDF
+DLDLAVSQSNENPVYYAQYAHARICSILRQAAEQGINFEEGTDYSLLKAEKTIELLKKLG
+DFPGVVADAAAKRTPHRVANYINELASTFHSFYNAEKVLDMENMELTKARLSLIKAVRLT
+MKNALKLIGVSAPEKM
+>tr|A6CRF6|A6CRF6_9BACI
+MSDRTKTRNLQRGLLYGLAFILLWEWLRPLDDITDTGNLGYFVGFILLSITLYYLNLNKF
+LSFSIKVFFIVYSLYHLYADDTFLNPIAAMITDLWDNIGLTIGREWSLLSDMYRSLLFFI
+LLWLMTYLIHYWLSVRKTMLLFYIMTVIYISLLDTFTAFDAKGAIIRIIVLGFLLLGMLA
+LLRLKDQESLRATKFATGRWMVPLVIMIGTSSVLAFAAPKIDPVWPDPVPHLKALAGQNE
+TGGGGSKLGYGQDDSRLGGPFYGDPKTVFTADVVREHYWRIESKDLYTGKGWERTGTEEA
+DKKLPFNPGEEIPIKITEHDPDKEPDTETLKVKEQYSHIVHPYGINTVQGNEDGYFSINT
+ETAKISSLQGEEEVKLEEYTVEYTNPVYSLKGLESTSADSFPETSELFLEKYTQLPETLP
+QRVKDLAETITADQENWYQKTKAIEEYFEKENFVYEQFDVPVPEEGQDYVDQFLFETQMG
+YCDNYSTAMVVLVRSLGIPARWAKGYTEGEYQRTIDTQYKTYRVTNNNAHSWVEVYFPGE
+GWVPFEPTVGFTGSSIVNYDYELPETEETVVPPIEQETPEKDLTPEDDSADSGSINFSIK
+ALWDDAVTFVEDNWGKILIAILLLAIIAFAAFMARRRWLPYFLIPYYKFKKDDDTFPQAY
+VSLLKQLGRYGLKMDDGQTLRSYSRYVDSFFGTREMTSLTNKYERSLYGQKLTEHDWKQL
+QELWENLIKRTTG
+>tr|A6CM04|A6CM04_9BACI
+MDPLEIVANIDQAFPYFQPVFSADEHTIMGYEILGRYKGEEGVVSLGPFFLDEDIPDEYR
+IEVDNHILTKALEKSLNENVSTYFFVNRDANLLMVDQGESLLELLLRFCAKGLKLEQIVL
+EISEKTFRGDFEQLFHLIHYYKTYGIKIAIDNIGGDSDQWERLAKVSPDILKVDLQHLRK
+EAGNTTFHNILYSLSMLARKIGSTLLFENIELDYQLHFAWKNGGRYYQGFYLQKPSAEFL
+EEDILREKLKNKCQNYIEHEKRHLKAVYNLTQLLQREIHEHINELKKQAKSLDSLLVSLA
+INVEDKFFRLYICDENGFQLTDNLVRNKKKWETLPDFRGKNWSWRPYFLENIMRMQNRNS
+GLLSDSYSDIETGETIRTFSYPLGEDQYLFMDLSYEFLYEQDGILY
+>tr|A6CPX2|A6CPX2_9BACI
+MNRKALVVTGLNENLYEMFPLITGKHPEEILIMSSFGAEISQPYGCSMRSLILAVTKEEI
+EEVYVVGEECSVEYEINQEELLMKLRNAGVRERTIQTINYIDAVRDDLLKWLTGHSSAKG
+AVLNSVKMIKRHPLIPLSLPVYGYTADIATGEFYPVIEKEQSIAGRVLKAN
+>tr|A6CQP4|A6CQP4_9BACI
+MDKIKVMIVDDHEMVRLGMKTYLLTEERIEFLGEASSGNEAVKLAKLYQPQIILMDLLME
+NGNGIEATQEILTFLPDCKIIILTSYYDDEKVFPAIEAGAHSYLLKTASADEVVSAVYKA
+VKGESVIAPKVADKMMNRFRPQERKLHEDLTTRELEVLKCLGEGMTNQEISDELFIGVKT
+TKTHVSNILSKLGVADRTQAAIYANRNGILMKSSGK
+>tr|A6CU73|A6CU73_9BACI
+MAITAQMVKELREKTGAGMMDCKKALQETGGDMDQAIDFLREKGIAKAAKKADRIAAEGT
+TYIQSEGNTAVILEVNAETDFVAKNENFQTVVKELSHHLLTNQPASAEEALDQKMENGST
+VGEFINSAIAKIGEKITLRRFAIRTKTDNDAFGEYLHMGGRIGVLTVVEGTTDADAAKDV
+AMHAAALNPKYVSRDQVSEEEVEREREVLTQQALNEGKPENIVAKMVEGRLGKFFEDVCI
+LDQPFVKNPDQKVRQFLESKGAVLTDFVRYEVGEGIEKRQENFADEVMSQVNKK
+>tr|A6CNG0|A6CNG0_9BACI
+MPAKLIDGKQIAKYFRDSITEEVKQLKKEGQVPGLAVVLVGENPASKTYVKMKRKTCEEM
+GIHSVLVEYNNKVSENELLEKIEQLNNDSSIHGILVQLPLPEGIETAKVIERISPDKDVD
+GFHPVNIGRMMIGEDSFLPCTPYGIMKMLQYEDINPAGKHAVVVGRSNIVGKPAGQLLLR
+ENATVTYCHSKTENLSDYTRNADILISAAGRAKFINGNDIKPGAVVIDVGMNRDEEGKLC
+GDIDFESARNTAGYITPVPGGVGPMTITMLMYNTVKAARRTFNNL
+>tr|A6CPR5|A6CPR5_9BACI
+MITEEENNMTTIIKNAKWLEESGTISIKDVKIVEKYIAEIGENLSEENAEIFDAEGLLLL
+PGFVDLHVHLREPGGEKKETIETGTKAAARGGFTTIAAMPNTRPVPDDVETLQWLNERIT
+ETGKVRVLPYASITERQLGKNLTDFPALKESGAFAFTDDGVGVQEAGKMYEAMKAAAAVN
+MVIVAHCEDNSLIYGGAVHEGKFSKENGFKGIPSICESVQIARDVLLAEAADCHYHVCHI
+STKESVRVVRDAKKAGIKVTAEVTPHHLLLTEDDIPGDDANYKMNPPLRSREDRDALIEG
+LLDGTIDFIATDHAPHTAEEKSEGIALAPFGIVGLETAFPLLYTNFVEKEIFTLNQLVDW
+MTKKPSQTFKLPYGTLEIGSLADITLVDLTETREINPETFLSKGRNTPFGGWVCKGWPKA
+TFAEGTLTWKEGEQ
+>tr|A6CN99|A6CN99_9BACI
+MPRFFLNKRLIILLVSIIVLVALIGYSVRERDNISWPEQFVGDIVGFGQSLVSKPVGAIA
+GFFENVKDLQNTYTENQKLKSRLEELVKLETMVKDLEKDNDELRQILDKQENLRDFDPIQ
+ATVIARNPSQWEDLLVIDKGKVQGVQANMAVITSQGLIGKVKSVKQFSSTIELLSNKNPN
+NRISALIQGDENVIGSIEGYDTDRDQLLVKRIPNDMKVEEGAKVITSGLGGVFPKGLPIG
+EVKEVVPDQYGLTQTAYVEPTADLYHLEHVIVVDRSKVSIDLEEPEEAEGEE
+>tr|A6CQA7|A6CQA7_9BACI
+MNLLSLDLQFFAGEKSEKATPKKRQDSRKKGQTAKSQDVNTAIILLAVFLFLTFSASYIG
+DVIFDLFRISFQDYMMMDLTQDSFMLIVMEVLQQVAILLGPIMLVALLAGLFSNYIQVGV
+MFTAEPLQPKLEKIDPIKGAKRIFSLRAIVELLKSILKIGFVGAITFVILWMNIDEVLGL
+SFKSAYDSLAAMASLTVQMGIAASLALLFLSVFDYLYQKYDFEKNIRMSKQDIKDEHKNA
+EGDPLIKSKIKQRQREMAMRRMMQEVPEADVVITNPTHYAIALKYDENKSDAPYVIAKGV
+DYMAQKIKYIAGEHDIIMVENRPLARSLYDSAEIGDTIPEEFFKAVAEILAYVYRMKNQL
+>tr|A6CM96|A6CM96_9BACI
+MYSEDYFFERGTIMQEFDFSMYDYERPKTNVIPFIPKEEREKIRKKRQGIKEMLAKYSKY
+RRVEK
+>tr|A6CLV7|A6CLV7_9BACI
+MRPSNKEDKYLKHLKGKTAIVTGASRSTGIGAAICLSLAKAGADVFFTHWAPFDETDGNG
+IEKDFPQELYEIIKGFGVRSSHMPLDLSLADAPVKLLNKVEEELGTANILVNNATYESPV
+SYRELNAEILDKHYQVNNSGTLMLSVEFARRYERKLFDKGCFRIDCCFRKNP
+>tr|A6CS21|A6CS21_9BACI
+MRKLSDDLLIESYYKAKDLKLNPDFIRLIETEIHRRSLSYRIRISS
+>tr|A6CMF9|A6CMF9_9BACI
+MDLKKNKALYLFVLPGLILYSVFFIYPTLSALFYSFTDWDGLTPDYNFVGVDNYINIFTN
+DSIFVKAFGNNLKFMLFVVIFQTAFSLLFALYLVKNTKTNIFLRALYFFPTILSSVSVAF
+IWSFVYDPNLGILNTLLERVNLEVLTHNWLGDQDIAIFSIAVVQVWMHTGQMLIIFVAGL
+QNIPNDLYEVAKIEGASRWQRFRFVTWPLVAPAATIVIAYTTIQSFKAFDLIFAMTRGGP
+NYSTEILATLIYSTAFRSFKFGYASAESVIFMIVIAIITIIQFKVLRSDKAAS
+>tr|A6CPR4|A6CPR4_9BACI
+MFGGNAGILVPFLGTGVPLWTQNTLTKEGQGVFYYLYSAYTGGQFMKHLLTMADLQPAEI
+EEILSTAEGFKNGEQWTPVTSRYIANLFFENSTRTKCSFEMAERKLGLQVIPFEIGTSSV
+SKGETLYDTVKTLEAIGIDAVVIRHEKDRYFDDLIDHVSIPILNGGDGCGNHPTQCLLDL
+LTIKEEFGSFQGLKVSIIGDITHSRVARSNAEALKKLGAEVYFSGPTEWFPQDLVESGQY
+LPVDEAVKTGDAVMLLRVQHERHESTSTLTKEEYHQQFGLTAERAAQMKEHGIIMHPAPV
+NRGVEIADVLVESKKSRIFRQMENGVFVRMAVLKRALDYRGGK
+>tr|A6CMB8|A6CMB8_9BACI
+MSPQNNIEQQHKQFLQNLKKEKKMVRLYQLLIFISFFSLWEAASRAKWIDPLIFSSPYKI
+WNLLMQKMGDGSLITHITITLGETVAGFILGTLMGTMLAALLWWSPFLSKVLDPYLVILN
+AMPKVALGPILIVALGPGLTSIIAMGAIISVIITSVNEKVIPKRT
+>tr|A6CNV5|A6CNV5_9BACI
+MKYVDVEQVQKQMGQRLFKNKLAKTIFLFSILFGLVVLVTLIYRVVSDSIGWIDMGFLSG
+KLSVNPEKAGILGAILGTVWLMLVVAPVTMFLGVGTAIYLEEYAKEGKLKSIIQTNISNL
+AGVPSVVFGILGLTVFVRMADLGNIVLAGGLTMSLLVLPIVVVASQEALRSVPQFLREAS
+YGMGATKWQTVKNIVLPTAIPGILTGVILALSRAIGETAPLVVIGIPALLIPLPDGVFDK
+FTVMPMQIYYWTVDSALTDEYAYLAAATIVVLLVVLFAMNSIAIVIRNKFQKRF
+>tr|A6CRC0|A6CRC0_9BACI
+MNRGVVTALLSIFAAQALKIPLHFLKTGKWKPMLFFQTGGMPSSHSAGVSSLTTFIALKR
+GFSTIDFALSFIFGLIVMYDAQGIRRQTGELTLKVNSLDELVRKAHEEESIPFEEKPKRL
+KEMLGHQPAEVIGGAIFGALIGGISFLLGKKDRQKRRFFVR
+>tr|A6CLU4|A6CLU4_9BACI
+MEEYKMEDILRPIYQERASHPNTLGVLMIDQRQKASPLTDTFDIVLLIIVKESESPVFIK
+HYSYENQKAALHIVNEEKLKEWMLLGTNRKIVEWLFNGKIIFDRNEYISNLKMELRDFPF
+YGRKIKIGLEFSKLIRRYLDGKAFFENKHYLDAYNHVVHSLHHLARLAVIENGFHPEVTV
+WNQVKQIEPEIFKLYEELINSEENLEKRLELLFLASEFLIHSRLKIGSEHLVSILTEKDQ
+WSFNELQEHEEVKPYSVDLSVLIEYLTEKNIIETVNVETKGQGLFHRYYRVQKKLY
+>tr|A6CRQ6|A6CRQ6_9BACI
+MRTFIGYILVFSLFPFFLFILFSSAQEINKVQGFHNALEEAVSEEQFDITKTSLITDKDG
+RIFSEMNRPFRLYAGHEEIPDFVKEILVASEDQHFYEHVGFDAGAIMRALVKNLVFTHIQ
+QGGSTITQQLARNLYLGQEKTYNRKLTELFYAHEIEESLSKDEIMELYLNIIYFSNGVYG
+IETASQYYFQKPLGELNKAELAFITAIPNNPKKYDPVDHFDQTKVRQERLLDIMQQTGKL
+TEQETAELKKAPIQLSVRKKTDLYPDYAVYAESELRELVAKQEGFLKKIEEAKNEEEKQK
+IYDAFDIRIGDLINSGIIIHTSLDRDMQEKSMKAFQTRLIYKGIEGASITIDNQSRQIIA
+MIGGTNYQKYNFHHAYQAFRQPGSSIKPLLVYGPYIEQTQASISERISADNYCIGNYCPI
+NYGGRQHGNVTMNTAFSQSYNTPALRLFEKVGIANAFAKLDPFDFEKVQEKDYTYAASIG
+GFTYGMSPLEMTDAYTSFIDGQYQPARAITKVTDYKGKILYEWNEPRETVWSQQTTEKVR
+TMLSNSMQNGTGKWAKVNKPYAGVKTGTTNFYNDYWVLGLTDRYTTGVWIGHDIPQNMEN
+IERDRPSHLIWRDIMR
+>tr|A6CNI5|A6CNI5_9BACI
+MGDSFRQEKPARKFRKKSQVLQPIEELITGVKSGNRRDLAKAITLIESNSQEHFQHGQAL
+LKELTPYTGNSIRVGITGVPGAGKSTFIETFGESLCRDGYKVAVLAVDPSSTVTGGSILG
+DKTRMENLSRNQNAFVRPSPSGGVLGGVHRKTRETMLLCEAAGYDIILVETVGVGQSEVI
+VRGMVDFFMLLVITGAGDELQGMKKGIMELADLIVVNKADGDNLPAARKTMREYNGILHF
+LQPATKGWETQALTCSALQGNGIQEIWNTVMRFEREAKESGVFEERRKSQTKEWLHSMIS
+DRVLNSFFHHPDIKSRFPEIESEVISGNKTASQAVDILMDLFSK
+>tr|A6CR54|A6CR54_9BACI
+MSDSNITNFNDRKKPEIQWRQYTKLGIFLVVTIAVLLLILLNVFVVKEGEYRVVRQFGEV
+VRIEEDPGLNYKIPFIQSVSTLPKYQMTYDVSEAEINTKDKKRMMIDNYAVWRIEDPKKM
+ISNARNVINAETRMEEFIYSVVRAELGKLNYAEVINDEKSARGSLNDRVTERVNELLDKG
+NYGISVTDIRMKRTDLPEANENSVYTRMISEREKTAQEYLSKGDAQKQRIMADTDREVTE
+LLAKAKADANVIRAEGESAAAKIYNESFSKDPEFYQLFRTLESYKKTIDGETVLVLPSDS
+SYAELLMGYTE
+>tr|A6CKT1|A6CKT1_9BACI
+MNQVVMSSSDLEKYCSDVLQKSLPKNESEIIAKSLVDADLLGVHSHGVSRLTDYLKRMEE
+GLIECKTEINLVNDSNTTALYDANNGWGQVVSNLAMEQAIEKALKHGTGFVGVKNSNHFG
+TASYYTRMAAEKGCIGIAMTNGSAIMVPFGSMEPSLGTNPLSISIPVGQGKDPVMLDMAT
+SNVARGKIILANKNNESIPEGWAITKDGKQTTDAKEALEGFVLPMGPKGSGLAIIIDILS
+GVLTGALFGADIPKMYGDPDPQRLGHFFGAINVDNFVGKEEFYKNMEKKVKETVESKPSE
+GFDRVFMPGEIELDRKKQREQDGVPLSKDIFKELEATGEKYGVNIAEYLKETSK
+>tr|A6CMZ4|A6CMZ4_9BACI
+MDQDVKVLIVDDEDRIRKLLRMYLERENYVIEEAEDGESALELALNNEYDCILLDLMMPG
+MDGIEVCKELRQKKSTPVIMLTAKGEEANRVQGFEVGTDDYIVKPFSPREVVLRVKALLR
+RSSKTSYIHTDTKAKDMIVYPHLTIDNDAHRVTADGKDVNLTPKEYELLYFLSKAPDKVF
+DREHLLKEVWHYDFFGDLRTVDTHVKRLREKLNKVSEQAAKMIVTVWGVGYKFEVNNE
+>tr|A6CSL4|A6CSL4_9BACI
+MKAKKPNWLITSLLIVGSLLILFPLYLTITISLKTPQELADSLWALPKEWRFENYLEAIE
+ITNFFNAFQNSFLITIVVVIFTILTNSMVAYAIARNLHKKFYKFLFYYFVSAMFVPFPII
+MLPIVKQTSSWGLDNIVGLMLLYIVYGLAFNIFVYVGYIKSIPKELEEAAIVDGASTWKV
+FWKVIFPLLTPMNATVGILTCLWAWNDFMLPLVILSDSDMATLPLVQYMFQGQFSTDYNL
+AFASYLMALAPMILVYIFAQKWIISGVTKGAIK
+>tr|A6CLT9|A6CLT9_9BACI
+MSPPVILGKLIVIKVTGGDYMVETGKQAPPFELEASNGETIKLSDYKGKNVVLYFYPKDM
+TPGCTTEACDFRDQHEQFEELDAVILGVSPDPKGKHEKFVEKHGLPFLLLVDEDHKVAEE
+YGVWKLKKNFGKEYMGIERSTFIIDKDGNIAKEWRKVRVKGHVEEALNYIKENLS
+>tr|A6CJW8|A6CJW8_9BACI
+MAAVAAIYPVFQSLNAEVLAISTDSVYAHKVFTEVSPSLSKVAYPLVSDRTHEISRSYRV
+LNEKTGAALRATIIIDPEGVIASRLVNPLEVGRNVYEILRLLQALQYSRETGELVPANWV
+PGNPGISRQSKLFGKI
+>tr|A6CLN8|A6CLN8_9BACI
+MEKSIQSIIHDVEKRRDQLVDLLETLIWFETPSPPARNTRDAQGFIASYLEERGFTIDKW
+DVYPGDPNVVGVKKGTSPEQHKSLIINGHIDVAEIDETESWTTGPFQPEVKHGYVIGRGA
+ADMKGGLAGALFAIGLLTEAGIELPGDLIFQSVIGEEVGEAGTLQCCERGYNADFAVVVD
+TSDLHIQGQGGVITGWITVKSPTTHHDATRRSMIHAGGGLNGASAIEKMMKIIQGLQDLE
+RHWAVTKRHRGFPPGSNTINPAFIEGGRHPAFIADECKLWITVHFYPDETYEDVAKEVEN
+HILEVSKADIWLRENPPAFRWGGTSMIEDKGEIFPSLEVDPGHPGVETLSNSHSTLFMED
+AVIDVSPTVTDGGWLGAAGIPTVIYGPGDLNNAHSVNEKVSINQLVNFTRVMVRFIYDWS
+ATKKEEE
+>tr|A6CUJ7|A6CUJ7_9BACI
+MINHERLLNEFLELVQIDSETKYEAEISKVLTKKFEDLGVEVFEDDTMEQTGHGAGNLVC
+TLQGTKESADTIYFTSHMDTVVPAVGVKPSVKDGYVYSDGTT
+>tr|A6CQ36|A6CQ36_9BACI
+MPVGAEWGASTFYTGEAEEAQRPPRGVAHLERKSTSHPISSNKVQNKGNFLFNGRKGSQR
+RSVNVNKKREVHASVKDERLVEKRRDEMVRGAVSLFKQKGFHRTTTREIAKAAGFSIGTL
+YEYIRTKEDVLYLVCDSIYEQVRSQLQAMDTEQGTLVSLKLGIDHYFRVMDNLQDEVLVM
+YQEAKSLTKDALPYVLEKELEMVGMFETLIKRCCENGELELDEDRIHLLAQNIFVQGQMW
+GFRRWALQKKYTLDQYIKIQTDLLFSGINGYLK
+>tr|A6CJ03|A6CJ03_9BACI
+MEYGTEGWELHWDLTPRPEDTIIQKTTPDSFLETDLEKELKKKRIKHLHFAGIQSEVCVD
+TTCRRAFSLGYEVTLISDAHSTWDWHQMNAQQIIDHHNNVLRCLRILMPPRKLDLV
+>tr|A6CQB4|A6CQB4_9BACI
+MSDSATTAADLKVIVFQLMEKEYAIPVSQVRSIEKVEHITRVPKAAPFVKGVINLRGVVT
+PVIDLRSRFSLPEEQHSDNTRVIIAGSNEMEVGLVVDAANDVLDIPAEAIESQPEVVGAV
+GADYISGVAKLEKRLLVLLDLEEVLN
+>tr|A6CT99|A6CT99_9BACI
+MQRGQIKEKLKQDQYDLIVIGGGITGAGIALDAASRGMKVALAEMQDFAAGTSSRSTKLV
+HGGLRYLKQFEVKMVAEVGKEREVVYENGPHVTTPEWMLLPIHKGGTFGKFSTSVGLRVY
+DYLAGVKKVERRNMLSASNTLGKEPLIKRKGLKGGGYYVEYRTDDARLTIEVMKKAVEHG
+TVALNYLKADRFIYESEKVKGIQARDVLTGEIFNIRSEKVVNASGPWVDEVRRKDYSINN
+KKLRHTKGVHIVVDQKKFPLKQAVYFDTRDGRMVFAIPREGKAYVGTTDTFFEGDTSNPK
+MTEEDRAYLIDCIHYMFPEVKVTENDVESSWAGIRPLIFEDGKDPSEISRKDEVWEGESG
+LVTIAGGKLTGYRKMAEHVVDLIAKRFKQEMKESFPASKTRHMPIAGGEVGGSAGFLSYV
+AEKSLEAEQFGLSVETGRELLQRYGSNAEELFKIAHSYKKTNSSSLEMPAEIFAMLLYSI
+NEEMTVTPLDFFMRRTGKLFFDIQWVKRWKKSVVEMMAALLDWKPELKRQYQTELDNAIK
+DAQVPVGK
+>tr|A6CLC1|A6CLC1_9BACI
+MEDHLSPLFKALSHPIRRRILDILKESPSTTGELNNHFPEVSRYAIMKHLTALQEGNLIL
+SRKKGKYRVNFLNAVPLQEMHNRWVGKYMEPAAASLLNLKAAAEETGGKDMQNKVFQIEQ
+ETLINAPREKVFKALTEKVESWWEFRLAPEGKTSTLTLNPVPGGQFLETWEKDAGAVWGN
+VYFVNAPKEIRIQGHLGMQGAVNSAYTYRLSEENGVTTLQLSHTASGLIEDEWEESHRKG
+WEHLLGNLLKNYVEGK
+>tr|A6CKN9|A6CKN9_9BACI
+MNMAHKEIIIKFPDGKEKNYPAGVSLAEIAQSISPSLKKRSAGGKVNGVLFDLNRRIEED
+ASIELLSLQSEEGVKMMRHSAAHILAQAVQRLYGNVQLGVGPVIDNGFYYDLDLEKSLSQ
+SDLVEIEKEMKNIISENHPISREELSRKEAESLFSSDPLKVELIEDIPEDETLSVYRQGE
+FVDLCRGPHLPSTGMVKAFKLTHVSGAYWRGDSNNKVLQRVYGVAFPSQEELDEYFLFLE
+EAQKRNHRKLGNELELFMFSEEAPGMPFYLNNGQKIRNELESFLRQIQNSFDYEEVRTPI
+MMNRKLWEQSGHWEHYKENMYFSEVDDQSFALKPMNCPGHMLIFKDKLHSYRDLPIRMAE
+FGQVHRHEFSGALNGMLRVRTFCQDDAHIFVTPDQIEEEITSALKLIDHVYRTFGFNYDI
+ELSTRPEDYMGEEALWDKAEGSLKNVLTKLGYSFSINEGDGAFYGPKIDIHIKDALKRSH
+QCATVQLDFQMPEKFELHYIDENNQKVRPVVIHRAVFGSIDRFLGILIEHFAGAFPVWLS
+PLQVSVIPVSKRHHGQYCEEIRSRLKEEGLRVECDLREEKLGYKIREAQMKKAPYILVVG
+DKEQESQTVNVRSYGEQNSQEEKLEEFIARVKQQIRDKSLSLAHSEY
+>tr|A6CK66|A6CK66_9BACI
+MLDMFRYNWKVRQDWFEWSRELPPEELTKERPGGMGSILATLFHVANGEQIWVNQMQGTP
+VIMKEGVSSLEEAMEFTNLTQPITEQFLQSWDKEKASQTLTKKHRDGSTYVITYEKIIKH
+LISHEIHHIGQLSIWAREIGRKPVSSDLVFRDY
+>tr|A6CKC2|A6CKC2_9BACI
+MVLKFLFVSLGIVMISGIIGLFTDGIQISLEGYLKNIWQIILSLSSPSDITITNEDNNTY
+PMFPTFWSYYFYSIIIFISSILLATLTAFILTFFTIGLPQKASGIMLKVLNFLESLPDLL
+IIIVIQFFVIIFFKRTGILLAPVAGGNDPVYLLPICALAILPSIFIFRLCLLLVEDELTK
+PYVDLARSKGFRKMYIFTVHIVRNIMPSMMNHMKAFILILLSNLIVFERLFNIYGVTHFI
+FAFPQIDVIAFSLIMFYLPIFLLLMISNVLIYLTTGQKVVI
+>tr|A6CHJ4|A6CHJ4_9BACI
+MSPKVSREHKEQRRVKLIEAAREVFIEHGYENTTMKHVMEKAGVSRGGLYQYFENKEDLF
+RAVIEEQHQEVFDESEDKKPNQQNSYWDALLSTFLGESKKPNDNMDPLSSSKLEYFMTGR
+NEDGRRDYARQRYNQAIEVTAMIIEEGKKAGEFSTRFKSTTIAKSIISHIDGLALDYAIL
+DSETIELKEQTEMLINSLRWSLGLEE
+>tr|A6CUE3|A6CUE3_9BACI
+MAIGKEGLDILKNSTVAVLGIGGVGSFAAEALARSGVGRLVLVDKDDVDITNINRQIHAL
+LSTVGKPKADLMKERIKDINPDCEVIALKMFYTEETYEEFFSYGLDFVVDASDTISYKIH
+LMKECLERNIPLIASMGAANKTDPTRFKIEDISKTHTDPLAKVIRTRLRKEGIHKGVKVI
+FSDESPIVIREDIRQEVGKDDAKIRKAKFPPSSNAFVPSVAGLIAASHVISELLSSIEIK
+RVKD
+>tr|A6CNB0|A6CNB0_9BACI
+MVQHWLVEFLKAGGKLFLNPLLYFSIIIALFSGFFRVKRERRELHTRIFDMYHETRFLFP
+LGLLLGLGFSLLTIGAGLVIPFGSLLLVGVVTILLGLTFKTRLLTPAFTVGITYFLLLAI
+HYFEVEMPLFHTYFERLNEGLLNAVVVLLGTLLLLEGVLISNSGWKKTSPRLIKSSRGLK
+VGAQEGKKLWVVPMFLLIPVGTLDMPWTWWPVFTVGSHTYSLILFPFLIGFGQLVRGTLP
+HISIKETGSRVFWLGALVLTIAVAGYFAPLVSIAGAILAVVGREWLAYRQRKQDSEKSYY
+FSRKSEGLMILAILPGSPAEKMSLVSGEMITKVNGFHVQTEEEFYEALQQNRAYCKLEVI
+DTNGQIRFAQGALYEGDHHELGIIFVEEDRDWSSEVGYHFV
+>tr|A6CS23|A6CS23_9BACI
+MGGRKVTKIVCTGCGVGIQTEDKEELGYAPPSSLEKEEIVCQRCFRLKHYNEVQDVSLTD
+DDFLKILNEIGKGEGLIVKVVDIFDFNGSWLPGLHRFVGNNPVLLIGNKVDLLPKSVKPS
+KLINWMKFQAKQLGLKPVDVKLMSAEKGQYIEEAVEAIEQYRDGRSVYVVGCTNVGKSTF
+INRVIHHVTGEKDIITTSHFPGTTLDMIEIPLDDGEALIDTPGIINHHQMAHYVDKRDLK
+YITPKKEIKPKVFQLNEGQTLFFGGLSRFDYLSGGRRSFVCYLSNELNIHRTKVDKADEL
+YENHAGVMLQPPRKDDMGEFPELVRHEFRVKEGKTDIVFSGLGWVTINDPGATIAAHVPK
+GVSVFLRKSLI
+>tr|A6CSF1|A6CSF1_9BACI
+MAGNREFNYRRLHSLLGVIPVGIFLIQHLVVNHFATRGEEAFNNAAHFMESLPFRIVLET
+FIIFLPLLFHAIYGLYIAFTAKNNVSRYGYFRNWMFLLQRISGVITLIFITWHVWETRVA
+AAFGAEVNYQMMENILSNPFMMGFYIVGVISTIFHFANGLWSFLVSWGITVSPRSQVIAT
+YVTIGIFVALSVVGIRALYAFV
+>tr|A6CN59|A6CN59_9BACI
+MFKFNDEKGQLKCSFCGKTQDQVRKLVAGPGVYICDECIELCTEIVEEELGTEEEVEFKD
+VPKPKEIREILDEYVIGQEQAKKSLAVAVYNHYKRINSNSKVDDVELSKSNIAMIGPTGS
+GKTLLAQTLARILNVPFAIADATSLTEAGYVGEDVENILLKLIQAADYDVEKAERGIIYI
+DEIDKVARKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTSNI
+LFICGGAFDGIEQIVKRRLGQKVIGFGSDPKTVNVDNDKSLLAKVVPEDLLKFGLIPEFI
+GRLPVISSLTPLDEDALVEILTKPKNALVKQYQKMLELDQVELEFEEDALREIANKAIER
+KTGARGLRSIIESIMLEVMFDLPSREDIKKCIITPGTVTDSEAPKLLLEDGTIIEGNDEE
+KTSA
+>tr|A6CJL2|A6CJL2_9BACI
+MKVSKGRGESLMKEQNNQLLFQYIIENAPNMTNDWLDSREEASGYSIYSKSASPEVESKL
+RKHNDELIESIAYIFVSKEKFEDRMIKWTEKIAEERVESGTTLYEVIQKFSIFRRIYWDV
+IEKFIDKNNIDVQQVVEWSKELNTGIDSIIEKFTEHYNLKTRESFSKQENLIKSITSPVI
+PVTENVAIFPLLGNLNITIADGLADAVLQQCVKYQISKLFIDISGVGTIDTMIANQLFQM
+ISSLKLIGVEAFLSGIRPELAMTAVHLGINFKEYPSYSSLKQALKENGFQVEMC
+>tr|A6CIN6|A6CIN6_9BACI
+MTYSSQQIKELLKVYFIMGSANCLQHPEEVLRGAIKGDITLFQFREKGNGCLQGEDKLQL
+AKRLQSICQENQIPFIVNDDIELAVELDADGVHIGQEDEPAEDVRRKIGNKKILGVSAHT
+LEEAEHAIAAGADYLGIGPIYPTLTKEDAKAVQGLTFIQELRESGIVIPLVGIGGITAEN
+AAPIIGAGADGVSVITAISQGKSPEAAARMLAVAVGNEDQRI
+>tr|A6CMX3|A6CMX3_9BACI
+MDVEVKKDKEQSFLKDTEVKELIKRSQEGDQSARDTIVQKNMRLVWSVVQRFLNRGYEPD
+DLFQIGCIGLLKSVDKFDLSYDVKFSTYAVPMIIGEIQRFIRDDGTVKVSRSLKEMGNRI
+RRAKDELSKTFGRVPTVNEIAAHLELSPEEVVMAQEASRSPSSIHETVYENDGDPITLLD
+QISDTSDQKWFDKIALKEAIRELDERERLIVYLRYYKDQTQSEVADRLGISQVQVSRLEK
+KILHNMKEKLNLT
+>tr|A6CHG0|A6CHG0_9BACI
+MTNFNKLSEVLQTFITDEEVENLCEKWGYRDTARKFSAKDLVRFFVISSAKDWKSFRDAE
+TKIPQEDSLPSVDHSTLAKKAQNVPYQILQELFSRLVNRLGRGMRRALFKPYKLFAVDST
+TITFQHPDMSWAGYTRTRHAIRLHTKFDVEEGQPTQVIPTTGRHHDVMVAPKLYEDTEPL
+SIITADRGYARTRDFEDLQEDNQFFVIRIASSFSLSEEMEHSVPLDEDGNVKEDLTAFIG
+KNSRKTKNRFRVVTFTDNEGNRIKVATNLMMMSPEDIAYIYKLRWQIELFFRWVKGNLDL
+SNLFGNSPNSVYIQVYGTLISYFLLRWIYNETKDEWDILHSFTFIEFTRRYLAYTLPVEV
+RCAIKSLFERRGSLCQSLGKI
+>tr|A6CKL2|A6CKL2_9BACI
+MNNFKSLGISEAVIERLQKENVTTPTPIQEKAIPAVIKGKDVIAQAQTGTGKTLAFILPI
+IENFDFNQQSIQALIVTPTRELALQITEEVRKLIRHIEGISVLPVYGGQDVEKQLNKLRK
+NVGIVVGTPGRILDHIGRGTIDLSELNSLVLDEADQMLHIGFLKEVEMIIRETPKTRQTL
+LFSATIPDEIKTLAKKHMKSPEYISVERKQGPAKSVEQKAVFVNDRAKQATLIEMIKEYR
+PYLAVIFCRTKRRVTKLYEALASEGFMCDELHGDLSQAKREKVMKRFRDAEFQLLIATDV
+AARGLDVEGITHVFNYDIPEDADSYVHRIGRTGRAGEKGLAVTFYSPQQKDQLAEIEKEL
+NIRLPKQNIGNIIDRDDTEKRKPKKAASRKEHTSRDKKPREDRKGSRSKQENHSRNGKGK
+KGEAADSTRSSQKPKTSSKPKKRSNMLEAKEVKRGALHKFADKNSGGKNKRGSTSKSSAE
+GRRGRSSSGLKNKRNK
+>tr|A6CQH0|A6CQH0_9BACI
+MGNVSQSIKIVYKFILGILILLVSFMAAMSLGAADINVRDVWGAVVALETTASNSIIREL
+RLPREVAAIAVGSALGVSGAIMQGLTRNPLADPGLLGLTAGANAALAFTLAFLPAANYFT
+IMIACFIGAAAGAILVFGMSAAKKGGFSPFRIVLAGAAVSAFLYAVAEGIGLYFKISKDV
+SMWTAGGLIGTTWSQLNVIIPFITLGILLAIALSKQLTILSLNDELAVGLGQNIGRIKGI
+LFIVTTLLAGAAVALAGNLAFIGLMIPHIVRAFVGTDYRFILPMSALLGASFMLWADTLG
+RTINMPYETPVAAIISILGLPFFIFIVNKGGRAFS
+>tr|A6CJG8|A6CJG8_9BACI
+MTAKKKTTIVLFSGDYDKTMAAYIIANGAAAYDHEVTIFHTFWGLNALRKEENIEVKKGF
+MEKCSVK
+>tr|A6CIY5|A6CIY5_9BACI
+MPAAEDILHHLSSLIDANTFFLACNDLKTNTIIKALNKAEILVREGNIPFPESYCSLVVD
+NCTYPTVIQNTVLDEDTKDMSVTKAQGSSSFVGFPIKLRNGELFGTLCAMDRNYTFSDKD
+LKLIVSISHFLGYLIDLERDVYYDSLTGLYTRQYLNMFFEAFEVSNDRYPSIFLINLNRF
+RNVNASVDLGDFLITEIADRLKTCAGEDGLAVRLHGDEFVVITFDLKTDEQRGQYAEQLL
+NEIAAPIVTKFQTFHLTASIGISVYDLDQCCNIDTLIKLAGFAKDSVNGTGSKRYTFCTP
+EIILKKERSVWIESHLLQELSENKFEMYYQPQYHISTRRLTGFEALIRWKSEKFGFISPA
+EFIPMAETTGQIIPLGNWIFETVCKQISVWNKKYGTGFSVAINISPAQFLHYGHDVDNLD
+HILIKYGILPSQIHFEITETSLIPLTETLVPILAKVRSKGIKIALDDFGTGYSSVLYLRN
+LPIDIIKIDQVFVRNLTVNSKDNKIIQAIIDLANALDIEVVAEGIESEEILLLLDSIGCG
+TAQGYLLGKPMELDHASELLQEKSLSFTRN
+>tr|A6CPL6|A6CPL6_9BACI
+MIIEDELSTKGGRSMYKALPQDQLTLLTIKALKEGKKKEFQDIMEELQPYDMALIYTALP
+DKHQSRFLLQLTIPVLADMIQELSPDEQISALQKVGKERSGKVLDDMDNDDIASLLDNMS
+PERIQNFLSGMTKEESSIVQDMMNYPPETAGRLMTNRFVWIRHYYSVREAVDKLKTFAEF
+AETINYLYVVDENRKLVGVVSYRDLLLADTENMIRDIMYTRVISIGLETDQEEAARLIER
+YDFLAIPVIDDDGVLKGIITFDDIIDVVIQEANEDIEKLSASGKAIDFDTKSHIAAYRRL
+PWLILLLFIGLVSGSIISTFEETLSKAVALAFFMPMIAGMTGNTGTQSLAVVVRGLASRD
+IDMKTVMRLIGREFGVALIIGITCAFLIAAIAYVWQGSYILSFVVGTSLLLTLIIGTMAG
+TVIPLILYKLKVDPAVASGPLITTINDILSLLIYFGLASFFIRSLM
+>tr|A6CM40|A6CM40_9BACI
+MTNKQTYKLAEEQRPSDTIDFRGVLAASPNPILIVDKDLSIIEANSSALELLEIDENSLL
+RESFVQFFQAVPSPILSQYESAVRQGGEIEDETLMTTAAGTIKHIDLKITKLNNSEYAFL
+FLRDITSDREKQRNEHMNLHMLNNIFQQAAEGILLFDREGNIKEANQAFCKQVNLQKRDV
+LNRKVVSFIPRNFHLKLIKIKELLDSGRQARGEMPITHSEGVSVVEFTTTPYVNHELHMA
+ILRDITEKRQMEIQLKRSEELFKDLFEEAIDAIVLWDQDGRVLRANRSALKIFECSLSEI
+LTKKIEDFVYPLEMSKFESVTQELKAKGAVRDEVMFLMPNNQLKHLEFTSKLHSVDGYNM
+TIFRNVSERHQMEKSLRESEERFRKIFEGTLDGMVLTNHSGQVVDANPVALEILSSDKEE
+LIGSDIKDIFKIKENEDEDYLEYQSKLKREGQASLLKLKKIDEERCQHLELSSKYNLLSN
+LNLTVIRDITEEVELQEQLRKSDTLSVVGELAAGIAHEIRNPMTALKGFIQLLENSMQSD
+HEMYFHVIKTELQRIESIITEFLILAKPQAVQYQETDLIRIMKDTLELLNAQAVMHNVQF
+KERYDKGIPAVFAEPNQLKQVFINIVKNAIEVMPKGGLISIGISAKNEEEVRISITDEGI
+GIPKEKIKKLGEPFYTTKERGTGLGLMVTFKIVEEHEGTVEVESELGKGTTFHIDLPSMK
+G
+>tr|A6CIZ8|A6CIZ8_9BACI
+MKKLTAIIQKQKKLLNEGKIDAMEKSLKDFYELSFKNYPEPIFILDNTGQIIVYNDAVLS
+LFGNEAIKYGNNLLNKLNPKQQNVDWSEYFYPILNGREQSFTTQFINKEGNTFESHVKLT
+PTKFGKGDFIISGVITDISALAIQKEHAESLEIRLNTAQQLADIGTWEYDIANDECSLSY
+KSYEMLGMPYGITPTFQMLLETAHPEDKDIFLNEFVSALNEKRNFHCQNRIIRSDGAERI
+LAHFGEVILDDNQKPVKYIGTTYDITEQKIIEDKLAETERQVLKISNSLDVGIWSMDVKK
+NQYIFVSKGFETICGYSAEDFKQGLLQWEDLIYCEDLHLFEQRKEALHTGKVPKQQYRIV
+HKNGNTKWVQDELITTFNTKGDLVRIEGILSDITEQKEAEEKVNYIAHHDYLTDLPNRRK
+FEQELQKFIEQSKMANQEFGVMYIDMDGFKRVNDTLGHAIGDKLLVEISTRLLDCVPQND
+FVARIGGDEFSVLIDKMHSLEQSTTIAKKIVAALEVPYKIHGYELFVTASVGVAAYPQDG
+HDAQTILQKADKALYRAKEMGKNNYQIYNSSMNIEAYKLYSLENDLRRAVKNKELYFHYQ
+PKVDAQTEKLVGAEALIRWEHPEWGQVSPAEFIPLAEENDLIFKVTSWTFQTICTQIKNW
+TDRNLPLVPISINVSPKIFIKNEWQEELIYIINNSNVDPRLIELEITEQALIKNEESFSA
+GIEKLKQLGVKISLDDFGTGYSSLLYLKKFKLDTVKIDKSFVDDILKGKPTITKAIINMA
+HEFDMTVIAEGVETRAQQSFLQKQDCDQIQGYLYSKPILPEDLEELFRNPVLKPQDNDES
+QPVANRRQTFRVDLPLPLSGNMTIVKIKDRFIKLGKTEILIENIGPGGLRFISHINLPLN
+PDIILEFETEILGDRKPFFGHVVWKEELKEGFIQYGIQFNASKAEQSLITGLTNKLQKAL
+QITSHLPNTRFIKDDKMNYLKNTIKTQL
+>tr|A6CJH8|A6CJH8_9BACI
+MILSGNLIFNNKSRQALIKLNITIGGAVSVKMLMGTLLIFLFMVVIYTENKSLPVMYEFK
+NTEEVLSNDNAATSLTQEEVPDRLPGPKLGTMAPDFTLQTLTGETISLADLKGEKVLINF
+WAAWCTPCTQELPALEEFNKTNQDIKVISINIDPEDHAEEFARDAGISFPVLLDEDDKVN
+EDYQVISIPTTMLIDEKGYVINKHIGALDEEGFHVFVQ
+>tr|A6CTG3|A6CTG3_9BACI
+MNLSIFKNKSFLYYWISTWISSLGDSIFVIALTWLLVEKTESPSIVGTYLFILGASKIMF
+VLVGGVIVDRIDPKRLLIQSNVLRAAVIILALLVIFVDNDAIWMFYVIGAVFGMVDSIAE
+PAGISFRTRIVEKEYYTQSMGLLMTAGNVSAVIGPMIGAGLVAVGSTHFAIMVNAVTFLI
+SAVLLFLVQETKTDEAGTEQEPMWKSVKSGFHYFLNTPIITTMAVFAFFANAAVGATFIS
+IPFLADDLNFGVEGFGLMNTAIGVGSVAGAVLFSAFTIKIPKPYMTLLTCFLQGIVIMLI
+GFTGNLWIILALIALMGLHETAVNIIAPSVNHTIIPPRIFGRVISVMILVMSGSVPIAQA
+IAGWVMEWTAPQNIFIYGGLLEMGAALLTFSLPFVRNYGRETEISAEQ
+>tr|A6CQ44|A6CQ44_9BACI
+MALYPPEGKYFSGSEIMELRLGFVANALSLWDASPSKTMTFKRYSELSEDERKQKLLEVT
+AANLEHTKRILYYLAAHEIQLYRLSSSMVPLATHPEVKWDFVSPFRREWEELGLLIKKFN
+IRTSYHPNQFTLFTSPKDSITDNAVEDMVFHYKMLEAMDVLDQSLINIHVGGTYGNKEEA
+LARFHKNLQKLPAHVKKYMTLENDDKTYTVEETLEVCEKEKIPMILDVHHHEANQSTEPL
+QEYLPRILDTWKQRNLRPKIHVSSPKSEKAFRSHSDNVDIEFVLPYLKMLKELDEDIDIM
+IEAKNKDIAMLKLTEDIAKIRGVKRVSGGILNW
+>tr|A6CP82|A6CP82_9BACI
+MKLQILHTNDLHSHFEQFSKAASLIRKQKDEHTLVLDGGDFADFRSIELQGTSGAAAIEL
+LESVEYDALTIGNNETFNGVDTLEFMASSSKVPFISNNLLRKQKTPIKGVVASTIIEKNG
+LRIFITGSSPDLGDFNDGLGVHISSFKEALVKEMQRYKGKYDLCVVLNHVGTYDDKVLAE
+EVDGIDIIISAHDHQLYQRAKVINGTIVNSAGCYGQHVGSIEIEVTTDGVTLLHSETLPT
+DAEEKDPEVLAILKRNKEKAIAVLSEPLYRLQEPLWHDVVEENPISNLIVDGLRDMLDCE
+IGLINSGIVNAGAFDYLSNKKLIEICPSPLNPTSFEIQGKDLREAIEVSLDAQACLADGK
+GPGFRGRFVGKLHVSGAKIEHDGSKVINILIGDQPLEDERWYRVASSDYLQRGSGYPSLA
+NNRNEKYLPEEIKDVIRLYGKDPLFIKKARMNRWHAVGAMTIESR
+>tr|A6CN61|A6CN61_9BACI
+MAKQKELTLPLLPLRGLLVYPTMVLHLDVGRDRSVQALEKAMVDDQYIFLTTQKDMNIDE
+PGVDDFYKMGTLTKVKQMLKLPNGTIRVLVEGIQRAEVSNFTNEEKFYEVNIFTHEDSDE
+KESETEALMRTLLNYFEQYIKLSKKVSAETYSTVSDIDEPGRLADIVASHLPLKMKEKQN
+VLETLDIKERLQLVIQTINNEKEVLNLEKKIGQRVKRSMERTQKEYYLREQMKAIQKELG
+DKEGKTGEIEELTKRIAEAEMPESVEKTVLKELGRYEKVPTSSAESSVIRNYIEWLISLP
+WSAQTEDDLDIKKAEEILNREHFGLEKVKERVLEYLAVQKLTQSLRGPILCLAGPPGVGK
+TSLAKSVAESLGRNFVRVSLGGVRDESEIRGHRRTYVGAMPGRVIQGMKKAGTINPVFLL
+DEIDKMSSDFRGDPSSAMLEVLDPEQNSNFSDHYIEETYDLSKVMFLATANDLSTIPGPL
+RDRMEIITIAGYTELEKINIAKNHLLPKQIKENGLTKSQLQVREDALEAVVRYYTREAGV
+RGLERQLATLCRKTAKVIVSGEKKKVIITEKNIEEFLGKKKFRYGQAESENQVGVATGLA
+YTSVGGDTLQIEVSLSPGKGKLVLTGKLGDVMKESAQAAFSYVRSKANELKLEENFHEKY
+DIHIHVPEGAVPKDGPSAGITIATALVSALTGREIKREIGMTGEITLRGRVLPIGGLKEK
+TLSAHRAGLTTIILPIDNEKDIDDIPESVRKDLKFVPVSHIEEVLETALVGERSESK
+>tr|A6CPG7|A6CPG7_9BACI
+MQPLPDHLKENLDIVFIGFNPSLKSGEVGHNYANKSNRFWKILHLSGLTPRQYAPEEDYT
+LLQLGYGLTNIVERPTKEAADITKEEYSEGRVILKNKLKKYSPKIACYVGKGVYQQFSKK
+RKIEWGIQEESVVEGVIDFVAPSSSGLVRMKIDEIVSIYKELTELKKQKH
+>tr|A6CRA9|A6CRA9_9BACI
+MFLPSFELNGKTAIVTGAGRGIGRAIAIGMAEAGADVALLSRTEEDLKETASHIEKIGKK
+AYIVTSDVTSREEVARAVSSVKEQAGTIDILVNNAGMNIRSQALEVTDEEWQKIMDTNLK
+SAFMMSQEVGKVMKEQNSGKIITIASVAGHVALRTGVVYAATKAALIQMTKVLAFEWGKY
+NINVNSIGPWYFKTPLTEKLLQDEEYVNDILAVTPLKRVGELEELVGPAVFLASPAGNYV
+TGQTLFVDGGMTIQGF
+>tr|A6CUC4|A6CUC4_9BACI
+MAYRKLGRTSAQRKAMLRDLATDLIINERIETTEARAKELRSVVEKMITLGKRGDLHARR
+QASSFVRHEVANAEENQDAVQKLFSDIAGRYTERQGGYTRIMKLGPRRGDGAPMVIIELV
+>tr|A6CTM2|A6CTM2_9BACI
+MTPKKPNSALRKYARVRLTNGIEVTAYI
+>tr|A6CPV0|A6CPV0_9BACI
+METTKKEVKKAGFPVLFIIVGIILSSLFIFSFAQIAEGLLESEVKAFDSAIIDYLTTLES
+DRLDQIMILITELGSVWFVTTLSIITVLLLWFRFKDKWGVLFFILSIGVGGLLTTLLKHY
+YQRGRPSINPEIDAVGFSFPSGHSMGSVIFYGFIIYLIIRSGLSAAAKWSLSILGVILFL
+LIGLSRIYLGAHFPTDVLAGQMAGAVWLTLCLIALEWIEWRSKNSVRPMEATRQFFKEIL
+>tr|A6CLF5|A6CLF5_9BACI
+MTATRGLEGVVATTSSISSIIDDTLTYVGYNIDDLTNNASFEEIIYLLWNLKLPTASELD
+ALKKDLAENAALPKEVIEHFKMYPIKDVHPMAALRSAVSLLGLYDEEADVMEEGANFRKA
+VRLQAKIPTIVTSFARIRSGKEPIAPRTDLGFAANFLYMLTGNEPADIEVEAFNKALVLH
+ADHELNASTFTARVCVATLSDVYSGVTAAIGALKGPLHGGANEQVMKMLTEIDSVDNVES
+VIREKLANKEKIMGFGHRVYQQGDPRAKHLKEMSKKLTELRGESKYYEMSTKIEEIVTSE
+KGLPPNVDFYSASVYHSLGIDHDLFTPIFAVSRVSGWLAHILEQYSNNRLIRPRADYIGP
+GKQAYVPVEQRG
+>tr|A6CPT7|A6CPT7_9BACI
+MAEMKSVHYTDKGKVRQHNEDSVGVFTNKEGDCLAVVADGMGGHRAGDVASSMTINKFEE
+LWESEGKIATAEQAEKWLQDKIKEINQGVFEHSQANMECEGMGTTVVAAICTANFATIVN
+IGDSRGYILNESGFSQLTEDHSLVNELVRSGQISKEDAEHHPRKNVLLRALGTEEKVEMD
+TKTIIFEEEDIIMLCSDGLSNKVSEEEMESILSSSQDLDQAGRKFISLANENGGEDNISL
+AIVKYTPESGNG
+>tr|A6CUI2|A6CUI2_9BACI
+VEKAYLTSGEGCLSVDRQVPGYVPRYSRVTIKGMDIDGNPVKIRLKGLPSIVMQHEIDHL
+NGVMFYDHIDHGNPLMPIPDATPIDR
+>tr|A6CKU4|A6CKU4_9BACI
+MLKGIDMETKVKFLQGFAHKMRIQILECIKEEEKTVSQIVQDLDGSQSSISQHISCLKGC
+GLIVGRQEGKYVYYSLSNQKVRDLLTMFDVVLEEVQSDVACCENHIG
+>tr|A6CNI1|A6CNI1_9BACI
+MGIEKMKMPQLGESVTEGTITKWLVSPGDQVNKYDPIAEVNTDKVNAEVPSSFTGTIKEL
+IAEEGDTLEVGEFICSIEVEGAGSADEEAPAQETPASDDSAAKEDKQEEKKPVKKADKAQ
+GKVRFSPAVLRLSQEHDIDLDQVEGTGRDGRITRKDLQKLIDSGNIPKAGDAKPAAPAKE
+EPKQAPVQEAPAPAAAAPSKPAAPAPNVPVMPGDVEIPVTGIRKAIAANMLRSKHEAPHA
+WTMMEVDATNLVGYRNTIKGEFKQREGYNLTFFAFFVKAVAQALKEFPMINSMWAGDKII
+QKKDINISIAVATDDALFVPVIKNADEKTIKGIAREITELAGKVRSGKLKSEDMQGGTFT
+VNNTGSFGSVQSMGIINYPQAAILQVESIVKRPVVMDNGMIAVRDMVNLCMSLDHRVLDG
+LVCGRFLQRVKEIIENISKENTSIY
+>tr|A6CQP5|A6CQP5_9BACI
+MMGLMGTLFFFLIIQFYILMAETPHITLAGSLYLTLLVFSIFLLLSIYFGVKTGYSFKGR
+LDDISTFVSVLRSGRFSARVNDEKEDEIGILTDELNQLAVYIQEQVKSLQRLADEKSELA
+DQAHQAAVMEERHRLARDLHDSVSQQLFALNMLSSAAVRTVQKKPKESEPILKQVAEIAS
+KAQGEMRALLLHLRPIDLKGESLPQGLKKLIQELKEKTPIDIMAEFNHLEGLTKGAEAHM
+FRIIQEGISNILRHAEATQIKISTKKIDSTLNLYISDNGKGFNVNQQKMTSYGLQTMRER
+CEEIGGIFQIRSKENEGTYINIRIPLREEGEGING
+>tr|A6CSU4|A6CSU4_9BACI
+TYAGERFEKSVKDLAGTLEGSDNNLFLQCDVTNDEDIEKCFQTIKDEVGTIHGIAHCIAF
+AKKEELAGDYMNTTREGFLLAHNISSYSLTAVAKAAKDLMAEGGSIVTLTYLGGERVLEN
+YNIMGVAKASLEASVKYLASDLGKSGIRVNSISAGPIRTLSAKGVGDFNTILKEIEERAP
+LRRNTTQEEVGDTAVFLFSDMSRGITGENIHVDSGYHVLG
+>tr|A6CJG7|A6CJG7_9BACI
+MNADKILDAKGLACPMPIVKTKKAMNELESGQVLEVVATDKGAKSDLTAWAKSGGHELLD
+HKEENDIFTFWIKKG
+>tr|A6CQE4|A6CQE4_9BACI
+MLNYNIRGENIEVTPAIRDHVENKIGKLNRYFNETPDADVHVNLKVYPDKKTKVEVTIPM
+PHLVLRAEERHEDMYAAIDLIVDKLERQIRKHKTKVNRKMREKGSPKEFFAAQEGLTTSQ
+LNEKARETEENDEVVRTKQFNLKPMDSEEAILQMNLLGHSFFIFTDAETNATNIVYKRRD
+GKYGLIETT
+>tr|A6CQH1|A6CQH1_9BACI
+MIHPSIIKKQRRVMLGLLALIILTAIIGMGMGFSSLSYNRLLPTLFGQGTFKEEFVLFSV
+RLPRVVITLLAGMALAVSGAILQTITRNDLADPGIIGINSGAGAAIAVFFLFFPIDAGSF
+VYAIPGIAFAGALLTAILIYLFSYKRTAGLQPVRLVLTGVGFSMALSGVMIVLISSAERQ
+KVDFIARWLAGNIWGGDWPFIVAILPWLLILIPFTLYKANKLNLLGLNEPVAIGVGVSLE
+RERFILLLAAVALAAAAVSVTGGIAFIGLMAPHIAKALVGPRHQLYLPVAILAGGWLLMF
+ADTIGRNLTDPDGIPAGIMTALIGAPYFMYLLMKKI
+>tr|A6CRU2|A6CRU2_9BACI
+MEVNNMSDVVVITEAAALQIKDMMKQNEEEGAFIRVSIKGGGCSGLSYGMGFEHEAGEDD
+VQLEQNGIKVVVNKQDAPILNGTKIDYKQSMMGGGFTIDNPNAIANCGCGSSFRTATNTG
+TPENC
+>tr|A6CTJ1|A6CTJ1_9BACI
+MEKTNMIEKISKDFSINIKQIKSVISLLEEGNTVPFIARYRKEQTGALDEVQIRAVMDSW
+NYVQNLQTRKEEVLRLIEEQGKLTEELQKDIEKAEKLQTVEDLYRPYKQKRRTKATVAKE
+KGLEPLAEWMLSFPAAGSMQEEAEKYISVENEVNSAEEAIEGAKDIIAEIVSDDAKYREW
+IRNDTFKNGTLTTSIKKDAEDEKDVFEMYYDYSEPVSKIVPHRVLAVNRGEKEGILKASI
+EPNVERIHNFLVKNVIKKESVASRAIKEAIEDSYKRLIQPSIEREIRNALTETAEDRAIH
+IFTENLRKLLLQPPLKGKMVLGVDPAYRTGCKLAVVDQTGKMMEINVIYPHPPKAKKEAA
+VETFKKTLQQYEIEIVAIGNGTASRETEQFVADILKEVNKDISYIIVNEAGASVYSASDI
+AREEFPDLQVEERSAVSIARRLQDPLAELVKIDPKSVGVGQYQHDVSQKKLNDSLTFVVE
+TVVNQVGVNVNTASSSLLQYVAGLSKTVANNIVKKREEEGRITSRKQLKKIPRLGAKTYE
+QCIGFLRIIDGEEVLDRTPIHPENYNEVRKLLKKLQLDESSLGTEELKAKVEEIQLDELS
+KELGIGKLTLKDIIDALVRPGRDLRDELSAPLLKKDVLKLEDLQPGMELQGTVRNVVDFG
+AFVDIGVKQDGLVHISKLRKGFVKHPLDVVSVGDVVTVWVESADVKKGRVALSMVKE
+>tr|A6CPT5|A6CPT5_9BACI
+MTKIVFMGTPQFSVSVLQNLIENDYDIIGVVTQPDRPVGRKRVMTPPPVKVEAEKHGIPV
+YQPEKIREKEELEKVLSLQPDLIVTAAFGQILPKELLESPKFGCINVHASLLPELRGGAP
+IHYSIIQGKKTTGVTIMYMVEKLDAGDMISSVEVEIDERDHVGTLHDKLSEAGAKLLIDT
+LPALLNGEISPQKQDEGKVTFAWNIKREQEKIDWTKTGEEIYNHVRGMHPWPVAYTLLEG
+SVLKVWWSEKVEGSAGAPGEITSVEEDGIVVATGSTTSIKITELQPSGKKRMSAKDYLRG
+AGSFIEKGMKMGEEHE
+>tr|A6CN88|A6CN88_9BACI
+MKPMKEKIDYLLRSAYELKASDIHLTVGAPPVFRLHGDLKRYGKEILKPADTEGMAKSII
+PEDLWKKFLEHGELDFSYGIPGISRFRINAYQQRSCVSLAIRIVPTSIPSIDDLSLPPVL
+KRITEKPQGLVLVTGPTGSGKSTTLASMIDHINRTMRKHVITLEDPIEYLHKHGTSIIDQ
+REVGFDTKNFSRGLRSALRQDPDIILVGEMRDLETIQTAITAAETGHLVFATLHTSSAAA
+TIERIVDVFPPEQQAQVRIQLASVLVAVLSQRLFPLVDKKGRRAATELLVNNPAIANLIR
+SEKVHQIDNILQTSKGMGMHLMSSSIKNLYESGVISRESAFPYIEVEQAT
+>tr|A6CSH0|A6CSH0_9BACI
+MKGTVLVAGLGLIGGSLCISIKKGNPEAEIIGYDRNPKDLSLAKELGIIDQEAGSFEEGA
+ENADLIILAVPVIQITKLIQALCKVGLKKNVLVTDAGSVKSPIMETAKLLTDKGIAFIGG
+HPMAGSHKSGVKAAKDLLFENAYYILTPGEDASAQRLEELQSWLKGTRAKFLQLNAREHD
+ELTGVVSHFPHLIASSLVHTAKSAQENFPYISRLAAGGFKDTTRIASADPQMWSDITLQN
+NNVLIKLLRDWKEHTGELLEMIENQDYDETYRFFSEAKEFRDGLPVKSKGAIPAFYDLYI
+DIPDHPGVIAEITSVLAEDEISITNIRVLEMREDAVGRLVISFLSNGDLEKGKTVLQEKT
+QYEVF
+>tr|A6CLN7|A6CLN7_9BACI
+MEKISIGLLGLGTVGSGVVKVIHNHQDKLVHGVGCAVEIKKILVQELAKHRDVEVDRTLM
+TTSPAEIIEDREIDVIVEVMGGIEETRKLLLKALDNKKHVVTANKDLMALHGPELLEAAS
+RNGCDLFYEASVAGGIPILRSVADGFASDRIQKIIGIVNGTTNYILTKMSDEGKSYGEAL
+KEAQALGYAEADPAADVEGTDAARKMAILSTLGFSMNVGLEDVGFKGISNVSQEDIEYGR
+QLGYTMKLIGVAERDDDKIDVTVQPALVSASHPLAAVKNENNAVYVYGEAVGETMFYGPG
+AGSLPTATAVVSDLVGVMRNMRLGVNGHSAVIPQFPKKMKSADEVFKKYFLRLVVEDEVG
+ALAEVTTLLSTKGISVEKIWQNPKRGSISEIVLVTHKASQKNFEDILVKLNDSRVVRRVG
+SSYRIEI
+>tr|A6CI99|A6CI99_9BACI
+MFIFVKRGYNKSIQVLTKEGICIMDSTEVNIIHSHRYRNFDEAADSILRMISKMLDINTL
+FIAKNDRCTNEIVKVINKDKVLLRKGDTLPFEETFCKVSVDVGKKVLIIPDITNDNLTKS
+LNVTHNLGSGSFVGIPIYYEDGRNYGTICGLDTNPFKISEEHKELFETMSSLLSYVLELD
+NANKQIETLSAPLVPITNGVAVLPIVGIINNDRAETIIELTLAKSQDMQLEYIVIDLSGI
+THIDDEVVFSLLRIVNLMKLVGVEPILTGIRPEIAMQAVRSHVDLVNIKIESNLANALSY
+IGFSFQKNT
+>tr|A6CLV4|A6CLV4_9BACI
+MKLGVFTVLFSQKNFEEMLDYVKEAGLHAVEIGTGGYPGNAHCDLDALLESEEKRKDYLD
+KVTSRGLTISAFSCHGNPISPEKAFAEESHAALEKTIKLAGLMNVPVVNCFSGTAGDHEG
+AKHPNWPVSPWPNEYGDILKWQWEEKLIPYWKKMGKLAEDNNVKIGLELHGGFLVHTPYT
+MLKLREETCEAIGANLDPSHLWWQGIDPVAAIKILGKAGAIHHFHAKDTYLDQDNINMYG
+LTDMQPYGSIQTRAWSFRSVGCGHSMQEWSDMMSALRTYGYDYVVSIEHEDPIMSIEEGF
+MRAVKNLKSILIEEQPADMWWV
+>tr|A6CN12|A6CN12_9BACI
+MALVLSGCGEPFVSTLQPAGEVAQMQYDLMILATSIMVLVIIVVAIVYFVAIVRFRRKKG
+DENKIPKQVEGSHTLEVIWTTVPIILLLILAVPTVSATFKLADTDAMEKKDAEGNREALV
+VNVRANLYWWEFEYPDQGVITSQDLVVPTDRKVYFNVTASDVKHSFWIPAVGGKIDTNVD
+NVNTFFLEFDSEAAEEVGNLFYGKCAELCGPSHALMDFKVKAISQDDFNSWVTAMQETEE
+PAPTTELAQQGQEIFNQKCLSCHAVSGQDQRPEQARLAPNLANFGERSRVAGILEHNEEE
+LKNWLVDPEQYKPGNKMTGTYGKLDDQELDALAEYLMGLKVQD
+>tr|A6CM00|A6CM00_9BACI
+MLISDLTGKGDKKMIINREDRISIIDLLDLNEHFRTGAYVIKEDDITIVETSASPSIPHL
+IRGLQQLNISLEQVKNIIVTHIHLDHSGGVGLFLEKCPNASVIVHEKGARHLINPERLEA
+GARQVYGEDFDRLFHPIVPVPAERVFIKRHNDELQISSDCTLTFYDTPGHSRHHFSIYDN
+KSRGIFSGDTAGINYKYLLKDESLYLPSTSPNQFNPDEMKQSLELYEKLSLEKIYFGHFG
+ISEEPEKALTEVMNWLKIFVETAVEICSANSENPLTALTDALKKEVLGSNEKLQHNKDFL
+RLLDLDMKVSAMGLIDYLKKSVKKGV
+>tr|A6CMI8|A6CMI8_9BACI
+MTTTSEKLAVFLDENFQEFLNNWRNKVVLAEDDKFSEEVVGNGIGMYKLVRRAIEGPLSE
+EELMLLAEKVARERVEADTNISEFVYNVNMGRSEIIKWVNSSGIQIDELNPYIEEINRVF
+DRFSYLAVRFYTEIKDKALKEKELYIDQTHKERLTILGQMSSSFVHEFRNPLTSIIGFTK
+LLKNDYPELPYLDVMSHELDQLNYRISQFLHVSRKEIIESKKEKFLVFSMLSELIEFLYP
+SIVDGDVQVKSHLETQVYIKGNKEELRQVFLNLIMNSIDALEQVKGEKRITITCTFDYEN
+DEIQVKVANNGPEISAKALDAIFEPFYTTKELGTGIGLYICRKLVEKHEGSIVCTSSPEE
+TAFTVTIPAAKEGPARGLSFSSLKH
+>tr|A6CRT9|A6CRT9_9BACI
+MKEDQKVYDITIIGGGPTGLFTAFYGGMRKASVKIIESLPQLGGQLSTLYPEKYIYDVAG
+FPKVKAQDLVNNLKEQMAQFEQTVCLEQAVENVEKQADGVFKLTTDKEVHYSKTIIITAG
+NGAFQPRRLELEGSSTYEGKNLHYFIDDMQYFAGKKVVICGGGDSAVDWALMLEPIAEKV
+TLVHRRDKFRAHEHSVDQLHQSSVEIKTPFVPTEVIGNGEKVSQLVLEEVRGEAKEALEL
+DELIVNFGFVSSLGPIKDWGLEIQKNSIVVNSKMETNIPGIYAAGDVSTYEGKVKLIASG
+FGEAPTAVNNAKAYMDPKARVQPLHSTSLFS
+>tr|A6CLT1|A6CLT1_9BACI
+MAELAPNTGEIKQQKTEETISPWKEAWKSFRKNKTALVGSGIVLFFIILALFAPLIAPQG
+INEQNLDIRLQAPSAEHWLGTDDFGRDILSRIIHGARISLTVGFFAVIGSAVAGSLLGII
+AGYYGRWVDVIISRFFDILLAFPSILLAIAVVAALGPSLRNALIAIAIINIPNFGRLIRS
+RVLSVKQEEYVMAAKAIGMSDRRILFSHVLPNSMAPIIVQGTLAIATAILEAAALGFLGL
+GAQPPDPEWGKMLSDARRYMLDAPWTMIFPGLAIMLTVLGFNLMGDGLRDALDPKMKN
+>tr|A6CPA2|A6CPA2_9BACI
+MVKEVLLLNIENRPNSNIHLLKEIAELLNEETELQQMLSCALQVLLKGTDFTTGWIFFID
+ESDGHSLEAYHNLPSSLEDERCALLREGSCWCVNRFRAGKLTKASNIIECQRIEKSIEEN
+RGDTGDIVYHATVPLQSGNESFGLLNVAAPGKTHFHEHELALLESVAFQIGSAIKRIILT
+KKEKEVALMQERNRLARDLHDSVNQLLFSLTLTARGGMMLSKDSEVKETFSTIQSLAQEA
+LTEMRALIWQLKPHGLENGFSDAVKGYAEMLGMEVLVKVEGVVALPSKIEEALWRVGQEA
+INNAKKHSGEDTIYFYLITSPKFVVLHIEDKGCGFNYNPTQDIPSLGIQGMKERVSSLGG
+SFHLKSMPGDGTEIIVEIPY
+>tr|A6CRZ7|A6CRZ7_9BACI
+MDTFATLIPLLLMFVLFYFLLIRPQQKRQKAVQQMQNELQKGDKIITIGGLHGIIDAIEE
+GTIVVKCGDGSRLTYDRNAVREVIKA
+>tr|A6CHW3|A6CHW3_9BACI
+MSADTKKRIVIKIGSSSLTSLHGEMSRRKLERLTDEVVRLKDDGHEVLLVSSGAVAAGYR
+KLGCLTRPSTLPEKQAAASIGQGLLIEAYSDLFLSNGYVASQILITRSDFSDENRYNNAK
+NTINVLLERGIIPIVNENDTVTIDRLKFGDNDTLSAKVAGLVNADKLIILSDIDGLYNDD
+PRKNPDAELLEEVNEITPDIEEMAGEPGSSVGTGGMRSKIDAFKIAMASGIPSFLGKSGI
+ANIIYDAVQGEAKGTYFEAKEDVINLDTKKQWIAFNSGPEGEITIDNDAKESILESKKGL
+NASGIYAVKGRFKSGSVIRISDLDGEEIGLGVVNYDSEEMKKFNKMTDTELENYENAAVE
+FDHLVCHVEVPIPVGV
+>tr|A6CSJ9|A6CSJ9_9BACI
+MYKSGFISIIGRPNVGKSTFLNRVIGQKIAIMSDKPQTTRNKVQGVYTTNESQMIFIDTP
+GIHKPKHKLGDFMMKIAQNTLREVDIILFMINAEEGYGRGDEFIIEKLKGVKTPVFLVLN
+KIDQLHPDKILPLIEQYNALHDFAAVVPISALEGNNVETLISEIRKELPEGPQYYPADQI
+TDHPERFIVSELIREKALHLTREEIPHSLAVVIDKISTRGDKNVIDVMATIVVERDSQKG
+IIIGKQGGMLKEIGKRARVDIENLLGSKVYLELWVKVQKDWRNKLSNLRDFGFNDDY
+>tr|A6CTQ9|A6CTQ9_9BACI
+METATLVTFIVYLVGMLAIGIISYRLTSNLSDYVLGGRSLGPGVAALSAGASDMSSWLLL
+GLPGYAYAAGLGSIWLALGLVVGAYLNWRFVASRLRSYTEVANDSITVPDFFENRFKDKS
+RILRVVSALVILIFFTFYTSSGLVGGAVLFQESFNMSYNTALLIGAIVIISYTFLGGFLA
+VSWTDFIQGILMFLALIVAPIVAITEVGGWGSTVDQVNAINPDYMSAFTGMTGIGIISLA
+AWGLGYFGQPHIITRFMALKSTKDVPKARLIGMTWMILAMVGAVLVGLAGIAFFADAPLI
+TDAADNSEKVFILFTDVLFNPWVSGILLAAILSAIMSTIDSQLLVSSSALAEDFYKAIIR
+KNASDKELVWVGRLGVILIALVAVLLAVQANPANENASSILDLVSYAWAGFGAAFGPVIL
+FALFWKGMTRNGALAGMIVGALTVVIWPELGTDLYEIVPGFILAAIAILIFSKVGPQPSE
+EIQSEFDTAAANDITK
+>tr|A6CUA4|A6CUA4_9BACI
+MWCNCCCSCSNGCCCWWRRCCRKTEFDVVLESAGSQKIKVIKVVREITGLGLKEAKELVD
+NTPKALKEGVSKDEAEELKAKLEEVGAGVEVK
+>tr|A6CT54|A6CT54_9BACI
+MNKGHVLQVMGPVVDVKFESGQLPDIFNALVVKQEAKADAKGIDLTLEVALHLGDDTVRT
+IAMDSTDGLTRGIEVADTGAPISVPVGDVTLGRVFNVLGETIDLEEEIDKSARRDPIHRE
+APKFDQLSTEVEILETGIKVVDLLAPYIKGGKIGLFGGAGVGKTVLIQELINNIAQEHGG
+LSVFAGVGERTREGNDLYHEMSDSGVIKKTAMVFGQMNEPPGARMRVALTGLTMAEYFRD
+EQGQDVLLFVDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATDMGQLQERITSTNVGSVT
+SIQAIYVPADDYTDPAPATTFAHLDATTNLERKLSEMGIYPAVDPLASTSRALSPEIVGE
+EHYNVARQVQQTLQRYKELQDIIAILGMDELSDEDKLIVSRARRVQFFLSQNFHVAEQFT
+GQKGSYVQVKDTVQDFKEILEGKYDHIPEDAFRLVGPMSDVLKAAKEMGVEV
+>tr|A6CN07|A6CN07_9BACI
+MASEMKIDHREKAYQLLKADAEKILKLIKVQMDNLTMPQCPLYEEVLDTQMFGLSREIEF
+AVRLGLVDEVDGKTLMDSLERELSALHEASTKK
+>tr|A6CMU3|A6CMU3_9BACI
+MTVDYGELPDQKILCIDMKSFYASCSAVMLGLDPLECYLAVAGKLDRPGSVILAASPKLK
+KEFGVKTGSRLFEVPKDPKIQVVEPAMATYIRISTEITRLFHRYVPKDAIHTYSVDESFL
+KIDGTSNLWGDAHTIAWKIKQDIEREFQLPCAIGIGPNMLMSKLCLDLEAKKHGVAEWTY
+EDVPEKLWRVSPLSEMWGIGRRLEKTLNRMGIFNVGQLAKYDLEKLEKKFGIMGNQLYYH
+AWGVDLSEIGAPIMEGQVSFGKSQVLLRDYKEEEEIKSVILEICEEVARRTRNHRQAGRT
+ISLGIGYSQEEFGGGFHRSRSIEEPTNITMDLYKVCLELFKENYNGKTVRNISISISNLF
+PDESMQVSLFEPDRWKKRELGYVVDQIRHKYGSGALLRAISYTAAGTAKHRATLVGGHKA
+>tr|A6CSA1|A6CSA1_9BACI
+MSVHLENASPSQTMTYKQFSQLKDRDAGLRKLERIAVSNLQNCLRLLKHNLAHDIKFFRF
+SSKLIPLANHPDLKDWKFMRAVKEPLEDIGNFIKEHPQRVGFHPDHFVLLNTNNKDTLKN
+TLQTLKIHEALLKGMDVDPKHRCVLHVGGAYEDKEKALEQFIHNWGLTPVSLQDLIILEN
+DDTVFTLHDTLYLCEKLGIPMVFDYHHHLAHHEKDWEEDWERVVGTWADSPLPVKMHISS
+PRSEKEYKAHAEYIDPAMFMDFINGIKGSVGEIDCMIEAKKKDDALFRLVKDLKDNETIR
+WIDQASFEIL
+>tr|A6CHX6|A6CHX6_9BACI
+MTIGSKIRYHRMKKKLTQEELATGILSVSYLSKIENNQTTASSEVIELLCKRLGIELLQE
+NDEALKKTFSDWNKALLRNDLEEAVRLFELVSGHVIQIDDINLLNSYHILMIRYHILLKE
+FEQPREIIASLEKSYKGLSDRLRFYFHKFAGNFCYIQGQFEKANNHLVEAEHYFVLGNII
+DHEEKADLFYLKSLTLVQLRKHALAIHYSEESLALYQSLYHNKRCAEIHLLLGVCFRRIQ
+NIKEAITHYEWANEISINTGYSSLRGKVEQNLGYLKSMDNRTEDAIAHYLKSLQFKHEDQ
+NSKLTTILSLVKEYYKLKRFDEVMQWLQEGIHLSLQENNKEKYYEFRIYEFAVEKLDEEF
+EHFMKTEALPYFENTGNPHLLAQYSKFLGTYYQEIRKYKYAAHYLTKANVAYEKIIGL
+>tr|A6CS59|A6CS59_9BACI
+MSNSLSLFNLEKNFQEAHEGLSSREAVEEANRCLYCYDAPCIQACPTGIDIPSFIKKIAS
+GNLKGSAKTIMLSNPVGASCSRVCPTDELCEGACVLNHSTKPIMIGDLQRYATDWARHNE
+EVLFEAGEPNGKTVGIIGGGPAGLSAARELARFGYEVTIYEAEKEAGGLNTYGIVSFRLP
+QSVSFWEVDQVKKLNVEIKTNTRVGRDVSAEELVNKHDFIILAAGMAHVPNLRIDGEDLE
+GVHDAIEFVKATKSGEISKDYIGKKVVVIGAGNTAIDGATCSVRLGAENVKILYRRTQEE
+MTAYDFEYEFAKQDGVEFRWLTAPKRIIGNDEGKVTGIECIKMELGEPGEDGRRRPVPVK
+GSEFILPVDAVIKAIGQTRHQSLIDQFDLDHRDGVVQVNRETFQTSNPKVFACGDIVFGK
+GVGEAMVVTAAEQGKQTAHHLHKQLTKVQLN
+>tr|A6CM94|A6CM94_9BACI
+MIKIMATKRLDKDASIAVYLRKSREDANQEDTLSKHRQQLKEYVSSNGFNNVTWYEEIGS
+GDSIEGRPVFKSLLPMIEQGKFDAVLVVAQDRLSRGSQIEAGIIQEAFEESGTILLTPSR
+SYNWEDEGDIMLSEFESVISRNEYRAIKRRLKQGKINAAKEGRLHSGNPPFPYYWDKNTK
+TAEVDEEQAKIYRLMVEWYVKDGLSGVEVAEKLNEMQIPTPRKRGNWGKWRSEVVTRILL
+NDFHLGFVCYGRYKLNKNGNVERNPDPDSAIVVRGNHTPLKTEEEHAAIMKHIASLRTHN
+RQDRKTRKDSFRLSGLVRCPYCGKCQSVYKQKGKKEHLAKCYKKSQTRTAACDTTKGIYE
+EEVFQAVLRYMREYKEELFSPSEINEQQTESSLQSLIEIQEKIVEKSERRIEKVKEMFKN
+DLIEIQELKNDISTEEAAIKKAENQISELKKSSSYLDKAEEEKRRQQWSSADVERLLSGD
+EMQPSEINAILRRLIESISFTIEQTEAGTLDLNVTVTPK
+>tr|A6CIN3|A6CIN3_9BACI
+MKLQEQVVLVTGGSRGLGKETVAAFAREGARVVINYFNSEEKACELQREIGERAIAVRAD
+VRDAKQVQDMFAEAKDRFGSPVTTIINNALVNFQFDPVSKKNAETISWDDYNLQLEGAVR
+GALNTTQAGLQDMKEVGFGRIISVGTNLFQNPVVPYHDYTTSKAALLGFTRNMANELGQY
+GITANMVSGGLLRVTDASAATSKEVFEIIESSTPLKKVTDPAEVADAIVFFASPWARAVT
+GQNLVVDGGLVMN
+>tr|A6CSE9|A6CSE9_9BACI
+MGLIVQKFGGTSVGDIERIKNVAGRVIDEKKQGNDVVVVVSAMGKTTDGLVDLAYQASAK
+PSKREMDMILTTGEQITISLLTMALQEMGYDAVSMTGWQAGIETEGIHGNARITNINTER
+INHNLSENRIVVAAGFQGLADNGEITTLGRGGSDTTAVALAAALKAERCDIYTDVDGVYT
+SDPRYVKSARKLASVAYDEMLELANLGAGVLHPRAVEFAKNYGVPLVVRSSMEKLEGTII
+EEEVSMETGLIVRGVAFEEEIIRMTVLGLQNEITSLSSIFTTLAQNHINVDIIIQSKTET
+DSINLSFSIKRNDLEEAIEVLQSNREELGFSSIEHESGLAKVSIVGSGMISNPGVAAQMF
+EVLAKNEIPIKMVSTSEIKVSAVVDETHMLKAAEVLHTEFNLDKTEKPQKVSAK
+>tr|A6CT68|A6CT68_9BACI
+MTQEGLARKIGISVSVLGEIERGSRLPTEDFLDKVAEILVVPRGELEPSDDN
+>tr|A6CJH2|A6CJH2_9BACI
+MENIKVNQVLDAKGLACPMPIVKTKKAITNLEAGQVLEVEATDKGSKADIKAWAEKAGHQ
+YLGTIEEGDVLKHYLRKASGEETTEKKHPNVVNNEELEYKLGSNVV
+>tr|A6CRJ0|A6CRJ0_9BACI
+MKINRVRYLKGPNYFSYKPTMWIELDLEEYEYLPSNEISGFPHTLETLIPSLKTHTCSRG
+YEGAFIERLHEGTWMGHILEHISLELQHLAGIKVKHGKTLTSSKKGIYFVTFEYKEKKSG
+FYSFQAAMEIVQRILDGETSFSIEPYIEKTASLYYEHKLGPSTEAIYSAAIEAKIPVERV
+GTNSMLRLGTGSKQRFVQATITSQTSHLAVENACDKDAAKQILQQAGLPVPKGEPASSTE
+EIFAAAERIGYPLVLKPLHGRQGKGVITNIKTREELFNAVHCLERLEDEYIVERFFEGSD
+YRLLIINNKLSAASLRTAPFLIGNGKDTIEKLIEVENQNPLRGVGHEKPLTKIPFNHTVK
+CFLESQNLSFQSILEKGQVIQVVGSANLSTGGQAIDVTDEVHPSIKTIAESAATAIGLDV
+AGIDLICPDITKPFDPLTTAILEVNAAPGIRMHLYPAKGKRREAGKEIVNYLFTKRSEAA
+IPIISVTGTNGKTTTTRLVKHLLEGSGMTVGMTNSDGVYIGAKQVDSGDCSGPISARKVL
+RNPQTDIAVLETARGGILREGLAFRYCDVGIVTNVSEDHLGLDGIETYEQLVKLKRLIPE
+VVHEKGFCILNADDESTVNMATHTKGTVIYTSLNESNPYIEKAVAERGTAWYVNEDGCII
+FHNRGTSHTFLPIREVPITINGTAKHNVSNLLQALAAAHSQGISLEELKERALTFNPDAK
+HSRGRFNRTRVQGKEIIIDYAHNQAGLKAIYDAVEHIERNRTITVISAAGDRQDSAIRQM
+ARIASANSDHLIIKEDKDLRGRMTGEVPMLMMEEAETYYRTSDYSTIIIDEEQAYQYAWD
+HSNEGDLLLFLYESFSIAENFIKRIQSTELYSDASE
+>tr|A6CMT0|A6CMT0_9BACI
+MSKQQIGVIGLAVMGKNLAWNIESRGYSVSVYNRSREKTDEMLQESEGKNVVGTYSIEEF
+VQSLESPRKILLMVKAGGPTDATIEQLKPHLDKGDILIDGGNTFFEDTRRRNHELSESGI
+HFIGTGVSGGEEGALTGPSIMPGGQKEAYELVAPIFKDIAAKVNGDACTTYIGPDGAGHY
+VKMVHNGIEYGDMQLIAESYFLLKNVLGFNAEELHETFAEWNKGELDSYLIEITADIFTK
+KDDETGKPMVDVILDKAGQKGTGKWTSQSALDLGVSLPIITESVFARFISSIKDERVKAS
+KILSGPEAKPFDGDKEALVESIRKALYMSKICSYAQGFAQMRAASEEYGWDLSYGEIAMI
+FRGGCIIRAQFLQKIKEAYDKEPGLSNLLLDDYFKEIVESYQYALRDVISTAVQNGVPVP
+GFSAALSYYDSYRTETLPANLIQAQRDYFGAHTYERTDKEGVFHTEWMSE
+>tr|A6CMF4|A6CMF4_9BACI
+MFIKIRRYRPPKVRVKNLTFGGVFMAKYNEEFKKKVVTEYLEGNIGYGSLAKKYNMGSQT
+TIRDWVNVYKSQGMDGLIRSITKKSILFNLN
+>tr|A6CPW1|A6CPW1_9BACI
+MNGKIKLIIILSVTLLLCLTSINILLSYFTAKKAAEISVANNALEIAISIAESMDVAAYE
+RFLENPERNEDYWKIREKLYSAKQNTAALYVYTLAFEDPKSPPKVMIAGFPRDNNPYYEI
+GMDCMVPLNQIQRAFNGESYFTGKIDDPHYGEYISAGTPIINNQGETIGFLSIDISTSRL
+DRIGDTVIKNSIPGFILSGLLVIALLTTFVLIQKWYNHELKKQIGDTEETYHTEIQSLIT
+SVRSVRHDFANHIQVLNGLLKLGKHQDALDYSNSMREEAQLLYQIPIRSNNPALSVLFQT
+KTLAAQSQNIDIHFHHSDSSFEKVLPTDLIKLLSNLVDNAIDAASELPKETRKIEVWCEE
+NSAGYRFTVSNSGPVIPPEVKEKIFTPGFSTKTKNHSNNRVRGQGLYIVKQIVEKYNGRI
+SLESNEERTTFEIRIPS
+>tr|A6CPX7|A6CPX7_9BACI
+MVNDKVVLITGAAQGIGFEIAKDFAEQGAKVVLTDLQEDKVKASAEQLTGLGFESIGIKC
+DVTSEEDIVQAIQETVEHYGTLDILINNAGLQYVSSIEEFPTEKFELLVKVMLTAPFIAI
+KHALPIMKKQGFGRIINMASINGLIGFAGKAAYNSAKHGVIGLTKVAALEAAEHGVTVNA
+VCPGYVDTPLVRNQLGDLARTRGVELEKVLEDVIYPLVPQKRLLSVKEISGYTIFLCGEG
+ARGVTGQAVVLDGGYTVQ
+>tr|A6CSN0|A6CSN0_9BACI
+MKFVFDLDGTICFKGQPVTERILEALERLTEEGHEVIFASARPIRDMLPVLHPRFHMHTL
+IGGNGSMIHRDGDLVFSQAFRDEDIDYIKRLIEKYEATFLIDGDWDYCYTGPVNHPILGN
+LDQANLAKSVLIESLNSILKVLILTANDFEKLAEELSEIDVTLHTHRNEKVIDISPNDID
+KWNALRKIGIGESEYIAFGNDANDITLFQHANHAVMIGHHEELSGFAAEAIPLQGDYEEN
+IIRKLEELADRHRFSLA
+>tr|A6CSW1|A6CSW1_9BACI
+MNYGVVVFPSKSLQDKANAYRKRYDPHYALITPHLTLKNVFSAGDSEIKDIAGKLREIAK
+RYDPFNMRVYKISSFQPVNNVIYFKVEPTPELEGLHKDMHSPEFNGQEPEYAFVPHITVA
+QNLSDDEHSDVFGSLRMLGVDHEETVDRFHLLYQLENGSWTVYETFRLGKE
+>tr|A6CTI9|A6CTI9_9BACI
+MPKLSQPNQQTKEQVKKWIKAYQEDNDDEAQSNLVLHYENLVISIARKYSKGKSFHEDIV
+QVGMIGLLGAIRRYDDSFGKTFEAFAIPTIVGEIKRFLRDKTWSVHVPRRIKELGPKIKS
+TVEELTNTLERSPKVEEIADYIGVTEEEVLEAMEMGKSYQALSVDHSIEADSEGSTVTLL
+DIVGNVDEGYERINQKLVLEKVLHVLSERERLIIQYTYLDNLSQKDAGEKLGISQMHVSR
+LQRRAIKKLKEAIDAEMRNSESHSG
+>tr|A6CLX4|A6CLX4_9BACI
+MNSTIETILSHKSVRKFKDEELTREQIETLVRSAQAASTSSMIQAYTIIGVTDPKKKAEL
+AAIAGNQSYVEENGHFFVFCADLYRHEVIGENEEADVTESLQSTEKFMVAVIDAALAAQN
+ASVAAESMGLGICYIGGIRNDLNAVCEVLEIPDRVIPLFGLAVGTPDEDNDLKPRRPLSH
+VYHENAYRSDKETVAKELEEYDATISEYYSERTNGKRTDTWSAQMARMLSAKKRMYMKEF
+VEKKKYDLK
+>tr|A6CRN3|A6CRN3_9BACI
+KGQGLVKAQASLKSQEHNHTAQFEKEVPKEQTEKEEFRSYKNALSHVYLNVLQDYTGIVQ
+PWGILTGIRPTKLYHKSVREGTPREEIRRKLKEDYLITDEKIDLMERIVDRQLSVVPDLY
+SLQKEISIYIGIPFCPTKCAYCTFPAYAILGKQGRVDSFLTGLHYEIQETGRWLKENGVK
+ITTIYYGGGTPTSITAEQMDLLYEEMYRSFPDVDQVREVTVEAGRPDTITPDKLEVLNKW
+NIDRISINPQSYTNETLKAIGRHHSVEETIEKFHLAREMGMKNINMDLIIGLPGEGVDEF
+SHSLNETEKLMPESLTVHTLSFKRASEMTRNKEKYKVAGREEIERMMALGDQWTKEHNYA
+PYYLYRQKNILGNLENVGYALPQQDSIYNIMIMEEMQTIIGIGCGAASKFIDPETGKITH
+FANPKEPKAYNEGFKNYTEKKLQILDELLN
+>tr|A6CQ82|A6CQ82_9BACI
+MLQKAAGKPVNFKEMAETLSSVIIANVFVVSRRGKLLGFAVNQKIENERMEKMLEDRQFP
+EEYTNSLFNIQETSSNLDIDSQYTAFPVENRELFKNGLTTIVPIIGGGERLGTLILARLE
+DSFDDDDLILGEYGATVVGMEILREKSEEIEVEARSKAVVQMAISSLSYSELEAIEHIFE
+ELDGNEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGMKGTYIKVLNNKFLVE
+LDKLKTN
+>tr|A6CHT5|A6CHT5_9BACI
+MVKELEAGTVQVLTVDREVDFGYFLTNGEEDVLLHYSQVEGEIEVEDEVKVFLYHDKEVR
+LTATMNIPKVQIGSYAWTEVVDVNSGLGVFVDIGLQKDILVSSDDLPIYEDLWPAPGDKL
+YLSLRPDKNGRLYGKLATEDIIGQVARRASQDMMKAKVQGRVYRLLRVGTFFISEQGYRC
+FVHENERRQEPRLGELVEGRVIDVKEDGSLNVSFLPLKQDKMGEDADIITDYMDSRGGSM
+PLWDKSQPEEIKDKLGLSKASFKRAMGKLLKEGRVYQEEGWTYYKK
+>tr|A6CLA1|A6CLA1_9BACI
+MNEQMIPKESYSYWRKAAEEKGLGFEKLGSQTYHADVTIVGAGITGIIAAYLLSREGKKV
+VLVEGDRVMNGTTGYTTAKISAQHGLIYDELLKHHGEEKASLYYQANVEALNFIEKLIEE
+LNISCEFTKLPSYVYSETEKGSEEIRMEAEAYQQLNIPGELTEETDLPFQVTSALKMPNQ
+AQFHPVNFLMPLLEEITSNGGTIFEHTRVTRINGENPVEVVTEDGGKITSQKVIVSTHFP
+INDFRGFYFSRLDIERSYTLAAKTDDEIPDGMYLSADQPKRSIRYSTDSNGGKMILFGGD
+SHKTGEGGDTTDHYHNLQHFAEKHFSIKDYPYRWSAQDLTTLDKVPYIGPVTEHQPNILV
+ATGYAKWGMTNGTAAALLIADLVQERDNLFEELFTPSRFNANPAVKNFVKENADVAMQFV
+KGKLGKPDKKLEELEKGEGSVVTVDGKRAGAYRNENGEVTVVDTTCTHMGCELGWNNAEK
+SWDCPCHGSRFSVCGDVIEGPAVKPLKKIYE
+>tr|A6CNI9|A6CNI9_9BACI
+MNFNLDEAVEILERTPQTLEHFLSGLSENWILSDEGEGTWSVIQIIDHLIEGEKTNWLPR
+LEMMVSGENETFPPFDRFAHLKQDSKGSLEQRFQEYRRIREVNILKIKQMINPESHLDLT
+GVHPAFGQVKVRELLSTWVVHDLTHISQIVRIMAERYREDVGPWVEYLGILKK
+>tr|A6CSF7|A6CSF7_9BACI
+MKDNEFTHKPLLTKREKEVFELLVQDKTTKEIAGELFISEKTVRNHISNAMQKLGVKGRS
+QAVVELLRMGELKL
+>tr|A6CRV0|A6CRV0_9BACI
+MKRVAFHSLLILLKYRKKCKNAGGLGMKPYVYVTRKLPEEVLTSLQEKYEVEMWDDENIA
+VPREILLEKAGEASGILSMLSDPIDRELFEKSPNLKVVANLAVGFDNIDLKAANEKDVAV
+CNTPDVLTDTTADLTFGLMMAAARRLIEADKYVREGKWKSWSPLLMAGTDIHHKTVGIIG
+MGSIGEAFARRAKGFDMNILYHNRSRKPEAEEVLGAKYASLEELLSQSDYVVCLAPLTPE
+TKGLLQKEQFEMMKSSAIFINAARGPIVNEEALYRALVDGEIAAAGLDVFEKEPIDKTHP
+LLSLDNVVALPHIGSSSVETRMEMMELCISNIKAVLEGGTPKTLVNKEWQK
+>tr|A6CNV8|A6CNV8_9BACI
+MKKNNKKKKKTHVPVRMNILFFAVFLLFSLLILRLGIVQIVSGEEYKREVERTEDVLVNN
+SVPRGKIYDRVGNVIVDNTPMNAITYTRTQSTKTTEIIEVARKLAQLIDMETEAVTERDK
+KDYWMLINKEEAAEKVSEDEKAKISSDEELSQDEANSKIYKLTLDRITEEDLATLSQQDM
+EDLAIFREMNSGYALSPQMVKNKGVTQEEFARVSEHLSELPGVNTTTDWERTYVFDKTLR
+SILGNVSSSREGLPSELVDYYLARDYSRNDRVGKTYLELQYEDVLKGQKEKIKNITKNGS
+VLESVLMQEGQRGKDVVLTIDMELQQEVEKIVTEELLKNVNNPQSSHLDRAFVVMMDPNN
+GEILAMVGKRYAKDPNTGEYGIQDYALGTYTSFYEVGSAVKGATVLTGYMTGVLSPGQYL
+VDEPIDIAGTQVKTSWFNKYRKQSMNDLFALEKSSNSYMFKIAMKIAGNPVYYPKAPING
+SLSDLNNMRNHFNQFGLGVKTGIDLPGEVEGYKGAFTNPGNLLDFAIGQFDTYTPLQLAQ
+YVSTVANDGYRIQPHILKEIRKPGSDNESMGAIETVKQPEILNRVNVTQSQMEHVQKGFY
+QVYHYPDGTAYREFNDAPYVAAGKSGTAQAKYRDPVSGRYYDTYNTTLIGYAPYDQPEVA
+FSTVVPWSHNGNQDPYINKIISRKVMDKYFELKKQREDEGMNSSEVERKVENVDDAEQMQ
+EETREENADGETTEEDTNEE
+>tr|A6CQV5|A6CQV5_9BACI
+MIKYTLRRLAYMFLTIAIIATATFFLMKLLPGSPLTNQEKLSPEQQQIILDKYGLNDPLP
+VQYVNYMTNLAQGDLGLSFQYDNRPVTQIIGDRIGPSAQLGFQAIVLGTIIGLALGIIAA
+LRHNSWVDYGATTIAVLGISIPAFVFAGLMQYYIGVKLQWLPVALWGEFKHTILPTLALT
+VGVVATIARFMRTEMLEVLGSDYILLAKAKGISKTATVLKHAVRNAMIPIVTILGPMTVG
+IMTGTLVIEQIFAVPGLGFQFVSSINTNDYTVIMGVTLFYSVLFVGVIFLVDILYGIIDP
+RIRLAGGKK
+>tr|A6CTY4|A6CTY4_9BACI
+MESTKVLDAKGLACPMPIVKTKKAINELQSGEVLEIHATDKGAKSDLTAWAKSGGHELVK
+HEEDNDVFKFWIKKG
+>tr|A6CHJ2|A6CHJ2_9BACI
+MSLEFELEDVSKDKIFEKYEAKFKAIADKKRLHIMNILTEKGEMCVCDLAPLMDMSQSKL
+SYHLKILLDANIITKQTRGTWSYYNLNPEEINHLLSEELCCLFRKSCC
+>tr|A6CMI0|A6CMI0_9BACI
+MILALTVLSLLLFSGGFFGITWNMVITANLVFLLLSLIDLAISPRENEISVKRKMPEEME
+RALQYDVEVNITSNSPHGFSYKVVDGLPQSFQRPFPLKGSAGEGATAFSYKTAAPVRGRY
+SIEKLYLRYRSRLGLWEKQKTFTVEESVKVIPDLSDTKRFLEDAQQFLLYEGLKIRKMKS
+GAGEFSKIRNYAVGDDPRMINWRQTAKLREVMTNEYEPEHGKYITVLIDCGRMMGAELTK
+GNRLERALEAAMTVSAAALQKGDYVSVLAFSRDVKVFVPPAKGMAHLQTILQSIYNLEVD
+SAESNYAAVLSYLQTVQKKRSLLLLFSDVGSFLHEGGALNYLHRLRQRHLFLMLGIEDRT
+LLSRAAEEPQTVKSTMIKSMAQKQLLVKKREKAKWEKRGLQMAEAREEKLAAAAVSHYID
+IMNRGLL
+>tr|A6CSY1|A6CSY1_9BACI
+MGATGSIGLQTLDVIREHEDEFDLTAVSAGRNIAETKKIINEFRPKVVSVQLKEDALSLQ
+NDLPPGTKVLWGEEGLLEVACHQDSDILVNAVLGSVGLYPTLQAIESGKTIAIANKETLV
+TAGHIVMDAARKNGVSLLPVDSEHSAIFQCLQGEDHKTIDSLIITASGGSFRDRTRDELE
+GVTVDEALNHPNWSMGAKITIDSATMMNKGLEVIEAHWLFGIPYNDIKVLLHRESIIHSM
+VEFHDSSVMAQLGTPDMRVPIQYALTYPDRFERHQGSRLNLAEIGKLHFEEMDFERFRCL
+RFSFEAGKAGGSMPAVLNAANEAAVARFLNGEISFLQIESLIERALDKHELIKQPDLDTI
+RTIDAETRRFVQSMHLD
+>tr|A6CPW8|A6CPW8_9BACI
+MVKEDRMTNSHKQDQAGWNLDNSYAKLPDDFYTSQKPTPVESPELVAFNSAVAEELGLDA
+EVLRSQPAVFAGNELPHGSEPLAQAYAGHQFGHFNMLGDGRAVLLGEQITPEGKRFDIQL
+KGAGRTPYSRGGDGRAALGPMLREYIISEAMHALGIPTTRSLAVVTTGTDIVREEMLPGA
+ILTRVAASHIRVGTFQFAANFSDEEELKALADYTVDRHYPELKGDENPYLALLKKVMERQ
+AELVTRWQMVGFIHGVMNTDNVTISGETIDYGPCAFMNTFDPATVFSSIDREGRYKYGNQ
+PPITGWNLARFAESLLPLLHEDQEEGLKLAQEAISEFPKLIHSKWLSGMRKKLGLFNEEK
+QDKELIDILLGKMHEHKADYTNTFAALTFDKPEETVLHDKPEFDRWYAIWKERLGRQEES
+FEEAQELMRKNNPAIIPRNHRVEEALEAAVENGDLSVMERLLEALSDPYAHSPEQAEYAK
+LPPESHGPYQTFCGT
+>tr|A6CQK1|A6CQK1_9BACI
+MGKEFVKSITGMDEDFAQWYTDVVTKAELIDYSSVRGSMIIRPYGYALWENIKEELDKRI
+KETGHENVYMPLFIPESLLQREKDHIEGFAPEVAWVTHGGDEELQERLCVRPTSEVLFGE
+HYKNIIHSYRDLPKLYNQWANVVRWEKTTRPFLRTLEFLWQEGHTCHETDEEAHEETVKM
+LEVYAELCENILAIPVIKGQKTEKEKFAGAKYTYTIESLMHDGKALQSGTSHHLGDGFAK
+AFGIQFSDREGNLQYVQQTSWGFTTRIIGAMIMVHGDDRGLVIPPKAAPTQLMIVPIAQH
+KEGVLDFAYNLKERLAGSFRVGIDASDKKPGWKFNEYEMKGIPLRLEAGPRDIENNQVVI
+ARRDTGDKVTVGLDELENRVAQLLDDVQNNLFKKALKHREEKTSVALDYTDFAEKLNTNK
+GFIKAMWCGDRACEDKIKEETGATSRCIPFEDEKVSEECVCCGKDASQLVYWARAY
+>tr|A6CQ55|A6CQ55_9BACI
+MEKISFDQLQEELFYEKMDNGLQVYVLPKKGFNKTYATFTTKYGSIDNHFVPKGSKEYTK
+VPDGIAHFLEHKLFEKEDEDVFQKFSKQGASANAFTSFTRTAYLFSSTSEVEKNLETLID
+FVQAPYFTESTVEKEKGIIGQEITMYDDNPDWRLYFGVIQNMYKNHPVKIDIAGTIESIS
+HITKDMLYQCYETFYHPSNMLMFIVGPVDPEKIIQQVKDNQSKKNYEEMDEIKRNFDEEP
+VEAAEKKQVLHMNVQTPKCLVGVKAINTEAQGEEMLRNELSMNIALDMLFGKSSENYFSL
+YNDGIIDETFHYDFTQEKGFGFAILGGDTQKPDELAERITNILLDANAGNALTEEALERT
+KKKKIGAFLRAINSPEYIANQFTRYAFNEMDLFNVVPTLEKITFEDIQSVVAKFFEEERF
+TVCQVLPKEK
+>tr|A6CRS5|A6CRS5_9BACI
+MTVNKKNIIKLLETIAIYMELKGENTFKVSAFRKAANALETDDRSLNEIDSFTAINGIGK
+GTAAVIEEYITDGKSSVLEELQQEVPDGLVPLLKLPGLGGKKIAKLYQELNVTNIEDLKD
+VCEAGKVSSLSGFGKKTEEKILAAIESAGSQPERLPIAYMLPVAEKIEEALSKMKGIKEY
+SRAGSLRRMRETVKDLDFIIAVEDVQAVKEQIMNLPDIKESSAAGDTKISLIFRYEWEVS
+VDFRLVKPEEYATALHHFTGSKDHNVRMRQIAKERGEKISEYGVENAETGEMATFRSEEE
+FFDHFGLPWIPPELREDGREIEHYSQDYGLIELKDIKGDLHMHSTWTDGAYSLEEMIEAC
+REKGYKYMAFTDHSQYLKVANGLTAERLLKQRDEIRKLNDKYDDITILSGIEMDILPDGT
+LDYEDEVLEQMDLVIASIHSSFSQSRDKIMDRMKTALKNAHVDIIAHPTGRIIGRREGYD
+VDVDMLIELAKETGTALELNANPNRLDLSSENIKKAVEAGVKIVINTDAHSIDHLEFMEV
+GVGAARKGWVKASSVINTYESDDLLKFLKRNDG
+>tr|A6CJM8|A6CJM8_9BACI
+MNIKKSFNLLPQEIYELPTLELAKRLLGCLLVKETSEGTTSGYIVETEAYLGPEDRAAHS
+FNNRRTKRTEIMFAEAGRVYTYVMHTHCLVNVVSGPPGKPEAVLIRAVEPAEGKELMLKR
+RPKQGRELTNGPGKLTKAMGINMEDYGGHFTKSPLFIAEGYSPVSISTGGRIGIGNSGEA
+RDYPYRFWISGNEYVSR
+>tr|A6CTU6|A6CTU6_9BACI
+MSPSGYYAYLKRPKRSASSEEKETLKAIKKVYRAEKGTYGSERISKVLKAKGQIVNHKRV
+ARLMKEANLKAVVRLPKTNEESKGKSTGTVYPNLLERDFEAQHPNQKWVTDMTEVIHRGE
+KLYISALMDLFNREIIAFKIGLSPNKQLIEDTIKAAKKKRKLKNLEGVLIHSDQGSVYRS
+LMYRSLKKEFKFTPSMSRKGNCWDNAVIESFFSQLKTEFPCFYPVNKDSNILQINLLKYI
+KRYNEKQIHSKIGFVSPKQFLKDYLKTA
+>tr|A6CTZ2|A6CTZ2_9BACI
+MAEALLRHKGKEEFNVKSAGVFAAEGQKASFQTQEVLKENKITHEHISSLLNHEDIRWAD
+YIFTMTEGHKQTIVAMHPQAADKTFTLKEFINEGELDRDVSDPFGGSLEIYRETYKELDG
+LIDSLTKK
+>tr|A6CHK4|A6CHK4_9BACI
+MIKVLIIEDDPMVAEFNKRYLEKVEGFTLVDVVNSVKEAKLILDTQQVDLILLDVFMPAG
+NGLELLSDIRERGLAVDAILITAASDTEKIQSALRFGAIDYLIKPFEFERFKQALLRFKE
+KYSVFNRNENLSQAEIDERLFEPESGQKESQKSLPKGLTKSTLHIIIEKVRELKQFSTDE
+IAEHTNISRVSVRKYLVFLTEINVLEESLIYGIGRPVYQYSYIENEKVLQGYL
+>tr|A6CJR8|A6CJR8_9BACI
+MFELDLRSRKPIYEQLVEKLKELIINEILKADEQLPSVRTLAGELTINPNTIQKAYRELE
+NQGYIYSVKGRGSFVNPAAHTQNSEKMKNVISELEKLIAEGMYLGISSAEIIELIKKIEQ
+KVGGGDSYDSTS
+>tr|A6CKF6|A6CKF6_9BACI
+MLKQGIYEEIITKKLQEELSGSDMDFDIGKSLLDVEEARKVLSSYISSVTRNALKAVRDE
+ERNDGQALLRQIETCNEIITILSQRLDRQEFERLKIAEEGEVLTHIYSRMNSIRSIGNQE
+VTRPVTPISESSLFTGSSYEPNMLGELKKEIVSSNSIDMLVSFIKWSGLRIILEELKTFT
+EGGGRLRVITTSYMEATDYKAIQELSKLPNTEIRISYDVQRTRLHAKAYLFKRDTGFSTA
+YIGSSNLSNPALTSGLEWNVKVTEKDSFDVLKKCEATFESYWNDKEFKAFNGENEEDNLT
+LKLALEKSKVAEESVQYLFDIQPYYYQKEILEKLQAEREVHHRYKNLLVAATGVGKTVIS
+AFDYKRFRKANGGKAKLLFVAHREEILKQSLHTFRAVLREPNFGDMLVGAQQPSSLDHLF
+VSIQSFNSKELHQHTESGFYDFIVVDEFHHAAADSYQKLLNHYQPQILLGLTATPERMDG
+KSILSYFDDHIAAEMRLTEAVNQKLLSPFQYFCVTDTVDLSNLKWTRGGYDTKQLENVYT
+SNHLRSSQIVQSIQKYVTDISDVKGLGFCVSIAHAQYMADFFNQSGIPSIALHGGTDRKS
+RLEAQQLLVSGDIKFIFVVDLYNEGVDIPEINTVLFLRPTESLTVFLQQLGRGLRLSEDK
+ECLTVLDFVGQAHRNYSYEEKLRALIGKSKHSVQYYVENGFFNLPKGCFVQLEKQAKEYI
+LRNIKTGVNNKANLVAKLKTFQHDTGKPVTLKNFLEHYHLDLYDFYGGNKNRSFSRLLVD
+AGLAEDFTYEGEQWLTSRLPNLFHLNSRKLLEFLKDYMETEEVNRKEEELMLNMFYYSFY
+QAHPEKEGLSSIKEGIEKVLEHPAFKEEIKQIVEVLYDSLETIELKPNFTFPCPLQVHSR
+YSTAQVLAGFDYNNEEQSPAFREGVKYFKDKNLDIFFITLNKSEKDFSPSTLYEDYAINE
+KLFHWQTQSKVSEESPTGQRYIHHRQTGNKIALFVREYKKEKGSIPSPFVFLGTANYIKH
+SGNKPMSFVWELEEEMPSYLVPRANKNIL
+>tr|A6CSW6|A6CSW6_9BACI
+MENNIAKMIDHTLLKADSTKDQVTTICEEAKEYNFASVCVNPGWVKYSAELLQGTDVKVC
+TVIGFPLGATTSETKAFETKDAIEKGATEVDMVINIGALKDGNDDLVKKDIQAVTEAAKG
+KALTKVIIETSLLTDEEKERACRLAVEAGTDYVKTSTGFSTGGATIEDIKLMRKTVGPDI
+GVKASGGVRSVEDAQNMIEAGATRIGASSGVQIVQGLTSDSDY
+>tr|A6CP62|A6CP62_9BACI
+MGENLNLFTSTQHVINDALGKLGYNEEMFELLKEPIRMLTVRIPVRMDDGSIKVFTGYRA
+QHNDAVGPTKGGVRFHPEVDEEEVKALSMWMSLKCGIVDLPYGGGKGGIVCDPRTMSFTE
+LERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLRENDSPGFITGKPLVL
+GGSQGREKATAQGVTICIEEAAKKKGIDLKGARVVIQGFGNAGSFLAKFMHDAGAKVIAI
+SDAHGALHDPKGLDIDYLLDRRDSFGTVTTLFENTISNKDLLELDCDILVPAAISNQITE
+SNAYNIKASIVVEAANGPTTFEATRILSERDILLVPDVLASAGGVTVSYFEWVQNNQGYY
+WTEEEVNEKLHKKLVDAFNNVYETSMNRRVNMRLAAYMVGARKMAEASRFRGWV
+>tr|A6CQP0|A6CQP0_9BACI
+MEKQKVVIIGGGITGLTSAYYLQKEAEKTGRPLDIKLIEASHRLGGKIQTVKRDGFVIER
+GPDSFLERKTSAARLAKEVGLDNDLVNNSTGTAYVLVNGELHPMPGGSVMGIPTQMAPFV
+TTGLFSMQGKARAAADFILPKSKVEGDQSLGEFFRRRLGHEVVENLIEPLLSGIYAGDID
+KLSLMSTFPQFYQVEQKHRSLILGMKKTTPAPQKGGKKKAIFLTLTKGLQSLVDAIEERL
+HPDSVLKGVRVEQIEKAENNGYSLFLNNGESLDADSVIVTTPHPTIPTMFPQHNLFEHLK
+SIPATSVATVAMAFPQEAIKKDIDGTGFVVSRNSDYTITACTWTHRKWPHSTPDGKVLLR
+CYVGRAGDEAVVDLSDSQIEKIVLQDLNKIMDITMNPEFTIVSRWKDAMPQYTVGHKDRL
+EKMRVNVNRELPGLFIAGSSFEGLGLPDCIDQGEKAVRNVLEYLS
+>tr|A6CKZ4|A6CKZ4_9BACI
+MLLDADIKAQLAQYLELLEGDILLKVSAGSDETSRDMLELVDELATMSSHIKVEHAELER
+TPSFSVNRIGEDTGVTFAGIPLGHEFTSLILALLQVSGRAPKVDESVLEQVKNLKGEYHF
+ESYISLSCHNCPDVVQSLNLMSIFNEGITHTMIDGAAFKDEVESKEIMAVPTVFLNGEEF
+GSGRMSLEEILGKLGGGPDAAELSGKDPYDVLVVGGGPAGASAAIYTARKGIRTGIVAER
+FGGQVMDTLGIENFISVKQTEGPKLVASLEEHVKDYGIDVMNLQRAKRLEKKDMIELELD
+NGAVLKSKTLILSTGARWRKVGVPGEEEFKNKGVAYCPHCDGPLFEGKHVAVIGGGNSGV
+EAAIDLAGIVKHVTVIEYNSELKADAVLQDRLYSLPNATVIKNAQTKEITGTDKVNGLTY
+IDRDTEQEQHINLEGVFVQIGLVPNTDWLGDALDRNRMGEIVVDKHGATSMPGVFAAGDC
+TDSAYKQIIISMGSGATAALGAFDYLIRN
+>tr|A6CPG6|A6CPG6_9BACI
+MNIFLTGATGFVGKQLSKELLAEDHHLYILCRSTQKAESFMEEMPSSLIGKVTCIKGDLS
+EKALGISEDKIEELSGRIDAVYHMAAYLSFDPSQKEETFNVNLEGTRHVMEFAEKAGCRK
+FLYVSTAYTVGMETEGKEELYSLDRSFVNHYEESKSHSEHLLFSHKNVSNMEIMILRPAI
+IIGDSRTGEAQTTFGLYGLLKAASLLKRKVSKRQDWEDHVYHFLGQRELKMNLVPVDYVT
+KVLRTALKHGEDGKIYNITDPSPLTQDEIFEAVKESLEFPNLNLVPHSKADSLTELEQAF
+NQSLTIFKHYFTREIHFPCDNTLALLNKAGEKPLSMNYKTLKFIIEGFNN
+>tr|A6CQD1|A6CQD1_9BACI
+MDVQKVGRTGLNNIEKKSKTATESVSFTEVMSKKRETALYDKFANMAKEIEAQGKVLSES
+RTVEDLKKYKKMVKSFLEEAVNNALQLEDQRGFNRRGRTKVYKIVKEVDRKLVDLTNEVL
+QKEQKGLNILNMVGEVQGLLINIYT
+>tr|A6CUG2|A6CUG2_9BACI
+MIPVRTAGGAMATYAYGKFEDPVVVEFIKAEAGIDIGQTFIGMHLKHVAVPVRVSQKMLG
+EAHVTLAKTRPKLIGGTRAVYEPLPENKSC
+>tr|A6CN67|A6CN67_9BACI
+MHIITVGINYKTAPVEIRERLSFNEADLQRAMETLKGKKSILENVIVSTCNRTEVYAVVD
+QLHTGRYYIKEFLSQWFDIDKEEFTPYLFIYEQDGAVEHLFNVTCGLNSMVVGETQILGQ
+IRSSFLSAQESGTTGTVFNHLFKQAITLAKKAHSETEIGSNAVSVSYAAVELAKKIFGDL
+SGKHVLIFGAGKMGELAIKNLHGSGATKVTVINRTFEKAVSLADKFKGNAKTLQELQCAL
+VEADILISSTGAKEYVITKDQMVEVERMRKGRPLFMVDIAVPRDIDPAIESLESAFLYDI
+DDLEGIVQSNMAERQKAAESIGIMIEAEIVAFKEWLNMLGVVPVISALREKALVIQGQTM
+ESIERKMPDLTERERKVLNKHTKSIINQLLKDPILQVKELAALPDGQEKLDLFIKIFNIE
+EQLQTEAEALESKGKEKTGVAAAKLQPSFQQ
+>tr|A6CHY9|A6CHY9_9BACI
+MAEHHFHLKANWPGLRNDIGDIETKNMKTAISIPKEMDGPGIGTNPDEMLLGAAGTCFII
+TLAAMMERSRLEKIDLTLDSEGIVDVTKGIITYKKIIHKPLITLKSDATERDISLAKKLA
+EKAEASCMITRAIKGNVEVELQAEVVKSEE
+>tr|A6CKI1|A6CKI1_9BACI
+MREVENGQIKVHIASLVFGAIIYFSYLYGNMSGIEANVGVLLGIGFLIFNTWAVNTTINT
+ICLREISFFKLIFSSIIFASCISLVNMIDIWSEMVEHDLKMNILLFISANILLAGNVLAT
+IRFIRQIRSLERVGFFWILFGSFAIGMAFASIRFTLFSSITLFSTIDLFTNRNIPIFEWV
+YLNNTLLPLMINIFALVFLELVPGLFSEIHSKEQQELIIENKRRYETLFDNQAVAIFTLD
+PKGKILKLNNAVQQLTGYPIDQLKKGSSFAELIHESKEDEFSSYIMEAVKGSSQMFETKI
+STSEGKYIDVQITLIPIFVKEKLANINILAKDITEVIQTREQIQHLAYHDSLTGLPNRFQ
+FVKELQQRIETSKLPAAVCFLDLDRFKVINDVLGHQTGDRLLLQLSERFTSFVKEDVKVA
+RMGGDEFTFLFPEIPSMAELENKIEELMALIQTPFQIEKQELFVTGSMGISIYPNDSDTV
+EDLMKYADVAMYRSKEKGKNTFEFYHQQNDEESSKKLALEKDIRKAMKEKEFEIVYQPQV
+KVSTGKIFGVEALLRWNHPAEGLITPNKFISLAEENGLIHELGEWVLRESCRQVNQWHNE
+GYSDLQLSVNISLKQLYHQNFISTVKRVIDEEGFSTSLLDLEITESMAMKDIEYAKLIFN
+QLRALGISISIDDFGTGYSSLNHIKNFPIDRVKIDGSFIRDVPGSAEAAIIIKTIIAMTR
+NLNLLSIAEHVETKEQYEFLQEINCDEIQGYYCSEPLNSFELSELLQQDEKVLQGSVR
+>tr|A6CJ82|A6CJ82_9BACI
+MVKLLGMVKGTVQRREDIRVSLDVKLLKGMEIHLEKGIVKNGYIKIENTIITDIGPIEEL
+KQVEHWEVIDLPSSFKAIPGFIDVHIHGVNGADVMDATPAALHTMAQTLPNEGTTCFLAT
+TITQSRIEIEKALANAGDFILNKQHPGKAEVAGIHLEGPFVNKKRAGAQPSQHIVDPDIE
+LFKEWQSLSKGTIKLVTLAPELAGGLELITSLKEMGVIASIGHSDATFEQVQEAVQAGAI
+HVTHLFNGMRGLHHREPGIVGAAFLLDELKAEIIADGIHVRPEVIRLAYKQKGSQGVILI
+TDSMRAKCLKNGHYDLGGQKVTVKDGRAVLSDGTLAGSILKMSSAIKNMLHYTECSLPEV
+IEMVSVNPAKQLALYERKGSLSKGKDADIVILDENLDVFMTFCRGALAFNKEE
+>tr|A6CSZ4|A6CSZ4_9BACI
+MTKRSKDGGIKGFGKKLFQKISDGDVTGLAAQLAYFFLLSLFPLLIFLVTLLPYLPFSQQ
+DILSVINDFAPGETMQMIQSTINEVMSNRNTGLLSFSIIATIWSASNGMNAIVKSLNDAY
+EVEESRSYIVTRLMSIVLTIAMIFVFIIALLLPVFGKQIGLFLFSQFGFSDQFLTIWGAI
+RWAISPIILFIVFVGLYFIAPSKKIKCLSAVPGAVFAALGWVGASLAFSYYVSNFGNYSA
+TYGSIGGIIVLMIWFYLTGIIIMIGGHINAIMNVKNSSEC
+>tr|A6CNW7|A6CNW7_9BACI
+MKKRFGIDIDGTVTCPTSLLPYINKEFNLNLTLNDITQYELTEVLNITPEVFGEWFKKTE
+GTIYKESPLAQGAKSVLDYWKDVHELYFISARPSHLVELTKEWFDYQDILYHHIELIGSH
+DKVSTAKKYNVDIFFEDKHDNAVSIHEELNIPVILFNTPYNQDKVPDGVIRVNDWQEARN
+WVDGWLKK
+>tr|A6CLG9|A6CLG9_9BACI
+MSNLIQEAVSFIEDCYRELGKAEEIEARIQQIENEIETTGTYTHTYEELEHGAKMAWRNS
+NRCIGRLFWDTMHVRDAREASTEEEIFLELEEHLKYASNEGRIRPTITVFRPSSPTEAEI
+RIFNHQLIRYAGYKNEHGMTGDPASLDFTQKCEELGWRGKQTHFDILPWVVQIGDRTPVW
+KEVNLNHVLEVNLSHPEYNWFEDLGLKWYGVPIISDMRLEIGGISYKAAPFNGWYMETEI
+GARNLADEYRYDMLPKVGSCMGLDTSKASTLWKDKALIELNIAVLHSFKEAGISIVDHHT
+AAQQFKTFENKEKQCGRELTGDWTWLIPPVSPATTHVFHKSYKNEWKSPNYFYQEKAYQ
+>tr|A6CM32|A6CM32_9BACI
+MMSQITLTILETSDVHGNIFPINYGTNELQPLGLAKAATLIKKIQQENDYVITLDNGDVI
+QGTPLTYHYVKYMIDEPNPMIEVLNYLQYDAAVVGNHEFNYGLPIFKSAVNHSRFPWLSA
+NLLDKADGSPYFGQPYLIKEFGNGLKAAVLGVTTHYIPNWENPEHIQGLDFKDVFETTKQ
+WVKYIREHENPDMLVVSYHGGFENDLKTGEPTEPHTGENQGYRICYEIEGIDVLLTGHQH
+RQLTEHVNGVLIVQPGFNAQFVGKADITFEKNKGKWEIVGKEAELLPVGSEEEDEHVLKI
+ANKYETKTQEWLDQPIGFIEGDMTITDPLAARIAEHPLVEFINKVQMDALGVKISNTALF
+NNSATGLPNTVTMRDIVSNYVYPNTLTAIEISGKDMKEALERSASYFQLDEQGEVKVNPA
+FSEPKPQHYNYDMWEGIQYTINIRNDIGSRIEHLEFEGKPVGMEEKYEVVMNNYRAGGGG
+EYPMFKDRPVTKSSQIDMTELLANYFLKHKTVKAAVNHNWKVVK
+>tr|A6CN11|A6CN11_9BACI
+MSNSRVIADMKEADIPVTTAWKDFLALIKIGIVNSNLITTFTGMWLAFYFTNTHFLDSLH
+TMFLTLAGSALVMGGSCSINNYIDRDIDHLMERTKGRPTVTGRITGSKALLIGLLMVTIG
+TVLLFMTTVTAGIIGIIGIFSYVVLYTMWSKRQHVSNTVVGSISGAVPPLIGWAAVDANL
+DLIAWMLFAIVFIWQPPHFYALAMKRVEEYRAANIPMLPVVKGFAATKNHSVAWVACLLP
+IPFFLLDLGLVFFILATAFNIGWLALALSGYKMKDDLKWARLMFVYSLNYLTILFVAMVI
+VTVI
+>tr|A6CKN1|A6CKN1_9BACI
+MKKPVLHAVTTGKKSIEETASICLDISPHVEAIHIREHTKTAREIYELGKKMIDFGIPAD
+QIIINNRVDVAAALGICPVQLGYHSLPVNVVKESFSRLSIGKSVHSLLEAVEAEEEGADY
+ILFGHVYPTSSKKGLTPRGLDELTQLISNVTIPVIAIGGILPSNAREVIQKGCSGIAVMS
+GIFDAVDPVKAAIDYQNHLELIFHEQFL
+>tr|A6CMT6|A6CMT6_9BACI
+MDLLFLGTGAGVPAKSRNVTSIALKLLEERGSVWLFDCGEATQHQILHTSLKPRKIEKIF
+ITHLHGDHIFGLPGLLGSRSFQGGETALTVYGPPGIREFIEVSLSVSGTRLLYPLHIEEI
+EEGSIFEDDQFSVEACKLDHALPCFGYRIVEKDKPGVLQAGKLKELGIKPGPIFKKLKEG
+ERVTLEDGRMIDGTEFLGPPIKGRIVTILGDTRPSAAGVKLAENADALIHEATFSKEQER
+MAHDYFHSTTKQAAETAVAANARKLFLTHISSRFTEEEWPELEGEARETFPESYITSDFF
+EVSITRE
+>tr|A6CM93|A6CM93_9BACI
+MSNPYPVRLPSSFPSGITIPLIPTTIVVYTSFREVDQNYLKVMQTFGATRSQTFKEAILP
+ASFPTIISTLKVNVGLSWVGVIVGEFLVSAKGLGYMIIYGFQVFNFSLVLLSLLIIAVFA
+TLMYKIVEIIEKKLIRK
+>tr|A6CU78|A6CU78_9BACI
+ALTDHILFAINRLMKGMAIRNPFLMETKALYLFEYEVARDVVALLNEETNVELPEGEIGF
+IALHIHSAMMNKDLSQVNQHSRLIGTLTSTIENTLEANIDKESVHYMRLVRHLRYTIERV
+LRQERVQEPEKIALLLKEEYPLCYNLSWKLIKIMQQTLKKPVDDAEAVYLTMHLQRIQNK
+VK
+>tr|A6CT89|A6CT89_9BACI
+MSRLNQKEKLVVLIGPTAVGKTATSINLAKQFNGEIISGDSMQIYKSMDIGTAKINEEEM
+AGVPHHLIDIREPEESFSAAEFQELVRKKISEIRSRGKLPMIVGGTGLYIQSVIYDYQFT
+DAPGDEKYRRKLEQEAEALGNEEIHRRLELVDPQSAAAIHPNNIRRVIRALEIHHCTGKT
+MTEYQENQQNELLYDVAIIGLTMARELLYSRIDFRVDLMMKQG
+>tr|A6CHP9|A6CHP9_9BACI
+MRRFIQFNDEKIDSFLFMELSDLAKTLTQNGEMELEYGPHSYMDAKNETVYVTHFWDHRS
+KLEEIDGLKSDIFLRTIGNLKHTDVAETEKYIKKVKATKLPSLGKQLFTLAEDIRLEEIC
+KRERPGTKKAFETRRNLYRQYFQSQLKVNLVKSVFTDALYNSMYLILNAKSPLEQEITIN
+ERIDMAMPFIKDSLLKFFDTRSTKDVSRICLDLMDVFEEILEKDMLNEYFHLPEKVYAQE
+ENGLTIEDLKRKDPLQNDDTLDEESTGEEEVFEEEMETWHRETSDKGDSFLQFDLDQGSK
+ADLMGNGVREGEEGDQALGMVQGSSQETANKDYSQMEAARQDREDEQGGGEMEYGKENRF
+AYPIFLSPETPEYEDIRAYDTNKGLIAPYQKKLKKMIEKTLEHKKIQPRSDLHFGRLNKK
+LLRFLTDDNPRLFYKKQNPSTEIDAVFSLLVDCSASMYDKMDQTKLGITLFHESLKSVRV
+PHEVVGFWEDTNHATETKQPNYLKTVVDFQGSLKPGRGPEIMSLQPEEDNRDGFAIRLMT
+DRLLHRSEKQKFLLVFSDGEPAAFGYEQNGIVDTHEAVLQARKQGIEVINVFLSNEEIEE
+AQRKMIENIYGKFSILVSDVEELPDVLFPLLRRLLIKSL
+>tr|A6CLF8|A6CLF8_9BACI
+MAIRRKKISVIGGGFTGATTALMLAQKELGDVVLVDIPQMEDPTKGKALDMEEASPVQGF
+DAKITGTSNYEDTKDSDIVVITAGIARKPGMSRDDLVQTNQKIMKSVTQEIVKYSPESII
+IVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAQELNISIKDITGFVLGGH
+GDDMVPLVRYSYAGGIPLEKLISKDRLDAIVERTRKGGGEIVGLLGNGSAYYAPAASLVQ
+MVEAILKDQRRVIPAIAYLEGEYGFEGIYLGVPTILGGNGLEQIIELDLEEEEKEALSKS
+ADSVKNVMDVLK
+>tr|A6CM07|A6CM07_9BACI
+MRAEQYDSPQYYNNRELSWLAFNERVLEEALDFQNPLLERMKFLAIFSSNLDEFFMVRVA
+GLKDQVKANYNKPENKAGLTPKQQLDAISAKNHELVDLQDETFTNLVIPQLNEENIFLLD
+VNELSEEQLTFLEIYFEEQIFPVLTPLAVDAYRPFPMLLNKSLNLVVILEQPDAEEEEER
+EKVALVQVPSVLDRVISLPSKEGQEMYILLESVIIHFIEKVFKGYNVSSTSAFRITRNAD
+MTIHEEGARDLLLEIEKELKKRKWGAAVRLEVQKGSMNEKVLDYLLDELEIHSKDVYKVK
+GPLDLTFLFGFISRIKMKRENLSFEVFIPQPPRDLLSHEDLYEKAFQEDLFFHHPYESFE
+PIVDFVSVAADDPNVLAIKQTLYRVSGDSPVINALKRAAENGKQVTVLVELKARFDEENN
+VQWAKELEKSGCHVIYGMNNLKTHSKITLVVRKTLGRIDRFVHLGTGNYNDQTAKLYTDM
+GIITSKRKFGIDATNFFNYLSGYTEKPEFYHLVVAPFDIRDEFIHLIDQEIVSHKANGNG
+RIMAKMNSLTDKELIMKLYQASSAGVKIDLIVRGICCLRPGIKGVSENIQVTSIVGRFLE
+HSRIYYFHHNGEGKMYLSSADMMTRNMVKRVEILFPIFEDGIKRRLLEILDLTLRDNMKA
+RKQDSEGKYHYVQRKEGEPSINSQQELKREAYQHLYLEN
+>tr|A6CP42|A6CP42_9BACI
+MKKFTIIIIGFFLISLLNPQTFKAMQPVQYNKQTNVSIVNSTSGSIITEGTFQLVNLDTN
+AVSYLPTKTTINFKKLTSGISAQFSSSTINSTKGFKLEELDSLPKMVVFGQQTALRKGAT
+SSYEVIKQFNAGEAAPYIGIFTNSSGEVWYNVSSTNGNGWVPGNNVTFQEAINNTLNLGK
+VNNGRSYRGSYKVTSNGGNLQIVNYLDLENYLKGVVPNEMPASWPKEALKAQAIAARSYA
+ANSMTLSDTASSQVYRGYSSEDSRTNAAIQETNGLVVRYNGKVIQTFFFSTSGGRTANVG
+DVWNSNQSSYPYLSSVDDPYEKSVYSNWTVDFSPEQVLTQFGFNPSTTSLLDMSLSKPGQ
+NGEVRGVTVQTTDGSKTINGNESVIRKLFPLPSSSVYNMLYSNWFDMKLTKQVNTFSVQT
+TSGIVTLEGMDGQSVQTSSGITAISADEVNVQTPTGIQAYPTINGITNITLNGKGWGHRI
+GMSQYGAKGYAEQGWTAEQIITHYFQGTTVSK
+>tr|A6CPN8|A6CPN8_9BACI
+MEFDTIAAISTPMGEGAIAIVRLSGDQAFDIADKVFKGIKGNSVHEFASHTINYGHIVDS
+STGAVVEEVMMSVMKGPKTFTREDIIEINCHGGLVSVNKVLQLVLKNGARLAEPGEFTKR
+AFLNGRVDLSQAEAVMDLIRAKTDRAMNVALNQMEGRLSKLIRKLRQEILETLAHVEVNI
+DYPEYDDVEEMTHGVLLEKSKYVRDEIEKLLRTSEQGKILREGLSTVIVGRPNVGKSSLL
+NSLVHENKAIVTDIPGTTRDVIEEYVNVRGVPLRLVDTAGIRETEDIVERIGVERSRQVL
+KEADLILLVLNYSDEFTYEDEQLFKAVEGMDVIVIVNKTDLPQKIDMDRVKELAAEHAVV
+TTSLLEEQGIDELEEAISTLFFAGSLEAGDMTYVSNSRHIALLNQAHGAIDEAINGVEMG
+TPIDIAQIDLTRTWELLGEIIGESVHESLIDQLFSQFCLGK
+>tr|A6CLK6|A6CLK6_9BACI
+MKLIDIAQKLNNNTPVWPGDTPFNFSLNWSKEDTGSVNVGNINFSAHTGTHIDAPYHFDE
+DGKKVADLPLDSFFGNALVVEISEKESIGAEDLEDLDLRDVTQLLIRTNSWEDKSVFPSQ
+ITYLQENIGPFLKKNGIKLIGVDVPSVDPLDSKELKAHHSLQENGIGILEGIVLDGVEPK
+TYELAAFPLPLEEADGCPVRAVLIDR
+>tr|A6CQ39|A6CQ39_9BACI
+MDLRFTEEQQMMRKMVRDFAQTEIAPFVERMEKGEFPREILKKMADLGLMGIAIPEKYGG
+SEMDFTSYISAIHELSKVSATVGVILSVHTSVGTNPILYFGTEEQKQKYVTKLASGEYLG
+AFCLTEPSAGSDAGSLKSRAIKKDDHYVINGAKVFITNGGEADVYIVFAATDPDKGGRGI
+SAFIVEKDTPGLIIGKDEHKMGLHGSRTVQLTFEDMKVPAENLLGEEGQGFKIAMANLDV
+GRIGIAAQALGIAEAAFEHSTAYAKERAQFGKPIAAQQGIGFKLADMATSVEASKLLVYR
+AANMRSEGLNCGKEASIAKLFASKTAVDVTTEAIQVYGGYGYTEEYPVERLFRDAKVTEI
+YEGTSEIQRMVISKHLVK
+>tr|A6CU74|A6CU74_9BACI
+MFPIFPSLAGAKKIQLHMEVQMSIPKYKRVVLKLSGEALAGEQGFGLSPAIIKSVAEDVK
+EIAEMGVEVAVVVGGGNIWRGKVGSEMGMDRASADYMGMLATVMNSLALQDSLEQLEVET
+RVQTSIDMRQVAEPYIRRRAIRHLEKKRVVIFAAGQ
+>tr|A6CTE0|A6CTE0_9BACI
+MLDVLVQYEAEIWRSIGETFVMVGVSIIAAVLVGLPVGTLLFLCRKGNLLENQLVFSILN
+LLVNVVRSFPFLLLVVFLIPFTRFVIGTAIGTAAATVPLAIIAIAHYSRLVEQSLIDVPR
+GVMEAAVSMGASVREVIFKFIYVEARSGLVLGLTTSIISFISYSTIMGVVGGGGIGDFAI
+RYGYQQFKTDLMIYMIIIMIILVQLIQFIGTTAARVIDKR
+>tr|A6CRJ6|A6CRJ6_9BACI
+MDVRLFWAINSLSRRTDSLNRLMILVSNRIRYVYLFVLLILLLKNKSISLNAVLSIAASM
+VIGSIIRLFSFRARPFVNNRAGILIPSKRNSSFPSKHTLLTFAVSTTLCLYNRTLGGIFT
+CLSALTGLSRVWVGHHYPSDILGSALIGSFVSVLTRLITFNRQPSN
+>tr|A6CUD5|A6CUD5_9BACI
+MEYLNYIVIGLVLFFIIKRVFPAKGVRQISTMELRNELKDKNKQFIDVRTPVEFKGNNIR
+GFKNLPLQQLMKKAEKELSKDKEVVVICQSGMRSQNASKMLKKSGFTKVTNVKGGMSAWR
+>tr|A6CIT8|A6CIT8_9BACI
+MNIKIYTNYEEMSKHACQIIIDQVKQNPFSVFVIPGGNTPARMVDFLVDAYKENKVSFKK
+CTFIGLDEWVGLGKENEGSCQHFLFTNLFSQIDVNPENLIFFDATSENLNFECEKIDKKI
+KELGGVDIMVLGIGLNGHLGFNEPGISFEKQSHIIDLDETTTSVGKKYFSENSVPNRGIT
+LGIGNILDAKKILLLANGKEKSKILKKVVDTDPTEAIPATVLKLHKDAEVFLDEGAGQYL
+VVD
+>tr|A6CP55|A6CP55_9BACI
+MQIGMIGLGKMGYQLSLNLTDHKHQVVAFDLNKDAMKKISAEGVGTAASIEELVSKLEKP
+RTVWMMVPAGDATESVFQQVLPHLEEGDRIIDGGNAHYKDSLRRDEQAAEKGVYLFDCGT
+SGGVDGARHGACTMIGGNAEVFKEIEQIFSDISVENGYLYTGKAGSGHFLKMVHNGVEYG
+MMQAIAEGFDILEKSPFDYEYEKVARVWNNGSVIRSWLMELTENAFSKDEKLEGIKGVMH
+SSGEGKWTVETALDLQTAAPVIALSLMMRYRSLEDDTFTGKVVAALRNEFGGHAVEKSDK
+>tr|A6CPC9|A6CPC9_9BACI
+MTKEELILLVSEKLKMVRTEAGYTQDKMASVIGVSKKTLVQIEKGRMEAGWTTVVAVCAL
+FRHSETLMNSFGGEPLEVLEVVAREDVDYRKEKTLGGKIWWKEVNKDDGFILQQNIITHH
+FRILDEDYYRIYSTFDENQAKQRMNELLSQQDLQ
+>tr|A6CS25|A6CS25_9BACI
+MLTGKQKRHLRSEAHHLNPIFQVGKGGVNENMIKQISEALEARELIKISILQNCEDDKDT
+VAKELASGAGANIVQIIGHTIILYKESKENKKIELPK
+>tr|A6CT12|A6CT12_9BACI
+MTNETHNHPDLPKEKDRLEFTKRYIDVVIQTAQTSKDQFKENIENAFGDVDWLESSAAYI
+DILTNASFFEMSKEELEALQKAKKKPYFARIDFKHDESPEEERHYIGKTSLYQRENQEQI
+IVDWRSPIANLYYEGRIGDVSYEAEDETYHGHLSLKRQYMIEDGSLEEIRDIDLTTTDEL
+LQESLSKSSSNRLTEIISTIQEEQNRIIRADLNKPIIVQGAAGSGKTTIALHRISYFIYN
+YKQHFDPRQLMILAPSRLFIDYISEALPELGVEKVRQTTFSDYVMTCLEKELKLVEDNKL
+IRLIEKTDDEGKQAAWISGWKGSRDFRKILDAYIADIESRFYPTEDFVIDKYRLFSAKKF
+TSLLKEDYTYMPIYRRVEKLKLLLQSYVRSNKKMMVEKVENFFDEKIEKALYHKKYAANR
+KEYISKALDKKAERMKEIQKAIRTGLSQYMKQFEKKTLVQYYQELFSDWDKLVEYGNGRI
+SVEEAREICEYTLKRLKKKTFEMEDLAPLLYLQTALYGVDSFYKAKNVVIDEAQDYSYMQ
+LYSLKTALQTDMFTLVGDLAQGIHSYRGLESWEPVYKEIFPRATYTELQKSYRTTIEIME
+EANKLLKKLPHDFPQVNPVVRHGDKPEFFSYDKKEELVERLSHLISGLREEEDFQTFAVI
+GKTMRDCEKIAGLLEAKFPGGVKLLAEQESIPKDRIVVVPSYLSKGLEFDVVVITSIDEQ
+YNEDNELDIKLLYVGMTRPLHRLYFFGKNKSDFLLE
+>tr|A6CLU7|A6CLU7_9BACI
+MGNRYTKKTFVLEIIGITVGLIFLIPFYFVLVNSVKPFAAILIDAAAWPKEFLFSNYAKV
+WEIINFPRAFWNSLVITVFSNIGLVIISSMAAWKMVRTPGKFSKILFIIFVSAMVIPFQT
+VMIPLMKLGGALNLTNSIPGLIIMYFGFGVPLSLFLFHGFVKTVPMEIEESAMIDGCSQF
+GVFWRIVFPLLKPITVTVIILNTLWIWNDYLLPLLVLQDAELRTIPLAASSFFAQYTKQW
+DMGLAALVLGITPVIIFFLFLQKHIIKGIASGSIK
+>tr|A6CNA6|A6CNA6_9BACI
+MEQRKGLIVIAAASLLTGAGGMYGGMSLLDAFDRDKEGEVAEEGGPLSDRLHKVEVAYDL
+IADKYVEKVDKGELVEGAIQGMLDTLEDPYSVYMDAKTASQFNDSLGSSFEGIGAEVTVM
+DGKLLIVAPFKDSPAEKAGLRPNDQILKVDGESITGLDLYEATLKIRGEKGSSVELEIVR
+EGLKNPIKVSVKRDEIPLETVHSDVKKKNGKHYGIIEVSSFSENTSKDFKKQLAELEEQG
+LAGLVIDVRGNPGGLLTSVNEMLAELVTEEKPYVQIQERNGDTMKYFSENKEKKAYPITV
+LVDEGSASASEILAGALKEAGGYPLIGTKTFGKGTVQQPVPMGDGSNIKLTMFKWLTPKG
+NWIHKKGIQPDIPVKQPAYFYAHPLETEKPLAREMNNEQVKNAQQMLEGLGYNPGRIDGY
+FNQATEAAVRSFQQKHELAATGKIDTDTASKLQEEIYIAVKDEKNDVQLKAALDYLERVE
+>tr|A6CNR8|A6CNR8_9BACI
+MADDHNEWMKPLGFINKGGTAELLRPLFGRRGFFYCLKKVSSSLLYNSFGILISKTIRRG
+CNYMNDTLVREIPVHLREFVSTQDYEAYTPVNHAVWRYVMRQNHAFLEDRAHPAFLKGLK
+GSGIAIEKIPRVSEMNEALGRIGWGAVIVDGLIPGTAFFDLQAHGLLPIATDIRKVSNIE
+YTPAPDILHEAAGHAPILFDSTYSEFVKKIGAVGAKAFATKEEHEAFEAVRNLTIVKESS
+DSTSEEIQAAERLVKEKQAAVEENSEAEQISRLFWWTVEFGLIGKVEKPMVYGAGLLSSV
+GESKACLSDQVKKIPFSIEECIKTSYDVTTMQKQLFVCESFEELIEAVEEFSASMAFRTG
+GASSVRKAIRSEKLATIEFNSGLQVSGVFKEMITDQEGDPIFIKTIGNTALAFNNRELQG
+HSTDMHSEGFSTPVGPLDGELFLETLSLDELKQLGIEIGNTVHLNFKSGITLDGMVSDII
+MEGGRAILLSFTNCTVKHQDNLLFDPSWGTFDMPVGSKIVSAYPGAADHASFITEEIQGS
+GTAADTAPLGELDLMYQTVRDIREGSRWTDAEFNSLQELASRLREDYEDEWLLRLEILEL
+FTLKGVHEQETSILREELEQLAKRSEFTRLIENGLALVSSKV
+>tr|A6CPR6|A6CPR6_9BACI
+MMKRQLILDDGTVFTGEGFGAETSSVGEVVFNTGMTGYQEILSDPSYCGQIITLTYPLIG
+NYGINRDDFESISPAIKGFIVREEADFPSNWRSESTLNDLLKAKGIPGLAEIDTRMLTRK
+IREHGTMKGMICSIEVDKEEVLHKIRATELPTNQVKQVSTKTAYPSPGRGFRVVLVDFGM
+KHGILRELNKRDCDVIVVPYNTTAEEIQALNPDGIMLSNGPGDPKDVPEAIEMINETLGK
+IPLFGICLGHQLFALASGGDTFKMKFGHRGSNHPVKDLATGKVAITSQNHGYSVDEDSLI
+ETRLEVTHIGLNDGTIEGLKHLDLPAFTVQYHPEASPGPEDANGLFDQFMTMMEAEKRKE
+ISHA
+>tr|A6CPK3|A6CPK3_9BACI
+MNNVNVIKEIEVLERDIYQKKKRLMELKKSIPESKVKNFEFVDSEERRVTLSGLFGEKNE
+LMVIHNMGRSCRYCTMWADGFNGVYHYLNGKASFVVSSPDTPKAQADFAASRKWQFPMIS
+VRNTAFAEEMGFKEEGRYLPGVSTFRKDAEGNIYLHRQSNFGQGDDYCVTWHLFDLLPSG
+SEGVDINERMNDRSPFQLTNNIAIGIKKYEQGVDFYRKVLGMKLEGSYINETKFSSNGTN
+FYIENHEENNVYFEFEVEDIKQSKQQLLKNGCIILKENSKKSLMVADPFGMKFHLYESET
+>tr|A6CQB3|A6CQB3_9BACI
+MDMNQYLEVFIEESKEHLQTCNEQLLELEKNPENLAIVNEIFRSAHTLKGMAATMGYEDL
+ASLTHQMENVLDAIRNSKIQVSSLILDVVFMAVDDLEAMVMSIAEGGDGKRDVTEIVKKL
+ALIEKGESLDNLQAQSEAAAAVLEAEPSNTHTAQYDQFERTVIEQSKEQGFQCFEISVSL
+REDCLLKAARVFMVFEVLEKCGEVIKSVPAVDVLEEENFDQDFLVSIVSKDSQEDIKKKV
+MKVSEVHKVDVRLVDLEKGKESDSQITEQPSASTEDATDRVTGKQANVASVPVVKKEEKK
+ESAPSKQANTGNKTIRVNIERLDILMNLFEELVIDRGRLEQISKELNHPELNETVERMSR
+ISGDLQNIILNMRMVPVETVFNRFPRMIRQLARDLNKKIELEIIGAETELDRTVIDEIGD
+PLVHLLRNAIDHGIEAPEIRRQNGKPEEGTVTLKAYHSGNHVFIEISDNGGGISREKVLK
+KAISQGIVTEESAAALTDRQVYELILASGFSTAETISDISGRGVGLDVVKATIESLGGSI
+TIDSVLGEGSTFSIQLPLTLSIISVMLVEVEKEKYAIPLSSIIETAIIKKEDILNAHNQK
+VIDFRGKVVPLLFLEDVFEIPKQEGDDFYSVVIVRKGDRMAGLVVDSFIGQQEVVLKSLG
+NYLTDVFAISGATILGDGQVALIVDCNALIK
+>tr|A6CQF2|A6CQF2_9BACI
+MFMRSKKQWFSILGTAVLAGSLFSPLNAGATKSPGPIESANFLDHHTAEKLYDVRNVLSK
+VMPTQQQLKAADQLIAKTGPGVKIQWNSTFGTPSMIVKDGGYLSGTSTKDAETTARDWLK
+SNSTLFGLTEAEVDTLKVIRNYKMPGTGLQPVTFQQTFDGIESVYGGRVIVAVNKEGKIL
+SVTGNVSPSKNLAESFTLAESDALQRVLELEAPSINLVPKLLRTKNGWQEFDGGDVLPTV
+QRVKKAAFIRNDEVRPAYRVLFIEELDEGYEVVIDGVTGEKLYQRSLVNHIIDSSGEIFE
+NYPGAPAGGKQVVKSFKGDPAASPLGWVSPTTKTGVTTLGNNANTYANWSNFLAPIDQVV
+RPVNAFGQFYYPFLNSWQKSQGATTPPSYADDVNSAAANLFYHHNLFHDYFYNLGWVERA
+GNLQTSNFGKGGAEGDAILGLVQAGALSGGAPTYTGRDNAYMLTLPDGIPAWSGMFLWEP
+IQGAFHGEYADGDYDAGIIYHEYSHALSNRLVAGGESLGSHQAGSMGEAWGDWYAMHYLI
+KNGLQEKPVVGAYVTGNTERGIRSWALDDAPLNYGDIGFDIVGPEVHSDGEIWSAILWEV
+RETLINEIGKEKGEEVIEQLVMDAMPISAPNPSMAEMRTAMITADFERYGGQHSNTLWAA
+FASRGLGVDAYSDGGNDTDPTPAFNHPDSDQNGLLAGRIINSATKKPIENARVIIGEYEA
+RTSAAVTTGQAGVFGLPMVSGTYDITIQAQGYGSRTFENIQVEAGKIKPLQFKMEPNAAS
+MFNGASVVSVSSESDSNPVKMAIDDTEASVFASAAEENGFTGAEFTVDLAGDKPVKISHI
+QVSAFKDISKGRFATLKDFEIQTSLDGSSWTTVAEDQFVTQKPRPAAPDLHYKQLELAEP
+VKASFVKLVAKSAQDESAGYVQVAELQVFSEKSKIEPGTLEQEEPFVFEGSVLAGNAATG
+IGSLAGVAAATAVTENEFIMTQNPNPVSQGADGYVVTLPEGYGDGIHTFNLTGPSETTEY
+DYDVYFYNKNFEIIGSVATSGADETGIVPGGTRYVYVGLYTGADVPFKLTVKRPY
+>tr|A6CSY8|A6CSY8_9BACI
+MMFGRFTERAQKVLALAQEEAIRLSHSNIGTEHILLGLVREGEGIAAKGLTALGLSPEKI
+QKEVESLIGKGKENSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVA
+ARVLNNLGVSLNKARQQVLQLLGSNESNGHQGGSNTNANTPTLDSLARDLTAIAREDSLD
+PVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIVNNEVPEILRDKRVM
+TLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDELHTLIGAGGAEGAIDASNIL
+KPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDEPTAEESVQILKGLRDRYEA
+HHRVSITDEAIEAAVKLSDRYISDRFLPDKAIDLIDESGSKVRLRSYTTPPNLKELEVKL
+EEIRKEKDAAVQSQEFEKAASLRDTEQRLREELEDTKKTWKEKQGQENTEVTVEDIAKVV
+SSWTGIPVSKLAQTETDKLLKLEEILHSRVIGQDEAVKAVSKAVRRARAGLKDPKRPIGS
+FVFLGPTGVGKTELARALAESMFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYEEGG
+QLTEKVRRKPYSVVLLDEIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTVLIMTSNV
+GAESLKKNKHVGFNIQDGEQDYKDMKGKVMEELKRAFRPEFLNRIDEIIVFHSLEKAHLK
+EIVTLMSDQLTTRLKEQDISLELTDAAKEKIADEGFDPEYGARPLRRAIQKHIEDRLSEE
+LLRGTVLTGQHIVIDVEDNDFTVRMKEATNTPS
+>tr|A6CN70|A6CN70_9BACI
+MDSSLPLSGREILVTREEKAAKGIADVIKQYGGIPHIVPLISFRPYEDEKESTYLEKLKS
+YDWIFFTSKNGVHFFFQKLKEHNLSIVGSPTKFAAVGEKTCRAMKSHGIQVDFVPKLYSG
+FDFAKEFVHSFPQAGRVLLSKGNLAKDTISSYFTERSMPIDEWITYETFFPDAIEKRLSS
+LLQEKKLSAVTFTSPSTVRGFMKIVNDNGLHEAMNGLAVVCIGPVTREAACRYGLTVQVV
+PERYTVEDMIDDLANYFISLKENREE
+>tr|A6CTF6|A6CTF6_9BACI
+MNKQTIKDIDLKGKRVFCRVDFNVPMSEGNVTDETRIKAALPTIQYLSEQGAKVILASHL
+GRPKGQVVEELRLTPVAKRLSELLGKDVAKTDEAYGDTVKAEIEKMSEGDVLLLENVRFY
+PGETKNDADLAKEFAALADVYVNDAFGAAHRAHASTAGVAEHLPAAAGFLLEKELEVLGK
+ALTTPERPFTAIIGGAKVKDKIGVIDNLLEKVDNLIIGGGLAYTFVKAQGHEVGKSLLEE
+DKIDLAKQFMKKAEDKGVKFYMPVDVVVADDFSNDANTKVVPIEEIPSDWEALDIGPKTQ
+EQYASVIKNSRLVIWNGPMGVFEIEKFANGTKAVAQALADAADTYSVIGGGDSAAAVEKF
+DLADKMSHISTGGGASLEFMEGKELPGVSALNDK
+>tr|A6CQA0|A6CQA0_9BACI
+MSSEVLSQNEIDALLSALSTGEMSADDFKKEEEEKKVKVYDFKRALRFSKDQIRSLTRIH
+ENFARILTTYFSAQLRTYVQITVVSADQVPFEEFVRSVPKMTILNIFDVPPLDGHILMEV
+NPNIGYAMMDRVMGGKGTGINKIENLTEIETKIMSNLFERAFDNLRDAWSNIAEIDPMLS
+EFEVNPQFLQMVSPNETVVVISMNTTIGETSGMINIIIPHVVLEPIIPKLSVSYWMQTKN
+KDIDPQETEMLEKRIKTAQVPIVAELGDSDITIDDFLMLDIGDVIQLNKRIDAPLTIKVG
+EIPKFTAQPGELNKRLAVQILDSLKGGEEDDE
+>tr|A6CSG7|A6CSG7_9BACI
+MDILQIKTETKQYPVYIGSNILDQLTDLLTADNERISHIMVIADKTVFELHGETLKKYLP
+DALEVSIFNVPPGEEAKSLKVYDDCMTFAIEKGMDRQSCILAFGGGACGDLAGFVAATYM
+RGIKFLGIPTTILAHDSSVGGKVAVNHKLGKNLIGQFYHPEAVIYDTSFLTSLPAKEVRS
+GMAEVIKHALISDEEFYRQLLNNLQSFSAIDSNFLINCLKRGITVKAEIVANDEKENGIR
+AFLNFGHTYGHALENLEGYKGISHGEAVMTGMVYALFLSVKHAGLNFDLEEFITWVKNLG
+YPLAFPGKYSFEEIYEVMTRDKKAANKIPKFVLLKAIGHPVLQKLSQEDLREAHEFILSI
+KGE
+>tr|A6CSZ0|A6CSZ0_9BACI
+MNGEKTEVHLCERCAKEKGEMFMFDGSPAFSVNSLLSGLLNLSPAMKQQEAQIPKQEVLQ
+CGKCKMTFQQFINVGRFGCSNCYETFKDELTPILRRVHSGNVEHHGKIPARMGGTIHLKK
+KLTSLRAQLQQLIQDEEFEQAAGVRDEIRALEKEILQEGGGN
+>tr|A6CL43|A6CL43_9BACI
+MIVKEKLILDGNRVATAVKEDLKPRVEKLKENGITPCLATILVGEDPSSATYVKMKGNAC
+ERLGIRSRRIHLPTDTTTEELLETIQSLNEDEGVHGILLQHPVPPQIDERAAFEAIAIEK
+DVDGVTSLGFGQTSLGFGTYPSCTPAAILAIMDHYELPIQGKHAVVIGRSPILGKPVSMM
+LLNRNATVTTCHSYTENLEEIVKKADIVVAAVGKPNFVKGSWIKEGAMVLDAGYNKGNVG
+DVDYEECLERADAITPVPGGVGPVTISMLLKQTVEAAEKLI
+>tr|A6CLY3|A6CLY3_9BACI
+MTNFKGKVALIGTGFVGSSYAFALLNQGAARELVLIDMNKEKAEGDARDLNHGLPFSSPM
+KIWAGDYIDCRDADLVVITAGANQAPGETRLDLVDKNINIFKSIVNEVMKSGFDGIFLVA
+TNPVDILTYATWHFSGLPKERVIGSGTILDTARLRYLLGDHFDVDARNVHAYIMGEHGDT
+EFPVWSHATIGASPLREMINMDSLQTQRELEEIFVNVRDAAYHIIERKGATYYGIAMGLV
+RITKAIFNNENSILTVSALLEGEYDMDELYIGVPAIINRGGIRKVIELPLHEKEREHFAH
+SANTLKDVIDKAFQR
+>tr|A6CNZ6|A6CNZ6_9BACI
+MKWYKTALLLLAGLLFTACSSQQEIEESFPMSMEVEEFSAINQDGREVTLEDLRGDIWVA
+DFIFTNCDTVCLPMTANMAQLQKKLKDSGFDDVKLVSFSIDPENDTPEILLEYSQRYSAD
+LKQWEFLTGYPQEEIELFANRSFNTPAAKAEGSDQFVHGTSFYLVSENGTVLKQYEGVSG
+PPFDEIIADIKKLN
+>tr|A6CT69|A6CT69_9BACI
+MKSIAYLSLGSNVGDREQYLKDAVKLLNDHHEIEVTRVSSIYETDPVGFTEQGEFLNLVV
+EIRTSLPAETLLRQCLQVEKDLGREREFRWGPRIIDLDILLYNHENIETEELMVPHPRMH
+ERSFVLVPLTELSQTIKHPKFNTTMMALLDEIPDKEGVRLWKQISGEDVYVHSES
+>tr|A6CTD4|A6CTD4_9BACI
+MYDWIIIGGGIHGCTVAAYLLKSGRTSIDNIRIIDPHDGPLHNWKRNTERIGMEFLRSPF
+VHHLDVHPFSLQKAAKSKGPLNFYGRYKRPSLSLFNEHSDTVLHETKLEDAWVKGRVEDV
+TKEKETWKVHTETGRVINGRNIVISISLSEQLNIPEWAAKLQTESEHRIHHIFDPELPEM
+VSESMPLMVVGGGITAAHTSIKLSRLFPGKVTVLKRHPFRVHDFDSNPGWLGPKNMDSFL
+QLKDYEERRAAIGQARHRGSITAELHARLNKLSREGSLTIADGEVVSAESDPQGISLLLD
+TDVRIEAKSIILATGFTPTMPQQEWLQKLIKRERLKCANCGYPVVEPSLEWCPHLYVTGP
+LAELEIGPVSRNIAGARKAAERIVLNRM
+>tr|A6CIW6|A6CIW6_9BACI
+MSPFFYHFNNEEKRVITIKLEELLKQSFGKVIRAHRKYKGLSQEELAHRSGFHHNHLNNI
+ELGKAGMSHHTVFKVAAGLNVTPSQLLKEIEEDVFPLYKEDVKSRT
+>tr|A6CPX1|A6CPX1_9BACI
+MFDIILENILSPAVLFFLMGILAAVVKSDLKFPSGLSEGLSIYLLIAIGLKGGIELSHYS
+FSMIKAPMAAALILGAIIPIITLLILRGIKLDLNNSIGLAATYGSISIVTYGAAVSFLDK
+SGTPYEGFMNALVVLMESPAILVSLLLLKMIENSKGLNAYPSQRVGFLPPSTTLIDKEVL
+RESLFGKSILLLMGSMVIGLVVGERSLPMIKPLFMDLYGSVLILFLLNMGIVAGQRLPEI
+RKHGIKLLLFGLLSPLLFGTIGVIAGVLAGLGLGGVTLMGVLAGSASYIAAPAALKTSVP
+EANPSIYLGLALGVTFPFNLIIGIPYYYEIAQRLL
+>tr|A6CU64|A6CU64_9BACI
+MDFSVILVLSAAIVLFGTFSIHILEPETFPTLFEGFWWTMTTLTTVGYGDYFPVTTAGRI
+LGVFLFIFGIGILGLLISKIMDVLATYHTLKREGKLVYKNKGHYIYIGWSARTERAIKEV
+LANRADKEIVLVDHLDSSPFSHDQLHFISGDPSNEETLMKANITEADRVAIFSDMSITQP
+VLADGKSLLIASAVEALSKKHNANIHSVVEVMEEKNIPLFNHIDVDDFVLSNDSVSLLMA
+KATLQPGTTGLFRQLLSKKFGKNIHEFTPLADWKSYKDASQFLFDRGAVLIAVNEDMDFS
+NAAEKKLDKDDTLYIICDDQIYQDLIRTTT
+>tr|A6CHW8|A6CHW8_9BACI
+MEKAVFLDRDGVINEVLSKRVKFVNKPSDIYYLEKVPEAIKMLNDKGYKIFIVTNQGGVG
+LGYLSKEGLERIHTRMKHDIEKEGGIIEEFSSCIHKPYEGCACRKPEAGMILSLAEKYEI
+DISQSYMIGDREPDIEAGKKAGCATILIANQDPENLADHYFPSLYEAAKFLYGQS
+>tr|A6CRW9|A6CRW9_9BACI
+MDAFTKADGEFLSGQTLAEIAGCSRTAVWKHIEELRKEGFEFEAVKKRGYRIVKGPDRVS
+EEEINPELKTRFVGRVIKYIESVPSTQKIAHALAQEGAEEGTTVIADEQTEGRGRLLRSW
+HSPKGTGIWMSIILKPQLPPQRAPQFTLIAAVAVVQAIEEVCGLSPEIKWPNDILLNGRK
+LTGILTELQAEADKINSIIIGIGMNVNQKAEDFPEELQSVATSLFMEKQEKVSRVKLIQR
+VMEKLEIYYDLYMEKGFTPIKLLWESYAISIGRQITARTITGSIHGKALGINEDGVLRIE
+DAEGQVHEVYSADIELK
+>tr|A6CRY3|A6CRY3_9BACI
+MSLLQTLKNNTYELPEKYKHMSIEQMEEKVREIKAQLGTKLFIPGHHYQKDEVIQFADTT
+GDSLQLAQVSAANDEAEFIVFCGVHFMAETADILTNANQKVILPDMRAGCSMADMANIHQ
+TERAWKLLQEQFGDTILPLTYVNSTAAIKSFVGKNGGATVTSSNAHKMVEWALGQKERIL
+FLPDQHLGRNTAADLGIDLNDMAVWDPVKNKLVYEGDADRIKVILWKGHCSVHENFTLKN
+VAEVREQYPEMKIIVHPECRREVVEASDDNGSTKYIIETIKSAEPGTSWAIGTEMNLVKR
+LINEHRDKHIISLNPHMCPCLTMNRIDLPHLLWSLENIVDNNPENIIKVDEETAHNAILA
+LDRMLARA
+>tr|A6CMP4|A6CMP4_9BACI
+MKETLWSKSFIMLMIGNLFVFMSFQMLIPTLPPYIKSLGASGLEIGLVTTLFSIGAVLSR
+PFIGYMLEYKARKSLVLIGAAALLLITAIYPLSQIVVIFLLFRFVHGLAWGWSTTVNGTA
+AVDVVPNSRLGEGMGYYGLSITIGMIVAPSLGIFLFQVTSFTNLILISAALGIIALVLLS
+VVHYHTPQSVRDTKKEDLKFSYFGSLVEKSSIYPAIITVIATFGYGSIVTFIVIFGEERG
+IDQIFLFYLFNAIMASLSRPFAGKWFDEKGPIGLVLFCTAVTFVGMWVLSFAHSNLLIII
+AGLLFGVGFGSLIPTLQSWVLSKTPSNRRGVANGMFFSSIDLGIGLSGLVFGVLAQFVET
+GTLFQISSAFLLIAMILTIKEARGQKLQQQTQVSPSA
+>tr|A6CS06|A6CS06_9BACI
+MSEEKKSKKEILLSKLIERKEEAKVIRKIVGIIVLSLFIIIGGTAVGGYMYVKSALQPVD
+EDNNKSVNVEIPIGSGVTSIGNILEENGIIKNAFIFKYYVKFNNESGFQAGNYDLTPAMT
+LDEIITSLKTGKVMLKAEFKITIPEGLQLDQIAERIAKETPYATEEVLKKLDDRSYIEEL
+IAKYPDLLKEEEIMAEAVKHPLEGYLYPSTYPFYEEEPSLEAIIEKMVSQTQDVLTQYET
+SRVEQDLTVHELLTMSSLVEEEATEKADRGKISSVFYNRLEEGMPLQTDPTVLYALGEHK
+SRTLYKDLEVESPYNTYKHTGLPPGPIANAGLSSIEAALKPDNTEYYYFLASQEGTVYYS
+ETLDEHNEKKAEYITSEQ
+>tr|A6CNZ8|A6CNZ8_9BACI
+MKPIVKRLIFFAVVLFLWEGGARLGLWPKIILPAPTDVYQSLKIGFSDMTLVYDLIASFR
+RLFIGLGIALLIGTSIGVLLAKSKTADDTLGSLLLAFQSVPSIVWLPLAIMWFGMNETAV
+IFVVVLGGTFVMALNIRTGIKNVPPLFTRAAQTMGSKGIDLFIRVTLPASVPYAVTGARL
+AWAFAWRALMAGELLSTGPGLGYTLRYASDFGDMSLVIGVMIIIGVIGAIVDQLIFSRIE
+RSVLKRWGLQS
+>tr|A6CRW6|A6CRW6_9BACI
+MFRTMMSGKIHRATVTEANLNYVGSITIDQDILDSVGMLPNEKVQIVNNNNGARLETYII
+PGERGSGVFCLNGAAARLVQPGDVIIVISYKLVAEENAHTHVPKVAIMDKDNNIVEMLGT
+EPEATVY
+>tr|A6CL65|A6CL65_9BACI
+MSSVTEVHTELTNVIIENVESQREKYISTSHSIHQKPEIGNEEFFASKLLSGILEEEGFE
+VERAVAGHETSFLARKKSGTPGPVIAYLAEYDALPGLGHACGHNIIGTTSVGAAIALSKV
+LDTTGGEVVVLGTPAEEGGPNGSAKGSFVKHGLLKGVDAAMMVHPANSTRVTSTSLAVDP
+LDFEYRGVPAHAAASPHEGVNALDAVIQLFNGINALRQQLTDDVRIHGIITHGGDAPNII
+PEYAKARFFIRAASRSALNEVTKKVKAVAEGAALATGAELNVIAFQNEVDNLLLNKTFDR
+VFIEAIEQFGETVDLNDREGLGSTDAGNISQVVPTIHPFIKVGPENLVGHTVPFREAAAS
+PQGDEALIKGAKALALTGLKLLTDHQLLSAIKEEFLERKQEQDGK
+>tr|A6CIL8|A6CIL8_9BACI
+MIYSQLLNGLLINLLVILIIILMLNFYLQSKHKYYHLLNKPLLIFIVSTLLIFLSLCLSV
+DLKNGFVYDLRLIPFLLGGIYGGKRVLLGLSVVMVVIRIPLSGTGLMFTVIITLLTGLAI
+LYLSRKLSGKTWTERVYLFTLLSLGYSFFGFFIPSMVFDFYDYISFMIYTGMLAGSTFLV
+FYLCEIIKTTNILQLESVKFEKMQVVSHLAASISHEVRNPLTTVRGFLQLIHEDSANIRA
+NKELSQIAVEEIDRATEVINQYLSFAKPHPETSVNLDIRNEIQKSKEIILPLAMKNNVIV
+NMDLTNKHTIIGEPNKFQQVMINILKNSIEAMESGGVLDIKCYEKDNRVFIKIIDTGIGM
+TEEQVTRLGEPYFSLKGKNGTGLGMMTVFQLVQIMNGKIKVTSKLNEGTTTTLSFPVAPP
+PE
+>tr|A6CQE8|A6CQE8_9BACI
+LGFPLAVSWFIDELLPEGNWGRITAVSAGLLTLYVMSSGMQFVVNYWGHKLGINIETDMR
+RELFNHVQRQSFRFFDNTKTGHIMSRITNDLMDIGELAHHGPEDFFIAIMTFIGAFWIML
+TINVKLALVAIIIVPFLVWLISYSNIKMNAAWTKMYGNIADVNARVEDSVSGARVVQSFT
+NEEYEKERFNKNNLFFRKTKLQAYKVMSWNLSGIYITTRVMTLVILVYGAWLSFTGELSY
+GELVAFILYLNALFKPIDKISALLELYPKGMAGFRRFSELMDAEPDIENKPDAIEAPALR
+GDIRFTNVSFGYENNRTILNDMSFSIKAGSTVAFVGPSGAGKTTICSLIPRFYDVEAGAI
+TIDGMDIRDMTKESLRANIGIVQQDVFLFTGTLRENIAYGRLGASQGDIEEAVRKAHLTD
+LIASLPDGYDTQIGERGLKLSGGQKQRLAIARMFLKDPSILILDEATSALDTETEAIIQE
+ALNDLSKDRTTLIIAHRLATIKKADRIMVITEEGIAEDGSHAELLSQENGLFAKLHAHQH
+>tr|A6CR53|A6CR53_9BACI
+MYMSLKQIYKVAGMIVGAVILIVVLFSSWFTVDESDQAVVLTFGEAGETITESGLKFKMP
+WPVQTVEKLSKETYSLQFGYEEKDGQITEFPKETKMITGDEYIVLADMVVQWKITNPEKY
+LFNAEDPKEILYDATSSSLRSIIGSTEIDEALTSGKAEIEAEVRDLLVTLVDKYDIGISV
+IGVKLQDVELPNDDVRKAFTDVTDARETMNTKINEAEKYQNQRLNESQGEKDAIISRATG
+EKAARIEQARGDVAVFDKLYAEYKGNPEITKQRLILETLEQVLPDAEVYIMNDDGNTMKY
+FPIRPMEKEKPVQGQEGTATNE
+>tr|A6CNW4|A6CNW4_9BACI
+MKRLSIFFLVMIVSYSIYYDLKAGTLPKVEETAAQVIATDTEETPVEETDEEEFEIEHME
+VKIKSGDTVLSLMEQMLDGPLPVSIDQLIEDFETLNEGQSPQDIQVGKVYKFPKY
+>tr|A6CPD6|A6CPD6_9BACI
+DKILDAKGLACPMPIVKTKKAMNELESGQVLEVLATDKGAKSDLTAWAKSGGHELLDHKE
+ENDVFTFWIKKG
+>tr|A6CPP1|A6CPP1_9BACI
+MKHPFSRFFGIGEKDQENDQELESVVNDTSDRDEVKNIPISQIVPNRFQPRTIFNEEKIE
+ELSRTIHTHGIIQPIVLRESGENQYEIIAGERRFRAVSLLGWETVPAIIKNLTDTETASV
+ALIENLQREELSPIEEAVAYGKLLELHNLTQEALAQRLGKGQSTVANKLRLLKLPEEVQE
+AILAKQITERHARALIPLKKPEKQVALLQEVIEKNLNVKQTEDRVDKMLSEGEEKPKPKR
+RAFSKDMRIAVNTIRQSLSMVSDSGINLDSEEEEHEEYYQFTIRIPKKK
+>tr|A6CQA5|A6CQA5_9BACI
+MNAESVIALAERGVYTTLVICGPLLLLALVVGLAVSIFQATTQIQEQTLAFIPKIVAVLV
+GVVFFGPWMLTKLVTYASDIFSNLNRFVG
+>tr|A6CR72|A6CR72_9BACI
+MSEALKITFPDGNVKEFPQGTTTEEIASSISPGLKKKALAGKVNGNLIDLKTPITEDGAI
+EIVTPDHEDALEVLRHSTAHLMAQAIKRLYPDVKLGIGPVIDGGFYYDIDTEHSITPEDL
+PKIEKEMKKIAESNLEVIRKEVSRDEAQKMYEEVSDEYKIELLEAIPEGEQVSIYEQGDF
+FDLCRGIHVPSTGKIKEFKLLSIAGAYWRGNSDNKMLQRIYGTAFFKKEDLKEHLRLLEE
+AKERDHRKIGKELNLFMNSQKVGQGLPMWLPKGATIRRIIERYIVDKEEKLGYDHVYTPV
+MGSVDLYKTSGHWDHYQENMFPVMDMDNEQLVLRPMNCPHHMMIYKNSIHSYRELPIRIA
+ELGTMHRYEMSGALSGLQRVRGMTLNDAHLFVRPDQIKEEFKRVVRLVLEVYKDFDLNDY
+SFRLSYRDPQDTEKYFDDDEMWNKAQQMLKEAMDEMEIDYFEAEGEAAFYGPKLDVQVKT
+ALGKEETLSTVQLDFLLPERFDLTYIGEDGKHHRPVVIHRGVVSTMERFVAFLIEEYKGA
+FPTWLAPVQVQVIPVSPDVHFDYAKKVQEELQAQGLRVELDSRDEKIGYKIREAQMSKIP
+YMLVVGDNEIQEEAVNVRKYGEQKSETVSLSDFVQKVTDEVNR
+>tr|A6CSY2|A6CSY2_9BACI
+MVFYLQTVIAFIVIFGALVFFHELGHLIFAKRAGIMCREFAIGFGPKVFSYKKSETTYTI
+RLLPLGGFVRMAGEDPEMIDIKPGYRVGLILNEDETIQKIVLNNKDKYPNIRVVEVEQSD
+LEHKLFIRGYEDGEDELKTFPISRDAMIIEDGIETQIAPWDRQFASKTLGQRAMAIFAGP
+LFNFILAFFIFLLVGILQGVPVNEPVLGKLTEDGAAKESGLQQGDQVLSIDGNEISTWED
+IVTVIQQHPGDQLLFTIDRNGNTEELTVTPKPQVIEDKEIGIIGVHSPVEKSPLKVISNG
+FEQTYEWTKLIFVMLGKLVTGQFSIDALSGPVGIYQSTDIVAKSGIYYLMRWGAILSINL
+GIMNLLPIPALDGGRLMFFAVEAIRGKPVDRQKEGMVHFIGFALLMVLMLVVTWNDIQRF
+FL
+>tr|A6CUH9|A6CUH9_9BACI
+MQAKAVAKTVRIAPRKVRLVVDLIRGKQVGEAVAILNLTPKAASPVVEKVLKSAIANAEH
+NYDMDVNNLVISDAFVNEGPTMKRFRPRAMGRASQINKRTSHITIVVSEKKEG
+>tr|A6CU03|A6CU03_9BACI
+MVGEKIKSIRENKGITINELAQRADISKSYISTIERDIQKNPSIKVLEKIAAALEVPLDM
+LLDQSSTKILEEEWVQLLKEAIGQGLTKEEFIHFTMLMKIKRKKSIYAGIQQNKKKTI
+>tr|A6CT00|A6CT00_9BACI
+MRTDVFISGGGIGGLTLALKLAKCGIDVTVIERLPGPTPVYKGELLQPKSLQIFDELGLL
+EKIKENGHVIDELNLVEIDKESGKANESNMKYDVVPGEYSYSLMIHHEKLKEIIREAAMT
+SPSFHYRSNSSCKGFSDGKAIVEDRKEKEEELFEGAFYIGAEGRASVTRQEMGIEKEENE
+YNHHFLTVTFPRPPSFTEGKIISTYDRFLGLFPLPNNEVRSVYLIPAGEYKEIRKKPIEH
+FHEMYVELCPEMEGYVNQIESWKTIQLMVPVAYHTDRYIKGNKALIGDAVHTVHPMAGEG
+MNMAIQDGDVLGELLCDMYSQNKLKEENLKWFPHVRRQRVANQMKLSHLSALAYSYPYRS
+VGKLRTRSLMRIEQDPVLHFKQMLNVSGLGMWQDTLKDRLIQGGLLPKRSTPLTEEEKAA
+KLFTQREDYPWKWKEQLV
+>tr|A6CPH9|A6CPH9_9BACI
+MGNYFKQWNELSEVKAELAERDWFFGTSGNLSIRVGNSPLTFLVTASGKDKRKTTFEDFL
+LVNSDGKPVEDTHLKPSAEMLLHLEIYRRTDAGCSLHVHTVDNNVISELYGDRGKVVFRG
+QEIIKAFGLREEGAELHLPIIPNHGDIPLLASELVPHIHGDSGAVLIRNHGITVWGKNAF
+DAKKYLEAYEFLFNYHVKLLTLRQAALI
+>tr|A6CKN5|A6CKN5_9BACI
+MNDRYSRQELFSKIGTEGQRKLSEKHVLIVGAGALGSGNAEALVRAGVGKVTIIDRDYVE
+WSNLQRQQLYTEQDAAERIPKAAAAQKRLRQINSSITIEAIVADAGVQELENLHRDVDVI
+LDATDNFDTRMIINDISQKFSIPWIYGACVGSYGICYTIVPGETPCLHCLLESVPLGGAT
+CDTAGIISPAVGMVVSYQTVEVLKLLVGDHDKIRKKLITFDLWQNQQSAISAASLKKPGC
+LSCGSKPTYPFLSYENQTKAAVLCGRNTVQIRPQTKGERNLEKLADMLAKTGGKVERNPF
+LLSYETSNHRLVVFKDGRVLIHGIKDITEAKKVYHRYLG
+>tr|A6CKW1|A6CKW1_9BACI
+MKIIIAPDSFKGSLTALQAGTIIQTAFLTVLPNAKVDVVPMADGGEGTLDTLLFATKGKR
+FQAKVMGPLGKEAEVEYGLLGDEETVIIEMAQVSGLPMVPEEKRNPLHTTSYGIGEVIEE
+AIQKGYRKFIIGLGGSATNDGGLGMLQALGVTFLDGEGKGVDPIGASVEIIERVDFSTID
+RRVKDCTFQIASDVENPLCGENGATAVFGPQKGADAEMVKRLDAALSKYASLIEKHLDME
+FMNHKGAGAAGGLGFAFLAIGGEMISGSKLIAEAAGLQVKLENADFVITGEGQSDFQTLF
+GKVPGYVGKLAAEMNVNALLISGGLGKGYEELYQYFISCNSIVSGPMPLQQCMDNAESLL
+FNKAVDVARNIQFLYKRGK
+>tr|A6CLI1|A6CLI1_9BACI
+MTMERRIMLAEELTLYVKEATERGTIQELENILLKLNGVERALVDTEDGEVKISYDGSQI
+SRKEVEENIQQNGFSVT
+>tr|A6CM39|A6CM39_9BACI
+MKFMSSASIVISSPIGNLKITADNEFVTKVEFVSDPESGSENDILNKAASQFDEYFKGER
+KAFDLPVKWKGTPFQESVWNALQEIPYGSTCSYKDIAERIGRPKAVRAIGQANKANSLPI
+IIPCHRVVGIDQSLTGYAGKQVDKKETLLKVELAIE
+>tr|A6CLV0|A6CLV0_9BACI
+MKAIIIDDEKHVREGLILLAEWEKFGIHTILEAEDGEQAIELIKEHRPEIIFTDMRMPRK
+DGISLLKWLHSSELHSKTIVVSGYDDYEYMRNALYYKSFDYILKPIEPEVLNEALEKAVS
+EWKDQARSRKSQVEDSQVLNEVKPLYWDRMFSKLCLTGGLSEAAENRIRNEYGLSLTDKG
+VKIALIPIRPFVVKAFQFEDELAFFTLSNIGNELLRRSNEGVCFRNINNDEELVILIWNA
+DNAPLLIQDIHTAIYQYSKVRPIMALGKHSADVKGAYDSSHQVLRKHDLLSAKRVVTEED
+ILNTPLLHLLDYSNDLKWALRSGSMEQIDTQINSLFNLLEKDFTFSLDQIATWDRQFELL
+KNNWLKEYEINNEVTFVKREDYWKEDGTFSLPKFKKEKADEFKELVKILSDAKYQKEKNS
+MQRIEEYLQKNYQEDINLQEIADRFYLSREYISRKFKQDYDATITDYLTSIRMEKAKNLL
+KNPYLKIYEVAYGVGYQNEKYFSKVFKKHEGVTPNEYRQSYSTKS
+>tr|A6CTI5|A6CTI5_9BACI
+MEIQSCVKITNEWDIVAARQLGRNVAKDLGFGTVDQARITTAISELARNIYLYAGQGQIC
+IEKLSENGRNGVRIIALDEGPGIKDIRKVMEDGFSTSGGLGAGLPGVKRLMDEFNVESTP
+GEGTDIRATKWLR
+>tr|A6CL68|A6CL68_9BACI
+MKEIQLKLQGKLKRLTNETFKFDERVKEGWFSAVYFLKTREIAKKYKRDAIITMQFFQKE
+HAVLCGTDEVIALLHTFADNPEELEIHSLKDGDKISPFETVLTVKGRYQDFGYLEGIIDG
+ILARRTSVATNVYKLMKAASLSGKQKPVIFMGDRDDHYTQQAGDGYAAFIGGSTAQATHA
+MNEWWGKQGMGTMPHALIQLFNGDIVEATRAYKETFPEDELIALVDYNNDVISDALKVAR
+EFGAELKGVRVDTSRTMIDKYFVRNQHVLGTFDPRGVNAELIRALRDELDAEGFNHVKIV
+VSGGFTEERISTFEENKVPVDVYGVGGSLLKVNIGFTGDNVTLDGKPQAKAGRKFRWNER
+LEKVEWQ
+>tr|A6CI22|A6CI22_9BACI
+MKRSIWKHPFFLTGFILIVILLISSFVYSFLWGNEVRKLYYISENHVPVESTPISPKWAY
+PFGTDPLGLDMLGKVIIGAKYTIISAFTIAFLRLILSFPVGIILGIHLEKYRKFINGTVD
+SFHYIPLSILAYFLLFPILWEPPQGFSTTITERFFLEILILTLLTVPVLSSLFGNVIARV
+YKEEYILGAKVLGAGKFRIILKHILPAMRGRIVILFGQQVIQTLIIFIHLGLLKLFLGGT
+DVDYQLVADPPRSITYEWSGLIGDTFRYLQGAPWVPLTPILFFAAVMFAVALMMEGYIQA
+TSGYSYYGRKFKSSVLSADKDFKHEVRKEDFRRVQM
+>tr|A6CPN0|A6CPN0_9BACI
+MKFVIQRDDLVQSVGDVMKAVTSRTTIPILTGIKIIANEEGVTLTGSDSDISIESFIPKE
+EEGNEIVEVLETGGIVLQAKFFSEIVKKLPMDTVEIEVQNHLQTVIRSGKAEFNLNGLDP
+EEYPHLPQIEEGNALKVPTDLLKTMIRQTVFAVSTSETRPILTGVNWKVENGELNCIATD
+SHRLAMRKAPLENDNGKEYNIVIPGKSLTELSKILDDNSELVEIVITDNQVLFKAKHLMF
+FSRLLEGNYPDTSRLIPNESKTELTLTTKEFLQAIDRASLLAREGRNNVVKLSTIEQGFV
+EISSNTPEIGKVIEEVQSQSIEGEELKISFSAKYMMDALKALEGTEIHINFTGAMRPFVI
+KPLHDDSILQLILPVRTY
+>tr|A6CMR5|A6CMR5_9BACI
+MKKMLSFLKNYRLSMGIAWTLMLIELAVELLLPLFMAKVIDEGILQGDMAAVWYWGGIMS
+VLALAAFASGVTNSFFAAHVSQGAGYDIRKSLYEKIQNFSFSNFSKYPSSSLITRLTNDV
+TQVQNTIFTSLRIMMRAPLLVIGGTIMALIVDVKLGIILLVVIPFIVVFLLWVLNTGWTM
+FKYVQQKLDSVNDVIQENLKGMRIIKALLRGSHENGRFIEANKTLMKKTVSALRLMETIM
+PVLFIVMNGSILFILWIGNMEAANGNAAVGDVVAIVNYATRITGAFSVFAFIIMSFSRAR
+ASAGRISEVLETDIDLVDSEDSDTSLTVTEGKIEFIDVSFHYPGTKTEVLDEINLKVEPK
+EVVSILGATGSGKTSLFQLIPRLYEATGGNILIDGVEIKKYKLENLRKSIGFVPQEALLF
+SGSIKENIAWGKEDASMDEIVEAARSAQIHDLIEGLPNGYDTVLGQKGVNLSGGQKQRLS
+IARALVRKPKILILDDSTSALDLKTESKLIGAIGDYSCTILIVTQKISTAIQSDKIFLIE
+DGKVIAEGCHEQLITDSPLYGKIFQSQFGEENLEHAKALQ
+>tr|A6CJ65|A6CJ65_9BACI
+MANINIPVSVLNLAPIREGQNSKDAIDSMIDLAQAAEEMGYTRYWIAEHHNTATLVSSAT
+SLLIKHTLEHTQKIRVGSGGVMLPNHSPLVVAEQFGTMATIYPDRVDLGLGRAPGTDMMT
+ASALRRSSTQENVYTFPDDVQQLLTYFGQPEEQGYVKAYPGVGTDVPIYILGSSTDSAYL
+AAKLGLPYAFASHFAPRHMEEALSIYRSRFQPSKYLDKPHAIVCLNVIATETDEDAKRQS
+TTMQQFFLNVVRGTQKPMSPPVDDMDEIWTPSEKQVADSMTSVTLMGSKQTVKEQLTRFQ
+EKYNADEIMAVSYIYDKDKQKRSYEIFKEVVDGK
+>tr|A6CP78|A6CP78_9BACI
+MPQLGFGVWQVENNQATAAVAKALETGYTSIDTAMIYQNEEGVGKALKETSVPREELFIT
+TKVWNSDQGYDNTLRAFDESLEKLGLDYVDLYLIHWPTPEFDEYVDTYKALEKLYQDGKV
+KAIGVCNFEIEHLERILNECDVKPVLNQVECHPYLAQNELKEFCAKHDIFVEAWSPLEQG
+GEVLKDEVVTQIAEAHGKSPAQVVLRWHLQKNTIVIPKSVTPSRIEENFNVFDFELTADE
+MSQIDGLNKDRRKGPHPNDMNHR
+>tr|A6CHU0|A6CHU0_9BACI
+MIGISIATKWEYEATLEYFGIKDNERFGYPYGEYFMRTINDTELVFYSTGVRKVNGVGGT
+QYMISKFNLTKVIVAGTCAGIDDKFSNLDIFVPDKAVQYDCTVKEIEPFIKQSFIVDIDL
+SKYGNDFYTGTIGTADKAVVMWKDYLELRENEIIIADTEAGAIAYICKKNDVECIIIKGI
+SDFPTEESNSEKFESNIEQINVYLENTPKVMNKIFDEYLKRFI
+>tr|A6CPU2|A6CPU2_9BACI
+MKINILGGGPEEFIPDLHEYSDETSIWVGVDHGVFRLLNHGIKPDMAFGDFDSVNEEEWK
+LIEENVDQINRYLPEKDETDMELALNWAITKSPEKIRIFGATGGRIDHFLANVQLLGKKE
+NLHPSIEIEIIDIQNGVQIVPPGEYTLKEKSESKYVSFLPLTTDVEALTLKGFKYPLQNR
+NISMGSTLCISNELIQPTGTFSFTSGILMVIRSHD
+>tr|A6CTL7|A6CTL7_9BACI
+MKKILLLNGPNLNRLGKREPDIYGTVTLKQLEDKVEKAALAAGYELTAEQSNHEGAIIDS
+IHLAGDQEYAGIIFNPGAFTHYSYAIRDAIAGIDIPVIEVHISNVHKRESFRHHSVLAEV
+SEGQIVGLGLFGYELALQALIKKHKGDEEVE
+>tr|A6CTV8|A6CTV8_9BACI
+MSKIIHSKDVTYAAKQKLEERGVSVEDIADIVFQMQYPYHPELEMAECIESVEKVLLKRE
+IQHAILVGVELDILAENKQLSEPLQSIVETDEGLFGVDETIALGAALGYGSIAVTTFGHL
+DKNKIGIIRELDTKNGKGVHTFLDDMVASIAANAASRIAHRLRDEEEQFTDEEIKAHDEE
+EIIG
+>tr|A6CL79|A6CL79_9BACI
+MEKTKIFALDIGTRSVVGIILIENEEKQYEVIDILSLEHKERAMLDGQIHDVPAVAAVIT
+SIKAEMEKKHGPLQKVCVAAAGRALKTEFASASIPISGKPLLTKEDVLHLELSAVQQAQA
+LAAQNADQTYHYYCVGYSVLYYKLDGEEIGSLVDQQGDEATVEIISTFLPKVVVESLLAA
+LNRAGLEMEALTLEPIAAINVLIPASMRRLNVALVDIGAGTSDIALTDMGTIIAFGMVPT
+AGDEITEAISDALLLDFPLAEKAKRELIHHDTITVSDILGFETEISREETVEKISPAIDH
+LAEEIKTEILRLNNGKSPKAVMLVGGGSLTPELPERLSSALQLPVNRVAVRGIDAIQDLK
+IIHQVSKGPELVTPIGIAIAAKKAPVQYVTAYVNEQPVRLFEVKELTIGDCLLAAGLKMN
+KLYGKPGMAMIVSVNGQSITLPGKHGKAPTILKNGQKSGIDQPIQNGDKITVMRGENGED
+PSIMISDLIESQPEVALTINGKNYSFVMNVMVNGKTSLMETIVQDRDMIEVEPLPSLESA
+LRRTGHENLLQYLRTFHVTINEKETFIPAFSGRVTVNGRETKLSTVIKNGDVIDIKKTEA
+PTLKMIMDKKQMKLSDKIQIFFNDEELELSKQVTEVFRNGEKLDENSPVHSGDKLTAISK
+EAGSFIFQDLFRHVEINMPSNAQGKFLLLKNGEETTFYETIQTGDKLEIRWPLSV
+>tr|A6CPS7|A6CPS7_9BACI
+MRYHEMRQEDIEKTVNTDFANGLAEDEVKKRRKQFGFNELKEAEKQSALLLFFSQFKDFM
+VIVLLAATLISGLLGEYIDAIAIIAIVLINGFLGFFQERKAEKSLHALKELSAPQVNVLR
+DGNWVKVPSKDVVPGDIIKFLSGDRIGADVRLITVNNLEIEESALTGESVPVTKRTGEIQ
+GENINLGDLENMAFMGTMVTRGNGIGVVTAIGMQTAMGKIADLIQTAETMTTPLQRRLEQ
+LGKILITVALFLTALVVGIGVIQGHDMYTMFLAGVSLAVAAIPEGLPAIVTVALSLGVQR
+MIRRNAIVRKLPAVETLGCASVICSDKTGTLTQNKMTVTHLWSGGSTWTVSGTGYDPEGS
+FYHREERVSPSSEKSLNQLLTFGMLCNNAKIKLKDEEYILDGDPTEGALLVAALKAGLQK
+EALLGKFTIEKEFPFDSTRKMMSIVVKDQQGKRFIVTKGAPDVLVNISESILWNEKLQYR
+TKEFTEKVQGAIHELASNALRTIAIAYAPWTLPSLPKTEEEAEKGLTFIGLQGMIDPPRA
+EVKQAVKECRQAGIKTVMITGDHVVTAKAIARDLGILRGQDKVLEGADLNTMEVADLEEV
+VEKVSVFARVSPEHKLKIVKAFQNRGHVVAMTGDGINDAPAIKAADIGVAMGITGTDVAK
+EASSLVLLDDNFATIKSAINEGRNIYENIRKFIRYLLASNVGEILVMLFAMLLALPLPLV
+PIQILWVNLVTDGLPAMALGLDKPEEDVMKRNPRHPKEGVFARGLGWKVVSRGFLIGLST
+LAAFILAYKQHPDHLAYAQTVAFATLVMAQLIHVFDCRSEKSVFARNPFGNMYLVWAVLS
+SLLLMILVIYLPGLQPIFHTVSIELKDWLLIAGMSALPTFLLAGSFFAGKKR
+>tr|A6CJI3|A6CJI3_9BACI
+MKELLRKIPSIHEIQQGEDFAKMIKERNISVEQGTDLIKEAVATLRKKILDATWDGPVPG
+SADLNNHLIEQAHQAAKHKFSYTLSKVINASGTILHTNLGRARLSQTAAQHVLEIAENYN
+NLEYDIENGTRGSRHKHAEILLREVTGSEAAMVVNNNAAAVFLILSALGKEKEVIVSRGE
+LVEIGGSFRVSSIMEESGAVLVEVGTTNKTRISDYADNLNENTSMLMKVHRSNFVIKGFT
+EEATTDELVNLASTQEHVIYYEDLGSGMLYDLKKHGIGSEPLVKEVITKGADIVSFSGDK
+LLGGPQAGIIAGKKDIIDALKKHQLARVLRVDKMTLAALEGTLLDYLRGNVNNIPAYRSL
+LMKTDELKKIADDMAHVLNEKTNNFHAEVKPDKSQVGGGTMPEVELDTFVLSLKHSQLEA
+AQLERMLRKADTPIIARIYRDELLLDFRTVDPEEIPVISETLISQD
+>tr|A6CQH7|A6CQH7_9BACI
+MMKQPHYFYAVPLPWQTQEKIEEWISEVSGTLPFQRWVHPEDLHITLAFLGGTDANSLKR
+SIDRIHELRKGFSFSLEIKKLGTFGNTASPRILWTDVSSSSSLSELRDSVYSACLQEGYE
+LDKRPFNPHITIARKWKGDGKFNYSMLEPFFLSEPLDFRVSEFVLYRTHPDRLPKYEVVE
+KFILNQR
+>tr|A6CPL5|A6CPL5_9BACI
+MIVLNLFLVAVLIGLTAFFVASEFAIVKVRSSRIDQLVSEGNPKAKAAQKIISNLDGYLS
+ACQLGITITALGLGWLGEPTIVVLLNPVFESFAIPESVSHVIAFVIAFGVITFLHVVIGE
+LAPKTWAIQRAEQLTLLTAKPLIWFYKIMYPFIFTLNGSARFITRMFGLGDASEHEVAHS
+EEELRIILSESYQSGEINKSELEYVNKIFEFDNRIAKEVMVPRMEIISLEKDTPLKEIVK
+TVKEEGYTRYPVTEGDKDNILGVINIKEILTDCLSSDCPQDQPVPNYIKPIIRVIETIPL
+QNLLLKMQKERSHMAILIDEYGGTAGLITAEDIIEEIVGEIQDEFDIDERPYVQKVGETH
+FIFDAKLLINEFNELLGTELSDEEVDTIGGWMLTQKYDLKQGDSLFEGGYKITAKEMEGH
+HIFYVEVKKIEED
+>tr|A6CKJ8|A6CKJ8_9BACI
+MKMLTPERQQIILSLLEEKGVVKLQELIEETDASESTIRRDLIQLEDEKKLKRVHGGASL
+LQGKRNEPSMTEKTFKNLQDKIQIAKTAASFIKDGDSIFMDAGSTTQQMISFLNQEKLTV
+VTNGITLIEPLLEKGISTYLLGGMIKGSTRAMIGRSALETLKTYRFDKCFIGTNGVDLDY
+GYTTPDPEEALIKQAAMNLSQERFVLADHSKIGEVSFSKIAEMEEAVLITNKTSENIQQF
+QQHTSIKVVTT
+>tr|A6CKD1|A6CKD1_9BACI
+MSDKTLSKEEYLNKAKELDTTKEAPKQLEDTDFLTVAKERRSVRHYDPDFKLEESEIREL
+LETATLAPSSSNLQPWRFLVIEDQKEKERLLPIANNQQQIVDASVVFAVLGDREAYKNAD
+RIYSQIAEKGNMPEDVKDMYVNSIFENYGNFPKERQAKIAHIDGGIVANQLMLAAKAKGY
+DTVPMGGYDEAKFMEAFNVPETYEPIMLISLGKGTKAGFEKTRLPLDDVMQWNKF
+>tr|A6CQL2|A6CQL2_9BACI
+MSRLQDKVAIITGAANGIGLEAARVFMKEGAKVVIADFNEAAGKEAVEANPGVVFIRVDV
+SDRESVHRLVENVAERFGKIDILINNAGITRDSMLSKMTVDQFQQVINVNLTGVFHCTQA
+VLPYMAEQGKGKIINTSSVTGTYGNVGQTNYAAAKAGVIGMTKTWAKELARKGINVNAVA
+PGFTETAMVAEVPEKVIEKMKAQVPMGRLGKPEDIANAYLFLASHESDYVNGHVLHVDGG
+IMM
+>tr|A6CQH3|A6CQH3_9BACI
+MEEMKMTKLWGGRFTKETNKLVEEFTASISFDQKLALEDIEGSLAHVKMLGECSILSPDD
+VELITEGLLQIKSKIESGTMEYSVEHEDIHMNIEKQLIDLIGPVGGKLHTGRSRNDQVAT
+DMHLYLNRKTKELIGLMNSVQEALLLQAKDNVETIIPGYTHLQRAQPVSFAHHLLAYFWM
+FQRDKERLQDSLKRVNWSPLGAGALAGTTFPINRERSAELLGFDTVYPNSMDAVSDRDFI
+VEFLSIGSLIMTHMSRLSEELVIWSSQEFHFIELDDSFCTGSSIMPQKKNPDVPELLRAK
+TGRVYGNL
+>tr|A6CIV1|A6CIV1_9BACI
+MAISLSDAFRLWLVKKRKQNNLTQETIAELSDINEKHYGRVERGENGVTLAFIEKVCGGF
+GIKYRDLFIELEEMLENNSEGHHS
+>tr|A6CQ51|A6CQ51_9BACI
+MFVLTELGARLKEAREAKGYSLDDLQNMTKIQKRYLMGIEEGNYDMMPGKFYVRAFIKQY
+AEAVGLNPEMIFEEYSNDIPVTNTGDLPELSRVQSRKPVSQSSSKVMNVIPRILVALFVI
+GAIFVVWYLLPNQIGNDNAGTDDTQEESVDYSESDEVQQPDDESGDSEESTDADSDSEGS
+ETGQSEEESEEPVEEPSQEITVANVSGKETTYELKNTDDFNLEISATGDTWIGVYNSKDE
+QLFNQMMKEGDTQTFELSQDGEAFIVVGNASATNIKVNEEQINYEVSPTEVVRQDIIIRR
+SAQE
+>tr|A6CRS1|A6CRS1_9BACI
+MFVSYKWLQDYVDLSGITPEDLAEKITRSGIEVEGVEVIGNGVKNVVVGHVLECEPHPDA
+DKLNRCQVDVGDEEPVQIICGAPNVAAGQKVPVAKVGAVLPGNFKIKKAKLRGQASHGMI
+CSLQELGVEGKLVPKEHAEGIYVFANDTEVGSDAVEELNLDDAILELGLTPNRADAMSML
+GVAYEVAAILDRDVKKPEIKVEETSEKASDYISVNVEATEDNPLYVAKVIKNINIGPSPM
+WMQNRLIASGIRPHNNVVDITNYILLEYGQPLHAFDYDRFGSKEILVRRAKQGEVIVTLD
+EEERKLNENHLVITNGTEPVALAGVMGGANSEVGQDTKTVLLESAYFAGGTVRAASKDHG
+LRSEASSRYEKGVDPNRVKEAAERAVSLMAEFAGGEVLEGSVTVDNLKVEPAVVTITLEK
+INSVLGTDISAEDVESIFRRLQFQVSVSGNEFQVTVPTRRGDITIEEDLLEEVARLYGYD
+NLPLTLPEGDATAGSLTPFQIKRRATRRNLEGSGLMQAITYSLTNDAKAGQFALHKREPI
+RLIMPMSEERSNLRLSIIPQLLEALSYNSARQNDSLAFYEVGSVFLKEENQELPSEHEHI
+AGALTGLWNSHPWQGEKKPVDFFVVKGILEGLFEELGVSEHITFRQAEREGMHPGRTAEI
+LLDETVIGFAGQVHPEVQKAMDLNETYVFEIEAAPIFNYGLPALQYTAIPRYPSITRDIA
+LVVDQQAKAGELKTIIKEAGGKLLKEVSIFDLYEGEHMEPGKKSLAYSLKYFDPERTLTD
+DEVVKAHNKVLEAVKAKAGAELRG
+>tr|A6CQD6|A6CQD6_9BACI
+MPGRRGEEMLVLTRKTGEAIQIGDDIEISIVSIKGDQVKLGINAPKNIEIHRKEIYLSIQ
+EENAEASKGIENLLNILPKKE
+>tr|A6CRF7|A6CRF7_9BACI
+MKKKLQLLKVLGKLLLLIVLWAVTLVYALFQGGFVSWFLFYSFVPFALFSLLVSIYPLSD
+FEVERSFKSTDFKAGDSMEVSLIIKRKLPFPLFYLIADDIVSPSIFYRSTFQKAKSLIYP
+GFRREIHLKYIIDELPRGEHHFSAVRLKTGDFFGIFEKEVTVPCVNTLLVYPAFVDVIYR
+PLESRYDQGMASSNVKIQKDTTMATGVKEYQPGDRFSWIHWKSFARTNELMTKEFEERQS
+HDVLVVLDREPSHAFEPMVTFTASILKAVLRRGAQAGLLSIGEDQVSFPIRGGEEHQRQL
+YHHLAKVKADSKFDMSKVLHGEGNNFQQSATVMFVTGSLSKKLISTVSSYAKRNSSVVIF
+LIKEQATQLSSEEKALKAMAAGRGIWLKVIYDGEFGSAFSEVKNA
+>tr|A6CJW7|A6CJW7_9BACI
+MDNKANQPANDYFCAQTNDFAALFSAEAFYNSDKEIRTITLEELRGKWVVLFFYGSDFTF
+V
+>tr|A6CI96|A6CI96_9BACI
+MLLSVERGIFYFGKKRGYIMIKIRNLVKEYKTKKQTVIGVDHVSVTINKGEIFGIVGYSG
+AGKSSLIRCLNLLEKPTSGEIIIDGQDLTKLSSRDLRQARQKISMIFQHFHLIKAKTVFE
+NLAFALKAARVPKAEVKPRVTELLKKVGLSDKANAYPAQLSGGQKQRVGIARALANNPSV
+LLCDEATSALDPSTTKSILRLLKDINKELGLTIVLITHEMEVVKEICDRMAVMQDGRIIE
+EGSVYDLFANPQEHLTRQFIENILQFELPPHLLQSRQGKLIKIQFKGSIAEESVVSDVFQ
+KYKVRGNILHGKIEYIQNIPLGIFIMELIGDAAEIDAAIRYIRIKTQSLEVLEHAA
+>tr|A6CNY8|A6CNY8_9BACI
+MDRTNLENHNFYLFYPVHLYDIFSESSVFIMTLGGMLMNGTVRLIPYVKEEIFETASEMP
+AGVDMVQAPQVWKAGMRGNGITIAVLDTGCDVNHEELKGRIIGKRNFTDDDDGAEDNVTD
+YNGHGTHVAGTVAANENGQGVVGVAPEASLLIIKVLAGEQGSGRYDWIVDGIQYAIDQGV
+DVISMSLGGPADYPPLQAVIRQAVDKNISVVCAAGNEGDENAATDEFSYPASYNEVISVG
+AIDFDRKSSYFTNSNNEVDLVAPGENILSTIPGGKYAKFSGTSMAAPHVSGALALIKLLE
+ESNFDRSLSECELYAQLVKRTIPLGYPKALEGNGLLYLTAPELLMDYLQQAKLSLTV
+>tr|A6CIE9|A6CIE9_9BACI
+MLRVIRQPLFIIGFSIIFFITAASIIHATHYDSVIPQTEWLTDSEGNMIKGAPLPPAKDH
+PLGTDKFGYHMLQRLLQGAKYTFGAAFLTSVLGFFLAFVLGILLAFWRKKGSKAMVKGIS
+SSFYFVPQSIIAYNILYPVLWESPEGFPYSLTGRVVYQIVMLALILAPTTALLIADETRE
+ILKKEFIESAITLGASPFHIFRKHVLPHLRPRLFMIFPRIVVQVLLIIAHLGIFQIYFGG
+TSVCYDIMCDPPMPVANEWSGLLGMYIKQINYQWWLALGPLGCFTLTILAINSMAAGIEK
+GLTPPKAYRRRWKIWRKRKIAPIPGSSYSVDANDFKRVSNG
+>tr|A6CT84|A6CT84_9BACI
+MTPFTENVVNIIKSIPTGRVMTYGQIAGLAGSPRAARQVVRILHSMSGKYKLPWHRVINA
+KGQIALQDDEAFYEQKMNLEMEGVEVGLHGKINLEKYRWNPNS
+>tr|A6CTS2|A6CTS2_9BACI
+MTNQTDKLVKGGSFIIEDVSYENVFTPEDFTDEQKMIAKTTEDYVVNEVVPQVEHLENHE
+FDRSVKLLKEAGELGLLGADVPEEYGGLGLDKVSSALISEKMSTAGGFSITHGAHVGIGS
+LPIVLFGDEDQKQKYLPALATGEKIAAYALTEPGSGSDALGARTTAKLNEAGTHYVLNGE
+KQWITNAGFADVFVVYAKIDGEQFSAFIVEREYPGVSTGAEEKKMGIKSSSTRTLILEDA
+QVPVENLLGEAGKGHIIAFNILNIGRYKLGVGAVGGSKRAMDVTIKYANQRQQFKTPISS
+FNLTKEKFATMAAKLYATESSVYRTVGLFEDRMSKLTEEEVKNGTEVAKSIAEYAIECSL
+NKVFATETLDYIVDEGVQIHGGYGFMQEYEIERMYRDSRINRIFEGTNEINRLLVPGTFV
+RKALKGELPLFQKAQALQEELMMLMPEEVGDAPLEQEKYLVKNAKKIGLLIAGLAAQKYG
+KALEKEQEILVNIADIISNAYAMESAVLRTEKAIAKDGAEKAKQKLLYTQIFCQEAFNEI
+EAHAKETLVAAEQGDSLRMMLSALRKFTRYTPLNMIAVKREASEKLIEAERYVL
+>tr|A6CS46|A6CS46_9BACI
+MKSHIVRDQMEKEPKQPEPVQSIEIPFMDTWAAHGVQPYYLEEDYCLIREKIYNLSDYHG
+KYRLGQVQEAVEAWNQFDGIHPLSANGLSSEDLFFFDTETTGLGGGTGNTIFLLGYAKIT
+GDKLVLRQHILPQPGSEIPLYHSFLEKVDYNTLVTYNGKAFDWPQVKTRHTLIREHVPKL
+PSFGHFDLFHGSRRLWKSKMDSVKLSNVEKEILDFHRIDDVPGYLAPMIFFDFVERKDPE
+GMLKVLLHNELDILSLVVLYTHLSFQILGIDSSQSSGEKLLVGKWFDYLGDKDQAIDRME
+RLVKETAGEESLAAKHSLAFQYKRMKRYTEAYDYWNEVSETGPEELKIEACIELAKLAEH
+QFKQLERAMVFSVKAYEGMEQRTNSNEKYLKEVAKRIQRLERKLAK
+>tr|A6CS22|A6CS22_9BACI
+MLKSFLPNEQVKDVFQIKPETLKEQGIKAIITDLDNTLVEWDRAQATPKLIKWFKLMQDH
+GIKVTVVSNNNEDRVRSFAEPLNIPFIHQARKPMGRAFRRAVKEMGVSREETVVVGDQLL
+TDVLGGNRSGFYTILVVPVAQTDGFVTKFNRKVERRIMSFFKRKGMIQWEEEK
+>tr|A6CU28|A6CU28_9BACI
+MSRISEDQVKHVAHLARLAITDEEAQKFTT
+>tr|A6CNL4|A6CNL4_9BACI
+MKLGLTSKIIIGLVAGAIAGLLLNVFAKDVFNILDPYLFTPLGRIFLNLISMLVVPIVFV
+SIVLGSAGLGDPKKLGRIGLKTILFFLVTTCIAIVIGLSLAHVIDPGLVEGIDQTSNEGF
+EAKEAPPVGETLMNIIPKNPLTAMSEGNMLQIIAFAIFIGIGLTALGEKTKGIFKLVEQA
+NDLLMYLVTLVMKFAPYGTFGLIASAIGSQGWGAIKAMWLYMMVVIIALVIHAVVTYGGS
+VLLLAKKSPIWFFKNFSPAMSVAFSTSSSNATLPISMETAQKRLKVSEPVSSFVQPLGAT
+INMDGTAIMQGVATVFIAQVYSVDLTMGELVTVVLTAVLASIGTAGVPGVGLILLAMVLS
+SVNLPVEGIGLILGIDRLLDMARTSINISGDAACALIVSESEGKRDALDRPEEN
+>tr|A6CPR3|A6CPR3_9BACI
+MNRGGNNMANNNEAVLDVRDVPKAGQWLTLSLQHLFAMFGATVLVPYLVDLSPAVALVSS
+GLGTLAYLLITRGRIPAYLGSSFAFIAPIISAKTVGGPEAAMMGSFLAGLVYGIVALLIA
+KLGLKWLMRILPPIVVGPVIMVIGLGLAGTAVNMAMYENPGAAELVYSNTHFMVALATLS
+ITVIGSMFFRGFLGLIPILAGIVGGYMIAFFAGIVDLSGVKAAPWLQMPDFIIPFVNYTP
+SFSWEVAMIMVPVAIVTLAEHTGDQMVLSKVAGKNFLKQPGLHRSILGDGVATIIASFLG
+GPPNTTYGENIGVLAITRVFSVFVIGGAAVIAIAFGFIGKITALIESIPTAVMGGVSILL
+FGIIASSGLRMLIDNKIDLGKKRNLIISSVILVIGVGGAFVEITENLSLSGMALAAIVGV
+VLNLVLPGQDPVDENEMFEGLNEEN
+>tr|A6CML7|A6CML7_9BACI
+MIKIVIAEDQQMLLGAFGSLLDLEDDMEVVGKASNGEEALRLVREFQPDVCIMDIEMPGK
+TGLDAAEELKGTGCKIIILTTFARAGYFQRAIRAGVNGYLLKDSPSEDLADSIRTVMSGK
+RVYAPELIEDAYGEGNPLTVREIEVLELVADGKNTKEIADELSIKTGTVRNYISTILDKL
+QVKNRIEAITQSKEKGWFK
+>tr|A6CMN4|A6CMN4_9BACI
+MSNHLHLLIETQEHSPSQIIHYTHSLYARYFNNKYKCIGHLFQDRFDDKIIRDIKQLVDT
+SRYIHLNPVKAGLVKMPEKYPWSSYKSFVTSTHDPLIENKVILESFGRGSKSSYRHYVEL
+NMNKGTLYFKS
+>tr|A6CJH9|A6CJH9_9BACI
+MAKNDVFNSRSSFEAAGKRYHYYRLKALEEAGVAKVSRLPYSVKVLLESVLRQFDGRVIN
+KDHVENLANWGSADVKDAEVPFKPSRVILQDFTGVPAVVDLASLRKAMADIGGDPDKINP
+EIPVDLVIDHSVQVDKYGTADSLAVNMDLEFERNAERYQFLSWAQKAFKNYRAVPPATGI
+VHQVNLEYLANVVHAVENEDGEFETYPDTLVGTDSHTTMINGIGVLGWGVGGIEAEAGML
+GQPSYFPIPEVIGVKMTGALPNGATATDLALKVTQVLRQKGVVGKFVEYFGEGVATLPLA
+DRATIANMAPEYGATCGFFPVDAESLDYMRLTGRSEEHINVVEQYLKENDMFFTPDREDP
+VYTDVVEINLSEIEPNLSGPKRPQDLIPLSEMKSSFHEAITNPEGNQGFGLDEKEINKTA
+SYTNRNGEEVKIPTGGIGIAAITSCTNTSNPYVMLGAGLVAKKAAEKGMIVPDYVKTSLA
+PGSKVVTGYLEDSGLLEPLEKLGFNLVGYGCTTCIGNSGPLLPEIEKAVADADLLLTSVL
+SGNRNFEGRIHPLVKANYLASPPLVVAYALAGTVDIDLQKDSLGKDKDGNDVFFADIWPT
+QDEVKDVVKRTVTPELFRREYENVFQDNARWNEIQTSNEPLYSFDEKSTYIQNPPFFEGL
+ATTPEDIKPLEGLRVVGKFGDSVTTDHISPAGAIGKDTPAGKYLRSNGVEPRDFNSYGSR
+RGNHEVMMRGTFANIRIRNRIAPGTEGGFTTYWPEDEVMAMYDACMKYKEQGVGLAVLAG
+KDYGMGSSRDWAAKGTNLLGIKTVIAESYERIHRSNLVMMGVLPLQFKKDENADTLGLKG
+TESISVELAEGVKPRDIVKVTATDEDGNKTQFEALVRFDSDVEVDYYRHGGILQMVLRDK
+LKA
+>tr|A6CHA7|A6CHA7_9BACI
+MKGMDNNAVKQWIQSRELQAVRLLQKLVQEKSVRGNESKAQAVIIEKCREIGLKLDIWEI
+EKKDVLHHPFFRCDREDFLGNPNVIGVWKGTGGGRSIILNGHIDVVPEGDESTWNIDPYS
+GEYMNGKVFGRGSTDMKGGTVALLLAIEALKENGIELKGDIIFQSVIEEESGGTGTLAAL
+LRGYTADAAIIPEPTNLKLFPKQQGSMWFRILVKGKQAHGGTRYEGVNAIEKAITVVQVL
+QDLEKRRNENIKDPLYRNIPIPFPINIGKLESGKWPSSVPDLAVIEGRIGVGPQETMQAV
+EKEMETTLRELAEKDAWFAQHPVKLEWFGGRWQPGSLESDHPFMEVVSEAYEQVFDSPPV
+VEASPWGTDGGILSKGGNIPVVVFGPGTTEAAHDANEYIEVPKILQSAEVIALAILKWCE
+AEE
+>tr|A6CL38|A6CL38_9BACI
+MENDGIRKTKAIYWASGIVSICGIIFEVLFGAAGSYILGDGVKQYTLTISIFLTGMGIGA
+SVSEKVTKHLIVSFIWIELLIGLIGGLSIFTLFGITAFFSEGTDAFFLYAVTAIVGALTG
+VELPILIRKANEIGETLNRSTARVLFSDYAGGLIGGLLFVFLLRPQLGLVKTAFIVALVN
+VIVALWLMFYFRDEIKSVKKHGAAGIFVLIFLLSGVFWGEEMAFTFEQKLYRDPIVHSEN
+TNYQQIILTKEQGDLRMFLDGQLQFSSSDEYRYHETLVHPALSAAERKENVLILGGGDGL
+AIRELRKYDEVKHITLVDLDPRVIELARTNPAIAELNGHAFEDERVEVINQDAFTFMEKS
+DEFYDVILVDLPDPNNESLNKLYTLEFYQLLRNHLPPGGTMMVQSTSPTFATEVYWTIDK
+TIKAAGLQTENLHVDVPSFGDWGFVLAARDELSLSELTLQVETKFLTDEVLKGLGAFGKD
+TDALITDQDGNEVELEVNTLINPILIQKYERAWSTY
+>tr|A6CJG4|A6CJG4_9BACI
+MFDYTLSTDKSMEEAVNSLEASLKDEQFGILWTFDIKDKLQEKGLDFDKEFKVLEVCNPK
+EAQRVLNENTMAGYFLPCKMVVYEDGGQTKIGMPKPTSLISMLDDEKMKEFAKDIEDRLI
+ACMKKSV
+>tr|A6CUH6|A6CUH6_9BACI
+MIQQESRLKVADNSGAREVLTIKVLGGSGRKTANIGDVIVCTVKQATPGGVVKKGDVVRA
+VVVRTKSGVRRTDGTYIKFDENACVIIRDDKGPRGTRIFGPVARELRENNFMKIVSLAPE
+VL
+>tr|A6CLM3|A6CLM3_9BACI
+MKILVTGGNGFIGSYVVNSLVEGGYKVVIVDSSIGNKNSINKKVKCYQLNITDKNLSNVF
+DKERPDAVIHMAAQVDVSRSVMEPIMDAEVNILGTINVLNECVKYKVKKVVYSSTSAVYG
+ENVASEISENEKIMPISFYGISKYTPELYLEAFFKIHGLKYTILRYSNVYGERQGIKGEG
+GVIPIFIHELMEDRSPVIFGDGKQTRDFIYAGDVAEANVSALNAADMEVLNISSGISITI
+LQLFEQIRDLMGKAVTPNFRGGRSGDILHSRLANSKAIMMLSWEPKVNLPEGLRKTIDYY
+KEIKLQ
+>tr|A6CRF4|A6CRF4_9BACI
+MKGVRNLSGLYFLLIVLGAIIVYSVLTFFMQKRIVNNLTEEEFRAGYRKAQLIDVREPNE
+FENGHILGARNIPLSQLKQRQQEIRNDQPVYLYCQSGMRSGRAAQMLRRKGYKELHQLQG
+GFKKWTGKVKKKK
+>tr|A6CRS6|A6CRS6_9BACI
+MNDKVLRTLEFNKVKELLAGFAASALGRAKVEGLQPSTTLEEVIRIQEETDEAASILRMK
+GHAPLGGIFDIRPAVKRATIGGMLGPQEFVQVASTIRASRQFRLFMEDLEEEEELELPIL
+TEKVSQMAVLTPLEHKIKAVVDENGAILDSASDSLRQIRSQIRANEGRIREKLERMIRSS
+NAQKMLSDAIITIRNDRYVIPVKQEYRGNYGGIIHDQSSSGQTLFIEPEVIVSLNNALRE
+LKLKEGQEIEKILTELTVEVSVFSEDLLTIVSVLADIDFMFTKAKYGKSIKGTKPEINGN
+QVLKLNRARHPMLPIDEAVANDIELGKDFSSIVITGPNTGGKTVTLKTIGLLTLMAQSGL
+QIPALDGSEMGVFQNVYADIGDEQSIEQSLSTFSSHMVNIVDILGKVDHESLVLFDELGA
+GTDPQEGAALAISILDEVHQRGAKVVATTHYPELKAYGYNRDGVVNASVEFDVETLSPTY
+KLLIGVPGRSNAFEISKRLGLADRVIDRAKSHIGTDSKEIENMIASLEKSRKDAEADYDE
+AHELLKQAEMMHKDMQKQMMEFYEKRDSLYEKAEVKASQVVEKAKEEAEGVIRDLRKMRL
+EKSAEIKEHELIDARKRIEGAAPELNRSKPKKTNASQKRELKPGDEVKVLSFDQKGHLVE
+KVSKNEWQVQMGIMKMKVKESDLQFIQAEKKVETKPLATVKGKDFHVGLELDLRGERFEN
+ALSRVEKYVDDALLAGYPRVSIIHGKGTGALRQGVQEYLKNHRSVKRVRLGEAGEGGTGV
+SVVEFK
+>tr|A6CIY4|A6CIY4_9BACI
+MKWKELPRNIKVRMITSFFNRAVSSAVMPFMALFFAQEMNKVWAGAFLIMTVVIGFVINL
+VGGYISDRFPRKKVLLTTSWLNALFFLIMTISLFPQDKLIVLFAGAYIGFIITSSLGRPA
+MHAIIIDSTTPENRKAVYALDYWLINLSMAIGAALGGLLYLNHQTELFMMLTFTSITIPI
+AYGIWLEDHFKDQLQKKHQNVFIDLINNYRVALKDSAFTKVVAGSTFIFAAEFSLNSYIG
+IRLAETFESVSIGSFEIAGVRMLSILNIENMLLVVCFTFIVNRFTDRLNKKHALLFGLIL
+YGIGYVTVTSANTWYVLIAFNLIATMGELIYSPIRNAEQANMIPDDQRGSYSAFSGLSFS
+GADLIARSSIIIGAFLMPTMMSVYIGFIVMLGTTLIYTGLFARKWAADKVLESTVSAGGG
+K
+>tr|A6CPH4|A6CPH4_9BACI
+MKKMPMTSVTSGTGIEVLPDLYCFNVQIVNIAFIGNPRESNEFVLVDAGMPDSESMIMEA
+AKERFGENAVCKAIILTHGHFDHVGALKGLLKKWDVPVYAHSLEKPFLSGESSYPPPNTD
+ADSGLVAKMSSMFPRHSINISSHLNILPEDGAIPVLPGWRAIHTPGHTPGHISLFRDSDK
+ALISGDAFINVEQEKLYEVMTQKQEIHGPPQYFTVDWQAAWDSVKTLAGLKPQVAVVGHG
+LPLADDELTTNLDKLARDFGATEIPENKK
+>tr|A6CK70|A6CK70_9BACI
+MYRKEDSVMLQLTKVKKARRGNDKAFQDLVEAEKNKLYRMAYLYVKNENDAIDIVHETIY
+KAYISIKNLKEPGYFSTWLSKILINTALDFIKKNKKVIPFEEIERYETSEKVHIAESLDL
+VDAIDRLEEKYKTVIILRYYKGLQIKEIATMLDCPEGTVKTNLHRAINKLRIDLREECL
+>tr|A6CQ35|A6CQ35_9BACI
+MNTVDIYKPKHHVRFVTASSLFDGHDASINIMRRIIQASGAEVIHLGHNRSVEEVVNAAI
+QEDVQGIAISSYQGGHVEYFKYMYDLLQERGASHIRIYGGGGGVIIPREIKELHAYGIAR
+IFSPEDGRNHGLQGMINGMIKECDFPTVTSSVGEHLDKLQAGDINTVSKLISLAEYQINT
+NEEAAATAQSVLTEVKSLAKTVPVVGITGTGGAGKSSLTDELIRRFINEIPEKKVAILSI
+DPTKQKTGGALLGDRIRMNAIFNNRVFMRSLATRGSKTELSLAIQDSINVVKAAGYDLVI
+VETSGIGQGDAEIAEICDMSMYVMTSEFGAPSQLEKIDMIDFADLIVINKFERKGSEDAR
+RQVQKQYQRSHMLFDKDLDTMPVYGTIASQFNDPGTNALFAALVDKINSKLDLDWSTSFS
+KDVDVEKQNVIIPNDRRYYLREISETVRNYHKKAEEQVRLARKLFQLQGAIEAVKEQEAG
+EEVLTSLENLKKNVEEKLTVESKKILDGWEEFKEKYGADQYITKIRDKEIITELKTKSLS
+GLEIPKVALPKYKDLGEILGWVYKENVPGAFPYTAGVFPFKRKGEDPKRQFAGEGTPERT
+NRRFHYLSKDDDAKRLSTAFDSVTLYGEDPDHRPDIYGKVGESGVSICTLDDMKKLYAGF
+DLCAPSTSVSMTINGPAPIILAMFMNTAIDQQVKKKEEELGRTLSLEEFTDVKEATLNVV
+RGTVQADILKEDQGQNTCIFSTEFALRMMGDIQQYFIDHKVRNYYSVSISGYHIAEAGAN
+PISQLAFTLANGFTYVEYYLSRGMDINDFAPNLSFFFSNGLDPEYTVIGRVARRIWSTVM
+RDKYGANERSQKLKYHIQTSGRSLHAQEIDFNDIRTTLQALMALQDNCNSLHTNAYDEAI
+TTPTEESVRRAMAIQMIITKEHGLSKNENTLQGSFVVEELTDLVEEMVLAEFDRINDRGG
+VLGAMETQYQRGKIQEESMYYEMKKHNGELPIVGVNTYLNPNPPSEEQMDSMELARATKE
+EKETQITNLRSFQERNQDSTEEALKKLKEAAVSGGNIFAELMETVKVASLGQITRALYEV
+GGQYRRNM
+>tr|A6CNM6|A6CNM6_9BACI
+MIQQSLELTGKQKLEWRRHKLGPLQKDEVLIQTIAGAISIGAALPEYDETDVTDPIPEYP
+RKAGYESYGKVIEVGQEVTDVKIGDYVLAFYGHKKLGIEKAHKVVRVPKAIDSSYALLNI
+LSCDAAKGVLKLNPQPASRVLIIGAGTMGLLTVHFLKNYMKVEQVDILEPDFSRGGFAES
+FGATNVYNKAEQVPDGLYDYGLECSASIEGFHVLLKSMKKHGDICILSDGNKDLFYLNED
+FYEKELRIVGSSDGWDYRKHSEWFFQQLDEAPYLNKIFDYTISSDQLIECYANLSDGNLK
+PLKVLVKY
+>tr|A6CT56|A6CT56_9BACI
+MSIKAEEISALIKKQIENYQSEMKVSDVGTVIQIGDGIARAHGLDNVMAGELVEFSNGVM
+GMAQNLEENNVGIVILGPYRDIKEGDEVRRTGRIMEVPVGEELIGRVVNSLGQPVDGLGP
+INATKTRPIESKATGVMDRKSVHEPLQTGIKAIDALVPIGRGQRELIIGDRQTGKTSVAI
+DTILNQKDQDMVCIYVAIGQKESTVRNAVETLRKHGALDYTIVVTASASQPAPMLFLAPY
+AGVTMGEEFMFNGKHVLVVYDDLSKQAAAYRELSLLLRRPPGREAFPGDVFYLHSRLLER
+AAKLSDEKGAGSITALPFVETQAGDISAYIPTNVISITDGQIFLQSDLFFSGVRPAINAG
+LSVSRVGGSAQIKAMKKVSGTLRLDLAAYRELEAFAQFGSDLDKATQAKLNRGARTVEVL
+KQDLNKPLKVEKQVMILYALTKGHLDDIPVGDIRRFEEEFLSWLDRNHTELLDHIRTTKG
+LPEDDAMKAAINEFKKTFAKSE
+>tr|A6CH94|A6CH94_9BACI
+MILMKNMLFSLFLIMLLISGCSGSGIISHQKVTHTLIQKEQPPVDFIPKTINIVSVGDSL
+TQGVGDSTKSGGYVPYLEESLEDLSAVKDAQFSNFGVKGNRTDQLLKRLKNEDIKGAIEG
+SDLVFITIGGNDVMKVFKENIYDLNLAVFNDEMLKYRDRLREIMSLIRSYNPETGIVLIG
+IYNPFNTWFSEIKEVDEIILNWNRLSEDVLARYERTAFITINDIFIEGKESLLFEEDYFH
+PNDQGYELMAERMFEELTERETLAELTQNEFIVREEGL
+>tr|A6CMS9|A6CMS9_9BACI
+MHPHYPKNGRVILHVDMNSFYASVEAAYNPELKGKPLAIAGNPDERRGIIVTCSYEARGY
+GVKTTMPLWEAKKLCPQLIIMRPNFDRYRAASQGMFEILRQYSQLVEPVSIDEGYVDITD
+SYSLGSPLFIAESIQNQILSQQDLPSSIGIAPNKFLAKTASDMKKPMGITVLRKRDLPER
+IWPLDVKEMHGIGEKTAQKLYSMEIHTIGELAKANEIVLKSQLGINGLRLKARANGTDDR
+PVDPDSVYDFKSVGNSTTLPRDTANQKELLNTLNQLSGKVASRMKSKDILALTVMLTMRF
+KDRKTITRSKKLKNPVGSQDDIFAAAKALFLQHWNGNSIRLLGVTGQDLVERDDAALQLD
+IFSYEEHAKKEPLYQTIEKLQDKFGKQMIQRGISAKQDKRDPHQDTSFNKDFLREDK
+>tr|A6CLN1|A6CLN1_9BACI
+MSKDNGMKDKLKGAAKKAEGEVKEKTGRATDNPDMQRDGLKDKGEGKVHETVGEAKDDHR
+R
+>tr|A6CME3|A6CME3_9BACI
+MKGGYIMADYKTITTDELKKKLEQGETLDLVDVREDEEVEEGMIPQARHIKMGDIPESLD
+KFDKDKEYILICRSGGRSGKVSQFLHDQGYKVVNMEGGMLEWEGESQPKDKCI
+>tr|A6CN34|A6CN34_9BACI
+MQNLLEETEAARMSSIAVCPGSFDPITYGHLDIITRGAKVFDKLYITVLNNSSKKPMFSV
+EERMELIREVTKDIPNVVVDSFQGLLMDYAKSVNANAILRGLRAVSDFEYEMQITSMNRV
+LDESIETFFIMTNNQYSFLSSSIVKEVAKYDADISELVPKPVEIALQAKNHS
+>tr|A6CJG5|A6CJG5_9BACI
+MLLLIIIAVSMIIALYKRYFPVTGVQRLNKTPNKTESIQILDVRDYNQSFNDPIQNSVNL
+PVAYLKRNWHELAGAQIHIVASTNLEKNMSIRMLRRKGYEITGYTLTEKQCPPRQDKGKG
+YCYGI
+>tr|A6CT91|A6CT91_9BACI
+MRYFILSQSLATMAGSVSFPFYLLFIKNIGSNFSSFGFAYGLFTLSSALFHRWIGAASDK
+IGSRKFLIGYAWGMAFLFLLIPEVDTLTGVYVMQVALGFLGAVQKTCEKTMAGEIFHGEG
+AGRKIGHYHFWTSLFASFAVFATGVLIDFFTISFIFYIGSFLFAGSGIALLFFEQKKEVH
+KAEEDVSA
+>tr|A6CHM2|A6CHM2_9BACI
+MRKIPVLEIFGPTIQGEGMVIGQKTMFVRTAGCDYSCSWCDSAFTWDGSAKEDIRMLTAL
+DIWEELREIGGNRFNHVTISGGNPALIAAIDDLLTVFKENGIKSALETQGSRWQDWFLDI
+DELTLSPKPPSSGMKTDFEKLDFILEQLKEHKSYSLKVVIFNDEDLEYATDLHERYPEVP
+FFLQVGNTNLSSENEKGLLNQLITDYEKLIDTVTESERLNNVRVLPQLHTYVWGNKRGV
+>tr|A6CMT1|A6CMT1_9BACI
+MIGLKIDNLEVAKAIFDPKLEKIITSIKFSSKTVKEISSELGEKQSRLYYPIQKLQNLGL
+VMVTEERKTGNIIEKYYSSKHLYEDDITFNFEGEFAIEHKEFLISKVMFSLNKGLNVLKN
+DLEGDPSRQENNAMFTEYGLELTPEEWQHLNEEVRKLVDKREMKNVKEDGVKPYKMIFFS
+YKDEEG
+>tr|A6CTI7|A6CTI7_9BACI
+MLIDVYYPYDRVNEYSNGFVEEVKLMNLTIDLNENDKVIDVKVNGEIDAYTAPKLKDALA
+STAEEQNVVMNVDLSEVSYMDSTGLGVFVGLFKTIKANGGQLYLNGLSERLKRLFDITGL
+GDIMNINSEVKGGVE
+>tr|A6CHJ8|A6CHJ8_9BACI
+MYEEAEAAVKDLDNSLPFAGVPILLKDAQQDIKGHPLTIGSKLLANYKSDEDAEYVRRLK
+KTGTIILGQTNVPEFALMAITEPVHYGPSKNPWSLNHTPGGSSGGSAAAVASGMVPIAGG
+NDGGGSIRIPAAFTGLFGLKPTRGRTPVGPKKGRSWQGASVDHILSKTVRDSAAMLDETQ
+GFEKTAAFHYPKYQGSYRSLVEKPLEKGIKVAFSCESPIGTDVHPECKEAVYKTVKLLED
+MGCVIEEKKPDIDGKKLAESYMTMYFGEVAATLNNIEALIGRRVTMRDVEPATWLLNQLG
+NKVSAGEFVQALQRWDLSAITMEAFHNDYTFYITPATAFPPSRIGELDQTSFEKFLMKAV
+GVINAGGLLKKTGFVDELVSKSLERTPFTQLANLSGQPAMSLPLHLTKDKLPCGVQVMAA
+RGREDLLFRLAGELEQSSLWIKC
+>tr|A6CS24|A6CS24_9BACI
+MKTLYGVIGNPIGHSMSPLMHNDAFQEKGIDSHYQPFLVKSEDIEKAVKALKVLGVQGFN
+VTIPHKRAIMPLLDEVDPLAEAIGAVNTVVRKGDRFIGFNTDGMGFIRSLEESCPFPLDN
+KAVLIIGAGGAARAIFYSMAASGIKNIDICNRTPEKGEDIIKDCPFPCTSASLSLQQAEQ
+SMELYDIIVQTTSVGMHPETNAMPLNVTRIKEGAFISDIIYNPLETKIMKTFCALGGKGD
+NGIGMFVHQGALAFELWTGIIPDSDRMRNIVQQQLGG
+>tr|A6CPE2|A6CPE2_9BACI
+MESTKVLDAKGLACPMPIVKTKKAINELQSGDVLEIHATDKGAKSDLTAWAKSGGHELVK
+HEEDNDVFKFWIKKG
+>tr|A6CQD2|A6CQD2_9BACI
+MSNELKLVQFLEKIAKLQKSLYQLALTKTDLLKAGDAEALGQMLKNELSHIKAIEALNNN
+VEAVKSSLAVDLGLKAPITLSEIINAESISYKKELQALQQELLYISGELKNRNELNQELL
+QQSLQFVNLNLDLLIGQQDAGNYSRLQGDDSEVNTTSIFNSKA
+>tr|A6CQL5|A6CQL5_9BACI
+MNHKCLFYQTITKFIILYKEGGKSMGAIPVIQSQLMPPPVKDSFMRRASLHKKLASIPKY
+PLTLLHARAGYGKSTALILFAHDIHNDACWYSVSPNDDDIIPFLTKLVHAIKAKIPAFGS
+PVLAELDMLHQHISDEQMWSLISMFVNEMVGLKDEVVVILDDYHHVQKSMVIEKWMKHFL
+EYIPSNLHLVISSRTKPSWGILTSLKVKAELLEIKQEDLMLSMDEIEHLLEDIYEITITQ
+QDLQRIHQLTEGWAIAVHMLVGNMRNSDMPGGFLDNRSETLQDLFDFLALEVLSKQPFAI
+QEFLLKTSILDELASDVCDAVLGTGDAQSVLQKLSRQNVFIQEIDGMKYRYHALFKEFLQ
+NRLRRTRQEDYINLNRKAAQFFEEENIENALHHYLQVGEYSYGARVISLHGRELLQKGKL
+QTLLDYLKPIPEELKYEFPTLWFYQGEISRLRSSYDWAESCYRKAITSGEEAGDHYLVSI
+ALEGIARIYLDTIQPDKAERVLQRAIALRENSNESREEMAKLYHLLSENLLNSGQAVKAK
+KWYERAESLNLPLEEGNLKARIYLRTGRLNKARDLLLKRKNSSMDSSNVHISQSHRETDI
+LLSIIEAFRGNPEESKKYAEQGLKLGMDIQSPFVEACGWMRMGHAVQLIERYESFLAEKC
+YKTSLEIMDNIDVPRGKAEPYMGLCILLGKQGQYEKAIEAGQKGLYETERVKDVWLSSLI
+QLCMGIAAIYCGKYEAAYDVLVEVRNQFEGCGDRYGMMLTSFWKAYIAYETEQEENFCDE
+MRQFLNELQIGEYHYFLTRRTTFGPMDIQNFVPLLVKAQKHHIHSSYISELDLATRDNHP
+GYTLKVKTLGKFRIQLGNRFVNESDWQRGKAKELFEFFITNKNKLIDREEIFREIWPDQD
+EDSANRSFKVSLNSLLKTIEPHRKAREESYFIKRTGVSYGINPDAVYQLDTILFEEWVTE
+GLTEKDPVLAKELLERGLKLYEGDYLPDHRFADWCLTERERLQVIFLRAAEMLAQVSVRL
+SDFETGIHWCERILMEEDTWEEAYRLLMYCYYQKNNRPQAIKWYNKCKKVLNADLGVEPL
+EPTREMYKMITEAADLDTW
+>tr|A6CPE6|A6CPE6_9BACI
+MKKKFLKSAAIAIAISTLGVSSAGAAGFHLIQKGDTLWSLSQKYGMTVDHLKGSNGLSSN
+TIYEGDKVEVKKLVTVKKGDTLWSLSQKYNSTAGQLKHVNQLKSDTIYIGQKLEIPNVVL
+VRSGDTLWSISKK
+>tr|A6CHG1|A6CHG1_9BACI
+MEVFVARQPIFNDNEEAIAYELLYRNNQENIFPNIDGDRATADVIINSFLNIGIDQLSGG
+KPCFINFTETLLKLKVPTYFHPREIVVEILESVEPSEEIISICKELRGLGYKIALDDFVF
+DKENPYCRELMKQADYIKVDMLTTSVKKREEIELIARLLDIKLLAEKVETRKEFEEAKKR
+GYSLFQGFFFSKPVILRTYDVPVYFHSYYEVIQSLEMSEPSIEKISQLIEQDISLSYKLL
+KLINSPAYRPKQKINSIRQAIILLGLIEIQRWIYVLAIRDMTGAVKQMSEEVIKLCLTRA
+KMCELISKHAFQDAVSSSYFLTGMFSLMESIIGQPIEKVLKDMPLQDDICDALEGKDNNL
+KKVLDLVIALEKADWENANLKGQEIPLPQNKINQFYAVSCQWAESLLRAEYLKEGQGSTL
+NQ
+>tr|A6CRZ2|A6CRZ2_9BACI
+MYEYINGTVKRVGPEYVVLENGGIGYQIFTSNPFLFSKFENQNTTIYTYQHVREDILALY
+GFLSMEEKMLFIKLLNVSGIGPKGALAILASGAPEQVISAIEGEDERFLTKFPGVGKKTA
+RQMILDLKGKLQDVVPDYFPNLFQEGKHESVSANDELVEEAALALKALGYSEREIKKVTP
+KLSSQDKTTDELIKDALKLLLK
+>tr|A6CJA5|A6CJA5_9BACI
+MKPTISNLAAYLKTNENELAKTIVDSVLERMELTISQQEKDRAVTMYEALVNFLSVSLES
+DEDSMPPELIEWCKLNAYELVSANGEISEIIVRYPPTREVFTDLISGWSKQFELSTDDFT
+LVLKKVNRLLDVSLEETVIAFEDYNKTMKEEFKEEIDVLSFPVVPLTKEMAVIPLVGNMD
+EHRTNHLIETVLPKVNDLKINYLIADFSGVNDIDELAVRNLDSAGSMLRLLGIKVISTGI
+SPELAKTAVAIGVETDSISFYGSVRQALEMLNS
+>tr|A6CNU2|A6CNU2_9BACI
+MSQDQQQLWLENPSNKQAPVIRLLRQDLDWGSKMKRDVHLTAVNGEKIRRALKKNKLFLR
+NYYITAYPPVDDYETLVSETVTLPKASKTTVQSSIITWNDYENEAREVSDLFNDEKNWEV
+KEDTEEIEVHALKESVLSYAANKANEEKSLFTRGKPFFTYIFIALQLLVFFVMEMAGGTQ
+DTENLIRFGAKYNPLIVDGEWWRFFTPIVIHIGFLHMLMNTFALYFLGPAVERIFGSARF
+LFIYLFAGFSGTLASFVFNDSLSAGASGAIFGCFGALLYFGTAHPKIFFRTMGTNILVVI
+GINLAFGFTIPGIDNAGHIGGLAGGALSAAIVHLPRAKRMVMQLAALLLAVVIIPALLFY
+GYQNGPVFSDPSINNAEAQQLLNDGDTEGASSILKEMIEEDKGNAHTYFLYSIVKIKNEQ
+YAEAETLLHEALDLDEDFPEAHYNLAVLLVERGEEGQAKEHAEKAYRLQKDNKQFEDLYD
+ELEGY
+>tr|A6CPW0|A6CPW0_9BACI
+MIDYKIFIPALLILIGIGIPLALYENESLEMLNSIFDSIVSVFGWGYLWYGVLLVAAAIY
+FSFSKYGQVVLGDPNEKPHFTMFEYASILIAMGVGSTIMRTGMLQWTSVANDPPAGVEPG
+SAEALLWGNAYSMFLWGFQVFAIFVMIAPAMGYVLHVKKRPLMRISEACRILFGNKFTDG
+WGGKSLDILFLLSILTGAAVTLGLGAPIITHNLSALFNIEVTFGLTIIVTIVWVILFSFS
+AYMGIDKGIKRLSTMNMYLAGLFGLFIIVAGPGVFILNYFSDSFSFLLSNYLNFSLNTDS
+VHLGEASHIQSNTVFWFAYSATWAMLHSVFAAKISKGRTIKEMILTYLLAPTLLSWVATG
+VLGGLGVHRYLTGDLDILSFIQEEERMAAIPQILSTLPFGEFAIMVFIVVALIFLTTTLD
+STTYTVAAYTSTRDMSRFEPTKMLRIVIAAVITGMALLLMRIGGLPPLGVVSGLMGLPVI
+VIQFLLIYAAKRMMDKDMAWQYNTRNNNYSKDERTVS
+>tr|A6CQ88|A6CQ88_9BACI
+MMNETVNKYKEQLNTFWSARTKKQKGMYGVAALVIILAIAVTGFLSTRTNLVPLYSNLAP
+SETGSIKENLDGRGIVSEITDGGSTIMVPSEMVDTLKVELAAEGIPNSGSIDYSFFSQNA
+GFGMTDNEFNVMKLDAMQTELANLMKGIEGVQDANVMITLPEKGVFISDAVEQASASIVL
+NTKPGFNFDQKQIKSLYHLVSKSVPDLPTDNIVIMNQLFEYFEMENENSSFGGTVVQQMD
+IKDRVEKDIQKQVQSMLGTLIGFNKVVVSVTTDIDFTQENREVNEVTPVDAENMEGIAVS
+VQRITETFTGNGQTAGGVPAAEDAGDGLGTYVEGENSNGDYERMEETINNEVNRIRREIV
+ESPYKIRDIGIQVMVEPPDPEDPNSFPQDRQEDISQILSTIIRTSIDKEAGTELTPEAIE
+DKIVVSVQPFNGKMEFEQETPSALPWWTYVVGGILLAVIILLIFLMVRRNKTVVEEEVVY
+EERQQPVNIPDIDTEKETESSVRRKQLEKMAREKPEEFAKLLRSWLADE
+>tr|A6CMP8|A6CMP8_9BACI
+MILTACNGNGDNELADPQDVNYDPVSFSGENPNNNGNGEALTDRNPDDPAVQRQGRNLFT
+RRFTVPVDPRNGGQNTREYAGQGNRQENGQGQAAQEPETPQQPADENQNAEAGNMDEYVQ
+QVIDLTNGERKKNGLPALKPHAELSNVARIKSEDMVNKNYFSHTSPTYGSPFEMMENFGI
+DYSTAAENIAAGQESPQEVVKAWMDSPGHRKNIMNQQVTHIGVGYAEDGGRGIYWTQMFI
+K
+>tr|A6CN55|A6CN55_9BACI
+MMKLQTLLGVLPFYSTRGKGNPDIANLKNHHKKVQNGDLFFCIKGSEVDSHTLAKEAVLS
+GAAAVVSERELELDVPVIIVKDSRRAMAVLADYFYKQPTKQLKLIGVTGTNGKTTTTHLI
+DRIFSLNGDKTGLIGTLYVKTGDEVIASKNTTPDSLTLQQLSASS
+>tr|A6CTA6|A6CTA6_9BACI
+MSNELSQYKTPLFTGLVEHSKKNPVQFHIPGHKKGTGMDPEFRNFIGDNAFSIDLINIGP
+LDDLHQPKGMIKEAQKLAAEAFGADYTFFSVQGTSGAIMTMVMSVCGPGEKIIVPRNVHK
+SVMSAIVFSGATPIFIHPEVDEDLGISHGITTDSVARALEQHPDAKGVLVINPTYFGISA
+DLKKIVEIAHSFDVPVLVDEAHGVHIHFHEDLPISAMQAGADMAATSVHKLGGSMTQSSV
+LNIKTGLVSPKRVQTILSMLTTTSTSYLLLASLDVARKRLATEGRELIENTIQLSETIRE
+KVNRIESLYCVGKEILGTKATFDYDPTKLIISVKQLGISGFDAEKWLREVYNIEVEMSDM
+YNILCIITPGDTSAEGDKLVEALTELSYQFSDKEGFSETVEVLLPDIPLLSMTPRDAFYA
+DTEVIPIEQTVGRIIAEFIMVYPPGIPIFIPGEIITSENLTYIQKNVEAGLPVQGPEEFD
+LSHLRVIKEHKAIR
+>tr|A6CS60|A6CS60_9BACI
+MSDMVKIGLIQASHDVDGSEPVEVHKEEAIKKHIELVKDAAKKGAKIICLQEIFYGPYFC
+SEQNPKWYDSAEEIPNGPTTKRFQDLAKELNVVIVLPIYEREGIATYYNTAAVIDADGSY
+LGKYRKQHIPHVGVGDKGYGFWEKYYFKPGNLGYPVFDTAYAKVGVYICYDRHFPEGARL
+LGLKGAEVVFNPSATVAGLSEYLWKLEQPAHAVANGYYLGAINRVGYEGPWNMGEFYGQS
+YLVDPRGSFVSVGSRDSDEVVIGEMNKKLIREVRDTWQFYRDRRPETYSEMTALLP
+>tr|A6CL30|A6CL30_9BACI
+MNIVKWGILSTANIAKKAIIPALQTSKNTEVSAIASISGKAGEIAGEFSIPKAYGSYEEL
+LDDEEVQAVYIPLPNTLHKEWVTKAARKGKHVLCEKPAALTAEDVKEMADVCRSNNVLFM
+EAFMYQFHPQNSRVKELIAEGAIGEVRQMRSAFTFKLDFEKNKQNIRLNKELGGGSIWDV
+GCYCIHSARYILNEEPSEVFVKGERHEGFGVDTKAAGILSFKNGITASFECSFEQPMKDL
+YEISGTKGTIKVPFAYRPDRFPAGEVQIKIIGEKGEERSETLKGNPYEIQVSHFSDCILN
+GSEPAYSPEATIKNVQAIQACYQSMDTSAAVRL
+>tr|A6CNM3|A6CNM3_9BACI
+MNLSLIFDMDGTLFQTDKILELSLHDTFNHLRSQDKWNAETPIDKYREIMGVPLPKVWET
+LLPQYSIAEREQVDAFFLKSLIENINSGKGALYQNVLEVFKVLKENGYNIYIASNGLTEY
+LKAIVDYYGLDKWVTETFSIEQIDSLNKSDLVKIIIEKHSLSNAAVVGDRLSDFKAARDN
+GLVSIGCNFDFARKEELIQADMIINDFTELITIIPSLNKQLI
+>tr|A6CQT7|A6CQT7_9BACI
+MNVLVIGRGGREHALCDALQKSQSVEKVYCAPGNAGITELVHTIDIEETDFEALIEFAKR
+SQVDLTVVGPEIPLLEGIVDAFTDAGLKVFGPDKQAAVIEGSKSFAKELMKKYSIPTAAY
+ETFSDFESAREYVLKSGAPIVIKADGLAAGKGVVVAQSVDEAIDALEDMLLQAKFGKASA
+KVVIEEFLEGEEFSLMAFVDGEKVYPMEAAQDHKRAFDGDQGPNTGGMGAYSPVPHISGK
+VISGAVQTILLPTAKAMRAEGRSFKGVLYAGLILTAQGPKVIEFNARFGDPETQVVLPRL
+QSDLGKVLLNLCEGQEVTLEWDEQGVAGVVLAAEGYPESYKKSVPVKDLEKLQVDTLVYH
+AGTTIDDSGRLVSNGGRVF
+>tr|A6CPS1|A6CPS1_9BACI
+MIKKDLMQIISNEEIAENIFKMVLSGDLVSELNEPGQFLHFKTGTGVEPLLRRPISIAEI
+DKENNSLTVIYRAEGKGTKLLSGEKQGAYADVLGPLGNGFPIHWEDEGKTALLVGGGIGV
+PPLYELSKQLVSKGINVIHVLGFQNQSAAFYEKEFSKLGPTYIATVDGSLGTKGFVTDVI
+KEKGLEFDLFYSCGPKAMLAALSTSYGESKGYISLEERMGCGIGACFACVCEKAVNDGEK
+NYVKICSDGPVFPVGVVKL
+>tr|A6CHF7|A6CHF7_9BACI
+MFNKIEEALEDLKAGKVIIVIDDEDRENEGDFVALADKATPEVINFMATEGRGLICTPIT
+LEKASQLQLNPMTDQNTDPYGTAFTISVDHVNTTTGISAFERSTTILEMIKEDAKPSDLK
+RPGHVFPLIAKNGGVLKRAGHTEAAVDLAALSGSTQAGVICEIMNPDGTMARVPQLKEIA
+EKFNMKMITIQDLIAYRRKEEKLVEKEVEIELPTEFGHFKAVAYTEKLTGQEHVALVKGE
+ISPGEPVLVRVHSECLTGDVFGSNRCDCGPQLHAALSQIEKEGKGILLYMRQEGRGIGLV
+NKMKAYKLQEEGLDTVEANHKLGFADDLRDYGIGAQILKDLGVSKMRLLTNNPRKITGVK
+GYGLEVEERVAIQMPSKEENEKYLKTKHSKLGHLLQF
+>tr|A6CP97|A6CP97_9BACI
+MKKILVIGGTGMLGGAVEDLVKKGNKVTILARSMDKYQSMLAKHGLKPEEVDFLAADYFN
+RDALVQVLDEHIKTNGPFDQAVIWMRRTAIESLDAVMDILSRNSGDVDVFRVNGSAAAQT
+TLPYKFHQTINMHHIILGFKIENGESRWLTNDEISEGVISALTTGIPLTITGVIEPWDKR
+PGY
+>tr|A6CS84|A6CS84_9BACI
+MLTYERKVTAFITKHNLIQDGDSILAAVSGGPDSLSLLHFLNKYRNLWNVKVAAVCVDHM
+FRGEQSYEELLFVKKTCEEMDIPFFGERLNVQGMLDDQKAGLQEGARNARYHLFARLIKD
+EGFTKLAFGHHGDDQVETILMQLTRGSSGRAKIGIPVQRDFYGARIIRPLLCLSKEEILK
+YCSETGLQPKFDPSNEKKDYTRNRFRQEVLPFLKGENPLVHLKFQQFSEEAAEDESFLRS
+LAEEKLESILTKTKDEAVVDIEAFRLMPLPLQRRVIHLILSYLYKDRPSSLSSIHIQDVL
+AIILKDSPSLSLDLPGNLKVIRSYNQCVFTFEGRTEGSGDFCYTLNIGESIELPDHRTFT
+LQEAEGHLIHADSVIFQKSSIAFPLRIRTRKPGDRMKVKGLNGTKKVKDIFIDEKVPVRL
+RDTWPIVEDDNGEILWVPNLKLSAFACNKAGDPGDYVRLIFSEQTSS
+>tr|A6CPA0|A6CPA0_9BACI
+MLENQVAIVTGASRGIGTEIARQLLKKSVKVSLVGSSAQIHETAEKLKNEGFDHLHSIQA
+DVSIEQDVTKAVEETVKQFGKIDILVNNAGIGFFKPTEEVTSEEWRKLFEVNVHGVFHFS
+KAVLPYMKEQKFGSLITISSDVARYTIPNGAAYVASKYAVQGFCGSLAQEVREYGIRVGT
+VNPGMVDTYFADSRQGLQEKADWLKVEDIANAVVYMASAPKHMLIDEMKIHPFAQDYPIG
+>tr|A6CN64|A6CN64_9BACI
+MNFFETFTGTIDVFLKGMLLTFELTVVSVFIAIFIGLFFAFLKISKMKVLEIIADIYIFV
+VRGTPLIVQIFIFYFGLTALQISGFWSVVLGLAFHNGAYIAEIFRGTIQSIDKGQMEAGR
+SLGMSNGLTMRRIILPQAFRRALPPLGNQFIIALKDSSLASFIGMYELFSVATTLGSNNF
+DYMTYLLIVAVYYLVLVLFFSVIVNFVEKRMSLSD
+>tr|A6CNV6|A6CNV6_9BACI
+MKGVNKMKHSGSNGKLNVREMIQEKKSTVNINSVMEKFVPKFLFAIAAISIFTTIGIVIT
+LLTETVNFFRNVPFLDFFTGTELNPIGREPQFGVLPLLTGTIISSVIAMFVAIPVGLMSA
+VYLSEYASEKVRKTLKPILEILAGIPTIVYGFFAFTFVTPLLRSFIPGLEPTNILSPGIV
+MGIMIIPMVASLSEDAMSSVPNSMREGALALGATKLEVTWKVVIPAAISGIISSFVLGIS
+RAIGETMIVTIASGSNKNFTFDITQSMQTMTAYIVEVTGGEAAAGTTIYYSLYAVAMTLF
+VFTLIMNLIAQYISRRFREEY
+>tr|A6CM01|A6CM01_9BACI
+MKENDITVYTQPDCPPCSFVKELLTNNTIAFTEKDIRKDSLARKELIEKYKAMSTPVVII
+NDQIYYSSDLSKLPEVLGLNKKN
+>tr|A6CMR0|A6CMR0_9BACI
+MKIRYLYQLLLSHTSVLIIAFLILGTLFSHYVENLVYENKVEELSSYGEKILSDLERPSP
+RRPLYLEEYSNLLQARDIDLITFNQNGVVSFSRGGIYPRIELSEDEWQKIERGETVPLKK
+DFGRFNKAVSLVIMPRIINDQLAGGLILISPISGTREMLSEINKYLLYIVFISLAISLLI
+SLFLSKLHVKRIQRIRDATSQVSSGDYDVHVPSSNFDEIGDLADDFNNMVTKLRASKEEI
+DSLEKRRRQFMADVSHELRTPLTTIRGVIEGIRNDMIPEEQKEKSYGLVSQETRRLIRLV
+NENLDYEKIRSNQIVITKVTVPLLDVLEVIKEQLDFQAEEKQNAIHIEADPAVKVYADYD
+RLIQILINITKNSIQFTSGGSIWLRGSASGEETIIEIEDTGMGMDPEEIQSIWRRFYKAD
+LSRTNNPYGEFGLGLSIVKQLVLMHKGTIDVSSEKGKGTKFVITLPLEEKEG
+>tr|A6CPU7|A6CPU7_9BACI
+MKPELKDIVSKTILTPGKGAIDNFTHSLNPYAGCVFGCKYCYVRQMPISLFREQEWGTWV
+DIKTNAVEILRKDLIKAKKKGPVTLFMSSSTDPYQPIEHETRLTRSLLELMLETQPDFIH
+LQTRSPLVKRDIDLFKQFGDKIRISMTIETDKEEVRKAFSPAAPPIPARMAALKEITEAG
+IMTQATIAPLLPCSREFPSKLKQIAKRITIDDFWMGDGTGGRRTSKLGVKEIYRQLGLEK
+WYNPTAYKVVLKMLREELQGSEIDIGVSKDGFSPG
+>tr|A6CNI8|A6CNI8_9BACI
+MNVDSIIFDLDGTLWDPIDSVLLVWNKVLQDNYANIREFNRKDFSGTMGLQIQEIGQRLF
+PDLDEKEQKQLLDKCCEAESEYLGVNGGQLYDNLEKVLSLLSQKYKLYIVSNCQAGYIEA
+FYRFHKLDRFFLDYENPGRTGLSKGENIKLVMDRNNLISPVYVGDTEGDRKAAMHAGIPF
+VYAEYGFGEVEDHDYKIEDLKELLALFG
+>tr|A6CQN6|A6CQN6_9BACI
+MGIKWDEFFVTGDPLILGAQISIALTMIGVVFGVTYLKKWTWLWREWITTVDHKRIGIMY
+IIAAILMFFRGGIDGLLMKAQTSRPEMEFLSSQHYNEIFTTHGVIMILFMAMPFLIGLMN
+VVVPLQIGARDVAFPQLNALSFWLFFAGAMLFNISFVIGGSPDAGWTSYFPLAGKEFSPG
+IANNYYAVALQIAGIGTLMTGINFIVTILKMRTKGMGLMKMPMFTWTTLITSVIIVAAFP
+IFTVALALMTTDRIFGTHFFTVSGGGMDMLWANLFWLWGHPEVYIVALPAFGIFSEVIAT
+FSRKSLFGYKSMVYAIVGIAVLSMVVWVHHFYTMGSGPAVNSFFSITTMMIAVPTGVKIF
+NWLFTMRKGRIKMTTAMLWALAFIPTFTIGGVTGVMLAMGAADYQYHNTLFLVAHFHYVL
+IPGVVYAVFAGLYYWWPKMFGHMLNEKLGKWHFWLFNIGFNVTFMPMFFLGLKGAVRRSY
+TFSAESGFSELFLVSAIGSIILAAGFAVFCYNIYWSIRYADRDISSDPWDARTLEWATAS
+PVQYYNFAQQPEVKAIDAFWHMKKNNEGLTLSDSDIKKIHMPSNAGLPFIMCVFFGIAGF
+FLVFEWQIATIIASLGIIAGLIYRSFDYNDGYYIPVEEIKDIERSWRNKKGEVNKHVS
+>tr|A6CPD8|A6CPD8_9BACI
+MREISPKEVEEMINNSKDINLIDVREDDEVAEGKIPGAVHIPLGSVESRMNELDKSKEYV
+MVCRSGGRSGRACQLLESQGFEVINMNGGMLAWEGKTE
+>tr|A6CQ87|A6CQ87_9BACI
+MPVHNIYSATDNRLSPSLENKFKNPVQNQQNFADFLKKSIEEVSASQKESDMMTEKLVRG
+ENVDLHQVMIASQKASITLQTTMEVRNKVIEAYQEVMRMPM
+>tr|A6CR98|A6CR98_9BACI
+MIWRVSMMKKRIKLLTVFLLMVLILSTLSFANEGDHAGAFSNQIIQKGATGDDVIELQSR
+LQYIGYYNGNIDGVFGWGTYWAVRNFQYEFGLPIDGLVGQETKDKLVKASKYNKDFVKKQ
+IRQGKDFTHYGGTDLGKQTESGGNAGGGGGGGAPAQQGTTPEKAATPEKPTAVNIPNGFS
+QNDIQLMANAVYGEARGEPYEGQVAVAAVILNRVDSPSFPNTVAGVIFEPGAFTAVADGQ
+IYLTPNEKAKEAVMDAIQGWDPSENAQYYFNPVTATSKWIWSRPQIKKIGKHIFCN
+>tr|A6CI75|A6CI75_9BACI
+MFGQIAAANALSDVYAMGGKPITVMNIVGFPITTLDKSVLADILSGASDKVRESGAVLVG
+GHSIDDQEPKFGLSVTGTVHPDRIRSNAAAKPGDKLILTKPIGIGILTTAIKNDKLPQEN
+IEEVMQTMAALNKEAAEAMDSFPVNACTDVTGFGLLGHAMEIAEGSKNGITIEKDAVPVL
+DKTRELAEQNIIPGGTRKNHKWLAGRIDYDESVKEIDQLILCDAITSGGLLISIPEEHAE
+ALQKELSNRNLTSAIIGTVTAENPGKITVK
+>tr|A6CMW9|A6CMW9_9BACI
+MRMVDVIEKKRDGQELTSEEINYFVEGYTDGSIPDYQASALTMAIFFQGMTERERADLTM
+AMVKSGDQIDLSAIEGVKVDKHSTGGVGDTTTLVLGPLVAAVGVPVAKMSGRGLGHTGGT
+IDKLEAVPGFHVEIDNDEFIRLVNENKIAVIGQSGNLTPADKKLYSLRDVTATVNSIPLI
+ASSIMSKKIAAGADAIVLDVKTGAGAFMKDLEDSQKLAQAMVNIGNNVGRRTMAVISDMS
+QPLGFAIGNALEVKEAIDTLRGEGPEDLTQLCLTLGSHMVYLAGKAESLEEAREKLVAVM
+KDGSALNNFKLFLKSQGGDESVVDDPERLPKAAHIFELEAKQDGYVSEIIADAVGTAAMW
+LGAGRATKESDIDLAVGLELRKKIGDKVQKGESLVTIHSNTGTIDDVKDKLYESIKVTES
+KVEAPILIHGEIKETE
+>tr|A6CSL6|A6CSL6_9BACI
+MATYTPMIMQYLKVKAEYQDAFLFFRLGDFYEMFFEDAIKASQELEITLTSREGGGTERI
+PMCGIPYHSAPNYIEQLIEKGYKVAICEQTEDPKQAKGVVKREVVQLITPGTVMDGKGLQ
+DKENNYIASISLFDDNTAALAYSDLSTGETKVTQLSASFDETVNELATIGAKEVVVHSEF
+DEELKRKLVDRTGVTISFENETDTNENYRLLLDDLKQDKLTKTVCRLLNYLFRTQKRSLD
+HLQKVETYQIHQFMKIDYYSKRNLELTETIRAKGKKGSLLWLLDETMTAMGARMLKRWID
+RPLIDQKEIEKRHSMVQLLQERFFEREDIRDLLKEVYDLERLAGRVAFGNVNARDLIQLR
+KSLGQIPLLKNIIGELGHDIADEILKSIDPCDELTGMLHDSLHDQPPLSIKEGNIIKDGY
+HEELDQYRDASRNGKTWIAQLEREERERTGIRSLKVGYNRVFGYYIEVTKANLGLLEEGR
+YERKQTLTNAERFITPELKEKEALILQADEKSIELEYDLFLNIRETVKEYIPRLQKLARV
+VSEIDVLQCFATVSEKRHYVKPSFNRDRKIMITDGRHPVVEKVMDAQEYVPNDCYMDQER
+EILLVTGPNMSGKSTYMRQLALTAILAQIGCYVPAKEASLPIFDQVFTRIGAADDLISGQ
+STFMVEMLEAKNAITNATQDSLILFDEIGRGTSTYDGMALAQAIIEYIHENIKAKTLFST
+HYHELTVLEQELANVKNIHVSAMEHNGNLVFLHKIKEGAADKSYGIHVAQLAELPENLIV
+RANEILEKLEQKTDNNPGRNASYQQTSKVAEKTQEEQPAQLSFFQEDKKVQQSGGDLSKK
+ERKLIEELKSFDILEMNPLQAMNALYELQKKLKK
+>tr|A6CSS5|A6CSS5_9BACI
+FMVVISGKYTNASNQVLDIERLADAVEQTDGRITEWSLNARENLKFSTDKGFTTYVENMQ
+KENPDFSWVYNPNHAGYELKGLNQHETGVEIIKVVTMEVDNHHQSYMIYEFRGFEWNHLT
+KQTIQDHYFPKMKDLFAGEPLIFSCIKGEFSDTLDGVLSKQSDKLLSILDANELESLKEH
+DFYSISAFSNKFDQRMPTEHQYMNLQLSLRKKGLGTKTNFVIGTPILTIEY
+>tr|A6CMV7|A6CMV7_9BACI
+MEKRRLGNSDLHVSRMGLGCMSLGKDLKKAQPIIEAALEEGINYFDTADLYDFGENEQIV
+GKALHSVRDKVIIATKAGNRWDDVEDGWHWDPSKHYIKEAAKRSLKRLGTDYIDLYQLHG
+GTMEDHAEETIEAFEELKQEGIIRYYGISSIRPNVIKRFSESSNIVSVMMQYSLLDRRPE
+EVFPRLKEKNISVVTRGPVAKGLLSEQMLEKASGKIKENGYLDYSYSELEDVLGSIHEKL
+GSQRSMTQTALQYILSHKEVSAVVPGASSAEQVRENARAVKAEPLTSEEVQFLKEVTKNS
+VYEQHRI
+>tr|A6CU48|A6CU48_9BACI
+RKELLMRERKIAVVGSRKADEYTTAALKKLLPQLVEEQFITVSGLAAGADEFAHRLTITL
+KGDTVGVIGGGFRHIYPASNRDLANFMAKKHLLISEYPPDTRPQRWHFPMRNRIISGMTS
+AVLVTQASRKSGSLITAEISLNEGRDVYALPGRLDSPLSEGCNHLIQQGAKLITSSEDII
+SEFKYDSIRNI
+>tr|A6CQS8|A6CQS8_9BACI
+MNALNSNTALLIIDILNPFTFDYGKTLAEHTLKTVEPFKALRSNCRKKQIPVIYINDHYN
+LWQADLKKIYEKCQNDISLPVIEPLQPGKDDYFLIKPKHSAFYGTALNTLLHTLKVDTLI
+LSGIAGNICVLFTANDAYMREFKLVIPQNCIASVSEDDNRYAIEMMKNVLKAEIVDSGDI
+F
+>tr|A6CQV6|A6CQV6_9BACI
+METNKRADLENLNPDLFQPRRASESESEVIGRPSLSFWHDAWLRLFKNKGAIVGLAIMIL
+VIFMAVIGPGMTEMSYKDQEIRHAKLPPKIEALSWMPWFDGIDQNGIDSYETRQIDKTYW
+FGTDDLGRDIWTRTWQGTRISLYIGVLAAVIDLIIGIAYGGVSGYYGGRIDDFMQRIIEI
+LVGIPNLIVIILFILVFEPGLFTITMAMVITGWTGMARIVRGQILQLKNQEFVLASRTLG
+ATSNRLIWKHLLPNVMGPVIITTMFTVPTAIFTEAFLSFIGLGIAAPQASLGSLVNEGYR
+SIQSYPHMMLIPSVVISLIILSFNLLADGLRDALDPKMRK
+>tr|A6CHQ5|A6CHQ5_9BACI
+MERKVHLLVEGHVQGVGFRYYTKNKADEMGISGWAKNLENGSVEVTAEGEASNIERFVTF
+VKNGASPVSRVDIVHINELETDGIEDVEFQTL
+>tr|A6CPI8|A6CPI8_9BACI
+MGMKSKLYFLLKVPFYYFLGIVGIVFVSIAPHAFKERGIYNGIGYLEEFFKFAVSLPKKE
+TWFYMYKGYEVDVIETLLEPYYYSLQILFGALGAGLGLALILTYFTVLMPKWLMSPIKKS
+LGFLETVPDLMVAFLLQLFIVFFYKTFGVELMLFTALGEEKVYLAPIITLSIIPMLSFYR
+ILLLLTEEELLKTHVDFARSKGMGKTKILRSYVIKNISPSVFYHGKIIIWGLLSSLFIIE
+TVFNMRGITYYIVADFRPITVAAALIMIYTPFFFLYQIIYTWLRTEDIEDHSKYKKDRSP
+FLEWKIWGYIAMLWRLFLQHMKNPKFAIGFLALFGMITYSILYTIFAKVPVDQIIWLRDD
+NGKLISAPPHKPSELMILGSDYYGYSILDQLIVGAKYTLIFALIVAIFRVILGFYLSVYY
+HFYLNEYRKNWMTRIVDSIHFLPLSIIAYLLLRPVLWQDPFAAIEYSMMEKLLFEAFILT
+ILVIPLTTVLIGNEMRELSKNEFILNAKLMGGSNRHILWTHLFPHLAPRLFILFGQQFIQ
+VLFILVHLGLFHLFLGGTIVTRGDMPDPPKTSTFEWSGLISSTKNALMTGNYSIVLAPLA
+AFMISIIAMQLIVQGVKEIQQKKVGVNVFKRKRKKEKVVKGKTAQPQPADFVLSPSKAVD
+HH
+>tr|A6CK14|A6CK14_9BACI
+MGIPEGVRLFAKLEYFNPGGSIKDRLGVKLIASAEQSGALQAGGTIIEPTAGNTGIGIAL
+AAVGKGYKVIFVVPEKFSVEKQTLMRALGAEVVNTPTELGMKGAIQKAKELSQEIEGSYC
+PQQFDNPSNPETYFETLGPEIYSALNGKVDVFVAGGGTGGTFMGTARYLKEKNPSVKTVI
+VEPEGSILNGGESGPHKTEGIGMEFLPSYMDTNYFDEIYTIRDADAFRALKELALKEGLL
+VASSSGAAFVAALEEAKKAEKGTNIVTIFPDSSERYLSQGIYEE
+>tr|A6CLV9|A6CLV9_9BACI
+MAYIATKGMIIAITEPLSVALAPIGITVNSVNPGPTDSGWMTEEIRNYLLPQFPSGRLGK
+PEDAARLITFLASDDSSWITGQTIKSEGGFLGK
+>tr|A6CKB5|A6CKB5_9BACI
+MREPVIIVGAGLSGLHAASLLHSQGIECRVLESRNRVGGRVLTGMVEGGPDKGMFDLGPT
+WFWPDQEPVISSIVKKFGLSTFEQHTEGALLFEQSQKEAAQRHIPPAGSFAKSFRFRGGV
+QTLIDSISATLPPGTVELDTRVTDIHLDEEGGCTVEAATTDGRKKTMGAGAVILALPPRL
+IVQTINFSPALPEELIKRLMKEPTWMAGQAKVVAVYKEPFWREQGLSGQAMSWAGPLQEI
+HDVSPETGYGALFGFFGLPAKTRQEIGEERVRKLVLDQLIRLFGPSAEKPVSLLYKDWAS
+DPQTAVTEDLEPLRSFPNYGPIPTWKEKILFAGTETSPEHGGHLEGALVSAERAVDEVMR
+QYK
+>tr|A6CQY9|A6CQY9_9BACI
+MPNIKSAIKRVKTSEARNAQNVTVKSAMRTAVKKAEAAAQNNDDNAKALVSEAVKHLDKA
+AQKGLIHRNAADRSKSRLMKKVN
+>tr|A6CN18|A6CN18_9BACI
+MTIKRLDKSHYEESLNLSMYAFQYKVPEEEKENRFRQLDDHELYGIEADDQLAAKLHLLS
+LNVFLGEKEFKMGGIAGVATYPEYRRKGYVKELLTYSLKRMREKGQTISMLHPFSFAFYR
+KYGWELFSTLKRVKVAQAEMKMFDGVPGNVKRFNKENYPSELEEIYNGYARRFSGMLARE
+KTWWKERSITNLNVAIYYDGKGNGAGYILYDIKDQKMKVEEFIVLNAEARSGLWNFICQH
+DSMLTGVELVLSPEDPLVFLLENPKTPTELQPYFMTRVVDVLSFLEQFRSSIKEKVSLEV
+SDKYAPWNNGTFTITSEKVIKEEEECSRTVQMDVNALVPLFFGVYSSQQLYEMGVIKGDR
+ESVAVLNKIRVKPGFFIDFF
+>tr|A6CT07|A6CT07_9BACI
+MENIFDAMRERRSTKNYDPTIEISTEELVEILEYAGRAPSAWNLQQWHFLAFHNKEAQEK
+LLPIAYNQQQIVDASAVIAVLGDLEANKNADPVFDPSIEKGDMSSELKEILVKQIEGAYS
+REQYPRDAAFSNASLAAMQLMLAAKGKGWDTCPIGGFNPQKLMEDFDVSDRYVPIMLITI
+GKPVKEARKTDRLDIKSLITWAK
+>tr|A6CKT6|A6CKT6_9BACI
+MIYSTVLSVKEKILVRERLFLKLNKYPTKKVIALTGGTGYGKTSLISSYILQQKIEYLWY
+SIDRSSNNLSELIHTIEQDIQNIRGNIQISGSHLIKEKISSSFIDNKDSLWIVIDGMDIL
+HINDEEIRLFVSYMSQFPSTITFVLIGRRLPSTFPTSRMKLQGDLLHLTQKDLALTKDET
+QTLLRSIYHVNLSDYEIERSYNEMEGWPAGITLFAGIIKEYPMLEREKFVEHLHESEDIS
+HYLANEIIGKLPKDLQTFLYYCSLSCEIEREILKEFQPDVLVDQWIDTLKSLQLFLYEGS
+LGNYRLHELIRRFLYKKMEEEWGKAKVVLLHKDLANLYKKKYRFIEAFSQFLAAGEDVLA
+VEMIKHMAERYESEQFLRLMNGWLEKWSPSLNLSQISLFLFRATPINHTKKLIEPLKISL
+ERNENKSKSTLMKLQHRLATIYFYAGNLEKALVAYKESLGFSYETNDVRMIALNTSMIAQ
+TYRFMNEEEKALSLAKEALAMAEMTGFEQAQMHALWTLSEVMMNRGQIEKGRRFAEQAID
+VSTKCDQAAVVYPYCSMSTYFLKIGNIEKALEWCNRALLHAEKFGIQADMAWVFMGMAVC
+YEEMNKINIAEKYLLKAEKCFKNFNYLHCIVQMRLIEVLLKQEKLKEACVLIENANSTIK
+EYEYEWLKTRKRTEQIEGRKPIINVKMMGSLVITINDEPIKIKRKSSLRLFLLFLVHYGK
+RWSKEEIIGKLFPDESEEAASNQFYVALSVLRKTLEPNLKSGRNSKYIEKESSWYKFNEE
+SINFDLKELETILLISPSTSSEQNLNEILSNYKGDLLEEYLYEEFISQRRDEVRELFLNR
+IKSYAIRYQNNKPETAIFLYDYLIKIDPYDEQNYKQYIQLLANHGYKGKAKKIGLKAIDA
+LEKDLGIPIKKEIDEILAACMLIEDSKGCT
+>tr|A6CTM9|A6CTM9_9BACI
+MKEQGINVVLNDGVQEVEGNGTLLTQKGTELHSDFIIVATGVKPQIQLAEKAGLTIGKTG
+GIETNEFMQTSDESIYAVGDAVETKSAITGKPLRIPLAWPAHRQSYIASKHIS
+>tr|A6CP16|A6CP16_9BACI
+MIFTLYGDYIRHYGNKIWIGSLIKLLREFGHNDQAVRAAISRMNKQGWVQAEKQGNKSYY
+SLTDRGLKRMEEAAQRIFKLQTETWDGQWRILMYTIPEEIRNVRDELRKELVWSGFGTLS
+NSCWISPNNLEKQVYDLIDKYDIKQYVDFFIAKYDGPNEDQHIISKSWDLKEINERYEEF
+ISDYSQKYVIDKNKIEKGEMTEAECFVERTKLVHEYRKFLFVDPGLPEELLPEKWLGGHA
+ATLFSDFYKVLARPASQFFEEVYQEGNELTNKDQSYNMFDHPLILD
+>tr|A6CR39|A6CR39_9BACI
+MKFKRSERLIDMTHYLLERPHQLVPLTFFSERYSSAKSSISEDLGIIKETFETRGVGTVQ
+TVPGAAGGVRYIPKVKVTNAKEVIAELCEHLANPERLLPGGYLYMTDLLGNPRAMDKVGK
+LFASAFAESDIDVIMTVATKGIPIAHAIASHMNVPVVIVRRDSKVTEGSTVSINYVSGSN
+KRIQTMVLSKRSLKEGSKVLIVDDFMKAGGTVNGMKNLLDEFSAELSGIAVLVEAEKADE
+RLVDEYLSLVKLSDVDVKEKQINVSEGNYFHSNISFLETGGN
+>tr|A6CSX9|A6CSX9_9BACI
+MLNKMKLWKSQKGKPEFDEKFHEVLKHRIPNHIAIIMDGNGRWAKKRALPRIAGHHEGMK
+VVRKITKMANALGVKTLTLYAFSTENWKRPKMEVEYLMKLPEEFLGTFLPELIEENVKVT
+MMGYEDNLPSHTSNAIKKAMKETEHNDGLVLNFALNYGSRFEIIEAVKDVLNDVSNGIID
+KNQINEETFSNYLMTKDLPDPDLLIRTSGEIRLSNFMLWQLAYTEFWFTPVLWPDFQEEH
+LIEAIEVYQGRSRRFGGVQSEELE
+>tr|A6CS87|A6CS87_9BACI
+MEKVEQSVMEPMGKVDIEHTKSEFSMGMKAFLQKVEWFFIQKGFVLFGLGFLLGRALILS
+HLTPFAIPFFAAVYMVRRDRAPVALMGLLAGSLTLSITNITYTFASTILFLILFRITRKF
+QKNELKAVPYFVFFTTIAASLAFDYLTNGQSLSVYDGAMAGVEATLSFILTLIFIQSVPL
+FSISKRKKTLKTEEVVSLIILLASVMTGTIGWSVYNLSIEHILSRYLVLLFSFTAGATVG
+STVGVVTGLIFSLANVASFYQMSLLAFSGLLGGLLKDGKKAGAAIGLLIATLLIGMYGES
+DTSLAKTLYESGAAILLLFLTPAVLTTKLAKHIPGTTEYNQEQQQYIRKVRDVTASRVEQ
+FSSVFQALSNSFGSLEEQQDLDEADEREFDQFLSNVTEKTCQTCFKKEQCWARNFNHTYD
+LMKDVMYEVDQGHVPLNGKVGRELEKHCVRAKKVQDVISQELTYYQANLKLKKQVQESRK
+LVADQLLGVSEVMGDFAREIQRERENHQQQEEQILESLQEFGMEIENVEIYSLDKGNVDI
+EMTLPNGNEHGEGEKLIAPMLSDILGENIIVQKEDPAAFPSGHSQLTFGSAKAFVVDTGV
+AHAAKGGGLISGDSYSMIELSASKYAVAISDGMGNGERAHYESNETLSLLQKILQSGIEE
+KVAIKAVNSILSLRTNDEIFSTLDLAMIDLQDASSKFLKIGSTPSFIKRGDKVVKVEAGN
+LPMGIFYEFDVDVVSEQLKAGDLLIMMSDGVFEGPKHVENYDVWMKRKIKEVDTEDPQAM
+ADIIMEEVIRTRSGEIEDDMTIVVSKIKHNIPKWSSIPVQKIKRKERIS
+>tr|A6CT55|A6CT55_9BACI
+MASLRDIKSRITSTKKTSQITKAMQMVSASKMARAETNAKAFVPYMEKIQEVVSSIALGS
+KDASHPMLVSRPVKKTGYLVITSDRGLAGAYNSNVIRLVHNTIKERHSSNDEFAIIAIGR
+IGRDFFQKRDYNVIEGITGIPDQPSFSDIKDIATKAVGMFSDGAYDELYLYYNHYVSAIQ
+QDVTEKKVLPLTDLDSSAKLTSYEFEPSAEDILEVLLPQYAESLIYGALLDGKASEHAAR
+MSAMKSATDNAKELINSLSLSYNRARQAAITQEITEIVGGAAALE
+>tr|A6CT64|A6CT64_9BACI
+MKSAHPDVDIYIAALDEKLNEKGYIVPGLGDAGDRLFGTK
+>tr|A6CKD5|A6CKD5_9BACI
+MKKYNDTTYAILGILTTNCKSGYAIKQLIDNSLNHFWKISYGQIYPALKLIVQDGLAEIK
+ENSSPGKRDKNEYHLTPKGKEVLKSWLEQPIEQLPVERNEILLKLFFGQHQTREKTNLLL
+LNYKRDLEKRYQTYITIEQSITAKHPHDRDAAYWLFTLDYGKRVTKAAVEWCEVTLDKFS
+ETEGV
+>tr|A6CHF8|A6CHF8_9BACI
+MKTIYEGNLVGSGLKVAIVVARFNEFITSKLLGGAEDALKRHGMDEADITVTWVPGAFEI
+PVIAKKLAASKKYDAVITLGTVIRGATAHFEYVSGEVAKGVANVGLQEDVPVIFGVLTTD
+TIEQAIERAGTKAGNKGWEAAVSAIEMANLIRQIEQ
+>tr|A6CQ13|A6CQ13_9BACI
+MRLKNKTAVITGSANGIGLAAAKKFAQEGCKVIMADYDENKGAAEAEKLQEEGGDTVFYQ
+VDVANRESVDNLAAWVLRDYGSIDILINNAGITRDALMAKMREDDFQRVLDVNLTGVFHC
+TQALLPALINSGKGKIINTASASGLYGNVGQTNYAASKAAVIGMTKTWAKEFGPKGINVN
+AVAPGVIETEMTASIPDKVKAQMNALIPLGKFGKPEDAANAYLFLASDESDYVNGVVLQV
+DGGIMM
+>tr|A6CHH4|A6CHH4_9BACI
+MHTILGGDFMSVFIGGAWPYANGSLHVGHLAALLPGDILARYHRLKGEDVLYVSGSDCNG
+TPIEIRAHQEGVKVRDIADRYHQEFLDCFQKLGFSYDQYGRTDSANHHQEVQKIFLTLKD
+NGFLYEKTTEETFCLHCDRFLPDRFVEGTCPNCNEKARGDQCDGCGTILDPRELIDRHCK
+LCGNPPSLKETAHFYLALSLLEEELKDYLNKNKGKWRENAEALTRRYINEGLHDRAATRD
+IGTGVDVPVEGYNDKKIYVWIEAVSGYLTGSIEWGEKHERDWRKFWDKEAVSYYVHGKDN
+IPFHTIIWPAILKGLNSDGLPDWIVSSEYVTLEKKKISTSKDWAVWLPDVLKDYHPDTLR
+YYFSANYPDKRDADFSWREFILKHNSELVGSLGNFIQRTVKFYRKEFGESAVLETIDPIV
+VRELYTVFRQTGELIEEGECRKAAKRAFEIVRWGNKYFDDKQPWRVIKEDRNEARFILES
+CLYISINLSQLLSPFIPFSAEEILKQFQIKETASWEPFILPVEINTEGQKPLFTRIPIER
+IELERAKLG
+>tr|A6CL29|A6CL29_9BACI
+MNIDFTQQEQLGIKRLWGQTKRVISNVNYDSRRVQKDAAFVCISGEKHDGHSFLEDAIRN
+GAAVLAGESAEVLEKAGRKYPDRTFILVEDARAFLAQLSILFYKRAHENLTTIGVTGTNG
+KTTVTAYVKSLLTLLGTPTGSIGTTGIISSTGTINLKKSTPTTPEASDLHYIFDQFKERG
+DEAAVMEVSSVSTVQKRVEGIEFDIAIHTNLSPEHLEFHKTFENYKEAKLKLFKQAKKAV
+VNIDDSGMAKDILKIHSGDVLTYSLDKRSDADVKASNLRTIGHETFFELKFQKESYIVRA
+PVIGDYNVANILAAVCTALHSGYSIHQILLALTSIEGPEGRFELLTEYGNRKIMLDYAHT
+PAALDNLLREVKKLEYNRLIVLITGIGLRDKSKMPLMAETVEGRADEIVVSVDHPDFNDP
+DEIISNVLAGFSNPSADNIYTERTRAEAVLSALALSNENDLVLLTSGCINGAQIVEGKEI
+PHSDKDLIKSYFNDDSVNYDYGYIQA
+>tr|A6CNR9|A6CNR9_9BACI
+MKVSEDEAISALQDIAGWKLKDEKWIECRFRFQEFMSGVQFVNKIADVAESMDHHPFISI
+QYKVVTLSLTSWNERGLTPLDFEAAMKYNEIYNDMN
+>tr|A6CMA4|A6CMA4_9BACI
+MDYLQGLSDTEIKAVEAVGNKGTKSYAEVAKEVGISERQLYRIRQKPEFKTALHKRAMEE
+MSESVSEFTKMVERKAIKEGHYKFAELYAKMNGLLVDRSEVKQTTEIDDRRKFSEQSNED
+LEKELKELGKLIDIHKDEA
+>tr|A6CP48|A6CP48_9BACI
+MTTNIVIIDDHQLFREGVKRILEFEPTFNVLAEGDDGSEAMRLVEQHNPDVVLMDINMPE
+KNGVEATQELVNKYPDTKVIILSIHDDENYVSHALKTGALGYLLKEMDSEALIEAVKVVA
+AGGSYIHPKVTHNLISDYRRLANTQETGGFKQTEVRRPLHLLTRRECEVLQMLADGKSNR
+GIGEALYISEKTVKNHVSNILQKMNVNDRTQAVVTGIKNGWVEVR
+>tr|A6CTU1|A6CTU1_9BACI
+MPSWQPGWLVQSKRIFSANKGNNGIDDFVAGGDIMNAKIVTGLLTSAILLQGCALENPKK
+TEVDLKNAVGDSLGKATLQEMSSGVEMDLDLVGLPPGVHAIHIHEKGKCEPPDFVSAGDH
+FNPDDNEHGLLHPKGAHAGDLPNLIVEDDGSYKGKIMAPLVTLTKGKTSLFTKEGTSIVI
+HEGQDDGMSQPAGESGKRVACGEITNEKSKE
+>tr|A6CQE0|A6CQE0_9BACI
+MIEKVAGGGITHSQSFTNTKDKNELIPEKINQIPTIEHQKEQHQEPVTKEDVQQVVKGMN
+EFLAASNTHIKFEFHDELQEYYVTIVDNKSEEIVKEIPAKKVLDMYAAMTEFVGLMVDKK
+I
+>tr|A6CN22|A6CN22_9BACI
+MDEENSLSVTDEHSNAAGPAQGIASYINKSAEELVAQLGEPDRIDPSAYNYEWWIYYISD
+QKYLQVGIERSKVVTIYATGNEVDIKPFQIGQTVKEIYQNSPVESEIVVNVNDGTYRFEL
+SEEDLNTRVLTSVGEVYAQLYLDKYTSELVSIRFFNKETLVEQRPYEMVYRGELMKENEI
+PDEKWDEISAGSEQQIFDITNILRSNYEAGQVVWDDETAMVAEDHSKDMFEQDYFSHESP
+TFGTLADRLESAEIAFGMAGENIAAQYADGPAAVHGWLNSEGHRKTLLEPDFTHLGVGVY
+RKYYTQNFIQQFEQ
+>tr|A6CRB5|A6CRB5_9BACI
+MQSLSHTKTIDEKIKKLASINETLNESGHKEAALKAELLAHKFWKNEFIAGFCGHFSAGK
+STMINALAGEELLPASPIPTSANLVKLHQADSDFAKVHYHDRKSVIFDGAYDFNIVKRYC
+KDGEKVQSIEIGKKQTKLPAGVTVLDTPGVDSTDDAHRISTESALHLADIVFYVMDYNHV
+QSQLNFEYTRELANHGVRLYLIVNQIDKHNDEELSFEQFKQSVSDSFAAWQVKPERIFFT
+SLREQENPHNEFVEVRDLINKQFQHKDELLQSSFAAAVNRLVSEHQQWLKENLKGQKDLL
+SVVLSPEDIENGDELFQKESDLSKRIEENTSKAYVQTFDEEREKILENAYLMPFETRESA
+KKYLESLQDDFKVGMFFSKKKTEEERHQRLKDLVENLKGNVESQLEWHLKGLGSLVMKRA
+GFHDEDLMAKSEGLTIEVKESDLQETVKSGARVTGEYVLNYCDELAGRLKRKARRETESL
+KERLIELVDSEKSEENETLKEEHKLIKKKTDALKQLEFFREDVEIKVNNLQSIVEGTVNV
+NSEETVKDWEDEWEKSEKNYSIYTKEIDQEETAESYRGMTETDIEEDSEEANTQGPALEP
+LIKRLNEMSADYEGINGLNQTAKILKRKAERLKDQQFTIALFGAFSAGKSSFANALLGSK
+VLPVSPNPTTASINRIRPPMDGHEHGTAQVFLKNEHQMLIDVQDSMKVFQDGADSLKEAA
+ERIPGLLRKNDGEGKEKVHLSFLAAFLKGYEQYHSKLGEVLMVDLEEFKGFVANESQSCF
+VESIDLFYDSPITRQGITLVDTPGADSINARHTGVAFQYIKNSDAILFVTYYNHAFAKAD
+REFLIQLGRVKDAFEMDKMFFIVNAVDLAKDEEEQQDVIQYVKGQLVEYGIRFPRIFGVS
+SKLAMETNRIAESGIESFKKEFDQFIDGELKLMAAQSAEAEWERGLNRLKTLIENSSMDE
+RSRESKKEELLLLRRKVQELLNSEAPESIKMRVSQEIKELIHYVKQRVFLRFSDFFKEAF
+HPAVFSQHSSSKAALNAALEELLESTGFDFAQEMRATTLRVEKFAGKQLSSQFELYTEKI
+EKMEGNLVFSPYETGEPAELEFSKAFSEIERERFQPAVKIFKNQKDFFENNGKKKVMEQL
+SEDLQDPADQYLDLSKKVIIEWAVEFLKEEHSRMTKDLLAQSEEQIDSWLHALQSSDDLE
+RWKEVYRRLSAAR
+>tr|A6CMT4|A6CMT4_9BACI
+MKIYDITAPIYNGMPVYKNKPEKQPEINTNTNGHVTESRISMDVHTGTHVDAPLHMINDG
+ETIESIDIQQLVRPVKVLDLTSVEEKITKKDIENQDIQENDFLLFKTKNSWDTEFNFEFI
+YVAEDAAEYLKEKKIAGTGIDSLGIERAQEGHPTHRALMGSGIIIMEGLQLKDIEEGTYF
+MVAAPLKIQGTDASPARVILMDELIG
+>tr|A6CME0|A6CME0_9BACI
+MFETLENKVGSRLILPSNEKYDETRKVWNGAVNRKPGAIVVCESTDDVIAAVKFAKKNDL
+TISIRGGGHHVAGTAVCDDGVMIDLSKMRKVRVDNVKKLAYVQGGALLQDIDKETQKYDL
+AVPTGTVSETGVAGLALNGGLGYLRGKYGLTCDNLAGAKLITAEGELLEVNENNHPDLFW
+AIRGGGGNFGVVTEFQFQLHEVGPEVLALDVMYDYKDAKEVILKAQEFMSDAPDEISINI
+TATTLPPAPFLPEFLHMKKVVIITGMYAGNPQAGEELIQPLRELAEPIIDGTSVISYVEL
+QSKLDIMVENHIPVYGTSLYFKELTEETVDTLLSKIDSAPAPSVLVQLWSLHGQMNRIPS
+DATAFAMRDASCVLLVDMMAMHVPEELCKKWVDSVYSSLLERSHKNASYLNAIEPDKDVI
+KATHGKNHDRLVEVKTKYDPDNRLCHNHNIAPTRK
+>tr|A6CPD1|A6CPD1_9BACI
+MGENQMKKFKEIFQNPTFTKLFFANLTSHMGSVIGLTAFMFYLLDRFSEQPVYASITEMM
+YSVPTLAVFFLVGVLADRMDRKKIAYYCDTISAFLSIVLLGAIFIGWMPFIFFVLFLRSA
+VQKFFFPAEQGILQGVLTKDDYSTAAGLNQMVMSLFMLFGNGIAILIYWLSGIYGAVIVD
+ALSFIISAILIKKCQVPVEARLPNGPHKLKDLSFSFIMKDFKLGMVYIFQHKLLLSLIGG
+FFVFGIVNGGFSVMPIFILKYKLAPQTYEEYSILLGVAFGAGVLIGSVIASMLTQKLKFH
+HLIVSGLMISGSFIILASFATTTWMFLGVIFFAALGLPLVNIAIGGWMPSIIEPKMMGRV
+QGWISPLMMLSQSITLGFIAFSFPAVLSIEMLYWIVGGCLMMIGVFYTFILPKFMKETEG
+LQPAVASS
+>tr|A6CQC3|A6CQC3_9BACI
+MEGKALLPDEIPHSIEEIQQHYENGCITYAKGIKTIKGKPQCSRCGNHEASLFVSFPCSR
+CNEQYTYCRKCIMMGRVSQCTPLIEWTGPSQNTTIETLDWTGTLSQGQQPASDEVVKSIE
+ANTDLLVWAVCGAGKTEVLFNGIHQALLQGKRVCIASPRTDVILELAPRLQKVFPAAKPI
+ALYGGSEDRQRYSQLIISTTHQLYRFKSAFDVIIVDEVDAFPYSFDETLHYAVEKARKLL
+SSLIYLTATPDSKLQRECRHGKRNFISIPARYHRQPLPVPILKWCGNWKSQLDKKRLATP
+IRMWAEKRITINKQALIFLPTVKLMDKALPFFQQLHPDILSVHAEDPERKEKVQRMREGE
+VPILLTTTILERGVTIPNIDVAVVGAEEDIFTESALVQIAGRVGRSAEHPSGDITFFHYG
+KTLPMIQSIKHIKEMNREGTKRGLLDS
+>tr|A6CJG3|A6CJG3_9BACI
+MAVKNITAKELAKKVLSKEKVFIIDVRNTDAFDDWKVEGRNVDIINAPYTDIKEKGIDPF
+LDKLPKDQEIHVICAKGNSSKKAAEEIANAGYSDVYSVEGGMSAWSEHLEPVKIGDLKNG
+GAIHQFVRIGKGCLSYLIQSNGEAAIIDAARITKPYREFLAENDVKLTRAMDTHLHADHI
+TGGRELAETSDAQYYLPSKDAEGVQFPYESVNDGDKYEVGYSVIEAMYSPGHTIGSTSYI
+VDDQYLLTGDILFIDSIGRPDLAGKAEDWVGDLRTTLYKRYKELSDDLIVLPAHYMGIDE
+MNEDGSVSEKLGTLYKENHGLNIEDEDEFRSTVTENLPPQPNSYEEIRKTNMGKEDPNEE
+KQSEMETGPNRCAVR
+>tr|A6CRV3|A6CRV3_9BACI
+MKKLEEKVTEMKDKESKKLSEETARRWLHERGVEIDDIAELVLFLQKKYHPNLGIEECRN
+NIERVLSKREVQNAILTGIQLDRLAEKGMLEEPLQSIIEVDEGLYGVDEILAFSIVNVYG
+SIGFTNYGYIDKQKPGILEKLNDKSSNKCHTFLDDIVGAIAAAASSRLAHRYDEDEE
+>tr|A6CKU6|A6CKU6_9BACI
+MNNRIFLLTILAIISSITLAGCATFEAESDWEVEDFTYTNQNNEEVGLSDLKGSIWVADF
+IFTNCDTVCPPMTYNLTQFKRNWKKKGEKM
+>tr|A6CIY3|A6CIY3_9BACI
+MDNKLLTLWRYYPSGSIRVEEIAETLQLSHKQTTRYLKKWDEQDWIAFKPGKGRGNVSAL
+TWKKEVEALFEKEALQRIDQEPVERSSKYLMFNWSTDSKMRLMNKFQSKLGFIQESKDKL
+IVPKRYPFFSIHPLEAADVFSAHLVANVFNRLVSITEEGKIIPELAHSWDTSPAKTRLYL
+RKDVKFHDGSILTAQHVAECLEKLRRHKHYAELWAPIVSIEVKSSLIIDIHHPEGCSYTL
+PMLTMMCGSIYRETKERILGTGCFSLQENSDQKTTLSAFSDHFLERPLLDAVEFVQVPMD
+FQGIYHSQVQQKRSASVEVQSDSGFGIVVMNPCRDSAIQRKEVRDYLHWIIAKNRHSIGE
+CSPRLIPNKKSVMVGQDQSFNIQEVDRPPFNEPIVIRGASHTEKPTRWLADIFEKEKIPY
+VIKWFSFSDTLTKQPETLDVDLFIHGEIFESNQDFSFYHFLQNGFSPLYHIFKENEGMKQ
+LAEEYLQTPFENWSDLNLKVEKKLIEDSIMIPLYYEKRFIPFSSDIMNIKFKHFGYVDFS
+KLWVRPEV
+>tr|A6CPN6|A6CPN6_9BACI
+MREVTATGPSVEEAVESALAQLNITREEAEIAVKDEGKKGFFGLFGSRPATVLVKKVINP
+FDEVKKYLVSVSNMMGIDVEVEMKVEGRNAEFQLSGEKIALLIGKRGQTLNSLQHLAGLV
+ANRYSDQFLTVVLDAENYRERRKQTLSNLAERLAEKAVRTNRKVSLEPMPSYERKVIHSA
+LVRSKKVDTFSEGSEPNRYIVIAPKR
+>tr|A6CHV7|A6CHV7_9BACI
+MKIYSRKGDKGRTSIIGGRVDKDDLRVEAYGTIDELNSFVGKAAAELQGGKFEDVLADLE
+KIQHELFDCGGDLANVTDKIPMKLKTESVEYLEKKIDEYIAETPPLEKFILPGGSGPAAT
+IHIARTITRRGERQIVSLVKTEASVSEVTLQYINRLSDYFFALARVVNHRLGIQDVEYER
+SANVFSFDRKKDNNDDNK
+>tr|A6CIW8|A6CIW8_9BACI
+MRAFWKDSRLKEFNEVLAQYEPMIHKIINTLQIYKEKDEYYHIGMTALWEAWEKYDEEKG
+NFTGYAYSTIRGRLLDELKLKVKWQESFIYPEENFWEVVSDDSRESYLEGETLLTYFEPL
+TETQKKWVMYTFIGMMKISEIAEREQVSVSAVKKWRNGAKSKLLIRK
+>tr|A6CPA3|A6CPA3_9BACI
+MTIRVLIADDHHVVRRGLVFFLKTQKDIEIVGEASNGREAVDMAGKLQPHLILMDLVMPE
+MDGIQATKLIKNQHPNIEIMMLTSFSDQDHVIPAIEAGAAGYQLKDIEPDELVDSIRKLV
+RGENSLHPKATNHLLKRVSRKNQPPHQIHQLTNRERDVLKELAKGKSNKEIAASLYITEK
+TVKTHISNIFAKLEVSDRTQAALYAVKHGLAGK
+>tr|A6CMX1|A6CMX1_9BACI
+MSLTIGLEVKSDVLCIRLSGELDHHTAEQLRQQASQLIEEYGIKHIVLNLEALGFMDSSG
+LGVILGRYKQIKQKHGEMVVCAISPAVKRLFEMSGLFKIIRLEPSEENALQSLGVA
+>tr|A6CRD7|A6CRD7_9BACI
+MTNSVDFEERHIFRNGPTQEEIINLLSMTTNGVDEILATRSQKYKALDVNIEELSLSEVV
+KLISEEPKLLRRPLLSDGKKLVVGYDPEGIRSLTDKRAVYQLTV
+>tr|A6CKK0|A6CKK0_9BACI
+MRITELLQKNTMILHLQSDSKADVIDELVKKLDDAGKLNDREGYKKAILAREEQSTTGIG
+EGIAIPHAKTASVKTPAIAFGRSTEGIDYEALDGQNSHLFFMIAASEGANNAHLETLSRL
+SSLLMDEAFRKKLLNAADEEEVLRLIDEKEKEVLAEEEPQETDSQSSGTKTVKVLAVTAC
+PTGIAHTYMAADSLKAKAKERNIDIKVETNGSSGAKNRLTKEEIENAAAIIVAADTKVEM
+ERFKGKKVIQVPVAEGIRNPDKLLDRAVNGDAPVYEGSGKSALDEEGETKEKRSGFYKHL
+MNGVSNMLPFVVGGGILIAISFMFGIEAFDPEHESYHPIAEALMTIGGGSGAFGLMIPVL
+AAFIAMSIADRPGFAAGMVGGFLAASGGGGFLGGLIAGFLAGYVVLLLKKLFANLPNWLE
+GLKPVLLYPIFGILITGLIMLFVVNEPVSFINNQLQEWLGGMGTTNLVLLGILLGGMMAV
+DLGGPINKAAFTFGIAMIDAGNFGPHAAIMAGGMAPPLGLALATTFFKNKFTAQERKAGF
+TCYFMGASFITEGAIPFAAADPGRVIPSAIVGSAVAGGLSMAFGIGLPAPHGGIFVIPVV
+GGNPFMYILAILIGSLVTAIMVGLLKKPVQQ
+>tr|A6CIV0|A6CIV0_9BACI
+MSEIQLITSHLGTTIKEKIQSAKSVYILTSFSMKSGVRYLKNALKIAADLQADIKLLTGD
+YLHITQPEALHELLSIDDRIEIRLWKSGGVAFHPKAYLIETSEGEFLVVGSSNLSSSALT
+EGVEWNLAVQHNKELFEEVQEQFMRLFYNEKTVSVNKETLKEYETEYKKYHEKYPNLIRK
+WTEQEEVEAMLPEDEERCKDADVIHEEKGEYGTVEPRFAQIEALEELDKTYEEGYRKAMV
+IMATGLGKTYLAAFFAQQRFKRVLFIAHREEILHQAEKSFNIVMPEASKGIYNGRTKEGE
+ADFVFASVFTLSMKKHLQAFNPDSFDLIVIDEFHHAAADSYQRLLSYFQPEFLLGITATP
+DRNDNRDVYALCEGNVAFKMDFLEAIQRHWLSPFQYFGVYDETDYSQIRWVGNRYDEEQL
+LQVQLREEMAENIINAWEKYKQTKSLVFCSSIRQAVFLSDYFNKKGYQTVSLHSQQKNIS
+RKEAIRQLEDGILDAIFTVDLFNEGVDIPAVDTLLFVRPTESLTVFTQQIGRGLRLHSSK
+EYCVIIDLIGNYRHADVKLSVFDQELEGKRKKGEALPTVPESCAFEIDVKAINLINEMAR
+KQQPRKQQLLAAYRDVKKDLGRRPTYLEMHLKGPMGAKPYYDEWKSYHAFLDCADELTER
+EEEVFLKFEEWLREVEKTGMAKSYKMVLLSAMLERGTDHWNDPITPEEVAPYFHHYLTSE
+EYRKRIDFSDKSSQQLWEYDEKKVANLIKKMPMTMWSGSSKGLIKLENNEFDVQVFPEEQ
+DKDLLYEFTKEICQYRLHYFFQRREDLKGKSEKI
+>tr|A6CRU0|A6CRU0_9BACI
+MIAMNVLVIGANGKTGKHVISSLVNSSQHFTKAMIRKAEQIDTMEDLGAKPLVGDLEDDF
+SYVFDEVNAVIFAAGSGSGTGSDKTTAVDEQGAIKAIDYAKQKGLDRFIMLSSMGADTPS
+IGPDGLQHYLEAKGKADQHLIESGLNYTIVRPGALVDGEKTGKIIASSSIEDKSGSITRG
+DVADVLTACLTASETYHKTFEILNGDTPINEALKKI
+>tr|A6CPS0|A6CPS0_9BACI
+MKSTGEVMGKDLTLEKALYKGIVAAGMQMKEYGSVLLTVADKDKDEAIGLAKRFVNIGYQ
+ILATKGTADVLRTADIPVKEVDKIGSEGPTLLDVIQSGETQLVINTLTKGKQPQRDGFRI
+RRESVENGIPCLTSLDTAEAILKVFESMTFSAEAMEGAEKNQEAVLL
+>tr|A6CTW0|A6CTW0_9BACI
+MGENKQTNIFEKDIHTDFLEKMTYGDYLQLDSLLSSQKRLSGHHDEMLFIIIHQVSELWM
+KLILHELEASINLIQKGELSPAFKMLARVSKIQSQIIQAWDVLSTLTPAEYMEFREKLGQ
+ASGFQSYQYRMIEFMLGYKTKHVLEIYKKDEHLHQQLLEAYQKPSIYDASILALSRAGLN
+IPDEVLNRDFTTAYEYHQSVEEAWISVYKDVEKYWDLYELAEKLIDIEDWLQQWRFRHMK
+TVERIIGHKKGTGGSSGVGYLKKVLDHRFFPELWDVRTKL
+>tr|A6CTB2|A6CTB2_9BACI
+MSVFINKDTKVIVQGITGSTALFHTKQMLEYGTQIVAGVTPGKGGTEVEGVPVFNTVEEA
+KKETGANASVIYVPAPFAADAILEAVDAELDLAICITEHIPVLDMVKVKRYMEGKKTRLV
+GPNCPGVITPDECKIGIMPGYIHTKGHVGVVSRSGTLTYEAVHQLSQEGIGQSTAVGIGG
+DPVNGTDFIDVLKAFNEDEDTYAVIMIGEIGGTAEEEAAEWVKANMTKPVVGFIGGRTAP
+PGKRMGHAGAIISGGKGTADEKIRVMNECGIEVAPTPSDMGETLIKVLKDKGIYEKCKTH
+>tr|A6CKT2|A6CKT2_9BACI
+MEKKSVHEKISEQSRSIRELIYEVLKEGILNGNYEPGEHLRERELATEFNVSTTPIKEAL
+RQLGKEGLVVTKARKGTFVSNSVMSSVEEITLARAALEGVAAGLAALKRTEKELEELQSY
+IQRMKEYTEKKDSEKLEKINGLFHDAIRNAAKNDYISHQIESVRSFDQFIRKKALSDKEE
+HTRAFEEHLLIFTNIKEMNGEGAENAMRSHINRTKKFALGKTTGDSNNVPIAFSETRT
+>tr|A6CQZ6|A6CQZ6_9BACI
+MKGMAKETNNKVDQEELHDQQGEQTSEGNEEIFAESLEDQKGEESGQSPEETQILKLQSE
+LDESESRYLRLRADFDNFRRRANLDREASEKYKAQSLVTELLPAIDNFERALNIEPDNEQ
+TKSLLQGMEMVYRSLVEALKKEGVEPIETVGHEFDPHLHQAVMQGEDENFGSNIVTEEFQ
+KGYKLKDRVIRPSMVKVNQ
+>tr|A6CS34|A6CS34_9BACI
+MNFHYPNGKKFIPKTSTAGPKTAVKKVSYSNRGMTLEEDINETNQYYLANGIAVIHKKPT
+PVQIVDVHYPQRSAAVIKEAYFKQPSTTDYNGLYKGRYIDFEAKETKNKSSFPLQNLHTH
+QINHMQQVDVQDGIAFILIRFSSTEEIYFMKFKELFKYWERMEQGGRKSIKKEEIEKDGV
+KIPLGLHPRIDYLKTVHSLYF
+>tr|A6CIQ5|A6CIQ5_9BACI
+MEGREMELKVGDKAPDFTLSSTRKEKISLSDYHGKQNVLLAFYPLNFTPG
+>tr|A6CHI3|A6CHI3_9BACI
+MHHHHGHGHDHNGHDHHGHSHDHSREGNKKGLLIALIITTGIMLLEFFGGLITNSLALLS
+DSGHMLSDASSLALSLAAMWFAARAASSEKTYGYYRFEILAALFNGVTLFLIAGFIVHEA
+YERMFDPPTVSSGTMMLIAFIGLLANLLSAWALIKKGDVKDNVNLRSAYLHVLGDALGSV
+GAILAGAIMLIFDWYWADPIISVLVALLILKSAWGIISHTVHILMEGTPSGIEVQRVRSE
+LENIPGVKNVHDLHIWTITSGMNSLSCHILIKDEEDDQVILQKAIHLIEEKFHIHHTTIQ
+VERSSLTHGALHE
+>tr|A6CI35|A6CI35_9BACI
+MKEYKWAGSENSFVDEVHMKEIDRVVVGHFGGNSSAGQSKNEDGCLLWSNKEKDWEFAIL
+LDAHNTAQSAELVISEFYERKQEILNLLDLECEPAFNQINDLILQTFKGESFQEACKTIK
+GETACLFVIRKENFLSWFSIGDCILNLYHPDLSKLGEYQQNHRSFFEWVGQESTFNKSVP
+CYSTGI
+>tr|A6CPR7|A6CPR7_9BACI
+MPKRTDIKTILVIGSGPIVIGQAAEFDYAGTQACIALKEEGYKVILVNSNPATIMTDSEI
+ADKVYIEPITLEFVSRIIRKERPDALLPTLGGQTGLNMAVELANAGVLDECNVEILGTKL
+SAIEQAEDRDLFRKLMNELNEPVPKSEIIRSVDEAFQFVEEVGYPVIVRPAYTLGGTGGG
+ICHNREELIEIVSSGLKYSPVTQCLLEKSIAGFKEIEYEVMRDSNDSAIVVCNMENFDPV
+GIHTGDSIVVAPSQTLSDREYQMLRNCSLKIIRALGIEGGCNVQLALDPDSFQYYIIEVN
+PRVSRSSALASKATGYPIAKLAAKIAVGLNLDEMMNPVTGKTYASFEPALDYIVSKIPRW
+PFDKFESAKRNLGTQMKATGEVMAIGRTFEESILKAVRSLESNVYHLELEDAAGFDDALI
+EKRIRKAGDERLFYIGEALRRGVTINTIHDWSKIDLFFLHKLKKIVDFEAELADAPFNKE
+LAYKAKRMGFADITLAKLWNAAEKQVYDWRKEQELIPVYKMVDTCAAEFESETPYFYGTY
+ERENESIVTSKKSVVVLGSGPIRIGQGVEFDYATVHSVWAIKEAGYEAIIVNNNPETVST
+DFSISDKLYFEPLTIEDVMHIIDLEKPEGVVVQFGGQTAINLAAQLVERGVRILGTSLED
+LDRAENRDKFEYTLQSLGIPQPEGKTAVTVEGAVEIADSIGYPVLVRPSYVLGGRAMEIV
+YEQSELLQYMKNAVKVNPEHPVLIDRYLIGKEIEVDAISDGKGVVIPGIMEHIERAGVHS
+GDSIAVYPPQQLTRDQKERIIEYTTKLARGLNIIGLLNIQYVISKNEVYVLEVNPRSSRT
+VPFLSKITGVPMANLATKVILGRTLEEMGYQSGLVPEKQGVYVKVPVFSFAKLRRVDIVS
+PLIMDI
+>tr|A6CI29|A6CI29_9BACI
+MAQSAMKIKMIDMQDIQLVGFRVLCPGDQYINEIPVAAYRLENHTHEIKHLVNPRTQIGV
+FIAGECTDEEDGYWICKEVSKFEGIPEGMVTLTVPPRRYAVYHYQGVNSHIRKAYEDLHN
+WIDERNFSRLTGTWCLEIYHDWKDKGRLSVELLDPIK
+>tr|A6CNR1|A6CNR1_9BACI
+MCGIVGYIGNKDAKEILLKGLEKLEYRGYDSAGIAVKNADGVHVFKEKGRIADLRENVDE
+TVLSNTGIGHTRWATHGPPSKVNAHPHQSTSERFTLVHNGVIENYSALKREYLEGVTLKS
+DTDTEIIVMLIEKLVNEGNTVEEAFRTTLKLLKGSYAIALLDNQNDETIFVAKNKSPLLV
+GLGDDFNVVASDAMAMLQVTDQYVELMDKETVIVTKEKVTIQDLEGKEVSREPYTAELDA
+SDIEKGTYPHYMLKEIDEQPAVMRKIIGAYRNDDQELVIDKDIISAMNSSDRIYIIAAGT
+SYHAGLVGKQFIENIAKIPVEVHVASEFSYNMPLLSEKPLFIFISQSGETADSRAVLVQV
+KEFGHKALTITNVPGSTLSREADYTLLLHAGPEIAVASTKAYTAQIAVLSILADVTAKAR
+GIKPGFDLIHELGIVGTAMEALIDEKEEFETIARDYLATTRNAFFIGRHLDYYVGLEGAL
+KLKEISYIQAEGFAGGELKHGTIALIEEGTPVIALATQEAVNLGIRGNVKEVAARGANPC
+IISMKGLQEEDDRFVIPEVNELLTPLISVIPLQLISYYAALHRDCDVDKPRNLAKSVTVE
+>tr|A6CLD9|A6CLD9_9BACI
+MATKHEQIIEYIDTLPIGEKISVRQIAKALSVSEGTAYRAIKDAETKGYVSTIERVGTIR
+IERKKKENIEKLTFAEVVNIIDGQVLGGRTGLHKMLNKFVIGAMKLEAMMRYTEAGNLLI
+VGNRTKAHELALKAGAAVLITGGFDTDEAVKRIADELELPVISTSYDTFTVAAMINRAIY
+DQLIKKDIVLVEDILTAEDKTVYLHVGDTLEDWYEKNQSTFHSRFPVIDRNRKVQGMVTS
+KDVMGQEKDVMIDKVMTKKPITVRPNTSVASAAHMMIWEGIEVLPVVDDLNRIQGIISRQ
+DVLKAMQMIQRQPQVGETIDDNITSNMTTLESKDSSDAAYQFPVTPQMTNGLGTMSYGVF
+TTLVTEAANRALKNYKKGDLVVENMTVYFIRPVQMESIIEIRPKVLDVGRKFGKVDVEVY
+HETVLVGKAMMICQLIDKH
+>tr|A6CLU9|A6CLU9_9BACI
+MIKNSIRNKLIVLLMITTIIPFGSSIIITYLYTKNSIEEEVVQESSNLLYQGKINLENYI
+NELSGLTLSLYNNPDFINYMRSPQSESDYLTIGLVKNVVQTFLYTEKTIKEVTITFADDD
+RVISATKHSTVVFSMREGASEQEALMKAARSPYNLNIAPAYPQQENERKRSKSIATIHRA
+LINIPADEVLGYISLEILPDKILDLSKNLYNTDTEEFYLLTPEGEVIYSSDGDTSLNKRS
+QEWIQEITDGNETSGTLEWQKDSFNGVMMYDRLSPSAGGWILVKRVSYANLYESAFSVAK
+INILFGFVGLSLVILSILFVSFKITSPIRVLLHNIQQVEKGEMKIESQSFGTDEIGLLGS
+RFQQMIGRINHLINREYKLELENKTNQLKVLQSQINPHFLYNALQSIGTIALKNKVPQIY
+TLITHLSKIMRYGMDMEEDIVSLNKEINYTRAYLLLQKERFGDHLDYSIEVEEGLKEVKV
+PKMLLQPIIENYFKHGFDIREGIGRIRLNCFSEHDELVITVEDNGAGVTAQKLQEIYEHF
+QTDIKNTTGENTSIGLKNVFVRLKLYYNQQASLELQNLEGGFRVTMRLPVQMEGDTHESN
+HYR
+>tr|A6CTF9|A6CTF9_9BACI
+MPFITDVYAREVLDSRGNPTVEVEVYTQSGAFGRALVPSGASTGEYEAVELRDGDKDRYL
+GKGVQKAVDNVNNEIAEEIIGMDVTDQVAIDRAMMELDGTENKGKLGANAILGVSMAVAR
+AAADFFGVELYQYLGGFNAKQLPVPMMNIVNGGEHADNNVDIQEFMVMPVGAPTFKEGLR
+MGAEIFHSLKSVLKSKGYNTAVGDEGGFAPNLKSNEEALSTIIEAIEKAGYKPGEEVLLA
+MDVAASEIYNKEDGKYHLSGEGVVRTSAEMVDWYEEMCNKYPIVSIEDGLDENDWDGHKL
+LTDRIGNRVQLVGDDLFVTNTNKLSQGIEQGVGNSILIKVNQIGTLTETFDAIEMAKRAG
+YTAVISHRSGETEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLAHTAQYL
+GAKTFYNIKK
+>tr|A6CHK3|A6CHK3_9BACI
+MRKRQFKLSTIIIVFVCLVVLSSLLVTDLLISNTTTERIRDNQEEKAQIVSRTVAESQIV
+KEGLLSEEKAQAIQGYTSEVQTITDMMFIVVMDMEGIRKSHPNPQMIGKSFVGGDEKEVL
+KGNEHISVSKGTLGDSLRAFTPVYDDNHNQIGAVAVGISLEQVESALSLGHKNIIMGTVL
+GILAGIIGAVLLARYIKKMLFGLEPYAISKLLEERSTMLQSVHEGIVAVDHEKKITLVNK
+SALRIFKMAGLSGEPIGMKISDYMPSSKLDRVLLTGKPERDEELILNGVSVLVNREPLIV
+NNRVIGAISTFRDMTEVNHLAKQLTGIRTYAETLRAQSHEFMNRLHVIFGMVQLEAYDEL
+MEYIRKLVAHNNQEIDMVTKSITDPVLAGFLMGKISYAREENVELTVKSDSTITSMFGSE
+ITHELITIIGNLIDNAIEAVTESEEKRIDLRMKDVDGRLYITVKDSGPGIDEEKKEAIFK
+KGYSTKGYDRGFGLYLVRKSIEKLNGKLTVDSRPGGTVFDAVIVYDTKRDGIEND
+>tr|A6CIQ6|A6CIQ6_9BACI
+MAIGVDHIYSHNVFEASLGTLPYPLLSDWHKETVKKYNVFHEKDEVAIRSCFLIDKNGDI
+VYKNIDFNPRDKKVYEGLLQECGKLSGK
+>tr|A6CHD1|A6CHD1_9BACI
+MMKHDITKLYGQYLSSGELLVLKYLSEHGEMKASDLSKKMEVSASHVTSVTDSLTEKGYI
+TRQRSSVDRRVVELTLTEKGKEILDKCMRIKSEYFQEKFNTFSNDEIEQLIYLFTKLEKT
+K
+>tr|A6CT52|A6CT52_9BACI
+MIETLFPNVDWEKMWEATLETLYMTGMSVAITLVLGIILGLLLFLTSPNNIWENKAVYAV
+TSAVVNIFRSIPFIILIVLLIPFTKLLIGTIRGANAALPALIIGAAPFYARMVEIALREV
+SKGVIEASKSMGAKTSTIIWKVLLPESMPALISGITVTAIALVGFTAMAGVIGAGGLGNL
+AYLDGFQRSRDDVTLAATIIILIIVFIIQIIGDVLTKAIDKR
+>tr|A6CL19|A6CL19_9BACI
+MSVFRSFRFWIPFVIIAAMIIGSFLVPVLYPDLSESGPPYLKDPETNKVIAAPPYSPSEM
+PPLGSDKIGRNIFLMLMDGAKYTLLGALAIALLRMAGGFITGLIYAFMPRWLRSGFKGFW
+DTFNFIPLAIVGFILLHPLQLAYENDALTSFRFTVIEVIVIALIVIPSLGMYVGQGMNDF
+MKQEFIDVSRQMGASRFHLIRKHLMPHFGRHSIVLFSEQLSQTLLLLIQLGILHICLGGL
+MTSNFGILEFIPVYFSATNEWAATIAINIQQVFIRPYIVLGPLLFFALTIFCVNEISAVL
+RSVLIEGNHIGFKRKKKSKLNPARANREPGKEDFTFINRKEEEAC
+>tr|A6CLJ0|A6CLJ0_9BACI
+MSILKRQVLFSLTISLVLLVVLTAIFAFIFPFPDWQFFIKKEIMDIPLVVYIPFITALIG
+LSGGIWTALPLRKKLIEIQSGIMDLDQGRLLERGKLFNVAELSGVWNGLIKVQEQINKRT
+KQSQKLVNEKAEEQEKRIQEIVSQERNRLARELHDSVSQQLFAASMMMSAITESKSGTST
+PTESKQLKMVEGMIHQSQLEMRALLLHLRPAALKGKTLHEGIKELLVELNNKVPMEVEWK
+IEEISLDKGIEDHLFRILQESVSNTLRHSKANSLEVLLIKRDSLVILRVMDDGIGFDSEL
+EKTGSYGLQNMQERALEIGGSLKIVSVPNKGTRLEVKVPMVETEGDKE
+>tr|A6CT13|A6CT13_9BACI
+MDKKEVTSLVKNLQSTRKLHNGVEIPYVGLGVYKMEDHDEAVRAIKNAIEIGYRSIDTAS
+FYNNEVSVGQAVKESGVSREDLFITSKVWNDDQGYDSTLKSFEESLKRLDMGYMDLYLIH
+WPVAGKYKDTWKAFERLYDEGLIKAIGVSNFNQHHLEDLMKNSNEKPVINQIELHPRLSQ
+QALRDFCKKQDIAVEAWSPIARGRLLDEPTLNHIAGKYNKTAAQVILRWHLQNDTIIIPK
+SVRESRMRENIDLFNFELSLEDLNQINSLNMDERYGADPNTFDF
+>tr|A6CPK7|A6CPK7_9BACI
+MKTKIISIVVALSLAFGLIAPTISHAADVYYVQRGDTLWIISKKYQIGLSEIIEANPQIP
+NPDLIYPGQKINIPNIDAVKGVEGEVIRLTNQERAKNGLSPLKADWQLSRVARYKSADMR
+DKGYFSHTSPTYGSPFTMMKNFNINYRSAAENIAAGQPSAQAVVQAWMESPGHRKNILTP
+NFTHIGVGYVKGGSYGTYWTQMFIQK
+>tr|A6CL12|A6CL12_9BACI
+MRHAVITAGSKGLGKKVTEHFLNKGCSVTVNYRSDFERVEQLKQEWAPYLDQLLFVQGDI
+TRKEDIVNIIQQTMNRFGRIDYLINNAGPYIFERKKLIDYDDAEWEEMINGNLTAVFHFL
+KLTIPIMRKQKFGRVVNYGFQDAEHSPGWIYRSAFSAAKVGLVSLTRSIALEEAEHGITA
+NMICPGDIRGEMKESSIEEARGIRDDRTPIGRSGTGEDISRLIGFICDENSDLITGSIIS
+ASGGINVVNRNGVIL
+>tr|A6CQV2|A6CQV2_9BACI
+MKQSPNAIIEDFTVWLENEGKSANTVRTYERELTKYQDWLQQKGLSLKEVSQEDVQQYIR
+FLEGQGRSPVTTDKILGAIRTFSKFIKRPEITTGIEMKTTDKRTEIECLNGSQCATLLKK
+VKEEGNDRNTAIVYTLLHTGIRVSELCALNQSDIDLDKGRLEVRTSTGHPRTIPLSVEAK
+YYLECHLATSPVKDAVFVSRANERLTERAIQYILKKFDVNPHKLRHTFCQQLVDKGVSIE
+IVSRLAGHKDINVTKRYAKSRIEPFALEEAIQKTFIKDS
+>tr|A6CMT2|A6CMT2_9BACI
+MEVNILINLLKNRSYRRLWFAQVISELGDGISHLLILFLASQLTTNPMIFGYILIARHLP
+GMLFGTLVGPLVDQFSKKWIMIASDLYRFLIVLLMIAGQSSIELLLILIFLQGIGAVFFE
+PAKSAVIPKIMKKDEIPAAVSLSQSTYMMMMVIAPSIGGFLLLMENISLIFLIDGASFFL
+SGLILFRLKLKKGEGEKQHEKSDESYLMALKQGFHSVSNNRFITGIFILLTSAVFVLSIV
+SANAYAIILNVFEVNQVHFGMLESLEGVFGILGALVVPLFMKKVNNKTLIMYSFGLSGLL
+AALVIPVFDLHRMVPLVSLYIWMSVIGATNPFINIPLNSMLMQGVPEELLGRISGILTAS
+INGSLLGGLLLGGWLASLVGPLLTVTAGGLSLVAVSLIFPLSKYYGYLTVAVSAENAEKV
+G
+>tr|A6CLU1|A6CLU1_9BACI
+MKIYTKSGDKGTTSLVYGQRVSKADRRVEAYGTCDEANSLIGLGLSYIKNEYFEERDEFN
+SVFHKIQTTLFHVGAELATPSGKEVKWKVTKEDVEELEATIDKWDSALTPLSNFILPGGH
+PAGAALHSARTVVRRAEREAVSIEEGVNPLVLSYLNRLSDFLFVAARYINNQLGEKEQNL
+HQPK
+>tr|A6CS75|A6CS75_9BACI
+MFLKQLDVIGFKSFAERISVDFVPGVTAVVGPNGSGKSNIIDAIRWVLGEQSAKSLRGAK
+MEDVIFAGSDSRKPLNFAEVTLTLDNNDGALPIEYSEVSVTRRVFRSGDSEYLLNKQPCR
+LKDIIELFMDSGLGKEAFSIISQGKVEEILNSKPEERRTIFEDAAGVLKYKNRKKKAEAK
+LHETQENLNRVNDIISELEGQVEPLKIQASMARDYLEKKDELEKVEVGVTVCEIEDLHKQ
+WQNLSHSFEQHGEDELRLSSEIQKREAQLEKLRDNASALDESITQLQEVLLSTSEELEKL
+QGRKQVLQERKKNASNNREQLENNIKEAGSRIEKLLIEKQETEKEYASIKEDTENLKGLL
+SEKQKRYEHFNDDIETMIETLKGDYIEKLNRQAAAKNEIQYLQTQLQQQTGRSRRLDEDN
+EKFLAQREEIQQAQKVTEAKLQELKESIDAQVLAYRKEKNDLESMKSKYQKLETTLYQAY
+QFLQQAKSRKEMLAEMEEDYSGFFQGVKEVLKARNSTLNGVEGAVAELISVPKQYEKAME
+TALGAAMQHVVVRSESHGREAISYLKKNQYGRATFLPMNVIKGKSIPSSQLSMLSSHEAF
+VGVGSDLLEFDSKYQSIVSNLLGNVIITADLKGANALAKLAGYRYRFVTLDGDVVNPGGS
+MSGGATKQNKSSLLSRKSELEELTVKLKQMEEKTAGLEEQIRQYKSDISYTEKKLEDMRL
+KGEQLRYEEQEQKSKQRELELSQKNMDERLSLYDLEKGEYSAQRSNNETRIKELQEELNA
+ISQELLTMEDRIERLTDQKNNDRSSKEEIVDEISELKAKLAARYEQLNASKSVLSRLNDE
+LQQSEKKKKDFEEDLHWLTTEMENDFSGEEQLQANAEARAREKRETANLISSRREERMKV
+QTKVEDEELTLKELKRQHKGLLGALKDEEVKINRLDVELENRLAHLREEYMLTFEAAKED
+YPLTMEIGEARKKVKLIKMALEELGTVNLGAIDEYDRVSERYQFLLEQQADLQEAKDTLH
+EVIKEMDTEMVKRFDFTFHAIKAEFEGVFSALFGGGRAELKLTDPDDLLNTGVDIVAQPP
+GKKLQNLGLLSGGERALTAIALLFSILKVRPVPFCILDEVEAALDEANVQRFSKYLKKFS
+QETQFIVITHRKGTMEEAHVLYGVTMQESGVSMLVSVRLEDTKEFVEVK
+>tr|A6CU75|A6CU75_9BACI
+VLAGVFILMTVFELLSNDTSIMIALRNLQQISLIFSPIFLIGYAMELHREDSKRTLRFLG
+ILAIPSFVDMVLVLTDSFHGLMRDSVTVRTIWNYTEVSVQSTTLNSFLGAYPFVLALLTI
+LLLIRNMFDVPKHYRMTHWLSALVIALPIFIITTTSLLSIEIPGVYALSYSSMAGLLILV
+NKRMDFNAVWPVSRQDVLDNLSEGILLIDQQGKIVEVNHAGSQMIKRLFGTGGRRKEVIH
+QHVQSVFPGTASLMEALSLNQDTDFQYEHAGSHFDVDVKVLGKKSNHLRLVVWRDVTDKK
+KIEHQLIELAKMDSLTKLANREAFLELYNHNDEAGCFLLMDIDHFKLFNDQYGHLVGDKV
+LKYVAQLLKAQFRDAILTRLGGEEFGVFLNVDTEEASIRASRFQTSLKEESSQVDPSIEE
+EVTVSIGICRAYPGEPFERVYQRADQAMYKVKHEGRDSIHVC
+>tr|A6CT19|A6CT19_9BACI
+MIPGLGQFYNNQKLKGGFFLIMAAAFIFVFRDLIDYGLWGIMTLGEDTGAPYYDHSIFLM
+VYGILAIIIILFGLGFYAFNLYDAFKNGEKRDRGEKLSTIREQYRNLVDNGFPYLIMSPG
+FLLLVFVVIFPIIFVVLLAFTNYDLYHSPPAKLVDWIGIQNFIDIFQIDIWRSTFFSVLA
+WTLVWTFGATTTQVALGIFLAILVNQKDLKGKAIIRTVFILPWAIPAFVSILIFAGMFNE
+SFGTINRDILAFFGIGDLPWMTEALYTRIALIFIQTWLGFPFIFAMTTGVLQSIPEELYE
+AATVDGASSMQKFKNITLPLVLFATAPILITQYTFNFNNFNVIYLFNGGGPALTGQNAGG
+TDILISWIYSLTMTSAQYSKAAAITLLLSIFVITVAVWQFKRTKSFQEEDMM
+>tr|A6CNW2|A6CNW2_9BACI
+MKSLELNWQEMLFQFFGGLGIFLFGIKYLGDGLQKSAGDRLRDILDRFTTNPFMGVLAGI
+IVTILIQSSSGTTVITVGLVSAGFMTLRQAIGVIMGANIGTTVTAFIIGIDLGEYALPII
+AVGAVMLFFFKHKKVQYLGQIVFGFGGLFYGLELMSGGMKPLRSLEAFTDLTVSMSSNPI
+LGVVIGTVFTVIVQSSSATIGILQGLYAEGLVDIDAALPVLFGDNIGTTITAVLAAIGAS
+VAARRAAATHVLFNLIGTTLFLVLLPLYHRLVSFLQDALNLNPEMTIAFAHGTFNLTNTI
+IQFPFIGLLALIVTKLIPGEDALVDYKAKHLDPMFIEQSPSIALGQAKEEVLRMGEFAVK
+GLEESHCFLKTKQNKHSELAYQIEDAINNLDKKITNYLVDLSAASLTEAESEKHSILMDT
+VRDIERIGDHFENILELVEYQQGNKVKITEDAMADLNGMFELTIETVRKAVSSLDSNDHE
+LAREVAEKEDMIDKMERKLRKKHILRLNEGLCSGQAGIVFVDIISNLERIGDHAVNIAEA
+VLGENE
+>tr|A6CNQ8|A6CNQ8_9BACI
+MPFIDVYSNYSVLDYASDIVDILLVWFVIYKLIMLIKGTKAVQLLKGIFVIIIVRGLSGL
+LGLDTLRSLVDQAIDWGILAIIIIFQPELRRALEQLGRGRLFSRSGNQEEEEQGNMIEAI
+GKAVSYMAKRRIGALLSIERETGLSEYIETGIPIHSKISSELLINIFIPNTPLHDGAVIL
+QKQRIAAAACYLPLSESPFISKELGTRHRAALGISEVTDSITIIVSEETGSISVTMNGDL
+KRNVSVDDLKLILEHELIGEKANASSTKWSWRGKRDNG
+>tr|A6CU56|A6CU56_9BACI
+SVSHLEMNTSTGDGPGVKIKLQGGSVVTQEKSSSRKGTDITVSSLFFNTPARLKYMKTIH
+TELGNITDVANRIALSHPEVSIKLIHNGKTLLHTNGNGDVRQVLAAIYGTNIARKMVRIE
+ASSLDFTVKGYISLPEITRASRNYISTMINGRFIKNYGLAKAIGEGYHTLLPIGRYPIVL
+LSIEMDPLLVDVNVHPSKMEVRISKEPELFELVSGAIKDAFKTKELIPSGYKEPKPMKPK
+SEQTTLTLDHLSENNRAPVQLEKTYQKDETRQQERAYQPEQLPAKEVMELLYKQDDDLLE
+EEDTSTISAVYEEPPEVNSAPSGNQQQQPDEEQNPSRVPPLYPVGQMHGTYIFAQNENGL
+YIIDQHAAQERIKYEYYREKVGKVENELQEMLVPITLEYSADEYMKIIEHKDELEKVGVF
+LEEFGHNSFIIRSHPQWLPAGQEGELIDEMIEQLLNMKKVDIKKLREEAAIMMSCKASIK
+ANQYLKNEEIQALLDELRRSEDPFTCPHGRPIIIHYSVYEMEKMFKRIM
+>tr|A6CJJ3|A6CJJ3_9BACI
+MKLFLKNYVVLIKCNVFIILLSPTGDKAMLLCLLLAFYSHKGGHIMKKTLLFTLLTLITI
+GIYTLSVQAEEYTVIESEVTVENYHNIKEGDMLWELASKQDEAVITVETRQELIHNGKEV
+LVQKQSESKENKAAKDNNTDQVVKEVEVKATAYTAYCEGCIGITKTGVNLRANPDEKVIA
+VDPAVIPLGSKVYVEGFGYATAEDTGSAIKGNRIDIFIPSREEALDYGVKSITVQIIE
+>tr|A6CNQ0|A6CNQ0_9BACI
+MAKFTREDILEMADKENVKFIRLQFTDILGTIKNVEIPVSQLGKALDNEMMFDGSSIEGF
+VRIEESDMKLYPDYDTWVVFPWTAEKGKVARLICDIYNPDGTPFEGDPRNNLKRVLKEME
+ELGFTDFNLGPEPEFFLFKLDVEGQPTLELNDNGGYFDLAPTDLGENCRRDIVLELEEMG
+FEIEASHHEVAPGQHEIDFKYASALKACDDIQTFKLVVKTIARKHGLHATFMPKPLFGVN
+GSGMHCNMSLFKDGKNSFFDENGELQLSETARQFLAGTIKHATGFTAITNPTVNSYKRLV
+PGYEAPCYVAWSAQNRSPLIRIPASRGMSTRVEVRSVDPAANPYLAMAVLLAAGLDGIKN
+EMKAPKPVDRNIYVMNKQEREEEGIEDLPATLFNALEALKKDEVMIKALGGHIFEHFIEA
+KEIEWDMFRTQVHPWEREQYLQMY
+>tr|A6CT26|A6CT26_9BACI
+MSQNNNNFPPQHQDHQPGTEKEMHPQPKYMDDNYKGSGKLDGKVALITGGDSGIGKAVAL
+YFAKEGADIAIAYLEEDQDAQETKNLIEKEGRTCLLFAGDLGSSSYSAEVVKKTVDHYGK
+LDILVNNAAEQHPQTSLLDITDEQLEKTFRTNVFSFFYLTKAALPHLKSGSSIINTTSVT
+AYAGNDQLLDYSSTKGAIVSFTRSLSQSLASKNIRVNGVAPGPIWTPLIPSTFPEDKVAK
+FGADTPLGRAGQPYELAPAYVYLASDDSQYTTGQVIHVNGGKIVNG
+>tr|A6CQS5|A6CQS5_9BACI
+MRGMGNMQGMMKQMQKMQKQMAKAQEELGEKRLEGTAGGGMVTVIVSGHKEVLEVNIKEE
+VVDPEDIEMLQDLVLAATNDALKQADELTNSTMGQFTKGMNLPGMF
+>tr|A6CN29|A6CN29_9BACI
+MFTERQGITVWLYSLKHAKSMRRFGNVQYVSRKLKYVVLYCNQSETDTIVEKLSSYSYVK
+KVEPSYKPFIKTQFENSKPDKAKEYDYKMGI
+>tr|A6CHK5|A6CHK5_9BACI
+MSKRNLRDETIELHRQHSGKIEVKSKVNIKDESDLSLVYTPGVADVCKAIAENQDEVDTL
+TSRGNMVAIVSDGTAVLGLGDIGPKAAMPVMEGKSILFKNFADIDAFPLCLDTKDVDEIV
+NIIKALQPSFGGVNLEDISAPRCFEIEERLKKELDIPVFHDDQHGTAIVVLAAIYNALKV
+VNKVHKNVKIVINGAGAAGISIARLLLHAGYQDITLVSLEGVVCKGEKWLNNAQEKIAEQ
+TNLTGISGTLNDAIQAADVFIGVSAPGVMKPEHIKAMNEKPIVLAMANPIPEIYPEEALE
+AGAAVVGTGRSDYPNQVNNLLAFPGIFRGALDAKAKDITMEMKVAAAYAIAGVITDKELS
+ADYIIPKALDERVARLVAKAVRATANQQKKGRSSVS
+>tr|A6CPL3|A6CPL3_9BACI
+MQMETRQRFSDKFDWGLIFLLFLFFMVSVIAISSAQTSGQYAGYNFVLRQAFWYVVGFII
+IGFALLFDPEQYRRLAWYAYGIGIFLLAFLVVAPASIAPRINGAKSWFELPGIGSVQPSE
+FMKTFLILAIARVISSHHENNPKKTLKTDFILLMKIGVAAMIPLGLIMQQPDLGTSLVII
+AIVSGLILVSGISWKVIVPIFTSVAAIGASILALVIWAPQVLEKYLNVQPYQFGRIYSWL
+DPYNYQKQEGYHLVNSLKAIGSGQVFGKGYQDKQVYIPENHTDFIFSVIGEEFGFIGASV
+VISLFFLLIYHLTKTALDIKEPFSAYVCAGVISMITFHVFQNIGMTIQLLPITGIPLPFI
+SYGGSALMGNMLALGLVFSMRFYHKNYMFSSDDS
+>tr|A6CL58|A6CL58_9BACI
+MISIIASDMDGTLLNGKQEISEANRKAILEAQEKGVQVVVATGRSYEEAKYVLKEAGISC
+PIICVNGAEVRNEEGQVVKTNAIEEEKALEVMRILKDLGIYYELYTNQGVYTEDFERGIQ
+SIIDIFKTANPETSEQAIRDSAQERFEKGHIKVVEDYSEAFSNGNVVYKFLVFSFDDHLL
+KKAKDQLENAGGLAISASGRENLEVTSEDAQKGIALKNLIEEKGLNAEDALAVGDNLNDL
+SMMKVVGRPVAMENAAEEILAFCGYKTSSNEEDGVAKAIYEALEEKSAAVD
+>tr|A6CL78|A6CL78_9BACI
+MFREKKPFIRGKIRHLGFFSESNNLFNNSMLKGARALEKIQTIEEFNQLVEGKDRFFFLK
+HSLTCPISGSAFEEYQKFAQETEEKDAYYLAVQESRDLSNHIAETFGIKHESPQAFLFKE
+GKPVWNESHWRITSKELKSI
+>tr|A6CTR5|A6CTR5_9BACI
+MQSIQNQETFEELISQAEPVIIKFFADWCPDCTRMNMFIDEIIEEYDQYKWYELNKDELP
+EIADRYDVMGIPSLLIFQDGEKRAHLHSANAKTPEQVKEFLQNNK
+>tr|A6CL53|A6CL53_9BACI
+MSLQLIEAYIPKKHFDKVDEKLQKFYSTSYVVRNHSKEKCLVRMIVNTSDSEEILNYLES
+IINVVDGFEATLFPVQSHIRRKSAEEIENEKKEKEDERKSIQRASRHELYVKIESMSNIH
+MNYLLFVILSSIVVTIGIIKNSSAIVIGGMVIAPLLGPVIALAFGSILGDFKLVKQALLT
+VLAGVGISLLIAILSSLVLPVPVESEEFVSRMRVDFMDGILALASGAAGALAILRGSPSS
+LVGVMVAVALLPPTIVLGVTIGAALWEHVLPSLLLLSVNINSVLLSAVVVFNLSGIRPIK
+YDEIQRANNSRKFALIFVSIIFLILIVTIFFNNHAYSTNVGS
+>tr|A6CP50|A6CP50_9BACI
+MTKKNKYMQIYQELADKIKDGTYPANETLPSENELSELYETSRETIRKALTLLSQRGFIQ
+KIRGKGSLVLDMSKLSFPISGLVSFKELQGSLGGESQTIVYDFGLITPDKRLAKQLGCQQ
+EEEVWKVVRARNIKGERIILDKDYFLKKSVPLLTKEICEKSIYEYLENELKLPISYAKKE
+IVVEECTEEDRSYLDLDGFDHVVVVKNYVHLEDTTLFQYTESRHRLDKFRFVDFARRKH
+>tr|A6CL48|A6CL48_9BACI
+MREEGKTTLVVEEENRKTYYRRNGMEKIAQLFNYHAWATDKLLAYIEKEVPHTFSVQIKS
+VFPSIAETIQHQYEVDCLWYGRMNTGFQDDRKELLTLKEYRMTFQDLHEGIKSFIADSPD
+LTRLVHYQTSSGEEFTNRLEDLLQHLVNHGTYHRGNISAMLRQQGCPGHSTDYIYFLREM
+ER
+>tr|A6CN54|A6CN54_9BACI
+MGILIFAVIDVRLGYVQFFMGDKLTSWAKDSWSRNIPFEPERGKILDKNGVELATNQSAP
+TVFVVPRQITDPAQTAEKLAAALNLPLEDIYKYVTKSASMVRINEARKISYEKAKEVRDL
+DLKGVYIAEDSKRYYPFGSYLSHVLGFAGIDNQGLMGLELFYDKELSGEGGSVKFFSDAK
+GKRMPDMADDYEAPVDGLDLKLTIDTKVQTIIERELDIAEAAYNPDGIIAIAMDPNNGEI
+LAMSSRPTFDPANFRNVPQEIYNRNLPIWSTYEPGSTFKIITLAAALEENKVDLQKEKFH
+DSGHVEVAGSTLHCWKRGGHGTQTFLEVVQNSCNPGFVELGERLGKETLFKYIKDFGFGQ
+KTGIDLQGEGKGLLFNLDRVGPVEQATTAFGQGVAVTPIQQVAAVSAAINGGTLYQPYVA
+KELVDPETGEVVMRNTPQAKKQVISKETSEQIRYALESVVAQGTGRGAFVEGYRVGGKTG
+TAQKVKDGRYMENNHIVSFLGFAPADKPEIVVYLAVDNPKGTVQFGGVVAAPIVGNIIGD
+SLRAMGVPPRKNQIEKETTWLDTPLLETPDLVGLTRKELQQHLFNLKLDISGSGDKVAAQ
+SPEPGVKIKEGGTIRIQMAE
+>tr|A6CLU6|A6CLU6_9BACI
+METKIETGPVRPEIQIQTPAKKKIRYKSILTYAAFVGPALLFFLVIQIIPFLMGLYYSFT
+SWNGVSSAVEWVGIENYKKIFSDDPVFFNSFMFTTKFMFAAVLISNLLGFSFALLLNAAL
+KTRNILRTVFFIPNVIGGLLLGFIWQFIFVKGFASLGNMTDIGFFKMPWLGDETTAFWGI
+VIVFAWQISGYMMVIYVAALQGVDNSLLEAAKMDGASAWAVLTRIIIPLILPAFTICFFL
+TISMAFKIFDLNISLTGGGPFNSTQSVAINIYQEAFQNNRYGLGTAKSILFFVVVAIFTT
+VQVMVTKKKEVEA
+>tr|A6CJU5|A6CJU5_9BACI
+MIKQLFKNAGFTAGLLLLTVILAGSAFNTHFFKEDLQNISNEEYYANKPEPPSTEHPFGT
+SQGGIDLFDLVLSQTFPTIKLALFITAGRMTISLFMGFLYGLQYRKLKWLDLFIEGFHFV
+PATLLAFLLLLGLNFMNFEFIMENPEFRWYFIAYTLIAIGIPTLLQLIGKETNLALHNEF
+IEGAKVLGGSRTHILVKHVIPSIRGKIILMFSGQLIAVLTLMMHISILGFYIPGWTAFIG
+SNYYELMVSPWIIFFPVLLFALLITSLTLLTNGIRTVLDGDYQKRRPTLLSSSSIRTLSI
+KKDLTL
+>tr|A6CSF9|A6CSF9_9BACI
+MDQPIGIIDSGVGGLTVAKEVMRQLPNETIFYLGDTARCPYGPRTAEEVKKFTWEMAAFL
+MNYNIKMLVIACNTATAVVLEELQDMLPIPVVGVIQPGARAALKHSQNGRIGVLGTVGTV
+NSKAYDKAIHSINDSIDVTSLACPKFVPLVESGEYESKWAVDIVNETLVHMREEPIDTLI
+LGCTHYPLLQPIVQTVMGQEVKVINSGDETAREVSAILDYQGMLNKKKAKPQHIFFTTGS
+KRIFSKIALDWLQLKQIETKTILLGN
+>tr|A6CSX7|A6CSX7_9BACI
+MPSNVMSNTKERMTKAIQTFTRELASIRAGRANASLLDKITVDYYGAPTPVNQLAGISVP
+EARMLVIQPYDKSALGDIEKAIMKSDLGITPSSDGNILRIVIPQLTEERRKDLVKLVKKE
+SEDAKVAIRNIRRDANDEFKKLEKNGDITEDDLRGYSDDVQKLTDDHINQIDSIAKDKEK
+EILEV
+>tr|A6CHT4|A6CHT4_9BACI
+MNNEQEMNDLAQTLSKEETRRTATIYGVLLAISSGHFINDTLQAVVPAMFPIVEKSLGLS
+YTQIGWIAFVLNMTSSLLQPVFGYYADVKSRPFLLPLGMLSSLIGLVGFALSNNFIFLLL
+SVLFIGFGSAIFHPEGSRVAYLAAGSKRGLAQSIYQVGGNTGQSLAPLITAFIFVPLGQK
+GALLFTLAAGMGIIVLFRVSQWYKRRLDVENDIIKKSGNQTAKIKKVIHKKIKLAMVLVV
+FLVFARSWYGAGISNFYQFYLIEDYGLTIKQAQLYIFTFMIAGVLGTFLGGPLADRFGKR
+NIIFLSMLGSAPLTILLPYLPLTVVIPVFFLIGFILSSSFSVTVVYAQELLPQKIGMVSG
+LTVGLAFGMGAVGSVLFGGLADMFSIRFVMILCSFLPLFGVLTWLLPKDKEIREYHTL
+>tr|A6CNH0|A6CNH0_9BACI
+MNSDLFRKLIGGILLVSLCFIGFLKPVQQYIHLPNKIVMMQGEEVTLPKAAPVSAMPAAS
+SKVALSNSKDSLTIQGDNVGKEEVLLEIAGVPIKKVDVEVIKDFKVIPGGQSIGVKLNTL
+GVLVVGHHLVQTDGGDVSPGEKAGIQVGDMITEINGKKIEKLADVAPFVQEAGESKEALK
+VVLRRDDEKIKTELQPMKDSNENSYKLGLYIRDAAAGIGTMTFYEPKSKKYGALGHVISD
+MDTKKPIVVEDGEIVHSTVTSIEKGSNGKPGEKLARFTGERDVIGDITRNSPFGIFGKLN
+RDIKNGMLDKALPIALSHQVKEGPAQILTVVDGEEVELYDIEIVSTIPQKFPATKGMVIK
+VTDPDLLDKTGGIVQGMSGSPIIQDGKLIGAVTHVFVNDPTSGYGVHIEWMLNEAGIDIY
+EEEREKAS
+>tr|A6CRQ8|A6CRQ8_9BACI
+MIECEEGIQLKGNQLVIIDFEFSMPERQQNPRGFYPEIIETGLVAVQNGKITDKFSTYVK
+PSAFPVLTKRCKQFLSISQSDVDNGIPFHSLIQYLNEINRRGKNKIITWGNMDMKVLRNN
+CNKAGIDFPFTGEFIDLSMEYKRFFGDQNQTGLWKAVQEYGREGVGKHHKALDDALTTYH
+IFKLVEKDKKYLDKAEPTTIGDRIDLSKIFNQMA
+>tr|A6CRH6|A6CRH6_9BACI
+MNTKKVVVLALHDELESVYPPLNIAVGAASSGADVILAFSRRGVNILDKKYIPIPSDGIE
+YLSNALNDFNAPSIHELLEIAVESGVKLYAVDLDIKDRTDFIYPAEQVPIKWVLNEAVSA
+DLFVHF
+>tr|A6CSK2|A6CSK2_9BACI
+MDMDYKDNLSKGKKFLRSFKFAINGLRLVYAKEFNFKIHFVFSIVAMAAGFIFSISKMEW
+LVVVLLIFGMFALEMMNTAIEKTVDLITEDYHPLAGQAKDIAAGAVLCYAGGAVIAGLII
+FLPKLWGFITL
+>tr|A6CNR0|A6CNR0_9BACI
+MGKYFGTDGVRGIANTELTPELAFKLGRFGGYVLTKDADRPKILIGRDTRISGHMLEGAL
+VAGLLSIGAEVMRLGVISTPGVAYLTKALDAQAGVMISASHNPVGDNGIKFFGSDGFKLS
+DDQEKEIEDLLDQVEDTLPRPIGADLGQVSDYFEGGQKYLQYLKQSVDEEFDGLTIALDC
+AHGATSSLAPHLFADLDADLITMGASPNGLNINDGVGSTHPESLAELVKEKGADVGLAFD
+GDGDRLIAIDENGEIVDGDQIMFICAKHLKSEARLKQSTVVSTVMSNLGFHKGMESNDIK
+SIQTAVGDRYVVEEMRKNNYTLGGEQSGHIIFLDYNTTGDGLLTGIQLVNIMKLTGKSLS
+ELAGEMKKFPQKLVNIKVTDKYHVTDNAKVKEIIEKVEAEMNGNGRILVRPSGTEPLVRV
+MAEAPTEELCEKYVDDIAQVVQEEMGLK
+>tr|A6CIT7|A6CIT7_9BACI
+MKTNKCFRLIQYIFGIIVVFFTLAPYVWLFISSVSFQKDLTTVPLRWIQPDLTFSRYIEI
+FTNPDNPVAYTFKQAMGNSIIIGISCMTISLVVGSLAAYAVARLTFPFQKYLVFMFLFTY
+MIPPVVIVIPLYLLFSQLGWLDSKGTLILLNLTFIIPFTIWVMQSYFKSFSKEMEEAAFI
+DGCSRLQALWYVVIPIIRPGLMATAILSFLLSWEEFFYSLLFTSSLEAKTISVAIAEFSG
+KNAVDYGMIATGGILATLPPLIIIILFQKHLVTGMTAGGVKE
+>tr|A6CHD6|A6CHD6_9BACI
+MNTNKKMIVSTATALSLMAAPFFNNAEAAGGNQIQTQTKVYTYQYSGNHEELNKWIQNLM
+SKYNVQLKYQQKTEQPAAQEQPAEEQPAEAEAPAQENKATAPAAPQQPAADNKETTETIS
+GTLSQFERQVVELTNEERAKNGLSALKIDTELSNVAREKSNDMQAKNYFSHTSPTYGSPF
+DMMNQFGIDYRTAGENIAMGQRTPEEVVNAWMNSEGHRKNILSSNFTHIGVGHDADGNYW
+TQMFIGK
+>tr|A6CU77|A6CU77_9BACI
+MFKKAFGVLQKVGKALMLPVAILPAAGILLALGAALENPTLLELAPFLEADWIAKVAHVM
+KEAGGIIFGNLALLFAVGVAIGLAGGEGVAGLAAIVGYLIMNVTMGAAMGISAEDVGADM
+AFANVLGIPTLQTGVFGGIIVGILAAYMYNRFHNIELASYLGFFAGKRFVPIATAASAVV
+LGLLMLLVWPPIQTGLNNFSNFMLGENRTVAAFVFGVVERALIPFGLHHIFYSPFWFEFG
+TYTSEAGQIIRGDQAIFMKQIQDNVQELTAGTFMTGKYPFMMFGLPAAALAIYHEARPER
+KKIVAGIMGSAALTSFLTGITEPIEFSFLFVAPILFGIHTIFAGLSFMTMHLLDVKIGMT
+FSGGLIDYILFGVINPQTNWWLVIPVGLVFAVVYYFGFRFAIRKFNLATPGREEVEDDEE
+EGTTSTGSDLAYDVLEAMGGKENIAHLDACITRLRVSVNDEKQVDKKKLKKLGASGVLEV
+GNSIQAIFGPKSDTLKSQMKDIMMGKTPRRAEPMPG
+>tr|A6CSF2|A6CSF2_9BACI
+MSKGKIIVVGGGLAGLMATIKAAEAGAPVDLFSLVPVKRSHSVCAQGGINGAVNTKGEGD
+SPWEHFDDTVYGGDFLANQPPVKAMTEAAPGIIHLLDRMGVMFNRTPEGLLDFRRFGGTQ
+HHRTAFAGATTGQQLLYALDEQVRRHEVAGLVNKYEGWEFLGVIIDDEGVARGIVAQDLK
+TMEIKSFPADAVIMATGGPGIIFGKSTNSVINTGSAASIVYQQGAYYANGEFIQIHPTAI
+PGDDKLRLMSESARGEGGRVWTYKDGKPWYFLEEKYPAYGNLVPRDIATREIFDVCVNQK
+LGINGENMVYLDLSHKDPKELDIKLGGIIEIYEKFMGDDPRKVPMKIFPAVHYSMGGLWV
+DYDQMTNIPGLFAAGECDYSQHGGNRLGANSLLSAIFGGMVAGPNAIKYMNGLEKSVEEL
+PSSLFERYVQQEEEKWNEIISMDGTENAYVIHKELGEWMTDNVTVVRYNDKLKETDNKIL
+ELMERYKNININDTQKWSNQGAMFTRQLGNMLQLARVITIGALNRDESRGAHYKPDFPDR
+NDEEYLKTTMAKYNAETNTPEFHYEEVDTSLIPPRKRDYTKKKGGK
+>tr|A6CNL5|A6CNL5_9BACI
+MYRSIIKNKTILFYLIGGGVSRLGDILSGMAFLFIVYDLTGSEVMTTGMVIAGTLPYLLF
+GLVGGVLGDWLPKKRLLICIDTIRIPFLGLVIGLFYFELLSYLLLLVVSFLIQLLGCFFN
+PAHRAILPLITTEEDRTTVNSINDSLTRGITVLTPILSVLILRSVGPIHFFTVDAISYAI
+SIFCISKLRFKEVQYEGKRTVKEIYKAIMHFMKWARAERTIRRLFLLTFFIVFFNTWVWQ
+VGILLALEEISTNGEELYSIFQGVFGFIIICANLMIPFFFKKMTLKTYLLGSTIWAIGII
+VIGTFYGILPLFLGAVIVGIGLPLAGLARVYLLQTLVPQDMLGRGFSFNAFLLYLANTLA
+LTIFGVLVSYFAINSLFIISGVIMLFPALIFILLLLSKLVTVYTRRSPIKFFK
+>tr|A6CIS9|A6CIS9_9BACI
+MFSWEVEGVLLKHTNLNRLSKRVIALLAAGFIAIFSTTYLFISLAEDVLENEKFAVDQAV
+GEFVSSINTSTISSLMGYITEAGAVIWLAVGTFILTAYLFFTKRSNWFIIFLLINMFGIS
+ALTKGLKLLFERERPEVLSQYDGTGFSFPSGHTTGAVALYGYIIYLVGRSHLTNMSKSVW
+IAFLSIWILAIAASRIFIDVHFFTDILAGLAIGLLWLLVCIFSLETLLVKKGKKDGIDPK
+G
+>tr|A6CSM6|A6CSM6_9BACI
+MMELITIISILLGLIVGVVVGYFIRKSIAEAKIAGAKGSAEQILEDAKREAEALKKEKLL
+EAKDENHKLRTDMENDLRERRNELQKQENRLMQKEENLDRKDESLDKRESQLERKEAALN
+ERQQHIEEMESKVDEMIRLQQTELERISALTRDEAKAIILDRTENELSHDLALMIREHET
+RAKEDSDKKAKEILSLAIQRCAAEHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLT
+GIDLIIDDTPEAVILSGFDPIRRETARIALEKLVQDGRIHPARIEEMVDKARREVDEHIR
+EIGEQTTFDVGVHGLHPDLIKILGRLKFRTSYGQNVLKHSTEVAFLSGLLAAELGEDVTL
+ARRAGLLHDIGKAIDHEVEGSHVEIGVELATKYKEHPVVINSIASHHGDTEPTSVISVLV
+AAADALSAARPGARSETLENYIRRLEKLEDISESYEGVEKSFAIQAGREVRIMVKPESID
+DLEAHRLARDIRKRIEEELDYPGHIKVTVIRETRAVEYAK
+>tr|A6CHS4|A6CHS4_9BACI
+MKKVVLFADPGIDDTFAIIYALTNPEIQLVAIVTGFGNVSQGDATKNAAYILSLAGREDI
+PVINGASKPLTGEYEPFYPEIHGEDGIGPIKIPDEYKYEAQPFSSILDIIYKHEDLHFVD
+IGRNTSMALTFNLNPFVKDRIKEVFLMGGAFLVPGNVTEIAEANFHGDPTATNFVLNAGP
+PVYVAPLNVTLYAQLKEEHIRLLAEKSRNQFKEIFLPIFMFYQKAYEELQPGLEGVPLHD
+LYTMYLLSNLENTTIVQKKVLISTEEKTQGFTYADFRNMENDPQPNHFINIDFKYEDFLK
+NVLNTLMGEIKQN
+>tr|A6CNT7|A6CNT7_9BACI
+MNYFTLPLEEWTNDFVYDWLIPVMGGFFEAVSGIISFFINGVADIFVWVPAEVMAIILIL
+LAWKFAGKGVAIFTLIGVFYLGSVDLWEDAMLTLAVVIVATLFSIVLGVPLGILSAKSEA
+LNKVVRPILDFMQTLPSFVYLIPAILLFGLGEVPAVISTFVFATPPAVRMTSLAIRQVPA
+DMVEAARAFGSTSWQMLTKVQLPVAVPTIMAGINQTIMLALSMAVIASMIGAPGLGSTVL
+AGISSVNVGLGLVGGLGIVVLAIILDRITQGLGQKK
+>tr|A6CSA4|A6CSA4_9BACI
+MHTALEGGNEKLFVRTESFSQFIRLYPIVSIIVFIHLLLFSVALVPFLPEILVYEHLAGI
+NLYIFNGEWWRLITPIFVHLGFAHLLFNSFSLILFAPPLERMLGKFKFTIIYLTCGIAAN
+IATYFLKPLTYNHVGASGAIFGLFGIYVGMTLFHKHLISTQNKQVIIPIVVIGLVMTFFQ
+ANINITAHLVGLLSGLVISWLLLPYMVRKNRY
+>tr|A6CL14|A6CL14_9BACI
+MSNYLKWSEVPYAGEQFPPADPVTPLAGSWPLLFLQADKKGNFFNPRGKKLKLPITHPEQ
+IDFERELKIVQRTLTTLTPAQKEIATYYGTGVPTKQWTPVIDRLIDAYNVGPTQAARILS
+IYHGAINDAMIIAWHLKYDWDVARPDQYDETLETLLCTPRFPTYPSGHAVMSGCSEAVLS
+YFFPGETRKLRKIANDNAVGRLYAGVHFPSDNDQGVNLGRYIGKVITEDIQKQINSDFRQ
+IDKPYRHFQDADIFPVDFKQFIPYDFDDSCSSLLLSDNAERTGPDYTSSVPKPFLTF
+>tr|A6CHJ5|A6CHJ5_9BACI
+MEKKLGQNKNFITLMTAQAISSLGDWLSIVAIITLVGLKWEATPLQMSLLILSLALPMAL
+LGPVSGAVADRMERKTLMIISDVTRGILILFLTLASNVWAVYACLFAIGIFSSVFVPAKN
+GKLKELVRDQNIKGAMSITSMIDSSTKVLGPLVSGILVSAVGTYNVFYIDSATFFLSAVL
+ILFLPKTQKEISTSPAQEKQESTFREELKEGISFIRQSRYLMYGLFLLGVTLLILQLSDS
+QIIILLRQLTDVSPDLFGYAVTSSGLGMLLTGIYLSKKTDYNSYLYMCFGVLGIGMGFGI
+MALLTYFDTVHSIVWVPLLALIAGVAAGLVFIPFQAATQEKTPVHMTGRVFGVINSTTTT
+ATIIGPLAGGALATLIGIIPSFLVTSSLLIILFLVSVIFRNKVEQEDHHVTKSQPGTQGA
+ASR
+>tr|A6CUJ0|A6CUJ0_9BACI
+MTSIYQHFRKDEKEFIDSVLEWREFVENSYSPKVTDFLDPRQQYILSAIIGKNSDIKMSF
+YPAQESVERKRCILYPDYFEPSHSDYGVTLFEINYPQKFVTLEHRQILGSLMSIGLKREK
+FGDILMNSDRVQMITASEISDFVEMNFQEVGRNKVTLEKVPLDRMVHSSEEWREALTTVS
+SLRLDVILSALYNVSRQKVQTLIAGGVVKVNWRVVESPAFEVAEGDVFSMRGHGRSKLIS
+IEGKTKKDKFRIAAGVLK
+>tr|A6CN58|A6CN58_9BACI
+MSAKWEKQEGNQGVLTIEVDADTVNNGLDAAFKKVVKQVNVPGFRKGKMPRGMFEKRFGV
+ESLYQDALDVILPEAYAKAVEETGIQPVDRPDIDIEQMEKGKELIFKATVTVKPEVKLGE
+YKSLEVEKMDTEVTSEDVENELKSLQEKQAELAVKEGAAENGDTVVIDFEGFVDGEAFEG
+GKAENYSLELGSGSFIPGFEEQLVGLEAGAEKEVEVSFPEEYHAAELAGKPAVFKTKLHE
+VKAKELPELDDEFAKDADEEVESLDQLREKIQKRLEESKKNEADQTLRDTLVEKASENAE
+MDIPDAMVDTEVDRMMQEFEQRLQMQGMNLDLYFQFSGQKEEDLRGQMKEDAAKRVRTNL
+TLEAIADAENLEISDEEAEEEVNKLAEQYNMAADNIKQALGGLDNLKADLKIRKAVEVLV
+DNSKTVA
+>tr|A6CTX9|A6CTX9_9BACI
+MEVTVNRVLDAKGLACPMPIVKTKKEMKDLEAGQVMEIQATDKGSTADIKAWATSTGNQY
+LGTVEEGDILKHYLRKASEAEEQPEKKYEDVISLDDLVNKIEGEEKITVLDVREPAEYAF
+GHIPGAINIPLGELEQRFEEIDGTNEVHVICRTGSRSDLASRLLTDKGLKNVKNVVPGMT
+EWTGSINKKES
+>tr|A6CR74|A6CR74_9BACI
+AHAEDNGTSLWLFPTDGHITDHYGTRGGKHKGMDIGGEHGSPVYSVDDGVVTKSYYSSSY
+GHVIFIKHPNGYETVYGHLQQRGAIEGQAVSKGEMIGTMGNTGRSTGTHLHFEIHQGDWT
+ITKDNAIDPYHVFGEGETGQTVFAKEHDPYQVREVALKVPHLESLHSAGATSQHENQVEN
+LIHTVKAGETLWSISQTYGVSTTDVIKQNELVDDIIITGQQLIIPDKDERVHIVKRGETL
+FGIAEQYNVSVEELTNWNDMQKKDSIVPAQALIVQRE
+>tr|A6CTI6|A6CTI6_9BACI
+MDVKYKEIIENYLKEQDEQALYLGQKFSRKSIEHNISPEEIISLHKSIMLEMEPGLSPKV
+LDSFDILLEVMIGYGFAYREHQSLRSKQQELNNEIEIASNMQQTLLGTTVPDIEALDVGA
+LSVPAKRMNGDYYHFVQDDNDYISVAIADVIGKGIPAALCMSMIKYAMDSLPEHRHYPSA
+VLESLNRVVEMNVDPSMFITMFYGMYDPYNHIFNYSSAGHEPGFFYNSETSEFEDLEAKG
+LLLGVDKRAKYRQYERQVNVGDLIILLSDGVTECRTEEGFIEREDLVGYIEKYIHLPAQD
+IVNNVYKELERLQHFQLRDDFTLIILKRIC
+>tr|A6CQA9|A6CQA9_9BACI
+MNMNEPLQFAIFPSLLLLLTLFRLGLNVSTTRSILSNGEAGDVVETFGTFVVGGNVLVGL
+VVFIILIIIQFVVITKGSERVSEVAARFTLDAMPGKQMSIDADLNAGIISEHDAKERREK
+VSREADFYGAMDGASKFVKGDAIAGIIIVLMNLIFGIIIGMTQQGLPIGEAATRYSLLTV
+GDGIVSQIPALLISTATGIVVTRAASDGNLGKDIIDQLLAFPPMLYVAGGTIFLLGLFTP
+INDILTIPVAAALGIGGYMLSRAPQEEEADLIEMEEEREQDEMKSPESVVNLLNVDPIEF
+EFGYGLIPLADANQGGDLLDRVVMIRRQLAIELGLVIPVVRIRDNIQLQPNEYRLKIKGN
+EMARGELLLDHYLAMSPGVEDESIEGIDTVEPSFGLPAKWIGEDMKEQAEIFGYTVVDPP
+SVVSTHITEVIKNNAHELLGRQETKQLIDHLQESYPILVEEVTPNPLSVGEVQKVLAKLL
+RENVSIRNLPIIFETLADYGKMSTDTDLLAEYVRQALARQITSQYVDQGGTLKVITLSGR
+IEKMIADSVQQTEHGNFLSMDPNDSQRVLEALASQVEQLSLMEESPIVLCSPAIRMYVRQ
+LIERYFPQVPTLSYNELEANVEVQSLGLVNIE
+>tr|A6CI21|A6CI21_9BACI
+MKFLHRLIIFLISIAGIILAGGLPALLAGLNEKDLYFSHYWRDIEEIVHALVNPGALKYT
+VIGGQKERELFPYLFDPIFYSLTILFSAFVLALLIAIGSTILTMLFRKRVRDRIKMVFYL
+FESLPDLFIIMTVQLAIIYFYKKSGILLFNTASTYDDKAYMLPIFLLAILPAIQLFRVTL
+ISFEEEIQKDYVLLAKSIGVGRIMILVIHVLRNSIITVFFQSKKTVWFMLSNLFVIELLF
+NIPGITRFLMSTMQPKLFVLALLSIFIPLFVFYNLGELFLSKKANRGEEL
+>tr|A6CMK8|A6CMK8_9BACI
+MNLLKQQVVEEIDKLKSVLDEISIYIGENPELGHEEFKASKVLSETLEDHGFSVEMGTCN
+LPTAFRAVFDSGKEGPVVGFMAEYDALPEVGHACGHNLIGTMGIAAGIGVSKVISETGGK
+VIVYGTPAEETRGGKVTMAEEGIFDELDVALMVHPLHSYVKSGSSLAMDAIQFEFFGKST
+HAAASPQEGINALDAVIQTFNSINALRQHILPSARIHGIITEGGKAANVTPDYAVAQFYV
+RGTTRAYVNELTEKVKKCAEGAALQTGAMMKHSFYEFSYDDMITSSGLSEAFTQELISLG
+VDSTEIQEQRDGSGSLDMGNVSQVVPSIHPYIKITDGTYACHTHEFRRAAMTDQAREAMI
+LGAKAMALTGVEVLANSELLQKIKAEFALHLSDRHAPEFVD
+>tr|A6CR91|A6CR91_9BACI
+MTNQSEGKYNIKAISKMLGIQPGTLRAWERRYKMIAPVRNDSGHRLYSDEHVRILKWLVS
+KVDQGFTISQAVSLLDKQELAEETNTVSQTGNRLHDLSEELLQALLQFDETKAHQLMNTA
+FSLYTIDKVVIDVLGTLLVKIGDLWEHNEITTAHEHFASAVLRTRISTLMQTFPHNGLLP
+KVVAVCGPGELHELGLLIFTVYVRQKGFEVIYLGSSIREEDIEVVVDTVKPRFLFLSCTM
+RENIDQTLGIIDQLQAEKEFLHVGVGGLAVNSLPQRIKDKYKDHLVGSSKEDWDIWLKSN
+L
+>tr|A6CK98|A6CK98_9BACI
+MDKSSRDNKKNEQLDQYRIKNTGKKITTNEGLKVANNDATLKAGERGPVLMQDFHFFQKQ
+MHFDTERIPERVVHARGFGVHGEFEAYKSMKKYTKAGFLQEAGKKTPVFARFSTVQGGRG
+SKDTARDIRGFAVKFYTDEGNYDILGLQFPIFVLHDAFKFVDSQHALKPEPHNDMPTASA
+AHDNFWDFVANNQESAHFVMWAMSDRALPRSYRMMEGFAINTFRFVNEEGQAAFVRFHWK
+PILGVHSLLMEEAQLIGGIDPDYHRRDLRNAIERGAYPVFELGVQMIAEEDEFKFDFDVL
+DPTKVWPEEVIPVDIIGKMTLNRNVDNFFAETEQVAFDVTNLVPGIDFTDDPILQGRTFT
+YKITQMHRLGSSNYQEIPINQSLCPFHNNQRDGVKRHRIDVDQVNYYENSIANNTPGPTP
+PEAGGYLHYPEQVKGRKVKERSDSFKDVFSHARLFWNSMSPVEKQHIIEAFSFELANVKS
+VSVRQQVVDMFVNVDKEMAAAIADNAGVKPPQGDHVPVTAASPALSQANTRYYPNSLTVG
+ILIGDGFDGKEVKRVVDYLKEQGVFVEIVSEKLGTVVGTDGIKLKVTKTFLTTHNVLLDA
+LYIVGGRADNQAAFNQYITEFIHGAYKHYKPLGFAASGQPYLQYSAHNNLAGVVFAANNS
+DFEKEFVSAIAARRFWNRT
+>tr|A6CTF7|A6CTF7_9BACI
+MRKPIIAGNWKMNKTMSEAKKFAEDVNGLVPSSEKVESVICAPALFLERLVDITKEYQVE
+IGAQNMHFEENGAFTGEISPAALQDLGVKYVILGHSERREMFNETDESVNKKTHAAFNYN
+LTPIVCVGETLEQREADQTKQIVGDQVKKALEGLTEDQVKATVIAYEPIWAIGTGKSSTS
+EDANEVCSHIRQTVAEQFSQEAAEALRIQYGGSVKPNNIGEYMAQSDIDGALVGGASLEP
+QSFLQLLEAGSNE
+>tr|A6CL20|A6CL20_9BACI
+MKQVIWLPVQFLLTCAGLFLFSAAGSLLFYDHELVIHIAKYFHTLKQIFHDLLNPGSIFI
+TVGQDEKTYPIFPMLLKLFGYSFLLLITAFAIAVVVSAAISYLIMFLPRWAYRICMRVLD
+VFDSLPDVLIVVSLQLFIIWLFKQTDILLFDIYKLGEDKIYVLPIVCLSVLPIAFLTKQF
+LFQIREEEDRPYVEYSFSKGFSKAYTLWVHLFRNVWIQFYYHIKPIFLLMLSNLLIIEIL
+FNIHGFMYVMLATATAKPSAFFIGMLLIYIPFFIIFSIGRILLTKMIGGEFEV
+>tr|A6CI55|A6CI55_9BACI
+MDISNIDYRQIIEYSLDPIVIHSDLRILYINNAAAEFFNGKKEDILGLSPLDIFQESSKA
+AIAKRIQSAYERPADVIEETVYRMDGSTVDVELYCHPALIGNIKAIQSSMKDITQKKEDE
+KKHAEMLQQVNALSSTLVPVSEGVSVLPLVGSFDDERAMQLLEDVPMKAHEQNVECLIID
+FSGIYNMDTVVTNTLFKITGVMSLLGVHPIITGLRPELAQQVTRIGVNVDSANIYSTVKE
+AIRHCWKLKAH
+>tr|A6CP27|A6CP27_9BACI
+MIKNIKKFISDSSFKELRRLKKELNRINSLESTYKKMSDKQLQEQVSLLRKRLVSGASIN
+EIIHDAFALVRETSERVLGMRHHDVQILGGLSLAEGNIAEMQTGEGKTLVAALPSFLHAL
+QGRGVHVITANEYLARRDFEHIGSIHTFLGLSVGLNISGLTSELKQEAYQKDITYGTANE
+FGFDYLRDHMVTDNQEKVQRPLYFSIIDEIDSILIDEARTPLIIANKSNHSAELYNITSI
+VVRSFEEESDYEYYPESKQIYLTDEGTTKVEEAFGISNLFDAEHQILLHFIMQSLRAHVI
+MKRDVDYIVRNEQALLVDPFTGRIMEGRSYSDGLQQAIEAKEGIPIQDENQTMASITVQN
+YFKLYELVSGMTGTAATEKKEFFETYGMNVIEIPTNKPTIRVDFQDLIYNDLPSKLERIM
+EEVKQLNKSGRPVLIGTTSIEQSEKIAEEFTKNGIPFELLNAKTEEQEAQIIAKAGQKGK
+VTIATNMAGRGTDIAIDTEVRDLGGLHIIGTDRHESRRIDNQLRGRSGRQGDPGSTQFIL
+SMDDRIITYYDDEDVRKWKKKVKTDTTGLILQPNPIKFLDKIQLTVESSHFSSRSSLVRF
+DNIIDQQRRAVYSQRNRLLANEDIFFIVKELIEANIASIFEKYCPKDQMHEEWNIRGLVE
+EISLLFPFANLKQEDFENLEYISLKERIETVKAEAFSFMETHSSMIEVNKQMKSITLAIL
+DQVWVEHLENMEKLKEGVHLQAFGQEDPFRYFEREGYEMFLYLLQQLHSRIARRFSVLIR
+QYFDTKSEVNS
+>tr|A6CUB2|A6CUB2_9BACI
+MRETIHIYHTNDLHSHFENWPRIRDFLKMRKQWHHEAQDEVLLFDIGDHVDRWHPFSEGT
+LGKGNVEMLNEAGYDAVTIGNNEGITFSYKELNDLYGNAKFDVLLANLYTKEEKIPYWAK
+PYNIYETKSGFKIGVLGLTAHFTPFYKPLGWKIYSPMDQLSFWLKELAPQSDMIVLLSHL
+GIRDDEWIAEKFPEVDIILGAHTHHIFHEGKETNGTLLGAGGKHGNFVGHIMVELDVQSR
+KVISRRAQLYEQDQLHASKDEDQEIKSWHEKGKVLLNDTVTVLKNDLAADWFEPSELPQL
+LTDGLLQWCEADCAFLNAGLVLEGLPKGEVSRFDIHRILPHPINPCVINLTGAQLKEVLK
+ATRDEELHHLQVKGLGFRGKIMGEFVYTSVGFGKDIGHIYINGKLIDPHKTYKLATTDMF
+TFGHFFPELQRAEKHYFMPEFLRDVLTWKLKETNTL
+>tr|A6CTX8|A6CTX8_9BACI
+MKVAIIAANGNMFDAYKVFNIATAAAATDAEVQIFFTFEGLNLIHKEGHKNLSLPAGKEH
+FQEGFQKANVPPVEELVSMASEMGVKMIACQMTMDVMSLEKEHFVEGIDVGGAVTFLTYA
+QGADVTLTF
+>tr|A6CIC9|A6CIC9_9BACI
+MPYELRPYPTETLKPEGDYLQTTWKSSVYPMADRLGVNIVLPKVSPQPHTHLAFEGYQYA
+KEHGKANEYNHRMFTAFFQDELDIGDIDVLTKLAGELGLDQEEYRTALETRKYKEVHQKA
+LQHVYEEANIQAVPTFIIGDAELRGARPREVLEQIIDDELSKLN
+>tr|A6CIK4|A6CIK4_9BACI
+MKKLNDDWLLTEKEWGHGAPYNHYYLWFHVFEDEINHRGQIRSIKRQLL
+>tr|A6CN87|A6CN87_9BACI
+MVQTRKRLGDLLVEAGLISEEKLNMALQEKEQGQKLGDALLQKGYITEQQLIEVLEFQLG
+IPHVSLYRYPFDTNLFHLIPKEEAKRNLMIPLKKEGEKLYVAMADPMDFYAIEDLRLSTG
+FQIETAIATKDDILRAVTKYYDTEEGFEELVNDKPAKSSIEEQTIVDQDSPIVKLVNQIL
+SNAVTQKASDIHIDPQETKVSIRYRVDGVLRTERNLPKHMQSMLIARIKIMANLDITEFR
+VPQDGRIKTNVDYRPVDLRISTLPTVFGEKVVMRILDLSSALNDIKQLGFNKLNFKRFMD
+MIQQPTGIVLITGPTGSGKSSTLYAALNHLNSEEVNIITVEDPVEYQLEGINQIGVNPNV
+GLTFAKGLRAILRQDPNIIMVGEIRDKETVEVAIRASLTGHLVLSTIHTNDSLGTITRLL
+DMGVEPFLVASSLSGIVAQRLVRKVCRDCGREQEPSKREIEIFAKRGMKIDRIMRGEGCS
+SCNMTGYKGRLAIHEVLVMNDDMKKVILNGEPFSKLREYAVKNKTIFLVDDGLLKVKQGL
+TTTEEILRVAISE
+>tr|A6CNV9|A6CNV9_9BACI
+MTRFNRLLGDIELNKDIMFLLLIGGLYSMSVALSNTFVNIYLWKQSGEFLDLGIYNLTVV
+VFQPLTFILAGRWAKKIDRVIVLRIGVIFLASFYLSVLFFGENAGDNLVILGALLGIGYG
+FYWLAFNVLTFEITEPETRDFFNGFLGTLTSAGGMVGPILAGYIISRFTSFQGYTIVFGI
+SLGLFSLAVILSFFLKRRPAHGKYFFRRILKERKNNENWRLITNAHFFQGLREGTFIFVI
+SVFVFISTGSEFAIGTFGLINSGIAFIGYFLTSRMIKKKHRKKAILVGGLGLYLSIFLIV
+FDVTYAKLLLYAGVIAVAYPLLLVPYISMTYDVIGKGWKAAEMRIEYIVVREIFLNLGRI
+VSILSFIFAITVFSEEKSIPILLLILGSGHTLIYLFVRKIKLSTA
+>tr|A6CSE3|A6CSE3_9BACI
+RIGRGNAKIALIHCIMKEGVKIFSIAHNGELHLSESDSMVLQIVSMVEEHQRKLHNLKIK
+RGMRRAVEKGYEPHRNLKNRGNIEGRERIEVPVEEIVRLRDNKLTFAEIAATLRGFGYNI
+SKATVHRRYQEHISSSPDT
+>tr|A6CT71|A6CT71_9BACI
+MTSLIKAGPYQLDYQKRTLVMGILNVTPDSFSDGGRYNALEQAVQRAKEMVAEGADIIDV
+GGESTRPGHEPVSEEEEIQRVCPIIEAISREVDVAISIDTYKSGTARKALEAGAHIINDV
+WGAKRDKKIADVAAEFGAPIILMHNRENMDYSDFINDALEDVKVSVEIALEAGVPRENII
+LDPGIGFAKDLKLNLEMMRNLDRLVDVGFPVLLATSRKRMIGSVLDLPVEERMEGTGATV
+CFGIQKGCQMVRVHDVKEMKRMAVMMDAMLGKGEYRG
+>tr|A6CSD4|A6CSD4_9BACI
+MCKQELLDRIEKKRAQLIDIAAANGLNSPLAIKYSQELDTLLNHYNRKFIKTSSIAKSLV
+AKQVTM
+>tr|A6CIC0|A6CIC0_9BACI
+MWKGWRFLAMTLIRNLLQPLLTISGIILVSAGAGLFQGQKFSVEGYWDSLLSVLKDLSSP
+FNLVYVNPISDVERDLFPIILTAFFSSAKIVFLALLLAISASVVLLVLYYSVGKWIRELV
+KTFSVIVSSLPDIFVIAALQIFVIWYFKKTGILLIDVASTGQNQVILFPAVTLSILPAFF
+FLGLMVSFTKEEESLPYVELAKGKGLGKYHLLFVHMMRNILISLTYHAKQIVWMMLSNLL
+ILEYLFNVFGVTAFLFTYNTPSIFAITAILLFIPIYSLLKGLQFLLKRRIGKEMSL
+>tr|A6CRK0|A6CRK0_9BACI
+MNETRPALWTRNFISISISNFFLFMTFYFLLVTIPIYVVDYLDGEKSEAGLMITVFLISA
+IIIRPFTGRWIERFGSKRILLCSMFVFFVSALLYFAADSVGFLLIVRFLHGIGFGMATTA
+AGSIAAATVPGSRRGEGMGYFILSSNFAMVIGPFLGLTALHQWGVSTMLIIAGAAAFAGL
+LSGLSITMSNEKKEDGRPAQLSWKDAIFEGKAIPVALAGAFFAIVYSAILSFVSVYAGEL
+GLSHAASYFFVVYAAVLLLSRPLTGKWYDIHGPNFIVYPAILLFAVGMIVLGTANSAILF
+LTAAAFAGLGWGTLFPTFQTIAIQASPPKRAAMATATFLSIFDIGIGLGSFLVGLAAAKI
+SLGDLYTYSSLYVLAGLLLYYFLQGHKLKKGKRKQIDAA
+>tr|A6CS96|A6CS96_9BACI
+MINKSLGELAKMIKVENDLSAFQDVAIGGVSIDSRKIEKGNLFIPFKGEKVDGHKFVEGA
+IKSGAAASLWEKDVPNPPEGLPIIIVENSLQALQNLATAYRHELGIKVVGITGSNGKTTT
+KDMVANLLSLKYKVQKTQGNFNSHIGLPLTILALEKGTEVAVLEMGMSGFGEIEQLSNIA
+LPDAAIITNIGESHLQDLGSREGIATAKMEIISGLKEDGLFVYYGEEPLLKERIDKDWKF
+KVETFGKGTENTLYPLDVKTTDSGSVFKVNAEPDTEVMLPVLGEHNVMNALASMLVAKEF
+DVEYKEMPEAFQQLKLTQMRMEMMEGKRGEKILNDAYNASPTSMRAAIGLLSGLQGYGKK
+ILVAGDMLELGPNEENYHYEVGQEVQKGKIDLVFTFGTLARQTARGAAENIGEKNVFSFD
+DKQELTEKLESILHGDEIILFKASRGMKLEEIIESLTE
+>tr|A6CRB7|A6CRB7_9BACI
+MEAIKEISWLESKYLDEKVRVIDCRFKLGEPNYGKQLYNENHIPGAVYFHLEEDLSGKMK
+KHGGRHPLPEVEDFANKLEKSGIENDTTVVVYDGGEGAFAARCWWILKYIGHKQVYILNE
+GYQGWKERGLPVSSEVVDFNAGEYHPEVQGDMIATVEDVRKISRKETEGILIDSRARKRY
+LGMVEPIDKIPGHIPGAVNHEWTDAVKDGSFLSKKEHEKRWNGLDTKLPIIVYCGSGVTA
+TPNILSLWAAGCRNAKLYPGSYSDWISYEGHEVEAKNEND
+>tr|A6CRH9|A6CRH9_9BACI
+MTSAEVTKKVFNKEELFILDVRNESDFQDWKIEGGNFDYLNIPYFELLDGVEEILEKIPA
+DKEILVVCAKEGSSIMVAEMLSEEGLTVSYLQGGMKAWSEHLEPVKIGDLKDGGEVYQFV
+RIGKGCLSYMVVSNGEAAIIDSTRMTDIYLEFAKSIDAKITHVFDTHLHADHLSGGRVIA
+EKTGASYWLPPKDAAEVTFEYKALEGGNVVTIGNTAIDIHALYSPGHTIGSTSFIVDEKF
+LLSGDILFIDSIGRPDLAGMAEDWVADLRESLYSRYRELSESLIVLPAHFMIIDELNEDG
+SVSEKLGILFEKNHGLNIEDESEFRRLVTENLPPQPNAYQEIRETNMGKINPDEEKQREM
+EIGPNRCAVR
+>tr|A6CIA3|A6CIA3_9BACI
+MIKWLDETLKAFNLTETMKRAEGFTRLGYTEEEDRSIEVFKATAEELGLTIIEDQAGNII
+ARWEPENRSGLPAVATGSHLDTVSMGGGYDGAAGVLCSLGAVKKLKEEGFQPKHPIEVIC
+FRSEESARFGISTIGSKAMSGLINKEIGSVEDEEGTTIREAVEKTGFKWGEITGAERESS
+EIKSFVELHIEQGTQIEDHQKQYGVVHGVACPIRLKVKIEGKAGHTGTTPMGNRKDALVA
+AAPLISDIEVRATQMSNESEQPIVATVSTIHLQPNVMNVIPSLVELGIDIRSVDDGLKSS
+FEEMVKEKCKEIEQQYNVKIVIDTLVNNPSVSLDSEVQEKLLQVGDNEGYSSLVMNSGAG
+HDVMNMAKKWPSGLIFIPCKEGLSHHPDEYATLEDLKMGVELLAGYLKLEAGG
+>tr|A6CJA1|A6CJA1_9BACI
+MNNTTTESVSGSFAFKSRTYRRFLYGSFFVRTSDWMDLTILNWIVYDWTQSAVALGILNG
+CRLLPVFFFSLFAGSIADRFNRKKSLQFIHTGLFLTTLFIAFVISEGNSTITLMTIVTLK
+SILMSFEVPIRNAYLSDIVSIDMLGSAVTLQTTIINVARMIGPAAAGLLLTYYPAGDILL
+LISIGPLIGLLTLWGMSDARKADKERKLSQKKTVKETLVYMNSQPVLVSIVLLSIAPMVL
+GFPYTTMLPVLAGELMEIGPDGFGLLLSVSSVGAIVSTAVLAWKQPRNGGKWLILSSLGF
+GTSLVLFTVFSDYYLLAYLFMFLVGFVSQFYRTLNRIMVQMKVAEEYRGRVLSIVLMDRG
+YIPLGAIMVGFVANSFGAHSAGIFMGAGTIVLTISILRSNRRLWKE
+>tr|A6CPC5|A6CPC5_9BACI
+MAEGWAQKTDISGWKFNSGGWADARTNEFSVEAMKELCIDISEKKKKRADPQQLDEASVI
+IAIHDFDEDHEFEIPHDCLDKVVHWNLPNPEKRAKTPIEEWVIYQEVCDSLAIKVKSLKD
+VLNTFA
+>tr|A6CSF8|A6CSF8_9BACI
+MNNKSQDMEIFADIEKDLRYISSIIKQKGREILNQYSITPPQFVALQWLFEGGDMTIGEL
+SNKMYLACSTTTDLVDRMEKTELVERVKDNKDRRVVRIHLLEEGERIIEEVIEKRQQYLQ
+EILKNFSGEEIKTLNANLSKLHQEMK
+>tr|A6CLT0|A6CLT0_9BACI
+MFQYTIRRLLQLIPVLFGMTFIVFMIIRAIPGDPAQTILGQQATKEAVAALRAQLGLDNP
+WYIQYFEYLAGLFQGNLGESIRTKSSVASEIWPYLAATFELALVAMVIAVVIGVNAGIIS
+AWFQNSWFDYTAMILALVGVSVPIFWLGLMGQWVFGIQLDLLPTTGREDIRNPVNAITNL
+YLLDTLIQGDFQKFGAVIRHLILPGLALATIPMAIIARMTRSSMLEVMKSDYIRTARAKG
+LKMFLVVYKHSLKNAVIPVLTVIGLQMGLLLGGAILTETIFGWPGIGRYIFDAISYRDYP
+VIQSGILVVAAIFVTINLIVDLLYAAVDPRIKYN
+>tr|A6CJH0|A6CJH0_9BACI
+MRYILVGILIIIIIMRLMPARGVRHITTADLKNELHDGDKLFIDVRTKGEFNKRSIQGFK
+NIPLYELPYKTKELTSNKEIVLICQSGMRSNKAAKLLRKKGFNKVANVKGGMGAWS
+>tr|A6CN79|A6CN79_9BACI
+MNKRLSFAIIFTIIFSFILHTSFANAAIKPSVEFSVQPSATEYVKPANGDAQGRLDIEVT
+PKGQATNEERKPIDVVFVHDTSGSMKDSFGGVKKATSAENALKESLRFFNQNQQSKDKYF
+FVPFDSDVSYKNYGDKRIQPAEGLSDILPMAEHLDFSEAYWVKKYSWYYGYYWSQEIFDF
+SVGGTNYTQSLEYALSKFSGMRDSKRYIIFLTDGEPTSLNHDNKQYTLYTNGTARAGNVN
+ANYNDVQKFIHEKAVASAEKLGVNDVKMYSIAFAEPGEVNYQLLENMSNKTGGRAIQANP
+NSLSNVFTDISKEFNSPSVDGEVQIDLSKFNGKVKLAANSDAYIDKNNVVHMKYNFTYPI
+GKQPSPGSIQLSLPLQFTEMGSYVFDNIKLIYKDFDGNIQPAITHKSITVNIVEEAAPKF
+DSAVKINGNQYHAPENLIKMGMQNSVQNEFSVEYDLIPSGILQSNKTGVLKDIRIVQPLP
+DGITLKSQNLQTALSGLLTGATVKEITHNGQRAIEIKPGKSINYSGSQFSPAKLNYKALL
+QAEFAMSLVKMPKATIYYNDTNFNSQSHTLTSHSGYIGMQVILKGMADDITYIGDHTGKL
+AKKNDLTSELTAEVSLKPLPVKGLELIAGNTIRVHFSDQSFKDVYLKTDFKVMETLTEKV
+LSNNEETTGPASFKITNQVGGDDVKYLYKIIANNTQTEWTQFSPDQKVDIQTGIVGPVEV
+QVKTVGGFTLNDQPVTKKIIFIKKVSSINISPNPIEVKVGESISFQIEVLPVDASNKNVD
+IYLEKGNGKIASYSNGGILTSDSHRIIGVKPGDDKLIIEAKDGSGVKRIVPVKVLDPYVK
+LEEIRFKQAKITLPLTEVQIPIDAFLIYNPSDATNKKLAKVLSTSDAIEVIKSEGKWYIR
+TEDLGYTTVTVEADEDKSITDSAVFEVVDPEEGGGDGGDGETPYLDGRW
+>tr|A6CL23|A6CL23_9BACI
+MVSPFDEQEGIQEVVSGYIGGDKKNPSYKEVVSGVTGHREAVQITFDPDIFPFEKLLELY
+WQQIDPTDAEGQFSDKGIAYTTAIYYHSEEQRRKAEKSKEELAGSGRFNKSIVTEILPAQ
+PFYPAEEYHQDFYKKNNFRYELYQRGSGRRDFLKKYWPKDTSHLREKLTPLQYYVTQENG
+TEPPFENEYWDNKRDGIYVDIVSGEPLFTSKDQYDSGCGWPSFTKPVMSASVKEKYDLSH
+RSTRVEVRSREADSHLGHVFEDGPGKNGLRYCINSAALRFIPVENFEKEGYGDFKILFPG
+K
+>tr|A6CJM0|A6CJM0_9BACI
+MIRFGVIGTNWITDRFLEAAGKVSDFQLTAVYSRTEERAKEFADKYGLKYTFTDLDEMAR
+SNTFDAIYIASPNILHAEQALIFMRKGKHVLCEKPAAVNSDELNKMIQAAKENNVLFMEA
+LKTTFIPSFQSIKDNLSKIGKVRRVVSVKNQYSSRYDAYRSGTVLNAFKPELGNGSLMDI
+GIYCIVPVLTLFGMPQSIFAQGMLLETGADGEGTILFKYDGMEAVAMYSKITNSTIPSEI
+QGEDGSFIIDSISDPQKVEIHYRNGSVEDISVEQEGNTMYYEICEFIDLIKNGKKESAKQ
+TFQLSRDTMSILEEARKQIGIKFPSDSL
+>tr|A6CK18|A6CK18_9BACI
+MNGGNVMRKPDPAKDIKMDEKPKVTNKEPQNVVQDEPAAEVKNEMPVKEQKNGEEITNPY
+QIAQQLIKRAAESLDLPEGVYNILKKPKRVMKVSIPVRRDNGEYVNFTGIRSQHIDILGP
+TKGGIRFHPEVSEDEVKALSMWMSLKSALVGLPFGGGKGGVIVNPKDLSERELEELSRGY
+IRELEPIIGPEKDVPAPDVNTNGQIMGWMLDEFDRLRGKDVSGFITGKPVIIGGSEGRIE
+ATGRGVVINIMEAAKRLGLEMGKLSAVVQGFGNVGSITAKLLHEQGVKVMAVTDAGGGAY
+QPNGLDIVALIDYVNEHGTVKGFEGSQDITNEELFAADCDILVPAALENQITEETAPTIK
+AKIVAEAANGPTTPQGNEIMEEKGIFIIPDILCNSGGVTVSYFEWVQNAMHYFWKEEEVN
+EKLKEKMENAFDSVYRMKMEKNASMRESAYLVGVGRLAEAMKARGWIKNWSMPIEC
+>tr|A6CQC9|A6CQC9_9BACI
+MINMNLLTKEFIYQKSSQEITALLYEALITQIQGAMKDIENKRHFDSNKKLQKANDILER
+LGAGINYEAGIISDQLDALYNYMSASILKANITKNTRVLKEVITITEELAESWRTSMAKP
+QQPVRRMSQKVNAYEKNVMVYDKEFNKVEAGK
+>tr|A6CNC8|A6CNC8_9BACI
+MRIIDTDITKLTVPVRPGRNLAVIIEVAAMNFRLKRMGVNAAEQFTNRLSDVIDEGDQED
+F
+>tr|A6CIC4|A6CIC4_9BACI
+MQRDSLLTNKGELVKMKLSLRFTVIASLIFSVFAPLKQDALSASTGSGVIINEIAWMGTT
+ASYNDEWMELHNPTDSSVDLNGWTLASADGTPSIALSGTVAPGEYFLLERTSDNTVGGVT
+ADLIYSGAMGNSGESLTLKDSAGNIVDTVDAWYSGDNSSKATMERIDALVSGNEANNWHT
+STDVYAGGYGTPKGLNSGSTSNSGTVGSGCGDPGERLNSVSEMTGAINVYFNKCADISSS
+SPGNEANYNVNLEERLIKRLNEATKSIDFATYEINLPSIVDTLINKAAEGIDVRVIADSK
+DATDPHYIERFQTMRIYVEKMVRGLDGKVGTADDIIVFSDSPMFAVEESTARTSEGLPAT
+PSDFPVVTVGIGNSNETGHLLVDAEEKSANAYYSPDTQMHNKFAVIDDKWVFTGSWNFTV
+TGLYGTETNMQQGILDGNQQHVVEINWPELASIYEVEFNEMWGSSSLTPDKTISNFNTRK
+VDNTTHVIDINGTKVEIYFSAGDNAVGKMTDFVKTSADINTYFTIFAWSDQALVDELKYK
+WEGSYNDLEGTTTGFDLKGVFDPSFWNQYWSASIDMTGRTVTGSANNPNTRWANPAPVLK
+ANESRKLHAKTMLIDADTTSDPTVIVGSTNWSTNGNDINDENMLFIHDSAITNQFLQEFN
+ARYTQAGGSLQ
+>tr|A6CPU6|A6CPU6_9BACI
+MKSIVEKWAQLSLVKQIIIGLVIGILLAVTVPEAAKHLAILGSLFVGALKAIAPVLVLFL
+VMSAIVQHKRGSQTNMKSIILLYLSGTFLAGLVAVIVSFIFPVSLTLTEGAEEMTAPGGV
+AEVLKALLLNVVDNPFNAVANANYIGILAWAVLLGVALKNAADSTKGMITNLSEAVSKIV
+TWVIKFAPLGIMGLVIESVTSNGLEGLLSYGKLLAVLIGCMVLVALVVNPAIVFVLMKRN
+PYPLVFKSLRESGITAFFTRSSAANIPVNMRVCEDLGLNKDSYSVSIPLGATINMTGAAV
+TITVLTLAAVHTLGITVDIPTAIILSVVAAVSACGASGVAGGSLLLIPLACSLFGIPADI
+AMQVVGVGFIIGVLQDSFETALNSSTDVLFTAASEFKQWEKEGKIVTIKKPA
+>tr|A6CKW8|A6CKW8_9BACI
+MDKKILVVDDEKPIADILQFNLKKEGYEVHCAYDGDEAVKMAEEIKPDLVLLDIMLPNRD
+GMEVCREIRKKYEMPIIMLTAKDSEIDKVLGLELGADDYVTKPFSTRELIARVKANLRRH
+QHGAAQQAAEGAKNEIAVGSLVIHPDAYIVSKRGDTIELTHREFELLHYLAKHIGQVMTR
+EHLLQTVWGYDYYGDVRTVDVTVRRLREKIEDNPSHPNWIVTRRGVGYYLRNPEQE
+>tr|A6CMS2|A6CMS2_9BACI
+MGLTRDIILETAGEMADRNGLESVTIANLAKKLKIRPPSLYNHIKGLNELRTIMAVHGLN
+GLYHAMKSAAEGKEGDEAVQALGSSYLSFARKHPGLYEAALLAPDPRHQEVQEAGSLIVE
+LALESLDYLELSKVDALHAVRGLRGLFHGIASLEQKSGFNLDLSVDESLHRMIRTVLAGI
+KGRTDF
+>tr|A6CIM5|A6CIM5_9BACI
+MILLAVFLIIPSFFVGGAAAQTTTGAVVDSKIFKTLENATSVEAIVTFKGDGAPEAGHLD
+LLKAAGVTTGVTLKSLPMAGIVATKAGIEKLAESSEVQSIYLNEKLEYFNADATAITGVD
+KARTDRSFQEVNGGFPVTGEGVGVVVNDSGVDGTHKDHELGRNLVQNVMASTNLNALSPS
+LLPVTYQENVANTDTNSGHGTHVAGTVGGTGAMSSGKYEGAAPGADLIGYGSGAALFVLD
+GIGGFDYAIANQYQYGIKVITNSWGSSGDFDPNHPINIASKKAYDRGITVLFAAGNEGPG
+ENTHNPYAKAPWVISVGAGVKDGTLADFSSRGTKGVGGTFVMDGQEWTWKDEPSLTAPGV
+DIVSTRVIAPVSSLAIQDDVETLDPAHVPYYTTMSGTSMATPHVAGIVALMLEADPTLSP
+AEVKNILQQTATNMPGYESWEVGAGYVNAYAALDAIYNGKEFGKTLNVNQNFNSSVEAET
+TREDFSVDYDPMKLVSTNQHEFNVEEGVSSLTAKVNAKGLLEETGNPVNLVLIAPNGEEY
+SSGISLLFPLYTDRTVSVNSPQPGVWKAELRGLKGNAANPLSVSLPETVDGQLAFTKVSG
+FDGLNDISGHPAASAIQMGIKERLFDGLSSGDFNPDANLDRKHLARYLVMGAEIRQSLPG
+DPKGTFKDVKAEDRAFVEAAVAKGGAFRDESHTQNPVVLVDGSGKFSPNASVTRAELAYS
+LVQALGLQEEAKQFDGNLTVQYKDERIAIEDAGNVPAELKGYVQLALDLNILNAQFSTEQ
+GPYDLIPVLKASFSPEEKVTRGDFAVAMTRYYQAFLK
+>tr|A6CI14|A6CI14_9BACI
+MSIEFTSKEEIAEFIKANRDNFKEKLLSEAVNVRNKINDILEKGNIDLLKNAEKLALFIA
+ENREDELVDFAKIEGVAWAEHSLTLAFKLEWVHAIRRTLWYFLYQYDKVNEDHPFSRKEF
+FDLEKRINDCVDQFLNTFFISYSDYKDQQLLSQRKLVENLSVPIIPINSSIAVLPLIGMM
+DTDRVKTLEEKVLMGINNMRIHTLIIDLSGVAEMELDVIVQFEKILNGIQMMGCKAVLTG
+LRVELVRKMINAGVSFERHVETKATLQQTLKEHLVLENGI
+>tr|A6CT63|A6CT63_9BACI
+MRKMMALILILLIPQPAGAQSFKMPPLKEHPHQQEILIIETSTPVDPVQLKEELGQHTSL
+KLRYIFSDVLNGYSITGPKTELEKYVASHPQANLITASKAQTYVIKRDSTIPFVGAEKAR
+GYFDENGNRLTGEGVKVGIIDTGMDLHHRDLSRNFKGGKDVVDGDEEPMETISGKGYSTI
+HGTHVAGIIGANGSLQGMAPNANLYIYRALGPGGRGTTDQVLAAIEAAVKDKVDILNLSL
+GSEVNGPDLPLSKALDKVFEKGILPVVASGNSGPADWTIGTPATSAKSLAVGASTPPSDV
+PYFIFGKEKIRLLSIDRTEKWRKKRNIRIYDGGIGSPEELEGSFGKIAIVKRGKLTFEEK
+IDNAERAGANGVIIYNNTKGLFSAMIQNEKEIPAAVVSMEDGKNLLKTKKPVSIAITNEQ
+DQLAPFSSKGPVTVSWLIKPDVTAPGVDIKSTIPEGYMSLQGTSMAAPHVSGAAAILKQA
+HPEWGAKELKSALMLTAKDIVDEKGVPYKVFEQGSGRIQVDKALELDTFVFPSSLSMGGL
+QLGKKKYLEEQLTIKNQGTVAKTYSLKPSETHNALRWELPLSFVLKPGEEKTVTVRAIIK
+EFPEKHALWEGRLLLEEGTSIYSLPYLIAVGTPDYPRIMGFAAVPGDAPDSLRYEAYLPE
+GAEEFALALYDQQTLQLLAILDQRHPAGQGMINNQVKLPSYIKGKTFYAVAFARKSGDED
+YQENLIEWYR
+>tr|A6CS52|A6CS52_9BACI
+MSVIKEEVAVLKNYIDGKWVESLSSQTLEVVNPATNKELARVPISTKEDVDRAVSAAKKA
+SKTWRNVPVPKRARYLYKYHALISENHEELAKLVVQENGKSYKEAYGEVQRGLECVEFAC
+GAPTLMMGETLSGIAEDIDSEMFRYPLGVVGGITPFNFPMMVPLWMFPLAVACGNTFVLK
+PSERTPILANRLAELFTEAGVPDGVLNVVHGAHDVVNGLLEHKDIAAISFVGSQPVAKYV
+YEQAASQGKRVQALSGAKNHHVVMPDADYNKAAEHIISSAFGSAGQRCMACSAVVVVGDN
+EQFVQALNKKADELGIGNGMDDEVLLTPVIRQENRERTLKYIEKGLEEGASLIRDGRKEM
+DDFKEGNFLGATIFDHVTPAMTIAREEMFAPVLSLLRAKDLDEGLEYIRQSRFGNGATIY
+TKDAKAVRQFREEADAGMLGINVGVPATMAFFPFSGWKDSFYGDMHVNGKDGVNFFTRKK
+MITSRFDF
+>tr|A6CLW4|A6CLW4_9BACI
+MIQPPTGKERIGLAFLLGMLGVLGPLNIDMYLPSFPGIASDLEASASQVQLSLTSCLIGL
+AVGQIVVGPISDAKGRKSPLLLFIFLFALSSILCAVAPNISVLIAARFLQGFTASAGVVL
+SRAVVRDVFSGRELTKFFALLMVINATAPMIAPITGGAILLLPFATWNTIFYVLGLIGFL
+IVGVIALKLKETLPPEKRIPSSLGSSVRTIGSLLRDRSFIGFALTVGLIHGGSFAYVAGT
+PFVYQGIYGVSPQVFSILFGINGLAIITGSFLIGRLGGFIHERKLLRVAVIIAVCATSFL
+LLMTIIQGPLAAVVIPIFIYMTTMGMILTSTFTLAMEHQGHRAGSASAVLGMLPLVIGSI
+VAPLVGINETTAVPMAAALFITASFGAVAFFRLTGKKQALAMKLSTNSN
+>tr|A6CRE9|A6CRE9_9BACI
+MDVEVLFDDSWSEELDSRIEKDGPWSDWDLFKLAVEVEERTVIPNFEGLQAPKHLSNLTP
+LPHQLEVAKQVVESMNGKAILADEVGLGKTIEAGLILKEYMIRGLVKKVLILVPASLVSQ
+WAIELNSKFFIPAVAQKKSYVWDQCDIVISSIDTAKRSPHREKVYEQNYDLVIIDEAHKL
+KNHKTKNYEFVQNLKKKFCLLLTATPIQNRVEEIFHLVSLLKPGHLGNESGFAEKYKKGK
+RSVGNDAHLKELVNKVMIRNRRSDTGIEWTKRHVKTVLIDFTTEERALYESFNILKGPYE
+DWVSSSFSLLTLQREACSSREAVFYTLKNMLQRTDQPSAQLTNSVNALMKKVEAVQTNSK
+AQEALKIIQSVNDKVIIFTEYRATQLYLQWFLKQNGITSVPFRGGFKRGKKDWMRELFKN
+HAQVLIATEAGGEGINLQFCHHIINFDLPWNPMRLEQRIGRVHRLGQTEDVHIYNFATRD
+TVEEHILKLLYEKISLFEKVIGQLDDILTKLDFGKFEDHIEDIFTHSRSEGEMKIKMDNL
+SAMIQFAENMKEEQENAASRNTSIS
+>tr|A6CNF2|A6CNF2_9BACI
+MDPTADRDIKENIYEKLAKKYGMSIDQAKANTENMVNMAKEVGLDYQMDTLILTNTFDAH
+RLTMYAKTKGLMKEMTDRILHAYYTESKHIGDHDTLTDLAVEIGLDREAVQKVLASDEMS
+DAVRADEQAAQQIGVSGVPFYLINQKYALTGAQPTEVFVQALKKVIAEEEEKITVLNSGN
+EDGVVCDENGCEIPKK
+>tr|A6CRH7|A6CRH7_9BACI
+MKEGVRMANKKFVYFVSLSSNVPYVLNKALEMIEQKDEVDIFFDLDGARVLDKRYLKKMP
+RTHGVDLSSLFTKARQAGIHLYGCQMNVLIADGLELIEGAELAGVVTFLERAYQADAVLS
+Y
+>tr|A6CSJ3|A6CSJ3_9BACI
+MVKILKEPYIYVVSDSVGETAELVTKAAISQFDGSNTVIKRFPYVEDFSHLDEVLSLAKL
+NNGLIVYTLVKPDMRKYLKEQAEKEQLYAFDIMGPIMETYQKKYDKAPLNEPGVVHKLDA
+DYFKKVEAIEFAVKYDDGRDPRGLLRADIVLIGVSRTSKTPLSQYLALKRLKVANVPLVP
+EVDPPEELFKVPASKCFGLKAAPEKLNSIRRERLKSLGLNDQASYANLDRIQQEIEYFEK
+IVDKIGCRVVDVTNKAVEETANIIMHEIHKSN
+>tr|A6CHL6|A6CHL6_9BACI
+MSRIAVVTGASRLDGMGASICLKLADQGCDIFFTGFRGYDRNMPWGAEEESFEKLEGLIR
+EKGVKCQWEEIDFMSEDGPERVMNIVTETMGKPSILINNAAYSTETTIDSLTGLELDRHY
+TVNVRSACMLTIKFFEVCESSAGGRVIFLTSGQSLGPMPNELAYAVTKSSVEAFVKSAAT
+SVASKGITINAVNPGPTQTGWIVEEFKEELLGRFPMGRLGIPEDTAKLIAFLVSSEAQWI
+TGQVIHSEGGFIR
+>tr|A6CM54|A6CM54_9BACI
+MANYFMTGFPGFISSELIKETLKRHKNDVIYCLHLPIMKEKALVEAKRIEAEAGTSQRIV
+LIEGDICQEGLGISASIKEKLMKEIDYVWHLAAIYDLSVSLKKAYMVNVIGTQNINQFCL
+ELQTLKRYVYFSTAFVAGARGGKLLESELVKPECFHNHYEETKFEAECLVEGMKEQLPVT
+IFRPGIVKGKSDTGETCKFDGPYFIMNMFHRLSFSPIIPLIGDGESFVNIVPVEYVTDAS
+IYLGHHPSGIGKTYHLTDPHPHKIKEVYSSILWEMRRKKPIGRIPQNLASSLLKFSPLRK
+YLRVEKEALDYFSWNGLFDCTVTLEDLKSTGIVCTDFLDTVGSMVEFYKRNCEKQNYHVA
+ID
+>tr|A6CKQ2|A6CKQ2_9BACI
+MKKLLLIGGGHSHLHVIKRLQKHPLKDVSITLISPSKYQYYSGMFSGYTEGLYSQDDIRV
+NLQKLAESANINWIEGAVLSMDPNQKVALTDGGEVINFDAASFDIGSMTASVDKIGAASN
+VHTIKPNYKFIDTIDTVRRATQVVIAGGGAAGIELSASLTAWRRRNGIPTPVTLITGSRL
+LNQKSENISRAIEKELIKLDINLRTHEEITSFDNHSANLSSGENLSFDELIWLTGPKAPD
+IFRLSKLPVDSKGYIAVEDTLQVKQYPFIFAAGECASMVHYPDLDKAGVYAVKQGPVLYE
+NIKGFFESGEGLLYKPQSKYLSILSLGNKRGFAMYGNRYYTGKPAWMLKNRIDTRFVKQY
+NR
+>tr|A6CS86|A6CS86_9BACI
+MKTGTLRQVLLITDGCSNQGEDPVAMAALAKEQGITVNVIGVMENDSIDERGMEEIEGIA
+MSGGGVSQIVYAQQLSQTVQMVTRKAMTQTLQGVVNKELKQILGKNASMEELPPEQRGEV
+MEVVDELGESSDLEVLILVDTSASMKHKLPTVKEALLDLSLSMNARMGDNMFSVFVFPGK
+RKDVEKLLDWTPKLESLTSVFSKLSSGGITPTGPAISEAITSFKKKRSLRGLLSRDDEQY
+FEETI
+>tr|A6CRJ7|A6CRJ7_9BACI
+MVVEIKEPLPLSPSNDPWEAYMDVEEHGKMTLSSIEFTTTTLCNMRCNHCAVGYTLQNKD
+PEALPMELIFRRLDEVSHLRTISITGGEPMMSKKSVENHVLPLLKYAHSRGVKTQINSNL
+TLPYERYEPIVPYLDVLHISHNWGTVEEFAETGFARMDRKPSEKKRADYFNRMVENSKKL
+SSEGVMVSAETMLNGRTFPYLESIHDHIIEMGCTRHEVHPMYPVDFAKDLETLSLDETRQ
+AIRRLLDHRREDIWMLFGTLPFYPCSSSQEELDLYQRLLKEKNVTVRNDPDGRSRLNVNI
+FSGDIIVTDFGDEPGLGNIQDTSLTDAYDRWNQTKTAQSLNCHCPAVKCLGPNVLVKNTY
+YNDVDFQSRSAKIGE
+>tr|A6CSQ4|A6CSQ4_9BACI
+MSDNIKDMNYQVTGMTCAACASRIEKGLKKVEGVNDANVNLALEKASVKFDSSVTSPQEL
+QKKIKDLGYDVVTEKAEFDITGMTCAACATRIEKGLSKTDGVSSANVNLALEKATVEYNP
+ALITPSDLIKKVDKLGYGARETAEKNPEETADHREKEIQKQQGKFLFSAILSLPLLWAMV
+SHFEFTSFIYLPDMLMNPWVQFALATPVQFVVGKQFYVGAYKALKNKSANMDVLVALGTS
+AAYFYSLFLSIQSIGTNDGMTELYFETSAILITLIILGKLFEAKAKGRSSEAIKKLMGLQ
+AKTATVLRNGQEVEIPLEEVTVGDVVFVKPGEKVPVDGEVLEGRSALDESMLTGESVPVD
+KAVGDEVIGSTINKNGFLKIKATKVGRDTALAQIIKVVEEAQGSKAPIQRMADRISGIFV
+PIVVGLAVITFLIWFIWITPGDFAESLEKLIAVLVIACPCALGLATPTSIMAGSGRSAEF
+GILFKGGEHLETAHTITTVVLDKTGTVTNGKPVLTDVISDGDVNEADFLKLVGAAERHSE
+HPLAVSIVDGIKEKGIEITSDADFEAIPGFGVSAMVDDRKVLIGTKKLMDREAIRVEEAV
+LRTKNDLESEGKTAMLVAIDGEYAGLIAVADTIKNTSKEAVNRLKEMGLQVIMMTGDNHQ
+TAEAIAKEAGIENVIAEVLPDGKAEEVKKLQAEGKKVAMVGDGINDAPALAVANIGMAIG
+TGTDVAMEAADITLIRGDLNSIADAIYMSKKTIRNIKQNLFWAFAYNTLGIPVAAIGLLA
+PWLAGAAMAFSSVSVVLNALRLQRVKL
+>tr|A6CJA9|A6CJA9_9BACI
+MDLKGKSALITGAGRGIGRATAIALAKEGVNIGLVGLTMENLEKVAEELSQYDVQVSAAT
+ADVSDLESVNHATEHIKSDLGPIDILINNAGIGKFGGFLDLDPQEWEKIIRVNLMGVYNA
+TRAVLPEMIERKTGDIINVSSTAGQKGAPVTSAYSASKFGVLGLTESLMQEVRKHNIRVT
+ALTPSTVVTDLAQENNLLSDNTENVMQPEDLAELIVSTLKLNRRVFIKSSGMWSTNP
+>tr|A6CIJ1|A6CIJ1_9BACI
+MKAIVIEEYGDKDVLVEKDIEKPSIAENQVLVEMHATSINPIDWKVREGYLKEMLPFEFP
+IVLGWDAAGVIVETGSNVKGFKVGDRVFTRPATTNRGTYAEYLSVHDNLLAKMPEEMSFD
+EAASIPLAGLTAWQCLVDFGKIQEGDKVLIHAGAGGVGLFAIQIAKSFGAHVATTASEKN
+TEFLKSLGADEVINYKEEDFSEVVNDFDLVLDSMGGEIQSKSYKVLKENGKLVSIVQPPS
+EEEAANYNAEAGFVWLEPNGEQLQKLADLYVEGKVKPVIGETFDFSEQGLKDAHALSETH
+HARGKIVIKVK
+>tr|A6CPD9|A6CPD9_9BACI
+MESIKADSVLDAKGLACPMPIVKTKKAITNLEGGQVLLVEATDKGSTADIKAWAEKAGHQ
+YLGTIEDGDLLKHYLRKASGEEKIEKKHPNTVNNEELEAKLENDIVVLDVREEAEYAFNH
+IPNAVSIPMGELESRMNELNKEDEIYVVCRTGNRSDLASQKLAENGFSKVINVVPGMSEW
+SGKTDSSQS
+>tr|A6CLA5|A6CLA5_9BACI
+MAKPAAQGMTKENILLSAVSLFNTKGYNGTSVRDIAKKASVNAANISYHFHGKQGLLESC
+FTRFFEAYLECLEAEADKLDFTPADECLKRAVYNILQYQSENHLLSRFVWREVSIDSQVV
+REIISSYLMKERYLLKRFFEGVNEQNRFTSMPVSIFIIQLKSMISMPFLNSQYLREVWHV
+FPQEQYFVDRYFTSLEQWIDHCLLARQNIPSQ
+>tr|A6CKR3|A6CKR3_9BACI
+MRHPYLTDDHEIFRKSLRKFLEKEAYPFYDQWEEERMIPRSFWTKMGDQGYLCPDIDEQY
+GGSEVDWGFSVIINEEIERVGSGLVGIGLHNDIVVPYITSYGTEEQKKRWLPKCTTGEFI
+TAIAMTEPGTGSDLANIKTTAVLKGNHYILNGQKTFITNGIHSDLIVVACKTDPKAKHKG
+VSLLVVERDMTGFSRGRKLNKVGLHSQDTAELIFEDCVVPKENLLGEEGKGFIYLMEKLQ
+QERLLVAIAAQAASEVMLKQTIDYVKSRDAFGKPVSKFQNTQFKIAEMATEIEMTRAFLD
+QLIAEHIEGENIVTKVSMAKWKMTDTAKKIAAECMQLHGGYGYMEEYEIARRFRDIPVAS
+IYAGTNEIMKTIIAKNLGL
+>tr|A6CNM5|A6CNM5_9BACI
+MESLKGKVAIVAGGTRGAGRAISVKLGEAGATVYVTGRTTSKSQSPMGRKETIEETADMV
+TKAGGKGIPVKVDHMIESEVIQLFDRVKKESGRLDILVNDIWGGDPLTEWGSPFGEHSLS
+KGLLMQKQAVESHIVTAHYSIPLFKESNGGLIIEVTDGTDYKPRGSFYYSLAKISAIHIA
+QAMAEDLKGDNITSIAVTPGYLRSEAMLEVYGVTEKNWKEGAKVDPHFIASESPYYIGEA
+IKCLVLDPHIADKTGGIFSTWELSEIYDFKDIDGTQPHWGNYFKDNIES
+>tr|A6CN77|A6CN77_9BACI
+MVNTYEEAVGWIHSRLRLGIKPGLSRMEWMMKKLNHPEKEIKAVHIAGTNGKGSTLTFLR
+HILESAGYDTGTFTSPYLEVFNERIGINGRPISDEEIMELVNIIIPLAEELEETEMGGPS
+EFEVITCMALYYFARMNPVPVVLFEVGLGGRFDSTNVIDPMISVITNIGMDHTQFLGNTI
+EKIAFEKAGIIKEGKPVVTAASQTGAQNVLISKAAEKNADLFLLNRDFEVSYKGPAEEGE
+TFDFFGKGKTRSYEIGMIGRHQTENASLAVAAADILKERYFYKIEEGAIQRGLAAAYWPG
+RMDKVNQKPAIYLDGAHNPEGMQALINTIETRFRKKKVSILFAALKDKDLQSMVSDLEKN
+VTDIGLTTFEFPRAANPEELAEYFQLDRHHIVNDWEKYIEAFRIEEDDSAVLIVTGSLYF
+LSAVRSKILNYS
+>tr|A6CIW9|A6CIW9_9BACI
+MLTDNKEQNSRQFFSQLGTLLEKDHPQSDFARSMFESLIEKAPIGVYILEEGSVSYINNY
+YSDLLGYTREEFTQGLVSLQQIIHPEDYPTVQARIEGRNQGNKKVERYRVRNINKQGKLI
+YTEIQSYMEIICDKRVLFGSVIDITEQIEAQQMLEESNEKYKSLFESSPDAMYSMDENGI
+LIDVNPAGEQLIGYSTKEMKGMPFMPLVASEDLPEAIKHFESAKVGEPSSAELVLIRKDS
+QKIHVEATHYPMKVNGEIVGTYGTARDITKKKLYDEKMRELAFYDPLTRLPNRKLFEDRL
+GQIIKLAKIEEKLFSVIFLDLDRFKFINDSMGHHIGDEFLKLVADRLKQSIRSTDTLSRL
+AGDEFTILLPDITEEDVISIAERINQSLAEPFQVSGHWLSVSASIGIAFSTGKNVGVSEI
+IHRADTAMYQTKKFRRSQYTIYSDEMEVDTSYNLIIERDLPLAVINNELELYYQPIMNLE
+SEKVIAMEALIRWHHPELGMVAPNDFIRVAEECGQIIPIGNWVLETACIQNKKWQDSGKP
+PFKVAVNVSTKQLQQYDFVDSVKKVLAKSGLEAKWLELEVTESILLDDVEEIKESLTRLR
+GIGVSISIDDFGTGYTSLSYLRQYPFDTVKIDKSFIDDISRDLHGKRITSAIISLAHSLN
+MNVVAEGIEGETELIFLKREKCDAGQGYYFSKPIPVHLLPDDLLIR
+>tr|A6CM38|A6CM38_9BACI
+MQLDKLVAFYKTIGDPTRLKIIMLLKEGPLHGLAIAGKLGLTAPTISHHLTKLKDINLVY
+SRREKNSLYYHLNKKVIKHHGNVLLNMAEESKGGKGEMEKIQKEKQKVLNNFFTNDGKLI
+NIPAQRKKKLFVFQHLIEGLKPGVKYEEKEINEYIKKYHEDYATIRREFIINHYMYRENG
+IYELNPKEMWATIE
+>tr|A6CMM9|A6CMM9_9BACI
+MFSFTFNANIFFPYKYLSEQNFKEKINYGLVGSMGALFCMFYPIETLGETHFDLRMIAIM
+IVTIYAGAISGSLVLLIVCIFRYLIGGPYVIIGIAVSVLAFAVGLLFQKMLHKTKHKFLV
+SLLIMTVYSAIYITIILFTVTMLDLTFYIIYFGTFVFTFVSLVLIIERLMKTNKQIEEMV
+YLDKLNMVGQMAASIAHEIRNPLSTVKGFIQHLSEDTKDEQFKRFSPLILEELDRTNKII
+TDYLSITKPEKFHVSVINLTNVIQSSVDLLRPYAAYSNTSIVLNTDNEYYIEGDEHHLKQ
+AIMNVIKNGIESTEDKRGIVRIEISTGMLTDTVEIRISDNGIGMTSEQLSKIGLPFYTTK
+TKGTGLGSMVTNKIIRELHGKIEYDSQPEKGTVVRIVLPLHDRNTRSES
+>tr|A6CTP5|A6CTP5_9BACI
+MASIYDFSAMKPNGEEVSLSQFKGKAMVIVNTASKCGFTPQFEELQSLYEEYKDKGVLVL
+GFPSDQFMKQEFDNDEEIMEFCQINYGVSFPMFSKVDVKGSGAHPLFKYLIKEKKGLMTS
+EVKWNFTKFLVDKDGDVVKRYAPQTSPAKIKEDLEEIL
+>tr|A6CS30|A6CS30_9BACI
+MDYKQLMVSWVEEGTVSIPQLLLSNYHKLGLSESEFVLLLQVFSFIEKGNDFPTPEELSS
+KMSFSSEECSSILRRLVQNQFIAIEEGNSTSGILYEKYSLKPLWTKLAEFVLSESKSDTM
+EKTRIDEADLYTVFEQEFSRPLSPLECETLAMWVDQDEHNAVIIKAALREAVISGKLNFR
+YIDRILFEWKKNGVKTIEQAKKHGERFRPHQKTQSAPQTSQPDKKTVPFYNWLEQ
+>tr|A6CPC4|A6CPC4_9BACI
+MIKPFMPQLVYIEPGALEYPLGKQLKEKFEKMDIEIRETTSHNQVRNLPGDNHFQKYRVA
+KSTLVVGVRKTLKFDTSKPSAEYAIPFATGCMGHCHYCYLQTTMGSKPYIRTYVNVDEIL
+DAADNYMKERAPEFTRFEAACTSDIVGIDHLTHSLKRAIEHFGESEYGKLRFVTKFHHVD
+HLLDAKHNGKTRFRFSVNADYVIKNFEPGTSPLAKRIEAAGKVARAGYPLGFIVAPIYLH
+EGWEEGYHHMFERLDAELPDYAKKDLTFEFIQHRFTKPAKRVIEKNYPMTKLELDENQRR
+YKWGKYGIGKYIYQKDEEQDIKDHLYGYMEKFFPNAKLEYFT
+>tr|A6CK01|A6CK01_9BACI
+MFKKVNESAAEYVRKGSKSRLIDEFISVREELIGYIGMMSDASFFQKIPGKSTSWELYFK
+GLIYHDSTHQNEIDAHLKRLLEEERSEPGPKVIKCLP
+>tr|A6CR04|A6CR04_9BACI
+MEPITLAKVQGLINEFARKDVYIHLETTNGAYASHFKEDFFSAGAYIRNALVNYEHGKIV
+GDGPFRAGLKLDIGWIYAEGLTHFEKTAKNQLLLAGHDNEGKLAVALQISTTPF
+>tr|A6CTZ4|A6CTZ4_9BACI
+MKRYIAKRFFKENFSFLLDMSAVKKILILLAVTALIFILSTGLGDMNIKPWTVLAVFFGG
+GEELEQLVVKSFRLPRIIIALLAGMSLAIAGALLQGMVRNPLASPDIIGITGGAGAAVVG
+FLAFFSDENNALTVSIQWLPLAAFAGAAIVAFLVYFLAWKNGVSPVRLVLIGIGVSALMQ
+AIITMLMILGPIFRASQANIWITGTVNASNWTDVYILLPWTLILITIAFVLARNVNIQEL
+GEEIATGVGSHIQRQRIILLTLATGLVGGAVAFAGGIGFVGLMAPHMARRLVGSSFGALL
+PVAALLGGTLVMVADLIGRTMFLPLEVPAGVFTAAIGAPYFIYLLFKTNNA
+>tr|A6CQ23|A6CQ23_9BACI
+MERSLSMELVRVTEGAALASARWMGRGKKNEADDAATSAMRDVFDTVPMKGTVVIGEGEM
+DEAPMLYIGEKLGTGYGPRVDVAVDPLEGTNIVASGGWNALAVLAVADHGNLLNAPDMYM
+DKIAVGPEAVGQIDINASVLDNLKAVARAKNKDIEDVVATVLNRERHAHIIAQLREAGAR
+IKLINDGDVAGAMNTAFDHTGVDILFGSGGAPEGVLAAVALKCLGGEIQGKLLPQNDEEA
+ERCERMGLDCSKILRMEDLVTGDDAIFAATGVTDGELLRGVQLKGTHGLTHSVVMRAKSG
+TVRFIDGRHSLQKKPNLVMK
+>tr|A6CLY5|A6CLY5_9BACI
+MKKEFVVIGLGRFGGSIVRSLAEQDLEVMAIDKEEDKVNQFASIASHAVVADTTDESVLK
+SLGIRNFDHVIVAIGDDIQSSILTTLMLKEIGVSNITVKAQNDYHEKVLRKIGANHVVHP
+ERDMGRRIAHNIVSNNVLDYLELSDEHSIVEIKANESINGNSLIDLDIRAKYGINIVAIK
+RGKDILVSPQADEQIRTGDILIVIGADSDITRFEKKVMP
+>tr|A6CM98|A6CM98_9BACI
+MEDFRMSGKTLRILRVLFELSQEDVSKILNKQTNTTVSFVETGKRTLTKKDTAILIQKLD
+ITMRDLMTVQKTIRTIRKKGE
+>tr|A6CLK4|A6CLK4_9BACI
+MASSALLASASLSPSETQAATNKADILLVNKEHSLSSNYVPSNLVIPNVPFVSDQEKMKS
+YAADALEELFAQADSEGINLFASSGYRSYDYQQEVHQYYVNQYGEEYANQISAEPGESEH
+QTGLVMDVTSPSVDYQLIQEFGDTEAGEWVEEHADDYGFIIRYPEGKQSITGYQYEPWHL
+RYVGESHAQEIMSQNITLEEYLNQDINSGAAGTYVVQPGDTLWEIARDHNVSLSELQSLN
+PSINPRFLQVGDTIQLPGSGSQPSEPGTAGSYEIQPGDTFWEIAASYDNITTQELMDANP
+SFSPTSLQVGDTIMIPRHGDNQVSSSLVSTGNVWIHSEPNYETSTRTGVFYKGETAQLLD
+ETNGMYQIEEGYISKNYAEIQ
+>tr|A6CUJ5|A6CUJ5_9BACI
+DKPLYVNKIHEDISYELVKFLEELGCQMRVVQDKMAIMNRVKLSGSLREKVLFNRESSFI
+YSTHYTDSLSEYLFEDPSSALKIEAKFTSESDRNDAMKAIKGMYHEVDCIVTDSDRMDIV
+KRGVSKLRGLLYVCEREGITRDQVVMVGANQDDKDLLDCCGLGIAMGNANQEVKNAADWI
+TRTDKQNGVAYAVKELFRKQQPIEFLKKMNVIKS
+>tr|A6CLF2|A6CLF2_9BACI
+MRKTKIVCTIGPASESVEKLTELIEAGMNVARLNFSHGDHEEHGARIQNIRTASEKTGKT
+VGILLDTKGPEIRTNNMENGSIELEKGSEVIVSMKEVLGTQEKFSITYESLIDDVEEGSK
+ILLDDGLIGLEVLSLDKAAGEIKTKVLNSGTLKNKKGVNVPGVSVNLPGITEKDAKDIIF
+GIEQGVDFIAASFVRRASDVLEIHQLLEDHNAGDIQIIPKIENQEGVDNIDEVLEVSDGL
+MVARGDLGVEIPAEEVPLVQKALIKKCNALGKPVITATQMLDSMQRNPRPTRAEASDVAN
+AIFDGTDAIMLSGETAAGVYPVEAVQTMHNIASRAETALDYKEILSNRSKDTGHNMTDAI
+GQSVAHTAINLSVNAIVAPTESGHTAKMISKYRPKAPIIAVTANDSVSRKLALAWGVYSQ
+KGRKVATTDEMLEMAVEESVNSGMITHGDRIIITAGVPIGESGTTNLMKIHVVGDILAKG
+QGIGRKTAFGKAVVAKNAAEANEKVKPGSILVTVGSDKDMVPALEKCSALITEEGGLTSH
+AAVVGINIGIPVIVGVENAMSILKDGQEITVDSSRGVIYDGHASVL
+>tr|A6CQ71|A6CQ71_9BACI
+MKITVQKYGGTSVRDEIGRKKASAHVMRAIEDGYKVVVVVSAMGRKGEPYSTDTLLSLIN
+GKDTKVSRREQDLLLSCGETVSTVVFTNLLLEQGIKATALTGAQAGFHTNSDHTNAKITD
+MKCDRLLSELKECQAVVVAGFQGISPKGEITTIGRGGSDTSAAALGAALKAEWVDIFTDV
+EGVMTADPRVTDKARPLAVISYNEVCNLANQGAKVIHPRAVEIAMEARVPIRIRSTYSDN
+LGTLVTSLEKKKAKGLESGTVTGIAHVENLSQIKVFAKKEQYNLQSEVFKAMANENISVD
+FINISPQGVVYTVPSDLTSRAFGVLKNLGHDPLIETECAKVSVVGAGMKGVPGVTAAIVT
+ALSENNIRILQSADSHTTIWVLIKEKDLKTAVNALHDSFQLEADKSTLEIDE
+>tr|A6CLY0|A6CLY0_9BACI
+MEKNIGFIGSGNMAKAILGGLLTSGIAHAGNIMASALTEKTITSINHEYNIRTTRDNKEV
+AASADYLFLAVKPDQYAGVIEEVREHIQKDAIVITIAAGVTLHTLAEQFGTQVKIVRTMP
+NTPSLVGEGMSALCPNENVTDAELEEVLMLFESFGKAEVLEENLMDAVPAVSGSSPAYVF
+MFIEALADGAVKQGISRDKAYKMAAQAVLGAAKMVLETETHPGELKDAVCSPGGVTIEAV
+STLEKTGFRASVLSAMESCYKKSSNMID
+>tr|A6CH83|A6CH83_9BACI
+MKQYLELCKHVLENGTEKGDRTGTGTISTFGYQMRFDLSEGFPMLTTKKLHLKSIIHELL
+WFLNGDTNVKYLQDNGVRIWNDWADETGDLGPVYGKQWRSWEGAGGETIDQISELIENIK
+KNPDSRRLIVNAWNVGEIDKMALPPCHCLFQFYVADGKLSCQLYQRSADVFLGVPFNIAS
+YALLTMMIANVCDLEPGEFVHTFGDVHIYQNHMEQVKLQLTREPRSLPSIRINKDVKDIF
+SYSFEDFTLEDYDPHPHIKGVVSV
+>tr|A6CSA5|A6CSA5_9BACI
+MIKGIGLDIVEIKRIAQLTERRPKFIRRVLTEAEIDHYSTLKGGRRYEFLAGRFAAKEAF
+AKARGTGIGAGLSFTDIEVRKDQLGKPYIALPVEKGVHLSITHSKDFAAAQVIIEDIR
+>tr|A6CHP0|A6CHP0_9BACI
+MAEIKVPELAESITEGTIAQWLKQPGDYVEKGEYIVELETDKVNVEVISEEAGTIQELKA
+EEGDTVEVGQVIAIVGEGGQQPASSDSKSEEKAEAPKEEAKQEESSPAPAETEGKKERVI
+ASPAARKLAREKGIDLSQVSTDPLGRVRKQDVEAYENKPQSAPSKPAASESKPAAAPKKD
+DGKPVVREKMSRRRQTIAKRLVEVQQNAAMLTTFNEIDMSAVMELRKRKKDKFFETHDVR
+LGFMSFFTKAVVAALKKYPYVNAEIDGDEVVLKKYFDVGVAVSTDDGLVVPVVRDCDRKN
+FAEIEGEIMELATKARNNKLALSDLQGGSFTITNGGVFGSLLSTPIMNGPQVGILGMHTI
+QLRPVAIDKDTMENRPMMYIALSYDHRIIDGKEAVGFLVTIKNLLENPEDLLLEG
+>tr|A6CJ92|A6CJ92_9BACI
+MLPFALSEGSYVLLIIFSVFYGLDWIATVPPTVGISRQVFGVEKSGVVYGWIFASHQMGA
+AVAAFGGGVIFNLLDSYTWAFLLAGIFCGMASLFVMIIRKPMSQEMSEGSSLKV
+>tr|A6CS72|A6CS72_9BACI
+MNLEGKTALVTGASRGIGREIALELARQGANVAVNYAGSEAKANEVTEEIKAMGREAFAI
+QCNVADGESVQAMVKESISRFGSLDILVNNAGITRDNLLMRMKESEWDEVIDTNLKGVFL
+CTKAVSRQMMKQRSGRIINISSIVGVSGNPGQANYVAAKSGVIGLTKTSARELAARGITV
+NAVAPGFISTDMTDELSEEVKTEMLKGIPLSRFGEAKDIARVVSFLASEDSSYMTGQTLH
+VDGGMVM
+>tr|A6CSJ0|A6CSJ0_9BACI
+MEGGEQMAEKSARSKEVESEVTVDQVKEQLMELGKKRGVLTYEDIAEKLANFELESDTMD
+EFYEQLGEQGVEIINENEEDDDPNIQQLNKADDEEFDLNDLSVPPGVKINDPVRMYLKEI
+GRVDLLSAQEEISLANRIEEGDEEAKRRLAEANLRLVVSIAKRYVGRGMLFLDLIQEGNM
+GLIKAVEKFDYRKGFKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINKLIRVQRQL
+LQDLGREPSPEEIAEEMDLTPEKVREILKIAQEPVSLETPIGEEDDSHLGDFIEDAEAQS
+PSEHAAYELLKEQLEDVLDTLTDREENVLR
+>tr|A6CMK3|A6CMK3_9BACI
+MSAEAVLNEEIQPESKPKKEKFLVTTFKRLVKNKLAVIGLIIIALQLVLAIAAPVIATHD
+PLEQNLPASELPAFSEGHWLGTDNYGRDIWSRIVYGARISLSVGLLAVSLGLIGGVALGL
+ISGYYRRLDGIIMRLVDLLFAFPGILLAMLIIAILGTSLVNVAIAISIWSIPSCARIVRG
+SVLTVKKQEYIQAMRSLGASDFRILVKHILPNCMAPIIVFATMRMATAILSTSALSFLGL
+GAQPPTPEWGAMIAQGQNFMWTSPHMTIVPGIAIMLIVFAFNVVGDGLRDALDPNMNLNQ
+>tr|A6CKS4|A6CKS4_9BACI
+MNFKVLIPQPIAKEGIDLLEKEGAEVIIPPDYNEETLISHVSDVDAILIRTAKLSRVVIE
+KASKLKVIARHGIGVDNIDLEAASDRGILVTNAPFANVNAVAEHVLTLILSGSRQLIQVD
+SALRNGDFEVRNRKFGIELKGKTLGVVGFGNIGQLVAEKCHYGLGMDVLVYDPYVREENV
+SSYVQLNQSLSEVLASSDIVTIHVPYLPSTHHLINEEALQQMKKDAILVNAARGGIIDEI
+ALEKALGSGEIRGACLDCFETEPPAVDHSLWNLENVIVTPHLAAHTEEAMIEMAVTPAKD
+IIAIMKGEKPLYPVNEKEIKVS
+>tr|A6CPT6|A6CPT6_9BACI
+MSKGKKTVREAALDVLESVEKNQSYSNLLLNHAIEKYGIKGPDTGLLTELTYGTIQRRMT
+LDFYLAPFINKKIESWVRQLLRLSLYQMIYLDKIPDRAVLFEAVEIGKRRGHKGIASMIN
+GILRSIQRKGVAAIESIEDPVERLAIETSHPQWLVKRWTEQFGIEKTREMCETNITAPHQ
+SARVNTLRITVDELIDRLTEEGLTVQKSSIVPNAIISLKGNLAKTAAFKDGLLTIQDESS
+MLVGHSLDVHEDFTVLDSCAAPGGKTTHIAQLMEGKGKVFALDLHKHKIKLINENASRLG
+LGNIESKAHDSRRAGELFAAESFDRILVDAPCSGLGVLRRKPDIKYTKKESDLESLQTIQ
+LQILEAVSPLLKKGGLLVYSTCTVDRNENQGTVKEFLDGNKEFQPFPLTHLPETVQPFVE
+GNMLQVFPQDFGGDGFFISCFKKDS
+>tr|A6CKT3|A6CKT3_9BACI
+MIHYRKILELHDEGISLRGIASSTGHSRQKVTEIIGLAEKKGLVCPLEEEMTDKWIEEFL
+FPEKTLEASGRHPLNFDYIHEELAKPNVTLSLLHHEYEAECRASQKIPYSYRSFLRHYSN
+YADKYKATLRIRRKPGEIMEVDWAGSTAFIIDRDTGEKVKAYVFVGTLPCSQFSYAEASL
+SMDSHSWITLHNNAYKYFGGTTQIVVPDNLKTSVTKHTTRELILNPAYKEMADYYNTVVM
+PARVRTPKDKASVEGSVGVISTWIIAALRNTHCFTIDELNEEVRKKLDEFNKRPFTRKKG
+SRLSAFEEEEKFALSPLPTAPYKMSEWKKTTVAPDYHVSFDSMFYSVPYEYINREVEVRV
+SDNLIEVFFNHMRIASHKRLYGKFGQTTTIHDHMPDNHKLFVDQTSEAAVEWAENIGEST
+LSVIRYLLDTSQTEKLALQSIFSLKKFERRYTKYEIERACKMVLSMTKRPTVKSIQTVLK
+TNKKNDAEQELKRKTEINTNNFGFTRGASYYGGTDK
+>tr|A6CL55|A6CL55_9BACI
+MREPSNLYGAERPLTLFIGRLEKMKKILVTGALGQIGSELVIKMRGIYGKDNVIATDIRE
+IDCEVVTGGPFEILDVTNAEKMMEIAKRHEVDTIIHLAALLSATAEAQPLLAWNLNMGGI
+VNALEVARELDCKFFTPSSIGAFGPSTPKDHTPQDTIQRPTTMYGVNKVSGELLCDYYYN
+KFGVDTRGLRFPGLISYATPPGGGTTDYAVDIYYKAIENGSYTSYIDKGTYMDMMYMPDA
+LNAIINLMEADPTKLKHRNSFNVTAMSIEPEMVAAEIRKHIPDFKLDYDVDPVRQGIADS
+WPNSIDASAASEEWGFKAEYDLARMTEDMLEKLKK
+>tr|A6CRW7|A6CRW7_9BACI
+MQKFTRISSIQEFLLSEKRKGRKIGFVPTMGFLHEGHLTLAEQARKENDIVVMSIFVNPL
+QFGPNEDFESYPRNSERDSELAEASGVDVLFLPEAEEMYSGSSVTMHVTERTDVLCGRKR
+EGHFDGVVTVVSKLFNIVGPDKAYFGLKDAQQVAVIEGLVRDLNFPVTIVRVPTVRETDG
+LAKSSRNVYLSEEERAEAPVLYSSLKDAEILIAEGESDPERIISHIKNRIREETNGVVDY
+IEIYSFPELREITRLQGEVIIALAVKFQKARLIDNIIITKTQEEKSNV
+>tr|A6CRY1|A6CRY1_9BACI
+GNRRESNSYMAQGGVAAAIAHDDNIIKHFQDTLEAGRRHHQEEEVISLVKEGRDIVLELV
+AEGVPFDRNDDGSLSLGMEGAHSANRILHCGGDATGRYLMEYFLKTLPTNISWIEGQMVF
+ELIKDSNGRCKGVKTIDQSGAVHSYAAPHIVMAAGGAGGLYSSTSNHPTVTGDGMALAFR
+AGAYIADAEFIQFHPTLLCVEGNTKGLVSEAVRGEGARLVNDAEEEIMEGVHPLKELAPR
+HLVAERIFAHRKMGRDVFLSINLIKNFEQKFPSISAMCRENGVDLTLGKIPVSPGCHFMM
+GGIVIDSLGRTNVEGLYAVGEVACSGIHGANRLASNSLLEGLVYGKRLAEWINTKTRQSF
+HFVLEDSEDKQTFTQKKLLKTFNVKKFQERMMESAGIIRDGTNLQKHLQWLHSLDFKLDE
+NLENLYPTDIQKYFMWINSMIVTQAALLRTESRGGHIRSDYKEENDEVWLKRRIMHELKD
+GKVRTWVDEQVKTKIYA
+>tr|A6CMZ0|A6CMZ0_9BACI
+MERLQKVIAHAGVASRRKAEELILEGKVKVNGKTEKELGTKVSGTDKIEVNGIQIERENK
+VYYLLYKPRGVISAVTDDKDRKVVTDFFPYIQERIYPVGRLDYDTSGLILLTNDGEFANL
+LTHPRYNIDKTYVARLKGIPPKFKLKELEKGIMLEDGKTAPAKVKVLKIEKKQDKSIVEI
+TIHEGKNRQVKRMFEAIGYQVQKLKRERFAFLDLHGLNAGESRELSPHEVKQLRALAETG
+NLL
+>tr|A6CSG3|A6CSG3_9BACI
+MEKTFLMVKPDGVQRGLIAEFVSRFEKKGFQLAGAKLMSISKELAEEHYGEHKERPFFGE
+LVDFITSGPVFAMVWQGENVIATARQMMGATNPKDAAPGTIRGDFGITVGKNVIHGSDSA
+ESAEREIGLFFKDEELVEYSKLMNEWIY
+>tr|A6CRQ5|A6CRQ5_9BACI
+MKVGKILGTVVMSALLVSPAYSSNVDAVGNAEKVRVLISSTNEKAENSAKQNYGVRWDFN
+QNGFSTEVTEAQYNALQKNKNVSVKLVDEVSLNAKPGSNATAAPSDQTPWGIEAMYEDAN
+VSATSGGSGVRVAVLDTGANTNHSDLANNVEQCNDFSQRKANLVLNFCEDKNGHGTHVAG
+TVLADGGAGDGIYGVAPDAKLWAYKVLNDRGSGYSDDIAAAIRHAADEADRLNVNTVISM
+SLGSSSESSLITDAVNYAYSKGVLVVAAAGNSGPGADTIGYPGAVENAVAVAALEDVQEN
+GTYRVADFSSRGNPDTDGDYVIGVRDVEVSAPGRAIESTWYDGTYHTISGTSMATPHVSG
+LAAKIWADNPSLSAAQLRAEIQNRGKNNDILGGSGAAAGDDYASGFGFPTVNP
+>tr|A6CJG9|A6CJG9_9BACI
+MGLSNMNFAGFGPKMIKGVMKKHNVMSLPNLIEMAQEQDVKLVACTMTMDLLGLQKEELL
+DNIDYAGVAAYLADAEDGNVNLFI
+>tr|A6CKQ5|A6CKQ5_9BACI
+MKVSETIAIVTGGASGLGESTVRQIIKQGGKAAILDLSEERGQSLVGELGEKAIFVKTDV
+TSEKEVTNAIQIAVESFGSINAVVNCAGIGVASKLLSRKGIHSLDLFTKVISINLIGSFN
+VIRLASHQMSKNEPNEHGERGVIINTASVAAFEGQIGQAAYSASKGGIVGMTLPIARELA
+SYGIRVMTIAPGLFHTPMFESLPAEAIDSLGKMVPFPPRLGQPSEYALLVESIITNPMLN
+GETIRLDGGIRMQPK
+>tr|A6CPV8|A6CPV8_9BACI
+MDLGIIEGKELISMDTSICPRFEKAMGILSQRWTGIIVYQLLSGPQRFSAISSDIGVSNR
+VLSERLKELENEGIVKREVYPETPVRIEYSLTDKGMALEPLIRDIEKWSQTWLEAGSDSE
+>tr|A6CKN7|A6CKN7_9BACI
+MTNDFYCDEVLSGNTEVDKVKETEDVLAYHHTKPFYPVHIVAIPKKHISSLITLEESDHS
+LLLELMLVIKEVAAEVTEKHGSCKVITNMGEYQDSKHLHWHIVTGDPLNN
+>tr|A6CM34|A6CM34_9BACI
+MKTDSSKTAKKAAHSPSLLPGKAKARITAIFAVIIGFYVLSTIKTNATLPDLIDGIPNMG
+RVIAKFFPPNFAAFKHIIDPMAETIQMAIVATTIAAILCVPLSLLAAQNVTTNKFVYTTV
+RTILNILRTIPDLVLAVIFVGLFGIGIFPGIVALIIFSLGILAKLISETVESVDMNPMEA
+MHASGGNTLQSISFALVPQVLPQFTSFVLYVFEINIRASVVLGLVGAGGIGLVLNQQLKF
+YNYPNAMLIILVIFIVVVVIEYISTKIREAIV
+>tr|A6CPQ3|A6CPQ3_9BACI
+MCYFTSNGITHIDYKDVDLLKKFISERGKILPRRVTGTSAKYQRRLTRAIKRARTMALLP
+YVVGE
+>tr|A6CIB2|A6CIB2_9BACI
+MSENSSLLSIFALGGCNEIGKNMYVLQYGEDIVIIDCGGKFPDETLMGIDLIIPDISYLE
+ENADKVKALLITHGHEDHIGGVPYLLKKLNVPVYATNFTLGLIELKLEEHKLRRETTLVP
+IDANSTADFGQIKTSFFNVTHSIPDCLGIVFDTPEGTVVHTGDFKFDWTPLNNQKGDIHR
+MAEIGKKGILALLSESTNAERGGLSPSEQIVSSHMDEAFMKADGKIFVSTFASNVNRVQQ
+VVHAAMKTNRKLALLGRSMINVVDVAIERGYLNVPEGMIIDHRDIDTFNSEKVAILCTGS
+QGEQMAALGRLSSGQFRDVTIDPGDTVILAASPIPGNEKGVSRIIDNLFNLGAHVIYGTG
+SSTGMHVSGHGYQEDLKLMLTLMNPTYFIPIHGETRMLHHHRMLAESVGVEPGNTFIIKN
+GEVVDIEGGAARQTRSLPAGDTYVDGVSVGDVGNVVLRDRRQLSEDGILVIVITLSKADQ
+QLLSGPDTISRGFVYVKDSEGLLRKVNNIVRDTLDDLPQGHLQWKVIKQSIMKSVGQYLF
+KQTRRKPMIIPIIIEV
+>tr|A6CPI4|A6CPI4_9BACI
+MADWMKDLNDDQFKEVERQFEIYAGGAQEIIPEAGLKQKIAKSIKTNTPLKIKLGLDPSA
+PDVHIGHTVVLNKMRQFQQNGHIVQLIIGDFTGKIGDPTGKSAARKQLTDEEVKHNAQTY
+FEQFGKVLDKEKVELFYNSKWLKNLNLEDVIHLAGSITVARLLERNDFSERLAAGKPISL
+HEFFYPLMQGYDSVVLESDIELGGTDQHFNVLMGRGLQEHYGKEKQVVMMLPLLEGLDGK
+EKMSKSKHNYIGIDEAPSEMFGKTMSIPDELMMKYFELATDLSLEEKNSIGENLENGTLH
+PRDAKMLLGRTLVRMYHSEEAAEKAQTQFKAVFQKGAVPEDIPVVHWNKSREISVVELLV
+ELKMMKSKSEARRMIGNGGVKINGSKVEDPALEVSLADGLILNVGKRKFTKIKLD
+>tr|A6CI03|A6CI03_9BACI
+MYWIAALFDEKTEKLIKQIWKELAQESLSFYEEEIKNPRPHITIASYSEIDKDVYIDGLK
+KLYENKTEMEICFNTLGSFLNYGTLFFSPTMTKELLDLHASHHETFNNNVTSNSLYEPGK
+WIPHCTLANKLPEEDLAKVFRYCLKRNDSIKGRITEIALIEMADNQGDQLEAPIIFSVPL
+KEVGKHV
+>tr|A6CQR8|A6CQR8_9BACI
+MSNQNRMPLVEALQYHEKRDPVSFHVPGHKNGKLLNGQAGEFLQYDVTELTGLDDLHAPS
+EAIREAQELLADHFQTRKSYFLVNGSTVGNLAMIMGVCKEGDIVFVQRNCHKSILNGLKL
+ANVQPVFLHPEFDEETATTTGISQGTLKEAIGKYAKAKAVILTYPTYYGMVYDLHSIIEL
+AHKHGMKVLIDEAHGAHLSNGEPFPASSLRMGADIVVQSAHKTLPAMTMGSYLHINNDQI
+DAKRVEEYLGMLQSSSPSYPIMGSLDYARHFIASYSSEDLYSFLRIRKDFINRLHEAGFE
+VIESNDPLKVMIRLRGLSGFQLQDQLENVGIYAELADPHQVLFILPLLKKDTSFPFEEVV
+KKMSGIKASQAEDTPIVFKKSKSITSLRYSYREMETKTKKWIAIEDAAGKTAGEMLTPYP
+PGIPLFYPGEEITEESIAELRRLWELGAKFQGEHLLGEGRISIFE
+>tr|A6CMH4|A6CMH4_9BACI
+MEMNMSETQPYRVLLYYNYVTIEDPEAYTKYHKKRCEEMGLKGRILIAKEGINGTVSGTY
+EATEQYMEMMKNDHRFHDTVFKIDEAEDHAFKKLKVKHRPELVTLRLEDDINPHEITGEY
+LSPKEFYEHIQRDDVVVLDARNDYEYDLGHFRGAIRPDVETFRDLPDWVRENKELLEGKK
+VITYCTGGIRCEKFSGWLKREGFEDVAQLHGGIVTYGYDPEVQGDLWDGQLYVFDERIAV
+PVNRKEHVVVGKDYYTGEPCERYVNCAYPPCNRKILCSEENEHKYMRSCSHECRTHSENR
+YVMEHNLSEEEVAERLRRIEEEDGVTA
+>tr|A6CMQ6|A6CMQ6_9BACI
+MFENNNNQNEEIVNIEENEIEEKARVQRAEKPKKPSRGRGFLSTVGAGVIGSVLTLTVLP
+QTDYYQNLAQNSIQETAGVTQQAETSAASSGIKAANVSAVSDVANIVEDASKAIVGIVNY
+QQQSNRYTGTSQEAQAGTGSGVLFKKEGDSAYIITNNHVIENASNIEVSLYNGQKTKAEL
+IGADPLTDLAVLKIDGEYGDNLLEIGDSGALRAGEQVIAIGNPLGLDLSRTVTQGIVSAV
+DRTISVPTSAGESELNVIQTDAAINPGNSGGALINSNGELVGINSLKISTSGVEGLGFAI
+PSKDFLPIVNEIIETGKVERPYIGIGMTSLADVPRNYLPDLPNEVTAGVIVANLDETSAA
+AKAGIKAGDVITELNGQAVETPADLRRLLYSDLKVGDEIGLTIYRGAEQMNVTLTLTSNA
+MIN
+>tr|A6CTI8|A6CTI8_9BACI
+MQDFDYIEMKIPAKPEYVGVIRLTLSGIASRMGFTYDAIEDLKIATSEAITNAVQHAYKD
+ETGEIIVGFALYEERLEVMVADNGESFDFKKTREEVGPYDAENSVEFLREGGLGLYLIES
+LMDEVKVHHQEGVTVFMTKFLEGEQVEKDAETIST
+>tr|A6CU10|A6CU10_9BACI
+MYSNSCKEGKKLTRNKVEICGVDTSKLPVLKNEEMRKLFREMQAGDISAREKLVNGNLRL
+VLSVIQRFNNRGEYVDDLFQVGCIGLMKSIDNFDLGQNVRFSTYAVPMIIGEIRRYLRDN
+NPIRVSRSLRDIAYKALQVREKLMGETSKEPTAEEIAKVLDVPHEDIVFAMDAIQDPVSL
+FEPIYNDGGDPIFVMDQLSDERNRDHTWIEEIALQEGMRRLNDREKM
+>tr|A6CPJ5|A6CPJ5_9BACI
+MKLLLLGGSSFVGKHIAQTALSKGHEVTLFNRGKTNPHLFPQAEKLIGDRGQGDLTALEK
+GDWDVVIDTSGYTPGKVEQSAALLKGRINRYIFISSISVYKEFLTGEAKEGDETGTLENE
+GVEEVNGETYGPLKALCEQKLEQILPGKVLSIRPGLIVGPDDTTDRFTYWVQRFSEGGEV
+LVPGSKERAIQWIDVRDLAQWIILMAEEGEAGIYNATGPRQGYSMKEFVEDLSLIAPQDT
+EATWVEDSFLVERDVTPFVQLPLWIPVNDEYPDGFILADYSSALKKGLVLRNPRETIEDT
+LGWNKARGSVDLKAGLTREEEAVLLSSWAVVGKSKN
+>tr|A6CNL3|A6CNL3_9BACI
+MFKKIASDALGLSDIGKIIKREDFDKTLSDDYVLHEDGEKIHFLIKSKTDEYCFTNRALI
+HLDGEKAASSKRNLYRYEYYQNPISNVSIETAGTIDLDLEIKFTLGGKPVSVDIDKKEGE
+AIADLYKSLLAISHSQEEGKRKFESAEKSLSFAKDLIHSNRFHDNDISNEFKETTNFAYD
+WLNEHYQSNTKKDFGDIFDRYIQN
+>tr|A6CI09|A6CI09_9BACI
+MYGVIAVFDKETDEAIREVWQELHEKSISFYAHEVMDRIPHITLGSYEKIDERSFIERMD
+EVYSREKPIDIHFTSLGSFLKSGALYLPPVMTEELKGLHSRHYLAFTQWNNCASTLYMPD
+KWIPHCTLANRLSQEKLSEAFLYCLNRLDNISGEITDIALIKVQGDTAPVIHRVRLK
+>tr|A6CI15|A6CI15_9BACI
+MDKSNRNLLLEEIMKEYGDELVRLAYSYVKDADIAKDITQNSFVKCYKKLDSFRGDSKIK
+TWLYRITINECKDHLKSWNHKKVQVLDYIQENTKSQLPSAETTVLKEAKNQQIKNIVLSL
+PKKYREVIHLYYFESLNIEEVAEVTDLAVNTVKTRLRRAKQRLKIKLEEADVYER
+>tr|A6CQQ0|A6CQQ0_9BACI
+MLETLFEKLENGWEEMVEIRRYLHQHPEVSFKEVKTSQFIADFYRQLEIDVNPGVGGNGV
+IARIDGARPGKTIALRADFDALPIHDEKEVPYRSTIDGVMHACGHDGHTATLLVLAKAMN
+ELKAELPGTYVFIHQHAEEYAPGGAKPMVEAGCLDGVDAVFGTHLWATEPLGKIQYRTGP
+IMAAADRFEITIQGAGGHGAQPHKTKDSIVAASQLVGTLQQIVSRRVNPIEPAVVTIGSF
+VAENAFNVIADTAKLGGTVRTFSEDTRDFIINEMERIIKGTCLSADCSYTFHYDKGYPAV
+VNHKEETEHLVKAVEGINGVSAIEECDMQMGGEDFAYYLQKVPGTFFFTGAQPEGVEHPY
+PHHHPKFDFNEKAMLTAARVLAKAAITYSQ
+>tr|A6CR96|A6CR96_9BACI
+MKKQILVIHTGGTISMMEDADTGAVKPGEENPLSAHSSSLEHLADITVREAFHLPSPHIT
+PEHMLQLKQLMEEEYNKEKFQGVVITHGTDTLEETAYFLDLTVDLPVSIVVTGAMRSSNE
+IGADGLYNLLSSIKVASNENSVDKGVLVVLNDEIHSAKNVTKTHTSNVSTFQSPQYGPIG
+IVTKRGVIFHHKPTTVEKYSVKSVAKKIALIKAHAGMDSALLSALKELQFEGVIIEALGQ
+GNIPPAAVNGIETLINENIPVVLVSRCFNGIAQDIYGYAGGGKQLKEMGVIFSNGLNGQK
+ARLKLLVALSTSSSPGLKELEEIFRN
+>tr|A6CUI3|A6CUI3_9BACI
+MSKIVFFDIDGTLLDHDKKLPDATKKAIRQLQENGTYVAIATGRAPFMYEGLREELGIES
+FVSFNGQYVVFENEVIYKNPLNREELVTLLEMAGENSHPVVHLNEKTMKANIHHHPFIEE
+SMGSLKFPHPDFQPDFYSDKEIYQSLLFCRDTDEALYRGKFSKFNFIRWHEYSMDVLPRG
+GSKAEGIKKMIEKLGFDISEVYAFGDGLNDIEMIEAVGTGVAMGNAVQEVKEHANLITKP
+VDEDGIYHGLKELSLI
+>tr|A6CHQ9|A6CHQ9_9BACI
+MIYLFVGLGGAAGSILRYLTGNLLLGLNPAAFPYGTLAANLAGSFLLGLLTDTWWKNKKI
+PSEISAAVGTGMIGSFTTFSAFSVETLGLLKEDHYYLAFLYFFLSTAGGLFLAWTGLHVL
+KGKGVKE
+>tr|A6CKC0|A6CKC0_9BACI
+MEVLKMANKGEQRRKQILKAAFQAASEKGYESVTLQDIADYADVSKGVTNYYFENKADVF
+AQLFQWITTRIYEKEAASIDEKETAIEKLEAYVNRVFISPEENKAFYRVYLDFLAQTKNN
+ERYKEINQQFYANCWSIGREIITQGIEENVFKADDIDQSAISIRCMIDGCLIQWLMRDDD
+SLHGYYRNVCYDSILQLLSYKK
+>tr|A6CSH1|A6CSH1_9BACI
+MEAAKKLAIGSKGLRGQITVPGDKSISHRSIMFGAVANGTTVIHNFLRADDCLSTMACFR
+KMGVEIKEEGSTVIVHGKGWDSLQEPESILDVGNSGTTARLMSGILSGRPFHSVIVGDES
+IAKRPMKRVTGPLSLFGADIDGRKNGQYTPLAIRGGELSAVDYNLTVASAQVKSAVIFAA
+LQAEGISTITEPVSTRNHTETMIGKFGGEITSENNVIKVKGGQDFHGTEVQVPADISSGA
+FFLAAAAIVPDSKLVLPGLGLNPTRTGIIKVLEEMGAKITVEMEDSHDFEPRGTVTVETS
+SLKGIDIGGDIIPSLIDEIPVIALLATQAEGRTVIRDAEELKVKETNRIDAVVSQLKILG
+ADIESTEDGMIINGKTSLRGGTVDSLGDHRIGMTLAIAALLCNEDVELKNAEAVNISYPS
+FYSDLASLG
+>tr|A6CIA4|A6CIA4_9BACI
+MVKLKIRVGVVGPEDSVTEIMKAGDHFSELNLIPYVYERTEETEGIIKRNKEFIDQWFFS
+GQAPYYFALSKGLITENDGSYTPLNGSSLLGTLLEAFVREKKILCKLSLDTLMMEEIEAV
+KDQFSLHDLSFVTNEFYGYSPADEIIQFHKRLFEDGHVEAAVTCIHSVYTALKNMGIPVY
+RVFQSELAVHRALGLIKERAQSTWYRKSQLVIVGIEAIYPSPSGRNNQMSFKIKHQELEL
+HRTLLDFVEDINGSIVQMGDGLFYLYSTRGELELYTKKHSPRTLIDECYVNSNLPIRIGI
+GFGSTVLEAEDHVRMALDKAREEKGTVIISINEDKEVSSFSENDAPQVAYHTRESGELWQ
+ERFKDADISSQIVSKIQSLSHHYHKDTLTSQDLARWLKNTERNARRILSEMERIGVARVT
+GEESTGRGRPRKVYELLLEKK
+>tr|A6CQG1|A6CQG1_9BACI
+MTNHSEFSRLIDNCLEAKIILRSGTILYANQSFIDLLGFHTLDEILGEDLFTFIHPSCHN
+DGLRRRSKVMNGEVVPFQEQKIIDAHGRIIETEVMAAPFIHTGGEILVQALIRDLSVIKK
+HEEMLRQSEKLALIGELSSGMVHEIRNPLTAMKGFLQLMKSHPKPEYIDIVLQELGQIEE
+IANELLHFSKPAEHPLTRQNILDIVREVIHFSSVELFKRHIKVDFILEDERDIEIIGCKT
+QLKQVLLNIIKNSIDAITTDGRIKVQISKDDKNVYIYICDNGVGIPKHHLNRVGNSYFTS
+KEEGTGLGMMVSFNIIKNHNGSIKFESEENQGTSFTITLPLANKVALAFSP
+>tr|A6CH99|A6CH99_9BACI
+MENNERMRVMKETSETRKATFAGGCFWCMVQPFEEMPGIIKVVSGYTGGHKANPTYREVC
+TETTGHYEAVQITYNPETFPYEKLLELYWQQIDPTDPGGQFFDRGESYTTAIFYHDEEQR
+LAAEKSKEDLEKSKKFSKPIVTKILPAKEFFEAEEYHQQYHKKNPSHYQRYSIGSGRKAF
+IQEHWGEQK
+>tr|A6CKZ0|A6CKZ0_9BACI
+MKKFVSSILVSSLLIGSFIAPLPNNNAQATNEISVVEKVNSTKEFIIGVKAGTGNIESVA
+NDVSRLGGTVLKTWGFINSLAVEMVPAKVHMLATNPHVMFINENSEVETAKSKSTSVPDS
+KLVVNAYNEAVSAEKVWSKGYTGKGVTVAVVDSGIAEGNGSDFSGRIIANQKFADTNQMS
+DFFGHGTHVAGIIGGDGSQSGGKYVGVAPGVNLVNVKISDDEGRTGEKNLVDSLQWIYEN
+HEKYNIRVVNISNQIATKQSYKESATNAAVQLLWKAGIVVVVSAGNKGGTDCSVCYAPAN
+DPHVITVGAVDDNGTKDLVDDSLKSWSASGTTLDGHSKPEVVAPGSEIVAYMPKGTIRDI
+RPGNIVDKSYFRMGGTSMSAPVVSGIVALMLQVNPDLTPDQVKWVLKNTTREYAYQPSGT
+GGMVRADAAVFFDKSQIPQNVSQNYEISPLLNPLADENGSFSNISWANISWANISWANIS
+WANISWANNFEY
+>tr|A6CMU6|A6CMU6_9BACI
+MLNITITSEAQEVLKTKIGDKKGCLKIKYETEGCGCVMSGIPVLEYVDETGFDDIKIDTG
+SMPVLVEKSKQVFYDKELKIDFSTSSKMFQLKSPGQIINGRMNFIIR
+>tr|A6CSA0|A6CSA0_9BACI
+MGFEEATPIQAGAIPLALEGKDVIGQAQTGTGKTTAFGIPMVEKIDVKNPNVQGLIIAPT
+RELAIQVSEELYKIGQDKRVNVLAVYGGQDIQRQIRAMKKNPHIIVGTPGRMLDHINRRT
+LKLGNVSTLVLDEADEMLNMGFIEDIESILKNVPDNRQTLLFSATMPGPIRKIANNFMTD
+PETVSVKSKEMTVPHIEQYFVKAHEKEKFDVLSRLLDVQSPELAIIFGRTKRRVDELARA
+LTLRGYSAEGIHGDLSQAKRMTVLRQFKEGRIDVLVATDVAARGLDISGVTHVYNFDIPQ
+DPESYVHRIGRTGRAGKEGMAMTFVTPREMGYLRIVEKTTKKSMTQMKPPTSNEALEGQQ
+RLAMEKLVETVKSNELQNYRGMAKELLEDHDSVEIVAAALRLMTKEPDDTPVQISEERPL
+PSKGNGGRGGGKRDFKKGSSSRGGKGGGRQGYSSSRGRSKNPRRKQQRES
+>tr|A6CPJ2|A6CPJ2_9BACI
+MYILRKKGVIDMAYAIITGASKGLGAATAKQLLSEGLNIITVSRSENEDLKKLAEGNSGN
+YTHYTCDLGNSSEVQTVFSDIAGTVFGQEQESVYLINNAGMVDPIETVGNLDGEKTAANV
+NVNLLAPMIICDIFLEKVQDANAKLVIANVTSGAGSRPIHGWSVYCSTKAGINMFTQTVA
+LELENRNSRHKVFAFSPGIMDTEMQSTIRSSSKSAFNDIETFRKYKEEGMLRDAETVAGA
+LVKVLKSDTIENGKIYQINALL
+>tr|A6CQE2|A6CQE2_9BACI
+MAVKNPYKTYQNNTVNTASPGELTLMLYNGCLKFIQLAKRGIEEKNIEQKNLNIQKAQNI
+VSELMVTLNMDVEVSKNIMSLYEFIHRRLVEANIKNDLNALNEAEALIVDFRDTWKQVIQ
+LDRQQKFEGKAGQV
+>tr|A6CRQ2|A6CRQ2_9BACI
+MNWTRTMRNGDSGSDVKELQIRVAGWASDTASQTYVLVDGVFGSGTEAAVKRFQKAYGLT
+VDGIAGPQTHSQLNALEGSDGSTAHFAFSEFYSKDGSGFSGGNVGASEVKENVRHLMYKL
+EALRKKLGNVPVTINSGFRSINHNRNVGGASNSMHTYGVAADIDPSGKTPSQTAAVAKTC
+GFSGIITYNTFVHVDSRIEYPYGSQFYYWA
+>tr|A6CTG0|A6CTG0_9BACI
+MEKRSITEKRKTEHIDICLSKDVEPVEMTTGFESFRFQHNALPEIDFQEIDLSTRLFDKQ
+LKVPFLISSMTGGTETAAKINETLAKTAEKRGWAMGVGSMRTAIEKEQTAYTYDVRKHAP
+TIPILANIGAVQFNYGYGVEQCQRAVDLIKADAIILHLNSMQEVFQPEGDTNFKDLLPKI
+EKVARSLPVPVGVKEVGMGISSATARRLYEAGVSFIDVAGAGGTSWIQVEAYRSKDPLRA
+KAAEAFRGWGIPTAESLLQIRRDVPEVPLFASGGMKNGVHAAKAIALGADIAGFGRSLLP
+SAAVSDGEALDGQFQQIEFELRAAMFGIGVYSIEQLKGTDSLRQV
+>tr|A6CN97|A6CN97_9BACI
+MPETKLMIRDYPTDERPRERMVQSGAASLSNQELLAIILRTGTKSESVLQLANRVLTTFE
+GLRLLKEASLEEIMNIKGIGLAKAVQIMAALEIGRRIGNLAYDDRYSIRSPEDGANYVMN
+DMRFLSQEHFVCLYLNTKNQVLHKQTIFIGSLNASIVHPREVFKEAFRRSAASIICIHNH
+PSGDPTPSREDIEVTKRLVECGKIIGIEVLDHLIIGEKKYVSLKEKGYL
+>tr|A6CNW9|A6CNW9_9BACI
+MIEALLNYEFLQNAFLTGLIIGIIAPLIGAFIVVRRLSLIADALSHVTLSGIAASLFLSK
+NVSALAGLNPLYLGMAFSVTGSLFIERLRSLYKHYQELAIPIILSGGIGIGVIFISLADG
+FNTDLFSYLFGSVSAVSRTDLYLITAVAVFVIAIIIFLYKELFLLSFDEEFAKASGISAK
+TIHFIFMVMVALVIAASMRIVGILLVSSLMTLPVAASIRVARGFKQTIGFSLLFGELAVI
+TGLISAYYLDLAPGGTIVLSAILILLLTILYKKLTSNKGLQKDGVTI
+>tr|A6CQM9|A6CQM9_9BACI
+MSENHSQTKIRKGEISLKLTVIGHWGGYPKKNEASSGYLLEEQGFKLLIDCGSGVLSFLQ
+EHIEAYELDAAILSHYHPDHTADIGVLQHALLIQKYLGKNSNTLPFYAHEEDKQGFASLT
+YKDLMRGTAYNPSEVLHIGPYTISFLKTKHPVPCYAMRIEAGGKTLVYTADSAYQDSFIS
+FAKDADIFLCECNFYGDMDGSGAGHMNSLDSGRVAKAAGVKKLVLTHLPHYGDLNKLVQE
+VAGIYKGEIILAEKDLQLNV
+>tr|A6CMZ1|A6CMZ1_9BACI
+MDKKKRRLLIRTIILIVLAAAVIYTLYANFTKDDRGVLKAGDMAPDFVLQDMEGNTHRLS
+DYRGQGVFLNFWGTWCKPCEKEMPYMENQYQAFKDRGVQILAVNVGESDFLVNKFIEEHS
+LTFPVVVDSEKDVQNAYGIKPLPATFLVNPEGKIEQIITGEMKEADIKLHMESIQPN
+>tr|A6CRS2|A6CRS2_9BACI
+MANTVLQCTTAKINEMKAYYKNNLQDKMPPGSVFTAKVSGCTITAYKSGKVLFQGGSGQE
+EAGKWGTAQAPASNKGSKPKTNPKLPANIAEMSLIGSDEVGTGDFFGPITVVAAYVKKEQ
+IPLLKELGVKDSKNLNDEKIIAIAKNLLSVIPYSLLICHNDKYNALQEKGMSQGKIKALL
+HNRAILNLLQKIAPEKPEAVLIDQFAEENTYYKYLAGQKEIHRENVLFSTKGESIHLSVA
+AASILARYAFVKEMDKLSALAGFPIPKGAGKQVDIAGAKIIRKSGADELKKITKWHFANS
+DKAQKLARG
+>tr|A6CHL2|A6CHL2_9BACI
+MEIDQDLFLIKAKEGYQKNFSILISMMNYARFTTLADLKNVSQEEVDYRYNEDFNSIAML
+LAHMIAIEKVFQKITFEEASEEEVHEYADTLEPAVGLGEEASILKGKPVDYYLDELAAVR
+RITEENFAALEDSWLYQETDFWYGNKGNNFFKWFHVFEDEINHRGQIRLIRKLYRVEKEF
+TNQR
+>tr|A6CN53|A6CN53_9BACI
+MKKRPGMRIGAAILFGFFGLLFFVLMVRFVTIQVTGEADGKVLAAQAAKKYLKSGVLEAT
+RGTIYDHKGEVIAEDTSAYTLVAILDESVSKDSEEPKHVEDPRKTAEVLASHLEVDQNTL
+YERLSKGIDKDLFQVEFGSAGRGISHQMKLQIEEENLPGVTFIKDSKRFYPNGVFSSHLI
+GFAQKEDNEDNTTEIVGKMGIEKSLNEYLSGKDGMVKYDSDKWGYILPQTEEHVTPPQNG
+NDVYLTIDKKIQTFLEETMSKVNDQYKPERMLAVVADPKTGKILAMAQRPTFHPDTREDL
+ISWQNEIVEDSYEPGSTFKSFSLAAAVEEGVFAPNAYYESGKYFVEGNPVPIRDHNGGQG
+WGSITYLEGVQRSSNVAFAKMLDEIGAERYLEYLNEFGFGQLTGIDLPNETPGKILYHYP
+IEKYTTIFGQGTTVTPLQIIQAETAIANNGKMMKPYVIEKIVDSDTKETIKQTEPEVAGT
+PISAETAKKVREYLATTVTSDDGTGQKFAIEGYDVAGKSGTAQIPDYENGGYQWGKENYL
+FSFLGMAPADDPQLIVYVAIEKPELKVTEIGSDPVSGVFNPVMLNSLKYLNIKPEESKTL
+KKAELADLTGESVEQAKKQLEESGLRPVVIGDGQTVSEQSASPGDVMLQGERVVLRTEGN
+LTIPDMKGWSVRDVLKVTKMANLELNMVGTGYVTKQNIKPDSTIKESEPLVVTFQTPEQQ
+MEEKKKESETDEVAPLN
+>tr|A6CR24|A6CR24_9BACI
+MFKITVAGLGAGELDQLPLGVYKQLKGQRKTFLRTENHPVVEQLKEEGFVYESFDYIYEK
+HDSFEQVYSEIVEVLKDKAQNNEILYGVPGHPLVAEKTVQLLIDASEQEGFVLDIIGGQS
+FLDPLFAAVKADPIEGFQLLDGTDLNLEDIKMDQHLLIGQVYDAFSASNVKLTLMELYPF
+DYMVKMVTAAGTKNELVKKIPLVELDREVELNNLTSLYVPPAREMDMRYKQFSTFRQIIA
+RLRGPGGCPWDIEQTHHSLKKYLIEETYELLEAIEEEDTDHIIEELGDVLLQIMLHAQIG
+EDEGMFSINEVIETVAEKMVRRHPHVFGDVSVENSDDVKANWETIKKAEKGEQEQPLLKG
+VAKGYPSLIKAYEYQKKAAKVGFDWELTDDAWEKVNEEIEEFRVEAAKGDKHTQTSEFGD
+LLFSLVNIARFYKIHPEEALAMANNKFFNRFAYVEQKVKESGKDFARFSLEELDQ
+>tr|A6CMN7|A6CMN7_9BACI
+MFDLLFTMLERLGIIVTIAFILTRFRFFQSMIYQDKLRGRQEVVAILFFGFFGIIGTYSG
+LAFNTDTLHFDRWAMTLNADEAIANSRVIGVVLAGLLGGYRVGLGAGIIAGLHRFTLGGF
+TDIACGIAAIAAGLISGIFFKRNKHVKLPVAFLIGALAETIQMGIILLVAKPFEKALTLV
+EMIGIPMILANGVGCALFLLIIKNVVNEEEKAGALQAQKTLRIADQTLAYLRKGMNAESA
+KAVCEILFKEIRPTAVAMTDKTSILAHTGLADDHHRAGSPLQTHITKDVIQHGKLVVAND
+ETIHCVNKDCPLGAAVIAPLKQGGETIGTLKFYFSSEKEISNVILELISGLSVLLSNQLE
+IAEADRALQYAKEAEIKALQAQISPHFLFNSMNVIGSLIRIDPAQARKLLISLSNFLRQN
+LTGTTAEITSLEQELKHVKAYLAIEEARFVDKLKVEYDIDEKSLTHMIPPLTLQPIVENA
+IKHGIKNKNENCLVKITIDKLESGVNITVEDNGQGIPEERLALLGENSLESETGTGFALY
+NINRRLTMMFGKKAALKIKSEYGEGTKISFCLPEMEESQWKK
+>tr|A6CRH0|A6CRH0_9BACI
+MNILVVDDEKDMVGLLNSYLTSNGYYVFPAGNGREAIDVMKSESIDLVLLDIMMPFMDGL
+EAAQEIRTFSDVPIIMLTAKGNEDDRVTGLKIGADDYVVKPFSPKELLARIEAALRRSKG
+YKNGNLTSQMISHEELTVDLKGHMVQVDGITVNLTRKEFLLLALLMQNQGQVFSREQLLD
+QIWGFESEGTARTVDTHIKTLRLKLKAAGSYVQTVWGVGYKFN
+>tr|A6CIW3|A6CIW3_9BACI
+MTTAIITLIVLILINAFFAASELALVNLNDNKVKRLAENGDSKAKKLHNLISKPSLFLST
+IQIGITLAGFLSSAFAADFFAEPLAQKLYEVGLPLSLELLHTISVIAITVILSYFTLVFG
+ELVPKQLALQRAEQISNFAAAPISLIAKITLPVVKILTFSSNTVIRLFGIDPNEQNEEAT
+EEDIRMMVDIGRERGTINTVEKVMINNIFEFNDKIASDIITHRTDMCVLSIDADLEEVLE
+MVSKEGYTRFPVYEKVRDNIVGVLHSKDLFQYIGKDEDFDLRNVIRKPYFVLESQTIDVL
+FTTMQTNNVHIAIVLDEFGGTEGMITIEDVIEEIVGEIYSESIEEGIYEEEIKQISPNQY
+EVKGIARLWELEAVLKVHFSTEELDTLSGFLIHELGYFPSVQERPVIDYKHLQFEVLEIK
+DNRVEKAMVTVKTDDLSKEAKKSDQ
+>tr|A6CK31|A6CK31_9BACI
+MTKRYFTVGMAGHIDHGKTALVKALTNKDTDRLKEEKERGISIELGFAPLMETEDMDISV
+VDVPGHEKFIKQMIAGVAGIDLVILVVAADEGVMPQTKEHLEILSFLGVDHGIVVLSKMD
+KVDEELHNLAKEEIKEELVGTVFESSPVILADSLSGKGISEVKQTILQFLEEVPSRSITG
+DFRMPIDQVFTVKGQGTVVRGTVYEGSVKEGESLMLLPSGKETKARQIQVHHQEAHEAFG
+GQRTAINLSGLSREEAVRGNVLVKSEFFTVTDTIDVSIEMVEDLEHPVKQRMPVKLHTGT
+SETMGKIIFFDRNEVETGQEEILCQIRLDESIVVKRNDRFILRRPTPAETIGGGFIIDPN
+GSRYKFGNETIQLLEQMKNGTPLQRVEDTLLKHKSLSKSKLLQETSLSSSVLEELLENKE
+LLVLPGGVITSVEVMREIEQLMNSEFAEFHRQNPMRTGYDKARIIQFYKDRFKEPLLEHV
+IRLNLQAEKWYQSGHFLALKEFTPHVPDQWRKRSEQVLELLKNDGMKPDDLAGYLKQAGI
+PADMQLNLMQFYREQGKVVHLDDNIAFHQDVFYGAVHRLHEETDEEFALPEAKDSLGLSR
+KYLIPFLEKLDSLGYTVRIENKRKWKSSAH
+>tr|A6CLH8|A6CLH8_9BACI
+MAIAGDLPEIHKWYQEHRDMTLTTIDFYEKILKPVMERVGILWERNKITVAEEHLATASI
+DYLMTQLRYQLLHPQFKRNAPSILLFCLEGEQHSLGLKMVSDVFRENKWNVKFLGSSVPT
+EEVIKTIDKWEPDAIGISLALTPLMPKLKECINLIYELEKDIDIFVGGRVVSLYNLEEFG
+INNVHLCNDLRDIESFALNGLNKSQPVTPEGKL
+>tr|A6CM18|A6CM18_9BACI
+MAQKQFTVTADTGIHARPATLLVQTASKFDSEVHLQYKEKKVNLKSIMGVMSLGVGKGAD
+ITIITEGSDEEEALNSLEETLKKEGLAE
+>tr|A6CPL2|A6CPL2_9BACI
+MGKKSGTAGNPSLFRGGFFCILKLLFVIEHLIFTEVETMNLYDFYANLLEEYLSGDMTKE
+EILEVIETPKFTHQGDLSFPCFQLAKKKKQAPTVIASELAASLSHSYLLKAEAAGPYVNI
+FFDGKTTGTEIMKNILAQGDHYGELSFGEGKVITIDMSSPNIAKPFSMGHLRSTVIGNSI
+ALLAEKCGFETVKINYIGDWGTQFGKLITAYKKWGDEEKVKANPIPELFSLYKKFHEEAE
+ADPALNDEGRKAFKLLEDGDSEVVELWTWFKNESLKAFQEIYDLLGISFDSYHGESFYND
+KMEAAVKLIKEKGLLETSDGAEVVWLDDKGLPPSLIKKSDGATLYATRDISAALYRKKTY
+DFSQALYVVGQEQTIHFRQVFAVLEKLGMPWAEQMVHIPFGLFLQGGKKMSTRKGRVILL
+EEVLKEAIDMALANIKEKNPNLENAEETARWVGTGAVIFHDLKNDRMNDIEFSLEDMLTF
+EGETGPYVQYTNARAQSILRNAAAQELNHFTGLDDHESWELIKILNKYPEIIQEAYETYS
+PSVLAKYILAVSKAFNKYYGKTRILEENVALASRLVLVKTVKDILSDGLGLLGIKAPQQM
+>tr|A6CJW1|A6CJW1_9BACI
+MQPVGSIPERLSLLNALNSIGENIIIADLEYNVAWMNSYAAKLLTDLAPLFGLESAGEMI
+GLNMGAFHHAPSYQLKIMNELTEIHKARITIREKFAADIVITPIKNEKNEIDGYVVMLMD
+VTTKAKEEQDKEKLIKSLSVPIIKVWDRTIALPLIGHFDNDRAERMITAVLHECASNKIE
+YVLVDLSGIYELDMNIKYHIQNLCDCLSLIGSQCVIAGITPEFAKAAGELSGKNLIFSNA
+HAGLKYVIDKLK
+>tr|A6CIC1|A6CIC1_9BACI
+MGKRKYKWLVILCAGFVIFMLAGSLVFNFGFNGEIPQTVLTYDKSGKLTGGAPFEPSAEF
+PFGTDREGYDMFFKVLQGAQYTLGAAIVISVLSFVIAFLVGIAGGFINTTSKYITQTVFT
+SFYFIPQSIIAYNVLYPLLWEPPQGFETTFAERVLWQSITLAVITVPTTAILIANETREI
+LQKEFILSARVLGGSPFFLFRKHLLPHLKVRLFIIFPKIIIQVLLIIAHLGFFKLFYGGT
+DVCYGPFCDPPKPFVQEWASLMAMNYRSIFNDWWIFMVPMFFFSLTILSLNGITKGLEGL
+SAEENKWEPAIDEVDKSDNAETVNRKSNEEDFHLSS
+>tr|A6CT88|A6CT88_9BACI
+MPKGEGKLIAQNKKARHDFTIEETYEAGLVLQGTEIKAIRAGRVNLKDSFARIQQGEVFV
+HNMHISPYEQGNRYNHEPLRTRKLLLHKKQIATLIGETKEAGYSLVPLKLYIKNGVAKLL
+IGLAKGKKKYDKREDLKRKDANRTIQRELAQRQKGNY
+>tr|A6CKK4|A6CKK4_9BACI
+MDKLHELHEEAVQDTKRKIKEDIFRFMETKETAPSFNDYLSERIHYIEQLWVNVWLNKVT
+NFVSRSEKKAFLRDRDYEVEGVDKKIINQVFRNEMRGYQPFDVIPWLQGLSESKAEQWEE
+RYKLAREGYLLRLEQDKIEVEQKSVKFEITKALESTFHSVKQDWYLPVRYAVAQKLASDF
+KEKVRYRHVDTFMLEEQLEEIGPFYPDEFGTLSEFFHELNGLIHRTMHRGRSYWEYETYF
+YVYEEFVSNYVLKTFPKLLLKRVSEEHLTKYQKAFEDELTSDELRKWLQHEFLDAALVYT
+DYLQEEYVEDLLNLAQIPFEEEAHKAIYHEDVSRREERKAAELAELERKRQEEDRMMNDI
+FGREYSVSLGGNTRYVLHIGETNTGKTHQALESMREAGSGIYLAPLRLLALEVYDRLNNE
+GVPCNLKTGEEEKTVPGANHVACTVEMFYEKEEFDVVVIDEAQMMADKDRGFSWYKAITK
+ARAREVHIIGSRNVKPMLLGLLENCDVEINEYNRDIPLQVEEREFSLKHAKRGDALVCFS
+RRRVLETASKLQNNGHSVSMIYGSMPPETRKKQMQRFIKGETRVIVATDAIGMGLNLPIR
+RIVFLENDKFDGTRRRILTSQEVKQIAGRAGRKGIYDVGKVAFTKDIKKMSKLLDQEDEP
+VQSFAIAPTNSIFERFQKYYHDLGRFFELWEKFESPFGTQKASLSEERELYELVRGTEIE
+GRLSMMDLYGFLHLPFSKKEPELTSQWLETMDAIISGTELPEPKLKRKNLEQQEVAYKAV
+GLHLLFLYRLGRGTEAIYWERLREDIADGVHESLNTEVSSMTLKCKQCGKRLPAGFRFPI
+CDSCHYARVRKRGRGNRG
+>tr|A6CL73|A6CL73_9BACI
+MNNGADVEPEYPACKEEWLEGLMNMYGENLTKLAYNYVKDWKLAEDIVQDVFVTCYHHFE
+KIEEINSIKSCIYRISINKSKDVLRSSAYRKTIVGSSFFSLFKASEPSPEMRMIKRSEEE
+RLSLSVLDLPVKYREIIILYYYEELSVEKICEILNMNPNTVKTRLNRGRAKLKNSMERRD
+SE
+>tr|A6CRL2|A6CRL2_9BACI
+MNELMKRIEKLEYQQRLLLEMIPATGHDFNRLVISKGLSENDVKEFFDLCEKLNKHSQEQ
+KAEGFVFFAPLFKEFTDKLDARLTPEEVIEACIAQRLFPFLMEQLKRNL
+>tr|A6CKK6|A6CKK6_9BACI
+MKMSHEERIQLHEFNNLTKSLSFNMYDICFTKTREEREAYIEYIDEQYNADRLTKILSNV
+SDIIGAHVLNIAKQDYVPQGASVTILVSEGPIVEVPNEHFDESPGPLPSAVTMQLDKSHI
+TVHTYPEYHPHEGISTFRADIDVSTCGEISPLKALNYLIHSFETDVMTMDYRVRGFTRDI
+SGRKLFIDHNINSIQNYIPEEIKEEYDMIDVNVYPQNIFHTKCKLKEFDINNYLFGYTKE
+KLEDEEVKEITDKLKLEMDEIFYGKNIPGSPNQ
+>tr|A6CL57|A6CL57_9BACI
+MNSLFKLSDKQILEIYERSVEQNVVEDFIEMVKQELNRRGLLSA
+>tr|A6CPT4|A6CPT4_9BACI
+MAILPIVTYPNEILEIECRKVTEFDKKLRKFLDDMYDTMIAADGVGLAAPQVGKDIAVAI
+VDIGDETGTIEMVNPEVLEVRGEQIDLEGCLSFPNLYGEVSRPEYVKVTFQDRKGRKLLV
+EAEGFLARAILHEIDHLHGVLFTSKVIRYIEADELERYESE
+>tr|A6CU61|A6CU61_9BACI
+MNLHNGNLYWPATYKHTETHDGSLPADGSYDVVIVGAGMSGALCAYTLVEAGMKVAMVDK
+RTAGAGSSSANTGLLQFSNDIMLHELIEQIGEHPGVRFYKLCLEALDHLESTAHSLPLDA
+HFARRKSVCFASKEEHAEKLRHEYETLLHHGFPVEFWTTEELQKHLPFTKSAALITGKDA
+EVNPYRFVMGIIQYLREHGVDIFEHTEVNRTEENQEEVVLHTSRGSLSADHVIFCTGYEA
+SGTGKNIGATINRSYAIATEPIEDLSSWWERALIWETNRPYFYLRTTNDNRIVAGGLDED
+LPEAPQSQEVIDKHGKRIGSEIKSLFPGLEIDISHAWGASFGESLDNLPYIGFAPGKKRT
+LYLLGYGGNGTVYSMLGSLILRDLILGEPNGDAEIVKLDRQYFNTLKH
+>tr|A6CL88|A6CL88_9BACI
+MELNDVIHGHRSIREYEDREVSQELLDQILNAGIRASSSGNMQSYSIIVTRDKEIKGKLY
+DAHMEQSMVVDAPVLLTFCADFNRMRKWLDLKEAPVHFDNFMSFMIGAIDATLASQNCAL
+AAENAGLGICYMGSTLANCDRIGELLNLPPNVVPVVGYSLGYPAENPAPRDRLPKQGLVH
+YEQYHDYSDEDILDIYRDRDKNGWNRYMENPKLKEMTEQLGLKNLAQIYTIAKYTKESHH
+EFSQTVLNYLDKQNFMNNG
+>tr|A6CPZ3|A6CPZ3_9BACI
+MKLLSFKVNEEEKYGVVKESGKTIWNLTELEKEYDGKSQLPGSLLQVIQGEQGAFQRLED
+LKQFGSSLEDSSEFLYDWKDVTLLSPITKPEKNIMCVGKNYREHAIEMGSEADIPEHIMI
+FTKAPTSVTGSSGVVYSHSALTSQLDYEGELAVIIGRKGINIQEDEARDYIFGYTILNDI
+TARDLQKKHKQFFLGKSLDTTCPMGPYIVTADEIPAPESLSIKTVVNGEVRQDASVSDMI
+FPIGKIIAELSAGMTLEPGDIIATGTPAGVGKGFHPPRFLKSGDRIEISIEKIGTLINTI
+Q
+>tr|A6CNH1|A6CNH1_9BACI
+MNSIKVCVVDDNRELVSLLEEYISSQNDMEVVGVAHNGQECLELLDEVEPDVIVLDIIMP
+HLDGLAVLERIRERSVIPNVIMLTAFGQEDVTKKAVDLGASYFILKPFDMENLVSHIRQV
+SGKSNPIFKKSSLHSRSAAESKPKNLDASITSIIHEIGVPAHIKGYLYLREAISMVYKDI
+ELLGSITKVLYPDIAKKFNTTASRVERAIRHAIEVAWSRGNIDSISSLFGYTVSMTKAKP
+TNSEFIAMVADKLRLEHKAS
+>tr|A6CJU0|A6CJU0_9BACI
+MEWALVMEYFWVLLLLIGIEGLLAADNALVLAIMVKHLPEEKRKKALFYGLAGAFVFRFG
+SLFAISFLVNVWQVQAIGALYLLFIAANHIFRKLMLKKQQGDKEGSENKKKPSGFWATVI
+KVELADIAFAVDSILAAVALAVVLPDTSLPQIGGLDGGKFLVIFAGGLIGLIIMRFAADF
+FVKLLHKKPGLEIAAFMIVGWVGVKLAVYTLSHPELGVLSESFAKSPQWKFSFYAVLLLI
+AAGGWFFSKEKELPDTSAYKERSSEV
+>tr|A6CHC6|A6CHC6_9BACI
+MDNDQQQTNNESKENNSSGFIKIRKFQFVMLIFFLVFATAGITTFALAFGDEKAVNVGVP
+ERSEFQKLFEAYDALNNEYYKDLEQDDLVNGAINGMLESLEDPYSDYMNEEEAKRFEESI
+TSSFEGIGAEIQEKDGHIMIVSPIKGSPAEKAGLRPNDKILEVDGESIQGLSVTDAVLKI
+RGEKGTKVTLTIQRPGADETTEVTITRDEIPLETVYSEMLDNGIAKVQITSFSDDTYTEL
+TKALDEMQAEGMKGLIIDVRQNPGGLLDQAIKISSLFVPEGDVLLQVEDNEGNKEKIVAE
+GGQKVDVPVTVLIDKGSASASEILAAAVSESAEIPLIGVNSFGKGTVQTSESFTDGSNMK
+FTTAKWLTPDGTWIHEKGIKPDYDVSLPAYAELPYINPDKELKESDLSDQVKAAEEMLKA
+GGYNPGKADGFYDEQTTEAVRAFQEEEGLEVTGNLNSESILKLMENMRTLIETNDTQVNK
+AVEVLTDELQ
+>tr|A6CT23|A6CT23_9BACI
+MIYFLMVDRFNNGDLSNDYEVDRDDPKAYHGGDFQGIIDKLDYIKDMGFTTIWLTPVFDN
+QEKGYHGYWIKDFYNTDEHFGSIEKFKELVDEAHERDMKIVLDFIVNHVGPDHEWLNDPE
+KADWFHEKQPMNMNNDESLQNAWLYDLPDLNTENQEVREYLLDAARWWITETGIDGYRLD
+TVRHVPQDFWADFSEAVKSEKENFYLLGEVFDYDPRNIAKYEGVGIDGFADFPQAQEMRH
+VFQQPDVDMDRLFNFWQYNQTFFENPYLMGTFIDNHDMVRFTNLVTQNNQFPGTRWKLPL
+AYMYTVPGLPILYYGSEIALSGGEDPDNRKLMNFRTDQELIQYITKLGEIRKTHPALTRG
+SMELLYEEDGMAVYKREDENETIVVAINNTSKSQSVKLTSPQLPEDMELRGLLGEDLVRA
+DGDTYDIILDREKAEIYILSPKSGLNYGFIGAMAAVYTIFLIFIYYVWKKGRKKRKSE
+>tr|A6CSN9|A6CSN9_9BACI
+MEQALVEKVRSGSDHAFRILIEKYKHHVFRTVYGILRNQKDAEDVSQEVFVKIYTSLPQY
+ENQGLKTWITRIAVNHAIDCKRKAARRNEEMSDNPADLAKENMQRGDLLSVEAKLEEKQL
+RLLVRRRLGEMPENHRRVIHDYYIEEKSYQKMAEEQQVEVKTIETKLYRARRWMKTHWKE
+EDFR
+>tr|A6CPP9|A6CPP9_9BACI
+MFNYLAKQVREGINIMSIKSQILKGILEGCILAVIEESPTYGYELYVKLATKGMDSVSEG
+SIYPILLRLQKEGLIKGKMQKSASGPNRKYYSLTEEGKAALEVFSSEWAKLGTAIDLILK
+GGEKDDGQRNDRDK
+>tr|A6CRG9|A6CRG9_9BACI
+MGLRQKIWLTIAVVSGITVLITIGLTFYLYEKLYVDKQKELLLLQGSSLKEAYLQEQGQD
+QFLDLIEWTKKSSEADIIFTENPMELSASLPYGDMDRSTLITFEERQQLLNGETVTMVRQ
+HPVFQQDILAVAIPLLEGEALSGAIFLYMPLEDVYAPFESIRYVLALLLVIILLTVIWAG
+RKVASQMIQPLKKMELISTRMAAGDFTKRIQVSSSDEIGSLAHSFNRLAGSLEEVENSRR
+EFLQNVSHELRTPLSYMRGYTEAMLEGMTTSGEEREKYLRIIHNETARLTRLVNDLLDLA
+QLEGESYPMRKEPIPFAQLVMDVTERFKFHAEQKHIHLGLQLDEEVIIEGDADRLEQVIS
+NLLDNAIRYTPEAGEVMMELKQNDHLAVLTVKDTGCGIPEEDLENIMDRFYRVHKPRTRN
+EGGFGLGLAIVKQIVWKHGGTIDVQSQPGKGTSISLTFHSFSFESQ
+>tr|A6CUA3|A6CUA3_9BACI
+MSKEQIIDAIKEMSVLELNDLVKAIEEEFGVTAAAPVAMGAAAGGDAAAEKLNSTLFLRA
+LVLKKSKLSKLFAKSQALVLKKRKNLLITLQKLLKKAFLKTKLKSLKLSLKKLELA
+>tr|A6CHU1|A6CHU1_9BACI
+MKQTEKATFAGGCFWCMVKPFDQMPGIESVISGYSGGHVENPTYEDVKKGDSGHYEVVQI
+TFDPSLFSYKQLLDLYWPQIDPTDDGGQFQDRGDSYRTAIFYHNEDQRELAEESKKEIAE
+SGRFKKPIVTKILPAVTFYPAEEYHQDFYKKSPEEYKEDRAKSGRDEFIEKHWDQ
+>tr|A6CTT7|A6CTT7_9BACI
+MSHFGQNLKLLREERNISQEELAMRARLGRTTIEKYESGSQIPDTPTILKLSTVLDVPAS
+EMLERESLESHQQGVDQEIQQLISEMGTKKAKLILRKAKEFSEEDFLRVMQMLYEIKYGP
+TVE
+>tr|A6CI48|A6CI48_9BACI
+MREILIGILASMFFAVTFILNRSMELSGGSWLWSSSLRFFFMVPFLFLIVLARKNLKQLF
+VEMFRYPWQWLGWSFVGFVLFYAPLTYAAAYGPGWLVAGTWQLTIVAGVLLGPLFFETRQ
+TEVGAIMVRQRVPMKALLISLLILSGVILIQMQEANGITIQMLVVGILPVLLASIAYPLG
+NRKMMEVCGGRLDTFQRVLGMTLATIPFWLIIGAVGLVEAGVPETDQILQSFIVAICSGV
+IATTLFFIATDKARGSQTKLAAVEATQSTQVLFVIIGEFLLLSAPFPNGVAMAGLFIIVL
+GMLLHSFYSRKIEVKAKGDMLVSARGKGMKM
+>tr|A6CNQ5|A6CNQ5_9BACI
+MGRTELLEQIEEHRNQMVELALQSSFANEKVVEISSKLDHLLNTFHQRTQKQ
+>tr|A6CQ64|A6CQ64_9BACI
+MAKRKRRRSEKSSNIKQTIKYELIGMLMIALSLIAIIQLGAVGKAFVHFFRFFLGEWYML
+AFVGMLVTAGYMMIKRELPNFFSRRLAGLYIILISTLLLSHVKLFELLSNDGAFQNPSVI
+ANTWELYWMEVRGESSTSDLGGGIVGSILYAVSFFLFDSAGTKILCMALIAIGLVLITGK
+SFGTALGKMGNASTEFISNQWTAFSEDMKEWKEERLEKKEEKQQKKKEKVKEKAEVESME
+VPAEEAKVEPIISSFNERAYPAETVPAGGEAESLPPSPDGVENKDGDTPTPSAGDDEAPP
+ITFTEVENKDYTLPPISILARPSQTDQSNEYQLIHANAAKLERTFQSFGVKAKVTQVHLG
+PAVTKYEVHPDTGVKVSKIVNLSDDLALALAAKDIRIEAPIPGKSAIGIEVPNSEVAMVS
+LREVLESKSNDKPNSKLLIGLGRDITGEAVLAELNKMPHLLVAGATGSGKSVCINGIITS
+ILMRAKPHEVKLMMIDPKMVELNVYNGVPHLLAPVVTDAKKASQALKKVVSEMERRYELF
+SHTGTRNIEGYNDHIKRHNQENEEKQPELPYIVVIVDELADLMMVASSDVEDAITRLAQM
+ARAAGIHLIIATQRPSVDVITGVIKANIPSRIAFAVSSQTDSRTILDSGGAEKLLGRGDM
+LFIPVGASKPTRVQGAFLSDEEVEEVVDYVIGQQRAQYQEEMIPDEVPEGDSSASVDDDL
+YDEAVQLIAEMQTASVSMLQRRFRVGYTRAARLIDAMEERGVVGPYEGSKPRAVLIGKPS
+EEHSS
+>tr|A6CP31|A6CP31_9BACI
+MINFAVVGVGHIAKKHIEAVNNVEGARLVAVCDTNEERLNLPEYHGYKKYTDLNQMLTEN
+EDIHVVNICVPSGLHAPLTKIVTSFKRHVIVEKPMVLKLEDGESMIQDAKENGVKLAVVH
+PNRFRPAIQALKEAVKTNKFGTLSHANATVRWNRNQAYYDQAPWRGTKEFDGGVLMNQAI
+HDLDLLLWLMGPVKSVQAMAATRLRKIETEDVAVATVQFESGALGVIEAATTIYPTNLEE
+SLAIFGETGSAKVGGKTANLIEHWDFEAVTEEETNTLTGQIKKDPFGTPGHQCIIEDMIR
+AINEDREPIVSGADGMAPVKLIHAILESAETGKRIDL
+>tr|A6CN14|A6CN14_9BACI
+MHTEEKFTPKTWPAAPEKATLEAKNKFLGFWFFLGGETVLFGSLFATYLALKDSVPSPDH
+ALAKDIFDLPLAFIATMLLLTSSLTSVYAMYHMKNYNFKNMQAWLLITVLLGAAFLALEI
+YEFNHYVHEYHHTFTSSAFGSAFYTLVGFHGAHVAFGLLWIISLMVRNAKRGLSLYNAPK
+FYVASLYWHFIDVVWVFIFTVVYLMGMVG
+>tr|A6CRS9|A6CRS9_9BACI
+MKRDKPKYKQIIDAAVVVIAENGYHQAQVSKIAKQAGVADGTIYLYFKNKEDILISLFRE
+KMGMFVEKIEEVIAGKRTAAEKLLVMIENHCKILSEDHHLAIVTQLELRQSNKDIRLKIN
+EVLKGYLSMIDRILAEGIKSGEFSPGLDIRLARQMIFGTIDEMLTNWVMNEQKYDLSAQV
+PAIHKLLLNGCGSGN
+>tr|A6CJT1|A6CJT1_9BACI
+MNSFKQLKDMDRNVWIRFVGEAINGIAFMMLMPFFALYLKDKVDSLWLVGVVMAVAPVAS
+VFGTLLGGKLADLYGRKPIMVISMLGNSIVMLGFVFFDTFIAFIFLSAFLGFFNSLFHPA
+ASAMVADVTAPDKRTEAFGLLRLGHNLGAAIGPLIGASIIVFSKAIIFLIAAGSVFLYAI
+MVALFIYESLPKRDRDESLDEANQEKEDLPSPLQVLFRDKVLLIFVMTGVVISMSFSQTE
+GMLPLHFDAELQHIPVEKNPFPYLMAFNGLLVVLFQFPISSWAGTRKIGSVMLLGAFLFG
+LGQIAIGWLPSLFYDQQSEYLTIMIILLLVYGIYTLGEMLISPVQMTFISNIAPDHLRGT
+YMGASGLQWILGGAVGPLISGYLLDRSLGNVMFTTLGIGCMAAGVVYLMIDRMISRSQKP
+SIKMGTKEETV
+>tr|A6CNY2|A6CNY2_9BACI
+MMKDIILTVHSKFEDKFRKGYPLISKEALASTAGLEEEGSIIKLVDGRKQFIARGYYGKQ
+NKGLGWILSWKEEERIDQGFFERKLKNAINQRLHFFQSEDTTAFRVFNGEGDGIGGMTID
+YFDGYYLINWYSEGVYQFKNDIILSLQQLADIKGVYQKKRFAQSGKYIEEDDFVTGERAE
+FPLIVKENGVNFAVYLNEGAMVGVFLDQREVRKLIRDKYAEGKTVLNTFSYTGAFSVFAA
+VGGAAKTTSVDLANRSEAKTIEQFSINGIDYEGQDIIVMDVFNYFKYAVKKQLKFDMVVL
+DPPSFARSKKHTFSAAKDYTDLLKQTIAITEKNGGIVASTNASNFDMKKFKGFIDKAFKD
+SNCSYKLMEEFSLPDDFRTISQFKQGDYLKVVFIKKTG
+>tr|A6CQB2|A6CQB2_9BACI
+MKQTKVLVVDDSAFMRKLITDFLSSSEHLEVVATARNGKDALEKIEKFKPDVVTLDVEMP
+VMNGIEALKAIMEKSPLPVIMLSSTTKEGAENTILAMNYGAIDFIAKPSGAISLDLHKVK
+EELVAKVLNAGRVSIRQIKKANEIKPQIFYTDNGNRSQKGSSLVSWNRVSKKIICIGTST
+GGPRALQQVVTALPSEIQAPILIVQHMPPGFTKSLANRLNTLSDIAVKEAEDGELLKKGT
+AYIAPGGFHLKVEEKRGDLFVVLDEHELPRAGHRPAVDVMFESVSQLKNYDKIAVIMTGM
+GSDGSKGLVKLKGSGKVKAIAESEESCIVFGMPKAAISTNLVDEIQSIENIAGCIMKYMP
+REV
+>tr|A6CKR1|A6CKR1_9BACI
+MIHFQDIVTPVDCMVTEETTLKEAVEIIKQKKWNLLPVTDNQGDLQGIFTRSGLFQMILE
+STPLDTPIKSYIKKETQTIRIDTPYHEIEQIVKTSKAGTGVVLDEHGKVIGLLTKTEMVM
+TLLKSASTLKDQLETILTHSNIGVLMTDEHLRVIYANASFSKITGHPINSIYSKDLNETF
+PSLPMETHGPYHSEEYKSILHMSAYETVTHKQGKIILFQDISEIEKMAEELQTIKKLKLT
+IETALDHAYDGILMTDEHNVIKMVSPPLLELFNLDKKDVLHKKVDIVMPQLKLDQVFKTE
+AAEVSDLHERNGIKYIVHRIPIKKEGKVIGAIGKVMFRQLNEVSALFKRLQKAESKASFY
+HQQLQKSETARFTWDHILSKHPYMDKLKKSAAKAAKGRSTVLIRGESGTGKELFAHAIHN
+SSARSDGKFVIVNCAAIPEDLLESEFFGYDEGAFTGAKQRGKVGKFDLANGGTLFLDEIG
+DMSVALQAKLLRVLQEREFYRVGGNSRIKVDVRIIAATNRDLEKMVKEGEFREDLYYRLN
+VISLKIPPLRERIHDVEYLTSQLMIELNSMLGTSITGISPKAKESLLQYNWPGNVRELKN
+ILERAMTFAEHGNIQVEDLPDYLIDQLTIPKKEKNGLAEDAELEAIRKALTQANGNKAQA
+ARLLGISRSGLYEKLKKYELSAKGS
+>tr|A6CQI3|A6CQI3_9BACI
+MKVVQNIADLIGDTPLVKLNRLNPEGGADIYVKLEFYNPSKSVKDRAAFQMILEAEKAGL
+LKEGSTIIEPTSGNTGIGLAMNAAARGYRSILVMPDTMTQERINLLKAYGAEVVLTPGDE
+KMPGAIQKAKELTAEIENSFMPMQFENESNPNAHRKTTAVEIIEAMDELGKPLSAFVATA
+GTGGTITGTGEVLKEHYNDIEVHVVEPAGSPVLSGGQPGKHKLVGTSPGFIPEILNQDVY
+DEIHKIEDEDAYDIARRMASEEGILVGPSSGAACYAAIQVAKKLSPDDVVVCIACDTGER
+YLSSDLFRF
+>tr|A6CH89|A6CH89_9BACI
+MCGRFTLTVPYEELIEQFLIDEVVDEWGPRFNVAPSQMVLSMISNKGKRRAGPIQWGLVP
+YWVKDPRKWKPLINARSESLEEKSSFKHLLNKKRTAILADSFFEWERINGKKQPYRFMLK
+DKEPFAFAGLWDRQDNDESSVVSSTIITTEANELVSPVHGRMPVILKGEESINRWLSTGE
+YTFSDVKDLLQPFPAELMTKYKVSQEVNSPRNDFQACVEPLENLS
+>tr|A6CRV4|A6CRV4_9BACI
+MKDYQGYLIDLDGTMYRGTEKIEEAGDFVNRLIQKGLPYLFVTNNSSATPEKVAAKLRDF
+DIPAEPDQVFTTSMATANFIAERKQGATAYVIGEEGIRSALEEKGLRIVDEKPDFVVVGI
+DRSINYEKLALACLGVRNGATFISTNGDIAIPTERGLLPGNGSLTSVITVSTQTQPIFIG
+KPESIIMEQAQEVLGVPKEKTLMVGDNYDTDILAGINAGLDTLLVHTGVTTKEILSEKEI
+QPTYTINSLDEWEV
+>tr|A6CI69|A6CI69_9BACI
+MKKWAFVSDFDGTISDRDYYDLILENHYNEGEQLYKQWKKGEMKDIEFLREVFKNINEDE
+ENIIDEIRTLPIDEYSMDFIKKVQQNGGDFYILSAGTDYYIDHLLDHYGIEDVKVFSNEG
+YYENQGIHLNLDESHPHYHDRYGIDKSKVIQDLQNEYETVHFIGDSEPDTHPAQHADIVF
+AKKALQEMLREKNVDFVPVKTFKEVEDYLRKEGYVV
+>tr|A6CJW9|A6CJW9_9BACI
+MKMIGMIGGMSWESSAEYYRIINEMINDQLGGLHSAKCLLYSVDFTEIERYQSTGEWGRA
+ADVLGEAASSLEKAGADFIILCTNTMHKVIDLISEHISIPVLHIADAAAVHIRSQGIKSV
+GLLGTRYTMEQDFYKERLRMNGIEVVVPDGKEREKINTIIFDELCVGRIEGESREYMKDI
+IESLQTKGAEGIVLGCTEIGLLIKEKDCNVPVFDTALIHAEEAVKKALQID
+>tr|A6CHI1|A6CHI1_9BACI
+MENNIEVLKGKVERLEREVELYRGMLNDFPLSFTYSDPLSGKIIVNSKAGFSLIDETAKE
+KGSTDKSGIDIPFEQVENFLTPIFDLVHHHIVFINSEGRITLCNIQAANDLGVERDQIVG
+RHIRELLGLPDSKINLLETLRTEKPIVNREVLDKNYGINNTHIIRNSNGELLRVVGTFQF
+LNGIKEAEKRGLAGRIAAGIAHEIRNPLTTVRGFLQIMDTKADQETGSLIKSLLIPEIDR
+ANKIITDFLRIAKPLEASMEKVEVESFLTEYIGKFLNSEALLYNITFTCTISEDAKGCFI
+DGNKEELLQVFINLFTNSYQAKEGPLEIMIDVVKKDTNIEIHFKDNGSGIKPSMIPHVFD
+PFFTTKDDGTGLGLSVSKKIIENHGGDMTVSSNREGTTFSIILPIVGI
+>tr|A6CQR7|A6CQR7_9BACI
+MKQGLFITVEGPEGAGKSTIIKKMADELTEKGHEVILTREPGGITIAEEIREVILDPKNT
+AMDERTEALLYAAARRQHLAEKVIPSLDKGSIVLCDRFLDSSLAYQGHARGIGMEEVYSI
+NKFAIGDTMPDITLYFDVEPEIGLERISAHKGREVNRLDLETIDFHERVREGYLMLLEKF
+PERIKKIDASASFGEVYQNALKIIEKYIDERPVR
+>tr|A6CNC7|A6CNC7_9BACI
+MHKKKEDFFLAKVRAKDIVEKFDLELVSGEEGLHRPIVTSDISRPGLEMAGYFNYYPAER
+IQLLGKTELSFLEKLDDSQRKSRMDQLCTDITPGIIISRDMPIPPELVEASNRNDVPVMR
+TPLKTTRFSSRLTNYLESKLAPTTAIHGVLVDIYGVGVLITGKSGVGKSETALELVKRGH
+RLVADDCVEIRQEDTDTLVGSSPDLIEHLLEIRGLGIINVMTLFGAGAVRSYKRITLCIN
+LELWDKSKQYDRLGLDEEK
+>tr|A6CSN3|A6CSN3_9BACI
+MTMDLKQWFEKGRTPQEYIDSMETHQENFKKVYQHFSIPENEKGNLEELASQKLNVIVLS
+EDWCGDAMVNLPILLKVAEAADMKVRILNRDENLELMDQYLTNGTSRSIPIFIFLDKSFD
+EQAVWGPRAPVIQQIVDEEKAKLPPRDHESFPAAQKEMIGRLTAQYRDNETIWLEIFQSI
+KTTLMNQVQM
+>tr|A6CLJ4|A6CLJ4_9BACI
+MKYKITRDYIDLGNSRSGETLGDVQFIVSHDTGNPGSTAYGNRNYFANSDPAASAHTFID
+DQYILEIIPLSEKAWHVRYNTGTDNRLFGADANDHAIGVELCWGGNINFTQAYDRYVWYH
+AYLIDKYGVNPREDIVAHSTLDPSRRTDPQNALNRYGISWEEFLEDVNNAYRTYFTNEET
+SQPAARGGSLSLPLGEGDQGALVREIQTKLVKAGFSLPRYGADGIFGQETEMAVMRFQRK
+YGLRVDGLVGMQTLGKLNEVLTNSRPVNEFPLPGGILQEGDEGNGVRQLQRALKQINFDP
+GEIDGIFGPKTMDAIRRFQETYAELKNDGIYGPNTRKYILMELEEQS
+>tr|A6CML0|A6CML0_9BACI
+MDLDFLRIVPSIPFILNGVWVTLLFVLLSGIVGFIIGTVLSLFKIGRIKVLKWFADAYTS
+IFRGTPLILQLMLIYFATPQLTGFDIPPFLAGMLAFGLNSGAYISEIIRAGIQAVDKGQQ
+EAAEALGISYRPMMKDIILPQALKNILPALMNEYITLTKESAIVSTIGFLDIMRRSQIVS
+ANTYTAFEPLIFAGLIYYVLVMCLTLLGRQLERRLRRSE
+>tr|A6CJK0|A6CJK0_9BACI
+MNNRIEKLQSWMKEQNIEAVFINSKENVFYLSNFLTDPHERLMGLFLFKEAEPLFVLPAM
+EKGQLRNTGWNNEIIGYADHENPWDLIEGAINKRNTAEAERVALEKEVLSYARGEAFLSL
+FSNAEVINAEDHLNDLRVVKDEREIEIIRRAAELADFGVQTGVDALQEGITEMEVLAKIE
+YELKKKGIRQMSFSTMVLFGEKSGEPHGNPGDRRLKPGDFVLFDLGVVLDGYCSDITRTV
+AFKSVSDKQKEIYETVLKAEKASLEASKPGNRIGDLDSIARKVITDAGYGEYFPHRIGHG
+LGINVHEFPSMSHLNDGILKEGMVYTIEPGIYLPEIGGVRIEDDVLVTANGYETLTRFPK
+ELLVIK
+>tr|A6CQG2|A6CQG2_9BACI
+MTKRTWLITLRKERKFTQQQIADKAFIDRSYYAQIEKGERKPSDDVAKKIANILEFHFSA
+FSMDENPFLFSLNNSPMILAHCDSRLKYTWIYNPHFDFDPCGVIGKTDTEIDDNEGTRAM
+ELLKQDVLNQKAPIRRKICFPLSDGSIYYDVFAQPLLNEENLIIGVATSSTQMDESI
+>tr|A6CMA8|A6CMA8_9BACI
+MLKLRLKELYKEKGVTQREVSEDLGIRQGTLSGLANNARSSWDIDILLSLLIYFEIKDIR
+ELIEYESPLEFIEQMNNNFNLNLEKKHFIDFIRERNDLNNKDSSEYLKYYINSINYSNIS
+KNNKND
+>tr|A6CMF6|A6CMF6_9BACI
+MKKQSWLSNQFFVIMFTWGIFIPYWTAWLVESKGFSIATASSLVAAGMIARSFSSFYLFP
+TLSQRFPLGKLARILTVVSSITLILFFPISSFIGMLACMILFSLVYPMLMPLVESMAAVM
+MKKDNVDYGKSRSWGSLGYTSALLLAGFLTSIFSEGAIIYMMFAGVIMILLTSLQKLPAS
+MSEPRGQEKLSYRSLLKSKKFILAMGIVIFTLGTHAAYYNYGVLYLKELNVSNIYIGVML
+NIAIIAEILFFALSDKFLKGRSISIMFMTAGSAAILRWTLLFMFPSVTVFIATQLLHAFT
+FGLTHYAFMRLIYEELESKDLPAAQGVYTALGSGLSTAVLTFVGGFLYDYAPGYAFLGMA
+IVVIPAVALGGFMYAKYERKPVVQKVLH
+>tr|A6CMN2|A6CMN2_9BACI
+MKILVVGAGAVGGYFGGRLAEKGEDVTFLVRESRRNQLEKTGLSIHSVHGNIELKPKTLV
+SGESPAPFDVIILSVKAYHLDSAMESIQPYVGAETMILPLLNGMSHVGKLVEKFGEKNVV
+GGLCFVESTLDSEGRIIQSSPIHDLVFGEVTGEKTDRILKLQDAFSGAKANFTLAENIVQ
+DMWHKYLFITTLSGVTSLFRSSIGPIRDNETGLTTIKKTLGETAAIMRSLSAPIADDIEA
+KQLEKLNSMGYDMKSSLQRDMEKDLAIEADHLYGFLLNEAAKHNIDAPTLGIIYANLKIY
+EG
+>tr|A6CL91|A6CL91_9BACI
+MTKEAVFVYSDKLLDYRFSDNHPFNQFRLKLTIDLLEEAGALNKDDIVEPRLATDEELHL
+IHDPAFVSAVKSAGSGTLPQDKAESYGIGTEDTPIFKGMHEASALMVGGTLTAVDCVMGG
+ASKHAAHFGGGLHHGFKGKASGFCIYNDSSVAIKYMQEKYGARVLYVDTDAHHGDGVQWS
+FYDDPDVCTLSIHETGRYLFPGTGNINERGHGKGYGYSFNIPLDAFTEDESWLHAYETSI
+REVIEFFKPDVILSQNGTDAHYYDPLTHLSSTMKIYQEIPRITHELAHQYCDGRWIAVGG
+GGYDIWRVVPRAWSLLWMEMSGLHKKLPPFPKPWTERWEKKAPVALPVSWDDPSGIYPEI
+PRKREITEKNSQTVEKALYQLRQQQGDNKAQ
+>tr|A6CJX6|A6CJX6_9BACI
+MEKNSIYGLTIDQLTSWIVENGEKKFRAAQIWDWLYKKRVTNFADMKNIGANCITLLEEN
+FHLGTLKEEIKQESKDGTIKFLFKLQDGNLIETVLMKFNYGYSVCVTTQVGCNIGCSFCA
+SGLLKKNRDLSSGEIVEQIMNVQLHLDSKGNDERVSHIVVMGIGEPFDNYDNLMDFLRVV
+NDQKGLSIGARHITVSTSGLANRIYDWADENIQVNLAVSLHAPNNELRTQIMKINKAYPL
+EKLMPAIDYYLEKTNRRITFEYILLQDVNDHKAEALQLAKLLKNKKHLSYVNLIPYNPVD
+EHGQYQRSTKEAIVEFYGTLLDQGINCGVRTEHGTDIDAACGQLRSKQIKKDKEKIRS
+>tr|A6CJF8|A6CJF8_9BACI
+MATLKIVCFGDSLTRGVSYVKGRLRIVKENYPNILQQLFSENNKEVSVVNKGVFNDNSEL
+LLNRLEKDVIKERPNYVIIEIGGNDCNFNWHEVAEKPWEKHQAIVPMNQYLDNLKAIITN
+IKQHDIIPVVATLPPLDPVRYYKNISEKYSPAISHWISEVGGIDYWHGLYNRNLNKLTEE
+YNILKVDVRSALKKAGNLMDFISDDGIHLTEEGYKILSQEIYRNIEKWSAEENTHLI
+>tr|A6CLI0|A6CLI0_9BACI
+MSLLNDILTFNEKFVSEKMYESYITTKFPDKRLVILTCMDTRLVELVTKAINMKNGDVKI
+VRNAGAVVSHPFGSIMRSLLLAVYELQADEVLVIGHHDCGMGGLNAEKVKASMKERGISE
+DTFETLEYSGVNLDQWLTGFSSVEESVAHSVDMIRNHPLMDGEVPVHGLVIDPSTGKLDL
+VASGYETAEK
+>tr|A6CI97|A6CI97_9BACI
+MLPESLTAIIPELNKAFFETIYMVGISLSVSILIGLPLGILLFVTDKGLFLQNSFIKKVV
+GFFVNMIRSIPFIILLVALLPLTKILTGTTIGPTAASVSLSVAGIPFFARMVETSLREID
+KGVIEASVSVGASPWMIIKDVLLPEARPALIQAVTITTISLVAFSAMAGIVGGGGVGDLA
+IRFGYYRYDNVIMVTTVVILICLVQIIQYTGDIFARLVDKR
+>tr|A6CMU1|A6CMU1_9BACI
+MNANWAGDIAKIVLPTPFAVGDVNVYLVKGEALSLIDVGPQTTEAKEVLDLSLAELGYSI
+EDIEQVILTHHHPDHAGMLDWMPDHIEIIGHPANERWLVRSEEFFEEHDRFFVNLFLQAG
+LPQEYFPFIKKLRYPLKFMGDRGLSRTIQEGDMIPGMQEWTVLDTPGHAQSHLSFWREKD
+GVMIAGDHILAEISPNPLIEPPEKEGGERPHPQLQYNQSLEKLLPLDISLAYTGHGEEIS
+GVQPLIHKRLKKQHERAMHVKELVKNDPQSLFSLCQKLFPAVYRKELGLTLSETQAQIDY
+LTARQEIVHEERDGVLYYYC
+>tr|A6CNE3|A6CNE3_9BACI
+MSEEKIYDVIIVGAGPAGMTAAVYTSRAALSTLMLERGIPGGQMANTEEVENYPGFDHIL
+GPDLSNKMFEHAKAFGAEYAYGDIKEIVDGEEYKTIKAGSKEYKARAVILSTGAEWKKLG
+VPGENELGGRGVSYCAVCDGAFFKGKDLVVVGGGDSAVEEGVYLTRFANKVTIVHRRDEL
+RAQKILQERAFNNDKVDFIWNHTVKEINDKDGKVGSVTLVSTENGEEKPFEADGVFIYIG
+MLPLTKPFRDLGITNDMGYIETNDRMETKIPGIFAAGDVREKMLRQIVTATGDGSIAAQA
+AQHYVEELAEKLAAKK
+>tr|A6CR78|A6CR78_9BACI
+MKKLNTRGFILIGMLSAVSYVLMLLNFPIPPFPSFLMVDFSDVPALIAAITLGPVAGILV
+ELLKNVLDYVMTGSETGVPIGHFANFMAGISFILPAYYIYNRIQSKKGMVTGLVAGTVVM
+SVLMSVLNYVIILPAYKYFMNFELPSTIIVTGILPFNILKGILIAVVFTLLFRRMHVWLN
+KQFAFKRA
+>tr|A6CLN3|A6CLN3_9BACI
+MNESRKIAGKIAVVYVVIGALWVIFSDRLSLIMAQNDMDVFVFFQRYKGWFFILITGILI
+YLLIYQRAAKLVESAEELRTKESQLQKSNQHYQSLFNHNPDAVFEITREGNLSALNPEGE
+AIIGATVSELKGNPLRFLIHPEDQKNVERLFNKALQGNPEKFEMKIITKFKQERLLRCSL
+LPIIVDERIIGVFGIARDITHYRENEEMMIASEKLSVIGQLAAAVAHEIRNPLTSLKGFV
+QLMQVTKKVEDSHLSIMLSEIDRINLISGEMLILGKQQDIVFAHEEVNDIIKQVLVLMEA
+QANLDNVEIKFNPDETGPIFVNADQNQLKQVLINLMKNGVEAIEGSGLVNVVTYKNESQA
+FIKINDNGVGMDQERIDHLGEPFYSTKEKGTGLGLAVCKKIIERHQGTITYHSEKGKGTT
+VIISLPLAR
+>tr|A6CMI5|A6CMI5_9BACI
+MVQNVVNKLYELLGKDKVSTSEGDMYRHSRDESSHPPVEPDVIVFPENKEEIISILEIAR
+NHDLSVTPFGAGSGLDGHAIPVSKGISMNFERMNRILSFHPEDLTVTVQPGMTRKELNKA
+INRHGLQFPVDPGADASIGGMVATNASGTTAVRYGSMRDQVLSMEVVLADGTVINTGSRA
+KKSSSGYNLNGLFVGSEGTLGIITAITLKLHGIPEHTVTARCTFSTPKKCAEAAQSILMS
+GIQVLRMELVDAASIRQVNLTGEHTFPEEHSLFLEFSGTKASAEEDAKLTQELILEHGGE
+YWKRANSAAESKELWRARHEMAYAFRHLQGMAHSGGDVCVPISQLAEMVVYARALIDESG
+LLGGVFGHVGDGNFHTLVVYDPHDPKQAAASARINDLVARKAIEVGGTCTGEHGVGLGKI
+KYQELEHGAALSVMKSIKKLLDPENRLNPGKMFN
+>tr|A6CM71|A6CM71_9BACI
+MLTDKQLGKLKDELLERKKQLQQHLDNDEKTLHGQSEQERYGELNTYDNHPADLGTELFE
+REKEFALDEHAETEMEKVEQALSAMEEGTYGKCKVCGKEIEYERLEVLPTTLYCIDDTPE
+TTRATDRPVEEEVLTPPKNDSFIKGRQDEIKDYQDSFQEAGRYGTSETPSDFQGTYEDYD
+SMYQDGVRSNDGNTEDMDSFSATDIEGKNRKVVPNEKMDEYEDKLDREDLESPIGNIPYK
+KGDSYVSDKKK
+>tr|A6CNQ4|A6CNQ4_9BACI
+MKKNISIIGVPMDLGQMRRGVDMGPSAIRYAGVAERLENLGHTINDLGNIEIAQPERVHT
+SNSHLRNLRAVAEGNHKLADKVDEVIKGDDFPLVLGGDHSIAIGTLAGVSKHYENLGVIW
+YDAHGDLNTSETSPSGNIHGMPLAVSLGIGDESLTSIGGYSPKVKPENIVIIGARSLDEG
+ERELIKERGIKVFTMHEVDRMGMTKVMEEAINYLKDKTDGVHLSLDLDGLDPADAPGVGT
+PVLGGISYRESHLAMEMLAESHLITSAEFVEVNPILDDKNRTASVAVALMGSLFGEKLL
+>tr|A6CRS3|A6CRS3_9BACI
+MLSQEQKNRTTVDIYGTQYVIVGTESTSHIRLVASLLDEKMREISSMNPSLDKSKLAVLT
+AVNTLHDNLKLKEYCESLEEELKKLKD
+>tr|A6CQ73|A6CQ73_9BACI
+MSVKGKRIGFGLTGSHCTYDAVFPEIERLVNEGAEVIPVVTSTVKHTVTRFGDGEDWIKR
+IEEVTGNKVVDTIVKAEPLGPKLPLDCMVIAPLTGNSMSKFANAMTDSPVLMAAKATLRN
+HRPVVVGISTNDALGLNGVNLMKLISAKDIYFIPFGQDDPEKKPKSMVARMTRLLETVEA
+AMEGKQLQPVVVERYLDQ
+>tr|A6CM20|A6CM20_9BACI
+MNEGIINIELTRLIAAYIFVLVLLFIVKTRKISREKQIAIATLRMTIQLIVAGYILTYIF
+ENPHPLLTVLIILFMEVFAIRNVFKQVKAALSDQMKRIITISMLSGSLASLLYFNLVVIN
+FSPWYEPRYFIPIAGMIIGNSMTGITLGVKTLLQGFSSEKAKIEGALMLGADPQTAAKPY
+VDHAFDSAVLPTINNMLGMGIVFLPGMMTGQILSGVSPLLAIEYQIAILLGILGSVSLTV
+ILFILLGYRTFFTKDSRLQD
+>tr|A6CQ62|A6CQ62_9BACI
+MTIKADNRHLYLQVIDRLKKDIEEGLYQEREKLPSEFDLAKQLGVSRATLREALRILEEE
+NVIIRRHGVGTFVNAKPLFTSGIEQLNSVTNMIKQAGMEPGTIFLSSSFQGPTDEDIRRF
+LLEEEEDIVMVERVRTANGEPVVYCVDKMPSAVYPHKFTTDVNSLFEILEQEENKRITYA
+VTNIEPLGYHDKISPILNCDPESALLVLKQLHFDENDNPILYSVNYFRSDKFSFQVLRKR
+V
+>tr|A6CRD4|A6CRD4_9BACI
+MKWKRLPLGPLQTNCYCVWNEKKECVIFDPGEEAGKLIKWLRTNQLKPLAILLTHAHFDH
+IGAVDKVREAFEIPLYVHEKEAKWLMDPSLNGSQFFAMSELVRMKPADYILTNEKTLSVG
+DFTFDLYETPGHSPGSISYYYPEEQVVFSGDTLFMGSIGRTDLPGGHHDELLKSIHDHLL
+NLPEDTIVLSGHGPETTIGNEMDSNPFLNGF
+>tr|A6CQG7|A6CQG7_9BACI
+MKENECFDVTIIGGGPAGLYSSFYSGLREMKTKIIEFQPQLGGKIHVYPEKMIWDVGGLI
+PTPGAKLIDQLVEQGLTFNPEVVLNEKIVSISKNSDGHFLLKAASGNVHVSKTVIIAVGS
+GILQPQKLNIEGADRFEISNLHYTVKSLKYFKDRTVIISGGGNSAIDWANELVPVAKQVY
+LTCRKGQLSGHEAQVTQLMNSPADCLLNTSISKLIAKDGEDMIDRVELLNNVTGETSHLS
+VDDVIINHGFDQDTSLLKDSELNIKMMHDFYIEGSTTGESSIPGIFAAGDILKHEGKLNL
+IAGAFQDAANAVNKAKQYIQPDAGAFAMVSSHNEVFKNRNKELVRQLVKG
+>tr|A6CQ24|A6CQ24_9BACI
+MEKLKIAGGYPLKGTIKVSGAKNSAVALIPATILADSPVTIEGLPDISDVQTLKSLLEEI
+GGEVSFTEEGEMRVDPSQMISMPLPSGKVKKLRASYYLMGAMLGRFKKAAIGLPGGCHLG
+PRPIDQHIKGFEALGAEVTNEQGAIYLRAEELRGARIYLDVVSVGATINIMLAAVRAKGQ
+TIIENAAKEPEIIDVATLLSNMGARIKGAGTDVIRIDGVDELSGCRHTIIPDRIEAGTFM
+ILGAAAGEGVLIDNVIPLHMESLIAKLREMGVPIESGDEQIFIGKAENLNAVDIKTLVYP
+GFPTDLQQPFTALLTRAKGSAVVTDTIYSARFKHIDELRRMNANIKVEGRSAIVNGPIQL
+QGAKVKASDLRAGAALVVAGLMAEGVTEVTGLEHIDRGYSNLVEKLEGLGATIWREKMTP
+EELEQLKSS
+>tr|A6CKN0|A6CKN0_9BACI
+MSIYNYSATAMNGQEKSLEEYKGKIVLIVNTAGRCGFTYQYEDLQKLYDRYKDKDFVILG
+FPCNQFDNQEPDTNDQIQNSCLLNYGVNFPLFQKIDVRDKNMHPLFDYLTHQKSFEGFNK
+FHPVAKILIPLLNTKHPEYLTDDYSIKWNFTKFLIDGNGEVVKRFECTTDPIDMELDIEN
+LLAAAAV
+>tr|A6CPM9|A6CPM9_9BACI
+MEKQIAIDTEYITLGQFLKLAELIQSGGMAKWFLSEYEVFVNGEQDQRRGRKLRVGDRVE
+IEENGAFIISDEK
+>tr|A6CHA9|A6CHA9_9BACI
+MLNDLYKPKRHWKDIEVWKDVTEEQWNDWIWQLTNTIRTLDDLKKVINLTPEEEEGVRIS
+TKTIPLNITPYYAWLMNEEDDRCPIRMQSVPIGKEIHKTKYDMEDPLHEDEDSPVPGLTH
+RYPDRVLFLVTNQCSMYCRYCTRRRFSGQIGMGVPKKQLDEAINYIRETPQVRDVLLSGG
+DGLLINDKILEYVLKNLRDIPHVEIIRIGTRAPVVFPQRITENLCNILKKYHPVWLNTHF
+NTSIEITEESKKACEMLVDAGVPVGNQAVILAGINDSVPIMKKLMHDLVKIRVRPYYIYQ
+CDLSEGIGHFRAPVSKGLEIIEGLRGHTSGYAVPTFVVDAPGGGGKIALQPNYMISQSAD
+KVVLRNFEGVITTYPEPENYISGRADDYFNSIYPMEGYKSAIGINGLLNESKSSLVPEGL
+NRLDRRENYVTNPEHKSLKDLREKRDALKEKKYQAQLKKMEKAESSDE
+>tr|A6CRQ4|A6CRQ4_9BACI
+MDSLRKRFYCRYPDLKDNQAVESFLSRKENREILEEFLSDPSDSAEDCLNEAFKAHFFGI
+RFTSYVSSSLYFHSVNFDKKTRMDRDRQLLTLDKPLGDEEEGTYKELIADTAAPDSYTEK
+SLEESISDARLMEAFQRLTHRQKFILNLAYVEERSDTEIADVLGVSQQAVSKTHKKVLKK
+LKNALEKGENE
+>tr|A6CS76|A6CS76_9BACI
+MSFFKKLKEKFTSTPDSVTNKFKDGLSKTRDNFSSKVNDLVARYRKVDEDFFEELEEILI
+GADVGFDTVMELVDQLKFEAKRRNIQETSELQSVISEKLVEIYEGDEGASSELNIQEDTL
+TVILFVGVNGVGKTTTIGKMAHMFKEQGKNVLLAAGDTFRAGAIDQLEVWGERTGVPVIK
+HSEGSDPAAVIYDAVQSAKAKKADILICDTAGRLQNKVNLMNELQKVKRVIEREIPGAPH
+EVLLVLDATTGQNALLQAKTFKEATDVSGIVLTKLDGTAKGGIVIGIRNELQIPVKFVGL
+GEKVDDLQPFDAEKYVYGLFSNLVDKEEVDEE
+>tr|A6CLR2|A6CLR2_9BACI
+MKVNGVNIVEKETRYSELTEYELQQEIAQLKEKARKAEQLGMVNEFAVLERKALMAQAYL
+LNPEDFKPGEIYGIEGDPGVYFRIDYMNGVFAWGYRLGGSGQEEALPISMLNRKK
+>tr|A6CJV6|A6CJV6_9BACI
+MKPIAKASNNRSEIKDDYWGKTITEITLDDHLHEDALEGIELFSHLEIIFYFHLVDESKI
+ISGARHPRNDISLPKMGILAQRGKNRPNRLGLTTVKLLKRDGRKLFVEGLDCINGTPILD
+IKPVMKSFLPKETVREPKWTDEIMKDYWK
+>tr|A6CKB9|A6CKB9_9BACI
+MIGWKNKSFLKGELMMSNTFKALVVNKTEEDFSVNIEPLTFEDLPQGDVTIRVHYSSVNY
+KDGLASIPNGKVVQSYPFVPGIDLAGVVTSSDDDRYKEGDKVIVTSYELGVSHYGGYSEY
+ARVPGDWVVPLPDNLTLKEAMVFGTAGFTAALSIHQLENSGLRPENGPVLVTGATGGVGS
+MAVAMLAKRNYHVTASTGKESEHEYLKSLGAKEIVSREEVAPEKIRPIGKQRWAGAVDPV
+GGKTLASVLSNTKYGGAVAVSGLTGGADVPTTVFPFILRGVNLLGIDSVYCPKELRETLW
+NRMADDLKPDGLGEIENEVTLEELPRTLSAILQGKTRGRTVVKILD
+>tr|A6CUI8|A6CUI8_9BACI
+HNSPGLTLMKGNVLEENDLDACIQDCDVVISTLGTDKNDVLSKGMPLILKSMRKNSVSRI
+ITIGTAGILQSRNTPSLFRFQSDEAKRRSTTAAEDHLRAYLMLKSSDVNWTVVCPTYLPD
+GERTGVYRTEKEILPEGGKSISIYDTADYAYSLIQQEESYCTRIGICY
+>tr|A6CRA3|A6CRA3_9BACI
+QENMRLKKQVEESNRRAPAQQQTGTTNFDILKRLSNLEKHVFGSKLYD
+>tr|A6CQ15|A6CQ15_9BACI
+MRDSIKKESLEWIKALGIGLVIFVVIRTFLFSNYVVEGESMMPTLEDGNKLVVNKIGYQV
+GELHRYDVVVFHANEDEDYVKRIIGLPGDTVEYKDDKLYVNGKAQEEPYLDKFKEEMVGT
+KLTGDFTLEEITGKQTVPEGMVFVLGDNRRSSMDSRYFGFVDQDQIVGKVNLRYWPLNEF
+DVQFGD
+>tr|A6CIM1|A6CIM1_9BACI
+MIKLMLVDDHAVLRDGLKTILESEDDINVVGEAVSGSDALSKVRELDPDIILMDINMPGM
+NGVEVTKVLKQQYPHIKVLMLTMHSHEEYFMAAIKEGADGYLLKDAPSEQVVEAVRTVFS
+GESVIHPSLTRKLLTFHQQNQRQDRDDNSLTEREREVLGCLVEGLSNKEIGKRLYVSDKT
+VKIHVSNIFKKLNVKSRSQVVIYAVQNKLVPLPPTS
+>tr|A6CJ86|A6CJ86_9BACI
+MPSRRIKNKDEKDFLWNKLKTLLKGMFMLFLIISAIIFLISGYYFILTLIEAVQDVGSPK
+LAAFLFTIWASSAIIVAGNIIK
+>tr|A6CQU2|A6CQU2_9BACI
+MPLMLEPNETRIKEEKIYREMGLTDEEFIMVENILGRTPNYTETGLFSVMWSEHCSYKNS
+KPVLKKFPITGERVLQGPGEGAGIVDIGDQQAVVFKIESHNHPSAIEPYQGAATGVGGII
+RDVFSMGARPVALLNSLRFGELDSPRVKYLFEEVVAGIAGYGNCIGIPTVGGEVQFDAAY
+EGNPLVNAMCVGLINHEDIQKGVAHGTGNTVMYIGAKTGRDGIHGATFASEELGEESEEK
+RPAVQVGDPFMEKLLLEACLELVKSDALVGIQDMGAAGLTSSSAEMASKAGSGIEMNLDL
+VPQREKDMTPYEMMLSESQERMLIVVEKGREAGIEEIVSKYDLDAVAIGRVTADKTLRLL
+HGGEIVAEVPVDALAEDAPVYHKPSQEPAYFREFQEMEAEVPQVIDYKNTLKDLLSQPTI
+ASKEWVYDQYDHQVRTNTVVSPGSDAAVIRIRGTKKALAMTTDCNSRYLYLDPEMGGKIA
+VVEAARNIVCSGGMPLAITDCLNFGNPEKPEIFWQIEKSVDGMSEACRTLSTPVIGGNVS
+LYNESRGKAVYPTPVVGMVGLIEDLSHITTQRFKAAGDLIYVIGDAREEFGGSELQKMMN
+GKIFGKSPALDLAVEQQRQEALLNAIRKGYAASAHDIAEGGLAVAMAESTFGTKGLGATI
+RIGDNLTAELFSETQSRFIVSVKKEFQEQFEQTIADAKLVGEVNDSAYLKFVDQDGQVVL
+LSTVEELESAWKGAIPCLLKSKA
+>tr|A6CNR6|A6CNR6_9BACI
+MIITSREKSIIDLIIRTSGKHTVSTLADYLNVSGRTIQRNLKSVEKILEEYQLKLKRTTN
+EGLFIDGRNDQIYKLIQKLTDAVPTDETPEERKLSLLVTLLHEGPYFKKQVLANHLGISP
+ATLTVYLDELTDWLSKFSVLLTRKRGVGVEVSADEASKRHALANFFLVYFYEEIIESLYL
+LQKGTHLNEPVLGYFSPENMLAVDQTVNRIFHQEQTKLTDSDYIGLVVYICLSIQRTGSN
+LLLEEPAVSPSDYSAEYRLVERIGAELDHRISTSLMKSDIHYLSVILKGSKVQAADSIDY
+DSIILGQLIKKVIEDVSTKLHVDLSDDFSLYQGLLAHMEPSIFRLKQKMELFNPLTDDIK
+KKYPVLFMAVRDSLENEFKDIHFPEDEVAFVVLHFGSALLMHEEKVKINAVVVCPTGIGT
+SKMLASRIQKEITEINSVEILSLKDFQSASLKEYDIVISTVRLPFTDIDYTLVSPLLSDK
+DIGSIRNYLQNNLEKLTRDERYLRTAVKASEPGKEKRPKVRDLLQEMKDVHTSIESILDN
+FRVYRSQHAGSHFTVLNEMVEQAEKDGLLTDSKDVLHELGEREKKGGLGIPNTNMGLYHC
+RSECIGELIFQVSHLSQPLVIKGMDGREMPMKSLLLMLAPANMSKREQEILSIISTSLIE
+DNISMMIFSSSNELMIRKKLEDLFFDYLQNNLLKE
+>tr|A6CLY9|A6CLY9_9BACI
+METFKKLKQFYWPYKKFFFTSIIFLIAVTLITVVYPIILQLTIDEVILKSKFGWVPYLAF
+GFIFIMALKGVATYIHQYNGDMFGITSVYRLRNELYEKLQYLPFRYYDNAKTGDLMSRLT
+ADVEAFRFFLSFGISELIRFVLLVTVSFGVMFYYSPSLTFVTLATLPFLAVAVYKFDKAV
+HPAFRGIRKSFGKLNTNVQENISGINTVKSLSREEYQIDKFNSSNGDYKEKYLLTSDVWA
+KYFPLMELLGNVSVVLLLSYGGFLVMDNSLEPGELVAFYSLLWYIIWPIMNLGFTINQFS
+QSKASGERLLEILEADEDIQDKENAIKADRLKGEVEFKNVSLRYTKDDEEALEGISFKAQ
+PGKVIGLIGGTGSGKTSITSLLTRFYEPTEGEVLVDGKPVEDYAIKSLRKNIGFVLQESF
+LFSSTIKTNISYGRPEATMDEIIDAAKRAQAHDFIEELEDGYETKLGERGLGLSGGQKQR
+IAIARAICTDPSILILDDATSAVDMETEFKIQKGFKEVMADRTTFIIAHRISSLKHADEI
+LVLENGKIVERGVHDFLITNNGPYQRIYDIQYKDQKKILQSQQG
+>tr|A6CRI0|A6CRI0_9BACI
+MSKVAIIASNGGVFDAYKVFNVATAAAASDQEVAIFFTFEGLNLIHKDAYKQLPMPEGKE
+HFAEGFAKANVPAIPELVEMAQELGVKFIGCQMTMDVMGLEKEAFVDGIEVGGAVTFLEF
+AKDAEVSLTF
+>tr|A6CNC0|A6CNC0_9BACI
+MKDQFQLHSKYQPRGDQPAAIKEITQGIRDGKRHQTLLGATGTGKTFTVSNVIKEVNKPT
+LVIAHNKTLAGQLYSEFKEFFPDNAVEYFVSYYDYYQPEAYVPQTDTFIEKDASINDEID
+KLRHSATSSLFERKDVIIIASVSCIYGLGSPEEYRDLVVSLRVGMEIERNQLLRKLVDVQ
+YARNDIDFKRGTFRVRGDVVEIFPASRDEHCMRIEFFGDEIDRIREVDSLTGEIIGERDH
+VAIFPASHFVTREEKMRVAIGNIEQELEEQLKVMREENKLLEAQRLEQRTRYDLEMMREM
+GFCSGIENYSRHLTLRPSGSTPYTLLDYFPEDFLIVIDESHVTLPQIRGMFNGDQARKKV
+LVDHGFRLPSAMDNRPLKFEEFEQKANQLVYVSATPGPYEGEHSPEMIQQIIRPTGLLDP
+TIDIRPIEGQIDDLIGEINERVEKNERVLVTTLTKKMSEDLSAYLKEIGIKVQYLHSEIK
+TLERIEIIRDLRMGKYDVLIGINLLREGLDIPEVSLVTILDADKEGFLRSERSLIQTIGR
+AARNANGHVIMYADKLTDSMQKALDETSRRREIQIEYNEKHGITPQTIQKNIPNLIRATH
+AAEDQTEYEGAQKKVTKLTKPEREKLIASLEGEMKEAARALDFERAAQLRDTILELKAEG
+>tr|A6CPD7|A6CPD7_9BACI
+MSEKKKTTIVLFSGDYDKTMAAYIIANGAAAYDHEVTIFHTFWGLNALRKEENVEVKKGF
+MEKMFGKMMPRGADNMGLSNMNFAGFGPKMIKGVMKKHNVMSLPNLIEMAQEQDVKLVAC
+TMTMDLLGLQKEELLENIDYAGVAAYLADAEDGNVNLFI
+>tr|A6CHY3|A6CHY3_9BACI
+MQEYISNRQEEMLKLIETLVNIDSGSGNKAGVDRIGSLLKREYEKIGFNIDVVHQDEYGN
+HLIIQHREAVDPDILVIAHMDTVFPEGTALERPFRLEGNMAYGPGVIDMKSSLVTLLYAM
+KALLAEKSPHSRNVQILLNSDEEIGSPSSQDLIKEAAKGKKYALIMEPARKDGSLVSSRR
+GKGNYTLNVIGRAAHSGIEPEKGRSAIEELAHKVIQMHELNDHENGISVNVGLIEGGSSV
+NTVSDHASAQMEIRITESEQAHSVEEKMEEICSKTDVPGTEIIFEGEINRPPMEKNKRNN
+QLLQKIIAVGEEMGIEITDTSTGGGSDASFTSAARVATIDGMGPIGGNAHSDKEYLDVSS
+LSERTLLLAKVIENLSQ
+>tr|A6CP53|A6CP53_9BACI
+MSVNRESVLEIIEAIGGKENINTATHCVTRLRLVLNDEGLVDKERLEDIDLVKGSFSTNG
+QFQIVIGQGLVDKAYKILAEETGVETASKEDVKNAAAEKMNPLQRAVKTLADIFIPILPA
+IVTAGLLMGINNILTQPGIFMDDASVVEAFPQWADIASIINLIANTAFVFLPGLIGWSAV
+NRFGGSPLFGMVLGLMLVHPDLLNAWGYGAAQQEGEIPTWNLFGLNVEKVGYQGQVLPIL
+VASWVLAKIEVWLRKRIADAFQLLTVAPISLLVTGFLAFTIIGPITFTLGGWLVDGVTAI
+FDAAPAIGGLVYGALYAPLVITGMHHTFLAVDLQLIGTIGGTFLWPMLALSNVAQGAAAF
+AMLVVEKHNEKVKGLAVSSGVSAWLGITEPAMFGVNLRYKYPFIAAITGSAIAGLIITVG
+SVLAPSIGVGGVPAFFSIPSQQWGIFAIGMLVAMVVPFVLTLVLSKFNKKK
+>tr|A6CIT6|A6CIT6_9BACI
+MKSRNEKWFALSILLPAIIIVFGVVLIPLIQTFIFTFKDMKLISATYDQFLGLANYIEIL
+SDAEFWSTVGRTGYFTVVSLIVELSLGILIALLINENLKGRAFLRTVIILPWAVPTIVNG
+ALWKWIYHPEYGALNALFSQLGVISEYKSWLGDPWLAMNMIIFADAWKMTPLVVMFMLAS
+MQMVNKSMYEAAVVDGAGPLERFLHLTLPHLKPTILVVLVMRTMEMFKVFDIIYATTRGG
+PANGTLTLTYDAYLKAFVELDYSKGATISYLIAFFVIILTIIYVRIMKEKGA
+>tr|A6CLQ9|A6CLQ9_9BACI
+MGIITKISKQVKNEERYNIFIDGEYSFSVDEEILARFQLGKGKEIDELAMADIGYEDDVR
+KAFNLAIHYLSFRMRTEKEVSDYLKKKDLGDAVAAEAMEKLKKYDYLNDGEFAQAYVNTQ
+INTSDKGPGTVERELASKGVDKALIDDALSAFTKDIQLEKAMTLTNKLFNKYKKDSTKVT
+KQKIEQNLARKGYPFSIINIAWEETANEKSEDEKLEAVLVHARKAHNRLKSKFTGYDYEM
+KMKQNLYRKGFMMEEIDEAIERLKEEE
+>tr|A6CRZ3|A6CRZ3_9BACI
+MEERVVSSEAETSDHSFELSLRPQTLNQYIGQDKVKSNLGIFIEAARMRQETLDHVLLYG
+PPGLGKTTLAAVIANEMGVNLRTTSGPAIERPGDLAAILTSLEPGDVLFIDEIHRLPRSI
+EEVLYPAMEDFCLDIVIGNGPSARSVRLDLPPFTLVGATTRAGALSAPLRDRFGVLCRLE
+YYNEDQLREIVIRTSEILGTEIDGLASVELARRSRGTPRIANRLLRRVRDFAQVRGNGEI
+TSDLASHALELLQVDKLGLDHIDHKLLRGIIERFKGGPVGLDTIAASIGEESHTIEDVYE
+PYLLQIGFLQRTPRGRVVTSLVYEHFDLEVPNA
+>tr|A6CLC4|A6CLC4_9BACI
+MADITFKNNPVTLLGNEVKSGDTAPDFTVLANDLSEVSLNDPKGKVRLISVVPSLDTGVC
+DAQTRKFNEEAGSIDNVEVLTISADLPFAQRRWCGANGLENVKTFSDHRDMSFGEAYGVH
+MKELRLLARAVFVIDSNDKVTYAEYVSEGTNHPDYDAAIEAVKNAK
+>tr|A6CRU7|A6CRU7_9BACI
+MKNLVLLGGGYGNMRVLLRLLPNQLPEDVSITLIDRVPYHCLKTEYYALAAGTISDQHVR
+VDFPEHPRLSVKYGDVTKIDIANKLIHLGDNEAVSYDDLVIGLGSEDKYHGVPGADEFTY
+SIQSIEKSRKTYEALCNLPAGSVVGIVGAGLSGIELASELRESRSDLDIKLFDRGSRILG
+AFPERLSSYVHKWFEENDVDIVNNSSITKVEPNTLYNHEDSIHCDAIVWTAGIQPNKIVR
+EMEVEKDKQGRVVLTKYHNIPEDEHIYVVGDCASLPQAPSAQLAEGQAEQIVTVLLKRWK
+GEELPEELPRIKLKGILGSLGKKHGFGLVNERSITGRVARLLKSGVLWMYKYHNG
+>tr|A6CN37|A6CN37_9BACI
+MSQKKWIRILVIMMILIIGSSFYYLPYYITKPGSAKDLDPMIEVEGGFEDEGKLMLTTVR
+MGKANIYTYLIASIKKYEHIYPVEEIRSSEETEDEYNVRQLHLMETSKLNAIEVAFQHAE
+KPYSYEYKGVYVLNVYPGMPADEVLEPGDRITAIDGNLFSSSQEFIDYISKKTVGETVGI
+TFTRDGKEHEKQISLAEFSAGEGKVGLGIGLVDDKEIITTPKVTMDTEKIGGPSAGLMFS
+LQLYNELVERDITHGMEIAGTGTISANGTVGRIGGIEQKVIAADKAGVDVFFAPMDIIPE
+RIQKSNPDLKPNYEEALKTAEEIGTEMKIVPVKTFEDALEYLDSL
+>tr|A6CHT7|A6CHT7_9BACI
+MKKNTIASHNIRALFWVQFFGTISFLQPVITLFYMERGLDSSNILIVLMFWSGAVLIGEV
+PTGIFADRFGAKTSFITGSILKFLSIGLLLFAYEPWMFFLYSALNGFSVTFFSGADEALI
+YDSLKESGENDFMDRAMGKIQSAGFISSIFAVLFGSYLAKDLRDDQFQLLIGLSLAFHIV
+EILFVLTVKNPTIKSTFRENPFSQVKEGVAVIRKAPQLLIMFLNVTLVFIPAGAVYGYFD
+QPLMTDAGLPVYLLGVMYACSALLGYFASNSIGWLTGKFTRIFLMHATGLFAVAGLLLSA
+LLSQSLWVVVGAFFVLKYVRAIRYPIYSQLSNDIIPSGIRATTISLLSIVDSALDLLVFG
+ILSIVALNGYEAVLFGSAAIALIGTLLPIRKVKKDVSDAVLSAVQK
+>tr|A6CKX3|A6CKX3_9BACI
+MGYYDQDYENTRSKQKGNRGGYFLASLIGIILGAILVIVALPQLDDWDVLPYNPGSNLAE
+TDEAYHNGQNGESRNLSVSVTSDVTAAVEKAEDAVVGISNIRSQSFWEQTGQEAGTGSGV
+IYKKAGGKAYIVTNFHVIEGADQLEITLSDGTKVPAQLRGGDVWTDLAVLEVDGSEIKSV
+AEFGNSDELKTGEPVLAIGNPLGLAFSGSVTQGIISGLERTIPVDINQDGMEDWQAEVIQ
+TDAAINPGNSGGALVNIAGQLIGINSMKIAQEAVEGIGLAIPINAAQPIIEDLEQFGEVK
+RPAMGVSLENVNEITAYHQQQTLNLPEDVKDGVMIRQVVPNSPAAQAGLQELDVIVELDG
+EKITDIIALRKHLYNVKDVGDQMTVTIYRNGELQEVAMKLTDESRL
+>tr|A6CKB2|A6CKB2_9BACI
+MFFIVLALPVFSMGVHFFSEPNENWYHIKEYLLNNYINNTLVLIFFTGLFSVLIGLSLAW
+FISVYDFPLRRFFKWALILPLAIPPYIGAYTYNGMLNYTGIIQTTLRNSFGIEVNQKYFD
+IMTMQGAIFIFTIFLYPYVYIITRAFLENQSSALIENARLLGSGSFEIFFRIILPLSRTA
+IVGGVSLVILEVLNDYGVVKFFGIQTFSTAIFQAWFGMADIDSAIKLAGILMSIVLLLLV
+LEKVLRGRKNYSYSTSKVKPIKPARLSKWKGWLMFSYVMLVFSVGFLIPFLQLVEWLFMT
+YDLIISEQFLWLIWNSVFVAFIAAAFITIIAVIIANFSRMHEGIVPKLLSKTTLIGYSIP
+GAVIALGVLTLFLELDKVQKYFYGLMNQQPSVILSLSIAMLIFAYIIRFLAIGYNSVEAG
+FDKVGRSFTEASRMLGMNMTQSFFKVDFKMVKGAVFGGFILVFVEVLKELPLTLILQPFN
+FYTLATKAFQYAGDEMVHEAALASILIILISGVSIYVFHSILEKETN
+>tr|A6CQY4|A6CQY4_9BACI
+MKSGQLIYLAFAVLTGTALALHIQWGAFFLAVFLSILAFRRLSATILLIVTLMIPVSFFL
+SYYHIHNAETILSPYQTNFSIKFKERPEIDGDRLMGEAETPMGETIILRYIISDEFEKEK
+LLNRKYTGWSCSVSGELTEPGQARNINGFDYGDFLRGEKIYWVLQVNSLEEKHCFYKQKS
+VAEKLGAWREEGIQSIQEHFPEQTAGISAALVFGHRKLIGDDTLESYQRLGVIHLLAISG
+LHVGMLFAVLYYFLLRAGIAREHARVIMLVILPVYVLLTGAAPPVIRAAGIMGAVILSGS
+FRMKLSAVDAVSLVFLLYLLLDPFALRNVGFQLSFLVSFSLVLSSRHILGADNQKWKLIF
+MVTAVCQICSIPVLLWHFYEFSLIGFVVNAIYVPYFTMVLLPLALLSFFSLLIFSPATHF
+LFPFLKWSVIFVDDVSGWLNSLPYITFTAGKPALPMAFLYCVTIGFCFIKMEHAKWLKAM
+LPLVLLLILHKISGYFNPYGEVIVADVGQGDCIIIDLPFNEGVYMIDTGGVITFPREDWK
+QRSTDFSISSDVLMPLLKSKGIEKIDKLILTHSDFDHTGASLELIEEIRIDEILITPGSS
+ENEVIAALYEKARKLKVDIRETGAGEQWKTNSGDFMFLYPFDKEYEGNNDSLVLYGDFGG
+KRWLFTGDLEEGGENELIKRWMVEADVLKVGHHGSATSTSDLFLSKVNPRTALISAGKNN
+RYGHPDPEIINRLSQKGIRIYNTAETGAIHYEFLGSRGTFRTAIP
+>tr|A6CND4|A6CND4_9BACI
+MSKLFMFEKPLGMRDTFPSLYQAKASLKTKMDETIKAWGYQFIETPTLEYFETVGEASAI
+LDRQLFKLLDQQGHTLVLRPDMTAPIARVAASKLLRNKQPLRLAYCANVFRAQQREGGRP
+AEFEQFGIECIGDETISADGEVISLMISSFKAAGLQNFTISIGHIGFVRELFKEILGTEE
+RANTLSRFLYEKNYVGFRDHVNDLPLSSIDKQRLFSFLKLRGGKDKLQEAYPLMEGEAGR
+EAIGQLEELSDLLEDYGLAQYVKFDLSLVSHMSYYSGILFETYAGNVGFPIGNGGRYNKL
+MEKFGKDSGATGFALRIDHILEALGFAENPVTDHCVLFSRERRSEAIQFAQDLRQSGKSV
+VLQDWKGITDVDEFSKEFTDVSYFIGKNGKGGDE
+>tr|A6CNP0|A6CNP0_9BACI
+MRGEEFVAEKKREVFEWLKALAVAVVIAVAVRGFLFTPVLVEGASMNTALEDRERVIVSK
+IGDIDRFDIVVFHRDEQQDYIKRVIGLPGDRIEYKEGTLYVNGVPVEESYLDEQKEKLHG
+DLTKSLTLEETAVGQATVPEGHLFVMGDNRRDSTDSRHIGAIPIEEIVGTAKVVFYPLTD
+IRLIGN
+>tr|A6CNW0|A6CNW0_9BACI
+MKRPESLKDSKYYIGRNFIMAFELPQLPYAYDALEPHIDKETMNIHHTKHHNAYVTKLND
+ALQGNEELLSKSVEEVVANLDAVPEGARTAVRNNGGGHANHSLFWTILSPNGGGNPEGEL
+ASAIESKFGSFEKFKEEFAAAAAGRFGSGWAWLVVNNGELEVTSTLNQDSPLMDGKTPVL
+GLDVWEHAYYLNYQNRRPDYINAFWNVVNWDEVSKRFSAAK
+>tr|A6CNF9|A6CNF9_9BACI
+MKRRTAREKALQALFQMDMSGMTADEALTNVYEDTPSDEYLENLVNGATENKEKIDGLIK
+ENLEKWSFDRLAKVDRNILRVAVYELLEADDVPSKVVINEAIEIAKTYGDDQSGKFINGV
+LSKVNAGIEAQGE
+>tr|A6CQP9|A6CQP9_9BACI
+MSKKKYIWGWISFAVFLGVLLLVSTDYILWFDQTVFAIFKNFPFLEHFDFIGTELVIGTV
+SILLILWLALKERNFTGIIFTVLAIGGGNYINKFFKAVVERDRPEALHGEEGFSFPSGHA
+MVGLIFLLVLAFFISKMITSANGKLAVYVTAISLALLTGFSRIPDEAHYPSDVLAGFLIG
+FSYYVLCEFAYLKLSNRK
+>tr|A6CR33|A6CR33_9BACI
+MKLIVGLGNPGSQYDHTRHNIGFEVIDELAKRFDSPLNQSKFKGVYASVHHKGEKVILLK
+PLTYMNLSGESIVPLMDYFDIDEEDLVVIYDDLDLPVGKIRLRQKGSPGGHNGMKSIIAH
+LGTQQFNRIRVGIDRPPSGMKVPDYVLGRFTPEERETMQDVIKASADACEAWLEKPFLEV
+MNSFN
+>tr|A6CL50|A6CL50_9BACI
+MSGRIRNYYAGGNTARGFHSLYASNLQGLDRLFILKGGPGTGKSSLMKAIGSYWNNKGWD
+VEYLHCSSDNDSIDGLIIPALKAGIVDGTAPHVIEPNLPGVVEEYINLGAAWDSGILRNH
+KDEITALTSEITEAFQTAYSTFAKALKIHDDWEKIYIDNMSFEKCDALTAELMEKFYSHI
+YLNKKAEVRHRFLGAATPKGPRDFIGNLTEELPRRYFIKGRPGTGKSTMLKKLAQAAEDR
+GLDVEIYHCGFDPNSLDMVIVRELGFAIFDSTAPHEYFPERDGDEIVDVYERAVTPGTDE
+KYAESIKEISKRYSDTMKEATSYLAKAKALHDDLEAYYISAMNFEVVEELKNNIQAELAG
+LSQRE
+>tr|A6CT02|A6CT02_9BACI
+MTRRRKKHHHEEHVDESWLIPYADVLTLLLALFIVLFASSSVDAQKFQAMSKAFNEIFVG
+GTGVMEYPTPVPETDAGDRNKNEEQNSLTVDELEAAKKREMQELKKLQDRVNGYIAANEL
+QTQFATELTSEGLLLTIRDNVLFQSGSAVVGAKDEGIAKELSGLLEMDTPRSVIISGHTD
+NVPISTANYESNWELSVMRAVNFMKIILKNQNLDPRWFSAKGFGEFKPMASNDTSEGRAK
+NRRVEVLILPRIM
+>tr|A6CTH4|A6CTH4_9BACI
+MTKPVVAIVGRPNVGKSTIFNRIVGERISIVEDVPGVTRDRIYSSADWLTHDFNIIDTGG
+IEIGDEPFLEQIRQQAEIAIDEADVIVFLTNGREGVTAADEIVAKILYRSKKPVVLAVNK
+IDNPEMRELVYDFYSLGFGEPFPISGAHGIGLGDMLDEVAKNFKKDSGEGYAEDVIKFSL
+IGRPNVGKSSLVNALLGEDRVIVSNVAGTTRDAIDSKLKVDGQEYVIIDTAGMRKKGKVY
+ESTEKYSVLRALRAIERSDVVLVVIDGEEGIIEQDKKIAGYAHEAGRGVIIVVNKWDAVE
+KDEKTMKKFEENIREHFLFLDYAPIIFLSAKTKRRIHTLIPVIDQVSENHALRVQSSVLN
+EVIADAVAMNPTPTDKGKRLKVFYATQVAVKPPTFVVFVNEPELMHFSYSRFLENRIREA
+FVFEGTPIRIIARARK
+>tr|A6CJ91|A6CJ91_9BACI
+MRVIVRIKTEKDGSIQNVNSLFSRKFKGEKNMKAILIGATGATGKDLLDLLLKDDTYKQV
+DIFVRREVELQHDKLRIHVIDFDKPEQWNHLVKGDVLFSCLGTTLKDAGSKEAQWKVDYD
+YQYQIAKAAKENNVNHFVLVSSSSASPDSRFFYLRMKGQLEEAVKSLGFSKLVIFNPPGL
+VRKNSDRRGEIVGMKAIQFLNKIGLIRSYKVMPTEILARALINSTKSKENGIFMLKGKAI
+WECAMANKG
+>tr|A6CQ56|A6CQ56_9BACI
+MSKVNEVVKTKKGYSLHIVKTDKYKTNTLVWRMKSPLKAEEVTLRGLLPHVLQSSSKKYP
+STTALRSYLDELYGANFFVDLAKKGEYHVMSFSVEVANEKFLKDSEPLLKKGLQFLADVV
+LDPNVENDSFHDETVGKEKRNQKVRIQSVYDDKMRYANSRLVEEMCKGEAYALHPNGILE
+DVEKSTAEALYHYYQEAIQKDELDLYIIGDVDAEEAERMCDEIFSLQDREPLKLSEPTTT
+AAEDVNEVIEKHDVKQGKLNIGYRTNVRYGSEDYFPLQVFNGIFGGFSHSKLFINVREKA
+SLAYYAASRLESHKGLMMVMSGIDGKNYEQAVTIIKEQMQAMKNGDFTDAEIQQTKAVIR
+NQILETIDTPRGLVEILYHNVVAGKKIGLDEWLESIENVSKEEITAVAQKVNMDTIYFLT
+GMEG
+>tr|A6CLZ1|A6CLZ1_9BACI
+MAERMVGKQAPRFKMDAVLPNKEFGKVSLEENMKNDKWTVLFFYPMDFSFLCPTEITAMS
+DRYDEFEDLDAEVIGVSTDTIHTHLAWINTDRKENGVGDLRYALAADTNHMVSREYGVLI
+EEEGVALRGLYIISPEGELQYQTVFHNNIGRDVEETLRVLQALQTGGLCPANWKPGQGTL
+>tr|A6CN76|A6CN76_9BACI
+MENNEISMPTKYDPQAIESGRYQWWLDGKFFEAANDKEKEPYTIVIPPPNVTGKLHLGHA
+WDTTLQDILTRMKRMQGYDVLWLPGMDHAGIATQAKVEEKLRSEGTTRYDLGREKFLEET
+WKWKEEYAKHIRAQWSKLGLGLDYSRERFTLDEGLSDAVKEVFVTLYEKGLIYRGEYIIN
+WDPATKTALSDIEVIHQDVQGAFYHMRYPLADGSGHIEIATTRPETMLGDTAVAVHPQDD
+RYKHLIGKKVTLPIVGRKIPIVGDDYVDMEFGSGAVKITPAHDPNDFEIGNRHNLERILV
+MNEDGSMNEKAGKYNGMDRFACRKEIVKDLQESGVLFKIEEHMHSVGHSERSGAVVEPYL
+STQWFVKMQPLADKAIELQNGEEKVNFVPDRFETSYLRWMENTRDWCISRQLWWGHRIPA
+WYHKETGEIHVGKEEPADIENWRQEEDVLDTWFSSALWPFSTMGWPDTEAEDFKRYYPTD
+ALVTGYDIIGFWVSRMIFQGLEFTGTRPFNDVLIHGLVRAEDGRKMSKSLGNGVDPMEVI
+DQYGADALRYMLSTGSSPGQDLRYSTEKVESVWNFANKIWNASRFALMNMDGLKYEEIDL
+TGEKSAADKWILTRLNETIETVTKLADRYEFGEVGRILYNFIWDDFCDWYIEMAKLPLYG
+EDEAAKKTTRSILAYVLDNTMRLLHPFMPFITEEIWQNLPHEGESITTAAWPVVREEFSD
+KAAAEDMKLLVEIIRAVRNIRAEVNTPLSKQIKLLLKAKDEQTKKTLEKNKGYIERFCNP
+EELTISTDIEAPDKAMTAVATGVELFLPLEGLINIAEEIARLEKELEKWNKEVARVQGKL
+NNEKFVSKAPQKVVDEERAKEADYLEKRSTVEARINELKGQ
+>tr|A6CIF0|A6CIF0_9BACI
+MKPLKSSGIQVLFILTGILAISILPAIINEVWHILSGFFSLANLVYINPISHVERELFPF
+FWNAYEYSLTIFFSALFLSLFIAIIVLFFYFLLGKPFQVLVDFISFTMSSLPDIFVIVGS
+QLLVVWIFKRTGVFLFDFVALGEDRAYILPILCLSILPTMYFIKTLTVLMKEEFEKQYVE
+LAKSKGVTYFGILFVHVFRNTIISLAYHGKNVMWLMLSNLLILEYLFNMLGVTTFLFSYN
+TPTLFAVTSILLFVPIFVFLKIIQRWANSMTGNEVEL
+>tr|A6CPN9|A6CPN9_9BACI
+MQYEAGQFDVIVIGAGHAGVEAGLAAARMGAKTLMVTINLDMVAFMPCNPSVGGPAKGIV
+VREIDALGGEMGRNIDKTHIQMRMLNTGKGPAVRALRAQADKFAYQHEMKKTIEDEPNMT
+LLQGMVESLIIEDDECKGVVTQTGAEYRAKTVVITTGTFLRGEIILGDLRYSSGPNNQQP
+SIKLSEHLQELGFDMVRFKTGTPPRVNSKTIDYSKTEIQPGDDVPRAFSYETTKYITDQL
+PCWLTYTNAETHQLIDDNLGRSPMYSGMIKGTGPRYCPSIEDKVVRFNDKPRHQIFLEPE
+GKNTQEVYVQGLSTSLPEDVQMKILATIPGLEKAQLMRAGYAIEYDSIVPTQLWPTLETK
+KIKNLYTAGQINGTSGYEEAAGQGLMAGINAACRALDKEEVILNRSDAYIGVLIDDLVTK
+GTNEPYRLLTSRAEYRLLLRHDNADLRLTDIGHKIGLISDERYERFLTKKALVEEEKARL
+QTIRLKPNEETQNVIKEAGGSELKDGILASDILRRPEMNYSHIKALIPREEPLTEDIEEQ
+VEIQIKYEGYIEKSLQQVDKMKKMENKKIPDFIDYDAINGLASEARQKLKEVRPLSLAQA
+SRISGVNPADVSILLVYIEQGKIAKVSSE
+>tr|A6CLI2|A6CLI2_9BACI
+MEPKIIKKAGFKALGLKWQGTFEEAQDGIPTLFPKLEEVRDGIQYKVDPGVVKGLSYHNL
+TGGLTYYICHEVSEIEEIRYGLEIIEVPSYTYAFLAYEGLEIMDSYQLLYDWIEEKGYSL
+DQQILQHLEEYPAQYDPYEDELKVNIYIPVKQ
+>tr|A6CRJ2|A6CRJ2_9BACI
+MKAVTYQGSKDIQVKEVEDPKIQKPDDIIVKITSTAICGSDLHLYQGNLPLRPGYIIGHE
+PMGIVEETGPDVTRVKKGDRVVLPFNVSCGHCFYCQHDMESQCDNSNPHKDTGGYFGYTE
+QYGNHPGGQAEYLRVPFGNAMPFKVPESCDLADEALLFMSDVLPTAYWSVEHSGMKPGDT
+VIVLGCGPIGLMAQKFAWMKGAGRVIAVDNLPYRLNKAKQNNNVEIFNFDEFKEMGQHLK
+EVTGGGADIVIDCVGMDGEKSAVEKVEQKLKLQGGTLSAINIAKDAVRKFGTVQLTGVYG
+MMYNMFPLGNFFERNVTLKMGQAPVVHYMPELFEKITSAELNPTEIITHIMPLEKAAEAY
+KIFNDHDDECIKVVLKP
+>tr|A6CSM2|A6CSM2_9BACI
+MIFDGHCDVLLKLHHYKEDVSFQSQSDLHITYPQLRQAGSKVQLFAIYLPSYLKPGQRFQ
+TALEMVEVFHKKILEPNPKMKMVHSKKDIADLKEDEIGAMLTLEGCEAIEEDLVKLHTLY
+QLGVRAVGLTWNWANAVADGALEPRAAGLTKFGRETVEFLNDHKILTDVSHLCERSFWDT
+IEITKYPIASHSNTFRHCGHPRNLKDDQIKALIKKDGVMGLTFVPPFLNQGGEADVSDIL
+RHLDHVCSLGGENHVGFGSDFDGISQTVEGLSCYREYDNLVGSLQKNYSESQVKKFLFEN
+FYETLPE
+>tr|A6CJ07|A6CJ07_9BACI
+MTQDMDVTKSLGGGSLIGVPINYKNGENYGTLCGMDLRPYHFTDNHKDLFKAMAKLLGNV
+LDLEKKSIQVQMLSVPLVPIFDNVAVLPVIGEVDSERTSRIMEHTLQEAAKGDLDYIVFD
+LSGLAKIDEESVENLMRIADALKLVGVSMIFTGIRPELAKKATLYRSDFTNIKVEATLKQ
+AIKSLQIN
+>tr|A6CNW8|A6CNW8_9BACI
+MKLDEALTLMKEKGYKHTGKREQMLELFSHSDRYLTAKDVLESMKDDYPGLSFDTIYRNL
+SLFVDLEILEETELSGEKHFRFTCSNNHHHHHFICMDCGKTKAIHTCPMEVLQESLSGYD
+VSGHKFEIYGKCPECI
+>tr|A6CPH5|A6CPH5_9BACI
+MKAYLLECVNNYKRYKYNVKMAIAANLLTQIGMGIFMTLYNLYLRELGYSELTNGNVIAM
+TALAQTIFLVPAGFLSDMWGRRKAMLAGAALAAITLLGRSFFEGEMVLIILAFGSGAFMA
+FIQVSMIPWLAENSNEKERVHLFSFHFAVMMAANVIGNLSGGVLSDLFTYMGLESLTSLR
+ITLIIGSLFFLAGLLPLFFMREENHLVEKRSLGKIQWKGKGNQWKLVFLFVGAQLIIGIG
+SGLVVPYLNLYFADRFQTSHSAIGLILSLGQGATAIAMIIGPAIVNRMGEVKAVVLLQLL
+SLPFLILTGITTNLYLAVIGFLFRQALMNAGNPIQMALMMRKVPDDKKGIANSLSQMAFS
+FGWATMGPVSTYIVAAYGSYWGYSIVFAITGCIYLIGAIYFLMVFREKSIGIKKQPAAV
+>tr|A6CQ86|A6CQ86_9BACI
+MSIFHSMNTSASALSAQRLRMDVISSNMANADTTRGKLVDGEWQPYRRKSVVFQPNGGQF
+SSFLNKAMNTKDSGSLGNGVKVSEIKEDEETPFNLVYDPEHPDANQDGYVQMPNVDPLRE
+MIDLISATRSYEANVTVFNANKSMMMKSLEIGK
+>tr|A6CRX4|A6CRX4_9BACI
+MAPIKVTIAGPRGRMGSEAVKMVQETEDFILISALDHKNNGKRLSDLDGFTGADIPVYSD
+INECLQADTPDVLIDLTTPETGYLHTKTALEHGVRPVVGTTGFSSEQLEELTDLAKEKEL
+GCIIAPNFAVGAVLMMKFSQMAAKYFQDVEIIELHHDQKLDAPSGTAVKTAEMIASQRQP
+KVQGHPGEKETIEGARGAEYEGMHIHSVRLPGLIAHQQVMFGADGQTLTIRHDSYNRASF
+MSGVKVCVDTVMKLDTLVYGLENILD
+>tr|A6CSD6|A6CSD6_9BACI
+MEKTTTMSAKEQRHVLKRLLRYTIPHKKSIFLAFFLLALTTIGDVLGPYLIKIFIDDYLT
+PRNFPYEPLVWLGAAFLGIQISNVVISYFQLLKFQEIALKIIQQLRVDVFSKVQNLGMRY
+FDRTPAGGIVSRVTNDTEAIKDMFVSVLVSFIQGNFLIIGIFTAMFILNVKLALFCLFIL
+PVLFFIIKTYRKYSSIFYHDLRERLSQLNAKLSESLQGMAIVQVFRQEKRLRKEFDDINE
+DHYKAGMRNIKMDGLLLRPATDLVYTAALILVLSYFGISSFNSPVEIGVLYAFINYLDRF
+FEPVNNVMTRLSMFQQAIVASSRVFTLLDEKEESPAQDTNSKGQIKDAEIEFRDITFSYD
+GQKDVLKNISFTAKPGETVALVGHTGSGKSSIINLLMRFYEFSRGEILIDGKSIKDYPME
+ELREKVGLVLQDPFLFYGTVEDNIKLHAGDMTDEEVRAAAEFVQAHTFIEKLPDGYSHKV
+VERGSTFSSGQRQLIAFARTIATNPKILVLDEATANIDTETEDAIQQALAKMRKGRTTIA
+IAHRLSTIQDADCILVLHQGEIVERGNHQELLSQKGLYHKMYLLQNGLVEGIEDAVSS
+>tr|A6CL98|A6CL98_9BACI
+MARYTGPSWKLSRRLGISLSGTGKELEKRPYAPGQHGPNQRKKISEYGLQLQEKQKLRHM
+YGVTERQFRNLFDRAGKMQGKHGENFMALLESRLDNVVYRLGLARTRRQARQLVNHGHVT
+VDGSRVDIPSYRLQAGQTIGVREKSRNLNIVKEALEVNSFVPDFLTFDADKLEGSFTRLP
+ERSELPAEINEALIVEFYSR
+>tr|A6CS10|A6CS10_9BACI
+MRKKRIYFFSGMVLLIMIGLLVRLVQIQLLEAESFSKHHVNLIENSVNQRTQQLIIDEGR
+GSFLDRDGESINYETKNVLVLFPFLARIEWDAKKVADILKINEEDLLKDIEEAKEPFVYG
+GKAPYILSEVQMNKVNNLQLKGVFALKRKYPKGEILAEQLIGLTGENEERFHARYPDRVK
+GATQKIGISGLEKAFDEWLIAEQESKLIYHVDARGGPLFGVDVKYLAPANPFYPLDIKTT
+IDSELQKKLEDLIDQHAIKRGGAVLLDIESGNILASVSRPVVQQGTPFSNEGAKNLMTTQ
+LVPGSVFKTVVASAAIDLNLVDESALFNCDETIYGKPAPKPHGTININESFAVSCNRTFA
+DIAKKLIEEDDQTLDRYAEKLGLIGEIGWKGSVFHYEDFEQLPIDSGRIFINDGEREEAN
+YVAQTGIGQREVRVTPLGVANMMATIARGGKKQSIRTVSSIHYKNGTELVDFPVQKEDEL
+ALSPYTAMKMQQYLRNVVAGESGTAKFLQTAAYEIAGKTGTAQTGQYSGEKELYNKWFAG
+YFPFDSPKYALAVVNMDVLEYEGGIYPVFKDIADMIHSNSQTGEES
+>tr|A6CI61|A6CI61_9BACI
+MNMINIIPSGRNDLMEVEVTGDYTKEDMEKFEKAFHEKKTPNEEMNLLVVVNDMDFSMKA
+LKEDFLFGKDHMHEFNKVAVVSDKKFLEMGAKLEDMMPDLEVKHFDKDHRTDAVTWIQ
+>tr|A6CKT8|A6CKT8_9BACI
+MIIDCHFHVDETMLSLDKMIEEMDKNNVKKTALIPPVNETMFEKESKYQDNLHRLFRFLI
+LNFPRVGFKIYDGLVKDGYFKVNGSFKIFSEPNNDLVANAIKSYPDRFLGWAAVNPTVQE
+SVETLETYLNLPGFIGVKAHPFMHMYSIKKLDSIGYLCQKRDLPMIIHLSSEPDSYRYLP
+DKYPNLKVIYAHAGLPFWKSLWQYAKEKSNVYVDTSSDYLTPSIVRNVVQALGFRKVLYG
+CDGPYGMKNFNEYDYSDKMSWIDSLDIPQENKEFILGKNFMNLIKS
+>tr|A6CL70|A6CL70_9BACI
+MIVGGSNMTIYHFVGIKGSGMSALAQVLHDMEYEVQGSDVEKYFFTQKALEDSHIKILPF
+QKENIGGDMSVIAGNAFPDTHEEIEEARSQGLPVTRYHSFLGDFMQEFTSVAVTGAHGKT
+STTGLLSHVIRGAKPTSYLIGDGTGKGEKDAEYFVFEACEYRRHFLSYHPDYAIMTNIDF
+DHPDYFANVDDVFQAFQEMAMQVKKGIIACGDDEHLQKIQAKVPVLFYGFAEENDFQARN
+VNKTPEGTTFDVFVRNEFFATFSIPGYGDHSIMNALSVIALCHYEDIDTEIVKERLTSFQ
+GVKRRFSEKKIGEQILIDDYAHHPTEIKVTIEAARQKFPDREIIAVFQPHTFTRTQTFLN
+EFADSLSEADQVYLCEIFGSARENHGKLSIDDLKGKIENAKIIDEHDTKPLMAHEKGVLI
+FMGAGDVQKFQDAYEETLRNHVE
+>tr|A6CJV3|A6CJV3_9BACI
+MEFLIDTQRLKKALNIVGRVIPGNPSVPVLNGVKIEADLKGLILTGGDSDVSIAKTIDLQ
+QADAGRIIAPGKLVVPVRYFHNLIKKMPDDTFIKIKKFNKQVKITSGEIETTLSLLNEED
+YPERPENTGNEGVRIKGSLLVEMIKQTQFAISASDSRAVLTGVNWEFSENQLTLIATNSQ
+RMAMRKAAMSSPVTGSFILPGKAMTELVNAIDKHQFIQIYPSDNLVIFQADDLFLYTRLI
+SGNYPDITKIIPEQTTTEVVVSRIKLLQGIGRANLLASEWKHNNVSFSLTNEGRIQLTSS
+TSEIGVITEKLTPLEIKGDLSLKISFDGKFLAEALKSMSEELVSLSFGGSLRPIIIKPYN
+KKSTIHLISPVRAS
+>tr|A6CIX1|A6CIX1_9BACI
+MHFVKVVMKKEIKEDDTMNILWDFDGTLFDTYPAYTKVFSQVLGGTQDEQEIYDKLKVTY
+PHALDHYNVSSDQQEKMKTLRSELMPQDMPPFQHVEDVLKSADKNVIMTHKDRAGVMLIL
+KHYGWEKYFDDIVTIDDGFPRKPHSASYQYLHDKHNIDLAIGDRELDLMPAKELGIETCI
+FQSDCEIADYRLDNYSEFFNIFPIKK
+>tr|A6CNG7|A6CNG7_9BACI
+MMNKGQRLIKIRELISNHDIETQDELVDRLKNANFNVTQATVSRDIKELHLVKVPLMDGR
+YKYSLPADQRFNPLQKLKRTLTDAFVKIDSAGHMLVMKTLPGNANAIGALIDNLDWEEIL
+GTICGDDTCLIICKTEEDTEKISQQFLDML
+>tr|A6CLN2|A6CLN2_9BACI
+MEYLTNLKPFLQDAWKASEFTELTEVQQKAIPEAMDGKNLVCESPTGTGKTLAYLLPILN
+SIDEKKMQAQALILAPSHELVMQIHQEVQKWGKDSGINSIALIGGANVKNQIEKLKKKPK
+IVIGTTGRIMELIKMKKLKMHEVKTIVVDEFDLMIGNEHINNVRQVIKSTMADRQLLFFS
+ATLSDSTDKVASELMEDYEVIRVNQGVVSSSQVEHGYLLSEQRDKIEVLRKLSNVEGIKA
+LVFFNSLERLSEAEEKLKYQKAAVEVLAGESKKTERKHSLDKFRAGKVPMLLTTDVAARG
+LDISGVTHVIHFEFPTDAKQYIHRSGRTGRMGASGTVISIVTKREESFLEKMADELKFEV
+VKKRLHGGKIIAD
+>tr|A6CU30|A6CU30_9BACI
+MSSEFIAGRNPVLEALKSGRDINKIWIAEGSQKGSMGQITSLAKEKKVLVQFVPKQKIEG
+MVRDNHQGVVAQVAAYQYAEMDELYARAEQKGEIPFFLMLDELEDPHNLGSIMRTADASG
+VHGIIIPKRRAVGLTATVAKASTGAIEHIPVARVTNLAQTIDELKERGVWVAGTDAKGAD
+DYRRLDGTLPICLVIGSEGKGIGRLIRDKCDFLIKMPMVGHVTSLNASVAASILMYEVYR
+KRHPLGE
+>tr|A6CTY5|A6CTY5_9BACI
+AKEVTKKVFNNEELFILDVRNEDAFQDWKIEGHKFDYLNVPYFDLLDGVEEIMDKLPKDK
+DILVVCAKEGSSIMVAEMLSDEGMDVSYLEGGMKAWSEHLEPVKVGDLKDGGELYQFVRI
+GKGCLSYMVVSNGEAAIIDSTRMADIYTDFAETLNVKITHVFDTHLHADHISGGRVIAEK
+TGATYWLPPKDAEGVTFEYAALEDETEVTIGNTKINIHALYSPGHTIGSTSFVVDDQYLM
+TGDILFIDSIGRPDLAGLAEDWVGDLRETLYTRYKELSNDLVVLPAHFMIIDELNEDGSV
+SEKLGVLYEQNHGLNIEDEGEFRSLVTENLPPQPNAYQEIRKTNMGQITPDNDEQREMEI
+GPNRCAVR
+>tr|A6CS61|A6CS61_9BACI
+MLVLIQNGEVYAPDYLGKKDILITDDKFGFIEDRIEIPQGFFAEKVKVINAEGLAVLPGF
+IDSHVHILGGGGEGGYKTRTPEIKLTDATLAGITTLIGVIGTDGTTRTMASLVAKARGLD
+EEGITCYVQTGSYQVPVRTLTGKIEDDIILVDKIIGTGEIAIADHRFSQPTAEEFARIAS
+QSRLGGILSGKSGVVNVHLGDSRDCLKLIYDVIENTDIPIKQFYPTHINRNPYLFEKGIE
+YALKGGYVDFTTSTIPQFLEDGEVECGKGLKRMLDEGVPVENITFTSDGQGSLPEFDRDG
+EFVGLKVAQVSSLFKAVRNAVLQEGISLATAIKVITSNPARILKLKQKGFIAEGKDADIV
+LVDKETLMIDTVLAKGKVMVEKGQAVVKGTFE
+>tr|A6CK47|A6CK47_9BACI
+EGMDEQTLNKLGEPFYTTKEKGTGLGFMVCMRILKDHYGSIHVESEKGKGTTFDISLPAA
+LPKKSKRGKQAAKESV
+>tr|A6CSK5|A6CSK5_9BACI
+NMNHKETAQQLVKLLGGKDNVISATHCATRLRLVIDDESKIDKGAIEELDEVKGAFSSSG
+QFQIIFGTGTVNKVYQEFGPLVGASMEDESSKEGVSHSDAAKRKMNPFARFARTLSNIFV
+PIIPAIVAAGMLMGLLGLMKTYNWVDPESGLVVMLDMFSSAAFIILPILIGFSAAKEFGG
+NGYLGAVIGGIMTHPALLNPWGLANAEPSTLDFFGFGVQMLGYQGTVIPVLLTVYIMAKI
+EKGLRKVVPNTVDLLVTPFLTVIFTGFVALLIVGPIGRTLGNGITTVLDVVYNTAGPIAG
+LVFGGLYSTIVLTGVHHSFHAIEAELLANVGANYLLPIWAMANVAQGGATLAVFFRTKNK
+KTKEIAVPAAVSAFLGITEPAIFGVNLKHRRPFIGAAIGGALGGAYVVFTQVAANGIGLT
+GIPMFAIAQDPINYGIGFIIAVAGAFAATLILGWKEEAK
+>tr|A6CTS5|A6CTS5_9BACI
+MAIQFYSYPKCSTCRKAKQWLEENDKEFNEIHIVENPPTKEELKALYEKSDLPLKKFFNT
+SGKKYRELGLKDKVNSSSDDELLEILASDGMLIKRPLAAEGSSVTLGFKEETYEDTWK
+>tr|A6CJJ1|A6CJJ1_9BACI
+MYRTTQKIRITYGRGMKMKKISSVFWITVAIVLAALIFGVSAPDSFEESTARVQSFITTR
+FGWYYLILVTSIVIFCIFLIISPIGTIRLGKPDEKPEYNTTTWFAMLFSAGMGIGLVFWG
+AAEPLSHFIAPPLAEGGTNEAIKEGMRYTFFHWGIHAWAIYALVALALAYFQFRKGEPGL
+VSATLKPIFGDRVNGPLGTVIDVLAVFATVVGVATTLGFGAAQINGGLSYLLGIPNNFTM
+QFIIIAIVTVLFMISAWSGLSKGIKYLSNTNMVLAIALLVLMFIVGPTLLILNLFTDTLG
+AYVQSLVRMSFRIAPLNEDHQSWINGWTIFYWAWWISWSPFVGIFIARVSRGRTIREFLF
+GVLLLPSLVSMLWFSVFGTTAIELQQLGAVDLTTFATEEVLFAVFNQIPLSAILSVVAVI
+LISTFFITSADSATFVLGMQTTYGSLTPPNTVKLTWGIAQSTVALILMYSGGLQALQNAL
+IIAAFPFSMIMILMMVSLYRALTKEKKELGLYLKPKPRNKIR
+>tr|A6CM50|A6CM50_9BACI
+MLNVLLIFAARRNKKRQLEILAKEIQEGNEEALNQVLVDYKPFVKKTVSSVCKRYIYESD
+DEFSIGLIAFHDALLKYNSDRGASLLSFAEVIIKRKVIDYIRMNGRHQNISVEVNTETED
+GEVQNRITDTLSMEEYDRARVANERKEEILAFTRKLKEYSLRFDDLVKNSPKHEDARQNA
+ISIAELVVSTPSLLEYLQEKKRLPVKQLEKEVGFSRKTIERNRKYIIAITIIMMGDFNYL
+KDYLKGRMKQ
+>tr|A6CQ11|A6CQ11_9BACI
+MKAVLVTEFGGTEFIKVGSVRTPTIEDHEVLIKVAKTSVNFADIKSRYGNKGGAKLPFIP
+GLDAAGYIEKTGSGVTSLYEGQRVIAFPKAGSYAEYAVASKELVFPIPEEMDFNTAAACP
+VVSFLSHRLLYNVARIQKGETVLVHAAAGGVGTTAIQLAKLLGAGKVIGTVGNRDKRQFA
+KESGADSVICYEEEDFAQAVNSITNGKGADIILDSVAGSVTENSLNCLAPYGRLVHFGNS
+GGKAGKILTSELHSSCRSVLGFSLGTTRKLRPELLHETAKEVFPYLVRNQLKIKIQHEFS
+LEDAAKAHELMENRLNRGKIILNVE
+>tr|A6CQR4|A6CQR4_9BACI
+MKINQDLRVGVDKVRSEQKSNAGGSEKFSMLVGKQDQKLQMEQLGKLLGDITSAGERLGR
+SRTFKDLAKYKTLVKRFVKEAVDYGMNLKQSHTWNQHGEGRKLNIIENVDRKLIELTEDI
+LNEEKQSIDILGKIGEVRGLLINLYT
+>tr|A6CLY4|A6CLY4_9BACI
+DQTAVFALGGLGEIGKNTYGVQFQDEIILIDAGIKFPEDELLGIDYVIPDYTYLVKNADK
+IKGLFITHGHEDHIGGIPYLLREINIPIYGGKLAIGLLKNKLEEHGLLRTAKLNIIQEDD
+VIKFRKTAVSFFRTTHSIPDSYGVVVKTPPGNVVHTGDFKFDFTPVGEPANLTKMAEIGK
+EGVLCLLSDSTNSEVPNFTMSERKVGESINDIFRKVEGRVIFATFASNIYRLQQVIEAAV
+MHGRKVAVFGRSMENNIAIGQDLGYIQAPKGTFIDHGQINRLPANEVTILCTGSQGEPMA
+ALSRIANGTHRQIQIHPGDTVIFSSSPIPGNTISVNRTINMLYRAGADVIHGSLNDIHTS
+GHGSQEEQKLMLRLIKPKYFMPIHGEFRMQKMHTQLAVDCGVEPENCFIMDNGEVLALGN
+DTAQVAGKIPSGSVYIDGSGIGDIGNIVLRDRRILSEEGLVIVVVSINMSDFKIASGPDI
+ISRGFVYMRESGDLINEAQTIISKHLSKLLERRTSQWSEIKNEITDTLAPFLYEKTKRRP
+MILPIIMEV
+>tr|A6CTD9|A6CTD9_9BACI
+MLTLHEVTKTFSGFGAIKSVSLTIENGEIHGIIGASGAGKSTLLRLMNLLETPDEGEVEV
+SEQLLTKMNGKKLREARKSIGMIFQHFNLVANKTVYENVVVSLELANIPKKDRRDRVMEC
+LRFVGLESFMNKYPAQLSGGQKQRVAIARALANKPQVLLCDEPTSSLDPNTTADILGVLN
+EINKSLGVTIVIVSHEMDVIKSICNRVTVMANGEVYDTVESEPKGIEMRDDSPDYFIEQL
+TKDV
+>tr|A6CKL7|A6CKL7_9BACI
+MGKLISFFNRIMQRYLPDPFLFVVILTFIVLGLGLIFTDSSVMNMVQYWGDGFWNLLAFS
+MQMVLVLVTGYVLASSPVFKKGLGALASSAKSPSQAIIIVTVVSIIASWVNWGFGLVIGA
+LFAKELAKKVKNVDYRLLIASAYSGFLVWHGGFSGSIPLTIATEGHFSQELIGVIPTSET
+IFAVFNVTIVLALFIIIPILNRFMMPSQKDTVVVDAQILEEETSATETAAAIAETPADRL
+ENSYIVSLLTAVLGIAFLVYYFVNNGFALNLNIVNFLFLFLGILFHGTPKRFLESVIEAV
+KGASGIIIQFPFYAGIMGMMTASGLAAVMSEGFVSISSEFTFPFFAFLSAGIVNFFVPSG
+GGQWAVQAPVMLDAAQTLGVSTAKTAMAVAWGDAWTNMIQPFWALPALAIAGLKAKDIMG
+FCTITLIVSGIVISLGLLFI
+>tr|A6CNA7|A6CNA7_9BACI
+MKAIVYKKYGKPDVLQLTEVDKPAPEDNEVMIKVYATTVTATECTFRRGKPYFSRLYTGM
+IRPKNQRLGDEFAGEIEEVGKEVKKFKKGDHVFGTCTGYGAYAEYICLPEEGETLAIKPA
+NLTFEEAAASCDGALTALPFLRDTGKIKSGQEVLINGASGSIGTYAVQLANYFGAKVTGI
+CSTANVEMVKSLGANEVIDYTKEDFTKKGKTYDIIFDTVGKLNFSRCKGSLKKDGVFLEA
+AIDLGVLPQVLLTSIIGSKKARIAATGMRSGVERTKDLLFLKKLIEAGKITPVIDRHYSL
+EQIVDAHRYVDKGHKKGNVVIQLTDK
+>tr|A6CKI4|A6CKI4_9BACI
+MMDEHHYLSAGNASGALTIEGVPSAAFICYDIRFPEWMRTHTAGGAEVLYVVAEWPLARL
+NHWRTLLLSRAIENQCYIVACNRSGSDPKNKFAGHSMIIDPWGEILEEAGEETEVITAEL
+NLEKVKEVRKQIPIFQDRRPELY
+>tr|A6CQY1|A6CQY1_9BACI
+MKVGIVGTGNMGGILMEAFLESGAISPSDLNVANRTRAKAEKFKKKFQDITIYNEPANLI
+KDSDVIFICVKPLDIYDLLKSSQSCFTQDKCIVSITSPISVEQIESLVDCSCMRVIPSIT
+NRALSGVSLFSYGSRCTKEWQDAIWKLLSTISTPVIINENITRVSSDIVSCGPAFFTYLT
+RKFIQGAVSETEIDESTATILASEMLIGLGELLKKEIYTLAALQEKVCVKGGITGEGISA
+MEANLGELFHELFRATHKKFEEDLEETKKQFGL
+>tr|A6CSQ3|A6CSQ3_9BACI
+MENVTLNVTGMSCGHCVKAIEKSVGELNGVQSVKVLLDSGKVDVSYDGSEVTLDTIKETI
+DDQGYDVQ
+>tr|A6CK97|A6CK97_9BACI
+MSKKDYQLDESIGYKLFHASRLMNSRLNQNFRLHEYSITYEQWQVLSRLYEEDGITQNQL
+ANSIERDQASISRLIDNMIKKELVTRVPDDTDKRIKRIYLTEESKKIQRDLEDLAFKTIS
+QATRNMSEKELEICLKMLDQIRSNLK
+>tr|A6CSG6|A6CSG6_9BACI
+MRYLTAGESHGPQLTAIVEGVPAGMPLSADDINYELGRRQKGYGRGRRMQIEKDQVNITA
+GVRHGKTLGSPLALNVENKDWTHWTKIMGIEPISSDEEGDIKRKITRPRPGHADLNGGIK
+YGHRDLRNVLERSSARETTVRVAAGAVAKKLLSLLGIKVAGHVREIGGITAENVPYGSIE
+ELMEKTENSPVRCLDDDAAQKMMEAIDSAKKAGDSIGGVVEVIVEGMPPGVGSYVHYDRK
+LDAKIAMAIMSINAFKGVEFGLGFEMARKPGSEVHDEIAWNEEQGYYRKTNRLGGFEGGM
+TTGMPIVVKGVMKPIPTLYKPLKSVDIESKEEFTASIERSDSCAVPAASVVAEAVVAWEL
+ANALTEQFNSDQFESLKSSIDDFVRQSKEY
+>tr|A6CLQ0|A6CLQ0_9BACI
+MKRVEVKLHDIGEGMTEAHVSHFFVKAGDSVKADQPLVEVQTDKMTAEIPSPSAGTIKEI
+LVSEGTTIEVGTVVLVMETAGGSKPEQKVKQEKPMISAVSTAPAAPRNRKRILASPYTRK
+IARENNIDITEVEGTGAAGRITDEDVRRFIASGIPSQPNAEETRQEVSRPEAKPKVSVHG
+ESIPFRGRRKQIGMKMKSSLKTIPHCTHFEEIDVTNLMELRNGLKLKDTNISASAFFVKA
+LSIALKDFPIFNARVDEEKEQITFNNEHHIGIATDTEDGLIVPVVKNVENKSLKVIHSEM
+KEFTLKARENKLAAKDVTGGTFTISNVGPMGGSIGATPIINHPEVALVSFHKTKKRPMVD
+ENDEIVIRSMMNISMSFDHRAADGATAVAFTNRFAELIENPNLMLVELM
+>tr|A6CNP8|A6CNP8_9BACI
+MNTWRNVSMKLKKIAALSLAASLAIFPSFGGSALAKESNPLENAPKSSAVNKSFEKGSYV
+KGEVVVKFKDSVSDAEKGNALKKLGATEIPDTDSVKSEFKVLKVGNVEAVVKALSKNPNV
+EYAEPNYNFSATWTPNDTYYQGYQYGLKNTYTNYAWDYSRGSSGQEIAVLDTGVDYNHPD
+LDGKTILGYDFVDNDYYPMDLNGHGTHVAGTAAAETNNGRGIAGMAPDTKILAVRVLDAN
+GSGSLADIADGIQYAADTGAEVINLSLGCDCNTTTLKNAVDYAWNKGSVVVAAAGNDGVS
+TTFEPASYANAIAVGAVDSYDQKASFSNYGFWVDVTAPGVSIAATVPNNGYAYMSGTSMA
+APHVAGLAGLLASQGRTNSQIRAAIEQTADPISGTGTYFEHGRINSHDAVRY
+>tr|A6CSE5|A6CSE5_9BACI
+MAITHATDQTFKNEVSSGLVLADFWAPWCGPCKMIAPVLEELDSDMGDKVKIVKVDVDEN
+QETAGNYGVMSIPTLVVLKDGEVVDKVIGFQPKEALAEMLNKHA
+>tr|A6CTV1|A6CTV1_9BACI
+MKTTLKFKHKKVLVLGLAKSGVSAASLLHKLDAFVTVNDRKPFSDNPEAQGLLQQGIKVI
+CGSHPIELLDEGFDYIVKNPGIPYNNPLVSGALEKGIPVLTEVELAYLVSEAPFIGITGT
+NGKTTTTTLVHEMLDKGGKQPLIAGNIGTVASEVAQTAKEENNIVIELSSFQLMGIEEFR
+PKISIFTNLYEAHLDYHGSIEDYAKAKANITANQTKDDYLVINADQPELAELLSFSKAQK
+IYFSTRRPLEKGASIKDGAIYYDDDKIMETSLIALPGKHNLENILCAVIAAKLSGVSNEA
+IQEVLKTFTGVKHRTQFVRTLNGRSFYNDSKATNVLAAKSALEAFDQPTILLAGGLDRGN
+SFDELIPYLKNVKALITFGETAVKFLETAAKAGIQTVKRVDNVEAAVPAAYEISEEGDVI
+LLSPACASWDQYRTFEVRGDIFIDEVHKL
+>tr|A6CS82|A6CS82_9BACI
+MVSYFNNSNEPTENIKYNEFITHLEDGEVESFSIQPERGVYQVKGKLTGYTEEQYFLTNV
+LGNDAGVLERINAAAAETGIEVDVLMAKETSGWVSFFTTIIPFVIIFILFFFLLNQAQGG
+GSRVMNFGKSKAKLYSEEKKKVRFKDVAGADEEKNELVEVVEFLKDPRKFSEVGARIPKG
+VLLVGPPGTGKTLLARAVAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFENAKKNAPCI
+IFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFGANEGIIIVAATNRPDILDPAL
+LRPGRFDRQITVDRPDVKGREAVLKVHARNKPLDESVDLQAIAARTPGFSGADLENLLNE
+AALVAAREDKKKIDMRDIDEATDRVIAGPAKKSKVVFKKERNIVAFHEAGHTVIGLVLDE
+ADMVHKVTIVPRGQAGGYAVMLPKEDRYFMTKPELLDKITGLLGGRVAEEIIFGEVSTGA
+HNDFQRATGIARRMVTEFGMSEKLGPLQFGSASGGQVFLGRDINNEQNYSDAIAYEIDLE
+IQRFIKESYERARKILTENREKLELIANTLLDVETLDAGQIKHLMDHGKLPERAYGEPDK
+HLRKKMSK
+>tr|A6CQL9|A6CQL9_9BACI
+MQSMVNTENLSITPAKMNLTNVITSPKNIHKIFTFSLKTFELITYPEQENYFSGRTFLGL
+LGKNDKDQFRYAVQQLIDGELNISSFYAEIKMSESSKVYAKIQLQLIQHNNQTCCIALVN
+DRYSESTSEEGSCLEGLMDTQCQKVFYKRLQDSINLSVKTGTLVSVLLLDLDRFKNINHS
+LGRRYGDEILNLIPKRLQAHIRQNDGLIRLEGDQFLFVFKSLRSSADIDQIADRLLESFS
+EPFQVEGFELFITPSIGVSTNNGENCDAESLIMDAEKAMYKAKESGGNCYKYYHETMNSS
+VLERLVLENHLRKAIEFEEFVLYYQPLVDTKTNEINSLEALIRWDHPTRGILSPAEFIPF
+AEEIGLIGQIGEWVIKEACRQLRKWHDLGFTSLSMSVNLSAQQFKDDRLQEKLMNILNEN
+RLSPEFINLEITETSAMEYSNKFKNVFNNFKHTKLKIHLDDFGVGYSSLSYLKQWTIDTL
+KIDRSFIKELVLDSDNREIVTAIINLAHALGIKVIAEGVENKSQLEILDSLGCDTLQGYY
+ISVPLPKEEMSSYLVQYQQAN
+>tr|A6CSH7|A6CSH7_9BACI
+VDSILIDEARTPLIISGQAQKSTQLYLQANAVVRMLSKDTDFTYDEKTKGVQLTEDGITK
+VEKAFNIENLFDLSHVTLNHHILQALKAHVSMQKDVDYVVQDEEIVIVDSFTGRLMKGRR
+YSDGLHQAIEAKEGVEIQNESMTMATITFQNYFRMYEKLSGMTGTAKTEEEEFRNIYNMN
+VVVIPTNKPIARDDRPDLIYASMEGKFRAVVEEIAERYQKGQPVLVGTVAVETSELISRL
+LTKKGVRHNVLNAKNHEREAEIILEAGQKGAVTIATNMAGRGTDIKLGEGVLDLGGLAVI
+GTERHESRRIDNQLRGRSGRQGDPGVTQFYLSMEDELMRRFGSDNMKSMMERLGMADDQP
+IQSKMVSRAVESAQKRVEGNNFDARKQLLSYDDVLRQQREIIYKQRFEVLDSENLREIVL
+SMIKSVITRSVEAHAPIIEEEEKWNLQGIIDYVNATLLQEGDVTVADLQGKEPEEMIEVI
+YAKVQERYNDKEEELTSEQMREFEKVVLLRAVDTKWINHIDAMDHLRQGIHLRAYGQTDP
+LREYQHEGFAMFESMVLAIEEDAARYVMKAEIRNNLQRQEVAKGQAVNPKEDTSGKTKKK
+QPVRKADNIKRNDLCPCGSGQKYKNCHGKVE
+>tr|A6CL84|A6CL84_9BACI
+MMVAGPQAYLLTTRYAAPLMIKHRKGLIVNLTFFIKERIAGNLYYDLAMNAINRMTLGMA
+KELKEFNVSAVAVCPGWMRTERVTDSGFRPEDGTTETTAYVGRAVVSLASDSQVSKISGE
+AILVAELARKYAFTDVDGTKPLPFEG
+>tr|A6CL62|A6CL62_9BACI
+MIEFKGLTKVYESGDQPVRALDGIDLKINEGEIFGVIGFSGAGKSSLIRCVNWLEKPTSG
+SVIVDGKDLTRLTPKEIREVKRNIGMIFQHFNLLNSKTVFANVAMPLKLAKVPKDAIKER
+VTELLEFVGLGDKADYYPDQLSGGQKQRVGIARALATRPSMLLCDEATSALDPQTTNSIL
+QLLRKVNKEYNITVLIITHEMTVIREICDRVAVIEAGKIIEEGSVFNVFSTPKTNTARNF
+VSTVMNDALPESIKEIVRKNAGLQKIFRINFVGESAGQPLLSKIAKKFDIDTNVLFGNIT
+ELQGVPFGNLIVEFIGSESEINRALMYINQEKVGIKEVEANAS
+>tr|A6CR34|A6CR34_9BACI
+MAVELKANNRTGSKRSDLTNLRHQGSIPAVVYGYKTENTPIAIDSIEFIKTMREAGRNGI
+ISLNIDGNKQNVVLSDYQQDHIKDAVIHADFLAVNMSSEMDADVRIELVGESAGVKDGGV
+LQQPLHDVSVTAKPSDIPDSVQVDISGLQVGETITVGDIKGNYSFTINTEDERTIASVLA
+PRQEEEISSGEEQEAGQPENEEGRETEASNESEGAEE
+>tr|A6CSY3|A6CSY3_9BACI
+MKQSMTLIPTLRETPADAEVKSHQQLLRAGFIRQNSSGIYSFLPLGRKVLQKVEEIIREE
+MINAGGVELLMPALQQAELWQESGRWGTYGPELMRLEDRHKRSFALGATHEEVITSLVRD
+EIKSYKKLPLTLFQIQTKFRDEKRPRFGLLRGREFIMKDAYSFHSSYESLDDTYEKIFQA
+YSNVFTRCGLNFRAVIADSGAMGGKDTHEFMVLSDIGEDTIAYSDTSQYAANIEMAPVTA
+RYEESTEAENEMQKIETTGQKSIEEVSSHLQVEKDKCLKSLLFKVDEEFVLVVVRGDHEV
+NDIKVKNLLDASVVELASAEETKELLNAPVGSIGPVNLKADVKIIADEAVKYQKNAVCGA
+NEEGFHFTNVNLERDFNVDQFADLRFIQEGDPSPDGQGTIVFAKGIEVGHVFKLGTRYSD
+AMGAQYLDENGRAQSMIMGCYGIGVSRTLAAVAEQYCDENGLQWPSSLTPFDVHIVPINI
+KNDEQRELAEQLYSELKEQRFDVLLDDRQERPGVKFTDSDLIGLPFRVTVGKKAADGVVE
+VKIRKTGDVIEVHKDELTAKLQELFRNQY
+>tr|A6CJE8|A6CJE8_9BACI
+MKITKINCRYNVKVPEGKRDAAERALSVFERGCPVAQTLKGAVEFDHSWEIEEY
+>tr|A6CN73|A6CN73_9BACI
+MRFSLEEAVWFKKGQEVEELLSISLDPHITIQEQEQYVLIRGTLDLTGEYLPSGSNEEEE
+PGNWYDFQHNGKYVQRVEHREKGECEFAHSFPVDVTIPKNRIANLEEIDVYVDSFDYVVP
+ENACLKLNADLTISGIYGEQQVHAPIELAEDGVIEPVYRSAPAAGVLQEVEEEESFDDLE
+ETVYEVDRDEEEVKTEVDYEDQQTEEYEEDTYEPFTIEGRKAPEEEEEVVIPISYEAKKE
+SPPTFSYDEEEFEYARGEQIEFEEEEAVEAVEAEYEEEEESSSSSSAEESKKKPLFKKKN
+ETISLTDFFARKDEERGAKMKVCIVQQGETLELIADKYDLSIPQLLRVNHLEAHQDVSEG
+QVLYIPQEAVYKN
+>tr|A6CM80|A6CM80_9BACI
+MKIDRIILHVIKMNLKKPFSTHLGTVQEREGIIVEVIDENGLRGFGEGVAFTTPWYTEET
+VGTSLHILKEVLIPLLHRTSISHPKEVFPMFSVVRRNNMAKAALECALWDLYAKQLDQPL
+WKVIGGKRETIAAGAVAGAPSVLETIRQVHGFVKDGYERIKVKISPEMDYELIKGIRKEF
+PQLRLMADANSAYTLSDIEQLKKLDDFGLEMIEQPLGIDDIYEHSLLQKEMKTDICLDES
+ITSLHDAKSAIALGSCRFINIKLGRVGGYVPAVSIHDLSEREGVRVWCGGMIEFGVSRAH
+NIALSTLDGFDFPGDISASSRYWEEDIIEPAISVVNGRISMPQGPGIGVELNRRRLQQVS
+LFTQEYSK
+>tr|A6CSR6|A6CSR6_9BACI
+MHDYIKERTVKIGKYIVETKKTVRVIAKEFGVSKSTVHKDLTERLPEINPELANEVKDIL
+DYHKSIRHLRGGEATKKKYKKDELEIN
+>tr|A6CTU3|A6CTU3_9BACI
+LLVLMLSACGTANQEEQSQNNSQNETTGSEPQQETADPVDDSDVNYPQLNDEIQENEQAV
+KMITNMGDITIKLFPEQAPKAVENFITHSKDGYYEGVTFHRVISDFMIQGGDPDGNGTGG
+ESIWGEPFEDEFSKELLNIRGALSMANAGANTNGSQFFIVQNSAIDPGLEEKMAAAGFGK
+KAIEIYMERGGTPHLDNRHTVFGQVIEGMDVVDAIAAVETGANDKPVEDVVIEKIEIIKE
+>tr|A6CIM0|A6CIM0_9BACI
+MKPALFEKRELYSRVYLYMISFLGWLTVFSALLSVEPIGNYLILFLLFLFLMVSEYYPMP
+VWRGFTAITFPIVYVIFLLFGFSVAALTYAAAVLLVNIKHQRPLRTIIFNPAQLVLSLYV
+ATVFLKMLDPFIQNAIETPFLLGITQYFFLQLFFFLVNNLIVDIVLLIRPQAYTLKAWAT
+KTITELNCVLISLLYGGMLYVLGSQNRGEIDVFSYFFFFSPLVGFALLSSAIVGLRAEKK
+RLKSLFIITSQLNQFVPGERWLHELKHNFSEFINADAFALWVKEDGNWYMQFQKGDNVQH
+TELDQEVANEFEEVKEPIIHGDLRTNLTKSRSLFNDRLKAFVYFPLRVEKETVGMLVAAR
+NRTKSFTDEDVQSIATLSNQLAVTIKTRMLFKEKEKRILLEERNRIARDIHDGIAQTLAG
+AIMKLESAGRRFNKKPEETLKLMDESVYGLRDSLREVRESIYALRPYPTERVGLSKAVGS
+KIEAVKKEFDLNISFEIRGEEIELSSMVEKVLFDIFQESLQNVIKHAKASSIEILLSYQS
+ENILLRIKDDGVGFSLFQAMLNARERPHFGILQINDSAEKINASLQIDSKEGEGTEVTII
+VPKMGLEGEKDYDQINVSG
+>tr|A6CMG7|A6CMG7_9BACI
+MGMMFMIDNKKIHDKLLDVVKTENIKVDEMLKDHLYTKLGGKADFFITPTTYEEVQNVVK
+LSNEENIPFTLLGNGSNLIIKDGGIRGIVINLKHLDDISTDGTTIVAQSGARIIDASRRA
+LAESLSGLEFACGIPGTVGGALYMNAGAYGGEIKDVLDYAYVVDKEGNLVKRLASEFDLD
+YRTSNIPDNGDIVLEATFKLKPGKYEEIKAIMDDLTYKRESKQPLEFPSCGSVFKRPPGY
+FAGKLIQDSQLQGKNIGGAEVSTKHAGFIVNKDNATAKDYISLIEHVQKTVKEKFNVDLE
+REVRIIGEDLE
+>tr|A6CJJ9|A6CJJ9_9BACI
+MKRFFALVFFTIVPLFCVACSPNQQIEELTNEKAKQKIDSGDITVLDVRTEEEHAAGHIQ
+KSISIPLGDLEDRLDELDKNGAYMVVSQTGSESSQAAAVLVNNGFTEVYQLKSGMSAWSY
+PLEK
+>tr|A6CQJ0|A6CQJ0_9BACI
+MNLEQIKYVMEVSKEGSITRAAERLHLSPSALSQSISQLEKELGVTIFTRSRKGTTLTSE
+GKKIVNSGNEILSSIEKMYRDLSIDKEEKLLKIGCAPSIIYIVYDAFILFHKEHSNVKVE
+IIELDQDEILTKLVHGEIDLAFSPFSERELEGSSIREFIDYKLIYTGYACLCVSKHSPLF
+LKDFVTIEDLKEEKMVMYNSKRSNEFNNQYLPHASLLFTTNNIEVLKSALLDGHASSLVY
+NFTFKNHPDVKKGNLAIIPFMKPGKLINYFWVIHNKNKVISYEMVEFQKKIIQLLND
+>tr|A6CL21|A6CL21_9BACI
+MTELKAIQQLQTPNTTSSLMDDFLRMGIEKGMTLIVHSSLSSLGWVCGGAVSVVTALMEA
+VGKEGTLIMPSQSADNSDPAEWQQPPVPEAWWPTIRDKMPAYDPDTTPARGMGVIAETFR
+SFPGVKRSLHPMYSFTAWGKHAEYILSEQPLEEGFGPRSPLAKIYELDGDVLLLGVTHDS
+NTSLHFAEHSIPHREKVQKGAAMKENGNRVWNTYEEILYDSDPFEKLGKEFEKQQPVKSA
+VIGNADCRLMKQRAAVDFARNWLQQNQSK
+>tr|A6CTA2|A6CTA2_9BACI
+MVVGDFPIETDTIVVGSGPGGYVAAIRAAQLGQKVTIIEKENLGGVCLNVGCIPSKALIT
+AGHRFHQAQHSDDMGIVAENVKVNFDKVQEWKGGVVKKLTGGVEGLLKGNKAEIVRGEAY
+LVDANTLRVMDESSAQTYKFKNLILATGSRPIEIPSFKFSKRVLDSTGALNLTEIPESMV
+VIGGGYIGTELGTAYANLGTKVTILEGADDILSGFEKQMTQIVKKGLKQKGVDIVTKAMA
+KGVDETDSGVTVKYEVNGEEKTVDAEYVLVTVGRRPNTDEIGLEEAGIDMTDRGLIKIDK
+QCRTNVSNIFAIGDIVDGPPLAHKASYEGKIAAEVISGEPAEIDYMGIPAVCFTDPELAT
+VGYTEAQAKEEGLEITASKFPFAANGRALALNATDGFMKLITRKADGLIIGAQIVGSGAS
+DMIAELGLAIESGMTAEDVAMTIHAHPTLGEISMEAAEVAMGSPIHIIK
+>tr|A6CMZ8|A6CMZ8_9BACI
+MNLRNDLRNIAIIAHVDHGKTTLVDELLKQSGIFRTNEHVEERAMDSNDLERERGITILA
+KNTAIQYKDTRINILDTPGHADFGGEVERIMKMVDGVLLVVDAYEGCMPQTRFVLKKALE
+QNLTPIVVVNKIDKDSARPEEVIDEVLELFIELDANEDQLEFPVVYASAINGTASTDPDP
+ANQDENMQCLYESVIEHIPAPIDNREEPLQFQVALLDYNDYVGRIGIGRVFRGTMKVGQQ
+VALMKIDGSVKNFRVTKIFGFMGLKRVEIQEAHAGDLIAVSGMEDINVGETVCPIDHQDQ
+LPVLRIDEPTLQMTFLVNNSPFAGREGKYVTSRKIEERLLAQLQTDVSLRVENTDSPDAW
+TVSGRGELHLSILIENMRREGFELQVSKPEVIVREIDGVKCEPVERVQIDVPEEYTGSII
+ESMGTRKGEMLDMINNGSGQVRLIFMVPARGLIGYSTEFMTLTRGYGIINHTFDSYQPMQ
+KGQVGGRRQGVIVSMETGKSSQYGIMGVEDRGTIFVEPGTEIYAGMIVGEHTRENDITVN
+ITKTKQATNVRSANKDQTVTIKKARIMTLEESLEYLNDDEYCEVTPESIRLRKKILDKNE
+RERVTKKKKVAETN
+>tr|A6CRI2|A6CRI2_9BACI
+NEGSIERKHPHVTSNEDLEKKLEANENIVVLDVREAAEYAFNHIPYAISIPLGELEERHS
+ELDINDEIYVVCRTGSRSDLAAQKLAEIGFANVLNVVPGMSAWSGKSNSVNK
+>tr|A6CME6|A6CME6_9BACI
+MKKKIITLTTTAVFSASCIANASASTYKVEKGDTLWAISKKHNTSIEDLKKWNNLSKEVI
+FPNQVLKLSSDNQIHSSPSKNEPSSTVIQNTYTVKPGDTLSKIAVIHSITLEQLMNWNNV
+SSHLIYPGQTLIVKSSNAGQSTETPRPQTSTPAVPSQEVTTYKVQRGDTLSHISFKFNIS
+IADLKMLNKLNSDTIYVGQDLKIEITSNDVTPSTPGNPLKDSEVLLNEAKTHLGTPYVWG
+GSTPEGFDCSGFIYYVYKKAGRSISRYSSGGYYNRSYYVHTPQPGDLVFFENTYKKGISH
+LGIYIGDNQFIHAGDNGVEITSLDNAYWNSKFDGFKRLYDL
+>tr|A6CJD3|A6CJD3_9BACI
+MEDKVLRKLFLGFIHIHILHHAKEHPVYGTWMAEELKEHGYNVSSGTLYPILHSMESDGL
+LVREDKKVEGKIRKYYSTTEKGNEILGEARKKAFELFREIKD
+>tr|A6CUJ1|A6CUJ1_9BACI
+CDFDIAVFTNITQDHLDYHRTMEEYRSAKSLLFSQLGNSYDEKKLKYAIINNDDPSAGFF
+IHSTAAHVVTYGVSQDADFYAEDIELRHNGSSFTMVTPSERIKMDIQLAGRFNIYNVLAA
+AASANISGVPLKNIKAALQSINGVSGRFEQVEAGQDFSVIVDYAHTPDSLENVLKTIETI
+TDENVIVVVGCGGNRDRTKRPIMAEIACKYGDQVVFTSDNPRNEDPNAIIADMTTGLKHT
+NYIVIIDRQEAINHAVSLAGKGDVVLIAGKGHETYQIIGDAVTSFDDREAAKAAIKRLN
+>tr|A6CTJ0|A6CTJ0_9BACI
+MTHLVQDQIEVYAKQVSKGKNPYCGDSFYFTSTDDYFICILADGLGSGKFAYESSNAVVE
+LVEKYHHEDVSTLMDYCNQELMHKRGAAVAIMKVYYASNEFEYSCVGNIRFYLYSSVGKM
+TYPLPVTGYLSGRPQKYRTQRFSYEPQSKFLLHSDGLNITNIKSLLQNSNSLRKINDEIS
+LRLAEPIDDTTFIVGSLL
+>tr|A6CU83|A6CU83_9BACI
+MENDYFIVEAQKGNLTAYSELVRVYSPVVERFAFQLGASGSDVQDISQEVFIRVYRFLHQ
+FSHSKFTTWLYKITLNVTRDFKRKENRQLMKTEKLSKETFGADLTMPEVTIFREEEDKLL
+HECIQKLDEKYRIPIILHYFHDKKYEEIQDILSLNPSTVKTRLLRGKNLLKKALVEAEKK
+EGENHG
+>tr|A6CSG8|A6CSG8_9BACI
+MMIRGVRGAITISSDSEKEIISSTELLLLEMINKNGIEPEQVASVFISATADIHTAFPAR
+ALRKIKNWKYVPVLSMQEMEVKDSLNKCIRIMIHWNTEKKQEDIRHVYLRKAHTLRPDLL
+S
+>tr|A6CIS3|A6CIS3_9BACI
+MSEDRQLIQEILRGSQAAMEVLTRKYYKDVFAFVYRKTGNRDLAYDLTQEIFIKVIKKIG
+SYSNSGSFKSWVFSIAMNHCRDYWKSVEHKRIQKQSDLTEFLTNEKTNVSYIFAQKETRE
+RVKAAVHELPEYQRDAIILKYYHEMKIHEIATVTNANESTVKSRLKQGLGKLAKLLGRGE
+EYGQQQKK
+>tr|A6CR62|A6CR62_9BACI
+MKAKIAINGFGRIGRMVFRKAILDENIEIVAINASYPAETLAHLIKYDTNHGIFQAEVAT
+EENAIIVNDKRVKLISNRDPRELPWKDLEIDIVIEATGKFNSKDKASLHLEAGAKKVILT
+APGKNEDVTIVMGVNESALKIEEHDIISNASCTTNCLAPVAKVLDEQFGIENGLMTTVHA
+YTNDQKELSIIS
+>tr|A6CSY9|A6CSY9_9BACI
+MSLERFLSQASSSWMSEDGPNSDIVLSTRIRLARNLNEYLFPTLFSAEEANKILEKVQGC
+IGEESGEHGNLEFLKMSEMQPLQKRVLMEKHLVSPNLMDESSYGAVVLSEREDISIMVNE
+EDHIRIQCLFPGLQLKEALKKADEIDNWLESKLDFAFHEKSGYLTSCPTNVGTGMRASVM
+MHLPALIITQQMNRIIPAINQLGLVVRGIYGEGSEALGNIFQISNQITLGKSEEDIVDDL
+TGVVKQIIAQEQSAREALVKTSNIQLEDRVFRSLGVLENCRVIESKEAAKCLSDVRLGID
+LGYIQNISRNILNELMILTQPGFLQQYSGGPLRPDERDIRRAAFIRERLKLENRSS
+>tr|A6CI90|A6CI90_9BACI
+MDIKFFSIDQEKQDRILNAALKEFAMKGYKNASTNEIVREAGISKGLLFHYFKSKKDLYL
+FLFDHFVDILIEKMKQEVNWKVRDIFVRNREMAVVKMELFHEYPQVFDFFNGIFFEEDKD
+ISKELEYRKNEFLSKNYRDMMKDIDTSQFREGVDIEKAVDIIAWSLEGFSNRIQAKVKGM
+NLQEINIEETLAQMDEYLNVLKNSFYK
+>tr|A6CLV3|A6CLV3_9BACI
+MTKLRMGMIGVGGIAQTRHIPAYKQLTDIVTIEAVSDINAKTAEEVAAKFDIPHVFSDYH
+DMFSHVDAVTICTPNKFHAEISIAALKAGVHVFCEKPMAMSPEECQDMIVAAEESGKVLS
+IAYHYRFMKESQAAKNLIDQNEIGEPIVARARAIRRRKVPGWGVFTNKELQGGGSLIDYG
+CHFLDLSLWLLGNPTPVEVTGTAYNKLSKMADEVNMWGDFDRETFEVDDHVTAYIKFDNG
+ASMLFETSWSANVKSDEEVMSISGLTGGLDLFPLHLNQRKHGMLLSSNVDWVPGEDNPGV
+PQAENFINSCLGREELLVKPEEAMKVSQVIDAIYQSSENGHSIRLQ
+>tr|A6CSS3|A6CSS3_9BACI
+MEASDMNQFKPVIITVAILMAVTFLVPTLVVLPFAGDEASSELDEKTNPKPDTAALLENS
+VEVAVFRSGKEIIEKLPLEQYVIGVVAGEMPADFEIEALKAQALTARTFIVNQMMNKDAN
+LPEGADVTDTVTHQVYKNIAELQQQWGADYQWKIDKITEAVLETKGKILTYEGNPISAQF
+FSTSNGFTENSEAYWTNEVPYLKSVESPWDKESPKFNAQKVIPVAEFQEKLGITLGGDGS
+VGTITDRTPGQRVGSVVISGKEFTGREIRERLDLRSSDFTWYRKGEHIVITTKGFGHGVG
+MSQYGANGMAKEGKTYEDIVTHYYKDITISSSDSILKQFTAKK
+>tr|A6CIA1|A6CIA1_9BACI
+MPERKNTMKIDEISSATAAEVIAFRRELHQYPEVSGEEEETSRKIQEKLEEHNIPYHTGF
+AGFGVLGVIEGAKPGKTVALRADIDALPITERSRVEFSSKVEGKMHACGHDAHTAMLLGV
+GIELNNQKEDLEGTVLLVFQPSEENAPIGGAQAMMDDGVFDTYKPDVILGQHVWPDLPVG
+QIGVRTGPIMGNSDRFKVVVRGSGGHASMPHQTVDAIITANQIISSLQTIVSRNVDPVAS
+AVLTIGKIEGGYRYNVIADEVVFEGTVRTFTDETKRLMKERFHKIVEGTAESLGARVEIQ
+YLDGYPATVNSEEWAEQIRKSAQSLLGEKGTPDVPPSMGGEDFGRYLLRYPGAFYWLGTS
+VGDGQKPLHDPEFRLNEEALPIGIAVMMKATVDTLISLNDRGGE
+>tr|A6CQU5|A6CQU5_9BACI
+MGKQGLLYEGKAKRVYSTENSDEVWVEYKDSATAFNGEKKAEIGGKGVLNNEISSLLFSK
+LKDKGIGSHFIERISENEQLVKRVDIIPLEVVVRNVAAGSLAKRLGLEEGTALRHSIVEF
+YYKDDDLGDPLLTEAHVELLELAGREEVEFLKNQGLKINAVLTEIFEKIGIKLIDFKLEF
+GKDRDGNIMLADEISPDTCRLWDKDTNEKFDKDVFRRDLGNLTDVYSIILERLGGKETCT
+K
+>tr|A6CQT9|A6CQT9_9BACI
+MKKIAVFASGSGTNFQSIVDSVHSGKLQAKVEILVCDKPDAFVIERAKAAGIATFVFNPK
+EYKSKPDFEREIAQRLVSRGVDFLVLAGYMRLIGNVLLEHFPGRIVNIHPSLLPSFPGKD
+AIGQAINAGVKVTGVTVHFVDEGMDTGPIIAQEVVRISPFDNRKTLQQKIQDVEHTLYPE
+TLTHLFMTSIHKV
+>tr|A6CND1|A6CND1_9BACI
+MSKKITTLLFDLDGTLINTNELIISSFLHTMNTYFPDQYKREDVLQFMGPPLEESFLKVN
+PDAVEEMVKTYRTYNLEKHDSLVTEFEGVFETIQTLSQNGYKMAIVSTKVRDVVIKGLKL
+TNLDQFFDVIITLDEVENAKPDPEPINKALEALGSTPEESIMVGDNHHDILAGKNAGTYS
+AGVAWSAKGREYLDHYEPDFMLETMPDLLDVVGMEKR
+>tr|A6CKU5|A6CKU5_9BACI
+MEEEGGKDVRIVSFSVDPEVDTPEVLKDFIGMYEANTENWDLLTGYELREISSFAKESFK
+VLVTDDPSSNQVIHGTSFYLVNKEGRVDKDYSGVQDVPYDEIISDIKLLRKTYE
+>tr|A6CSF3|A6CSF3_9BACI
+MSENKTVRFIITRQDSPDTESYTEEFELAYRPNMNVISALMEIRRNPVNVKGETTTPVNW
+DMNCLEEVCGACSMVINGKPRQSCTALVDKLEQPIRLAPMKTFPVVRDLIVDRSRMFDSL
+KKVKAWVPIDGTYDLGPGPRMPEKKRQWAYELSKCMTCGVCLEACPNVNSKSDFIGPAPL
+SQVRLFNAHPTGAMNKDERLETIMGDGGLANCGNSQNCVQSCPKGIPLTTSIAALNRDTS
+FQMFKNFFGSDNMV
+>tr|A6CJT2|A6CJT2_9BACI
+MRLNKQLHEFFMNHTKQMSEEWYKTIDKQKSTGVYVTDNPDSINRLKEQNHEFYVHMANL
+FLEERDTLCDNFTKWIHKIANDNAHIETPIHHVIREFLRVRDQYFSYINRFAEEMDEDIE
+QHRIDQWKDQIQAVFDHVVLQFVEGTHNASLKQLKAQQEMINELSSPVISISTDTALLPL
+VGDIDTARAKVILENTLQQCTEKGVDQLFIDLSGVVIIDTMVAHEIFQLIDALSLIGVKA
+TLSGIRPEIAVTAVQLGIPMDRISIESTLSNSIAKNVGSLSRRK
+>tr|A6CPZ0|A6CPZ0_9BACI
+MAKTYNFKYSSQEEMTRYISSNSIDRYPTIMVQMFLGEASMEQAKRIRAEVLSVLPRAVI
+IGCSTEGQMVGGAISDDAPVLSFTILDKTEVVSQLIELDSTCDGFETGKRLSEELVNMET
+KAVILFASHLDLDLQGILEGFQSVTSGIPVGGGVSIDIPGKKPSIVLTEDRESESGIVAA
+ALNNSNLHVQTFINEQWKEVGRPLTVTKSKGAVIEKIDHQKPLKVLRHYLGDSFVSGLPD
+SGVEFPFLIKRNNYTSTLFPLRVLEDGSVEMSKPIRQGESLSFAFADLESIVDCSLKELN
+RLRKKPVESIFVFNCAARKQFIKDFAKAEMEMMGEVSSISGFFSHGEILLTGERVPDLYS
+HCLTYLAISENNQLQPVDREKFNYTLTQEGNTRVSLTQLINASSSDIRKLSENIQISEEY
+YRSLFENNTDFVYSTDLEGRFNSVNPTFLKTFGYSEEELIGKLSISFIFEEDIPRIKRHF
+YRTLSGKEQFYEIWIPSKSGEVQLFHIKNIPITVDGHCVGLFGIGRNITEQKKTEEKITY
+LAYFDAETGLPNRIKFRELAEEFISRAKKKKRRIGVLFLDIDRFKLINDTLGHSAGDQIL
+IELAERIKNALPKGAYLGRFGSDKFTILISKNVTNEKLKQVAELIAENIQMPIIQGNQEF
+YIKASIGVGVYPDHGTDLADLLKNADTALNWAKSNGGDQIVFYTNEMNIMAMEKVKMESY
+LRKALEREELYIVYQPIVELNDKRVIGAEALLRWNHPYLGVVSPMEFIPLAEETGLIGSI
+GNWVLTEACKQAKEWQEKGFPDFYISVNVSANQFQQPSFTNEINHALKTSGLSAESLCLE
+LTESVMIQHSGHTIDRMEELAALGVKIAIDDFGTGYSSLGYLKHLPLHVLKIDKSFVQNI
+EESSPDYAIVQAVSMMGKGLGMQVVVEGIETSEQMVLLSHLNCDLGQGYFISRPVFPDEM
+EKWMRNSQAYLMSEG
+>tr|A6CRR0|A6CRR0_9BACI
+MKTHRGSAKRFKKTGSGKLKRSHAYTSHLFANKSTKQKRKLRKGAVVSKGDFKRIRHMLD
+NL
+>tr|A6CQJ9|A6CQJ9_9BACI
+MVEQLNNYDVIVIGGGPSGLMASIAAGENGGKVLLIDKGNKLGRKLAISGGGRCNVTNRL
+PIDEIIKHIPGNGRFLYSAFSEFNNEDIIAFFEKLGIELKEEDHGRMFPVSNKAQSVVDA
+LLNRMNELGVEKRTNSPVKRVVYKDGRTAGVTLESGETFSAKSVIIAVGGKSVPHTGSTG
+DGYAWAEEAGHTITDLFPTEVPLTSDEPFIKERELQGLSLRGVALSVLNPKGKPLITHKM
+DMIFTHLGISGPAVLRCSQYVVKAMKKWNLSHVTMHIDSIPDKNEEMVFQELNTLIKKEE
+EKKAVKNILKGVLPERYLLFLLERAEIDPDQKGITLSGEKIRELARLVKGFTFTVNGTLS
+IEKAFVTGGGVSVKEIQPKTMASKKMDGLFFCGEVLDIHGYTGGYNITSALVTGRLAGFN
+AALSALEQQ
+>tr|A6CTC0|A6CTC0_9BACI
+MAKQKNELWEWTKALLIAVGLAALIRYFLFTPIVVDGLSMMPTLHNGDRMIVNKLSYRVG
+EPDRFDIIVFHAPEQKDYIKRVIGLPGDTIEYKDDVLYINGKAYDEPYLEEYKEQIESGL
+LTEDFILEEKIGQETVPENTLFVMGDNRRFSKDSRHIGVVDIDEVIGSTNIIYWPIKDIE
+VIK
+>tr|A6CLP5|A6CLP5_9BACI
+MKLISYQNQEGKVRLGFLHNESTLVDVHEASKGALPDNILSFLENSEENLKILQGLETAG
+KGVYALDDVTLKAPIPRPVSIRDFYAFEEHVKTARKNRGLDVVPEWYEMPVFYFTNHLAV
+KGDGDTIHRPKNCRWLDYELEIACVIGKEGRNISKENAEEYIFGYFIMNDWSARDLQREE
+MKVGLGPAKGKDFATSIGPYIVTKDELGPYREGDRYDLRMTAKVNGRELSSGNFKSIHYT
+FAEMIERASADVTLYPGEVFGSGTVGTGCILELGTDVHRWLEPGDNVELEITGLGKLKNE
+VKEGGF
+>tr|A6CTC9|A6CTC9_9BACI
+MSKAIVTGGLGFLGFELCLAMLEEGFEVLAADTDSEAGERWLEVGRNANISYQHLHQPVP
+AEFSNARFYINLYDHFTGNNPSQDLKEIKEFAEKNHTCVEEAFILLPSVISKRVKEDEFT
+EVVGFIEEFKFPKQYTVYLPTLFGPHQPESFLFQQILSKSESGGSEYVDDIRSAIFVKDA
+VSAVIEVEKESDSKKLQIVADNPDSWKESLHSLGCSDASKDPEVRDVLPPGLKKIVAKAS
+SSVNEVLGRQRDN
+>tr|A6CJ15|A6CJ15_9BACI
+MLIKLIKKLFAKWEVVYFTQDFAEYTTMKGRLEGAGIPYKKKTLDSGSGQGGGNGFAATY
+QLLVPEELMQKAQEAIDYSNT
+>tr|A6CLX2|A6CLX2_9BACI
+MSKKSFADYHVSEEIQRALAVLKYETPTEVQNKVIPSALENQDLVVKAQTGSGKTAAFGI
+PVSDMIEWEEKKPQALILTPTRELAVQVREDITNIGRFKRIKAVAVYGKEPFSKQKDELK
+QKTHVVVGTPGRVMDHIERETLDLNQIKYLIIDEADEMLNRGFIDEVEAIIKELPSNRVT
+MVFSATLPKDVENLCHKYMNNPLQIEIESTGVTADTIEHSLIEVREEEKISLLKDITVVE
+NPDSCLIFCRTKENVDTVYSELEKAGYPCERLHGGLEQEDRFSVMEGFKLGNFRYLVATD
+VAARGIDIDNVTLVINYDVPMEKESYVHRTGRTGRAGNKGKAITLSTPYEGKFIKAIERY
+IGFELPAVEAPSHSEVAAGKAAFEEKLSGRRVVRNNKTARINQDIMKLHFTGGKKKKIRA
+VDFVGTIAKIPGVSADDIGIITIHDQMSYVDILNGKGSLVLQAMEKATVKGKKLKVSKAI
+K
+>tr|A6CRZ6|A6CRZ6_9BACI
+MTAIRYEHIKTCKQTGARLGKVHTPHGSFDTPVFMPVGTLATVKTMSPEDLKAMEAGIIL
+SNTYHLWLRPGHEIIREAGGLHKFMNWDRAILTDSGGFQVFSLSEFRKIEEEGVHFRNHL
+NGDKLFLSPEKAMEIQNALGSDIMMAFDECPPYPAEHEYMKRSVERTSRWAERCLEAHQR
+PQDQGLFGIVQGGEYEDLRRQSAKDLVSLDFPGYAVGGLSVGEPKDVMNRVLEFTTPLLP
+DDKPRYLMGVGSPDALIDGAIRGIDMFDCVLPTRIARNGTLMTSKGRLVVKNAKFARDYN
+PIDENCDCYTCRNYSRAYIRHLIKCDESFGIRLTTYHNLHFLLKLMEQVRQAIREDRLGD
+FKEEFFEAYGYNRPDAKNF
+>tr|A6CRB8|A6CRB8_9BACI
+MNKGVVNVEKQNNHLLLIDGMALLFRSFFATAVSGQFMINSKGQPTNGVQGFMKHLLMAV
+EHINPTHTAVCWDMGSSTFRNEIYSDYKANRNAPPVELIPQFDLAKEVAEGFALYNLGMA
+GFEADDCIGTIAKSAPKDTKVSILSGDQDLLQLLDDNIDVVLLKKGFGNYLTYSKDFFME
+EKGLTPEQFIDVKALMGDTSDGYPGVKGIGEKTAVKLIQEHLHIQGILDSLHLLTPSQRK
+KIESDLDMLHLSRQLAEIKCDVPLEFNMEAARWGAIEPDAFSLIEDLELKALRRFLIGKD
+HLLSQHA
+>tr|A6CKX0|A6CKX0_9BACI
+MAMKYEQIKSIILTLLVVSSVFLTWNLWTYQPYLEPIGESNITEDVIINAQQEMQDIIVP
+FKLLYHRNDRTYGTQRKFEIQSMMDQMSSWDIYGLNDITRMLTDAEFKELVHGEDRVEII
+FPDLITFDVYKSILKFRDTDLPADTFDRIIVKTTEESADFAAVYFVSYTDQRVYESRINY
+SAVQAFKEDFVSKSIQHPEYFSYDPTERRRIYLPENSLDMNSYRYVTSPESIEGFVNALF
+SEPSLVSHEYTNIGEEYNDDSSLMRVNVNNKTFTFVNIEEEAEVELETNITDLITQTSGF
+INDHGGWPEEVTSYQYFSVSKPQRLVHYRMFVHDLPVFNESGMAEYSVVLGKLNIFKYSR
+PYTNLEGMTKDTNSVTLPSGQEVLDRLLEDNINPEQIEDIIPGFKLTNDVSSFVILEPAW
+YYKYAGAWIRIQPDDVGRGQLGLE
+>tr|A6CJ12|A6CJ12_9BACI
+MKEKSALIIVDVQKAFDDPKWGERNNLEAEENIRKILKVWRGKGRKVIHIQHKSDNPDSV
+FHPNNKGFAIKELVSPLEGEVEIPKKVNSSFIGTNLEELLKINKIETVVITGLTTPHCVS
+TTTRMSGNLGFETYLISDATAAFGMEDQNGKYYKPDIIHDVSLATLHEEFATILTTKQLL
+KLIE
+>tr|A6CQA1|A6CQA1_9BACI
+MMSDDMLSQDEIDALLRGTASDEKEPASSQNLNVEEYLSDFEQDTLGEIGNISFGSSATA
+LSTLLNQKVEITTPKVSIQERSRIEEDFPHPYVAIQVQYTEGFSGANLLVIKQDDAAIIA
+DLMLGGDGLNPSGDLGEIQVSAVQEAMNQMMGSAATSMSTVFSKKVDISPPRVDMLYLPE
+GEGADAIPHDDLLTKISFSLKVGNLIDSNIMQLLPLGFAKQLVDELTNNNDASSTNSDIM
+EQGASHQELEPVQRVSPVQPSYSQQDTYRDNTAQHVPQEKTQSQHFGNNKNVEQPVQVQP
+ASFTNFEQPSMSKPESKNLDMLLDIPLNVTVELGRTNRSVKDILELSSGSIIELDKLAGE
+PVDVLVNSRLIAKGEVVVIDENFGVRITDIVSQSDRLKKLK
+>tr|A6CPQ0|A6CPQ0_9BACI
+MTAKEMIEINNVRREKLNEENKKYYEDMLLYIRMSNVSEKEGEELLLEILEHLLEAQENG
+QSAEDVFGTKPKQYCDELLKGLPKESLKDKVMMYLYITASGMSWYFLVTGIFSLFFPDNN
+GVSLTPIIASILFMGIVVLLLLKLMKWTTYKKKSNIWLLSAGALIFTSWIGLLVYLELQD
+AFQYEMNWPMYTSLVIGVILIGLSWVLRHRVLKF
+>tr|A6CLZ7|A6CLZ7_9BACI
+MEMNSDGGLIGQAPKRTKRPFVLAAVMLAMFMGAIEATIVSTAMPAIVGDLGGFSLYSWV
+FSAYLLMNAVTVLIYGKLSDLFGRKPIITFGIILFMTGSILCGFSQSMEQLIAFRLIQGV
+GAGAVLPIATTIVGDIYTREERAKIQGYLSSVWGISAISGPAIGGLLVEYVSWHYVFWVN
+VPLGVLSIVALWLFLHENVKKEKHNIDYLGAVLLTISISSLMFILVEGGVHIPWSSPAAL
+GLLAAAALFFLLFVFQEKRASEPMMPFGIWKERSIFIANIVSLTTGVMLIGISSFLPAFV
+QGVMERSPTVAGFTLTTMSIGWPIAATVAGRLLLKIGYYRTSLAGGISLIVGSTFFVTMG
+ADSGPVWAAIGSFFIGAGMGLTSTSFIVSIQSTVEWKQRGIATAANMFMRSIGSTLGAAL
+LGGILNSSIKQYLENKDNTKADIDVVNMLLDEEKRMALSTPLRETLQSGLTFSLHWVYIG
+VLFFALVSLALILFLPRNT
+>tr|A6CML3|A6CML3_9BACI
+MEIWTLIAGIVAGMSLFKGFDYIKNAEARENEKRIFQLVERSRDIIYYCETKPVLKFKYL
+SPSIDNLLGPGVQVRAMVNGHTPVELIHPEDRTILEKKLSGKLDYSQPIIQRWRDTEGNY
+RYFEEFATPIFKNGELTAVQGVIRSIDDKMELQKELVYKAHHDGLSGLANRLSFENESSI
+LDELEDRPVALLLCDLDELKYYNDTYGHRTGDELIKETSKILRTLQNEDVFVARIGGDEF
+AILIKDQQKYHPQDMKKTIQHKLAGYNRYSKTLNIMLSIGFASSPSSVGKMNELYTLADE
+NMYEEKRSKKRSS
+>tr|A6CL45|A6CL45_9BACI
+MTAINNAFEIPQSLNAKVPAEQRGAGRDDVRLMVMNGEEIHHERFSSLPDFMEEGDLLVF
+NNSRTIPAVLKGKACNREMEIRLSRQLDDQRWEALIWGGLFSAGDELELKNGVKAVITGT
+GNEKPLVTIDFSIGGVDLIDYIYSYGEPIRYEYIDSPWTLDVYQTAYASVPGSVEMASAG
+RAFSWRMFEKLKEKGVRTAFLTLHTGLSYYGNDRWPNPQKHPEAFHIPEETAKLINAVRE
+KKGRVIAVGTTVVRALETAVDEKGYVSASKGITNLYIQKDYQLKAIDGLVTGLHEPEATH
+LEMLAAFTYEHHLFDAYRQALKKGYLWHEFGDMNLIFAERLKS
+>tr|A6CKW7|A6CKW7_9BACI
+MAWRNTKEESPNTFIHKSVKLLKRAAMTTMALSAITFGSAYANSDSELKTIYHVYMGSEY
+YGSVTDKAAVEKAIESKLDAEEEKYESIELELAEEVSFIPEQVFRTNAKNDTVIEQLTDS
+VEAKANAVAISFGDKPAVFVKDQQEAELTLKKLKLRFVTEEEMKELEEGTPDSNEDSKLI
+SVEISEEAKFEETKAVPGEVLTADKAVDFLLKGTLEEKKYKVQEGDVLGSIAQKHDLTSG
+KLLELNPGLEEDSLLQIDQEINVTVYKPLVHVTVEREQSTVETIAYEKEVIEDSSLNKGD
+IKVKQEGQDGEKAMTYLTKDENGVQVNRTVKEEKVTKEPVKYIVIKGTKVTPSRGSGSFV
+WPTNGGYVSSKVGQRWGRMHKGIDIARPNNLTIKAIDNGTVVSAGWDSGGYGNKVIIDHN
+NGYRSVYAHLSSISVSAGQTVSAGASIGNMGQTGQSTGVHLHLEVYKNGALVNPLSLY
+>tr|A6CSM8|A6CSM8_9BACI
+LDPVYAQKLGVNIDELLLSQPDTGEQALEIAEALVRSGAVDILVIDSVAALVPKAEIEGE
+MGDSHVGLQARLMSQALRKLSGAINKSKTIAIFINQIREKVGVMFGNPETTPGGRALKFY
+SSVRLEVRRAETLKQGNEMVGNKTKVKVVKNKVAPPFRVAEVDIMYGQGISREGEIIDMG
+SELDIVQKSGAWYSYNEERLGQGRENAKIFLKENPEIRNEIMLKIRDHYGLDTGKAETEE
+AQDELLLDK
+>tr|A6CM97|A6CM97_9BACI
+MENRALIIVRGEEVKGILDPASEEAQELRLRSKYSQEKIKFIWEVENAYHSARETKQAGR
+LLSLLWGNPITGKRAEIQKTAEYYERRFSGYRVSRHDFESIFIEELIRLLPKGKTNDRYT
+FYETFKQALQMRALDVVRRESGQTNKQIKFEKEAVPFEEHHEGKIFQGVIIAARSTMEER
+AEAKDLVAGIMESEKLNEEERRLLAAMNENPEASFRELARTCGLSDHKKAKRTLEKIRNK
+MAEYNPFQ
+>tr|A6CNP3|A6CNP3_9BACI
+MVNRQLIILLIGRILTNFADSFYMIATIWYVKSLTDSPLLIGLTSAIAILPVTIQFLYGP
+IIDRFYKKTILFVAMLGQGVLVSIISLLYYTNLLWLPLLYMMMFLALALSESTYPTESAL
+IERLTPKERLTKVNSIFSFSYQTLDILCDAVSGILIAFVGLGVIYMTNSILLIMIGIMFL
+VFLNVPKSEKEGKPSTLSFIRQYKEDFNEGFMVVKTRHKLLSIMFGVMGMNLMATMGMAM
+LPVISDTSAEYGFWLTAMSIGILAGTILSNKVEKIPLNRIMPLISLWSGVFWLLAFTFME
+IQLLPYLLFSLSWMGIGVLSIYIQTLIQVNLPRNHIGIGFAFISSLLGSLSPLGYLLGGV
+IGELTSGLFLLSISGTGYLLFSIYFVINPKLKSLTEPLSVSFEKSS
+>tr|A6CHI9|A6CHI9_9BACI
+MSKKTIYFLCTGNSCRSQMAEGWGKKYLGDEWDVKSAGIEAHGLNPNAVKAMNEAGVDIS
+EQTSDIIDPEIMNNADLIVTLCGHAADNCPVTPPHIKRVHWGFDDPAKAEGTEEEKWAFF
+TRVRDEIGDRIKHFAETGE
+>tr|A6CR52|A6CR52_9BACI
+MLIIVVLIGLGLLLGQIFKSYYLQSFNNRIEKEAKLVVSEVITSQDPQSISDGQIEEISQ
+LLDIRVTITGPGGDILKDSGPFAGIDSEKQKETITEIAADWNSGLQQTELMRNGSEVVYY
+WQPIDNGEESSLLILSSSVDILVAGYKQIWTVLSVSLGLALVVIIMLGARITSSYTKPID
+SATKVAMELAKGNYRARTYEDRMDETSMLSTSINILARNLQEMKSAQDIQQNRLTTLIEN
+MGSGLLLIDHRGYAVLTNKAFKEFFSITAERITNKRYYEVIKFPEVNKLVEEIFMTEQKI
+RKQLLLPLTIERKHFELYGAPIIGTKEEWKGIVLVFHDITELKKLEQMRKDFVANVSHEL
+RTPITSIKGFSETLLDGAMNDKETLEMFLNIILRESDRLQSLITDLLDLSKMEKQGFQLN
+VHETDMKELLIEVITILEKKPEKKDIELVLHADEAVLAEVDSFRIKQVFINLIGNAITYT
+PAGGEVSVSLKQSDSVIVIEVRDNGIGIEESEFPRIFERFYRVDKARSRDSGGTGLGLAI
+VKHLIEAHGGTIGVESKVNEGTTFTVTLNKKFTEGR
+>tr|A6CK96|A6CK96_9BACI
+MSSQRTAPGLITDQLMSDFGVTASTIGLVASIQFFVYTGLQIPMGVMADRYGPNVLLIAG
+TALTGMGTIIYSLGTHEFVLFFARILTGIGDATIWVNMVLILSLRFNEKEFTRLIGVAGM
+TGSLGFLLATVPFSTVIVLLGWRGAFLSAGVLLCLCSILLFTVLVKKSEPSVSVKNKGKH
+EKLSVLLRRIFSSRQAWALFLCHFGIVGGYIGFIGSWAVPYAMDIYGLTRVGASKLIMVS
+LLGALIGAPLIGWISSFLQDIKRTYIVFHITVFLCWSAFLLFKGHPSFFMLVLLFFIIGF
+GFGSNSLTFALVRQTFPITESGMVTGFANTGGFLSAVLLPGIFGFILDHSASGGYYYGFI
+TPVVFSLFGIVGVIIVKEKSRVGGRLQG
+>tr|A6CPB0|A6CPB0_9BACI
+MKQKDVCEVNCQEDEKVASIQDELAGTNTNGAAKIFKALSDDTRMKIAYALSLEKELCVC
+DVAHIVGATTATASHHLRLLGNMGLAKYRKEGKLVYYSLDDDHVRSLINIAITHHKEVEQ
+RV
+>tr|A6CTY7|A6CTY7_9BACI
+MSKCNTVFEALKWASSFLRENKRDENAGELLMKHLLEMDRSQLLANQRLVLEDKVKLEFA
+RGITAHIQGTPIQHIIGFEEFYGRKFSVNEHVLIPRPETEELVYYTLEKIRKHFSADGEL
+RFADIGTGSGAIAVTMKLEKPELFVMAVDISANALHVARKNADNLGVSVEFLEGDLLEPL
+ISRDEKLDVLVSNPPYIPLGELDSLSEVVKDHEPHSALFGGESGLEFYQRFMEELPLVMK
+DRCLIGFEIGAGQGEAVAGMLRGAFPEAHTEIIHDINGKDRMVFCTRGL
+>tr|A6CQU8|A6CQU8_9BACI
+MQPKVGVVMGSTSDWKTMKHACDILDEYGIIYEKKVVSAHRTPDLMFDYAESARGRGLKV
+IIAGAGGAAHLPGMVAAKTTLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGEAG
+AKNAGLLAAQILSTEDDGIANKLDSSREALRQKVMESSDELE
+>tr|A6CQX6|A6CQX6_9BACI
+MSAENQEKREIQLDEDYLTSALQNEEMEKFREEFIALHSYDRAKYFEKIDDALRMKMYQY
+LSPEEMAELFESLDKDETEYQEILAEMNPSYAADMLSNMYADDAVDVLNELDKDQVASYL
+TIMDKESAQEIKELLHYEEYTAGSIMTTEFVAISANQTVRSAMTILKNEAPNAETIYYIF
+VVDDDRRLAGVISLRDLIVSDDEAMISDVMSDRVVSVSVGEDQEEVARKIRDYNFLAMPV
+VDFQHHLLGIITVDDIIDVIDEEASDDYSKLAGISDVDTVDRNPITAAKKRLPWLIALLF
+LGMFTASLIGRFEDTLDKVAILAVFIPLIAGMAGNTGTQALAVAVRGIATGDLEEESKWK
+LVIREAGTGLITGTVCGIVVMITVYVWKGQLFLGFLVGVSILVSLIVATLAGSLVPLLMH
+KLKVDPAVASGPFITTINDIISIMIYFGMATLFMNYLV
+>tr|A6CQZ8|A6CQZ8_9BACI
+MSKRDYYEVLGVEQGASKDEIKKAYRKLSKKYHPDINKEADANEKFKEISEAYEVLSDDQ
+KRAQYDRFGHTDPNQGFGGGGDFGGGFGGFEDIFNTFFGGGGGRRRDPNAPRAGADLQYT
+MSVTFEEAVFGKETDIEIPKEEECDTCDGSGAKPGTKPETCKHCQGSGQLNVEQNTPFGR
+IVNRRVCHHCHGTGKFIKEKCNTCGGNGKVQKRRKIHVKIPAGIDEGQQLRVTGQGEPGV
+NGGPPGDLYVVFHVRPHEFFERDGDDIYCEMPITFVQSALGDEIEVPTMHGKVKLKVPAG
+TQTGTKFRLRGKGVPNVRGYGTGDQHIHVKVVTPTKLTERQKELLREFGDITGQVTDEQH
+ESFFGKVKRAFKGE
+>tr|A6CL83|A6CL83_9BACI
+MKPLQGKIAVVTGASRGAGRGIAFELGSAGATVYVTGRSVKGATTDNRPETIEETATGVT
+SRGGKGIAIRCNHTNNNDVRELFDQIEREYGRIDILVNSVFGGSEREKDGFFGSGHWSIG
+ML
+>tr|A6CLA7|A6CLA7_9BACI
+MEFIIGGIILLIILFIIGYFIRRKYYHHVDRLESWKVDILNRPILDELSKVKQLNMTGQT
+EELFEKWRKGWDDIVTVDLPEVEELLFTAEEYIDKFRFGTAKEVLAKIEAILNQTEDKME
+RIHSEVEELVGSEEKNRLEIEELKEAFRKSKKTLLAHRHAYGKAAYGLEAKLDEMSEKIE
+DFNKLTEEGNYLEARELVLALTADTQGIVEKMEAIPDLLTECQSSLPNQLNEVEAGYNEM
+ESQGYVLKHLGINTELAKLREELAACVDSLEKLQTDKVTEEVNALKESVDHLYDMLEKEV
+LAKHFVLQNEAKSTELLETVKAANKEIKQETEFVQQGYHLQDEDLQIPVQLEKKINTLFK
+RFQQLQEKVVENDSAYTFLSEEMQDIQQQLEVIKNEQNTFSEQLQTLRKDEIEAKEKVSE
+LKRKIGEASRMISKSNVPGLPSDYNALLEEAYKNITDVVRALEEKPLNMPVVQKYLEKAV
+DTVEHFHKKTVDLIETVLLAEKVIQYGNRYRSRYGDVSQRLEKAESAFRSYDYRDALEQA
+ATAIEEVEPGAIKRIESLVNEELND
+>tr|A6CNJ2|A6CNJ2_9BACI
+MDIFSIGSRERETYSVELKYSLLWEAALGIAAITNDALVETLDLTKEEREMMKASFSPEL
+KKHLEYVKEYNTWKTLLQLLHKEDFNDIPSFVSFLKGLSDEEFKSAAIPYLGKQQEELTA
+QLVLGSHEALVNLQDKTKGNSFLPDYLGFIFKTDPQELKDHLATVLSEWVQAVVVPKEKE
+ILAVLERDIESKQRMKEKLNPEQFVEFATDGIKYLPEPSVFKVILIPHFFYRPWNVEADL
+KGTKVFYYPVANESLSPDSKYIPNKMMVQKYKALGDETRLKILKMITERPRSLQELTNEL
+EMGKTTVHHHLKILKSARLVSDSLSKYSTNVQSLNLLDEELQLFLKME
+>tr|A6CNX9|A6CNX9_9BACI
+MNRNPIIPFILIMVFGIGLVFFMSLEGLNNSEEMAEEHGEQGAEGEAEGGGTAEGGEFDP
+EAHYQQACISCHGGNYEGGAGPALTGVGERLSADEIKNILQNGKGIMPGNLVPAENLDAM
+TEWLMSL
+>tr|A6CNJ1|A6CNJ1_9BACI
+MILLGVLILLSAFFSSAETAYSSVNKIRLRNFESEGLRGSKKALFITENFDRALSTILVG
+NNIVNIAAASISAKMATDLFGGNTGLVVSTFVMTLLILIFGEILPKSLAKENAESYALSI
+SGILFLLIKILTPVNFFFIKLKELVSRLFSKDNAMPSVTEEELKVMLDISEEEGVIDKEE
+RELIHRSMDFDDIMVSEVLTPRIDVKAVEVNQSVDEIKEMFFEERFSRIPVYEDHIDNVI
+GILSEKEFFTHLLKFGEVNIRALIREPMFVFESAKISTLLTKLQKDKVHMAIVVDEFGGT
+TGLITLEDILEEIVGEIWDEQDETIHSMTKVSDNVYKFDSQFQLDEFTDLLNLPEPDSSY
+HTVGGWVVESFEEIPSEGESFDYENVKVTVEEVDNRRIRTIKVEVSQEVPAE
+>tr|A6CNN8|A6CNN8_9BACI
+MAIIINIDVMLAKRKMSVTELSEKVGITMANLSILKNGKAKAVRFSTLEAICKALDCQPG
+DILEYQSDEDVQ
+>tr|A6CP94|A6CP94_9BACI
+MKKVVIFLVVIIGIFAAIAVVTKMQQDQAAEGNPYNKADLEPATIDLLDDPNYQNLILPE
+ELEAKLANGEDVTVYFFSPTCSHCIATTPVVAPMAEEMGIDLVQYNVLEFEQAWNQFNIE
+GTPTIIHFENGEETARIVSSQPEETFENWFNENVK
+>tr|A6CQQ8|A6CQQ8_9BACI
+MKTQKSFQASDAGSLYLVPTPIGNLEDMSFRAIRILKECDVIAAEDTRNTKKLCNYFEID
+TFVVSYHEHNKETSGEKLLERIEKGETVALVSDAGMPCISDPGYEIVREAVDRGIAVIPL
+PGANAALTALIASGLIPQPFYFYGFLSRSKKDKRKELETLSKQNSTLIFYESPHRLKETL
+KEMKEILGNRSIVLSRELTKKFEEFIRGTIEEALEWSGEGEVRGEFCIVVEGSTDKEAKE
+EEEQWWNDLTLSAHVQHYIDEKGVSSKEAIKMVSKERELPKRDVYQAFHVQQD
+>tr|A6CM17|A6CM17_9BACI
+MSSMLNGIAASNGIAIAKAYLLVEPDLSVEKKEVGNTEEEVNRFREALATSKSELETIRE
+KANEDLGADKAAIFDAHLLVLSDPELIAPIEDKISNEKVNAEAALKETADMFVSMFESMD
+NEYMRERAADIRDVTKRVLSHLLGVQVSNPSMITEEVIIIAEDLTPSDTAQLNREFVKGF
+TTDIGGRTSHSAIMARSMEIPAVVGTKEVTSEIKNGDLVIVDGLNGEVHINPTQEVVEQY
+KKEHEQYEKQKAEWAKLVNEKTVSADGTHVELAANIGTPKDLEGVINNGGEAVGLYRTEF
+LYMGRNELPSEEEQYEAYKAVLEGMGDKPVVVRTLDIGGDKELPYLDLPKEMNPFLGYRA
+IRLCLDEQSIFRTQLRALLRASSYGNLKIMFPMISNLNEFREAKSILEEEKSKLVEAGEK
+VADKIEIGIMVEIPSTAVMADVFAKEVDFFSIGTNDLIQYTMAADRMNEQVSYLYQPYNP
+AILRLVKMVIDAAHKEGKWAGMCGEMAGDEIAIPILLGLGLDEFSMSATSILKARSQIRN
+LSKSDMATLANEVLELDTNDSVIEAVKKAINL
+>tr|A6CQZ4|A6CQZ4_9BACI
+MKGQPVDEYLNFLKKEMQMQLDKYPSDKLSTIFVGGGTPTALDASQLEVLCQSINENLPY
+SPEEVEFTFEANPGDLTSDKLEVLHQHGVNRLSFGVQSFNDELLKRIGRNHRSKDVYTSI
+EAAKKAGFENISIDLIYALPGQTVADFKDTLKTALEFDLPHYSSYSLIIEPKTVFYNLMR
+KGKLSLPPQEAEAEMYSVLMEEMETAGINQYEISNFAKKGYESRHNLVYWNNDEYYGFGA
+GAHGYAKGNRYANFGPLKKYMEPLAEGHLPVIESHEQTKSEKMEEEMFLGLRKTEGVSVA
+RFTEKFGESPFSVFKEAIEEMTQKELLIVEDSYIRLTQKGRFLGNEVFQAFLGVI
+>tr|A6CT53|A6CT53_9BACI
+MISISNVSKIFKSKKGDISAVDDVNLTIDDGEIFGVIGYSGAGKSTLIRMLNGLEIPSEG
+TIDVNGHIVSKVKGQKLRSARHEISMIFQHFNLLWSRNVRDNIAFPLEITNVPREERNKR
+VEELIELVGLKGREDAYPSQLSGGQKQRVGIARALANNPTVLLCDEATSALDPETTDSIL
+DLLVDINKRLGLTIVLITHEMKVIQKICHRVAVMENGRVVELGDVLEVFKNPQQKITQRF
+VSEVSETGNTKEAIENLISHYPDGKIVKLTFVGEQTEQPLITGLIKNFDINANILQGSIS
+QTQGGSYGTLFIQLTGAEEEKAVEYLKKQTIGIEVINHD
+>tr|A6CJR5|A6CJR5_9BACI
+MAVHFDQLYLQYHKLVYHIALRITRDSSLSEDIVQETFLKAYKKIDTLIDEKKAGGWLSS
+IATRTSIDFIRKEIRAGEVPIDPFNMELDCLLSSSQEDVERTVDITLLKEELVTEIRQLP
+LAQQQVFLLRVQYGMNEEEIAEKLDLKRSTVKTRFFRARKKLKNLYTLKYSA
+>tr|A6CQC6|A6CQC6_9BACI
+MKINNINTPKINPYNKQLNKIEQSKSVNKPADKVEISSQAKDMQIAKQFNIERQERVKEL
+KVQVENGNYKVNHQEIAKSIKNYYKG
+>tr|A6CH93|A6CH93_9BACI
+MPKKKVLLFSDFGVDDVIAVLYALYTEEIEIVGIVADYGNVSKQTALQNVKFLQSLTETS
+RPIIGGAVAPLTGDLPEYFPEIHGIAGLGPIIPENHASDESFMENFFEVKAMITKYQQDI
+TIYSAGRLTSLATAFILYPETMKLVKDIYIMGGAFGVPGNVTPVAEANIYGDPYAANIVL
+KLSPKPAYIIPLDVTKYAIFTPEMINDLDLYFKQTGDKVGEIIKPLVDYYQKFYKKTYPD
+IQGSPLHDLLAMWALKPDSEIEYVQVPVSIEVNIGNTFGQSSGDFRAIAEKEDWRVHNVA
+VNFNYRNFIEDVYGAFKNPPKR
+>tr|A6CQX4|A6CQX4_9BACI
+MIKYQMDWIITKDESGVEIKTFLSEHHISKRMLTDIKFAGGKISVDGQEVTVRYVLQEGN
+HLTVIFPPEPKSPTLKPEDILLHIIYEDKDLLVINKPSNMSTIPSREHPDGSLANAVYGY
+YRRREIDSAIHIVTRLDRDTSGLVLIAKHRHIHHLMSLQQKKREIKRSYEAFAEGLFSVR
+EGKINEPIGRKETSIIEREVRSDGKTAVTHYKVIGQYGGFAHIGLVLETGRTHQIRVHMS
+YKGHPLLGDSLYGGSREKIDRQALHCHSLSFFHPTTGEPLHFHVPLPDDMDRLL
+>tr|A6CL80|A6CL80_9BACI
+MSNKELEQLRSQVDEVNLKLLESINERARLVQEIGRVKEKQGSNRFDPVRERDMLNNIID
+NNDGPFDNTTIEHIFKEIFKAGLDLLHDSHRKELLVSRKKKPTDTIVKVNDEAIGDGNPH
+FIFGPCAVESYEQVSEVARAIRGKGLNLIRGGAFKPRTSPYDFQGLGLEGLKILRKAADE
+YNLAVVSEIVNPADIEPASEYVDVIQIGARNMQNFELLKAAGSARKPVLLKRGLSATLEE
+FMNAAEYIISQGNGDIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGR
+RDLLLPAAKAALAIGADGVMAEVHPDPAVALSDAAQQMDLEQFDHFFSELTGGK
+>tr|A6CLW3|A6CLW3_9BACI
+MDFDQLKQDIIEYSKEIGIDKIGFTTADTFSEMKNLLLRQEMLGYQSGFEEKDIEKRVDP
+SLIFDGPKSIIAIALAYPSRMKNAPQSKRGERRGIFCRASWGTDYHDVLRDRLSKLEKYI
+ESRVPQAQFKSMVDTGELVDRAVAERAGIGWSGKNCAIITPEFGSYVYLGEMITNLPFAP
+DEPIEDQCGTCNKCVDVCPTGALVEGGQLNAQRCIAFLTQTKGFLPDEFRTKLGNRLYGC
+DTCQTVCPENKGKDFHNHWEMEPDPEIAKPLLKPLLTISNRDFKEKYGHVSGSWRGKKPI
+QRNAIIALAHYKDETALPDLISVMENDVRPVIRGTAAWALGKIGGTTAEEALQAFLAKEK
+DEEVISEIHKGLELISAN
+>tr|A6CMR7|A6CMR7_9BACI
+MDMTAESQSRSYFKTVIVLSLAIWLVVMNTTMFNVALPNILNDFSISASEGAWVVSGYSI
+VLAICTITYTRLSDYLPIRRLIAIGISLFGLSSIIGFFAESYSLLLLARLMQATGAAAIP
+GLSMVFASRYIPLSTRGRAMAMIASASSLGFGLGPVVGGMITEYLAWNYLFIVTLMVIAL
+IPVLLRILPKEEVAKGKFDFIGAVLTGLSVTAFLLFLSTFNWPFLLAGILLLGLLWLRIN
+RSALPFIQPDLIKDKRYRLLLCISFLGFLTHFAILLLMPLMLGSIFSKAPSSIGFIIFPG
+AMFSAVAAIYVGRLIDRYGNITVLFGAHVLLLISTLIFYFLSPLSEYWIMAGYMFTSFGF
+SSLSSSSTNETSRILSKEYVGSGIGMKQLTHFVGSASGSVVGAILLEWHGQGFSTGDFQR
+SYLALIVAMGISLVLLFIYNRRVH
+>tr|A6CRW4|A6CRW4_9BACI
+MVPHKIVVVDLETTGNSPKKGDKIIQLAAMVVQGGAVVDSYTTFVNPGITIPSFIEELTG
+IHDGMVKDAPEFSEIAPKVLELLDGAVFCAHNVQFDLGFLQAELEEAGYNPFSGPSFDTV
+ELAKITLPTADSYKLTELSDRFSLNHSRPHQADSDALVTAELLIHFIEKLAKLPLVTLEQ
+LEKLSTWLKSDLSLLFSNILTEKRRSISDINPDLEVFRGIALRVKADLPQADFDLSEIHF
+PVEEKDKTALLSSTIAAFEKRDGQFLMMDKAYEAMTESKHMIIEAGTGVGKSLGYLLPAI
+FYSKQQGVPVVLSTYTIQLQEQLLSKEINFLKGMLDFSFHAVLLKGKNHYLNLFKFEQSL
+TEDENHYDIAITKMQILVWLTITETGDVDELNLTSGGRLFWNRIRHDGWHIKKDPWIGRD
+FYLHARNMSKKADLIITNHSMLLADLVNEKKLLPAYDTVIIDEAHHLEKSARTHFGKVID
+YLSAKFVIGQLGALDQRQLFHKLENMLEKYAVKTELHSFELDQLVNDFYREIEECFSVII
+SLFLKHSKRRKGIQKIQMRLTHSLLKSSEWMPAVMSVERVISGMKKIEAEMNSRLRKLKE
+KENALDDSEKASLEEFYSFMVEWSELRLNFRDIFVSPSEMDVIWLEGDMRSLPNSLMIQS
+QLSSVGEKLKQSFFDEKQCAIMTSATLTVQNSFQYFQEELGLSGQEVDTVRISSPFQYNE
+MTKLFIPTDVPEIQNVSLDEYVEAIATHLIGVAQATKGRMLVLFTAFDMLRKTHDLMKDS
+GLLEDFVLMAQGISSGSRTRLTKNFQRFDKAILFGTSSFWEGVDIPGEDLSCLVLVRLPF
+SPPDEPVAQAKSDLLKNEGKNPFSHYSLPEAILRFKQGVGRLIRRSTDRGIVIVFDRRII
+TARYGKAFLDSIPDMPVRQGELHEMVELIEEWL
+>tr|A6CLV2|A6CLV2_9BACI
+MNKIKIGVVGCGSIAQHRHLPEYENNEHVEIVAVCDIVEDRVQKVAEKYGARAYTDYEEL
+IADGKVEAISVCTPNYLHAPISVAALRAGKHVLCEKPMATSSVEAQEMIQAAEESGKKLM
+IAHNQRFVPSHEKARKLIESGELGKIYSFRSAFGHGGPEGWSADGADSWFFKKKEAFIGA
+MGDLGVHKTDLLRYILGEEFAEVGSFIETSSKENADVDDTAVCVLKTESGIIGTLAASWS
+YVSKEDNSTIIYGEKAILRLEDDPVHSLVVQYATGEVVKYELGGIQTNEEGGQRNSHVIE
+QFVASIVHDTEPSVTGDEGMKSLQVVLAALESNETKRIVKIN
+>tr|A6CNP6|A6CNP6_9BACI
+MNWSDYMKKVVLAGGTGFIGEYLERNFKESGYEVKIISRQKQHVSWDDKTAMRDALEGAE
+LLINLAGKSVNCRYNETNKREIMNSRIRTTTMLGEAVLACSNPPQTWMNSSTATIYRHAE
+DRPMTEDEGEIGTGFSVDVATRWEETFFSFKLPRTRQMALRIAIVLGKDGGVMTPYKNLV
+RFGLGGIQGTGDQMFSWIHIEDLYQIILFLRDKKELSGVFNCSAPNPVSNKELMAQLRKA
+MSVPFGLPSPKWMLEIGSAIIKTETELVLKSRWVLPERLEREGYKFTYKTIDQTLQSILM
+K
+>tr|A6CMY2|A6CMY2_9BACI
+MEIINWKGILESLLFAAGDEGLSLKQVCAVLDVEEHQALEIIEGLFAEYHNDKSRGISLI
+ELAGTYQLVTKKEHAPYLKKLVESPNVNSLSQAALETLAIVAYKQPITRADIEEIRGVKT
+ERPLSTLASKGLIKAVGRAEGTGRAILYGTTKEFLDYFGLKDISELPPLPDNIDEEFMSE
+DADLFFEKFQETLDSQS
+>tr|A6CNE9|A6CNE9_9BACI
+MFELDLFEQYKEGNKGIAIVISIKGGIFVSENKAAIITGAGSGLGQSAAVRLAKEGIDIA
+VVDINEEGGNETVEMVKQKGVNAIFIKADVSKAEEVKNYVDKTVEEFGKVDYFFNNAGIS
+GSGQYFLNTEIEEIEQVVSINLMGALYGVRYVAEVMMKNGGGSIVNTASSAGVIGQDSVV
+TYSATKHGIIGLTKSMVAEYAKEGLRVNAIAPGPTETPMVKAFYEANPEMKANATGGIPQ
+KRLGTPEEVAELVTFLLTSKAEYINGEVIRIDGGFTNTK
+>tr|A6CQF1|A6CQF1_9BACI
+MENPQLEQQKNEWLIEATISELNDKLHTGEITSHDLVLMYLGRIAEVDQSGPSINSLIEV
+NPDALHIAASLDYERKTKGSRGPLHGIPVVIKDNIDTGDNMHTSAGSLALAESYAKEDAF
+LVKKLREAGAIILGKTNLTEWANFMAEKMPTGYSSRGGQVLNPYGADFMVGGSSAGSAAA
+IAANLAVVSVGTETSGSILSPASQNSLVGIKPTVGLISRTGVIPISHTQDTAGPMARTVT
+DAAVLLQALQGVDKKDAITASNELLETDYTGHLLESGLQGKRIGIARSTYFDYLDESKLA
+IMNAAVEKLAELGAEVVDSVEIPSTEADWDINVLLYEFKAGINAYLKTVDPSLGIRNLSD
+IIRFNTETGEPALKYGQKVMEESEETKGLIDPLYLRSLEKDQYLSKKNGIDAVLKEHQLD
+AIVFPNNFGAMIPAKAGYPSITVPAGFTPEGEPVGITFTGGAYSEPSLIEAAFAYEQGTK
+HRKPPAE
+>tr|A6CPA8|A6CPA8_9BACI
+MESLTYRQTWFGNIKGDILSGLVVALALIPEAIAFSIIAGVDPMVGLYASFTIAVTIAFV
+GGRPGMISAATGAMALLFTNLIAEYGLQYLLAATILTGILQILFGVFKLARYMKFIPRSV
+MVGFVNALAILIFSSQLQHFHGEEWIMYALVGLTLFIIYLLPYFTKVVPSTLVAIVTVTI
+LSITMNYGVRTVGDMGTISQTLPQFFLPDIPLTLETLMIIFPYSAALAVVGLLESLLTAT
+IVDDMTDSESDKNMESRGQGIANIITGFFGGMAGCAMIGQSVINVKSGGRGRLSALVAGV
+FLMFLIVVLGGIVIQIPMAALAGVMIMVSISTFDWASLRTLHLLPRTDAAVMVVTVLTVV
+LTHNLAIGVFTGILLSAVFFVSKISKVRVNSSLEGDKRIYKINGELFFASVTELINLFDY
+KEDVKKVEINLSRSHIWDDSAVAAVDKIVSKFEVNGILAEVTGLNEDSTELVDKLANRLG
+SH
+>tr|A6CKP8|A6CKP8_9BACI
+MALAVEMIKLQFERLGEKQQHEQLEQFLRGMKPRKEVKSFSKKDVPEEVVKRAILSAGTS
+PSGANQQPWSFILISDEKIKQIVKQELAEDQTIVETAPFLVALFKQKHGVEMNESGESVK
+VKHYYPNESAGICAGFFITALNQAGLHYNLHKPVKALTKILHRPDNEEPFMLFSIGIAEE
+EANSTVHRPGDHIVSDVDLVVPDSGDSRETPLSGDYYHSIRKRRNVRDFSIDGIDRTLIQ
+KAFQSLESSPFPDSYRFAVITNTETKRLIREKAEQEEKKFYEEKITEEWRDVLKPLGTNW
+EKAHLTDAPFLIIGFKVNSSEGRETIYSHKTRPIISASVNTGILMSAIHHANLCMLTHTP
+SPMTFLRDLLKRPKNELPIVVLPVGYPAENCEVPNIGKKPLEEILTTMTEREGEAS
+>tr|A6CNX7|A6CNX7_9BACI
+MKSVNGHEIISLFETLAPKELAEDGDKIGLQIGRLNQKVDKVMVSLDVLEEVVDEAVEKG
+VKLIIAHHPPLFRSLKAIKTDTVQGRMIEKLIKNDISVYAAHTNLDVAKGGVNDLLAEAL
+ELKDTKLLLPTYKEKLKKLSVFVPKEDAVKVRKALGDAGAGHIGNYSHCSFSSEGTGRFL
+PGEGTDPHIGQQGKLEEVQEVKIESIYPTKLEKKVLSALFKSHPYEEVAYDIMLLENEGE
+TLGLGRVGTLAAPMSLKEFAAYAKEKLQVENVRVTGNLKDSVQKVAVLGGDGNKFIHNAK
+FSGADVFVTGDLYYHTAHDAMMLGLNVLDAGHHIEKVMKEGVARWMTEKSREKGMNVEYL
+VSEVNTDPFTFL
+>tr|A6CKZ5|A6CKZ5_9BACI
+MSLIGSEVKPFTAQAYKDGEFIEVTEESLKGQWSIFCFYPADFTFVCPTELEDLQNNYDE
+LKSLGVEVYSVSTDTHFTHKGWHDSSETIGKIKYAMIGDPSQKITRNFEVLNEEEGLADR
+GTFIIDPDGVIQTVEINAGGIGRDADILVSKIKAAQYVRKNPGEVCPAKWQEGSETLKPS
+LDLVGKI
+>tr|A6CMW6|A6CMW6_9BACI
+MESRLQDYIHFLIVEKGLAKNSVDSYQRDLKNYMKFIQNVDSAESWNDVQRVNITGFLGH
+LKNEGKSAKTVARHVASIRSFHQFLLREKVTDQDPSIHIESPKMERSLPKVLSIDEVEAL
+LEAPQESSALGIRDKAMLEVLYATGIRVSELIRLKMDDVHLKMGFVRCIGKGNKERIIPI
+GKAAITVLEKYLLEGRPKLVSKKHKDDSLFLNHHGKGLSRQGFWKILKGLAAEAKITKEL
+TPHTLRHSFATHLLENGADLRAVQEMLGHVDISTTQIYTHVTKTRMKDVYSKFHPRA
+>tr|A6CSJ4|A6CSJ4_9BACI
+MELNNRQEYILQIVKDNGPITGEQIAERLNLTRATLRPDLAILTMAGYLDARPRVGYFYS
+GKTGTQLLTDNLKKILVRNYQSIPVVVNENVSVYDAIVTMFLEDVGTLFVIDENTHLVGV
+LSRKDLLRASIGKQELTSIPVNIIMTRMPNITTCEKDDLLIDVAKSLIEKQIDAVPVVNV
+TENGDLEVTGRITKTNVTKAFVALAEEDI
+>tr|A6CNG2|A6CNG2_9BACI
+MAEEKKMSFEEAMERLEMIVQRLEEGEVPLEEALQQYQKGVELSKYCHDTLKHAEKQMTK
+LMTDEGEKEFSLSEGENS
+>tr|A6CQJ1|A6CQJ1_9BACI
+MDYVILNGQIIERTEAKVDIEDRGYQFGDGIYEVIRVYNGKFFTADEHLTRLFESAEKIG
+MSLPYNLEELKNLLASLVKRNDIKEGIVYLQFSRGVAARQHHYPDKNVEPALTAYTKEME
+RPIDKLKMGVQAKLVEDMRWLRCDIKSLNLLGNIMAKQEASEVGCFEAILHRGETVTEGS
+SSNMFIVKDGVIKTHPATNLILNGITRRVILDICKEQNISFKEEEFTVQELLSADEIFLA
+STTSEVMPIVKVSGKNFEVEEPGEVTKKLQAGFEAKITQQCG
+>tr|A6CKS0|A6CKS0_9BACI
+MLVPPNNNYLEVFFMEFQTALDEFLLYLEVEQNYSSNTLSSYESDLTLFHSFLKDHKRST
+LLEDLNPSLVRRFIQQQTLQQYAKPRSVRRRISSLKSFSKFCLKE
+>tr|A6CIX2|A6CIX2_9BACI
+MISFQNHENIDYEYSSFLEELSLEMSQNSLVENGLFGEFGGSYLPPDLQNVLSILAEQFN
+KYKDDEEFNEEFKFYLKEFVGRENPLTFAKNLTEKTGGAKIYLKREDLNHTGAHKINNVI
+GQILLAKRMGATRIIAETGAGQHGVATATACAMFGMECIIYMGKLDTVRQSLNVFRMELL
+GAKVVPVDKGQGRLKDAVDEALNDLVENFENTFYLLGSAVGPHPFPTMVKHFQAVISEES
+KRQILEKEGKLPTAVVACAGGGSNAIGAFAHYIDEEDVRLVGVEPAEAPTLTKGVPAVIH
+GFKCLTLLDEEGNPQPTYSIAAGLDYPGVGPEHSHLKTIGRAEYVTVTGQEALEAFQELS
+KVEGIIPALESSHAVAHAVKLAKTLSKDDIIIVNLSGRGDKDVEQVAEMLNKK
+>tr|A6CM37|A6CM37_9BACI
+MLSPYDKIYRKVILYRIAKKQKEMLQIGAEYGLTDTRTVRSSQELDKLITKYQEIDYIKS
+AQQH
+>tr|A6CTK8|A6CTK8_9BACI
+MIKVYITKDPGGRVSSFSMDGHANFAQNGQDIVCAGASAVSFGALNAIMSLTGVEPGIEQ
+SPDGGYLHCEFPADLPEETEEKVQLLVQGMIVSLQTIERDYSKFIKITFKA
+>tr|A6CMR6|A6CMR6_9BACI
+MPRHYSNAPKSKPKIKNWKGTVKRIWSYLSKEKGLLSLVILMVFISSFLGLLGPFLVGMA
+IDDFIVTRDAGGLFQLILWLAVVYVVYSAAMWLQAYWMIGIAQNSVYRMRTELFQQLHKL
+PIPFFDRRQHGELMSRVTNDMENVSSTLNSSMIQIFSSVLTLLGTVGVMLWLSPLLTLIT
+MLIIPAMFLGLKWITNRTGKLFKETQKNLGDLNGYIEETVSGQRIVKTFSQEEKVMDDFL
+VKSDRLKASAYWAATYSGFIPKLMNMLNNLSFAVIAGVGGILAVQGIITIGVIVIFTEYA
+RQFTRPLNDLANQFNTLLSAVAGAERVFEILDEEHEEKNERRAASVNEIKGEIEFSHVTF
+SYDKETKTVEDISFKAKPGQTIALVGPTGAGKTTITNILSRFYDHDEGKITIDGKDLREI
+KRESLRKHMGFVLQDSFLFQGTIRENIRYGRLNASDSEVEKAAREANAHSFIMKLPDQYD
+TVLTQDGGGISQGQKQLLSIARAILSDPSLLILDEATSSIDTVTEVKIQEALQRLMKGRT
+SIVIAHRLNTIQSADQILVLQDGRITERGSHEELLEQKGFYSELYNSQLREIS
+>tr|A6CII5|A6CII5_9BACI
+MREKGDEMAEPFSELYETYKGSIYSYLLKNTGNPHIAEELTHDTFTKAFKSLKNFRGESS
+LKSWLFTIARNTYLSYCKKSSTKFEISNDLIDEEWQDKEDGFKAMEEKASISSILSSLSE
+RDRTFLLLRDQQGMTYVEIAAIIGETEGSVKVGIYRARKRFKEKYQQEFGGE
+>tr|A6CQ40|A6CQ40_9BACI
+MSIKKVMVVGAGQMGSGIAQVCAQAGFSVKLNDLKEEFVQRGMNTITKNLSRSVEKGRMT
+EEDKEKVLANLTESTDLNDAGDVDLVIEAAVENMEIKTNIFKQLDEIAPQHAILATNTSS
+LPITEVAAATNRPQKVIGMHFMNPVPVMKLVEIIRGLATSDEVYQEIEDMTKTLNKVGVE
+VEDFPGFVSNRVLMPMINEAIYTLYEGVATKEAIDEVMKLGMNHPMGPITLADFIGLDTC
+LYIMETLHEGFGDDKYRPCPLLRKYVKAGWLGRKTGRGFYTYE
+>tr|A6CR14|A6CR14_9BACI
+MTTIVIDPGHGGNDPGATYRNFMEKTYNLSIALKVRDYLQKNYNVNILMTRTGDSTMSLS
+QRSSFANSRNADFYLSIHNNAAGGRGFESYIYNGTVSQQTRNYQTIIHDEIMSSVRQKYG
+ITDRGKKRANFHVLRETEMNALLLEVLFVDNPADLSILNNPDFISDVSTAIAKGVAKALS
+LPALSSTGGLFKVIAGSFTDRKNAEARVTYLMSKGISSFIVPTTISGVQYYRIQAGAYSS
+KENAEAQVEKLKQLGIAGAFIITDGKEPAPTPEPTPPPTPEELFTINGDTLLHSYQLDDF
+VRTVNPEAPSLGQYYVSFGEAYGIRGDVAYAQAIHETDYFRFTGLVKKEQNNYAGIGATG
+PGNPGATFSTPEVGVHAQIQHLYAYSSNENIPAGFQQVDPRFNLVTRGIADTWTDLNGRW
+AVPGTTYGQSIISIYRRMLSHAIEQLDQQKQAITNRLDEL
+>tr|A6CT78|A6CT78_9BACI
+MNRIKNFYLEDPHFINLLNSSMNEEMREWAHKELIEFGRMCAGEIDERAVHTDREGQPRL
+IKYDRFGEDISEIWVNEGYKQTVKDTYNKGIVGYIHKEIPELGRKGNYLYSYAQGYLLSQ
+SEPGFYCPVTLTMATAYLLEHYASEEIKDRFLPHVLSTGEVELYEGATFLTERQGGSDVG
+ANDTKAVKSGESYRLYGEKYFASNSGMCGVAMVLARMEGAKQGSKGLSLFAVPWRKEDGK
+LNGIKIRRLKDKLGVRAVPSAEVEFDGAEAFLVGEASRGIHYMMEALNLSRVCNAIASIG
+IMRRAYMEARNYAFHREAFGKKLAEYPMVKETLTNLAVKQEIETSAVFSLVELFDKVMSH
+EHPVSEKEMVLNRLLIALLKKETAEQAIHFSHEAIEMHGGNGFIEDFVLPRLLRDAQVLT
+VWEGTANILGLEILRLMNRHKAHMLFIEEMRKKLNSVSASLDSLKKPVIGGLNELEELTE
+YVAASAEDVQTFHAKKIGNRMTAVYESWISLKEASEGGERERAKAEIFIEKTWSPHLLDK
+EMKSVSYFDLICGHQLTSVK
+>tr|A6CSI2|A6CSI2_9BACI
+MGRHLRESVKSLARNGWMTFASVSAVTVTLLLVGVFVVLMLNMNKIATDIEKDVEVRVLV
+ELGTEKPQVEELQSQIEQLDGIASIDFSSKEDELRNLMEDMGEDFSLFEQDNPLYDVYIV
+KAENPVETKRIASEIKSFENVNDALYGEAKIERLFSFLQMSRNVGLVLIIGLLFTAMFLI
+SNTIKITIVARRKEIEIMKLVGATNWFVRWPFILEGLWLGVLGSIIPIAVISTGYYYAYQ
+FIEPKLRNHFIQILEYTPFIYQVNFLVILMGCLIGAWGSFMSVRKFLRV
+>tr|A6CJD5|A6CJD5_9BACI
+MDIKLNSTIITEKCGSVSFKRGEIYYKNNAVEIEEYTPKFCKAVVNGGEQFEVTVSKGFH
+GEIMTECTCPKLASFKLDCQHVAAVFLAIKERQQGGQDLTEGFLTLFENKQKKSSGHQRH
+FETRTVVDVEFKIKPVRTLEAGCLFGMELLINRRKITDIRSFLQKASEGQPYLVDDRLTY
+DPEQHCFESHSDQIINQLLKVTHDEKVYGDDTQQDEQVLPVPPTSWDQLRPLLLKAENLL
+LDDAGHLFSGLELSEEPLPLKFTFEDDRESGYLLKVKGLQWMTVFLPYNTVLSEGKLYHL
+KEKDCERLSEIKTMLENRGMNQIPISSEKIRYFLEKVAIDLKRIGQVEISGSLREEYMKT
+PLTAKLYLDRVRNRLLAGLEFHYDNIVINPLEEKEIPTGNMLVRDREKEKEILAIMDDSS
+FARTEGGYILQNEELEYEFLYYMVPKLKKLAGIYATTAVRNRIFNGKSRPQIRVKVKRDR
+MNWLEFKFSMDGIPEREVHELLFALEEKRKYYRLQNGSLLSLETKEIQEIQRFLMSSQAD
+HIDFAKGLALPMNQCLELLDHVESSEGFQMEKSFRDLLESLRKPGTMSFPIPETLSPILR
+DYQKQGFHWMKTLAHYGFGGILADDMGLGKTLQSITFVESILPDIRKHKQPALVVCPSSL
+TYNWLGEFKKFTADIRASVIDGDKKQRQKRQKDLHESDVVIISYPLLRREIQWFEKQHFS
+VVFFDEAQYFKNPVTQTARAVKKIQAEHRFALTGTPIENSIEELWSIYHVVFPQLFLGLK
+DYSRLTRQTIARRIQPFMLRRVKADVLSELPAKLETRESVELLPDQKKLYAAYLAKLKHD
+TLKHLDKDTLRKNKIKILAGITRLRQICCHPALFVDGYQGKSAKLQQLMEIIEESKSSGR
+RVLIFSQFTRMLGLIGRELTGEGLPYFYLDGATPSEERMDLCNRYNTGERDIFLISLKAG
+GTGLNLHSADTVILYDTWWNPAVEQQAADRAHRMGQQNTVQVIRLVATGTIEEKMNELQE
+KKRHLVEELIDSQENRNTMLTEDDIKEILNI
+>tr|A6CPB7|A6CPB7_9BACI
+MERIQLANDLTFSRLIHGLWRLSDWDQTKEETLKLIEEVMETGITTFDHADIYGSYTCES
+LFGDALALKPSLREKMEIVTKCGIVLPSKNRPEHKTHHYNTSKGHIVKSTENSLSSLKTD
+YIDVLLIHRPDPFMDPEQTADAFNQLHKEGKVRYFGVSNFKDHQFSMLQSYLDFPLITNQ
+IEISPYNLENFEDGTMNHALQNRIPPMAWSPLAGGKIFSSDDDKAVRLRATLEKIREEVN
+AKGIDQVAYAWLLNHPSRIMPIIGSGNIDRIQTAVDSLDIKLDHDQWFEILQSSMGHDVP
+>tr|A6CQ72|A6CQ72_9BACI
+MNAKGFHVAVVGATGAVGQQMIKTLESRDFPIEKLTLLSSARSAGKKVTYKGEELTVQEA
+KPEIFDGIDIALFSAGGSVSKELAPEAAKRGAICIDNTSAFRMDPEVPLVVPEVNEEEIR
+NHKGIIANPNCSTIQMVAALEPVRQKYGLAKVIVSTYQAVSGAGAAAIDELHEQTQAILN
+GEEPKAEVLPVKSGKKHHQIAFNAVPQIDNFEENGYTFEEMKMINETKKIMSMPELKVAA
+TCVRLPIVTGHSESVYFEIKDENVTAEDIKSLLKDAPGIVLQDSPEDQLYPMPANAVGSN
+DIFVGRIRKDLDDNHGFHMWVVSDNLLKGAAWNSVQIAESLVKLDLITK
+>tr|A6CT76|A6CT76_9BACI
+ADVYLKLEYMNPGSSVKDRIALAMIEAAEESGNLKSGDTIVEPTSGNTGIGLAMVAAAKG
+YKAVLVMPDTMSMERRNLLRAYGAELVLTPGSEGMGGAIRKAEELAKEKGFFMPQQFKNE
+ANPEVHRRTTGKEIVDQMDSLDAFISGIGTGGTITGAGQVLKENFPNVKIYAVEPADSPV
+LSGGSPGPHKIQGIGAGFVPDILNTNVYDEVITIQNEEAFDYARRAAKEEGILGGISSGA
+AISAALKVAKELGKGKKVLAVIPSNGERYLSTPLYQFEN
+>tr|A6CRW5|A6CRW5_9BACI
+MLSMKRTSKLLGTLLLGAALVSPSFGAQAAEKAQDGEKGQEKFRVYIQSEKGNFKKEAKK
+KYGSRWDLDEETFSTSVNQSQYEALQKNKNLSVQKVSQVQVILPGGSNKAVSPSDQTPWG
+IEAIYEDPAIQVTSGGDNVRVAVLDTGVKTNHQDLENRAEQCKDFTGLLFPLKNGSCSDL
+HGHGTHVAGSVLADGGDNGTGIYGVAPDAKLWAYKVLGDSGMGFSDDIAAAIRHASDESK
+RLGVNLVISMSLGSDGKDELISEAVEYAYTNGTLVVAAAGNSGPDENTIGYPGGLKDAVA
+VAALENTFENGTYRIADFSSRGNPATDGDYVIGEQDVEVSAPGRNILSTWNDGNYNTISG
+TSMATPYVSGLAAKIWAENPALSNSDLRSELQNRAKANDILGGLHASQGDDIASGFGFPT
+VK
+>tr|A6CNM0|A6CNM0_9BACI
+MAKTVKSSYLGTNLEKFLHATNIKTVVIAGLTTPHCVFTTSRMSGNLGFDTYLISDATAT
+FGMMNDQNGNYDGLEIIHNTTLATLNEEFATILNTEQLLKKINEL
+>tr|A6CPA6|A6CPA6_9BACI
+MMRTKTFRYLWVGQALANGGDVFFIIAVIAAIFDRTHSPFFLSIIPMVITFSRFGSSVLA
+PLIFDRFHLKNLLFFSQLLKTFLMIILSLTLFMDMWNMAVFFLLVSSVAFLDGWALPARN
+AFVPSVVRREDLMGANGFLSTIDQAVQFAAWAVGGILLALAGEEWTLVLTSLLFLASSLM
+MYSLPMYGGGFPPIKERKVKFAEKLTEGWTDIWKSPKLRNIFFIYAIEAAATVVWVAAVL
+YVYVDQQLGRGEEWWGFINGAFFIGLIAAGILLLKTHRLFSGNVYRWLPVALVCTSLATL
+FLGLTSMAFLSLVLSVIFGFFDGMKVILLQTAVQNSVNPQRLGKVFAAQGALTTLIFGIF
+SLGAGYSLEKVGITPVFIVSALLLLTAVIPAKKLKVELKGK
+>tr|A6CPJ0|A6CPJ0_9BACI
+MVASYGILLPYFLWSIFFSIINGSLMIQAVQTESILNKIIKSDLLKAILIGATFFLTNLF
+VVLALDQPFRSTNHLFSYIVIYLLCCIAGSYFALRLTDNRSLNMGMFVLGGIAITLIILM
+ANYTAILILFFHLLDVKPVMVIMTFLLAMAISFYSLRFLLQISREAENGDTSIWVSIGSI
+ATGVALAGLPYLVAISVLPMIDAELSQLNLYMLPYAVELLLVWVLSVIPDMFGEQRQLEN
+LSKVEVSEQHFQSLFNHNPDAVISFDLQGNFLSANDGAEHLTGYKREELLAMSLRDIVAS
+RQLQKTLNQFELTKTGISQQSELSIIKKDQSVCYVSVTGVPIQTENGIEGVYAIAKDITE
+SKKQSNTIDYLFHYDDLTGLPNRRMFIFEVEKAVREKTPFAIYSLDYGRLRTIRDLFGFK
+VGDRVLKELSLRLLSVLPDGSVVSRFGGDEIYCLVPRVDGNNEFEPALEQLYKILDTSFF
+VEGHEIFMEMKAGISMFPENGEEPDLLIKCADTARASIPDNSFHNYEVYQNKLDRSTMEK
+IIIENELKRAIGQDELVLYYQPKFNSTLKRLVGFEALVRWNHPEKGLIPPGLFIPAAEQT
+NLIVDLEGWVLREACRQLYVWQSTELKGLPVSVNISQRSFANPAFLENVQDILNEQKISA
+SLLEFEITESMTMFNEKVTIEKLRQLKNLGIRISLDDFGTGYSSLSYLDKLPIDTIKIDK
+SFIDDMTTDQSAMVSTILSIALHNGLGVIAEGVELKEQVTLLQSLGCVNIQGYYFSRPLP
+PEEIGEKFIAGMV
+>tr|A6CQ68|A6CQ68_9BACI
+MSKKKNESIKIIPLGGVGEIGKNMYVIEVDEEIFVIDAGLMFPEDEMFGIDMVIPDIQYL
+VENKERVKGIFLTHGHEDAIGAITYVLRKIKAPVYGTKLTNALVKGRLKDEEFKEDIKFY
+NVHSDSKLYFGGVDVTFFRTTHSIPDSVGVSINTSEGSIVHTGEFKFDQAAKGLYRPDMG
+KMAKIGDNGVLCLLSDSTEAERPGYTTSEEVIANQLNSAFHAAKHRIIVASYASNLIRIQ
+QVFDAASKNNRKVAVVGKSLERVYEIALNLGYLQIKEDVIIPIQDISKYNDDEVVIIATG
+DQGEPFEVLQRMAKQNHKLVNIQDGDTVFITATPSHGMELTMSKTVDMLYRSGANVLTAN
+KKVHVSGHGSQEDLKLMLNLMKPKYFIPIQGEYRMLIAHSKIANSVGISHNRVFILDKGD
+VAQYKDGKMKMSGRVQAGNVLIDGIGVGDVGNIVLRDRKLLSQDGIFIVVVTLSRKGKTL
+VSGPEIISRGFVYVRESEKLMDESTQLVKQIVDGYLAKGTFEWSNIKQDIRDQLNHLLFG
+RTRRRPMILPIIMEV
+>tr|A6CNX3|A6CNX3_9BACI
+MVKLGSHVSMSGKKMLLGSSEEAVAYGANTFMIYTGAPQNTRRKKIEDLNIENGLLHMKE
+NGIDEIVVHAPYIINIGNTTNPATFELGVNFLQSEIERTAALGAKQIVLHPGAHVGAGAE
+AGIKKIIEGLNEVLVKDQEVQIALETMAGKGSECGRSFEELAMIIEGVEHNDRLSVCFDT
+CHTHDAGYDIVNDFDGVLDEFDRIVGIDRIKVLHINDSKNVRGAAKDRHENIGFGHIGFD
+ALARIVHHPQLTDVPKILETPFVGEDKKNKKAPYKFEIEMLKNKTWDEELISKIQES
+>tr|A6CHT3|A6CHT3_9BACI
+MSEKKVYEEFSRLIHGKSSELAQEVTEKQNNKYPEMQSISNDLLTMREELVHLFAESFVL
+EEDERKQNFKAWGKKAGTECATLNTSLEEMLNEFPEYRNIIGELLKAHAKKHELSIDGFY
+DILNILETDIGDVTCYFSLPFVDYQADQLKNSKEALFELSVPVIPISDKIAVLPLVGDID
+TNRAKLMLEKALEKSAKLKVNYFILDLSGVPIIDTYVAQIIFQLIDSLELIGVEAKVTGM
+TPDIVQTVVNLGIDFQKIHTYSSLKQAINTINGTINT
+>tr|A6CKD8|A6CKD8_9BACI
+MSYNFWEISRRNYFYKGGSNVKGTKNRWLIALSAIAIHLSIGAAYAYSVYKNPLIDSMGW
+SESHVTLAFTVMMALAGFTAAFMGSFVERNGPRKSAAVAAVLFGLGQAGSGIAVTLDSSI
+LFIITYGLLSGLGLGIGYISPVSTLVKWFPDRRGLATGMAVLGFGTGALITAPVAAALMV
+SIGISSTFYILGASYFILMVLGASYIAPPKEDWLPDTLKKAVAGGQKTVREDLRQLTAKE
+AIKTKHFWMLWSMMLINTSAGIMMISVASPMAQDIVGLSAAAAATMVGIMGIFNGGGRLG
+WAAASDYLGRQNVFIIFFVIQLVAFVTLPMTTNVILFQTMILLVVSCYGGGFSNLPAFIG
+DLFGTKQLGAIHGYLLTTWSLGGILGPLLVSNIKGATGSYIPVFYVFLGLIACAFVISLF
+LRADIKRMQNQEKNTVYSKGGVTVQ
+>tr|A6CPF5|A6CPF5_9BACI
+MKRKIALGIFVLAALMAIFFLWPRQERLPLLGSVENAALESVDGSTFQLHDQKIKLVVFF
+YTHCPDICPMTLFDLEQVKKELETKNLFKEKVRFISITLDPEVDTQERLQEYAQNFSVDH
+AGWMMLRGDTSTTEQIAKDFKMIYQKNESGFVTHSTTMYLVDANNKIRAYHDMAVGDKKV
+NVEEVVQHIEWLAAE
+>tr|A6CMN3|A6CMN3_9BACI
+MARKKRVWFPGAMYHITARGNRKDLIFREKDDYQYYLHLLKKAKQHYPFKLHSVSCPIIS
+TY
+>tr|A6CP68|A6CP68_9BACI
+MWMRERRVFMSISFYQRFLRWPILVRTLTIALGAISAFGILIHLIEPGTFPTVFDGIWWA
+IITTSTVGYGDYVPLTTTGRIVAMLLILLGAGFLTTYFVTLATSTVRTQNAYLEGRVSFA
+GKDHTIIVGWNERSREIIDQLTAFDKKHEITLIDSTLEENPYRNHYIHFIKGQAFRDDIL
+MKAGIKEASIAVITADQNKNEMDADMNTVMTLLAMKGIAPGLYCVAEILTGDHIANAERA
+GADEVIQTNKQTSYIIMDSILSKGMSTTILELLNHLKGNNLKVISTCPEWCEKTFSDLST
+ILLERNIILLGIKKGECTTVNPPLETIVHPEDGLLVISSEK
+>tr|A6CNE1|A6CNE1_9BACI
+MSVIIERIQFDEKGLVPAIVQDASTKKVLTLAYMNAESLKLSVEKGETWFYSRSRQELWH
+KGATSGNTQRIVEMRYDCDQDAVLVEVEPKGPACHKGNESCFEESFYKSEEVSTDGSSIL
+TQLEKVISDRFDQRPEGAYTTYLFEEGVDKILKKIGEEAAEVIIAAKNRDKEELKWESAD
+LLYHMLVLLKEQGLPLNEVFQTLEERHNK
+>tr|A6CQT8|A6CQT8_9BACI
+MKKRALISVSDKSGIVEFAKGLQDLGYDIISTGGTKNILLDNGIFVTGVEEVTGFPEIME
+GRVKTLHPKIHGGLLAKRDVEAHRLQMEEQDIFPIDLVCVNLYPFQQTIAKPNVTEEDAI
+ENIDIGGPTMLRAAAKNHQYVTVVVDSQDYDTVINEIKANGEAPVLLRKKLAAKVFRHTA
+AYDAYISQFMTDLAGEESPESLTVTYELKQNLRYGENPHQKAAFYKQPLGSEYSVAMARQ
+LHGKELSYNNINDANAALQIIKEFDEPAAVAVKHMNPCGVGTGETIEAAFVKAYEADSTS
+IFGGIIALNRAVDEETALRLNEIFLEIIIAPAFTDRAMEVLTGKKNIRLLTVPFDTAKKV
+EDKLVSIEGGLLVQEDDAFTLEDADIKVATKREPTEAEWEAMKLGWKVVKHVKSNAIVVT
+DKDMTLGIGAGQMNRVGAAKIALEQAGAKAEGAAMASDAFFPMDDTVEAAAKAGITAIIQ
+PGGSIRDEDSIKKADEYGITMVMTGVRHFKH
+>tr|A6CSE6|A6CSE6_9BACI
+MNEIISHKLALLPDQPGCYLMKDRQGTVIYVGKAKVLKNRVRSYFTGSHDGKTQRLVGEI
+EDFEYIVTSSNLEALILELNLIKKHDPKYNVMLKDDKSYPFIKLTAERHPRLIITRNVKK
+DKGKYFGPYPNAGAANETKKLLDRIYPLRKCDNLPDRVCLYYHLGQCLAPCVKEVEPETY
+KKLTDEISRFLNGGYKDIKKELNEKMAEAAENLEFERAKEFRDQISHIEATMEKQTMDIA
+DFTDRDIFGYAVDKGWMCVQVFFIRQGKLIERDVSLFPIYDEPAEEFLTFIGQFYSKTNH
+FKPKEINLPEGIDESIVSELLDVRTTQPKKGQKKHLVQLAGKNAEIALKEKFALIERDEE
+RTVMAVDKLGEAMGIYTPHRIEAFDNSNIQGTDPVSAMIVFLDGKPEKKEYRKYKIKSVK
+GPDDYDSMREVVRRRYTRVLKEGLPLPDLIIIDGGKGQIGAAKEVLELELNLDIPVAGLA
+KDDKHQTSELLYGNPLEIIPLEKRSQEFYLLQRIQDEVHRFAITFHRQLRGKTAFSSMLD
+EVSGIGPKRKKQLQKTFGSMKKMKEASLEELTEAGLPKAAAEELMQKLKE
+>tr|A6CPM2|A6CPM2_9BACI
+MNNNFAILWKGGCTMNSNAPIHTKFYYGWLIVAVSGLAVFFSGPGQTYSVSVFIDRYIAD
+FGWTRSQVSSIYSAATLLSGLCMFFVGWFIDRFGQRRMLVIASVGLALACLLNSMVSNIA
+MLFVGFFLIRLFGQGSLTLIPNTLVPQWFILKRGKALSFMAIGGFASSAAIPPVNAWLVT
+QYGWSFTWSVWAVLLLVVFTPLALFFVRNKPEDIGLLPDGRQVRPDMTEEEEDDLEDNWT
+FQEALKTKAFWLILFCVSIPALVNTGITFHLISIFKWNDLSAGSAALVLSLMALVGFPVT
+LLAGRVLDKVKVNYVLAGIFLGEIIFILFLFVMKTPWLAIVFGLLWGISGGFERIALNYI
+WPSYYGRAALGRIKGTATTVMVLGSAFGPLPFGFAYDMFNGYTEILLLTLILPAIGIIFS
+LLAKKPERETAS
+>tr|A6CQ91|A6CQ91_9BACI
+MKACELIDYIPSLQSFKKFGKVKRVVGLMIESQGPKSSIGDMCFIHLSETRRKIRAEVVG
+FKEETVILMPYSNINEISPGSLVEATSKPLTIKVGHSLIGKVVDSLGNPLDGESLPKGLT
+PAFTEQDPPSPLTRPPINEKIEVGVRAIDSMLTVGKGQRVGIFAGSGVGKSTLLGMIARN
+TTADLNVIALIGERGREVREFIERDLGEEGLKKSIVVAATSDQPALMRIKGAFTATAIAE
+YFRDKGMNVMLMMDSVTRVAMAQREIGLAVGEPPATKGYTPSVFAILPKLLERTGTNEHG
+TITAFYTVLVDGDDMNEPIADTTRGILDGHIVLDRNIANKGQFPAINVLRSVSRLMNHLA
+SPDHLRAAEKIRELMSTYSNSEDLINIGAYKKGTSQEIDQAITYQPKILSFLKQGTGERV
+TLEESVRDIINLAEKGEWRG
+>tr|A6CHL7|A6CHL7_9BACI
+MRPKTLKYLSNKQLMTVWRHAKRENLSEEFIAMIRNEMRRRITITYK
+>tr|A6CJS4|A6CJS4_9BACI
+MTEKRPNSIPGQEQSHQPGLESDMEPRPDFTGNLAGVAKKLNGKKALITGGDSGIGRAVA
+VAYAKEGADVAIVYLEENSDAEETKEYIEKAGGKCLLIAGDIADEEFCQKAVQNTVDEFG
+KLDILVNNAGEQHPQDSIEDISKEQLTRTFSTNIFSMFYLTKEALKHMGEGASIINTSSI
+TAYQGMPKLIDYSATKGAITTFTRSLSQSLIDRKIRVNAVAPGPIWTPLIPSSFSKDTVE
+GFGEESVPVPMKRPGQPAELAGSYVFLASEDASYISGQMIHVNGGTIVNG
+>tr|A6CNY0|A6CNY0_9BACI
+MNFDLTSEQQMIQKTIRDFAREEVAPGALERDRTKEFPKEAFKKLADLGMMGLPFPEEYG
+GAGGDTVSFAIVTEELSKACASTGITYSAHISLGGAPINMFGTEEQKHKYLTPICTGESF
+GAFGLTEPNAGSDAGGTQTTAVKEGDEYVINGNKSFITNASYAKHLALTAITNRSEDGSK
+EISAIIVPTDAEGFTVVDNYEKMGLNASNTTELVLENVRVPEENLLGKKGEGFKQFLSTL
+DGGRIGIGAMALGIAEAAFEKALQYSKERKQFGRPLSQFQVTQFKLADMAMKIELARNMI
+FKAAWLKDQGRPFAKEASMCKLYASEVAMEIADEAIQIHGGYGYMKEYEVERYMRDAKLL
+EIGEGTSEVQRMVISRLIGC
+>tr|A6CR94|A6CR94_9BACI
+MVAEKDAASNNPEDKNDVLKSTQTVIQLALEKLGYSEEVYELLKEPVRMLTVKIPVRMDD
+GKIKVFTGYRAQHNDAVGPTKGGIRFHPHVTEKEVKALSIWMSLKCGIVDLPYGGGKGGI
+ICDPRDMSFRELERLSRGYVRAISQIVGPTKDIPAPDVFTNSQIMAWMMDEYSRIDEFNS
+PGFITGKPLVLGGSHGRETATAKGVTICIREAAKKKGIDLVGARVVVQGFGNAGSFLAKF
+MHDAGAKVIGISDAYGGLHDPNGLDIDYLLDRRDSFGTVTKLFNNTISNKELLELDCDIL
+VPAAIENQITEENAGNIRASIVVEAANGPTTLEATKILTERDILLVPDVLASSGGVTVSY
+FEWVQNNQGYYWTEEEVEEKLEKILVASFNNVYEASQTRRVDMRLAAYMVGVRKMAEASR
+FRGWI
+>tr|A6CRX5|A6CRX5_9BACI
+MEKQKTIKEMQEEVDTYIGQFKEGYFSPLAMMARLTEEMGELAREINHYYGEKPKKSTEK
+ENTIEEELGDIQFVVTCLANSLGIDLEKAHNTVMNKFNTRDKDRWTRKEEEEDNGTN
+>tr|A6CNX4|A6CNX4_9BACI
+MGNQFEQYDFQPFINEAIERLGFIEPTEIQKKMIPLINRGESAIGQSQTGTGKTHSYLLP
+ILNKINRNSQEVQAVITAPTRELAQQIYQEILKITNEEEITSRCFIGGTDKQRMIDKLKT
+QPQIVVGTPGRINDLVKEGALLVHRADMLVVDEADLMLDMGFIFDVDQIAARMPEKLKIL
+VFSATIPEKLKPFLKKYMENPQYAHVEPEHISAKNIKHILLPRKSRNKDDLLYDALSSLN
+PYLAIVFTNTKAKADEVADYLLSKGMKVGRIHGDLSPRERKKMMKQIRALEYQYIVATDL
+AARGIDIEGVSHIINYEIPGELDFYIHRTGRTARAGYSGIAVTIYEPSDEDALNQLEKMG
+ITFENQDLIRGEWKELADRNKRKHRQKTGDEIDQKAKSLVRKPKKVKPGYKKKMQYKMDQ
+IKKRERRVKRRNNS
+>tr|A6CLC5|A6CLC5_9BACI
+MIIHDDTDPGVIRQGQFLFGRNIRSESGIFFDTSSDKGKIEKELIVKETENL
+>tr|A6CLZ2|A6CLZ2_9BACI
+MDYILGLNVVTERIYDFDWTGLLVTIGIAALQIIAIYIAFLIVKGFGNKVLERAFSKYGE
+RNNISEGRAQTLESLAKNIFAYVLIFIFFVTILQIFGIEVTAILAGAGIIGLAVGFGAQG
+LVSDVVTGFFILLEKQVDVGDYVTTGSFSGIVEAVGLRTTQIRSFDGTLNFVPNREITSL
+SNHSRGNMRALVDIGISYDDDIDKAISVLQQVCDKVAAEDENIVDGPNVIGVQSLGASDV
+VIRVIGKTKNMEQWGVERKLRKALKEALDQNGIEIPYPHQVYIEKKEQ
+>tr|A6CM63|A6CM63_9BACI
+MFFQNKRVSISKKVEEVTERTPERTRVREDVSDGTDEEIRSLVEAETITAQ
+>tr|A6CTC7|A6CTC7_9BACI
+MFSYEENFHQESGKIGSFEASSSLLLICKNTHFFWEGGANNEKNFYKKGRKISTFETTSS
+LLLIVVDLHTICKDEQII
+>tr|A6CQR9|A6CQR9_9BACI
+MEVERLVLNTEKTLREMCIICSQPKATGIHLYTSFVCIDCEKDMIRSETDSPQYKFFVER
+LKKVNTPQIYS
+>tr|A6CJ08|A6CJ08_9BACI
+MPKTIRETYETIEEAADDVLELISKFVDVNTFFIARNDKKDVNIVRAYNRNEVVLPSGFE
+TLYRDSF
+>tr|A6CMI9|A6CMI9_9BACI
+MNSSIKKHNLLNDDFSQNREKLKEDILFFYSERIPDILEVLYEVARYEKQIRDLQPLFES
+PFRYRFIENHGLNLFVDGFLFSLYSKSNMLDEYLKEDISKEVKERLDTITDHASRRFEES
+AAECFTLTAYKIFEFGVLAGKDYAF
+>tr|A6CJZ7|A6CJZ7_9BACI
+MQKRQMLQTLADQASVVEASKALFVNFVAI
+>tr|A6CTK4|A6CTK4_9BACI
+MLLPTDEERYGGERFSSYEGGPSEGGHPLFSKEIFILKILGTSVIVLCTAILFQNQVPGF
+DKARSYVEKTMSNEFQFAAISTWYEDQFGKPLALLPAGKESSETGTTETAEYALPASGKV
+IENFKSNGQGIMVETGKGSKVEAMKGGLVIFAGKKADLGQTVIIQHDDKSESWYGHLNTI
+EVTQYETVKAGNPVGTVTDEQDTATGEFYFAIKKEDAFIDPIQVISFE
+>tr|A6CPP6|A6CPP6_9BACI
+MSQTIEENAKEDIQDQVDTAKDATLEIWDRLISDDLWIKISIVSIKILLIIILTAVILKI
+GKTIIRNIFRVRSRSPFKITERREATLSKLLENVLTYVVYFIAITMILTNMGVEIGALLA
+GAGIVGLAVGFGAQNLVRDIITGFFIIFEDQFSVGDYVRVGNAEGFVEEIGLRTTKIKSW
+TGELHILPNGNIAEVTNFSIHNSIAIVDVSIAYEENIEEAEKVLSEFLQTLPQKYEDLIK
+PPDLLGVQTLGASDVVMRIVAETAPMQHWGIARKIRKDVKTVLDEHGIEIPFPRMVMYNR
+QEEESIETSRKQLDSE
+>tr|A6CK03|A6CK03_9BACI
+MHKYRRRNTPAFTFFARVALFGGGLYNETSLELNEKEYYLAVGSIVTQKVTRDNAEGNEI
+LVEQQQSRNSNTSGTGGNL
+>tr|A6CN44|A6CN44_9BACI
+MQKILVANRGEIASRIIRTCREMGIETIAIYSDADKDMPYVKEADNAFRIGEPPVNKSYL
+QSDAILDIARRENADGIHPGYGLLSENSEFARKTRDSGITFIGPSAEVMEMMGDKVAARK
+TMLAANVPVVPGSDGGVASIEEAKTAAESIGYPVMLKASSGGGGIGMIRCNDEQALVQSF
+DSTKNRAKAYFGHDEVFLEKCIDNARHIEIQIFGDEKGNIIHLFERNCSVQRRNQKVIEE
+APSPQLSQDAKEKMYEAAVRAGKAVNYVNAGTVEFIVDNDENFYFLEMNTRLQVEHPVTE
+SITNLDLVKWQILVSRGEELPISTQEGIVSEGHAIEFRVYAEDPKTFFPSPGNISSIKWG
+GTENTRIDSGYEEGNSVTPFYDPMIAKVVVRGSSRDHCITEAVKFFDETEIQGVKTNIPL
+FRDLLKEENFKDGSYNTAWLSSRLAVNK
+>tr|A6CRZ0|A6CRZ0_9BACI
+MLEGMYLQAGHGKELKLLEFEVITMTVKIRLVFMALLLIGAFYFTFFHDDGKIEKEAAEN
+PAAVEKANADHEAHMVDVILERIYLDGEVSEEIKSETIWSMEDFWAAYASWELVDMTEDQ
+VVFRQSVDDISPLMKSNGYFGISEDGVLSIFNGKPGQSEIIQSFFQIDINRLESKQHDEL
+VKGIPVKSKQGYQQVIQSFQPYSVDDNVSFE
+>tr|A6CT10|A6CT10_9BACI
+MEKAIKLLVWGLLFLLIDIRINTFDIFHDAIGYIFLFRGMKSLPHSKWVTYAKTSVIILA
+VLSLIEIIGFGNININDTNRDFTWEIAAIGGISILSLFFHMNLLSSMLVMAPDKEVLRSV
+GKFKRVYFSIQLIIILTFPAILLFRDWVTGYLLIIIVTGLIVEIIYIVKINSFKRYISSA
+EHTS
+>tr|A6CTU2|A6CTU2_9BACI
+MLSAFILNLFLYFPEDKTEYIPAAFWMIVFGTAAVLTFRWINKISKKEEEKTKQAEEEAR
+KAAEENRR
+>tr|A6CIL2|A6CIL2_9BACI
+MKKISVILVSLLAIFSLVGCGNSETEEITKEQAEEIAMEELEKDLAVFNEESNEDIAMED
+VELLSNETHFSSTSKAWEVTFNLKDGLTNPEKATNSIADYSITPEGEIKGKSNSFTFIQN
+>tr|A6CJF5|A6CJF5_9BACI
+MNIIDVQSQDIQETMLDEFNRSQETKKVVKELDGILYQETDYFIDDWSLERRREIANHFK
+NVVTEGGAVILAVVEEKVVGFAVIEPASFGKTAVYKELSYIHVAREARGKGIGAYLFTAA
+KNKAREMGADKLYIGAHPATETQAFYKKMGCTLAKEINTEIFQREKLDIQLEVSVG
+>tr|A6CRG0|A6CRG0_9BACI
+MNFSESEESYYQYKEKGYEGEVTFDKWAEPLKNMIFLNDTNFNVNNNHFQTDSLGISSGT
+LHIFEVKNFEGDYTIKEDKWYSPKGNGIKNPLLQLEKTETLINQLVKNMGWRINVEPHLV
+FVHPEFHLYDVSSDLPIVYPTQLDRFREKMLQRCGSNPTRSEIQFAEKLLALLIEELPYT
+SVPEYKYGGLRKGIVCPFCGGFYSSVQTTLVCGNCGGREKCTEAVLRCVKEIKLLFPQLK
+VTSNLIYDWCGVIRDIKTIRRILKRNFKLVGHGKSSYYI
+>tr|A6CL47|A6CL47_9BACI
+MNRQYRLRWAFFTIGLLVLAFGITLTIKGKDLGIGPWDVFHYGLFLKFGLTIGSWSIIAG
+LILLLITGLATKTFPKIGAFLNMLLIGLFIDFFNFIIPDTSSIVIQSILFAAGTIIIGYG
+IGIYVSADFGAGPRDSLMLLIVEKTGWKIQWVRNGIEVAVFLLGWMLGGPVGIGTIIIAF
+FLGSVVGVSLPQCQRLLRTLAEREREAETASTKI
+>tr|A6CJC6|A6CJC6_9BACI
+MCNGALITKQLTSFKAGLWYVNFLFSKLTSFKAGLEDVIFFFFFELTSFKAGLWYVNFLF
+SKLTSFKTLLEDVNFRFFLS
+>tr|A6CMZ9|A6CMZ9_9BACI
+MVTERLSFFASLFRVEENPTLGMWLLYITIIALSILVYKLGFAKKLPLLKSVVIYFFLAA
+GSTVLTFLGIFLPVAEGLVVAALILIIYKIRLRSHKKEEFSS
+>tr|A6CKN3|A6CKN3_9BACI
+MNLIINSDEVQVDDSVKTVEDLLSYFQLDQKVAIVELNKEILEKSKHAEVKLANGDVVEI
+VHFVGGG
+>tr|A6CLP3|A6CLP3_9BACI
+MMLGFKKKEEIHERKTIRGAEVDNINISTSSTEVEIFPGTADEITAELKGEISSKLKDNV
+DMTVTKQGESLDIEVKVEQESGFRFGFDVIDLKLSVEVPEKLYEEISVETSSGSIMAKEL
+EGKKVSFRASSGEVEASRIKAHTEFKSKANSGGIQLNGIEAKEIHTKTSSGSMLLQKLAA
+EDIHAKASSGRIIVKKWIGNLTAESSSGGVDLHAPEMTGNIDAEASSGDVMLHFDQGPDS
+FVIDFSGSSGEAHMDIKGVDYQEKSEHRISGKAGDGKYKIRVKTSSGDFDFR
+>tr|A6CSC4|A6CSC4_9BACI
+MQNQQQSRSNNSNQLVAPGAQQAIDQMKLEIASEFGVQLGADTTARANGSVGGEITKRLV
+QMAEQQISGYPQQ
+>tr|A6CHF0|A6CHF0_9BACI
+MLFERTGLVLEGGGMRGVYTAGVLEFFLEKEIEFPYVIGVSAGACIAASYLSKQKGRNKK
+VNIGFAGNPKYLSWRNYIRNRELFGMDFVFDEIPNKIVPYDYEAFHNNQSEFVIGTTDCH
+TGEPVYHYKKDYGKDVLTPIRASSSLPFVAPIVEFQSRHLLDGGISSPIPVKKAELDGFK
+QNVVILTRNKGYKKSPSRFQYLIKRKYPQYPGLRKAMINRYNVYNETIDYLEREEEKGNV
+FIIRPQQPLKVGRMERSPKRLEELYHQGYNDAQSIHEDLLAWRGVRSQFITV
+>tr|A6CHW4|A6CHW4_9BACI
+MTLTANKTNVEEQAIAAKKAAKSLSLLTTKEKNEALLTLASTLEEQFETILEANEKDLSR
+GREKGFDEAFMDRLSLSKERIYDFANGLREVAELEDPTGLTVSDWVLDNGLDVAKVTVPL
+GVIGMIYEARPNVTVDATGLALKSGNAIVLKGGSNAITSNKAIVDVMHNALKNTKIPKEA
+VQFINTTDREATQQLFTMKEHVDVLIPRGGGALINAVVNNATVPVLETGVGNCHIYIDKD
+AEVGMALNILVNAKTDRPAVCNAAETVIIHRDWLAANKEQLIETLNKHNISVHGDEHACE
+TIPGCTPAGEEDWANEYLSLDIAVKTVDTTADAINHIERYGTKHSEAIITENADTAKTFM
+TLVDAAAIYHNASTRFTDGGALGFGAEIGISTQKLHARGPMGLPALTTVKYMMTGNGQIR
+>tr|A6CJD1|A6CJD1_9BACI
+MFSKVGQIMLYVNDQDKAAEFWRNKLGFIVKSEEDNGQGMRWIELSPNKDAETTIILHNK
+EFVAKMSPELNLGTPSLMFFTENLEQLHSDLSNKNVTVGEMINMPSGKVFNFADNEENYF
+AVMER
+>tr|A6CPH1|A6CPH1_9BACI
+MKGRYFFVKNFYPYSMGRMNPMSPGEQEYMMNMTQGEMNPYQMEGMDGIGMTGNMYGANV
+LNPLQMSGIDDDYLVPMTNSGQYDMQQGQNPYDIYGMQEGDYTSPMQGMQPGTNPYQMPG
+MPSMNPYPAGMNTGQMNGLGTDYTYTPTTGYGPQYGYSPQEGFKPQFMQGAGNTGYGPGL
+PYGPYQVGPTEGYFAPGPPYLGGPPLPGSGMPGHFGMTPGQRRRFFW
+>tr|A6CQZ3|A6CQZ3_9BACI
+MNREEKLKRQQRIRNFSIIAHIDHGKSTLADRILEKTKALTAREMKEQLLDSMDLERERG
+ITIKLNSVQLKYQAKDGEEYIFHLIDTPGHVDFTYEVSRSLAACEGAVLVVDAAQGIEAQ
+TLANVYLALDNNLEILPVINKIDLPAADPERVRQEVEDVIGLDASEAVLASAKAGIGIED
+ILEQIVEKVPAPEGDPDKPLQALIFDSLYDSYRGVVAYIRVVEGTVKVGDKIKMMATGKE
+FEVNDVGVFTPKATSTKELTVGDVGYLTAAIKNVGDTRVGDTITGAKNPAVKPLPGYRRL
+NPMVYCGLYPIDSAKYNDLREALERLELNDSALQYEPETSQALGFGFRCGFLGLLHMEII
+QERIEREFKIDLITTAPSVIYNVHLTDGEELKVDNPSMMPDPQKVDRVEEPYVKATMMVP
+NDYVGAVMELCQGKRGNFIDMQYMDETRVNIVYEIPLAEIVYDFFDQLKSSTKGYASFDY
+ELIGYKESKLVKMDILLNGEQVDALSFIVHRDFAYDRGKIIVDKLKELIPRQQFEVPIQA
+AIGQKIVARSTIKAIRKNVLAKCYGGDISRKRKLLEKQKEGKKRMKQVGSVEVPQEAFMA
+VLKMDDDGGSK
+>tr|A6CRK6|A6CRK6_9BACI
+MIYFKKLVFGVFVLVILAGCEEQTLQLSEVINETDSEYNYLQLGVEEKVIDMGRTLHQTD
+SKNINEFVNLTGLAEVKEIGSKEAKEIYDEIYQDSRNEEKKVFSASIAVDEDLTESFFIY
+MSENGTILATRFKNGVGERHYVNATNSTALYDAAEVYYEENFEAEEEVQVLDLLEDK
+>tr|A6CSU0|A6CSU0_9BACI
+MLTEQQVRDLLYKMKDPFLHKTLEETNGLLEVSIKEEKNHVSVKVAIAKTGTAEQMKMQQ
+EIVKVLKENGAETVGIRFADLSPEELEKHRGSQPEGGESGNLLSPGSKTTFIAIASGKGG
+VGKSTVSVNLAVSLARAGKKVGLVDADIYGFSVPDMMGIVNRPVVRGEKIIPVERFGVKV
+ISMGFFVEDNAPVIWRGPMLGKMLNNFFGEVEWGDLDYLLLDLPPGTGDVALDIHTMLPQ
+CKEIIVTTPHPTAAFVAARAGAMALSTDHEILGVVENMSYFESKTTGEREYVFGRGGGEK
+LAEELRTNLLGQLPLQQPDWNEDDFAPSVYDEEHRIGKVYGDIAHKVIDLLS
+>tr|A6CJU1|A6CJU1_9BACI
+MEVKKLILRKYMSLIGIGSAKIDLQLPKKSYCAGEAVKGLFLIEGGTIEQQLNRIDCDLV
+RIDKRSKSEQVIESATVLTSTIIAAEEKSERDFIFRLPENLLATTDTVFYQFKTRLTFNE
+GVESSDQDVINIE
+>tr|A6CR85|A6CR85_9BACI
+MWVYEKKLQYPVKVSSCNPRLAKYLIEQYGGADGELAAALRYLNQRYTIPDKVIGLLTDI
+GTEEFAHLEMIATMIYKLTKDATPEMLKEAGLEPHYVNHDSALFYHNAAGAPWTATYIQA
+KGDPIADLYEDIAAEEKARATYQWIINMSDDPDLNDGLRFLREREIVHSQRFREAVEILK
+DERDRKKIF
+>tr|A6CHQ4|A6CHQ4_9BACI
+MKSIPLTFLKIFLGINGFFITFLVMIFGFDQPFLLGVAGGAAAGYLSSALGKWVYTRRFL
+KRNGITIQDYRYIEKNLKEAKTKIKRLQKTQFQVRSLGAFKQILELNRLSRRIYTIVRKE
+PKKFYHSEQFFFYHLDSVVELSEKYTYLATQPIKNDQVFQSIKDAKRTLHSLEESLQEDL
+MNVLSNDIQTLDFELDVARKNKK
+>tr|A6CJZ0|A6CJZ0_9BACI
+MSEVQKGSNKFFVGQNENEPEAEIVFSQEQNKMVIQHTFVSGKLRGQGVGQELVDEAARH
+AREKDIKIDSQCPYAKEVLEKNEKYQDVLA
+>tr|A6CKA9|A6CKA9_9BACI
+MDLIPTMGVGSFFVEVSGFRLVSARTPALLGDKQKLLLLNAPDENCSC
+>tr|A6CRB1|A6CRB1_9BACI
+MPKILNVETAIPPYCIKQEEVALFAENLFSENFRDIKRLLPVFQNGDIESRHFVHDIDWF
+KKPRSFKEKNDSFIEKAVELGTEAIRKCVENTEFATYSTIDAIFTVCTTGLATPSIEARI
+MNHLPFPEHVKRIPIWGLGCAGGASGLSRAYEYCLAFPKANVLVLTIELCSLTFQHGDRS
+KSNLIGTSLFADGTACTLISGEESQCVKNAKKPLAKIFATQSTTMKNSLDVMGWDVKDDG
+LFVIFSKDIPAIIEDWFKPNVEKLLYKHDLSLKDIKHFIAHPGGKKVIEAYRTSLQLDDS
+LLDSSRGILRKFGNMSSATIQYVLKDHLKKDIQTGDIGIAAALGPGFSSELLLMRWE
+>tr|A6CHD5|A6CHD5_9BACI
+MMFLLKNVVAVLHNHHIIRFLSYLRIKLEIQMILYFRKTDRWQKT
+>tr|A6CMP9|A6CMP9_9BACI
+MKKGDMKMAINKKMAAGMLSVSLLASVPFSVMANQGQNNTGISYSQEENTTGSLFNSENY
+DFVKYSEIKSQLESIEKGSNRITLDIKGESANGHDMFVVTISDPSAKGKYSHYQALRKQM
+FKNPEKAQNWIDKNPDFKVPIMINASIHGTEYVGTDAALQLIERMAFENDPETTAILENN
+IIVVNVVANPDGRFDGTRFNGNGIDLNRDFITQSQPETQLAVDLMTEWNPMVLLDLHGYV
+KEYGGDGKPGLIEPCTPPHNPNYEYNLYEKWAFNQAIAMEDEIVAGSSSEFKGDLYENMK
+GTYIPYRDDAAGWDDYPPIFTPMYAMYHGAYGHTLEAPTNDEDGVKWTYDAVMGALKFAT
+ENRTEMIKDQIEMFKRGIEFDHPNHKEGFFPKSYILPIDDADATATEKAVEHLQENDIDV
+EEVKQPFTVDGKKYPAGTYIVKMDQAKAGLANTMLWDGEDISEDTTAMYDISAWSLPELW
+GFEAVPVHTDINAASVKVNKLNEQGGLAGKGPYLIPNSSVKAVNLVNELLQNKIEVRRGN
+DGNFYVNAQPGGLLKKLAMASGLTLETAKAPNDYTAVKDVKVAILKDGGINKQQSHAGTK
+LALSRLGFDVTEVTPQEVAEKGLGGFDVFVYSGTSTLISTSDTQPAANKEFVLKDSAQFE
+SFKSNVADFVEHGGKYISVGASSASAANTLGLTDVSVNEGGSNSNGIVKVDYHNSFISKG
+YKTNDVGFVYSPAWFTGLNGQEVLASYENSDEFFMAGFWKGESRLNAKGQPVIVKEKDTD
+VTLIGLEPGFRDHTDYLFRLLSNTIYQ
+>tr|A6CP60|A6CP60_9BACI
+MKLIPYKHEPFTDFSKEENQKAFKEGLNLVNSYLGQDYPLTIGGEKITTEDKIVSVNPAN
+KEQVVGRVSKASRELAEKAMNEAYETFQTWRKVKPETRADILFKAAAIVRRRKHEFSAIL
+VREAGKPWNEADADTAEAIDFMEYYGRQMLRIAEGFKVESRPGEYNQFNYIPLGVGVVIS
+PWNFAFAIMAGTAVAAIVSGNTVLLKPASTTPVVAAKFIEVLEEAGLPKGVINFIPGSGS
+EMGDYIVDHPKTRFVSFTGSRDVGTRIYERAAKVHEGQIWLKRVIAEMGGKDTIVVDKEA
+DLELAAKSIVASAFGFSGQKCSACSRAVIVEDVYDQVLERAVELTKELTVGDTTDRETFM
+GPVNDQAAFDKIMSYIEIGKEEGELMIGGEGDDSKGYFIKPTIFAHLDPEARIMKEEIFG
+PVVGFTKAKDFTHAIEIANNTDYGLTGAVITNNRAHIEQAREDFHVGNLYFNRGCTGAIV
+GYQPFGGFNMSGTDSKAGGPDYLLLHMQAKTTSEML
+>tr|A6CTT6|A6CTT6_9BACI
+FILFTILIGTPILLAEFVIGRRGGGDAVTSYRNLAPSSLWQLVGYFGTFISFVILSFYSV
+VGGWIVSYLVRSLSGGLTGMSQAEYGALFEEIISSPWEVLLAQFVFLAMTITVVKGGIKA
+GIERASKFMMPALFVLFLVLVVRSLTLEGSMAGVRFLLQPDWSYLTADTALLALGQAFFA
+LSVGLSVMVTYSSYLPQTENMPNSAFSVAGLNIFISLLAGLVIFPSVFALGFQPDVGPGL
+VFVVIPAVFNELAFGGVFLTIFLVLLLFATLTSAFSILEIIVAVMEKGNPQKRGRNAWFA
+GILVFVVGIPSALSFGVLTDFQIAGKSFFDFADFITSNIGLPLGALLISIFTAYVLKKSA
+VKEELQRGSGISDGLFETLYFLIRFIVPIAIIAVFLNSLDIL
+>tr|A6CJ42|A6CJ42_9BACI
+MNKRKAILEAAVELFAEHGYAKTSMQQIADSIGISKGSLYSFFHSKEDLIISIYEHYQQL
+VFERAYVVGLDANMPGEERLAKQFKVQFEGIVEYKSYMKMHMRGDTTKNSEKLAAMEHRM
+RGRLFSWLEHNLLQLYGDKIMPYKWDLMWMTQSIYSSYMMLLISTESGLDPEELGNHIVR
+QISILAEDYFKGNSTPLLDDEIMKPFSVNMDREGTFISFEKREEAWKNLYDKIHSLPSSG
+EYINIADRISEECRKSKPDELVIKGMFSLLSEVNELRKEAAELELELFS
+>tr|A6CHC1|A6CHC1_9BACI
+MGKKHRARINAPKKNNHIPPEGIVAEKEAHNKEHSGNKRKNGPGHNM
+>tr|A6CMC2|A6CMC2_9BACI
+MGMGLELNTMIVTKGNEKRLEENTFQLVKEGYRLYPMEIPIEVKRTKDGETNGIGRITKL
+QWENAETVITYELISLNSTN
+>tr|A6CSI5|A6CSI5_9BACI
+MRLFLMLTLCLVVLTGCADKIELEEEGFVLVIGIDLPEEGQTGLDITYQLADPLAGDPGS
+QPGSEEFKTITIRMPDLISARDMLNVSETRNINFYHTKALVVSEAFARSDKFLGSIGTLG
+RDPEVRRDMILLVSKERASDYLRNNKPVFEASPHKFYDFISRRWDTNALVPKSDLQTVLH
+DIEADSGLALATYTTAEEIDPVIKNNEDNYLPGELYKKGGTPVQLIGSAAFRGGKMIGTL
+TGEEVRIKTFLSERLNPQDIAFTFPDPIKENFRVTGKVTNTKTNVKVDVSKPKPIITVDA
+WLDVRILSIPSMINYVDNLEKQEQLDQHIEERFQLLANRLVKKTQEELKAEAFNWSLTAR
+RKFLNLQQYQKYDWMKAYPDAEVKVNMHVNLEGFGKLLRPRDKEEIRD
+>tr|A6CLZ6|A6CLZ6_9BACI
+MFFILLVTGFFTALIGTVAGSGGLIGMPVMLLAGLPVHSAIATSKFSNTLSSFSSFAYLL
+NKKEIKWKEALSILPFAFGGGMAGGLTAGLLSQKVMEVIAVFLLISAFSISFLKKPAAAD
+NSNDAPLKGIGPFLTAIGFYDGMFGPGQATMLMHTFLYKGVSYLKSIAFTRFQTFVSCSA
+AFLAYLFNGHFIWQAGLAFCLGSIIGAQTAVRFADKVPLKTAKLFLNGMTLILIIQIIHS
+LFS
+>tr|A6CID6|A6CID6_9BACI
+MPHLAIWAVQPVAPGSYSGKKITQEIFILEGHPISKIYNSQPGFTGEAEFRVFMYEGEII
+GGTSFPVGEGVAG
+>tr|A6CLI8|A6CLI8_9BACI
+MDKEIRLGFFISLMLVALIAIASFIMKRKMGQRKHQQ
+>tr|A6CN24|A6CN24_9BACI
+MAKKLHPKVKEFKEFVQKHPKIAAEVKKGTATWQDLFEEWYLLGEEDSRWNEYKEGEPKQ
+EKKESKGFMDQIGGMLKNMDPDQMQQHINSLSQAIGAVQGVLSQFQSTNTTSAPEQNETP
+QRPRHPFSFRKD
+>tr|A6CTS6|A6CTS6_9BACI
+MSTPKELRYSEEHEWVKVEGEKVRIGITDFAQS
+>tr|A6CK68|A6CK68_9BACI
+MAGPKMKKTAGIILESIYLLCFAGLLYIDFFAHETPKWAVTTLFGIIIVSIQLSYIPKRE
+ESAKRTGIFSLVTTVVLFLLVLGFEMGGGVSKVGITLHHPIVWTLVIFSVWMSVRKIRTA
+>tr|A6CJF2|A6CJF2_9BACI
+MGTGDGRFYGFVTNIFIDEEQTKLLQDQYEVYVDHDFVGRKTLFNQVDMLSDIDDFLKAN
+GIDSFQTKLEGDHYKINPQGQSENIISALEVYFKNR
+>tr|A6CUB3|A6CUB3_9BACI
+KSFNMESFNLYFGFFMILVSFILMIRNKIKPIETFKTSSYQRSFTDAEGKEYTYGFPPVL
+GVTIAFIVGFSSGLFGIGGGSLMVPAMILIFLFPPHVAVATSMFMVFLSALVSSATHIYL
+GNINWLYALAVIPGAWFGAKGGAYLNSKLQSAALVNILRIILVLIGIRLVYQGLTG
+>tr|A6CRD6|A6CRD6_9BACI
+MVYNSYTSGIQLMYYLYKKNKGGCNDDENYFFYVSQLYIVQKSEKMADDEFS
+>tr|A6CJJ2|A6CJJ2_9BACI
+MLRVLVLFLHDDPPNDILLIQKLAFVGDVGFMHYFRLLEALLFQSIFLLFREKISREINK
+>tr|A6CIR6|A6CIR6_9BACI
+MNQLQEVQDILRSLRLAETADRLPELIREAEKRDLSFTQFLLDVATYEQKRRDEKHLERR
+FKWATFPFHSTVDEYNVNEQKSLSSKKLNQLKDLTWIEQLYNIIFLGPPGVGKTHLSIGL
+GIEALNQGYKVIFTTMGDLIQALKTEEITRKSKTRMKRIREADLVIIDDLMFMAMDKQEA
+NMFFHLINNLYNQSSIILTSNKGPKEWGELLGDQAITTAILDRILHRVEIVHLNEDSWRM
+KHRKTIFGEQSVSN
+>tr|A6CKD3|A6CKD3_9BACI
+MMHRKKIILLIVFMFVFLSTSFLIKSFSNMTDEESGQLSVEGIIGGINGEQLLIVQGLNS
+EEVRNLSEREILANSTSATYFTLLDSEEKLAVGYKVKVWYENLDTSNPARGTATKISVID
+N
+>tr|A6CL64|A6CL64_9BACI
+MKKLFLAVLILALAVTGAACSNSTSGEETVKVKVGVSGSDNRIWDYVSEKAEKEGIEVEI
+VRFSDYVQPNIALAEGELDANAFQTISYFNAFKKEHDLDLAPIATTVIAPMGIYSEKYES
+VEDIPEGGKIAVPNEATNMGRALLLLQEAGLITLPEEFDGNGAVEKIVSNPKNLEIVPVV
+AGQTPRVLPDVAASIINNGIAVDAGFTPTKDAIFHESETATPYINIIAVRSEDKNNETLK
+KLAEIYQEDDVKEFIEKEYKGNVIPTFVPLSHIGE
+>tr|A6CQW0|A6CQW0_9BACI
+MTAIGISALCLLPFHSAGAEQAVGQSVEKHSTINVNLKEKELPQQLSRFFYDSGLEFTYP
+DAVRGIYVTGHSAGGSRFDSLIKLIETTDLNSMVIDVKDDWGNITYQTEHSQYKDIGKSY
+IKDPRAMLERLEEKQIYPIARIVVFKDSVLSKAKPELSYMDGNEVWKNGRGESFVNPFMK
+EVWDYNVGIAIEAAKMGFKEIQFDYVRFPEGFEKRDTELKYNMGDYAEMDADNVQKRVHA
+VTDFVAYANEQLEPYGVDVSVDIFGYTATLPEAPGIGQNFSKISEHVDVISSMIYPSHWT
+SYFGISKPDLEPYKLITEYAKLENKKLAELETPPTSRPWLQDFTASWLGSGNYKQYGKAE
+VEAQIKALQDQGINEYLLWNASNNYTENVDFTP
+>tr|A6CMU7|A6CMU7_9BACI
+MKKWLPAVGGALAAAAGLGVFLTNQFMYLKKKDEHVILQREISAGRLKLEEYNALPKEEV
+SIPSPFGYDIKAVFVHPNPGNKYMIFCHGVTENKLNSLKYMNLFLKRGFNAVVYDHRRHG
+ESGGKTSSYGFFEKQDLKAVVDELIRRQGEDVYFGIHGESMGAATMLLYAGSVEDRADFY
+IADCPYSDFGEQLLYRMSKEVKLPVGKVLLPLADLFLKLREGYNLRDISPRSVIENIEKP
+VLFIHSIPDDYILASMTQELFDKKNGRKKLFFAVNGLHAQSYNENKEEYEKAIDEFLEEV
+SAVHHVS
+>tr|A6CJL4|A6CJL4_9BACI
+MLLEGSLENPIHFIREWGKLMKHQIERAALNLSYEWVYEAL
+>tr|A6CL92|A6CL92_9BACI
+MIVEEIMKTEVETLRADDTIEQAIKTLRDKKIRHIPIVDDHMAVIGIVSDRDVKDGTPSI
+FQKDKAAEELQNPLKLIMKTNVITGHPLDFVEEAAALFYEHHIGCLPIVKENKLVGIITE
+TDLLYTLIQLTGAHQPGSQIEVKVENRSGVLYEVAGIIRKHNANIHSVLVYPDRNDEKYK
+ILVFRVRTINPMAVIEDLKKEGYEVPWPNMPGMSS
+>tr|A6CM43|A6CM43_9BACI
+MFLSEKKVTFLLFAEGYLTPRGWVLQLDWGSHLSR
+>tr|A6CLN9|A6CLN9_9BACI
+MMQFTDRLFEKVKPIWDKNHQHPFVQGIGHGTLDKEKFRFYMVQDYVYLIDFAKLFALGA
+VKARDTATMGEFAKLLDSTLNEEMSLHRQYAERFGISEEELESAQPAPVTLAYTHYMLHV
+SENGTLAELICALLPCMWSYWEIGKDLSRIKGATSHEFYGEWVSMYSSEEFGSLSKWLIS
+LLNEITAGKNDEELQRLEEIFLNTSRFEYMFWDMAYNGEMWPIDE
+>tr|A6CI07|A6CI07_9BACI
+MLTMTGERMMLRELQENDWEGIHDYASQEQACRYQPWGPNTVDETKVFVKEALADAKRNP
+RTRYLFVITTIEEDKVIGAVEINISDIQNRAGEIGYILNPKSWGNGLATEAARLAVEFGF
+KVLNLHRIYATCNPENAASTRVLEKAGLIKEGTMRHHLKMKDGWRDSHLYSILENEWVTI
+>tr|A6CJD9|A6CJD9_9BACI
+MFLHKVDWSGRCAISCGTSGTGETPNPVAAPEVTYPLERNPAPRAVRKRKDHLFTLRNIC
+LSGLNRALPLFKQAQPRRLTARPAESRTWSGNQLSHPNSSNIYTKIAFHYNRPKNHENRI
+PGNERITVVSYLPVQRADGGANQSKVSMNYNPGASFS
+>tr|A6CMD0|A6CMD0_9BACI
+MTAAMSIGAFAVPASAATLSPQNVLAKPAKAVEHHHGGPFDLGIANDDRLIEMLQKEGVI
+EKGATAAEAQTALNKFLAKKADAAEKEAGELHGEEKEVKAQLQKEMKNNSLTSGKGNKLG
+QAKRNSPDPVQEEAYNGKMRTDKVLVLLVDYPDKPHNTLSADETDMYYEGEDAYSPEHYQ
+DMLFGDGGWVGPDGETYVSMKQYYEQQSGGSYSVEGEVAGWYTASKPAAEYGGNYPTDDG
+SDVNARGLVKEALEAAAADPTVNIADYDKWDRYDLDGDGNYLEPDGLVDHLMVIHSGVGE
+EAGGGSLGSDAIWSHRWNLGGVHTLKGTEAEVPYWGGQMAAYDYTIEPEDGAVGVMAHEF
+GHDLGLPDEYDTQYTGAGEPVSYWSIMSSGSWAGKIGGTMPTGFSPYMKEMLQESAVVDS
+EGTKGNWLTGTEISVDEVTSSGIDVLLDEAVTKGTNNDVVKVNLPQKETVITAPASGKNA
+YFSGSADDLHNEISTTVDLTNATTAEFNFKAWYDIEVDWDYAYVTVNGEPVASDITTNTN
+PHGSNLGNGITGSSDGWIDASFDLSDYVGQQVEVAIEYVTDAAVSNPGLFADDLSIVVDG
+EEVLFDDAEGDTQFTLAGFEQNDGIKRSDHYYLLEWRSHNGVDEGLENIRRGESLMTFDE
+GLVVWYVDKQYSENWTGLHPGDGFVGVVDADQHTNYWSDGSVASTRYQVHDAAFSLEKSE
+KMFLDYSDLLGITMKDNYTKRNPLFNDSADYSNKGLVDAGRNVPEYGLKFRVVGQSADKT
+VGKVLIYK
+>tr|A6CLV8|A6CLV8_9BACI
+MNFEKIDIIHTKYPGKAGRKELLSLFREKKPCTRGKIRH
+>tr|A6CIQ9|A6CIQ9_9BACI
+MVIQKNFEHLVGKLLFLLSFFGLSIVAFLLKSNQSISELILFYISIPALILSMVISVIIK
+FKQ
+>tr|A6CJV7|A6CJV7_9BACI
+MNGPKNERSKKKMVQFQSEWTKNTGKYKELGPILIRIDQKSIQRRK
+>tr|A6CKA6|A6CKA6_9BACI
+MINIASRIIKHKKAVLIVFALITVLSTAAQFFVSVNYNMVDYLPEDAQSTRAMDIMEKEF
+TGDVPDTRVMVTDVTVQEALDYKNELETIDGISSVIWLDDMVDLKTPLEMADTAMVENYY
+KDGNALFSISVRSGDEVRITNEVYELIGEEGAIAGEAINTASSQQMAGSESMYAAMLLVP
+IIILILVVSTTSWVEPLFFLTAIGVSVLINLGTNIFIGEVSFVTQSVAPILQLAVSLDYA
+VFLLHSFSDYRKTTNNPEEAMELAMKKSFPAIMASAATTFFGFIALTFMKFEIGSDLGVN
+LVKGIVLSFISVMVFLPALTLVFYKWMDKTKHRNFVPSFKGIGNKVMKLKFPSLILVLAI
+IVPAFLAQSNTSFIYGTGEQPEDTRVGSDAKIITEAFGETTSIVLLVPKGDAAKESELVD
+DIEGMDYITGVMAYANQVGAEIPPEYLDESITEQFYSENYSRIIINTNQGTEGNIPFSIV
+ENVEEAAQNYYGDGALALGESVTLYDIKNTVNKDNVVVNVLTVVTIAIVLLLSFKSISIP
+IVLLITIQTAVWINLSIPYFTNTSLVFVGYLIVSTVQLAATVDYAILFTEEYNHNRKQMS
+AREAIVKTLDEKTFSISISAGILSSVGFILWITSSNPIVGSIGLLMGRGALLAFIMVLFA
+LPAMLVVFDKLIKKTTYKANYYEEK
+>tr|A6CQ84|A6CQ84_9BACI
+MKHIFHKPYEQLKDRQLWYLERYLGLSEELRTAYALKEAYRLWFEEGKKLGPSAPEKVKE
+GLYNFYRKVENGGLKEFQQAIQTLKNWQIEILNSFAFGYNNGFIEGLNNQTKVIKRNAFG
+FRRYDRFRLRVLLHHQYKLKGIHVG
+>tr|A6CMC3|A6CMC3_9BACI
+MLFNINFLRYALIHSKYTGKEARKELIHIVQREKSPCLQGKNPAPWIFPRATIYTKTGEI
+LGFIEKSL
+>tr|A6CKE4|A6CKE4_9BACI
+MELLDRDEKKGQVPCPALADPMQEKRKGRPDPRYVNALVYWGSRP
+>tr|A6CNG9|A6CNG9_9BACI
+MKWLLTLRVTGLFLFFHLKIKCIILDKLCKFKPIICDKSKTIHLLQHSHSYPKWVAFFLE
+RWL
+>tr|A6CQQ6|A6CQQ6_9BACI
+YKKVPSGTPFKGGFTGYFFYGFLQVVLQQMRNKSPYSAS
+>tr|A6CUF8|A6CUF8_9BACI
+MAQMTMIQAITDAMRTELRNDENVLVFGEDVGLNGGVFRATEGLQKEFGEDRVFDTPLAE
+SGIGGLAVGLSLEGFRPVPEIQFFGFVFEVMDSISGQLARMRYRSGGTFTAPVTIRSPFG
+GGVHTPELHADSLEGLVAQQPGLKVVIPSTPYDAKGLLIAAIRDNDPVIFLEHMKLYRSF
+REEVPEEEYTIEIGKADVKREGTDLSIIT
+>tr|A6CMN0|A6CMN0_9BACI
+MEAKRSYYVDMRSGDILEEPSFEESAGLHILATPEERTELQKLFDDNYDDDVSTFIRSHI
+PFRQYHNDPEDAQYDRSMQKIYAMIYKLGDAETRQHIEKIGVLDEHKPHVRDDIENLK
+>tr|A6CM85|A6CM85_9BACI
+MFQKNGHQEKNLDGFLLAFQEW
+>tr|A6CU42|A6CU42_9BACI
+MGSVSRYSFQTGGKGMNYKDTLLMPKTEFPMRGNLPKREPEMQEKWNEMDIYKKVQERTE
+GRPLFILHDGPPYANGDLHMGHALNKVLKDFIVRYKSMSGYNAPYVPGWDTHGLPIEQAL
+TKKGVNRKEMTVAEFRKLCEEYAYGQIDSQRTQFKQIGVRGDWDNPYITMKPEYEAEQIK
+VFGDMANKGYIYKGLKPVYWSPSSESALAEAEIEYQDKRSPSIYVGFKVKEGNGVLEEGT
+QIIIWTTTPWTIPANLAITVHADLSYVVAEVEGNKYVVAEDLLEEVTSVLEWNDPTVVKT
+VKGSELEQVKAQHPLYDRESLVILGDHVTTDSGTGCVHTAPGHGEDDYLVGKKYGLDILC
+PVNDKGVMTEEAPGFEGLFYDAANKPITEKLQEAGALLKLEFITHSYPHDWRTKKPVIFR
+ATPQWFASIDAFREDLLQAVKDTKWVPAWGETRLYNMVRDRGDWCISRQRAWGVPIPVFY
+AENGEEIITEETIAHVSELFREHGSNIWFEKNAKELLPEGFTHEGSPNGEFTKEQDIMDV
+WFDSGSSHQSVLHQRDDLQRPADLYLEGSDQYRGWFNSSLTTGVAVTGKAPYKGVLSHGF
+VNDGEGRKMSKSIGNIVVPDKVIKQMGADILRLWVASVDYQADVRLSDAILKQVSEVYRK
+IRNTYRFLLGNLADFNPEKDAISYDNLREVDQFMLVKLNDLIKSVTTAYENYEFSSIYTS
+VNNFCTLDLSSFYLDFAKDVLYIEAEDNFERRAMQTVLHESLLALTKLMSPILSHTADEV
+WSHMSSQQEESVQLTDMPEYRELPNSKELLSKWEAFLKLRDNVLKALEEARNEKIIGKSL
+TAKVTLYVNDETKELLDSVKEDLKQLFIVSAFEIGG
+>tr|A6CIL6|A6CIL6_9BACI
+MFSILLGFVIDIILDLKLNVYGYFEPGVQFAGFLPILILFPTSGVLYINFYPFKKSLKSK
+LLYILFWTVFSLAYEFFAIVAGFFYHNGWTYTYSALTYPFLLVLQLVHFHFFKHLVKKE
+>tr|A6CI08|A6CI08_9BACI
+MGYDIKVHKPLQKVLLLLFILFSTGCQSPEAEKERYIVWMEVSQQNQDLAVSAYKRLREA
+NIEFKFDDEGNLLIKKSDSKKAVMCCS
+>tr|A6CIE5|A6CIE5_9BACI
+MEFLFVIGFHVFIMGAVVILFSGAASFLLDKTIHLVVVVGISMLAGLLYAFIMEIPSGAW
+FFIVMNAFLSTFAILIIQAGKYAKRKAEEADVHNG
+>tr|A6CQ06|A6CQ06_9BACI
+MEHSSFRVEALLVMMAVFVACNIYTLIPIYETVGSSISIATEQAILLPEVFLPLNGVYI
+>tr|A6CR35|A6CR35_9BACI
+MPNSYSNSKLKIFSLNSNPSLAEEIAKEVGVPLGQCTVKQFSDGEIQINIEESIRGCDVF
+VIQSTSAPVNENLMELLIMVDALKRASAKTINIVMPYYGYARQDRKARAREPITAKLVAN
+LLETAGATRVITLDLHAPQIQGFFDILIDHLMGVPILGDYFLEKGFKAEDIVIVSPDHGG
+VTRARKLAERLKAPIAIIDKRRPKPNVSEVMNIVGNIDGKIAILIDDIIDTAGTITLGAN
+ALVENGAREVYACCTHPVLSGPAIERIQNSKIKELIVTNSIPLSEDKMIDKIEQLSVAPL
+IGEAIIRVYEQQSVSTLFD
+>tr|A6CJ54|A6CJ54_9BACI
+MKTILEGIQNIFLDLFAMGKGFIYGFFIVALFFLIGGAILYGFLYIPNLIF
+>tr|A6CST3|A6CST3_9BACI
+MSFTKGTLYKIPAAFFNGRAKLKAECPKCQSNQNSRESTPISIPIIGGPSVGKTCFMVAA
+TRGIMEEVAPKNQWGVSFLSDTDRIGFESVSGNMLRGSLPSKTVNGQISAFNFFISNKKW
+TTDKMIYFYDPAGETFSDISSLQGHNYYENYHGNVFMIDPFSIEELAKQYEIHPDYYASV
+NPSHAPLEETLDRLMIYFNEQYGIKPHQKISKPIAFVINKVDAYNLSDQIGERAAMELME
+KDSTIKTVEEGIHQLCCQMLGQAGMNNFLRKIEDKFTNYRFFASSAIKGTEYTSVDKPVL
+WVLSEADKDLKVS
+>tr|A6CTD1|A6CTD1_9BACI
+MTNRQLVEIGENTMSKKTFTEKEIKQLSINPFVKAVSAKGITYTDEFKRQFIAEKEKGKF
+SRQI
+>tr|A6CJR2|A6CJR2_9BACI
+MGKLFMYSDQVIDENRKIDKKLFESFGKAEPVIAYIPCNDDGDRSHYRKQLRYYQRYGLG
+ELLFFDIADEYDEGLLEAVMESDAIHLSGGSPLIFRENLRKRGLDSFLIDYYNKGGILAG
+VSGGAVQFGLGAGIFDLFQNGLESALQTYTQLETLQVVPFEFLPHYNRWSVSFKQSVEEY
+TFTTGRVVYAAEDGDGIIADGKELTFIGNVKRIQMGRTERVL
+>tr|A6CSP2|A6CSP2_9BACI
+MGAALIFLGLVLLLTQIMEWDASYIIAGWWPFILVILGGEMLFYLFFTTQENARVKYDLL
+SILFVAVIGTAGIGLSILQATGVVGAMQSWMTSEEKTMEIPTFNHSVSDEIKRIVVDTGQ
+HDLTIEGGTGDDVSLFGTYRSTIVNGENKLKSPEDYLQYEMKGDSLFITLKMLPVDSNPF
+GSYTQMDATLVVPTKVGLEVSGNSGSITMKPRRLLSHWSVTEGSQVSVMLSQDSDINLLA
+QNVTDIKDNENWKLEEKENENQNFGDKVHVEEMARSGTYTVGKGTYDLVVSNTFGLSVIE
+SR
+>tr|A6CSV1|A6CSV1_9BACI
+MGKKQKTPQQKQYEQLEQKHETKRPVLLNCVKAFFVGGAICLIGQAVTYFYIYFFNFTEQ
+TAGNPTVATMVFFSMLLTGFGIYDHIGQFAGAGSAVPVTGFGNAVISAAIEHRTEGLVLG
+VGGNIFKLAGSVIVFGVFSAFVIALIKTLLIKWGVI
+>tr|A6CTX0|A6CTX0_9BACI
+MVEEAAAHRGEKMRLIFLVICCTLFYFILGTSAVGAEGEDAQQNTELGEKLLEEQLERLE
+IDELKVYWDDVISQYGGFLPESQKGSLIDFIKGDKQFSFKAWFTGIIHFAFQELVMNGKL
+LGTLILLTIFSMFLQSLQNSFEGGNVSKVAYAIVFMVLIIIALNSFHVAIDYTKEAIGTM
+MNFIIALIPLLLALIASSGGLISAAFFHPVIIFLMNTSGLLIQNIVLPLLFLSALLSIVS
+TLSPQYKVTQLANLLRNWSIGLLGIFMTVFLGVISVQGATAAVTDGITVRTAKFVTGNFV
+PVIGRMFTDAADTVISASVLLKNTVGIAGVAILLMIAAFPAMKILMIALIYKLAAALLQP
+LGGGPVIACLDTISKSVIYVFAALAIVSFMFFLSITIMIAAGNITLMVR
+>tr|A6CPV1|A6CPV1_9BACI
+MMKLTSTGKAILFCFLAAVLAAGCSSEEAGTNNQEENPGETQQSDNQAEQDEQQTDDNGT
+DTEEDGQQSEDSPEDMSLTKEEAADILQQYETTFMVETNEDGTVEAYETEEELLSHFKTI
+MSDELAQTYVDEFFREDSGQLKIIATEPPVWLNPEVDYEFNKKNETTYHVVQRKNSELRG
+DREYTFELKYQSNQWIVSEVSSEKLDQVSSQQIKEKADNMLHALLKKDMDTVAGFVHSKK
+GLLISPYVNLTKEDVVLKKQEVAGVYELNETYTWGYEAGSGKPIEATPKEYFQRYQDFAE
+FDKVIVDDIEQRGNVTMNIKEYFPDSQVVEFYKDGTEENSNMDWSSLYIVLQEDSEGEWK
+AVALVSGQWTI
+>tr|A6CHL8|A6CHL8_9BACI
+MNMDIREAVTEQEWEEAYQLLSELRTDLSKEEFNLLLKDMRAEGYRVFCLYDEGRVVSLV
+GIIIRTNFYAKRHLFVYDLVTSTSVRSKGYGRELLRYVEEWGRKHNCETVGLDSGLHRKD
+AHRFYEDVMDYRKSSYAFRKNLQ
+>tr|A6CM59|A6CM59_9BACI
+MRKFLKDMKSEKERGKCREEVSQGHEVRKREVKVS
+>tr|A6CRH5|A6CRH5_9BACI
+MVEITEFALSKIKKEVKGIINEGKKPFIRLAMGVG
+>tr|A6CSH8|A6CSH8_9BACI
+MLQPDFWNDQQQAQGVINEANGLKELVNEYKDMQEMQENLEVTLELVKEENDAELQEELV
+EETKDLNKRLNEYELQLLLSEPHDKNNAILELHPGAGGTESQDWGSMLLRMYQRWAEKKG
+FKVETLDYLPGDEAGIKSVTLLIKGHNAYGYLKAEKGVHRLVRISPFDSSGRRHTSFVSC
+EVMPEFNEEIEIDIRTEDLKIDTYRASGAGGQHINTTDSAVRITHQPTGVVVTCQSERSQ
+IKNREQAMKMLKAKLYQKRIEEQEQELAEIRGEQKDIGWGSQIRSYVFHPYSMVKDHRTN
+TEMGNVQAVMDGDINGFINAYLRSRIN
+>tr|A6CNB9|A6CNB9_9BACI
+MKKWERRIVETPRGSFEIFIGGEGDPLCVTHHYSVFNETGDYFAAEFTDTHKVILVNLRE
+AGNSEKASEHYQLSLLETVFDLEAIRRSLGYKKWVFAGHSTGGMLGIVYGIYYSSSLNGL
+VAVGAAARDYYTFSKECIYHFEHPQFQVMQDYNEKLKRNDLSQEERRDISIKRTKLSIYE
+PENYHDYFSKNIHKGLSAIRMNYMNRELQVFDVTRKLKLIAAPALIICGRHDVQCPLEYS
+IEMAEGIPDAELSVFERSSHYPFLEENELFHEKVSLFFGRLD
+>tr|A6CUA8|A6CUA8_9BACI
+MTMLERLGKERFQPEHMLAELETGLDFELLSHPKVREALHFLQTDLPNISHDEYVVCHGD
+VNHNNWLLSDNNQLYLIDWDGAMIADPAIDIGLLLYWYIPEENWETWLSQYGVPLTDNLR
+LRMKWYVVSQTLISIQWHKGKARFHEMNHWLEYLHSIV
+>tr|A6CJJ4|A6CJJ4_9BACI
+MKKIFHKEDEQMNIRHTLNKLENLHLQKPDKLLTMYLNTDRRDPDQQGGKWKIALKNGFN
+SFEEYLEISNEEERKRFHSIREKVESHVASLERDLPRSIVVFASKDSGIWETLELQVPVQ
+TNFYWEEFAVVDQLKEIHSQHPLTGVILVQQNQVKLIETALGQVEDTEMYHFDLDTEEWR
+RHAGPQPADINIGGNGGSANQDDHYKERIEAHQKRWYKSLGNKLDREAAGRKWEKIIVVG
+DKGAGHLLSENMNKEVDDVLQKNLLNQKEEKVLEEVFS
+>tr|A6CMU9|A6CMU9_9BACI
+MSQKREKGYSQKGKPHADSVQNVISKEELEKAVHPTKRQNSEQ
+>tr|A6CRF5|A6CRF5_9BACI
+FRFSCHPVHLIKLFRLIYNSLQFARKVKKTRIQPLYKGRILVLIYFAYIPSK
+>tr|A6CS29|A6CS29_9BACI
+MMKETLNMEKTTKKLKALARPCYNRFTGLDSKSGSKPSFKVRL
+>tr|A6CSM3|A6CSM3_9BACI
+MKEKEVCPLNFMGQPLFIWLFSKTLLLFIMKFKRNKHISLELSW
+>tr|A6CSP0|A6CSP0_9BACI
+MKHISYEDWLKYVEDGLNDEVREQYEEHLYSCDSCMEIYLSALEAGETSFPELSDDPGFA
+DSIIAEVHRYKEPEVPDIGKKQRFYQQSAFHYVVAAAMTILLMYTGVFQQLVGFAEEFER
+SSRPSITNELMNKTTILIENIESETREERN
+>tr|A6CLD6|A6CLD6_9BACI
+MIEKAVPLIWWDSLFFMLSDWGINSVKGFLKIKFQGKNEWGAWLKEEMSLQSRTK
+>tr|A6CN72|A6CN72_9BACI
+MRTYDQSKQAFKEAVKVMPGGVNSPVRAFKSVDMDPIFMEKGKGSKIYDIDGNEYIDYVL
+SWGPLILGHTNERVVASIKEVAELGTSFGAPTLVENKLAELVIERVPSIEIVRMVSSGTE
+ATMSALRLARGYTGRNKIIKFEGCYHGHGDSLLIKAGSGVATLGLPDSPGVPAGVAENTI
+TVPYNDLESLRYAFEQFGEDIAGVIVEPVAGNMGVVPPQPGFLESLREITEKHGSLLIFD
+EVMTGFRVGYNCAQGYYGVTPDLTCLGKVIGGGLPVGAYGGKAEIMERIAPSGPIYQAGT
+LSGNPLAMTAGYETLSQLTPESYKEFERKVDRLEEGLHAAAEKYEIPHTINRAGSMIGIF
+FTNEEVKNYEGAKSSDLELFSAYYREMANEGVFLPPSQFEGLFLSTAHTDEDIEKTIQAA
+EKAFQKIKG
+>tr|A6CIQ3|A6CIQ3_9BACI
+MKKFILVWTTFLLFILGACKSSDGKDIIHIRQNLEDYQAETVPYEEEIQFTLTTKEILEG
+VEEPRKITTVHDTEVFLAGIEEEVNELNNKHEILVFVGLDGKVEEKGTLLSTFRLNEDDT
+YTSGPNFLTDIRAINERGEDGDFGGTVGDYEGRFEQRVLYVFEKDELMGNKEWTFEIEGL
+YLLEYQES
+>tr|A6CP49|A6CP49_9BACI
+MKLRSLQFKLTLSLSILLFFLISIRTTIVGISNKVFEDTLLINISSAAVTILAGAAIIYF
+LIKYFVEKPLAKLTGIAALFKENDFTQRVNLKTRDQFEDIGEVFNQLADNIQTLIQEIQN
+SGHQVASSSQELSATSEETSTASKQISATMNQQLTVAENQVARVEESKKVIDELVEDIRI
+ISQSTTSVEQLTSSASEKTSIGSEEIKLALGQLNLISDSVKQLSSTMLKLGDHSKQIGNI
+IGVIRGISEQTNLLALNAAIEAARAGEHGKGFSVVASEVRKLAEESSDSSQKITELIQAM
+QAETTQVLKTMDTSTNDVTSGIQKVSTLNKTFSDIREAIEKLRHEIGTVSAKTYEIENNT
+GKVTESVDAVRSVMLSSLHSMETVTSATDEQLASTEEVSTSAVSLSYLADDLNKLIQRFK
+V
+>tr|A6CL81|A6CL81_9BACI
+MNVTIYDVAREANVSMATVSRVVNGNPNVKPATRKKVVEVIDRLGYRPNAVARGLASKKT
+TTVGVIIPDISNIFFAELARGIEDIATMYKYNIILSNSDQNTEKELHLLNTMLGKQVDGI
+VFMGGNITEEHVREFELSPVPIVLAGTVEDSKKVPSVNIDYQAAAYDAVKELIGKGHKRI
+AYVSGPFHDKVNNEAKLPGYKQALEEAGIEFSEELVIEGDYTYDSGLEAWQRLQELNDKP
+TAVFVGNDEMALGVVHGAQDAGVNIPEEAEVISFDNTRLALMVRPQLTSIVQPLYDIGAV
+AMRLLTKFMNKEQVDEQIVVLPHRIEERDSTK
+>tr|A6CI04|A6CI04_9BACI
+MFKIELDGDTYISLLQPHHAVQLFKLVDANRENLGKWLSFPQKTKSVADSKTFIEKSLTR
+FANDNGFWAGIWSGSELAGAIGFIYVDSVNRKAEIGYWLGNDFEGRGLVTRSCKCFIQHA
+FEKWTLNKVEINMASGNIQSRAVAERLGFKQEGIIRDYEFLNGEYHNRVIYGMLQKEWMQ
+RVRVDTNEENGSTVISSVQ
+>tr|A6CRW8|A6CRW8_9BACI
+MKKTSDFIKMKKENEKISMVTAYDYPSAKLAEQAGLDMILVGDSLGMVVLGYDSTVAVTL
+EDMIHHTKAVKRGAPDSFIVTDMPFMTYHLSKRDTLQAAMEIVQKSGAHALKVEGGGNVI
+DTIADLTTAGIPVVAHLGLTPQSVGVLGGYKVQGKTAEAAAKLIEEAKRCEEAGAFALVV
+ECIPRQLAAEVTKSVNIPIIGIGAGSETDGQVLVFHDIMTYGVERIPKFVKKYGDFNEIA
+LAGLQHYHSEVKAGSFPEVGHTFTMKEEELHSLYGGTK
+>tr|A6CR11|A6CR11_9BACI
+MKQSSSGNPYGYGYTQPPYYGQPQNYMGGQYYGGQGMQVPQPVSAPSPAQNIPGQLPVEE
+SYIENILRLNKGKVATVYMTFENNTEWNAKVFKGIIEAAGRDHIILSDPQTGMRYLLPMI
+YLDYITFNEEIEYEYPFGAGAAPTVAYSPR
+>tr|A6CQF7|A6CQF7_9BACI
+MDSRIHTLAKTVVQYSLNVQKGDKVLIEALDVHNYDYIAPFMDAVFQAGGQVFVEQTDYR
+INRKMMLSGTKEQFESDAKLKLAQMKEMDAVIAILGENNISEFADIPSDKRNIYRKAYKP
+VSDEQLKKKWILFNVPTKAYAQLAEMSTEAYTDFLYETCTMDYSKMSKAMDPLVTLMDRT
+EKVRILAQGTDLSFSIKDMPAIKCDGKLNLPDGEVFTAPVKNSVNGRITFNTKSIYGGQT
+FNNIQLTFENGKVTNCQSDNNQKLNDLLDSDEGARYIGEFAIGVNPYINHIMNDIGFDEK
+INGSLHLALGEAYEVADNGNKSSIHWDIVLMLKPEFGGGEIYFDDILISKDGKFVAESLI
+GLNPENLMG
+>tr|A6CJE1|A6CJE1_9BACI
+MGVVYNNIWQGILNSFLVTFFRFYSSPDGLPDDIVVFFFQWLSYFSIWFAVSILIKMFIE
+QKENLLRFTTTMAKTLDSRDKYTASHSENAAKFSLEIAKELGLSRSDCRNIELGAKLHDI
+GKIGIPESILNKPGRLTEEEYELIKSHTVIGYNMVNHIKIFEKNDIFNAILYHHERVDGT
+GYPEGLTGEQIPIIAKIIAVADSFDAMTSTRVYRKSKSLQYAVGEIKKYRGIHYDKEVVD
+AFLRVINHSEDIYFEDQENVKAK
+>tr|A6CNI7|A6CNI7_9BACI
+MGGNTLSEHLHQVEDLLRADVRRKNKLVSNVSIISVILAVVASVAIQQPLSIILTVGIGG
+IGFVLLLFFFNRKESLLMITPYIAAFGISLVLYVIMLSSPYLIMMMLPYFLLTVISIYNN
+RSALLLAIGLGTALSIAFFMETPDRYYQTVNFIVTYYLVYGAVAVNLFFQNRMVTWLRND
+LQDQHLRSRDMLEEQQTHSELIEKNAVIITDNVKNIRMQSEEQLYSMNEMSAAITEISSG
+MATQNDSASSITASVEKLNEMMGQLVQSAKTVNNETDTTYEASQLGWQSLNSLMNKNQEF
+QKSLEMLSQTMDSLGDRIQQTNGFARSIQDIASQTNLLALNASIEAARAGEHGKGFAVVA
+EEIRKLSEITSKTANQISNNLTDVNEETIESQELMRDNAEKMAESVEMTKETMTVFEKID
+STVQTLNEAAHQLDSITLSIGESSSNIESSVTNFASIIEETTASLQEIAASIENHKGQSE
+DLVNFIQNTDKATENLIRG
+>tr|A6CQG9|A6CQG9_9BACI
+MPFLLLLALLLSACGNNSANNDAGGEANDQGNKEPETITYESENGPVEVPADPQRVIVLS
+SFAGNVMALDVNLVGVDSWSKMNPRFEEKLEGVEEVTDESLEKIIELEPDLIIGLSNIKN
+VDKLNEIAPTVTFTYGNVDYLTQHVEIGKLLNKEEEAQTWVDDFKARAKEAGEEIKAKIG
+EDTTVSVLENFNKQIYVYGDNWGRGTEILYQEMGLKMPEKVKESALEPGYYAVSLEVLPE
+FAGDYVVLSKSPEQDNSFMETDTYKNIPAVKNNQVIEVNMLEFYFNDPLTLEYQLETFKE
+SL
+>tr|A6CUE2|A6CUE2_9BACI
+MHIGSKGWYVEKLKEKGVRRYEERKLESYKKHILANLLEKYE
+>tr|A6CKL1|A6CKL1_9BACI
+MSDQNRIQLNVRISKETADMLEEIVEYYQENTKLGRIYKGDVLTDIIEKSHGLMEKQKAI
+HKRKY
+>tr|A6CKX7|A6CKX7_9BACI
+METIIAEPLGTPFYSIQGGGIGQKITYVAVQPGFLGPKIGTLYNEAYSSGYSTGGSIVVE
+FLLTSSHRSLGGVIISGLSEVNDTLLKSRISLGVKLAKAGLVSLLSWSISRKNSNNKLFK
+KMFSDAKQGDYRNIEQYYTYSLHYNCTSRLGNINLPTLLIYGQKDKQFHSYANLLHDKLP
+DNELVLIENVDHRIPTKAANELNELLGQFVRRHTQ
+>tr|A6CL86|A6CL86_9BACI
+MIKPRALQKGDRVAIIAPAGPPDKEQLMQGKRVLEGMGLDVVLGNHVFDLEENLVALDQK
+RVADLHEAFFDPSIDGIFCANGGFGTARIAPLIDYVMIQGNPKIFWGYSDITYLLNAIHN
+FSSLVTFHGPMVASDLNDEDRTTETESSFKSLFTGESLTYDSSVSPLETLVSGTGEGRLV
+GGNLTLLTNGLGTPYQVKTDEAILLIEEVEEPAFKINLMLTHLQQAGVFDALQGVVIGNF
+QAEPDEYERIKKMFRVFFAGASFPVVENFHIGHCQPNYGVPLGVNAKLTTSPARLMIDSG
+VSLK
+>tr|A6CSS6|A6CSS6_9BACI
+MDFKRAKAKGHKLVSEFAPPTIAKACFVFSKEHSKWFILI
+>tr|A6CMC8|A6CMC8_9BACI
+MSIPTHPISLMSQVYRKVFPAVHRELAHWTHKAQAIPNEELRTQALASIRHKTFHCEGGS
+ILALLALMEKDKAIKFIVAYQTISDYLDNLCDRSTSLDPKDFSALHESMKDALTVGAPLR
+KYYRHREDQEDGGYLAGLVQACQSVLSEVPGYSSIKPYLLELCDYYCDLQIHKHVKKEER
+TDRLKSWFNQYKDTLPEMDWYEFSACSGSTLGIFCLVSYGLREDFQGFQADSIRNGYFPY
+IQGLHILLDYFIDQEEDVEGGDLNFCFYYESEEELKRRLLHFLEKADENTSQLPHANFHR
+LINKGLIGVYLSDEKAWKQQKVYSFSKEFLNASGWVTKFFYYNGKIYRKLQGWKKTS
+>tr|A6CST8|A6CST8_9BACI
+MTNRQLVEIGENIMSKKTFTEKEIKKLSINPYVKAVSAKGITYTDEFKRLFIAEKEKGKF
+SRLIFEEAGFNTDIIGMARIHSASKRWSAAYKKNGVLGLNDTRKGHSGRPIERELSLEDK
+NARLEAQINLLKAENELLKKIRFAERGLKK
+>tr|A6CI02|A6CI02_9BACI
+MKLLLSPVRLENRRDYLPLLLIADESEDAVNSYIDEGEMFSIHYNDHMAGVILFTPVNKG
+TLELKNFAIVPEFRGKGLGKAAINEALSLYKKRNVKQIIVGTANSSIDNIAFYQKAGFRM
+NEIKRDFFSEYTEPIYENGIRALDMVMFEKKLI
+>tr|A6CJ28|A6CJ28_9BACI
+MEFIQNSDTFERQDFLLKYKGDEVESVGEIAYSVDSIGSGFGREGESLAGNGTIRDTTES
+RTRNAEIPEDTEIEVTVEWNDVSETFTLTKE
+>tr|A6CJI9|A6CJI9_9BACI
+MVNKRPKRKSKKGSPFRILLIPFTILVVYFIVYGGFLTYQELSEEAKDEIPPEYIPIYKE
+AARKYGVPWNLLAAHHRVETKFSQMNTMVSPVGAEGHLQFMPCTFVGWSHPTCGGLGKGN
+IPKDEMTDPSVIEKYGGYGVDANGDGKADPWDIEDAVHSAANYLSNNGAAEGDIERAVFA
+YNHSEQYVEDVLYYAERYKKEEF
+>tr|A6CNL9|A6CNL9_9BACI
+MGVLMKTHYYLGWFNNFFPENLARMLQGDITDRKSLAMISSNPSIYENNGATERSWLDQA
+GIMFDEYHLINYRVQKEESQTIIQNASVIFLLGGDILKLNSFLKEYGLSDLIKKSSAVVM
+GASAGAINMSAKWLCSKSFGDEVEMNSVYEGIGLDNFSVLSHFDLENNMALVQSELSFLS
+EEIDIYASNKDCALRVKGDKIDVIGNVYLLSHSKIQKLEETL
+>tr|A6CTR4|A6CTR4_9BACI
+MYQTRVLEQQELIDRLVSEIAQSVFRKHPELLENYGEKGRTQTMSDLHKHFHYLQTAFRL
+QAPEIFIDHIKWLFNVLISRNVDIHFVLTGLSLMKERTGELPSEKESFYWNCLSEAIQWL
+NERRPS
+>tr|A6CNT1|A6CNT1_9BACI
+MIEQKAEGGQGIRVWQVLFRPSKNKARSMLFVHHSFDKNRGVPVVSPLIMDI
+>tr|A6CQ16|A6CQ16_9BACI
+MTQERVRIEKNKKWVLFCGYLGERYSMDIEMIKAWFTLENIMELIKEYRSFGPLPGILLP
+MLEAFLPFLPLFVFVLANVNAFGLWFGFLFSWIGASLGALIVFLLVRRYGQARFFRFLKN
+NRQVHRLTKWVDRHGFGPLFLLLCFPFTPSALVNIVAGLSGINIFQYMLAVVAGKIVMIF
+TISFIGHDIVSLFQQPLRTALVLAGIFVLWLAGKRVEARINKKVEKDHSRG
+>tr|A6CQK8|A6CQK8_9BACI
+MQALRMNHSTWIYLIIAFLLAVLPFMVTGRSLLFLMMQVFILGIFAMSYDLLLGYTGIVS
+FGHTMFFGIGAYSTAVMFNKQEPTMLTLLLGILIAVVVAGIVSFIVGVLTLRLKSHFYAM
+LTLALAGLFLVAAEKWRSVTGGADGFTFSVPDALKDRTTLYLTCLAVMVLVFFGLKRFTE
+SPLGRVLLAIRENEGRTESLGYKVLHYKVIVSVVSGVVASISGVLYMLTLRFVDTSVFAT
+EVTLDALLMTIIGGVGTLIGPIIGAALVEFAHHWLSGLSDVHWIFERWIILFGTVYILAV
+IFFPKGIAGTLQGIFKKKSGKSHDKAVSSDKKIAG
+>tr|A6CN82|A6CN82_9BACI
+MERLKVKISAEDGLTLIELLLTIAISAILFPVIYGTFITGYKIYEKVSIEAQLREDADYV
+SAMVMNSLYSNQFDYVDECEDEDNCVKFVDSVETGQNEYNSEVIDQDKQKTDENFFQIKL
+TERNGRQIWTSGNSAIETKSDFKNSEISYVCSEKNRQEQCTNAIIFLDFQVAHTKHDKQL
+NLQSQFGF
+>tr|A6CU26|A6CU26_9BACI
+MFIKILYTILIGSIGGMVFSLLHIPLAWLLGSMTAVFAVEKMTSFKVYWPPIFRNTGLII
+VGYTIGQSFSRDTAIEIVQQLPWMLFLTVLLLLFSSVLALLITKLTGVNLRSTITGCIPG
+GLSQMVVLGEELEDIDVTVVTIIQVIRLVSVIFIVPFMAFSPVFQGDKDGVVSAPAAVDF
+YLSLPLLILSGMAVLSAVLAVKLKLPTPTLLGPILGIGILSASGIAAPHMPDAAIIAAQI
+LLGIYFSKMMKFEDSGSLSKFIGLTLATSVILIAFTFGLGAILMASHDITFITSFLSMAP
+GGMAEMALVGQALHADLSIITGYHLFRILFILFAVPVILKWLFKQKMFSPDSTKTGA
+>tr|A6CH90|A6CH90_9BACI
+MKKRIDILLLKSLEFKNCYGQKVRISDIPVLPQDNPLCFKVNLRLQLYIAEIYRGSKKKV
+FSFRDYLKRHLKWPEYQSIYHTVGLKNNA
+>tr|A6CJ16|A6CJ16_9BACI
+MIIIFILFLMVSTLLLFSLKYLKKRFDPFEIFILFMFNSYNCQNFFYLLSSPYDRITVVK
+EHLPFWISRMQYGIIFPVLLLWVMYAMRGKMTLSRKLFTCFSWVVGGVLIEKLLLVIGVL
+DSKSESWYPSIDLVLSMIVLVTSIFFMEILPPILKKEKVIRDEGNI
+>tr|A6CKK2|A6CKK2_9BACI
+MLLEDLADMDMVTAVQGLVMADLVLDMGMAAPGLVTADQDMDMVSAVPDLATADQAMGMA
+VQVFIK
+>tr|A6CLY1|A6CLY1_9BACI
+MSMYYQQPYRNQAEKKSNRTVTVTGEKTIDVQPDLAIAQIGAVTSDKELTKAQRKNNEVS
+TAVLNSFKQNGIAEKDIQTSTYQIYPQYDYIDGKQVFKGYEVRQVFSVKIREIDKIGEVI
+DDAVGNGANIIERVEFAIAEPQIHYQKALSKAYEDALKKAQVLARSAGTTLNPMPLEINE
+DSSIPMIPRPAKAYVLAAESTAPLQPGEVGILARLTVKYKLMQ
+>tr|A6CIJ9|A6CIJ9_9BACI
+MLVMGIEEIQKERKTIGLSLVGVFILPLFVAIQGFLLTKKAAGTEIKK
+>tr|A6CLT7|A6CLT7_9BACI
+MFYLSMFFRYVSQYMKTRLQYRTDLVVEILSDLLFQGVNLVFILVVFGHTQFLSGWNRDE
+IIFIYGFFLVPFALFSTFFNIWDFNERYIVKGEMDRILTRPIHSLFQVILERMELESLFG
+VFTGLFIMFYAGNNLGLSIEWMDPILFVLFVIGGALVYAGIFISLASIGFWSDAKTSIMP
+MMYNIGNYGRYPVDIYNNAIRFVLTWILPFAFVGVYPAAYFLGKEEWYGFSYLTPLIGTA
+FFGLSIYLWNEGVKRYRGAGN
+>tr|A6CSU1|A6CSU1_9BACI
+MNNKLKMIGFAGIVIILFLIFQYKLLDTDTWESWNLPLSGKIIYIDPGHGGPDGGAGDNE
+VQEKDIALNVSVMLRDYFQEQGALVIMTREDDRDLAPEGMKGYSRRKTEDLKKRLELINS
+SDADLYLSIHLNAIPSSRWSGAQTFYNPKYKENKEVAKSIQSELIRNLENTKREAKGIQN
+VYLVKHINKPGALVEIGFLSNPGEKANLMTEKYQQKVAASIYEGVLKYYDEKTEEE
+>tr|A6CKJ5|A6CKJ5_9BACI
+MRKMMFIPKDFKVEDQQKILEFIKDNSFGILFSQDDEGPHATHLPFILSQKDKPELIGHI
+AKANPQWKTIHGKKVLVVFSGPHSYISASWYKEKRNVPTWNYVAVHVQGTIEIIKEETEL
+LSILHQSVDFYEKDFENPWKMDNEPETVSRLLNGIIGFRIVIDSIEGKWKLNQNKSSDNK
+KEVIKNLRKQDIYDSHEIADLMEKDL
+>tr|A6CI64|A6CI64_9BACI
+MGKEVLRLNVLYLISGILVLALVIVDLLWTTIWVDGGGGPLSRRLGKGFWYTLRKISSDN
+SKILRLAGPMILSLTLIIWILLLWIGWTLVFSADVESILLSQNKNPITTVAERIYFVGFT
+LFTLGIGDYIPKRGFWQIVTTFATGTGMLFITLSVSYVVSVVSGVVQKRAFAKSITGLGN
+DWVTIVKNSWNGQDLHNIDLFMKDISSQLIVLTQQHKAYPILHYYHSQDKEQSSSVALAL
+FDEVLTVYEFGVKDENKPNQVWIKEGRSSVTDYLDTLHAVFFKPAPSSPPPLDIKPLREE
+GLPVKSTQEFNIALSNLVTRREQLLGLVEQDAWDWPQDNKTNSRAE
+>tr|A6CJ55|A6CJ55_9BACI
+MKKEAPPEKSKWLVFKNITLAVILLISIRYLFDDNPFNDHIGGFLMLVFWIVKGLFDFID
+QKRNDDKKSMIGSLIFVIIGVCLLLWQSIKFISV
+>tr|A6CLL0|A6CLL0_9BACI
+MDKRKGSWLMKQTWEHLLFLHWPVPVEDLREKIPSQLELDTFDGEAWIGIVPFAVNHMRV
+HGLPGIPFASSFLECNVRTYVTYNGEPGVYFFSLDADHAPSVMGARSFFHLPYYHAEMEM
+NLVDETIQYKTRRTHKGMNGESLNIVYTLGERISSPTGSLTEWLTERYCLWTVKGNQVYK
+GDIDHEPWELFDAESVIHEQSLWAGLQDKRPVHQCYSPKQTAYIWPLSRQR
+>tr|A6CSZ7|A6CSZ7_9BACI
+MDLSQKSTENVEFMIEKIKEKLRVVNVGAIKPSHFDGEMYEELRDIYDMVERKDRFSPSE
+MQAIVEELGNLRKQ
+>tr|A6CTK0|A6CTK0_9BACI
+EINLLIGKTDWAIAVFADLRLWPTLVLNAAFMIIVSFPLKALLLKLQKERLED
+>tr|A6CU49|A6CU49_9BACI
+MLLILSVSPGVFHILNIAVVIDFTIHYTNRTKLVFPSSFL
+>tr|A6CHV5|A6CHV5_9BACI
+MDGCVAVGLYRHAVTTENLERKYIGWDDVPLVNTKRLEEEAHRYPQYDVVFTSDLVRCRE
+TANALFPDTPIMESRLLREIHFGQWENKTYEELKHEKDYCNWLNDQSLPIPGGESLAEFE
+NRLDHFWLAFLSHFPEFIEKYPKHHNGLRVALVTHGGVIRYFLKKWTADPKAFWEWKIPF
+AKGYEVSWTAEEWRRKTKCSSLREVPSTANQNG
+>tr|A6CI58|A6CI58_9BACI
+MKTNIYFVRHALSTYTPDELGRPLSDKGIADAAKISEVLAEERVDVFISSPYLRAVQTIQ
+GAAQRSDQDIILMDGFKERTLSEKPVENFEQAIEKVWEDWDFSWEGGESNLAAQERGVKV
+LLEVLEEYEGKNIVIGTHGNIMVLIMNYFNAHFDFEFWKQLEMPDIYRLSFEGQRLTGTE
+RLMK
+>tr|A6CMG3|A6CMG3_9BACI
+MWIGAKGVRPPAGIAGRLVPAPSPSGSNNPERLKGKVAFYSLLNICLSGLTKALPLLMTG
+ETPNPVAAPSPSGSNNPQQIKGKITFFC
+>tr|A6CN84|A6CN84_9BACI
+MELYIFALIAFVILLPVLFFLPGGMTKKGRVWIAGGSLLISLLGLLALNQYPLWMVAIIL
+FILVIVSSLVIGNRFGPQLLADGGVQDADNFAADADNVVKEEKIFFAAVDEVDDLVEDNP
+EEADDFSESGINMDSEENVQEDTLMEFITNEELEELPLLTVTDDSVNKVESVQDNDETEE
+IIIDEDTSVEELSELEWLIQQEEQEDTGPVHTVENDEGSSDSEESLEELPIMDIQEKPVL
+PDEEMEPLSEIELMIHEAEDEPSILEPADHEPSQETSNTIPEESDELQPILLDDNEIKFF
+QSDYSEEDQKLVELFSAESSETDSITPEEELLVKEALSDMPVVLEEELDDLSDDGSSEEE
+MLQDAESEPSDLEEGILSEPMENTEHESQDEIHSEFPEGVQEESEVRSPLQTLVIQTIVE
+ELAYYKNKMSLAEFEALIAQYMHPKLHDRDYYVLSQQLIQRYNELKEYKKLKLFIDEIEE
+RFISYPVLKSELNDYKEIAWKNIVKE
+>tr|A6CHU5|A6CHU5_9BACI
+MNNQKNDDLDAKLKSMPLRQISEKNKGEMHQNLMDQVILHENMTMKQRLIRRFWLSLGSL
+LVVCLMLFILYVSMNGGIKVFGQSGYKDVIQHYDGVENLEDFEGFLEDIDKRKATSINVV
+QYGIEGQEFVNQLFYNGKEIEVESTVDGEFIESYVCQSIVEEKERDYKKIFLLNV
+>tr|A6CPY8|A6CPY8_9BACI
+MNNLYRNKLLQRQNRSYTLGTVEFIHNQWVFFDDELDEATDLEFYTQQEVEIYRDQGWER
+GILEPEGIVKTAYDQMNLKDTETIRIKKTLIYSLEMLITELNDDSFFQFLTSLNSLDFSL
+YDCIFCHNHLCFLEDRKIREGVNFLTFDNGENVCSVQHHFTYFKKQRDRFEFTLSTGKRI
+VIEKLE
+>tr|A6CJQ7|A6CJQ7_9BACI
+MDKSIVGVYSSVPQLISDVKERKIKTVDISSIHFYTVEPKQYRIMNENTSLEGSLLDISA
+SNDDSGIHSLATAFDEDDGSIQLVQLEKKLRDEGFSHRDALECKTYLHKGMIVVTEKV
+>tr|A6CN39|A6CN39_9BACI
+MQKFRDKGLTLDETLDASEVKKLDPQIRDVSPIQVTGRADISSEKVTFHLNIEGELVLPC
+SRTLEDVHFPVDIDTVETFLLKANDYDQYEGEEVHRIQGDVIDLMPVIKELLVLEIPMQV
+FSEKAKEDDNLPSGKNWEVITEEQANQAEEEEVKVDPRLAGLAKLLEQDKNS
+>tr|A6CPQ1|A6CPQ1_9BACI
+MRKYEVMYIIRPNVDDETKKAVVDRFDNVLTSNGAEIVESKEWGKRRLAYEINDFRDGYY
+QLVKIQSNNEAVSEFDRLAKISDDIIRHIVIKEEE
+>tr|A6CNE8|A6CNE8_9BACI
+MIEQKVEVKLKTGLQARPAALFVQEANRFSSEVFLERNGKKVNAKSIMGLMSLAVSSGTE
+ITLIADGTDEEQAVKHLTEFVQKES
+>tr|A6CNL6|A6CNL6_9BACI
+MIVQNNQGLILMRTTQLGERNWRNDSSYKMIFSPSGKSRYQTKYGDIKIDESAFLVFNPG
+EDHRQLSVSNEKFLVELSPDLIFQTLNALGKSYKIDPQFAMVSSYNQYVQKWANFLREFM
+QEEDTQLEKELLLEHSIVQLVIILLKYGLGSHQTTFPTLPSTKENVRSVISHLKEGYHES
+WSLEDMATLSGMNKYQFSHEFKSATGLAPYSWLQVYRIIKSQHDLVNTDEPILQIALQHG
+FSSVSAYNVLFKKLYGRTPSVYRNQFR
+>tr|A6CR83|A6CR83_9BACI
+MRRDPYRAQAEKLRQKIERVEPKPEQEPEQRRTLPKRSELHQEKRKKIKYPLIKGMLAFF
+VLLPILMYGLYTTLDSNQNGNRSIVTEKGQLEEVTYETKDIEEKVKSGTSSIDEDKPEDE
+TEQLAEEQETSGGQETPAEKVDEENLIQLTEQVEPVQETEYQENVQVIEHVVKPQETLFR
+IAMNYYNSQAGIEKIKEWNNIENHDLEAGQVLKIPLPVD
+>tr|A6CQW5|A6CQW5_9BACI
+MANETTVKSLPNRKDIKEELTWRLEDIFASDDLWEKEYKEVQELIKQAGSYQGTLSESAD
+HLYKALKFQDEVSERMGRLYTYSHMRYDQDTTNSYYQGLDDRAKSLYTQLSSSFAYLVPE
+ILTIEESKLNSFLEENKDLGLYKHALEEINLQRPHILSAEQEALLAQASEVLSSSANTFG
+MLNNADMEFPSIKDENGEEVEITHGRYIRFLESDDRRVREEAFKAVYKTYGKFQNTFSST
+LSGTVKKDNFSAEVRNFDSARHAALSANNIPETVYENLVKTVNDNLHLLHRYIKLRKKVL
+GLEKLHMYDLYTPLVKEVKMEISYDEAKDMILDGLTPLGDEYINLLKEGFENRWVDVVEN
+KGKRSGAYSSGAYGTNPYILMNWQDNVNNLFTLAHEFGHSVHSYYTRKFQPYPYGNYSIF
+VAEVASTCNEALLNHYLLNTIDEEKKRLYLLNHYLEGFRGTVFRQTMFAEFEHIIHKKAQ
+EGEALTAEMLSKEYYELNKKYFGEEDITIDEEIGLEWARIPHFYYNYYVYQYATGFSAAT
+ALSKQILEEGQPAVERYIEFLKSGSSDYPIEVLKKAGVDMTVSQPIEEAMKVFEESLNEM
+EKMLS
+>tr|A6CSN5|A6CSN5_9BACI
+MIHQKTNTIVIETLEKFPHKINIKLGKILKERGMTQGDLHRLTGLRVATINELVNFKKKS
+LTVAHLISIMAALRIWDLRELIEIEFDEEVVEYFRSERQQMQDGFTSDMKKTLETNFERM
+NQ
+>tr|A6CHC3|A6CHC3_9BACI
+MSIHIGAKENEIAETVLLPGDPLRAKYIAETFLENPVCYNEVRNMFGYTGTYKGKRISVQ
+GTGMGVPSISIYINELMQSYNVQNLIRVGTCGAIQKDVKVRDVILAMSSSTDSQMNRLTF
+NGIDYAPTADFSLLKRAYDAGEEKGLNLKVGNVFTADMFYNDNAEHEKWAQYGILALEME
+TSALYTLAAKYGRKALSVLTVSDHILTGEETTSEERQTTFNDMIEVALEAAIK
+>tr|A6CM66|A6CM66_9BACI
+MLLAGGKGSRLSSLTKSLAKPAVPFGGKYRIIDFTLSNCTNSGIETVGVLTQYQPLLLNS
+YIGIGSAWDLDRKSGGVTVLPPYAESSEVRWYTGTASAIFQNLNYIEQFDPEHVLILSGD
+HIYKMDYEKMLNYHISKKADVTISVLEVPWDEASRFGIMNTSEDMRVVEFDEKPQFPKNN
+LASMGIYIFNWSLLKEYLEMDDRNPESSHDFGKDVIPLLLEEKKKLMAYPFKGYWKDVGT
+VKSLWEANMDLLDDDCDLNLFDHEWRIYSVNPNQPPQYISEQAEVEGSLINEGCYIEGIV
+DHSVLFQGTRVEAGAHIKQSVIMPDAVIGKGAYLEKVIVPPNVRIPDGVCIIPEEGSDEV
+ILVSETFLESIMAEEEAQ
+>tr|A6CPS3|A6CPS3_9BACI
+MPIVALDFSTWDISRTFLESFDKPLFVKVGMELYLQNGPQILEELKLMNHRIFLDLKLHD
+IPNTVGQAMKGLAQLEVDLINVHAAGGIKMMERAMEGLVQGTPAGKVRPRLISVTQLTST
+SEDQMKREQLIKVPLMESVLHYAKITREAGLDGVVCSPHEASAIRDACGEDFLRVTPGIR
+LKGDAANDQTRIASPSEARVLGSSAIVVGRSITAAENPEAAYRIVKSEWEGQA
+>tr|A6CQ50|A6CQ50_9BACI
+WAKENGMHISKFEVLEPLKEILPKLAGRPVYVTIDIDVLDPAHAPGTGTVDAGGITSREL
+LASIHEIARSEVNVVGADLVEVAPIYDPSEQTANTASKLIREMMLGWVK
+>tr|A6CRW3|A6CRW3_9BACI
+MGGMLVMRRLLISVLMLMFFLSAEGNIIAADPQVDLKLKPDEFALSFLPFAKGEVAIIHL
+PEGINYLVNTGESTQLKDLASILNKYGINKIRGVLVTDPIEYHPEALKEISEKWGVEEIL
+TGSKLAEGFLIPGLNIRSLVKGDKLELNQEVSIDIMYEGNQVNEGLDFTVTSLPHRFLWL
+SSHSHIAEDALINEQLNDVNILKVPLYDKTELLSERLLNHIDPQTAIFYREKKRYINTDL
+LELFHESWIDVYFTGQHGLITIKFNKNNYEVITFPEENQVLG
+>tr|A6CTQ5|A6CTQ5_9BACI
+KTRVLTHRIAYLMVEKGVNPYNILAITFTNKAAREMKDRIGNILGGVADEIWISTFHSMC
+VRILRRDIDRIGFTRNFTILDTTDQLSVIKSILKDKNIDPKKFDPRSILGSISSAKNELK
+TPEEFSKEAGSYYDNVISDVYEEYQKRLRKNQALDFDDLIMTTIQLFQRVPEVLEFYQRK
+FQYIHVDEYQDTNRAQYMLVKMMASRFQNLCVVGDSDQSIYRWRGADIANILSFEKDYPR
+ANVILLEQNYRSTKTILHAANDVIQKNSNRKPKNLWTENKQGEKITYYRGDSEQSEAQFV
+AGKIKEMTDSGKRKFSDFAILYRTNAQSRVMEEILLKSNIEYSIVGGVKFYDRKEIKDIL
+AYLRLISNPDDDISLRRVINVPKRGIGSTSLDKIANYAAMNDLSMMQALEEADFIGLSPK
+ITKSVIEFKDLVKGYTQMQEYLSVTELVEEILEKSGYREMLKAEKSIEAQSRLENIDEFL
+SVTKSFEDTNDDKSLVAFLTDLALVADIDKLDDDEQPTDAVILMTLHAAKGLEFPVVFLM
+GLEEGVFPHSRSLMDEEEMEEERRLAYVGITRAEEELYMTNAQMRTLYGQTKMNPVSRFI
+AEIPEDLIDNFEPEKRSPFSSGGKTTASRTQQPVRRKPVSRPVPTTTGGEGISWQVGDRA
+AHKKWGTGTVVSVKGSGDGMELDIAFPSPTGIKRLLAKFAPVEKV
+>tr|A6CSA7|A6CSA7_9BACI
+MKKKLVVLAAVMLAILMLAACGPKSQEDVLKDLTAKVQDMKGYKAKAKMTLQVGDEPQTY
+DVDVWHNDPDYYRVNLSNPAKEQSQIILRNDEGVFVLTPALNKSFKFESEWPNNSSQAYL
+FESLVKDIEADKEAKFKETKTHYVFETATRYQNSQMLPVQEISFNKKDLTPASVKVMDAD
+RNALVKVEFSEMDTKAAFDKNDFDMKKNMTGAQLEIPVNASVSDSEFSVHYPLAATEKGA
+ELVEEKEVKTDDGKRVVLTYDGEKSFTLVQEKSTVVPAVTVSTMVNGDIQDLGFTIAART
+DRTITWTYDGVDYMLASNDLTPEEMTEIARSVQGSVVK
+>tr|A6CPD2|A6CPD2_9BACI
+MVEKELIKKAKKGDHKAFAVLFKENYPFLVKYLVKVTMNRDLAEELAQDTMAKCVEKIHL
+YNGKSKFSSWLMTIATNRFIDLQRKRKRERDWQQEEINLRKMKWEMQSNKEEWNDLLEAL
+SKLSEEVRLPIVLKHYYGFSYEEIADMVKLPEGTVKSRIHHGIKSLRKELKVDETRKTGT
+TK
+>tr|A6CQ78|A6CQ78_9BACI
+MEQETKEFSIDWAGRKLTVEYGQLAKQANGAVMIRYGDTAVLSTATASKQPKPLDFFPLT
+VNYEERLYAVGKIPGGFIKREGRPSERAVLTSRLIDRPIRPLFADGFRNEVQVISMVMSV
+DQDCSSEMAAMFGSSLALTVSDIPFEGPIAGVQVGLIDGEFIINPNVDQLEKSEINLIVA
+GTKDAINMVEAGADEVPEETMLEAIMFGHEEIKRLISFQEEIAAQVGKEKMEVELYQIDQ
+DIEAEVRGICEEDMIKAIQVQEKHAREAAIKEVKDDVIAKFEEKEADEAQLKQVKQVLDK
+LVKGEVRRLITEEKLRPDGRGLDEIRPLASQVGLLPRTHGSGLFTRGQTQALSICTLGAM
+GDVQVIDGLGLEESKRFMHHYNFPLFSVGETGPIRGPGRREIGHGALGERALEPIIPNEK
+DFPYTIRIVSEVLESNGSTSQASICASTLAMMDAGVPIKAPVAGIAMGLIQSGEHYSILT
+DIQGMEDHLGDMDFKVAGTAKGVTALQMDIKIEGLSREILEEALQQAKSGRMHILDSMLS
+TISESRSKLSQYAPKILTMHINPDKIRDVIGPSGKQINKIIEETGVKIDIEQDGSVFISS
+TDEEMNKKAKKIIEDIVREVEVGQLYLGKVKRIEKFGAFVEIFNGKDGLVHISELAEERI
+GKVEDVVSIGDELLVKVTEIDRQGRVNLSRKAVLKEQREKEEQAQK
+>tr|A6CLE8|A6CLE8_9BACI
+MDSPKPNSKIFIEIVNRIRDMISEDGLQPGDKIPSERELSERLKAGRSSIREALRALELL
+GLIETRRGEGTFLKDFRNHRLVELLGTFILKEGQARDDVLLTKEWLEKESLRTILHSELS
+LRPLQQCLDSDDLQTVDSFLKKIIHQSNNLLAEKIWYILSQYGAMVQKAVPMDEHYRKAC
+MGLIDSLQAKQEEKMWEYYYSLKNDPADI
+>tr|A6CQ04|A6CQ04_9BACI
+MSVRFILGRAGTGKTNMILNEIKEKLRQEPNGSPVIYLVPDQMTFLSEYNLVNEEGINGM
+IRAQVYSFTRLAWRILQDTGGLNRYHLSNIGLNMLIRKIIDDKKDQLKLFSRASDKAGFI
+EHVEVMLTEFKRYCISPEELSEKQEGWGEGGQESKALADKLHDLQLIYDSFEENLSGKYI
+DSEDYFTLLEESIGKSEFLQNAEIFIDGFHSFTPQEYAVIGKLMDYCPRVTIALTAETDL
+IPGEQSDLFRMTSETYEALKELALTSRGEVEDKVVLGKTSRFQNKGLAHIEANFEKRPVM
+PFEEESGMTILEASNRRAEIEGVAREIRRLARTESYRYKDMAVLVRNGQEYQDIIETVFY
+DYEIPYFIDQKRKMLNHPLIELIRSTLEIMNSNWRYEPVFRAVKTDLLFPYDRNPQQLRE
+KMDKLENYVLAYGIQGDKWTKKDRWIYRRFRGLEQADMPQTDKEREMEREINELRLFISA
+PILRFGRRLKKGKTGQDLCEILYLYLEELDIPAKLERLRLEAESRGDIISAREHDQAWNA
+VMDLLDQFVEILGDEEVTVKKFASIIDAGIESMRFSLVPPAVDQVMIANLEQSRLSDLRA
+AFVIGVNDGVLPAKITEDGIFSDEDREKLAVSGLAIAPGSKTRLLDEEFIAYKAFTTPSE
+RLYVSYPIANEEGKALLPSPYIKRLSELCPQSEISLLVNDPSELPKDEQLSYVCHPNVTI
+SYLTSGLQAKKRGYHIEDFWWDAYNYYVSDSVWKGRARHILSSLFYQNKGKKLTEETSQE
+LYGEEILASVSRMEMFHGCPFSHFANHGLKLRERDIYRLEAPDIGDMFHAALKWISEEID
+RNGFSWKQLTKTQCLELAREAVLSLAPKLQHQILLSSNRHHYIKKKLQDVIGRASLILSE
+HAKASGFAPVGLELGFGPKAELPPFAFTLKNGTKMALQGRIDRVDKAESDEGVYLRIIDY
+KSSARDLNLTEVYYGLSLQMLTYLDIVLTHSQKLIGADADPAGVFYFHVHNPMVNSKKIL
+TLEEIEEEIFKSFKMKGLVLGEADVVRMMDQSLESGSSNIISAGLKKDGTLSSKTKAADR
+SDFDVMRSHVRNLYKKSGDDIMSGRTDITPYKLKDRTPCQFCAFKPVCQFDTSLEENDYR
+IFTEGKPADLMQKMKGERDAHES
+>tr|A6CMQ0|A6CMQ0_9BACI
+MDIKTKDLYDYLIEKTPLFTQEWLKLQEIRTGSHYSLDAPPEVTEKIKEQIGKYLELIAD
+SLFQTEEEMKKSISDWTAQTASHRATSDTSLTEVTRGGGHFRRLLMGFVERFAEQTDLDV
+TIKDLMYWIQKMNTALDYVMETFTDNFLNILLDRLSSQSNLINELSAPVITLTDNVGLLP
+IIGDIDTTRAKSILETTLQQSTDSGISYLIIDLSGVVMVDTMVAQQIFQLIESLTLIGVQ
+TILTGIRPEVAMTAVQLGIDFSEIQTENSLQRVILTFAKKLDRDLNT
+>tr|A6CTC2|A6CTC2_9BACI
+AVYGQYASQDFNKLFQDAAKLKEEMKDDYLSVEHLALALYQQKNHSITVYLDKQQIEQEK
+LSLIIDDIRGGEKVNTQNPEAKYEVLKKYGRDLIEEVKSGKMDPVIGRDGEIRHVIRILS
+RKTKNNPVLIGEPGVGKTAIIEGLAQRIVRKDVPEGLKDKQIFELDMGALVAGAKFRGEF
+EERLKAVLNEVKRSNGNILLFIDELHTIVGAGKTEGAMDAGNLLKPMLARGELHCIGATT
+LNEYRKYIEKDPALERRFQQVMVKEPDVEDTVSILRGLKERFEIHHGVNIHDKAIVAAAA
+LSDRYITDRFLPDKAIDLVDEACALIRTEIDSMPSELDEVTRKIMQLEIEEAALLKEKDE
+VSKNRLALLQEELANLKEEGNAMKAKWQKEKEKINSLQEKREELDQLRRQLEEAEGNYDL
+NKAAELRHGKIPAAERELQQLETDMLNEQENRLLREEVTEEEIAGIVARWTGIPVSKLVE
+GEREKLLKLESILHQRVIGQEEAVQLVSDAILRARAGIKDPGRPIGSFIFLGPTGVGKTE
+LAKTLAHTLFDSEEQMIRIDMSEYMEKHAVSRLIGAPPGYVGYEEGGQLTEAVRRKPYSV
+ILLDEIEKAHSEVFNILLQVLDDGRITDSQGRTVDFKNTVIIMTSNIGSQFLLDRQDGSE
+EIDDKTKDLVLGQLRSSFRPEFLNRVDDIVLFKPLSIENIKGIVEKAVKELQSRLQEQNI
+TMKISDAAKEFIAKGAYDPVYGARPLKRYIQKNIETKLAREIIAGHFKPDDEIIIDIENE
+EIVFEK
+>tr|A6CTS0|A6CTS0_9BACI
+KHFLGTHFFNPPRYLKLLEVIPTKKTDPEVLSFIKTFGEDVLGKGVVFAKDTPNFIANRI
+GTYGLLVTLQEMLKSGVSVGEVDSITGPAIGRPKSATFRTLDVVGLDTFAHVAKNVYDQV
+EGEEKKVFEIPEFMQKMLKNGWYGSKSGQGFYLKQGKEILELDTETLEYGPRKKLKTAST
+ELSKQEKGLSNKMKALVYAEDKAGTFLWNILSPVLVYSAELLGTIADDIVSIDQAMKWGF
+GWQLGPFETWDSIGLEKSVSKMKEEGRKIPSWITEMLEAGHTTFYKEEDGEQYFYHNGDY
+KQIERNPKVIDLKILKKQGKVIKKNSGASLIDIGDGIALLEFHSPNNSIGLDIVQMINFS
+IEEVEKNYKGLVIGNQGKNFCVGANLAMILMEAQDDNIFEIDMVVRHFQQAMMNIKYSKK
+PVVSAPFGMTLGGGSEVCLPTAHIQASMETYMGLVEAGVGLIPGGGGNKELYIRHLDMMP
+EGIDFDLQKVANKVFETIAMAKVSTSGDEARDNNFLSNSDGVSANGDHLLYDAKQAALAL
+SESGYTPPVRKKVPVVGETGYAALILGAQAMLHSGYISEHDLTIAKKLAYVIAGGKLPFG
+TEVDEQYLLDLEREAFLSLVAQPKSQQRMQHMLVKGKPLRN
+>tr|A6CNU5|A6CNU5_9BACI
+MDKKELRKKQKALLSALERHVYEHKSYLIASRLYETEEWKRSETIAVTVSNFPEVDTWQI
+IRKGWEEGKRMLVPKCVPMDKELNFYYLDSFAGLEKVFYGLFEPAPEKNILADPADIDLV
+IVPGLAFMNSGYRLGFGGGYYDRFLVNYQGSTLSLAFQEQLVEEVPVQEFDIPVDKIVSE
+GVVMKCE
+>tr|A6CKZ3|A6CKZ3_9BACI
+MSSVQKKTDVILIGAGVMSATLGSILKELAPEWEIKVFEKLASAGEESSNEWNNAGTGHA
+ALCELNYTSEKADGSIDITKAVKINEQFQLSRQFWSYLVNSNLIQNPQEFIMPIPHMSLV
+QGESNVNFLKNRFKALSNNPLFQGMEFSNDPEKLKEWIPLIMNGRKSEEPIAATKIDSGS
+DVNFGALTRMLFDHLKNQNVEVNYKHSVENFKRTSDGSWEVKVHDMENNRIEYHTAKFVF
+IGGGGGSLHLLQKTGIPESKRIGGFPVSGLFLVCNKPEIAALHHGKVYGKAKVGAPPMSV
+PHLDTRYIDNKKSLLFGPFAGFSPKFLKTGSNMDLISSVKPNNVLTMLAAGAKEMGLTKY
+LIQQVTLSHEQRMDELREFIPDAKNEDWDIVVAGQRVQVIKDTEAGGKGTLQFGTEVVSA
+EDGSIAALLGASPGASTAVHVMLEVLEKCFPQHMDKWTPKIKEMVPSYGVSLVENPEFFR
+EIHASTAETLKLDENRISLVESLDKESINEKVTS
+>tr|A6CPP7|A6CPP7_9BACI
+MEPKSFQMNDVVEMKKPHPCGANRWKIIRMGMDIRIKCQGCDHSIMLPRREFSKKMKKVL
+ESAGE
+>tr|A6CR51|A6CR51_9BACI
+MSKKILVVDDEQSIVTLLKYNLEQAGYSVITAHDGEEGRDLALEEVPDLMILDLMLPKID
+GIEVCKQIRQQKVMIPILMLTAKDDEFDKVLGLELGADDYMTKPFSPREVMARVKAILRR
+SQAVIDVAEHLRSEQKDYLQVGDLKVFPEQYEAYFAENLLELTPKEFELLMYLTENRGRV
+LTRDQLLSAVWNYDFAGDTRIVDVHISHLREKIETNTKKPAYIKTIRGLGYKLEEQKGS
+>tr|A6CRG6|A6CRG6_9BACI
+MIPLNILDYSPIDEGGDAHQALWETTELARHADSLGYKRFWVSEHHMVDSVANSSPEMLM
+MHLASSTSNLRIGSGGVMLPHYSSYKVAENFRMMEALHPNRIDIGIGRSPSYRIVNQALS
+EDKAKRQSYEQQVADLKKYFTDNTTEEHRFQSLTAAPRISTTPEMWMLGSGERGARVAAA
+QGTGYVFAHFAKPGMRGGSIVEYYRRHFQPSAVLQRPKTMIALFVVVAETEEEAEELAKA
+FDLWLYFVESENQPPYYPSVETARKRGFTASEEERVRQNRKRMIIGTPKKVKSEIEKISE
+TFEADEIMIVPHVSGIENRKRVIELLAKEFDLKK
+>tr|A6CSI0|A6CSI0_9BACI
+MKKKLLGILLGSSLIMGACSDAPDDSSDANNPQDAAESAMGTEIEPEKIVNQKCSSCHGG
+DLSGGMGPALKNIGSQLSAEEILSVIQNGKGSMPKNIIKGEEAEAVADWLAEQK
+>tr|A6CS03|A6CS03_9BACI
+KKRKKVIDKMAAAFILQGYLDSQK
+>tr|A6CTX7|A6CTX7_9BACI
+MADVKTITVKELARKILNHENVFILDARNTDDFDDWKVEGRNVEVINAPYFDLLEGVESI
+QDQLPKDQEIFVLCAKGGSSEFVAEQVEEAGFKDVYSVEGGMKAWSEHLEPIKIGDLKNG
+GSIYQFVRIGKGCLSYIVESNGEAALFDVNRMLDPYEEFISKANIKVTHVFDTHLHADHI
+SGGKKLADKQGTDYYLPPKDADDVIFQYKKVQDGDEYSVGNTTVKALYSPGHTIGSTSYI
+IDDQYLLTGDILFIDSIGRPDLAGKAQDWVGDLRTTLYKRYKELTDELLVLPAHYMSIKE
+MNDDGSVSEKLGTLYKENHGLNINDEEEFRRTVSENLPPQPNSYQQIRETNMGKITPEEE
+EKREMEIGPNRCAVR
+>tr|A6CT59|A6CT59_9BACI
+MGLLAAAIAIGLAALGAGIGNGLIVSRTVEGIARQPEARGMLQTTMFIGVALVEAIPIIA
+VVIAFMVQGQ
+>tr|A6CHG8|A6CHG8_9BACI
+MIEQDGYSFPSGHSMGSFIFYGAMAFALFRLYDHTWSRVIGAAALMVLVLLIGLSRVYLG
+VHYPSDILGGFLAGGVWLAFSILVYTFIKGARPWRKLSGDT
+>tr|A6CP47|A6CP47_9BACI
+MLDNILEQMIDTVGRSKNDVFEIGEQCRQDYESITNELKVIKESVYKVIQEGDELERKSR
+FARKRLSEVSQHFQKFSEGQVREAYEQAHDLQMKLSLNRQTEARLRERRNDLERRIRNLE
+DTIDRADQLNSQITVVMNYLSSDLKQMGAALEDAKERHDFGLQIIEAQEDERKKLSREIH
+DGPAQMLANVLLRSDLIDRVYRENGPMAALGEIKDLKKMVRSALYEVRRIIYDLRPMALD
+DLGLVPTLTKYLSTIEEYHNSTTIRFLNLGQEKRLPSKYEVALFRLIQESVQNALKHSGA
+SEIQVKLEITKDKVTVIIKDNGKGFDTTQKKSGSFGIMGMKERVDILDGEMSIDSKTGSG
+TVILVQVPLTE
+>tr|A6CR55|A6CR55_9BACI
+MKKKLVLIDGNSIAYRAFFALPLLNNDKGVHTNAVYGFTTMLQKIMTDEEPTHILVAFDA
+GKTTFRHKTFGEYKGGRQKTPPELSEQFPYIRELLDAYQIPRYELENYEADDIIGTLSLQ
+AEKDGYEVKIISGDKDLTQLSSETTTVGITRKGITDIEVYTPEHIMEKWEITPDRIIDMK
+GLMGDSSDNIPGVPGVGEKTAIKLLKQFGTIEKLLESIDEVSGKKLKEKLEEHKDQAVMS
+KELATILREAPIEVTVEELNYEGSDDKKLKAFFKELGFSSLLEKMGETVEEDQDLQDVSY
+EILSEVKKEHLEEDSSLYVEVMEDNYFNGEIVGISMRNGSGNYFFTLETALASDAFKKWA
+ADEKMKKSVYDAKRSIVALRRQGVELTGVEFDLLIVSYILNPAESADDFAGVAKKHGASV
+IESDEAVYGKGAKRKVPEEEKLAEHLARKANVVYELKSTCEEALKENDQYQLFTDLELPL
+AIILADMEYTGVGVDVDRLKEMKSELAERLDEMEKKIYELAGEEFNINSPKQLGVILFEK
+LELPVIKKTKTGYSTSADVLEKLQSKHEIIDHILHYRQLGKLQSTYIEGLLKVIHEDSNK
+VHTRFNQALTQTGRLSSTDPNLQNIPIRLEEGRKIRQAFIPSEKNWLMFAADYSQIELRV
+LAHIAGDEKLIHAFNEGMDIHTKTAMDVFHVDADSVTSNMRRHAKAVNFGIVYGISDFGL
+SQSLGITRKEAGEFIQRYLDSYPGVQEYMDDIISEAKQNGFVKTLLQRRRYIPEITSRNF
+NLRSFAERTAMNTPIQGSAADIIKKAMIDMAARLEKENLQTRLLLQVHDELIFEAPEDEI
+ERLKEIVPEVMENAVELEVPLKVDYSYGPTWYDAK
+>tr|A6CQ38|A6CQ38_9BACI
+MNFKLSEEHEMIRKMVRDFAKNEVEPTAAERDEEERFDRELFDKMAELGLTGIPWPEEYG
+GIGSDYLAYCIAVEELSRVCASTGVTLSAHTSLAGWPIYKFGNEEQKQKYLKPMAQGEKI
+GGYGLTEPASGSDAGGMKTTAKLDGDHYILNGSKIFITNGGIADIYVVFALTDPSQRQRG
+TTAFIIESDFEGFSVGKKEKKLGIRSSPTTEIVFDNCRVPKENMLGKEGEGFKIAMMTLD
+GGRNGIAAQAVGIAQGALDASISYAKEREQFGKPIAANQGISFKIADMATSIEASRLLTY
+QAAWLESEGLPYGKESAMSKLMAGDTAMKVTTEAVQIFGGYGYTKDYPVERYMRDAKITQ
+IYEGTQEIQRLVISRMVTK
+>tr|A6CR97|A6CR97_9BACI
+MIRLRKQKEKRTNFMLVILSAGFAPGLALLSYFYLRDEFETEPVSFIIKTFIYGAILTFP
+IMFLQYVLQAESVITSPWLNAYFSAGLLEEFFKWFILFFAVFQHIEFNDPYDGIIYGVSV
+SLGFATVENILYLIAHGVEFAIGRALLPVSAHALFGVIMGYYLGKAKFAGQHMKLKRIYM
+SLLIPFALHGTYDFILGTGRNWIFYMIPFMLFLWWTGIRKIKSAHRLTTSHYDQKDYNKK
+ISM
+>tr|A6CL95|A6CL95_9BACI
+MSVYMREKFQSLLQRSQPVIKFFANNRFLKRARITYGVLWNLLLIFIVVAVLGTAFAGGV
+GAGYFASLVKEEPIRPYDNMKQDIYNYEETSQLYFANDVYLGKMRTDLEREEVSIEEVSE
+NLVNAVIATEDEYFKEHNGVVPKAILRAIVQEFTNSATQSGGSTLTQQLIKNQILTNEVS
+FDRKAKEILLALRLERFFEKEEILEAYLNVATLGRNSSGRNIAGVKSAAKGIFGVEPKDL
+TLPQAAFIAGLPQAPFAYTPFTNGGEVKENLEPGLTRMQTVLYRMFEEGYITEEEYQTAS
+SYDISKDFIDPKPSVNDNYPWLTAEIESRAMEVISKILAEKDGYSEDDLENNDELYEKYI
+TLADREMRQRGYHIHSTINKEIYDSMQKTKDAYEMYGQELTRTKIDPETGEEIEVPNPVQ
+VGAIMIENKSGKIISFVGGRDFKLEQLNHATQSIRQNGSTMKPLLVYAPALEFGEIGPGS
+PLPDVEMSIMAGNGVMWTPQNYSFDYNGLIPARYALAESLNIPAARLYTRIFNKQPIQFI
+EKMGFSTLTSREKENLSLSLGGMERGVTLEENTNAYTTFANGGKFVDAYMIDKIVDKNGN
+TIYQHEVESVDVFSPQTAYLTIDMMRDTLDHYAGTGRYAKKFLNFSSDWAGKSGTTQDYK
+DHWFIASNPSITFGTWLGYDDPQSMYRAIPTYGHYGLRNIRLWSYLLNDARDLAPDLIDP
+EASFTAPKGVVTRSFCGISGLLPSEACSQAGLVKSDLFNAQYVPSKTDDSLLKSRYVMIN
+GKKFLALDSTPEEFSQPGVILNPDFVENILNGINADPRQLIPADEERYKNILVAENKIED
+DGAAPGTVKATASGNKVTWTASASSDVVGYRVFTVSGQKVASIKSDENLVSTLGDGEYYV
+VAVDVAGKQSGKSNTVRIGKEKEEPKPPKKEDKPNPEKPEEPKPDPGDSDDDSGQGDGGS
+DSGNDGGNDSGGSDDSGSDSGSNSGPSSGSGNNSGSGGNNSNNQG
+>tr|A6CLB0|A6CLB0_9BACI
+MIYDQILVRYGEISTKGRNRKAFTKKLRENILMMLKDFPNIKISATRDRLHIYLNGENGE
+EVLKKLENVFGIQSYSPVVKTAKDIDEIKEAALTLMKKTHIEGKTFKVSARRADKTFELD
+TNEINYAVGSHVLKNTEGLTVDVKNPDIKLNVEIRKEGAYLSSEVYPGAGGMPAGASGKA
+MLMLSGGLDSPVAGYLIMKRGVEVEAVHFHSPPFTSERAKQKVIDLAKSLSAFSGRIKLH
+VVPFTEIQQTVHNQVPENYTMTSTRRMMLRITEKLRQKHEGLGIVTGESLGQVASQTLDS
+MLAINEVTNTPVLRPLISVDKLEIIDIAKEIGTHDISILPYEDCCTIFTPPAPKTKPKKE
+KIQYYESFVDFEPLIDKAVADTELLIIDGGSLQTENDELDELL
+>tr|A6CM69|A6CM69_9BACI
+MFSDTNDFKEAFLKRLEMMYGKTFPESTARDQYFTLGNMIREYISINWIGTNEQYRFNGQ
+KQVYYLSIEFLLGRLLRQNLMNLGIYEVVENGLNDLGIDLDEIEEEEADAGLGNGGLGRL
+AACFLDSLASLDLPGHGCGIRYKHGLFEQKIVKGFQVELPEQWLRHGHVWEVRKPDLAVE
+VLFWGRVESYEHKGRWKFRHVDAEAVTAVPYDMPVVGYQTSTVNTLRLWSAEPSSYQAGK
+DMMKHKRETEAITEFLYPDDTHDEGKTLRLKQQYFLVSASLRSILRSYLAKKRDIREMHE
+YISIHINDTHPVLAIPELMRILLDDHGLNWEEAWEITTKTFAYTNHTTLSEALERWPVRI
+FEPLLPRIFMIVNEINERFCQSLWSQYPGDWSRIEQMAIISHDEIKMAHLAIAGSFSVNG
+VAAIHTEILKQREMNLFYQFYPEKFNNKTNGITHRRWLLKANQPLSKLVTNAIGNDWIHQ
+PEKLEELHAFKDDRMFLEELQKVKTHKKQQLAQKIMEQNGLKVDPNSIFDVQIKRLHAYK
+RQLLNVLHILHLYNRFREDSSFDMHPRTFIFGAKASPGYFYAKKIIKLIDSVAKLVNNDP
+VVKGRIKVVFMENYRVSLAEDIIPAADISEQISTASKEASGTGNMKFMMNGALTVGTLDG
+ANIEILEKAGPENIFIFGLTAEEVMKYYAEGGYYSMEYYHHDEHIRQVVNQLIDGTLPDS
+ADHYEEIFDSLLAENDQYFVLRDFASYANIQEKAGKAYEDKEQWLKKSLINIAGSGYFSS
+DRTIREYAENIWGIAGKELQKK
+>tr|A6CQJ2|A6CQJ2_9BACI
+MNINWMEEVEKRKDDLLEDLQKFLQIKSILDEENTTKEAPLGEGVKEALTYLLNLGEKDG
+FTAKNVDHLAGHLEFGQGEELLGILCHVDVVPEGDGWSVDPFGGEIKDGKIYARGAMDDK
+GPTIAAYYAMKIVKELGIPLDKRVRMIIGTDEESDWRCVEHYFNVEEMPTMGFAPDADFP
+IIYAEKGIADYDLVSKAGAGNEEAAHTVLHFESGRRYNMVPDFAKVKLAGSADDSKLAQD
+YEQFLLSKNLKGKSYMESEALFLELEGVSAHGMEPENGTNAGILLAHFLSDSDIDPSSQQ
+YFTFIKTYFYGDSRGKNLEINYEDDITGPLTINVGKLRYDQQAGGTLGLNMRYPVTFNLD
+EAKGKLQELVEQKGFAIENFSDSKPHHVDKNHVLVKTLQKVYEEQTGDKGELLSIGGGTY
+ARSLESGVAFGPLFPGRADVAHQKDEHMFVEDLLKATAIYAQAIAELAKK
+>tr|A6CNH4|A6CNH4_9BACI
+MHTYILPYQSYWSHYITDEICQPKELTIKWKSVKDIAVSMPRGGKKLQNVLIVGGGKGGI
+AILQILRETSVLEVAAVCDLNEDSPGILYAKENGIPYGENWRNFLDEEIDIIIEVTGDQE
+VFEELRDSRGKNTVVIPGSVAFLVAKLLKEKEHLIDEMKNENFKRDLILNSTDDGMVGID
+KNETIILFNRSAEKMIGIPADEALGKHIYEVIPKSGLPRVLESQRNEINQELLLENGLKI
+ITNRIPMITGDQEVIGAFSVFKDITEVVNLAEEITDLKEIQTMLQAIIQSSDDAISVVDE
+EGKGILINPAYTRITGLTEEEIIGKPATADISEGESIHLKVLQTRRAIRGSKMRVGPNKK
+EVIVNVAPIIVNGKLKGSVGVIHDVSEIQALTNELDRARRIIRTLEAKYTFDDIVGVSDE
+MKLAVEQAKLGAKTPATVLLRGESGTGKELFAHAIHNASDRKYNKFIRVNCAAISENLLE
+SELFGYEEGAFSGAKRGGKKGLFEEANNGSIFLDEIGELKADTQAKLLRVLQESEIVKVG
+GTKSISINVRVIAATNVNLEKAIANGSFREDLYYRLNRMPIQIPPLRTRRSDIPLLSEVL
+IQKINQDYGRNVEGINPSAMDRLLDYHWPGNVRELENILGRAMIFMNYNETMIEPKHLPF
+MDKIQEKSNGGKVKAGTDGRDLAAMLEEFEKNIIRDVLEHNKGNKTATAKALKISVRNLY
+YKLEKHKIETDSTQDSAH
+>tr|A6CIG7|A6CIG7_9BACI
+MGFLTPAFFWLGSSLAILLLFYLFRKEFTEKEISSTLLWDSLIQEWKANRWWRKLQRHLL
+LLLQILIVLMLILALAQPYFSGKGISGDHLVAVIDTSASMQTAEGEGTRFQEAKEDILEI
+IDSLGDGQKMSLLTGGRIPELIFTGESEKQVMKSALKQLSPTYEEDNMVQAAGYAFSLVP
+EGEGEIHLYTDSLNKEMLANVPISNKLVVHNIGDQRNNLSLRSFGVAKKRDNISGVVTVA
+NESEEDRTIEVSIQGTEAIVKKSIEVKADSSEMLYVEGLPESPFYEAAIEYEDAYEADNR
+ISAFLGGAAETEVYLAGETNPFLEKVLPLLGYDPVVLSANDAGEWEYPEGGNGLYILTGI
+EEEKWPAGPKLILSPAVGGTLGVKAKVEAGEELKGSESSPLLSYVEMEKVYLQQRTPYES
+TKLETVVSSGDEPVISKGSFNGSPLVMVGFDLQDSDWPLQPGFPIFMKNALEFLQQENQS
+LGYASPNEQRQVTFSSDATGAEMVYVQNDQSVNDISVDSETMQMPGSPGIYQLKETVATG
+TRDRYLAVLLPEKEQAITPEKSFTIGSAGEGEQEENKSIHPLWKWAALLAFILLIVEWEV
+YRRGISA
+>tr|A6CHI2|A6CHI2_9BACI
+MEKGRHDFLSEDTVDEVARTFKALSDPTRIRILYLLTQEECSVGHIAEVLNLSQSAVSHQ
+LSFLKNQRLVKARRDGQSFYYSYDDSHVIEVLRQVINHSLHD
+>tr|A6CHN1|A6CHN1_9BACI
+MKEFLQKLFEGSSFEKGEMKAAVDLLLEDKTSESEVASFLTALKMKGETVKEISGLVELL
+RERADFQTFPAEDVMDICGTGGDGSQSFNISTTTAFVLAGAGVKIAKHGNRSVSSKTGSS
+DVLEHLGVALDFNSGEINEMLEVNGLAFLYAPHVHTRLKKIMKVRGELKVPTIFNMIGPL
+TNPINIDTQMLGIYRRDMLETMASVLHELGRNRAVVLNGAGFMDEASLAGENHLVLLDKG
+NTTSFTINPEETGLPVYSNEAIRGGDARENAQILLDVLKGKEGPYLDTVIFNAGIALFAN
+GRTTTVAEGVKLARESIKSGAAYEKLQQTVTFSQRSRKRVM
+>tr|A6CPR9|A6CPR9_9BACI
+MSPSGYYAYLKRPKRSASSEEKETLKAIKKVYRAEKGTYGSKRISKVLKAKGQIVNHKRV
+ARLMKEANLKAVVRLPKTNEESKGKSTGTVYPNLLERDFEAQHPNQKWVTDMTEVIHRGE
+KLYISALMDLFNREIIAFKIGLSPNKQLIEDTIKAAKKKRKLKNLEGVLIHSDQGSVYRS
+LMYRSLKKEFKFTPSMSRKGNCWDNAVIESFFSQLKTEFPCFYPVNKDSNILQINLLKYI
+KRYNEKRIHSKIGFVSPKQFLKDYLKTA
+>tr|A6CH78|A6CH78_9BACI
+MRIKSIEPTPSPNTMKIILDEEMAGGKSNNYKKEDADTAPKRIKDILEIEGIKGVYHVAD
+FLAVERNAKFDWQELLPRVRKAFGEDAEVEGMATEADEHFGEVAVSVQEFKGIPMQVKLT
+TESEEKRFSLPDRFVKAVGEAQMEGDNVVLLRKWKEQGVRYGELEEIGESVVEELVAAYP
+QERIDSMVRKARNPETTEEKTAKVGKKVTLEEFDAPDWQTRYQLLESMKEPETDDLPLLE
+KALEDEKASIRRLAVVYIGMIEDKKVLPLLYKGLKDKTVTVRRTAGDCLSDLGFKEAMEE
+MAAALQDKNKLVRWRAAMFLYEEGDVSVLPALKEAEDDPEFEVKLQVKMAIERIAGGEAA
+KGSVWKQMTEARKQ
+>tr|A6CSG4|A6CSG4_9BACI
+MMVYDYEHFMKDVYRKTGINLSFYKEAQMKRRLTSLYEKKGYADFKGFFQALDKDTQLLN
+EFLDRMTINVTEFYRNEKRWAVLQEKIFPRLLAQNDRLKIWSAACSTGEEPYTIAMVLSN
+YLPLSEISIRATDIDENAIAKAKLGVYPERSLNEVPDIIKQKYFSKDGDFHSVSPQIKSR
+VSFKKHNLLADRYESNHDLIVCRNVMIYFTEEAKEEIYHNFSSALRPGGVLFVGSTEQIF
+NPAKYGLETEDTFFYRKK
+>tr|A6CU35|A6CU35_9BACI
+MNVFYNMEGIGDTLIISMVPGFDGESSYDKKGDAVRIFDEETGETLGYNLFNASSYMKID
+AQGQLEMNQDKLKEINEAIQKNGFDEELQADFSPKFVVGYVQEKEKHPNADKLTVCKVDV
+GSETLQIVCGAPNIDSGQKVVVAKVGAVMPSGMLIKDAELRGVASSGMICSAKELDLPDA
+PKEKGILILGEDAKVGEAFSS
+>tr|A6CLZ4|A6CLZ4_9BACI
+MKQMDANEIISFIQNSTKSTPVKVYVKGNLSGINFGENAKSFINGETGVVFGEWAEISQA
+LETNRDNIEDYVVENDRRNSAIPLLDMKGIKARIEPGAIIRDQVEIGDNAVIMMGASINI
+GSVIGEGTMIDMNVVLGGRATVGKNCHIGAGSVLAGVIEPPSAKPVVVEDDVVVGANAVI
+LEGVTVGKGAVVAAGAIVVEDVPPYTVVAGTPAKVIKEIDEKTKSKTEIKQELRQL
+>tr|A6CNH7|A6CNH7_9BACI
+MEVTTLEAKEHRILVINPGSTSTKIGVFDNEISIFEKTLRHDAEKINQFDSIIDQYQFRK
+ETILETLDEEGINISKLSAVCGRGGLLKPIEGGTYSVNEEMLKDLREGYSGQHASNLGGI
+LAYEIASGLNIPSFIVDPVVVDELAPIARISGVSLIERKSIFHALNQKAVARRIAKDLNK
+QYEDLNLIITHMGGGITVGVHKNGKVVDVNNGLHGDGPFSPERAGTVPAGDLVDMCFSGN
+YYRDEIMKKLVGQGGLVGYLGTNDAVKVEKMIENGDEKAKLVYEAMAYQIAKEIGSASAV
+LEGKVDAIVLTGGLAYGKAFVKQISERVNWIADVIVHPGENELQALAEGALRVLKGEEQQ
+KDYPGNLKTKATV
+>tr|A6CHG7|A6CHG7_9BACI
+MLGLGLIALLTAGFIKIVEEWQEQEIEAFDSAVYSGVSTFMTPGVTQFMKAITFLGGIKW
+IAILTAAAVILFLVFKKYSLGLYMLFTVFGRRLQLSAQRVFPKAATWH
+>tr|A6CS09|A6CS09_9BACI
+MATEKVFPMTQEGKEKLEKELEQLKSVKRKEVVERIKIARSFGDLSENSEYDAAKDEQAF
+VEGRISTLENMIRNAKIIQEDEMNSDTVTLGKSVTFIELPDGDEETYTIVGSAEADPFEG
+KISNDSPIAKSLLGHKVGSEVSVQTPGGEMNVKITAVN
+>tr|A6CJV8|A6CJV8_9BACI
+MSELLGLLKQGNKSALLAAVINAIIAVVKGVAYVFTGNVAMFAETLHSIGDSANQFFVFI
+GSALSKKSPTARFPNGFGRLVNLVLLAAVLIVGIMAYETIIEGYHHILHPVESKGFLINV
+SVLSFAVILEAFVLFKAMKETLHEVGIEAKGFNIVTKSVANVNKAKAATKLVFLEDAVAT
+GGGLLALIAIVISQYTPFHQAEGIASIIIGIMMFFVVGKTFLDNAAGILGEADLEMRSVI
+GEIAYKDPGVKDVQDIAVLKEGDEYHVELVVEVDPTITVAEADDIKDRLEDRILRENGVT
+DVIVEFDEDDKYSKWKEQGKNNID
+>tr|A6CNR4|A6CNR4_9BACI
+MDEQLNQAPCGFLTLSKEGIILTINQTLLQVLGYNSDQLVGRHINSILSGSARVFFQLYF
+IPLVTVKHRVEEMYLSLAHYSGDDMPVLINASLKKNQENQVIMCVIVPIHRRSEYENQLL
+IAKKVAEDALKEKNKANFELERALKTLEAKQQELLEVNKQNEKYRIDTQRELQLAKKIQE
+TSLTEALSNDHLHVESYYKASSELSGDIYGIYQINEHQYGVIVLDVMGHGISSALITMSL
+QSLFQRLISTGAAANIVMKELDNHLHRLFHSNENAWHYCTAIYLFIDTDKQIIEYINAGH
+PPAIYQGPKGKQQELHSSTPPIGTFEGIDFKTNTITYTKGGRVLLYTDGVSEPLEPNHLC
+SLLSEHSSLSSTQLKDKILESLKKEKDDHYKDDQCFIVIDLK
+>tr|A6CPT1|A6CPT1_9BACI
+MLNPSIDSLMKKIDSKYSLVSIASKRARGLQEDGSFMLNKYVSEKYVGKALEEIEAGKLS
+MKEREVGAVYSDE
+>tr|A6CJ93|A6CJ93_9BACI
+MILLITFFSIIVAGIVRSSSGVFIDPFETEFGWDRSVISLAFAVGLFLYGIAGPFMAALI
+EVLGLKKVMVLSMATLLTGTLLTFFMQESWQLVIIWGVIIGLGSGVFLTVLSPYVANKWF
+EKRRGLALGILTASTATGQLILLPVLAILIERYSWIWAIALIMILSVVMLLIILLFMKNS
+PRDAGVLPYGLEEEAEINTYQQKRNPISIAFNGLFQAVKHKEFWLLAGSFFICGLSTTGL
+IGTHFVSYCLSYGIPLVTAASLLSFMGVFDLIGTTLSGWLSDRFDNRWLLF
+>tr|A6CS73|A6CS73_9BACI
+MAEVLDRVTKIIVDRLGVDESQVTLEASFKEDLGADSLDVVELVMELEDEFDMEISDDDA
+EKIATVGDAVNYINNKG
+>tr|A6CQN7|A6CQN7_9BACI
+MSAKVDTSLPLEYQTEQNRLSILGFWIFLGAEIALFATLFAVYAVLSQRYAGGPTHQDIF
+MMKEVMVQTVLLLTSSFTCGLAIFEMRRGNLKGLITWLIITLGLGAGFLYMEINEFIHYV
+HEGATMQTSAFLSSLFVLLGTHGAHVTFGIFWAVMVIIQLVKRGLTPVTARKVFIIGLYW
+HFLDVVWIFIFTFVYLKGMML
+>tr|A6CRX3|A6CRX3_9BACI
+MIVLNIALIAHDKKKDNLIRFVIAYKETFQKHRLYATGTTGKRINEETGLDIHRFKSGPL
+GGDQEIGAYIANDKMDVVIFFRDPLTAQPHEPDVSALIRLCDVYSIPLATNMGTAEVLVK
+GLERGDVQWRDIQKDKEENDGNES
+>tr|A6CIA2|A6CIA2_9BACI
+MVLEKINSYLNEQTPSLIQLRRELHRYPETAWTEYVTTYKIGRILENLGYELAVGRDAIK
+SEARLGFPSEEENEKHEKRAADARVPEEWLVKMKGGHTGLVAKIDTGKPGKHVAMRFDID
+GLPINENKSEEHTPMKKSFVSEREGFMHSCGHDGHSVIGIGIAQFIKENIGSLSGRFTLL
+FQPAEEGGRGAKTMVEAGWLDDADLFLSGHIGIHDYPPGVVAASTTNFLATTKINVTYHG
+KSAHAGLQPNQGRNALLASAAASLHLNGITRHQDGATRINIGKLEAGSGRNIIADYARME
+IETRGETTELNEYMVKEARRIIQASADMYAVRAETEVAGTAIASNCDTELINLIEEACAD
+SSTVTEVIPSLPLGASEDVTFMIDRVQKRGGLATFLIFPSPLPAGHHHPSFDFDEKVIPC
+AIDALIRTVIQFGYKEESK
+>tr|A6CL97|A6CL97_9BACI
+MDLLKDLEWRGITYQQTDEEGLKNLLDKEKISIYCGIDPTADSMHIGHLLPFLTLRRFQN
+QGHRPLVLVGGATGLIGDPSGKSEERKLQTVESIQHNVECIKSQLKSIFDFEGETGAVMV
+NNFDWIGPMDMVTFLRDFGKHIGVNYMLAKDTIASRLETGISYTEFTYTILQAMDFNHLY
+ENYNCKLQIGGSDQWGNITTGLELIRRTREEESKAFGFTIPLVTKADGSKFGKTESGAIW
+LDPEKTSPYEFYQFWINTADADVVKYLKYFTFLSHEEIEALAETVETEPHLRKAQKALAE
+EMTKLIHGEEALAQAIKITEALFSGNIKELSSAEIKQGFKDVPSFTQSTEEEINLVDLLV
+NTKISPSKRQAREDIGNGAIYINGDRTTDLQHVMSEADRIDGQFTIIRRGKKKYFMIQYS
+>tr|A6CKX9|A6CKX9_9BACI
+MVVGTEGQEIMQKLLLDYDHSLDSNGVNGKRLASRLDELSKIGLTENGGLRRIAFSPEER
+KAKELVKEWMKEAGLQIKEDGAGNVFGRLEGKVKSSTVLSGSHVDSVPDGGHFDGPLGVI
+AALEVAQAWKDTGYVPNKSYEVVIFTDEEGARFNGGLTGSRAMTGEVDIEFQKQLKDMNG
+IPFEEVIKRDGLNVEGFVEAKRDLSEIEAYVEVHIEQGKRLEKAQLPVGIVTGIAGPCWL
+NISVMGEAGHAGNTPMNDRKDALIAASELVIEIEKLAGEVSETAVATVGKLEVLPNGVNV
+IPGEVRMTADIRDIHAESRDELIQLIKDAAERIKNRQQVDIQIEETYKIAPVPVEKEMQE
+KAAEAVKNTLQIEPFYLPSGAGHDAMIIGRYVPMAMLFTQSKNGVSHNPSEWSSLQDCIQ
+TVHVLKALLEDLIQLKGETI
+>tr|A6CRH8|A6CRH8_9BACI
+MESTKVLDAKGLACPMPIVKTKKAMNELASGDVLEIHATDKGAKSDLTAWAKSGGHEFIK
+HEEENDVLKFWIRKG
+>tr|A6CL25|A6CL25_9BACI
+MKSFGEVRLMKAFTKEENSWMYYDWANSAYTIIISTAVFPLFYKAAATKAGVSASDSTAY
+LGYTIAIATFILAMLGPILGTIADYKGFKKKFFTFFFILGVSFTALLAFIPSDQWLLLLI
+CYTFAAVGSAGANVFYDAFLTDVTTDEKMDRVSSRGFALGYIGSTIPFFISIAIIVLSQS
+GIIPLSTTLASKIAFLITALWWGLFAIPMFKNVHQRYYIEPEPKPVVNSFKRLGKTFKEI
+KKYRPLFLFLLAYFFYIDGVGTIITMSTAYGSDLGISSTSLLIILFVTQVVAAPFAVLYG
+RLSEKFTGKKMLYVGIIVYIFVCIYAYFLETTLDFWILAMLVATSQGGIQALSRSYFAKL
+VPKQNSNEFFGFYNIFGKFASIMGPLLVGVTAQVTGDSSTGVFSLVLLFIIGIIILSRVP
+EPKQHIAAVDINQKS
+>tr|A6CTD5|A6CTD5_9BACI
+MSKRVPVTVLSGYLGSGKTTLLNHILANKENRKIAVIVNDMSEVNIDASLIKQGGFSRTE
+EKMVELQNGCICCTLREDLMIEVERLVEKGDIDNIVIESTGISEPIPVAQTFTYIDEESG
+INLSHHCRLDAMVTVVDGNRFWHDFSSGESLLERKQGAGEDDNREVVDLLIDQIEFADII
+LLNKTDLISNETRDELHAALQKLNPEAKIINTVQSRVELNKILDTNLFDFEKASQAAGWI
+KELNEEHIPETEEYGITSFVYRRRKPFHPERWESWLEKWPEEIVRAKGFFWLSARNDTAG
+LLSQAGTSIVLQSAGNWIASYPESEREEILRQEPELMGRWDETWGDRMTEIVFIGIGMNR
+QSIESSLDGCLLTDEEMMTDWSMFEDGLPVF
+>tr|A6CLB4|A6CLB4_9BACI
+MKGVAGIKTEEQAGILYTAFSYFLWGLLPIYWKLLNHVPADEILANRIFWSFWFMIVVLI
+VIKKFPAFWDMIKGMMNTKKKLAALATASLLVSANWFIYIWAVNTDQMVEASLGYYINPL
+VSVLLGVFILREKMTKAQVVSFILAAIGVIVLTASYGRFPWIAIGLAVSFGLYGLAKKLI
+KVDSDIGLTLETMTTAPFALIYLIYLSSKGDISLFQFSAGTDLLLIGAGAVTAVPLLYFA
+KGAQRIPLYMVGFLQYIAPTLTLILGVFLYGEPFTQTHLIAFTFIWSALTIFSVSRMKRV
+KRKTKTQEKCA
+>tr|A6CHU4|A6CHU4_9BACI
+MSNQEKISEWFHQYSDDVFHFLIYRTGKSDVEDMVQEVFVRAIKGVDSFKGNASPKTWFF
+SIARNLAIDEMKSQKWKRIISFQAFHEPQNDVTPETLYQESEETQALYNAIQALKTTYRD
+VLILRGIKEFTVDETAEVLNWPPGKVRSTYHRAKAALSKQLGG
+>tr|A6CKU3|A6CKU3_9BACI
+MGMKNDEEEAKPFLQAHKDSIITGLSAVLFLAGWLIGLAGYEETEISLLALSIIIGGYKT
+ARSALYGLKKLNFDMNVLMAIAVVGAVAIGEWIEGALVVIFFSLSNTLSVYTLEKARNSI
+KALMGLAPKEAAIIRKGQELRLEVEDILVDDIMVVKPGEKIAMDGTIVKGSSSINQAAIT
+GESMPVEKEVGNEVYAGTINQQGSIQVKVTKRVEDTTLAKIIHLVQEAQGQRAKSQEYID
+KFAKIYTPVVIALAVLITVIPPLFFGGIWNDWIYRGLALLIAACPCALVISSPVSIISAI
+GNSAKNGVLIKGGVFLEEAGAINAIAFDKTGTLTVGRPEVTDIITMEGISEVEFLGISAA
+IEKYSEHPLAAAIVRKAERDKIPFSEAEDFSSITGKGAKAIVNGETYYIGNPRLFDGMSI
+ELKGIKVDIEKLHQQGKTAMILGTEDRTLGVIAVADEVRELSKDAIAKLKDSGIKHTIML
+TGDNQATAQAIAEQIGIDDFRAELLPEDKVKAVKELQKKYGKIAMVGDGINDAPALATSN
+LGIAMGVAGTDAALETADIALMADDLTKLPFTVRLSRATLRNIKQNIWFSNGINFITMIL
+IVPGFASLLFVALADVLAAVLVVLNAMRLMRINPLK
+>tr|A6CNK8|A6CNK8_9BACI
+MSGGDIMEYTVKKLAELAGVSPRTLRYYDEIEILKPARINSSGYRVYGEREVDRLQQILF
+YKELGIELEQIKDILDDPCFDIAYTLADHRKALLAKRDQLDQLIANVEKTIAVKKGRSSM
+TDKEKFEGFKQKVIDENERKYGKEIREKYGEGTVNQSNAKLQNMSEAELEQANHLAEKIH
+ASLAEAMKTGDPSSEQAQKTAELHKQWLMYYWPKYSKEAHAGLGDMYIADERFKAYYDKE
+GDGAAEFLRDSIYIFTGKKK
+>tr|A6CI73|A6CI73_9BACI
+MKLTEFDLSKFRDFRNMIDFLSQWFPMDFSLLPKMIEDGLETLAMAFLGSFFGLLLALPL
+SFISAKNTSPSPLLYNTARVGLSFVRSVPEIVFGLILLTALGLGPFPAVIAIMIHNIGVL
+GKLISELIEASDPGPQDAMKAVGAQKWFAYFFSILPQIWPNVLSHYFYRFEVAIRTSLVL
+GFIGGGGIGQRLFNDFKTFQYSSVSLDVLIIMIMVIVVDFLGSYVRNKVI
+>tr|A6CQU0|A6CQU0_9BACI
+MANAYKNAGVDIDAGYESVNRIKKHVERTKRKGMLGSLGGFGGMFDLSELGLKEPVLVSG
+TDGVGTKLKLAFMADKHDTIGIDCVAMCVNDIVVQGAEPLYFLDYIACGKAVPEKIESIV
+KGVADGCEMAGAGLTGGETAEMPGLYEADEYDIAGFAVGACEKSQLITGDEISKGNMLVG
+LASSGIHSNGYSLVRKVFFENHSYDLDTYMPELGSTLGEALLTPTKIYVKPVLAAMKKFS
+IKGMSHITGGGFIENIPRMLPEGLGAEIDTAEWELPEIFKVLEELGSIPHVEMYNIFNMG
+IGFVLAVDASEAEEAVMFFNEMGEKAYLIGKVTSGDGVRIVEGEMQQG
+>tr|A6CKL3|A6CKL3_9BACI
+MKIVSWNVNGIRACVKKGFMDFFKDVDADIFCIQESKLQEGQIQLDLENYHQYWNYAERK
+GYSGTAVFTKQEPLSVSYGIGEDDDEPEGRCITLEFEDFYLLNVYTPNSKRDLSRLEDRL
+HWEERVRAYIKELDEIKPVIYCGDLNVAHNEIDLRNPKSNHGNSGFTTEEREKMSTLLNE
+GFVDSFRHLYPEKDQSYTWWSYMSKVRERNIGWRIDYFIVSDRLKDSLKDAGMHTDVLGS
+DHCPVYIEIDFKK
+>tr|A6CTC6|A6CTC6_9BACI
+MKPKFKNSFTSIIEKENSVLLLLEDDCLEISDPDNEFISLINQLDGNQSLAEIALNLNST
+EEDVLQIIIDLSEHGLVEDQSHSEQTHLSVQEKERYRSNLNYFNVFSNLQNSKYTFQEKL
+KNSTVTVLGLGGSNTVLSCLAGIGVGNIIGVDFDEIELSNLNRQFLYNEGNIGRLKTQIA
+KEELDKMNSNINVQVLNLQIKNANQLSAIVKNSDLIINSIDQPSILSTRWVNFAAVKHNI
+PLLQAGTGGRKLLLQRFMVNSGGCFDCYLIQILKNNPEFEDELRVIYGAKLEGRNTAFAP
+NVAFLAGLLSNEAANILCDFSHKENFSKTTEYSSLSLEKVASSEWHQVDNCPTCKNMVLT
+QEPVELDTLISIAKEEKRGLKI
+>tr|A6CS33|A6CS33_9BACI
+MKERKHIMAGQYKSREEKRMAQQKAKAKGKGSGKKKSFFAKAIISLFIIGIIGMLSGAGL
+FAYYASKAPELDESLLKDPIASEIFDMNGDLITTVGTEKRDYVNYEQIPPLMEEAILATE
+DNRFYKHNGIDLIRLGGAVIANVTNGFGSEGASTLTQQVIKGSFLTPEKTLERKAQEAWL
+AVKLEQDYTKQEIFEMYFNKVYMSAGINGFGTAATYYYGKELKDLELHEAALLAGMPQSP
+NNYNPFDYPEKAEKRRNIVLSLMHQHGKITQEEMEQAQAVPVTESLVSEEAREERATDKY
+QAFIDVVIDEVAELGDYNLFTDGLKVYTTVDPNAQERVEAILAGEAIDFAYPERFEELMQ
+AGITLLDTQTGEIRAIGGGRKYGEESKRGFNFAVDQKRQPGSTIKPLLDYAPGIEYEKWS
+TYHQFKDEPYEYDDGGEVNNWDGAFKGNVSMRLSLWDSRNVPAVKALKEVGIERGTEFIA
+NLGLKFDEPLYESAAIGGTPGVNSVQMAGAYAAFGNGGVYNKPHSVTKVILRDGETEVNV
+NPEPKTVMKDYTAYMINDMLKDVLNPGATGVYANVPGLPMAGKSGTTNYAKEYRAKHDIS
+KNEAPDSWFVGYTTNYTASVWTGYKEIKYSLNPKERRIAQYIVKDIMSYVSQDIDTPDFK
+KPKSVVEAPVEKGSNPARLPSDYTPEDEITYELFVRGTEPSQVSEQYDKLPGPVGLEAEF
+DDEEKTITLTWDYEDEELKPSFEVTGSFNDEEAKVLSTTPEKGLIVENIAADGTYTFTVT
+AVDGEQRSDSATVTVTVQNQDEPEEDEDSEENTEDDENQEGSNEDDEDQDGQGDGEGNEN
+EDETNPPAEENTGEDDEGNGQGNGNNTGNNARNNNSNSEE
+>tr|A6CRI3|A6CRI3_9BACI
+MEEVMETKVNSKAIIVTFMIGAFFAILNETLLNIALTELMNVFNVDAPTVQWLATGFMLV
+MGVLMPISALLIQWFTTRQMFIGVMSIFLLGTIIAASAINFPMLLTGRMIQAVGTGLLIP
+VIFNALLLLYRPEVRGKIMGTFGLVIMFAPAIGPTLSGVIVDFLGWRWLFITVIPFAIFS
+ILFAVKYLQNVGEVTRPSVDILSIILSSIGIGGIVYGFSSAGEEGAGFTSARIIMILSIS
+VISIIAFTLRQLKLDEPLLDVRVFKYKSYARGIILFVIVIMAMFASEIVMPMYLQGPLGY
+SAKVAGLLLLPGALLNGLMSPTMGALFDKYGPRKLIIPGTITLVGVMIFFSNINPSVPMW
+SFILVYMVLMLSISAIMMPAQTNALNELPKNLYPHGTAIANTLQPIGGALGVSIFVSIMT
+QSQANYLEGRGAVTAELANKAMTYGVHHAYWFALALGIIAVIIALFVKKAVSPDFDDKET
+PAESRG
+>tr|A6CHF6|A6CHF6_9BACI
+MFTGIIEEIGTIENLKKSSASMVLSILAKKVLEDVKLGDSISVNGTCLTVTSFSGRSFTV
+DVMPETFENTSLKLLGAGTKVNLERAMAANGRFGGHFVTGHVDGTGTIVSTQFVENALYI
+TIEIPGELSRYFINRGSVCLDGTSLTVFEIGNNTITVSLIPQTRHDTILGSKKVGDIVNL
+ECDMMAKYIYQFMNGGRTEHQEKRDLGKDFLTQHGFMS
+>tr|A6CM05|A6CM05_9BACI
+MKTIIITGGSNGMGKYMAKHFLEKGCNVVITGRNQERLQEVQQEFSSLEGTLEIFQMDVR
+EPEHAAKMIEFTAEQFGSVDTLINNAAGNFIVPAEKLSPNGWKSVIDIVLNGTFFCSHAA
+ADYWIKSGTKGNIINMVATYAWNAGAGVAHSAAAKAGVLSLTRTLAVEWGHKYGIRTNAI
+APGPIERTGGAEKLWESEEAAKRTIDSVPLKRLGTPEEIAGLAYFLASDSASYINGECVT
+MDGGQWLNRFPF
+>tr|A6CPE1|A6CPE1_9BACI
+MTVKAMKSKEVTKKVFNNEELFILDVRNEDAYQDWKIEGHNFDYLNVPYFDLIDGVEEIM
+DKIPSNKEILVVCAKEGSSVMVAEMLSDEGLDVAYLEGGMKAWSEHLEPVKVGDLKDGGE
+LYQFVRIGKGCLSYMVVSNGEAAIIDSTRMADIYTDFAASLDAKITHVFDTHLHADHISG
+GRIIAQNTGATYWLPPKDAEGVTFEYAALEDENEVTIGNTKINIHALYSPGHTIGSTSFV
+VDDQYLMTGDILFIDSIGRPDLAGLAEDWVGDLRETLYSRYKELSNDLIVLPAHFMIIDE
+LNEDGSVSEKLGVLYEQNHGLNIADEGEFRSLVTENLPPQPNAYQEIRKTNMGQITPDND
+EQREMEIGPNRCAVR
+>tr|A6CL04|A6CL04_9BACI
+MKEFYTHFNKKLYYGVSLMIIILMASGLLVANPRKENFDTGYMLHAALVVLLALCLLLYP
+KFEGRILRILLILVTTAYFYLLFFIYPETWSTFIFLCFIPAISILFFDKKLFYFSIIMNG
+ILISLTFSYIYLVDQGKNYAHIEMDMIGNIINFIGSQMIISFIFYLTNVRIQKQRVYYEQ
+VQNAERLKTTGQLAAAVAHEIRNPLTVVKGFLQYYVEDNELNKQYKRNFSLMIDELDTAE
+HVISQFLSIAKPEKESNLSRVEVQVVLDDVTELLKSYGLLHDNHIDLQVQEECYVFANSI
+EFKQLLINLIKNAIEASPHGSTVLVKAEKKKDRVEIIVEDKGQGMSKEEISLLGTPFYSL
+KSRGTGLGLMICYNIVEKYNGTIQFTSQLGVGTTVTLRFPRVKEKE
+>tr|A6CTF8|A6CTF8_9BACI
+MSKSPVALIILDGFACREEDKGNAVTQAKKPNFDRYWNQFPHSTLKASGEAVGLPEGQMG
+NSEVGHLNIGAGRVVYQSLTRVNVSIREGEFEKNETFVNAIEHAKSKNKALHIFGLLSDG
+GVHSHIEHLFALLRIAAAEGLKEVYVHGFLDGRDVGPKTAETYILQTQEVMRELGVGEFA
+TISGRYYSMDRDKRWDRVEKAYRAMVYGEGPEYSNPLEVVVDSYDNGIFDEFVLPSVIKR
+DNGEPVATIDEEDAVIFYNFRPDRAIQISNTFTNDDFRSFERGPKHPKNLHFVCLTHFSE
+TVDGYVAFKSVNLDNTLGEVLSQNNLKQLRIAETEKYPHVTFFMSGGREDEFPDETRILI
+NSPDVATYDLKPEMSAYEVTEALMEEIKNDRQDAIILNFANPDMVGHSGMLEPTIKAIET
+VDECLGQIVDLIVEKGGTAIITADHGNADEVVTPEGNPMTAHTTNPVPVIVTKEGVSLRE
+GGILGDLAPTMLDLLNLNKPAEMTGETLIKK
+>tr|A6CNG6|A6CNG6_9BACI
+MKVKKQRLDVLLVERGLAETREKAKRAVMAGLVYSKESRLDKPGEKVNEDIPLTIKGNVL
+PYVSRGGLKLEKALEKFDLSVDGKVMIDIGSSTGGFTDCALQNGAKLSYALDVGYNQLAW
+KLRQDERVVVMERTNFRYVKPEDLVSDMPNFATMDVSFISLSLILPVLKTLLVRDSDVIA
+LIKPQFEAGKDQVGKKGIVRDPAIHHAVIEKIANLALKEGYDIRDISFSPITGGEGNIEF
+LIHLSWHGEKEAGENHLRYTIQSVVDEAQNEFKSK
+>tr|A6CU05|A6CU05_9BACI
+MVEKELDLEWITLIKEAMSVGVTKDEILEYLHTNKEESRVLVK
+>tr|A6CRH4|A6CRH4_9BACI
+MYLGYSQIEKKGIETISTNELEEKLKNQDADNMVFVDVREPYEYEAGYIEGMINMPLSTL
+DTEYKKLPKDAEIILLCRSGKRSLQAAQLLENKGYSNLVSVDGGIQQWEGKLVR
+>tr|A6CIU4|A6CIU4_9BACI
+MPARYKTIEDLLDIESELKEKIKNEEDQSYYQLISVYRSLYRRISKERNNDYRDSLPQIK
+NKLIHHLVVHGTYLKTVYQQDDYTAERTLEEALSLDENLPIANYRLGFLKYKQKDFARAL
+LYFQNALTWQESEDNLNYKMNEQQLYNCHLYLSNCGLFIAKEAQENLDKLHYDSAKLPNY
+ELSPLFELLSTNEEYLRGHEYCFITEGEKKYCSQERCHMYREETRNTVVLDFAQRELSLY
+FNGQRISLSKNQAEILRNFMLESTSDHPLVRHDFSDIISVYKETGEVKKNTFTQNVNRIT
+NKLKADGMPEMLTNKNVKDETGYFFNPKYPYIILHRNDDSLLID
+>tr|A6CJ44|A6CJ44_9BACI
+MSHLEKAKTMTSLHPLGLLNNFRDDPLMFLDEMRTSAEDLVSFRFANRRVHLLLNPELIK
+EVLVTKAASFQKSKQFQELHPLLGEGLLTSEGPKHREQRKLIQPFFTHRHIENYINDMID
+VTEKAIGNMSEHETRNVSKDMMEVTLAIISKTMFAMDIEEGHEKVGKPLEVAMETATKRI
+RSFIKLPLSFPSKEIKDYVHAINQLKDVVENVITTRESQKERYPDLLDALIHAKSDEGEG
+MPREQLQDELMTLTLAGHETTANLLTWCLYALAKNEGAKRKLYREIDRVLGTKRITSDDL
+PRLTYTKQVLQEALRLYPPAWMFGRIAIEDESIGDYSVKKGENILVSPYVMHQKIEYFEE
+PLAFKPERFLEKQPPYAYFPFGGGPRVCIGNHFALQEATIILAMLVQKFDVCLDPGSGEP
+DFEPLITLRPKNGLFLRMVER
+>tr|A6CM33|A6CM33_9BACI
+MQLTLPPKKKRSPLNIVKKWLIVLAVALLYVWTFTGIDIDWGRAIERMANNFTRVIPKLF
+NPEWGAIGKVWTAMVETLYIAFAGSLMAAIIAVPLGFLAASNMTKSKVLTTIGKWILSAI
+RAFPDLILAILFVVAVGPNPFAGVLAIAIGSTGMLGKLYSEVLESIDFNIVEAMEASGAN
+KIQILFHGIIPQIIPEFLSYAIYRFEIDVRASTILGIVGAGGIGTLIQFAQMNRNWEEMG
+LILLVIIVVVTIIDFISSSIRKRIV
+>tr|A6CPC0|A6CPC0_9BACI
+MVIILLFIIWEISAKVADIPAWLLPSPSRIVSESFAVWPTFQGHLTSTVYLTLLGFLIGC
+GIGLVVAVGLHLVPILRESVYPLLILSQNIPIIVLAPLLVVWFGFGLLPKMIVITLVCFF
+PVAVAALDGFRQTGNELKHYMQMAGASKMQIFRKLEWPHALPSIFSGVKISATYSVMGAV
+ISEWLGAKQGIGVFMTLASSSFRTDRVFVAIFAIMLLSLVFFAIIIGLEKWLIKWQPKGE
+EKRGKVENR
+>tr|A6CTS4|A6CTS4_9BACI
+MGQKAMDTFRKCIPLFQALSDPYRQDIILLLAEKEPLTVNEITENLTLSRPAVSHHLKIL
+RDKHLVTIEQKGTQRFYSLALEQAVEELKELIDTVENTCS
+>tr|A6CTW2|A6CTW2_9BACI
+MTTYPNTKNTMELIKQLVSIPSPSGNTNTIISFVEDYLKETGYEMYRNRKGGLIVTIPGE
+DDSRHRMLTAHVDTLGAMVKDIKADGRLKLSMIGGFRWNAVEGEYCTIETSSGKTYTGTI
+LMHQTSVHVYKNAGEAKRDDANIEIRIDARVSNPGEVRELGIEVGDFVSFDPRAEITDSG
+YIKSRHLDDKASVGMLLQLIKKIKEEGKTLPYTTHFLISNNEEIGYGGNSNITPETVEYL
+AVDMGALGDGQSSDEYTVSICAKDSSGPYHLGLRKHLVELSKENGIDYKVDIYPFYGSDA
+SAAIRAGHDIIHGLVGAGIDASHAYERTHESSLYNTEKLLYHYVQSQMVE
+>tr|A6CNI4|A6CNI4_9BACI
+MGSKPDFQHIDLKLQDTSGNQHESQSFFQTNEKISVKPFYSDEDIKNIQHGDDLPGVAPY
+TRGPYPTMYVNRPWTVRQYAGFSTAEESNAFYRRNLAMGQKGLSVAFDLATHRGYDSDHP
+RVVGDVGKAGVAIDSILDMKVLFDGIPLDQMSVSMTMNGAVLPILAFYIVTAEEQGVSPE
+KLSGTIQNDILKEYMVRNTYIYPPEMSMKIIADIFEYTSKNMPKFNSISISGYHMQEAGA
+PADIELAYTLSDGLEYVRTGLKAGIPIDKFAPRLSFFWGIGMNYFMEVAKMRAARRIWAS
+MMKTFEPQNPKSMALRTHSQTSGWSLTEQDPYNNVIRTLVEAHAAAMGHTQSLHTNALDE
+AIALPTDFSARIARNTQLYLQEETGITDVIDPWAGSYYVESLTEQLMARAWNHIEEIEEL
+GGMTKAIETGLPKMRIEEAAAERQAKIDSGKEVIIGVNKYRLDKEDDLDVLDIDNTEVRR
+KQIERLTQLRAKRDDHKVKDALDALATAARTGEGNLLQLAVSAARARASLGEISDAVESA
+SGRHKAVIRSVSGVYSSNFSNEEEITKVKIMAEEFSENEGRRPRIMIAKMGQDGHDRGAK
+VIATAFADLGFDVDIGPLFQTPEETALQAVENDVHAIGVSSLAAGHKTLLPALVKELEKL
+GREDIIIVIGGVIPPKDYPFLLENGAAAIFGPGTVIPVAAQKVIEEIYRRLGYEEVTE
+>tr|A6CRL1|A6CRL1_9BACI
+MEERDFSMKEAMLFSQRMAQLSKALWKAIEKDWQQWIKPYDLNINEHHILWISYHLKGAS
+ISDVAKFGVMHVSTAFNFSKKLEERELLRFSKRENDKRNTYIQLTEKGESVLLELMSNYK
+PEKHSIFKGVTPLRELYGRFPDMIEMMAVVKNIYGNDFMEIFEKSFHNIEVEFTEEDGKL
+QKVSEDEN
+>tr|A6CRR7|A6CRR7_9BACI
+MAKLDETLSMLKDLTDAKGVPGNEREARDVMKKYIEPFADEITTDNLGSLIAKKVGDENG
+PKIMVAGHLDEVGFMITQIDDKGFLRFQTVGGWWSQVMLAQRVTIVTNKGDITGVIGSKP
+PHILPAEARKKPVDIKDMFIDIGASSREEAQEWGVKPGDMVVPYFEFTVMNNEKMLLAKA
+WDNRIGCAIAIDVLKGLKGENHPNVVYGVGTVQEEVGLRGARTSASKIKPDIAFGVDVGI
+AGDTPGISEKEAQSKMGEGPQIILYDASMVSHKGLRDFVTDIADENNIPYQFDAIAGGGT
+DSGAIHLTANGVPALSITIATRYIHSHAAMLHRDDYENAVKLITEVIKRLDKDTVAKITF
+D
+>tr|A6CKX2|A6CKX2_9BACI
+MSMHFSVLASGSTGNAIYVETDQNSFLVDAGLSGKQMEALFQKIDRKIKDLTGILVTHEH
+SDHIKGIGILARKYNLPIYANEKTWKAMDPLIGNVPTEQKFEFGMEKVQSFGSLDIESFG
+VSHDAAEPMFYTFHHEGRKLVLVTDTGYVSDRMKGIISNANTYVFESNHDVDMLRMCRYP
+WSIKRRILSDVGHVSNEDAAIAMSEVFGDQTKSIYLAHLSKDNNMKDLARMSVSQTLESK
+GIKVGEQFDLLDTDPKIPTSLVAV
+>tr|A6CN05|A6CN05_9BACI
+MDASIVPLTGRVKYQITLDPGVWIFDDRKVDLNTYFQDEVKAKNELDEYTKNMSKNWTRE
+IQEGATSPPTLKTEKKYEKEKILNGTFGIPLSPFLKNAEPENGADTLVIMTADQSEELSL
+PLSKAEDLLLGFSKDGKPLKEDGPVHVYYKDGSNSKNPIKNVRGITIK
+>tr|A6CRG3|A6CRG3_9BACI
+MFNYPDDSLALHTDLYQINMAKTYWEDGIHDKKAVFELFFRKLPFGNGYAVFAGLEKVIR
+FIENFHFSETDIEYLKEEAGYEEEFLQYLKEMRFTGSIRSMKEGELSFGNEPMIRVEAPL
+AQAQLLETALLNIVNFQTLIATKAARIREVVGDEVVMEFGTRRAQEMEAAIWGTRAAFIG
+GFNATSNVRAGKLFGIPVAGTHAHSMVQAYRDDYTSFKKYAQSHKDCVFLVDTYDTLKSG
+VPAAIQVAKEMGDKINFKGIRLDSGDMAYLSKRAREMLDEAGFHDAGIVASNDLDEYTIL
+NLKAQGAKIDTWGIGTKLITGYDQPALGAVYKLVSIENENGEMTDTIKISSNAEKVSTPG
+LKNVYRIINKTSGKSEGDYITLEEENPQEEDRIKMFHPVHTFISKFVTNFDAKDLHTDIF
+KDGKLIYETPSLQEIREYFQESIEVLWDEYKRLMNPEDYPVDLSEKCWNNKMRNIEEVKQ
+KVQAYQESAR
+>tr|A6CU38|A6CU38_9BACI
+MSTDDRFKKAEFAAMIGVVGNVILAGIKWWAGIAGNSKALIADAVHSASDVAGSLAVYIG
+LRAAKQPPDDDHPYGHGKAESIAAIIVAVLLFLVGIEIGKSSIESFFHPISPPTSIAIYA
+VIFGIVVKEAMFQYKYKLGKKLKSDALIVNAYEHRSDVYSSIAALVGIGAAMLGGVLGIG
+WLEYGDPVAGVFVSLLVLRMAWKLGAESIHNTLDHVLHDEDTQELRQAVSEVEGVLKINE
+LHAREHGHYLIVDLKISVDPHITVEEGHRVGKNVKERLLQNPDVQDVFIHINPYNAEEDD
+EGDRVELT
+>tr|A6CSY4|A6CSY4_9BACI
+MRDNPAGKKERFQVLLMQLGLTEDAVVQHFQSAQIDKLLVDRQEKKWHFYFTLEKLVPCS
+VWNAFSVRLHQAFQHIARVQFSIKLLDDTHTHEQLLDYWNECIKEIDGISPPLLALLNQQ
+VPTIKGNKIIVQTSNETEATALKRKYSSFISSVFQNFGFPAYTIDAEVKQFDKGNDDYQK
+FLEAKRLEDEERAKQAVVEMQKQANEKDQDAAPSGPVSIGLTIKDDAEFRKIEQIHDEER
+RIALEGYVFAAETKELRSGRTLLTFKITDYTSSIMVKMFSRDKEDAAVMTRLKKGMWVRC
+RGSIQNDTFVRDLVMIANDVNEITPVLRKDTAPDDEKRVELHLHTPMSQMDAVSSVANLV
+GQASKWGHKAVAITDHAVVQSFPEAYNASKKNGIKILYGLEANLVDDGIPIAYNDAHRNL
+EEDTYVVFDVETTGLSAMYNTIIELAAVKIRDGEIIDRFESFANPHHPLSATTINLTGIT
+DDMVEGAPEVAEALKAFKDWAGDAVLVAHNASFDMGFLNVGYGKAGLDKAENPVIDTLEL
+ARLLYPEMKNHRLNTLAKKFDVELTQHHRAIYDAEATGYLLLKMLKDANEKGIIYHDQFN
+DYMGKGDAYKRSRPSHVTLLAQTEEGLKNLFKLVTISHLEYFFRVPRIPRSLLQKYRSGI
+LVGSGCDKGEVFEGMMQKAPEEVEEAARFYDYLEVHPKEVYQHLIELELIQSDQNLEEII
+GNIVQLGEKLDLPVVATGNVHYINPTDKVHREILVGSQGGANPLNRHKLPDVHFRTTNEM
+LDCFSFLGKEKAKEIVVTNTNKIADLIDEIKPIKDDLYTPKIEGADEEMRRMSYAMAKSI
+YGEELPEIVEARLEKELKSIIGHGFAVIYLISAKLVKKSLSDGYLVGSRGSVGSSFVATM
+TEITEVNPLPPHYVCPKCKHSEFFDDGSVGSGFDLPNKNCPECGNVFKKDGHDIPFETFL
+GFKGDKVPDIDLNFSGEYQPKAHDYTKVLFGEDNVYRAGTIGTVADKTAFGYVKGYASDN
+NLQIRGAEVDRLAQGCTGVKRTTGQHPGGIIVVPDYMDIFDFSPIQFPADDKNSEWKTTH
+FDFHSIHDNLLKLDILGHDDPTVIRMLQDLSGIDPKTIPTDDPEVMKIFSGTESLGVTEE
+QIMCKTGTLGIPEFGTRFVRQMLEDTKPTTFSELVQISGLSHGTDVWLGNAQELIHNNIC
+NLSEVIGCRDDIMVYLIYQGLEPSLAFKIMEFVRKGKGLQPEWEEEMMKNGVPNWYIDSC
+KKIKYMFPKAHAAAYVLMAVRIAYFKVHHALLYYSAYFTVRAEDFDIEAMVRGSQAIRAK
+IEDINSKGLDASPKEKNTLTVLELALEMCERGYKFQKVDLYRSSATEFIIDGDTL
+>tr|A6CP32|A6CP32_9BACI
+MNHYENLLNKIENKEAVIGVVGLGYVGLPLAVEKAKAGYKVIGFDVQQSRVDEVNKGVNY
+IGDVVDEDLVDMVKSGRLIATTDYAQIAEVDAVAICVPTPLDIYQQPDTSYVKSSSTEIA
+KYAKQGTLVVLESTTYPGTTEEIVKPTLEAKGYKTGEDIFIAYSPERVDPGNKQFKTKNT
+PKVVGGITEKCTAVAASLYKNVLEGDVFEVSSPAVAEMEKIFENTFRHINIALSNEMAIL
+CEKMGIDVWEVIDAAKTKPYGFMAFYPGPGLGGHCIPIDPFYLTWKAREYNYHTRLIELA
+GEINNSMPEYVINRTMQILNEDGKALRGAKVTVMGVAYKKDIDDVRESPVLKIIEQLEAQ
+GADYKVVDPYVTSFKAAGKTIETIEANRELLNDSDIVLLTTDHTDFNYEMIAKESNVIFD
+TRNALQNVEKPNKYIKL
+>tr|A6CTP9|A6CTP9_9BACI
+MNISFSDEALQWFKDEMHIERGDFVRFYVRYGGSSPLHESFSLGVNKEEPIDIGAKTEVD
+GTTFFIEENDLWFFSEHDLFVNFNEKLEEPSYEYKK
+>tr|A6CMD6|A6CMD6_9BACI
+MPKSLWLLIAGMMVNVTAASFLWPLNAIYINSHLGKSLSVAGLVLMLNAGASVIGNLFGG
+SLFDKIGGYRSILTGIIITLIALIGMNFYHGWPHYVIFLTIVGFGSGIVFPSMYAMAGSV
+WPEGGRKSFNAIYVAQNVGVAVGAAAGGLVASYSFQYIFLANLIMYVIFFLIALFGYKAI
+TVNTAKQTSLIQEGGFIRNKSKFTALILICAAYILCWIGYVQWQSTIASYTQDINISLKQ
+YSLLWTINGALIVLAQPVLSKMIRRFENNLKMQIQIGIVIFMISFGVAAVSDVFQMFAIA
+MIIMTIGEMLIWPAVPTIANDLAPKGREGFYQGIVNSTATGGRMVGPLLGGIIVDGFGIS
+VLFTSLIGLFAVAIVFTAIYDRSLKRKESVSISIS
+>tr|A6CRC9|A6CRC9_9BACI
+MEVRVRRGDTFYYYSQLFYLPLPLISDSNPGVSSSALQIGQTVRIPGFYAGQYTIQPGDS
+LWGIARSRNLAVDALLLLNQDLNPNALQAGTVIDVPLRITRPVVMGQQAYSSEVLEKDIN
+RLIYAFPFVRVNKIGESVLGKPLFEILIGNGPKKVHIDASFHANEWITTPILMRFMNEYL
+LSLVNRGAIRGVVTEPLYNNITLSLVPMVNPDGVDLVITGPPASLRERLIEINKGSTDFS
+GWKANINGVDLNNQYPAKWELEKERKEEKSPAPRDFPGYKPLSEPESIAMAELARRGDLD
+RVLALHTQGEEFYWGYEGLEPPEAEMLAEEFERVSGYRSVRYIDSYAGYKDWFIQEFQRP
+GFTVELGKGINPLPLSQFNQIYESVLGIFLVAIYR
+>tr|A6CI19|A6CI19_9BACI
+MELQLNESDAANLYRDHKNYVYRTALMLTKSRSLADDITQETFIRVLTNYHKYDQLRPIK
+PWIYTITINVTRSIMRKQKWINTFSIFTDTMEDDQINSIEEIFMKNEEVKEIWDAVKQLS
+LKSREILILHFYLGLTLRESAETLNIPLGTAKSRLNTALKQLRRMDNHRFFREGGDKVEG
+>tr|A6CP46|A6CP46_9BACI
+MLQKYLTVKEAGEHEITIERSRFIAHIKRVETEEEAQEFINQIKKEHWSANHNCSAYMIG
+EQNLIQKANDDGEPSGTAGVPMLEVLKKRDLKDTVVVVTRYFGGIKLGAGGLIRAYGKSV
+SEGLNAVGIVERTLMRVMKTKIDYTWLGKVENEVRSSKYPLKEIYYLDYVEVETYVEEDK
+KEEFVEWMTELTNGQGEIKEGKLEYLEEAEKKK
+>tr|A6CUH2|A6CUH2_9BACI
+MLKVDFKMKEGGFITDLPYGQLEVSGNEEYGFRPYQLMVSSIAVCSGGVLRKILEKQRVN
+FKDISIKADVTRNVEMANRIEKVALHFTITGDGLKEEKIQKAMELTKKNCSMVQSVIGSI
+EVEETFEIKE
+>tr|A6CNA9|A6CNA9_9BACI
+MNVVVYWNHVGREHGGLEYTSDIRKNSPEIIEEALRLKENRALSQTEPNRFLALNESLVI
+ELPPENSLKKFIIIYQMDLGLQFSYGFKNSHEGWLIDIVDYEKKPDGLVCVHDLLIDIRV
+FEDGSYHVVDMDEFYEAYSLGALSKEQLEQSLRALSYILEKLNKGEFPGIEIEEIKERYY
+>tr|A6CP22|A6CP22_9BACI
+MDMFEKIREHEQVVFCNDEETGLKAIIAIHNTTLGPALGGCRMRPYKSVDEALEDVLRLS
+KGMTYKCAAADVDFGGGKAVIIGDPQKDKNPELFRAFGQFVESLNGRFYTGTDMGTTPED
+FIYALKETNCIVGVDEEYGGSGDSSIPTAMGVIYGLQITNKTVWGTEDLGARSYAIQGLG
+KVGIKVAERLMDEGAELYITDINQHAIDALVSRANEKGVGIKVVSGEEIYSVDADVFVPC
+AIGGIINDDTVEKLKVKAVVGSANNQLMDTKHAKRLHEKGILYAPDYIVNAGGLIQVADE
+LYEPNKERVLQKTRTIYNSLQRIYAQAEREGITSEEAANRYCENLIQTRSRRNSFFSHMK
+RPKWSVRT
+>tr|A6CM67|A6CM67_9BACI
+MLGVIDATAYHQSLEDLLLNRSLAAVPIAGRYRLIDFILSNMVNSGINSVAIFPKYQYRS
+LMDHLGSGKNWDLNRKRDGLFFFPAPALDSVDEGMGSFNHFAHHMDYFYRSKQKYALISN
+CNTIFTTDFNPMLKRHIETGCDITKMNHNQESMEIYLIEKSLLIDLIEKRGETGYTCMKD
+VVEDVSSNLTICDYEYLGYVERIECIQSYFTASRNLLSPDCWKQLFRKEYPVLTKVKDEP
+PTRYQKGTVVKNAIIANGCFVEGDVKESTIFRGVKIGQGSSVSNSIIMQKSQVGENCVLE
+YVILDKDVKIEDNVKLIGSPENPVVIRKGMIQGALMNS
+>tr|A6CTK1|A6CTK1_9BACI
+MTTEVNYSDMKNRQNVMIKGTKDGLTLHLNDQCSYDELKKELKDKLSAQYRQTEGTPLIT
+VKIQAGNRYLTSRQKEELEEIVTEKRNLSVLEIASNVLTNEEAIKMKEESEIHTIAGVIR
+SGQVVEVPGDLLIIGDVNPGGTVKALGNLYVLGSLKGIAHAGYMGSRESVIVASQMTPSQ
+LRIADCLNRAPDHFDKEEGHEMECAYIDDSNQIVIDRLQVLKHLRPNISSFKGGR
+>tr|A6CIH3|A6CIH3_9BACI
+MTALFQPFNTQTIAGAKFIFFTGKGGVGKTSTACATALKLAEEGEKVLLVSTDPASNLQD
+VLEVDLTNTPMPVPGASNLSACNLDPEEAARTYREKVIGPFRGKLPESVVSTMEEQLSGA
+CTVEIAAFDEFTNLLSDRSVIESYDHILFDTAPTGHTLRLLQLPTAWSGFLEESTHGASC
+LGPLSGLAEKKQAYSDTMKALADSEQTTLYLVARPDESSLQEASRASKELREIGIGNQHL
+IINGLMQTHVEEDKISASLYHRQQTALQHMPEELKRVSSFSLPFVSYSLTGLSNLRNLLN
+QQIISDEEASSEKQTIKLPGLNEMVEDFSSNGTRVIFTMGKGGVGKTTMASAIAVGLVEK
+GHKVHLTTTDPAAHLEFMFKQGELNPNLSISRIDPKKEVEDYKTEVLSNVSEDLDEEALA
+YIEEDLNSPCTEEIAVFRAFAEVVDKAKEEIVVIDTAPSGHTLLLLDAAQSYHKELARST
+GEIPASVKELLPRLRNPEETSVVIVTLAEATPVLEASRLQDDLKRADINPKWWLINQSLY
+ATETSDPVLKGRAIAETVWIQKVSNELSDRCAIVPLMSDDRTGYDELRKYTEQS
+>tr|A6CRC6|A6CRC6_9BACI
+MKMKVIWTYSGKIPEKINFESDWMNRKYVDYLIEDLIRTGRAGEIIIRDEMENEWTRKEF
+LKLNEELEQEPENITVYFDGGYDKENALAGLGMVIYYQKGGVNYRVRKNEKLHELENNNE
+AEYAALYSCMQLLEEMGVHHVPCVVKGDSQVVLKQLEGEWPCYEETLNSWLDRIEEKMKT
+LGIKPIYEAINRKQNKEADQLANQAMQDTVIHSHSKY
+>tr|A6CUE9|A6CUE9_9BACI
+MSKGKKILGEERRNLILSKLREEGIPITGGDLAKFTNVSRQVIVSDITLLKAREEPIIAT
+SQGYLYLQPKQPEGTVEKTIACKHTPERTEEELNLLVDHGILVKDVRIEHKVYGDLTASI
+MVSNRQQVKQFMDKIKETNASYLSELTNGIHLHTISAPNDKAMADAERALKEAGFLIESL
+S
+>tr|A6CT72|A6CT72_9BACI
+MFLNGKIVHKGKAAISPFDHGFLYGMGLFETMRTYGGHPFLLDDHLKRLQSGLDTLHIEL
+ELNTLDIPGMISSLSEKNGLPDSYLRLNISAGEGEIGLRTAPYERPNIMLIQKELPPLVP
+LREKEAVLLKLARNTPETAVRLKSHHYFNNIAAKREIGDAPDKEGLFLTKEGYIAEGVTS
+NIFWVTDGTLYTPSLETGILNGVTREYIIEVSKKLGIPSETGLYQPEALLHSNEAFFTNS
+VQEIVPIHSFSGQTYPGKQGEITKAFYNHYQHDARVLFSKNELHGS
+>tr|A6CKX5|A6CKX5_9BACI
+MNISIVTVGKLKEKYLKQGIDEYLKRLSAYAKVEIIEVSDEKAPEELSETEMAQVKGKEG
+ERILSKISPDAHVIALAIEGKMRTSEDLADNLDKLATYGKSKVTFVIGGSLGLSDEVMKR
+ANETLSFSKMTFPHQLMRLFLVEQVYRAFRINRNEPYHK
+>tr|A6CP99|A6CP99_9BACI
+MNWKTAWEKWDSFEELDSEMRGLLTEMQEDEKSLEDAFYKNLEFGTGGMRGEIGAGINRM
+NVYTVRKASEGLAQYIISHGDEAKKRGVAIAYDSRHKSPEFAMEAAKTLASNGVQTYVFD
+ELKPTPELSFAVRQLKAFSGIVVTASHNPPEYNGYKVYGEDGAQLPPKEADEVISKVNEI
+ENELQINVKSEEELKAAGLIKMIGEEIDQSYLEHLLSISEKPQIAKEVDLSIVFSPLHGT
+ALKMVEKGLDALGYRDVHYVKEQSVPDPEFSTVKSPNPEDKAAFELAIRDGKEKDADILI
+ATDPDADRLGVAVKDRNGEYILLTGNQTGALLIDYILGRKKEKDMIPANGRVFKTIVTSE
+LGRKVAESYGASVEDVLTGFKFIGEKIKNYEDSGEYQFLFGYEESYGYLIGDFARDKDAV
+QAVLMATEAAAYFKQQGKTLYDALLDLYDRFGYYQEGLESLTLKGKEGAEQIQSILTSFR
+EEPLKEIRGLAVTKCEDYKTSMSTMLENGLEETISLPKSNVIKYFLEDGSWICLRPSGTE
+PKIKFYFSVTGNSLSESQEKLEGLKQALMEKIDNMVNSFAG
+>tr|A6CJ24|A6CJ24_9BACI
+MTVQWILAIILLILMVSVGGKKGARSFIALFLNFGVFLFVLLFMNDPDINPIILTLIACI
+LISCISLFYISEYNIKTLTAFISTIVTTAVLLFFILMLTEISMIQGFSEEEIEEIGAFSL
+FVGVDFVKIGASMILMSTIGAIIDLSISISSPMKEIHFHHPDISRKDLFRSGIALGRDIL
+GTSTNTLFFAFFGGYMALLIWFKDLSYSLGEIVNSKVFSSEMIFIGSAGIGVALAIPITA
+WITAYFLMRKRDKRIEG
+>tr|A6CR01|A6CR01_9BACI
+MDFLKHAIFIIDAEYSIVYLNPACERLLKLKKEDVLHMNAYDLFPDAPEDVRHVENTVKF
+GKTVKVKRMPYQFGDFNSYFDLETHLLEENGKILGAMAEFSDVTEFVQKEDRFKSHLEQM
+ASNIILLPEGKGILPLNQTIIDDLEIDLIIQRVLISVSEKKLSSLIVDLSSIIEANQHFF
+HSINGLLKALKLLGVNVSLTGMRPAIAQKMVSSGVSVDQYNVHILRSLRDAF
+>tr|A6CNU0|A6CNU0_9BACI
+CIACHSTDVVIGGSFKLQSSKLQKDYDNKDKLHNFVQKNMPEDEPGSLSAEEYEAVVDYI
+WNGQK
+>tr|A6CQL8|A6CQL8_9BACI
+MNIVFIVVFIQIVQLILGLYFPVENFFNLFIQIALTITTLSLVYFMLKGIFKTTKELSES
+NQKLNHIFESVDVAIWSHDLKSNNLLITQGIEKLYGREMEDFYKDFYLWKKVILPEDLQS
+LEGRQEVLQNGETCTSTYRITKPDGNVRWIQDRGIPTLDEKGNLIYFSSVLFDITDRKES
+EDQYRSLVEMSPDIIAVIRDGKFVYMNAAGSRVLGAKDPDSLIGEDILKVASEKDVGMIR
+KSISEYSERVRAGNLIFEIKATRFDGVEIDAEVSAMPILYGSKPAIQIVGRDITERKKTE
+ETIREMAYYDTLTSLPNRNMFKLRLNKLLESSPSTSLAILFLDLDRFKVINDTKGHSTGD
+RLLVKVADRLTDVLNKEGEVFRQGGDEFILLLDNSDKEKAASLSVRILQSFTKPIDISGQ
+DFFVTPSIGISMYPDDGMDQETLIKHADTAMYLAKDRGKNNFQFYNRNLNRNTTRKMDLE
+NELRKALELQQLVLFYQPKVNLETGEVLGVEALIRWEHPTLGMVSPAEFIPLAEETGLIV
+PIGKWVLWEACRQSKEWKKSGIGCISVAVNISVRQLQDDDFVQHVQQAMKDTGLEPSLLE
+LEITESIMQDFEKSSRILNKLKNLGVTISIDDFGTGYSSLTNLRFLPIDHIKIDKSFVDD
+IIDHSKHSKNGSIVKTIIDLGHNMNFNIIAEGVEEEEQVDFLLQNSCSIGQGYFYSRPLP
+PEQLEAYIRESQSASTK
+>tr|A6CJY3|A6CJY3_9BACI
+MCSLKGGKGLKDSSLNEVYETHFQDVYHYLLYFTNSQSDAEDLTQDTFIRALKNYEQFEQ
+RSSVKTWILSIARRTAIDHYRKRKVISILPDIIAHLGKSNEGNPDIELDQTNDWETLQKA
+LATLKPDYRNVVILRGLKEYSVKETAEILNCKESKVKVDFHRAIKLLKNQLSKSSEGVVI
+FNEQKRS
+>tr|A6CHX9|A6CHX9_9BACI
+MKAIVHEGRQGMQGLSVRDFQEPEVSSGMVKVKLKTAGLNRRDLIVLTRHKEDQPPLIIG
+SDGAGTIVGTGDGVTNVAQGDEVIINPGLGWKHNSDAPPEGFEIVGLPDHGTFSEYIVLP
+AENVEKKPGHLNWEEAGVLSLAALTAYRVLFTRARIKEGDTVLIPGIGSGVGTFLLKFAK
+AAGARVIVTSRSEEKQKTAIELGADFSISTNSDWNEELKDETIDIVIESIGRATFTKSLK
+GLRKGGTLVTFGATTEDEIEINIRDFFYSQLNLLGSTMGSAEEFKEMLEFISEHSITPVV
+DSVYPLEEYEKAMDRLKNSENLGKIAFRVSE
+>tr|A6CQ74|A6CQ74_9BACI
+MLTGMQIAVLGGDARQLEIIRKLTELDAKISLIGFEQLDHAFTGAVKEKIDEVEFNSVDA
+IILPVPGTNLEGEIETIFSNEKIKLTEEILKETPSHCKVYSGITNKYLSTITSSTKRELV
+QLFERDDVAIYNSIPTVEGTIMMAIQHTDFTIHGSKLIVLGLGRVGMSVARTFHHLGARV
+RVGARKSEHLARITEMGLQPFHLDDLEDEVKDCDMCINTIPAQVVKAGVIAKMPAHTLII
+DLASKPGGTDFRYAEKRGVKALLAPGLPGIVAPKSAGQILANVLSQLLLQDLTSRKE
+>tr|A6CME2|A6CME2_9BACI
+MSFNHKDIEQKWQHYWEEQKTFKTETEKDKPKFYALDMFPYPSGAGLHVGHPEGYTATDI
+LSRMKRMQGYNVLHPMGWDAFGLPAEQYALDTGNDPAEFTEKNINTFRRQIKSLGFSYDW
+DREVNTTDPKYYKWTQWIFTKLYEKGLAYVDEVAVNWCPALGTVLANEEVIDGKSERGGH
+PVERRPMRQWMLKITAYADRLLEDLEDVDWPESIKDMQRNWIGRSEGAEVNFAIDGTDKK
+FTAFTTRPDTLFGATYAVLAPEHPLVEEITTSEQQEAVSSYIDKVKAKSDLERTDLAKDK
+SGVFTGAYAINPINGDKMPIWIADYVLMSYGTGAIMAVPAHDERDYEFAKKYDLPIKEVV
+AGGDVEKEAYTGDGEHVNSDFLNGLGKEEGITKAIEWLEKEGVGEKKTTYRLRDWLFSRQ
+RYWGEPIPVIHWEDGTTTTVPVEELPLTLPKTTEIKPSGTGESPLANISEWVNVTDPATG
+KKGRRETNTMPQWAGSCWYYLRYIDPHNDEALASEENLNHWLPVDMYIGGAEHAVLHLLY
+ARFWHKFLYDIGVVPTKEPFQRLFNQGMILGENNEKMSKSKGNVVNPDEIVSTHGADTLR
+MYEMFMGPLEASVAWSENGLDGSRRFLDRVWRLLVDENGNISEKVKDEENKDLEKSYHQT
+VKKVTEDFEGLRFNTGISQMMVFINDAYKADVLPKEYIEGFVKLLAPVTPHIAEELWSKL
+DHEGTLAYAEWPKYDESKLVSDEIEIVFQVNGKVRAKLTVPRDISRDELEAIALKDEKVQ
+EFIEGKTVRKVIAVPGKLVNIVAN
+>tr|A6CML6|A6CML6_9BACI
+MIVMITGTILTILFFVFYQIAFFSKGWLVYLWTFILIGISTASTSLFSYVYFAFFLAHYI
+GNIKERKTFLILYFAHLIATTVSINITIIQDEALFIKQFPFVIIIWISVILLPFNIHNRN
+ERGQLEEKLEDANKRITELGKLEERQRIARDLHDTLGQKLSLIGLKSDLARKLINKDPER
+AKGELKDVQQTARTALNEVRKMVSSMRGIRLEDEIITVAKILKAAEIEFSGIKKLELKNV
+SLLTENILSMCLKEAVTNIVKHSGASQCELTIDQTWKEITMVIKDNGAFREPRGDERKGH
+GLVGMRERLEFINGDMNIVKDGGTTLIITVPNDVKQTEQGEVT
+>tr|A6CRX8|A6CRX8_9BACI
+MTNRQLVEIGENTMSKKTFTEKEIKQLSINPFVKAVSAKGITYTDEFKRQFIAEKEKGKF
+SRQIFEEAGFDTDIIGMARIHAASKRWSAAYKRNGVLGLNDTRKGNSGRPRERELSLEDK
+NARLEAQIL
+>tr|A6CL41|A6CL41_9BACI
+MSAEDKNQAMNQPPEPYWRESVSFTSYPALSEDAEVDIAIVGGGIAGITAGYELAKQGKN
+VAIIEANSILNGTTGHTTAKITAQHGLIYDELIQHFGVDLTKTYYQANDDALQYIKKNVS
+DLKIECDLTEEDAYVYAVTEKYDQKVRKEFTAYSKLGIDGELVEQLPINLEIKSAVVMKK
+QAQYHPLKYLKVLVEEFTKNGGTIYENTTAVDIQEGNNPVIVTRDGHKLTCNNVLICSHF
+PFFDGKGFYFTKMYASRSYILGVKAKQEFPGGMYLNAENPTRSLRYTDVNGEKLILVGGD
+DHKAGQGKDTVKHYEALQEYVESVLGVAEIPYRWSAQDLISVDKVPYIGQLTSNHKNIFV
+ATGFKKWGMTSGTAAGMILSDLIIKKASPYEEIFNPSRFAADPSIKHFLQQNGDVAKHLI
+RGKVTPASKSPDDLKIGEGAHVSVNGQKGGGYKDEEGNLHLVDTTCTHLGCEVNWNHGER
+TWDCPCHGSRFSIDGDVLEGPAKKPLKKLGY
+>tr|A6CU62|A6CU62_9BACI
+MSKTIFITGAGSGLARGAALGLAKKGHRIIATTEVTPQKTDLLREAQDQGLDMEVFKLDI
+TNPRDRAQIDEYDFDVFVANAAINEGGPLAEVPMDRFRELFEVNVFATLETVQIAAQKFM
+KKKNGKIIFMSSMAGISATPYVGPYSATKHAVEGIAQTLRNELEEFNVQVATINPGAFET
+GFNKRSAEEIWKWFDEEKNLTPKESIKEQHKGLEDQFDPQDMIEKMIEIIPADHHKFRTV
+HPQETEEQLKKTQKERWDMEI
+>tr|A6CP80|A6CP80_9BACI
+MTNELQAIGSMILEKKHVIAEEVHKDRLTGVARPDAILRNFEELEPKILEIRAEFISLFG
+NALINHQDKQKALNEIEEWGRKNGDYIFHLGVALDEALKDTSFYRQYIWKAIKDTSKETA
+VSAEAIFEIVDIIDPLLDKAVYYFSLTYVDNFQRSLENAHTAFLELSVPVVPLGPEIGIL
+PLIGNIDTERARLLMEETLKHAEKLKLSHLVIDLSGVLTVDTMVADQLFKVIDALALIGV
+KTIITGIRPEVSHTMVSLGVNLNHLTVKGTLHQALKELKFFSVC
+>tr|A6CNV0|A6CNV0_9BACI
+MHINQKFISEVNLMLQQIIEYRNQGLSFRKIAKEMNTTVGKVQYQWVKYQKTLEETKSVV
+AVASEKIEKKPKLKPKRQGKYKGRVSLNIEKLKPLKAELTVMFSEPTRVLCYWNIPGSII
+KQVRDFHRLKEDQFYYCLRVFDITSISFNGHNHHSHTDIIIHHESSHWFINSLKPNRSYC
+VEYGIVDESGQFTGITRSSVFHTPRTGHDQEYHQLQPLHEFEAGITKKPQWVEHVSTYSY
+YLKN
+>tr|A6CR23|A6CR23_9BACI
+MEVITSSRLQKTKKYLRAAIILGLLSTLLILAGLAGLLTYTKIQGPPPLAVPQSTLFYGA
+DGSIIGESSNGEKRYWVHLEDISPDLIDATLAIEDKGFFSHHGFDFKRITAAGLADLKAM
+AKVQGASTISQQYARNLFLSHDKTWKRKISEALYTLRLEMNYSKEQILEGYLNTIYYGHG
+AYGIQAASQFYFGKSADELTVAEAAMLAGIPKGPSLYSPLGSFQKAKDRQEIILNAMKED
+KRISEETAAKAEEETLKIVGEYPHQSVETAPYFQDVVKNILRNQLGIDERTIELGGLKVY
+TTLNPKHQKAAETVIEREIKPESEIQVGFTSINPKNGHVTAMVGGRNYEESPFNRAVQAV
+RQPGSTIKPLLYYAAVEKGFTPSTAMRSELTTFKFDDGQSEYTPHNFNNKYAGDDITLAQ
+AIAISDNVYAVKTHLFLGEETLVETAKKFGLSTPVKEVPSSALGTSGTRVVDMVNAYGMF
+ANGGYKISPVFITKVEGFDGEVIYEKAFEKEQVLNPDSAYVMTHMLSGIFDPKLNDYSTV
+TGITIRKDATRPYAGKSGTTNSDNWMIGFAPQLTAGIWTGYDKGKQISLVEDKYYAKNIW
+VHFMEEALKGEPVKTFKPTKNVKGYLVNPHNGKLATKGCPVQRFTYFVKGTEPTEYCDEH
+LHEDAPAKPPVSQPKEEKTPWYKKWTKWF
+>tr|A6CPE0|A6CPE0_9BACI
+MNKVTIYTSTHCPQCGRLKSFLNAEHIEFTEVNIDNHPEELTKLVNTTGQLGVPQTKINN
+RWIIGFNPANILKILAG
+>tr|A6CTI4|A6CTI4_9BACI
+MRIPILKLHDCLLISIQWELDDQTALQFQEDLLHKIHETSARGVVIDITSIDFIDSFIAK
+VLGDVINMSRLMGAKVVITGIQPAVAITLIELGIHLDDVLTALDLEKGLEKLQQELGD
+>tr|A6CLR0|A6CLR0_9BACI
+MKTAVISGGGSGLGRELAKVYSNDGYHILLLGRTEEKLQSVKEEIVTDGGTASYMTVDIA
+STEAVEKVSKEIKDHHDVQLLINNAGVGIFGPFLHAPFEDMEKMLSVNFLGTVYLTKALL
+PSMVSKDSGTIINVISTAGLRGKKNESYYAASKFALRGFAESLQKEFEETGIEIINAYMG
+GMNTPFWDESEHVKDPSRLRSPREVAEIIYEESKTSTDITIESKK
+>tr|A6CS68|A6CS68_9BACI
+MTDLFQIPVTEIKGIGDETALQLASMNVQSVGELIEYVPYRYEDYRLKDLAEAENEERVT
+VEGKIHSAPSLMFYGRKKSRLNVRLLAGSYLIQATFFNQPYLKKKLNLQDTITVTGKWDK
+NRQIITVQQYSLGPHTAKGDFEPVYSLKGSIKNQSLRKYIRTAFEHYGNEIHEPIPGSLR
+TEYKLLNRKEALFNLHFPSSPNSLKHARRRMVYEEFLLFQLKMQALRKFEREHSNGISQN
+YDLQKVKEFINSLPFPLTDAQKRVVNEISADMKSPYRMNRLLQGDVGSGKTVVAAIALFS
+SITAGYQGALMVPTEILAEQHAESLSELLAPAGINTALLTSSVKGKRRKLLLQKLADGEI
+DVLIGTHALIQDEVNFKNLGMVITDEQHRFGVQQRRVLREKGESPDVLFMTATPIPRTLA
+ITVFGEMDVSIIDEMPAGRKTIETYWAKQDKLERVLDFMEKELSQGRQAYVICPLIEESD
+KLDVQNAIDVHAQLEFYFQDRYKVGLMHGRLHSDEKDEVMKAFSRNEIQVLVSTTVVEVG
+VNVPNATMMVIYDAERFGLSQLHQLRGRVGRGSEQSYCILLADPKTDVGKERMRIMAETN
+DGFELSEKDLELRGPGDFFGKKQSGLPEFKVADMIHDYRALEVARNDAQRLIQSDEFWHA
+SEYEALRRFLEQSGVLQGEKLD
+>tr|A6CQQ4|A6CQQ4_9BACI
+MSDCIFCKIIDGEIPSSKVYEDEHVLAFLDISQVTKGHTLVIPKVHKENVYELTEEIASN
+VFAAVPKIANAIKAEYNPIGLNLLNNNGEDAGQSVFHFHLHIIPRYGQGDGFGAVWKTHT
+DQYSANELKEIADGISKHL
+>tr|A6CQ80|A6CQ80_9BACI
+MAITQTRKNELINEFKTHENDTGSAEVQIAILTEEINTLNDHLRTHKKDHHSRRGLLKMV
+GRRRNLLTYLRNKDVARYRDLINKLGLRR
+>tr|A6CQI9|A6CQI9_9BACI
+MPLEEIFLKECEIHRQIEETRTRMFRCAAQYGLNSEKTIKISQELDRLINFIQRQNANKE
+QINC
+>tr|A6CR48|A6CR48_9BACI
+MSEKNMKNLFSKSMKKRKWAILTVSIVAFAAVFGYLLFEGTKKSVALTLNGEEQEIRTHA
+NTIHDILQDLQIPLQSEDYLYPTESTEVTNNMKVVWEPAKQVEIKVGSETRKVWTTADTV
+KELLSDEKIEIGEHDKVNVSLEERVTNKTKVEIAPAFPVKLVDGGNEKAAWSTSTTVADF
+LKQQGITLAEEDRVEPNLDTTVKTNDVINVVRVEKVTDVVEEPKEFAVVTRKDSNLSKGK
+EEVVQAGQQGLIEKKYEVVKENGKEVSRKLISEKTVKESQDKIVNVGTKVLVAQVSRGSS
+SSAAASPSGGKEFYVSSTAYTGHCNGCSGITATGINLRANPGIKVIAVDPSVIPLGTKVY
+VEGYGYAVAADTGGAIKGNKIDVFFSTKAEAYRWGRKQVKIKILN
+>tr|A6CN60|A6CN60_9BACI
+MSWTGIALIIQLFFGVIIGLYFWNLLKSQRTQKVSIDRESKKEMEQLRKMRSISLSEPLS
+EKVRPQSFADIVGQEDGIKSLKAALCGPNPQHVLIYGPPGVGKTAAARLVLQEAKDQMKS
+PFRKSSVFVELDATTARFDERGIADPLIGSVHDPIYQGAGAMGQAGIPQPKQGAVTNAHG
+GVLFIDEIGELHPIQMNKLLKVLEDRKVFLESAYYSEENTQIPTHIHDIFKNGLPADFRL
+VGATTRTPSEIPPAIRSRCMEVFFRELNKEEVMEVALNASEKVDISISQAGVELLASYAR
+NGREAVNMVQIVAGLAITENRQSIDDKDIEWMIQSSQLSPRMDRKIDGKPVIGLVNGLAV
+TGPNTGSLLEIEVTVIPAVDKGSVNITGIVEEESIGDKGKSIRRKSMAKGSIENVLTVLR
+SMGVPADQYDIHVNFPGGIPVDGPSAGIAMATGIYSAIYRIPVKSDIALTGEISIHGFVK
+PVGGVYPKVKAAKLAGAKSAIIPYENMGALLQEIEGIEVKPVKHLQEVFNIALDKEKPEE
+EIAFNDKVNKKSV
+>tr|A6CTR9|A6CTR9_9BACI
+MKKQFAVIGLGRFGGNLVRELSELGADVLAIDNNEEVVEKYRDVAEHAVRANAMDENVIR
+ELGLRNFDHVIVSFGENIEASILTTLLLKDLGVKEVWVKASSTYHQKVLDKIGADKVIHP
+ERDMARRIAHHITSEKVIDFIELSKEHSIVELVASNKVADKTLIDLDVRARYGCNIIAIQ
+RGDDIIVSPPADEVIQKDDLLIVIGDNRDLNRFEKEGI
+>tr|A6CLZ3|A6CLZ3_9BACI
+MSVKSPFVEIRRELHKIPELGFQENKTQNYLLSYINSLPQDRLEVRKWKTGLFVRINGEN
+PQKIIGYRTDIDGLPIEENTGLPFRSEHEGRMHACGHDFHMSIALGVLTHYVHNPINDDL
+LFIFQPAEEGPGGAKPMLESEIMKKWKPDFIMGLHVAPEYEVGTIALKEGLLFANTSELF
+IDLKGKGGHAAYPHNTKDMVVAASMLVTQLQTVVSRNINPLDSAVVTVGKITGGTVQNII
+AETARLEGTIRTLSTESMVSVKERIEALVKGIEIGFDCEAVIDYGSMYRQVYNEKEATNR
+FIDYLKEKQDVNLVICDEAMTGEDFGYMLEEIPGFMFWLGVDSQYGLHHAMLNPDEEAID
+FAIATVTEYIKTL
+>tr|A6CL32|A6CL32_9BACI
+MEDLQLFKQMDFIRMRTIAALDNTTEEMADIVPPGLKNSIRWNLGHIYLSHENIIHSFVG
+EKGNIPEGFKELFGFNTSPDQWETDAPSLSQLRELLSGQPKRLKETFVGRLSEKGEKPFQ
+LTKDIAFETLDEVVSFANWHEGLHQGAITTLKRVQGIDNLWEPVNK
+>tr|A6CSS4|A6CSS4_9BACI
+MEKIIVRGGQSLNGTVKAEGAKNAVLPVIAATLLASEGKSVIKDVPTLSDVYTINEVLRH
+LNTDVTFSNNEVTVDASRELFVEAPFEYVRKMRASVLVMGSLLGRTGRARVALPGGCAIG
+SRPIDQHLKGFEAMGAKVKVGNGFIEAEVDGRLKGAKVYLDFPSVGATENIMMAAVLAEG
+TTVLENVAKEPEIVDLANFLNKMGANVKGAGTGTIRIEGVERLYGVEHNIIPDRIEAGTF
+MVAAAITQGNVLVKGAIAEHMSSLVAKMEEMGVTIIEEAEGLRVIGPEKLKPIDIKTMPH
+PGFPTDMQSQMMALLLRAEGTSVISETVFENRFMHVEEFRRMNADIKIEGRSVIINGPVT
+LQGAEVGATDLRAAAALTIAGLVAEGYTRVTELHHLDRGYVDFHKKLEALGADIERVTEV
+EEENDVTANEQIITDLNA
+>tr|A6CIY7|A6CIY7_9BACI
+MNNYHFQHHGGYPQIQQDEAHQLKEIQHMQHLFHTHRVNDPYPLYPRYGQITQYQDVPIT
+VPEQRQYYQPGHESLMVPRPIIEDPNYKGSGKLSGKVALITGGDSGMGAAAAIAFAKEGA
+HLAIAYLNEHDDAQRTKSRIEQIGQHCLLLPGDLRNKDHCRFIVEETIRTFGRLDILCNH
+VGIQFQQPKLTDITDEQFDDTFKVNIYSHFYTTRAALPYLKPGSSIIETTSIVTYTGYPE
+MIDYTATKGAQVGFIRSLSKNVIKDGIRVNGIAPGPIWTPLIPSSFTADRVATFGASNPM
+SRPAQPFELAPTFVYLASDDSRYVNGQVLHVDGGQSTSS
+>tr|A6CKK3|A6CKK3_9BACI
+MPELPEMENYKNLLSERILNKQISEVEIGREKSINVPVDEFTHLVKNRTIKKVTRRAKHL
+LFHLDNDVVLLLHLMLGGWMFYGSEQEKPDRTIQIRLSFGIQHLYFIGLRLGYLHLYKDL
+DEAAKELDDLGPEPITPPFSVEQFLDLAGKRRGSLKTTLVNQRFLAGIGNCYSDEICFHA
+AIMPGRKFNELSQHETRQLFQSMQFILNDAIASGGYMEEPLFPGDNLTGGYNSKCRVYDR
+EGEPCIRCGSQIIKDKISSKKTFYCGNCQK
+>tr|A6CNR7|A6CNR7_9BACI
+MIMMKQAVHFGAGNIGRGFIGALFSQSGYHVTFVDIAEQIINKLNEEKQYNVVLATEQKE
+SVTIDNVSGLNNLHQADEVIDTIVNSTYLTTAIGPNILPRIAPLIAQGIAKRVASTDENL
+FVIACENQIGATDILKEHIMENLDEETKAKLEGRVYFFNSAVDRIVPIQSQDSLDVLVEP
+YYEWVVETKESIPPVNGMTIVEDLAPFIERKLFTVNTGHAVIAYFGYLQGKETIDKTLAD
+EQIAKQVKETLKETGAYLVKQYGLDEEEHMAYINKNIERFKNPFLNDGVTRVGRAPIRKL
+GPEDRLVRPTTEAQKAGLPYSNLAKAIAAALLFDFAEDEQAMEIQNMIKEDGVAAVLKKV
+SGLDEDSAITEEVIQQYEMLKK
+>tr|A6CTQ2|A6CTQ2_9BACI
+MNNYFQTSLSRRFASLMAVFIILFLIGASIILFIQFHVQKDYEKQNILAEDKEKIIINID
+DSFNQAILDVRGYIAFGNESLKESALDEKVEIQGLIKMYSEMPLSSKEQVFLQEMISFHD
+LYFNELLPPTFNDYEQGNMQAIVNRANNAGTAQIQTFQRNLNRYRLELDNRVEVNSDALT
+SIYHKLQWTMFAFVLFMLIILLSITRISLNRIGKPLKELAFAADKVSRGDESNIVFTKDK
+RYDEISILKNSFIKMFNSIKENEQHMKDTNEELSEQQEELQAQQFELENLLGQMENRENQ
+LRHHNELINSLSNSLDKQEVLNSIVKGFSGVLRADKGIIVILDSEKTYAKWGVSQVGVQQ
+FISHLDNGTLERLQEEQHPHVIKRRLPREEKGIHNEDQPCWDLYLPVLSPSGNVEAVMVY
+SRFSGGYSAEEMQEYSSLSKQVSISLEKIKVFESSEADRMMNNDILNTIHEGIQLLDTNG
+KIIHINETFSSIYQSDHLNQYIDKSFLEWFNDVSDIVEEPVELYNFANELLTNEINAPNQ
+AQYKLINGQPRMIQVYAEPLYRNETLTGWILVHRDFTKEYEADQMKNELVSTVSHELRTP
+LASVLGYTELLINRELKPERQKKYLNTIYQEANRLTVLINDFLDVQRMESGKQTYEKKYE
+SLTPLLKEVIEGIKINTSIHDIQFVSDADDDMVLGDRDKLLQVFQNLIQNAVKYSPAGGN
+ITIKLHSAPKELHVSIIDEGLGVPEEAMPNLFTKFFRVDNSDRRKIGGTGLGLAIAKEII
+KAHEGDIVLSSKLGQGSTFTVILPKVKGIAEITTESYSGKGRGKIVIVEDDKQLASLLSN
+ELTESGFFITTFSNGEEALAYVEKNPPDAIILDIMLSMSNMDGLDVLQTVKNHSELKDIP
+VFVSTALDEKEKVLKLGAEGFLVKPYSPSKLTELVLNNLNG
+>tr|A6CNS0|A6CNS0_9BACI
+MKKLIIAQNIEKEQTEHIQKIVPHWEVITGKEPEHWENHLGEAEIIAGWKKSMETKTLQN
+PAALRWIQTWSAGVDSLPLMQMESKDVLVTSANGVHAYPISETIFAMMLGLTRKIHTYVR
+NQAQKEWAHSGLKLEIHGKNIGIIGVGAIGEETAKIAKAFGMNVLGVRHSGKENEYVDEM
+FKTDQLHDVLPRCDYIVITVPLTPETRGMFGQKEFQLMKDTAFLINIGRGETVNEAQLIN
+ALQTKKIAGAGLDVFVQEPLEKDNPLWEMENVIITPHTAGSTEFYNKRVIDDIFIPNLKE
+YIAGRKPSVNLVDYQKGY
+>tr|A6CHI7|A6CHI7_9BACI
+MVDSLVEIENVSALLKLLGDKTRLTIVKLLEANDCCVCEFVEIFKMSQPSISQHIRKLKD
+AGIVKEARRGQWIIYSLNKDSENYHFIKALLSHLPDQEFKIKELEQQGLRISCD
+>tr|A6CJE0|A6CJE0_9BACI
+MSVTKLGIKELRDKIDDINLQLLDLLNERAEVVQEIGRNKKEGVNRYDPVRERESLDMIL
+KQHNGPFESSTIVHIFKEIFKASLELQEEDHRKALLVSRKDHPEDTVVNVNGTLIGNGVQ
+NFIMGPCAVESYEQVKEVAKAMKAQGLTLLRGGAFKPRTSPYDFQGLGVEGLKILRRVAD
+EEGLSVVSEILTPHDVEEALDYVDMIQIGARNMQNFELLRAVGKVNKPVLLKRGLSATIE
+EFIHAAEYIYSEGNKNIVLCERGIRTYEKATRNTLDISAVPILKKETHLPVVVDVTHSTG
+RKDLLFPAAKAALAIGADAVMAEVHPDPAIALSDSAQQMNIEEFNDFMEKLIEFKGRLA
+>tr|A6CQ42|A6CQ42_9BACI
+MDVLLWINWIAFILVTAYAVGLFVYVVKTRIEYIKLGKKTEFDNNVKERMKKIAVNVFGQ
+KKLLKDKKSGAIHVMFFYGFILVQFGAIDFIWKGLAPGSHLPLGPLYPGFTFFQELVTLM
+ILVAVVWAFHRRYVEKLVRLKRGFKSGLVLLFIGGLMLSVLVGNGMGLIWHGHELGWTEP
+IASLIAGGLGWIGETASIVIFYVSWWIHLLFLLAFLVYVPQSKHAHLIAGPANVYFNRLD
+NPGKLKPIDFEDETAESFGVGKIEEFNQLQMIDFYACVECGRCTNMCPATGTGKMLSPMD
+LIVKLRDHLTNHGAAVTSRKPWVPTMAFNHTKGNQLAMAAAGQGAEEAAASMAYSPSLIG
+DVITEEEIWACTTCRNCEDQCPVMNEHVDKIIDLRRYLVLTEGKMDADAQRAMQNIERQG
+NPWGLNRKERENWRDAREDVQIPTVKEMKKAGEEFEYLFWVGSMGSFDNRSQKIALSFAK
+LLNEADVKFAILGNKEKNSGDTPRRLGNEFLFQELATANIAEFEKNEVKKIITIDPHAYN
+IFKNEYPDFGLEAEVYHHTEVLAQLVKEGRLKPKYEVNETITFHDSCYLGRYNEVYDPPR
+EILKAISGVSLVEMERNKQNGMCCGAGGGLMWMEEDKGHRVNVARTEQALETNPSVISSG
+CPYCLTMLSDGTKAKEVEDNVSTLDVAELLEKAVCGDPKDTTIAS
+>tr|A6CMF1|A6CMF1_9BACI
+MSWEEKLYLNPILDLYNGEIIAFAIKKRPTLDLVTEPLKETIGIIKNNATYRTTIHSDQG
+WHYQHNSWVRTLI
+>tr|A6CI63|A6CI63_9BACI
+MAELKQFIFFDFEMKCDDRGMAYENMEAIRLGAVKYDLKTKSITQFDRYIQPATQEPLSD
+FCKKLTGINDRDLETADPFPLVFKEFLYWVGGVKKSRFFSWSKSDMSRLKMDSALHGLPS
+VTIDKIQSRYVDFQQTFTQRVSKDNLSVENALALYGLHFEGEPHNPMYDAYNTLQIFMHY
+YSHPLTSEIAMVKAFILPDEELDLKTINKKISEALIQDLTTLTANLHNAFRLRDAKKLLK
+QVSKTVRKYENILLNRSGIFTKDVHQLVQQLVNFHENLKDSYHEHFVSSSRVMILDHHSM
+QCIQNMK
+>tr|A6CJJ5|A6CJJ5_9BACI
+MKKTVITLATAASLTLSMGASASAEKVEVKKGDTLWGLSKEYGTSVENLLKWNNLNSDLI
+FPKQELRVSSTETYTVESGDSLWGIAKYYGVSVDELKNSNSLTSNIIHPGQKLTIDLDNR
+GLATLVTEQETASTPQQTTEEPAAEPAAQETASAAPAVQESAPAQPAETPVNTQPTQEAA
+NAITMKATAYTASCVGCSGVTRTGVDLNANPDAKVIAVDPNVIPLGTKVYVEGYGYATAQ
+DTGGAIKGNKIDVFIPNRQDALDWGVRSVKVTILE
+>tr|A6CMF8|A6CMF8_9BACI
+MKLTKGVLTIIYALLIIIPVVAIFFATFKSNAEMYQDVLGLPGSFDFVNYITMFAEESMS
+TYFWNSVIVTLFAVSMTLFFSSLIAFAVTRMSGWPGRILFGLFTLGMMVPAQVNMIPLYQ
+LVFDLGLTNSLTGLILVNTAVTTPVAVFILTGFMKSLPSSLFEASRIDGASNWQMYAKVA
+IPLSLPSISATAIFLFVMVWNDLLYPLLFITDTDYKTLPLALLEFQGEYMTNYPMLFTGV
+IIASAPMVIAYVFLQRYFVAGMTAGSVKG
+>tr|A6CK35|A6CK35_9BACI
+MFKKYKLLAFLIVSAVILAACGNGGFKADHNWKVQDFSYTNQNNETVSLEDLKGEVWIAD
+FIFTNCNTVCPPMTYNLTLLQEKLKEEGIEDYRIVSFSVDPEVDTPETLSEFISKYDADT
+SKWDLLTGYSQDHISQFAEKSFKSLVANDPNNDQVVHQTSFYLVNQEGVTVKSYGGYEEV
+PFDQIAMDIEALIKEGQE
+>tr|A6CTF5|A6CTF5_9BACI
+MTVKIGINGFGRIGRNVFRAALNNDNIEVVAVNDLTDANMLSHLLQYDTVHGKLDQEVSV
+DGDYLVVGDTKVKVLAERDPAQLGWGDLGVDVVVESTGRFTKRADAAKHLEAGAKKVIIS
+APASDEDITIVMGVNEDKYDAASHDVISNASCTTNCLAPFAKVLNDKFGIKRGMMTTIHS
+YTNDQQILDLPHKDYRRARAAAENIIPTTTGAAKAVSLVLPELEGKLNGGAMRVPTPNVS
+LVDLVAELGKEVTVDEVNSALKEASEGDLKGILGYSEEPLVSTDYNGNPDSSTIDALSTM
+VMEGNMVKVISWYDNESGYSNRVVDLVGYIASKGL
+>tr|A6CTU5|A6CTU5_9BACI
+MNFETIIGLEVHVELKTDSKMFSPAPNHFGAEPNTNTNVIDLGYPGVLPVVNKQAIDFGM
+KAAMALNCEIATDTKFDRKNYFYPDNPKAYQISQFDQPIGENGWIEIEVDGYKKRIGITR
+LHLEEDAGKLNHSGDGYSLVDYNRQGTPLIEIVSEPDLRTPAEAYAYLEKLKSIIQYTGV
+SDCKMEEGSLRCDANISLRPIGQEKFGTKAELKNLNSFNFVRKGLEHEIVRQEKVLLSGG
+IIEQETRRFDETTGKTLLMRVKEGSDDYRYFPEPDLVLLHIDEDWKERVRAEIPELPDAR
+KKRYVEDMGLPAYDAMVLTLTKEMSDYFEATVAAGADIKQASNWLMGEVSAYMNSEQKEL
+EDLPMTPEGLAGMIKLTQDGTLSSKMAKKVFKELVENGGDPAQIVKEKGLVQISDEGELL
+KIVTATLDDNPQSIEDFKNGKDRALGFLVGQIMKKTKGQANPPMVNKLLVEEMNKR
+>tr|A6CPM6|A6CPM6_9BACI
+MEQEQRQSYDENQIQVLEGLEAVRKRPGMYIGSTSSKGLHHLVWEIVDNSIDEALAGYCS
+EIKVSIEKDNSITVQDNGRGIPVGIHEKMGRPAVEVIMTVLHAGGKFGGGGYKVSGGLHG
+VGASVVNALSTELEVFVHRDGKIHYQKFEKGVPSGDLKVTGESDVTGTIIHFKPDPEIFT
+ETTEYEYDILANRLRELAFLNRGIKIIIEDNRVEDKKNEYHYEGGIKSYVEHLNRSKEVV
+HEEPIYIEGEKDNISVEIALQYNDGFASNLYSFANNIHTYEGGTHESGFKTALTRVINDY
+ARKNHLYKESDANLSGEDVREGITAIISIKHPDPQFEGQTKTKLGNSEARTITDALFSEH
+FESFLLENPVVARKVVDKGLMAARARLAAKKARELTRRKSALEVSSLPGKLADCSSRDPK
+ISEIYIVEGDSAGGSAKQGRDRHFQAILPLRGKIINVEKARLDKILSNNEVRAMITALGT
+GIGEDFDISKARYQKVVIMTDADVDGAHIRTLLLTFFYRYMRQIIEAGYIYIAQPPLYQI
+KQGKKIEYVYSDKQLEEALAQMPAQPKPGIQRYKGLGEMNATQLWETTMDPEYRTLLQVS
+LEDAIEADETFEMLMGDKVEPRRNFIEDNAAYVKNLDV
+>tr|A6CQU4|A6CQU4_9BACI
+MYKVKVFITLRESVLDPQGKAVQNSLHSMDYSQVEDVRIGKYMELTISPSDKSVEEAVDE
+MCSKLLANPVIEDYRYEIEELVGQ
+>tr|A6CRS0|A6CRS0_9BACI
+MEAKLKQLQEEALEKIEAAEGLKELNDIRVAYLGKKGPITEVLKGMGKLSAEERPKMGAL
+ANEVRAAVTERLEEKNEKLEKEAVNQKLASETIDVTLPGRPVKKGSKHPLTKIVEEIEDL
+FIGMGYSIAEGPEVETDFYNFEALNLPKGHPARDMQDSFYITDEILLRTHTSPVQARTME
+KHKGKGPIKVICPGKVYRRDNDDATHSHQFMQIEGLVIGENIRMSDLKGTLQVFAKKMFG
+EDREIRLRPSFFPFTEPSVEMDITCKMCGGKGCSVCKGTGWIEILGGGMVHPNVLEMSGF
+DSKKYTGFAFGMGPERIAMLKYGIDDIRHFYTDDVRFLKQFQTQE
+>tr|A6CRK1|A6CRK1_9BACI
+MPGTKNSSSKIINFMNMPKKAGYNIKSDNKGGYIMKDEKSQDNQSRTTLTNRQGHPVTDN
+QNVRTVGNRGPTTLENYDFLEKISHFDRERTPERVVHGRGAGAHGYFESYGKVGDEPISK
+YTRAKVFTNTEVQTPVFVRFSTVVHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIF
+FIRDPLKFPDMVHAFKPDPVTNIQDPERMFDFLSQRPESAHMVTFLFSPWGIPANYREMQ
+GSGVHAYKWVNDEGKGVLVKYHWEPVQGIKNLSQKDADEIQSKNFNHATQDLYEAIEKGD
+YPEWELYVQIMEDGEHPELDFDPLDPTKLWYKEDYPWHKVGKMVLNKNPENYFAEVEQAA
+FGTGVLVDGLDFSDDKLLQGRTFSYSDTQRYRVGANYLQLPINKPKKDVETNQSAGQMDY
+RTDYGKQKNPHINYEPSLIGGLKEAENPGKEHEPHVEGNLQREPISRENNFGQAGETYRR
+FTDWERSELISNLVDALSTCRKEIQDAMIDIFTKCDEDYGKRVKEGLEKAGDNKESKMDE
+AVEQAEKMGHISDPY
+>tr|A6CTB8|A6CTB8_9BACI
+MPNKYTITEAQNIIKKITDEQDELFQSFLQDERKGIQKIISKWYSDRAQQRVLQEEFDQM
+SGFENELRDQGFELIAGIDEVGRGPLAGPVVAAAVILPADFCLLGINDSKKLSEKQREAF
+YQYITEEAIAWSTGIISPQEIDELNIYQASKKAMVTALNTLNVKPDHLLIDAMELGSPYP
+EMSLIKGDARSISIAAASIVAKVTRDRMMEEYSQVYSGYGLEKNMGYGTKEHLEGLNEFG
+PSPIHRKSFAPVKELMLK
+>tr|A6CH64|A6CH64_9BACI
+MNQRFSIDDFIKQTQQEDKGEGLFELETQRVLEVNLDGEVWTKMGAMISYRGAIKFEREG
+VLEHGLGKLFKKALTGEGTSLMKANGQGKLYLADQGKKISILNLNNDAIYVNGNDLLAFQ
+PGLKWDIKLMRRVAGMMSGGLFNVRIEGTGMVAITSHYEPLTLIVKPGNPVYTDPNATVA
+WSGNLQPDFVTDVSLKTFFGRGSGESIQMKFEGEGFVVVQPFEEVYMEQQS
+>tr|A6CKV5|A6CKV5_9BACI
+MKSATNVFYVSLAIMTGLVLMGVFVPEFLESVTSSAQGCILNSFGWYYLAIVTVFVGVCV
+YLLVSPVGRIKLGRQDDVPEFTRPTWVAMLFSAGLGVGLLFYGTFEPISHFAISSPTGET
+GTNQGVKDAMRFTFFHYGIHAWAIYGSIALALAYFTFRRGERSLISKTLRPLIGKHVDGA
+VGTVIDVIAVIATILGVATTLGFGASQINGGLSYLFGVPTNIMVQTIIVGIVTVLFIISA
+STGLGKGIKILSNLNMGLTAILFLFVFIFGPTLFILNLLVDTVGAYFQNFLNMSFRIAPM
+NEEARGWINGWTIFYWAWWIAWSPFVGVFIARVSKGRTIREFIVYVLLAPSLICFIWFTT
+FGGAAITTELTGLLSISSLSPPESLFGLLETYPISMISSLLAIVIIVTFFVTSADSGTYV
+LGMMTSNGSQNPSNPIKIIWGIYLSGTALVLMYSGGLQALQNTMIIAALPFSIILGLIVI
+SLLKALQREAKELGLGQIKMPDKKKPIKTP
+>tr|A6CJY9|A6CJY9_9BACI
+MYQHSVKPGETLWSISEDYRVSFRELVRTNNITNPNLILVGQKITIPGLPDPNQIPLSIH
+VSTSQRKLTLQRNGTVVKTYPIAVGKMLSATPVGQYVIINKAPNPGGPFGTMWMSLSKKH
+YGIHGTNNPASIGKAVSKGCIRMYNSDVEELARTIPIGTRVVITP
+>tr|A6CJB1|A6CJB1_9BACI
+MYVNSEFTIAVHSLVYLAYLPDHMASSQAIAQNVATNPVRVRKIMSCLRDTGFVKTKEGT
+GGGYTLTAEPGDITLGQVYRSVSYGAIKPTWCKGEREESCLISTNIQEVVNGIFTEADQY
+FAEYLDKTTIESVLNQIRQTR
+>tr|A6CMS8|A6CMS8_9BACI
+IPVGHVISIEKPENITSIPQLPDYVLGITKVRGELVPIIDFANILYGQQESTEDKKLIVL
+KSEVLSLGIVVHEAKEILDIPEGALTQVGLMAYSRTKFFSGVINLEDRLITMIDPDVLVE
+SLDGIREIQDYMKTYQ
+>tr|A6CII9|A6CII9_9BACI
+MTLYKPESTRGGISLMSSKVNDIICTVSALFHSKGYENTKLSEILAETGIGKGQFYHYFK
+SKRELGEAVIDHLIAEMTEELFVGILDQSLPPKVKLQKMLDTVLTLQMEHEGKRGCPIGN
+LAIELSEHDPLFREKLAHFFEQWEKKVQQLLDEMQQNGEIASGLNTQKKARALIATIEGG
+ILLMKVKQDIEVIRDIIEMIQYEYQLTS
+>tr|A6CKN2|A6CKN2_9BACI
+MNNFYDVIIVGGGIIGSSVAYQQSKQGKKVVILEKGKPGCEASSAAAGMLGAQAEIDESD
+SLLKLALKSRSMFPVLIKELEELTGVHTGLINKGMLKVAESTGDVENLKTQVDYHTGWDP
+EVTWLTQGELLKQESALSHNLAGGMFIPNDGQVMAPQLSQAFLQGAAAYGADIFEYSEVE
+DVLYKGQRINGVKTSQGNFYAETVVITNGAWAGKLIKKTGISLDIIPVKGECFSVIPLKP
+LIRSTVFSDKGCYIVPKKDGRLIVGATSYLNSFDKSVSLEGISRLLEKAISLIPDIQYAK
+WEKAWAGIRPQSGDGLPYIGPHPECRGLFIAAGHYRNGILLSPITGKMISDMIDNQATGE
+ELKLYESFKIDRKTATTSQEGYR
+>tr|A6CNM2|A6CNM2_9BACI
+MSQALLIIDVQQELIEGSQETSAVFNKSQLISNVNMVIEKAKLFEIPVIFVRDTDIAQGE
+GEGFQIHESINVPADSKIFDKTATNSFHGTELLSYLRSLQIKHLVIMGCATEHCIDSAVR
+TATISGFDVTLVGDGHSTTDNEVLSAEQIIKHHNQTLHGHYNVEHFSIVRNSEEELFNPT
+HNSYR
+>tr|A6CQN5|A6CQN5_9BACI
+MKSLKPLLVFLPLSLVLFLSGCETNMVVFEPQGPVARSITELINWSLIWMLIVVVVVFAL
+FAYIIWKYREKPENMDYEPPEEHGSTLLEVIWTGIPILIVIALTIPTVKTLYSLEEIPET
+LEEKEPITIHVTAADWKWIFSYPEEGIETVNYVNIPEDTPVLFKLTSASTMQSFWVPALA
+GQKYAMAKMETELYLAADNPGSYMGKNSNFNGRGYAEMEFEVLAQTQSDYDEWVKEVKDT
+APKLTEDKYEELLKPTHLGRLTFNNTHLAWVDHSDINSKTYTNPELYRYHGYQGKTFEEE
+DNYKNADDDEEESDDHGHGHEDSHSGHSDEEDDSHGGDHHGH
+>tr|A6CT92|A6CT92_9BACI
+MRNLNVQTKMSRQFGILLLFIIGYGVTFFTLFQEEEKSDANTVSDIGGLMPTKIDQVSKG
+AEEREIVKTVNEAVQENLKVSIAGKMHSQGGHTYYPGSVVLDMTSYNKVLDLDVEKKTIR
+VQSGATWNDVQEAANPHGLAVKVMQSQNIFTIGGSLSVNVHGRDIRHGSLIETVNSFRLL
+KHDGEIITVSRTENEEYFPLVIGGYGLFGVILDVELQLTDDELYEIKTTKLPYEEYSDFF
+KRKVKGNPDVKMHLARISTAPDTFLKDMYVTDYILSEEQGKMKENNELNEEKGTFVSKFM
+LGVSREFDWGKNIFWDMQKTYFADKDGDFITRNNAMRSESKFMEYESSKDTDVLQEYFVP
+VEEFTDYIDDLREALDEEDLNLINITIRYVEENEDAVLSYSKEDMFALVILINQDKSVEG
+KEDTERIIRKMVDVTLKHRGSYYLPYYSYPSKEQMKKAYHRTEEFFQSKRKLDPNEVFMN
+HFYEVYGQ
+>tr|A6CR95|A6CR95_9BACI
+MEDFRGVKAMRQEECIIVGGGPCGMSAAIELKKIGINPLIIEKGNIVNAIYNYPTHQTFF
+SSSEKLSIGDVPFIIEQHKPKRNQALVYYREVAKLHDLRINRFEEVQSVTKINEHLFNVK
+TAKEQYETKRVIIATGYYDHHNELNVKGGDLEKVHHYFKEAHPYFDTDVVVIGGKNSAVD
+AAIELEKAGARVTVLYRGSDYSSSIKPWILPEFDALARSGRVKMVFNAEVEEVTENTVKY
+FVAGDMKEIKNDFVFAMIGYHPDHSFLTKMGVNIDQETGRPQFNPDTMETNIEGIFIAGV
+IAAGNNANEIFIENGRFHGGMIAKAIKAKEDI
+>tr|A6CS65|A6CS65_9BACI
+MSITSLEGKRFAEMVIQGANNLAANAKMVDALNVFPVPDGDTGTNMNLSMTSGAKEVQNN
+VQEHIGKVAGALSKGLLMGARGNSGVILSQLFRGFGKAIEGKNALTSKEFAAAMQTGVET
+AYKAVMKPVEGTILTVAKDAAKKAVSSAETESDFVTFMEEVVKEARASLNRTPDLLPVLK
+EVGVVDSGGQGLLLVYEGFLAELKGEQVSEYATLPSMDEMVSAEHHKSVQGFMNTEDIEF
+GYCTEFMVRFEEGKDAFSEETFRNDLSAYGDSLLVISDEELAKVHIHSEQPGQVLSYGQK
+YGSLINMKIENMRQQHSTIMNETSHQLNSENGEAEKPKEKKEYGIVTVSMGEGIAELFRS
+IGATYVIEGGQTMNPSTEDIVKAVEEVNAEKVIILPNNKNIIMAANQAAEVISGDVVVVP
+TKTVPQGMAALLAFNPSVSNEENQKSMTDASSYVKTGQVTFAVRDTSIDGLSIQKDDFMG
+ISEGKIVVTGKERLETAKNLLNEMLDEEAEILTILFGEDASEEDVNALTEFVEEKYEDVE
+VEVYNGKQPLYSFIFSIE
+>tr|A6CSI9|A6CSI9_9BACI
+MNKKILGIGLVSVLVGLFVGNIIMNQVSKKEIEKQVAEQLEESGLETEFGSGGPGEGDAA
+PDFTLTTLSGEEVSLSDYKGKKVILNFWATWCPPCKAEMPHMQDYYEEYHEKANVEMLAV
+NLTTIDEGRAAIEGFVEEYGLTFPIPLDEEGTQGTIYQAQTIPTSYMIDTNGTIQHKIVG
+PMNKDMMIQLVDSME
+>tr|A6CNJ3|A6CNJ3_9BACI
+MGEPVVQIHAQDRTPEFKRNFQVFRFMGGNLVSFFGDQIYLIALPLIVLAITQSPLSMGI
+VAALERLPILIQPLAGVLADKFNRKSILMVCDAGRFIVIGILGVLHLSGGLSLGAIYIGA
+LTVGIMTQIYNTSQFASIPQLVLKKDLQLVNSINTGIFHTAVFVAPGVGGVLISLFNPGI
+GLILNSLSFAIGFLAVCSLNIHSDSATSNQDPGILAEIKEGFVFIIREKPILYTNLAMLF
+SVFGTTLFLTMMIVHLNSAAGLNSADIGYILSIGGAAAIAGSLLTNILRQRFSYRSILFT
+AGLLGGASIIGFGLGESFFTLAVMNAAGTVAAAIMGTCIVTIRQVLTPGHLLGRVQATSR
+LMTWITMPVAALSSGIIAETFGTGMAIVLGGVIATLASFFYLVPSLKSLGNERYETTNP
+>tr|A6CUC9|A6CUC9_9BACI
+RSKEGEVSIDPTGKKSGRGAYLSKTKDAIQTAKKKNAIANQLQAKVDESVYDELLALVEK
+E
+>tr|A6CPQ2|A6CPQ2_9BACI
+MATFTLAVNRSFTNQQGEREADFINCVVWRRPAENVANFLKKGSLAGVDGRIQTRNFEGQ
+DGKRVFMTEVVAESVQFLEPKSASQGGGSGYQGERGGNNFGGGQRQQQDYSYSQNQNQRN
+NNNNNNNQNYTRVDDDPFANDGQPIDISDDDLPF
+>tr|A6CMU2|A6CMU2_9BACI
+MYQRLKNKNIVITGASGGIGEKIALKAAERGANVVLLARNEERLKELQNKIQEEYKVKAF
+IHSVDVSDFESLPSVFQSIYREIENVDILVNNAGYGIFDEADQASFEDIKGMFDVNVLGL
+IACTKHVLPIMKKRNSGHIINIASQAGKLATPKSSAYSASKHAVLGFTNSLRMEAASSDI
+LVTAVNPGPIATNFFNVADRSGTYAKNVERFMLDPDAVAEKIVDKMLTNTREINLPRWMN
+AGSVLYTLFPGVIERLGKNAFFKK
+>tr|A6CPM8|A6CPM8_9BACI
+MYIEEIQLKNYRNYDSVDISFENNVNVILGENAQGKTNIMESIYVLAMAKSHRTSNDKDL
+IRWDEEYAKIKGRIKKHNGSLPLELVISKKGKKAKSNHIEQKKLSQYVGNMNVVMFAPED
+LHLVKGSPQVRRRFIDMEIGQVSPVYLHDIALYQKILQQRNHYLKMLQTRKQKDETMLDV
+LTEQLTEVSAKIIRKRFEFIELLQEWARPIHSGISRGLETLDIQYKPSIDVCDDQDWSKM
+IDIIAEKFHTIRQREIDRGVTLAGPHRDDLQFFVNDRDVQTFGSQGQQRTTALSLKLAEI
+ELIHSEIKEYPILLLDDVLSELDDFRQSHLLNTIQGKVQTFVTTTSVDGIDHQTLNDATT
+FEVETGHIERVK
+>tr|A6CMD2|A6CMD2_9BACI
+MFVINKTNPFPYAADVKRYHTWNYHLRSHFGHKVFKVALDGGFDCPNRDGTVAYGGCTFC
+SAAGSGDFAGSRVDPLEKQFNDIKERMHRKWKDGKYMAYFQAFTNTHAPVEELREKYESV
+LKQEGIVGISIATRPDCLPDDVVEYLAELNERTYLWVELGLQTVHEKTASMINRAHDYQC
+YVEGVNKLRKHGIRVCSHIINGLPQEDYNMMMETAKEVAKLDVQGIKIHLLHLLKGTPMV
+KQYEKGQLEFLSFEEYVSLVCDQLEILPPEMIVHRITGDGPIDLMIGPMWSVNKWNVLNA
+IDGELQRRDSWQGKFYKAGVEV
+>tr|A6CJ77|A6CJ77_9BACI
+MEQTPQSIDIESYANQSLLRNIIENTFETIIIHSDYRVVYINQSGADFLGASKEALAGAK
+VLDIFPNGSKTMIKERIRKALVENEIGQLIEQPVVTIDGREVEVELYCHPFLHEGKRYVL
+SVLRDITSRKEQEKRLKDEIHQISTPVVPVSDGISIIPLVGTIDNDKANLLLETLPEKLK
+GETDIKYVILDFSGVYNLDEQVIEFLYKLSSIMKMLGINPVLSGIRPEMAQKTVELGFDL
+SSLKSLNNVKQAVKYIKTLIE
+>tr|A6CLD7|A6CLD7_9BACI
+MKVSYHGHSVVKVVTETHTILIDPFINGNELTDLKVENEKPDVILLTHGHNDHVGDTVQL
+AKQSDALVVAPFELATYLSWQGVKTHPLHIGGGYDFEFGRVKLTQAFHGSSYETEDKQII
+YTGMPAGILFTVDGKTIYHAGDTALFSDMKLIGMRNSIDLAFLPIGDNFTMGPEDAALAA
+EFVNAKTVVPIHYNTFPPIKQDPEKFVSMLNGQEAKVMNAGDVIEL
+>tr|A6CS97|A6CS97_9BACI
+MKAILFDLDRTLHDRDASVLQFLKAQHQKLNNLHHTVIPSTYIDRFIELECKGYVWKDKV
+YASLAEEFSLPLSPKELLEDYLTDFHQHCLKMDGTSGLLHFLKSAGYKVGMVTNGMTDVQ
+NNTINVLGIRSYFDKIVISEEAGLKKPDPAIFHLAARLLNVAPSDCLYVGDHYENDVAAA
+RKAGMKAAWLTEPDSMPAGLAADFVVSSLAELQDYLSK
+>tr|A6CN13|A6CN13_9BACI
+MSSYAQKTGFGATLWDYLTTVDHKKIAILYLMSGGFFFLLGGLEALIIRIQLAVPNSDFI
+SAGLYNEVLTMHGTTMIFLAAMPLIFAFLNAVVPLQIGARDVAFPFLNSLGFWLFFFGGV
+FLNLSWFLGGAPDAGWTSYASLSLASEGHGIDFYVLGLQISGAGTLIGGINFLVTIITMR
+APGMTYMRMPLFTWTAFVTSALILFAFPALTVGLFLMMFDRMFGSNFFDVAAGGNTIIWE
+HFFWIFGHPEVYILILPAFGIFSEIIPTFARKRLFGYSSMVFATVLIGFLGFMVWAHHMF
+TVGLGPIANAIFAVATMAIAVPTGIKIFNWLFTIWGGSIVFTTPMLYAVSFIPTFTLGGV
+TGIMLASAAADYQFHDTYFVVAHFHYVIVGGVVLALLAGTHFYWPKMFGTMLNEFLGKIT
+FWLFFIGFHLTFFIQHFLGLMGMPRRIWKFLPGQGFETGNLVSSIGAAFMGVATIILLVN
+IIMTQVKGVRVGNDPWEDGRTLEWAIPSPPPFYNFKQTPLVRGLDSWWLEKMEGKKEYTP
+AEPIGDIHMPNNSILPFVMSLGLFVAAFGAMYRVDDKEWAIPVLVIGMLITLGAMFLRSV
+IDDHGYHIHKEDLLEDSDKGGKA
+>tr|A6CPX3|A6CPX3_9BACI
+MKSLLGNVSIDMIETILENAFEWLVVVDHTGRIIFMNQSYCDFLEVDREKAIGIHVTEVI
+ENTRMHIVAGTGKEEIADLQYIRGNYMIANRIPIVVGGKVVGAFGSVFFRDTSEWKQMSS
+HVKNLLSKMQSYIQDINNGAKYTLTDICGGSRSMQELKQKVQTIAPSDISVLIRGESGTG
+KELFAHSIHQLSERSQQPFIKVNCAAIPEQLLESELFGYEEGAFTGARKGGKKGKFQLAD
+KGTLFLDEIGDMPLNMQVKLLRVLQDGEVEPVGATETEQVDVRIIAATNRPLEKMIEEKR
+FREDLYYRINVIPFTVPPLRERVEDIPVLARKFMDKSAEKSGKRLKGLDPLVLEIFNRYS
+WPGNIRELENVIEASTYFTSDETITEESLPAYIKGDNSYKFGEKSLKEILEETEKKVITQ
+TLKKYDDRRSAAKALGISKSSLYEKIKKLGIE
+>tr|A6CNQ6|A6CNQ6_9BACI
+MDALVNKRIKQVLKGDQDAFAEVIELYKDKVFQICFRMLGNRHEAEDVAQEAFIRAYVNI
+HTFNQKRKFSTWLYRIATNLCIDRIRKKKPDYYLDAEVKGTEGLTMYSHVAAEGQLPEEE
+VEEMELQAEIQRQILKLPDKYRSVIVLKYIEELSLQEISEILDLPLGTVKTRIHRGREAL
+RKQLRNM
+>tr|A6CLP1|A6CLP1_9BACI
+MRNWSYYLSSCFLVFLLLIIWQIGASTYDKPFILPAPGGILAELWELKEILITRHLPATL
+LIILIGLTMSIILGVSLAMAMNFSRTVERAFYPILIASQTIPIIALAPIFVLWFGYSIWS
+KVVVTILITFFPITVSTFDGLKSVNKDLRELMLTMGAGKWAIFHNVSVPTALPYFFSGLK
+VAVTLSVIGAAIGEWLGAEAGLGYFSRRMMTQFNGAAVFAPIVLLSIAGILLFLLVTWLE
+TIFLKWRKSL
+>tr|A6CU24|A6CU24_9BACI
+MPILLLSIDGFHGQNTKKGGIIMKRVFLFLISAVVVTFAVFSLYPSYINSPAPSHKEDGH
+IDEAAVFSEVIEKKSFEDETTHYLEKVAFDYMMPDIEIKPSEIHSDSFVIVGIGDSLTLG
+TGSEGTKGYLDLIKRYYEKQTDQVVLVNHGVYGAQASHLIKMLDDPNMQKDIEQADVLFM
+TLGGNDLVSIFNHNFAHLTIGDFIKGEESFKSDLRKIMSTIRILNEDVPVYFVGIFNPVF
+ESLAEVKELDEIISSWNIATKNLLEMYPNTTFISIQHLFEEDTNLYLSEDLFHPNDEGYE
+RIGKEVISRTEELLMVQRNPL
+>tr|A6CM15|A6CM15_9BACI
+MSIETVKVGFIGTGVMGKSMALHLMKKYNNLHVYTRTKEKAQELLDLGALWSSSPGELAS
+SVDILFTIVGYPQDVKEIYFGEKGILENGKMDLIAVDMTTSKPSLAQEIYKKAKSRRIHT
+LDAPVSGGDTGARNGTLSVMVGGDQDVFEKAKPFMDSFGENIRYHGQAGSGQHTKMANQI
+AIASNMIGVCEALVYARSAGLDMEEVLKTISGGAAGSWSLSNLAPRMIAGNFEPGFFVKH
+FIKDMAIAMEEAERMELSLPGLSLAKDLYEELQSQGAGNDGTQALIKLWKE
+>tr|A6CQ54|A6CQ54_9BACI
+MHKPKKGESPFLFCEFRKKGEEFMRKFALITGASGGIGRQTALTLAQQGWSLYLHYHSNE
+QAAKKLLEELVQYDGEFIPVKADLTAANGAEVLLSQIFQVDAVIYASGRPLYGLFQDIMD
+QEMDEMWNLHVKSPMKILQGLLSKLLNSSIGSSVLVSSIWGQTGAACEVLYSTVKGAQIA
+LVKSLSKELARNNIRVNAVAPGAVNTDMMSSFSEEELSLIADEIPMGRMAEPIEVAQTIE
+FLLSEKASYITGQVISVNGGWYT
+>tr|A6CIT4|A6CIT4_9BACI
+MKKGDYELIKQINRRLILSAVRNQQPVSRAALSRELGLSKSTVSGIVDELIKKKLIIEEG
+QGESTKEGGRKGIQLFFNPKCSFGIGVDIGGTKILLVVTDLDGEIIFKEEHPTEKNPEKI
+VKLIYNFIDRSNTPLDLISAMGIGVPSIINTKEGIVVDAPALKWRDYRFLDFLKEKFEFP
+CFLNNDVNCAMYGELRFGAGRDCSDLLFIAIGTGVGSAVYANGQIVEGATFSAGEIGYLV
+DKSDVENGYKRVPGEFGAFENKTSGTALTKYGMTPKELFDQYYQGDREAQEIIKDFTLNL
+AIAIANASCLLNSSKVIIGGGVSRSMVGIIQHIQRLANQWTPFFVEIESSQFQTDAGAIG
+AVAYAFEMLESL
+>tr|A6CL09|A6CL09_9BACI
+MFELRINKFISEAGKASRRGADRLIEEGRVTINGKKAKIGDQVEPGDDIRVSGQQIRVAR
+NNVYLALNKPVGITSTTEKNVKGNIVDLVNHPLRVFNIGRLDKDSDGLILLTNDGDIVNE
+ILRAENQHEKEYIVSVDKPITPEFLTQMSEGVKILGTKTLPCKVEQLSKFDFKIILTQGL
+NRQIRRMCEALGYEVFRLQRVRIMNIHLGNLPVGQWRDLTKKEKQQLFRELDYEPKEW
+>tr|A6CUF2|A6CUF2_9BACI
+MEFLTRNEMKPLLDKAKVIAVVGLSDNPERTSYMVSKAMQDNGYEIIPVNPTIDEALGVK
+AVPTLKDIGKHVDIVNVFRRSEFLPEIAREFDEIDADIFWAQLGVINEEAYDFLKSKGYT
+VIMDRCIKVEHALTR
+>tr|A6CMS1|A6CMS1_9BACI
+MKMIKRNHLYQIAFMPNFFPVNCYLIEEEDSLTLIDAALPYCSDSILKSAGKIGKPLKRI
+LLTHIHDDHVGALDKIKASNPEIEVWVPKREERMMRGDRSLEQGESQKPIRGGVPKNLKT
+KADFFMSEGDQVGSLTAIETPGHTPGSMSFLDTRDHSLIAGDAFQTRGRTAVSGQMVIAF
+PFPALATWCKETAAESAEKIQNHNPTLLAVGHGRMLENPSAEIGQAIQSARQALK
+>tr|A6CS31|A6CS31_9BACI
+MLNKNQIEYCLTEMEQMFPDAHCELNHRNPFDLVIAVLLSAQCTDVLVNKVTKTLFEKYK
+TPEDYLSVSLEELQQDIRSIGLYRNKAKNIRSLCELLLEEYGGEVPQSRDELVKLPGVGR
+KTANVVVSVAFGEPALAVDTHVERVSKRLGICRWKDSVLEVEKTLMRKIPREKWTDTHHR
+LIFFGRYHCKAQSPQCEICPLLHLCREGQKRMKRKN
+>tr|A6CKK5|A6CKK5_9BACI
+MIILVAYNTKPYWEEHIDPSILEDTIAKLESFKEKPEVQDALAGISDRISSIIYGLEDSL
+QEVKEEVKEPNNDAEAVEVSKPELSKPEDQVFSVHNLEIGDTKEYVEQTVGTPVRSTVNE
+YGIEWHAYHQGYRNFLMVSFDENDQVSALYTNQDLIASDSGIGLNSSKDEVHKTLGEPIS
+KIRKGLVYYQLQNDGEYEMYQRDDSYITVFYDKHENNTVTALQIIDEDLEHAKKDIYSDG
+NDGLKEGFEYQLFDLTNATRVNHGLPVLTWDEHVRSTARKHSLDMADNNYFNHTNLEGQS
+PFDRMQEDNITFTVAGENLAYGQFSSIFAHEGLMNSEGHRKNILKEEYEFLGVGVAFNQE
+SQPYYTENFYRD
+>tr|A6CHZ1|A6CHZ1_9BACI
+MKEVIVIIAVFLDRDGTIGGTGGGVHPSEFSMYDFSPHAIKKLNELGIKVFLFTNQTRVG
+RGYFTEEELLKGLERMKGDLAEHSAFLDAIYYCPHKPDDECSCQKPKAGMLLKAKSEYNL
+KLEQCYIVGDTGSSDMAAAEAVGAKKVLVKTGWGISSLTTHRHTWQGIEPDAVTEDLVGA
+VEWIGNDLLLKG
+>tr|A6CHR0|A6CHR0_9BACI
+MTILAIAFGGFIGAVMRFAIGSFIKSRLQSRFPWATLMVNLLGAFLLGILLGAGVEGTSY
+AFFGIGFLGAFTTYSTFMVEALSLRKAGYKRESLLYLAISYSAGLVAAFLGLVLGIL
+>tr|A6CNV3|A6CNV3_9BACI
+MARGQFDESLQDLQSKLMELGRLANKALDASVKALEEQDIEKALEIIEDDTHADLLEEEI
+NDIAILLIAKQQPVATDLRRIIVTIKVASDIERIADFGVNIAKSTIRIGKEPLIKPIQNI
+KKMYQLTSNMINLTLESFVEEDVVKAKKIADLDDEIDDLYGETIRELLTLNKQKPEFTDQ
+ITQLSFVCRYLERSADHATNVAEGVFYLVKGRRFDLNS
+>tr|A6CS74|A6CS74_9BACI
+MRKQVRNRDKQLMQVIDEKFKEFQRKHNIKFNNEKLLRQAFTHSSYVNEHRKKPYEDNER
+LEFLGDAVLELTVSQFLYKKYPTMSEGELTKLRAAIVCEPSLVTFANELKFGELVLLGKG
+EELTGGRERPALLADVFEAFIGALYLDQGLEPVLSILEENVYPKINSGAFSHVMDFKSQL
+QELVQRDSAGTIEYGILQEKGPAHNREFVSRVCLNGEELGIGTGRSKKEAEQHAAQMALE
+KLKNKLEEN
+>tr|A6CQZ5|A6CQZ5_9BACI
+MLTDRQLLILQVIIDDFIRSAQPVGSRSLSKKEEISFSSATIRNEMADLEEFGFIEKPHT
+SSGRIPSEKGYRYYVDHLLSPVQLEKKDVKTIRSIFAERIYEMEKVVERSAKILSELTNY
+TAIVLGPEVKENKLKKIQIIPISQETAVAIIVTDTGHVQNRMFTIPKAINSGDLEKLVNI
+LNERLAGVPVTELNDKIFKEVAQLLKQHIENYDLMLHSLVNTMDLPVNEKLFFGGKTNML
+NQPEFHDIQKVRLLLNMIDQEDGIYEMIKHLPNGLNVKIGKENNVTAMENCSLITASYSV
+ADEKVGSIAILGPTRMEYSRVISLLNFLSDDMSKALTKLYQS
+>tr|A6CPB5|A6CPB5_9BACI
+MNQLNNIRLDREEIRTLKLFLSLFYFFLIAYDVFYYYIFTYYENKEMGLPDGGLGFWYHI
+TLILLLPVSIYLANKGRVYFVKYLYLLAFIVVDIVSNLMIYLGSDTVFQSGHIVEIIFIL
+FSPIFINKRFFWFTSIGMILKYAILGIILSAVQVSIPIVVFVVISIVSYLFLSRFHSNLE
+TRLRLNDQLREKEKLAVIGRFATSISHEVRNPLASLKGFTQLQHEKHPEDSEYYTIMTNE
+IERISSLLDDLLVIGKPKGLNLKSHDPKDIIEYVVKLMESDANNQNIQLTGEIKSGLPKI
+DCDEKHLKQVLINLIKNAMEAMPAGGEVTVKAEMGEEDTVLLSIRDEGEGISKENLEQLG
+TPFHTTKSDGTGLGLMVSFKIIEEHSGTIRYDSVEGQGTTVSITLPIKQLIS
+>tr|A6CIW0|A6CIW0_9BACI
+MLLGAVFLEPSVIHDITLKPDYFSQVRNRVLFKAMKSLQSKGKEINPVTLVDELGDGIEN
+VGGLSYITDIACCCPSISGIDHYQKIVLERYRIRKLQESASYFLNDPSIGKAEEFYQVYV
+DTQELVLEQQGKKGDALYEIIESFYSEPEDLGVPSGFQHLDVMTGGFKPGELIIAAGRPS
+MGKTALVLNLAMNAALHGSTVDFFSLEMSEKQLYHRLLSRMAQIDASKLQNPYKFCTEDD
+RKRANEAMNTCYKLPLQIYDQGRQTLDSIRARIQKTRREIEGGSYLVVIDYLQLIPIEGK
+FDRHDLAIGAITKELKHMAKQYKVPIILLSQLSRAVEQRGDKRPMMSDLRDSGSIEQDAD
+IVMLLYRDEYYNRNTEERVTEINLAKHRNGPVGTVKLNFIKEYSWFCSS
+>tr|A6CRD8|A6CRD8_9BACI
+MVQLIYYSIEALADSIVKKAVTKNATDVHLFPRKADYLMQHRRNGILTPNVSIPIPEGER
+LISHFKFMASMDIGEKRKPQSGSFTFHLGNKPLDLRVSTLPTSSLKESLVIRILPQQKSL
+PVEKLALYPSSARKLLALLMNSHGLIVFTGPTGSGKTTTLYSLVEHCSSVMQRNVVTLED
+PVEKYNDSLVQVQVNEKAGVTYAAGLRAILRHDPDIIMVGEIRDEETAEIAIRAALSGHL
+VLSTMHTKDAKGAVYRLMELGIEWHEIQQSLIAASAQRLINLICPFCGDTCSENCTRNPG
+SNRASVYEIISGKALEQVMKEAKGELVNYQYPTLTDLLQKGYALGYIPLKELNRWKLE
+>tr|A6CSD7|A6CSD7_9BACI
+MKVFLDLMWFFKQEKKSYLTGIAVLLVVAVLQLVPPRLIGIVVDSIKQGELTSAELLQWV
+GILAAAGLSMYGLRFIWRIMIFGSAVKLSKLLRNKLYHHFTKMTPSFYQKRRVGDLMAHA
+TNDLQAIQMTAGQGVLTFVDSLATGGFVIIAMAATISWKLTLIALIPMPFMALLTNYYGT
+LLHKRFHKAQEAFSDLNDKTQESVSGIKVIKTFGQEKEDIESFRSKSEDVVQKNISVARV
+DSLFDPTISIIVGISFFLSVAFGSRFVVTGELTIGELVSFTTYLGLLIWPMLAFGWLFNI
+VERGRASYDRVSSLLSEKVEIEDSEDALDVRPTGDIEFNLEHFTYPDEEETVLKDIHFTL
+RRGDTLGIVGKTGAGKTTLLKVLIREFEDYQGTVRFGGRSIKDYKLEKLRESLGYVPQDH
+FLFSATIAENIAFTNPTAVQQTIEDAASLAHIHEDIKTFTDGYQTVVGERGVSLSGGQKQ
+RISIARALLMEPEVLLLDDSLSAVDAKTEESILKALKENRQDKTTIITAHRLSAIQHANL
+ILVLDNGEISEKGTHEELMKNDGWYREMYLRQQLEELVEHGG
+>tr|A6CT20|A6CT20_9BACI
+MNIKKQKLIRLTLSYIVIAIMFAVILYPVAWIVGSSFNPGQSLSGSSIIPKNATLAHYKE
+LFDLGQSDYLIWYWNSLKVSLSTMTLTVLMVSLTAYAFSRYRFVGRKNGLMTFLILQMIP
+NFAALIAIFVLALVTDLLDTHLGLILVYVGGQIPMNTWLMKGYLDTIPKELDESAKMDGA
+GHFRIFFQIVMPLAKPIIAVVALFSFIAPFADFIIASILLRSEDKYTLPVALYDMVAKQF
+GAEFTTFAAGSVLIAIPIAVLFLYFQKYFVSGLTAGGTKG
+>tr|A6CNL2|A6CNL2_9BACI
+MQRLNKFIFITALLLVVVLLGLVFRDTFIPKEVNVKTETASVSEQIENVLSEATGEEEQL
+EADDIIEPTSSITEEIKENVREVIKGVINLFNKDLKIVSIGDSLTQGVGDETKSGGYVGI
+LNHTFEDNQLKISLENYGKRGNRTDQLLKRLEDKEIARSIKEADIVLITIGANDIMKIVK
+SNFIDLKVETFEREQQGYTDRLRAIFDKINDLNPDTKIYLIGFYNPFEGYFGDIKELEVI
+MRGWNEAGKTVTEEYDNVNYIPTSDLFEGSNLELLAEDYFHPNTSGYKLIAKRVLEYVEE
+ISLETETEETEE
+>tr|A6CQ76|A6CQ76_9BACI
+MINKYTCSNGLRIVLEEIPTVRSVAIGIWIGTGSRHENKENNGISHFLEHMFFKGTETRS
+AREIAESFDSIGGQVNAFTSKEYTCYYAKVLDNHAKYALETLADMFFNSAFDEEELKKEK
+NVVYEEIKMYEDTPDDIVHDVLSKAVYENHPLGYPILGTEETLDTFNGQTLREYMHNMYT
+PDDVVISVAGNIDASFIKEVEKLFGQYEGGKGHEQNAKPSFHHNKVSKKKETEQAHLCLG
+YPGLQIGHDDIYSLIVLNNVLGGSMSSRLFQEVREQRGLAYSVFSYHSAYEDSGMLTIYG
+GTGAKQLNQLFDTVQSTLATLKAEGISSKELSNSKEQLKGNLMLSLESTNSRMSRNGKNE
+LLLKKHRSLDEIVDEIDGVTIDRVNNLGNEIFNNDFSVALISPDGEMPTNIKNS
+>tr|A6CKW9|A6CKW9_9BACI
+MKKVGITRSIHLKFVLIYVLLILLAMQIISVYFVRELEDKLITNFTSNIEENVSFLKYNI
+KEEMLKERTDKDLSLEDDIDRILRDFRGSDVSEVRVIDSKFRILGSSREDNLDAVGQRAT
+DTMVKRVFATGKEIDEAYIDNETGNRIWVYTSPIINGKDEIGAIYLISKIENVYQQLEEI
+NEIFSTGTVIALAITAILGVLLGQTVTRPISDMRKQALAMAKGNFSRKVKVYGYDEIGQL
+AITFNNLTKRLQEAQATTEGERRKLSSVLSYMTDGVIATDRKGRVILINDPAAKMLNVSR
+ETVLSQPLVSLLGLDENYTFEDLSNEQDSIILDYSTKEQPYILRANFSVIQKETGFVNGI
+ITVLHDITEQEKIDMERRDFVSNVSHELRTPLTTMRSYLEALAEGAWQDEEIAPRFLSVT
+QDETERMIRLVNDLLQLSKMDSKDYRFNKEWIEFVGFFHQIIDRFEMSKNQNVTFKRQLP
+KTALFVEIDKDKLTQVLDNIISNALKYSPEGGLIAFNVVEKDKMIVVSVSDQGLGIPQDN
+LSKIFERFYRVDKARSRQMGGTGLGLAIAKEMISAHGGNIWAESKEGKGTTISFSLPYDS
+TQEDEWL
+>tr|A6CTS3|A6CTS3_9BACI
+MKNKVVVITGASSGLGVEFAKQFAGRSYDLVLTARSEDKLNNLAKELEGKHGIKAHVIPI
+DLSQHGSAKTLHEKVVSLGLTTEILINNAGFGLFGEFEDTDIQKEVDMIEVNITALTELT
+KYFGKEMVVGNTGKILNVASVAAFQPGPLMAVYYATKAYVLSLSEALSNEWKDKGVKVSV
+LCPGATETGFSNSAELNQSKLFQGDVMQAEEVVEEAVKSLLETNKTVVIPGMKNRVLVNS
+VRFMPRKMVTSVVRKVQERI
+>tr|A6CTH5|A6CTH5_9BACI
+MEKPLKTITVLGAGSWGTALAMVLADNGHTVNLWGHNAVQMEEINSKHTNEKYLKNIQLP
+KGIKGFTDLETALESVETVILAVPTKAVREVLQKVKNTVSRALTIVHVSKGIEPDTLLRI
+SEMIEEEMDETTLKDVVVLSGPSHAEEVSLRHPTTVTVSSKNMEAAELVQDLFMNQSFRV
+YTNPDVVGVEIGGALKNIIALAAGITDGLGYGDNAKAALITRGLAEIARLGSKMGANPLT
+FSGLTGIGDLIVTCTSVHSRNWRAGNQLGKGMKLQNVLDEMGMVVEGVRTTKAAHQLAEK
+YNVQMPITQALYDVLFNDVPPKQAVDLLMGRMKTHEMEDLFNILGEKMT
+>tr|A6CPY6|A6CPY6_9BACI
+MLKKVSCFSAFLLFTATPALAAPTAQSVQTSVDGMWVMVAALLVFFMHAGFAMVESGFTR
+SKNTLNILMKNFLTISIASILYFLFGFGLMFGSSANGLVGTDGFLLAGREDIGFFVFQAV
+FAATCATIISGAVAERMKLSSYMLITVVITGVIYPVVGHWVWGGGWLSELGFIDFAGSTV
+VHLSGAAAAFIAVLFLGPRIGKYTNSKVNVIPGHNIPIGALGVFILWFGWFGFNGGSTLA
+ADPELVPRVITVTLLSASAAVLSSAFYTAFRYKRIDPSLTLNGALGGLVGITAGCANVSI
+GGSIIIGLVAGVLLVEGVRFIEVKLKVDDPVGAIAVHGLCGIWGTVAIGFFDVTNGLFYG
+GDASLLGVQALGVAAVVLWISISIGGVIYLINKVDSIRVSSEDELAGLDFSEHGATAYEL
+NETVLTSHSNQPNTAFGKELVRKLDGLSVTPTKKQYH
+>tr|A6CKR8|A6CKR8_9BACI
+MISLINEEVLATWISDSFSFAVTYLGAFWQLLLLGTFLIGLGLAVSKTGTVRLGKLDSPE
+IGYFRWMAMVLCTLLASGGVFWAAAEPMYHFLSTPPLFAEEGASPADAVIPALAQSYVHW
+GFLAWAILGSLTTIILMYAHYHKGYPLKPRAILYPIFGEKIYNSWLGTLADVVSIIAVSA
+GTIGPIGFLGLQVGYGLHSLFDVPNTLATNIFVILALVAIASISAATGIERGIQWLSRVN
+VSLTVVLMIAILILGPTMFIIDAFIGAESFHIQNFLRMTLYRADNDWLGWWTVFFWGWFL
+GYGPMMAIFISRISRGRTIRDIVIGLSVVAPIVSNFWFTVVGGSGIFHEIQKPGSISTAL
+NESGMPAAVIAIMNQIPFGYALSIGFLIVTIVFVATTADSMSYTVGVAITGSDNPAKWIR
+VFWALIFGALAIVLLSIGEGSIGTLQNFIVVTAVPVSLLLLPSLWLAPKVAREMLVEQER
+TKL
+>tr|A6CS71|A6CS71_9BACI
+MGKIAFVFPGQGSQKAGMGKELSEKFPQVEEYFKKADQRLGFDLSTLIFEGPQDKLTLTE
+NAQPALLTTSIAFLQMLESEGVKPDYTAGHSLGEYSALVAAGAISFEDGVYAVRKRGEYM
+EEAVPAGEGTMAAVLGMGRDQLSEITERISAEGNHVGLANLNCPGQIVISGSFRGVELAS
+DLAKEEGAKRVLPLQVSGPFHSSMMKPAAENFSGVLDEIAIRDAEVPVIANVNAEPMISA
+SEIKERLIQQLYSPVLWEDTVVKLLDAGVDTFIEIGPGKVLSGLIKKVNRRVNTFSISDE
+ESFRDTVEKLKEAAQ
+>tr|A6CUD4|A6CUD4_9BACI
+MPGDKGGEKMKQLTAKEVETLVEEGKSLNLIDVREVEEVEAGKIPGAIHIPLGLLEFRMN
+ELDKSREYIMVCRSGGRSGQASQFLES
+>tr|A6CU59|A6CU59_9BACI
+MKILGIDTSNYQLGVALVNDDEVVGEYITNIKKNHSLRAMPAVEKLMQECNVKPAELDKI
+VVASGPGSYTGVRIGVTIAKTLAWTLNVPVVGVSSLAVLASSGRYFDGVISPLFDARRGQ
+LYTGLYRFNEGKLVCEKEDANLPAEEWAEILSRYDEKVLFVGHDVKIHQEVLQSKLGDQA
+VIADMTSHNPRPSELIRLGMDISEEPVHGLVPNYIRLAEAEAKWRESQNSK
+>tr|A6CI13|A6CI13_9BACI
+MIIKRLIRNPQFLTGFIFLFGLFTASLVYYWFSGDQVPRTGLLKGEDGEYLRPPYSPLEF
+PPLGTDNFGHDVFLLMLTGAKYTIGAALLIAFLRVVPSVLIGLAIHFYFYKMKKLFASIV
+DAFNYFPTTLLAFLLMQWVMMYGPLMNPETFDYSFSDKLFIYITILVGISMPSVSLLFSN
+EIETIMKKQFIESAKVLGALKRHFILLHIRPYLVPQIYIVFLREFISVMILISHLGVLGI
+FMGGFEIETDVFDNNKMLSLSHEWSGSLGAWWEFLWTTYPWIAFIPVLFFTLTVLAAKMM
+LLGLTKALEEAEEIPAGNEKYGNHSLNTKEKFELVNEKVK
+>tr|A6CJI6|A6CJI6_9BACI
+MKLVPSSGGAFEVNVNGEKLYSKLETGVFPDIDEMIDLIHNK
+>tr|A6CP14|A6CP14_9BACI
+MKKLDLRGGRTMDKLVVIGSGVMGRGIAYVSAVGGFQTTLVDVEQRQLDSAQGELTSIFQ
+KGVDRGKLSKEESTDAQGRLSFSTDMAKAVESADLVIEAVPEKTEIKKAVFEKIDEYAQE
+SCYFATNTSTMSPTEIASFTGRPKKVIAMHFFNPVHKMPLVEIVRGLETSDETTQFAENA
+AKRMGKETVVINEFPGFVTSRISALVGNEAFYMLQEGLGTPEEIDKAIKLGLNYPMGPFE
+LGDLVGLDARLNNLKYLHEKLGEKYRPAPLLEKYVKAGRLGRKSGRGVYDYTK
+>tr|A6CRQ7|A6CRQ7_9BACI
+MLFISIERKNLMIMWFANFFVAASATMVLPFLSLYLETFGNYDSAFVQRWSGYVFGITFL
+IAFFISPVWGRVGDKYGFKPILLITGYGISLSIFMMGFVDSVAGLFLLRMAMGAVTGFIP
+TSLALISAQTPKEIAGKTLGTLQMGTVSGGLFGPVLGGLMADAFGFSYTFIITSIAIALA
+ATGVLFGIQEVRNTSKSSAEKKRYSSKEVLQHIVRHKLLLTVMIISFIIQVANFSVQPLL
+ALYVDELTAATNIAFLAGLAFSATGVGNLLATRKWGKLGDEIGYEKVLSILLVLACVFII
+PQALSENLWQLVLFRFLFGIAIGGMIPSVTAYIRQEAPLSMQGEVLGYNQSFRFLGNVAG
+PVLGGVLSGFAGISSIFYITGALFLAAFGLLWWSMRHSESYVNEPF
+>tr|A6CTN1|A6CTN1_9BACI
+MAKENSFDVVSQVDFPEVTNAVTAALKEIKTRYDFKGSKSDISLDKEEIILVSDDEYKMD
+QLKDVLISKLIKRGVPVKNLDYGKMEGASGGTVRQRAKLVQGIGKEDAKKINTLVKNSGL
+KVKSQIQDDQIRVTGKSRDDLQQIMAAVREADLSVDVQFVNFR
+>tr|A6CHR3|A6CHR3_9BACI
+MPEGKWFRRGYAVVLLLLIIYLGTLVDFIFKPLTVLVTALFGPIVLGGILYYLFRPLVNL
+LAKKMPRAVAILLLYLAVIGLITGVVFYAGPILQRQISSLIENTPQLIEKFRQTLLNLQQ
+SEWVSRFQNGDRFSLEDITNRLTDYLNEAASTLGSNLMNILSTITNIIVLIILIPFVLYY
+MLKDGNKLSGKILKLVPKKHEEEGKKVLSDMDDALSSYIQGQVIVSFCVGVLVYIGYLII
+GLDYSLVISILTMLTNVIPFIGPLISSIPAIIVAFLQEPIMALWVIVVILIVQQIEGNLI
+SPQVMGRKLDIHPLTIILLLVAAGKFAGFLGLLLAVPAYAVLKVIFIHVYRFIKLRTDL
+>tr|A6CIM4|A6CIM4_9BACI
+MKGDEKMKIKSILISLLLMISVFSSSWAHEASSNSMDSKAVVDENLVEKLVSALEPVEVI
+VTFKDGVLDNRADILKKAGINAGISFESLPMAGVLATKSQVEKLAESSEVVSIYLNQALE
+YENEDATSITGVDEVRTNSAWTKENGGFPVAGKGIGVVINDSGVDGTHNDLKYGSHLVQN
+VMGSTNLNALSGILPVTYTENVPNTDNNSGHGTHVAGIVGGTGAMSGGKYEGAAPAADLI
+GYGSGAGLAMLDTIGGFDYALTHQREYNIRVITNSWGATSQAGQAFDPYDPINIATKKLF
+DRGIITVFSAGNSGPDAATISGNYKKAPWVVTVAAGNDNYELADFSSRGEKGKGGTVVVD
+GMEWTWSDRPTITAPGVDIISTRVISPLVALGAAKDVQNIDPAHIPYYTTMSGTSMAAPH
+AAGVIALMLDADPTLTPLEVKSILEETAKPMPGYEAWETGAGYIDAYKAVEKAFGLK
+>tr|A6CKE3|A6CKE3_9BACI
+MASHQELYDAESMLLGAVFLEPAAINDIILKPEHFSQSRHRVIFTAMRDLQRDGVEINPF
+SLVNHLGAEIENVGGVTYFTEISLCCPSVSGLEHYQEVVLKSYRIRELRKSAAHFLNHSS
+AETAEAFYQRYVETQELRLEKGDRKGEALAEIFESLYSEPELGGISSGYENLDGLTGGFK
+PGELIIVAGRPSMGKTAFVLNLAYNAASKGTIVDFFSLEMSEVQLYQRMISRMVCIDASK
+WQNPSRIFSEKETQKANEALNTCYNMPFQIHDQGRMTLDEIRARIQKTRRENENAPCLVV
+IDYLQLIPIEGKFERHDLAIGAITRELKQMAKQYKVPIILLSQLSRSVEQRQDKRPMMSD
+LRDSGSIEQDADIVMLLYREGYYKQDSKELKTEINLVKHRNGPVGTVKMNFIKEFSWFAG
+G
+>tr|A6CIK3|A6CIK3_9BACI
+MIDYRIKSREGFTEKIGELVSMLDHTRAVTLEEIKDLSQEELDYSVDEGANSIGALLLHI
+ASIEFVHQVISFEERDLNEVELQQWKTALELGEKARLEIRNQPLEYYLSELTKVRKRRSA
+N
+>tr|A6CRY2|A6CRY2_9BACI
+MLEQFFLEDIGDGDLSTQALFMEKDYSTFHFVVKEAGVFCGKDVIISGFSILNPDIDVTT
+YIADGEKVEPGTVIAEATGPAADLLQAERVILNLVQRMSGIATVTAEVVNLVSDHPARIC
+DTRKTTPGLRMLEKYAVRCGGGFNHRNGLYDAVMLKDNHISFKGSINAAVNEVKAALGHT
+VKVEVEIETRDGLREAVESGADIIMFDNRTPQEIAEWLEDVPPHIITEASGGIQKENVAD
+YARTGVQYISLGFLTHSVKGLDISAKVLNEQGGIESEFITDVKE
+>tr|A6CJ23|A6CJ23_9BACI
+MNESINSKKNLSFKQLLAFAFLAICCIGSIFFVFHNQEFYDRPIAEVVSSTIVQETEAED
+MNGNKDALFVQEIAGEIKNGEFEGKKIRLTNEFSSSGAYDQKYQTGNELFVSFDKDSLET
+GEELRGTIQDVKRDQYLMIIAWVFILLLLFVGKKQGLFSLFSLAINALILSYALDIYVSS
+GDVSLIVVCSAAVILFTGISLLLVNGFNEKTYAAVVATLIVTFATLLISYIVVEASAGKG
+LHYEEMQFLTRPYKVVFMAGILVGCLGAVMDVAITLSSSIFGLYEKNHTISIEALKKSGF
+DIGKDIMGTMTNILFFVYISGAIPMLILFFKNASPLGFTLSLNLSLEVARALTGGIGIVL
+TIPIGIYTSIFFINRKRAKI
+>tr|A6CQ03|A6CQ03_9BACI
+MNHNLPVKPQDATWTDDQWKAIWAKGRDILVAAAAGSGKTAVLVERIIQKILDKEDGINV
+DELLVVTFTNASAAEMRHRIGEALEKAISADPNSYHLRKQLSLLNRASISTLHSFCLEVI
+RKYYYLIDIDPGFRILDDTEGELLRDEVLDELFEEEYGKEDNDSFYKLVDTFTNDRSDAA
+LQDMIRKLYDFSRSHPNPDEWLGNLVEMYDVDEDANIEDLAFIEALKFDIMLSLKGAQAL
+FQRAYDLTKEPGGPAPRAENFLDDLGIAEQLSASFQKSWSEGQALFQSIKFSRLKPCKGD
+EYDSDLVEEAKTLRDKGKKMIEKLAEDFFSRKPETYLRDMKKMRGVVASLVEAVRGFSHK
+FNALKNEKGVVDFADLEHYCLEIMTDPAEDGELKPSFAAMEYRKQFKEVLVDEYQDTNLV
+QESILGLVTADEEALGNLFMVGDVKQSIYRFRLAEPNLFLSKYNRFTPSGAETGMKIDLS
+RNFRSRLEVLEGTNFLFKQIMGVNVGDIEYDHEALLVKGAAYPEDEKYPIEVAVINQSDD
+EVPLAESASDLEGLVYDEADLEKSVIEARYMAQKVKELISEGKQVYDAKAGRHRKLQYRD
+IVILLRSMPWAPEIMEEFKKHGIPIYANLSSGYFEATEVAIMLSLLKVIDNPYQDIPLVS
+VLRSPIVGIDEEGLAEVRIHSKSGTYYEAVQRFVSKKQSEVNNEEAHEKLSRFLSSLTIW
+RTKARQGSLADLVWQLYRDTRFYDFAGGMPGGKQRQANLRALYDRARQYEETSFRGLFRF
+LRFIDRMRERGDDLGAARALSEQEDVVRMMTIHSSKGLEFPVVFVAGLSRQFNLMDLNQS
+YLLDKEFGFASKYLDPEKRISYPSLPQLAFKRKKRLETIAEEMRVLYVALTRAKEKLYLI
+GTVKDAEKSMKQWKEAAPQTDWLLPDYERAKALSFMDWVGPALVRHRDCTALNEGRSSVH
+SLPPEIHEHPSCWKLDVIPKSQFMLQEGEDAEEEIDWQENVKEGLPVEKESPEKEEVAER
+LSWRYSYPEAAVLPSKQSVSEIKRMFEISDEASSDRMVRKIQKPVFRRPKFLQSKQLTPA
+EIGTAMHMVMQHISFSECPNEKSLQSLLDDLKQKELLTEEQAEAIDQNKILAFFRSDTGQ
+RVLNAHELHREVPFSMAVPVQEIDASASADESETVLVQGIIDLIFRDEHGLVLLDYKTDT
+IDERYKGGYDEASPILLERYRVQIGLYTKAIERIWKETVNERYLYFFDVARELKVEKE
+>tr|A6CMK4|A6CMK4_9BACI
+MIALISRRIIQLVLLLFGISFLVFGSMHLAPGDPATIIGGPTASDSDIAAIRDSLGLNEP
+FLVQYWDYLKNILQGDFGYSYQTKQSVAEAIAIRFPNTLNLAIASMIVAVVIGVIAGIIS
+ALKQNSWLDVTSTVFALGGISIPNFWLGTILILVFAVNLQILPVGGLSAPFWTVEGMKQL
+ILPAITLGTGSAAMIARMSRSSMLEVIRADYIRTARSKGVKEKTVIWIHALKNSMIPVIT
+VIGLNFGFLLGGTIITEQVFAINGVGRLMIDAIAARDFPMVQGSVLLVATLFVLVNLIVD
+IVYVFIDPRISYD
+>tr|A6CTZ3|A6CTZ3_9BACI
+ALIAAAVGASLAIAGVLMQTLTKNPLASPGIFGINAGAGFMVVIAVTLFNVSNLQSFTWL
+SFLGAAMAAVAVYIIGSAGREGLTPMKLTLAGAAITALFSSFTQGFLVLNEAALEQVLFW
+LAGSVQGRSLDILYGVFPYLLAGWILALLIGNKLNVLAMGEDVARGLGLKTGLIKLVSLI
+IVVLLAGGSVAVAGPIGFVGIVVPHIARRLIGVDHRWLLPFAGLTGGVLLLTADIGARYI
+IMPQEVPVGVMTAVIGTPFFIYIARKGF
+>tr|A6CNF4|A6CNF4_9BACI
+MKLNTGLWQRQSLKLNMTQQLTQAIELLQYSSQELNAYLESKALENPLLQLEPVSYEERT
+RKRNQEYNGMSIDWIEEIAVQQHSLWEHLNAQLNLKTLNHEDRNTLSLLFDSLDENGYLP
+SNIESLFRVSDLSTYIEMLQSLEPAGIGARNLKECLLLQIQRDTEAPEHAHSIIEHHFAA
+FCEKTWKTITKELGITLSDIQLTADYVKTLNPRPGARFTSEAPQYIRPEMNVTRSKDGLE
+VQLVDGSVMKIKYNSEYDELIASSKDKEGLKFMRDKKQEFQWLLKMLDQRKTTLMKVGKC
+LVERQEAFFRYGPKELKPLTLKEVAETIGVHESTISRAVRGKYIGTPCGTYEMKALFVSG
+VGKDEDAVSSEGIKAEIMQMVTTEDKKKPLSDQAIAVMLQEKGLHVSRRTVAKYRDQLNI
+PSSTRRKRYE
+>tr|A6CP98|A6CP98_9BACI
+MSEKLDLSQFEKKMIIRQTRHEDIKDIIQMQSVCFQGMEPWKPEHLESHLDIFPEGQLVA
+ELEGEIIGSCSSLIINFDEYDDRHSWDDVTDNGYITNHNPEGYNLYGIEVMVHPEYRRMK
+VGHRLYEARKELARQLNLKSIIIGGRIPNFHKHAEEMSPREYVDSVSRHKIYDPVLSFQL
+MNGFTLMRINPNYLPDDVKSQKYATLMEWNNVDYRPSSKRHFKTSYPVRICVVQYMMRKI
+SSFEEFANQVEYFTDVASDAKSDFVVFPEIFTSQLMSFLDEKSPSMAIRKLTEFTEEYIE
+LFTDLAVRYNVNIIGGSHFVKEEDDEIYNIAYLFRRDGTIEKQYKIHITPNERKWWGISP
+GDRVKVFDTDCGRIAIQICYDIEFPELARIATDRGAKIIFTPFCTEDRQGYLRVRYCAQA
+RAVENQIYTVISGTVGNLPQTENMDIQYAQSGIFAPSDFEFARDGIVGETNPNIEMVMIG
+DVDLEVLRRQRQSGTVRQLKDRRHDVYEVKYKK
+>tr|A6CT60|A6CT60_9BACI
+MHHENPTAEFLGLTFNLANVLMITVASAIVFLLAVVSTRRMAMKPTGIQNFMEWVMDFVK
+NIIKSNMDWKTGGRFHILGITLIMYIFVSNMLGLPFSVVIDHELWWKSPTADPTIALTMA
+VLVVGLSHYYGVKMKGFGEYGKDFFKPMWFLFPLKVIEEFANTLTLGLRLYGNIYAGEIL
+LTLLAGLAVTGVGGTLAAIVPMLAWQGFSIFVGAIQSFIFVMLSMVYISHKVSADH
+>tr|A6CKE6|A6CKE6_9BACI
+MAIITVDFDGTLYQGNSFKAMFSVGKETFTAKQWAIVAVGLAKAAAGGLLKGKNKFRHDF
+FRSFAKTFRGKTTEELDLFFQELVNHGKEEVHHTLVSRIHDHQKNGDTVIVLSGALQPFL
+KAFINHLQLNDVHVLSTELQFDQNGKCTGEIGHIVNGDVKVTKLQEWINQQQHLTENPPK
+EIWAYADSESDIPLLHYVSNPVLVNPKEGMVKVAEENKWSIFA
+>tr|A6CM11|A6CM11_9BACI
+MIEDKGILLESGTNELEIVEFEVGNNKYGINVIKVKEIIQPLPVTVIPHAHPFMEGIIQL
+RGEVLPVIDMMKVLGVQGRNENKQDKYIVAEFNQLRVVFHVENVTQIHRISWDQIEKPSN
+MYQGSSSKVIGVIKKGEDMLLLLDFESIMAEVNPDSGIRVSEVKKLGKRTRSAKKIVAAE
+DSPLLRKLLNDTLAEAGYENVEFFENGKDAYHYLISLASEGRIEDEVNLVITDIEMPQMD
+GHHLTKRIKEDAKLKHIPVIIFSSLITDDLKHKGERVGAQDQVSKPQINELVLKIDKHIL
+>tr|A6CLQ7|A6CLQ7_9BACI
+MISVDKKRKEKTKSALSSMQEVTYSREFKRADRAGGFTQKKH
+>tr|A6CSV0|A6CSV0_9BACI
+MVLLFLSGCSVNEEERDDSRGALIKVTDPPPIELVENPETDSIGHAVKKEIAKLHELYDV
+AVIEGKKEILVSYKVKHSHRFHMKKIEKKMKKKLEKKFPDEEFIVSSDYKIFLETVRLKE
+KIDEKHISNKEAEKRFQEIIKLKEELT
+>tr|A6CIU2|A6CIU2_9BACI
+MKTIISADFFSVNQNHYYLQIVIITIYYFVRIKKEDTYEEKMDDFI
+>tr|A6CHU3|A6CHU3_9BACI
+MKKTYDCIIVGGGIAGLQAAIQLGRYQHDILVVDSNDGRSTICRCYHNLLGWPDGVSGEQ
+LRSLGRQQAESYGVEFQFDRIVKARNDKGEFILDGEDGKHYVARKLLLATGVMDNIPKIE
+NLKPCLGLTVYVCPDCDGYEVKNKKVVILGSGETGAEMAITLNYWTDDITFVNHESREIP
+EDTRAKLTDRNIRYVEGTISEAIVEGESDFRGIFLENGEKVEGERGFIAFGGNKVHTELA
+EQLGVEIMDNKHINADPRSKETNVKSVWAAGDIVAHSEQVSAAMGDGSIAAIWIHKKLLS
+EKDFS
+>tr|A6CJN7|A6CJN7_9BACI
+MHHTNKENFSGRNDEMTLTQQQLSAFRSTLKELEKNINKRQEDNDKFDLNQGHPHETTGE
+LSSYDNHPGDEGTALYEREKDIALHQHLDYELENIQKALTAMDKGNYGKCMVCGQEIPAE
+RLEAIPTTLYCKEHSLDQTVSHNRPIEEGVLLPPFGKFFMDEKNEDTAFDAEDSWQAVAE
+WGTSESPSALMNPPDNYNDVYVDYEENVGYTEEFENFVGTDIEGRNVTVYPNKQHEKYED
+ALDEEGTMTTFGDLPAYEHDPYVEE
+>tr|A6CJT0|A6CJT0_9BACI
+MKKIIVMGAGILGASTAYHLAKEGTDVIIVDRRHAGQATDAAAGIVCPWLSQRRNKAWYH
+LVKGGARYYPSLVKQLEEDGEVNTGYKKVGALSLHQDEDKLEKMAERAIKKREDAPEIGE
+VKILSREETRKLFPLLAEEFGSVYVSGGARVNGRAFRDALLNGALKHGARHIHGHGSLIF
+EKDSVRGVQVEGEHLQADEVVVTGGAWASELLAPLGIKFKVSFQKAQIIHFQMNGMETDS
+WPVVMPPGNQYLLSFEDGRIVAGATHEDETGYDIRPTAGGMYEILDKAIKIAPGIQNGTV
+LETRVGFRPYTPGFLPVVGRAPKYSGLLLANGLGASGLTSGPYLGAELAKLALDKETELN
+LNDYPVGDALEEGNA
+>tr|A6CRC4|A6CRC4_9BACI
+MKKMVEVYIDGASAGDPGPSGAGIYIKNSGENHSYSIPLGIKENHEAEYLACIKALQICK
+EKHFNVLSFRSDSQAVVNAVEKEYARNKKYKHLLEEILFLSKEFDLFFIKWIPSKENKRA
+DELARKAVHMNEAQDE
+>tr|A6CTP0|A6CTP0_9BACI
+MEIDLMSMDKHLIVLDLDGTLLTDEKKIPEKTKQTLHKAREHGHEIMIATGRPYRASEMY
+YKELVLNTPIVNFNGAFVHHPLDENWGVFHEPMEVEVAKEIVQACHDFDFNFRNIIAEVM
+DDVYFHYHDERLIDVFNFGKPNVTTGDIRSYLKESPTSMLIHADEEHVTEIRDHLSNVHA
+EVIDHRRWAAPWHVIEIVKSGLNKAVGIEKVARHLDIPQDRIIAFGDEDNDLEMLKYAGI
+GVAMGNAIEPLKSVADDITLSNEEDGIAAFLNSHLRLG
+>tr|A6CSZ3|A6CSZ3_9BACI
+GWLTADDSSSLSIVFYLLAFVIGGFAKAKEGIEETIADRELNVEMLMVFAAIGSAVIGYW
+TEGAILIFIFAISGALETYTLNKSQREISSLMDLQPEEALRVMDGTEEKVHVSELSIGDH
+ILIKPGERVPSDGLIIKGATTIDEAAISGESLPVSKTVESEVFAGTVNLNGAITVEIIKH
+SNETLFQKIIDLVHSAQSEKSPSQLFIEKFEGSYVKVVLVVVLLMMFLPHFLLGWSWTET
+FYRAMVLLVVASPCALVASIMPATLSAISNGARNGILFKGGMHLESLSNLQVVAFDKTGT
+LTRGKPKVTDIITDQALSESEVLGITAAIEKQSTHPLAQAIVQHVKTLYPDVHLNDPQSL
+EDVSGWGVKAVVDGTEWKIGKAEFVGIEAASNFAGGKSRQLAAEGKTTVFIANNEGIAAL
+IALKDVIRDETEQALELLRKEGIRTVMLTGDSENTAKAIAREAQVDDYIAECLPETKVEE
+LKKLMNQYGTVAMVGDGINDAPALATANVGVAMGEGTDVALETADIVLMKNDLTRLAEAV
+RLSKKMQRIVKQNIIFSLTVIFVLIASNFLQVLDLPLGVIGHEGSTILVILNGLRLLRS
+>tr|A6CTQ6|A6CTQ6_9BACI
+MDIKSAEQKVAELHNLLNQYNYEYHVLDKPSVPDAEYDRVMNELIAIETEFPELRTPDSP
+TQRVGGNTLEAFEKVEHRTPMLSLGNAFNEDDLRDFDRKVRQAAGEAYSYVCELKIDGLA
+VSLRYEDGLFSQGATRGDGTIGEDITANLKTIKSIPLRIPEPLTMEVRGEAFMPKRSFEA
+LNKAKEEKEEEPFANPRNAAAGSLRQLDPRIAASRNLDIYLYSIADVGETGVVSHSEGLD
+LLDKLGFKTNKERKRCSNIEEVIQYVEGWVEKRPDLPYDIDGIVIKVDSLPLQQELGTTA
+KSPRWAIAYKFPAEEVVTLLKDIELSVGRTGVVTPTAILEPVKVAGTTVQRASLHNEDLI
+REKDIKIGDYVVVKKAGDIIPEVVNVLEERRTGDEQDFHMPEECPECGSGLVRLEKEVAL
+RCINPKCPAQIREGLIHFVSRNAMNIDGLGEKVISQLFKEGLIVDVADIYRLQREQLLQL
+ERMGEKSVDNLLNAIEASKSNSLERLLFGLGIRHVGAKAAKTLAQEFENIDNLKVASKDQ
+LTAINEIGDKMADAVVAYFEKEEVMELIGELKTAGVNTEYKGPKPVKVDEIDSYFAGKTI
+VLTGKLEQLGRNEAKQKIEELGGKVTGSVSKKTDLLVAGEDAGSKLSKAQELQIEIWDEE
+KLIEELNR
+>tr|A6CTQ4|A6CTQ4_9BACI
+MTKLKVYQHKLIDNIRKTLSQWLSSNNEIPAADVKRFFHSISGTAPTIELDEIGRQASES
+MKAVDHRGDDSWNRKNIQEIISPLLKECYQFEYENTIEFPIRADSNQRRKIVFLVENDTT
+FLMYIKDFLERKGFHVFGFTDPDKAISALYDVKPDCILLDIFLGDQNGLDTLSHITKTVQ
+KQYVPVVMMSENNSDSLRMESYKKGADDFLLKPFILEELFIRVNRQIERKEFVDHLILVD
+ELTRLYNRKYLHSSFSQLCAKQWEEEQELSIAFLDLDYFKQVNDQYGHLTGDIVLKEFSD
+FVKQRLSPEDSFIRYGGEEFVLLSPDTSAEKCKERLNNILAAFSEYVFKAEEGEEFTCTF
+SSGVVDVDASESTSLSYWLDMADLALYQSKENGRNQVTLFDRSMASSQKAVSVALLEDDP
+IMQVLLSNTIKQAASLNNIPISISKYESGEQFLESGWLEQNQKGMVLLNIFMDGMSGIET
+LKQADFDPFTVLMLSAETRKTEMIQAIELGVADYVIKPFSISALENKILFYLSKIADHS
+>tr|A6CIF2|A6CIF2_9BACI
+MQKYLNFFEPNMQNYYLISIDRIRVSLLIRFNHANYKLIVPNEVTRRCERLQEKKLIKKA
+KKGHHPSFIQLMKQYEVSMYRVAKGILKKDHDCADAIQETILICFKKIATLQEDKYFKTW
+LIRILINECYALLDKRKVVIPVESWNESDNSELDLKLSVQEAVSSLNDSLRTVTTLYYFE
+DMSIKDISEAINIPEGTVKSRLSTARQQMMTFLEEEKTPFRRSVWK
+>tr|A6CKD0|A6CKD0_9BACI
+MSNKFPASSRIGDANETRPFSNKGICSFYVARIPVFLERHHAYLKDLVVKRFDFLFTMFQ
+NEGRRRGGTMTEKVTSVKWFGMAIQALLVLANHEGLCPSGVLAEKLDSKSVFLRKILRHL
+VKEELIQAKEGRDGGYYLVKNPEDIKLSDVYNAMRSETFSKGFFDVESKECFAACTRDSL
+FELRDEMESWIVNGLEQKTIKDLMKQ
+>tr|A6CKB1|A6CKB1_9BACI
+MFVQLKNIDFRYQNSKELALDDISFSIEKGEFISILGKSGSGKSTILRLIAGLEVPAGGS
+ILINEQVMASSTQFVQPEKRGIGFVFQDYALFPHMTVANNVKYGLKKMSRKEKDHRLKEV
+LELVGLSDYAKRYPYELSGGQQQRVALARAIAPNPSLILFDEPFSNLDADLQIQIRSDLR
+EIIKKAGVTSIFVTHDQSDARALADRIIIMEDGKVKQTGSACELVAIN
+>tr|A6CI94|A6CI94_9BACI
+MGKWEIFKSRNFVMYWLGYLFSTLGDAIFILTISWLIVKMTGSGVVMGTFLLFVGVPRVV
+FMLFGGIVVDRFSSRIVMFWSDTLRAVVLFTYAGTSLTGHVSLPFIFGLGTIFGIVDAFY
+WPAVTAIRQRIVHKEQYTQSNSVLTGTWQIAAIAGPLLGGVLINLFGFTLSFTLTAFSFL
+ISAATLFFIQLLPIVKELVTEKKSVLSDMLDGARFVAGSSILLVIIVTAVFGNMAMSTIL
+VGLPFLAEEYGVGAPGLSQMQAGLGTGGIVASILLSVFIVIRRPSLRAKMATLFMQGTII
+FFIGFTQNHWQVAFLVALIGAAGATLGVLEQSISQMIIPQHMMGRVYSIILIAAQGMTPV
+AQATSGWLIDAVGVHEIYFYGGALGMLSGFIGFFTPAVIKYGTAAGETVKA
+>tr|A6CS13|A6CS13_9BACI
+MKIAIIGAMEEEVRLLRENIENAKEEVIGGSQYTAGSMHGVEVVLLRSGIGKVNAAMSTA
+VLLERFKPDCVINTGSAGGFDAELNVGDVVISTDVRHHDVDVTAFGYEYGQVPQLPAAFT
+ADEKLKEVAAESAKETSNVKIVSGLIATGDSFMNDPARVEAIRDKFENLQAVEMEAAAIA
+QVAHQFEVPFVIIRSLSDIAGKESHVSFDQYLETAAVNSANLVMKMVSKLK
+>tr|A6CM56|A6CM56_9BACI
+MKNTCINCGVSIPFYERGILTIQGKEALNVSTLSFSGERSEKYTYHFKYKSFSDLLKMLH
+EIEPALSNGSWGAGFSEGLQNIRILPFEDFKKRMVNREAVEFIQRGKLLSYFQPIINLQQ
+NEELYGFESLLRSGDDEMVISPAVLFQTANETGLHSLLDQRARETAIRCRKDQLTKGIKS
+FINFLPSTIYNPEFCLQHTFSFVEKYDVDPADLVFEVVETEKIEDVEHLKSVFEVYRREG
+MKVALDDVGAGFATLEMLSKLKPDYMKIDRAYIDHCDVKKDHQEFLIEVTRISKELGIRV
+LAEGIERKEELEYCKWLGVDLAQGYYIGKPVREAKVPLFN
+>tr|A6CT41|A6CT41_9BACI
+MIYIGLTGWGDHDSLYSNTSQRDKLKEYSAHFPIVEVDSTFYAVQPLRNAEKWVKETPAS
+FKFIVKAYQGMTGHNRGDIPFSSKEEMFKAFRDSLKPYTDTGKLAMVLLQFPPWFDCKKE
+NVDYLRYCKEMLPGLPLALEFRHQSWFYPSFKERTLLFMREEGWIHSIC
+>tr|A6CH61|A6CH61_9BACI
+MPTPSMEDYIEQIYLLIDNKGYARVSDIADALSVHPSSVTKMVQKLDKDDYLVYEKYRGL
+ILTAKGNKIGKRLVFRHELLEQFLNIIGVKEENIYEDVEGIEHHLSWDSIDRIGDLVQLF
+EENDDLLKRLREIQFKNESE
+>tr|A6CR56|A6CR56_9BACI
+MPELPEVETVRRTLAELVTGKRIKSVSVFWPKMVKLPDEVEEFKLSLQGETIQGVDRRGK
+FLILQTDRYSLVSHLRMEGRYGVFPGDEEVEKHTHVIFHFEDGTELRYKDVRKFGTMHLF
+PKGEENLSLPLSQLGPEPFSPNFTVNYLTEKLAKTERAVKAVLLDQTVLVGLGNIYVDEA
+LFRSGIHPARKAKSVKKSEMKKLHNEIIDTLSEAVEQGGSTIRSYVNSQGQIGMFQQQLF
+VYGRKNEECRSCGKPIEKNVTAGRGTHFCPNCQK
+>tr|A6CNE7|A6CNE7_9BACI
+MSFASVTKKELTNLDLKDCCSKAELSALIRMNGSLSFANRSLIVNIQTENAAIARRIYSL
+IKKNYDTPVELLVRKKMRLKKNNIYIVRLKEDTKEILENLHILGEGFTIIHDISAQLIHK
+KCCRRSYLRGAFLAGGSVNNPETSSYHLEIFSLYQEHNEALSEVMNSFGLNSKTLERKKG
+FITYLKEAEKITEFLNVVGAHGALLRFEDVRIVRDMRNSVNRLVNCETANLNKTIGAALR
+QVENIRYIEQSAGLQILPDKLREIAELRVTYQDVTLKELGEMVSGGTISKSGINHRLRKI
+DEIAEKLRSGEKVKH
+>tr|A6CJH6|A6CJH6_9BACI
+MGLLTNGGNHSECLKKGFKDQNESHSGAKVSQERIKD
+>tr|A6CHQ7|A6CHQ7_9BACI
+MKSANSTYKLLSLIISEQFVLLNFRNITPHLKIYTQSFFNKNLSNEYVLIEAEGAGPPAG
+LAWRLVPAPEVTYPLERNPAPRGQITLRE
+>tr|A6CQ10|A6CQ10_9BACI
+MQGYAGFAKEETCNPLDGKSAVQQGQGLLIGESHEQ
+>tr|A6CR90|A6CR90_9BACI
+MIELIGLLTSFGLLLLVYMLREAFINKVKYHELRFVEYPKSAAPLNIFFISDIHRRKIHP
+TIISEVDGKADIVVIGGDLTEKGVPFSRIRENITLLKKLAPVYFIWGNNDYEVGEQPFKS
+LLESCGVILIENSSLLLEGNDDHPVALIGVEDSSLQRDDVDEAFKQVPQTAFRILLAHSP
+LIIKKLEKKHNVSLMLSGHTHGGQIRIFGFGMYQKGGLFNIAGTEVLVSNGYGTTALPLR
+LGAPPETHLITIKGN
+>tr|A6CKU9|A6CKU9_9BACI
+MKYLVLITLAVVILLAMIVVLTNKSKDTDQTLESHPPTANQPMIGKKDAPASVVEFGDFK
+CPACKAWGEMIYPQLKADFIDTGKANFTYINTEFHGKESTLSALAAESILKNDPGSYWEF
+HKKLFEEQPADNHDALWITVDKLVEVAKKTTDIEADQFRQDIEQQTYMEEVNVDSSLVQD
+FNIQKTPTIIINGTMLEDPYDYEKIKALIEEGQE
+>tr|A6CP03|A6CP03_9BACI
+MMNTMGKLFNRYPALVWIRVFGEMLTSVTGSMLAPFLIIYLYDKLDGNVLLPMVIVGLQP
+LSEIIITFLGGSRTDRLGRKKIIIAGLLLQASAMAGFVFADSVWVFALLYVLNGAGRSVY
+IPAQRAQIADSIDDGIRSEVFAVINTVSAAGMALGPVIGYFVYKQDPGLIFGMQAAALMI
+YLAVVYFKLPETIPVQPEETVRTNGRFKVKPFIANHSYVLSLMAFSLPVSFFYAQTETNY
+RIYLEDLFPDFLAVLTTLASIKAVMCILLEIPLVRWSNRFSFQRVLILSYSLYFIASVSY
+GLSTSLLLLILTQLIVTIAESLGLNRLLNHIAHIAPSNQRGLYFSIYGTHWDISRMAGPF
+LGGLILIEWGGAVLFLLSAVLLLLGGTAQILLNISVEKNSSRKALLKMKKA
+>tr|A6CPQ7|A6CPQ7_9BACI
+MNEILSNHVPPQNIEAEQAVLGAIFLEPSTLTQASESLIPEDFYRSSHQKIFNVMLNLSD
+KGKAVDLITVTEELSAMKELEDVGGVSYLSELAGSVPTAANIEYYAKIVEEKSLLRRLIR
+TATTIAQDGYSREDEVDALLSEAEKNIMEVAQRKNAGAFHDIKDVLVRAYDNIELLHNRT
+EDVTGIPTGFADLDEMTAGFQRNDLIIVAARPSVGKTAFALNIAQNVATKTDENVAIFSL
+EMGAEQLVMRMLCAEGNINAQNLRTGSLTDEDWRKLTMAMGSLSNAGIYIDDTPGIKIGE
+IRSKCRRLKQENGLGMILIDYLQLIQGSGRSGENRQQEVSEISRELKGLARELEVPVIAL
+SQLSRGVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYDKESENKNIIEIIIAKQR
+NGPVGTVSLAFVKEYNKFVNLERRYDDAGVPPGA
+>tr|A6CQJ6|A6CQJ6_9BACI
+MRIDKLLSNMGYGSRKEVKKHLKGGGTVVNGEVVKDPKFQVDPESDTVTVHGEEVVYREF
+IYLMMNKPPGVLSATEDAEGETVIDLLEMEDQIFNPFPVGRLDKDTEGLLLITNDGQLSH
+QLLSPKKHVPKTYFAVIEGEVTEEDVSAFAEGVTLDDGYETKPGELEIISSGIRSEINLT
+ITEGKFHQVKRMFESVGKRVIYLKRITMGLLPLDETLELGEYRELTDEEVEGLKNHKLD
+>tr|A6CJN3|A6CJN3_9BACI
+MIKQFEISTSKRDEMIDITEDVQGWIDEQGIQDGIVIVQSMHTTAGITVNENADPDVKTD
+FLMRLDEVFPWNHKKDRHREGNTAAHLKTSTVGHSQTLIISGGKILLGTWQGIYFCEFDG
+PRSRKFICRLTK
+>tr|A6CLF1|A6CLF1_9BACI
+MKRIGVLTSGGDSPGMNAAVRAVVRQAIYQDIEVYGIYQGYNGLINGNIKKLELGSVGDI
+IHRGGTMLYTARCEEFKTKEGQKKGIEQLNKHGIEGLVVIGGDGSYRGAKALTELGYPCV
+GVPGTIDNDIPGTEYTIGFDTALNTVIDAIDKIRDTATSHERTFIIEVMGRNAGDLALWS
+GLAGGAETILIPEDKHDMDDIARRLKKGQERGKKHSIIVVAEGVMSGNEFAARLKEETNL
+ETRVSVLGHIQRGGTPTASDRVLASRLGSRAVDLLAEGKGGRAVGIEKNQLVDYDIIEAL
+AKEHVVDLNMYKLSKELSI
+>tr|A6CMZ5|A6CMZ5_9BACI
+MRLWRSVVGKLWITILLLVAFVLFILTILQLEFFQNYHLEQVENDLSDTAEKIASVVESH
+QDLSMGMQISKEIVDDPQNLIIAENRNKLYYAEDVTAEHGMLIQEILDKKEVTAVFQQEQ
+AFVKELHLDGEYVTNLYENIVVVGAPVQIGNETGAVLIFQSLEEIKETTRQTTRLILLAA
+GIAIILTTIFAFFLSTRITAPLRKMREAAFEVARGRFETKVPILTHDEIGELATAFNQMG
+NQLNYNMHALSQEKEQLSSILSSMADGVITFNRDGTILITNPPAERFLQQWYYEQEGNEQ
+EAIPTTLKELLEQVILLENEQTGEVSLQGRSYVVIVSPLYNEEYVRGAVAVVRDMTEERR
+LDKLRKDFIANVSHELRTPIAMLQGYSEAIIDDIAESEEEKKEIAKIIYDESLRMGRLVN
+DLLDLARMEAGHITLKKEKSDISTFLERVTNKFQGIAKEKNIGLNFIGHKTGLNSQQIYI
+DPDRIEQVLTNLIDNALRHTPETGSVSVNYKPTKSGILVEVSDSGSGIPEEDLPFVFERF
+YKADKARTRGKSGTGLGLAIAKNIIDSHNGQISVHSKVDQGTTFSFFLPQ
+>tr|A6CQC7|A6CQC7_9BACI
+MEREGIMQINNDLKTSSSSLDPKSLSLKEGDVSSGLVKEKLPNNEAIVNVKGQEVKLKLQ
+GEFNVNERLKFQIKDPHSQPPTGKIVERTPVPARTTPSLEMNSGSSRLKSVDGLPLDIKS
+AIDSLAAKGIKVSKESLDVLKTYIADDTRSMAQKSETLQIIAKKQLDITAAVIKSVDQAL
+HGGSVSKSLDHLLKSIDPDFDWSQVRDNIQKERQIAFVNQKTLSETEQLILRAETAFPKG
+SPQIVEAEKLIDTIRQLDKAGLQRMNEAIEALLKTVKDAGKLQVISEMKNLLIKQPASQS
+VLTQLNELVQTESEEHPSQPLLKDAAKLSSIKANLAARLESLLSQEAEPIDNEPAQKLLQ
+QLVRAFQKEPVFTKAMDDIKENLVESPSLSRGQKAAITSSVNKAEQLFTGGKELAARQEI
+LKVLLQVEKQETAKPNPAVVTDQFQNKAEAYQLNDDILSMIPTQSKDIIVNTITKKLSQM
+AIDFKEFKNDISKNLQAVQQVIQQAKSRASITAKPMLETTIKQLDQAILKSDFMLYTDMK
+TEKDLLAASTRLAEARKLLAKGDHTGAHKIVHEVKTNVEKIIFKPSDVRVKHFVAKEVLQ
+YEPAPLINKMGETISRSVQSLSHEPSARHTFEYLRSMGLTHESEHAQSLVQTGRGKEDLQ
+LTLKNILMKFNQDTDMLGTSKGDQLLQNLTGQQLISKNDSSGLQNLMFTLPLLLKDQVED
+VKVYISSKNQQQKVDWENCSLYFLIETKKLGEVGIGLSAVERTLSVQIKNDRDGFKERME
+PVANLAKKRLEEIGYKIGSIQFSKLDNQTQQDHVDQGGLPPQRPVPKMTEKGYDFTI
+>tr|A6CHN4|A6CHN4_9BACI
+MMYTQPDQKGLFGRFGGQFVSETLMGAVQELDEAYEEAIQDEEFQRELQYYLKEYIGRET
+PLYLAANLTKRAGGAKIYLKREDLNHTGAHKINNTIGQALLANKMGKRKIVAETGAGQHG
+VATATVCALLNLDCVIFMGEEDIQRQKLNVFRMELLGAEVISVKQGSATLKDAVNEAMRY
+WVANVEDTHYIIGSVLGPHPFPKMVRDFQSVIGNETKRQFCEKEDSLPDAVVACVGGGSN
+AMGMFYPFINENEVKLYGVEAAGAGVETDKHAATMTKGTLGVLHGSMMYVLQDEHGQIQE
+AHSISAGLDYPGVGPEHSHLKETERVKYTAVSDGEALDAFKMLSVEEGIIPALESSHAIA
+YGVKLAASMKEDENIVICLSGRGDKDVDTVKSRLGGLQHG
+>tr|A6CUD2|A6CUD2_9BACI
+PGGMLVENFQKVLDTIPFFSAMWNTILLCTTVTVAVLIISSLAGFAFAKFQFPGKNFLFI
+CILLTMVIPPQLGLIPQYYLISQLGWLDTLLGAGVLFLLNPLGIFLMRQYITQSVPDELM
+EAAKLDGCSNFRIYWSIVLPIIKPAFATLGIIVFTLVWGEFLWQFTVLRDPASYTLQVAL
+ASLNNAFRVDFGMLLSGVFWATVPLIVIFLFFNKWFISSITEGSIK
+>tr|A6CSJ1|A6CSJ1_9BACI
+MTGRIPEEKINEIRQSIDIVDVISDYVQLKKQGRNYFGLCPFHGESTPSFSVSPDKQIFH
+CFGCGAGGNAYTFLMDIDGISFQEAVVKLAEKTGQELSVDVSPVETPASRDEEKMIEAHE
+LLSKFYHHLLVNTKEGQDALEYLLQRGFTRESIDKFQIGWSLPSWEFTVNFLTKRGFAPE
+LMEQAGLLVKREGEEQYFDRFRGRIMFPIHDHRGKTIAFSGRAMGEEQPKYLNSPETIIF
+NKSSVLYNFHNARPVIRRRSQAVLFEGFADVISADRAGVENGIASMGTSLTPKHMQMLKR
+VTDSIIICYDGDKAGMEAAFRAAKMLSEDQFNLRVAMIPEKLDPDDYIKKYSGEKFQNDV
+IGASLTFMAFKLIYFRQGKNLNDEGDRLQYIEEVLREISSLQNHIERDYYLRQLADEFSL
+SLQALQQQQKQVYFSNKKSDKREQRKQDFVQPMQPKAENKLFPAYHTAERRLIAHMMKNP
+DICFKVQDLLGGNSFNLDEHQAIITYLFGYYEEGNEADSSGFIQFLPDNRLRRVVSEIGM
+MSVSEECSEQELIDYVNQVLKHQKMLTIKEKQLAQKEAERQKDYNKAALIAMEIVQLRRS
+L
+>tr|A6CL00|A6CL00_9BACI
+MEELLVNSDYFILLTALLLCAGVITTKFSTRLGVPALVLFILVGMITGSDGLGFIYFDNA
+RLTQMIGVLALIIILFEGGLQTKISTVKAVAKPALSLATAGVLITTTVVAVAAKLILGVS
+WLEGFLFGSIVGSTDAAAVFAVLKGKNVKGKLGSILEVESGTNDPMAVFLTIFFIELLTV
+DKPVYFLLAGSFFWQMGIGLLLGIIIGKAGSFFINRINLDSSGLYPVFTMAFALLAYSIT
+DLLNASGLLAVYVAAMVIGNKELTYRHSIFKFNEGFAWMMQILMFVILGLLVFPAQLFTW
+EVVGKGLLLSAILIFVARPIAVFVSMIKMNYQLNEKIFLSWAGLRGAVPIVLATFPLIAG
+LENSQMIFNVVFFVVLTSALIQGSTISKFAAKLGLTGSTKAEPAHSLELISIGKADAEIL
+EAEVNEEMPIVGKSLADISFPKDVLINAVIRGADLVTPYGETVIQKGDILYILVSRNSKR
+ELKEMLHINE
+>tr|A6CQB8|A6CQB8_9BACI
+MSQPSTADEQKYWDLWKKSKDPHAGDMLVKKYLPLVSYHVQRISVGLPKNVSREDLKSLG
+LMGLLDALEKFDPSRDLKFDTYASFRVRGSIIDGLRKEDWLPRSTRERAKKIEAKIESLE
+QELLRHVTPEEIAQEMQMEEGEVYTRDGLNRILSWATVPCP
+>tr|A6CS45|A6CS45_9BACI
+MPGGLAKPIITWHFFLFLFERLFAKIRREVKSMLRKRNLQEMIDQFQHQSEHKGQIVHWH
+TIEEKQAQVKDLPERIHPKLKGALQKRGIEKLYTHQATAFDTAMSGRSFTAVTPTASGKT
+LCYNLPVLQSILENKNTRALYIFPTKALAQDQKSEINEIIAEADAAINSYTYDGDTSANI
+RQKVRKAGHIVITNPDMLHSAILPHHTKWVSLFENLKYVVIDELHIYRGVFGSHVSNVIR
+RLRRICKFYGSDPIFICTSATIANPQELAEGLTEKEMTLIDNNGAPSGRKHFVFYNPPIV
+NKPLNIRRSATLEVRDIAGSLLKNKIQTIVFARSRVRVEIILTYLQELVKSQLGPKSIRG
+YRGGYLPTQRREIEKGLRNGEIYGVVSTNALELGVDIGQLQVCVMTGYPGTIASAWQQAG
+RAGRRQDEALVIMVASSSPLDQYIIENPQYFFENSPETARINPDNLIILIDHLKCAAYEL
+PFTDGEQFGGLDIEDILDFLAEERVLHKNGEKWYWMNDSFPARNISLRSASQENVIIIDQ
+SDVANVKVIGEMDRFSAMTLLHDEAIYLHQGFQYQVELLDWEEKKAFVREVDVDYFTDAN
+LAVQLRVLEEDKSMASEASETAYGDVTVQAMATIFKKIKFDTHENIGSGPIHLPEEELHT
+SSTWVSLKKEINLSTDRIEQGLIGLAQSLKAIVPLFVMCDPSDVYVVPQVKAAHNERPTI
+FIYDRYPGGVGLSEKVYDQMGEILQEAKRMITRCRCESGCPSCIGTDISSEDAKNDAVKL
+LDLFLETQE
+>tr|A6CKD7|A6CKD7_9BACI
+MDTLNILVVGANGQIGKQLVGIIQDSGSHTAKAMIRKQEQASHFESLGAETAVVNLEGEI
+EDIAKAAEGVDAIVFTAGSGPHTGADKTLMIDLDGAVKTIKAAEKAGVKRFVMVSSFDTT
+RKAIQEAPESFAPYVVAKHYADEWLRGTDLDFTIVHPGRLTNENGTGKVEAASEVERGEI
+SREDVAQVLFECLESDSTIGKEFQVVSGSTSVKDVISNL
+>tr|A6CPD3|A6CPD3_9BACI
+MKQEKPEQQNDWDDLRDLLDDSFKAIDENIEDGTPSDQWFEQFTLNQQMQVKQQHRKELA
+IFIVIAILIISLILLALNESIVLFAVIQVAAFIAAVGYGGLSYLKQVMRT
+>tr|A6CI65|A6CI65_9BACI
+MAKKGYIQFENGEKIEFDLFPNEAPGTVENFSKLAKEGFYDGLSFHRVIPGFVSQGGCPN
+GTGTGGPGYTIPCETEGNPHKHEAGSLSMAHAGKDTGGSQFFIVHEPQPHLNGVHTVFGK
+VTSGLDTAKNLRNGDVMQKVVIED
+>tr|A6CMW0|A6CMW0_9BACI
+MRQYFADLHVHIGRTASGRAVKITGSRTLTLSNILRYSSYPKGLHMTGIIDCHSPEVIQE
+IELLIEKGELTELDDGGFQHESGLVLIPGSELEINDETCKGPIHVLAYFPDLKALKSFSV
+WLGDRVTNVHLSSQRIYAEGKELQEKVKALGGLFIPAHIFTPFKSLYGKGVSTSLSEVFY
+PEMIDAVELGLSSNTAMANNIAELHGYPFLTNSDAHSLAKMAREYNSITMASPSFNELAK
+ALKNQEGRKIAANYGLDPLLGKYYETTCNSCEMIIPDKAGECPECGHTRKIRGVKHRIAE
+LSGDAPPPVRPPYIPQIPLEYIPGLGPKTLEKLLNHFGTEMDILHFVPREKIAEVTTIQL
+AESIHKARIGELVINAGGGGRYGRVSKT
+>tr|A6CTP1|A6CTP1_9BACI
+MIEDKLPAVFFIHGFTSAKEHNLHYAYYLAEKGYRVLMPDTLLHGERGQGMNESELSVKF
+WEIVLTTIEEIGLLKDHYVQNNLIDENRLGLGGTSMGGIVTLGALTKFPWIKAAVSLMGC
+PSYVALANAQINSLKKKGYNLPYSEDKLNSLLGMLEKYDLSMHPEVLEGKALFFWHGKQD
+TVVPYQPAYDFYEYLLKKGEPKLRDLQFMSDELGGHKVSREGVLRSSEWIAEYL
+>tr|A6CT95|A6CT95_9BACI
+MQLQFYHEKFKEEVYAFSLIEEQHQFTALPAEALAVKDENRFPIVMIDKEKAVGFFVLHQ
+GEAIREYTSNPNALLLRAFSINQIHQGKGYAKEGMNRLPGFTRDHFPETDEIVLAVNERN
+LAAKSLYLISGFEDHGKKLMGRKGWQSILTYTLNPR
+>tr|A6CHZ2|A6CHZ2_9BACI
+MKQGDIEAVQKVAEVSWEDTYKDIIPIEIQKRFLASAYSHEMMEKRLETSFLYVVEIKGE
+IKGFANFSQVKEGGEVELGAIYLLPENQGYGLGAALLEKGIQSIDGIEKIYINVEEENLT
+GKAFYSNKGFQEVSEFEDDLYGHKSKMLRMVMPVEVNRKIG
+>tr|A6CNV4|A6CNV4_9BACI
+MAVLSGNDKKSTITINENEGSSQKKNIVYETKDLNLWYGEDKALKNINLAINENEVTAII
+GPSGCGKSTFIKTLNRMVELIPVVRISGEINYRNQSILDKSFTVEDLRTRVGMVFQKPNP
+FPKSIYDNVAYGPRIHGIKNKKVLDEIVEKSLRGAAIWDEVKDRLKENAYGLSGGQQQRL
+CIARCLAIEPDVILMDEPTSALDPISTLKVEELVQDLKKDYSIIIVTHNMQQAARISDKT
+AFFLNGEVIEFDKTDTIFSTPSDKRTEDYISGRFG
+>tr|A6CLG2|A6CLG2_9BACI
+MSESKRMKETRTIKTSHVLPPDTNHHGTLFGGKLMSYIDDVASISAYKMARNPVVTASTD
+SVDFLKPIKVGDAVTLEAMVTYTGSSSMEVCVKVTSENLLTGETAVAAISFLTFVALDNN
+GNPCPVPKIIPETEEEKWLNETADNRAAHRKARRKHSQELAEFFASH
+>tr|A6CLK0|A6CLK0_9BACI
+MINTKTGLQVETRFLFREGVKMGQENQKCEGYCAEKRASGQNHKKVGGDEKKLKQTRLYL
+NKTEDE
+>tr|A6CSZ6|A6CSZ6_9BACI
+MFILRYINVVILHLFLFFNHITLPSFGTNMKTPIIYLYPTSFPAACFPLFLESFVKRAFE
+FPVRFQWPASSLACSSCLYFESNPGA
+>tr|A6CKG1|A6CKG1_9BACI
+MENIPKWRGLMKSYIGIIALIPLLLLAGCTNDETVSVEGEIHSVDQENKTIIVYVEDELT
+KSQRQTMDFDQEEKNIEAFLVRAEDAAVTGEVTSFDDLQTEQKVTVEIKGKYEKELVTVK
+ALFDEEEELPDYHAEKVTVNPYSKEDLIEEMTVEKGKYGLYIYNPKPNEEGVYSPPETMK
+VFHSMTMYTSADEVKNTQQLLELYEDSPTYIVTNHEGIIFKTDDEAELNEFAKTLGEKEN
+N
+>tr|A6CPH2|A6CPH2_9BACI
+MKKTSVFGFMLFLTLCITALSFPAYSKACECLSEGFSITHSNSIEITSMNLKNSPGDTEK
+EKPLFENIIIYLIIFTPVIVITMGVWILNKIFKSTKIKE
+>tr|A6CTD6|A6CTD6_9BACI
+MRCGSKCFLVEVELKEGAQTKSVTARTPIEARKTIRKEYGAEVEILSVREEKR
+>tr|A6CKM8|A6CKM8_9BACI
+MKQLQGYILTDEVLREWRERLVPSYDLLFFRNQLDFLTCKEFRSETSQTFSLDDKTAFAT
+WAVSKEAKYYTTIDNEEFLKLTKDQKKQIIKEQWELRRGMILSEEEMISLLAIRDDKTFQ
+TLEQSSFKNHDKKIYMIQRFLLELLPLESQTNFLLNYAAMWTNDKAVYADLDEVIRNAFK
+KEYGTLAPFFDHFSSKNGPNCFAAAAAGFTGEMNIIEEWMNPDRFFELLKRHQYFQHDPG
+HLKERDVLVWKNEQGQAVHAAFLLNSRYCFNKHGQTMFNPWQVLPVEQVMDSWSQDGYQM
+DLYRRL
+>tr|A6CNK9|A6CNK9_9BACI
+MRVREIKIEDAESLIYLIKEVEASSQFMMMDAGERKTTADQMKKQIQRMKETANSTIIVA
+EEDERLTGYLFAIGGSVNRTKHSAYIAVGISEHHRGKGIGNALFLKAEEWALNHGILRLE
+LTAVTQNEAGVALYKKRGFEIEGTKRKSLHINGEFFEEYYMSKLL
+>tr|A6CRF8|A6CRF8_9BACI
+MTTNVMNPKLQHVIENIEKVMIGKRKVAELSLVAMLANGHVLLEDVPGVGKTMMVRALAK
+SVGASFKRIQFTPDLLPSDVIGVSIFNPKDSEFHFRPGPIMGNIILADEINRTSPKTQSA
+LLEGMEEHSVTIDGVTRKLDKPFFVMATQNPIEYEGTYPLPEAQLDRFLLKMKMGYPEME
+EEMEILTRAQKNAPIEELEAVITLEELRMIQEDVKDVIVDDTLKKYIVDIAHRTRLHSQV
+YLGASPRGSIALMRACQAYAYLNSRDYVIPDDVQYLAPFVFSHRIILKSEAKYEGITAEE
+VVERVITRIPVPVQRLVR
+>tr|A6CTW9|A6CTW9_9BACI
+MSFLTEWVTNIIVFVLLASVIDMLLPSSNMQKYTKIVTGLLLITIILTPLMKLFTADFEE
+ALEDIKLEGTVKTASVENLVEMKKKEIQASQRAYILEQMAVQMKDDVEKEMIEQYGLTVK
+HIELEADDLEKLPESILSVSIHLDTSQDETVTAIKPVEIDTTKAIPKDESNKEISKMLSE
+KWNIPGDKLVITIEGGAGNKHEI
+>tr|A6CSP6|A6CSP6_9BACI
+SYLDISKAFDSSTVNFDNYTNTLEAVLQPRPLFSENKRLNIVTHLPKISYLFFTKKANGE
+>tr|A6CU41|A6CU41_9BACI
+MGKKLFCLLGWYRGLAFSSLFRDEKAFFIGLFLPNVLRAKESITL
+>tr|A6CPQ4|A6CPQ4_9BACI
+MRGVFVKNARTLTEGALLLAIFTVLLLLSAYIPVISLIATVFLMLPFIIYSEKHGLKPGL
+TMLSAAVVISLLTGAFFVTVPLTLSFGTTGIIIGWMLKNDKSKMAIYMASSFIFLISIVI
+EYVVSILLLNMNIIEEVLEQFQHIMDEAIETAEQLGQPLPQDNIEELQTVTELIEVLTPT
+LFLTTAFVLMFIIININFPLLKKLGVRSAKFPPFRNWKLPQSIVWYYLITLILMIFTKPE
+IGTYLHWALYNLFYVLQLLLVVQGFSFIYFFAHLKKWPKGLLILITVLSFPLVNFVRILG
+IIDLGFDLRQRLQRKS
+>tr|A6CUE7|A6CUE7_9BACI
+FVATALAAAIGSLIMGLIAKYPIALAPGMGLNAFFAYTVVLTMGISWQAALTGVLISGLI
+FIVLTLTGLREKIINSIPAELKYAVGAGIGLFITFVGFQNAGIITNNDATLVGLGDLTNG
+NTLLAVFGIFITVVLMTRGIKGGIFFGMVVTAIAGMIFGLIDAPEKLVGAIPSLEPTFGA
+ALDPLFNDVSSVFTIQMLVVVLTFLFVDFFDTAGTLVAVANQANLMKDNKLPRAGKALFA
+DSCATVVGAVLGTSTTTSYIESSAGVAAGARSGFASVVTALFFLLSLFFFPLLEVITAPV
+TAPALIIVGVLMVSAIGKIDWNRFEVAVPAFLTIIAMPLTYSIATGIAVGFIFYPITMIM
+KGRSKEIHPIMYLLFVVFVLYFIFLI
+>tr|A6CKM4|A6CKM4_9BACI
+MKKISILLTLVLTFTFAGGFYAGIAYIEAKSIKINPDFHHSRSADMKLTTKEVPEKNTAS
+SKVLMGYVQDYHDPDKTEYNHLSHVIFSFAHPSKNGDLLMSGDYARENLRKTVRLAHEQN
+TKVLLAVGGWFHISGGESYPYFKQAISNGTARTKLVDELIKMVKQESLDGVDIDFEHPRS
+QDDAEHLAGFIRELNTKLEVLDKELSIAVYSKVDSVTGQENKSVIFLPSMFEDVDYVNIM
+AYDGHWDGGYNAANLSPYPYTENVVRYWSELFDVHGLPKDKLVLGVPFYAQPEEPSKSAI
+SYSAVIKKGVENAGKDTVTIEGITYHYNGKDTIQRKTELALNNEFGGMMLWEAGHDARGE
+HSLTKAISDVLTKTAEKEKNMFWAVQ
+>tr|A6CNB2|A6CNB2_9BACI
+MGLCDFRDRELFFEDIGEGTPILLIHPPGLGRKSFIYQNPLKEQFRLIMPDLSGHGDSYN
+EEDYVSIDTYVEEVKAVLDHLGITRCVLLGYSAGAVIAQEFTFKYIDMVELLVLAGGYPK
+VQTVRLKAMHLLGMKAIKERPQLIIKVLSKAHAKTPEAEQELYDHMEKANRSIWYHYYRQ
+SLYYNCTERVLELKVPLLLIYGGKSDWINNQYKLYKEHPQHELVIIEHAKHQLPTLFSNS
+FNKAVFYYVKKMLNRE
+>tr|A6CJ78|A6CJ78_9BACI
+MAAIFTNPTKQDYIQFSEESIGEPIPEEADNTYIERINFVLFSAYTPVTHLEHGMTHLGI
+FGKFVKVSDGQYDYPFWLEFFN
+>tr|A6CHZ3|A6CHZ3_9BACI
+MFHVNVEGAVFRGDKWLIIERSQKEEHAGGLLSFAGGTVEKEGNSKDILERTLKRELLEE
+VGITIKPEMSHVNNTSFLLGDGSQVLNIVLLCEIDEGEPFPKAKDEVDDIYWMTTKEVLT
+HPRSPEWLKQSILRAETHLNKIKQCI
+>tr|A6CKZ8|A6CKZ8_9BACI
+MDLHLYSCYPNKIVIFSPVARHAVLSTEIGRPAGDRTFPLMWKAGRRLNHNLKRGAGITA
+SFLWPHQKQLTASSISPAEIILFCHVTK
+>tr|A6CJL6|A6CJL6_9BACI
+MQLLGLEIRINDLLVELGPEADLAGIQNLLGQLLGGAAANIATEDNTSN
+>tr|A6CP66|A6CP66_9BACI
+MEENDMTHVRFDYSKALPFFGEHEITYLKDAVKTAHNSLHEGTGAGNDFLGWIDLPENYD
+KEEFSRIQKASEKIKSDSDVLLVIGIGGSYLGARAALEMLNHSFYNALPGEQRKTPQVLF
+LGNNISSTYMTDLMDLLENKDFSINVISKSGTTTEPAIAFRIFRKKLEEKYGVEEARKRI
+YATTDKAKGALKTLATDEGFETFVVPDDVGGRYSVLTAVGLLPIAVSGIDIEAMMNGAAA
+ARNDFNTDELEANPAYQYAAVRNVLYNKGKTIEMLINYEPGLQYFSEWWKQLFGESEGKD
+QKGIFPASANFSTDLHSMGQYVQEGRRDLFETVIKVSEPRHELKIEEAESDLDGLNYLAG
+QTVDFVNNKAFEGTLLAHTDGGVPNLIVEIPAMDAYTFGYLVYFFEKACAISGYLLGVNP
+FDQPGVEAYKVNMFALLGKPGFEEKKAELEKRLK
+>tr|A6CKU2|A6CKU2_9BACI
+MKLQLLRKSEYEVKTKRVSDLQKRRPDTLFISLHYIDKWERIYQRKVLLLRQLSEDRHLC
+RVYLVFTKG
+>tr|A6CQY8|A6CQY8_9BACI
+MKKSMVSKGANRVVDSSFEKIDGAKWQNRVVDSSFEKIGGAKELSGVKART
+>tr|A6CRA7|A6CRA7_9BACI
+MEEVMRGKIPFALSREQSFYEGLGDWIGDVFYDILPDKGFELRDEQVYMAFQVLKAYKEK
+KVMFAEAGVGTGKTLVYLLYALAYARYTGKPAIIACADETLIEQIVKKEGDIRKIEQALN
+LEVDVRLAKSREQYLCLQKLDSEILEDDKFMDVHSTLPEFVHGTSSMTKYHRYGDRKEYS
+QLTDQEWERVGWDNLQDCMSCSQRHRCGQTLNRDYYREAADLIVCSHDFYMEHIWTKESR
+VREGQLPLLPQASSVIFDEGHLLEFASQKALTYRIKKETLESLLEKMTASDMRENTMYLI
+EDIIAQNEKWFHELNQASVKEKNAFRLHVNKTEAVKTEGRKLVDLIEKLTEELVFESEMY
+VMDEYLLKVIEEYLEQILYSLKLFLEESKGINWLEINKGNETLVIMPRLVEEILRQKVFS
+QKIPFIFSSATLSNNKDFSYLAKSLGIDQYESFTVESPFDYEEKMLMDLPGFSSNEPVEK
+SLYSLEKIKENDGKTLLLFSSKGELEAFKNYLQDKNLPYPVYFEGDEEISLTVERFQNEV
+NSVLCSYHLWEGLDIPGESLSQVLIYSLPFPPKDPVFDAKRNHADRPFEEVDLPYMLLRL
+KQGIGRLIRTSEDEGKVSIMLKESEKYLLPKIKAVLPY
+>tr|A6CKZ2|A6CKZ2_9BACI
+MQLSIKIYIFILAAISISFSLLWFDPSSMHMLTLPLFILLMILGEAYKIPVILYDSKEYV
+KISWSLVVSISVLAGSGITDAIIVNLIGGIICSLYPKRLPLIKVFYNIFSYLSSMTITYL
+FYKSLKEVHILSGSSYLFELLVIPLIYLIVNCTINLVLLNLVTKKNFMQLVNNMIMPHLH
+HFILFSFIGGIQGYFYKENGIFAFIPTSILIGIVLYSFRNNAHYANERIMELESSNRNME
+KLAEALDQTLDEFIMTLTATIDARDPYTYGHSLQVSNYAVALATELKFNEEEIETIRIAG
+LLHDIGKISIPEEILFKEGRLTSEEYEIMKKHPVIGEEILSDIPKLSKVAELVGMHHERY
+NGSGYPRSLVEKQIPLGAHVLGVADTLDAILSSRSYKKERTVEEAMTEFSRCRGTDFHPT
+VVDALFKLRTRAGDEAFLNSATLIDSSLIKGKIKTNRGYLYNNINKKQNLILTRAQ
+>tr|A6CNI6|A6CNI6_9BACI
+MNFGNILNKIDDLGDISKNIPLNDLLTSEFISKYTNFTTQDEFKGKLNEEADFHVETLEG
+VKDMDKDKLNGFVKRFTEFGDWKSMLTKAVQLYMAHKK
+>tr|A6CQX5|A6CQX5_9BACI
+MKLDIIGDIHGCYAEFKELTMNLGYQWDSGIPVHPDGRMLGFVGDLTDRGPNSLKVVETV
+WKLHKEKLAYYVPGNHCNKLYRYFLGNNVKIVHGLETTVEELGNLPEGEIERYKEMFIEL
+YENSPLYQQLDSGKLIIAHAGIKEEFIGKQNNKVKTFVLYGDITGETNEDGTPVRRDWAF
+NYKGEAYIVYGHTPFSEVRNINRTYNIDTGAVFGGKLSSLSYPELRIESVKSSMPYVAEK
+FRDVNPGRAT
+>tr|A6CPQ5|A6CPQ5_9BACI
+MPSNYKKRLVRYPLYGLAAVSVLVLAATALYNWWIAVIGFFLLAGVFYIAFYYEKKTYQS
+TEEYISTLSYRLKRVGEEALMEMPIGIMLINDDYYIEWTNPFMASCFNEDTLVGRSLYDV
+ADSVVPLIKQEVDTEVVTLNERKFRVILKLEERLLYFFDVTEQTEIEKQYEEERTAIAII
+FLDNYDELTQGMDDQTRSSLNSMVTSILNKWAKDSGVLLKRISSERFIAVFNEKILQQLE
+KEKFSILDDVRDTTSKQNVPLTLSIGVGTGVSTLPELGTLAQSSLDLALGRGGDQVAIKQ
+PNGKVKFYGGKTNPMEKRTRVRARVISHALKELMIESDKVIVMGHRLPDMDAIGAAIGVR
+KVAQMNQKEGYVVVNFNEIDNGVKRLMNEIKSTPDLHSKFITPEAALDLMTDDTLLVVVD
+THKPSLVIEERLLQRAERVVIIDHHRRGEDFIKNPLLVYMEPYASSTAELVTELLEYQPK
+HEKISMMEATALLAGIIVDTKSFTLRTGSRTFDAASYLRGQGADTVLVQKFLKEDVDTYI
+KRSRLIETVDFYYEGVAIAKGEEDVIYDPVLIAQAADTLLTMDGVVASFVLSKRTDDLVG
+ISARSLGEVNVQIIMESLQGGGHLTNAATQLPGITVGEAENSLKMVLDEYFEGGKES
+>tr|A6CPI6|A6CPI6_9BACI
+MKKGGASMIELQYFTEEDFDQLIGWFDSKREYIQWGGGGFGYPLTRSKLHTHIEGANEQD
+SKKLIYKVVETDSGKAVGHISLESIDRENRSARVCRVLVGEDSMRGKGVGEAMMNEILKV
+AFNQHKFHRVSLGVYDFNHSAIKCYEKAGFQREGLKRDVQRYEEEYWSLWEMSILEDEWN
+KKVDIL
+>tr|A6CR09|A6CR09_9BACI
+MHISHVSLINKMEQELLKAKKAERPQNIREHISSIKALCEVMLENESVGSTQPVFSNQMP
+AQQMAMPVSSQQPQSVTITEESKLETEDGANGDSLFEF
+>tr|A6CR25|A6CR25_9BACI
+MVGTFILTAAALITKILSAVYRVPFQNIVGDIGFYIYQQVYPFYGIALALSTYGFPVIIS
+KMIAERQEGKNDKEVQAVLRSSFLFLSVTGVVWFVLIYFGAGPIASLMGDPQLQGLIELI
+SVTFLLLPFISGLRGFYQGAGNMVPTAYSQVGEQLVRVVTIISFSAILTAQGYSLYMAGA
+GALFGSITGGLACIVILVTFLWKDKNRLLRPFPIIKGGGHREIWSRLFKHGTAICVSGML
+LVLLQLIDALNVYSLLLNSGVSENTAKQLKGIYDRGQPFIQLGTVVSTSLSLTLVPLITA
+AFRKGETSEMNKKIRLALKIGSLAGFAASLGLINIIKPTNAMLFQNSAGSDVIAVFCLSI
+LFSSVILTISAILQGIELIYFPALTILGGLAVKFGLNILLVSRYGTMGASISTVIALGII
+ALILVVRLKKQFTILFLSSRFYTVTTIAGIGMTAALQLYSYLFTILTGAESRMLATVQSL
+TGVAIGGIIFLLIILKGKIFSEEELGQLPMGDKLNSVSERIK
+>tr|A6CLY7|A6CLY7_9BACI
+MELDSVMLSRMLTSVTLAFHIIFATIGVGIPVMISIAEFIGIKRNDGHYILLARRWARGF
+TITVAVGVVTGTAIGLQLSLLWPSFMQVAGQVIALPLFMETFAFFFEAIFLGIYLYTWDR
+FKNRMVHWLLTIPIMIGSSASALFITMVNAFMNTPQGFELSGGKAVNIDPIAAMFNPATP
+TKVFHVLTSAYLTSALVLAAITAFFILKNKGSAYHRKALRLTMVCGLIFSVGTAVAGDVS
+AKFLAEYQPEKLAAAEWHFETESNADLILFGTLDENNEIHNEIRIPGFLSFLAGNSFDTE
+VIGLEEFPEDELPPLFVHYLFDSMVSIGMFTLFITSLFVLFWKWKKRNEWNKPLLWGIVA
+SGPLSMLAIEFGWIYAEVGRQPWILRGYMKVAEAATKADGVGLTFVLFVILYIILAIFCV
+TVLIKMFKNKPPEIEYEQRFADGKFQ
+>tr|A6CT30|A6CT30_9BACI
+MKRRKGIMDLFTILSEQNIKKAYENGEFDRLPGFGKPLNLEDESSIPEELRMAHRIMKNA
+GFLTEENALRKEMLRIEDMIRDCEDQLEQEGLKKDLNEKLLKFNGLMSKKRINTNSSIFK
+NYEHKIEKKLL
+>tr|A6CU36|A6CU36_9BACI
+MGDFVHTWAVQPSESVSHAAHDLLYLIVFSDKKMTQMEPKIPLSHFFKSN
+>tr|A6CIZ6|A6CIZ6_9BACI
+MNFNLQKAKLLTVNLQGFIDLVSRIHDQQSNIVVNQDILYRLKLLVEEFRLQLLADELKR
+LTKFDGEERQTLLNTEKVNEKIIIIDDFIQQNYDDLFIFSGRVHSIRSIISMLKK
+>tr|A6CIU0|A6CIU0_9BACI
+MLNSSAVTDFALHYEPNPYKPKKEYIKVDGYIEYVQLREGRTAFFHQGINKLNQNEGYIK
+RKGSNSI
+>tr|A6CQD7|A6CQD7_9BACI
+MRINHNIEALNTFRQMGAANKGMANSMEKLSSGLRINKAGDDAAGLAISEKMRGQIRGLE
+QAGRNAQDGISMIQTAEGALNETHSILQRMRELAVQASNDTNNTDDRKAIGDELVQLKDE
+IDRISSTTEFNGKGLLDGSLSTGLHASNGAQVGDSLTTSAANAISVSKIDVSGAVAGTNY
+TFSDDDSGKLTLSATISGKTVSQSIDVADMTTSGKQTLDFNTLGISIELTGGGTGDTGTV
+VANDITSDLVSIDTAAGDGSAKFLVGSNGTNTQETISFDFKKLDSSTLGSETNFSETTAG
+TGNGGNIHNLITDNTSVDSKDKSDALIKVLDDAIIDVSTQRSAMGAVQNRLDHTINNLGT
+SAENLTAAESRIRDVDMAKEMMNQTRESILAQASQAMLAKANQNPQGVLQLLR
+>tr|A6CM13|A6CM13_9BACI
+MVKYEASLKEKVLIMEHLLNKQVQEIEISGIRKFFNMVADIDDMVSLTLGQPDFPTPLHV
+KEAAKAAIDEGFTSYTHNAGFLELREAASEFYKKKYNVSFDPSSEVIITNGASQGIDSTL
+RTILNAGDEVILPGPVYPGYEPIVRLCGASPIIADTVPNGFKLDAGVLKKYITTRTKCII
+LPYPSNPTGVSLTADELKEIADLVRGKDIFILADEIYSELTYDRKHTSMASFLKEQTIVI
+NGLSKSHSMTGWRIGMVFAPENLAKHILKVHQYNVSCASSISQKAAFEALTEGINDSDGM
+KAEYKIRRDYVSKRLTEMGFQVILPDGAFYFFLKIPDYFKADSFTFALTLAKQYKVGVVP
+GNSFSSAGEGFFRLSYACSMEELYKGMERLQAFVEDTKPTSEGSR
+>tr|A6CM73|A6CM73_9BACI
+METYTSNIVESDKGWRIWWQLTRPHTLTAAFVPVLLGTALAVQYGEIDWLLFLAMLTASI
+LIQAATNMFNEYYDYARGLDNENSIGIGGAIVRNGVKPSTVKGLAFGLYGISFLLGLYIC
+ANSSWWLAVIGLVCMAAGYFYTGGPVPIAYTPLGEIVAGFFMGIVIILISFFIQTGTVTS
+LSVLISIPIFILVGMILMANNIRDLDGDKENGRKTLAILIGRKNAINLLGAGFALSYIWV
+AALVIAGFFTPWLLITLISIPKAFKAYKGFIGKTMPIQMMPAMKATAQTNTIFGFLLSIG
+LFISYI
+>tr|A6CSJ7|A6CSJ7_9BACI
+MLQKCEGIVIRTNNYGESNKIVTIYSRENGKLGVMARGAKKTNSRLSSVSQLFTYGYFLY
+QKSSGLGTLQQADTIASMRNIREDLFKTAYATYVVDLIDKGTEERKPNPFLFEMLFQTLT
+YINEEYDPDIVTHIFEMKMLPVLGLHPSLDKCAVCGETEGEFSFSFKENGIICHRCIGND
+PYHYKVSPQTIKLLRLFYHFDMNRLGTISLKESTKEELKKIIRTYYDEYSGLYLKSRKFL
+DQIDRMKDLM
+>tr|A6CMV9|A6CMV9_9BACI
+MKKFEEKTLKTEKIYQGKIIDLQVDEVSLPDGKTSKRELIKHPGAVAVIALTPEGKIVMV
+EQYRKALEQSIVEIPAGKLEKGEEPMKTAERELEEETGYACKKMKPLISFYTSPGFADEL
+VHLFIAEDIYQLENASEADEDEFVELLEVSLEEAQTMIEEKRIYDAKTAYAVQYLQLKEA
+LKGQ
+>tr|A6CIP4|A6CIP4_9BACI
+MSFPIRTSDGYNLLGIIGSMLFLITIGLIVFGLKKYRLRTLVIISIIYAFLPKMLIYSYQ
+ETLANGIAAVSLSENGSCHFEEASEDIMTGECSLVLKNHSSEDVTFKLEFIDSDWDGNYR
+AESLMNKNGPYTISIEANRQKQIDLKELLDVSEIPNRIHSGSSSYIHIKINDGEKTRIL
+>tr|A6CT47|A6CT47_9BACI
+MAGSTLTITDLHVEIEGKEILKGVNLEIKGGEIHAVMGPNGTGKSTLSSAIMGHPKYEVT
+KGSITFDGEDVLEMEVDERARVGLFLAMQYPSEISGVTNADFLRSAINSRREEGQEISLM
+KFIRTMDSSMEELEMDPDMAQRYLNEGFSGGEKKRNEILQLMMLQPKIAILDEIDSGLDI
+DALKIVSKGINKMRGEEFGCLIITHYQRLLNYITPDKVHVMMQGRVVKSGGPELAKRLES
+EGYDWIKEELGIKDETVGQEA
+>tr|A6CKV0|A6CKV0_9BACI
+MIALFRTKTDLSRVVRTTIVLRNFGLRYGGSSNNVSATPFKAVLDSKQETARITMIPNIT
+IPTTTPAIWLYHFILLLSGAIKNSAGHNRLKALYIEFKSYINLLIDEF
+>tr|A6CME8|A6CME8_9BACI
+MDLNYQPDLNGYITEFLMYSPDNYQETMSFYFFSEDSEKVEEYYTLESPLAPSETQIITF
+EFHEFTVMLYPVDLSSNHVRFFILDIEEL
+>tr|A6CSM0|A6CSM0_9BACI
+MAKYTKDDIMKSAADLANMIAETEEVDFFKRAEAQIHENQKVREMISSIKSLQKQAVNFQ
+HYGKTEALKMVEAKIEKLEEDIDAIPVVQEFKQSQVDVNDLLQIVASTISNTVTDQILTS
+TGGDLLRGETGSHVKHSTPGSC
+>tr|A6CUG4|A6CUG4_9BACI
+MLRKWAFRAVLLYLLLGIFFYAYLYFLADSSLPHVYKGSSADPETFMNGRELMLSEEYSK
+IKNLLFFLSTPYEWLFYFLILILGVSRSFERWSQATSKFRILQTAVYLFWLSLLSNVVIF
+PFQYISYRISRSYDISTQSFSQWMKDELTDFWVNYLTMFIIITVLYWLIRKFPKRWWLAA
+WSLSVPFTIFMMFIQPVLIDPLYNDFTPLKDKVLEAKILSIAQQANIPAEHVYEVDMSSK
+TNSLNAYVTGVGSNSRIVLWDTTINKLSEKEILFVMAHEMAHYVEKHIYIGIALYLA
+>tr|A6CIB5|A6CIB5_9BACI
+MEKGDKEDFEKVTESDGNHPAFSRCELVK
+>tr|A6CU40|A6CU40_9BACI
+MLKSKSRWLVKDHGETNSKKLQEKLNISPIVSKLLANRGIHDIEEARTFLYGEEQPFHDP
+YLMMDMDKAVERVKKAIEYGEAILIFGDYDADGVSSTSTMMQTLLDLGAEAHFYIPNRFT
+EGYGPNENAFRWAAGEGFSLIITVDTGIAALKEAQLAKELGVDLIITDHHEPGPELPEAL
+AILHPKREGSTYPFTDLAGVGVAFKFAHALYGSLPEHLLDLAAIGTIADLVPLKGENRAI
+AKKGLVKLRTSKRPGVIALCKAANAQMNEITEETVGFAIAPRINAIGRLGDADPAVDLML
+SEDMEESMAIAQEINGINDERRSIVTEMTQEAIEMVENEFPLTHNSVLVIGKEGW
+>tr|A6CP69|A6CP69_9BACI
+MKKFWLGAAGLLLAVTIAFVYFKQPAVKTGAQSTDRNIVLTDKSWNLEFSEPINKINDDS
+FYVVDNKGERVPVNVTFSEDRKSVTIHPPEDGYSTEPEFFTLHISSEVKSSLGLPVRGDK
+TVEFAVVPTLPQVKSKEELNQYFKYAIKREKENRPKFSMFDGTATEESADDAGGNTMMKS
+ESASGEHSTTNNQVQGVDEADIVKTDGTYIYQVASQKMIITKAFPVSEMEVTSSVSFDHN
+FSPQHLFLQENKLVVIGNSWNDDYQAEPLPGKKSAELMIMPMHGMMKTFIYDISDKKNPE
+LLREFAMEGNYVAARKVGSFVYLVANHYPNYWILEDKENVELRPRITDSMHGEEPILLNY
+DDIKYMPQSTETNYTLFAAINLDKAASEINVESYLGSGHQIYMSKNNLYMALTRYNPARE
+SAWESADTEVYKFLIDQSRIDFTAMANVKGTILNQFSMDEHDGNFRIATTKGNSWGDEST
+PSTNNLYILDENLKHIGEVEDLAKGERIYSVRFMGDKAYMVTFKQVDPLFVIDTSDPYSP
+EVLGELKIPGFSSYLHPLDENHLIGFGYDTKLVKDDKMQNTEPRVLTAGMKISLFDVSDF
+HNPKEQDTELIGGRGTHSYLLEDHKALFQHQGRNLFGFPVSVYHEKEGSMYEQVFDYQGA
+LLFEITPENGIVHKAKMVQSEDNEIYERWENQIQRMLYIDDNLYTLSPEIIKAYNIGDFS
+KIQELEIQ
+>tr|A6CPF7|A6CPF7_9BACI
+MIRGKTMKTNNRLPEDRLLLELMDLMGREILVITEAPQLNLLGQTFRPIFCGTLAEVGRG
+HITLDPVIFKIVNAPFYEFPMPISIPLEKIVSFTTEIPCDTVFPLT
+>tr|A6CLV1|A6CLV1_9BACI
+MLNVTVWNENRHEQKSEKVREVYPEGIHGAIASFLGEASFNVKTATLDEEQHGLTEEVLK
+ETDVLLWWGHIAHEEVSDEVVERVRQRVLDGMGLIVLHSGHFSKIFKVLMGTSCDLKWRE
+ADEKERIWIVEPSHPITEGLGEYIELEREEMYGEHFDIPAPDELVMVSWFEGGEVFRSGC
+TYKRGNGKVFYFRPGHETYPTYHNKEVQKVIVNAVNWASPVKRERPVYGNAKPLETIKGS
+K
+>tr|A6CI78|A6CI78_9BACI
+MRRDYMERSNFLAVDIGNSWYKVLASTDGVVSEYQMPNAIALFDDEFYEMPYEEEDVEIE
+ENLIVEVKSPSVMNKREIFYAGKSAARQRNVSLTSVNNQKVDEVRTYILLFSAAAYHALL
+TSENEMDIVYEIDQLAVSLPTTQYKEKKEQLKQRLIGSHTVILHKVPGVPEPKEVCVKIK
+INDVIVGAEGACAYLGLTRDQETLGIKDDGLVKDSAKGILIGDLGGDSVDFVGIKNSKPV
+ASVEGEHFGINQFLDIIIQKVSKNELYKFDSRSELEEKLYAGQSEWYVEPFAGVRKDISK
+YVIPQLKSMAIKYLELFDRVRSSSNEIKGASRYIAVGGAAKLAQKQIQEAAVRWSEKGRP
+INLYFPEDLEKLNVLGLMILAKMNHLKKQQEETTDLAATRG
+>tr|A6CIR8|A6CIR8_9BACI
+MSSGKDDYIVGLASKEVDKVMLGSKEAELITMGKEDIKAFLFHSLEPDLMERTDYEYFDK
+EGNELPY
+>tr|A6CLP8|A6CLP8_9BACI
+MEVVKMQGKMAEANNNQQVEDFFPVRDVDYLEYYTGNAKQAAHYFCTAFGFKIVAYSGLE
+TGNRETVSYVLQQNKVRMLVTGSLTESSRVASFVKKHGDGIKDIALVVDDVEKAYSEAVS
+RGAIEITPPMTLSDDNGTIKKAIIGTYGDTIHTLVERKDYKGVFMPGFEAMEMKIPFKDA
+GIIAVDHVVGNVERMEEWVSYYEKVMGFKEMRHFTNDDINTEYSALMSKVMHNGGRIKFP
+INEPADGKRKSQIQEYLEFYNGPGVQHIAILTEDIVETISILKENGVEFLDTPDTYYDML
+SERVGEIDEEISKIKELKILVDRDDEGYLLQIFTKPIVDRPTLFIEVIQRKGARGFGEGN
+FKALFESIEREQERRGNL
+>tr|A6CUC0|A6CUC0_9BACI
+GAGGTQRLPRLIGESKAMELILTAKRLKSEEALEIGMVTKVAPAESFMEEVLAFANTILS
+NGPIALQQAKFAIKNGMNTDLQTGLQIERKAYELTIPTEDRVEALTAFSEKRKPQFKGK
+>tr|A6CU08|A6CU08_9BACI
+MNAFYTLNARKIKQGVLILVISFFTALFIFTGSLSALPVFSTEDGPKAIYKGDKGISLTF
+NVGWGDEKAEPILEELKKQGVPSATFFLSGAWAERHPDIVAEIVKQGYEIGSLGYAYKDY
+SEMEDAKVRQDILKAQEVFTKLNIKDINLLRMPTGHFDKRVLAIADKLGYTVVHWSINSQ
+DWTNPGVDQIVENVASAKKGDIVLLHASDSAKQTQKALPQIVKSLKSKGEFISVSEMIAN
+GKTKTTLVP
+>tr|A6CNN2|A6CNN2_9BACI
+MAHSGIVIWEYNANWGVEFESIKGVIKNRLGDSIIAIEHVGSTAVPGLGAKPILDIDIVI
+EGYEIFPKVVFALERLGYFHQKEWSFEGREAFGRKDESVPWTREGSSWMQHHLYVCDEQS
+SELAKHIAFRNYLRGNPQAAYEYEKLKRNLAKIESQRPSYTSGKTEFIQSILGKIMEKEG
+D
+>tr|A6CIT1|A6CIT1_9BACI
+MGQSGPLHVSENNNISNTAIYKHMKKFKPYTQNKQIGYQQLKEV
+>tr|A6CUF1|A6CUF1_9BACI
+KVILPGLRGTSTWRNHKKKESAQSKWSFDRVESDKKVIRPGQNGIST
+>tr|A6CMF0|A6CMF0_9BACI
+MEDFFGILKQEMYYGEKPVGYEELN
+>tr|A6CSC8|A6CSC8_9BACI
+ESAGEQGQEEQSLYEQIQENGELLIGTEGTYPPFTFHDESGELTGFDVEIAREVASRLGV
+EPVFKETQWDAMFEGLNSNRFDMIANQVGIREDRQEKYDFSIPYIESSAVLVASKENEEV
+NSFEDIDGLTSAQSLTSNYKDIAESYGAEIQGVDGLAQAIQLVEQDRVDVTINDKLSILD
+YLQKQKNVGIEIVATEENAAQSGLMFRKGNEKLVEEVNKALEEMMEDGTYAEIADKWFGE
+DVSPR
+>tr|A6CTM6|A6CTM6_9BACI
+MENFYLFVIMSAMLILLPGPDTAIVTKNTLAGGSTKGIQTLLGTICALLIHTLAAVAGLS
+AIIVKSAVLFSFFKYAGALYLVYLGVKSILSLRKSSLTEELSQDNKYKNKSYFKQGFLTN
+ILNPKVAVFFLTFLPQFVNTGSEPLVPFLLMGITYAVLTAGWFLLYIFLINQISTFMKKP
+NTTKVIEALTGTVLIGFGIKLAFEKVQH
+>tr|A6CM42|A6CM42_9BACI
+MKKERNHYFDNAKVILIFLVVFGHFIRSFIENDPYVLALYKTLYTFHMPAFIIVSGFFAK
+GFYKKGYIPKLVKKLILPYLLFQVIYSIYYYFLYNKHSLTIDIYNPQWSMWFLLSLFCWN
+ILLYLFVRKWKLPQNKGLFIAFAVGISIGFVDGVSNYLSLSRTFVFFPLFLLGYYMRKEH
+FSKLRMGKVRIAATVIPAAVLVFMFLVPEFSDKWLLGSKSYEQLGGKDLLSPLARSMVYV
+LNIAMSFSFFAFVPKSRHFFTKWGASTLYVYLIHGFFVKFFRESPYQDLLPPIQSITLLV
+AASFILTVVLSSRPLTSLTQPLIELKTSKLTELLKDLKNSKKKYIEQTKF
+>tr|A6CMF3|A6CMF3_9BACI
+MKEFHEQGVEGLKPKLKGRPSMTKKANKQKKKEEKKVTREEELERENELLRLENAYLKKL
+RAFRENPNAFHEKHKQKWHLISKKKDSD
+>tr|A6CKG9|A6CKG9_9BACI
+MENRIPIYIVLTLLSITFMLTAVEFIKGRKDKGGYKYIVGAVVMLFAAMVFFIK
+>tr|A6CMX9|A6CMX9_9BACI
+MLIRYKKAFEKIAMGLLSFMPQEKELKKLQQTMLNYEQEDDWQLFLWKDEDIVGLIGVVI
+EEDAIEVRHISVNPSHRHEGIGKAMLRTLSDIYSNKVLKPNDHTAAFFEKCDLDNKEEEI
+K
+>tr|A6CNA1|A6CNA1_9BACI
+MKFDTKVVHSTLHDRSIKSKTTPIYQTSAFSFSSLEELEGFYEGNSPYLYTRSGNPNTDE
+LGDMVAVLEGAPAGVAAASGLGAILAGILAVAESGDHIIAAEDIYGGTYHLLNEELKFFG
+ITVSFVDFSDPQEIENTITPQTKLLYSESITNPFLRVENIKRMVTIAKTHNLYTMIDNTF
+ATPYLMTPYKDGVDIVAHSATKYIGGHSDVTAGVTVGSQELITKARNKVINLGVNLSPHE
+AWLTVRGCKTLSLRMKQQCENAAKLAQALTGYQGVKSVYYPRNASEKGNGAIVTIELSGQ
+NDIHRFFTGLSWVKIVPTLAGVETTVSYPQGTSHRALSPEAREKIGVNSHVVRISVGIED
+SEDIIKAFKDAVDSSK
+>tr|A6CIN4|A6CIN4_9BACI
+MKIQEIGSLLDKVREVNPLIHNITNVVVTNFTANGLLALGVSPVMAYAHEEVAEMAGIAG
+ALVLNMGTLTEKEVKSMLIAGESANTHEVPIIFDPVGVGATTYRTETAKRVLSELNISIL
+RGNAAEIANAAGQQWDIKGVDAGEAKGNTHELAKTAAQELRTVAVITGKQDVVSDGETTY
+LVNNGHPLLTKVTGTGCLLTSVIGAFSAVEKDPVKAAVAALVVYGTAAELAAGAIGDQGP
+GTFQIELLNSLYNINVSDVVKRGSFEKISQ
+>tr|A6CS16|A6CS16_9BACI
+MALFEKQRRPDEQQMLNRSPLFYLRFFLFIIKVKRGTFKNISSPSHIYSVVYMHQNNKLV
+>tr|A6CSH2|A6CSH2_9BACI
+MPFSTLPSSLKTSYEEEGIVMTKICSWRMVVFWIDLFVSIDGLSEVADFYSYCATLWEEY
+YTKLILEKV
+>tr|A6CP13|A6CP13_9BACI
+MSTVKEQNFEVLETKREHYGMIINGERTDSASGETFTTYNPATGEAIATVAKATTEDAER
+AVQAARDAFDKGKWKKFPVNKRQRVMMKIAGIMRSRFNELVSLEIMDSGKSLSAAQGQVM
+QAIEDFEFYAGAIVGHRGSVNNVPGQFSNVAEKEPVGVCAQIIPWNYPMMMAAWKIAPAI
+AVGCSVVVKPASLTPLTAIVLGEICIEAGVPQGVVNVIPGSGSTIGNYLVEHDQVDKVAF
+TGSTPIGKNIMERASQTLKRVTLELGGKSPNIVFDDADVDAAVDGSLFGIFYNTGQSCEA
+RSRLYVHEDIYDEFMEKFVAKTKQLSLGDPFDKGTHIGAIIDDSQVKTIDGYVQSAKEEG
+ATILTGGKPATVEGFENGHWYEPTIITDVNHEMKAVREEIFGPVVVVMKFSDEKEAIKLA
+NDTVYGLGSALWTKDHAKATRVSKAIQAGIVMVNCPFSAFPGTPFGGYKQSGFGRELCIE
+TLDLYTETKSIISYFGSRPLNPFGL
+>tr|A6CTQ7|A6CTQ7_9BACI
+MKKWLAASAAALLLSGCAPAFEKQEQVVEEDENQQSETAIIPNYQISDEYYKTLLPYEST
+DTRGMVVNNLQSRYDIDIFESGLVRMAKNVFPTDQYLFKEGQVLDKETIQSWLNRKFTSE
+QLEEKGLTEEQNVGLNPVENTPGEEKDTPIYLAHMIEHNYLEKVEDSKIQLASVVVGLAL
+NSVSYYQDQNTGETRQTDISHEEVRQQGTRIAREVISRLRDKPELDGIPITIALYEQSSK
+GSVTPGNYFAYATVNAGNDTIGEWKNVNEEHYFFPSEQAERAYPEDMKVFNEFREKVENY
+FPNYVGVVGYAFYQKDQMESLEIDIPIQFNGKAETIGFTQFTAELAAELFPKGTSVEIEI
+TSADGVESLIVLKQQGEPFVHIYE
+>tr|A6CID2|A6CID2_9BACI
+MSGPFAPDPMFQIVPIFIGIIFVIVIGGILFSVIKGIGQWQKNEQSPKLSVPAIVKSKRM
+NVSRRANMHDHGDSHHHHSSRSQTRYYVTFEFESGDRKEFHVSGQEYGLLAEEDLGKLTF
+QGTRYLGFDRRIKEEVT
+>tr|A6CRT7|A6CRT7_9BACI
+MKRGNVWLAAAGLLVDEEGRWLVVKKKYGGLKGMWSLPAGFVDEGETLEQAAQREVKEET
+GLDTHVSGIIGIRSGVIKGKISDNMVLFLLTRKDPSQKPIPCENEISEVKWMTKEELLKN
+EETSVMIHEMIKHDFKLLKSGLDPIDPGEQFGYTSYKLFF
+>tr|A6CQR6|A6CQR6_9BACI
+MRDQSDKQTGLIVTMEAFLEKFSAAVSVFCFNFPEFIKGNEE
+>tr|A6CNN7|A6CNN7_9BACI
+MKTFNKPELISGVLWRGKIMRPLRQLVRFGWQQALSCLFPCVIFIALALTKIIPLPILPR
+YDWLLIICLLMQWWMVRSGLETRDELKVITMFHLIGLALELFKVHMGSWSYPEEGYSKFY
+GVPLYSGFMYASVASYLCQAWRRLKVELVKWPSFSVVVPLTTAIYLNFFTHHFWIDVRWW
+LSGAVIIVFWRSWVAYEVGGRRYHMPLVFSFVLIGFFIWVAENIATFFGAWEYPNQTEAW
+SLVHLGKVSSWLLLVIVSFLIVATLKFAKKRGSTTTSTVQFL
+>tr|A6CRC7|A6CRC7_9BACI
+MERIQVIGKLDEILGTYCEGCLLKAHFRKEYGKNYAHRFCIEKCTVGQKVKELGRHLK
+>tr|A6CQB6|A6CQB6_9BACI
+MNSVKEVVKVGIADLKIAQGGQSIRTSGLGSCVGVVVYDEGLPLAGMVHIMLPSSSLAKD
+NGFNLAKFADTGVAELVKIMTHQGGRSNRFKAKIAGGAQMFQLTSGSELMRIGPRNVEAV
+KQALESFGIPLVAEDTGGNNGRTIEFHLGNFLLNVRTVNMGIKDI
+>tr|A6CK02|A6CK02_9BACI
+MSGKPIKKRSGPSTALFYEEVNLMVKDIIIEQKRRVADWAQPFKQLPDDLWFQPFKERS
+>tr|A6CPJ6|A6CPJ6_9BACI
+MDILSIFLGIFVVLNIAFASVVVFLERRDAGATWAWLMVLLFIPVLGFVLYLIFGQNLTR
+KRLFQWDDIKKIGIEELISRQVKEIKDEHFAFRDSTISTNKELIYMHLMNNEAVLTQDND
+ITVFTHGEDKFDALINDIESAKNHIHFQYYILRRDALGKRILSALAAKAEQGVKVRVLYD
+EMGSRTLNKSFFRELIKAGGEVEVFFPSRIPYINPRLNYRNHRKLVIIDGVVGYVGGFNV
+GDEYLGLNPKFGYWRDTHLRLEGSAVLAMQTRFILDWNQASASRNIHLEHRYFPEANFKG
+NAGVQIVTSGPDSEWEQIKNGYIKMISSAKESIYIQTPYFIPDASLLDALRIAALSGIDV
+RIMIPNKPDHMFVYWATYSYIGEMLKAGARIYIYDNGFIHAKTIVVDNETSSVGTANIDV
+RSFRLNFEVNAFIYDIELSQELGSIFHDDIQLSRELTMEEYLKRPLWIRFKESISRLLSP
+IL
+>tr|A6CM61|A6CM61_9BACI
+MILKERVEKDELKILRSLDARTKLSEVVKTNLISSEKGYQGELKFDQWAIPLHKKNGVSE
+RFAD
+>tr|A6CT93|A6CT93_9BACI
+MVSKREKSYSPCSKRKKPGENPALRILPKATIYKKTAYYYYENKKKIYQKNVVIYLY
+>tr|A6CJF4|A6CJF4_9BACI
+MPGTFPGMFFEGKFSHCYTEEKGMRTMYEYY
+>tr|A6CNL7|A6CNL7_9BACI
+MILEDKRRPGMVLEKVIKKINIQSEYKTFVEEYTASLLSEFNGKIHSIYMCGSIPKGTAK
+PFKSDADFTIVCERPGDIDYDRVSCLKDQILQKYRLVTKIDTVICSLDDVRSKPNEWGFW
+IKIICVCIHGTDIGEEVPPILISPEFILDLNSDTQEAVYRVRGFLSNANDDTLKSRYTKG
+YSKRLIRALYSLVLEDTGVWQDDITKMNSAISDYCTIDSALVDYLYACYLDSNVDVEEFL
+GIAEEVYSYIEKALTALAASRTTPSEI
+>tr|A6CLL2|A6CLL2_9BACI
+MSILTVKNLSHGFGDRAIFNDVSFRLLKGEHIGLIGANGEGKSTFMNIITRKLEPDEGKV
+EWAKRVRVGYLDQHTSLEKGMTIRDVLKTAFQYLFDMETEMNDLFAKMGEASPEELEKLL
+EETGTLQDALTNNDFYVIDAKVEEIARGLGLDDIGLEREVQDLSGGQRTKVLLAKLLLEK
+PDILLLDEPTNYLDEQHIVWLRRYLQEYENAFILISHDIPFLNSVINLIYHMENQELTRY
+AGDYDDFKKVYEMKRQQLESAYKKQQQEISELKDFVARNKARVSTRNMAMSRQKKLDKMD
+IIELAGEKPKPEFHFKPARTSGKLIFETKDLVIGYDEPLSKPLNLRMERGQKIALYGANG
+IGKTTLLRSILGEIKPVSGEVELGEHLHIGYFEQEIKNANYNTCIEEVWTEFPSFTQYEV
+RASLAKCGLMTKHIESKVEVLSGGEKAKVRLCKLINKETNLLVFDEPTNHLDVEAKAELK
+RALQEYKGSILLISHEPEFYQDIATDLWNCESWTTKVF
+>tr|A6CSX8|A6CSX8_9BACI
+MYRIAISTKSEYEIDCNYFFPTIISKICIYIFNKHEFTQLVKKCILLKQQFTTDLQMKKT
+PLNRGFFSKD
+>tr|A6CMB9|A6CMB9_9BACI
+MELLEIEQIHHTYFTPNSATTALENISLTVQEGEFVSFLGPSGCGKTTLLSIIAGLFKPS
+AGTVKIEGNTLEKSRHKIGYMLQQDYLFPWKTIEENILLGLKTMDLLTSEKKNWALNLLD
+EIGLEGVSKQFPNQLSGGMRQRAALVRTLAVEPKLLLLDEPFSALDYQTKLKLEDLVFET
+LKTFNKTALLVTHDIGEAIAMSDRIVLLSAKPGRIHQIFDVPEELRKSKPFQSRNHEAYS
+DCFQLIWKELETLESTK
+>tr|A6CKE9|A6CKE9_9BACI
+MTSLAFDHLVHFSSDPTSAKNTMLQHGIHVIEGGKHENWGTYNTLAYFGLGYIEWLGIQD
+RSVSIQVDDNPLIQQLVTELPLGDHPGRIALRTNNMDQLAVELKEKGLKLHGPVKGSRLT
+ESGELLQWSMLFIKEEHPTLPLPFFIQWGEDDAVRREKLKVHSSHPAGSLQIKDVLFAVE
+DLDDKISRWSSLFDLQIGEAFTNEKWGAKCQRLYLPHGNLLFCTPIEDGIVKDYLSAFGE
+SPFGLQLGNGRQNQSILLQGGIYEVSEE
+>tr|A6CP05|A6CP05_9BACI
+MQGEGLGLIKGENWLILHEIETSERHEIERVQLERLQETLSNVYSKVPFYKERFEERGIR
+PEDIKTLHDLKLLPFTRKADLRNHYPFGLFAVPTNELVRVHASSGTSGKPTVVGYTQNDI
+EMWSEIVARSIAIGGGKPGEILHNAYGYGLFTGGLGLHYGSEKLGLVTVPVSGGNAERQI
+TLIEDFKPSVICGTPSYILNIAEKMEELGKDPAATSVKYGIFGAEPWSEKMRQKIQEKWN
+LKACDIYGLSEVIGPGVAMECHEAQAGLHIAEDHFLPEVIDPVTLESLPPGEEGELVFTS
+LTKEAFPIIRYRTGDIASLSYGKCQCGRTTVKMSRVKGRVDDMLVIRGVNVYPSEVEHYL
+LTVEELTPHYQLHLTRKGTLDSVELHVEIKEEVFLGLQQNLEHESIHLLIKKIQHIMKSS
+CLVTMDVKVNGPKSLPRSEGKAVRVLDKRDSEVGV
+>tr|A6CPT3|A6CPT3_9BACI
+MKIASVIVDVPTMQTDRVFDYSIPELWQGQILPGMRVVVPFGPRKVQGFVTGIKASSEAK
+RLKDLVQPMDLTPVLNEDLLKMADWLTEQTLCFKISALQVMLPAAMKAKYEKKIILNPVK
+RELLSEEAADLFTNKEEVSWKDAEEAGILPLLQKEIKAGHLDVFYSVKSKGKKKTVQKIH
+PAVSKEKIMEEIESLPPNADKQKAVLQYFLSRESGEGVTTKEAADAAGASAATIKSLVDK
+GVLIRKQQEIYRNPFAHKEFKKTRPFPLTDEQKQAITPILHSIEQNKHETFLLYGVTGSG
+KTEVYLQSIQEVYDKRKEAIVLVPEISLTPQMVDRFKGRFGNDVAVLHSGLSAGEKYDEW
+RKIQRKEVKVVVGARSAIFAPFENLGIIIIDEEHETSYKQEENPRYHARDAAIYRAKQYG
+CPVILGSATPSMETFARAQKGVYKLLTLSKRMNESRLPSVSIVDMREELRGGNRSMFSEE
+LFEKLQDRLQKGEQTVLFLNRRGHSSFIMCRDCGYVAQCPHCDISLTFHRFSNNMKCHYC
+GFETAVPQTCPECESEHIRYFGTGTQKVEEELTKLLPEARVIRMDVDTTSRKGAHERLLD
+SFGEGHADILLGTQMIAKGLDFPNITLVGVLSADTMLHLPDFRSAEKTFQLLTQVSGRAG
+RHKLPGEVVIQTYTPEHYSIELAGTQNYDAFYQKEMMMRKMGSYPPFYYLSLITISHEDL
+LKVVGAAEKITKFLQSKLSKQSIVLGPAASPIPRINNRYRYQCLIKYKREPELPSILKTV
+LEHSQQQKASEGLTISIDVNPYMMM
+>tr|A6CMM0|A6CMM0_9BACI
+MKTEEQYILKTFYKTMMNDQAEHPIAVLGEAYLVEQQKDLPDLSYIRFAQGEVYFHHKDY
+EAAIFKWENIDNELAGWAQKNTADAFFELDQLSTAEEVYKAVKTECPTLKAEVALHLFSL
+YIKQGDIQSADAVIKNAVSMNPDYPDMTSVAQHFFEKNRDWHSAVELAVNEAIRTEELQW
+FETLKGYINSGVTRDITPGYFMEGLFTLSTIDKLLLEQIISSLWHSYRDSDMYEEWIGKV
+NLLIVDIDVGSGESWMELSSLYKETYEMLISSGRFIKELQPLVPKLLMAWVNITDSKHTV
+YAASALLSWEELFPKSVDGWAVKKAKNLMGKAGVKSNGFNQTLSLLDEILEWTQHQDVKV
+DSRYQWIIKELKNTEVHRLLVSGSSEEEVYSFIDRVAGSSIFNQLPSTPVLLKHNSSTQY
+RRISDKGIVTLDSKEEFQDESMLLRQPGTVWLQQEQPSAFLQENKLTCLLASNVTGDSVL
+NMSDSILYVIDGKERLTENVFKGLVVVKEKNPDLKVNVLLSVSQGKVQDETVSETKSLLG
+KYFPDANVFQASSLEDLSAIARFHFRSPSEDDRTENLLYYVKDILKDLLRQRVDRENNLI
+DSIQWNKDMEKKLNGAHLQLQDMEAEKAAAIKSAFIEKTSQVQNRILEELPVVLKKCVDF
+IEEDSDFRTLHLSLNDEMNRRIESYLNEKAMPHLKQNLDEWIAFATEELQSGKQYLEEMR
+DSFNAMYREERLELVCDFKVLNDWRRDADRMTSKVMKDKVNILLRRNPSQVLLKSVGKLL
+GSIGQNKQMLLNQYTRFIENESYEDTAQAVMERFMGQFQLFQQSIERDVAIFFRGPLAEL
+ENTSEETKTLIADNEFELSTLKANPEAVKDPLKLFNIRQRQLELIYKNNKQPDFANANV
+>tr|A6CTG9|A6CTG9_9BACI
+MSENKSLFEAFKQTRIKTNGHGDRNAGVLKEAFEHVASDTESDMYGNGKVIEDFQVKMAE
+LLGKESSVFFPSGTMAQQIALRIWCDEKEIKKVAYHPLSHLEIHEEDGLKELHGIQSVLL
+ADKDSVITLEDIQHMKEEVAAVLLELPQREIGGQLPDFETLQSISDYCRKKGIKLHLDGA
+RLLEVLPYYRKTASEVCNLFDSVYISLYKGIGGIAGAILAGSEEFTKKSKVWKRRHGGDL
+ISLYPYIISADYYLDERADKLERYYLNAREFASFYNSCEKVSTLPEVPVSNMFHVHYEMA
+KADLEPILVDIYEKTGVGLSGYLRETGETSCYYEVSIGDVYDTIQKEKLTEVFQLLNESL
+KKI
+>tr|A6CIJ4|A6CIJ4_9BACI
+MKGLTVFLMFFHILITVFWLANSSYLFSLWGVFVWLTSIVLGFVAYKQMKEPVIVKTLIL
+ISSAFMVFLLIISGLILWAVTSMA
+>tr|A6CK76|A6CK76_9BACI
+MYIVHSTFVVPDEKADEVISIYHSRSRLVDKADGFQRFLLLQNEKKPGEITVHMEWDSKE
+QFMTWIQSEDYKRIHELEKKYPDQELASIIPSISKFKVVAV
+>tr|A6CJV1|A6CJV1_9BACI
+MKDLEAVADKLKELLGAEGEAQEGMISLELPRNLEVKVQGRPFKSETDMEIHFEAFEDDG
+TALNHAEIVLLPEEVPDFTIALGKNDIPITALHNHWLYAEPAIKYLHVQTVEKPESFAKR
+LSEAFKVLKH
+>tr|A6CHT6|A6CHT6_9BACI
+MRDRHGQRGRKTRWNLVLEGSAWSKRQKDEVEFSFGEISMVQAGERQGGF
+>tr|A6CLR8|A6CLR8_9BACI
+MESNPLTHIEEIDIETFKRDLLDWFTAEHRQLPWREDSDPYKVWVSEIMLQQTRVDTVIP
+YFLNFINKFPTIEALASADEEDVLKAWEGLGYYSRARNLQSAVKEVRDTYGGVVPSEPKE
+ISKLKGVGPYTAGAILSIAYGKPEPAVDGNVMRVLSRILTIWEDIAKPSSRKVFEEAVRK
+LISHENPSYFNQALMELGALICTPTSPKCLLCPVREHCNAFNEGVQDTLPIKTKKKSAKK
+LQMGAVVLKTEDGRFLIHKRPSTGLLANLWEFPNFELDSFGSHRKQLEEFLKVEYNVEAD
+IEHGLLTKIEHVFSHLVWNIDVYVGQVKDSSEISEKLKLVEKEELTQFAYPVSHQKIWKS
+YKKSCLET
+>tr|A6CSU6|A6CSU6_9BACI
+MGCGKRDDVGGVSTDNCVCEVVRAIKDIQDAAVNDDCLDCTTSCFLEPLGDLNSPAMRRR
+ADTRVFTLTNKNGELFKALFKQRHGECDANCVSIYFRVEEIFDNCCATLRVLDPNKDIVN
+DYGKLDFREICKVDDWKKTNNCITVDLSCFCAIQCIADRDLDICE
+>tr|A6CIH5|A6CIH5_9BACI
+MAIDPQIESTTENMTLEFNEEQNGLALVGNESDCC
+>tr|A6CIZ2|A6CIZ2_9BACI
+MKKRTRNFSSFYFPKGSDWVDKGVFILSKELNWFIMVICGVYRIFVIKSLGGFMVTIEGL
+IQQVKKYLIQKYNCHTIILYGSYISGDYTEESDIDILCFWDHTEEKNDVEMFQGKQLDVW
+VYNSDKMNQPGEFLRVHGGRILLNEKGVAEKFLSKVEVVYNDGPDKLTQEEKDFLKAWLQ
+KMYLRSEKGDLEGNYRFHWMLKDCLELYFEMKGLWFLGPKKAFKWLQVNDPSAYNLFRNA
+LDRGANHEEAKKLIQYMQEI
+>tr|A6CMY0|A6CMY0_9BACI
+MTMKYPKDYLDFITHFHCDRDYFECHEVLEEYWKETDPGNRNSVWVGLIQMAVGFYHYRR
+GNRKGAERILNKGKRILKQHSQALEDLGIAPANLQLILEETLENIHSGSEYQSVNLPLNK
+ELQAYLDSSCMNIEKQEIIPPSIIHRHSLRDRTEVIRSREEALLLRQKQKD
+>tr|A6CI59|A6CI59_9BACI
+MIIKNRSESDELKFLRSLNAMTVLEKKDKDSYLSAEKGYEGEVQFDEWTKPLVNDMVVLN
+DLLLEHQGSEFQIDSFAVASKTIFHFEVKNFEGDFIIDDGEWRSPIGKGIKNPLIQVSRA
+ASLIKQITEQSGFRYPIESYLIFVNPQFHLDNPPAKTASIVYPTQISRFFKNSKTEIYER
+VRQISGSRRSYCRSIKSRRIFPVCRSIGLRICGRGFCVRGV
+>tr|A6CIZ1|A6CIZ1_9BACI
+MNKGWDPLVISLYRGAVGFICFFVWFLFRFRQNWMFSNRLYIWSLLAGVGVAGNFTFYFL
+SIKASSVAVAATLMYTAPVFVLLISFLLRIERSTWFKWGCITGVLFGIILLTGAYNTESI
+SVSFAGTAAGLGAGLSYALFIFGFKKASSIGKPQTVLTIAFFSFCLILFLFVNKGEAADV
+LTSSDIWWFLLLGLVGAGISFILYVFGIRKTSAATASMVAMVEPVTASLFGVLLLGNQLT
+GIQVVGMAVILITITVLSVKQSD
+>tr|A6CI33|A6CI33_9BACI
+MPDSKDCPFCNPQKDPEQNIVFENDTCFFLQHNDQQDVLEGCGVIVPKKHHANAFELTQE
+EWNDTYELLQEAKAYLDEKFSPDGYTLGWNVGEVSNQFIFHSHLHVIPRYNDEPLAGKGL
+RYWLKQPENKRNL
+>tr|A6CLU2|A6CLU2_9BACI
+MSDVQLKEAIDTLKETGVRITPQRHAILEYLIHSMAHPTADDIYKALEGKFPNMSVATVY
+NNLRVFREVGLVKELTYGDASSRFDYVTSDHYHVICDECGKIVDFHYPGLDEVEQLASHV
+TGFKVRNHRMEIYGTCESCSTNKEH
+>tr|A6CR65|A6CR65_9BACI
+MGVFSSIITIFKSDIETSDSNPDKELKTRYYKSAQDKVFQAVLDLFSSSDYRVISESRER
+GEITVEKSGFPGYFIVVTAINVAPFESAVDFKISADKKIPGSYAKMRQKITSYYQVLDSR
+LKRA
+>tr|A6CU93|A6CU93_9BACI
+MIKKSLYTFIILLLLFGSLPSLNLDKAAGAETTVIIDTHTLNVRKGPGLSFPVTEQVHKG
+EEFKVASTENDWYKIQLNSSETGWVANWLVKVKSSSNHQNGTVTDNGLRMREGPGTNFPI
+IDTLSKGQEVKITDSSGSWYKITVGSKSGWVHKDYIAGGSTPSQNSGSTPPVNKEDWTGV
+STVNSLNVRSTAGLNGSIIGKLNKSNKVSVTGSVSNWYRIKFGGSEGWVSSQYLEKSTTS
+PAPVTNQGAFGKVTVYSLNVRDKASLNGRVTDSVKHGEVYEILEEKNNWYKLSLKEGKTG
+WAAGWYIEKTVGSSPEEPIGNSKSGYVQILYNGTNLRSKASTNSSIVARASAGESFAIQE
+QTGEWYKIALKSGQSAYVAGWIVSV
+>tr|A6CLS9|A6CLS9_9BACI
+MAVSTALYGCGADGSSSDSASKTLIFGRGGDSVGLDPITVTDGESFKVTKNIFETLVKFG
+EQDTEVQAGLAKEWDVSEDGLTYTFTLQDGVKFQDGTDFNADAVVFNFERWMNGSADEFP
+YYGSMFGGFKGDEGHVIQEVKAVDEGTVEFTLKRPQAPFLKNLAMSMFSIASPTAVEELG
+DKFAKQPTNAGTGPFKFVEWKENDKIVLEKNEDYWQEGLPKLDQIIFKSIPENSARLNAL
+ISGEIDLADGINPSDAEKIQEDEKLQLFERPSLNVGYLGLTNTREPFNNPKVRQALNHAV
+NKQAIIDAFFEGKADPAKNPMPPVINGYNDDIEAYEFDLDKAKELLAEAGYPDGFEMELW
+AMPVPRPYMPDGQKVAEAIQADFAKIGVKAEIVSFEWATYLDKASKGEADAFLLGWTGDN
+GDADNFLYTLLDKDNIGSNNYAYYSNDELHDILIEAQSEVDEDKRAELYKQAQEIIHEDA
+PWIPLAHSTPLLAGSSKVKNFKPHPTGSDLLSGVELE
+>tr|A6CS88|A6CS88_9BACI
+MSMDLFLIFPVLIKARKVVLLATLYSISAISQKEVELFLLFNSLF
+>tr|A6CNC3|A6CNC3_9BACI
+MICRTNHKLKERMYDMALARSRTNKVFAGVLGGIAERTGMSANLLRIIFIILLIVTGFFP
+MGLAYLIAAFVLPKR
+>tr|A6CRP6|A6CRP6_9BACI
+MTLLHWAIISPFLAAILVPLLYKKLRSIHTGWFVLILPAVLFLYFFQFLKITAEGKTIKE
+TVEWMPSFGINFTAYVDGLSLLFALLITGIGSLVVLYSIYYLSKEKEQLHNFYVYLLLFM
+GAMLGVVLSDNLIVLYMFWEFTSISSFLLIGYWYHRERSRYGAQKSMLITVFGGLSMLGG
+FLLLYLMSGTFSIRELAAMSDVLITEPLFLAALILVLLGAFTKSAQFPFHIWLPDAMEAP
+TPVSAYLHSATMVKAGIYLVARMSPVFAESGVWLWLVASFGIFTLFWGSFNAVKHTDLKA
+VLAYSTISQLGLIMSLLGIGAAALHYEHLDENIYGVATMAAVFHLINHATFKGSLFMVVG
+IIDHETGTRDIRKLGGLMNFMPITFTVAVIGAFSMAGLPPFNGFLSKEMFFTGMIRVLEM
+DIFNLETWGILFPVLAWVGSVFTFIYSMIVVFKPFTGKHQPEKLDKTPHEAPLGMLISPV
+ILASLVIVFGFFPNILTATMIEPAVTAITQFNVKDSHIYFWHGFTPELFMTLGVILFGVL
+LYTQLPKWKGIYNTIPERLTLNSFYDNGLAKGERGAYNLTRSYMTGFIRSYLVYIFTFLV
+GILAVTLIVKDAFTVDTSDLASIGVYEILIALVMVVSAVAILFAKSRLTSIIALGAVGYS
+VALFFVLFRAPDLALTQLVIETVSVALFLLCFYHLPPLSRHEERMSFKLGNALIAIGVGV
+VVTLITIASYSTKLSSSISQYYIENVYEEAAGKNMVNVILVDFRGFDTLFEICVLAIAAL
+GIFAMIKLRMTRRREE
+>tr|A6CTT3|A6CTT3_9BACI
+MGIVETSQWLDECVDNPEKLLMKKGLTEKKASELYGYLKSFGMYTPAGNMEYQIDSLKKR
+DAWRKMSVYYKKYRALWKGPSVPVYIFPVQTARGIFTSGLKKSGVSFKDEIYLFLSDEED
+SREWEALFLHEYHHCTRMNLLKKNPEHYTLLDSIIFEGLAEDAVKEYCGDQYVSSWAKKY
+SEFLLQKLWNQHIKNELHLRRKETKHDQLLLGRGRYPNLIGYAIGYYIVGKFREKHGMSS
+IEMMSLDADKFIEDKKIMEK
+>tr|A6CSC6|A6CSC6_9BACI
+MISIKGLKKRFGDLEVLKGFDVEVEKGQVIVLIGPSGSGKTTFLRCLNLLEVPDEGKLDI
+SGTKMDFSKKLTKKELLDMRRKTGMVFQNYNLFPHRTALENVMEGPVIVQRKPKAEVRQK
+AISLLEKVGLGEKVDYYPYQLSGGQQQRVGIARALAIEPQVMLFDEPTSALDPELIGEVL
+KVMKDLAEEGMTMVVVTHEMKFAKEVADEVIFMDGGYIVEGGKPADVFENPTQERTRQFL
+NLIQ
+>tr|A6CJ75|A6CJ75_9BACI
+MMNNSGNQQQSRWELAHLSIFGTTQVHLRNPYTIAFWSIAFPGYGHLLLSKYLRGFSLVI
+WEIFINQLTHLNLAMIHSFTGNIDAAKDVLDVRYMHLYIPVYLFAILDSYRSTVDLNKIY
+LINENKSPSVKKLIIRPFEINYLDKRNPMIAFFSSMTIPSVGQLYTHRIFGAIFTLISTV
+IYVYYSHVLEGVHYLLIGDIEKSTSVLDPQWLLYIPSFYFFTIYDSYMNAVENNKLFDSE
+QKQYLKRNYQPKDFKIKKGVKVE
+>tr|A6CN27|A6CN27_9BACI
+MLATIERLEIQESAEKLAAQILQSDVAEEYRRCLYKVKTDKDTQRKIQEFNKMKELYEEV
+QRFGRYHPDYKRVMMEIRQLKRDMDLDDNVANFRRAENDLQGLLDEVSVLIGRSVSDNVK
+VPTGNPFFDSGSACGGGCGSGGSCGCS
+>tr|A6CHH2|A6CHH2_9BACI
+MKGEMNMTKRNRKTKSGLQTAKSLTSEEFSKELTGKGQNQKAEKTKPST
+>tr|A6CMM2|A6CMM2_9BACI
+MPNENQNQHSQTTPHFDGKNEAIINDSTGAQMGVTLDTKQDFARQENPFPVHPKEDKEMK
+KLGSLIKGE
+>tr|A6CHE1|A6CHE1_9BACI
+MIKKREFQDCHVLFDLMVHPEVFPFVRHKAHSYEEFLFLTKSTIEAEECGELISRTIVDE
+WGNPIGTINLFDIENGSGFLGTWIGKPYHGKGYNKPAKDAFFHELFYELGMETVFMRIRK
+VNIRSQKAAEKLPYVIKANELRPSIYEQLNAHGDIYDLYEIPKDLYTMHLYSTSQEEEQA
+MEA
+>tr|A6CHJ9|A6CHJ9_9BACI
+MSNYILEVYYICPIGGLKLTIEYEKYDALGLADLVKHKEITPEELITAAVEKNRIT
+>tr|A6CT67|A6CT67_9BACI
+MHPVLFFDYNPGGRKIPLIEQVAPEENGESSSHNAL
+>tr|A6CMN9|A6CMN9_9BACI
+MLETAKEILYVLGRIVTILPLLLFVTVYMGKRAIGELPIFDFLIILTLGSVVGADIAEPK
+VQHLPTVVAIIAIGILQKSVSKLKIANRKIGRLLTFEPTVVIQNGKLLRKNLKQIQYSVD
+NVLQMLREKDVFDINDVETGIIESSGALSIYKRAQKQTATAGDIGIIQPSSGISVPVIME
+GTIYQNVLDQYNVNDNWLKQQLLSKGIHDPNEVFFAAINKNLDLHISLKEENPCNVPSLY
+H
+>tr|A6CUI4|A6CUI4_9BACI
+NDLGNLLNRTVAMINKYFDGEIPMYKGSEGPFDKELLSVNKATVAQYEEAMEKMEFSVAL
+SSLWQLISRTNKYIDETQPWVLAKEEKKDELGNVMVHLAETLRRAAVMLQPFLTRTPKKI
+FQQLNVDQEELTTWESLEEFGMIPAGTQVVKKGEPIFPRLDIAEEVEYIQEKMRGTAPQP
+KEEAKEEEAPESEEITIDDFMKVDFRVATVTHAEPVKKADKLLKIQLDLGYEKRQVVSGI
+AKFYKPEELVGKKVICVTNLKPVKLRGELSQGMILAGEKDGVLSLASVDQALANGAKVK
+>tr|A6CK44|A6CK44_9BACI
+MGISERMKNMKKLWWLALALLLAVAGCANNGENNAAGDNTAENAEDTEATEEETVDASGA
+MMDFYLNMTSTLNGIDNELNDYEAAMGGEEAPSAELKAAAAESAAAASEAVKGFEVSGDL
+SQFEEELETFKTTLAESYDMKAAELQNEEVNFDAANEKFTEAEEQIGSLLEEAGLVKSSL
+SNDING
+>tr|A6CL93|A6CL93_9BACI
+MNHQKTYNAMELKTPKGNLIIEGPVPVSEMIDLEFHEDLTAFRIPEKQHKALVEIAGLPE
+GRIIIAREDNMIVGYVTYLYPDPLERWSQGKMEELIELGAIEVIPKYRGASVGKNLLKVS
+MMDDAMEDYIIITTEYYWHWDLKGTGLNVWEYRKIMEKMMNAGGLEYYATDDPEISSHPA
+NCLMARIGKRINSDSVQQFDRLRFMNRYMY
+>tr|A6CRX7|A6CRX7_9BACI
+MIFGLRAKNIFFILLGSAIFAFGLVHFNMQNELAEGGFTGITLLLYFLAGIDPSYSNLAL
+NIPIFFIGWKFLGRRAFFYTIIGTISLSVFLWIFQRYQMRIPLEGDLFLAALFAGAFLGV
+GLGIIFRYGGTTGGVDIIARLVHKYVGWSMGKTMFIFDALVISVSLITYLGYREAMYTLV
+AVFVGARVIDFMQEGAYAARGAMIISDKHEEIADTINEKMDRGVTVLKGHGSFTKENRNV
+LYCVVGKNEIVRLKNIISFVDPHAFVSVTVVHDVLGEGFTLDANKNPLED
+>tr|A6CKS9|A6CKS9_9BACI
+MDYANFSEKFSTISAINMVPFEEGTKAINWGGLEENIHFLIKNGMEVVVPNGNTGEFYAL
+TLEEAKAVTEKVTQLVDGRALVVAGVGYAVDTAIELGKAAQKAGADCVMIHQPIHPYITS
+EGAVSYFKAIIEALDIPSIVYFKDPNLSDDVLKELALLDKLVGVKYAINDLPRFTKLVRE
+VPKEHNVAWVCGTAEKWAPYFYNAGAVGFTSGLVNIYPEKSKEMLTALKNGDQETVWKIW
+EEVLPFEDLRAKYNNGNNVVIIKEAMEKVNLTAGVTREPVDPLNEEDKRALSELLQAWGL
+TADKVQV
+>tr|A6CML5|A6CML5_9BACI
+MTKQKTKTLRKQVSPFEGSETSKSVFQLVTTIGLFVSVWVLAYLSLSVSYLLTLALGIVG
+AGLLTRIFIIFHDCCHYSFFKNRKANQIIGTLTGIITLFPFYQWQHEHSVHHATSSNLDK
+RGTGDIWMMTVEEYKSASFWTRVSYRLYRNPLVMFGLGPIYVFLITNRFNRKDARKKERI
+NTYITNIAITSIVAVLCYTVGWQAFLLVHGTIFYIAGIMGIWLFYVQHTFEDSYFEVNEE
+WDFVLAAVEGSSFYKLPKILQWFTGNIGFHHVHHLAPRVPNYKLEEAHRSNESLQHVPTI
+TLATSLRSLKFKLWDETNKKFVRFKDVKSLSKAENLTVTD
+>tr|A6CI40|A6CI40_9BACI
+MEEFNIFAGGIVMEKTISKNWDLDSIYSDGSQSADLQDFMKQLALSIKEIQTEMKTIQTH
+ECFSVSTMVNLLRRIQSVMEGTLQVDEFLICLTSNNVEDHSASGLVNESARLRSSFEILL
+GELDHLLASMADEDWNLLINNEEVTQYRFFLEERKQQAKEKLSLPMEQLIHTLSVNGFTA
+WENHYDQQIAQLKIPLEKEGEIKELTLTEAYYEILTSTDRSHKQDVMNAYNEACEKVSDT
+YASILNSISGFRLDVYKQRGWDNILKEALDQNRIKQSTLNTMMAVIKSNYGLLHRFLKRK
+AELSKVEKLKWFEIPANTFTTEKTFTYEETREIIVSQFHGFSEKLGNFAEKTFEERWIEA
+EDRRNKAGGAFCASMPLQKESRILMTFKGTYHDIITLAHELGHAYHNFILDEEPAFARKK
+GTSVAESASTFCENLVLDAALSHAEDKKERLSLLESKISAGMTYLGLIPARFQFEQNLYE
+KRKEGLLSSQEITGLMAAAETDIYGEHVDGVHEYSWVTTSHLYSTEKAFYNIPYTIGYLF
+SNGVYSLAKKQGDSFIDQYDELLRNSGRMTVEQLAEFYLNEDLTQESFWKAAIQPVAEAI
+DEYIKLSEDLI
+>tr|A6CNT4|A6CNT4_9BACI
+MHGIERRVLKHPSGRKITYETLGERTGTPVLYFHGWGSIASSIFCDEKFLQQNRLYILMV
+NRPGYGGSDLIKDYSMEDHADDVKAVMDHLDIDQAHGIAWSNGGLFSQVFAYRYPQSLSS
+LSLAASAVPLQNKVSSKVLPFRWKLISKLYKMGPFFLRGLLKHINRRWTGSIGRKLSELH
+DKERHSGNQNDLKEQLKKQTSEGLLEAYRTKGWVHFAELQAMMNPFRLPEWKSPFPVYLW
+YASKDHLWPEKTTLYLQRKYHDSRVLEVKGEGHFFFLISWKQILVEALSLE
+>tr|A6CR02|A6CR02_9BACI
+MWKKFDGFPMETLTKVWLHSRAEGGEQRDIETMKLHKERYGITGNCFDLALRLMAEFKTA
+GIKAYPIGHDLKTEAAHVAVIARDEQGNRYLCDLGDQWLQPILIEENLPEFSSDKLAGFF
+PASDIQVIPRDEVMEILFHRPNGKVSKQIYELTPIEQDEFMEAADYSQNLFKSKPLLEIR
+LPFKTEMAHWEFYDWESFLSTSEGKFYEEPLNTVEKWAERLHGKTGYDRQMLVEALKIYK
+SL
+>tr|A6CLD8|A6CLD8_9BACI
+MRTVCPAYNETSKEKGDYMKKQRYLICLLLAGMMLYYAVPRLNVFAEGLQGAFALIWLAF
+AAIVIAGNLSGMLFAPRAAKAQIQRAKSKKGARRVRSFG
+>tr|A6CSR1|A6CSR1_9BACI
+MTEKEILQDSKTREEIKAEKKNKKKNSAEEKPGKWVRIRLLPIWLRILLFVALLAGSLVG
+GAMVGYGVIGDGKPMDVLEKATWQHIVDIVMREN
+>tr|A6CI89|A6CI89_9BACI
+MMIENGWLEEPPTAADRKKLSEQE
+>tr|A6CID4|A6CID4_9BACI
+MFSATEMRTFELFSVPHITVLILFVAVFFWLILFRHHLSPHKSIIKWTLFWILILGEISQ
+HLWLVLTQQWEVGNLPLHMCSISTFLCIFLFLKPSKKAFYLLFFIGSLPAILSMVTPEVF
+YQFPHYRFIKYFLHHSALPWSVLYLIVYEGYRVPKKAIWTGFLLLNLIALPIFFINHLLG
+TNFFYLANPTESKTILSFFGSGIMYYINLEIATLFVFYLTYLPMGWLLKREGAKERLQA
+>tr|A6CQB7|A6CQB7_9BACI
+MMAGSLFWNFAFSIAGFSLYFFLSFQTGSPRDVLTGSFLAAGSFFILMFGIRVLIQMGMA
+VPEAEEGNAEDENRTHRKNINETKLGESKQYNEEEMAAVIRTLLKDE
+>tr|A6CKY6|A6CKY6_9BACI
+MKKRGWYKAIHREANNVDLIGQFLKLNLPAIRTIAAKNPPPTAKRAAPMATGWAAAGARA
+CAVPVVPQSIAAHNIKKGDHFTVILLTSLKRYPFLTV
+>tr|A6CLQ6|A6CLQ6_9BACI
+MGRAHGHKTRDKNKNKLPQVPKNMKADGVDEEFSREIADQADMEAQARANAANQRQQVAN
+RNKR
+>tr|A6CPZ1|A6CPZ1_9BACI
+MTFLGNDVEICKFNHFLMFVGNFLTLWGAKSDASSFFITIEQKHSNIYLLVGAKQGASKG
+PGYVPGGWNSCAEARREKNKLNSYR
+>tr|A6CJI8|A6CJI8_9BACI
+MSFILYLIIGGIIGWLAGLILGKDVPGGIIGNIIAGIIGAWLGGLIFGDFGPTIAGMAII
+PALIGAIILVFLLSLIMKKMRKAH
+>tr|A6CUC1|A6CUC1_9BACI
+MGIKEKEGTQLFKRLKEDIQTVFDQDPAARNSLEVILTYSGLHAIWGHRLAHAFY
+>tr|A6CRQ9|A6CRQ9_9BACI
+MKIFRKGGYLMTDFKNGDIVTAIYKTGKYIGEVTDSRPGIYVVKILAVLKHPRQGDLHNP
+KEVDVPLFHERKALAFRERANIPEKMIKPYEGDIPDYNDTLISSFIELKDGLETEDSAFA
+QKSLETLKGVKREYELMYSITF
+>tr|A6CQ41|A6CQ41_9BACI
+MGKTVILDGARTPFGKFGGSLSSFTASELGGFAVKEALKRAGVDGSEVEEVILGSVLQGG
+QGQIPSRQASRHAGLPWNVRTETINKVCASGMRSVTMADQIIRAGDGEVIVAGGMESMSN
+APYILPKARWGMRMGDSQVKDLMVHDGLTCSFNNVHMGTYGNSTASEFEISREEQDRWSE
+RSHMLAVKATEEGILSEEIAAVQVPQRKGDPVTVDRDEAPRKDTSIEKLAKLSPVFGSEG
+TITAGNAPGVNDGAAAMVLMSEERASKEGKEPLAYILGHTAIALEAENFPQTPGLVINEL
+LKKTGKTLEEIDLFEINEAFAAVALTSGKIANLDESKVNVNGGAVAIGHPIGASGARIIL
+TLAYELKRRGGGIGIASICSGGGQGDAIMIEVPKK
+>tr|A6CJA8|A6CJA8_9BACI
+MSYFFQVNNQDAQHDISEELFSIIKKNAEALDLFNRLSHAAPNQEHQWILFDALRNKDYH
+LRQFAALYTSMTGGQPQYEIDQIGFDSYQDGLEKAFHAEFSNSEEYRNNFYLVSHHPIIQ
+NAILQAFASQRDNALRINFLREQAGSSLQDFGSNPFVVDIEKVTTENNTYRTALWTGDLL
+QVTLMSIDVGDDIGLEVHPETDQFIRIEEGQGLVQMGDTQDDLTFEQYAYADYAVMIPAG
+KWHNITNTGSTPMKVYAIYAPPEHPFGTVHETKADAMAAEEY
+>tr|A6CSQ2|A6CSQ2_9BACI
+MVSNPEELVEVDSCCSSDEDRKSHHSDKVKSNLVTRLNRIEGQIRGIKRLIENDTYCDDV
+ITQISATQSAMNSVAKILLEGHMKSCVLERIQEGDTEVLDEVLVTIQKLMKK
+>tr|A6CSB3|A6CSB3_9BACI
+MSLKVPIRKDEIMNILITFIIMVVIGAAIGGMTNSLAIKMLFRPYKPVYIGKWRVPFTPG
+LIPKRRNEMAVQLGEMVVHHLITPESIQKKLTNSQFKTDVVSWIGESVDPIIDSDESIEA
+WLGKLHIPLTAENVENGIEKWIDQKYYRFKEQFRSQTIESTIPLNWQEKIEAAIPKAADF
+IAEKGEAYFDSPEGKRKVKVMIDDFLEGRGMLGNMLGMFLGNSSLSEKVQPEIIKFIKHN
+GTKEILRNLLKSEWEKLRDSKWEDVLKNVEDEDVLPTLKKSILEVVSVDKLMSTGLKEML
+SPFKQRITGIIVPHVFDMSVKAVSQKIEVIMEKLHLQEVVREQVETFSVQRLEELVLGIT
+SKELKMITYLGALLGGLIGLVQGAIVLFVA
+>tr|A6CT73|A6CT73_9BACI
+MILMIDNFDSFTYNIVQYLGELGEEIVVKRNNEINIAEIELLAPDYLMISPGPCTPNEAG
+ISLEAIQYFSGKIPIFGVCLGHQAIAQVFGGEVVKAEKLMHGKTSSVTHDGKTTFEGLSN
+PFQAGRYHSLIVKKETLPDCLEITAETDAEEIMAIRHKHLPIEGVQFHPESIITEEGKQL
+LANFLNTYKKTAMPV
+>tr|A6CP36|A6CP36_9BACI
+MKIITVIGARPQFIKAAPVSRVLREHVQELIIHTGQHYDANMSDIFFEELNIPKPDYQLA
+IGSGSHGKQTGEMLAGIEEIFLKEDPDYVLVYGDTNSTLAGSLAASKLHIPIIHIEAGLR
+SFNKKMPEEVNRILTDHISEFLFCPTDTAVENLKNENITKNVFNIGDVMYDAVLYNQGLA
+KEKSQILNTHDLLDKDYHLITIHRAENTDDPDRIKNILEALNEIDTLKLWPIHPRTKNVL
+SNMGYDLDKVHNLKVIEPVGYLDMLTLESKAKKIITDSGGVQKEAYFMRVPCVTVREQTE
+WVETLQFDANILTGTDKAKILEAVEKEGTPEYLNVFGDGHAAEKILNIINK
+>tr|A6CM81|A6CM81_9BACI
+MAKDVLCEVNNCHFWKQGNHCGAEQIYVVSHTGKQAEDQHETDCKTFEPIS
+>tr|A6CU04|A6CU04_9BACI
+MNICIRKIASVAAVPHSALQKQENGFAHHVEMTSLPHRFSMHQASFKLIKKSFL
+>tr|A6CKV3|A6CKV3_9BACI
+MGFVAAVDKEYLVPMIVGKLTAGILAALIAYLATRKRLN
+>tr|A6CP89|A6CP89_9BACI
+MGQRLILPRKGGDTLMVAIEDVLQIMIAFGTLVAAIIAATEKKK
+>tr|A6CRC8|A6CRC8_9BACI
+MKNVRLPKVSLVIIASVLLWLKTYIVYQTSFDIKIENVMQEFILFINPLSFLLFIFGVSL
+FMKNEKSRVRYILTASFILSFVLYGNVAFYRFFDDFLTLPVLMQTSNFADLGTSAGEIIN
+WSDSLYFIDTVILALLVKFKPSTFEVNTFSRVNRRAYFFVAIALTFFNLGLAEAERPQLL
+TRTFDREILVKNIGTYNYHIYDAFLQSKSSAQRALADGSELADIDNYVRASHVNPDKELF
+GAAKGKNLIVISLESLQTFPINNTMNGEEVTPFLNDFIKDSYYFENFYHQTQQGKTSDSE
+FILDNSLYPLNRGAVFFTHSGNEYQSMTSRLNEAGYFTSVMHANNKSFWNRDIMYGSLGY
+DKFYSMTEYDISEENSVNWGMKDTPFFLQSVEHMKQMEQPFYTKMITLTNHYPFYLDEED
+KYIDEFDSNSGTLNRYFQTVRYMDEAVKNFIQELKDTGIYEDSVIVMYGDHYGISENHNV
+AMSKYLGKEVDPFVHTQLQRVPLIIHIPGEEGKTLTEVGGQVDLRPTLLNLLGIDTKGDI
+QFGSDLFSKDHEDLAILRDGSFITKDHVYTEGECYNKETEQPDDMKFCEPYIERTQQELN
+YSDQIIYGDLLRFYEQKNGAISTKEE
+>tr|A6CLH3|A6CLH3_9BACI
+MRKKLFSFLIMNLGAFFVAVNVHFFLSPNNLATGGVSGLSILLNSIMPGVSIGMFMIMVN
+IVLFIIGIIFLGFSFGAKTVYASFALSGYVWLLETAAPLNAPLSEDILIQLIIGQCIAAT
+GMALVFNQKASTGGTDIIAMILNKYFNIEIGRAVLFSDLAIALSSTLVFGTQVGMYAFFG
+VILNGLVIDYTLQQFNTNKEVVIISQQSDEIRTYIVKELGKGATIHTAKGAFTSDSKEVI
+TTILGRKDFSKLKNFITEVDKTAFITVHNMNEILGHNFKRLV
+>tr|A6CPS5|A6CPS5_9BACI
+MSFDGLFTKAMTEELGDRLNGGRINKIHQPYKNEVILIVRSQGKNHKLLLSAHPSYARAQ
+LTSQSYENPSVPPMFCMLLRKHLEGYIIEDVYQKEVDRIIIFEIKGRNEIGDISYKQLII
+EIMGRHSNIIIVDKSRNMILDSIKHIPPSINSYRTVLPGQEYKFPPPQEKKNPLEADRDD
+ILRAIDFNSGKLDKQIVGAFSGTSPLFAKEAVHRAGLANRNSLPDALLELLEPVKQGHYQ
+PTLIQSNKETFYLLDLQHLEGEHIHYSSLSELLDRYFHQKAERDRVKQQGNDLERLIKNE
+RDKNQSKILKLEKTLKDAENADIFQLYGELLTANLYAVERGMSEIEVINYYDEEGGTVKI
+ALDTRKTPSENAQAYFSKYTKAKTAIKIVQEQIEKAKEEIQYMEQLLQQLESASPKDILE
+IREELAEEGYIKAKNEKKKKKINEKPQLETYLSNDGTTILVGKNNKQNDYLTNKLAGKEE
+IWLHTKDIPGSHVVIKSKNPSEETIKEAAVLAAYFSKARESSSVPVDFTLVKNVKKPKGA
+KPGFVTYDGQQTVYTTPSLNTVRAMKKE
+>tr|A6CQM7|A6CQM7_9BACI
+MEKAQVKRYCENDKKETIHDAVEDALEIQYKCTVCGREEQVVKTFF
+>tr|A6CMM3|A6CMM3_9BACI
+MEFKSYEEFWPFYLSQHSKPSTRAWHFIGTSFVFVFVILSVFTLNFWFLVLAPVTAYAFA
+WFSHFFIEGNKPATFGHPVWSLRADFRMYRLILFRRLQKELEKNQELTTSAK
+>tr|A6CJC3|A6CJC3_9BACI
+MAYQYKYSGSLSPGKEGFGMRKKKRKEREPWFKQEQEPEQVAIGYINNGAIAIDKSNASD
+NPDKSAIAQDHSNASDNAENSAVAQAKSNASDNPTGSAVSLEDSNASDNPTNSAVAQEDS
+NASDNPNNSAVALEDSNASDNPYNSDVKQKKIK
+>tr|A6CKZ1|A6CKZ1_9BACI
+MKKKHPRQAIAFIWVSNILAVAATIYLIAERDPISVESIPTFVIWLILVAVARHGGLFRF
+VDSKISAGVGCVFEFAALVVLPFPQFALVIIISCFVNIVDRLLKKHPEPFLGPDFNASNA
+IISGLLAQILFSVVLSFNFNPEFIFTLALFIKAITFGFIQVVMINTLISLDERIKWKHAP
+AIKKDTILMEGILIITGSILAITYLFNPYLLLFFIFPVLFLQKLLQNANKAQLIYIDEKT
+GIYNYRFFDEKINELYLLCKKSGKPLTLIFGDMDYLRDVNNKFGHAAGDEAITAIGKVFK
+DSQQNRFFSARFGGEEFVMILPSTTKDEAARHAEDVRRKIEDINLLSEEGEKIPLSISLG
+VASFPADAEDIQTLIQSADEALYEAKRNGRNQVQLYGNSKLHPDLADKPIENRKGESNAT
+VY
+>tr|A6CS93|A6CS93_9BACI
+MNQYHDNGSNKGTMQEHDVMMRGRRLLDITGVKQVESFDNEEFLLETVMGFLSVRGQNLQ
+MKNLDVDKGIVSIKGKVFDIVYLDEQSGEKAKGFFSKLFR
+>tr|A6CJG2|A6CJG2_9BACI
+MRIKMYNTETRMNVNEDQQILAYYVEVSKLIASMLPDIAVGITNTEEWIAYFPSGKIDLG
+VKPGTKINPQEPLADCILHKKVIKEEVPAEFFGFSFTGLANPIVKNGRVIGAVAIQMQQQ
+NERDLRRIADKIVSSVSHTNESISNVEKGADGLAEISNNLLQQSKEASNEMEKTNEVITM
+IKKIADQTNLLGLNASIEAARAGELGRGFDVVAKEIRKLSKETVASTDKVRTIISSLQQS
+MKEMALSIERVVTVGENQAASTQEISAFIDEIEKMSRELNTYASKL
+>tr|A6CQH4|A6CQH4_9BACI
+MLIIQRSFFAYLDEMNTITILLPHSYFEGRSSLFYIKEENNEKKPLSIHETHRLQGQNKY
+VCSLDFEPMLDRTYYIEDEHGNETDLQIGAVIRTPEFDEKFFYDGNDLGVTLENNRTTFK
+VWAPTATKVKVKITDPDMKSVSQYDMTREEKGIWSFSLDKRSEGWFYTYLTCINLNWQEA
+VDPYAQSVSLNSEWGAIVDLEKSTPLEPLPPIESKTDSIIYELHVRDFSVHKESGMKHKG
+TYRAFTEEGTKTPNGLSTGLNYLNDLGITHVELLPVNDFEGVSDLRDDSRYNWGYNPLNF
+NSPEGSYSSHPEDPYSRINELKSVIQSLHDRGIRVILDVVYN
+>tr|A6CQZ9|A6CQZ9_9BACI
+MKWSEISIHTTNEAIEPISNILHEAGASGVVIEDPFELEKEREDIFGEIYQLNPDDFPEE
+GVIVKAYLPVNSFLGETVDEIKQSIQNLVKYNIDIGRNNVEISEVNEEEWATAWKKYYNP
+VKISEKFTIVPTWEQYEPVNSDELIIELD
+>tr|A6CKM6|A6CKM6_9BACI
+MFLREKKAIFPFILSGLFDPEGLGAATGLGVSPVPLVPQEIAHLTLQSTIRKKTSRRIS
+>tr|A6CRP7|A6CRP7_9BACI
+MKKTVSAMIFSSLFIGAWYVQEQAEKKNQWTNKNLMQPAGLEDEVAEAEATLEVEPVADL
+QEEVISEPFKPREYIRLAK
+>tr|A6CS37|A6CS37_9BACI
+MAKNESKEQRIKEAKRNETKAGQGNPKLAGPDRPST
+>tr|A6CTV6|A6CTV6_9BACI
+MWLPVLGLLLGVILGLLTDIRIPDEYSNYLSIAVLAALDTLFGGIRAHLQNIYDDKVFVS
+GFFFNILLAASLA
+>tr|A6CT44|A6CT44_9BACI
+MSFNNLDQLYRQVIMDHYKNPRNKGSLEDGSLTVDMNNPTCGDRIHLHMKVEDGKVTDAK
+FDGEGCSISMASASMMTQIVKGKDVESALKLSEVFSNMMQGKEYDEDIDLGDIEALQGVA
+KFPARIKCATLAWKAMEKGVKEGQ
+>tr|A6CIT0|A6CIT0_9BACI
+MRNVMKENVAEHSFHVSLLTHSLCTIANEVFHKKVNTEKAVTQSLFHDVTEVFTGDIPTP
+VKHHNRDILKNFRDIEELAAEKLTNQAPAQLKEAYKSVISDQSDKELTQYIKAADLLDAY
+LKCVSELSAGNREFVVAKKQIEEKIKGLEMPEVEYFLEHFAPSFEKTLDEISE
+>tr|A6CS63|A6CS63_9BACI
+MKQAINIQDQFLNQLRKDNTQVTVFLLNGFQIRGLVKGFDNFTVLFESEGKQQMVYKHAI
+STFSPQRNVQINFDES
+>tr|A6CQN0|A6CQN0_9BACI
+MLTNVVEFFRNLPRKQCVQCGEHIEEQHECYGNHCDNCITNHEL
+>tr|A6CRE4|A6CRE4_9BACI
+MINEKGYILPMAMMLSIAILLFSVAASAIFVSRYSYLDVMEDGYKRESLILYSAHKLLKE
+ENSVDGTFTYPAGVVRYEVKKEDQVTTLILSFETDNKSYEPVLVKYENATKEILVWE
+>tr|A6CMW1|A6CMW1_9BACI
+MAEGHSFLNAVFVYIVALGKIQRAGFFPLETRAFFSEQGELALFFLFISYF
+>tr|A6CTX5|A6CTX5_9BACI
+MQEKTFRAGEKVAKAQIDNRRMQYLYANGDMHVFMDTDSYEQIELNSAQIEYELKFLKEN
+MEVQIMMYHGETLGVELPNSVQLTVTETEPGIKGDTASGGSKPATVETGLVVNVPFFVNE
+GDVLVINTTDGSYVSRA
+>tr|A6CNA3|A6CNA3_9BACI
+MEALRSAPTGKCSSSKKRGSFLLFDEGYLTPRGWALQLDWGSHLSAKVEVPLSAPTGKCS
+>tr|A6CTS7|A6CTS7_9BACI
+MFSAFLTFFYDYGFWLGIINISFLIGMGLLVIGGLMKVVESGFFNGIQYAFKRFRKSTKE
+GSYISKFDDMDETKDVHEEYNKQKSFALTAPFLLSGSIAVAADLIASYLFYT
+>tr|A6CLR6|A6CLR6_9BACI
+MLKIFRNNLVKGGFTLDTGTHIVMGFAIGGLATLDPVVAENAATSQGVLIGAIIGSQIPD
+IDTVLKLRNNAVYIRNHRGITHSIPAVLIWPLLILAVLYPFYPEANLLHLWIWTFLAVFL
+HVFVDIFNAYGTQAIRPFSSKWVALGVINTFDPIIFGIHIIGLVLWGFGFEPGPTFLYMY
+MIIILYYILRFFVQNAVKSAVRKKIPDAEKIIVSSTLHFYQWRLAIVTKEFFYVARAYGS
+SITFFEKYKRIPVPDNPVINAAKKDKNLSAFLSFSPVYRWEIEEFEEDGYEVRFIDLRYR
+SNGHYPFVAVVKLNDELDIESSYTGWIYSEEKLRKKLEVIPD
+>tr|A6CH69|A6CH69_9BACI
+MDINGGIKVDIGGSIVSQAGSFRVSAGKFRNRLHNEASKVAIKMIKQLTGYRPMKILEIV
+YYGENEITDLVKQSINEKQPDGWLPF
+>tr|A6CQ27|A6CQ27_9BACI
+MDEKILIVDDQFGIRILLNEVLQKEGYNTFQAANGIQALDIVDKHSPDLVLLDMKIPGMD
+GIEILKRMKQKDPDIRVIIMTAYGELDMIQEAKDLGAITHFAKPFDIDDIRQAVKKYSAV
+>tr|A6CP30|A6CP30_9BACI
+MEDKKKQFTLYEYLLFFWRKKLFLILIPLIGLVLGGAASYLVPKKAEYIGQTTVYTGSVY
+LEILNDRAMVADRYGLNPEDEFYVSANNFLKVKVYGDDESYLENKLEAFRTDLESDLMNE
+YEKRFQETESIIERTENYLSQLESAQEQYLNRLDSALSEEDSAVFEEIVRQNDVEIASSL
+AKIDRVNADLAFFEKPEVSSVNVSKVDNHTLEYVIGGFILGLFLAVVMLILWKYILDARR
+ASKID
+>tr|A6CPM7|A6CPM7_9BACI
+MYIHVGEDVMVRTDEIVAILDKDTVQFSEEMQLFLKKKEKQTSNLAKGTYKSLVVTVDQL
+YLSPLASTTLKKRSKKWNTHDNLLNR
+>tr|A6CPZ4|A6CPZ4_9BACI
+MQVIQPVSKKERILSLDVIRGFSLLGIFIINMISFHSPFLYIDQYTWWKAPGDQQVFPWI
+DILVQASFYPLFAMLFGYGLAVQQMRSLQRGTNFYPLAIRRLVVLLFIGSVHAFLIWSGD
+ILINYALFGLLLLFFMKMSGKALLWAGSLLFLLPQMFFSILMFLVSLTDQTGVSFYSDLT
+NITNSIEAYGNGGFKEIFFQRFEDWYNVNGPENMMFVLLSIFPMLMIGAGAGKLHILERI
+PDNKKFWITLLVILSIVGLSLKSLPFTVEANVAYSYIQDMLGAPFLSVSYAILLALLLIN
+RKISVVLKPLAAAGRMSLTNYLAQSIIGTLIFYNYGLGLYGEVTLATGTWLAAGIFFIQV
+IVSEIWLAKFRHGPMEKLWRILTYRKVRNKSAEE
+>tr|A6CQX2|A6CQX2_9BACI
+MNHWDQFLGPYKQAVDELKIKLKGMRGLYDLERAHSPIEFVTGRVKPIASILDKATQKGI
+PLDKIGTEMQDIAGIRLMCQFVEDIHAVVNLLRARNDFRIIEERDYISHKKPSGYRSYHV
+VIEYPVQTVHEEKIILAEIQIRTLAMNFWATIEHSLNYKYRGQFPEEIRTRLLRAAEAAF
+RLDEEMSLIREEIQEAQRFFSNKKEQEEKRRESKRQ
+>tr|A6CL18|A6CL18_9BACI
+MLKKTIKLVLFLFVLLLLTACRVVWVDETLEQKKSPEVARGKETILLEATVQYNRNRLVI
+RGQTNLPEGAVIHSGVKQYPDGAEQLDVINGVIEPLDEYILEKTSETSEDGSFLIVLERP
+DTEKQYQLSVRFLPELQPAAIQNTYGKTGENIGSSEGVFKYEANGITSTGMALYSPIGSS
+LDGGFWYLGKYKMQANQKDAMPAR
+>tr|A6CU85|A6CU85_9BACI
+MTAQQKSKVINEIESHYNVRRIQAMGSLGLSEEAFRQTDMGSDAKKSVSYIIQLIESGKV
+EVTDLSTRINEELDNILKTPQQMIGGLTGKKLEEEEASQWVKDYIDTHGDLLPIYEAELE
+KYRDEWRGDLYDGQLEAREILLQRDKYSDELVALVEGAIANGISLKYSESDKGFLAGTDV
+MSVMLTSSELPEVYMDVLRLKSFPGSLEAGVITTNWTRAGGDLLIYERAMENLPEDSEFL
+REFKLEYTNLFRAYIKGSSAQSLFDEEGILKAEIRESYEKLMEKYPESQTVKRMEPYYNK
+LKENQFTKPEGWDEFHIEYEL
+>tr|A6CIX3|A6CIX3_9BACI
+MLEKTVSEKLEETYDTEDISIQSVEELRKDSILVSYQLEVNEKKIFSLFKRDNGNLVLVN
+TGEA
+>tr|A6CP39|A6CP39_9BACI
+MKVILLAPSRSIHTHKWAKFYQERGIQVKVATFSDHYSEENAKQVDTFTLPKHLPGKMSY
+FSAVFALRKLINEFKPDILHAHYVSSYGVLGALANFHPYYVSVWGRDVFQFPQQGQVNKK
+LVEFALKKADVICSTSKVMAVETNLYTDKEIHVTPFGVNMEYFNPENNEIGHDKKVIGTV
+KALEDKYGIGDLVRAFAIVHENHPDTELLIVGDGRQRKEYEDLAAQLGIANVTTFTGKVP
+NEEVPDYIKKMTVFAVPSTENSESFGVAAVESMACGVPVVVSNIGGLPEVVVDGITGIVV
+PKENPQKLAEAFTRIIEDRQLAVRMGEEGIKHVAKHFNWIDNANYMLTLYDKTLKGGEGV
+>tr|A6CJL5|A6CJL5_9BACI
+MMGFIEGASLLILLFIAMPLKYIAGIPEAVSVVGALHGFFFILYLVVIAYTTIKVRWAFK
+WIFGSVLVAFVPFGNMMLDSRLKKNNFSA
+>tr|A6CHE3|A6CHE3_9BACI
+MGKEWILGLLQILSEWGYFGIAFGLMIEVIPSELVLSYGGFLVSENKLTFLGALLAGVIG
+GTVAQLFLYWLGLYGGRPFFERWGKFLLISEKHLQASEDWFSRYGSFVIFSARFIPVVRH
+AISIPAGIGKMKFSLFFLYTFAAMIPWTVLFLLIGMELGDHWEQIEVIGSQYIKPVAFFA
+CSGIALYFAVQLWRANQNKK
+>tr|A6CLN4|A6CLN4_9BACI
+MWQKYRCKDFSQTGNVTLPNQWRQRFGLTPGRQAEICYDEDGILIKKPEQNSTNNKRYIS
+EKGAIHIPKEIRDISGIQPHQEFCLFVNEQEKCFIIKVI
+>tr|A6CLL9|A6CLL9_9BACI
+MKQGVMIMLNYKSNHSYLSIGSIIVFIWSFLVISADLKSTIHPYIHWIVTAFLLVPLMFL
+QFIKHPIIQLKGTLFYLLFVLSLLISGFGTESIFYTLEQTAKLTIILIIALSFFNTFPKY
+SRYAFLAFIVSAYINLSLLLMGKYGGLPFAELMTGDGRWGNVLNFPGSLTKVGVIPLVYA
+LYCLAVIRPFAFKYIIMTGVCISVILLDGSRTGTFMLVLACLFILFILLLEKNIGGMLRK
+HPVLIIFTVFSVGTLLYGFLTERIFSFNLVDSRLFLTVRNVFSEGIVEGFRESDPYRYQM
+TQEALEKVLKNPLIGSGLGTNQVDSIVIHNTYLQVWADTGWIGLTGYCLFISFWILYVRR
+FFVTLSETRDPRRRGEYYCSLFILIYFIVNGFFHPLSTEWSEWILFIVSFSLFFEAADKQ
+NSSSSVVGVK
+>tr|A6CNL1|A6CNL1_9BACI
+MEVFIVANNNNNDQNNRNEYFEDRAGTNDARYHVVPHEEEGWAVKEEGKGSPVFTAGSKS
+DAVEEAKRMAEESGSMAYIHSEHGQIEEQHNYMDE
+>tr|A6CK53|A6CK53_9BACI
+MKWKRTAAFLAAGTLLLLLFVPFQRCVVLVSLKTEGDKVLAPLKSGEESEFSILYTHSIH
+LSDVREVYKADEYMNIVQTTLIYEDTAIGMPGGATGEEVFGRTEDGRYKISNMNRTFPFI
+DISIGRVAANHRFIYNEKVYKLADYFKQGTLIRMSVQKQSLFQLWKGVILDG
+>tr|A6CJH4|A6CJH4_9BACI
+MAEYKNRPNPDDRSDNVDKLQSMVFHTIQNMERAEESMAMTDSDEQKQAIEAKNDRRRES
+IDAFRSELKDEAAYQRNGQDDQYK
+>tr|A6CP20|A6CP20_9BACI
+MIAVLQLNRIHKIFNEGTPDEKVALGDVSLTMNPGDFVTVIGSNGAGKSTLMNMVSGVLT
+PDTGEVIIDNNDVTRVSEYKRSKLIGRVFQDPMAGTAPTMTIEENLAMAYARNKRRTLKS
+GVTKKRKEYFKEVLESLHLNLENRLNAKVGLLSGGERQALSLLMATFTEPSILLLDEHTA
+ALDPSRAALITNLTKEIVARYNLTTLMVTHNMQQAIDLGNRLIMMDKGEIILEVNEDQKK
+DLTVEGLLKEFQRIRGTQMASDKAILA
+>tr|A6CMI1|A6CMI1_9BACI
+MVEKVGSTQERGGGRMKPELASLLEKYESRILGQRTNLRLLLSAILAGGHVLIEGVPGTG
+KTQMVRTLANLLEGEFSRIQFTPDLLPSDITGSTIYNMKDSSFQTLKGPVFTNILLADEI
+NRTPAKTQAALLEAMEEKQVTIQGETYPLPEVFFVVATQNPIEFEGTYPLPEAQQDRFLF
+KLNIDFPELEEETRVLKSVIEGVFSKGSVEPALDTETFASIRKEVANVTISDSVLDYIMK
+IVRKTRDTDAIRFGASTRAAISIGKAAQAWAYMAGRDYVTPDDIKMTARPALRHRIQISP
+HMELEGATVDTIIEELVGAVPVPR
+>tr|A6CJR0|A6CJR0_9BACI
+MKDNNKNKGKGFEKFDNPEQYDKDKESILDKFESEQHVDPLPMEDIREEKIEERKKSNTK
+DQSSSEKKYDQDYN
+>tr|A6CHR9|A6CHR9_9BACI
+MVFKWRDKKRREEEKSIAHSLNFEGLKEEIKDSLKQSADLAFHEINTDGHQILIIYLENI
+INTDQLHQHIIKPLERTTDELNPKAIANTINIGKISFTNHLIDVTEAILNGNAYIFAEGQ
+NCGVLADIADKASRSLEKAETESLVFGPKVAFTEDLSTNMNVIRTNVSDPNLCVEEFILG
+SRVKTKTYLIYIKDIADEENVNTFRQRMKELEIDSIIDSSVLAQMIEDNSYTVFPQLITT
+ELPDRLSISLLHGKIGVLVDRSPQAIIGPTTFLNFFESTEDIYMRWNMGTFLRMLRFTAI
+MLSVLLTPAYVAVLTYHYEVIPSSLLVSLGESRSKVPFPPVFEALLLEFIIELLREAGAR
+LPTKVGQTMGIVGGIVIGQAAVEAGFTSNILIIIIAISALGSFTAPSYAIGTAVRIIRFP
+IIICAGFYGGVGIVFAFSFLLIHLLKLTTLGRPYLSPIYPLSISDLRYSLFRLPYQFMGR
+RPNSNSPIDNQRMKKRKKTETKDVDE
+>tr|A6CPB4|A6CPB4_9BACI
+MLVNETDLRKKAFDELFGKPQEAAEGSWITNYSLVLAAIIFVLFEKGIF
+>tr|A6CL22|A6CL22_9BACI
+MSEKLLRVGTTYLPVRNVASAAEWYTVNLGAKVNYSDEDKAILDLANQSFFLVQAGNNQS
+ANFFDKNGKEHFSMTFEVNGLSALKDLHKDFKEKKLKVGDIEDRGHAGKNFVFWDMDGNK
+FDAWSELSPDFKEKYTVQ
+>tr|A6CHI8|A6CHI8_9BACI
+MVSTLLATVIFLLTLTLVIWQPKGLSIGWSACGGALLALIAGVVDFNDVIDVTGIVWNAT
+LAFIAIIIISLILDEIGFFEWSALHMARAAKGNGVLMFIYVTILGAIVAAFFANDGAALI
+LTPIVLAMVRNLNFNEKMVFPFIIASGFIADTTSLPLVVSNLVNIVSADFFGIGFVEYAS
+RMIVPNFFALLSSIIVLYLFFRKSIPKNYDLSDLKEPAEAIKDHKMFKLSWVVLAVLLVG
+YFASEFIEINDEMTLPVSFIAGIVAIFFLLMARRSPAVNTKTVIKGAPWAIVFFSIGMYV
+VVYGLRNAGLTDVLAGVIQAAADQGLFSATISMGFIAAILSSVMNNMPTVMIDALAIAET
+NTTGTVREALIYANVIGSDLGPKITPIGSLATLLWLHVLSLKGVKISWGTYFKTGIILTI
+PTLFITLVGLYIWLLII
+>tr|A6CK40|A6CK40_9BACI
+MISKNIYHSHEISWYARKKRATSLFREKKPFNQGENPALGIFPKATTLRKQPSIKQVSAY
+LTKSRSG
+>tr|A6CPW6|A6CPW6_9BACI
+MKGENTIMQRVQAYFRNENEAEDAKASLQTLNARDVMVERVPESNRNLWDLIRDTFSGSN
+SFDEDHHNPHVVEFQVEEEGYSKAKEIIRENNGHIQ
+>tr|A6CR07|A6CR07_9BACI
+MVNQVKNNEDRIREIESLLAELKKSSQQTSATVVLDREKIRLPFLKVGKAIFTVWKSKFL
+LMLLIVVLAISGLSVGMYSWLSGSRLQEEQGSFVEQIKEMNTLATAQAFTKAVIEQEDNK
+IFGKEISADLPGTKRKLLLVVPGTVIAGVDLKKISEDDILVDEEGKEMTIELPRAEILQS
+PSLDTENIKTFSVEGIFRSEVDWEEGFGLAQEAKELLQQEALDQGLLQIAEENAEKSLKD
+FFRQLGYTVTIDYKN
+>tr|A6CH67|A6CH67_9BACI
+MPELSELDFHGLDELSIDDKKNLLQEEYDMYQVNSSIRYEFDNLNEDAMNEFLESVFNAK
+AVMEVTQGGEYPAKLVASINDHSNLEEEEFFHLLRVLYLNDYIEYFKDKEFDLSEESKDV
+IYEDANAVDTTFKTRYNLHRLFRNDKELFNEEYFSGHESINSEERMYYKFLNYGTIIDQI
+CSYGTLIRLSNKGMHYLHFVTNKRSVDLMHKHEKTLKEINTAKEEQANLLGTFHEHKAEQ
+ESSIGVIKDLINKHSNKIKDFYKDITTILSLMLAAFALIGVNISAIPKIESNFTANLLAM
+NLSLILCMLVLFYILRVIVYDSQINSKHFYLILGITISGIVGVFIFLGFNHESKIEVIEK
+KYQNMLEKNTQDNQQDILELKKQIEELENQVNE
+>tr|A6CLK2|A6CLK2_9BACI
+MKEKEKIIIESAIKFFATKGFGSTSIQEIANEAGISKGAFYLYFKSKESLLLATLKYYFT
+RIQMQMREIDSEPLPPRDKFIKQMQTQLSSIKDHKDFIIMQARENALPFNEDIEEFIYTM
+RYNKGLFYKNSLLDIYGDGIEPYIWDLTMIFQGLFHPYIELLMLENIEFDFTKLAEFMLG
+RMDDVVKGLIDSDAKEKAILSAESMENLIAENISKSIDSDVIIRTIHKLKESFASSEDDS
+VIVTLEVIEEEVSKEKPRIPVIKGMMNNLIDYAETAPLQQLLTSYYKIDQ
+>tr|A6CIR1|A6CIR1_9BACI
+MMFFGDNKNRPFPWNILGVITILCSSIITYLFNIPLKFTAVFLTVFFAIYFIIAPELE
+>tr|A6CJ48|A6CJ48_9BACI
+MAIIVLSGCFYHFFIGRINLNVNFQLSLLASLFLLVGLETAHKKEKTMAFLYFLTAFVVL
+SGLLIELVRVIQ
+>tr|A6CHS7|A6CHS7_9BACI
+MAKEKLKSYRKAVKDDKGAKEKLKSYKRYVEYDKVAKGKIKSYRKAVKDDKGAIEKLKSY
+RKAVKYDKKAEEKIKSYKRFVKDEKEAKEEMKSIKI
+>tr|A6CTR2|A6CTR2_9BACI
+MKPVPENRQISPFIVLFLIHSIQVGVGVLGYQRVIAKSAGYDAWMSVIVAGLLTNIIVFI
+IFKVVQTGGGDLIEANKAAFGKWFGKFFDSVYLLYFCLSAVTVARTYIEVIQVWMYPRIS
+SLFFAILFFLLVIYVVNGGLRTVAGVAFFGTVLPAYLVLTFAFTIPFADFRNLLPVWDHT
+LLDMMKATRDMTLSFLGYEALLIYYPYISQGDKSKKWAHIGLLITTVIFAALTVVSFAFF
+SEGQLEKTVWATLSMWKIVEMPFVERFEYIGIANWCLIILPNVCISLWCASRIAKRSFKW
+NQRKTLIFLSALCVVAISMLQERNHINTLNDITSKVGFYLNFGFIPFLLFMIFLMKKVKQ
+KK
+>tr|A6CTY6|A6CTY6_9BACI
+PNDDKNVIMEVRGAAGGDEAALFAGDLYRMYSRFAEAQGWKTEVMEANSTGVGGYKEIIF
+MINGNGAYSKMKYENGAHRVQRVPETESGGRIHTSTATVACLPEAEEVEIDIHEKDIRVD
+TFASSGPGGQSVNTTMSAVRLTHLPTGVVVSCQDEKSQIKNKEKAMKVLRARVYDKFQRE
+VQAEYDANRKSAVGTGDRSERIRTYNFPQNRVTDHRIGLTIQKLDQILEGKMDEVIDALI
+LEDQSKLLERLEE
+>tr|A6CHF5|A6CHF5_9BACI
+MQEQEYMKLALSLAKAGKGQTAPNPAVGAVVVKDGEIVGMGAHLKAGDPHAEVHAIRQAG
+SKAEGADIYVTLEPCAHTGKTPPCANLIVENKLKRVFIASVDPNPLVAGKGIDILERAGI
+EVVTGICEKEALELNAHFFHFIQTKTPYVTLKSAVTLDGKTAAYTGDSKWITSEESRLDV
+HKYRHHHDAILVGVNTVINDNPLLTTRLPRGGKNPIRVVLDSHLRIPLESDILNIEHAKT
+IIFCGSEASEEKKGMLLNKGVRVEQLESPKLPVKMVLQRLGELNVTSLFVEGGSAIHFSF
+LKEKAYQEVVIYMAPKLVGGSEAFTSFGGHGFPSIAEGDELEFSSIEKIGKDIKIVAKPI
+RKE
+>tr|A6CLK5|A6CLK5_9BACI
+MDVSLNEAYAREQDKQDGLSHFKDEFYIKKDWYYMDGNSLGLLSKKAEKSLLTSLEDWKQ
+FGIDGWMDGEQPWFYYSEKLGKMTAPLVGSKEQETIVTGSITTNLHQLISTFYQPQGKKT
+KILADELTFPSDIYAIKSQLELKGFDPDKNLVQVKSRDGLTLCEEDIIDSMTDEVALILL
+PSVLYRSGQLLDMKLLAEEAHKRGIIIGFDLAHSIGAIPHELHDWNIDFAVWCNYKYLNS
+GPGGVGGLFVHENHLGRKPGLAGWFGSKKDKQFDMEHTMTHAETAGAFQIGTPHIFSLAP
+LLGSLEIFEEAGIANIRAKSLKLTAYLMKLIEENLSEYGFVISNPKDDRIRGGHVCLQHE
+EAARICKALKGNGVIPDFRAPNVIRLAPVALYTSYHDVWKTIEILKTIMKEEQYKQFEKG
+RNVVA
+>tr|A6CRN6|A6CRN6_9BACI
+MATGIRILTLTKDTNLTRIIKKISGCT
+>tr|A6CPW5|A6CPW5_9BACI
+MRKVEAYFQSEAEAESAKNKLKSISVEDGLLENVPGGRNISEIAGDLFSGEKHDGSHKLS
+FQVSEENHHRAHSIVKEHNGRLA
+>tr|A6CJF9|A6CJF9_9BACI
+MKERRDYRMDQEKKKQADEATIAPGMDDGAGLNEEATEKEIEKGDYTEVTTLSYDEVDPS
+>tr|A6CMV5|A6CMV5_9BACI
+MDRRVEVVPHNPQWKEQFFYEKERLDKVFDGLAAIHHIGSTSVEGLAAKPIIDFLIEVPH
+IRIADDKTAELEDLGYIGKGENGIPGRRYFFYETGEGERLYHIHVFPSGSKEIERHLVFR
+DYLRAFKNEAEKYGKLKTELAALYPIDMDAYIDGKNDFVQEMEQKAMEWGRNTTN
+>tr|A6CRB9|A6CRB9_9BACI
+MSKKHSKNRGTKANAVNPQGFAQDGTATPDPKSKLEDRAKRSNTKI
+>tr|A6CIA8|A6CIA8_9BACI
+MFINFNPTQLSITAVIMGGLGVLAVGYLAFIVEKKIRDQK
+>tr|A6CK72|A6CK72_9BACI
+MKTSTLPKVILRELTPDDAEDRYQWCLDVEVTRHLNMPNKYPPFSREETRQWIEMCISRS
+NGYEQMAIETGDGIHIGWVDIKNIDKLNKHGELGIAIGAKRYWGKGYGLAAMKAMLQYGF
+TTLALNKIWLRVEVDNEKAIKSYRMMGFVEEGILRQDRLREDGYVDRLRMSILKDEFLDN
+>tr|A6CHH1|A6CHH1_9BACI
+MDIRELTAEDAEVYWNLRLEALKNNGEAFATTYEESLARSNPIEQVKKNLASKDSLTYGA
+FIDESLAGNVTVMFNRHEK
+>tr|A6CJP3|A6CJP3_9BACI
+MIIRSVNWLDAVNMYPAIELNKIMIDKGSLGIRKVISPLRNNVAAPSKKNCKNKVIVVSM
+GFLLNVFTDSLPQLSGM
+>tr|A6CT06|A6CT06_9BACI
+MRKENQVDVGLKKGELTNEKGKLKG
+>tr|A6CLM2|A6CLM2_9BACI
+MLKIKYKRSIFHFTETYSDGYPPQVGDTDVHLNSFLITDPLVDQVDNKERFTFHKLFRTL
+VINLEKDDEEIFDEIGKSTRYKIKRAEREGVEYSEINNPSDKEIQTFTETFNQFAKKKKI
+QPCNPKKLKACRDKNAFIITMAKVEEDILCFHGYTFDGQRAIMLYSASFRDSHDAAQKNL
+IGRANRFLHWQSILSFKAKGGKWYDFCGLSLNENGHQGINKFKKGFGGIEADELKTYRGK
+NLVGKLIILALRWKWRKQPEFIRAQRLLNSCRGGEGLGGGSS
+>tr|A6CMX6|A6CMX6_9BACI
+MADKKNVILITDGDEYARRAVEAAAKGYGARCISRSQGNPSVLKGRELVELIKKAKGDLV
+FVMFDDSGFLGEGSGETAMKYVAGCKEFKILGAIAVASKTRQAEWTKVDVCVDKFGELTP
+YGVDKFGVPENEVGRLNGDTVYCLDQLNLPIVVGIGDIGKMAKKDHFSRGAPITKKAIEI
+ILERSGYHAK
+>tr|A6CJ70|A6CJ70_9BACI
+MPNLNDNKFRKIQSEAAKQGKSQEEYAAELQANKQQAQKRK
+>tr|A6CIH9|A6CIH9_9BACI
+MVMSALTGFEKQQYFNIKEVNIEVKDNILSYEVILQTDDGTPIESRYDYPGQKIQGFELA
+VIPNKPLADLMELEIYKESKFTKMRPNQIGTRASSREDEIILFSEYVIKNNSDLVKLEKL
+AMQEAILFIFDGANKIKEQPISRNLY
+>tr|A6CNS7|A6CNS7_9BACI
+MIYIGMNINRLPQNEQELLSCIDNYIDKVHQQSAQPATIKKAELEEHIESEAARLSVPYE
+KNSTSIQTYYTFYLKQQNVQVELFYRYQSFYTRHSINPLT
+>tr|A6CPJ4|A6CPJ4_9BACI
+MRKRAGCLLLLFVILLSGCADGKDGSSNISIKPYSLSEKEQVLINKTGVDAIQFFRLDGT
+LAEVEDLQFSMEVYKDGKLTEDHVYARGQVEKEFNQTILSYGFDRKDNQVIFLNGFDNGL
+SEMTEELGEIDMSSFTSFLNEKKKLVKDESMYLTAWIGTSENEMGRTVALKEDGTLSDEI
+VGAEAAYVFKVTLTDYGKE
+>tr|A6CQT1|A6CQT1_9BACI
+MGSIPFITVEGPIGVGKTSLAKAISDHFNYHLLKEIVDENPFLDKFYDNIDEWSFQTEMF
+FLCNRYKQLEDIETHFISQNKPVVADYHILKNLIFAERTLKNKQFDKYLNIYQILTEDMP
+VPNVIIYLNASLDTLLQRIAMRGREFEKKISPLYLEQLSMDYERHMQQFENKYPNTPVLR
+FNGDEMDFVKNQNDLSAIIDSLEQTLKKGATLT
+>tr|A6CI92|A6CI92_9BACI
+MAGPLFSNTGMLIQTILRQDRIRIGIWIVSLAILSYMTAGAFKGLYPTKESRQAIAETMM
+NPAMTAMLGKSYGIDNYTYGAMFAHEMLLFTAIAVAIMSILLTVRHTRAEEEEGRIEMIR
+SLPVGRLANLNGTLLVVALTNVLLAFIVGLGLYAMGIESIDLKGSLLYGAALGSTGLFFS
+GVTSVFAQLSDSSRGTIGFSFTILGAAYLVRAVGDVSNETLSWFSPLGWILGSEVYVNNY
+WWPIILTAAVSLALMFLALYLNSIRDIGSGFLPSRPGKRFASVFLQSPFGLAVRLQRTGM
+ITWGVGMLLMGVSYGSVFGDLESFFNEIEMMQQLLPSADGFSLTEQFTAKIMSVLAIIST
+VPALMVVFKLKGEEKAQRTEHILARPVSRTRLLGSYLALSLIVSIVMQGIAAIGLGVTAD
+AVLDKGIGLTTFLEAGMVYLPAIWMVIALGVLLVGFLPNLTGVTWMYLGYSFFVIYLGGL
+FQFDEWVGNLSPFGHIPELPIEKMNILSISTLTLIALVVMAAGFVGYNRRDIQG
+>tr|A6CIK1|A6CIK1_9BACI
+MSLKKSLKYFLIISAFFVFAYYFSNGNSPLTTSSSSAAITVSSGSADYQVYESLEELENN
+SDLIVKGKLYGEPTIQNIYQNGVHIDSVGKTEIKINDIFKGQVSEGTIIIVYEPGFVRDN
+ILETMEGYVPMNKRGNYLLFLQENPKGEYVVMGVNQGKYDLSITKKATTYTSISKEKLEK
+VDYVGESPNRFNKMKNEVFEKYNE
+>tr|A6CPT9|A6CPT9_9BACI
+MPEGKIIKALSGFYYVLSNEEITQCRGRGIFRKNKVTPLVGDHVSFQSENEKEGYILEVF
+ERKNELVRPPIANVDQAILVFSAVEPDFSTALLDRFLVLVESKEIEPLICVTKMDLVKDG
+EREMINDYVETYRSFGYEVVITSSKTEEGLAALKPHLAGKISVFAGQSGVGKSSLLNALR
+PELDLKTSDISTHLGRGKHTTRHVELIEVDDEGLVADTPGFSSLEFSELELEELSSCFPE
+MAEKSDECKFRGCFHINEPKCAVKKAVESGEIPEFRYDHYQQFYNEIKDRKPRY
+>tr|A6CKA5|A6CKA5_9BACI
+MNSKMDRRKQYTRMVLKESLMALLQTKPISSITIKEICERADINRSTYYAHFSNQYELLN
+LIEEDFIEELVAALGQYNFSKEDEALQMTEKLFEFIAEKSSVCQILLSENGDIHFHKKGM
+LITQQFIFNNWITDNKMDQETSEYINLFLVSGSIYVIKNWLENGQNKTPKEMAEILHNFI
+NKGLSNMR
+>tr|A6CJX0|A6CJX0_9BACI
+MEKVQWFLKFKVNIAPPYGFCGINSRPFVQVKGALMEDLVEV
+>tr|A6CKL8|A6CKL8_9BACI
+MEHHNNPQSRDEDEKEFFSEEPDIEDFFMEEEESPAKSKFRSWLAKMIAFAIALSLVISV
+LAVWVRVFNMPSFSFLPKSNELSKIENIQDYKRAVVTIEGNGSKGTGFNIAEDGTIVTNH
+HVIENMAPITVVFPNGDIMQAELVEDYPDLDIAILDVDGEDMPYLEIQEKKKGKSGDSIY
+VIGNPLAYHQIVMEGSITKVRERLYLSAPIEKGNSGSPVIDSDGKVVGVVYAMTIPSIGS
+KEKPEGLAVPVDKIPDLP
+>tr|A6CU90|A6CU90_9BACI
+MKEFMKKQGVNPSAKVYFIDALSFMALGLFSSLIIGLIIKTIGQQLGFSFFVEMGGLAIS
+LMGPAIGAAIAYGLGAPPLVLFAGVVTGAAGAALGGPAGAYVAAVLSTEIGKLVSKTTKI
+DIIVTPLVTMQ
+>tr|A6CMM7|A6CMM7_9BACI
+MIGKDVMRELFKDSNIYFPGVRTSQNKSCSYRLFAFVNDLNYFNHQPTFDAKTVFEYDKI
+LSYVMISLVNFKTT
+>tr|A6CJ81|A6CJ81_9BACI
+MMAITKVQPVNDAKDPIPRSDTNLNSPQMPLIYGGLIAGAILLIYLMMTQSAAQPLLLMI
+GLGIGYTLFHARFGFTSAFRRFMSVGNGEALRSHMLMLGVAVTLFAPILAFGLSFFGGPV
+NGYVAPVGISLLVGSFMFGIGMQLGGGCASGTLYAIGGGRSVMFITLLFFIVGATVGAAH
+LPFWTEDLPSFEPVSLATSTGLGYGGAWIVSIALFALIAWVSTVVEKKKKAPKMAPVPTA
+KGWKRILRGSWPLFVAAIALAVLNALTLMTRGAPWGITSAFALWGSKAAMFFGVDVASWG
+YWQGANAAALQSSIFADSTTVLNFGVILGAFLASAAGGLFRFSKVTGKNAAASVIGGLLM
+GYGARLAFGCNIGAYFGGIASFSLHGYIWGILAMAGTFVALFLRPMFGLSVPKPKDTFC
+>tr|A6CJZ9|A6CJZ9_9BACI
+MKLAEALLERADLQKRLAQMTGRLERSAVIQEGEDPPEDPQVFC
+>tr|A6CMP3|A6CMP3_9BACI
+MDQNLAYLREVLSNYTEENEMMSEIYRKIEHGHYPSEGAFVKGLSEEEIRSLENILDNEI
+NHANEAGDLERGYQLNGVYELLY
+>tr|A6CQN4|A6CQN4_9BACI
+METKHQTDLTSAEIAMLWNTYMADTMAYCILHHFLKTTEDKSIDPVITYASDIAKEHIEV
+IRDLFIKEELPLPNGFGKNDVNSDAPKLFSDVTYLRYIHHVGRSGLNAYSLAKGVLARKD
+VRELYSKWLQQSDKLFDMACEMMLEKGVFIRSPYMAYPERVEYVMNADFMGGMFGKKRPL
+LAMEVAHLGTNIEVSNVAKTLLLGFSQVAQSKTVANYFKKGYDSSRKHNEKFISCLKDDD
+NSYPSTWDSTITASTESPFSDKLMMFQISGLNSIGMGDYGMALAATMRKDIGLMYESLLM
+NLGKYADEGAKIMIRNGWFEKPPQTLDRDKLRKQKK
+>tr|A6CTH6|A6CTH6_9BACI
+MMKMWVSFGSMGFMILAILTIYLSRYKLKKGFFRFITALIAYVLMITGGLMMAYIVLSGP
+TN
+>tr|A6CHK6|A6CHK6_9BACI
+MGEAARKYTNVNQSKNTDNTIVQSLKGDKIAIFNTPILWFGIFTAITLISMYTGNLPGGM
+IGSLLVMIVLGELFGYVGDRLPIVKTFLGGGAIVAIFGSAYMVYSGLLPEGVTTSVTDFM
+KSGGFLNFYIAALITGSILGMNSKILVKVGLRYFLPIGGAVIGAVALTALIGSIVGFTLQ
+EAVLVIAMPIMGGGMGAGAVPMSQIYSELLGNEPSYYISMLVPALALGNVFAIVLASMLD
+IIGKQFPSLTGNGQLIQGFKYEKPEMTYDIQKMGAGLLAALTFFTVGTLLASFIPLHAYA
+IMIILVAAAKVANTIPTVVVEGASQWYQFVAKNWTFALLFGIGVAYTDLGTVLEALTLQY
+ILTVFGVVLGAVIGAALLGRLVGFYPIEAAITAGLCMANMGGTGDVAVLSAAKRMELMPF
+AQISSRLGGALILLLAGLLIPLFT
+>tr|A6CLL6|A6CLL6_9BACI
+MQNDEKNQYGITIFTATYNRAYIIDQLYESLKKQTVKDFEWIIIDDGSTDNTLNLLEEWK
+HSENNFTIRFVQTQNGGKHRAINIGMEMSNGELFFIVDSDDHLPETAIETILRWYPGIKD
+HPMYAGLGGLKAYRNGSIVGRTFNGEYVDATSLERIRLRLIGDKAEIFKTKIVKEYKFPE
+IENEKFIPEGIIWNRIANDGLKIRWFNEVVYLCEYLEDGLTSNSDTLLLNNFEGYTLYIK
+ENMTYYNICNPYLLRILTAYVYRAKKKGLTFREIQERIQLNRALIIILHCIGKAHYSFKD
+RLYK
+>tr|A6CP25|A6CP25_9BACI
+MRNLQYLFVALFLGGFVFLYSSQPTTAARTTHAETLVKEAESWGGALKWAISIEYIGKVD
+YPNMDTYNSTKVALSEAQKAVSALPESEQKRQLEERLESKVTIHFKRAMAYIDAITSGKK
+IQAHKATLHNNIYVYEDIEKTKASYDTLSAEIRKQAVLLYRVYGKSTRDAILEEFKDPAE
+SLLRAVIYEITVYNALNDVEGQIAKGVSHPRLEQANIHIKNVKGSSPFWNELYSGVENAN
+NTVKMSYAELKDLLTQQAKRTGIPPEILKAIAYNETAFTQFGRNYGPNISFDNGVGLMQI
+TVDSNNSPYDYQRLKFDTAYNIQVGAEILKQKLDYDIPVINNGDLAFLENWYFAILAYNG
+LSKINDPTIYPATYQQRIYTTISNNSQVNPEALSKDDIMITYKENSNIMEFGAKMYYQTS
+RTTKTTQVFEIGETAILKHSVALRSKPTTSGDFISSLPAGSTLKFLGKPESDNNPSNHFV
+WYRVSLPNGDEGYVASVSF
+>tr|A6CRZ1|A6CRZ1_9BACI
+MVSPVIKSGSALVRPDRQMFLREKKAIFPFILSGLFDPEGMGAETRRPAYPAGGHAPSAS
+INILKQKYVLLNLF
+>tr|A6CUA1|A6CUA1_9BACI
+KVYSHHRTYRFRKIDSLQHLNALLKPTSGKVVIGDYEITPKKKYKQLKPIRKRVGIVFQF
+PEHQLFEETVLKDICYGPLNFGVSEEEAERRARQLIVTVGLSEDVLERSPFDLSGGQKRR
+VAIAGVLAMEPDVLVLDEPTAGLDPRGRTEIMDMFLKIHQEKELTTVLVTHSMEDAAQYA
+DELVIMQKGKLVGKGSPQEIFSKPEWLFSLGLDVPEVVKFQYSMEQQLGHKFSKTCLTIE
+ELADEIKAFSERGEQS
+>tr|A6CP93|A6CP93_9BACI
+MKERLESDELKIYKSLDSRKKLNAKEKQYFAGLEKGFIGEKLFDDWLEPILGDRILLPDM
+QFMPKSTFVQIDTILLTSKLIYTFEVKNYEGDHVLEGDNLLRTDGSDTKNPLLQLKRNEP
+VLRSILDNLGFKIPIQSIAVFVNPSFHLYNAPVDLPIIYPTQLQRFIEKLNYTPSFLKKH
+HTELASKLISATVAENPYVRLPAYRYDELRKGIVCPGCGRFYEEYVRSTLTCSSCGGRES
+AHSAVLRNIKEFKLLFPDDRITVSGVHDWCNIIQEKKTIRKILDTQFKLVNKGRGSYYKE
+>tr|A6CLX1|A6CLX1_9BACI
+MGIHVVLYQPEIPANTGNIARTCAATDTTLHLIRPLGFSTDDKMLRRAGLDYWQFVEINY
+YDSIEEFFEKNEGGEFYYLTKYGENVHSGYDYSNKEKDYYFIFGRETTGLPDEVIENNKD
+RCLRIPMNNNARSLNLSNTAAILVYEALRQQDYLQLNKKL
+>tr|A6CHM7|A6CHM7_9BACI
+MVETNRKPNKKWLLFLSLTTLVLVCNFAFYRLEEVPTGMAIASVIDLMIIIPLMAYFFII
+RRNHSVKNLSLVIAAGYGAAWLIIPNDHLSSIPFFKYLLIAAEGIFLLVELYIVFHLFKT
+IPKVWKYTKKLKSQTGDFLPHRLEKAVHQNMNTSLPIKIYLTELSLFYYSLFSWKKRARL
+AGRSFTLHQQGSTIALYVMLIHALIIESIGLHYFLHQWNPVISWILLILNLYSLLFFLAQ
+IQGFRLNPAKITDDELIIRMGFTTRINIPLTNITSVNQYEGPERLSKDQSKTTFLALAPD
+FISEKAQLEINLKEPQKAHYLYGYTKSVSQVHIKLDDPASFEKSLKSSLNNIS
+>tr|A6CIS1|A6CIS1_9BACI
+MNDEDFLKHVAELIERQLHEWDLDYSVYLMKFKDYEVVVKITDQYYEVKLTEQELEMLRI
+KGLYKLDHKIWTGLIDQGLTVMEGYGNYMETVMPEIYKS
+>tr|A6CR28|A6CR28_9BACI
+MLGRKGSKRPNENEILERYWCEKGVNGPMRMKFWRDVGAKRE
+>tr|A6CPA7|A6CPA7_9BACI
+MREEEQKQLQYAIAEITEIAKGFGLDFYPMRYEVCPADIIYTFGAYGMPTRFSHWSFGKQ
+YHKMKLHYDLGLSKIYELVINSNPCYAFLLDSNSLIQNKLIVAHVLAHCDFFKNNVRFQN
+TKRDMVESMAATADRIRQYEIEHGKKEVETFLDAVLAIDEHIDPSLMRPKLSWSMEDVEW
+EIEEVSAPTPYDDLWSLDEGQRKEKKQRRKVKKKFPPQPEKDIMLFIEQYSRELADWQRD
+ILTMMREEMLYFWPQLETKIMNEGWASYWHQRIMRELDLTSGESIEFAKLNAGVVQPSKT
+SINPYYLGLKIFEDIEERYNNPTEEMIRRGEKPGSGRDKMFEVREIESDISFLRNYLTKD
+LVTREDMYLFQKQGKDYKIVDKEWKEVRDQLVGMRVNGGFPFITVNDGDYMKNGELYLKH
+WYEGIELDIKYLEKVLPYVHQLWGRPVHIETHVENRQILFTYEGRSVQRKYL
+>tr|A6CQZ0|A6CQZ0_9BACI
+MEENHTVDLSNYSIRTDLAVEAREMVLAEKSKDAEKAEQVSELKGVIVNEREVEGIAISH
+VKITEEGEELLGKKAGNYLTIEAHGIRQSQADLQQKVEEVFAQEFSAFLAQKGISPNASC
+LIVGLGNWNVTPDALGPLVCENLIVTRHLFELQPESVEEGYRPVSALAPGVMGITGIETS
+DIIYGVVEKSKPDFIIAVDALASRSIERVNSTIQISDTGIHPGSGVGNKRKGLDEETMGV
+PVIAIGIPTVVDAVTIASDTVDFLLKHFGKEIREGDKPSRSLAPAGMTFGERRKLTEEDL
+PEEHHRKTFLGIVGTLEDQEKRKLIHEVLAPIGHNLMVTPKEVDVFIDDMANLISNGLNA
+ALHSAVDQHDAGFKTH
+>tr|A6CNG3|A6CNG3_9BACI
+MIPVTLENFTAQYKDLLEEKLNELLLDLDAPEKVKEAMAYSLKAGGKRIRPLLLFATLHT
+LGKDPKIGLESAAALEMIHTYSLIHDDLPSMDNDDLRRGKPTNHKVFGEATAILAGDGLL
+TYSFEVLAGTPDVSAEKLIRLVSLLAKSAGPEGMVGGQAADMEGESQSLSVEELEYIHKN
+KTGRLLAFSVMAAAILADSTEEQISLLEEYAFHIGLAFQIQDDILDVEGSEEKIGKPVGS
+DENKFKSTYPALLTLEGAKEKLRNHLQKGKSALAASDLDNGLLVEIADMIASRDH
+>tr|A6CU95|A6CU95_9BACI
+MYILQGIESFFCWILSKNSEDTTLFIREGDSFMSIKIPRGTQDILPADSVKWQYVEKTAA
+DICRNYQYEEIRTPIFESSELFLRGVGDTTDIVQ
+>tr|A6CHL1|A6CHL1_9BACI
+MLISQGVILKDEYVLMVKQYVERGDIVWNFPGGEIENNETPEQAMVREVKEETGYLTKII
+ELLPCETGKFSFLAEIVSGEMQLDHTFPDNQDIVEIAWISIDDIDKFDAYTLPVRELLLQ
+HLGAGI
+>tr|A6CJK6|A6CJK6_9BACI
+MGIIGIILSGLFAVMGFILNANRGMMQEMMEQEMTRDPSLTTEDTNYIMQMIDSMGPFLI
+GLGLISAILGLVAVVLIKGNKKPVLAGILFILAALVVGLGTFGAGFLPGLLFLIAGIMAF
+VRKPKEPVSMV
+>tr|A6CH74|A6CH74_9BACI
+MRNMKIAWVTDSTACRVDELENNEDVYVVPMNILIGNQEYQDGVDLFPQELFKFLKENGA
+DAKTSQPSIGVFQELYTKLQDNYDHIFSLHVSAAFSGTISSAQQAAQLVDIPVTVIDSKI
+LSYPLTKLILDGIEAAKEGAKPSEIEKQVLTKINTGETFVMVGSLEQLHKSGRMNGVSFF
+LGSMLKIKPILAIKDGKLEVVEKVRSIAKGHIRMKDYLDHALQTKDIIEVYILYGLNKAE
+ADSWVSDLSGKYPEINFSSHELGAVIGVHAGEDTLGISWFAE
+>tr|A6CLY6|A6CLY6_9BACI
+MSLEVLGITVLWIFLYGYLIVASIDFGAGFFAFYAKVTNKKHTVNDLISRYLSPVWEVTN
+VFFVFFFVGLVGFFPDTAYYYGTALLLPGSIALILLAIRGAFYAFGNYGSKDNIFFLFLY
+GATGLLIPASLSTALTISEGGFLKETEDKVVFLAEELFTSLYSWGVVVLAIVSVLFISAS
+FLTYYADRANDSDAREIVRKFALFWSPPTILASLLVFIGLRQHNPEHFQKALDIWWMFGL
+SLLFFLIASWLIYKRKKFGTAFIMVMLQFFFAFFGYGASHLPYILKPFITIESSVTSPVM
+GTALVVVFIAGLLLLIPSLILLMRLFLFDADYVKGNK
+>tr|A6CTY2|A6CTY2_9BACI
+MDIRWHYESSWDTLFANEVGILPAREHTLQKNEDVYSTPEKV
+>tr|A6CTL3|A6CTL3_9BACI
+MSVVSKQEMKVNRERLNKAIGLFPQVHQVTPDMHITHKGVSRLVMIDRYSFKDTEKITLT
+EGDFVVLTIKEDPKFPARGLGYIKSIDWESNQAEVLIDEEYRSALDNPTEIDTAVVKRSL
+DVIEKPLEVYYEQIAKRNATGLASVETTEEKRQEWFEKFYHELVNMNFVPAGRVLYGAGA
+DTDVTYFNCYVMPFVKDSRDGISDHRKQVMEIMSRGGGVGTNGSTLRPRNTLARGVNGKS
+SGSVSWLDDIAKLTHLVEQGGSRRGAQMIMLADWHPDIIEFIISKMQNPRILRYLLENTE
+DEQIKKAAKDKLKFTPLTEQEKVMYQGIVNYKQIPGLGGFSEKIIKEAEEKLRTGGTYSV
+HNSEFLTGANISVCLTSDFMEAVENDAEYELRFPDVEKYDEEEMKFYNENWHEVGDVREW
+EQMGYKVRTYRKMRAKELWNLINVCATYSAEPGIFFIDNANDKTNAKAYGQKVVATNPCG
+EQPLAPFSVCNLAAVNLAEFADKENKTVDFDKLKKTVEVGVRMQDNVIDATPYFLEQNKK
+QALGERRVGLGVMGLADLLIYCEKEYGSEEGNKLVDEVFETIAVTAYRASVELSKEKGSF
+PFLQGETEEETNRLREAFINTGYMSEMPEDVRQSILDNGIRNSHLLTVAPTGSTGTMVGV
+ATGLEPYFSFTYYRSGRLGKFIEVKAEIVQEYLERNPEVNPDSLPEWFVSSMELAPEAHA
+DVQCVIQRWIDSSISKTVNAPRGYTVDQVQGVYERLYKGGAKGGTVYVDGSRDSQVLTLK
+AEENSFDDEETEQQAPQGKKPVVLVDTIQDVRATDVTIGSEVGNTCPVCRKGTVKDMGGC
+NTCTNCGAQLKCGL
+>tr|A6CHB7|A6CHB7_9BACI
+MGFWREAVNFFEREWKTGFQVEDYVVKSLLGKGSYGTAYLVENITDGRLAVIKRLRPYKR
+LIDPSGKLLFREADILNRLESAHFPKLISVGKQGKVPYLIMDFFEGKTVDQLIFDEGKSF
+DEKESLTLVKEVVEVVSSLHVKGIVHRDLRIPNVILSEGTLKIIDFGLAVEMENNDSGLL
+KHRDYMREKSVRADFYALGHFLLFLLYSSYKSDSRKEKSWEDELDLTPPTKEVLRKLLQI
+EQPFADSHELLDSLEEAIRKIQK
+>tr|A6CTJ6|A6CTJ6_9BACI
+MHWKKILGTSVLTASLALSTFGPASLAANVSQAGSGTVHPEKHDHSHSGPFDLGIANTDR
+LIAMLKEEGKIAKNATTAQAEQALNSFLKQKSKAAELAVHEEESTNLELIPSSEGQLNSS
+AGIEKGKTQQAFSGSTIPSVKQEAWNGQKRTDKVLVLLVDYPDKPHNTLTPSETDMYYDD
+ENAYSQAHYQDMLFGTGGWTGPDGKTYVSMKQYYEQQSGGSYSVEGDVAGWYTASKPAAA
+YGGNYPTPDGSDVNARGLVKEALNMAAADPNVNLADYDQWDRYDLDGDGNYLEPDGLVDH
+LMVIHSGVGEEAGGGSLGSDAIWSHRWNLGGVFPIAGSAKPEVDYWGVGTMYAYDYTIEP
+EDGAVGVMAHEFGHDLGLPDEYDTQYTGSGEPVSYWSIMSSGSWAGAIPGTMPTGFSPYM
+KEMLQESAVVDSKGTKGNWLTGTTLNEKDITASGTTLLLDEANTKGTNNDVIKVDLPGKE
+TVINKPYSGKHEYFSGSEDDMHTILSARVDLTNATTAEFNFATWYDIETDWDYAYVTVNG
+SPIPGAITTNTDPHGSNLGNGITGSSNGWKNVSFDLSAYKGQEVEVAIEYVTDAAVSNPG
+MYVDDLSVKVDGYQVLFDDAEGSAKFELDGFTKSDGIKRSEHYYLLEWRSHNGVDKGLAN
+IRRGESLMVFDKGLVVWYVDKQYSENWTGNHPGEGFVGVVDAHQSIASWSNRSVAATRYQ
+VDDAAFSLDYTNNEFLNYTNINGDYLRKRSEAPVPTFDDSKNYLNNGMVDAGRNVPNYGL
+KFQVVGQSADKTVGKVKISKSAPQTTTWGSWNW
+>tr|A6CHN3|A6CHN3_9BACI
+MVKVKVCGIKTIEHAEAAVKAGADAIGFIFAESRRKVSIHTAKEISDTIPASVLKVGVFV
+DADREEIEKTAQEANLDYVQLHGSETVDFMKSLSVPAYKALSIKEKKDLDGIENYPGNFI
+LVDSGHGAARGGNGTTFDWSYLENVSIDVILAGGLNLENVCSAIEKVNPFMVDVSSGVET
+DGIKDVKKINEFIFKVKNISRMKEEVQ
+>tr|A6CIC7|A6CIC7_9BACI
+MENQKQVIDTLNEKQKAFTQDWSEYWHQYSSFDTWQFWFMVIIFFVPLIVLYFKLDRSKA
+FHLGFFGFNIHVWLGYIDRFGVGYGFWEYPYQSVIYLPNNVNLDASLIPVVFILMYQWIL
+ANNKNYYLYMIILSAGLAFIFKPLLALHFFMTFYIDFPYFHLFLGYLVIFTLSKVITDIF
+LHFQLGK
+>tr|A6CPC6|A6CPC6_9BACI
+MGWKLLEGKGYCTFEWNAMDEAIQNIDIENLKESFKSIPANKKVTVVVPSENPEFSYPGV
+LEDLELRKVKEREVYFKDLRETTAFPVNSLKFIADPPMEESLRCLRLILDNHDEAIRQLD
+ALNAEVEPEKFRVYLVRKNGEDAGICIPHIEPFTESEGRLFFFGITPEFRGKGLSSTVHK
+FAIASLRIELKADSYIGVTDRDNQPMKKVFVKNGCQKIQSLEIYSRIV
+>tr|A6CTX1|A6CTX1_9BACI
+MIIKEQKPNFAFLLVVFVGCAIFLFLVDQIYEIIRMIEKLAANANINMIYVETILKIIGI
+AYIAEFASHITKDAGQGALAAKVELAGKILILAMAVPILTVIIETIINMIPNG
+>tr|A6CLI5|A6CLI5_9BACI
+MVVLLSRIKWLSFSIEALLALPIFGSVTSELMPFFLCFVAVWHGCVLMVSKSEDQPILGS
+AFGVIASFTNFFPYVRIVAHAVTAFILYLEIKKAPGME
+>tr|A6CRT2|A6CRT2_9BACI
+MRIVSICPSNTEVVDYLGLTSSLVGVDDFSDYPEEVHTLPKLGPDLSIDMDKVEALQPDL
+ILASLSVPGMEKNIEELNKRNLPYIVTNPQSFEDIADDLLTVGKACGIEEKAVEMQKEFH
+EKINLLKEAANKTDHSPELYWEWWPKPVFTPGKINWLTELSRLAGAQNVYRDVDLASIQT
+DWEDVYKRNPDYICLAWVGVRREKVNPKVVTKRNGWNNLQAVMNDRILVLEEDLYCRPSP
+RLLEGALKLGKILHPQQFGSITFTT
+>tr|A6CLM9|A6CLM9_9BACI
+MDFKQADTIITSNYIFTSATLEPMEGAIAIKDDRILGVGTQEEIQYYKGPQTKEISAFGK
+LVLPGFHDFHVHLWLGAMFQEYTSLTFCASEDEAVGRMAEFAENNPEDPWVLGFGWHHVR
+WPGQQLPTRHSLDRRIPDRPVFLLNEEAHSAWLNTKALEMLGIDENTLEPPFGKIEKDED
+GKPTGFLYETAVVLAHTAFDIPPEKKSRLMDSFMKKAGEYGITSVADMLPLPGFTLGDLE
+EYQKHEEEGRLSVRIHFLAPLDGQFEALSYYKNFNSDKLQFSGLKQFIDGVPLTYTGYLL
+EPYSDRPSTSGGTIYSRETYFNLIEEADRKGYRIRLHACGDGAVRLGLDAFEHAQTVNGK
+RDSRHTIEHIEVIHPDDIPRFSELGVLPSMQPEHLTSSSMESHEYLDRLGPERIQYTWPI
+GELERNGAQLVFGSDYPIVELNPMLGIYRAVTRKHEDGTPAGGWNPQHKISLAQALIHYT
+KSPAYANFREGDLGTLETGKKADITILDRNLFDCDPDEIKECSVHLTMMDGKIVFQRGTS
+E
+>tr|A6CL49|A6CL49_9BACI
+MENVRFAGNPCIAWMVFSMAFMTPLRKNLYVLTVQSHKWRLKMTYAQKVIELFRQHKNEE
+SAGPMEAYMRNQFEFLGIKTPERKALLSALIKEHGNPDLNELPETVRTLWEQPQREFQYV
+AITLLDKQRRKLQPEHLSLLEELVVTKSWWDTIDSIASRLAGFVINKYPEEGEAYLDRWI
+SSDNFWLNRTAILHQLTYKGDTDEEKLFSYIKQHSSSREFFIEKAIGWSLREYSKTAPET
+VVDFIEKEDLRPLSKREGLKYLKNKKLI
+>tr|A6CQ37|A6CQ37_9BACI
+MTPRSWAQQLDWGSQTVIKSESALISPDRQMFLREKKAHLPFILSGLFDPEGLGAETRRP
+AAPAGGRTPSAPINNAWN
+>tr|A6CQC5|A6CQC5_9BACI
+MSELLNCPECNGLFIKSQFRDTCEKCYKEEEKKYEEVYTFLRKRENRAASIERVVEVTGV
+AEQLIHKWVRKGRLQTAHFPNMGYPCDKCGKIIPKGKLCGQCTNELTQDLQRVASEEAFE
+EKKKRSQHSAYYSR
+>tr|A6CLW6|A6CLW6_9BACI
+MKREDVVYGLIFDEHKQKVIMVKNVGAGWTLPGGAVEKGETLEEALIREVREETNLTVEV
+EELLAVNEVFFIEKDVHPLFFTFKVKIVDSEISILDHEEIEDIQWVDLNEADALMPYFTE
+GVEGLLQGKLDYTFQGKR
+>tr|A6CUF3|A6CUF3_9BACI
+DLNVERKEGLGEVSILTPAIEKGDIDMYVEYTGTGLKAVLKEEAAEGASADEIYEQVKNG
+YEEKYGVTWLEPLGFENTYTLAYRKGEDVDAETYSELVPLSENMVFGAPHQFYERPGDGY
+DDLVKAYGFNFESTESYDPNIMYEAVKNGDVDLIPAFTTDGRIQRYDLATTKDDKGFFPP
+FYAAPIVRQEVLDKHPELADAINELAGQITEEEMSELNAKVDIDKEEPEDVAREFLISKG
+IIEE
+>tr|A6CIJ2|A6CIJ2_9BACI
+MAKVLAVLSSGYKDEENNYETGWWGEELFAPLEALEKAGHQVDIASPLGGKPVVDQVSFL
+PDYDPEGTYKALYESGRADETQKLTEVLAEEYDVVLVVGGHGAMYDLAKDEDLHRIINTV
+YDNGGIVAAECHGPAPLIWTLRPDGKSIIEGKKVTGYPDEIEPEGLLDILPFSLEQEMTK
+VAHYDKGDLNEKAHAVWADDQIITSRDPFSSELMGEELVKALENK
+>tr|A6CIX5|A6CIX5_9BACI
+MKIFSGFILIMLIMVILYFLLGVGLFSGGTGNEGLVYIFGTLIIILLSFITSLLVHLIGV
+INKNLK
+>tr|A6CL82|A6CL82_9BACI
+MLISVLLLSACGDKSEVDNVPAIYEFKEPNDFPFEITEVSTEIDLEVPNHLHQFIFYYSN
+EDTSQQLKYIVSKVLEEPEDNKATKDLGTEYTLENGLPAYYDERPGKQSLWWENADGFLA
+RYVYFANDNTSEFGDNKLEVEDLLDLANQVQ
+>tr|A6CMH9|A6CMH9_9BACI
+MNSKQFIQQHRQDWKALEELISTMHKRKNKIKGADIDHFSRLYQKAAQNLSYSQTYFSHE
+DVTPYLNELVSKSHNLLYRDQTSSWKQVRHFFGVTFIGLFLQQWKMVVFAMILFTLGAAG
+SFFSVADDPLHIYSVLPENMAQNFDPERLGENEGHVDAPMMSASIMTNNIQVAFLAFAGG
+ITFGLLTVYLLIYNGIIVGAIAALFWHYGKSYEFWAYIVPHGMIELTAIFIAGGAGLLMG
+YKLFVPGRYSRGYQLKQQAKRSVLLLLGTIPLFVIAGIIEGFITPSTLSLEAKYLIAGLT
+VIGLILYILVGTMLLKKKTTAIPGS
+>tr|A6CPE9|A6CPE9_9BACI
+MRNFFQRLKDFFKFRNNCPELPAETEEGECERVRERLAYSIQYDPHSKILFQYIKKSVSL
+NEAIKMSERLAPGWRMATPGELLNLSGLFAHADEKSFNQCPLVVWSLINEGQRIAVLNPD
+SENFLTLIETDVTCKAEVVFVFDRSGL
+>tr|A6CU67|A6CU67_9BACI
+MIKVKKFKLIGGRVIKTAIAVFLTALICYWLNLPAAFAVITAIVTVEPTAADSIRKGLVR
+FPASAIGAALAILFTFFFGDTPLTYTLATLFTIVICHKLHLEDGMLVATLTAVAMIPTTN
+DHYFLSFVSRLGSTSIGLVISTLVNIFVLPPNYSPRITTMVHNLFVKTGNLLETRIIELI
+LDKKAEARTRFLFQEVNKSMDTIEKLCRYQRKEWKYHRHSRKEMKEFHYENKKLSILRQI
+HYHLGNLMLLPQHDINWEEEKQKKIITAVQSLVEIIQDPKHTISEVHYKKYKELLEEFWH
+VKDELKEVKETDHHHFFSTETVLLYELLSIQDLTEELSHIDEMQHRNDTSLIQAQD
+>tr|A6CUD9|A6CUD9_9BACI
+MKNMPTVAFHTLGCKVNHYETEAIWQLFKEQGYERLEYENTADVYVINTCTVTNTGDKKS
+RQVIRRAIRKNPDAVICVTGCYAQTSPAEIMAIPGVDIVVGTQDRRKMLEYIEQFKEERQ
+PINGVGNIMKNRVYEELQVPAFTDRTRASLKIQEGCNNFCTFCIIPWARGLMRSREPEEV
+IRQAQQLVDAGYKEIVLTGIHTGGYGEDMKDYNLAMLLRDLEEKVDGLKRIRISSIEASQ
+LTDEVIEVIDNSKLVVRHLHIPLQSGSNTVLKRMRRKYTMEFFAERLEKLKKALPGLAVT
+SDVIVGFPGETEEEFKETYNFIKEHKFSELHVFPYSKRTGTPAARMTDQIDEEIKNERVH
+RLIELSNQLAKEYASQFEYEVLEVIPEEVYKEQPDSGLYVGYTDNYLKVVFPATEDMVGK
+LVKVKLTKAGYPFNEGQFVRVLEEE
+>tr|A6CKF0|A6CKF0_9BACI
+MFIEELLSVYRKSFGLWASLKRSSRVNKLIWIYIGIYIIDAGLFYYFFLNKEYEGVLFCI
+GLYIVLTFVSSKQSKYKLSKHRSQSSTIPGTEQFREVMAELKVTTSEEMELLDKVILEEL
+ALIKERRKYPLGDILRQLMVALLISGILAIAVFEIREGNIPKATSYFLFYIACLGVVAIL
+NGALKTYLDFFGRHTQLMEVSSYIHLTRLSQSIENKRENENSISVPGLPARRKRR
+>tr|A6CIN8|A6CIN8_9BACI
+MIIVMSGCSEEDILQIKIHQLKSFSETKEKNELVISDSEGSIQESESCQAFQIWPTLTTK
+SYLEIMRTLFPLAARKTRNHYETERYSYYLQPF
+>tr|A6CU15|A6CU15_9BACI
+MGKGDWFLEGMLRRKGCNWSKEIKFWNGCWIEKGVIRLNRKSFGKAGGSKRE
+>tr|A6CRM8|A6CRM8_9BACI
+MIKKEKNFIILQSYAKIIVTIRIFQKGIEKMKVYKLTVFEQTGESIYEDSFEAPSDDEAK
+KIGKAILEEKGYADHTHRCASPLGKLILFHA
+>tr|A6CK79|A6CK79_9BACI
+MTAELLYGVKDMSRKKKIITALIVSLIIFLYGAYRLGFEERTDEFTALPLTFAVIGLVGI
+ITNLVKLKDSTENDN
+>tr|A6CPI3|A6CPI3_9BACI
+MYLLLVVIVYILFAYIFVDWKRWEEYYPTIQYYLICNLTYNFLFYNHTLWAYKAVTVEWL
+NHTLIELAFSFIILPVVLMIYLRYYPNGKKSVIYIAAWVAYFTFLEYIFFKRGLFVYDNG
+WGVGWSLVFNVILFVMVRLHYKNKLLALIISVPLIAVLLLIFHPSLQDLK
+>tr|A6CU82|A6CU82_9BACI
+MKKNDQWSSKIGFILAAAGSAIGLGAIWKFPY
+>tr|A6CT31|A6CT31_9BACI
+MGFHKIPPHGKTNGRIQRKGVSIMSRGKSFQHKKKGHPGNYPSDALTEKHTKEKIEDEEY
+IVTQEAFKNRVDEE
+>tr|A6CPY9|A6CPY9_9BACI
+MNIVRVWILCIVIAAISIFALSVKAAFSHRHTPLLTQKELKEAIKRQKEEEQRSNLD
+>tr|A6CKC5|A6CKC5_9BACI
+MWVILGVIAIVVTFINLYLYTAGKDYKLAMAMGLSFTALTLCAQYSLVSEWVEVEGWAAL
+MDVVPGMERALWFLTIVSILLNIAPILLERKGKK
+>tr|A6CKY4|A6CKY4_9BACI
+MSIAIIFNSYTFNDSMKKTYVSQLKGITTTINGGYEESRSIENVQTIFDYIKHREKNVLN
+LTLHVIKEERHTIMASTDRSLIGTNSPEILSLTFDSGETMIAHSELRGTPIVRLVAPLLE
+DGLTVGAIELYLDISKEMAMIRERIMLITIGGIISSLILIVLLSSIIRRVLVLPLMALRE
+AAASIQHGKKYEDVKLNASQEINEVASAFNEMVYDLEDRYQKSVTDSLTGSYNSAYFKQK
+LAEVMKDARYYNQPMALLFCDIDNFKKLNDHEGHLYGDKVLKQIAKVIHDHVREHDIVCR
+YGGEEFVIIMRDTDASTATAIAEKVRHMVALNGHRSILTPITMSIGVAVFPQDADEENIV
+HIADQAMYTAKSLGKNRVVAAQDLSSYKKQDYERRIDDQKWILDTILSLTKAVELKDSYT
+HSHSEMVSKYAGTVASSMGLTDEEVKKISIAGLLHDIGKIGVPDDILNKEGRLTEEEYEI
+MKTHPVLGYNILAGVDELEDTLPYVLYHHERPDGKGYPQGLKSPEIPLGARIIGVVDAFH
+SMTSARPYRKQPLSLELAIEQLRKGQGTQFDHDVVNHFIKIIGDIETHPSTDR
+>tr|A6CLF4|A6CLF4_9BACI
+MTYPFIIALVIALLINPIVNFLERKSKMPRGLAVALSLFLIIGVFIGLITLLITEIVSGA
+NYLANVLPQHVTTLVEYFENFIAAQVIPFYHQIIGLFKNLEAGQQGAIMENIQAAGEKIA
+SSAGDFLQNFFQRLPNLVSWIPNAATVLIFSALATFFISKDWYHLSEKFSKYVPVKAATS
+GRRVFHDLKKALFGFIRAQFTLISITAVIVLIGLLILRVDYAITIALVTGLVDILPYLGT
+GAVFVPWIIYELITGNIGLGVGLGVLYLVVVVQRQIMEPKVLSSSIGLDPLATLIALFVG
+FKLVGFLGLILGPVTLVILSTLRNAGVFQDLWAFIIGKPKITE
+>tr|A6CI74|A6CI74_9BACI
+MKKSIFITILLSLALLIAACGNGNNGNTGNNNEETNNDSANGEAFTIGVIPAQTEGAMES
+AMDKLQDYLTDELGREVKVEVYPDYNGVVEAMNYDKIDMAYFGPLSYVIAHEKSGAKAII
+TQLIDGEPFYHSYIITHNDNPWNSIEELLENSQEVNFAFGDPNSTSGSLIPSIELQDRGV
+YQSDDEHEFESVRFTGSHDATALAVQNQQVDAGAIDSAIFNQLVESGKVDGEQIKTIWES
+DKLFQYPWAVHQNTDEKTIEALQSAFLAIEDQEVLDAFGATGFTEASNEDYESIRQAALK
+QGLIEE
+>tr|A6CK88|A6CK88_9BACI
+MKKKKFITLSLALSLAVFPSLPSASSQDAFDHQKDSAHIGHALPKSKHQGKQEFDSPSFV
+EQSSVAEVLDEKGKKKKDKKIKKSKDKKEKKSDKESSELFGLFGNGGDSGSGSGDTSTSA
+DRTVTVLVAVDEEYRAANPDWQTLTQNIVEKADDAFMRDHGIDFKIQAFAEWSSQGNDAV
+EILQDLERDWNGRGYDFVAGFTKDANFNSGGIAYVYSSDPSGSAISVNLDQGAQNTSYAA
+QHEFSHNYGLGHDPQGSGIKCIMNYDYSYQVDYWHQEHDDEIQAHKTWYGN
+>tr|A6CSH6|A6CSH6_9BACI
+MNWNGKEVELYLKEKKYIDTAVIPLLPVGLEEDMKTFAAQGEFISLLSMHLEHQFKGRLM
+LFPAFTYLKTEDKGSAEKRLGDWKAAMKETGFQYVFFLTSDSDWRFTDEELERSLMWLPS
+IPLDNLDEKYKHSIMEDQVKQLLNVIVKKWQSEG
+>tr|A6CU69|A6CU69_9BACI
+MDGLYFLWVMWAGWIFTTFLLDKNHYWRLRGSAAVLILIISFPFGISLSGIQTGVATVLI
+FLYSMVFIKDFSLSEKLYLFLASFIIGVSYSSLVLLSFYDPIILIADKKIMVTAILLVLS
+LLLYGERKLFIKRMLAIIIGMVTGECLTGAVFLQNKIPYQIGGHFFLDVLSVIVITGLAL
+NLLQFLTYAQSTIVKSALKKGEVKNI
+>tr|A6CHC8|A6CHC8_9BACI
+MYYEHIVPVNLKTFLDSPSHTNLKNLFLTNTGETDYLDFKARWSNWTKMAKHILAIANTG
+GGAIIIGVDQLDDGSLDLKGLTEEEYMDKADIDNKLQHLLPKYLKCRTEDFFFTEDNDPA
+LHSKLFQVLMIEYDPKYIPYTSIAAGGDLRYNAIYLRQGTKSIEATHDRLLEIILRKIHS
+GSMDSKEISLKDHLEQLQTLFLLKKQALDFSFQHYLEMLILKKQEKIEMLMGIHVKKEDC
+T
+>tr|A6CQV1|A6CQV1_9BACI
+MEIKVDDLSRPEVGELIMDHLRNMALHSPAESRHALNLDGLKQPEITFWSAWEEDELVGC
+GALKELDARHGEIKSMKTSSLHLRKGVSKRMLQHIIEESRRRGYSRLSLETGSMAAFEPA
+RRLYERFGFVYCKPFARYKEDPNSLFMMIELQRI
+>tr|A6CJQ1|A6CJQ1_9BACI
+MNFFRRMTMGILSGNPKEEPMHYGEVFGTWSFLMAGKGMVAGYQTLKNHAGDEDLNKFID
+ELIQNGLQEIKQLEELLKENGVGLPPTPPERPNACIEDIPVGARYQDPEISASLTRDIAG
+GLVACSQVIGQCVREDIALMFGQFHMQKAALGGKLLRLNKEKGWLIPPPLHQHKNEDC
+>tr|A6CSX6|A6CSX6_9BACI
+MSDELNTTNIQLDNPNEAIALFGVSDAHLKAMESELSISIVTRGESVYISGEEQNVTMAQ
+EILNRLLFVIRKGINISQRDVTYALQMAKQGTLEYFEDLYNEEITKNAKGKPIRVKTLGQ
+RQYIHAIRNNDLVFGIGPAGTGKTYLAVVMAVHALKNGLVKRIILTRPAVEAGESLGFLP
+GDLKEKVDPYLRPLYDALNDVLGADHTQRLIERGTIEIAPLAYMRGRTLDDAFVILDEAQ
+NTTQAQMKMFLTRLGFDSKMIINGDRSQVDLPKGAQSGLVTSE
+>tr|A6CSA2|A6CSA2_9BACI
+MPAIVYNGEGKKSIGGTTMGNELNTRISEKALPVWRWSGLIHSIGVIILAIAALVLAIIF
+DWPYWMPVVAVILAAVYTYFFAILLPMIRWKRWRYEVREQEIELQRGVFFVKRTLVPMVR
+VQHVDTVQGPLLRKYGLATITISTAATTHEIPALDMHEADDLRNSISSLARVAEDDV
+>tr|A6CJ37|A6CJ37_9BACI
+MKLVKKFNTTNETEKKPDSALYRTIWRWHFYAGIIFAPFLVILAVTGSVYLFKPQIEQVL
+YKEYFEVTPQETRGSATQQLEVVKRLYPNAVVTKYSPGENPSRSSEVGITSNGKSLTVFM
+DPYTGKSIGSLDNDDRVMNKIEEIHGELMAGTLGDRIVELAASWAIVLVVTGAFLWFPRT
+KEKVLGVFIPRFTKGKSIMLRDLHAVPAFWISAGMVVLIMTGLPWSGFWGSNFQTIATNS
+GAGYPPSIWAGSAPASTVQTKDIADVPWAAETLDVPKSDIQGFIPMSVDEIMKVADREGV
+HPSYTIRIPSEKEGVYTISAYPPKAQDEITMHVDQYSGAVLTDYRYDNYGFVGKMVAMGI
+TLHKGTQFGFINQLFSLFICLGIILVAISGFALWLIRKPTKKMGAPKGPRTFKKKTFFTI
+LVALGVLFPLVGLSLIVVWIVDWIIIQRIPAVKRFLNA
+>tr|A6CH80|A6CH80_9BACI
+MLVTTAGRTNQEMIEKAKGIAKEMELPYIHREKRTVKGLRERYSEDILVVGKERLELFSA
+DSDEPFFFHPNSASFRLKRILKGEVDTFVQAAGLNKGMTLLDCTMGMASDSIIASHAVGQ
+SGKVKGIEASKAIFYIIKNGLKTWDSGVKEMNEAMERVEIVHSTALEFLRNASNDSYDVV
+YLDPMFGDPIEASAGINPMRKWAVYNPVDAETIGEAKRVAKCRVVLKEHYNSPLFEDQGF
+KVERRQSAKFHYGSIQTKE
+>tr|A6CJI4|A6CJI4_9BACI
+MISSIFPIVFFRRFLLVQFLDRDSVIPLKEKASS
+>tr|A6CMW2|A6CMW2_9BACI
+METPILFDFPDVIETNRLYIKPCKPGDGKIVHEAINSSIKSLAEWMPFAQKEQTIEEIET
+GLRESYAQFILRKDFRLHIYKKDSGELAGSTGYHRIDWKTGSVEIGYWGVSSFGGRGYIT
+EAVKELTRFAFEQFAFNRVEIRCDELNLASRRIPERLGFTLDGVLRRNALSADGKEFRNT
+CVYSVLAAEWNYHHH
+>tr|A6CPM3|A6CPM3_9BACI
+MFKNFKAEWFGNVRGDILSGIVVALALIPEAIAFSIIAGVDPMVGLYASFCIAVVIAFVG
+GRPAMISAATGAMALLMVTLVADHGLQYLFAATILTGVLQILFGVFKLGRFMKFIPRSVM
+IGFVNALAILIFMAQVPHFLGEGMLVYALIAGAL
+>tr|A6CLR7|A6CLR7_9BACI
+MISMNHSLQMYIQYEIKESSIEHYQQLMKNILQSLESYDAIDIKWLPSPGSSTAFIEVIT
+LPTESHYHALKKLRKSRQHLLFGMLDDCISGGLNKMNCFGLKLF
+>tr|A6CIF1|A6CIF1_9BACI
+MNEDKFDSKMKELFNDDSIPSIVKNRINDTYDMIESESKRRRKFFPFSISKGLRAALIGG
+GLVALSTVGVIASQGFQLFDSEGDVVMELTEPPYDIRAWDAENAEAYKEKVEPGEALVSY
+RVSDYPEKIFTVYRQPRLFSDHQEYKNSINHGYAPSETLPFGLTFTEGKITVDAEESQFK
+PAESELYAKARYSEEEVLSKIVKVKEKKDQIVAVTHYKNEKFDVFIRSSSKVELYEKMPL
+DDGELVISKTKINHHDEAFHLKQETGAFPYQSILWIKEYDGEKLMYEVLTYALDKVTKEQ
+LIEIAESVNG
+>tr|A6CIJ7|A6CIJ7_9BACI
+MNFFKVILFVIMGILLAIGLLSYFGNMEIVQLIINGAILGLLLYIAIKQ
+>tr|A6CLE0|A6CLE0_9BACI
+MPVLVFLIILSFSFYFYYKVKSVRSNRFIEKKWLSGKSSIALGLFVALFGINQLFLFQTT
+FTYIIAAIFIIIGLGSAWMGWKVYKHFLPQAVKEAEQLDNR
+>tr|A6CJS3|A6CJS3_9BACI
+MRLLKGGVRMFIVSLLAGVALLIFAFFGLKEKDQDNIQNKIVKIGFILLGAFLVYVGIVD
+VISMFTDPAGYIEQRR
+>tr|A6CMW3|A6CMW3_9BACI
+MGVIFGAVVVNSLSFTQKEDLYFYLGQFFGEIADGQFTSAEDLFRQSFLHNVKYLGLMWI
+LGISIIGLPLIFILLFMKGVVIGFTVGFLVNQMGWSGFLLSFATVLPQNIVIIPAFIYIG
+VISVSFSLTLIRKIFMKLSPHLQVQMVPLLSRYVIAFVLAIAVITVAAGIEAYISPSLMK
+TMVNLSNK
+>tr|A6CJ38|A6CJ38_9BACI
+MSAFATGWAGGEMMLSGMGTGFYRPVRERFVFLGKDQILQGELEKWTIFY
+>tr|A6CPJ7|A6CPJ7_9BACI
+MLLVQQVEEKAKGLGILLLGLLLIGSPGINYVLGISAIETFNDSAYTTYTKRGFTWKGTE
+>tr|A6CMA9|A6CMA9_9BACI
+MKEAEKQVDDFIKENFVTESFEIEDFPLFPYGKLLRDETGETMVCYYDLITGQVKTEFE
+>tr|A6CN04|A6CN04_9BACI
+MKKIYVLDTNVLLQDPQAIFSFQDNEVVIPAVVLEEVDSKKRYMDEIGRNARHVSKLIDS
+LRQQGKLHESIPLYNGGSLRIELNHRSFHQLQEIFVEKTNDNRILAVAKNLSLEEETKED
+GHQVILVSKDTLVRVKADALGLQAEDFLSDRVVDVSDIYSGFIEIYIPKDLLNKFYEKGE
+IPLADITQHPFFSHQFLLMKDSMGSSASAVGIVDITGKYVRKFIYDQDHIWGIKPRNVQQ
+TMAMELLLREDIPLITMVGKAGTGKTLLALAAGLLQTEDLQAYKKLLVARPIVPVGKDIG
+FLPGEKQEKLRPWMQPIFDNLEYLFNTKKPGELDDILAGMGSIEVEALTYIRGRSIPEQF
+IIIDEAQNLTKHEVKTILTRVGEKSKIVLMGDPGQIDHPYLDEYNNGLTYVVEKFKDHPV
+AGHIKLMKGERSGLAQLAADIL
+>tr|A6CNF6|A6CNF6_9BACI
+VHKTEEAVSKPAAQAPAQTSKAPEAPAQAEAPAPAADENLHKIVSPMVGTFYQSPSPDKD
+AYVKTGSKVSEDSVVCIVEAMKLFNEIEAEVKGEIVEILVKDGQLVEYGQPLFLVKPE
+>tr|A6CU09|A6CU09_9BACI
+MTVLLGFLINEREKQEIEYLLKREMDEILFDLKDSRIDQIVKRAMDERYKILFALFKRVA
+SHKECMRYMKTTRLRQEKS
+>tr|A6CRM5|A6CRM5_9BACI
+MERIMVVGISAGVGKSTFARRLGEILEIEVTHLDALFWKPGWVEATLEEFAAPQREIVKK
+PQWIIEGNYSNTFELRLQHADTIIYLELPLYVCLYRVLKRWLTNLGKTRADMGKGCKEQM
+EWGFLKFIITTYHARKSKMEDRMLRFQSLGPEKKVYKLKNKREIAAFLENMERRRDNVNG
+ALS
+>tr|A6CTP3|A6CTP3_9BACI
+MISPTPVWESLSCFHSAEMAQKYLKKCYQKLSLKEADVQSYNNCYPFIYYLEQGELYFKQ
+ALITPLSIQPILLFYGYIHLIKACVLTIDPFYPQNTSVLAHGVTSRKRKKQQYSFLKDEI
+KIQKNGLLSHFAQEMFHVKHLEAEKFQMGELLSQIPEMNDTFQKVLNKRTQFPLAQHDQT
+LAFSDEILDHYHMSEDRFVHFIKEKTDNKLEIKDGRQLIVKQKQWDLPPIRLDIRNNQFS
+LSADRSEASTLPEPIIHYLLLYNLSMIARYETEWWSELLKSNATDDYPIIKNFLGLSLEK
+PPVLIKNYLLSKI
+>tr|A6CPG3|A6CPG3_9BACI
+MIKEVIINIDSENDIIIARKKAREISEGLKLSSINRAKVLTAVSELSRNIYRNAGL
+>tr|A6CRG4|A6CRG4_9BACI
+MLHYGSEQGSDDSQDYRKDEP
+>tr|A6CIE2|A6CIE2_9BACI
+MPRVKYRDSDVALMARMMRAEAEGEGKQGMLYVGNVIVNRAKADCLDFKDVRSIYDVIYQ
+VQGGNYSFEAVQKGNLFYNRARSVEKKLAKKNLDYWAQHPGKYALWYFNPYAPCPPTWYG
+QPFAGQYKNHCYYEPVGGTCDSVY
+>tr|A6CKP7|A6CKP7_9BACI
+MTVIYDHQFNVNEWFILIVLALSFVSLFFLKPRMELPLLLTIYLFGVTSGMFFDHTISLN
+PFNFYDVNDTSNYQLIDFISYVMYGPFAYFFVYFYEKFKITGMKNILYVIIWTVVAICVE
+WVAHKAGIFHYRNGYKLFYSIPIYLFNQTILIGFSNLILSEFKQKQKIKQVIKT
+>tr|A6CHZ4|A6CHZ4_9BACI
+MNLYRVILPVSNIEEAANFYKHILGVEGRRVSPGRYYFDCGGTILACFDPMADGDGVESR
+CNPEHIYLAVSGLEEVYNRVKDSKALYLEEGINTRPWGEESFYAKDPFGNPLCFVNKSTV
+FTGLEGDESHV
+>tr|A6CSR5|A6CSR5_9BACI
+MIPGTFILFYFDPLKICSAKRLCALEVPLIPRESHTFRSNQSLRKEYENHCLIYTFENDS
+MEINDMAVLFQKCFFLDID
+>tr|A6CJW0|A6CJW0_9BACI
+MEKGTVKWFNAEKGFGFIEVEGGEDVFVHFSAIQGEGFKSLDEGQAVTFDIEQGQRGPQA
+ANVSKA
+>tr|A6CQK3|A6CQK3_9BACI
+MKWINRVSYIDIYLKDTTDFIAEKRMKPLRFHPWKFYSIIWLARS
+>tr|A6CHL0|A6CHL0_9BACI
+MSYPIRVRAGALIIEDERVLLAKFEDKNGVHYNLPGGGVEKGESTSETAVREAKEEAGVE
+VDVQKLAFIYEYAPHQNENLFGSTPNLSLFFECRIINGSEPCLPAVPDANQTGVEWVHLS
+ELNSIVLYPNIQRQIQDYVSGQYVMGLIEEKSLNK
+>tr|A6CQ97|A6CQ97_9BACI
+MYSGISGMKNFQTKLDVIGNNIANVNTYGFKKGRVTFKDTMNQTISGASAAQEARGGRNP
+MQVGLGSTLSTIDTIHTQSSLQSTGRPLDLAINGDGYFVVKQGDAQFYSRAGNFYLDDNG
+TLVNGDGMKVQSYENGVLQDIKVNVNAQLPAKITESISMFGNLSNDAVGNEPFVQQINVV
+TNDGKQITLDMKLTPQGTPSTKWGMEFINQNGDTPLNSAAYVLDFGNPVDPAANPPNVDL
+PYTDSNGITQNLNVTMDYTQLTNLGGDLSAAADPDGNTAGSLESFNIGSMGEINGVYSNG
+EITTIGYLALAKFSNPSGLTKAGGNSFQQSVNSGTPNVNVAGEGRGTIVSGSLEMSNVDL
+SEEFTEMISAQRGFQANTRIITTSDEILQELVNLKR
+>tr|A6CSG0|A6CSG0_9BACI
+MSKKTKAAIALTVLTSSVYLSGCGLLGGGEKAKIDPPADVSYLEEGEKVDVAKENSEGEV
+TSSTSTEEAEATGSVMTELYLIDSNGYVVSQTMALPKTESIAKQALEYLVADGPVQNMLP
+NG
+>tr|A6CHD4|A6CHD4_9BACI
+MNRNYSELLAAYRSIWNHRALDQAGEASQTILTESINRELLDENSHPRIRKSKEVKYYFA
+IKRILESSLSMERQHELIKLYTDQLEHLRNT
+>tr|A6CJ06|A6CJ06_9BACI
+MMKVNRCGAILILLLFFIGGCAAEDSLSGSAEIAKDALEEKGYKVVSFVNESSWELTEKW
+VNSIPGDQEWRVQPVPSDKFIGKQIERITFEVQSHPLNNRFDKVNVTVFLYERKVIGGLS
+YPVPDYDGAPYSLDGE
+>tr|A6CKM3|A6CKM3_9BACI
+MLVLLLLLLTGALIAGFIQKYILRIKEPDVEELWEELEEQDWYRELKAHPEIEEFVETSK
+RDGLLNDPYYVRKIIDNEGHRAGFINYVKKKTAE
+>tr|A6CQI7|A6CQI7_9BACI
+MENVITVENLSKNFGSIQAVKNISFSVRKGEIFGIIGPNGAGKTTTLEMLEGISKPTQGK
+IDVLGLNPSQQLRELNKRIGVQFQATSIQKKMKVKEAIDLFASFYSESTKKDYLIELLSL
+DEKLNVHFEDLSGGWKQRVTLALATLHSPEILFLDEPSMGLDPHARREMWSMIRMLRDEG
+CTIVVTTHYMEEAEKLCDRVAMIYSGELKALDTPAELLNNPAGHYIAFESDQMDAEFLEK
+LPEVIRVEKEEKLVKVFSENQQETAYHIFTYCHDNEIPLSGFRFEKGSLDDLFVHYLEKE
+AVG
+>tr|A6CJJ8|A6CJJ8_9BACI
+MVTMKKILIVLTNTEQIDKENPTGLWLSEFAEPYVEFTNRNYSVSVASIKGGRVPVDPRS
+TTEGEMPPDEWEGAIRELESTLVLSQVNVNDYNAIFLPGGHGTMFDLPGNPALQKALAHF
+GENNKLIGAVCHGPAGFVDVKLSSGKYLVEGKRITGYTNEEEQQSEMDSLVPFLLESKLR
+ENGADFQKGNPFSNYVVTDTGFVTGQNPQSGLSTAKAFVEQLQ
+>tr|A6CIN2|A6CIN2_9BACI
+MYPNFKGWMKMIRYPKILLGSMLVLPFLSLPLIGKKSFKRFMPAGIFIISIMAVVDFIAK
+KRRWWLIYEKIHPKVPGIIPFLSPFFIGSIWIMKWTYGKFLRFTLVNLLVDCLFIYVFVK
+FLTRSGIASIFGLKEKQVSLIFFIQSLMLYGFQYVKEKVTKRRFKF
+>tr|A6CSZ5|A6CSZ5_9BACI
+MGTKRFIKGLVFGAMAGGFITLLNKETREDVMDSTKKGGEFISRYARDPQLLVESTKEVY
+EKVRETAQQIGEDMEFINQKVEEIKELSPQVKDLIEDAKETLHSSSESYKEVFTEEDHQS
+NNSRVE
+>tr|A6CMJ8|A6CMJ8_9BACI
+MENMDFLYHPYASQRNTVFSKKGMVATSQPLAAQAGLEILQRGGNAIDAAIAAAAALTVV
+EPTSNGIGGDAFALVWVKDKLHGLNASGPSPKSISIEKVKEKGHEKMPVHGVIPVTVPGV
+PSAWAELSEKFGKLSLKETLEPAIRLAEEGYPLTPILGKYWSLAYKKFKQILTGDEFKAW
+FETFAPDGKAPQIGEVWSSPGHASTLKSIAETNAESFYRGEIADKIGSFMEEHGGFLSAD
+DLKDYRAQWVDPIKTDYRGYDVWEIPPNGQGLVALMAMNIAKGFEFQEKDAVDTYHKQIE
+SMKLAFTDGKAFITEQEDMPLPVDELLSDRYAAARRELIGDEAITPEAYDIPKGGTVYLA
+AADDEGNMISYIQSNYMGFGSGVVIPGTGIGLQNRGHDFSLDPEHPNALKPGKKTYHTII
+PGFLTKGDKAVGPFGVMGGYMQPQGHFQVISNTIDFHLNPQSALDAPRWQWIEGRKVLVE
+PNFPTHIAQALARKGHEIQTATDEGMFGRGQIIWRDEGTGVLMGGTESRTDGAIAAW
+>tr|A6CT43|A6CT43_9BACI
+MAKKMPEIGDYKYGFSDKDVSIFRSKRGLTREIVEEISRMKNEPQWMLDFRLKSLEHFYK
+MPMPQWGGDLNGLNFDEITYYVKPSERSERSWDEVPEEIKQTFDKLGIPEAEQKYLAGVS
+AQYESEVVYHNMQEDLEAQGIVFKDTDSALRENEDLFREHWAKVIPATDNKFSALNSAVW
+SGGSFIYVPKGIKVETPLQAYFRINSENMGQFERTLIIVDEGASVHYVEGCTAPVYTTNS
+LHSAVVEIIIKKDAYCRYTTIQNWANNVYNLVTKRAVCEANATMEWVDGNIGSKLTMKYP
+AVILKGEGARGMTLSIALAGKGQHQDAGAKMTHLAPNTSSTIVSKSISKQGGKVTYRGIV
+HFGRKADGARSNIECDTLIMDNQSTSDTIPYNEILNDNISLEHEAKVSKVSEEQLFYLMS
+RGISEEEATEMIVMGFIEPFTKELPMEYAVEMNRLIKFEMEGSIG
+>tr|A6CJ39|A6CJ39_9BACI
+MDHILRGWLEIGLLFLKSVQVLHGEQEIRTNNFKTGLDQLNPAIKINHKNMKLSLVNNVS
+NYKHRRGEIQWSILTDSLTDSRKFTVCSGSYL
+>tr|A6CSC3|A6CSC3_9BACI
+MAVECSQCGSTLTDRGRIYDFYDDYSAYMDIDEIKLADGIQDNSGSDECIHLFAGDCGHE
+ETRVIKFTEM
+>tr|A6CJ60|A6CJ60_9BACI
+MVMYLTNLAQEAEVILLDLPIVNLAGENKKIIQ
+>tr|A6CLB7|A6CLB7_9BACI
+MIVKHVFNHEEKKRRKMYMSGKRWTALAIAAGLFIFSVVANFASSAMTGDFDKAFEDMFA
+GAENPFTEEVIEEGSAAKRIAVLEVEGVIQDVNTATSIFESPGYNHELFMEQLRRVQEDD
+SIRAVILKVNSPGGGVVESAQIHEKLVEIQEEAKKPIYVSMGSMAASGGYYIAAPAEKIF
+ASRETLTGSLGVIMQSINYSELAEKYGVDFVTIKSGPHKDIMSPTREMTEEEREILQSMV
+NNSYEGFVDVIAQGRGMSEDQVKKIADGRVYDGIQAKEINLIDDFGYIEDVIAQMKKDLK
+LEDAQVIEYTNDGGFASLLDMGAKRLAGGDIEAAALMKILSQPNSPRLMYLYAE
+>tr|A6CSP8|A6CSP8_9BACI
+MQVSNSKSVTPYDYYQKQQSSYARNSSGTYSNDNPQQNSNSISANERYSVNEKDDASGNQ
+TYSSPSTSTSQDWKTMKDLLEAHYSIGNPGMGNFQSFKENMQGLVKKFVSYKVDKYQQSW
+ESKLHQFKLEISKEAYEKYKSAASAKTSATDRPSGVNGTYENATTASPSSTGKQGSETEA
+SSSSGDSGSTNTSTDSGTAGSGAGESGAAGSMNDSGSSDSGSTSGTGESGGSSDTGTAGG
+SADSGTSSSTGTSEGTTDSGSSSDTGTTEGSSDTGNSSGSGSSDGSSDSGSSSGTGGTGI
+IGGLFGKR
+>tr|A6CTZ9|A6CTZ9_9BACI
+MQQQPGNQQQGAMQQPPQVLTTKDSLYLNDMLSWNLLAMKKAHFAASHCQDQELKAELDK
+CGQMHQRHYEQILSHLNQGSSGQAPTTM
+>tr|A6CHQ0|A6CHQ0_9BACI
+MFKVKMKGSHIMHELDLHHIFQLGLILVMIAAGITAVAKKLKQPYPIALVIIGALIGLFD
+IPVLEPLKLFITEGEVFNFVIITLFLPALLGEAALKLPFAHLKDNKEPIFSLAFVGTFVS
+TIIIGFSTIYFFDFSIPAAFVFAALMSATDPVSVLSIFKSVGVNKRLAVVIEGESLFNDG
+LAVVLFNISAFYLLSYLDAGWAGLGSGAWEFVRVVSLGLIIGGSLGFGFSVLTKYFDDYP
+LEIIFSIILFYGSFLLAESVHASGVIAVVVAALIFGNYGGRIGMSPTTKLNINNFWDVAA
+LLANSLVFLMVGLEITRIDLVDKWQLILAAIPLVLVARSIAVYSSLAFIKSFPLKWKHIL
+NWGGLKGSLSVALVLSLPREFTGREDILVLAFSVVLFSLVVQGLSLKPLIGWMGVKPEKE
+GSVEFEKLIAQLHRYETAITEIHRVKQKLYITDPVSEELVAVYEKRLDILKAEINELFEK
+VPDLKQDQMNSLKKHTLYAEHEAIDNLLREEIISNETAEREHERLTDAIINIEGKH
+>tr|A6CIG4|A6CIG4_9BACI
+MHEQKLFLSLLLPLQKKLLVRHFSVILAYGLLSAAGAAAVWAFAGRLFIIPFLIEKMALS
+CGLVLAGFVVYAIFTRPKRDEAARKYDDFTGEETVSTALSALDKQDIMHQLQRRDALSKM
+KETKRQVDRLKPFNLPRKPLYSALVLGLLISLSFVFPNTVMEHAEQKEAEEKIMKETREK
+VEKLAKKKEKNRGEELEKELAQLQKELNESKTAEQSLKKLLEKERKAAELKKEAEMAEKT
+LNALSEEAAGSSLNELSKALKEMDQKKLQEAMEKLKNKQNLSGEELDALGQMKKAVDGEN
+LGEEQLTEEQLEKMLAELEKSLEDLMASASSLSQAASVQKSLQQLASGLNDGMAAAGLGT
+AQSLSFNDASAGQGSSGQNAANGNGSASQGQSGQGSSQGSGNSSSGNGAGSGNGSGSGSG
+SGSGSGSGSGSGSGSGSGSGNGGGGAGSGQGSRELVTVPDRLGGQNNQSVENGPLGQGPG
+EQEISGQAPSVRGSARPYSEVYGEYEQAYRESVDRMALPGNLENVVKNYFSELNPQGE
+>tr|A6CIC3|A6CIC3_9BACI
+MRRIKSLIIMALTLLGISVWLLFSDYEWGKYDSLQEAIEKGIPYDVENVIHTHHYDGITV
+LLYTTLPDKKDFPFADYEALAVAFFKGDDESGWENVGVHGWEHYENDNFTIYDQHLIVDD
+SEGNNLHKFHVVFGELTNPKIAKVETKASAGSAGLTVFNPAKIVSHKGNRYYLKIGEETI
+VRGLSENGEVIDRQGG
+>tr|A6CJE2|A6CJE2_9BACI
+MDLNLTNFIKRFLEGRNCKRMILMTRDKAISSSELATLWMTYQEKTMIQRILEYFIEDTE
+DEQAKEILQDTHANVLSYVDRITGILESEGAVIPIGFTEKDVHTGVPKLFDNHFDIMFLR
+LLTEISMGLHTLHLSMSHRNDLILLYKDLSVFAQGVYDKCVDYLQERDVLPSPPSVTMPQ
+TIEFADGPSYMSGLNLFSEKRALNTVEVSFLYFAIETNVFGMQLMTGFAQVANEPEVKKY
+FVKGKELSKKIVSDFTGVLIQSDIQPPSTWGANATDSTVAPFSDKLMMYCTSLFCNFGLG
+SNAVGTAFSLRSDLPLKLVDKAKDILTYGQDGGKLMAKNGWLEQPPSMEDRNKLIK
+>tr|A6CM82|A6CM82_9BACI
+MSNELLAITVLWGFVFIYAVMATMDFGAGFWSMVYINREKTKATNIANRYLSPTWEVTNT
+FIVAIVVAVYSFFPGAAYSLGTVLLVPGSMILLLLALRSAFLVFSHVADDYRKVLTYISG
+LSGLLIPGLLITVLPISHGEFVDFENGQTLMLGELFTSPNEYAFIAFAISSTLFLSSLLL
+ADYSKASEELDAYRVYRRDAMITGPISLASALLIMFTLRTEAGWIYEKMMEDRLLLIFSL
+LGFLVAGAALFLPTDKKGIKGMPRIAVIAITLQYLIASYVYGKAHLPYIIYPEVTISSGF
+TDPNSFKAVFITYIVGFAILFPGFVYFWSLFMNDKRYLKQKT
+>tr|A6CI80|A6CI80_9BACI
+MSDSYKEKNENHCKPKHHHPHVKIGKVITKVPVLLAELSLTANMSATITFPEPVLEIKDV
+KKRVKITQCRLLLPSNKLFISGFVRKNIQYASPSTDIEQTTTSSIASDLHSYTVDVPFTV
+ITEINKYISDPVLPRNNSREEFDFFVAQPLPSGFPEKDELLSSDLSQFHQTSSQFYNELP
+FCELVSSKIIEWDEAIDRGPIPTGAAPLAEGVFTVVEEKMVLDFTIRVLQEQQVRVASHT
+NDDCHHDHHDDHDDDCEDKDFY
+>tr|A6CUA7|A6CUA7_9BACI
+MPLGHQDQMGLLKDILMNHSDDCCGSVAECEQLERLVKSLMVNTNIGDGIKPILQEVYNY
+SQNGINSSNLDAHITSQKGNLSQWVQDMDTLS
+>tr|A6CLD0|A6CLD0_9BACI
+MKIAYLGPQASFTDLAVRKAFPKRETVPCVTIPDCIEAVIEEKVDYAVVPLENALEGSVH
+ITVDYLFHEENLSIVAELTSPIQQHFMVHPKHFDCGIKPDKILSHSHALAQCHKFLHSNF
+RDTPLEQTTSTSAAAKYLSEHPEENLASIGNELSAREYGLKILHENIHDFAYNHTRFIVL
+HKKPVRLQLLNKKSTEKTSLMVTLPKDRSGALHQVLSAFAWRQLNLSKIESRPLKTGLGD
+YFFLIDVDQSMDDILLPGAIREMEALGCEVKMIGTYSCYLLND
+>tr|A6CK71|A6CK71_9BACI
+MQLGSLSRSSFLTGSRQYNTSTKNETIQNKGFFYQACLKERVHEPEYGVFWLEIAEADSL
+LHHDHQKWAVRNAPEMSE
+>tr|A6CPF2|A6CPF2_9BACI
+MWYKDENGLKLAMNANAFDPLSIVTPQDLPDPNSPVSFPDNFPSEAFYMLAEAEMTTGTG
+ERALLVLALEAAFAEEIPREGDQLVFGRVRIRVSGLRANEEYVVTHPYGTDTFIAEVADD
+DEPEVGEIRFSEDIGEVQDFESALESRVHPFLQWDPTVAPAAPEGYIGDPAIPHQITGSL
+FIDETGAPQNIFRIQGPGIGIGSPDASVTPGFNPDNTIETMLFTLAGKLSTVSGLDIERA
+NFTRTEEGTGFIDVFVKSETTPQDIQVSGDGVTPAGLIGGNGVYFARTEYVGTTPLDTVT
+VTNVSDVPPTVKTAAPVDFVWAEAIYDTDASTLTVIASSSDEAGNPELTLEDFGNGIFTI
+PPEGTLILTGLNIVPGSITVQSSSGGVTEVSVVITGGNTDPLPVTAIAGTDQTVLWGSNV
+TLDGTGSTGAIESYNWVQIGGEPVVLNGSETDQPTFAAPSLDTLLEFELTVTGPEGGTST
+DTVTITIRETVPAPVADAGPDQLLSPGSEVTLRSRSTGVISDYNWSQVSGPPVTLTNPDS
+PVSTFTFPNQQATLVFELTVVGPGGSSSDTVEISAAEDVLAITRAEFRTRDAEWRISGTT
+TATNGVTVTIYLGDDLNGPVLAEAIADNLGEWEFRVEGSSITPDNSRSISVQSSLGGTLL
+DIPINIRQ
+>tr|A6CSM4|A6CSM4_9BACI
+MEILKVSAKSNPNSVAGALAGVLRERGAAEIQAIGAGALNQAVKAVAIARGFVAPGGVDL
+ICIPAFTDILIDGEERTAIKLIIEPR
+>tr|A6CTJ8|A6CTJ8_9BACI
+MQILLTKDLWIISLGLLTLGHHWARPLVPLDNFIRFRKGVYIRMEILRSVRNYNLQTNKD
+AFADQITKRQTFKQYLETTTHTHQSQISRMPARDDTVIKRVDLHTPFQRYVNGEYSSPIK
+LSLTKFSVLEIELKKG
+>tr|A6CIV5|A6CIV5_9BACI
+MEIRLLEKGYKNNEQFYKDFIEDQILLKEEYFSKEVVHLDKAPDFPIYIAQGNETERKDL
+FLEAFRVLTDYYLDTDRDVHLNEQFWHSLLITKREFLLENYPKITEGINHFNNIVLKKFD
+WENYIYKCVLGAQYINDFVTEPEQRERYYSLLVDNLDIYNYIIKYEIFRNDRFLINILDI
+IDELDLSKVLKAKIKDRDDLGKDERVGRRVIFEFNKSYPVIMSPMLDKEELKPIFLKYLN
+YYYNSSEALEEV
+>tr|A6CQ00|A6CQ00_9BACI
+MPAIIGPVQILSVGGGNVQFGDAGIISPKSSQKTTAGSGGFNTGPFQLTYNVFSANTTFD
+CNVIDQPIAGNN
+>tr|A6CHG5|A6CHG5_9BACI
+MLPTLFDETPVKGNWKYEVKYDGFRGLLLIKSQEEIQLFSRNGNDLLPQFPEIHDAVLKI
+IEEDSWTLPVFLDGEIVLLENDFKSNFGSLQIRGRMKTKENIQKASELNPCSFLAFDLLQ
+SSGKRMTSMAYSERKKELSALFRKAGLPLEVNYGSSARIQMIPSYRNSNQVWGAVRHLDG
+EGLIAKSEESVWEEGRRTTTWRKMKNWKRAKCFILSHDNSNGYYEVGVFKEKEVIGIGAF
+YFGISPEEKQALNSIIKENAYQEEKGKSYVHPGLCVELNYLEWYEDQLREPHFHQFLFHE
+KPEECTWIQFMLDEASLPEPVEVTHPDKPLWESPAIDKLQYIRYLRNVSPRFLSFLKQRP
+LTVIRLPHGMYGESFYQKNCPDYAPDFVKTVRLENIDYILCNDLETLMWLGNQLAIEFHI
+PFQKIGSAYVNEIVFDLDPPSRDYFYLAVKAATEMKKVFDQLKLISFIKTSGNKGLQVYI
+PIPDGYTWKDTHLFTEFMANYLINQFPDDFTTEGLKKNRNNRLYVDYIQHAEGKTIIAPY
+SVRANEDALVSAPLFWEEVKEDLRPEKFTMKTVLERLKKKGCPFAAYEEVKERQNFREIL
+SFLQSNQRKLQ
+>tr|A6CSV4|A6CSV4_9BACI
+MSEYLEVGLRSLFILIALFFITKLLGKKQLSQLSFFEYITGITVGSIAGTLSMDLELNLM
+EGLMSILLWFSVPFIFSFISLKSVKFRHFVEGTPTVFIEDGNIIEEALKREKISTDELLE
+QLRKRNIFRASDVEYASLDTNGELSVLPKKEKQPLLYEDFFQHYVKVLPIQSVINDGHID
+TQGLRKVGFTEEWLFHQLEQRKIKLENVFLAQADPSGKLTIDLYDWNGTR
+>tr|A6CM02|A6CM02_9BACI
+MEKKSKGGEEVVMMTKLKKLTAVLIAAIFCITFIEPATALDKESIVERVQTAFEKQVSLS
+EKPRTMEEIHAILDTHFTDSFKDKFLLENVIETEEGFQTFGSDFAAYYIPNFSYSDKTKA
+VKKGETVYLVEYFTYEEGPVYFEDGYQGVKLTEENGELKVEDIFFTLPNELEGEAEREVT
+EPAENPQNVQTAKGENHVAPLSFSYVNKQYRIFQGYFLDDVQSVTNLI
+>tr|A6CLQ2|A6CLQ2_9BACI
+MISRGVRIDGNDIFAVYFETLKALERARNGEGPTLIEAVTWRYGAHTTADDPTKYRDQSE
+SDERRKLGDPIARLQRYMERQGWWDQEWADSVQKEYTAEMDQAVEELESYPEADPKVIFD
+YVFEKPTWTISEQKDLLLQQLRGEG
+>tr|A6CHS0|A6CHS0_9BACI
+MENWRKALEAFLEEWPYASELAGVLVCGSYITGNPSNRSDIDVHMVLKEGEQWRERGNRI
+IDGYLVEYFCNPPAQIRNYFKEDYGERSTHAAVQFATGEIIFDDEGTISILKEEARDWLE
+KPFEKLGETGLEFIKYAIWDSLDNLQDLYENGGKEFKFVYYNSLKVLFDQYCQFLSLEQI
+PYYQIASYLSEESYLGKYLKDPFPDEEFSRIFLESLKVSAEEEMVSLYKRLSDHVLVKMG
+GFSIGGWKMKSPIEK
+>tr|A6CJ36|A6CJ36_9BACI
+MKESIAMKRLMVSIVFFSFLLSACTLDENAADLYKKELPLEAKVFLPEEFSGGKETIEVI
+LTQYRKKVDEPDFVHFEIWKQDGSVHYPMEEAESLGNGTYSVTKDFESDGLYYVKVHAGS
+SGSIISPQMQFIVGELSKEELDFLQKGLKTESPVKEPHH
+>tr|A6CQ61|A6CQ61_9BACI
+MKKRKFGLALSMLLAAGTFLGACGTNNDTEDAAPAKNGEGDAFTVAMVTDVGGVDDKSFN
+QSAWEGLKAFGDENGLEKGKSGYDYLQSQSDADYATNLNKLVRQDFDLVYGIGFLMYDAI
+NEIAQQQKDAQFAIVDAVVEQPNVASITFKEQEAAYLAGIAAGLATKSDNIGFIGGMDIE
+VITRFEAGFVAGVKAVNPDAKIQSEYAGAFDKAELGQTIASKMYSSGADVIFHAAGGTGN
+GLFKEARDLKAKDPDRFIWAIGVDSDQSAEGIVEAGGEEKNVILTSALKRVDNAVLDLAT
+KAMNGNFPGGDVITYGLVEEGVGLAPVNEEVPNKDEINSTVEEHKEKIVNGEIEVPVTVE
+>tr|A6CMT8|A6CMT8_9BACI
+MKYQQTIGGGGGGRVNYKRLPLGIRIIGYFIRFCVITAVVMLLFNWVISYF
+>tr|A6CJD0|A6CJD0_9BACI
+MDKLNTLKSEGTPVYPERFLTNVELKEAALMKDGAEGIRAAGRITGIRSFSKLLFITISD
+IQGSLQLLLKKQEIGEGLFNKFEQFFDIGDFIGVEGKMYTTKTGEKTLRIEKYEFLGKAL
+RPLPEKWHGISNIELRYRQRYLDMLMTEETQNRVLARSQMVRSIRRFFEDQDFIEVETPV
+LQHTSSGALAKPFKTYHNALDTELNLRIAPETYLKRLIVGGYTKIFEVAKCFRNEGVSPQ
+HLQEFTMVEGYAAFWNYEDTMRLMRKMILSVLQNTFNTTTITLKGQSIDFTAEWDVISFR
+ELILKNTGIDIDLFPKVKDLLQETKRRKIELDYQEADSMGRGNFIDFLYKKTCRRLIVKP
+TFLIQHPIDLSPLARANDEDPSLTDRFQLVVNGAEIINAYSELVDPLEQRKRLEVQALLK
+SNGDAEAMEMDEDYLKAMEYGMPPISGWGFGVERLLMILTDSESIKDCVFFPLTKKL
+>tr|A6CHP4|A6CHP4_9BACI
+MNKSDVIKAIEAHHWDYEKEWIPAYIETIEEDGLRAIKNPRMHNVLSNKVVEFSSEGHQL
+VQQWERTKTFFGNVPFSLWLESMQSELLSSLLEKDGFSITEKYDGLGFMLNQFKGKRGIN
+TNIDYIDVESDEDIRNLVEVSSLIWEYPKDQEESLFNQRKSYITSPYRNGGYILGLKDAK
+PVAYSNYRYSSDGKTMFMNGSGVLPGHRHQGIYSDMVKFRLAHAISRGALLATCQARRGH
+SSPVLRKLGFQKYSTYDYWVYKG
+>tr|A6CNH9|A6CNH9_9BACI
+MAENRHEALGLSNEKVLEMYETMLMARRIDERMWLLNRSGKIPFVISCQGQEAAQIGAAF
+ALDTEKDYVLPYYRDMGVVLTFGMTAKDLMLSGFAKAEDPNSGGRQMPGHFGQKKNNIVT
+GSSPVTTQVPHAVGIALAGKMEKKDLVTFVTFGEGSSNQGDFHEGANFAGVHKLPVIFMC
+ENNKYAISVPIEKQLACENVSDRAIGYGMPGVTVDGNDPLEVYKAVKEAADRGRRGEGPT
+LVETISYRLTPHSSDDDDRSYRSPDEVAQAKTKDPIITFGAYLKETGVMNDELEKEINDR
+VMKIVNEATDYAENAPYSEPESALKYVYAEEK
+>tr|A6CQ69|A6CQ69_9BACI
+MQFPCFFVGLCMVMLSSLYPIEFTFSEVLKDFNGKKHLRGGRAVSFRGFGCVEVPFWMGR
+GHYFFWGANKVLGGLSAGHHFKISHQ
+>tr|A6CJ26|A6CJ26_9BACI
+MNFTKEDQAIIEQALKTACANTKDHHAVFQYQKVLQKFQGNSEMEVSANQDGFRYDYDDA
+SDV
+>tr|A6CP40|A6CP40_9BACI
+MIKKAVIPAAGLGTRFLPATKAQPKEMLPIVDKPTIQYIIEEAVKSGIEDIIIVTGRSKR
+AIEDHFDKSVELEMLLERTGKHEMLEIVESISNLVDIHYVRQKEPLGLGHAVLCAKKFIG
+DEPFAVLLGDDIIDNEVPALKQMMDQYNIVQSSILGVNEVPRSEVDKYGIVSYQEQQGEL
+YKVDSLVEKPAVEDAPSTQAIVGRYILSPTIFETLETVKPDKKGEIQLTEAIDKLLDKED
+IYSYILQGNRYDVGDKFGFLQASIDFALKREDLSEKLKSYLKNIEK
+>tr|A6CHP8|A6CHP8_9BACI
+MSLENQLPEAVSGILSNRKTQFTGDEYQSLIGEGGYTAQDAAILEDAIIALGMGKNVLLK
+GPTGSGKTKLADTLSSIFSQPMHSINCSVDMDAEALLGYKTIAERDGKNTIEFIEGPVIE
+AMKKGHLLYIDEINMAKPETLPILNGVLDYRRMITNPFTGDVIKASETFGVIAAINEGYV
+GTVPLNEALKNRFVVIDVPYISGETLKSVIMSQSKLQDEKLVEKFIALSSDLLVQVRNGQ
+VSEEAASIRALIDACDLALYLPPMRAIQRGIIDKLEDDREKAAILNIAETLFE
+>tr|A6CI67|A6CI67_9BACI
+MPSGLHKMQVEASVEELWKYVSVMDVWAPLVPGYIDHKILSESESTWKFKTDMGFLKKKI
+HLKVDITDWQEPSKVTFNLTGINERFQGHGFFESESIGKDTSNMTGYLEINAEGPLAKMV
+NPLLNSILPEMTTELTEAVAYKVEGIYSSR
+>tr|A6CJ53|A6CJ53_9BACI
+MRKTINKHLGGGTLEMQIREATKSDYEVVHQLQKQVHAMHVKERPDHYKMTDTTLDQEYF
+NNLIDGENTRVLLLEEDQPIAYSIITIKYPTERPILMPRKVVYMDDFGVDSKYRGKGMGK
+VFFEKILEFAKSIEADSLELSVWEFNEDAVKFYESMNLKTKMRQMEINLD
+>tr|A6CJ57|A6CJ57_9BACI
+MQNFFKYSWKVNLLFLPGWFFLYSAFHLGFSNWFDGIINKNDLYLLGYVIGMFIFFLLTR
+RQAIKEFNKQYSPPEKE
+>tr|A6CMV8|A6CMV8_9BACI
+MKVIVHPKGFILQGKAWEIKAKLKEYSNKFTYVEDWVKAANDAKQ
+>tr|A6CHX7|A6CHX7_9BACI
+MGVNKMIDLRSDTVTKPTKEMREAAFNAKVGDDVYGEDPSVIELEQTAAELLGKEAALFV
+TSGTQGNQIAVLTHCSPGNEVILEAESHIFYYESGAISAFAGVQPRTIKGNRGAMDPEEV
+KAAIREDDQHFPETGLICLENTHNRAGGAIVPTSNMKDIYTAAQKYGIPVHVDGARLFNA
+SAAAGVPLTEFTQYSDTVQVCLSKGLGAPVGSILAGSNDFIKKARKWRKRLGGGLRQAGI
+IAAPGLYALTNMRERLADDHENAKMLAEGLNSIDKLKIANRVDTNIVVADVSELGLTSAQ
+FTEQLKGEGVLAVTFGPSLVRFTTHFDVSSEDIDHAISVVKKIVQ
+>tr|A6CQL1|A6CQL1_9BACI
+MAEITMKKVTIKNGETIGYREREGGSKVVVLVHGNMTSSAHWDLVLENMDEKYKLYAIDL
+RGFGESSYRRPIQSIKDFSDDLKEFADELGLSDFALIGWSLGGAVCQQFCIDHPGYCSRL
+LLVASASTRGYPFYGSNEQGLPDPDNRLRTIDEVKQDIGKTIPVQGAYDQKNHALLRAIW
+DALIYTDKKPEPDRYEKYLEDMCTQRNLAEVYQALNLFNISNHDNGLTKGRGEVSKITIP
+VLILSGERDLVVTERMTNELLEDYEGRVEFVELKDCGHSPLIDDLGGLLEHMEGFLER
+>tr|A6CL17|A6CL17_9BACI
+MEGLKIGSKESSLEKVVLDPLELSLISRGQGVEVITQRIEAGRMVYLYPSDNPDAFEFYF
+ILSGEITFEDQGVNCTLGTEDYFSAEGLKETIFFKVISEVKLLCIFTEQTFFHISKEINS
+LYEIAKQVELKDRYTFKHSDRVANYSMRIAKKLKLNRSQLDNLNIAASLHDIGKINVPEE
+ILNKPGRLTDEEFAIIKKHPGDGAEMIKGTYYEEIHPIIEQHHERLNGTGYPQGLKGDEI
+SLEARIIAVSDTFDAMTEDRAYRKAFNAQFALDELKKLSGTHYDPQVVKAFEEVLIEEGL
+VGKQDSENTG
+>tr|A6CQU7|A6CQU7_9BACI
+MSLNKKVIYPGQTIGIIGGGQLGRMMALAAKEAGFRIAVLDPGSNGPCAQVADEVIIADY
+EDREALERLSELSDVITYEFENIDYHALKDLTEKAYVPQGAELIRITQNRIAEKEALVYG
+GVEVAPYEVIVCEEEIGEKAEKLGYPVVLKTARGGYDGKGQAVLYESADIEKAAGLLVGG
+PCVLEKWMSFDKEISVIVTRTPSGEMSVFPAVENIHVDNILHQTIAPARISDADNEKAVN
+TAKKVAETLDMVGTLAVEMFLTEDKDIYVNELAPRPHNSGHFSIEACETSQFAQHIRAIC
+NWPLKSTDIIKPAVMVNILGEHLQGVIESIPHQPAWSIHLYGKDEAKAKRKMGHVTILTN
+DIETVLLQLNETDIWNSKEMIGGK
+>tr|A6CLG0|A6CLG0_9BACI
+MIGMDIAFRSWIYDRIFSTFSNVIPSSLTAGPAPDKILIMIWTVH
+>tr|A6CN15|A6CN15_9BACI
+MANVQSNSGNPSVDYEYRRKKNKEDMRMQVVSFALMIFLTLVAFVAVGGGFSKWFVVPFI
+LLLAVVQLIFQLYYFMHMSHKGHEAPALFLYSGALVAFITVLTFLTIVWI
+>tr|A6CT39|A6CT39_9BACI
+MRKRLKGMKGRKERGKCHEQVSQGHEKQKGERKVS
+>tr|A6CPE4|A6CPE4_9BACI
+MWNERFSKKEYVYGTEPNQFLVSAFEKLSLSGKVLAIAEGEGRNAVYLASQGLEVTAWDY
+AASGLEKTKRLAQSKNVHVTTELVDLNHADFERNKWDGVVSIFGHFPDELKQKTLQGVKD
+TIKPGGHFVTEVYSVYQIPYKSGGPKEEEMLYRPEDFLKSFSDWRIIHFFMGEVMREEGE
+LHKGLSHVIQFIAQKPE
+>tr|A6CL01|A6CL01_9BACI
+MNDESIKQQIQTELKHQKLSTKKVIKRTFFILLGAILMALGIEVFLVPNMIMDGGIVGIS
+IILYNLTGIKLGVFIFLLNIPFFFLGYKQIGKTFAISTVFGIAVLSLATNYLHTVAAFTQ
+DVLLATVFGGIVLGAGVGLVIRFGGALDGSEILAILLNKKFPFSVGEFIMLFNVFIFAWG
+GFVLGWDRAMYSVLAYVIAFKTIDIVIDGFDESKSAWIISDKDREIGDAILARLGRGVTY
+LKGEGGYSGDDKKVIFCIVTRLEEAKLKSIVEELDPTAFLAVADINEVRGGRFKKRDIH
+>tr|A6CMR3|A6CMR3_9BACI
+MIRSDILIVKNLSIPLRILQNEALLNRLHEHHPKRELIEADNMKRLKGYRGEQALDYYLS
+FLAANEFYILHGLRLQHGEYFFQIDLLLVSPLFLLVVEIKNISGTVILGGPFKQMIRIKD
+NIEEGFNNPLTQVKRQKYQLQEWLAKYNYTGLPIEHLVVFSNSSTIIRAQDNDKEVLEKV
+CHANQLIEKINSYKSSYNRILLEEKKIKKMCRVLKKHHIPKRDDILQTYGISQSDIIQGV
+ICPECSFSPMIRLRGSWSCPSCKLTSTNAHHKAIKDFLYLMNPTISNQQTREFLKINSRT
+IASKLLKGMNLHCTGNTKGTYYSLPE
+>tr|A6CMY5|A6CMY5_9BACI
+MKKRRIRAYIYTVFIFSVIFSSLSGTAEAAPSVSAQRAIVIDQDTGRVLYEKDAHTPSRI
+ASITKIMTAILAIESGKLEETVKVSNNAVKAEGSSIYLKPGEKIKLEDLVYGLMLRSGND
+SAVAIAEHVGGSLDGFIFLMNKKAEEIGMRNTHFANPHGLDDHEDHYSTAFDMALLTKYA
+MQNEKYKEVAGTKVHTSPDPEHDWDRKWKNKNRLLTELYKYCTGGKTGYTKRAKRTLVTT
+ATKGEQNLIAVTLNGPDDWNDHIQMFEFGFKNFDTVIAVPEGNVKKIEDEFYKNKVYIKR
+DVLLTLTKEEEESVRVEYKLMKPEDSWRDGAVPDVVGKAVIYMNEKEADAVPLFYSQEKV
+TKKKSWWMFWKQSFISVLGVKTDG
+>tr|A6CNT6|A6CNT6_9BACI
+MSESFIKGDMRMYKIEVNNLTKIFGSNPKEGLKRLNEGQGKEKILEETGMTVGVNNASFQ
+VKAGEFFVIMGLSGSGKSTLIRLVNRLIEPTAGEVLIDGHNITEMSKTDLMLTRRKKLAM
+VFQKFALFPHRTVQDNVEYGLEIQGMAKEERSKKALKSIHDVGLKGYEESYPDQLSGGMQ
+QRVGLARALANDSDILLMDEAFSALDPLIRKEMQDELLNLQSKLGKTILFITHDLDEALK
+LGDRIAIMKNGSIVQVGTAEEILENPANEYVYNFVEDVDRSKVLVAGNVMKKPDVVTTWK
+DGPRMAVKKMEDAGLSSIFVVDKDKNLKGLLTIDSAIQAYKENKWVEDVLEQDYHTTTPD
+TPLNDLIGVAAESRYPIAVVEDNKLMGIIVRVSILSGLVLGKEQSEVTAE
+>tr|A6CLA8|A6CLA8_9BACI
+MREKALSFNLIVTVGLMLFALFLGAGNMIFPPFLGQQAGENIWTGIFGFLITGVGLPLLG
+IIAIARTGGDLQTLASRVSPAYGVVFTVIMYLAIGPFFGIPRTGTVAYEIGVTPFLGEDI
+SKYGMPLFIYTIIFFGLTIWLAMNPAKLVDRIGKVLTPALLVILTILVIRSIFSPMGDFQ
+APSGSYNDGPVFKGFLEGYLTMDTIAALVFGIVVINAVREKGITSKASITKACILAGIIA
+ATGLALVYLSLGFIGATSTEAIGLKDNGGAILAGSANYLYGQIGTIILGLAITFACLTTS
+IGLVSACAQYFSKLLPVSYRILVIIISVFSMIIANIGLTQLISVSLPVLIVIYPLAIVLI
+LLSFMHNWFNGYSSVYIGALIPTFLISLIDGLKIAGIEFSKLNDILSVLPLFNEGIGWLL
+PALIGAIIGFLLSASLRSRA
+>tr|A6CTE9|A6CTE9_9BACI
+MGTLNKTVASMIGFGVGIAATMASRRSNMMNGRNMKKMRRQVKKMF
+>tr|A6CMP5|A6CMP5_9BACI
+MDFERNLDKYAELAVKAGVNIQKDQFLWVSAPTGTEQLVRRIVRQAYLAGAGDVHVQWYD
+EEVKRTHYELAPDSAFKHFPKWLAAAFDSVGEREGAFLQVEADDPDLLKGIPPERLQTYE
+KARGNALESFYDAIETDRISWSIIAMPSQKWADKVFPELPESERISALWNTIFEAVRIKE
+EKPVDEWRKHIETLQVKASQLNEKRFWKLQYTATGTDLTVELPDKHLWLTGSSTNKGRND
+LYCQYANRRSLYRPSQNWGEWVCFKYKAIGLS
+>tr|A6CK56|A6CK56_9BACI
+MEALIGLGIFILVLAGGLFLFNTLMGYKKDHIVIDFDERYFQFNEYIQAIHRELEKRGRD
+VKYEGDGRFVIDGKSYLFIERNVSMGGVPLQRTILKPE
+>tr|A6CKG5|A6CKG5_9BACI
+MNLQYIGIPLTIIVSLFALQRKNEKKLLATIGLSLGIIMMLFVAVILYISLNKYSPI
+>tr|A6CME7|A6CME7_9BACI
+MSLLIVMNLIVPAYKAEATVSVSYEEGLVKTAEYNANILRKQISYEYNKALSVPNMPLFN
+QTKDSYTKAYSAVTALKSSTTKTQLLNRLSSNVKLHIDRAVAYIDALNAGKKIETLTKEL
+RYLKNEEIYMLPVTSEYYHKLSSEIRKQAVLLYRVYGKSTRDAILKKYKLPAEEIRNHFA
+YFVTVYDLMDEGYIELSFDEYDVYYMLDLLISINGLLPEIESRYPEHVFYRIVLLTRGTH
+GFKLSA
+>tr|A6CML8|A6CML8_9BACI
+MMERFFNGLSEIDLKWFLLVLALILIGNIILKRAAVYIENRSSVLQERFTATVRSVLNWL
+SFYGALLLFLLYFWGEDWLTYTLYSQGGVDVSVFLILVAFMIVSLAHRLVKIFTQYVLKQ
+VYEYYDINTGLGYTFNRIIYYTVMILALVVSLTTVGLDLSAIAAVLGVLGIGIGFGMRNI
+AGNFISGVIILFERPIEVGEVIQVNGKNGRVEKIRLRSTIIRTAKEGTLIVPNQYFIEQI
+IRNRSSVAVSAEVTISVRYGMNTKEVEGLLMKAVEKVKEDAEGILDSPPPDIRFVDIKTQ
+AMEFLVLIPVTNFQIKEKVESDLRHAIAEIFIEHEVELASAVASLEPSD
+>tr|A6CPE5|A6CPE5_9BACI
+MSGSENKLTAKNQTIESKYIQQHLASERTFLAWIRTAIAIIGVGFLVTNLHFTMKSSLSP
+AGDLLANIIGLASVGLGILTIIMAIVTYMRKIETINNQTFRTSKFSIVTLGVFVILIAFV
+FGAYFLIV
+>tr|A6CQL4|A6CQL4_9BACI
+MFVLLKRNPADYIELIMKKKKFVQAQMIMAYIVQWG
+>tr|A6CSQ1|A6CSQ1_9BACI
+MSKLSEDLSMSNHSTKLTSGELATLWTTFQNDTSSLCIFEYFLAKCEDPDITPLLQLSKN
+ASLEHINFLKKLYSEEQIPNPVGFSVDEDVYPDTPRMYADMFYLMFMRQMAKVGMITYSA
+ALSLAVRQDIVDFYQEGLTFTSDLYKKTTQTAVKKGILVRPPYIPYPKEIDFVDEKSYFS
+ASLNPFTDKRPLNAIEISHLFMNTETNLLGSMLSTSFAQMARTTDVKDYMVRARKVAQKH
+IKVFTTTLVDNDMQAPMSWDTNVQDSTVPVFSEKLMMFLVTLITNVGMGNYGIAASASMR
+LDIANNYFRMALETGRLGKSGADIMVKYGWLEEPPQSPDRNKLVRENN
+>tr|A6CTN8|A6CTN8_9BACI
+MGNRLFQEARQYVQLAVEASSSGSEDTQQTIQRAKNALSSAYANTTRAEQQQLRQLQDEL
+NQLH
+>tr|A6CJM3|A6CJM3_9BACI
+MGSYLDFLALYGIGGAHPGGILLTKELMFREEITDGMSILDIGCGTGQTAVFIKEMFGSR
+VVALENHPVMLEKAGKRILAAGAEVQLINGQAEEMPFANQEFDLITSESVLSFVDQKLVL
+SEVERILKPGGLFLAVEMTVEQELSSEARKELSTFYGVRHLLNEKEWQKCAEAAGFTIVE
+IDKPDFPMLSPEPVIEFDLSEEIPDDIHDMLDRHEEYLKKYKDQLGVRIIKCRK
+>tr|A6CUG7|A6CUG7_9BACI
+LLLIRPISRTKILLSKYLTVLLYGITLLLMLFALSTIAGAILFGSGDGQQHLVYVDGAVE
+EQNMILYLIKTYLLKTISIIMMATMAFMISAVFRNSSLAIGISLFLLFMGGTATSFIAMK
+YDWAKYSLFANTELTMYTGAMPPLVEGMTLGFSITMLIIYFVIFNLLAFVVFNKRDVAA
+>tr|A6CKQ6|A6CKQ6_9BACI
+MFCNVYINTDKSEWFQMALVDIIKEIQKLNTADQLRLKEFFTKSLGFLKRYPSRNIKMAT
+PALTVIRIMLSDSENIPLK
+>tr|A6CMB6|A6CMB6_9BACI
+MKKLASFGTLFVAGSLLVGCNTVEQGQQEAKVKAAESESNNEVVEVTNEKDKSEKDNSVV
+VKNSDVQEVKEAEGDEMSPVVKSEFNTLKEFIRSKIDDLRGNSEFQNIHVDKYSALNSAA
+ISTIPYIEYFEDDIAEKGATKQFDNIAKVAYEIRKQYEKGNTEELDRLGKNFTDELYEVY
+EDLYGLSLTYDWTVEKTEFATFEFFVEWNIEAMRPDSEYREGNGSATHTLLSSAIAYFNY
+FEDDVVERGLTEEVESFKDFSASNLKKIDKGEEVDYPAIEKEFIERMQEIQSQL
+>tr|A6CRY6|A6CRY6_9BACI
+MVSKDYKEAKVMFETLVNDSPEDPLINFYCGSVNDALGLEKAAIPFYRRALENGVTGEIR
+EAAFIQLGSSYRCIGEYPLAKDVLTNGLAEFPDNPALKVFYAMTLYNMGEHKESFTLMLK
+TLMSNSSDEWLKKYDKALRFYSEDIDGVWE
+>tr|A6CU11|A6CU11_9BACI
+MDANFFWEPFDMNVIIFRNILLFSRKMSKGIIQFTVSFVGGQACLGTVSSFSLFGLFGIL
+AGT
+>tr|A6CR68|A6CR68_9BACI
+MEKIEPINNTLKKLAGSQTFKERYERMRQEIMQDDYVKHFIEKNQGKVTKTMVDNSLMKL
+YEYITQSKQCVDCPSLGQCKNMMKGFDPHLVIRGNVIDIEYHICPRKEMDDEKRKSEKLI
+KSLYVPKDILQASFSTIDLDSPGRLEAVDLANEFVENYEAGRNLKGLYLHGKFGVGKSYL
+LGAIANQLAEKKVASLLVYIPEFVREMKQSLNDHSMDDKLEAVKKAPVLMLDDIGAETMS
+SWVRDEIIGTILQFRMLENLPTFFTSNFDYEGLKHHLTYSQRGEEEKMKAARIMERIKYL
+TKPVLLDGINRRE
+>tr|A6CKT9|A6CKT9_9BACI
+MAKGYLIIVNPFSVPIQIIKNADKDGLTDNEELTSTFREVAAIIVVIR
+>tr|A6CQ32|A6CQ32_9BACI
+MTKYIFVTGGVVSSLGKGITAASLGRLLKNRGLKVTTQKFDPYINVDPGTMSPYQHGEVF
+VTDDGAETDLDLGHYERFIDINLNKYSSVTTGKIYSTVLKKERRGDYLGGTVQVIPHITN
+EIKERVFRAGRETNADIVITEIGGTVGDIESLPFLEAIRQIKNDVGRDNVMYIHCTLVPY
+IKAAGEMKTKPTQHSVKELRSLGIQPTVIVVRTEMPMTQDMKDKIALFCDIDQRAVIEAM
+DADTLYAVPLALQEQKLDQLTCEHLKLDCGEADMTEWNELLHRVRNLSKKTKIALVGKYV
+ELQDAYISVVEALRHAGYNFDADVEVKWLNSELVNAENVDELMSDVDGILVPGGFGDRGV
+EGKIVVTKYARENKVPFLGICLGMQLASVEYARHVLGYETAHSAELNPETPYPIIDLLPE
+QKDVEDLGGTLRLGLYPCKLIPGTKAYEAYAGEVVYERHRHRYEFNNHFRDEMEAAGFIF
+SGTSPDGRLVEIVELADHPWFVASQFHPEFTSRPTRPQPLFRDFINAALKNGK
+>tr|A6CIE7|A6CIE7_9BACI
+MWMSVKPKVISIAAVSGGGKTAVTNALNQTLGDSRKLLFDEYDFHESPDDLIQWVEEGAD
+YNEWNLEPLIKDIQQLSTLKEAPAYIVIDYPFAYRNYGMRNLIDVSVYIDTPLDVAMGRR
+ILRDFSNDNSASDIQENIRLYLDSGRRAYLEMEKTIKPDSDLVIDGTLPVERIVESIVEI
+LTN
+>tr|A6CK39|A6CK39_9BACI
+MKFIHTADWHLGKLVHGIYMTEQQREVLYQFVNLVEEEKPDAVVIAGDLYDRSVPPTEAV
+ELLDEILYKINVELETPVIAISGNHDSAERLSFGTSWYRQSRLYLKGKLTNDFSPIQVEG
+VNFHLIPYAEPGIVKQLLQNDSIQSHHDAMQALIGEIEKNMDPAEPHVFVGHAFVLGGKT
+SDSERTLSVGGSGCVGSELFAPFHYTALGHLHSPDAIKHERVKYSGSLLKYSFSEAKQRK
+AVSIVEIDAKGSISIEEKTLTPKQDMREIEGHLEELLDPQFFQQQKTDDFLKVILRDEGA
+LFDPINKLRQVYPNVLHLERKVEQYDLRVKEDYSTTRDDKKSELELFQQFYDEMTTMDFT
+EEKKEIMISVIEKAKKEAEKK
+>tr|A6CM03|A6CM03_9BACI
+MSAGVLVYSLVYTFKVGRQQKALKNELDTDLPEKVQEHPYTRNPIFLAFIISAVIVILFI
+LYYAFAYR
+>tr|A6CTT8|A6CTT8_9BACI
+MNDITYKATVNGAEVFYEYHRHPSAQETFVLLHGFLSSTFSFRHLTPLLKEQYNVISVDL
+PPFGQSGKNKEFIYSYENLAKTVILLMEKLEIDNIQLIGHSMGGQIALNVMKQKPELVEK
+GILLCSSGYLKRMNWPITMLSYIPFFHLYVKMHLAKSGIRQNLENVVHDSKMINDEMMFG
+YLKPFLDDDIFRALTRMIRHREGDLIQQDLHKIQTPCLLIWGRHDRVVPLHIGKRLNKDL
+PNSKLLVLENTGHLVPEERPQDVYDHIRSFTEQQFEEEKVKTSTQKPISNTLPVT
+>tr|A6CN23|A6CN23_9BACI
+MKEDLTKLLNECIEDGNEADLDVIKQMLQGVRRKQENQSGSYIGAVLAMEKTAGDNTCEV
+TIPITPLTYNSLEIVHGGITATLVDTAMGTLANILLPEGFGAVTTNLNIHYLAPGRHGNL
+TATGTLVHRGSKTLVIDGKVLSDEGKTIAHCTGSFFVVKKNL
+>tr|A6CI51|A6CI51_9BACI
+MNITEINTHDIDEILTLFYETVHNVNARDYSQDQLEAWVSKRDINEMRERWIRSFDENFS
+YKAIAKAKIVGFADMDSSGLLDRLYVHKDYQGQGVASALLNKLEVAARKNDIQDLETFAS
+ITAKPFFENKGFQVIFSQKVLKRGVELTNYKMVKKGDTDV
+>tr|A6CP02|A6CP02_9BACI
+MTMWIWIFVSALILLAVIEEVIYYVLNKQLGLERESQLKKFNIRFHKLKNMFKKQKEQSS
+QSA
+>tr|A6CQD3|A6CQD3_9BACI
+MRSTFQGLETARRGMYTQQSALQVTGHNVANANTLGFTRQRINFEQTETYPPPAMNKPQI
+PGQIGTGVEAESVQRIRDSFLDVQYRGENNKLGYWETKAESLMKMEEIMNEPSDSGLAKT
+MDMFWQSLQDLAVNPKNSGARSVVRQRGIALAETFQYLSNSLSTIRQDIKNEIGVTEKEV
+NSLLKQIHNVNKQIGDVEPHGMSPNDLYDERDRLIDDLSKLVNIKVTNQPSGGNSSPLAE
+GKAVISLVDGNNRPIANLVHAKGYNEIKVNIPSTGTDVNVNSISIGSQNYEMEKFDADGK
+LKGLIESFGYMDKNGDTAGTYPDMLSELDNLAFTFAKEFNKIHSAGMSPNEINNVDKNGD
+RNPVNKDILFFVNGDTNSLSESDRKGFSQRIGLSSEIKSSLDNIANADGSKPEEATTGDS
+SVLLQLTEVINKNFDYGQNSQMANFRNYYEVLIGGMAVDAQNAVRLTDNSATLRQAVEER
+RMSTSAVSLDEEMTNMIQYQHAYNASARMISLQDELLDKIINGMGTGGR
+>tr|A6CS19|A6CS19_9BACI
+MFLREKKAIFPFILSGLFDPEGLGAETRRPANPAGGHAPSASIYLYIFYNKVYKIIKAQT
+FD
+>tr|A6CUE6|A6CUE6_9BACI
+MVELGKERIGPVEEVVRGGGIEEKRESVWSKGWYEVLESRKEKIDHVKGTLWDEEAERSE
+YLIERKIKVSIELLRDQRI
+>tr|A6CHQ2|A6CHQ2_9BACI
+MIKKRIFIIIILTLIFSFLIIFYSLFNGIPFGGYIAKAKITDYVEQVYGFDESISKPQFN
+LKNSAYEVYIPQLENRFSYDLFKKRIIDEKLVNKVNNEFKDDYNKLKNSYEGNIELPDAS
+LFSSILANGEYSNDIEVYQKLYLLGIINRKKITSKESIKMPAKLTKEIIDSLGESYNITS
+LQVIYTDLNGQYEITLDDKKAISIETLSRNTLKKDQIGVEGKELIRELKEN
+>tr|A6CSG9|A6CSG9_9BACI
+MNWKKEIENLKAYQPGKTIDDVKKIYGLESIVKLSSNENPFGFSSRVKEYLSSADFSYSI
+YPDGYAKTLRSSLSDHLNVSEKQIILGNGSDEVIQIIARGLLQRGTNTVMPSPTFPQYKH
+NAVIEGAGVKEVAVDENGRHNLDKMLDSIDENTTVVWLCSPNNPSGEYIKENELTEFLDK
+VPSHVLTVLDEAYFEYVTASDYYDSVSLVKKYPRLLVTRTFSKAYGLAGLRVGYGIANED
+IISKLEPLREPFNNNIVAQGAAAAALTDQEFIEKCRIENRKGMEMYYELCREKGLEFFPS
+QANFIVIDFGIDGDEVFQYLLSKGYIVRSGKALGYPTGVRITIGTSQQNEGLIEAIRSFL
+NTKN
+>tr|A6CR05|A6CR05_9BACI
+MYEVHTVENGVHATKVIEELNRSGYEKDDIYIFAHDKERSKDLTEGTHTESVGMSEQGMF
+DSLGNTFKKRGDELRSKMSSLGLSDSEADRYEEELDKGKVVVIGSKEH
+>tr|A6CH76|A6CH76_9BACI
+MNAEPNHFDRNRNTTNAFPEVSSSFICGCCTEPFVNLNSSQLIPIIHLQVRKQIIYYKQD
+STTLHFAHHSVRIRVKGEWPAMEKATITIIEELVKQVHSSDPSGHDWHHIDRVRNLALYI
+GKKEGSPHLERIEAAALLHDVADDKLNESERKGQEKLHKILNEIELHNEEKERIIEIIMT
+TSFQGGNEAKLGTLEAMVVRDADRLDAMGAIGIARTFAYGGTKGNPIYDPGLPVRENMTR
+EEYRNGKTSTIHHFYEKLLLLKDRMCTDTGKEIANERHKFMELFLMQFYKEWNGQ
+>tr|A6CJV2|A6CJV2_9BACI
+MSKIKRDKVNIGDWVRGFAKNGALIQGYMENIDPLDPLFKIRVIDSDDKDLIGYSLNMDD
+SLIEKIPSSQTLTEPQLQFLIDISLQTQDKEWFYELSNALQEFKRNAKGSQAKEFVEFSL
+>tr|A6CKP2|A6CKP2_9BACI
+MESRIRMIPEEEAEGKLKELYERFNGKMANILKVHSLNPNSLDAHLNYYKVIMFGKSPLS
+RKTRESIAVVVSATNECFY
+>tr|A6CU18|A6CU18_9BACI
+MRDWQSLFQKWQQENKLLHVEYLMIKKGKFSFSSRLIQFNPDTQTVMMMTQNRLSPFI
+>tr|A6CJC8|A6CJC8_9BACI
+MKNEEEVLMVIKEDKWMMDILKAAQTLDLPDWWICAGFVRSKIWDSLHGFSKRTSLPDVD
+VVYFDQSNCDEAHEKKLENCLKQLLPNVPWSVKNEARMHIINNIPPYTSTVDAISKFPET
+ATALGVKLDKNDDLVLTAPHGLEDVLNMELRPTPYMKTSKELTALYEKRILKKNWSAAWP
+KVKVYY
+>tr|A6CR00|A6CR00_9BACI
+SPLGGSPDSTAPSEEYDRDGCFSGSAIEKDGKLYLMYTGNQWTGPDHDKDLYQVQALAVS
+EDGITFEKVPENPVIDPAPEGDIHPYHFRDPKVWKKGDHYYCVLGSRTKEHAGQVLLYRS
+EDLYHWEFVNVAAKGEGNFGFMWECPDLFEIDGQTILMMSPQGMEPEGSLYHNLHQAGYV
+VGQLDYETGNLKHGEFELLDHGFDFYAPQTMEDPWGRRIMIAWMNMWESHMPEQEEGFAG
+AMTIPRELILENGKLKSKPVPELEKRRKNHKGYSNIRVEGESVLPGIEGNAVELKVTIDA
+KDASQFGLKLRAGNNEETELLYIKEERSIVLDRSLSGKGPGGIRRAEIELEDKLLTLHVF
+IDHSSVEVFINDGEKVMTARIYPEKDSTSIRFFSDKPIELLQVHKWDL
+>tr|A6CQM2|A6CQM2_9BACI
+MLRSIKGKIIVVFSLLIIVSGILIGFTSYQSSKALVEGTINKQYIGIVEGALSGFDLKRY
+EEISASSGETPYYHELREQLNEIRESNNFTYLYTMARVETDGGHEYQYMVDGMPQGAEEA
+SGLGDVEEAVEEFPGMVKAFETGTRQSEMSVTEEYGALATVYVPIKSTEGQVIGILGADI
+DVTDVYSSLKKMQTTFITIILVILSVSVIIVYFFGSTITKPLKQLSQNVQAVGGGDLTTE
+FTSKRKDEIGQLTKAFNQMLSNLKMMIRNMEENAAELEETKNTLSFRANETKLASEEIAA
+TMELISADSTLQYNRLENSVHVVKEMSQGLHYIAQASVTAAELSESTLSEVADGNGKLLQ
+VTSQMDTIHHSVTRSAESLNALKIHANEISSIVTIIRNIAAQTNLLALNAAIEAARAGDA
+GKGFAVVAAEVRKLAEQSEASTESIQELIDRMNSDTINTVDTMDVVKSNVDEGLLLVKET
+EQVFKSIVSAMEGVTSQIQEVTSTSEELYSATEEINHAASENSKIAETAAASTRDTVDIT
+NNQKEQVTEIAANIEGLARMSEQLKELTSRFKM
+>tr|A6CIL1|A6CIL1_9BACI
+MKYIEFGIGNTWIVRTETELEDGTEYEQKGIIPPIKFRSVYLRIWLLKTVIVMDFKEGFK
+KMKKNRNAFKLIFGITSY
+>tr|A6CPB8|A6CPB8_9BACI
+MKKTLLALFSAVLITGCGQNNNAGQGENGAGDEATTLKEVSVVLDWTPNTNHTGLYVAKE
+KGYFEEEGLEVEIIMPGEAGADSIVASGQAEFGVGYQEGVTQARVQDVPLVSIAAVIQHN
+TSGFASPAGKNIETPKDFEGKTYGGWGSPVEEAVMASIMKQENADVSKVDFVNMGDSDFF
+TAVQRDIDFAWIYYGWTGIEAELRNEDINMIYLTDYSEKLDYYTPVLTTNEEMISDDPET
+VEAFLAAASKGYNFAIDNPEEAAQVLIDAAPDLDEDLVKRSQEWLASKYTDDAPRWGEQK
+LEVWENYAEWMFENELLESELDAEKAFTNEFLPE
+>tr|A6CHB3|A6CHB3_9BACI
+MGKRKQPKFKTGDTIVVTIYGTVGKITNIKFLEGEYVYEVNESEGLFKEDCLRLLDEYDG
+YLLEQEQIDIEYKFLFGDLVKVKGYENDFFKVVGFRTEIWRYKEDAWEDVIYELTRITDG
+EWLEADEEELSLIADYDQAETYIKKYGIVIPTKQEQALLPSPRQQDDSYVDRLLDIYNDY
+KVLYYLFKDKKYKRKMNTIVDQLRNHLSSNSDAIGKD
+>tr|A6CHJ3|A6CHJ3_9BACI
+MQWRLKKKRARLAAERMIRTTAARGGKAKGTFSLNALFVILLDPVTIARN
+>tr|A6CSJ6|A6CSJ6_9BACI
+MGLTAEMLSALFSWDRLIWGSDLQKF
+>tr|A6CK19|A6CK19_9BACI
+MNIGTLLIEAEVVRPPAGLAGRLVTAHEGTGTDLAK
+>tr|A6CT35|A6CT35_9BACI
+MEKRTGLESLKRNTDFLRKNNIDFYILYYAVRDDLKRDDYLDGWKVVKEMLPYNSFFLDL
+GLSVAAVILPEKSGAEAERLLKATIEAAVRRSSHSITIEGKVYNDINEEFILERVLVESS
+DGPDQMEETIELKKTETNGETGKKLRLSILDDDEVIRMFLSDQLDAVDWGDWEVDLQVYR
+EGESFLNSGRLQESGKHIIVLDGIMPRMDGMEVLSEIRKQHSENEVSIIMLTSRNREDDI
+VSAFEAGAFDYVTKPFKINELIARIKRVAKRMEGKDA
+>tr|A6CN42|A6CN42_9BACI
+MTSNRQDAWSQDEDLLLAEVVLRHIREGGTQLQAFEEVGRKLSRTAAACGFRWNSFVRKQ
+YKSGIELAKRQRKESKKQPVPSPAREVKQPDVKHEVASADKKVEPQSSKVTLNGVIEFLE
+GLKDNLNQDKELESAYKKLEEYVGKIEQQLEKLKEENSVYKEKLELLEEDHQSLLSIFEK
+ARKMALLQESDDKVKFQMDKNGNLQRLQK
+>tr|A6CU33|A6CU33_9BACI
+HPTIKDNALVATGAKVLGSIIVGENSKIGAGSVVLKDVPPNSTVVGIPGRVVIKDGVKVK
+EKDFNHTDLPDPVADRCNDLENQILSLKKMLKEAQKKGDIRQDDH
+>tr|A6CNZ0|A6CNZ0_9BACI
+MVRVKFKWVGIISVFLVAGILGSIFWYEISQSSEQAEDETEYYEAGADQSEANSISENEI
+PNAMREDDLQQKIHDMSHQKVKAAQKWGSLEITPERIDHLISVVESGNYEHSHVYLDILY
+GWKEGDFSEADKDHNTIWRLQGGTIGKATGVLSVAEEQKYIEKHFR
+>tr|A6CP73|A6CP73_9BACI
+MVTQYEKTSSKLLTYTLIGLGLTSCFPIFFIFYLTKMIDLSQFLSFCLIMIPLSAITYII
+YVLVRNHAKGKYILSCFAFILSTIVIWFIPSVNSWLIIFMTLLFSLIYLHTRIMVLSIIY
+GSLSLFFHFSVNPYLENSLQVIDLIVVFALYLFCGVVCLSVCIVGNRIIGDAKENEKTAM
+KSQEKNMAIIEDIKITLHSLTQFYSNLQERITKTNQVTDEIVFSFSEVVKGAESQASSIT
+DMNESTHSSNMKVQTVVEKAKGMKQLSISTAEITNIGDRKIKELVSENTQVSSMIHNTAQ
+LINELNEKNKSISTIVKAISDISNQTNLLALNAAIEAARAGEHGKGFGVVAAEIRKLAEV
+SQKSTEEISHILGSIQEQSSLIAQEVAIGQEATRKGTVLGEETGSTLKDILMNMDKLVAH
+SSEVQEMVDIVGGNTEAIVSDIESISSITEQSTAVSQEIFASIEEQRSQMKGIVESFNEL
+ENLINLVEKTAHAVD
+>tr|A6CPE3|A6CPE3_9BACI
+MDIGFIIVIFLIGFIGSYISGMLGIGGSIIKYPMLLYIPPLFGLAAFSAHEVSGISAVQV
+FFATIGGVWAYRKGGYLNKTLIAYMGGAILIGSFIGGYGSKLMSEGGINLVYGILALIAA
+IMMFIPKKGIDDIPLDQVTFNKWLAASLALIVGIGAGIVGAAGAFLLVPIMLVVLKIPTR
+MTIASSLAITFISSIGATVGKITTGQVEYMPALVMVVASLIASPLGAMAGKKVNTKILQY
+ILAVLILGTAIKIWMDIL
+>tr|A6CQS6|A6CQS6_9BACI
+MSYQALYRVWRPQQFIDVVGQQHVTKTLQNALLQQKISHAYLFSGPRGTGKTSAAKILAK
+AVNCERAPVAEPCNECDSCLGITDGSIPDVIEIDAASNNGVEEIRDIRDKVKYAPNVVSY
+KVYIIDEVHMLSIGAFNALLKTLEEPPKHVIFILATTEPHKIPLTIISRCQRFDFKRITA
+RDIVGRMTHIADESGVQYEEKALHVVARAAEGGMRDALSLLDQAISFSQDRVTVDDALTV
+TGAVSQVYLNRLAKAIFENQVADALQALEELLFQGKDPARLTEDLVLYFRDMLLHQTAPN
+LEESLERVMLDEDFKELAERVSPQHIYKFIDILNEAQQEMKFTNHARIYIEVSIVKLCQL
+EVESNVSSPEIGQLLQKVQSLENELNQLKAKGIPAAQPDAAPAPKKRASSSRKGFKVPTG
+RVQEVLKTATKEDLNLIKSRWGEMLEVLNQRQMRSQAALLNDAEPVAASSNSFVLKFKYD
+IHCQMAMENAGFTEALSSILGQLTGNEYQAIGIPENQWQSVREEFIKHQRNDDPDSAAGG
+EAEEEDPLIAEAKKLVGEDLIEIRE
+>tr|A6CLA6|A6CLA6_9BACI
+MKIDGHIHTPYCPHGTKDTFHEYINRAIQLGYEEITFTEHAPLPAGFKDPVPDSDSGMKM
+EYLEQYIKDLANLKIEFKGIITIKTGLEIDYIEGYEEETTQFLNAIGPHLDDSLLSVHFL
+LKEGTYDCLDFSKENFGRMIELYGSVDRIHQAYYAAVLKSIKADLGKYKPNRIGHITLAD
+KFKKDFPPAGSFVQQINAILNEVAKRKMELDFNGAGFFKTGCGVSYPPPEIAKQALEMGI
+PLVYGSDAHQAKDLNQGRDRMIFE
+>tr|A6CSL5|A6CSL5_9BACI
+MTKQWWKESVIYQIYPRSFKDSNGDGIGDINGIISKLDYLKELGIDVIWLSPVYQSPNDD
+NGYDISDYRGIMDEFGTMADWDRLLEEMHNRGIKLIMDLVVNHSSDEHAWFVESRKSKDN
+PYRDYYIWREGKDGKEPNNWESCFSGSAWQYDEQTEEYFLHLFSKKQPDLNWENPKLRDE
+IYDMMKFWLDKGIDGFRMDVINFISKVDGLPDAELPQGKKYAPGGKYFMNGPKIHDYLQE
+MHEKALSGYDVMTVGEMPGVDVEEAKLYTAEDRKEVNMVFQFEHVDLDSGPDGKWDLRPM
+KMSALRDSFTKWQKGLEQEGWNSLYLNNHDQPRMVSRFGNDKEYRVESAKMLATFLHTLK
+GTPYIYQGEELGMTNVRFNSINDYKDIEILNMYREKVIENGEDHDKVMESIYVKGRDNAR
+TPIQWDDSDHGGFTTGTPWIQMNPNYKEINAKQAMEDPNSVFHYYKKLIELRKENPIMVY
+GSYDLIMPEHDKIYAYVREYEDQKMIVMLNFSGDTPVFELPAELEGGTKELFISNYNVDA
+DEDI
+>tr|A6CU51|A6CU51_9BACI
+TDGDKSGDILQIMTGMVGETKLSYDLQSSYSQVFPTNHN
+>tr|A6CU94|A6CU94_9BACI
+MRASEKGMTSSNGENQLFGVNFHSFLEREKNIDSFELASEFGLTLAGVRQLKKKMERS
+>tr|A6CQK6|A6CQK6_9BACI
+MMNTLLELQNVQTHIDQFHILHDISFEVPKGEVTVLLGRNGAGKTTTLRTIMGLNPATAG
+SIKFKGEEIKKWKPYMVAKSGIGYVPEDQGVFSDLTVGENLRVAIQKEDEKSARMLDWVL
+ELFPDLKKFWNKPGGQLSGGQKQMLAIARAYVNDNELLLIDEPSKGLAPIIVEKVMETIQ
+QMKEKTTIVLVEQNFIMASKIGDSFHIIDDGQTVHKGLMSELKQDKVMMKKYLGIA
+>tr|A6CSE2|A6CSE2_9BACI
+MRGEQVMLSKDKMARINTLAKKAKAKGLTPDEAKEQSKLRKEYLETFRNSMRSTIENTRM
+FDPEGNEVTPEKIREIQKNKKLH
+>tr|A6CJY0|A6CJY0_9BACI
+MFMSSEGRFTSLPVLETERLILRKITMADIDDIYEYGSDLQVSKYVGWPTHESIQDTKEF
+VGHIIKEYESECTGFWGIELKENQKLIGTIDFVSWQPKHKTAEIGYVLSRDYWGRGFTSE
+AAKEVLRFGFNHMELVRIQARCFLENIGSQRVMEKVGMTFEGVIRKGLFMKDKHQDLKLY
+SILAEEFKNQ
+>tr|A6CIC5|A6CIC5_9BACI
+MKSTGIVRKVDELGRVVIPIELRRTLGIAVKDSLEIYMDENRIILQKYKPSMTCDITGEE
+SERNLEIADGKLTLSREGAEKLMKEIQASFRLDN
+>tr|A6CLW7|A6CLW7_9BACI
+MHDVYRDIITIEDVNGNQEQYSVEALFEMKGHSYAMLKSGNGNHTIVMKVEEEGDDQYLV
+NIRNEEDHDSILDAYEIAVEGTENLEAEHK
+>tr|A6CSI7|A6CSI7_9BACI
+MEDLLKNNRQKDKEKGNQDCSGISSSLKDNTAKLRETFNHPVNQDLAVRPFTISVFNRKA
+VLFFMNGMSQRQVIEKELIPNLISPFPNKNTEDKLNLDFFSNCIPIQDIKEECNYENIIS
+NILMGNSALFVDGEDHAYLFGTAGFEKRGVEKPEDEAVLKGPKEAFIESISVNISLIRKQ
+LRSSELMTEYVTIGDKGLSQVAILYLNDVANPNLLEKIKKRLKQINSDEVQNLGLLEQHI
+EERPYSLVPTVLYTERPDRAVSFINEGHIVLLMDSSPSSLILPVTFWSFFHTSEDYYARW
+PYGNFTRLLRLMAIFITIMTPAIYIAVTNYHIEMLPTDLVLAISATREEVPFPAIFEVVM
+LLLAFELIREGGVRVPSPIGPTIGIVGALILGQAAVEANIISPILVIVIAVTGLASFAIP
+NLSFSYMIRLSTYIFLIFGSLWGFLGIGICITLCVGYLSTLTSFDVPFLSPMAPHYKSSK
+DLVVRPPIWKQWLRPLNVFPLEAEKMKKPKGDSNE
+>tr|A6CIV7|A6CIV7_9BACI
+MLNEFIEPLLPKSFDKNEWYILVISTIMVLIFLLIPKRFPSKLTLNLILFNLVLSFVIDH
+LLAMPPHDFYDIMDRPSFELFDLIIYIFAYSFFGYFLLYMYDMLKLNYKRTIVFILTFSI
+IVTGLEAISTYIFEVYKYHEWNLIFSFLSYIILFLLNVLYFRWIVSTPT
+>tr|A6CIA7|A6CIA7_9BACI
+MGISGGLFSNILMQYSMQIGNTIIDLRHVPVILVAYYGGSIPALIAMVMVIIGRFIIGIN
+TSSYLAVILICTITAAAIYISKRKLPKKTKILLILTFSNVIFSVLVSYLLKDPSTLLFLL
+PTYWIISYSAGFISFYIVEYLRRSQALFDRYKSESATDGLTGLNNVRKFDEIFNDLLRTI
+PNNNEKLSLLYLDIDFFKKVNDTYGHQNGDIILKDLGKILQESVRSFDIVSRNGGEEFTV
+ILLDCPVDRAKEISEKIRKAVEDHEFTLTDGQIIHITISIGIACFNDTTDDVTSLIEDAD
+SALYMAKKTGRNRVCVSENIKAVKITY
+>tr|A6CHE0|A6CHE0_9BACI
+MNYVSFPTSSTKDLNNDVGIEALFIHHLIRHTGLMYELWLFYYIIYKGIE
+>tr|A6CLJ2|A6CLJ2_9BACI
+MANLFNRLKDSITSDFHEMLDQKEMKNPIGMLNRYLRQCEAEVEKVRKLIERQYLLKQEF
+TKKYAETQMLADKRKHQADIASKAGETELYEFAISEHEHFAERAVRIQNSLNEAGSGLAD
+LEKKYEEMNHKLKDMYIKRMELMGRENIARANHRMSKVLEASEGYSDKSFSRFEEMEAYL
+ERLEHGMNTSYYRNSLDGRIAQLEKDMKNDETHSIS
+>tr|A6CIY8|A6CIY8_9BACI
+MKKLFVLVVVFLLAACGGIGGSSNLETFDNSKLKEELKEGAFQPRLPTNTPFKVTDTQVI
+HPPNQDTRLMIDFMSYGDNEKIKNTMGLVAVNGKNVESSMLEFEEVEIGEITGQYAVNGA
+EAMILKWSEDGISYSLTYYGKQSEKEVKKEELIDTAESFE
+>tr|A6CRG1|A6CRG1_9BACI
+MKGVLLIDYERARGVERAANIKGAETEDEF
+>tr|A6CN57|A6CN57_9BACI
+MNKGSKDNKIVYFPQLKERLFEKGIDALQNSHLDQAVQFLEQAYEMDPEDGEVGPALVVA
+LYEGKKYQRAKEICRELLLEGQGDYFKVVELYVMILIQLNEHNEVVSTLSALFDEKEVPF
+EKEEHFGKLLSFSKRVLEGKEAPAPGRPDEAQVTEEKTILEGKDLQEQTFILAELVNRNI
+RPYLPELLTALKNEETHPFIGTMIVNVLREHGFNEEVEVKKFGKVMTCIPANLEEVFQTE
+YFTSVAEGIEDLVAQRNPTLLQQVRETFTRHSFLLYPGEFEWPAEKVSIAYLLYGLQLYG
+EDPSDIGLDEEKTDDAVIKSIESFILELEKVTSPVL
+>tr|A6CJK3|A6CJK3_9BACI
+MLDSIDLTKKIEDKNTYKKRLKKLQLQLLGLQRALINEKIGCILVFEGWDAAGKGGAIKR
+TTQNIDPRGFEVHATAAPTSEQKQYHYLQRFWNRMPKYGKIGIFDRSWYGRVLVERVEGF
+ADEDAWKRAYGEINQFEKILSEENYIIIKFWFHISKVEQLKRFNERKMDPLKSWKLTEED
+WRNREKWEQYQEAVEDMINETDKANAPWYIIEGEDKKFARVKTLEIINQTILQKLEERNV
+DVSGYFKRKESKE
+>tr|A6CHZ0|A6CHZ0_9BACI
+MGTDHRAMQAWLEPLFNEVPLKCSNISCSGMNVSEGSDSHYRRIFR
+>tr|A6CNF1|A6CNF1_9BACI
+MWERLINFYPLPRGAHALGQINILHKKAPALKISAGAFGNALGGNRTPILRTGILRAIRC
+TTRASCTTSVRYPIIIQKPVKCNRFSGTEFGFQEDKDYRLIGNRNLFRYWPYSD
+>tr|A6CQI4|A6CQI4_9BACI
+MEVYMGFTVFFFLSWLVISVFSVISSTKYIVENTFTYLITLTISINYSWIIIEEMKLISL
+TQKGLPYTAYLLNRSIILPLVVLISIHYLIRAETFAKKLAVMTAAVLLLVAMSFISQTLG
+ILTYKGWNLGFDGLYYFILLMIAFFSYHTISRISGRVVA
+>tr|A6CRD1|A6CRD1_9BACI
+MAIVDVTVIPIGTETPSVSDYVADVQRILQKHQDEGTISFKLTPMSTLIEGELSDLFRIV
+QEIHEAPFNKGIQRVATNIRIDDRRDKKRKMEDKLASVQSKL
+>tr|A6CRA2|A6CRA2_9BACI
+MEKKLRIAIDGPAAAGKSTVAKIVAEKLSYIYIDTGAMYRSITYKAIQNNVDLNNEDNLH
+ELLLNTKIELEPGPDGQLVYIDGQEVTQEIRQNDVTNSVSIAAKHRLVREEMVKRQQELA
+NEGGVVMDGRDIGTHVIPDAEVKVFLLASVEERAKRRYSENTLKNIPSDLEQLKSEIAHR
+DKLDSEREVSPLKKASDAVEIDTTSLGINEVASKILSLVSERAGSR
+>tr|A6CS95|A6CS95_9BACI
+TLSVSENEDSTFDVILPLLHGPNGEDGTVQGMLELLNLPYVGNGVLASAAGMDKVIMKNL
+YAQAGIPQVNYVWYLKKTWENDPEAAYLKVEKELGYPCFVKPANLGSSVGISKAESREEL
+ILAFKEAFQFDRKIIIEQGVKAREIELGVLGNDEPECSVAGEILPKKDFYDYKAKYEDGD
+TALIIPAEIPADVYEDMKRIAVDSFKALDCSGLVRADFFLTEDGTIYMNEVNTMPGFTPF
+SMFPLLWKHSGVEYPELIERLVKLAQERHAEKQNIKHTM
+>tr|A6CM10|A6CM10_9BACI
+METLYAKEAFYFQVPEFELSL
+>tr|A6CMZ7|A6CMZ7_9BACI
+MKNIKWIFVLYAVLSAVCIMGIGIAISEKSLFLAILAVAAWISVMGYGFKTKKKFREEGK
+L
+>tr|A6CHV8|A6CHV8_9BACI
+MMTINKLTLLALLTTLSAVGGLIKIPAAAGSVALDSLPALLAASVLSGGAGAVVGVFGHM
+ISALLAGMPLGPSHLLIAVEMGLSVWLFGWIFQKNLPVVAAGLFFILNGLIAPIPFYFLI
+GKGFYLSILPSLCIAAFLNLTIAHFAYPNLKKFFRRKAGDMG
+>tr|A6CKE0|A6CKE0_9BACI
+MKLGAFSVSLTVKDLQASKEFYEKLGFSSLGGNVEHNYLIMKNENCIIGLFQGMFDKNIL
+TFNPGWNENAENIDSFTDVRALQKELKEKGIKIMKEVDESTEGPAYFTVEDPDGNAILVD
+QHR
+>tr|A6CMG6|A6CMG6_9BACI
+MYIFLEESIMNNFPLMRIGTLLTVSPRNYLRFITHEKGENMNRESIREEATMKSFVKLRL
+FWHQFMLGYNKAILEGCLDEGIKAKIKNKIEYHRFNLIQD
+>tr|A6CJM1|A6CJM1_9BACI
+MPLFMENMLGKQARKELFTLFREKSTCLQGKIRLFGFFR
+>tr|A6CKV7|A6CKV7_9BACI
+MQKKAVIYRNSLVSKERKELLSLFIEKKTCNQGKNPALGIFPKVTIYMKTALLI
+>tr|A6CND3|A6CND3_9BACI
+MKFMAIKNEGIPLATVAEGILLIGASVEFCGTVDKSAESPIKINNR
+>tr|A6CHJ1|A6CHJ1_9BACI
+MWMDISKSFLYIALELTILFIVVSFIISLLQGVIPYEKIERRLTGKNKAIAASAAVLFAF
+ITPFCSCSTIPIVVNMLKKKMPFGIVMIFLFSSPVLDPTILTIMGVLLGWKVTIIYTLIT
+SVLSIVIGFMLERFGFEKSVKNVVMTGYVETQKKFNIQKSLAETMSLMKSVLPYLLIGAA
+IGAIIHGLVPTETISYLFGGDKWWLIPLAAIVGIPLYIRLSSMVPISQVLIMKGMALGPV
+MAMMISSAGASLPEVILLKSIFKKELVLTFVLSVIGMSTIAGFVFYLI
+>tr|A6CR16|A6CR16_9BACI
+MYRLLVRKGTKIRELVKMKSRQDAWTEEDDLLLAETVLRHVREGSTQLNAFEEVGDKLNR
+TSAACGFRWNAVVRHQYEKALSLAKKQRKQRQRLLGKDQGGKKKLLYQPPAPSYDEIDAM
+SLSMSSEMSDENEEYTSPVMEAMEMMEKSEADTEFAEEPLESKDAGKPAVSETPVQTPIQ
+APAAQRMPVGGKVEMSLEKVIAYLQSLAQSNFHSDILKSENQRLKHENAEIRRKNAELEK
+KIGQLEKNTVTMQEDYETLMQIMNRARKLVLFEDEEGKAPRFKMDRNGNLEKVAE
+>tr|A6CKR0|A6CKR0_9BACI
+MTGETEVTYPLERNPASAAEKAHRPPPGLERKSTIFFHDTYTIKPLKRGFFINFTAFSCP
+SVYLYLNKLYNKIKRLNFLISPKTIFY
+>tr|A6CMU0|A6CMU0_9BACI
+MLFILLTINIIGWLIISFNIFWGLRKIEALEDADGDHKGPLISIIVPARNEAHTIRKSIQ
+SQLDLNYENVEWIIVNDRSTDKTGDEIEQIAACLHLYAEV
+>tr|A6CN83|A6CN83_9BACI
+MKEGDRMKLSNILRNHQGLTLIEVLVSVTILSTVLLVFLNFFFQAGTYTNMNQKKTVAVN
+VARNALMYMESRSFLETKREFSDVNEGRKPPEQHPLKLKICDAGYETFPPDEAVPADCKD
+ISINETPYEVEITSEEVPPEEQEKLDYYIPVIAEVRWMTNDKEFSTTVDGTVKSEDIR
+>tr|A6CTD0|A6CTD0_9BACI
+MKKVVCSVLILLLLLTGCSQQGEKGNLNNVGLLVSETISDQVWGTKGYKGLLKIQSRFKM
+YPIE
+>tr|A6CHX8|A6CHX8_9BACI
+MWKDFLSSIGIGNIKVDTVVENPALTPSSDLKGEVIIEGGMSDQQVNKIVLTVFIRTDDY
+RKDSDFSYHEKELHGCALTDVGVVKAHEEKRIPFKFSLSKDHPLTDEKTETFLRTTVDIP
+QAVDPTDEDSIKIVKDL
+>tr|A6CN81|A6CN81_9BACI
+MFRNQRGNTLITVMITSLVVITVGMGVLSASIGGAKRTEVRETEIDITYDGLRLIDEMTA
+ELSTNLASANFNLKNLSPLDLTTKLNSYFSSQLDQMDTGDSVSCINVVDVTANAPKYLIA
+GEEKQCLGSSLSGLQTFNIDPSLQLTRVLEFVVTVNNPEEVQGKVNRTIRKRVILSPLPG
+FLKYAAGAGNKVIINGSPNIAGNIFSNELVINKNAQYQLTDGDQKEIETPFSSVFGDIYI
+NSSEADYSAVMDYLTAEKFYHNNLPKLKNDSQFISVNFEETFTERVNEIQQEQGFSQVAS
+IEDLPQKLTASIKDDYTFSLADLPGLITRPLEIVDDTLNLQDILNLQLWKRNEDDDDDDD
+DDDDDDDDDDDDDDRDCDDDDDDDNDDRDCDDDHDNSNIDDLLNNLSYKLIDNSLTSTIQ
+VPGDLIISSVSSILDFPGKIIADGDIYIIGNKSITLNDIIATGDINLINLEDTIEVKGNI
+ISAGDITIQGNEGFLFQKDNNSEEPGYMLAGKSLTIQTFDSTSTIVGNLIAGEDLFIHGD
+SNEGSKKEDDEIVFDSVIYAGGEAFISNLNISGNENNTKQLVLLAGDKLTMTRMNEYRNF
+KKSKEPDNFDGVITDEKIDPLKAFFYTNGSAELYGVGSLFHIDGGVFANDTLVINAIRGK
+IDEIEKADLYSTKIEQDNYLSRFNVNYNRDILLQKIDALPKTEVLSLFSDEVSVQ
+>tr|A6CT18|A6CT18_9BACI
+MKKGSAFLDEAPEAYKNIKRRRGNLGWLKIPIKQNIEKQRLPFP
+>tr|A6CM12|A6CM12_9BACI
+MIRTTVVNMNGDVLHNVPVEEVYKDDIKWYWVDFAQPDKEEVKLLHEFFHFHPLAVEDCI
+EDFTERPKLDFYDNYFFLLLHTMDHKSLDFHEVNMFVSDHFIVTFHKRPVKVVEGVWKRA
+SEMKSGNYTTYNIMHEIIDGLVDDFFPIVYKIEDSLNQVEDVLENSNTSEMMEKLFDIRH
+DMSKLRRSLIPMRDLMYRILNSGRMNFLKEHQLYYNDVYDHLLKLVEMLESYREFSSDIR
+DNYLSINSDKMNNIMMTLTVITTIFMPLTFIAGLYGMNFAYMPELDERNAYFIVLSIMGV
+IALGMFAFFVKIGWLNFGMRRKKKRRKIRLR
+>tr|A6CRX2|A6CRX2_9BACI
+MKVDILAFGAHSDDVEIGMGGTLAKYAAAGKKIVICDLTRAEMSSNGTPESREREAEEAA
+TILGVQERRNVGLPDRGLYIKKGYIDEIVRMIRLYKPKVVFAPYEVDRHPDHGNASALVK
+EAYFSAGIKKYGEDSMGEPHKPTALYFYMINGFHNPDFVIDINDYIEIKLKSLKAYQSQF
+ISSEGSVSTPLTEGYLESVEARERMMGKTAGLTFAEGFLAHHTLIVDKDLLGE
+>tr|A6CTY9|A6CTY9_9BACI
+MLKTIRRAVEKDCQSVKDFLERAGISSQGVEETVDNFLIVEKENGEFEGTFGLEIQGHSG
+LLRSLVVKPTMGGEDLFALFQEILQLGKEKQLTVLYLISNKQASVQFFHLLDQTSG
+>tr|A6CP85|A6CP85_9BACI
+MPMTKSGYYEYIIISEHMQNEIRSAGIYAYLKDVRGITVRVSYVH
+>tr|A6CQ75|A6CQ75_9BACI
+MRLSELSGKEIVDFKRAERLGVLGQTDLEFNERTGQINALVIPTGKWMRKQNSEIRVPWH
+HIRTIGSDMIILEVAEEQ
+>tr|A6CK27|A6CK27_9BACI
+MSVHKAITEHSKKQNAIAKEFLQLDQQREYYIDEAVNLCLKGESFSTDKINEVTKRINDE
+ARLGIVPERKYVTVEMVKDYCASLSGKNK
+>tr|A6CSK6|A6CSK6_9BACI
+MKNGIISLGEALIDFIPLDQENISYQKSPGGAPANVSVGLARLGAKSTFLGKVGKDVLGE
+FLKDTLENYGVRTNQMFLTPDTRTGVVFVTNAEDGERSFDFYIDPSADRFLEAAEIDEAD
+FTSHKILHFGSISMISSPAKEATHHAVKLAKENGMLVSYDPNLRLGLWDTEENARETIVT
+MLGKADFLKISEEELEFITGEKELDAGVEEMRKYNIPLMIITMGAEGCYVYTKDGHKHVP
+AMKVRAVDTTGAGDAFVSGMLYRLNELEGDIASLTVDQAGEMASFAAVSGALAASTKGAM
+TALPTLQEVKSHLKGDE
+>tr|A6CK00|A6CK00_9BACI
+MLAIINPKDEYIDLNLLTGCEIGLKWKYLLAVFIGACSYGVLSTVVKLSYLDGVKKNELI
+VAQFFAGWLMITLIYLFKNNRPKISLRKKVLLMVGGIPSGLVGVYYYTSLETVEASFAII
+LLFQFVWMGIGIDSIFTRRLPDKKTTGSIIILLLGTVLSSGISLQGAIDSVDFRGIVFGL
+LAAACFALFIFANARVAPEIGAAQRSFYMVSGSFFIVLLILIPAVMTQGIGSPGSLWIYG
+VILGFFGVFIPPFLFAYGMPHIGSGIGSILGSAELPVTILLSMLILHEIVSGLQWIGILL
+ILMAIILSNAPYKIRQADQTMG
+>tr|A6CRF0|A6CRF0_9BACI
+MDNSAEGASKFLVNLSGKKTLAGRISGECFSFTKPPKKKSHQMVKLSGERTEDLLTRGCS
+VLFCVLFE
+>tr|A6CUB8|A6CUB8_9BACI
+MKRKPFLFILMAAALLFLFFIALFGVTFGIMFIFANLFFAAFLYLSYPLIEKRIWRHIHR
+ALLIGYVLFLMSFTAVQVLLLMEMGSEAPDDIQQIIILGAGLKGEEISQTLETRLEAGVE
+YLRKNPEIPVIVSGGQGEGEDIPESTAMSRYLVSHGISSNRITEEDRSTTTFENLLNSKR
+ILERKGAEDDRILIITSDYHVFRAKLTGKKIGLDCSGLGGESGFFIKINYMIREYFAVVK
+AVVIG
+>tr|A6CI17|A6CI17_9BACI
+MKWYIPESKRKIFSKREKRRMNMEYVKELRKIVGTRPLILPGAVVLIFNHNNEVLLQHRT
+DGGWGLPGGLMELGESLEDTARREVKEETGLTIGGLQLVNIFSGPDYYFKVPSNGDELYS
+VTAVYFTREANGELIINRDESVDLEYYSLDDLPEGLIDEYRGYIKAYIEKSLTVERQS
+>tr|A6CM64|A6CM64_9BACI
+MKERTSRSWAVEYRIDMLKNGSKERGSVRVIGVLGLNIMSLKEYDEESLDIPGKIGTLT
+>tr|A6CQU9|A6CQU9_9BACI
+MSKNKKMFEVEENESISSCLDRMKQEGYAPVKRMEKPVFHEEKKNGQVEYVPARQKIIFE
+GRKID
+>tr|A6CJF0|A6CJF0_9BACI
+MEKFLEGQTIYLRYFQKEDTQKILKALSYPEIRKLTGLQKFLTPQKIEKAYEAFALDDSR
+VDLVIALKETNEVIGDLALNEIDNLNRNANVRIALHDPKYFGKGYGTEALRLVLEFGFRT
+LNLYRIGLNVYSFNARAKKSYEKLGFKQEGIIRSELFYDGEFHDNIIMGVLRDEFLKAAD
+EK
+>tr|A6CPP8|A6CPP8_9BACI
+MALTAGIVGLPNVGKSTLFNAITKAGAESANYPFCTIDPNVGIVEVPDYRLDKLTELVQP
+KKTVPTAFEFTDIAGIVKGASKGEGLGNKFLSHIRQVDAICQVVRCFADDNITHVSGKVN
+PLDDIEVINLELILADLESVDKRIARVQKLAKQKDKEAAYEHEILLKLKEAFEEGRPART
+VEFTEEQMKVVKGLHLLTIKPVLYVANVSEDDIADPSDNEYVQQVREFAKGDNAEVIVVC
+AKIESEIAELDDEEKAMFLEELGIEESGLDQLIRAAYDLLGLATYFTAGVQEVRAWTFRT
+GMKAPECAGIIHTDFEKGFIRAETVSYDDLVANGTMGAAREAGKVRLEGKEYIVKDGDVI
+HFRFNV
+>tr|A6CR84|A6CR84_9BACI
+MNSHIAKLDEWTDLATKQMLQNVIERKQKWDKLKRFHLIMLWGSVFFAFILIYYFYNKVI
+GPYSYSFEAVFSAFFSKESHLYAFLFITGMFGAVKVLYDKKEKAEKDYHALRSEIIDRSK
+DLWKEDSWKKRHRVYELMKKEWDINLYHVSK
+>tr|A6CI56|A6CI56_9BACI
+MINPKNNGWEYLDFLSMKEEDQDRFHPIAGSFAVIKCEGKFLLGYNTWRKQWELPAGKRE
+LDEAAAECAWRELYEETGQIPENLKFQGLMKVKKEDGTLKYNPVFSGVMQELQPFKKNDE
+TSEVMLWDMEEGIGIIDEVDYWLLKSVVERGW
+>tr|A6CK65|A6CK65_9BACI
+MFGKGEWDMKHKWLEWAQKIQSISQSGLAFSKDVYDIERYEELRDLSAEIMAEYTDVEKE
+TVKGLFALEKGYQTPKADVRGVVFEDNKILLVKEKNNNKWSLPGGFCDVGLSPAENVIKE
+IKEESGYEVKYKKLLALLDYYKHPHPPQPFHYYKIFIQCELIGGNPEAGLETSEIGFFDE
+NQLPELSVDRNTESQIRLLFEFLRNPEKETLCD
+>tr|A6CPU1|A6CPU1_9BACI
+MVSPVIKSGGALFSPDRQMFLSEKKGAFLLFAEGYLTPRGWALELDVPLIPQEVTHLPLQ
+SPYTQN
+>tr|A6CM14|A6CM14_9BACI
+MSVVSYFNLKPNECNPWRVMNLAKRTKKNDADQKNKKGFDSAVINQEFAHEFGSAAANKA
+HKEKAKKEKASKNNGKYKGQ
+>tr|A6CIV2|A6CIV2_9BACI
+MMYMQKEKLVLRIKSVGYRHIPNPYGEYDENKILNPQTYQAYVDVKDIPDNFPMETNPRE
+QKLNTKTAKSIKDSLIDESDLNFQLKNRGILLTAESVTYDSHKKEMVITMSDMTYHGNVD
+GGHTYKLIKQHKNDVNGPKYVKIEVITNSEDIFQELAAARNTSVQVQDKSIAELENKFFL
+LKDSMPRNIVNEIAFKENDIKRIPVENIIAILSCFDISAYGDNNQPVSAYSAKGTMIKRY
+LKYFKEYEEVKQYGNPFHAMKNIIPSILDLYDHLECNISNYYVKGSKNGRFGAVKGVKTG
+NLKSELYGNKIDHGTPKGLILPIVAAFRTLVKEDAKTGYYTWKADPIKYLEILGPDLVYS
+TVERSRTLGNNPNAAGKDAQHWKSLYFEVNNKYLNDRLAELDA
+>tr|A6CK54|A6CK54_9BACI
+MDNNSKHFESLTAEQQQELLEKYDPESSTRKFKSGIVKWIVFFGLLAFSLFQLTASIFQF
+IPRQLLLSIHLGFALSLIFLLFPASKKRSRKDKVAWYDIILALLSIVVGSYWTIMQDDIV
+SRIGIMTTADFTVGIIAVVLVLEATRRAVGLPITIIAGSFLLYMYYGRIMPGFLAHRGYD
+IDAIVKTMFFTSEGILGTPLYVSATFIFLFLLFGAFLVKTGVGQYFNDLAVSLAGKRTGG
+PAKVAIFSSALQGTISGSSVANVVTSGSFTIPMMKKLGYRKEFAGGVEAAASTGGQLMPP
+IMGAAAFLMVEFIGGVSYWEIAKAAAIPALLYFTGIWIMTHFEAKRIGLRGLTDEEMPDR
+KEVFKKIYLLLPILTVIILLFSGMSVMRAALWSIVATIAISAIRKDTRIDWRDAVDALVD
+GARTALSVAAATAAAGIIVGVVTKTGLGLTMANGLVDLAGDLTNSAQGKLLLTLFFTMVA
+SIILGMGSPTTANYVITSTIAAPAIILLGAPELAAHLFVFYFGIIADITPPVALAAFAAA
+GVSGGEPIRTGLNSAKLAIAAFIIPYMFVLSPELLMIDTTIPYLLWVVFTAITGMMAIGA
+AMIGFWYRKVTAIERVLCLAAGIMLIYPEGMTDIFGLILFVIMLALQFFIKGKSSGDKEP
+ATA
+>tr|A6CH97|A6CH97_9BACI
+MAVSDAMVFLRKIIPDTDTLGGNSLNKLQTIFQERINQLNDKLLEVGRVTSQQKGVYMLV
+SLYGEYQAKLTGKFHYQAQTTDELPAVGDWVAFKALDNRQAMIEKVLPRNSKFSRKKAGD
+EAEEQIIAANIDYLFIVSSLNGDLNLNRLERYLLLCWESGASPVIILSKMDLCENLPEKL
+SEVETIAMGVPVFPVSSLDKRGMDQLDPYLSEGKTVALVGSSGVGKSTLLNSLTGKSLQA
+VKEIREKDSKGKHTTTHREMFC
+>tr|A6CMP0|A6CMP0_9BACI
+MWNSLSSAWKECFEQAWNSYCSGSFPIGAAITDENGDVISIGRNKVYEKVIEEGQVCNNK
+IAHAEINAILKINNLETNTNRKKYSIYSTMEPCALCFGAIVMSSIKNVHFAAGDGLAGAT
+NLINGNDYIAGKNILINGPFKDLEIAQLVLKTDFVLRRGHDTERILTPWRIDCPTGITIG
+EEWFKNGTLQNAKESGKPFGEIFDEILQQAGIMATTR
+>tr|A6CPB2|A6CPB2_9BACI
+MSSFKKRLDHLSPAQLIVVFYFVAVGISILLLSLPITAKPGVDLSFLDIMFTAVSAISVT
+GLTVIQIVDSFSTAGIFILIFILQIGGIGIMTLGTFLWLILGKKIGLKERRLIMTDQNQS
+NLAGLVKLMKQILYIILLIELMGALILGTYFLKYYPNWQDAYLHGIFASVSATTNGGFDI
+TGQSLIPYADDYFVQCVNIILITLGAIGFPVLIELKDFLLKKNDQRVRFHFSLYTKLTTV
+TFFGLMIVGTILILVIEYNRFFDGLSWHKSFFYAFFQSTTTRSGGLSTMDVSQFSEPTLI
+IICMLMFIGASPSSVGGGIRTTTFAINVLFLINFARGRSSIKVFRRELDQTDVTKSLAVT
+LLASFMCAGSVIFLSITESSFSMIEILFEVCSAFGTVGLSMGITPDLSVVGKILIMCLMF
+IGRIGLLTFLIILGIKQKETLYNYPKERVIIG
+>tr|A6CQG5|A6CQG5_9BACI
+MELTTDNQVQEAIRLLKELRERHQSVSFEEYEEKVLDTLEAKGDVTAEQLDNMLILAAVE
+RISSQEPEWTYVAADIYLRKLYRASAESRGTDPEKGYGSFYEMMAQLEEMGIYDTRLLQK
+YSRDEIDSLERIINPERDGLFTYIGIVTLAERYLAKSHAGHFIELPQERFMIIAMTLLAD
+EPEEKRLTLIQEAYWALSNLYMTVATPTLANAGKSYGQLSSCFIDTVEDDLRSIYDSNTD
+VSTLSKNGGGIGIYLGKIRSRGSDIKGFKGVSSGIIPWMKQLNNTAVSVDQLGQRQGAIA
+VYLDVWHKDIFPFLDSKLNNGDERQRTHDLFTGVCLPDLFMEQVEKRGDWYLFDPHEVRK
+VMGFSLEDHYDEQPGQGSFREKYWACVFHPELSHQTVPAIELFKSIMISQLETGTPYMFY
+RDTVNRFNANQHKGMIYCSNLCTEITQNMSATVMEEERVEDGTIITYKKPGDYVVCNLSS
+LSLAKAVQDGVLKEVISIAVRMLDNVIDINDIPVLQAQLTNERYRGIGLGTYGWHHLLAL
+KGIKWESEEALEYCDSLYEDIAFFTIKASAALAKEKGAYPYFTGSEWAAGSYFEKRDYTS
+PRWLELKEEVKEHGVRNGYLMAVAPSSSTSLIAGSTASIDPVFRLEYSEEKKDYKIPVTA
+PDLSPHTTWYYKTAYNIDQHWSIKQNAKRQRHIDQSISFNLYVRNDIKAKALLDIHLHAW
+KAGLKTTYYVRSTSNAEIDDCESCHS
+>tr|A6CU60|A6CU60_9BACI
+EYQGRLPLYHMDVYRLDDSFEDLGFDEYFTGGGVTVIEWAHLIKEQLPDERLAVRILRKS
+DQERTITLEPTGNRYELLCKEIFE
+>tr|A6CL26|A6CL26_9BACI
+MEAFMKRLTDHLIVISFDCLSSLDFPAIKDMPNFKDLLVKGSHCPNVKSIYPSVTYPCHA
+TIVTGNFPNKHGVINNTHLQPGSSSPDWYWHRHHVKGTTLYDEAKKAGMTTAALLWPVTA
+KAEIDYNMPEIFANRPWHHQIAVSLWNGSTSFQLEMNRRFGHIRNGLHQPQLDDFVLESA
+VETIRKKKPNLMLIHFTDLDSHRHYHGFSSEEARQALRRHDQRLGRITAALREAGIYENS
+TIVALGDHSALDESKAIKPNVLLKEEGLVSVNSQGRVTDWKVYCKSCDGSAYIYLKDPND
+HQSLQKAEQILNKLQKDEKNGIERILTGKEAGERGADETCAFMIEASLGYYITEGIQGKY
+LDDITPEDVKTGKYTYASHGYSPEKPDYHTIFMAAGKGIKEGAVIPSMHLTDEGPTFARL
+LGLHLGDTDGEAVQDLFQL
+>tr|A6CTE1|A6CTE1_9BACI
+MKKLLLLMAALLLVLAGCGQNNEQAQQEEPAKDQEQEEVTLKVASLIPPMTEILELVKPK
+LAEENINLEMVVLGDNVQPNTALASEEVDANFFQHVPYMEEFNRNNDANLVPVTPIYFAN
+YGVYSKEYASMDELPEGSVIAIANDVSNIDRSLSLLAQHGVITLKEKEDVYYTQADIIEN
+PKNYQFEEVDLLMLARMYDDADAVVMTPAYAAPLGLTPKSDGLLTEGIENDFAITLVARE
+DNVDSEPIQKLAEAMTSEEVRTFLEENYDETAIPAFE
+>tr|A6CR49|A6CR49_9BACI
+EAHRPPRGVAHLEWKSTTLLQSNKEKINFLNPLKELIILFLKNSPL
+>tr|A6CHV3|A6CHV3_9BACI
+MAAEVIFVCGGVRSGKSSFAESKAAALSKMRSGTLHYIACGKAIDEEMKQRIDRHQQDRK
+NSNAGWTTWEQATSLGEIAENFSDKDIILVDCITTWMTNEIYLENIPAEDVTPNVMRDIN
+KVAAKAGTLFLVSNDVFCEPLSENEWVKRFTSILGTLHQEIVSMADTAYSVKHGVAIVKK
+EKGKTC
+>tr|A6CRP8|A6CRP8_9BACI
+MKRGGKDLNLETLPLKVNEMSNTGYGKRAAALR
+>tr|A6CRR2|A6CRR2_9BACI
+MNQILVRDDKIWTISAGDDQIPVQQKNWTNYKRKINQLQGLSYSLTTKIDPIPYTVSKLP
+IQKRGAIQ
+>tr|A6CIT9|A6CIT9_9BACI
+MNTITLLNSFYREDVISDLICHLINHESEFASWFAKHICEVSNTNAEFVARTRIGLGRGI
+GTPDLVIERRQNAETDLIIVIENKLGTLEGEEQTNRYASEEGVKKLRTALQAGPDTPMVY
+LFLTLDPFTPAANPSFKKKDFQEFIDVNWDEMIRDEAARKVISDYTALLKEFYEPITTTE
+TTDVVSTKYKEINSLQRKLIWIKFLQSLQHSLPGKLSMTFGEAGGFGRNATVFLFSKKDW
+VRNNFDGNKLNADSIPSFSSCRSTC
+>tr|A6CQX8|A6CQX8_9BACI
+GISLIADYFIICHGNSDKQVQAIARELKEKAEENGQDVKRMEGFDEARWVLVDMGDVVAH
+VFHREERGYYKLERLWGDAPLVEVSSEIEQ
+>tr|A6CJS9|A6CJS9_9BACI
+MLNVRLKLRNRRNLMMIFLLGLIIILLVFLKSGKKKRQFLISGVIVIVLLMQIPFFQRAA
+AFLTTQAYVRTQHYEKGLKFQHVEYSSAFGNYFVQYKSSHGELYNFQVSSKRFPISVVYD
+PFAPRP
+>tr|A6CQ48|A6CQ48_9BACI
+MRGLKGGGNEQTEVKIHLKTHIQHGDEKDSFELISNGRYYEKGDSFFLKYDEVQEEGTIH
+TIFKMKREEEALILRSGAVKMRMVFKEDEEHAGSYESQLGTLMITTRTSKLTHTANRTKN
+DGEINLSYQLYMQGSPVGKYEMDISYKEEGN
+>tr|A6CIQ7|A6CIQ7_9BACI
+MDEYHYNKLPIPEKHQRGAIPMKYSLFGGMIKIPIGPGSKRKILKSVVEAHMEAFLEHGI
+FPSWENYESFPKHRDNIEKFALTSNDIRMLKHFWVDRQISEMEKASRWFHSFERSSDEND
+NVHKLIELWVEDQGKGDFLKKAHELYSK
+>tr|A6CK38|A6CK38_9BACI
+MRPLKLTMQAFGPYPSAETIDFQLLGHRTMFVISGKTGAGKTTIFDGISFAIYGKASGED
+RHGNDLRSQFANDDDVTEVSLTFSLRGKIYLIIRSPQQEKKKARGEGFTTVNAKAELYAI
+NENGEKQLLAANVRDVDEKIKEIIQLDANQFRQILMIPQGEFRKLLTSDSKDKEGILQRL
+FHTEFYKIIQDKLKEESDLLKRDVEKAIEDRTRRLLGIHPEQNEELRELLLKEPLNDHMI
+LEKLQLHIEMMEENLSQLNHTYEEKHKERDQLQAQLVQAQKLVEQFEKRRALREEKRSLE
+KRQEEIDKLKIQIKKAYQADKLVQQDEYCRRLSRELKTVERELEKLLAEQQELADKMSKA
+RKNWEEEQQKEEARNEAAKKVNTLEGLKEDVYSLGQLEDEVKDLDIKRNQLKNEISRKSV
+ELNSKKVLLNEQERKKVNLEELRLKSFELEKEVTQLQSEEKLFTQLQKLQKETVEVERIL
+ANRKEQYHSASQEVEDARSTLIWLEDRWNKAQAGILASKLVDKDPCPVCGSEHHPNLAHL
+QDDLPDEKDIKAAKEMVMVKEKHENATSRAFYEIEAKYNAVHTQKQEALEEIIQVREVFK
+EEEVDLELTSIRNNLENKNIQLKGFSLQLKELNSIVERIEAAKTGITEQEERLEKLKGDE
+LGVSEAFHAKKGALDSRRTAIPLEIRTREKFNAALKTAQDKLNTLKASYEKAQELYNRLL
+KEVSVNEVQVKDKQQSASRLQAEMEEERNKFLQILEEQGFENYKAFQEARRAESEISLME
+KKVTSYGEEVRSVHDRLEELEKALQDTEEPQLEKLQLIFTEINEELKKLNEEYNSLKMKI
+SENQSIHEYVCNLNKQMKDLEERYSIAGHLSEMARGQNAHRLTFERYVLASFLEDILLVA
+NDRLMKMTSGRYRLIRKRDRSKGNVQSGLELLVFDQYTGQERHVKTLSGGESFKAALSLA
+LGLADVVQQYAGGVSLATMFIDEGFGTLDPESLDHAIEALMDIQSSGRLVGLISHVPELK
+ERIDARLEVIASQHGSTTEFHFLA
+>tr|A6CMY3|A6CMY3_9BACI
+MNFQKTNIVEKADLGEKQLSPLISLY
+>tr|A6CSE8|A6CSE8_9BACI
+MMPEKCFYSYMNRGQLKNDVVKKINSYIKRVTMRNDAVKNASYQT
+>tr|A6CJK5|A6CJK5_9BACI
+MNVKTVNLGYLFGISLILASVFYFFASNWQGVDRLTKVSMSAGVLLIFYLFSFILAKVLT
+NKLFLSRWVLLCAGISFGISVGLIGQIYNSHADSYLLFAVWLIPILLLSIITKYQPFYLL
+GYLLFHLTYYFYLFPSSYSIKWTETQLFTLVLSITAANASLFFFSLKKNWNLSLIKYVSF
+AVFQFLLIYTAFSESFPTYGSLMNFIFLANAVFGLWASLKLVQRKRLAAGYIFSLSVYLL
+SKGFELIIHYAGEALFVFLLIFSIGLVVGAIKSAKFLNGVVKENPILQKAITVSVIMVAT
+IFSVISITGLVTLAFWGFPAIFLFYFALIILILPSLLVPLSVPVPEILKFVVLSTGYTIA
+MGASLFSDHLVMKMLLILAAVIGVKLSQESGLKVIQFIVLNAAIVSLIAEFIQSYQWIAI
+CMVIFNGAFYFFQKKWIGIRHTAILAAFSYYLSLTILDTSLQALYIFLNISYFILITAAV
+IFFKKKNSHYEFTLALIFWFLFIGYKYYDLMWKLIHKSILFLALGILILVVTLYLDNHKD
+IASQAPNFVLGKWKALLVVLLLQSGFLGYQTVSNEILLRDGETVKLELAPIDPRSLVQGD
+YVRLNYQISEQRSLRDAGFTGEKIQLVLRPEGEIYIYSGYYNQRGKWNKEYEKQEKDILI
+NGVIGGDGRIIFGIESYFVEEGTGLEVENAAEFAIVKVAENGNALLVSLE
+>tr|A6CMF7|A6CMF7_9BACI
+MPIIEHQLFIKAPIEICFDLARNVDIHTQTTSQTKEKAVGGVTKGLLEEGDMVTWEAVHF
+GIKQRLTAKVTFMERPNKFVDIMVKGAFYSFEHTHQFIEEAGGTHMIDRFQYKSPFGPLG
+ILADKLFLENYMRNFIASRANELKKIAETGAGSPG
+>tr|A6CHY8|A6CHY8_9BACI
+MIEVRTSKVSDGELNRGVFATRDIKKGELLHEAPVLPYPNKEHEHIEKTLLADYAFEYGI
+NHSALLLGYGMLFNHSYEPNATYEINFPNFTFDFYAYKDIKAGEEIMINYNGEVDDNEPL
+WFNK
+>tr|A6CKA1|A6CKA1_9BACI
+MCLLTPLLICRRGVFIIFSGSLNLLNKEGINMTKTLIKAPFRADHVGSLLRPERIHRARK
+EFQERAISSQELHEIETEEIKRIVDKQIEVGLKAVTDGEFRRRFWHTDFLEHLNGVEGYI
+PDHGFQFKGEETERYDVRVTGKVSFNPDHPHIKDFIEFKEIVGDRAIAKQTIPSPNQLFN
+AGIRNLEIYPDIDEYASDVIQTYRDAIQAFYDAGCRYLQLDDVYIAGLNAPKIPFNDSGY
+SREELIDLALHVVNSVLEDKPEDLIVTTHMCRGNYRSKWAFEGSYAKIAPTLFAKEKVNG
+FFLEYDDDRSGDFKPLEYIPNGGPQVVLGLFTSKHGELEEKENIKARVEEATQYVPLEQL
+CISPQCGFASTHHGNILTEEEQWEKLKYIVDVSKEIWS
+>tr|A6CQ95|A6CQ95_9BACI
+MSNTINSNLLLSSLQQKQREGGKDVLGKDDFMKILMTQLQNQDPLNPMQDKDFIAQMATF
+STLEQITNLSKSMETFIEAQGQNNLIAYNQFVGKEITWHKLEESSEGRTEIKEGKGIVSS
+VRFQDNEVQFIMENGTILAPGNVSQVNHSDHSYGGNSLVNASSLIGRTVYWKNEGEELHS
+AVTSVSKKDGSLWFHLENGDKIKEDSIMKIE
+>tr|A6CQR3|A6CQR3_9BACI
+MTWEELNEIQPVVLQMLANSIKRDRVAHAYLFEGERGTRKKEIAILFAKSLLCEHPVNGI
+ACDQCNNCKRINNKNHPDVHIIEPDGLSIKKDQIKALQSEFSKTGVESKRKIYILSHADK
+MTPNAANSLLKFLEEPSSETAAILMTEQVHRILPTIMSRCQVVSFQPLPRELLKERLISE
+EVNRNIAALTASLTNNYQEAFELSSDEWFAQARIIVLKLYEVLRKSPFQAMISLQEDFNE
+HFKEKHQIDRALDLLLLIYKDLLYIQIDQGDKLVYPDKRQEWESDALQVSTNSLSDKMTA
+VLEAKRKLNANMNTQLLMEQLVLKLQG
+>tr|A6CH86|A6CH86_9BACI
+MEHNTNDSKMGNKVEDRLSSMSEDKKEDILSSFDKFTDYLGDKVDKADKLGLNEEQKARA
+AQKVGDYLANHEEPKNREEKLLYELWKAGNKEEQHMLAHMLVKLVS
+>tr|A6CLZ8|A6CLZ8_9BACI
+MFSLYSKDFLEANIADFIIPSEKVAHVQKTNTLEHALLVLTKSGYSSIPVLDPQFRLQGL
+ISSSLITDSILGLEHIEFDKLDQKKVEEVMEVDFPTISLQTQFKKALELLIDRPFLCVVD
+DEGFFEGIMTRRVILKQLNRNLHNEA
+>tr|A6CMA3|A6CMA3_9BACI
+MDEEQRYFELKLELLFRKLEEMDKAAYKYNQKSDYKTVPTNLYYKRQKRLKKGV
+>tr|A6CTJ3|A6CTJ3_9BACI
+MAAVENVELQKLVEDISSENFGKPFRHSAFFNKRLRTTGGRYMLRSHNIEINIKYLEEHG
+MEELIGIIKHELCHYHLHIEGKGYKHRDKDFRELMTQVGAPRHCNPIQSSMKKKHKTLLY
+RCTGCSLIYRRRRRINTDRYVCGKCRGKLKLEKTSSE
+>tr|A6CLS3|A6CLS3_9BACI
+MEAYNTINLQSLIVKKEGKRLPHGRRSTFGGIDRFTSPDSTPCTQVFHITLSKKEKRATS
+ALEDLHSD
+>tr|A6CQU1|A6CQU1_9BACI
+MLAEIKGLNEECGVFGIWGSSNAAQLTYYGLHSLQHRGQEGAGIVVTDGEKLTGVKGEGL
+VTEVFQQGAIEGLNGKAAIGHVRYATAGGGGYENVQPLLFHSGNGSLALAHNGNLVNANA
+LKHQLESQGSIFQTSSDTEVLAHLIKRSGFPTLKDRVKNALTMLKGAYAFVIMTETEMLV
+ALDPNGLRPLSLGRIGDSYCVASETCAFDITGAEFIRDVEPGELLIINDEGISSERFTIS
+CGTSVCTMEYVYFSRPDSNIHGINVHSARKRMGMQLAKEAPIEADVVTGVPDSSISSAIG
+YAEASGIPYEMGLIKNRYVGRTFIQPSQSLREQGVKMKLSPVRGVVEGKRVVMVDDSIVR
+GTTSRRIVTMLKEAGATEVHVVISSPPIKNPCYYGIDTSTHEELIASTRSVEEIREIIGA
+DSLTFLSTEGMVEAVGRNDLSENRGHCLACFTGKYPTEIYPDTLHPYEKELVR
+>tr|A6CSL2|A6CSL2_9BACI
+MKFKKIAGLTATAILGASILAGCGGGDEASDGKVKLELFSNKSESINTYKDLIKKFESEN
+PDIDIELNAPPEAETVLKSRLTKNDLPDIMSIGGNATYGELARAGVLNDFSDSEITDKIQ
+PAYLEMIGKLVGDEKEGVYGIPYATNANAVIYNKAKFEELGVEIPKTWDEFIAIAEKAKA
+AGETPIYFTLKDAWTAMIPWNSIAANAAPEDFASQKNAGEASFQEDYQDVAEKMLTLLEY
+GHKDNMGKAYGDGNTAFAKGESVMYLQGNWAIPEIKKANPDIELGVFAMPVTNEPDQNRL
+VSGVDVLLTTTESTEHPEEAQKFIDFMIQEENAKSYIDEQAAFSAIEGVYQEDPVMEGIK
+TNFETGAITSFPDHYYPAGMGAENLIQEFLIKKDTDKFLNKIDKEWEKVQNR
+>tr|A6CSE4|A6CSE4_9BACI
+NVSFEAVAAGKTVAEGGEVVGVLLGSSVSALGNELIQYGADRVVVVEDEKLSQYTSDGYS
+QALMAVIDQESPEGIIFGHTALGKDLSPKIASKLGSGLISDATELEEAGGNLVFTRPIFS
+GKAFEKKIVTDGLIFATIRPNNIEPLEKDESRSGDVSSVSAEIKDLRTIIKDVVRKASEG
+VDLSEAKVVIAGGRGVKSTDGFEPLKELADVLGGAVGASRGACDADYCDYSLQIGQTGKV
+VTPDLYIACGISGAIQHLAGMSNSKVIVAINKDPEASIFNVADYGIVGDLFEVVPMLTEE
+FKKLKVASS
+>tr|A6CH77|A6CH77_9BACI
+MRMLTVENITKSYGEKTLFKDIGFTITEKERAGLIGVNGTGKSSLLKIIAGLDDADSGDM
+TKPGDYVISYLDQEPELNPELTVISQVFQSDAAVIKVMREYETALLQLEADSENERNQEK
+LFEAQRQMEILNAWDANANAKAILTKLGISQFSKKVGELSGGQKKRVALAQVLIETPDLL
+ILDEPTNHLDYQSIKWLEDYLSRYQGAVLLVTHDRYFLDRVTNRIFELDGGALYSYKGNY
+QAFIEAKAERNDQEKQMAEKQKNLYRRELAWMRRGAKARTTKQKARIQRFENLEENMSSS
+SSNDGIDMSLSGSRLGKQVFEFKDASKSFPGQTILDQFNYLIKPGDRIGIVGRNGSGKST
+FLNILAGQDELDSGELNQGQTVKIAYYTQGHEEMDENKRMIEYIRESGDVITTDSGDQIS
+AASMLERFLFPMHSHGTLIRKLSGGEKRRLFLLKLLMTKPNVLLLDEPTNDLDTETLTVL
+EDYISDFSGVVITVSHDRYFLDKTAAQLLVFEGNGHIGTYLGEYSEYLTQKAEETTDVKA
+KKSVEKQAPVKSDSSEKKKRMSYNEKREWETIDDKIAEIEEKLEAAQSELQTVGSDFEKA
+QKLMEQIDEYNTLLETLIERWSYLSEIAEG
+>tr|A6CLA2|A6CLA2_9BACI
+MQTKDVDTLYFDESGSIPNNPDLPVLFYKGVFKDDPEKAEKVFNDHNWRNSWQGGVFDYH
+HFHSNTHEVLGVVSGTAELIVGGESGKKVEVQPGDVVVLPAGTGHKRLTASQDFTVAGAY
+PDGKDHNLKTDENNERTQLLIEIKEVDLPSQDPVYGNSGPLLSLWKEEQ
+>tr|A6CT61|A6CT61_9BACI
+MPEIQQMFIRHRKYIFSLLSIYVLGWGFTEYQSIFLGLILGTGISLFNHWVMVKRTVKFG
+DKVVAGEKVRSLGTFSRMAGAAFAVIVAMEYPDTFHLLSVVIGLMTSYLVIMIDYLIQQL
+QLHK
+>tr|A6CLB3|A6CLB3_9BACI
+MGTLWYNGTFYTMTEEGAAADAVFTENGVIKGVGSVQEMESRFADAVAQRVDMQGNTVFP
+GFVDSHMHLIGHGETLIRLDLSKMNTKAEVLKSVKEKAENTPEGIWVIGEGFNENLWENS
+EVITRQEIDEVVSDKPVLLKRICRHAMVANSKALELAGIYESTENPAGGVIERNEKGELN
+GVLKDTAQDILVDALPSPTGEYLEEALTKAIENCWRLGLVGGHTEDLSYYGNFEKTYKTF
+LNVIEEGGKKFRSHLLVHQAVIDDWKEAGFTFMDGTPLVEFGAMKIFADGALGGRTALLS
+HPYSDDPSTNGVAIHSQEKLTELVKKAREYQLPIAVHTIGDQAFENVLDVVEEYPTYNGR
+RDRFIHAQLLRRELIDRIKGLPLILDIQPRFVPSDFPWVIERVGEENMEYNYAWKTLLDE
+GIHCAGGSDAPIEPVDPLLGIHAAVTRTNPLDPEKTVYMEEQRLSMYEAVSLFTKGSAYA
+CHHEHDHGMIKEGYKADFTVLPKDLFQVDADELLDMEVEMTVVDETVVYKKA
+>tr|A6CHR6|A6CHR6_9BACI
+MEYFVYRRHVQPIKAVYQDQQYSFESLERAYQHSLLFPLLTVKIIMIPHFLGLAVPATVL
+AFLHYEGSAQHPL
+>tr|A6CJC2|A6CJC2_9BACI
+MYEKFRYPHKKDDRKKDFCDKRHDKKDDDSLLKQFQNPKQVAIGYVDNGAIAIDRSNASD
+NPDRSAVAQDWSNASDNPTNSAVAQGDSNASDNPTNSAVSLDNSDASDNPTNSAVAQGDS
+NASDNPTNSAVALEDSNASDNPNYSDVDQKKIK
+>tr|A6CK07|A6CK07_9BACI
+MKFLLSFLIAVQMNTAPIQLELVHEGKTIASINRSEYETMPFPEYIINQQQLDALISDLN
+QHLSRQPINAKLDDNNQIISEHNGKIVDKEKFKSLFYSAFYKNKPVTLDIPFKTVYPKVD
+SELLEKINRKRISHYVTYFNSRNKDRVHNIKLASQAINNYVVFPGETFSFNRVVGKRTVS
+KGYLPAPVIVKGELSEGVGGGICQVSSTLFNAVDRAGVKIMERYSHSRRVPYVPPKRDAT
+VSWYGPDFTFKNQHNQPLLIRSRVVGGQMIIMVFSSEDIDYNRKNVPSVWQYQAGN
+>tr|A6CPD0|A6CPD0_9BACI
+MFKNILLAYDNSDGSRKALEKAVELLAHNKEANLTVVHVTDGSEYKEEQGSEQFTRSLDV
+VNTGLGSLEAQNLPHSYDNKIEDRHPIRKNKNGDQFKTVREDLESRGIHANYELLTGSEA
+DSICNYANENNVDIIVAGNSNKKGIKKWFLGSVSEKISHNCSSSILIVK
+>tr|A6CTX6|A6CTX6_9BACI
+MEYNDQVKNRIKRMEGQLRGILKMMEEETDCNEVTTQLSAVRSAVDRTTGVIVSSNLVEC
+VLETENKGENTNELIKEAVNLLVKSR
+>tr|A6CHL9|A6CHL9_9BACI
+MATTIRKHQTEYCDSEYDRLKKVIVCQPRYMKIEEVINETQKHFLDKNIDIQTALKQHDD
+FVKAMKDNGTEVIQLTPDQKLPEQVFTRDIGFTIGDTVYVSEMGSDIRAGEEEVLINWLE
+SNGHKYKKIDFSSIEGGDVIVDKNKVFVGVSHRTNSGAIDQLNELADGYSVIPVPFQKKY
+LHLDCVFNILSPQEALVFSPAFKQKELQMLGSYYNLIEVDDKEQFTMGTNVLSIGDKKVL
+SLPQNKAVNKKLREHGYKVIEVDFSEIIKSGGSFRCCSMPVLRK
+>tr|A6CNB8|A6CNB8_9BACI
+MGGRVPKGSYQILGVTGPTILVIPEYNAVVVKMYNKRYNYGADNYLYYLREFSNLVADCL
+KSESFR
+>tr|A6CHX2|A6CHX2_9BACI
+MKEYYVVPNKDETGWYVKIEDVAPTTLYNGRSEAIDEAEKLAKENQPAKVLIEKENHEVI
+SEKTFS
+>tr|A6CNH2|A6CNH2_9BACI
+MELVVLTLIFAHRGSAGTHPENTMEAFIEGERAGADGMELDVQLSKDGEIVVIHDETVDR
+TTNGKGFIKDLTLKEIKKLDASYKYKKLLQKVRIPTLREVFQWMKKNEMICNIELKNGII
+PYPQLEAKVIALIEEFGYENRTIISSFNHYSIVHCYSLNPDVEIAPLYSNGLFMPWVYAQ
+SIHAKSIHPNIKVAPDALIIDSMKAGVAVRPYTINSENLMKRLFSINCTAIITDYPEKAV
+KLKKNDEA
+>tr|A6CPT8|A6CPT8_9BACI
+MLNGKRISGRYKILEMIGGGGMANVYLARDMILDREVAIKMLRLDFANEEEFIKRFQREA
+QSATSLAHPNIVSIYDVGEEDDIYYIVMEYVDGLTLKQYIQKHSPISIEKTIDIMRQLIS
+AIANAHQNHIVHRDIKPQNILIDHDGTVKITDFGIAMALSATSITQTNSVLGSVHYLSPE
+QARGGMATRKSDIYSLGIVMFELLTGRLPFSGESAVSIALKHLQSETPSLRRWNKDIPQS
+VENIVLKATAKDPFQRYDTVEEIEDDLRTALDPGRLDEPRFSIEEDMDATKAIPVITDDR
+PYSNNENTIVHDNNGADTAGTIPNNKANEGLPGKKKKKKWPAIIIGVFFFLALLGVLAVT
+VLPDMLGPKEVILPDVTGKSQEEAVEILALEGFLIGDYLDQANEEVPANQVIKTNPPAGA
+TVKEGSEINLYVSTGKKRIKMKDYTEEAYEEAATELNELGFANIEKDPRYSEFEPGTILD
+QDPPEGSEVIPGETVVKFTVSAGLETFPLTDLKGYTENSLKDYGEFRGINININREFSED
+VPEGMVISQKPEAGVKLVKGDSVDVVLSKGKEPQPPRTVKKEISIPYEPTEEGKPQNVEI
+YIEDQTRNIDEAEAIFAISEDYKETFELTIVEGETGHIRVVVDGEVVENIPVPYPENEEE
+>tr|A6CIN7|A6CIN7_9BACI
+MEEFITTVKLNPEGNREKYLIDSFKFNEENLGLMLFFGMFHFNNDIDSLEKQLINMLELD
+YETFIKEELERLQGQYPSNIPINLELFILDENDQFVKSKLGGVSAFTEWDGRMCFAVLPE
+ESVRKTLKSVLTHEYHHHWRISALKMDEENTNLLDRMILEGLAEHFVRLTLGNSYLGPYK
+DALTEQQAKVLCETKYKHHFEETGSSTDSYMFGSEEKGLPFWGGYSLGYYLVKWYLDRNV
+DISIEKLSLLPSEKFLD
+>tr|A6CPZ5|A6CPZ5_9BACI
+MPAFVGAVQVISVGSSGVVHIGDTFQIRPVSTAKTFAGAGSFVTGDGISVYNESSVTYTI
+DDDTLDQGNYFNL
+>tr|A6CKS6|A6CKS6_9BACI
+MLADLITGFSTMFTPMTMVIIFIGVILGLFFGSVPGLTATMAVAICLPITYTMDPAMGMA
+LLMGLYIGGISGGLIPAILLKIPGTPSSIATTFDGYPMAQKGEAGKAFGLAITFSFLGGL
+LSIAALILIAPPLAEFALRFGPIQYFAITLFAMTLISSLSEGSILKGLLGALIGMAIAMV
+GSAPIDAFPRFTFGLTDLDAGFNLLPVLIGLFALGEILMTAEKKINPSLSKKVNHKVKGF
+GYKITEFVGQWWNFLRSSLIGIGIGILPGLGGGPANLIAYATAKNQSKHPEQFGKGAPDG
+VVASESANNASVGGALIPLMALGIPGDTVTAMLLGGLMMHGLQPGPLFFTQNVDIVYGIF
+AALIIANIAMIIFLFSGMRVFIKLLSIPKHILFPIIIVLCVVGAFGVNNRIFDIFALIFF
+GVLGFLLIKFKFPIAPVILGFILGPIAELSLRRGLMLTKGDFTPFIIDPIAAVFWIIAIT
+SIVLKVVKSFRDNKAEVRV
+>tr|A6CQC2|A6CQC2_9BACI
+MKTAIVTDSTAYIPKELRDRYNIKMIPLSVILGGETYREEIDITASEFYEEVVNEEKLPT
+TSQPPLGSFVELYEDLAKDYDAVISIHLSSGISGTYQGAIQAGDMVDGIEVYAYDSEISC
+MVQGFYPIYAARLASEGVDPQEIIRKLDEMKESVKAYFMVDDLVHLQRGGRLSAAQAIIG
+SLLQVKPLLHFQEKVIVPFEKIRTRKKAMKRIVDLLDKDIQKGDPLQVVIIHANREEEAE
+KWKEELQQKYPDTDFMVSYFGPVIGTHLGEGSMGMGWSKKM
+>tr|A6CQK2|A6CQK2_9BACI
+MKRVSEQEIFIRIGEGMANIKDIAKMAGVSVTTVSRVLNDHPYVSEEKRQAVLQAMEQSN
+YQPNVNAVHLSRGATRLVGVVIPFINHPYFGLLLEGIAEEALKNNYKLVMIQTNYEEERE
+LEALTMLKHKQFDALIICSRICPWQTIEDYLEYGPIVLSEDARGKEVSSTFIDHYGAFTE
+ALEYLSGKGYGKIGYCIGRKSGLNSMQRERAYKDFLKKRSEPFDEGLVFSGCFNFEDGEK
+VVKQFKVMENPPSALLVTSDQVAAGIITCCRAEGIEIPGDLAVMGFDNQPIAKIMKITTL
+EIPLVEMGRNLLQQAIHGDKVLHKEMSVRLISRETV
+>tr|A6CMC6|A6CMC6_9BACI
+MIYEYNGKKPKIAESAYIADYVTITGDVEIGEESSVWFNTVIRGDVAPTIIGSKVNIQDN
+SVLHQSPNNPLILEDEVTVGHSVILHSCKIRKKALIGMGSTILDNAEIGEGAFIGAGSLV
+PPGKVIPPNSMAFGRPAKVIRELNEHDISEMKRISREYAEKGQYYKSSEPLK
+>tr|A6CRN4|A6CRN4_9BACI
+MIAGALAGGLTGGLGINETVSVFTEGLGGGANIAISYALLGGFAVAISYTGIPNLLVNFV
+IRLVGKEKDSRRKALSKALIVFSILLMACFSQNLIPIHIAFIPILVPPLLKVMVELEIDR
+RLIASVLTFGLTAPYILLPYGFGFMFHEIIAQNMESSGLAISMADIPKAMLLPTAGLVVG
+LLIAVFFSYRKPRQYKKVAEEKEQTETVYSKKAIVFAMISIIAALYVQLALGSMIFGAIA
+GLAILYVSGSVKWTDADGVLTEGMKMMAFIGFVMIAANGFAAVVQATGHVDTLVEATSDM
+IGGNQSLAALLMLIVGLLVTMGIGSSFATIPIIAAIFVPLALELGFSPLATIAIVGTAGA
+LGDAGSPASDSTLGPTAGLNADGQHNHIWDTCVPTFLHFNIPLIIFGWIAAIIL
+>tr|A6CLV6|A6CLV6_9BACI
+MNFKSELQEAQDIIHKAHLHLKQANSGSSEAEACNFALTELEKAQQKIQQVQQQIHE
+>tr|A6CLM7|A6CLM7_9BACI
+MKEHGSLIISMDFELFWGVHDVFTLEEYQENLLGARKVIPEILDIFEEYNISATWAIVGI
+LFFHTKEELLSILPDVKPTYYQEHFSPYLKLNSVGRDESSDPYHLAGSLIDLIASRPEQE
+IATHTFSHYYCLEDGQDLKAFEADILKAAEVANSKNISLKSIVFPRNQVNEQYLSICKKY
+NLSAYRGNESSRLYSPVSYQKSQSPLYKMLRFMDSYVNLTGHHIYSASDLSEDPIINFPS
+SRFLRPYNSTLRFLEPMKLKRIQNSMTKAAKENKIYHLWWHPHNFGKHPKESLRFLKKIS
+QHFAFLQDTYGMKSVTMESAAHQLSPVLRGKQTEKTPD
+>tr|A6CHF1|A6CHF1_9BACI
+MEAVNKTVVAVKGLVINNGKILIVQRAMDDEVGGGTWEFPGGKIDFGEELEVALVRGVKE
+ETCLRVSVEKLLYATSFKTDPRRQVVLLTYLCKCDSCKVILSEEHSAYKWVTEEQMRVFL
+SPEILSDLERSGIK
+>tr|A6CRR5|A6CRR5_9BACI
+MIFVLIIYLLYRAFKYIVNPKRKLELAMDQKKFFFLDDQENVRKNFLITYKGVLFQGEKY
+LGTTDRAFDVVSIFVWVENSSSLKGISYEDLKYVETEILERYPNASIDWKSPLKEFIDKK
+KKPEMD
+>tr|A6CTS9|A6CTS9_9BACI
+MDLEAEVERKNQLESVLREVAKDQKGEKISEKVS
+>tr|A6CKI0|A6CKI0_9BACI
+MNSSLYSITLDFRVFIKHIIMDMFLFLTTKENECDTFDQLRMSKVSYISLSRDKEDKGQV
+PYPLNGLRDSSPVPLSLAPIPRNNFAGFCLNIFMKSIRIAIKMVI
+>tr|A6CIE4|A6CIE4_9BACI
+MAADPIWCRKCGCNLDLEDFNFSKGLQEEFIKWAADYGRWVDWTADKLVSDGIEIEEEHN
+RKGSELTDSVIKELGCRYSVTFSPSTIGKSYSMKGNW
+>tr|A6CNM7|A6CNM7_9BACI
+MGFVSRHAKRDLTLPDQREKLLGNVLDDLKADKDVIGIYLGGSLAKGNDDIYSDIDLHII
+VTPETRADFIKNKRKRPAKWGNVLFFEGLSETPVVVTHFDCFVKVDTFYKDPGDLEPSIW
+LKGLKVLYDPKGIVQKVLNQSSEMEYVPTAEEVEVWRGKMLAFIHETYRAVMRKESYYSL
+ANLDRIRWLIAYGWYMEMNKRIDSSYGIWSKIEGERSYLNDWQLSLLESWDSSRHSLDVM
+KTMTSIIPEFLRLNKQLCNQTGLETREEWCKKIIQMVK
+>tr|A6CP90|A6CP90_9BACI
+MNFKKALVAVPLSLSLLVPGLASADNHSDMPTVETPAVELRADLDRLFSEHAYLAMTSMR
+KAANGDKDYAQVAEALNGNTEDLTAAITSVYGEAAGEQFNEFWSNHIGYFVDYVKASVNN
+DEAGKQAALEELNMYKQDFSKFIAEATNGEVPADVLASGLQTHIDQLISGFDAYMAENYE
+KAYMTQSDAMEHLYMTSKALSSAIVNQFPEKFNDTKAVTNAANLRSDLNFLLSEHFALAQ
+QAMQNGIEGAPEFEANVKVLSENTDQLSAAIGSVYGDEAAAQFNETWSNHISYFVDYVKA
+TGANDEAAKEEALKELDEYREDFSKFISAATEDRVKAETLAAGLQTHVNQLTGTFDSYVA
+EDYEAAWDTAREGYGHMFTPAKLFSAAFVSQFPEKFAGMPDMPNTGMGGMSETANSTWIL
+WALPGVLFAGLILFRRKTATE
+>tr|A6CQF5|A6CQF5_9BACI
+MKSHGKGGLSMLWWTFGLILFFSVIANLLRPRKRFDESENVIQEEERAKAQSWFGG
+>tr|A6CIP9|A6CIP9_9BACI
+MRAFVHAWSNKFDDSKYPHHFYTESLKSIETANNIDELAESIIGMLHWKDGKVVKDPAGD
+YNLKGVSYRLKTPKPNTYHEDKHKPIFYSRKFYELAATIRDEKSFDSAAVDKLTGSELPL
+WASGSVVIPTFVLHILSPGIYPLYDQHVERAKRALLAEELNQKGTTLKLRDYLSYREFFE
+EFLVSHYGKSEKYSLNEVKEIDRALWSFGKSLKAKIAFKKRPAEVKTKRTPRKEFKKRVI
+ELIKEGHPHKLAFELAGQEFDIPLSRSQKLYPGSVIYQWRKQGYDV
+>tr|A6CJ05|A6CJ05_9BACI
+MKKISISIGSSIIILFSIFGFTNILSNTTKWASIMLAAGISILVNIINVSVFVNMGVFYR
+LFSKTLLLFIMKFKDINIFHRNYSGKQERKEQFTLFSLISPCT
+>tr|A6CM52|A6CM52_9BACI
+MSDRLKTIYEVNTLSKLTRTSVALLAAGTFSFGSTYAYANGNESETFEKVEFQIETEQSS
+NVIVNDDAVAESVQAELDSLEDVQESPSLLPGDFFYFAKLALEKIKLAFTADDVKEAKLL
+AEFAAERLAEAQVLFEAGEEEKAIETIEKALKTMEEAEEGKEDSEEEVKEDKETEENTEE
+PAVEDKEVDSEESLNEVEEVIAQNIIALKAALEKVKNPVAKAALQKNIEKTYAKLAEKIA
+KLEEEMGDDLQEEPALVEEVEAEIETNTTDDTEEKVEETEANETEEAAPSTVPGVKKAER
+EQEKAAHKQEKAEKKAEAKQEKAQQKADRKQENAERKQEKAERKQERAQEKAERKQERAQ
+EKAERKQEQSADKGKHKEKEKDKDNN
+>tr|A6CRU9|A6CRU9_9BACI
+MTQQELVPQVQEVLDKLRPFLLRDGGDCELVDIEDGIVKLRLLGACGSCPSSTITLKAGI
+ERALLEEVPGIVEVEQVF
+>tr|A6CPL8|A6CPL8_9BACI
+MTITGRKVTLRAVEPEDLPELFELIYGEGDTLPEWKNWDAPYFPHSKPNYKSYIKGTTRK
+IKDGRDNQRLAIIADDDIIIGTVTYYWENQDTKWLEAGIGIYRPEYWNGGYGTEALALWV
+EHLFQTLDIPRVGITTWSGNERMMKAAEKVGMILEGRMRKCRYYNGEYYDSIRMGILREE
+WEEKKPDFVR
+>tr|A6CRG2|A6CRG2_9BACI
+MDSLQKQIVEEMKVKPEIDPKEEIRRSVDLMKDYLKKNSFLKSLVLGISGGQDSTLVGKL
+AQKAVDELNEENGTDDYQFIAVRLPYGKQNDEQDALDAIEFIQPSKSYTVNIKGAVDASA
+AAMKEAGVELSDFTKGNEKARERMKVQYSMAAMNKGVVLGTDHSAEAVTGFYTKHGDGAA
+DLVPIFRLNKRQGKMLLKELGAPEHLYTKVPTADLEDDRPLLPDEDALGVTYEEIDDFLE
+GREVSKEAAKTIGGHYLKTRHKRELPITVFDDWWRQ
+>tr|A6CNV1|A6CNV1_9BACI
+MTTVIISLLSLSALLFILSFFQRDRYKNLEKEVEELSMNFLQENYTLKKRVKILEEELLM
+DEGPIFQAPPAARPKKKVHEIVKNQVLALHAQGMNLEQIARQSALPITDVQDIIRDKSV
+>tr|A6CL35|A6CL35_9BACI
+MKLKSYKRFLKDIKKAKAKLKSYKRFLKDIKKAKAKLKSYKRFLKDIKKAKAKLKSYKRF
+LKGIKKAKAKLKSYKRFLKDIKKAKAKLKSYKRFLKDIKKAEAKLKYYKRFLKDIKKAKA
+KLKSYKGF
+>tr|A6CND0|A6CND0_9BACI
+MLGTSIKNGSIAGLKTTWSLGKVIFPITMIVVLLQHTPILPWIIEKISPFMGLFGLSGDA
+AIPLVLGNFLNLYAAIGGILSLDLTVKEVFIIAVMLSFCHNLLIESSVAAKVGVKIWVIL
+TVRIGLAVVSAVVINLVWNGGGELAQYGMVPPQNSNPEGWGQIFLLAFEKAGYGILQLAL
+IVIPLMIGLQILKDKKWLAAFSKWMSPFTRAMGMNANTSTTMAAGLLIGLAYGAGVMIQA
+VQEDGVSKKDVTLAFIFLVACHAVVEDTLIFIPLGIPVLPLLIIRVVTAILLTITVAYIW
+RRAEVTKAKGKEVTL
+>tr|A6CSK8|A6CSK8_9BACI
+MRELKPYLRFGAMVVTSTIVMFMFKYLSTYKVDHVFFSETRAYMALLMGATMAVIMLAFM
+THMLKNKKANIGIVVGSILVFGLSLFLLRSQTLVDDQDYMEAMIPHHSIAILTSERAEIE
+DPRVKELSKEIIEAQRKEIAEMKSLIEDIEEQEEEE
+>tr|A6CIH1|A6CIH1_9BACI
+MLSYGKRGGLGMERIIIRKAEIRDIDRILTIYNQGIEDRVATLETEPKDRTYMAEWLKAH
+QGRYTGIVAELEGEVIGWASLNPYSPRKAYAGVADISVYIERNSRGKGIGRKLLSSLEVK
+ARENGFHKLVLFTFPFNKLGQQLYQKCGYREVGTFKNQGILDGIYVDVMAMEKLLT
+>tr|A6CQ22|A6CQ22_9BACI
+METVMIGKIAGKLIRRNKEAISCEVFFILYTKIKQLLSNHILLMKSTKELKGKEKVFRAE
+EYPLISLFI
+>tr|A6CNZ2|A6CNZ2_9BACI
+MDGQQRAAISQGIEVDIVLKKDQRTGNTTRGTVKDILTNSATHPHGIKVRLTDGQVGRVK
+RIFK
+>tr|A6CQ77|A6CQ77_9BACI
+MNYKVLIGMTVCVVAAIISVSNPMTSQYVSSLKEGPVSAVDAKPEKLMDIIKQEAEKFEV
+PPIDAKNDPVWKGTPGYNGLEVNIKSSYEKMKDEGVFDSDRLVFDQVSPEVHLSDLPPLP
+IYRGNPEKPMASFIINVAWGNEYIPDMLATLKKHQVYATFFLEGRWVKENPDLAKMIADS
+GHEIGNHSYSHPKMETLSGARIREEISKTNDIIEATTGKRVKLFGPPSGGFNEEVVKIAG
+EYKMKTILWSVDTIDWQKPVPNVIVERVTSKLHNGALILMHPTASTSTALPALIAAIKQE
+ELRIGTVSSLLKEERIIKTGNNSLLKGKSNHKN
+>tr|A6CQX7|A6CQX7_9BACI
+MEHGASVASLVIVILAAFITPILLHRLKLNFIPVVIAEIIVGLIIGRSGFDLVQYDVWLE
+TLSTLGFIFLMFLSGLEIDFSAFSNKGKKKEILPNGKPEPNRLKVSMIIFAGIFIVSLAL
+SYMFVLAGLIDNAFLMTLIISTISLGVVVPTLKEAHIMKSGIGQIILLVAVIADLVTMIL
+LAVFVSLYGEGHGNMWLLLLLFGAGVLLYFLGRRFKNNSLMKSLSTGTVQIGTRAIFTLI
+ILLVGVSESVGAENILGAFLAGVLVSLLSPPQEMVHRLDSFGYGFLIPIFFVMVGVELEL
+WSLLSDPKMLILIPLLMLAFLLSKLVPVFLLRKWYDNKTTIASAFLLTSTLSLVIAAAKI
+AERMEIITAQMSGTLILVAVITCLVTPIVFKKMFPKEAGEEKQIKVAFLGANQMTLPVSR
+ELKSALYVPVLYHTRQDKSNRNISDSL
+>tr|A6CUF4|A6CUF4_9BACI
+FSSNFPKKHTLLFYVGQRFCILKFFGQVNGLPHIKGTPTILMGDF
+>tr|A6CKU7|A6CKU7_9BACI
+MYIKIEYIYFINFLLAQIKPAELAITGTAGLL
+>tr|A6CME9|A6CME9_9BACI
+MGFIISSFILSKPTIPKIALSFTIYFLLSFILYADVVYERYCDALLDFQLLSQTNQVGAV
+FGSVLSLIYYSYLWFWFDIPLMLILLVYYTRSNKTQSAGVAAIGAYPQKLEFLLCS
+>tr|A6CT05|A6CT05_9BACI
+KSYNNTDGEKNKAMQIKEIIETFPYFQQHPENLWIQPLPDDEHGRFNVFARVCGKTRRTL
+LFHAHLDTVGTDDFGVLKEHAHNPDFLEAYFSKHEVDEKVKEDARSGKWLFGRGSLDMQS
+GIAVHLANLLYFSGIAEDLEGDLLFLFNPDEESEHAGMIGAIDELYRLKEEGTQFLAAIN
+NDFISPVYDGDCKRYIYTGAAGKLLPCFYITGREAHVGDILTSIDPTRIASLINLKVNQN
+IDLLEDIEGEFVLPPSCLYFKDKKNVYNVQTPLETRIYFNYFVYEKTSKEVLMNLLEITK
+ESVRELEASSKEKYERYRSLHGFPEREVSWKVEVTSFEEFVAELKEKGLNPEKVMNETLA
+KMKGEDNREIAFSIVEALQQLDPEKTPRVIVFFAPPFLPHNYLSDENEYGKKVNQVLKDC
+LKKTAEDTGEEFEIKRFFPYLADGSFLSLHESDEDIEAFKDNMPMIESLYPVPIDRIREL
+NIPSINIGVYGRDGHQWTERVYKPYSFSTLPGIIRGVTKELLKIE
+>tr|A6CIX9|A6CIX9_9BACI
+MNHTFLGETIHFDINYKNRKSIGIYLDSYGHVEVQAPRGTPDESILKLVEDNWEAILENS
+KERKERLKGDQEKVYVQGEPFLYLGKTYPIEVHQDPTIKQDHIKFDDKTMHVFVQQMEEE
+RIKQALKRFYYQRCKAMVEKSISKHQHHFKTKPTSIKVTDSKKTWGTCDAKRKMTFNWKL
+AMAPPEVIDYVVIHEMCHMVHLNHDRSFWRLVGKIVPDYKEKENWLAVSSWKMTV
+>tr|A6CQW8|A6CQW8_9BACI
+MLNIVMSNVKTVHNSERFFSFRKRGAPAAKISFTFQKAQGFMRRANRKRAAECYTGISRY
+YSKQRMVKLFV
+>tr|A6CQP1|A6CQP1_9BACI
+MTKKKMGLLVMAYGTPYKEEDIERYYTHIRHGRTPSPEMLEDLTERYEAIGGISPLAKIT
+LDQGKSLEERLNAIQDEVEFKMYLGLKHIEPFVEDAVQQMHEDGIEEAVSIVLAPHFSTF
+SVKSYNGRAKQEAAKLGGPNITSVESWYDEPKFIEYWVNKVKETYASMTEEERNEAVLIV
+SAHSLPERILKDGDPYPDQLQETADLIAKGAGITNYAVGWQSEGNTPDPWIGPDVQDLTR
+DLHKEEGYNTFVYIPVGFVADHLEVLYDNDYECKVVTDEIGASYYRPEMPNAKPEFIDAL
+ATVVMKHLN
+>tr|A6CMJ1|A6CMJ1_9BACI
+MVSENKRENNKRRSNLLKLKDKKVLQLVSDDFEDLELWYPVLRLREEGATVHLAGEKKDH
+EYKGKYGVPAVSDVSFHDISPDDYDALLVPGGWSPDKLRRYEEVLSIVRKMNEDNKPIGQ
+ICHAGWVLISAKILEGKKVTSTPGIKDDMENAGATWVDEPSLIDGNIVSSRRPPDLPDYL
+RDFISVMEK
+>tr|A6CRM1|A6CRM1_9BACI
+MTFEKIQCLKNDFGAWLAGLLFICILSRILIFSEKIVYNKRIRERVFVFMGGGIFDE
+>tr|A6CT48|A6CT48_9BACI
+MEHWPDGAEQGACAFVLFTDEELFVNLIQGEEY
+>tr|A6CNN9|A6CNN9_9BACI
+MKIVTTLFLKIAVIILGIPVLALCVFAVPVLGDISAEVLPDFEYIKFLVSIIFYASAIPF
+YFALYLAFKLLRYIDKNKAFSQGSVDALKKIKYCAIAISILHLLVFPLFYLFAEFDDAPG
+VIFVGFLVPFASMVIAVFAAVLQKLLQEAIEIKSENDLTV
+>tr|A6CKL6|A6CKL6_9BACI
+MGALNSKMAASLYAGMAIFFWGVSFVSAKVVLDKLDPFTLVTFRFGIGAVFLLMIVLLNG
+ERMRFPLNYFPHLFILAILGTFCHQLLQTTSLIFIDASSAGWLISVTPVFTVFLSMIFLH
+EKMNFRKAIGIITAIIGVFMVTTAGAENRFEFGLNFGFFLMLLSTLNWAVYTVLLKSLKI
+PLRPTVLTFYITLIGFIVSTPFIIRNHGWERLPDLSTVEWGHLIFLGVFVSGTGYWFWAK
+SLEVLQASQAGVLMYLEPIVTFLAAIIILHEKAMMMSIAGGLIIIAGVAAVNGDITGRFR
+PPSIRNKR
+>tr|A6CLJ1|A6CLJ1_9BACI
+MLNKFRTDRFSWILLIGIIMLLFEMFFYDGGVVFFLFITLGCIYLGRKRLPRTSGKILFW
+FGIISLSLTILNTMAFRLFLLALLVMIILRFAQSKKYPTVIEPGVKQTFDDGEEPVYIKK
+ASLQNVWFGRQQTPEHVYEWNDINIQGGVGDTVIDLGNTVLPKGTSVISVRHVLGNIVIL
+VPYDIEVSVHHNGLAGAITIFDSMEPRSFNQSVFYQTSGYDHAPQKVKIITTLAVGDLEV
+KRV
+>tr|A6CJC9|A6CJC9_9BACI
+MEEDEAWKQIAGEEYGVSITEEEVDTYIQEGPDTSSLPQHLALADALGMPLQELNHTYDR
+DIYIKNAMWQKLKPVLEKEYGTTNHNELVEKYNEEVINELNR
+>tr|A6CQ99|A6CQ99_9BACI
+MKNKLLTISLILLVTITLVGVLALIVVLKFNEEEVKEPSIDEVIEASVDVPEITTNLLSG
+DYIRISFKVQTDSKKAKEELEKRDFQVKNIIIEELSEMKSDQLQGKEGKQELETTIKDKA
+NSLMQEGKVEKVYITSYMIQ
+>tr|A6CJN5|A6CJN5_9BACI
+MKNTHVCKILDIPEIQTDHYYLTAMKERYASQMFSFLGDRETMKFLTPHPPESVSEVTET
+IRESLKGFQDQNEIPWVIKEKSTDRIIGIFRLHKLNFWHKKTEMGVVISREFQIRGVMTE
+LMPEILSFCFNELELNRVVGDIFAENQGSRKLLLGEGFREEGTLRQTDFDGERYHDTVVF
+SLLKAEYYKRM
+>tr|A6CK85|A6CK85_9BACI
+MTVCKKEAFSVNGYIPNRMLEKEYVWEFVNLYLYGHLYEQNPYPELAGQLVDMYQKQAAQ
+LEIIKNITLFQGGLRNLPQLDIQYQSFEETVDELYLREYQLLQEYFSYPAYFLPGASSDQ
+NFRTLIAGQTEQVDLLIQLKDSLKKEKKKKEKEYTLQDGYKLEKVASGLTYPTCITFDED
+GSIYIAESGYAYGSPPGEGRILKVPPEGKGNVFAKGFKGPLTGITWADGYLYAAEGAIAG
+YPGAGCGRIIRVSPDGSRKVIVDGLKTCGDHFTGDVIMGPDKKLYFTVGTATNSGVVGTD
+NKRWLKMHPTFHETPSRNYTLNGRNFISSNPLSEKDDLAVTGAFKPFGEAAQDGEVLQGE
+LMANGVLYSCSPDGSNLQMIADGFRNPFGLVFSPFNGKLYLSDNGADARGSRQVYGDWDN
+LWEVTSAGWHGWPDFYSGLPVTLEHFHVKDKPKPAFLLKQHPPLASQPVVRFSPHTASHK
+FDFSTSPQFGYEGEIFLGQFGGGGAGSYGESPGYKVVRVDVKTGQIRDFFVNHKGEKSEK
+GPLRPIQAKFGRDGRHLYVVDFGRMDQKDPKPKTGSLWRIVKG
+>tr|A6CPC2|A6CPC2_9BACI
+MNEAVKGPIIDSHIHLDMYHPSEQKKILADCRKDIVKAMISVSFHLKSCYENLRLSRMDA
+RIKPAFGYHPEQPVPSDEEIQNILSFMNEHKDTMAAVGEVGLPYYMRQKHYMRQKHPELD
+LAPYLEILEVFVREAAKLDKPVILHAVYEDADPVISMLERSSIQKAHFHWFKGSSKALQR
+MVENGYYISVTPDILYEEEIITMAEAYPLERILVETDGPWKFEGMFKGKMTHPEMIHETV
+NKLAEIKNESVRDVYKVILNNTRELYSI
+>tr|A6CQH6|A6CQH6_9BACI
+MAQLIKLQDYISRYELDTYRYPSQFVRLKKQQWEKWKESWEQGELFLHEESGEMEEAEKK
+SLITKFGGFFKRREKGAGDEVEDLDLYTAPSDENPEMDLQITELPSTEEELKHLFLDQLF
+HFQLRWASSTLMEKSYVDQSYRSDERLMYFLKRFPDNIFLMYFPVFKFKNAPMEMDILLL
+TPTDVWCLTFLEEEDGAAYIGSKERFWLKKSGDRDMKVLNPLISLNRMESVVSSIMKHLE
+TELPIKKGIISRNGYVDYQMAPHNLFLIDKRKHEEWFEKMRASHSPIKNVQLKLAKGFLD
+FCQSTSFKRSGWQSDYEPVFHPEKEEE
+>tr|A6CMH7|A6CMH7_9BACI
+MKNTFGKTAFALGFLALLSVIGIGFSMTIDEYSLLAEEHDGLFPAEEQVDMGACKKGSET
+EVRNFVIDGKPADAIPILTYHRIISQEDINDTHSINGKINSMIVFTEEFEKQMNYLYENG
+YVTLTMKELYAYLNEDIEIPDKSVVLTFDDGFKDNYEEAFPILEKYGFKATNFIVTGAIT
+NKRYSFSPELAQYFSMKEMEKACDVFDFQSHTYSYHKRDEEKPVNEWGTHPAFLTSKSHE
+EVYNDIKTSIHNLNGENLGFAYPYGEYTPDTIRILKNLGFKMAFTVENEVATRDHHIYEI
+PRFQIYHNVGLDTFIERVQQ
+>tr|A6CMQ3|A6CMQ3_9BACI
+MEKETLNIFDNEGYHIGAAARDEVHRQGHWHETFHCWFIKWENEKYFLYFQLRSMDKKDY
+PNLLDITAAGHILSHETFEDGIREVKEETGINVRYEELVPMGIIPYEVVWKVLLIEKGHT
+FFFTSLLE
+>tr|A6CRS8|A6CRS8_9BACI
+MERPWLELYPEEIKKELEYNPAPLQDYLTKAAELYPEKSAIHFMGKEIKYNELYDSALKF
+ANYLKTLGVEKGDRVAIMLPNTPQSVIGYYGVLFAGGVVVQTNPLYMEREIEYQMNDSGA
+KVILTLDILFPRVTKVMKETSLQHVIVTAIKDYLPFPKNLIYPFIQKKQYGIVVKVEPSD
+QFHLFTDIMKTADNKPIDIPFDFEEDLALLQYTGGTTGFPKGVMLTHKNLVSNAAMCDAW
+LYKCKKGEEIMLGILPFFHVYGMTAVMILSVMQGYKMILLPKFDAETTLKTIQKQRPTLF
+PGAPTIYIGLLNHPELKKYDLSSIDSCLSGSAPLPVEVQQRFEEVTGGKLVEGYGLTESS
+PVTHANFLWDRERIKGSIGIPWPDTDAGVFSMETGEKLPPNEIGEIWVKGPQVMKGYWNK
+PEETEMTLRDGWLLTGDLGYMDEKGYFYVVDRKKDMIIAGGFNIYPREIEEVLYEHPDVQ
+EVVAAGIPDPYRGETVKAYVVLKENSKVTEEELDSFARKHLAAYKVPRLYDFRDELPKTA
+VGKILRRALVEEEKNKLNDKDEKLG
+>tr|A6CTU8|A6CTU8_9BACI
+MLLMNKKVLALGLTAGLMISPAISSTAFAAPDLAEKVKWSEKAGTPEFISGKLTAPSNYN
+AETIVYNYLNSKKKEFKFTGDARSSFVLKEKKKDNLGLTYVKFQQVYKGTLVYGSVVTAH
+VNEDGVLTALSGATKPDLDKKVKGEQKLKSKEAVSIGEKDLVSTVGSQPDYEYAPMSEKI
+VFVKDGKANYAYLVNYNFLAPEPGNWNYFVDAETGEILSKLNEIHHGKGNGNGGGPGGGG
+GEPTTGTNTVGTGKGVLGDTKSINTFLSSSTYYLQDNTRGSGVFTYDASNRTRLPGSLWG
+DSDNVLNASYDGAAVDAHAYAGQTYDYFKNVHNRNSYDGNGAALQSTVHYGRSYNNAFWN
+GQQMVYGDGDGTTFIPLSGALDVVAHELTHAVTDTSADLIYQNESGAINESMSDIFGTLV
+EHHANNSPDWLVGEDIYTPNVSGDALRSMEDPTMQKDPDHYSVRYTGTGDNGGVHINSGI
+GNKAAYLLSEGGTHYGVTVTGIGKTKMGAIYYRALTQYLTPSSNYSHLRATAVQSATDLY
+GAGSSEVANVNAAFDAVGVY
+>tr|A6CTN5|A6CTN5_9BACI
+MSRDFVVLESKKLVVVLFGALLNAISLNLFLIPANVYASGFTGIAQLLSSVISDYTPFAI
+STGILLLLLNIPVTILGWLKVGKSFTFYSFVSVFATTIFLGIIPITHLSPDILLNAVFGG
+VIAAVGVGLTLKWGASTGGMDIIAMILSRLKDKPVGTYFFLMNSVIIITAGQLYGWEKAL
+YTLVTLYVSTRLIDAIHTRHEKLTAMIITKNSVQLKEAIHSKLVRGITTLPAKGGFTNED
+KEMLFIVITRYELYDLEHIIKEVDPNAFTNIVETAGIFGFFRRD
+>tr|A6CJT4|A6CJT4_9BACI
+MKGWDTMNLEWFDRVSGELQEHLESICEKYDRVGQMNVDRGAKHPRLEFYVETEDQERDF
+FCTLFYDPYNDEFYLESYDIDYGQTLKVILPDIEDIIDAVHESLHDYLSMDEIDFYDEAD
+EYDDDHIDYIVDDEDEDGPVHYVVDDYDYDYEDQADEDILEEIEVEWETPEVTAFIHGDE
+VEVTYQFGIITETGDGVLKRLNRIITEDNELIKDESHFIFSKEEANTIIAMIASHSDKLS
+EFSFH
+>tr|A6CPK2|A6CPK2_9BACI
+MLSFAADGGSCGVDAGFVWLNAYEYLPDISIKIVSTKKRKFLPVNEKMTNNFSVSRH
+>tr|A6CLR9|A6CLR9_9BACI
+MYVGRDMTEISMIPKTEWDKSELAFFHHSLQQMVPYLNAEGQTIHRKIVEEIESRGGLKR
+NEADAVHGTKVTYD
+>tr|A6CMW5|A6CMW5_9BACI
+MEDRRMFQTGMKTIWHTIKVFILFTGSTILFYYGIMCISEEYENYHRYDEPEGAAVKVFQ
+TVSEEDRSWTDRLLLFYMNGE
+>tr|A6CHE4|A6CHE4_9BACI
+MMSKLEALILGMIQGLTEFLPISSTGHLYIGRKAFGLEEAGLFLDTMLHLGTLLAVLVVY
+QKELLHMVRHPFSKLSFILVIGTIPAVIIGFTFEDYFDKISTTGSTIGWEFLITGLIMYI
+ADGVKDGYKKLEDLTYTDAFVIGSFQAAAIFPALSRSGLTIAAGLFRKLDRQTAAYFSFL
+LSTPAILGGLIMKGKDLFTGTVEVVSLTALMVGTAASAVFGYIAIVAMINFLKNRSLKIF
+SYYVWGLGTLILILQWAGIF
+>tr|A6CHK0|A6CHK0_9BACI
+MLDLGLLIIRVIIGISFFAHGAQKLFGWFGGYGLKGTGGWMESLGLKPGVTMALFAGLAE
+FIGGILFVLGLLTPLAGIMIAVTMLVAITKVHYANGYWSTNNGYEYNLALLAVAIGLALT
+GPGQYALDAILF
+>tr|A6CMH5|A6CMH5_9BACI
+MIVSALFLSGCSAQKEFFADLTQTSQPKVKAEEVKNPQPKNLKEEWEEKDTKIDGWTLVW
+HDEFSNEESLSNWNEQNWPSEKNNELQYYSPANVDIKDGHLVIESNKEKFRGRDYTSGAV
+TTENKFQFRYGMVEIRAKLPEGQGLFPAFWMVPSEEDWLPEINIMDFLGQNPNEYVQVVH
+WENENGERMRDFSHYISEEIDFTKEFHDFGLIWEPDKLTWTLDGNIVFESEVLSPDMPMY
+LYLNTAIGGDWPGDPDPDAEYPKEMLIDHVRVYQQQVFQQQ
+>tr|A6CUC3|A6CUC3_9BACI
+SIRFKVPAGKVYKFNDIVKDDVSFESDGIGDFVIVKKNGIPTYNFAVAVDDYLMKITHVL
+RGDDHISNTPKQLMIFEAFGWDAPVYGHMTLIVNENRKKLSKRDETIIQFIEQYEELGYM
+PEALFNFIALLGWSPKGEEELFSKEQFIEIFDPERLSKSPAVFDKQKLLWVNNQYMKNLD
+LDQVAALAMPHLEKAGRISENPSEEDSDWARKVIALYQEQMSYGAEIVELSEMFFKKDIE
+YDTEAKEVLDEEQVPEVLRAFVNEIDQLENYEAAEIKKSIKAVQKSTGHKGKKLFMPIRA
+AVTGQTHGPELPNAIELLGKDKVKHRIESLLG
+>tr|A6CMQ1|A6CMQ1_9BACI
+MEKQMEIRYDIMEVCLLAGKIMLQSGAETYRVEDTMMRIAASFGIKESHSYVTPTGIIFS
+IETSEPTKTKLIRISDRTTDLKKVTVVNSISRRISSGELSIDEAYELLEEADAATMPFPF
+YIQILAAAIASGCFLIMFKGSWHDFLPAVFTGGVGFLSLIYFHKVVPIKFFAEFLASFTI
+GLISFGFVLAGIGLELDKIIIGSVMPLVPGLLITNAVRDLMAGHLVSGLSKGAEAFLTAF
+AIGSGIAIVFTFV
+>tr|A6CSE0|A6CSE0_9BACI
+MKSYRLYWIEDEIAEYFYGRERSFFNLFRESKYAYGNMKEVVNKQIQYITRTIPFLPFNR
+AISQALAAKREYIQNGNQFYIESPCGKNTAKIFVLDKYIEVNIQGHSNWEAFIFELLRKL
+DGRLLAIDIENEQYGWLKPIKVRKYI
+>tr|A6CLM0|A6CLM0_9BACI
+MKRLVRHVTSIYAVYALKGILGLVFIPSALNQLGTEHYGIYTIFLTLTAYIVFIELGTTK
+NLSRLLAMEKDEDAKKQHLQSTLGIYIIFCIALLILLPLLQTLIPVIIFPVDQLNLPVLK
+LIILLAVIDYIASVPTSMFQAYCIAEERFNNYSKYQFVSGILKYSFMYTGLFCFSRPDIL
+VMFMVFARCTDILSARVLMGALPQGSWSPRFRYQKIKLLLGASFVLSTSQFLQQTVIAIG
+SVLVNRFFGLHYLGIYRSAFDLATKVWFFSNAIGLVIFPKFVRMLVDPQERTLLYNRLPF
+ILLISWFSYYLLNMAGVLLAPVGLKLMGMSEHETVGLFVILLLGVCINAHSNLSYELLLA
+GGRYWMGAALNGGALFLLISCFLIFYQTGGVLAIGWSWLISQMVYALATDFVTLSHAGKS
+LSIQLKSMSFSIFFGLNCLMAVFVRTQPIPDFILVIPFALIFIYAALSYKKVRMKLASFI
+RSD
+>tr|A6CL59|A6CL59_9BACI
+MKKQFKTMTILCLLLLAACSDTPSESAHPPESQETGGSRNPDVEVLADRLEVPWSINKKG
+NAFYINERTGGIVKVSDGKITRMKVNLKEPLAQVPEAGFLGFVLHPDFPETPSAYAYYTY
+QNSSSPHNRLMVLNLDGDVWEEKNVLLDDIPSGQYHHGGRLEIGQDNKLYITTGDATEQE
+IAQDLNSLGGKILRMNLDGSLPVDNPFENSFVYSYGHRNPQGLAWNEGGEIYSTEHGPSG
+LDEINRISAGNNYGWPLITGDEKREGMQPPVVHSGDTTWAPSGADFHKNYLYFAALRGQG
+VKRFSLDTGKVEEVLSGYGRIRDVHIDGETLYFVSNNTDGRGNPAEDDDKLYKVSLTELN
+SGRSEE
+>tr|A6CUF6|A6CUF6_9BACI
+MRRSPLFSGILYILLGVLFTYFAVRNVNDHGWGFFSYLMVLLATLDFGSGIRMVAMHFKI
+KKHLNNKK
+>tr|A6CPX8|A6CPX8_9BACI
+MTNLKTLKKEIAPFEQSTTKESVWQIINTLGPFILLWILAYQSLSVSYWLALVPMVFAAG
+FLVRSFIIFHDCTHYSFFKSRRANRIVGTMVGVLSLFPFDQWGHEHAVHHATSGNLDKRG
+TGDIWTLTVKEYAEAPLKTRLAYRFYRNPFVMFILGPIYVFLLQNRFNRKNARKKERNNT
+YLVNVIIVALIALFGVTLGWQSFLLVQGTIFMISGSVGIWLFYVQHTFEDSYFEENNEWE
+YVLAAVEGSSFYKLPKIMQFLTGNIGYHHVHHLSPRVPNYRLEDAHSNTAPLQHVPTITL
+ATSLQSLKFRLWDEDKKNFVSFKEGIKSIADHRRISTEAKPEL
+>tr|A6CL69|A6CL69_9BACI
+MKKQEPLINLASYKRKKQQQAEKHTEDLYEQSLLFLERETNIREKVRAKFVFSQKFSLPL
+EDADPGSELDILFRQWLLFDYKTAANKTVFHQFLNVKAEHMAETDRMLGALFLTAAWEPV
+EVLGIDCDENSLIVQNILHKHKEMVMCPYLQENHWGPGDLAFIRKIPLVTKGMLIGPPFR
+VKDGEIFGGLMDDYENMSRDHGITWRSYLKENAARFISQSL
+>tr|A6CS43|A6CS43_9BACI
+MMDGNLPDKKRPKFGELMDSFFQEKPVRGILESIDEFFSSPFPFGGFPIDLKETKNDYTI
+TVKLPGVKKDQIDIDIFQNHVTISVQNEEILTSEDKKSNAIFHKQLKQQNTRTIPLPGMV
+DERKVKANYEDGLLTLKLGKLRGKKVEL
+>tr|A6CJ72|A6CJ72_9BACI
+MLSACWNNNQVQEKENVVSIVIENNSDIEFSSMVIKLYQEGDLTSSQGTANADGSNFEKD
+DVLRLKYYEQDMNLEGIASMEVFLVDSNGSETSVNQTHSLVLTKNKEFNFEITGDTKDNA
+KISKIN
+>tr|A6CQ18|A6CQ18_9BACI
+MTRISEEDRNILEQAIYLPMVLTVLDRDFTVVEKSPFKLKRPYLELIEETMKIIQSELAG
+VKKHMKMNGMKVERIKSDDAFTMYLFLYKGYEEHHNYFNPRLRNRVEDLLRYYLYQRFLK
+VDAQESKKA
+>tr|A6CQY3|A6CQY3_9BACI
+MAQSHLLALRSTCTRLTVGATIVRDKRIIAGGYNGSIAGGVHCIDEGCYVIDNHCVRTIH
+AEMNAIIQCAKFGVPTAGAEIYVTHFPCLQCCKGLIQAGIKKVYYAENYKNHPYAIQLFQ
+QAGVHIEQVLFEEEESKEQEKKLSRNMLRRLEELGLAEEELDDFKKQHETIFNGE
+>tr|A6CLL5|A6CLL5_9BACI
+MIVDIHNHILPEMDDGPDNMDQAVNMAKAAADHGISTIIATPHHRNGQFICSPSEIINKV
+NKLNALLRERRINVQILPGMEIHLYPEICTDLIKEIPDSLTLADNHQYILVELPYSYYPG
+FTDTLLYELQLEGFIPVLAHPERNSVIRRRPNLLYQLIKRGILVQITAGSITGTFGRKIQ
+KFAEKLLKHHLVHFIASDAHNNSSRPFELLYAYNYIAETYSAAYSDYLKENAACIVNGSE
+FNINTPKKLRRKNKLLSFFVK
+>tr|A6CPF3|A6CPF3_9BACI
+MIIADFWLLFLFALNVLVTGCLYVFVHENKRLIGFQLGMNISITAGGFTAVSTGILLIMV
+YPFFYTSVTLLSVIIGLLTGGVFGMLFDYQTALTGYVNGLMMGLMGPMVGALIENQLLFL
+FFFEFILLFAYVTVVFSVRRS
+>tr|A6CPV7|A6CPV7_9BACI
+MFHQAPMTFVGNVNLKVENLERSLLFYKELVGFKVLEQTERTASLTADGKTALLNLEQPE
+DILPKTGRTTGLYHFALLLPERDDLANIVQHFSDIGLRIGSSDHLVSEALYFSDPDGNGI
+EIYTDRPASDWNWTNNEVNMAVDPLDFNDLLSIKRDHPWNGLPVQTVIGHIHLHVSELAK
+TEEFYTKGLGFDVVSRYGSQALFISTGNYHHHIGLNTWNGTGAPPPAANSAGLEFYTLML
+PNKEKRKEIVERLKSIGAAVTEGFMTEDPSGNRILLEVL
+>tr|A6CH91|A6CH91_9BACI
+MREVKIVTDSTVDLSNEEIEKYGIRVVPLSISIEGETYLDRIDLTPEAFMKKMKESKELP
+KSSQPPAGEFAKLYDELGSDGSKVISIHMTGGMSGTVRSAETAAEMSSSDVTVIDSRFIS
+KGLSFQVIEAAKMAAEGKSPEDILTRIEQIKNATNLFVVVDTLENLVKGGRIGKGRALIG
+SLLNIKPIASLEGGEYTPVAKVRSHSQVVKYLAAEFVNDVKGKTIKGVGLVHADGFELAQ
+KLKSRIIELTGYDSIEIEDTTPVISTHTGPGTIGFMYYAE
+>tr|A6CLM5|A6CLM5_9BACI
+MVNIHVVRDEEEFLLLREEWNMIAERMEEATPFQTWEWNYHFWRCIERNFELNILAVYKG
+EKLVGVAPMINKDGALVFIGSDYSDYGSFIVERNTYRVISKMLKTLIEQGWSRIELRELS
+SRNPQTHALRRIFQNEKSAFFQQLKRTVSIPIRNYVDWEDYYKGLTSSFKKKNLNSRLKK
+EHEFMILDQFDSKAGEMIADIYDSRQEQRMGNSNLKLLLPFMESLHQSGLLMVTFINIGG
+VPKAFGLILDYKEKKYVWVTAFSPEFSGIGHLLHYYLMLTAIDKKNSEVDFMRGDYDYKL
+QLNGELHTNYQLILFKSVFQKYLFVIKYQIRLSLRNFVYRHKNIRKLYTKLSKYISYK
+>tr|A6CSH4|A6CSH4_9BACI
+MNYAEEMLISLENGDLDKAEKHFKRVKNLGTDEEKYSLAENLYHLGFLEETKELLETLLA
+KYPDEGELIVMLSEVLVEMDDEEGALERLSEMDETDPDYPRALLLQADLFQMQGLFEVSE
+QKLLHAKRLLAHEPIIDFALGELYLEIGKFLEAIRSYESVLKAGKTNVGGVDVHQRMGEA
+LSAGGDFEQALEHYEKALDEHLEINTLFGYAFTAYQAGYYARAIEKLEGVKELDPDYSSL
+YLLLSKAYENEEELEKSLETVKEGVTHDEFNKELLFHGGKICLKLGDEEGAEQFIRESLA
+LDQGYMEAALTLNKLFLQQERYDDILEIIKLMESEGEEDPQLHWDAAIAYEKTENYKEAL
+KQYRLAYTFFKEHPEFLQEYGYFLIEEGKHGEAREVFSELVKKDPSNEEWAMVIERLEE
+>tr|A6CPV9|A6CPV9_9BACI
+MRVSNWILVESAPSKRGYEVVELSFGGIGPVKERLWGCRIWFWEESAPSKRGYEGVELDF
+G
+>tr|A6CIH6|A6CIH6_9BACI
+MKLKPLIKLGVLFFCILTISACTNNKTTVEEQVMKLVPFPQSTNILYIEEHKGGKMILYI
+DKSGFRGAFYEEELDYFQDTTNAELTPQDGFDWTMDNNTHMAIFAGVITDEKIKTVIVKQ
+RTIEQQAKIIDIPEGERYWFTTFEGLEETQKGEPDPLKIEAYDMDGELYWISGVYDGGAY
+EGRTE
+>tr|A6CJ58|A6CJ58_9BACI
+MKKGWISTIGGITLGLVISFFTLEYNGWKFIRHDRDGEVYQVTNEIDVNLITNSFFIIVA
+SGVAIYIALRLVEKFSGKNHQA
+>tr|A6CPY0|A6CPY0_9BACI
+MMEGEKMKLFQGGKKFLILSLVLVLISMIGASAVQTSGGKVTVKDLRWETPSGHLMSALL
+FVPDSATVDNPAPGIVTSHGWYNNREMQDLNFVEYSRRGYVVMSIDMYGHGNSDAVASTE
+WQNRGTGMYDAVELMADLPYVDTSKIGVTGHSNGARAANWSVLEDNKKPEGEQLISSVLL
+VANDAMYSSDPGEPLYWSMRNDTQEYTNVYGSRDVGIIAAKYDEFFFRSLSEDGTVTPPR
+DYIDTEYAQSFLNFGVDPKDEGELRSSYTFYGKDINGVKATRVIYNPNQIHPWNHFSASV
+VESSVDYFEETIGAPHPIAPSDQAWQYKAFFNFLGLIGFFMFVVSFTKVMLKTRIFSSLR
+ASKEATAAAAPVGIGKAWFWGGLFVSAIISGWSYLAVFSWSVENRPAFLPQAPVFYIGVW
+SVVMGVVTLVILFLSYRFFSKKQGMDLRETGAIISWKPLLKTIILSLVVTVAAFGLVFIA
+DYFFKTDFRLWVIAIKAFTPDKILLALKYLPFFLVFYVANSIAVNCFNYVSGGKKEWVNT
+ALMAIFNGLSAAVLIAIQYTHFLTKGDVYFTSVSPIVGIWLFPIVIIIPLAAIITRKIYR
+VTKNPYLGGIIYAIIVTVMMVSNTLTQF
+>tr|A6CQS4|A6CQS4_9BACI
+MHYPEPISKLIDSFMKLPGIGPKTAARLAFFVLGMKEDTVLEFAKALVNAKRKLTYCSVC
+GHITDQDPCYICEDTRRDRSIVCVVQDPKDVIAMEKMKEYNGLYHVLHGAISPMDGIGPE
+DINVPDLLKRLQDEGVEEVILATNPNIEGEATAMYISRLLKPSGIRTTRIAHGLPVGGDL
+EYADEVTLSKALEGRRDV
+>tr|A6CHJ0|A6CHJ0_9BACI
+MTVNHGGTLGKEYFISYLSLIMNSRGCSAEEAHDIAFHLFFKGNEDAFGQKTYQEFLTAY
+AIMNDNGG
+>tr|A6CPG1|A6CPG1_9BACI
+MLCDDDFRLRLGGLQNNMNFKLRQFIGCLVEFELEDGRKMEVQICYVGTNFVEVKKFDDI
+VDPAPDPHQQEEPDTPDYEQADDAALADESSDHKRHCSSWIILVEKIKYVKIHHEDKCC
+>tr|A6CRK7|A6CRK7_9BACI
+MRQEKAVESISESLKKDELVQAIFLKGSMGRGENDEHSDVDLYVLVKEEDEKKFLEKRVD
+HLNAYRNLLFYDDIYIIAPQIIAVYDDMLHVDLFTVTEKNFKEKDYFKVVYDPNNIMGKF
+EATQNLLLSPEEFHELAIDVPWFLFQYRKAYNRGNNLWGVEV
+>tr|A6CTN2|A6CTN2_9BACI
+MSHTSDNDKKAKDNNALHHEKNMMKEKNRQRGKNQYSKKTDHL
+>tr|A6CIB6|A6CIB6_9BACI
+MKSLLKESIPVINIQPNCWNEHGELKAVIVCSPTTLDVPDKQTAKDVQWEKPVNQKKSHE
+NFKDMVEAMKNAGVNVINYSDYLSPEELKLNEQLINRVFVRDLACAFGNTLIPGEPGTSM
+RRPEYVQSHILFQHWYGPETFDIKANNQLDALEYGDVLILNKDAVFVNVGMRSSMKSIKA
+LKEKIFQAGFSEIGVIDLPRRADTLHLDMNCNVAGDDLLIAKSYMRYFPVEVLTESGSNF
+QMMQQFLNRHGFDVEWSTEIKHTVADINFFNLDPETILISTAATPKIFKEHPKLKKKRYI
+QVDVNELEKGGGGIRCMTLPLVRSI
+>tr|A6CPZ8|A6CPZ8_9BACI
+MINRELCVNSVNIDAVASSSLFLVGDANTIQLASTFDTPAESLIIGPFVPLTPKG
+>tr|A6CSB4|A6CSB4_9BACI
+MLFHCGISKTNAERPVLLIPTGLTQELRAFAGETVSLRIGLSQFETITSYETTDRDCCEL
+VFPENHPIQLSGFFNFATHFSEKENTVTLGPVIGVITDTDTSGKPVIGRLEKYYEELQRF
+TKMQGGLFFLTGSSLLKRQKGYLFNDEEGEWFQSSIPLPDILYNRIHSRKTDRSEALKSL
+ISHMENQSVFVFNTSYLTKDYVYELLSQEEYLLEYLPPTEIFSLSGLRRLIEHHQDLFIK
+HIAGSQGKKLLRLTYLEDEYQLTQNIGDETVQCSFSSLRETAEELAKLKVSSNFIMQETI
+RLLKFGERALDFRFLCHLVNRQEWKLVSAVARISGDGQFVSNIAQGGELAKPLNILCEFF
+SAEDAFNIYRVMEELALSACTRLAENYPLTLGELGVDLGVDEAGKPWLIEVNSKPSKQTY
+TDHNTIRPSVKSLYTLSKNIWEERSASYDQTGNYDAGT
+>tr|A6CIM3|A6CIM3_9BACI
+MTSFAALLFWYPAAFLLMGVVLGILFKTTKVNVLIVLILGFFFSNLAFFYLTEGGLPGIE
+RNAEGKGFAVFSDLSFSETLSVLLTPTFYTLFYIFLLIVGFLVVNALKKGRGKSISM
+>tr|A6CLH5|A6CLH5_9BACI
+MSGRKDEELQDVTLLGNQGTDYLFEYAPQVLETFDNQHPNRDYFVKFNCPEFTSLCPKTR
+QPDFATIYISYIPDIKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVW
+GKFTPRGGISIDPYCNYGKPGTKFEKMAEYRMMNHDLYPETIDNR
+>tr|A6CTB3|A6CTB3_9BACI
+MNIHEYQGKEILRNNGVAVPNGKVAFTADEAVEAAKTLDSSVYVVKAQIHAGGRGKAGGV
+KIAKSVDEVRTYAEELLGKTLVTHQTGPEGKEVKRLLIEEGCDIKKEYYVGLVLDRATSQ
+VVLMASEEGGTEIEEVAAETPEKIFKEYIDPVVGLTGFQARRIAFNINIPKELVNKAAKF
+MLGLYNVYIQKDASIVEINPLVVTGGGDVMALDAKFNFDSNALYRQKNVLELRDLEEEDA
+KEIEASKYDLSYISLDGNIGCMVNGAGLAMATMDIVKHYGGDPANFLDVGGGATAEKVTE
+AFKIILSDENVKGIFVNIFGGIMKCDIIAEGVVEAAKQVELTVPLVVRLEGTNVDLGKKI
+LNESGLNIIAAQSMADGAQKIVEQVG
+>tr|A6CJ13|A6CJ13_9BACI
+MFIVIICGTNELTVFAHSTAEKPSKMVCIEESKEEYESFNNEVLNEILKSYKLDLSGYQE
+YTHDDLNLKVGDNLNDHSDKISLQHLFRGSSIGSRRLFLENGLEGKRGYFLYKKIDGNNV
+LKELHKEGKIWVVTSGSEKKGKRLRLKPFNWDKCLED
+>tr|A6CJU2|A6CJU2_9BACI
+MNKGKLTIAELVKRNKEELLKDKRKMEKIEMRIEEKYLKNSK
+>tr|A6CNJ5|A6CNJ5_9BACI
+MFRIGYRTAKTAVGTAIAILIAQWFGLENFASAGILTILCIQDTKKKSLKAAWSRFLACI
+LAIVFASILFELLFYHPIIIGLLLLFFIPTTVMLKITQGIVTSSVIILHVYSAQNVTVDL
+IVNELGIISIGIGIALLANLYMPSVENKLIAYQEQIEENFHRIFTEIVRYLRTNEDKGWA
+GKEITEVEKLINEAKTLAFKDVENHFLRHESLYYLYFKMREKQFDILQRLLPLVTSISSK
+VEQRKMVADFMEELSEHIHPGNTALLYLKKLYDMKVKFEEMELPQTREEFEARAALYQFL
+KEMEDYLLIKSSFKGIRQRKENEMTPKEAN
+>tr|A6CQ02|A6CQ02_9BACI
+MGQDPALFLFSLGHFLLLWASIQRFSSSYWAIFSFCGPASGAFPLLIGPFSPFVGQYPAL
+FLFLLGHFF
+>tr|A6CKS3|A6CKS3_9BACI
+MTDGLIFFGFYISWCFFTAIRNNNKKGRYSLIIEELLESQAIYKFGRTVDYFVIYEKWIK
+KEVTLSKTCLVEHSENVSEVVKLYKGNAKCGSVIKITDYPIGPRGFSSLEEVLMRIRCYP
+FDEEVKLIV
+>tr|A6CKX4|A6CKX4_9BACI
+MEEKTMIYCCKEHVELAMDVIVDEYEVAPKLEQLTDNQELSTTCEYCNNQAEYLVAN
+>tr|A6CHS3|A6CHS3_9BACI
+MNEKGGNDTMAFGRRNEEEIKTEETKIWKCSSEGCKGWMRDNFKSEETPHCPLCKSEMAP
+SSEVLQVVDNPHPTTK
+>tr|A6CJ52|A6CJ52_9BACI
+MHNQENNKGKTLLLVAGWLSVVLAFFEGSLILSIIAVCIGIVLRKDYHDRKKGLYLIIFG
+IVMGLSGPLLGWFVIRSMQ
+>tr|A6CLJ5|A6CLJ5_9BACI
+MTYSDVWDLDVFFEGGSSSPQLREHLDTLDKKKAEFAKKEKTFQAPQSIEDSIQVANLIE
+EAKEIMLYLRQAGAFIGCLEAQNMKDRKADALRGELTTASADFQVAFNSFQQKLSETPEN
+VWADLLQTDALAELTFVLNEWREKAKDKLSSEEEALIQSLSIDGYHGWGQMYDTIVGSME
+IPYNGETLSIGQANNLSSHPDEKVRKEIFDSLEKAWTEKEELFAKTLNHLAGFRLNVYKK
+RGWDEVLKEPLEYNRMKKETLEAMWGAISKNKAPFVNYLDKKAKMLGKEKMDWYNMDAPV
+AESNSTMSYNEGADFILKHFARFGNEMAEFAQKAFEDRWIEAEDRAGKRPGGFCTSFPLS
+EQSRIFMTYSGSMSNVATLAHELGHAFHSYALRPMHTLNRNYAMNVAETASTFAEMIVAD
+AAVKEAQTKEEKIALVEDKLQRSVAFFMNIHARFLFETRFYEERKNGLVAVERLNELMTE
+AQKEAYAGALDEAHPHFWASKLHFYISGVPFYNFPYTFGYLFSLSIYAKALEADENYEEK
+YMALLRDTAVMSVEELAMKHLGEDITKEAFWEKGIALCINDVEEFLSLTE
+>tr|A6CMU8|A6CMU8_9BACI
+MNTEMNLLVPASFLQAGVSFLEDGEDGSGCADLTLPLSLS
+>tr|A6CTH7|A6CTH7_9BACI
+MKKIITAVLMVLTVSLLTGCLYPQEQLQKNQIPYEDQITAVQSSVEKYQSSTGGLLPIKT
+RDQDTPVYIKYPIDFSKLKGQFLSEVPGNAYENGGIFQYVLIDVEDNPTVKIFDLRIAEK
+IREINIRIRSIGYPPFKESIADNVYTLDYSLIGYDEEPSVMSPYSNQNLPLLINGSGEIF
+VDYRIDLNKLLQENEYEFEKGEDIRPILTKDSAFVPAYSPPYTVNEENEPVFMMK
+>tr|A6CIH8|A6CIH8_9BACI
+MMPPACYQEWANSGRKLNGKLISGGLLTWIKDGTYLQMDSSYLTKNEMVEIAKTIR
+>tr|A6CSD2|A6CSD2_9BACI
+MLEKGGSPLATVLIVDDAKFMRMALGNMLQNSEHQVIGEAETGFQAIEQYRNLQPDIVTM
+DITMPEMTGIEAVRQIIKEYPEAKIIMCTAMGQQKLVVEAIEAGAKDFIVKPFDESRVVE
+AINRVLN
+>tr|A6CKU0|A6CKU0_9BACI
+MHEIKQHINNYVLQPDDQLLHGLAGKPLRYKQINFIPIK
+>tr|A6CK11|A6CK11_9BACI
+MGNKVTLVKPTINLKKQYLEFYQEWKDSGEDMVPWVIEKDPSDFQAMLSFIENNSKGVNL
+PAGWVPDSTYWLVDAGQNVVGAVNIRHSLTEALLNAGGHIGYGIRPSARRKGFATKILAL
+SLEKTKELGIDRVLVVCDKGNIGSEKTIIKNGGKPDEDFIEENGNVIKRYWIQNT
+>tr|A6CRL9|A6CRL9_9BACI
+MEVERLKITDIHIYGFGKLENFKVKDLQQFSVFYGENEAGKSTIMAFIHGVLFGFPTKLH
+AEQRYEPKTHAKYGGRLTLINGNGDSITVERVKGKAAGDVTVFYKDGSIGDEEELKKELQ
+GIDKSTFQGIYSFNIHGLQEISRLKEEEINRYLFSSGMTGTDAIFKLEEQWQKELDRLFK
+KSGKKPEINQKLTELRETELQLKKAKEKNETFTLLLQKKNKSEESLSALHREMERKEEEL
+KQVETLKKSWHDLHEYQDIRDRLKELEDITSFPIDGLQRLDNWQTERARQQSVLEVTNSR
+LGELEKAMEESMPDKPIAERASLLSSLLEKRELFTKWQDQAAEYERTISQLNAKIGHLRQ
+ELKVEELDSLSGVQLDMVTKDRVKSTEESLYKLQVKKESLQESIQAEENQVHYFEQRCTE
+LEDRMLEEPKFQELQKRVRESKEADTLKIQYELVQEQLRENKERTSKKSKKALPLLTGVL
+SSVITALLVWFATDSLLLAAVASVAILAVSLFLISSQENKGGKSYWSDLKNKAEVLQEKI
+QAQENQDNDNYMELYKEQSDLRESWKQWVLKLENHQHRLLKLGEEYRNWAAEEEAAQEEF
+HRLAKELRLPLEMHWKLLGEAFEKLKELMKLIDEKQNNVEVYHNCLKKISNFKMELEDAV
+EGLALPLTSVEETLVRIKDALLINERKSLSYEHHKKQYENALKEREIIQVQLNTIKCEIR
+ELLTAGEAETAEDFRRKAALVNEKNSLQQQERILLNRLGMNLIRVFNEIKEKDMDMSGLK
+INLDEVLTDIKQKIYKENENLAEAVYEISVLEEGESYTRLLYKYQEQKASLNELSREWLK
+YSLARSALKKTIEDYKKEKLPKVIQTAGHYLGLLTNGEYSKIRSQQEKTFVVTRNDGMVF
+SPDELSQGTKEQVYIALRFALVGMLKDVYSMPVIIDDGFVNFDEKRTEAVMKLLGKIKDD
+IQVLFFTCHPHILKHVKSGEIVHLSNSTNEALTMAGENR
+>tr|A6CT87|A6CT87_9BACI
+MKDWEAAYFAGIIDGEGSISLTRLHENEHRRPIISIASTDRELLVYLKELAGGSINNKKN
+YKPERHKNSYTLVYKSKKEVLYILRKIHPYLRVSKKKQRALWILNHYERVTKRNGKYSRS
+ALKEKLQFEEDFFNI
+>tr|A6CSD5|A6CSD5_9BACI
+MKKAAISLGISLLTLAGCGTIEESTEANPAEAEAVKEIQQENFVTETPDTKVNGSTDNDS
+DMNKEKAENVLNQYKGLFMEVINEGSQLEEYENKDEIIQHFSSIMTTEYAESLVDLYIKE
+ENGELSVVATETPIWLQEDQEFDLEKVTDQEYHAVQNIDNQLRGKKGVIFTLVMEEGSWV
+VADVTTGQVEEEEEQYKTGTDDRMEDRDSK
+>tr|A6CSF0|A6CSF0_9BACI
+MCTGREPYRKRGLLLESSKDQNNREMEAVPLFGYELMRDILLPEILGKHTTDVLYWGGKS
+LARRFPLVSLEEMEAFFLEAGWGKLSLTDDKKDEQIFILSGPFIERRLALKTDISFKMEA
+GFLAEQVQSQKKVVTEAAEEIHKRSKTVKIIVRSDLKDKIE
+>tr|A6CSL1|A6CSL1_9BACI
+MTKIHTIKDVAKKANVSIATVSRVINDLGGYGAATKEKVLNAIQELNYQPNGLARSLINK
+KSETIAVLFPSVSNMFSSSILKGVEDLVHQRGSSVIVCNTASKGEKTLKYLKVLQEKRID
+GIIFVSEVITDEYYEFLSNMNVPIVLVSTESYRYSLPYVKVNDRHAAYSATEYLIEKGHR
+RIGMVSGNPSDMIAGQPRMEGFKDALKSHGIQVEEKSIVTSRGFSFEDGLQGLMRLMSST
+TDLTAVFLASDEMAVGALSAAYQMGIKVPDDLSIIGYDNLPLGEMSIPPLTTVAQPLEEM
+GEKAASMLFKMLETGETAESRIIGHSIIERQSVKEIK
+>tr|A6CNK1|A6CNK1_9BACI
+MIFPVIETNRLILRQPIKDDAQDMLKYLSDQDVVKHMGLLPFQSIEDALGEIQWYDSILK
+DGSGIRWGITLKENNKMIGSCGFLNMAAEHSRAEIGYELSQDYWGKGIAGEALEAVVLYG
+FKHFHLERIQALIEPGNSPSQMLVEAKGFQREGLLRHYEYTNGNFDDLYMYSLLKSDLDD
+KIRGS
+>tr|A6CTR0|A6CTR0_9BACI
+EGTEALLAMGVKPVGAVQSWIGDPWYEHIADKMADVEVVGTESELNIEAIAKLKPDLIIG
+NKMRQEEQYDKLKAIAPTVFAETLRGNWKENFELYSKALNKEEKGQEVIAEYDQRIEELK
+GELGDKLDMEVSMVRFMPTDVRIYHKDSFSGVILDQLGFARPEGQDVDDFAEKGVTKERI
+PAMDGDILFYFAYDTGDGEGNKVAEEWVNDPLFQKLEVAQADNVHEVSDPVWNTAGGVIA
+ANLMLDDIEKFFLEQ
+>tr|A6CHA2|A6CHA2_9BACI
+MSSFTTANEIRRTEMKYFIKNFLNGVLTILPIGLVIYVVYKLFIFLDGLLGNLLKPHFNE
+HYIPGIGLLMTVVLITLLGWLSTKFITGSVIKLLDFGLTKIPLVKTLYSIIKDTVHSFIG
+EKKSFSKVALVTLPGTGMKSLGFITSEQLELFHSPLEKYAAVYIPQTFQVAGFTFLVPKE
+EIEIIDVSPEDAMKFILSGGMTSSNSKNIKKS
+>tr|A6CQ94|A6CQ94_9BACI
+MKGGEIMNVGAMLSMQNVGQLSGKGVLQKPQVGEGATLFSSILQQAGQTEETIGKLEVEM
+IQLLKILNAPQTEEPPGVNVNETSDINMNDILLEAGLTQEDFISALVSVKDEIEKQVPHL
+KEMLAQLEEGNKEEILFELIEIISVLPADNLKKLGSPSMEVLMKTSKAFQHAFRQIDLNF
+QQTEKADALQQNLKVIAQKVEQLLSSESLRNGKWTGILEKVFHENINSKQSSTIPNTSVI
+NKSAITLPTLAAAVIKTPHVITGEQPTELEGEQTAKIIAPTSLSAFANQQQMTRVEQFSL
+FVNKGHQGTTYEQFVKEFANIIGKSQMVQTPNMSKLLIKLYPEQLGSIRIELLQQDGIMT
+AKILASTKAAKDILDSQLTGLRQALNSQNLQVEKIEIAQTFTESQKQERQSAQQHNGQQQ
+KEQSDQESNNKEEPETTFKELLMNSEV
+>tr|A6CIB7|A6CIB7_9BACI
+MNLLTKSWIDANQTELEEWKRNAYSEFSSMMLSTENPYPCVPGIQGFQKDQLRFGFTGNP
+HDDASRKEFASMLKEYGKISRETGNYASIVVFFDSREVTYEKDANNQYQDLFWSILNRVH
+ELDEAPWPEDIPEDPHDTAWEFCFDGEPYFAFCATPSHFERKSRHFPYFLLALQPRWVFD
+EINASTTFGQKLKKVIRKRLKDFDGADAHPNLKWYGQDDNHEWKQYFLSDDGQTPSKCPF
+TAMKNRLKKIRI
+>tr|A6CJR9|A6CJR9_9BACI
+MKKIIDLIVLGLIATGILLTGCNNEENGDGEDKSLVIGLNNWAENIAVSNMWKILLEEKE
+YEVELKSMEKAPVWLGITRDELDIAPEVWLPNTDKPLMDKYGEQLNMHEVWYENTGLGLV
+VPSYMEDITSIEELNARKDEFGGRIVGIDPGASLTSMTQKAIEEYGLELDLVTSSGPAMI
+AELSKAYKDKEPIVVTLWNPHWAFSEYDLKYLEDPKKVYGEADDIYYMTRKGFEEDHPEV
+VKSMNTWKMDDESLGNLMAVIKDTGDPAEGAKAWIEDNREMVDQWLK
+>tr|A6CNZ9|A6CNZ9_9BACI
+MFINIEHLNKHFIDKDGQPVTVLKDIDLSIEKGEFVSILGPSGCGKSTLLNIVAGLTSAS
+SGVIEAAGQSIKKPGKDRGMVFQQAALFPWLNVLDNVMFPLKKEMTKKDAAAQAKKYLKM
+VQLSNYLHHYPHELSGGMQQRVAIARALAMNPEILLMDEPFGALDEQTRSRLHEQLEQIW
+MDTKKTVMFVTHSISESIKLSDRIIVMGTRPGTIIADIKVDIPRPREGHKEEMIAIEEEI
+MVHLKKEIDKVVSEELAYEANS
+>tr|A6CR19|A6CR19_9BACI
+MPYVTVKMLEGRNEDQKKALVEKVTAAVSETTGAAEDKIVVFIEEMSKNHYAVGGKRLSD
+EG
+>tr|A6CI54|A6CI54_9BACI
+MRNRGSVVIIKERSAVLIKRVNNGEEYYVFPGGGIEQGETPEKAAIREAYEELGVRVRLN
+ECIAEVNFKGRQYFYSADILHGKIGEGKAEEFNGSSRGTYKPVWVPLDDFPLLDIRPEEV
+ARKISNNL
+>tr|A6CJP9|A6CJP9_9BACI
+MDRDWKKPRKERMTGMAWIYLVIGGVLEIGWAIGISFSDGFTDLTPSIITILLLLISFYF
+FAKSMKMIPIGTAYAVFTGIGAGGTSIIGMVFLGEEISLIKIGFISLLIFGVLGLKFSSN
+EEEKNEPQNLEAK
+>tr|A6CQF0|A6CQF0_9BACI
+MIPTIPAYFLWDFSILPVIAMLLIQYKPQMSVYYKAAIYSLGSSFLGEPLFEAIGFYKKI
+HWEYYYSVPIQFIIFVIASILYSRIDK
+>tr|A6CNL0|A6CNL0_9BACI
+MKKLGIAVILFTFFILVGFLYFLNGSKIIDGEYDKLTIMKVENVVYVIEDKDLINSVVRQ
+INTSPRVFNADSPGFYHDTMYFGILIFEGNSEKKTLAFKIPDGNVITKYWEVETGFDFAE
+DVNDNIRRKIY
+>tr|A6CRN7|A6CRN7_9BACI
+MAHIVFYEQKKMIKSIPQAYDNYERGLKMNRYHPFYTPIQRPQTPRWPPVNPYYAVHRHP
+YDYPPVQPKQFMDSADKTKPLLDDAQLVMDKVSQSRDFAIKLMDAAQKSNMDELNRLIKN
+TGVSSTPGIKFNPDGFTLLFNNKTANIDCCHLTIILRWK
+>tr|A6CHB9|A6CHB9_9BACI
+MALLEKIIRPKSYTKAYDITIFQTPHFGQRKGYKKVYRMPVPAQDRLEALDQTFRLFNVP
+DRMPKDYNGRYITTGDIIFIDEGRKGHYYFRLEPGGWKEVNRVIIR
+>tr|A6CM86|A6CM86_9BACI
+MQKFFLALIRLYQVVISPLKPPTCRFYPTCSHYGLESIKRFGAVRGGWLTIKRIVKCHPF
+HPGGIDHVPEEWPSRKKS
+>tr|A6CTM4|A6CTM4_9BACI
+MPEVRKVIATEEASKLISRLKDKHGPLLFHQSGGCCDGSSPMCYQEGDMLIGDSDVLLGH
+IDGCPFYISKAQYDYWKHTQLIIDVVKGRGGMFSLEGPEGLRFLTRSRIFNDEEKAEL
+>tr|A6CU54|A6CU54_9BACI
+FISVHYDSIYDSSIKGYTAYYYHSYQKDLSQSILDNLGKTLSSRNRGVKKGNYYVLRENK
+QPAVLLELGYLSNPSEEALVNTHSFQDMAARSIYNGLTEYFRK
+>tr|A6CHQ8|A6CHQ8_9BACI
+MFLSFFAGLKKAALFFSGSFESVWNRIKKIDQASVDLQKFVWMYYYGD
+>tr|A6CNM9|A6CNM9_9BACI
+MTGGLENAVVDIGVLGNFNDNPIVFALGAFDLPDRNENSEADLKSVKL
+>tr|A6CN33|A6CN33_9BACI
+MVNEMRVISGECKGRPLKAVPGSGTRPTTDKVKEAIFNIIGPYFESGTGLDLFAGSGGLG
+IEALSRGLEKVIFVDKDFKAMQTVKSNLDSCGYNEKSEVYRNEAGRALKAVNKRELKFHY
+IFLDPPYKKQKLQELLEEIEENDLLIESGYVVCEHSSDIVLPEDIGSLRTIRKESYGIIG
+ITIYQKHVE
+>tr|A6CSD9|A6CSD9_9BACI
+MFWQFILVGVLAALAGVALGFFIARKYMMSYLKKNPPINEQMLRMMMMQMGQKPSQKKIN
+QMMNAMNKNMK
+>tr|A6CRP3|A6CRP3_9BACI
+MFFGKNITMQKWIGAIATVATVVASITLVNVVRTEGIQTVDLGSWEAPFGITMVSDMMSA
+LLVTTTSIITFFVLLYSFRSIGKDREQFYYYPVVQFLLVGVNGAFTTGDIFNLFVFFEVM
+LMSSYVLLVLGGTKVQLRESIKYILVNIISSALFVVMVAYLYSVLGTLNMADISVKIAEV
+DQPGILTVIAVMFLVVFGLKGAIFPLYFWLPGSYYAPPTPVLALFGALLTKVGVYSIMRT
+YTLFFYHDTGYTHAILAWLAILTIIVGCIGAIAYWDVKKILIYNIIIAVGVILFGVSVMS
+PESLEGAVYYLIHDMIIKAALFLLVGVMIAITGTSNLRKMGGLIKDYPWLGWTFLIATLT
+LAGIPPFSGFIGKVLLVRGSFAAEAYIGGGLILLSSLFVLYSVIKIFLNGIWGVPKEYDG
+RNKQNAFYLWGSAVFLVILAVGYGVGAEAVRPLISQASEALSDPGIYIQAVLKE
+>tr|A6CID1|A6CID1_9BACI
+MSAGGYGYGSGFALIVVLFILLIIIGASWVGGGYGY
+>tr|A6CK64|A6CK64_9BACI
+MRYFIIFLLVLLASVSLFFPLAMFAGEIVETGVLLLILLAAFIISLLFYIIDLLKKR
+>tr|A6CT85|A6CT85_9BACI
+MLDINQFDSFNNSSLKIDKEFPSCPLEGQFEQMIPILKEKGGNHLTHLAFLKDKEVFWAK
+DETVFIVYRQIANKLVVLGDPIGSEGNIGNSIKEFCEYSDSQGLKPVFYQISTKYMSYYH
+DSGYRFIKLGEEGLVHLERFTMSGKQNGNLRNRMNHFERNGITFEVIHPPFDKELLAEMT
+FVSNSWLGNQKEKAFSVASFREDYVSRFPIAVLWDCEGKLIAFSTLAPNFKDSVSIDLMR
+RVSDSPPGTMAVLFIHIFNWAKAQGFKTCSLGMSPLANVGNCSHSLTTEKVIRLAYLYGN
+SLYNFRGLKAFKDKFSTNWEPKYLAYKKTILPIAFVQLLLLINGKPRVKFLQERR
+>tr|A6CI95|A6CI95_9BACI
+MNLQYEIISEEDAECLRDTCNELMAFQKSRASISPEFFDNMNFETRMIPSLNKAIHNYLA
+AVKDGNNIVGYVYSNISPKEAYDSDFATFFDLSSVSKENVGCLSQFYIKEEYRAYGVGST
+LFKMSMDWLNQFNDIEDYFIFVSNGNDNALEFYKRKGFKVSHDILDGFITVLRSSRSD
+>tr|A6CJT3|A6CJT3_9BACI
+MRSLQFSVRQVIGIIAVTLSGVLVSVGIQIPLFFGFLPGYLLLTAVILLKGARPEEVLNR
+SWEGLKKTRGVIYILLMVSFLLPSWFISGVIDQLVSISLHLITADHFFVSAFFISLIFSM
+ILGTSVGTLSAVGIPIMSSAAALGLPVSITAGALISGAFVGDRTSPFSSSHQLLSHTVEV
+KTGMQFRRFLPTTLAAILVCMAFFMALDAGKHSGMTVFSNNVFQWSGLSLLKFLPPFILI
+LFVILRLKIIYAFISSVIAAIIISISQGVGILSVIHSLWFGAEGVGGGLSSMYFLLLFLA
+LAGAFNGLLEGYRVIQPLLDHWLSQTTGLINDSIKTITATFIISLISANQTLPIILTGRS
+FLKHWNEKYDKAELARVMGDSTMLFPGMIPWSVLAIMCSTIVGVPIISYLPYAVFLWILP
+LLTIILSFYKHNRYKMMQSGSASTTH
+>tr|A6CHX0|A6CHX0_9BACI
+MNLNEREGWYREEVMLVYMKVMKAEKFLKGIYLTVAWHSYRRNTNV
+>tr|A6CQ66|A6CQ66_9BACI
+MTIHPVRLTGLVIGVPQTFEYLDKMQDRVVNFVTRHSKVTEEDFKELMFAKGNLTRDIGT
+NVVGEDAVKYGLIDGVGGVGEAIKKLNELIELKGGTKEEGIIQ
+>tr|A6CL66|A6CL66_9BACI
+MIFQEDNDMNRHQKLIQEAAASVKEMRDKVNQSPWKPSYHLAPPAYWMNDPNGFSYYHGE
+YHLFYQHHPFSPDWGPMYWGHFKSRDLAHWEEAPIALAPSEEYDRDGCFSGSAIEKDGKL
+YLMYTGNQWTGPDHDKDLYQVQALAVSEDGITFEKVPENPVIDPAPEGDIHPYHFRDPKV
+WKKGDHYYCVLGSRTKEHAGQVLLYRSEDLYHWEFVNVAAKGEGNFGFMWECPDLFEIDG
+QTILMMSPQGMEPEGSLYHNLHQAGYVVGQLDYETGNLKHGEFELLDHGFDFYAPQTMED
+PWGRRIMIAWMNMWESHMPEQEEGFAGAMTIPRELILENGKLKSKPVPELEKRRKNHKGY
+SNIRVEGESV
+>tr|A6CLX6|A6CLX6_9BACI
+MDILKKVEGYRVEEEKLKWEGTFADYLDIIKERPIVAQSAHSRVFNMIQDAGVEEVNGKR
+KYKFFSNQLFGLEEALERLVEEYFHPAAKRLDVRKRILLLMGPVSGGKSTLVSMLKRGLE
+AYSRTDRGAIYAIKGCPMHEDPLHLIPQHLREDFFDEYGIRIEGNLSPLNTMRVEKEYSG
+RIEDVLVERIFFSEDKRVGVGTFSPSDPKSQDIADLTGSIDFSTIAEYGSESDPRAYRFD
+GELNKANRGLMEFQEMLKCDEKFLWHLLSLTQEGNFKAGRFALISADELVVAHTNETEYR
+SFISNKKNEALHSRIIVMPVPYNLKVTQEEKIYEKMISESDVSGVHIAPHTLRVAAMFTI
+LTRLKEPKRGDIDLIKKMRLYDGESVEGFNSADVEEMKKEYQDEGMSGIDPRYVINRISS
+TIIRKEMSSINALDVLRSLKEGLDQHPSITQELREKYLNFISVARKEYDDIAKKEVQKAF
+VYSYEESAKTLMDNYLDNVEAYCNKAKLRDPLTGEEINPDEKLMRSIEEQIGISENAKKA
+FREEILIRISAYARKGKRFDYNSHDRLREAIQKKLFADLKDVVKITTSSKTPDEQQLKKV
+NEVVARLIDEYGYNSTSANDLLKYVGSLLNR
+>tr|A6CIY2|A6CIY2_9BACI
+MYIGDFLYLAVIISLLLLGAISFTLFIRRLLINTKVTSNTSDDINKKLDRIIELLEKHSK
+>tr|A6CMJ5|A6CMJ5_9BACI
+MIMYREIPINMVINNLGLQKLIAGSAIKGLDIKAIGQSLKEDRKFYCKCRTLMNWQGACV
+VLLPLKRNENYGAVARLIRKLLPK
+>tr|A6CQ92|A6CQ92_9BACI
+MTYTFKFEKILTLKEREKEEIRESYRDSVEKFEKIAEKLYELLKKKEDLQSYQSERMLNG
+LSVQEIRHNQHFIANIEKTIDYYQGLVIQARNRMNWYEEKLSEMNIEVKKYEKIRENDFN
+KYKELMHSSENKILDEMAVMQYANKRN
+>tr|A6CJP4|A6CJP4_9BACI
+MEIYITSDRILSILLEATDSFLMETQVIREVMELAPVKDMECLDLAEDMVHFKIQDTTVL
+AHLATEVRMEVQGMVLDMEILTGALDTVLEEDFQH
+>tr|A6CNM4|A6CNM4_9BACI
+MMIRRLIVKESTAYLTILLVFSFFLFLLITGLFETQEPAIVFLLSIIAVEKLLEKNQWLL
+DAYVKSYNSNKKE
+>tr|A6CQJ7|A6CQJ7_9BACI
+MYHRQQGQGGLFLPLPQFPQTPGYSGGYDGGYGGGYGQFDNRLDRLERQYQRLDRRVDRL
+ERQVERIRRQLGYQ
+>tr|A6CK22|A6CK22_9BACI
+MEVVPMEVNRVKQILASSADINVTYQGAAVWIDELLEDEKLAKVHLRGPLEERTQVAIGD
+LIEES
+>tr|A6CQJ8|A6CQJ8_9BACI
+MSSTLIRGTFILTLGVFISKFLGLFFVIPFYALLGNEVEPTSLYSYGYVPYTIFLTIATA
+GVPLAVSKFISKYNSLQEYSVGRKLFKSGLVLMTLTGIVSFLIMYIFAPFFAKVTIPSEE
+QVITVEQVTTVIRAVSFALIIIPFMSLIRGFFQGHNSMGPTAVSQVIEQIVRIVFLLVGV
+YVVLYVIKGDMTTAISVATFGAFVGGIASLASLIWYWFKRKPHFDKMLEEDKGTVDISLV
+EIYKEIIAYSIPFIFVGIANPLFQLVDQVTFNRAMGAIGNADIADTAFGVLNFAAHKLVI
+IPVSLATAFSMSLLPLITSAYTQNEYGKMNRQLDQTFQILLFLTIPAAFGISLLAEPTYT
+LFYSHSGLGTEVLRTYAPVAILFALFAVTAAILQGIDKQKFTILSLLVGLLIKLVLNIPL
+IKLLETQGAVLATTLGYLAATVINLIVIKIYGNYQYNTVFRRTLLILMFNVVMGVAVIIL
+YGILAQFLDPAAKMQAIILVAICGLAGAGVYFYLSFRSRLADRLFGERAAKVRRKLKLGQ
+>tr|A6CQS7|A6CQS7_9BACI
+MDTKQEYFMKLAIDEAKKAEDKAEVPIGAVVVLDGEVIASAHNLRETTQNAVTHAELLAI
+EEACKKLGTWRLENAELYVTLEPCPMCSGAIILSRIKTVVYGAPDPKAGCAGTLMNLLED
+DRFNHQCEVVPGVLQEECGQLLTHFFRGLRARKKEEKKRRKAEMEQHTGIDNG
+>tr|A6CTQ0|A6CTQ0_9BACI
+MESEKEKNGRDKVALRQGGIQKEEIRPGQSDASIRGNQKNRKSAHLNWCFNIVESHKEKI
+VWLKVALRHGGIPRRENRPGQNEPRHGQSTKGKKGCQFIRESVTLMKY
+>tr|A6CSB6|A6CSB6_9BACI
+MIKPYKLERFETKEKILYLPVSMDQETAQTVSLGSLQAAAVCRKHPNGRNVVSISSRLAE
+DLSLPPFISTIYLFRHENTIILGPLIGIFTSGFTSFLMKPIGERSAFFSKLLSLQSSLGV
+IPFVFGDKHIDWENGLVKGHFYIRNQWETHIVPLPNVIYDRLPNRRSERKAGYQEIKTRL
+QKQYGIPWYNPGFFNKLDVFERLENDEEAIRYLPETHAFQSFSQIERMMSKYGQVFIKPK
+NGSLGLGVHQFTFNRKSEEYLCRFQDRNGTNRLIKSSSFEKLLQKMIPAKILNRMIIQQG
+INLMKSGNRPVDFRVHTNKDENGEWQVSAIAAKVAGEGSVTTHLHNGGKVKSLSEIFTDP
+EQCRRTDEKLRLAAITLSSALERNMEGFIGEIGFDFGIDSLGRVWLFEANSKPGRSIFTH
+PDLKSFELLTRKLSLSFGLYLTQQSIRQPQETFK
+>tr|A6CI20|A6CI20_9BACI
+MKDEHFSKLFDEVDKNEETSIEFDTIWRKANRRRWLDKYFHSLKHNLAILCTLLILAPVI
+GSFILNSPSLDQSSKEAAFHHKQYVIEGETIRTEEKAVLKGESALPHGSVLQAKLVKDDL
+KTVVMEEEIVIEKGGSFSVSFEVPQQKEDYVIMLELFPHLQSEKIRKILGHKGEKLYSSS
+QVAGIYHYIIDDTLHTGVRLYGEADREYMNESKKMFGSLKSSIPTVRGN
+>tr|A6CRL5|A6CRL5_9BACI
+MDQEMEKREKNRKVSKKMMQNKRPVSEKEVCARHIQIYAQVMQECARHIQIYARVIQEYA
+QEIGVCAQNCIEDKIPGQKMEQA
+>tr|A6CMJ6|A6CMJ6_9BACI
+MIYWEIFLAFFIPGILGYGGGPASIPLVENEVVDRYGWLTVNEFSEVLALANGLPGPIAT
+KMAGYIGYEQGGILGSIVGVFATVAPSLILMIVLLSLLMKFKSSPRVKKMTNLVKPTIAV
+LLGVMTWGFISSSYEGIGWIQTIILATAAFVLLERLKVHPVYVIGGALVYGAVFLA
+>tr|A6CUB0|A6CUB0_9BACI
+MYAAVNLLQKFLIALFFIGFLEKSTSIKRFLGEFNLQGTDLHDKGNFERT
+>tr|A6CM06|A6CM06_9BACI
+MTKQEHMEMIILPTDQGEVKVFVYGFKPFGSWGQVVVQLNDLTVNSKGYNRKKTIIRTLT
+QLHQMLVNNQE
+>tr|A6CST7|A6CST7_9BACI
+MKKLSFLFLLLPLIFLSACGGGGGEASASQPDYEETKKMVVDILKTDDGKKAIQDIMSDE
+KMKQQLIMDEGVVKETIMTTLTSDKGSEFWKKSFEDPKFAEAMAKSMKGENEKLLKDLMK
+DPEYQGMFIEILKDPEIQKEIGETLKSKEYREHLQQVMTETFESPLFKAKIQDLLIKAAG
+EMQGQGGEEGGQEGGGGESGGGEGGSDDSGGGEENS
+>tr|A6CT96|A6CT96_9BACI
+MERPTALTGIKPTGHPHLGNYIGAIKPALQMAKDSNSQGIYFIADYHALNSVQDRKQFKE
+YTYEIAAAWLSLGLDPEKVIFYKQSDVPEILELHWILSCMTPKGLMNRAHAYKAKVEENN
+QEGNDPDAGVNMGLYTYPILMAADILLFNSDKVPVGKDQVQHVEIARDIAENFNRTFGEA
+IKLPQYVIEEETAVIPGLDGRKMSKSYGNTIPLFSEEKALKKLVNKIVTDSTPPEEPKQV
+INSSLFTLYKEFATSAETETMRNKFETGIGWGQVKKEVFEVMNRELSDPRKKYYDYLNNK
+EELDRILAAGAERAREIASVQLRKIKEMIGC
+>tr|A6CNX1|A6CNX1_9BACI
+MAQRIHKRESVFHLIYRFFFIIVGAGLAAMSIELFLIPNNIIDGGIIGISLILDYLFSEI
+PFISFATLLVVLNLPFMYSGYKHIGKTFVISSLVGVVALAIIESLLHHVEPFVTEEILAT
+VFGGLTLGVGVGLVIRHGGSLDGTEILGILLTKKLPFSVGEFVMFINIFIFGWAAFVFGI
+EEAMYSIMTYYIAFKTIDTVIQGMDETKAVIIVSDYYNEVSQSILDRLGRGTTMLKGRGG
+YTDNDKEVIYVVVTRLEVMKLKGIVGDVDPNAFITIMSTQETKGARFKSAIH
+>tr|A6CLE6|A6CLE6_9BACI
+MAITDRNVMYGVIPFYQECRKNNIKPIIGMTADVMSEREERSFPLVLLAKNNAGYQNLLK
+ISSVIGTKSPEGIPYKWLKGYGEGLIGITPGGKGEIEQHLLAGDINQAEDVVHRMQQVFG
+EESFFLSLQNHGLEDDRKIEDGIEKLKQKLSIRQVVTNDVQFVEKEDAFAHECLLAIRDG
+VKLADDDREILPNDQYYFKSRDEMLDLFGSHVDALENTMKVANQCNVEIAFNQNLLPKYP
+LPAGEEADQYLHGVCMQGLKERGLENIPDYLDRLEYELTVIQKMNFSDYFLIVWDFMKYA
+KDQHILTGPGRGSAAGSLVAYALRITDVDPIKHGLLFERFLNPERISMPDIDIDFPDYRR
+EEVIEYVHKKYGDLHVAQIITFGTLAAKAALRDTARVFGFNSKELEQLSKFIPSRPGSLK
+SVYDESADFRNFINESQHKQRLFQTALKLEGLPRHASTHAAGVIISERPLVDLIPIQAGQ
+GNVHLTQYPMEILEEIGLLKMDFLGLRNLTILDRIVASIRKGTGKRLSLDDLPQNDEKTF
+DLLSQGRTDGVFQLESDGMKNVLVKLRPNSFEDIVAVNALFRPGPMENIPLFISRKHGEE
+TIEYPHPDLKEILGVTYGVIVYQEQIMQIASKMAGFSLGEADLLRRAVSKKKREVLDSER
+KHFIDGALNKGYSFETAQEIYDLIVRFANYGFNRSHAVAYSMIAYQLAYLKANYPSYFLA
+ALLTSVIGNDTKVSQYIREAKQNDINILPPSINLSQFPFKVEKGGIRYSLGAVRGVGAAA
+LKEIYQERQEKPFVDLFDFCLRVSLKAVNRKTLEALVFSGALDDFGVDRSTLLASLDVAL
+EHSELVRPQDQDYDLFQEEEAFFLKPKYTEVEDMPLEKKLEYEKQVLGLYLSDHPVSPFE
+SLFKNVSAIDLFDLEAGNKNIRVGVYLTAVKTIRTKKGEVMAFITMSDSSGEMEGVIFPN
+AFRHYTASVKEGNIVMMEGSVEERNDKMQLLVNKVYSMDEVKDLSEEINKKLYLKIKHTS
+GDEFAAVKGTLRKYKGRVPVIIHFDTESRTVQLPNNQWVNPTAQCMQELRKILGEKNTIL
+K
+>tr|A6CMH8|A6CMH8_9BACI
+MPAGSVFYIIIQKSGKEEPNMKDEQVDIKTPEYVSLQFQTAGLGSRAAAFLIDQLLLTVI
+NILVVIGLAMSLNLSAENAFFEAQAFHSGTIATAVVALFVLNWGYFFAYEFFSGGRTLGK
+KLIGIRVIQDNGQSITLLSSFIRNLMRIIDMLPAYYFVGMLMVFFHGKHKRLGDLTAGTI
+VVHERKKKKSKKKSFIEKEIESRGLSKESFDIGEGALKALGAKEWKLLRTYSQRFMGVEQ
+NQRLVLTRKVAEIILPKVGLAVERQTEEDLENILLVLYLQLKEEWEFEL
+>tr|A6CRT1|A6CRT1_9BACI
+MVGDFQKFVGEAKGWQKKPEEEKRKELKELLGHKPIEVFFGGLSGILLTLVIYYTL
+>tr|A6CTS1|A6CTS1_9BACI
+MREAVIVAGARTPVGKAGKGTLATVRPDDLGALVVKETLKRAGNYEGNIDDLIIGCAMPE
+AEQGLNMARNIGGLAGLPHNVPAITINRYCSSGLQSIAYAAEKIMLGHSDTAIAGGAESM
+SLVPMMGHVVRPNAKLAETAPQYYMSMGHTAEEVAKKFGITREDQDAFAVRSHEKAAKAI
+AEGRFQDEIVPVDVVLRSVNDQNKVVEKNITFSTDEGVRPGTNQQVLSKLRPVFNVKGSV
+TAGNSSQTSDGAAAVMVMDREKASSLGLGPMAKFRSFAVAGVPPEIMGVGPVEAIPKALK
+MAGLQLEDIGLFELNEAFASQSIQVIRQLGLNEEIVNVNGGAIALGHPLGCSGTKLTLSL
+IHEMKRRNVQFGVVTMCIGGGMGAAGVFELIG
+>tr|A6CJQ3|A6CJQ3_9BACI
+MAVFLSYVFLGISLAAPIGPINAAQIDRGIKNGFWHAWMIGLGSVAADFLYMLVVYFGVV
+NFLHTPLIKTFLWSFGFFVLVYTGIESLMGAGKISASSRNSNDTYIKTFFTGFFMALSNP
+LTILFWLGIYGSVLAKTAQTVDHAHLILYSAAIFIGLTLWDVSMAALASSFRKFLTDRLL
+IGISAISGLSLIGFGFYFGWEAIKILFF
+>tr|A6CIX6|A6CIX6_9BACI
+MLGENFYNQVEKKRFNFLIISVIAIVFNAGITFTFVITTLKGFEWFFLFIALLFYFVVAN
+IFVGLFKDRLSLIFIVSLILSALGMGWRLLLEWGEFSLVEHTNPFVLIGYPFIIAIIISF
+IYYFSSKFNFKNRN
+>tr|A6CS41|A6CS41_9BACI
+MNGMYHNYNRRSFVHRYNGYQTNYQGMNPQPYQQQMPYAPPIPYGYSGYPNQQGNYNLYP
+QQQPAYNNQYFQNPLQPEEANYYPQQGSYNEYQGMTNPYPKGSFMVKPPASGVGTIMNSF
+KSQDGSLDFNKMVNTAGQMMNAMNQVSSMVKGLGGMFKV
+>tr|A6CHN9|A6CHN9_9BACI
+MEVYELYLENPQEVDPELKELFEQWGPPGTAETGTGQYSQMAELPAGNHDLEKVVAAVNL
+ADNIRTYGHLAADIYPLNDRDKDFRRIDLKEYNLTEEDLKAIPVEFICPQAPSHVRNGLD
+AINHLKQVYTSKLAYEIAHVHELEEKKWLKEKIETGSILSAYSKEQKLALLKRLSEVEGF
+EKYIHRTFVGQKRFSIEGLDNMVPLLDELVRYSVENGARTINIGMAHRGRLNVLAHVIGK
+PYEMIFAEFQHAPSKDLIPSEGSIGITYGWTGDVKYHLGADRKIGVSDTARARVTLANNP
+SHLEVVSPIVAGYTRAAQEEREQKGYPEQNPETSYAIMIHGDAAFPGEGVVAETFNMSGL
+RGFNTGGSIHLIANNMIGFTTESYDSRSTKYASDTAKGFEVPIIHVNADDPEACLAAAVL
+AYEYRHKFNKDFVIDLIGYRRFGHNEMDEPMVTNPLMYNKIQNHPTPRKIYENKLISEGV
+LSQEEAEKMEKEVEETLKAAYEKVPTKDENPDIVMNPPEEITNGFPNIDTSVDFEQLSEL
+NDELLQWPEGFTPFKKLEKILQRRGGVFSGKGKIDWAHAETLAFATILKEGTPIRLTGQD
+SERGTFAQRHLVLHDHETGEEMIPLHQLKDSNASFSVFNSPLTETAVVGYEYGYNVFAPE
+TLVLWEAQFGDFANTAQVMFDQFISAGRAKWGQKSGLVMLLPHGYEGQGPEHSSARLERF
+LQMAGEYNWTVANCSTAGQYFHILRRQAAILQKEEVRPLVIMTPKSLLRNQFAAVTAEEL
+ANGQFKSVYEQPGLGDNPDKVERVVLTSGKMAIDLEESLKDKEDMDWVHILRVEELYPFP
+KTDISEILKKYPNLKELLWVQEEPKNMGGWTFAEPRLRDIAPDGVDVNYAGRRRRSSPAE
+GEPIVHKKEQSRIISEALTR
+>tr|A6CP52|A6CP52_9BACI
+MKKQQPWWKKSVVYQIYPKSFNDTSGNGVGDIKGITEKLDYLKELGIDVVWLTPIYKSPQ
+RDNGYDIADYFNIHEEYGTMEDFDELLSEAHDRGIKIIMDIVVNHTSTEHEWFIESRKSK
+DNPYRDYYIWRDGKEDGSEPTNWQSKFGGNAWQYDEETGQYYLHLFDVTQADLNWENEEL
+RTKVYDMMKFWLDKGVDGFRLDVINLISKNQDFPDDDGSTAPGDGRKFYTDGPRVHEFMN
+EMNNEVFSKYDIITVGEMSSTTIDHCIKYSNPERNELSMTFNFHHLKVDYPNGEKWTVAD
+FDFLQLKDILSTWQREMHAGGGWNALFWCNHDQPRIVSRYGNDGEYRNLSAKMLATTIHM
+MQGTPYIYQGEEFGMTNPKFTSIDEYRDVESINIFNILKEEGKSEEEILEILRHKSRDNS
+RTPVQWDNSENAGFTNSTPWIPVAKNYPEINAAKALQDKDSVFYHYQKLISLRKEYDIIT
+DGDYQLLTPEHADVFAYARNGENEKLLVVNNFYGNKTVFDLPNDELDIDGWNSEILISNY
+EDSQTDLELIKLRPYESIVYRLTK
+>tr|A6CIB0|A6CIB0_9BACI
+MVQIRKQRILAYQDHIPSIPPKHWGALKSAISSEADQQPGVDLLAAEIDGNIVGSVALFP
+ARTDAYEGCVDELDYPETRVLAVAPEARGKGVAAALIKESIKRAKAKGFNFIGLHTGEFM
+HEAISLYERFGFKRLPQYDFEPADDGIIVKLFDLQSKKIVSK
+>tr|A6CIF9|A6CIF9_9BACI
+MWMIGGRILALKGSIKTGMNAILILVIFFIGLFISGIQIPEQFVLIKSTISEEIYIAKLQ
+NKLLVIMYFVILLVLIAKKEYYAICYLFPLKKKRTYLWIVGVLTTVVLIQHHPFSFHLLP
+LDFFEYMQLLIIITIITPIYEELMFRGLLILVPPKKFSYPMLIISSVVFASFHPNFWDAL
+ILGIALGILAIRFRNLLVPIIAHSLWNLFAIFY
+>tr|A6CJY8|A6CJY8_9BACI
+MDKKQRDEVIDEAIGKKSIERLEFRGGVFSATIPLVFFIVWAISLSVAELVTEEALVLGM
+VLGIAIGLFFCKSKWSDYAQSLFSGMAQPIGVIAVIAWFWAGMFAKLLSAGGLVDGLIWF
+GFQTNLEGGLFVGLTFLLAALFSTAVGTGYGTVATFGILMYPAGIILGADPVVLLAAILS
+GAVFGDNLAPVSDTTIVSATTQEADVPGVVRSRFKYSIAAAIPALILFVLFGGGGEAGST
+AAMAQLQEQVTPNGLLLLIPFAIVLYLALSGHHLLTSLTWGIVASIAFIFISGTPFTEVI
+HIYKNDAGTAVVEGALMSGIGGYFNMAILILFILAAAHLMEAAGTMEVIKNFFLKLINNV
+VRRAELSIFGIVAFLNIFITINTAAEIAAAPFVRKIGKEMNIHPYRRANFLDTVSSSLGY
+IFPWSGGVLLAWATIKGAADEYDFLPIVSPTEVFPFVFQGWGLLIVMLIAALTGWGLRYT
+GKNGEEIKPKDYK
+>tr|A6CJ59|A6CJ59_9BACI
+MLRIKTISIPLILTLILIGCQDSNLNLNNDVTVIHVYKWDTEELIATIDDEEIIEDLVKE
+LDNASTHSTETIDWQLPDYKLLLKQDSEVLYEIGYCKDIQNFGNGAVGRYWEFDKLYEVS
+TKLPIE
+>tr|A6CJQ6|A6CJQ6_9BACI
+MKAGCFVAGISISSPVCGLRPFLAERSLTSKFPKPINWTFSPLARVSSMFCNTAFTAFSA
+SFLLNSADSATALIKSVLFICKTS
+>tr|A6CPB6|A6CPB6_9BACI
+MQQRNINTTEDFYIKQLLRIGIYKISDKQLYELSKSELQKEYLAHYVEKSLNNILGNDLN
+ERGYV
+>tr|A6CQ93|A6CQ93_9BACI
+MGKKGEKEKNEKSTSRFQWVLFAGIIPLLFAVVIALLVMTVAGVNIFEKAKEAGGKIPVI
+SSVIPTDAKEEAAKLEERVLSLQTELENKDSEITSLQGKLNSQEQEKERLLAEQEQLQAQ
+IEELQQIQQENKRAFKEMISTFETMSAKSAAPVLLNMENAEAVKILSSIKPDTLAKILEK
+MPPEDAARYTELLSAKVDQDS
+>tr|A6CQS1|A6CQS1_9BACI
+MGSPCESRTSPGKPKSTRSGALFLYIEKKKGEILKQIPVLRRSEDGEEQEGRGREGENTG
+VGSAHEDVNERSGRRDSPLIAVRAFSADGSWAPL
+>tr|A6CRB3|A6CRB3_9BACI
+MIIVFGKLLIEDENYSQDMQLRKEFLT
+>tr|A6CUH7|A6CUH7_9BACI
+MSERNQRKVYTGRVVSDKMDKTVTVLVETYKKHSLYGKRVKYSKKFKAHDEQNEAKTGDI
+VRIMETRPLSATKRFRLVEVVEKAVII
+>tr|A6CUJ6|A6CUJ6_9BACI
+YGGAYVALNSKSIGADLVYSWPNAEIAVMGPQGAANIIFAREIQNSDNPEEVREQKIEEY
+REKFANPYVAAARGMVDDVIDPRETRIKLIQGLEMMRNKKEERPKKKHGNIPL
+>tr|A6CL94|A6CL94_9BACI
+MKLEALPVTQGNYNLSSYEDTYKDFDWNETKKNFSWNETGRVNIAYEAIDRHAESFRKNK
+VALYYTDDNRDEKYTFREMKNLTNKAGNVLKTHGDVEKGDRVFIFMPRSPELYFTVLGAL
+KLGAIVGPLFEAFMEGAVRDRLEDSEAKVLVTTPELLERVPVDELPALEHVILVGNDVEE
+KGKYVDFLTRFEEASDKLDIEWVDLKDGMILHYTSGSTGKPKGVLHVHNAMLQHYQTAKW
+VLDLKEEDVYWCTADPGWVTGTSYGIFGPWLTGASNIIAGGRFKPEKWYNTIQKYGVTVW
+YSAPTAFRMLMGAGDEVVKKFDLSSLRHILSVGEPLNPEVIRWGMKVFNLRIHDTWWMTE
+TGGQVICNYPSMEIKPGSMGKPIPGIKAAIVDDQGNELPPYRMGNLAIKRGWPSMMNAIW
+KNEQKYDSYFMPGDWYVSGDSAYMDEDGYFWFQGRIDDVIMTSGERVGPFEVESKLVEHP
+AVAEAGVIGKPDPVRGEIIKAFVALREGYEVTDELKEEIRQFVKKGLAAHAAPREIEFKE
+KLPKTRSGKIMRRVLKAWELDLPTGDLSTMED
+>tr|A6CN68|A6CN68_9BACI
+MFEQTMTRLHELMIVLYAISILFYFIDFLNKNRKANAFAFWLLAIVWVLQTIFLFLYMMR
+TGRFPVLTIFEGLYFYAWVLITLSLAINRVLRVDFTVFFTNILGFIIMAIHTFAPVQVES
+NAMAEQLVSELLLIHITMAILSYGAFSLSFVFSLLYLLQYKLLKEKKWGPRLWRISDLSK
+LEKGAYILNAIGVAMLLLSLILGLQWAFIKLPDFLWYDPKIIGSFILLIIYSVFLYLRVR
+KEVYGKNLALLNVGAFLVILINFLLVSRLSSFHFWYS
+>tr|A6CIL9|A6CIL9_9BACI
+MMVILVAVFLLLSAAPVQGLASTNGTLMQYFEWYLPNDGEHWNRLNNDAAHLNDIGISAV
+WIPPAYKGTSQNDVGYGAYDLYDLGEFYQKGTTRTKYGTKQQLQNAISSLHQNGLQVYGD
+VVMNHKGGADYTQSVTAVEVDPNNRNYETSGDYQIEAWTGFDFPGRNNVHSNFKWQWYHF
+DGTDWDESRKLSRVYKFRGTGKAWDWEVASEKGNYDYLMYADVDFDHPDVQQEYKNWGTW
+YANELNLDGFRLDAVKHIKHSYLQDWVSTVRSNTGKELFTVAEYWQNDLSAIENYLSKTG
+WTHSAFDVPLHYNFHYASNSGGNYDMRNILNGTLVASQPTKAVTIVENHDSQPGQALEST
+VQPWFKPLAYAFILTRSQGYPTLFYGDYYGTKGNTSYEVPALQSELEPILKARKNYAYGT
+QHDYLDHWDIIGWTREGNTTRSKSGLATLITDGPGGNKWMYVGKRNAGETWVDTTGNNST
+QVVINNDGWGNFHVNGGSVSIYTQQ
+>tr|A6CRB6|A6CRB6_9BACI
+MEREGKMKNRYHACATCEHFSAERIDGEMSYQCKRLGYQTKPDYQFNCWNPKEHIRKLMK
+KEGDKDNGGY
+>tr|A6CQU6|A6CQU6_9BACI
+MIERYTRPEMGAIWTEENRFQAWLEVEILACEAWAELGDIPKEDVMKIRENAGFNVDRIK
+EIEEETRHDVVAFTRAVSETLGEERKWIHYGLTSTDVVDTALSYLLRQANEIITKDLENF
+IEVLKNKAIEHKDTVMMGRTHGVHAEPTTFGLKLALWYEEMKRNLERFKAAAAGVEFGKI
+SGAVGTYANIEPFVESYVCEKLGLSPAPVSTQTLQRDRHAHYMSTIALIATSIEKFSVEI
+RGLQKSETREVEEFFAKGQKGSSAMPHKRNPIGSENMTGMARVIRGYMMTAYENVPLWHE
+RDISHSSAERVILPDATIALNYMLNRFSNIVKNLTVYPENMKRNMDRTLGLIYSQRVLLA
+LIDKGMAREAAYDTVQPKAMEAWEKQVPFRSLIEEEEAITSKLSPAEIDDCFDYNHHLKH
+VDTIFERCGLK
+>tr|A6CSQ7|A6CSQ7_9BACI
+MFCFVYLLKVILKEIVALKMMQENQLGKLN
+>tr|A6CMB7|A6CMB7_9BACI
+MKTTYASERNLDNRILHILYKGVERMKKIDTFRSKSGKYNVVIFETRRPSAAAIENTNRK
+VNEAMNKRMNA
+>tr|A6CLD3|A6CLD3_9BACI
+MEKKNRVKQQSFYDERAAEQTSMQIMDSYESGLHDGEAGPLNSNLFEDEKKM
+>tr|A6CPK8|A6CPK8_9BACI
+MDSGILFPPLPIKIISEEKDDYVCPIFHFYESCDNVFGKGCKLLSDWKTSILDFVFVILT
+PTFESFETTFFNRSFSFATVYTLS
+>tr|A6CS58|A6CS58_9BACI
+MANLNIDLAGIKSPNPFWLASAPPTNSGYQVQRAFEAGWGGAVWKTLGEPIINVSSRFAA
+VSFNGQRVAGFNNIELITDRPLEVNLKEIYETKKRFPNHAIIASLMVEPKQEKWHEIVKK
+VEAVGVDGLELNFGCPHGMAERGMGAASGQVPELVEKQTYWAKEVAKTPVIVKLTPNITD
+ITVTAEAAVQGGADAVSMINTINSLAGVDLDSWNTIPHVAGKGAHGGYCGPAVKPISLNM
+VAECARNPRVNVPISGMGGVSNWQDAVEFILMGASGVQVCTAAMHHGFRIVEDMIDGLNN
+YLDEKGIASVQDIVGKSVPKYSDWGNLDLNYSVVAKINNDVCINCNKCHIACEDTSHQCI
+DMLKDSSGNSYLKVREEDCVGCNLCSIVCPVDGAIDMIEVPSGHMPMTWNERQAAVGRVA
+DCSIDTVK
+>tr|A6CUA5|A6CUA5_9BACI
+MTNHYYSRTPEVESDPQTIEAVLKDHKFRLKTDQGVFSKSEIDFGSRLLIDSFTENEITG
+PLLDVGCGYGPVGLSMAKAFPERTVHMVDVNVRAIGLAEENARANGISNASIYESSCFKN
+VSEKNFSAVLTNPPIRAGKSVVHEILEDSYNHLAVGGELWVVIQKKQGAASAQKKMEEVF
+GNSEVAAKKKGYQILKSVKEN
+>tr|A6CUE5|A6CUE5_9BACI
+MKTVLELKNVSKVIKGKKIIDSLSFGVKEGEV
+>tr|A6CQL6|A6CQL6_9BACI
+MIDQKLLTELKEYIQIHQEETRLFDVFEAPFHTDSDLLDHAKYSELEDFISDNEQPSFRE
+ELFRLIDEKGLTDPEVYKRAGIDRKHFSKIRSKPDYHVGRNTALALSLALQLNMEETDEL
+LTSAGYSLSCSDTCDLVIRFCIERKIYDVDLVNQALDSLKLKPLTG
+>tr|A6CJN8|A6CJN8_9BACI
+MVKKQGAKSTELAGRTYEAADYNKKDELSQGLAMTHEQASDSLTEGTIDGKIDDMDKGLQ
+R
+>tr|A6CNK4|A6CNK4_9BACI
+MRLPIYQIDAFTDQQFKGNPAAVCPLEHWIEDELMQKIAAENNLAETAFFVKKDNDYELR
+WFTPKEEIDLCGHATLASAFVIFNYMDTTLEQINFYTKSGVLEVSKEGALLSLLFPSRPG
+KPCEVPHELIKGLGREPKEVYKARDYLAVFETEQDIVDLAVNVEELKKLDALGVIVTARG
+TEVDFVSRFFAPRAGIDEDPVTGSAHCTLVPYWSEVLNQSKLTALQLSQRGGKLYCKDLG
+DKIKMAGEAVAYLEGYINV
+>tr|A6CQY6|A6CQY6_9BACI
+MESAILVIDIWKKIENKQFASIYLLYGKESFLINETQHKIVGQAISEEEMDFNFSTYDLE
+ETPVETAIEDAETFPFMGERRVVVLHNPVFLTAEKTREKVEHNIKKFEQYLASPSPYTIL
+VISAPYEKLDERKKITKTLKKQAEVVEAKKLNEKELRTWVRERTAANNVQIDESAIDLLL
+ALAGTNLMMLTKEIDKLSLYVSDTSRIDESVVESLTARSLEQNIFALVEKVVQRRTEDAL
+RIYYDLLKQNEEPIKILAVLSGQFRLIYQVKELARRGYGQQKIASFLRVHPFRVKLAAGQ
+AKHFTDEQLSTIIELLSQGDYEMKTGRQKKEMIIELFLFKLHEQSLSNAR
+>tr|A6CL24|A6CL24_9BACI
+MKMAQGPEPFLFNQCFCALLIQREAQLDMQQSKTGKCKWISQMKF
+>tr|A6CLH9|A6CLH9_9BACI
+MEEIYYVPIPFFILDAKLNILESSSKGSKLMQGPSFLDMIEEESSTKFSKYIHGHSSGSI
+EINIKSGAVMPELYDVYIQFIDFNQQYYAALISKAHNYSDISTKLDRIQKQLWNPNHEES
+FQKQLHPSSFHLDSAAGQIRKQENDILAAINQLKELKAALESLPPDKKHLVDQCIRIEET
+LKNNIKLH
+>tr|A6CIJ3|A6CIJ3_9BACI
+MEFHLIEWLGSFNAASAILFSILLNIIISILGIIPSAFLTAANIKLFGFEYGLMISFIGE
+VLGAIVSFILYRKGIQKFVHSQRINHRYLLRLRESTGTEAFLLVLGLRLFPLMPSGLVTL
+SGAFSKMGTINFAVASSLGKIPSIIIEAYSIQEVLIMSWKGKVILLALALFLIVSLWKRM
+NMSGK
+>tr|A6CLK7|A6CLK7_9BACI
+MGILVVIGLAFVLLFIGGFFVYFLKSSLNTEDSTTVDPVPEDEWSPTEKNL
+>tr|A6CQ30|A6CQ30_9BACI
+MKGDNNLIKMFTTQLSGLFNRIADKEEFSIEDGARLLAQATVGEGSIYIKGFAEMESVTL
+EALSGHEPLPSAKALTNADALTVADRVLLVSRFSTDEEAVALAKQLSDQGVAFTAISGAV
+SGEGESLTDLADIHIDTKLIKGMLPGEELGERVGFPSSMAALYIYYLIKFSLEEMLEEY
+>tr|A6CSP4|A6CSP4_9BACI
+MKKKNLFVSTTLASALVFSAFAPSSFAHDDLDSSGIEKGEVTVFTNEQLESLALPKVEGS
+KNVSNLTEAAQVQIKQIREGVQNNTADVYAHKGFAYMGTHTANGGNGGVRVFDLKDPSNP
+VEVSVFANDDVPGTWQEKVIVKTVNTPHFKGDLAVVSVQQLNRRAETSGGFLLYDVTDPY
+NPEKLGFWEVYGETNGTHELYLETQGDRALVFASNPYADYFSHGEEKDFQIVDVSNPAEP
+ETLWQFDPRDLPEVPEDFNGYHWKDSHGKTRAVFNHSVMVDHNAQYAYVSMWDLGTVIFD
+VKDPENPVYLGRTDFASDQQGSAHSATLAQGGNLLIETREVYSPVKEGYEESYGYTRIFD
+IKDKTNPKLLSEFKTDLVDNVEDGVTFANTVHDPKVRGNTLYLSHYAGGVYMVDITNPSD
+PVQIGQYTPDKGYIWGVYVDENYVLASDMGQGLKVLTKNNSGKE
+>tr|A6CTT2|A6CTT2_9BACI
+MLVQWTSRKGEKMNILKIWTVKAEGMMFRVFILLIGFGLSVSGGVTLIMYLNLLATGLTF
+QDYFFFISGRLECYLLLAGILMITLSIYSPSQKK
+>tr|A6CJ27|A6CJ27_9BACI
+MKKMTKNVIIGSAVSAGGAALATAVYKKKKKDKFEVDEDVDLMNNTKYDEMESVDADKSD
+AEKGLSELDHTYREEWQANGFPQTHMEIEKLKEEENENN
+>tr|A6CPJ3|A6CPJ3_9BACI
+MYTWENQALGTFREAKIYMKTAFNKKSRLESQLRHL
+>tr|A6CL05|A6CL05_9BACI
+MNANSQKSIIEKLNLNKFSSKAILNIPQDVNDFEELVYDSAVKEEQYDLVFTFVFSLEEF
+NEVLKEAVNKQLIKDKGYLYFAYPKKNNPVYDQYIERDSLYNQDHFNEEGFAHGSNLKFS
+RMVSLNEVFTVIGMKAQPPKKKAAIKKSQCVDDYIENIGDLKQYLRNNVEILQAYNDLTY
+GYQKDWARYVYSAKRKETQEKRLQQMEAVLAEGYKSMDLYRQQKR
+>tr|A6CSQ6|A6CSQ6_9BACI
+MKQAIPYLTFNGNAKEALEYYKEVLEGDITQTQTFGEADYPTPPEIDEKIMHARFMKGDL
+LLMVSDTFPGSEVQAGSNISLVLEFESEEEIQKVYDRLIDKSTVHMELQDTFWGAKFAKV
+KDPYGITWDLNYTK
+>tr|A6CLK3|A6CLK3_9BACI
+MGYSPSFIEKMTEIAGDIRDSEKDFDIQVVAGFDEACSACPHKGETLCSGNVKSNNKVIG
+LDRRTIEHLGLKVGGVYKKSYLVNLTAEKVEPDDLDHICAGCSWLEYGVCKEGVALLKAA
+EKKQRKN
+>tr|A6CHA4|A6CHA4_9BACI
+MPHSHLIKPMLSGYYPEIDYGKGIFLYDKAGFEYLDACSGAVTANIGHGIEEILQAIYRQ
+GQQVSFVYRSQFTNEPSEQLAALLSQETGLDWCFLVNSGSEAVETAMKIAVQHWQEKGKP
+AKRRIISRWLSYHGITFGALSASGHPVRRERFDSFVGDWPAVEPPYCYNCPFGKTYPQCN
+VQCARQLETVIRRIGEGNVAAFIAEPVIGAAGGAIDAPKEYFKIVKEICEKYDVLLISDE
+VMTGCGRTGTFLAMDQWGVRADIVALGKGLSAGYAPIAAALMSKEVLEPILKGSQVIMSG
+HTFSGNPLSSAAALAVLKLIKSEKLIEGVHGKGKYLRKKLNELRKNYSFIGEVRGKGLLL
+GIEFSRSVAGKTIDSAFTTMVVEEAKKEGLLLYPAAAGLDGRSGSAILIAPPLTITTDEL
+DELIVRLKRTLKALSET
+>tr|A6CMA2|A6CMA2_9BACI
+MKFDNGKAPFHDIAEGYKKDGHEDTKKQIQDTEKNNISQTDRLRKLDVDSLNPMQLLMLG
+FDDLAQKKIKESTYNEIENR
+>tr|A6CIK8|A6CIK8_9BACI
+MGIQFEVKRTLPVPKQEAYRALIDLDSAEQWMQGLVRIERDDEGLMKEGSQWRETRKMFG
+KEATEFFEVAELEEPDKVVVRCDGTKGTTGKGEFVFTYLLTGAGDQTDVTMIGEIKGLNG
+LSKWFGKLMVGPFKKACAKDLDSLRDYLEKKSLTKA
+>tr|A6CHK9|A6CHK9_9BACI
+MLLIKMPKEEKDDIIGRIQTFHYEQHGEEIGIIGAENLFDFFMKELGPYFYNKGVMDSKE
+VLMDKMLLMEDDLYALKRPIK
+>tr|A6CLE5|A6CLE5_9BACI
+MKNTRPKKANIFSFLLIVSYNEGRRMRKGE
+>tr|A6CU22|A6CU22_9BACI
+MLVNAALILSFIMAIYLFAFSFVHAIKISESETEVRGGTFIFSVIMAFIFSGLTYIFI
+>tr|A6CHT9|A6CHT9_9BACI
+MTPFSNENRHNGHTIEKERMISMKKEQPSKASGEKRMGAFAGHGAYLDVNEPHPGDSVNE
+HQDLEFANEIIGREEIKQQNDNL
+>tr|A6CIS4|A6CIS4_9BACI
+MDSSRKNDPQFDLELEELEKELGFRLDDYDVEYPSEAEMMRTIEAVRPFVPVKENRWKSI
+AETSIPIFKNAYQEIFYFSPLFWILNSLFLVICMYAVFIADQDPYVTLMLFAPLPTITGL
+FEILKSRLTGMAELELSFKFNLQEIILSKMIIIGTFNIGINMMAMAVLSIFTPNVWAGKL
+LLYWMTPFTVITLISFLLANRLRNMHAVTATLVVWLGTGVFLSSEEVSGKMESIPAGVYL
+LIIITAIILIFMQAGRLYKRGVNYELNH
+>tr|A6CJW4|A6CJW4_9BACI
+MMIRKLDSAQNITSLRLVILTVMALWIKTAFVLFLGFDLQVVSTPEIPAILLSPAGSLIL
+LFGISFCFSKSFKPSLFWGAWLVANALLYGDLLYYRFYADFITLPILFQFDNVGGLGPST
+LELMSPWDLLLFIDLFIIAWLFKKRSNRETVIKTKQKVWYASAGLMLVLITVGFGLIRSP
+YLFSASYDRDGLVKALGPYNYHLYDFALGAVTPLNRTLASKTDALPSEDYLKNKTGQSTE
+LFGIAKGKNVMLISMESTQDFVINRKIEGKEITPFLNDLIKDSFYFNNIYDQTAQGKTSD
+SEFMIDTGLYPLASGSVFVQKPENTYYSLPHILKEEGYYSSVFHGNERTFWNRENMYTAL
+GYDHFYSERDYKVTEENSVNYGIKDIEFFEQTAGKLEDLPQPFYSRLITLTNHFPFLLDD
+KDKLIDEADTKVDVVNRYVTTVRYQDEAIKYLFDDLKEKGIYENTMFVLYGDHYGISEKF
+EDGVFEITGQEASPVNHVALQQVPLIIHIPGVEGEVISKIGGEIDIRPTILHLLGIQTEN
+KLSFGHVLFTRNEEHPVIFRDGSFVTKDLTFNDGVCYKNSGKQISPSSCIPFQETVRKEL
+ELSDDIIYGDLIRFLQ
+>tr|A6CPF8|A6CPF8_9BACI
+MAISDQERDSFQSINDIHDEGLVDLFRVNKGRRVFMLMPNYPFIFIGKILDVIDDMVLLD
+VETSQFPALEKVKWHIHIHNIEVFYIEKSTGPRIPRLKD
+>tr|A6CIL7|A6CIL7_9BACI
+MNLETVMEELEALATERTKKSYISSGAHEPLFGVPTGKMKPLAKKIKKNQALAEELYATG
+NYDAMYFAGIIADPMAMTASDFDRWMDSAYFYMLSDYVVAVTLAETDIAQEVSDKWIASG
+EELKMSAGWSCYCWLLGNRPDEEFSSDKLSHMLKQVEQTIHESPDRTKSSMNNFIYTVGI
+SYAPLHEKAVETAKAIGPVEISRGKKKTAVLNAFETIQKDADKGRVGFKRKYVRC
+>tr|A6CJA2|A6CJA2_9BACI
+MNTDRVTEHLKRLMEIQSVDPVCAYVYDLKGLREHARRLKDSLPAFCSLYYAVKANPDNR
+ILEALSGIVDGFDTASEGEILKVHKLSALPVIFAAPAKKDRELAYLADGSLRFMNVESER
+DLYRLNRVGKEAGKALPVLIRINLQHNVSNSSHKMSGVPTQFGIEERKIPSILEKLSEFP
+YIELNGFHFHAMSNNLNAEEHLIFVKRCLEKSLEWKKTFSLDLGVVNIGGGIGVNYENPS
+ESFDWTFFSEGLHQMQEEFEANQLELIMELGRYLTAQCGFYITEVIDLKQNYDEWFPLVR
+GGTHHLRLPAAWKMSHPFSVYPVTEWKEAPLPRPAVKGERITIAGELCTPNDLLVRKQYV
+DDLKVGDLVMFHLSGAYGWTISHHDFLSHPAPDFHYLD
+>tr|A6CLU5|A6CLU5_9BACI
+MERVKGIEPSSSAWKAEVLPLNYTRNIHMKLVPVAGVEPALQKEHDFESCASANSATPAS
+VDWRRQPDLNR
+>tr|A6CJ76|A6CJ76_9BACI
+MQIFATFDHSQYLEIAISKLEQRGITDIFAVPLDNRTEMPRLFDSLHRSDGISLINKGMF
+FAVLFAVIGASRGFILEWGPIYWGLIGAGSGFLLGFIIDLIQVFIKRKKTKLLKGKSSEV
+IMIINCSEEDSDEVVKILWDNLSLGVAKVK
+>tr|A6CKI5|A6CKI5_9BACI
+MGILKQNGYYPLTENSAVDLARSLGFFDENEELYCNEIGDGNLNYVFRVGNHLYEKSIII
+KQALPYAKVVGESMPLTLKRAQIESSALQKYRELIPESIPQILYTDDELAVTVMEDLSDY
+KILRKGLIEGEVYPHLPKHVGNYLAKTLFSLRILA
+>tr|A6CLW5|A6CLW5_9BACI
+MMEGATHMTKKLKLVSLALGTSLVFSAALPGASLASTLSSNHTSKFEVSKKILDKQKDKP
+KFYSEKLSKSKAKNEKEIKKFLKNNQDALGIDPSTELTLLETTEDELGMKHYKFAQSVKG
+VPIDGAIFSVHTHKDNSVSTAAGQLYPDASKKVKKSKAEINQDEAVSLAWNYIELDESQT
+VTPEEETFAAAKKSKVKNTNVKKDLVVHEKDGAFNLAYKVQLQFIQPYGANWQIYVDAVS
+GEVLEAYNAVTDAATTGYGYGVKDDYKQLNTYYANGTYYLYDVTKPMNGVIETRTAQNGT
+TLPGYYTVDSNNAWTAYSQAAEVDAHAYAEDVYDYFLNTHNRNSYDNNGATIRSTVHYGT
+NYNNAFWNGSQMVYGDGDGSTFRELSGAKDVVAHEITHAVTERTAGLEYQYQSGALNESF
+SDVFGYFLDTADYLMGEDVYTPGVAGDALRSLSNPSQYGQPEHMDDYVNTTSDNGGVHTN
+SGIPNKAFYNTVTSIGNAKAEKIYYRALTVYLTPTSDFSYARASLLQSAADLYGSGSSTY
+NAVKSAWDSVGVY
+>tr|A6CST0|A6CST0_9BACI
+MPIDFDPFDTLDLNHDMQVDASDLRAYEFAEHGTYSLNDLDHDMIMDQFDTDLNNDLRMD
+ETQTDLNSNMIMDQYEVSHGPTSFQYDLNHDNRIDALDAALAKSMYKL
+>tr|A6CSU3|A6CSU3_9BACI
+MAQVQYYGTGRRKSSVARVRLVPGNGKIVINDREVENYIPFEALREVIKQPLVATETVGN
+YDVLVNVNGGGYTGQAGAIRHGIARALLQADPEYRGTLKRAGLLTRDARMKERKKYGLKG
+ARRAPQFSKR
+>tr|A6CP11|A6CP11_9BACI
+MNRNYDYIDVSVEEGIGLVELNRPKVLNAINRQMVSEILSAYEQFDRDPEVRVILLSGKG
+RAFAAGADIDEMAKDSAIDFELLNQFADWDRIAVVKKPIIGAVQGFALGGGFEMALCCDM
+LFAADDAEFGFPEVNLAVMPGAGGTQRLTKLIGKTRAMEWLMTGDRMSADEAHRLGIINR
+VVARELLMEETKKFAAKLAKQPPLSLRLIKESVHKAVDNSLYEGMQYERKNFSLLFASED
+QKEGMKAFIEKRKPHYKGK
+>tr|A6CKJ2|A6CKJ2_9BACI
+MLSKTIKTYIEEEMKDNRISLFSDERVFAEEHGLLPEGTAAEPLDDSVRFHDALIERVNK
+ETEELVKTEETPDFLQTPVNFVKQHVDEFLYIDSKWFDIIRIDGLTIEVDDVFGHYSVLT
+GLKQQKKYTNELKAILSEKLHGEDKVQLMWNDKDGLFDINLSIDKLEGFNENESLGKNLQ
+LIYHFFFSSLKEMEEKNSNKA
+>tr|A6CL85|A6CL85_9BACI
+MDIGACLQLFESIDALLIIGLIISVLVNMYQYFQLKRYQMNDSSYKAKWQEVMGLDKPLN
+VLLWLVLTLWIVIGVPMALYNLFN
+>tr|A6CSI8|A6CSI8_9BACI
+MNWHSIGAFSFPSTWGALIAAFFVTGIFLRIYYDKNDWFGNTVFWFILTWKFSVILFDFT
+GVINQPLSILYFNGGLKGFWLGVAVSLIYIYIKGEREQLFIAWALIILVYEGALEFLVDS
+ASILSAVNILIGFVFFYLLLTKGKKEIWLLVFLGLQLLINFSLGTLITTESMAYVLVTMG
+LLAIDRLRRVSHE
+>tr|A6CT94|A6CT94_9BACI
+MKANLFHQKDPSAVKFEVANEHGVSLKNGYNGELSSREAGKVGGQIGGSMVKEMIRLAEE
+SLAKKGK
+>tr|A6CT65|A6CT65_9BACI
+MRKDAVGEDEYEIFNTADLGDLIGVTGTVFKTKVGELSIKAKEFILLTKALRPLPEKFHG
+LKDVEQRYRQRYLDLITSQESKQTFIARSKIIQSMRRYLDNNGYLEVETPMMHAIAGGAS
+ARPFITHHNALDMQLYMRIAIELHLKRLIVGGLEKVYEIGRVFRNEGVSTRHNPEFTMIE
+LYEAYADYRDIMALTENLIAHIAKEVFGSTTVQYGDYEVNLEPQWARLHMVDAVKEHTGA
+DFWKEMSDEEAHALAKEHGIEVKPTMQYGHILNEFFEQKVEDKLIQPTFIYGHPVEISPL
+AKKNDEDGRFTDRFELFIVGREHANAFTELNDPIDQRERFESQLKEREEGNDEAHMMDDD
+FIEALEYGMPPTGGLGIGIDRLVMLLTNSPSIRDVLLFPLMRHRD
+>tr|A6CL39|A6CL39_9BACI
+MDLEIDSNLQQITSTLQARAGSSVNVILEKNFPGKRIAGGKYNMGTHTITMYIDEIKRQC
+KMLFSSLENFYEYFAVVFAHELGHAEDEELEALAERMDTADDYERKKLALQIEENAWCIA
+KELIPEIDSNFTRQIIQESLLSYRDQVKTETVSVPACIIP
+>tr|A6CK09|A6CK09_9BACI
+MLLYIGFAVLLINLVFLLAKWFAPESELLNSFNKPSHFWWTQIVLLLLSFTIIAGHYYGL
+SKAQWYTSPIFQKDSQLYVGNKNGPAILHESFPFAESPFETEIFIPGSRDGANAVLTGVS
+EDGNTIDPITVTMNNQTSPLTITFPDEGQWRIDVGYDGTERGSIVLEVK
+>tr|A6CML1|A6CML1_9BACI
+MKKLFAGLMAVVVAGSLAACGTSEETSGEGKEKIIMGTSADFPPFETRDNNGEIIGFDID
+LAKHITEELGYELEIKDMNFDGLIGALQADTVDFVASGMSATDERKENVDFSVEYHRSGE
+MFITLPESEIESMDDLEGTKIGVQLGTIQDTAAQKLAESIDIEVKALDKLPALIQELKAG
+RIDAIYLDKTVAEGYIKEVNLKGFDDESSVSPGMAMAFPKGSDKVEEFSKVIEEMKENGE
+LKKLEEKWLKE
+>tr|A6CRL0|A6CRL0_9BACI
+MKIKSITFGILAGSAIGALATLLSAPQSGKELKGQINKNKDEWKAVFTEIKTNAVEVKNA
+VSRLSTEGKQTINHLKDDMQHSIETWQGSTEPNIQHIKDDISAIEQLADNMERTVSKQ
+>tr|A6CSX5|A6CSX5_9BACI
+MKEKSWKSYISISKETGGFGLKNQWITFFTGKVLVKVEGKGIERFINEMTRSKIAVWQVR
+KMGEQTFTFYLSLNDLHNFRRAVRRFDCRVTFLRGQGSPFLWKRTLKNSGFLIGAVSFLF
+LILLLSNMVWGISIKGASPQTQYEIEKQLKEMGIKKGEFQFSIPDVETIQRELSARMNNI
+TWVGVELKGTTYHFQVVEKNEPEAEKEIGARNLIAKKKAVIKAVFVEEGMPQVEVNDYVQ
+KGQLLVSGLIGKEEQEEKKAVAAKGVISGEVWYVTNVELPLTTDFEVFSGNEEVKHYISF
+GKFRLPIWGWGKIDYKNSVEEISEHKVKFLKWEMPLTYMEKTVKEKEDVTREYSRKEAIA
+TAKELARDNLKAGLPEDAEVIGEKILHQQIENGKVRLNVHFKVIEDIAVGQPIIQGD
+>tr|A6CHB2|A6CHB2_9BACI
+METIANKSIYTLIIKRGMIMTLNSKNALSLEQSDELLNALTDRFEKNMNRHKELEWDKVQ
+AKLKANPDKLWSLNEMERTGGEPDVVDYDNQKETYIFCDCSPESPKGRRSVCYDRAAWES
+RKKHKPDNNAIDMAASMGIDLLSEEQYRALQKLENFDKKSSSWVKTPSVIRELGGALFCD
+YRYGHVFVYHNGAESYYSSRGFRGSLSV
+>tr|A6CK48|A6CK48_9BACI
+KHLPEVLIKLEQAGYEASCHATVCEGDATEAARTAVERKYDLVVAAGGDGTLNEVVNGLA
+EQDYRPRLGIVPMGTTNDFARALHIPRDIGAAVDVIIKGDTIPVDIGRMNGERYFINIAG
+GGRITELTYEVPSKLKTVLGQLAYYLKGVEMLPSIKATDLTIEYDGKLFEGEAMLFLIGL
+TNSVGGFEKLAPDASINDGMFSLLILKKTNLAEFIRIASLAVRGDHIKDPNVIYTQANRV
+KVYSKDKVQLNIDGEFGGLLPVEFENLYRHLEVFVPIDQIREEDKADRG
+>tr|A6CL16|A6CL16_9BACI
+MKKLFSMLIASAMFFGLGSNALANENKAEDQAKAMEMIEKTNRDIDKKIEKAVEKADELQ
+EEYLMEVREIEEGKEILELTEEHGEVLIELEMNRHDAKKFKKLVKKLAKIDEKIIKEREK
+IDLKISELNNEITLLTTQLVEAEDKEENKLNKKLAKLREKLNKKNEAAEEKTAKYTEDLE
+DVIDKVFNETLEMSAETIEKAAKLGVQAECSWKLVRFADRWVWIDPLRVVGI
+>tr|A6CT83|A6CT83_9BACI
+MNTVWTIGILLFVIIGAVSVGKQIKKLSPVEKEELKTELKNPLVLIAGLIPLGGLLVYVS
+FAFQYVALRVIAFILIGVGLIIEGAVLSKQTSKGSVLVVLGSATVLITGFFVTKSYW
+>tr|A6CHG6|A6CHG6_9BACI
+MHTIWKGSISFGLVNIPIKLHAATEDKDIKLRSLHRECHTPIKYEKICPVCEKDLEYEDI
+VKGYEIAKGKFVVIEDEEIKELRDTSEEKAVEIVDFIKIEEIDPIYYNRSYFISPNEGGK
+KAYSLLRKALTESNKVGIAKIAMRSKEQLAVVRVYQNTMVMETIHFPDEVRSTGDVPNVP
+AEDEVSQKELDTAVLLIDQLSTEFEPEKYEDDYRKKLLKLIQSKQTGEKFVTPKEKAPAA
+NVTDLMSALQASIDKSKPEPEKKPVTKAPAAKIPKKKRTVKKVEAQ
+>tr|A6CUJ2|A6CUJ2_9BACI
+MLCFADVRNVITNTRGIDDPDLLFEMVTAQADENMP
+>tr|A6CKM7|A6CKM7_9BACI
+MIKHYSPSDFSVAKEFIDTIDGGYDFFNIEEIERDAGFFIFYVEDDVKGAAYAVFSVNGA
+GEKQADLTIYVKPSFRKKGIGTELFRVLSAYAENENQEVLTAHVQMDKKERDSFFQRNGM
+EKWWGSNGLVYQGSLFPEPEVTFEPYENKHFDQFVKVVQDCYYPIQESNDLKPYLASPTS
+VRTYQLRDPEDVYVAMDGNQIMASVSIGKGEVDNLMVSPQYQGRGLGRQALQFAMNKMLK
+SGYEEIHICYMDNNTAAENLYYSAGFEFLQHTEVYRKYIK
+>tr|A6CTV4|A6CTV4_9BACI
+MKMKVKVRHVILSLVCLVLGFILAFSYSLANSEKKEGAQLTDGQWQREDKLRSQLFSLQE
+KNSALQTEVYEKQQKLVNIEKELSQEKQIYFNLAEDAEKYRMFLGKVKVQGPGVRVTLSD
+SQYNPDEPNVNNYIVHEHHVFKVINELYIAGASAVAINGQRLKHDSYILCTGPVITVDGV
+PSSAPFEITAIGDPEVMSSALDLTGGVKDQLVNENIDFSLKEESSLVLEPLISES
+>tr|A6CIG0|A6CIG0_9BACI
+MNSNTNHKINQVSEDTMVIGIDIAKKKHFACAMDDRGRILQKSFPFFQSGAGFDQLDKRI
+QSLQIQHQKSEVIVGFEPTGHYWMNLAAYLVGQRIRFVMVNPMHVNRTKELDDNLQTKND
+QKDARVIASLIRDGRFNYTRTLEGVEAELRNGASLRSKIQEDLTAIKNRMVRWTDLYFPE
+FHHIFKSFGKNACAVLEMTPLPIDLYRKSDEDLIYLYKSVEGLQCLSFSKIKKLKSMAKQ
+SIGLTEGLEMARFEMGTLISQFKALSKQLETLSSRLNELAQQMTDYEFVLSVDGLGENTV
+VELLSETGSLSLYEHPRQLIKLAGLTLRENSSGQHKGQKKISKRGRRKLRAILFRVILPL
+IQHNIAFKSLYHYYTTRTVNPLKKKEAMVVLCGKLLKILHALCVKRMHFNASLMMRDLHC
+LQEAA
+>tr|A6CJN2|A6CJN2_9BACI
+MDLAKIKGKFHNRTPRILGSNDYYRFSVLLPLIEVNEDIHILFEVRSEQLRRQPGDICFP
+GGKVDKEDRTEKFTAIRETCEELGIGEENLSDIYPMDYIVSSFGTFIFPYVAVLEKNADI
+RPNPSEVAETFTVPLSFFMSNEPNVYKVGFTIEPEEDFPLDLIAGGENYNWQTRKVDEYF
+YFYEDRVIWGLTAKILKHFTDELKESN
+>tr|A6CLI3|A6CLI3_9BACI
+MTIYSLLVLIHIVAAVAGLGASFAMPVVMNYPKNSSQARFSLDVNKKIEAFAKYGSLTLL
+ITGLIMGFIYPSLFKTGWYLVSLIIYLAVQVITAGIMPKKIAKMTDIIASHKEEDLPDSY
+KEINGSLRPYNMILHTSAVILIILMSLKPF
+>tr|A6CM74|A6CM74_9BACI
+MSIIQDIKIGGSFEEALARAKAESIPVLYSAVQKISHVNPLSFYTKGFSLYHGERFFWKD
+KENTIQIAGLGSTYMLRNDSENSRYTSIEKEWKRLIGNAVVDAEGEIAGTGPLLFGGFSF
+DPTVPRSKEWSDFSHGIFQMPTFMLTVRGEDCYLTTNILCTSQDDEGLLDIIDKKQRELF
+EEVYARRPELQLLQATELAPDEWKSAVEEVVTQLKAGKMEKVVLARKMLMNFKHKPSSDE
+VIHNLRNEQRDSFIFSMEVANSCFLGASPERLVKKEGTEILSTCLAGSIARGTSPEEDNK
+LGESLLRDEKNRYEHNLVVEMIKNVLEQHCSEMHIPNEPVLMKVRDIQHLYTPVKGKTEK
+ETSILNFVSQLHPTPALGGVPRDKAMMTIKKAENMDRGLYAAPMGWMDSYGNGEFAVAIR
+SGLIYKDEAYLFSGCGVVADSTAESEYRETQIKFKPMFRALGGNTDGL
+>tr|A6CMH6|A6CMH6_9BACI
+MTMLYITFAVFLSFVIFQTIYVLIPLFKNEKKHKVRITKNHSFSVIVPAYNEEKVIENCI
+EGFRQVEYKNAELLIVNDGSKDNTLRVLHEVLQLKPASRMIDTRLKHERVTGFYQSKKFP
+SIFVINKKNGGKADSLNAGINFSENEIVVTLDADSILEKNSLNEMNAAFQKKSVLACGGN
+VLISQAFNGSLENLKPTLKVNNVIKFQFLQYLSSFYLHKRAQAAMNSITVIAGAFGAFRR
+ETLFAIKGFRKTVGEDMDITLKLHKWIKERGNKESITFVPTALCYTECPSTLKNMFKQRV
+RWQKAFIDCLIYYRKCYFRKLPKKFSIFFLVDQFTIGTLSAFPVLLTPVLLYFNGGQLTL
+LLMLMSGAFLLFVYQSLTTMFVSYLHGLKFSKRDLLRFLLFLPIDIIVFRMLINLSFVVY
+GTLSYFHSPHAWDKLERSGKLTWKGAGNT
+>tr|A6CM91|A6CM91_9BACI
+MAEEKHDYYIEIATGEISRSSTDSPWNFKISATDEEITRLREVFDQQHSVDWRNFYRAHT
+PYLQYHFDKDNDAYDDNLLHVYQMIYTLGDEEAKNHIKSMGILTDLT
+>tr|A6CII8|A6CII8_9BACI
+MGKNGRELMNVNEWWINSEPFAMEKEVFSESPKEHLTY
+>tr|A6CJ20|A6CJ20_9BACI
+MVLLAAYLFLDSIDGNVSGNLSFLIMGLSYALAVYFSWNSVNGFWRKASATILILLPVGY
+VAVVLLFIIGMANF
+>tr|A6CK17|A6CK17_9BACI
+MLHVSLLLFTLIKKPERRTMTLLLSNISFAYIFEYFVFNVFRSYRYRPKILKTRQLDNAI
+GALLSQSVYVPVTATFLSIFRLGWGWKFFFIFYFHGIEYYFLKRKIYKLYWWKPFYTSLL
+LPIYFVCSDFWDSRLQLKKQWVMWLSTYLSVGVVTKTLAFILDIFKKQKIGLGRVHTWKE
+HFLISPLYMFIFSGAALLPAIKNTKSIKILTFIIMLTINYLLSLVKIINSKITFIQLILQ
+SIFMIVLSPFLKSFIFKKQED
+>tr|A6CKA3|A6CKA3_9BACI
+MIRVCVLLILLLLLSGCRVEWSLSGDSAGKTAVSTNAEPRPTNTGNDPVSVLLNGDVDYE
+GTHITLMGYPELHQGSVLKVQLRNIPRMHP
+>tr|A6CQT5|A6CQT5_9BACI
+MVHRYRWKNKQLREHIDVINGGLKPTKILKNAVYLHSVLKKWVTAHIWIYQDRIIYCGDQ
+LPENLDGCEVTDCGQYFLVPGYIEPHVHPFQLYNPHSFAHYASQTGTTTFINDNLMLFLL
+MNKKKAFTLLEELKKLPFSMFWWARFDSQTEMQREETVFSHNEVKSWLSHEDVVQGGELT
+SWPRLLDGDDMILHLMQEAKRKNKVVEGHLPGASEKTLAKMALLGIDGDHEAMSGKDVYT
+RLMQGLAVTLRNSSIRPDLEKLLNEIKEYDIENYNEMMLTTDGSTPGFYEKGVLDDLIAT
+AIESGIPLIDAYHMASYNVARHYRISHHHGMIAAGRVANINFLNSKEQPTPAAVMAKGEW
+MKSFQGEPKDVPAPDWKKFGLAPLNMEWDLTYDDLQFSMPFGIQMVNEVITKPYSVGIDA
+SEMTLSESHDECFLMLIDRNGKWRISTMVKGFADSVKGFVSSFSNTGDIIAIGKDKRDIM
+HAFNRMKEIGGGIVLSENEEILHEIPLTVGGIMSDKKMDVLIEEEKKMKELLFDRGYSFN
+DPVYTLLFLQSTHLPYIRVTQRGIYDVMKKTVLFPTIMR
+>tr|A6CSU9|A6CSU9_9BACI
+MSVQQDPYPPTWKKTASAEQQPFIVYLFSATTVDFMNKKKDRLSSIYSARVLGSQSFFV
+>tr|A6CHH3|A6CHH3_9BACI
+MNLVVFKDAKKFDEEVRPLLVKEEAENNLPLGLLDQITGGRYEDSFLAVMKDQDTIQAVF
+VRTPPHFLIVTVFDEGKTEEIGQVLWNYVQEHGIHFPGFIGNKKVTLPLAEFWKEKTNTH
+FEVNMRQRIYKLDHVNDIDISEGKMELAGPEHVDLVTEWILGFVEDTPENPIPKDVYTFD
+MDSSYLTLDSNIVNQGEFEPSKYPICNIACTNIQEVWDRFGQLGIDRIEQITRFPNLSYF
+NFKDPDGNVLMMCSE
+>tr|A6CLS8|A6CLS8_9BACI
+MNGYIKRRHGLVGDYQLRLRHQGSRNADSLSLSPTELMGVSFGVITAQSDNFKQLMYFFL
+SFLGRTDTMDNQGFFQYFFDCMPRVQRGIWILENHLNIPADLSHFCL
+>tr|A6CTY1|A6CTY1_9BACI
+MVKITQPALDVIKSEVKDVLNEGKQPFIRLSMGIG
+>tr|A6CH68|A6CH68_9BACI
+MSEAAISQVQQAAKIALEFRRTLQPSLQQAVNAINQVSRSIRTTIANSDIPAMMLKLAQG
+IQETEEDLKVFKAAIVDLGYPPHHELDIRLMREIARAYKANGKDAVNEYIDEFICKYYQP
+SLIQDIEKRWEKYKFLEKRLPLLRNAVKAHNLGMYELVVPSILSQFEGIIVDAFGIKGKV
+NGKIQEILYETLLIKEGFTGGFHFEEEIHNYYSTKVLVGFHHGKKVKSEISRHAILHGGD
+TNFGTQTSSLKVILLFDFIVEALNEMEQETIHLGMQRVKDYRVEINKRNRIRKGNRKPNH
+KHHHTSRNDIK
+>tr|A6CLB9|A6CLB9_9BACI
+MAKWSYEASGPMNRSRVTINPKEAAIKMTAASFSI
+>tr|A6CKB3|A6CKB3_9BACI
+MILRIIFIKGCSNKKTSRGESMRKKSLWTTLLAFMLTFGVLAACSNNNTGNEAANNTGNT
+ENNEQEVTDSGEVNVYTARHYDTDDAIYKKFEEETGIKVNVIKGEGDELMERLKREGEAT
+EGDVFITADAGNLHKAKEAGLLQSIESETVNSNIDENLRDTDNQWVALTQRGRVIVYSKD
+RVDPSELSTYEDLTNEKWNGKVLIRSSENIYNQSLMASFIELHGEEKAKEWAAGIVENMA
+RDPKGGDTDQVKAIVAGEGDVAIANTYYVGRLLNSSDPEEVKVAEQVGVFFPNQDTTGAH
+FNISGAGLLKHAKNNENAIKFLEYMTGTDAQGAFAEGNNEYPANAEVEASETLKAWGDFK
+KQDIPMAVLGENNADAVKLFNEVGWK
+>tr|A6CP96|A6CP96_9BACI
+MSFILKNIEIGGGRMNGKKEIKIHEDMDYFEVSKLYHEAGYTFEEKMEDIFRQLGHVWER
+VEREVAERIRQQEQLKQEQLKQEQVNQGKDCEKDK
+>tr|A6CMR2|A6CMR2_9BACI
+MKVWPEDMEKPQFNLLSDAERDRINRQISGMTFTKNFRSPSAEEWYVFLPDFEDPRTGGA
+AGKVIVHYNLLGNKNVFINTTVIFDDPKLHRPQQHNLVYAVCDELVNRLVGYAETLLSVH
+AGENSYDAKYN
+>tr|A6CRG5|A6CRG5_9BACI
+MEFSLSFIINIIIAIYLFVDARKRGKNPWLWAILGLIFGAIVLGIYFIQTGRKGIGWTIV
+ILSILWFILAVILGVVGALFGAVM
+>tr|A6CLG5|A6CLG5_9BACI
+MAGCSGTTNSEKSTEKEYKIGVLLSDTGLGDESFNDSAFRGLEKARDELGILFDYREAPN
+GDFQSPLEELSQQGNDLVIGLGFSVQEAIEKTAEKYPEQQYLLIDGVSEMENVTSITFKE
+HEGSFLVGIVAAMISQNQKLGVIGGADVPVIHRFEKGFEQGAKYINPEISFISEYANNFG
+DAKLGRKIAEKQIKEGVDFIYPAAGFTGVGAIQAAQDNKIFTAGVDSDQYFVAEKAVVTS
+MMKNIDVAVFNMVEQLVKEGKIGQDIYELGLAENGVGLAPIRNFNLSDEQTKAIEAAKEK
+IISGNITINLN
+>tr|A6CML2|A6CML2_9BACI
+FHTVYRTVPGRNGFFCYVKQAFQLPGRHRILITAAASKRNRDTKRGICLACLR
+>tr|A6CTZ6|A6CTZ6_9BACI
+MNPVLLSEEEIKRLGSFRFLTERPEEGELTSAKQLINPQGLGTFLRDYSGKIGSNDKKAL
+SSMLIKRYAFIAVISLFSFSVFNKKLNVAPENVFLVDGEKNGLWLPGFYLEDQAAQAVSE
+DREKAREEVAREVFRNHLFPLIEAVKKVSKLSNLITWENVAVYMFWVYEGLIEQEDLQHA
+RERMREDFEWLLDDANAGLFGSYHRNPLARYYTPKQYVAEQASELRIRKTCCFSYKLNDG
+EGSRCKTCPQTCNVKPQKGVRQ
+>tr|A6CMM5|A6CMM5_9BACI
+MYMTIKEIAEYLSLPESYIEVLIKQKKIKAVFDGEQYLINKDNFQNYHEQMEAYRKHFEQ
+WQNEPIPEDPDIKDED
+>tr|A6CTW3|A6CTW3_9BACI
+MANNQNNNNNNGKMSREEAGRMGGKATSRNHDKEFYQEIGEKGGEATSQSHDKEFYQEIG
+EKGGETTSRNHDKEFYQEIGEKGGEATSRNHDKEFYQEIGEKGGEATSRNHDKEFYQDIG
+EKGGNRSGNNNS
+>tr|A6CHY5|A6CHY5_9BACI
+MDMRNQNRKAWNKKVEEGAVYTKAVSEEVISRSKAGDWEITVTTTKPVPRSWFPESLLDK
+KILCLASGGGQQGPVLAAAGGEVTVMDISEAQLEQDIAVAGRDGLQLKTVQGDMSDLHMF
+DNETFDIIIHPVSNLFVEDIKPVWKEAARVLKQGGTLISGFTNPLLFIFDDEMEMQGKLV
+VRHSIPSTSLDHMDEEQIKEYLEANHTVEFGHTLEDQIQGQVDAGLAITGLYEDDFGGNR
+MLDQYIKTFISTRATKLSF
+>tr|A6CJ46|A6CJ46_9BACI
+MLNEPILDIIKLYITVKRGIAVSKKSLQFWLIQILLIVSIVFVSTKISFLFHPLTIFITT
+LFFPILITLFLYFLLNPIVNFIQRYKVPRVVAILIIYVLIIGLLVLAIGNIVPTITKQFT
+ALANELPTYAAKTFQYFENLSRSAEFKEFMNEQQDLLETAQERLVAFANDLPTLITGSFQ
+NLLGLVANIAIILVTVPLLLFYMFKDGHKFPIAVSKFFPSEYRKEAITILKETGSTLAAY
+IQGQVTVGLFVGILSLIGYLIIDLRFALVLAITVAVTNIIPYVGPLIGGAPAVIVGLFES
+PTKALLVLLILVIAQQVEGNILSPLILGKTLDTHPATIIILLLAAGNLAGVLGMILAVPT
+YAVIKTVIINLVKFLKARKEAKMRMELEVEG
+>tr|A6CS62|A6CS62_9BACI
+MDQPMRMKNNGQISIVLNSHKRNPVRELSKAEAPVKVLPQEHAELKEIEAELASLVGMED
+MKKMVKEIYAWIYVNKKREEAGLKAGKQALHMMFKGNPGTGKTTVARLIGKLFHKMNVLT
+KGHLIEAERADLVGEYIGHTAQKTRDLIKKAMGGILFVDEAYSLGRGGEKDFGKEAIDTL
+VKHMEDKQHDFILILAGYSREMDQFLTLNPGLHSRFPLVFQFKDYSVEQLMEIGRRMLTE
+KEYELSTDAERKMRDHLSQVKNAISPAAFSNGRYVRNVIEKSIRSQAMRLLMQNSYDRYE
+LMTIRSNDLIFPSTED
+>tr|A6CSK7|A6CSK7_9BACI
+MTRDQELRSKAYEAVKENRTIVDQDPYRLKYHLMPPVGLLNDPNGFIEHNGVYHLYYQWM
+PFKTGHGAKFWGHYSSEDLVNWKHEEIALTPSEWYEKNGCYSGSAIEHDGKIYAFYTGNV
+KDEEGNRETYQCLAISGDGIEFDKKGPVVELPDGFTPHFRDPKVWEQDGTYFMVVGAQTE
+NLNGSVALLKSEDLENWNNEGIIAGGDDGKLGYFGYMFECPDLFSLDGKDILVFSPQGLE
+PKGMEYQNVYQAGYVIGQFDGEKGEYDHGSFEELDRGFDFYAPQTTLDHKGRRLLYAWMS
+VPDQDEQDHPTIDHKWLHCMTIPRELKLVDGKVHQLPLEEQKQLRDGEAVEYSAELQKES
+RQYEGVEGKALELEIKDVAVSGGWLDISFADGCRVVYNPEQEIFTLERKSYVDGLIEKRQ
+CRLKELKSMRIFLDTSSIEIFLNDGEECFTSRIYPSLNDESITFSASGHGSFNICKWNLK
+SL
+>tr|A6CKI6|A6CKI6_9BACI
+MNGREKKELVGRFINPELCKITEDLVFTDPFYDHESNDFEEELREKVEGLWSDSVVRLEA
+GKLKRKFLTQADALLHGDLHTGSIFVKEDDTKIIDPEFAFFGPIGFDIGQFFANILLNSL
+SRPKEDHAGRLSIISETWRVFSSEFTKLWLEHNQETYSTTAGYLEHILAEIFEDSIGFAG
+CEIIRRTIGLAHVADLDGITDKTTRLKAKSEAIDLGRRLILQRKIIKGPEQLALY
+>tr|A6CU99|A6CU99_9BACI
+MYYEDNGSDLMQRIKCTVAYDGSPFAGYQVQPGKRTVQLEIEKALSAIHKGDQVKITASG
+RTDAGVHAKGQVFHFDTGLSIPEEKWPTVLNSKLPPEIVVTSAEEVEEGFHARFSAVKKE
+YRYSVYQTKTADPFKRDFALHYPFPLNIEE
+>tr|A6CKG6|A6CKG6_9BACI
+MSKIKKYFQPLILLGVLLLASGCTNSDTARGNSEEAGAESAAEQNIEAFLENVFTGPNEE
+NEFLFNFEDLEGRGERISEYYQDNFQPYMSESLLEDFINSNGAVQFLIAAHPDYVLATEE
+ITLEENEDYYTFAAEVSYTNKESNESDTVTINGNIQTDEEGLVTGIQYHRGEYEEFRTAL
+N
+>tr|A6CR75|A6CR75_9BACI
+MTRLVGDNKIVRNLIYECRARSYWASEVAETEGCWPAKGVNGHEKAEPEGCWPAKGVNGP
+TRKQNQKDAGPQRV
+>tr|A6CM60|A6CM60_9BACI
+MWINPLGKEIKDPLLQMKRAESLFRQQAQKLGFNPLVESYLIFVNPEFYLYNPPDNPSII
+YPAQLNRFMKKLQNRSLKVSKLDIKLAEKLLALHINESPYSRLPEYKFEDLRKGILCFNC
+RRLYHNVEGRSLVCDYCGGKENNQIAILRTVREFQLLFPHEKLTTNKILTMCGGIYENRT
+VRKVLLDNFEKIRSRNHAFYVDKS
+>tr|A6CKI8|A6CKI8_9BACI
+MKTNAKSVLSTSLKDIKQENESHKCLEDLSQGQQTLKIKQKVSWALLSLT
+>tr|A6CSR2|A6CSR2_9BACI
+MNRTMIGATNTLNQLQKQMDIIGHNLANSDTNGYKRREAMFSELLFQQVSNLKGEKDANT
+RLTPGGIRQGVGAKLAQSEINLAQGALKATGRSLDFALTSRNQFFKVLVQGEDGADVRYT
+RDGAFYANPIGNGEMMLVNGQGHAVLDENDNFITFTEAEMNSQDISLGDSGQLTIGGTPF
+NLGIVSVEKPQFMQQVGQNLLGLPDDLQGFGVNENEILTSLEGALRDNIGLAQSTLEGSN
+VDIGKEMTDMLNVQRAYQFQSRSISMADQMMGLINGIR
+>tr|A6CR77|A6CR77_9BACI
+MGGDEGGAAFKKILFERLFGHAFYFSRDPLEFF
+>tr|A6CH72|A6CH72_9BACI
+MEQRKKVPSDIEIAQQAKMLPVMDIAKKLGLKEEEIELYGRYKAKLTYETLKNLENRPDG
+KLILVTSINPTPAGEGKSTVTVGLGDALNAINQKTMIALREPSLGPTMGIKGGAAGGGYA
+QVLPMEDINLHFTGDIHAITTANNALAAMIDNHIHQGNELEIDQRRITWKRALDMNDRAL
+RQIVIGLGGPVQGVPREDGFDITVASEIMAVLCLANDLEDLKGRLARMVVAYTTQKQPVT
+VGDIGAQGALAMLLKDALKPNLVQTIEHTPALVHGGPFANIAHGCNSVIATRTALKLSDY
+VVTESGFGADLGAEKFMNIKTEALGASPDAVVLVATVRALKMHGGQNKADLTEENLPALE
+KGLENLQKHIETIRLFGVPFVIAINKFINDTEAELAYLLNWCEENGAAVSLTEVWEKGGK
+GGEDLAEKVISVIESKEKSFKRLYDNEVSIEDKIRTVAYNVYGANEVEFSTKAEKQLKEI
+EDHGWSGLPVCMAKTQYSLSDNPKKLGRPRDFSIHIRELRPKIGAGFIVALTGEVMTMPG
+LPKKPAAYGMDVDKNGNVKGLY
+>tr|A6CRW2|A6CRW2_9BACI
+MESKIEVLSTVKIQHSPDFYKVVDALNRTLKERDLMFGLALDPEDQEQAIFTIYRT
+>tr|A6CRZ8|A6CRZ8_9BACI
+MGSAILYGTGTILVLAIAASLIFALLLRFTSLEENSINLAVTIISFLALFIGGFMSGGKG
+KEKGLVLGGLTGLLFSIGVFLFQYLGYDSLFSMKQVVYHVCFIITAMMGGILGVNVSGGK
+SS
+>tr|A6CI62|A6CI62_9BACI
+MLVVVSILLLIVTLALSKNVTRSKRFAAFYVIALAGGGFALISAVFLGGWDSLPFALTGA
+LIGVIGLFGMMMILLVRQRA
+>tr|A6CLC8|A6CLC8_9BACI
+MEDFKQQIKSVAGRIERIKGNILTEEATKTSLIMPLIQALGYDIFNPEELVPEFVADVGI
+KKGEKIDYAIMQDNDPVILIEAKSVNEVLTKHDSQLFRYFGTTKAKFAILTNGVEYKFFT
+DLEEQNKMDQKPFFTINMLDLKEVDIVELAKFRKNDFDVVNVLTTASELKYTGEIKQYLG
+RQWEEPSEDFIKVILNDIYQGVKTKKVVDNFRDLVKKSLNQFVNEKVNDKLQKALNSSSE
+NNEDPNINAAIEVEKEKENIPTEVKSQQDEIHTTEEEIEGYVLVKLILKEEFDPARVYYR
+DNKSYFNVLLDDNIRKWICRLGFNGSNKYIQLNNESRTNIKIESVNEITNYKNEILAVAR
+QFETLVSK
+>tr|A6CIY9|A6CIY9_9BACI
+MIQKEVLKLEQALKQIMLELKELKQGQGLLVEMNERLKKVEGNVAHLEGSLNRVKDKVES
+VDGTVRKIESTVNRIEVSQTEDVVGMLKISKKNTELETDYINSRLTQMDKRIFQLEKRVE
+Y
+>tr|A6CJY7|A6CJY7_9BACI
+MKKFFQFEERATSYKQETLAGITTFLSMAYILVVNPIILSQSGMDKGALFTATALSAIVG
+TLLIGLLANYPIGIAPSMGLNSFFTFSVCIGMGIDWEVALTGVFVAGIIFMILSLLKIRE
+KIINVIPQDLKHAIAAGIGFFIAFIGLKNAGIIVSNPDTFVSIGKLASPLTGLAVAGFVI
+TVLMLVRGIHGAIFIGMVITTIIGMIFGLISIPNSIVGKVPSLEPTFGVVFHHLGDIFTP
+QVLTVIFTFLFVAFFDTAGALIAVASQAGLMKDNKIPNAGRALLADSTSGVVGAVLGTST
+TASFVESSAGIAVGGRTGFTSIVISACFFIALFFSPILGVITPEVTAPALIIVGALMATE
+MSKINWSRMEIVVPSFITILMMPLTFSIATGIALGFILYPLALISQKRFKEVHPIMYALC
+ILFTSYFLFV
+>tr|A6CNA5|A6CNA5_9BACI
+MSEYTYQTGTVLIGDLLLESGKLLKGAELRYELSGRKTGPVILVCHALTGSHLSVGTEKQ
+PGWWRELIGPSGYINTKGFLVLTFNVLGGCDGSTGPASVNPETGEQYRMAFPELTVRDIV
+KAQYQALEELGVSSLEAVIGGSLGGMQALEWGLLYPSFVKKVFLLASTPYFSDYGIAFNT
+IGKTAIISDPNWREGKYERPADVLGLRVARMAGMVTYRSPELFQKRFNRSKASEEIYQVE
+SYLAYQGEKLANRFDPNSYLYLMAAMNSHDIGRDRGGWKEAASQFQPQLIALGYTNDLIY
+PPVLIKEFAHLVNNSTYYEIETLFGHDGFLTEFDKWGNLISRHLEN
+>tr|A6CTX4|A6CTX4_9BACI
+MEEILSIVPTAIAEKIIAMPTHIQPLIEEIRIRIDRPLEVTARGIPYFLPYVVTKKDGEQ
+LINKLANHSFYTLEEELKRGYITIEGGHRVGLAGKVILDGGKVKAIRHLASFNIRVAREA
+IGIAAPLIPSLYKNRWKHTMIIGAPQTGKTTMLRDIARIVSTGFPEESIPIPPYKVGIVD
+ERSEIAGCVHGVPQLQFGPRIDVLDACPKAEGMMMLIRSMSPDVIIVDEIGRREDGQAIL
+EAVNAGITLIMTTHGHSLEEISKRPYLKEIIEMNVIERFIELSRGDNPGLIKDIKNQAGA
+SLLEKASVT
+>tr|A6CNM1|A6CNM1_9BACI
+MGERNNLNAKENIGLILTAWRKKVGMSFIFNKSLKNASSVVHPNHEGFNIKRGGSTI
+>tr|A6CHV0|A6CHV0_9BACI
+MIRTENLSGGYGDKKILHDVNVEVKGGEFFGILGPNGSGKTTLLKMISGLLKAETGDVFI
+NGKNLTEYTMKELARLMAVLPQLNSQAFNYKVKDTVSLGRYAHQTGFFKNLTEKDEAIIV
+SVMEQTGIHHYADNFLNELSGGERQRVFLAQALAQEPKVLLLDEPTNHLDLSHQKDLLDY
+LKKTTKETGLTVISIFHDLNLAGLYCDRLLLMEEGSVSIINHPEEVLREDRISSVYNTKI
+EKNSHPKVAKPQMYLIPARVQEETEWWEMDERYLTLRDDMITLNLPKPVKTMSSGVCGAG
+LRWSSTIVNRHVPDTYDCDDYIEDMENFLLKKGFDPFKTVGMMTAVKLEDVSYRKAAEGN
+VSVFVVVTAGVGNAVDISRNSIQAPLKPGTINTWVLVNGELSDEAFIQAIVTATEAKVKA
+LQDEKVKDESTNTLATGTSTDSILIGATQRGEFLPFSGPITKVGKMIGTAVYETTREAIG
+QYKRRKGLL
+>tr|A6CQ45|A6CQ45_9BACI
+MPMKKICLSWSGGRDSMVMLDRLNSTPEWHPVSLLTTLAEEEKRVMMHDIPLSLMKKQAK
+ALGLPLLPVMMKQGSSNEEYEAGMRAALDSLLEKGVETVAFGDIFLKDIKAYREEQMKQI
+PMEPLFPLWGASTADLSREFIDKGYKAVLVCIDSSQLHPSFLGRKYDDELLRDLPDGVDP
+CGENGEFHTFVYDGPLFKDPVHFNGEETIEKYERFHYLQIE
+>tr|A6CKD2|A6CKD2_9BACI
+MFTEIKKVIQEEMSGRQAFRYADRIAQYHRIQASPGYREAAHEVLKLLKRDGVEAELVSY
+PARFGERFLSHQSFKEWSCENAELWIETPERKRIARFQEEEISIVQRSISTPPEGVEAEL
+VVIENAEEESSYEGLDLEGKIALVRGNQFIIHALAVEKYKCAGLIFDNLAEFKPVRTRMD
+LPDTRQYTSYWWHHEEEVKSFGFVVSPRIGEKLRNMAKKGTIRLKANVKAELKDGHFENI
+EYFIPGKKEQEILLVSHLCHPYPGGQDNASGPGTLMEVMRTLTRLIKGGKLPQPELGIRF
+LMMPEMTGTAAYFQQHQDRLAKTIAALNLDMVGADQTKGGGPLCIEQPPMAAPTFLDRFA
+FGLVEETANNTSNFTGTSRYSTVHYVKTRFSGGSDHYIISDPTIGIPCPMLIQWPDKHYH
+TTSDSTNHLDEKMMRLVGTVTALYSYGLANGDEQGWVSYTSQHMGRAGSYLNDAKEWLMK
+SNPSKKAFQDAFSFYVGYEKDSLLQLEEYANIRGFNSLLEEIAKLKHLIDEQAEIISTIG
+EHRLSVFTEEKEHPDWTNAVYKRNYQGPIRLVGEIALLPLKERVHWLKEVEPKIPMGYAD
+FILYWMDGKRTVQETLDLTFYETGQFYPEYVKELLKLYSKLNIIKMSL
+>tr|A6CIM7|A6CIM7_9BACI
+MLIWFASGGYLIQTLGVEGIVFGKPKKSGYVKVHMAPGKPFGVRLSISKDSFGYSRTLKG
+SQKSF
+>tr|A6CJN6|A6CJN6_9BACI
+MGRVEMNKVNIKIIIIIVLCGILALLFHYSKNDRNSLEKDKVTVMEKYFAPSQSSVATGI
+KSKKEIQVEESEAKKCAMEFSNKKIFEVDCDKYLDYNIGDKIVIIHQNDRLVKIGKK
+>tr|A6CKP1|A6CKP1_9BACI
+MRMVKALFLNCTLKGGKEQSNTEALMHDVIDIMDKEGVSSEIVRLSEYSISYGITADAGD
+GDQWPEIFEKVKEADILVIGTPIWLGEKSSIATLAIERLYGASSFTNDKGQYLYYNKVGG
+AIVTGNEDGAKQASASIIYGLSHIGFTIPPNVDTYWVGEAGPGPSYIEANGSENEFTMQN
+AKIMAYNLIHFARLLKEQPIPAEGNVVE
+>tr|A6CMS7|A6CMS7_9BACI
+METVVGWLNGVLWSSPVIYLILTLGLVFSIMTRFLQVRHIKDMFKLMFKGKSSDAGVSSF
+QALALSLSGRVGTGNIAGTATAIAFGGPGAVFWMWTIAFIGASSAFIESTLAQIYKVKQN
+GQYRGGPAYY
+>tr|A6CP72|A6CP72_9BACI
+MFARLVHITLFEARRIKKVGYLMVRRSLYCVLIAVVFLLFAGCAHREIDTSPVLKAEEGY
+IDLSKLHDDRIIRLNGEWEFYWERKGALLDNKQYIEVPSNWKSALGLPGHGYATYRLVIE
+GLKEESRYGLTIPAVSNAYQLFIDGNLAAEVGAVGTDKDSTVPDYQPQEVYFSPNDTSTE
+VTMVLANYHYRSGGIWESITIGTAEQILDRTYKKQAFEFIIFGCLLLAGLYHSVLYIQRR
+KNVSALLFSLVCFIICIRIIVTEEMAILDFFPSFPWSLIIKLEYLTFYTSVPLFCWVLYS
+LFPNLFSKRYFKVFTFISAVMSLFVLVTTTNIFTHSTVIYQVLTIITILYVSIKLVKALI
+DKQEGALIVNICAAILSITVINDILSVNSVIQSYRLSSLGLAVFIFSQAYIIAKRSTKAF
+NEMERMTTELALLNLTLEEKVKERTVSLENSRDQLQKVNEKLKNLSYRDQLTQIPNRRYF
+DEKYHEAWDAALMNKSPIAVMYLDIDYFKLYNDTYGHEAGDECLKLVAQSIEEIIQSCDG
+FVARMGGEEFIAVLLNQSPESIYQLAEKCRTMIEGLNIPHENSKVSNRVTLSIGAAMSVA
+NAKGKAADLISEADECLYEAKENGRNSIYIKNAAGTVSTPSA
+>tr|A6CQ09|A6CQ09_9BACI
+MSNNGARLAPVNRMNEYKLKTLPLSLSEEFPINVMIVGNSKEIADTNAIEDKR
+>tr|A6CSX2|A6CSX2_9BACI
+MVLDASTILVLVAVVAGIIFLGVLFTFVPVMLWISAIAAGVRISIFTLVGMRLRRVIPSR
+IINPLIKAHKAGLTVTINQLESHYLAGGNVDRVVNALIAAHRANIELTFERAAAIDLAGR
+DVLEAVQMSVNPKVIETPFIAGVAMDGIEVKAKARITVRANIDRLVGGAGEDTIVARVGE
+GIVSTIGSSNNHKKVLENPDMISQTVLTKGLDAGTAFEILSIDIADVDIGKNIGAELQTE
+QAEADKNIAQAKAEERRAMAVANEQEMLAKVQEMRAKVVEAEAEVPLAMAEALRSGNIGV
+MDYMNYKNIDADTEMRGSIGKLTGDKNEEGQDE
+>tr|A6CJI1|A6CJI1_9BACI
+MPYHKDKQQAFQAAQQGHEEVKDVVNEMVLDGADYGHQLAHLKNEVNEAYQQIENALEVA
+SEHQREQLEKMKSDLSSVVQQVNQNPS
+>tr|A6CP51|A6CP51_9BACI
+MKDLTTQLWKKIMIGLGVSSLLLAGCNNNEQGAENTDKPEETQEEATNPLEEQTAQILED
+AENLEEAKDVPQEEKQAILDAFNEYIESFNDEDVDRYLATLSDTPINFTLEEEEAAVNNV
+FSKLDVRREASNVKIINYQGKKADVYADLEVVTKDPDSDKQATTSGKQLTIFQKTDEGWK
+VSMIKVMKNKDESESASDSE
+>tr|A6CQY2|A6CQY2_9BACI
+MLQPVLDKYKYLLIAVIILLVAGCAFYYHLNQAGEDDSVEDIFPQAVPPLEEEPEESVER
+DIFVDVKGAVRKPGIYKAVQSERVNDLIIRAGGFTEEAHEESVNLAQKVLDEMVIYVPTE
+DEGGEVPSTEFLTGQGHSELLNINQASEQDFDGLPGIGPAKAKAIIEYRKENGPFKAVEE
+LKDVTGIGEATFERLKENITVN
+>tr|A6CJZ6|A6CJZ6_9BACI
+MGILRISDMLYRDYAKEADAADVG
+>tr|A6CJV0|A6CJV0_9BACI
+MDLILYPNENWRIRFFYREKDAAKTKRAIQVMELLFFSQPYFVNKGSIYFLF
+>tr|A6CPX6|A6CPX6_9BACI
+MLSMIGLIGGLILLIVLTMRGMNILIVGPISALFVALLSGLPLFPQLVGEGEANLVSNYM
+AGFTGFIASWYLMFLLGAVFGKVMEDSGAADSVSRFVVDKLGMKYAVFAIVLACAVLTYG
+GVSLFVVAFSVYPMAVSLFKQADLPRRFIPAALAFGSVTFTMTSAGSPEIQNWIPIDYLG
+TTPYAGWEVSLIVAVFMAVFGYWWLRRMINKAVAKGERFEARKEDPVIDSSRELPNPLMG
+LVPLLVVLVLAFIFHDSFKQSALIIALLGGVISAYLLNRKYFKGFWGAVSEGTIGALIAI
+GNTAAVVGFGGVAKAVPAFDTAVSVMTSIPGSPLIGGAIAVSVIAGMTGSASGGQAIALP
+ILAPHYMDMGVNPEALHRTVAISSGALDSLPHNGYVVTTIRSICNETHAAAYGAVGALTV
+VVPLIGLAMAILLFSLGLGI
+>tr|A6CIR5|A6CIR5_9BACI
+MKKIIIGIVVVGLLVVAAFLYLENSKKNNSYSTPEEALSNVKAPKLEVLKIIDTKLYDDV
+AYVFYYSEVGQTPKNYLCDRQVE
+>tr|A6CLS7|A6CLS7_9BACI
+MTEPLLKVEGLKKHFPITGGILGRPVNHVKAVDGVSFQVKKGETLGIVGESGCGKSTTGR
+MLMRLIDPSEGKVTFEDKELTSLSKAEMRKIRRDIQMVFQDPYASLNPRHTVEKILEEPL
+IVHGIGSAKERKKKVHELLEIVGLSSYHAKRYPHQFSGGQRQRIGIARALMTQPKLIIAD
+EPVSALDVSIQAQVLNLMKDLQEEFDLTYIFIAHDLGVVRHISDRVGVMYLGRMVELSES
+ENLYTKPLHPYTQALLSAVPIPDPAFERDTILLQGDIPSPSNPPAGCAFHTRCPHAMDVC
+KSKTPEFKEHLPGHYVACHLYEDGK
+>tr|A6CS98|A6CS98_9BACI
+MQKIICNYKYNTLKTVIMMNGCLLIHGFTGGPYEVDPLAHYLKCHTDWKIVVPTLPGHGD
+SLDLKGKKADEWVECAEKELEVLLEECDEVYVIGFSMGGLIASYLAVKYPVNKLVLLSAA
+AYYVNPKQLLTDIRDMIQDVFRGELSNNELYLRYKKKIKDTPISATYQFRRVVLMAKPLL
+KDIKVPVFIAQGKKDGIVPPKSADFLYEEIAYQEKEKYFSEEAKHLICHSDDSDNLFEKV
+KDFLLRDK
+>tr|A6CS80|A6CS80_9BACI
+MKKVIFVLDIGNTNIVLGVYEGEELKYHWRMETNRHKTEDEYGMIVKNLFQHVQLSLESI
+DGIIISSVVPPIMFSLERMCVKYFNITPLVVGPGIKTGLNIKYENPREVGADRIVNAVAG
+IEQYGGPLIIVDFGTATTYCYINEEKQYMGGAIAPGIGISTEALYSKAAKLPRIEIGRPD
+HIIGKNTVSAMQSGILYGYVGQVEGIVKRMKATGDSNPLVIATGGLAQLISKESDVIDVV
+DPFLTLKGLKLIYERNSKV
+>tr|A6CLF3|A6CLF3_9BACI
+MKYMLFFLIVVPALEIGLLILSGQTFGVPATILMIIATGVLGAFLAKKQGLQAIRSVQDQ
+IRFGQLPGDAIVDGLCVLVGGVVLLTPGFITDAIGFLLLFPQTRKVIKPFILKLFRKWID
+NGNVIIYR
+>tr|A6CT51|A6CT51_9BACI
+MKKLITGLFTAASIFTLGACGTTDEGSQGGAGEETSVITVGASNIPHAEILEKAKPILEE
+QGVELNIETYQDYILPNKDLDSGEIDANYFQHVPYLESQIADHGYDFVNAGGIHIEPMGV
+YSKKYDSLEELPEGATILMSNSVADHGRILTLLEAKGLITLKEGVDKTAATLDDIAENPR
+NLEFDYEYEAALLPQLYENEEGDAVLINSNYAIDAGLNPLEDSIAIEDKESPYVNLIAVN
+SGDEENEAVKALVEVLRSEEIQDFILEEWGGAVVPVQE
+>tr|A6CTF1|A6CTF1_9BACI
+MAITLLAVITVYVFYLLYPVWHPVLSVLIMAMIPFLLGGFITYLLHPVVEKLFKAGIHRG
+IAILLIYILFFGGLGYAVYKGIPVIIHQLKDLAENAPLYTEQYQRWLDYIQRQTSTWPDG
+IQHELETRIERFEEWLNGVVAFILSGVLKIMNSLLLFAIVPFISFYLLKDFPKVKKAATS
+LTPKKWRNSAGSFFKDLDESLGGYIRGQLLVCLLIGSLAALSFWLFGMKYPLLLGIIVGI
+TNVIPYFGPVIGAVPAAIVASTISNEMIIKVIVIVFALQFLEGNILSPLIVGKSLHMHPL
+FIMGALIIGGEVGGVLGLIVAVPLLAMLKVAVVHARTHFTARDSP
+>tr|A6CLL1|A6CLL1_9BACI
+MPASAVDVFLFSAKFPVKEDLHLDQVFARHDGIVCGPINIVDKIVILDSPEQNNGVGEAI
+ETCLNVVSLGVTPFIEFHGSHAPPCKIVVSCIPGFLI
+>tr|A6CLK1|A6CLK1_9BACI
+MNSIINFTLKNKFAVWLITLIITTAGLYAGLNMKLETLPNINTPIVSITTVYPGATPEEV
+ADKITEPIEKRVGNLNGVNVVSSTSYQNASAIQIEYKFSKDMEEAEDEVKDVLTNIGLPE
+GVQDPSVSRLSFNAFPVMALSVSNENETISQLTGTVEDTILPALEGVDGVSSVEISGQQV
+EEVQLVFNEERMNELGIDEETVKGVIQGSDVNVPLGLYTLDKTQKSVVVDGNIMSLEDLE
+NMVIPVMPSAQAQSQGPTGAAGESPSVQAVPGTAAQAPTGLPTVQLSEIADIELVGTVDS
+VSRTNGRESIGMQIVKSADANTVDVVNAVKEEISAFEKDIDGIEITSTFDQGEPIEESVS
+TMLNKALFGALFAVIIILLFLRDIKSTFISVISIPLSLLIAILVLQQMNITLNIMTLGAM
+TVAIGRVIDDSIVVVENIYRRMSLEGEKLRGKELIREATKEMFVPIASSTIVTIAVFLPL
+GLVQGMIGELFLPFALTIVFALLASLLVAVTIVPMLAHSLFKKGVKKKVDHDKPGRLALG
+YKKVLNWTLNHKVITSLLAVAMLVGSLFLVPLIGVSFLPSEEDKMVVATYSPAPGQMDEE
+VERISQDAEEFFLSREDVTTVQYSVGGENPMNPGSSSGAMFFVEFDEDTENFSEEKEQVI
+QELQASVEEGEWSSQDFSASAGSNELVLFVYGENMDEITPVVDDLKEIMSGHSELKNIDS
+SISEAYEEYTLVVDQEKLSQLGLTAGQVAMELSQQRINPVLTTIEKDGEEVEVFVQAPVE
+TYENIEDITGRTIQSPLGVEVAVEDVVSVEEGQTSDTVTRRDGRIFVQVIGEIKSDDVSK
+VSADIQSEMEELELPAGVDVNMGGVTEDIQESFTQLGLAMLAAIAIVYLILVITFGGGLA
+PFAILFSLPFSIIGGLLGLLIAGETLSISSMIGALMLIGIVVTNAIVLIDRVIHMENDGL
+STREALLEAGTTRLRPILMTAIATIGALFPLALGLEGGGLISKGLGVTVIGGLTSSTLLT
+LVIVPIVYETLMKMKRKFTKKEA
+>tr|A6CMB1|A6CMB1_9BACI
+MRIIVKEWKAIPIHYRILILEGLASKKTLKGVIDE
+>tr|A6CTJ4|A6CTJ4_9BACI
+MNFFKRLKIGIVAGMLLFVGGNISSVSAASGTVDIEDYSKQFVGTPYSWGGTTPSGFDCS
+GFVTYVYSNYGVDLPRTSADQYNSGTAVNTSELEKGDLVFFSTYKPGPSHAGIYLGDNEF
+IHASDSGVVVSGLQDYYWKDRYLGARRYSEKVSSSSSEAAITTESVTKPKVYWDGLLMVD
+GQIGKLEIVKPINLWKRTDEGLKFERILWPGEQYRVYRYDNLYGGQYGLGGGYYVT
+>tr|A6CLE9|A6CLE9_9BACI
+MLKDLFVKTKKKKYATIPSDAAKQDVPEGIMTKCPDCKKIMYTKELQKNLKVCLHCGFHH
+RMSAFERSDSFFDEGTFEELDAGLISENPLNFPDYIEKLEKDREKTNINEAVVTGTGKVN
+GCDAVAAIMDSRFRMGSMGSVVGEKITRAIEEADRRSCPFIIFTASGGARMQEGVLSLMQ
+MAKTSVALKRFSDNGGLFISIMTHPTTGGVSASFASLGDYNFAEPGALIGFAGRRIIEQT
+IREDLPEDFQTAEFLLKHGQLDDVISRLDLKEKISTILEIHQWDGELTW
+>tr|A6CIU1|A6CIU1_9BACI
+MILFSIIIVFTLAACGEKKEINSEEPSTDPLKIFTTVYPLQFFAERIAGDEAEIESILPP
+GSDSHTYEPTSKDVMSIAEADAFIMNGAGLEAYAEKTAEAVEGEDVKILEASQGIELSEG
+AHDHDHGDDHDHGDYDPHIWLDPIRSIELAANIKDLLVEMKPEEETLFNENFETLKNDLE
+ELNQEFAAELGTVSGNHFIVSHAAYGYWEEAYDVHQLAVSGLSPTEEPSQKELQTLVETA
+KEYELKHVFFEQNITTKIAEVVRKEIGAETLRLHNLSVLTEEDISADEDYFTLMRHNLAQ
+LLTALEQAPAIEPEEDDHDHSHELDEEALKIYDGYFEDDQIKDRALSDWEGDWQSVYPYL
+LNGTLDEVFAHKAEDGDKTAEEYKEYYSIGYKTDVERIIIDGDKFTFFEDGERSSGSYVY
+DGYEILTYEAGNSGVRFIFKLDEEHEGNMPNYIQFSDHSIFPTDSHHYHLYWGDDREALL
+NEVTNWPTYYPSDLSGEEIADEMMAH
+>tr|A6CQA2|A6CQA2_9BACI
+MANKILIVDDAAFMRMMIKDILTKNGFEVVGEAADGNQAVEKYKELSPDLVTMDITMPEK
+DGIAALKEIKSLDANAKIIMCSAMGQQAMVIDAIQAGAKDFIVKPFQADRVIEAIQKALS
+>tr|A6CJX7|A6CJX7_9BACI
+MIKDESLWNIIGENTPYDIEYEWYGEKVPYVTKIFIHGQAHSSENGH
+>tr|A6CTJ9|A6CTJ9_9BACI
+NASVNVRLAFQHALEKADEGTGTIDDFIGNVINVVMQNESQLEVINPGYRTDLFLTGLES
+LMMGQFQLTEEEAVIINAKLSTDYQSSVMYKSFTQLSEEGQANVIGAINTFGGGSSYSEF
+LQLFTTLLLENQEV
+>tr|A6CK84|A6CK84_9BACI
+MLKHFLQNTSTDAQALQHRFSMNSSRLRVLITLGILSALAAIFQSAGGFFPGPGYLVSPL
+ATAPMILAAVISPGYGAISYLAAIGVLMIWQPSEVVIFTFTTGILGIVTGLAFHKFKNRL
+MIIFSGGCALFGGIVIILYGFDFPLLGPGISSDFQWLAVILIALFSMIYSWVWTEASIWF
+FRIFKRIL
+>tr|A6CPV4|A6CPV4_9BACI
+MAAQEGFIDVTGGKVWYQIHNRESTNTPVIILHGGPGSSHYSMQGLRILAEDRPVIFYDQ
+LGCGKSDRPTDQSLWNIDRFVEELEQVKDGLDMKEFHILGHSWGTTLAAAYYLAKPEGIK
+SIIFSSPCLSAPLWAEDQEENRKLLPADVQETLRRNEENGTTDSDEYKKATEVFNKHFVC
+RLDPYPEFLKKGREFRGPEVYNIMWGPSEFHVTGNLKSFDCTEQLKDFTIPTLYTCGRYD
+EATPKSTEYFRSLTPNGKFHVFVQSAHMPYVEEPEEYVRVIGEFLASVD
+>tr|A6CMS4|A6CMS4_9BACI
+MKIATENRLLTKEDMTNPEKVPQWVIEEYKTFRDTVTDKTFPCYFGMSGEKKGELRYSYI
+THDDWSSLPQTLEQFIGLFDSPKLIRHGLFLFVEPEKEEKDIPYYREYFWNILQFLHEKD
+TKPWPKDYPEDPDHHLWAFSFAEEPYFVFGNAPAYKQRKTRDLGNSLVLGFQPRRIFEGL
+EGTSKGGVMSREKVRERVEKWDNLPKHPNISHYGDPEHREWKQYFIGDDVEPITGKCPFH
+HK
+>tr|A6CRI4|A6CRI4_9BACI
+MAQNNNDNNNKKMSVEEAGRKGGEATSRNHDKEFYQEIGQKGGEATSENHDKEFYQEIGE
+KGGEARSRQNDNNNNNNSNNR
+>tr|A6CJ18|A6CJ18_9BACI
+MIINKQKGGGRMVIQSNMSPAAIVDAWEDTEPVFVKYGVPITEEKLESLVGSERLSEILH
+ELNAVVGSSGATCVEGG
+>tr|A6CRX6|A6CRX6_9BACI
+MLNKSMQQQIALIYEKRLIDSFHLFLYNCSVISQCIVLLIGAKHMEKIK
+>tr|A6CIY1|A6CIY1_9BACI
+MNKNIVYGDLIFYLIFPIVIWNIGRDYIGDYYAMLASSVPGIIYSMIRFALLKKINLFGV
+FIVSNLLIGTLIDVLSGSAINLLWNNVFYSYFIGLLFVSTIFINKPIALYFALDFVELQG
+QNRIKMREVFYQPRVLTIFKLITFGFAFRDILLASIKVWLIVTYGIESFDKGLILRQVLS
+WILTGLSIYGFIYISKLINDNSKSTNKAL
+>tr|A6CJ51|A6CJ51_9BACI
+MYYIIDVTAVGSVALLLYTVIDFIRKGKVNLLNRFLFYSFILYLLFVTQLTTGGINIPPH
+RMMEPRMQLIPFYFIGDLYTMYQGHGLDWFFKNSLKLTSYNLLLLVPMGVYLSLLLKIRN
+SKHALLIIFLSSLVIETGQLAFSYLGIIEGRVFNVDDLILNTTGGFIGYFLTNSLKRRKS
+KGEWRNA
+>tr|A6CIA5|A6CIA5_9BACI
+MRKRELKGMAQPETNVENQPQSKGMTRFLNGIEKLGNKLPDPFFIFIYLAAFVMIISWIV
+SSVGASVVHPGTGEELPIKSLISGEGLQYILSSMLTNFTGFKPLGLVLAMMLGIGLAEKV
+GLMESAIKKSILKAPTKMITYAVIFVGILGNLASDAAFVLVPPLAAMVFYTVGRHPLAGL
+AAGFAGVGAGFTANIFIAGTDALLSGISTEAAKSVNSDIIVTPVDNWYFMIVSVIILSVV
+GALITEKIIEPRLGTYKGDVDKVLEEASPLESKGLRNSLIAGLVFLGLVALVLFWPNSPL
+RNEDGGIIPSPFLSGIVPIILFFFITVGVAYGVTVKKITSTSDIPKYMAEAMKDMSGYIV
+LIFAAAQFISYFNWTNLGTWVAVNGAEALTSLELTGLPVIVGFSMLTAVLNLIIFSGSAQ
+WALEAPVFVPMLMLLDYHPAFIQAAYRIADSSTNIITPLNPYILIVLAFMKEYDKKAGLG
+TLIALMLPYSIIFYIIWLILLIAFALLGIPFGPGVHMYL
+>tr|A6CNP1|A6CNP1_9BACI
+MQNENESVTDEFSYYLGYYIHLVTDEEWLKLLERKKKEKAYQEILNTPEYSRLVKRDWYG
+LDFLYLKNRKDNIFWEEFQYITDFPEYLDIFPNGQTLKQIRNITKFYQSSTIPDDHNFIY
+LNSKEVDVFIEDTVQIVSKILKEKLKVA
+>tr|A6CPF1|A6CPF1_9BACI
+MEFYYSQLKALSGNCSSCGCCERGPRGPVGRPGPRGPKGDPGTPGVLAVTHGYGYFQGTR
+RGPGIVPLNVPGPLTNTEMDNNGLKVLEAGTYQISYKVNLEAAGAANPESSNFYLLVNDS
+IDIRSSLTTASAAGQKQSLSASVLFSLLEGDEVTLMADIPENASYSMPVLQVLRIG
+>tr|A6CQ31|A6CQ31_9BACI
+MKGSWSQKEGDFKIRVPHESFMEPKRSGIKD
+>tr|A6CQC0|A6CQC0_9BACI
+MQKLRNKVQRKPNSQVEKTKKPKNAPKFNLSMWKNMKIGQKYITALTVTIVLFLISSVII
+FMEYDKIHNSMEEVDVSNVRSVKLTEMGSIFRDKALLLQRYANEKNPQIVEDFNTQEEKF
+TNFTQELTSEMNSKQEKELFSFIIESDKELNSLFHDEVVPSVDKNSTVLLDTTLKKAGII
+APNTVKKLYELRTLVMAEKDAALEDAYNGIGDSKILMIAAIIISAVLGVAILLIINRMIS
+RSLNRVVKTANAISEGKLNAEELTYLGRDEVGQLSLAINNMKNNLASMVGDIRKVSETVT
+EQSATLSQSSLEVREGSSQIAVTMQDLSAGADQQANSASELNEMMASFTQAIEESNRFGQ
+EVSESSKVVLTKAEEGSALMSDSVQQMKKIYSVVETSVEKVETLKTRSNEISSLVNVIQG
+IADQTNLLALNAAIEAARAGESGKGFAVVAEEVRKLAVQVSQSLEGISKVVHGIQTESNT
+IATALNEGYTEVRSGTESIEKTKDSLTALGGQISSMVHNIDRISTNLVEINSKGSEMNQS
+IENIASISEESAAGVEQTSATIQQSSSVMEEVARNAESLNDLADKLDVLIRKFEV
+>tr|A6CR60|A6CR60_9BACI
+MSGTLLLFMLAFAVSLDSFSTGLTYGLRKMGMPLKSIVIISICSAGSLLAAMSIGGAAEN
+VLSEGAADKIGGLILIALGAFVLLQFFRSGKDTSVDEEKILFNFEIESIGLVINILKRPM
+AADFDKSGTITGVEAIMLGLALSLDAFGAGIGAALLGYSPLLLAVTVMMMSIIFLSAGLK
+IGKSCAHMGWVQKVSFLPGVLLIVIGVLRF
+>tr|A6CUI0|A6CUI0_9BACI
+MGRSLKKGPFVDDHLMDKIEKLNEGEKKQVVKTWSRRSTIFPNFIGHTIAVYDGRKHVPV
+YVTEDMVGHKLGEFAPSRSYKGHGNDDKKTRR
+>tr|A6CKI3|A6CKI3_9BACI
+MKKGIHPNYQKVVFMDTNSGYKFLTSSTMSSPETIEWEDGSTYPLIKVEVSSDTHPFYTG
+VQKFADRGGRADR
+>tr|A6CTY8|A6CTY8_9BACI
+MEEMKSTKLAWMYIITLSIGTILSLYIPKQESISAQQEIQVIPNEAIRLRILADSDKDED
+QAVKRLIRDRVNEEITVWVESLTSLDEARATIKAGLPELQEIAETAMEEEGLSQSVNVEF
+GTVDFPTKLYGQFLYPAGEYEAILITLGSGKGANWWCVLYPPLCFLDFTSGTAVRSPGFE
+STAAASGIDVEAGESEAADEEVNPAVEGQETNETVTAGTPVKTKEAAEKASSGQVVDKKE
+TAAADPLFVKEEESEVEVRFFVVDFLKGLMD
+>tr|A6CIQ4|A6CIQ4_9BACI
+MFGMILAAAGTLLSVIIWGMNQAYYISGGIALIFVGISMISSGALVSGDQMRANFATETT
+QDRRARMSISFKSASIGLPNLVAAILIYVYFT
+>tr|A6CJL7|A6CJL7_9BACI
+MIMYLWELNDKKLQGGTCMKRLIKTLIKWGPVVYPIYKKYRDKKRSARSY
+>tr|A6CME1|A6CME1_9BACI
+MESSECVYTNLGGTAGDYQRPLVPIIIFNNWGGSFFVIKDCFPKVIAFLLKVDRSVRIHD
+LLREQRDR
+>tr|A6CMK1|A6CMK1_9BACI
+MKKWLAVLLMAMLAFAAGCSSNAGSSDGGSASGGEDVPQELTYASTSDIVGLSPIGTNDS
+VSSRVIEQIYETLFTRNPETMEVEPKLAESYETPDENTWVIKLKEDIQFTDGTPFNAEAV
+KYTFDKFRDPETAAPRASLLEPISEVNVVDEYTVEIKTEKPYGAMLAALSHTNASIVSPD
+ADKSQDLMKEPVGTGPFKFVSWTQGDQVVLEKNADYWQGEPTLETVTFKVVPEVNTAISM
+LQTGDVQFIDGIPSEQLQRVESLKNVEVKKNEGTPMYYMGFNMTKEPMNNPEFRQAAAYA
+LDREAYVNKLNGLGVQGNSVIGPKVFGYDESADEAGYNHDLEKAKELVEKNGFGDQELTM
+LVANTDAYMMMAEIAQSQLTQAGFKVKIESMEWGTFLDTTKEGKFDITFLGWSNSTADGS
+ELLYPNYHSDNIGASNRTGYSNPEFDKLVDESRQNVDQDIRQQKLNEANKILVKDAPVVI
+MHHGVVTAAYDKSVKGLQVDPTGQWSLYNVSRE
+>tr|A6CU32|A6CU32_9BACI
+MTIKIFNTLTRKKEEFKPLEEGKVKMYVCGPTVYNYIHIGNARPAIVFDTVHRYFEYRGY
+DVNFVSNFTDVDDKLIKAANELGEDVPAIAERFIEAYHEDTEALGCQRADVHPRVTESMD
+IIIDFIEALIDKGYAYESQGDVYYRTRKFEGYGKLSHQSIDDLKVGARIEAGDKKEDPLD
+FVLWKAAKEGEIFWESPWGQGRPGWHIECSAMAKKYLGETIDIHAGGQDLAFPHHENEIA
+QSEALNEKPFARYWMHNGYINIDNEKMSKSLGNFVLVHDIIKEQDPQVLRFFMLSVHYRH
+PINYNLELLENAKSGLDRLKTSYENLKHRREVSAELTDNNEEWLEKIASLKNQFIEEMDD
+DFNTANGISVLFELSRQANYYLMEKNTSITVIDAFSQHFKEFFEVLGLKLEEAELLDEEI
+EEMINQRIQARKDRNFQLADELRDKLKAMNIILEDTAQGTRWKRG
+>tr|A6CUG3|A6CUG3_9BACI
+MSKIAAQDQELYQAIQDELHRQQTKIELIASENFVSEAVMEAQGSVLTNKYAEGYPGRRY
+YGGCEHVDVAENLARDRAKEIFGAEHANVQPHSGAQANMAVYFTVLEQGDTVLGMNLSHG
+GHLTHGSHVNFSGIQYNFVEYGVDKDKQVIDYDDVCQKALEHKPKMIVAGASAYPRQIDF
+AKFREIADEVGAYLMVDMAHIAGLVAAGLHPNPVPHADFVTTTTHKTLRGPRGGMILCKE
+EYAKKIDKSIFPGIQGGPLMHVIAAKAVAFGEALQDDFKTYAQNVIDNAKRLGESL
+>tr|A6CJZ1|A6CJZ1_9BACI
+MVDNFFFDYTNKNTGKLIDEHEVVLTTSKEGNKLLEPSR
+>tr|A6CKE7|A6CKE7_9BACI
+MKKLYFIWVLLFFLSACGEYSPSKHDVVNTHGHIENIRLLENFMEDVSMNKESEVRVVNY
+TDEGDPIIHDLTYSNDTLTSKKDTREDEFGNQLVMEDVCESIKKIDKSDRTIYQLEGCNG
+KVDVIHVTIISND
+>tr|A6CLR3|A6CLR3_9BACI
+MGKKNNSNKFDRNYVSPFNQAFYNAKHAHSQANGHTTQTQDLIILENQTRKRS
+>tr|A6CJ21|A6CJ21_9BACI
+MITSYEKINLSGNKTAEVFLHLTPDKRFIVSIPAIHWSAEFNQEDDLSIQFDKLRASLNF
+HLYEGNTDELVNAIKELAKIHF
+>tr|A6CLM6|A6CLM6_9BACI
+MTASNGVAIIGIIQSKYPLGVLPPLETLQINLTKSEEKLYLDMNKSTRQQIRQAEQKYDL
+VTKADPTPNENLLIAFRNFYNTFASNKHTYKCNAFHLKTLKLLAEQRSLLITSVEDSLGE
+TLCYRVYVIDGKRATSLYSAAHFRQTADKSRKRLLSAAHRYLKWKDMLWLKHRGYIIYDS
+GGLTSDPAIRNFKLEFGGEIVKEYSGYIATNLFGRAVLSIRNWNLRRGLRVKT
+>tr|A6CMQ7|A6CMQ7_9BACI
+MLNTGAWHSDQAHQTIKESDEVNKKNNSIKLLTLIGSVVVVCLIITGFVFSKDEVVAKVG
+KDSISKDELYTMLVDQYGEAALDTLIADKIVELESDEQKIKVTDGEIEEELHKLHESYGD
+EEAFNQALTSSGTSLQSVKDNIHSYLLTKKLLQDRVSITDDQVQEYFETNKDSFAQQEQV
+EASHILVENEETAKEVKEMLDNGEDFAQLAEEYSVDTSNAGSGGELGYFAKGEMVAEFEE
+KAFSMEIEEISNPIETEFGFHIIKVTDKKEAEEAVLEDHKEEIQEILYEQALQTEYPVWL
+EEQREEYEIEQLL
+>tr|A6CIS8|A6CIS8_9BACI
+MFILVFIISLLLYGGLVYYIGWRGLHWLRPESSSRRFTILYSLVVLLAASSFIVGRMTGL
+TFINIIGAYWMACFYLLLLLVPLAHVTVILLRLTRLPRHGTQKWAGFITLGLLIFFMAYG
+SFNAFSPVVRDYEIQIEKGSSSLDSLHIVMAADMHFGLLSGKSHAERFVEKTNELNPDLI
+LLPGDLFDDDVQPFLDQEIDKVLSKLHAPMGIYASLGNHDRHDGTMMELIEALEQGGITV
+LYDETVDVQGDFTLIGRKDRIDRERLPLNLLTKNINTEKPVILIDHQPYELNVAQQEGID
+LMVSGHTHRGQIFPGNLLTDAIYENDWGHIQKEQMHSIVTSGFGFWGPPIRIGTRSEIVS
+IGIEFE
+>tr|A6CIX4|A6CIX4_9BACI
+MKLPELGIRQIIKDKSSKNHQQQFILICLKKKRGIILKNYLGMVSILILIATYTLLQSLV
+GKYIGHWWVVIIVIGFVASALASWYSKSGFWRKASATILIALPVGYLIILALFIFGLSGF
+>tr|A6CKQ9|A6CKQ9_9BACI
+MKNWVPFSDQEYDQIWDRIYRDFKFEPSISIFPSFQVPHPFITYDITDYFGDSADLDAYD
+DLEEKALDAFKETTLVDEYILGLDWQHECYWVNPRLEFEKDEFGEWTIPIFPNGDYYFFI
+QKDFKWGYLGHPWERSITIFGKELINAFDKHKPRMFRKILRQG
+>tr|A6CK99|A6CK99_9BACI
+MWGVFLAMALTIILIFRKINPAYAMMAGACMGGLTGGLDLTVTVDYMIGGAQLLTPAVLR
+ILAAGVLVGVLIESGAANVIANTIVTKLGETRALLAITLSSLVLTAVGVFIAAAILTVAP
+IALMIAKRTGVSRLSILIAVICGGRAGNAISPNPSTIAAAEGFSLPLTNVMAAGIGPAVV
+GAGVTYLIAKRVNKKGSQVTEVEKVKVDKKDEPSFLGAISGPLFTIFLLSLQPLAGIKID
+SLVALPAGGLFGLLMMGKMKEFKFHISSGLHKMSGIAIVILGTGTLAGIIVHSSLNDIIL
+SGLNLFHLPVSFIAPFSGAFMSMATASATSSSAISSNVFGDMLLENGVAALASAAMINAG
+AVGFDFLPHGPLFHISRESLFMDMKERLKALPYEFLIAVLMVIVSMIMFGGLF
+>tr|A6CQF8|A6CQF8_9BACI
+MGKCLFSVGEEVSIKSSDEAVTIIKSQYVKNMKRYSYIVKEYPTTFFFEEELKKK
+>tr|A6CQM6|A6CQM6_9BACI
+MNYIYNYAWDENERHLCAMEMRALFGKDSESNILESTLEIDPSRSPFIRERIAVLCEGHT
+FEELTENVRTLPPPDSTFKVIYVKDPIFIDSHEISFEERRMAERKVGMCLGGKADLQDPD
+ILFGIKLVNGRWVFGEYVKNEAVWLKHQQKPHNYSTALSTRLARAVVNIAAPDPDGKKVI
+DPCCGIGTVLIEALSMGMDIVGSDINPLVIPGVKGNMKHFRLQGEVALRDIKDIEGKYDA
+AIIDLPYNLCSVITDQEQLDMLESARHFTDQLVIVTIEKIDRVIEQAGFTIKDRCVVTKG
+NFKREIILCE
+>tr|A6CL42|A6CL42_9BACI
+MEEKSYPLCSEGIPCTQRKNPALGIFPKATICAEIAFQKEENYTSVPGATRIVSIGRAGR
+CCLVSKIKYVRHNSQALSPVPAAKQLPINKKRLRTCAEPP
+>tr|A6CKC8|A6CKC8_9BACI
+MEILEKKSQTEERNNIMNYFSWLYIFSIVWFLWAIPSFVYFRYRHNSLIKNNMKKCYLFY
+IFSYVVSLVISIILYLLLLNGLKEQQFNNLSPAVPVLLMFVTVILTFMISYYSYLQFSKK
+FEEHSINKLFFYYTLLLTSLTCLYGIIFLVFFG
+>tr|A6CT81|A6CT81_9BACI
+MSSILEFKDIRYWYKQENQKQEILKGITITFESGRFYTITGPSGSGKTTMLSLAGGLDTP
+KEGTILYQGNDIRKVGLSNFRNKHVSIVFQSYNLLPYMTALQNVVTAMEITGSAEKNKKQ
+FASEMLAKVGITDKQARQKVLTLSGGQQQRVSIARALSCQSRLIVADEPTGNLDEDTATE
+IISLFKELAHRDGKCVIVVTHDVNLASISDTNISLSKGHISITENNKELLSI
+>tr|A6CU63|A6CU63_9BACI
+PSGIFYKDKTSVIGNGMVVDPKALVKELKYLHDRDVTTDNLRISNRAHVILPYHLKLDEV
+EEERKGANKIGTTKKGIGPAYMDKAARNGIRIADLLDYDSFKEKLTRNLEEKNRLLERFY
+ETEGFTLDEILEEYYEYGQQVKQYVCDTSVVLNDALDEGRRVLFEGAQGVMLDIDQGTYP
+FVTSSNPVAGGVTIGSGVGPTKISHVVGVSKAYTTRVGDGPFPTELNNEIGDQIREVGRE
+YGTTTGRPRRVGWFDSVVVRHARRVSGMTDLSLNSIDVLTGIENLKICTAYKYKGEVINE
+FPANLNILAECEPVYEELPGWTEDITGCKSLSELPANARHYLERVSQLTGIPLSIFSVGP
+DRSQTNIVRSVWS
+>tr|A6CHS8|A6CHS8_9BACI
+MIQVSDVSLRFGDRKLFEDVNIKFTAGNCYGLIGANGAGKSTFLKILSGEIESQTGNVSM
+TPGERMAVLKQNHFEFEEHEVLKVVIMGHARLFEVMQEKDAIYMKADFSDEDGMRAAELE
+GEFAELNGWEAESEAAILLKGLGIGEELHTKKMEDLTGGDKVKVLLAQALFGKPDVLLLD
+EPTNHLDIAAIQWLEEFLINFENTVIVVSHDRHFLNKVCTHIADLDFGKIQVYVGNYDFW
+YESSQLATRMAQDQNKKKEEKIKELQAFIARFSANASKSKQATSRKKLLDKITLDDIRPS
+SRKYPYVHFKPEREIGNDLLRVEGISKTIDGVKVLDNVSFIMNKDDKIALVGSDEIAKTT
+LFKILAGEMEPDSGSYKWGVTTSQAYFPKDNSEYFQGNEPNLVDWLRQYSPNDQSESFLR
+GFLGRMLFSGEEVMKKPSVLSGGEKVRCMLSKMMLSEANVLLLDEPTNHLDLESITALNN
+GLVNFKGSMIFASHDHQFIQTIANRIIKLDSEGMIDKQMTYDEFLETTAVKS
+>tr|A6CJI0|A6CJI0_9BACI
+MQGEVIQMAKRKANHIREGMNAAKAQGTGAGYNEEFSNEPLTAAQRQNNKKRKKNQ
+>tr|A6CU58|A6CU58_9BACI
+MVMSDYTIRLMNTEDLDQVMEVESNSFSIPWSRDAFFNEIETNHFATYIVIEEGGKVIGY
+CGVWIIVDEAHITNIAVLPSYRGQGLGDKLMRSMIEIAKEMGARTMTLEVRVSNTPAQSL
+YRKFGFQEGGIRKNYYSDNQEDALVMWVKFYE
+>tr|A6CT25|A6CT25_9BACI
+MKERLESNELRVYRSLNSRKDLCAKEKHHYAGLEKGFAGEKLFDEWLQPVLGDRILLPDM
+QFMPSSTYIQIDTILLTSKPIYLFEVKNFEGDHIFEEGNLIRTDGTDTKNPILQLKRNEP
+VLRSILKNLGYNTPIHSIAVFVNPRFHLYSAPVDLPIIYPNQLERFIAKLEKTPSFLKRT
+HTDLAKKLISKTISDNPYAQIPDYQYNELRKGIVCPGCGAFYNAYSKILNCQYCNHQEDS
+HSAVLRSLEEFKLLFPNSKLTVSQAVEWCGIIKDRKTVQRFLSKNFKLVNSGRSSYYE
+>tr|A6CIJ5|A6CIJ5_9BACI
+MKSLPATPSFSTFLKTGLLPKNGIFINYNDNINGNIREVSFIQKGKIKTSYLAHLLKTGR
+MLIYLKNVKTKAGLIHIEISLLYLMVFYYKVVFRWNL
+>tr|A6CPG4|A6CPG4_9BACI
+MTEERCSISFRISLFNLHPYNSEFPCVAAAVLLKDYLVLIIAFGEIPSAGFGP
+>tr|A6CHW1|A6CHW1_9BACI
+MNSRLEHKRKKKRRGLRIVLFLLLMITGLVGYAAVQFYQGTQLASGESNTPKEENYTFNG
+VKDKNGRINVLLLGVDSRGEEQSRSDTMMIAQVDPKTNETKIVSFMRDMYVEIPGYQNYK
+LNTAFFLGGPDLLRQTLKHNFGVDVQYYMIVDFKGFEQSIDVLAPNGIEIDVEKAMSENI
+GVSLEPGLQNLNGKELLGYARFRADAEGDHGRVNRQQEVIAAVKEEALSLGSVTKLPKMI
+GAAQPYIETNMTKLDQIGLVKDILLGNNSEIEKLTIPVKDSYTDGYYQHAGAVLEVDFAT
+NSAELQEFLNQ
+>tr|A6CNJ9|A6CNJ9_9BACI
+MKIEKGEMIEAQVHRLDDRGAGQAVVWRENEKGNIGKLKLTIPRTLPGEKVRVVVDEPLK
+RRRKAHPEEILEAHPERTAPPCPHFERCGGCVWQHLSYEGQLKQKTDHVKEEIASQGYDP
+ALVLDTIGMDNPWRYRNKMEFTFAPDGSLGLHEQGNFRKVISLETCLIASEEMVETAMEV
+ANWVNAHGLKGYDKDAHEGLLRHLMVRQSFATGEIMLGLFATEAPESNLEEAVSDLVKRV
+EEKFPKVKSLLWLENRDWADRAQSEKTHVLAGRDFIYDEMDGYRFRLWFDTFFQTNPVQA
+QKLVDLAVEMGKPKKTEKMIDLFCGVGTFSLPFANRVGELAGIEIVESSIESAKRNAEDN
+GISNTTFLAKDARKGIDQILESFGRPELLLLDPPRSGA
+>tr|A6CUG8|A6CUG8_9BACI
+KRNISVSDEALLHFAQSSNGDVRSSLNALELAVLSTEPSENGTIEITVNIAEECLQKKSF
+SHDKDGDAHYDVLSGFQKSIRGSDVNAALHYLGRLVEAGDMPSITRRLLVIAYEDIGLAS
+PQAGQRTLAAVETAEKIGFPEARIPLANAVIELCLSPKSNSAISAIDAALQDIRSGKSGE
+VPAHLKDAHYAGAKELGRGIEYKFPHDYPSGWVKQQYLPDTLKKARYYDPKETGKFEAAI
+SQVYKKIMGQK
+>tr|A6CRB0|A6CRB0_9BACI
+MTTTTKSVTDILNGTIQSIKSVIPLPVKVDQPTLLAEPLRTHKIGVLIGLTGDIRGQIIF
+DGDVEDFQGLGASMFGMPLEGEMLESFAGELGNMIAGNLSTKIAELGHSMDITPPTVIVG
+ESRLSGFDRALKLPITVENAGEFIIVIMVDLA
+>tr|A6CUA6|A6CUA6_9BACI
+MHGGLMLGCLCLFVQGSELPRVDTMARYIIWVLCGEGFPSQEERGT
+>tr|A6CKJ0|A6CKJ0_9BACI
+MAVLKAPEEHVKLLARLMRAEAEGDGRLGMLTVGNTGVNRVISNCLDFKDIRTLRDMIYQ
+SPGGFEATVKGYFYQRAREKDIALARQVIKGWKYHPASYALWFYRPDGACPPTWYNQKNV
+GRYKAHCFFAPTREDCPQVYY
+>tr|A6CKM2|A6CKM2_9BACI
+MPFFFTAGQHPAKFNIIILERSVKRVSKWGLYLLLFLLMVIWGFNVSAIKILVTYFPPVM
+IQGVRVMMAGLAVILFLLVKKSFHKLSRKSLIGIFSAAIFGVLGHHLFLAIGLTATTATN
+AGLILGLVPLSTSVMAMIFLNEKLTITKGFGILAALMGVYLIVMNEKGTLSGLSVGDLYI
+LGAVLTQAVSFILIKKLSVSIDSRQMTGMMLFMGSILLIAASFFFPANEAVFSLDKPQFV
+WWTLIGSAILATGLGHMLYNYSIHRLGAGSTSIFINLTPFFSIVGSSVFLGEQIQSKHWI
+GFCFIVFGVLLGTGTFKVLMKMRRKQHSLSA
+>tr|A6CT15|A6CT15_9BACI
+MKRVWPTLIILPLIVLTACANPAPKITQKQAESIVIESNTSTIGEVTITSVNHKRGKYII
+IWENEENCESGSVQVDDQHGGILKAETTIC
+>tr|A6CT70|A6CT70_9BACI
+MNIVDKIKVNEMEFYGYHGVFPEETKLGQRFRISLSLEIDLSEAGRSDDIQDSVNYGDVY
+SLCKEVVEGKPYKLLEALAEKLAERILHDFTKVKNCTIEVIKPDPPIPGHYRSVSVEITR
+GR
+>tr|A6CJ80|A6CJ80_9BACI
+MVIIYREGYPLKAVEKSRDRHLAINEWEKEAEGFINKKAFDYIARGSGEESTLRANREAF
+SQYELSHRILRDVSSIETSVTVLGHTIPSPVLFAPIGVQAIAHPDGELATSRAAASMNLP
+FVTSTVSSYSMEEIAQQMKDTPRWFQLYYSGNEMVAESMIKRAESAGYSAIVLTVDTPIM
+GFRESDHINNYSPIGEGSGSGNYFSDPVFKSLLEKPILEDKQAALKKQLELFENPAVTWD
+AIHRIRQYTDLPILLKGVVHPEDAKLALQYKVDGLIVSNHGGRQLDHGVATLDVLEEICQ
+VVQGEIPVLIDSGIRRGSDIFKAIALGATAVLIGRPFMYGLALDGEEGVKRAMHQILKEF
+ETTMRLAGTVKISEIDKTYLVSK
+>tr|A6CM26|A6CM26_9BACI
+MDEKEVTAILDELRNKGIEEFRVQKADFLEFRKHLIIQEDFKHFRGIAQQGGDVIYTYTD
+LPRS
+>tr|A6CKA0|A6CKA0_9BACI
+MLGRNKAGEEIAYARFSMRNYNAFILYDLLDAQVFNAGVSGSGNSSTFSNLQMEKALNAW
+KRLYGNNDSVSANGAENWDRKQINNFILSCFKTAQKEGSVNVSFF
+>tr|A6CJH7|A6CJH7_9BACI
+MRKPRKKSFTDLVNENKKALMMDAEAMDVIEERIESRLEIKRMDKAE
+>tr|A6CN19|A6CN19_9BACI
+MIYYILPVSIPLITAIVTALLLDPAVKMLERRFKIKRKLAVLIVFIIFMLAIGLLSYFVI
+TKVVGEGVKLVEDMPAYINQLSDIWLSYEKQLTNAAKDLPIEIVTQTSNEVQDFLNSFKN
+SLRDYLDIEKISAFLAYIPNYLVSFLVYLIALFMFMLDLPRIKQTLFSHLTEKTAEKVNF
+MTSRLSYVIFGFFKAQFLVSIIIFVTSLIGLLFIAPEVAVVMSIIIWVIDFIPLIGSIVV
+LFPWAMYHLLSGNLTLGTELAVLAAVLLIIRRTVEPKVMGSHIGLSPLATLIAMYLGLKL
+LGVLGFILGPLILIIFNSAKEAGIIKLNFKI
+>tr|A6CK25|A6CK25_9BACI
+MSHSHEKSESQKANEKLNQEFYSEENSSIEETSTEKANQKIKDRLENGEPSKGVNPDHYL
+ANNGNSLVLKGKDKKKS
+>tr|A6CP71|A6CP71_9BACI
+MVLAKPIYNEDARLLLNVGTTLTEAHINRIKKRIAFIYIKSEMTDDIIQVNDDIPYELRT
+KTIASISNVFSTIRNKPTNKVAITNRLSNFRSLKETFSNVVHELQRSSDHLNLISHLQIN
+NDSMFEHSLNTSLYSLSIGRILGIPEKSLHILGLGALFHDIGKLQLPKSLLSKTDLTDEE
+KQVKRSHTEIGFEMLRKESELHLLVAHCAYQHHENVDGSGYPRGLKKNEIHQFARIITVA
+EKFDQLIREKAMLPHEAMEVLYGYCYIRYDIEIIDAFKKAVAIFPIGVTVTLSTGEQGVV
+IGYNQAYPQRPKVRIFRGKDGKKLSISEFYDIDLLTDLTTMIVKCDAIIERKTKVIK
+>tr|A6CPK1|A6CPK1_9BACI
+MSQSVRVQWGSGLVELTWSVSTEMPPRQLITSVHGCCFSNGQVLLVNIKGRGFNFPGGHV
+EAGETPEQAIHREVFEEGFVKGKAGMIGIIEVSHRNNPDFDPKGKYPLIGYQVFYRMDIE
+EVLPFLRNNESACRIWAEPSEIPYVINDHELALEILNEALKMDLNTVI
+>tr|A6CNN5|A6CNN5_9BACI
+MLKNIYRSKVCKKFNVEESLIKIRIFEIIGRLKPKGFVRG
+>tr|A6CQ33|A6CQ33_9BACI
+MSLKQLSTEELRQKSFIELAHELLTEKKQAVTFNDLLKEIGDLLKLSKEEVRSRMVQFYT
+DLNVDGRFIALGENRWGIRAWYPVDQIEEETVPTIKPRKKKAKKTDDDDLEEDFAEEDLD
+FDDLDDLDEEDLTDDDDLDDEEDLADDADDTDDDEDIEDELIDEDEYDLEDDDEEDPGEE
+EDSDK
+>tr|A6CK94|A6CK94_9BACI
+MNFIKKYIGGIQNERTEGCKERFKGMQ
+>tr|A6CLF7|A6CLF7_9BACI
+MSEGQKITVENGSLNVPNNPIVPFIEGDGTGPDIWASASRVLDAAVEKAYNGERKLVWKE
+VLAGEKAYNQTGEWLPSETLDAVREYFIAIKGPLTTPIGGGIRSLNVALRQELDLFTCLR
+PVRYFEGVPSPVKRPEDTDMVIFRENTEDIYAGIEYAKGSDEVKKIISFLQNEMGANKIR
+FPETSGIGIKPVSEEGTKRLVRAAINYAISEGRKSVTLVHKGNIMKFTEGAFKNWGYELA
+EQEFGEKVFTWAEYDRIKDEKGTDAANQAQSEAEAAGKIIVKDAIADIFLQQILTRPAEF
+DVVATMNLNGDYISDALAAQVGGIGIAPGANINYDTGHAIFEATHGTAPKYAGLDKVNPS
+SVILSGVLMLEHLGWNEAATLITKSMEKTIASKVVTYDFARLMDGATEVKCSEFGNALIE
+NM
+>tr|A6CJP6|A6CJP6_9BACI
+MIDILLIFALQLIYVPILTLRTIFLVKNMSVAASSFGFLEALIYVFGLALVFSGDQSIAS
+MLVYALGFGIGLYIGSKVENKLAIGYTSIVVNLMDINEKLIEILRNEGFGVTVFEGMGRD
+SKRYQLEILTKRNREDDLLEIVEEHEPRAFIISYEPRRFKGGFLVKAMKKRMKKKREVSS
+RTTQ
+>tr|A6CTG1|A6CTG1_9BACI
+LFKGISLPFFKPSSIFFLAYAQGELIIEDSGNCF
+>tr|A6CI30|A6CI30_9BACI
+MKTKTEQVKIVEYHEGLAKGIAKMWNESRENWGGDTGITTGQDVIEKEANSTNLHLFLAM
+AGDEVVGYCGLSQYREDTGALYIPLLNVHPGYQGLKIGKKLVLEALNKTIELKWPRLDLF
+TWPGNTKAVPLYKKCGFFWEERDDSTHLMNFIPMVMQIEWLRPFFEKHDWYTTSQREITV
+KPDGVKEHDHTFFEYKWQAGEEFVRVQIERTGRGIRLIETQDLFLEVSLPGFKLLEKEKH
+PVKYRVVNKTGEPLNVSLSGHADEIVEHSFHHSGQVEEEWTGEFPVSLSIPDREPSPWKT
+HPVVSSIVNINGMDFPLKVGVFPKQAAKVFVRSTNKNWRAGQKGLVHLDIESQLDEECTL
+SIQLPENPVLKWERREVKAVLKGKERASFPIPVKLKKNDFLSEEIEIVVSRENQQPMKIQ
+AKMALAFPGYGSKFGGETDEHWYGYNGPYYVEVEKRNHIVKVGSIYSSGEALTFFSPKLG
+KPFSEEFSKKEASTIEFIELVEGFVMKTTLDSEAFPSLTLNTYLKIFGDGYIEMNHEIVN
+KGTEAKKDVYLLQPVYPQFKGMALPQKDGVVVGTEAAIPFIDYIKDKEISENWFFIKGNQ
+GDTTGLTWPETANGRKDEWRFGVEYNVEELQPEEEICFGPVAVGINTSRTWRQWREFIVG
+EDIPDLKEQPLYALQTADGDVISSVGHTVEYSFRSMLTPYVHGSLRLNSDGENYEGAAKK
+ADEVTKIDLQVEHSSPGIKRVNGSFRAPGQKAVFESIQLVKGRTEVMVENSDGNWSVDNG
+ALSFKASPAYFPGIYSLTVNGKEALHNQYPEAGPKAWWNPWGGGIRYYFQNVSPYSMMKE
+NTKVEPVSRIDQNGHTWKGLCLTTEFTEHETMKGTTLKQYALTLPEVPVLACYGEILQNS
+GRTFKGELLDLEAFFKPGDELTSCFAKVPSEGVVEKYFAGIEEFMLGDTEYVTVGSEDWE
+SKITFIHSASRRLSELYMNQEVFVTASTEEWSASSGETYTTKPTILLIGEEEYSEAINPF
+KEITFR
+>tr|A6CPX4|A6CPX4_9BACI
+MKKVYDQAVDAIDGITDGMTLAFGGFGLVGIPENLILALVEKNVKDLTIISNNCGVDDWG
+LGLLLQKRQIKKMIGSYVGENKEFERQLLSGELEVELVPQGTLAERLRAGGAGIPAFFTP
+AGVGTVVAEGKETRMFNGKEYVLEEALTADFSLVRAMKGDRAGNLVYNKTARNFNPMIAA
+AGKVTIAEVEETVEIGDIDPNHVQTPGIYVQRMIEAKQEKRIEKRTVSK
+>tr|A6CR92|A6CR92_9BACI
+MKLERLSSNTVKFSISIDELETKGILKDDQWRDSLVWHEFFEELMDEMYSEYGIDLESTV
+TVEINSVNSSEMVLILTLDEEGFEDDPFVDGEAEEDGYLLYKFHLFEDILSFVRRLEFDD
+CEELSLYSKDGIYFIEAKQWSKRLVSLAGEYGERTSETIYTVKEYGNIIIDRTCRDVLIE
+HFGG
+>tr|A6CRA1|A6CRA1_9BACI
+MKRVERIIVKLAFLHFILLLITQVVFHGLDFLPELNKLTFYEGVNKQEHTEIIEVLNNGN
+SLESEGD
+>tr|A6CS92|A6CS92_9BACI
+MTLSVQFYTMLAMVGMGSVFGATLDTYNRFLNRKIRKRWLVFLNDVLFWILQALFIFYIL
+FSVNFGEVRFYIFVALLCGFAGYQALLKEPYKKLLEKIIQGCISFYKFLVKMITHLVYSP
+IKWLVLLLVSLIIGLGKGVWAVAGFLLKVILAILKITFTPLLWVVKLISSLLPKNIKKFV
+EKLYNKLAGYLFPFVKVISTKLKKWLKR
+>tr|A6CQZ7|A6CQZ7_9BACI
+MSKIIGIDLGTTNSCVAVLEGGEPKVIPNPEGNRTTPSVVAFKNGELQVGEVAKRQAITN
+PNTVISIKRHMGTDYKEKIEDKEYTPQEISAMILQHLKSYAEDYLGEKVEKAVITVPAYF
+NDAERQATKDAGKIAGLEVERIINEPTAAALSYGLDKMEEDQTILVYDLGGGTFDVSILE
+LGDGVFEVRSTAGDNRLGGDDFDQVIIDYLVEQFKKENGIDLSKDKMALQRLKDAAEKAK
+KDLSGVSSTQISLPFITAGENGPLHLEVNMTRAKFDELSANLVERTMGPTRQAVKDAGLS
+VSEIDKVILVGGSTRIPAVQEAIKKELGKDPHKGVNPDEVVAMGAAIQGGVLTGDVKDVV
+LLDVTPLSLGIETMGGVSTKLIERNTTIPTSKSQVFSTAADNQTAVDIHVLQGERPMAAD
+NKTLGRFQLSDIPPAPRGVPQIEVKFDIDKNGIVNVSAKDLGTGKEQNITIKSSTGLSDE
+EIERMVKEAEENSEADKKRKEEVELRNEADQLIFTTEKTIKDLGDKVEEAEVKKAEEAKD
+ELKAAIEKDDLEEIRTKKDALQEIVQGLSMKLYEQAAQAQQQAQGAEGQAGGDDDVVDAE
+YEEVKDDK
+>tr|A6CU92|A6CU92_9BACI
+MKPAYYFMGQSSTYGELNGAVSKFASGLEKLGIGKGDHVALVLGNSPHFIIALYGAMRVG
+ATAIPINPIYTPDEIGYIMKNGDVKAVITLDILLPLVEKMHHHLPEVDHFIYCETGDERA
+KGIQPEQLSAYPKLKSFTQVVGSGDVTFTGPQLNEEDTAVILYTSGTTGKPKGAMLSHKN
+LYSNARDTGEYLKMNEDDRVITTLPMFHVFCLTVALNAPLISGATLLVVPKFSPQDIFTL
+AKEYEPTVFAGVPTMYNFLYQYEAGNPEDFSSLRLCISGGASLPVALLKNFEKKFNVLIS
+EGYGLSEASPVTCFNPLDRPRKAGSIGTSIVNVENKVVDELGEEVPVGEVGELVVRGPNV
+MKGYYKMPEETEAAIRGGWLYTGDLAKMDDEGYFTIVDRKKDMIIVGGYNVYPREVEEVL
+YSHPEVVEVAVIGAPDPEMGEAVKCFVVKKNSDLTEQELLAYSSEHLAKYKLPSSIEFLE
+ELPKNTTGKILRRALKQQVVQS
+>tr|A6CJ90|A6CJ90_9BACI
+MYNRITKLTPEEIDRLLDPADKESFKDITWKFISDDEIENLLRTP
+>tr|A6CR79|A6CR79_9BACI
+MPKYTIVDKDTCIACGACGAAAPDIYDYDDEGIAFVTLDDNSGTVEVPDVLEDDMIDAFE
+GCPTDSIKVADEPFDGDALKFE
+>tr|A6CJX9|A6CJX9_9BACI
+MEKNKIESGFCFEEFRENFKDLIAEFSRSKEFAVQNSLLKEMNNLRFEFEAAKNLYTLRH
+VQDYHDIKAEKEYKAFISREADYQELVQLYYQALLLTPRKEELEKRWGKQLFRLAEVKVH
+SFSDHIKKEVELENSLMGEYGKLLGTAEVEFKGEMIGLPSLAQQMSSSDRETRKAAYVAR
+ARYFEENEEKFDDILHRLIKVRTAMSRKLGRQNFISLGYERMNRTDMSPNDLEKYRKQVK
+KHGVGFVSSLREYQKNNLGVEGLRFFDDKILSADGPPSLQLDTDEFLDKMKDLFKELSSE
+TEVFYDSLMEKGNYDLLPRPGKKGGGYATYLGKEKEPFIFANMSGISNDVRLLTHEIGHA
+FQFFMSRDLNCPEYIIPVDSAEIFSFAMERFTWPWMETFFGEDTTKYKLSHLIEAFMYMP
+LASAIDEFEHFLYEQPEATMRERKQKWRELEASYQPELDYDGNEYLEAGGAFHGIPHIYF
+SPFYFIDYDIAHILAVQLWEWAQKDSEAAWKTYLDMCRAGGSHSLKEHIEAAGLRSPFEE
+GSLSQIFTSVEKWLNKNGLYS
+>tr|A6CHY1|A6CHY1_9BACI
+MGYTHVFILLLIGYVVFTIDKKQKNFPVPMVLLLIGIGLSFTPFFADIEITKDMIFDVFL
+PALLFVSAYQFKINGLKKNMGVISVLSTLGLILTVFILGASVYFVGIVSLSFMGALLIAA
+ILTPTDPVSVVSILKKSSNSPKIAEVVEGESMVNDGTSVVLFTVISHLYLSNEELKLVSA
+LWSFVSVSFGGLLIGIVFGWLVSRIYHFTHHRQYQVMLSIVLAYGSFYLAEHLGVSGVLA
+SVSSGIMLSWKLQTTDNEKDYRSYLDAFWEVIEPSILSILFLLIGIEFMKHIDFQNIGFT
+FIIFGLSLIVRFVVLAGILKLFKKWRKEFLWDDISLITWSGIKGTMSVALLLGLASESTG
+QADAILSLTYGAIVLSLIIQSPLVYPLSRMFSKHSR
+>tr|A6CK63|A6CK63_9BACI
+MISYPTLKKEATIGVTAPSSGVRAELHSMFRLAIERMSSRGFNVVTGETAWTQDKAKSAP
+SRVRAAEFNEMMRNEKIDIIIPPWGGELLIEVLQDIDYSSVKNKWLLGYSDTSALMLAIT
+LKTGIATAHGTNFVDLRGEYWDETTAKWEAVLSTEPGGTIIQHSSPQYQLSWEHDTPSPC
+VFHLTEETKWKTAGGAAVKVEGRLLGGCIDVIRHLIGTDFGDVAGFREKHIPGEPVLWYM
+ENCDMNVTDLRRSLVQMKYGGWFENCSGILFGRSDANAPVGNFMVEDVYQELADELGVPV
+VYDIDCGHMPPQVTFINGAYGVVEVADGKGKVEQRFV
+>tr|A6CM41|A6CM41_9BACI
+MMFTNFEEFERLSAGLFRCLYTYASEKTTQSASEPSSINKVTKI
+>tr|A6CNN4|A6CNN4_9BACI
+MNHIYKNLLINNKTLFSYILLLSEKSKKPDFSLGDMGFFL
+>tr|A6CJ04|A6CJ04_9BACI
+MIIIVNYMILAVLSYLFNSTVNWTDIGAWGLVTGFLLLISALPLHKIIYFGGKGIMGVQS
+PEIPPDEHLHEKFRKSYEAEKENKLERKYQDIATIAGAVIIFISLILL
+>tr|A6CIY0|A6CIY0_9BACI
+MMKGIYEFISETQLKKYAELSVRAGVNLQKNQLLIIHSDVQNAAFARLIQTAAYESGASN
+VFINWTDEQSAKEFYLHAADSAIDHFPDWQAARFKEWDDEGAAYIHIISENLDLFKEVSA
+ERISRFQKASRTKLSDYHAKIRSHEVRWCLLTVPYVAWAAKVFPHLSKEEAVRTLWKMIL
+KGARADGKDPINDWESHNRALKSRKKFLNKSQFQALHFTNSRGTDLTIGLPDNHLYIGGG
+VKDKNGISFFPNIPTEEIFTAPHKNKVNGKLVGTKPLIYGGSVIDDFYLIFKDGRITDYY
+AGKGQEVLQNPIETDEGSHYLGEIALVSNKSPLAQTETLFYNTLFDENTACHIGIGNASP
+SNIHNGTDLTEEELKATGLNSSLLLVNVTFGTEDMKVVGIKEGGTEVVLMKDGDFQF
+>tr|A6CQ57|A6CQ57_9BACI
+MACIGRKKSLQVMPILIVDKYINKLTGHGMAKTFYFKYQQTPLQLC
+>tr|A6CRZ4|A6CRZ4_9BACI
+MTGLPKLMMVAGAVLLVIGFLMAFTKLGRLPGDIIIKKENSTFYFPVMTSIIVSIVLSLI
+FYVLGRFK
+>tr|A6CS79|A6CS79_9BACI
+MSDYLVKALAFDGQVRAYAVRSTDTINEAQRRHGTWPTASAAIGRSMSAGVMMGAMLKGE
+DKLTVKVEGDGPLGAIIVDSDAKGNVRGYVTNPQVHFDLNEHGKLDVRRAVGTSGTLSVV
+KDIGMRDHFTGQVPIVSGELGEDFTYYFVTSEQVPSSVGVGVLVNPDNSILAAGGFIIQL
+MPGTPDETITEIENRLQSIPPVSKLIEKGLSPEELLHELLGEENVKILDKMAVQFECRCS
+KDRFGAAIATLGKEEIQKMIDEEGGAETQCHFCNETYQYSVEELTELKNEGENLQ
+>tr|A6CSR8|A6CSR8_9BACI
+MDLQFIVSTAIILATFALYIGIAVYNKAKATSDFYVAGRGVPPVFNGMAIGADWMSAASF
+IGLAGTIMILGYDGLAYIMGWTGGYLLLTFLLAPQLRKYGRYTVPEFIGDRYNSHTARVI
+AALCTIIISFTYSIGQLSGSGVVIGRLFEIDAKLGTVIGVVLIAFYAAFGGMKGITWTQV
+AQYIILITAYLIPVIFMSLQLTSNPLPWISYGELIGKMGELDRELGISEYFAPFTNGTKW
+QFIALMFTLMAGTAGLPHVIVRFYTVSTMKAARWSGAWALLFIGLLYLSAPAYAAFSRFI
+LMTKVAGQKISELPSWTTSWVDTGKLQIADANGDGILQWTELVISNDIVVMATPEIANLG
+VFVIGLVAAGAMAAALSTAGGLMIAISSSFAHDIYYRVFKPTASEKNRLAVARWSIVIAT
+VLAGLVALNPPGVITQIVAWAFALASGTFFPALVLGVWWKRSNAAGVISGLLVGLGVTLT
+YIFLARAGITMFGIIDTGAGVFGAAAAFLTNIIVSLSTKAPSQKIQEEVIDLRYPEQMTF
+KDGEVWINDETTISK
+>tr|A6CMM4|A6CMM4_9BACI
+MKGHEVKGVDVDTQTRCRHYHKEIDIIAIKFKCCGTYYPCHLCHQETADHPAEVWDKESR
+NVKAVLCGSCGHELTIAEYMNCKSSCPECHASFNPGCALHYDLYFEV
+>tr|A6CNY9|A6CNY9_9BACI
+MGRKWNNIKEKKASKDANTSRIYSKFAKEIYVVAKQGEPDPESNQALKFVLERAKTYNVP
+RNIIDRAIEKAKGGTEENFDNLRYEGFGPNGSMIIVDALTNNVNRTASEVRAAFGKNGGN
+MGVSGSVAYMFDSTAVIGIEGKSAEEALEILMEADVDARDILEEDDAVIIYAEPDQFHAV
+QEAFRNAGVTDFTVAELTMLAQNDISLPEDVQEDFEKLIDAIEDLEDVQQVFHNVDLGE
+>tr|A6CLP4|A6CLP4_9BACI
+MYYRTLGKIPHKRHTMFKKEDGSLFREQVMGTKGFSGTQSILYHHHMPTEVAKAELLGSY
+LPEYEENQELKHRHLLTDKVSRSGDALKGREYLLGNDDLLIGTVLVTEKMDNYYRNGDGD
+EMLYIHRGKGTVETMFGTLTYRPGDYVVIPIGTIYRVLPEEDTKILFIESFSQITTPRRY
+RNEYGQLLEHSPFCERDIRGPEKLETYSEKGEFEVITKSRGLLNSHVLNHHPLDVVGWDG
+YLYPWVFNIEDFEPITGRVHQPPPVHQTFEGHNFVVCSFVPRLYDYHPESIPAPYYHSNV
+NSDELLYYVEGNFMSRKGISEGSITLHPSGIPHGPHPGTTEKSIGKKETLELAVMIDTFR
+PLKVVKKAHEVEDRKYMYTWME
+>tr|A6CN62|A6CN62_9BACI
+MREVKVNNVELVISAVRPEQYPGEFLPEFALAGRSNVGKSSFINRMIGRKSMARISSRPG
+KTQTLNFYKIEESLYFVDVPGYGFAKVSKKEREAWGRMIETYITMREQLKAVIQIVDLRH
+PPTEDDIMMYDFLKHNGIPCVIIATKADKIPKGKWQKHLKVTKEALDIEEGDEIILFSSE
+TGLGKDQVWAALNSRR
+>tr|A6CI79|A6CI79_9BACI
+MDFDKSANIGECDNQVVDFLAVPGGNTRIIHTPVQLAVRAVTTNMVANIEFPEPVMEIKD
+IKKRVEIVQCRLITPPVATPAFSVENNDTFPLYIKGYVRKNIQYATPCYDADGHCVSSDI
+KSLTVRVPFECFTNIDLDFPVALPASNTREEFDYFRAQDLGKGFPEKDQFLSSDISQFHQ
+FSTQFYNQLPFCELLRSTIVEWDEATDRETYGTGPVGEGCFYKMVEKMQLRFVIKVLQNQ
+QLAVTTATLGTLNDC
+>tr|A6CJM5|A6CJM5_9BACI
+MACFINKVIIHKISGGEVTFGAPLKQSPVSSSKSTTGSGSGNTGPFQITFSGISVSTSIQ
+TPE
+>tr|A6CQM5|A6CQM5_9BACI
+MKRGMIPASKGVDGENDVWKEG
+>tr|A6CUH8|A6CUH8_9BACI
+MAIAFLFSTHKRSVNWRTVLGGLAIQLFFAFIVLETGWGQAVLQEFTKVVNNIINYSNEG
+INFLFGGLFNDKSNIAFVFAFNVLPVVIFFSSLISVLYYLKIMQLFIYVLGGGLSWLLGT
+RKAESMSAAANIFVGQTEAPLVVRPYLPKMTESELFAVMTGGLASVAGSVLIGYSLLGVP
+LEYLLAASFMAAPAGLVMAKLFVPETDAKPEPKEFEMETDKESTNVIDAAARGASVGLEL
+ALNIGAMLLAFIALVALINGILGLIGGLVGLDNLSLELILGYVFSPLAFAIGVPWNEAVT
+AGNFIGQKLVINEFVAYSNFAPQIEQLSDKTVAIISFALCG
+>tr|A6CL77|A6CL77_9BACI
+MTQEQNEVNKNQVSHGHPNGGSNTTHEGSINAKDFLIGSLIGGIVGAATALFLAPKSGKE
+LRDELNTHAGTLKEKSGQWREIAMERGNELAAAAKERTSGITQTVQEQSNNLVNKVKTRN
+NNENSEVNGEEQLPVETEQNDAQELNQRLEETKKAFDETEQSIHQ
+>tr|A6CM88|A6CM88_9BACI
+MITEIFTRDEGSAMNLSSMMSKQTAELQHTLNLSLLQSQMASQMAGATAMMENMTEAAGS
+KDAPHPFKGGSVDLKG
+>tr|A6CNN1|A6CNN1_9BACI
+MDLTTGEIEIDGTEIYYEYIWSCDEKPTIVFESGYGWSLENWQSIKKKAAFLGNIFLYDR
+VGVGGSGNNNLPKHSGQCVTNLRRILQEAGITKPVILVGHSFGGVNVRLFARMYPKEIAG
+IILINFVHEEQNRKMVHLFSEEVQKQYLGQFTVEATLKEFELSLDQVRDTKLGNTPLIVL
+TGGSQHHHTPESMTVWISFQKELAALSTRSKHYFIEHAGHAIHIDDPEAVVKVIEEMVGM
+VLDPDR
+>tr|A6CPM1|A6CPM1_9BACI
+MYGNVNAAPNVNMAPTAVSPAYTAPGYGYCAPARGYGDFVLIVVLFILLIIVGASFVPKC
+>tr|A6CIJ8|A6CIJ8_9BACI
+MKNSTLALFVSLTVLVGFPIVFLLISLGTGQWNYLTWSIAPSFAAGFTGLKITRNQIRKE
+KKAQ
+>tr|A6CHS5|A6CHS5_9BACI
+MSKKNVDIEEEVKAAEEKPNHSVWDAFWRGAQKAEEEAVETEEKEEDEKPGFRWF
+>tr|A6CIM2|A6CIM2_9BACI
+MIKKKRFIFLFIAVGLISLFVFLHNRPSADVDEVFLLPEGFKGCVYIHYNQPDGQKLEVT
+DKKIFYNVPRSGIIHTSSPADFANLSWHKIYVQYVNNDGERLDEAQDVTANYKGGMSSSN
+NDKTSERRWFLFNENDSCH
+>tr|A6CJ22|A6CJ22_9BACI
+MISKIVLWIILIAPWFTLFLLTREDVKRFMPVGILASFLMILYNLIAHNQNHWVIKVAII
+PLLKPTFASGILGAFLVVTIWIFYFTYGKFWIYLATNIVADFMFAVFPLHYLLQEKLGIY
+QLVDITPWRRFGLFVVLSIVIYGYHFWLDEVLKPSAKERVQA
+>tr|A6CK62|A6CK62_9BACI
+MKKKKIVLLTILLLMINLKTSATQWITLEPEEVMERANIIVVGQYDFSKDPMRTVRRLYR
+PYEFRISKTIKGEPPSSLLAGIYTQDISRMIEFQAEGGEFLLFLEKESYSKYALPVGGPN
+GTLMLMDGELFQPGFNHKALYELVEQDIGSPSVAGPVVILLICFSLAALLFFKRLYSKDY
+CS
+>tr|A6CRI9|A6CRI9_9BACI
+MKEGIHPNYEKVVFMDTNSGYKFLTSSTVKSSETIEWEDGNTYPLIKVEVSSDTHPFYTG
+VQKFADKGGRADRFMKKYNMKRPDDK
+>tr|A6CPP5|A6CPP5_9BACI
+MEGMNLKKGFFERKSEPYRVLHDDEKAAASLSEELLTMLPTALRPVVIVCIGTDRSTGDS
+LGPLVGTFLDEKITDGFHIYGTLDEPIHAVNLEERLAEIREKHHNPFIIGIDACLGRLKS
+VGAIQLGNGPVKPGAGVNKELPDVGDIHITGIVNVSGFMEFFVLQNTRLNLVLKMARIIS
+EGIHLASITRPRKESFFKINVNEEKQQLL
+>tr|A6CPM0|A6CPM0_9BACI
+MGKLMIQIAGRTFRQIDSLNLGSVEKEIAEKMSVAAVAYSYPSNKDFLFELKYRKNMIES
+AKQMSEGKAVFTTFAYASCNPAYWDLTSAGGFRLRSDVNPSDAVRDIFTNSALYAFECAT
+ACVIIYYHAVLNSIGRSDFDSIFQDLYLYSWHTDADLGIHTFYGNHILPGDVVYFNNPDY
+SPDNPWYRGVNAVVMEDGRFFGHGLGIMSDKEILGFLDNMRKEGSDRSAYLTSLITRLSF
+NSAAGYGVSQWSRKSKQHIVAHHNKDSISCIRYRRYLYKGKYSPY
+>tr|A6CRI6|A6CRI6_9BACI
+MLIPNMFLTKLLVERRDEDETQNEEVFHQE
+>tr|A6CLY2|A6CLY2_9BACI
+MGLLVLASVPGLAPAPYQAVMKEIQGILGRPLLAGNLGIPDRHRLAGMKGILDRLGREEE
+ILGSAFDDNNT
+>tr|A6CSZ2|A6CSZ2_9BACI
+MLNPQTKQNFIDYAGEEIQGEAKLQRLYTSKVSLVHNFHFRRINPQIRCITFISDAKLPQ
+FDAKLKIEAAAISSNQ
+>tr|A6CR64|A6CR64_9BACI
+METMGRHVISELWGCDFDKLNDVNEIERTFVDAALKSGAEVREVAFHKFAPQGVSGVVII
+SESHLTIHSFPEHGYASIDVYTCGDLDPNIAADYIAEALNAQTRENIELPRGMGPVQVKQ
+SKVNAL
+>tr|A6CHC4|A6CHC4_9BACI
+MKEMKKLLLVPAAVVLLTGCQQAEEWTKDLFSADDPKQEQEDVSNDGQQGDDTAAGIDNE
+EEPDENQNDSSESPDPPDQTNEDDVPPSLQLESQFFNTVETVDGKQVITNPENKLALVNK
+EFGLTGDYKPDDLVRPDVPFVFGNEDIEKAYIREEAAQALEEMFAAAQEAGLYLTAISGY
+RSYAYQEALLQREIKQFGEEKAVKAVAPPGNSEHQSGLAMDISSKSNDFQVNIAFENTPE
+GKWLNENAHKFGFILRYPRGKEEITGYQYEPWHFRYVGKEAAKVIYENDWTLEEYFKNVK
+KI
+>tr|A6CMA1|A6CMA1_9BACI
+MIDVTEQLLYPNQEEPDLHKEEVREIIEPKIEHALSLLNNSQPNDVFKIAKVTKLPVRTI
+RRLEAGKSPFVERPKHLNVISFPELKAKEMKNKRVENQSLLLERSQQRLERLKAFEIEKA
+ARREEVSKEYKLRLKKAKIRQAKNMLLAEQEFTPEYIAKICGLQNIDVRRIRKELRKGAI
+I
+>tr|A6CT90|A6CT90_9BACI
+MKKPTTTAGKPFYNGKIQEETYHYSRETVFIMVRFKKKRTTIEGSRIYNGKISRKTWRTY
+DYYHNRE
+>tr|A6CTM3|A6CTM3_9BACI
+MIQRASIFIFASAILFCTTDTPVLANGPSNQSGEDIYREIGYTSAEEAVREAENHFNQEL
+KLPLRVPPIQFTHILGRFNDLDGEENDSFEMKYINEKTTDNHYKINIRPIQQKFQYKKEE
+VIKTIKLKDGNEAVYLDHSGFNVLVFEKENWQYMLSINKKVSELMLPGTLVKIANSIDAP
+ED
+>tr|A6CML9|A6CML9_9BACI
+MMAFLSREQLINELQTSFPSLMEEYGLEEIGVFEEEGQKDQYYLGYTVKKDGKAYMIHLP
+YKKDHDGGLEPSSQQWTIESDDPDAADHTGFDSMESALRGI
+>tr|A6CN78|A6CN78_9BACI
+MKISKTQEAIVWVVWAMLVPPGIYFAYQYFPPVNADIFSMSAFIIFTIIISLMPIVINGF
+PILLIQWVSLAAFLKFGLFFEVVLLQIAIFTFMFRLRVGKNDLYRFPWNSIMFFLMSVFS
+GIIYFYIGGTIGYSPVESIFIPALVYQVSSILVNQVLLIGFYAFLNKKIKLFGEDLKWDF
+SAMLIMFPMGLGLFYLQYQIGPIALFLIGLPFMSGAMILRLYNSSEQINQYLQKAVEIGH
+QLTESLQVDEVLQFFLDKILQTLPVEYAYILDVQGDDLVLLRRVENNENKSISLPPLKKN
+EGISGLVWASGKSALFHRKSDWTEVAKGYMPEDVESVLSVPIVRNQKVRGVLLLASSKKR
+AYKKYQLMIVDILCSYLGVAIANARHYEATKRNSERCALTKLYNYRYFEDLLSSEFNALK
+TGDRVCLSLIMLDIDHFKSVNDNYGHQSGNEILFELARRLETLIGDEGTVARYGGEEFVI
+LLPDTSKEDAFLIAEIVRRTIADRPFILHSNLEAERKSLKLKVTASIGVASAPLDADDSM
+SLIRHADRALYTGAKQAGRNRVAEYVKSS
+>tr|A6CQD5|A6CQD5_9BACI
+MKIQDKGMRKMKISTKYHGEIEVTPEALLTFEHGIPGFLEEKQFTLLPLPDNNEFQILQS
+LETPELGFVVASPFVFFQDYDFTLDTATVDQLGSPSEKEVEVLSILTIKEPLHESTANLQ
+GPIIINLANNKAKQVILNNSDYQTKHTIFAQPEHAGQKG
+>tr|A6CTE4|A6CTE4_9BACI
+MKKEPKDTRVVVGMSGGVDSSVAALLLKEQGYDVIGIFMKNWDDTDENGVCTATEDYEDV
+IRVCNQIGIPYYAVNFEKQYWDKVFTYFLDEYKAGRTPNPDVMCNKEIKFKAFLEHAMKL
+GADYLATGHYAQVEYRDGEYKMLRVKDSNKTKRIS
+>tr|A6CKW2|A6CKW2_9BACI
+MRITKELAFPIIQKLTNTMNYNMNIMDDQGMIIASSDPKRVDSIHEGAIEVQRSKKPLII
+ETKESSRFVGAKEGVNLPIEFMNEIIGTVGITGKPDQVMELVQMTKITVELMLQQAYLQQ
+QSHFEQQQLHSWIMELINPDTFDEKKLANHAQHFLKIDFDRAYAVILMEISALNALDPLK
+DLIKRNELWDEINKDIKMYLTESAFMDLTKEGLIIICVEIPPYKSQVQLIEKFFNSIMKK
+NKKLYAETRIAAGGRHRLVSGIRKSYFEARQSLSLMKKFMDKKNISHIDDWGIIKLLDQV
+PVSFRKGFIEQYDIEKLPTELLYTLQTLFNCDHNLTLTAKTLHIHRNTLAYRLESIQQIM
+KLNPKSLNDLFILKILLLLKQLGK
+>tr|A6CMJ3|A6CMJ3_9BACI
+MQVVEEDGYPPQNELYTMMKTHLSEFAIVRDRE
+>tr|A6CMS6|A6CMS6_9BACI
+MEKHIIGAYDSTNEAAAVVEQLSRKGYSPEEILVVSNRDRLGSLENKTGLQVEHNNDTEP
+HEESMWDKIKEAFTVDDEDHSDDRLSKYGLSDDEARNYESELDDGKILIAVESDSTVELE
+DYNSGYSSKHETDVDDYTAGTAGRSGHTEEQSMELREERLNVDKEEVKTGEVSIGKEVVE
+EERSVDVPVKREEVYVEKRHVQDGEMRNSSAELGEDEEIRIPVVEEKVEVRKKPVVTDEV
+VVGKRTTEETEHISDTVKKEEIHLDKEGSSRVQGEDGLNHHDTEGTYVTGQEGLTDTAGM
+GSEKERRDYKNTENVNKNGSGRNDYRGDI
+>tr|A6CU25|A6CU25_9BACI
+MEVYDLERPGVDDYLQQGMYGQKQTKPDERRKFLGTIRERIVFALVQKQVRKKGILPQAE
+SLMRENKEAHLYLNGNMSYSYLSKYIKMAEKYGIHYTMVTNKEHNSDIGLVFAYGHAIDK
+KEIYIDEKAKPQPSVPQTKKKSFFAKLFK
+>tr|A6CHW0|A6CHW0_9BACI
+MSKKKIASVTLAIGLAGSMLASGSFAAPNIKSQSNFNEKLGTPEFISGQLTAPSKKSPKE
+IVFSYLNDQKQKYKFGKNKAEQSFKVIETSTDQFGNTVVRLQQLHDGLPVWGSTQAALVG
+EDGTLKVISGTTIPEIDKKKNNKDKNNKKINANKAADVALADLGFQPELEQPVKPEMVVY
+TVDDKAYYAYLVNLNFLDPKPGNWNYFIDSQTGEIINKYNDMHEVSGTDQVGTGKGVLGD
+TKSLNTTLSNGTYYLQDNTRGGGIMTYDMKNRTFFPQFYLPGSLWSDADNVYNQAYDAAA
+VDAHYFAGATFDYYKDVFGRNSYDNKGTTIQSSVHYSKNYNNAFWNGSQMVYGDGDGTTF
+IPLSGGLDVVAHELTHAVTDTSSDLVYQNESGALNEAISDIFGTLVEYHENHNPDFEIGE
+DIYTPNTPNDALRSMSDPAKYGDPDHYSVRYTGTQDNGGVHINSGIINKQAYLLSEGGTH
+YGVNVTGIGREKLGEIYYRMNTVYLTASSTFSQARSAAVQAASDLYGSNSPEVQSVNQSF
+DAVGIN
+>tr|A6CQI2|A6CQI2_9BACI
+MLLILTNLIKYMSFNELFFILIRVALIKKRRRGVKCTLCKGHFKKA
+>tr|A6CRM9|A6CRM9_9BACI
+MRDTILKETLNHKTGKIKKRAKSHGFRLFFIMIPSDTFQLKFAAYLIQQILT
+>tr|A6CSS8|A6CSS8_9BACI
+MLKRGVPMSGGEIAPFIAVTFFLYFICLFLYLRYGRKAFFISTVGTAVMVIPELFLLMEF
+KSFYDQHKNIYPDINTFMNIPIALVIITLGINVVNGIVITLREIKKKKVVSA
+>tr|A6CHR2|A6CHR2_9BACI
+MKQMIFYPAHNFVQFTRRIAEVLIVTSWKVVRTSGETEPWWFFSDWEKDISEVKEYTNEN
+EAFDQFLSLIQELREEYQHSKQKKNTVAFWNEDEKVFCEDCDDDLQLYHGLLLMEGETPK
+KLSDEEKEKMKAALEMPSSV
+>tr|A6CIE0|A6CIE0_9BACI
+MFREKTLVSKGKIRLFGFFREQQYVRKQRLKNKRNELPAKIQVLIDLADEEGM
+>tr|A6CR57|A6CR57_9BACI
+MPEIDLDIVYYWRHHIQERCFGVADSLIKRIDLVKVVHWYGGIRKEENRPRRSVGLTWWN
+LKRRESTRSKCWFDMVESQKKRIDRVEVVLRHGENRKEENRPG
+>tr|A6CHC5|A6CHC5_9BACI
+MFKVYMQIVLGSLLVAVGINAFFVPQHFLDGGMIGIGLISHYWLDFKPGLTIVILSIPLY
+VLAFFFDRSLFFKSIHGLWLSSLLIDMLEPISKFIHMIPVVSAVTGGAFVGVGIGLMLLA
+EAATGGTDLLAQIIGKSTGWNVGIIIFIIDTIVLLGGFALIGAYSFFHSLLAVSTVGFFT
+ALLTHNKNRKGYSFR
+>tr|A6CM24|A6CM24_9BACI
+MFVHELKKEIGKVMIGMDKEVELLSIALLQGGHILFESVPGTGKTMLAKTFAGCIQSSFC
+RIQFTPDVLPSDVTGIQYFNPKEKEFELRPGPVVTNVLLADEINRATPRTQSSLLEVMEE
+KQVTIEGKTLKLEEPFIVLATQNPVESQQGTFPLPAAQLDRFLMKVPISYPEFESEREML
+RRFKDQQPLDHTQPVITPEELKECSKEVKGIHVSEDIESYILQISRKTREHELIELGVSP
+RASLALLRASQGMAYVNERDYVTPEDIKKVASYVLSHRISLTPEASLTKSNERVMEELID
+EIVVPVESRV
+>tr|A6CMV3|A6CMV3_9BACI
+MDRAKMREKIARRAEKEIQDGFYVNLGIGMPTLVANYISDNKQVVLQSENGLLGIGPYPS
+EEEVDADLINAGKETVTAIPGSAYFDSAESFSMIRGGHINVAILGGMEVSEKGNLANWMI
+PGKMIKGMGGAMDLVHGARKIIVIMEHVNKNGEGKILKECSLPLTGEGVVDRIITDRAVI
+DVTENGLVLREVSKGYTVEDVTSTTEPELIIDDNLIMDAF
+>tr|A6CTQ8|A6CTQ8_9BACI
+MEFPSFEGYEISLTSPGNFTTLTIVTQKQPCIIKNFQNIILRLIIYASMLYK
+>tr|A6CS44|A6CS44_9BACI
+MDTQRVGINELAYKDHGEGQTVILLHGFCGSSEYWEKVMPLLDEFRVIAVDLRGHGESGI
+PEGGYSIEDMANDINYFMDQKQLKDVYMFGHSLGGYVTLSFAERFPDKLKGFGLIHSTPL
+PDDENGKDKRTESIKKIDSEGMESFIDGLVPNLFNQERLEELEDVIDNAKQIGYNTSPAG
+AKETLKAMRSRGDLRSVVQDSRIPVLLVAGAKDSIVPQEKTFIVDGDQVKKVVLEDSGHM
+GIYEEPEKLSLEIKKFIIDLK
+>tr|A6CP79|A6CP79_9BACI
+MKAAKRILVSIIGGGLAAGLLGDCIVSAEKNERETVIEAENNTVSPSYVPADGGGHTWTY
+VKTTYISSGYIKLYSDSDSYWYYTKEIYYDTNGKYIKTFYDKFAR
+>tr|A6CHF3|A6CHF3_9BACI
+MNIALFYHKMSRYYFKKALASLLLGVLLSLLIPGLHILFYLMLIILGMTFVMMYVIYNLE
+IHRSREALKVATNNSNHNFVINKEKASYCFFSLDGRMKSRVNFKGKSLVLENGDKELILS
+VERKLLEMSVQGNSSKVFNGRNASAQKVFFMRRGEGWDLYIDGEKVSSLTRGRLPLQTQQ
+LFDPSSIVVLFEESENVLKQWAFLYIVLLLEDYYVI
+>tr|A6CLI6|A6CLI6_9BACI
+MGEVMVMRTIQEKTVMHSYPGMVALVTVSHNGEDNIMAAGWHSYISYTPPIYGVAIGRER
+HTYQLLKEAGEFAINFLPAQYADFIQEAGVYSGSDLNKFKAGKMEFERGKTTNAPILKEA
+YVVYECKTIDVNSYGDHDWFTAEITTFYRDEKLFNEKGLPDFEKLSIPLYLGRSLYAVMD
+ETVKIEDHVVKEKK
+>tr|A6CNA8|A6CNA8_9BACI
+MLEDFDVFDSVLVSMFLGLIIYKIRRNKFLIKQLTKVQLTGIFIAYLTTVTTGVIGIYYI
+GNQLTDYIHNGFIKFLSEILIIIMVLSLCSTLLHKLLYRIINLTK
+>tr|A6CNC9|A6CNC9_9BACI
+MESTIRPLDPVAFEFGPLQVHWYGLIIGLGIALALYLAVKESDRLGLPKDTFIDLIVWAI
+PIAIISARIYYVAFEWDYYSQNPGDIIKIWNGGIAIHGALIGSVATAYFFARAKGLSFWK
+IADIAAPSIILGQAIGRWGNFMNQEAHGGEVSRQFLENLMLPEFIINQMYINGTYYHPTF
+LYESLWNIAGFILLLVIRRKLNLRVGELFLSYVIWYSIGRFFIEAMRTDSLMLTEYLRIA
+QVISIVLIVLAVGLWIFRRMKGYAAKPYNDVEA
+>tr|A6CKM1|A6CKM1_9BACI
+MESVKVGEVFTLIDEEDQEQDIEVLATLTLDGDEYAAVAFADDVKEQSQEDMDIFFLKVD
+AEGDLTGIEDDEEFAKVSTEFAKNMEQL
+>tr|A6CPW4|A6CPW4_9BACI
+MSKMKLIPMVEASIFAALAVILDLLPSIKLSPAISISFAMVPIFIVAFRWGLRVGLVSGF
+LWGLLQVLLGDVWFLTPLQFFIEYFVAFTFVGFAGLLYRPIQQSLKNRDRKRLLLWVLSG
+IIIGSIARYFWHFVAGFIFWGQDAPEGQSAVMYSLIANGTTVIGAIIFCSIVLILLAGSL
+PRLLKTDYTALDVDRKAS
+>tr|A6CQ89|A6CQ89_9BACI
+MAKQREKELTGKQKAAVLLISLGPDVSASIYKHLSEEEIEKLTLEISGVKKVESEAKEDV
+LEEFHNIALAQDYITQGGIGYAKTVLEKALGNEQASAIINRLTSSLQVKPFDFARRADAS
+QILNFIQNEHPQTIALILSYLNPQQAGQILSELSQEVQADIARRIAQMDGTSPEVISEVE
+AILERKLSTTVTQDYSQTGGIEAVVEVLNGVDRSTERTILDALEIQDPELAEEIKKRMFV
+FEDIVTLDNRSIQRVIRDSENEDLLLSLKVSSEEVKDIVFKNMSTRMVETMKEEMEFMGP
+VRLRDVEEAQSRIVSVIRRLEDAGEIIIARGGGDDIIV
+>tr|A6CRY4|A6CRY4_9BACI
+MRMERMEYGGGIQKPARHRLPLDPLI
+>tr|A6CQM4|A6CQM4_9BACI
+MMYEKKDDPASKGVNGENDV
+>tr|A6CQR0|A6CQR0_9BACI
+MVELKEDERLDYLLAENLRIIQSPSVFSFSLDAVLLANFASIPKRKGKIIDLCSGNGVIP
+LMLSNRTSVPITGVEIQERLFEMANRSIEYNKLGNQISMIHGDIKDMPARFGNDKFDAVT
+CNPPYFSKGEKEKINSNEHYAIARHELLCTLEDVVKAVGLLLKQGGKASFVHRPGRGVDL
+LTLMREYRIEPKRIRFVYPNKHKEANTVLVEGIKDGSPDLKVLQPLIVYNEDNSYGNEVH
+EMLYGKDL
+>tr|A6CJZ5|A6CJZ5_9BACI
+MSEIRRIPTVSVRKLQKEIDELSKEYRMLDTKIQQANWLTELD
+>tr|A6CTP2|A6CTP2_9BACI
+MWETKFAKEGLTFDDVLLLPAKSEVLPKDVSIKVSLTDTLNLNVPVISAGMDTVTEAEMA
+IAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGVISDPFFLTPKHQVFDAEHLMGKYRI
+SGVPIVNNVEEQKLVGILTNRDLRFIQDYSIQISDVMTKDNLVTAPVGTTLDEAEKILQQ
+YKIEKLPLIDDKGVLKGLITIKDIEKVIEFPNSAKDKYGRLLAGAAVGVSGDTMKRVEQL
+VKSHVDVIVIDTAHGHSAGVLQVVKEIRDQYPELNIIAGNVATAEATRALIEAGVDVVKV
+GIGPGSICTTRVVAGVGVPQITAIYDCATEARKHGKAIIADGGIKYSGDIAKALAAGGHA
+VMLGSLLAGTTESPGETEIFQGRRFKVYRGMGSVSSMEKGSKDRYFQEENKKFVPEGIEG
+RLPYKGPLADTLYQLIGGLRSGMGYCGAQDLQALREEAQFIKMTGAGLRESHPHDVQITK
+EAPNYSLQ
+>tr|A6CM89|A6CM89_9BACI
+MTKMCWEVEYLKLVEELYEIYRGKIRGTDEDLDMIALTILEDSSRQELLNIIEEMDNDEL
+QYFIRLYILETLKEKLTSGDHENRHNYRRNIH
+>tr|A6CUC6|A6CUC6_9BACI
+MLVSKQEKRALVSKGKIQVFGFFREQQYIRKQRFILPDRPASCILMKLEGRFTL
+>tr|A6CR86|A6CR86_9BACI
+MIIVKQMPPEYYQLLEELQAVDFVILELTLYLDTHPGDSNVIQQYNQFVKQRKQIKKAFE
+ERYGMLTNFSYSYSHYPYEWPEAPWPWQV
+>tr|A6CP95|A6CP95_9BACI
+MEKKIENLLFTAWAAALIATLGSLYFSEIKQYEPCILCWYQRIIMYPMAVILGIAAVKKD
+ASIAIYSLVLSGIGILTSLYHYSLQKVDFLYDTAPACGRVPCTGEYINWLGFMTIPFLAL
+TAFIIIFICSLLLLKIARENRK
+>tr|A6CPX9|A6CPX9_9BACI
+MIRIVIAEDQEFLLGIIGSLLNLEDDMEVVGQSGKEEEVLSLVRELRPDICLMDIDMHAK
+AGVAQELKAFGSNLIVLTTFAKPDYFEKVKSDIKGYLPKDSSSEEFVSSIRMIMNGSHIY
+SPALVGDLPDDEADEEPGGTSSEEESDLKNHPDPSNKAFETVKGYFSAFKDKMKLPAG
+>tr|A6CSL9|A6CSL9_9BACI
+MMVRGKKTSYIRGIALLHKGSSAYEEKEFFENFQSRRQRKESPNNAMEKPVLLELLGNVH
+DKDVLDLGCGDGQFSKELLDAGVLHYRGMDGSKNMIDSALANFQTDKAAFQLGDLESLKL
+KESYDLIVSRMVLHYIENLDHLMYEVYKALKPGGQFVFSVMHPVITATFDHFSGKEKRSH
+WVVDNYFETGKRVEAWMDHSVVKYHRTIEDYISLTLRAGFKIRNLKEAAPRKSAFADEEE
+FNRRSKIPLFLILQLQK
+>tr|A6CS64|A6CS64_9BACI
+VENLKQNSRRYAKRQLTWFRNKMNVEWFDMTDTRENNKKIEEISDFVAGKLGL
+>tr|A6CTZ1|A6CTZ1_9BACI
+MLMAFALGMDAFSIGIGMGMVQLRLRQIFYIGLTVGLFHVWMPLMGMMTGKFLSEKFGSF
+AAYAGGVLLIVLGIQMVLASFKEDENSVMTPVGFGLLLFALSVSLDSFSVGLTLGIFGAR
+TAVAVICFGVAATLLTWCGLLVGRRVQGWLGSYSEALGGCILFAFGIKLLLPF
+>tr|A6CH75|A6CH75_9BACI
+MIAKKGAAKFIMGDNEAPTITNEVPRDNMMNRVSTSYNRLRHME
+>tr|A6CP34|A6CP34_9BACI
+MNVGTKIIAFIMLPIYTRFLSDPSQYGVLDYIDRITSMLTFLVIFGTDSALAYYYFEAKD
+QKLRDYYVRTVMMFRLVIVMILGLVVFAGGDWLSELLLEETGKSYLLLIAIGTLFFDTIL
+TLILTVLRYDFFTKRVVFFTVLKMLLIAVVSYLMLITIWPTVTGILAARILSVGFVALLL
+FKYAVKYVRPYFDKKLLVEVLKYAAPLVPASLAFWVIVNANTMFLKEYTSFEEVGIYGTA
+IKFAALITLVTSGVQMAWRPFSMSLKDKENNARIFSKIYMAILLIGTFGIMIVATIMPWV
+IKVLDSNYWEAYKYVALISTTTFLNFYYMIISIGIFFTKKTKYISYAFGMAAIVNVILNI
+ALIPKFSIWGAVAAYLLSYIVAIVYIFIRSQKLFYVPVSGMKMSIQFLWVIVSVIGIVYI
+QEHAAISDVNIIYVWLFYLIGLFAVGIHKDLLSKGLNEGVES
+>tr|A6CRD5|A6CRD5_9BACI
+MDRMYRVLGFWTGIFAVMFFLGDMKTTSLIFLGQTGFFILLGYLKLSERMYIYIFFGYLT
+VFFAGFTYWTVFMMTPGAAH
+>tr|A6CMM1|A6CMM1_9BACI
+MTDWNEQAAPNNNLGSTSFKKALAPNNKINAEKQNDKGKKHDQK
+>tr|A6CRH3|A6CRH3_9BACI
+MDKKQMDLLHTIRTSTENLTNLQLDYWKIYSGFTSWKFWLEIAMLVIPLIILLLFIDRKR
+ALLLGFFGLNYHVWFAYTNAAGIRLGLWEYPYQLLPFLPSFPLDASFVPIAFMLLYQWTL
+NREKNVYLYSIVLSAVFAFLLKPVMVYLDLFRMFDWVNYLYLFLFYIAFFVVSMWITNIF
+IRFEKKKPNN
+>tr|A6CQA3|A6CQA3_9BACI
+MLFLINVIRKLFFIIACSAALHMTGGIPAYAEFDGSVKDYWEQPQERNEENTPAAENETS
+VTEPPAGVSALDYLKMVFALVFVIALIYFLLKFINQKSKTFQQTKLIHNLGGTPLGGNRS
+VQLVKVGERILILGVGEDIQLLKEIDGKEEKEDILAIYEEKSQVLHGQKDILTQWIGKKT
+GSMPQKTEDGQSFQSLLKSQIEDIRKGRKKMLNDLNNREKDKDE
+>tr|A6CN56|A6CN56_9BACI
+RLNWMKGFIFVFWKDWLNHRQQNQPLLFVYSA
+>tr|A6CSV9|A6CSV9_9BACI
+MDFLAIATELVVGFAALLILTKVLGKTQISQITPFDFISAIILGELVGNALYDDKSGVVE
+ILFAISLWGGLIYFTEFLTQRSLRVRHLLENTPSIIIRKGQIQFQALKKNNLDLNQLQQL
+LRAKDIFSVRECEFAILETDGSLSVIRKPKYATVQKQDINIPPTSANIPISVILDGQIIY
+DNLKMINIDEKWLFSELEKKGFASEKEVLFGEWQEGEDLLLQGYQTAT
+>tr|A6CKB4|A6CKB4_9BACI
+MEAVRSRRNLLTTGSINFLFKYQENKGGKDVKKIILTTESGADLPNDLVEKYNVRVVPMH
+IIMDGKDYLDGSLPVEDIYDYYARTKKIPSTTSTNAHEYQELFTKIRTEFPDCTIIHIGY
+TSKASSSFQNAVIAAEEFGDIYLIDALNVTGGLAAVVIYAGQVLQNEPDIEPQQLVERIE
+SIVPKSRLSFVPGSLEFLRAGGRVSNMASLVGALLKIKPCIELVDGKLVSTKKYRGKMST
+VAEKLLREYLDEYNIDREQLYFIYSIGLDESVKARMDEVAKENGFQNIRWIQAGGMISTH
+SGAGGFGVAGLEV
+>tr|A6CTE5|A6CTE5_9BACI
+MNQLGQDQLEKVMFPIGSIDKKKVREIAKEAGLATATKKDSTGICFIGERNFKDFLSNYL
+PAQPGNMETLSGEVKGNHDGLMYYTIGQRQGLGIGGAGEPWFVIGKDLDRNVLFVEQGFD
+HEALYSDSILATDISWTSDKEKTTEFECTAKFRYRQEDHEVKVQLLDDNTVKVIFKEPVR
+AVTPGQAVVFYNGDECLGGGTIDQIFKDEKKLEFVG
+>tr|A6CJW2|A6CJW2_9BACI
+MDKGIKNGFWHAWIVGAGSMIADAIFMLLVYVGMVQFLDVPAVQVFLWLFGGFVLIYSGI
+ESMVSIKSFSVESVRKRDSLGKCFLTGFVMSISSPLSILFWLGIYGSVLAKTASENGTGD
+LLIYSSMIFIGLTLWDVFVASLTTTFRRYFHSNILVIISTLSGISLIGFGVYFGYQGIIA
+LFG
+>tr|A6CJU6|A6CJU6_9BACI
+MFIFFEIHLKWLQSLRREPRKKKPEAESSAPGVILIK
+>tr|A6CP75|A6CP75_9BACI
+MNERLSKGLEAVEEYAGSEALTVLEGIKQFSPSFYHMMLEFGFGDVYTRPNLDFQQRNLI
+VLSSLITQGASEQLPVHFHAAIKAGLTPDQILEVILHSIPYAGFPKSLSALMTAKKFFED
+HQLSTKDY
+>tr|A6CSI1|A6CSI1_9BACI
+MIKMKDVYKQYPNGIMAANGFDVHIKQGEFVYVVGPSGAGKSTFIKMMYREERATRGEII
+VNGIDLVQLKNKRVPYLRRNIGVVFQDFKLLPSLTVYENVAFALEVIEETPKSIQKRVMD
+VLDLVKLKHKARMFPDELSGGEQQRVSLARSIVNKPQVIIADEPTGNLDPETSWEIMNVF
+EEINTQGTTVVMATHNREIVNTIKHRVIAIENGRIVRDEQRGDYGYEA
+>tr|A6CIE6|A6CIE6_9BACI
+MNQAQFEKVIEVLFPDIIIQEVTAYEKGWDNDIFIVNKEIVFRFPRSEEVASKVKDEIIL
+LKHLAHKEPKLDIPRYKGIEMDGNLKCVKYNFMKGKSLSEIKNSRLDLHSAELLGDFLSR
+LHSIELSALKETNITSFHTDTYWENLYESAKTYVFPNITHSERAEIQQFYEDFSNNPIYS
+NVNKAVIHGDLTAANILYNKEEECVSGIIDFTDAQIADPAFDFAGLYWAYGPEFTKKLLT
+YYDGKDKTGIFERVQSFYGLQPIFHELIYAVKENHDVDWGSALERFQYLNSHR
+>tr|A6CUI9|A6CUI9_9BACI
+LMSWFPSARETAIGKFLARICEPYLEPFRKIVPSIGMIDISPIVAFIVLRLAQSGILELY
+RWFV
+>tr|A6CLB5|A6CLB5_9BACI
+MAEYSLIEKLHRNAKGGDNMQSLVAEFWWHLFIIIGSFSLILFIVNIILRNYFRVQKKKF
+FSYNHVNEKHKKIEWRIRWSFLVLLLITSFINIFLAEERLWYLETHILLIPFIIALEVTR
+AVMEKKHADNENDYKFTLAQLGFILILLVVMDIYFFNYYALSSE
+>tr|A6CM23|A6CM23_9BACI
+MTVEWNRETTDSYLLPACIFLSLFLALIGLIVQNLLMLFVFLISFALFYGSQIYLNRAGV
+NLTFKNVRNREKFNKGDQGEWSFKFENKGVPILNGSLILRFDSVVLPMGVDFDEFPGGII
+EMKIPVSISKNETIEVKFPVEAQRRGLAKIERLIVDIPNLFGSGGVYMQYKKPVKSEILV
+FPRSKPVDGFTSAHTKTQGTFTVHNSLFHDPFHPVGTRDYAPGDSFANINWKATARMQSL
+QTKVNSPATSRNWMITLNISADYSITSDLEDLIEKTAYILEMAAKNDIPFGLAVNVRSLN
+RTPFYYLPIGEGKKQRQRALEMLSVLSVDDVTFPFSLMYQYLIMHHQVPPVLISIGKQDK
+ESEKLLSVMNQRDVSVFQLENLNGQGVLQAWKQQFRKFA
+>tr|A6CN45|A6CN45_9BACI
+MKEITASMAGTVLNVLVENGAEVNSGETILMLESMKMEIPVEAESSGKVAEVKVNVGDFV
+NEGDVLVTFE
+>tr|A6CST2|A6CST2_9BACI
+MSDRSSKVIKGISVLVTVLTVLLPIYLFGQDLKAQTESGWSNYEKGIKGFPAQIGKIKDW
+NFLSGSKDVNQVNDSEDRSSNSPIGYVRVTSPQANIRSTPEVPPDQESNLVYKADEGQEI
+PYYETITADTGGVWYKLIHGETGEECWISEITIEKIE
+>tr|A6CK91|A6CK91_9BACI
+MDRYVSCGNLKVENLFYDFINSEVLPGLGVQDFWDKFERLIEELTPENKALLKQRDDIQN
+RLNECGIENMSHLIQRNINPF
+>tr|A6CR59|A6CR59_9BACI
+MKWCLDMVEYEKKNRPGRSVGLTWWNLKRRESTRSKCWFDVVESKEENRPGRSVGLTWWN
+LKRRKSTRSKCWFDMVESEKKRIGRVEVVLRHGGIRKEENQSGPRVASDGRFSKEENQHS
+QRSISKTLNSKTSCGLPKAK
+>tr|A6CHB4|A6CHB4_9BACI
+MDAVKTLKSFFEEDIMNDDGVIIKGMERLLSWLLKVFFILSFPVFLICLL
+>tr|A6CRL8|A6CRL8_9BACI
+MSGIAQYDVGSSVDLFMLIKQSTKGTTNTGKPFLTLILQDKSGDIEAKLWDASEQDEKNF
+QPETIVKVSGDVQSYRGKNQLRIKQIKPSSPGDGLQLSDFLQTAPLSIDEMTSKITQYIF
+EMKNPNIQRVTRHLLKKYQKPFLEYPAATKNHHEFVSGLAYHVVSMLDLSKSIASLYPSL
+DTDLLYAGVILHDLGKVFELSGPTSTTYTIEGNLLGHISIMVNEIGKAAEELGIKGEEIM
+ILQHLVLSHHGKAEWGSPKPPMIKEAEILHYIDNIDAKMNMLDKVLQKTKPGEYTERVFA
+LDNRSFYKPTFHN
+>tr|A6CS51|A6CS51_9BACI
+MVKTGQSQENLLSQDEQFIWHSMKPYNPSGTMVVEESKGSWVTDHNGDKYLDGMAGLWCV
+NVGYGRQELAEAAYEQLKKMAYFPLTQSHQPAIQLAEKLNKMLGDEYVIFFSNSGSEANE
+TAFKIARQYHQQKGEGSRYKIISRYRAYHGNSMGALAATGQAQRKYKYEPLAPGFIHVPP
+PDSYRDEVTEGDSLNLPGVKAIDQAMTWELSETVAAMIMEPIITGGGVLVPQEGYMKAAK
+EVCDKHGALLIVDEVICGFGRTGKPFGFMNYDVKPDIITMAKGITSAYLPLSATAVKREI
+YEAFKGSEEYDYFRHINTFGGNPAACALAMKNIEIMENEKLFERSAELGEKALNTLQSKL
+QQHKVVGNVRGKGLLIGIELVSDKATREPLPVDQVNKVIGYCKSKGVLIGKNGATVAGFN
+NVLTISPPLNIELEDLEFLLNTVCDGVNSLS
+>tr|A6CN65|A6CN65_9BACI
+MTQEMIKVEKLNKSFGDLHVLKDIDINVKESDVVCLIGASGSGKSTLLRCLNFLEIKDSG
+KIIIEGEEVNRGTHDLNEVRAKVGMVFQHFYLFPHKTVLENVMEAPVQVKKISKVKAKEE
+AMELLSKVGLKEKADVYPSKLSGGQKQRVAIARALAMKPDIMLFDEPTSALDPELVGEVL
+STMKELALEGMTMVVVTHEMGFAREVADWVVYMHDGRIVEVGPPEELFGNPKEQRTKEFL
+DSIL
+>tr|A6CNS8|A6CNS8_9BACI
+MAKTNLEKNISSYIGRLLREHFGRGPGNVICTVSGPYVVVHISSFLSPMEKSLMDSDQTV
+YVQKTRDLMMETLTKEIKAYIELTQGHHVEEFYYDWQLEAKTGMMIAVLSSPDEEHPLPP
+KNDFKNSDMVNKDIIKISAEVQKPPEKTYSIMLNPRTLLIIREGIFISIEKELIQLGSQE
+TLRLAKRNLEKGRLLHHKNSFEEYLDAKLVDFFVDWNFDRDKSLILFNLKPIEKSL
+>tr|A6CHZ8|A6CHZ8_9BACI
+MPYTRIAKSHSASIVVIFLLINFDIFSGSQLINGILWLILVCLVMSLGVKYQLRVKGSQL
+EYSIFFLTLRLYKKALPPSLIKSVIFKRTDWSKKKAVIKLKQRANIKVLDYQPSTIFTDL
+ESFAADHGISVAKTKDYKLLERYY
+>tr|A6CST1|A6CST1_9BACI
+MPVFLDSFLSKDEQKKLGEISRKVKEEVSSLPVISALGDATQGAAGLGHVQKELVKCPNE
+PINWLFYYESLMMYKKMNGKVSVGRAVINPVGFVAGKGISMGLNKADDEYEKFDTKKCLG
+MMMALLVKKKKNKHFLTGKDMALLGKATMYSAAYTNSPDSKERMLKRSVQYINAAIRVEK
+STAFRAEYFYYLSECYHQAGTEKMRLRALNISRKMGFQPAGALVKQILRSHAETPEERQE
+LSEITLRGHLESFQLTHTPKIEERIEQSWGHVKVQQQEKFKKTGKRVLNFLDKHL
+>tr|A6CU39|A6CU39_9BACI
+MKFQWNLILGLIFALIVAIFAVINVDPVRVNYLFGEAEWPLILVIIGSVLMGGLIVGSVG
+LFRLFVVQRKVKALQKENERLTKEAEGIETTGKTSPPVPAASDNVKEENNTGI
+>tr|A6CTT5|A6CTT5_9BACI
+MRRFNKCGLEKMVDTNDEWIRTRTGIEERRIAGDDMDTSDLSYEAAKAAIKNAGISPEEI
+DMILVATVTPDQPFPSVATMLQERLGAKRAAAMDLSAACAGFMYGMITAKQFIENNAYKH
+VLVIGVEKLSKITDWNDRNTAVLFGDGAGAVVMGPVSEGRGILSFELGADGSGGKHLFQD
+DAYIYMNGREVFKFAVRQMGESSVNVIEKAGLKKEDVDFLIPHQANIRIMEASRQRLELP
+EEKMSKTVNKYGNTSAASIPISLVEELEAGKIKDDDVLVMVGFGGGLTWGAIALRWGR
+>tr|A6CL51|A6CL51_9BACI
+MSWNDCIVRHNTHSVKWSFSDEEIIPMCIADMDFQVSAAITEAMKEKAKHGIYGYTTFSE
+QYFQTILTWWKNRHGLEVKREWISFSPGIIPGINILLGLLTEPGDAVIVQDPVYYPFYSS
+IENHGCTVLKNTLTYKDSRYQMDFTDLESKAKDPNTKVLILCSPHNPVGRVWTREELERV
+VKICLKHNVWVISDEMHGDLTYEGNTHLPLFSINEEIKQKSILCAAPSKTFNIAGLQTSI
+LMIPNQQLREKYEQKLQNFGLARPNAFGVEGTIAAYGQGEPWLDELLMYLEENRQLAINY
+LKENIPSVKPVVPEATHLIWLDCSELGLNQEELFDFFLVEAKIRFDEGYKFGSSGSNFVR
+MNIACPRERLNEALRRMEEAVLRKQVRDGAGSV
+>tr|A6CIA0|A6CIA0_9BACI
+MIEISEIKRLEGRYASYNSDRNCCILFVCPVDFGAARLMPAKVRKISFMAAVVIIFLLVL
+FFTVRPFWVEFQVTKKTEALKEYLSEKYPGEEWEIQRQVGRQYNPYHLEVTFDNEKDWAY
+TYSVADKNKICQSVWTPPEGMLPREGKHFEEDCG
+>tr|A6CKY5|A6CKY5_9BACI
+MTIINVFLEKKVESMKKLATSILTSILLLTACGTSSTNNFEVIETNSATKEEQKPTLHVE
+TKQEGDKVFLLVDTDLIISKEKYGKEKINGQGHIHVYVNNGEKQGVTSFPFELKDLKNGS
+NQVKVSLHNNDHTPYGVSKKIEFTY
+>tr|A6CPV3|A6CPV3_9BACI
+MLKVDPISTFSMIWALSSGLLMGRDKTFTLRGGDLQAVAEFPHPQRQGGVFIILSTYFLF
+GKYCYTFIIRGIFPFVTLKGICAAVIEF
+>tr|A6CQE1|A6CQE1_9BACI
+MRVGGLASGMDTDSLVADLMKAERMPLDKLKQKKQTIEWKRDDYRAMNTLLLDFRSELTQ
+FKLTTKYRARQTTSTDESKVTATASSGASQASYTINNVTQLATAATKVSGTGPSETLSSD
+PNNKLDPKAGLFNQTSKLANGAGFTWSEGIIEKQTVKATEDGTTLNFDIGTSTLKDLDKM
+SVKVSGKSFEVVTAMPAEGLGSNQVLVDNTGSLTFGSTVKKDSSVSVEYLTTDKTETIDT
+TNPVKDFQLAKGSISSLTLTVDGTDYSFGTTDAEGNTQLVDAGNNSIGTINKETGKITFS
+AEQSNKTISVTYSQNYADFSLQTFTKDGEKNVNFLIAGNETLNGVISKVNQSDAGVTMFY
+DSFSDRATMTRTETGNFNTSGNEINTSGNFVNNLLRFGSSAETGGTNVKFEVNGLQTERN
+SNTFEMNGVTFSIKQTFSSANGVSTTVSNNTEDVFENIKGFVEKYNELIGKIKDKTGEEF
+YRSYSPLTDDQKEQLSEKQQEQWEEKAKSGLLRRDSTLSGLLSEMRSDFYQPVDNANVSP
+LFKQLSSIGITTTSNYLEGGKLEINEAELKKAIEEDPDSVENLFRGGSGAASDSQKGIVH
+RLYDSVNGTIDKLKEKAGGAFSTLQQFTLGRELKNVDSEITRFEERMKQVEDRYWRQFTA
+MEKAIQQSNQQSMYLMQQFSGM
+>tr|A6CQH2|A6CQH2_9BACI
+MEKEKIVLAYSGGLDTSVSIKWIQEKYGYEVIALGLDVGEGKNLDFIKDKALQVGAVKAY
+MVDAKEMLAQDYIIPALKANCLYEGKYPLSSALSRPLIAKLLVDVAEKEGAVAVAHGCTG
+KGNDQVRFEVSINALAPDMKVVAPVREWGMTRDEEIHYAQEKGIPIPVDLDNPYSIDANI
+WGRACEAGVLENPWTEAPEGAFDWTNPIELTPDEAENIEIEFEQGVPIALNGVKMEIVPL
+IEKLNEIGGKHGIGRIDHIENRLVGIKSREVYENPAALILINAHKELEFLTLPREITSFK
+TTVDAQMAKLIYEGLWYSPLNKALQAFVDETQKVVSGKIRVKLHKGTHFVTGRQSANSLY
+NEELATYSKGDAFDHNAAVGFIKLWGLTTKVYSQVNKEDQSEEKTTVTSSAGL
+>tr|A6CLS1|A6CLS1_9BACI
+MAKRNQTQSGTNVQHVKQQNAQAQGQAGQYGAEFASETDVQQVKQQNAQSQAKKNQQ
+>tr|A6CJ67|A6CJ67_9BACI
+MQMKKNIIGTVISAAVFGVLVWGASLIFSFSFLDWGFFIGLAISVVLFFFNSSGGMLSKN
+ATLDASTAGWKIQQDNELKANVGFVFYGAVLFTVISFIMMIVTYY
+>tr|A6CHG2|A6CHG2_9BACI
+MSDDYKFMFSVKKVTVIEDAPNTKEVLVHTKIKKGRDTICLENVFPVRITDIGIFPVPRA
+IAENVENPTLRRLLPFELKRYIKPQKRFLEPGEYS
+>tr|A6CMV1|A6CMV1_9BACI
+MTKEVVIVSAVRTAIGSFNGSLKDISAPELGAIVIKNALEKAGVSANDVDEVIMGNVLQA
+GLGQNPARQAALKAGMPETVPALTINKVCGSGLKTVHLAAQAIIAGDADIIVAGGMENMS
+QAPYLLKNARNGYRMGDGKVVDSMISDGLWCAFNDYHMGMTAENLCDRYSISREEQDEFA
+AWSQEKAAAAMENGKFDSEIVPVEIPQRKGDPIVFKTDEFPRKSSTAEKLGGLRAAFRKE
+GSVTAGNASGINDGAAAVVVMSKEKAEELGITPLVTIRGNANAAVDPAVMGIGPVSAVKN
+VLEKTSLSLADMDLVEANEAFAAQSLAVDRELTFNKEKLNVNGGAIALGHPIGASGTRIL
+VTLIHEMGRRDAKLGLATLCIGGGQGVATVVERA
+>tr|A6CN25|A6CN25_9BACI
+MRKEVIDYIHSKQDLKNFIRVQPVWYRILSKNPHYLDKFEAASINHFEKTVHHQVQRFSN
+GVQMASMMMQMFQAMNESQ
+>tr|A6CTU0|A6CTU0_9BACI
+MYNFDVSPDRKGTSSVKWDMTKTVFGRDDVLPMWVADMDFPPPPQVIDSLNDRLSHGVFG
+YTFTGDSLGEAVSGWMKERHEWEIRKSWLVYSSGIVPAISTIITTFTEKGDSILMHSPVY
+TPFFSLAEKNERVAKKCPMEVKEGQYTFDYAAFEDALKQGVKLFLLCNPHNPGGRVWNKE
+ELIKIAELCQKYNVLIVSDEIHADLVHKPNKHIPISSIKKEYEDFIFTLVAPSKTFNIAG
+LQASAMIIPNQKYREKIVEEQHKQGIFTLNTFGVLGMEAAYRHGGEWLDSLLAYLQGNIK
+EVQSFIKKELPDLSVMDPEATYLLWIDFRKLGKSEKELEKLLLDKGKLALEPGSKFGEDG
+EGYFRMNIACTRETLKDGLERLKTALS
+>tr|A6CN36|A6CN36_9BACI
+MDQPKIGLALGSGGARGFAHLGVLMALEEEGIPVDMIAGSSMGALVACFYGVGHNMEDLY
+KLSTAFRRKYYLDFTVPKMGFIAGKRIKQFVRLFTHNKNIEDLRIPVSVVATDLTNGERV
+VFKQGPIAEAVRASISIPGIFVPEKIDGRLLVDGGVIDRVPVSVVRDMGADIVIGVDVAQ
+VKQNAEITTVYDVIMQSIDILQKEVIRHRDLSADFMIRPDVEQYSSRAFKNTEEIIAVGE
+AEAKKLIPSIKKAIEEWKEK
+>tr|A6CMI6|A6CMI6_9BACI
+MGMSLSNYLKEELMKKSLVLLFLLIYSMINFSLPQEAEAKVDERPVYITIDDGPTAYTDD
+FLTVFKEYDMKATFFMLKPSMERYGSSLRQMDTDGHALGCHGVTHERDEFYESPESAVRE
+MKLCVAALEDITGETTSVVRVPYGSIPDMEEQYREAMIEAGLKMWDWNVDTLDWDWEDRD
+KIVSYTIEKVEEAEENGEIPIILFHDQYETLKALPEILNYLKNKGYYSETITSYQDRYNF
+FHKINMEAKVANRFGGMNRYETAIEISREGWDSADTVMIARGDDFPDALAGAPLAYGLDA
+PILLNHQDKLLPEVKAEMERLNARKVIILGGRSAISNETEQDIAAAGFTVDRISGTDRFE
+TAAKIAERLSREEGTAIVANGRSFPDAMAIAPFAAQKGYPILLTEVDELPTATRGALSGI
+SKTLVVGGEGVVNNVIFSQLANPERYAGDNRFGTAADITERLLPSNKAFVATGYEFADAL
+TGSVLAAKNGAALLLVKNSFITAETANAVEQAGINNFTILGGKNAIDYNVEEWFKNYDFA
+SISAEGTYGNQSK
+>tr|A6CN93|A6CN93_9BACI
+MLIDINLLPQKERKRRMPVYIAIAALTLTILGTAFLLVFTQLSHQELENITKNLEMKKEF
+RLQQETTVNTIESSDGLEQLHTAVQWAEQYPIDTVPVLEHLTSLLPERGFFRQFNYTEDG
+MINLNVQFDTSRQAAYYLNDLKHSDWISEAKLTSLETSQGQMEEDLVVLPEDKLMPRYLG
+QYEISLNQSFIKSELQSESEGGGE
+>tr|A6CQ53|A6CQ53_9BACI
+MSVLDNWQDWKNFLGDRLNQAQHEGMQGGVVSDLAYQVGDYLANQVEPKNEQEKVLADLW
+SVASTEEQHAIANMMVKLVKNDGTR
+>tr|A6CNU9|A6CNU9_9BACI
+MENISVLKLSNTVSRFPSDIKRSTKFVYELMNECLLIVKRVQEGNPGIAYVVNPLVIDWL
+STEEAKEIIEQFFMTSMQENRHKENGNIEELYSIWMNIQRDVPSALNTLQEQSRLTVIPS
+AVTNFPVTHLLTGWGIEMILQHSVQLHNKHFEKRLRGFWLPKCAYTPGIDLFLTELGIEY
+SFISRSTFEYSERDDMNSSILRTPRGLRLIPVDLDMNDKPIVIRADAFENMNQFTDVLQE
+AGFRVNHFEENSFLTKHGALTRAGFGFMGMEQGVRVISDEALVNMREMHNMERTLRDISS
+SASYPPKVVQQLVREWISSLHHLETKNELDSSCLQAFKELSQQKTGLENSRLLEYRESLE
+HLPVVLGETGTREKISVSSKEQTVLLLSWEYPPNIVGGLSRHVHDLSKSLVKKGCKVIVL
+TASTDSVPEYEVDEGVHVYRTGPLHPMEEDFLNWVFQLNLSFVEKASEIFGKEQIDLIHA
+HDWIVGKSAGMLKDHYGVPLVTTIHATEAGRNQGIFNNLQQRIHEEEKKLVAASNQVIIC
+SDHMKEELLQLEPRDNLAVSVIPNGVNLQNVFPDNHYPLKESFSDKKYYFSIGRIVHEKG
+FETIIETADLISKEKNIHFVIAGKGPLLEQYRLLVKERGLEEFVHFLGYVSDPERNALLF
+QSEAVIFPSIYEPFGIVALEAMAARKAVIASKTGGLKSLVNHGYAGLLFDPGNPESLISC
+ILDLEETDGMKKEMGENGYKLAEMMFSWERISKQTIEVYEESTLNYKVEGSRL
+>tr|A6CQF4|A6CQF4_9BACI
+MLTGLALLTGCGMANGGNGADDNNLQTQNVGYNNNGENDLNGNENDIGDNGLFGDNENDG
+DNGLFNDDGNNGQQRMEVADQAANKVKGLKEVQEANVIVTDNNAFVAVMLKDNAEGEVTK
+QIEKKISNAVKEADQDIENVYVSSNPDFVDRMRNYGNDIQDGDPVEGLFEEFSEMTRRVF
+PNAR
+>tr|A6CQH8|A6CQH8_9BACI
+MFSDTAYKQIAFFSILKGYDFSEDEKVKQRKSLIDFSYSNGYEKANEKNGRCT
+>tr|A6CRJ5|A6CRJ5_9BACI
+MHIVLTALLILFAAIKGNWREWEKYHLTIFYVIICNLLYNHLSRKKMLWEYYPDFYPKSH
+IIVDILYSFINLPAITLLFLTFFPFHASRFRKVRYISLWAGVSLLVEFPFYKFGRLVLQN
+GYEYWMDGLFYIVCTV
+>tr|A6CU45|A6CU45_9BACI
+MAKDQILTPEEVVKRTSEYLPEEDVSLVQKAYEFAKEAHKEQFRKSGEPYIIHPIQVAGS
+LQTLKWTLPRYLLDFYTM
+>tr|A6CPH6|A6CPH6_9BACI
+MDNKPLHYDGSITKNEGTENGVQTDERFILTSEARKNLGGNPYEVSGEE
+>tr|A6CHM5|A6CHM5_9BACI
+MGFTVEKSGLLSTIQDSGRTGYRRIGMPVSGAMDDKAFRFANLLVGNNEGDEALEVTLQG
+PVLHFKSDTVIAISGADLNPSINNEPVPNNKPLLVGKGDVLRFGMAEKGMRAYVAFKGGL
+KVVKQLGSSSTNTLAKLGGYKGRALKAGDKIALNIEGHKDKQIQWSLSPTLFTYLQKKEV
+RIIRSRQWDWFTEEAQMHFLSGSFTIKPESDRMGYRLSGPALALKQSQELLTEGIAKGTI
+QVPASGQPIILMADSQPTGGYPKIANVITADLPIIAQLKPNESLSFKEVTLEEAYEALRE
+TEAEMKMIRAAVRMKNE
+>tr|A6CPW2|A6CPW2_9BACI
+MAEEGTQAGDMAAGMPPGIMVVEVIIRHGGINLDLEQAP
+>tr|A6CR69|A6CR69_9BACI
+MALKGGTDLFELIFKQNGDAKNLQHFFEKESCDTMIHETLFQNQMHYIVSIKKQENKQII
+LDGLFRFIMDIKRLEWAAYILSEYYLYKDPHEQEQILTIIGEMLSGERDELTCLLAEWDE
+TGFVMNNLVSLMESEEPVHFDSFVKFRLKALYERMILYVEKAIDEYKLEQDYQMFVQMLR
+DYLASKIDQQETIHLYFSSCDLLFFNSELKEMKRNELFRVVDKRLLTNHPVYVDSYTIAP
+LLSMAPKMINVYCAEPELKLIRTIQNIFEERVRILPLSAFPGSIHSDIPDAANE
+>tr|A6CUB9|A6CUB9_9BACI
+MLLLIFHFVGEDIGVAAQIAKQPKPVRKVIQFFNKVYLLRTGSQTKYSE
+>tr|A6CTL5|A6CTL5_9BACI
+MLLPSVPKEVTLLNARFIIAGAVILLASIGLVSTLMGDPLALLQRILIFAAIAGVIYFVF
+RKVMMGGKGKDKDQKAFLKAAKQSKKRYNKKTAAVKTKASAPNPFRKKSHRKKSQANLTV
+IEGKKNRKNRASL
+>tr|A6CTS8|A6CTS8_9BACI
+MQTIFSGIQPSGTITLGNYIGALKQFAELQDDYNCYFCVVDQHAITVPQDKMELRKNIKS
+LAALYIASGIDPDKSTLFIQSEVPAHAQAGWMLQCVAYIGELERMTQFKDKSHGKDAVSA
+GLLTYPPLMAADILLYKTNLVPVGEDQKQHLELTRDLAERFNKKYNDIFTVPEVRIPKVG
+ARVMSLQDPLKKMSKSDPNQKAFITLLDTPKQIEKKIKSAVTDSDGIVKFDKENKPGVSN
+LLSIYSILTGKSVEDLEKQYDGKGYGDFKGDLAQVVIEALTPIQERYNELIDSEELDEIL
+DKGAEKANFTANKMLMKMEKAMGLGRKRK
+>tr|A6CTG4|A6CTG4_9BACI
+MTASVRGEQLMTGAAAGKLLNYKQGERDINFWREQDMKLGAFGSAVPILRIFDITKAKEF
+YLEFLGYKIDWEHGEDDFPVYIQVSRSACILHLSEHHGDACPGAAVRIEVKGIEGWHRNL
+LDKNYKYMKPGIVNTPWNTREVSVTDPFGNRLIFYEAGEPKQ
+>tr|A6CKV9|A6CKV9_9BACI
+MEKTSSYTEMDANLKQLEDDYIEALDANGSRSVEDFIQKFLNDSWEYNQSNLEMIKSVMS
+RYTKGEISKSTFSESFSRMVNHLQKKLSVLDENNDFPLLHTSLGASVLVSFVDGLVIQYY
+AGVYSVEDLRQLTPHLKSVILNALSTGREPI
+>tr|A6CS00|A6CS00_9BACI
+MQTYLKEERDVEEYLIIAIRTIFLYAVILLIFRLMGKREIGELSLLDLVVFIMIAEMAVL
+AIEEPDSALVNTLLPMIVLMLIQIATAFLSLKSKKFREIVDGKPIVVISHGKIDERAMRR
+QRYNFDDLLLQLREKDVSNVADVEFAILEPSGTLSVIKKEENNGEGSLTLPLILDGIIQQ
+KHLDMINKNEFWLRKKLRERNYHNLENISFCSYQDGEFYIDKRDE
+>tr|A6CRR3|A6CRR3_9BACI
+MNIQLAILLAYFIIINLMGFILMGNDKIRAKQKKYRIRESSIWKVAFLGGAVGCYAGMKT
+YRHKTKHAVFKYGLPGLSAVELITYSGLAFIIIKS
+>tr|A6CHX4|A6CHX4_9BACI
+MISKETKLERYADLLIRVGLNIQKGQTLLINAPIKQSDFVAQLSEKAYDAGAKNVLVEYS
+DERLTRLKMEKAPEEGLRDFPTWKAKGFVEMAKNNVAVLNLNSPNPTLLKGIDAQRVAMA
+NKASGEAFKEFQPYISGGRISWLIAAVPSVAWAKSVFPELSEEKAVEELWEKIFYTTRVD
+QENAVQLWKEHIEHMTQNADHLNDRDYRKLHYKGPGTDFTVEIHSKSKWICAQFTNDQGI
+HFVPNLPTEEVFTIPVRNSVNGTVSSTKPLNYSGNLINNFSLTFKDGKVTDFHAEEGYET
+LKGLLETDEGASFLGEIALVPHNSPISNTNIIFNNTLFDENASCHIALGNALSICVENGK
+EMSKDELKEIGFNESLTHVDFMIGSEQLDIDGIREDGSVEPIFRKGNWAF
+>tr|A6CTL4|A6CTL4_9BACI
+MNIDGVFSGGGIKGLALVGAYQAIEEQGLKFKRLAGTSAGAIIAGFIAAGYKSDNLINIM
+DEIDLPELLDKNRLLSSVPIIRWLMVYRKLGLYKGDALEQWLEEKLRVRGVYTFADLPPG
+ALRVIASDLTNGRLMVLPDDLDKYGVPKETFPVARAIRMSASLPYFFEPVRLKSLDGLNL
+VVDGGVLSNFPMWLFDKENTKKVRPVLGIKLSPNIQERPKNKIHNAIGMYDALFQTMKDA
+HDSRYISRKHETNIIFIPTEGVLTTEFELTVEKKRELIEYGYNKAKDFLRSWSYG
+>tr|A6CJ84|A6CJ84_9BACI
+MVKKMSKKKNKDLQYNKAMQKTDVEFAQNGLEKVALKADERKK
+>tr|A6CTG5|A6CTG5_9BACI
+MKQIYSDIIQFRGTHFDFGYMQGEGIKDSLTVINRENQWKVRKPRFSIEIEEVKQAVTRF
+APGVWEELQGLQEALKWPMDRVLKEFGGYRLDYVKSGCSILTGEDYLIRNYDYHPKTYEG
+RYTFYQPTDNQGYAIIGPSQRVTGRMDGMNEKGLSIGYNFMHRKKPGDGFICCMIGRLIL
+EACANVDEAVLMLKEIPHRHSFSYIVYDASGETYVVETSPRGVKVRQSNACTNHFEIMQE
+ENRNHLVDSKRRLGIIQQNSGSIQDVKDAFRLFNDSDKGIFSDLYGSWAGTIHTSVYFPK
+ELKAWFALGGDRNPVEFDFHKWLHGEDVELDKITGEVDTDIPFIHMDEGADWSKR
+>tr|A6CHA1|A6CHA1_9BACI
+MLKKLFGKKEEAPTSINVHSPLTGKMLSLDEVPDPVFSQKMMGDGIAIDPAEGKVVSPVD
+GEIIQVFPTKHAVGIKAKNGAEILIHIGLETVSMNGEGFEAHVSEGKKVKVGDPLVTFDM
+DLVKEKAKSTITPVILTNGDDFGDIKKEEAGVVTAGQSQVMTIAVK
+>tr|A6CKZ9|A6CKZ9_9BACI
+MEFVEPIRDVEDIIKIKKWLYQHSKRDYLFFIFGINTGLRISDLLYVKVKDIHKEGTVEE
+FFAPPGTDTAFYLNKIVRHALIDYLNNCLLDEEDYLFRSRKNNQPITRQQAYRIINRAAQ
+EAGIEGKIGTHTLRKTFGYHAYKKGIALSILQNIFNHSTPSDTLNYIDIDPYTEGPIKVD
+VNL
+>tr|A6CNE2|A6CNE2_9BACI
+MRKGSNARNDKSKILSFVPTGEYYFNKGIKAYHRRELNKSKKYLNRALQLEPLEPMIACQ
+LAIVHTEMGEYKQSNQLLHLIVDSLDPHMAECHYFLANNYAHLGLFKEAYTHVTNYLEKE
+EYGEFSEDAEELLEILELDSDEALDTLYEHDELIANQDKARNLLESGNFQKAVDLLEQVI
+KDFPEYWSAYNNLALAYFYLGKTEKAAATLEEVMEKNPGNLHALCNMAVFYFYQQRHDEL
+EELMEGLEKIRPFHYEQRYKLGATFALIGRNEKAYEWLKSLQKLGFQGDASFYYWLSHAA
+YNTGHEQTAEQAWKRVLEENPEKAGSEPWNDENPQVEGFENHVTSILKKLKSEYAEERLF
+GLFLISISKHQKEVLTHTDFGAVDDFSLSEKLYLAEILKAESRKAIKDSKVIKHIHETAL
+ALYEIHHPINAVDSGLFLTWFSIACKLLEAETSLKNAKACAAATEYIWHRLRGDKKTKTL
+ISGKYGITTGTLNKYLEEVEAYLQ
+>tr|A6CTP8|A6CTP8_9BACI
+MNNLKLFIIIGTGIFGGLILMSFIQLEKAEYRMEALSFIAIAAAVYFVLLWLFQKGLKKV
+FTAAVLVLAILAISTAMFHHFLFPATH
+>tr|A6CTZ0|A6CTZ0_9BACI
+MKMNYWIVENDVDTNKSCPQIVEASQFLKDNEVVAFPTETVYGLGANAKSDEAVDKIFAA
+KGRPSDNPLIVHISNSEQLNELVEEIPEAAQIMMEHFWPGPLTIIFKKKEGVLSEKVTAG
+LDSVGIRMPDHPVALALIEAANLPIAAPSANVSGRPSPTTAHHVTQDLDGRISGVINGGE
+TGVGVESTVVDCTSEIPVILRPGGVTKEQLEEAAGPVLVDPSLAKGEGAPKSPGMKYTHY
+APDAPLILLDGKREWIQSLVEEKRQAGMKVGILTTEENARFYQADKILVSGSRLDLSTVA
+HSLYDVLRSFNESDVDIIFSETFPQEGVGMAIMNRLQKAAGYNLIKEK
+>tr|A6CQE6|A6CQE6_9BACI
+MKHNYSSGEFKGEYNERKPVFEYQQVDAKKPNG
+>tr|A6CJS7|A6CJS7_9BACI
+MILYLLAGIRFGRWSNFAEYYPTLLYFIIGDLLSQFLLFNHTLWMFHPMDRLDHLFKLNH
+TFIALAKMAIQYSMTVAIFIGRLPEEKGRQAMMVLLWTAIYGLNEFLTHHLGGLSYHRGW
+SFGWDLVFNLMMFIMLIIHYKKPLLAWILTAPIIVTLWLIFDVPLDVLK
+>tr|A6CNV7|A6CNV7_9BACI
+MAVLVIFTAACGNNDGNGEGGETGSVEGSVVVDGSGTVYPFMAQMAENYMTENEEVSVEV
+SRAGTSAGFKKFLVEGGGTDFNNASRHIKEEEQAQADEFGIDVMEFQVALDGLTFVINPE
+NDWAAEMTQEEVVNIFLAEGGVTKWSDINPEWPDEEIKPMGPNENHGTNEFMFESIMEEK
+DFVDSVNLQQEYSTLVDLVSKDKNAIAFFGYGYYENNKDKLGAVAVDFGNGPVEPNLETI
+GLGDAPYAPFTRPVYTYLNANMAKEKAQVLDYAKFIMNNAQDVAAETGFAPLSDETIEEN
+LGKLEEIQ
+>tr|A6CR22|A6CR22_9BACI
+MEEKKKNNVGFNIIKSDPTDGHGGFGIGSLSLDNVSPVFVDIEEGEAFVDIGAMHARSVV
+EKRIKFTPNREDSEGGKPYWLVWVTVDRKEDGPYYAGVTACEMVVNTEKRRGYKSLPEHV
+NRMDKSIKRHIMVEDMDDRSKGILKDYLMNHDAGMWERSDDKLKEGLSV
+>tr|A6CRP0|A6CRP0_9BACI
+MTEIIRFLIGFFLIVGSFLTLVTAFGLIRLPDVYTRNHAASKSATLGVMCILLATFLFFF
+LEEGHFNSRLILGIIFIFITAPVAGHLISRAAYNSGVPLWEKSVRDDLKGKQKYEKKNM
+>tr|A6CHC9|A6CHC9_9BACI
+MDLLLELTGERVIPEKMDPLNGMLLEHLARYYFSVEYANGRVLDIASGTGYGTKIIAKAQ
+KSVLKEIVAVDNDEETLRYARAKHYHPLIHYKKLNAEDTELPQKLGQFDVILSFETLEHL
+SQEETFMNNLYTMLKPGGTLIISTPFGAGRGKPTNEHYHIHQLTENEFIRLFDLYDEKEF
+YYQRSVLLEPKREGKHYPFGIAVCKKKKHD
+>tr|A6CK52|A6CK52_9BACI
+MTMKKRSLSFSAVILLAVTMILAACGGGSGGGSGEGGETEVDFIGIATGGTGGTYYPLGG
+TFAKIISDEAGIESSASTSGASAENMASIKAGDIEIAFTQTDIASYATEGTEMFADNKVE
+NAQGIGTLYPETIQIVTTKGSGIESVEDLKGKVVSVGEAGSGTLLNATQILEVHGLSVDD
+LKARNLSFDDSTTGIQDGTIDAAFITSGTPTGAVEGLAATQDIVIIPVSADKADELIEKY
+PYYAKDTIKGGTYSKIDSDIETVAVRAMLVTRSEISEDVIYEVTKAIFENTDKISHAKGE
+LISAENALQGMGIELHPGAAKYFEEKGISQD
+>tr|A6CMX7|A6CMX7_9BACI
+MPSNEREKTPIPEDLGKLEKLMIETTGLNTSFDLGVRKLKILKKDVHFYYVNGLCDTQFI
+MRIVEDLVEVNDHERLSSKLYEIVQNRIPHQSVQPVTTVEEMVDEVLSGLIAFVVEGTQE
+ALIVDVRSYPGRQPQEPDTEKVVRGSRDGYVENIIVNTALTRRRIRDPRLRFEIFRIGER
+SKTDISIAYIEDVANPSLIKVIKKELKSIKIDGLTMADKTVEEFLVKQGYNPYPLVRYTE
+RADIGATHLLEGHVLIFVDTSPSVIITPTTFFHHMQHAEEYRQSPAVGTFVRWARYFGLL
+ASLFLLPLWYLFVLDPSLLPPQLEFIGPNEETNIPVIVQLLMADLGIEFLRLAAIHTPTP
+LSTAMGLIAAVLIGQIAIDVGLFVPEVILYVSVAAIGTFSTPSYELSVANKLFRVGLLLS
+VALFHIPGLMVGTTVLLLLLISIRSLNTPYLWPFIPFSPAAFIQIIIRRSMPGSKIRPSI
+VQPRNKYKQPVKSR
+>tr|A6CSR9|A6CSR9_9BACI
+MKKIEKGKADQYFKEKNRYIMLYLIVGFLSSFGVVLFAGSLKGLTINGYPFHYFMGAQGA
+IVIFIILLFVNAKVSDSIDKKYGIDESKNESLSYGKTLDH
+>tr|A6CTX2|A6CTX2_9BACI
+MGIDVDIIFKIAGVGIVVAFLHTILDQVGKKEYAQWVTLFGFIYILFMVASIVDDLFQKI
+KSVFLFQG
+>tr|A6CHE8|A6CHE8_9BACI
+MEGNWSFDLSMALITTVLVIILLMEGSSRIFKNKELS
+>tr|A6CH84|A6CH84_9BACI
+MISFVWAMDENGVIGFENKLPWRLPEDLKFFKETTMGHPIVMGRKTFESIGKPLPGRENI
+ILTRDISYEAEGCIIYHEIEEVLHYAEDKEVEVMVTGGSEVFKKFIPYADKLYVTRIYES
+FEGDTYFPELNWDEYKLISTKQGVQNEQNPYHYVFEVYEKVK
+>tr|A6CQ46|A6CQ46_9BACI
+MKVVLLAILTGFIVGFVFALFKLPIPAPPAFAGIAGIIGIYLGFKAFSWAQPMIESMMK
+>tr|A6CRV7|A6CRV7_9BACI
+MVCINNVCYEVVEEFRDGFNEEAFRARYSDILNKYDYILGDWGYGQLRLKGFFDDQNQKA
+TFDTKITTIKDYLYEYCNFGCPYFIIKKTKQ
+>tr|A6CM78|A6CM78_9BACI
+MERDRVTHSRTVSLLLSYQDIQIHTACCTALGKQWASKAAKGKMVYRAREAMGVKSSKRK
+NDVPRSDSEGHQKQQKEK
+>tr|A6CLR4|A6CLR4_9BACI
+MTIIILGRNTMRNKERGFPNQNNNKFEGEPRAKPEYASKRADGTINTHPQERMAASNQRE
+SDSV
+>tr|A6CMY6|A6CMY6_9BACI
+MVNYIWVGMTIIGLIFAAVNGKMQEVNEAIFQSANEAVTLCIGLVSILVFWLGIMRIAQD
+SGLLDKLSYLFRPIVKRLFPEVPADHPAMGYILSNMMANMFGLGNAATPLGIKAMEQLKE
+LNGGRDYASRSMITFLAINTSSLTIIPTTVIAIRMNYDSVSPTEIVGPTLVATFLSTVGA
+ILIDRYFYHRRIRNGVK
+>tr|A6CPH3|A6CPH3_9BACI
+MEGSSLARMEVEMKRVQEKLRNLELMILDLQDQTGRQRNPIQRTNNGANFSFLEAIDMEK
+LGKIALFITTLYNQEESEDGQEEE
+>tr|A6CMN8|A6CMN8_9BACI
+MMKTPLSRLLETNRKFLINYTKNGGTRSAVD
+>tr|A6CUF9|A6CUF9_9BACI
+MSHNEMTVYEHIGELRKRLMFVVVFFLLAFIGSFFLAEPLIRYLQHADEAKELTMNAFRL
+TDPLKIYLEMMVFISLIITSPLILFQLWSFISPGLLDRERKVTLSYIPISLLLFLGGLSF
+AYFILFPYVVKFMMNLSNELNIQQVIGINEYFHFLFQLTLPFGLLFQLPVVMLFLTRLGI
+ITPMFMAQMRRYAYFILLIIAAFITPPDIVSHLMVTVPLLLLYEISIWISK
+>tr|A6CT74|A6CT74_9BACI
+MENKQLHYEKIRSSKVDFFLAYEILTAELDHHILLESGRGGKYSIAGFNPVTIIDAKDNR
+VEIREKGKMESVNGDPLDVLYSLLQKRYKERDPSLPDFQGGAMGFISYDYARQIEKLGTS
+AQDDLKTPDLFYMVFNQWAVYDHETEAVWLMADEEGTDTFEAFLNEWKKALGQPLPEETG
+IESPLTVDRSVSMDEAEFISAVEKIQNYIKEGDVFQVNLSVRQSQKLAASPYAIYKKLRE
+LNPSPFMSYVHTPDFQIASGSPELLVKKKGKEVSTRPIAGTRSRGENEIEDQRLADELIH
+NEKERAEHVMLVDLERNDLGRVCQYGTVEVNEFMVIEKYSHVMHIVSNVRGTIANNKNGK
+DLIRSVFPGGTITGAPKVRTMEIIEELEPVRRGIYTGSIGWIGFNGDMELNIVIRTLFAK
+EGQAYIQAGAGVVIDSNPRHEYKESLKKAKAVWKAKELAEGALK
+>tr|A6CI71|A6CI71_9BACI
+MLTFDDGPGRALPEILDILEKEDVKAGFFWQSRLLHHQRPWKRALDSGHLIGTHSCNHKN
+LTRLSFEEQLADLSRSKEAISKVTGQNVTYFRPPFGQFNEDTIAAASELGMHTVMWRIAS
+MDWELKNDPDQIKTFIMDHLEDKAIILLHELPQTVKILPSLIRQIKQQGYHFQLLGS
+>tr|A6CJX1|A6CJX1_9BACI
+MEQIRLRKGKRNMKKTIYIIAGVFILIIILANVPKIMAYANLYSFDKNKEVTTEERVVSF
+DEISETLHQQRKLAQELEGTRKYSLIGDEVRKGLDEAIEHQMFLDNHPQVNSIKVKVPIT
+TYKDDNKTIEFISGEGEVLEILENGQWKKFNGS
+>tr|A6CK49|A6CK49_9BACI
+MKNIIVLCMLALLFATGNVSAKEPEPSSLKKRSLSIVIDDFGNNMEGTKEMLELPISLTV
+AVMPLMDTTKEDADLAHRLGHEVIVHMPMEPLKGKRSWLGPGAITTDLSNEEIRKRVEAA
+IDSVPFAVGMNHHMGSRASADERVMRVVLTVCKERGLYYLDSRTTPKSVIPELAEEIGVP
+LLENEMFFDDIYTTRHIVKQANRVVKRLEKDDEVIAIGHVGITGTKMVNVLREYIPVYLN
+EAKAVPLSELIPEFELVNERLE
+>tr|A6CP65|A6CP65_9BACI
+MNSFAFYNPTKLIFGKDEVEKLKEEIPQYGKKVLLVYGGGSIKRNGLYDQVTGLLKEMDA
+EVHELAGVEPNPRISTVRKGVEICKSEGIEFLLAVGGGSVIDCTKAVAAGAKYDGDAWDL
+VTKKAFAEEALPFGTVLTLAATGSEMNAGSVITNWETHEKYGWGSPAVFPKFSILDPQNT
+FTVPRDQTIYGMVDMMSHVFEQYFNNATNTPLQDRMCEATLRTVIETAPKLLDNLESYEH
+RETILYSGTIALNGMLQMGYRGDWASHNIEHAVSAVYDIPHAGGLAILFPNWMRHNIDVN
+PERFAQMAVRVFDVNPEGKSAKETGLEGIDKLSEFWSSIGAPSRLADYDITDEKVDEMTE
+KAMVNGEFGNFNSLKHEDVKAILQASL
+>tr|A6CQN9|A6CQN9_9BACI
+MGNKQQLLAAVKWLSAGGTAIGLMITFYSFFVSGITQEYMLSIGIGVMVGFMFIFGTMIF
+LPLIEEFTGKSRPEINGMFKNRI
+>tr|A6CJE3|A6CJE3_9BACI
+MWIKGRETMSIENEPNITRLNLDGKEFILIGTAHVSKKSAEQVKEVIEREQPDAVCVELD
+EPRYQSVMEGNKWKEMDIFKVIKEGKASLLLMNLAISSFQKRMAKQFGINAGQEMIQGIE
+SAKEVGAKLVLADRNIQITFARIWNQVGFIGKGKLLMQIIYSIFSNESITEEELERIKSQ
+DMLDAMLNDFTKHFPRLKKPLIDERDQYLSQKIKEAPGKKIVAVLGAAHVPGIKEEIKKE
+HDLKHLDERPPKSKVPKIIGWAIPVLILAVIAYTFISNPAAGIQQTISWVLWNGAFSALG
+AAVGLGHPLAILTAFVAAPITSLNPLLAAGWFAGFVQAYFRRPNVKDFENLPEDVLSVKG
+FWNNKVTRVLLIVVLANLGSTLGTLIGGADVVRLFLENL
+>tr|A6CP35|A6CP35_9BACI
+MSVRIEVNNKQLIKRYATSSEIIYFAGYVYYGNTLFTGKSIIELIQQKATDDFEKVLQEI
+RGEFVLIIERGEQVVAAVDRKRSIPLYFYQKNDQWIVTDKVSSLYKGELVDTAVTEFIIT
+GVTTNDKTLFKGVKQVEAGCYIKNETDNLKMYRYYSFYHSPIEKDLISLSEEFESVLIEV
+FKDLGERTKNKKIVLPLSGGYDSRIIALLLKKFGNDNIIAFTYGKRQNKEAGISEGIAHG
+LNIPWEFYEYKKEDWYSWYNSDQWQKYVDFAVNGSNLAHLQDWPAVTKLVENHPEDLVFI
+PGHSGDFVAGSHLPYEITEDRNFSMDDVISFILKKHYKLWDIGSIAEKRPDLINEIRESI
+QHLPYKSNEEASASFEYWDWKERQAKFIINSLRVYEFYQQNWEIPLWDDRIMDFFKKVPV
+SLRFNKYLYDYTLHRMFPDYFDMPQKLSGKEASLSQKYGKLYGVGKKVYQKKKLWQQYYK
+DPMEWYGIFPDYKSYILALRFRINGLTYKNPYNINSFLVKDYILKNRRVFLK
+>tr|A6CJG0|A6CJG0_9BACI
+MKIISVTRILDDMGRIVIPEEARKALDIGSEIFLTINKKKHLIHLRKSGKGKKVTLDDSG
+RLTLPAKYLQQQNWETGSEIGLHIEGEKGTLQEQAPTCVICGSNQSLLKVKKTLICDDCN
+QEGNDALVRKWEDVLQTLLKKYKHYCDQAINSGDTESIHKSRTKGRRLRTLIHFIGVDKD
+HPLYKRLKDAHDALGKVREDDVFIHSFEKRAEMDQYGDVYHEFVKVARQDREKHLKKLKK
+KLPKAINDEFLSLFNNFLQDELKNKLLTLDIPGELQKQEDDFKALVKEYHQVIGDKGKTS
+DVGIDALHEVRKKAKKLRYIYNYLDKLYSKDYKSYSKPYKRIQKKFGEIIDIRDWLEEVK
+SLKPDVDSNKDDIKKIIKQLEQEKKKLVNEVEL
+>tr|A6CNI0|A6CNI0_9BACI
+MAVISYIDAVTMAIREEMERDDKVFVLGEDVGKKGGVFGATRGLYDQFGEDRVLDTPLAE
+SAIAGVGIGAAMYGMRPIAEMQFADFIMPAVNQIISEAARIRYRSNNDWSCPMVIRAPYG
+GGVHGALYHSQSVEAVFANQPGLKIVMPSTPYDVKGLLKAAIRDEDPVMFFEHKRAYRLI
+KGEVPDDDYVLPIGKADVKREGEDLTVITYGLCVHFAQQAAERLAEDGIEAEILDLRTIY
+PLDKEAIIEAASKTGKVLLLTEDNKEGSIMGEVAAIISENCLFDLDAPIMRLAGPDVPAM
+PYSPTMEKYFMVNPDKVEKAMRELAEF
+>tr|A6CPC3|A6CPC3_9BACI
+MELNNELTPYQAGDVVYVIYRNPHTQSVANVQEAAVVHNPEDPSQLALFLYETYYPLNDE
+IAVYQTADQAEQAYMSYFGEV
+>tr|A6CR67|A6CR67_9BACI
+MFQGIMEVSVYGKVREISMMKHWNKIQPVDRYTVCLNGIIQEYERKAVTFLYQPLIGPVC
+YSLYMTLLNEVEEYRLNSEQSSHYHLMNFLSSNLPDIYEARLKLEGIGLLKTYVKQDGDP
+REFIYEIQPPLSPQQFFTDGMLNVYLFRKIGKTHFNRLKKFFCDEEVDFSQHQEITRSFQ
+DVYSSSQSINLLDEEAENASSLDAREKFTDPRNSAGVPVDTIDFDFDLLLAGLSQSMVPR
+RAFTPHVKETVSKLSCLYSIDPLQMKNVVLSALTEDDEINIEELRKAARDWYQLQHAGDP
+LPDLQPKISKSAPPPKKQPASKEEELIEYLETTSPKEVLKDISGGIEPASSDLKAIEEVM
+ISKKLSTGVTNVLLQYVLLKTDMKLTKGYLEKIASHWVRKKVSTAQEAMELAKKEHRQYL
+DWAEGKKETPKKSYKKTPVRTEKLPDWFDEKPASKEENDPAQSSSDFEEQKRKLEEKLKK
+YRK
+>tr|A6CJ09|A6CJ09_9BACI
+MEYAKNGQKEKALQELDEALLLDTDNFLIRKQRWYIRYPEKFSPTIDIEWQQQQLEKEKA
+EEAQKKNDIDCGPEGCVIPGTDNSGE
+>tr|A6CNU1|A6CNU1_9BACI
+MWGNPPARESIIFFPLNETAQYKSANTLLTLNDKKVNDFYEVNWKISSVLDQDAYLRQDI
+GFLYFNGRLKARMSEWEQNTDRIVEEETAEGKESSLLQAISFHYSEIHEDDENYTSAQSM
+SEDELYVIDSNFSPLSSFRKPDTSAEAEWKSILDRVTSQQLQYNWERAMKEFNIDSEGYL
+QIPLIDLPEYSSSPPEGLQAEQWNRIVGNLWEGLYKNYFLGIKTNSGKIVDPTDSSMPLI
+LIGPKTGNLLVLLTTKEGEPALLQQKFPVQ
+>tr|A6CRQ1|A6CRQ1_9BACI
+MPIIMLDPGHGGTDPGATGNNLQEKQLTLTIALKVQKLLEDQYIADARLTRESDVYVGLS
+ERADTANRLGADYFVSLHHNAGGGTGFESFIYPGTSATETGRRQDVMHAELMNFYSHYGI
+RDRGKKEANFAVLRETAMPAILLENLFIDSAADAQHLKDPQFIEGLSQAIALGIAKALNL
+QS
+>tr|A6CT14|A6CT14_9BACI
+MANIAVIYYSSTGTNYQLAQWAEAAAKEAGAEVKLLRVEEIAPQAAISSNPAWEQHLENT
+KDVPVATNDDLEWADGIIFSVPTRFGNVPGQVKQFFDGTGGLWAQGKLANKVVSAMSSAA
+NSHGGQEQTILALYTSMMHWGAILAAPGYTDPALFAAGGNPYGTSVTVDQDGNMVEDVEE
+AVKHQAKRTVAVTEAVKNGLK
+>tr|A6CIB4|A6CIB4_9BACI
+MFPSKRVQRKITAYAFVFKSMGIINVEEMKKLTDHSPK
+>tr|A6CJD8|A6CJD8_9BACI
+MKNLTILLIKFVASLVVFWISLDLFFEATIVDIVSFALLITIVSYFVGDRILLPRVGKLN
+TVVTDFFLTYLIVWIFGGILFESYLQVAWGSIISAALIAGSEVFVHSYILKNIPSETRKT
+SPAFNQRLAYEFSEEIDPEPEKE
+>tr|A6CQV7|A6CQV7_9BACI
+MSRLLDVKDLHVSFTTYGGEVKAVRGVDFHLDKGETLAIVGESGSGKSVTTKAIMRLIPN
+PPGFIKNGEMNFEGRDLAKLSEREMQKIRGKDISMIFQDPMTSLNPTMTVGKQIMEPLLK
+HQNMSKSEAKKRTIELLKLVGLPNPEGRIKQYPHQFSGGQRQRVVIAIALACNPKILIAD
+EPTTALDVTIQAQILELMKDLQNKIETSIIFITHDLGVVANVADRVAVMYGGQIVESGTV
+DEIFYDPRHPYTWGLVASMPTLETETAQQLKAIPGTPPDLMNPPKGDAFALRSEYALKID
+FEQEPPTYKVSDTHFVKSWLLHPNAPKVEPPEAVKLRQRNMPSNYDEPVLFEEVRS
+>tr|A6CPP0|A6CPP0_9BACI
+MNITQFTEKLSEKGINLTSKQLAQFAEYYETLVEWNNKMNLTAITDKEEVYLKHFYDSIT
+AAFYLDFNREIRVCDVGAGAGFPSIPLKICFPQIEVSIVDSLNKRITFLNHLSDKLGLEG
+THFYHDRAETFARNPEHREQYDLVTARAVARMSVLSELCLPLVKNNGTFAAMKAASASDE
+MNVAKKAITTLGGKLKEVHSFQLPLEESERNIIVIQKEKPTPKKYPRKPGTPNKLPLE
+>tr|A6CP04|A6CP04_9BACI
+MAFEKELGKKHEVTLSAVSDILFCTARNSKMTIQKWENEGWVHWSPGRGRGNKSTLTFLK
+EPGDLLFNESKVLVQKGKLKAAQEKISSYSGELPGLKEKFEVWLETLFGYNTESENNQHR
+DVLRMKYGKQPFTPLDPMLASLRSECHILKHVCDTLVSYNEEKNLFEPRLSFHWEHNEEG
+DQWTFYIRKGVKFHDGKRLTAEDIQFTFIRFLSFEKNPYRWMLEDLEEAVIVNEQSIMLK
+LKRPNFLLLHILSDEHLSIVSKDEQKEFYAETLIGTGPFKLVRNDGSMLIMEANDHYFRE
+RPFLDAVEFWNVPEEREDRTPGKTEVEFGYSRDRSGEGKKRKRDKRVEKNVQFLSLNAKN
+EVMRDPFLRQALKAIADPSVLVGELGEFRQETADGFLNRPSDSGTADIKNLLKKSKYNGE
+ELRLYTFQDRDHLEDADWLKQRALKFGVILKNIFLPAEELLKEETMEEADIIHDSATITE
+QEELSFLQLIFAKANPVWHHLPGELKDSIMTEVNHLKGISNPQERMKRLYSIEEMLLNSC
+QVLPLYKNMSEMESDESIQQALINSQGWIDFYRIWFKRK
+>tr|A6CQQ3|A6CQQ3_9BACI
+MEIQHLVGGYTRKPVLKDISFSIDSNEIVGLIGLNGAGKSTTIKHIIGLMEPKQGDIKIN
+GLQLKGDTDEYRKQFAYIPETPILYDELTLEEHMRLTAMAYGVPEAEYKKRAEGLLKEFR
+MEKRLGWFPSHFSKGMKQKVMIMCAFLVEPSLYIIDEPFVGLDPLAIQSLLNSMEEMKKN
+GAGILMSTHILATAERYCDSFIILHEGQIRAKGTLQELQQEFGMPHATLDDIYIELTKEE
+VEQ
+>tr|A6CNB5|A6CNB5_9BACI
+MYQRLISWVEDIKNKNCSSGAALLIIADNQTVLEYYSGRQSNTPDALPVTSRTRFNIASA
+RKSYLGFAVAYAVYEGKIKSLDDAAVDYFPDWNRELLEAVTIRHLITHSHGLNVTEDGTP
+YREFPPGEDWAYRGINILMMTELIERLYGKSFPELLKERVFDPLGLNETGWEVTPRESLA
+EVIVNPAQKAISSLGTTTNGTESNLFVSARELAIWGNLHLNMGKAADGKQIVPAEVIKLA
+TTIQSPPYKKKALFA
+>tr|A6CUI1|A6CUI1_9BACI
+KRYILAPKTLQVGMEVTSGPEADIKVGNALPLINIPVGTVVHNIELKPGKGGQLVRSAGT
+SAQVLGKEGKYVLVRLNSGEVRMILSSCRATVGQVGNEQHELINIGKAGRSRWLGKRPTV
+RGSVMNPNDHPHGGGEGRAPIGRKSPMSPWGKPTLGFKTRKKKSKSDKFIVRRRKK
+>tr|A6CHD3|A6CHD3_9BACI
+MKGGSNMGTPYRCPNCKTNRSRFNIIQQVSQSVKLDPQSGDVVQQYDQSTIDPFHIPYKG
+PEYKVQCGACGLVEDERTFKKFGES
+>tr|A6CI26|A6CI26_9BACI
+MAMKPKKRSKLRIQLGTAYYRAKRYMEWTTSTETFAKNQHKELLPSTAFKHQSLLLRKLK
+DVEMWYQYNKIINLKIAVKALDGIVIEPGETFSYWKLLGNTTKRKGYVDAMILHYGSFKP
+GIGGGLCQLSNLIYWMTLHTPLTVTERHRHSYDVFPDSNRTQPFGSGATCAYNYLDLQIK
+NTTDAPYQLHVYLNDTHLVGEWRTIHKPLQSYEVYEKDHLITYEHWGGYIRHNRLHRKVF
+SSQRTLIDDQYITENHALMMYEPLLEQKEDVVN
+>tr|A6CIP3|A6CIP3_9BACI
+MEAAMRSKQRNVGDDYIRNKAALILAVVLFAICVYLFFPYPDY
+>tr|A6CHC2|A6CHC2_9BACI
+MNSLHELAKKLTMFMHILGEEKKAKVWTLVNDKKP
+>tr|A6CT32|A6CT32_9BACI
+MKKKYLWFLLLIIPAIPYLLWLIKEETPLHVVILDKTVPEEDYREHSGLTWLLNHWKVVD
+PRDGTPYQLTDYAGWHPENGKEEKIEELDFSPGKPDLIYIADTYGVYPEQAENSERGNAP
+IYGGLTQDEVYQIDQALKENSSTLLTEFNTLASPTEDKAKKAMYDLLGIEWSGWIGRYFN
+ELDPNENSEIPNWIIDSYQIHSSTWTFSGPGFVFSHEDGRLFILEEKDHFKEKGLWIEYS
+EKGSDLFGIDHSPAYGYWFDIIQTTSAQVLGSYHMDLTQEGRDVIQKFGISESFPAVTRL
+QQEQSKRYYFAGDFVDTGSTPAMHRYIGLDSIQKMFAFDKKNRPQTFYWRAYVPMMEAIL
+SEAKEVGSGETNQAEETEAMPAMVKDNQYLVKKDGKWQPITIKGVNMGIAKPGYFPGETA
+ISRDEYYRWFEMIHEMNANTIRIYTLHPPEFYQALKQFNDEHKENPIFLFHGVWIDEAPL
+EETLDAFSPENTDPFTEEMKRIVNVIHGNANVSEKPGHASGIYSADISDYVIGWILGIEW
+YPYMVENTNKVHAGKGEYDGNFTYTDGATPFENWLAGMMDTILTYDEENYGTTRPVSFTN
+WVTTDLLDHPSEPLEQEDLVSVNPNVIYLKGDQTAGQFASYHVYPYYPDFLNLEEKYLNY
+TDHRGSKNSYAGYLHDLHEAHRLPVLIAEFGVPASRGMTHENPFGWNQGFHNEEEQGRIN
+ASLFEDILQQEMLGGLVFTWQDEWFKRTWNTLELDNPDRRPYWSNAQTNEQQFGLLSFDR
+HKVKLDGDAADWADTKALYSAGEQSQLQSLKMAHDERYLYLNLQMSKSAIEDWEKKDLLF
+LFDNGKAGGNTVSSINSEFAVAGIDFVLHVNGKQNARLLADSYYDPFYFQYSEQLSFLEK
+EPYHGTQDSGIFHPIRLALNKPITIPSTGETLPFNYYETGTFRYGIGNPEDPAYDALSDF
+YVDEKEGIIEVRIPWLMLNFRDPGQTEIIGDLWKEGMTASSATAGVSISVLSVSGIDRQS
+GSLELNSLNVSDKLPASGNSMKMYSWESWDLPQSEERLKKSYYILKELYGKYQ
+>tr|A6CHQ1|A6CHQ1_9BACI
+MRKRRQSKCSGYILQFLSFWFSFTLFTTITRKNLTPRSADLQKMRTMPMHKVWQKLTVIV
+TAVEARFNTSQIGILLTGSAFESKT
+>tr|A6CI91|A6CI91_9BACI
+MAVLKTRNLTKKFGEFTALNGVDIEVNQGEVFGFIGPNGAGKSTTIRILLGALKASNGEA
+TIFGKDAWKDAVDIHKRIAYVPGDVNLWPNLTGGEVIDLFMKLRDVVNKEKREMLIEKFN
+LDPTKKCRTYSKGNRQKVALVAAFASDADLYILDEPTSGLDPLMERVFQECVGEVKAEGK
+SVLLSSHILSEVEKLCDRVGIIRQGQIIETGTLTELRHLTRTHLLLETIRPLDSLDQVAG
+VHDIKKNGEEVSFQADSEELDNVIRFVSGFGIKRLESAPPTLEDLFMRHYDADRTVTVSG
+AGGES
+>tr|A6CQM0|A6CQM0_9BACI
+MMKFKKMITAAAAALVIAPVFAFTPPASANTDSHTEAHHHSLQRDKSLPDISTSLSVRTG
+NGTIEAGDRGITSSHVDHTEAFINRVALPAIKKNFAQLAHSVPQVNNPSYKVILFSHKNT
+YRNALVNAGVPTSDINNLVENTGGITDGTKIWIPLYAFNNRAEYAHYLAHEITHTVLHQA
+GLEAKLPVWLQEGISVYNGFTAHAELDPEGARELVVKLKESLRAHKLSGGVFSLQAGQEE
+LLNAEYNVEALYSMAVNKLIKHRGVEGINKLLINLQSHGIVTSFQSAYGHSIYDFESSFL
+NRVNGSKDYLEQDLVNYYDDTQEVDLIIFNPGWRVSW
+>tr|A6CN90|A6CN90_9BACI
+MLKKLGQKLKDQRGLTLIELLAVVVILGIIAAIAIPSIGGLINNSKKDAHIANAQQMVSA
+ARLAVTSTDVGSDGEEYSLEELIDGGYLEDVDNPSGDAYDIVNSNVTVSRDDNNNYTYSV
+TLIGDDDAQYFATGDPDDLTRADIELDGI
+>tr|A6CIU5|A6CIU5_9BACI
+MTIPCSSTDDRGVIALFVCLSYKRKGDDEIMKKTWNQLFVRHGWLLAEKEENIFDCSNET
+EGNIEFLMKSLESLQVSFSIFNRELIINSNQITEREWIEAIDYEGRGRVEGLWFRPGADQ
+PKIGELDTYISGIVRQLNRLGFHTMGSCDGHGEERHILWSRRKKILKSWPVYYWHLETKE
+SIGENNGTATIYHFTWTVHNF
+>tr|A6CPX5|A6CPX5_9BACI
+MKKERSASKEARNMDKAAVRERIARRAEKEINDGDYVNLGIGMPTLVANYISENKHVVLQ
+SENGLLGIGPYPDESKVDADLINAGKETVTAIAGASYFDSAESFAMIRGGHVDVAILGGM
+EVSKNGDLANWMIPGKMIKGMGGAMDLVHGARKIIVIMDHVSKNGSPKIVSDCSLPLTGK
+RVVDRIITERAVIDVTENGLKLVEVFEGFTVEDIVASTGTELDVSEVN
+>tr|A6CR21|A6CR21_9BACI
+MDFLAFNLEELPFVVIALILAFTFHEYAHAYVAHKFGDDTAKDQGRLTLNPIQHLDPIGT
+LFILIAGFGWARPVPVNRFNFKNPKLAGVLVSVAGPLSNFLIAFIAYGVFYFVITFGFGV
+AIPQFFIELFNMIVYLNILLFIFNLLPFPPLDGYRIIEDLSPPHLRAKMSQYEQYGVLLF
+IILVITPLDRYTIWPVINGGMSAVGQAFNTIYYGIFSLFS
+>tr|A6CMU5|A6CMU5_9BACI
+MQFSALPLTIKVGNLCYIWKGWFSMAKAQIKVNDNGSLKVTGDVELVDAEGNVVPTKSVF
+SLCRCGLSSRMPFCDASHKGKFESCVRAEKVLDDKE
+>tr|A6CT33|A6CT33_9BACI
+MFYWIMSNIFYFTGILLILYMLIVFTFYLFIFLVSALELRRRLGMETAQHEELLYSYDTK
+PVTILVPAFNEQMGIVQSVRSLLSMNYPEYEIVVINDGSKDMTLEVMIEQFSMEKIPLVI
+RKSLDTKEIKAVYRSRVYKHLYLVDKENGGKADALNAGINVSKFPYFCTLDGDSILERDA
+FLQVMKPIIDSNGEVIAVGGSVRIANGCKIERGEVVEVGLSRRPIVIMQVIEYLRAFLMG
+RIGLSKFNILLIVSGAFGIFHKDWVLKAGGYNRHTVGEDMELVVRLHRLLKDEKSTNRIE
+YIPDPVCWTEAPESIRVLQRQRSRWQRGLLETLFIHKGMLLNPRYKSVGLISLPYFLLIE
+LLGAVVEFAGYVIIIMGITFSLISWKMAILLFCLSLLYGSFLSMCGVLLEEWSLRRYPKV
+KDIVKLFFMALSETFWYRPMTTYFRVQGLLQSLTKKHQWGDMERKGVSS
+>tr|A6CHU8|A6CHU8_9BACI
+MKKIHILLLALLLSIGIIAGCGNNGATNENTANESQQGQSEEQVQEQEGTSFPVTITDAA
+DNEVVIEEEPEKIVSLIPSNTEIAFELGLGEKVVGVSDFDNYPPEAAEKEKIGGMEFNVE
+KIISLTPDLVLAHGSVMGSAEEGLQQLRDAGITVLVVNDATSFEEVYTSIEMVGKAAGAH
+EQAAETIQQMKDDLQAVKDKAAEVSEDERKSVFVEVSPSPEIYTPGSNTFMDEMLDLINA
+KNAAEEQEGWVQMNEEAILALNPDVIITTYGYYTENPKELVMSREGWGDVPAIKNENVYD
+VHSDLVTRTGPRLVQGVEELAKAVYPELFQ
+>tr|A6CMV2|A6CMV2_9BACI
+MKQVNTSFEEAIADIQDGATLMVGGFGLCGIPENLILALVDKGVKDLTVISNNCGVDDWG
+LGLLLRNKQIKKMVGSYVGENKEFERQVLSGEIEVELVPQGTLAEKIRAGGAGIPAFYTP
+AGVGTPIAEGKETRMFNGKEYLLEEAYTADFSLVRAWKGDKMGNLIYNKTARNFNPMIAA
+AGKVTIAEIEELVETGELNPNEIHTPSIYVQRIIQAQQEKRIERRTVSK
+>tr|A6CQP8|A6CQP8_9BACI
+MLVELTALHWLYLAFIGLIILFMVFRRDTTIVCIAGIFLIALLANGSLTSSVSSVFNSFI
+FAITELLSTILVISIIVGMSKSLTKTGINDVMISPFAKLIKTPALAYWTIGIVMMLISWF
+FWPSPAVALLGAVLVPVALRVGLPALGIAMAMNLFGHGIALSGDFVIQAAPKLTSDAAGL
+QVSEVIQASIPLVAVMGIVTTVTAFLFLKRDMKKGILVVEESELQDVAKEEGPELLSHSA
+KKFFALMIPVLFALNILAMFLFDLQGGDATALIGGTSIFILLIISLSGYKAKGLEQTTSF
+IIEGFQFGFKVFGPVIPIAAFFYLGDSGFTAIIGEGFLPDASSGIVNDLGGALAAVVPLS
+KAVGAVTLTTVGAITGLDGSGFSGISLAGSVALLFSDSIGSGAATLTALGQISAIWVGGG
+TLVPWALIPAAAICNVDPFELARRNLAPVIIGLIATTIFAMFLI
+>tr|A6CJ79|A6CJ79_9BACI
+MKGYIRKKKSIRKGSHEMIIRENNDSFIMITQHDHAFLSGEITRQLNRSLLKSDSYFNDA
+VYAAREHDRGWIGLDETPIWNDQADAPYTFSDYPLLPKLAFYKIGLHEIESMNPYAALLC
+SMHFCSFFSQSKDPDGIHFIHEETKRQKKIKQNTPELDQQLLHQHFALLQFSDNLSLYLC
+LNDPGVEKQDEHPWFRNGFKNTQLFHPKQKLLKAHWKSQDEVIIESFPFMKDFELALPYK
+KVSKNFKKELGIAEAYKKAEAVQKTIIISEA
+>tr|A6CPG9|A6CPG9_9BACI
+MPASEVVQYFIVNKELNMSAGKIAAQTAHAATISTIDLLSDRSSFANFREDFIEWYQAGM
+TKIVLRGKQKDLEKLAEQGFYSIRDSGRTEIASGSLTVVALPPMPKSQAKEKVGHLSLFK
+>tr|A6CPR2|A6CPR2_9BACI
+MAQKTVVLDQPAIRRALTRIAHEIIERNKGIQDCVLVGIKTRGIHLAKRLANRIEEIEGA
+KMPVGEIDITLYRDDLTVKTANEEPEVKGSDLPVDVTDKKVILIDDVLFTGRTVRAALDA
+LMDVGRPSNIQLAVLVDRGHRELPIRADFVGKNIPTSSSEKIVVELTEVDDEDQVTIHDN
+>tr|A6CT50|A6CT50_9BACI
+MELEQMEMDARNSTEAALHHYKHGLGLFTQKMPELAHHYNAFTEQCFKEGVLSQKEKQLI
+ALGISLYSQDEYCIIYHTKGCIDQGCSEEEILEAVGVTAAFGGGAAMSQAVTLVQESIVE
+LNQMKQ
+>tr|A6CM68|A6CM68_9BACI
+MKVLFVVSECVPFIKSGGLADVAGSLPKELKSLGTDVRVILPKYQTIAQPYKDRMEKVCE
+FSVSLGWREQYCGIESLELDGVTFYFVDNEYYFKRDGLYGYWDDGERFSYFTKSVLESLS
+HLDFYPDILHCHDWHTAMIPFLLRTQYQWRKGYSFIRSIFTIHNLQFQGVFPKEVMTGLL
+GIEESYFHPEQLEFYGNINFMKAGLISSDYITTVSPTYRDEILTAYYGEKLEGVLRGRAG
+SLQGILNGIDDSYYSPDAGGDIAPYTKEDPTGKQVNKKRLQQKFGLDQNPDVPVLSIVSR
+LTKQKGLDLVKRVFHEMMQENLQFIILGTGDHEFEQFFKEMAHAYPDKLRVHIGFDEDLA
+KQIYAGADLFLMPSRFEPCGLGQMIALRYGTLPLVRETGGLNDTVLSYNEKTKEGHGFSF
+RNFNAHDMLYTLNRALAFYHNDRETWNKIVREAMGIDCGWAQSAFKYNQLYAKISSRSES
+HVF
+>tr|A6CSJ2|A6CSJ2_9BACI
+MDADACPVKEEITDISKVFGLKVIFIASNAHRKNTPEAGEWVYVDSSKEAADLYIMNHIK
+KGDLLVTQDIGLASIVLPKGVYAISPRGKEFREETISTALDFRYLSAKERRKGKFGKGPK
+PYTAEDRDRFVFTFKKILSNFAGNQ
+>tr|A6CJC1|A6CJC1_9BACI
+MIQLRDNEDKPQPNTYPKENPPSFPPFEFIQKNPEFQPKKRNAEDVGYLQANAKDKKYLP
+QNEIYRQPDLTETIRREIKNQLYSGLLREVSITISKELAGMTQEKLAEEIQKKLKDLPFN
+INLNLNIHQQQNPEQISVGHVNHGAVAIKDSNAVDNPVNSSVAQAHSNASDNPKNSSVAQ
+EHSASSDNPSNSAVALDKSKASDNPSNSAVAMEKSNASDNPSESPVAQEQSNSSDNPDFS
+TINQVDPNK
+>tr|A6CPW9|A6CPW9_9BACI
+MPPWYFSFKLPLNKALFFIFFKGSFLKLCCYLIDIIHTKYLSKQGRNEPLSFPCSERRNL
+VTRDFSGSNNLYENILFKKNSVINSRKELLSLFGENPSLKIFRNKNLYENKKRYTPLTAK
+SGGEYTDLFVIID
+>tr|A6CKP5|A6CKP5_9BACI
+MKLPTSLWLKILLKKGFFLNFVANYYKFQNNIVIIHRTKTAK
+>tr|A6CP57|A6CP57_9BACI
+MSVDESKGKISLSIRATQEAPAEEPKAAAAAKKPKRRQGSVKSAPAAETAPTGFNTLKDK
+LEEWIEQSEREDLIKK
+>tr|A6CSQ9|A6CSQ9_9BACI
+MQEHLKPQAKAWGDKLKLVILELPRNVVVDRMGKVVDRTLRLVDRLQNPLIASANSSVE
+>tr|A6CIH0|A6CIH0_9BACI
+MQFSLTILMVLTAMSSGMPEDTRVTTELQTREVVIEEKTLNQSWSEEESKHQYNVQFNER
+GFYQVAHVFSETEYGSSKETQIYFDNGDEQYLVSRHEFTKENILPSKFEDKYVEELDELP
+FINE
+>tr|A6CN43|A6CN43_9BACI
+MTVKVEKLKVNYKTLEEFKKFREYGVQELSMFEDLESNIIENNSESPFYGIYFGDTLIAR
+MSLYERDSRYDLYFDPPQNYLELWKLEVLPAYQGKGYGKVLVDFAKSFNMAIKTNPRIQS
+HGFWERMGFEKVTYDMERDLGQNPLIWLPEGVSEQKH
+>tr|A6CM35|A6CM35_9BACI
+MHLFFCFILSRTEGGFIMIEFKNVSLVYPNGTEGLKNINVKINEGEFVVIVGLSGAGKST
+FIRSINRLVTPTKGELLVDDQNILKYSGGDLRKLRTKVGMIFQNYNLVKRSNVLKNVMAG
+RLGYTGTLRSIFNLFKKDDLALAYESLKRVNIEEKLYNRADELSGGQQQRVSIARVLTQK
+PKYILADEPVASLDPPTSHQVMTYLKKINKEDKITTIVNLHFIDMAMEYADRIIGMRAGE
+VVFDGPVSEVSEKTFEEIYGRAIREDDLRGGVEE
+>tr|A6CKC7|A6CKC7_9BACI
+MSKNKGFYIIALLIIGGFALILTSYIKDQPFRDIAWQYVEENNWEQEGVGKWASTVTPTI
+AGNDYSHHLYDPSFGGMEIYKVESFGGDGANGVPAILISKETNEVVGIIPTE
+>tr|A6CP23|A6CP23_9BACI
+MIQSRDRGEEMEEQFPIKRIIDNDGTLLGDKDPGITEQLAKEFYRHMVRIRTFDKKAISL
+QRQGRIGTYAPFEGQEASQVGSSAALKEDDWMFPSYRDHGAAMTFGHSLRNILLFWKGRN
+EGCVPPQGKKIFPPGIPIATQLPHAAGAAYAEMRKGTKNAAIVYFGDGATSEGDFHEGLN
+VASVLNAPVVFFNQNNGFAISVPIKKQMKTKTIAQKALAYDIPGVRIDGNDIFAVYFETL
+KALERARNGEGPTLIEAVTWRYGAHTTADDPTKYRDQSESDERRKLGDPIARLQRYMERQ
+GWWDQEWADSVQKEYTAEMDQAVEELESYPEADPKVIFDYVFEKPTWTISEQKDLLLQQL
+RGEG
+>tr|A6CRK9|A6CRK9_9BACI
+MGAVRGKVNSFAAGTNIYCDNRFEKEGVEGVDGIIFGFFALSAMLFFGMIHYFMATQKSG
+MYPPKNILRRRAGVLGSGGVIALLLGILLWLAVK
+>tr|A6CJ17|A6CJ17_9BACI
+MKEIYEDAIKPMLPKHFDQNEWFTIAITILVIASVYYITVKSRKLLWSQIICISLLNMQL
+TTVGDYFFAMPPYDFYDTVDRNSGELADIILQNIVYPGTILYFMHLYKRVLNSKLLFILL
+CVGMLTVFEAVSVHLFNLFTYKSWKLAYSIGFYAFVMILNVVFYEKLNAFLEKRIGKEQG
+DGFIIRE
+>tr|A6CNJ8|A6CNJ8_9BACI
+MDIYEKINELYDRRREVELGGGDKRIEKQHEKGKLTARERIDILVDKGSFVELNPFIEHR
+STDFGLDEMKGPGDGVVTGYGKVNGRPIYLFSQDFTVFGGALGEMHAKKIAHVMDLAVKN
+GAPFIGLNDSGGARIQEGVVSLDGYGHIFYRNSIYSGVIPQISVIMGPCAGGAVYSPAIT
+DFVFMVDKTSQMFITGPKVIETVTGEKISSEDLGGSKVHNTISGNAHFRGETEEEVLHSV
+RELLSYLPQNNEEKPPMLKADEEDDYRPDLTDIIPFDAIRPYDV
+>tr|A6CUI6|A6CUI6_9BACI
+MIATTLIGAVYLFGPEKAESTEQPAEAAKTKELTEEEMIQQLASKGYVVHTEEEWNNQKA
+AANNEKNRRQFSAGTRKVQ
+>tr|A6CN96|A6CN96_9BACI
+MKWYLPILRKKGKVYELSNLILASGSPRRKELLQQIQLSFSIEVSNADETFSSDLPPHEV
+VMELSKRKAVSVAARHPEAFVIGSDTVVVYGNEILGKPSGAEHAKEMLRTLSGKTHSVYT
+GVAIVNNENEKMFYKKTDVTFWELTEEEIETYAASGEPLDKAGGYGIQGLGALLVKEIHG
+DYFSVVGLPISQVYRSLKEMGCHP
+>tr|A6CSK4|A6CSK4_9BACI
+TQKKREEAAEEVPNQYTRQPEVVENRVSLINSIFDVIKETGKDKTPATEGQTGDAEVEEP
+VKELSIDEKLAELKAQLTKNGNVRDSITQSIPDSVFKTLLSLSDDELNRVNTVVVTQIET
+TMSDKIYEEDLFSVNERLDTRLRALNLPAPMIDAAITLSRFAITPTEIFDKELTEQKKQE
+AMKEVKSEEIIEGEVIVQQGQMITHEDYRQLELLGLLSTETPKKPFIGLGIFVVLAIGAI
+YYHFHNWDLPEERKQNRLILLSLIFVISLILMKITALMKELDLDRIGFLFPAALAGMLIR
+IMLNERIAMLMVMILAACGSIVFHYEITGAIDIEMAIYIMFSGLAGVLFLSSRKNRANIL
+QAGLFVSLVNVLIILFLLFLRGVTYTNLEYTYFVIYGFVSGIGSAVLTIGFLPFFEAGFG
+ILSAMRLVELSNPNHPLLKKLLTEAPGTYHHSVMVANLAETACESIGANGLLARVGCYYH
+DVGKTVRPRYFIENQMNAGNPHDHLPPERSRDIIIEHAADGAEMLRKYKLPKEFIDIAEQ
+HHGTTLLKYFYYKASEENEEIDEDSYRYPGPKPQTKETAVIGIADSVEAAVRSMKSPTTD
+EIKKLVDNIVKDRLQDGQFNECDITLKELDIVKKTLCETLNGIFHSRIEYPETKRKELAH
+ES
+>tr|A6CT27|A6CT27_9BACI
+VKIKVHFHGDTGEILGAQIIGGEGVDKRIDVIAASINGNITADRLQEIETAYSPPYSSPK
+DLLNIIGYKAENLLKDKSVD
+>tr|A6CQK0|A6CQK0_9BACI
+MIQVKVFDYEHEKDLERDMNRFLKSVDENSVVDIKYHVAAMPEEDDEEQIYCFSAMIVYK
+K
+>tr|A6CQX9|A6CQX9_9BACI
+MSYQQFAYIYDYLMKDVPYDSWVEFVQAQAEHYSVEGKGLLDIGCGTGELSLRLLKQGYS
+VTGIDLSEDMLFIAREKAESEGLDLPLFQQDMSELEGLGQFDIITVFCDSLNYLDSEEKV
+FNTFKKVKEHLDDQGIFLFDVHSIFKVSQIFLNETFTYNDDEVSYIWDCFPGEEPNSVDH
+ELTFFVRDDETGQYDRIEEVHHQRTFPVLTLENWLNEAGFEVLSVTADFTEVSPGDQSER
+IFFTCKKK
+>tr|A6CJ29|A6CJ29_9BACI
+MLIEGDKHIKFSKERTVKDWTVFLAAALVIVGIALYYVVFFTPKDSLELYQTISTADDYK
+DVQSLVLEGYGENFKEKDYMFMKDTSANSVNQFTLFQYEEKSYLIMTTPGTERLKVLRVD
+ELPEDIREYFLTLTR
+>tr|A6CSV6|A6CSV6_9BACI
+MNNNNFFKNIEKKTGVNMNDVLELAGSLQNANFKDEKTVRGVIQRVSQIANKPVNKDMED
+KIVKSIVNDGKQLDFGTISQMINNGK
+>tr|A6CK46|A6CK46_9BACI
+MTQTISYNDTNVATNEEEKNGKLVKGMVLGAVVGGALAMLDSNTRQKVASNTRTMKDSTM
+DMVGQVKNDPSGVKNDLQDRLKSASSVLKEAINDAQNLYEKVNGDIVEQVNQVKDESNEI
+LSSAKDATSDLKEIGGKVKEAGEEVMDENSTQSSSNTTSGSTTNNSTNTSTNNNDSKIPG
+QLG
+>tr|A6CI44|A6CI44_9BACI
+MLFFIVYPFKNKKIVMPLMAFYAIILIFSFTIIPNEQGTGVFLNSVRSSALILIVLSTLI
+WYRNKTEEVKTSG
+>tr|A6CTM5|A6CTM5_9BACI
+MIYAQPNKEGSKVNFKSKYDNYIGGEWVAPTKGEYFENISPVDGKPFCEIARSTSEDIEL
+ALDAAHAAKDAWGKTSVSERAVILNKIADRLEENLEMLAVAETWDNGKPVRETLNADLPL
+AIDHFRYFAGCIRAQEGSIGEVDNDTVAYHFHEPLGVVGQIIPWNFPLLMATWKLAPALA
+AGNCVVLKPAEQTPASIMVMMELIADLLPKGVVNVVNGFGVEAGKPLATSQRVAKVAFTG
+ETTTGRLIMQYASQNLIPVTLELGGKSPNIFFEDVMAQDDDFLDKAIEGFVLFALNQGEV
+CTCPSRALIHESIYDKFMERALERVKAIKQGNPLDTETMVGAQASTEQLEKILSYIDIGK
+QEGAEVLTGGNRNTLEGELEGGYYVEPTVFKGHNKMRIFQEEIFGPVVSVTTFKTAEEAL
+EIANDTLYGLGAGVWSRDINTAYRFGRSIEAGRVWTNCYHAYPAHAAFGGYKMSGIGREN
+HKMMLSHYQQTKNLLVSYSPQKLGFF
+>tr|A6CHJ7|A6CHJ7_9BACI
+MRNKGGYGVPEIFENETYGNLELIYNDIKYVLKVPIVNFIFRTTAFYETFLTMAWHQVRP
+SMLTYKMEREAENLRNPTIEFEVPTFYLSNYYSIAEAKNLIKTIDIFNYVNPKLLLICSA
+WAESLAGRSISGGTSTVGAISPGVWPGLPEIEMVKIEETSYKNQQLLLDIAKTHQSYDAA
+SDFRALAKYLEFLSEGWRCLKTYANTEEYTVTASRIKSQSIEMAHQMPYPVWINRDILSN
+YYSDRDIAGIMGVISMFQDLLPKLIIDGEFFRKMIKN
+>tr|A6CPU9|A6CPU9_9BACI
+MKTFWKRTGIVIGLALILLLGWGFVEPYIIDVEREKAEIPNLPQDWEGEEIAVIGDFQVG
+MWMDNDSVIPRVVDKIIEEEPKAVLLLGDYVYHPADDRRLQMGIIADALGELSDAEIPVF
+ATLGNHDYAMAKPDDKINKEEANRVAGILSSEGFTVLQNEAVPLTLEEDEITLTKENENT
+LYLGALGATWPGNVDVPETLQDIPEEAPRLFMMHNPDAFSELPVNTAPVAVAGHTHGGQF
+RIPFTADWSYKELLSNKESHADGWINEFYGSEGNSLYVNRGIGLSLFPMRLNCPPEITIL
+ELTSPS
+>tr|A6CRL4|A6CRL4_9BACI
+MISIFIIFSVFILYFINQMTNSLCLQKEIPEEKQPKVFRTINILITILLISSYIEILYA
+>tr|A6CKJ7|A6CKJ7_9BACI
+MIIISKAQITDLDEIVAVDSEVIGSKARSSIIREAIKTGQCLAAKENDTVGGFLIYNLHF
+FECTFISLVIVSPPQRRRGYASRLIESMFHHSPTPKIFSSTNRSNLAMQRVFAACGFQPS
+GIVENLDEGDPELIYFKRIAKE
+>tr|A6CKU8|A6CKU8_9BACI
+MGKNQVFLYSAWLVSVIATLGSLYFSEIRGFIPCELCWYQRIGMYPLTLILGVATFQNDS
+GLKKVVLPMSIVGGVISFFHYLEQKVPGFGGIKECVSGVPCSAEYINWLGFITIPFLALS
+AFTLITIFSLLINNKQG
+>tr|A6CRY9|A6CRY9_9BACI
+MLKVCGKRVIFMHKRLLLIPISAMFLGACNGADHAAEGQNDNPYEPMGFYSNEGHGNDRN
+DDRDGPLTEWYDHSIGQEGQAIREGKRRYLQVKDEDGNPQNPSKPLAENDRNFFLRDERA
+SHGDANYHGHLDDNTRKARRSYYTAYEGELAEKIGDVTASVENVNDVRSVTYGTDVLIAV
+DLEDDSRFQQTQRDIERAVQPYLKGRTVTVAADEGTFSRIRNIDNDLRDGGPREAIQMDI
+HDIIRSIRGDG
+>tr|A6CSL0|A6CSL0_9BACI
+MDKTWWKEAVVYQVYWRSFLDSNGDGYGDLEGVIQKLDYIKELGVDVIWLNPCFESPDVD
+NGYDISDYCAIMPKAGTMDTFQRLIDEIHARGMKMIMDLVVNHTSDQHSWFLESRSSKDN
+PKRDWYIWRDEPNNWRSYFSPSTWEYDEKTEQYYFHSFAVEQPDLNWKNSEVREEIYRIM
+KYWLDRGVDGFRMDAIAILAKQEGFPDAENPEDISYLGNNPGIHEYLQEMNEKVLQHYDL
+LTVGELAFVKAEEGPLYVEEERKELHTLFHFEVCDYMENWDMLEFKSIQKRWYESLWGRG
+WNSQFLNNHDHTRLVTRFGNDTIYREESAKCFATMLHTLPGTPYIYQGEEIGMTGVRFDS
+IEDYNDIAMKNKYKEEVGKGRDPQTVFEELLPLARDNSRTPMQWKAEKNAGFTEGTPWIN
+INPNYQEINVENALQDSNSIYFFYQKLITLRKQNEIMTYGTYEPILEEDEQVYAYYREYE
+GTKWLVLLNISDETAERDWSPFISFENADLLIGNYKDSVQQKLAPYEARIYQL
+>tr|A6CTM1|A6CTM1_9BACI
+MEDEVMSYEKVSQASEIIVGTKQTVKALKSGLVSQLVVADDADHKVTSKVIQAANEMNVP
+VTRVDSMRKLGKSCGIDVGAATVAIIK
+>tr|A6CL75|A6CL75_9BACI
+MKDPRIEKLARNLIRYSVQLQKGEKVLIENFGLQRELVTALVKEAYEAGGYPFVSLKDHS
+VDRSLLMGAQEEQYEMMAEFEASVMDKMDAYIGLRSGDNINEHADVPDEKMKIQGNTIGK
+KVHREIRVPKKKWVVLRYPNASMAQLAKMSTEGFEDFYFNVCNLDYAKMDKAMDSLVDLM
+NKTDKVRITGEGTDLTFSIKDIPAVKCAGRLNIPDGEVYTAPVKDSVNGTITYNTPSPYH
+GFTFENVKLTFENGKIVDAEANDTKRINKIFDTDEGARYIGEFAIGVNPYILHPMQDILF
+DEKIDGSFHFTPGECYEQAYNGNHSNIHWDMVSIQRPEYGGGEIYFDDVLIRKDGRFTLP
+ELEQLNPENLK
+>tr|A6CP07|A6CP07_9BACI
+MSDKSRNFYQEYEVFSRRTDNAPMQHQFSLLAPNQEIALVMAQENFMRREPATDIWVVKR
+ADIRKMNQEEKESLQRLDNKDYRNAKGYGYLKKKWRQYEQEMLDEKEIMSWEGKVKKS
+>tr|A6CPH7|A6CPH7_9BACI
+MAKLLYITAHPHDDAQSFSMAVGKAFIETYKESNPSDEIIHMDLYKENIPHIDVDVFAGW
+GKLQKGSGFEELSEEEKAKVGRLSELSEQFISADKYVFVTPLWNFSFPPVMKAYIDSVAV
+AGKTFKYTAEGPVGLLTDKKALHIQARGGIYSEGPAAQMEMGHRYLDIIMQFFGVPSFQG
+LFIEGHNAMPEKAQEIKENGIARAKDLGKTF
+>tr|A6CQC1|A6CQC1_9BACI
+MVRIYGALITLSLIWGLSFVFIKVIVDPAGVWGTTFLRCLAGVLILLPLFIRNRMKKEKA
+PLPIGKLLIVGLVNAGLPWTLIAWSETQINSNTASILNATTPLWTALIGFALFSVVLSGF
+QWIGILVGFLGILVLMDFQVAGLFTSNFIGIGTMLLATICYGFVGQYTKRALKGVSMVVM
+STFQLLVGMATGLTGMLFTGGIQWTALLDPKVILSIIGLGCFGSGIAALLYFYVLTNGSP
+EFASTVTYLIPASAMVWGFVLLGEPITSNLILGLLIIFAGVFLSSRKGKKRELIGKTLAD
+QR
+>tr|A6CKS5|A6CKS5_9BACI
+MFTFVIHYLDKKIYNIFFESFEKSKTKYPIGGVKMKKSINKKGIMWVLIIAMTMLLAACG
+GAQSSQPVKESDSSGKENAETSKETASSSYPDETIKVVVPFGAGGDTDINSRTFAKYVEK
+ELGVSTVVSNVSGAGGSVGSRQVLKAKPDGYTVGAFQDSMLLNSIFGVADFKYDEFEIAG
+ISVLDQGNSFLVSGDSKFKTWDDVVAYAKEHPGEVSVGTNVGAFTYIQLMALADAAGVEF
+NIVDAGGGADKITALLGGQVDIIPNPLGLVKDYIESGDMVSLGVLSEERIEQFPNVPTFK
+EQGVDVTFDKIYFWAFPPGTPDEVINTFSQAMEKAAVNEDYIAETEKHVVSAKYMNPEEA
+KQFLADAYERYQGIYEKTK
+>tr|A6CLA3|A6CLA3_9BACI
+MILSRGGSPAFLFFKDRWVTGKERFLAMLELLSITSEKSLKNEGPTASSSGLGQLRKLFN
+NLRSYSYKCGINRTYSLPGAPLGNSN
+>tr|A6CQR5|A6CQR5_9BACI
+MKMIMAVVQDQDSNRLSSALMEHNFRSTKLASTGGFLRSGNTTFLIGVEDIRVEKALQVI
+RDNCKSRDQMVAPVSPMGGNADSYVPYPVEVEVGGATVFVLPVEQFHHF
+>tr|A6CRE7|A6CRE7_9BACI
+MQKPHVPVLILLIIRTAMAVTYLERKPAHLTKKTAKQKAG
+>tr|A6CR47|A6CR47_9BACI
+MKIKEIIVVEGRDDTTAIRRAVDADTIETNGSAVSEETLLKIKHAQEKRGVIIFTDPDYP
+GERIRKIVSDNVPGCKHAFITKQNALPKNGKGIGVEHASPPVIQEALKEAHVMNEYHAEE
+ISMDDLIDAGLIGGRKAKARRERLGELLRIGYTNGKQLHKRLMMFEIKQEEFAEAINTIL
+QEDTDA
+>tr|A6CTV0|A6CTV0_9BACI
+AETFLLLLVTVGFGILGFLDDFIKVVMKRNLGLTSKQKLAGQILISAVFFYIYQLNDFAT
+TVSIPLTDISVDLGWFYVLFIIFWLVGFSNAVNLTDGLDGLVSGTSAIAFGALAVLAWNQ
+SQYDVSIFAVAVVGAVLGFLVFNAHPAKVFMGDTGSLALGGAIAAIAILTKLEILLVLIG
+GVFVIETLSVIIQVISFKTTGKRVFRMSPLHHHYELVGWSEWRVVVTFWTVGLLCAVLGI
+YIEVWI
+>tr|A6CIE1|A6CIE1_9BACI
+MISAIFHGVILAFGLILPLGVQNVFVFNQGSLQPKFSRTLPVVITASVCDTILISMAVLG
+VSILVLGIYWIKVVLLSAGIIFLLYMGLVTWNSKGDSASTEGKVLSPKRQIIFAASVSLL
+NPHAIMDTIGVIGTSSISYSGMEKFGFTAACIGVSWIWFLALAFLGKQIGSLRNAAAYLV
+MLNKVSALIIWGTAIYLLSNLLIF
+>tr|A6CHD9|A6CHD9_9BACI
+MSKHILFTGGGSAGHVTVNAALIPFFKKQGWKVSYIGSKDGIENEIITEQFPDIPYHGIS
+SGKLRRYFSWENFSDPFRVMKGLMEALTIIRKTKPDVIFSKGGFVSVPVVMAAKITGIPT
+AIHESDFTPGLANKLAVPFATQIFTTFPETLNSMPADKAICAGAIIREELFTGDKAEGKR
+LTGFYEDKPVLLIMGGSLGSRKINESVRKNLVLLLEKYQIIHLCGKGNLEPSLEQKGYRQ
+YEYVSTELPHFLAMTDYVISRAGSNSIFEFLALKIPMLLIPLSREASRGDQIINADSFVK
+QGIALKLEEEELNPETFKQKLTELEQTSDEMITAMEKNKSSYTIEDMYNELSRLSK
+>tr|A6CKD4|A6CKD4_9BACI
+MTKIFDLDTPTLLLDYQKLMKNINEIASFAKEHSLSYRPHIKTHKSVEIAKLQLQAGAIG
+ITTATIPEAEAMAAGGINDILIAYPIASPQKIKRLIALLEQDVKLKISVDNPVQLTHLQN
+ELEHTPFTLEVWIKVNSGLNRCGVEPGKDAVALAKNIMGCTKLKLGGILTHAGHSYAASS
+YAEIERIGNLEGKTVVESAEECEKAGIPIPVRSVGSTPTYKISGNVPGITEIRPGNAVFF
+DSIQAGLGVTSLENCALTVLASVVGVYSNRIVLDTGSKTLCLDKGAHGNETVRGFGHIIG
+HPEITVERLSEEHGVGTFTGEGSLKLNDKVQIIPNHACTVANQFEEYAVHEEGKVITTWK
+VERKK
+>tr|A6CUG6|A6CUG6_9BACI
+QCIPFPTDISEGWAIMLATLISAVLVEFVASKRKKGETLSE
+>tr|A6CJN4|A6CJN4_9BACI
+MISLDLDLLWKAILIVLGGTLLLRVAGRKSISQMSLAQVVIMIGLGSLLVQPIVGKSIWS
+TLTVGLTLVLTLVVMEFVQIKNDSLEKFITGQSKVVIHNGTLQINALKKMRLTVDQLEMK
+LRQSQVSDISDVQYATLEPNGQLGFILKPNKQPAVKEDISQIRQELELLTQMLNNRLAGI
+PVQAPGNNGLPIQQPASYTASAASPQKNIFEEVENQGHMSEPPNDLQ
+>tr|A6CHM8|A6CHM8_9BACI
+METLIDPEISRLTQRLLEDQEEDGAWRYCFENSLMTDAYMIVLIRSLGIKKERLVQELAD
+RLLSQQEEKGFWKIYRDEVEGNLSATVEAYFALLWSGAVKEKDENMVKARDCILSGGGLD
+KVHSMTKFMLAAHGQYPWDRFFPVPVEVILLPTYFPVSFTDFSAYARVHLAPLLLLKSER
+YIRKTSTTPDLSYLLKDQEDFSFFREEERSFIEYVTSGVEAIAAFPANLNDLAKKTALNY
+MLARLEPDGSLYSYFSSSFYMIIALLSQGYSRKDPLVVNAIKALISYQCKGDGYPHIQNS
+PSTIWDTALISHALQSSGVDSRNAQILKASHYLYRHQHTQKGDWASEAPQTAPGGWGFSE
+SNTINPDVDDTTAALRALKLDAYTDPVKRMAWNRGVKWALSMQNKDGGWPAFEKNKNKDI
+LSWVPMDGAEDAALDRSCADLTGRTLEFLGNDAGMGRENSQVLKGIEWLMNNQENDGSWY
+GKWGICYIYGTWAALTGMMAAGMSADHQSIIKAIKWLYQIQNSDGGWGESCRSDKERKYI
+SLGASTPSQTAWALDALISINDHPTKEIDRGIESLVRLLNTDDWRKEYPTGAGLPGRFYI
+HYHSYPYIWPLLALSNYKTKFLEVR
+>tr|A6CIN0|A6CIN0_9BACI
+MPAGILISLVVGAVSVMARKWKWWWYEKLHTRIPGITPFIGPFFIGGY
+>tr|A6CSW5|A6CSW5_9BACI
+MFSTKQPDLNWENEEVREALYDTVNWWLDKGIDGFRIDAISHIKKRPGLPDMPNPKNKKY
+VSSFDMHMNQKGIHKFLQEFKDKTYANYDVMSVGEANGVTADEADLWVGEEKGKMDMIFQ
+FEHLGLWDAETNPDLDIVELKKVLTRWQKGLESDGWNALFIENHDKPRVVSTWGNDEEYW
+KESATAMAAMYFLMQGTPFIYQGQEIGMTNVQFPSIEDYDDVAVKNLYKLKREEGVSHEK
+IMEIIWASSRDNSRTPMQWSDHKNGGFSEGNPWMKVNPNYKTINVESQSQDEESILSFYK
+KMIAVKKENDIFTYGIYDLILPKHEQIFAYTRTLENEKVLVITNLSTETAEAQLGKLAVN
+SEGLVLNNYPVEQHSDISNLTLQPYEARVYRLS
+>tr|A6CM44|A6CM44_9BACI
+MPVGAEQGASTFYTGKAEEAHRLPRGVAQLERKSGSTVY
+>tr|A6CN66|A6CN66_9BACI
+MKGQRLFPGMILIGFGIYFYLQQSNIMLFREFYTWPTLLIIVGAAFLAQGYKGRDYESIL
+PGTILTGFGLHFHIVNKVAIWPDHIGTFILIISLGFLLRYQKTGSGLFQGVLFLILAIIL
+LFYDKVLMWLGLLQGGVNVIRDFWPLIIVLIGVYLLFIKKK
+>tr|A6CSX0|A6CSX0_9BACI
+MLQEGNSSPPLNGKLHIYTNYEPGKNLIKKMKLFTFAFVHNINNLSFFSW
+>tr|A6CU02|A6CU02_9BACI
+MNKKLLAILGGSALSAMLLAGCNADQEPPPEDDAPVEEEVPNDDGDMNDNGDLDMDTNDG
+EGNISEDNNGEIDDNENGDLGDENGEGPVDELEDELTDEEGNNE
+>tr|A6CNU3|A6CNU3_9BACI
+MNGIIKWLIIASFVSVFYQYRYKLLNVILGNFTIRRLVVRATMSLPWLRSKFLNSAFR
+>tr|A6CMX5|A6CMX5_9BACI
+MTINILWLCFVGLAGGLAVGSGFVAFLTVLGIIPRLTQLTKTMKMIHYYEWAIVLGATVG
+SIFSLNEFSLGFSPYLLVPVGLMSGIFVGMLAAGLTEVLNVLPILTKRIGINDRIITLLM
+AIVFGKVLGSLFHWIYFVRL
+>tr|A6CTT0|A6CTT0_9BACI
+MDGFKTIMEGAGIGKSQFGGSGGQKGERIH
+>tr|A6CRL6|A6CRL6_9BACI
+MKKWILTMSLAAGVITLSACNNAEDNGGNSEVVAETKAGDVTKEELYTSMKEKFTPQMEQ
+ALQELVLKKVLGDKYEVTEEEVDEKLNEAKDQLGPQFDMFLSQYNLNEESFREYLELQLL
+QEKAATADIEVSEDELQEYYDNWKPEIEVRHILVDDEETAKEVKQKLADGAKFEDLAKEY
+SNDPGSAENGGSLGWVDYEGRQNFVPEFSEALEKLKTGKVSEPVKTQYGFHIIEVTDKKE
+KNSFDEMKDELEKSLKLSKVTPEKIQQAMKEIVEDAGLEIKDEDLENSFEQILNPPETPA
+VPEEGETPAPSEDETDESAETTEE
+>tr|A6CID9|A6CID9_9BACI
+MNVKQRREIGGVMMQRTIIGGFFFLGGLIFAGSIIIAGSVFATSITSWSGDSKLWFAIFG
+DKQYGDEVVQSLFLGFPFILSILIALIGAAMLGYEYYLTFKRLFS
+>tr|A6CIG1|A6CIG1_9BACI
+MEGEGERVEFTEKKKINIFVIKENFFVLSIVFNREKINRGSFLVKQYIMKILAVLFLFMG
+FMPWMGTGAAAAGSITIDVEEGINGKVKQGKAFPVTVTITNDGDDLAGDLVISSSAYYHA
+YENVVVPIEIAAGTEQRIQLSIPGMNDFGGPMHTNKQKSIRFYEGGWEDGKQVKIKGDSN
+LSPSTIQENKLVLGLLSDNPDGMNVLKLTSYQGETPEVLPLSAETLPEDSLGFDMFDAVV
+VHDYSIDQLPDKKQAALKQWIDLGGHLIIGSTPDLQQKMGDLASMIPMNVTGEDKLKDLS
+FLNGYSEKPLSLQEMTLMTGETDSNTDELIVEGGKPLAVEKGFGMGKVSQLTYNLSEEPL
+ASWEGNSGWWNRILTVSVDSQMHHPMSFYDSVRDILRYTTEMFSSAFLPVSLIAWLFAAY
+IIIIVPVLYFILKKADKREWGWWIIPSIAIVTSLGIFFTGASDRAGGESVNQAAIVSVNE
+EGIGTGYHFASMLSSSGGDYSVEFGSESLHPIPFNQEFVEQVNYDKYPMVQTTGESPKVI
+FQDVEFWSARSILNRFSSIDTGRIEGDLSAAGTLITGTVSNNMNYDLKDVFILAGGSAYE
+IGSIAKGETIKVEVEKKPAALVGAPNSYTASRAFPGMQPHMYGPSVQNGKGDEWKKFNLL
+HFALDKKMYNSSTNKPLIVGYAEESLMDMTINGKEVNEESLNLFLQPISIETENSGEFTL
+RNDQLEPKVSVVEGMIYHQEFMGDDYFVDAEPGTYDLVFQLPDSVVENEVNYSKLLLTFR
+EAVSNDGIFIIDVETGEAEELESGLRQIKMEENIGRYIDKDGRLTVRIEKRGKNNPQVPV
+PGVTIEGEFVQ
+>tr|A6CJX8|A6CJX8_9BACI
+MLIAIVTVVMIFSIPIIAIVTDHFQKSYKYKQSILQDQLELERLKQKNFVMETEKMKLEL
+ERMKLERPKDKTEII
+>tr|A6CNU6|A6CNU6_9BACI
+MRVNITLACTDCGERNYISTKNKRNNPDRLELKKYCPREKRTTVHRETK
+>tr|A6CH87|A6CH87_9BACI
+MAFDYTNWKEEIANAITHGIGFLLSIPALVMLILAAVEKGTAWHIVSYTIFGVSMLLLYL
+FSTMLHSCRPSKLKRLFAILDHSAIYLLIAGTYTPFMLVSFRTPLGWTIFGIIWGLAIAG
+IVFKCYFVDKYQIISTLVYLVMGWMIVIAIKPLYEILSPAGFSLLLTGGIFYSIGAVFYV
+WNKLPFNHAIWHVFVLAGSSFMFFCVLLYV
+>tr|A6CKR5|A6CKR5_9BACI
+MSTTIGRIFDMTVRKFPDKEALYDVRKNVRFTYREWNEEVNRLANALMQEGVKKGDRVTA
+FLFNTEELGTTFFACAKIGAVFNPINFRLMGEDVAFILNDAAPKVVLFEKAVEPVIASIE
+NRFPHTAFWFIDKETPDYAACYHEKVQASKSEEVKVEVGEDDLYAIMYTSGTTGRPKGVM
+HTHRDMAEQSLIVIAATKLNEKDVGLVAAPMFHCAELHCAFLPRIHAGGTNVLLHQFAPK
+KVLELIDSEKITKFFAAPTMWNMLLQENLADYNLQSLQLGLYGGAPMAPSLVHACHEMLG
+IGLVQAYGMTEMGPAITFLSEEDQLTKAGAAGKACLNHEIRIVKPNEDGPSDPEDILSNG
+ESGEIIVQGPCMMSGYFNRNEASEEAMHKGWYHSGDIGYLDEEGFLWVKDRVDDMIISGG
+ENIYPREVEDVLHAHDGVLDVAIVGQPDNHWGESVTAFVVKKDPLLTDDALDEWCRNSAS
+LANYKRPRNYLFVDELPRNASGKIQKFLLRKKMEELAAKGQTTK
+>tr|A6CTZ5|A6CTZ5_9BACI
+MTQSLQTESLTLSYGDRIIIDELDLEIPRGEITVFIGGNGCGKSTLLRSLARLLKPQTGS
+VLIDGNAIAKLSTKDVAKRLAILPQSPTAPEGLTVLQLVKQGRYPHQSWLKQWSQKDEEI
+VTKALQETKMEEFQHRRVDELSGGQRQRAWIALTLAQDTDIILLDEPTTYLDMTHQIEIL
+DLLFELNEKEERTIIMVLHDLNLACRYAHNIVAIRDQKIFAQGKPEEVISCNLVKNVFDM
+DCQVTSDPLFGTPLCIPYGRGRCIIKEVAEIT
+>tr|A6CK37|A6CK37_9BACI
+MQLLLFLLIVLLAAAVSFIWSWKRLLDFNSYKKPFIEGTIFNFIILLLGSIWWFFTENNA
+DEQLTGIFYFLVCFLMIMVLNGVILAFLFSKRKDSAS
+>tr|A6CNV2|A6CNV2_9BACI
+MNKQSTRALAAGIFLSAIILLIFSYFIDDKADPKKLLEDQGYVILTKEEAKEQNEEITAM
+QKQVDTLTQANNEKEDKEKQINKDAKRTEMTLTVSPGMTPMEIADELESSGIIRNASDLN
+SYLVNGGLADKIQIGEYDLHSDMTLEEISKLLTN
+>tr|A6CP00|A6CP00_9BACI
+MLAEKPSVGRDIAAVLNCHKKGNGFIEGDKYIVTWALGHLVTLAEPDVYDSKYQTWRIED
+LPMMPDKLKLVVIKKTGRQFTAVKSQMTRQDVKEFVIATDAGREGELVARWIIEKARVNK
+PIKRLWISSVTDKAIKEGFRKLKSGKEYENLYAAAQARSEADWYVGMNATRALTVKHNAQ
+LSCGRVQTPTLGIIAQREEEIKNFKPKPFYGLKAKSREFTLTWQDGKTKEYRTFSKDFIE
+KVFGNLKGEKKANVTSVNKSLKKSFSPQLYDLTELQRDAHKIFGYSAKETLSIMQKLYEQ
+HKLLTYPRTDSRHLSSDIVDTLKDRIKAVSIKPYNQLAAKAMKNTGKPGKTFVDDSKVSD
+HHAIIPTEQTAFLNSLSDKERKIYDLVVKRFLAMFLPPFQYEQTTIEADIAGETFVAKGK
+RIIEQGWKEIFDRTTSGEDAGDGLSDQTLPKIEKGDILPVSSIEKTTGETQPPSRFNEGT
+LLSAMENPKKYMAGEDKELIKTISSAGGLGTVATRADIIEKLFNSALIENKGKSIMITSK
+GKQLLDLAPEELKSPALTAEWEQKLEAISKGKLNKNAFISEIKDYTKKSVHEIKNSEKKF
+AHDNITGTKCPDCGNLMLEVKNKHGKKLVCKDRECGYRKNVSKKTNARCPNCHKRLDLRG
+EGEGQMFTCVCGHREKLSTFNERRKKEKNNKVSKRDVNKYMKKQDDAPVNTALADALAKL
+KLDK
+>tr|A6CPP4|A6CPP4_9BACI
+MVLLGTIVNGACIIIGTLLGKLLHRIPENMKGTVMYAIGLAVMVLGLQMGMKSENFLIVI
+ISLVLGAVIGEWMGLDDKLNALGNWLEKKLGSNSETSISQGFVTATLIFVIGAMAVIGAL
+DSGIRGAHDVLYTKAIIDGFTSLILTTTLGIGVMFSAIPVILYQGTIALFATQIDRFVPQ
+AIMDSFIVEMTSAGGIMIFAIGLNLVGLTKIRVANLLPGIVVVAAIVSIIYGYQEYFI
+>tr|A6CNC4|A6CNC4_9BACI
+MRWLIGILINAVVFVSLAGYFEGFEVSGIGAAVIASFILAILNVLVKPILILLTLPATIL
+TLGLFLFVINAVTLLLTDGLMGDSFEIDGFGMALLAAIILSIINIAVQKAVIEPMKNKKE
+>tr|A6CQG8|A6CQG8_9BACI
+MVRLHTDQLHIGYGEKLIVKDMSIEIPDKQITTIIGSNGCGKSTLLKALTRIIRFQGGSI
+ILDGKSITEEDTKKLAKKMAILPQNPESAGGLTVGELVSYGRFPYQSGFGRLSKRDMEVI
+DWALETTGTADYKYMPVDSLSGGQRQRVWIAMAIAQETEMIFLDEPTTYLDMAHQLEVLE
+LLQRLNEEQGRTIVMVLHDINQAARFADHIIALKQGSIIKAGNCDEVVTNEVLQQVFNID
+AVIGRDPRTNKPMCMTYHLLKGEQQYEKTNYAIPALAGATS
+>tr|A6CI00|A6CI00_9BACI
+MNDQPINLKEKLSKFAEQWSPKVIAEMNDYQIKLVKIQGDFVWHEHKETDEVFIVIEGEM
+SIEFRDGIVNLAKGEMYVVPKGVEHKPHAENECHIMLVEPKGVVNTGEAEGELTAENDVW
+T
+>tr|A6CLH4|A6CLH4_9BACI
+MLIYLNSLFVGLLILSNILAVKLFSLGEWAVLPAAVIVYVFTYPITDVIGEVYGKDAARA
+TVRAGLLTQVFALVFIAAAINLPSAPFFGMQTEFEAILSGSFRITLASLISYFISQNLDV
+SVFHKLKAKHGTEKLWLRNNSSTLLSQLADTTIFITIAFFGTMPMTALLALIGTQYLFKL
+VVAIVDTPLVYLLVRFARKEKAHEAGLAG
+>tr|A6CRU4|A6CRU4_9BACI
+MLSGNYDEGKSGPPVLCLIEKKEAVQKPQTTHPVLGISTEYCERLYYELKENNVEVEENP
+SYKGHFKFYDPDGNMLEAFCPGIYD
+>tr|A6CTD8|A6CTD8_9BACI
+MNMDTKNNNTGGCPFHHGSMTSNNSVGTTNKDWWPNQLNLNILHQHDKKTNPMGEDFDYR
+EEFQKLDYDALKQDLRDLMTDSQDWWPADYGHYGPFFIRMSWHAAGTYRTADGRGGGGTG
+AQRFAPLNSWADNGNLDKARRLLWPIKQKYGNKISWADLLLLTGNVAIESMGGKTFGFGG
+GRADIWHPEEDIYWGSEKEMLGDNRYSGDRELENPLAAVQMGLIYVNPEGPNGVPDPLAS
+ARDIRETFGRMGMNDEETVALTAGGHTFGKAHGAGDPSHVGADPEAGEIEAQGFGWASTH
+GTGKGRDTITSGIEGAWTANPTQWDNGYFDLLFGYEWELTKSPAGAHQWAPVNPKEEDLA
+PDAEDAAQRVPTMMTTADMAMRMDPTYEKISRRFHENPEEFADAFARAWFKLLHRDMGPV
+SRYLGPEVPEEELIWQDPVPAVDYELTEEEVEKIKVMILDSELTISELVTTAWASASTFR
+GSDNRGGANGSRIRLAPQKDWEVNQPEQLAKVLNVLEGIQSHLDKKVSLADLIVLGGSAA
+VEKAARDAGFEVTVPFTPGRGDATQEQTDAESFEPMEPMADGFRNYQKKQYSVSPEELLV
+DKAQLLNLTAPQMTVLVGGMRVLGTNHGGSQHGVFTDNVGTLTNDFFVNLLDMGVEWKPV
+DGKVYEGRDRKTGEVVRTATRVDLVFGSNSVLRAIAEVYAQDDNKEKFVRDFVDAWVKVM
+NADRFDLK
+>tr|A6CI28|A6CI28_9BACI
+MPLEQEIVPKLLAGFSIVMGGTILCVLLLWVRTKRNSAGYLWMLIHFLIFSAAVYIFIQA
+MNYRADHTMVSEEISLRVGVAGMTWAVSMKCLVISLFCFSKSRSVVD
+>tr|A6CPA9|A6CPA9_9BACI
+MYKKILLATDGSEHSKRAAENAIHIAQCSDGSAIEVVYVVDADRAKSDVLANWNSAEMND
+FRKERMKEVERQAKLAGVSYEIKILHGEPGPAIVEYVNKNQVDIVVIGSRGLNGLQEFVL
+GSVSHKVAKRANCPVLIVK
+>tr|A6CQN3|A6CQN3_9BACI
+MYKAVVFTAAFFYEAVDTDRFYQSIAVRKCLARSALRLTDIAAG
+>tr|A6CRC5|A6CRC5_9BACI
+MFNEWFGLIFVLVNFILLLAMYRIFGKTGLFVWIGVSTILANLQVIKTIEIFGLTATLGN
+AMYGTAFLVTDILNEKHGKKEAQKAVWLGFFTLLIMTVIMQMALVFQPHPDDFAQESLET
+IFGMIPRIAIGSLAAYLVSQFADVYIFAFLKKKFPKDSKFWIRNNGSTMISQLLDTLAFT
+SIAFFGAFPFDVWVQIAITTYLLKWIVALLDTPFGYIAKRLHVKE
+>tr|A6CP15|A6CP15_9BACI
+MTTRSKEGGAAMKEVVIVDAVRTPIGKYKGALKSVRPDDLGAVVIKALLDRNPALSSEHV
+EEVVLGNANGAGEDNRNVARMSALLAGMPVETSATTINRLCGSGLDAVNYAARAILAGEG
+EIFIAGGTESMTRAPFVMGKPESEYPRGNMEMFDTTIGWRFINPRLAQRYGTDSMPETAE
+NVAKQYNLTREDQDEFALHSQLKAKEAMESGVFHEEIVPVVYKDRKGNEITVDRDEHPRP
+DSSMEKLAKLRPLFENGSVTAGNASGVNDGASALLLMTAEKANALGVKPLAKYVVSATAG
+LEPSVMGLGPIYATQKALNRAHLDKEDLGLIELNEAFASQSLACIRELGLDSARVNVNGG
+AIAFGHPLGASGARILTTLLYEMKRREVKHGLATMCIGVGQGIATIVERVE
+>tr|A6CUI5|A6CUI5_9BACI
+FSQKMMGDGFAILPTEGLIVSPVDGKVVNVFPTKHAIGLESKGGKEVLIHVGIDTVKLQG
+KGFESLINEGDQVEAGQPLLKVDLDYIKNNAPSTITPIIFTNLKEGQTVTIEKEGKVNAK
+DEKIISID
+>tr|A6CRU1|A6CRU1_9BACI
+MDQQFSGVPVFVAVLKDDPHPQFAMAFGLSMVKPPPIIDCL
+>tr|A6CU80|A6CU80_9BACI
+MFIMINATGWVTFSYTPKAVKNYKQKAIKTINAFSKNGNKFDVQTVTAPFDREGDIALQV
+KCNFDIYMKERYGFREGTDYIPVVGEELQGLLPMAGVPITQITNIQRV
+>tr|A6CLU8|A6CLU8_9BACI
+MAKARNLYKILISTREVKLFMKRFLLLCMSLVFVFGIVAGCSSNENSSGNSDGNTDSGEE
+VVTLNFFQFKVEIADQLAEMIKEFEAEHPNIKVKLETVGGGADYGAGLKAKFASGEEPDI
+FNNGGFKELELWKEKLADLSDEPWVEHVLPIGKVPMTDEDGKLYGMPVNLEGYGFVYNKD
+LFEKAGITEPPGTIDELKDASEKLEAAGITPFSAGYGEWWVIGQHLLNIPFAQQEDPVAF
+IEGLYDGSETIVGNEKFKQFKEVLDTELKYANDNPLTTDYNTQVTLFASGETAMLQQGNW
+TENMIYEINPDMNMGFLPIPISNDDSADRLPVGVPNNWVLNKNSEHLEEAKTFLEWMVTS
+ETGKRYITEEFSFIPAFDNIEPAGLGDLGQSILEFSKEEKTIPWTWFRWPDGANKEFAAA
+IQEYAAGKIDYDTLLERFQTTWDNLK
+>tr|A6CMP6|A6CMP6_9BACI
+MNKILETDEGAKYLGEVALVPHKSPISDTGILFFNTLFDENASNHLAIGSSYPTCFEGSQ
+ALSEKEKKSAGLNDSIVHEDFMIGSNEMDIDGINKDGTREAVFRKGNWAF
+>tr|A6CS66|A6CS66_9BACI
+MKYKSVFDIIGPIMIGPSSSHTAGAARIGRVARNLFGRDPEWAEISFYGSFAKTYKGHGT
+DVAIVGGLMDYDTFDERIKDSLKIAKGKGMKIRFREEDAITDHPNTARIRLGDDKSEMEL
+VGISIGGGKIEVTELNGFELKLTGHHPAILVVHEDRFGAIAAVSQVLANHEINIGHMDVS
+RKEVGKMALMTIEIDQNNIDDKVIDELKALANVTQVTMIAD
+>tr|A6CTB4|A6CTB4_9BACI
+MTNRQLVEIGENIMSKKTFTEKEIKKLSINPYVKAVSAKGITYTDEFKRLFITEKEKGKF
+SRLIFEEAGFNTDIIGMARIHSASKRWSEAYKKNGVLGLNDTRKGHSGRPIERELSLEDK
+NARLEAQINLLKAENELLKKIRFAERGLKK
+>tr|A6CK69|A6CK69_9BACI
+MKDSFKHEVDQVPVPEKKLDAAIDSAIRRGKRKRWGFAKKTAYSAGAAAALFCMFIGSAF
+VSPTMADMASKLPLLNQLFESKPVFQIIAEELREEYEVDAMGMSYTPEKEFTVAVTGSEE
+YFLSKKGEIEERVEELLAARGYDAFTIKVYQEEPHENTPEQEHQEHLNRTLLNTVHEGLK
+NYDFEILSVGGSYSDERKQVGLDIPDTETRTAEIEATVQKLVQDAGMDKVQVSFQKIDMA
+KSEQNHRWTPVITTISEGLMGRKDFHVKKITKSNDKGSMTVFVTLDLPASDSRAKELAAQ
+TEKTVNEFIQSEEAKEAVQDDSYKIVIYSKDKEVLLETAY
+>tr|A6CKH9|A6CKH9_9BACI
+MDLIKQIEELDFALLQSFSNKEDRTWGVLFSNEHQPEYYDANHAHVSKQPDNSEEVIKEV
+ISFYEALKVIPRFYLYNLESLTDFVALLKEKGFQFEDFLQPIQLWNNESTELAINKDVTI
+ERVTANNYHDALWVECQIKEFGGKTVREKAFQSEFNDSRYTHYLLKYNGNPCSTACLFVH
+GNQGRVESVATIEEYRGKGLIGWLLQQIQNEAQKLQLEKLWVHPINERVEKVYSRYGFKT
+VLRLQTGHAFLGGKGIKEIQGT
+>tr|A6CMC0|A6CMC0_9BACI
+MKRLLKISFSLFMILILSIGVLGCANQEQELEKVRVAEVTRSIFYAPQYVALEKGFFEEE
+GLEIELTTTWGGDKTMTTLLADGADVALVGSETSIYVDSQGSSDPVINFAQLTQTDGTFL
+VSRENVENFDWEQLKGSTFLGQRKGGMPQMVGEFVLKKQGIDPHKDLNLIQNIDFANIAN
+AFASGTGDYVQLFEPTASIFEKEGKGHIVASFGEQSGHVPYTTFMAKESYMNENNDTIEK
+FTRAIFKAQKWVEEHDPAETAEIIQSYFEDTELDIIKTVVDRYRSQGSYATDPILDVEEW
+NNLQNIMDEAGELPGRIEHDKLVNTTIAEEVISE
+>tr|A6CMN6|A6CMN6_9BACI
+MEKMIKALVVDDERYSRDELKHLLSEYPSIQVAGEADSGESAILQSIQHSPDVVFLDVEM
+PKMNGMEAAKSLLELKKPPLIVFATAYPQFAAEAFRYEAVDYLLKPYDEEQLSQTVARVK
+KLLLSSHPFENSRQPGKLAVESEGEILYLAPTDILYIYREEKVSKIITKSGEYEVKTPLK
+DLESRLGAYSFFRIHKSYIVNLDFVTKLTPWFNGAYQLEIQGHSEKLSVSRNYVKSLRQQ
+LEL
+>tr|A6CTY3|A6CTY3_9BACI
+MDIGFIIVIFLIGFIGSYISGMLGIGGSIIKYPMLLYIPPLFGLAAFSAHEVSGISAVQV
+FFATIGGVWAYRKGGYLNKTLIAYMGGAILIGSFIGGYGSKLMSEGGINLVYGVLALIAA
+VMMFIPKKGIDDIPLDQVTFNKWLAASLALIVGIGAGIVGAAGAFLLVPIMLVVLKIPTR
+MTIASSLAITFISSIGATVGKITTGQVEYMPALVMVVASLIASPLGAMAGKKVNTKILQY
+ILAVLILGTAIKIWMDIL
+>tr|A6CNZ3|A6CNZ3_9BACI
+MSSTEKKKINLAQAMKEKLAQKKEQSEGKRTGIVKSTQPLKSQLTKKPNNQKKRTGV
+>tr|A6CQ59|A6CQ59_9BACI
+MSNRLSNLLIPVISVLLGIIVGTIIMLISGYDPVSGYTALWQGVFGEVYYVGETVRQVTP
+YILAGLAVAFAFRTGLFNIGVEGQLIMGWVAAVWVGLAFDDLPKIIHLPLAVLAAAAAGA
+VWGFIPGFLKAKYRVHEVIVTIMLNYTALHITNAIIRNISGKDSTERVPESASLSSPFLE
+ALTDYSRMHWGIFIALICAFIMWFLLEKTTRGYELRSVGFNQNASQYAGMNVNRNIILSM
+VISGAFAGLAGAMEGLGTFGYASIKGGFTGVGFDGIAVALLGGNAAIGVILAAILFGGLK
+IGALNMPLEANIPNELVDIIIALIIFFVASSYMIRWVIQRYSKKGVK
+>tr|A6CKV1|A6CKV1_9BACI
+MIGETSILMHMVQFFDPFVRQFGMDGFILMAFILGLPANEIVLPILLMSYLSKGAMIEVE
+DLDS
+>tr|A6CTK3|A6CTK3_9BACI
+MYDLSPENMSLLNAVFVYIVAIGKIQSAGFFPWKQRPFSLNKVN
+>tr|A6CRE3|A6CRE3_9BACI
+MKNQGGFTLLQSIFSLCAFLVIATCLPVIITGITLVETKLDPSKEYEWNLFSHQFRQEFR
+GAKAVNVTEFSIIFMKDDQEITYEKYGEYIRRRVDKRGHEIVLGPLDALELNNIQNGIEI
+HASFEGNLQIGRFFTYD
+>tr|A6CNZ7|A6CNZ7_9BACI
+MKKALLFFTVLLTFAGLLAGCGTASNSGGSGESGSGETVTIGYFPNINHVPAMVAKDQGF
+YEEQLGDGTTVEYKTFPDGASFMTALKTGEIDAGLVGPGPAMNNYSTGADVKIIAGASTG
+GIVVLARADSGIESVEDFPGKTFITPRVGCTHDVQVETFLNDMGITSERIGGTMKHITGN
+PAQYQAMFETGKVDIAVAPEPWAAVLEQETGAIVIINADEISFGETLPASVLVASGEMIK
+NNPERIQNIVDAHIKATEFIQENPEDAKEITIKDVKEVTKQELSKEVVDNAWERIGFTYE
+VDSEAIQAFADSSYELKFLKEKPDFSDLIDKQFIQ
+>tr|A6CI84|A6CI84_9BACI
+MADQQDQKKISLQEAMKQQLERKKQAQGNDKQQGNGFAGNQRMKSQQAKKASVTRRKMGG
+>tr|A6CPE7|A6CPE7_9BACI
+MKVNKIKGVSYDAEKVQLKLTPFIGYTFTAEEPRTFILLNKKNETYFVRVEVLHSKTDIR
+TAKKNAAAKLKALGKLTKIPTENSLPFYKDAHFFLHANDEKIQTNIVVKKVDGILLKFTI
+HYPNAEEAEAIIPEMLKMLNEIQMKK
+>tr|A6CRK3|A6CRK3_9BACI
+MKNGFSSIRNVQAIMSMDPFQSTWITTEEERSPYVELKANKDYWDEGRGPKLNRVIFRND
+LTPKQALHLCTATEGEVDIVTGVAPEDAVTVLQSTHAKLVAVNGKRILAGSFNRYKKDVN
+FNNRNLRLSFNLAVDREALIKEGFNGYAQPVPALTPPWAFDFPKGLSPRTFDPERARYLL
+KKSGWPKERALKLSGEKEFEKALKVLGDQFRKALNLKVDVEVISPPQQAAWKKMVAEKKL
+VPSFDIALFSPMAFFYEGTPAFFHREYFGNNGAFRTGPVIPEFQQLFKRMAAETDREKLL
+EHSKKIDEYVYEEALGLFLCSPQELYAVNRHVNFVPYRTTFELAETSVSHEHWSLKGKHP
+KV
+>tr|A6CNR2|A6CNR2_9BACI
+MEYIKEIDSWNNDGFVEQVLMTPYFESVNKTGTLAGPGGCEGFAAFVDNETAGLFEFIIQ
+GSTMEIGLALKPDLIGRGLGVPFVNQGIEFGIQHYQLNFNYVKLSVDQKNKAAIRVYEKA
+GFEEVERTENEITMRRIL
+>tr|A6CHH7|A6CHH7_9BACI
+MQILLIRHGESEADILEVYEGRADFSLTERGRKQVGHMTDRVKNEFPPDFIWCSPLKKSE
+GNR
+>tr|A6CKJ9|A6CKJ9_9BACI
+MIYTLTLNPSIDYFVTVDELALGGTNRMEHETKAPGGKGINVSRVLTSLGIQNKALGFLG
+GFTGQYILDELSKEKINTDFIEVDSDTRINIKLRGKQETEINGSGPEIPADALSHLNEQL
+QALTEGDVLVLAGSIPPSMPSDFYEQIVKQLENKGVKIVVDTTKEKLLNTLKYEPFLIKP
+NHHELGELFDASIDSKEDAIPYGKKLASMGAQHVIVSMGGSGTLYFTGEEAHFAPVPAGK
+LVNSVGAGDSVVAGFIAAYEQTGDALYSFKYGAAAGSATAYSSGFCTKGTIEKLLNEIET
+TPISGRENQ
+>tr|A6CNC1|A6CNC1_9BACI
+MAKDQIVVQGARAHNLKNLDITIPRDKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLS
+AYARQFLGQMDKPDVDAIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLYARVGRP
+ICPIHGIEISSQTIQQMVDRIMEYPERTKLQVLAPIVSGRKGTHAKTLEDIKKQGYVRVR
+VNGEVLDLGEDIDLEKNKKHDIEVIIDRVVVKEGVEARLSDSLETALRLADGRVLIDVIG
+EEELLFSEHHACPHCGFSIGELEPRMFSFNSPFGACPSCDGLGSKLEVDEELIIPIWDKS
+LNEGAIAPWEPTSSQYYPQLLKAVCNHFGIDMDVPVKDLQKHQLDKVLYGSKGEEVYFRY
+ENDFGQIRENYIQFEGVIHNVERRYKETSSDYIREQMEKYMAQQPCPKCKGHRLKPESLA
+VKVDALHIGEITSFSIEEAEAFFAKLELTEKEMKIANLILREIRERLGFLVNVGLDYLSL
+SRAAGTLSGGEAQRIRLATQIGSRLTGVLYILDEPSIGLHQRDNDRLISTLKNMRDIGNT
+LIVVEHDEDTMLAADYLIDVGPGAGVHGGEIVSAGTPQEVMNDDQSLTGQYLSGKKFIPL
+PVERRKPDGRYIEVVGAKENNLKNVKVKIPLGIFTSVTGVSGSGKSTLINEILHKSLAQQ
+LHKAKSKPGEHKQIKGVEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAK
+VRGYKKGRFSFNVKGGRCEACRGDGIIKIEMHFLPDVYVPCEVCHGKRYNRETLEVTYKG
+QNIADVLEMTIEDALQFFENIPKIKRKLQTIADVGLGYIKLGQPATTLSGGEAQRVKLAS
+ELHRRSTGRSLYILDEPTTGLHVDDIARLLVVLQRLVENGDTVLVIEHNLDVIKGSDYLI
+DLGPEGGDKGGTVVGSGTPEKVAEVPESYTGKYLKPILERDRERMKKRVKEKEEVGSSR
+>tr|A6CK89|A6CK89_9BACI
+MSKRAPVKKNDYIEDAYFEDLTHDGNGVTKVDGYPLFVPNALPGERGKVKVVKASKNYGF
+GKLIEIHEESEYRQEPPCPIYHQCGGCQVQHISYEGQLKAKEKHVRDVMARIGKLPDVPV
+HPTLGMENPWRYRNKAAVPVGEREGGLVAGFYQQRSHEIIDMERCVIQHEKNDEIVQKVK
+EICQKYGIRPYNEEKHRGTLRHIMTRYGYQTGEVMVVLVTRTADLPNKNQIVDEIVSSIE
+GVKSVIQNVNSKRTNVIMGDETNVLWGEEVIYDYIGDVKFAISARSFYQVNPEQTRVLYE
+KALEYADLSGDENVIDAYCGIGTISLFLAQKAKKVYGVEIVPQAIEDAKKNAELNGFTNT
+EFEAGPAEVVIPRWYDEGIKADVLVVDPPRKGCDEALLNTILEMKPRKVVYVSCNPATLA
+RDLQVLEDGGYRTLEVQPVDMFPQTMHVECVAQLVLK
+>tr|A6CR41|A6CR41_9BACI
+MSRRRGMMSERLKEEIAKELGFYDTVQREGWGGIRSKDAGNMVKRAVELAQRGMSNNNS
+>tr|A6CRC1|A6CRC1_9BACI
+MMTYRKEKEGSLLAVGALELDGTKAEAARSAAYI
+>tr|A6CRC2|A6CRC2_9BACI
+MREIVKYNKQTTEDFLIHLENKGFKFGEDAIGFIYFGKRSVNASDEIVNTAIEITLKAQK
+RFDNSFYMSLLETLHSNNIKTRQAAWSYAESLELLA
+>tr|A6CL96|A6CL96_9BACI
+MSIGAEGGRPPAGLAGRLVPAPGVTYPLERNPTGKAEEANPALAASD
+>tr|A6CT75|A6CT75_9BACI
+MATGTTDGLSPVITCLFQKQVIKLIKKLFSFRLLLSEKSLVPDSPPLDTKLFLPDQGGQL
+FSLWLTKIFPWIMALFFCDLY
+>tr|A6CL15|A6CL15_9BACI
+MQQHDNQGFSHDEFKLSKTGFDPKMPGHQNQHSNEMILRQEPRTARKEGSGISLPYETRL
+EMGLMLDEHLCALNVALHQYTKHHWLTEGAESFGSLHHILDEHIDVTEKHIDEVGERVAR
+LGVVPTAHPVTQHEISYIKHEVEGRYTMRDFLRNDLEHEIKIQGMMRKTIKRAHELNDFG
+TVQVLEEVLLKREDLGYHLWSLLEDDSLVRGMTHLLDGNQDIANNRHLNDNLPN
+>tr|A6CHB0|A6CHB0_9BACI
+MSERFECSWCGEQQAYGSSGPVFWELPDGSRAIEITGTPQIFCSSCGIVYTEEAVTIEIE
+DQLLLIDTKVLEDKVAYQHLMNIERKLKRNYFRFD
+>tr|A6CP74|A6CP74_9BACI
+MKKKVSKILAEHFRHWGITDVFGVPGKAVCPLLFDLEAEDINFVLSSHEGGAGYEASGYA
+LSKNTLGVAIGTTGPGGTNLLTAAGQAKAYHLPVLFITGHQPIQSTGKAQGQDSSSFGTD
+LTKMFEPVTLFSARVERSEMFPLYLRHAIEKAVTGKKGPVHLSIPYDVYMEEIESFYYPL
+PADIGTVISPDVDQVPSILNNAKKPVLFLGKGVGISNAYEEVGLVAEHWNIPVITTPCGK
+GAFPSVHPLSLGGFGLGGTEKSAEYLKSGIDVMIVVGTKLSDMSLAGFSADMHPDLILQF
+DCDLTFAGKSLPVPTKVLLGDAKANLKKLIEIAGCQPNPALAEVAATSSLAKEPSAGRDG
+MLTSEQAVKTLRSHLPKEAILFGDDGSHTFYAVRHYDIYQPGTFFFDDVFGAMGHAIGFS
+IGAKIASPEKPVVCLTGDGCTLMHGTEFITAKNNRVPVLFVVLNNGQLDMVDKGMSFSTG
+RSVGTTYQTPLNAAKFAEAMGVTSFRCHDEEELAEAIQSSLQADGPVVIEAIVDPAEVPP
+TLSRVVTLK
+>tr|A6CJJ0|A6CJJ0_9BACI
+MCGYGGYGYGGGYGYGGSFVLIVVLFILLIIVGAAFVK
+>tr|A6CHH8|A6CHH8_9BACI
+MEHNNGIQAGVPFKEAAAIKMPVHPHERIEQGESVLEFRMRIEIAFSKILAESKFERIAI
+IAHGGVITNLLRSFLKLSVDDFQWFLTGDTGIHLLELRGESRIIHFLNDTLHVKGQ
+>tr|A6CJE4|A6CJE4_9BACI
+MNYLIMSIILSALLGFVLMMMGPLAGGILAFAIIAGSIFRGLHVLSEIHQKISLLVPDQD
+KAKQVYEDYLREKDNDSR
+>tr|A6CMH3|A6CMH3_9BACI
+MAMTKGIPLSLQKLKHRFYAVLLPIFLFVASLGWYEESQSDSPDRINMVILPTLILFFII
+SSWIVFFKKDWIENTEKFNIIAICLVSAIKFTYVVSYELEQTGTLGTFTFWMPIFYMFLF
+FLLNSRLALLTIAITYIWFLGVGVYKFPELIGTPAATILVQYMFANLVFILTLFFLQTVK
+QRYIKAEVMEELANTDYLTGLPNRRKIDQALHQALKKQQKISIIYLDIDHFKQINDTFGH
+TAGDEVLKEFTNETLEVLKEENMLGRWGGEEFMIILKNDLNEAAILAEKIRAHIAQHRFE
+AVGSLTASFGVTALQEGDTLDTLLNRADKALYKAKNSGRNKVVSNR
+>tr|A6CK30|A6CK30_9BACI
+MNWKEYETQLYTMVMIEKGDKILLVERPSEKGFPGYIAPGGKVDFPESPAQGAEREVKEE
+TGLTVEKLKFKGIDEFVIPAQKYRYVVYNYLAVETSGELLADPPEGNLKWIDREEAGDLP
+MQPWFRRRFPYFFKEGVFEIHSKWDGNNRHDAKVTIREL
+>tr|A6CRN2|A6CRN2_9BACI
+MNVNALYETIKLEKNGQVATVTLNRPKSLNAMNTKMMRELLNCLKEVEKEEDILILILRG
+EGKGFSSGGDIKEMLNLGGEQEFAEIMEVISDLAMTLYTMKKLTIAGIHGAAAGLGLSLA
+LATDYIICEEDSKLAMNFIGIGLIPDGGGHFFLQERLGTCRAKKLMWTGKVFEGQEALMK
+KLVDEAIPSGKLDRAIERYITECLQKPLMSIIESKSIYAELNKDRLEKALQLEKAGQWKM
+RQTQDHQEGIRAFVEKRAPKFKGL
+>tr|A6CNT9|A6CNT9_9BACI
+MDKNELGGKEMFKKQKAMSMTASLLVAGTILAGCGSSEEVVKETEKEASAAVSQPSLEAE
+FAQDGSNVTITWSTDLTISADHYGGDHVDGEGHAHVYVDGEKVAGLKNTDPYTVEGLEPG
+THIVKLELQQNNHESYSVSKETEVTVEENSASTTPTLEAEFSQDGNNVVIKWNTDLNISA
+EHYGGEHVDGEGHAHVYVDGEKIAGLKNTDPYVVENLTAGKHIISIELQQNDHQPLDIKK
+EFEVEIN
+>tr|A6CJ62|A6CJ62_9BACI
+MEPKSNRKYGGILMKRTTRNVLMGSLVSAGSAALASAIYKKRKKANFPVDEDIDTKHDLR
+ADHEESPNAAYEEEEIGLTKLDSTYRSEWQANGFPMTHAEMERLEQESESEL
+>tr|A6CQ83|A6CQ83_9BACI
+MHFNMVLPGLEGVRISKAEEVGEAFHLHIELPKRKHKCPSCKNWTCRVHDYRLQKIQHLK
+LFERTSYLFYRKRRYNCPCGKRFAEDNTFVQRYQRHTIEWNQALGLRVIQGKNFKDTARQ
+FRTSQATVIRRFDQISASRLKEVEKLPSVIAIDEYKGDTNEGKYQLIIADGKTREPLDIL
+PNRSVTTIKNYLREKGSNVKVVVMDMSHAFKSAVRKALGTPVIVADRFHFSRYIHWALER
+VRRRVQNDFHAYDRKK
+>tr|A6CQZ2|A6CQZ2_9BACI
+MNKMKRFMLKSILLVSVLFVGVLIGMQKANDGIMDMKGYDDDGFGTPLKISEDETGNIEA
+SLLGQDMGSATISEKKKKLEEMKSFNFFSEIGKSVAGIIKGVAEKTVEFVSSLI
+>tr|A6CQR1|A6CQR1_9BACI
+MDKKEFFDSVSNMEQQIGQLYQQLGELKQVLAEILEENNSLQLENEHLRRRLEQTGNSSK
+GAARKGKKGSKQSHSEDKSLDVGEGYDNLARLYQEGFHICNIHFGSPRKDEDCLFCLSFL
+NKK
+>tr|A6CRW1|A6CRW1_9BACI
+MKKTIFFLVFATIVIIGSMTAIFLNARSPVNEKAEVALQRAQSETDIASTEDVSLYNGKN
+SYVVITGENTSGDKIIVWVPEKDEEIIVKKWADGISKEAAINKLNGENDVNEILSVKLGM
+ESVGPVWELTYLDDNEHLNYYYLLFETGEWWRKIENL
+>tr|A6CHK2|A6CHK2_9BACI
+MISLNKRLAVVLPVSILVLILSIWYLSNNFSELDNLTRLAISIGGMVVSGAITYFLFPEN
+ERKI
+>tr|A6CHF2|A6CHF2_9BACI
+MVKETTAVYEVFAIWEYDSYEKYEKIDKKVINDEEHVKRVQNWYKKMGGKKSKKGYFIKL
+QRTFQKRRLLRRKQ
+>tr|A6CM16|A6CM16_9BACI
+MHGGGYFLFLNPSLKELLIVKLHIKKGPANAGPKEKGVVKRESPTLCLLIEYPEFKRLNL
+LFKKFLIFLPFKKALTSIIMINVGQKENQVREHLEK
+>tr|A6CHZ9|A6CHZ9_9BACI
+MWTRIIQAAAFTVFFGIVSMFVVGYSILTSSQNGYIYTGIVTAAILVIGNLYFLGLLARL
+PKKARMLVPGLIILLPLAGYGGYEAYINHIEIENAEVDLSDYEPFKKDTDAVSLDGGASY
+SIDGQLPTLDGATALYPVIASFVQAVYPEGEYPHDNPSESEAVASKTGNAYDRLAKNDVD
+IIFTAGPSELQESRLQNMNMTPIGKEAFVFFVHKSNPVESLSIEQLQQIYSGKITNWKEV
+GGKDKEIIAFQRPEGSGSQTGLQKMMGDVPIMKPPTDQKVSGMGGVIEKASNYRNYRNAI
+GFSYRFFATGMIENKGIKLLKVEGVDPDIEGIQSEEYLLTGEFYAITNGTDNPHVEPFIE
+WITSQQGQELIQKTGYVPIN
+>tr|A6CIK6|A6CIK6_9BACI
+MAATCSGILSAILMVFCYYFTLSFFQYLKEGDARLVSQSKKWAVICLALSLLVSATFYI
+>tr|A6CNR3|A6CNR3_9BACI
+MNQNILTRNNVKVKGNGKQPMIFAPGFGCDQTVWTLVSESFENDYQVILFDYVGLGDSDV
+KAFDPDKYSKLSGYAQDVLDVCSALDLRGAIFVGHSVGSMIGMLASLRKPEYFSHLIMVG
+PSPCYLNDPPEYFGGFSKEDLIGLIDMMAKNYIGWANVFSTTITNNPDRPEVAKELEDRF
+CSTDPIIARQFAEACFFADNRQDLPRVTVPSLILQCSEDVIAPTAVGQYMKEHLPYSMIK
+YMNATGHCPHMSHPEETIELIRDYLEENSIKAVTVDTGELL
+>tr|A6CIF4|A6CIF4_9BACI
+MGILTEKLLFIALFIFIIHSIETLAYAVRLSGARVKMIASALSLFNIMVIVSRMANMMQQ
+PFTGTLIDTAPEENTLAFVEAQFLILIGASTVGTVFGMILLPTFIALFSRAIIHLSEEKG
+SVPSLMKRIFSLEYIKRGITHFSLPKFSYLRDTNVKDIPVRLFIVNMLVTAIYTIGVLAA
+LYAALLAPDRGYTATMASGLINGIATILLVIFIDPKLSVMADDVVNERGSYNKRKSMSLM
+MITSRLLGTLLAQLIFIWGAKYIAWFTKFMV
+>tr|A6CJ98|A6CJ98_9BACI
+MLKGACLKMKNRLIPALLSLLLILTGCNFLENKKPPLEMVAFNSLTSEEKNKIPVSPKDS
+IVDKVTADKQLGKQLGDEYVGDTLYTVTFQGTEDETNGRLVVYININKETVIGKGYEKNA
+SPTD
+>tr|A6CTE3|A6CTE3_9BACI
+MRTIYLDNAATSPMDPRVIEVMTEAMKGTFGNPSSIHSSGRDARQKLDSARMTAAKSVGA
+GFHEIIFTSGGTEADNLALSGTAHALKEKGRHIITTSIEHHAVLHTCAQLEKEGFEVTYL
+PVNGQGLVSVKDVEAALREDTILVSIMYGNNEVGTIQPISEIGELVRNRGILLHTDAVQA
+FGMTKIDVETENIDLLSISSHKINGPKGVGFLYARKEVPLEAKMFGGEQERKRRAGTENL
+PSLVGMAEAIRLSQQEMDKKIEEYIEFKNTLIETLKEEDIEFYLNGDLQHSLPHILNLSF
+PGTDVESMLVNLDLAGVAVSSGSACTAGSIEPSHVLLAMFGKDSERLRNSIRFSFGITNT
+KEDIIYTAKEVAKIVNRLRK
+>tr|A6CPV6|A6CPV6_9BACI
+MFRDFENGTAFKPQELRLIPMLDEVEAWSKALKTIRCLQEQRIVFFLLEIVKEASST
+>tr|A6CQW1|A6CQW1_9BACI
+MHWYEKLNQYFPVEEMKSKEHMETLLRERSDIYHKDEDEYHVLMYAELEDFIFIDYLFVS
+SKARGQGLGHKLIEKLKKKGKSIILEVEPVDYDDTDTEKRLKFYKREGFEHASSIGYRRR
+SLATNEINEMEILYWAPNNESEEMVYQSMIKTYELIHTYKDTKFYGASYQPAEEVLNLEE
+DKNKDILKDI
+>tr|A6CTR7|A6CTR7_9BACI
+MPIDEEATRANMKIQGAFYEDKDAIQGRGRPCVHQ
+>tr|A6CU84|A6CU84_9BACI
+MDDKMFEKRMETLNKSYERMPVKTEVSEVINAIENERSPKNRRESSFIGLTLQASLVFS
+>tr|A6CIA9|A6CIA9_9BACI
+MIEVIGDKVVLKEAAQEDMEELYFWKFEERGQEAKKWNGPYIPEEKISKADYHQQWGQLI
+FPGFPAALVIKCDGKAIGYVGAYWIDKNTNWLETGIVIYDPYYWNGGYGTEAYKLWIDTL
+FTSSELHRLGMSTWSGNTRMVKVAEKLGMKEEARVRDARVVNGEYFDAIKMGILRKEWEE
+LNRGE
+>tr|A6CII4|A6CII4_9BACI
+MFCSRLITAVLCYVEGDKLKGKHIFIIVIVLFGMLSACFQNPDFEMYEGEALNIGVIGEP
+PAIKEVQVKFNEISFDELNNRDLSPYDAIFITKEHLIEASESQYAELYKNSAIPIFFISA
+RSHIPFTVEDEKYSDSWGWSSGTNHSVGILMSEDGETLNSWGFGLYNDEKTDAHIKDMYS
+GIFKTIDEL
+>tr|A6CTW1|A6CTW1_9BACI
+MAASLVSSFKTFLYVNAQIIINPQVNVSCSVEDLEIYPAALLGYNETKGERRMTK
+>tr|A6CR18|A6CR18_9BACI
+MSAFLASGEITGRKKLQKMIYIAKKLSFPFQEKFQFHFYGPYSEELTLRVEELCNMGFIS
+ELKEKKGGYFQYRYTVTEEGQGFLNMYETEMPYLQDCLEDMNEQPSRFLELVSTVLYFDN
+LSREEVEEKVFTLKSKQKYTVEEIDAAYEYIEGLKKRIVN
+>tr|A6CN01|A6CN01_9BACI
+MRVKCTLCDVIESINDESLTAKRLRNRPIHTYMCEICQDRITKRTKERADTGNFRLYRSV
+KSKNDF
+>tr|A6CIP0|A6CIP0_9BACI
+MKNKNSIVVLTVGFTAIFLLIFSMTVDETDTRTDYKEELAGFDEIDKINAKHLKKRDEIQ
+ELKQKAINEIVLVEFQEEFHLNLSEYVNIELTSLPNDLINELPSSSQFHPRYTLAFRNEI
+KGFVLHKDPNSGNNQLVSLQKAGGKWIVTDTDVLPGKKYTAEYIQSVERRVEKDYEKGI
+>tr|A6CH71|A6CH71_9BACI
+MKYNYRNLLEVYAKVVYTHKTHEKAVERLENRIRVLKILQIVLLSLTSVGVLSTITDILK
+PFIDNNIIILTSLNVLVLLTAFTATGLSIYDLSSSDKEDVLKHKTTAIKLLFLREKYIAL
+LSDYRDKLINNQELVNRRDTLNEKINGVYSEAPQTHHKDFVAARKALKINEEFTFNEGEV
+EKFLPVYMRDNYKDA
+>tr|A6CU50|A6CU50_9BACI
+MKRAYYIEVNEMILLQVNQIVKSFGAEVILSNIKLELQNRDRIALVGRNGAGKSTLLKII
+SGQLSYDSGEIIKPKEVSIGYLAQHTGLESGLSIWDEMLSVFDDLRKLEEDLRKLEQQMA
+DPAVYEHEEKYNRVLKEYDTIQVEFKESGGYQFEADIRSVLHGLNFAGFDYNTPISTLSG
+GQKTRLALGKLLLTKPDILILDEPTNHLDIDTLSWLEQYLQGYEGAILIVSHDRYFLDKV
+VNQVYEVSRSNSKKYHGNYSQFLEMKAEMYEREMKQFERQQEEVAKLQDFIQKNIARAST
+TKLAQSRRKKLEKMQMMDRPQGDEKSATFSFTIDRQSGNDVLKVNDLAIGYGNDVVSSSI
+NMTMSKGDSVALVGPNGVGKSTLLKTLIKRLQPIKGSFTFGSNVSVGYYDQEQAELSSNK
+TVLNELWDEYPMKDEKEIRTILGNFLFSGEDVLKPVTALSGGEKARLALSKLMLQKANLL
+ILDEPTNHLDLDSKEVLESALIDYPGTILFVSHDRYFINRIATKVIELSSDDATEFLGDY
+DYYLQKKSEILELALLENSNKVQSQGPVKTEKQNYQLDKEAKKLERQRKRRVEELEALME
+ELEETIGKLETELCDPEIFQDHEKVIKLNQAMEESKNALEEYMEEWTEIEELLQS
+>tr|A6CS85|A6CS85_9BACI
+MMNNTLKKQYKFSSGTRITGKWHKQHYTIVKELGYGANGIVYLAQTGADYVALKMSDSSM
+SVTSEVNVLKAFAKVQGAPLGPSLLDVDDWEVTGKNIPFYVMEYIQGPDLLTFVQSKGFS
+WTGVLIIQLLNDLDRIHKEGWVFGDLKPENLIVTGPPYKLRCIDVGGTTMQGRAIKEFTE
+FFDRGYWLGHSRKAEPSYDLFSTAMILINLSYPKRFNKSGSGGKEQLKTAVLAKPELKKF
+REPIMNAIDGKFTTALEMRQSMLDTLSVKTASGQSKAAPQSQRKPAATTRQQLNRKKNGG
+GFLETVLIVLIVTLLYVLYIYGELL
+>tr|A6CJC4|A6CJC4_9BACI
+MLMRESIYRMIDEKAEIVLLEEQGCTSEVRKLVTQNNSYILKSSFTSKYREWLKAEADVL
+KNNQHLPLPQYFEFIEEENSSHLLMSFEEGVPLRKALEIAESLQEEKDLIKSFGLFLNNL
+HEENLVNFKDHNWLQRQLTKAADYLQNGEADGTLELLHHLKEKKPEPVQQTLIHGDCTSD
+NVMVREGEVSLFIDVAGMTLGDPRYDEALAIGRFKDKKEYLEAFYEGYTRYRITEEEYRY
+FDEGLYEFF
+>tr|A6CTP4|A6CTP4_9BACI
+MLTIKLLIIITLAVVFLLLLLYFYTYIKNKYQSVQIITLESFMNADFVKEKAEMTPKGII
+DAMNDFFSDHNEGGGHINDSDDGGDGGDDGGE
+>tr|A6CJ64|A6CJ64_9BACI
+MRKREDGEKRTAMLKELLGSTGEAVYMEPNIRFDYGYNTHVGENFFASFDCTILDVCEVR
+FGDNCMFAPGVHIYIATHLLDRTERNSGREYAKPLSFEITFGLAAVQSSIPV
+>tr|A6CHX5|A6CHX5_9BACI
+MKKLKRITVAALVLIALSAAGTSVSAQEEDLPPPNGGMPALSGQ
+>tr|A6CQT2|A6CQT2_9BACI
+MNLRTKYGIPSNAVITIAGTVGVGKSTMTNGLANALGFRTSFEKVDTNPYLDKFYEDFKS
+WSFHLQVYFLAERFKEQKKIFEYGGGFIQDRSIYEDTGIFAKMHYEKGNMSAVDYDTYKS
+LFDAMVMTPYFPHPDLLIYLEGSIDDVVDRIRERGRPMEQQTPVDYWQEMHVRYENWIDS
+FNACPVLRLNINDYDLVNNENSIEPIIERIGYFIEQTRLLKS
+>tr|A6CRE0|A6CRE0_9BACI
+MLKNQKGFTLIEMMIVLLVISVLLFITIPNVTKQGTSINNKGCEAFRNMVEGQVEAYRMD
+KQKIPLNLQELADAGYLNQEYQQCPDGRALAIDSEGAVSVVVE
+>tr|A6CLH1|A6CLH1_9BACI
+MEEIRGGNRKETLNEIHEVLTDGLQRELHPDENKLITEWTATFDHEERATIINMLKELLN
+KHKRHD
+>tr|A6CLK9|A6CLK9_9BACI
+MKQTIYLKNSLLGLVFFSLLFWGSIFLFRGDIHSFGISGLSISAIASALILQFYAFKRSE
+GLQRSFLSLLLFGTVLYAGAKSIWLYEEGMTATSTAVPFWIELFYIFNILIVVAAFLSLT
+YVIKNRYQVIYFAIDILIIYFSITAILWVFWLHPLYQDAGVAYEIGASSFINPALELLLL
+LALLTTMFVKKYFLPMRAMLLFTISIALLFIGDSFGVLSLFYGRIGSAGIPELLGSAALI
+LQGIGAVELLKMKAFFRKGENNFNYEAGAYPAARNIVNIGSILTLFLVYSSSGDMLAGAA
+LLLIVFLVYSRQLLTGSQLKKMTASYQNLAMDLENQVNIRTEELRKKNSELKRSSSRLKY
+MALHDQLTEIWNRRALESRLQTLFERSLDDEEVKFAVLFIDIDKFKEINDRLGHSYGDEL
+LIEFTKRVKREFPPDAFIARQSGDEFVVILEGRQSKDEIEGAIQKFFAANEEGYTIFGEE
+VHITFSLGASFFPEDSRNMNELLQAADMAMYDVKQQGRNNYQIN
+>tr|A6CSQ8|A6CSQ8_9BACI
+MIIKPRSIPLELLQLQALDERLAETHIAKKLVCEALGRRMAGYKGEVSLNYPLSYLSTED
+FFILHNVRLFDGSHYFQIDTLILTVKFILIVETKNMTGVLYFDTEFNQLIRTNEKGEEGF
+SDPLLQVKRHKIQLRKWLATLKLSHLRIETLVVSSNSRTILQSSSDTVHKKVIHSGQHPF
+QFDALQEKYKREHLLKEEAMGLANEIVKQHIPLQVDVLKKFGISPDELIKGVKCPHCECL
+PCKRAYGKWVCENCGGESKDAHIAALRDYALLLGTEVTNGEVREFLRVDSGATINRVLTS
+ANFPSRGTRRWKVYSLKNLINED
+>tr|A6CU88|A6CU88_9BACI
+MSKPIIFKLFVILLFVLTAGCSNSATLEESQEEAVEAVRETFESPVEDAKEETENFQFHL
+PSGATIKEKNANNVIIEDGNNTYILFIIRTLLPTMNTYMNSLYKMMPRSLNKKPFQMKKG
+LVFL
+>tr|A6CI85|A6CI85_9BACI
+MLHAALWGGITSLSLFIGALAGIYLRIPKRIVAYIMAFGTGLIIGSATFDLLSEAQGNAN
+LLLITVMFLLGALLFTIFELVISKKGGNERKRSKKNPHGHAGLAIYVGTLMDAIPESIII
+GISFIGSQPIQWVFIFAIFISNLPESLSSSIGLRKDNYSVRKILFLWGSVVVLSSVSAML
+GYVFLQGASESVSYLIGAFGAGGLIAMVSSTMLPEAFEQGGPVVGFISSLGIILSYILTN
+LQGPAF
+>tr|A6CPZ6|A6CPZ6_9BACI
+MKLYVQQSIHIQMIKIGGMSNSSVFQIGTSGQILPASYLYNTGGFVEPAPEPVKNGPPET
+ANEVVVPLSAPS
+>tr|A6CTB7|A6CTB7_9BACI
+MGKVNKLLPEGMAEINYNGQKTIAKLEAPLAAGNQYLFQTDFEEGILKLRVISEFPSEAK
+ISNTALAEKLLSDLQLPKGGSVKELVSILVKNSIPFSKAELALMGELLAGTTEKQSGIEA
+IVKLKGDQLPVSKPLYQSYLQGKSMEPVSAMLEGLETSFNKTDNKSIEMRNVLRILNSIK
+EVESTSLFQKVSARISDMLLNPKVSDSQRAAALNLLQLTGLLPEESTLESVKTLPVKEGM
+PNQPTGPFLNSSPSHSQVRDKLTTMQELMAVIKAPDTKIQGLVTDIQTILKGLESEKVAY
+KELLTRAISLIKEGEGLLTQKGMLPLLSEGDRFNLLFGLHSEKEKQVVSHFSQMIKQLPE
+NGEPQQPALKLLQQLLFTDEGNGAGLHKENLPDIIKDLIARLGTNHEAKLAAGIPAEKSH
+NETLKPALIALLQDLPQGEAREIAEKLLYRLNGHSLLSGENGPLQQIVYQVPLTWMNQKT
+DVTFQWSGRKTAKGQIDPEFCRVLFYLELEAISEVIVDMGVQNKVISLNIYNDNPLLKEL
+SAPFSPVMKEGLEKLGYKVSVINFKVPDDSVSTKSVYQEMAGDISYSGVDLKI
+>tr|A6CKW5|A6CKW5_9BACI
+MRKELLFAFAAFFFMSLHAIAGSFAEEHTVPNVLAIKTYEKDMTGDGAKDQITLWGKPFE
+PGALFYKKIWAEINTSEGKEVQIDYEGGYEPEIQFPDLNHDGVKDLLQSSATGGSGGLYS
+YSLYTLADNVEEEIGMPPALSIEAHFENDYKGVITFNDTNESVTVDLSDRKDDYERLGIF
+QDGKLNEPTEMMVIPYAMFETVNIPDQKGVGLKGIQRISGAYQADGIGNVYSYWYYEKGQ
+WNLTDVQWEDN
+>tr|A6CRP9|A6CRP9_9BACI
+MFSLTFSVYGVEVFVDLFKKIGIYPGMREFLSDLELKFILLIFLMIVCFMVFAALKLIAE
+TINEVSLLFFSQDNEGEILHKVRSGSMVYFIGALVSVVSLRSFLGLLLIFLVTSIAYFVY
+FIYKISPSLTKPGLLGVIFFQVITWSSLFLIVFLVVLKLYNGLLASLPIISEVKLN
+>tr|A6CI87|A6CI87_9BACI
+MANPFETVWNTLKTAIDNIDEPKSPLHIIEAGDCWNYLTLMEEFIRYEEIGLNTTTDDEV
+KEMLKDIISLCEGQVKALSDFMKKEGIPLADVTSAKPESEPNDIPLGVKLTDDEITNGIA
+FKLVTCMTASAKGQADSVRNDVGLMWFGFYTEWTTFGTTLKMLMRKRGWLKVPPYYYPPG
+LPDK
+>tr|A6CK41|A6CK41_9BACI
+MKEVKRMEQLIPFISEVGFPIVVTMYLLHRIESKLEAVISSIRMLPQEMKNQ
+>tr|A6CK81|A6CK81_9BACI
+MSGKKEKNENLKQAERDLQEEKKNESVLDHSREPDQQNRLKDQENLRK
+>tr|A6CKE5|A6CKE5_9BACI
+MLGRVVFLHFVYNALMLLSVIKWGDWRNWRQYYPTILFFIVGDLLKQFLLYEHSMWSYQE
+LYFGANAILKNHTFITLMIMFVFYTGTILIFLGHYPAGKLKQFFWIMFWVGIYFFIEYIN
+LYNLNLINHHNGWTIWWSLVFNIIMFVTLRIHFKNPLIAWALSFVIILALWNIFDVPVSS
+LK
+>tr|A6CNS5|A6CNS5_9BACI
+MENVFDYEDIQLIPAKCIVESRSECDTTITLGGHTFKLPVVPANMQTIIDEKIAVYLAEN
+GYFYIMHRFQPEKRLDFIRDMHAKELIASISVGVKEEEYKFVEQLASEGVIPEFITIDIA
+HGHSNAVINMIKHIKSHLPASFVIAGNVGTPEAVRELENAGADATKVGIGPGKVCITKIK
+TGFGTGGWQLAALRWCAKAASKPIIADGGIRTHGDIAKSIRFGASMVMVGSLFAGHEESP
+GETVERDGKFFKEYFGSASEFQKGEKKNVEGKKMFVEHKGSLIDTLTEMEQDLQSSISYA
+GGSTLDAIRHVDYVVVKNSIFNGDKVY
+>tr|A6CUH3|A6CUH3_9BACI
+MSLTLKEKIVELFSNHKVGTLATIRNNQPYSRFMMFYNEELTLFTATNQHAHKAEDIAQN
+PHVHILLGFDRDSNHEHYVEVEATAQIEESKELKEKFWNDYLKPWITAPDDPEYMLLRLT
+PKTILYYERTGKEPQELSL
+>tr|A6CRE6|A6CRE6_9BACI
+MGDSMSINDYVKFMTQTVVKHFEKSPLERKNIKELRKNERPTFLFRWFGVIPYALMLIFK
+KK
+>tr|A6CRX0|A6CRX0_9BACI
+MKMLPTLFKQALPVLEKLEEAGYQAYFVGGAVRDLLLNRPTNDIDIATSALPQEVKGVFP
+KTIDVGIEHGTVVVIYNETPYEITTFRSEEEYKDHRRPESVTFIKSLKEDLQRRDFTINA
+IAMDRSGTIHDPFGGEVDIKAKTIRTVGSADERFKEDALRMMRAVRFMAQLGFKMENDTF
+ESIKRNGNTLKYIAVERLSAEFEKLLGGRFKKASFESLSETGLYQFLPGLKANVVTSAAG
+MPINHLSTEQMWIMLVHLSKGDKSILEHWRLPSKKIKYISKGVSFLSDRMKIPWDQYSLY
+LAGISIALDVQEVYHVVDPHESTDLQDLKKMYEKLPIKDRGELALTGNDLMGWTGKSGGP
+WIRDIIEKTEKAVIQGEVSNQKTTIREWLGLCNHQ
+>tr|A6CK55|A6CK55_9BACI
+MSLDFTQADINNSSDQTNSLETLTEGHVFYRFQNEEVYIDKLLSFIKTGIERKQHILIIE
+NMRTTLKIKSKIDSIFSDEQLQCISLVNNFDYYLSSGDFNTKVIIEYFQKDLSVLKKFNS
+SIRTWAQVEWASTEPDEELLRKFESSADDFVIEARMLSVCAYDSHRLNPRLNTTLEQLHK
+YIMTDDTFQLSPFYNK
+>tr|A6CN51|A6CN51_9BACI
+MFEHTTVLLKETVDGLDIKEDGVYVDCTLGGAGHSEYLVSQLGVTGKLYCFDQDQTAIDH
+AKEKLAPYLDRVTFIRSNFRFIKEELAERGVHQVDGVMFDLGVSSPQLDTPERGFSYHHD
+APLDMRMDLEGDLTAHEVVNQWPYEKLVRIFFRYGEEKFSKQIARKIEAAREIKSIETTG
+ELVDLIKEGIPAPARRKGGHPAKRVFQAIRIAVNDELDAVEEALEKSIEILKPSGRISVI
+TFHSLEDRITKTLFKEKASGPDLPHGLPVIPDAYKPELKLVTRKPILPSEEELERNNRAR
+SAKLRVAEKA
+>tr|A6CL52|A6CL52_9BACI
+MEPWKFTPERIAFFRDLTFVEALDSQRELHYLFFYKEQFLTCKKALKLKRSSFIEQAFKE
+GIVFLCPHPLAAVLMERNTPFKMSSFNDLHKKLLNTMTNQETAYIFRALDAFLSNEKLFR
+LIRNLYYEYRRNGQFLHAYKILWILAETFPNHSWVRQTSADLNFRSYEKLYNQRPINLLE
+KDPLYAASELWKQRHEKENNEALQQLLLQQKQALTTTALMIESFLKNPCGENLQSLTLWI
+RTHFSADEERDILFQLAKALPDNTGIFQQFLQASIESGEYEKALDLLSQSPAGLKSIDAN
+LLSGIIEAVQWQKTDIPLEKLNTLIISVLQEQPAKLDKILKSCVQSLLKGYDVPFIVKWM
+TPLKTQNISLPIAAKISKMLALLDDPERQSQLGEHYYQLDNIDRAIDCFSWEMELRPDDP
+QPVKWLSRLYQEKGMANEAKAYQQVLVEMQKRA
+>tr|A6CMG0|A6CMG0_9BACI
+MFILMISSALAGCSSSESGAASGKKEISFIHWRGEDSEAFKELISRFEEENPDIKVEMTV
+YPSEKYQSTAQTLLRDGSTGDVFTAFPGSQFEIIKKAGLFEDLTGEDLIGNFNENLLAAG
+QSDGKQLALPLQLVYNQPVYNKTLFDELGLEPAEDWEGFLELCETLKENGYTPIAFPGAD
+IGPGQMMNSMMMNNAPEGVFGELMNGETELTEDWWVKTLTQFQELMDKGYIGEDALGMKH
+EGAIAQVAQEEAAMLASGSYAMANVKELNPDIELGLLAPITVSADEAQYEGIHTTTFMLA
+VNSMSQNKEEAKKFIDFLSQPENAEFYANETGQFLTIPGVNYESESLKAAADWMDKNTRF
+QPRYLIPDADVEKAVIASIQNVLSGEDPEAAAQQAQEIVNQKIQ
+>tr|A6CQT6|A6CQT6_9BACI
+MKVTQNIGIVNALIRITVGFTVLSWATAKLVKMPWRDSYLWMALLGGMKVGEGILRFCPI
+TAMFENQDSEDNGTKEGKSMMNITSILKGNNGESSQKKTDIDSDEKTQDMPALPYNPS
+>tr|A6CUB6|A6CUB6_9BACI
+CLTLFLLSISGVTLNVLTLGGVAVAVGRLVDDSIVVIENIFRKMQNEKFSVALIIEATKE
+VGSAITSSTLTTVAVFLPIGLVSGSLQDFLLPFALTVSYSLLTSLLVALTVVPLMSAGLL
+RNAKLASHNPPVRFKNWLTWSLNHKWVILLLTFVIFAGSIGTFAAMPKGAVDNSSAEFVI
+TTLKYPNNTPVEDVKDNTLKLEDFINDLEGVKFLYTQLGSTEDSAQFGEVASATEARFSI
+IPDDNADINKMIEEIETQESKFPGAEVETIAASMMGGSSTNITIDVIGNDTAALEDNGEK
+IKEAIADIAGVKKVETNMEEKKTVYSFEVNTSKANTSQVAAQLAMMLNQTPVGTMEIESK
+QTPIILESSLNPENETDLKAVPVMTDTGIVKLSDIAELKSEDKSTTMFHKDGEAYIRLTA
+AVDPEKLSAISAKMNEIIFGTKETDGLDIPKDVEVLIGGASAQQAEDFTDIFVTMLVSIG
+IVFLIMVITFKTIRAPIAILCSLPLAAIGAVLGLLISGITVDITALLGGLMLIGVVVTNA
+IVLLDRVRQNENTMIIREAIVEAAAIRMRPIIMTAVATICAMIPLLFKQTETGNLVSASL
+AVVVIGGLSVATLLTLVVIPVIYELLHFKK
+>tr|A6CK51|A6CK51_9BACI
+MGKGGLEKDKGVEKMNNMNMYNFEGFLGKLPDFILALVVLLIGWLIAKGVEKAVYKLLNR
+TGMDDKLFSHIPNKKYSSEKIISKIVYWILLLIVFIIALNILNLDLIAEPLVNLMNSIFG
+AIDNILKAALILLVAYAIAKLVSYGVRKLGEASHFDHLLVKWKLADTEKDAHAGIDKTAK
+VLFYLVLLLFLPAVLSALDITGISEPFTDMLNSMLAFIPKLLAAALIVLVGYFVAKLVRT
+IVTNFLHTIGLEKLRSRLGLNNTLNGTTLSSLVGNIVFILILIPTVIAALEKLDIEGVSG
+PAIDMLNDVLTMLPNIAVAIVLILVGLWAGRMAGKWTTNFLDQLSINSLMSNMKVGSWKP
+GESTDSLTITKILGYIVHFVVALLFIVEALQIVELEFLVTLATGVFAYIPSVIAAIVILA
+VGLYLGNIAKKVLTSILNGNNKNVLAAVAKYAIIIMAFFMALDQLGIAQSIVNSAFILVL
+GGVALAFGLSFGLGGREFASNYLSKMENNLSDISVDKEKAKRKAQENQKDDWTSSMNEDG
+TIDNQPNRFDDDFPKR
+>tr|A6CI06|A6CI06_9BACI
+MEAGTDADYDWGKNDVEGTTGKRLGRNP
+>tr|A6CLW0|A6CLW0_9BACI
+MSIITIEKAVSEDADKLTKIMKRTFDEEAKKWLAGQTGVVDYNIQPPGYASIEMTKYMIE
+ELEYFKVKYKGKIVGGIILTITGTSFGRIDRIFVDPEYQGKGIGSNVIKLIEEEFSMVRT
+WDLETSSRQINNHNFYEKMGFKTTFETEDEYCYIKRKGSLSAPEGKDISNIQYENCNMER
+TECYQVNLEGSSFSNSNLANTHISNCNLSHSKFQNINLTHSLYADLNLSNSTMKLVTLGG
+VCFIDSNLGEDEQPVSFERCDLKGSTISNSNLQNVEIKDSEITGMKINDISVEKLLEAYY
+QVNKE
+>tr|A6CN86|A6CN86_9BACI
+MENRPFKTVFFPLLSATVFIFGFSHAGSFALDRFTEGSVIHPSTKVASVDIGGQPEEKAK
+EALAQAVADWKATANMSVELSGEETPIDLSVFHIDINRSFQSLNEGGQTPMAVSLDAEYL
+MEQLTAAYPEMKVEELDAAAFQQDLLSQASMLPSSSVLSLSDYFPEGSVQEVTAEALTEE
+ITVTPEIKRFIETFPEIVIKQGTDFSFLRHMEENGFAAEEKGEDLNAVSSLLYKLILQSN
+FSIIERNTSQELPEEIELGYEAKIDGGSNQDFVFANPNKTDYVIQLELLNNQIYGKLVGF
+PLATDYKVSLKDKEEFSPKKIVQYNPFLDKNVVQVREEGRKGVLIKVFRQSIGENGELME
+EELIAEDFYPPVHRIEIHSLEEAPEDVEETDIVEGPLPDTGSDTEGSGGPPPNSGSSDDS
+SGDEKSDEDKSSSETETELESGTSSDSDSDSKGTKSQEQKKNK
+>tr|A6CSP3|A6CSP3_9BACI
+MMKKKLISVSLSSMLALGGFAAVTMPAAAVGNGPNYNGNESVQTSRLTTYGELTEFLKVQ
+AAKQDAMELEVIGQTVKGKDIHMAKYLSHPDNPTVLFLTQQHGNEQLTTEGALEFIRHLG
+TNKLKGVLGNVNILVIPMLNADGAMGDVNFSLEDYIADGDRHLTRYNANEVDLNREHAKE
+TSEMEPEARALHEQVLMKYDIDYMIDLHHQGTLSGINGELVSGSMLYPTNPNVDPEVLEG
+SKKLGSIVYNAVDSKGWGLIGKYRGGTGENIGRNGAAVRYDISTLLFEMRGMSDHFYEPY
+VLGQKSNGYLIKQTVETLSSTVEALADGSIETADTSFWDTLPEQEWMGEE
+>tr|A6CTU9|A6CTU9_9BACI
+VPITLQTFFCVLAGLILGSRLGAISMTVYALVGLIGAPVFAQFSGGPGIIFKSTFGFILS
+YILAAYVVGKIAEKNPTKKGFIIAALVGMAVNYVFGTNWMYAALKLWAEAPEGFSYGMAW
+AWMLAPLPKDIILSVFAGAVAPRFLTAIRKNSPTLNRKAA
+>tr|A6CJY6|A6CJY6_9BACI
+MRDILNFDQESYPFEMFSPVHILAIGTSILLIIFFYLGRNRLKGDLKEPARYILVGLLIF
+GEVSFQYWYYFNDRWDMIINLPFQLCSLSMYLCAIMLLTRSYRIFEISFFVSMTGAFVAI
+LTPELFFGFPHFRFFQFFIAHIAIVLSCLYMVWIEGYRATYTSVFKSLAALNLLAFLVFL
+LNITIGANYMFLRHKPVNASPIDFLGPYPWYIFSLEAVAFILFSLLYLPFHYSKKKNYSR
+QY
+>tr|A6CSR0|A6CSR0_9BACI
+MTGISGKKKECWEAEKMENQHNRMRREDVPEKQTWDLRDIFSSREEWEKELQAVQADVKS
+VTQFKNRLHESGQVMLQCLEAKEELLKRFTLVYSYASLKQTADHTDTTSQKDAARAEEAG
+SRINASLAFVETEIIALPKEKLNTFLEEEEGLASFTKYLHDLQDRKPHTLGEETEETLAA
+LGSVFSAPYNIYNRGKLSDMQFDSFIDEEGNELPLSFALYEGKYSSSPSAEIRRNSYESF
+IKTLQQYKNAFAAAYATQVNQEVITARLRKYDSVTDMLLAPQQVTKEMYNNQLDIIQEEL
+APHMRKYARLKKRQLGLDNLTFADLHAPLDPDFKIETSYEEGAKTVKDALQVMGDEYNEM
+IDKALSERWVDYADNVGKSTGAFCSSSYGAHPYVLMTWPDTMRGTFTLAHELGHAGHFYL
+AGKNQRMTNTRASRYFIEAPSTMNEMLLGHHLLSKDNDKRTKRWVILQLLGTYFHNFVTH
+LLEGELQRRVYGLVEDGEPLTASVLSEQKADILKKFWGDTVEIDEGASLTWMRQPHYYMG
+LYPYTYSAGLTVSTLVSKKIIDEGQPAVDRWLDVLKAGGTLTPLELTKEAGVDMSDPDNI
+REAVAYVGSLIDELEESYE
+>tr|A6CM75|A6CM75_9BACI
+MDYDHQKAITEYFASFIEALHHSGVRKVVISPGSRSTPLAMLFAKHPQIEVFVNIDERSA
+AFFALGMAKADREPVAILCSSGTAGANYYPAVIEAKYSRVPLIVLTADRPHELREVGAPQ
+AIDQINLFGSHVKWFDEMALPEQSDSMKTYAQRAASRGAAISRSIPEGPVHFNFPIREPL
+LPDMSYSFKEEKNATIISEGARSVSEFDLKRLAGVLDVKRKGIIVCGPHSDPKLADVVIN
+FAEKFNFPVLADPLSSLRSGKHDKSQVIDGYDSFLRNNQFKKSVKPDFVIRIGAMPVSKA
+LTLYLKDQDVDHWIIDSGGQWRDPAGRATEMIFAEEAQVLNELTEIVNASGADDEWLDKW
+LTINQKTQELTVNYRKGNDPLDEGMAVRGLIETLPDHSAVFVSNSMPIRDMDTFFVNNDK
+SITVMANRGANGIDGVISTAMGVSASGRQTYLLIGDLAFYHDMNGLLAGKMYGLNLKIIL
+VNNNGGGIFSYLPQANEKEHFELLFGTPAGLEFSHAANLYGANYKKALTYEEYMSALSDW
+ETDEGFSIIEAVTNREENVRNHREMWENVSREIESLL
+>tr|A6CJA0|A6CJA0_9BACI
+MNVNLKTMEGFAVEKEPFKGEKQYLKGMDTSMLESYLGFVEEGRRHILHKLAASLLREDI
+GNLYTERIELIRIGSAYLPSSVDGYRACERFLPQVQTLNLKEHLTYWLKSFKAYILLFPI
+QNEFAFRRVTMEGDILLITKDSCRRVETASELLRLMSLEKQSERLQEELDNGTANITMAY
+SYHQEWANQLRQEARKQDIKSTLEYNTAKKKEEPEWSSMLFYEQLALEGHHLHPGTKTKT
+GMSSEDVRRYSPEFHGKFPIFFVAVHKEHLHKSELVPKTIEKLFNNQYLAFKRTLKDQGL
+EPASYQLLPVHEWQYHHSLFSIYREEIAANIIIPLPSITAQGTATSSFRTVLAAEGKSPF
+IKLAVNSQMTSTVRSISKNTALNATVFSEMTEKILEREPSLKHFIPLNETAGYAFKSNDN
+AKSRNLTVVIRENRENDLEEDEFPIAGSSLYNKSPFTNKTILRELLDEYVYFYDLPKREG
+GISFFKQYLSITLPGFLTLLTKYGVALEGHLQNSVPVFKNGKPVKFYFRDWGGARIYTKR
+LKAQGLKPNFLSGSLIQTSDPDEMYSKAHYTIIQSHIGEIIRQLVECSGLNEGLFWREVK
+TAMENVFLSLSYSAGQNVKEDRIFFYQEKMRHKALTKMRMSDSDGYLYSSVTNPLAKKNE
+>tr|A6CP06|A6CP06_9BACI
+MSDTASFAALPEEEKMAHFMKRIEAGEKIEADDWMPDEYRKTLIKLISMHAISEIMGALP
+EKEWVPKAPTLGRKLGIMAKVQDEMGHGQLLLRVAEDLMKPYGKTREEIMQDLFSGDLKF
+HNVFHMEAPTWGDAGLIGWLVDGAAIITQTNMLGASYGPYARALKRICAEEVFHAQHGEA
+IIMALAEGTPEQKALVQDAVDRWWEALLMFFGPGSASTTGSSKQDITIKYGIRTKTNEEL
+RQDFFTKYVPRILSLGLTIPDETMHFDQEKEEWIYQQPDWSRFKEIVKNNGPKSKERLDL
+RRISYENNAWVREALSGDTAAG
+>tr|A6CQP2|A6CQP2_9BACI
+MKKMNDTFLKAARGEKTDYTPVWYMRQAGRSQPEYRELKEKYSLFEITHQPEICAYVTRL
+PVEQYDVDAAILYKDIMSPLPSIGVDVDIKPGIGPVIDNPIRSVADVEKLGEIDPESDVP
+YILDTIKLLTKEQLSVPLIGFAGAPFTMASYMIEGGPSKNYNKTKAFMYAEPKAWFTLMD
+KLADMTITYGRAQIKAGASAFQIFDSWVGALNVQDYRTFIKPTMEKIFSELKKENVPLIM
+FGVGASHLSMEWHDLPIDVVGLDWRLPVQEALSNGITKTVMGNLDPAILLAPWDVIEEKA
+KAILDQGIANPGHIFNLGHGVFPSVKPETLKRLTAFVHEYSAEKMRG
+>tr|A6CP81|A6CP81_9BACI
+MFFMIKDIETLFFIKELGRLFDDYKRCPDQKTKALIEDEILFLTEIINPV
+>tr|A6CPZ7|A6CPZ7_9BACI
+MQQYYTLQQIYQYIAEQNQRIQNLEKVIQELQQEVSSLKEKPSINVEKIEYKFDQLKVET
+LEGTLNIGLNPSDLEKIEDLAVDANPPTPVPPVKQIDMEGIEKTLMPQVNEYIEKEVPGI
+ISDNELQLGISLDESYHALIKEDIKKQIPQRIQFYVQSMPRHQGAQPDDTSWEDKIVAKV
+KSDINNAIYSFMANLPENLKGAGNNESARDQS
+>tr|A6CR76|A6CR76_9BACI
+MGQRESRTRRMLARKGCKWANEKAEPEGCWSVKGVNGPMRKQNQKDAGPQRV
+>tr|A6CL56|A6CL56_9BACI
+MDNGKSNVKGNVSAGNVLLFLFPSLLGIFLFMIPIPQGDGVTIPIAVLSGIIQDNIGAFV
+PSIMTGLIIVTVLGSFTAKFFKPDFIMNNAFLNNLFAVNMVWLIIRLFGGIFAVMTLFQI
+GPEWVWSDATGGLLLSVDGLLTILFSVFLFAGLFLPLLLNFGLLELLGALLTKVMRPLFG
+LPGRSSIDALASWLGDGTIGVLLTNKQYEDGYYTKKEAAIIGTTFSVVSITFSLVVIAEV
+GLGNYFLPFYGAVVLSGIVAALIMPRIPPLSRKPNTYYNGQEGQDTMDVIPQGYSRLGYG
+FEQALIQARKNNSFKKFFKDGFKNVLDMWLGVAPIVMAIGTAALIIAENTPVFGWIGTPF
+IPILELLQVPEAAEASKSILVGFADMFLPAIFGSSIESELTRFVIASLSVTQLIYLSEVG
+GLLLGSKIPVDFKDLVIIFLERTLITLPIIVLIGHIVF
+>tr|A6CM28|A6CM28_9BACI
+MYMTKSKHEKERQWNVRKQDQHPHGKVESFKELEGENLTKGKQ
+>tr|A6CLA0|A6CLA0_9BACI
+MKKDFERFETKVIHEGYNSTEYNDSLAPPLYQTSTFTFKDAQQGERRFAGEEGGYIYSRL
+GNPTVTMLEDRMAALENGEAALAFGSGMAAVSAVLLSMTKANDHILCSQGVYGCTFGLLN
+LMEEKYGITHDFSAMDSADEIRRSIKPETVCIYVETPINPTMKLIDLELVASIAKEKGIP
+VIVDNTFSSPYLQKPLDFGCDIIIHSATKYICGHGDVIAGIVVGKKDLMDHIRMTTQKDI
+GGVISPFDAWLLLRGLKTLPVRMDRHCENAGKIADFLKEQPQVEKLYFPGDADNPNYETM
+KKQMSKPGGLIAFTIKGTKETAQQFMNELKLIKIAVSLGDAETLIQHPATMTHAVVPEES
+REKMGITDTLLRLSIGLEAWEDIQEDLLQAFSKVK
+>tr|A6CKH1|A6CKH1_9BACI
+MGLGGNLVKVKRYSWLSYSSIGLGILLILHPLLTNVFPKYFMNLQYIGIPLTIIVSLFAL
+QKKNEKKLLATIGLSLGIIMMLFVAVILYISLNKYSPI
+>tr|A6CNP4|A6CNP4_9BACI
+MDRLFGALIISLTLLTTALVSVILTEGGFIIAVICIGLAALIGITLMTNGEERPRRKATN
+GDVEKVLEDDLTKDK
+>tr|A6CSP7|A6CSP7_9BACI
+MDRKTKGYIGGWIQAIGTVLSAISSTSSLRIGEEQSENLNLIGNLLQASGSALAADSEKE
+PTLSKIGNEIQAIGNSLEVGAVLLTEGTVQDELVIKGDLLQALGAASAFADNWDSIPSEE
+ALLSLYGNLLGVIGNSLQAISGIFELEGEKRQHLNSIGSWIQAIGGVLSALSSSVETLP
+>tr|A6CJG6|A6CJG6_9BACI
+MEYNDQVKNRVKRMEGQLRGVLKMMEEGKDCKDVITQLSAVRSAVDRTVGVIVSSNLVEC
+VLEAENRGEKTDEMIKEAVNLLVKSR
+>tr|A6CKA8|A6CKA8_9BACI
+MEQSQKNGFIMRMLNVIERVGNKLPDPVTLFFIFSALVVVLSAVFSSMGLQVEDPLNEGE
+MIAVKNLLSSEGILYLFESAVTNFTGFAPLGTVLVTMLGIGIAERSGLISAALRGLVTSV
+PRVLMTAALVFGGVMSSMAADAGYVVLTPLGAVLFAGLGRHPLAGLAAAFAGVSGGFSAN
+LLLTSLDPLLGGLTQDAAAIINPDYAAGINYAMNYYFMIASVFLITIIGTLVTDFIVEPR
+LGKYKGDVQEEVSYLKPEERKGLWGALIAFLLTVIALALLVIPSWGPLRGGEEELINAPF
+FHTLVPIILITFFIPGLVYGRITKEIKNDKDVARQLSETMATMGAYIVLAFVAAQFVAYF
+SESNLGTVLAVKGAAFIDATGFKGIPLILTFIVVSGFINLFIGSASAKWAIMAPVFIPMM
+MLSGYSPEFTQLVYRIADSTTNVISPLMPYFAIVIAFAQKYDKKVGIGTLISTMLPYSIA
+FTIAWVVMLIIWMLTGLPIGPGSPITY
+>tr|A6CLJ3|A6CLJ3_9BACI
+MKKFGLLVLGGISAIVLLANMGSMIGLAISLMILYFSIKQFVKTESTFAKIIWAVVGLAA
+LTASASNFPAIIGLAAIYLLYVVIKKWKEEKPEIMESDDPFTNFEKEWANLKNN
+>tr|A6CS35|A6CS35_9BACI
+MTNEAVYMNKISFFQPFLPDSSHVETPEHLISIIREKTFQYNRDNISRTKAYQKYYLLHP
+EIKWSFLASMVSRNAGWNMCDLKGAWFPAVIDKETRKDLFLTYERANWLIFQDVFPQLLI
+YHYKTEMDEEMFHLLREFFVSDFMQNEWKRFREEGDRDRLMQSLIINEQNVIEEPVIQHP
+VYKRRVFKTKLFFLEDHFHFSSVVFPTKGGNLYGASVSDFRKLDSRISLGNRLSKILFKE
+DLYFLFKEFALSTEPTGSRRDYERYCKDAPFTGTPLLRTVYGVKEHHIHTPLGDWSQRRK
+VKEKWFRRSQFKEPVKLTKWYFQKQRQLQKLIKIEELFRKE
+>tr|A6CK59|A6CK59_9BACI
+MNKNLQSIAIIILGLCIVLGAWLISSALGENPEPVQQNEEYRYEFLSPNDNNIIIFDKQT
+GEYWRRYIDSTEGPTEWEKQPSPVQ
+>tr|A6CKS1|A6CKS1_9BACI
+MMSSDFMAGIQSPKMDTKLPVYMNLEEIQKLFRSLEQDERPLSLRNEAMFKLLGTTGMRR
+QELIDLTWQQIDLYNETILVYGKGKKERLLPLHSMMIPLLKKYKASLLEHQTHPLEPVLN
+TFHKFLFHSSNKCNQA
+>tr|A6CKG0|A6CKG0_9BACI
+MKLFLFSTVKVINWRDFMKKLFVFVTILFLAACGNSGASSNLEDFDNSDLKEGLQEEAFQ
+SELPTKLPFAVRGATFTPTPGDQRELRQTFQFDGVDGQFMDLRTNSGEVHFTGTDNDEQV
+KIGDHDGTIGETENGSLSLHWKDGDLTYHLMANGDEVTKEELIETAESFE
+>tr|A6CK78|A6CK78_9BACI
+MELNTTNKRGNTQVKWYFKSIKNYLYFEGRARRKEYWMFTLINFLIFWILEFIENYKGWR
+TLLSGLYGLFIILPVVAVNVRRLHDIGRSGWWMLIGLVPVFGPIALFVLAFMDSEEGSNQ
+YGPNPKYS
+>tr|A6CHI5|A6CHI5_9BACI
+MVEIRKKFTESEDYIMRLKKSIPNMFTLGNLYCGFLSIGFAASGQFKNAAILILIGMMLD
+SMDGRLARMLKADSVLGKELDSLADIVTFGVAPSFLVYYTYFYQFGFLGFAVAGLFPLFG
+AFRLARFNVSSDKTGLSYFIGVPITAAGGILALLTLFGNYIPSILTTVVFTALCFLMVSR
+IRIPSFKDIPLPKYGTIVTVFLGCLLFVIYRGTYEQFPYLIYVAAPLYIAYLSYRFVKSR
+KE
+>tr|A6CQ49|A6CQ49_9BACI
+MTNVDRTSIFVDRKREVLSRICILEDRRSKFDDSQTEPEVPIYKKLKSPNSSRSVAISAD
+CSYTK
+>tr|A6CS78|A6CS78_9BACI
+MDTKVRLKRSVLISLVFILLGANVVTLIYFTKAEAGPGLAELAGAETAATVGGETISRES
+WMFEMEKRYGKEVLRELINQKVMIQLAEKYDIKVTDEELDKEVALIKSVYSSYDKDLTAS
+EEI
+>tr|A6CNJ0|A6CNJ0_9BACI
+MEGFPKPSRATVHFAGKRVYLSRGDFFGKLYKIGELADISEVSKRTIDYYTRIGLLECTR
+SSSNYRYYDSSALENLKVIEQCQQMHMTLEEIKQRLTLKKSNMINYQAFEKQVEHIKNEM
+NHLNGEIKDILQVANALDEEEKKKMLSRVSPQAAALLQSLVMFSG
+>tr|A6CNZ5|A6CNZ5_9BACI
+MNKLQYIFKNTLAARLPKWSSGVLLLLCIAGVSKYLGTLFPLVGSILFAIMIGIVINNTT
+GVHEVFQPGLSLTLKKLLKAAVVMLGVSLSFADILYIGRQSFLIILVSVILGIVITVWFG
+KLLKMDRKLALLIGVGTSICGATAISAVKGVIDSDDNETAYAISVIVFFNLIAFFLYPVI
+GHILDLTATSFGIWAGTAVHDTSSSIAVGYVYGNEAGQVATTVKLARTLFLLPLILVLPI
+LLRNEKQKGSQAAKKAFPWFVLLFLGVSVINSFVVIPAPAEEIVTDTAKFIIIMVMGAVG
+LQVNLKQFAKLGFKPLIAGLVASLAVSVISLMMILFL
+>tr|A6CH96|A6CH96_9BACI
+MQKAIYGTRDRQQSRPAQVRVLHAVPDAPNVDVYVNGTKALGNLAFKDISEFMALPAGKY
+HIDIYPAGTSVSTVISKRVTVESGKIYTLAAVGKGNKLQLLPFITDPFVPSGETKVRFIH
+LSPNAPAVDIAVKKGDVIFPKVSFKQATDYLGLTPMTVNLEVRAAGTKDVALALPNVALK
+PNQAYTIFAVGLLGETPELEVLMVKG
+>tr|A6CKX8|A6CKX8_9BACI
+MNTEQKLMSLINSTRVLTSTLNLEEVLDQLNKEVLNVIDGANASVLFLYDKKTGKLYPKS
+SAGFDMTYLKEIRISPGEGMSGQTFQEGRGKIFLSKTDTMDGMSNISGETGELYGKALGN
+FQYPDSAICVPIMTKRECIGVLTVDIYDKKNLTFNENELRLLETFAVQASVAIENAMLFS
+QTERTQEIHEKLTSVSLSKGGLEEITLALSKLVHQEVVVFNEFFDVLAISSSEYQTYVQE
+FLQEEVHILQEVIESEEPLSCFLPRSTISELTFFSIKMDRYKIGYVAIFSEKTSNLDPLD
+QFAIDQAMTIFALEMNRIEKMTINNFQYSGYVMEKLIQNAPDAIAALSQMNFSEYEQHQF
+VVCKMLMKEPLVSFKELTESKSKLTRLIHREISKFRYKTFVLDRNMEIVFMFVLSPYDSK
+ELLIRNVNDFIEGIQNRLREGLELSSYAGIGRIVGSLQEVHLSFRDTKRCVEYLLSKQKE
+GLISYNDLGIQRLFMKTDKEELEEFVQDMLGPILEYDEIRDANLYETLKTYLESNLNMAA
+SAAKLFVHTNTVKYRLNTIKEILKMDWSAGTSVFSLQLALQIQEFLQEE
+>tr|A6CS32|A6CS32_9BACI
+MEKIISLSIPGQVQHPVFYPDVDEKVAIDSLNPNPLNPVFSYEILFYNKRLETSPPWENT
+SYIKDAEAEWLELRERLNEAYSARFPEKIASLMKKAIAHFVMYLFWTNGMPANPAKWEDD
+LQNMLIKPVNAEERLNFVLVRPALFHSYKQLDQLFIEQMKQYAKHQAIHKHR
+>tr|A6CK67|A6CK67_9BACI
+MKRYFIENGTMPVHITEWGSGNIPVIFCLHGLGSTSLSFIDVAEELKGEYRIISVDAPGH
+GKTPAFPNAEDYEMPRMAEWLKDIIATLELKDFYFLSHSWGSFVHLFYLKKYQDRVKGSI
+FIDGGYQSKRHGGKSMEQEMAYYEKDFEQTWANWDEFLTLVKSETMTWTPLKEKAAEDLG
+LRKDGRIYWHARGTTGANIIKAMHKDDIEDIFEDMPPGILLLKATLPHHLVEDRKNQAER
+FQQKTRAEVKDISEATHLLHWDRPQAVVEEVRRRWPDQK
+>tr|A6CM92|A6CM92_9BACI
+MEKFIDLNGYEVHLELGSSELPMEPKHVLVIARHQGTWLLTEHKVRGLEFPGGKAEEGET
+VEQAAERELYEETGAKVLSLTRIGTYMVKQNPPFAKAIFFAEIDFLEGKNDYLETAGPRL
+WNGDFETVKADGRFSFVMKDDVISAALKFLQDQGYLQN
+>tr|A6CR42|A6CR42_9BACI
+MPKTLADIKKSLDSNLGKRLMLKANGGRRKTIERSGVLAETYPSVFVVQLDQDENAFERV
+SYSYADVLTDTVELTFYDEAAGAMILEQ
+>tr|A6CHM6|A6CHM6_9BACI
+MKYSIHPLGDSAVLIDFHDLCEETCMNTMTAFTDAVTDNQHKAIIEALPAYKTVTIHYNP
+LKIHSPSPFKVIEDLLVEKLNGLQPNENSPQKKVITIPVLYGSEAGPDLAFVAEHCNISE
+EKVIELHTRPIYSVAFLGFSPGFPFLKGMEPSIASPRRKNPRVRIDAGSVGIAGNQTGVY
+PISSPGGWQIIGKTPLKLFDPDNPSQPALLSQGDQIKFSPITRAEFERLEES
+>tr|A6CNB4|A6CNB4_9BACI
+MVSKYILGIFLPGLLVVLFTRVTYSQIVGLLLTVALIAASVYKGYTNTWGLIVVDAASLT
+AGFWYSNRMRKKARNRS
+>tr|A6CQV8|A6CQV8_9BACI
+MAEKLLEIKNLKQYFNPGKPNMVKAVDDITFDIYKGETLGLVGESGCGKSTTGRTIIRLY
+DATDGQVLFEGEDVHGKKSRKELKKFNRKMQMIFQDPYASLNPRMKVADLIAEGIDIHGL
+ATSADARLKKVHELLETVGLNKEHANRYPHEFSGGQRQRIGIARALAVDPDFIIADEPIS
+ALDVSIQAQVVNLMKDLQREKGLTYLFIAHDLSMVKYISDRIGVMYFGKLVELAPSDALY
+KNPLHPYTQSLLSAIPLPDPDYERSRKRKTYDPAVHNYTEGEELELREVAPGHFVYCSEK
+ELAQYKAQYKH
+>tr|A6CJ96|A6CJ96_9BACI
+MTPIVKYNFHLLIFFFSLMYLTFGQQLGLPNFLAPVLFIMMIFGFIISAVVGERFKKGIH
+PQFVLVSKMAWTLLYVLFVLTGGLVFGTISANTVQAVMPLAALYLAYALWKLRKNKVKTS
+>tr|A6CP45|A6CP45_9BACI
+MGIILHDSRITKKSIRRKRRRRIIGSILLLIILTGTAGLTVFGFKLYKDTKNTTNKIYQE
+LDSSNLPNNSSEIEITKQPFSILLVGIENQKGGLGRSDVLLLLTVNPGTHDIKMVSIPRD
+TLTYIPAAGIDTKIAHSYGYGGIEPTIEAINKFIDVPIDYYITTNFQGFEDIVDSLGGIT
+VDIPFTFTAQLTGSLNWKTFYEGSEKLNGNEALAYVRMRKQDPKGDLGRNERQQQVMKAI
+VDKGTSFSTITKADDILEDLGNNVKTNIPPSKFISLVKLYSKIKDEEFNLLKLEGYDDYI
+DGVYYYVPDMNSIKEISAQLNETLL
+>tr|A6CQW3|A6CQW3_9BACI
+MEIERINDNTVKFYISYGDIEERGFDREEIWYNRERSEELFWEMMDEVHQEENFTIEGPL
+WIQVQALDKGLEVLVTRAQVTKDGQKFELPIPEDKIKDLPVDERIEDFLDQHFQPDAAEN
+EGSLEFTIKFKDFEDVISLSKKMTASPNEHLSTKLFSFEGTYYIHLEFSDEYFTEEEIDN
+VLSIMLEYGNESSLTVHRLSEYGTSIMDEDVFNTVTKYFS
+>tr|A6CM09|A6CM09_9BACI
+MRNSQDSSPHIATIKNLSQAVFTVNRHAKTAINPKYLYSLKKQALQKMIKEGKATKVGLH
+FSNNPRFSQQQSDVLVDCGMYTFHIPPAKSDFDNLPHLGSLDKSIRNPKCRMSLNEAKLI
+LEKYTGMKESKDASHKPYGRQYQKPVFKKLGDSF
+>tr|A6CMH1|A6CMH1_9BACI
+MNLKHLQEQIVDIIKKQNRLDKGAKVDYKARTKGNTYQLKVSLKKAKHPIWRRILVQDDI
+TLHGLHQIIQAVMGWTDTHLYEFRMGNVLFKLDQEEDWGSSKFQEIHETREVLLGNVLIK
+EGQKLDYTYDFGDNWEHSILLEKVLEEETLASPKCLKGKRARPPEDCGGIECYIELVERL
+KAPEADDEEIQYLRDLDPEHFDLEETNEILSKLVLD
+>tr|A6CK61|A6CK61_9BACI
+MMKPERLKEGDTIGIITPSTPAPVLFSERYERGLAQLRKMGFNVIEGKCSKLSQGYRSAS
+IRDRAEEINDFIRNPEIKAIISTIGGTNSNSLLLYIDYETLRKNPKIIMGYSDVTALLLG
+IYSRTGLTTFYGPAIVPSFGEYPEMLPKGREYFENTVMQTHECPHTLEIPSEWTEEMLDW
+RTQDRAKKLVPNSGWNSLRKGKTRGKLIGGNLNTMSGIIASEYFPDLKGAILFIEDSFKD
+MAIQERSLSMLKLAGVLDDIAGLIVGKHEHFNDCHAPFTFEDLLMEVMGDRQIPIMTNVD
+IGHTFPSHVFPIGIEAELDADNGTITFLEKGVK
+>tr|A6CU19|A6CU19_9BACI
+MYKGEAGETMAFFSDEMITSTIRLFVIVLLSGIIGIEREAKNHPAGLRTHIVVGVGSCML
+MLVSIFGFEDYLKTHEDLRGFDPSRIPSYVISGIGFLGAGTILVQGGITVKGLTTAASIW
+VVAGLGIVVGIGMYYEAVLATIIIVTTLFFLNRFEKLYKKKIDRKDNLLLTLTINKGEGH
+ISKINDVVSSKDLEISQYNIEEDNTDEGPLLIYTLSISTKRPVHVAGLLENLQGLEFVKS
+ANVNKRS
+>tr|A6CJ00|A6CJ00_9BACI
+MKRFLFLFLTLSLMLAACSSGASGSLESFDASDLRSDLEEMSFQPQLPTLVPFEVTDTDL
+RKPPSSENALMVDFLSSDQSSNQLSLMAVNGENVESSEMVFEEVEIDDITGQYAVNDEDV
+MILKWSENGISYNLTYYGEETDHKVTKEELIQTAASFE
+>tr|A6CSN1|A6CSN1_9BACI
+MRKIVLKVSSIDKLRFQNYLVLMQKAESKAEADMYFRLAKKIIQQSRMKKN
+>tr|A6CL02|A6CL02_9BACI
+MNINLILSSANHYCCRPYDSEGLTEALSTITIKGHWRKFGRAGVKNVEAFKLSRKNMADL
+LSSLNRSTEITPLMVLQEAWSSAHEEEMKNGKALKAFISTEMPSIFQKFFKTESVEFGFS
+INEIVSLGNQIEFTNLSPSAVQNWVKRDIKELIGSPQLGRKYTIDQAAILFIVEDLKAAL
+DFESIRKLLTLIFNNPEDRTDDMVSPVDLYSAYASVFDKLHHHTKPGIIDTSHRSLNGCT
+DKIIKEECLELIPLFNGLSKENQDIVLNVLIASALTVQSAYYQSLAKKYVGAALFLTGL
+>tr|A6CSW8|A6CSW8_9BACI
+MSKTVVRKNESLEDALRRFKRSVSKTGTLQEYRKREFYEKPSVKRKKKSEAARKRKF
+>tr|A6CHV1|A6CHV1_9BACI
+MIVHLASITLALLLDRIIGDPPNLPHPVRWMGSSIAFLDKALNKGEYKKMKGLVMLGFLL
+FMFFSITTLLVSVSYKLHPAAGIVFEGFLISTAIASKSLKEAARAVFLPLSEGDLKESRK
+KLSYIVGRDTHSIEERDVIRGAVESVAENTSDGITAPLFWALIGGAPLAIAYRLINTCDS
+IVGYKNDTYREFGWASARLDDLVNWLPSRITAFMMIVVLPSKHHKRMEAWKITREDSRKH
+PSPNSGWGEAAAAAILGITLGGRNYYQGIPSDRAIMGREVVPLDKVHILEVLRLMDRTIF
+GFYIFLLIGGMLIEVAFSWLQSTVFI
+>tr|A6CKQ4|A6CKQ4_9BACI
+MQTSESQERVDELQRIVDARCPIYTTMVAADVEMIPNWTKE
+>tr|A6CLA4|A6CLA4_9BACI
+MYQGTREENYDLVIKQLHALLEGESNRIANLSNASALLNQFLDRINWVGFYLMEDGELVL
+GPFQGLPACVRIAVGRGVCGSAVKDKKTYLVDDVHAFPGHIACDAASQSEIVVPMMKDGE
+VIGVLDIDSPEKSRFDETDKAKLEEFVQALIQYI
+>tr|A6CMY4|A6CMY4_9BACI
+MVWRDSMSNPIVKSQVEEVHTFLEKTVTNLESYLNNITIEQLLQEKNGDRAYYEGVLSNL
+RRLLVYCEEGLDSCLVVMQNEPFIKGAAEKTLYKVYHQCIEEFFSPRYDLWYEDSRSAYT
+GKNSILFRQELPESIVKLMAAAESGFQQVREELEYYETDFRTKITQSRG
+>tr|A6CSF5|A6CSF5_9BACI
+MNVHSFLTIIYFSIGRRKENYVVLYLGFLEVVKIIGGRA
+>tr|A6CSG1|A6CSG1_9BACI
+EMNRVLKPGGMAVCLETSQPTMFGYRQAYYFYFQFLMPLFGKVFAKSYNEYSWLQESAKD
+FPGMKELADMFRDAGFEKVTFKPYVGGAAAMHMGFKKN
+>tr|A6CT17|A6CT17_9BACI
+MVLSALAAFGPNREEGAGNNNQGDKENTTDDANKPEKLVIWEDDKKSGWLDEVGAKFTEE
+YGIEVEVKEVEMATKMKEQLRLDGPAGTGPDVLTLPHDQIGEMALAGHIAELNAEQDLVD
+RFSESSILAQSYEGTLYGLPKSSETPVFIYNKELMEEAPATMDEVYEFSTDFTKDGNYGF
+LALWDNYYFAHAPIGGMGGYVFAENDGALNPADLGLNNDGAVEGAEYIQKWYEEGLFPKG
+IVGENGGAALDGLFNEGKVASVMNGPWAFQGYKDAGIDIGISAMPKLPNGEPMKTFMGVK
+GWHVSGYSKNQEWAQKFIEFITQDEYAKLRFEQTQEVPTNVALVDDPVIAENPGAKAVAE
+QSQYAVPMPNIPEMGEVWGPMADALQTVVTGKQEPKAALDSAVNQIEQNIEANHSN
+>tr|A6CTL1|A6CTL1_9BACI
+VIRFYGWDPATLSVGYFQKVEKEINMDAVKEHGLGFVRRPTGGRGVLHEHELTYSVIVTE
+EHPEMPKTVTEAYRVISEGILRGFRALGLDAYFAVPRTEEEKQGLKNPRSAVCFDAPSWY
+ELVVEGRKVAGSAQTRQKGVILQHGSILLDLDEDKLFSLFKYPNDRVKERMQRAFKSKAV
+AINEISKEKVTLEMAKAAFKEGFEQGLGIELQPYVLSDEETQYVEDLAKSRYESDEWNYK
+R
+>tr|A6CM19|A6CM19_9BACI
+MNIEVEQALKVKSIALDIIEELLRDEAHYREKDLKNAAELLSRCVCDLVNIYAGITEVHE
+TALQGTIAKAKISYNAIVNNKQKLQEPVKE
+>tr|A6CJ97|A6CJ97_9BACI
+MRTKWSIVIVLAALAATLYLVLTEEKDQELPNEEEENTERQVFHEVAQTDVVQLHGKQYY
+LYSGILSHPEFLREEAGVVKANVFEEAQANPHYKLSDGDASFLPEGTRLYKIAGLEKFIA
+AASDDSPQGYMIYQENSRSPEEIDIPFIANQKIKKIEIYKRSRSPLLVNTISDNQSIYQF
+KDVLLKGQVHNRMYLPKVSGPTFYRVVFYSEGPIAESYSISYDGSEWYNGHRTFKGLHQF
+IPEAN
+>tr|A6CQ26|A6CQ26_9BACI
+MPLVSMKEMLIKAKENSYAVGQFNLNNLEFTQAILQAAEEEKSPVILGVSEGAARYMGGF
+KTVVKMVEGLMEDYNITVPVAIHLDHGSSYDKCKEAIDAGFTSVMIDASHGPFEENIEIT
+SKVVEYAHSKGVSVEAELGVVGGQEDDVVAEGVIYADPKECQELVERTGIDTLAPALGSV
+HGPYKGEPNLGFKEMEEIGAATGVPLVLHGGTGIPTKDIQRAVSYGTAKINVNTENQIAS
+AKKVREVLAEDAHVYDPRKYLGPAREAIKQTVIGKMREFGSSNQA
+>tr|A6CJ41|A6CJ41_9BACI
+MEKTLTLILNELKDLKGGVNNLTKGQQELRQDVNDLATGQQELRQDVNDLATGQQELRQG
+QQGLRQDVHALTEGQQVLIQDANDLKVGQFKLQKDVSIVKDNLISGLGPYFEGIEKHIDN
+KTDEIKDTLEGQQRVIDTLAARSIKHESEMQHFKRA
+>tr|A6CQB5|A6CQB5_9BACI
+MGFEQKVTSLHLDILKEIGNIGAGHAATALSTLLDKKIDMKVPQVRVVAFDEMMEMAGGP
+DNVVVSVFLRIEGEAPGSMFFVLPLSQGSRFIQQMTGDMEFSFEQPPYSDIGLSAMQELG
+NILSGSYLSSLSDFTNLNLYPSVPALSVDMVGAIISFGLLEVSQTSDTAIVIDTALKDDE
+TTESESVKGHFFLLPDPESFNTIFKSLGVES
+>tr|A6CHL5|A6CHL5_9BACI
+MLLMKAKNVRYTIGEKIFFDEKELSVYQGDKIGLIGKNGQGKSLLMKYLQGLTEARPVVD
+WHCSSGYLPQLNNTEASTYLSGGERTIKKLNALFSEGHQMLFLDEPSNNLDWERIGELQK
+RLKSFKGSFVVASHDRTLMDAVCTKIWEIEEGKLTEYQCNYDDYLVEKDRQKKEQEAKYE
+SYTKEKKRLTERYEQKKRQAQGMDKPPSRMGNSEWQLYKGKAAGKRGKVERVSTVIKERI
+DRLEKVEKPFEWDKVKMEYVLQTPIHRRTLLSAKDIEATIEGKRLYHTSSLKLKTGSKTA
+CIGRNASGKTTLIRQLLRESSEEIDFAKNVKVGYFDQALENLPMDSTILEYVSEGSTLPQ
+HVIRIILARLRFYDEDVHKPIHVLSGGERVKTSIAKLLSGDYNLLVLDEPTNHVDLETLQ
+TLEGLLKDYPGTVLVVSHDRKFVENVADKLWRFHDGTISMFDGGLRQFEEWSEKPFPVEE
+NREEIMKLETRMTELIGRLSIPSPSDDIAFLEEQYQEVLLQLKELRG
+>tr|A6CK04|A6CK04_9BACI
+MQHIFKQGNKENGPTLLLLHGTGGNERNLLPLAEMIAPGYSVLGVRGNVSEHGMPRFFRR
+LAEGVFDEEDLVFRTKELKKFIDESAEKYGFDRNNVLAIGYSNGANIAASMMYHYNDAVQ
+GAILFHAMVPLRSVDMADLSGTPVFLGAGENDPLIPAQETKELADALRSSNADVTEYWTR
+GGHQLTREEIEQAADWFKEKYQN
+>tr|A6CR50|A6CR50_9BACI
+MLLGKKRKPGRKIEDISVGEKLTLTEKIEDKDLLLYLGLTNDANPLYIQHDYASQTPFKK
+PLVPAIMLTGIISSAVSKYLPGPGSHIMKQELEFPKAVYHYETIQFLFEVKNIDSSSHLV
+TIDVIATNEQEETVIRGSIAVCPPHKLEKMNGSALDNF
+>tr|A6CU68|A6CU68_9BACI
+MTGGVAQWEKIARRKSLDKAAESSRTETSHWKKQEQRDWKALRSRDGDRGNRKKTPAVHG
+NSGGHYVGWILSGE
+>tr|A6CM22|A6CM22_9BACI
+METAIQEIRLKTRSAYIARVSVKLVADAVILLAILTFFTDEYAFLSECVPFILLSILITI
+PLLWGGMESSKKFNIFFAGAGGTLFLIGQFFLGLPWWLSVLLLFLLHWRVSTHLEEERNS
+RFEISVGFMLGLMTVSLLSYAYQNIYHKQPAEIILILFVTGMLVYSGGTYIVRYAESAEH
+SKRSTRATSAKLPLIFLAVLAGFSAVLVFLNEAVSNLLNSAFQGFFWVISFLIDPIWNLI
+NWLLGFISPKGAEELESMKNSLEKMPYEVTQEQAEKGGELSFAWWDEALIGVLISIILLY
+IWRRYKNKGWTETEDSTTHAGYSSYKEAEPANRESRTLNVGYSSANSEIRRSIFSLEKLA
+EEKGMFRLNGETLQEWFSRLGFQEEPEFYRLYEEVRYGNKEVHADKVAWFKQCVVRVTVK
+INQAEGENRA
+>tr|A6CM29|A6CM29_9BACI
+MKRWSGIFQLAAVYVGTIIGAGFATGREIVEFFTRFGFIGFIGILISGYLFIFLGAKIMV
+KAHEIKAKSFEEFNEYLFGKWFSKFMNILMMLMLLGVTAVMLSGAGAVFEEQLDMNKQTG
+VLLSIFLGFIVMIVGMKGLFAVNTLVVPIMIIFNISIMFATIFEPDFLEALMKIPHADDG
+WKAVVSPFSYAAFNLAMAQAVLVPVAAEIKDIKTVKYGGILGGILLTIILISSHFTLVMI
+PNVTLYEIPMAIVMKSMAGSLYGIYIFIIFGEIFTSIIGGVFGLEKQMGNYWNGKKIFIT
+AGIFIVIYLLSFFEYSQLLSYLYPLFGYLSLLFIILLWMKPWDSTR
+>tr|A6CTG6|A6CTG6_9BACI
+MSGVLYFADNFFSSGKTDIYNEEKERVGELDLKSAFSASVDVLNEKGQIIASGKFPFFGN
+RWMVSGKDGEELGELKQKWSFFSKKFQYHSIGKGTFSIESEAFSKEYTILDNQGAVICSS
+EKVSGFFSSSAYKLENKSPNLSNQELVAVVMGINAIQKRNNAAAGNNAAT
+>tr|A6CM83|A6CM83_9BACI
+MDDLVIARSMFGTTMGFHIIFATLGVAIPMMILIAELLYQKTKDREYEIMGKRWTKAFAV
+LLGVGIPSGTIAGVQLSLLWPGFMEVVGRVMALPFQIEIYAFFVEALFMSIYVYAANRIA
+PWMRILSLTLVVIGGLASAVLITNVHAFEGTPAGFRMVNGEIVDVDPWKAFFNPSFFVTA
+GHVALSAYVTGGFVIASVAAYKMLKADFGSKVYKFHRKALMLGLIIGGIFAFFTAINGHE
+SAQMLHEYQPEKLAAAEGLFETQRYAPLAIGGFTDRETQEVKWEIEIPWALSFLAGDSFK
+TEVIGLNDFPEEYWPPLFVHTLFNAMVGIGTLLILLGLMAYVWHKFLKKDRFPKWMMWLF
+IAGGPLSILAIEFGWIFACTGRQPWTIYRMLSTEDSVTTTGNLATLFVAFTSVYIVLGIA
+VVSVLLYYFRRHPVEDDLNKVENTEVGFFS
+>tr|A6CNQ9|A6CNQ9_9BACI
+MDKFIENRWFMRIVGLLLAFVLYASVNFDEIAVQRSESSNPQENIETIQNVPVEIFYDRE
+NLFVSGVPETVNIEVEGPKNLVTSAKTLRDFHVYADLNDLGIGDHQVQLKIDGISDKLQV
+KLNPSFANVSIQEKVTEEFAVEPEFNEALLAEGFQTELITAEPRKVEITGAKDVIGQIAY
+VVATPDVNSGIDRTVTREARVQVLDRDYNKLDVAIDPETVEVTIEVINPSKEVSVTVNQT
+GELPEGYELESMTINPKKVTVFGREALLRSINELTADLDLSDVKKDITIEVPLNLPQGVN
+KTTPESVEVKIDLKEVEKKTVMGNTITLEGAEEDMEYEFINPVSGAVDITVSGFREKLDA
+VDSESFSLFANVTGLAPGEHEIEIEAEGPEDIEWELTKNKVTIQIQEKIPA
+>tr|A6CS11|A6CS11_9BACI
+MPKYTSRLDKRSKKKSNVILNSLIGIVVLLIVIVGATIFLGNDTEPAAGDDNTAQNNEVA
+DSISSNEEEESSTDAGVEEDEETSTDEELTEEEQVDTEADTASEDSDSEDKPVADGESLS
+QDEEKEDKEKEDTEKKDEESSSEEDKKIVRESDEPNVKKEIINPNWKPVGTVQTGEHVYK
+YEDTSSPDWQEKIDALAYATGLSEDNMTVWWVERNGSDHKAIGTVAPKDQSTTYRVYLEW
+VDGKGWKPVKMQELIENDKD
+>tr|A6CQE5|A6CQE5_9BACI
+MTFSIVGFDPKEKEWGIAVQSKFIGVGAVVPFARAGAGAVATQSYANTAYGPQALQLMEE
+GKTAEEALEIITKDDPERHLRQVGLIDAQGNAATFTGEGCYDWAGGMTGEHFAAQGNILV
+DHRTVEAMGETFTSTEGTLAERLLKALDAGQEAGGDSRGKQSAAIYVVKEKGGYGGFNDR
+LIDLRVDDHPDPIKELIRIFNLHQLYFAASKPDRVVPVDGFVHEELKAELERHGYMKVDK
+TVSQALRDYLHTENFEMREHEGSIDLDVLEFMKKQDK
+>tr|A6CTL2|A6CTL2_9BACI
+MNFYYFGKAMRVAFFLFYQELKGALFFQP
+>tr|A6CLW9|A6CLW9_9BACI
+MKKGNEGKGLNRLKGGMLIKILLSLFLSFSVFCFLNGMTGSFASDKGNDTLIVAHRGASA
+LAPENTLSAFDMAVNLGADYIEVDVQMTKDGKLVAMHDVTVDRTTNGTGRIKNLTYDDLA
+ALDAGSWFSPRFKGEKVPTLETILDRYEGRTGILIELKHPSIYPDIEEELAELLTKRLKA
+GYTLSPIIVQSFDKQSIQEFHQLLPVIPTGIIIGTSEFSSGEDLFAIDGFASFINPKATL
+VDASFMQQAKERNLNVFTWTVSDSKTAQSLRNLNVNGIITNYPDEQYYSSTSLLEKTSLI
+ISAITFLALLLFKK
+>tr|A6CTP7|A6CTP7_9BACI
+QFQSAQSTIEEKGSYSLHSVADTALKEKSYTTKAVIGAIGDVLLHNTVYQDAEEGDSYDF
+TPMFQDVENFLQSPDFMIANQESLPGGAHMGVSSYPAFNSPYEIVDALQKLGVDAVTTAN
+NHSLDKGTKGVLSAISHYEEIGMPYTGSFKSEEDRKNIRTFNVNGISFALLAYTYGTNGI
+PVPQGKDYLVNLIDVDLMKSDIQKAKDLGVDMVVLAAHWGNEYERYPNETQKTLARELTN
+AGADLIIGHHPHVLQPIEKLTTEDGREAVVIYSLGNFLSGQEGDLKNIGGIANVTVQKVI
+DENGKRISFPEIGFQPTFVTQSNYRNYRILPLAAAHQSGLVSFPEDEMVSHVMDIQQ
+>tr|A6CI01|A6CI01_9BACI
+MDIRKKGGVTMPSVGVFAVVRNEENKVLCVKLNYGSGNWTLPGGHLENNESPIEGVMREV
+FEETGYEVEVVDFVGVYSSPEKDDLVLLFRADIHKEGRFLPNKEIQQRKFFALDSLPEAM
+HPWNRKRIHDAFTETNSSLHIFEKAAQL
+>tr|A6CIG5|A6CIG5_9BACI
+MTELAMKEQELQQAAETYQHIKEEIGKFIVGQDETVEQVLWAVFAGGHALLEGLPGLGKT
+MLVRTISDVMDLQFSRIQYTPDLMPTDITGTMMIQPDEEGRQTFHFHPGPLFFNIVLADE
+INRATPKTQSSLLEAMQEQTVTVLGEMKRLPNPFFVLATQNPIELEGTYPLPEAQMDRFL
+LKINVEAPSREELKKIALRTTGVEEISLNKQVDADFILSTQKLAKEIVLSDHVLDYAVTL
+IMTTQPDEEGAPDIVKKNVRYGSGPRGLQSLIKIARVRALFSGRYHVSVGDLKKAAFPVL
+RHRIFLNFEGEASGVTQDEIIREVLAELDKAGSAKG
+>tr|A6CLW8|A6CLW8_9BACI
+MKVDDQERSQLSQAIDQLSEGLDTIIELYNNSVEDKPLLQLTDENEELLSRATIKYGGEE
+VNGKVNKVIAELLEWLPLDDVVTEEAEANEETEETEEIEDK
+>tr|A6CMD4|A6CMD4_9BACI
+MKKRSKQNNPEQKTRTAERNLDTEFGEEYNPVKEAKKRYEKQAQPVKSKNRELENK
+>tr|A6CMK9|A6CMK9_9BACI
+MSKDYIKVNDLHKTYGKLEVLKGISTTINKGEVVAIIGPSGSGKSTLLRCLNLLETPTSG
+EVWIGEEEITNPKTDILKVRQNVGMVFQHFNLFPHKTVLENVTYAPVVVKGESEAVAEEN
+ALKLLKSVGLSEKANDYPNRLSGGQKQRVAIARALAMSPDVMLFDEPTSALDPEMIKEVL
+DVVKSLAHTGMTMAIVTHEMGFAKEVADRILFLDGGVLMEDVHPEDFFHNPKSERAKEFL
+EKVL
+>tr|A6CRW0|A6CRW0_9BACI
+MWMKWELAERVSALTPSTTLAITAKAKEMKAQGIDVIGLGAGEPDFNTPQHIMSAATASM
+EEGHTKYTPASGLAGLKNAIIDKFKDDQGISYEPSEVIVTSGAKHGLYTLFQVLLNEGDE
+VIIPTPYWVSYPEQVKLAGGVPVFIEGKEDNQFKITPEQLKEAVTGNTKAVIINSPSNPT
+GMLYSKEELEAIGQACLEKNILIISDEIYEKLVYEGNQHVSIAEISPQLKEQTVVINGVS
+KSHSMTGWRIGYAAGDAKIIKAMTNLASHSTSNPTTTSQYGAIAAYEGTQEPVEEMRKAF
+EERLNIVFEKLNAIPGFNCIKPQGAFYLFPNVKEAAEMTGYESVDSFVKALLEEAEVAVI
+PGSGFGTPDNIRLSYATSLDLFEKALERIHSFVNRKIEESK
+>tr|A6CQ19|A6CQ19_9BACI
+MVEKSRIIEEYEINPYTMLIMPIEYGARTYTEIHEGNETLLSPFKPFEIIKKSCEFFGSS
+YQGRKDGTKRLTGITHKAPIIVDPHSSIYLFPTTSPAKSECIWVSHDHVLSYTKLNSREI
+SVTFRNRASFTLPMSYASFEAQMMRTAMLRINFQHRIVTAERKSSSRSFSAYSGRASEQI
+PVYGWGQKTSGEEM
+>tr|A6CTV7|A6CTV7_9BACI
+MSASRGTINEISLFSKELNEEITMLVYLPPSYSPLYKYSLVICQDGRDYFQLGRIPRVAD
+ELIGNQEIENMIIVGIPYKDVHDRRRKYHPDGEQNAAYIRFLAHELVPYLDEEYPVYHMG
+MGRALIGDSLGASVSLMTALKYPNMFGKVILQSPFVNEKVIEAVKRNRQPHLLNIYHIIG
+KGETEVKTTNGETADFLTPNRELHELFEKENFTTFYDEFDGDHTWKYWQPDLKRALKHMF
+S
+>tr|A6CM77|A6CM77_9BACI
+MSFEWVSERNYEDILYETYNGIAKITINRPEVRNAFRPKTVMELIDAFAYARDDSKVGVI
+VLTGAGEHAFCSGGDQRVRGHGGYVGEDEIPRLNVLDLQRLIRVIPKPVIAMVAGYAIGG
+GHVLHVVCDITIAADNAVFGQTGPKVGSFDAGYGAGYLARIVGHKKAKEIWYLCRQYGAQ
+EALEMGLVNTVVPYEKLEEETVQWASEMLEKSPTALRFLKAAFNADTDGLAGLQQLAGDA
+TLLYYTTEEAKEGRDAFKEKRKPDFGQFPRFP
+>tr|A6CK83|A6CK83_9BACI
+MPFPLPRRTLKPYAIYFNEKVAGFLMFNSVKEELGGYWIYRIMVDKALQGRGIGKEATKI
+MIKEMAKLPDAEKIIVGYHPDNKGAHHLYASLGFVDNGNRFGREMAVIYYLK
+>tr|A6CLA9|A6CLA9_9BACI
+MIYFDNSATTKPYKEVLQTFLKVNEDYFANPSSIHALGGRVETLITKSRKQVASLLEIKE
+TEVFFTSGGTESNNLALKGTALHYRNRGRHIITTVIEHPSIIETCEQLKELGFDITYLPV
+DSHGSVRVQDVLDALRDDTILVSIMHVNNEVGSIQPVEAIGKALKSYPKVIFHVDHIQGI
+GKVPLSFHEAGIDLCSISGHKIHGLKGTGMLYIKEGLKISPLLSGGEQERKIRSGTENTG
+GIVSFAKALRLHFEKSGKELEYIRKLNAYLRGKLNQIDGITIHSPAAGAAPHIVNFSVQD
+IRGEIFVHALEEFNIYVSTTSACSSKKNIPSRTLQGMGVNESLLDTSVRVSFSFENTKEE
+VDAFCSAIEKVKKNLEETTRRRK
+>tr|A6CRE1|A6CRE1_9BACI
+MVEMLVVLSISLTLLIFTSILILPIHDTLTRKNFISLLKSDLYYLQSYAINKKEEVSLQF
+YPYGGKYSGRVVGGESLFVRNLPEGISQIPNSSLSSLTFYPNGNTDRFGSLYYIAGEEQI
+KVTFQIGQGRFNVQE
+>tr|A6CTM8|A6CTM8_9BACI
+MQKLFVPIILKNAFLLLYTLHINRSSKFYTILSKLIGLRTNKSFSILFFRYKFVDIYKKI
+IGPKILLIELTMKEAG
+>tr|A6CS14|A6CS14_9BACI
+MKPDGKKGFPLENIKKNLSDKIIDYKRFAFVLVSVSVFLYLGAVLPVEEKTIFQTYTLMG
+GTIIMLGFSGMFFYQAAMLKKKLTDMDDERVNM
+>tr|A6CK13|A6CK13_9BACI
+MRRKTRLIHGGITGDEQTGAVSVPIYQVSTYKQDGVGQHRGFEYSRTGNPTRHALESLIA
+DIEGGHAGFAFGSGMGAITSLLMLFKSGDHIIFTDDVYGGTYRLISKVMNRFDLSVSFVD
+TSDTDKIKQAIQPNTKAIYIETPTNPLLKITDLEAVSVIAKENDLLFIVDNTFSTPYWQN
+PIEQGANIVLHSATKYLGGHSDVVAGLVVVDSAQLAEDVHFVQNSAGAILGPQDSWLLMR
+GIKTLGIRMEEIESNTKRFVDFLQHNPKVSSIYYPGLESHTGSEVHRKQARGAGGMISFD
+VGSEENAEKLLTNVRYFTLAESLGAVESLISVPAKMTHASIPAERRAELGITDGLVRVSI
+GLEDIEDLIEDVERALEK
+>tr|A6CJ33|A6CJ33_9BACI
+MGAYKKEVWFTIGMTVLFLVAGNMGLIFTIFPVEGYWFGFPIMYIVPVVVGWFGVVLLTI
+VAGRLGNKIDAAIEAEDKRNQQLKGNVDKEAV
+>tr|A6CR63|A6CR63_9BACI
+MTAEEINEALITASQGSLEGILQFTTEPLVSIDFNTNPHSAIIDGLSTMVIGDRKVKVLA
+WYDNEWGYSCRVVDLTKYVAQQMKTSVNV
+>tr|A6CIQ2|A6CIQ2_9BACI
+MEWKYRTTNDYIQFISFHDCLADEILVEKDTILFYLEHVDITENHPLNPFKAAKSTDRCR
+LEFSGVRMNEAIIYCEDGRDKEVLITDILEVEILQFNQTSNGTNYLFEIAGTHWGEGQFC
+LVKIEAEKFTLKWNDYMDDAWFAGLGSK
+>tr|A6CK42|A6CK42_9BACI
+MAKTLELQFTTQLGKTARLSIDEPIEPVDPANVKMVMDTLIATNVFQSNSGALAAAKGAR
+VIERNVTEYEV
+>tr|A6CTN3|A6CTN3_9BACI
+MAISHGDDEELAKEMKNLIQERFQPKEVYINIIGAAVGSHAGPGTLAIFFSNQYPHAE
+>tr|A6CHM3|A6CHM3_9BACI
+MQRFLLSHNDLDGVGCGIIAKIAWGEEAEVRYNSIGGLNFQVARFLKKPQKNTKLIITDL
+SVNKENEEAIESYFKKDGKVELIDHHRSAEHLNSYKWASVTVQYEDGRLASATSLLYEDL
+KKKREIEPTPILDEFVELVRQYDTWEWDVNNNTTAKRLNDLFFLLTIEEFEEKMLNRLQN
+NEKFFFDEFELKLLEMEEGKIERYIRRKRRELTKSFIGDYCVGIVHAESYHSELGNELGK
+DNPFLDYIAIISVGGKRISLRTIHDHVDVSEVAGKFEGGGHAKASGCNLNTEAFKLFVTD
+VFNVEPLPIDAPKNRYNLKESPNGSLYKNRQEDQLFMYPLDGEGWRVEYNGEFENDFPTF
+QDAENHIKKQHSAALSRDDDYTEFLMENVKNHKILQAAAEKLPFNVMGDQKKEK
+>tr|A6CIL0|A6CIL0_9BACI
+MKLMLERIIYYIFTLFIFLVLWNVTAEIWEAFVPWNYKTDLLGLFIVLPALLVLSFIISS
+LCFKVIKNS
+>tr|A6CK73|A6CK73_9BACI
+MNLTFRKAAEQDLDSIVRLLSDDILGIKRERYQHPLPNSYITAFQAIDADPNNELIVACL
+DGEVVGVQQITFTPYITHQGGWRATIEGVRTASAVRGQGVGKEMIQYAIQRAKERGCHLV
+QLTTDKQRPEALRFYERLGFSATHEGLKLKLH
+>tr|A6CN80|A6CN80_9BACI
+MLSKHVEDGRNQIEMVALDQLVPQDHLVRKIEQAIDFEFIYDLVKDRYCLDNGRPSIDPV
+VLIKMVFIQYRFGIRSMRQTIKEIETNVAYRWFIGYAFTEKIPHFSTFGKNYVRRFHDTD
+LFEQIFYRILKEAMTKGLVDPSVAFIDSTHVKANANKKKFEKKVVRVETRSYQAQLDEEI
+NIDREEHGKKPFPPQNKEETKEIKVSTTDPESGYYVKDEREKLFAYSFHTASDSRGFILG
+SLVTAGNVHDSRMLDQLVDLVKNKVGKPSSVAVDAGYKTPHIAKFLMDQDIRPVMPYTRP
+RTKEGYLKKYDYVYDEHFDCYICPEGQILPYRTTTRDGYKQYASDPLKCKECPLLQKCTQ
+SQNHIKMIHRHLWQDYIDEVEHLRHTDLNKTLYAQRKETIERVFADAKEKHGMRWTTLRG
+LKKVSMQAMLTFAAMNLKKLANWTWRGPCPV
+>tr|A6CRN8|A6CRN8_9BACI
+MVHNSRKVANESIEEVIILNNENTLISTLGMEFIELGKGKVVATMPVDERTRQPFGFLHG
+GASVALAETVASVGAVQLIDLEKEICFGLEINANHIKAKKDGMVTATATVIHQGKSTMVW
+DIRITDEEDSLICVSRCTMAVVPKK
+>tr|A6CHL3|A6CHL3_9BACI
+MPEMIFVSLFAAVLIIYKTFKTIKKRRWRNNKSI
+>tr|A6CIU3|A6CIU3_9BACI
+MNSLLVFEYTGKIQARGSDQMNWFGMLIVPGNKEIPKVTVSVKETKDGQYYAKSDCGEIE
+AEGYDALETAKIVYEFTVQWRRG
+>tr|A6CLH2|A6CLH2_9BACI
+MIICSVQQISKMFGGNLVFEGLSFEVHDGDRIGFVGRNGTGKTTVFKLIAGVEQPDTGEI
+HIKKGARIGYLSQIPQYGAQITGYEVLKSAFQDLLETEARLKELESKMGTDDNPENLQRL
+LEEYGPLQDKFTLGGGYEIEPEMAKVANGLEITDLLDKSFNALSGGEQTKVCLGLILLQK
+PDLLLLDEPTNHLDIGAVEWLEGFLKEYSGSVMVISHDRYFLDETINKVIDLEDGEVCLY
+HTNYSQFVKEKEEKLLLEFQQYQEQQKKIKKMREAIKRLKEWANQANPPNAALHKRARNM
+ERALERMEKLKRPVLERKKMGLEFENGNRSGKVVFSMKEAGKSFGGKPLFTKASLDVHFK
+DRTAIVGKNGTGKSTIIKMLLGELQQDEGEVKVGSNVRTGYLSQHFTVSDPNIRLIDAFR
+DEVTVTEGEARHILAGFLFYGGAVFRKVGQLSGGEKMRLRLAQLMHQDINFLVLDEPTNH
+LDIDSREVLEDALESFNGTILAVSHDRYFLNKLFEKTYWIHNKKLYFFPGSYSWAKEKLN
+EFIAKKEPDQKAEHTVNREVPVKVKKEKPAVSLESLEEELLVIEAEISSIEEQLLNETDL
+EILQKFYAEKEQKEKEREEKYSALEQLL
+>tr|A6CJI2|A6CJI2_9BACI
+MNKNDNKDMRRNYTKGQPSGQPEPLSGSKKVKNHNHTRQKHNQHHDM
+>tr|A6CSL8|A6CSL8_9BACI
+MAEYREIITKAVVAKGRKFTQSHHTISPPHHPSSILGCWIINHTYEAHKVGKKVEVSGFY
+EINVWYSHDDNRKTSVVTERVEYCDVIKLKYRDPDCLDDKEVNAIVLQQPNCVEAVISPN
+GNKIIVHVEREFQVEVIGETKVCVLVNPDGCDDDWDCDFDDDDFEELNPDFLEGLDEE
+>tr|A6CHZ5|A6CHZ5_9BACI
+MKVMYELKTKENDSNVIEFIEAVENPRKREDAYILLDIFTETTGFEAKMWGPSIIGFGSY
+HYKYKTGHEGDAPLVGFSPRKAKISLYFATGDPDRERLLERFGKHTSGKACVYINKVADI
+DVEVLKELIRQSVDFLKETYQEQG
+>tr|A6CIB1|A6CIB1_9BACI
+MIGMEEVKKAIQDDYPDDFAWCHGCGRLNEKGHQFRTGWDGERTITIYEPKKEHMAMPGF
+VYGGLIASLIDCHGTGSAAIALHRKNGHEIGSGEEPPRFVTASLHVDFLKPTPAETPLKA
+YGYIQEIHPKKWKVETEVYANDQMCAKGEVVAVVMPDTFKK
+>tr|A6CID8|A6CID8_9BACI
+MKRDYMKKVAIIGSGGSGKSTLARRLGLALDTNVWHLDQLLWKPNWTPVKREEQTEIQEA
+LVKNDKWIIDGNYNSTLNIRLEAADTIIFLDISRYVCVYRVFKRMIKFRNKTRPDMKEGC
+HEKLNLKFLKWIWDYPKTKKPIVLAKLENLSTEKEIIILRSSEEVEEFINFVECKTKA
+>tr|A6CK50|A6CK50_9BACI
+MVLFLKHRGISTLKILLVDIILVMYKTDFRSRCVTPLQPTYIFLNLELKTKNFAKTHFKK
+NEIKIELRIERSSIFSIHVIYWLEKGIGQKMIQLSIFA
+>tr|A6CQD8|A6CQD8_9BACI
+MEEKSMRIAHNIIALNINHSLKKNNKALGTSLEKLSSGLHINKASDDAAGLAISEGMRAQ
+IRGLEQAERNIQDGISLIQTAEGALGEIHDITHRMKELSVQGANGTLSNLDKEAIQSELD
+QLKDEIGRISTSTQYNSKVLLDGSFEFTTDNKVARGFEWKVDIGGTGTGSLSHHILT
+>tr|A6CLB8|A6CLB8_9BACI
+MSDMSNHEEIMTTQQDKEENVFELGGFWMRFWAYLLDLVVISSIGRLIVYPIFRALDLSL
+VKDDLFAPISILSSIIFYGYFVLMTKYFGQTLGKMAFGLKVIELDGKPLKWGTVIFRELI
+GRFISASILILYIVVAFTNKKQGIHDLFADTTVIREKRAAVYRPVSAQG
+>tr|A6CSC1|A6CSC1_9BACI
+MLLKLQQKYPQARLHKVPPSEEDPETLWLTDEANEEFLAIPKHLLTQSEIDLLCSLFSEA
+APSGNWNNDTLESRSWHDYLYDGMPLREDVSPKDHYRVIQFAIKENVENDLLKEAFRSIF
+AEQAVIVFTSSGTGAIVEKQTEWSLPEEELLSAAAVIEGDFFVSPTFFIGRFYAINDRFP
+SFFKEEKNLFSFAEKNISKDRVFTFPSTFPSFVLHYVPKQTKTSMFADIIQLFAEDEELK
+KTIKTYLENQSNTSQTAKVLFMHRNSVQYRIDKFIEKIGIDIKTFQGALTVYLACLEIEQ
+EITE
+>tr|A6CU57|A6CU57_9BACI
+MSKDTYILGMETSCDETAVAIVKNGKEILSNVVASQIESHKRFGGVVPEIASRHHVEQIT
+IVIEEALNQAGMTISEMDAIAVTEGPGLVGALLIGVNAAKALAFAHGLPLIGVHHIAGHI
+YANRLVTEMKFPLLSLVVSGGHTELVYMKEHGSYEIIGETRDDAAGEAYDKVARTLNLPY
+PGGPHIDRLAAEGEPEIDLPRAWLEADSFDFSFSGLKSAVINTVHNAEQRGEKIAPETLA
+ASFQQSVIDVLVTKTVKAAKQYGVTQVLLAGGVAANKGLRDVLETEFDSLPDIELVIPPL
+SLCTDNAAMIAAAGTIEFEKGKRGTMAMNANPGLDIEN
+>tr|A6CRM3|A6CRM3_9BACI
+MQLKEKVVDLVEIIIVGISFLFILLGFYFVIKKAVEEGINSSREIRQLKRELRLLNKKLN
+KEGTNKINMKI
+>tr|A6CQK4|A6CQK4_9BACI
+DFATDGTGEIAGKKIEIIYEDTETDPKVARQKALKLLEEDKVDFLVGSSSSGDTLAVTPL
+AEEYEKIMVVEPAVADSITGSEFNEYIFRTGRNSSQDAVAGAAAIAKEGVKIVTLAPDNS
+FGRDGVAAFTTAAKDLGADIVHEEYADPAATDFTANIQKIINSKPDYLFVIWAGANSPWN
+QIADMKVQEQGIKISTGAPDIAALATMKPLVGMEGFTVYYHDLPDNEVNDWLVEEHKKRF
+DGAVPDLFTPGGMSAAISIVEALKNTEGDTDSAKLIETMEGMSFETPKGTMTFRPEDHQA
+MQSLYAITLEEKDGFDYPVPVLKRVLTPEETEPPILNQ
+>tr|A6CJS5|A6CJS5_9BACI
+MFLSLHYMVKKYILSLPCDYQGKHKPYIHFMVSHDNFFSGQLKKKGGFQ
+>tr|A6CKB6|A6CKB6_9BACI
+MENKIPIYIVPALLSITFMLTAVEFIKGRKDKGGYKYIVGAVVMLFTAMVFL
+>tr|A6CS02|A6CS02_9BACI
+MPFKNLDILFPAFSKIVISYTIIYMHQDGQSMTSCWQLEMERGTNMNVLKHPYSNFYDEV
+EPALISKVEEFEVLGYGKATVESLWTYLLKKKWKKPKEDIRMYELVGNIMSVKPGEYMSF
+ETVEAYRSPNWFTDLNEDDLKELLNPGKNP
+>tr|A6CS56|A6CS56_9BACI
+MFNVKKSYLKSPDLLPIKESERKVTKLGYSFMWVGMVVVLATFAIGGAGVMSLPLPMVVL
+ATIIGSLAIGFFITLTGDIGVEHGLSFPVYMRAPFGTIGTHIPSVTRGLAASMWFGINTF
+FGATAMNGILNILFGFDNWFVCFLIFAVLQLVNTALGIKAVERFADLAAPVIILISVWMY
+SSLSDSAAAQGRDIWSWVESPVTGGAAFTAFLVVIFSNMGFWATLAADIPSISRFMKAPK
+NEKSFIKRNRSSIIGNLVALPITQAFMVLIGAVSYIAVLNYDPVVALQEAASGLILGILL
+LMIVLAQWSTNIAANIVPAATIFSNVGGPKFPFWAGVITAGICGTIVQPWNLFGVIIPVL
+LFVGGILSAIVGILVSDYYFIRKRRVNVPDLYEENGQFKYMNGINLAGFISWILGGVASY
+FVPNFSFLVGFGIGAVCYYVLAKFWWFKKYEQSELLNPSDDLYLGISVGRDWEIEVEPET
+VVEEIPAVKGV
+>tr|A6CIR9|A6CIR9_9BACI
+MKMGSKKLTPAQRLGIVDKQFSFEDIIYFK
+>tr|A6CJS2|A6CJS2_9BACI
+MNREGEKELKEKLYYEDAYLREFKTKLVSQQQSEDGRWFAQLEETAFYPTGGGQPFDKGT
+LNNSMVTEVEEVEGIIRHYIDSPLKGTYEISGAINWTRRFDHMQQHAGQHILSASFSKSL
+GYETVSFHLGRDTCTIDINTSALTEEESSKAEALANQVILQNQPIHTKWINKEEVDQYPL
+RKKPAVEGDIRLVIIPEFDYNGCGGTHPRSTGEVGMIKILNWEKQKKNTRVTFVCGQRVA
+DQLHEKNSILKELTGVLNAPPSEMISAVRTLIENGNKNEKLLEEARETILVYEAEDLIKS
+SVDRGGVKVVKKVLQHRSMADMQKMARTILQTHEVVVLLVSENGDKLQYVFGSCSSCQKD
+MKELIGVALALTDGKGGGNPSMAQGGGSAVITGEELLERLLDKF
+>tr|A6CMB4|A6CMB4_9BACI
+MLLVGLLIGCSSNETEEQASEENSTNEQPQEEVNEEPKEEVSEEESTEESEESSIDTSVF
+VYATNVDITDARDITKHITATVYMNDELKGGLAAQHVLSQTYDFLQQEDIKGAETLTVGV
+MVKDKRVLQYTVDLAKFVPNDSEPMTDVVLAASEVEKISPEVEEFANAFEWKMN
+>tr|A6CMI3|A6CMI3_9BACI
+MLYEKNARDELQDILDDREYTVYQPENQGFSQSLWEKIRDTFIDWLNNLFPGYAVSQGGG
+TMITVVLVILGLAALTITLLLVSRNVINKRKFAQQKPLQHLSEKDWSYREHLAESQKQEE
+AEEYSPAVRHLFLALLLYFDEKEWLAARKWKTNWDYYEELEKVNKEWAERFYSLALKFDE
+AAYGGREIQREEFIPYKEQAMKWMNETHVEKEAEDEMDG
+>tr|A6CRQ3|A6CRQ3_9BACI
+MNALYDMVKEAQENYHYEVNVVSTFEPKIKKSLHLTRPENRDDLEQELKIKIIGYVRNYS
+LEEVPGLFDLLK
+>tr|A6CRU6|A6CRU6_9BACI
+MKPIIEFCISNLASGAQKALEALERDPNLDVVEYGCLGYCGKCASSFFALVNGDVVQGDS
+PDELVENIYQFLEENPMF
+>tr|A6CSC2|A6CSC2_9BACI
+MAELQLKNIYKIYDKNVTAVKDFNLDIQDKEFIVFVGPSGCGKSTTLRMVAGLEEISKGD
+FYIDGKRVNDVAPKDRDIAMVFQNYALYPHMSVYDNMAFGLKLRKFDKQEIDRRVQEAAK
+ILGLETLLDRKPKALSGGQRQRVALGRAIVRDAKVFLMDEPLSNLDAKLRVQMRAEIAKL
+HQRLQTTTIYVTHDQTEAMTMASRIVVMKDGIIQQVGSPKEVYDKPENVFVGGFIGSPAM
+NFFHGTLQEGKFTFGDEAVEVPEGKMKVLREQGYVGKDIILGVRPEDIHDEPLFIDSSKG
+SKIRAKIEVSELTGAETMLYSRLADQDFVARVDSRTDVQAGETIDLAFDMNKTHFFDAES
+EERIR
+>tr|A6CT08|A6CT08_9BACI
+MFILLGNKDEKILVIVMFAVALFLLAAILKKFFF
+>tr|A6CTC5|A6CTC5_9BACI
+MNTINEKSIIFTKLSIQKDAEEYIIGSVINNVFIRVPEEAVILINYLDGNKNLKEITELL
+KQEHQLDVDVNGFVQDLLELDLIYSIDGKRMHNISHDKAQKKWLTNISKVIFNHYTNSIF
+LLLFLSCLGIFIVRPDLIPTYEDIFVYETVGVSLIIITATTWGLTFFHELGHYLATIKLG
+IPVKFNLSLRLYWLVVEADVSGLWSVPQKARYTPYLAGIAFDGLLLFLSLIIQIVFPSFF
+PGFFAMASLLLILTFGFHSLIFLRTDIYYVLMNYLNIPSIHDHAVEYIKSFMKSSSPSTI
+KMLSVKEQKYVKGYSTIYLIGSSIAIFLLVFYTIPGSLLLLKNTIDQLSSFQSSTFYFID
+GAITLLIILVNMALWIIGAFSKYKHLAIKPFTNTRE
+>tr|A6CLM4|A6CLM4_9BACI
+MTRRLKIGVLCEAFLYEWQIKCLEKLSCIPEVELIICPLNVRGSISEDNGVYMSYLEKIY
+LYFVSKRSKALQKIPFQEVSLPNRSLSWVNCLNSSNIDLILNFNPFNKNIEIEDYPHHGI
+LSFQLDTRNFNSWLRDVLNGKPLELLLISHSSRGWHIVGKGSVGGINHSFSRSLDKALFL
+LSDMPARACKEILVCGKSNTVQPLGDQNDRELLVKRSLIKNKDMVYFLLKKIINQCSFIM
+KKLFWIDEWNIGIISIPVEYFLQRDFSPEIAWLPKRRKGDFIADPFVVSENSCLTILYEE
+LAISDGRGKISALSGTWSQQTLEFQPVQTVDISNQFSKQKHLSYPYILHYENEFYCVPEM
+NGENGVKLFQAVRFPDQWKEVSVIIKGFKAVDPTIFHHEGYWWLFCTNQEEDPQSKLYVW
+FSEDLYSGWTEHLLNPVKSDVTSSRPAGKPFYKEGSLYRPSQDCSRTYGGKIVINEIVEL
+TPTKFKEEPVIDIQPFSMTPYSKGIHTISYSGNITVIDSKRSRFFPLKVFYKWKSSGRQL
+>tr|A6CH85|A6CH85_9BACI
+MVSYLLYSIPNLIRLKQLNNDRPVEELDEIKHAMAKRWAKGIIVRTGTTVDVHGRNNIPE
+GPVLFVSNHEGDFDIPVLLGYIEKPFGFMSKIEVKKLPIISHWMDILNCVFVDRNNKRKS
+VLSLRECISKLKDGHSLVVFPEDTRNKGQGINIFKTGAFRIALEAGVPVVPIYIHGTADI
+LENNKNGLKPASVEVNILPPVMHGDYKDMTASEMADYVQGVIVNCGLNEAS
+>tr|A6CQX1|A6CQX1_9BACI
+MRKKILLTKAELLDDKLVLHSSEKAGESNLKPAGQVLVDSDNFSFVYFAESQEEYVLIHI
+QEECWSALKEAFEQKMPVFADLGESEFELEGLHEELDYLIENIEGNSNYGEDMVKKVEAV
+FLERA
+>tr|A6CJU3|A6CJU3_9BACI
+MKKQSLILLSILLVLSAFLTACGGGNDNNGDTAGTDGGKNEQVLNLLESSEIPSLDSTLG
+TDSVSFNVMNNVFEGLYRLGEDDEPVLGMASEEPEVSEDGKTYTFKLRDAKWSNGEPVTA
+QDFEYAWKKALNPDNASEYAYIMFDIKNAEKVNNGELPVEEAGIKAIDDKTLQVELETIV
+PYFKSLLTFATFLPQNQAYVEEQGDQYGLEAANAIYNGPFVLSDWKHEQSFQMKKNADYW
+EADVVKLEEINFNIVKDTSTRVNLYETNETDVAVLSEQYVDSYKDDPNFNTRLRTSTFFL
+RLNQNNEVLANKNARKAFDAAWDKEGVVQVLLNDGSIPAYYLVPDDFVTGPNGDDFRDTN
+GQLGEYNPEKAAELWNTAKEELGIETASLELLNYDSENSRKIGEYLKEQLESTLEGLTIT
+ISQQPFKQKLEVEQRGDYDFSFAGWGPDYPDPMTFLDMFVTGSSYNQTGFSNEKYDQLIN
+DAQTTLLDDPEKRWEALLEAERILLEEQAISPMFQDGSAYLQREYVKNLYRHSFGADYSY
+KWTYIE
+>tr|A6CIX8|A6CIX8_9BACI
+MNIDNNDILIRLRYALDIKNTEMVEIFKLGGIDLSKEEVMKVLTKSEDDEVPSDNHIPCD
+DEMFESFLNGFITFKRGPKPVDPDRPALSYEHVNNLLLKKVKIALSLTSEDMIDILQDAG
+VTVTKGEMGAILRREGHKNYQICGDRYARNFLKGLTIRYRG
+>tr|A6CNP7|A6CNP7_9BACI
+MERFIAEAEKWKTNNTLLQVRYSIPKVGPKTFSGRIVNLQIEQNDILFYDVDSKMVHNIS
+LQAIDEIIPFAAAEVG
+>tr|A6CTG8|A6CTG8_9BACI
+MKKVIKWGGIVIALLAVVFIGAGNYFYNVAVNRSDDPVELYGGSQSAFSMVDEEEQQRKL
+EEVLEWTEQQSFHQVEVESHDGLTLSAVLLKSGNPNGKAVILAHGYKGSNEQMPGVTQFY
+HEQGFDVLKPDARGHGKSEGSYIGYGWDDRKDYKRWINLLINEYDAQEIYLHGFSMGAAT
+VLMTSGEELPSEVKGIIADSGYTTVEEELAHQLKYLYNLPAFPLMEITSAVTKLRAGYTF
+TEASAVDQVEKNKLPLFIIHGDQDKLVPTEMAEVLYEAASSEKEIWIVPGAGHTEAYTVA
+EEEYQKRLKTFIGE
+>tr|A6CKY7|A6CKY7_9BACI
+MVVFEKTSGCRMVDFYFSIHFRLPPAVYE
+>tr|A6CNB6|A6CNB6_9BACI
+MIKDIYATFSDLTKHEQIQLFNLLREDFIDNQDADMKDAYKTIRETRFKEGLGCIHCGSV
+KVKRNGKYRERQRYLCRDCGKSFNELSNTPIAGTRYLGKWAKYFHMMVEGYTLPKIAKRL
+KIHISTAFYWRHKILFALRSMGYQMLKGIIESDETFFKESLKGRRTLDRKPKKRGGRDKL
+RGISHLKIAVVVAQDRNGQVIAQKAGNGRVKEEEIDAVIGSYIDPSSLLCTDTATNYKKF
+AQIKALKHEPINLSKEGYVKKGIYHLQNVNNYHKRLKGWMDRFQGVATKYLDNYLYWFSF
+LQQSKKLAEKEQINQMLLNACQNSNSITVNFLREV
+>tr|A6CSE7|A6CSE7_9BACI
+MMPEMCHYSYTNPGQLKNDAGKALRFIHEISNHAEMMAEMGDYSYTNRAN
+>tr|A6CIV3|A6CIV3_9BACI
+MYRQQKDPLWKFSPIPNIEESNFNKILERFYNMRVTGLTRENTQNSMDGRLIGSDGPVTL
+TINTGSIEKENIPGINDVIERIKCLQGRNSYTKETIQHMINKIDQDEVRYISFEDSNTRG
+LTGAKNGQSNSTSDTWGIYAYNKGVHFEEEDSEVETSRGGSHGVGKIASNAASDLHLMYF
+ANCDEHGDQHLGGTVQLIEHVYEEKCYRSSGYFTDIDMFDDGKSKFYPYGNNFHPVFAKN
+TRGLKIIIPFLREEYDNENEIIKSICDSFFVSILEGKLEVIVNEEKITSETIINYVKDPR
+YYEQDITEAKKVFTPLYVDTYQNETPRELTVSDSIRDYHFKLYFKYDESIPKGRVAIVRT
+IGMKIEDFKVTGNANKPYNAVLIGGSDEDAYIKSLENESHTELSWEHIKDAKLQKRAKRF
+INNISREIAKVIEEAIKENNPTDGVLNTEDILYVVETQFKNDLSNSLGTVMINKGKSVIK
+ASTEVPKKAKKKKSEGKDSKEKPEKKRDPLKRKKREDKGNESEEQSKTKYSANPEMVERI
+ILHNKELIKFNFTESDLMANETTCDISLSVIDGMGVEYADEFNILGNYSSIADLYSGIEY
+KIDNNVIKDVKIRQGVTELQLGLRDNFNKSLKFVYYIEV
+>tr|A6CKW3|A6CKW3_9BACI
+MRFYSKRGIVIFPVLLVALIVILLSVVIQFVDLEFVTRVLGEPDVTGSLAGVIIPLAAAL
+LIIWLIIATYYEINDRVLRIVAGPIRYTIEIERIKSVRPSRNPLSSPALSLDRLEITYSK
+PTGKVESRYSWNTILISPKNKERFIDELLKVNRKIEVK
+>tr|A6CPS8|A6CPS8_9BACI
+MVVSMTGFGRATVESEQHVVTVEVKSVNHRFCELTIRTPKQLVKIEDKLKKKMSEYIKRG
+KVDAFITITGEGLVHRNLKVDWQLAEDYFRTLQTLKEKFALETDIAMQDLLKDAEFISIE
+ETEEENEQVQHLVEKAFIKALADLTAMRKAEGAKLQEDLLSHINLFRDTLSSIKEHVPAV
+LKQYRARLERKIKDLAGENADESRILTEIAIFADKSDISEEITRLESHLTQFTASIKLGV
+PIGRKLDFIIQEMNREVNTIGSKANDAAIAEFVVEMKTCLEKMREQVQNVE
+>tr|A6CQD4|A6CQD4_9BACI
+MLASNSLRHLSKSYERLGDYQNQLATGKKITRPSQDPVVAMKGMYYRSNLAENEQYQRNL
+SEAYLWMDHSEAGLDHATNALQRVRELVIQGKNDTYGEQDREAISQEIEQIKQDLVEVAN
+TKVAGRYIFNGTNVDSAPVAHGEPPVVTINTEDYLVEVSQGLNLKANIDADQVFSQELFT
+TLEDIKKTFSKDYSADKMDKLLTDLDSKIGSLQAERSETGARYNRLEMIDDRLTKTEVMA
+NQIISDNEDADIERVITDLRAQESVHQAALSVGARIIQPTLMDFLR
+>tr|A6CM27|A6CM27_9BACI
+MKKAEVGNLIEFKDGLKGIVEKVNENSVIVDLTFMENYRDLELEEKTVVNHKNYKIIEA
+>tr|A6CM55|A6CM55_9BACI
+MVLILILGGVSLLRIPLKLIPDINPPVGVVVTTYEGASPTEVVEKVTKPLEDTLATLPGI
+KSIQSTSREGSNFILLEFSWTTSIDEIQDEVLQRLDGVPLPDDAEDPRFLKFDPSQFPII
+QVSLKETDNVENLQDLAEDLKLDLTKTEGVASVNVSGVNADEIAIELDQEKLKEYRLTQS
+DVVNTIRANNITMPGDTITTGEKTLTTRVVSQLDDAEEIAGLVIGKNPETGKNIVLEDVA
+EVEKRKQESNTITRADRKDAVLLSVLQESDANTAEVSDAFQDKLNQLMDQDRYGNIEADI
+LFDQGDYIKDAIGNIANSLILGGAFAMLVLFLFLRNIKSPLIIGVAIPYSVIVTFVLMFF
+ADFALNIMTLGALALGIGMLVDNAIVVIENIYRHLSMGKDPKQAARDGAKEVGTAITAST
+LTTVAVFLPVVFISGLIGQLFTEFALTISFSLFASLVVALTVIPMLASRMLKTSKGNHEA
+IRRRSKSMKTFEKSIHWSLKHRWAVLLITTIFLAAGGFGLTTVGTQFLPPTDEGFFNMNI
+KLENGSSLEETNSVVEAIENELEKEEAIDVYVSLTGTNQEQSFRGQSNRNIAEIYVKLKP
+LEERGISVFKLVDQLKPKIEEAALTQNETASVGFNLQSTSGQSPQTLSFSVRDTNSERLN
+EAVEKIQKSLESAQSVTDVKTDQEELIQEVQLIVDRKAALDEGLVPAGIAQTVNDVTRGV
+PAAQIVGDADDIYNVFVRYDREITENLDSLKKLEIQNAQGQFIQLDKVVDFSIEDGPVRI
+QRIDQQGSVQFTLKYSSETNLGEISEIVDEKIAGLNIAEETEVTFSGDRELMEDSIDDMV
+LAIGLAIILVYIVMAAQFESFKYPFVIMFTVPLMVIGVALALTITRTPISISAVIGVIVL
+AGIVVNNAIVIVDYINQKKANGMDSYEAIVDSVKDRARPILMTALTTILGLAPLALGLGE
+GTEINQPMGITVIGGLVSSTLLTLYVIPVMYSLFDKKTRRMKRRRRAYQ
+>tr|A6CMD3|A6CMD3_9BACI
+MDECLQKCEDALRFAQEQYKSGTKQEHYHDQEYTDAMQKVEEAVNDIRHLANSANSQQRE
+QLHRMRLQLQQFQNEMVLLDHDPESVGGRLQ
+>tr|A6CTX3|A6CTX3_9BACI
+MIKIIGAVFIILSTSWAGFEASRHLSERPRQLRILKSALQSLEAEIMYGHTPLHEAARKL
+SKQLQRPVAWFFEVFAKKITTEETTVSEAWEASLKEVWKMTAFKSREYEILTQFGESLGK
+HDRLTQQKHILLTLTHLEREETEALEKQKRYEKMTKSLGFLSGLLLIILLL
+>tr|A6CRT5|A6CRT5_9BACI
+MSMMVGFKNKKDRQFSQSLNIKNMSAIIYYLFLPLPLQHGHVSEPPRTSWKYPLPEQYSH
+FFVDVSSVDLIVLISPSLKSFC
+>tr|A6CKP4|A6CKP4_9BACI
+MDENTAAGSIWLAKIPEDTGYIYDIHINPDQQGKGHDKQAMKEIGTIAKELDFTKIELYV
+FGHNKVAKTCMKTGL
+>tr|A6CTA4|A6CTA4_9BACI
+MKNYIAFLLQLIVWSVFTIAQWLSNKDHIEYKWIMFIVFFYLGFIVAKKILQSSRLTLIV
+TIISLSTFFSLKIFFEQILVAI
+>tr|A6CJ89|A6CJ89_9BACI
+MSRLVILTVGKTHSGKTTFARKIEEKLRGSVVIDQDNHAEFINTFYRNLLPPEGPNTLKY
+AISQTILDYAVDHTTYHVILSNSNRHQKGRTNIIKYFRAKGLKPILVNFKIPDEILQMRV
+SESKRSTRIFRSASTFEEVLAKQNKEVVKEPNEEEADHLFTIHKQEDVDSVISEIIKISQ
+NEKGGADN
+>tr|A6CLI9|A6CLI9_9BACI
+MIRVLFVDDHEMVRIGVSSYLTAQPDIEVVAEADDGSAAIDLALQHKPDIILMDLVMKEM
+DGIEATRRIIEKWPEAKIIIVTSFLDDDKVYPALEAGATSYMLKTSKASEIADAVRSTYQ
+GQTVLEPEVTGKMMLKMRGKNMALPHEELTNRRWRSCCSWPNVKPIRDCG
+>tr|A6CIC6|A6CIC6_9BACI
+MWWAAAVIGGILLFALFIDLRRRKNNNNPHIPTNPNAKQGESSNYMMGDNRYSSGGE
+>tr|A6CPW7|A6CPW7_9BACI
+MNLEHLKALAIKFVMLAVVLGVILTGIFGVEVADMLTVSIVLTLGAYILGDLMVFKRLKG
+DQQKRNTVATLSDAGLAFVLLWFMGTSMFPEHNVILASLISAIVLAAGEWFFHKYLDNEI
+FNDGRSYHTDPIHH
+>tr|A6CTA9|A6CTA9_9BACI
+MKIHTESKVNQLEYQYPFSLDWSTDEVIDVVSFFQSIEKAYEKGIEREKLMSAYRRFKEI
+VPGKADEKKICGEFEESSGYSSYRAVKKLKESDSKIIKM
+>tr|A6CIH2|A6CIH2_9BACI
+MTKIEIFDPALCCPTGVCGPSVDPELTRMASAAFILEKKGFHVKRFNLANDPAAFVEYKE
+INQLLHEKGPEALPAVLLNGELVKTGEYPSNSELAEWFEIKLEDLTEKKPRVKLDLL
+>tr|A6CQ29|A6CQ29_9BACI
+MFLSEKRWFSLLFAEGYLTPRGWALQLDWGSPPVPLVPQEVRHLPLQSNQGIFSYCKNYS
+DFLKAPL
+>tr|A6CUJ3|A6CUJ3_9BACI
+MRRIDPNKLELEERVVTINRVAKVVKGGRRFRFAALVVVGDKNGHVGFGTGKAQEVPDAI
+RKAIEDAKKNLVEVPMVGGTTPHQVIGRFGAGEILIKPASAGTGIIAGGPVRAVLELAGV
+QDILSKSLGSNTPINMIRATISGLKELKRAEDVAKLRGKSVEELLG
+>tr|A6CM76|A6CM76_9BACI
+MMSINGVQYHIEVHGKGTPILLLHGFTGDNSTWDELLPYLENYRTIAVDLLGHGRTDTPD
+NPDRYQIEHAIEDLKAIIDELNTEEVYLLGYSMGGRLALAFSAAYPERVKALILESSSPG
+LKTEEERKQRVAGDEKLAGMIVDKGLKDFVDYWENIPLFSSQKQLPISKQKEIRQNRLSQ
+NPLGLANSLRGMGTGRQPDYWEELRNLPMEMLFITGELDSKFCRIAEEMQAKAKNAIFEK
+VDGAGHALHVEEPEKFGTIVREFLKNT
+>tr|A6CLE3|A6CLE3_9BACI
+MTEAFFPELFKSYFIAMGVMLGGCLLGGLAAFMTGQPLLTEISRLSRILRIWAIIAAIGG
+TFDTLYSFEKGFMNGETKEVFKQFLLILSAMGGAQTAALFIYWLTQEHIST
+>tr|A6CP76|A6CP76_9BACI
+MYLPVINKSVTIIVPTGEEKGTYTSIVHNMNTSELILSKPVSADGNGEITLTDGLQVIVD
+YQDDKDVPCRFETLVFNPLNENPEWLLLKCPDKIERHQRREEYRIPLCRPVELTIHSKNV
+AGLMNDLSGGGCSVWLDDTNGLQKGEKVEVSFVLSSPAAGIEPMSIVAEAEAVNVQNRAS
+AVKGAFCSLKFVGMSSDMRQGIMEYIFNRHAIDVALNSVGREIMY
+>tr|A6CR26|A6CR26_9BACI
+MRSGDTASFFFRPIRFSLNFGTEGKRVFCVIIQYINSQRKAGTNDCLIKTLQKN
+>tr|A6CQ12|A6CQ12_9BACI
+MKNVVITSAFRTPVGAFGGAFKDLLPTDLIVPVMKAAAEDSKLGPGDIDEVILGHCIQRT
+DQPNTARTAALLAGFSDTTTGYTIQRQCASGMQAIISAYMQIQTGMSDIVLAGGVEAMSS
+SPYVMKGHRWGQRLQHGEIRDTVWEALEDPIHGIMMGETAENLAEIHNITREDQDELAKL
+SHERAVKAAEEGYFDSQIVPIEVKSRKETKTISKDESPRAGLTMEKLSGLKPAFRQGGTV
+TAGNSSSLNDGGAAVILMSEEEAEKRGLKPLASISGCSVAGVDPKVMGRGPVPAVEKSLA
+QTGWSLEEADLVEVNEAFAAQYIAVEKELGLDRNKTNVNGSGISIGHPVGCTGARIVVSL
+IHELKRRELQKGIASLCVGGGMGATVFIEAL
+>tr|A6CSS2|A6CSS2_9BACI
+MEENWGGGKIIRKIISLRKDYFMSKLIKWGLTVAPFLYMALIWYMSSNPDDMIIRMEHDQ
+FDRIFKESLHLIEFAILYILFVLALLAHNRLTYTASFIAAMVAGFYGLTDEIHQSFVPYR
+SATLIDAVKDLLGVAVCLAIVNRTYFKNKMHPIARGMEWFRFKMTKTN
+>tr|A6CI24|A6CI24_9BACI
+MITLFSIEVSVRKTVKQNEEMIELLKGLQPDSRKE
+>tr|A6CIW2|A6CIW2_9BACI
+MVYILLILGFVLLIKGADLFVDGSSNIARALHVSPLLIGLTFVALGTSSPEASISIIAAM
+EENAGVALGNVVGSNILNTTLVVGIAAFIYPLKVENETIRKEIPFTLLASAALLILISDI
+ALQGASENLLTRGDGFIILLLFSIFLYYIFEVARNSREKIKEESKEQAPASWMKNSLLTL
+GGLVGIIVGGELVVKNATEIALSLGMSETLTGLTIVAIGTSLPELITSITAALKKESDIA
+LGNIVGSNIFNILFVLGATASIHPIIVDNRILFDILIMIFLTGTLLIFSRTNFKIGRFEG
+SFLVIAYILYMVFIIIRN
+>tr|A6CKY2|A6CKY2_9BACI
+MIWLMIASFFILIIFGVPIAFSMGAAALLYILIEGIPLGMVAQRFFSNTQSFSFLAIPFF
+ILAGNLMIKGDIAQKIIKVADSMVRQLPGGLGCVSVVTSMGMAGVSGSSVADAASTGSVL
+IPEMKRKGYTASFSAAINASSSVVGIIIPPSSTMIIIAWLADLSVAKMFIAGIIPGVLVG
+LIYLVTTVIVSIKRGYPRESKPTLREFLTNIRKAFWALLLPIILVGSIVLGIATATEAAA
+ISVIYAFLVGLLVYRTLNFKNIMSSLRDTIYGTSVVMITICTSMIFTWVLISEGIPKLIS
+EALLSFDLPSWALFLILIVIMLVAGMVMELVPNLFLLIPIFFPIATDLGMDPIQFSLVML
+VSLALGMFTPPVGATLFISCYIAKVGIEKTVKDIMPYFLAGIVVVLLITFIPSLTLWLPS
+LME
+>tr|A6CL61|A6CL61_9BACI
+MYKISEFSELTGLSKETLRYYAEIGLLEPAYIDPTNNYRYYDDGSYFLAVLLSKLRNFGL
+TIQEMQGVMNDESFFNLKTLLLQKRQNIVKQIKELQQKLSDIDEFIESGREDIE
+>tr|A6CQ98|A6CQ98_9BACI
+MYIESAEAFPDTTITLTNGKKIVVRESVKEVEDKTVSFYRKINVMGLRNTAGVQDEK
+>tr|A6CKY0|A6CKY0_9BACI
+MKKFRKSAFILFTIMVLFISGCSGGEEASGNDAGQEYEWKMGWNSGLEDTPRGTFAQAFK
+DYIEKESEGRITIEFFPNETYATSQEMIEAVQMGALEMQIVGANMVGNIIPQYSALSLPF
+LTHGFDEAHAVLDGPIGEELNKMGEEHGMKVVGNLDLGFTQITNNVRPINTPEDLVGVKL
+RSPNDKSLIETFKAMGATVSTMAYTEIYNGLSQGVIDGQFNPLFHIFDQNMDEVQDYLAM
+TNHMYYYAYTIMNHDLFESLDEETQQLVMDAGKHATEAARQYVAENDEELFEQAKGGAFK
+EITYPELEPFQEAVVPVYKTMEDVMGAEIINDIQNFLEEYRKN
+>tr|A6CHA5|A6CHA5_9BACI
+MGGQKVSSYDEVKGFFRNGMTLMFGGFGGVGSPPTLIRHLLQWEITNLTLVGNDTGFPTI
+GIGQLVTEGRAVKVIASHIGSNPVAGRLMSEGKLEVEFSPQGILAERIRAGGSGMKGIIT
+DIGVEDPYLNKDKPTIELDGKTYMVETALTAEVGIVYARKADKLGNLVYDKRARNTNPLV
+AMAADITIVEAEEIVEPGELNPEEIVTSGVFVDKIVRSEGVDWQWAWE
+>tr|A6CTC8|A6CTC8_9BACI
+MSQRVFKIDNEPCIVHYPIRPNGFAVLILGDVNHYVDEQSSFWLQQETRKSIITELTAKG
+YIVYYSNLYGANWASDKAVSLVKRLYHYIKRREIINEKVHVLAEGMGGLFIEKLLPAIGS
+QIRSVVLLTPCISLYEHFSQEKEQKFFYKKLIKEISLAYDIEMEKCEDAIKKELNAGEDL
+KETETPLYTIQSINTSRYKNQFSLIKDIYKDRIEKNLPGEIYIILPEKRYKAPLKIVSYF
+SMHEQL
+>tr|A6CJI7|A6CJI7_9BACI
+MNATIRMIQQWKTALIAEIQKLKEFESRGIMVLRGQHLATSERGAVYWLVLAYPVSLFPG
+GAVIFDYGKKKVEGSVLSSEGVDVIVELDTDLGEEVGKGLLHNEPWDLLNKLIDRLEEIE
+ESSVKLKIIDKVMDTGEKAYHPEGKAKSLVHEAVLRSKYNPVTYIWGPPGTGKTYTLARA
+AAYQYVNGKKILLLSHSNAAIDVLTLELNRFLQENEKWTSGEVIRYGFPEKEEVSSYPDL
+SVTKLAELADSSSGERKRKFEKKRMVLKKKLSAGFNSRESAQLTKIEIGLAKLREKLRKN
+EAQFVNDARVVATTLSKAATDPLIYQSQFDLVVIDEASMAYTPQIAFAATLGSRVIICGD
+FKQLPPIAVSRHGLVEKWLKQDIFHLSGITRSVENSLHHPHLMLLPVQRRMHPHISAFTN
+KYFYHSLVSDHPDVLKQRTSAANLLPFEGEAAFLLPVTDNLPWCQTDGGSRWNLMSSLIS
+IQMMLAANESGMPTIGYVTPYRAQAKWMNRLLPIFLNHRDLVLTADIFASTVHKFQGSEK
+DMILFDLTDGSPQEKAGTLLTKRESGRLINVSVTRAKGKFILLGDHQFIKNHVHETKPVR
+KLIDYLEKKRHRHTEGPNSVFDRKFTKRLRWFRINNIEGLKKDIINAKKEIILSFEKTED
+VSDTIWRALKAVEDEKTIIILCKQNRSIPLIKFQTDKREFIQPFIGFDKKVLWFGDFHPQ
+NNEKTFPYIARVFSGKFFTAYDSYLT
+>tr|A6CQ07|A6CQ07_9BACI
+MEVLRQPLSPTLMNYLNQEAHAVTGSNQLRIPGSRHSWTNNKQLPFIMVWLANGVFFLFG
+SLWRLIPAWPE
+>tr|A6CKL4|A6CKL4_9BACI
+MEKILDHIGIAVRDMENSIHIYTNVLGGVLVDRYRSDAVGVESEIAVIELNGDRFELLSP
+TNNTTSPIARFIRQKGKGVHHVAYRVGNLDEALIELKDQGIRTLEDTLRINKHGRRLIYL
+NPADTEGTIIEYCDYPNEK
+>tr|A6CLN0|A6CLN0_9BACI
+MKKRRLEFLFVIILIACVYIFLSSGFHTYIKAGAASVYIIIILISVFSLILENRSAQHTL
+LWIYVLVCFPVFGYFFYLFSGQLYLKGYLFKSKRKNDREEWQKLLKRENSPDLSFLQDNQ
+RNFAKFANKVAWSPISTSSTTKILKNGDETFTEIKEKLKQAKEYIHMEYYIFRSDRLGKE
+IINILIEKAKEGVEVLFIFDAVGSMHLSSKDIRAMEDAGVQVQPFLPLKYGFFNQKFNFR
+NHRKIIVIDGVTGFVGGLNVGIEYLGEDDRFGFWRDTHMMLEGGAVFTLHTVFLLDWEYV
+SGNMILEKFQAHPEIPAEELDGAVQVVASGPDTQLGIMSDLYYSLISSATTSIWIATPYF
+VPTESIRTALRVAASKGIEVRIMVPETNDGFLTQYATRSYFSELIRCGVEIYSYKKGFMH
+QKIIIVDGNLASVGTANMDMRSFHLNFEVNVFLMGNSSIRDLCAHYEEDMKDSVRVRPVE
+YYKRGILERSKESFARLFSGVL
+>tr|A6CKC9|A6CKC9_9BACI
+MSSLVGCTHNENQEQLEVLVKTHWGDKMLHERNFYQTIITELSSEDLNAGFLKGVGATQR
+DFYTINQRDDKGSIQDIIDQYYEDEEVEKINEVLQKAEDTSFALAHHLENEDLSVLFHNK
+QFISSVDGLIDAYVIGQGSVISSDDLTLINIIKYPENISEKYSSNEILTLLIDIENNLEL
+LSQEIVNVE
+>tr|A6CTM7|A6CTM7_9BACI
+MLSSLQKENTNKVEKEDSGVKFKSLLLYFSILAVPGYLISQLPLPSDALSVSRGLIWFSY
+FMLITFSLKNVREFIIPLLRFNALKEPKSYVFILFTFAIPYFLLHLCLHFEVLLDKYFIF
+YFKNNMLPAGSLESTIRTVLLTPIWEEILFRGVILTILLRLIKPFWAISITAILFGMIHP
+SGAWIFTFMAGFLLTFTVYKTKSLIPAIIAHSLWNLYMTQLFLYF
+>tr|A6CN49|A6CN49_9BACI
+MEEKESYYMELESLYIPATNRFASLYLQQEPPVTSFFHYNLADPNLYAKRVTELKERDFP
+RAALVKIIEGYMKPFPSSRAVERSLGKLKEDASVVIGGQQAGLLTGPLYTIHKVISIIKL
+AKEQEEKLQSPVVPVFWVAGEDHDYLEINHVHTERNGKLEKTGYPERATDKRMTSEFIYD
+KEIMRKWVHQVIHHFGETEFTKGILIDLEDAIQRSGSIVEFFSSIIMSLFKDYGLLLIDS
+AYPPLRELEKPFFLHLMEGSSTITEKVKEQQKIISENGFPLTIELKENAANLFITENGER
+ILLERDGNSFRGKNGEIRYPHSQLEEILHSEPHRFSNNVVTRPLMQEWLFPTLAFIAGPG
+EIAYWGELKQAFEWAGFKMPPIVPRLNLTILERDISKGMEELGLTLDSVLKDGVDKEKQQ
+YWDSVKDVTLEGNIDDAEKELMKSYEKILPKATGIDKGLATIIEKNLAFHRQQFDYLRLK
+ANQSLMGKHEVKLSKFDKVQTSLKPYGSPQERLWNLYYFLNRYGDDFIKELMDLPLEFDG
+KHKVVKI
+>tr|A6CPS4|A6CPS4_9BACI
+MGGASMKKEIAQQLMNIEAVFLKPNDPFTWSSGLKSPIYCDNRLTISFPEVRNMIAEGIA
+ENIKNHFPDAALIAGTATAGIPHAAWVSDRLNLPMCYVRSKPKAHGKGSQIEGKILKGQK
+VVVVEDLISTGGSCIAAVNALREAGCEVLGVAAIFTYELQKGIERLEEANIKAISLSDYT
+ALLETAHENQYIDEKDVAALKSWREDPEKWEA
+>tr|A6CKM0|A6CKM0_9BACI
+MTGKRYEYLLDVEVPEDDELYTENGLMIKAIYAVDEKGSRVAQYYLMEKSTEKYFDFELE
+EEEEESIRTYIAKLHNADKSEEA
+>tr|A6CL54|A6CL54_9BACI
+MTSKKLDQFLQENLNDLRDRGLYNEIDPVEGANGPIIKIGGRDLINLSSNNYLGLATDER
+LKKEAIKAVDKYGVGAGAVRTINGTLDIHLELERKIAEFKGTEAAIAYQSGFNCNMAAIS
+AVMNKHDAILSDELNHASIIDGCRLSRAKVIRYNHSDMEDLRAKAKEAVESGQYNKVMVI
+TDGVFSMDGDVAKLPEIVEIAEEFDIMTYVDDAHGSGVLGKGSGTVKHFGLSDRVDFQIG
+TLSKAIGVIGGYVAGKQNLIDWLKVASRPFLFSTALTPADVAATTKAIELILNSTELQDK
+MWENSNYLKEGLEKLGFDIGKSETPITPCIIGDEKTTQQFSKRLNEEGVYAKSIVFPTVP
+RGTGRVRNMPTAAHTKEMLDEALAIYEKVGKEMELI
+>tr|A6CI10|A6CI10_9BACI
+MLHHVEIYVSDIKKSREFWGWFLEELGYQSYQKWESGQSWKMNETYLVFVQAEDRFLEVP
+YHRCRVGLNHLAFHATSREQVDEMTNKLKDKGIEILYPDKHPYAGGESYYALFLEDPDRI
+KVELVAPEKGSD
+>tr|A6CHV9|A6CHV9_9BACI
+MRDISKIPFSPDEEIVIATDNSGGIGTKEADYVYAEDSLTAYFSTRVALMEVLSVKAVTF
+SVLLHNFSGDDKWTSYKEGIQTALQEAGISKISISGSSESNFPLKQSALGITVLGKRSVG
+KIPESSKDKLCYAVIGEPLVGKQVLERKERVAPLALFSQCCQSQFIFDIIPVGSKGILEE
+LKIISGNRTLSENEVKCKLNLTASGGPSTCFIIKFTREDSHSVEELTGSFYHPLLIVD
+>tr|A6CLM1|A6CLM1_9BACI
+MEEEVHKVAFVATVFRHLEAFHLPFIKMLQKKGVEVHAISRKGNGKQALVDEQVKCHEIE
+FRRFPFHPANISALYHLIQNFKKEKYKLVHVHTPVGSILGRYAAKAAKIPKVIYTAHGFH
+FHEQGSTFNWLFYPIEWFFARWTDVLITINTEDAARASSFPVRKKAIFIPGVGVDTGKFG
+PVKKASVRKQKREELGIPESAFVILCVAEINKNKNQVQLLRAIRLLKTRYPQIKCLLVGE
+GNGERELKKYVKDMSLQAEVMHAGFRTDIDELLAAADLFCLTSKREGLPKAVMEAMSAGK
+PVIATKIRGCRDLITHGENGYLVPVNNHELTASYIAKLIENPSLLERMGESSLQLVRQFE
+LSSILSDMEKVYVECLMDPLKEPE
+>tr|A6CU71|A6CU71_9BACI
+MSTVDKFILAAVTTYPEKVPSGTAVFHCRTQEQLEKVSANLEAILDGIAHEIDDGLFIIV
+RH
+>tr|A6CUD0|A6CUD0_9BACI
+MSLLGLANRARKVISGEELVIKEIRSNKAKVVILAGDASENTKKKITDKCSYYKVPFYQV
+EDRGVLGRAIGKEARVTVAILDAGFAAKISTLLDESQWG
+>tr|A6CTF0|A6CTF0_9BACI
+MSKKRKTIQAWRVYEQLEETKTLEQFPE
+>tr|A6CKW0|A6CKW0_9BACI
+MEGPLLFLIILLGVAFIVFATAKLKLHPFLSLLFAAFLVGLLAGLPLDSIVEAVNGGFGG
+LMGYIGIVIVAGTIIGTVLERSGAALRMAEVVLRLVGEKRPQLAMSLIGAIVSIPVFCDS
+GYVILSSLKKALAKRAKVAVASMAVALATGLYATHTLVPPTPGPIAAAGNIGASDYLGTI
+ILVGIVVAIPTILAGNFWAMKVGTKIEVQDEGPLELNYDDIVKSFGELPSTTKSFAPIVL
+PILLIGLGSVVKFLQLEGTFADIFTFLGSPLVALLVGVIASFFLMPKMDEETLTGWVGDG
+IKDAATILLITGAGGAFGSVIKATPVADLIQGFADGGLLSGVFLLVIPFIIAAALKSAQG
+SSTAALVVTSTLVAPLLPQMGIEGALPLALVVMAIGAGAMTVSHVNDSFFWVVKEFSGMK
+ITDAYKAQTMATLIQGLVAIVTTMILWVIFV
+>tr|A6CMR1|A6CMR1_9BACI
+MNESVIQSIKEHSTEYKTERDLDSIINEIGDSRIVLLGEASHGTSEYYKIRTELSKRLIE
+EKGFNIIAVEGDWPASQSVNKYIKRYDETENPRDTLQSYKRWPTWMWANEEVVDLISWLK
+EYNTNTSLKQKVGFYGIDVYSLWESMEEVIQYLEKTDSPDLEKARKAFSCFEPFNREAQE
+YAVSAGLLGDDCTDEVVQLLSTIRKNKEHYTSNHEQELNLEVNAMVAANAEHYYRAMVTN
+DEQSWNVRDEHMVEALNAAMKSYGDDAKVIVWEHNTHVGDARATDMMEAGMTNVGQIVRE
+QNPKEDVYIVGFGTHRGTVIASKEWGADLERMAVPPALRGSWEDAMHEAGNYNQILIFND
+ENRKQFHTPLGHRAIGVVYRPQYEQYGNYVPSIMSERYDAFIYIDETSALQPLELSQAKV
+>tr|A6CS55|A6CS55_9BACI
+MSEYQEFLSERDKIDYLIQQGYMIEKVSENLSGAFVLFSNAAEKKSMTLHVKTANARKYF
+SNLLIQG
+>tr|A6CLS2|A6CLS2_9BACI
+MSQFNKLISEQLETMDKLLFIQSEIERCQEIEKELVELQQQSKLDSIHQEISMMKKELKE
+IQKVFQDQTNEVIQVYAEEKVLI
+>tr|A6CS36|A6CS36_9BACI
+MKNSAGEALEESSPALLKLLLY
+>tr|A6CSV2|A6CSV2_9BACI
+MLKGTQSWEFQNQPSIISTGVVGGPFEKKGRLSEDFDRFYDDLWMGEDTYEKANRLMIED
+AVKLAIEKGGLQEEQIQFFLSGDLINQITPSSFAARTNAIPYLGLFGACSTSMEGLAIAS
+YIVDTGGADYIVTGASSHNSAVEKQFRYPTEYGGQKPPTAQWTVTGAGYSVVGKSGTATG
+RMPRVTSATVGKVIDMGLMDPFNMGGAMAPAAADTISAHFKDLGRDPSYYDLIITGDLAK
+IGRKTAQDLLQQKGINLDENQFQDCGLLIYGQDQPVQSGASGPGCSATVLYGHLLNQMKK
+GVYKKILMIATGALLSPLTFQQGESIPCIAHAVSIEYI
+>tr|A6CU34|A6CU34_9BACI
+MVYYVEEALDVMGYQHTLTDKEKKIFPVIRSTSFPTKTHEDVPFITEDHTAETRVYYAVD
+LGTTYRMIDEKLLQTEGWTPEKVKEAALFNLRSLPIKLKQDTLVGNVFHFLNTNDGYDGS
+RILNTSFLKDMKAKVEGEMTVSIPHQDVLIIGDIRNETGYDILAELTMSFFTNGKVPITS
+LSFLFEDNELEPIFILAQDRKDRKDRKSGREK
+>tr|A6CLB1|A6CLB1_9BACI
+MANNNSSNQLVAPGAQQAIDQMKFEIASEFGVQLGADTTARANGSVGGEITKRLVQMAEQ
+QIGGGYQQ
+>tr|A6CNE6|A6CNE6_9BACI
+MKQKNEPKVVIIGGGTGLPVLLRGLKTYPLDITAIVTVADDGGSSGRLRDDLNVPPPGDI
+RNVIAALSEVEPLIEQMFQHRFETSNELSGHSLGNLILAAFTSITGDFVHAIQEMSRVLN
+VKGKVLPSANQSVVLNAEMEDGTIVSGESKIPFSGKKIKRVFLTPGTIIPVSETIRAIRE
+ADLIVIGPGSLYTSILPNLLVPEIGKEVSNSKARKVYICNLMTQAGETLDFTASDHVKAI
+YDHLHDGFIDTIIVNNEQVPQEIEARYEEEMAKPVIFDFERLSSMGLQVIDDEIISYYDG
+VIRHDTGKVAEIIFSLMNKPDLKSIE
+>tr|A6CNF7|A6CNF7_9BACI
+MIKKLLIANRGEIAVRVIRACREMGIESVAVYSEADREALHVQLADEAYCIGPTASKDSY
+LNFTNIISVAKLTDCDAIHPGYGFLAENADFAELCRECNITFVGPSPEAISKMGTKDVAR
+ETMRKAGVPIVPGSQGIVKDAEEAVSLAEKIGYPVIIKATAGGGGKGIRVAKTEQELIKG
+VNITQQEAATAFGNPGVYIEKFIEDFRHVEIQVLGDNFGNVIHLGERDCTIQRRLQKLIE
+ETPSPALDGETREQMGQAAVKAAQAVDYSGAGTVEFIFDHVNNKFYFMEMNTRIQVEHPV
+TEQVTGVDLIKEQIKVASGEQLSLKQEEIEFNGWSIECRINAENPEKNFMPSAGKIDLYL
+PPGGLGVRVDSAAYPGYTIPPYYDSMIAKLITYGATREEAIARMKRALSEFVIEGVHTTI
+PFHLKVLEHETFVSGEFNTKFLEIHEVMKS
+>tr|A6CK95|A6CK95_9BACI
+MKLWIRFSFFILGLILFSYGIAVAIKVKHLGIHPWDVLNLALHEKFGFTVGTWNITVGIL
+LVLVSLAIDRRYINIGTFLNAVLVGIMVDGFLWLNILPQPSSLPLDILVLLTGIVIMGFG
+GGMYNASRIGSGPRDGFMLSLSDKLGFSISSVRIMVESSVLIAAWLLGGPVFIFTFLYTF
+IQSPIFQYSYKVCTRWIEVLSQPKKQKDEFFTT
+>tr|A6CPK6|A6CPK6_9BACI
+MLLAFSLPFTAASAEDPIIQSIDEKLESVDFYYQQGSAKVMDFTDLYMEIAINEEEVEKQ
+KVKMVFVKYQTDRDTIFHFNKQEVFYYSLDKNTLLENDSVIGNAESKAFITDHQDDYRKQ
+ITPGSLALILIFIFTTVLLFPLAVLLLQKNTPSDKLYPYEL
+>tr|A6CQG0|A6CQG0_9BACI
+MVYVLLIIGFLLLIKGADFFVEGSSKIAQALKVSPLLIGLTIVAFGTSSPEATVSIAAAL
+EGSAGVAIGNVVGSNIFNITLVVGLTAVLNPLKVESETIRKEIPFTLLASIALVILISDT
+GLQLLSENFITRGDGFILLLFFAVFLYYIFEVAKKSREKLNDEGTTPESISWGKNILLTV
+GGLAAIIFGGDIVVDNATEIALSFGMSETLVGLTIVAVGTSLPELITSVTAAVKKQGEIA
+IGNIVGSNIFNILFVLGTASVISPLAVDDKIFFDALLMIILTGILLIFSRTNFRVGKYEG
+IFLIVAYILYAVFIILRN
+>tr|A6CH81|A6CH81_9BACI
+MRKTFVVLISILTFGLVTPSQAFLNENESLNKSNSKAPSSIHTQPEITETVEEEEFDHQD
+LEFDHEEFIQKMISEAENQAYIKFGSKIKPVIENEFQSIILPKIQVAIEETTKQFPENEL
+SHLTISEAPAYAKSEKIFHIYDERSGEDIIRFHVRRDHPPLDGYYFNFHYHTRHDNFQEH
+HSLGDIYWDKNVPPQWNSLS
+>tr|A6CP44|A6CP44_9BACI
+MLSTAFLFPWVVNADELSLKDNVEVRKGATPQYPVVMHLEKGTEINVIDEFTNAQGEKWY
+RIDLGKVKGWVPSASTAESSLIGKETTINADTVNIRKGASTSYSVIDKLNTGKVVKVIDT
+FENSLNELWYRIEFDGKRGWVFHRLLSETPLISAPGPSAETKQKVVILSSVVKKGATEAY
+DEVARVQAGDTVIILDSFTNSQKELWYRVDLGTVKGWVNSKAFKEAETPLPPEIKLMRVT
+VDSAFVHKGATSDYDVVHTVRKSDELTVIDSFTNSKGEAWHRVDLGTTKGWIHNTAFREQ
+APPSQDTEPETEIVLPDNMYAKVNGVNVHSGATTSYKIVEKLRANQKVKVISTFENGFNE
+TWVRVQVSDQLSGWVIIDSLTESSSINKSLYISVDVANLRSAPSLDSLVVDQTSKGTHIT
+AVREEKDSNGNTWYNALYNGQFIWAHESVVTDSTIKLNTTINIRTQRGIMRSGATYQYPV
+KRTISYSDRVTLLSEFINSSNEKWINVQLQDGTKGWVPDYEVKTDYVRIYALQKAVLRKG
+ASSHYAISENLELNETLLVLRELNDWINVETADGERGWVNKSQVSNISKQSLIQPATSSV
+GKDLYVTWKKPSEFDLSYSSLSKNKIKIFGGLTDLVIPSSNPKGISSIESQTLSNGEKAM
+IITFSPGYTYTLRDHDDSLSIKVLPKGLSGKKIIIDAGHGGHDSGATGITGLLEKEVNLY
+TALYLKEELERAGAVVKLTRSNDTFLELYERTDISNKSDYDAFISIHADSFTREAAGSTT
+FYNKSVNFNGPKSYLLGKAVQSHMVSQIGTANRGVKEQLFHVNRENELPSVLVELAFLSN
+PTEEAKLKTESFRRQAALGIRKGLEEYFNY
+>tr|A6CIJ0|A6CIJ0_9BACI
+MGIKRTLNKINKWRESPIMTREDFSTIFSNTTIKDISLTNRIGLAPMTRTSATPEGLATE
+DMAQYYTNFAKGGFSFILTEGTYTDDRYSQGYLNQPGIINDEQINAWKKVTDSVRQQGAK
+IFVQLMHAGALSQGNRFSSETAGPSAVKPKGEQLGFYGGSGEFAMPKEMTEEDIQGVING
+FVEAAKNAKEAGFDGIEIHGANGYVLDQFLTDYTNQREDQYGGSLENRLRLPIQVIKAVR
+EAVGADYPVGIRLSQTKVNDSDHKWAGGESDAEVIFSKIEEAGIDYIHIAEPDAAAPAFS
+DNGPSLVELVKKYTDTVVIANGSLGDPNAAEALLKDGKADIVTIGKAALANQDWADKVKN
+GKDLDDFDFQKILLPQATLKEFEVKPKIEFFGEGMTCGPDGVCE
+>tr|A6CQ08|A6CQ08_9BACI
+MPLNEVPVNKDRETPVNPTERIAKQLTRRAGVEAGQGLIVACESKETKKDHDIAQ
+>tr|A6CM53|A6CM53_9BACI
+MHNKSISKLEAILWSIALPGFPQLLINSVIKGIFFVALEFLINVQSNFNEAIRLSFLGET
+RLAAEVIDYQWLMFYPCLYMFAMWDAFKSAEGERDRYSFLPFVCTAYTVTTGLMLAPKVF
+IKEVFIGPIFFPMLCVIPGVVAGLFLQYLLQKRTY
+>tr|A6CT49|A6CT49_9BACI
+MEYTNEMEKAMQGAHGVGYETYKRNHDVRMRVEKRRENEYIESRRMIADLDRKVHSNI
+>tr|A6CHV6|A6CHV6_9BACI
+MQFITGGTFNGKSKWVRENNDSSKEWIKLFDADSMPQHDDHEGTVVIEGLEYLVLSLLRT
+GRDSDSLRKAFITSFQQWKSWEDDSSNEVIWIGSDISKGIVPMNAEDRLWRDMTGWIYQD
+LVKHSDRVYEIWFGLPTILKG
+>tr|A6CJF6|A6CJF6_9BACI
+MRSPLSNNIGVIFIPVSDIEKARDWYCDIFGFPTDGEIMFGHLYALPMKEPGVILDSKIY
+SKENTFKVSPFHINTENIHEAYQFMKEKGVKMDSDIQHDHFFNFQDPDGNHIMVCQC
+>tr|A6CR32|A6CR32_9BACI
+MAINYFCRHCGYKVGSLNQVSVQSEQVGLHKLSDEDRMDMVSYEQNGDIHIKTICEDCQE
+SLNRNPDYHESDYLIH
+>tr|A6CK86|A6CK86_9BACI
+MKKLKEFSAFQWIIDETEPGDFDKWKGSRVLNFIPHRFSHYCKIMHPFYLDHEIKDKELL
+WSQCDPDEDPAFESAEPISFKELAQNFNLQYTKEFSSHTISHILGNQVPRYMIFPHAGTM
+ERKTVEEISPVLQSFTSGKCCFQYDLLAIPFYREDHSKGFLYYGSLDDVIHLYDSDQHIG
+SPTYWWNEAKDWCLYTDPDIDFTLFGGTKEMIANLKRNDFLECIEVDRDTRVDYKADMEN
+HPFIIDSW
+>tr|A6CMY1|A6CMY1_9BACI
+MEYNVKIDAFEGPLDLLLHLIHSLEIDIYDIPMAQITEQYLLYIHTMKELELDVASEYLV
+MAATLLAIKSKMLLPKHEEIEDEADFEIEEDPRDELVDRLIEYKKYKEAAEELKSREEER
+GQMYTKPPSDLSQFADEKVTGQLDHDVTIYDMLGAFNKLLRRKKLQKPVTTKISRQEIPI
+EKRMDEIMVHLKGTRKKQRFFSLFDYEDREHLVVTFLAVLELMKRKQIIVRQDQNFDDFT
+VQSAEEAELVGNH
+>tr|A6CNN3|A6CNN3_9BACI
+MLEKGDTGPVIFILTGMGCSFDEWHEITETLCKTYKVIMYHRPGLGRSELKEEKRNTAAA
+VQDLYSLINYYKITSSFYLVGHSYGGLCAQHFAKKYPELVKGMVLVDSTSVDLKLLDELD
+LPVMNKESDEVWIEKCHQYALKTKAELNEILMPTLQGKHKEFPESIQQRLLEFDNNPLLY
+KAMASEIQHWKEDAEYIKRLGVFPDIPLVVIGRDKEYAIDSERGGEIPQWELRRFEDKWE
+GLITEQANLSPKGHLIFASRSGHSIYLDRPDIVIDSIQRMVSVEKEMRLE
+>tr|A6CQV3|A6CQV3_9BACI
+MGRSKKVKDKRERTPKWALPMKALYYFDKKIWMDTKKINKNAAIPNQP
+>tr|A6CKV2|A6CKV2_9BACI
+MLTAILLFIVAGIAEIGGGYLIWLWLRENSSPWYGVWGGFILILYGIVPTLQNFPAFGRV
+YAAYGGVFVVLSILWGWWVDKNTPDVYDFVGPAICVLGVSVILWAPR
+>tr|A6CND7|A6CND7_9BACI
+MEDSRRAELVRKTNETDIELSFSIDGTGNANIETGVPFMSHMLDLFTKHGQFDLNVNAQG
+DIDVDDHHTTEDIGICLGQALQKALGDKKGIKRYGNAFVPMDEALAQVVVDLSNRPHLEM
+RADFPSQKVGTFDTELVHEFLWKLALEARMNLHVIVHYGHNTHHMIEAVFKALGRALDEA
+TTIDPRIQGVPSTKGML
+>tr|A6CU17|A6CU17_9BACI
+EKRTVKKPEQTEKPKTKQDKSNDEKVSSKMKKFFGYFFE
+>tr|A6CNK0|A6CNK0_9BACI
+MKMVGKESPEDKRERLRQEELKRNPLGSIGESKDRNLADIVGGQGWKGTGLLIVLLVVGY
+IIYALLF
+>tr|A6CU37|A6CU37_9BACI
+MFGRLKDDDSYSDEASYQEESHINKPKDKNKEIEARVSYQYPKGEFRFPVIPDKRESGRE
+ERAARSEQRRQKRTPSRNEEPPAEKRTEPQEETPKKEKPAKKDEATRRPFRPTEIPSPIY
+GFSKPIQRDPIPFELKSSEPRRWRGVEEADSQEERESSEDRNEKVSEAPYYEDETLTSEV
+FQGDMKTSIDSVSEMNIDTDETVKVHTETSVEGETEEPNVRLTVDDTDEQDVQLASEEKQ
+GPYRNQEVAEDESVPFPSEGELELTFEPEMEETEVQLADNEKEVPFRNQEVADDEPAASP
+LEGEIGLTFEPGTEESNVQLAGDEKEEPEAKEPTSIEEPVTEALTEENDKPNNDPSSEEV
+SSIVEELPQEVSEEASLADAEQELQQESEQAEPEPASKRSHLPFNVLMLKQDKRMMDRKK
+RLEEMKTERVLENEKLEDRTQVEMSGIAAEENASFQEETVSAHQEEVNVQQPLVEEEEVS
+ESIEPGATSEEQTQMNKRQML
+>tr|A6CJN9|A6CJN9_9BACI
+MVNTDKGKVAQLSKEHQSSYPGNKHIKQNAGSKYGPQRTENQLPIVLEDD
+>tr|A6CKQ8|A6CKQ8_9BACI
+MDETYFLYYEKGKRNLNRRKARKRGDASQFRGISREQVCVLIARDRQKLTYSRVIGQGRI
+VKSRLDKAIGSKLSKSNILCTDAWRAFKTYAKDKGLEHYPFKSDGKERVKGLYHIQNVNN
+YHSRLKGWMDRFNGVATKYLDHYLSWFHFLDLISVTILQR
+>tr|A6CMB3|A6CMB3_9BACI
+MENKQITNGTFKATFVGEKTAQLDGVRIFRHEDGIAIKVNGKLTSVNNRGKESVRGANDL
+YNKLDEILKELGI
+>tr|A6CRP4|A6CRP4_9BACI
+MEILMAVVIGILFTSAVYLMLSKSLLRIIIGTALLSHGAHLLLLSISGLKAGAPPLLGEH
+AAEYADPLPQALILTAIVISFGVTSFFLVLAYRAYQELGTDNVDQMRGNEGND
+>tr|A6CT38|A6CT38_9BACI
+MRKRLKGMKGRKERGKCLEEESQRHERQKGERKVS
+>tr|A6CTZ8|A6CTZ8_9BACI
+MDQNQPKKIQNPQTQVPETPQMNDRDLVNDMLSMEKYMTDSYCTALNEASHDALYNDLLT
+IFNETQNAQRSLYNSMFKKGWYKLEQADAQKLQQSYQEHQQYSSQFPYNNVH
+>tr|A6CLP7|A6CLP7_9BACI
+MTVKFKTRKRVEEIAPYVLGKSMEDIKAELGLSEIRKLSENENIYGCSPRVKAYLSTGGS
+DIYLYPDGMAQELKQKTSEYLNVGQEQLVFGNGSDEVIRLLTRAYINEDDEAVMADVTFP
+RYRTNVFLEGGTPVIVPLIDGVHDLKGMLAAITDKTRMVFVCNPNNPTGTINGKEELLNF
+LKRVPSHVLVIVDEAYVEYVTTEDYLHCIPLLQQFENLIVLRTFSKIYGLAGLRVGFGVM
+NEEIATQLTKVKDVFNVSRLAQGAAIAAMEDQPFIEQCAIKNEEGRNFLQNEFEKMGLSY
+FPSQSNFIMVDCGVRGDIVAAGLLKHGIIVRAGTLLGYPTTVRVTVGTEKDNRTFLEGLK
+QVIAEEKEGSNGNETGNA
+>tr|A6CK77|A6CK77_9BACI
+MTDIGEKYETVINRAVKEIYVKYPELDEKYGERGRQKCYEDNIYHFQYLETSAGVGSAKV
+FTDYALWLNSVLVSRGMSTDHLVDNFRSIIKALEASPEVENGDAFSDHLYQAIYALEESD
+GTEDVERPVL
+>tr|A6CP83|A6CP83_9BACI
+MKEGIKALAEVVNQLHDLLIMLSNDLLGLSLTDKDLHFWIMGFIGIGAFFVVFIITKWLS
+RLPFGVTMIAFLYTMTFMFVLVFAIEIQQAITNRGNMEFADAVIGLWGFFALFLIYAALG
+LIALGAKILHKRYINKNTDIEM
+>tr|A6CK23|A6CK23_9BACI
+MNKKRISVISIMFIIAILLGCHSEKHLSPEVELGETMIIHNNNG
+>tr|A6CN09|A6CN09_9BACI
+MKKFNKVLVANRGEIAIRVFRACTELNLRTVAVYSKEDSGSYHRYKADEAYLVGEGKKPI
+DAYLDIEGIIEIAKKADVDAIHPGYGFLSENINFARRCEEEGITFIGPHSGHLDMFGDKV
+KARHQAQLANIPVIPGSDGPVSGLDEVVQFGKTHGYPIIIKASLGGGGRGMRIVRGPDQV
+KESYERAKSEAKAAFGNDEVYVERFVENPKHIEVQILGDQQGNIIHLFERDCSVQRRHQK
+VVEVAPCVSLDEKLRDDICNAAVQLMKNVDYVNAGTVEFLVADNRFYFIEVNPRVQVEHT
+ITEMITGIDIVQSQIMIAEGHELHGSKIGIPVQEQISTHGFAIQSRVTTEDPLNNFMPDT
+GKIMAYRSGGGFGVRLDAGNAYQGAVITPYYDSLLVKVSTWALSFDQAASKMVRNLQEFR
+IRGIKTNIPFLENVIKHEQFLTGQYDTSFIDTTPQLFIFPKRKDRGTKMLSYIGNVTVNG
+FPGIEKKKKPVFDKPRIPKSTDLPDMKNGTKQILDQQGPEGLVNWVKDQKNVLLTDTTFR
+DAHQSLLATRVRTHDLQAIADPSARLMPDLFSFEMWGGATFDVAYRFLKEDPWDRLITLR
+EKIPNVLFQMLLRASNAVGYKNYPDNVIREFVEKSSFSGIDVFRIFDSLNWVQGMETAID
+AVRQNGKVAEAAICYTGDILDPSRQKYNVQYYKNLAKELEAQGAHILAIKDMAGLLKPQA
+VYRLISELKDTVDIPIHLHSHDTSGNGIYMYAKAIEAGVDIVDTALGSMSGLTSQPSANS
+LYYAVKGTEREPKVEVNSLERLSHYWEDVRKYYKDFESGMMSSHTEVYEHEMPGGQYSNL
+QQQAKAVGLGDRWEEVKEMYSRVNHMFGDIVKVTPSSKVVGDMALFMVQNDLSENDVLER
+GDKIDFPDSVIELFEGYLGQPYGGFPENLQRVILKGREPITVRPGELLDEVDFDKLKEQL
+FKDLDRQVTSFDAIAYALYPKVFMEYNQVVDAFGDISVLDTPTFLYGMRLGEEVEVEIET
+GKTLIVKLISIGQPQGDGTRIVYFELNGQAREVVIKDESIKASVTMKPKANLKNESHIGA
+TMPGTVLKVIVEKAEKVSQGDHLLINEAMKMETTVQAPFTGTIKDIHVKSGDAIAPGDLL
+IELDRI
+>tr|A6CMQ2|A6CMQ2_9BACI
+MYILEQSITSFIASAAFGIIFNAPRESLVKCGIVGMIGWVIYFVMTVKGMDIVLATVTAS
+FIIAVLSQVYSKIYKTPVIIFSVAGIIPLVPGGMAYDAMRNFVQNDYNAAISLAAKAFMI
+SGSIAIGLIFSEVINQVIRNRKLSTLKG
+>tr|A6CHU2|A6CHU2_9BACI
+MYEKILDAGGNFMINQQLKDNFKKSYDLQANIRNEKKSPEWKEAERKNFLSWLKEDEKEA
+LLDLGAGPGMDSLFFKQNRINPLAIDISPRMVSLCIQKGIEAKVMSFDELQFGERKFDAV
+WAMNSLLHVPKGDIEEILEKIHALLNKRGLFYMGVYGGEDHEGIWEDDVYEPKRFFSFYS
+SESIQKLVLNYFTIENFVVLPPESVDSKFAFQSMILRKKEIV
+>tr|A6CML4|A6CML4_9BACI
+MEKYYMRINGENAGHDLSAVEVTNPADQSVIASVPNGGQKEAKAAVDAAYDAFAEWSRYS
+AYERSELLFKWHDLIEKNKDELAKTMTREQGKPLKEALGEMNYANGFISWYAEEGKRVYG
+ETIPATQRNKRLFVQKQPVGVVAVITPWNFPAAMITRKVAPALATGCTVVIKPAEQTPLT
+ALKMAQLAEEAGIPKGVINVVTGDAKAIGETWLSDTRVRKLTFTGSTQVGKLLMRGAADT
+VKKISLELGGHAPVIVMDDCDIDKAVNGVIAAKFRNAGQTCVCSNRIYIHESIQQTFTEK
+LVEKVKGLKVGNGLDEGVDIGPLIDEAAVQKVKNHVEDALKAGAVLEYGGNSNEGLYFGP
+VILSNVKDDMLCMTEETFGPLAPISTFSSMEEAIERANNSIYGLAAYVFTENITKGITVC
+EALQYGIVGLNDGLPSTPQAPFGGFKQSGLGREGGHHGIDEYLEVKYISLGI
+>tr|A6CJM2|A6CJM2_9BACI
+MSRNVFADKALYEHRFWLQILGDHARFMRDTLSPVEKEEIEQAEQFITVMDQLLQMARQP
+LSGQKLDDLTKMAAKQTEKLRTFKLSLIKKKLTGKIVIGLGETFLNHMVNELEEYINILD
+HLLKKQEVPDFHPVHHHLLWLADAAGHAGAINDNLDLSEKKLKEKGSAFQKDFEAFYLKA
+IELAGYLRTGLMEFPALSKFNEDVELEMKIFKSFLAELEEWEMNHKLLGSFSALMADHMA
+REECYYLFKLYETAGTHLPDCDPTAPRVKA
+>tr|A6CLT8|A6CLT8_9BACI
+MSYLVLMLGFGLVYVLLEVEGIDLLVEGGDVIQGDFLDHLFTCLYFSGVTLFSVGYGDVT
+PIGIGRGIALFESWLGYTIPAAFVIKSFFIEGQSKETNG
+>tr|A6CQB9|A6CQB9_9BACI
+MLTFLILISFILNIAALLAIAILYTRQNRLLEVEKRQEKAVKEMEDVISSYLLEMKEDNE
+RFLQQFQAVKEGKFESSQNKVKKIKLAAEKELKIESRQSEKEPDDLPFKAASYKRQSAMK
+AYTQKAEDESSLEKEPNQPPAVTSKEDSVYNQIQTLQEKGYTLEEIAKELGRGVTEVELL
+LKFRQKQK
+>tr|A6CR70|A6CR70_9BACI
+MLQTNNKFYSDVLDFPHLTDYNNLHINFIYQGFDEDNSIQRRFAREGSDGLELPNTIEIL
+TPSELQP
+>tr|A6CTH8|A6CTH8_9BACI
+MRNNECEAKKVESRNGNQENEKTPFLTNIFCK
+>tr|A6CSI6|A6CSI6_9BACI
+MISPQDRKLGTRELFALITITLGIKFTDMTATLLYKKTAQAAWMIPLVSGLIMLIPLTCT
+LILLKHYGDRNIIDISYKVTGNFFGFLIGMTLFLAAYAATVVDSRSYVDIINTMYFESTS
+STHLFFVLVGSSYFLANRGLLAIGRTALIAFPYIKVSLFFIIVLLWSDLYFGYLFPLTGF
+GLKEIAFQGASYASITSDLLFFSILFPFFKDYKTFKKATLLGLAVSTLELMIFFAVYIMY
+FDYPSIEFISYPFHEISRMVTFGRYVSHIEALFFAFWSVASLIRFAVYLYIATAFFAYTA
+KIKEFEPLILPFAGLTIMLGLLPENVVHNVLLLRSNVILMSTSVLLFIIPITLLIVAKLR
+GEFKK
+>tr|A6CP84|A6CP84_9BACI
+MNLMKSAADANVETSCLNRLLKTVCYTESAESAEKQK
+>tr|A6CHP2|A6CHP2_9BACI
+MLSKLLNVTVGRLLEEKAAAQGERDAVVYNDRNLRMSYKEFDLHCRKVAKGLMGLGLQKG
+EHMAVWSTNTPEWLACQFATGKMGAVLVTVNTNYRTAELEYLLKQSDATTILLMDQYRDA
+SYIEMLYEICPELKDSQPGNLESKRLPALRNVIVLSEKRYSGTYNWEDILQMAASVEETE
+LDERMSDLHPEDVINMQYTSGTTGFPKGVMLTHNNIVNNAYNIAQCMRLTNEDRLCIPVP
+FFHCFGCVLGTMACVSVGAAMVPVQEFDPGTVLQTVQDEKCTGLHGVPTMFIAELNHPGF
+DQFDLSSLRTGIMAGSNCPIEVMKGVIDRMGADEITIAYGQTESSPVITQTRTDDPIELR
+VETVGRALPNVEVKVVQPGTDEEVPFGVQGELCTRGYLVMKGYYKNEEATAAAIDSDGWL
+HTGDLAVMDENGYCRITGRLKDMIIRGGENIYPREIEEFLYTHPKVLDVQVVGIPDKVYG
+EEVMAWVILKEGQTASADELREYCKGKISRHKVPRYIEFTDAYPMTASGKIQKYKLRKEA
+EKKALHS
+>tr|A6CQ70|A6CQ70_9BACI
+MVTPFDNKGNVDFQKTTLLVNYLIENGSDSLVVGGTTGESPTLSQEEKLALFRHVVKAVN
+GRVPVVAGTGSNNTYASVEFTKKAAETGIDAVMVVAPYYNKPSQEGLYQHFKAVAEATTL
+PVMLYNVPGRAVTKIAPETIIRLSEIENITSVKEASGDLDAMTEIIANTPDEFLLYSGDD
+GLTLPVLSIGGTGIVSVASHVIGNEMQEMVKNFLEGNLREASKLHGKLLPVMNELFAAPS
+PAPVKTALQLKGLDVGSVRLPLLPLTEEERKRLTAVLELN
+>tr|A6CLV5|A6CLV5_9BACI
+MLKLIEDNRKAFMFSNYIFLVLYGGITFPTIYSSDLIFIATMIVSYVYLSVIFCGLFDRN
+PLVVFSSAFLFNLVGLSLRVILEWGEYSMTRSLNFLTVGFHLIIIPLFILLIYLIWPKIK
+FKTKF
+>tr|A6CHN5|A6CHN5_9BACI
+MGKRFLEESFNNIKADGQGIFIPYIMAGDGGLDNLLDQLTFLEQAGASAIEIGIPFSDPA
+ADGPVIQEAGKRALKDGTTLSGIFEVLKGGREQIGIPLIFMTYFNPVLQYGLQRFAEDCT
+KAGVDGLIIPDLPLEHADILSPYLKEEGIALVQLASLTSSKDRLKKIAQATEGFLYAVTI
+NGTTGAVSEFQSSLKAHLQELKTVCNVPVLAGFGISTPDHVREFIGITDGVVVGSKIIQH
+LQENKLDDIKNLIKAASDKSPVS
+>tr|A6CP26|A6CP26_9BACI
+MNAQKENTTLSEGLHKTSLYFHPSWNMADQEKYIYMYHHAKLSGLRENQLSFLGIELIEN
+DDKSLVITAFIRNAFKKLTRLQNIVLTIVDENHHKIASKLVELEDLGSLPPCTSVPWRFL
+FSKEDRFTNKPISKNGWKLLVDLKPKISKPILDLEPIWAERLNDAQKGALQRIVDQQPTL
+VNKNDFNLMGLELHLDKNKKEVIANVFLRNTTEQTIRLDSLTLCLEDAFENEVTRNNFLF
+EELEVKPNTYKPWSFIFPLSGSHIIEEIDFRRWRVTPVDTKAVGK
+>tr|A6CP64|A6CP64_9BACI
+MSTIQRIALVLTIIGAINWGLVGFFQFDLVAAIFGGQDSALARLVYGLVGIAGLINIGLL
+FAPSEEAEHSPEARPTR
+>tr|A6CTW6|A6CTW6_9BACI
+MRIIIEWSWWWAENWTIPEGMDKNLRGEPKIWSIAARNGPNICRGTETTKNLRRKWPRIF
+FKFGFVYGIFLVDTWLNVAEGA
+>tr|A6CSP9|A6CSP9_9BACI
+MSSIRILSQELLGLLLFILFIGLFLVGDKLKVFLPDFMLGSNFSNMTIIFLGILLEAIPF
+ILIGVFASALIQVFVSEDLLKKLVPKRFPYLALFPAVLVGALLPICECAIVPVARRLIKK
+GIPVHLAIVIMVTAPILNPIVFASTYYAFQNNLTIVFGRMGIAAVAALIIGALIYKLYGK
+RESLRFSKEESHHNHDHSHDHQHGSNKFMQTIVHASDEFFDMGKFLIIGALIAAVFQTFL
+DRGTLTAIGSNEIFGPAVMMSFAYIVSLCSEADAFVASSFGTLFTSGSLLAFLVYGPMID
+FKNTLLMLAYFKKRFVLLFIGVVTVVVYTCTLLFQFFIG
+>tr|A6CU12|A6CU12_9BACI
+MKNLRLRLTYYWYKLLIKLGLKTDEIYYIGGSEALPPPLSKEEEAVLLKKLPNGDKTARS
+LLIERNLRLVVYIARKFENTGINIEDLISIGTIGLIKAVNTFNPEKKIKLATYASRCIEN
+EILMYLRRNNKIRSEVSFDEPLNIDWDGNELLLSDVLGTEEDIITKDLEATVDRKLLFNA
+LTELSDREKQIMELRFGLMGGEEKTQKDVADMLGISQSYISRLEKRIIKRLKKEFNKMV
+>tr|A6CIK0|A6CIK0_9BACI
+MEGDNMKKLSIKVFLILSLISNCVLGILLFNTNTYLEKQETLLENAIVINEFSERAKEWR
+NFNDFIRELSRSGSFPVSDSQSDVYWELAKPMESVVLKSTDYVLDHEHSSFILTFDETFE
+DIIDTFKEKLPLINQEQLIETSKALDDAYRDLVGKGEWGISLPDTMITMNFQQENLDSVI
+EKLNSIHFQLLSVK
+>tr|A6CKF4|A6CKF4_9BACI
+MDNFYCTAHRMWKDANVLHTSGSSYFNTCYLAGYILESYGKLIVKAYDSTINVRRFSHSL
+SDLNTKIKNDITIAPSLGKYCLDLSIECNTIFSGNNEWGPLKRYEDNPNLWSTKQTADSY
+ISESKKIIDMIDEMKIDGVI
+>tr|A6CQP6|A6CQP6_9BACI
+MTGVVLLLINIGVISLEIKQLFVIFIPLLILLQGLKWMVNSIKWRRSIKFTFGLFLFIYG
+GLLILDTFDAVSFSYGEWWKLWPVSLMGFAFMVLWKKSQMTLPGEDSFDRETKGKKKTLK
+SEKKRVKVKRGYIVGDVKFNQPNWPLESMRLYNMIGNYYFDISKAYIPEGETPIHLKGWV
+GDVKMLIPEDIPVDIRVEGSVGDIKIFGQKSADIKPNLTYRSPGYDEAEKKLKIMIEFSI
+GSVRINKV
+>tr|A6CKK9|A6CKK9_9BACI
+MLITIDWEKIKEMGLIKFLYYLAALIVAFVGLIVLISLITLVLLERFDDRYKKSHPEEFG
+HAVKSVNIRT
+>tr|A6CS48|A6CS48_9BACI
+MGKVAAVTGYKSFELGIFKEDEPALKYIKAAIQKQLESLLEDGLEWVLISGQIGTELWAA
+EVVFDLQLEYPDLKLAVLTPFLNQEEKWSETNKEYYEMIISQADFVDSVSKQPYTSPAQF
+RNRDQLFLHKCDAIVILYDDEKEGSPQYFFKSAKEYRENNSLEIRQITFMDLQWIVEEEQ
+FNTID
+>tr|A6CR71|A6CR71_9BACI
+MNTNERKMQKKFAAISPPLTNEKQEVQGDERERTGAYL
+>tr|A6CRU3|A6CRU3_9BACI
+MIPVIRNEIHNHISAHWSGQSYGGLRTVEEGIKTYKLAILSASVKREKPIVKAGLYLRTA
+WLYRTLKDSDQEFRFMKLAVEAYCASYSQEDFIDTQMSTARILYLIAELYYRLGNYSQSA
+IYFSKVIQQQKHTKEPRIIEMARHRWEDLREDYKKAK
+>tr|A6CJG1|A6CJG1_9BACI
+MRFWFVYGVTEPVRLSFGGDVGLFGDKQSKEFVFWRRCWVDYETNSPRRFDFGGEVGSIT
+R
+>tr|A6CI60|A6CI60_9BACI
+MRFYQDFNRKILVCSHCGRKESCEKAVLRTIKEFRLLFPDLKVTNQLTYQICDSLLGKKR
+IYRALSTNFKKEGYGKHAVYID
+>tr|A6CT28|A6CT28_9BACI
+CLHFRNNFEANGRYASMAEVLFKHQKKRVQRQPTGQKRPTNFRLT
+>tr|A6CI47|A6CI47_9BACI
+MNIFVGLMLIGLAILFIGLAIPLYLGRISMDSWYGVRLPRSFESEEAWYQINKFGAKVMM
+VWAIPQLFLGIIVLFLPPLREPWTIILVFSPVFFLFAAFIQSYIYSEKVKL
+>tr|A6CJM4|A6CJM4_9BACI
+MLKGEFYMPYYHLCCRYHGQVVRINDRFGRTHIGEITRVTRSKVFIRPVRPNQGYGYYGG
+GYGYYGFAYGIALGAITGLALAAFFW
+>tr|A6CSD8|A6CSD8_9BACI
+MPDKSENENTNLVTQQSTSENETNEYLRYKVKSSVFSENRELITYQVNNRVDMNEIETGL
+MSLSEEYFPADKFVYQEGQFLEGIGSWIRRESNDELGLNPAIDVTEEMGWEEVMEISKEN
+PMYLGYVHEQNYVDQKGNLKGISIGLAMKSVDYISVNDNLGLKHFDTKEISEKKMISEGK
+KMAETIINRVRQKENLNNVPIVISLYQLEKKNSVLPGSYFTYAYLDANDNSIKKWREIEK
+KDFLFPSGDAEEHDRVVSNRLKGLEEDMNSFFKDRTIQLVSKGTYIDNDLQKMVINVNTD
+MTKYGEIVGFVQAFTPEIQDFFPHEPIYIYVKTPDGTAATVLIEPEEEPSVHIHDNVN
+>tr|A6CND5|A6CND5_9BACI
+MTDLTIAMPKGRIFDEALELLRQAGYNLPPEFDDSRKLIIEVPEEKLTFILAKPMDVPTY
+VEHGVADLGIAGKDVMLEEERDVYELLDLKISACYLAVAGLPGTKMNEVAPKIATKYPTI
+ASSYFREQGEQVEIIKLNGSIELAPMIGLADRIVDIVSTGRTLKENGLVEYEKIVDITSR
+LIVNPVSYRMKDERIDELAERLREVVSNIPV
+>tr|A6CT82|A6CT82_9BACI
+MKTSTYERKMIMEGFLNIVFGYVILAVPALIIVLLFRRKSKKDLEKFDESKYQVLDHDDE
+K
+>tr|A6CLE2|A6CLE2_9BACI
+MRIPPYYRQPAWQRFFAGALIGGIISWMIFLFMFGVLQEKQTSTIEKQQKTISDLKADIS
+HWQDDFKELNKENSKLLTIQDIKLKIVNAKEYRINDSLSIFEAEEELKGDLIPLLAKDLD
+SVYKNKELVKKTIENKTLKINDKRYKVKIKEIYFYTVIQIVLELEYDG
+>tr|A6CIK9|A6CIK9_9BACI
+MTYEDIMQKLEALGSKQTKKIYENHGVKEPYFGVKIGDLKKMVEYVKKDHDLALQFFRSG
+NHDAMYLAGLSINPKLMSKETLQEWVQGAYWYMIAEYTVAGVAAESNYALELAREWMKSD
+DEMTAVSGWSTYSNYLSITADEELDIDEIRTLLQRVKDTIHEERNRVRYVMNGFVIAVGS
+YVSELPEEAKQVAEHIGKVHVDVGNTACKVPVAKDYIKKIEAKDRVGMKRKTCIC
+>tr|A6CJ43|A6CJ43_9BACI
+MLKAILKRSRITLIFVLLFVIIGIFTFFQLPQREIPETEVNIGTVSTVYPGATVETVERT
+VTNQIEDSLQSIDGVSELNSSSAAGFSTIIVEVEDGADKKEVFSNVRQAVSDAAAGFPDE
+VFEPEVNESIVKLPIVSYQLTAETRESLEALRGELDRWTDEVTELAGVEGVAVKGLSDEE
+ILIKLQPDALKEAGLNVGSVMSAINAEFYPTPLGKQEIDNEVVQLSVENYSSIEEMNEVF
+IGKNPQGESVLLGDVADVEVTPKEVKDLITFEGKPAISFTAFVQAGEDIPTVDERVSEKV
+GELAEGLPEGIELVPYYSQASQVTDIFDGLFTSLAISVVAVVIATSLGLTGSGAFVVALA
+VPISVLMGLIPLPYAEVDLNQISVVGAIIALGILVDDSIVVNDNIQRRYKLGDGALAGAI
+TGVKEIWVSIVTSSFAIVFTFLPLVFLSGGNGAFIRALPTVLITTIVASTLVALIFVPVM
+RYLLYSKTRKKISDSPGFLGKPLDKLADFYADTILKKFSKRPFITSLIGLVFTTAIFGLV
+VLTPFEFFPTADREEVTIDVTLPLGTTLEETAGTLAEMEEVLKTDEGVYETSVFAGTGVP
+NLFTGSMSNTGSNTGQIVVRVDRENQTAKGLIDDWTEKLRDEFPDAVLFMETIQQGPPVG
+APVTVTVSGPELEQLLQLRDTIIEDINKLETNLVVDNVGEFAPTIEYIPNRELMEENGIT
+VNQISEQIRLATEGIPLKSFDNGIKKRDMTIVLQGDEGELDLSALEVPAASPNLAGPPAL
+ISLDDLVTIEKKEEIQQIPHKDGERAITIRAFPLDEEGYKENVQNIVADIKNNLNKNYSV
+TIGGENEAQEDFFSEIIILFTIVIFLVYLLIALQFNSLSLPFLVLVAVYLAIAGAILGLF
+VTQTPISFLGVMGMVSLTGIVVRNSIVLIEFIEQRKEDMDVKEAVVEAGRTRLRPILLTA
+LTSIVALLPVAVSGDALFTPLAVTIISGILFSAILTLLIVPMLYLVFDRFRRNKKEKAVS
+>tr|A6CNK7|A6CNK7_9BACI
+MIRKTNLRADQKEIEMEIKIQKELSTDYTAIEKVIVEAFLNEEYSDKKEHLLVNRIRKSE
+AYIPQLSLIALKGDKDVIGHILLSKIKIINGDHAVDSLALAPVSVIPEYQNKGIGSQLIH
+TALKRAKDLGYRSVIVLGHKDYYSKFGFKPASLWNIQAPFEVPDEVFRALELTPGSLENV
+QGVVQYSKAFAE
+>tr|A6CMB0|A6CMB0_9BACI
+MERVVKENMKIFNSIAAKIALSNNLLHHFQQFGMKEDAEYYQGRLDALIEMATSFGFDVN
+EVLEAAKGINVQDFELQGYGRFL
+>tr|A6CNJ4|A6CNJ4_9BACI
+MEMDFDLFMNDIVRQARQEMETSGYKQLTTVEEVEETLSQKGTTLVMINSVCGCAGGIAR
+PAAAHAIHYDKRPDRLVTVFAGQDKEATAKARSYFTGYPPSSPSFALLKDGEILTMVERH
+EIEGHDPMSVVTKLQGYFDEYCEEV
+>tr|A6CPY5|A6CPY5_9BACI
+MKKIEAIVRPEVFQALREGLAASGFNGLTVSEAAGCGKQKGKQGLFRGNTFEVALSPRVK
+VEMIVEDTETEEIVDLICEYCSTGKVGDGKIFISDIQEVVRIRSRERGKQAFI
+>tr|A6CQS2|A6CQS2_9BACI
+MSPVVVIAVISSLIVFLLAAGTPFKPAKFVGQLCMKVLIGALFLFFLNAFGSQFGIHVPI
+NLVTSSISGILGIPGVVGLTIIQMYILV
+>tr|A6CKP0|A6CKP0_9BACI
+MKSLQADKQWTSCKDNMMFNLPYIFYYENFINEYQLIQVEGAGRPVTAPSPWGHLHGPGK
+AAIYIKSNNVCEKSFFFIIVCYTHSLV
+>tr|A6CMT7|A6CMT7_9BACI
+MKHLYIVRHAKAGGQPPEAKLTELGKKQAESLVTFFQGREINAIYSSPFLRAVKTIQPLA
+LERGLPVIQDERLSERVLSETALEDWMMHLEKSFEDFDYFLEGGESNRSAFERASSFIED
+IMTSPDDHIIAVSHGNLTTLLLNYFDDRFGYKELMELSNPDVYHIILEDEKNDVNRIWKE
+E
+>tr|A6CNG4|A6CNG4_9BACI
+MKDVMKNSIKWSISIAVITFVLAALFSIFSNLILNEVTWVIGLIVVLIIVLIGIFFDMLG
+IAATAADETPFHAMAAKKVYGARQSIRIVRNADRFASFCNDVIGDISGIISGTATAIVLI
+GLTLDLQINNGSPVEYAVNVLLTSLIAALTVGGKALGKTLAIQHSKDIIFQVGKVLQFVE
+DKFHITIIKDKKDKKRKKRVKLKQNI
+>tr|A6CQ52|A6CQ52_9BACI
+MERKEWYLEYEIQKNRPGLLGDISSLLGMLSINIVTINGVDEGRRGMLLLANSDEQITRL
+ESILQTMDTINVTKLREPKLRDRLAVRHGRYIQRDADDKKTFRFIRDELGLLVDFMAELF
+KQEGHKLVGIRGMPRVGKTESVVASSVCANKKWLFVSSTLLKQTIRSQLIDDEYSSENIF
+LIDGIVSTRRANERHWQLVREIMRLSAVKVIEHPDIFVQNSEYSLDDFDYIIELRNDPDE
+EITYDLVEKNNFFQNSDFGGFDF
+>tr|A6CJB0|A6CJB0_9BACI
+MKAALFFLAYQDFAYEDINFFEIHIKKAAKF
+>tr|A6CPC8|A6CPC8_9BACI
+MKINIYESQFKNAHYEELLFDKSKLAKR
+>tr|A6CIH7|A6CIH7_9BACI
+MKLISSLLLIIFLSTITLIVSANEIKYKHNSITIDELKEKMDFKLLVPVKIPEEWTLEIK
+THDYKDGNVSGITLHYLNENKEKLMIRIEEKKASKRGNQSMGRRVFEGR
+>tr|A6CKB8|A6CKB8_9BACI
+MTPFPRTFSHIGLSVPDLDKAVKFYTELFGWYVIMEPSEVKNDDTPVGQMCRDVFGNDWE
+TFRIAHLSTGDKIGIELFEFPHNEQPENNFEYWKTGIFHFCIQDPDIEGLVEKIKEHGGK
+QRMPIREYYPGEKPYKMVYVEDPFGNIFEIYTHSYELTYSQGAY
+>tr|A6CIP1|A6CIP1_9BACI
+MKKLLFMLVAFPSLLFGCSHSREDLVEYNHSELSAELAEKGIEPKLPTEFPVAIEGYEIF
+EPPHKSSRYETSLTGKNGEIFTLTVHTAPVSYEGNIEKEDVKINGNEGFYTENEVTGPSL
+HWTEGDYHYILEYRTIGFDTVVNKETMLDIAESFE
+>tr|A6CJK8|A6CJK8_9BACI
+MNKGIPHEKYIKLQQSLRKEPKTKKLTWRGQVRKVKRGGLKSFTNLPL
+>tr|A6CME5|A6CME5_9BACI
+MGVSFFYLKVNQVDTKTIADEEVDKLTNEDFTVQVPTISESKMQVDTEQTGTIPETHSEN
+QPEDKSSPMSSNEESRTGDNKTQQKSSNKDIDKEESRSQSKTVSKSIDNKTLSVEEIKSQ
+YRPAFKQLEEQVKSRLTDLLEVAFNEFKEKKDSGEKITFTYFYKKYTTASGDLESNTDKA
+FNLLYSSLQKDLKKHGHSKKHAVEFKDQYEEEKKVLKKKILSKAVDQLK
+>tr|A6CIZ4|A6CIZ4_9BACI
+MPLFIILFIQLLMYSLMGIEQFKIKRFKSGCFYIVAAIIISIAFINDIFTYLY
+>tr|A6CHF9|A6CHF9_9BACI
+MKTTGGIFRLKQHGTTVKKEVTAGAIGYFTIVYIIAINAMILSEAGMPFEGAVMATILAS
+FFGCLVMAFWANAPILLVPGMGINAMFTFTLVESMGLTWQEALAAVFVSGLLFMIVAFTK
+LSGILSRAIPKALKEAITVGLGLFLMLIGLEKGGIVEKGTSALISLGDISDIGVIATILT
+FLVTIFLFIRNVKGGFLWSIVFGTLLGFLFGIEPEAGQSGFGLEEYGAVFAELSFSRLIE
+LPFLIAAFSITMVLVFENIGLVNGHVDMAGTPEKYPKAFQANAFSAATCGVFGTSPTVST
+VESAAAIAAGGRTGLTSLTTGVLFLASTLFIPYLKWIPDHAIAPILIIIGGLMIQNIRHM
+DLRDLTEAFPAIFIIAMIPFTSSIADGIAIGFILYPILKVANGKAKDVSLPLYIIAGLFL
+MNFFVHSVH
+>tr|A6CM58|A6CM58_9BACI
+MRKFLKDMKEEKEREKCREEVSQGHERRKREGKVS
+>tr|A6CI93|A6CI93_9BACI
+MAAFLVSGGFIFKKTALTACFYLPALFVL
+>tr|A6CJS1|A6CJS1_9BACI
+MGADPRLLELDLPPRMRLNKKWKRPVQPRQANVPQRKKRGSFLLFAEGYLTPRGWVLELD
+VPLSRRRSRPFSYN
+>tr|A6CQ17|A6CQ17_9BACI
+MTAEDLFKLKSVSDPKISPNGEEAAYVITEMDEETNKYISNLYHLDIKTGKSTQWTFGKN
+RNTSPRWSPDGGKVVFVSDRSDKSQLFLLLRSGGEARQLTFCPNGASQPVWSPCGKKVAF
+STALMEGETLTEGKEEDKHPQPLEVTTMKYKSDDSGFFNGKRNHIAVIDVETLDMKLITE
+GEIDYSLQSWSPNGRYIAYGADKSADLDNSFLSDLFLYDVEESTERKVTSGTGYFGSAAW
+SPDSSSIAILGHESEYQNATLTKVWLYEMETGSLSCMTSELDSPAGDFMVIDFQQGVSNP
+GVQWASDNDSFYFLTSDNGNTVLYYGNRDGSLYPALLDNQHVYGFDLDRKQQKAIVAISN
+SLLPGDLFMLDIPTGELKKLTSVNEDFLSQLALSETEAISFRSKDDWEINGWLMKPARLQ
+EGEKCGLIVEIHGGPHMMYGNTYYQEFQMLAAEGYAVLFINPRGSHGYGQAFVDAVRGDY
+GGGDYEDVMAAVNHVLETYDFIDKERLGVTGGSYGGFMTNWIVGHTDVFKAAVTQRSISN
+WVSFYGVSDIGYYFSEWQIDADLNDIEKLWKHSPLAYANNINTPLLILHSEKDYRCPIEQ
+AEQLYIAVKRQGKQTEMVRFPESNHNLSRNGKPNLRVARLNYIKDWFKKYI
+>tr|A6CQQ9|A6CQQ9_9BACI
+MFHQQEEGEENENTEKLSSI
+>tr|A6CR93|A6CR93_9BACI
+MEEEQPKSDCNENDSVFNKTNFFYFCIFATTFQTCILLLVKADMFP
+>tr|A6CKH4|A6CKH4_9BACI
+MKFSKLGTFCITALFLFTGCQSSDNAETHIVRGETTSWKANLEVVFTADREMYYVGGSLK
+SKSDSIPKEVTYFITHSQGGGSGTSRDGNGEYIKIPQGGGNNPPGDIEAFSEEITLRVEW
+ESEDGETFNETIPLD
+>tr|A6CLN6|A6CLN6_9BACI
+MRFNDEKPVLITGFFVGFKKWRERRLLKDFRLALED
+>tr|A6CRF2|A6CRF2_9BACI
+MKHRYLPMTEHDQKEMLEAIGVSSVDELFEDIPEKVRFKGEYNIKKAKAETSLMKELSQL
+AAKNADLRSNSSFLGAGVYDHYMPVIVDHVLSRSEFYTAYTPYQPEISQGELQAIFEFQT
+MICELTGMDVANSSMYDGGTALAEAAMLSAGQTKRKKVLVSSTVHPESRDVLRAYAKGQY
+IEVVEIPHKNGVTDENALEELMSDEIAAVVVQYPNFFGRVEELAKLESIVHDKKAMFVVS
+SNPLALGVLTPPGKLGADIVIGDAQPFGIPTAFGGPHCGYFAVTKKLMRKVPGRLVGQTV
+DEDGQRGFVLTLQAREQHIRRDKATSNICSNQALNALAASVAMTALGKNGVKEMAVQNIQ
+KAHYAKEALKQAGIDVAFEGPSFNEFVIKTNRPVKEINSALLQKGIIGGYDLGLVDSDLT
+HHMLVAVTELRTKEEIDTFAKELGDYHA
+>tr|A6CHN2|A6CHN2_9BACI
+MADILTKIIERKRQEVAQLKKNGFEKANLSKKPDRSLFTALHASTVLGIIAEIKRASPSK
+GEIVSTVEPAEQAKIYEQGGASAISVLTDKDFFNGSIEDLKKVRREVDLPLLCKDFFIDE
+IQIDRAKDAGANIILLIVAALPQGRLHELNQYALSQGLEVLVEIHDEEEAERAAALGPNI
+IGINNRNLKTFEIDLANTERLAPLLNDKDRVVISESGMKTREDAVRAATAGADGVLVGES
+LMRSSDAGRAIGSFAVNKEAALLG
+>tr|A6CQN8|A6CQN8_9BACI
+MEKSTKNYPISHFVGFIMSLVLTFAAAWVALKTSLSFTVVMWVIGTLAVVQAGLQLFMFM
+HVNEGEDGKVQIINIIYAVFCAVVIVIGSIWVLTSGHAAH
+>tr|A6CU13|A6CU13_9BACI
+MVFTAFGFKRFRFFLGNLLMLYFSTFLTGGILIGFHFFLKFDNNLQSSMFLASVKGFGDP
+ISWVFVMFALPAAWYFAHNRVSSIETVNIQYDQIVNIEIELNGLKLEMKGLVDSGNQLYD
+PLSKSPVMLISTEELEGRIPEEILRLSDDCEGMLSGDHSLAPQWEERVRFVPAQSVGKKN
+QLLIAFKPDSIVIKKEDESWICNKGLVVFQNIQFSADDSFSCIVHPKMMASPSLQNVS
+>tr|A6CMC5|A6CMC5_9BACI
+MSKKRRLFTSESVTEGHPDKICDQISDSILDAILTNDPNARVACETSVTTGLVLVAGEIT
+TSTYVDIPKIVRETIRGIGYTRAKYGFDAETCAVLTSIDEQSADIAMGVDQALEAREGQM
+SDEEIDAIGAGDQGLMFGFACNETKELMPLPISLAHKISRRLTEVRKDDVLPYLRPDGKT
+QVTVEYDENDKPVRIDTIVISTQHHPEVSLERIQRNLKEYVIDPVVPKELIDEDTKYFIN
+PTGRFVIGGPQGDAGLTGRKIIVDTYGGYARHGGGAFSGKDATKVDRSAAYAARYVAKNL
+VAAGLADKCEVQLAYAIGVAQPVSISIDTFGTSDVSEETLIEVVRNNFDLRPAGIIKMLD
+LRRPIYQQTAAYGHFGRSDLDLPWERTDKAEALKQQAQA
+>tr|A6CLT2|A6CLT2_9BACI
+MYYGKDIYTMKLGARIFKTGIAIVLALLAADMFNFPNPVFAGIAAVFAVQPTIYRSYLTI
+IEQIQANLIGAILAVLLVLLFGHSILVIGLAAIIAILIILKLKLENTIGLALVTLIAIME
+APQDDFIQFALIRFSTIMTGVFASFVVNLIFIPPKYETKLYHKIEDITEEILKWIRLSNR
+HSSDFHLLKKDFEKIRERLTKSEQLYLLYKEERNYLKTSDVAKSRKLVIYRQMISASRRS
+FEILKRLNRYENELNHLPEQLRSSITEQLDCLLTYHEQLLLRFIGKMHTVTESDHTNTVC
+LNRKEMMNLFMDEINKSYNETDIHTFHILHIFSAIFEYDEQLEHLDTLITSFQSYHKEVN
+EVTVREAEDR
+>tr|A6CHA3|A6CHA3_9BACI
+MKPPPDLSGVLLLLILMFNTANLSYGKKVHEKKTDKLSAFHVFIHL
+>tr|A6CN92|A6CN92_9BACI
+MNFGLFGKNKRVANLVITDTAIRYADLKMDSPLILHNYGEKLLPQGVITDGKIIEYDTLV
+MILEECISEWGITKRPVRFIVPSTSIIVKRVLVPTDIKEDELKGYIFMEIGTSIHLPFED
+PLFDVVLLGEKGDKQEILVVASPEEVIHSYRDILEEVKLKPMVADISPLALYRYFYHNDM
+VRSTDHEMLLQFDEKLLTISIFHNNQPIFLRPISLQGDLELAEPLENQSGGLLFYLEDTF
+KEIEKVFSFYKYSLNKGEVNVNKVILTGDHPYLNEIYQTLSDRLDVAVQRSPKDTVMDTT
+GQTVPRQFDLAIGLALKEVL
+>tr|A6CH88|A6CH88_9BACI
+MDYELNAIDSEIPVVVTIDHDNGVYTIRKSDTSGEVFNTAEELYSWYQTNMQPENFTSES
+EYENALQWIKDMT
+>tr|A6CSA6|A6CSA6_9BACI
+MWAGLTGLEKEISKFLAGTYFGRTIWKSASEVVVRLWQKVKKMMLSYNIFGGYRLLKGKC
+LISSYLFLGAF
+>tr|A6CSB7|A6CSB7_9BACI
+MKIYYQPQKKIFFHTDPSLPSLLFGRNSYILYREDEPYKYEFDVLADNNSCGPVIGILAA
+KEKGSYQGNFPLFQELQKIIQSRGGISFVFSLSDIGKEKVEGLCFHEEKNMWVSCNFPIP
+NFIYNRIPSPAAEKTEDFSRFLQWAKEKNINFFNPHFFNKWEVYQSLSENDSLKPHLPET
+KLLGNRDELERDLKSKQKIYIKPVLSSKGKGIRLLERCDDGQIICKSTKKIEKFIRYDRL
+LMKYPEWFDSEEYIYQEAIQCKKMHNHRYDLRVLVHFTGHEFQISGVGIRISERQEVTTH
+VPQGGKILPFHYVESKELIEKIEVIAEECGRQLISTFGLIGEFSMDLGLKEENDELVVFE
+INSKPMKFDEKEIEEKRLESLAHSFFHFSRAARRLST
+>tr|A6CTW5|A6CTW5_9BACI
+MALPLMVTGEIPPAPWINAPEAEISSIIFQSKKKN
+>tr|A6CIV6|A6CIV6_9BACI
+MRNSLCSRLTYLGDVKSYKLEDAPDFIDGAVSPETVSMQNSYYGNYVQGFWNSVFGKSEV
+KLPSDEGTEANVSPIFDENGEMYYFTDFTSPKEGVDSMLGYSLTNSRTGEATFYTGNLEK
+SYMDSQGTLQIIEKKFIEKKWTGEMPILYNFYGEASWLTPVLDPNGFLQNYFIVSAANPE
+ISVYANTPNQALKLYKTALQRGGGSVDGSGKAEEKQVSGTVLRVYKEKTGDYTTVYFLLD
+GGKSFTVSSENSPMSIYLKENDKVNVTYLDTGESSLPVREMEIEGLQ
+>tr|A6CR03|A6CR03_9BACI
+MQKEKQVLVIFPHPDDEAFGVSGTISQYIKEGTPVTYACLTLGEMGRNLGNPPFATRESL
+PLIRKEELKKAAEVMGITDLRMLGYRDKTLEFENDEELSNMVTELIEELAPSLIITFYPG
+FSVHPDHEATARAVVRAVRRLPKSARPKLHCLAFSNDCKQHLGEPDVTHDIWDVKDQKIQ
+TMKAHSSQTAWMLPQIEKGIAAQDPEALKWVTFEHFWTYQWENDKVE
+>tr|A6CPA4|A6CPA4_9BACI
+MNKVDYDRALYYTHRSEWDNLLILMVRTKDDLLAKRIEHFLHAYHFSRDYTSIEQNMYTL
+LRYIEHANLTASQQSEPMEEHVMKI
+>tr|A6CPY1|A6CPY1_9BACI
+MKFNKISTKLLFGITILILVATTTLGLLSYNFAKNELIKSGKLDLQHIVGNSISAIDLLN
+QQVEAGNMTLKEAQQEARELLVGPPESKDGKTIYDFSQSSFVYKNEGYLMAYDSNHIAQL
+HPSIQIGENKKDVQNSSGQYVVQDLVKAAQKESIDDRFYEYSWQNAGETAERNKIIYMSY
+YEPWDWNIGVGAYEQEFYGSLNHLLYLILGISVIITVSGLIIFYLVSRRKLKQLGQITQS
+SLLISDGNLDIPELPESNDEIGQLGKAFNTMAGQLRSILTNIQNTSTQVSQSAMELSALT
+EETSATGEEMGRAMNEITQGSVAQAADIESTNQKSENLYNAIEKMNSQNQMIHTLTGQST
+EAIKLGKDKVLFLQESNEATAEASEKISMGISKLYTSIKDISNIVTTIDAISQQTNLLAL
+NASIEAARAGESGKGFAVVAEEVRKLAEGTNNATAEIQKMIDTIEKETETTVMAMTNSNE
+ITMKLNGAVTDTENQFNQISESMSQIIGAVQQLDSEIATVTTHSEGILASIQSVSAVAEQ
+TAASSEEVLASVEEQVGVMGTIAHSAENLNELSEALQAIIKQFNVKEKDQQ
+>tr|A6CR44|A6CR44_9BACI
+MGVIVIGNENCWFPLQGARLRGAGGEPPQLRLHKKWKRPVQPRQANVPQRKKGDLSFYSL
+RVI
+>tr|A6CTV3|A6CTV3_9BACI
+MDKGKIVSLEERIPKLKQHRKKKANRRLTFLLSLFLLLILTVVYFQSSLSQVKDITVTGN
+YLVSEEFILETISVEKGANVWSVDRSKTEQELEKIPEVSSAEVKLQLPNTVKVHLKEYEK
+AAYLINETRFYPILENGDLLDSRELDALPTDAPILIGFKEDNILKEMVDELKLLPSEIKN
+SISEIVLSPKKTDPYHVSLYMNDGFEVSASIRTFSEKMVHYPSIVSQLDESSKGVIDLEV
+GSFFRKYETEGEPEVDEDESES
+>tr|A6CIR4|A6CIR4_9BACI
+MLHYFLLFFQCLYSKTEPVNKNVEVLFQDDTDKIVIFSSRNKPNKTLHILNSFSKTDGKY
+KYETGTGEFAKNVDIEGEYEFLKVSKVTNTSNSIVWGAVFNYEDAEKISYTPLDVNDNIL
+HQSTIFLTEKNTVADKLPQGIYEKVDEIHYQVIDSDENVIVEW
+>tr|A6CP38|A6CP38_9BACI
+MKSVLLYYPFTMVENANSGSKLRPIEMYKAFLKWGKRNGIEIVLISGNSEERSSQFDTLR
+KEGKFEHLLFCYMENQTIPLWLTDENHIPKKPFIDRKVFSFLKARNVPTGVFYRDVYWKF
+DDLYPLSGIKKTIMQSIYKLEERFYEKYCEVIYLPSDAMGKFVNINRNKVALPPGGKSQE
+LNSKEQTSQLRGLYVGGINNEAYGLPLLLKALKIFNEKEERLSLTVVCRKDELKKVSQDI
+LRDIQQLNVNVLHVSGSELDEVYKRTDIAFIPREKTTYNDFSVPVKLVEYLSNGLPVVAT
+NCAAQQEFIESGPYGVVGEANVNSFIQAIEKISDNLPFYNEKIVENFLTNHSWDARVEKV
+QKTLLKEKS
+>tr|A6CMG5|A6CMG5_9BACI
+MKKNSSKILPLTLSTTLTLFSFSALPAAANTNEETNAPVNVLNETKADTEKTAELKTAET
+STQTEADSNTEAAASNEEQTAQEVTSEEANADSEEATEVDQPAKTDDTVKETTETGEEAN
+VEDAEAGEASSETDSDIFELVKAILTGEISAAALVLTDGSRVNLGFENGTWTCLNSDILD
+DVAGLEVETAGETYTFLYADLLEEISAYVAAWINANVTIAEEEEPAELLTDVNVVLHEDV
+TVQAASLQLEDGTLVGLDVNNDYAIVGDTEVEADSVTKLWLTIEGEEYEIDLSDVEAENG
+VLTITVTADDLDLDVDLVTEINLTLPEDIEAEEVKLVLADGTLVELEESDDDSYVLLTED
+NVSVDEIVQLWLSIDGEEFTIDLDDIDLDGGVLNIEVEDADLDLNVDLVTEINLSLPNDV
+EAEEVKLVLADGTLVELEESDDDSYVLLTEDDVSVDEIVQLWLSIDGEEFTIDLDDLDLD
+GGLLSITVEEADLDLNVDLVTEINLSLPNDIEAEEVKLVLADGTLVELEESDDDSYVLLT
+EDNVSVDEIVQLWLSIDGEEFTIDLDDLDLDGGLLSITVEEADLDLNVDLVTEINLSLPN
+DVEAEEVKLVLADGTLVELEESDEDYYVLGTEVEVSIDEIVQLWLLIDGEEFTIDLDDLD
+LEEGVLNIEVDEADLELDLTAVTEINLTLPEEIEIDDAELVLVDGTVIELEVTDELTFLF
+EEELYLENIAYLSLTVDGAEYTVDLSEADLEEGVLSVGLDLDVFFDAVTELDLNLPEGLD
+IEGATVRLTDGSLIDLEVTEDLLFLFEDGELYLQNVAALWLVIDGEEIEIDLTEWDYEVS
+GEGLLSITLPEDFLDSLVDDNDTEVEFLTGLTINLLNFTGDIDSAVLIYGDNDRLDLDIV
+DGTLVLNLEDLELELEDLLDLEIVIDGETYLIDFDEDSLTEVDGEVTFDIDFDVDIDEDS
+DSDTDTDSDTDNDSDSDSNSNSSSDTDETIAGKDSDNDTKKSGMLPYTGESSNLLFYLTG
+LLISAFGVLNLRKRKLNKE
+>tr|A6CT29|A6CT29_9BACI
+MNELNTFIDELSVTFTELTNKIEETNSFIGTIQGITEQTNLLALNASIEAARAGEAGRGF
+SIVADEIRKLAEMTSTTATRINDNLASVNQANSTALQKMNLSSSKMSDNVQAVEDVSSSF
+KELRSKLQLLQTEFHTLADNSNSVKQQTVNAELSTKELAAVIEEASAGLEEVSATIETLN
+DDTNTIAGYVNETVKSAEKIQENIDNQ
+>tr|A6CSY7|A6CSY7_9BACI
+MKEGDMIGERFNNPLSCSFDKPGTRQFAVSSQRLFKNEKRQAKSSPYPDWNPARQQSFHQ
+GIRMTALDCLTY
+>tr|A6CHE7|A6CHE7_9BACI
+MLSSWYYITLLFENIPSEYFLQALVAYGFWLAFIVTLTIFFSSLLSYCSIDFSFVSVDRI
+FKPAGVVSFPAINLYIRSPDGRQLVL
+>tr|A6CMQ4|A6CMQ4_9BACI
+MDDFSLQSEEVSGIYRIELEHFSQLIDKEISSVDLEGFHLTDSEIKELKTLRAEKAAFVP
+HKDSYYREVLNSIKVHINRGADR
+>tr|A6CIM9|A6CIM9_9BACI
+MVKRDKAIESLVWSIALPGFGQILNGRYIKGILFLFLEVLVNIYSHFNQVIYLSFNGEFT
+QAELIADKQWLMFYPCIYFFAMWDAFKDAGGGKKPFSYLPFVFSAYFVTVGVMYSGTMNI
+LGVGGVLWLPMLCIVPGILVGWVLKYLLTKKYTRNV
+>tr|A6CPZ9|A6CPZ9_9BACI
+MNNRYSIVNSIKLRTLSFSSVLEIGDSTEITSFQKAFAVQREKEIFFTSEGDFNQYPIYS
+EPIPVPRSASTVQFLKMDERPIVVNNIDIIGSSFSSVIHIGQTCDVYMESRVKNVRQLKP
+RNEE
+>tr|A6CQF9|A6CQF9_9BACI
+MAIEIGSKVKGKVTGITNFGAFVELPEGSTGLVHISEVADSYVKDVNDHLKVGDEVEVKV
+ISENAGKIALSIKKAVDKPEGSSYTKRPPRQGRDSRPNKDFRSKGNFKPKETFEDKMAKF
+MKSSEENLSSLKRNTEGKRGGRGGRRG
+>tr|A6CTB9|A6CTB9_9BACI
+MTIQWFPGHMAKARRQVTEKLKLVDIIIELVDARIPISSRNPMIDEVVQQKPRLVLLNKA
+DMADKVLTDQWINYFSERGIKALAVNAQGGTGLGDIVKASKEILSEKFDRMRSRGMKPRA
+IRAMIVGIPNVGKSTLINRLAKKNIAKTGNTPGVTKAQQWIKVGKEMELLDTPGILWPKF
+EDEEVGYKLALTGAIKDTILNLQDIAVYGLRFLEKHYPKRLQERYGIDVFPEEIVEVFDK
+IGTLRGCLIAGGGIDYDKTSDLIVRDIRSERLGKLTFDIPGEYSEQE
+>tr|A6CJM7|A6CJM7_9BACI
+MSKEQEEKDNLSLEQEEKKENNQDIDPQKDPEKPKHPED
+>tr|A6CL90|A6CL90_9BACI
+MLKRKTRELLDSLDKPSKSDLKDVLLNLEITKQEVEGSLESAGGKPYYRKLLYQTEEVEL
+LVMNWSQLECAPHDHGESQGWIQVLAGTSVNAVFEIDEKGWPSELFEEQHQQGKCFYAPK
+RGVHKMSAGGGKDLVTLHLYSPPISGMKVYDLEKCAACIVSDDCGAWWPEEQRQKVKEIQ
+LEKRIK
+>tr|A6CLX3|A6CLX3_9BACI
+MIAMAFNYDLDFVKIDFRKNPELYRVGRGEQGVLLVEPYKSEILPHWRFKTPEIAEESSD
+KIYQMFLDYKEKDDFVGMDMARKFLQMGYTRARRYTNYKGGKKYDGNGEINERQNDPEKA
+ESAAIFMGKWKLAREDKDYLERKKDHQKKYG
+>tr|A6CRL7|A6CRL7_9BACI
+MEGNQVMTLPIWVYFIVAGIFVSAYMAMKSAKEDREVENEWIEQEGEVYIKRMEEEKEKR
+RQPSA
+>tr|A6CSK3|A6CSK3_9BACI
+MNLEIDFLDETNKLSESDRELVQSLLDYAAGQENVEPASELTVSFVTNERIQEINKEYRD
+KDQPTDVISFALEELGEDETVIVGDGIPRILGDIIISVEKAKDQADEYGHSFSRELGFLA
+LHGFLHLLGYDHMNEEDEKRMFGRQKEILDGYGLQR
+>tr|A6CHR7|A6CHR7_9BACI
+MRRTILCIAVISTFLLLSSCVETNYLEKQGLITGVGYDQAQEKDNIAGTIVFYQFNPAMK
+NLSTVITGNANTSKGIRLQANLESDHNLVSGQLRVALYGEELAKKGISPLVDTLSRDASI
+GNMIYLAVASPSAEKILSFQPKSQPVNMGTYLYNLIQISIKNETIPNPTLQSFTTSYGSV
+GKDAILPQLSIIEDKVGIDGFALFSDDRKVGVLDREKIFYVRSLVNELKAGNTEVELSTK
+PFEKEIKEADSFSEEEKEIKEKLHITMDNIKSKHKIDVIDKSKPSFDIKLTLESRILEMT
+VPFNLSEPAVLNKIEKEMEKSIKEEGLSVIKELQEKGTDPIGFGAHYRAVSREKELTKEM
+WSEIYPNAEFNLNVDVTIIRTGIID
+>tr|A6CHY6|A6CHY6_9BACI
+MVGTIINIIGFIAFFILASFLSKGKGAFLIAGYNTMSDSEKAEFDEMALCKFTGKIMYGI
+SFSILLWALSEILEIQAMYFIGLVLFFCFILFGLVYFNTGNRFKKKGN
+>tr|A6CMN1|A6CMN1_9BACI
+MEGLEVWTMELLGSVERKVSKVGYVEELRELVGKRPLILVGSVVVILDDNNRILLQQRRH
+PEGAWGLPGGLMELGESTEDVARREVYEETGLEVGKLDLINVYSGEDYFIVAANGVPFYV
+VTTAYSTRDVEGVIKVDEEESIQCKYFFIDDLPEYIVKSHREVIDEYNSFKRM
+>tr|A6CSN7|A6CSN7_9BACI
+MGIMVNIEGKKLYVDVGYGSPIMKPVELEARRKHVLHGFGEEITFTQKDQALYEIDRKAN
+GKSFVKKEIIWMPLEEGDLAADIDASYKDSQENMVMRRITAVRFHGNTCYFLRNGTLKAM
+TYRNIREYQMRDMDKWLHAVNEIYHFDKESIQESVDFLEKRDIKIFT
+>tr|A6CMB2|A6CMB2_9BACI
+MALSTMAKTFIATGLAGGIAVTGIVWTGGESVNKIKGNLDNMKQEVTEAVQDNEFLKGQF
+DSLKNLYSSSVQEANATIDSLTQERNQLLNQVDQLQSDLAAQDGTQEQAEIQAEIDRLES
+ELDKANQQIAELETYAQQADDAATYTAIDQTQYTVDGQAVVDPTIRISEEATAFNSANAE
+ILANENTVKTIEAEFAEKGVTVNIKRVVKFNYMGTDLLAYEVEGDFSALTLGERTSTTYT
+TAEAIGERGINFVNANGERVHYASNI
+>tr|A6CIS2|A6CIS2_9BACI
+MIYILFNLNNKVRIKSRGDSQVENNAHPLSEPLTLPNGSIIKNRFFKSAMSEALGTKDHN
+ATPNLVTLYNTWADGGTGLVVTGNVMIDRSALGESGNVVIEDEKDLEMLTRWAKAGTKNG
+THLWMQLNHPGKQSPRTLSKKPVAPSAIPLSGNLKKFFNEPRALAGEEIQELIIRFGNAA
+KIAQKGGFTGVQIHGAHGYLISQFLSPYHNRRRDEWGGSLENRMRFVLEVYQEIRKQTGE
+DFPIGIKLNSADFQRGGFTEEESLEVIRSLSDAGIDLIEVSGGNYENPMMQGANVKESTK
+KREAYFLEFASKVREIVSTPLVVTGGFRSEKAMTDSVAQGEIDMVGIAKPLALIPDLPNQ
+ILQGTYRTIQLKPMKTGLKWLDKSASMLEIVWYEQQLARMGNGKTPKPDHSVWLALLHTI
+TTNGTAVFKKRRG
+>tr|A6CJY4|A6CJY4_9BACI
+MDMKEWKGAAAICVNDLNEVLVVRGVGADTWSVPSGGIEPGETPEECCIREVEEETGCKV
+RIIKKLQVKDTVIQGIKVTTHYFEAEKTGGEIVVNDPDLNIEEASWKSIEEYKSLAQMYP
+EDFPLIHKIASLRKTIT
+>tr|A6CPU3|A6CPU3_9BACI
+MKFYTIKLPKFLGGLVKAMLGTFKKE
+>tr|A6CIL3|A6CIL3_9BACI
+MINKIGKISVYVEDQQQAKDF
+>tr|A6CLX5|A6CLX5_9BACI
+MTTKQRYEEEYIDMGTILILGVCAAFLTAIFTAGYDNKPGTNKD
+>tr|A6CN21|A6CN21_9BACI
+MIVKEIMSRNVETCTLLDNVYEVAVKMKENDVGGIPIVDGDHLVGMITDRDIVVRGVAEK
+HPGSSKVEEVMSDELVTVGADTTIDEAASLMSRHQIRRLPVVDGQKLIGIVSLGDLAVRD
+KLDHQTNLAIEKISEHENISNKPI
+>tr|A6CU81|A6CU81_9BACI
+GLKVKSLYLRRILGLFLFGLAHLILLWFGDILHTYALTGLLLLFFYKRKIKTMIIWAFSL
+LLVINILFSISLLMPSGLLQNFQEMNEAAYNQQFGEYVAAYTTAGFGELVSYRLGAELVP
+LIFNIIPAMIPVLAMFLFGLAAGKAGIFKPDTEHLGFIHKIRNITFLISIPLVTLLALFK
+LEILGAGIKNSSYVQLFTSLSGVTLCFFYISALTLLLRKENWQKRLRPLGYAGQMALTNY
+LSQTIICVSIFVGFDLYEKVSLLAGTLLALVIFTAQIIFSYFWLKKFQFGPFEWLWRSFT
+YGKLQPMKKKETEPGAKRAIL
+>tr|A6CIB9|A6CIB9_9BACI
+MKKITGGIHMQNQMNNQPNAQQVPNMAPNQTPNKNHGGHELFDAHEVIAGIISMLDQYQM
+YDQHIKDPELKDILQRQSAFVTQTYNTMVNSFSTGQDPKVPTQQYKMTQNNNTVYGVKPG
+QPKKPNQSVNDLSDQGLSAYMLGNTKSLSGLLAMTALEMTNPVLRRVVADSIPNFIEMSY
+EIFLYQNKHGYYQVPQLKDQDMNLMLQSYAQAPMNNPTH
+>tr|A6CHS9|A6CHS9_9BACI
+MARFLSRLKFLFNVRRSVPFLVAFFKSPAVKGWKKLLSVGLLLIYILLPFDVIPDWLVIF
+GIIDDIAVFTLILQQIVKMAPDELKDKYDVTL
+>tr|A6CJT7|A6CJT7_9BACI
+MSNNNEQKDSITNNIKDSAGAVFHATHKALEATENAAMGAVDTTSKAIKNVTGNADNEK
+>tr|A6CQN1|A6CQN1_9BACI
+MGGIKMSKKAEYLAQKQLDAYNLQDIETFLDCYSTDVTVMEFPSNKVIYQGLDAMRERYT
+RMFEENPNNHAELLNRMAKGNVAIDHEHVTGRANGKEVYAVAMYEVSDEKIKKVWFVV
+>tr|A6CUD3|A6CUD3_9BACI
+MNLTIRDIAKMAGVSPATVSKIINNYGGISEATRQKVFKIIEETKYQPNFSAKSLATKKS
+NLIGLIYAGKINVDFTHPFFNEVVNAFKKAVGTLGYDLLLFSNEQFYKGESKYLERCKHF
+HVDGCLIIAGDEIEEAIEEIVNSDIPCIGVDLQLEGPRSSYVMTDNIKIGSKVVEHLYLN
+QIRKVAYIGGKQDSLIASIRNKGFMDGMNQFGLPIHDEWIRYGDFFEESGYRSMKEILQA
+EELPQAVFAASDMMALGALKAIKERGLSVPDDIQLIGCDDIESCRYSDPQLTTVKQDKQK
+LGKLAAYMLDDLI
+>tr|A6CRT4|A6CRT4_9BACI
+MQMGIPVVIISMLLFFVLFFGIGFLLNMLLRMTWVMAVIYPLITIFIVDEVRFIDYFRNP
+GESFSALGTKFGALTAVDVLILSCGLAGAIVSGITMKILRKKGYQMF
+>tr|A6CMB5|A6CMB5_9BACI
+MENVEIRIQNMMEELRLPSVEDFRENESTIHWILVAIKEFGKDLNNEGLTVDDLDKPSKE
+LFGRLRSTIHIVIYQYTGFDTYNFSELGQNYGKKSDYFKSILVNDIIHTVFRSHISIYEA
+NFIFSNLDKLNLHNTRHKINSLL
+>tr|A6CU46|A6CU46_9BACI
+MDPSTVSAGFLHDVVEDTSITLEEIEDSFGKEVAMLVDGVTKLGKIKYKSQEEQQAENHR
+KMFVAMAQDIRVILIKLADRLHNMRTLKHLPSEKQRRISNETLEIFAPLAHRLGISKIKW
+ELEDTALRYLN
+>tr|A6CL40|A6CL40_9BACI
+MGRTKSGNANAQRNDNQKKGNRTSSEMVEFTTGDVKKNKNRFQD
+>tr|A6CRQ0|A6CRQ0_9BACI
+MQLLGNFGFPIAVTLFLLVKLERKLEQLELAIHSLSKAFSKKEG
+>tr|A6CTH3|A6CTH3_9BACI
+MLGTIKAVLCFVFQKKYSLMLIAGFFLDLTLFWFNFYIKIQEKSLIFQSSYLQRFTMLVF
+KLTSA
+>tr|A6CQS0|A6CQS0_9BACI
+MLNPAQIQKKYPTKQVFRSITIQSAFHVEANNQNLPQPNTRSIKVPYLKDKITKNDS
+>tr|A6CLM8|A6CLM8_9BACI
+MKTIKVDMEHVDIVAELFNQYRVFYNQKDDFESCRKFLRERIENRESVIFLSFEEGEVEL
+IPLGFTQLYPIFSSVSLKKHWLLNDLFVTEKARRKGVGENLLHHARQLAEETNAKGMTLE
+TSDDNYNAQKLYEKFGFEKHSEFHYTYTV
+>tr|A6CTC1|A6CTC1_9BACI
+ISRRGGGISETFTVRKISYGVGVERTFPVHTPKIAKLEVIRRGKVRRAKLYYLRNLRGKA
+ARIKEIR
+>tr|A6CMV6|A6CMV6_9BACI
+MAGYLIRCGAVHKHYSLLLPSGTVLLRLLKVLP
+>tr|A6CJE5|A6CJE5_9BACI
+MRELLKWFIFSFGLAVMLGVMIWGSTIEKPYSSGVDLGLGIYYFGAVMFGGLLIFISSRI
+DTSYKGNDHE
+>tr|A6CHT8|A6CHT8_9BACI
+MVDKGYLYTKTAFIGRINRSLLLDGMEMK
+>tr|A6CJW6|A6CJW6_9BACI
+MNIYMIFAVCLLSYGFGGLNGAYYLTEYYLKDDIRRYGSGNVGATNAGRVLGKKGFLLTV
+LIDVTKVMTALTISYLITENETIAMALSALSLLLGHIFPLQLGFRGGKGVVVFLGASLFL
+VPISIFIFGIIFGITYLLLRDYKKAGFISMFSIPISAFLLNQPAQYGTALLIMLGIVLLA
+HKKTPTQRHHRHIRRIEDE
+>tr|A6CM84|A6CM84_9BACI
+MKKIKLLISIAFLLLLAACGTDTEQEKSIDSNILKVYTTVYPLSDFTEKIGGEFVETASV
+YPPGADEHTFEPSQKDMMELSDADLFFYIGLGLEGFVDKAESVLENENVKMVATGAEVAG
+SLETEEVEHNEEGHTDEEESEHSEEGHTDEKEADHSEEAHTDEEEEHSEEAHTDEEEHEE
+HAEEESHGHDHDVDPHVWLDPVYAKELAHSIYETLSEEMPEQKAVFKENYENLISQLDEL
+NASFETTAANAKNKQIFVSHAAYSYWEKRYGIEQVAISGISSSDEPSQQELKKIIDAAKE
+NNISYIIFEQNGSSRLTEVVQKEIGAEKLTLHNLGVRTQEDIDQDKDYFDLMNENIQTLQ
+KALGSK
+>tr|A6CJF1|A6CJF1_9BACI
+MEEAVKLKDHSQAVLEAVKEKKKGNRFILGIDGLSRSGKTTLTKSLCESLKEQDIPHIVF
+HIDDHIVEKKRRYDTGRDEWFEYYFLQWDLQDIREHFFENLLLGKTFSLNYYDSSADSHT
+LKTIQLPEECFIIVEGVFLQRQEWRDYFDYVVFLDCPKNRRFQRERKETQEQLKKFQNRY
+WKAEDFYMKAVSPRQKCDMVLRV
+>tr|A6CRD2|A6CRD2_9BACI
+MGFAIITALVTLLALFASISALKNKNALGILFGLGTLGVFGWFTIMTVLHSGYPGGH
+>tr|A6CN03|A6CN03_9BACI
+MKKLLTLFLLGALLTGCNQQNNQTAYDNQENGDNPRPINVENSNIQQENNDTSQEVSRNL
+VRIATAVPDVEDATAVVLGNYAFVGIDVDARVERSEVGTIKYSVAEALKDDPHGAQAMII
+ADPDLYARLQEVGEDIENGRPVQGILNELSDIAGRLMPELPKNTQQLNPDEAPEKSQNKA
+GQSEENQLEKEQQDQSNNHMNRDNNNN
+>tr|A6CNA2|A6CNA2_9BACI
+MFLREKKEILPFILSGLFDPEGLGTETRRPANPAGGRAPSATISKCLVLQLLIKMGTNVH
+MASIIPNFLY
+>tr|A6CT37|A6CT37_9BACI
+MKEQKCSYGSGDTLAAKKEEKWSYDFLKDPLIAKKTEKLPYVIPNSPTTTH
+>tr|A6CHD7|A6CHD7_9BACI
+MSYHLRKGKKEDIEEIMKIVKKTVEIMKSENIDQWTDEYPLAGNFSKDAENDSLYVAVDE
+DNEVVGSITIDQNEPEEYSTSQWRKEGPAYLFHRLVVDPDVRGKGIASLLIKKTEEVAKD
+NKVDYIRTDTYSLNKKAQSLFKKNGFQQTGEIQFMGKDNPFYTFDKVIEG
+>tr|A6CLT5|A6CLT5_9BACI
+MNNAIEVHNLRKDFKAYSSRSGLKGAFRDLFTRNYKVVSAVNDISFTVKQGEMVGYIGEN
+GAGKSTSIKMLTGILTPTSGEVTVNGMNPHKEREKFVKSIGVVFGQRSQLWWDIAVQESF
+QLLKKVYKVPDEQYKEHMDHVIETLDIQPLLDKPVRKLSLGQRMRCELAAALVHNPPLLF
+LDEPTIGLDVLVKLKIRQFLKEINEKYNTTILLTTHDLTDIEALCERVVMLDEGKIIYDG
+ALQNLKTEWGEQKEIQFQFIDQPSVQELNALTSNLGAEWQLDEKEMRFSAMIEADDNKIS
+DLIGLVVSSYKVRDMKIKETTTEEIIRNIYEQGIVDIRPAQRETVKV
+>tr|A6CRN1|A6CRN1_9BACI
+MRWNFMVKLCLIIIGFVIFTHTPLQAANAENGPQAKDMYVTTEDIVLDLIFPIVDKRVIK
+EYGGGPLFDWHLQKIVGITYNDNHSYDVAVRITIPSDNGNVKEDLVRVRVAPSCDSGKIN
+KQVCNHGFKLEIVEYKHVSE
+>tr|A6CTA5|A6CTA5_9BACI
+MKKLIYCSVFFLLAAGCANEQQSETAGNTADQEGINEVVAAEESNENAEDNSASEEGNEK
+AAENENPENEDVVQEEESKEPLYMINETDWSVQPIGDANEKVVLLTIDDAPDKYTLEMAK
+TLKSLDAPAIFFVNGHFLQTEEKKQILKDIHEMGFVIGNHTFNHQKLDDVPEDKQKEEII
+KLSELITEVTGEKPKYFRAPHGANTDYVKELVKEEGMTLMNWTYGYDYFKPYMDAEKLKT
+AMITGEGPEVDVPYSLLKPGANLLMHDREWTNAALADIVQGLRDKGYEILDPELIQTPQ
+>tr|A6CNW3|A6CNW3_9BACI
+MNIFKQLYKSLYSPKDIAAFRFQGIGKTILYIFLLVLVSILPAAYNLTIFADKAIEESID
+VVEEDLPSFSIQNGTLATEAPDPVTIEKDNVTIILDNSGTIQPSELSGELNAVALLHDEF
+AIVTAGEVQIFPYSLFDGLNADNGDIVNFLSTLDSLKGIILSVFIIILYLFSAAITFIKV
+SIFAILGLLLANTLNRKLPYRQSWRITAYSITLSTIFFTIMEMLNTFIPASFFLDWMVIA
+LVLYLSIKEIPQRRAK
+>tr|A6CLQ4|A6CLQ4_9BACI
+MREITVTVLPPYNFDLVLDRLSLDPLNAVDTDNRTVKVPFYGKEDEVLTVTATGTSDNPS
+FLIKMESEDADDSRLAYLKRIFQWEGTLRDIHQHFLDTDLRDIFIEHSGTPIVLEFSPYA
+TLMKSIIHQQLNLAFAHTLTQRFVQKYGRQKDGVWFYPQPSDVAELDISELREMQFSQRK
+AEYVIGVSKEIAEGRLNLQELEEKSDEEILKELVKLRGIGPWTAENYLMFALGRLNLFPK
+TDIGIQNALKKLYGMDRKPSLAEIDKMSAAWNPYLSYASLYLWRSIENRK
+>tr|A6CI27|A6CI27_9BACI
+MAWITLNIFCYVMLMGVSLFVAVRAEGLADINRLSVWVVAVLCLLFVSVFGSVQLYTWMN
+NGDI
+>tr|A6CQ01|A6CQ01_9BACI
+MRTRAALKQLIINLTVSIRKKQEVTGLGKNSIGTCELCLREEVETTRHHLTPKEEGGTFL
+PTAQLCKACHKQIHSLYTNEELAARLSTIENLKKDEKIAKFIKWIRKQPSGKLVKSKKSN
+ERKRKGRR
+>tr|A6CQV0|A6CQV0_9BACI
+MVAIILVINIVYVSFFTIRMILTLKGYRYIAAFVSMFEVVIYVVGLGLVLDNLNEIQNLV
+AYAVGYGLGVIAGMKIEEKLALGYITVNVITADYNNELPGKLRSKGYGVTNWAAHGLEGD
+RMAMQILTPRKNEVKLYQTIKELDPKAFIIAYEPKTIHGGFWVKTVRKIRKENLSANE
+>tr|A6CHA6|A6CHA6_9BACI
+MGLGVKEKNKMAARAAEEIADGMVVNLGIGIPSLIPNHLKGIRNVIFHAENGILAMGKSP
+VKGEEDANLCNAGGYPVTLETGGSYCDSATAFSIIRRGLLDLTILGALQVSEKGDLANWI
+IPGKKVPGMGGATELAMKTKTVIVVMAQCDKYGRSKIVKECTLPLTAKGCVNVIITEMGV
+LKVTETGLTLTEIFNPYTLEDFKKNTEANYTAADTLRFI
+>tr|A6CSN6|A6CSN6_9BACI
+MPGLHADKVDSEANRTEQTPKIDVQCITSAAPAAVLEIMYKLLKAWDKFFSLVKIMKLAE
+CLIWNPDQMVLDETLQVIDTGAFKGQI
+>tr|A6CI34|A6CI34_9BACI
+MTTNRTLFGRSIQDFGRKTHKSAVDLYVSDKKAKIHLPMRAAKKVARVFKVVTDHLKIQT
+>tr|A6CSW7|A6CSW7_9BACI
+MLHLLLFLLLIFIFLIGMFWLKSGLYNMAEERMRGLIFKWTDTPWKGLIIGIVVTAILQS
+SSAVMVLTIGFVSAGILTFRQSIGIILGTNIGTTVTLEIISLDIGLLSLPLLAISLLLLI
+LPTRSTNPLALSIFGLSLIFMSMRGFEELASPLADQSFIHTLMEKSNASALFSVLLGMTL
+TGLVQSSTVITGIAMSFVDEGIITIFSGIAIMLGANIGTCVTSYIAGIGSGKATKMTVFA
+HIWLNVFGVLVFIPFIPDLGQLVKWAAANPETQLAHASLTFNVICSVIVLPFSGLFARMI
+EKLHGRE
+>tr|A6CP33|A6CP33_9BACI
+MGESVMNFVHDSVKLDESVTVGYFAVIEEGVQVGKNVQIGNRVTIHKDTFIGDNTVISDG
+AVLGKPPKPAKTSTVKLQGDIPGLTIGDECTIGANAVLYRGASIGSFTLVADLASVRENV
+EIADYVIVGRGVTVENHVKIGSKTKIQSNSYITAYTTLEEQVFIAPCVTTTNDNLMGRTE
+ERFDSIKGATVKRGARVGGASIILPGITIEEETFIAAGALVTKDTEPKTLIKGVPAKFAR
+MVEERELL
+>tr|A6CM70|A6CM70_9BACI
+MREEGLSTFKAVLEDVNLREEGLSTFKAVLEDVNLREEGLSAFKAVLEDVNWGEEELTSF
+RALLKDVNLREEGLSSFRALLKDVNLGEEELLSFKALLKDVNLPKEELSSFRKSLKDIKI
+KKEQPSSPRIILRNNNCQIG
+>tr|A6CMS3|A6CMS3_9BACI
+MRLSRVLILLLLGLSWAVLPLAGWRSIKRFLPASLFMCIMVMIEDAIAEKYKWWTIHPAF
+SSKIRGIIPFAAGPFLTGSVFILKYTYGKFPLYLLLNLAVDTFFVYPFYKWFKKLGVWTL
+IRMNQLQLLATFFIKSMLMYGFHHLFIAKKNVE
+>tr|A6CJR7|A6CJR7_9BACI
+MIQLHEVSKQFEGRESVYNVSLTINQGSVYGLLGSNGAGKTTLLKILSGIYKPEKGEAYI
+DGEPVFENAAAKQKLFFLADTPGFLPQYNIKQMAAFYRRLFNSWDEERFNELGLILGIDP
+KVKLHKFSKGVQRQAAFWLALSCRPEVMILDEPMDGLDPVVRKKIKSILMEEVALREMTI
+LISSHNLEEIEDLCDHVGILHKGRLLVEKELDELKSEFHKIQVAFKNQPPKELFDRLNVL
+QKEQRGSVISCIIKGEETAIEDVVNDFQPVLFDLLPLTLEEIFIHEMGDAGYAVKQILG
+>tr|A6CI50|A6CI50_9BACI
+MRRKRSAVSVAFLILTTLAGIVLLPFAIVKRSFKDWLIVYLVGVMGNSLADRYLVSKGYL
+RYNIRPYKGKFKIHLPFDYIHYPLMLLYYNQWTLNSKPAGIFLKLFPFVIPQVIFETIAE
+KKTKLISWRKGWSWYHSLISLVIKLLLCRGTIALVRIINNDRISAKKTPFHDDPSQNNQ
+>tr|A6CMA0|A6CMA0_9BACI
+MKFFKDIQEAKGKYNERLNTLQAQKAELEAELADIVEEYETKLEKDALGLADFKDEAKLE
+KEIDDKKTKIEKVEQKIAIVRKGRNQAFINQIPVLKERKQKEFESVEEEWNDGVEELQKA
+KAEFLLALYNLHELRNKGNEVKGEFVRLMEEFDPESNEAKSGGQFMTFKSFEELPMSPNP
+SYFGKDIALQKAFSLPSWAATDAINGSLPKWVSHYAATGEIKFDDKK
+>tr|A6CN38|A6CN38_9BACI
+MKAAGVIVEYNPFHNGHFHHLSETRKMTNADLIIAVMSGNFLQRGEPAIVSKWSRTKMAL
+KSGADIVIELPYAFATQHAEVFARGSVTLLDAMKCSAFCFGSESGNINAFEDTVKYLDEN
+DQEYNAFVQEYIKMGMSYPSALSKAFHSLNKDSLVDLSLPNNILGYHYIQARNSIGSNMK
+AYTLGRKNANYHDENFTDDTIASATSIRREIRKKNGNVGSIHSFIPEATMEEIKAYQDTY
+GVLHDWERYFPFLKYRILSSSGEQLRDIYEIEEGIENRFKAAMQTSSSFQEFMERVKTKR
+YTWTRLQRMALHILTNTTKKEMNTGLSPTYIRLLGMTAAGRQYLNLHKKELCLPLISKLG
+GTDQEQVSLDIRASEVYAMAASDPAIQNNLLQQEFKQPPIFIQN
+>tr|A6CRX1|A6CRX1_9BACI
+MKLKIGITCYPTVGGSGVVATELGKLLAERGHEIHFITSSVPFRLNKMYPNIYYHQVEVN
+QYSVFQHAPYDIALANKMAVVARREKLDILHVHYAVPHAVCAILAKQMADTDLKIVTTLH
+GTDITVLGYDPSLTEAIRFGIEQSDHVTAVSHALVDQTYSLIKPDKDIETVYNFIDERVY
+RKVDSEHLKRDYGILPHEKVIIHVSNFRAVKRVEDVVQTFSRIVEHIPSKLLLVGDGPEM
+TVICQLVKELGLKDKVLFLGKQDSLEELYSLSDLMLLLSQKESFGLVALEAMACGVPCIG
+TDVGGIPEVIEDGVNGYVCPLGDVETISKKAVSLLNSHDLYKQYSENALETARTKFHWSK
+IVGQYEQIYRKLAAERIGDEDASNSL
+>tr|A6CMH2|A6CMH2_9BACI
+MTNRHSKGENTLKKFHVEFHFDNENTVSFLIEEERTEATVLHKIFGNDSNHFVFKEDDVL
+YRIQLNKVTHVAVKEVKE
+>tr|A6CN63|A6CN63_9BACI
+MKKLFSFAALSLSAVLISGCGTSETGSGSASDSGLDLVDEGKFTYAASGEFKPFSVTSGD
+GTMTGFDIEVAEAVAKELGLDPEQKKFKFAGIVEGVQAGRFDAAVASHTITDERAEKVDF
+STPYYYSGPQIFVRPDSDVETLEDLEGMEIAVSKGSTYADTASEVTENIKTYDSDVVALE
+ALSKGKHDAVITDFVTGKEAIGAGLEIDTRELLGRSEQAIAVAQDNDELLEAINEALETL
+RENGTLEEISKKYFGEDITTDPEGEE
+>tr|A6CUB7|A6CUB7_9BACI
+MKSSMMLGDWTGVYEAVRRSSKSKKRGKLVSWEVDETI
+>tr|A6CT40|A6CT40_9BACI
+RREESVMRKRLKGMKGKKEREKCHEQVSQGHER
+>tr|A6CHK7|A6CHK7_9BACI
+MLSILLDDSRNQIKMVPLYQLVPEDYLVRKIVQAVDMKSFMA
+>tr|A6CQ90|A6CQ90_9BACI
+MSKVIKNTQAPSAYLRQAKVISLRNISGQSSESSEETPQENYQIKLERDKVLQDAREEAS
+QLLETARAEASRLEEEVSSLIAGWEQEKEVLQQEAYQQAYLKGLEEGREKGIGEYRQYID
+QAVEVISKAKADYHLHVEKAESVILELGMKTAEKIIGRTLDENPSAFLDIIKRGIKEVRE
+LPEVQIHIHPSNYTLLSENQEELESMLPVLRKLLIYPDDDLNRGESFIETGEGRVIVSVD
+SQLREIKQKLVEILEGEDA
+>tr|A6CLG7|A6CLG7_9BACI
+MLSNSEIGIDLGTANILVYSKNKGIIFNEPSVVAIDTETKNVLAVGIEAKNMIGKTPGKI
+VAVRPLKDGVIADFDVTTEMLKQIMKKASKQMGLSIRKPSVVVCTPSGATSVEKRAIQDA
+VKGSGAKSVTLIEEPVAAAIGADLPVDEPVANVIVDIGGGTTEVGIISYGGVVSCNTIRI
+GGDQMDEDIVQHVRKKYNLLIGERTAEQVKMEIGYALIPHETMKMDIRGRDLVTGLPKTI
+TLESTEIQEALKESLLHILETIRATLENCPPELSGDIVDRGVILTGGGALLGGMQEWLTE
+EIVVPVHLAPNPLESVAIGTGRSLSVIHKLQKVAK
+>tr|A6CRE8|A6CRE8_9BACI
+MQQAEIHQFLERYFTANECEIVENHPGYMNVQLTIDMDKELMNRPFYWHYLEKTGGIPNP
+MRLCLITNQEKAPENMKGEVLHFGSPRLHQIFRSARRLASYTRLYENKPTMPGNQTPLQP
+WLGLNIKVSYQCDLKKDLLKSIGLNLINGLMKENFHQELMKKNLTPKIPDLSFTLTPIIK
+PRSGIARIRTQIQKELQSQPTDWANAARQRWQEDLDLLDQFYDGQDEKPESYYVEKQALA
+EQYEPKIKVEIINGGLFYLSQ
+>tr|A6CTD2|A6CTD2_9BACI
+ELASRSETSDQFMSLLVKHTPHKQAAAHFNMTYGQLMKLMREIESEIDAKLRTKLKKVQW
+IDYTEQLNSRTQSRMDFLLLI
+>tr|A6CS70|A6CS70_9BACI
+MKIAIDAMGGDNAPKEIVLGAKRAVNEFQDVEIILFGDEDKINPVLGQHERIEVVHTTEV
+ILGTDEPVRAVRRKKSASMVLMAQAVADGEADACISAGNTGALMTAGLFIVGRIKGIERP
+ALAPTLPTLDGKGFLMLDLGANVDAKPEHLLQYAIMGSIYAEKVRGIDNPRVGLLNIGTE
+EKKGNELTKAAFSLLQEAPVNFIGNVESRDLLEGAADVVVTDGFTGNMVLKTIEGTALSI
+FSMLKTTLTSSLKNKIAAGLVKNDLKELKDMLDYTEYGGAGLFGLNAPVIKAHGSSNANA
+LFNAIRQARQMVSHSVSKTISEAVTEQENE
+>tr|A6CK26|A6CK26_9BACI
+MIQLWRQFSWVIPILALLTAALVTAVYIWKNYKGKGEVKWSDLIPVLFTLISTGGIFLIT
+LSPLVPGVALEGNTNFQPFDNLRLNLIYRNHLEVPIRNLLANIVLFIPFAFFYAWWIGSR
+KWVLLKTTLAGSILSIMVEMIQFSLPLGRSTDIDDWMMNTCGALLGGLLFKLSIKIYRLY
+KRNKG
+>tr|A6CK93|A6CK93_9BACI
+MTNETVNNEAKALREDWEMNPRWNGVERPYSPQDVLRLRGSLKVEHTLAQKGSEKLWKLI
+NEEPFVNALGALTGGQAVQQVKAGLKAIYLSGWQVAADANVAGQMYPDQSLYPVNSVPQV
+VKRINNSLIRADQIQHMEGEGDIDYFAPIVADAEAGFGGQLNVFELMKSMIEAGASGVHF
+EDQLASEKKCGHLGGKVLLPTQTAVKNLISARLAADVSGVPTVLVARTDADAADLITSDI
+DPADATFITGERTPEGFFRTRSGIQQAIARGLAYAPYADLIWCETSKPCLEEARTFAEAI
+HEKFPGKLLAYNCSPSFNWEANLDKETIETFQVELGKMGYKFQFVTLAGFHALNYGMFEL
+ARGYKTRGMGAYSELQQSEFAAEKHGYTATRHQREVGTGYFDEVTQVITGGTSSTTALKG
+STETAQFQS
+>tr|A6CUF0|A6CUF0_9BACI
+QSHEGGLRGGTVNTPGIAAFITAAQTACGDLHLRKFQELRKWFINGLRSKLQDSLMVVEA
+PGDNQLPQVIGLCIKGLQGQWVMLECNRRGFGISTGSACQTGQPAISKTIQAFGLSEETG
+KEFIRISLGKDTEKEDVTELVQALADIAKTHYEQ
+>tr|A6CLC3|A6CLC3_9BACI
+MSDHPIEGLMTTAMENLKEMIDVNTIIGDPVETPDGSVILTVSKVGFGFAAGGSEFVIKG
+KGGKGVQDDKQGEKKQPFGGGSGGGVSITPIAFLIVGSKGIKMLHLDENTHLLEKLVDLA
+PGVMEKIQGMMKKNNQNNNQNNGQGQQQNQNQGQNQSFDF
+>tr|A6CS04|A6CS04_9BACI
+MEHGEKQITIIDEEGSEQLCEVLFTFESDQFNKSYVLYYPVGADENGDEEIEIHASAFVP
+GDEGEEGELKPIETEEEWDMIEEMLETFLDEEEE
+>tr|A6CJL8|A6CJL8_9BACI
+MDLFTLNDMWIFFLAFFLTLPLVTLVHEAGHVLVARVFGAKINFALGAGKTLFSIGPLEV
+KKLYFMDGWCQYGKLKYDKKWVHILIYLAGSLSNLLVILLINFLIYREALPTHIFFYQFV
+YFSVYFIFFSLFPFKTGKGQPSDGLAIYEVIKYGKKADPLE
+>tr|A6CP41|A6CP41_9BACI
+MRVIYLCQHFPPETGAPQIRVFEVSKELLKQGHQIEVITAFPHHPHGVIPQEYRGKFYMF
+EEWEGVPVHRTWIYPSAKGSFWKRLASYFSFTFSSFYGLLRAKPTDVIICNSPPLFLGIT
+GYLGAKLKGAKFVFNIADIWPESAVELGILKNKTFIKLAEILETFLYRKSWKIAAATEGI
+SDYMIKKGKPSEDIFLLPNGVNTDFFMPAPPDKGLLEELNLQGKTVITYGGNLGYAQGLD
+SILKTAAILQENHPDIHFLFVGDGPEKDTLLALKEELKLSNVTFYGAVPLERMPQVFSIS
+DFSIVSLRNINLFKGARPSKIFPALSTGTPVIYCGVGESAKILETKNCGRIAPPEDPEGI
+ANVIKDLENLTKEEYGEMAKNGRELAVDEYSWKRIVDDLLINIEKK
+>tr|A6CQV4|A6CQV4_9BACI
+VNAGELPVDELGVKALDPQTLEVQLETNVPYFKALLSFATFYPQNEAFVTEQGDQYGLEA
+DTTLYNGPFVLNEWKHEQSFQLTKNADYWESDVVKLEEINFNIVKDTATGVNLYETNKAD
+IAGLSAEFVDQYKGDENFKTRADTAVFFLRLNQENEVMANVNARKAVDMAWDKQGLVDVL
+LNNGSVPAYFLVPQEFVYGPDGTDFRESNGNFNETNVEAAKEAWAKAKEEVGFEEVSLEL
+LNYDSENSKKIGEYLKEQLESNLDGLTVTISQQPFKQKLDLESKGEYDFSFAGWGPDYPD
+PMTFIDMFVTDGAHNQMGYSNPEYDKLVEEAKTTLLDDPEARWNAMLEAEKILFEDAAIS
+PMYQRGSAYLERPYVKGVLRHAFGADASYKWAHIE
+>tr|A6CJK7|A6CJK7_9BACI
+MISCKSITLSIFQPSSNYFHVYFKKWYYKYEWEGAVNMNGVILFDGVCNLCNSIVQFVIK
+RDKNAYYQFASQQSTKGKALMEKHHIDPATDSIILIEQDRAYMKSTAAVKVCRNLDGIWK
+VFYFGIIIPKAFRDYLYDYIAKNRYKWFGRRDTCMLPGPEMKKRFID
+>tr|A6CRY5|A6CRY5_9BACI
+MLFNITKKIAFIHRKSSGKQERKNLLARPVGMDFAGHVWACKEVNGPVRTEYGVYWSENG
+VNGTMSLDYGRGVGTKRE
+>tr|A6CQ81|A6CQ81_9BACI
+KVITVHHPHSFSSADFPPLSMALGYFDGVHKGHQKVINTAVMEAEKRNLNSAVMTFDPHP
+SVVLGRKHKHVHYITPLQDKIKLMETLGVDYLFIVRFTSDFANLHPQEYVDQYIINMNVK
+HVSAGFDFTYGKLGKGNMETLQFHSRGEFTYTTVHKLTDHDEKISSTAIRKALSDGETAK
+VSNLLGRYYTTSGTVIHGDKRGRKIGFPTANIELSDDYITPKIGVYAVRLYVQNQWHNGV
+ANLGYKPTFNNPEDKALSIEVHIFDYSSSIYGEEVTVEWHNYIRSEKKFDGIEQLIAQIE
+KDKQQAVAYFQKLFV
+>tr|A6CMA7|A6CMA7_9BACI
+MIPTLKGGNSMQIKYSKRKRSSYRLHSGSLQPIKEDRSAYNYTAQKRAVDRKAAMKHGTD
+K
+>tr|A6CN10|A6CN10_9BACI
+MLFVLLGGALVTKTESGMGCGRSWPLCNGELVPSQITFELVIELSHRLVSGSVGILVLIL
+AIWSWKAIGYKRETKLLAALSFFFLAAQALIGAAAVIWAQSDFVLALHFGISLISFAAVL
+LLTLLIFEVDKKFDADKVVIDRKMRFHIIGITLYSYIVVYTGALVRHTNSSLICGDWPLC
+LNDSPAWPENMYEWIQMGHRFAAAIIFFWIAYAAYLAVKNYKQQKVIYWGWIIAFILVTM
+QATTGALTVFTELNLYVALAHALIISLLFGLLCYFILLASRSKLRE
+>tr|A6CUA2|A6CUA2_9BACI
+MSSILDQKKQIVDEISDKLKNSVSTIIVDYRGLDVSEVTELRKQLREAGIDFKVYKNTMT
+RRAAEAAGFEGLNEVLTGPNAIAFSTEEVVAPAKILNNFAKEHEALEIKAGIIEGTVTSV
+EEVKAIAELPNREGLLSMLLSVLQAPMRNFALATKAVADQKEEQGA
+>tr|A6CPU0|A6CPU0_9BACI
+MVKIAPSILSADFANLAKEIKDVESGGADYIHVDVMDGHFVPNITLGPMIVKAVRPITDL
+PLDVHLMIENPDQYIEAFAEAGSDYITVHAEATPHLHRTIQLIKSRGIKAGAVLNPGTPV
+DMIKHVIEDLDMVLLMTVNPGFGGQSFIQSVVPKIREVHELAQQFNPSMEIEVDGGITAE
+TAKVCADAGATVFVAGSAIYNKEDREQAISAIREAAEK
+>tr|A6CKR7|A6CKR7_9BACI
+MMNVPMTVSSLLERAEKFFPKKQVVSRTSSGIHRLTYKEIGERTRRLASVLEKLGVGKGE
+RVGTFAWNHHRHLEAYFAAPGMGAVLHTINIRLSPEHITYIINHAEDKVLFVDEDLLPLI
+EKCKDTFETVEAYIIMSDKKELPETTLEPAYSYEQLLSEADPHFEFLKDIDENDPAGMCY
+TSATTGNPKGVVYSHRGIVLHSFAFGLADTAALSESDVVMPVVPMFHANAWGIPFAATWF
+GSTQVLPGPLFTPKLLAELIEQEKVTFTAGVPTIWLGLLNELETGSYSTSSLRSIVCGGS
+AAPRGMIKTFESKYKIPFLHAYGMTETAPLAVVSRLKSYQTDLDEEEVLDIRSKQGLIVP
+GLDMKIVGADGEVKWDGEEMGELLLRGPWIADEYYKDERSTDAFRDGWLYTGDVATIDEE
+GIIKLVDRTKDLIKSGGEWISSVDLENALMAHDAVFEASIVAVPHPQWQERPVACVVLKE
+QYKDKVGKQDLLDFMAPQFAKWWLPDDVVFMEEIPKTSVGKFLKRALREKLKDHLVQNS
+>tr|A6CRR6|A6CRR6_9BACI
+MNINQLFEMQRELDTYIEKEHGLEKADLFQRKILSLLVEVGELANETRCFKFWSTKPSSE
+KSVILEEFVDGVHFILSLGIYMGIKHFELREANYIEKDVTSQFLEIYDSINGLLTKKSVT
+EYDQLVHQYFYLGKLLGFSHEDVVKAYKQKNEVNYKRQQEGY
+>tr|A6CS50|A6CS50_9BACI
+MTWEVLSIVGTVAFAVSGAIVAMEEEYDILGVYILGIVTAFGGGAIRNLLIGVPVSALWE
+QGFLFQIALLSITAVFLFPNNLLRHWRRWGNFFDAIGLSAFAIQGALYASDMNHPISAII
+VAAVLTGSGGGIIRDLLAGRKPLVLRSEIYAVWAVLCGAAIGLKLVTEAWELYTLFLLTT
+SLRVLSYSYKWRLPNRNLKAFQ
+>tr|A6CS49|A6CS49_9BACI
+MMKNSKYKRKEGFYLEEKIIEKALLVGCQIEESDQRFQYSMEELASLTETAQAE
+>tr|A6CLR5|A6CLR5_9BACI
+MEDIIMDTFHEELTNELLEKNEELSYARARTWVELLWEDFETTYAKARGEYLGQEMTSRL
+VKQWIDSYGSRLHEFASKNPKYSHMLENKSDISH
+>tr|A6CHP5|A6CHP5_9BACI
+MALLVELVNDLGYFAMFIFSWLVFVGFPIPNEAAAAFSGVLTEWRGYSPATAFTATYLGV
+ISSGTFGYGLGRWAKNFLLYRFEKTKSRKVIRKGQLWLEKYGAAGISFSYFIPGVRLFMP
+YIAGASGISSGKFMMAAYPAALLWCLIYFQIGRLFPSTFSAIVEHLSFAITSVTFIIIVI
+ISGILYTKKRKRAASTIFKSGE
+>tr|A6CJR1|A6CJR1_9BACI
+MMNQTYEECVKACQECLEACNVCFDNCLKEEDVKKMAECIRLDRECADVCTLAINAMQYG
+SPNVKSILQLLVEVCGACGNECKKHDHTHCQKCADACFKCVEECKKLI
+>tr|A6CKK1|A6CKK1_9BACI
+MVSMPNYTWYILLSLIALIILFSTFIFKNHEFKRVLSVYFFISGLSFILDFIILICFNAY
+AYTPGVFDLKWLDNVFGSFTSQGLAVPSAAVFLAAFQLNWVWIFIVTAVLAGAELTFLHM
+DIYHHYWWSTIYTALLLPVGFRLARVWYTSMLVPKKAAMVLTIYLGLNTYAHSLKFFMVS
+LSSSHYYRIGVFEDPIRDSIFGNSIYLFFITILMALVIVFYFKWYWGLLLVLLECGFTYM
+LVKSGIMVLGPQWHPVYFCLLFAVTLLLFRWIYIKIFVSEPFFI
+>tr|A6CIF7|A6CIF7_9BACI
+MMNYLGTPSIETERLILEEFRLTDAQKAFAHWLSDERISDNRISAAHTSLSQTIERLTKI
+VFNYEKDDFCYWAIKLKVDGELIGEIDLYDFDQATENCEVSYSLGYHWWNKGYGTEALKA
+VVDFGFTYMNVHKISGAHNTDNPASGKIMSKAGMLKEGIIRDMIRNSKNQYKDCAVYGIL
+HDDYVRKQVDMESPILKLVNK
+>tr|A6CKB0|A6CKB0_9BACI
+MGSWFIGDGAIDECCGSIDEFGASINDFYASIDEFAASINDFHQSINNFNFQQEHSKEVT
+LVCPPAGLGFWLIPCGKLVFLRLSYISDEPN
+>tr|A6CPV5|A6CPV5_9BACI
+MANPIVARSLDEIQFWSRIMKEHALFLSLGFTYEQQQLINEAKQFITLFERIEEKLARFT
+PNSDLHQVQAFNSEVYQAAAAIWHFKRKVLGLTLRCEIRSNNFPLLLDHISREAAYFANR
+LQELNEGKLAPKPEAIIEENVFFLKIMADHAKFIGHLLDPSERKLVDQAKEFSHDFDQLV
+FQAVDLESMKPQSETKPILNQFLNQNKVSVASLRDFKKTARELIEECRIKSNIHPLLADH
+TFREAERFLEIIDMFDAHLQYT
+>tr|A6CNU7|A6CNU7_9BACI
+MAKGVEMEMKTNLSHAQPYSSPVTSFNYEIFAWSGDHNRIESKQLSNFSNWKDFNFVVNE
+EVLPEGSILSFSVENKKRHHRRVKLFFLLDWRNDGNDRISFISPDNHPVYHYSSTKYSLV
+DYQVNNSNGMIRRSVYPLSDKGIYHWKETLRTGSIPYQPLLKEAALTVVCFDLIFTPQQK
+IQGHVIGIEAQSKEDLRNLHKHFKNRLAFHLKK
+>tr|A6CI49|A6CI49_9BACI
+MIYVFKKIKNRMEEFEDNSIQIHLSRKKKMVIGNRYRIIGYFNDILLGILYMIGSILFIT
+EAEQVLATSFFLGGSFMMIFRALLHILRDIHMKRFTEEDIRNQDN
+>tr|A6CJP8|A6CJP8_9BACI
+MNSNIKLNVALLRRRVPNLTSAAKAVGLRPATVSNLCTGKIPVGRAEVKTLVALASLANC
+TLDELLIRGSRLEMIETGIKVVDLFCPIVKGGRVGFVARAQMGQLVLLNELIVRLQGKGF
+KMIFIEADSIVPDVVEAKAACDHVCKSTHEVFELLNSMDKKEDAVVVADRAIVKTGDLFD
+MGDRFEQSGFPEITTFLYDPSGEAVDENDPYGPLDTLIPFDLDLATRQLYPAVHPVKAVS
+TLLEDALLDNNHLSIQRRAKKMLRRYREIRVLVNNIGEMKIPESEIELYNRGQRLEAFLT
+QPFYVAELITNQEGVYVPVESTLAGVQKVIDGGADSLSPDELKYIGKL
+>tr|A6CQ79|A6CQ79_9BACI
+MEKYWLANKSANFQKFESKQSKMKKQNAFCCFILDCLISSISLKVYALNLNKKREKIPLL
+SRLSA
+>tr|A6CKS2|A6CKS2_9BACI
+MEKVIRDAGGSTDFEAITTYPDTETQIPSSYQYTLHPIQM
+>tr|A6CR10|A6CR10_9BACI
+MKTFIIIGAVNAFLSVALGAFGAHALEGKISQKYIDIWNTGVLYQMFHSIGILIIGVLAG
+NIAASALLNWSGWLMLIGIVLFSGSLYVLSLTGIKVLGAITPLGGVSFLIAWVLLIITAA
+KSM
+>tr|A6CLC0|A6CLC0_9BACI
+MVNVLTEITIEAPVSKVAAYAADPDNAPQWYNNISSAEWQTPKPLQLGSEIAFKADFLGR
+KLSYTYKIVEYIPEKKLVMRTAQGPFPMETTYTWRAVDERNTLMTLQNKGKPAGFSKLFS
+PFIAPMMKKENKKDLLKIKGILESN
+>tr|A6CS39|A6CS39_9BACI
+MNNLKQLTSEILDMNGEILRIYKETRERGEEGDFYKEVKPFADEAKEKIDLWREIALQWM
+KDERPKNLHPSQIINTAENFEMISIQAFFPKASYKKFISHSQSVHYVLKTVLDQLSGN
+>tr|A6CT80|A6CT80_9BACI
+MNFIKRAFLSVSARKGKSLLQLIVFTVICVLVLSGITIQTAAVKSGELARQQLGAEVTLQ
+TDMEKLREQMQAEGSRQRIEQSPISVGAAQELKDYPQIKAYNFYSSTNAIAESFQVIESE
+DSSGDSSQTQEGRMPAMDGNRMFEADVSIQGVVFTDSVQEFMDETATLVDGRHLTEEDAN
+SNFSVIEKMLADENELKVGDTLTVASVNEEAITSELEIVGIYETSAVEDSGQGMNFAFMS
+PYNKIYVPFTAASSLKGTEYENTIDRAVYHLKDPAEVDSFVSEAKQNSSIDFEVFTLDAN
+DQLYQQMVGPIENVASFSKNVVYLVAASGAIILGLLVMMSIRERKYEMGVLMAIGEKRWK
+LIGQFIVEITAIAILALGLSTFSGNLVAGKIGEQLLTQEIQQAEEANVPDSFRNGGLRGG
+FGGGMAGQMNQQAEPVDELSIEVTPEDFGMLAGIGLFIAFLSALIPSLSILRLQPKTILT
+KQD
+>tr|A6CPA5|A6CPA5_9BACI
+MGFPSIGCITYGIKMHIIYEIIGRGEIKMRKWMIIFSLVLAMMGSQQALAQQDYERYGRI
+ATAVVKEDYTGEKLADYKYDGRKTLPGGQIEDAFTFDVVKDGKDVSVKVKVVHNPDKPTD
+LNISVNEVQ
+>tr|A6CIF5|A6CIF5_9BACI
+MTTKDFYKVKIVTKIIDAEATKEMMAEIFRFSINSVNPKTYIYTRKIKSIYHF
+>tr|A6CP91|A6CP91_9BACI
+MMMKRRGIPFSSIYIGGEKMNSWLKKTILLYWILLISTIGVNTSAAPRESDVTVTPSPTV
+EVPSSAETNQADKPAAGDYLQTIEVIPEKITIPSIGMEAQVAGVGILENGEMEVPDNINQ
+AGWFKPGVKPGGQGNAVLAGHLDGKGKPGAFYHIGKLQKGDKVEILGKDGQLLTFQVVGV
+ESYYTDDAPLERIFGYHSDSRLNLITCSGDFDEEEHEYEERLVVYTELVK
+>tr|A6CQC4|A6CQC4_9BACI
+MNTNCLDCHNEIHYPVTWSSFLFTPKEQWLCDKCSSQLQFITGDTCRICSRPLSLLQSQH
+IKEETCLDCIRWEQDPKWAGVLTQNTSLFLYNEYLKEYLSRFKYRGDYLLVNAFSSAVKE
+AAEPLIYDLVTPIPLSPERLYERGFNQAEALAREAALQPQHLLIRSHSEKQSKKSRLQRI
+QSEEVFGINPDLQPEINNKSILLIDDIYTTGTTLRQAARILKEAGAKEITSLTLARG
+>tr|A6CL11|A6CL11_9BACI
+MLMTENQFMIQKLQELFKGTSGDIDTDIIKAQQYMDGIKSLIEICGDDPNRDGLQETPFR
+VLKAFMEYTEGYREDPKAHLEKVFDVQHKELVMVKDIEFYSMCEHHFAPFFGVAHVGYIP
+DKKITGLSKIGRMVEGYAKRFQVQERLTNEIAQAVEDILEPQGAMVVIEAKHMCMCGRGI
+KKSNASTTTTAVRGLYADKADARMEFLTLLNR
+>tr|A6CRT6|A6CRT6_9BACI
+MISDNITSFDFLGKGQKNACTAMKANTFISFIHYLAISLNFRKLKK
+>tr|A6CSG2|A6CSG2_9BACI
+MKYKMIYSFLKADIDLIEKELKTAIDSRSPLLNEASLHLLSAGGKRIRPVFVLLSAKFGD
+YNINSIKNVAVALELIHSASLVHDDVIDDADLRRGKPTIKSQWDNKTAMYTGDYIFARSL
+EYMTKIDNEDAHKILSNAIVELTVGEIEQIKDKYRFEQDLKDYLRRIKRKTALLIAVSCQ
+LGAIAAGAPPEIHKKLYRFGYNVGMSFQITDDILDFTASEEELGKPAGSDLLQGNITLPV
+LFAMEQRDLREKLIKIEEEVDRDYLKAVIEDIKSCGAIEQSHEISARYLKKAMKELEGLP
+KNGANKTLKDIANFIGKRKF
+>tr|A6CP08|A6CP08_9BACI
+MTVSNAVEVKDEKYKTALVELLYQLADDDFIIAYRGSEWLGLAPHIEEDVAFSSINQDTM
+GHAAMFYRLLEDLGEGEMNSLAHARGADERRNAIILEEVNGSGTYLVEPNYDWAFAVVRN
+YFYAQAKKIKIESLKNASYQPLAEAAVKVNMELYYHLLHWKTWFSQLMNSNGEARKRMMN
+AVEKTVADFAGVLSLGDQGEEMAKAGLIEGEDMLVMRWKNAVEPIFESSNLSLPPLEMQR
+GNGRNKVHTADLEQAIGTLSEVYNSDPAAAW
+>tr|A6CIU9|A6CIU9_9BACI
+MPTYNKLVRDKIPEIIESNGKKFSTRILTDEEYIKELKNKSFEELEEYRDAETREDAMEE
+LADLMEIVHAFAKSHDTTLEEVEEIRRKKAEKRGAFKEKIFLIEVED
+>tr|A6CNK3|A6CNK3_9BACI
+MEPPKHIVSAAAIVVNEVNEVLLIKGPRRGWEMPGGQVEEGESLKAAAIRETKEECGLDI
+EVTRFCGVFQNVDRSICNTLFLGRPIGGELTTTEEALEVGFFPIEKVYEMVTCLNFKERI
+EYSLDEKMQPFYVEF
+>tr|A6CII1|A6CII1_9BACI
+MFWVNKDKKFDYIVGMKMNIEEQLYQSAVDLIKERYPEGWGGTAAMHTEDGRILTSVSPE
+IINASTELCIETGAILEAHKFNAKVTHSICVVREDENSEFKILTPCGICQERLFYWGENV
+KAAVTHPSGELEYKLLKEIQPYHWYKAYKNE
+>tr|A6CUC7|A6CUC7_9BACI
+MNISLIAENQAETAKDIVLQGFKERFGTIIDGLNPDLDDILAYYQKDKYFYVGEYQGKLM
+TTGGIIFESQTECRLVRMSVLSPYRRLGFGRAMLSFLEKEALKRNASTVILETNKEWKDA
+ILFYEKNGYIPYRKEAERIHFRKKLMA
+>tr|A6CS57|A6CS57_9BACI
+MKKVIQNGTIVTATDTYKADILVEDGRIAAIGKNFDLSGEDTEVVNAEGKYVFPGGVDPH
+THLEMPFGGTVSKDDFETGTIAAAFGGTTTVIDFCLTNKGEPLQNAIDTWHAKSREKAVI
+DYSFHLMIGEINEEVMEQLPEVIDREGITSFKVFMAYKNVFQADDETLFRTLVAAKELGA
+LVMVHAENGDVIEFLTEKALKEGNTDPIYHALTRPPELEGEATGRAAKLTGLADSQLYVV
+HVSCSEAVKQIASARSKGLNVWGETCPQYLVLDQSYLERPNFEGAKYVWSPPLREKWNQD
+VLWNALKSGQLQTLGSDQCSFDFNGQKDLGKGDFTKIPNGGPIIEDRVSILFSEGVEKGR
+ISLNQFVDIMSTRSAKLFGLYPKKGTIAVGADADLVIFDPNAERVISAETHHMAADYNPF
+EGMKVKGEPVSVLSRGEYVVKDKQFVGKLGKGKYVKRAKYGYQLEESETLQSTKS
+>tr|A6CP09|A6CP09_9BACI
+MIQLTVRDERILNILQQVKDPEIDSVSIVELGMVEQAEFQHGKAVVKLLPTFMGCPALEI
+IKGNVEKTLLADPGISETDVDFLFSPPWTSDRVSEIGREKLKEFGIAPPPEKLEEDGGWK
+VNCPYCDSPYTTMDNIFGPTACRSILYCKQCKNPFEAMKPISTIM
+>tr|A6CHK8|A6CHK8_9BACI
+MEKERIGGLFVRKLYSAAFLLAIVVLLMAGCGNKKIEMIEKSSVSLSEDGKQLDVHITLD
+DVNMEPETSYQVRLYVTNSELVKALGSDLFVFEGEYISHKEGEGSKVTEINESFSLTKSL
+TEAELQKIVEDKEVNALEIDVLNNERVFATEGIHTVE
+>tr|A6CHS2|A6CHS2_9BACI
+MKQGTVKWFNAEKGFGFIEVEGENDVFVHFSAITGEGFKSLDEGQRVEFEVVEGNRGPQA
+ANVVKL
+>tr|A6CHW9|A6CHW9_9BACI
+MNKEQAKGHAKKGAHEAKPWVKGLGRMGYLAKGSVYVLIGVLAFMAAIGAGGKTTGTDGA
+LASIASQPFGEILLWVLAVGLAGYVLWKIVEAITDPQNKGHDAKGILVRIGFLFSAIVYA
+GLAAKAVQIATNAGSSGGGSSRQTITAQVLAQPFGQWMVGIAGAAVIGYGIYEIYKGYSE
+KFADSFQRSKMDKKEYQLGKKTGKAGLMARGVVFCITGYFLIQTAITTNPNKAKGLDAAL
+SEIAQQPFGQWMLGFVAIGLAAYGVFQILKGKNKNMAFY
+>tr|A6CQH9|A6CQH9_9BACI
+MKEKVDFRSRCATPGDYTPEAEINQSTISEEVVYKATIF
+>tr|A6CUC8|A6CUC8_9BACI
+MNMDKLQESMYQLIVETSTNLPKDVRRAIKMAKARESAGTRSAMSLATISNNIKMADDNV
+SPICQDTGLPTFKIKTPVGVNQLEIKEAIYEAMKQATKDGKLRPNSVDSLTGANSGDNLG
+LGTPVIKFEQWDKDYIDARLILKGGGCENKNIQYSLPCELEGLGRAGRDLDGIRKCIMHS
+VYQAQGQGCSAGFIGVGIGGDRSSGYDLAKEQLFRSVEDVNSNEDLRKLEEYVMENANEL
+GIGTMGFGGETTLLGCKVGVMNRIPASFFVSVAYNCWAFRRLGVKLDADTGSV
+>tr|A6CN52|A6CN52_9BACI
+MSNLARKYREQTIQQPQRQQETIPVREERPLITPGEKILAAIIGVVFCFMAVNIISTQSS
+IYKANKEIQIVQSQIEKQEKANNDLKLQVSELSTYERILEKAKELGLDLKEKNVKVVQNQ
+>tr|A6CLG8|A6CLG8_9BACI
+MDEKQIEDLFDFYGYSDLYKRFQYPLFVTGILDETSTEELEDFFESFSFHDHHPLFDEFR
+YWLQYFLITRKSFS
+>tr|A6CII6|A6CII6_9BACI
+MIVKYSCDLVQDLYPLYEEGDLSPSVKEKVEEHLSECENCRTVYTSGEGFASSGLSDMEP
+AVPQSLDERIRLTMKLRRMKFFLVIISSILLLILANHYQNQRQGVVSAYHQVHRGAEDLV
+YLVQSAPEASVEELNFLKEVAFAGLNEGVEELTQSLNWLEEQKRKDFNMYLEQQSLYTTL
+DNLNLRKSDGRWDNTDQQVFALLIQLAEEYWQVVEEDYDKFNHGYSSYFETVDIEGLSKP
+LEEINKLTYTYNRFHQLPDEVKQLNETELKQRIGSIFNLDSTNIHLEKNDNYSYRFTSKN
+KNVSGEVDAFSGYPLRIDDSGSVKLKGKLLDVDDAKEKATSMINRIYGKDKNFNVEYLGV
+NVNISSNNDAKFYSFGFMPMFDSLPVYAFSDGSFTMHFDARSGEFKMMRSVKEIPLKPDT
+KVDITEKISPEQGLNTLTEKVQIEDGKLAEKRQYEYIDTFVIYSSTSGGMVPVHAYGLSD
+KDHTWRYINTVSGKEELLYNEH
+>tr|A6CSB2|A6CSB2_9BACI
+MTKERSSGKGVLFLFLKALLTAYERCLPGLFFYKTCIQLD
+>tr|A6CMD1|A6CMD1_9BACI
+MKLERVLPFARQLLSSAVNPGDIAIDATLGNGHDTLFLAQLVGENGRVYGFDIQEEALFN
+TRERLQTHNLQERVTLFKQGHETVGNVVPPVHYGKVTGAIFNLGYLPGGDKTIVTRPDTT
+LKAIEALLDMMAPEGIIVLVIYHGHREGAVERDYILRYVERLDQNYVHVLRYQFMNGINN
+PPFIVALEKR
+>tr|A6CU29|A6CU29_9BACI
+MDILLVDGYNIIGAWPELRELKNSDLAAARDRLVECMAEYQGYTGYRVIVVFDAQYVNGI
+ERKYKNYKVDVFYTRENETADERIEKLAIELNNIRTQIYVATSDFTEQWAIFGQGALRKS
+ARELFNEMQTIQKKIERNVKKTAERKPSSKINLTEEVAEIFEKWRRGQQ
+>tr|A6CRE2|A6CRE2_9BACI
+MFKNEKGFGTSEALIAVSSVFMVMGLFLPMVFSVMSALEKKENTLTAARVLYEHLEEEMF
+AGKAESYRYQRMGKEYQVNISEEKTCITYEVYRGESENLCLKEGTGE
+>tr|A6CTJ5|A6CTJ5_9BACI
+MANSNNRLDERKDKNDFPKDLIGKSPNIKGNYKKQGWAIKILEKIENPDIEDEGEGVITA
+KAILLSNEETYYPAFLTISVKEEGKIMGVYFITEDSDSFSLIPFELTEELLDHSKLLPFQ
+YRTIEKVKGDHQQKNWPDYS
+>tr|A6CIA6|A6CIA6_9BACI
+MFVFIEKAILAMSALRILSGSIEIGAALLMLKVNDMEKAFAINTLLAFVGPTIFFSTTAI
+GLMGLSGKISLMKAICLISGVLLIGLSLKMK
+>tr|A6CPG5|A6CPG5_9BACI
+MKTLTNKNDNRERKNKYPRNKAFNEEFAKDAAIRSEITQQDIKNKLK
+>tr|A6CS99|A6CS99_9BACI
+MSRKYKEKNLLIATKITKRAVFIDAFIY
+>tr|A6CJB6|A6CJB6_9BACI
+MKLFHIYTNALRLPKKKARIYLNKTNLTETLLYLFSLVIFINVPGFTELFLKEGREMDGL
+FLLQYLVLGPFFSAFIVLAGISVMTIILVGLARMTQRNLKYQYLWKMAAFSLPLPILAAL
+LGNLILGKDFLTSLVFLIVFFIIHIKMIMDFPKRKHN
+>tr|A6CL36|A6CL36_9BACI
+MQDERGERMKKSLAVLILAMVTLAGCGPGIDSGGGSIFKESVVDFINNNYTFTDTVASAE
+DNSNYSEIYIAENQSIDEVAQAIQNHQEPVRVSEKKDNKQVLVYDQMFVIMTADEQNGAN
+TMIEVANDQFVQNNYSPDFFDGLLLLWVLDEVLDVDDWGKKQRLKCSNNPALCYGGYSSS
+GGAFKGYNKSPIRGGSSSVRGGGPGAGK
+>tr|A6CQW9|A6CQW9_9BACI
+MNVQVLKTMIELQALQGFSSNSAQAGSSTSGSSMFQQMLNETLSSQLQEQSYQAKLGSVS
+QMLPLLNTNNYLMNKSAVSYITKTSPIPAAEGPSSSIDHIISRAAEKYNLPKKLINAVIR
+QESNFNPDAVSHAGASGLMQLMPATARGLGVTDVFDPEQNVFAGTKYLRQMMDKYNGNLE
+LALAAYNAGPGNVDKYNGIPPFKETMQYVQKVSSSYFA
+>tr|A6CIW4|A6CIW4_9BACI
+MLLHKVEEPFDSADYITELKLDGIRLLYTKDLLGKVRLYTRHNNEVTNRFPELVSWGTSI
+QPGTVLDGELIVTDTKGKPDFERTMARFMSGKDKSPVSYVAFDVLQWAGSRTTQLPLLDR
+KELLADIIAEDDATVSKVKFVEGSGPAYYEAVCQQALEGIVLKRKESLYEVGKRSHSWLK
+VINYQFADVLVTGFRKSKFGWLLADEAGNPQGMMELGVPVKERAKVCGSKIKEEREDYVY
+IEPIKCRVKYRNITSGGLLRLPSFVSWL
+>tr|A6CJK9|A6CJK9_9BACI
+MEKNNKPTTPDFDSLDDRVIASAPSNPSLVIKTNLDPDSVEEENPYFQKDQQRDPKKFKD
+YFKE
+>tr|A6CTL6|A6CTL6_9BACI
+MSAREQKPSSDKKLEQNKQEKPLSFIGMVIATGFSGGILWSGIAYICYMFSFTKLEPNII
+LEPWAVGNWKETWLGILISIVGYGLISIGVALVYYALLRKLKSMWVGVGYGIALMLGVFV
+ILNPLFPSMKGLTETDYNTLITLACIYILYGVFIGYSISYEENELRHQHEKEEGVSQ
+>tr|A6CTP6|A6CTP6_9BACI
+MEEQEGRGRGGENIGEDPVMKV
+>tr|A6CTA3|A6CTA3_9BACI
+MKYFLLIIFMLVNIIFLSSCSIQNERTAAGLNIEKGILFYSDENNIQEEDSYYEALIELK
+HSYPGQFDNYKIIAKNQEYDSAIASLNDTYPALLVIKDNKVVCKVVGIAKKDDILTPVSN
+VLEEWN
+>tr|A6CRJ8|A6CRJ8_9BACI
+MRTENHFVVLIFFSLLGLIATTIFSGTLLSRVNEILYKIKESEQ
+>tr|A6CK29|A6CK29_9BACI
+MNSKWKLAMLAGMISIGLAACGDNGENSKEAETENTNQEQTEQTAELEEMQKKLEKQHVE
+AEKTVAVVNDEDIKGEAYNTLLTQTQLQYQQMGQDPTSEELATQLKESTIDSLIGQTLLL
+QEADKKGYEATDEEIQKEIDTLKANYEDEAQFEEILKTNGLTIDQLKTEVANNIKYTAFV
+EKELTIEEVKDEDVKAYYDQYAEQSSGSEESESQIPEYEEVKDQIKQELERQKTQEVLAA
+KVQELKENASIEIKI
+>tr|A6CNY3|A6CNY3_9BACI
+MKEVKVSVRNLVEYVYKSGSIDQRFQTSSSMTEGTRLHKKIQKAYKEGDLAEEFLSTDLH
+FEDLAFTVEGRCDGLIFEGEDVIIEEIKSTRSNLAELKEDTYPVHWAQGKFYAYIYAKDH
+HLERISVRLTYISVDTEETIHYMQHFTYKQLEEFAAATVKDYYPFAKLISDHKEERNQTA
+ADLAFPFRNFRKGQRDLAGAVYKTISEKKILFANAPTGTGKTISTIFPSMKAMGEGIIDK
+LYYLTAKTITRTTAEEAFELLEEKGLTAKTLTITAKDKACLKEETICQSDACQFAEGYYD
+RINGAILDILENEARLTRPVIEKYSRKHRVCPFEFSIDLSYIADAVICDYNYLFDPRVSL
+KRLSDTEKKKTVLLTDEAHNLVDRGRAMFSAELDKSSFLEIKRSFKEKNKELYASANEIN
+RFFINVRKQSEETGTTVYKDLFSELVDLLQRFLPAAEAELMGQSEESILLETYFASNNFV
+KIAALYNENFVTYVDAGKRELTVRLYCLDPSDLLSHTSRGFSSAIFFSATLQPFHYYFEL
+LGGGKDDYRFKIPSPFPRENWEIFIKPLSTRYKDRDKSIAPLVSLPLELLKQRPGNYLYF
+FPSYRYMNEIYEAFMETSPDAEVILQSAHMTEEERESFLAFFQPNRESSLIGFAVLGGIF
+SEGVDLKGDRLNGVIVAGVGLPQMGQDRDIIKDHFNALGKPGYDYSYIFPGMNKVLQAGG
+RLIRTEEDKGVIVLVDDRYLTPKYQEMLPEEWRDYTVI
+>tr|A6CPB9|A6CPB9_9BACI
+MENSLVSIQILPKTRNGEDVIPYVDAAIAVIEDSGVKYEVHPLETTMEGNLTDLMRVIEK
+MNEKMIEMGSRNVISQVKILYQPSGISMGQLTEKYR
+>tr|A6CPY3|A6CPY3_9BACI
+GLHFMEEDRMMYSARFARGFISREKTK
+>tr|A6CQ96|A6CQ96_9BACI
+MQRNFINRLPSQPITSQIPTKGIQKKSLNTKSFAETLKETVNEKVGSITISKHADSRLKQ
+RGIEIPAETWREVESKVAQAKLKGVKESLVLLDNAALIVSAKNSTVITAMDRREAGSQIF
+TNIDGTIIIDK
+>tr|A6CRB2|A6CRB2_9BACI
+MMFYLLFTVIAIQRTVELFIARRNEKWMKSKGAKEYGQKHYKLMVTIHLLFFVSLLVEKI
+FAQKPLNEYWIGLFIIFLITQAGRVWVITSLGRYWNTKIIVLPEADVIVKGPYKYIKHPN
+YFIVTVELIVIPLMFNAYWTLFIFALLNQFILSIRIPIEEKALAEATDYQTVHRGKKRFF
+PTNGKFD
+>tr|A6CLU3|A6CLU3_9BACI
+MAKKYSSKINKIRTFALSLVFIGFIIMYGGIFFREHPIVMTIFMLFGLLAIIGSTVVYFW
+IGMLSTKAVQVVCPNCGKPTKVLGRVDMCMYCNEPLTLDRNLEGKEFNEDYNKKGETRSK
+>tr|A6CJ19|A6CJ19_9BACI
+MKPLKQFILSTAIIMSVGAVFILNGLGEQVEEVSSTISSSSAEEAADSEESPLLVPADLG
+EMFKNNDAPSSKQAEVLPAELDYFFDAKFEDNGYIVEIYREFEIYRNANGNVIKEVPTAN
+FEFIRYKE
+>tr|A6CIP8|A6CIP8_9BACI
+MGMEEGGAEIWRQQTKTLEGSLSLRSEFEIEMDFQHVWEELYGIPLQTFKGPNVWRYMAA
+FLLSLNGVEPTGDEIRSFVFEEKKLGKKGGDHFLCEFLPLPRRSNTDIEEYNDIWQSNRA
+YLRSVGDNRFTLIKETLLENSNVKLLLSYDRKYSKMFLEHFQTELIKEWNDRRNKLFAIY
+AVNLSSDRKVYFLVTPFFGQGQASYEGLEDAAKIVKELSIL
+>tr|A6CLI4|A6CLI4_9BACI
+MKMHEQAEFFGGYLNVFDPMFSAYNLYVAKRPLPTAPLIRAHIATIRTIFHRQQCLRKSV
+KKQTMISLHGLLIKLKWFK
+>tr|A6CSH5|A6CSH5_9BACI
+MKTPVSVNEKKDFIRWFLNRYQLKRRECVWILNYLMSHDQLMKKVHFVEEAQYCPRGLIM
+STHCVEEVPFRFYKENIMTTDAEKSFHDIRLNKDEDIYIQLNFSKSNASYQYAAVLEENP
+FMPKYLLINEKDRIVAEQFLKSSIETYQRQKLLDAIDEALDRNDQEAFRKLTSQLKNMPG
+>tr|A6CTK9|A6CTK9_9BACI
+MLRLDLQFFASKKGVGSTKNGRDSISKRLGAKRADGQEVTGGSILYRQRGTKIYPGVNVG
+RGGDDTLFAKVDGIVRFERMGRDKKKVSVYPAAKEA
+>tr|A6CKF1|A6CKF1_9BACI
+MKTASQFQDCQPGEKEDNLYWESGLDSQYTYHLFLSTIERMASINYFVILLKWKKIDCFS
+KGELRMINFNDKVNFIWTIAEILRGPYKPEDYGKVILPMAVLRRFDCVLEDTKEEVLEKH
+EQFENLPEESRDEILNRVAQQKFSNISKYDFSKLLIDSDNIADNLRDYINGFSKTARDII
+DYFNFDTKIEKMERNDLLYLVVKRFSEIDLHPEVVSNVEMGYIFEELIRRFSEDAEAGDH
+YTPREVVRLMVNLLFLEDEDILTKQGITQTLYDSCAGTGGMGSVAQEYLMELNPTADLEF
+FAQEINEESYAICKADILIKGEEARNIRFGNTLSNDAFPEMKFDYLITNPPYGVEWKPAE
+KAVKAEYENLGYNGRFGAGLPRISDGQLLFLQHLVSKMKPVTEDNPKGSRIAIIMNGSPL
+FTGDAGSGESEIRRYLIENDLVEGIVGMPTDLFYNTGISTYIWILTNHKSSVRKGKIQLV
+NAVDYYQKMKKSMGSKRKELSDKHLQEIVRLYGDFVDNEKVKIFDNEEFGYQKITVERPL
+RLNFKIDDARIQELHNQTTFVNLAKSKKKGEAGIQETEQGREQQEKIEEALRSIKNDKVY
+KNRAEFTNILKKLFKQLDLTVNATLLKATLNALSQKDETADICIDSKGNPEPDTDLRDTE
+NVPLKESINEYFKREVKPHVPNAWIDDARTKIGYEIPFTRHFYEYTALRSSEEIKEEIKE
+LEKDILRKLKKVMM
+>tr|A6CJL9|A6CJL9_9BACI
+MKHLITSHPYYVVTRKIEDHIQSSEETEHELRMYTERIDCSTKTFLMKNVFDVSYKSLNP
+EQGFLYLHTNQGVHSFHVKQDPRPFIQAYKELNSK
+>tr|A6CS12|A6CS12_9BACI
+MNIEFDLIQDKIEFFEARDLQTLERKINEQVGHNKSILLSVHSVSHNVTIDDKGHPLYTA
+VVHFKVKSMN
+>tr|A6CTR8|A6CTR8_9BACI
+MPYGYGYGCGGYGYGGGYGYGGGFALIVVLFILLIIVGAAFVY
+>tr|A6CPN7|A6CPN7_9BACI
+MRIKKRFHHIRTFLIVSEVDVPNRMEVWIQFRVKVILDEEVEKRLAAH
+>tr|A6CKE2|A6CKE2_9BACI
+MTGWIKFNRSTIESPIWSSPFTLRLLLLLRCRAVQKEFMYVEEVKVHRGQYLRSYSRLAD
+DLQYVENGNLKIPAKSTIKLSVDRLKKYGLISTEETKMGTLFTILQSEDDFSLPENGETA
+DESQKDAANTTAVQKEECKKGREEKEKESGRVRNELPFKPDAQSKIEKVTEKFLRLRNSG
+FYISPKEQSAIEKICEKEIAVETLLSWMETIDSDYRQRNDNDTIKSFTYYEKALRRKIRN
+SSLKPESSSARRVKETNDFLSKLEKWKREGENRLANGSKRIKPSFKPLWNR
+>tr|A6CHB8|A6CHB8_9BACI
+MSFFNKVFASVGIGAASVDTKLEKSRYTAGERVSGIVEVKGGNVEQEVDSIYLMLYTTYI
+RESDDKKYTDSTCIEKVQISEPFVIKENEVKQFPVSFELPFETPVTVGNTRVWVATGLDI
+KNAVDPKDKNFIEIAPNELMRAVFSSIERLGFRLRKADCEQAPRHLRGSNPFVQEFEFIP
+STGAYKRKLDELEVVFLNQSANSVDILFEVDRRARGFGGFLAEALEMDESMVKMTISAAD
+IPSLDEKIVKLLDQYS
+>tr|A6CRL3|A6CRL3_9BACI
+MHCWKTINLEKQFGHSRVMLLSGIVMMMVFTIIYVPINLILSEDLYDTHFYLFLAGMMMI
+YPLHKLLHIVPILSYITKMKYKVKRYLFFFPIVSFRVGEPISKNRFILALVFPFFSINTA
+LLAGCILMPHYSHYFTILTAYHTGICTIDFLYAKCLLYSPRDAMIEENEEGYEILNLQRG
+SI
+>tr|A6CHQ3|A6CHQ3_9BACI
+MNSNNSAHYKNDDLESLLADPFSSGTAQSNEVGHAPVALADRLTPEHRQKAQEIAKQIDM
+HNSQAILEYGTAAQAQMSNFSHSMLDHVQKKDVGPIGDVLNDLMKRLKEMNPEELSNEKK
+GFVKRFFGKLSSSISEVLSKYQKIGSQVDRISVKLEHSKNVLIDDNRFLDELYEKNKTYF
+QSLNIYIAAAELKHEELSSVTIPALRRKAESTQDDMAYQEVNDALQFLDRLEKRIHDLKI
+SRQMTIQTAPQIRLIQNTNGALAEKIQSSILTSIPLWKNQIAIALTLFHQKKAVQAQKQV
+SDTTNELLLKNSQMLKTNSIEAAKENERAIIDMETLKKTQENLISTIEETLRIQQEGRSK
+RQQAEKELLSMENELKNKLLHLK
+>tr|A6CPN3|A6CPN3_9BACI
+MRKEQRVKKNIEFQEVFKKGTSIANRQFVVYKLHKEDQQYFRIGLSVSKKIGNAVVRNQI
+KRYIRQVFLELKDEVKNNYDYVIIARKPAADMDFHEIKKSMIHVLKKSKALRVSQQTQTD
+KRR
+>tr|A6CR82|A6CR82_9BACI
+MRQKQKDLIMQISDRELTFHLYATQFGLLTVAIILGIFLYDDMSSFFNQFVWNNQILFYG
+VTSGIVIVVVDLLLMRLLPKKYYDDGGINQRIFRNRSVIHIAFLAAVIAICEEILFRGVL
+QYHFGFIVGTVIFAVVHIRYWGNWFLILNILILSVWIGLVYEWTANLGVTMMMHFIIDFL
+LGLVIKYQAENQEKRRDVL
+>tr|A6CU21|A6CU21_9BACI
+MEDAFEVFPVIETERLRLREITMEDSYKIYENFSDDRVTEYYDLESYTDISQAEALIEKL
+SFGFKNQKQIRWAITLKPDNELIGSCGFHEIEAEHYKVETGYELNPEYWGKGIMHEALLA
+IFTFAFEEMGINRIEAFYDPENDRSRNALEKCGFIYEGTQRQRFFEKGKFVDASLSSLLK
+EDFQRITE
+>tr|A6CMH0|A6CMH0_9BACI
+MQSLLSFFLACIIIFDLLWPLSFLFVTIIEKGGFVFTK
+>tr|A6CIU8|A6CIU8_9BACI
+MHFNMVLPGLEGVKISKAEEVGEAFHLHIELAKRKHQCPSCRNWTCRVHDYRLQKIQHLK
+LFERTSYLYYRKRRYSCPCGKRFAEDNMFVQRYQRHTIEWNQALGLRVIQGKNFKDTARQ
+FRTSQSTVIRQFDQISVSRLKEVEKLPSVIAIDEYIKRNSCWLRSRSKHSYPNV
+>tr|A6CKE8|A6CKE8_9BACI
+MKELFKMDERKDTEIKRSSKAENILLQINCKTKLGDLRKIAKDIKKDHYLAMELWSTEEF
+LPRLLAILIMDKKLLSQDVLNRLDKDMQTHTFDERNNLMDWLMANQLTKDKKKIALMESW
+ENSHSALQRRAFWYYQARLRWTGQTPPDNTPDLLSALEANITQEEPEVQWAMNFTAGWIG
+VYDEKNRERCIQLGEKTGLYKDEKVSKGCTPNYLPEFITIEVNKRQKN
+>tr|A6CNW1|A6CNW1_9BACI
+MEVRILDIIYWAVITILIAASFIGLVYPIIPSVLVLMGAFLLYGVFFSFETFNWLFWSIQ
+GLFVVLLFGADYAANLIGIKKYGGTKAGIWGSTIGLLVGPFVIPLVGIIAGPFLGAVIGE
+MLVNRTGFKQALKVGAGSLVGFISSVFTKGIIQIIMVIYFVALVL
+>tr|A6CRV6|A6CRV6_9BACI
+MFFFNKEKRTLDKEEEVYSDFSNVETMRNFLVPEQTPEGPYGAPRGKYTPVENKSTPWRE
+GQRYYSAFNYEFKSLHQDIPRQDPGSHPVHADLEQNEEPPYTENK
+>tr|A6CMS5|A6CMS5_9BACI
+MEKSVVGAYDSTIEVMDVINSLTKDGYTEEDILVISNRDDIDTLDNTSGLHVEHTDVNHG
+ESRSLWEKIKDSFMVKEHEGSNNDLSQYEIPLNQVGTYQSKLEDGKILVAVTAKDKYVLS
+HGGEVVDTGANIKPVSESEEDDEMREVNAVRNQTSSEDYKSSPTAGKSVGNHGAEPEDLR
+SGNVDTTEDTIGGNVGNTLGGKLGTPESERYSAGQEGMAGNPVEAEPSNQKDKKKDRF
+>tr|A6CNB7|A6CNB7_9BACI
+MKRISVILVSLLAIFSLVGCGNNETEEITKEQAEEIAMEEFEKDLAQFNEKSNEDIEMDN
+VELLSNDTHLSSSSKAWEVTFNLKDGLTNEGEATSSIAQYSVTPEGEIKSKSNSFE
+>tr|A6CL60|A6CL60_9BACI
+MIQWKEEAIISANIEKVWNLFLEENMPRIMPKVIENKPVHLTEEVTGSKYQQKYQEGKRI
+ETYIVETLGYENTDTRKYKRIGFVLAKAFEIDLSFTFEKVDERHTRFIYEGHNKGKNFVG
+RAMLKLGGEKNNKKVVEDFLELVKKEAVKQETAE
+>tr|A6CR73|A6CR73_9BACI
+MKKTLSIIGALSLSMFLGACAEDEEALDNQAETEDEEEFTDERADGIKFDYFEIDVEYPD
+MLEAAYEVEYEKEDDGLEASLDDNINGEELDGAQAFETLYPIFTEQLTFDETTDQEEIVS
+QLVKGFNLREDFEFMEVDIDMSNGESIEFEAENN
+>tr|A6CNE5|A6CNE5_9BACI
+MSTGSTNDGQLVIITGMSGAGKTVAIQSFEDLGFFCVDNLPPTLLPKFLELMKDSGTKMN
+KVALGMDLRGREFFDHLIQALDDMAETSWVTPQILYLDADDSALVRRYKETRRSHPLAPS
+GLPMEGIKQERLLLEELKGRAQTINTSAMKPRELREKILEEFSVNKRSIFTVNVISFGFK
+HGIPIDADLVFDVRFLPNPHYIDHMRPRTGLEEDVSKYVLKWSETQKFLEKVTDLLTFML
+PHYKREGKSQLVIAIGCTGGQHRSVALSEYIGHYFENDYSTKITHRDINKKREQLT
+>tr|A6CLJ6|A6CLJ6_9BACI
+MMRLLLNISAYILVIVVNMLAVTLPLNGQSTGEISNRLDVFFTPAGYVFSIWSLIYLLLG
+IWVIRQLTKKHRFSDYYRIISPYFIVTCLLNSTWIFMWHYNFFALSVVMMTGLLLTLIIT
+YRKAKRLGRGFFDLLPFSVYLGWISVATIANISYYLTYIEWNGLGTGCSVFLLIVSLSLA
+VYFRIKQHDWVYALVFVWAIFGIGVNNQGEHPILSALSFSVAAVILLTVIFYRPVKHN
+>tr|A6CLW1|A6CLW1_9BACI
+MTYSDDKYYQITDFIEKQMHNHNGVGLSVAIVKDSDIVYSKGFGHSQIHPVNKPIDADTL
+MSIQSVSKNFVAVSIMQLVEKNMISLDDSVVDYLPYFRTKDKQQSDTITIRHVLSHTAGF
+PSDLGIANMTAPNIREIFSDTPTEFQEALDYYRLTEEELYSIKNREDITKWFKKVELEYP
+VGKGWNYCTDAYVILADLFEKVTGSSWEKHLKEDILIPLNMNRTTGDSALVESEENSARY
+YLGEEKVETPFPKNQISAPIGYLYSTANDLGNYLLFHLNKDATILRSDLIEEMRKPVQLV
+NEEWRFGSEVRSYGLAWFTDTYKGQGVVEHGGGQMAVRSLISMVPQHKLGIVVLLNFDGT
+IHHDICDKIIDVFTGS
+>tr|A6CN91|A6CN91_9BACI
+MELIPVLSYLFQGGKCSRCRERISPLYPLMEAATAVLFVISYSIIGLEWELLVALTLVSL
+FMIILVSDIKYMIIPDKVLLFFSGLFLLERILIPLGSRWDSLAGAALGFGLLLLIAVISK
+GGMGGGDIKLYALIGFVLGVKPMLLSFFLATLFGAVIGIIGLAAGFFERKKPIPFGPFIA
+VGTLISYFYYENIINWYLSLLLGF
+>tr|A6CRP5|A6CRP5_9BACI
+MKTNDVILQTITTVVSFIIILFSIQLFFAGHYTPGGGFIGGLMTSGALVLLLLAYDIKTV
+STILPIDYKMLTAIGLLLAVGTGAGALLFDVPFLTHAYDYFYLPLLGKTSLHTAVIFDTG
+VYFVVIGITMTIIQTIGVSE
+>tr|A6CS05|A6CS05_9BACI
+MEEHSENGKKIPFFAECPLFLVEKYSIMKKMHVEF
+>tr|A6CSH9|A6CSH9_9BACI
+MQNPMFHKIMEYVYVLAGSALVAIAFNVFLLPNEVASGGVSGISTITKTVFDWKPAFVQW
+AFNIPLFIAGLIFLGFQFGFKTALGTIFLPFVVYLTEDWEAWTLDPLLGALFGGIGVGLG
+LGIVFRGKASTGGTDLAAQIINKYSGLSLGTCVAIIDGMIVLSAAIVFDIERGLYALIGL
+YVTSKTIDLVQVGFGRSKMALIITNRQEEIREGVLNKIDRGVTKLSAYGGYTDDERPILM
+CVVDQREFTRLKQLVKSIDPTAFVITMDASEVLGEGFKRV
+>tr|A6CJB7|A6CJB7_9BACI
+MKLLGISGALAGSKTAIAVKETLNIAKQQDETLETELLDLKDYDVEMVKGYPLEQYNEDT
+QNVVQKILSADMLVIGTPIYQASISGVLKNLFDHIPQEAFDGKVVGMVATAGSEKHYLVS
+EYHLKPIIAFLKGTLPARNVFVHNSCFDEKNKITNEDVLTRMEKMSQEMIKLQKAL
+>tr|A6CK74|A6CK74_9BACI
+MEHVKAFFIKFTACFALLAIILGGIYGITLGDVFVISLVLSIIGYAAGDLFMLRRASNTT
+ASLADFGLAFVLIWAMLANMTPVDDVLIPSLIAAAGVAVFEYFYHKYLYRNLFHQRDNTK
+SAQGNLQYQTEAAEEMTPVKPDIRNDEGDK
+>tr|A6CKV8|A6CKV8_9BACI
+MILKRIINEQENIYKKSVLQTTQILLWILLFCTFALMGNLFLEVNSYGIDIGINSTLQTL
+NLLTEPLFSPLYWGWKQESSFGYLILNGIIFYVFLSFAFWMKSMVQWAGVVFLLMFFIMA
+GAWYYVYILSYVAF
+>tr|A6CN94|A6CN94_9BACI
+MNLQFEKREWLLMAGSIILGVCILAGVYFLLYNPVQKEIDVRAQELETEEKLISILEEKT
+SNIEQETFQNSISLQKKVPVKPMTEKLLLDLEKAETISDSFISSIQFSEGDVILPLTSQS
+AEEDIENLSSDDSEDSGEVNGETQEILPQGLKKLNAILSVESPSYFEMEKFLEVLEELDR
+ITEIEQIAFEGPEESIIQGDSYDKVSYKLLVAAFYLPDLMQLIEEMPSLNSPPPANKVNP
+FSSYSDLDENEDE
+>tr|A6CPI5|A6CPI5_9BACI
+MEHGKVKWFNSEKGFGFIEREGGDDVFVHFSAIQGEGYKSLDEGQEVTFDIEEGQRGPQA
+TNVQKA
+>tr|A6CQF6|A6CQF6_9BACI
+MSTFTTRESKNPKILWYFRTVNGTSGNRLGFLKYTTYEEECMLMKILALLGSTRKNGNSE
+YLANKILEGTDHTIVTLADKHIEPITDMRHTEEGFSPVDDDYEDLVRLMLEHDVLLFATP
+LYWYGMSGPMKNFFDRWSQYLRDERFNLKEELTKKKAYVVITGGSSANIKGLPLVQQFNY
+IFEFVNMEFTDYMIGAGVRPGEIMNDLPSLRKAERWNKQFRDANPL
+>tr|A6CRR4|A6CRR4_9BACI
+MDERYAFVFAFIESSGWLAPLAFILFHILRQFIFLPVVLVCIVGGILFGSVFGTIYSLIG
+LTLLSAGSFFILKMLPNLNQRLLDLKQKWFGQGAVLTVGQIAVLRLVPFVHYQLLNVCLM
+ERKPALGDYLKSSFLANLPLAFFYTVFGEFISEFTPGIILLILLGLCILFYTLREKVRII
+KWREFFHQPS
+>tr|A6CUG5|A6CUG5_9BACI
+MNETILIMIVGMAVVTYIPRLVPLIMFQGKELPPFLQGVLKNVPFAVLGALIFPKILLIQ
+DGDIWFGAVGATAAFLLAYLGANVIVVVLGAIAVLSVYSLLFM
+>tr|A6CRM6|A6CRM6_9BACI
+MNNFFLMLSQSYLNKLKAKSFIITTLIVVAGIFLLVNLQDIIEGFSGDEQDVVAVVDETE
+ALYEPFAAQVGAMNEDLELEQSSENEESLKASIEEGTYDGYLILSLDEDGLPQGLYKSES
+ISESAIAGDLQNALQGIKSAMAAQNLELSQQELASLNSPVSFEREALEEGAKSEEELNQA
+RGIVYILLFFIYITVIVYANMIAMEVATEKSSRVMEILISSVSPVKQMFAKILGIGLVGL
+TQLTLLLAVGYFALTSKADSEIGGMMEFFGFSDVSVSIIIYAIIFFLLGYFLYATLAALL
+GSLVSRIEDVQQMIMPMTFLVMIGFFIAMFGLSTPEAGFITAASYIPFFTPMVMFLRVGM
+LNIPAWEPILGIAVLFLTILFLGWFGAKVYRGGVLMYGKSNSFKDIKKAIELTKKN
+>tr|A6CSV3|A6CSV3_9BACI
+MLAMFFWAFVIGGVICVIGQLLFDIAKLTPAHTLSLLVVIGAILAGFGLYEPLIDFAGAG
+ATIPITSFGNALVQGAMQEAEQHGLVGVLTGMFEVTSSGISAAIIFGFIGALIFKPKG
+>tr|A6CNG5|A6CNG5_9BACI
+MDLLSIKDPSFLKSLSQQELESLSEDIRKFLIETLSKTGGHIGPNLGVVELTIALHKCFD
+SPKDKIIWDVGHQSYVHKILTGRAGQFGTLRQYKGLCGFPKMVESEHDVWETGHSSTSLS
+AAMGMAIARDVKKEDSFIVPVIGDGALTGGMALEALNHIGHEQKDMIVVLNDNEMSIAPN
+VGALHNVLGRLRTAGKYHWVKDELEYILKKIPAVGGKLAVTAERVKDSLKYLFVSGMFFE
+EMGFTYLGPIDGHDYNDLLENIQYAKKTEGPVILHVITKKGKGFHPAESDKKGTWHGTGP
+YKMDSGDLIKPVNAPPSWSGLVSETVRKLAREDERIVAITPAMPVGSKLEGFASEFPDRM
+FDVGIAEQHAATVSAGLATQGMKPFLAIYSTFLQRAYDQVLHDICRQNLNVFIGIDRAGL
+VGADGETHQGVFDIAFMRHLPNVVLMMPKDENEGQHLVNTAIKYDDGPIALRFPRGNGLG
+VKMDKELKTIPIGEWEVLKEGRDTAILTFGTTIPMALEAAEQLEKQGVSVKVVNARFIKP
+LDEKMLSGIMRDNMPILTIEEAVLQGGFGSAVLEFAHEHGFNEVTIERIGIPDKFIEHGS
+VKELLKEIGMTTENVVDRIQTMIPKKQKRA
+>tr|A6CKT7|A6CKT7_9BACI
+MSNNDTTNKFNPMFWMKNPGNTPKGDHRDFVNPDLIPWTDWLMPGTRFKLLMCDLVSGNF
+TLLLQVDPGVKAAVHWHLHNTEAFILEGGFYYEDSDDKGYKGYYTCESAGAIHEPFTSPE
+GVTMFAVSHGPIGGYDDDGNLAVMADARLHYYMARDNNAVEYTTVVDYTHSTTSLHK
+>tr|A6CN00|A6CN00_9BACI
+MKYVKTESLRELKNGPIREISVSIDPLSQKMTFDILLKGSILGIISGVILGIILKITEIL
+TKLKVYTLLLNIDFIPVAGDINWPELMEFLFHLIVSVFLGILFYYLASRLNFDNKQRFFL
+AAGLTFPALLLYFPLSILAEKDVPALNDWAALFYWSTGHLLYAVCLTLLFPILKKWKS
+>tr|A6CH82|A6CH82_9BACI
+MYPKISLFVTAVCAGVFFMLQNTSASYPGLLLSNAPIKKDLTLQSDILEEIILLPEESFN
+EDEARQIIYRLDHLPTGLLQQVKAEGIMVHLFQDKLTSFPTTQHLKGVTPRGYTNTERTW
+DEVPGIGGSQLVLVKIGHSEKGAGHGSVNLELHELAHSIDRYVLNEIYYKMKFTAIWRQE
+AHILFPEEDYFLEYQEEYFAEAFAMYYLNLKTNKKLKEVAPVTHQFFEELESM
+>tr|A6CRN0|A6CRN0_9BACI
+MNLYFLIPTYTEGDSTFPKPVSGDYKYWFSLISAFLKKSDTIEIHCWNEEIDTVEEIVSL
+KQGFKKINEENLTIFKGKVTSIIIKFILNNYCNKQGELKWFTLNLYKNCR
+>tr|A6CJF3|A6CJF3_9BACI
+MLFNNRKKSSFLNMFGRRKRMNRRMLWSSVLSLGMSAAAYALNRRNSNTGTGSSIQGLMK
+NRNMNTLQTAMAEFANEIAPNSKLK
+>tr|A6CPF6|A6CPF6_9BACI
+MTKRRGFMKPQVKRDEYIEKLLKMRENEVHQMDAINQRSLLKGEGLTSPTSAVSTEETRI
+LMEYMDQKNLFNLGSTNEKRRKVLTLKKFFKKKRNQQVEVYSNSGNAVMYTEGKVAAIGR
+NFVMLSNLKDRFWIPYDAIQSANIPFGIPNYSNTHQHYIYDNDLRTKLLQQFGETVSRKE
+ELFQQFCEDSLESNLHTWKGSRVEVKTAEGDEYTGKILEANDHKLHIKQSNRIKHIDLST
+VSYIRTLRLLHLAKRLLKRSRE
+>tr|A6CT45|A6CT45_9BACI
+MNAKEIRKYFPILDQEVNGHPLVYLDSAATSQKPVQVIEALDKYYREYNSNVHRGVHTLG
+TLATDGYEGSREKVRKFINAASTEEIIFTRGTTTAINTVAASYGRANVGEGDEIVISHME
+HHSNIIPWQQLAKETGATLKYVPLQEDGTISIEDVKNTVTSNTKIVSIMKVSNVLGTMNP
+VKEIAKVAHDNGAVMMVDGAQAAPHMKVDVQDLDCDFFAFSGHKMAGPTGIGVLYGKKHL
+LENMEPVEFGGEMIDFVGMYESTWKELPWKFEGGTPIIAGAIGLGAAIDFLEEIGLDHIE
+KHEHELAAYAMEKMSGIEGMTIYGTKDPAKRAGLVTFNIDDVHPHDVATVLDAEGIAVRA
+GHHCAQPLMKWLKVSATARASFYVYNTEEDIDKLVSGLVRTKEYFSDVF
+>tr|A6CPW3|A6CPW3_9BACI
+MSIKKALGFDGGETIASMKKRFTFLNQEDEPLV
+>tr|A6CQQ2|A6CQQ2_9BACI
+MRNIDEIWKKRVVEYNTELRKYLRYMFNDHLLFVLIFALGGGAFTYNQWVGTLDSSFPAP
+FIMAVILGLILSWSPVYTFLREADAVFLLPLESRMKKFFQKGIWVSFISQSYVLLLILAA
+MMPMYVKVTDRGFQFFFVLLLILLGLKVWNLYVRWYTLKNQERDTHFVDYFIRFALNAVF
+LYMVLSGASLVLVLAVAVILMGYLLYFRGSVKGKSLKWDVLISLEEQRMLLFYRLANMFT
+DVPKLKGKVHRRRWLDAVMNMIKYDQKQTFKFLYIRSLLRTSEYFGLYIRLSLLSMVILY
+FSETLWLSIVTGLLFMYLTGFQMIPMFKRFDYKIWVSLYPVAESVKKQSFQQVVYWAMNV
+QAVLFSLALALGGQSYEAGILLAAGLLFAFAFANFYLPQRLKKFEY
+>tr|A6CJY5|A6CJY5_9BACI
+MPKVIVMYEQPKDKEGFENYYFNHHTPLVDKVPHVVSASVQKVLNTQNTDLQLYIVTEIG
+FEDKAGMKAAFSSSEWQEVTNDVPNLMPFLEKPPVIAVVD
+>tr|A6CM46|A6CM46_9BACI
+MMKDNPKKQNEKQNFQEEFGMEFGDFNAAKHFEIPEANKKQDKKKDC
+>tr|A6CP28|A6CP28_9BACI
+MLVDIINFLLPFIISMATSLIITPLVIKLAIKIGATDEPNKRKVHQKIMPRMGGLAIFIG
+VVAGYFAGGLYNEKITGIILGAILIMAVGILDDKYELSAKYKLAGQFLAAGAVVGSGLTI
+DIITIPFIDTFELGNWSYFVTFFWIVAITNAINLIDGLDGLSAGISSIVIGTIAFMAGLA
+GKPLILMLSLILLGSALGFLYHNFFPAKIFMGDTGALFLGYSIAILSLLGLYKSVTLFSF
+IIPIIILGVPVFDTTFAIIRRIANKKPISAPDKSHLHHRLLALGLSHRNTVLVIYAFGLL
+FSISAITLEASTMWGSILIVFGLLLITEIIAETIGLVHDRYKPVIKLYRKVTGKQ
+>tr|A6CK21|A6CK21_9BACI
+MAKNNNQNNNGKMSLEEAGRKGGKTTAQNHDKEFYQEIGEKGGEATSKNHDKEFYQEIGE
+KGGEATSNNHDKEFYQEIGKKGGEATSENHDKEFYQEIGEKGGEATSNNHDKEFYQEIGE
+KGGESRSRQNNNNNSSNNNK
+>tr|A6CPD4|A6CPD4_9BACI
+MTQEELLTLLLVAPLLLVQSLFLFTDARKRGHKHWFWGVWGLIQCPFPIIFYLIFARKIF
+KKNKTI
+>tr|A6CHJ6|A6CHJ6_9BACI
+MYFYHDPPYLTDSYRVQNELAKDIQRAINGEYSAILCYEELSKKAKNQDEKEQILEIQQD
+EKRHYKEFTKIYKSLTGTKPVPKITEECPEQYRKGLQAAFKDEQDTVDFYLDIADKANDK
+TIERVFHRAAADEQNHAVWFMFFLTTSVSKRYFRQTVNYGAKGALNATSLTLPQMLTFAM
+QDEYLAQTRYNLVLQKFGEVRTFSRIKQAELRHLAALQPFFQSLSIPFPPDISRMYATVP
+ETIKDAYAAGVEGEIDNIAMYEKFLTYDLPAEFRFVFTNLRNASQNHLAAFKRGLAR
+>tr|A6CI72|A6CI72_9BACI
+MLHLKDISVHYRGSSFPALSSVNLDFNKGEFVCILGKSGAGKSTLIRTINGLQSLSSGEV
+LWKGSPLSSHNEEESRKARREMGMIFQHFNLVPRLSVMQNVLTGMFGYRSSFKNLIGWFT
+SEEVQRAKKVIEEVGLSDFTDRRVEHLSGGQKQRVGIARALVQNPKVLLGDEPVASLDPG
+TSNHIFSLIQLMHEQHDLLTIINVHDVSLAKKFADRIIALKDGSVIFDGLPADFTEKKYE
+ETYGSANYQHL
+>tr|A6CJC5|A6CJC5_9BACI
+MKIVQIKQIRNISKSKVEVFFITHWGSPEMVISSGIYDCSSLDGFVVQNQKEEIIGMITY
+VIRGAECEIISLDSLEEGKGVGSSLIRAVEEAVALIGCTSVKLVTTNDNLSALRFYQKRG
+YHLSHLYKNAVEKARKIKSEIPLVSEDGIPIRDEIELQKILFGKAEI
+>tr|A6CJU8|A6CJU8_9BACI
+MTDLQVIKVFFPETKGIIKIMAAVYFILLAGGSFLSLYLNETLAQWTSFLLQSFLYIVAC
+SLIYFAIKSQRIIVTEKQFILKVIGITRHKIDFNHIHEVRKGKMSGSPIMEIHAKKGPYS
+KVCPVPYLPFSDSWQELLLIIEKKCGSEVIGNMDLKRRKGEIRTWRET
+>tr|A6CUE8|A6CUE8_9BACI
+YKYRDTVFPFHTIVKERIITLIFHLEDRSGTLSYLLGEVAKTGCNILTIHQTIPLQGRAT
+VTLSLNVADITVDIEEMLNSLRKMEFVEKVEMLGSGA
+>tr|A6CNC5|A6CNC5_9BACI
+MLLKALQLGAGPRKLVEDAVKELAFGDKKLPTRSKFYLFLVSMFESPFFR
+>tr|A6CIZ7|A6CIZ7_9BACI
+MSFQFIRFMKEKVQNKKIKPAIEKAYEIASSHLIEYEKMYSQENLPLPYGFSDKDVELNA
+PDLFTDTFKLTLTLHMARVGMVTHSGTLSLAARKDVRLLFGKCLRQVEELYQLSSDIALD
+MGVFLRSPYIPYPKQAKFVNNKNYMSGLNPLLSPRILNALEITHLSMNIETNQIGFMLTS
+AFMQTAQSTEVKKYMQKGNEISKSHLDKFSDVLLKDDIQAPISADHAITDSTTSVFSEKL
+MMFQMGLLTTAGLGNYATAASLSQRSDLILMYERLSAQIGLFAKEGAKIMIQNKWMEEPP
+GAPDRHQLGEQKK
+>tr|A6CMK6|A6CMK6_9BACI
+MKKKFSIVVFFTVLFLAVGAFHYQGSKSTVTATDSDGNISKDSQLEETAENNDETETTED
+GQETKASETEKNSNTESDENDTAAEESKNTSSTDSDSERTDEKPSGELDSPQQESIKFGN
+DEYVDISDVEKFKDLREFAQKHGARPFAIENSDCFAIIKDGVPLLFFSVGTVSAGVEEIS
+VLKDYFTDLHNFSEETGIASNIDMVAETGAEVQVDFPDGAGYLIFKKDNTVVVNWG
+>tr|A6CJR4|A6CJR4_9BACI
+MYNYNPVTAIGTCKILGGIFRKVNAFQINIHFFKRTRKEGVPQENSSMSI
+>tr|A6CKF7|A6CKF7_9BACI
+MIKKFLELSHLEATISLRQKELLELEEKIEEKKRLLKQLSRKARRYEEYSSAEKEIAVGI
+AVDAEPVSEKKVGEIARTDLVRLLESGRVPQSVIENLKEKRYSKDTFDLNFPLLREITDM
+GKIEELKKDHTGRNRYYAKPITIHGKKYLLCAQWYDRSKTKLVRWIGKYQ
+>tr|A6CJ49|A6CJ49_9BACI
+MNFFYPLKGDLEKDPVLIQLPKDYYFSAKIFYPFIKMPVDWKSERSAYPHIFYPVKEDIL
+KFASPVSWAYVKEKCGFNSISDVSKAVTAGITGGIGRKIYRRPDLLIRLNEVIDENTYYP
+REDEFPVIIMKNIFKVLGSKGATSIQYVNLYDERGTYKINEIDRNILLQLCSGPITITDE
+NEDFVFTCYFDEVSALFFAKEDVREILVQSGLEGVILGDDTPLVWENHHFELLE
+>tr|A6CRU5|A6CRU5_9BACI
+MSYFTGLLQTNLYVSDITDAANWYQDTLGLTIAADYGKTVVLAFGEL
+>tr|A6CSP5|A6CSP5_9BACI
+MMKFLVLLHVLSAIIGVGPTFFAHVLTRKNQTAEQLRHTLKMAAHLEKFPKIGGTIAVIS
+GLVLFYVGEYGAFTQVWLLGSLILYVFIQIIVIGFVTPQSNKLKGWLDAPENAAVTGKLT
+EEAQGYLNKMNGYFYLASALGVTLFIFMILKP
+>tr|A6CTG2|A6CTG2_9BACI
+MNSGGAMGGTYRGIGVFFMRYFRGTVFLQGGHYQEEKGHEDEFIDI
+>tr|A6CU65|A6CU65_9BACI
+MLLWKKKAGGVISDHFLETVEENLQDGF
+>tr|A6CK05|A6CK05_9BACI
+MELKPLKGQHHVSAITANAKENYKFYTKVLGMRLVKKTVNQDDTSVYHLFYADERGNPGT
+DLTFFEIPNAGRTYKGTNSISTTSLRVPSDEALNYWVKRLESEGVEHDGISTESGRATLS
+FRDFEGQRLMFVSDENNHGVEGGKPWSKSTVPEEYAIRGLGPVQLTVAKRENTEKILTDL
+MGYRRKGSYTTTIDGNSYEVNVLETGEGGTGAEVHILERPDLPIERPGRGSVHHVAYRVE
+NEEELKKWVEVLKDLRIPSSGFVERYYFRSLYFREANGILFELATDGPGFEGDEDFEHLG
+ESLALPPYFENQRDQIEARLKPLETKE
+>tr|A6CJ35|A6CJ35_9BACI
+MNQLSSIFRAILLDKEATEKLASNESYNKWAFIFTFIVGACYGSVIYFRVPEEYITFDSS
+TLQSVVYLFLILSGTGMVYLTRLGLTLLLWAGGKAFGGKGFMGIINRLTAFALVPSIVGL
+PSVVALSTGEQLSLIMIILLLISLLWMYFVSVRFLQISQKIKTWKAYGAVLIAFLFFSSV
+YYLTLPPAA
+>tr|A6CR06|A6CR06_9BACI
+MKRLMNWGKKRTVLLTILILVYFGLVMYYQTHKSLPEGTSYEGDIFLTDDVDFIYDLSYK
+DPAGHFLHESRIFERINRMIGEAKDFVVIDMFLFNSYYDGKYDMPDLAGNLTQALIDKKR
+QNPDIDMIFITDHINTTYGSHLAPEVEQLKENGIKVMYTDLKPLRDSNFVYSAVWRTFFQ
+WFQSEPEDDGWLSNPLASTAPKVTVRSYLELLNVKANHRKVVVTDQSALITSANPHNASG
+LHSNIAFEVKGPIIGDILKTEKAVARYSGGPRLPDYNGSGETGGSIKAQVLTEGKIHKRA
+LEELGKAGKGDTVWLGMFYLAERKVINRLIDAAERGADVRIILDPNTNAFGQQKMGLPNI
+PVASELHRRGKENIHIRWYNTEMEQYHTKLLYIKKKEKAIILGGSTNYTTRNFEDLNLET
+NLWLETPLDQEVNKEVETYFNRIWDNEGGLYTEKFIEKDYEIPWMKYIGYRIQKLLNFTT
+Y
+>tr|A6CMY9|A6CMY9_9BACI
+MPVGAEQGASTFYTGEAEEANLAPAASD
+>tr|A6CN98|A6CN98_9BACI
+MFGTKDLGIDLGTANTLVYVKGKGIVVREPSVVALQTDSKQIVAVGNDAKNMIGRTPGNV
+VALRPMKDGVIADYETTATMMKYYIRQATNGRGSFSRKPYVMICVPSGITAVEERAVIDA
+TRQAGARDAYTIEEPFAAAIGANLPVWEPTGSMVVDIGGGTTEVAIISLGGIVTSQSIRV
+AGDEMDEAIINYIRKTYNLMIGDRTAETIKVEIGSAGDSEGVDTLDIRGRDLLTGLPKTI
+EITADEIAAALRDTVYSIVDAVKSTLEKTPPELAADIMDRGIVLTGGGALLRNLDKIISD
+ETKMPVLIAENPLDCVAIGTGKALDHIDLFKNKK
+>tr|A6CN16|A6CN16_9BACI
+MHLGIFGFFALWSPLFIITILFMTAVYFLITVKWRSRFKESEPLTIKQASFFLLSMLLLY
+AIKGSPVEVMSTMLFSVHMTQMATLYLVFTPILILGIPSWVWKKVIKVPVVKSIFSFATK
+PLIALVAFNIIFSIYHIPAVFDNVRTDVTLHGLFTFILFILAVFMWWPLLNPAQSLNDLH
+GLKKIGYILGSAVLLTPACGLIIFADNPLYATYYDPTEWLKALALCVPADTLSGLSLSGP
+ELFTSMTLEHDQQLGGVIMKIIQEIVFGYVLASLFFQWYKKDQAEADQSIQQFEAMNPKP
+VE
+>tr|A6CHX1|A6CHX1_9BACI
+MKSTLNKKKVLSVGAMLLLAFTLIYISLKSQIAESKENNSAQTDTPTVFVHGYKGTYNSF
+KTMLYRFEENKWGKRQLVVYVSATGDITWKGSLLSGSKLPPLVQVIFEKNKASIAETSTW
+LQHVMAGLKNKYGVEQVNLVGHSMGGLVSTHYLETVNGSEEHPETVKFAAIGSPFDGISH
+ESYHQVNTGEAVIDLKPDSEALKSLVKNKDQFPANLEVLAIAGSGDGVVDIDSAFAIRNI
+VMEEKLQIQLIEDEKIDHSGLHETEKVDKLLKKFLWD
+>tr|A6CLJ9|A6CLJ9_9BACI
+MYLFGGWNMKLFIRGISFLIITAFFGECLEFVINMILARELGEHGMGIYMSILPSIFLIA
+IIASLELPVSLSKFIAEKDVVYHRNILSQVWRLTIIFACIFLIAAALIYSVFPFLSEYHP
+SIRWLTLLLIPIISFSSIARGYFMGVHQMGKIAAANFLRKVAQLILLVVVYQLFSFDTNI
+AIIIALCTLIGSEGVVFLYFMQAYVLSVRKIKYTSSDTADKREVGRALLSVSFPTTILRI
+FHAVSHAIQPFLIKAALLHSGMTELSATEHFGVMAGVALTIGFFPAFIAHSLLVALIPIV
+SEKVSKGDIKGIHSILKQVIWITLGYGTPAVLVFYFLGEELTNLFFHSTSAAYYLKLLWP
+YFFFHFFVMPLQAFMIGFGLIKDALYHTIWATTVSFSIIYFLGSMPQFGMAGVLIGMNTG
+AVLLTLLHYNTVCSRLGLTFWFKHTVRI
+>tr|A6CN95|A6CN95_9BACI
+MDKRGSKDGRITIKINGDKKNYNEELLVHNWKLGEEESAAAEERAEEDSFDWVLPDEDPA
+PKEFKKINYVQKNKGKKRFGVKQITPGIARIIYTLVGAVAVSLIFGFIILNVITDGEQSI
+PAVQLQEAADVNKDGKETPSAAGGTITIDSLTASVLQGGVYTTTDSANTMKASLEAKGIP
+TMMIEMDGNLFLFIGTAGDLEGAKAMGKKLSNQDVEVYAKDIVLPDKNVAGTKADADFIE
+KSKAVFAALAVESSNAYTNGSINEEKLNEISTLLNDLSASKVSENMTGLKENLETASRNL
+QEYKSSTELSKLIAAQQSLLTYLESYHKL
+>tr|A6CJU7|A6CJU7_9BACI
+MVSKEEKSYSSCSESKNLVPGEKSGTRDFSEIYIIRKQPFPEIL
+>tr|A6CNU8|A6CNU8_9BACI
+MKGVILAGGKGTRLKPYTLTVPKPMVTIMNKPILEYNIALLKANGITSIMITTCYKADKI
+SEYFGDGSEFGVDITYFHEDFPLGTAGGVFESSHYLNEPFVVISGDAFTTLSLRDAIEFH
+QLKGSPLTIVGKEMEDPRGYGVCKTDSEGRLIEFAEKPESGEINSKLVNTGIYVIQPELL
+RKYPFEGNIDFSRDVFPRMIREQDNIYVFETEDYWRDIGNPEQYKLAREDYLNGKMKEKA
+GADSIEEVGSIKDGFESTLKYLIRMMVACPDHQKQQIISKLVEEQKEAPVLNLDGILISH
+SVGGWTRIIDKPSNGFIIYSKAERRNLAKEFAGYYFNKIKQWQRV
+>tr|A6CQQ5|A6CQQ5_9BACI
+MVRETRNVWIIIQGIDQIERSSRRMRTNKSRNRPNCGDNEKNVDH
+>tr|A6CSZ9|A6CSZ9_9BACI
+MEGAISMIREYIRVWRARGWMKKNMPFLISWHAYVGYELDLFKSFKKPVTIKEVAADRKL
+EYDLLKQWVEVGVILKHFKKTSGERVKTIKKWKLPKSKSNRFSSGVILKEMMELHIPALL
+AYPDLLRNQSKQHFDSEVHGPTVAKTSTLLEQLAYPKVEKVMKKYKVDSVLDVGCGEAGY
+LRKLAKKFPDKKMVGVEVNEEVARNARGVIEEHSNIEILNKDINEYQPEEQFKLVMANNL
+LHYIEPEERTGFFQNAAQWIKKDGALSIITPLHKPKHGKEFSSAFNSFFMTFDNLYPVPT
+EKELKSFAKKSGLKMTSIDPIVKEGGWYIAVFKK
+>tr|A6CRA8|A6CRA8_9BACI
+MTTEIKEIEKDFLEYVKKMSAYNEALGLIFWDLRTGAPKNGVEQRSEVIGLLSSEVFEMS
+TSEEMAAYIAKLSAHKENLTDKVFKVLEECQKEYDRNKKIPADEYKEYVVLQSKAESAWE
+GAKEDDDFDSFQPYLEKLVEFNKKFIGYWGYASNKYNTLLDMYEPGVTVEVLDRVFGELR
+EKIVPLVQRISESNSKPNTAFIFEHFPKEKQKDFSLKILEQIGYDFKSGRLDETVHPFAI
+GLNPGDVRVTTKYDEGDWRTAIFGTIHEGGHALYEQNISGELTGTPLATGTSMGIHESQS
+LFYENFVGRSYSFWEKNYSLLKEFGEGQFDGIELDEFYRAINESKPSLIRIEADELTYPL
+HIMIRYEIEKGLFNDEIEVKDLPQIWNDKYEEYLGIRPETNAKGILQDVHWAGGSFGYFP
+SYALGYMYAAQFKQAMLKDLPNYDELLQQGDLAPIREWMTENIHQWGKMKKPLEILTEVT
+GEGLNATHLVNYLTEKYSDVYNLSK
+>tr|A6CK08|A6CK08_9BACI
+MNSIAYEQETKKAVHVDTAQLAEARTVNIQH
+>tr|A6CP56|A6CP56_9BACI
+MSAFSLYYMDLSSGLYSKLDIQKGRSTAGRVFKMANYYIGVDIGTTSTKAVVFDKKGQAV
+SRFGVEYPLYTPVPGTAEQNPEEIFQAVLTVIKGSMSTGGVSGADIRFVSFSSAMHSLIV
+VDSEGQPLTNSITWADNRSAAWADKIKNENNGHEIYLRTGTPIHPMSPLVKLAWLKEEQP
+ELLAKGNKIIGIKEFVFNRLFGVYVVDYSIASAMGMFHLENLDWDEEALEVAGVTADQLS
+RPVSTTESLMGLKAESAKMMGLPEDVPFIVGASDGVLSNLGVNAIETGVVAVTIGTSGAI
+RAVTDRPVTDPKGRIFCYALTENHWVIGGPVNNGGMIFRWVRDELAWAEVEVAKRLGKDP
+YEVLTEIAEKIPAGSNGLLFHPYMAGERAPLWNANARGSFFGLGMHHKKEHMVRAVLEGI
+VMNLYSVLLALEELIGTPTKIQATGGFARSTLWRQMLADIFDGEVSVPESFESSCLGAVV
+LGMYGLGEIDSFDVVGEMVGSVHSHQPNRENSEIYRELMPIFIRIPRLLESEYEAISEFQ
+RKYS
+>tr|A6CPN5|A6CPN5_9BACI
+MEYNQPITEDNTGFWNEYIVYPLSLLIIKVSEFFDGSYGLGIIIVTLIIRLAILPLMIKQ
+TKNSKAMQALQPEMQKLREKYSSKDAQTQQKLQQETMGLFQKHGVNPLAGCFPLIVQMPI
+LIGFYHAIVRTEEIKNHTFLWFDLGQPDPLYLLPLIAGVTTFIQQKMMMAGTANQNPQMA
+MMLYIMPVMIIIFAINFPAALSLYWVVGNIFMIIQTYFIKGPDIKEQKELAKNGGAKK
+>tr|A6CQ20|A6CQ20_9BACI
+MLYKKDFRGELMDKKKTYSEMMKASAMSRKTATEMTLNEIYVDMVLNEVNLMNQKRKLKE
+ELDCALDQRDKQKFMTLSLQLRKLTEEYGI
+>tr|A6CQM3|A6CQM3_9BACI
+MIIKERDVPRELQILRALRPRMKFNENEESYYQYKEKGYEGEMKFDEWAEPLKNMIFLND
+ANLNVNNNHFQTDSLGISSAILHIFEVKNFEGDYTIKEDKWYSPKGNVIKNPLLQLEKTE
+TLINQLVKNMGWRITVEPHLIFVNPEFHLYNVPSNLPIVYPAQLGRFREKMLQRCGSTPT
+RSEIQLAERLLALLIEELPYASLPEYNYDGLRKGIVCPGCGMFYGAFHKMFYCKYCGGKE
+SCSDAVLRSVEEFKVLFPDVKVATGRVLDWCNIVRDERTIRRILQEHFEVRGITKSSFYS
+>tr|A6CKY3|A6CKY3_9BACI
+MDEFKLILLIMTLGIDALLVIISFGLVGKVSKYKVAATVALAEAVLLLAGMKLGEYLEAS
+FLGSWAPSIGAVILMLMGLYNILDKDKTEGKNRVFGIAFIFVIIGVSIDELAVGVSIGLL
+GFPILFVLIVDIIKSFIYTLIGLTIGSKLKRFLNNWSAADKIAGSIVFLIGAWTFIETLF
+F
+>tr|A6CMC4|A6CMC4_9BACI
+MTSVSLSNKLNELLNGKNTKVQLSVPQLVEKVMNRNEGILTNSGAVRAETGKYTGRSPED
+KFIVEEPSIKDKIEWGSVNRPISAESFDKLYNKVIEYLHEKDEIFEFKGFAGADPKHRMP
+IRVVNEYAWHNLFAHQLFIRPTAEELKDHSAEFTVISAPTFKADPDVDGTNSETFIIVSF
+EKRTVLIGGTEYAGEMKKSIFSVMNFILPENDILSMHCSANVGQEGDVALFFGLSGTGKT
+TLSADPNRRLIGDDEHGWSPNGVFNIEGGCYAKTIDLTREKEPQIFDAIRFGSVLENVMV
+DEDTRIPDYEDSTLTENTRAAYPLQAIDNIVDPSVAGHPNTIIFLTADAFGVLPPISKLT
+KEQAMYHFLSGYTSKLAGTERGITSPQATFSTCFGSPFLPLPATVYAEMLGKKIDEHNAQ
+VYLVNTGWTGGEYGVGNRMKLSYTRAMVQAALEGELTNVETATDDIFGLQIPVNVPGVPD
+EVLQPRKTWSDEEAYVEKAKELAGKFKNNFNKFSNVPEEIKAKGGPIKS
+>tr|A6CJB8|A6CJB8_9BACI
+MGAARMNEKPVYYDGSGKNLSSLNKTFTKETVVKPDNVKNTLKFPCFPYQK
+>tr|A6CK34|A6CK34_9BACI
+MVGIPLRLDFGWLELGEAKVNAVKNQFFRGHEEITDYQRTNSMGPDRKRTINLPI
+>tr|A6CNH5|A6CNH5_9BACI
+MKLDHLIEQATRLKDSTVAVAAAEDKEVMEAVSMAVEHGIANFLLFGDSQKIKEIMEAVS
+PQLLNHKAITILHAESAKEASESAVKAVRNNEASALMKGNVATAVILKAVLNKEFGLRTG
+NALSHVAVFEIPGYERLTVLTDAGMNIAPDLEQKVQIINNAVGVAHGIGIENPKVAPLAA
+VEVVNPAMQATIDAAVLTQMNRRGQIKGCVVDGPLALDNAVSLEATEHKGIQSEAAGKAD
+ILLVPNIETGNSLYKSLIYFAGAKVGAVIAGAKAPVVLTSRADSAESKLYSLALAICSAT
+K
+>tr|A6CQM1|A6CQM1_9BACI
+MELLSIILLAVIAAVFELRPISLPNGEELSFVSPLLFIPGVLYGFFTVSSILMLFCVILV
+ASKPAALKPILFNGVQYALATYVGIWIYQLTGGEIGSIDLNNVLSYGSYIFAYPLVNLVL
+VNIFIYIRNRTLISVDVKSTLIYVNLMAFAILITKVVELEGIMGIVLFTVVLWGLTSSYR
+TYYKMYNDFKQLSIKDGLTNLYNHRFFQQKLDELLKSDEKVSLFLLDLDYFKIYNDKFGH
+PQGDTLLREVSDLLVECTPEDAFVCRYGGEEFAVILPEMDIKDAKELGEKVRTSIYTKEF
+FGSEDMPFKHITVSLGISSNHTEPVPKGKLIKAADLALYEAKKTRNKVVMSSMQSSQDEM
+VIGQ
+>tr|A6CMW7|A6CMW7_9BACI
+MSNYTYKRIHLVVMDSVGIGEAPDAKDFNDEGADTLGHIAEHMNGLNMPNMAKLGLSNIR
+EIKGIEKQETPLAYYTKMEEASVGKDTMTGHWEIMGLNISQPFKVYPDGFPEELLKELQE
+KTGRGIIGNKPASGTAILEELGKEHMETGALIVYTSADPVLQIAAHEDIVPIEELYKICE
+IARELTKDEKYLVGRVIARPFVGEPGNFKRTSNRHDYALKPFERTVMNELKDSGYDVIAL
+GKISDIYNGEGVTESVRTKHNMDGMDQMVKSFEQDFTGLSFLNLVDFDALFGHRRDPEGY
+GKALEEFDARLPEVFERMTEDDLLIITADHGNDPVHPGTDHTREYVPLLVYSKRMNGGKE
+IPVRKTFADVGATVADNFNVKMPKYGESFLKEITKES
+>tr|A6CHC7|A6CHC7_9BACI
+MDKEVSSMKAVRRIIQVAVCFLIINSCSDDWLKKEEAAENNQEIKSDSVNKKWIENTGAE
+GQQKEDNKIIGEKTEPLNMLIIGSDQRESEPSRADTIMIAQYHPETKTAKMMSIMRDSYV
+YIPGHGKSKINHAYAWGGESLLKETIQENFNIEADHVIKMNFQGFVSFFDNVMPQGLEVD
+VPSAMINHWKWDMEPGKQVLNGQQLLNYVRFRKDDEGDFGRVKRQQEVIGKVQKAIMEKL
+TNGEGIKTVSSLMREGKKAVETDLELGDLLKFGMTTMMNPVESFDSLRIPVEDSYRNVMT
+KDDGLVLELDAEANAEAVANFLNIRE
+>tr|A6CKR9|A6CKR9_9BACI
+MKLPAIDLGLMSEHLAAHEGVINKLKIYHQMVQNESLKRILSIHINTLRHHVAAMLALID
+PNRTEKIHLVDLPKIPLSEHIGNLAEWEKDIALESRSSAKLMGTNNYNSASMMKDENVKS
+IHVKMAKQDIQLQTMYGQLIKAVNGDYVPMATPEMQWMAIQKYQHVLNE
+>tr|A6CHP7|A6CHP7_9BACI
+MIHRDWTNRPSIKTVKCVHTNAAKYKVENVLTAGKTYEVKNESEDYFFVIDDSGKMGGFY
+KDYFEEAK
+>tr|A6CKD6|A6CKD6_9BACI
+MGKQIFNGRYTTENSEDLVVFIIGMRINKPFAFHKWLPVMNAMPGMIKELYTNKEALGFL
+SMESYFGLRTTCMIQYWRSMEDLLAYAHNERHLTAWKNFNRKIGNNGAVGIYHETYPINR
+GNYESIYGNMPRYGLGEALQHIPISSGRNTARERIDSHANMKST
+>tr|A6CS27|A6CS27_9BACI
+MERDKALSLVKEQLTEHRYQHTLGVVETAIELAERYGVDKQKAELAAIFHDYAKFRPKEE
+MKEIIETQGMDERLLSYNTELWHAPVGAWLVRTEAGIEDEVILDAIRFHTSGRPGMTPLE
+KVIYLADYIEPGRHFPGVDEVRELAKHNLEQALIVSIRNTITFLMKKNQAVFPDTFHTFN
+DLVLNNRS
+>tr|A6CSR4|A6CSR4_9BACI
+MFAKDIGIDLGTANVLIHVKGKGIVLNEPSVVAIDRNNNRVLAVGEEARRMVGRTPGNIA
+AMRPLKDGVIADFDVTEAMLKHFINKLNVKGFLSKPRILICCPTNITSVEQKAIREAAEK
+SGGKKVYLEEEPKVAAIGAGMDIFQPYGNMVVDIGGGTTDVAVLSMGDIVTASSIKMAGD
+KFDAEILSYIKKEYKLLIGDRTAEEIKINIGTVFPGSRDESMEIRGRDMVSGLPRTITVK
+SSEIEGALRESVAVIVQAAKNVLEKTPPELSADIIDRGVILTGGGALLHGIDQLLAEELK
+VPVLVAENPMDCVAIGTGIMLENIDRISRRKIG
+>tr|A6CJI5|A6CJI5_9BACI
+MEEIMSNPGDDFKLEEWERWMQDWLLDPYTTKLDESQFRLDLFDTTEAYIVEATIEDFIM
+REVTLTKKEQTLTIEITPMEESPTRTRSVNFPFSLKYNPVRLYPRKGHFEIHILKALDAK
+PVPSVIRFQGHL
+>tr|A6CMQ5|A6CMQ5_9BACI
+MKKNIILLLFLFAAAGTMYYYKQYNVKADKASVQNKVQSFINRGEAVEKKLEVMKIVQLD
+ETNSYIAMFQLENGNIGSSHLEKGFNNRYKIMHAGYGTNEAWFEDVSTADGKYGVLIGKN
+SELDIDTIEAKLIHEEYSFSIDVSQQPVILEYIKLPKELTSTYPAEITLYNEQNQIMQ
+>tr|A6CSW2|A6CSW2_9BACI
+MNYAEEMLISLENGDLDKAEKHFKRVKNLGTDEEKYSLAENLYHLGFLEETKELLETLLA
+KYPDEGELIVMLSEVLVEMDDEEGALERLSEMDETDPDYPRALLLQADLFQMQGLFEVSE
+QKLLHAKRLLAHEPIIDFALGELYLEIGKFLEAIRSHRLNEPKIHWILLAILI
+>tr|A6CIG9|A6CIG9_9BACI
+MILVNYRRTHAIFLREDFDGHSSNHSLFFVLLALVGIICFFIGHFVLKRTKSFKSGYRTV
+IGVSILMLVFLFNWFQSSASHAFMGTIPWLFNQVLAIFLWGFSHDHMVSI
+>tr|A6CNN6|A6CNN6_9BACI
+MSGFTSHAELTKTLKQIEKNSQGLVKVDVVGQSNNGLDIHQARVGTGDRVILIESEIHGN
+EKTGTEALVKVLQYLGSSNSPEAKKIRDEVTLVVLPMMNPDASELNRRANDMTWDEVTAK
+YPVLANAQPSWNYYTNTIQDVDYSERPGFDVNRDFNPDLDYKLNPADFPGDSNKPGWYIT
+PESQTVRDVYKNLKEEFGNVDTFIDIHHQGQYYVEGTDDLVTMSLSGRFVPDPSSVEGSK
+YSQYADNYRDEYSRQLNVAAYNALQSMGNSPFDNITLYRQNLDLPGTALASFALNGSGAV
+LFEVRGQTWTLGQKKKGQLVKAVETGLNAIISGVADGTVEKLDPEAYGDIPKTSYSPGL
+>tr|A6CI46|A6CI46_9BACI
+MKPGKLINIRGKDLYVEVYGASEKDAILYLHGGPGESCYDFSVAQAEKLAENFMVVAIDQ
+RGVCRSEGIGPDETFGLMDIIHDCEALRNQLDISKWSLIGHSFGGFLSVLYASEYPASIH
+KIILEGPTFDFQLTSRNLLRKTASLLTEAGNEAAAKDCLSLADTKKPMTIRELTEKYMEF
+SDLLGEERMKIYRYDLDSGVDYSFYTDEEWELFFDRSEVHYNRLREEGQIFKSLLPALKE
+LPHEMLLLMGESDPVPCNTQVAVFKEAENASIYTVENCGHTPHYETPDKFTRIVNDFLGC
+SVLNK
+>tr|A6CKL9|A6CKL9_9BACI
+MNGQWSEKEIIEKYQQDEKMMILAFAQWCINHDYDPAEVYTRAYPHQGNNLLLKEAIEAT
+IPKEESEEIPLPSLVAVLEMYGNEELAFVISQMKKK
+>tr|A6CKY8|A6CKY8_9BACI
+MNKESVHADPVGILMALGAGLSFAGYTLVSRDLVDRHSSLSVVAVVFTLSAICLSPLLFI
+FDMSWVGSLQGMSVSLHLGIMATGAAYFLFVKGLVHVSSSTAVTLSLAEPLTAAVLGVFI
+VGEYLSITSWVGIFLLLLGIGLLIGSSQKAVRKGSLP
+>tr|A6CS26|A6CS26_9BACI
+MGTRVGILGGTFNPPHLGHLIIANEVLFQLGLDEVRFMPAGIPPHKNISGDTSAEQREEM
+VRLAIEGHTGFTLEPIELKKEGPSYTYETIKLLVEREPDAEFHFIIGGDMIEFLPQWYKI
+EELSQLIQFVGVKRPGYETDSPYNVKMIEVPQIDISSTLIRDRVASGGTATYLIPEVVSD
+YIREEKLYGKG
+>tr|A6CNT8|A6CNT8_9BACI
+MKKWKIGFIMILTAFLLIGCGTGNNDEGEDNAEQNGGNNEGVTVTFGVTPWTSTVPPTKV
+AKLILEDMGYTVNETKADAGGVYTGLARGDLDVFMDAWLPVMHANYMEKYGDKLDDTAVS
+YTEGELGWVIPTYVEGIESVEDIKGKEDLFGGKIYGIEEGAGMTVTSKEMIEELGLDLEY
+VASSEGGMLAQAQRMMGNEEPVLFLGWRPHPMFANYDLKVLTSPEEFFQTSEVHVITNKD
+LKDEAAEAYEFLSKWKMPVKDIEDMIVKIDEGQDAEEVAQEWIDNHQDQVKEMKGE
+>tr|A6CPP2|A6CPP2_9BACI
+MGRIIAITNQKGGVGKTTTSVNLGACLAYIGKKVLLVDIDPQGNATSGVGIEKGDVQECI
+YDVLVDDAEVKDLVKPTTVERLYAVPATISLAGAEIELVPTISREVRLKRALEKVKDEYD
+FIIIDCPPSLGLLTINALTASDAVIIPVQCEYYALEGLSQLLSTVRLVQKHLNHDLMIDG
+VLLTMLDARTNLGIQVIEEVKKYFQDKVYRTIIPRNIRLSEAPSHGEPIIIYDAKSRGAE
+VYLDLAKEVAANG
+>tr|A6CR46|A6CR46_9BACI
+MHKDIATPIRTKEILKKYGFSFKKSLGQNFLIDPNILRNITEYAGLTEKTAAIEIGPGIG
+ALTEHLARTAGKVLAFEIDQRLLPILADTLSPYNNITIVNEDVLKADVQEMIEKELADYE
+DIMVVANLPYYVTTPIILKLLTEGLPIKGICVMLQKEVGDRIAAKPGTKEYGSLSIAIQY
+YTTAETVMIVPKTVFMPQPNVDSAVIRLMKRDKPAAEVDDEDFFFKVTRASFAQRRKTIL
+NNLTSQLPDGKQKKEEILASLEKAGVDPGRRGETLSIQEFALLSNELLPLFK
+>tr|A6CK20|A6CK20_9BACI
+MDVRDILNHQKFERNDDQYKAVGDYGMTASATKEASDIGAEVLRNGGTAADAIVAMQFAL
+AVSEPFNTGVGASGFIMYHHKSSGETKVFNGHSKAPESAHPELCYDDSGELIPFVERTMN
+ESFVGIPGIMKALDTINKTYGTKELGELIDPSIDLAENGIEVNFLWDMALKLYGSRVGDS
+SREFFFPKGVPLVEGDLVRNEALAKTFRIFKEEGIDALYKGRIGQAIVDRLQSHNGHMSM
+SDLENYECQIQEPVIRNYRGFDVAVPAPPNGGGTNLLQILKIIEQFDLSGYDASSWEKYF
+ILSEAMRLVFSDKLAYMSDPDFHNIPINGLLDPEYITERAKFIDFNGRNPDIDFGNPWKY
+DTSGMTPGAASQKRTEGGETTHFTAVDRWGNVAACTSSLEHYFGAGIMIEEYGFLLNNDL
+TDFKVEKNHINEMRGGKYPVSAKCPTIILKDGEPFITLGSPGGPTIVSSVAHVILNVLDF
+KMDLKEAIEHPRIYNSTAPEVWVEDDFEDGVKEKLKSLGIEILDDSMPIGNVQAIMIDSE
+NNRLYGAADSTRPGKASGVWKDEAEKP
+>tr|A6CQJ4|A6CQJ4_9BACI
+MEEGKSMNTLNVDIKKGGYEAGNSLIHNIRFSIASGKILGMIGSNGAGKSTTIKGMMGLL
+PFMEGRSDIENGVSYSYIPERPVYYDELTLWEHIEFVGSVENIPQATYKQRGEHLLEKYR
+LIEHAHRFPSTFSKGMQQKGMIVLALLTKPELLVIDEPFIGLDPNATKWMLQSLEEERAR
+GAGVLMCTHVLDTAQRICDEFVVINQGTMLASGTLEEVLRECGAEGSSLYDCIPDEEKEK
+N
+>tr|A6CQW4|A6CQW4_9BACI
+MLTALNNRQKKISLTRLSSEEITLLKEQEFFCPECCSPLILKAGDIKVPHFAHKSRTHCE
+GRHEPETFHHLRGKAILFQHFSSFIPYVALERYLADIHQRPDIFIHFGGRNFALEYQCTP
+ISSTEFTKRTKGYMNAGIEPIWILGKRVKAKGAKTLVLSNFQQCFIRFSPHAGYWIAYFD
+SHSKNMYFFYNLSPVSSNIFTSETLTLHYTSIPFPFTLPCKNDTENHFLASKDSWINSKM
+TYNRGVNDPFLKSLYLNRDHLMDLPDFIGLQTEHTLLFKSHPIEWQYYIWSDVLKKKNKG
+SRIMVEEVKSCLRNRLNSGLIHLRILPLTDNKLKNQALEEYLLLLEKRDIIKKVSGKEYI
+LLSPHTKYH
+>tr|A6CKV4|A6CKV4_9BACI
+MWIEWSLKMNFLLDIKTICVTLVIGHLFTLVLITAYWQQYKKTMTFKSFFYAKLFQALSW
+FLIMLRGDISGFLSISLANTFLFIGISLEAIALLMLRGLFTNRLMKIYAYLTTFNIVGFQ
+MIIFLDNTENARLAFGSLASAALLIIPAYQFITTNKASLLMRLMGYLYFLVVLTLMARGI
+IALFSNITIELVSSGISQSTSFLAVFIIMILSNTGFVLLLKEDADKELIKMAAYDDLTNA
+LNRRTFITRGKQSLKDCVKNKIPLSFILFDIDHFKKINDSNGHNIGDKVLINIVNCINER
+LSSNHLLGRYGGDEFAMLLPGMGDSDSTLFAENIIKDIEKAGINEIQLSYTISLGVLTVL
+PDTHTNLDELYITCDKALYLAKENGRNCVYRICKDY
+>tr|A6CJW3|A6CJW3_9BACI
+MKVVSAAVAGFRRTGGQPAEGHASALSTLLTIENFLFYSCPPKHKLYKLFWKRWRDY
+>tr|A6CIS7|A6CIS7_9BACI
+MEERKGLRITFHTECCRIVRGEVMNTEKETSKFNKWREKYSALIIALVCLNVAIMQWGDN
+WLLTGILILGVFVCGTIGIYDIKRSKQNKL
+>tr|A6CJ47|A6CJ47_9BACI
+MYFHMIMGTVGMVMTGLVLINYFTLVYDAQGYGLGIIGYALTNSYIFYLEKKAGISTKIV
+WSQSILGVLTLGIAAYFLYL
+>tr|A6CPF9|A6CPF9_9BACI
+MKRCFHVVAIPIRIVVNNFGDYNPNGMMYVLKENEHKVKRLVKKNPFSVVDLVQPLIIRA
+NEGDEVEVLFENQLPFNTSMHFQEAEYDVLTSDGANVGFNPDTTVAPGCKILYRLRLPKE
+GAYIFSDLGNPSSSEQGSNSNGLFGALFVERRFSWWTDPVTGGPLNSGLYADVHHPILPS
+FREYAWLFSDEMEINDLTGNNPIDPVTGEPTESFHGVNYRYEPLHRRKQLIDEGVVCPDC
+DGEEVHHDSWVFGDPATPIFRGYVGDPAKIRLIHAGVKETHVFHYHVHQWFNDPDNLESE
+IFDSQAASPQSHYDIEPLYGLGSLQRAIGDAIIHCHLYPHFGIGMWGMNRVFDTLQDGSQ
+SYPNGVKIDALQPLPDRPAPPRPTKEKPGFPNFIPGKPGFKAPRPPLGIVGGRGLTELEK
+NAAVPKARPGAVFADPCIENANVIEYNISLIELPLVYNKQGWHDPKGRIYILDEDIDDVC
+SGRKEPEPLIIHQPANTCIRINYTNRLPHILDGDAFQLVTRSYEAGMHIHFVKFDVLVND
+GANVGWNYDSSILPGETMRYEYYADVELKAWFFHDHLFAVQHQQHGVFGSGVVHPRFTKF
+IDSNGGGEVGAGAQVTAVNPLIPDYRDFSLMVQDFSLLFDKKGNPIQPPEFPGSQDDPGL
+FGVNYKNEPLQFRLGPDCDPAYTFSSFVHGDPCTPILRAYEGDPIRIRLLQGAQEESHSF
+NVHGLRWSKERSDLDSMFREQQHIGISESFTFESYIPRAGDYLWAFETEEDLWNGLWGLI
+RAYDEVVPDLIPLTDRPRPLKRSRLLPYRTGKPPRKGDCFKDDLIIPHKRCVKEFDIVAF
+QVPIIYNEFGDVDQNGIVFSLREDMDDILSGLKNPEPLIIRANVGDEVRVKLTSLLEFDK
+FPFKDGIYPYPTVKEQAFYPPSLRISLHPQLIQYDVKTSSGETVGYNYDQTVGPGESITY
+KWYVDFPVGACGMWDMADIRNHKSQGAFGAFIAEPRGTEYLDPHTLKPVKTGASVVLRNN
+LLPDKREFVIIMHDGVRLHDKDGILITDPIDGILLGPDNPFEGDLVDTYDNGSRGFNYRS
+ERLINRYRKHPVLHDLFSSKLFGDPSTPLFESYAGDPVTLRLIAPAERRRSHTFHLHGHY
+WRKDISDINSVTASFEGFNLAGSKQDFELFGGAGGFNQFPGDYMYRSGNIQWDIEQGMWG
+IMRVHGKRQPHLPPLEK
+>tr|A6CRY8|A6CRY8_9BACI
+MTMKTKEKGGGGFHNRLLFVLKEKLGDNNIQLQKIKQGKWMLQIGKDRWFLKLFPNSRRF
+QLQKSVTKALHLEGFSKVPGFHPLHETDNIEFDGRTVGLTEWIDTNDIFTYTSYNERQAA
+LTLLKEFHQYSGKVLSNGDFTTLPMQRLLNKWSLRLDEFRRNKQKLSVYVPPAIIDTYIK
+TGEKALQGLDQYGFSDQMCILHGDVAHHNFLRGTNNELFMIDLDLITSGPPEIDYIQFAN
+RIFPYINWSLEKLWEHEPFSFFQDNMSFLYSILYPSDVFREWNRFFRGTPDYQKSTWNYL
+MALTVNQFHPRMVCCRDIQKNLY
+>tr|A6CIK7|A6CIK7_9BACI
+MQEVRLVEKFIAKLSGRNEVPPVDTDAFGVAKFVSNKYCTKIKFFLKVKDIDNFVQAHIH
+FGKRGENGPVLAFLFGADLATLEEQNGISTRRGIVTGVITDKDIVDNNVGVDDVEDLLEL
+MEDELTYVNVHTEQNPGGEIRGQIIPLRRRKY
+>tr|A6CHG4|A6CHG4_9BACI
+MIGEKGVRPPAGLAGRLDSAPEVTYPLEPNPAGEAEEANPAPTASD
+>tr|A6CNP2|A6CNP2_9BACI
+MATWVTHFRITEELLEKDIPVSKVAFLVGNIGPDCGLIGENGKPTPPKEITHFKVEGKIS
+SESFYN
+>tr|A6CSD1|A6CSD1_9BACI
+MIEMSMTIASSIIAICMGFFVIFIRMRAQKKPVTAKKIILPPIFMSTGALMFFIPMFRVT
+LAEVVEALVVGMIFSIFLIKTSSFEIRDNDVYLKRSKAFAFILIGLLLVRIAAKLILSNS
+IDYGQLSGMFWILAFGMIVPWRIAMFLQYKRLLNDKDDLTTNTI
+>tr|A6CKZ6|A6CKZ6_9BACI
+MEKEKDPGCQEFDYMNHFLIDQINRISVQDQEKQMREELENNDSS
+>tr|A6CSA3|A6CSA3_9BACI
+MSEKKKLHPISAVANFLKQLKELILPFIFLIFLNRGEEAEGFLEWLPFIIGGGIMVFLLA
+AGITKWLRFSYWLEDGELRIEYGLFVKKKRYIPFERIQSLNLTEGILQRPFGLVKVKVET
+AGSTDQKQAEAELTAISKHEAQELQKIINEAKSTRRNIGTEVEHPEVLTSSEVVFKMDFK
+QLLLMATTSGGAGVVISGVLIFLSQFDELIPYERVFNELEQFVRSGVVLVSMVVIIGLLI
+AWIAAIIGTLLVYAEFTVRKQGDDLIITRGLLEKKQVTVPLNRIQGVRKVENILRQPLGY
+AAVQIESAGGSVLEKESSTIKVLPMIKKQHIAAVMKDILPEYRMSVDFEPVPAKSLKRYL
+FRESLLVTAVIIGLSIAFWPLGLWSLLLYIPFWLFGYSKFRSAGWNIDASQLTLRYRSWQ
+QHTLFMKKNRIQSLETEQNFFQVKRGLANVNATVKSGEAGAAGKIVDLDDESVKTIYQWY
+YPERQEI
+>tr|A6CSC5|A6CSC5_9BACI
+MDYRTERDTIGEIQVPADKFWGAQTQRSRENFKISHERMPLEVTYGFAQLKKAAAIVNNE
+LGKLSDTKKDAIVNACDEIISGLLDEHFPLVVWQTGSGTQSNMNVNEVVAYRANQMIQGS
+GEKVHPNDDVNMSQSSNDTFPTAMHVAAYKEIQEKLKPALEQFHQTLSEKEKEFMDIIKI
+GRTHLQDATPLTLGQEISGWRTMLERSLQMIEESSKHLLNLAIGGTAVGTGINADPKFGD
+KVAAQLGKQTGFSFVSSENKFHALTSHDEVVHVHGALKALAADVMKIANDVRWLASGPRS
+GIGEITIPANEPGSSIMPGKVNPTQSEALTMVSAQVFGNDAVIGFAASQGNFELNVFKPV
+IIHNLLQSTRLLADGIRSFDENCAQGIEPNKEVIDEFVNRSLMLVTALNPHIGYEKAAEI
+AKKAHKEGLTLKEAAVRSGYLSEEQYDEWIDPSKMVNLKK
+>tr|A6CNS1|A6CNS1_9BACI
+MNGTAHMIIGAGAGFLSAHYIQAAPAETVLLIGAGGISGLIPDLDVDGKLSNTFTSSYKF
+LMTLVQFIGVAVIVYSWWAGTDQEMWKGIAAGLGIMLVSSFIKKRHLLTVAGGGALAGGM
+FLAETWLQLLGIYIVIASLVSHRSYTHSLIGLAFFAVIAYYLQASIKTEGILLACTGGYV
+SHLIADMKWLPFNKRGIKLFLPVSRKEI
+>tr|A6CRK5|A6CRK5_9BACI
+MMDEKFTLAAVFISVKEMMIMDQSFQ
+>tr|A6CSV5|A6CSV5_9BACI
+MDMDMDMDMDMAAVIQDTDMVRHLS
+>tr|A6CTN7|A6CTN7_9BACI
+MVPSRLMAFAEVGVDSSAGKLTDEPL
+>tr|A6CIQ0|A6CIQ0_9BACI
+MSISLNPYLFFDGNAREAVHFYEKALGGKVMGIMTYGEGPDNPDYPLSDDMKNRIMHAHL
+KVGEGDLMFSDTYEGMPYQPGNSIQIAIQPKEEARAKEIFAALEDGGQVVIPLHKTDFSP
+LYGMVTDKFGVSFNVNVPMDQPEE
+>tr|A6CJ01|A6CJ01_9BACI
+MNYQTHLLLGWLFIIAAGVIYTLERLRSAIEFVGVNVSDEMYSRSQDSTSLGDNLVFVVF
+LLISFWFFYKAKKMK
+>tr|A6CKD9|A6CKD9_9BACI
+MKWIPRKNKKPLIVFILIILFIAGVLDIIFEGLLFQLLPDAVQAFLKG
+>tr|A6CT62|A6CT62_9BACI
+MALYTAILSQLVGSILIGIFGGRWLDRYLDAAPLFLVIGLLLGLATGIYAMLRTVRTYFS
+GD
+>tr|A6CHS1|A6CHS1_9BACI
+MAKKKQDPSKAGLGSAQVEGQGTTASELPGGVRAESSRKKGKK
+>tr|A6CJK2|A6CJK2_9BACI
+MKVIIAEKPDQGAALAKPFPHKKGQGFIEILPNQLFPKGAYITWAIGHLLQLQSPEKYNS
+QWKRWSIDTLPMVPEKFKYEVTRSKYKQFNAVKSLLQKSSVTEIIHAGDAGREGELIVRN
+IINISGVRKPMKRLWISSLTPKAVTEGFGKLLDESDTRSVFYEAYSRACADWIIGMNASR
+IYSILLKQKGMSDVFSAGRVQTPTLALIVKREKEIESFVSEPFWEVTADFDVEGKVYNGK
+WEKDKDSRLKDKETALKIAEFCKGKPAEVKDISTERKEYQPPLLFNLSSLQATANKVFKF
+SPQKTLETLQKLYQKGIVSYPRSDSNFVTKGEAETFPEILNKLNNLDAYKELFPLPVKSV
+INNKRYVNEQKVTDHYAIIPTEQVKNPEKLPADEQKIYDLVVRRLIAAHYEKSIFDYSTL
+VTLVDGRAEFISKGKIQIQEGWRKVIFQNEKDDEQLLPQVSAGEQGKVKSVKVKEGKTQP
+PKRYTEGQLITLMKTAGKHLNDEELEKVLSSTEGLGTEATRASIIAGLKDRKYIEVKKNT
+VFATDKGKVLIEAIGEKILASPEMTAKWEQRLREIGKGQASAPQFMEQVKKLSGKIIEDA
+IEASQKWTFEGIDTESIQGSRSRGSLGKSIGSCPFCKAKVIDKGEFYGCSAYNKTKCSFT
+LSKMIMKKKISQTNAKKLISDGRTDLIKGFKKGERTFDAILTWNEENKKLELEFQK
+>tr|A6CQS3|A6CQS3_9BACI
+MFFQKKGKLRKEYDNKLLHTLEDAKKDWISQKALEDMSIENSFEINYLSKIAEAKYFFFF
+REAKNRKVVIKR
+>tr|A6CI81|A6CI81_9BACI
+MSQRENRFGYAQNREERRTITSLWEQVAAKRKDPFPSSFYKDNEEESSDSVEEKVERKRD
+TIAPPLIFSPPPVPAVIRSSKKEEVVENKEDKEEESPAPKKRKKDEIISVPDESIDEYLV
+KAEKEKEADILSEDDYEFLYGEEEELVDKPEECEEMDDEETTECESVEEKVEKPCTKKSK
+PVLVKLPVMLFKETVVIDIFDSFNLMDSVMEVTNMSWKIKSFKGHAVLPSNTVFIKLILI
+GDLEFVSGSGRMHTLQMEVPLERHVNVNCITSPEISYAESHEYWFRSKMDPDISVHRSFE
+ETLVSPVNFKYNSFDIIWHQEMITTPGGDQRVALKGCAELSVEGFQSQLVEIQRCSKDGP
+SSSADY
+>tr|A6CJP2|A6CJP2_9BACI
+MKDINNFERRINMANRNEKKLPYKGINTEKNNGLSSTQEVLYAKEFKSATKEGYPSEVKK
+DNQ
+>tr|A6CNQ2|A6CNQ2_9BACI
+MYQYLTYGKELQSLAEKTEDKIAGIHQKIDRRAEANQFRVLSSFQKHRVSDSHFIPTTGY
+GYDDIGRDTLEQIYADVFGGEAALVRPQIISGTHAISISLFGVLRPGDELLYITGKPYDT
+LEEIVGIRGEGTGSLKEFGIGYQSIPLKEDGSVDFDIVAKSIKPNTKMIGIQRSKGYANR
+PSFTVDQIKEMIDFVKEIKPDVVVFVDNCYGEFVEEKEPCHVGADLIAGSLIKNPGGGLA
+KTGGYIAGKKDLVEACSYRMTSPGIGAEAGASLYSLQEMYQGFFAAPHVVAQALKGAVFT
+AAVLESLGMNTNPAWNAERTDLIQSVQFDDRDKMVAFCQAIQFASPVNSHFTPHPNYMPG
+YEDDVIMAAGTFIQGASIELSADGPIRPPYTAYVQGGLTYSHVKIAILTSINKLMEKGLV
+TI
+>tr|A6CQQ1|A6CQQ1_9BACI
+MKSFESHAQNEMEMWKRKKLKRAGIVNRTAKKAQIKFNSVIPEKVHKMVTDSIKNMVKVT
+LAGSGFTSSNKIIVPESLEEKEKYMKERLSFYRKAAAVEGAGTGAGGIFLGLADFPLLLS
+IKMKYLYEAAQIHGFDPKDYEERLFMLYVFQLAFSSDAHRREVFSIIDGWKEFKKKAVDL
+DWKVFQQEYRDYIDFVKMLQIIPGIGALIGAYANYGLLEELGEAAIYAYRSRYFK
+>tr|A6CPV2|A6CPV2_9BACI
+MRMRGHLLFYGKDLTGYAKSTTVTPNTTNFLHLLSNFLYAKSDNGHLESWDDCCHAFWDE
+FITTYCPHTLKLSHKEKEAERFLFQLIKFGNWMDTHRKTSLLASIHPCIQTHKPDVILCE
+KILNHLLKNQFPNLLHKNWDCVKALEKMKAAYSRYTAVVEGLFEVTGIIEQVVVIKHVET
+NQSYTVKGLTCNLVKPHLLINGEIGRHYRETKWNWFFTLGVYPKQSKKYLPPHTETAEAG
+LYPNLSLRR
+>tr|A6CKX6|A6CKX6_9BACI
+MIKIMADSTCDLSDEVLQMYDISLAPLTINIEGKIYRDRVDIQPDEFYGMMEALPDFPTT
+GMPSPAEYLKIIKQAVEAGIKEVLCICMSSGTSGSYQSAIIAKDYFFEESPESNVKIHVV
+DSKCMSHGSGWLIMKSAMMREQGASFEEIVAFNEKYKRKIKHFLSVDDLDHLIKSGRLSN
+TSALIGKILMLKPIMTMKDGKGAIVGKERGLKRVLNHYTQEFMKRNDQELTDFIIVGYTS
+DIKVAENLKAKLQSDTGFSGDIYIMQMGVSVGTHVGLGAISMYFVEK
+>tr|A6CR27|A6CR27_9BACI
+MKATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDRDGEVILKKYSPISELSDFAK
+EYAEALYDSLGSSVIITDRDAVITIAGGSKKEFLNKNISDLIEKQMGERNSVLHTQQGKI
+ELVEGVEEEVSSYTIAPIIANGDPIGTVTIFSKDKTIGEVEQKAVETAAGFLARQMES
+>tr|A6CL27|A6CL27_9BACI
+MFLKLTYVLNITENLTDYTCFVYARLSIYKFLLFKAVFRLGEGLRMAGGHTPSSS
+>tr|A6CH70|A6CH70_9BACI
+MKGEVGSMKFENLLESLRVDNSEIISFRYHKIVRTINQYYWRINSDSKNCRYVGSYGRGT
+AIKNLSDIDMLVILPKTLFTRFSDYKFNGQSSLLQNVKKALNLTYARTSTKADGQVVVVE
+FSDGTKFEVVPAFKEGELFFYPDSNQNGSWKKCNPIKEVEAINLINKFSDGRLKKITKLT
+RAWKKANDVDISGILIDCLAMEFILEKDGKYPTIEILFGEFLLYLAKQREKENWWILGSN
+DIINRNGMLFEEKALKGVDSLLSGVNLKLKGLTLSADEHWKNLFGKFVNGVM
+>tr|A6CR87|A6CR87_9BACI
+MEGPELQSLYKSYKPYVSPFDPCPPIKVKTYSTPPNLYLGYQPPDLPQFTPKEALKAGTL
+WKVFYDPYYSPYEKYKE
+>tr|A6CSQ0|A6CSQ0_9BACI
+MKSSQFHTYIRGIILIGYALLILKLFLTFDMVNFVASKMHGYMYFALGVFIFLGAVQIIR
+GTSSSTKSHDCGCEGHEPPKGFIKTTVVYSLFVIPVIMGFLLPDNLLDSSVAAKRGVKIG
+DSMFTAPPSSGKTVVEKEEQSEEPEGDSNEPELGSYEDFPIEPDFEKLKEIVFDREKIIV
+RDEQFIQTLSIIDENLNEFTGREIQLTGFIYKDESFVENQAVISRFTVTCCVADAGVYGL
+LTEDDELAALEPDTWVNVSGVIESVDFHGNMMPVIVNPVFELIEAPENPYVEEFFIKIE
+>tr|A6CHR8|A6CHR8_9BACI
+MKINVDPPKNLMFNSFFVMFVIHVAQTGVGVAGLPRVLFLEAGHDAWISVLFSGLLLAAA
+ITVMVLLLKNYDSADLFGIHKDLFGKWIGGLFSFVYISYMLTIAYLIIMHYTEMVQAWVF
+PQMPTWVLSGLLIFLTVYAVLGGIRVLVGVSFMTFVLAFWLLFVMYAPIKYMDFNHFFPV
+WNHSIKELWMGVYKTSFSVIGFELLLFVYPFVKDKNKVFKYTLFGTAYTIFLYFVVTFVS
+IGFFSEMTLEKTIWPVLSMFKIVRIPNLERFEFIAVSYWMFVILPNVCLYFWAATRGMKR
+VFGLKQKKSIYLFAALLWISTFFIDQRIEMNTFTDKVGTASFYLTFVYPFLLLAIVLTKK
+IFKKYKGASA
+>tr|A6CJL3|A6CJL3_9BACI
+MKEIWQHTDLNQLGRRNGTSVLKKPHQKTILIIAKSLKALYNESIQR
+>tr|A6CP29|A6CP29_9BACI
+MKVPMLDLSEQYSELREEVLKTLDEVMSSSRFILGDNVKKLEQDIAEYSKVPHGIGCGNG
+SDAIHIALQAAGVGAGDEVITTPFTFFATGGAIARANATPVYVDIDPVTFNIDPEAIEKA
+ITDKTKAIIPVHLYGQMADMTRIQQIAEKHNLFVIEDAAQAIGAKHNGKSVGELGTAATY
+SFFPTKNLGAYGDGGMIVTNDEDIAEKSRVIRVHGSKPKYYHHVLGYNSRLDELQAAVLN
+VKFPHLDKWSQLRREKADTYTKLLHEMAGEKVTTPVEVEGSYHVFHQYTIRVEKRDELQA
+FLKEQGVATMIYYPLPLHVQPVFKDLGYSEGDFPVAEKAAKEALSLPMFPELKEEQQIYV
+VQKIAEFFNK
+>tr|A6CMG2|A6CMG2_9BACI
+MRRRRNFPLPVIVAGISIIIILAFVLRSCAGGSTPPSSPESVIKQFYEYEQDADFGNAWE
+LLHPEMKKRFSKSSYIQTKNHVFLGHMGVETFDVEIAEMEKLEEWKMSKDGPVFKNVTAA
+SITMTFDSQFGLLKISQKCYSVLEKGEWKVVWDYHF
+>tr|A6CH98|A6CH98_9BACI
+MRELQMWEGNEGISTQFNDVEEFAQLCRFRDCSHEDEPHCAIRKAIEEGGLSEERYRSYQ
+KLLREIEYSKRRADKRLQSLERKKWKNIGQNRVSRR
+>tr|A6CMK2|A6CMK2_9BACI
+MIVAVGVRLPAGLAGQVRPHRRSRGGSPPAPRSRTPEAEINYLIKLAAIFIKKALKNRGK
+IQ
+>tr|A6CI42|A6CI42_9BACI
+MNVNRIVSSIYISVSLLLFFLLILAKEVLQLMNSLLWFFPWAALVIGGCYLYADLDTIQK
+KKAEDKK
+>tr|A6CJ85|A6CJ85_9BACI
+MLMSKERKITVFLAVSAPSFIAAGMALKQFMYFAPLVGWLACLAAQVTALMYAFKAHKKQ
+R
+>tr|A6CMV4|A6CMV4_9BACI
+MFKKREIFTKRNQTKEENNMKKKQKQQKRPSSKNNEELTLKDTLQSDMFQALKDKKKELE
+KAESIRKEEEEKRKREEMRQREKNKSFEELLGESSMNWKDFK
+>tr|A6CMG9|A6CMG9_9BACI
+MLTINKDRIFYSFTKENSISHRVASGTTLAIETCDCFQDQITSEETELKALDWNQINPAT
+GAVYVEGANPGDILKVKIEKIELGDRGVMMVQPGLGVMGHRIEESQVKMILIEGNEAIFS
+EEIRVPLNPMIGVIGVAPEEGAVSNGTPGAHGGNMDTKLIAEGSTLYLPVFQEGALFGLG
+DLHAAMGDGEISVSGIEIPGEVTVTLEVVKGSSIPYPFVETSEGLAVIVSKETVDEAAKS
+AVEIMIDAMLPQTDLTLNELTMLFSAAGQSQISQIVDPLMTARFFVPSYLLDKIGKPEFL
+VKKE
+>tr|A6CSN2|A6CSN2_9BACI
+MSLIELILLPMLMGGIGGLGHILVFKGGRFTFPRTFVDEDGEKHYVFGSSKDIIIGVLAG
+YLSVLPVVETVPVWYVIYISLLSGIGGSSVITRKIEQNLERTKCDYLQELSKYQLETTST
+IGGSSKHNEVKPVGEVQKREENNG
+>tr|A6CQW7|A6CQW7_9BACI
+MRYLSAIAKIKQTINAKRSLLMEKHKTPYETIGEKKLSMLVDAFYARVGKHPDLIPIFPN
+DFSETSRKQKQFLTQYLGGPPLYTEEHGHPMMRARHLNFEITPARAKAWLACMSEAMDEV
+GLEGHFREEFFSRLVLTARHMVNSPDHTHGEES
+>tr|A6CRP2|A6CRP2_9BACI
+MAFQILLNFFLAFLWMFLQVSFTSTSFIIGYILGLIITFAFRRFFNSRFYLWRVFAVISL
+LLLFLKELILSNISVLKTILKPRLDIKPGIFELPTELKTDWEITLLANLITLTPGTLVVD
+ISYDNKILYIHTLDIPDVDEAVNDIKNTFEKAIMEVSR
+>tr|A6CTN9|A6CTN9_9BACI
+MGKSNKSKRFVQQGKDAVSKHDDRIPYHSTLAEAEAKKLENVENSSLGGI
+>tr|A6CJ30|A6CJ30_9BACI
+MNSGGINVLWVKFGLFVLIVFAIVSAVKFLLRKTFKIEKVKKNLFSYNYINDSHRKVDKW
+VRIVTAPTLMVMALLIINKGLINLYLIAVIILFTLDYGVRAFFELKYSEFPKQAILTIAE
+MLLVLTAFIIVVQYWIA
+>tr|A6CNM8|A6CNM8_9BACI
+MLGLPRGEVFLVPWTEEWEMEFLSEKEMIEDKLGKHIVAVHHIGSTAVKGLSAKPIIDIA
+VEIKEFRKGDLCIAPLEDMGYDYKGTKILRERHYFSKGEPRTHQIHMYERGNKYLLQQLK
+FRDHLRSDGNTLTKYEELKLRLSQINKSDKHKYAEAKTEFIESILNRKT
+>tr|A6CPI2|A6CPI2_9BACI
+MKKFNYSKTLEDLPQQFFAKLVKDVSKVTSEGHDVINLAQGNPDQPTPEHIVRSAQAAVE
+NPLFHKYSPFRGYTFFKEAAAEFYKREYNVDIDPETEVAVLFGGKAGLIEVSQCLLDEGD
+IALVPDPGYPDYWSGVSLARAEMAPMPLLEENQYLPDYPKIDEATLSGAKLMFLNYPNNP
+TGAIATSEFFEETVRLAKENDVCVVHDLAYGAIGFDGEKPLSYLQTQGAKDVGIEIYTLS
+KTYNMAGWRVGFAVGNPSVIAALNLLQDHLHVSLFGGVQEAAATALTSSQECVDELVSLY
+ESRRNFLIDHLKEIGWDVDPPKGSFFAWLPVPEGFTSQSFFNKLLEEAHVAVAPGIGFGE
+YGEGYVRVGLLREEEELAEAVRRIGKLGLFKK
+>tr|A6CLE1|A6CLE1_9BACI
+MKDQIIAAIKEYQTIIVHRHVRPDPDAYGSQGGLVEILKASFPEKNIYAVGEEEPTLHYL
+RRLDKVEDSVFKGALIIVCDTANSARICDDRYELGEKLIKIDHHPNEDPYGDLLWVDTEA
+SSVSEMIYLLYNHGKDQGLKMTDEAARLLYGGIVGDTGRFLYPSTTQRTFDVAGELIRFD
+FDRNELYNKMYESDPQVLKLQGYVLQNFEMLENRVGCMIITKEILDDFGLVPAEASLLVS
+SLGNVKGIKAWVFFIEESDQIRVRFRSKGPVINTVAKKYNGGGHPLAAGASIFGWEQKDE
+VLKDLIEVCEQS
+>tr|A6CSS7|A6CSS7_9BACI
+MHDAAFSLNKSEKMFLDYSELLGFTMKDNYTKQIHYLMTALTGATQVWLMLDVTFLTTD
+>tr|A6CUD7|A6CUD7_9BACI
+MEYNDQMKNRVKRIEGQLRGILKMMEENKDCKDVNTQLSAARTAIDRTIGVVVSSNLVEC
+VREAEESGKTNTEELVKEAVNLLVKSR
+>tr|A6CUC2|A6CUC2_9BACI
+MEINYTSAENTKKRLCPKTETLSARFHSVWVKYWFFPNFIPCNGRKPPLHTIFNKGLRGA
+FQKMRGLNHFQPVMVLSEKLHFFTSPLQHFFLFGLLYF
+>tr|A6CJ74|A6CJ74_9BACI
+MTYIYQKARELYEKEAKQYEKRIPEKRAYFKKQKRKFLK
+>tr|A6CM79|A6CM79_9BACI
+MGDFKMEIDLLLPNLLKQRAFLTPKRRALTFEGHRYTFREVYDVARSWAGALHDIELKQG
+SKAGVLIKNNKEGYFLLLALQQAGVTAVMLNNRLTIEELAFQIQDTGVDALFYDADFQSV
+ALELKESIANKRVFSISEIEVRQTDEFQPQDQVEMSSVCTIMYTSGTTGKPKGVLQSYNN
+HWWSAVGSALNLGLKETDTWLCAVPLFHISGYSILMRSIIYGMEIKLYERFDEEMINQDL
+KKGGVTIISVVSAMLQRLLKNLGEDIYHPDFRCMLLGGGPAPKSMLQQCKEKGIPVFQTY
+GMTETSSQIVTLSPEDSLEKLGSAGKPLFPCELMIVHNGQKAGAHVQGEIAVRGPNVTRG
+YYNREEANKESFMDGWFLTGDIGYQDEQGFLYVLDRRSDLIISGGENIYPAEIESVLVSH
+PEIAEAGVVGIESEEWGQVPVAFLVPEIPLETSEVKEFCRTKLAGYKVPHQVYFVENLPR
+NASNKLLRKDLRELIQKGKVNEN
+>tr|A6CI05|A6CI05_9BACI
+MIQEIDLDEIDSVLLPGCMDIMLLKDEEEIFHFLEAAADKVSVIAAISSSPYLLARAGLL
+KGKRYTVGLAEEARESSGIFEKENYSDELVVQDGKVLTARGRGFIEFGTHLGNVLGLSFN
+GGWYRC
+>tr|A6CRM4|A6CRM4_9BACI
+MELYLKQLTQEDAENLYAFECENRAFFEKMVPGRGDEYYQYENFLERHRALLDEQEKRLS
+IFFLIKDKTGNILGRLNLVDINQDIGTGHIGYRVGKAFTGQGIANRSLTLLLRDNDEYNV
+REIHAKTTVNNIPSQKVLLRNGFLLTNTEEDQASGETFLHYLWSHAVKRKGG
+>tr|A6CJZ8|A6CJZ8_9BACI
+MLNAVFVYIVALGKIQRAGFFPWRQGLFSLNKVN
+>tr|A6CPG2|A6CPG2_9BACI
+MNKGYSTSGSLGAGIPVLKTLMDDFSLETSPKSGTKITVVKWELL
+>tr|A6CPY7|A6CPY7_9BACI
+MCGITGWIDFKKDLRNAEKVLESMTETLSKRGPDDSNVWLDTHAAFGHKRLTVVDPEGGK
+QPMAKEKAGQRFVICYNGELYNTEDIRKVLHAKGYTFKGHSDTEVLLTSYIEWREECVDH
+LNGIFAFAVWDSEKQHVFVGRDRLGVKPLFYSEKGNGLMFGSELKALLAHPSVAAEVDRE
+GLAEVLGLGPSRSPGSGVFKGIKELRPGHAMTFSKDGLKIWRYWNVKSAEHTDSFDETVE
+KVGFLVKDSITRQLVSDVPLCTFLSGGLDSSAITAIAANSYREEGKGSLHTYSIDYEGND
+QHFKSNKFQPNSDSKWINLMSETFQTVHHNCIISQEELKNYLTEAVHVRDLPGMADVDSS
+LLWFCREIKADFTVGLSGECADEIFGGYPWFHNEEDFNRKGFPWMRSVEERQSLLKADLR
+KKLNLEEYVLSQYNETVAETPILEGETPVEAKRRELFYLNIIWFMTTLLDRKDRMSMGAS
+LEVRVPFADHRLVEYVWNIPWKMKMHENREKGILRKALEGTLPDEVLYRKKSPYPKTHHP
+VYTSLVKNWLGEVLQDKSSVLYELFDHQQLKALVETNGEAFKTPWFGQLMTGPQLLAHLA
+QIHVWFKDYNINIVD
+>tr|A6CH73|A6CH73_9BACI
+MFEGEEWAMFDPTAYENLKVVMQGALYELELMGSLKVVNREDNIDLASLKRRYSLTLCNP
+LKEGVTVKVTLSAGIKEWNAEAFPESGGEPGAMLQIQYQSTGRSFPENFITSLKDWWGPG
+RNIEWREITSTNKPFLHQGIVYFNRIITEEMVDDLEEVAVHVENSLLHLL
+>tr|A6CLC7|A6CLC7_9BACI
+MAKMIAINAGSSSLKFQLFEMPQEEVITKGLIERIGLNDSVFSISVNGEKQKEVTDIPNH
+EVAVKMLLDKLTSAGIIESLDEIEGIGHRVVHGGEIFNDSVIITEEVIEKIEELSELAPL
+HNPANVTGIRSFQSVLPNVPAVAVFDTAFHQTMPESSFLYSLPYEYYENYGIRKYGFHGT
+SHKYVSERAAEMLGRPKEQLRLISCHLGNGASIAAIEGGKSIDTSMGFTPLAGVAMGTRS
+GNIDPALIPFIMEKTGKSADEVLDVLNKKSGMLGVSGLSSDLRDIESQAEEGNERAELAL
+EVFANRIHKYIGSYASRMYGVDAIIFTAGIGENSDIVREKVLKGLEFMGIYWDPARNKVR
+GEETFINYPHSPVKVMIIPTNEEVMIARDVQRLTV
+>tr|A6CMM8|A6CMM8_9BACI
+MEKVLIFGHKNPDTDTICSALVYADLKQQLGVNAEPVRLGEINGETQYALDHFKVEAPRL
+VEKVAAEAKEVILVDHNERQQSADDIEEVRVLEVIDHHRIANFETSDPLYYRAEPVGCTA
+TILNKIYKEKGLNISKEMAGLMLSAIISDSLLFKSPTCTDEDVQAARELAEIAGVDADEY
+GLEMLKAGASLGDKTAADLISLDAKEFQMGNYKVEVAQVNAVDTDEVLQRQSELEEAISK
+AVSEKGLDLFLFVTTDILNSDSVALALGEKAEAVEKAYDVKLDNSTAVLKGVVSRKKQIV
+PVLTETLKNM
+>tr|A6CJQ2|A6CJQ2_9BACI
+MFNNKLEEALQQVEMAERNLLDAQGNNDPQHYQRAAQDIHYAQALLTSIHDSMMSAPEEE
+QKQYLHAKERMRILQEAHSSL
+>tr|A6CQA8|A6CQA8_9BACI
+MFIDVRSTNNANEILIMMSTLNSQGGKGMISMATMRMTLNSTDKSLADICIPS
+>tr|A6CQI5|A6CQI5_9BACI
+MMLWETFDKNEIYISVMLLIAYSAFFIFPKVLPRNITALFLVWGFASSTLFDFTIGGGML
+DFYKVNDSNKYELFDLLSYFLFAVFSYFFVYFYEVLKVKGMGFVLYIAGWSLVGLAMEKV
+SSLMGLTHYQNGYEIYYSLAVFLVVQSTTALYYQLVRKAIQ
+>tr|A6CS54|A6CS54_9BACI
+MEDLNNSEQGGFEVLEEQHDFFKTTEELVEWVMKFLTADHFSDGWNEEVYFTIPHIEE
+>tr|A6CUB4|A6CUB4_9BACI
+LNSINQHGGENSAFDMAGQESADTDSGQEEIAALPESSENTEDAGTNSFMDQSTEESTLL
+KAEPSDKTNVYQADLLQYDLFTFGLVTPDAISVPVSLMVEKKETGNWVERFTEVSQSIPE
+QDWGFEDYFPLPGSVAEDKETGQLTYTVTDDELNNSGGGEELLYESLLFALEASPYDKIM
+LRKSDGSVPSFSHMGKISEINIADQAKKAYYQYTHENGDIFLVPGEAAFESISEALTAMK
+SSPNDDFEPIIAKDIELTSTSKNKLLTISFKEEPTMNDARLLLIEGILMTAKEFGFDEVL
+FQNLGSATWEGFDLSKPVSVPVSPNKKILN
+>tr|A6CJQ5|A6CJQ5_9BACI
+MNKTDLINAVAESAELSKKDAENAVKAVLQNIEDTLAKGEKVQLIGFGNFEVRERSARKG
+RNPQTGEEMEIPATKQPAFKPGKALKDSVNA
+>tr|A6CN41|A6CN41_9BACI
+MTGYRLDRTGEGALIFTITREEKRNAINYEVMDGLKAAIHEAAGDDNIKVLIITAEGEKA
+FCSGGDLDTFHGLRTEEQAYSMLKKMGDILYQLAALPKITVALINGSAVGGGCEIAAACD
+FRVARMGAKMGFIQGRLAITTGWGGGSLLMEKLAYPHALYLLGTAGLYTSERLFEIGFVN
+ELLETPDISSVLQFMEGFLTKDVRVLAAYKKAATEKWESAQLRERMEKEIRQCAKLWEKE
+EHHAAVDKFLSKRLN
+>tr|A6CMV0|A6CMV0_9BACI
+MVIELIFGSGGISMDLPKKVTMIEVGPRDGLQNEKNFVPTDIKIQFIRALKEAGLKEMEL
+TSFVSPKWVPQMKDASEIVESCLNSERDIVLAPNRKGVDRVLETKGKAVAVFVGVSNSFN
+KKNINKTTAESLEELKPIVGELKEKGYFVRACISTSFYCPYEGKIPPQETLQLCREFVDM
+GVDELSVADTIGMANPKESFELFSLLKKTLPEVLMTAHFHDTRKMALANILASLQAGVDR
+FDTSAGGLGGCPFAPGASGNAATEDVVFMLHQMGIETGVDLDSLTAAVNLVAPHLSRTID
+TGYYKLQTSAQ
+>tr|A6CN08|A6CN08_9BACI
+MVTAVEYYETSSDHFYQKQLFNILIGFGAFLFAAAFPYKAFTRFKFPLKLVLFGTIGLLL
+AVHFVGDEVNGAQSWLDIGFMQIQPSEFAKLTVIIYLSAVYAKKQDYIDQLNVGVMPPLL
+LFGFICFLVFLEPDYGTAGIIFMIGCFVILCSGISFKMFFKLGAVGAVLLLILSPFIYLG
+RNYIFTDERVGRIHAYLDPFQYAQGEGYQLVNSYLAIGAGGIKGLGLGQGIQKLGYLPES
+HTDFIMAIIVEELGLLGVAFVIVGLAYIVLRGIYTGVKSRDPFGTMLAIGISSMIGLQAF
+INLGGVSGVIPITGVPLPFVSYGGSSLLVLSLSMGVLVNVSMFVKYDEKYRMKKEKTAVS
+SGEVKNVYSIK
+>tr|A6CTE6|A6CTE6_9BACI
+MDKNLKGIQLLQEGKVEEAVKFFTEAIEENPTDPVAYINFGNVLLSVGENEKAEKFLKRA
+ISLDGEAASAYYSLGNLYFNAENFDAAKEAFETAIKKGLENEDVFFMLGISLVNLELPKL
+ALPYLMRSVELNGEDAEARFQYGLCLAKTEAYKEAIEQLEIVVEQDPEHADAYYNLGVAY
+AGFTDDADKARSCFEKALEIQPDHMLAGYGLKMMDQLGEEN
+>tr|A6CSF6|A6CSF6_9BACI
+MRITYIDDMEQWKDQFEFFIGIKVRFSETDMFGHLNNTVPFTYFEEARIEFFKSKGFMQE
+WVHPENETIPVVADLQCDFLRQVFFDQTIRVYVNANKIGSSSVDLHYMGMDERDRVCFTG
+RGTMVQISKKTGKGVPWTEEMKSKLSSTEKLTKSC
+>tr|A6CJ71|A6CJ71_9BACI
+METQELAVKEQSIFHHVGNKIKTEDREINIIAKLEEPLIVVLGNVLSDEECDALIGLSKD
+KLKRSKIGNTRNENDMRTSSSTFMEEGESEVVTRVEKRISQIMNIPYENGEGLQILNYKI
+GQEYKAHFDFFKNASNPRISTLVMYLNDVEEGGETYFPKLNFSVSPQKGMAVYFEYFYDN
+QELNDLTLHGGAPVIIGDKWAATQWMRRKQVK
+>tr|A6CJD7|A6CJD7_9BACI
+MKTGSAKQMAAWEAVNQLGILSDLKEYKPVLCGTIPIGIDTADSDLDIIMEVQDFEKFQR
+RLNKLYSHYNDYRIKRLFIRGMEVSKANFSYSGYQFELFGQAQPVNRQNAFLHMMIEHEI
+LQKNPEMKEEVISLKKTGMKTEAAFCKLLGIEGDPYSGLIEYGDANGYLKRP
+>tr|A6CNF0|A6CNF0_9BACI
+MIEGGNKMNLIPTVIEQTNRGERAYDIYSRLLKDRVIMLGSGIDDNVANSIVAQLLFLES
+ENPEKDISIYINSPGGSITAGMAIYDTIQYIKPDVQTICIGMAASMGAFLLAAGAKGKRL
+ALPNAEVMIHQPLGGAQGQATEIEIAAKRILFLREKLNQILSDRTGQPLEVISKDTDRDN
+FMTAERALEYGLIDRIITSNEMNENK
+>tr|A6CUH0|A6CUH0_9BACI
+SFDELREAIGAASKGIQEMKIASFAVALDTFATDQLDASDAAHAVSEAFTMATYRFPGYK
+HKGNVPETFINSLTAFSKEDSAEIEAALQVGYAHGRGVNSARALVNAPGNILTSTKLADY
+AAEIGKKYEFEVEILDKEEMEKLGMGALLAVNQGSVEPPKMIVLKYQGRDEWNDVIGLVG
+KGITFDTGGYSLKPKDGIVGMKTDMGGAAAVLGAMEIIGELKPEQNVVAVIPSTDNMVSG
+NAFKPDDVITAMSGKTIEVLNTDAEGRLALADGMTYAKHHGANYLIDVATLTGGVIIALG
+NDKTGAMTNDEALFEQVLEASSEAGEFIWRLPYTENDKKRVRNSKIADLNNSPGREGHAI
+MGGAFVGEFAEGTPWVHLDIAGTATSKSDYDLGPAGATGSMARTLALLVERFEPTEK
+>tr|A6CRD3|A6CRD3_9BACI
+MQVFKLQKQFTPYVPPSIKIKKICNEKLIMFKYRGNWKDKIRRKFFGFILVVEENLDIEV
+SNI
+>tr|A6CSS9|A6CSS9_9BACI
+MNNIEINYCLDCGAKQSKNEAQCENCGLDFTFLYSINPEIKKRKSKPTKKEENLP
+>tr|A6CIT5|A6CIT5_9BACI
+MKKWLAVVMVCLLVFGMSACSSSNEKTSGEGVTLNALFMKQAGYSEEDVKNITKEFEDKN
+PGIKVNPTFVPYESLEQKIQTSAKSGGYDVVIVDAPWTAKFAQAGFVKDVSDKISDDVKS
+EVFQGALDSVSYDGKNYGMPWLNDTKYLFYNKEMLKKAGFENPPETWEELMEQAKVIKDK
+GIVEYPIVWSWSQAEALVCDVTALVGSFGGSLVDDNGKPTVTSSENEKAVNFMVDSLSDG
+ISNPESTQYLEEDVRGVFSSGKAAFALNWTYMFNMANDEKESSIAGQVGISPVPGANQST
+GKSVNGGMGLSVTSGSKHDEEAWKYIEYLSSKEVQKNYAKNALPIWKSLYKDEEVVKTGP
+EVVEASKTQYENLVNRPRVPWYGEFSNVIQVELQKALLGSEKTFEALSNIQNKAKEITN
+>tr|A6CT03|A6CT03_9BACI
+MDKTSLIGVILGVFAVGVGMVLKGVPVDKLMNLPAILIIIFGTIGAVTIAFPTSEIKRVP
+KLFGVLFKENTLQEPKELITMFSEWADLARREGLLALEAKTSGIEDPFLKNGMGLAVDGQ
+NADYIRDVLNEEIDAMEERHQAGALIFTQAGTYAPTLGVLGAVVGLIAALGYMEDISKLG
+EAISAAFVATLLGIFTGYVLWHPFANKLKRKSKQEVKIKVMMIEGVLSIIEGEAPRVIEQ
+KLASYLPASERKRIMEEEVVKDDTAA
+>tr|A6CLE4|A6CLE4_9BACI
+MINSEIDNLLPLPAPETEPRTAYIYIYMGLAAYI
+>tr|A6CU23|A6CU23_9BACI
+ERDAEEAGQDIEEAAEDAGDAIDDATQSTEEEIEEEANEALDEAEEELNEEE
+>tr|A6CU55|A6CU55_9BACI
+MCGFFFFILNNEGGVGGLAKYILSLDQGTTSSRAILFNKKGEIVHTAQREFTQHFPQPGW
+VEHNPNEIWGSILAVIATVLSESSIKPEE
+>tr|A6CKF3|A6CKF3_9BACI
+MAIDYSERGFEENIEESLRQSGFLKRKLTGQALDSFKKYALDVEVLFQFLEATQPKALER
+LHKVYKEQYKAKIIDRLHKELGMRGTIDVLRHGIKDYGVTLKLAFNKPVSTMNRTLIEQY
+ERNIFTVSRQVFYSSKNNNSIDKMVSLNGLPIAVLELKNQLTGQTVEDSKKQYRNDRDPR
+ELLFQFKKRAIVFLAVDTDEVYMTTQLNGEKTFFLPFNKGNEGGKGNPIVYNDYKTSYLW
+KDVLQRDSLLDILFRFVYVNQEDILDSTGEIIDKRETVIFPRYHQLDVVRKIEDDVTGKG
+VGQNYLIQHSAGSGKTNSISWLAHRLAKLHNQDDDAMFNSVIVITDRRVLDKQLQDAVYQ
+LEHKAGLVEKIDKDSSQLASAISSGTRIIITTLQKFPFIMEKVGDFAKGKYAIIIDEAHS
+SQGGKASTAMTNILSDKSLEEAVEADRIAEEELGDMEEKIAEVIAKSGRQDNISFFAFTA
+TPKAKTIEKFGTYDAEEKPHPFHVYSMRQAIEEGFIIDVLKNYTTYKTYYKVAKSVEDDP
+EVVKSKAAKQIAKYVSLHPHNIAQKTEIIIEHYRSVTRYKIGGRAKAMVVTGSRLHAVRY
+KHAFDKYIKSKGYDDMKAVVAFSGTVEDNGISYTEPDMNKFSEKELPDKFHSDEYQVLLV
+AEKYQTGFDEPLLHTMYVDKPLSGIKAVQTLSRLNRTCKGKNDTFVLDFVNEAEEIQEAF
+QPYYEVTGLESTTDPNVLYDLERELDACQVYTKVEIEEVCKLEFNGKKKTAKTQEMLNAL
+LDKAVERFNNQIDKEQQEDFKGAATKFIRTYSFILQIAPFCDVELHKLFVYLNYLLKKLP
+KRTTDDVYLADDIALQYYRNEKVFEGSIALNVEGGAELHGTKHGKGGGKEEEKERLSSII
+DRLNEKFGTEFTDTDKLSRDQIKEDIINNEDLASKARNNTKDNFKFSYEKAFMDFVISRM
+GQNEKFFMKMLENSEFRSFIMDDMFEEVYTELNIS
+>tr|A6CPL1|A6CPL1_9BACI
+MGASDVIPGVSGGTIAVMLGIYDRLIAAINGIFSKDWKQHLRFLIPLGIGVVTSILLLAK
+LIEWLFEHYPAPTQFLFMGLIIGIIPYLAKKSEMKAKFQPYHYVLLLIGAVIVASMVFFK
+SEETAVIQEITAGTYMLLFFSGFIASAAMILPGISGSFILLIIGVYSTVISSISNFQLDV
+IFVVGIGILLGIIVMSRLIKFFLENYSSATYALIIGLVIGSIVVIYPGIPESAALIVVSV
+ITFLAGLYFARVLGRIEYS
+>tr|A6CKC4|A6CKC4_9BACI
+MKSYSDDCCSFQNLQENGMSFDHVFQRIVTFMKSQPDGNYRLMVGTDSQVHHKQTVFITG
+IAILNEGNGVWACIRKVVVPRQMLQLHERISYEISLSEEIVSLFTEERKNQLIEIVLPHL
+YQGATFTMEGHIDIGAGKKNKTRKFVKEMVARMEAMGVEPKIKPDAFVASSYANRYTK
+>tr|A6CT79|A6CT79_9BACI
+MISVNYTISQLAEEFELTTRTIRYYEELNLLIPRRNESGRRVYSRKEYARLKLILRGKRY
+GFSLEEIKEMIHLFDRDRSGKAQLERTIEFGNQKIEEVVDRIKELETMKQDLVKLRDDFV
+RRLEHLEREEK
+>tr|A6CSC9|A6CSC9_9BACI
+MKNVQLEGWFLIFILFWVVILISLFAIGGFFMFRKFLKRMPKEDGRSDLDWEEYYVDKTH
+QLWGPKEKDILNELVSPVPELFRDVAKQKIAGKIGELALKEKVSSISQELIIRGYILATP
+KRDHKFLRKKLDEMNIDVAPYEHLF
+>tr|A6CJ14|A6CJ14_9BACI
+MILKKELYNECNFSKLFSAILIFITVFSLIKVFIIAFNRKEISLHKLIVLAASSIIIGLL
+VISTLPFGYQKIMDYLQT
+>tr|A6CQZ1|A6CQZ1_9BACI
+MKSYKSSNYVVSVNLSTIVKGILVFVFGLLSIFSLSGILTSLKPEYRITSSSVNHAAEHV
+SGALLYNVFSMENRAFKGASPVDVELPSVSNLLLRMATNVSFEDPRSFLGRELPGFSIFD
+GEILVAGEGTDFTNMPFESVPPAEALNPENEARLQNTDKIENPSSGVAPNTNGLTTGDKK
+TVYLYFTHTRESYLPYLKDENNPDRAHHSQINVTKVGDKLKEELENRGIGTMIDKTDFID
+SLSKKGLDYWYAYQESRPAAQAAMADNKDLIYLIDIHRDSLRKDVTTATIKGQPYAKLAF
+VVGAEHPNYEKNLKLATELHNQLEENYKGISRGVFVKKGSGTNGKFNQDLTANSLLVEFG
+GVDNTFEELNRSSAALADVFAEYYWQADKVGHVISTPASSQ
+>tr|A6CKJ1|A6CKJ1_9BACI
+MLLLEKSLGPDFSPGYRIFLSEQGEQLYSSLLTRIFRVNDVIFFEFILNSNKI
+>tr|A6CNJ6|A6CNJ6_9BACI
+MRLLLSIILIVSPIWPLGKNPLPGDPFLIVNKQTNKIAYIQGEEIRHQYSVATGRTDDLT
+PQGLFTIIVKAKDPYYRKSDIPGGSPDNPLGTRWMGFDAEGTDGRTYGIHGTNNDDSIGK
+YISNGCIRMHNAEVETLFDRVPSGTKILIVKTGKSFEELAKEYGAVR
+>tr|A6CQS9|A6CQS9_9BACI
+MNEKVDFRGAGGEPPGLRSGGYVTLVSPVIKSGSTPVSPDRQMFRREKKVVFLFILFGLF
+DPEGPGYVPVGT
+>tr|A6CSU2|A6CSU2_9BACI
+MNVITSFNSKRREKQIQHERKLLREISIKMLQESVRKHFGQIKIQGGVFMQQGFDEACFD
+VAIEAYLLGGKLSKFGYSGETLEDVQNRCEPEMKHYIDTLYNFWLYWSEIGVSNTVDESF
+YYSCEHFVETWWSEGYQNGIKRYKLRMH
+>tr|A6CJX3|A6CJX3_9BACI
+MKFSKLVALCVISLLLFMGCQSSDNAETHIVRGETTSWKANLEVVFTADREMYYVGGSLK
+SKSDSIPKEVTYFITHSQGGGSGTSRDGNGEYIKIPQGGGNNPPGDIEAFAEEITLRVEW
+ESEDGETFNETIPLD
+>tr|A6CMN5|A6CMN5_9BACI
+MYTFLAGIALLIIGYFTYGKFVEKVFGVKADRTTPAFTNQDNVDYLPMNTPKNSLIQLLN
+IAGVGPIFGPIMGALYGPVAFIWIVIGCIFAGAVHDYLTGMISIRNRGAHLPELAGRFLG
+KVMKHVVNAFAVLLLLLVGTVFVTAPAGLLHNLMNGWATMGLILGAIFVYYVLATLLPID
+KIIGRFYPIFGALLLISALGVGGMLVFTGASIPELSLSNFHPDNAPIFPLLFLTISCGAL
+SGFHATQTPIISRTTQNEKSGRKIFYGMMIAEGIIAMIWAAAAMSLFGGSVGLNELLANG
+GPAAVVSEASTLMLGAIGGTLAVLGVIILPITSGDTAFRSARMIIADYFNFSQKKVTSRL
+WIALPLFAISFALTKIDFTLLWRYFSWANQSTAVIALFVGAMYLYVAKKNFWIPLLPGIF
+MLMATTTYILNAPIGFGLALNTSYIGATVISIILVATFFVAAKKARENNIPLEDDVSNWN
+KAA
+>tr|A6CNW6|A6CNW6_9BACI
+MDNERRKNDSVNQDLQNIDIYNDYINVNDNPEVEVVQNKYNEETAAEITTPMALGSDFEK
+DAAEETTTSGRILGYSALALSVLSLFIVPVLFGAAGIVLGFVARRRGSETLGSWAIGIGA
+VSIIVGIFVLPFF
+>tr|A6CQP7|A6CQP7_9BACI
+MGEFNAAGKKNFPTAAFSGVHVKLIFLIQRNNKGF
+>tr|A6CIV4|A6CIV4_9BACI
+MIYKKDANFPYPLLTNTSNSYASSQFILDVELHENVHHYQFDFNYEIDSEFIMNLLSNGQ
+AQPILIIQSKDNKFYKLGANQRSIKILKSRISISSRTSIQVHIQSNEDISFKHNEDLSIF
+YDKFKDELVVPRNSILGFSNVVMFEGSTTKPLELFEKKLNPDLNSAIKIELSHETIVIQY
+RNEEFQFNNLPKSNTLNNPYVYTGMHMALQRFIVNNGEDNESVDLLDIDPPNNPLDLKLY
+HLMRKKMVEELSIDTIDEVIYSISDKMIEKYTSVVKGLISSGN
+>tr|A6CQ14|A6CQ14_9BACI
+MNGGRFMKKKLLYMLLAAMLATTMTACDDAPGEDEIGDGEINDEE
+>tr|A6CU43|A6CU43_9BACI
+AFAEEQLTEEDFIPLTELDASINLEEVDIETIESLEMLAPFGMGNPKPKLLIEGVSISGM
+RKIGGNQDHLKLSLQKDVYTLDSIGFGMGEFADHISPLSEISVIGELSINEWNNIRKPQL
+FLKDVTVDHWQLFDMRGIKPVNRWFDKVPSQNRSIIAFNQSTIDRLPLNDYREDILLISS
+NEEASGLLERAESIVLLDIPPQGEWLETVVRITEPERIYAHFDHEEDHFFSTVPNRDHFK
+WYYGFLLKRETFDLKKHGGQLAQHKGWSRETIEFMSKVFFELDFVTINNGLISVNPVKVK
+RDLEESITYRKKQEQYNLENELLYSSYQELKNWFDKKTGMVCNI
+>tr|A6CUH1|A6CUH1_9BACI
+VNEMKFKKSLLAGMLLGASAFLYACGGDEGSTSKDGDKVTLDFWLFGATNYESLAEEYEK
+ENPNVEINIKTSELGDHHNSLFTAISAGTGAPDLAMIEVDQLDRYREAQDRFVNLYDLGA
+EEVKGEYLDWKWRGAENGDGDFLFGLPTDIGPKAMYYHTDVFTEAGLPTDPDEVSELIST
+PEDFKAAAQKVLDATGKPMVDSMEMAFRANMDALQVSYFNRDGDLLIEEADNGVKEAYDF
+AVELDSEGYVGNFEMWTPEWANALNKGGFAVEMAPAWLKGYMTENAPEGEGKWRVTTLPT
+QFAGNWGGSYIAIPSETKHSEEAYEFAKWLLSPENQLESFVENGLFPSAPAVYEMDEFKN
+NSDEYFGGENTAKYFAEAAKQIPEVYKGPKYVTVNNEVLTALRNVQEGGDPEKEWQDAVK
+RIKDLMKR
+>tr|A6CHP6|A6CHP6_9BACI
+MKKPLNQLLAVVVCLFLVYSTIHRPDEEDFNRWLKGKYDISCGAISCTMQVDDSDKSRTL
+ILTGSRTKEGYLFFNTVTKTFEGKEGNRTTIKAFGFLGNYYTIVEEIDRPLPRG
+>tr|A6CLB2|A6CLB2_9BACI
+MRREDLLSPERYNLISEVEKFAGEQGKKAIIWKSEQGEEKEITYENLIKNANKIGNAFIN
+NGLEKGDVVLVMIPRLIEAYETYVAALKAGMVVIPSSEMLRAKDLKYRIEHGDVKAVVCY
+EPYTEQFDELEESSGLMKFVVGAEKEGWLSLDSLKNESSDELALADTGREDMAFLSYTSG
+TTGNPKGVVHTHGWAYAHLRTAAKKWLSIEEGDTVWATAGPGWQKWIWSPFLSVLGSGAT
+GLVYQGKFEPDTYLQMLEDYQVNVLCCTPTEYRLMAKVDDLGKYHLQHLHSAVSAGEPLN
+REVIDAFQKHFNVDVRDGYGQTENTLLVGIMKGMELKPGSMGKPTPGNRVEIIDEDGKPC
+SPGEVGDIAVHVDTPALFKNYYKDPERTAMQFRGDYYITGDKAKKDEDGYFWFEGRGDDI
+IISSGYTIGPFEVEDALVKHPSVKECAVVASPDEVRGNIVKAFVVLRDGVSPEDPDLVKS
+LQDHVKELTAPYKYPRKIEFIEELPKTTSGKIRRIELRQNERKTVQK
+>tr|A6CHK1|A6CHK1_9BACI
+MSKKTKGIHHITAIVGNPQENVDFYAGILGLRMVKQTVNFDDPGTYHLYFGDKEGSPGTI
+ITFFPWDGAYQGRIGGGQVGTTSYAVPKGSLSFWEERLTQFKVAHHKSERFGESYLEFND
+PHGLQLQLVEREEAKTNQWSFGGVTPDVAIQGFAGAALLSANPELTAQLLEEVMGLELTG
+KEGNITRFTSTAEIGNVIDLKMEAVPRGRMGAGTVHHIAWRADDDQDQLEWKEHLESHRY
+PVTPVQDRNYFNAIYFREHGDILFEIATDPPGFAIDESLEDLGRSLKLPTQYEFHRDKIE
+KALLPIEVRKLE
+>tr|A6CIF6|A6CIF6_9BACI
+MRDINSNYDYFVERVGQGEPVIFLPAAGFSGNEGLNIGDYLSGEFETHLIDLPGLGKSKG
+IEGRITAIQLADWVNEYMEQMQMEQANLIGHSLGGAILLAFAVHYPHKVNKLILLDQGHK
+PFPRIPKSEFGPFAYAFPMLNVCVKLFGKPFLKKLEPLFSQNEEQENPFDLTVEKFCNRV
+FIKENDYIRTALKHPAEFSLSGLNLMFGYYNLNLPNLLKKLRTPTYLIYSTFEDLDENES
+KSTEYYINRIKRHTLPITYQPVRGGHYVHWNEEFSMVNIRNFLLSTY
+>tr|A6CNY5|A6CNY5_9BACI
+MDQQLQELIDGLNEDLANEYTAQIMYTNYAAVVSGLHRGVLKPFFEGEVSDEQGHALYLA
+EKIKTLGGTPTTTPAPVKQTDDVKEMLQEARKAEKETIDRYKQRKQQAEELGFTELVVKL
+EDLISDETHHMEELDRLLMDPVFQ
+>tr|A6CH95|A6CH95_9BACI
+MRNRWKAGFFTLLGLNILVILGAAVLLMIPLEDDELSENNSEERENVAFQIRAAKDDLNQ
+MIDHYIQEEGYKGPVNYSVVLNDNVELNGSVPVFTSEINFKMTFEAKALENGDLLLKQNS
+ISVGALKLPVSHVLKIIRDSYNFPEWVKIQPNDELIYVSLQNLEMKSDLQVRAEKFDLKN
+DDIVFNMLVPVD
+>tr|A6CIV8|A6CIV8_9BACI
+MYVKKMGSETNKKEFKEKLVMIALIKFILFLFIIMVSKRYIKGNLNRIDRTSYLFFNICF
+VLLLYKFVSLNTNWYKVKDNILLVIASDIDRILLLPYITLILLVVIKKINLIYKIVVCGA
+WLLIVPALEHINEWTGIVTFENWRFSYSLLESTVLLIGNLLFLYGYHSLKEEKHYVK
+>tr|A6CNX0|A6CNX0_9BACI
+MENNKSVIDIKHISFRYDKEVVLEDINLSIPSGAFLGIVGPNGSGKSTLLKLILGLLKPK
+DGEIYLFGESQQKFKDRDRIGYVSQKANSFNSGFPATVREVVSSGLTKKVGMFKMIGKKH
+TDQIAKAIDSVGMSAFSNRNIGELSGGQQQRVFIARALVSKPEVLILDEPTVGVDSQNVQ
+AFYEMLEHLNKDLGITLLLVTHDIGTISSKVTHVACLNKQLHFHGNTEEFENLRESDLSG
+IYGHDVQLLHHDHDHSEVER
+>tr|A6CUD1|A6CUD1_9BACI
+MNLNGGEHMSKVRIYEYAKKHNVSSKDVISKLKEMNIEVSNHMATLEDDTVKKLEKSYGG
+KSGNSSDNAPKQDKPKNSPANDRNGKKNEQQNKPGDKKVFNNNKKGKNNNRPNNNKPNKN
+TRNNQSNNQPQKKKEKELPAKITFTESLTVSELGKKLHREPSEIIKKLFMLGVMATINQE
+LEKEAIELVAGEYGVEVEEEILVDKSDLEVYFTEDEEADKVERPSVVTIMGHVDHGKTTL
+LDSIRNTKVTEGEAGGITQHIGAYQIVENDKKITFLDTPGHAAFTTMRARGAQVTDIAII
+VVAADDGVMPQTVEAINHAKAAEVPIIIAVNKMDKEAANPDRVMQELTEYQLVPEAWGGD
+TIFVPLSALKGEGIDDLLEMILLVSEVEELKANPKRLALGTVIE
+>tr|A6CLS6|A6CLS6_9BACI
+MTANTPILKVEELQTTFFTDDGEVPAVDNVNFHVNEGEILGIVGESGCGKSVTSLSIMGL
+VPSPPGKVTGGKILFKDEDLTKASEKRMREIRGNDIAMIFQEPMTSLNPVFTIGNQLTEA
+IRIHKKNSKAEARKDAVRIMQLVGLPRAEELLNEYPHQLSGGMRQRVMIAMAMACDPKVL
+IADEPTTALDVTIQAQILKLMKQLNKEMNTAVILITHDLGVVAETCERLIVMYSGKVVEE
+GTVEEIFKNPQHPYTKGLIQSVPDMRFKKQKLYSIPGSVPKPGSIKHGCRFAARCEYAFD
+RCLSETPELYETAPGHTSRCFLYDSKEERAHDRTAVKG
+>tr|A6CND6|A6CND6_9BACI
+MKIIEAKGNLSIKRSIDSGTEEQRKAVQEILREVKSAGDLALLKYTEKFDGVRLQDMKVT
+SEEVDAAVKEIGTEMVRIIEEAAENISSFHGKQKRNSWFDTDENGTLLGQKITPLDSVGV
+YVPGGTAAYPSSVLMNVLPAKVAGVERIVMVTPPGEDGRIPSAVLAAARVAGVTEIWKVG
+GAQAIGALAYGTESMAPVDKIVGPGNIYVALAKREVFGDVAIDMIAGPSEIVVLADETGL
+AEEIAADLLSQAEHDVNASAVLVTTSAQLAEEVSAQVEKALEDLPRKEIAAESVERFGAI
+YLAESMEKAVEVVNDLAPEHLEIMTNNPMVTMAKIRHAGAVFLGRYSSEPVGDYFAGPNH
+VLPTNGTARFSSPLNVDDFTKKTSVISYSEKALKDNYSKIAKLARLEGLEAHARAVESRF
+KK
+>tr|A6CLD2|A6CLD2_9BACI
+MTLKYKNILVAVDGSKEAEWAFKKSIDIALRNDATLSIIHVIDSRSFATVESYDQSVGER
+ASQYAEEIMTSYKEQAERAGVTDVHILIEYGSPKAVIPKDGAEKANADLIVCGATGLSAM
+ERFLIGSVSEHITRSAECDVLVVRTDDQ
+>tr|A6CS20|A6CS20_9BACI
+MRKNFYRLCIELTNKKWTSFLLRKFVQSPTSARFIPSYIKAYNISTREIEKNADAYPNLH
+SFFIRNLKEGVRTVEGEADDVVSPVDGMLADSGTVTESLNMHVKGKDYSIEEMLGSREKA
+SEYVGGQYMILYLSPADYHRIHSPLRASVLERWELGRHSYPVNEIGLKWGVRTLSKNYRS
+ITEVSHAYGKMCLVKVGAMFVNSIEYTNEEKEWEKGGEIGYFSFGSTVILLFQKGQFHLN
+EKVDVPGKVKMGQLIGKVSRK
+>tr|A6CPD5|A6CPD5_9BACI
+MIIVTTETVPGKEITELKGFVRGSTVQAKHIGKDIIAGLKTIVGGEISEYSELME
+>tr|A6CQK9|A6CQK9_9BACI
+MDSGKRDYRIKLTHVQGENELSFDSFEEAMKYMKETVEGLENPIEEERR
+>tr|A6CPH8|A6CPH8_9BACI
+MAVIKVRNSGKTISGEENVRAFLSNEEVLYEHWDVTKLPADLRDRCQITDEEKQTIIDTF
+EGEITSLAERRGYGSWDVVALSEATPNIEELLKKFEQVHTHTEDEVRAITAGHGIFIIKG
+SDDTGYFDVELEPGDVISVPEGNPHFFTLMVDKQVVAVRLFIDSTGWVAHPYKDPEFQQS
+>tr|A6CU97|A6CU97_9BACI
+MKNMYDVQQMLKKYGVFIYLGDRMADLEMMQEEVRELYQTGLISPTEFQTSMLVLRSELS
+RENNK
+>tr|A6CHL4|A6CHL4_9BACI
+MQKNPKKVFLKAECLLFEQESFLKNGHTYPIRNEFNFAHMLWHFSFFVG
+>tr|A6CK10|A6CK10_9BACI
+MIGAEGVRPPAGLAGRPVAALSPSGSNNPHRIKGKITFFSMRNICLSGLNGALPLFIQAQ
+PRRLTARPAESLACSDYGYEISLTERKVKVKVKKAA
+>tr|A6CTH0|A6CTH0_9BACI
+MGGIKMKKQLLARALLSSLFVIATGCSALETITFGKGNVNEYEVDIEKDSARDLEVNLQL
+GAGEMNISGGASEWITGNIEYSNETMEPVVQYDLDGDKGDIVIKQKNKVNVGFGNMKNGW
+DLLLTNDVPIDLRVESGAADTNLDLRGLRLRKLKVDAGVGDVEVDLSGDWQESFDVDIDT
+GVGKTTVILPKSVGVQIKSEEGVGKANFDGFTSSRNNTYVNEAFETADVIITVKVETGVG
+EVNFQLK
+>tr|A6CTV2|A6CTV2_9BACI
+MPLKKSTPDFILIVVTLSLLAIGLIMVYSASAVWADYKFDDTFFFAKRQILFAGVGVLAM
+FFIMNVDYWTWRTWGKVIIIVCFVLLVLVLIPGVGVLRNGSRSWIGVGAFSIQPSEFMKL
+AMIAFLAKYLSENQKYITSFRKGLVPSLFLVFMAFGMIMLQPDLGTGTVMVGTAVVMVFI
+AGAKISHFAMMGLAGLAGFAGLVLSAPYRIKRITSFMDPWEDPLGSGFQMIQSLYAIGPG
+GLLGLGLGESRQKFFYLPEPQNDFIFAILAEELGFIGGSLVLLLFSLLLWRGIRIALGAP
+DLYGSFLAVGIVSMIAIQVMINVGVVTGLMPVTGITLPFLSYGGSSLTLMLLAVGVLLNI
+SRYARY
+>tr|A6CI82|A6CI82_9BACI
+MKKNTCGTHHKGCPPALKCDTAKTKHVDCDAKSWYPYGDVYVPVVLADVKLQANVEADIK
+LPTPAKEIKMIKKNVSLKQCEALRHPYSEYKVKLYITGVVHKNIQYVDACTGFVRDYSVD
+VPFTCSDEVKIHHLVEQMKSKKSSLTAEFRFLAKDGHGADRCREGSHTFEYFNEPIDCIL
+KMADVFELDLFKDHDKWGRFTRITEKMDVNLWFKLVQKQEKPVCPPTSYEPCHDGDGDGD
+EYPEPKTMLDRIKDRVDRLS
+>tr|A6CJU9|A6CJU9_9BACI
+MSLHKYTAFPIILLLLLLTACNITEIPSVQNTDQSPLTVEEALSLEDGRELTVLGYITGQ
+PVSTSSIAREGFSNDYAFVLADSRDEMNLDKMIFVQISSEFREEYGLQSNPSLMGMKIEV
+TGTREKYFAHEGIKSTTSMVLKTELGNPDEEEDPPEPPVITDPYYQQAKGKTGIELKNAL
+HEIIDDHRKLSYGDVWEALRETDEDPANPDNVILLYTGRSQSKLLNGGGSDEWNREHVWA
+KSHGGFGTSQGAGTDLHHLRPTDTTVNSSRSNLDFDNGGSPHDEAAGNFSDSDSWEPRDE
+VKGDIARMLFYMAVRYEGDNGELDLEVNERVENGSKPFHGKLSVLLSWHELDPVDEAEIR
+RNELIFEKYQGNRNPFIDHPEWAEMIW
+>tr|A6CQ43|A6CQ43_9BACI
+MWILIILLILAAIILCCIIDFHFGRKQFVRTAYRRDYQKRHSDMELISTGPAFFERMFTD
+LKGASTSIHCLFYIVENDHLGRQFFDILKQKASEGVEVRLLMDRVGSFKIRKKQVKELKG
+YGIQVYFAEKPKLPFLFFSTQQRNHRKITVIDGKIGYLGGYNVGKAYIDEDPNLSPWRDY
+HMRLTGEGISDLQSEFCIDWKRASGEDIINRPGYFPKLEKGEVEHRFFPSEGFKIESQFV
+EFITNAKKSIFIGTPYFIPSDEVMDALVRALKRGVRLTIVTPEKEDHLLVKEAAFKYFRK
+LMPLGAEVYQYQTGFYHSKLIIIDDEFCDLGTANFDLRSFYVNLELNNFIYTQSFVDEVR
+QEVQKDIDGSSKMSLDKLNSVGIFTRFKEGIASMVSILL
+>tr|A6CK06|A6CK06_9BACI
+MRKIAFILFTFSLFFGLHTQKTSGKTAFILEYHIDMTPWEEVADRLPRKSKFTVIDVETG
+KRFKVQRRAGSSHADVQPLTHKDTKIMKEIYGGSWSWKRRAVLVYSDNLLIAGSMHGMPH
+GAGALQNGFPGHFCIHYKGSTTHKTDSPDLSHHLMILKAGGNLDSFLNELQPQPLVDAFL
+AGVKNNDPGLVRKTITEKKANLNSLDKIEALRWKTTSSDKDTGPFIKEVNADLQLYIKDS
+GPLKAEITFTVVKTSPDSAWKVDGSPLWKLLK
+>tr|A6CKC6|A6CKC6_9BACI
+MWVILGAIAIVVTFINLYMYSAGKDYKLAMALGLSFTALALCAEYSLVSEWVEGENWPAL
+WEVPNFARALWFLTIASILLNIAPILLERKSKK
+>tr|A6CLI7|A6CLI7_9BACI
+MCSNVLEGGFFMSNAGCGPGNGSQSQSGDAGKGDLKWWQLSLMGVGCTIGTGYFLGSSIG
+IKNTGPSIVFAFILAAVGTYIVFNLLAKMTAEDPQEGSFCYYADKAYGKWAGFSCGWNYW
+ASNILIMGSQLMALSLLSQFWFEKVPLWVFAAGYAILSIFVVLLGTKGFDKVEDILAIIK
+TAAIVMFIILAAAVYFGMLKGGGNKPEFPSSAGKLFPEGFKGFWSSLIYAFYAYGGIEVI
+GLMAMQLKKKEDAPKAGKIMLIVLMIIYVLSLALTVLLVSVDKFTPDESPFVTALAGSNL
+DFFPHVFNGAIIIAGFSAMTAALFGVTNLLVTMAKDENAPKLFSKKIKKFKELPLPSLGL
+AAAGLLLSVITALIVPGKIYEYITTAAGILILYNWAFIIISAFKILENKITGKLLAVFGM
+LLILAAVTVL
+>tr|A6CMD7|A6CMD7_9BACI
+MSNDEKKIKEKANAVGGDLYYSIWKP
+>tr|A6CJ56|A6CJ56_9BACI
+MFANNKKYWFVSLVLVCVGTAIPPLGMRVDEYSPSYFHFGFPADWFHFYGGSKVDFEILG
+FLFNLVFFYVIIRLVSKIFK
+>tr|A6CTM0|A6CTM0_9BACI
+MKIGLASPDKIRSWSYGEVKKPETINYRTLKPEKDGLFCERIFGPTKDWECHCGKYKRVR
+YKGVVCDRCGVEVTKAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVI
+YFASYVVTEPGDTALEKKQLLSEKEYRAYREKYGVKFQAAMGAEAIKKILQDIDLDKEAD
+FLKEELKTAQGQRRTRAIKRLEVVESFRNSGNDPDWMILDVLPVIPPELRPMVQLDGGRF
+ATSDLNDLYRRVINRNNRLKRLLDLGAPSIIVQNEKRMLQEAVDALIDNGRRGRPVTGPG
+NRPLKSLSHMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPNLKMYQCGLPKEMALELFKPF
+VMKELVEKGIAHNIKSAKRKIERVQPEVWDVLEEVIKEHPVLLNRAPTLHRLGIQAFEPT
+LVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSAEAQAEARMLMLAAQNILNPKDGKPVV
+TPSQDMVLGNYYLTMEREGAKGEGSTFADANEALIAYQNGYVHLHSRIAVAASSVNNKTF
+TEKQNKQLLLTTVGKIVFNEILPDSFPYINEPTQSNLETVTPDQYFVDPTTDIKEEFKNR
+ELINPFKKGFLGNVIAEVFKRFAITETSRMLDRMKDLGFRYSTKAGITVGIADIVVLAEK
+EEILKEAQSKVDNVLKQFKRGLITEDERYDRVISIWSAAKDTIQGKLMATLDRSNPIFMM
+SDSGARGNASNFTQLAGMRGLMANPAGRIIELPIKSSFREGLTVLEYFISTHGARKGLAD
+TALKTADSGYLTRRLVDVAQDVIVREEDCGTDRGLHVASIKDGTEIIEPLEERLLGRYSR
+GVIKHPETKEVIAEENQLITQDLAKTIVDSGIESVYIRSAFTCNTRHGVCEKCYGTNLAT
+GQKVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQEIFEARHPKGQA
+VISEIEGVITSISEGKDRQYEITVQGEVETRTYTAPYTARLKFGVNDRVLRGQELTEGSI
+DPKELLKVRDVNAVQEYLLREVQKVYRMQGVEIGDKHVEVMVRQMLRKVRVIDAGETDVL
+PGTLLDIHQFTDANEKAILEGSVPATGRPVLLGITKASLETDSFLSAASFQETTRVLTDA
+AIKGKRDELLGLKENVIIGKLVPAGTGMQRYRKAEPLMEKESEEAVTVE
+>tr|A6CRH1|A6CRH1_9BACI
+MNRILFIIYIGFFFIGTGCENARLPLPENAEDSLMVSHLKDARLTFIDKENQRVTGTVEL
+DETIADMVRIDDEHIAYTSRDSGSLTLLNTKSGNVKQWEDIGSGVNELLYSEETRQLFLA
+DSRNNQVQVFNMDEEKITSTIPVGKFPLSMALDEKDRLLFVVNQQSSSVSAIDIDGLEVT
+REFLVPYLPEGIWIKESKLYVGGHGPVHGELNRFVYVIDADSGEQLDRIEVGLMPVKFFS
+PPAGKDLYVVCHGSHELYKVSTDGAGTENIKVGANPYDVTGNEDYLYVSSIDSNSLFILN
+LSTFDITSEIDISGGPVVIIEGGGS
+>tr|A6CI31|A6CI31_9BACI
+MNLHVNGRMFTIRKAKQEDISKVLSLLVEAAEWLKTKGTTQWNYYLTDLEGNMGEVMESI
+NRQNTYLAEIEREAVASLTLEEEPGEWDMEIWGVEAAQGDAVYMHRLVVNREYAGLGLGE
+ALIEWAKNEVNHRGKKYIRFDCLYSNDGLNSFYQRHNPLKGVADVYGKHSKYEITF
+>tr|A6CJE7|A6CJE7_9BACI
+MGFKTGNEERDNELPLVRQQIKAAIERDLMDDDNITSVFYGGSIGTGNTDLYSDIDLRMI
+VKEEAFEQYRLNKKEKAKNWGTVMFYEDFSWAAHSVAHYKGFIKVDSFYYTEKDIQPSVW
+YKELEIVYDRENFMRRIQRESKDLSYKPTLEEFYLWKNRFLAYAHEVYRGVKREEFFHAT
+SSLESLRFLLTTGWFMEEGKQPNNPGYWAKLGGNRSRLQNWQLTFLEESMGSRDPQSIMS
+SLELLVPEFIRTHKELCKKFGIDENCAHINEILGMVL
+>tr|A6CNX5|A6CNX5_9BACI
+MPPRQQMPFNPNSFRQHPYQGMRGMRGPGPSGFGMMNPRGMQGNFQGGAGRKSGGLLAKI
+LNRGGSSQTAASQFNPLQGAAGFQRNTQAGGGSFLKNMLNPGSLNGFLNNTQQVLKTAQQ
+VGPMLQQVQQYGPLVKNLPAMWKLYRGLSAAEVENEDSGDESSNEIQEEESIEVHSESEP
+KSKRPKKKQKKTHVSERTKKTQTKGGSQPKLYV
+>tr|A6CPN2|A6CPN2_9BACI
+MKRTFQPNSRKRSKNHGFRARMSSKNGRKVLARRRQKGRKVLSA
+>tr|A6CNK5|A6CNK5_9BACI
+MLRTEQEMMNLILNTANEDERIRAVYMNGSRTNPNVPKDIFQDYDIVYVVKETAPFIEEK
+EWIGAFGELLMIQEPDKLDKMAGEHKDFTKSYGYLMLFTDGNRIDLQIQSLECMNERYLS
+DKLTIPLLDKDNYLPPIPEATDVDYHVKKPTNGQYFGCCNDFWWCQQNVAKGIWRDELPY
+AKFMFESIIRRNLDEMVSWWIGTKTDFKVSPGKLGKYYKNFLPESYWKMYRDTYADWNYE
+NMWDALFTAGNLFRILAKEVADTLSFTYPYDDDKNMSNYLQQVRTLPPEAEGIY
+>tr|A6CT01|A6CT01_9BACI
+MEGFLDVVGAVSTWLWGPPVIILLTGTGLYLTLLLKFVQFRYPIYIFQQTLGSVFKKPKG
+EGTVTPLQALTSALSATIGAANIVGVPAAIMFGGPGALFWMWVIALMGMALKFSESVLAV
+RYREKNEKGEFVGGPMYYMKNGLNMKWLGVWFAFALMIELIPSIMVQGNAVASTVEESLE
+IDGMVTGIAIALVVSLIVFGGIKRIGKVTEMVVPFMAIIYVGACLVILFMNLEKLPNVLN
+LVFTHAFQPMSAMGGFAGAAVAETIRWGFARGLYSNEAGLGTAPIAHAAATTDHPVRQGL
+WSIIGIVIDTLIVCTATGFVVISSGVWTAEGALDNPSALTTQAFDSYLGSTGSFIVTSSL
+IFFVLSTIVVIIFYGAKQAEFLFGLKAAMMIKFVYIAAIILGSVGAAKVIWQFLDLALVA
+ILIPNILAVLLLSKEVKRLTQEFFTSDKYYLKDTGKR
+>tr|A6CJP0|A6CJP0_9BACI
+MKPLSFLVLLAVTIILKESGFFCLMIPFVLHIMVNQHPWAVPFSALK
+>tr|A6CI32|A6CI32_9BACI
+MNSTWNKIIYKVWSPIYDQLFNRGLFLDARKKVFTGLELPKGSKVLFVGIGTGADLEFFN
+DRLLDLTAIDFSSDMLKIARGKYKNSNIDFVQMDAQDINFPDDSFDFIVASLILSVVPDP
+LKSLQEMNRVLKNGGSILIFDKFSSNKSGFYLTKILRPVIKVLGTDIGINHWELISKMDG
+ALRIQKDDPVMLNGMYRKLLVEKVEGEGYARQ
+>tr|A6CKE1|A6CKE1_9BACI
+MVKIAFIKENKGERRMSEFNENPLIKNEEKKPKVKVERKEGEPTAAFKGASWAALIAGVS
+AYLIGLFNAGMELNEKGYYFAVLVFGLYAAVSLQKAVRDKEEDIPVSGIYYGISWFAVIV
+SISLMAIGLYNAGSIILSEKGFYGMSFVLSLFAAITIQKNIRDTQLARERD
+>tr|A6CJ69|A6CJ69_9BACI
+MKMALFNRVITKRLSCTAVFQLLLKEDVSLGDLYMAAWRLVFKVISTLMATMLRGNGFYC
+PDLDTVTGTL
+>tr|A6CKA7|A6CKA7_9BACI
+MMMRKKQLHYTALAAMIILPSFLSHPAQAAMEGKVTSKDEVVYATLNANGELDSIYVVNT
+LEVEKAGEILDYGKYSSVKNLTDLTEIDQEGQKVEMEAQEGKFYYQGNMDKETELPWDVT
+VSYVMDGEIVKASELAGMNGHLEISVDIKENKEADAAFYENYLLQVSLTLPNSYQGIEAE
+GGMVANAGKDKQITFTVMPGQEEKLIVKAIVEDFEFQGVEIAAVPSTLPIDTSETKNMTE
+DMAELSAGIKELNDGVAELEDGVTDMTSGAVSLRNGSADYKAGITELAGSSSEIVSGSNS
+ISSALKEINQSLSGRSAEMDLSSLNELPAGLTRLADGLAEAAAGLDTLQTNYAQAYAALD
+GAIKEIPADGITEEQIAGLYESGADPAVVDKLAASYAAAQKVKGTYAAVQEAFAAVEPTL
+IEISGSVTEMSGQLTSIANNLSSSLEETDMSGLNELQDGLSALSSNYEKFHTGLVSYTNG
+VGQLSSSYRELHSGIVEMTGGTSELEGGVSELHDGTSELYEETKNLPFQMQEEIDKMISE
+YDKSDFEPVSFVSSENKNVSSVQFVIKTESIEVEEQEVKKAEPQKEKGFWELLMDLFR
+>tr|A6CP17|A6CP17_9BACI
+MRDVTGILGIRYPILQGGMGNISNAQLTSAVSEAGGLGTIGAGTMTAEEVEGIIVRAKEL
+TEKPLALNIPISVTDHLKDMVELVLKYELDAVSLSAGNPAPLIPVFKEKGIKVICVVASA
+KQAAKAEKAGADIIVAEGYEAAGINSSLETTTLTLIPQILEAVNVPVIAAGGIGDGRGLA
+AMLALGASGVQMGTRLIATKEAPFHENYKKTLIEADDKGTVIVGRTVGRVRRIMKTPYAE
+KLLNHEREGMNPEEFAKITSEDYHKKGALEGKLDEGFINGGQVSSLIADTPGVKELFQRM
+VAEAKECLAAGVKILD
+>tr|A6CMJ9|A6CMJ9_9BACI
+MEVLEKKSLLKLDGVQKYFPIKGGFLKRVQGHVKAVEDVSLEVYEGESIGVVGESGCGKS
+TLGRTILGLEDITNGKVFYKNNEIQGLSGSKRKELTKEMQMIFQDPYASLNPRQRIGNAL
+EEVFVMHTNLSSSERRQKVYDLLKEVGLKEEHFDRYPHEFSGGQRQRIGIARAIALNPSV
+IICDEAVSALDVSVQAQVLKLLKNLQEKYGLTYLFISHDLGVVRYFCDRVLVMYLGNTFE
+LASSERLYSNPLHPYTRALLSSIPRPKVGARKDRIRLTGEIPNPANPPSGCPFHTRCPLA
+TDLCKQAKPEWREIEKDHFVACHHVEQEVVN
+>tr|A6CKG4|A6CKG4_9BACI
+MLVKIVISIMMLINVINIAFLVKDFIVSIPFFVLSGLSIFYLFYEKDEEEKRVR
+>tr|A6CRK4|A6CRK4_9BACI
+MIIRIKATWSFKEETRKMFEIIKSFYEEKKADGTYTFTDNDLKRFMDKGYISAVEASDIK
+SFEQI
+>tr|A6CS47|A6CS47_9BACI
+MMKGEISMHCRPNQVLPTVMHPTKCCKVNNYSTYEVPHVHPQHTTIVNNQMYQHKHYFPQ
+TQSMVDSVSHQHQAPLWDLDQKEVLALWGRWDQWADQDRLDREDSDFKQGHTVSLFFILQ
+SSLN
+>tr|A6CLL8|A6CLL8_9BACI
+MKVLHVINNLEFGGAENLLKELISIQVEEGIEVDLYLLERSGMKDGGVTLPGVKLLEAQA
+SSRYSLTNLFFLRNIFHHYDIIHVHLFPSQFWVASAKFVSKKNPVLITTEHSTMNRRRNK
+KFFYLLDLFMYGQYNKIVCISEGTASGLIERYKSLEKKIEIIHNGIRSARFLEIDPVHIE
+GLTVKDPVILTVGRLEKEKNHEVIIKALKFTSNVHLLVAGDGKRKGELESLAINSGVSSR
+VHFLGERQDIPELMKMASIYIQPSKWEGFGLAVLEAMTSGLPVIASDIPGLREVVGSSGL
+LFDPENVQDLVKKIEDLLNDPGLIKELRLKSIERSKEFSVEKTAEQYLKLYEKLSKKKLH
+>tr|A6CJ45|A6CJ45_9BACI
+MAFLFLNGCDSGTLTEKEDLFQYKDSYVGDNGAVGNITRELPMPNGEQMNGLELKTTDEP
+YGIIINYEEAHISEDEVTNYNELALYNASIILSLVKNADWVQFNFLEKEMTVTREEIENW
+YGKDLRDFAGEDELSAFIQEYLQDEEQVNAFFE
+>tr|A6CNA4|A6CNA4_9BACI
+MTNHQFDPETLLLHGGQEPDPVTGSRAVPVYQTTSYVFKDTEHAQNLFSLSEQGNIYTRI
+GNPTVDVFEKRIALLEKGVAAVAVSSGMAAISLAILNIAGAGDEIVASSNLYGGTYNLFA
+VTLPRYGIKVNFVDSTDPENIRGAITEKTKAVFAETIGNPSLNVLDIEKVADITHSNGIP
+LIIDNTFPSPYGCQPIQYGADVVIHSATKWIGGHGTAIGGVIVDGGKFDWDSPKFKDFTE
+PDPSYNGLRYVDVGEAAYAVKLRVQLLRDLGACLSPHNAFLLLQGLETLHLRVPKHNSNA
+LEIARYLEKHPSVDWVSYPGLENHPSNSLAEKYLSHGHGSIVVFGIKGGREAGRKLIDNI
+TLWSHVANVGDAKSLIIHPASTTHQQLSAEDLKTTGVTEELIRLSIGLESVKDLQADLDQ
+AITKATAAAASV
+>tr|A6CJL1|A6CJL1_9BACI
+MIKKAGEKMIVIGIDLSGPTNTKDTVVSIFEKVDGALKLRQLISGATDEVILSRIQKEAE
+NHTVFIGIDSPLSYQGGGGDRQADKSLRAYITELGMKSSSIMAPTMNRMAYLTLRGISLT
+RAIGSMTTRKPVKIVEVHPGAVMGSRLPKELLPHLLSYKKEADSRLHIFQFLQSTDLNAL
+PEEVKETTHAIDSCAAALGAWNWGDPYLEPNWCWKAEPPLHPYDYCC
+>tr|A6CK24|A6CK24_9BACI
+MSFPELETARLKLVEITLERKERYFEIMSLESVTRYYGMESLERIEQAEDIIKSFRTGFE
+NKRSMRWGIVIKDTGAFIGTVGLNNMQIGNKKAEIGFEIHPDYWSCGYTSEAAQAVIRYA
+FEELHLFRMGAVTFLENKASIGLLEKMGFIKEGILRGFIYQNGVSNDTNVFSLLHPEWKS
+RLKAKETAATN
+>tr|A6CPF4|A6CPF4_9BACI
+MIQLIYISLISAIFLSITAWMKFRKKRLLFDNRYGMTISMSSASIISLILSMQFSFVSPF
+PFDVTLGLAALSGILIGAAFGCLVRLHAVLSGIFSGATGGLMGAMSGSVIKDPSLCGLPM
+DTASVLQFNMLTFTAFGTAILFVTIGLILYSLKV
+>tr|A6CLH0|A6CLH0_9BACI
+MGKEGFCHPEWIDRDVKEKLIKLHLL
+>tr|A6CHI6|A6CHI6_9BACI
+MKYAGKQTRKELFTLFKEKSPCLQGKNQALWIFPRAPIYTKTAFFKNKKNR
+>tr|A6CPK9|A6CPK9_9BACI
+MFDLETLKGIRRKADELSYQCMNRKLVNDPQALKLALDNICRALGTFAEVEIHRIKNENI
+AYDPQSYIRGRLAFACKSMKTVPQDDSNTA
+>tr|A6CJZ4|A6CJZ4_9BACI
+MFIHKIDEDLSLKIPELSDAEEFFQLTDTSREYLREWLPWLDGTTTTEDTKGFLKNALLN
+YAQQKSLTTIILFKGKIAGTAGFNRIDWSNGIAYIGYWLGHEFQGNGIMTRVVEALTDYA
+FNEMKLNKVEIRAASENQKSRSIPERLGYVREGRIRRAEKLYDHFVDHEVYGMLADEWKN
+N
+>tr|A6CSS1|A6CSS1_9BACI
+MIRSKNFFLGDVYIFFKVFRMIAEVMKMREEEKKQPSQKFFKKRWAYPAIYLASAAIIIT
+AILWYQAAGNDVAEEQNLGYEEDVPTGNQFDRPAVEVNRTMENFVLPVADGNEVVIEKGF
+YDVNASEEEQEAALVVYDNQYHPNQGIDISLGGKDFDVLAAMSGTVTKVQEDSLLGNMIE
+VEHGKGIVTRYQSVKDFAVEVGDAVEQGQKLATAGQSLFNEKAGVHVHFEIRKDNVAVNP
+QEYVNKSLATLQEVSFDETPATDDSQAEDQEETDVPDAADSQSEEGSDSADESGSENNDS
+EKNADEGTEDSSSDEE
+>tr|A6CUJ4|A6CUJ4_9BACI
+MITKPSKNKTRKKRHARVRSKITGTEQRPRLNVYRSNKNIYAQLIDDVNGVTLASASTVD
+KEINLDSTANVDAAAQVGELIAKRATEKGLKSVVFDRGGYLYHGRVKALADAARENGLEF
+>tr|A6CS89|A6CS89_9BACI
+MTNIQDVMTQQVETCSPSSSIIDVAKLMKDLDVGAIPVSENNELKGILTDRDIVIHGLAE
+KGSADFQVKEIMTENVDYVKPDTDINEAYTTMAEKQIRRLPVLDQNNQVVGIVSLGDLAV
+KLNQDRNSGDTLEDISRPIGPDQ
+>tr|A6CHV2|A6CHV2_9BACI
+MPEKLIDFSVNLNPLGPPKPLTDILSGGTIGFSDYPDPQHTELRSRLSKAEGIDPSGILV
+GNGAAEIIHMIGCLLRGKHVAILHPAFSEYEQACLTFSCSLIHIMPSSLPVFEDFSRALE
+KADALFICNPNNPTGTVMDSGLLERIIAYGEANGCLVIVDEAFHDFLAAGESCKELLGKH
+SNLIILRSMTKMFSMAGIRLGYALMAEGLRSRLVKYQPPWSVNSIALEAGRVCLDQREFV
+LKTRKYVIKEREKMFSFFRDNDFSFTDSSTNFYLFKDNRLGNQLDLITFLLTNRIVPRHT
+YNFRGLEGKWMRMAVKDEEANKVLMEVLRQWRQK
+>tr|A6CPX0|A6CPX0_9BACI
+MKNTKGAIESEISKAITQWEKDYLGRGSVSVKSDILRNMIIVSLNGVLTPAEYIVCETRE
+GMLTIKQNRSELVESGVEGLKEIILNLTGEEVKSFYTDISSRTGERIMVFKLVNDLEKKI
+NKGDL
+>tr|A6CKG8|A6CKG8_9BACI
+MKVFSGFILIMLIMVILYFLLGVGLFSGGTGNEGLIYIFGTLIIILLSFITSLLVHLIEV
+INKNSK
+>tr|A6CN75|A6CN75_9BACI
+MRKKYNPYTLPPWLRTCRMVCKQFSVPFCIFQGIRTILIPTTFDVLLLSIFILLAVALYF
+EWI
+>tr|A6CTH9|A6CTH9_9BACI
+MERVDLFKDIAERTGGDIYLGVVGAVRTGKSTFIKKFMELVVLPNISSESERARAQDELP
+QSAAGKTIMTTEPKFVPNQAVSVHVDEGLDVNVRLVDCVGYTVPGAKGYEDENGPRMINT
+PWYEEPIPFHEAAEIGTRKVIQEHSTIGVVVTTDGSIGEIPRSDYLVAEERVIEELKEVG
+KPFIMVINSAKPHAPETEDLRVKLQEKYDIPVLAMSVESMRDSDVLNVLREALYEFPVLE
+VNVNLPSWVMVLNEDHWLRENYQEAVKETVKDIKRLRDVDRVVHYFSEFEYIERAGLAGI
+EMGQGVAEIDLYAPDELYDEVLKEIVGVEIRGKDHLLELMQDFAHAKREYDQVADALKMV
+KQTGYGIAAPTLEDMSLDEPEIIRQGSRFGVSLKAVAPSIHMIKVDVQSKFEPIIGTEKQ
+SEELVRYLMQDFEDDPLSIWNSDIFGRSLSSIVREGIQAKLSLMPENARYKLKDTLERII
+NEGSGGLIAIIL
+>tr|A6CP19|A6CP19_9BACI
+MFTAIFGSVESGIIYAIMALGVYLSFRILDFPDLTVDGSFVTGAAVAATLVVSGVNPFVA
+TLVSILAGFIAGCITGIIHTFGKINALLSGILMMIALYSINLRIMGKSNVPLLNQDTSFT
+HVESFWAKLGIDSAMESMFTAVGLGEFVPSTWGILFFMILVTFLIKFLTDRFLKTEIGLA
+LRATGDNQRMIRSLSANTNILIILGLGISNAMVALSGALIAQYSGFADVGMGIGMIIIGL
+ASVIIGEALFGTKTIVRTTLAVIGGAIIYRIVVSMALRVEFLETGDMKLITATIVILALI
+LPKVMDRYKEKKRKAAKQAQRLQELALSPKGKDDSSVTIK
+>tr|A6CIT3|A6CIT3_9BACI
+MAINVVLYQPEIPANTANIALTCAVTDTALHLIRPIGFSTDEKMIKRAGLDYWESVNITY
+YDSLEEFFSKNHGEFYYIETYGEKAHSSFDFSDVTKEHYFMFGKETTGLPEDLPERYHGH
+FLRIPMNDNVRSLNLSNTAAILVYEALRQQGYPHLT
+>tr|A6CHM1|A6CHM1_9BACI
+MIGQIYPVPEHSFSYELNKDFQFAAAHFIPSEGAGKCQKVHGHTYFANITIGGDTLDESG
+FLINFSTIKKLIHDRFDHTMLNDDPLFSENPERFPTTEVMAELIYVLIQNYLDKQGNHAQ
+CLQVFLRETPTSYCIFRPRKDRKQ
+>tr|A6CJX2|A6CJX2_9BACI
+MLEKTVSEKLEETYDTEDISIQSVEELKKHSSLVSYQLEGNEKTFLSLYERDNGNLVLVN
+TRELEE
+>tr|A6CQL3|A6CQL3_9BACI
+MSYEIDWVKSRAGLFPAKCAVIDSVTKDSWTYSELNERASRLAGLFLEQGVKKGDRIALF
+AENHVSYFDFMFACLKIGAIFVPLNWRLSTDELQFVVRDAAPAIMGVQTSFIQQASELQE
+DFYLIEIDSNHYLEGIATSKITAKLDLEESDPLAMIYTGGTTGHPKGAVLSHRSIMWNAV
+NTIVSWNLTDRDTTLTSIPMFHTGGLNALSIPILVAGGTVVLSPGFHPDQAVKDLIDYKC
+SIVLFVPTMYHMLTGTKAFKKAKFPDMKVFLSGGAPCPLGIYEAFNSKGLAFKEGYGLTE
+AGPNNFYIDPKEAVVRQGSVGKPMLFNEVKVVNEQGLEAGADEVGELYLRGSHLFEYYWK
+KDDETREAWQGGWFRTGDLAKKDEDGYYYIVGRKKDMIITGGENVYPSEIEYWIESHDTV
+DEVAVIGIPDEKWGEKVVAFVTAKGSTGLSPEELQEYCKRKLTKYKIPKCFYIVDQLPKT
+HVGKINKNELRNRLDKVT
+>tr|A6CUF7|A6CUF7_9BACI
+RMVYTRILDQRSISLNRQGRLGFYAPTAGQEASQIASHYALEKDDWILPGYRDVPQIVWH
+GLPLYQAFLFSRGHFKGNQPPEGVNVLSPQIIIGAQYIQTAGVALGLKKRGKQSVAITYT
+GDGGSSQGDFYEGINFAGAFSAPAIFVVQNNQFAISTPRDKQTAGKTIAQKAVAAGIPGV
+LVDGMDPLAVYAVTREARERAVNGEGPTLIETHCYRYGPHTMAGDDPTRYRSSEMDTEWE
+RKDPLVRFRKFLEGKGLWNEEKENEVIEQAKEDIKEAIKKADGTPKQKVTDFINIMYEKL
+PYNLEEQLEIYKEKESK
+>tr|A6CUE4|A6CUE4_9BACI
+MDIQSFTNGGVPLNKAVEKRKKWTVEEEKIVTDTVLKFLRDGKAQKEAFDEAAQTIGRTS
+AACSFRWNNKLKKETVMETDHTPASPSPISLEDCISFLQGIGSEQDAIHENKKLKEQQRK
+LQKKLLAAEKTYNKLKTDYKELLTQIDLKELNAVPSFTI
+>tr|A6CJQ0|A6CJQ0_9BACI
+MAWFYLITAGLFEVLLVTMMKLSNGYKRIIPTALAILSGGISFYLLSLALVSIPVSTGYS
+VWTGIGSAGAVIAGMIFFNEKKEFKRIFFIGCIVISVIGLKVFS
+>tr|A6CIP7|A6CIP7_9BACI
+MKTGDVFTWERTFTREEVMEFGQLSGDQGLHHMEPDEHGRVMVQGLLTASIGTKIGGDLN
+YIARDMHNEFIRPVFTGDTITCELQITKVEPSEGYKKVEMDFVYRNQRGKEVLLGSSRGI
+IRE
+>tr|A6CRS7|A6CRS7_9BACI
+MENFWENEFIQTAGYYSVFILFLVLFLVIFELVTKYKNWEEIKKGNLAVAMATGGKIFGI
+ANIFRHSIAENDTLMTTIGWGVFGFILLLSGYFIYEFLTPKFKIDDEIEKDNRAVGFISL
+VISVGLSYVIGAGIS
+>tr|A6CPL9|A6CPL9_9BACI
+MTVKLGYIILYVEDLNKTLHFYRDLLGLSVKMEAGTYIELETGGTTLSFNTRESGREITG
+LPIPNQKRKEQTFELGLVTEDVKGTVEKVRGEGVPVLLEPTEKPWGQVVAYVEDPDGHYI
+EICTPL
+>tr|A6CRI8|A6CRI8_9BACI
+MNIRSETFKRFAEKECRGSSDLYEHLSSRISEDEEILELSGYAREGQPVPNLLLGAVHYL
+LLRGYQHPLKEYYPSMVSSPKDYTEAFLPFKDFCREYKEEIRLLLETKLVQTNEVRRCAY
+LFPAFSFVYEKMKRPLALIEIGTSAGLQLMWDQYSYSYGTGEVYGNIDSTVKLTAEIKGD
+DAPKLQQGTPPVSQRIGLDLHINNLADEEDYLWLKALIWPEHEDRRQVFEKAAEYVKAAS
+IDFIVGDGIELLPRIAGEIPEDSVLCVFHTHVANQIPIEGKKKLFKEIQTIAGKRDIVHI
+YNNMKDRELHLDYYIKGMEHKNTIGMTEGHGRWFEWKI
+>tr|A6CJ50|A6CJ50_9BACI
+MTKKELEYKISEIKADYIRIQGDLEKLESVGRNTEKSERRLVELENELAQLNKQLALVAE
+>tr|A6CPI7|A6CPI7_9BACI
+MMKQWSKIALILAVFFGLIANSTVMAADNEKNTDSINEKFGLPIVVLGESLSEAQKEEVR
+KALEVDDPEMVEEITVTGEDLARYIQGEDRNARMFSSAKITRKEKGEGLLIERATPGNIT
+EVTDEMYANALLTAGVEDATVVVASPIKVSGHSALTGIYKAYEVSGEKLDTVRMEVANEE
+LGIATELAKEEGMDQEKVSELLTEIKKQIAEQNPATKEDVERIVNEQLQKLNIELSPEDR
+QLLIDLFEKMRNLDINFDNVKSQLEDISNDIKQRLEEVVGEEGKGFLQGVLDFFRNLFQS
+IADMFK
+>tr|A6CM87|A6CM87_9BACI
+MGYVGVLVISIILIFVIILVSVLTTSKAYDYKHTVDPIENNPHIDNDEDEKEDETKQT
+>tr|A6CT04|A6CT04_9BACI
+MTIEDLKLQDLKKKNFLMLILYSISLLAAISYTLIHQLPFMETILYSIQLAALIAFFLIF
+QMALKKFYLFPLFTMPVIY
+>tr|A6CU91|A6CU91_9BACI
+MEAAYSVKQKGDSYMEKILLEQREHLGIVTINRPDAMNAFNYDTLTELEKVVESIRINPD
+IRTVVFTGAGEKAFSVGADLKERKTLTEQQVRRNVNK
+>tr|A6CKM9|A6CKM9_9BACI
+MDTKWTYTGDYNLIKKGVFKMGKSLTTAMKIQRPASEVFQALINPEQMSNYWFSSGSGRI
+EEGKTITWRYDEYNAEGIVNILEVVDPAKIVFTWGDPEQPTTVTIKLEEQEKDSTVIRVT
+ESGFGENPDLERMLGQKEGWVYMLTCLKAYTENGVNSLRASLVHS
+>tr|A6CKY9|A6CKY9_9BACI
+MSYVGRISVIIIYITIVLAWHSFYFLVDYEASYIFMFEKGQYKWDLVFIPLLSPFFWWLG
+YQFDKAKYLSEKDTLTGLYNRRFVSTTTPKILSKTESSNKKLTISVIDCDDFKQINDTYG
+HETGDLVLQRVSEILVENKRKSDIVARWGGDEFLIVSSETDLESCKLISNKIKEDLNKLS
+KELSMNISVSIGTSVYPDDSTAQKDLLIIADRNMYHCKQENKKVL
+>tr|A6CIG2|A6CIG2_9BACI
+MIEIVNLSKKYGSFTALDDMNLSIEKGTVFGVVGPNGAGKSTTFSILATLLAPTEGTAYV
+NGFDVTKDPKMVRKQIGYMPDFFGVYDQFKASEYLDFYGASYGLTAAERKALIPQLLELV
+NLSHKKDSYVDLLSRGMKQRLCLARCLIHDPEVLILDEPASGLDPRARIEMRDILKELKT
+MGKTILISSHILPELAEMCDELGVIENGKLVASGSVSVIHQKLQANKILNVTVMEDIEKA
+VAFFEDDPHVAEVIRDEKEPGTIHFAYSGTDREQVELLAKAIGAGLLITDFTQKKTDLED
+IFLEITKGDE
+>tr|A6CH92|A6CH92_9BACI
+MEEVILMRKGIALYIVSLAVLMLFIAGCSSNEENTANHSSDEHGHNHEQLANGDIREETT
+GPEQLPSFLDDKDENIKLVYASAAQNPDLLQYIPCYCGCGESAGHMNNLNCFVHEIKEDK
+VTWDDHGTRCLACLEIAAESIVMYEKGESIKDIRNYIDEKYKEGYAKPTPTPMPS
+>tr|A6CKH5|A6CKH5_9BACI
+MVIQKNFEHLVGKLLFLLSFFGLSIVAFLLKSNQSISELILFYISIPALILSMVISVIIK
+LKQ
+>tr|A6CSS0|A6CSS0_9BACI
+MQTKVQKIAVQTKNNINEGLSSKRTTLFVCGGLLLMIPLQRELDVPIIHEQKFPGKFDFP
+NIIREKQFVQYK
+>tr|A6CTF2|A6CTF2_9BACI
+MKFPPYSLKLTKKAYKKALIPGQGRELARGTTLVMNLLDRFITLEP
+>tr|A6CMC7|A6CMC7_9BACI
+MWKWETEQEAKAVIVIIHGAMEHHGRYGWLIEMWRTSGYHVIMGDLPGQGMTSRAQRGHI
+DSFDEYIIEVKDWVQAAYQFDLPVFVIGHSMGGLVAARLMQESHINIAGLILSSPCLGLV
+DSIPKPLELLSHILNKVAPHVKFSSGLTVDLATRNEEVREIDSNDSLYVTKVSVRWYREL
+EHAIKQAFVNIQKMPDIPLLVMQGGDDKIVDKSLVKKWFNELSLSEMHYKEWPKCYHEIF
+NEPERDEVFEYAKTFVESRLKAIGYVVQE
+>tr|A6CQX0|A6CQX0_9BACI
+MPEELEIEFKNMLTKEEFQRIKDQFSLTESNFSLQKNHYFDTPSNELRENQCALRIREKN
+GRFEFTLKQPAEEGLLETNQPVTEEDTLKMLKQGIIPPGEVSDALLKLGVGMKKFLHFGT
+LSTSRAETGYKDGLMVLDYSFYLNNEDYELEYEVKESKPGKENFYHFLESMDIPIRPADN
+KIKRFLRAANSN
+>tr|A6CJ66|A6CJ66_9BACI
+MNLREKGKIKVSKRSIIRYVVFLIFALAIIGIWGYREQQQSYKEPSQAIQASEEGLLLIP
+AYKRDDKSLYFFIKDRNNLGSTYAHKGMFGWKSDFFTWGSMDPNRNYEQLWGFQVHGENL
+VYGLIRLGTEQTVMVDNQEAQLLNLAMLPPSVVEDYQLEGLFLWYFEKEDQSEYKQVKLL
+QRDTQEIIQTIDL
+>tr|A6CP12|A6CP12_9BACI
+MFETILYEVSDGVAWIRLNRPDKLNAFIGQMNREIANALKQSSRDEAVRAIVITGEGRAF
+CSGQDLSEVSEDMDHGEVLRNNYGPMVKELAACEKPVIAAVNGVAAGAGMSLALACDFRL
+LSEKASFVEAFIHVGLIPDSGNLYYLTRLVGHAKALELAVFGEKITAEKAEELGLANKVI
+ALEDWESEVRVYAERLANMPTKAIGLIKRYLNECYDSSLEEYLEKEAYGQRIAGQSADHL
+EGVGAFMEKRKPVFQGK
+>tr|A6CM36|A6CM36_9BACI
+MKKFFSFMLVLLLAVGLVACGTNNGGNNASNEGNSGEGQEKPDTIVMGFVPSQDSDTIAD
+TVEPLANRLSEELGIEVEGRVMTDYTALIEAMGSNEVQVGFIPAFGYVLANEQYDVEVIL
+KSVRHGSGTYKAQYLVKADSGIESLADLEGKIWAYPDAASTSGFLFPAAQLMDEFDIESA
+NALQTEFFSQGIAAGGHDTAAIAVYEGDADVATTFDDVRTTLTEEYPDMMEEMKVIGHTS
+DIPNDTISVTKDLDEELKQQIKEVFLSLNEDPEMIKIMNEVYNWDEITEASDEEYEVVKE
+TYAKFKDSISF
+>tr|A6CPC1|A6CPC1_9BACI
+MRIDNLDKSFDGQLILDDLSLSVGDGEFLSILGPSGSGKSTLFHLIGGLYSPEKGTIQID
+GENINGRRGYISYMPQAPSLLPWRTVEDNVLLGQELSGKKDREGARKMIERAGLKGYEKS
+YPHELSGGMKQRVAFIRALLSPQPIICLDEPFSALDEFTRLDMQKWLLSIWEENKKSIIF
+VTHNIEEALFLSDRLIVLSQRPASIKKEFTVPFSRPRKEDLVLSEEFLQCKKTIYQELIV
+HE
+>tr|A6CJL0|A6CJL0_9BACI
+MLHFKTYIKDHHSPWVTFIHGAGGSSSIWFKQIKDYKKEFNILLIDLRGHGSSTATWKKG
+DSFINVAEEVIDVLDHLDIQTSHFVGISLGTIVVQTLAGKHPERLSSMILAGAVIQLNLR
+TKFLLAIGNAFKFILPYMWLYKLFAWIIMPRPRHMESRYTFVKQAKKMCQKEFIRWLGLT
+KSINPYLRNLQIDSKGIPTLFVMGEEDHLFLTPVKQLVKKQQELDLQTIEDSGHVCNIDQ
+PEKFNSITLKYLKKLHSVRTSLLV
+>tr|A6CLP6|A6CLP6_9BACI
+MEMKPETLEWKDAYKMLVGSIVPRPIAFVSTVDDNGRANLAPFSFFTAISADPMLVCFSP
+MRRGTDGSKKDTLNNIESTKEFVINVVSEEFAEQMNNTAIEFEAGVDEFEETGLTKIPSV
+MVAPPAVKESKVQLECSLHQVLHFGEEAGAGSLVIGKVKYVRVDDELYYKGRIDTEKLKP
+VGRMAGQMYTKPMAETFEMVRKR
+>tr|A6CMJ7|A6CMJ7_9BACI
+MKQLQLFLAFFRVGILGYGGGPSSIPLVHKEVVEKYKWMDDDDFSDVLALGNAMPGPIAT
+KMAGYIGWRVGGLIGMINAVLATIIPTIILMILLLNVLNAYKDKAWVQGMASAVVPVVGV
+MLGVLTWDFIMKSRGALGWSVTIGILIGSLIIIELMGIHPAIVIGGLLVYALVGKKKKIP
+EREVKAS
+>tr|A6CU01|A6CU01_9BACI
+MLIVEALAQVGAVAMLKKEENRGRLAFFTGIDNCRFKRQVKPGDQLRLEVEMVRFRGAIG
+KGKAVATVDGEVACETEMMFALGEKQE
+>tr|A6CUF5|A6CUF5_9BACI
+MKKHYGYVLIAYIIMQISSILGIPLLYYMLVNWFNQSSERAEAIVPGYWLVLSFSITLLV
+VWAILRKTESSTRLDRQAPMSAGFSALWAIAGIFMAFFAQSIAINIESLMGIEMGSENTK
+TIVNIIDTVPLAMIVAAVIGPILEEIVFRKIIFGVLYERFSFIISALISSVIFAFAHFEP
+EHVLLYSAMGFTFAFLYVKTKRIIVPIIAHVSMNSLVVLMQSIFREDIERMIEEAEKIQG
+FIGGLFL
+>tr|A6CMZ2|A6CMZ2_9BACI
+MKEIKCECGHVNPHGTILCESCGRALTEEAKQDKLHDMRYEGSARRSQTYNKSIVDKIWN
+FFSSVKVGIWLILITLISSAVGTILPQEFYIPNTMPAEEYYGEVYGWFGELYYTLGFHNL
+YGSWWFLLMIASIGISLVIASLDRFIPLYRALKKQRVSRHEGFLKRQRLYSETEVPETGT
+TLQQIRKNMEEKRYKVREENGSLLAEKGRFSRWGPYVNHVGLIIFLIGAMLRFVPGMYVD
+EVLWIREGETKAIPGTNKEYYLENKNFTLEMYDKNKDKEVFSEALDNAGQVAKNYQTDVV
+LYHAEQSDIPGQKVEMQKEKEKAIQVNQPLKFDNYAIYQTSYQLDEFKAMSFTLSNKSTE
+EKFGQFTVDLFDPKEIYELEDGRKVELMGYYPDFSGFDEKGEPQTKSPLPNNPAFLFKMF
+SPEKPDGEISFVGIQQNLEPLGENIYKMNFAGLETRDVSALTVRKDLTLWVIGIGGAIFM
+IGVVQGAYWNHRRIWVRKSNSGRLIVAGHTNKNWHGLKKEINFVLDGTGIDEPKDQQEID
+GKET
+>tr|A6CJN0|A6CJN0_9BACI
+MKQIIALGGGGFSMEPENDLLDTYILSQAAAASPKICFIGTASGDADSYIERFYQYFKQM
+DCTPSHMSLFKPHTRDIEGFLLDQDIIYVGGGNTKNLLILWKEWGVDRILHKALAKGVVL
+AGISAGSICWFEEGVTDSYGDGLEPLKALGFLKGSNCPHYDGELERRPSYNSFITSDELS
+AGCAADDGAALHFIDGKLEKIVSSRSHAAAYFVEKVDGKAVERKLKTVYLGINEGKGS
+>tr|A6CNY7|A6CNY7_9BACI
+MSRIGVEESLQNVVQALREKGHDVVELKQESDAQSCDCCVVTGLDSNVMGISNAVTQGSV
+IEANGLSADEVCQQVESKLR
+>tr|A6CJT6|A6CJT6_9BACI
+MKQSFDFLLEIDKLKKVTRRTYIADGSRNENTAEHSWHVSLMAMTLWESYEHKDKVDIFK
+SIKMLLLHDIVEIDAGDTYAFDEDGYQDKQQREKLAADRLYGMLPESVRDDYRSTWNEYE
+EGKTHEALFAHIIDHIQPLMLNIATSGISWKEHGIHSHQVMNRNSWIKDVSPAIYSQIEE
+WVHKGIEMGWLKHS
+>tr|A6CH66|A6CH66_9BACI
+METDLERILYSYRPEKIEIDLSLYYKFGLEEVFIYSMMVDFYEFQIENKLIEAGEEGYLA
+IEHISLLSNIDITRIHNIITELDNSKLIRINFDTLLLQIFFQPLKTPVGEPTNIVEFSTF
+SKKK
+>tr|A6CTT1|A6CTT1_9BACI
+MLYLHDVWVNWFEGEENGYNVCHFHEWRKEDVIELLDQVPLVKVTPELFHYIENDLSELP
+QSLLNDIYQKAYLRKNHERIQLEYCFIVTDGTGILAVDTIGYSIPIRKSRIIPRQEQLVY
+EMTEDQEPYNYTLQLEKKEKDYHILSPKPTIMSGLTRRERQLKQLMFMALDQLHSSKNTA
+EIRYWCTEWAPQNYERIQSMNFEEAWQSLFEETKEGWSDKHLLFCENLIKGQPFFEKLWE
+LENRPKVN
+>tr|A6CL33|A6CL33_9BACI
+MSILKRLFGKKEKDIPVVKDRNVFTIEVGDIVAYDLEDYEVVSKLTYNDHGFEWLAYQLE
+SPGRTVWLSAEMDDQVYLGIYEKVKLKLSEPLPEEIEFEGTRYFLDESGEARVKGDGRGQ
+NVNGINCRYFDYEDEDEEKYLSVEIWGSEIEVSRGYEINEYEIKIIASK
+>tr|A6CH65|A6CH65_9BACI
+MGGKMVDQEKTKELEAENIWLELDFFNTEDYLLLEEKLKGDKRVRGIFVNTSAIIHSKDL
+KSFLNEFPFKPDIIQSLGEANLNDDLMSISSIQDILNSQEFTRDFLDNSTCEKMAQSIRA
+YCIDLVNNLPVEEIATFDMNIADSLVEKEAELRLLPLYLEYRKSLKEKYLEKDNKLQEKI
+NKIEKLAEGI
+>tr|A6CKL5|A6CKL5_9BACI
+MYYSLLLFLAAIGAGLALLFVLCTGAAYFLGPGLVKLLVVFAVIIIIVFALIIIFLAIKA
+LLYRKRC
+>tr|A6CM47|A6CM47_9BACI
+MYINEWNEKKDPGKTKVSKHLKELIFMAKRKAQFDAAEKNNKTPRKNLAEEKDFSAEFAQ
+DENPAKAKNRNSKHGREGRMNDER
+>tr|A6CSZ8|A6CSZ8_9BACI
+MFEDVEYTKPADAFKEEGHTVVTIEKESGKTVEGKQGEAKVTIDKGIDNVNPDEFDALFL
+PGGFSPDQLRADERFVQFTKSFMDSEKPVMAICHGPQLLLTAKTLDGKDATGFKSIKVDM
+EYAGATYKDQEVVVFKDQLVTSRNPDDIPAFVRESLKLLKNVS
+>tr|A6CTE7|A6CTE7_9BACI
+MSRQDSLELFDENEIYIKGKHLVTIFHNESNLYSVIRIRVESTNAQYEDKEAVVTGHFPK
+IHEQETYIFHGAFKDHPKFGMQFHAERFKKEIPQTKQGIVDYLSSELFKGIGKKTAEKIV
+EQLGENAISKILETPSLLDDIPKLPPEKAKTLYDSLVEHQGLERVMINLNGFGFGPQISM
+KIYQAYKEQSLEILQKNPYKLVEDIEGIGFGRADELGSKLGITGNHPDRIKAGCLYTLEQ
+NCLQEGHVYLEAETLLSNVKALLEKSQSERISFDDISREVIKLGEEGEIMGEERRVYLPS
+LYFSEKGLVTNIQRLLAQDQYTDQFPQSEFLMALGGLEERLNVQYAPTQKEAIETALMSP
+MMLLTGGPGTGKTTVIKGIVELYGELHGCSLDPKDYKDEPFPILLAAPTGRAAKRMTEST
+GLPAGTIHRLLGWNGTDSFEYDEDRSIQGKLLIVDEMSMVDTWLANQLFKALPDDIQVIL
+VGDEDQLPSVGPGQVLKDLLRSEVIPTVRLKDIYRQEEGSSIIEMAHEMKAGRLPDNLLQ
+PQKDRSFIKCTTSQIAEVVEKVVANAKSKGYSAKDIQVLAPMYRGPAGIDKLNVMLQEIF
+NSNDGTRKEIVFGDTKYRIGDKVLQLVNQPESNVFNGDIGEVISIFYAKENTEKQDMVLV
+SFEGNEVTYTRQELNQITLAYCCSIHKSQGSEFPIVILPVVKSYFRMLRRNLLYTAITRS
+KNALILCGEEQALKMGVEREEDVQRLTTLYEKLRGIKSEEVTESISEEEAPPKNKLEEML
+HADPMIGMEKVTPYDFL
+>tr|A6CR12|A6CR12_9BACI
+MSEPAQTLDGWYSLHDFRSMDWTSWKMLSSDERQMAINEFHGFLEKMNNTQNKEEGSHAL
+YSIVGQKADFMMMIVRPTMEELNDLENEFNKLTIAEYTVPTFSYVSVVELSNYLADGENP
+YENPHVRARLYPILPKAKHVCFYPMDKRRQGNDNWYMLPMEERRSLMRSHGMIGRQYAGK
+VKQVITGSVGFDDYEWGVTLFADDVLQFKKLVYEMRFDEVSARYGEFGTFFVGNLLEEEK
+VAHFLHV
+>tr|A6CQY7|A6CQY7_9BACI
+MAVPLDQGPRSRTPEEQINWVRMGLSIWIMKESMVPKGANGVVD
+>tr|A6CKG3|A6CKG3_9BACI
+MEQQQQLKPKVMVLGTFHMRYTPDIHKVEFDDLLTDRRQNEIREVVHKIKKFNPTKLAFE
+VVKENEEDLNKEYRQFLNNGLKLKIDEIHQYGFRLASELGHKKVYAVDWMETVGNRGIGQ
+VFEWAKTEQPDLYKYIEETYRPGREFNLAEKSIVDLMKEMNEESSVKKDHEKYMAVARIG
+SEEDYVGIDWLRWWYQRNLIIYSNLAKITSSPSERTLLIIGAAHIHLVSQFLKESGMFDV
+EPAIAYL
+>tr|A6CR43|A6CR43_9BACI
+MELTPVKLEVNAIVGRKSHQCDILFRIIDIMESGGVRTAILYGEDYRLVADAPLEDLELI
+DRQEYRRRTMEFRSMEQQSLELFRQDIDLQKQKQEYYSTNAYREEYNYFQIPGRVLHLDG
+DQSYLQKCLNLYEEIGVPVTGVHCNEKEMPERIGPLIEKHRPDILVITGHDAYTKSKGKK
+SDINAYRHSRFFVNTVKEARRRVPHLDQLVIFAGACQSHFESLIHAGANFASSPLRVNIH
+ALDPVYIVAKISFTAFTEPVNVWDILRNTLTGDKGLGGIETRGVLRTGMPYKPVEDE
+>tr|A6CJH3|A6CJH3_9BACI
+MYISEKSIEVRYAETDQMGVVYHANYLVWMELGRTKLIEDLGFRYADMEKDGIISPVIDI
+EISYKSPVRYGEKAFVKTWIESYDGLRVTYGYEILNEK
+>tr|A6CN28|A6CN28_9BACI
+MGHMDLAVIWDKFAEHLQSFEGVEDFEMKKIAGIPFIYIRGTLPKEKLEELIKIASAKSM
+RGKRLHSETVYVRQKDCQSVYRHRFYVPQEKMFCCGNLCVDCIRLRG
+>tr|A6CJM6|A6CJM6_9BACI
+MIFIGLTIYGNVPLTFGLFYGWLLLVPVYFSLTNQNHSEWKIRITRNSVLLGTASGLAFL
+LIIFASVSFLFSSIIELEIIGLLLEEWNFNGKMVWGLIAVLIILNPYLEENYWRNFIFEE
+LKVSMSPAMAIITSSFFYSFYHILSMVELFNWPFNVLAVIPVFIAGLVWGLFKHKSGSLA
+APVVSHILADTGIMMIYLVYIHSW
+>tr|A6CSB5|A6CSB5_9BACI
+MMLEPDMTHPFYTGMAKTSETHDVEVLLFSPLQIHPHTEWIQGYRYCTDTGSWKEDIFTI
+PEYIYDRTFYQDDFTSKQAKAIAQWLKNRDDLCFLGYGLPNKWTIYRQLMKHDKVAPYLP
+ETTLIESIPETVSRIKREKNVIIKPFDGAHGIAVYEIQAQNENMMVRTTKKLEMVEKKMD
+EETLGRWLESLTRKKSFILQNKLENRDEQNRPFDLRMLLQKNAKDKWVVTCKGFRVGNQD
+SLLTNLSAGAAAIPYEEWKKNQKHYNWKYIESELRDIVRTLPEILEEEFAPLFEIGLDII
+IGRDSSVWILDMNSKPGHKMLQLLTLEEIERLHSLPLRYCKALQRKMPATGGDST
+>tr|A6CP43|A6CP43_9BACI
+MFKSKKIVAALAVTVGLATGIGMSTPANTSANSNVLLASVDWVKSQLSPVNSRISQLEQT
+VQSQQTQINALKEKIDNGDVGSGDVTPALPSTVYTINDNVTIHSGATRQYKVVATKSHGS
+SLKVIDKYTTSMGLWYRVELSSTVKGWIYSGDVSTTKQSNPAPTQVVTKSDVHLRAGATT
+NYTIKTTIPGGTTLKYIQSFKNTLGETWYNVEMSNGDRGWIISSLAEVR
+>tr|A6CRG7|A6CRG7_9BACI
+MCYINSWTDGKNLSITKEGGIEMNLKGQFPVANLDESQLSKITQLENELRKDTQENIVLI
+AYDEKDE
+>tr|A6CSD0|A6CSD0_9BACI
+MSAILIIPIILYIIFFGAGLVIYKKYKKKKG
+>tr|A6CI53|A6CI53_9BACI
+MQANFNGGDILFQFLMFILLLGIPVVLILLLLLGRKNKKDDHERLERMEEKLDRLLKE
+>tr|A6CQG3|A6CQG3_9BACI
+MKVSKLPVKQISLLIRREGSWLQAIRNEVRPKLRVIPLIFFSDVTMKI
+>tr|A6CMI4|A6CMI4_9BACI
+MNSQLNRPKGFGEILDQTFRLSKKRFLDFFMIFLILLGPIYLLQALFELMAGVNFFRQTG
+AGGNWFEQFMINFEEAPETEPISAASVGAGIASALLGIVSTFFTVIAGAAILIGVNHIRK
+NEEFTAGSAIKQAFKRFWPLVGSSILFGLIIIGMIAVPLMVVGFSGFFIAGFGGAFTGES
+FAGSIVTILFMIVLLLAGAVGIGYLVTRWSFYLGVVTIDKKAPGIGRSWNLTKGRGWVAF
+GVFLVLMLITGVVTAAFELTFGLALGYSVLYSILINLVTMLTSIITSVGFAVMFFDLKIR
+NEAEDLQEMIEDYKQE
+>tr|A6CQK7|A6CQK7_9BACI
+MDVDLLFSLTINGLATGMLIFLLAAGLTLIFGLMDVLNFAHGGLFVWGAFSGVWAYNMTE
+SFWFGIIVAIITGLLLGAATEYLIIRPVYGNHTQQILITLGLMLVLSEMIKVVFGPDQKA
+ANPPPFLEGSFMIGDVILIKYRLFIILVGLIVFAVTSFILKRTKIGLIVRAGVMNKEMVQ
+TLGINIRVVFMLVFMVGAAMAALGGMLMAPYSGVIYAEMGLEFGILAFIVVVIGGMGSFL
+GSLLAAILVGLAQAYMAYYVPALSLAVNMLLMTVVLIFRPQGLFKVKG
+>tr|A6CU87|A6CU87_9BACI
+MELTVYLAGEIHSDWRNEIKSKAQALQLPLSFVGPMENHDRSDNIGEEILGEQPDAVFKD
+DAASDFNNLRTEVLMQKADLVIALFGEKYKQWNTAMDASAAIVKGKPLILIRPKELHHPL
+KELSNKANVTVETVNQALKALSYIFDEK
+>tr|A6CKT5|A6CKT5_9BACI
+MPTLTPTEIQKIEEYYYWVGYKTWIPFPKELNEKLLEVYGEEPVPYSWTEQDIFEGTRKI
+IFNYFSNHSK
+>tr|A6CHY4|A6CHY4_9BACI
+MLMDDLVLSELNRMEREYGVKILYAVQAGSRAWGFHSPKSDWDIRFIYKHSLDWYLSLEK
+KSDVIEKQVNEDLEISGWDLRKALNLFKKSNPSMLEWLHTKERLIADQHFCESVLPLETE
+LFSAVSCYYHYLSMSKSNWNKWLKGEVKSPKLSLHLLRGILCCLWIKEHETFPPVKFQTL
+YEQTVKDRRVCEDLASIVELKKAGAEVINITVPALYSFIEAEMEKLSRTTLTFRDHNKVP
+HEEINNVFRELVKGDI
+>tr|A6CJS0|A6CJS0_9BACI
+MKRKSAYFLFKTTMYKTKKKNYNPQELFKEPHGNNPLKNCPGNLKQKSLYLLEPIKNNIT
+>tr|A6CK33|A6CK33_9BACI
+MNIEIRPIRVSDAEEVTEIMIQEKVLPNVVSLPSIRVERFEAILKGASPEQHDFVAVSSG
+KVIGFAGLHQGKGRRAHSATLFIMIHEEYHGKGAGTALINKLIDLADNWLMLERIELTVL
+DSNHRAKKLYENLGFLNEGFSKGTIIQNGRHAGEYRMARFRPGGMIEERMTEDSERKD
+>tr|A6CS15|A6CS15_9BACI
+MGNERKSVVEKGVVDMTLNILFMSITVKRRMRPVQEYHHDEMVTRHFEEHKLKQETMRMY
+>tr|A6CHM0|A6CHM0_9BACI
+MKNEKALVVFSGGQDSTTCLIWAKKEFKEVEAVTFNYGQRHSFELDCAREIAEELNVRHH
+VLDMSLLNQLSPSALTRDEEITEKEGELPSTFVPGRNLLFFSFAGVLAKNIGAKHIVTGI
+CETDFSGYPDCRDIFAKSFNVTLNLALDEGYVLHTPLMWMDKEATWKWADDMGVLQYIRE
+KTLTCYNGIRGDGCGTCPSCKLRSKGLSDYLSSKKGGEES
+>tr|A6CQE7|A6CQE7_9BACI
+MKTIGRNEPCECGSGKKYKKCCGNNSAVNIEDLVLGELEILQAQVYDFIAVHNSEELESD
+YHRYYSEMKMMNKDQEIYEMAFLSWYGVTKKLEDGLTLAERFIDKQSKAVTRPQTLESLE
+KWKQPRIVAGVVKSAQGTELVIEDTVEGEVFNVKGANPEIVAGCFFIGILLQNGENYLPF
+AQYFVYPGLAEVCKDAMIEKMKAADKDGVEEYLMSDYLYLADHCFYLYTGQGQKAEEEAA
+PEAEESSDNPAYTEAIDSMKSFLTEQGEAAASIEKAAKLLSQYFESESPKIRNPQIYSAS
+IIEVIKGDTELKTDYLQKILQKHSAFPPTVSQEDQRK
+>tr|A6CR30|A6CR30_9BACI
+MLEVKCKSCNGESFVEATDYINLRPLNKRMALGSEKIYTVCLSCGEVISIKIKNPEKLK
+>tr|A6CR36|A6CR36_9BACI
+MEKRIMEGPIYMTNRYAVILAAGQGTRMKSKLYKVLHPVCDKPMVEHVVDQITTLDINKT
+VTIVGHGAELVQTHLEGRSEFSLQEEQLGTAHAVMQAEEVLGGLEGTTLVVCGDTPLIKA
+ETMEALLKHHDAQKAKATILTGKPEDATGYGRIIRNQEGLVEKIVEHKDASEEERLVKEI
+NTGTYCFDNKALFETLKKVSNDNSQGEYYLPDVIEILKSEGEIVSAYQTDDFEETLGVND
+RVALSQAEQIMKKRINEKHMRNGVTFIDTNTTYIGADVEIGRDTIIHPGTVIKGDTVIGE
+DSVIGPHTEIKDCKIGDNTTIKQSVAHDSEIGSDVNIGPYAHIRPQSQVMDEVKIGNFVE
+LKKVTFGKGSKASHLSYIGDAEVGEDVNLGCGSITVNYDGKNKHLTKIEDGVFVGCNSNL
+VAPVTIGKGAYVAAGSTITQDVPGESLSIARARQVNKENYVNKLNLNNN
+>tr|A6CLL4|A6CLL4_9BACI
+MNQSLTLKELFQILQNHFWLILSIIFLVTASGIILSLSLPKEYEAKVDLLVNYSPENNQG
+SLSVGEVETNLRLISTYKYILKSPRVLEIVAERTEENDNVQCLNEQISVTSSSDSQIISI
+TATALNPNQAVDIVNNTAETFKEETYNLMQIDNIQILSYAQEQDSTTPVKPSLILSAGIS
+FTIGIFLAILIVFIREAFFTKLNNQEKVERMLNAPYLGSVPKLPPQSNLNNKHSPNNTYS
+KFLISSSEANSPAMELYREIRTNIQFLLKKEKTKVLLVTSSGASEGKSLTTGNLAISMAM
+DGVKTVVIDMDLRKGVGSQLFHLPSKKGISNYLHGITPLNEIIQRTDIPKLFFISAGPLP
+PNPTELLSSDRLSSMINTLKKEVDLILIDTPPLIVSDAAVLSSRVDGCLFLINARKTRME
+TAKKNLNKLNRVGANIIGVILNKTKKEKSQTYYY
+>tr|A6CTJ2|A6CTJ2_9BACI
+MPNWLVSQMRKAYFEKDRYQIKLLNQCWYFYRKKHCS
+>tr|A6CSE1|A6CSE1_9BACI
+MFDKTDQLAINTIRTLSIDAIEKANSGHPGMPMGAAPMAYALWSKIMNHNPRNPEWANRD
+RFVLSAGHGSMLLYSLLHLSGYDVSMDDLKQFRQWGSKTPGHPEYGHTPGVEATTGPLGQ
+GFAMSVGMAMAERHLASVYNRDNYNIVDHYTYSICGDGDLMEGISSEAASLAAHLKLGRL
+IVMYDSNDISLDGDLDRSFSENVKGRFESYGWQYIRVEDGNDTEAIAKALEEAKSDENHP
+TLIEIKTVIGYGAPNKSGKSDVHGAPLGVEEMKMTKEAYKWTFEQDFHVPSEVQDRFKEH
+IVDTGEKKEQEWNELFSQYKEKYPELAAQFESAMKGELPEGWDKDIPVYEEGSSLASRAS
+SGEVMNAVAKNMPSLIGGSADLAGSNKTMIKGQKDFTPESYEGRNIWFGVREFGMGAAMN
+GMALHGGIKVFGGTFFVFSDYLRPAIRLAALMGLPVTYVFTHDSIAVGEDGPTHEPVEQL
+ASLRAMPNLSVIRPADGNETAAAWKTALTSKDKPTALVLTRQNLPTLKGTDAKAQTGVEK
+GAYVVSPAGKEQPDALLLASGSEVSLAVEAQAVLAKDGLAVSVISMPSWDRFEQQSKEYK
+ESIIPKAVKKRLAIEVASPLGWDRYAGDEGDILAIDGFGASAPGEKIMEEYGFTVENVVS
+RVKALLER
+>tr|A6CI86|A6CI86_9BACI
+MTNIFASIKDYLQMKLDDEPKNPLHVGEVMSLWMYLALMDEATVYIQIGLNTTNDDVVHK
+MLTDSLKQCDEQGKRFREFMKTEGVHLPSTSEQRPNSDSNAVPLGVKLTDDEIMNGLSMK
+TMAAVMHCAVSASQSIRNDISLLFTQTMIEKMKFGVELKDVMRKRGWIKVPPYYYPPGMP
+KQQ
+>tr|A6CU89|A6CU89_9BACI
+MIREVEKDQFELTTGIGGIKMTTQSVKDDLVADSEFMMEVVSSVKNK
+>tr|A6CII0|A6CII0_9BACI
+MYIIKEMIMVKEYKFEKIELSGLKGVNSKPSSDYQEVIHAHAKEGWELVQIFAPGTGSYG
+SASYIEIIFVREAN
+>tr|A6CNP9|A6CNP9_9BACI
+MHVFERKLKTILTEFRVLYVLEEGSQDTSSGFWVVRVLEGAI
+>tr|A6CPU4|A6CPU4_9BACI
+MTDLNTLISGVFFMWEKSRYYVYLERRQNRIHAGKVF
+>tr|A6CJK1|A6CJK1_9BACI
+MDIGLYKIENMSDEIITLSLFENETVEDNTEMQHLPRALFPFHVTNEIMIEVSERAGQLE
+FTPISTENVQARIQAEELLKDFIGTAEV
+>tr|A6CTB6|A6CTB6_9BACI
+MRKDSGNKRKQAIALQYESEKQQAPKVVAKGKGLIAENILEKAREHGVPVQEDRNLVELL
+GNLDINESIPEELYQAVAEVFAFLYRVDREAKKS
+>tr|A6CSC0|A6CSC0_9BACI
+MYENKKLPGWTFSFYYQGTKYNGSYHKNGTIEWKDGQPPPSDEETIKKQIHELMLFHVYE
+>tr|A6CT86|A6CT86_9BACI
+MADIKKGGDFNKMLLASLSPSVITLSTYWSSIQRLIAFHTIVLIVIIKERKYRKGEWC
+>tr|A6CK60|A6CK60_9BACI
+MERKQFLYKLKLIERLTDEKNWTEKENEIVSQHFGYLQEMLNGKKLILAGKTKGLDESTF
+GIVIFESDSDEEALSIMNGDPAVKEGVMTAELFPYQVALMGDLRS
+>tr|A6CNT5|A6CNT5_9BACI
+MVKRKSRNIAKEQLQSVLRETDNPAILNDVIDTELGAMPGVTAEELTTAERYSVRNSTDG
+KTWNSADNRG
+>tr|A6CSB8|A6CSB8_9BACI
+MFVNNVQNGIEQTWTSGRFYKELLGKTNNPVYKEFIEQAENDKRKHYELLQYVHYMLTGE
+YHTLNKQERTFSTFREGVLIALKKELKEAAFYRDLLMDIPGWHVYQPIFIVMTDASINAM
+RFICIYNALK
+>tr|A6CJA3|A6CJA3_9BACI
+MSERGYGAGFALIVVLFILLIIVGAAYVGGGY
+>tr|A6CTG7|A6CTG7_9BACI
+MNDKLLNIKTEMVQKVPYASHHYNRYEPTPYQVLDKLFEVVEMESTDRVVDFGCGTGRLN
+FYVHYRFQSAVIGVEMNEYYYMEALENRSEYLKKYNFNEDSIQFENCLAQDYRIHPDDNV
+FYFFNPFSAGIFIKVINNILQSFEEKNRDIQLILYYAPEDYVFFLENQTAFHMEKEIILP
+GNVYEKFLLYSLRA
+>tr|A6CHT2|A6CHT2_9BACI
+MLAGCNFNDDSLGQDGEEGGMGVQQVRYNTTNTGENNIYGEANPADPTYGMMDRMANKVM
+KLYEIERAYVYTKGDEAYAAVVLENRLETHIGDDVHKKVEEAVKSVNGNIKNVYVTNDRE
+LVRNMKTYRDQVHRGGPVEDLGDRIGERVSKLFPNVD
+>tr|A6CIH4|A6CIH4_9BACI
+MTTRNYNELIKDRIFIGGADDAKEVLENEKVDVIFDLRAETSKVEFDRIHSPIVDDADMQ
+DESIKKSVDQVVDAYNEGKKVYFHCGGGSNRTGTVAIGTLLALGKAGSIEEAESMAMAVR
+PKIKVKPEMKESLNRLYPIS
+>tr|A6CQ67|A6CQ67_9BACI
+MNFSMNQNQSNKNEEKEKEGKPSGLMEKIQQLGQTNVPQLSNDSNIHCLTIVGQIEGHMQ
+LPPQNKTTKYEHVIPQLVAIEQNPKIEDCWWC
+>tr|A6CRB4|A6CRB4_9BACI
+MTWFFVALAAAVYGLLMKYVLNNVFVSKHNNVNASPAKSAEKETRDLIPAYDR
+>tr|A6CUH5|A6CUH5_9BACI
+MHVKKGDKVMVITGKDKGKTGVVLSALPKKDRVIVEGINVMKKHSKPSQANPQGGIISQE
+APVHVSNVMLLDPKTNEPTRVGFKKVDGKNVRVAKKSGEVLDK
+>tr|A6CJK4|A6CJK4_9BACI
+MKSLFWIEMIKEGADLMMTMFLASKIEEDAGATGMMTAMTEEMTISATIGPGFNTAVKRF
+LM
+>tr|A6CIZ5|A6CIZ5_9BACI
+MKNPYENEEKLTGGNVSNVYRSGDTVRRELKPDSIKIQTLLKQLENKGFDRTPKFMGVDE
+KDREVLSFIEGEAGNYPLKKYMWSDVALKEIAKMLRQYHDAVSDFPITEEWKPLDNTPNS
+REVVCHNDFAIYNIIFHYEKPVGIIDFDLAAPGPRLWDIAYTLYTCVPLSRLYHTETGEA
+VYYDPAQDAIRKKQRVQMFFEAYGMDCLENDYLDIVLLRLEGLCKTMKRKAGEGDIAFQR
+MIDEGHYEHYQKEIEFIRQHGKEWV
+>tr|A6CRA5|A6CRA5_9BACI
+MERSSIDFNRISKALQSTIDLIEEEEMKMDSEIMGGLMEAREDLTNALAYELFYSNPRNL
+S
+>tr|A6CKQ7|A6CKQ7_9BACI
+MIEGYSLRKASELIEVHYVTLFYWRHKILSALKQMDFK
+>tr|A6CL99|A6CL99_9BACI
+MTNDRMDTQVIGLEREEKIFLNDYKARLFDLMNEKFSEDASHCTECLSAWLEVVQDLLQA
+ETVLFYQRSESSYQLTESLSLNMHPITVFPETLDDIFEGDDGIAVRTITGTVFVNLNLAF
+RLMDQKGFPYGALLISAPQLEWSRHTLMSFAEYSSMYLRKIQYFNQVVEEEHRYRELFKV
+NEAFHSSMDVNILLGQIISTLKRVFPDYGFLLLLSNDNDKNHGDLPIRDFDYDSANTAAM
+QAFVNGTIETEFQASEQKLTLYAPLKGKQGVYGVLEVITSSQFRFHENHREFISLLAYTA
+GSALENAKLYQQSRRLISDLQLINETSHRLNSNLRMTETLTFLKKQIKRSFQATSIGFIF
+MDENEECKVLPESSSFFQSFEGASYINFVKRNIIKEKDAIFIGDISGKFGKELSYLSLMA
+VPMVQNDAIIGFCIVLHKNPYSFSFDMYKLLQSFIHHSTLALTNSMLREKLEELVETDHL
+TQLYARNFLDEEMVRAMKDDEQGTLLLLDIDDFKVINDTYGHQTGDEVLIQVARTLMNES
+EDIGYAARWGGEELAIYLPHKDLKSGLELGERIVEKIPEMTTPSVTVSCGVSYWSGPNDH
+VKDLVKRADTSMYYAKNNGKNQVANI
+>tr|A6CLG1|A6CLG1_9BACI
+MMYTGNQWTVQIMIRILSGAGPAVSEDGITFEKVLKIRS
+>tr|A6CTV5|A6CTV5_9BACI
+MGNKVSFTLITFIIGLMVAVQFQTVQEPVIRDTRDIWELREAIENERDSGSNLLEELQSV
+DEKLEKYETERQTSQEQALRETLEELKEEAGLVEKSGPGLILTVEPSVEEVLLGAKIKSV
+SPELLERLVNELNRYGARDISIDGHRLINTSVIRDINGETKIDGYPINSVPFEIRILTKD
+LKQAKDLHNRMKVSRAIEDFFIDNLSVNIGSPMENLTVPAYTDTIRIRHMEPVTEGGN
+>tr|A6CID7|A6CID7_9BACI
+MLSTILWGLFVVLFAALLFYSERRKHKKRYHSPYREQTEQEKEVEKAIELERSKRGGPHI
+GGGGGN
+>tr|A6CKQ0|A6CKQ0_9BACI
+MEFIPQTIYELTVTMTAGPILAVTFIMHLAGSINCIDRGSGTAAPRTAISITRKKAKAIG
+FPSISLWGMHNYSSL
+>tr|A6CRF9|A6CRF9_9BACI
+MESSKQLDEVVESEVGEDRSRQRDAMRVWNRKSVRIGVVKGTQ
+>tr|A6CJ32|A6CJ32_9BACI
+MKKYVIFIISFILMYVIVQVLAGWVLTALYAPTFPASTSGLPQEVEFGQVTTIGFLLSLI
+VATLAFYFTQKFTRTSK
+>tr|A6CRJ1|A6CRJ1_9BACI
+MSVGELLIIGGNEEKYNGVSILQTFADLAKKNQGKVGILPAASRVPEEISSIYEEIFQKL
+GIENPVTLSIPSREKAQSPELSECLDGMAALFITGGDQSLLSELIAGTSFHKSLLRRWKE
+GMILAGTSAGASIMGKEMIVSSQLKLHDETLKVYMGKGFGILEDLIIDQHFSQRGRFGRL
+IGAMAEMPGKIGLGIDENTAILYKDNEFEVIGEHQVFIIDGQEGKIFKTRNSEDDSELTG
+TNFKLHTLTSGFKFNLVTKSVIHSTVKRGNADEN
+>tr|A6CPK0|A6CPK0_9BACI
+MGKGLVMTLTVIYMIRHAHSVFNLAEEETRGLSVQGMKDAERVTHIMMKEKVDAVYSSSY
+TRAIQTVQGLADVHNLGVQVDERFRERDMAAKDYILKDPEEAMQKVFNHPDLSLPGGESN
+NEVRARGAAALKELLQRHEGESVAVGIHGHIMSITMGAFNPAYGTLDFWKSTSKPDIYKL
+VFEGEELLNVSRLWMAPALEGSV
+>tr|A6CSR7|A6CSR7_9BACI
+MFAGEGVLPFFMKMSGIKERRSLFFKRERRAEAERCLKACSHGRENKGIQSHKGRAFFHR
+QISREITLFIRLV
+>tr|A6CIR2|A6CIR2_9BACI
+MIKKLLFLVLFISFMGACSQQETEGTPSEKKGITLEDVETKIAEQGFELDKNTDLPSENV
+FIQELNGITPEVYNLEGNTLSVYVFSSASDRGKGIQRFEEITATADVVEHKAYGINNILV
+FYVSDNDRIQNRLSEALQKLDNPR
+>tr|A6CHR5|A6CHR5_9BACI
+MKDLLSIPYSYIGYAWAGAFLLATMHALIEFYLTFQTSAPLITDLAHKAQKLYKTDLYRD
+KNFYLSLKRKLLAGSLFLALFPVLLFSLASQVRLSLTSEPQSGYWSWAGFLVLIILTLAF
+LGTILLFRNIEKPVKDLQHGFQNVEQGHLAPLNNPYSDEFSDLINGFNNMVSAIQVKDKK
+NEQLLASFFDVIAGTLDARDPYTAGHSQRVADYSVWIAESAGWPRSKIELLRKSALLHDI
+GKWEYEMKCC
+>tr|A6CI77|A6CI77_9BACI
+MIMMGETYTDYVNKVAVTIPEKYIDIKTGDSHAVSKLIQEQIEYHAHNHTLVHLVFSALD
+QYFRPAAKSGGTNAEIIQELQAIKLMLQQGYVPGSTRPPHPTSQGRQDTSPLNMRDLNDI
+LEAFGG
+>tr|A6CIW1|A6CIW1_9BACI
+MNKRFRTRAGLAAIPFLLLTGCSQTASSADQEPQQHEKSKLAVSEEHKVIEKTETSPRFT
+QEAPYQAIKPSESAQPLKTNYTDKQLAEMPRTQAHGGDTARSVPLGQTLQKGAEDLTDGP
+LKEHRIVSYYGHPNSVNMGILGEHSPEVFMEKLIEQTREYSELDPERPAIPAIELISTVA
+QRSPGEDGDYIHPTSAEDIEKYAKLAKENNALLILDVQLARDTVMNQVKSLEKYLKLPHV
+HLAIDTEFRVKEGEIPGVDLGTVDGKNIQQAIEYVSNLVKENGLPDKLVIVHQFSKHVLT
+NKDAIHPTENVEVALNFDGHGLDAIKRAGYNEHVQKEPIQYGGFKVFYKKDEPLMTPKDV
+LELDPAPAFVNYQ
+>tr|A6CNH3|A6CNH3_9BACI
+MQRLIALIIMLIPGALAALGIKLMRDMLFGILQPPFSALWLQFIMGLLFFLGGLGFIAGF
+ILHRDRKRNKVQERFKNNNSK
+>tr|A6CIZ3|A6CIZ3_9BACI
+MLGLEGKTLTKERQEKAPYLRKLRIYFSVVVVVLSVYILLTKDFHLMTYNMFLLSVFLLI
+MGIYELKNERKLYGYMNVAASLFGFFVSFQAYILNNVMFFFR
+>tr|A6CR17|A6CR17_9BACI
+MEYSKMKLHEEKVFKDPVHRYVHVKDQVIWDLIGTKEFQRLRRIRQLGTTYLTFHGAEHS
+RLNHSLGVYEIVRRIVDDVFQDRPEWSQNERLLSLCAALLHDLGHGPFSHSFEKVFHLDH
+EHFTQEIILGDTEVNKVLTKVGKDFPKHVAEVIDKTYANKQVVSLISSQIDADRMDYLQR
+DAYFTGVSYGHFDMERILRVMRPREDQVVIKSSGMHAVEDYIMSRYQMYWQVYFHPVTRS
+AEVILTKILHRAKELHEQSYSFKYDPLHFYSLFKGNVSLEDYLKLDEAVIMFYFQTWEEE
+DDPVLSDLCSRFMNRNLFKYAEFDPAKEYKKHRELEGLFKKAGLDPEYYLVVDSSSDLPY
+DFYRPGEEEERLPIHLLMPNNELKELSRQSDIVDAISGKRRTDHKLYYPADFLYDESSKR
+NIKRQIRSILELD
+>tr|A6CL31|A6CL31_9BACI
+MKALDSIALILLIVGGLNWLLVGLFEFDLVAAIFGGQTAVLSKIVYILVGLSAIYCIKLF
+GRIKD
+>tr|A6CLC2|A6CLC2_9BACI
+MKKVNGWIITLIVVIGLLLFLLLLIIITKLTITISLYHGNDNDHFTIQFRAWFGLIKYKV
+EVPMVKVDDDGPNLVFEEKTEKGEEGKGTEKEKLKKETPEEIMTSLKDFRELLQHVAGLH
+RIVRTFFSKINVYDVKWQTVFGTGDAASTGTMTGLIWGAKGGVIGVVSGYMNLQEMPQIA
+VVPSFQKAIIQTDFSCIITFRIGHAMLAGIKLIKFWKGGKPKFQSKPLSVVSEKNQSV
+>tr|A6CHX3|A6CHX3_9BACI
+MSKSKGGGTGKGTGKKGWNRWQKSAKKKAAKPYTSKGTKGGNGSEKDK
+>tr|A6CP63|A6CP63_9BACI
+MSGITIREKSREEVEAAVVLQKNYYATGKTRPMATRKDNLKKLADVLRKNESKLLKALHD
+DLNKSEREAYTTEIGILLEEISFTLKHLDSWAKPKKVKTAVTHLGSKGYRIPEPYGVSLI
+IAPWNYPIQLAVSPLIGALAAGNTAIIKPSELTPHTSKVLSEMFENAFNKELVYVMEGGV
+QTNQFLLDQAFDYIFFTGSVPVGKIVMEAASKRLIPVTLELGGKSPCIVHEDADLSLAAK
+RIAFGKLANSGQTCIAPDYLFVHRHAEGKFIEEYKKAVQEFYGEEPLQSDQYGKIVNERH
+YDRLKKYLNDGEVILGGRYDDQSLQIQPTLIKPLNTDVPVMTEEIFGPIFPVLTYDRLQE
+VKAFITSRPKPLALYLFTEDEDVEKDITQNLSFGGGCINDTLMHVATPHLPFGGVGESGI
+GSYHGESSFSTFSHYKSVLKQTNLFDLPFKYPNSKKGLKIVRRLLR
+>tr|A6CM72|A6CM72_9BACI
+MLYFIHNEQAGNIILRMENIERAVKREAMFAWKRQQGVVYRVNQKE
+>tr|A6CP70|A6CP70_9BACI
+MLQAQPSLNGNKPFDDTHIGRSEMQKNFRMDLRTFSEKDYNKYVKVDSVRDWSLVSWKDI
+GRPFEVKNYSIDRQQYEEEHRKPMSAHTSWQFFNRSFHEWFSKDVPLEQQKEKEKFLASL
+TTLKPGEVKSALGDVVRIHLWNYVHRIQDGIWDPRGKRALFEGLNVSKPKILFLGAAEGY
+EAMQLAAMYPGAKVVMVDYDEYCKTTRFEHFPDSYPFLGENPLTGQRKVYYKDDLNIEYV
+VDDIRNLAYGKEFDIVISVGLLEHFPDEYKPEVIDWHRKFLKANGYVIMTTPRNQLRSRI
+YYNIFADVMNHTYRELMTVEQMGLYMYENGLDILKSGYIKVHNGIIAKVR
+>tr|A6CKA4|A6CKA4_9BACI
+MVYYKKMKGGILMEELFKQFMKQMNDRFDQVDQRFENMEQRFEKVDQRFDTMDQRSTKVD
+QRFNNMDQRFDNMDQQFTGLVKDVKELKDGQDRLKDAQDQLKVGQNHLKDAQDQLKDGQD
+QLKDVQEQLKVGQDHLKNAQVQLKDGQDQLKVGQEQLKDNLINALGPYFEKIEKHIDDTS
+AEIKETLKDQQAVIDTLAVRSIKHESKIERR
+>tr|A6CQF3|A6CQF3_9BACI
+MKWKGRRASSNVEDRRGMRGKSIAAGGGIGGIVLVLLFTLLGGDPGTLLNNFGGTSTQTS
+QPYQATEQEEELADFVSVVLADTEEVWTEIFEENGMTYKEPTLVLYTGSVQSACGTSSAA
+VGPFYCPGDQKLYIDLSFYGELQQKFQAPGDFAMAYVIAHEVGHHVQTLLGTSDEIMPLR
+NQLSETEFNKYLVRFELQADYYAGVWAHHAQGMDLLEEGDLNEALTAASAVGDDTIQKRA
+RGYAVPESFTHGTSEQRKNWFYRGFQNGTIEGGDTFEAVNL
+>tr|A6CLG6|A6CLG6_9BACI
+MKLRSRLIILGVLPLVLSISIIAYMIFQIVNIQSSAKDDVNVLTATESLNGSLLVTKQAM
+ANYAFNSSDANKSEALSLLNATEAEMKNLEQLLKNEREKATLSKAAGKFTELKRASEQAL
+ASQNTAEAKRQSIRVSGVLNDMHLLNKQTNEWYEGILKQTEQKITFIILSSVIASALIIL
+MSIVLSLFLSNRIVKPINAIVKDAARVADGDLTIQPAATSKNSKYEIDNLQNSFSDMVQN
+LRQTVLSVESIGGRVKTFTDEVNVHMQSLTESSNQVAVSTEELSRGSQSISEDISSTAEL
+MNSMGEEFGKNVEESNLSVKSSKAALDMVHTGKTTLNKQKAFSEQQSQSSQDIMLSVEQF
+AKYTDEIEQAATSVKSIADQTNLLALNAAIEAARAGEAGKGFAVVAEEVRKLAEDSSQAT
+ELIGKMVHNIKDGIGSIIDLTNKGNHLSQEQLSSMNETEAAFENISDKISLVYNQLNSLV
+DGMNQSNEMTAKVISAVENISAVTEETAAGTEEISASTEEQLNFFNQMNAKIGQLHQMTE
+EMNEELNKFKL
+>tr|A6CHA8|A6CHA8_9BACI
+MQYSQKIIGSKANILVYCDHINKRIRIDEYSGNLEEVAKLIEESAQENEVQKIIMKARSE
+HLLSFLENGYELEAVIKGFFNGSDVYFLAKFKTEERKMSTHWQKSEKIFVEVEEIEREKR
+NPLHKFQLRKAELKDSKRLAALYEEVFPVYPVPLQKPEYVRKAIESGTVFLFIEKNQEII
+SAASAEIDSLHGNAELTDCATLPSFRGGGLMKQLLNGLEEELTKQQIFCVYTIARSLSFG
+MNAAFKQLGYRYGGRLVNNCYIYDKMEDMNIWWKDLST
+>tr|A6CK57|A6CK57_9BACI
+MDVNSYVNFILVGCVVIGVLLTLKSRRFWIPYLHIIATIWVLAGGFGYSLLFNNESTIGY
+LFVFVIGQIFWAFLFVFIAQVLSWLVRSLPLRHKQEIGWMFLVGFPLTFSVTIL
+>tr|A6CIF3|A6CIF3_9BACI
+MAEEYQMDWDQICQSSQLGELTNVPQVLTGGLLHRMYAVETTEGKYAIKLVNPNIMVRPK
+ALRNYILSV
+>tr|A6CK75|A6CK75_9BACI
+MKEREPIGTGVPKNRDELFGLDKQESLQSTNFATTENTYLNESFQDETDE
+>tr|A6CS81|A6CS81_9BACI
+MVSPVIKVEAPLSAPTGKCSEEKKRRLLLLFSSEHLIPRGLELELDVPLFPQEIENPSTS
+STLF
+>tr|A6CTN4|A6CTN4_9BACI
+MSIRLFADSASDLPKVFYEEYDVELIPLQVLVDDQEFEDMVTIQPKEVFQKIRQGKMPKT
+SQASPLLFQQAFTDLAKSGEKGLYITFSSELSGTHQTAVMIKDQVKEEFPELDLTIIDSK
+CASLGYGLVVKEAAELVKQGASADKVISFARHRCLHMEHLFTVEDLDYLAKGGRVSKASA
+FLGGLLNVKPLLHVEDGKLVPMKNPGTQESLKRILDIMRNGVKTSGAGSGHKPRR
+>tr|A6CTW8|A6CTW8_9BACI
+MKFDKGPFKAFQQLFMKDSEETEEPEKKPGKFHYFLIVLLFGVAFMLISDMWGSGSQEAS
+TVMKTESEPQQDEVPAFGNKDSKDSIMQDYENRYENQLKEALEQIAGVNDPTVVVNVEST
+ERKVYEKNNSLQTQVTKETDRDGGNRSIEDKSSDEQLVIIRNGDKEVPIILETKKPKISG
+VLVVAKGADNIQVKKWIIESVTRVLDVPSHRVAVMPKN
+>tr|A6CID0|A6CID0_9BACI
+MGSSFAVGKIGLEYVSPLMLVGLRFTIAGILMALAVKVFKRPHPAQFKEWSKIILVGSLQ
+TAGVMGSIFLSLRTITAGESSILTFTNPLLVVVFGTLFMGMKYRKLQWLGVLMGILGVFI
+TLGASLDIQEVGFILGLMSAVFWASATLVMKKWGQSFDTWVMTAYQMLFGGILLLLISVL
+FEPVEIIFTSTSIGIIMWLAIMASIVQFAIWFYLLKKEDPAKVSSFLFLAPLFGVITGWL
+LLDEQLHLTTLAGGSIILLGIYLVNKPQKKRGKLKASSL
+>tr|A6CID3|A6CID3_9BACI
+MRTWWKVLYVAFTMLILFTILQYKYIAWINPGTLDSFYLFGWGISLVVIISLLIFKWRQD
+ISKEDLKQENDRLKEAVEYYRNRVEH
+>tr|A6CQ63|A6CQ63_9BACI
+MPAKQPILAIENLESFDFLLFSTKI
+>tr|A6CMC1|A6CMC1_9BACI
+MKSGTILEKEIFPSPNPKVELFSITYYADGLRIKGMVAQPKDDGLYPGFLYLRGGIKNVG
+QVRPARIAQFASEGFIVFAPFYRGNQGGEGNEDFAGDDRQDAFAAFDLLKDYPRVSGRKV
+HVFGFSRGGVMALLTGIEKKEAASVVTWGGVSDMVLTYGARKDLRRMMKRVIGGTPKKYP
+MRYKWRTPLYRLEEIEAPILIVHGARDHNVSIEHAYRLEKRLKELDKKVDSYYFEEYTHY
+FPPAVNREIVVMVCSWMKKYS
+>tr|A6CN30|A6CN30_9BACI
+MIQRFIELGEGYSDLYELIELARYNEPRVLHFLAFHTVVNERPVTSLAIVLKPAEEGKFQ
+PLYVCREGIPDPNHVPNKRFDLFEQAAKAQGREVIQMDVKPSSFFAEKQLYYQHLIAILR
+LNHYIPPLQ
+>tr|A6CPZ2|A6CPZ2_9BACI
+MSEPSITRVGEDEYGKIMKMLSNVQGGFDMFDNTHAHITTWVIGIILFFAALYLHKSGKK
+KAMKIVHMTLRLFYLLIILTGALLFWKHQGVFPMQYGLKLLAGLWVIAMFEMILVRTKKG
+KGTVAFWAQLIIALLVTLYLGVWLPLGLWSLV
+>tr|A6CRD9|A6CRD9_9BACI
+MEIRVKKTIKDKGAFLKRLGELLEIGYSLTEAIEFVFIGHYRQQDKLKQKMLFHLQNGSS
+LSDSLKYLGLPLQVCSQIYFAEKHGRMAETLISAGEYLIARQKDRQALQKVMTYPIVLLF
+ILVGVMILLKSVLFPQFHSLYSSLGYTPENRIGIILVFIDRLPLLAAAFVAFLLLAGGAF
+FSRYKSQTPIKKAEFLLRIPFFSPYLKLFYTQFFSREMSYLLNSGMSINQALTEVGSQSY
+RPLFKELAERMIQDLRIGKSFPESVEYFGLFTDGLIEVIRHGERRGQLPRELFTYSQFCM
+ETLEVSGKKLLSVIQPAVFLFIGVFILLIYFSIMIPLFQVMQSLG
+>tr|A6CLT4|A6CLT4_9BACI
+MNFTNSERLHKKALERIVGGVNSPSRSYKAVGGGSPVAMERAKGAYFWDVDGNKYIDYLA
+AYGPIITGHAHPHITEAITKAAENGVLYGTPTPFEVKYAEMLQEAMPNLDKVRFVNSGTE
+AVMTTIRVARAYTGRDKIIKFAGCYHGHSDLVLVAAGSGPATLGTPDSAGVPKSIANEVI
+TVPFNDIEPFREAMEKWGDQIAGVLVEPIVGNFGIVEPKEGFLQQVNDITHEAGALVIYD
+EVITAFRFMYGGAQDMLGIKPDLTAMGKIIGGGLPIGAYGGKAEIMEKVAPLGPAYQAGT
+MAGNPASILSGIACLEVLKEEGVYDRLDQLGAMLHEGILKAAEKYNTPITINRLKGALTL
+YFTTVTVENYEQAEATDGEMFAKFFNLMLRQGINLAPSKYEAWFITTAHTEEDIKETIEA
+VNYAFEQLQNA
+>tr|A6CSM7|A6CSM7_9BACI
+MLILNLRIFIVKGLRLFPLDSSGFFRFMHVFDPNMKKEAENCSLLL
+>tr|A6CIF8|A6CIF8_9BACI
+MFQQRDATEVAGLCNNYQLYINTLYLPYPYTLEDAVSWIKNHLDNYNKDKLYEFAVTDKT
+TGKLLGAIALSNNQSFKNGEIAYWIGEPYWGKGYATEAAHAILEFAFKEKNYHKVFARHF
+GSNPASGRVLRKIGMENEGELKEHVLKEGRFEDLVYYGVINRNSANQQ
+>tr|A6CK16|A6CK16_9BACI
+MKLISSQRSVPLYTLMDITMLCPKSKYFLDFWVFADLFFRNVMLLLKTTVNPSILIGFIR
+KRTRVIKMSREFVDLFNNWAQTYDQTVSEDGDIEYREVFESYDEILQSVVEDTKGPNVLE
+FGVGTGNLTRKLINRGYNVFGIEPSVEMLKIGQLKVPEAKIKDGDFLNFQVPDVQITSIV
+SSYAFHHLTDSEKEMAIEKYSSILPQGGVIVFADTVFKDKAARRTIMEQAIASYYNNLVD
+DLNSEHYTYLGILKGICEKHGFTVEFIQKNKYVWIMTATKK
+>tr|A6CKH8|A6CKH8_9BACI
+MNQSQLDRMKNGKGFIAALDQSGGSTPKALAAYGVTEDSYSNEEEMFDQVHEMRTRIMTS
+PAFSSDHILGVILFEQTMDSKVEGKYTADYLADHNIVPFLKVDKGLAEKEDGVQLMKPNP
+DLDETLHRAKERNIFGTKMRSVIHEPNESGIKAVVDQQFEIGKRIIASDLVPIIEPEVNI
+HSEDKAKCEEILRAEIIEHLNGLSENENVMLKLTIPTKANAYKELVEHPRVVRVVALSGG
+YSRDEANERLKENDGMIASFSRALAEELRVNQSSEEFDRSMRDAIESIYDASANKK
+>tr|A6CPM4|A6CPM4_9BACI
+MKINVRDVEEGCILDQDVKGMVSLPIIPKNTVIQGIHIKVLQSFHIEEVSVEKTKADGTP
+FNPKQTVETEDRSEQPKRMYDGFLKVYLNKVQEFKSEFHNWQSGMPVSISKIRNIILPLL
+ELVEQTPKNISHLHRYSSKNDYLYHHPLAVGLLSGLIAKKLGLDTGKKLQVTLAGVLADS
+GMAKIPVSILTKQTALTETEFKEIKMHPVYSYKMVKDISLLKPETKLAIFQHHERLDDSG
+YPTGEKNDKIHLFSQIIAVADVFHAMISERIYRGRQLPFQVLEQIKEDHFGKYDIQVVQA
+LLDVTADLPIGTIIRLTNGETGEVMFTTKENMTRPLIQIKQTGEIMDLAKRRDLFIEEVI
+S
+>tr|A6CPL0|A6CPL0_9BACI
+MNHYGKALLIYNGKAGQDDMDSTLGNCIGELSSCCDELTLYGTKSKSDAERICREKGGNF
+ELIIILGGDGTVHECVNGLAELADRPKTAILPAGTCNDLSRSLGISQDIRQAARLIKYGM
+TEKIDIVKANDRYFSNFWGVGIIADASQNVNEAVKGVFGKLSYYLSAFQTLQEAKNFTFK
+AEIDGKAVEEEAVMVFVANGRFIGTSELPLPPQKYNDGLVDIFIIKEAGFRLLKELLAAK
+GTGKLNEKSGEILHFRAKSASLETMPIQNIDMDGEVYTETPVKLEVLEQHIPFIIGEEEV
+Y
+>tr|A6CKR4|A6CKR4_9BACI
+MREVVIVEGVRTPVGRRKGQLKDIRPDDLAALVLQEVVKRAGIESKLIEDVILGCVTQAG
+EQAGDIARVAALIAGFPIEVPGTTIDRQCGSSQQAVHFAAQAILAGDMDVVIAGGVENMT
+RVPMGSNYQDAIPFSPKLKERYEIIHQGLSAERIAEKYGFTRTELDEYSAESHRRALSAQ
+AEGYFKREIMPVEITLEDGEKAFVTEDSGPREGTTAETLSGLKTVFKEDGVIHAGNSSQI
+SDGAASLLLMSREKAEELGLKPRFKVHTRVVVGSDPTLMLTGPIPATEKVLQKSGLKIEE
+IDIFEVNEAFAPVPMAWLKETGADPANLNPNGGAISLGHPLGASGARLMITMMHELERTG
+GRFGLQTMCEGHGMANATIIERLD
+>tr|A6CMD8|A6CMD8_9BACI
+MEIENTSEKTANLAPIALIETNTGEKFD
+>tr|A6CRY0|A6CRY0_9BACI
+NYHGHSVAGAAVAAHEVGHAIQDSQSYAFLRFRHALVPVANIGSNLSWVFILIGIFTQLS
+GMLLLGIVLMAAGVLFQLITLPVEFNASSRAMDQIVSLGLIRNEEERHAKKVLNAAAMTY
+VAAAAVAIIELLRLLLIFTGMQGEE
+>tr|A6CTA7|A6CTA7_9BACI
+MSLESPDQLREEIHRVRQLTDKPFGVNFAIGQHGRPFKDMLQAAIEEDVPVISMTGGNPA
+PMFEMLKGTSIKKLVLVAAKRQAVKAEELGADAVMVVGAEGGGHLGKDDIGTFVLIPQVV
+DAVSIPVIASGGIGDGRGLAAALCLGAEGIEMGTRFIATEECVHASEEYKKALISGTESD
+TVVIKRTLGAPARAISNKWTAEILALEKQDAGYEGLKNFISGNANKKFIYEGSSDEGFGW
+AGQVMGMIQDIPSVKVLIDRIVKQAEEAGGRWRS
+>tr|A6CK32|A6CK32_9BACI
+MKEKTKKRLFMFDVVFTIFIFIWVVKTFMDGDTSKGLIFSAMLLVMMSILIFNRRKR
+>tr|A6CUA9|A6CUA9_9BACI
+MEHLFDKEWEIVPAGGATGEAFFARYQEQKLFLKRNSSPFLAVLSAEGIVPKLVWTKRIE
+SGDVITAQHWLNGRELNPDEMEEERAAKLLKKSIPPDRC
+>tr|A6CJ95|A6CJ95_9BACI
+MKLFLPPYDIKDKKKRRDTMSNQGCIKCGSTNAAKKEVAMTGTGLSKMFDIQHNQFIVVY
+CESCGYSEFYNKKASSTSNILDLFFG
+>tr|A6CJD2|A6CJD2_9BACI
+MKKKTSISALLELLIISTRLGLTSFGGPVAHLGYFHNEYIKRKKWMDEKSYADLVALCQF
+LPGPASSQVGIGIGVMRAGAVGGIISFIGFTLPSVIALILFALLLKEFDVSDAGWIHGLK
+IVAVAVVAHAILGMSQKLTPDLSRKTLALLALVVTLLWQTAFTQVGVILVAGLIGYILYK
+NHADTEDAQLRVPISKSFAAVCLVLFFSLLFLLPILREATALNWVAMFDSFYRSGSLVFG
+GGHVVLPLLQTEFVPGGWLSEEAFLAGYGAAQAVPGPLFTFAAYLGAVMNGWQGGLLATF
+AIFLPAFLLIYGTLPFWDTLRRNPKIKGALMGVNAAVIGILISAFYHPIWTSSILAPVDF
+AFAAVLFSMLVYWKLPPWVVVLTGAVGGWLIGLI
+>tr|A6CN85|A6CN85_9BACI
+MKKSAEILGLPIISIADGVEIGSVKSLVVNPEKGSVDFLTIEHEDWQVSVKAIPFKKVIG
+IGEYAVTVENGNAVIDLNEIPIANALVNKKIRINDTKVMSRKGQLIGEAKEYYVDDETGN
+IIGLLVAMKDSEKVLESEQILTYGKDILIVQEGSAQHFKDSVEDLLPDTQADQSLDFEEP
+VTNDLENIKNKQANLLKGKRVTKDILGISGETLIPGGTILTEEDIAKAQNEGPSVFVELT
+MNAQD
+>tr|A6CTA0|A6CTA0_9BACI
+MWKLTGGKSHVTDYSNASRTLMYNIYELKWDEELLEILGVPENMLPEVKPSSEIYGRTAP
+YHFFGQEVPIAGVAGDQQAALFGQACFTQGMAKNTYGTGCFMLMNTGEKAVKSDHGLLTT
+IAWGYNGKVEYALEGSIFVAGSAIQWLRDGLRMIKDAGETEQYAEKTNGNDGVYVVPAFV
+GLGTPYWDSDVRGAVFGLTRGTSKEHFIRAVLESLAYQTKDVLTAMEADSGLALKKLRVD
+GGAVKNNFLMQFQSDILAAEVERPKVNETTALGAAYLAGLAVGYWKDTSEITAQWNLDQK
+FEPSMDEEEIDKLYSGWKQAVKAAMVFK
+>tr|A6CKW6|A6CKW6_9BACI
+MDTEKNFMDYFIDIVGSLNTFVWSYILIAALIALGIYFSIRLNLVQFRYIGEMFRLLTDK
+ATISAEGKRGISSFQAFTVSTASRVGTGNLAGVATAIAGGGPGAVFWMWLIALIGGATSF
+VESTLAQIYKVKDKDGFRGGPAYYMEKGLNARWMGIVFAVVITFSFGLVFNSVQSNTISI
+AVNESYGLNRMTIGLVLAGLTAVIIFGGIKRIASVTQILVPILAVLYILLALFILLSNIT
+LIPDMFTLIFESAFGLREVVSGGVGAALMMGIKRGLFSNEAGMGSAPNAAATAAVTHPAK
+QGLIQTLGVFTDTLIICSSTAFIILLSNQYTGNLDGITLTQAALTHHVGDWAGMFVAIAI
+FLFAFSSIIGNYYYGETNIEFIKYSPVALFVYRLAVLAMVVFGATVELEVVWGLADLSMG
+FMAIINLIAITLLAKIAVAALKDYRLQKKEGKDPVFYSNSIPGLQNIECWESMPEEEKRK
+RNM
+>tr|A6CJ31|A6CJ31_9BACI
+MWFPGIKGESLNMIKKIIDIFIIIGIGLMLIHFFVKDFEIPTNLMPVFLSVFFLLIGIGK
+VLDRQVWQGYFLIGTAVIMGLVMIKALFENLL
+>tr|A6CJ34|A6CJ34_9BACI
+MEQNWQLENPIIGLIVVAITFVLFYGISWFSNRTSKSVEDLYAAGGGVGAITNGLAMAAT
+YMSLATFLGVTGLILNLKAPFVFLWIQLILAIPLITIIYGTSLRRMGAFSPAHFVKERYG
+KSAAVIVALWMILISIMYALGQMIGIAKTFEMLFGIPYMTGLFVGGLLITGYVTIGGMRG
+ATNNAAVQMVIIALMFVVPLGAIMKAMGSSGWFFPPLFYSDMVPAMLKAVPDFFDYQFDA
+KWYFALIPAMTLGSLGLPHLAMRIYTASSLKSARQAMIWFALVLGLVFSATYAMGFAGVF
+FNSSNGNMISAADADKLTIILNLVYNPEWVTALVIAGAISAGVSTLSGNLLAIGALLSQD
+IFATLLPNITSKTKMRLGYAAIALGGLTSVLLAVKPPAFLVVSILWAFGLAAVTNAPIIL
+MGVWWKGANKYGAIASVVISGAIYVIVSPFVFPSIVVSGHGLTDSLGLSGAMLCVPIAFI
+ILVVVSMITNKMPSLQNKLTTLQDHKLIERIHGWSDVNPARYNSLTGAIIVVIASALTLI
+WALTPWQY
+>tr|A6CPH0|A6CPH0_9BACI
+MFAKLDTVIINVKSLGTARQWYSDVLELEEIFDGGSHIVFKVGQGDAPITIIEGETGRSS
+VKPILFSDAIEETQLKLKGKGVEAGPLENDGTVTFFTFDDPDGNSFEVCHY
+>tr|A6CM99|A6CM99_9BACI
+MGFFKKDRLPTMEEINAKYERVAEGITKDCRSLEAAKAKYPDAERILQETFLLFRIFQVV
+NDGLDRLEKQIEHYQNDKGDV
+>tr|A6CS40|A6CS40_9BACI
+MNLEEIQQLFHEKYHFKPATLNELLTFTRKCYILNDISINEYRQLVKEIETAYPVTESPT
+VSN
+>tr|A6CU86|A6CU86_9BACI
+MVSTENGLFLCNWGALAEKGEQPIIAGGARILLPDAIAKRLLKGEELGPVMDDYCQSEGI
+RQHEGAMGIFTKGAVNRDQMFKHTVKLLVGQWNFRRTASGS
+>tr|A6CJH5|A6CJH5_9BACI
+MSNPKGSRKHFVPNHLGTQPREAGGNKGRQMQDKSGQHAQVIQTKGE
+>tr|A6CRA0|A6CRA0_9BACI
+MLKIGTILTLEPVQTDKTEKYRCKVVEFKDSKLYIDYPVHTETDRTVFLIDGTQLKVSFV
+YNETIVYSFHTEVTGRKKSNIPMICLHFPGVNELVKVQRRQFVRVDVSVDAAIITPQDSF
+PTITTDISAGGCAVKVQKNQAFEEGMEVEIILVLPMQTGEYHYFNVPGRVVRVWEKGLNK
+IASLEFTELKDMQQQNILRFCFEKQLALRNKGLTV
+>tr|A6CNE0|A6CNE0_9BACI
+MLTKRIIPCLDVKEGRVVKGISFVQLRDAGDPVELAKFYDKQGADELVFLDISASHEGRK
+TMIDVVKEVASELAIPFTVGGGINSVEDMKNILRAGADKVSLNTAAVVRPELISEGSQYF
+GSQCIVVAIDAKFEEGSGTWKVYTHGGRKVTEKDAVSWAQEAEKLGAGEILLTSMDSDGG
+KTGFNLSLTKAVSEAVSIPVIASGGAGNAEHFEEIFKRGKADAALAASIFHYKETSVEQV
+KEYLREKEVAVR
+>tr|A6CH63|A6CH63_9BACI
+MKNKEWHESAKERWDHNASNWHSKSVSMWTEGSRKDIVPFMVRNIPKGSSIADLGCGDGF
+GSYLLHQEGYDVTGMDLSEKMVEIAKKQEKEGLSFAQGDLTNPPFEKEQFDAVMMINSLE
+WTEDPFHALKQATQIVKQDGRLCIGILGPTAHPRQNSFPRLYGEGVICNTMMPWELEHLA
+LTYGLEKEDETWVYKKGVSERLANDLSHELKQALTFMTLFMFRKTEDDLEGEK
+>tr|A6CNN0|A6CNN0_9BACI
+MERALKIIQELENGRISIIAYSTKEERFLSSLNSDLTVPLASAAKVAVGFAVAKYVEEGL
+LGWETIVENIDFNPAEDSRVLYPHFQQRNSLTLGEAVEVMIACHDSFVAECIVSACGGWD
+KINRTIQAEFPSIHVTENPRDLANTGQLNQVLILLLHIFKEYKNQPQTWGPLILVWLGNK
+ER
+>tr|A6CI57|A6CI57_9BACI
+MLVKGFNHFLFSVSDLERSIQFYQKVFDARLLVKGRTTAYFDLNGMWLALNEETDVERGN
+DSYTHIAFSIEEEDYHVVFEKLLGPGVTYCQDEIEVMRTRNRYILQIPTAINLSSTQVHW
+KTG
+>tr|A6CJP7|A6CJP7_9BACI
+MFFSNFDTIERTIIIGLCAYVSLVILLRISGKRTLSKLNAFDFVITIAMGSTLSSILINK
+KVTLAQGTTAFIMLIGLQYVIAKLAVNVSFINKLIKSEPKILYLDGEYQSQAMKKERVLK
+KEIFQAARSQGISSMDEIDAVVLESDGSISIIKKSEQQSRETLNDVQGFER
+>tr|A6CKJ6|A6CKJ6_9BACI
+MIFEMTYQIRVSDFEKGKHWYETLLKKKPDFVPHEDFAEWEIIPCCWLQVTKGDPAENSG
+PIRLGIKNIESERQRLMKELQTDYFEIHEREEVPVKWATFKDPWGNQLGFFQYLDEKERD
+FRIAELIGNK
+>tr|A6CL89|A6CL89_9BACI
+MTLMKESSIAKEMKKKEGGTHR
+>tr|A6CLX9|A6CLX9_9BACI
+MVMSSAKKVMFAIANVFIGILSVYLYIYVWLILEMVSGIAIHPFWSILAGLALFFMINFI
+FLRHFRLKEWLIALGIALGSALIFASIFAFS
+>tr|A6CJN1|A6CJN1_9BACI
+MFIESVRNVLGKIALMDDDDPGMENTLQRLLDLLLQDEEKTIQFMEQASRKELLLISEMF
+PEVVYTFGSQYFLEYIYSLDKKHPELDLLRYIETNQKYLN
+>tr|A6CLD1|A6CLD1_9BACI
+MLSIWLYIKRLKNYFNIIFPTAAGCLSREERKKLAEKILQA
+>tr|A6CMA5|A6CMA5_9BACI
+MFVDEEDIAALNETFTSLHLTESNSGLYVRGLKKDGTMVRLHRFLMNTPKGLQCHHKNGD
+RLDNRKDNLENVTVRKNLQFRQGRGVLKVRNVYQNSNGTFMVSVQGTYIGSYRTIEEADK
+TARDTRLELFGEKPSESVEAFNIKRMKQVIQGVL
+>tr|A6CSL7|A6CSL7_9BACI
+MTFKMIGLDHIQLAAPAGSEDRERQFYGKVLGMKEMEKPEKLKAGGGCWFHCGNQELHIG
+VETDFSPALKAHPGIVVKNIEAVRSRLEENGYEVKEDTKIEDRKRIFVNDPFGNRVEFLE
+YN
+>tr|A6CJ40|A6CJ40_9BACI
+MELNYKTSPVDQPVALPRISVRAVMNFIGVVIFGGLLLMPFTLPISLSSGFEFYQSEKIA
+MNESEFVEYTLFTLGSGVLYFLLANIYLRGQQWRRVFSIIIALLGLFSVICIFYLVMHS
+>tr|A6CI25|A6CI25_9BACI
+MGECTEEWFSSLVEKHQTLASEDTAYVFGVFGKVSGKHLGMVDFSTLAREDFQWGRLGYS
+IHNQYWGNGFGKEAVAGALEIAFSELKYHRIEAHINLDNQASIRLAESVGMEFECIRKAF
+IYEFGEWTDNLIYFKNSQG
+>tr|A6CMT9|A6CMT9_9BACI
+MKGADSMSAKLFEPYKIKDITLKNRIVMAPMCMYSSHNEDGKVENWHRTHYTSRAVGGVG
+LIIQEATAVTAQGRISPQDLGIWSDDHIEGLSGLVSLMKEQGAHAGIQLAHAGRKAVLEG
+DIIAPSAIPFNEKMKTPLEMSLQDIKETVEAFKQGAVRAKKAGYDLIEIHAAHGYLINEF
+LSPLSNKRTDEYGGSAENRYRFLKEVIEAVNSVWDGPLFVRVSAKDYADGGLDAEDYAVF
+SSWMKEQGVDLIDVSSGAVVPAKIDVYPGYQVKLGETIRNKADIPTGAVGLITTGIQAEE
+ILQNERADLILLARELLRNPYWPRTAALELGVEIQPPKQYDRAW
+>tr|A6CS08|A6CS08_9BACI
+MKGVIPSMNHKPIVIGVAGGSGSGKTSVTRSIYESFQEHSILMIEQDYYYKDQSHLPFEE
+RLKTNYDHPLAFDNDLLIAHLMKLLKSEGIEKPVYDYKMHTRSQETILVEPKDVIILEGI
+LVLEDERLRNLMDIKLYVDTDADLRIIRRMLRDIKERGRSIDSVIDQYINVVRPMHNQFI
+EPTKRYADIIIPEGGHNHVAIDLMVTKIQTILEQKSFL
+>tr|A6CJT9|A6CJT9_9BACI
+MEVKLTEAALAEKEVIKNLMQYYFYDFSEFIDTAVMTKGKFGEYPYLDNYWEEPARYPFL
+LTSEGEYAGFVLVRYIEEGDTYYYSIAEFFIMKKFRRKGLGREAAFKIFDRFKGCWEVSQ
+IKRNGPANIFWRKTINEYTGGDWVERETDGHFAQLFSS
+>tr|A6CII2|A6CII2_9BACI
+MKEIVKKNPFLKYSFYVTFGFLCLSAGYTLGKWIIGVSF
+>tr|A6CRJ9|A6CRJ9_9BACI
+MIQKESCENLVVEAPPMSHTIQRIKQGYSQQMAGKEDKRKKFISLIRKPSA
+>tr|A6CKF9|A6CKF9_9BACI
+MVLRSLIVKSHLKKDKSRRPDDLRLLFFFIKDLHINDQKKKYPAEELLERFRVIIY
+>tr|A6CNA0|A6CNA0_9BACI
+MKKLLLPFIALICFYGSSLFVTYLPMGIFNTDRVLVPHFLIIFILLMSV
+>tr|A6CQD0|A6CQD0_9BACI
+MKINHNIQALNAYRNLSQTMGQTSKSLEKLSSGLRINRAADDAAGLAISEKMRSQIRGLG
+MAERNSLDAISLIQTAEGALSSTHEILQRMRELAVQASNGTLEDEDRQSIQEEVNQLTTE
+INRIGNSTEFNRKKLLNSQIAPNARAMEIDAEAGFNKGTTELEGTSLTLDPKSELVSGDY
+NVRVEDVYTKTVSASGTPAAGISSVGLTSTDTSLDTGTYGVKVQEEQVKAVVGDPASTSP
+IADEITVAPNSNLGDGPVTLEVKKENAVASFQSNGSGISNVEITSATPDLNETDSFKVDV
+VNKPSEVEVGTLTKTFISDIDVDTAKFGQAGNDFQLEYTETTPGQYSVTLKDSAGKALSD
+AVILDNNMQDYKFYNNGSEIGVSFKTVSNVNAALTAEGADGENNVFDIDKEITLSKNNIP
+VASGEIAEGTAAGDITLKSADGIDYKISHNGFTGLTGNSASFGIDSTFTFSTDGFTTRGT
+EFDPGDEITLNGGIFVKTSSDASQYGVPSNTLDMTLETRMGHTAELVDANGDTAAGSRKV
+TVENNGSYSFGEPTNISFDSGVLAAGTFEFTVGQVSTTNATLEAAGTPLETLENITSNST
+LSFADGELSMNIGELTNGNATFSIKGGTVNQSIQFHIGANEGQTLEMGIEDMRSLSVGIS
+STVSGDSKNIVSKDGNTLTVQFASISGVENGNQAEYAIDLSTSENANAAIEAYDQAIAKV
+SEQRSKLGAIQNRLEHTITNLTTANENLTSAESRIRDADMAKEMTTFTKNNILNQAGQAM
+LSQANQLPQGILQLLK
+>tr|A6CHD8|A6CHD8_9BACI
+MRQTTTLKDKFRQFLIVLVPILVTQLGMFSMSFFDTMMSGKFSSTDLAGVAIGSSLWIPV
+FTGLSGILLAITPIVAQLVGGGRYKDVAFSVIQGIYAATILAIAVIIAGVFLLDPILNNM
+NLEDGVRLVARQYLIALAFGVIPVFVYNVLRSFIDALGMTRITMYVTLTSLPINVFFNYV
+LIFGKFGFPQMGGVGAGIASSITYWLITLIAALVIYRYYPLRKYNVFGKWFAISISKWKE
+IMLIGVPIGLSIFFEVSIFSAVTLFMSEYSTNVIAAHTAAINFASFLYMIPLSISMGLTI
+VVGFEVGAKRLQDAKTYSFMGISTAVILAVIYGVILLLFREPISALYTDNPEVSALIVHF
+LLYAVFFQLSDAIQAAVQGALRGYKDVNITFMMALVSYWVIGLPLGYFLAKFTELGPYGY
+WVGLSSGLTAGAITLSWRLKIVQRKTKMKIHNMND
+>tr|A6CL76|A6CL76_9BACI
+MEIILYLSVAVIAIAFLVLVISLTKTLKSVQTTLDSVSHTLDGLETQLQGVTKESADLLH
+KTNRLAEDIQQKSEELNTVVYAVKDVGSSIQGLNSSVKKVTTSISTNLEKNQDKISQFVQ
+WGKAAMELRDKWKTKEKPYHGTRNAYAAEEAKASAEIDRREKMIRRARQN
+>tr|A6CHN0|A6CHN0_9BACI
+MILLIDNYDSFTFNLYQFLCELGEEVLVKRNDELTVEKVVELNPSAIVLSPGPGRPENAG
+ILIELIQKLYKQTPILGVCLGHQAIAAAFGGEVVRAETIKHGKTSLIKHNNSGLFQYIPQ
+PVEVMRYHSLVVKKETLPPVLTTTAVSMDDNEIMSFKHFEYPVFGVQFHPESIGTKLGKK
+LLKNFIDLKEEASNERISTKII
+>tr|A6CR29|A6CR29_9BACI
+MEFLLRLGRKGSKRPNENEILERCWCEKGVNGPMRMKFWRDVGAKRE
+>tr|A6CHE9|A6CHE9_9BACI
+MKTYYLTDKVKELIKNAEEISEGPVEPLDLFIGAALVKKGTLLEMYLLVEDIVHDLLVLN
+RPTEKVSVQHEDFSTPVTKRVDSLWKRALEIMRNYNQIYLNEGHVIKAFYQSWTAEEQGF
+LAGLPHEKIKASVTTARDLIVPMNTYIEKEFKNIEARIERAQEIDEEAVLQFAAENFGEA
+WTETLRNGFRKDEIPIFLAWMGGKLIGFSSYDVYRNQKGIYGPMGIAKSERKNKVGRALL
+HEALADMKRKGYAYTVLGEAGPIEYYEKECGAMLIPLDFR
+>tr|A6CKV6|A6CKV6_9BACI
+MRGMNYDMKDNFWRELPRPFFILAPMEDVTDVVFRHVVSEAGRPDVFFTEFTNSESYCHP
+NGRQSVRGRLTFTEDEQPIVAHIWGDKPEFFREMSIGMAKEGFRGIDINMGCPVANVAGN
+GKGSGLIRRPEVAAELIQAAKAGGLPVSVKTRLGYSEVDEWRDWLTHLLKQDIVNLSIHL
+RTKKEMSKVDAHWELIPEIKKLRDEVAPDTLLTINGDIPDRQTGLELVEKYGVDGVMIGR
+GIFHNPFAFEKEKKEHSSKELLDLLRLHLDLYDKYSTEEEPRPFIALRRFFKIYVKGFRG
+ASELRNQLMETQSTAEVRSLLNTFEAENEVLA
+>tr|A6CTQ3|A6CTQ3_9BACI
+MKKILLAEDEDVLRMLIMDTLEDEGYEIHEAADGEEAESLAVSTKFDLILLDYMMPLKTG
+LEVIKIIRGDNLNKDTKIMMLTAKSQKSDERTILEAGADYFLSKPFSPMLLAEKVEEILT
+HNE
+>tr|A6CIE3|A6CIE3_9BACI
+MNLRFERVVEPTTEIAEAFSRWENDPSIIPLIRPNLNQTELHRREEVTREELTSRLKNHT
+YYLIYLDDHLVGEMNYMVDPGHLYKKEKGTAWIGITIGEPEGRGKGIGFHAIQHLEKEIG
+KEDLKRIELGVFEFNKQAIKLYQRLGYKKIGEIEDFTYWQERMWKDIRMEKYI
+>tr|A6CQA6|A6CQA6_9BACI
+MEELIPNLSIFLLVFMRVSAFFVTLPLFSYRSIPAQHRVGFAGVIAWIMYYTIDASPMPI
+DAAYILLIMKEAMIGLLIGFTAYMIISAIQVAGSFIDFQMGFAIANVIDPQTGAQSPLVG
+QYLYTFALLLLLALDGHHLLLDGVFYSYQFIPVDQPWIPFGNENLVEYIVKTFNSVFIIA
+FQMSIPVVATLFLVDVALGIVARTVPQLNVFVVGFPIKIAVSFLVLFIVLGAMMTVMQQM
+FELMMYTMRDLMKIIGGA
+>tr|A6CI76|A6CI76_9BACI
+MKVILASPDFHQQRGNTVTVQRIADGLETHGVDTEIVSVTGDPGYTSLPEADLIHGFHAY
+KFFSFKQRLKENQAPFVITMTGTDLNHDLFDESRRAMVLECLKEASAITVFDETAKETLM
+KEMNGIHSKIHVIHQGTSNLQATQRKFSKQNGTFLFVLPAGIRKVKNIPFAIHALKKLHN
+RHPKIRLLLVGPIIEHDEGRLVENLTEENSDWISYIGQLPHKEMGAAYEHADVVLNTSHS
+EGQPAAILEAMEHGLPVIASSNTGNRNIVTHGKTGFVYTNESEFLDYAETLLNNNQMRKI
+FGRSAKSYILQHHSREYETNKLLSIYKEVIQTKKSSEIKTTRSE
+>tr|A6CTE8|A6CTE8_9BACI
+MAPLFLVLLESCLGFRQFGHNGYWKRWQRSTFETVFKCLKSSQCHGLKGVAIVLKCPNCQ
+SKDIGKIGINQYYCWKCFIELSITKGVIHTHQVEEDGTLSSLDDLFDEEDRQLS
+>tr|A6CSK0|A6CSK0_9BACI
+MNNEQLITEAKIARDRAYVPYSKFGVGAALLTEDGKVYHGCNIENAAYSMCNCAERTALF
+KAYSEGDKKFTKLAVVADTKRPVPPCGACRQVISELCPPDMKVVLSNLNGDIQELTVSEI
+LPGAFSPEDLNE
+>tr|A6CU52|A6CU52_9BACI
+EVKSSLGEVKIEADISGRPKHIYSIYRKMALQNKQFNEIYDLLAVRIVVDSIKDCYAVLG
+IIHTCWKPMPGRFKDYIAMPKPNMYQSLHTTVIGPKGDPLEVQIRTTEMHQIAEYGVAAH
+WAYKEGQNVDEKTTLEKKLTWFREILEFQNESANAEEFMESLKIDLFSDMVFIFTPKGDV
+IELPAGSVPIDFAYRIHSEIGNKTIGAKVNGKMVTLDYKLHTGDIIEILTSKHSYGPSKD
+WLKLAQTSQAKNKIKTFFKKQQREENIDKGRELVEKEIKNLEFELKEVLTPENVSRVSEK
+FNFMNEEDMYAAVGYSGITAAQIANRLTEKLRKKRDQEESLQETITELKANQPVKRKRDA
+GVQVKGIDNLLIRLSRCCNPVPGDEIIGFITKGRGVSVHRSDCTNVCAENAEQRLIPVEW
+ESDFTNRKEYNVDIEISGYDRRGLLNEVLQAVNETKTNISAVSGKSDRNKMATINMSISI
+QNISHLHRVVERIKQISDIYAVRRIMN
+>tr|A6CI37|A6CI37_9BACI
+MRFLFLFGLVFFAGSFIFCIMNFFGEYNGRGFLLSLFGMLNASIAMGVSEILSKLESRNF
+SKERMDS
+>tr|A6CQN2|A6CQN2_9BACI
+MEALQKTKELIARKVLPEGTEVLRKLQGGTVSELYLLGIQGSPRYVIKSNVPEVIASEAS
+FLEFYYGAELLPKLLYRDAENQYLVYHYVRGEVLNNVGNKRSVLESVVLHFINQYKEISP
+LEGWGWRDEPVSTWEQFITTRVNEAKKTVAGHLDTRDDELVDLLVKDSTMNWSKTAYLLH
+GDCGVHNFLIEHGELSGIIDPTPVIGPPLYDLLYAFCSSPEDLTVETIMHCSGLMEFKSN
+LTTGELYREVSIILYIRLATCLRHHPEDFSEYKQAWAHWKGKLEGRST
+>tr|A6CJZ2|A6CJZ2_9BACI
+MDIKFREAVIEDYERLKPIHKEVHNLHVLGRPDKYKPADETLDRDYFIELIESPDGKVFL
+IEDGDAIAAFMILKKVWPPKWGTKVQSPVVFMEDLGVTPSYQRKGLARKLFEKAVEFTKA
+CNAESLELGVWEFNRSAIKFYEEMGMTTQARKMEFKVK
+>tr|A6CNZ1|A6CNZ1_9BACI
+MNSIKGDEILAQTDLKQEVLNVLDNSMVGTLATVVENKPHSRYMTFFNDELTLYTPTSSE
+THKADEIEKNPNVHVLLGYEGKGFGDSYVEVEGRVEISKEESLKKKLWNDEMKRWFKGPD
+DPDLIILKIHPSQYRLMNKNGEEPKVLDL
+>tr|A6CK45|A6CK45_9BACI
+MLPTGCTRKVRTIIKKAPKADAIRTQIYFSVIMYIWRDCLGIEPSGDGTRLPSGFEDRGM
+HQQHNQPHVLNKIYYGIVLTIFQVEGSGYFDSEIR
+>tr|A6CSM5|A6CSM5_9BACI
+MNILFIGDVVGSLGREMVSEYLPKLKAKYRPSVTIVNGENAAGGKGITEKIYKRFLNDGA
+NIITMGNHTWDNREIFDFIDNTKLMVRPANYPKGTPGSGITFININGFETAIINLQGRTF
+MPALDCPFEAAEELVAQAKERTPFVFVDFHAEATSEKQAMGWFLDGKVSAVVGTHTHIQT
+ADNRVLPKGTAFIADVGMTGPYDEILGMNKESVINRFMTSLPVRFEVPSKGRKLLSGVII
+EINEKTGMAKSIDRILINDDHPFMAE
+>tr|A6CLC9|A6CLC9_9BACI
+MEWSERDEQVLEEIRQWQDSLYDYEANDLENTYVKWLDSAFSTLPVELQEQFFQRLDGWL
+FHLHSLLQGSQLQNDARERILKTARAFNHEIDTIEDLHLLTIDQLHYIAMQHTGRHQLYS
+FIQGGMTGTGGAAALSTDLPAMAVINLRSVQLVAISYGFDVQTPFEMMTSLKVFHAATLP
+ARLRAEAWEELMEELEKKENDYFYNGTEKLTDYTWLEGPLKHLLKAMVITTFRRKRLSGM
+PLISMAVGAGFNYQYTRKINDFAEKYYQYRYLSRKRLEE
+>tr|A6CJX4|A6CJX4_9BACI
+MERILKEQVNESPINKLCLSSEKKKEMIYQIKQSGNPKRMIVKKPIFAPVLSAVFVVASL
+FIFAYYGGVGLEIIDGKNAVNGIHYYDVNKERPSSIDEDFKFLTKLPFKLKEFDVNQLQN
+ENTTVVTFYGEENQYLRVELLKEDPIFFSPNDFNGETIQDGNFVGYYRDGQSDTGPIITF
+DPSLSILHWEEDGDLIYGLTYNPGDSNVMLYKKELIYIAKSFQ
+>tr|A6CTH1|A6CTH1_9BACI
+MLIKRLINKNNPIIPHFWEPVIWKEVSMCQFISLLEGERQDWQAAVLVISWSWIGCRTYG
+VFRFGVSVF
+>tr|A6CUD8|A6CUD8_9BACI
+AEQSHRQHVPNVEFPVSLTELVTLADNFDYKVVAFEEDAKIGEQSNLAGILRSAKPGDRL
+LAVFGPEGGLTEKEVNVLKDHGFVSCGLGPRIMRAETAPLYLLSAASYQFELMR
+>tr|A6CSI4|A6CSI4_9BACI
+MFWLTMILCLYLAYYSLRYARLIWKDQNKLGAVMVGMLACIISIMPLLNLWLLEYK
+>tr|A6CS67|A6CS67_9BACI
+MFRNVAELIELAESSNKKISDIMIEQEMEYKNKTWEEIFSQMERNLVVMEEAVEKGLKGV
+RSHSGLTGGDAVLLQKYIEKGNYLSGQFLLDAVSKAVATNEVNAAMGTICATPTAGSAGV
+VPGTLFAVKEKLNPTREEMVRFLFVSGAFGFVVANNASISGAAGGCQAEVGSAAGMAAAA
+IVEIAGGTPSQSAEAMAITLKNMLGLVCDPVAGLVEVPCVKRNAMGAANAMVAADMALAG
+ITSRIPCDEVIDAMYKIGQTMPVALRETAQGGLAATPTGRELEAKIFGVSLTKGD
+>tr|A6CIN5|A6CIN5_9BACI
+MKKSVSKEECQMNVNKALTIAGSDSGGGAGIQADLKSFQELGVFGMSALTAVTAQNTTGV
+QGVFPMDADAVVSQIQSIGEDLPPDAVKTGMLFNAEIIERVSREIERYQWKNIVIDPVMI
+AKGGASLLQKEAISAMKEYLIPLSMIITPNIPEAEVLTGANINTAAGKKEAARKLHEMGA
+KHVIIKGGHDDTADYASDLLFDGEEFYEFTSKRFGTRNTHGTGCTYSAAITAGLADGLPV
+PVAVERAKDFIKAAIEDDLGLGNGHGPTNHWAFNRRKKGTVTNDL
+>tr|A6CN35|A6CN35_9BACI
+MVLGGNRLNVSQLKTITLAASVTILAASLIIFPQESFEASIRGLNMWWEIVFPSLLPFFI
+ISEMLIGFGVVKFIGVILEPLMRPLFRVPGVGGFVWAMGMASGFPAGAKLTTRLRQEKQL
+TQIEAERLVSFTNSSNPLFIFGAVSIGFFYNPHLGIILACAHYLGNVCVGLIMSFHGRKE
+ESKTNTTSNKIFPIKEALSALHRTRMKEKRPIGKQLGDAVNSSIQTLLLIGGFIILFSVI
+NKLLFHLQITPFIANALNMFFRMLMLPADLTLPFISGLFEITLGSQMTSGVNSATLLQQA
+VIISFVLGFSGFSVQAQVASILAQSDIRFRPFFIARIIHGIAAAIITILIWKPIYVKFYQ
+DKPSNAVPVFNNLDWHFWEQAFLRMKEWGPVFTLISLMIYIILYMFRIRENSKV
+>tr|A6CSY0|A6CSY0_9BACI
+MKQRILTGVIAAAVFLPIVLFGGTPFLILTYLIATIGLYEALKMRNLKIFSIPGFISMAL
+LWIFLLPDQYIDVIEGLGYSKIELALLAVLLFLTYTVAAKNRFSFDDVAFSILATLYVGI
+GFYYFIETRDADAGVQFVFYSLFLIWATDSGAYFIGRAFGKRKLWPDISPNKTIEGSIGG
+VVCAMIVAIIFTFVADLNVSLPKLLIVSAILSVFGQIGDLVESALKRHYNVKDSGHLLPG
+HGGILDRFDSLLFVLPLLHFLNVI
+>tr|A6CHB5|A6CHB5_9BACI
+MREIEVFIDTEEIAEFFFQELVRRGYVPSEEELEEIADITFEYLIEKCIIDEEAEDEDF
+>tr|A6CM21|A6CM21_9BACI
+MYRLENVSYHDIIGSLYLEFKEGAVSCMTGPSGAGKSTILKFLNKMIIPTGGEILFQNKP
+LKAIDSIELRRQAVMLQQEPVIFDGSIEDNLQIGLKFSCGNPASRAELEEALKMVMLEKQ
+LNEDANKLSGGEKQRLALARIFIMKPKVFLLDEPTSALDSETEMKVMGRFLDAVKGREGT
+VIMITHSPTVAERFGDENIHIPLKGKTGECNE
+>tr|A6CSZ1|A6CSZ1_9BACI
+MRNISDIIENYLKKVFESSGNEIVEIKRSEIADKFQCVPSQINYVINTRFTMERGYMVES
+KRGGGGYIRIMKVQSLDHAHLVDQLISLVDNRVSQSNAEDLVYRLVEEEVITLREAKIMI
+SVMDRSVLYIDLPDRDELRARMLKAMLITLKYK
+>tr|A6CT46|A6CT46_9BACI
+MTVETKLPVEKDYLDSFSKGQGEPEWFTDLRIQALTKAGELELPKPDKTKITKWNFTEFK
+QHTVESKPYQNLSELPEAAKALIDMDSTENNLYVQRNNTPAYLTLSQELKDKGVIFTDIL
+TAVKEHGDLVQKYFMQEGVKVDEHKLTALHAALVNGGAFLYVPKNVEVAQPIQAVYIQDN
+ADTTLFNHVLVVADDNSSVTYVENYISTTDVEQGIYNIVTEVFANNNAKVTYGAVDNLAS
+GITTYVNRRGTAARDGRIDWALGLMNDGDTISENVTNLMGDGSYADTKTVVVGRGKQKQN
+FTTKVVHFGKNSEGYILKHGVMKDEASSIFNGIGKIEHGASKSNAEQESRVLMLSEKARG
+DANPILLIDEDDVTAGHAASVGRVDPLQLYYLMSRGIPQHEAERLVIHGFLAPVVNQLPI
+EGVKKQLTEVIERKVN
+>tr|A6CHI4|A6CHI4_9BACI
+MESKQELQAALDETNLWIEDQKKAWFWEKWTRLPFQLLDKITPEFVHKKVGALLDEMGSY
+IQNGGKYLTSQKLMFKSIEKKTGIPINNIEDISKLSLEEMDELSKHLASTRRKAAAVQGA
+TTGIGGIFTLSIDIPALLGISLKTLQEIALIHGYDPNDKKERIFIIKCLQFASSDIVGKR
+AILDNLESYYVTEVSSNEVMGQIQGWREVVYTYRDQFGWKKLFQMVPVAGILFGAFTNRA
+MISDIAEAGSILYRKRRIVDRLQAIEETI
+>tr|A6CIX0|A6CIX0_9BACI
+MKNEKTKKQYFEKYLPILIVVGGLFLYHQWDEARTKIEVYELRQESQIDNQLRELQSVFY
+SIEETLNTYEFPIEDEKRIYYQDALDNDIQRLHHLGNTIQHLNEFTDFLMINENYFSRIE
+KVLKGLKGFQYTETEKHIAIQALSDSRRELYSLMDIREFSVEDKADREEVLNLLDEFIDR
+LAVLERY
+>tr|A6CNJ7|A6CNJ7_9BACI
+MKKVDHIGIAVKSVEDALPFYTETLGLSLLQIEEVESQKVKVAFIDGGNIKLELLEPLDE
+SSPIASYLAKRGEGIHHVAFGVNGIQDRIDELKEKGVNMINEQPKPGAGGAQVAFMHPKS
+AHGVLYELCEKTNTKGE
+>tr|A6CKY1|A6CKY1_9BACI
+MVVFGEVLSRYVFNFPLVFSTELTNLLFPWIIFITAISVTKNEDHLSINFLRDKMSRNGR
+KITFILTKLVMMFFSFYMVLSSYQIAKSVVNQPLPMLRISKAWLYSSVTVSFTLIFIILT
+YQLIMIIMNKMEAPREEDMYDLVDDR
+>tr|A6CLF0|A6CLF0_9BACI
+MVNEMEFEKPVVQLRNKISELKEFTQKSDVDLSSEIEKLENRLQKLESDLYENMKPWDRV
+QVARHPNRPTTLDYISHLFTDFHEMHGDRLYGEDEAIVAGIAKFNDLPVTVIGHQRGKDT
+KENIRRNFGMPHPEGYRKALRLMKQADKFGRPIICFIDTKGAYPGKAAEERGQSEAIARN
+LFEMAGLSVPVICIVIGEGGSGGALALGVGNHIHMLENSTYSVISPEGAAALLWKDSTQA
+KRAAETMKITAPDLKELGVIDEIIPEVKGGAHKDVQVQALSIGVVIKASLEQLVSQSPEQ
+LIQSRYEKYKLMGQYTVLDEYTGVNS
+>tr|A6CS90|A6CS90_9BACI
+MSIEVGSKVQGKVTGITNFGAFVELPEGATGLVHISEVADNYVKDINEHLKVGDEVTVKV
+INVEKDGKIGLSIRKAKDQPQRPQRPQRPQRPRNNKMNDTRTKESFEQKMARFLKDSEDR
+LTSLKRHTESKRGGRGAKRG
+>tr|A6CMU4|A6CMU4_9BACI
+MNRDRGRIKWTSMMLPEHVKVLRDWAKEDSYEQRKEIDEQHLEELSEITAEAMEYGRLVT
+ITHYVGRRHELLIGRIHYYDGLNSKLHVVDRFENPSYLSIRDIVDVRFTEEY
+>tr|A6CRP1|A6CRP1_9BACI
+MLHTIIQISLLAVSISMVGLIYRVIVGPTTPDRVVALDALGVNLIAIIALVSMVQHSKSF
+LEVILLIGILAFIGTVAFSKFLEKGAIIEHDRDH
+>tr|A6CRR9|A6CRR9_9BACI
+MKYVQSAKNPQVKQWKKLQTKKERENSGTYIVEGFHLVEEALKYKGVVQEILVKEGVDLP
+SSWNMDEVSVIALSEDAAKAVSATETSQGVFAVCQQNQIGDLELQGKTFLMLDEVQDPGN
+LGTIIRTADAAGIDVIVLGEGTADLYNPKVLRSAQGSHFHLPIIKGNLSSWIDRLRTEEI
+PVYGTALENSAAYHTVNSTDSFALILGNEGNGVSPSILDSTDQNLYVPIYGKSESLNVAI
+AAGILMYHLKKAQ
+>tr|A6CT97|A6CT97_9BACI
+MGRLKRADGWWESVLEHVEWALEHPG
+>tr|A6CT98|A6CT98_9BACI
+MIIVYLSIALFVLSIAYLGYEGFKFMKKTKPTLDHLNKTVGSIQQRTQLLQEETNELSTN
+SQELKEDIDEKKDNIQYTVGEVKQLPKPVKKIWENNFKKPDEGKNYRTSNG
+>tr|A6CTI0|A6CTI0_9BACI
+MNKTELINAVAEAAELSKKDATKAVDAVFESIQDALANGDKVQLIGFGNFEVRERAARKG
+RNPQTGEEIEISASKVPAFKPGKALKDAVK
+>tr|A6CIM8|A6CIM8_9BACI
+MGNHQVNMNASEHGLFWSQYINDTLSICVFKYFLKHVKDEQIRGVLEFALGLAEGHVVKV
+KQFLKAENEPIPAGFTDEDVTVGAPPLFTDTYMIVYVHIMAIHGMTRYSGGIAGCLREDY
+IKYISECIKETMELYEKTSKILLEKGIISKPPVLNNKAKVDFIDKQSFMTGWFGDRRPIN
+AIEISGTYLNIQKTVGKMVLELGFGQVARSKKVRDYMDRGRKVCQKQYERLSQMLKEDNL
+HVPTTFETEVTDSTVPPFSDKLMLYHVTTLLSSAVGYYGEALSMSQRRDFSAAYMKMIAE
+IGILAEDGMNLLIENGWMEQPPTATDHDSLSKRK
+>tr|A6CIZ9|A6CIZ9_9BACI
+MSFTGSFKGGGNSASAYQQVEHLIRQETQGKIRLAVHQENEKGIEFWNRIGFKKFKEVRL
+DGKPHYCLENDW
+>tr|A6CLZ9|A6CLZ9_9BACI
+MSQLLGIIQRLKSLQDGTDTGETQQRFFEVNGKKLCQVKYFSNTDTFELEVYTDDKKANK
+YPFDDIDITAIEIFELLQEEKENSQ
+>tr|A6CQH5|A6CQH5_9BACI
+MRTIYIVNINAKNRYSINVWKRLQKELKVPSEDVYYTRSGQEVKDIIQSALEEDYEQKLF
+VVGVGGDGTISGIINQCIGFENVTVGYFPAGSGNDFAKGYRWPLKAGKGAKVIRRFQHNQ
+IKDKYHDTGYYVLDRYRSGYFVNSMGVGFDAKITERAGSSIIKKWLNRLSMGKLIYAVLL
+ISEALKYKPSCFEILINGEKKKYSNTWFITISNQQYYGGGMKISPAADPSDGLLDLTIVH
+SLTRWKLLMVFLSVFSGRHTSFKEVETYKVKDIFITTHKPVPVQADGDYIGIINKDRKLH
+IEVQHHNWKTADMS
+>tr|A6CQY0|A6CQY0_9BACI
+MGPCSWIRKERDRNLLVAKSVPVGTDPRPLELDWPPRQRLFKKWKRPVSPDRQMFLSEKK
+VIFLLFAEDDPEGLGYVPVGT
+>tr|A6CPU5|A6CPU5_9BACI
+FYFSEKTEAYLKEAVLFNDPKISTTAAVICIDKNIEVSSDILEKHSTNVESAGSLYWGLA
+EKNKEHLFPVKEKQPVLAKSHLFSYLVMLSDEEGEPMHIFPEDIKVVDRVDTVNSYGQPL
+RYYFMSYLHGEEVLTAWVGGYVLEEEDDSAEMWEGTFTDFEPLDVRTIEEHKELFLKKRE
+EDLQESEQAVHFESSPRLSKGLWFFYALLIGHWSRVFYNGIDEEIYISVAFTIIGGLLTL
+FELWRKKRRRVAIVGRELVKERGKQKESIPFHEIKKVLYDKKRIKVYNKRDELQLTIPLR
+WVDYDTFYIYLVEHTGHLREQPYIEE
+>tr|A6CQB1|A6CQB1_9BACI
+MIDQAQGLRLKILEAQSRNAKTIAVVSGKGGVGKSNFAVNISLALQKQGKKVLLFDMDIG
+MGNIHIILGKQPDKTISDFINSPGTDIENIIFTDEAGTSYISAGNGLQNIVEWDDIDIDR
+MLNALSELVHSYDYIVFDMGAGAAYHTLEILMSVEDIFVVTTPEPTAVTDAYSMMKYIYM
+KDPDKHFYLICNRAESDKEGLETLNRLKLAMMKFLNKDVYLLGILPEDPAVRKAVTQQVP
+LLTSFPQSAIALSLHRVLEQYLAGITTFTPTEKKGFVSNLKRILFRRKG
+>tr|A6CIY6|A6CIY6_9BACI
+MNDPKKESQEIHKISPFELKDKLIDLATGKKRMTRSMLDAGRGNPNWIAATPREAFFALG
+QFAITESRRVWDEGDLTGMPSRTGMADRFNQYVQDNQQPGIPLLKKVVDYGIQKKHFEPD
+AWLYELVDGIIGDNYPNPDRMLVRTEQVVHDFLLKEMCGDDSTCGPFDLFAVEGATAAMC
+YIFETLYKNHLLPRGSKIALMVPIFPPYIEIPELPDNNYELVKIKATEIDEEGHHTWQYP
+AEELDKLKDKDIKALFIVNPSNPPSVALNKESVDRIIDIVKQDNPNLMIISDDVYGTFVD
+GFRSLMVDLPFNTIGVYSYSKYFGVTGWRLGTIAINENNVFDKLIRELPEEKREVLNKRY
+ASLTQNPEELKIIDRMVADSRDVALNHTAGLSTPQQIQMAIFSIFAMLDTKNEYKQKTND
+ILHRRMNLLYEGLGLPKKHLPNEADYYTKIDLEIWCKHHFEEGFLDYLKSNYNPEDILFR
+LAEKSSIVLMSGEGFLAPAWSIRVSLANLEDEAYSRIGQELKKVLVDYLAEWKEG
+>tr|A6CQI8|A6CQI8_9BACI
+MKWSGNMKRLGFMLLLLFLILPVSVNAGTIGGKDNPGGVPGQWYAGDTPGYVDPTKPVLV
+FIHGINSSSKTWWENNNMYQTAFNNGYETAFIDVHPDKDMWDNGALINNRIRDIYHSFGQ
+KKLVIIAHSKGGIDAQNALVQYGAHPYVSNLITLSTPHHGSQLADLAYSSWAGWLAGILG
+SKNDAVYSLQTGYMKNYRPQIDSHINWSKNPVYTLAGTSWGSFGSSLYWGGLYLRAYGSN
+DGAVTVANSRLPYATEVSVGKWNHTTVREAGTFPYFRPYLTTSTKQFASSSYQENLTALE
+TMEQEPAAVAALHRGGEFENAVIETFQVEENVAKLDLDWLSDKKTKDLQLVSPSGDVYHH
+FDHSMDDGIFQGGHHHSFQIATPEAGQWKMKVKNNKAAYLMTAGFHSDLNEEIVFDESTL
+EVKNKGNKVKDFQVNIKVNKDGKKKKHSLLKVTSKGKVPFTYKEEGIYTITLDVTGKTIT
+GEVFERTIVKSIYVDKNGKKH
+>tr|A6CL34|A6CL34_9BACI
+MFQLFKRVKTVVGSELNAMLDKAEDPVKMLDQFMREMEADIRDAEAAVAKQIANEKMLQR
+KLEDAEKMVEKRQQQAVKALEAANDDLARRALEDKKTHSNQADTMRESYERAKADANNLR
+SKLDEMKAEYNQMKLKKDSLKARAESAKTRTKMNRAMSSIGGDESKKGFERMEEKVLQYE
+AEAETSDDMRSSSRSLDDELDALDKNNDIDDELAALKKQMGKE
+>tr|A6CQ34|A6CQ34_9BACI
+MFGCTGHMPGSDNVKLILKYALIFIGFIISFYLYQHLLGAIPLLILAFYFFYEAFSEIYG
+NAMKQRHTELEKGELP
+>tr|A6CQ60|A6CQ60_9BACI
+MEYVIEMLNIRKEFPGIVANDNITLQLKQGEIHALLGENGAGKSTLMNVLFGLYQPEEGE
+IKVRGEKVSITNPNIANDLGIGMVHQHFMLVDTFTVTENIILGREPKSGATVDVKKAEKE
+IREISDRYGLKVDPDAKISDISVGMQQRVEILKTLYRGAEILIFDEPTAVLTPQEIKELI
+QIMKTLIQEGKSIILITHKLKEIMEVCDRVTVIRKGKGIDTVDVETTNPTELASLMVGRE
+VSFKTEKIDANPQGNVLEIDNLVVKDSRGVSLLKGLDLNVKAGEILGIAGVDGNGQSELI
+EAVTGLMKAESGHIRLNNKDITNMKPRKITESGVGHIPQDRHKHGLVLDFPIGENMVLQT
+YYQSPFSKKGVLNFKQIYDKARSLIKEFDVRTPSEYTEARALSGGNQQKAIIGREVDRNP
+DLLIAAQPTRGLDVGAIEFIHRRLIEQRDNGKAVLLISFELDEIMNVSDRIAVIYEGQII
+EIVDPKETTEQELGLLMAGSKRKKEGESADV
+>tr|A6CRI5|A6CRI5_9BACI
+MLAIIKIFFSNDDHLEIKKMKDEILTRHAIFYNKFF
+>tr|A6CMR4|A6CMR4_9BACI
+MLALVLAAVHLTARRMVFLESIPRSKFLSIAGGVSVAYVFIHILPELNEHQEAIAESVEV
+IGFLEHHAYLLAMVGLVIFYGLEKVVQDSKKENEEEVSRPKRSAFWLHISSFFVYNGLIG
+YLLVHREESGLVSLLLYGTAMALHFVVVDFGLREHHKDRYDREGRWMLAFAIVIGWAIGF
+LTEIPEAVLALLFAFLSGSIILNVLKEELPQERQSSFWAFALGGIAYVILLLSVG
+>tr|A6CP86|A6CP86_9BACI
+MTEKNSNTPKDLLKNTSKQASDLVNQTADTANGIVKSVSGKGGLVGKVSDTSADFVKGVS
+NTGNKAVEKTVDTASGVLKGASDKVFKKK
+>tr|A6CQG4|A6CQG4_9BACI
+MEALSSDVSRTIVTRLVLPPDTNHMGTIFGGTVLSYIDEIAAIAAMKHSRKVVVTASIDT
+VNFMSSAEVGDILTLEACVISTGRTSMEVFVKVESEDLTTGERTLTTTSILSMVAKDDEG
+RPTPVPAVIPQTEDEKRLLQTAQQRKQRRLEMRNQ
+>tr|A6CQG6|A6CQG6_9BACI
+MINLEKRRLIDSEAPNASTAIINGKSSNILNWDDVRFSWAYPKYKRMLGNFWTPFEINMS
+KDIKQFPNLTEQEQDTFLKVIGLLALLDSIQTDYAGKVADYLTDSSLNALMIILAQQEVV
+HNHSYSYVLSSIVSKNKQDEVFDYWRTEPTLRKRNDFITNGYQGFAENPNIENLLHSIVY
+DVILEGLFFYSGFAFFYNLARNQKMVATSTMINYINRDEQLHVGLFEKIYKEVLHENPEY
+DTAELKVFGTQAFKRAAELEIEWGEQIIGNKIDGLLMSDLEAYIKFMANKRAEQMGFQAP
+FEGYRTNPLRWIVAYQEVDLGKTDFFEQKSRQYTKTSDANGFDEL
+>tr|A6CTB1|A6CTB1_9BACI
+MKSDRTILFTLQHCDSIGWKSIHRLIQTTSSPQDIPHLTPKELCSILPISPQKVHTFYHQ
+FHSLDPFQKIKQYEDEEIGFVTV
+>tr|A6CHU7|A6CHU7_9BACI
+MISVESEVLKGKLVKFQRGPATVNWEQAVINHCTNVWEGTASNDHKPGDLPVTAAPQAYE
+DREV
+>tr|A6CPQ9|A6CPQ9_9BACI
+MYMEEQLQQTIKELEVSLKELENAHSENVLVQHYIQEEKKEIQNLLEKFNGGSFTDLKGY
+EELISYFWIDSGKNNVRDWTQFTKKSLY
+>tr|A6CPY4|A6CPY4_9BACI
+MMYSAQTVRSIHLIHEGVHFQTVIQYIIKTISRDGGSSSCDLFLVLAIKLLLEKRTGAMS
+HEKKKLSIYALTWPIFIEIFLHMLMGNADTLMLSQYSDDSVAAVGVSNQVLSLIIVMFGF
+VATGTSILVSQNLGANKITAAREVAVVSLAANLVFGFVLSILIFLLNDQILNLMDIPAEL
+RGEASSYLTIVGGFSFIQALIMTAGATLRSYEFTKDAMYITIGMNILNIIGNYLFIFGPF
+GIPVLGVEGVSISTVVSRTLGLAAITFVLVKRIPGVFKPSRIFQVQHIKDLLRIGIPSAG
+EHLSYNGSQMVITYFIAVMGTEALTTKVYAQNLMMFIFLFALAISQGTQIMIGHMVGGRD
+FKGAYERCIKSLKISIVISLGMAVLFALFSDQLLGIFTSNEEIIYLGSILIWLTIILEPG
+RSFNLVVISSLRAAGDVKFPVYIGILSMWGVSVLLSYVLGIVFGLGLIGIWISFIADEWL
+RGLIMLRRWKSRIWMEKNFIGEKDSN
+>tr|A6CSH3|A6CSH3_9BACI
+MAYIIEEVPCIEYDRRRNISMLVKDNEIRSINSNYKRYTFPRMNISPFLMSPVHVMADLE
+LPDFLEFSHFKSYFTAEFIKRGCTTLITSFSIDYLSQFEGSLSQRRTSLLSSPIDYCLVL
+KCRMKLMTPDLIRQLKRNNIPAVFIEFTTVEELEEVAWGWIKQTLFGYPVVFCPVIPSEI
+DKRGRAKLVKAWQELLKKEGIPHIDSPLPPKKPLPLQFLKKIGIYPLKGNFRVGGEISYN
+LYQSPASEIVDDCQSFLYDNHMLILTVNKGKVLMSNGKCFFQPGIGEELIIKTPGYLT
+>tr|A6CTK5|A6CTK5_9BACI
+MSEFIKLLKKIHIHPLLWAAAGLAILTAHFTELIMLFVIIFIHEMGHGVTAHVFSWRIKR
+ISLLPFGGVAEMDEHGNRSLKEELLVVAGGPLQHLWMMGLAKLLYDASLFSSYHFELFIQ
+LNLMVLLFNLLPIWPLDGGKLLSICLGYRLTFIHAYQWTLILSFAALLLFHTVVLLTAPF
+HLNLWIILSFLYFSLWMEWKQRKYTFMRFLLERYYGKSGDVRDLKPLKINGEETIYSALE
+KFHRGFKHPLIVYIDGQEAGKLDENEVLHAYFTEKMTTAKFRDILYLY
+>tr|A6CNS4|A6CNS4_9BACI
+MNLPLFLGLFLLVLFITAYFGNKVLRIPDIVIYILLGAGISLAGLLNEAKTIEVAGEIGL
+ILLFFLLGMKYPLKEIVSKGKKVWKPGLLDLVLGVGVTAGISALFGQGLFNSLLIGGLVY
+ATSSSITIKLLEHNKKLDRKESGYVLTLLIFEDMVAPILITVLIGLSGDGFSVMDFLLIF
+LKVALLVGIAVTISRFIQKKGYTLIEKFLHEDYLLVYIIGLALAYGGFAVLLGLSEVIGA
+FLAGLMFAGTNFKDKIQEVALPVRNLFLPFFFLNFGISLEFTSEIPAFSLLFTIILWSIF
+HKLIVGFIGGQWYGLNKQESLETGFTLAPRGEFSVIIAGLASGTLQIFAGVYILIAALIG
+MLMCQLSSKIAGRIYRRKGS
+>tr|A6CRG8|A6CRG8_9BACI
+MKMNSLWRAITLGSLLVLAGCGAQNEQDHSEEGGTLEPVEVELTTKPGKEELKDGEEFTI
+QAKVTQGDENVDDANEVEFEFWKKDEEQHEKLEGQSQGEGVYSISMTVDEPGIYYVISHV
+TARDMHTMPKLELTIGDVEGTEHAGDEGHGHEDGHGGEVTGHIMLADKVEAGEEIELTGH
+AMTGDQALTAADVRFEVWKDGEEKHEFIDASEDSAGEYKSTHVFSDAGTYHVKLHIEKGK
+LHTHTEKTLTVE
+>tr|A6CN89|A6CN89_9BACI
+MARFKYTGRGRTGKKSGILTAGSTREAMLKLKKQGIRVIEMNEVPETLLTKDIAIGNPVK
+LQHMVIFLRQFATLLQAGVTVVDATEILSSQTGSKALSKALDEVQLELKDGNPLSDALAK
+HRRIFEPMLINMVRAGEASGSLDETLESLATHYEKQHMTKQKIISALAYPAVVGVIAIAV
+VIFLLVAVVPTFVTMLADFGGELPAITQFVLGSSEFMQKYWYLVTAGMAGMAAAVMVVKK
+NRRTKYYFDYAMLRMPIFGSIIQKAALARMTRTLSSLFSSSVPILQALAIVEKVVENEVV
+GRVLRNSRDALEKGTSLTEPMKNHWAFPPLVTQMIAIGETTGSLDSMLGKVADFYEKEVE
+NSTDRLKSLIEPLMIVVLAALVGTIVTSIMVPMFEIFNNVQGY
+>tr|A6CT58|A6CT58_9BACI
+MLTNAFVLGASFNGGDILFQLVMFIVLLALLKKFAWGPLMGIMKEREDHIASEINAAEES
+RTEANNLLEEQRQLLKEARQEAQTMIENSKKQGEQQREEIIATARAEGERLKEAAKREIE
+TQKEQAVTALREQVSSLSVLIASKVIEKELSAEDQQKLINDYIQEAGEER
+>tr|A6CJQ9|A6CJQ9_9BACI
+MNNQGSWYTSKNEKYETWKGKQDRIVTNKSLLYYGVPSLLMIGLLVLGA
+>tr|A6CPB3|A6CPB3_9BACI
+MKGASKMANVFNNTTIVAIIIAFSVYFIIRGIAIFLGKAGKGYMEKRNLTTEKLFFHLIG
+GYYIFTGILGLFVPKLDWKTEDIYNSIGIYALISVFFWLAIDFLMKRNSDIGQKLAEK
+>tr|A6CJ61|A6CJ61_9BACI
+MQEITGNDLNPNFHDMKKLDLIVLQAELDELQQESTHKRKIKIATSNSFIIAERINTEEP
+DIYKVPLLDKAILKSEDTTLKTMQEGSVVNLHAMIVLNNVKIMPFSNPDVEMECESFAIY
+TDHIMGITLTD
+>tr|A6CJZ3|A6CJZ3_9BACI
+MDLKGKLQEFKNHRDYDAVDNVQLILTEMIENIGHPDPELRDQLIYTTLYHWVERGVLST
+GTLRNLLKIAIDENHLFYSIGERETDTVFTRSFSSLAAALVIEKDAKLLSLPDNLIMEAI
+EKSIQYLHAERDTRGYVLGKGWAHSIAHGADLLTASINHPYFDESLIPSCLEAIANCYEK
+ETVYMDDEDERLIFAIEALLKAGMTEKQLLQWIKGLNNTLEFHFEETGFSVAFFRRKKNL
+LDFLKSLYFRLGYLKEYRTVREEVSSILEKWHQSIYQP
+>tr|A6CQX3|A6CQX3_9BACI
+MKFAITSKGDSKSNTLMHKMRTYLQDFELVYDEEEPDIVISVGGDGTLLYAFHRYSSRLD
+KTAFVGVHTGHLGFYADWVPEEIEKLVIAIAKTPYQIIEYPLLETIIRYQNGGKETRYLG
+LNESTVKSVEGTLVMDVEIRGQHFERFRGDGVCLSTPSGSTAYNKALSGAILHPSIQAIQ
+LAEMASINNRVFRTIGSPLILPAHHTCMLKPVNVPDFMITVDHLTLLHKDVKSIQYRVAD
+EKIRFARFRPFPFWKRVRDSFIAED
+>tr|A6CIS5|A6CIS5_9BACI
+MNLTIDGVSKIFKENQFDKKALDDLTLEFTTGVYGILGANGSGKTTLMRIIASVMKPTEG
+TILLNGRDIFSMDHEYRDLIGYLPQHVGLYKNFSAEKLLHYIASLKGLSKQEASDKVDET
+LALVGLYQERKKKVGKFSGGMKRRIGIAQALLNDPKILIVDEPTAGLDPKERIRFRNLLS
+KISTNRIVLLSTHIVSDIEFIAKEVLILKEGKLIQKESPNHLLTGIADKVWSLTAKEDEL
+EWFQSVFKVGNISRIQNGFQLRIISEGKPHPHAAIEEPNLEDLYLYYFDEGEGI
+>tr|A6CLH7|A6CLH7_9BACI
+MLVFMTVYENTLFEGIAAKIVDFRPRYPPSRGWNRMAYFQEIAHHMPLIEKYNQKS
+>tr|A6CQV9|A6CQV9_9BACI
+MDEHDIKHFLKSYVEISREIIRGCLADLSRGIHIKRPQMNVSEVFL
+>tr|A6CJ68|A6CJ68_9BACI
+MKMSENKKSAVSFLQMVASGNVREAFKTYTAPGFFHHNPYFKGDAESIIPAMEENAENNL
+EKSFEVLRAIEEGETVAVHSYVKQNQEDLGAVLVHIFRFEGERIVEMWDVGQVIPENSPN
+ENGAF
+>tr|A6CKI2|A6CKI2_9BACI
+MSVTANFNRIEKDFLGTKEVPEHAYYGIQTLRAVENFPITGYRIHPELIKAMAMVKKAAA
+KANMDVGRLYEGIAEPIMKAADEMMEGTMHDQVLVDPIQGGAGTSFNMNINEILANRALE
+IMGKEKGSYGHCSPNSHVNMSQSTNDAFPTSMHIAILNLLEQLISTMERMHEAFSAKAQE
+FSHIIKMGRTHLQDAVPIRLGQEFEAYSRVIARDIKRIKQTREHLYELNMGATAVGTGLN
+AFPKYIELVVPYLADISGLPFKGAEHLVDATQNTDAYTEVSSSLKICMINMSKIANDLRL
+MASGPRAGLGEISLPARQPGSSIMPGKVNPVMPELINQVSFQVIGNDQTISLASEAGQFD
+LNVMEPVLIFNLLQSISIMNNAFDSFTENCVKGIEANEERMKEYVEKSVGIITAVNPHIG
+YEVASRIAREAILNGQPIRELCLKYDVLTEEELDLILNPYEMTEPGIAGAALFDRE
+>tr|A6CRV8|A6CRV8_9BACI
+MFKLNKKILAAGVVSISLLGAGCANDLASDGDEIFHDSGNSINIGEDEDIYREVENSEHA
+RGEQFGYVRHQKSPIAGRTISTDDMYTIDREKVADSISKMSVTLPQVEDASTLVTDEEVL
+VAYRTDAKDKDLRFEVADQVKKSALSVVPRWYHVYVTDDPNLMQNVENLASMDTDMANVN
+TAIDDTINLMLQDSPQGREIDAGENANGEMYDEMNEMNEDDVHRIDRDRQKRYDNTGHDD
+MTD
+>tr|A6CN02|A6CN02_9BACI
+MPVLFEELQQERFITVSTVDFETGGPNVSAISWVYAETEEKILFAVDSRSRIVKNIKTNP
+LVVLNIIANESSYSICGSAELKSERLKGVPINLSLVSLSISEVRDVMFYGSKISVEPQYE
+KTYDQEAADRLDRQVIEAMKKA
+>tr|A6CS38|A6CS38_9BACI
+MVNKNDLLLLLTDIEKQLDELEEKINEKVCEEKNALITERKVKVAKAEKKYAKAETRVLL
+KMSLYGESPLDKARQMNNLELSYKTT
+>tr|A6CI18|A6CI18_9BACI
+MGAEHSLSAGAVVLNDEGKILLIRGQKRGWEFPGGVIERGESIAVGIIREVVEESGIIME
+ITKFCGIYQNLTEGVCATCWLGKAVGGEPRRSEESLEVGFFTLEQALEMVTWGNFSERIQ
+KILSPEDQPFFVPF
+>tr|A6CKP6|A6CKP6_9BACI
+MANIVLTQYIILTWLFSVFVYYLPKKILFIEAAFVFMVQAILLRNHYSILGLNLEYIQLP
+NKKDLFIAFILYRSFMLPIFFILLLNITLMTNKKIVKSAILTTGAVLLLLLEWMSHKAEL
+VGYNNWNLLLQTCTNLLLVASTFISYQLIRRLMKRVIV
+>tr|A6CTJ7|A6CTJ7_9BACI
+MNKKKAFKVATSSAIAAAAFVAANPAQAATSSQAESLVKDAEQLAGALKWAISVEGSATV
+DYPNMEVFNATKDARDKAAAAVKSLSGTQKYVLQARLDADVNLHINRAVAFIDAVTSGKK
+IEEKAAALESELEAGISNDTVGAYHTLTEEIRKQAVLLYRVYGKSTRDAILDTYKAPAEG
+LLDEALYPVSVKIELNRLAAAISSDDLTEANKRYANVTAWLPNVSDSSLKSDLTAELNSL
+ETGYEALKGDPISVNPSPAPSVPSADVKVVTVGDEVEYTLTARNADGTVAKNAAVDIKLV
+DPSAVSVSADGTVVFADSTPADNFADLQVSHSDARINSVNGLSTGINAAGNEVDHFSTGA
+SGTVTFTVKATKAVTAVPVMFVDNGNDDEISLSVENKPTEGVAVGAVAKWLPKEAGIDAY
+KQGTVVEVNKAEGWYTLDLDGDSYGDVLAKFDNNDRYRYLEVGATVDGGLTRSQFEAHLS
+EGDLVDFTYNTDSQGVTIHSIQEDKIGAVSNLKAVVSGSNAIVTFDKVGNFNVEGYMVER
+TVKSATGAVVDQTTFNTPILQSAKGEFVDTGLGNFSSSHSVTYTVYAVDADGYGQFYGEG
+VKATSNAVTPPVKADLAAPVLVGNALTDTSADNTLDGILNQGDVFTLEFDDTLSAVASNA
+TLQVTDTDGTVSSITNGKNATFTVTGNKLQVKITGDLENTVTGGVNKLSVPFAITNASGI
+SDDAGHAWVPGDKDAAHRFVGDADLNTAGYQAAVSTAFAHLIDLSAVNFTDVDGDGKLSS
+ADKVSLTFASANDALASAKAITLVDAAGNNVVLDVTEAVSDAGNDGVTNVTSAMSPDNRT
+VTFTIGSDLDVHNSAGDDGRISLSSDIYVTSTAGFVGANSGLVFDIRGDINNKVN
+>tr|A6CSJ8|A6CSJ8_9BACI
+MLDFTWKVFSQTGSIDTYLLFKELESSDDDGILDYDEELAELDHPIS
+>tr|A6CHZ7|A6CHZ7_9BACI
+MKFKSRKDLLFYIIFWGSIIGILLTEISNNEYGLTAWLLKALAGFLLIILLWIWFGTCYI
+FKEQKLLIRYGPFRWRILIKDIKSIRKVKSPFTSPALAVNRLEIYYQKYEVVQISPQDQD
+AFINYLCNQNQNIKLETL
+>tr|A6CKZ7|A6CKZ7_9BACI
+MESIWLEYAWALLILIGLEGLLSADNALVLAVIAKHLPDDQKKKAISYGIIMAFVFRFGA
+LFAISFIANVWQVQAIGAAYLIYLGGKHLITAKFGKENENIEEEIEEEARGKGFWPTVGK
+IGLADLAFAIDSILAAVALALGLPASGLGDFGGMDAGKFIVVVLGGIAGLVLIKYAATWF
+VQLLSKRPALETTAYAIVAWVGVKLAVITLAHEDIGVLDYHFPHSAGWTITFYGILIAIA
+LLGWFAPAKDSSPQEGNE
+>tr|A6CPT0|A6CPT0_9BACI
+MKEKGLLIVLSGPSGVGKGTVRKEIFSQEDTQFEYSISMTTRLPREGEVDGVDYFFKTRE
+EFESLIEQGKLLEYAEFVGNYYGTPEDYVRETINNGKDVFLEIEVQGAKQIREKFPEGLF
+IFLAPPSLTELQNRITTRGTETEELILNRMTTARKEIELMDLYDYVVENDKVENATEKIK
+SIVQAEHCRIERVKQRYQKMLEVD
+>tr|A6CHY0|A6CHY0_9BACI
+MRLKSSLLVGAAAAGAGMYMRKKDNRVKMQNMMESLKHKWKNRNKDLPVEKAGHPHPDDL
+EDNKMVSEGAQTSVHYYNSTAQ
+>tr|A6CND2|A6CND2_9BACI
+MRRTTRYKVDGANSLWHVYKTVPFLKVVKNFVVIQLARYTPFLGMKNWLYRNFLKMNIGN
+ETSFALMVMLDVMFPEKISVGRNTVIGYNTTILAHEYLIKEYRLGEVEIGSEVMIGANTT
+ILPGIKIGDGAIVSAGTLVHKDVPAGAFVGGNPMKVIYTKEELAERWKDDEIYGNKE
+>tr|A6CSD3|A6CSD3_9BACI
+MGDINIFLAFGAGFLSFISPCCLPLYPAFLSYITGMSVSDLKNENVKLQKRSLIHTILFL
+IGFSSIFVVLGFSTTFLGNVLFQYEDIIRQVGAIFIVIFGLMVIGVFQPQVLMKDRKFEF
+KNRPAGYAGSVLIGMAFAAGWTPCTGPILGAVISLIGTNPGSGMIYMTSYALGFAIPFLI
+LSFFVGKMQWIRKNNAKIMKVGGYIMILVGIMLFFDWLTAIIIFFSKLTGGFTGF
+>tr|A6CSV7|A6CSV7_9BACI
+MGYIAPVPHYQYMQYAEREAIKDYDPFTFMPINRIQPLANKDQQQHDSVESDVKTNRTKS
+GKSFSKENAVSAEFLADITGKGKYINEYV
+>tr|A6CKN6|A6CKN6_9BACI
+MNIEKERIDLTTNQKRTVLLLMLVSTFIGIVIRLFHVSRSTHELVSFHSLDILILFIIMA
+FSGGGLLLMKPVLYPARRER
+>tr|A6CI23|A6CI23_9BACI
+MKFIIFIISIIVLFWVTEKLLTKWLGKDTRKISDTEGKLLDRWGRGVILLIALVFLTKVG
+DMSDQRLAMNIYWISFIIVFLGFQSFMQWKFLKGSKEYLKTLIFLGIALFCWGVMKVIGI
+LVIS
+>tr|A6CIC8|A6CIC8_9BACI
+MLLKKETLSLILIFKEKIRVNKADALRRKYKGFILKVKINEGGQ
+>tr|A6CIX7|A6CIX7_9BACI
+MTVALIMVLACLVFPGSYSAAGQFLNGSYGGKPYKLYVPNGYDSNKTYPLYVMLHGCTQD
+ASQFATGTKMNTLADEKSFLVLYPEQTSSGNSNKCWNWFETAHQSRGSGEPAIIAGMVNT
+VKNNYSIQDEHVYAAGLSAGAAMSVIMGATYPDLFSGIGVGAGLEYKAATSMSGAFTAMS
+SGGPDPTQQGISAYGAMGSRAKMLPVIVFHGTSDYTVYPVNADQVTTQWAVTNDLAQNGA
+DDDWIDDRAERTENFTVPGGRSYSVSDYEAGDGKVWMKKVMVHSMGHAWSGGSSQGSYTD
+PNGPDASRMMWEFFDSFKDGSDGETDTTAPVTTADPQGGTYNQSVQVALQANEEATTYYT
+VDGSAPTVNSTLYTEPILITENTTIKFFSVDSSGNKETTKQEIYVIDESAPPVEGLTIPS
+LSAEDGFVGQFTADGKGTGDIKVGDKGMYNTDTYRGILSFDTSTLGQTTIESAVIRLYTK
+SLKGTVSAVGADIKNGTFGTAAIEQSDYSAVASLSNVASVQSPSATGYIDLVLPASALTQ
+INKGGKTQFRLKATTTAGYNQNQIEFYGGGNDAQSPVLIINGGTE
+>tr|A6CRA6|A6CRA6_9BACI
+MRKEPVYIVALGKIQKAGFFPWRQGLYSLNKLNYLFSSFLSAISG
+>tr|A6CNC2|A6CNC2_9BACI
+MNEERKRILEMVEKGQLSTKEALTLLEALDKEGEAPKEKASYKEKETDLLDDLANIFTGE
+KTGDYGDKSSQTFNNGKDRLIDFFQSALNKVKNFDLDFEFNKSIELSHVFQKTEVESLKE
+IAVDVANGKVEVLPWDQNEVRVECQVKVYRTDDLEEARESFLGNTDFYIENGKLRLSTEL
+KWMKVNSIIYVPQSQYDKVSVKVLNGSVKSERMMADSFKVRSGNGKVELKDMTTKKTEVD
+TSNGAIHLANIYSDSVEAESINGKVYLEGDVKLTDLQSLNGTIVCSLRGERADTLHAKAV
+TGGIDLYVPGSLGLKGEAKSNLGSFKIEMEGINIVEEKNEVVQKHVHFSKDSESDQKLHI
+FAHTKTGSVLIKKSEEKNDMQDKS
+>tr|A6CRK2|A6CRK2_9BACI
+MVNHHVSPPPPAGRINVVDPSPLNWLYVLFNTMEEAVRTDREGKIIPSLASGWKWVDTRT
+LQLNLRDDALYHDQQPFTAEDVRRNFTQVKKWIAPHPPGTWLNLPEETRLEIIDKFTVRL
+HFPSAEGLALAKLRAHHYGNKLFWQTIGFGYSKLGSAEGHW
+>tr|A6CUH4|A6CUH4_9BACI
+MNRLKAKFNDEITQALMSKFNYKSVMQVPKIEKIVINMGVGDAVQNAKALDTAVEELTLI
+TGQKPVVT
+>tr|A6CPI9|A6CPI9_9BACI
+MIITKGNPLFMGHSGFFHSTLLQMVLHQDPALQGQHLNLHHHRSYLLPHEDHLDRLHRQL
+LYLLRLLQLREAFLHILCIMKAGY
+>tr|A6CKS7|A6CKS7_9BACI
+MEKAELKKDFIVSVSLIVISIVLYATTYTFKRLTTSQIGPQFAPRLVTGLIFALSVVLLT
+KTIINWKKAKINQAATNVEVVSEEVLDEELIQKTESEQEVPLSSKSKYVLYTLGLILIYI
+IAMSQIGFLISTSIYLFAQICLFSEKKYWNIPQFAILSIVVSVVTYFSFRYGFNLMLPGG
+ILG
+>tr|A6CMG8|A6CMG8_9BACI
+MPDWSYHVIFKPILNKLSPVTSREFIHKGMNRIASLPCGPHIINFLGREESFPSLSRHID
+GLTFSNPVGLSGKVDPFLSGTKAFANLGFGFLEIGPVSLQGTKNLSDPLVDYEDLQICFP
+EGESLGLKSVTERLKNIKKKQPIFIRITGTDHELQAMVGELEKTADAFIVDNLLVPLTSD
+KPIYLAISNPSELSVNELHQFSGIVLELGEQYTPDNFLKVKQLREKGFSKTILTSGSILE
+PQDALHLLEAGADSVMLSGGYVFSGPGLTKRIKEALVSKEAPPALQPGWFAYWLFGLFIF
+LGGVLALIFSITSIVLPYDELFLGMKKEEIWAYNKRIMLFMAHDRMTLAGTMISGGIVYM
+NLAKYGVRNQLRWAKQAIDKAAIVGFLGIFAFIGFGYFDWLHLLFWLVLLPFYIVGFIKT
+KGIRGTPSSKNRRNHRIWKASLLGQFLFVLLGFSFVLGGVIISLYGVTTVFVPTDLLYLC
+MTPEMLEAFNERLIPVIAHDRAGFGSALLSVGLLVLLLALWGFQQGNRWVWRTFLFGGLP
+AFIAGIYVHFAIGYTSFIHLLPAYFAIMLYIGGLVTTYRYFHKDTDM
+>tr|A6CTN6|A6CTN6_9BACI
+MKKILVILFSILFAVHLLPPNILAQQPEWNVEVKQGTENAELLFQVFNNTPEKMTLEFSS
+SKFFDFEVMDKEGNKVFRYSDNKAFLQAIQHVTLKRGETKVWRDKWDYTTTEGKRVPPGE
+YIVKAYLMVRTINGKPAEAEFVQTKKLTVEAENPSFRNVELSPADGSYIVKGEAKVSAGC
+FYYTVEDGHNILIEETLVKVNKEYPNWTAFSFTFDFDPEEVSKNRPVLLNLYERDLKEGT
+IYHNYTLRLN
+>tr|A6CTW4|A6CTW4_9BACI
+MNTLFSIGKLPKGHNNCITDVKGVKVGHVTLSEDKENGEKVQTGVTAVLPHGQNLYRQKV
+RSASYVINGFGKTTGLIQIDELGLLESPIMLTNTFSVGNVWQGALQYMMGQTPEIGETTG
+SINIVVGECNDSFLNSVRLQAVQPSHAEEAIKAASSSPSQNGAIGAGAGTMCLGYKGGIG
+TSSRLIEAEGETFTVASLVQTNFGRREENKFLDRELEPTGEKLPDGSIMIILAVDIPMSD
+RQLKRLAKRA
+>tr|A6CHN8|A6CHN8_9BACI
+MQAHALQFMSKIQSFMFDHLVSRDKKINKGELQNTEEELLNMKRKITGE
+>tr|A6CHZ6|A6CHZ6_9BACI
+MELIFGVLLIILFLYIIHSIIEAGVRNGIDNSKTGKMIREMIEGQMEEYPSKTSDEEIEK
+ELKRQIEEKD
+>tr|A6CT09|A6CT09_9BACI
+MKIKTLILVIMMYALVFGGFYSYLKLSQLEKPLFLSHYYQKEIINSSVDYIPIHYITNQG
+EDWQLTNVTSEELPGHLIFVDHEDIRHQEGIFQHNEAYIRIKNIEQDEVILKEMTFTFSN
+GKVVEADIGAIHLKTSERKRSGEQVVQISAAGSSNQGESYSSLNIIRDSELTDINLEFKE
+ALSPVLKLGWDTSSEAVNPEALEIKDIKSRGDKQKLTDIDLPIKLNADDSLRINAVVDKD
+LMYENDIHAIEADITGMFKTDQGEIKQNLIRISEQPYLTSKQIKELKKLREEENKDGKGN
+>tr|A6CHV4|A6CHV4_9BACI
+MLMNLKGYILGLLINFQFFSIVPIPLTINTDRTIIRRAVMTFPIFGLILGAVNGVIFSLL
+NECTLLSSLALSFIIWVIPIVLTGGIHLDGWMDTSDAYFSYQDKEKRLEIMKDPRAGAFA
+VLSLLILLAARFLFIYESILHNIYAAAFIVGLIPFFSRTLMGILMVLSVTAKEEGMAFYF
+KKHTEPRLLLFYLLPMSIAACGVLMFLPDILFLYLMFTVLILLAAIWIKQKTVQQFGGMT
+GDTLGASVEGIEVILWMAVWLLAYTGML
+>tr|A6CHQ6|A6CHQ6_9BACI
+MKKVIIAILLIFITAQTATAEEEYQKPSMLFSESGVMIDMETGTILYSKNAKRRMSPASI
+TKVATAIYAVEKGDLNSLVTISKEAAETEGSSVYLLEGEKMTLKQLLIGMMINSGNDAAA
+AIAEHLDGSVEQFSENINQFLEEKAGAKDTHFTNPHGLYEKDHYTTAEDMALITSYAMKN
+EAFQDLFALKEIGWKGEGWNTTLYNHHKMVKGEVVYPEVTGGKNGYVDESKHTLVTTASN
+ENLSVAVVLLKAQSKTAAYNDTSVLLDYGLNQFSHFTIPKGERYMNGETEYLSDKDIVYT
+GLARVEAPISVDSNGRLVYLLDGEPQFIGKLTTASEKNGEPNEELAQSENDGLVKEQLVL
+YPVYLYLGLLLIAGTAVMRKKMMAE
+>tr|A6CU44|A6CU44_9BACI
+MDLKQYVTIVEDWPKEGIKFKDITTLMDNGDAYKYATDKIVEYAKEKEIDLVVGPEARGF
+IIGCPVAYALGVGFAPVRKPGKLPRETIKVEYGLEYGKDALTIHKDAIKPGQRVLITDDL
+LATGGTIEATIKLVEELGGIVAGTAFLIELTYLDGREKLEGHDIMTLMQF
+>tr|A6CJ94|A6CJ94_9BACI
+MQRLFTIGAISSAIILSGCRLETGAEKEVQNDSEEMEEKSTGAVTLEMYQQLEKGMSYEE
+VKEIIGTEGKQMTEEGDSNAAYIWDGESEGSFLSISFKRDKLSTRTQVGLR
+>tr|A6CN74|A6CN74_9BACI
+MANDQILTAVLKPYGIKPHFVEEFGKIVKVYTEKGTLAVKKIPADTGVDFVRNVQHLFQS
+GYHRIVPIYPTQDGRYAVWHENDLYYVMPWLANEVKENHFERHQTLFRELARLHTLSSKE
+QKIRKEEREEHYETMNERWEKEQNFLEEYIELCEKEWYMSPFQLSYCMFYGDASQALKFA
+RKKFDSWYEVSKDLEKVRSVVVHGKISPEHFLYDERGSGYFSNFENTRISSPIHDLLPFL
+SRTLKTYPKAYDECFDWLMTYCSHFSFRNEEKLLFLSYLAYPSGLISVVKKYHETPREKR
+NEIKFLRKLQHHYWLLKNTEYIVMKWEEWEQRNKEAKQNAQEGASSS
+>tr|A6CIP2|A6CIP2_9BACI
+MPDGWVSDKSAKYNVYYPVKEDILQYGTPVSWKEMMKISGLKRVGEVAFAMHARLFGGFA
+KNSHHRMLSKLEAAMDTSLFYPEEDELSLFLLEPIRKLFSSKGARKIEYMSMMDGGGSLD
+ILNASIEDLSNLCTGPVTVKDENADFVLTCYFDGNAALFFSKEENLHDLLAGTGLEGVIY
+KRDTPLAWERSKVDYFG
+>tr|A6CJB9|A6CJB9_9BACI
+MEKVLFIKANSRPIEQSVSVKLYHTFLDNYKEAHPQDQIIELDLFQENLPYYSNDMINGM
+FKFSKGMELTEEERQATETVNKYLQQFLDADKVVFAFPLWNFTVPAVLHTYLDYLAQAGK
+TFRYTPEGPVGLLTDKKAVLLNARGGVYSEGPAQSAEMSVSYVQTMLGFWGVEDIQKVII
+EGHNQYPEQAGSIIAEGLEKAAELARR
+>tr|A6CPS2|A6CPS2_9BACI
+MNKLKIELPGLNLKNPVMPASGCFGFGKEFADLYDLSMLGAIMIKATTLDTRFGNPTPRV
+AETSAGMLNAIGLQNPGLHKVMTEELPWLEKYDVPIIANVAGSQTEDYVQVAETISTAPN
+VSALELNISCPNVKTGGIAFGTVPEIAKELTKKVKAVSSVPVYVKLSPNVANIVEMAKAV
+EDGGADGLTMINTLIGMRIDTKTGKPVIANVTGGLSGPAIKPVSIRMIYEVSQRVNIPII
+GMGGIQTVDDIIEYFYAGASAVAVGTANFVDPFICPDLISGLKERLDEMNVDHISELTGR
+SWRSHGANAYSRA
+>tr|A6CKP9|A6CKP9_9BACI
+MNNGLKRELGKWHGYALMIGGMIGSGIFVVTGEAGAQAGPSVPFGYVVLLPVLLCSALAY
+LIFMSTPLGNSPGGAYVHISRTFNNYFAGFLFMWFQYIALLGVMAIMAISFGDYISGVIG
+AGNTAILATALLLVFYLLNIIGVKWFGVVQLVMSAILFVAILVLVVPGVFFIETENFSPM
+LPNGWSGFVAILPSLFFAYFGFEQLAQAGGEMKDPQKAMPRTMLIGSFATVVIYFLISIV
+AFGVVPYDQLAQSQSAMFDVASVYLPAGGKWIVMTGIIMAFATTLNSLVMVVSRMLFAFA
+EDCVIPEGIAKVNKRFNTPHIAITINTIIVLALIWTRTLDYLLNVALQGMFLMYIGHAIA
+MIALPFVRPALFQTALIKPKLPLVIFCGIFSLSVLLFFSYTLIFSVIKLLLIWTAVGIVI
+FLLGRRQGKSKQFDYKTQLENAWK
+>tr|A6CPS6|A6CPS6_9BACI
+MIEVEGVRPPAGLAVRLVPAPSPSGSNNPERIKGKIAFFSLRNICLSGLIRALPLLMTGE
+TPAGAAEEAHRPPRGVAHLERKSSRGNTS
+>tr|A6CSX1|A6CSX1_9BACI
+MVAERGENLNLLRKIYISGLLLLLAVSLIGSFPFHTKAQDELVYVIPIEKEVEKGLYAFL
+SRGINDAREAGADTIIFHIDTPGGLVDAAGNIGKLLDNTEIKTVAFVDNRALSAGAFISL
+HADEIYMVPNATMGAAAIIDQAGNSADEKAQSYWLAAMKSAAETSDRDPKYALAMADKSV
+DLPEVGAAKGELLTLDAKTAESVGYSEGTVSNMEELLQKLGMENAEVVNVEESFAETLAR
+FITNPVVVPILLSLASLGLVVELYSPGFGVAGSIGLASLLLFFYGHLVAGLAGYETLILF
+IVGIGLIVAEFFLPGGIAGVLGIGAIIGSILMAGGNVVTMGISLLIALLVAIIAMVVFVK
+VFGKKMNFFNKIILKDSTNTESGYVSNVNRLELIGATGVTKTPLRPSGTIIIDDERIDAV
+TEGSFIAQDKPVRVVKVEGSKTVVREIE
+>tr|A6CJT8|A6CJT8_9BACI
+MENMKIIQQWHQKDSDFIKKKVIEHNMSHISDSVKTPLRNESFIVKNENEEIVGGITATL
+FWGHCHIDFLWVDNKYRAQGYGVELLAKMENLAKETGCYLIILDTFSFQAPEFYKKQGYN
+VIGIVEDFPKGNQQYYLEKRLKV
+>tr|A6CK28|A6CK28_9BACI
+MANGLTVMLNNQLSNWNILYTKLHNYHWYVTGNDFFTLHEKFEEYYTEAGQYIDDIAERI
+LTLKGKPVATLKKYLETATIEEASCQENAKEMVEVLIKDFEQIIKESKKLIETAEDLHDQ
+PTADMFIGIKSSLEQHVWMLNAYNA
+>tr|A6CQT3|A6CQT3_9BACI
+MLDIRHLRANFEDVKNRLQDRGEDLSDFEKFEELDVRRRELLVETENLKSKRNEVSQKIA
+EMKKNKENADDLIVEMREVGGMIKKLDEELKEVEGSLDHLMLSIPNIPHESVPVGATEDD
+NVEARKWGEVPSFDFEPKPHWDLATELGVLDFERASKVTGSRFVFYKGLGARLERALINF
+MMDLHMDEHGYEEMLPPYMVNRESMTGTGQLPKFEEDAFLIESEDYFLVPTAEVPVTNYH
+RDEILTNDQLPIAYTAFSACFRSEAGSAGRDTRGLIRQHQFNKVELVRFVRPEESYDELE
+KLTGHAEKVLQLLNLPYRVMSMCTADLGFTAAKKYDIEVWIPSYGTYREISSCSNFEAFQ
+ARRANIRFRREPGCKPEHVHTLNGSGLALGRTVAAILENYQQADGSIVIPEVLRPYMRGV
+EVIKPK
+>tr|A6CLR1|A6CLR1_9BACI
+MLKEKILSGKYGGRFQSGVTSVRYMVKAADELYGASIGGIPLMNGFNWCIISEGSQNDAL
+IIAFLVHHIGTPNAMMS
+>tr|A6CMP7|A6CMP7_9BACI
+MSKTIIGGVFRNQDEAVRAIEALHDLGYSKEDISIFAKDKDDVKSIEHETNSDVTESESG
+RGKNAGKGFGIGAGTGGVLGGIAGIIAEIGLLTIPGVGVLAAAGPLATALSGAAIGAGGG
+GLVGALTGAGIPEEHAKEYEDHLNKGHIVVLVDAEEDRRDKVYGHFSENNSLNTHTYPER
+VRVNNTERTNL
+>tr|A6CLW2|A6CLW2_9BACI
+MEITINPLITAKVDGFKVGFIQYHNIEVGSSPQMLKGRLQLFQESIFFDLQERPVTEIDG
+VAQWRKIFKSVGKDPNRYRHSAEALYRRVKKQNYLQTINSAIDLNNFFSLQYEVPIGIYD
+LDKLQGENIELRIGSEGESYTGLNGRENSIENLIVACDAAGPFGSPFVDSATAPVGEETK
+NAVQIIFLKPSLSVEESEKLTKSLMDMFVSIHGGEGTFSVVGS
+>tr|A6CNK2|A6CNK2_9BACI
+MEFTLRKRTSDDIEEFLTWTYDGIYAFYDNDIQQEKIDGFRESIDSDRAFSVFTKDGTLA
+GNCEFFNVADDDDDEVLAVGVQMKPSLTGKGYGSSFMDAIINEGRGIFKYDHLELAVVDF
+NKRAIKLYENAGFKRKGEFQNEIRGTTYDFIIMEKDWT
+>tr|A6CSP1|A6CSP1_9BACI
+MKKNPIIAFLLAFFPGGGLLYLGKVLRGLFYAGGVIGAAVMTILLTYSYYSVTGIEFVFF
+IGGLFLYLINLIDTAVTASKLYKRTTMEGDTVKEETTPESERFFTIILSLVPGLGHFQLG
+LMNRGVTLLAAFLGLAVMVIFVTVLSSRGEFLVFLAFLPVLWVYSFFDSMQQLAKKQRGE
+ALVDQSILEEFENRREDGKKSKSLATMLSIFPGAGHLYLGYQRRGIQLMAAFLFSIYIMD
+VMRLGIFLFLVPIIWFYSFFDGLQKASRYGKEPIEDVPVISYLVNHQKWVGIGLVTLGVY
+YLLTNIALPVLQPIIYEYMNVDAFFWFERYVQTAIVCILLIGGGIKLLTGSKKKGEASQ
+>tr|A6CHC0|A6CHC0_9BACI
+MESDKERRKIMRRPRVYTTGVLRREPDTVTITVNLMNFRSTEDVWVEVWDWSSYTNPRKI
+PVLIGDNDPVHFPFCLRPKSLAVMYAPVQEVTFYEVRIVHAGGNNLIANTFGRKQNLEAQ
+EGNTVLNSQLVTVDLNCFDQSG
+>tr|A6CKU1|A6CKU1_9BACI
+MLRFQTDSLGIIQERWKKLDEEERINLGVTIGILFFTGLSGHALSHIKVNDVDIDKEWIL
+YEPDKLNSKLKPQCFPIPQTTYA
+>tr|A6CS18|A6CS18_9BACI
+MNLHPDFVVFPWVLINKDVSEEKFPFQYFLTRETLKYYWIIVKFHFLIGAE
+>tr|A6CSQ5|A6CSQ5_9BACI
+MKKWVIAAVVYLLLVIAGYTMYDQFNDIDTDSHESDHSASVQVESQIS
+>tr|A6CRT0|A6CRT0_9BACI
+MQYLSCKFENQTALVTIQRPPANALASDLIIELDGLMDELENNEEVRVILLHGEGRFFSA
+GADIKEFTKVESGEDFSKLSKRGQDLFERMENFPKPIVASIHGAALGGGLELAMGCHIRI
+VGENAKLGLPELQLGLVPGFAGSQRLAKFVGSAKAAEMLLTSEPISGKEAVQLGLANRAY
+PDEEVLDQAKNLAFT
+>tr|A6CT57|A6CT57_9BACI
+MSNIAVAKRYAIALFEIAKEHNQLESIEVELRVVRSVFEENKELDVLLETPRISVEKKKE
+ILKEAFSSASPNVMNTLMLLVDRHRANAITSVVDAFIELANDERGIAEAKVYSVRPLDEA
+EKAALSASFAKKVGKSSLRIDNITDTNLLGGLKLRIGNRIFDGSLKGKLERLERELTRK
+>tr|A6CJE9|A6CJE9_9BACI
+MVEKMGKPEELTEITIIQKDTPNKIREAYIGKFEEPVLYGVHGGVKKFYGVEPEVEYPST
+LDHIVAAAGG
+>tr|A6CIW7|A6CIW7_9BACI
+MKEIVSSYTISKKTAALIPVKHPDYLTKVIETDNIFYVTKPPLSIIKKACLKGYSSYEGR
+REAVKHYTGYQRKVPIPIIPKHNIFAFPSLSPEAFECIWLFPAHIKSISKANTADKAISS
+LVTLKNGRTVYMSESPAVIKKQLQRTAYFSMMYYTDSVGV
+>tr|A6CK58|A6CK58_9BACI
+MECMDFQTFPIYSSIYVTMNLITYYLGSFRLLLVIPIYGKEHEEMEKISVFLDDIRKAPD
+GYVLVETIDECLNLLKNYDIEHLSLDHDLLNKTRDGTMLVRIMVHEKLFANRITIHSANS
+VRGKGMYKSLKQAQQDLIMPSTITVSLRPLPLYTYPPGFLEHYQNTI
+>tr|A6CSU8|A6CSU8_9BACI
+MMKKSASKIKPAQPVKKKKGCGCGKSKKTK
+>tr|A6CM65|A6CM65_9BACI
+MNAVIPTDFNIHLFHEGNLFEAHRMLGAHRIANGEGYSTTFCVWAPAARSVSVVGSFNDW
+DGKGYKCERLNNEGVWFLKVDQDLLGQTYKFEIETATGEILLKSDPYSFCNELRPNTASI
+VSELGGFEWTDEEWLAKKSEVPPYDQPMFIYEVHLGTWRKKGKEDFLSYREMAAEIIPHA
+VSNGFTHIELLPIIEHPYDRSWGYQGTGYFAPTSRYGSPIDFKFFINECHAHGLGVIMDW
+VPGHFCKDAHGLYRFDGSFLYDYAQAHDRENYTWGTANFDLGKGEVQSFLISSARFWMEE
+YHIDGFRVDAVANIIYRANQEEKSVNDEGIAFLKKMNKSVFEFDPHALMIAEDSTDWPQV
+TSPVHYGGLGFNYKWNMGWMNDVLKYMESQPSERKEQHSLITFSLLYAFSENYILPFSHD
+EVVHGKKSLLDKMPGDYWQKFAQLRLLLGFMTAHPGKKLIFMGTEVAQFSEWKDLEQVDW
+HLLDFEKHQGFNTYLKELLHLYKKSPSLYEQDHRSEGFEWVDANNAAQQIFSFIRKGEEP
+DDYVMVICNFSPEVYHHYKVGVPKADGYREIWNSDHHRFGGSHQINPEILTVKNEGYHGK
+PCHVEMTIPPYAIVYLRPIHHRKERIKYGKVKLCRNVVSRREGKQVKFPD
+>tr|A6CTH2|A6CTH2_9BACI
+MSEKIKILESDLYKPIQKHFTKEGYKVNGEVKDCDLTAVKGEDLIIVELKLNLTVDLLIQ
+ATKRQRLTDLVYIAIPRPKNMRSRRWKDICHLVRRLELGLITVSVANKIPKIQFIQHPEP
+FDLDKSKRNSSRKRKSLLAEIEGRSADYNVGGSNKTKIMTAYKENCIRIACCLEQCGPLA
+PKDLMTMGTGDKTQSILSKNYYNWFDRVERGIYKISDKGKRDLEDFPELKQHYLKEITKQ
+EPSN
+>tr|A6CQK5|A6CQK5_9BACI
+MQDILRSENLSIDFGGHRAVNGVTMSIQEKKFTSVIGPNGAGKTTLFNLLSGQLSPTEGR
+IFYKGNDITSLTPTDRARQGIGRSFQITNVFPNLTVLENVRLAVQSQQKVRYQVFAHYKH
+YKSMKEKALNLLEMVLLKEKANTIASSLAHGEKRKLEIAMLLALETDVLLLDEPTAGMSI
+EEVPAILEVIKKIKKQGDQTIVLIEHKMDMILDLSDEVMVLFHGELLAQGSPEEIMENET
+VQSAYLGGLYDEHLA
+>tr|A6CHG9|A6CHG9_9BACI
+MKEKLKAFGLPSVIIVILIGVLFFQQLLRLTELPNENWSRSIPFSMETDEKPIVFQNGNE
+VFYSEKDKVHHFSLNDGLEVSNEGNISFTVPRGYPFWTDGEQFITLSQGALKISGSNERV
+IAEDVTGVTTRSDKVIYWQGGNVFEMDPSILESKQIHSFSNEVANVYFGSDGSYVVAQQT
+NDMNAELFFVSAEGEVTQNAFLKVANNKNNQIGNIAYTIQDGEITFIFDTQMRSQGALTY
+HLHMAKTAVSDLGSSLLKAENVTILNEANGAKLETPRYVQIMETRETPTLLFTAEGQGIG
+DDNTVSLYTGVYDGTSTVTSSAFTTTDGITHYPVEANDGSIVWLDYDGGEYKLFGASQSL
+EVKEQSTELTSRSYKEAGINTVMLLASSLVTCLVSFYWILPSLLLLIVLYMAKPNIFEKE
+EINWVEYVSIAIFAAMPFTFVDKAMNAYFYEIAPSYLTFTGSGWILLLIITAVSAAIWKF
+GRDPDWGTFGGAFYFIGVYILLYITSIGTYVFNLF
+>tr|A6CIQ1|A6CIQ1_9BACI
+MIPVLSLLKGIHLKEIIFEPSIGFISGSVFVKINHSRDGNGTGGAIGGAFVGLVILGNGV
+FYIIIGMFIGVKNNLERKNVNK
+>tr|A6CK90|A6CK90_9BACI
+MGSIVKQNDSIVEINFATDNKKFVYPDVFGEHLELHDASIAHSLHQIIQEKVLEQKEEEM
+KKEEEIKLQRKYQELRLGHEKLMRNHKLHPESQMVFWCDAEEQNSSLSEWKIFSGEIKSG
+NNKGKPNKPIRLHQNSAVLLTAVEPGRPEEDRRILGVYMVKDGFIGKLCEDGYIPAHSEY
+RLQLTEQESDQMLFWNYYVNEKFPQKQTWNTGKYRYFDNSWMAQILRDIVALKNDTREQE
+QAQQFFDHHCKMNQLIEQDLPKPNGSLMRA
+>tr|A6CHI0|A6CHI0_9BACI
+MSFLVGLGFWGLFLGVFIEAVSLPFPAALFILIYGYILKPDLIEILFYGTAVSIFYVLIS
+YIPYWLSIKYETSIRKKLSRKKQGQFDRWNIKYGDWTIALGRILGMGYIAYLGGFCGMRP
+VRYGLLSFIGILPVSFAMFYLGSIGNLQALKESFQNVQWAINGVLLTTVISYGLFKLLRK
+KALFAKTKQKDNI
+>tr|A6CSG5|A6CSG5_9BACI
+MDRYILGGIQMAFLFVWVLLLVFGGIGGIGICSAFEGNEVFTGYAVMLGMIVALLSAIFF
+QLNLMHKEKE
+>tr|A6CTQ1|A6CTQ1_9BACI
+MGAGMLVVLFCLSVFTCFLLQKKRKRPGQSSTSKWWNPHRRESAGLKWRNDKVEFKKKRF
+GPVKVTLR
+>tr|A6CKX1|A6CKX1_9BACI
+MMLGGVSLDWSKTKTIFIIVFLILDIFLLTLFINKYNESQYDFLGEAKLEDSLQLENIEY
+ELPLSKEFEKQPYLNAITKAFTEEEIQELKNQSVEIIDSTTITSKLEDGEYVLSEKFKPE
+ELNDFISQNVLHGDSYSYWGIDEDQQRVLYYQTYKDKPLFQNINGQLVIYFNEDRKIVSY
+TQTLMTDFEEFTDTKSVITPIQAVETLYDKEKLLPDSSIGMPEIGFYTLVPEAERQVMAP
+AWHFTVTKDGESDHLFVNAFEGNIIEFSNTEKELLE
+>tr|A6CLD4|A6CLD4_9BACI
+MIEIRSLQMKNPAIERLGLESVPQNLKTTTWFEYFIIQLAFSVNSGNFLVPALAVMEGGL
+SMFWAILSTLIGGTLAFFFVSVLSLPGARYGLPAQYVIRSMIGTRLSRLIASPVRSLTSL
+YWFSVQTIGGTLVVLSLLKKAVGVEFPLIPIAVSLALIMTILALIGFEAVKKATKLFMPF
+LLIGQAAILIIFINTSANGSGINVLFSGEGFSIGAFVFFASLAFVQYVSGVSASSDITRY
+AKSGKQGFWGLFAGNVFGFFMTALLGTFSAALFNNLNPFVAATEQTGSVLLTILIGICAM
+VSMISINLSNAYTGGFSLLNAIPSLGRVKSALVFGAAGIILSCFPALVNNAKDYISLLGA
+FVIPLSAVIVADFLYIKKARIPDKDLERLASGTFQYNQKAIYTLAVALFIYFLIPEGWSP
+GFISFLLTFMMYSFISKQSSKNNVNDYKKSRHA
+>tr|A6CKP3|A6CKP3_9BACI
+MEHHGAALHLVTRDDHLVEGLKSDYRKLELDNKTKAMFDYAVKLTKKPHSVEDADIETLR
+ENGCSDDEILDVCQITSYFNFVNRMAEGLGVKLEDQ
+>tr|A6CM62|A6CM62_9BACI
+LKDEVLSRRTFAIISHPDAGKTTLTEQLLLFGGAIRAAGTVKGKKTGKFATSDWMEIEKQ
+RGISVTSSVMAFDYDGYRVNILDTPGHQDFSEDTYRTLMAVDSAVMIIDSAKGIEAQTIK
+LFKVCRMRGIPIFTFINKLDRQGREPLEILEELEEVLGIESYPMNWPIGMGKEFLGIYDR
+HYNRIEQFRVEDEERFLPLDENGELMGDEKLKSSGLYQQALEDVQLLNEAGNDFSKEKVA
+NGTLTPVFFGSALTNFGVQTFLETYLQFAPSPQPRKADVGSVDPVKEEFSGFIFKIQANM
+NPAHRDRIAFVRICSGKFERGMNVTLARTGKSIKLSQSTQFLADDRSTVNEAVSGDIIGL
+YDTGTYQIGDTLVEGKEVIQYEKLPQFTPELFMRVTAKNVMKQKHFHKGINQLVQEGAIQ
+LYKTLRTEDIIIGAVGQLQYEVFEHRMKNEYNVDVIMENIGGKIARWIENETDVKDSMSS
+SRSLLVKDRHGRLVFLFENDFAMRWFQDKNPDIKLYSLL
+>tr|A6CRH2|A6CRH2_9BACI
+MMNAANTKYVEVEPGIELFVQESGTGEPLVFIPVFTFTKDVFSEQVQHFSKTHRTIVIDP
+KSHGRSTVTVHGNDYVTHGTGLQTVLAELKVVNPDLVGWSFGCLTVWEYIRQYGTDQIKS
+LVLIDMPPKSLLVQQDQDWVEGPLDDLAAAYTNYLRNPKGQREFISAYAAGVMVQRELKE
+KELTWIVE
+>tr|A6CI45|A6CI45_9BACI
+MDKTGCSYPDLETERLLLRNVTPGDEDFIFKLYSNQEVCRYLYDEEIYSSREEAKEFIKW
+NQNPEDKGNNRWIIFRKSDGEPLGTCGFDSWDSVNNIAEIGYDLWIDFWGKGYMKEALIT
+AIDSGFHNLSLNRINAYIAIGNKKSFKLLESLGFVKEGIYREKHLYRGKYYDHFSYSLLK
+RDWSDLKEGEYETR
+>tr|A6CLZ0|A6CLZ0_9BACI
+MKSGETYKKKIVNVRHVYELWIGQKADLFFYGKK
+>tr|A6CMZ6|A6CMZ6_9BACI
+CAMSNWQEIDTYVKHWIKEAGERIRQSFKTQLNIQTKSNRNDLVTNVDQETEQFFIERIR
+NIYPDHHILGEEGFGDELKDMKGTIWIIDPIDGTMNFVHQQRNFAISIGIYHDGEGMLGY
+IYDVVHDELYHGRKGHGAYMNDLELPPLQEVDVRDSIIGVNALWVTDNNRINKEVLGPLV
+RDVRGTRSYGSAAMEMAYVASGRIDGYMTMRLAPWDFAAGKILIEEVGGVVTSLDGKELD
+MLQKSSVFSCKPGLHENISKTYLKDVSIKKI
+>tr|A6CMJ4|A6CMJ4_9BACI
+MKGIEVKTVQYRKEVNMNFLERIEAALLSDDPYIQHYAVSILQDSHLATPSTLFIALEAY
+DRKLPTIFPSTILPHIDFLPVDEDGVLELISRLENDKRNKGWYLNLLKNAETSVLLKYGD
+QLSAYLDAEFLKELRSLPELDEEGLFMKLASVANDLDNGMPSHTLFQLGKRIVKEMIDRG
+IIEDWEVENALSEISEYSFTTFIGMFQIYMAGELHTESVIPELIKLLNRDDSDEALEEIS
+SALIKIGTDEVVLEAEKIALIEDSFIYTLDVLAKIKSTEAEKALMRLWNKTEDITIKTII
+ADALCQHLSVEAIPLLEKQMEEGYDSLMADLEESFYANLVLNGIAHPALYEMRKNLTERE
+KRIRDAFSPTVKEDKVGRNDPCPCGSGKKYKKCCL
+>tr|A6CPG8|A6CPG8_9BACI
+MIDRENLFSGTASYYAKYRLPYPSKVFEEIITEYQTGGSGNMLDLGCGTGEVIVPLAGYF
+DKAYGIDINAEMLEKARERAEEAGLTNVVWKQASAEMIEDSDLQYDLVTAGNSFHWMDRE
+MVLRMSYNVLTDNGGMVILAGGSVWNGESEWQNKTVDVIQRYLGVTRRAGSSTYKEEKPH
+EEVISASPFTLTKMFDVVSEHTRSIDEILGYLFSTSFCKASLFGSKVDEFKAELTKELLL
+LNPEGIFKERMETTCFFLRK
+>tr|A6CR89|A6CR89_9BACI
+MGGIFLLVHILKVVLSVLSGYLFIKWFPVNELVSVSDLIVELVLSPVMFFASSIAFMAGF
+LISADLIKKETTMILELFHGGYSAEILFIPVHIVGFYVLSTISLWQTLLLLSLALVYGMI
+SVDFSGISRRA
+>tr|A6CTV9|A6CTV9_9BACI
+MEKNLRKAWQNRTPVTIIYKNEQDVFTKRTILITKIENEYIHAYCYLRQQFRTFRMHNIL
+SALPATIYYGQHLSYL
+>tr|A6CUB1|A6CUB1_9BACI
+GVENSYRSSDEINQLDWQRRTLYQDKVEYIKGLIAIRKAHGAFRFSTPNLIRKHVHTDYS
+MPGTVTLHFQHVKAYGPWNELFVVFHAGGEAISVSLPEGETSWKLISDGNKAGLETLEVM
+KDNRLKAGPVSCYVCCR
+>tr|A6CT36|A6CT36_9BACI
+MENFKQNLEKYADLAVKVGVNVQKGQTLVVNASLDAAEFVRLVVKKAYETGAKHVYVNWN
+DDTVNLYKYDLAPDEAFTEFPEWKAKEMETLAENGAAFMSIVSASPDLLKGVNPERISNF
+QKAAGKAMDKYRSYIQSDKVSWSVLAAPSEKWAAKVFPDEPAEEQVDKLWDAIFKAVRAD
+QQDPVQAWKDHDQNLHEKVDYLNSKKYKKLHYTAPGTDLTIEFPEGYMWVGAGSVSEKGV
+NFMANMPTEEVFTVPLKTGVNGTVSSTKPLSYGGNVIDNFKLTFKEGRIVEVQAEEGEDI
+LKRLVETDEGSHYLGEVALVPHQSPISQSNILFYNTLFDENASNHLAIGSAYAFCVEGGK
+NMSKDELEKAGLNNSITHVDFMIGSAEMNIDGITEDGKTEPVFRNGNWAF
+>tr|A6CM30|A6CM30_9BACI
+MLCQKCHENTAHVNLHFNVNGHKKSLFLCHQCYTREKAAINSANSNPLHNLFGGNGAGEN
+QQASHNSSYQKDSEEKSFLEQYGRNLTHLAKADLIDPVIGRDDELDRMIEVLNRRNKNNP
+VLIGEPGVGKTAIAEGLAIKIAKGEVPSKLLNKEVYLLDVASLVANTGIRGQFEERIKTL
+IEELQSRKNILLFIDEIHLIVGAGSAEGSMDAGNILKPALARGELQLIGATTLKEYRQIE
+KDAALERRFQPIQVKEPSEQAAIEILKGLQKKYEAYHEVKYSDEAIENCVILSKRYIQDR
+FLPDKAIDLLDEAGSHVNLRNGHQNQDEARNRLAQIALEKEAALAEENYERAAKLRDEEV
+NLEKALESQEDKELPVVNPQLIHELVEKKTGIPVGKLQEDEQKKMNELQSNLNSQVIGQD
+EAVKTVSKAIRRSRAGLKNRNRPIGSFLFIGPTGVGKTELSKTLAQELFGTAEAMIRLDM
+SEYMEKHSISKLIGSPPGYVGHEEAGQLSEKVRRNPYSIILLDEIEKAHPDVQHMFLQIL
+EDGRLTDSQGRTVSFKDSVIIMTSNAGVGFKEKHVGFTSHTMKETSILDNLKDYFKPEFL
+NRFDNIVEFNSLGTNELKKIIDILLNELYSVLEEQEIKLIVTDEVKDKLVADGYHPDFGA
+RPLRRIIQEKLEDTIADFILDYPDKKEMTAVIEEEEIVIK
+>tr|A6CPK4|A6CPK4_9BACI
+MTANVEACSAQDNFQSAASKMSSLGVGALPVVQNGQVVGMVTDRDLVVRGLSHNNAAGTI
+QGVMSNHVVTVSPNASVEEAAALMSQHQVRRLPVVENGNLVGMLALGDLAVQQQSDQKAG
+AALSEISEKDHLH
+>tr|A6CNL8|A6CNL8_9BACI
+MSLSSYSTKGVFAEQAAALCSSKGADSEKNKRKIYKLIYF
+>tr|A6CIS0|A6CIS0_9BACI
+MGGDKMEEKMMILLTEMNQEMKGLRRDLSSLKDETSSFRNDVNHRFIGMDTRLDGMDQRF
+DGIDQRFDGMDRRFNGMDRRFDDMDQRFDKVDAKLDGVGLQFEQTYESIMEDVDFVTTKV
+NKLEKEIFIIKSKNNI
+>tr|A6CKG7|A6CKG7_9BACI
+MLNKWLPFVQGAGLLNKGLLRKVKEKD
+>tr|A6CNQ1|A6CNQ1_9BACI
+MSGSEIRRSMPLFPMGIVMQLTDLTARQVRYYEENELIFPARTEGKRRLFSLNDIDKLLE
+IKDLLDQGINMAGIKKIFAVQEEQQDIKANKQQEVKVKPDLTDEELRKILRNELLHAGRF
+NKSSLRQGDLSRFFH
+>tr|A6CQT4|A6CQT4_9BACI
+MWKKTAIAAMTALLLTACSSDNEATETNDNTTENNTEQNDSVDKDTNEESAESPYQFPLT
+GLGTDEAANQRAVAVVVNNHPKARPQSGLDKADIVYEVLAEGNVTRFIALFQSEQPEKVG
+PVRSARDYFIELGQGYNSFFVAHGYSPEAKALLTGGTVDNINGMEYDGSLFKRADFRVAP
+HNSYISFENVKKGAEKVGAEMDTPPEPLDFGKSEEVSGEDAISVKVSYYDHPSFSPVYEY
+NQETEKYSRISAGEKTADYETDEPVLLDNIFIVEAQHEVVDDAGRREIDLASGGNAYLLQ
+HGKLLKVQWENKNGRIVPA
+>tr|A6CM95|A6CM95_9BACI
+MFGYTWTQTIPYISLVFSALALLISFWKFFFDMVDRRRRIKKEKEEQIEALKAKVLVEVQ
+KPYLIISNNSDNPANIGKILIDDLGWDQSGLFIVDEPSSIGKRQTRQFKMAASANTPYPT
+SVTIKYADEYSRKHMQGMHEEEFEV
+>tr|A6CRN5|A6CRN5_9BACI
+MNDPRFLFRNPQYGSRFGFGFGLPFLGGLLGGVIGGALVRPPYYYRPPYYGYGYGYGYPY
+PYPYQGYKPYPYY
+>tr|A6CHM9|A6CHM9_9BACI
+MKEMKQIRFYSREMNGDELTPISVFKKLDGRRKYLLESSLKHEKSGRYSFLGSSPFFEFK
+ADGSKLTEYHFHTEKMETSTGNPFERLKDIFSETASLNQDFPFSGGAIGYIGYDNIRHFE
+DIGEIPANALEMPDIHLMFYEKTIIFDHLENKVILLVVQGFDQTSEQDPEDMLDELEETI
+RKKGTIQDDGEIGKLSFQSQVTKDQYIAMVNEAKEQVLAGEIFQVVLSQRFKSEFSGEPF
+SYYRKLRQSNPSPYMFYIDFEDYVVLGTSPESFIKVSGRKVISNPIAGTRRRGLDEQEDS
+GLEKELVHDEKEIAEHRMLVDLARNDLGRVCEIGSISLTKYMLVERYKYVMHLVSEVEGT
+LDPSYNSIDVITACLPAGTVSGAPKIAAMKIINDLEGCKRGVYSGTVGYISVNGDIDLAL
+AIRTMVIKDASAYVQAGAGIVYDSKADSEYEETINKAKALIEVAK
+>tr|A6CTA8|A6CTA8_9BACI
+MYFHIALVEFTKKCDSRLISKGPNTFVKAVLKSSVDFLSILMNRFPLQAHDSAGRAVSLL
+GFACGISPVPLVPQEVARLPLQSNSIAPLELYNSSVFIPKYQDYQLTKPL
+>tr|A6CND9|A6CND9_9BACI
+MSFTIYPAIDMRGGKCVRLLQGDYSKETVYGDSPFDMAKRFVDEGAQWIHMVDLDGAKEG
+SRVNDKFVIAVANELGAKVQIGGGIRSEEDIEYYLNNGVQRVIIGSLAVSQTELVKSWLA
+KYGDRIAIGLDAKDGFVATHGWIETSQLKAVDLGVELAQAGAETFIFTDIATDGMLSGPN
+VEAVAELAKATGKEVIASGGVSSMDDLRLLKEYEGKGVAGAIVGKAIYTGKVSVEDAVKE
+VSSC
+>tr|A6CR61|A6CR61_9BACI
+MKSIIGLTGGIASGKSTVSKLLIQKGFTVVDADAAARKAVAPGEPALEKIIEVFGEVILN
+PDGTLNRSALGDIIFTSEERRKELNGIVHPAVRAQMLAEKDQAFESGKQTVIMDIPLLFE
+SNLTWMVDRTIVVYVDRETQLKRLMKRNSLTVEEATARIQSQMPLQEKKNLAQAVLDNTG
+TIENTLEQLDELIVRWNLLP
+>tr|A6CII7|A6CII7_9BACI
+MKKGIFVMIISAIIVLFIVVNGYRFTPESAAESSAGLSKDFELIDTHEVYSDTVMLYKSD
+EQKEYRTVLASKSGWLYKGYTSTYVSYNSDPVRLVGGMSVTTENNALTYMSILSMDENVS
+YIEAGIEPYVRRQEVSKGERISFLFPFSEQLENLNPVAYDANGNKLYYFGYPKNTNEFSD
+KDYKWHEF
+>tr|A6CJA4|A6CJA4_9BACI
+MYRKGDMPSVLSYKRIEYEAKPERPDPLFAKKLQEILGGQFGEISVAMQYLFQGWNVRGN
+GKYKDLLMDTGAEELAHIEMLATMIARLLDGAPVGDLEVAAQDPVIGAVLGGMNPQHAIV
+SGLGAMPVDSVGNRWTAHYVGASGNLLADFRANLNAESQGRLQAVRLYETTTDRGVKDML
+SWLIARDTMHQNQWIAAIKELEAKENVVVPSTFPKELEKQEVSYTLFNLSRGNKSAAGRW
+ASGPSMDGLGTFNYVEHPVPFGQKPSLSPAPPYIHDTLPSVLKSDMVPPSMC
+>tr|A6CP87|A6CP87_9BACI
+MNFHTYEEWSNIIHFPDIMITIAVVVGVLLARSLILWAARQLSRFYEVARSLVNWVSFYG
+ILLFLLNYYSDSQWMFVVLFTTGQMKVTLFLIVMAILIISLASRISKVMTKAILPAMYNR
+YNLNKGLRFTFDRIAHYTIMVLAIIISLTTVGIDLSALTVFAGIISVGIGFGLQNIASNF
+ISGIILLFERPIKVGDRVIVDDVIGDVEKINMRATVIKTLDNEHIIVPNSYFLEEKVVNR
+SFSDPRLRLVLPVGVAYGTDAEKVRELLLQVAKEESEASVTVLDTPEPFVNFVGFGESSL
+DFELFLWISDPNQLVVIKSNVNFRINRILSENNIEIPFPQRDLHIRSIDI
+>tr|A6CLB6|A6CLB6_9BACI
+MNERRNLYFYTLKDKETLQQAEELSRLAEEYGFNVVKNEKEANIIVSIGGDGAFLQAVRT
+TGFRQDCLYAGISTTGSLSMYCDFHIDDTDKMIKAMTEEEIEVRRYPTIDVTIDDQATFK
+CLNEFSIRSGIIKTFVIEVHIDDLHFETFRGDGMVIATPTGSTAYNKSVNGAVVDPMLPC
+LQVSELASLNNNRYRTLGSSFILSGDRKLKLEVVQDGNDYPSMGMDNEAVGIQHVKQVVF
+GLSEDKIKTVKLKDNSFWEKVKRTFL
+>tr|A6CHM4|A6CHM4_9BACI
+MHIDLNCDLGESFGTYSKGNDEKILEIITSANIACGFHAGDPQIMLKTVQLALKNGVKIG
+AHPGYPDLQGFGRRNIDISPEEIYSLVLYQIGALNAIVRSQGGQLSHVKPHGALYNRAAK
+EIETAKAIAKAIHDFDPSLTLFGLANSKMITAGKELGLETASEVFADRTYRSDGTLTPRS
+QEGAVIHDDDQALAQVVKMVKEHKVVSTDGTEIDITPDTICLHGDNEQALIFAGKIIKIL
+K
+>tr|A6CPE8|A6CPE8_9BACI
+MDAAELLLRVGITFSGLFIVARISGRKEISQMTYFNLISAIALGSIGGAIVSSANFSIRN
+ALLALGSWLILTLLFGYMDIKSKSARKIIEGEPIIVIKQGKIMEKSLKRTQLDVDALLVK
+LREKSIFSVSDVDFSIFETDGKLSVLKKQAQQSLTKKDMNIPFKTKIFPLTTEVIANGTV
+IENNLKKLNLQEEWLQQQLRQNGIGSVSEVFYAEVKQDGTLYIDTRNDNMTH
+>tr|A6CSW4|A6CSW4_9BACI
+MDLYDIVVPQDNMLRRIVDLIDFTFIFEELKDKYCHDNGRNAIDPIRMFKYLFLKTIHDV
+SDVDIVERSKYDMSFKYFLNMAPEEAVIDSSSLTKFRKLRLKDMNFLDMLVNKTVEIAIE
+KEIIKSKSIIVDATHTKARYNQMKPKEILMERSKNLRKSIYKVNDGMKDKFPVKPNNDVL
+EDEIAYSPGSFIEVIEKEETLLEYPKVKEQLNLLKETVADDIEQLQSMNDQDAKVGHKTA
+DSSFFGYKTHLAMSEERIITAATITTGEKSDGKELQTLIEKSKTAGMKIETVIGDAAYSE
+KDNIEYSKGNGIKLVSRLNPLITQGARKKEDEFEFNKDAGMYVCKAGHMAIRKARQGKKG
+LGRNQVDTYYFDVDKCKRCPLREGCYKGGAKSKTYSVSIKSDQHSDQAKFQESDFFKEKA
+KERYKIEAKNSELKHRHGYNVAESSGLIGMELQGAMAIFAVNIKRILKLMG
+>tr|A6CIL4|A6CIL4_9BACI
+MGVLKTEDNRNITLTATELSELWKNYIGETLLDCVYTHFKTNTNDERIKELLEKAHNMTQ
+KHITKLKEIFDKDEFVLPNGFGDKDVIRDAPPLFTDKFYLFYLKEVSRINLIQFSNALTV
+SFREDIREYFDECIDDTSEIHQDVMNSMLTKGMVIRAPYIPIPKTVEFIESNKFLNNFFG
+KERPISATEIMGVYVNLDSNQFGKSLMIGFSQVIESEEIKKYMLEGRDLAQKNVKALQDM
+LTKDHLPAPQLWDPEVLESKAAPFSEKLMLYHIALANVGSVLNYGVGFTSTYRYDLATDF
+LRLVSEIAKFSNKGVKLLIEKGWLEQPPLAADRDKLAK
+>tr|A6CK43|A6CK43_9BACI
+MATADLKSIKLKMVFDNGVDSEGKPQYSNKTYSNINYASPPDEILQAADALAGLSVRPLV
+LLEKNDSFDINA
+>tr|A6CJY2|A6CJY2_9BACI
+MNKREVDEFLKPLKNRPDINPREEFKQELRNELFEKKTGMNKRPFVHWIPNLVAAALLVM
+GIYIGTDLIISDNTQDEVTPAQHLDPSQSVMIPDITEGEAREVVGTAFAHYSVIVNGGDP
+ETGEVFQHDGMEYRFLGEDFSTEEEVMSYLQEKYTVRAAVMIYNEIPFIVLKEKLAQPNK
+YVSGNLLWADGEVLQLREEGEKTRLVTYKVPVEKSDQYQTFEVTLQYENGWKLDEQLPFT
+HGDNMEGTPQTKDGASEKEFTLTDEEQEIYEKFLLDFNEEHLRSLDPISIAKLYIYADAE
+NNQEAVYELYTDKEGHVQWTKEEHIQMFETRERSAEEILDAYNGLPDGEFLEDEDGESGY
+IKFYNANGMMGFQMIKDEDGIWNVSYMPIQ
+>tr|A6CPL4|A6CPL4_9BACI
+MRVEFKPEITYKRASNWCVSWVQTQNHLQKSKQLAGKSLKIQSHLQKSPKMAGRAEEQQH
+KQLFIQNIRNYVMLQNLSKYHS
+>tr|A6CRN9|A6CRN9_9BACI
+MPWSKNDYPASWKNLSSDVRNKAVEIGNALLREGYEEGRAIAIATDRAEKYVDGDSEDRP
+EYHVESNGDGWELTKEGSNKAIYKEDTKKDLLDKAKSYVNEHDGILVIHNGDGEVADRLY
+DN
+>tr|A6CSM9|A6CSM9_9BACI
+MSSEMSIPVYELDNVVWRRGANGDIRNSPEDRDNEFNRLIDQTDWIIEGVHHTWTTSGFE
+KADIIIFLDTPMAVRNWRILKRFTVQKLGFEKGNYRQTWDMLRRMYKWNYQFEKVSKPEI
+LEILKPHRKKLKILGDNNRIKEFTQ
+>tr|A6CST6|A6CST6_9BACI
+MVGGIVTGISGLILRWNEFEPWFRDFDLGRIISVLLWLIVVGFTFSVISQMGFFAYLTIH
+QFGLGMFRSYWKMVQIVITLFVLFDLVYFRFDGFTVNGQIRYSYIILFLLIVLTGLIVAY
+LKNKQSGQNTFVSAIFFMVVVTVLEWLPVLQAKESKWLFLMLFALLACNAYQLLALPKYN
+KRSEEERKAKK
+>tr|A6CIU7|A6CIU7_9BACI
+MSKQKQKKPFYKRWWVWVLAIFIIGATVNGNDSDTADADKDENRPAEAETASVEPKEEEA
+EPKEETEKEEPKEEAKVEDNVPTDHKSALKKAEVYAETMNMSKKGIFEQLTSEYGEKFSE
+EAANYAMHNLEFDWKENALKKAESYSETMHMSKQGIYEQLISEHGEKFTEEEAQYAIDNL
+EADFKKNALEKARNYQETMSMSPEAIRDQLTSEYGEKFTQEEADYAIESLN
+>tr|A6CK92|A6CK92_9BACI
+MEDEVEDFVISTENVDEEVALQAGPQLVVPVNNARYAINAANARWGSLYDALYGTDAISE
+DGGCERSRSYNPKRGEKVIAFAKQFLDDTIPLTDGSHKEVIQYRIAVNKLQAHLEDGRIV
+ELMDPLKVVGYSGIPEDPSGVLFKNNNLHFEIQLDRGHPIGKRDNAGVKDIVMESAVTTI
+MDCEDSVAAVDAEDKVEVYRNWLGLMTGTLTATFKKGGKTVTRSLNPDLTYTSLSGSMFS
+LRGRSLLFVRNVGHLMTTNVVLDSNGEEIPEGILDGVITSLIAKHELLQEGGFKNSSKGS
+VYIVKPKMHGSKEVGFADKLFNRIEDMLGLERYTLKIGVMDEERRTSLNLKNCINEVKNR
+VVFINTGFLDRTGDEIHTSMEAGIMCRKNDMKTTSWLQAYERANVAAGLAAGLKGKAQIG
+KGMWAMPDRMAEMLQQKIGHLKTGANTAWVPSPTAATLHALHYHEVNVAEIQQGLEKGSH
+NNHDDMLVLPVVEKPTWSKEEIQQELDNNIQGILGYVVRWVNQGIGCSKVPDINNIGLME
+DRATLRISSQHVANWLHHGVCTYEQVKETLERMAKVVDEQNEGDPDYQRMSPDYECSAAF
+QAASDLIFEGYQQPNGYTEPILHKRRLEVKGNAGKLVN
+>tr|A6CMG1|A6CMG1_9BACI
+MLFMKAREMFEQDAKRVEKNGEELSANRVYRSKPSPMGFKKK
+>tr|A6CM49|A6CM49_9BACI
+MKKGIVMEVKPNTIIMMTPEGEFIKTRKQPSVQYEIGEELTLFPQMEETKTTIFQRLREN
+LHVKPVLSGAAVLLMLLFLLLPSLNEPEVYAYVSVDINPSFEMSINQDQEVMDLKPFNAE
+AEKILERMPEWEGNSIIEVTDEIIELSSKNGYMDDQKKVTVTTIFTEEAETKARKSIENE
+LKQLTTEKLKEGTADIAVVETSIEVRDEAKAAGMTAGQLIQKNEKTEKKQAVEKDAKDDS
+SPSQNPVASKKEKRKEKSKEIPVTDKRPQHVKQKQAVKPDNSTANRNGHDNDTNEKKEKE
+NNGKGNGQNPPAIEKKASMTEKDRGSGHSNGDKKQEKPPKERNGKDKKEKSQKPDNDKEK
+GNGN
+>tr|A6CM57|A6CM57_9BACI
+MRKLLKDMKEEKEREKCHEEVSQGHEKRKREGKVS
+>tr|A6CIK5|A6CIK5_9BACI
+MAPHIITIIYGSMFLKMRSITGDRFAPLNVSFYRGEGWLRYAKGVEFRNCPEMRRLIVKL
+DQ
+>tr|A6CPJ9|A6CPJ9_9BACI
+MLSNPILIFFKLITENFSPIWPIFLDISSIREIYSFIIEAHGLVLFLALASMLDVTRNKK
+IRACFEERIIVNLFL
+>tr|A6CR15|A6CR15_9BACI
+MQTNQSLLIQPQWRIIDQSSLGPIFEALQSFAIDDTLCTSVGAGNSPATARAWVHHNTIV
+LGIQDTKLPALEDGLKVLEELGYRYIVRNSGGLAVVLDEGVLNLSLVFPDSEKGIDINRG
+YDAMLQLTEDMFKDFPVKIEAKEIINSYCPGSYDLSINGQKFAGISQRRIRNGVAVQIYL
+CVTGSGSERAKVIRDFYNAGKREESKKFIFPEIEPDCMASLSELLGVSLTIQDTMLRFLQ
+SLKNFSGRIYASQLEGDEIPLYESYFDRVHQRNEKVLKG
+>tr|A6CL46|A6CL46_9BACI
+MKWHHAGIEVSSLEKSVPFYEEYFQFEVQSCLMLGEEKIIFMSRGSVVVELIENPESQAR
+SSSLHFAWEVEDLSWWIERLENCGLQPIEGPYQLDSGMTVIFYKGPDGEVIELVSQ
+>tr|A6CLT6|A6CLT6_9BACI
+MSKYIEMIRIRFLMMLAYRTNYYSGILIYSINIGAYYFLWQAIYGGKEDIEGLSVIQMTT
+YIAVAWMARAFYFNNIDREIAAEIKEGKVAVELIRPYSYLGMKTMQGLGEGIFRLLFFSV
+PGMFIVALVFPIEVSANASTWLFFGLSIIFSFMINTQINLLTGITTFFLFNNDGLIRAKR
+VVIDLFSGLLLPISFFPVWAQATMKFLPFQSISYVPSMIFTEGYTGFQVYEALGLQIVWV
+LVLLVPIGALWQIAKKQLIIQGG
+>tr|A6CQU3|A6CQU3_9BACI
+MKFAVIVFPGSNCDIDMYHAIKDEIGEEVEYVWHDADNLEDYDAILLPGGFSYGDYLRCG
+SIARFSNVMGEVVKAAEAGKPVLGVCNGFQILLEAGLLPGALLRNDGLKFICRTLPLKVE
+NNNTMFTGGYESGEIMNIPVAHGEGNYYCDQETLEELKTNNQIVFTYAGSNPNGSLADIA
+GITNKAGNVLGMMPHPERAMDELLGSADGRKLFQSIVKHWRERHAVNA
+>tr|A6CHU6|A6CHU6_9BACI
+MIDIDLLWIPDIVEKAFSKAEILGKMEKGDKTFIEVYLRTPPAFLSAAVDKEYSILMENK
+DAWSRIEVGTFYHIRFGLHKDGDLILQEKNIAEEQDW
+>tr|A6CKK7|A6CKK7_9BACI
+MLEIIAGMNILDKEKLNIEHYIAQSFIGSDLTMARNKLVVPGSEKVLNQMKEEIANEFGV
+TLGADTTARANGSVGGEMTKRLVALAEQTLAEGQNK
+>tr|A6CRC3|A6CRC3_9BACI
+MNNKRWAADLSLLTVALVWGATFVIIQNAISFMPPFAFNAVRFFLGGVSLLALLLLKEKG
+RIRISSNSLLPGIFLGSFLFLGYAFQTFGLLYTTPAKAGFITGLSVVLVPFLALLIMKQK
+PLAASVAGALSAALGLFLLAAGHTQAVNFGDLLVMICAFGFAFHIIFTDKYTKVTSALHL
+TIVQILTVAALSFVSTLLFEDWQSALAPSILFQTEVISALLVTALLATSAAYLIQTAAQK
+YTTPARVAVILTMEPVFAALFSYMWIGEELTSLAITGCLFIFVGMLMTELPQLFKLILNK
+HSSAN
+>tr|A6CT66|A6CT66_9BACI
+MQQLIRKQLYLKLADRTGVKVMSHEEINDQLRVRREKMENLRQKGLDPFGKRFDRSHTSQ
+EIKEQFDSFTKEELEEKEASITIAGRIMTKRGKGKAGFAHIQDLAGPNPDLRAQRCCR
+>tr|A6CJA6|A6CJA6_9BACI
+MIIRKASISDASGIAKVQVDTWKTTYKGLVPDDYLDAMTYESREQKWDMILKEGTAYVAE
+DKGRIIGFSSGGMERTQKYPEFKGELYAIYILEEYQRKGWGKKLIKPVVNDLLQKQIDSM
+TVTVLEDNPSRLFYESLGAVRLDSVEVEMAGVKLPERVYGWKDIKKILFTSE
+>tr|A6CSR3|A6CSR3_9BACI
+MLRGFYTVASGMLSQQRKTEMLSNNLSNANTPGYKADRSSMKAFPEMLLALQGQQQNIPT
+QNGLSLPISRQVGGLNSGVYMQETIPAFMQGDLQETERLTDIALVDGNIPADPETGLPGG
+VFFTLEGADGAPRYTRNGNFTLDGQGYLTSASGLYVLDTEGQRIQLPSDNFKIAEDGRIL
+VDEVETGRLGTGFTVNANRLAKEGDGLFRTEDNEPLADAYNSGATFNMQQGFIERSNVDT
+ARTMTDMMTAYRAFEANQKILQAYDRSMEKAVNEIGRVNG
+>tr|A6CN48|A6CN48_9BACI
+MTSFISWVAAAFTLVPFLGYFAAFIVMKQISGNHRKAVNAAVDITTFLLFFSVHFIIVAI
+WDRSLLWLLTLVLLIGTGLLSVIHWKVKEEIEFRKVLKGGWRLGFLLFSTAYVVLLFYGI
+ASRIASTF
+>tr|A6CPQ8|A6CPQ8_9BACI
+TYQWAEINDDYKEFNFNFESLTKIRSQLPVEKHYNLHDY
+>tr|A6CU20|A6CU20_9BACI
+MQEYRMNPYFILVIGVISVSTSAILVKVSSADAGVIAFYRLLFTILLMSPVFLIKYRKEL
+KKITLKDWGYAVAAGFFLAFHFILWFESLNYTSVASSTVLVTLQPLFAFLGTYLFFKEKF
+SKSALLSAALAISGSVVISWGDFRISGMALWGDLLALMACALVTAYLLFGQNVRKRLSLV
+TYTFIVYLMSTIVLFLYVLIKGEKLGPYPGEEWIYFLLLAIIPTLLGHTLFNWSLKWLST
+STISMAILFEPIGASVLAYFLLGEAVIMSQVIGGGIILLGIFLFVKEERKIRKLTALQVK
+GG
+>tr|A6CJ10|A6CJ10_9BACI
+MHSKVKRILTYVGYCIISTLFVFATGFNGERVENQQELTNAFPMETGFPLNFAELRYPRI
+DPPLPWNYGGNCCSLFITSQTNFWLSVIIVFIFLIVITEIVIRLIKKFSPN
+>tr|A6CQY5|A6CQY5_9BACI
+MNDFEKNVQSKRNDAVDSGVGFIVSFGFFAIMFIMAVVIKYIGA
+>tr|A6CKW4|A6CKW4_9BACI
+MCSGKIIRKENEPFIGIYHMLIVSKHIMMVRWLTMREFNPEKLSVIYHPPSSVFHPMDGR
+KYTMTHSDVTGELFLSIGCHYDLEKLNPKMRDEVLAEWTRVMGQYTLSGTVYVSGGEFDE
+NMAKVRYMIFKKELPLALSAIVNGDRGFFTYFPWLLDAPIYVRFESVFPEFHQVLFFGTP
+RQYLIK
+>tr|A6CTW7|A6CTW7_9BACI
+MLLKKQTVWLLTMLSLVIVLSVYYITSPTQQAADMTKMEEGTPAQVEGKSGGDEEAAADG
+EVDIVTEAAGDEVFETLRMEFMDQRSKSREDLETKLASADISIEEKNEAIEQMDQLKELA
+TTETVLETLIKSMGYEDALVRADGEQVRVTVKAKEHSPGEANKIIRLVTDEIGAMQKVAV
+QFQPAN
+>tr|A6CUI7|A6CUI7_9BACI
+MKKTEDNSAQEQEKSNEEKVVYRAILSVSTGMTSIDVGNALEKAKIIDDGMDFYKEVEKR
+GLENELRPGTFEFESGMSMEKIISIIFE
+>tr|A6CNB1|A6CNB1_9BACI
+MIKKLFALLVVLFTIGMTAACGFSVKQGENSGTEEVGSSPQGDEENTEGAGNGSEGDGEN
+TEEDRGQGIVAGEIEPSITKNESGQFVYTIKNQTEKEVTFEFTSSQRYDYAIKNASGETV
+FLYSSVAAFMQVMGTETLAQGEERSYTIELPPAQDFEGGNMLEVWLTPKGGKTAPVSIKL
+NTKS
+>tr|A6CKF8|A6CKF8_9BACI
+MSITDKESKVCIRIGNFDDAESILDIQRDVITENKYLISLPEEFDKTLDHQRTRIQRILE
+NKRETLIVAEKDEKVIGFIVFESPNRKRLSHTGSFETMIHRDYRGIGIGKMLISELLTWA
+RENPLIEKVSLGVFSTNKRAISLYKSMGFEEEGRKNKEIKIGEKEYADDILMYKFV
+>tr|A6CNG8|A6CNG8_9BACI
+MLQELSIKNFAIIDELTVSIEEGLTVLTGETGAGKSIIIDAVHLLVGGRGSSEFVRHGEK
+KAEIEGLFTLEKETHPCYKKAAEFGIEIEEGMIVLRRDISSQGKSVCRINGKLVTIAVLR
+EVGSTLIDIHGQHEHQELMNESLHLTLLDQFASNELKSSMQNYKEVFKEFETVQSRLKKY
+NENEQEMAHRLDLIQFQLSEIEKAALQPGEDEALLEEKNKLMNFEKLFDSLQNCYNSIQG
+EGRGLDWAGLAMSHIEGAAGVDSKYDSLLETISNSFYLLEEAAGAVRSELDELEFEPDRL
+NTIESRLNEINTLKRKYGSSIEEVLEYSVKIEEELETVTNKDALIHELEKKLKSLEKDLY
+LEAEQLSVIRKKAAKKLTARIHEQLKELYMDKTTFEVRFVQEPSKTNSFKYRKDGADQIE
+FYISTNPGEPLKPLSKVASGGELSRVMLALKTIFSKHQGITSIIFDEVDTGVSGRVAQAI
+AEKIYQVSINSQVMCISHLPQVAAMADSHLYIAKKSLGGRTSTSVTALKQEEKIREIGRM
+ISGVEFTELTREHAKELLGLADSIKNK
+>tr|A6CSB1|A6CSB1_9BACI
+MIVKRGDVYFADLSPVVGSEQGGVRPVLVIQNDIGNRFSPTVIVAAITAQIQKAKLPTHV
+EIDAKRYGFERDSVILLEQIRTIDKQRLTDKITHLDDEMMEKVDDALQISVGLIQF
+>tr|A6CM48|A6CM48_9BACI
+MARNSNKLLVPGVEQFMDQVKYEIAQEFGVTLGSDTVSRANGSVGGEITKRLVKQAQTQL
+KGK
+>tr|A6CKF5|A6CKF5_9BACI
+MTVHFDEVLMLLKDKMLVLKNYSGYNFFIVRDVFGRISVYIEGEQVDNNLIDFVRNILKD
+TLGMGWVHNIEKVESNSNLLVQLNKSCDLIEDTSNIYFGERHLTRLNWFSKEKGKFIRSD
+LSSKVVTFYSYKGGLGRTTSLVLTALQLVRAGKKVVVVDFDLEAPGLSSLLIPDNNQYSN
+YGLVDYLLESPIYNNVENKLDIDEYVYPILNKELTGSAGGKLYVVPAANANEDNSDSYLE
+KMGRIDFNTPNYSNENNPISKLLSQLNERYKPDFIFLDSRTGIHEVGGLTLTQFTDISFL
+LFYGNKQNMSGMKMVLPKVIEANIPFFLINSPVPNSEEEATEVKEYYLEQAHNLLCEVDY
+YKDGDIPDLYEENADHYPYMVNYQMPAVILNSNKKIISLLENDGNANIYLKFAEQIASYN
+VERSNPITNGKKESVNKFEFLRAIEQIMPGKLASSEHEFHEDKDLEKKFYPLKEHRFIFE
+PDKFLILGAKGSGKSALFSVLEHANFAKSLASFYDLSMESIENMEWIPGLKISGDYPSSN
+SFDLLSEHNDFIYYKSYWRLLAIRYICKHLKDLSIEKDLFEAINDDSKIRELAKDRSLSE
+DIEKYLKTIDKYLDETNQKVTVVYDALDVLLGKEYRGKMISALISLWYEYLPRYKNIRVK
+IFLRDDIFEKEVSDIPDKVKLRNYSEKLSWTYDELLAMIWKRIASNSEEVAQHFHSTFNR
+MGILLRYEKFLGYIPKSEEEVNKVILKLIVGERMGTGKAAYSYNWIRNHLADTNERILPR
+SIIKLFAEAAVKELELNEMYPYSTSIIRPRSLNEVMKEVSIDRVKDLLEEYKEYENLFNN
+LKDYLPKFPAYEEDLKQSLKLCGVQEGKEVSTIQDLVNIGVMKPYQRKKSDPIRYHIPDI
+FLIGLGLSRVGLRAIN
+>tr|A6CKH0|A6CKH0_9BACI
+MGLNSQGHSLGIIVFTILFAVTAVPMIFLGTNDVNRYEEIGKNVSVEILERLNREGYKKD
+DDNTEWSLDDVKLSLAFSGKGKGNVKTTVGEYGHWGQAPPSRTMLSRVIEEIEWD
+>tr|A6CLF6|A6CLF6_9BACI
+MIKGTDKRHENLWNQTRFIIVDGKGSLKNKAFSIVITPDIKLFVKY
+>tr|A6CK12|A6CK12_9BACI
+MINIKVVEKHEKACKIMNEGGGRMIYRMKKYEIIPDKLDLFNEFFKEYLLPNQMKHGSTL
+VGRWVDLANTKVTAIWQYESMEQYEEIERKIRLTELHEQAKKRKKEIDPLFVDSTQEFWK
+MTGAYHMKENGIMKPIISKEPNIPNFTERKIQDLTDIVFGEKREVKNCDALFVFSGTHPG
+HWEKAIEAFRKGFCGKIIVTGGKSLTGTPHADWPDESAKEADVIVSHLAEAGIPKDKIVY
+ENRSTNSLENVLYAKESFDFSGIHKLMYICKSHAAGRQERTLRKHLGEWVEYVPFPFDAE
+YQGIKVNRYTWSETETGRKRVWGEFLRILTYGERGDIIPL
+>tr|A6CIT2|A6CIT2_9BACI
+MSPLKRILFYILYISVVLTVLYYGLQYEHHLLEKSKETFTLSRTLHWYSVVFSIVVGVLL
+AIPNLFYNLYKNGAWTYDWIRSAIIGIPSLFITLVPVLYWVIPELFQFLTGQFIYLAGST
+EILPTVTGILFGYTMISSLRVKE
+>tr|A6CMF5|A6CMF5_9BACI
+MFLHIKKGSPLCISGITDYCIFKESLYAWSEVDTRGDLARLMDDNAYSAGPSTTKKLMQI
+LQRLLSFSFTAVYHFLNKEA
+>tr|A6CJ87|A6CJ87_9BACI
+MNKILLFSVLFLFLQGCSEKETEELTFSEVESIPSQVSEFIDAVLMDEDGSGNGIYIAEN
+KGNKYLFLSQEFLDEGKEFGEPRVESEDDTLNVYLYDT
+>tr|A6CSU5|A6CSU5_9BACI
+MSKNSKTSPKTPLLYIQQPALKETKANMQQSYSSRKAQPKPAAKQISESAAETKPKRRKR
+SYFEGELGSLYGEGPVEEIKHQETEAEDKMVAEEKENKEAERNKRSFSFKPLKPFREMEL
+DEKIDYLSRYINGKAPFPCEFVTAEDLYKGILLKNDGEVLVIKSFQGDEVEVKRSSLQAI
+KIIGL
+>tr|A6CNX2|A6CNX2_9BACI
+MKLLQNVVNHKINNITGDDLLGYGKQFGVKINPDQAKKIADYLRGKNINIFNNTERSKVI
+KEIAKIAGPATAKEVNKIFAKFVN
+>tr|A6CQE3|A6CQE3_9BACI
+MNVVEECYRLTKQLHSMLHQPVEDEEREALIEKAASLLAEREPLLPGITPPFTHDEEQMG
+KQIIRLNTEIDQKMKLIKALIKRDMNSITNKKHKAQKYSNPYENFQTDGYFYDKKN
+>tr|A6CS42|A6CS42_9BACI
+MSGEAGQYKSGLAEKRACCQGVKWKFHKTKKEEIQPTGLMNASKDHK
+>tr|A6CM90|A6CM90_9BACI
+MVIPFASIITSTVSNMTSSGWSQLLTILIVAMVLDYVTGLVAAGINGSLSSKAGLKGIGK
+KILVLSLVAVAHLIDTILGNQHIIRDSTIIFYFCNEILSIIENAGRAGLPLPPFLSNAVE
+TLRNKIKIKKK
+>tr|A6CJS8|A6CJS8_9BACI
+MLILNINKALILGMAAAIQGVAMSVFLFPHFIPSGGAASTGVLLKYLFNVPYAVTLWTLN
+AGLLIIAAKWLGAKNALWTLYCVTVTSLIIKWISSIVLSPVSYVLTDLLMGAVIFGVGLG
+ILFKMGASSGGMDILALILSKIKGFPPGKCLFWINGTLLLLTGMVVDWFIILYALVCQLI
+GTRILDVIYHFQAGSLRRQRSV
+>tr|A6CTI2|A6CTI2_9BACI
+MKHLDCFHLEASIKHYVEEKLSYSYLQKYIDSPQIDEDRISFLVLPFTKGEQVLKEEEII
+RVISTVMLIQIGLDTHEKVTNSPSESLKERQLTVLAGVYFSGQYYKILSELENVSLINQL
+AQAIKIVNESKISLYKQEYFSVQQIMESVKTIESAIINTFLEHYGTAHWKKLVCEAMFLR
+RMVYEEKKLEQDIMTPLLPSIKSALFAGGIDLSLTLEQKQKLGRIYTGYIIESREKISEM
+LRSESFNGHFIEGRILSLLEHTRPYTKI
+>tr|A6CP24|A6CP24_9BACI
+MKTAVKTNKLTMVGAITDAMRVMLKEKENVLLLGEDIGKNGGVFRATDGLQEEFGEERVM
+DTPLSEAGFIGAAIGMAANGFIPVAEIQFLGFIYPAYEQLMTHASRLRARTLGH
+>tr|A6CHH0|A6CHH0_9BACI
+MKHKASIVAMYVSPSFRNQGIGHALLLEADKSARDAGIELLQLTVVTKNSSAVKLYENAG
+FVSFGIEKHAMKHKGEYVDEMWMSKELK
+>tr|A6CU79|A6CU79_9BACI
+MLSVKESELHELSFDKSGMFNEVNLEMEFLFIDFAVDGELTCEQRDIISSFSFNTVVGNN
+NQSGYINKMHLELNQLNSGAKRKNITNEEELEKALESCIEFEHLNNEEKREMLDLFIKSV
+DMFKEELKELEQKLKDEKK
+>tr|A6CLL3|A6CLL3_9BACI
+MKKEKQQEFDINVPKQKYIYFKRGLDILIVFCLSIIIFPIFLIVTGLVYFFDGKPAIFKQ
+VRTGRSGEPFTIYKLRTMKGQQAPEEYNYDWEGGVPDHFIFKSKVCPRTTKLGTFLRKSS
+LDEIPQLWNVLKGDMSIVGPRPEIPQITQHYNQIQTKRLLVKPGITGYAQIHGRSDITHG
+QKIAYDLYYIHHISLLLDIKIIGKTAVQVLKRKGSY
+>tr|A6CJQ4|A6CJQ4_9BACI
+MKKKNLFLSVPLAAGIIMTGCSAEEGQEDEIIQEEENMEETEGTENDSVNTDDNDSIDSE
+GSDEDNEGMLNEVPEDEYGEGTDEPDLDTAEEEEL
+>tr|A6CLH6|A6CLH6_9BACI
+MFNGLTFTIISCLFFMGLVAWISYIKTKGSVNDSDGYFLAGRGLTGTFIAGSLLLTNLSA
+EQLVGLNGQAFRTNLTNMAWEVTAAFAIIIMALYLLPKYLGRSFTTLPEFLSQRYDEGVR
+KYTVVLFMLGYVFVTIPSMLYSGALAVLKLFDVPDLLGISYTQSVWLVIWVIGIIGAIYA
+IFGGLKAVAVSDTINGIGLLIIGFLVPVLGFFALGDGNFVGGIKEIATTNPEKLNSIGTS
+EDSVPFSTIFTGMIFANLFYWATNQYVIQRTLGAKNLAEGQKGVIFSGFYKLLVPFMMMI
+PGVIAFHLYGDSLRSVDLAYPTLIANILPSYLTGFFLAVLLGAVLSSFNSLLNSAATLFA
+LDIYKPLFNKDANDQQLISVSKKFGILLAVISMTISPMLINATEGLWDLIRRFTGFFNIP
+IVVILLVGVLSKRIPSVAAKTVIIFHVITYYMLVWGTNHLLGFELGINFIHVYGILFVIE
+VLMMIVIGKWKPLEKAYHYQADSKVAMTPWKYALPMSIILLASVTIVYVIFSPIGLAYSQ
+GIVSAGFWPAIIGIIAVASIIIFVTLKHWNKKYAGYLERGYANKKTNPLKSAVTKLHPSF
+STNKEG
+>tr|A6CSA9|A6CSA9_9BACI
+MITQTRFFRDTWVEIDLDNLYKNVHNIKQHLPEGVTMFAVVKANAYGHGDVQTAHTALNG
+GAGGLAVAFLDEAISLRENGIEAPILVLGATRAEDAYLAMSHDISLTVFDYAWLESAREY
+LEKEDGKLNLHIKCDTGMGRIGVRNSADLQKVEKFIRQESKFQLEGVFTHFATADELDTE
+YFERQLEVFERMLSSLTERPKYIHSSNSAATLSHPKSHFNAVRAGIAMYGLSPSVEMKAV
+LPFPLEQVFSLHSRIVQVKELRAGEKVSYGATYETKKNEWIGTLPIGYADGWLRKLQGQE
+VLVDGKRAPIVGRICMDQCMISLPEEVQPGTKVTLIGRQDGDFISMDEIAAKLDTINYEI
+PCIISNRVPRIYIKDGEPVEVSNQLLATSGFYKK
+>tr|A6CIE8|A6CIE8_9BACI
+MASNTLLEPPLVIVYKREWGKMKIKIKWLFIAIPIVLLIMFALTYIPHKVVSIDPSNVSK
+IKIFDGNTGNQMEITDESNIKHVINNLNEVTFQKGKSSFGYMGFSFKTTIFDKKGKAIKE
+LTIHSSDTIRYKGFFYKSADNSIDYDYIEKLVRR
+>tr|A6CJB4|A6CJB4_9BACI
+MGGRVLFMGVPQGDIKVFLQVSLVYNYYRLQIMACFVCDEEKMENSPTNQALIFR
+>tr|A6CRK8|A6CRK8_9BACI
+LGMKPDMMLTMMFLGILLFPNRKNVLLLGITTGIISGLTTQFPGGFVPNLIDKPLTAFVF
+YLMVLGIKKYSASITGTVTLTAIGTLVSGIFFLTSAYLIVGLPGAFLGLFAAVVLPAAIV
+NAGAMFVVYPLVKSILKRTSFAQTIAS
+>tr|A6CS17|A6CS17_9BACI
+MSAIATAIGYFLKELVFLVSYVKNNAFPQPLSSQEEKKYLRKMANGDEDARNILIEHNLR
+LVAHIVKKFENTGEDPEDLISIGTIGLIKAIESYSEGKGTKLATYAARCIENEILMHLRA
+LKKTKKDVSLHDPIGQDKEGNEISLIDILKSDADDVIETIQLSMELEKVRKYICVLDDRE
+KEVIIGRFGLDMKEEKTQREIAKELGISRSYVSRIEKRALMKMFHEFYREEKEKRQSS
+>tr|A6CID5|A6CID5_9BACI
+MSTLSKFKFLLVLILFSLSACSSNNEEIVWQESEPFIKDNLTLYGTEGEFGITKVNGEED
+EPAFPVGQGRHYYVYLLDDSADFNGKKYTMTATHKETDETVQLYEWGIDNNQSGAKFALD
+KEGLWKIDVSVDDEHLTSFVVRAEEK
+>tr|A6CI36|A6CI36_9BACI
+MRKGTNHIFLTTDGLTECPGTEFARPDKIFSVFNGRTNQQGVAELLNTIRENNVRDSTTI
+LSWRVDQNKQATKPSN
+>tr|A6CSW3|A6CSW3_9BACI
+MKKVWWKEAVGYQIYPRSFQDSNGDGIGDLQGIIQRLDYIKDLGIDVIWICPMYKSPNDD
+NGYDISDYQDIMEDFGTMEDFDNLLKEVHSRGMKLIIDLVLNHTSDEHRWFIESRSSNDN
+EKRDWYIWRDGKNGKEPNNWESIFGGSAWEYDEKTDQYYLTALKIFRFLEHSVD
+>tr|A6CHT0|A6CHT0_9BACI
+MALSKKVGQDGELLCFRSEINHKRLDLYISAQEMYPEDNALDIIFKSKEYRKKSHQMNRR
+HKEENVKVFEEPE
+>tr|A6CKH2|A6CKH2_9BACI
+MWILALLIVVGVGTIVGFLKEQSKQNKRIIELLEEINQNK
+>tr|A6CJD4|A6CJD4_9BACI
+MKKEETMKRLLLAVTGCMILAGCTEKTTEPEAEAQMKQEKVTFEDITHSFEHPETGQSYQ
+IIDAYKLYDNYISELEENPDTAEKELYQQEIIDPVNKACFEGGEFYHMAGAVTEQIPHSL
+ERITELNQKIEDSQYIGSIKDALVQSSDLLPSDIETNVCIFPNINTNNAGAVTVGAGKIN
+VLYSPFYTEDFLKTVIAHEYHHSVWAEKFLATTPQSVLDNLVFEGKAVMFEKVVYPDLEG
+TRVNDEYNKKYWAQIQDDLGKYDFNRSIEILFGGNGLPQLYGYMEGYKMVKSYLDLHPEA
+QPMDWTSLSGEEIFEAGKYADHYQ
+>tr|A6CSU7|A6CSU7_9BACI
+MELTLFQLAVMGLAVFRITHLIVYDKITEFLRAPFFDEVEEMDEDGNSEIFLVPKKGKVR
+GWIGELLSCHWCTGIWASGGLYLLYIFLPAVAEPLIIILAAAGIASIIETLIQKWIS
+>tr|A6CIS6|A6CIS6_9BACI
+MRLLKFELYKIFSQKMIYITFLVLILFSSMYMVKFEKTDEQTKQFYKNWEGTLTSEKIQE
+AESANDQLMAKAEERIEEMKANGTEGAFFSESEAIKSGIYENVAFIQRVHETFNQRVQEL
+EGSTKYNAELERRMLESVDLYYFSYYKGPAEIIDYTGTFSFLVTGAMLLIGLSSIFTREY
+SSGMDNYILSSKKGRTALTWAKLGAALIYALTVVAAWEAVNVISKLYMLGNLGWETPLQF
+VFKYYFSPYGLNMLEFHLIQLGIHLSAAFGFATLILFISSVSKNSLLSFFISGAIFSLPF
+MAVEMIQLKAWISDMVKFSYFYIMRVEFLFTQFKTLNLFGYPVLYPVAAVLWMGVLSMIL
+ASITFRVLRNKEVRM
+>tr|A6CN46|A6CN46_9BACI
+MATDNKGGFFVSQKTYEHVLEEKREKISGGGQQKYHEKLKEQNKLFVRDRLNLLFDNGEY
+QEDGMFANCQDEDLPADGVVTATGKIGGRTVCVMANDSTVKAGSWGARTVEKIIRIQETA
+LNLKVPILYLVDSAGARITDQLEMFPNRRGAGKIFHNQVKMSGMVPQICLLFGPSAAGGA
+YIPAFCDIVIMVDGNASMYLGSPRMAEKVIGEKVTLEEMGGARMHCSVSGVGDMLAYSEE
+EAIKAAKDYLSYFPSNYLQKPAGIEGVKPKEGRTLEQIIPEHQNAPFDMYECIDSLIDEG
+SFFEMKKLFAQEIVTGFARIDGKPVGIIANQPKVKGGVLFVDSADKAAKFITLCDAFSIP
+LLFLADVPGFMIGTKVERAGIIRHGAKLIAAMSSATVPKISVIVRKAYGAGLYAMAGPAF
+EPDVCIALPTAQIAVMGPEAAVNAVYSNKIQAIEDPKERIAYVQEKQKEYKEHIDIYKLA
+SEMIVDEITGPNELRGVLIDRFKLYETKEVEFSTRKHPVYPV
+>tr|A6CSX3|A6CSX3_9BACI
+MENLIFLVIAGLISMLFNRVKRDPSDQEPRSPRPQRPESDSGPVWEEAAKDLETVFDKGI
+ETIQTQGKNKFLEKQEEAKKRISELKSQEQVYTQRAESVKVKTRNSPARKKASRVDLRNL
+GSDDLVKGIVLSEVLGPPRAKKRNWRG
+>tr|A6CT24|A6CT24_9BACI
+MAVTIKDVAKLANVAPSTVSRVIANNSRISESTKQKVREAMKQLGYHPNFIARSLANQST
+RVLGLVLPGSADTFFQNPFFPTVLRGLSEGAHEKQYALQMTTGQSEEEIYEGIVQMVQGG
+RVDGIVLLYSKVEDNVMIYLKERDFPFVVIGKPFKHADEITHVDNDNFRATKEVTDYLLK
+AGHDRIAFVGGDLNLVVTVERLLGYEKSLRNAGIPLRDEYIVHEEFLREGGQEAVKELMT
+LENPPTALVVADDLMSLGVLNTLNEMGIRVPEDISIISFNNVLLAEMSRPPLTSVDINIF
+DLGYQATRNLIQKIEDPREPVKRITIPHKIVERSSTDLKINTDNNS
+>tr|A6CUA0|A6CUA0_9BACI
+MMDKMIFGRYIPSDSFVHRMDPRSKLIFVFAFICTVFLANNAVTYAVLGIFTLTAMLSVK
+VPLKFLIGGLKPVIWLVLFTFLLHIFFTKEGEVLADLGFFKIYEEGLRQAVFISLRFTYL
+IIVTTLLTLTTSPISITDGLETLLDPLKKVKFPVHEMALMMSISLRFIPTLMEETDKIIK
+AQTARGAELATGPIKERIKSIVPLLIPLFVSAFKRAEDLATAMEARGYKGGEGRTKYRVL
+RWTGTDTLVLGSLVILAAVLIVLRG
+>tr|A6CJ88|A6CJ88_9BACI
+MKSIIVFFLVYLLLSLPAMFSFGYVIDWVPEATLLQKFKGYVVEGLVQYFLLKVVISIIA
+AFSFHYIPSLLQRK
+>tr|A6CNX8|A6CNX8_9BACI
+MNAEKLSKRLETVVSFIPEGSRIADIGSDHAYLPCYAVDKGIAASGIAGEVAEGPYQSAV
+KQVKYSQLEDVITVRKGDGLEVISPNETDCITIAGMGGALIASILEKGKDKLEGVSRLIL
+QPNVAAIAIRKWLLENGWELKAERILEEDHKIYEVLVADKGNPETPYEQLETELLLGPFL
+SKEKSSVFKTKWGQELKQWRNILENMKQADDSSELRERKAEIVKKIEIVEEVLDEKR
+>tr|A6CHG3|A6CHG3_9BACI
+MEINLIKCHGSGNDFLLIDEITETYNFSEKDRQNLAIALCDRKKGIGADGILFVLDSDRC
+DGKMRVFNADGSEASMCGNGLRCVGRYVTELKNKSDITIETMKADLKISSEPSIFAEIPT
+FKVEISPVLFELKHLPMNIDKQTLIDEKVPEISAALTFTAVAVPNPHLISIVENEHILSN
+EQKSISESVNGPNNLFPDGVNVSFVQSLGTDGIYVRTFERGVGFTNACGTAMSASTLVTC
+LSGLNEFEKEIDVFNNGGKVRVIVHKNDEQFSMDLIGNATYTSRYKLDLDVKEPESYHTL
+NHIDFDEERSYSELQEHAKEVVEKNVFLKA
+>tr|A6CN17|A6CN17_9BACI
+MSLPILPTISTTFIVLSAITVAIGWWQIKQRKIEAHKKTMFTAAVFALIFFIIYMSRTIF
+VGNTSFGGPEDIKIYYTLFLIFHITLATTGAVFGLVTIWSGYKENYKRHRKLGPITSIIW
+FFTATTGVAVYLLLYVFYKGGETTSVIKAILGL
+>tr|A6CRD0|A6CRD0_9BACI
+MNNTWKLFFILSCFFLLASCNGDIPENTEPSQPESENDLELDQPLVTEEELTPLVMKENS
+FMRVIDWIDSERVLILSKGEDGNQLLEYNIFSGSQRIIYTNPKFIVDAQLGPDRKRVLVH
+AAPLTYSASATVIDLDGEVLFQKDIDSYEISFEWNEHNTDLLFITSFSEDWSFKTLLADI
+LEGTLTEVKAPQPFLKWHLENSFLYQEWPEESISLTAPLYSQNLYSEERKLVEDETVHYD
+SMNPYILSITLSKEAEGEGKYKFVTEEGVIASTFSTPLLSSYSNWMIPYYDKIDTEDSFV
+SLTASESMPADAYNGKFTLERWDIQTGVREKVMAGLDNEPLQCSPGGDYCLTGYDLKTAI
+DLNNKEATDLIIIE
+>tr|A6CSW9|A6CSW9_9BACI
+MSLLDRLNNDMKQAMRNKEKEKLSVIRMLKASLQNEAIKHGKQELSQDEELTVLSREVKQ
+RKDSLQEFQNAGREDLVEKIQTELTYVEIYMPEQLSEDEVSEIIKQAIDETGAASKADMG
+KVMGAIMPKVKGKADGALVNKLVQNHLAQQ
+>tr|A6CMG4|A6CMG4_9BACI
+MFMRWMMKKVIAFLLIFIGLGVMLYPEVTDYYSAHKQEELIDIWENQEFAPGEDIGIFEQ
+TNEQTAQTSYVQLDSIFPSSEGTVQAAEIESSQEGHNEPEAEAAEREQPLSESMMGIITI
+DKIDVKLPILYGASQYNLKYGAGYLSGSALPGQNGNSAIAAHRSREYGKMFNRLDEVQEG
+DLITVKTREGTHEYKVTSTKIVKPSDLSVLQNSSEATLTLITCDPIDNPINRLIVKAEKV
+K
+>tr|A6CTB0|A6CTB0_9BACI
+MKFNGFTEDDFNIFTINGLDDRMEALIETIRPKLDALGHHFAPTLSTMTGDEMFPHVAKH
+ARRSVNPPDDTWVAFANNKRGYKKHPHFQIGLWETHVFVWFAMIYEAPDKEEYGKALEKN
+IDHIIKIIPRNFVWSGDHTKSEVLPFSEMDKEELSSLFKRLQTVKKAEILCGIQIPREQA
+VKLSGDETIEIINDAFVKLLPLYNL
+>tr|A6CIM6|A6CIM6_9BACI
+MQKKLLKIFLGIGMVLVPFAFTRERLKDWILVFFLKGYLSSFIATMVVKNKNISYPVRFM
+PKYFSISVVFDYLLFPLLCVFYNRTSLSSKPIPLIGQSFLYAIPMTLLESLLERYTDLIK
+YKKNWNWIITYGTLVTTFLFVRGFMAVTRKYNIEKEVHHHHQYD
+>tr|A6CI16|A6CI16_9BACI
+MKDKDLEKSLKEFHHTDLTFTKEDREKVFRKIEEEERQKQSGILQSLRYRAAPLMAMAVL
+LSLSVILAFSFISGTNNQNADQAEKLTALEQNQQTTLLFLVTNEDHRTDLHLLISYSKHK
+GSINLLSLPSDTYVPVVKSDTAAESKDKLTHIYAYEKGSQAVKESVSEALGMRIDYYAAV
+KVDEFEFMLRSLEGTEYESEGDVSWTSPEGIQVNLDKGLNSIDGKKAVELLTAHVPWEEN
+VDGWDEQDKMELSGAVLKNLLKQLGTNNINLLFGSAETNTELEKVLGEMAATKLNTMETI
+SLNDELEPASINDTHYLQFKEGAAERIKKELITFD
+>tr|A6CT42|A6CT42_9BACI
+MGKQLGFGQCRLRFCERLGRLSAILTVYQRFLDFIGDFWILSAILKFYQRFLKFIGDSTK
+NGV
+>tr|A6CJR3|A6CJR3_9BACI
+MKEKLKAFGLPSLVVIALLAALYFHQLSTMTKLPNEEWSRSIALDYDGKELPITFQRENE
+LYLTNVDKVNKFVIGEGLSIESYEEIAMDVPRGFPFWTDGENFITLSQGNLTLTGDGGTK
+VIDEEVSGLATEEENVLYWKNGIVYTYDFNTSETTEIHTFTNEIIDIVFGSDGSYAVVHQ
+RDDANADVFLVDTSGEVNEEAVLSVKNSLYDQLGSLVLNIKDDDLTIIYGRQMRTGGSLS
+YTMYKATGKISDIGGNPLSVQQLNFFNEESASKLQAPDDATLVTLNGELHLVFTAEGQRI
+GDNSNMRLYSGKFQGGNQVVARPVNTNNNVAQNPMKANEESLLWISFNGDYYKLFGASQN
+SQVKAESTELSAEDWKLSGYNSFLMLFSSMVTALTSFYWYLPSLTLLLLLYILRPNIFEK
+DGINWVEYVAIFIFILMPFTYMNQAMNPYFYEMAPFYYTFNHSGTIILIIISVVAALIWK
+IGRDPDWGTFAGVFYYLLVYMVLYIFSVGPYIFNLF
+>tr|A6CP01|A6CP01_9BACI
+MIIKLREIPLIILQLEALDGRLPVNHEKKELVARHLLNRWTGFRGEQSVDYALSFLGEDE
+LYIFQGIRLFDGQHYFQIDNLLISKKFVLILEVKRIAGILQFSPDFKQLTRITKDNDREP
+FPDPVTQVEMHKFQLTKWFKSNNMHPFPIETLVVSTSQKAILETSPGDKTIPEKVIHKDY
+LHFK
+>tr|A6CQ65|A6CQ65_9BACI
+MILHTTVPQELIFPTEQSAYSQQTVVEWQGIPLLVEQSQQQYKVIRVMSSDPAHYLNDQI
+CPGQYLQM
+>tr|A6CLX8|A6CLX8_9BACI
+MEKWVEELFNEDILRRAAEFYGGDSSNAKKLGDFENYVYEIHKGNTPYILRLTHSSHRNK
+EQVEAELEWVNYLHSQGVNVSLVSHSNEGNLVEEIPAGGSAFYVCLFDKAPGVPVSVKSD
+MMNPLLYEEWGRTIGKMHRVTKNYKQAHIAREHWYEDDLLKNMSSYLPKEDAGIALEGKE
+LMGKLLSLPTEKDEYGLIHSDIHSGNFFCHEGEIHVFDFDDSSYHWFASDIAIPLYYSTW
+AKVGSKSLQERSVFGEEFLTHFLKGYFRENTLEEVWIKRIPLFLKLRDIILYSVFHKKFD
+MSHLSEWEEGAVKGIKARLLQDEPMVSVDYEKILGHVKSE
+>tr|A6CN50|A6CN50_9BACI
+MFMGEYQHNIDNKGRLIVPSKFREHLGDAFVLTRGLDQCLFGYPLEEWRALEEKLKSLPL
+TKKDARAFTRFFFSGATECELDKTGRINIPSTLTDYARLEKECVVLGVSNRIEIWSKALW
+EDYFSQSEDSFAELAENMIGFDI
+>tr|A6CKS8|A6CKS8_9BACI
+MSITVETKTYLNFINGEWVKSSGSEISESINPNDASEVVGKVQKSTREDLDNAVQAAKNA
+KTSWRKLPGAERGNFLYKAADILDSRLDEIAETMTREMGKTLPEAKGETARGVALLRYYA
+GEGMRKVGDVIPSTDKDGFMFTTRVPLGVVGVITPWNFPVAIPIWKIAPALIYGNTVVFK
+PAGEAVVTAAKVVECLVDAGLPKGVMNFVTGSGSVVGQGIIDNLDISGITFTGSDSVGKQ
+VGQGAFARGAKYQLEMGGKNPVIIAKDADLDLAVDGTISGAFRSTGQKCTATSRVIVESE
+VYNEFKEKLLAKVKGIKIGNGLEEGVWMGPSASEGQLETVLSYIEKGKEDGAKLIHGGKR
+LTGNGLEKGFFIEPAVFDGVTNEMRIAQEEIFGPVIALMKVNSLEEGIELANSVEYGLSA
+SIYTTNIQNMLDFVSDLEAGLVRVNAESAGVELQAPFGGMKKSSSHSREQGQAAQEFFTS
+IKTVFVKGK
+>tr|A6CPG0|A6CPG0_9BACI
+MGANEEQDGKQNELEKKKSEFKFCTEGHCCQDRLKQPEIPSDNSCMPEEELEAVEEDIDR
+ANQLLLQLGLEDPERNRVIKEAFRGIEGLIVTIELEVGEEEEEGGEEGEAEGDAKNEVAV
+AKVEREVTGKVFLAGNDFVALLQDETEILIPNEMVSLIKAEGRYAEPVSEPQLSEIDPCF
+RRELTFHFGRTVSSSPELIQIFFGMKLAIYLLLIQDKEIQVVLEEETLEGVLWKVSEDSL
+TLKNGQEEKDINLAHVLYIKFDRESEKEYEKEK
+>tr|A6CNI3|A6CNI3_9BACI
+MDVNKMKNASFESVSLEEWKTKAEESLKGKPIEKLYKETYEGITLKPLYTKSDVKTEWAV
+NRDAVKRGWKVAQRLTVKNAEELPERLQTVLSRGQETVSFADPDGTINKDILHRIFRVAV
+TEGKPLFQLTSIASAGFSVLKAGFEEISGTYAADPLPALLHEQSSEIFQSWIENITYLKE
+LAPGVRTVMVDISLLNEAGASAVQELAYAVSAGVSTIELLKENGWTAEEAAGKLVFNFAI
+GSTFFTEISKLRAFRTLWKNLAEAYGLSDTKAMISTETSEFTKSKLDPYVNMLRSGNETF
+AAVLGGSDYIHVSPFDQVYGDTSDFSERIARNTQLILSQESHLNKVGDPAGGSYYIESLT
+NSLAEEAWGKFQEIDRNGGLLKALNEGTLQSDIQRIFESRQQDTAVRKQSLIGTNVYANL
+QEPASVDAQKKGKVQLPGLNSVRLSTNFERLRERAGNLKQKPQAGLILLGEIKSHKARAD
+FVTGFLAAGGISVLPSRECLSVSAAVEFVTESEADYYVICGRDEDYETMAKEILSSINND
+EQIVDLAGRLNADSMNELRSAGLNGNIYLGQDMVQKLDTLLSRWEAGPNGK
+>tr|A6CI68|A6CI68_9BACI
+MPGESVIKTLNEFLRGQYMGIHAYEHLIEKIDDSGLKQRFQEIQQNHKQHAMMVAERIQK
+LNGTPVDDEGTIGKVQGYIGEFMIPDDKEGILQSALKGESYYGIEISEEMVKGDLDPESR
+QIIEKILDEDREHVKLLESIIH
+>tr|A6CRV2|A6CRV2_9BACI
+MYMNEKGSFMMGKMDGTKNDKSLLNIKLVSYNYKYTQFFYRTLVYLPAGGNNR
+>tr|A6CLQ1|A6CLQ1_9BACI
+MKTAVKTNKLTMVGAITDAMRVMLKEKENVLLLGEDIGKNGGVFRATDGLQEEFGEERVM
+DTPLSEAGFIGAAIGMAANGFIPVAEIQFLGFIYPAYEQLMTHASRLRARTLGHFTCPLV
+VRAPYGAGVRAPEIHSDSTEAIFTHMPGLKVVCPSNPYDAKGLLIASIEDPDPVLFLEPM
+RIYRAAKQDVPEEKYSIELGKGNVIKEGEDVTIIAWGAMVAVASQAAKEAESRGISCEVI
+DLRTLYPIDKDIIAQSVQKTGRTVIVHEAHATGGVGNDVLAIINDTSFLYQKAPVERVTG
+FDTPVPYFGFEDYYLPTAERVLKAVEKAAKF
+>tr|A6CL10|A6CL10_9BACI
+MSTDSQETYRTFCNSEYDTLKRVILCEPHYMTIRDVINETQKKFKDEGIHIEKAVEQHGE
+FVKTLRENGVEVALLPYHKKYHEQVFTRDIGFTLGQTVFVARMASQARKGEEEVLKQWLD
+DEELSYYNLAEDKIEGGDVIIDRNTIYIGLSDRTTQDSVDHLQSLLPNFDVKGIKFKEEY
+LHLDCVFNVISPTEAIIFRDAMTEEDIEFFSSRYELIEVTKDEQFTLGTNVLSIGNKKVF
+SLPVNKEVNKQLRDRGYNVLEVDITEIIKSGGSFRCCSLPILREINHDAMGH
+>tr|A6CL28|A6CL28_9BACI
+METHRLILRQLESNDAEAIFAYQSNKENFPYVDMPIYTNIAEAKTYIEKMNTGIKDKKWV
+IWAIADNKTNSILGTISIWNISNDLETADLGYGLFPGNVGRGIMSEALVKVLDYGFNEIG
+LNTIEACTNTLNQKSIYLLKRNHFNYSSSFTEPASNGGTIKMDVYSITKR
+>tr|A6CNB3|A6CNB3_9BACI
+MGIHHYFKSLSDVEKLVRCPGRFKYQDHNVASHSFKVTKIAQFLGTVEEHNGNAVNWKSL
+YEKALNHDYAELFTGDIKTPVKYASEELRRLFSQVEEEMITKFINQEFPEEYQDVYRERF
+KEGKDSTLEGRILSVADKIDLLYESFGEIQKGNPEPLFLEIYEEALATILKFHEMDSVQY
+FLNDILPEMLSEKNIPHEQLSEMTKKIVAGFNTPKE
+>tr|A6CSX4|A6CSX4_9BACI
+MAKKWVQKARQWMTRTMDLPEDVMMDLPRITMIGQIHIYIENHRGLLTFTDNEVRLLLKQ
+GQLLIKGQSFVIKMILPEEILLEGKIVEVVYLDQ
+>tr|A6CS91|A6CS91_9BACI
+MSRERNITSMENAYVRQQELKKKISHHRKKRLFRRLALLFILAVTISGFLVSTLISRASV
+LEEKEAEKAKLEAQLEQLEKQQAILEEEIIKLNDDEYIAKLARRDYFLSDEGEIIFNIPE
+PEKKKAEEESSY
+>tr|A6CSB9|A6CSB9_9BACI
+MTDHTSLCHKSEIFRTDCWLMSPSVNNKRKRLEYKKETAENSAEQTQGGNKDDSTLPISK
+HV
+>tr|A6CRV9|A6CRV9_9BACI
+IPTKSSIMVGLGETKEEIIETMDDLRAANVDIMAIGQYLQPSKKHLKVQKYYHPDEFAEL
+REIAMEKGFSHCEAGPLVRSSYHADEQVNAAAKAKQEMGEAQVQKA
+>tr|A6CKL0|A6CKL0_9BACI
+MFVFKKDKPIEAVIRTYNKSDFPGLIKVQKESFPPPFPSDLWWNEDQLTNHITLFPEGAL
+CIEVEGEIAGSITGMITTFDPSNIQHSWSEVTDDGYIKTHDPNGNALYIVDIGVSPRFRG
+LGLGKALMHSMYEVVIQLKLERLLGGGRMPGYRKASEKMTATQYLDSVVKGGTHDQVISF
+LLRCGRLPVGVIPDYLEDEESLNHAALMEWRNPFFNN
+>tr|A6CMI2|A6CMI2_9BACI
+MKWMVEKNSKLIIFAVILLVFAVLSYIIGTRAPKEYPDFLSESPAPMGTKAIYTYFSNEL
+DHVERWTHSPNLLNKSEDNQLLLMIQPYFIPESEETGEYLEFMEEGNTILLFKTVPDGMF
+DVKTIGVDTEEKEISTVKDVEGAIRNAYIPAPVRIQKKNEDEVLISDEAGPIAIQRPVGE
+GSLIVVTAPHWMTNSSILEEDHLSLALTLINESNPGGILFDEYIHGRDSASSVATLYPKW
+FLILMVQGGFLLILFLWYRGKRFGPIETAREEYVRFSDERIKALAAWYIRGKRFTDSLNI
+QADYVKLLLQEKWGIAYSPEWSDSTEGLTRKWKSSTEEEIKNFVDELTAVLAKEKMSKQE
+YLLWSKKLDRLRKEVEEG
+>tr|A6CSF4|A6CSF4_9BACI
+MNAEEYRNGVPLPGSGYMKMEKTQNDVRRLECKEPKNNRNNGSESYTASVEENILP
+>tr|A6CTA1|A6CTA1_9BACI
+LEGGAKAAPAEKQETAQAAETAKEEAAPKAAAAQKVPEGEFPETREPMSGIRKAIAKAMV
+NSKQTAPHVTLMDEVDVTKLWAHRKKFKEVAAEKGVKLTFLPYVVKALTSALREYPALNT
+SLDDKTSEIVHKHYYNIGIAADTDKGLLVPVVKNADRKSMFSISNEINELAGKARDGKLS
+GDEMKGASCTITNIGSAGGQWFTPVINHPEVAILGVGRIAEKPVVKNGEIVAAPVLALSL
+SFDHRMIDGATAQHALNHIKRLLNDPELLLMEA
+>tr|A6CIC2|A6CIC2_9BACI
+MKMYSAEERKAYFDQTIKRLEAAELVEGVVQIGSGVNGFKDEYSDIDLMVATSEIEDAEA
+AKKAVHQILSSFKPAYIKEKKFSKDIFLLIVLLENKLEFNVSIVPRELLTVRSPLWKVVV
+DKTGLVSLKMKKENEHFANKPVRYNVGFDLPFEFVYCTLSMQKELKRNNLIYALRMLEEM
+RGFTLSVQALNEDKKLHQFKAYETLHPAFITAYLTTYPETITVESVQESAEKITEVFVEA
+LKQSPVFSMDEDLMRLLNSTERRQICEE
+>tr|A6CKM5|A6CKM5_9BACI
+MPVGAEQGASTFYTGAAEEAHRPPRGVAHLKRKSTISSK
+>tr|A6CJE6|A6CJE6_9BACI
+MKFVLIFGPQAVGKMTVGQSLAKQTGMKLLHNHMTIDLLEPLFGFTPEMWRLTHQFREEI
+FKSFATTDEKGLITTFVWAFNMKEDWEFVEKICDIFKNQGAEIYLVELEADLDERLKRNQ
+TANRLEHKPTKRNIKQSEEELLSSMEEMRLNSAENEIKAENYIRINNTNLSPDEVAGKII
+AAFQF
+>tr|A6CR45|A6CR45_9BACI
+MSDFISHVATLEIPVSSLETAIPFYREVIGVEVEFKGEKNAMLTFKKQGVPTIFMVETEE
+KDLLSFKNSNDGVEHSIIDFYTADLKGFYNWLKEKDIEVGPLNINSEHGFGGFGFRDPDG
+NLLSATNVLHEGQ
+>tr|A6CS53|A6CS53_9BACI
+MKSNYYFSVEDILKRKHFEHSKVIAGHKGIHRQVRWVHVVEVPTIKNLLNGSELILTTGL
+ALKEEQAFLSLLQQLIECEASAICIELDTNISVIPASVLKCAEENDFPIIVFEEEVPFVS
+ITQDIHSIIINQQYSMIKQLDKFGQKLNQKLLNVNHFKELLDVLYTELGVPVLLKLKDHE
+LEIYPRKRRSEEKHLQKMYEGYSNEEHPLFVSKKVLLFEQEYAELLIYRTDFPFSEYELL
+LLDRTSTALAQYLMRELYFNEKKRLDESRWLMAWLKGEQTGDKLSSYLSDLGERITGGVV
+CICQLQKVKEKEQLDLTYFNLIARSIFEQQGYKVLAEKEGDNLIFILLDNRSSKTWKTRI
+SDAFEKILETEFFQKAKDIHFAAGKYQEEIKDIHKSYQSANESLLYRSKDCGSKRFHFYD
+DLHLYRLISIVQQNMNLQEMVDEYLEPILKYDKDHAGSLLHTLKVYLGCQGSKQETATRL
+FIVRQTLYHRLKKIDELIGEDFMQPEKRVAIEFLLHAHDYINPLKISRAESVN
+>tr|A6CJS6|A6CJS6_9BACI
+MNDFVAKIKDFSKHVSEDIGTIMKDFNNEKVEFADMVSLIIRHEKTTHMSQTLLGSVYNT
+YQLHLFPYYLHLETKGKMNESILQLMLHSQERELYCYRSYEAKSQKPKIVPVPEPLINLL
+KTNQHSNKLH
+>tr|A6CI11|A6CI11_9BACI
+MLGVKKGEVFLKEHSKDWADLFQKEKQVLMEILGESVVDFEHFGSTAICGIKAKPIIDIL
+AGVKSMEDIEQFDTIRLKEEGYYRLPQVNIPGKQVFARFVDLESLTKTHILHVVEYEGDW
+WKEHITFRDYLNSHPSTAEEYENLKIRLAQDFPEDEASYTAAKKQYVDCILNKV
+>tr|A6CK82|A6CK82_9BACI
+MNVRIEEINSGNWYECCQLELTNEQAEYMESNAVSIAQTNIKTVCHLFQ
+>tr|A6CNY1|A6CNY1_9BACI
+MDTKSQKTNIIINEILFWKQNKMLPDHYCDYLLALYNQGEDMENMDRKKSKRLPAVLFSS
+ALFMSLIPFSLFVIYFTELSFVLQTAILTGFVVLLIFAAIYYSKKEIISPVIYITTAIIV
+LIYSVNFSDAIFQGDKLITYIILFCNCFLWSLAGLYFKMLYFTIAGAAGILILIISIVI
+>tr|A6CLP0|A6CLP0_9BACI
+MNDHPLRLEEVSFSYKKERKQEPVQVLDKLSLSVQPGEFVSIIGPSGSGKSTLFRLITGL
+EQPAGGSIFIQGKEVKDRLGLVGYMPQQDLLMPWRTVMENAALPLQLQGLKKREVEEQVR
+SLLEEFGLKGYEDLYPHHLSGGMRQRVSFLRALSSGNELLVLDEPFSALDAITRLSMQEW
+LLKQWEKQKKTILFITHDVEEALFLSDRVFIFSKIPVSSLKEIAVPLPRPRKFEDMAGTT
+IQNLKTKLISQLRKSRALP
+>tr|A6CSN8|A6CSN8_9BACI
+MKIKYYREVLKNDKIRELKLKYCRVPVKDFKRENERIKTLRTPLKNFKKAKQKL
+>tr|A6CTI1|A6CTI1_9BACI
+MTGVKRMANNQSDYIVIKAIEDGVNVIGLTRGTDTKFHHSEKLDKGEVMIAQFTEHTSAI
+KVRGKAKIFTSNGEIESEMKEK
+>tr|A6CII3|A6CII3_9BACI
+MKRGGHMDNHKFNEFIKITKKLNDINIIPLLMGSVGLEIVTGKSWDAQDLDIHIPGDERG
+WEVPPELNIHNWNDVVNIMELMGYSLIDLHEHEFTKDGLSVEFGIIDTLPSFAGIQLNDL
+QMHQLGDVKYYLLNPEQYLRVYEASSKDSYRADNNNNKDSRKIEFLKRMINGAEFC
+>tr|A6CRA4|A6CRA4_9BACI
+MMRFKLIATAAMGLEALVAKEVRDLGYECEVENGKVIFEGDEKAIARANMWLRTADRVKI
+LVGEFKAYSFDELFEKTKALPWEDYLPVDAQFPVQGKSVKSKLYSVPDCQAIVKKAIVNK
+LQAAYHRTSWLEESGAVFKLEVAIHKDTASLTIDTSGQGLHKRGYRIGQGEAPLKETLAA
+ALIQLTTWNPDRPFADPFCGSGTIPIEAALIGQNIAPGFNREFLSEEWPWMSEKIWDEVR
+MEAEDVANYDQPLEIMGTDIDHRMVEVAKSNAFEAGLGELIQFKQMQVKDFHSDKSYGVI
+VGNPPYGERIGERKEVEQMYKAMGESFEKMDTWSKYIMTSHEGFEEFYGKKATKKRKLFN
+GFIRTDYYQYWGPRPPRKDS
+>tr|A6CU00|A6CU00_9BACI
+MIAGIQTISKETAFIVKQMLQGVNDMEQVMRNFFLFLSKNKPLTKVAKKYGLRFGAARFV
+AGESIDLAVEAIKGLNNQGLSVTIDYLGEFIDNEAEANEMA
+>tr|A6CJB2|A6CJB2_9BACI
+MNKKNFSLGDWVKAKTVEGELVIGYIEGVNDDSKTAKIRAVQTEQASIAGRTIETFLRSV
+SALPYTPILTKEDAAELIDLALQTRDEKWFMELTAELSQLEQKSSKRKTVNRSDVINRLN
+FPHVK
+>tr|A6CQ21|A6CQ21_9BACI
+EERLQLEKEEAVKAKLQYDEWRMTVKELEEEDREVSEKLIRLGNPERKYGMLLEEKEKLI
+HDSSSPLSDLLYNLAEQSAELKVGLKEVKEAEEAAAMARLKLDTASDLLGSAKNWGMLDL
+AGGDLISTYAKRSKMDEAQRALHEAQRYLKRLEKELQDLNMEAVQTLEVSGFLSLTDMFF
+DNFFSDLMVQDKINRTISKVSDTRSRISGLSSKLAQMANELTREIKDTEAKKRKHLESA
+>tr|A6CKJ4|A6CKJ4_9BACI
+MMLAEWQAVIPDLNKLVIKANPNNEPVSIDGDAHGLLLVGTGTDAAVFRSMLLPHLAFKV
+YADEKRDKKAVEEYVYDRLGVSPYFSQKLGSGENFLVLSFVEGTTLYDCLLQGISIPPSV
+IVEVEEARDHIRRQGLNPRDMHLKNILLHDGKAKIIDVSEYVQPGNDKRWEYLKKGYEQY
+YRYIDGKPVPSWLMETVRVWFNQTKGPQFTFEDFMKKVLSLTFRWKL
+>tr|A6CSK1|A6CSK1_9BACI
+MGIYNIIEYEKIAGVLPAIFFMNVLPAFEKLLEEI
+>tr|A6CHF4|A6CHF4_9BACI
+MDASYKSCIKACHECMEACNVCYHACLKEDEKMAKCIELVRECAEICSYATAVMQRSSKF
+AKQVCALCADICEACGTECKSFDYRHCQTCAEICFDCAEECRKMAG
+>tr|A6CN71|A6CN71_9BACI
+MKFNRHRRLRQSENLRAMVRENFLRTEDLIYPLFVVEGESVKNPVASMPGVYQISLDYLK
+AELDELNSLGIHSIILFGVPAEKDELGKSAYDANGIVQQATRLVKEYYPEMVVVADTCLC
+QYTSHGHCGIVEGGKILNDPTLDLLAKTAVSQAEAGADIIAPSNMMDGFVAAIRKGLDEA
+GFIDVPVMSYAVKYSSSFYGPFRDAAHSSPKFGDRRTYQMDPANRREALREAQSDIEEGA
+DFLIVKPALSYLDIIRDVKDEFNVPVVAYNVSGEYSMIKAAAANGWVDEKAMVMEKLTSM
+KRAGADLIITYAAKDAAAWIKGE
+>tr|A6CPJ1|A6CPJ1_9BACI
+MILAVKNWLHMSHEYWLFRKVYSFNGTIGFDWSGRRATSCGISGTGETPNPVAAPSPSGS
+NNPQRIKGKITFFSLRNICLSGLNGALPLFIQAQPRRPI
+>tr|A6CH62|A6CH62_9BACI
+MIFSVPFLKTAFFDHTRRENNCKGGSKMEEITRIQRNHNGQIISFQTSTGRIISYQKALM
+EAQEGIISGVSVEDDGEGISQLAHSYNGDITFSELPEIF
+>tr|A6CN40|A6CN40_9BACI
+MAVPFRRTSKTAKRKRRTHFKLNVPGMVACPNCGEMKLAHRVCKECGTYKGKEVVNK
+>tr|A6CRF3|A6CRF3_9BACI
+MLKNDQPLIFELSKEGRTGYSLPEMDVPQVDLSELIPAEYTREEAPELPEVSELDIMRHY
+TALSKRNHGVDSGFYPLGSCTMKYNPKINENVARFNGFAHLHPLQETKGVQGALELMFDL
+QEHLKEITGMDEVTLQPAAGAHGEWTGLMMIRAYHEANGDTNRTKVIVPDSAHGTNPASA
+TVAGFETVTVKSDENGLVDMEDLKRVVGEDTAALMLTNPNTLGLFEENILEMASIVHEAG
+GKLYYDGANLNAVMSKARPGDMGFDVVHLNLHKTFTGPHGGGGPGSGPVGVKADLIPYLP
+KPVLVKRDDEYVFEYDRPQSIGRVKPYYGNFGINVRAYTYIRTMGPDGLKAVTENAVINA
+NYMMRRLAPHFDLPYDRHCKHEFVISGKRQKKLGVRTLDIAKRLLDFGYHPPTIYFPLNV
+EECMMIEPTETESKETIDAFIDAMIQIAKEAEENPEIVQEAPHTTVIKRLDETLAARKPV
+LRYTKED
+>tr|A6CS07|A6CS07_9BACI
+MDNAVNAYIESLIKERSDLLKEMETFAEKENVPIMELAGIETLLQLLRIQKPKRILEIGT
+AIGYSGLRMAEALPDTEIVTIERDEARYQQALNFVGRSPQKDQLDIIFGDALEKVPEVEG
+KGPFDALFIDAAKGQYQKFFDLYAPLLTDEGVVYSDNVLFKGMVAEEEVENKRIRQMVKK
+LKSYNDWLMNHPEYNTVIIPVGDGIAVSRKK
+>tr|A6CMK0|A6CMK0_9BACI
+MSKELLSVSNLNTAFRTADGELSAVRGISFSVDKGETLCIVGESGCGKSITSLSLMGLLP
+SNGYIKDGSIDFDGRDLTKLKPEALRKVRGKEISMIFQEPMTALNPVLTIGYQLREPLML
+HKKISKREAHKQGIELLKQVGIPYPEKRMNQYSHELSGGMRQRVMIAIALACRPQLLIAD
+EPTTALDVTIQAQILDLIQDLKDDLNMGVIMVTHDMGVVAEVADKVMVMYAGEKVEEGDV
+ESIFNSPQHPYTQGLLRSVPDVDDPSFELEAIPGSLPNLNEQISGCRFHPRCPFAMDCCK
+TDSPKEYDVNGTHRVKCWLQEVQEDGSAREKIAT
+>tr|A6CMK7|A6CMK7_9BACI
+MAVEDTNRKAELDQQKVVKAQNKSDQFQGMDTEFSLDEYVQRAVANSQQYQAQHQQPTYE
+PNKPL
+>tr|A6CJV4|A6CJV4_9BACI
+MMKVMEIIKLGEKLKSELRHSWLSNGRRESVAEHTWRTTLMAVLITPELSVEADMEKLLK
+MLIIHDLVEAEAGDIPAFDTLDNASFKTAKRNNEIKAIENIRDILNNNTGQELYDLWYEF
+EEKQTIEAKVANALDKLEAQIQHNESDLSTWINIEHEMSFNLGRHVEFDPVLITLKDIIQ
+NEAEAKLKGAGIDVDVLKDKYQIKS
+>tr|A6CHE2|A6CHE2_9BACI
+MYKILSIGDFAKFNKGNEVMQKLILKNAFVNTITSGIIPYGNVWIEGGKIKKVSSTWEEE
+LLPGAHVIDCKGKPLLPGFIDVHTHLGLYDEGTGWAGNDANETIEPMTPHIRAFDGVYPL
+DPGFQDALKYGVTTVNVMPGSANVIGGTTAVIKTFGKNISSMLVRETSGLKLALGENPKR
+IHSNGNNDSITRMGIMGMLREAFFNAKYCDQPEDLRVAPIVMALKKEIPVRIHAHRADDI
+LTAVRFAREFDLDLRIEHCTEGHLIANELRDLSLKVCVGPTFTRRSKVELKNKSWLTYQE
+LSNNGVEVSITTDHPYTPVQYLNMCAAIAVREGWDPEKALEGITINPARNLGVDHRLGSI
+EKGKDADLVLWSDHPFHFMAKPMLTLVNGEIAFKNM
+>tr|A6CME4|A6CME4_9BACI
+MKKKKAIGVLTTAAIAASTFVSMNPVQAASVSETKQLMEKAENYAGALKWAVSVEGSADG
+KTRPWKLYNQTKDAYAAAQKAVKGLSGSEKVTLETRLQNNVYLYINRSMNYIDAITAGEK
+IQAAMVTLKTRIDSGIVDDKTEELYHKLSYEIRKQGVLLDRVYGYQQD
+>tr|A6CMI7|A6CMI7_9BACI
+MELSIIDKNDDREGFILRLLVVFLYLSLLFVMACTASLTDLIEHQQIRFSVDAKPDFYSF
+FEFRSFNYTHPLYITQKSGHAISFFMLAVLLMALYNSLKAVIYVTWSFAFLTEIAQLFFS
+RTGCLVDVLIDLFGVMLFLIVYFTSRLVAGLVLIR
+>tr|A6CS01|A6CS01_9BACI
+MSKFLKGTMILMGAALITRILGFINRIVVARFIGEEGVGLFMMAFPTLVLVITITQMGLP
+VAISKSVAEAEVQGDIKKVKKILAVSLAITVSLSLIFTPALILLAPYLSETLFTDQRTYY
+PLVAIAPIIPIVAVSSVIRGYFQGRQNMKPAAVSQVIEQVVRISLIAVMTKAFLPYGIEY
+AAAAAMAASVLGELASLLYMFTAFKIKKQFRVRRNFFKAVKSGKSTLNELMSVALPTTGS
+RMIGSISWFFEPIVVAHSLALAGVATSLATRQYGSLTGFALPLLFLPSFITVSLSTSLVP
+AVSEANKQKNFLLIEHRLTQALRFCLITGGIAVVVLFVFAEPLMTVMYGSSSGAGFVMIM
+APFFLFYYYQGPLQAVLQALDLARAAMINSLIGAIVKTAIIFILASQPAFGINGAALGIV
+TGIMLVTLLHFATILKTVPMTIYVRDYLKFAIVMASTGFSGHYVYTSVFHNLPIGIRLLA
+GLQLHSFSMLCFPS
+>tr|A6CTZ7|A6CTZ7_9BACI
+MTDFDEQFDTLIDKYTELLLGETSPELKEKVTKWVIYSHVAKSMPPLAKHWNSEFPEAKE
+EIKKIISEIKELNEEHRANKDK
+>tr|A6CU96|A6CU96_9BACI
+MADKWLVGVDLGGTTTKLAFISLYGEIVHKWEIPTDTSENGKNIIVDIAKSIDHHLDELG
+ESKGKLKGIGMGAPGPVDMTNGIIYEAVNLGWEKNTPLKDLLEVETGLPCVIDNDANCAA
+IGEMWKGAGNGAKDIVAVTLGTGVGGGVITNGDIVHGNRGAAGEIGHITVMPEGGFQCNC
+GKKGCLETVASATGVVRLALKALEESAESSSLRSTLEADGIISAKQIFDEARGGDVLAVS
+IVDQLAFYLGLAIANLGNALNPDKIVLGGGVSRAGEVLLTPVDKYFNSFA
+>tr|A6CPL7|A6CPL7_9BACI
+MNSDSRIRDVVHLKQNGNFKDVIYVHQNETLKYVMSYGLEFRDFSQNLPQPLNHLLLIKH
+QFDHGSFNMNTMMEYTNKKEVSKLAGDDIYSYGDFCWIDFEEVDGLDQLSGQELAEILYM
+GHTKQSLDSPFYSKLNNRFVYLAHDDGWFNKTYYRYTDDFYSMLGSAISAKLLNQKGDKS
+LKRLLPGQKVTNLPPIPKEVMYSLKEKIKEGAAISIEKTVKGRGTIKVPVWVMGDYMNMD
+TMYDDYRVRSANQPYGYLVFDRKTKEWGLYIN
+>tr|A6CI88|A6CI88_9BACI
+MSSELGKLFANYQGDSVYSCVFEHFLEVVEDDEVRDFVDMALSFSKKHLEQISMLFKHES
+IPIPTAFGEQDVHRGAPRLFSDIFMVFYTREMARAAFLAYGSALSTSYRQDVVSYFEGCL
+QDSVQVYKKATALLLSKGFDITAPEIPYPAKVDFVEKESFISIIAGKGRPLLGVEIKHLQ
+VNIYTNALGKALMLAFSQVASSEKLRQFFREGSQLAGKQITELSSFLQRDDLPSPRVLDD
+QVTDSTISPFSDKLLLSHASIATATGITNYGPLCQRYCDMTFILNF
+>tr|A6CKA2|A6CKA2_9BACI
+MEVDEQGNFTLEIEREEDKLYSISVEFNPEIQSDAVKEVYGARGEKIVIASNLERYEHNG
+ETMIGVKASSYIGFPPGWGFLE
+>tr|A6CP37|A6CP37_9BACI
+MLEISIFIVVLSASVLLFRNVAGSLSPLKPNLISIIFYYSLLISSFIGSVLIALDIDHYY
+MINRLDHEKYRRIGFLCISFVMIFLPLTMLMVNKLLGFNSKKEFNEYLKKPIHYKSSQNS
+DTFFWLFFSLSSISILAVFYTFLKTETIPLFELLKGNFNDLALLRIEAARSFNGNIYVRN
+IFAIALTPILSLIAYIVSYHLKTLRWKFLFLVLFFLSILISVYDLAKSPVFFYIIMFILV
+RLYIGSMKLNWKRISLYLVVGSTLLIGMYISIQGVSNINEYLSYSSGPIGRIILAQVSPA
+FLHLNLFNESVPFLQGQSLPSIIVGWFDVETVRSARLVMENTFPAKVEDGTAGVLNTLYI
+GEAYANFGYLGILIGTIYLGLLIQLLYICFLRLPKNPVFIGLFVYFTVNIPRTLVGGFAD
+FLFNPIWVLITVVLVGLLIAEQVIHYVPVLQKRFKAYK
+>tr|A6CM08|A6CM08_9BACI
+MMIVINKSAIIDIGSNTIRLVIYEHFNDGRYKEIENVKTVARLRKYLKEDMRLSDEGQGK
+LLAILKSLKEILQFHEINSYRCVATATIRQAVNREEILSDVKRDTGMHIEILSEEQEAFY
+GYLAVTSTTPADNALTIDIGGGSTEITYFEDRKLKESYSYPFGVVSLKTQFVKGNSITEE
+ERNSLIQFLLNEFSKLPWLKGKQVPLIGVGGSARNLAQVDQQQRNYQIAGVHQYVLSGST
+IESIRDQLFPLTYREIEKVEGLSKDRADIILPAVEVFHQLFRYIDASYFMISRKGLREGL
+IIEEANNKSVPELNRVSVISLSLKELCHEFGINESHSRQMVLLSSEIWRRLSDLGYWNLS
+SDDLSILQYSAGLYYLGEYIDSESSSQHTFYLLANRSINGFFHKERVKVAGISSFKSKTS
+LKQYLEPFFEWFTKEEMKKIRDMGALLKLVYSLNATKRNIVKKVEVKKENDSLSLIISCK
+GDYLAEQYQTEKQKRHLEKALKTELDIHFRYID
+>tr|A6CMD9|A6CMD9_9BACI
+MVPFKVEKTKKEIWDSFLKTQKALSG
+>tr|A6CHH9|A6CHH9_9BACI
+MDFEIKYLSFYVVEVEGKGEGVDKRFKHFQTLDEQGYESNPLKDFLDGELTKIAKRKVDR
+HSKSEGAPTKIGRFIVEPGHDLDSNPNYNLFHRARHPESIDAFQEASMQFVNAYVEASAV
+RGGVFIVALAKLRKYFDDPFLFLMKCDFEPKVARITDESTLIHNVEMAITTKNMKSIQYP
+FMPEEGMMDEAELKIHQASHARYFEDFLKFVEYEKSMPEIVRTQVLGMVQEHIEESYEPE
+SEERVEFESAMEAWSVSPKRELQERFTTEQVVEATSQIVEQSPEVELKMKLDHIDVKAML
+SDFGDTIHMAKVNGRYMLLIEGDSVQFEKGASPIEFLRPDDLQDVIERIQRKGE
+>tr|A6CLQ3|A6CLQ3_9BACI
+MLLMNKKVLALGLTAGLMISPAISSTAFAAPDLAEKVKWSEKAGTPEFISGKLTAPSNYN
+AETIVYNYLNSKKKEFKFTGDARSSFVLKEKKNLTLATFQHS
+>tr|A6CIB3|A6CIB3_9BACI
+MEMEFLAFMNYGRQEATVFSLWNPNKNQIRMDAGPLTVNGPMRIRIGRGVGLIAV
+>tr|A6CJA7|A6CJA7_9BACI
+MYIVYFYENRNLLLHQLRQSVPAEGEELKIKGRKAKVESTQATEGNKVHVQVQLEKVVKK
+PAVDLSKKKKR
+>tr|A6CJR6|A6CJR6_9BACI
+MQSSKSLVNKEIMTLIGRNTGWIGIVYFAGLIFALPLNVWMMLTSEEPSYLLTYGQMFQI
+NFVLQAGLMMVIPVLLSIFSFRFLHVKQQADMIHSLPIRRKKLFMHFSAAGIIMLILPVV
+FTAMIMVFLTLTNDLGSHFQADDIISWALVTILMVVLFYVCGITVAMITGLSVVQAVLTY
+VLLLFPSGMYILSVLNIKNFLFGFPEEYYLAVRSEDFSPIIKAGLFNEVQLSFTEIIIYV
+FLIFVFWILALVLYKRRKIETTSQTFAFPVLQPVFKFGLIIGVMLVSGGYFSAVQKTLPW
+TLFGYGVGFAVGYLLSEMIVQKTWRIGLRLKEMAIFAFFLTGIAVFIHFGFKNYESYVPD
+LNEIERIYFNDHIYSYLEEYEEEPVRYLSNEENIRNVKDLHGAIISDKESKGSVQLYIVY
+ELKAGKKVIRNYEIDRTHFDFYYESIYESVEYKESAHQILSVDTHLADKLTITARGPQDK
+QVSITDESLLEEAIDKLKKEVLEESYESMVDRSETLYDIEILLANEQRLYVPWKPSYSNF
+ETWLMEKDLFNQVKVLPEDVSKILIYKREDHQTPLGMEVDLHDSIATLEEDNKALRITSE
+QKVKDLLEMKSWTIESEYMAAFYFKGQDYPHVKGIKAENIPDYIMDHFER
+>tr|A6CRI7|A6CRI7_9BACI
+MGNLMIKIKLLSASGRALLFSGQQKSASWQMLFYFTCSDNRSIKKASFHI
+>tr|A6CKQ1|A6CKQ1_9BACI
+MFGNFEKKTGVKMDDIMKLAQSFQNTNFKDEKQVRTMIKKVAQMANKPVSREKEEMLVQA
+ITSGKVPKDMNEIQKMMNKKK
+>tr|A6CSW0|A6CSW0_9BACI
+MILAKTDKELQDALHVRKVVFVGEQNVPMEEEIDEFENTSDHFVLYDEDEPVGAGRFRVK
+EGQGKVERICVLSTTRGKGAGKRIMNFIEEHARSKEVPALILNAQTHAIPFYENLGYSIT
+SDEFLDAGIPHKSMKKILK
+>tr|A6CU72|A6CU72_9BACI
+MSVISMKQLLEAGVHFGHQTRRWNPKMKKYIFTERNGIYIIDLQKTVKKVEEAYNFVKEL
+AGNGGKVLFVGTKKQAQESVKEEAERAGMYFINQRWLGGTLTNFETIQKRISRLKLIEKM
+EEDGTFEVLPKKEVVQLKKEHERLVKFLGGIKDMQELPDALFIIDPRKERIAVAEARKLN
+IPIVGIVDTNCDPDEIDVVIPANDDAIRAVKLLTSKMADAILEAKQGEEAAVTAAE
+>tr|A6CHB6|A6CHB6_9BACI
+MFLSFIQELLSPSKERIIPLLHKAEIEKIKKLILNKSHTPLAILPNEKLIIEEINSETKR
+RNTNNITRTKAYLDFYQRYPKIHWSFLAHMVSRNGGYRMTDLKGEILPSLLEAEEIQNFF
+LFLEKANAFIFQDAYPQLLLYKKSVEKKKPLFHLLPAFGVSNAMSVFWERFWRNGNKEEM
+TLALIINEQSMLQTRLIAKIKDDYFYEKMLFFLQDRLELTTVFFPYKKKNKSRSPYSLAG
+TGISYFENPQNRIDIGKKLYCILFMKDLVYDSSFDFALKNPHTASRSDYWPQCYSSKNTG
+TQKVYSPELMTAWNDMSHTFSNDDWVRDETTQFIDALETISMPYQFDVTTKAKLVVNLSS
+EYKALST
+>tr|A6CNP5|A6CNP5_9BACI
+MQTLKIISGTLIFILFLAGCQSSNTAVEVFHEEIKNNEEVDRYKMVEFVEEDNIIMYTSE
+TLEGNEQINIAYFTKSHSEWAWTKTGVCPLDEWSANLEDEPYLWCGTLTQPRHKEIVVGG
+TTVESIRLQDGIRRAWYHLSENNNEEIRVILTDGSEEWLKEVK
+>tr|A6CHE5|A6CHE5_9BACI
+MIGGIIVESTRDERLLAAFIYIISFFTAFIGPLVIWLIKKDESDYIDHHGKEYMNFLISY
+FVYGLVSSLLMFVLIGFILAPIVGVLALIFTILGAIKAYEGDYYRIPTVFRIIK
+>tr|A6CKC3|A6CKC3_9BACI
+MSFDFSPVGLIIKDPVVFQNILKGIFVEE
+>tr|A6CL03|A6CL03_9BACI
+MGKRIFYFLLTNILVLLTISIIFSVTGAGNYIDPQGNIDLGALLVFSAIIGFSGSFISLA
+MSRWMAKKMMNVRVLDPNKSLSAHEQEVVEKVHRLSKAAGLMHMPEVGIYDSPEVNAFAT
+GPSKKRSLVAVSTGLLREMDDDAVEGVIAHEVAHIANGDMVTMTLLQGVVNTFVVFLARI
+AAWIASRFVKEDMAPIVHFIAVIVFQIVFSILGSLVVFAYSRHREYHADRGGADLAGKDK
+MVHALRMLKAYSNRVVEERDTAVATLKISGRRKSPIFSTHPDLDDRISRLEGR
+>tr|A6CH79|A6CH79_9BACI
+MAYEEYMKQVVKPMRAELTQAGFKELLTEEEVEQTMENAEGVSFVVVNSVCGCAAGLARP
+AATQAVLNTEQQPEQLLTVFAGQDREATAKMREYFEGYEPSSPSMAIMKGKEVVHFIPRE
+SIEDHSIEEIMAEINTGLEKTKQ
+>tr|A6CIB8|A6CIB8_9BACI
+MGPINAAQLDKGIRFGFMHAWLVGVGAMAADAIFMLLIYFGVASFIDTPIIKTFLWLFGF
+FVLCYTGIESIIHSSPEKTSTASRSESREKSFRTGFFMAASNPLNILFWLGIYGSILAKT
+SESASSIQLLLYSGFIFLGITIWDVTMAGIATGARKWAKPIFLQGISILSGLVLIGFGIY
+FGLQAYQQLFG
+>tr|A6CNY6|A6CNY6_9BACI
+MSKPGKQNLEQTSQQLAKQQGKNDVEFSTDDFQTGNSQSQSQKKSGKQKNKK
+>tr|A6CM51|A6CM51_9BACI
+MIQHGKGCLLPPLLEGNEVKKAAS
+>tr|A6CI83|A6CI83_9BACI
+MIKWGAPYKKKRGEARMTKICIVRHGQTDWNKERRLQGSTDIELNEMGELQARQARDHLK
+EGEWDVIVTSPLKRARRTAEIINEGLTIPLIVKGEFVERNFGEAEGKLIEESRRKYPNGG
+SPGQETRSEVLSRVLKGIGEIQSAYPDKNVLLVAHGALIGILLEYLSEGEFVYGKTHLIN
+ACINTIHFQDNKWDVKEYNQTSHLSGV
+>tr|A6CLC6|A6CLC6_9BACI
+MTVSPTENLFNVLDETALILQEELSYTYLEAVAESGENLFHQDVLQDELNELSKKRLEKK
+YAEAGLEQMGKEQIRKALQLAMLKGMKESSQPNHQMTPDAIGMFISYLVGKFTSGSQEIR
+VLDPAVGTGNLLTTVLNGLGDKKTASIGADIDDLLIKLSYIGANLQKHPLQLFNQDSLEP
+LFIDPVDVVISDLPVGYYPNDLRAAEYELKSDEGHSYSHHLFIEQSIKHTNPGGYLFFLV
+PNHLFESDEAKKLHAFFKDQVYIQGLLQLPMSLFKNEQSAKSILILQKKKADIKPPKEVL
+MANMPSLSNQKAMENMLGKLEQWFKENK
+>tr|A6CL37|A6CL37_9BACI
+MEPFILTVMYFAVAIIIVLFGLYIFELLTRKYKDWDEVLKGNNAVALSISGKIIGICIIL
+AFSIYHSSAVTDTLIWGVFGVVLQMAAYLLFELLTRKFSVEEQLQKGNIAVGIITFAVSV
+GLAFVIGASIT
+>tr|A6CJT5|A6CJT5_9BACI
+MGAIEKDGFVFEPEFSLINQEGAIHVYKNGTFLEEIKFEFSGKIPEHNMIEELVSHYCFE
+NSADN
+>tr|A6CLF9|A6CLF9_9BACI
+MWECPDLFEIDGQTILMMSPQGMEPEGSLYHNLHQAGYVVGQLDYETGNLKHGEFELLDH
+GFDFYAPQTMEDPWGRRIMIAWMNMWESHMPEQEEGFAGAMTIPRELILENGKLKSKPVP
+ELEKRRKNHKGYSNIRVEGESVLPGIEGNAVELKVTHLPFQSTHANYANLLLTP
+>tr|A6CNF8|A6CNF8_9BACI
+MAENQNQNQGLLQMSHGKDGLGKIEIAPEVIEVIAGIAASEVEGVAQMRGNFASGVVERL
+GKKNHGKGVKVELAEEGIQVDVYCIMQFGVSIPSTAQKIQDNIRQALLNMTALEADEVNI
+HVVGVQFENQKTEQELEEE
+>tr|A6CJ73|A6CJ73_9BACI
+MSLLQSAHAETNLKAVFIRSHQLWIKEGKGEIQITKNAYVSSPKWSYDGRFVAFIDGDEK
+GKKTELFIYDTKEKETFQPYVKIETSNFKWSPVNNQLAYTSGGVLNVTKVKNGRPQGFEN
+VSLGAGDFEWFPNGKEFIVSSQPNLLPTGWEPIKLYKIPVEAKLSPENVKLFYTIETNEP
+DFFAITADYFKWSHNGNWLSFLATPTASWSNDSNTLCVLNSKGEQFHTIGKMLWYPDWMK
+WAPSTDHLAYISGEGRFFVENKKSTIADMPAAVQQKQYTPDGYVDLDLAWFSPERVIVAR
+AEENKEWDEGPIPTMFTSLHAINIGTDSQEQLTFPGKNEVDLDPQVVGTTITWFRKKPDQ
+MYGDVLAKEGLKGKEKTLIEHVDSAPTYYSE
+>tr|A6CJC7|A6CJC7_9BACI
+MKQLHNRPIWFGRFLASDPGRKRFQSAGKTTISIITSVFTMIWLLDMADYGTITPAIVAG
+MVGLFGIMLVMDDTMAKKKVTTFLIGVSAAAGITLGSLLAPYPLFLNASMLLTIFSAFYF
+SRFQIRYFSMGMTGFMSTYFSSILQLDAAHLLWFYIGIACGAVFAFLYNFVLFKGTAHGL
+RQGMRSFHIQSNLTLTLLIQWIQEGGNNDKKKKLLEKNVQRLNEYSRLVAGDINDEDLKK
+LWPGISSSQLRLYIFDTEMLIQTLTVSAEKLKEHGAFDQQQVKSVVIWVIRSLRDAKVLS
+DNYSASALQDAEKAVQGLRLLLTEVLNAKDNPERWVFPLRRIESIANHVVNAAVGIQESL
+KSTGPIQNESPVEPVEETEDKAEPKDEPNTLKPSTRKAIQGLVAGVLAIITGHIISPVQP
+YWVLLTTFIIQIGTESVGRTYIKGFQRSVGTVIGAVFGFAAAKLVSGHAGLEVFLLFVVI
+FLMFYVFTVSYTWMSFFITMLIAFMYDLLLGGISVELISARVIDTIAGALIALLVSAYVL
+PKKTQGKVTEAFDDFLDELKSYTTAYLDSLKNEQNTELTDKAFELDQKLQVIRDEAQSLL
+KRPDSLKKTGIARWMTVVTAINYYAKHLLASSHRNRKAEIPEELQGVFHSIDKKLTVNIE
+LLQELIKEKEVHADFWSLNEERAKVETLSPSRQKGHIDLVHHTYYIWRINQSIIALGKDL
+GAKERK
+>tr|A6CP58|A6CP58_9BACI
+MEVADRIQNSLIADKKAMIEQLKSSIEQIIAFALYTFQSIKKEPVSLPVLEILLLD
+>tr|A6CN26|A6CN26_9BACI
+MAGCKEDIPEPESFGFELEAKAATHSSQAKTEVTVRHIVQGSQVYVECIAPGITFTSGKT
+GKKGKIVVSVDGKRFNEYHTAAFVIKGLNKGIHHVKLDIVANDNKSLGLQKQFYITIP
+>tr|A6CL87|A6CL87_9BACI
+MVEGDRKDGQWLVLLIFFYIWKNFIVSIAVELTIKNLMTNML
+>tr|A6CRM0|A6CRM0_9BACI
+MSEVRFIHTADLHLDSPFKGLKHLPEELFQRVKNSTFQSLERIVDKAIALKVDFVLMAGD
+LYDEEDRSIRAQARLKKQFERLDHTGIDVYVIHGNHDYLGNYWSHLQMPDNVKVFGSDVE
+AVIHQTDDGKQVHLYGFSYGTRHVHERKIAEYPVAAKDGGIHIGLLHGSEAGGTSAHEPY
+APFTLNELKEKNYHYWALGHIHVRRELSSLPPVVYPGNIQGRHRKETGPKGCYAVTISNE
+ETKMQFIETQEILWEKTSISLKGADSLSQVFDLCREEIELFRNTGVTFLEVEFTDIEGTD
+SDILNKIKNEEILEAFQDGEEHQENTVWVHSMRINESSRLAFVEGQETFLNDMIHTIEDW
+DQHQWEEVSSDLFLHPQAYRYIDKLDSEEQEKMKESVLSMLNSSFSSGG
+>tr|A6CMQ8|A6CMQ8_9BACI
+MMKKKPFTYVLTGALAIGILGAIPAFAAEDDAAQSTETAAAVTGKAAAFGDHRGGGHGHG
+KFHINEDQLKEKAEEHGIDTTDKDTRELAKEIMEIELKAKAKELGIETEGKENRAIMKEI
+HQVQLEAKAKELGISTEGKEQKELAQEVKETLLKQKAKELGINTEGKELKELAVEVREAA
+LEKQAKELGIETEGKEPKELKREVFGASILKAAKELGIDIDGKSTKELMEEIRTDYADEA
+KKLDIFPFNKEKGFFHGGKKGHHGHGKGGSNIEQDSEESVTESEDTL
+>tr|A6CJB3|A6CJB3_9BACI
+MNENYKPLVEPFQFKKGVELKNRIVLAPMTNFASNPDGTVSDTEIDYYIRRSKGVGMAIT
+ACTYVTPSGKGFHGEFGADNDDMIPSLKRLADALKEKGSKAVLQIFHGGRACPPELVPNG
+DIVSASAVAAEGSEHTPRALGKTEVEDIISAFGEATRRAILAGFDGVEIHGANGYLIQQF
+FSPHSNRRKDKWGGSLEKRMNFPLAVVQEVKKTAAEHADDSFIIGYRFSPEEPETPGITM
+DDTLVLVDKLADQDLDYIHVSLMDFWSEPRRGVDSGKTRIQYLLETIGDRAPLIGVGGIH
+TPEEAVKAIEAGVPLLALGRELIMEPDWVQKVEEGREDEIAATLSKNDQEKLVIPDYLWN
+AIINTPGWFPVKD
+>tr|A6CR20|A6CR20_9BACI
+MKEQVWMIENIDETDIIFRKNSFMYKENKLWTF
+>tr|A6CSA8|A6CSA8_9BACI
+MIIAGRDPAVKPYISYLPPKTTSPSTFFEELALAGERGHGFGHFKTSPVSPLISF
+>tr|A6CKI7|A6CKI7_9BACI
+MTTETTTIRSVQWKDDHILLLDQQKLPHVTEFIKLTTIEHVWESIHTLKVRGAPAIGITA
+AFGLALWAQSFQEKENYLGFYYELEKKRKYLESSRPTAVNLAWALTRLFNRFAQAATVEE
+GQSLLLEEALIIANEDEEVCRSIGEYAAELFNEGDAVLTHCNAGGIATARYGTALAPFYI
+AKEKGIELKVYATETRPVLQGARLTVWELMQAGIDVTLITDNMAAHTIAEKNISAIIVGA
+DRIAANGDTANKIGTLGLAILAKAFNIPFYVASPLSTIDLAIETGAEIPIEERTPEEVTH
+LNGVEVAAKGVKVFNPAFDVTPNEYITAIITEKGILKGNYKEQLSSLI
+>tr|A6CPF0|A6CPF0_9BACI
+MLPFLAFQTFYENELSINYLYIILFCVLLLFGLVLISIVAGRFTNLPQTKTSAFVLAGAF
+MNSGNYGVPVILFAFGETGFQYAVIMMVIQSLLMNTVGLYFAAKGSKKGGTFKDSLIKII
+KMPVLYGSVAGLLFQVGSVPLPDFLYNGINLIASATIPTIMLVLGMQLANISKKNVQMKE
+LSAVLVMRFVASPLIAYGITVLLSLDILLSSVLIVLAAMPTAANTTMFAVQFDTEPDLVS
+FSTLVTTSVSIVSVPFMLMLLS
+>tr|A6CI38|A6CI38_9BACI
+MKKWKLVLVMILLFPIGVLTGLYTSVEEATREIRVGYQEGGNQEVIRIEKVITNIEDQSA
+IDNIMMIYLNKEKIDPPYGPEPPGCLHISDESKTAYWFNRFPSLVS
+>tr|A6CP10|A6CP10_9BACI
+MVKLIALYKHPENKEQFDEHYFNTHAPITAKIPGLREMKVTKIVGSPMGGEGKYYLMCEM
+VYDSHESLKAAMKSDEGKASGKDLMSFAGDLVTLMIGEDLNE
+>tr|A6CQM8|A6CQM8_9BACI
+MKFIDNKGITDPRINLAIEEYALKNLDINEDYLLFYINEPSIIIGKNQNTIEEINTEYVE
+AQNLHVVRRLSGGGAVYHDLGNLNFSFITKDDGQSFHNFQKFTEPVIKALKKLGVNAELS
+GRNDIEAEGRKISGNAQFSTKGRMFSHGTLLFDSEIENVVSALKVRKDKIESKGIKSIRS
+RVANISEFLEEKMTITDFRSMLLRYIFDENEVEEYVLTEEDWKNINELSEERYQNWKWNY
+GKSPKFNLQHSHRFPVGSIDIRLEVNKGIIENCKIFGDFFGVGDVSDIENKLTGLKYEKA
+EVEKALEGVEIQHYFGKVTKEDIVNLVY
+>tr|A6CND8|A6CND8_9BACI
+MIGIVDYGMGNLFSVAKALERLDVPYFISEDVKELRKADGLLLPGVGSFRDAMTLLARQK
+LIGFIKEYAGSGKPLLGICLGMQLLYDESEENGTTEGLGLLKGRVIRIPRQTEEMKIPHM
+GWNKLRFVNESPLLEGLSEEHVYFVHSYYISEADSDDVVATAEYGVEVPAIAGKDNIFGM
+QFHPEKSSELGMKLLRNFTKLVEQKEEVR
+>tr|A6CUG0|A6CUG0_9BACI
+MIAIVALLIFGPKKLPELGKAAGNTLREFKNATKGLADDDDDKNKDAK
+>tr|A6CSM1|A6CSM1_9BACI
+MNEEQRKHGQQAAGTTDKKTEKDYSKYFQSVYIPPSLKDAKKRGKESVEYHNDFKIDEKF
+RGMGDNKKFYIRTYGCQMNEHDTEVMAGIFMALGYEATDNTDDADVILLNTCAIRENAEN
+KVFGELGHLKHLKREKPELLIGVCGCMSQEESVVNKILKTYHQVDMIFGTHNIHRLPNIL
+NEAYMSKAMVVEVWSKEGDVIENLPKVRRGNIKAWVNIMYGCDKFCTYCIVPYTRGKERS
+RRPEEIIQEVRHLAAQGYQEVTLLGQNVNAYGKDIEDLENYGLGDLMDELRKIDIPRIRF
+TTSHPRDFDDHLIEVLAKKGNLVEHIHLPVQSGSSAVLKIMARKYTRERFLELVGKIKAA
+MPGVALTTDIIVGYPNETEEQFEETLSLYREVGFESAFTYIYSPREGTPAAKMNDNVPME
+VKKERLQRLNQLVNEYSGEALKQYEGKIVEVLVEGESKKNPEILAGYTRRSKLVNFKAPK
+TAIGKIVKVKITDTKSWSLNGEMIEEGQIGSEFLEETAEVK
+>tr|A6CIK2|A6CIK2_9BACI
+MSIHNENAGSKEETKLKKEIILTGTFHFEQEENMIKKKEQEVVELVDCLSQLRPTKVALE
+WDKGEHYQLSEKFSHADRRYEVHEIEQIGFRLAKKLEHNQVYAVDWDAGISSEEMKKLNS
+AIQNTYPEVLKLMSSVQEKIPILSEESHLLTSFQLLNSRNLQEELEKLYWSFTAIEDGTG
+DRVGINFMKKWLEREMMIYKNVVDLTDDEAGERIFLLIGSDHLWGLKMLFEQNGWNVIMP
+FGD
+>tr|A6CIP6|A6CIP6_9BACI
+MEVQSMKKKLFWFPLIAALFSITILYAIGNIFEISLLQWSYYKDISSDGFSFEVGASFVP
+VLIGSFIGFITERILKHRYKNSSI
+>tr|A6CKR2|A6CKR2_9BACI
+MDIGSYLAQNARKKPEKLAIECNGKTYTYKQFNEEVNKLAHGLLNLGVHKGEKIALMMKN
+SDQFVLSFFAGAKIGAVIVPVNFRLTATEVHYILDQSQSVVVICDEEFEEVVTSAREGTG
+VLHVITTGTPKVVGHHTFERVMADNTAEPSVEVNDDDDLEILYTSGTTGRPKGALFDHKR
+VFNVGLTMMISMGINEEERFLHIAPLFHSAQLNLFLISGVVLGATHIIHRDFHPVTSLQA
+IQENKITHFFGVPAMYNFLLQVPNAADYDLSSIKRCGYGAAPMAPEVVRRSMELFKTDQF
+YNLCGLTEAGPGGILLDPQGHKTHFGKGGKAAFLTEARVVNEEGKDIEPGAVGEFIIKGE
+SIMKEYYRKPEETAKTIKDGWLYTGDLATIDEEGYITLVDRKKDMIISGGENVYSIEVED
+VLYEHPAVLEAAIIGLPDETWGEAVCAVIVPKQGAEINEDELKSFCRQKLAGYKIPRRMF
+IEEALPRNASGKILKYQLRQSLNGVKQ
+>tr|A6CUB5|A6CUB5_9BACI
+MIGVFSLAGCGFENNELEGYDSEEKAIEAGLLQHENLDQKAVLSIEEHKGETIVFFKREE
+SLGTAIIAETKKGFNWYRNHPYNGFETSGNLPFSTVGFDLETKSGVTISILAGKVHDASI
+QSIRITDGGIAKELKIDQESGLFYAVHEAPLSSLAIEAIK
+>tr|A6CTR3|A6CTR3_9BACI
+MKKFTLFSLLLALLTGCVQPEILDDLNIETAKGYDVAGEKLIRGTALYPRYLSDKKTENV
+TLTAEAESTREVLNILEKKSEMPLVRGSLENVIISKKMAKKGVLDIADSLQRDASVGARV
+MLLVSDSTAEEILKADYGNKGTADYISKLIDHNMQRGDLASSNLHLFLFTFYQKGQTPYL
+PIIERTKDKSIGINGVALFKNDKMIDRIDKKNMFYFKLLADKYSEGNQVVKLPEEGGKDK
+KNIEASVTSLQSSHKIDIVHKKDPLDITVTIDITGIIKEFTGKKLTPSKVQKIEEAMEKD
+IEERCLNMLTEFQKEGIDPVGFGQRLKHKVRGMDFKKWEEEQYPNAKFKVKANVKIIESG
+TVE
+>tr|A6CJJ7|A6CJJ7_9BACI
+MTITFDYYMAASIEGYLPSFMMTRIDLAQIVLSTIAGSLLTMTTFTFSTVMVVLTTYSSQ
+FSPRALKHFVNDKTTVRGLGIFMGGFIYCITALLFMRQSLNQQFVTASFFGVVYAVVCLA
+FFAYFIHHVATSIQISSLVGRLEKDSLKVLNFYKDLQKENVVQETKLVPPLYKLKEEVCS
+KQSGFLQFVDFKGILEHCEEKDIHIDINIGIGKFIREGQPLYTIYSNKKTNEGLTEFLSL
+GSARMGKYDLEFSIQRISEIAVKAVSPSINDPNTARDCIRYLGVLLGETAELNDGVLTLT
+DQDGNPRVTIPFFMFDRLLYKAFYQIVHYANQDISVILALLDAMIIIQKEMPENRQETVF
+SFHRYILQNIDKENMQEWDLKFLNEKVDELHATLR
+>tr|A6CI43|A6CI43_9BACI
+MKNKSLILAVLVLFIMMTAIFSWYEGSGLMDDPHQWEYTALISGWMDDGEVLGKSEISQF
+DFFLYAIKFHPLFPSSMMVFFSFCCFS
+>tr|A6CIP5|A6CIP5_9BACI
+MTSKKRKGRHTVSGEIYHFFYVIVFLTAVSLSILHWEESAYLFYIAVFSYGLALWGYLAG
+KIRWKNWLSTHIGAMLGSYIGIVTATIVVNIPRVPVLNELPVLIFWFLPTIIGTPLITKV
+ANKYSPGKPKGISVKP
+>tr|A6CHH5|A6CHH5_9BACI
+MSFILNSNKALEKSGVEKGGERTLKMIVISDTHMPNRGQEFPPVLIKELKSADLIIHAGD
+WNTIDVYEKLKGFGRVEGVYGNTDQQEILETFPKKMVLNAEGYSIGVVHGDGKGKTTEKR
+ALEAFDERPDIIIFGHSHIPYARYSQGTLLFNPGSATDKRKQPYYSFGIIEIESEIKSQH
+IFYKSKSG
+>tr|A6CI66|A6CI66_9BACI
+MILEKVEVITGIWYKQGFSMLQGRMFSALKHQSPYDL
+>tr|A6CIN1|A6CIN1_9BACI
+MIVDSLFTYVFVNYLTKSGIASLVRIKKIHLSLILFIEALLLYGFQYVKEKVTNKRVSLC
+SWSLLIRLLIDGHHVDIQGEMIQSA
+>tr|A6CQ58|A6CQ58_9BACI
+MGLMDVLLIIIPSTLLWATPLIFTALGGAFSERSGVVNIGLEGLMVIGAFSAIVFNLTFD
+DTFGDATKWIALLVAMVMGGLLAVLHALASITFRADQVVSGVAINLLAIGAALFLVKRIY
+GKGQTDIIQESFGKVDVPFLSDIPLIGDLFFTNTYWPPFLAIIVAVFVWFVMFKTPFGLR
+LRSVGEHPMAADTMGINVTRMRYIGVILSGALAGIGGGVYAQSISSDFSHATISGQGFMA
+LAALIFGKWHPLGAMGAAIFFGFAQSLSIIGRSLPLLENIPSVYLLIAPYVLTIIALTGF
+IGRADAPKALGTPYIKGKR
+>tr|A6CMJ2|A6CMJ2_9BACI
+MNLPKAYLVNTNKSQNPRNEAEMLEEQKVAAYYSPWKYLINHIESNDMVYLYSNGNGIIA
+RGIGSGIVEKTGEDDLEHYMPLLQFEKLEEPLPPSSILQLAQGVTDENYRIKWNQTLIHL
+QGFIGEEIWRYITKNNL
+>tr|A6CU27|A6CU27_9BACI
+MEGEVITMKIFTYYQQDGKVIDRFDSKGAVIHPLVKSEKPFQIGCMYLDRNSILGMHKAM
+CPQLFIVTDGSGWVRVEGGEKIPVEKGTAVFWETGEEHESGSDTGMTAIVAEGEEFDPER
+FLNLK
+>tr|A6CKR6|A6CKR6_9BACI
+MMLKGIKIIDFTNYIPGPFATQRLAEMGAEVIKVEAPDGDPARNTGKGLVFTAHNRGKKS
+ITINLKHNEGQKLALGLLKKADAVMESFRPGVMERLGLGYKDVSSINPGIIYCSITGYGH
+SGKMSRLGSHDLNYMSLSGALAQLKDEIGNPVHPTHTFADYVGGLAASERILAGLVSRSL
+SGEGSYHCLSIAESMASLMTNHVLIEKETGYQNGVGVLNGAVISYGLYATKDQKHVCLAA
+LEPKFWRNFCQALGRDEWLSAHLTKPDTNNEVYCEMIELFKSKSLSEWAAFGMEVDCCLT
+PVLEAGEIAEYPLYKVRGFVSFNGGVKMHGDLDSVAASPPPEKGAQTKEILCEWLGANDQ
+DLLDWQTKGVIQYLK
+>tr|A6CP92|A6CP92_9BACI
+MLQGKVKWFNAEKGFGFIEVEGQEDVFVHFSAIQGEGFKTLEEGQTVSFEIEDGARGPQA
+ANVTK
+>tr|A6CUE0|A6CUE0_9BACI
+NVLGVSEPNIQIEDGDRIRVQLAGVEDQNEAREILSTQANLSFRDINDEVRLDGSDLVAG
+AAQQAFDQGNNPIVSLELEDREKFYELTKELSQQPQPSNRLVIWLDFEEGVDSYQEEITK
+ATPKFLSAPEVSKPINSNEVQITGSFTIEEAQNLASLLNAGALPVELEEVYSTSVGAKFG
+EQAMDKTVTAGIIGIVIVFLFMLVFYRFPGFIAMITLSVYIFLILWVFDMMNGVLTLPGI
+AALILGVGMAVDANIITYERIKEELKVGKSVRAAFQAGNKSSFMTILDANVTTILAGSVL
+FYFGTSSVKGFATMLIVSILTSFLTAVWGSRLLLGLWVNSRAFNKKPSWLGVNPKDIKDI
+AENYDTLDLPTKYDKFDFAKQRKKFFAISGILITAGLIVLAIFRLNLGIDFASGTRMEIL
+SNGSLTSDSLTEELEEAGFPSDEIVISGDNDEIGVVRYKEVLTKEEIAELKNYFSEAYDA
+EPNISTVSPVIGKELAKNAMLAVAIASIGIIIYVTLRFELYMAIGAIAALLHDAFFIIAF
+FSLTRLE
+>tr|A6CI52|A6CI52_9BACI
+MYEFLPMTDEAAEEIAYQWNYEGEYSFYNMTADQEDLEEFLHPDRSGYYTVEKDGKMIGY
+FCFQKKESGTVDIGLGMKPALTGNGLGLEFALEGMRFAIANYEPLKLSLSVASFNQRAIK
+VYEKAGFLPIETFMQDTNGSTYEFLKMEYEIKENEDVPNAGKF
+>tr|A6CHH6|A6CHH6_9BACI
+MLNEQQLKDIEGLQEICENQEGYKLKLNGDMLLSRNHRQDDYFHYENGKLIGFLGLYGFG
+SSYELCGMVHPAHREKGIFRSLFQQSAASLKERRVKKLLINAPGSSQSGKAFIETLPAKY
+SFSEYQMKWEPKQLKEENNEIQLIPVNQEDIPFILDLDYLCFDVERDDSLQFMETVQKDE
+TSSSFMIEYKEEKVGKIHIQREENRSYIYGFAVHPSHQGKGIGRSVLAKTVLTENKAGRD
+IFLEVAAKNAHALKLYEGTGFVSYQVQDYYAYEDL
+>tr|A6CL74|A6CL74_9BACI
+MNSKLENLKKAMDATTHKGPHFTGIQKRNIQAAIHLEKKENQRPNRFMIFSLSAAAITIM
+IILFSTQLLPMPENNSGSYPLSLEWEVRDEFVEDGVEKFGVFPEPQLTAGQNSGYLFSFR
+EPFDTYKGKELSIDAYNRKTGERINVVPPEKITDPSPGYSSLQRFTARFEIPYAGVWRYE
+VLLDGQSYGDVVLTVGDEEGIMLPVDIPSFVEQQDFEAIDWERNAVNFSGGIFGNENKSG
+VIGADMPSLTPQKWMWHLWGNQSANLTVVAFHKVSNTVHPILDNGWKWTVELGGPVNGAD
+AHVPTSVTLPEPGQWAMLLYDGDVLFDVLVFDIKE
+>tr|A6CRR8|A6CRR8_9BACI
+MGLNLRNAIIHNVSGNNQDQLKDTIVDAIQGGEEKTLPGLGVLMEVFWNTADPQEQKMLL
+ETIEEGLNK
+>tr|A6CP21|A6CP21_9BACI
+MVFKRRVNMKSGMKVGQTASVTVTVTPDMFAQFDGEVVHPVYSTVSMVYHMEWASRKIIL
+PFLEENEEGMGGAVSMKHIAPSSEGTTVTITATLTELQSNIVITKAEARNENGLIGIGEV
+KQVILPKERIRMMGK
+>tr|A6CTR6|A6CTR6_9BACI
+MNSLILKEVLSMTKKYNKGSKNQNSPHAGHNQAEFSREIASGDNSKGNKHNKDQNDKTDR
+D
+>tr|A6CMM6|A6CMM6_9BACI
+MVIRAGAVEKSGKSVIEELFKDMEARKDWEKCLEEAPQGRERLK
+>tr|A6CRR1|A6CRR1_9BACI
+MPRVKGGTVTRRRRKRVLKLAKGFYGSKHTLYKVANQQVMKSYMYAYRDRRQKKRDFRKL
+WITRINAAARMNGLSYSRMMHGLKLAGIEVNRKMLADLAVNDEKAFAQLAEAAKSQNNK
+>tr|A6CJ02|A6CJ02_9BACI
+MTGEDSANYQSEIEVAWEFVKKMGWDELAEGDWRNASVEVTDTSHGHLLEGEDERDEVLM
+VSFESQENLMNGVPSIFVDLDEKAVIGYVPTE
+>tr|A6CR99|A6CR99_9BACI
+MIRGILIAVLTIGVAGTAYWGYQEHQEKNAILINAENNYQRAFHELTFQIDLLHDKIGTT
+LAMNSKKSLSPELADVWRLTSQAHSDVGQLPLTLLPFNKTEEFLANIGDFSYRVAVRDLD
+KEPLSDEEYKNLKQLYEQSADIQKELRKVQHLVIENNLRWMDVEMALATGKEQADNTIID
+GFKTVEKTVDGYDEANFGGPTYVNTQKKKDDYKNLQGEPISKEQAVDIMKKYTRIEDVKE
+VKVTENGKGSNFGFYSVSLANTNSEASMDVTKKGGYPIYFIHNRDVEKSNIGLNEAANKA
+EAFLKENKFKDLELFESAQYDNLGVFTYVTVLDGVRVYPDALKLKVALDNGQVIGFAAEE
+FLKNHQDRDIPEPGISKDEAQGNINPNVKIMEDRLAIVVNDLNEEVLCYEFLGMLGNDTY
+RIYINADSGAEEKVEKLKNAEPIFEETV
+>tr|A6CMY7|A6CMY7_9BACI
+MLIGVILIYGTYKKVPTYESFVDGGKEGIKIAVSIIPFLIGMLVAITVFRASGALEFFVS
+LMEPVLHAVGIPADIVPLAVIRPISGTAALGMVSDLLATHGPDSFIGRLASVLQGSTDTT
+FYVLTVYFGAVGIKKMGDALKVGLLADLIGIISAIVIVTLMFS
+>tr|A6CTT9|A6CTT9_9BACI
+MNLFFIKTFTNGMGTMDCMPTLITGLEGLRKLKVDSFQLFDQPFISVAVGLPETFSNCSY
+VLLVLIKE
+>tr|A6CTT4|A6CTT4_9BACI
+MNKRRVVVTGLGAVTPLGNDVETTWSNVLEGKSGIGPLTRLNADEYPAKVAAELKDFDPE
+QYVDRKEARKMDRFTQYAVASSMMAVKDANLTITDEIANRVGVWIGSGIGGMETFENQFE
+TFQKRGYRRVSPFFVPMIIPDMAAGQVSILLGAKGINSCTVTACATGTNSIGDAFKVIQR
+GDADVMVTGGTEAPITKMSMAGFCANTALSTNTDPNKASRPFDADRDGFVMGEGAGIVIL
+EDLEHALARGAKIYAEIVGYGSTGDAHHITAPAPGGEGGARAMKIALEDGGLSAEDVDYI
+NAHGTSTPYNDKYETMAIKEVFNDHAYKLAVSSTKSMTGHLLGAAGGVEAIFSILALQDN
+VLPPTINVDTPDPDCDLDYVTEGARKTEVNVAMSNSLGFGGHNATIVFKKYK
+>tr|A6CHY7|A6CHY7_9BACI
+MLSFTSIASNTIATSWAYPFIVWQGHIYVVTEEPVIDIEMKIGEVTAFSDMQQLPANFSN
+EFSMGTKFYTIKNISTDNAIAVEVDNGIYHRADKKGIYGAKEPVVYNGKVSVMVLSILIV
+MLSIGIIMGLRNLRGI
+>tr|A6CRS4|A6CRS4_9BACI
+MLDLALLIILIFGFFVGLRRGFILQLVHMTGFIISFIIAYIYYEELAPKLTLWIPFPVLD
+EESALNMLFEATNLDQSYYRVIAFAIIFFAARILFQIIGSMLDFLAHLPILKQLNVFGGG
+ILGFIETYIILFILLYIAALLPIAMVQTLLNDSVLAEFMITHTPFLSDQVQDWWINYVSE
+>tr|A6CNY4|A6CNY4_9BACI
+MLTLVLCPLHEAISSHFKRRNGLIHSTPIRLIQVLAIPLHIKRLSPITEKAFFTHFY
+>tr|A6CKT0|A6CKT0_9BACI
+MFYNKLKDKLKENSGKSALGAFVGFPSTQMVEMAAYNGFDVVVIDNEHGLLSPENVEHMV
+IAAENAGVTPLVRVVSSDAAVILKTMDRGAHGVHVPQVDSKEEAQKVVEAVKYPPLGKRG
+AAFSMRAAQYGTVPIYEYLEHANQQSLVCIHIESGKAMENLEDILSVEGIDIVYIGPTDL
+SVSMGYGGRVDHPEVLKSIDKIYKVAKEHGVKVGIHTKNKEGARQREEWGADYVSLTVTS
+LINQSFKDYISGVKTLTIEK
+>tr|A6CKN8|A6CKN8_9BACI
+MNPLVTNAAEAAIKRNEAAISFGGKLGGTTGQHTLVPFYRDGCVFYLLNYVGVG
+>tr|A6CIN9|A6CIN9_9BACI
+MNRRIGVFLFIFLSFLTWLFFAIYLSDVGDWWTVMEVKQLSEEAKVVGISSVKVLISTSF
+FIVVGTVLNKVIKRL
+>tr|A6CIL5|A6CIL5_9BACI
+MGRIVHFEVHVDDMERAVKFYGEVFGWTFEDWSEFAGMPYMGAVRGGEDQPGINGALMQR
+QGPPPEAGQPMNGYACTMGVEDYDSTEEKILASGGTVALPKYALPGMAWQGYYKDTEGNI
+FGIHQPDENAK
+>tr|A6CLQ5|A6CLQ5_9BACI
+MKIGSETVKNDKTMKIKEKQQFPLTIKRLGINGEGVGYFKRQVVFVPGALPGEEVVVEAV
+KVHPKFAEGRVKKVRKRSEHRTKPPCPVYEQCGGCQLQHLSYEQQLVEKRDILMQALERH
+TKFDLEKLDVKPMIGMVEPWFYRNKSQFQLGFRDGKIISGLYSLNSHKLVDIPECIVQHP
+STNKVTNTVKKILSDFKVPIYNERTKKGIVKTVVTRVGVTTGEVQVVLVTVGKELPRKDM
+ILSEITKRLPEVKSVAQNINPKATSLIFGNETIHLYGTESIVERLDKFSYELSARAFFQL
+NPTQTIHLYNEVRDAAALTGHEKLVDAYCGVGTIGMWLSNGAKEIRGMDVVKEGIENARK
+NSKKFGMDNATYEVGTAEEWLPKWKAEGWRPDVVVVDPPRTGCEPSFLNTILKVKPKKFI
+YVSCNPSTLAKDLKTLSKSYDVEYIQPVDMFPQTAHVESVAKLVLKK
+>tr|A6CPS9|A6CPS9_9BACI
+MSIKLINIGFGNIVSANRIISIVSPESAPIKRLIQDARDRGTLVDATYGRRTRAVIITDS
+DHVILSAVQPETVAARLTDKDDIAEEGQGK
+>tr|A6CQD9|A6CQD9_9BACI
+MIINQNITALNTLNRLKENNKKVSVNLERLSSGMRINKAADDAAGLAISERMRAQIRGLN
+QAQNNIQDGISLVQTTEGALAEIQDSLQRMRELSVQASNGTLTNGDRQGIQNEINQLNQG
+LNDIVNKTEFNTKKLLTNYTESSFQSEWKTVKTTASGNFRDITTNGEMFVAVTTDGDIVS
+SADGEVWEKETNLSRILTNVYWDGDRFFTTGEGQTVAYSGNGKDWKIGIDGGSHYFFDIA
+KNRDVYMATGNAGLAYSNDGVNWSYTDPNLNQASEDLISNGQDFVWLQGSELKTSSKGVS
+WTTHFDFYDTYSAGEPDIAYNGEIYVVANRDGRTFTSPDLLNWKERQSLTENVMEVKWEN
+NQFMAISQGEYGDNQSVVSISRDGVNWSSHMIEDPYINSVSSINKLYIAVGSNGQVYKGE
+LSEKPYQLTLQVGSNINHFKIDLPNASSLLEETSNISVLHADKATEAIKLLDIAIRDISS
+ERSRFGAYHNALEHIHNNVLNYEQSLVSAESRIRDVDMAKEIMNQTKNVILAQASQSIIT
+SANQQSQGVLQLLR
+>tr|A6CSK9|A6CSK9_9BACI
+MAQDVLCEVSNCVYNRDGRKCTADQIFVTSHSNSKTRKNEETDCQTFEPEA
+>tr|A6CJD6|A6CJD6_9BACI
+MESHRSKKISKLYRRIVTSDETKALLIYNGLDSNTKEELQQLMKEMDTERTKSILNKIS
+>tr|A6CR80|A6CR80_9BACI
+MTYIEAVVLYCLKKINGERTIFSVYHLLKGKRSSQTIQDAHLYSLTSMFYSFPIMDRIGF
+EKMAAKLHENNLISESEPEKFILTQEGRSQLNEFFRERPFPESLNGWLYGSSVEHLWKRI
+SLLVQVLSHYIRDEQKYYPIQRDREVQKWIKRFLYNPPIPLKDLNHHLFSELVSLMKNET
+FPDNAELLICRLTGGEYIGLTRGQAADNYRMSEDEYWFRFLNVLHYLIKEVSEQKTEYPL
+LYSIIVDLVPEISLTQSSEETYKLLKRGFGIERIAEIRRLKESTVEDHIVEIALNDSQFS
+IEGFVPIEEINQIIQKAKEVNKRKLKPIKEALPQLSYFQIRLTLARYGDRL
+>tr|A6CHA0|A6CHA0_9BACI
+MKKEDLKKELTPMQYEVTQNNGTEPPFKNEYWDEFGDGIYVDIVSGEPLFSSKDKYDAGC
+GWPSFTKPITEEEVKEKMDYSHFMVRKEVRSKSGDSHLGHVFDDGPGPTKLRYCINSAAL
+RFIPKENLEKEGYGEYNKLFD
+>tr|A6CRV1|A6CRV1_9BACI
+MEDILTKHYGLQPERSFKDGRAERYMADGSIYTIVNVTNREQDNLAELYNISEHMKKYGD
+RYVSSFVPTAEGRFLVNEKEQDYTVLKNNPHSRNAEEKIGRKLAKFHHRGRAIEEKITHI
+SRIGQWKTLWEKRIEQMEKAYQMVIENHPVDEFERMFIDSCPYYIGLAENAVQYLVDTEM
+DDNPVYTDSGTVCHERFSEGVWGREITIRNPFDWVFDHGGRDIAEHVRERYFKRQNTHQP
+DIQQFLRDYQSVEPLSSFSWRIVFARLLFPLHYFETVENYYLSESEGQQFQMGEKLHGYL
+NSTRHYEQFLGNFYGVGEVPVKSYGIPVVTWLR
+>tr|A6CMC9|A6CMC9_9BACI
+MTMKMVIFFMGFLRVLGAVFYLIKPSVGYI
+>tr|A6CMY8|A6CMY8_9BACI
+MFLSEKKVTFLLFAEGYLTPRGWALQLDWGSHLSSKVEASWSDPTGKCS
+>tr|A6CI41|A6CI41_9BACI
+MESGDGKMKELIMSNNDVLTMLDGLLQEQRSFDWDGFYADRNKKVPFFVDLPDENLVKYI
+EKGILPGGKALELGCGPGRNAIYLAEKGFLVDAVDSSEEGLNWAAERAKEKGVAINFRRE
+DLFDMDYKEQDYDFVYDSGCFHHIAPHRRMDYIELVEKALKPGGYFALSTFIEGGPLGGA
+DISDWDVYRLKSMRGGLGYSEKKLKTIFQTFAPVEIRFMEDRPNSKSVFGLAGLRVALFK
+KKR
+>tr|A6CI98|A6CI98_9BACI
+MKKWILFLALTATISLLAACGGEEAGGSESESKEITIGATAGPYSDMVTKALKPGLEEKG
+YTVEVREFSDYIQPNNALAQGDLDANLFQHKIYMETFSEQNGLELSEVISVPTAPMGIYS
+NKFDSIDAIEDGSTIAIPNDPTNAARAFQILQDAGLITLNPDSDPLTVSEKDVEENVKNL
+KFQPIEAAQLPRAVDSTDLSAVPGNFALAAKMDLLDALQLENMPDQYRNRVVMNTKDIDS
+KLAQDIQEVVGSEEFEAIIDEEFKGFGKPEWMEQ
+>tr|A6CMX4|A6CMX4_9BACI
+MEGSVYIRLRHSLQVRPESSILLENTAQIIAPEHYLQAIRKIVLHKVTKEDKNIIILDLM
+RVISQIKAVLPDADVQTIGPSQTIVEVVYKRKKVSPALFAGVWLLLFIGAALAIMNFHED
+VSMREVHQRLYLMVTGKEDPHPLLFQVPYSFGLGLGMILFFNHVFRKRINEEPSPLEVEM
+FNYQQDLDRYVTMHENKESMKHLDDD
+>tr|A6CHR1|A6CHR1_9BACI
+MKFVVLKKGSLLLFIIGFLALSLGLVWMLLPKEAYPTVTMNGENPNVQVIQLVTGEFSSE
+TEDGKEIEAYRWDPGTIVVDKGKEIQFRIYGVNGKAHPFYIEGTDIKGTVKKGEESIFNV
+TFDEKGTYRLVCQAHETIEKNGPMIGYIVVK
+>tr|A6CQL0|A6CQL0_9BACI
+MKAGIKSLGVYIPERKMTAAQLAEKAGMPENIVIEKLGIKQKPLPGPDDHTCEMGIKAAR
+DAIEKATIDPAEIDLVIYIGEEYKEYPLWTAAIKLQEEVGAVNAFAFDIALRCGTTIMAV
+KIARDMMTADPDIKTVLLAGGYRNVDFIDYENPRTRFMYNLGAGGAAMLLERDSKQNFIL
+GSHIITDGSFSEDVVVPVGGTKSPLTAESLAAGLYQLDVPDPEGMKGRLEKKSMDNFLKC
+IREALRKSGCTQEDIDYIAILHMKRSAHNYVLDQLGVRHEKSIYLEDYGHIGQMDQIISL
+QLAEERGLLKKGDIVVLVSAGIGYAWGANVIRWG
+>tr|A6CMA6|A6CMA6_9BACI
+MPKMRKEFFIQILASNGIDYSNLTQTEIEFRALGILGYKGTVADRRRTFYQSRTGKPWLV
+DAINENDPDA
+>tr|A6CSI3|A6CSI3_9BACI
+MKRKSLVTLSIAATLTIGSLQTTGFTASANSSLSDLKHKHEDVQEQKEEVNSKIDEKTSE
+INANISRQEKIKAEIAALDTKIRDTEDRINEKTAEIDKTNAEIEKLKEEIIVLENKIAER
+NELLKERARSMQEKGGSASYMDVLLGAESFGDFINRITAVNAIVSADKKIIEEQKADQAQ
+LEKTKAEVEDKLAQLEEAKANLVSLKKDLDSQKGQKNELFKELEAEQEQLKEEKTELVAH
+ANELAKVEKQIGGQIEAEQARLAELARQKEIERKKKLEAQRKAEAERLAAQRAAEEAARQ
+SSGGNSGGTSVSTPAPAPAPVVEEGRWTRPSAGYITTEFGYDVLNGKPRYHYGVDIAAGG
+HVPIVAAADGYVIKSHYSSSYGNVVYMTHSIDGQTFTTVYAHMSGSSVSSGQFIEKGQRI
+GTMGNTGYSFGQHLHFELHQGSWNASKSNAVNPRRYINM
+>tr|A6CTR1|A6CTR1_9BACI
+MFSLFSRKKGTDKNKKKNTQETFEKLARKSTDYKEIFYYNQHTNLRFGLNFLSTLVDEDI
+LQKDVLPSLLGKHFEKLDDIKKLAPVIDIQLSDDESQIEQKLMNGYVLLKTENEKARFAF
+IAAQKEVSRQVSQPEVEFSVVGPKEAFVESIDQNLNMLRKRVPLKELIIEDFVIGRMTQT
+KTCLLYIDGLADQENVQTMRQRLKAIDFDQINDSSFIEQMVADNANSPFPQLLDTERPDR
+AASVLVEGKVVVLSDGSPHALLGPTTLVEFFSAYEDYFLNYIVASFFRLVRVFAVAFSIL
+ITPIYVAALTYHYELIPKDLLATLITSRQEIPLPPILEALFLELTIELLREAGARLPTKV
+GQTIGIVGGIVIGTASVEAGLTSNVLLILVALAALASFTTPVYKMGNTIRILRFPFMLFA
+QLWGLLGIVFCFCFLMTHLIRLTSLGRPFLEPLYPPRLYDLKDAIIRFPFHSQSKRPEFM
+RTKKPRRFNPAEGRKKLDIDE
+>tr|A6CLJ7|A6CLJ7_9BACI
+MGGAFMKETTGKKFTSAGTDIEEVKRRNAQAGLSYNEVKQLLAERMAQRK
+>tr|A6CT34|A6CT34_9BACI
+MLNISYLQITMAIAGALAVLIMMLLYLVIRKKAEQKRNSRLLFMKEKIRPLLVKEMLNGD
+DIELKQINEDSIFTTAVEDILKNFESNFDSSSFKRTIPETAEKYLSGSVNKGLESNRWAE
+RMNALMIIKDFQIYSFVPLLWERYEKSTTTPQEKNLIMQTAAGADDPRMLEVLLTSPPYQ
+STFFYKQIIRRVPAETLNTIILKFSELPSAFKVAVLSYIGEKRDLSLLPFTETCLDSEDH
+EVRVNAVKAIRDIGFISNPKALYPYSASDSWVEQMIFAQAAGEIVHSNYMEMLIELLSSS
+NWWVRYYAGEALTKYKDGKSILEKASANHPDAFARDMASQWLGSV
+>tr|A6CU47|A6CU47_9BACI
+MSDYLVIVESPAKAKTIEKYLGKKYKVRASMGHVRDLPKSQMGVDVEHDFNPKYITIRGK
+GPVLKELKTAAKKAKRIYLAADPDREGEAIAWHLAHSLDMDVNSECRVVFNEITKDAIKE
+SFKHPRPINMDLVDAQQARRILDRLVGYNISPLLWKKVKKGLSAGRVQSVAVRLIIDREK
+EIKEFTPEEYWTIQALFKKGKNNFQGAFYGLDGNKLELKTEKEVNDILEKIKGDSFEIKK
+VTKKERKRNPAAPFTTSSLQQEAARKLNFRAKKTMMLAQQLYEGIAIGKEGTVGLITYMR
+TDSTRISEVAQKEAAEYITDKYGNEYTKSQERKEKKGQKAQDAHEAVRPTSTLRDPASMK
+EYLSRDQLRLYKLIWERFVASQMASAVMDTMSVDIVNGDVYFRANGSKVKFPGFMKVYVE
+GSDDQMEEKENLLPALQEGDVVSYEDIDPKQHFTQPPPRYTEARLVKTLEELGIGRPSTY
+APTLDTIQRRGYVSLDN
+>tr|A6CHN7|A6CHN7_9BACI
+MFPWNSFFPFNKNMKDMMKNMDPQDVDQYVKGVMKEMFPRDWQGMQNPGDFMKNMGSMMD
+GKAYEHSREDSAQSAPEKIPVNIFEALENIYIQLKIPDEELVKNIKVFHTSNQAILENIP
+SAGERQVITLPTLVKKKGSSAQYKDGILEIKIPKSLDLQFTEIDVSER
+>tr|A6CIJ6|A6CIJ6_9BACI
+MRGQDPLKKLFLLLFMLLFSAMLIGCSSSDAENVKEILDEELIVNHWPDLPDERKLSLIQ
+EVQSEGRYTERHTEEVKEYLIMLFDAGMRNTPHQKNNLMKAMKEFNDDRVITENSK
+>tr|A6CJB5|A6CJB5_9BACI
+MKRRAASMGIVVVEICDGSLINSINLEEILEGKYPEVSVLENTCLSFCGMCAKRPYAIVN
+GKRIFAKTAEECLIKIEEHIEKELAIYA
+>tr|A6CQE9|A6CQE9_9BACI
+MIPDYVKSKMADYHNQYSEIAQELFTFWLSDIVFTLPWWIGLLLIVMPWLIWFLCKEKIN
+THKYLYSGFFVIIISSYLDFLGVQAG
+>tr|A6CP77|A6CP77_9BACI
+MLSNPIFMFFKLIAEGFFPICPIFLDISIIREISSLIIEAHGTDTFLVLASMVEGARMKR
+CFLNQRRA
+>tr|A6CKG2|A6CKG2_9BACI
+MDGVVKCPECVNELKQGYIFSPRRICWSDSPDSIFADFGSEILIGDAWVKVKKTPALRCE
+ECNIVIFKHKDNNDE
+>tr|A6CP18|A6CP18_9BACI
+MLAGCGNDKDAASGDKQYTIGVTQIVEHPSLDAAYEGFKKALAENGYEEGKNVKFDVQNA
+QNDQSNSQSIAKKLVGDKVDLIFANSTPSALHVLNETKEIPIVFTSVTDPVGAGLVEAFD
+KPGDNITGTTDTNPNAIPQTVGFMIDEVGAKTIGVIYNSGEQNSEVQVKQVNEIAKEKGA
+KVVEVSISTSAEVKQAAESLVGRVDAIYIPKDNTVVSALESVISVSNDKDIPLFVGELDS
+LKRGGVAASGFSYEDLGYQTGLMAVKILNGEKKASELNVETPENAVLTVNKAAAEEQGVE
+IKDDWADLVEFLE
+>tr|A6CQJ3|A6CQJ3_9BACI
+MHLFFKRIRNSFLFQYNVIKSVADWTVMLYLIVPSAVIGTMIYRSWWMEIPEWIVPLPFE
+LFFLIPFFYILTGYFRTCLLEADQVFLTKHPKILLGLKKWGVFSSYGNTLLFTAAIGLLI
+APFWLLHFNAGIMSLLSFLTFILSSKWSHMAVKGILVGLRKNWKRTLLFYLAIIMQLQMW
+GIAYRLIDHGQYMILALVNTLLIASSFLINRKRIYSKNSMQRDLRIENKLKMKWIRLIFM
+FSHQVEKEPVSAERNRPRLLRKSQPIFKKRTPFHGYLELFVKVLIRNFQYSATYFQSIGA
+LSFSQIVLPALWLKLGAAGLIALSLLAWNEWVWDKLIIKHPIGSKYSNKRELRKVQNTTR
+IVAFIPYFFMLTFSLLSHFGVI
+>tr|A6CQR2|A6CQR2_9BACI
+MYDVVGVRFKKAGKIYYFDPGELEIEKNDYVIVETVRGVEYGKVVVDRKKVGENDVVLPL
+KKVIRSADHKDQMAVQENKEAAEEAYEVCCSKITEHQLDMKLVDVEYTFDRNKVIFYFTA
+DGRVDFRELVKDLASIFRTRIELRQIGVRDEAKMLGGIGPCGRMLCCSTYLGDFEPVSIK
+MAKDQNLSLNPTKISGLCGRLMCCLKYENDEYEAAKEELPDVGEIISTPHGEGRVVGLNI
+LERVIKVDIKEVERVLEFTLDEISNESAVSIQATE
+>tr|A6CTD7|A6CTD7_9BACI
+MFQFIVNGWTIFLYDIKKGKNKWYVWENEAYAPNIHIYARVMQEGARETAQCARLTVKVL
+IV
+>tr|A6CIZ0|A6CIZ0_9BACI
+MMSDKSLDSAMQNVLSGLSDFRDEEEAKQHKRLWGEISVPLTLHEGLSSYTKTELDAIRK
+KMEIPNASSLKKAELLSVLEEWIPSLGNQYLLWDSERFGWLTKIAKNDGYLPANKLEPEQ
+VEYFRATGLFYSGTYAGKQILAVPEELIEPITELANDKEVQLTVKRNTEWLKLTRGLLYY
+YGTLPLTTLIDMLEKHLGETLRLKTYLHVIHEANLYRERDIQIDEEGYSDSRVFSPKRVL
+QEHESRINVEFYPFTKQQLLTAGVPDFVERNASYSQFVNYLEKNFNIGKEKADQIAEECV
+YAARIGHGPNDVMQFLTYSVEFDSLETIQSVMDRVVKLMNNTRQWFLKGHTSVELSSVEK
+NHLQHVRSAGTSQRIEVVKVGRNEPCPCGSGKKYKKCCGRYV
+>tr|A6CNU4|A6CNU4_9BACI
+MSDPVLLFSLIVLVSIAGWKTKNLSVSGSVAAVMTGTAVAWAFGWPGLLVLGVFFASSSF
+WSKFKSSEKSAIEQKLAKTSMRDWQQVFANGGSAMVFALLYSSTQDISYLLGAFASLAAS
+NADTWASEIGPLSKVSPVSIKTWRRVESGTSGAVSLLGTFASFAGAIVIAFISVGVFKDI
+GWMGGVIIAVTGFSGSLIDTLLGATLQVQYKCPRCGLVTEAPVHCRAKCQKIKGTYVVNN
+EFVNFAASLLAGLAAAVFVQIIA
+>tr|A6CTC3|A6CTC3_9BACI
+MQGIEVNVLKYFWTFFWTFLLVEMLTYVVASMTGAHFDFMTGLILAVGATILIFIVPMII
+PNDPVEKH
+>tr|A6CMJ0|A6CMJ0_9BACI
+MPEKITHSKRGEKMDEKLDKILSKLDSIDERLDKVDARFNDVDKRFDEQDKKFTARFDQQ
+DAKFVEQDKKFTAKFNEQDQKFTAKFDEQDQKFTAKFEEQDKKITSRFDQQDARFDKHDK
+AFAKQESKLNTMDKRLSNLETGQDEIKEIVKRIETNQNEDVIALLKTFHTKIDSSSEALN
+RRLFHAETDIQRLTKK
+>tr|A6CNF3|A6CNF3_9BACI
+MVVISAAGTRLRGAGVEPPRLRLYKSGSALFSPDRQMFHSEEKVIFPFIRCGLFEPRGWT
+LQLDWGSHLSSKVEAPLSAPTGKCSEEKKRRFFLLFSSGYLIPRGLALELDVPLIPQEV
+>tr|A6CQP3|A6CQP3_9BACI
+MAGVNDMYVYMTSGTHEFLKTLENKHMDETLILMDNADTSVLVHETEGKSVFQEPRRYEV
+IDSTGDLKKHGFVVINNIPVSDEGRPVFEYRFKNRAGLIEEVDGFIAIRVLRPIETDTYA
+ILTQWEDEHSFKQWQDSQQYAKAHEKRGTEDGVDAQRNMFPRPSYVTQYSIAADED
+>tr|A6CQI6|A6CQI6_9BACI
+MTAIAKLASLETKMFFRDRLSVFWTFLFPVAMIWLFGSMFVGQEMDSKLFAEMFVPAWIG
+VNIVTTSFFTLGTVLTGYRETGVLRRYQSTPLQPWKILAAHTFQGTVIFAISAVLLMVFG
+MLMYDLTLPAYIGSTLLALLISILAFFPFALFMTSLAKNTQSAAAISSLFLNLMLFLSGA
+TFPLDMMPTVLQYVAKILPLYYVIEMLRGTWSEAPITDFGLEVSILLGIAVVSTVLASRF
+FRWSDK
+>tr|A6CQC8|A6CQC8_9BACI
+MISKYYNHKNRRNMNGPTAAVIRYEESEGKAPKVIAQGTGHLATKIMELAKEHNITMQED
+SSLVQSLLDIDLGENVPPQLYSVIAEILLFIEEMENQY
+>tr|A6CTF3|A6CTF3_9BACI
+MKNLTGAEIRRMFLEFFKEKGHGVEPSASLVPHEDPSLLWINSGVATLKKYFDGRVIPQN
+PRIVNAQKSIRTN
+>tr|A6CRE5|A6CRE5_9BACI
+MIFLIGFMGSGKTTIGGALAQQLNCDCIDTDQLIEEKYQMKIREIFAVYGEKRFREMETE
+ILHELNDDGVVVTTGGGMAGREVNRQVMKEKGKVIWLNCRFEELVKRIADDAARPLVIQK
+GLDGLKSLYEERHPLYEGAADHMIDTSGLTVEETVKKILSCLKIDSPGETNR
+>tr|A6CTY0|A6CTY0_9BACI
+MEAFIISQTCSYAEYFKLSASKQGFDKINFCIIKVNLIFFIYKELNSIYFSYVIIF
+>tr|A6CU70|A6CU70_9BACI
+MNEYVYPVVFGVFIGTLTRIYMLRTDYRQYPTYLHGKIIHIALGFIAAGLGTIAVPALIE
+ENFTAITFLTVAASQFRDVRNMERNTLTELDAFELVPRGATYIEGIAIAFESRNYLVIFT
+SLLTTLAYLLVNFWAALVVGIIGIILAHRLMAGGKLKDIVNIEFVQPHFDGAGLYVDNIY
+IMNIGLPARQEEILRYGMGFLLTPKSFDSRSTIANLGQRQAILHDMSTTLGIYKDSGTPA
+LTPLAKRDLDDGRVGVFVLPQEKDVEKAIAVLGQVPTLENAIRMPTESKANEKGRKLE
+>tr|A6CPK5|A6CPK5_9BACI
+MNYSWQDWMDLEGVTKNNNTLISHTNYVLITTLKGESECKYVM
+>tr|A6CQ05|A6CQ05_9BACI
+MNLGNFLIYLMDTMEIEIAYHLKINVLKLGGFGRRKKHGLQKYFGCYNRAETNNEKFS
+>tr|A6CJ99|A6CJ99_9BACI
+MSDKLTEKNNTDIHKKFISTSEKRILHKLVQAIIREGAAVSQWIPYGEFGGIYRLQTHQL
+HSSIHIHINKKYLLGHIDIDQVIHIQEGSKKEVTHPVEFLQALFQETDEVLQLMEEINDS
+VRNDALALTAAERKKVRFHYDKGLFNALLHQKNSVPAFSPLVFLEQSVIEGHTLHPCSKT
+RMGLSIEENQKYAPEWEAEVELKVLALHKDIVNTTSMSKKTMTDLLLSDYPDMVNDKNYD
+CTSYELIPVHPWQFEHVIEKHFYSDLSDGNITVLNQGIMVKPLMSFRSMAPEKGTKLHHI
+KTAVNIQMTSAKRLVSPASVHNGPVVSMLLKKVEQDDPFISGKAIFLAEVAGSHYSGSVQ
+SDEIVPEKNLSCLIRENPEAYLAQGELAVPAASLINRIPSSKKIVLKELIESFSETRKLT
+LEEGAAEFLGHYTKVLMPVLMHLLIKYGISLEAHLQNTIIIFKEGIPVKLMVRDNGGVRI
+HKQLSAEWMDVNKINDSTNLLTNDTRDLYQMFSHAVIHNHLGEMIVGLARENGIKEKVLW
+DKVKAVVCSYLTEIRVEERLQGRIAELEDHLFAPFTYLKALVKMRLSDSFTEGVYVNAGN
+PLHPLNKGGNIL
+>tr|A6CTK6|A6CTK6_9BACI
+MYGGKRSGLMNRIIVNALGREKRWARLRDGIMESFHVYQPEKESIAGNIYIGRVDKVEKG
+LNAAFINIGEGKNGFLHIEDLAEYMLLDEKERKTAEINRLLHQGQKLIVQVKKDPAGTKG
+PRVTGIIEMKGTSLVYLPHGRYTAVSKKASSEEQKKKWRRFGSRIKEEEEGIVFRTAALG
+KAEKEIQNEYLGLKKQYQELYSSSLSKKAPFLLHRQDVMKEDILEEIKKVKQAEIITDDY
+SWKNEFQEFLHNNKASLGGEITHFQSHENIFVHYRVETQIEKAMKKVVWLDNGATIVIEP
+TEALTVIDVNTGKFTGKSDLSQTVLKTNELAAKEIARQLKIRNLSGIILIDFIEMKSEQH
+QTEVVNALKEGLKEDGKRTTIVGFTELGILQLTRKKTKPPLLEYISCRCPICSGYGMVES
+AESMAYKLERELYELYPADEDKVIIEATEDVQKVFKGESSQYLKEMEKSINKKIEFQPVS
+QSHPFYRIKRLGNL
+>tr|A6CSB0|A6CSB0_9BACI
+MSESSTTTEILIRLPQQLVTELDGFAEQENVNRNEYIYRATKMYLRERKKRQIRETMRRG
+YMEMAKINLAIASEAIQAEYEAEHTVERLVSGG
+>tr|A6CU14|A6CU14_9BACI
+MLGRKASKQPNQVEVLKRLGQKESKRLNKKGKLRRCGPVTNVNGRLYSFCANKKRLSNNI
+WFLDFTYYQSQQRHTELNAHCDSLIHGRG
+>tr|A6CJM9|A6CJM9_9BACI
+MDINIEKLAKEMPEFTNHQEASDWFGDKFQGQFVFKEKDFINEVPTYFYHIVKDVNRYNR
+YMNALVQEESDIDSLNTFYSYTTVSITEDGNVEISL
+>tr|A6CR58|A6CR58_9BACI
+MVKIEKKRIGRVEVVLRHGGIRKEESTRSKCWFDVVESQKKRIDPVEVLV
+>tr|A6CHR4|A6CHR4_9BACI
+MGIRDEVLLKDGRLSEEEYAQIKLHPVIGANILEGIDLTEELLPILPGIKYHHERLDGKG
+YPEGLSGRDIPDSGRVIAVADAYDAMTSDRPYRRGMSVLKALSILEEGRGTQWDPVYVDH
+FIALQQKEMNRHMEHASAPR
+>tr|A6CNE4|A6CNE4_9BACI
+MQRVTNCLYMNEDKVLLLQKPRRNWWVAPGGKMEQGESIRDAVIREYREETGIYLRNADV
+KGIFTFIIKDGDKIVSEWMMFTFFATEADGVNLTECEEGILEWHDLEEIKNLPMAEGDRH
+ILEYMVHGKGTIYGTFTYTPDFQLLAYKLDPS
+>tr|A6CNK6|A6CNK6_9BACI
+MQMETKSIEIHNVSEDSINSVLNWFEARTPSFYTLGRTYFNSNQDIQKIFYETIMKIHEE
+IQHVKEDIQFESRVTEIFLNECRARLSISSREQAIEEAAGEIVPGLSKLAAKYKEALAVT
+YLKGLPFEEGSQVLQITTRELISRLADGIEELSRELNYGNLSGSCAEYQENFIEYLGKSL
+SRREKIELEIHFYQCDGCREVLSVFQDVILLLERTTEQVPFPHDFMDQIYERVAETERLK
+REKRKKRSRIGLAAVGLFTFMICTGFVTGGFSSLYYSWMGWTEQEEKEIVQFYKDGISEP
+LNLEQESNGVKVRIKTAVADEVQTLIYYEIEDMNEENQYFINYHEGARVENEYEIFEEDA
+RPVFRHPFEEETDDEGNIFRGTLSLAPVKSDSGTVELRLMRLQKAMKEGAERSNFKYYES
+VEFAEGEWSFDIPVTKQSSTVYDLNQETEVEGIPFRIDKLTLAPTATLLEYSFPRMKGEQ
+SIEHISMSGLESKNKTAEVDHFYGEHIDSYGDWSTFQSMFDSLYFDEPDKVNLVLDSINI
+FVEDNKTIEINQENNFPQVFTYLGNELTIDSFETGNPTKVHITDKYTQNREYERLHLDLT
+SENQLESYSMGSGGEGVLVDREGNQYDPEEYYSTLDSIGRQPRYFQTTHEIELYRDASDD
+PIIPKYLLIRGYSTTKYAEDKIGIQLD
+>tr|A6CUG9|A6CUG9_9BACI
+MGQAFFLFWGNRVGLLIESIKILKVAGKLLMASPNLLIGYRALVEAHFHSRKN
+>tr|A6CK87|A6CK87_9BACI
+MKKRIGRELLFFFAATVYMWVYYGIFVLLDPQHPMEPYSNTMIIGSFFGLPLVMFIAVPI
+VNAMLAKRLLFTPRYIVIKTFLYIVASFLFLNLLFEVHMDISNKRAMKQLFPQGITKAFA
+ENEANLQDSIKGTILIQDSSFIPPYSNEMNAAMGGKREPAIEVTYEYPGCGLDRGCEFRY
+VQEYDLETGEPTERSNSIHYAEEQWVEPLIQHDNWNDYTFFTVDHASQGFKINFRRYEPY
+FNIDAAIQHSEPHYIEGTISNVSPSAPEMIGKKMIIKGHPDEQVTIKINGDNFMVLPKE
+>tr|A6CNQ3|A6CNQ3_9BACI
+GKGKVEELVALEEQFEPDLVIFNDELSPSQIRNLSEQLEARVIDRTQLILDIFAQRARSR
+EGKLQVELAQLQYLLPRLIGQGASLSRLGGGIGTRGPGETKLESDRRHIRRRIDDIKKSL
+QVVVDHRERYRERRKKNKTFQLALMGYTNAGKSTLFNRISIAESYEENQLFATLDPLTRK
+LILPSGYSALVTDTVGFIQDLPTALVAAFRSTLEEVKEADLLLHVVDSSNPDYNNHEKTV
+QSLLEELKMDHIPQLTIYNKRDEMHPDFVPDSSNEKIIISALNEEDRTVLKDKIEELVIE
+QMEAYHVHLPSNEGKLLSQLKNETILRKLEFNEETHTYEAKGYSLTDHPVTGSIKKYQK
+>tr|A6CJP5|A6CJP5_9BACI
+MKKLNKKPLTMLFCASVFLAGCMEEGRMDPQEEDVDVVDPGLGEDENEDGENESN
+>tr|A6CKT4|A6CKT4_9BACI
+MMNEQTLTKLIEMKLSGMAESYKEQAANKEFQKMTFEDRFSLLVDLEHARRKSNKLQRLI
+KTATFLNSNACIEDLEYHEDRRLNKELILKLASCTYILDSHNIILKGPTGSGKSFLATAF
+GVSACRQFFNVKYIRLPELLDELSLAKLAADGSYRKSIKKYTKVDLLILDEWLLTDLTTD
+EAAILLEITEARHKVGSTIFCSQIDPSGWHLKLGNETIAEAILDRIIHDSYQILLDGEVS
+MRERHGLGR
+>tr|A6CHW5|A6CHW5_9BACI
+MINRFPLQACDSAGRAVSLLGFACGVTFQWVRNLGLTCHQKWKRPVQARQANVPERKKVT
+FPFILSGLFDPEGLGAGTRRPARPAGGRTPSAPI
+>tr|A6CIG3|A6CIG3_9BACI
+MKSLLINPVLNKEIKLRLRSLKSFLGILFYLATLGVIAIGFIYITTMHSQSGYIRPEESR
+FMFTVLSMVQLALIMFMTPGLTAGVISGERERQTLNMLLTTEQSSTSIILSKLISSVAFL
+FLMISASLPLYSIVFLYGGVSPGVLLATFGLYVMTIITIGSVGILFSTILQKTIVSMIAT
+YGVALLLTAGTGFLTMFAMTAFYMGTGTQTNPAPYFMIMSNPAFVLMTIFEPNMKDEFVN
+RTGIDFPFWISFVISFGVITAVSLWISISKLRPRMKPSKRGRKKDA
+>tr|A6CPN4|A6CPN4_9BACI
+MFAQVPMIEKQMIGMIDGQARLSKIKRIREEAEGEKKIFSRAGFDWACNSLVRLHGI
+>tr|A6CLX0|A6CLX0_9BACI
+MRKQLIARLEERIANFIDGEGSDKLQRKNELLRKRNGEIVKVEGTGRIEKVERVEGGSRA
+DYTLHLKYLVKQKNLMHIEEEIEPREAFFYKGKLVSDDELPVDYSQQSQPEINFRDGEEE
+ERIAYQYDRLKAVQYAEKWWNSYNPAYKKFEVDCTNFISQCLHAGNAPMRGYPGRGRGWW
+MRDNNWSYSWSVANSLRLYLPSSNSGLRAEEVSGPEELKLGDVICYDFEGDGRYNHNTIV
+TSKDAYGMPLVNAHTTNSRLRYWSYEDSTAYTSDIKYKFFTIVDDH
+>tr|A6CRM7|A6CRM7_9BACI
+MVLSLNNVTKRFGNYTAVDNLSISIPEKEMFGFLGGNGAGKTTTFRMILGLLDPSGGTIT
+WNGKKIDYSTSPEIGYLPEERGLYPKMKVNDQIIYLARLRGMDKKEAEKELDYWLKRFNV
+PQNKTKKVEELSKGNQQKIQLIASIIHKPKLLILDEPFSGLDPVNVELLKDAVAEIKENG
+TTIVFSSHRMEHVEELCENLCIMHKGTPVVHGGLKEIKRSFGKKNVTIHADFDLSFLEAV
+KGVTKSKNTTEGIQLQVESEEIAKDVFNEVVKKGFVRKFELEEPSLNDIFIEKVGTSYE
+>tr|A6CKN4|A6CKN4_9BACI
+MLKIGSYEFQSRLLLGTGKYPDFDIQKRAVDVSETEVLTFSVRRMNIFEPNQPNFLEKLD
+IEKYTLLPNTAGAKTAEEAVRTAKLARASGLCDMIKVEVIGDFKTLLPDPIETLKATEEL
+LKEGFTVLPYTSDDVLLAKRLQEMGAHAIMPGASPIGSGQGIINPLNLSFIIEQATVPVI
+VDAGIGSPADAAYAMELGADGVLLNTAVSAANDPVKMAEAMKLAIEAGRLGYEAGRIPKK
+RYATASSPMEGMSTV
+>tr|A6CR88|A6CR88_9BACI
+MFVKSAMIPKHKCYVVQENDSVGKALEVLEHHQIDGVPVLSGDLYVGVVTRYNIYQSFFK
+SEKLKADFVSETLVKDIVSHQDKYLVGDEIFEKTLVELQDFPILSVVDEGRKFLGLVTRY
+DVLEQFQSAFGMHREGVRIAFTSVETEGRIARLGDIIQQHHESVISLVTFDATDRMLRRI
+VLKIEKKDNVDKFLKKLEKSGFRILDIQED
+>tr|A6CKJ3|A6CKJ3_9BACI
+MAEQSQLLDDLIDLGDGLRLVYKEPKEYIRYYSIYYGQKYADYFFRRSTETMIEVASIFD
+CGYLIMKEENIIGGVFLKPNFMSDLFVIPPYQGYKGLAHKLLCHLKKISKPEEKIFLREI
+VEEHVATYIQKGCEVNEVNYWMIRPTQSLEAVLPEGYLSRSVLSEDIEDIACLIMKAYKA
+NPAYKQIGTKEDYANHVKEFIEKYQTNRIMDECSRVIVEQSTTNIVGVCLHMEFEQYPLI
+MSLAVDPEHQQKGIGRFLLTNSINISSKEYPATRLSVLKDNSAIKLYESLGFIKNKSITD
+MYLVY
+>tr|A6CLP2|A6CLP2_9BACI
+MEEIIMKRILMLVMSLFLLFLGGCSQKDNASATKDNELEKMTIMLDWYPNAVHSYLYAAK
+ENGYFKEEGLDVEIKFPANPTDPINLAAAGQIDLGISYQPDVIIARANEEIPIKSVAAIV
+RSPLNHVVFMEDSPIQSPKDLEGKMVGYPGIPLNEALLDTMVKADGGDPEKVNTIDVGFE
+LGSSIVSEKADAVIGAYINHEVPVLEHEGYKTRYFNPVDYGVPSFYELVFVTNDDTWNDK
+EENIRAFWRAATKGYEYMKENPDEALNVLLSNQNEANFPLVEEVEKESLEILLPKMEPEG
+EMFGSQSADSWQETIDWLDESGLIEEKPDTEDIFINIVE
+>tr|A6CTK2|A6CTK2_9BACI
+MGEAIVITSGKGGVGKTTTSANVGTALALQGKKVCLVDTDIGLRNLDVVMGLENRIIYDL
+VDVVEGRCKIHQALVKDKRFEDKLFLLPAAQTSDKSAVSPEQMKKLIETLKQDYDYIIID
+CPAGIEQGYKNAVAGADRAIVVTTPEISAVRDADRIIGLLEKEDIEPPKLVINRIRTHMM
+KSGEMLDVDEITTHLSIDLIGIVADDDNVIKSSNRGEPIAMDPSSKASIAYRNIARRILG
+ESVPLQSLDEDKQGVFTKLKKFFGVKA
+>tr|A6CMS0|A6CMS0_9BACI
+MILAGERIYLRGFEESDAESLVRLIKRNRTFWGQTEPQWESGYYTFEGQLQNIRYFREGF
+QRGQFYTFGVYERGTDNLIGLVNLYDVKGGPFQSAMVGYSVDKNYIGKGIASESLRLVLS
+FAFNTLQLNRVSAEVMPRNNSSIRVLEKAGFQKEGFRRDNILIKGAWESHLQYALLKKDW
+ALFLGKQGS
+>tr|A6CIV9|A6CIV9_9BACI
+MKMTGWIKFQRKTIDSVLWSDPFTLRLYLLLSCRALQKEGMYVKEIKVGRGQYLRSFSLL
+AEDLLYVQDGNMKIPAKTTVKRSVDRLVKFGYITTETTLYGTLFTLLKPEAGCQEFFCDE
+NGTTDLQPDVNIDDMAVLQQEECKKEKKDKEDLKDEFKETKEETSEKSTSKESSEKTAAV
+TDKFLSLRNSGFYISPKELCAIEKVCELEVDARQLVTWMEEVHAHYQKRNKNGSIKSFLY
+YEKALMQKVKNEGKPFKKSVSSNVLLTETNNFLAKMEAWKREGEKRIANESVRTPVFIKP
+VFN
+>tr|A6CKF2|A6CKF2_9BACI
+MVLNEFQNSADINWYERVPEDWSEKKLKYLVETIKGYAFKSQLFGDKGVPIIKTTDIKNG
+KIQDSDIFIDERFEHEYKNVRVKKNDILMSTVGSKVEVTNSAVGQIGKVQKKYEGALLNQ
+NAVILRCKSKDITNNFLFYFLNSHSYRKYLDLFAHGTANQASLSLKDILDFKMPLPSRKI
+QHQISEFLDHKTSDVETLIADKQKLIELLEEKRQAIVTEAVTRGLNPDVKMKDSGVKWIG
+DIPEHWDISKIKYSTYVKGRIGWQGLRSDEFIDEGPYLVTGTDFKDGIIHWDTCYHISEE
+RYSEAPPIQLKENDLLITKDGTIGKVAIVKNKPGKAILNSGIFVTRCQDKEYLTKFMYWI
+LTSEVFKNYIKYMETGSTIKHLYQETFVNFSYPLPNIEEQKAIEYFLETKVREIDSVKKE
+ISDQIELLKEYRQSLIYEAVTGKIDLRDYQEVPS
+>tr|A6CMZ3|A6CMZ3_9BACI
+MAQWSSNLLYISFILYLIATLFFGGSIRDKNNKNKGVNRWGKIGMGLTLIGFAAQLGYFF
+TRWIAAGHAPVSNLFEFTTFFGMMLIGAFIIIYFLYQSTVLGLFALPIALLVIAYASMFP
+REVSPLIPALQSDWLKIHVTTVAAGEAILAISFVAGLIYLLKKVNHEQDKKQSFWLESVM
+YGLVVVLGFIASTTAFTLMGYSAEFQYINQTGQEAFEEYTMPALVAPHEGELLTVDRLEP
+PVEMPAVINARKLNTVIWSFILGTGIYWILRLAARKKISLWIQKYVKNVNLDLMDEIGYR
+SVLIGFPVFTLGGLIFAMIWAQIAWSRFWGWDPKEVWALITFLFYAAFLHFRLSRGWHGE
+KSAWLAVIGFIIIMFNLIAVNLIIAGLHSYA
+>tr|A6CRZ9|A6CRZ9_9BACI
+MSPFIILTVFIAVYILLITEKWNRILASMGGGVAMLLIGAFSIEKALFTYIDWKTITLLF
+SMMLIVTVTSKTGFFEFLAIRLAQAVNGNGLALLIVFSLLSAVGSAFLANVTIAMLLVPI
+LFTLTKVLDLPPLPFLVMMILACNIGGTATLIGDPPNMMIGQAVKHFTFNAFLQNLLPVS
+ALILLVTIIIICLLYKEILIVKEDKKLLLRGINAKRYLKKNKGLISSISVLGLVLIGFSL
+HPVLHLDVTSVALAGAVLIMLLLEKVYDPEEILKEVEWGTLFFFIGLFLLVGGIEEAGFI
+DEAAREIIKLTEGDMKTTAFVILWGTGLLSAVVDNIPFVAAMIPVIEEFQEFGMVNMDPL
+WWSLALGACLGGNGTLLGSSSNLVIVGLASKENVQIKFYQYLLIGVPITLISLAVCTVYV
+YFKYIVPFLGY
+>tr|A6CU98|A6CU98_9BACI
+DMLRMAAIHTPTSLATALGLVAALMIGQVAVEVGLFVNEVILYLAVAAIGTFSTPSYELS
+LANRIIRIVLLIITALFGVYGFVIGIAAWILMLSRIKSFGVPYMWPFIPFNFRAMRDVLL
+RSPMPLKNRRPRFLNPQDPDR
+>tr|A6CJW5|A6CJW5_9BACI
+MNKESLHYKIADEQEEFNQIHRMNYQTFVDEIPQHGVNEKKILIDKFHVENTYIIAKKGN
+ALVGMIAVRGNRPFSLDEKLSEIDSYLPDGSIPCEIRLLSVKKDFRSSTVFYKLVERAVS
+HCLEHGYNLALISGTVRQLKLYKRIGFEPFGPLVGEEDARFQPMYLTKERFIKSAKVFNK
+LMIRQSPNKESMNFLPGPVPVHTQVEEAFSQGAVSHRSEEFILQMNEVKEKLKQLTGAQH
+VQILVGTGTLANDLAAAQLKRCAGQGLILANGEFGFRLVDHAKRMGLSFRVIEKEWNEPI
+SLAEVERYLLINENISWLWTVHCETSTGYLFDLIGLEKLCRKYSVNLCVDACSSAGIAPL
+DLENVYLATAVSGKALGSYPGLAIVFHREKVEPDRTLPRYLDVGLYQENGSVPFTHSSNL
+VSALLSALNTLDRQKGLLLYKEVKSILTREGLEFLGDDSYSPGIITIPLNEFISSKKFGD
+NLKRKNIIVSYESDYLLKRNWVQLALMGKYHRGEVMKAMGTIIEEYNNIKVSAETVQ
diff --git a/Exercise11_files/Problem1/Clostridium.fasta b/Exercise11_files/Problem1/Clostridium.fasta
new file mode 100755
index 0000000..7125ac0
--- /dev/null
+++ b/Exercise11_files/Problem1/Clostridium.fasta
@@ -0,0 +1,11021 @@
+>tr|R7MH05|R7MH05_9CLOT
+MKEEEEEFNRNKCWGGRRECAGRKKTCRRKIPFNRRINEDVLNILKEYAQNHNMTETEAL
+ESAIILQSNIEKLKGDKIMKIVIPSAEGKLCGHFGHCEYFTFVDANPETKEILNIEKRIP
+EEGISCQSANWIASQGANVVLAGGMGGRPMAIFVQNGVKIVAGCPELEIEDVVSQFLNST
+LETGENACGGEHHHCHGHHGEHHCHS
+>tr|R7MGX1|R7MGX1_9CLOT
+MNILVTGASRGIGKTIAKSLQSYGNVYVTARNEEKLKEFGNEMYFVCDLSKEEDLLKLGD
+FIQEKKIDILVNNAGEYTYCGIEDTEISKLNEMLSINLKAPIYLMHSAIPHMKKNKFGRV
+INIGSISGVMGEAYASMYSATKAGLIGLSKATGLELAEFGITVNTINPGWVDTELGKSSI
+EDSEFSEEEILESIPQRRFVKPEEIAGLVKYLISEEAKGITGQSINICAGLSVGI
+>tr|R7MAY1|R7MAY1_9CLOT
+MVVSLKEKLYQMFILGTGEYAHTALQKGLGGIIFFTKDIQSIEQFESLISRVKKDSIIPP
+FLAIDQEGGRVERTENIHHGKKYLSAKFAYEKGEDFLANQTKEIAKELKSYGINLNFAPC
+VDTNTNPKNPIIGERAFSSNPDDVIKGEKIVSKIYKNFGIIPCVKHFPGHGDANADSHLT
+LPKISLSLEEMEKTHIKPFKEAIKNGIEMVMVAHLHCSCFEKDEIPTSLSKNAIDYLRNK
+LHFDGVVISDDMVMKGVSNFGEVEACLMGIRAGVNLFIYRFADKNTIDIIENVYKIALDD
+VQLQDLIDKSYEKIINLKKKYLYK
+>tr|R7MBN5|R7MBN5_9CLOT
+MEDIVEKLKEFGFNSYEAKVYIALLKKYPATGYEVSQIADIPQSRAYDALKSLVSSKVAF
+STDSKPQKYTPISPKELTQRYKRKMVSTIEYLEKKLPDVREDYSEPIHMVGDYEKILNKI
+KEVIKNAKHSIYIEVWAKDFKHLDSELSNAYDRGVDIKIVGYDNLFAPYGLIYSHDGGKE
+IEYSIGSRLIYLVADDIESIFGRIENQVVWTKNEDIAFLLKEFIVHDMYLLDVNKQFPEQ
+LKYFYGTGFKKLKDKILSKNSAYNIH
+>tr|R7M941|R7M941_9CLOT
+MEYNELCVKFGNKLKYYRLMRGYTQEKLAEKLGIDAHYISDIECGLRNITFKTLHRLVSA
+LDVEPYKFFNFD
+>tr|R7MCA7|R7MCA7_9CLOT
+MKAVVFTKDNELKLVNDYQKPIPKKGEALVRVTLAGICNTDYEITKGYMGYDGILGHEAV
+GVVEEVNGEDKSLVGKRVVPEISYGCKDPNCPWCAEKLYRHCPDRHTLGIFRKDGVFAEY
+FTMPTEVLFEVPKNVPDCQAVFVEPLAAALEITEQHHIKPFEKVVVLGDGKLGLITALAL
+NAQNIDVTLVGKHQNKLDIAKAQGVETSLLNDFPIEKKYDVVVEATGSISGFETALALTK
+PRGVLVLKSTVAASKEFNLAPIVIDEITVLGSRCGQFPAALRMLKSERIDFSPLISATYS
+IDNALEGFEKNKEKDTLKVLLEF
+>tr|R7MFL3|R7MFL3_9CLOT
+MISLLVCTLPADAVIYNIPQKTLQIAREASANPYINTQQSKLVRVGIGNQNFNCYERESI
+SIYGTGEFEVYNGKNYINTFDNDNTIKVSMVGKIFVLKDSNNNVIAKVSGPILFKTDYGM
+LGITGLKRAGKDAIYRGEIELVSTPKEGKFYTINVIYLEDYLKGVVPNEMPVSFGLEALK
+AQSVAARNYVLSPRVKANSNYDVVDSVASQVYFGANTERDLSNKAVDETSGIVATYDWDL
+ILAQYSSTAGGYTESYSNAFSDPYTKKFPGTPKPYLVAKPDDKDFGDLSSEDAATKXAAT
+KFYKSKPKSYDVNSSYYRWEREWNGQEIQDAVQNNIAAQSSAGFVHPVVKKGETIGIIKK
+LNVLKRGQSGKIMKLEIQTDAGNYVVEKELTIRRLLTNKGKALPSANMIFEHEYNENGDL
+IYVKAYGGGFGHGVGMSQYGAGYMGNHLKKSFEEILQHYYTGISLSTEPFILSSNSEQNQ
+ITQSFFSKNRHANLVIDNKYKVSYIDIKVNNLDERIQLNTAERYNKIDISKYLNHGLNTI
+TFYYPLAEGTNKGLRIYIELAGINEYSD
+>tr|R7MJQ3|R7MJQ3_9CLOT
+MMFTRDELINATGAVVLRDSLDNDASMFNISTDTRTIKAEDIYLPLKGESFDGEKFIDKA
+IEAGAKAYFTTNDTLIEGADLVLKVDNTLAAYLNIAKYYRTKINPITVAITGSSGKTTTK
+EIVYSVLSQKFKTQKTFSNHNNEIGFCQTVLGMNESTQALIVEMGMRGLGEIELISTHLE
+PDYAIITNSGSAHVGRLGSLDNIAIAKCEIAKGLNQTGTFIAKDQDIIKKHLKFNGEKIL
+YSIEDVNVIDKKQAYTKFQYKGNTYELNVEGDYNVENSLAAIELGFKTGLTVEEIKQGLL
+SYHPIEKRWELEEINGLKFINDSYNANPESMKASVKTFIDLYEKPVVVLGDMGELGDNEK
+LYHQQVGEYLGQLNKNVKYLTVGNLAKEIGKALESQGLNVNYFESNEDVSRYILDNLNDS
+YTIFLKASRAMKFEEILEYVKRGICKL
+>tr|R7MA50|R7MA50_9CLOT
+MKENSLLKNIGINVHFALPYNAQTKPVERDFLKVKSFLSKGFVGYRGGKITERPEKLKDE
+IKADKIMQFEDFKVLFDDFIENFLNKKPSRGKVLQGKCPDELWAQEFTNKKVISKDALKL
+FCMRTSKTMTIGRNGIYDSQLELTYWGEWMICEKGRKVFIRRDINAYQEAWVFDAQTEEY
+LGKGNVYHAVSFLAQTNVEKAQYKEAIERKNKEKKILKSYIKCKYNPSNEEIVANLKNGL
+EQTEFISTPTVSQITNTKMGQIVNQEKKSDKNLQFKYVAQAKPKKTLYLTESQKRRALER
+CAM
+>tr|R7MDK0|R7MDK0_9CLOT
+MYIKQLEIDNFKSFANKTDIPLLRGFTTVSGPNGSGKSNIIDSVMFALGLRTGSALRIEN
+LSDFITTFNNKNEASVKVIFGDVDGAGELSVMRRIRKTNQGYASTYYLNDKIDTLTNIRS
+ILEKYNITPNSYNVMMQGDVTSIVMCSSKVRRGIIDEIAGVADFDRRIDQATNELKTVEQ
+RVEAASLILTEVEKTLEQLKAEREVALKYKKLQEEKSGLESQVSTVKFFDLRRNLELAHD
+NILQSNKKLKEEQLNKKDLDEKIKLITEKYKELDAKLKEQGEDERNKLKDSQSNLSARIQ
+TKKNAIDYSQTQIQKGLQSIENAKNGIESYKKKIEDERLNIKLSHDKIGIIETQLKDKKA
+ELAKKLEDISGLSSTADKYIQERNDVSRSLDSLKDKDNELLKTSLPKESELKTLKKEIED
+AKLFVENAEKAKANFGDTKSLKEMQVSDLKKEMDELKEIQTSTMKELDDAKTSIEDFDHD
+LRAALRRFSEMEAQRRVMSASGSSLPITTVMNANLEGVHAPLMQLGTVDEEYSLALDVAF
+GGRLAHIVVDDPHAAYIAMELLNSSKSGRATFIPLNKIKKAPTKLQLPKNRGVIDFAINL
+VDFEDIYLDAFFYAVGDTLIVEDAESAEPLMGKYRMVTLDGKLYEKSSAITGGYVKKSMF
+GFGQNDDKELERAKSKLDDLQKKYDQACIKRKELEDKLDKIRVSYSNSSTEYSKAKIELS
+NMTSQFENSQNLLETKRTFISENEPKIDKLNAELDKIELKRVELADEIQKSQDKLAELDS
+LLNDKDLKDLKEKTQGIEDEIRHLNTNLMNVNSEIQSFENTIKFNEQLITSKQDDIKNTL
+KNNESLEKDQETCKAEIVQLEEQLNILSDKIAVIDEKIGELVKQKDEIHNSLVELQTNSA
+VKASEIDRINEQIESFKARRRELEPQLKEASEVLTNSGVDVEKLEPVQISIDELNAKIQR
+LDKRMQELGDVNMRAIVSYEEKAARKEELDTQINTLSTERQSILDKMNGFEQQKKEAFMT
+TFTAINENFKDIYHQLSEGEGRLILENEKDPLSAGMTIEAKPRDKTSNNKLGALSGGEKA
+LTALALVFSIQKYLPAPFYALDEVDASLDTMNVERIADMVKKQSADTQFIVVSHRRPMIE
+AASRTIGVTQKEKGKTKVTGVKLREDNDEQ
+>tr|R7MHY1|R7MHY1_9CLOT
+MANIKSAKKRVLIAEANRQRNVAFKTSIKTAVKKTLELAKGEDKEALNAALSKAYQLCDK
+AVVKGILHKNTAARKKSRLTLAVKKISANA
+>tr|R7MEB9|R7MEB9_9CLOT
+MFIVKGLVEAMGGTIELNSDDEYGFIAIITLNIAKNNEVNS
+>tr|R7MIX6|R7MIX6_9CLOT
+MLIPDIVKILTDSGIEPNEANVEVKLLIEHFAGYSLVDILMGKKLDEDKLKIVEEKAKLR
+AKTHQPIQHIIGFADFMGEKFVVNSDVLIPRDETEILVRKAIELIKNNNYKIALDMCTGS
+GCIACMIAKLTDCQVMGVDISTEAIHTAFKNMERFELFNKAMFRKSDLFDKIREDEKFDL
+IVSNPPYIPPIMKKSIQKEVSFDPEIALYTTDDKGLEFYQKIIEKAHEFLNPNGHILFEL
+GIGQSRDVAEILKTNGFKEIQVIKDLAGIDRVIFAHI
+>tr|R7MF22|R7MF22_9CLOT
+MSESLDELFLFGEEKMEKAVAQLQKEFGSIRSGRANPGILDKVLVEYYGAPTPLRQMSQV
+SVQDGTTLVITPYDKTIMKEIEKAIIKAEIGITPNSDGICIRLPFPPLTEDRRREIAKDV
+KKLGEDAKVAVRNIRRDMTDNLKKLEKSENLPEDMVKDNQDKIQKLTDKYTANIDNAVSV
+KEKEVMTV
+>tr|R7MH29|R7MH29_9CLOT
+MVFGNMGDDCATGVSFTRNPSTGENKFYGEYLTNAQGEDVVAGIRTPKPIAELEHEMPEL
+YKQYVDIAKKLEKGYKDVQDMEFTIEKGKLWILQTRNGKRTAKASVRIAVEMCEEGIIDK
+ERAVELVDANQLYQVLLPDFDPKAKKEAHKIAQGLAASPGAAVGKIVFDTEEAAERGKNG
+EKIILVRIETCPDDIHGMIESQGVLTLRGGMTSHAAVVAKGMGKPCVAGCEDLSIDLKNE
+TLTAGDGTVYHKDDVISLDGGTGEVMDGAIHLVPPTMDENFNKLFAWVDGIKLLGVRANA
+DTPADVAKALELGAEGVGLCRTEHMFMDPERLPWVQKMIVAGTSEARKEALSKLLPMQYS
+DFYAMFKALGEKSMTIRLLDPPLHEFLPDKEELIAKVATKKAKGEDSSEDEKLLNIVEAM
+SESNPMMGLRGCRLGLTYPEINEMQVRAIFSAACDLKKEGLNVKPEVMIPLIGHVNELKT
+VKGVLERVANEVMDEKGVRVEYMFGTMIEIPRAALTADQIAEHAEFFSFGTNDLTQMTFG
+YSRDDAEGKFLQNYVEQKILPANPFQTLDQEGVGQLMKIALDKALKVRPHLKRGICGEHG
+GDPASVKFCHRIGLNYVSCSPFRVPQARLAAAQAVIEFKHAKDISLPLGCK
+>tr|R7MIW8|R7MIW8_9CLOT
+MMTKYISVGKIVNFHGIKGEARVGYSKNQQEFFLSLKSVFVKTGNEYRELNIDSVRQNKN
+FLIVKFEGIDSINDIIPLKGCLLFVEEDVVRENLDEDEFLIDELVGLSVFDNENGKNLGF
+VIGVSNNGASDLISVKTNSKKISLIPFVKAIVPVVDIKNKKIMINNIEGLLE
+>tr|R7MIK5|R7MIK5_9CLOT
+MKIALINQGCAKNLVDAELMLGLLDQKGYTITLDENEADIVIVNTCSFIHDAEKESVQSI
+LQMIDEGKKVIVTGCLSQKHDKDLKEAIPELSGMIGTSNLKDIVKIIEDIAKGTEYESII
+EEKPEYHYLEDVPRQQITMGASSYLKIGEGCNYSCGYCIIPKLRGKYISRPIENIVKEAN
+SLVEKGVSEIILIAQDTSSYGIDLYGKQALPQLLEELNKIEDLSWIRIMYAYPTQMTDEL
+IDAIAKLDKVVKYVDIPLQHSHPDMLKRMKRPVMDYKKLVQKIRDRIPNVSVRTSLIVGY
+PGETEEEFEHLYNFVKDVKFDRMGAFEYSREKGTYSDTLKGHLSEKIKKERRNKLMELQQ
+KISLENNEKYIDKAIKCIVEGYTDDGVIIMRSEHDAPEIDGLVYATSNREVIPGDIETVK
+ITKANEYDLFGEFIEE
+>tr|R7MI34|R7MI34_9CLOT
+MKKILCYGDSNTYGYIPETFGRYTKNERWTGILSELLSPEYEILEQGMNNRTGFFKNPEN
+IKLCGGEYLPIYLQNHKDIDICILALGTNDSQYFYNLDKNSATAGLKHLIQTIKEANSQT
+KILIIPPVKIQKNILDGIFAMQFDLNSVEKIKNVFPIFKKVSEEMNCFYLDLNEFVTPSP
+VDGLHYSKESHKIIAQILANFIKTNI
+>tr|R7MDV8|R7MDV8_9CLOT
+MDVKVEDLKVLFSEEQIQKRIKELADEMNAFYNGEDVIAICVLKGAVMFTVDLVKHLDMP
+LQMEFIRLSSYGSATSTSGKVNAVDIKLPDLNGKNVLIIEDIVDTGLTAKFLVDFMHCNF
+NAKSIKFCSLLDKKITRKVDIEPDYYGFEVDDKFVIGYGLDYDGYYRNLRYIGYKEM
+>tr|R7MH75|R7MH75_9CLOT
+MLSNFYVEDHVKHALMEDIGFGDVTTESIVGEDKIFEASLVSRCEGVICGLEVFKTVFKI
+LSDKVKVELLFKDGDKIKKGDVLATLTGPGKYLLLGERVSLNYIQRMSGIATETHKYQTA
+IGDFPCKIVDTRKTTPNFRAFEKYSVKVGGGALHRFNLSDCAMIKDNHIQVAGSVTNAVK
+MVKANLSHAHKVELECDTLDQVKEALPLGVDIIMLDNMDLETMKTAVELIDHKVIVEASG
+NVRLETVRAIAECGVDIISSSAIVAKAPTLDIALDM
+>tr|R7MI92|R7MI92_9CLOT
+MKHLTKRELEVCKYLTQGLDNSEIAARLFISRHTVKIYVSSIIEALGAKNRTEAAYILAK
+RNIM
+>tr|R7MC94|R7MC94_9CLOT
+MVCGSALSGKTHVIYSLLLEAAKNKSKNIMTLESISKYELTGVNQCEFNENVGFNMDKAA
+RFIEFQAPDIIYLEGIKSKESFDYFSSLVYNDKTVVMEFLANNMDDLRNKMSFSDFDTLK
+SIISCMIFIHSQTSVEVFNRETIQKYLG
+>tr|R7MJA3|R7MJA3_9CLOT
+MPKHDDDKLKCSFCGKTQDQVKKLIAGPEVYICDECVELCNEILDEEFFDQKDKEGAADG
+ENPEKAEKPIPKPHEIKEYLDQYIVGQDDAKKVLSVAVYNHYKRLKHNKDNKKDSVEIQK
+SNILLVGPTGSGKTLLAQTLAKMLDVPFAVADATTLTEAGYVGDDVENILLRLYQNAEFD
+STKAERGIIYIDEIDKISRKSENTSITRDVSGEGVQQALLKMIEGTVAHVPPQGGRKHPH
+QEFIEIDTSNILFIVGGAFVGLEKIVDARAGEGNSVGFGAKAPMSQAEKDANAVKLLKKL
+QPEDLLKFGLIPEFIGRVPVYAVLDQLNEKTLKMILTEPKNAVLKQYQALLKMDGVDLEF
+EPEAVDLIAKEAIKRKTGARALRSIVEEIMLDVMYDVPTKENIDKFVVTAEMVKNRKNAE
+VVKLPTKTDKENEIIA
+>tr|R7MEV2|R7MEV2_9CLOT
+MEKNLNILIINGPNINMLGVREPEAYGSKSYKDLEMELHEYSFELGVNLEIFQSNFEGEI
+VEKIQYALGNYDGIVLNAGAYTHTSIAIRDALTSVKIPTVEVHISNIYKREEFRHKSMFA
+DVCVGQITGFKIDSYKLGLQGLVNFLTSAND
+>tr|R7MFU2|R7MFU2_9CLOT
+MSPTLKPFIAVWTNFTPDHIDWHQGLENYFKAKARVFQDPQTAKYCVLNAKDSKLLEFSK
+QVNGTVFMFAGNIGDNCCYEENGAIIYKQDGKSEEIIKLSECPLIGEHNYQNIMCSIICA
+ELTGIDNSTIKQAIMTFKAPEHRLEKVREFKGITFYNDSKATNPEASIVAINSFNNVDVT
+LIAGGRDKNTDLTEFCESIKKHIKTVILIGEATDRFEENLIKNGFTNIIREKTMESAIDK
+GIELKPDVVLLSPACASFDMFTSYEHRGEVFKEYVLSRV
+>tr|R7MJX3|R7MJX3_9CLOT
+MKQYEHAFGKNDIRGIYGDDITEELFYNIGLGYTKWLKDKSSKNAADLKISVCMDARLHS
+PSLKKALIASLVDSNVGHIENLGLAPTPIGYYSEVAHNLDGAMIITASHNPKEYNGLKMT
+YNRQTLNESQIKEVKEETFSIWKELPSNIEEKDFSTEIIPEYIEEMKQKFGRIGEGIKVV
+VDSANATGGIVGPQLYKDLGCEVIELFSEPDGTFPNHHPNPSVLSTLETLSKTVVENNAD
+LGIAYDGDSDRIGVVDSKGQPLTGDKLLLIYAMDIIDQHPTVVSEVKCSQVLFDTINNAG
+GNAIMCKTGHGYIKEKMKETHAILGGEMSGHTFFKDRYYGFDDAIYAGCRMIEIVAKNKK
+QNPNFKLENMLEPFNQVFTSDEVRFPCPNHLKKEVLESMKKEVQEKPDMFGSTIKEIVTL
+DGMRIVFDGGFALIRQSNTEPVFTLRFEAKTKEEAERFKTVMTSYLDSCIMAKSSN
+>tr|R7MEZ5|R7MEZ5_9CLOT
+MKLLSPMEHKILTLMARGFIDKEIGVQLGISVRTVQAHISSIIIKLRARNRVNAVVVYMH
+KNPAWMRKERLFL
+>tr|R7MDZ3|R7MDZ3_9CLOT
+MDYKLKETSSKDAFRYGYLVNKVLPFIKPHTGRIVLNMILAVPLGLLDGVVAFALKPYMD
+CVINGKTWTMGNLTLEQSTLALVIPFGIVLFAIVQGLLKYSNNYLTDWTGNKISNALKIE
+LFRKLTSLDPKFYDINSSGLVLTRFLTDPDTASKNIINSIKNFILTSFGIVGLVGVLLYN
+SWKLAIIGVTIMAVAITPVTLIRKRIKKVSNATMVVGGDMTTNFNETFAGNKIMTAYNLQ
+ELQNKKFDNQIKQQFELTMSLTKRVGWMSPIMYFVCSIGIALVMFYGNHLIITGQMTAGS
+FASFVTSLLLLYKPVKNLGGTLTDLQTTFVALGRVFELFDLVPHIKNKENAIKMTGLNSS
+IDYENVIFEYEKNVPVLNNFSLHINKGETIALVGNSGGGKSTTVNLLPRFYDVNSGSIKF
+DGIDIRDYEIDSLRNNISFVFQDNFLFSGTIKENILMGNEKATEEEIQKVVKMAHLDEFL
+STLEKGIDTPVGERGASLSGGQRQRVAIARAMIKNAPIVILDEATSALDNESEAIVQKAL
+DNLMQNKTVFVIAHRLSTINNADRIAVINEGQLVELGTHEELMSIPEGNYKHLYEMQFKN
+QEV
+>tr|R7MC24|R7MC24_9CLOT
+MSQNELAEKLDISREHLAKIETAKRTVSLDLLINIAEELKTKVKDLIDF
+>tr|R7MH22|R7MH22_9CLOT
+MARPQKTKKKEKKNVLQGVVHIQSTFNNTIVTSTDTQGNAIAWATAGASGFKGARKGTPF
+AAQSAAEMVAKKSIDQGMKKVEVHIKGPGSGRETAIRAIQAAGLEITLIKDVTPIPHNGC
+RPPKKRRV
+>tr|R7MHV0|R7MHV0_9CLOT
+MLRDYFLNKVENAIEKAIVANKLGQMTEYTKGTLSVEKPKNPDFGDFAINVSSLARSARI
+APPMIANSILEFIDKEDSDFSVIGGFINFKAGDSLLVNLIEEVFAKKNNFGKPDKINREK
+IILEYISANPTGPFHIGHGRWAAMGSALANLLKFYGHDVYQEFYINDAGSQIQKLGRSLV
+IRVKQVFGLDVDFPEDEIERKNYYPGDYLVPVAKKFVQDKKDELAAVGNDADKIDLQVYC
+DYAKDYEEKVQRNLLDKFRVNFDNFYSELTLHKSGKVDECVQKLRNSGKIYEKEGAVWFK
+SSDYGDDQDRVIKKADGSNTYLTADIAYHVDKLERGFDRMINIWGADHHGYVARVKASIE
+ALGYNPNKLEVLLGQLVNLVINGNEVRMGKRKNMVTLEDLIDEVGVDATRFWMAMRNIDT
+TLDFDIELAKTNSDENPVFYVQYAHARACSIIRNATNDRVDTESGKTIPAVISKEDFDKL
+TSNFDKNLMSLTMKEARKLILKLEEFKSLIVSSAQTRQVYTICRYVQELASEFHSFYNST
+RVITDDIELTKARLALVWAFKTVLSNALTILAVSAPERM
+>tr|R7MGD2|R7MGD2_9CLOT
+MSTRPDSSSAISVISSNVAYGTNALKYLTNNRSRNTVVGASALSGSNPVAARDNIFVGSS
+VANYDRAGGTGNIAVGATSMFSGSSQKTDNVYLGYLVGASHSSARDVSGNVIAGSQYYAG
+ANGTNSQNNTIIGYNALTGGPRNMVNNTAIGYQACNSIQSEATAGSRTCIGYGSGATRGI
+SGTPTPLTIETDSYDHVFLGGMPLGGFNGRSVVEVYNQKSSGIYGGQNPKMSPTVVFNSN
+LVVRGGFFPARPGNGYLSYFKHDNISRAWLSSRRSADHCGRIFGIGRKKWRWWGEFGSPD
+ARSGSSLEFNGYCLNDRASKTSYEFNSNCPNVKTSDRRLKDIISENNEGLASIEALMPYN
+FTFKNDKENKAQVGVMAQDLQKVYPSAVVKGKDGYLRIRWDEMFYSMINAIKTLDKKLVA
+IASSISEMESDVLQIKSEQKNIKKQIAVLNSRAAKLERK
+>tr|R7MGK6|R7MGK6_9CLOT
+MAGNWDELIQQIKERLDIVEVVSEQVVLKKRGNNYWGLCPFHKDKNPSFCVTPHMGIYKC
+FSCGEAGDALKFLMKTRNVEFKDLIIELADKFGLEVPHTHKNSEGSTKELKAQMLKATEI
+ATEFYHDLLLRNKDSNADMALDYLTKRGIGTDIIKKYHIGIAPKAYTALYDELRKDFSNE
+VLEKAGLVLKSDKGGYIDRFRNRVIIPIQNENGEFVAFGARALEKDQNPKYLNSSDSLIY
+NKSRLLYGLYTAKEAIKHEDSVILMEGYFDVISSQAHGIENCVASCGTSLTPDHVKLLSR
+YTKSRRIYLSFDTDSAGQKATARGASIIKEVFAGLGNVKQFDESYLPSSDDKYACEIRVI
+APPEGKDPDEFVRSVGADAYKMYMENAPLFIDFQIDSILKNKDKFTTPQEKAQFISTLIP
+ILVEIKNKIIRAEYADMVAQSLGIVPEAIMSEIRSYERMNAPRVERIVKNVTKNNSVSKK
+AQKNLLSVFLVPDSHLNFTQINEMIGDVAFDDEILTIVKTTIDKLICNVNNVKELIEHLY
+TEFVDNPDAQAVLPELISTSEAYRGLSEEDFRSVIKETIDKINRIRQEKEIEHIKQMYKG
+IDDDDPEALKIQIQLRDKIKKKRQKSENN
+>tr|R7MC09|R7MC09_9CLOT
+MKVLVTDKINETAGRIIEQTAQVDFLPTMTEEELIKIIPQYDAMMVRSQTKVTAKIIEAG
+TNLKIIGRAGVGVDNIDVEAATQKGIIVVNSPDGNTMAAAEHTVALMLAMSRNIVPAATS
+TKEGKWDRSKFTGCELYKKTLGIIGLGKIGSHVAEVALAFGMKIVVFDPYTSKEIVEKMG
+GEYVENLDDFWGRCDYITVHVPKTKETVNLINKDTIAKMKQGVRLVNCARGGIINEADLK
+DAIENGQVASAAIDVYEKEPNITECPLIHCKGNIVLTPHLGASTKEAQMNVAIDVAEQIK
+QVLSGGSASSAVNIPSLRPDKLEPVKDYMQIAENSGQLAMQITEGTIKSIEITAQGDLAN
+LDIQPLEVAVLKGALSSILVGVNYVNAPILAKKRGIDIISTRSNVKCNFAGLITIKLVTN
+KETTTVSGALVAKDIPRIVKINDYETSIRPQRHMLIVPHVNKPSMIAKVAQVIGENNINI
+GSMNVVQKNDKHETESIMVINTGTEVQNDVLSEIEKIDGVHNPKYVSLNAEE
+>tr|R7MDG1|R7MDG1_9CLOT
+MSIASEIQRIKNNIANAYTVILEKGGVLPSNKNSSNLANTINSISSSAKYGITVDNFLGD
+VDSNGLYKLPISGTLNATGIKKVDDYGLACKFGGSAWGTTRVQGLTHIIFPDLTYVGNGA
+MGYFYTYSTDLETISFPELVEIGQCGMQNAFQWNYALKSASFPKLRILSGMYNSLSNAFN
+YCQNLEYVNLNSLEQMTSQALSSAFSSCRKLQELSFPSLNKNSFGNYTDQFYRMLSGVSG
+CTVHFPIRIKKTIENWSDVISGFGGTNTVILFDLSASTVNFTSNSDNYNLYIDKDLIEES
+TILLPAEDAEYLAHDNSANKVLVQTLTNLVENETKNEFIDFNQNSRKIKIITNHGTNVYF
+DILGVQICAVEESNGNFAINYIGNNIDISYFIDGGDNYTDATGTISVQNNNVSQNITLSN
+ATISNFSRPNLSANGTMGGNSFAVSCDSSVSGYSAYYAVDGNTDYLWMVNNTNSICKYTF
+YNPIPLKVSQIVNYYTSTTYSASNFTVEGSNDNENWTEIGTYTVSKTLTQTIRVNSTRYF
+KYHRITYKNSTIRLKDLGITATQKG
+>tr|R7MFG9|R7MFG9_9CLOT
+MNNLKIKLGQRIKSLRKNLNITQETLAELINMDITSLSKIETGRNYPQPETIEKIANALN
+VDISQLFSFQELNTKEDYISAIHKNISHIENNEEKLKLLYKISTDLI
+>tr|R7MHF7|R7MHF7_9CLOT
+MNKDFGYILGANIRAERLRRHYTQDQLAELLDMSINYVGKIERGVVIPSALVIFKLSKIL
+KVNINDFYKEIEI
+>tr|R7MGH6|R7MGH6_9CLOT
+MLNIEDSALVIIDIQDRLVQASKYGEEVAQNMTKVAKAAKVLGIPIVATEQYPKGLGHTV
+PQLQEAFDDKTFVTEKASFSALLEPISAQKINELKNAGIKQIAIGGIETHICVLQTAVAL
+MNEGFEVYVIKDTCASRNKKEYKAGLELLKQYGAKITCVEIALFEWLKTSKNPKFKEVQA
+LIK
+>tr|R7MD43|R7MD43_9CLOT
+MTKKIAFIFPGQGAQAVGMGKDLFENYDVAKKVFETADEVLGKSVTSMSFEGPEEDLKQT
+VNTQPAIVTMSIAALEAFKSQLKVIPTYTAGHSLGEYCAMYCSGVMDLETTLKAIQKRAD
+LMGQVKGGAMAAILNAPAGSLEEVLKKASEVGYVDVANYNSPAQVVITGDEAAVAKAGEL
+LMEAGARRVVPLAVSGAFHSKFLENAGKEFASFVADLDISSASIPVVTNVDAAATIAADD
+FKNKMPRQIYSSVHWTQTIENMIKNGVDTFVEIGPGKVLAGLNRKINSDVKTFNVYDKES
+LEATVNALKEEMAAV
+>tr|R7MJQ4|R7MJQ4_9CLOT
+MDLGKILYVDDDKLLTSTFSTLMKVEGFKDVVVYNNPIEAVEYLKTEAPDLIISDFLMPE
+MNGLEFLREAKKLYPEVSMILLTAYADKENAIKTINEIGVYKYIEKPWDNDDLIMNIRNG
+IERSHLLANLRQKIDELEKAKAQLTIYSNKLEELVAERTKELTLANMKLSGIINYCADGI
+IIIDAQGNIEQVNPACENMVGLTAEKLQKMKIQEIAYSDDPRMNRAPKSSVKSTILGLSC
+ENSEFLLRDLYIRNVLNEESIPVEINFASLTSDDDEVEKFVGVIRNFSQQKENERLRDDF
+IATLTHDLRTPLLAAIQTLKFFLDGSLGNVEEKQKVLLSTMLQSNEDLLGLVNALLEVYR
+FESGKLNLCKTVFNISDLVSQCYDELEPLSKKKDISFNLHNEVDKDLLIDADRAEIKRVI
+TNLCGNALNYTNKGGTIDIYMKAHNSDVLFSVIDNGNGIPKEDIPHLFMRFSQGTTKKRS
+TGTGLGLYLSRQIVEAHGGKIWVESKVNKGSEFSFLLTNVVAKSRV
+>tr|R7MD35|R7MD35_9CLOT
+MWKDPLQADKEPLLPQKEKIMAKKVVGKIKLQIEAGKANPSPPVGPALGQHGVNIMDFCK
+QFNAKTQDKAGYIIPVIIDVYEDRSFTFVIKSPPAPVLIKKALNIPKGSSVPNKDKVAEI
+TRAQLEEIAKIKMDDLNATTMDAAVKMIAGSCRAMGVTVKED
+>tr|R7M9S8|R7M9S8_9CLOT
+MKSKNEKYIYPQKSKLRQISIADIDVELPDLKNIFEPKAVVIAKWMCSWIEQGLKSGKIL
+VNDIIPSKADFAYLLGVSVGTMQNSFRQIEDLGYVESKQCVGTLVRDYTKPSSNVRKLTS
+KRELAAEAIKRYILSDGFKKGSKIPSSRTISTIINFSPNTTRMALDYLAYQGILEHMCQN
+PKGQGWRVVTVDFELKPVVKPSETETLVDMVVKDLEKYINGHLKIGDKMPSHSVLANALK
+TSVKTVHDALKVLIDRGILLPRRGRYGTSVIKLPNSSASSFKPETSIFASAQETAFYHYE
+KTQNHLKKMIAQDYEIGDKLPSILELSKSLDLSPNTIRKAFHNLAKEGYLVFSRGRYGGT
+FVIDIPEIESQTFKWLAVNPAFAKEYQTEN
+>tr|R7MGR9|R7MGR9_9CLOT
+MVLNANSKQDLEDFKTYILVEKNFSEHTAKAYYSDILSYLIWLGSDECEQANLSKMREYL
+HFMQKFNYKKTTVARKIASLRTFYKYLHREKKVELNPAENLISPKRPKSLPKFLTMDEVE
+EILSNINIDTPAGYRNRAILELLWASGMRVSELSGLNFGNLNLENNEITVFGKGSKERII
+LITDRAKKYLQGYIDFARALVAKDYNLGPITDTSPVFINKTGYRLQTRMIRNVINDIVEK
+IELPKKVTPHMFRHSFATHLIENGADLRVVQELLGHASISNTQIYTHISMQHMKEVYDET
+HPRA
+>tr|R7M9C7|R7M9C7_9CLOT
+MKTYEGQLTTSKDEKFCIIISRFNDFIGSKLLSGAIDELRRHGVDEENIEIVKVPGAFEI
+PVIAMKCAQSKKYNAIITLGAVIKGSTPHFDYVSAEVSKGVAHVSLQTGVPVIFGVLTTD
+NIEQAIERAGTKAGNKGADAAKTAIEMANLVKLV
+>tr|R7MI03|R7MI03_9CLOT
+MNISEFDYELPEELIAQMPADKRENSKMLVLNRENQTIEHKHFFDIVDYIDENTLLVLND
+TKVLPARLYGHKDTGAKIEVFLLNKAQDDNTIASDCKDVTTDTKTWAALIKPSKRVKPNT
+IIKISDELSIKPLKRLEDAGEWLVELIYDGDLIEILHKIGNIPLPPYIERKLTSEELKQF
+DKERYQTVYARDEGSVAAPTAGLHFTKEILQKLKEKGVDIAYVTLNVGLGTFRPVKCENI
+LEHKMHSETFSISEDTAKKINEAKTQGKKIVAVGTTTVRTLETAYQKYGCIKACHDHSEL
+FIYPPYEFKVIDNLITNFHLPKSTLLMLVSALAGKDFIFKAYAEAIKNKYRFFSYGDCMF
+IK
+>tr|R7MA49|R7MA49_9CLOT
+MNEFDLGIIGAGPAGYTAALHAASTGKTVVLFEKENIGGVCLNKGCIPTKSILHASEIFK
+SIQKSQDFGISVENIHLDYSKVIERKNQTIEKLRKGIELALKNSKVTVVNCDAKITSKNE
+IIDANGKQYHVKQIISAIGSKPKTVKGLEFDHKFILSSDDILNLTELPKSVLIVGSGAIG
+IEWARIFSNFGVETTIVELAPHLLPLADTEVSKRVERIFKTNKIKFYTKNYVEKIENNIV
+TLSSGETLNPELILVAIGREPNSQEKIDGVSYIGDEAGEIQLAHYAIKQAIEKTENIPYR
+KDLIPSVVYGEPEIAWVGKREQDLEGEEYKKSMVLISALGKSHCDNSTEGFIKLLTQEDK
+IVGAHIVSKEASSLLQQILIAMQNNITIDQLKEICFAHPTYSEGIFEALFK
+>tr|R7MCA0|R7MCA0_9CLOT
+MNKTLVKYPFLTKEVEIYERDNGHKIIFAHKEGEMVNVSSWVKTGSINEDDDNNGISHFL
+EHLMFKGTHAHKVGEFDRMLESKGAIVNAATWKDYTFFYVTLPKGIDDKDFELAIDLHSD
+MMMDPVFPAEELGAPFDINDNTVTDKRERHVVIEEIRMRKDQPWTKVYNICNKNLYSSHP
+YKRDVIGTPEIISRLTREDIDNYYRKFYTPKNVTTIVVGDFNHDSVLNALCEKFDFPNRI
+ENENRVNNIDAPVSETKYIETKSNVQTGYMMFGWLGPRAAELKDSICLDLISIIFGDGSS
+SRLQQNLIEKLPEQIFNMIGSEHYQFKEGNNFFIQANFKPEYKEKALELIKQELENLLTN
+RITEEELAKAKKRTKSRFAYAAETVSEIGETIGYYVTVCDDLKLIEDYLAYLDSITVDDL
+ENAIKKYLSLNNSVISVLMPE
+>tr|R7MIA7|R7MIA7_9CLOT
+MQNSNVDWITTKELAEIKGISERAVRKSIAKNKYVIRKSSKSYEILVTSLEESVRKKVTE
+RREKSTALVPINYVVPEEQKKLALAKYDLIKNWDKFRNEKPNKTQAGKDFLDAYNNNCLC
+KNLFVSIGKVAIGTIYEWHKKLREYNDDWHSLINNYTFGAKTTKTSLTEAEQSELLRNLL
+HPNRLNIGKAIKYTKMALKSKGYENLCCDLTYRRFANNYKAEHYDVWVDARGGNKELHDK
+VLPYITRDVSKLEVGDVIIGDGHRLAFFVKNPYTGNPVRPTLVAYQDWKSGGFVGFEIML
+EENTQCIASALRNSIINLGKVPRFVYQDNGKAFKAKYFTEDGIAGLFKNLGIQAISAKPY
+NAKAKPIERLFRELQDSFEVMLPSYTGTSIVKKPAQLKRNEKLHKELFKLNIPTIEQVIL
+VLNAWLQKYHYEQPCQHVEGKTIGEVLESGKGEGVNIETLDDFMMARETKKIQRNGIKFL
+KNDYYDPALYGYKKNVIIKYSLFDLSSIKVFKLNGEFMCEAMRVEPINPLANYIGTPKDI
+EDLKQKTKLKKQLEKRTETEFVNHLKRAQVHNPLLTMDLPEKQEEEEILEFQIEVKKQAN
+KEIFNGIFKNKYEKYEYLLQKDTLTKDEQDWIEEYRKTGEYELIYCDESDKEVIDA
+>tr|R7MJ02|R7MJ02_9CLOT
+MRHQTKKHTLGKAQDQRKALLRSLATELFVNGEITTTLARAKALKPYAEKVISLAKKGDL
+NSIRQAAKYIYNKETGKYMDLATGEVFEAPQADKKLASQTVLRKLFVVIGKQYSEKNGGY
+TRIYHLPPRRGDASEMALIQLV
+>tr|R7MHT1|R7MHT1_9CLOT
+MYKVMALDVGTKRIGIALSDFLLMLANGHSYIPREPEDKAIEAIYKIAKENRVEKIVVGV
+PLNMDGTKGFQAENCTEFASKLKGYEIIFEDERLTSDTAEENLRAKKIDFRKDKGLVDIE
+SACIILEQYLSRKGN
+>tr|R7MGX3|R7MGX3_9CLOT
+MRGDFFFEYGQTELLERGKTFLTLFAEIFQQLPNSCVIEVNSDALDCNNSVEYWETTIRQ
+ANQIEKYLIKERNISPNKIRSIGFGEIIPNLPKEKTFPNRIDFVILEYNVTP
+>tr|R7MDR6|R7MDR6_9CLOT
+MSILDKIMKPKSIAVIGASTKEHTIGSDIMKRLQEYKFNGKIYPVNPKGGVIEGLQAYTS
+VLEVPGEVDLAIIVVNAKFVLSTIDQCNEKGIKGICIITAGFKETGAAGAELEKELVEKI
+HSYGMRCVGPNCLGVVNTHPDVRMDGCFAESLPERGNIGFVSQSGALGGGILNILKDLNL
+GFAQFISIGNQADVNAETALEYWENDEDVEQILLYMESIQNPANFRKLASRISRKKPVLA
+LKAGRSAAGASAASSHTGSLAGADKAANALLKQSGVIREYSLKNLFATAKVFANCPIPQG
+DRVAIITNSGGPGIMATDAISEYGMQMAKITDETKEKLRSFLPSAASVKNPIDMIASAPI
+EHYKQTLETVIADPNVDMIITIYLPFLGLKDIDVAQALMEIKAQHPEKPIIGVFMTKSEF
+FTKLSNMDVNMPFFMYAEEAADGLNRLNQQRLWMERPEGKIPVFDVDHEKAKQIIRKSIS
+EGRAQLTTRESIDVLDAYGIRVCKSGFATTEDEAVEIANSIGYPVVMKMTSKTTSHKTDV
+GGVRVNIQSEDQLRAEYQDLIAKLTEKGLIDGLEGVIIQEMVKGNREMVCGIATDPQYGP
+MMMFGLGGVFIEVMKDVTFRIAPLTDVDAAEMIKSVKAYKLLEGARGTTPAQMDQIQETL
+LRLSQLVHDFSFIDELDINPLLISEKTGEGIAVDGRIKVRMEEAEKALVSACGACSGCCH
+>tr|R7MHE3|R7MHE3_9CLOT
+MFEPNERPFIRSQIANTLRGTISQKLVPAIDGGTRLPATEILVVTPTVKDFIQKDELEQI
+YELVKNGSFNNMTTMNTSLYKLYNEEKISKETALTYSDNKPELEQLMRGIYHGTGMNK
+>tr|R7MJ62|R7MJ62_9CLOT
+MHSKIKKDGYTIVPLEVFITKGFAKVEIGLAKGKKLHDKRDDIAKKDQKREMDRASKGKY
+NY
+>tr|R7MIE9|R7MIE9_9CLOT
+MRNYKRNKSAYTIAEVMIVLLILTVIFAAFAPIITKRKLSSYKSSNAIWNRYNETKGFDA
+YFDPSNTRNTGTAFFGVKPDSYGTVTSTLTPLSRVVIRSGPVTSGNKLQRQIQFRFGRLS
+GNAAEKKYGKFAGTWLMDRQNVLLGGAYPNIDNTPDNIEARDNVAIGYQSMNALKNAQGN
+TALGLSTLSENISGKYNTAIGYNAGSALHADYNTYIGAGAGEKASGSRNTAVGYQAGYNN
+SGSVNVFVGANAGRTGSGSYNVGIGYDALRSVSGNYNVAIGTGALKNLTTGSYNTAIGYN
+ACSEVTTGSHKTCIGYNSGPGANTKTSYMSATGSWSSGQTVSDYLGSKTDNLERTYIGGR
+PYNYGGDAVMEIHNVGGTNSNLINNPGVKSNTTTVINGNLIVRGRAMMTIGNNLWSFVEV
+DPKGSSAEHSMGYYSNERNRIRSQQTYPGCLSKNFSGGAYSTVPERVCLDSDVSSDRRLK
+NIGTRNTAGLEELNQLKIYDYTFKNDKSKHSQIGVMAQDLQKVFPNSVFEGPDGYLRIRW
+DEMFFASINAIKELDRKIVSLVNRATKVETQIAKLEQENISLKTQVDALSVRVEKLKNK
+>tr|R7MK90|R7MK90_9CLOT
+MPKLKTHRSAAKRYKVTASGKIMKRQAGIGHLLQHKSASRKRRIFKMVGVSESHVALVSK
+ELPYKKYSR
+>tr|R7MD03|R7MD03_9CLOT
+MKLVVGLGNVGDKYCFTRHNVGFMVVDKWAIMNDVTFKEDKKLKSFIAKYKSEMEDIMLI
+KPTTFMNLSGEAVIAVMNYYKIDISDVIIVYDDLSLELGKIRFRPSGSDGGHNGIKSIIK
+HLGTSNFARLKVGIGPQPPIPAENFVLQNFYKDQLETLKPVLKKSIEGVQYYFENGMQKA
+QNTYN
+>tr|R7MG67|R7MG67_9CLOT
+MLLEKIYEKNHLCIKFLNIKFKFNLEHLKQLYKKSKNYKNYFVVLKERKKQEKFLKEHLN
+FINIETFSKCNRQCWFCTNSIIDRHSKNIRMKESLYKKIIDDLAKIKYCGAITYSYYNEP
+LLDDIIIDRIRYARKKLPNAFLFTHTNGDYINEDYLDKLADAGLNKLKIQCYLNKDEEFD
+VENILEKKIRATANKINKSFQVINKSENVIEVKYDYSKMDVQQSSFNFKEIGTNRGGAIE
+NIISSERIEPCFSPFYRMYVTYEGVVLPCCNVRQELNPNFVMGDLRKESLFEVFTNQKYV
+NLRQVLEKGPIKIQPCCNCVGVAANICNDVMDIKFQENRY
+>tr|R7MJB0|R7MJB0_9CLOT
+MKNVFSKIVNNQNCAGWIFILPAILGTLIFILIPVICSFGLSFAKWDLLNPIQFVGLQNY
+IDIFHSSVFYKIFTNTVVFALSVSVLGVIIPLVLASILNSRIRGSEFFKTAYFLPFITPM
+IVIGIVWAWIFDPNIGLLSQVLHIHINWLYDSKFAMPALIIVSVWKLIGYNMIIFLSALS
+SVSQSLFEAAKIDGANSYQIFKNVTIPVLSPTIFFVVIITAISSFQVFDLIYLMTQGGPF
+DSTNVLVYAIYKDAFEYFNVGHASAIAYVLFVVILILTLIQWSLRKKLVYNEK
+>tr|R7MIU7|R7MIU7_9CLOT
+MVNRVKSGTVIGLNAYEVLVETDVVNSLPAMSIVGLPDTAVNEARDRVKSAIKNSGYTFP
+SKKVVINLAPADLKKAGTGFDLPIAIGILTEEEVLDWEKIKNYAFIGELALDGLIRGING
+VLPLVLGLKEAGIVDIVVPKSNAKEAALIDGVNIYPAEHLTDVVNHFIDTKITPLNIDIQ
+KYLTAQSEIEYPYDFKDVKGQQKAKKALEIAAAGGHNMLMIGSPGSGKTLMAKCFPSILP
+PLTLPEALELTKIYSICGLLSQEEPLMSKRPFRAVHHTASANGIIGGGSNPKPGEITLAH
+RGVLFLDEMVEFPRAVLEVLRQPLEDGEIVISRATHSIKYPAKFILLGAMNPCPCGYLGD
+KEKHCTCSDFQISRYLGKLSGPLLDRIDLQIDVPRLTPEELLNTNTKEETSATIRQRVIK
+AREIQLERYKNEGIFTNSELTSKLIKKYCKVDEQSQALLKIAIVKYQLSGRKYDRVLKLA
+RTLADLDNSKDIGQIHVMQALQYRMGVDIPIS
+>tr|R7MB53|R7MB53_9CLOT
+MIDVVKNELIEYGKLAGVKNFTPGFSGNLSARCGNKILITATGTANGYLSEDDFALIDFE
+GNIIEGNKKPSSEKMLHVEFYKQREDINYIFHVHSPYLTAFSAAGKALDKNILAEIVYCF
+DYIPLAEYALPGSKELVENTSKFFKDFDVVLMANHGVIVGGKDVKDAYLKLELCEAYAQT
+VLFSNLLGGAKMLPSEEVKKIYSLR
+>tr|R7MAF8|R7MAF8_9CLOT
+MNELFEFDKNFGTVIGTDEAGRGPAAGGVFAACVYFPDVTDSLISDLDRLNDSKKLSSSA
+REKLYDVILNNTINSVICIEVDEIERINILNASLKAMKLSCEEVIKKAKLQDFITLVDGN
+KLIRNYTYPQKFIIKGDGQSASIAAASILAKVTRDRYMTNLASEFPQYGWNRNAGYLTAE
+HLKAIDEYGLSKYHRPSFLRKHFEKQKQLSLF
+>tr|R7MJ78|R7MJ78_9CLOT
+MITVKDVEHVAKLARLELTEEEKELYTKQLGDVLKYVDQMNEVDTSNVKPMTQVIDFVNV
+MREDVAHQEISKEALMSNAPDEENGFFKVPKIN
+>tr|R7MBZ6|R7MBZ6_9CLOT
+MSEISPKVIRGTLVSLYQWAITAGILFSYFINAAFANAIYSWRWMLLAGILPGLVLLVGM
+SLMSDTPRWLVSKNRDEEAKKVFKKIDPNANADVEIGEIKKTLASESEDSNKKIRFKKWM
+IMPFVVGIGIMFAQICTGINTIIYYAPTIFKIAGFDSNLNAIYATTGIGVINFLMTIVAV
+FFTDRLGRKPLLYFGLTGVMLSLVALGCAFAFSSVSGDSLKWVAVGSLVTYIICFAMSLG
+PIGWIIVSEVFPLKIRGVAMSICTVSNFAFNFFVVGSFPILIHRIGGAYTFWGFAVVSLL
+CILFVYFFVPETKGISLEQIESNWLHGVKPRDFNKV
+>tr|R7MCB7|R7MCB7_9CLOT
+MGQKTHPTGFRVGIIQDWASTWYAKWKDYKTFVAEDAKIRKFVKKKLYAAGVSKIWIARK
+AQNTTITVVTAKPGIVVGRGGQGIDELRQEVTKYIGKPVIINVVEVARIDADAQLVAENI
+AQQLEKRIAFRRAMKQAMQRTMRSGVQGIKVMVSGRLGGAEIARSEWAKEGRIPLQTLRA
+DVDFGFAEADTIMGKIGVKVWIFKGNLMPGEKADKNVKLKSGKDSEKGSRRPRRGRNVET
+TSDAK
+>tr|R7MGS1|R7MGS1_9CLOT
+MELKTYNVSLKSDYLNRYSNVSPIKGIEEAIWNSLDADATEIHIKFSKNEFGKTSEVIIE
+DNGHGIDIDKVESEFTTLGGSFKKTSLRSPNNRKYHGSQGAGRIKLASIGNDVEINSTYY
+NKESNKYINITILISSDNLNKFKVLDIKESDNTKTGTRIKISNLNNKSTVLTSGKSQDDI
+LEIFTAYSFSYPDFKIIYDGDIIDFKNNIKNTYNEVFSQEINGIKEQFTVKIVE
+>tr|R7MAK7|R7MAK7_9CLOT
+MVVERQRVQEQDKIQRRSNFEPVESNLTQEQVKLEASRCLHCKNPRCVQGCPVNIQIPEF
+IKALKEDNLEEAGKIIRQTSMLPSVCGRVCPQERQCEGNCVLGIKGQPVAIGALERYVGD
+NTKAEQTEIKPSGKKVAVVGSGCAGITLCRYYCRS
+>tr|R7MAC0|R7MAC0_9CLOT
+MDLIDLRKENELVDLFCSMAEVPSPSLKEDKIIDWVCNYCKENNLDCELDDFKNIYITIP
+ATDSTKQPILLSSHMDVGGDNSPVVPYLDGDLIKAKGRTLGADDKAGVANALYFAKELAK
+RTDIKHGGLEVHFTRDEENTMQGIKHTDFSRIKSKYALVLDSDALGQCLISGASYVLVDL
+KVTAPKGGHSGNDIGDSTRENATKLIADLVSEMPQGVFYSENDQVITSCNIGGISSGDLD
+VTNVINTEGRATYSIRSSNKQKENDLIALMQETANAFNKQYVGIATAEINFTEKMPMFEK
+NDDEFMPNLFSKVAREIGIEPEISSFHAGAETHIYANRTNANGEKFSPYLLGLATVCNMH
+SAREYVDYKTMLKGQELLKALFLEFNK
+>tr|R7MFW7|R7MFW7_9CLOT
+MKIVIYGATEVGCLLATEFFEDHDITVIDKEENRTEEFDKLDISFVQGNATDINVLKSAD
+IINSDVFIACTPLDEANIVACLSAKKVSGIRTICFVSKAEYQNTMELDKSNDYLGDFFID
+YVIWPEALLTQELFRIVTVAHALDVENFADGRARLLEYKVRPGASIVGKMVKDCGFTRDT
+IIVGIKRDDLLFIPNGLTEINENDKLIFMGTSHSLDILAGTFFHEKEQVKSVAVIGGGNV
+GYMLAKSLEDMKIKTKIIEKDYDRCEFLAQELHKTLVINGDGTNLKILDEEEIGSSDVVI
+SVTNNDEKNLLCSLLVKQLGVKRVISRVSKVLNVPLFEKVGIDIAVSPKTSAINEVRNDL
+DENDVDILATVEQGQAEVLEILVKDEFNGKKIMDLRFPAPAIIGVVQRRNQVIIPKGDTQ
+LREHDILIIFTKADTAQQIKSYFKVA
+>tr|R7MBK8|R7MBK8_9CLOT
+MSEFSRNDIIEILKDDSNNDWLFSLADKTREEYVGDEVHLRGLIEFSNICKRQCKYCGLR
+CEDKFIDRYRISKENIISYAEHAVNMGYKTIVLQSGEDEYYNTDLMCEIIEGIKKLGVAL
+TLSIGEKTYEEYKAFKEAGADRYLIRIETTDKTLYNQMHPNMDFDNRVRCLKDLGRLGYE
+VGTGCLVGLPNQTIESLVDDILFFKEINADMVGIGPFIPHPHTPLKDSATGSFTLALKVM
+ALTRILLKDINIPATTAMETLNPNGRIIALQSGANVVMPNVTTTEYRAKYEIYPNKICIN
+ENPDKCKGCISAKIQSIGRSVSTSFGFRVGKK
+>tr|R7MAX3|R7MAX3_9CLOT
+MRIETEKKFAAGLSIFSNSVIIILKLIAGHISGSISIISEAIHSLSDFLASVLTFFSVMK
+SSEPADKKHPFGHGKYEDMSGFIEGGLIIFAAGFIVFEALKKIISPSTATVDTTLGLVVM
+GISVVANIIVSTVLFKVAKDSESVSLYADAEHLRTDILSSLGVFIGLLLIKLTGIHLLDP
+IIAIIVAIIIFRAGLSISISTMNNLLDCSLPECDLHAICKILETFKSKGITGYKDLRARR
+LGPQKSIEVTLLFPKDMTICNCHTICDSIEKELKTELGDITSSIHLEPDTTQVNSNI
+>tr|R7MJE5|R7MJE5_9CLOT
+MEAIIAELIKMFPKINTYLMAGTFVFARLIGFFRFAPIFNRKDFPSLVKLPLALIITVFM
+VPFLHPEKCLTQCDSFMLSIVLNIVVGAMIGYMAQLITIAIDCGAEMINMQMGLSSATAL
+DPTTSAQVSILTKMISLMGILIFINLGGVYWLFKALLRSFEIFPIYATHVPLPELIKMDL
+LIKMSSNTLYMGLQIASPILLATLAQDIILGVISRTAPQVNVFQLSFLFKPVLGAAIMVW
+ILPMLMNVIEEYFLSFANII
+>tr|R7MFL6|R7MFL6_9CLOT
+MAKEISTLKNKIEYIYKKNDNTPRMALCFNLSVNEPEKIPGVYVLMTRLLLQGTKNYSSE
+ELANEFEKYAIDFSSDSFPNLLRLKFVCLNEDFPKAVELMNEVITNSTFEEVEKEKIKLK
+GEITAELDSPRTVVSDAFCSSMYENHYYGTSLTIALKNLDNITKEDVIEAYNQIMNNSKK
+SLAIVGALEKEDVIPLIADTIGKLPESVDGNFKIEKPELKERKEVILHKDNLNQAHIIKG
+WQVPTFGMDEYPALVLLNIILGACGLSSRLFLELRDKKGLAYVVRSSYDTLKLSGTFMVY
+IATEPKNIEVSLKGIDEEIEKIKTIPVSEQELNDAKNNLIGKCAFLEETNIQQACGYARY
+GVLGLGFDYSERMKESVKKVTPEQVLNCAKKYFTDVYVTSIIKP
+>tr|R7MHZ1|R7MHZ1_9CLOT
+MAQGVKMPTTDDLMSMWNASGLKQKILFTFLMVALWRLGVQMPLYGINSQVFANIAQGNN
+IIGFLDLFSGGALGTVSILALGIGPFITSSIIVQLISVVIPSLEKLQKEEGEAGRRKLSQ
+YTRIFTVVLAVFQSFIFMLYLHHLPGAIISSVNPIAFYVSSICSLTAGAVLVMWISELIT
+ENGIGNGGSLIIFCGILSGIPIYTSRTAALVKVSSSMQIGLMILLAIFFVSMVMIVIMQE
+AVRKVIIVNPKRQIGNKVYGGMNSFIPFKLNPGGVMPIIFAIAILLFPSTILALVGQANF
+KSAAVKNFVMSMNHYLSPDGITYYLLYVGLIIALTFFYASIMPNMQPKDIADNLKKYGSS
+IPGIKPGRPTAEALDKILSKTTFIGAIGLGIIALVPSFASHVTRIQTFQGIGATSLIIMV
+GVALDLINQVRTHLLARNYESFLKE
+>tr|R7MHX9|R7MHX9_9CLOT
+MEKYELDFSQVAYMGDDEPDICILEKVAIAGCPADAVAKVQKVCNFKATKDGGRGAVREL
+CDFVFESVNFENEQ
+>tr|R7MJF9|R7MJF9_9CLOT
+MEELKKIKTVIDKQAPEALRESILVIDANTGQNGLQQAKVFSESVNLTCVALTKLDGSAK
+GAIIIAIAKEMKLPVKLVGVGEKMEDLKAFNPDDFIEALFS
+>tr|R7MD50|R7MD50_9CLOT
+MKIAIYPGSFDPITKGHLDILKNASGIFDKVIIAVARNGEKKGFLSTEERVELIKKSIEG
+LDNVEVDAFEGLTIEYAKKRGAEILIRGLRAVSDFEYEMQLSQTNSALCDEIKTVFLTTK
+PKYNFISSSTIREILQNNGDISKFVPQAVNEYLTQRR
+>tr|R7MBM9|R7MBM9_9CLOT
+MVDRRCVSCWQVKNRDELIKITAKNDDEKVIVNPNSTTFGRSVYLCYNKACIETAFKKNK
+IGKHLKATIPNELKGQLLDELRNS
+>tr|R7MHR4|R7MHR4_9CLOT
+MRHKKIKRIICLLVIMGNFLGMLDSSTVNLALYPIAQGLNITLTEVQWVVIAYMLVLTVF
+LPFFGKLGDIFPKNKVYGSGFLIFAIGALLNCTAPNFCVLLIFRCIEALGASIMIANGPA
+VIATLFKGEKRGQALGLNASLVAVGGMTGPAVGGALINFLGWRAIFLPSVPLAIIGAYLA
+FKLLPAYVKKKKFKFDYRGFFYFTVALFALLLAISEGHEWGWKSIKIISLGVLTLLFGGL
+FYFRDSKINFPLINFKMFKIKTFTFGNIAVMTSYMTMFTNGILLPLFLQEIMKYNAFLTG
+LLILPYSIASSVVAPFAGSYSGKHDSRLLTIIGPSIYILALIIFTSFNTNTQMWQIVLAS
+IIMGIGNGCFQSPSNNAIITSVRKEELGIASGILSLSRNLGNILGVAVTITLFESFRNEL
+LTDGIQYTKAFLTSYHWTMGFGILFGLTCLGCSFYAYKEKNFN
+>tr|R7MBF1|R7MBF1_9CLOT
+MDVPETSYKNYDLTAREAQILKLMTEGYSNMEIAQHLVISVNTTKAHVASILQKLEVDDR
+LQAALKALKYQIV
+>tr|R7MAU8|R7MAU8_9CLOT
+MECPKCGAEIDKSAMVCPNCKKVLKIVCPVCRTVNTKNTCRKCGEILVVKCSKCGKINLT
+KHSKCVKCGYSTEKSAIQGESNTEDFAVLKIEFPNLDIVKAKLGSNQLLTKFKANLDNMI
+LNYMSSLGVRRQIVKDNTYIIRFNNVYTLSASANSAIMSSIELANMFTRLNVKLLRKKGI
+GLKCNLTILKRNVEDNPYDVATGFQADMVQISDNIETKALGYFQLMTDEDFYEYYNDKYK
+LETLNAVLVNGKMKQFYEINLSDFIKINEFVQESVELSTDEEIEVPKFVQSALVDQEKIT
+KQTLDDENNVSEDELYSGELINFDEVNCAFYMTENIRVLDNVVDVLQEVPRGILAIKGSN
+MYQPYTLRLLSAVEETGIYNDIIPVTCHDGMKYAPYSFFKELISTIFEYAVSQKLFDTND
+FSMFNNIDSSGLVKDLITCNQREMRNFEETRDEYFQVFARLMEAIPNSLIYIENFEKVDS
+SSMLALSQLFDHFEDFSVSYLITYDKDYALHKENHFLLSRPYYTEITLKPSPFEGIIASN
+KEFYKNVLNDFYFQRIAKYACGSTLFLDFAIQYLLESGVYSLTQYSIVMVNPKTIMIPSS
+LSQLMKRRLNLLKDDTRAIKFLTMAVLLGTRVDEKTLESFGFANWRAIVDKLAGMGYVFA
+YNNCMYFSNYAILRENLLDILKPEELKNIAKELLEIAFVEGMASPVRANLYEMMDLNEQV
+IYEWESLANINLSMGDFSSYLNCSGEIIKCLDKYASNWSQEELSQYKKSIYENISNNMFE
+YEPNETREIAEKTLTSLKDNNNITSFIELGTKMIQGAFYNGQYLYALNLTHKVLSVMDGV
+SLDPTAENFSLHFLILSMVHIKILFNIGAYDDCLDIGYNVLNALDLGKINNIQFSMLTID
+EFKEMLVECIACIAISDVVSMKEDVSEFLDISGKLFDFIPQEFSLFIQLQNLLKGENVQL
+PPKPPEENVYTASIYHIIKAYAYFRNKPIEFAKEVYKTKLIAKDMGLYKLELFADLLVGY
+SYARLNSFKKASAIVYRVIMDAKEHGMNSIEHIGWYVMSILDIAQGKFDIAYGVLNNSTI
+FMEKTPISEYLTMLDKVNMYKVLMASKEPEKAQICMNQAVLIVQKYGLNINLNIDIEKLM
+VENQNTEVVQKFKPENTTPKLQEESLSEKENIKIDTKTSPEEDNSSDDGFVNPEDFFS
+>tr|R7M9D1|R7M9D1_9CLOT
+MQVLRCAGITAAADLRKAGHEVVVFEALHKLGGVLRYGIPPFRLPRTILDREITNLKSMG
+VVFHTDVVVGKSITLKQLKEDGFDAIFICSGAGLPKMMHIKGENLNGVFSANEFLTRVNL
+MGAGRDPESITPLRVGKKVAVIGGGNVAMDAARTAVRVGFEEVSILYRRTEKELPARLEE
+IRHAKEEGVQFKFLHAPVEILENEGYVAGMKFELCELGEPDSTGRRKPVGTGKFVVEDVD
+TVIVALGTGPNPIIQRSAEAEGLDIITDAKGYISVDADTRSTNIPCVFAGGDVAPVGASN
+AINAMGAGKKAAKAINEMLK
+>tr|R7MFR2|R7MFR2_9CLOT
+MARLVGVDLPRNKRMEIALTYIYGIGPARAKKILEATGISPDLRTDNLTDEDIKLLRNEL
+SNYHIEGDLRREVTMNIKRLQEIGSFRGLRHKRKLPCRGQRTKTNARTQRGKKTGPVSKK
+K
+>tr|R7MGU9|R7MGU9_9CLOT
+MLVVSQFTLCGDCKKGTRPSFDAAAKPEDAVRLYEYFVEKVKSLNIPCQEGKFRAMMDVE
+LVNDGPVTFLVEK
+>tr|R7MDL2|R7MDL2_9CLOT
+MRDFNKKLRVVLIDDNANHLRGIKELINLESSYDVVGTTTSANLGINLIKKYHPDVVLMD
+INMPEKDGLQAIQTINKLNLQTKVIALSGYDDSDLIYRAMKLGAKGYVLKTMASVKLIDA
+IEEVAAGKIYLPSILSTRFFEYFQTTAKEEARTSEEENLLSSLTMRENEVLELLTEGINY
+KSIAGKLIISETTVKTHVNNIFQKLQVNDRTNAVLYALSHGFKTSKTAAMTTV
+>tr|R7M9T6|R7M9T6_9CLOT
+MYHQKAMAQLLREMDKAEADGLNILIVGSVSDPRLIGTATMKSAKFTSMGISSPAFNESE
+RYQVIKKVLQNSKIKIAGSKEAQENTIEFAAKISNSFPFMSLKGLVYKANSVAEERGHSK
+LTKADFTEAYLQLTTGRPSTAHNNPHEQKIVASHECGHATNLEVMNNLAKTLGKPWHIPT
+KVNFITLDPRGMYGGAVYPGRDKNSEKSFESLFASIVLGFGGNSAEHRFYGMNGSMGITC
+DMEQNRNLAEFMVKSAGMGAKVGKMSIADDEVVSDDLRKMIESDERVILNNAKIVSDYIT
+EVYSDFNEQFTKQYSPKVGSGECLIDGDLFREELNKWKKSQSPEKQEEIKECDIAIQKVM
+EATKKGIAVRRDGDD
+>tr|R7MJM1|R7MJM1_9CLOT
+MKFKFNKFKAFTLAELMIMLSVLTVLLAAFAPVFTVRYNNASSSEIWNEVPDDEERDVYT
+DQTNKVVAAQSFIGITPSSSTDVLNAIKDESNHMLYSKVVIRPTESLTGASDKVQKQIQF
+RYDGTPVGTLFAGNKNMLLGGNYENIETSATGNSAYGVGALNSLKDGVGNTALGYNALRA
+LSSANYNTAIGYSAGYGGNISSNGFPLGGFKPLPKIKAGSTGNTLVGYNSFTGSSSNYTT
+VIGKTTPTLNVYNRGSFSTIVGNNSAPAVGRDNVVVGERSLTNTTSSSVGNTVLGSRALT
+SENVGSYNTAVGYGACSGVTGSYKTCIGYNSGSSVLGANTFLLTDSNERVYIGGPITQVS
+GEDTPGGAAVLEVHNLNSSRSTQPLGDMGDSSVLINGNLIVRGQTYMTVNNVIRSSHPHS
+LVGFFDMKAKGAFQHSHVFSGWDGRERDVEVYEGCRGCRRHAYSFGKTNCTCVLDSHYSY
+DWSTHGEGKSNSQNNGCSLEYGSAYTDANTGWKYVGNHDDFNEAHKKSGNSCCPQLVSDM
+RLKNVGDKFSAGLDEIKKLNIYNYTYKSDDTKAPHVGVIAQDLKRVFPTAVSKDENGYYQ
+IRWDEMFYAAINAVKTLNTKVESLANRVVTDQKRIATLKKDNANLEKKLNSLSAELTELE
+KKH
+>tr|R7MEG0|R7MEG0_9CLOT
+MSIIIMILLLSFLVLVHEAGHFLAARMFKIKVSKFGFGLPIGPTLWSKQIGDVEVLIHAF
+LLGGYVSFPDDDKDSKLPADSEDRFINRPVWQRMVVISAGVIANIITAFFLVFITSLVWG
+KLPSENYQVYVNKIAAEKGASVWDSGMQAGDKIIKINGSDIKSSYALTLYAQNSKPYDGK
+VDEEFVKTNLDKLKKLNPSLKEDGVIKASSEVKLPLVQSEPQLKIDDKTLKGYKLYRDSQ
+VSLSEQQVKLRDSLKETNIYVADGNSTLEDVAYAISDNYRPVNITVLRDGKTVDLKPIYP
+SKKGVIGIALEPRQDLVPTKNFSSAITGSFQYMWNQTYILVYGLWQLFSGKIPMKDLHGI
+VVITKVGGDVISNSGFFSGLLLTAMISLDLALVNFLPIPALDGGHFMFLLIEQLRGKPVD
+EETINKVSSFFFILLIIFMVLVVFNDIYALLMHKI
+>tr|R7MH40|R7MH40_9CLOT
+MEKIELYYKAPIFIKSNTVKIEHPNNNSINNLIPLGEGSYALTYKYYDDFYNRDFVVKRA
+KKNLSEKELKRFKQEFEIMKSLNSPYIVDVYSYNDDNNSYIMEYMDFTLDKFIRLNNDKI
+SSGVRKSIILQLLKACKYLHEKGYLHRDLSPSNVLIKTYDDVLVVKIADFGLAKNPTNEL
+TTVNTEFKGYFNDPNLKLEGFNNYAMPHEIYALTMLIYFISTGKTNTSKIDNVKLKRFVQ
+KGLGDKDNRYKSVDELCEVFKNI
+>tr|R7MGA4|R7MGA4_9CLOT
+MVILSVGIKPNSEIARDAGIVIGETGAIRVNKHMETSIKNIYACGDCCEEKHLISGKDVW
+MPLGSTANKEGECAALNAAGIDTEFEGVLGSSVTRCLNTTMSMTGLTESQSLEAGYSPVF
+AVVSKTDKVAYMPDVGEITLKVMADKFTGLLLGGQAVGSIGADKRINALATALLGHLTVQ
+EFKRNDLTYSPPYSPTIDPLLTAMSILCKRVSKPC
+>tr|R7MGJ0|R7MGJ0_9CLOT
+MYYQGLINRYREFLPVDDSTPVVTLNEGNTPLIKADNLAKKIGVDAEIYLKFEGCNPTGS
+FKDRGMTMAVTKAKESGSGAIICASTGNTSASAAAYGAKAGLKTYVLIPDGYIALGKLSQ
+AMMYGADIIAIQGNFDKALEMVREISDKYPITLVNSVNPYRIEGQKTGAFEICEALGQAP
+DYHFIPVGNAGNITAYWKGYKEWHKLGKIKELPKMMGFEAEGAAAIVKGERIMNPETVAT
+AIRIGNPASWKFAEAARDESNGMINYVTDEEILKAYKLIASCEGVLAEPASAASVAGLIK
+VKDTVKSGSKIVCILTGNGLKDPDNAIKYANDEVKKTSADMTDILRAMNI
+>tr|R7MJ39|R7MJ39_9CLOT
+MNDSTMTGEKYITIKELAELKGVSTRAIRLSKDKYITREITVKGGKSFEILLSSIEPELQ
+ERYYSKIVPTYEVKQLPTLIDFHKPDKAKTIALARLDLLNFWKNQRKNQNNKTQFDTDFL
+SAYNAQVLYPEIYAKIGKVSIGTLQRWNRILGNSNNYELLIPNYHYEDYSRTCLTEYEKQ
+IFLKLLLHPNKFSIGKAISLTQYVLKSQGQEYIPAVPTFRRFANWYKANYFDKWTLLREG
+EKALKEEVIPHIKRDIFKIEVGEVLVADGKRLNFQVLNPFTGKPCRATLIGFLDWKSTAL
+VGYEIMIEENTQNIASALRNAILNLGKIPKFVYLDNGRAFRGKYFVGSAKFDEVGLKGIY
+EKLGITTVFANPYNARAKVIERFFLEMQESFEKLLPSYIGTSIECKPARLRRNEKFHSEI
+HQEYTPTIQQTIQMINSWLEYENSLPCPNDKSKTIKEMLDSIERQEINLRELDDLMMAQE
+IKTITSQGIRFLKADYYNDALYGLRQKVIIKYSLFDLSYINVYTISGKFLCRADRSTLTH
+PLAHYTGEVKDIEDYKQKIQKQKQLKNKTIKACKEFLNIEDLEILECEIEEKEETLPLPI
+IPKIEIKKEKPKKYNPAVKPLFKTSRERYEYLMEHGCTCNDDRVWLIAYKESKEFKEYET
+KICIN
+>tr|R7MI10|R7MI10_9CLOT
+MTDFLVARSKLADFDEFKEFIPSPGEGTLKNRMLYFKDNLKAKTGTLSDTSAIAGYITSR
+KGNTYAFDIMINDAKTSSSDKKNIEEQILRQIYANY
+>tr|R7MBB8|R7MBB8_9CLOT
+MNKKTIITVLAILIIPILAFFGLTTHKDSSTVAEAKGKPQIIKFSSTMCLECKEVEKVFK
+EILPKYEDQITYTEIIVDSRDDMKNNMIKKYNVQLVPTIIMLNSDGTQYKRIETAIPKEQ
+METYIKGLK
+>tr|R7MF19|R7MF19_9CLOT
+MSNILVYELDKKIYINLTNRCTNECIFCLRQDKDDVCGQELWLDSEDFTSEDVIEQLKKF
+NLSSEVIFCGYGEPMLKFEVLRQVAKYIKETYPEIKIRVNTNGHANFIYKKNVVPELVGL
+VDEFSVSLNASNSEEYDELSQPKFENAYEEVKKFIKCSADAGIETVASIVDGYKGRRLDV
+EKCREIAESLGAKLRVREWIVNGYS
+>tr|R7MC83|R7MC83_9CLOT
+MSKYIALVDCDSFFCSCERKLNPELNCKPLCVVSSERGCVIARSKEAKAMGIKMGDPLFK
+AVEEHPNCIYMVANHHNYLSISKQIMYILKDLSPNVEIYSIDEAFVDVTGLVKVYNKNYY
+TMAKYIQDRIWNEVGMPVSIGISRSKTLAKLASDRAKTTKDRIILLGKSKSKKYLQDVDA
+SEVWGIGGRLNLRLQRFGIRTASEFVSKDDEWMKRNFGKNGLTTKYELLGHSVIPIVNDS
+PPPKSICDTQSFPEFTSDFDYIKNELQVHIHSACRRLRQAKCKCNTIGVIVKTKDFKCGF
+LEAKLENPTDFELNISKTAFELLEMMYSPNILYRSVGILLEEFKTCSNEQLNMFEDQVKK
+EKSERLGKAIDRIEERFGRNKIKVGFTNKDVPNKQGFMTSPTLIY
+>tr|R7MAZ5|R7MAZ5_9CLOT
+MEKRVKPIAESMGAKIIMSCDVTKEEEVKAVFEECEKVYGKLDFVVHAVAFAKKEDLMGR
+FVETSQDGWNTALGVSAYSLVTICRNAEPIMNEGGSIFALTYLGSILSVPSYNVMGVAKA
+ALESAMRFLAVDLGKKGIRVNCISAGPVKTLASMGISGFSKMLKAAVARAPLGRNVALDE
+VGKTGLFLASDLSTGTTGEVIYVDCGCHSAYASAEEMDILANNIEL
+>tr|R7MHM2|R7MHM2_9CLOT
+MSNNGLDYKLIAEQCGLNSNNDIDFVISNIDNLKNEYSQSNLILIYNYMLSKAQEPDVIM
+HLIRCVDMYRDSSSLEPLVDILLFRNGDSLDLNQKEKYNNVRAMCAKAIANQKNTNAVSS
+LLYCLNNKNENYKVRLACADALGRIGDKYAVAPLIEVMKDEEXEVMKDEEEKSIYLRESA
+VSALGLLGDTRALDPIVSIIETKQGIMDKFSFLKERAIEALMKMGFGDNERVFRALKNSL
+SDESSQVRINAIEALMDSNNPKAFDTIKEVLDNDSDEEVKKNALIALYNMSDRSILDAVV
+NSPKYSDALKMEAVEMIDEYETESEI
+>tr|R7MA55|R7MA55_9CLOT
+MITKGIRGAITVDSNTEEAIEKATLELLNEIWERNHLEGTSQISHVIFTTTPDLNAAFPA
+KYPRIALGWNDVAMMCFHELDVPNSLKMCLRVLVVINCEENFNPQFVYLKDAEKLRK
+>tr|R7MJ22|R7MJ22_9CLOT
+MAKSNNNTPVNPYIVAMSVLLPSFLSLAASSATNVCQPNIAGFYGATQYEANTVITCYII
+SAGLMLPVTGYLVQLIGKKLLFYYSLWIFALGCLLCIIAPNLQALIGARVVQGVGSGCIL
+PLCQAILLEVFPKEQRGIAMSLFGVAAMFSPLAGPFMGGYLTDNWSWQWVFIINIPLCML
+SFLLLKLFVPDDKPPKSVKKKKFDIVGYISIVIAMACMQIVLDRGQQYNWFDTPWICYLT
+GICIFSFIFFYVWELEYDNPVIDIRVFKDRNFLFGTTISSLINVMLYSTLLLVPMFVQSL
+LGYSPSMSGLTMFPRAIICFAGLLIVGAISKYIEPRLLTVIGFLIMAISILMLTAMNTTS
+SMESVVLPNILLCIGVPVAFVPITALSFQTMPASKNADAAALHALFKNLVTAVSTALSAT
+FIARVSQVHQNYLVGDLGYHNAMFRYKLLVFTNKFLIHYPHVVAVRKANGLLYKQLLQQA
+RLASFYDVFALLALLCIAILPLLFFLKIKKVKKAN
+>tr|R7MH65|R7MH65_9CLOT
+MASSTNQLLKPVTTKRNSAGNIEIGGCDAVELVQKYDTPLYVIDEATLRSICKDYKKAFE
+KYPKTHMMYASKALCTSAISKILDDEGFGFDTVSGGEIYTVYKAGVDMSHVLFNGSNKSY
+DELSLALDLGVGRISVDNFFELALLNEIAQSKGAIVDILLRITPGIECHTHEYIQTGHLD
+SKFGFDLTQIDEAVELIVNEYKNIRLHGLHAHIGSQIFETSIYPDEIEILVREIARLDEK
+FGLKLDEINIGGGLGVKYTKKDVPPSTYEIGELIVDKLHEVVEKYNIEPPTVFLEPGRSI
+ISTSGVTLYTIGSSKQVPKGRKYIAIDGGMADNPRPSMYQAEYLAEIANKKEDESLEKVT
+VAGRFCESGDILIKEIELPNPEEGDVLCVYNTGAYNYSMASNYNRVQKPAMVLVNDSQSD
+IIVKRESLDDIISHDVIPDRMKK
+>tr|R7MFW5|R7MFW5_9CLOT
+MNIVSKNSYNSLFTGNTAKIDGKVEQNAIYMETPEDEDDVTLTLDAQSSGRFVLNDTING
+NSYNLKMTGDKTGEVYFNNKIVNANITQNNVISYVNDASQLNYNNNLAINSGIMNINNMG
+LAPLHLNSFVNDGTININSVDINPATETMGKITADSYGSQTGTINVNGLNVLADPNPDKL
+QTNVFFADSAFANTVKYNGSNEYMGKIYKYTVGYLPESGEFQFVRGGGSSGADSFNPSVL
+SSSVNAQAGTNATVNETFHYVFEHADAFTQLPSMDRFAKINENRYALSSDFNNNIPGIAP
+EFNNKAGWFRPYVTFEKMNLRNAGAVNATTYGSLVGFDSDFQDLKHGWTGVTTGYIGYTG
+SQLRYSGADTTMNGGLIGFTQTFYKGDFWTALTLSTGASAGQTNTMYGKEDFTTLFAGVG
+SKTGYNFEFKDGKYIIQPVWFMSYTMGKTFDYTNAAGVRIESSPMHSIMLNPSLRFIANT
+KNGWQPYASVGMVWNAMNESSASANGIKLPESSIKPYVEYGVGLQKRFKDDFIAFGQAMI
+RNGGRNGISLTAGFRWAIGRDKEKPLEKVQGVNNKTIGSGTKAGDKTVSMKKFLPPTVSI
+KVGDSKVSHTTDGRKIVKQLSQAQREKLAKQYQNTTRTTSIGDMKKL
+>tr|R7MK59|R7MK59_9CLOT
+MSKLTEKHHYDGTLVCVEGIDGSGKSTQLALLRDWLKDINQDVIYTEWNSSELISQTTKL
+AKKKNMLSPRTFSLLHAVDFADRLKQVIAPALKAGFIVLADRYAYTAFARDVARGVDPNW
+VRGVYDFAIKPDLAVYFDIDPKTSLERICSNRAPKFYEAGMDLKISNDPYESYVIFQSRV
+IEEYKNMLDEFGIVKLDANDTIHKKQVEIRKMLKKILQDKGVKI
+>tr|R7MHZ7|R7MHZ7_9CLOT
+MKVVILGKGLMLANIILGALDAGAEIVGVFRYESTCNSRFRMVFEDFFKPAPEVTLINSL
+KLKQIRFKSANDSRFRKLLLSWNVDLIIVGTWKERISKQTFVIPKIATVNVHPSLLPRYR
+GPNPYLQTILHGEKSSGVTLHLMNETYDCGAILKQEKVEILDSDTSKELREKSVRVARNL
+VCEFLQDLNNRILTPVAQDERYASYYPNISGNEKMLDFNFQSSVEISRTIRALHPFLPTY
+ITYKDNFFIVNPYSFTILQDNCDEKSGTIIAKNPEKTSLTIVCADKKAIRFSDLKLYKAE
+LSTKNFIQEKVQIV
+>tr|R7MKK8|R7MKK8_9CLOT
+MFYFGEIEGKRILKSDLLKNAEAFFTTRDICICYKSEDIQNDVQNTIESNKKIICDSLKI
+ERENLLFPTQTHTSNIEIAEKNIKNYPDTDALVLAEKNLGIFLNFADCTPIILYDEAQNI
+GAIAHAGWRGTAGNIASKTVQKMIDEFNSKPENIVALIGPAIGFCCYNVGEEVYQKLSKT
+VNNFERLYEIREGNIFVDLKNINKRQLEEIGVQKIDVCPYCTVHNNNLFYSYRNENATPY
+RHSAVLKLN
+>tr|R7ME76|R7ME76_9CLOT
+MIKRIILHWTAGRYYPSRFEKQYYHYLVDKDGRIYDGIFKPEDNNDCTDGKYAQHTGGGN
+TGSIGVAFCSMYGFKSRQNAGEYPITPIQFESCMEFCSRLASKYSLEINQETVMTHYEFG
+KRHPKTTSAGKIDIIYLPPYSWVAKEDVGSFIRSKIRWYKEKHLKG
+>tr|R7MAF3|R7MAF3_9CLOT
+MIELLILYSLLKHDLTMYAIHKRISENFQAFTNPSFGAIKPALVRLEKRGCIRSAKIMSD
+GGKLSIFYSITKDGLKELKKLLLKPFSSNPLQFLSDAKIKLSCASFLSSDEAYELFEEVK
+SNAILHKLNAEKTMADEYNPIDFYQRIVLDNTICEYNNFISMIEGFEKGNASNSR
+>tr|R7MC59|R7MC59_9CLOT
+MKTPINFSKAVIIGCGFVGSASAFSLMESGLFRELVLIDADKKRAEGEAMDISHGIPFSK
+PMKIYAGDYDSIKDAGIIIITAGANQQPGETRLDLVKKNINIFKSIIPEIKKRDFNGILL
+IVANPVDILTYVAVKLSGLPESHVIGSGTVLDTARLKYEIGKHLDVDARSVHAFIIGEHG
+DSEIAVWSSANVSGIPLNNFCEMRGHYDHKNATEKIASDVKNSAYEIISMKKATNYGIAM
+SVKRICEVIVRNERSILPVSSIMHGEYGIENVSLSMPSIVGKDGIETLVPISLNNEELKQ
+LQNSAENLKEILLQNNLD
+>tr|R7MAA0|R7MAA0_9CLOT
+MQNILKLKLFSSLKGDIFGAIIASIIAFPQALAFGVASGMGASAGIWGAIILSLFAGVLG
+CNLPFVSGPTGPVAIITATVVALCGGNITSIVSVLLLASVFQMIISVTPVPRMIKYVPYP
+VISGFLTGIGLIIILLQIAPLVGGVAQSSTIKALMSYPSVFAHVNLHALVLGLGTLVILF
+FTPKVITKFVPAQLLALIVMTGVAYYFGFNVEKISVLSFSLPHLYMPDFSLEMLTKNIPI
+ALTLAFIATSESLLTGIIMDSLTKIKHNSKRLVMAQGFGNLFCAMTGSMMGSAATMRSVA
+AVKIGGKTRLCAILSALMLGVVLFKLTGFISQIPISVLAAILIKIGYDILDLKVLKVLKF
+APKDDLYVLISVLLLTVFYNLIFALGIGIILASLLYAKRIADDTNVKVTHYNHIDYTPYE
+ERVEKESHYQIRILHIDGQFFFGSITQIVSHFDEMLETKYIILNYSSNTELDMSAIFALE
+DIIVRLEAQKIKLILVIPNEKVYSQVQSLEIVSQIGKESVLMNENEAIEIATKNIHLDIE
+DLK
+>tr|R7MF57|R7MF57_9CLOT
+MNIKKSIGKRIKELRKVRHLSQEQLAEKIDINQNALSYIETGENFFSAETLEKLINALQI
+EPSELFEVKHFQKDEELIEEIVQMLRENPDKIKDIYKITRSLVL
+>tr|R7MIF4|R7MIF4_9CLOT
+MTCNENIRNIAIIAHVDHGKTTLVDCLLKQAGVFRSNQHVEERVLDSNDLERERGITILS
+KNISINYKGTKINVVDTPGHADFGGEVERVLGMVDGALLIVDAAEGPMPQTRFVLSKALE
+LGLKIIVVINKIDKPAAEPLTALDKVFDLFTELTDREDLIDFPFIFSSSLNGFAIKDLDD
+ERKDMTPLLDSIIENIKAPEGDENEPFQFRATTLDYNEYVGRIVVGRIAHGKVNSQDQVC
+LIHADGSQERGKIVKLFGFKDLGRVEIESASAGDIVGIAGFSDIQIGETICDPNTPKALP
+LIKVDEPTLQMNFSVNDSPFAGTEGKFVTSRQLRKRLYTELEKNVSLRVEDTDSTDCFRV
+SGRGELHLSILIETMRREGYEFAVSKPEVIFKDIDGVHSEPYENLIIDVPEEYAGSAIER
+LAGRKAEMKDMQTSKGRTNLTFHIPARGLIGFRSEFIRMTRGEGIMYHTFLEYRPFAGDI
+PRQRSGSIIAFEQGEAIPYALAQFEDRGVFFITPKTKVYRGMIIGECNRPQDIQVNICKT
+KKLTNMRSSTADVMVTLQAPRILSLEEALEYIGDDELVEITPENIRLRKADLTKKIYN
+>tr|R7MAT2|R7MAT2_9CLOT
+MLYNYFMIDEVIKILQNAKQPQSDFVKLMDNFKNPYLVLIACILSLRTNDKTTYPATLRM
+LKLAKTPQEMMNVTEEDLAKAIYPVGFYKNKAGQIIELSKIIVEKYNGNVPDSIDELCKF
+RGVGRKTANLVMTLGFGEPAICVDVHVHRIFNRLGYVKTKTPEETEFALREKLPIKYWIP
+INTLLVTHGQNICKPINPQCNICPISEYCQKIGVKNK
+>tr|R7MBP2|R7MBP2_9CLOT
+MELNNKTILIGITGGIAAYKICELIRKFKKSGANVKVVCTPNSLNFVTKLTLQNLSQNEV
+YVEEFDVKNWKPEHISLADEADIMLIAPATANTISKIAQGIADNLLTSIACAFSKKMIIA
+PAMNCNMWNNPIIKANISTLKARGIEILEPESGFLACGYLGKGRLCSLDKIFDSTVEALN
+YTQKLKGKKVVVTSGGTIEDIDPVRXXSCSIYFQLFIRKNGKSYCGFC
+>tr|R7MDQ1|R7MDQ1_9CLOT
+MRNVAATKIVSTLGPASNSEDMIRKLYRAGVTMFRLNSSHGDMETHKQTLDFIRKVEKEE
+HTVIPVLLDLQGPKIRVGKFDEPIAIKAGEVLKFRHQDKYENDIIPVDYEGIANDVKPGD
+KILIDDGKVQLTVEKSEDNIVYAKVLTTGVIKPRKGLNLPGGTASLNILTERDKMFLEFA
+MNNDIDYLGLSFVRCKEDLQSLRAILDKNNSRLRIISKIEKPQALENIDDIIEYSDGIMV
+ARGDLGIETPIQQLPIVQKTIIRKTNAVRKPVIVATQMLESMIENPMPTRAEASDVANAI
+IDGADAVMLSGETAAGKYPVEAVSIMKKIAEDINNSQFMRKNEFPSTIRTEENAIPMSIA
+VSVADTLKNLPKAKGVIALTATGYTTALISECRPSVPIYSFCEDAKVGRFMQLFNSVSSI
+KVDDKNIEIDKSSLIELNEFLKKELGMETGDCVIITGSVPHLMSGQSTNFMKIHKIS
+>tr|R7M9P4|R7M9P4_9CLOT
+MVKVEQQRLQKEDILKLYTKGYTKPEDFKIGMEYERLPISATSYKAVDYWSEYGIKNFLE
+EFAKEATWDYINDDKNIIGLKKNHDTITLEPGCQIEISAEPQRNIFQLKSKIEKINDIIN
+EILEGRNIMLLNYGVSPYSTHKSINLIPKKRYRIMANYLWGILSDVMMRETAGIQCCIDF
+KSEEDAMRKFKLANKLSPFMTAMFANSPIRGGVDTGYKTFRGLSWINTDNDRCGFAGKIS
+EEFSFDEYIDCIMKTPMIFIQRDVGSVELHGDITFEEFMRVGYMGEYPTIEDYELQANLY
+FPEVRMRNFIEIRNHDCVSGDLKYAILAIYKGIFYDNIAMDECEDLLKHLQYKDLSELRY
+NVPKLALQANIKNNKVADYAKEIINIAEKSLKNSQTGEELFLQPLKDLTFKGLSPADIIQ
+KKWNSTWNKDLGKMIKYLNSLE
+>tr|R7MKB2|R7MKB2_9CLOT
+MSKNIKVTIIEDHDMTRMGLSFALSNNESIEVLGTSADGLEGVNQALELKPDLVIMDIGL
+PTIDGIEATRKIKNAMPEIKVLMNTSRDNEDDILDSFAAGADGYITKGATSDQTISAIKA
+VSEGVGWLDPAIARVVLSNIRKNNQVQAKHGEINYQKGKNLYGLTEREMEVLALLVEGLK
+NPQISKKLVITIATTKTHVHNILQKLYVKTRSKAVATAMKDGLV
+>tr|R7MB21|R7MB21_9CLOT
+MSTLDTVKKVVVDQLSVDEKLVTPEARFTDDLGADSLDTVELVMALEEEFKCEIPDEDAE
+KIQTVQDAVNYIDGKLSH
+>tr|R7MFH2|R7MFH2_9CLOT
+MQAIGHYIIFNKPDLKVRYVRMEEYFNEWMKCFQLNDLPNGKKKQFRNNSLMRKFHQKFQ
+NVDVLLMDDIQFIESKMKTMEDFFSTFEALYTNNKQIVIASDRLPKDIPTLDNRLRTRFE
+MGLVVDIVPPDYETRFEIVKAYAQELEVEADDDVFEYVAENFVNNVRELKGAFNKISAYA
+EFSGTGLTLDLAKRVLNCEAKKKEITVSTIAQKVADYFDLTVKDLKSTARQQKIAHARHV
+AVYLAREVLQMSYEAIGEFFSKKHTTIMYSCDLVADKLKTDEDLKISIEEIKASLRN
+>tr|R7MHH1|R7MHH1_9CLOT
+MDIFYLKKSEFLPNIDPNSLKKFSDGRIFKSKDKEEEHLLGIFLTKFIAKYIYDIKNPEI
+IIKNKKPFFKFAKIFFSISHSKDIVLVAFNNSNIGTDIEYLEEGKNFKSIMNRFGIKTTN
+PTAKEFYRFWTEYEAEIKLGNSDIKSLHSEIVEQNYMLTCVSDNIFTTNYQIKKLNIKQN
+NVDLEKEFTNPQNIKCDIVA
+>tr|R7MAY4|R7MAY4_9CLOT
+MDKSIGKYFFLVCCFIFWLFLALFSSKLIVDNLTSGHHYSNAVFQLHYLRNAGAAFSLLQ
+NAREFLIIISIVATTMLFLYVHHHIKNIHYISVSFIALLCSGIMSNCHERIVFGYVRDYI
+QLNFVNFPIFNVADIFITIGVIALIVILLFYKGR
+>tr|R7MJC5|R7MJC5_9CLOT
+MENKLERLMHDKTNYKNHLKPYFDNLSIREITTKVVAQFKQSMFDNGFQLVSVNIYITLL
+KLIIKTVCPLTNSLVVRNNAKQKVYSVDMNILSDKKIAELLNICKKKYPAAYPVIYLSLS
+TGASVPEILALTWERINFEDNTIFLKYFLYEQRLVMNRCGSTIRKLKFDDNISGILRKKF
+EGTKPELTDFVFKFDSPKSPQQYIENIVLRGLSAHLGIVRLHPSDLQHNFVNMCLKQNVP
+ITFIQKALGYYGLPNFIRIYKDLIANLDKGNYNPLNKILESKE
+>tr|R7MD73|R7MD73_9CLOT
+MDKGYIENGFIVDLTAAKKTSEIIYELSRVLDMPESKGKHICLKLGSVNLSEAELTSVKA
+LVELMESQLAFISTSSTVTLESATALGIKISEFTNEIEAPAFETTEPTPEVSNALDNIFG
+EDSEPKEKKAYENETSTEERESTVEVKSEDDEISPIVRHDEVIAEKVEAQEVKEESDEEI
+TALKNAPEALPTLYLRKTIRSGQSISSDGNIVIIGDVNPGSEIIAKGDITVWGILGGIAH
+AGSDGNNYAKIRALKLNPVQIRIGEVFARRPDTINLPYIQKSCEYIPEEAFTYNGSIVIR
+KIHEEN
+>tr|R7MF74|R7MF74_9CLOT
+MTKRVLLCIMDGWGISKGSEKYDATKLAHPVHVDELEKDYPFRHLRADGEFVGLPTGQMG
+NSEVGHLNLGAGRIVYQDLSKINNAIKDGSFFKNERFLNAMNFAKENNSALHIYGLVSTG
+GVHSSLDHLLALIKMAAENGLTKVYVHAFLDGRDTPPQSACEFLQIVEDELKKYNLPPVA
+TIIGRYYIMDRDNRWDRVEKGYNALLFGEGEHAATAIEGVKQSYAKGENDEFVLPTVIGG
+EESRIHDNDSIIFINYRPDRAREITKAINFADFDGFNRKKVLKNIMYTTMTSYEATFTYP
+VAFPKEKLVNILGDVLEANGIHQFRTAETEKYAHVTFFFNGGIDQPQPHETRVLVPSPKV
+ATYDMQPEMSAPEVCENVLKAVKNPEYQFVLVNFANPDMVGHTGVVEAATKACHVVDECV
+GKIAKECKENDVVMLLTADHGNAEVMFDEEKQTPETAHTTNDVPFVVINAPQGTELRDGD
+GALCDVAPTVLQLLGIKQPAEMTGKSLIK
+>tr|R7MCI2|R7MCI2_9CLOT
+MTYRNGNYTAFYVEEPFDDSNLKLYATKDFCYYNMIRTWKKGDSLFPFNDSHDKTYNVRD
+GSDWEKTLKPRLHERLDNSKNILLILSSCTKNSRALREEIDYGINTCELPIIVVYPEYSE
+KSDIAKDRKITQKIKNLWDKLPIFRDSKKNVPVIHIPYKKELIKKALADEDFMVNSKCKV
+NDYFFK
+>tr|R7MEB4|R7MEB4_9CLOT
+MINRKSRDEIKRMKHAGYIVALVHQKMKEVVVPGISTKELDEIAMKIIKENRAIPTFLGY
+SGFPACICTSINEQVVHGIPSEKAILKEGDIIAIDVGATYGGMVGDXXXMVGDSAWSYRV
+GKVSPEVDKLMKTTEESLFAGIEQMRPGNVLDDISKAVEAVAVREGYGIVRQYGGHGVGH
+EMHEDPFLFNYSVGDNTLIKSNMAIAIEPMLNLGCDDVVVNEEDGWTVSTKDGKPSAHFE
+HTVIATDDGPIITTTLNQEI
+>tr|R7MDQ8|R7MDQ8_9CLOT
+MGFMLVVGIFPFMLFLMAIFGWMGNRSYLDSILHVLSNIMPTQAMNLLKSVLEETMIFDH
+GQLLAIIGITTTIVLSTNGVAVVLKGLNRAYKVEETRNFIYTRILSFLMVFVNVLVMFLT
+INIIIFGKVIIMFLVTHFGMSKGIAITILTLRWPVAFLALYLMAFLSYYILPDLRGNESF
+KRKSALPGTLFFTTFWLVGSWGFSIYVNNLSTYNLVYGTIGAFFILMVWLYYTSILLLIG
+GEINSQVYNQLEHKSRELHEEIAELKSQIKRK
+>tr|R7MD02|R7MD02_9CLOT
+MEYKIKNYIKDNGTEPIVDWIKSLDATTRKRILLRLYRLRDGNFGDYKQLNEDLYELRFS
+FGSGYRIYYTIEHNIIILLINGGNKKTQAKDIKQANEIIKQMKGIYNE
+>tr|R7MA27|R7MA27_9CLOT
+MATKKVNLTLEEQIGFSAGEIYNYLHQNGTTSFAKMKKELDLKGNFADLGLGWLARENKV
+EIAQKGPAVKVSLK
+>tr|R7MCV6|R7MCV6_9CLOT
+MKKGGKIGAALLVIGGLFYGIKKLFGGGDDDKKTQANTPVQEQKDTPAPADKTKKPAKGS
+DGETAPAPVGSDSPTQPAKGEEKADDKAKPADKKDPAKATPAPVSGDEKETKESDKADKP
+DKAEDKNRALPKNYTVKKGDNVWNIAKRRLQEMNGKKPTDREIMNYTNELLKLNKLEYEP
+DGYTVIIHKGDNIEYAA
+>tr|R7MHS7|R7MHS7_9CLOT
+MNEIHQKIELFLNQYRLNNPESIYLVAFSGGFDSMCLLDSLRKISPNRIVAIHLNHGWRG
+AESDSEEDNCRNFCAKIGVEFYSERLSDSVAKTETAAREARYKFFEKCAKKFNSEIVFTA
+HNKNDNAETLIYRICKGTGISGLQGIAPSRDIYYRPLLEISRFEIENYCQSQNLIPNSDS
+SNFNTKYKRNYIRAKVFPILSKVNPNIVDTVNTLSTVAKEETAIVEEYLSLILDKISTDG
+KIQTKEFLKLSNSVQKRIIYNLFIKNNLDYTREKVLQIYDFIYENSSSKSGKTCSLTTDL
+WIFVSEKFIEIIDNSAIVFPTVAITNEGKYETDFGTLEIIKCSKGVKTYPKDSESVIYAD
+LSGLDFDFELRTRRDGDYICPYGLAGSQKLKKYLNAKKIPNHEKDGLLFLTQGKEILWAI
+NLGISDKIKVNTNPTHKITWIPSKERD
+>tr|R7MIR6|R7MIR6_9CLOT
+MEVEINSLGCPKCREEFKNKLKAVLKPYFNELCEDCQKRYEKNSLRLLDCKVESCKEIFE
+KPEIKEVINSDFICEDCSHHYTELKLYLDRMGVKYKENKLLVRGLDYYNRTVFEIKSNNL
+GSQNAVAGGGRYDGLVGQLGGNPTPAIGFAMGMERLISLLPSKETKKLDAYVVSNFPVDA
+FILAEELRSQGLNVEFDLTNKKFTKQLEKASKVAKYAFILGEEEILKHQVSIKNLELGKQ
+ITVDRANCLKMIEL
+>tr|R7MF23|R7MF23_9CLOT
+MTLKQNLGQKIQSLRKERKLTQEALAEIVGIDPKNISKIENGNNYPSPETLSGIASALRV
+DVYELFVFNSIPYETMKDEIIESLNDDKNILYLYKCLKFGK
+>tr|R7MIV3|R7MIV3_9CLOT
+MRERLPEYLKRPIIDTDKTRTVRKILKANCLNTVCENARCPNKNECYTKHTATFLIMGGV
+CTRNCKYCNISCQKPEPLDVDEPKHMAKAVKDLGLKYAVITSVTRDDLPDGGAEHFAKCI
+EEIRKISPDTKIEILTPDFKGNIESLNTIIKAHPDVFNHNIEAVRGIFKTVRPQGNYDVS
+LSVLKYIKENSDIKTKSGLIIGLGENFEQIKETFEDLYNVGCDILTVGQYIQPSKEHYPV
+GKYYKPEEYEELKKLATSVGIKHSQIGPLVRSSYNAASLME
+>tr|R7MB15|R7MB15_9CLOT
+MRKDKDDELALEMINVPDGKVDMDATRNLPEIEALVKTLHEIIIEDERKNPDKPVTIGII
+SPFRAQVEQLKISVPKVLSDYMIKKHQIEIGTAHTFQGDERDIILMSWSFANNSYPQSIT
+FLQKPNLFNVAITRAKNKCINFVSHDIETMPDGHFRNYVSFIKQYQERKAALINNEIDEN
+IYKNKLEREVATEIRKLEHKVTAGVDIAGLSADLVVDDSFVIEIDGLEDSPKAHISNMKK
+QAILERCGFKVKRITYREWQYSAKACLDRVLAME
+>tr|R7MBG2|R7MBG2_9CLOT
+MLTDNLIKELNKALPKENILSDEAERYVYSFDASNNQQNKALPDAVVFVENIEQVLKVVK
+IANEQMTPIICRGAGTNTVGACVPTHGGIVLNFSKMNKILEINPENMTARVQPGVVVGDL
+QKAVEKQGLFYPPDPSNLKISTIGGSIAQNSAGARCFKYGATKDYIIDMLVVMANGELIR
+TGSNTIKNATGYNLGSIFIGSEGTLGIVVEATIKLIPKPEETQVIMAYFDTVEDSIYAVN
+KIIEKQVFPATIDFMDKNAIQTVEKFYPTGLLCDKESALIIELDGYNTEISRQRETICEI
+LRTNNATNIQYSRTKEEAEHIWAARRSSMAACTKLKPNVTTDDIIVPRSNLAKLVKGVQD
+ICTRHNLTVCLVGHVGDGSVHPQIPIDYNNKEEYKHYKIAKSEIYQLTARLGGIISGEHG
+IGLEKKAYISQVVDGGALGYMRQIKKIFDPKNILNPYKIF
+>tr|R7MCC1|R7MCC1_9CLOT
+MDNLNKFIEHTLLKQDAKKEDLIKLFAEAMEHNFLGVCVNPCYVKMAKDFLKDTDVKVVT
+VIGFPLGANTTETKIFETIQAVKDGADEIDMVINDTKVKDGETDYIVEEIKLIKSACGGH
+NLKVILETDLLTKEEIKYACECAVKGGADFVKTSTGFVKGGVGAKVEDVELMYNTVKEAG
+MKVKASGGIRDRETAIKMIEAGASRLGTSSGVKIVGV
+>tr|R7MKB9|R7MKB9_9CLOT
+MEGKALTDCPLLTNDEGSFNVGYGYLILNQKKWELLEQIEQEFRAQIEKIKENDVEIDHL
+DSHVHTHAIPEIFKITCKLAKEYNIKYVRTQYEELYFIPKLLKHLNFSYPMNLVKIALLQ
+YFTLKNRKTLNEYGLKSNDFIIGVGYTGMMDSDAIKYGLKAIEEESIVEALIHPCKYDDA
+TKNSHTKEFSITQNKTLEDTINRLGFELTNYKKLG
+>tr|R7MFT0|R7MFT0_9CLOT
+MDRFEFIKAKRIVFKLGTNVLRNDDGYVSLPRVYTFIEDIAHLVKSGKEVIIVTSGAVGL
+GKKRLGLDDTSGTALKQACAAIGQGKLMSIYENGFDTYGLTAAQILLTEDDFSIRQRYLS
+LRTTFNKLLELGVIPVINQNDTVSTLDVALRYVKEDMQVCFSDNDKLSALVASELDADLL
+VILSDINGLYDDNPKSNPNAKLIKSVKEVNDDILALASGVSDGGRGGMETKLKAARLVTR
+FGGKVLIANGKQPYIIKRIFEGEDLGTMFLPSDENLSDKKRWIGYATNIVGKIIVNDGAK
+HALISKEKSLLPIGVIGVKNHFQKGDVISILDEKHHEFARGIVNYDSHSCEKVIGSHSDN
+IADILGFKNYDAIITRDNITIL
+>tr|R7MAD7|R7MAD7_9CLOT
+MDLNKVITENKQNIKNIIRLITKEDNEDLEQEVYVKIWKNAEKYEEKGSIKSWISCITKN
+TSLDYLKSAYHRVFSSSTSDDLVMTNLKDKKTSPESKVASLERQKVIIKAVNSLKPKFKE
+VIMICEINGYSYEECSKKLNCPVGTVKSRLYNAKKELAEMLKDLM
+>tr|R7MCU5|R7MCU5_9CLOT
+MSVLIAIIVLTLKQLFNIFLFNCKLNVKDDEFLRYRYCISGTKSLSPACNSCHVESLLDI
+IFSNSPDIITFKDSKLKYAMCSKKFACLAGKKDSSEIIGKTIKEFLSDKKQANILKSNDR
+YVMKKRVSRTCFYTDYSSSPELKYEVVSTPIISNNEVVGVLTLSRDVTDTCNLKDSLELS
+NSQLVTLLNNTPMFAYIVDTSGNYILGNDKANRLFVDGVDYLLTGENIQVNPEIFKEEVM
+AEDVIIKANKQNLQFEKRFTTLDGDRHWYSICKTPLFDDNGNLYAISTFGRSIEQEKRIS
+EQRETYIATLSHDLKTPTIAQVRALELMLSGQFGEFNQEQKEMLKLTLDSCNYMYDMVYT
+LLSTYKFENGDISLNFSSFNLTKTIEESIQEVSNLAEENSITVEFSNNSEYMVVADKIEM
+KRVVINLLSNAINYAFSNSRVVVSINKSGKNLELLVKNSSPYIEPSVMKGLFRKYVSHSD
+KFNKVGVGLGLYLSKKIVEAHGGKIIAKSFKNQSNIFGFSIPLDCSFDSKPEYLVGIIN
+>tr|R7MHK0|R7MHK0_9CLOT
+MSENQKISFTTQNRLIIFGLILSTLLIMAIAVFATINIQKNLNESYQNFGQVISKILAIE
+SVDMTKNASKKETFEILKSHSDSILKSHHDIVFIEFRDANGKTIYRAKNNANESKKRPSI
+AVSSPMTNVVDNSNLGSVTVGLSGSIVGKVSSTTRASILFVFIIVWLVFAFVILINTYLI
+TRELRILHNGVKKISSGEFGFKIEGKDVSEEVQELFNAFNDMSTRLNLYEEQNIEQLTLE
+RNKLEAVLMSIANGVVVCDNNDKVVLINNHAKALLELEGDQLLNTDIENYVDTEGEYCFT
+EKIEEYKKLSLEEKSKKQITFNITIDGRILKSIISPMFTQSTHDYVGYIIVLIDVTREIE
+MDEMKSQFISNVSHELRTPLTVLRSYIDTLYNYSDEFDEKTKKEFIETLNTEIIRLNSMV
+NDILDFSRLDSNAKIEKTENDISQLIDACVNQVEVLLKEHNLKIEVEKDNDIPLLMFNYD
+AIARALTNYLSNAIKYAPQDSTITVRLYKEPENNQVVVTVRDEGIGIAPEFQKKVFERFF
+RVENKTHSVKGTGLGLHLVKTTIEKHHHGHVFVNSQPNHGSTFGFSLPIDLSKVDSSEED
+FVD
+>tr|R7MEJ4|R7MEJ4_9CLOT
+MEAFKYIIKRILQTIPLLIMVSLISFFIIRLSPVDPLAELKLNPSVSPATVERERQRLGL
+DKPIIVQYGKWACSFVQGDLGVTSTGEKVSQKLKERIPNTLLLTSIVILLTWLVGVPLGI
+IAAVNWKTPFDRILTVLTSIGMAIPSFFFAVLLLIFAVKTGWFPIGGLTSPNFADMSFIG
+KLWDITHHLILPVIVLFTISLAGLQRQMRANMLDVLDSDYVKFARAKGLSEFSVIYKHAL
+RNAINPMITLLGFEFAGLLSGAALTEYVFQYPGLGRLILEAVMKSDINLVMASLMMGAIM
+LVLGNLIADILLIITDPRIRVKS
+>tr|R7MJ26|R7MJ26_9CLOT
+MEAKINEIFSSIQGEGPVVGYKQLFIRFCGCNLHCDYCDTEFQQGTCFSPQELYSKIVSE
+YDLSTFHSISLTGGEPLISAEFLKDFLPLVQGKTKIYLETNATLFDKLPIIKDYIDIISA
+DIKLPTSTGKNTFDLHRKFFEQVDGVPTFAKIVFDKNITNEEIETCANMGKDFGIELVLQ
+PKMIGDKMSVSSDFCNSILDKFSSIYPNVRLIPQVHKFLNVR
+>tr|R7MDG9|R7MDG9_9CLOT
+MQSIKVQCPAKINLTLKVINKREDGFHNIESIMQTINLFDYLTISVEDNTENQILLSGNS
+TEIPYNEKNLIYKAGILYLEKTGIKNKKISVYIDKNIPVSAGLAGGSTNAAGMLYGLNKL
+FNEKLSETELHKLCAVLGSDLNFCLKGGCMMTKGRGEILEPSEYNHFTVNLIKPINLGIS
+AKEAYTKFAQKISQENTGRENFVNDLEWAVLEDYKELKHIKNKYPKSIMTGSGSTYYSLE
+EKFEEETNFWVKNNLETINYGVQII
+>tr|R7MDN7|R7MDN7_9CLOT
+MPAIVDSVLEDSIAQELEIEKGDEILSIDGCKMQDMIDYNFYMKSELITVEIKKTNGEIE
+EIEIEKDYDDDLGIVFESAIFDKIKPCLNHCLFCFVDQQPKGLRNTLYIKDDDYRLSYLQ
+GTYITLTNLKEADKDRIKRMHLGPFYISVHTTNSELRVKMLRNPNAGKALDNLQWFRKNK
+IPFHAQIVLCPGLNDGAELERTLSDLAKLKTTVLSVAIVPVGITQFRADGELKRVDKKCA
+EEVIEISSKYKRVCCSDEFFLLADKPIPPSKYYGNFCQLDDGVGSLRITLDDFKKRELPK
+SISHPYKIVFACSYAAKNMLQEVAKKLNKIKNLTVEVCPVKSNYWGQDITVAGLITSDDL
+IRTVKDVDCDVVMIPTVMLRPYTEDFLDGHNLTYVKEQTGKNFYVQQNIYSLQEVVDYIW
+TL
+>tr|R7MKX2|R7MKX2_9CLOT
+MTKQSIKTTKEDIVNYWFFEQMIDESGLSVDAAEAYERCWRCGCEKRLERCHIIPESLGG
+KDEPSNLVLLCHRCHIENPNISDPEIMWDWIRAYGVLFYDTFWHHIAMKEYEFIYHKNYY
+DELADIGIPINGETELLIKKYSKELIKETGYHFGHPYLNAATLAGFYRMLLKKLAKKIWK
+DSSATRL
+>tr|R7M9V3|R7M9V3_9CLOT
+MTDKKVALVTGGSRGIGKACALELAKAGCDVVINFAGNAEAAAKTVEELKALGSNSESYK
+FDVSNQAEVDENIAKIVEKYGRIDVLINNAGITRDDLFIRMGEDKWNAVINTNLNSAFYV
+SKPVVKLMMKQRSGAIVNMSSVVGLYGNAGQANYSAAKAGLIGFTKSLAKELGSRGVRVN
+AVAPGFIATDMTKDLPNIDEYLKAIALRRMGKAEDIAAAVKFLALDTDYITGQVLEVDGG
+MTI
+>tr|R7MD38|R7MD38_9CLOT
+MAVPKKRTGHSAQGSRRANWKATKPETTKCPNCGATVLTHTVCTECGTYKGQPVKLADKA
+AAAAPAEKPAKKSTKKAAKKAEEKVEEVKAEETVEEKTEE
+>tr|R7MFV6|R7MFV6_9CLOT
+MEMVQAQQTRQILDKLVGFKLSPVLWKQIGNRNLSAGRVQSVALRMVCEREEEIEAFVPQ
+EYWTIHTLMDQEGKQFEAELSKIKGKAVEKTIKTKEDADKIVEFLTNPSTSFTVEKVTKK
+TTKRKPTAPFITSTMQRAASTKYGFGASRTMQIAQKLYEGVEIDGAPVGLITYMRTDSVR
+VSDDARDMAHDFILQNYGEKYYPEKANVYVKGKQNVQDAHEAIRPSYPDKTPESIKQYLD
+NDQYKLYKLIWENFMSSQMAPAEVANKTIEINSGDYTLKAGTSKIMFDGFLKLYNDTEDD
+GNEGNNESADAKIPDLEKGDLVACQNVNPKQHFTQPPPRYNEASLIKALEDKGIGRPSTY
+ATIITVIQTRKYVEKNQSKALYPTLLGKTVCKQLVSQFPNIMDYQFTAGMEEKLDKIAEK
+QAIWNVVLEDFYKPFIENVNSVMKTAQKVNIETKIKCPNCGKPMLLRTSKTGSQFLGCSG
+YPDCKTTMSLNVMQEMEEEQSGEVADKPKEVCEEKCEKCGSDMVFKLGPYGKYMECTNPE
+CKHRKPYRKSTGVTCPKCGKGTIVERKSKRGTVFYGCDKYPDCDFVLWNEPTGEKCPTCG
+SLLVKKVLKKGDVIACSNMKCGYKKEPEQVQE
+>tr|R7MHH7|R7MHH7_9CLOT
+MAVGQFVFMLHSHLPYYRKAGMWPFGEENLYECMSETYVPLLNAISELYDEGIKAKLTVG
+ITPILAEQLNDEHLKNGFVEYLDSRIASVSKDLERYPDPKVPHSQHLKYLAKYYFDWFNS
+IKDSFVNKYQMDLIGAFKKFQDLGCIEITTSGATHGFSPLLATDNNLNAQFKVGSDTTKR
+LFGKKAKGCWLPECAYRQGYEYIGKDGQKHWRPAIEVTLQNNDIEYFFTESHVIEGGNSI
+GSRRVVGVYGNIEYIPLPEREPTGYDTYSAYWLPDAQVAVMGRNDRAGYQVWSAADGYPG
+DGCFREFHKKDDKSGMHYWRITSPKTDLGDKMLYDPVLALNKINENSDHYTTMLYHLLND
+YKNSHNGKEGLIMVSFDTELFGHWWFEGIEFIKQVIKKFNQYLPQVERMTAGEYLHAHPP
+TEAIQIPESSWGQGGHFYVWNNHLTEWMWPIIHSCEKRITSIADRYPNIPDNKLLHRALN
+QLARENLLLQSSDWPFLITTWQAKDYATDRFREHVDRFEEIADMIDANNIDESKLQKIES
+IDNCFPVIDYRVYQSIEEGLIPQQSKKLAPLYKD
+>tr|R7MGC1|R7MGC1_9CLOT
+MENLRIAIGSDHGGYEYKEQIVSHLKKKGYECVDVGTYSTDSCDYPVIARAVTTKITTGE
+ADRGILVCGTGIGMSIVANKVKCIRAALCGDTFSARASRAHNNSNVLCLGERVIGINLAM
+DIVDIWLESKFEGGRHQRRVDMMEN
+>tr|R7MEK8|R7MEK8_9CLOT
+MINNLFSIFQNFINSWSLYLKDTLGWKNIFEVLIIVSILMVFYQKFIRNTHSEKFVKGAI
+VLVFMWIISELLIALDLTIIGGFLKSIVIFVALSLIVIFQPELRRFLGYLGQIDFFKKLF
+YNEKKTVDNKSIDVIKEIIEAVKYLSKSHTGALIVFQKDLSNTYHDVGTILNADVSTELL
+LTIFHINTPLHDGAVVINGSKIISAGVLLPLTDDPKLSWKYGTRHRAAIGMTESSNAACL
+VVSEETGDVSVTMDGTLKKYDDIPTLKADLENILGYKKTEDEVKKPIFNLEKLITLKKNE
+K
+>tr|R7MIU2|R7MIU2_9CLOT
+MFGFFKNKIENLKQAVSNTAQTLVGNVLANVDSADENYSEFALDDIEDTLISADLGVDYA
+VELVDNLRNKKNAKPTELKDYLKNEFKKTLLEAGQTELNYKDGELNIYFITGVNGAGKTT
+LIAKMAYQFKQEGKKVLIAAGDTFRAAAXLEQRQKNN
+>tr|R7MJK5|R7MJK5_9CLOT
+MKNKKVAIINSENKKIISAIKNVLKDKAEILEKDADLTNYDLIVLTGYESNFENNFTNKE
+VINIHPSLLPAFKEDDAITKSYLSGVKVSGVTIHKVEKGQFFGKILAQYPVLIGLETHLE
+EFKDDLEKVGARLYPPVIESILNDSVFDFQDLFKNPCNHTNGGCNGNCSSCNH
+>tr|R7M9W5|R7M9W5_9CLOT
+MEDIDKSDLEELKHRVKDKLAQTELYSYKGTVSKLLGLTVEVKLPGLKIGDLCYIETYDG
+KLKPAEVQAFKGEVAQLSLLLDGSGIGQGSLVTSTRRPITVPVGDFLLGRLIDPLGNPID
+GKPLDTTNALWRPIEGPPPGPFERPIITEQFSTGVRAIDGCMTMGCGQRLGLFAGSGVGK
+STLLGMIARNSDADVNVVALIGERGREVKEFVEDSLGEVGMAKSVLVCSTGDQPPLIRQK
+ALLTATAVCEYFRDQGKKVFLMTDTVTRCAMAGREVGLSLGEPPTMKGYPPSIFSWLQKV
+LERAGNSPKGSITALYTVLMEGDDISDPIVDIVRGIVDGHIFLSRKVAESNHYPAIDVLG
+SISRLMSAIASPEHKAAAGKLRTILSMYRENKDLIDVGMYQPGSNPKLDIAIQMMPKVNA
+FLQQKTSDSVTMEGTIKQLVDMMQGVDI
+>tr|R7MIF9|R7MIF9_9CLOT
+MTTDNVGKALEIQALLAKQGITVERQLDGTKSKLVLNKNNCSTLTKKCTVTDRDNAIITI
+VQSGLVDQNVGLEIFDKGDFTSTKEDKRIRLARAMNGELARLIKQIKPIQNATVFISIPE
+NSTMFDAEKPKTATVQIVMPVGEKLDQLKVKAITNLLLGSVSGLTAENIAITDTNGNVYH
+SVMNAEDEMLQRLEENDKYMQQKISKQLDRLVGPGNYVATVSTFLRQAPIEKFSIEYDPN
+KKASVSEQSFSEGLGDKTQDQSRGINAVSTYLPNGLPTGGSDSSQNRSYSRQATETQYGV
+TKTQTNEYIKPGVIEDISIAVTLDRNNLPSDTTIEELKELIARSASPKVTANNVSIAFTN
+SNDPYLTPEKQQNLPKVDESGNPWWLALLLSGLGLVIIFKAISSKVKRIREENEVEVEAL
+RQKALEQERQLNDINSRASQLTQRQSELAQDLINSQQQRVQLPQFDENLLIDSLDSISNE
+ITEDAADNIRSWIEEGSTKE
+>tr|R7M970|R7M970_9CLOT
+MLLNADDPLVSNLGKGKKTLFYGFEDVEICSDIHNSTSNAPTEVFNCVCGHPLEYDKQFF
+AQEGHYFCNNCGYKRPSVDYKGYVKIFADYSELKVVEASTNKEYNFKVNLVGLYNAYNAL
+GAISQALLLGIDYEVIKEAVLSYKSIFGRAEKRVINGHETLIQLIKNPTGASEVLKTVDL
+SSQILIAINDNYADGRDISWLWDSDFEQLKNAEKPIITSGIRARDMAVRLKYAGVPVEKI
+IVEEDIKTAVEIATKSDNIEERVTILPSYTALLKISKMKF
+>tr|R7MIM9|R7MIM9_9CLOT
+MLYNISMDYLNNKFDIIVVGAGHAGCEAAMACSRLGMKVLLCTLNLDNIALQPCNPAVGG
+PAKSTLVREIDALGGVMGEVTDATYLQMKVLNSSKGPAVRALRAQSDKAEYSRYMRNLIE
+SNENIYLKQCCITELKAENGKIVGAVDEFGIEYSTKAVVLTTGTSLEGRIFVGLRSYSAG
+RLGEKAAIGLSDSLHKLGIETKKLKTGTPARIDKRTIDYSKMTIQPGDEELSFFSFKPNR
+PIRKTYPCYLTRTTEETHEIIRSNLDKSPMYQGLIHGVGPRYCPSIEDKIVRFASNPSHH
+IFIEPEGLGTYEIYIQGFSTSLPADVQVKMIRSLPGLENAHIIKPAYAVEYDYVPAVQTT
+HSLMSKKIQGLFFGGQINGTSGYEEAAAQGLIAGINAFNYLNGSEMLELSRSSSYTGTLI
+DDLVTKDIQDPYRMLTSRSEYRLLLRQDNADERLTPIGHKIGLIDDTQFERFNKKQELIQ
+IEKTRLEGLKIPATHEVNEILAKYEEHLDRGIRASELLKRPNISYKILKEIDESTKELNI
+PKDVYEQIEVIVKYDGYIKRQQEQVDQAGKLEKFKIPEHIDYNTIDHISTETKEKLSKIR
+PKNLAQASRIGGVKPADISILMVMLDKHMIKS
+>tr|R7MGP7|R7MGP7_9CLOT
+MTTILDGKKLRDKIIENLKAKVDTFEEKPTLVVILVGENPASKIYVNNKKKMAEKIGIHS
+EVINYPANITEAELLDKIEELNNNKKVTAILVQLPLPKHISKDNVMNKIIQSKDVDGFTP
+YNFGKLFSGETPTVYPCTPKGILLLLDEYNIEIEGKHVVIVGRSNIVGKPLSQMMLNKNA
+TVTICHSHTKNLSQITKTADILVSAVGKNIIEGEMLKTDCVIVDVGIFKDENGETRGDVD
+FESASKIASFISPVPGGVGPMTIASLMLNTVELFEKNSL
+>tr|R7MH93|R7MH93_9CLOT
+MDIYSKTVSTLEFDKVKEELSKFAKFSQSKALCLRAFAYSDVEKIQNQIELTREAKKILD
+LAKDTPAEFIAQVGKIRANSAVSYLSEDELNDIAKTMKTSRLLKRFIIENSEEEFLLKHL
+AENLIADKQLEDKIFETFDENLNIRHNATPELKGLYSSLRDTEQNIRDTIQTLLNSPNFS
+KYLQENIYTHRDDRIVFQVTASNKTKVPGIVHDVSSSAKTFYIEPAQLVPLNNKVREIKS
+KIHAECIRILVDLTNLVKEYLPDLENCEKIMTEIDFHFAKARYAVKLHAVEPEITQEKYI
+YFENMKHPLLMQVTEDVVANNFEIGKDYKSVIITGSNTGGKTVTLKTIGLFILMAKAGMF
+LPCTYAKLYPFKDVFADIGDSQSILQSLSTFSAHMTNIIEILNKSSEESFVLLDEVCAGT
+DPVEGAVLARGILEKLAQKQVTSVITTHYGELKALEYTNSFFKNASVEFNTETLKPTYKL
+LIGIPGLSNAISIASNLGLDPDIVNKAKTTLVTQKDPTVAVVEKLQETHQELSKNLEEAQ
+ELKESSLSIKKEYEENLNQVKKDKKKTIKNIKNKFDIEMMEARAEIKEILDELRKEKSEK
+IARRAYSRLAKLENGFRGEIDKVSDKNHYLEIDWDKVVVGDVVMLKTLHQKVTIVSLPDK
+NKRLFVDMGTMKMKVKKEELAVLDENYKEPQKIKIPGTSFNKFELKRYAMSQTLDLRGYR
+VEEALDSVENYLDQASLANLTPVYIIHGHGTGALKQAVRDFLKESPYVAKFRPGEDSEGG
+DGVSVVDIN
+>tr|R7MAM6|R7MAM6_9CLOT
+MSVFDGKTILVTGATGLIGKLCVKSLLNSGYNTQVIALVRDEEKAKNIFGESKRLTYLVQ
+DINQRINTTRRVDYIIHAASTTSSKDFVEKPVETIYTAINGSRNILEFAKNKRLEGMVYL
+SSLEIYGVNEKENIKERDYGYIDILNPRSSYSESKKMVETMCISYGTEYGVPVKIARLAQ
+TFGAGVSISDNRVFAQFAKAIINKENIILHTKGETKRNYCYTTDAVRGIFTILTKGENNN
+AYNVANKNSYCSISEMAHLLEDEYTKVEYKIDEVNRGYNPTVKIALNTEKLNALGWEAKV
+NLKEMFDRLIMNFGK
+>tr|R7MC71|R7MC71_9CLOT
+MSINLKNKSEIVKAYGKNEKDTGSVAVQIAMMTQKISELTEHLKSNKKDFATKRGLLMMV
+GKRKRLLAYVKSQNLDEYRELIKKLGIRG
+>tr|R7MGZ6|R7MGZ6_9CLOT
+MIIKIYTDGACSGNPGKGGYGTILYAEDENGNVHKKELTQGYKVTTNNRMELLAAIVGLE
+ALKKPSTVELTSDSKYLVDAFNQKWIDGWIKRGWKGSNKQPVKNQDLWKRLLKAKEPHSV
+KFIWVKGHNGHEFNERCDQMAVASANSDNLLDDTGCI
+>tr|R7MHT5|R7MHT5_9CLOT
+MKIGIIGLGLIGGSIYRDLKKLNYDVVAVSQSQNGTGIYKDFSILKTCDIVFVCSPMNKT
+LQVLDELENVLLPNTIVTDVCSLKQFVSKKKRPYKFIPSHPKAGTEHQGFENSMEGLFRG
+RKWVVTPVWGNDETLISIIEKLGATPVVTTPEKHDEAVALISHMPMLVAQAIFKTASDNE
+LALEIASSGFRDMTRLAMSNVEMANDMILMNSENIQTSVLKLYKSIGDLTNSDYLSQIKE
+IKLNRQSMFL
+>tr|R7MHD2|R7MHD2_9CLOT
+MQDFYKIDKLNFLTAGMPLATGKEGYPRAFEIIQELGLDGMEVEFVHGVRMSDETRELVH
+SIQKEKNLVLTAHGPFYINLNSKEEEKVEASVQRIVDTAKTASDFGGYSITYHAAFYMGK
+DKETVYQQVKTQTQKIVEVLEKNNIKVWIRPETTGKASQWGDYEEIIRLSKEFDQVLPCI
+DFSHIHARTGGEYNTYDEFCKVLDRIGSELGEKAINNFHAHLAGIEYSDKGEKRHLILEK
+SDMNYKDLLKALKTFGVKGALVCESPNIEEDAKLLKEYYLSL
+>tr|R7MJH5|R7MJH5_9CLOT
+MQTKISQIINDTNLKHIAIIMDGNRRWAKEKNLPTAMGHKKGVDALRNTLRACDELGIKY
+LTVYAFSTENWNRKQEEVDFLMNLVAITLTNELDEMHEENIQIHFIGDLTRLNPNLQKIL
+ANAVEKTKNNTGVVLQIALNYGSRDELVHAVKNIIEKNVLPENVNEQLISDNLYTAGIPD
+PDILIRTGGEQRISNYLLWQIAYSEIIVRKEFWPEFGRELLIECIEEFGNRHRRYGK
+>tr|R7MFG2|R7MFG2_9CLOT
+MEKVNVKVCLGTTCFIMGSANLQELMEIVPERYGDKVDVSGVPCLGLCSADWEFSNAPYV
+KVADEIIKEATVEKVLRAINEKLESNN
+>tr|R7MJY2|R7MJY2_9CLOT
+MSLSVDVIDKITCSPSLEDDMAIKTFNSIADEDDILQIYLKEIARVKLLKSQEEKVLGRQ
+IREEKSEIAKRKLVQANLRLVVSIAKRYAGQGVLFMDLVQEGSIGLIRAAEKFDYRKNFK
+FSTYATWWIKQSIIRAIANHSRSIRIPVHMADKIRKYKHAYSLLSCNFKREPTESELATY
+MNLPLAKLRKIKQSIILEPISLETSVTDDLCIGDYLVDKSLNTPEEQTKNLLMKKNMPKL
+FQILTDREKRVILSRFGMDSEKPKTLAELGLAMGYSKERIRQIEEGAILKMRNNAKTQHM
+RDFISN
+>tr|R7MFB1|R7MFB1_9CLOT
+MTKKRQSGSSVISIMEDESLDLENINEETVIGERHDDINYMNVDISTDNIEDIVTSKMGD
+KMSNDDIYMMHSSDEADSNDLEVPKNVAIDDPVRLYLREIGRIKLLSANEEIELARKILE
+GGTPGAIAKRKLVQANLRLVVSIAKKYVGRGMLFLDLIQEGNLGLIRAAEKFDHERGFKF
+STYATWWIRQAITRAIADQARTIRIPVHMVETINKLKKVTRKLAQDLSRKPTEDELAAEM
+NVSISKLREIIKIAQEPLSLETPIGKEEDSRLGDFIEDKEADAPVKMVASELLKEDLAEV
+LCTLSPRERDVLRLRFGMDDGRQRTLEEVGQLFGVTRERIRQIEAKALRKLRHPNRKKRL
+EEYVE
+>tr|R7ME21|R7ME21_9CLOT
+MSIDDALVMILAGGEGKRLYPLTKDRAKPAVPFGGRYRIIDFVLNNFINSGFYKIKVLTQ
+YKSDSLNKHITRGWALSPFLNQYVDLCPAQMRTGNDWYRGTADAIYQNIFHITDEDPRYV
+CIFGGDHIYKMKVSQMLDFHKEKKADLSISAIPIPIEEASEFGIMEVDDDWRLVNFVEKP
+QTKPKSIPGHPELCLASMGNYIFDKEILLDSLNKDANIESSHHDFGKDVIPMMLSEGKNI
+YVYNFSSNSFPGMAPAEQGYWRDVGSIDAYWQANMDLLAYSPELNLYSKEWPLRTFNYNY
+PPAKFVWEEGDRVGMATNSMVSEGCIISGGGLSHCVLSPKVRINSYSSVTDSILMEQVEV
+GRYSQIRKAIIDKNVVIPPHTKIGFDREEDLKRGFHVSAGGVTVVPKGAIL
+>tr|R7MK43|R7MK43_9CLOT
+MKALIQRVKRASVTIENELYSKIGAGLLVFLGVEKTDSEENADKLVDKISKLRIFEDENE
+KMNNSIMDVSG
+>tr|R7MHA8|R7MHA8_9CLOT
+MKYSEDGTQYHVGIKAGDVGEYVILPGDPKRCQKIAQYFDNPQLVADRREFVTYTGYLDG
+VKVSVTSTGIGGPSASIAMEELVKCGAKTFIRVGTCGGMQVDVKGGDIVIATGAIRMEGT
+SKEYAPIEFPAVANLDVINALVQATKNLDYSSHTGVVQCKDAFYGQHNPEIMPVSYELQN
+KWEAWKRLGCLASEMESAALFVVASFLKVRVGSVFLVVANQEREKQGLENPVVHDTEKAI
+KTAIEAIKVLIKG
+>tr|R7MCB1|R7MCB1_9CLOT
+MNYSKQREKILDVLTQNAVHPTVETLLEFLKKESSNVGITTLYRNLNQLAEAGLIKKIDG
+LEPSAHFDHNTFEHYHFICEECKRVFDVPAGVAPNLVKNTQEAMGFEVKSHDIVFHGICS
+DCKKRKENV
+>tr|R7MGE4|R7MGE4_9CLOT
+MIEAGLLEETKALLNKHGRIPNLINTIGYREIIGYIDNKYSLEEVKVLLKKNTRNYAKRQ
+LTWFRKNSEIKWNIFPEKLKK
+>tr|R7MJE6|R7MJE6_9CLOT
+MDCIMLIVAVLVVLLVLLIPLYSMYVSLIQKKNKVKESMGGIDVQLKKRYDLIPNILVIA
+NKFMEHERGLITEITNLRTQASNLRADRDTISKKLDLDTQIANKMGQLMVNVENYPQLKS
+DQTMIQAMQTYSEVEEHIAAARRFYNSAVNDLNNAVEIFPSSVIASALNIQPYPFFKAEE
+AAKEPINAANYFKN
+>tr|R7MGI2|R7MGI2_9CLOT
+MAVEQTLDLAKLGAGIAIGFGAIGGGLGLGIATKGVLDAIARQPEIKAEAFKNFIIGAGL
+AEATAIYALFIAIMLLFSK
+>tr|R7MHN3|R7MHN3_9CLOT
+MEQNFDFSSYNSIKRLSEDELTTLWEKYLANKSDKQARDEIIVQYIYLVRYAVGRVRVSL
+PATISVEDIAGYGVEGLINAVERFSPQHNTRFETYALIRIRGAILDKIRAQDFLPRTVRK
+KIKDIKQATEILKQELGRIPTSSEIANYLDMDVEKVNQIISEDITITSIYEKRGSSDDSM
+EIIDTVEDSNKLTPQERMEEQSVKTDLQRALQRLPERERVLMVLYYQENMTMKEIGETLG
+MSESRVCQLHAQGIMKLKNILNENRSSRLQKAIV
+>tr|R7MFZ5|R7MFZ5_9CLOT
+MNELLKKSAVEQSKALKNKEISAVELTTAAFERIDGVESKIGAFNSLTKDIALATAKKVD
+EKIAKGEELPLLAGVPLALKDNMNLVGSRTTASSKILENFVSPFNATVTEKLLNNLVPIV
+GKANLDEFAMGSSNENSAFNKVHNPWDLNKVPGGSSGGSAASVASCEATLALGSDTGGSI
+RLPASFCGIVGMKPTYGRVSRYGLIAFASSLDQIGPFARTVEDAANLLEVISGHDPKDST
+SLDMPVEHYSQSLNNDLKGRKVGVIKELMGEGISPDVQKAIENAIETYKKLGCEIVEISL
+DKLKYSIGIYYILATAECSSNLARFGGVRYGYRHPDAKNLLELYTKSRAEGFGPEVKRRI
+MLGTYALSSGYYDAYYKKAQQMRALVTEDFREAFKNVDILISPTCPNTAFELGAKSSDPL
+SMYLTDIATISCNLAGLPGISVPAGFDSTGMPIGLQILAPQFEEARLFNFAHRFEQENDF
+YTKLANV
+>tr|R7MAK0|R7MAK0_9CLOT
+MTEAITEYRNENTKDIDLLSTIDMVRKMNEEDQIVAKVVGDEAPNIAMAIDIIAKSFLKG
+GRLFYFGAGTSGRLGILDASECPPTFSVDPSMVQGIIAGGPKAILHAAEGAEDNFDEGKK
+DANILTDKDVCVVISASGNPKYLLGVLEKADEIGAATIAITCNSKGKIAEEAGHVICAEV
+GPEVIAGSSRLKAGTAQKMILNMLSTGSMIKIGKTYENFMIDLKAVNEKLKDRAIRIVSQ
+IAGVTNSESLASLLKCNWEIKTAIVMNQLKVDTDEARLELKKHGGVLRKIINTQTV
+>tr|R7MHT9|R7MHT9_9CLOT
+MDKKHFVYILKTERNTLYCGYTDDVEKRFQQHLEGKGAKYTKANKPTQIVYTKEFETKSE
+ALKEEYRIKHKLTREQKLKLIKEYQKNSRH
+>tr|R7MB10|R7MB10_9CLOT
+MADIKFGTDGWRAVVGKDFNEENVGIVSKAIGKYVFDTYGIYKTIIVGYDPRNMAKEFSM
+QCAKILSDLGFKVLYSDKVIPTPVLAYNAQFLDACAVMFTASHNPPEYLGIKFIPDYAGP
+ATSEITDEIVSNFGKSFNSHIKGKLIYTDFSNNYFNRIKEIIDFSKIKDMKKRIIFDGLY
+AASIGYFDKLLSDNGIEYDSIHMYHDTNFGGGMPEPKPQYMSEMINYIKSHNDYVGFAND
+GDSDRFGVVNENGEYVTPNEIIAILLMHLKTNKKYSGCLVKTVGASLMLDIVAQKLGVEV
+VETPVGFKHVGAAMRKYNPIIAGEESGGLSIQGHIPEKDGILANLLVLEAMAYQGKSLVQ
+LQNDLKDFVGCSFHNTRVDKRLENVDEIKPVLDKFSQMEEIIDQKISKKDFKDGVKLYLE
+DGTTWILVRPSGTEPLLRIYMESDSLDKIEKIKAML
+>tr|R7MG11|R7MG11_9CLOT
+MFLLYIKRMDKKTILRKNAKDIRKTLDRVNISAKIRENLKKHPFYENSKNIMIFYPTKYE
+VNLLELMSFSDKKFFLPRVKGMELEVCEFSEESELKKSEFNILEPITNPVQPSLLDLVIV
+PALMVDKKGYRLGYGGGFYDRFLSENKGQFKTIAVIPQKLYVEELPIDEYDEKIDYVVTD
+>tr|R7MC13|R7MC13_9CLOT
+MTDFKHMRLDGKQFTKDEIKSLIKEYNIRFIKLQFVDINGQVKNMSVPSQQIDKVLNNEI
+MLDGSSIKGFRSIETSDMFFHPDINSFQILPWRNKEGINAARLICDIYNADGTPFEGCPR
+CNLKRVMETAEKMGFSMNVGPEAEFFLFSKDKEGNVTTDTQDSAGYYDVGPEDLGEDVRS
+DIVLTLQEMGFDIEASHHEVADGQHEIDFRYADILTAADNVTTFRVAVKAVAAQHHLHAT
+FMPKPIFGINGSGMHCNISLFKDGKNAFFDEKAEYQLSETAKYAVGGILKHVKSITAITN
+PVVNSYKRLVPGYEAPVYLAWSLANRSALVRVPAKRGISTRVELRSPDPSCNPYLAFAAI
+LEAALDGIRNKIDPPAPVESNIYKLTTKERKKQRIDSLPGSLYEALEQMDKSLVARAALG
+DHIFSEFMTAKKKEWDSFRTYVSQWELDKYLERY
+>tr|R7M997|R7M997_9CLOT
+MSEFNLRNKKSITVAILAICFLSGFYFFNILQPKWKTVRIYKQALKDYENGNYSNSYYLF
+SKVGYTSNLKPIAIYRQAQCAKALGDTNSELKRYQSLFRHYPSSGLSLESKYLAGQLLID
+DNPNLAKRYFKTIVNSNMDEDYKIASEYYIARIDALKLRYSSKKLFKKGKSDHIEKSFRN
+YLEKYPNGRLAVNVANNWIKFNPEMSSKDYTLVARAYYLANLYNDTNKALAKTQQSDSWA
+IKVSNAIAKHDYKNVKSQIEEGVEKYSENSYPEDYKRAVDNYLKLDDSSNKLMYDLFSKA
+KGKNKDYIWTLKCEKSTPAQQYSCYRDLYNNYPKGDYAQNALSHLFFNRIANQDYTNARQ
+LGRDYLAKYPNTPDAPMIMFWEGKLEQKYNSLESAKYFQKLINNYPDSYYAYRAFWIIKG
+VPNSTISTPLEYKSVEYPYRNPVKNGIMHNLMDVEDYDMVAKLSKDEFVKSWVEYQKGNY
+AASAHIAQKAMEKLDVKPPKTDLRWRLVYPLNYYKQVQRISSQYQNNDALMMALIREESF
+FNTEAQSGVGAIGLMQLMPSTAHDIGDKNGISFNTSYLFNPELNIKIGNMYYSTIRGMLG
+NKDISAIAAYNGGIGSVTRWKSSLSYSDTDEFVEQIPYEETKTYVKKVFKSYWNYTRIYQ
+K
+>tr|R7MFE0|R7MFE0_9CLOT
+MVSDMSEFSIRGDIADIYTLGENPVRIELWGDEVVDIRYFNNETQKSIEKAKEVKIYPIY
+KFITAGQEDLVKNIQQDGILDDDEIPEENYFEGIEVYQNFFNKNLVSILDYFEDYTIVFD
+ETSEIYSKYEFLDENFDKQLEENLKLSVIKKIEGKNHFTYDEFLRKTTYFQKIGFNNFID
+GNMGDIVEFNAQPLRNFEADFDMITSFIKEHLGWKIIIATDYPERVKEILSERDIFSVEY
+GESIVSGGCILEDFKTVIITDRELFNKRSKEVTATKKTYYKEKPEYIENINDIKVGEYVV
+HTIHGLGIYKGLSKQEIDGQLKDYLTIEYANKDRLHIPAEQINLLCRYRGSGTVKPKLSR
+MGGKDWESTKAKVKKAVEVVAYDLLRLYARRKMQQGIQFLPDTNWQVEMEEAFEYVETPD
+QLKAIDQVKKDMESSQPMDRLICGDVGFGKTEVAMRAIFKAVTSGKQVAVVVPTTILALQ
+HYQTISERFKPFGIGVELLSRFRTQKEQKETIKNLATGKCDVVVGTHRLLQEGIVFKDLG
+LLVIDEEHRFGVRHKEKLKQLRENIDILSMSATPIPRTLYMSLSGIKDMSVINTPPKNRL
+PIKTYVGEWNENMVKNAINHEIDREGQVFYLYNRVETIQEFKNQLQKIVPNARIAIGHGQ
+MDEKALEEVIVDFANHEYDVLLATTIIENGIDIPNANTMIIHDADRFGLAQLYQLRGRVG
+RSQRQAYCYCFYKKSKEITKDAVHRLKAIKEFTTLGSGYQIALRDVEIRGVGNILGTKQH
+GHMINVGFDTYCELLDEAVQEIQGEKVEKTTPAIVDINVTAYIPDEWVGSSEQKMIEYKR
+LADVKSSTELDYIVEEWQDRFAKPPECVENLIKLIRLRLSATEVKISVIRETQDSIRIYT
+PYSKAEWNLIYKVLPLNLAKKIKFTVAPKSCQEGCSILILNTSYVNFNEVFNILTDLFYY
+IHKVSYEY
+>tr|R7MA14|R7MA14_9CLOT
+MSKTAEYILKEWEKWKHLEDITIAWTLELINRKTNKEISDIINLSKAEIKTMVDNFNIKE
+NETLVCEIQNGTKLTEREEEFFILIKQGKNISEISKTLMVSRTRVKTVVKIILAKILIGL
+YDYYNTEYSHVSELAHPVLEGMRYYGFMYGKASGKIDGYWYEFDEKGKVHLKIKCDNFER
+VDKDCIIISIDKKYGLIDNCGNYLITPKYEELKKTFGETRSLFTAKLNKKYGVIDEHGET
+IIDFKYDNMKFFGDKEHICAKNQGKWGLINVNENIIVPFIYNESFNIYALPFRENEGFIV
+EKEGKEGVINLESKVIIPFEYDCLCSNFFDTTKSLTVAQKNGKCGVINSKNETLIPFEYE
+HIEIFSNETMFVHNFNKGYIIDFSNKKVCDKDFQFINSEGSDEYFCAMKNDKNGLIDKFG
+NIKIDFKYDDLFFINKNLLVANKNSKEGIIDVNENIIVPFKYWFKREKCLDKDNILPARR
+RIKGKLKWGLINLQDEVLIDFKFDILMPFNDRKYTLAIVNNKWMYVNKKGEILKIDIDNY
+VTK
+>tr|R7MB33|R7MB33_9CLOT
+MKKLSPLQIERLKYQPKLPQSLQNGVNGLRMVEGSATQSVRDQEQINALFPNTYGKPTVT
+FEASNVSKESEIRNVGVILSGGQAPGGHNVIAGLYDALKNANSANKLYGFLGGPSGIIDG
+KYVEFDDEFINAYRNTGGFDIIGSGRTKLETEEQFEKSLAVCKKLNISAVVIIGGDDSNT
+NAAMLAEWFVKHNAGIQVIGCPKTIDGDLKNEQIEISFGFDTATKTYAELIGNIERDANS
+AKKYWHFVKIMGRSASHVALEAALQTQPNITLISEEVQEKKMSLSSIIDYMTDIIVKRAN
+AGKNFGIAVIPEGLIEFIPEMGSMISNLNDIMATLESDPDFVNATTIRDKFDIVENRLED
+ENAKVYKSLPALIKGQLLADRDPHGNVQVSKIETEKLLIEMISTRLDELKEEGSFIGKFS
+AQSHFFGYEGRCAFPSNFDADYCYSLGYNAFALISFGMTGYLSSVRNLTESADKWIAGGV
+PLTMMMNMEKRHGEMKPVIQKALVRLDGPVFKQLQDNREDWAMNDRYLFPGAIQYFGPSS
+VCDITTVTLQLERSKELASV
+>tr|R7MDB0|R7MDB0_9CLOT
+MFISYINNTQSPSFQANLNSKKLRFKNADFWVNIRGYGKNRIWAHSVKNTADTAVNLIRK
+DTSCENVLRFITAGITKANKFTLDLTKREHTGILRASREGWRSGSNWNKYDILATDYSHR
+KSIYKSYELRLDKRIDNPLENPYPYINLTRSVSGSDTHFLRHGDKNSVNAALDMVGELYK
+NHIAKYTKIDVQPEHLKDINDNVAEIRWILAHSTPWERGSDSIANVFIRAIYKALGIKAT
+PLAKGVSLDLEAYCTELDRYKKKFPTYFEKPPEVIL
+>tr|R7MEP2|R7MEP2_9CLOT
+MQFIDKARIKISSGKGGNGVVAWRREKFVDKGGPAGGDGGNGGSVYLIADEGLSTLLDFT
+YRSIFKANNGENGFKKSMHGKSAKDLYLKVPVGTIVKDLKTGNIIADLTHHEQKVLVAKG
+GRGGRGNTHFCTPQNRAPQYCEPGEPGIERDLQLELKLLADVGLLGMPNAGKSTFISRVS
+AAKPKIADYPFTTIIPNLGVVRKSTGDGYVIADIPGLIEGASEGVGLGHDFLRHVERCRF
+LLHIVDGTEENPINNFNIINKELEKYSEKLAKLHQIVAINKIDSIEPEKLEDLKKQFKDL
+GIEAFCISAVTGENLDKLKHELEKDVNSIEKPTVDVIVEEDLEATNNDDGWWEVHKLDKN
+TYLVDGGRILRISQVTDPRSTEQVIRFQNIMISMGIMAELKHLGVQNGDTIIVGKLELEY
+WDDEVYK
+>tr|R7MEB1|R7MEB1_9CLOT
+MDWLTKIWNSIKTTLGVSSSSSSSTPSVKSSKPIFNGKKTTSRQGEIRMSSDLSDEQIQA
+NQVRAKYIQQVKNPPYKVQSGDTIGKIAQRFGVDEATLIVQNGLNSNTAKNISLGQVLKI
+PNRKIVKNVHSINDVAKSMGVSVDFVKKLKRMEDSANLPDNKFHNTPYRDGAGVETIGIG
+HVLKRGEPRKLSNSQVCELCAKDLLKVEESISAMLGGQKVYDRLPQAMKEALLDMAFNKG
+PAILEKTPGLLYTLKVGKYEAAINKMTYNKSTTTGKEMSGLSKRRLFDISTAMKIYHGKV
+PQSNINTAQNVYNRGIELLRAECKAKGKDFNAQLAGYNKDVQSYFGNKVKIKFITK
+>tr|R7MG36|R7MG36_9CLOT
+MEDGIQNKLFEVPSRKLTLKKREPSEVADNPSFISHKYAVCLVNLKALGVKTFSYLIPPE
+MQSKIKIGQALLVPFGRQGLINAFCVGFSEYLPPEIRAKKVNKILDETPLFSVEYLKLLE
+WVANYYCSDLITVLNTAIPLKLIEKSLKTEQIIEFVKTDGATKRQLEILEQLKTLGKISL
+IDFEKKAKTTRATIKKLETLGCIKLTEEQIYRNPLDILHIDKKEDLFTLSETQQKVYEGI
+SEQIKIQKSPQILLHGVTASGKTEVYFKLIDDTIKAGKNVLFLAPEIALASQLTKRLAKK
+FGTQDVAIWHSSISEGERYDVWQKLYKNEIKILAGARSAVFAPLKDIGLIIIDEEHESAY
+KQTSPAPRYDARLVAKKLAEFNNCPLILGSATPDISSYYRAVNSNHLFEMLKRYNNAKVA
+PVTVINMQEYGRAAYKNQISKPLQTAIQETLDNNQQVILLINRRGYSTYTQCQGCGHVIE
+CPNCAIPMIWHAKDKMLKCHYCNHVEYFPDVCPNCGFEGLKNSGTGTQKIEQLIKELYPS
+YNVERIDSDVLVRKGEHIRLLEKFQRGDIDILVGTQMIAKGLDNPNVTLVGVISADASFN
+LPDFRASERGFQLLTQVAGRAGRGEFKGRVFFQTYNPEYYALESAKSQNYSEFYEKEIQS
+REDFDYPPFSQIIRLILSSTNNFRAEKAAQEIALRLCTMIEKFGFGERLEVLGPTPCVIE
+RINSYYRFQIIIKNKLDQKGHQFISSFLNKITAPKDIRMTIDVDPLDIL
+>tr|R7MCD6|R7MCD6_9CLOT
+MEKKSLPKCPIEATLRMTGCKWKILIIRDLLTGTKRFGELKKSVSGITQKVLTSKLRELE
+EDGLIERKVYPQIPPKVEYTLTDVGYSLRPVIDCLKEWGRDYKKYTKLLERMKG
+>tr|R7MGR6|R7MGR6_9CLOT
+MYDYINGIFTYKMSNSKGNFVTVQTGGGVGYLFEVMDRDFAKLPEENSELKMFAVLIHRE
+DKMSLCGFLKREDRDIFNVLTSVSGVGSKMALTLLNSFEVSDLVGFVLDGDYKELTRAKG
+VGPKLAQKIILELKDKLNSYSNIAPSKNKGVVGAVKSQNSEDAQMVLLSLGYEKDEVNNA
+ISASLKTVSADATAEDILREALKVLSM
+>tr|R7MFM0|R7MFM0_9CLOT
+MKNNFWFIVACVLVFFVGYNVNDVAVSIPRYKVAVVDVPTILSKSSEMQTLKISQDKKME
+ELNTLISKAQNEIVNESDRNKALQKEATYRKQIESQKQQMEEEYNSKITKITNKIRTLIS
+NEAKHENYNLVLPTGMVISGGEDITEQVVKKLK
+>tr|R7MED7|R7MED7_9CLOT
+MFLEKLEKFQLLSLGLVIAIGGVIASAVVTNGFSKDVVSVTGSYSQNVVSDRGRFEFTIH
+SRQTNKAQCFATLNKQRPTIMKYLKSQGFEDNDIDVKAPQGYDIYAMNSNGVTTNQIIAY
+DSTQRISVKSSDVQKIKKVSNDITNLTQQGIDISVDEPSYFYSKLADLKVQMLEEATKDA
+KQRASAMLKPTHNRVGKIQSVSMGVFQITPTDSTNVSDMGISDTTSIEKKVTSVANVTFR
+VK
+>tr|R7MCX7|R7MCX7_9CLOT
+MKHSRLTLLIFLALILGVLFGHFCPHIAVKMRTFAVIFLRMVKMIIAPLLFATLVTGIAG
+HGDVKQLGKIGVKTIIYFEVVTTLALIIGLTMGNIFNPGKGFISGTVANPELLKEAGLMA
+VTTPHTSIAEMVMNIFPTSIVQSMAEGNLLQIVVFSIFMAVACCTVGKKAKPVMDVLHSV
+AQIMFKFTEYVMYFAPLGIFGAIASTVGMNGLAILKNYAKIIFSLYTALAVFVLLVLFIA
+CKYARISLRNLLKAIQEPAILAFTTASSEAAFPKALEIMERFGVPQNIVSFVMPTGYTFN
+LDGSTLYLAMAVIFSSQICGINLGLNQQVLMMLALMLTSKGVAGVPRVSLVVLAGTLASF
+NIPLIGVAILLGIDQILDMGRTTVNLVGNCVATVVIARWENAFDYDKMKRFISDCDKEDK
+ELEMICGQVTNKIEGK
+>tr|R7MB41|R7MB41_9CLOT
+MACKMLIFDLRETEKNYFNQNNFEYFEIKFFQESLNEETVKKIPKEDLENALIISVFTTS
+EITEKVIEKFKNLRIVSTRSTGCEHIDFKPCINKNIAIINVEKYGNNSVAQFTFTLILAL
+VRQLFPAILAVKNSTCLQNNFTGRNLANLTLGIIGTGAIGASVCKIANAFDMNILAYDIS
+PKEELKEKYNVKYVTLNELLKNADIVSLHLPYNKNTYHIMSDNEFKKMKDNSYFINVSRG
+ELVNLNALLKYVKRGKFQGVGLDVVACVNSDCLEDVKKIERTTLQCLEESNVVMELNSYS
+NVLITPHMSFETQESVEYILEKTFDGLKDFVYGGHKYRII
+>tr|R7MHA6|R7MHA6_9CLOT
+MTKCRAVENQCYMVALTQSGYIEDDEYNLGESRIIDYKGEELSSIMEGEGLASAVLQFDE
+MYDFRDKCTVLNDIKPSYEVKMLCVK
+>tr|R7MEE3|R7MEE3_9CLOT
+MSNKIENLDIDFSFKKNNVDELFFNLSENPEGFKNKDFRYTLSMIYQTIEDEFAGVFLSP
+NAPTRNTHFYLIDNGQKSVTGVGGKKLSFFVTPTNNFQYYLKSKGSLFRFKSEVLDDKVG
+YFMAWDLVMDYFGGFGNVVDIEDLTPTFIYLNKLTYFVMKLIEKLYFIPTVKRYGQMFRI
+VYEPIINNQKMARIINLFEECMPDDLFIQGEKPKDFVYEFIYTYLNYVIYKFLGIKMYRF
+KDVKSGTYLLKDLEQRAVLKGKDIAENFAQWFDELYLGKYDVIPYFKIEKIEDELFRLKV
+YIKNRKNDESVLIDKLYTDEEVFGAKASDISRIVEKQLNYALRYMPELEQLFEDEDKLYL
+DLNLNEIYKIITQTAYYLQKAQIEVILPEELVNIVIPRASINAKVKESRTQDLADLINNT
+SSSKMSLDDILDFSYEIAIGNEKISLEEFKKLVENNNGLIKYKNKYVLIDKEESKKIFEQ
+IAKSNLKSMSRMELIHASLSGQLQQYDFDYDAAFARVLSDFTKPVEMTIPKGLKGELRPY
+QEVGLKWLWTNVSKGFGACMADDMGLGKTIQVISLILKMKEEGKLKKPVLVICPTTLMGN
+WMKELQMFAPDLDAVIYHGADRHLEVNHDVILTTYAIMRIDVEELKKHAWSTIIVDEAQN
+IKNPDTAQTLAIKMLKADVKVAMTGTPVENRLTELWSIFDFINKGYLGSLKEFQKSYAIP
+IERFKENSRAGKLRMSISPFVLRRLKTDKHVISDLPEKMVLNEYCYLSKVQAVLYEKTLN
+EMMSKISGFTGINRRGNIFKLITALKQICNHPYQFLKSGEMNKEMSGKMEKCIDLVQSII
+DRGEKTLIFTQYKEMGDILCKIISQECNTEPLFFHGSLTVPQREELIDKFQTEEDSKVMI
+LSLKAGGTGLNLTSATNVIHYDLWWNPAVEDQATDRTYRIGQEKNVMVHRMITLGTFEEK
+IDEMLKAKKELADLAVYEGEKIITELSDEEIYEIFTLSA
+>tr|R7MH24|R7MH24_9CLOT
+MKTYSAKPLEVERKWYVIDAEGETLGRLAVRVANILRGKNKPEYTPNVDTGDFVIVINAE
+KVKVTGKKETDKIYLHHTGYPGGLKSASFKELMEKDPRIVIEHAVRGMLQHNTLGAEQFN
+KLKVYVGPEHPHAAQKPVVLEKEAK
+>tr|R7MIS1|R7MIS1_9CLOT
+MNFKERLQKLNKKNIAITVAILFLVTIISVCGYEYYQMKHFENTTMAPNENEPDLTAPEQ
+EPQQEPTKKPSEYNIGITYDKAIKGNKPIMVLFYADWCHYCIRFMPTYEELSKIYKKDMA
+FSKVNVEDPKYANLVKSIGITGFPTVYLIDPKYDNRVLLSNAIFGDIKQLQVELDRFLRI
+RKILDSKK
+>tr|R7MF70|R7MF70_9CLOT
+MRRRIKALLFFFGVTVTFCAFRTFYTTNHNPMLNSDTKTVDTTRVSPQTLYDKTWQTVKS
+EYYDPNFNHQHWGRWKNRYDGKIQTEEDAKVAIETMLASLDDPYSRFLTKEEFSEQNTSI
+TSKISGIGVNIINDSGKIRIISVIENTPAQFADVHAGDIILAIDGKKVSGLSLAEVSNLV
+KGPTNTFVSVDILRNEERINKKIIRKEIKIKTVKSYIEKNIGYIQISSFISNSTPNEFLE
+ALENTNNSQGLIVDLRGNTGGLLTNAVFVANLFIEKGRLVSIVGRNGYRYDVMARDTDLE
+IKKPVIVLVNGASASASEILSGALKDYHKAKIIGTKTYGKGMVQKIIPLPNETGLNLTIA
+KYLTPKGKDINKKGISPDIEVEFTPKDISERKDVQLETAKYILEKMIAKK
+>tr|R7MCK9|R7MCK9_9CLOT
+MTLNIYAITDSHQESRNLSRLLSGIYNFEYKKSSPFLILDAGDLFKGIYKKDLSVNAYLK
+IKKLLPQSEIFITLGNNDFGFVKSDFEYLLSTIEKFNNAGINVVCANLKNSKTGEFAPWV
+SRYKIVELDGHKILITGFCLNNSCVKKFGYELLEPEECFANLLEGIKEDYDRIIVLNHHW
+YPYSLQLKQFAEQKLNKNIDLIIGGHEHSPIKSDFDNNIYYPFSFARSLYKMQLDDKIHN
+VEEIKVDNFDFISEFENPIVEYENETQLMKTISHRVFNLTKCYSDSCPLGTFISDNMKRV
+GQTEIAFHSTGFTMAPLATKDSDTITNYDFKRVMCANCALVKIDISVAELKQVFENATLN
+RMYRDRGNSRFVQCSRNITIVGVGSFEDRTYKILQIEINGEKLLDENSNPINPDRKFSAT
+IDPYIGSGEQGFTVLKNIPKVKILDNDGHEIRIDELFRNSLKLADKEFSTIGKTYPSFKI
+IDNLNQQ
+>tr|R7MD93|R7MD93_9CLOT
+MKYKRILLKISGEALLGEQQFGIDQAPVKMIANEIKKVTEEGAQVAVVVGGGNIFRGMRN
+SAKLGMDQASGDYVGMLATVMNAIALQSALTQIDVPCRVQTAITMNQIAEPYIRHRAIRH
+LEKGRVVIFAAGTGNPFFTTDTAAALRASEINAEAMLMAKNGVDGVYTDDPNTNSEAKKL
+DKITYDDIIKNGLKVMDTSACALCKQNNIPIVVFDFKKQDGIKEILNGKEIGTYIN
+>tr|R7MFX3|R7MFX3_9CLOT
+MREHHEFKIVSKYKPSGDQPKAIDELVEGINKGYDTQTLLGITGSGKTFTIANVIEKVQK
+PTLIIAHNKTLAAQLYNEFKELFPNNAVEYFISYYDYYQPEAYIPRTDTYIEKSSSINEE
+IDRLRHNTTRSLYERDDVIVISSVSCIYGLGLPENYFRGAIEVKVGDEIDRDALLKHLVE
+VRYERNDLELKCSTFRARGDIVEIMPAYEKIITRIYFFGDEVEKIVKIDNVSGEIIETPE
+SVVIYPAVHYISYDENEEETFDMIRQELQNRLVELNNENKLIEAQRLEQRVKYDLEMMKE
+MGYCTGIENYSRIIERRPAGSAPATLLDYFPNDFLTIVDESHVTLPQIKGMSHGDAARKQ
+VLVDYGFRLPCAKDNRPLKNEEFYSKVRQKIYISATPGDFEKENSEQIVEQIIRPTGLLD
+PKVSVRPIDTQIQDLKEEIKKRTDKDERILITTLTKRMAEDLTDFFLQEGIRVRYLHSEI
+KSIERVEILRDLRLGEFDVLIGVNLLREGLDIPEVSLVAIMDADKEGFLRSDTSLIQTIG
+RAARNACGEVIMYADKITDSMDRAIKETERRRKIQIAHNQKYGIIPQTIKKPIENNLLSL
+VASYRDLEDIVAEEMVDMGIDKKDLPKLIDKLEKDMHKAAKILDFERAAQIRDQLKKLRE
+MNK
+>tr|R7MBY5|R7MBY5_9CLOT
+MRVIIIGGGACGASCATRLRRLDERCEITILERTNEVSIANCGLPYYCSDVINDRDKILV
+SNPQKFKNMFNIDVRLNTEVVKINRKEKFVVSSNGEKFYYDKLVLAQGGNPIVPPLEGIN
+NENIFTVRSLADADKIKDYIKNNNVKSAVVVGAGFIGIEMAENFAHLGLDTKVVELSNQI
+LAPIDYEVACFAQNEMRDKGVELILSDGVKLFKEKEIELNSGKTIPYDIAILAIGVKPET
+TLAKNSNLEVNRGIIVNENMQTNDENIYAGGDSVEIKHFVTNNDVLIPLAGPANRQGRII
+ADNICNLKSTYKKSQGTSVLKVFDYTVACTGYNEKSLQRENIPYWKALTFGNSHAGYYPD
+ATSTFYKLLFNNEGKILGAQAVGYEGVEKRIDVIASVMRNQGTIQELLDSELCYAPPYSS
+AKDSVNILGMCADNILKGLVKPAYYEDIVGSYIVDVRIPESYNIKTINGAKNIPLAQLRE
+RINEIPKDKKVILVCNTGYTSYVASRILIQNGYNNVYSLLGGMQLFKEIEKDKNGKVKKV
+SQELQTANIATYNVVKVDACGLSCPGPIMKLSSTISNLNDGEILEITSTDRGFYSDVEAW
+CNSTNNTLLNLSNTDKKIVATIQKGVNNEQASQNNNSKNGQTIVVFSNDLDKALASFIIA
+NGAKASGKDVTMFFTFWGLNILRKENITVKKGFIDKMFGFMMPKGADKLTLSKMNMGGLG
+SLMMKQVMKNKNVLSLKELIEQAQNQGVKFIACQMSMDVMGIQKEELIDGVEIGGVAKYI
+AESNNSNSNLFI
+>tr|R7MH99|R7MH99_9CLOT
+MIKIGAGNLNEVFEELEKEKGISKDVVISSLCDAMVAAYKKHLRLKEVQNVEAFLDEQSG
+EIGIFKGKTVVESVEDEDNEISLAEAKEIDEDVELGDEVKLEVTPDQFGRIAAQAANQVL
+TQRIREAERNLVLNEFLEKKGTLITGIIQKVDDRRNVIVNIGKTDAVMPRKEQIPGEYYK
+PGNRIRVYVLNVKETTRLPQVIVSHAHPEIVRELFELEVPEIEDGIVEIKSISREAGYRT
+KIAVWSNDPEVDSVGACIGPRGSRIQTIVGELKNEKIDIVRYSEDPVEYIVNALSPARVV
+SVDIMADDEAAHEALVVVPDDQLSLAIGREGQNVRLAHKLTNWKIDIKSVSQMEQAEAQN
+VSNYEYDEEPQEEDVVVDSNELDEEIEEEMNQQALDEEDVQDGGISEEVEEEQE
+>tr|R7MG27|R7MG27_9CLOT
+MKKYELMAIFKPNLDVEEVDKLIEKIGSVVSDFGGSVESTDKVGRKKLAYEIQNFRDGYF
+STTVLALPADKVAEFKRQLRLNDNILRTMFLEVSEKASV
+>tr|R7MIF7|R7MIF7_9CLOT
+MNSDAQLEKLCPILEYIKEHNIKIPISIDTRSSVVAKKCIELGANIINDVSGFDFDEKMA
+DIISNYPDVKVIIQHSQGSPENMQNSPHYDNLMDEIFVNLQTKVNFAISKGIKKENIILD
+PGIGFGKTQEHNFEILKRWKELKTLGCPILIGLSRKSLLGMPDATNQEKDMYSLALDSIL
+MKEKVDYIRVHNVKIHKTFQNIIG
+>tr|R7MDK1|R7MDK1_9CLOT
+MANNEEKKNLQHYIDIVQKVARVEHRRIPSHMVEYEELLSIGIIAIQVMIKNKTPEQLQK
+YNAAYIATAVRWAIRNELRIRYKWYSLKHKAEDEYDEDEAVEGMDMKQAKVREAIYETVL
+SIDSLAAAARDNDSPFDFVKDTHAMPDENAEISEMGKMIRTAISKLPPKERTVVEYRFYR
+NMQVKDIAQQIGLSPSRVTRIVQSSLNSVREYLNAHEQYGY
+>tr|R7MCC5|R7MCC5_9CLOT
+MVEIKKKNILIIGQGGVPCALAKKLKTYEQTGEIYIAPGNGIDSQFYKNVDIREEDSTGL
+LKFALENNIDLTIPVSEKALKSDIVSFFQSNGQSIFGPTKNACSIAINNTIGKKFLYKIH
+AQTSKFGIFDKIQMAEDFLKTANFPVTIKCKEYSSIIDDRLVCPTMSLASEYLTNLFNKN
+ETDVLIEEFTYGNSFTVYFVTDGYSAIPLTSCANYKFTSEGDGGILTNGIGCFAPDYRVS
+QIAIQRIENIVQNTLSSLERKGDSYMGILGVECTQTGEDKFYVSEFKPFLQEHDATAILN
+LCEDNLLDIFTACINGFFADEYEQIKMNENVSISAIVLARQGFKTIKGIDNIDDLDNIQF
+INIQKSGENLCTKTKGAVFSLTRSASTLSRAKKYLYEDLEQITFDGIKYRKDISSYVEV
+>tr|R7MGM5|R7MGM5_9CLOT
+MENLEQKIDKNAKIAVLCGGMSSEAEISRRSGKGVFEALQRLGYKNSELVEVDTDIAQKL
+KEGQYDYAYNVLHGKYGEDGCIQGILEIMQIPYTGCGVMSSAICMNKEYTKRILSANPDI
+PMAKSAFVRKGEDVMEKTKDLKFPVFTKPVSEGSSFGMTKVNTKEELPQAYEEAVKYNDD
+VLIEEFIDGIFMTVGVLEKDGENFATEILEIIPKNEWYDYEAKYTPGMSKFILPAELDEE
+LTKKTKEVAIKAHIAAGCRGVSRVDFMVGKDGIPYVIEINTSPGMTSTSDLPAQSKVMGI
+SYDELVQIVLNGAGLNK
+>tr|R7MHB8|R7MHB8_9CLOT
+MIKMIATDIDGTILKWGLDFSPAMKSCVKRLKEAKVKMVLVTGRMHCAALPVAKELGLET
+PIISYQGGLIKTYDGETLFQENLNSDYAKEIIKWARKNNIHINLYLDDKLFVEHDNDIVK
+SYTYGKFIDYTVCNFDDLEIKNVNKILAIDLTDPEKVTGWVNLLREKYPDLYIVKSTPYF
+CEIGSKDAKKSKGVQFLCHMWGIKPEDVLAIGDQNNDIDLVQCGGIGVAMGNGTPELKEC
+ADFVTDTVENDGFVKAINKFVIQPQE
+>tr|R7MBC3|R7MBC3_9CLOT
+MKLTVLGAGCWGLTLAWLLTDNFENITVWGREQDLSQDLIENKHTSKPLEVQLDKKIEIT
+SDLTSAIKDADIILSVIATSGTRDVCEHLKNAGIKSEQVLVNASKGIELPSLMRMSEVIK
+DVLPNQKLVILSGPTLAKEVLQGKPTAACVACEDIETAEFVQKACNVPNKFRLYTNTDVI
+GVELGGSLKNVIAIASGFAHTMNLGDNCSGTLLTRGMAEIVRVSIQLGANPSTLYGLSGM
+GDLIATCSSPMSRNYTVGSMLAKGKKINDILAELGSVAEGVKTSKAICELAKKLNIEVPV
+SSAIYEAVYTDITPEQLLSKLMNRKLKEEERYV
+>tr|R7MA39|R7MA39_9CLOT
+MTTKLKNRCTVTLRHGDKTIGTFRPDQKVFYSLQKELEPYRTLYEKAQTIKNKYRIILKQ
+EDVKMGTYKVKQKHFFEIKEKIDKYRSLPEQKKKIRCIETGNVFECARDASKWVEFVREI
+DYCRMEYLKLACKGKQKTSYGYHWEFVE
+>tr|R7MHF2|R7MHF2_9CLOT
+MNEIRKCLICGIGAVGSIYANKINEFDNDFLRVLVDEDRLEKYKKSPKVFNGKPLNFNYI
+LPNATDYKADLIIIATKFDGLCDAIKNIENFVKEDTIILSLLNGVSSEELIAKKYGWKHI
+PISYFIGHSAMRDGNNITHDGTGDIVFGVKDKTKTDESDIELLKTYFDKVGIAYKTPDDM
+LHAYWLKYMLNVSSNQSSAILRLTFGQMQDSEKLQTMLKKIMQEVQQVAKAEGVKNTEIM
+IDEAISAFYKMIPEGKTSMLQDVEAGRKTEVEMFAGTMIELGKKYGIQTPYNQVMKDMLE
+VIYDVSK
+>tr|R7MB13|R7MB13_9CLOT
+MSEEIRENVAQVDDDEKYLPANPWISAIPTLLAVFIYVIDGTIANVALPHMAGSFSATRD
+ESMWILTSYLIASGIIIPSVDFFSKLLGRKNFYIISILLFTIASLMCGMARNLGEMVLFR
+ILQGAGGGGILPISQAIMMESFPKEKRGTAMAVFGMGVIIAPIVGPVLGGWITDNWSWPW
+IFFINVPFGCLAAILSQKLLFNPPYSHRKKGVKMDGLGFFFLTVWLLCLQVFFDKGNNAD
+WFNATWICVIFTISCIAGLCFFVSQVVRKDTLLDLSVFKDRNFVIGTIIQVVMQAVLYAS
+LAILPQFLQSMMGYTAFLSGYSMMPRGFGSMTAMIICALIADKVDKRGLVCIGLILLGCA
+GLFFGFLNLQIASKNIMIPNYIMGLGMGLCMVPIINLSLETLSNIQMTNASGIQNLLKNI
+GSAVGTSLVATMLTRFSQIHQYMMVGNLSDLNPVYVERVQATTAALSQYVHVSVANYMAQ
+YSQYGTLVKQATLWAFMDSFRIFGLLCFILVPLLLLLKSDKNINR
+>tr|R7M9Y2|R7M9Y2_9CLOT
+MDMTNYFKELAKNMRIERARLNISQLQLAEMADVSLDTINMIERGVGNPKFCTVISIAKA
+LNVDLNTLVKL
+>tr|R7MGD4|R7MGD4_9CLOT
+MQVSLNWLNEFVDLSNVEASQIAHELTMSGLEVESVEDVKPSFTNIKTVKIEKIDAHPNS
+DRLHLVTVNTGSGLKTVVCGAQNIQEGQVVPYASVGSQVLDRKTGEMFTLTPAVIRGVES
+QGMLCSADELGVSERNYQEEDGILVLNRIFPDVELGKDVKDVLGFEKDTVIDVAPTANRG
+DQMSVIGVARELSSLFNTPLKFNPVECTKDLTTDKFKVEIKDKDVCKYYSIALLKNIKIK
+SSPDWMQKRLIASGVRAINNVVDITNYVMLEYGCPLHAFDADKLDGYLCVRRAEEGEKLV
+TLDEVERTLTTDSVLIATKDKGVCLGGVFGGANSEIDDNTTSLALEAAYFTPATNRKSAR
+SAGYRSEASARFERGIDIEAVKPALMRAMQLLVEYADAEVVGVVEDGENKLEPLEITLRY
+PQIKRILGCEIASDRCDNILENLGFKKLGGNAAAAKFLVPSFRAYDVTREIDLIEEIARI
+NGYDKISPTLPAKAQTPTITLEEKVIKRIHELLLSAGLNEIQTSSLIGKPMLDKFKIGYD
+DENAVKVLNAASEDYSMLRQTLSASVLNCMKYNFDNGQKNFWAYEIGKTYIKTSPADEKN
+TGVKETRVLEGVLTGEVQNSKWQIKTSTDFYAVKGIMENIFNDLEVSRRIKLAPLEETEL
+AKDNNILHPYRTAVVMLLGKKPQPIGYFGQVHPTLIDKLKLNQDAFLFNLNLTELISAVK
+ETVPRFKHLPQFPEVRRDIAFIINDDVTFEDIQKVIKSSVKQNIFKGSEIFDVYQGEHVE
+DGFKSVAFRIKMQDENATLTDEIIEQQMTSVREKLQKTYAQISFRE
+>tr|R7MJ29|R7MJ29_9CLOT
+MFLKPDYNLKRLFDINLEELKSQGVKAMLFDLDSTLMASKSGMYSDEVLAWLENVRKDFF
+VGVVSNNKNEEYIEKVRQISDFPLLFKAAKPDTCAISEFVKKHGFTPCECVLVGDRPLTD
+ILCGKNFGCKTILVDSITCDTESKLVRFVRCLERLSIRK
+>tr|R7MCZ6|R7MCZ6_9CLOT
+MNLEKVRVINNPVVLLNLCTMRDKNTDSQGVRIATRKITRCLLYEAAQNLPLVEREVTTP
+LTTFKAKTVDPNINLIISPILRAGLIFTDEAIDILPQATIRHIGMYRDEKTLKPVWYYNK
+VPMDTPNPENFYVYITDPMLATGNSLLAAIDLYAGKGIPIKNIKCLCIIAAPQGIENIQK
+HYPDIEIITAAVDDHLNEKGYIVPGMGDAGDRIFNT
+>tr|R7MD09|R7MD09_9CLOT
+MTTEVFRNMLYGTNFGAVADNLKDVRYVVLDEVHYMNDEQRGTVWEESIIYCPTNIQIIA
+LSATVANCDELTNWINTVHSKTKLVNTDFRPVPLRFFYFDSSQPYKLLPLLTPDGKLNNK
+IKPEKPQWARGKDKRKKTYVKQIIQNLADNDMLPAIYFTFSRKKCDEQMEKCSGLGLNTR
+KEQEEIKAFIEEFIAENPHLYGNKHIEYLIQGVASHHAGLLPAWKNLVEKLFQKGLIKVV
+FATETLAAGINMPARSTVISSTSKRTDSGHRMLTANEFLQMSGRAGRRGMDKVGYVTVVG
+TPFQTPEEVAELVLSDSNPLESKFSPSYSMVLNLLQRFNLEESKELILKSFGYYSSDYRL
+KPILFQLEQYDKEIEERSFICPNKLSDDKMLEYDKLRFLYVQNRQTYKKIVKQEKSKHRP
+LSPEVVEFGKRNKEELHKLQTFACDTCKLYKKHSKNLEVLKRIDSKKKKLLKEIEKQKDI
+YWNKFIAHRAVLKEYGYIQNDYPTEKGKTTSQIRSENELYLAEIIFSGVLENLTPSQLAG
+VICALTTEELRIEIPYIPFSEPVRKTLNQIRNIKRKLEKVQSKYDIEAPLYINPYFSSLI
+ELWVEGAEWETVSEQIEIGEGDIVRAFKRVVDVLRQLTTIDNIPETLVFTAREAIEKIQR
+PPVDVD
+>tr|R7MAH0|R7MAH0_9CLOT
+MKKILITLTILIINLIIANPSYAIKIGLLTGVDQAGVGTNVNGRMIDVHTNKTVCTSDAM
+KGYVLVPYKNQIAVKSGGHFYSLGTDSIVLRPDSKGYVSTKGKWYHGKLMVKVVNGNLTV
+INDIDLENYIKGVVPSEMPPSWEYEALKAQAIAARSFALANLGKQAKNGYDLKDNTEDQA
+YGGASVETNKTNKAVEETYGLVLTYDMKIISAYYSASAGGMTSASVWGGSAPYLHSVPSF
+DDNVKKNGHGVGMSQHGANNLAKQGYNAYQILQYFYQNVKFAKLNNSL
+>tr|R7MEU6|R7MEU6_9CLOT
+MVERFYIKGGTPLKGEVSIGGAKNSVLKLMAAALLAKGESKIYNVPDLTDVNIMLSVIEQ
+LGAKTHYDKVEKSVTIDATDLTSVTATYELVSKMRASFIVLGALVSRCKEAKVALPGGCA
+IGERRVDFHIRGLEALGAKIKIENGYVHAKAPKLVGAEVCLDLPSVGATENIMLASVLAE
+GSSRIQNAAQEPEIVDLANFLNTMGADIQGAGTSEIVINGVKQSDLHPIEYTTIPDRIEA
+GTFMTAIIATKGKGVIRNIYPAHLTFFTDKLLKMGANIKLLDPTSMEVSCKNRLNSINFV
+TQPYPGFPTDLQSMAMTLLTTANGVGIITESLYENRFMQVPDLNRMGADIHQDRNHAIIK
+GVKKLTGATLTASDLRAGASLVVAALMADGNSIVEKLHHIDRGYENFETKIRLLGGKIER
+RDEDSQVNLTEGTHNESYL
+>tr|R7MD48|R7MD48_9CLOT
+MLDFDKFTDYSQEIISSANALMGEYKNSQMTPEHIMLAMIKADGIIKDYLTELNLLNQGF
+INKIVSKIESFPKLSGPVNSQGLYLSQETMKLLELSMDESKKLKDEFVSIESILLAMSEL
+DNSNIKSLLNSNGVTSSSILKVMKDIRGNNKVDTKNAEENMKALEKYSTDLTDLARKGKL
+DPVIGRDEEVRRIIQVLNRRTKNNPVLIGEPGVGKTAIVEGLAQRIIRGDVPESLKDVKL
+ISLDLGALVAGAKFRGEFEERLKAVLKEVESSNGEIVMFIDELHTVVGAGSTEGSMDAGN
+LLKPMLARGVLRTIGATTINEYRKYIEKDPALERRFQPVMVNEPSVEDTISILRGLKEKY
+EVHHGVRILDSAIIEAAKLSDRYITDRFLPDKAIDLIDEAASSLRIEIDSMPEEIDTMMR
+QKIQLEIEREALKKEESEEAKAKVEDITKQVSELESKIDVLKAQWEKEKASITSEADVKD
+EINKVKTQIEEAERNTDLQKAAELKYGKLLELEKKLKACQTKEHSNNKLLKEEVTATDID
+EVVSKWTGIPVTKLVESEMKKLLHMEDILHKRLVGQDEAVDTVSDAIRRARSGLKDPRRP
+IGTFLFLGPTGVGKTELAKSLAEFMFNDEDALVRIDMSEYMEKHNVARLVGAPPGYVGYE
+EGGQLTEAVRRKPYSVILFDEIEKAHPDVFNIMLQIFDDGRLTDSKGRTVDFKNTLIIMT
+SNIGSDIILEDSLNSMLSPEQFKDTKEKVLAVLRQRFKPEFLNRIDETIFFKALTLQQLS
+KIVDIQMDYLRNLLKDQELEFEITEDAKEFLATQGFNPVYGARPLKRVIQQQVENPLSKL
+ILAQTFLKGDKIKIDVKDDALTFEKVK
+>tr|R7MC36|R7MC36_9CLOT
+MKYKDYYETLGVKREATEAEIKSAYRKLARKYHPDVNKTKEAEEKFKEINEAYEVLGDKQ
+KRQRYDSLGANWQGGADYTPPPGFENFNFGGGQGGAYQQFNFNGQDMGGFSDFFSSLFGD
+MMGGASAGSARGGFSGFDFGDLGAAQQGYTRSYGSSGARSSRARTQSTPKEDLDITKTLN
+VTAKDLFSSDPITVKFNDMRKCTQCPAGGGYCTACGGTGIINEAKSIKVKLPKEIKEGQK
+IRLKGEGKADAYGQKGDLYLVITPKDSEYEIKGSDLTKEIEITPPEAVLGCQKEISTLHG
+NIGIKIPPMTSSGKILRLKNLGLPKKSGGFGNLNAKIKIVLPAKLTQKQIDLYKQLLG
+>tr|R7MBG3|R7MBG3_9CLOT
+MKIANDLTDLIGKTPLVRLNKLNSGNAEIAVKLEYFNPANSVKDRAALKMIVDAENAGKI
+NNDTIIIEPTSGNTGIGLAMICAIRGYKIILTMPESMSIERRMLLKAYGAELVLTEAKLG
+MKGAVDKAIELSKKYPNSFIPSQFDNSSNPKAHYETTAEEIWNDTDGKVDIVVAGVGTGG
+TISGTAKKLKEYNSQIKAVAVEPYVSQVLAGGQAGPHKIQGIGANFIPQNFDKNVIDEII
+PVKNEDAIETARNLSKKEGILSGFSGGANIWAAIELSKRPENKGKLIVAILPDCGERYLS
+SELYSG
+>tr|R7MDR2|R7MDR2_9CLOT
+MKTDKDIDINEYSEIFKALAHPTRLTIAYNLSKKAECNVSKMSECLGVPQPTVSQHLTIL
+KNANVITGYRNGNQICYKIENPKVIKILKQMV
+>tr|R7MIQ8|R7MIQ8_9CLOT
+MEKSYYKSPIGVLELICENDYLISLKLVENECKSDNETNLIKTIKIQLDEYFEGKRKKFN
+IKLNPKGSEFQKRVWMELLKIPCGKTKSYSEIATNISNQKAQRAVGSACNKNPIMIIIPC
+HRVISKNGKLGGFVYGNSIKYKLLEVEHLTEGNFPLFV
+>tr|R7MFE8|R7MFE8_9CLOT
+MYNPKSTKAEEFIANEEVLATLEYAKNNKNNIELIDKILEKAKLGKGLTHREAAVLLDCD
+NEEKNQEIFELAKKIKQDYYGNRIVLFAPLYLSNYCVNGCVYCPYHAKNKHITRKKMTQE
+EIKEEVIALQDMGHKRLAIETGEDPVNNPIEYVLESLKTIYSVHHKNGSIRRANVNIAAT
+TVENYKKLKEAGIGTYILFQETYNKKSYEELHPTGPKHNYAYHTEAMDRAMQGGIDDVGL
+GVLFGLESYKYEFSALLMHAEHLEAVYGVGPHTISVPRIRKADDIDPSTFDNGIDDDIFA
+KIVACIRIAVPYTGMIISTRESQKCRERVLNLGVSQISGASKTSVGGYAHPEQESEEETA
+QFDVEDRRSLDEIVKWLMELGYVPSFCTACYREGRVGDRFMEICKEQKIHNFCHPNAIMT
+LEEYLEDYASPETRKVGEELIDKELKTLGNNKLKCAVEENLDKIKHGERDFRF
+>tr|R7MK26|R7MK26_9CLOT
+MKKLFLPIIFTCCILIGCPVLSEQYGVYSPQNYNKNFSSNPEGERILFILDLSNSMEESL
+EGSTKFDLMINTMREILPKINPNTWVGLRVYGHRMGFTPMEACRASSLVSPISTHNTTNI
+EHALSKTKPRGMTPITYSLKQAIKYDFMGFYGKKHIILLTDGGENCDESPCTFVMNLIKI
+RKDVSIDVIAFNISDSDDLEQLECTALVTSGKFYNAQTSAELINSFNNSLEGVKNVEAKI
+IMP
+>tr|R7MHS6|R7MHS6_9CLOT
+MIVDKIEKLKLYKEIPGEVVQFLSELDINNIKLGKRVLSDCIYVNIEEYNTKDIEVASFE
+SHDKYIDIQLLLRGSENIYYASRDNLSVKVPYDETRDIAFYSDSIQGYPYIKLDGTNFMM
+IYPHEAHAPQVSINGLTQKVLKVVVKIKL
+>tr|R7MIT0|R7MIT0_9CLOT
+MWYSKFMFTGIVEEIGIVKSLEFKANGAKIVIGCQKVVEDVKIGDSIAIDGVCQTVIAFN
+SSEFSAEISDETLKVTTLGNLKSGNTVNLERALTLSSRLGGHIVSGHVDCMGKIINIEKL
+SDFYNLQFEIPEEQEKYVVYKGSITINGVSLTVANIVDNIVSVAIIPHTYNNTSLKDLKL
+GQDVNIETDILGKYVEKFLSAKDNKKGISMNFLQENGFV
+>tr|R7MG04|R7MG04_9CLOT
+MPEQYSVKIGEKQAKLTPIEFDIFNLLFQNHGNMVSSAKLLKDIWGYSPDDDIETIRVHI
+RHLRSKIDKIADGKKYIETIYGGGYKLNV
+>tr|R7M9N7|R7M9N7_9CLOT
+MTIINDVFTVHTKGNTDIIDITPQIRNVVYNHVLQNAVVYVYAQGSTVSITNIEFEPGLL
+VDLPEALERIAPVNSNYHHDEMWHDGNGYAHVRASIIGNSTHIPLIDGVLQLGQWQQVVL
+IDFDNKARARKVNVQIVY
+>tr|R7M9P9|R7M9P9_9CLOT
+MIKPLGERIVIKVVEETEQTTGGIFIPDSAKEKPQKGEVVAVGLGKMNDKGEREPMDVKV
+GDTILYAKYSGTDVKVDGTEYKILSIKDALAVIE
+>tr|R7MFY0|R7MFY0_9CLOT
+MARKKVIEIVLDTETTGLDYTREKMVEFAALRLENGKIKDEFQTLINPEQHIRKSSIAIH
+GITPDMVEDAPTEAEAMPKILEFIGDYPIVAHNAIFDYTFINEASKRVFGKEISNERIDT
+QQMFKEVYPELDAHGLNALTEKFNVELKDHHRAMGDTMGLALAYPKLKKLYLQKFDWENK
+QLDNVEYLFERFLRIQQTVTTLQSELQDLKSVFKLYFEQGGKPITSQEGDMLIYNSKQSF
+GYDFNTIKPILEEVGALEKATKLNTGFIDRLVHGHSLDEEKREIIKNARQELTETRNIQV
+IRNK
+>tr|R7MHC8|R7MHC8_9CLOT
+MKEKEFITIIKNTLNSPYIGDDCAYLKDLGIVVTQDSLVEDIHFSTKFISAFDLGFKAVM
+VNVSDVAASGAEPKYLTVSLSLPSNVKEDFVEEFYNGCKKACGNDVQIVGGDITGSEKIY
+ISICAIGKTLGRNISSRKNAKIGQKVIVSGIHGSSSAGLKLLLEGKNSPEKFIKSHINPV
+AQVEFGKNISTTVKEPYAMMDTSDGLMDGLSTIANESGVLLDIDFDKIPYDKDIEQFENW
+QDLVLFGGEDYQILATVPQNFQGGFEIGVVKEGLGVNLKLRDKITHYSKQDVEEKVFNHF
+KD
+>tr|R7MIZ2|R7MIZ2_9CLOT
+MAIIYRQQNKEDDTSGNIFWVTMADLLLGLAVIFITLFVLAMTGFSQQTVQQQQVQMNVS
+EKISEGMKNSDIDADIDKMTGDLKISDGELFALNSSELTPEGKKLLDKLAPIYINTIFAD
+KELAGQIDNIIIQGHTDSQTFAGVNSKEEQFMRNMDLSLRRANAVAEYIFRTQYDKKYAD
+DFRKKLVVEGKSFNEPVLVNGKEDFARSRRVELKIKVKNWDVSKALGLRK
+>tr|R7M910|R7M910_9CLOT
+MEAKAKQTDIKMTARKLRRVINEVRGKAVVEAQDMLRFMPYFAARVVEKNLKAAVANARE
+QYGVAPESLKISQIFADESVTYKRARTRAQGRMYSRMKRTSHLTLVVSDTTK
+>tr|R7MH04|R7MH04_9CLOT
+MIKWMLKLLGDPNEKKVKSMMGIVEHINALEPEFAALTDEQLKAKTQEFKEILAKRPTSK
+NFKEDLKLEKEALDKILPEAFATVREAGKRVLNMRHFDVQLIGGYFLHNGHIAEMRTGEG
+KTLVATLPAYLNALTGKGVHVITVNDYLAKRDSEWMGKIYKFLGLTVGVVLSGGMGARDF
+EVKKHAYQCDITYGTNNEFGFDYLRDNMASSPQMLVQRPFNYAIIDEVDSILIDEARTPL
+IISGRLAQSAETYQLMAKIAPQLQKDVDYTVDEKNKNVILTEEGIDHAQDLIGIKDLFDI
+HTQYAHHLLQALKAKELFVKDTDYVVKNGEVMIVDEFTGRLMEGRRWSDGLHQAVEAKEG
+VEIQDETQTLASITFQNLFRLYPKLSGMTGTAMTEEAEFGKIYRLEVTAIPTNKPDRRVD
+YPDVIYKSEVQKYLAVIDDIVAQHKIGRPVLVGTISIEKSEYLSALLRQRGIKHNVLNAK
+HHEKEAHIIAQAGRWGAVTIATNMAGRGTDILLGGNAEYLAKAELEDRGIDETNPDYEAI
+KEDALKRARLITEEEHANVIEVGGLHVIGTERHESRRIDNQLRGRAARQGDPGSTRFFLS
+LEDNLMRIFGGEKITQLMTALNVPENMAIDSPLITKRIQSAQKKVETFHFDMRKSVLEYD
+DVMNIQREKFYRQRRKVLFGEGLYEDILYMMDREVDRLIKSYISPEQKVEEYVYEDLQAL
+IRELHSIVPQLANTFDVADIQSMRFEPMYEKIKDFVIEAYKGHEIEIINFYNQIVNDYNG
+GTGVQEPFTPHNVVRQLEKDVLLKVVDSKWIDHLHNIDMLREGIGLRAYGQKDPLIEYKK
+EAYGLFNKMMYEIQSETVKHLFRTRFGVQIVNNNPESQEDEVYDILDENNPDIDSQEI
+>tr|R7MJI3|R7MJI3_9CLOT
+MDNIIKKIKALKEKKNAVILAHCYQPVEIDKVADYVGDSLHLSQVASKTDADIIIFAGVY
+FMAQTAKLLSPNKKVLLPQIEAGCRMADMISFRQLKDFKAQHPDIPTVCYVNSTAEVKSE
+CDMCCTSSNAVKIVKSMGVPKILFLPDTYLGKWVEKQLGNVEVITYPGFCPTHLQIRPND
+IENARKAHPEALVLAHPECHMSVSSIADYVGSTTGIMKFAKESDNKSFIIATEQGVVDRL
+KRDLPDKEIIPVKENIICPNMKMTSLEDILHVLETEENEIFVDENIAPKAVRCIDRMLEV
+SK
+>tr|R7MJ18|R7MJ18_9CLOT
+MYTSLDSMGKVSLMMDLISQRQRALGSNVANVDTPGYLRQDISFGQYLSTMNSPLETQLS
+EKLGPSAVITEQSDDPINPANELLQMQENAILYSMATRRMSNIVTEMKTVINVGK
+>tr|R7MDX9|R7MDX9_9CLOT
+MQEKDYFSYELIHEDAQTGARAGILTTPHGKIETPIFMPVGTNSAVKSLTCDQIRDTGAQ
+IILANSYHLYLRAGTKRIRDFGGIHGWMNWDKPVLTDSGGFQVFSLSHLRKITEDGVEFR
+DPKDGTKHFISPEVSMEIQQDIGADIMMAFDECAPYPCDYETAKAAMERTHRWLERCFKA
+KTNPKQALFPIVQGAFFDDLRKESARVISSFDAVGYAIGGVSVGEPTDIKNHFTELTAPL
+LPKYKPRYLMGVGTPEDLLNGIKYGVDMFDCVLPTRNARHGSFFTWDGKANIKNKKYQDD
+HAPLVEGCDCYACKNHSRAYIRHLWRCQEQTASTLLSIHNIKFLIDFAQKCRQAILEDRY
+GDFYAEHYDRLIK
+>tr|R7MBM3|R7MBM3_9CLOT
+MFLDVIRATIANNGYEVITCGVASAFFAQVIKFILFTVKSRRVNFKIFSTTGGMPSSHSA
+GVMGLSTMVGILQGYDSILFAMSLGFSLIIMYDAAGLRRAAGKTAACLNKMMEDFYHHDL
+QSVGGKLKELLGHTPFEVFVGAIFGICFAYLFHWFILK
+>tr|R7MBK2|R7MBK2_9CLOT
+MVTEEKANIDWANVGFGYHKTDKRYVSNYKDGKWDEGVLTEDSNIVLNESAGVLQYAQTC
+FEGMKAYTTVDGKVVVFRPDMNAKRMSDTAKRLEMPVFPEDRFVEAVEQVVKANLKFVPP
+YGTGATLYLRPFMFGSAPVMGVKPSAEYQFRIFASPVGPYFKGGAKPITLTVSDFDRAAP
+HGTGHVKAGLNYAMSLHAIVTAHANGYDENLYPDALTRTKVEETGGANFFFVTKDNKVVT
+PKSDSILPSITRRSLMYVAKEYLGLETEEREVYLSELKDFAECGLCGTAAVISPVGKIVD
+HGKEICFPSGMEKMGPISQKLYETLTGIQYGRIEAPEGWIRVIA
+>tr|R7MGN9|R7MGN9_9CLOT
+MSKTKYEKRVTPMGIPHTRLDDLPDLIEVQKKSFEWFLKEGLKEELLSFSPIKDYTGRLE
+LHFLPNYTFDNAKYTVEEARIHDATYAKQLRVMIRLVNRDSGEIKEQEVYVGDIPTMTDK
+GTFIVNGAERVIVSQIVRSPGVYFKCDPSPTGKRLYNATMIPNRGAWLKIETDSNDVIHV
+KIDKNRKILATTLLKAMGITVSEMESKFTHFEFLKKTLEKDPTETTDEALVELYKKLRPG
+DPASPQGGRQILESRFFDEKKYDIGRVGRYKLNKKLNLNIPKNQRTLTVEDIVSTIEYLI
+NLTYDEGQLDDIDHLGNRRIRSVGELLQNQFRVGLSRIERIVKERMTLQDSETLTPLNLL
+NTKPLVASLKEFFGSSQLSQFMDQTNPLAELTHKRRISALGPGGLQRERAGFAVRDIHPS
+HYGRICPIETPEGPNAGLIGSLATHAKVNDYGFVESPFFVVKDGVVTDEVVYMTADADEN
+YRCAPADVKLTKDRTFVEKVVPARYRSEFIMCDSSKIDFVGVCPIQIISVATSMIPFIEH
+DDANRALMGSNMQRQAVPLLITERPRVGTGLESRVAKDSGMVIVADVDGTVERVVGEEIV
+IRDTHGKPHIYTLMKYVRSNQDTCINQKPIVHEGDKVKAGDVIADGASTCGGELALGKNI
+LVAYMPWEGYNFEDAILLSERCVHDDIFTSLHIEKLEIEARQTKLGPEEITREIPNVSED
+ALRHLDERGIVRIGARVYADDILVGKVTPKGESEHPPEEKLLRAIFAEKARDVKDNSLRV
+PHGEGGRVLDVKVFDREKGDELPPGANTVIRVYIAQKRKVSVGDKLSGRHGNKGIVSRIL
+PKEDMPFLPDGTPVDIVLNPLGVPSRMNVGQTYELLLGLAAYLTRDYYEAPSFDEMYGEN
+QSEIATKAELLRGIKESGCDWVGEDGKVLLIDGRTGEPFDRPVAVGWTYFLKLVHLVDDK
+IHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTIKSDDVNGRN
+RAYEAIVKGDNIPRPGIPESFKVLVRELQSIGLDITVAKKDGQEVDLMTDMDDLRKAAPK
+RTLSDVDSELLNINFFETPTTFGDL
+>tr|R7MGQ6|R7MGQ6_9CLOT
+MFDSLSEKLQNIIAKNHSQELTQDNMQDALREIRRALLEADVNLRVVKSFISSIKDKAEG
+ENVLQGVNPSQQLVKIVHDELVEILGHESKPLNLSGHPSLIMMLGLQGSGKTTSSAKLAV
+KLKKEGKNPLLVACDVYRPAAISQLQTLGQEIGCEVFTIPESQDVQNIVQKALEYAKENG
+FNVLILDTAGRLQIDTDMMAELLIIDRVFNPQEKLLVIDAMTGQEAVHVAENFDAQIGLT
+GLVLTKLDGDSRGGSALSVVHCTGKPIKLTGTGEKLNALEDFYPERMATRILGMGDIVSL
+VERAQEVFDEKEALKMQEKMNKAEFSFNDFLNMQKQMKMFGSMDQILEMLPGVNLKQSDR
+EKISHASETEFKKIEVFIQSMTPEERDNPQLMNTSRKKRIAKGCGMDMHTINQYVKQFEQ
+MRQMMGGMNKMKKMFGGFNKKNEKKAMVQAMKMMRKFK
+>tr|R7MDD1|R7MDD1_9CLOT
+MRNCKSFKPSVDYNSKVLILGSMPGVKSLEEQQYYAHPQNRFWKVMNILCNEPKLHEFAY
+DLKLKTLLKNNIALWDTIKTCKREGSLDSGIQNEIPNDINGLLKKYPNIKTICLNGNKSY
+SALKKYFPDLLQKYTCYKMPSTSPANARYSLNKLIDKWNLIHAFMC
+>tr|R7MJS3|R7MJS3_9CLOT
+MEHWVYTASIFGHGVSFNMDTILTMWFTMLLLIVLALLTTRNLNMVPGKLQLVGEGIIKY
+FNDISKASMGNENAQKHIAIILTLFMFILTANLVGQLPLKLIHLANGELASPNNDINMTA
+AMAIVVSIYYIFYGVKKNGFRFFFKGFSIDGIIITLVDTLELFVRPFSLALRLFANILAG
+EMLVATFISLFAIVLPLPFMLFELFVALIQALVFTLLSTTYISMAVQEE
+>tr|R7MGQ0|R7MGQ0_9CLOT
+MINSAIKILLVEDHKLLRVGLKSLFEEQDGLEVTSEAQSGKDAIEKFKTTHPDVTLMDIG
+LPDISGIEATKKILELNTDAKIIILTSHLSEQEVLEALESGACAYVMKDINTDILKMIIQ
+TIKDGAMWIDPLAVPILRDKNRGLVPQRQMSRAMFREQHSNLTQREYEVLKLIVDGKSNN
+EIAEELTISAHTAKAHVCNIIQKLLVDDRTQAAVKALKEGLV
+>tr|R7MHE6|R7MHE6_9CLOT
+MQKQKICYADVEEEDYMSNNDFYIEDFLRQAVSVGASDAHICEGERPAIRVSGQIMRINL
+PPLTSEDMEFTIRTVAPQHLKDRITRFFDIDFSYEIPGCSRFRVNMSRQLGKTAMVIRAI
+PYYIKTFKELYLPETLEEFASFNNGLVLVTGPTGSGKSTTIASLIDYINASVAKHIVTIE
+DPVESKTQSNLSSQTKNLLFLKDNY
+>tr|R7MHW7|R7MHW7_9CLOT
+MWXXENGNDVVVVVSAMGHTTDHLVKMAKDLNQNPSAREMDMLLSTGECVSIALLTMAIQ
+AQGYKAVSFNATQIGILTENVHSKARIIDIKTDKLRKNLDEGNIIVVAGFQGVTEDGEIT
+TLGRGGSDTSAVALAAALNAERCDIYTDVEGVYTTDPRVVPKASRLANISYEEMLELAHA
+GANVLHPRSVETAKQYAVPLRVRSSFKLDNMGTLIVGVEKMEINKPVAGVAADLSQVRIV
+VCDIPDTPGEAATLFGCLAKENVSVDMIIQSYARKASNTNDIAFTINDEDLPKAMDILKD
+VKEKLGAADIKVDDNIAKVSIIGAGMIDRPGIASTMFQTLADSGINIRMISTSEIKISCL
+INKEDAQKAVKALHSIFNLESDEVAEVKGTLPDV
+>tr|R7MHS5|R7MHS5_9CLOT
+MSRYTGPTNKLFRNKKVKDLSNRKLTTSMRQTASGQHGAVRKKLSEYALHLAEKQKIRFT
+YLVSEKQFVRYYNEATRRKGVTGTILLQLLETRLDNILFRAGFGITRKQTRQIVNHGHVL
+VNDKKVDIPSYLVKPGDVITVKSKSAKYLKDVMEMIDMACAPAWMTIDKDALKITFDRIP
+EREELDPEIKEQLVIEYYSK
+>tr|R7MKS4|R7MKS4_9CLOT
+MANAVNNNMFLVNAPAGSGKTTFIKDKINEIVNNDKNCKILCITYTNRATDELISKINSK
+NVKISTIHSFVSEFLNIYFSNKNIIELYFEIYKDDILNRINNISNDEKIEIANQKYREEH
+DGNLSFEYLKNNTETISYNELPFNSLYYGGLSHDALLLFAEILMDKYPIIKKRLTALYKY
+IFIDEYQDTSANILRFFYNSVKDSSTMLFLCGDKMQQIYKSYDGSFEDYLSLFNSETYSL
+KMNYRSSKNIVKILNNIYNDSLFTQKCPDEIDDSNVPQIYITNDIGTVLNDIEVQYPEIL
+KLYIYNKERFENIGAKNLYEKISNMEKYSFGRKYSPVDVLLKNDLDNPDPLFKLLFEIHN
+FLKIYKLKQYGLLIQKINNKKQKIYNKDLLKINKHEDKKHFRNLIEEIYRKYNENTTIID
+FLKFLNDKKFVLNQIIENYLEDTDENEYFDVLNQNLEEFRNICQYLENPKISTQHGVKGE
+GHNEVVFIAEDSGNPSVKMYKFFELISKNNICYSEFEKFYYDYVKDIKKFESSMQINFSE
+VKKNEYEKYKNSFEELIKNLQLKYDGNIYYNFFFLNALNLYNSKPNVTNFKELIKINTVF
+GTLTAYKLFYVGCSRAKKILKVIVNYSQINKFHNEFKTKMNNFGFHVVE
+>tr|R7MKP1|R7MKP1_9CLOT
+MEGNNKPIVHLISKPNNMLKTIYTACRTCYSADSPINIYENAVDEEKMLKLIKRVVGSGH
+YSTIEHIQVSFAISNVSRACTHQLVRHRHMSFSQKSQRYVKEKGQFDYIIPPTIEKNPEL
+KEKFIEFMGKISDQYQEFVEAGIPAEDARFVMPNAAASSLVTSLNLRELIHLANLRLCTR
+AQYEIRCMVKSMCDVLIAEEPWLKEYLVPKCERLGFCDEDKSCGRKITKAELFERAGK
+>tr|R7MHN1|R7MHN1_9CLOT
+MKISVKVPATSANLGPGFDCLGMALPLYNTITIEETVLPGTGVEINVIPESPAIDELSLE
+HIPLDENSLVYKAVELLYNSIGQSPSELKINIHSNIPVARGLGSSASVVVGALIAANELL
+GRPADEVALLSIACEIEGHPDNITPAIVGGLVISSQEEDGTVLYRKLEWPSEWAITVCTP
+DFELSTDIARSVLPKEVPMKDAIFNAQRLAMFVQAVHTKDAELMKLALHDRLHQPYRMKL
+MQGLDKIIENLRHIENVLGCVISGAGSSILVISQKGGDLDKIKNIVKDTWAEQNIKCDIK
+TMNVEQNGAQIISNED
+>tr|R7MG78|R7MG78_9CLOT
+MLWLVIRRHXXACNTTSSVIYDDICGKYNVKLYPIVQSVAKILAQYPIERLGVFATKATI
+SSNVYPREIAKYNPNMQVFGHHCPKWVSIVENNSLKDIESIADIKADLDEMMKFNPQKIV
+LGCTHYPFLLEILSKFQPQDLFVDPAIDFANYIKSDLENNNLLNDGKEGHYEEFYVSSNP
+NKFRESSKMFYNLKQAPKLLTF
+>tr|R7MA87|R7MA87_9CLOT
+MSDLTKILLVDDNPRYLEEVLPFYGYDLTCALDGIQALNILNSGKTFDLVLLDVMMPNLN
+GWETLKAIRKNPTTADLPVIIVTAVNEDQKMISGLKIGADDYIVKPFILPNLLARIEAVL
+RRVKRSQSQQQGTNVTISQADNFNSLTKREKDVLLLVTQGESNKSIAEKLVLSEVTVKSH
+LCNIFKKLNVTNRTQAVLIAMQMNLVEK
+>tr|R7ME18|R7ME18_9CLOT
+MIKVAVCGAMGRMGKEVCAAVNADSEMELAAQIDIAGDNFKSIEEAHKACDIDVLVDFTQ
+PASIYENAKYCLNNGIKIVIGTTGLKDEEIEHLKKLSTENKTGCLIAPNFSTGAVLMMMF
+AQMAAKYFDNAEIIEYHHNQKKDAPSGTAIKTALMMSEAKDSFKGGNCPEKETIEGSRGG
+TSYSDIQIHSIRMPGFMASQEVLFGSFGQTLSIRHDSTDRKCYMPGVVMAVKHVFDKNDF
+VYGLENIMM
+>tr|R7MFM4|R7MFM4_9CLOT
+MNKAVDKKNYTKEELLRLYNLPLEELLAESSKYMSDNIEFCSLINARNGKCSQNCKYCAQ
+SSHYCTNIESYPLVDIQEVIKAAKESKENKVSRFAIVTSGKTPDEGRDFQIELDMIKAIN
+EVGGLKSCASIGILNEEQAKQLAQAGLKRFHHNINTCRSYYPEVCTTHSWDDRLNTCKLV
+KKYGMELCCGVILGMGETIEQRVEMAMELAEIEPNSIPINILMPIPETPFENYHDKIDEE
+NVLRTMAIFKIASPKSVVRFCGGRMRLSQENQELALKTCVEGILVGNYLTTVGREPHEDL
+ETANKLGKNII
+>tr|R7MEP6|R7MEP6_9CLOT
+MKKFDFFNQYRDPVIVIRDYEEVVFKNNTFCRVFTQFGDIRKFAHKMNFDFCPMDSENVD
+LYSPIFQAIVSKQNFFARVSYTSALGRTSYYDMTAVKRGLYTIIFLVDVSSDVLLKDNQK
+ESEIYKDKLQKLQEENDELQKIRQKAQSQAFRIALINKVSNIIRASMDISMILNSALKEL
+AIMFGCFKAYYASACEDGFSIKEVYGENRYARDLSISFDEHVMNKLNSGNISISYSLLEY
+IGAEPFKQSVLRIIVPVYHLNKMIGVLVLLSYQKRELNEEIEILDAISSQLGNAIIRAEL
+YQKNAKNVKDLKAALNELKETQLQLINSEKMASLGQLVAGVAHEINTPVASIKSNNSIIS
+KLIPQIEQEDLKDMLSQINSIDKEAIARISNIVVSLKKFVRLDEAELQEANINKEIDLTL
+DLISHETKNRIEIEKHYGDIPPIKCYPNMLNQVFTNILVNACQAITEKGKIIITTDYKDG
+DLIVKIQDNGQGIPRENLNKIFTVGYTTKGVGVGTGLGLAISQKIIDKHRGKIQVNSEVG
+VGTEFIITIKGE
+>tr|R7MCT4|R7MCT4_9CLOT
+MYNKYMDKKISEKVINRLTLYHCILQDFIDKKIEYISSKQIATLLRIDDSQVRKDINLLN
+NSGKSRVGYIVKELKKSIETTLGFAKTKNAYIIGAGNLGMALAKYDNFTSYGLNIINLFD
+NDDSKIGKSVNNKDIINIKELPRHTKENDVDIAILTVPGKFAQSTAEYLVSANIKYIWNF
+TPTVLDVPEDVQVWNENLMGNFLQFTYNI
+>tr|R7MFN6|R7MFN6_9CLOT
+METAHIKDVVAHLRVILNPDDVISLTRILLLLKGVGASTVNNIMPIIKGDLKPDIKLLPS
+NKSQSLTPLFNTLGQLRDYSTTKKPEEIVSAVINYYRPILKDKYDDFSKREKDLDHFEYL
+STQYSNLEDFISDLALEPPDASVEGMYKKNSDDEALTISTIHSAKGLEWDSVFIIGAVDG
+RFPSAYSFNSEEEMDEELRLMYVATTRAKNNLYITYPVDMYDYSMNMVLSKPSRFLDGIP
+DDILERWDITEEE
+>tr|R7MCS6|R7MCS6_9CLOT
+METKQEQISVIIVEDFKLTRVGLRCALNSNPDIKVVAECENAIDGIKQIQKLQPDVVLMD
+LGLPTMNGIEATAKIREFSKDIKIIALTSHDREEEVLAALSSGANAYCLKDIDPSKLADV
+IRDVHQGVCWIDSVVANMALKSIPKVDNSAITGSKMSDHARIPLTERECEVLKHLVAGKS
+NTEIAKELIVSVHTAKAHVCSILQKMCVNDRVQAAVKAVKEGMV
+>tr|R7MIE5|R7MIE5_9CLOT
+MQHQQTNNRVENLIKSKVSLAPMAGITDYVLRSLVRKYSPECLLTTEMISSEFLAQNVET
+EITKLDENHHPIVYQICGHKPHLMKAAATYLTQFADMIDINMGCPVNKVVKGQDGSALMR
+NPRLAMELVQAVKEGTNKPVSVKFRLGYTASEMNYVEFGQQMQEAGAEFITIHARTRSQF
+YAGHADWAKIKELKHNVDIPVFANGDVTSIDSAIECLELSEADGVAIGRGVLGDPTLIHR
+VAHYFATGEKLPEPTLEEKLEMMRVHLDEEIRLRGEEIAIXXKSQ
+>tr|R7MC77|R7MC77_9CLOT
+MSIRKILHYGEPSLREVSKEVHKVSKKVTDLVQDLLDTMYAKNGVGLAAPQIGENVRIFV
+IDVATGNEPLNPIVFINPKIIKKSGAIKSNEGCLSFPEAYTDVKRYKNVMVKALNEHGKP
+FVMEAKDGTLLARAIQHENDHLDGILFIDHCINRFETESILQKHNLPSLDPNALVEEKEL
+EEELAXXXXRVSTK
+>tr|R7MG82|R7MG82_9CLOT
+MIGVTGTNGKTTVTHLIQKIFEENNQKCALIGTLGYKLSSNGEYRDAKHTTPQAPELQAT
+LRMIKDVEKIDNVVMEVSSHALDQNRVGGCRFNGAVLTNLTQDHLDYHITMENYFKAKAL
+LFERLSEGDFAVVNLDDEYGERFLSVVPEGVRKFTYGVKNNADFVANDIHFSLNGAEFIL
+VTKDGEYPVNLHMNGMFSVYNVLAALTASAAMGIDLKIALKALQNVHGVAGRFEVVNKKP
+LVIVDYAHTPDGLENVLKSAREITPSCGKLICLFGCGGDRDATKRPKMGAIAQKLADKII
+ITSDNPRSEDPQQIITDIIAGLQSVNPEIVTVEPDRGEAIALLKTIADNNDVVLIAGKGH
+EDYQILKDKTIHFDDREQARKVFAGSVI
+>tr|R7MHL5|R7MHL5_9CLOT
+MENEIQNSISTNELYKEYDWYQNTFPKLVKDACDDFFASNFDIEFVGLSKNINCLLDNEA
+CFVTKIRINKDYDVYFRMTEKAISIILNTVLGQSKNKFNINKISELEAKIITSFNSTMFD
+AIKEELDDPDPSELKRTNFDVIHLSFIIKSKDEYSKSAGKIFITIPQVLVEPEEIESEEN
+KFSDESFPNAETFAKIIVGKTRFSLYDVKNLEQDDLVVFENSNIEHLTLSIFGNQMDIKL
+EPNMDILIPETDDGGDNMSDDSQKNIWDSIEVDMYAEFDSVKITLGELKNIETGLVVDLT
+SLYNNSVTLKVEGKPIANGSLVIVNDRYGVKINEVLAGNNAGISPSNATPQDQNSFDDED
+EEEEDEENYSEEGNEEESEDEDNNEENDEDFDYSDFELEDENI
+>tr|R7MIY7|R7MIY7_9CLOT
+MSSSIKNIHARQILDSRGNPTLEVEVELYSGEKACASVPSGASTGKFEAVELRDKNSEIY
+GGKSVMIAVNNVNKIIAPALIGDDVSRQYDIDKKIIELEGTDNKGKLGANATLGVSLACA
+RVAAKYYGQELYEYLGGICGNTLPVPMMNILNGGVHANNKLEFQEFMIAPVGAENFSHAI
+QIGAEIFYSLKSILKKRGLSVGVGDEGGFAPELETNIEAIELLIDAILTAGYSTDSVKIC
+LDVASSEFFNGNKYYIRGQGYSSEEFVEILSKLVEEFPIVSIEDGLSQEDWAGWEFLTKQ
+LGNRCQLVGDDLFVTNLRRIKMGVEKCCANSVLIKPNQIGTLSETLDAIKFSKSNGYTTV
+ISHRSGETEDTFIADLSVGVNSGLIKTGSLSRGERIAKYNRLLKIEEILGSSATFFGLSA
+FNISRGFV
+>tr|R7MAR1|R7MAR1_9CLOT
+MAEIREEFINQAKHIARNAEVLPGGIEELAVKLQHAADTNTPLRVKLGMDPTRPDLHLGH
+TVVMRKLREFQSLGHKIVLIVGGATAMVGDPSGKSETRPALTKEQVEENAKSYFDQMSKV
+LDVSNAEVTNNADWLHKMSFTELLKLSAQVTVAQMMTRDDFAKRYAEGRPISIHEFFYPL
+MQAYDSVAIDADIELGGTDQRFNTLLGRDIQSAYGKKYPQLVILLPLLEGTDGVVKMSKT
+YPEHCISLTDSAKDMFGKLMSIPDNMITRYFSLLTDATKDELEAYDKQIEDGSINPRNIK
+MKLAHKITEEYHGKEGADRAQEEFINVVSNKGIPEDIQEVKVEQGKNILDLITELKFTAS
+RGEAKRLIQGGGVKIDGEKITDMGYTISFEESVVLQAGKRKFAKLVK
+>tr|R7MCV9|R7MCV9_9CLOT
+MAEKFVIKPNEKQQEAIDILKGQVMLLAGPGTGKTFTVINRIEKMLSDGVEPSSILCLTF
+SDAAASEMRQRLIKKMGVKASSVDIYTYHSFCNDIIKEYPSQFEMSGDVRLITDTEKISL
+MKECIDEANLEYFVPARADKYFNTKNFISHVEKLKTKRVTKDEYLDCINTNPSLMPRYKE
+VESEIYEREQAGKTQNKGRYAELEKIKTNIEKAKELWTLYELYSQKMLNNNLIDFSDMIN
+FVLNAFEEDEAFLGEVSNKYTYFLVDEYQDTNDLQNKIIFNLVDSNEEKNVFVVGDDDQI
+IYGFQGAKSDNIENFLTKYPQTKVICLNENNRSTQTILDFSNLVVSQDLNRLENNDYFKN
+TYNISKKLTAKNPKIIEKDKKINRLQFAETIQEFNYIVDEIKNLVDSEDCPTNDKNEKDL
+SQIAIIAKKRAELQTFSELLKAKNIPCQIDEGKSIFSIRSTILVYFYLKAMNNHVLSSDK
+LFGLMLSEPFKLDIQDYNKILMEQRLLKNDGLNDFISLMRTLKDWKNPQIISEFLETFDD
+LKAYATTNTLRNTVIEVVNRTGILEYFYKCQKNRIENLSGIRKLISEAGNYQKIDETRGL
+SDFVTYLDDCLKNEIDICLDKDSSVQNAVQLMTYHGSKGREFEYVYLPNLISSSWENFRM
+PGEYKLITDEVYDKDFAQAKKDSELLKLLFVGITRAKHSLTLSFADNNENKAQQITKYLS
+EFSNYDFNSQQFECDSDDLTKEFVRSISTEVFDNRKAFQNEIRERVKSIVLSPSRVNDYL
+TCPRKFFYLKVLGIDVEEADWDNANFGSVIHSILERAVKIAKEKGDYPDIKFALDEFHTG
+MDNSRFSELAKKEKFIKLGEKLLMNYYPYFLQIPATRVENVEFSFYGVSVGDDLVTGKID
+RIEKNSDGTYSLYDYKTGRPTSEKQISPDGEKKNYYNQLCFYKYAYEKLTGNKVSQVGII
+YVEDHARSVYKTLTDLDMEYIENLIKDTYSNIKSLKFNPIKEDKQGVCKNCVYKHLCKLD
+LI
+>tr|R7MCL2|R7MCL2_9CLOT
+MKDELLFKIGQSVRYIRMKKGISQEELAFRANLNMNSISTLERGLNNVKIKTLYAIAEAL
+EVKIEDILNCKF
+>tr|R7MDQ6|R7MDQ6_9CLOT
+MAKVKSKWVCQECGYETAGYLGKCPECGSWGSFVEEVQTSLKPQNTSPQGIVNDTKPSLI
+NDIHIGEEVRVSTNISEFDRILGGGLVQGSLVLIAGDPGIGKSTILLQTSGELAKNGEKI
+LYVSAEESASQLKLRANRLGVNSDCLYVYPQTNLENIRQQIEEIKPDTVVIDSIQAIYSQ
+TITSSAGSVSQIRECCNILMQIAKTQNITIIIIGHVTKDGNIAGPKILEHMVDTVIYFEG
+DKYKSYRMLRSMKNRFGNTSEVGIFEMQTKGLVEVKNPNELFLNERSQEAIPGSAIVVTN
+EGTRPLLVEIQALVGSTPYPTPRRVANGVDTSRVLQILAVLEKRVGLNLSKQDVYINVMG
+GIDVDEPSADLGIAMAIATCARDVVVDPQTVIIGEIGLSGEIHPVSNLEKRLNEAAASGF
+KKAIIPYANRNIKHEKIKTVPVKRLIDAITACVNPG
+>tr|R7MGN4|R7MGN4_9CLOT
+MANVSNNKVTMPSDKDYIVVLITTENYIIKGKLYLPENSVVKNPTNENLLFYTLNCGNMF
+ISLHDCTIMNKTSVEFKPEEVDYYNINLNIVHSCQIMKDEV
+>tr|R7MH17|R7MH17_9CLOT
+MKKNSRKNFSENTQQFLYDEVKGKCPLCLNSLTYEKNNKLYKDFEIAHIYPLNPTKDEIE
+LLKDEIRLGNVNDLTNLIALCPNCHNQYDKPRTIEEYRNLVKIKQRLLKNNEILKYYSSF
+YIEEEITNIIENIVNCDLNEDNEELSFKLMTVDDKTNNSCPLSLKKHIKRNVAEYFNYIR
+SLFTEIDKNIPGKFDAIASQIKSFYKKCQMTNSNQEWIYYQLVDWLCSKTQTTNKISAEI
+IIAFFIQDCEVFS
+>tr|R7MK87|R7MK87_9CLOT
+MIKDTLDYIETYTDEFKPEIGIVLGSGLGDLADEYCEISIPYSKIPNFAKSTVSGHKGNL
+VFATIGDRKVVMMQGRSHFYEGHSMQDITYPIKVMKALGVETVILTNAAGAVNKSFRPGD
+LMVITDHINFMGANPLVGPNDETFGTRFPDMSEVYNKNLIKMADAAGRLLKIDLKHGVYI
+ASSGPSYETPAEIRMARFMGADAAGMSTVPEAIVANYCGMKVLGISCITNYASGVSSKKL
+DHKEVIETAEKVKAKFKELVKLLIKNV
+>tr|R7MFI9|R7MFI9_9CLOT
+MEDFKVKFRGVRGSFPVCNKNFMLFGGNTSCVEVNVGGHLILLDAGTGIVSAGDDLMEKY
+IASSINPQERKPICATLLISHIHQDHLLGLTFFKPIHIKSTKLKIYGPSSNNSSLEKDLS
+ELVFGKSFPLDLGDVACTMEINSISNEQAILLKPNEPPVLTIPNVEVGENDVLITFYKSY
+VHPQDGVMIYKISYKGKSLVYATDKECYLGGDKKFINFAKDCDLLIHDAQYTTEDYMNSY
+SPKQGFGHSTFDMATESMKQTKAKSLVFFHFDPGYDDTKLNRIREHYTSNNKNVQLAYEG
+LELDV
+>tr|R7MCM0|R7MCM0_9CLOT
+MPSKITSSESKSDAEKLANNLGINFTEASIKDMVETTNNCLTKLFSTVEKSWDGRYSKSF
+TMDNIQARSRAIFLWGISNEFGSCLPIATSDKSELYMGYATINGDMSGGFAPIADVPKTK
+LFALARWMNENREKKNAIPEAIILKKPGAELAIDPKTGKPLIAEDALMPYEFLDEVIWRI
+ENKKEHYFDMLNSTFLYETKNDVSKEQKIEWLDKFYRRMSTALYKWSILPPSVIVDSRSI
+NKYDYKQPITSSRINYKGLAPEEIQSKIEEYMK
+>tr|R7MFP1|R7MFP1_9CLOT
+MPVAGNTDRAGNWFAGTAAKLAYNFHPTKHFTIQPTAFMSYNIFGRQNWGTDFGSMSMNS
+GLLNGINVAPGMNFIYAKETWSVYATFQYMYNINEQVGGRAGNVDLASVKMEHGYIQYGL
+GVTKTWKDRLNSFFQIVFRNGGRTGVGFQLGLNYTFDWFSPKTNKTPKANASQIKKTTTS
+NKKTQEVKEFQHIGSKTVLKSLSMK
+>tr|R7MFY1|R7MFY1_9CLOT
+METKISELEKLEDLILSYKEEKDEKKKRILYLNLVQESLKLVKRIALGMYPLPSTISKDD
+LIQVGAVGVLKAIETYEVNERGSFKTYVSKFIKGKILHYLRDKANIVKTPRETLTNLSKV
+KEAIDDLSEGGTKSPSAQEVANYVNLPVDKVEEIMNIELIKNMVSLDQNIYSSEGTETLM
+DRIQSDSDTWEETYENKKVIEFALKKLPEPDKTVVFKYYMEGSSRKEISEIIHVSPTQIS
+RILKRALNRLYNIIENEMTDKNKKTAKEAK
+>tr|R7MHV2|R7MHV2_9CLOT
+MYAIVETGGKQYQVEEGRYVDVELLEGEKDAKIVFDKIVMLVNGKKSKVGQPYVAGASVE
+GKIMLHDRAKKVIVYKQRPKKGYRKKQGHRQGFTRVMISKIRTSAKKSATEETAAE
+>tr|R7MER5|R7MER5_9CLOT
+MKRKPTVAIVGRPNVGKSTFVNRLIGARNSIVHDMPGVTRDRIYFDVEWQNKGFTVIDTG
+GIIPGDGDDIMVSIFDQARLACEEADRIIFLVDGKDGINPVDYDIANILRQSGKPIFLAV
+NKCDNPDSLLMTSDFYALSVGNPIGISALHGSGGVGDLLDVVTEGFDESEEEEKDGRIRI
+AIVGRPNAGKSSIVNSLLNTQRVIVSDVSGTTRDSIDSFITYNDKEFVIVDTAGIRKKSK
+VDYGVEKFAVDRAIRSIRECDVAVLVIDAKEGISDQDKKISSIITESGKGIIVAINKWDL
+IEEKKANTINKFEQELAKDIPFLSYAPKIFISALTKQRLGQIFDKSLEVYEQCVKRVSTG
+LLNKVINEAYALNPPTSFKGKRLKVLYTTQAAIQPPTFVLFVNNEELLKDSYKRYLENKL
+REAFGFFGTPIRISVRERKEKGRK
+>tr|R7MD34|R7MD34_9CLOT
+MKRNIGFIGCGKMASAIISGILASEKGQNYSIKGSEVTEEIAKQASERLGIEVLHDNKTL
+AATSEIVFVATKPNCVVDVLNEIKTELKPETLLVSIAAGVSTQKIENILNNTRIIRIMPN
+TPALVKLGMFGVCKGSKATDSDLELIEGLLTSLGKCITVEESQMDIVTAISGSGPAFFYQ
+VIEDMARAGEKLGLDYEKSLTLATQTALGSAQMIFNRGETSVQTLIDNVATKGGCTFVGI
+CEMKDGHSDKLFYNVIDKTTQKANALGK
+>tr|R7MJJ3|R7MJJ3_9CLOT
+MNKFYDVIIIGGGTAGCATAYIAGKLGLKVLLIEKGIHLGGTMTSGLVVPVMKSGNHQIN
+TDFYNILVDEMQKVGGQVTYQDNSGWFNPELMKIVLDKMMKDVSVDVRYNAEVKDVKTEG
+KYVLSLETNKEILSAYNEEVDTDNNLERHKPLSVYIGAKYFVDATGNCDFSNNINCKFLE
+MKSEYQPMSLRFLMSGIDIEKFGKWLLEKDTDRNVTTVENIDGVTHLSTAYTWDTDKQWT
+LAPFFDKAVKEGLLKDSDRNYFQVFTVAGMPTTLAFNCPRIPENLNPNLVKDTSKALIEG
+REAIYRLSLFCKKYFPGFENAYISNIADFLGVRVSNRLKGKYVYTIDDLKSGKKFEHPAL
+ISNYPVDVHNKSKNTSTLEQTGEYQLPIESLMSYDYDNLFVVGRGISADYMAQGALRVQA
+SCFSMGEAVAKYIKNQLS
+>tr|R7MCZ5|R7MCZ5_9CLOT
+MDKYEISKRIEEFAPLETAESWDASGWVIDNQNSNDIAKVMLCLTPTEDVFQQALQEGCD
+MVVSHHPMFYVSLFSSALSEDFQPRLNVYSAHTNMDKANGGTTDTIIKTLGLEENKVDIE
+HDFLRMIEFPNDISVSDFSKILSKISPNARIVNNQNKKTLSKVAFCAGSGSEFIGEAKGL
+GADCLVTGDLKFHTALDSEIVVYDIGHFESEILILPVFEKILGEDIEIVYAKEHSPFNLI
+R
+>tr|R7MKT7|R7MKT7_9CLOT
+MKISPIRYNYNQSFLGFRSEKDNENKGFVDTINSKIPTSFTRTQVAGSVLFAVFVGMGLR
+HGKIKSEKYKNLKLSEELEHAKNKFSNFIENSLTPKDLREKIYEKFSQKIAEGNLGYDVS
+SPPVTGLEKPKVYPDAFDLPKDVKTNNRSFIKELSIPEIGRDGSFDFNLPWTSQIKVVQA
+ERKSFTPVHNCKTSITESYSESVKWTNDKIARDILQNFYDGHGQTLDGVKFKFEPLQNGK
+VRVKISGDGTYTPDKAIYLGESTKRDDASAAGNYGEGLKMSALKLLKDSGTDNVKFASDN
+WQLNYKFQEDSLLGKRVLAYDLDEITPIHGNYLEFETSDKSLLETFRKSINRFYHSGNEH
+FKSPDFENDLLGIKLLPEGEKGAIYIAGQRFEYNDDYDGFPSAVIFLKEKPEARYLNLSR
+DRISLSENNLENIARWFTRTSYDNQNGKMVRKCMLPKSEAVKFLRAMDKYWDLTKQGPMN
+TFFNAVLAMNYDSAIHIKFPKNYVAYSPASQEVVTDLISKGIRVCKADFSYYGMPTIRQF
+VGNARSHAVVSPSENQKKKILILKEAINVFKKSLKDKHFTESELNTKIFLFDNKSEKEKG
+LYNNVLAEAIIDNEVSKGFWIDSDYLDKASFSEALETALHELSHKAGGDESEEFSYKLTN
+VNKAVIGQIVEDVQSRTEIQSLNKLWDEIGS
+>tr|R7MA02|R7MA02_9CLOT
+MDKTFSGEITLLKALAIILVVSGHLEFSIFGMFPPYSFQLSLFFFISGMLFKDKYLDDVS
+TYFTKRIKSLLLPYFGYEIVYLLITLALVPVVGEFLGEPITIKNFFLTPFLNGHQLLLCC
+PLWFVPQLFMTLIVFLFLMRMLRNIDNKFVELGFFTVLGFVAIPFWKLIPHHTPLALVTM
+RTMFSLFFVYLGHYYVKYIKDNYNIFTPKWLGGIILLQSILWLFNRDFDPVHGIGLSFVL
+VWGRFDQQIIVPVLTSLTGIWVSIFTVKLLYPYLKDVKLLNQMGKVTYHIMANHLLVMYL
+ITLGLFYITGTPLSSKGDKIYSIFNPVQTTYLYFIVVMLITTYLGVFQQFVWKKLSMVIS
+TKQQHKDT
+>tr|R7M8T4|R7M8T4_9CLOT
+MKFSSSFKVGLLTLVALVLLVGTVLKVKGRAFSSAKRIEIQFKDVNGLRPGAGVQIMGLK
+VGQVEEITPVVDGENSFVNVKFVITDPNVQIPRASSFSIQQSGLIGELFLEITPPKTKTI
+YIPMVNRDLIYKNDAVQMKLSGKYYDIGLIKGVDVVAKDSIPPNYRNYIKTNYAYKVDYF
+INLPGLILPEFLRGSAVTYDGSHKLRLVSLDDTPLYYPSQKSPYTIVEPMRLSDFMDWQY
+KAAETLTETNKKVNDILSDDTIADLKYTIANLNALTSRSSVTLDKVDNLLDSSKGDIEQL
+LAMTQQATDDFNKLSANINNIIGDKEFKTKLMSTADSVDHLSRNLNKVMDAADAEETGKN
+LKIIADNLAQISASVNSMTKDDKLKNQLTNAITNVNKAMVEVSTTLETVNSVNPATPNQA
+SDLKKIVDDTVVTSSNLRKFSDKLNKRFLLFRLLF
+>tr|R7M9W3|R7M9W3_9CLOT
+MAILEVKNLNLGFQCEDIFRQALYDVNFALHKGKMLSLVGESGCGKTMSAMSILNLLPKT
+ARITSGEILYNGENLLLKNNKQMQKIRGGKIALIPQDPMTSLNPLYTVGDQLLEVIKIHQ
+NLQGHQAEQKAIEAFESVQIPDAKSRLKNYPHEFSGGMKQRAIIAMALACKAEILIADEP
+TTALDVTIQAQIMKLLNEIKINNETSILLITHDLALVSENADEIAVMYSGRIVENAPNSE
+FFNNPQHPYSKALLKSLPSNRGNKLETIQGQPPSLSQKIDGCKFHPRCNYCMEICTKEIP
+ELKNITPVHKSACFLNSNTNA
+>tr|R7MHE9|R7MHE9_9CLOT
+MGSFLGKVVRVGLNAVTPKYSHGWASPTNKGLSKLINGTQKDVGNGVIRFQYGLKHAAVR
+AGYNESLHKYHDLAISAFSSPEQMNKVFKNIPRCLQQAVLELSDLMARGVKI
+>tr|R7MCJ5|R7MCJ5_9CLOT
+MNILEKFKNKIKLKNIWIHSILIFVSILSIFPFIWLLSTSLKGSGENIFAYPPTIIPKDF
+TFANYVGVWHKVDLMRYFINSMVVAGGTVLLNLILSSLAGYPLARMEFKGKKIAFFSILA
+TIMVPFQAIMLPVYLITLKLHLVDSVNDTMGFIGLIMPFAVSAFGIFLMRQAFLAIPREM
+EEAAIVDGCNVFQVFWKVLLPMVKPSLAVLAIFTFIGSWGEFLWPSIVLTKEAMYTLPVG
+VNNLQGMFSSNWRFIAAGSIISTIPIIIFFLAMQKYFISGENEGAVKG
+>tr|R7ME04|R7ME04_9CLOT
+MTQQNMFNHGNIVPVNIREEMKRSYIDYAMSVIVGRALPDVRDGLKPVHRRILYAMNELG
+MYPDKPFKKCARIVGEVLGKYHPHGDSSVYEALVRMAQDFSTRYLMVDGHGNFGSVDGDG
+AAAMRYTEARMHKITQSMLADIDCETVEFEPNFDGSLQEPSVLPVRLPMLLLNGVSGIAV
+GMATNIPPHNLCEVVDGTIALIDNPKITIPELMEYIKGPDFPTAATIIGLNDIKQAYETG
+RGSIKMSAVSGFEEIAGGGGRQSRTAIVVTEIPYQVNKAQLIEKIADLVKDQRITGISDI
+RDESDREGMRIVIELKRDAKPDVVRNNLYKYTQLATTFGVNMVALCGKQPRLMNLYEVLN
+EFVEHRIEIVTRRTIFFLKKAKIRAHILAGLIIALGSIDEVIELIKKSKTSDDAREGLMS
+RFGLDVDQANAILEMQLRRLTGLEQDKVKAEYDELLKKIAEYESILASRQKILDIIKAEL
+LEDKEKYGDDRKTQILPEQGEVTIEDLTPNTPMAVFITHQGYLKRIPLDTFERQNRATRG
+KSGIKTKDDDDIQHFFTAMMHDKVLFFSSKGTVYSLNVYDFPEGGRQSKGLPIINVLPID
+QDEKITAVVPVSNFSKEANLIMLTNKGYIKRIELDNFTNIRRNGIIAIGLDEGDSLCWVK
+LATPRDEIIIGTSCGMAIRFPIQDLRPLGRSARGVTSMKLRSGDEIIGCDIVPQDYDADL
+LVVTSDGFGKRTKLSEFRTQNRGGIGLIATKFKSSASRLVALTIVRDSDDIMLVTANGVV
+TRLNAGSISQQGRPATGVKAQNLSDNDTVCSVNKIINPNEDDVTIKSAPAETPAEDVQQT
+SLLDENKAE
+>tr|R7MI00|R7MI00_9CLOT
+MLSKYIKAGTEGSVMGIFNIFIAGPQVFVCTLVAWIINKSVLYTNEMYNNHYEYSFFIGA
+LCLLIAAIITKFIKE
+>tr|R7MCP6|R7MCP6_9CLOT
+MKLHMQILIALGLGIKRNWHIFFGIIAGIFVGIFLYAHPNALVANILTFVGQMFIRLIQM
+VVIPLVVSAIIIGITSVGDNKQLGKFGSKMVLYYGILTTVAVTIGTTLALIVKPGSGAAH
+YIASNIATGVQASVASAMQQQQGNILNLFLGFIPNNPVEAFATGNMVPIILFVVLFALAL
+AKVGDVNRPIVSFFESVFAATMKITDWIMLFAAPGVFALTASAVSSFGIDIFATISKYLL
+VLMVGFGIQMFVVYPVFLKCFSKVSAPMLFSAIAEAIMVAFGTASSSATLPLTIACCEKR
+GISHKISSFVLPLGATLNFDGTALLQTVAVIFLAQAYQVHLTPFLIIQIALLAIIASSTC
+AGIPGGGLITIALILNGMGLSPEQLVAGFAFLFTIERVTDMFRTTLNVASDAVVAATIAD
+NENEINYDLLNNPAAYEEIA
+>tr|R7MGV9|R7MGV9_9CLOT
+MKQNANKIVPELDDNLAFQIDYTANYNKSFRREFQAQFIGGCETPDEFTILYALHLHPDI
+SQSELAKILFKGKAHIGKILNEMEGRGLIKRIADTRDNIIIKRNEITPKGEEIFAKGNVQ
+FSKVKNKILKEYTREELIQFIQYLTKYRKILSSFVDVKLK
+>tr|R7MG74|R7MG74_9CLOT
+MDISINTFEQMKDACLSLDKQIYEIAQENMASEADITVDEVRAFVNKSLFAMKEAIQTGM
+ASKELSMSGMCGQDCYHVQQRYKSERSMFGPLFEKIIEYALATSEENIRMGKIVACPTAG
+SCGILPAALISVSEQYNHSEREQLNALITAGEIGRIISAKVSLAGAVAGCQAECGVASAM
+SAGAVCQLRGGNVSQILNAAALAMKNLLGLTCDPVAGLVEVPCVKRNPFLAVHAITAAEL
+ALAGVESKIPIDEVIDAMEQTGALMSPTLKESSQAGLATTNTGIAVRKQVFGE
+>tr|R7MBH2|R7MBH2_9CLOT
+MNSNKRKISIIGSTGSIGRQALEVIEKLQDKFEIIALTGGANVELLREQALKFKPKYVCV
+GNSKGEKLDITGVKTLYGQEGLEEICSIKENDIILVSVSGKVGLRPTLTAIDNGIDIALA
+NKETLVMAGDIVMPRAKEKGVNIIPVDSEHCAIHQCIKDISQVDKLIITASGGPFLHKTI
+DDMKNATVAQALNHPRWSMGKKITVDSATLMNKGLEIIEAHHLFNMPYEKIDVVVHPQSI
+VHSAIEYVDGSVIAQLGLPSMHIPIQYAITYPERFEGIKSKSFSFADIARLDFEKPDFEK
+FPSVKMAYEAGKIGGSATVCMNAANEEAVFAFLEDKIKLYEIYQITSKMMEQHNLVKKPS
+IDEIFEIDKEVRVKTRELIG
+>tr|R7M8W6|R7M8W6_9CLOT
+MYKHKATMTDRRHQILFLIAKGYNNKQIARKMGLSISNTRMQKWRLYCYLGEIHTAIDAV
+YMGLQMGLLRESDLAEPIREEIYDNEAEKQMYSYTPAW
+>tr|R7MF56|R7MF56_9CLOT
+MVNVYKILKETTVEGPGNRFCIWVQGCKKHCPECWAKDTWNFGCGKEYSIEELFKMMDKS
+KIEGITFLGGEPFEQAKELSKLSQMVKEVGLSVVCFTGYTIEELQAKKDIATNSFLENID
+LLIDGGFEVEKYDLSRPWIGSSNQRYLFLTDRYSLEEILKYKNKIEVRISQDGKTEINGM
+GDFSSINKNFCLQLGKDNVK
+>tr|R7M9Z1|R7M9Z1_9CLOT
+MEEYIKLLELPEEFDLNDLKMAYRKKVLQYHPDKATNEVEALEYKNIYKFLITEL
+>tr|R7ME92|R7ME92_9CLOT
+MLKQENKTEVIIVGAGPAGISCAITLARSGKEVVLIERGMFAGSKNMFGGAIYTSATKEL
+FPNFEQEAPIERRNIEHNYMILGEEDSTTISYRKDDNASYSVIRGKFDRWMAEEAKKAGV
+TLVEETVVRELIKENKKVIGVKTELEEYFADIVILADGVNSLLAKQIGLXAKQIGLRKEI
+ETKDVALSVKEVLKLDPNTINQRFNLKNNEGAIGEIFGGPMLGSLGLGFMYTNKDSITIG
+LGVTLNDLVEKNYRPFELLDQLKKHPKIAPLIEGAELKEYSAHLIPEGGYKKIPKLCDNG
+VMIVGDAGMLVNNLHWEGTNLAMISGKLAGETAIEALNNGNFSKKFLSHYEQKLKNSFVL
+KDMKTYKDLMNICHQRQKAFLDYYLRKINAFFEMFTSANGIPKRTNYWKFIKSIFTDRKI
+SELIKDILAIIRLIWSILV
+>tr|R7MJR1|R7MJR1_9CLOT
+MLKETKDGLIAHIKISPNSKKNEIINEGDFTKIKITAQPIDGKANKALIEFLSKNFKIPK
+TSIKILKGETSKEKTVLFETKDEEKLQKLKETL
+>tr|R7ME81|R7ME81_9CLOT
+MQINRISNVNFTAGYDIHTHTGHWWTSSSQKTNGAIEISSGNYAYLKDYSPIDTLEIANK
+HLTNPNDKIEKMFVSNLDCMVRNHPDMTKSSITSNGTPFLSDEIKGNLDLYNKYKSNPNY
+VLYATCQPSFGNPQNIEKVLKIAPDKFKGLKFHPKQLDLKADAPSYDGYLELARKYKLPC
+LFHSQVNLDYTEGIEKVVQDFSKFDKSDPEFIYNLAKRHPTVPIIMAHTGAGGKLAHQKA
+IDILLKSIDNKDAKLYCDISWIDFENDLPVKTPTTIINLIKKLKDKNALDRVLFGTDAPL
+GCYGGNSKISPEDAYKITIENLKTSIRENFGSESDSIINKIFCENAHKLFFENSGSIRKS
+SKCNKAIAIILSGIITLGAVFSANSFIKKQNNITSASQENVVTTK
+>tr|R7MG52|R7MG52_9CLOT
+MDKNRLLKYKVGMNLTGTGNLSKIFACQAFSNNNFPITPEQFSVLAVLYENNNLYQRQIS
+ALTLKDRPNISRIVCILEEMGCITKTPDVSGRKVFKIAITQKGIDLYKQVLPEILRVWLE
+TVEGVEEGDLDIFYNVLSMIRENLISKVNIQI
+>tr|R7MBW7|R7MBW7_9CLOT
+MDIVTKKDFKMLSGEVTIPADKSISHRAIIFSALAKGKSIIKNFSKGQDPHSTLNIFKQL
+GVQFEEEGTTVVVKSSGLLQFSNSPLDCGNSGTTMRLMAGVLAGQKFNSTLIGDDSLSKR
+PMKRVIAPLEQMGGDIQSNNFKAPLIISGKELKAINYNSPIASAQVKSCILLAGLNANGI
+TTVTEPYTSRNHTEIMLKAMGANLSVEKTTVSIEKSELEPIDIEIPGDISSAAYFICAGL
+IVPNSEIILKNVGLNPTRTGIIDVVKSMGGNIELLSERITCGERVGDILVKYSPNLKACK
+ISGEIIPRLIDEIPVIAVLATQADGQTVISDAQDLRNKESDRISAVVTQLRKLGAEIGET
+PDGMIISGKTSLKGECDVETYHDHRLAMSLFVAGLITQKEIKIIGFEWVNISFPEFEKMF
+ASLKK
+>tr|R7MKC3|R7MKC3_9CLOT
+MNERIRSKEVRLIDEKGTNHGVVPTSKALAMAEDADLDLVLISPNQAPPVAKILDYGKYK
+YELAKKAKEAKKKQKTVEVKEVKVRYKIDTHDYEVRIKSVRKFIAQGNKVKIVVMLRGRE
+MQHSNLAFDLANRFLTDLADDPVQLEKKPQLEGRNVTLYLAPQS
+>tr|R7MJ57|R7MJ57_9CLOT
+MKYTAIITAGGTSSRFGGTTNKLLEKIHGKEILKYTVEAFLQANIDEVIISTNPAIIDVV
+ADMFQSFSNIKVVEGGATRQESVRKGLEATDCDYVLIHDGARPMIAPEIIKKLMVDVVEK
+RAISVMTKTVDTIKEVDEYGLIIKTIDRSKLYNTQTPQAFEYKIIKSAHETLKDESYTDD
+AGMLEYLGYDVFIQEGDYRNIKVTTKSDLALASIYLQEMERI
+>tr|R7MJ25|R7MJ25_9CLOT
+MRLDKFLKVSRLIKRRTVANEVSDMGRVLINGNPAKPAKQIKENDIITIEYANRTVKAQI
+LKVPTTNVSIQEAPSLYKLID
+>tr|R7MJM7|R7MJM7_9CLOT
+MELKIKCVDTATSSDGSQYGKFVIEPLERGFGTTIGNSLRRVLLSSLEGTAVTSARIEGI
+THEYTAIPGVLEDVIDVMLNLKGLVVKTDSKESQHLRIDVDKPGPVLASDIQLPAGVKVV
+NPDWLICTVADGGSFHADVIVDTGKGYVPHDVPRDAKEASIDVLPIDATFMPIKRVSYNV
+ESARVGDALDFDKLTLEIWSNGSIDVQNALSQASNLLIEHFMQIASITGQPAIAPLPQVE
+EKEAEEEETPSMTIEELELSVRAYNCLKRASINSMAELLKKSEHDLLNIKNFGKKSSDEV
+IERLHHFGLDLAPSPVEEEDLIG
+>tr|R7MCV1|R7MCV1_9CLOT
+MEKLDVNIEEKNTYYPIYISNENIEILRDKLLQEVEGKNYIVIFSQKVHKLYSKILNFPK
+DKILILKDGETEKNFQNYTKILNFALSRKLTRKDAIIAIGGGVIGDLAGFSASTYMRGIK
+FIQVPTTLLAATDSSVGGKTAINTKYGKNLVGTFYQPDSVFINVNFIKTLDERQFKSGLG
+EVVKYGLIEKTCPIEDSPNLINFLNEHSEKILARDILTLQELIKICISLKIAVVKADEKE
+GGLRKILNLGHTFGHAIENITKYKKFTHGECVAEGVKLALGFSFRQGLIDKGYKFLCEDL
+IKKFNFKPIPKFDKHKMVKAMLTDKKAEDNYIVFILPTNYAEVKGYKFTTDELLKLL
+>tr|R7MD70|R7MD70_9CLOT
+MEEMNLRNYAYLGDAVWELFIREKTIRQTNNAKKLHQITTNLVKTHTQSELLHFLEPNLT
+EEELELVRRARNLPIPVGRRNIQAEYRQATAFETLIGWKKHDSSRLDEMLGLLNSQIEEQ
+TNM
+>tr|R7MH00|R7MH00_9CLOT
+MLVELNNDNFENETSKGLKLIEFYTTWCTYCRNQRIELEGFKESDMWIGLVDGDECPNLV
+QKFGINGFPTFILLKDGEKIAQFVGFHEKSQLLNRLMDYIK
+>tr|R7MK15|R7MK15_9CLOT
+MKALVYNKDLEEKIKLVEKEKPTIQNPRDAIVKVTLSTICTSDLHIMHGLVPRANNKITL
+GHEFVGEIVELGNDIKNLSIGDRVSANCETFCGECYFCKRGYINNCEKGGWEIGCRIDGC
+QAEYIRVPYADTGLTKIPENVTNENALFVGDILSSGYFGAKMCEIKKGDTIAIIGAGPVG
+LCAMICSKLLGAEKIIVIDTNENRLNIAKQQNLANYFLNPQNCNIEQEIKNLTNCRGADG
+VIECAGGKTTFELAWKIARPNAIVGVVAMYEDNQTLPLPQMYGKNLTFKTGGVDAIYCKE
+LLELISQGKINTDFLITQKYKLSEIEEAYKFFAQNKNSCLKVAITQD
+>tr|R7MKG6|R7MKG6_9CLOT
+MEKSEFKKEIGFKIKVARMRQKISQEKLAEMADCSLSYIGFIERGEMSLSLYNFVKISSV
+LHLDINDFLKEFI
+>tr|R7MDW4|R7MDW4_9CLOT
+MKVETPYGETSDSVFLGKIGNHTVAFMPRHGRNHSIPPHLVNFRANVWAMKHLGCKRVIS
+PCAAGSLQKEVKPGDFVICDQFVDWTDGRKTTFYEGPVVQHPSPADPYCPELRELAIKTG
+KDLGITIHDHGTVVVINGPRFSTKSESAFFTRQGWEVINMTAFPEAYLVKELNMCPLNIS
+LITDYDAGLVGDVPPVSHEAVMEVFNNNVANLKSLLFTMIENIPADANCECANSTNMDI
+>tr|R7ME39|R7ME39_9CLOT
+MQGTRLNKYIASSGLCSRRKADELIESGVVTVNGKRVTELGFTVQRKDKVFVNGKMIHPV
+KHEYYRFYKPAGYITTSDDEKGRKTIYDLIPENLHHLRPVGRLDRESTGLIILTNDGDLI
+NELTHPSVKVPKLYRVSINGKISQNDIDTMYKGIEIEPNKMAYAEVDVLEVDDKHTVMEI
+MLYQGLNRQIRKMFEHLGFEVLTLKRIQHATLNLDGLKRGDLKPIKPQQIKELRNFLNRL
+ASKK
+>tr|R7MGH2|R7MGH2_9CLOT
+MLKDTDRYENTSHFTYSDYKRKVKKSPNKDLTIFVSVFIVGVLIILGFAKILSPNVDVAI
+TNENENVASSAISDSDEEINNSVIDDRLKHIKSEDDGEKVGDNDMFSPELDEKVVLPNHK
+RKTTGQIEAEMADLMNAQKAEQQKQDAKPQTVDNHKSAVSAPAPQEKKIQATPQPAQIVN
+AKVVVGYYATEKQAEVAKSIIQDAGVGVSPVVKNLGGYYTLQVGSYSSREKAQQAANNLL
+KNNFPARVIVD
+>tr|R7MHX0|R7MHX0_9CLOT
+MPGVLPVLNKECVNMGILTGLALNCEIPSRCKFDRKQYFYPDLPKGYQISQYDEPICVNG
+HLDINGKRIGITRAHLEEDAGKLVHAGANGLAGSTYSLVDLNRAGTPLLEIVSEPDMRSP
+EEAKNYMEELRNIVRYIGVCDGNLEEGSMRCDANISIMPKGSKEFGTRAEIKNVNSFAAL
+QRAIEYEIERQIEIVEEGGQVVQETRLWDDNARETRSMRGKEDAHDYRYFPEPDLMPLEI
+SREWVEKIKSEMPELPSQKRARYQEIGLSEYDASVIVEQMGLALFFDKVLELGANPKTAV
+NFIMGEIAAFLKEDHIEITDTKLTPENLTELIALIEKGTISNNIGKQIIIEMLKDGTKAS
+VIVEKKGLSQISDEGAIKELVQKVVDAHPNEVEAYKNGKTNLLGFFVGQIMKETKGRANP
+KTVNQLLREIIG
+>tr|R7M9P1|R7M9P1_9CLOT
+MRKVAKKCIITLGLFLAMFGWVVQSNVQASTPAELYDNVWRLINTKYVDQTNNEQNWATW
+RHKYDNVIRTDEDAYVAIDTMVASLNDPYTKFLNPKEFADETGSIKGSLKGIGIQIGVKD
+GKLMVIAPIEDTPAEKAGLKADDEILSIDGKSTKGITVDKAADQIRGEEGTQVTLLIKRK
+DTEPKEYTITRAEIEIKSVSQKIPENVTMPNDISYIRLSSFISRNAAKEFADILSNSPNK
+KAFIVDLRSNPGGLLSNAIYISDMFLDGGAIVSTVDRDGYKETQKATRGVLTTKPVVILL
+NKGSASASEIFSGAMKDNKRAVLVGTQSFGKGLVQEINKLPNNSGINITIQKYLTPNGTD
+IHKKGITPDVVVELTDENIKNKDDVQLKKAIEVAQNLSKGTYVVQK
+>tr|R7MAC7|R7MAC7_9CLOT
+MNEIITDENLKLQIRCVSHEIRNHLSICDMYSQIIRKNLEKSNIENPSIENALDCIQKSI
+QIIGTNLLDLKSLNSTTERIYDFKSIIEKGVELSKAYTNEEKNIEFEVFIKNTSNIKIDE
+NRFLSCIVNIIKNGIEAIEIKGKIEILAEIKNNLGIIKISNNGKPIPKEKQESIFNEGYT
+TKKTGCGLGLCICKKYLKSQNATLELVKSIKGQTQFEIKIPITTYSTKEENPE
+>tr|R7M9R3|R7M9R3_9CLOT
+MFERFTEKAIKVIMLAQEEARRLGHNFVGTEQVLLGLIGEGTGVAAKTLKSMGVNLKDAR
+AEVEKIIGRGSGFVAVEIPFTPRAKRVLELSWDEARQLGHNYIGTEHLLLGLIREGEGVA
+ARVLENLGVDLNKVRSNVIKMLGESKPQATAGAGSSSSSSSSSSSGKTKTPSLDEFGRDL
+TLAAQELRLDPVVGREKEIERVIQILARRTKNNPVLLGEPGVGKTAVAEGLAIRIVNAEV
+PDILDGKKVIQLDMGLLVAGTKYRGEFEERLKKIMDEIRQAGNIILVIDEMHTLIGAGAA
+EGAIDAANILKPALSRGEIQVIGATTSDEYRKYIEKDSALERRFQPVQIDEPSIDESIEI
+IKGLKPKYEEHHNLVISDEAIVAAVKLSSKYVNDRFLPDKAIDVIDEASSKVRLKASNMC
+PEGKELEKQLKTLIKEKEDAIRNQEFETASQLRDDEADLRDRIREVSAKWREEHDANKPT
+VTAENVAEVVAMMTGVPVTKLTEGESERLLKLEDTLHQRVIGQHDAIVAISKAIRRARVG
+LKSPNRPIGSFIFCGPTGVGKTELAKALAEAMFGSEDNMIRVDMSEFMEKHSTAKLIGSP
+PGYVGYDDGGHLSELVRKKPYSVVLFDEIEKAHPDVFNIMLQILDDGRLTDSKGRHISFK
+NTVIIMTSNVGASMITNTSKLGFTTAEDESKSKYEKLKDTVSEEMKKAFRPEFLNRIDET
+IVFAHLSKEEIRQIVDLMLKDLFKRLAEKELNIDVSDEVKDYLAENGYSEAYGARPLRRL
+IQRKMEDSLAEEILSGKYGKGDTIKVSLVDGKITFDKASKAKRAKKEKEAEPTEETATN
+>tr|R7MD32|R7MD32_9CLOT
+MLKCEHFIDSIYYQLEQTAKYCRYLGMQLFQKLNLPINLDEFVVLDTLLGHEGICQRDLA
+KLILKDRPSTGRLLNSLEEKGYIERFIDTKNNRLVRKMKLTPLGLKTTQEVTTIIRNYIE
+KLPKVLPDEEKLELMNSIKKFREGLEKEVEMKI
+>tr|R7MB47|R7MB47_9CLOT
+MDIQYLSEYLEFIEIEKGLSQNTVDAYRRDLSAFFDFLEKKYGINEVSEITRNQINAYIL
+KLREDKFTPRSVVRKIASFRGFFKWLCANEFLSSNPAQTLEQPKLPKRLPKVMTVEEVSS
+ILNSNLDKREALIVELLYDCGLRVSELVNLKLNNIDINSKYIQCYGKGSKERIVPFGKKA
+QHALKMYLKQRDMIILSNKLKDTKSLFLKDDGTNITRQDVYNFIRKQGELIHKHISPHTL
+RHSFATHLLENGADLRVVQELLGHSDVSTTQLYTHITKKRLKEVYFAINNAS
+>tr|R7MIB5|R7MIB5_9CLOT
+MCGIVGYIGNKPAVDILLDGLEQLEYRGYDSSGIAVKCPEEIKVYKAEGKLKNLREELAP
+HAYEISKSTLGIGHIRWATHGAPTVVNAHPHTCGCGKLVVVHNGIIENYKELKAELEAKG
+CKFRSQTDTETVAHLVALIYGEVKDLTKAVQMATKRLEGAYALCIMHNDEPNKLVATKRN
+APLVVGVGENEYYVASDVPAIIKHTNKAIYIKDNQVVTLTPNSLKLEDEFGGEIIPKVEV
+LPWEPVALSKMGFKHFMLKEIHEQPDVIRNILIGKLHTSDSPIVLDEVKLTKEHLRKLNR
+IQVIACGTSLHAAMVGKYIIESFCGIPVDVEASSEYIYRKTVTDEHTLVIGVSQSGETAD
+TLTAIKQAKSKGSHVLIITNRPDSTMAREADSLIPVSAGIEVSVAATKSYIAQLTSFYLL
+ALYMAEIKESMPTKELNDIKAEMLVLPQKIEQILAHKEGIQACARKYANTRDFIYIARGI
+NYPTALEGALKLKEISYINATGYPAGELKHGPIAMLDETMPVLSILMQGSVFEKLLSNSE
+EAKARNARMVALTNSSDPKLDDLFDSIIKVPEVHEFLSPIIATIPLQLIAYYIAEFLGKD
+VDQPRNLAKSVTVE
+>tr|R7MC57|R7MC57_9CLOT
+MDESSLGTIVINWIIVFLLLLVNAFFVAAEFAIVRARKAKIEQLTKDGNVDAKLALKALE
+DMNFFIAAVQVGVTIASIGIGWFGSPTIEKMMAPLINYFPSAQSYLVPLTAVVAFVVITF
+LHVVVGEQVPKCIALQYPERISLYVAKPMDLFMTISKPFVWCLNKACNLILHVFKIPVSS
+ARVVHTIEDLDLLVDTSYDEGVLNETEKDMLHNMFKFSDLTAREVMIPRTDMICVPIDMS
+LDELNKIATENQYTRYPVYDGDIDHITGLIHVKDLYSLAIKDQVCPIKAIQRKIMLVPET
+ITMDNLVLEFKKNKSQMAVVVDEFGGTSGIITLEDVLEEIFGDVQDEFDEEAEIDIKEIK
+PNHYLVNGMMRLDELASYFDIPPEKLEDDDVDTIAGIVVKELGRIANIDDFVEYRDFTFT
+VKEVDGARITKILLVHEAPKVEEKQEIEK
+>tr|R7MDV0|R7MDV0_9CLOT
+MNTVVVVGRVGRDASENFNAYDSGKTKASFSVAVNRWDTKTKSEVTDWFNIEVWDKQAEF
+AAEYIKKGRLVAIDGRIANRRWVDKQTNNERETFYVIANNIRLLGSKRDAETEAVL
+>tr|R7MB84|R7MB84_9CLOT
+MEKKYKNLEELIDVVAKLRAPDGCPWDREQTHTSLRPNMLEEAYEAVDAIDENDMAHLRE
+ELGDVLLQVLLHSQIASESNEFTLDDVAKELKEKLIHRHPHVFGTAKINNADDVLKTWDK
+LKSEEKTERKSAMDGLSRSQAALISAQKISKRAVKTGFEWPNEESLYDCVMSEIEEFKEA
+EIEKDKNHMEEEMGDILFAIVNLARWNKIDAEQALLKANKKFEKRFRKMEDLATKPLNDY
+SFEEFDNLWKQAKKSLGN
+>tr|R7MGT0|R7MGT0_9CLOT
+MKNGIENGYYHEITPGGYGIAIKAGKVLFSEQSPFQKVEVFETDSKLGRVLTLDDLMMTT
+EGDEYHYHEMISHIPMMQHPCPKSVLVIGGGDGGTIREVMKHKTVEKAVLCEIDGLVIDA
+CKKYLPTIACELDNPKVEILVQDAIEYIKDKKDEFDIILIDSTDPMGPGEGLFTEEFYTN
+VKNALKKGGIMVAQSESPFTNKEEIKKMYDLLKKVFPTVSTYTSNIPTYPGGYWAWAFCS
+VDVKPLEYYNDERANEIIPTCKIYNKEYHNARFALPNYLKELL
+>tr|R7MG92|R7MG92_9CLOT
+MQNLTKFANERDISLYEAIKICEQSELNSKTQSKLKDFANLILKFQQAKDSYTLKEFVTL
+VIEKSGYLAELQAKAATDPEFQDDINNLQELVNVAEEFVPEEEDNILGEFLQQVALVSDL
+DSMEEETNNITMMTLHAAKGLEFPVVFIAGMDEGIFPSQRTLQVPSEVEEERRLMYVGIT
+RAEEKLYLVSAKRRQTWGEYRYYNPSRFIEEIPQNLIESSESMGGGDSSSSTFRSAVSRA
+KANSAKSDSDGYIKPSSGFGANFVAPQRKGLASGGRTHSTSSSSSSSYGSNSSYSKSSYS
+KPVSNRTPHRAMVVKSAINQKRQEEARRAAGSDAINALRKMSAQRQNERKLAEEREIQRK
+AAPVIDDVFEVGQRVFHGQMGIGHITDVMNIGESIMYTIDFGAKGKKAMDATYAKLKKF
+>tr|R7MFV0|R7MFV0_9CLOT
+MEAKTLLLVIAIITVIVLVAVLIIQKNKVKSALESLEKDKKALEDKEKILYKEAKIKAVE
+ELQEDREQLNEEERERRQEIARQEQKLAKREDVLEDKIQEYTEKDLQAQRKMDQLLEKED
+YLAELVQKQTEELERISGMSCEEAKRTLLEQLKNDLAQEQMQLIKENEAKIKEISLEKSK
+EILSTTMQRCMIEQVVETTVSVVALPNDEMKGRIIGREGRNIRALETLTGVDLIIDDTPE
+AVVLSSFDPVRREIAKLALEKLIVDGRIHPVRIEEMVEKAREEIDKKIWSEGENAALEMG
+VMGLNKELIKTLGRLYYRTSYGQNVLKHSLEVGHIAGMLAAELGANEKIAKRAGLLHDIG
+KAVDQTQEGTHIQLGVELATRYGERAEVIHAIEAHHDDIVANTIEAVLVKVADAISAGRP
+GARRDTLEIYIKRLQKIEEIVNSYEGIKQSFAVQAGREVRIIVQAEMFDDLASGKLARDV
+AKRIENELDYPGQIRVTVVREFRTTEIAK
+>tr|R7MGR8|R7MGR8_9CLOT
+MDIFSIFTLCGGLAFFLYGMIVMSAGLEKIAGGKMEKLLEKITSNPVKSFALGAGITIAV
+QSSSAVTVMLVGFVNSGIMKLSQAIGIIMGSNVGTTVTSWILSLSGIQSSNFFIRFLKPE
+SFCPLLALVAVILIMTSKNNLSRRKSVGGFLIGFAVLMYGMQLMSTSMAPLADDPRFSHA
+LTLFKNPVLGLLVGAIVTAIIQSSAASVGMLQALSMTGGISYAVAVPIIIGQNIGTCITA
+VLSSIGVNTNAKRVSVVHVMFNVLGALIFLPIYEFGHYFINYPFAEATNPFGIAVCHSIF
+NIATTVLLFPFAKQMEKLAYVLIKDKKDEKDVILDERLLLTPSIAINQCYKATGTMAKIT
+RDTLVMSVRMLKQYNHKVAEIINKNEVLIDKYQDTLESFLQKLSGTELSDEDSNKISQLI
+LSISDFEKIADHAIHILNLANKMHRKEWKLLPETVEELKHVVNAVKEVFDVTVNAFVEHN
+VNQAYHVEPLEQVVDDIAYTAKKNHIKRVKKEKIHIKRGFVYAEILNDLERISDHCSNIA
+TNIIQSVNSSIPKHVLKNKLKDSNNEDFAKTVETFRENYAVEPLSIQK
+>tr|R7MI87|R7MI87_9CLOT
+MSEYLSKEEIKQWRSSLEKITLEEFAARLGKKVEEKKETNDLIDIVLHGKPVVSNEPEWN
+AKAERLSTIADRAYEKEKEIYISPFSAKNLKLDTEEVEKHEVKKESKPAKITHKTEAKET
+KPVTHKTAKTATKKTSPHKEIAKAEKAIMSEEKTGDIVRDEVRVVFKKALTDREQKVFDY
+FAAHKNKIVYAKDLATLLELPRDYVYKYIKNLRAKIEGESLKNADKGGFVLTID
+>tr|R7MGV7|R7MGV7_9CLOT
+MTEKQAKYIKIINSNSNDLYHFMDKLLEFTESESSLYKSMYQNFDVVQIIKGIASEFEKE
+IQNKKISFEIEADGLEKRTVYSDLKAVEKIVRNILETSVSMTETGFILVNISRPDEVTAS
+TFGLSAENISKSHVQITLKDTGVGFAEDEMKFLCDPYAQLEKGKKNFVRSLNLGSASILT
+KRANGFINIQSEANKGTRYDIIFPAEKD
+>tr|R7MFA0|R7MFA0_9CLOT
+MKNKYWIAFSSIEQIDSKFIQRLFNYFGNIELAFNADLNELKNIEGLSVKKAENFLKYRD
+KVDIDRTYTNVETCGVNFLTLEDENYPKMLKNIENPPAVLYYKGKLFECNLEKTLAVVGS
+RKASTYARDNLKKIISGLGNTDICVVSGLASGIDTVAHTAAIENNLKTIGVIASGFDYIY
+PTSNKTLYQNIENGYGAVVSEYYPTFEPMKFRFPQRNRIVSGLSYGTLVAEASLRSGALI
+TANLTLEQGRELMCIPGEISNPNTEGIYKLLKNGATIVTESEDILNALNWEIKRENPQQQ
+LTLPMLTPDEEKIFDNLQIEEKGVDELLSLTGLKLDDLLMNLTTMELKGIIKQYNGDRYK
+KV
+>tr|R7MID7|R7MID7_9CLOT
+MKKSIKDLGDIKGKRALVRVDVNVPLDENKNVTDDTRIQAILPTVNFLKDKGAKIILMAH
+LGRPKGEWNMEFSLEPVAKYLAKVLGEDVLFVKSPVGEGADKELEALKDGQVALLENIRF
+YKAEEAKDDDMTFAEELAKLGDFYVNDAFGAAHRKHTSTAKVAHILKPAVAGLLMEKEIR
+CLSQALDNPTRPFTAVVGGAKVSSKIGVLENLIDKVDNLIIGGGMAYTFVKANGGKIGNS
+ICEDDQIDTAKAIEKKAAEKGVKLVMATDVLAADDFSGNGTNKFTAINEIPDGFEGVDAG
+PDSRKAFAEVIKASKTILMNGPVGAFENPKFAEGTKAVLEAIVEATKNGAVSVIGGGDSV
+SAAKKFCKAEDFTHVSTGGGASLEFIEGKVLPGVAALDEA
+>tr|R7MIC2|R7MIC2_9CLOT
+MVFNSTKNYYEILGVSVDSTNAEIKSAYRKLARKYHPDINKEEDAISIFKNITEAYEVLS
+NDAERSKYNTLKGFFKSEKTSTSSQKAEEIYKEGQSKNTSYHSPFESSEIKQKTSPSQSK
+TSNKKTISKAIKFWFAQLKRNKRNRDNKKPRKGENITTDISITPDEVITGSKRIINVRTT
+QTCPKCWGHKFVNGGKCSNCDGKGEIVKTKKITVTIPKGIKDGAKLRLKGEGAMGKNGGA
+CGDLYINIKIETKTQVHFDKLNIFYTVPISPFEAALGEEISIPTFDGKIKLKLPKNTCSG
+QKFRIANQGIKKNGKVGDLIICVSIEFSHDLSEDEIKLYERLKNLSKDDVRKNFGYGS
+>tr|R7MAB4|R7MAB4_9CLOT
+MGNNILLISEDENIITRYRGLFKDKPYTFNSCCTETSIFDLIEIEPQDIIIIDENVEIFN
+LPLLLKKIKTKLENSQILLLSDGEDVKDEITKNISGYMLMNFPDKLVISTINTYFKTKEN
+LDNLSGKNKDLADSLYRLNVLYNTSSQFAGTLDTKELLGYMIEGLDKSLSFDLTCTLTFG
+FEQEPVLIINSLYDISEEILSALKLRAVLNYKSMFNNGKIPFEIDDKNLKIIKNIKNPNN
+KFTFTIFQYDNMFAPIDIGENFFGCIEIFKEHPFSTDDAAYFRTIIQQVSLPLKSAKLYK
+EIIEKNEELEKLERVKSEFISIVSHELRTPLTPIKNALYILSSGRCGEFGESAKKFIDMA
+KRNVENLTSIINDILDINKIEAGKMDFNYRIMNIHSVIENVKTNFDCVAKEHEILFSADE
+QSGLPDIYADSQRLGQVLTNLVSNAIKFTPKGKNITIKSELKNANDIITNKYFENEIKQL
+HGDYIVVSVIDQGIGIKEENLLKAFDKFSQIENSLSRKVGGTGLGLPIARQLIKAHKGTI
+WCDSEEEKGSSFHFALPVNTENSEGVTIQKELLS
+>tr|R7M935|R7M935_9CLOT
+MQKGTKNLSSGLEDYLEAIYIAHVNNEPLKGAELARKLNISRASVSEALAKLVAKNLIKY
+NSYEAIAITQAGIDEARKVYNKHHTLEQFFQIVLGIQKTEASENACKIEHIVSQNLLNEM
+KDFTKFCQNHTEILELYKKEKQNQ
+>tr|R7MII5|R7MII5_9CLOT
+MYDIVFTSKMKKDVKLMKKRNKNLNLLVDILDKLAHGEVLPAKNKDHQLSGSWQGFRECH
+IEPDWLLIYRLDNSELILFATSTGSHSDLFDM
+>tr|R7MIB2|R7MIB2_9CLOT
+MSIIADDNDFEKQKIEKKNPVVKPEAVDCDKNFENCIRPKSFDTYIGQSALKDTLKITIK
+AAQKREKPLDHLLFYGPPGLGKTTLAGVIAQEMGVEIKITSAPALERPRDIIGILMSLQG
+GGILFIDEIHRLNKVAEEILYPAMEDFYLDMTTGKSQTVKTLRVPLPKFTLIGATTKAGE
+LSGPLRDRFGIIHRLEFYTDEELAQVIKRTAGILEIEIDEKGALAIARRSRGTPRIANRL
+VKRVSDYALVKHDGKITEDIANKSLDILKIDEFGLDTTDRCLLKLIIEKYEGGPVGIETI
+AAAIGEDVRTLEDVCEPFLLQAGLLQRTPRGRKVSPAGYRHLGYKTGKFDTNQQTLF
+>tr|R7MDH9|R7MDH9_9CLOT
+MGKAIADSARDMGAEVILITTKNFESPYKIVKVKSAIDMQNAVNNEFQSADIIVMAAAVA
+DYRVKNYSEQKMKKSKEDNIILELEKNPDILQGLCERKLKESSNCTIVGFCAESENLLAN
+AQAKIAKKGCDYLIANDISRKDIGFSSDDNEVTILDKNGGLNKIEKTSKKVIARKILEFI
+IK
+>tr|R7MCH9|R7MCH9_9CLOT
+MSYETVRISELAKELGLPSKEVVEKFAQIGVTNKTHSSTVTQDQIKRLKSFIADGGVKKT
+SKPKAFVVKKAKAVETETEKAPKKEVETKPVVEKVERPKIEKVERPKVEVVKPVSRLEIV
+RRAPRKPVVEKVERPERPSRTGDKKFTRGERPQNGERKFPPRGDRPQKPNSQGGENKDFA
+NKKPLQRRIIPQDIYENKGPVKRKSDGKKKEKDFNSKKEEQERISLEKAAAQHHKKKIQK
+VEEVKEVKQIVVNQPMTISELSDKIQKTPAEIVKFLMLNGVMATVNQLIDVDVIKKVCVE
+YEIEVLDEDIDAYIEQEMEKEEKAKALTEVDKKLLKRRAPVISIMGHVDHGKTTLLDSIR
+ASKHKIVASEVGGITQSIGAYTVYLGDKNEKKIVFLDTPGHEAFTEMRARGAKATDIAIL
+VVAAVFVAADDGIMPQTIEAINHAKAAEIPIIVAVNKVDKPGANPDRVLQQLTEHGLVPE
+EWGGDTITVKVSALQGTGIDELLEYILLVADVQDLKANPKAEASGVVIEANLDKGKGPVA
+TLLVQNGTLRAGNCIVVGTACGRVRALLSDSGERIQKAEPSTPVEVLGLSEVPQAGDHFE
+VVKNEKEMKAIVADRKEKERDKRLEAMLPAHIRRESVGDDDIPQLNLIIKANTHGSAEAV
+AQAIAQVESKEITTKIIHVGVGDISEADVMLAAASNALILGFTVKEDGNALASAEREGVT
+IKKYDIIYQLLEDIEKTLLSLLEPEIKEVELGKAEIRQVFTIGKTNKIAGCYVTEGKIVR
+SKDAVLYRNGEEIFRGAIDQLKRFKDDVKEVAQGFECGISFSKFNDIQIGDIIEVSTKEE
+VERKSL
+>tr|R7MDT2|R7MDT2_9CLOT
+MKLAVFDFDSTLMDGETIEFLAEELGIREKIKKITDSAMRGELDFFESLTQRVSLLKGLE
+VDKVNKICHNLPIMNGAKETILELKKLGYTVVCFSGGFKNATSYFAPILGLDGDFSNTLH
+SKDGVLTGLVGGEMMFNTSKGEMLQTLQRIMKIAPENTIAIGDGANDLSMFQHASSRVAF
+CAKPILKEAANIIIEEKDLKLIIKKLALLQHT
+>tr|R7MJS5|R7MJS5_9CLOT
+MVDLKYIGHSAFEIKNGDNAVLIDPLVSVNEKYNWHEEPIKDILLTHAHGDHLGEAIEIA
+KEKDIEVTAVAELAYYIKEQGAKSKPIGLGAWINYSWGRAVFLPAFHSSSLPDGRYGGNA
+ASILLDVDGVRIYHAGDTCLSSEMKTIKELYAPQIALLPIGGNYTMDVEHAAMAAKWLGV
+RTVIPMHYGTYPEIQADLEKFTRLISMGNTACQILNPAEIK
+>tr|R7MDC7|R7MDC7_9CLOT
+MNKNKTVINEKPIYIDKVVGDLQVEVAMQYTDSYQESVLSFANNINTHSGGTHLTGFRNS
+ITRVINDYARKNNILKDSDSNLSGEDVREGLTAIVSVKIPNPEFEGQTKEKLGSQEALGA
+VQDAVKDKLQEWLEFNPKIAKTILDKTLQAQRAREAARKARELTRRKTVLENSTLPGKLA
+DCSNREPEKCEIFLVEGDSAGGSAKQGRNRMFQAILPLRGKILNVEKARLDRIYGNNEIQ
+SMVQAFGIKISRNEEEVEIDKLRYHKIIIMTDADVDGAHIRTLMLTFFFRYARPLIENGY
+VYIAQPPLFKVTQGKTSEYLFNEHVLDKMLKERGIKNLSLSDKDKKNVKTGDELLELIRN
+MSEFYRSYNNPILNLYPAVFLRGLIRSDIKLEDFDNQTKMNEICDYLNHYLIDHAKNYNI
+SEAENYKVEVKYNAENAKYSFMLHLNEEEHVILNPNIIKSSEYKKLKNAYPVIRDFLIEE
+SDGLLLETDAEKYEINSFEKLQKLIDDRGQKGLQIQRFKGLGEMMPQQLWETTMDPATRT
+LLKVNVEDAMLCDQLFDVLMGDKVEPRRDFIETHAVYATNIDT
+>tr|R7MDF0|R7MDF0_9CLOT
+MTTKNKKAVENLEKTLTKSNVVDTAEQLELLVERVKKAQKIYSKFSQEQVDKIFKAAATA
+ADKARIPLAKMAVEETGMGVLEDKIIKNHFASEYIYNKHKNAKTCGIIKENKADGIKIVA
+EPLGVIAGIVPTTNPTSTAIFKSLIALKTRNAIIFSPHPRATKSTIAAAKIVLDAAVKAG
+APEDIIGWIDVPSIELSSQLMKHRSISCILATGGPGMVTAAYSSGNPALGVGPGNACALI
+DETADIQMAVSSILMSKTFDNGMICASEQSVVVVDEIYEQVKKEFIYRGAYLLNESDEKK
+MIDLPFIDPKRGTAHPQIVGQSAYNIAKLSGFDIPETSKILLAERPEVDWDDPFSREKLS
+PILTMYRAKDFEDAANVAYTLVSKGGAGHTADLYTDARHQERIDKYAEMMPACRVLINSP
+SALGGIGDLFNFKLEPSLSLGCGSWGKNAVSGNIGVENLLNYKTVAERRENMLWFKVPPK
+VYFKRGAVDLALRELQGKKRAFIVTDRFLFNSGAVDSIVKVLDEIGIDHQIFFDVKPDPT
+LSTINQAMEMIKPYEPDVFISLGGGSPMDAAKIMWLLYEQPETNFEDVAMRFLDIRKRIC
+KIPELGKKATMVAIPTTSGTGSEVTPFAIITDDESHVKYAIADYALTPNMSIIDPNFVDG
+MPKGLTAASGIDALVHATEAYVSCMATNFTNSNALEAAKLIFRYLERSYNEGANDPIARE
+KMHYAATIAGMAFANSFLGLCHSMAHKLGAMFHVPHGVANALLFRQIIKYNAVDCPKKQA
+IFPQYKFPNAKAKYGQIADELGLGGKNDDEKVELYIKAIEDLMKKINLPFSIKEFGVSEK
+DFYEKLDEMVELAFDDQCTGANPAYPLMTDIKQIYIDAFEGVVRDYYPTAKKSK
+>tr|R7MCZ4|R7MCZ4_9CLOT
+MTKYKKQNFSNTFKNARKGMRLSIKSERNIRVHLFTASLVLVTAYCLNFSIVKFCILLLT
+IAGVISAEMFNSAIEFSLDAIFHNRYCRMVGMAKDIAAGAVMLVTISAVMIGVLLFAPPI
+IQLITQ
+>tr|R7MB00|R7MB00_9CLOT
+MKLSEMREKSVEELQTAIVDWKKQLLESRLQLSTHKLENTASISKTKKLIAQAKTIITEK
+GVQNA
+>tr|R7MEQ6|R7MEQ6_9CLOT
+MKEFDFYIVPTPIGNLEDITLRAIEVLKSVDLIACEDSRVTQKLLNHFNIKTKCVSYHKY
+NEKERISQIVEFLEGGGKMALVSDAGTPLICDPGSVIVKELTEKGFSITSLPGANAVVTF
+LSRVSRVDEKFSFVGFLPKTQIQIENIAKDYINEDFVFYESPNRIINTLKIIQNIRPDAK
+VAVGRELTKVFEEVVIDRIENVIKYFEENISKGEFVVMIFRSEKNSEDNEIENRIKLLQD
+KGFSAKDISVILSELYGFNKNKIYKLAIGK
+>tr|R7MDM1|R7MDM1_9CLOT
+MKAIQYYGPKDIRYEEVMVKPPEEGEVVVKIMAALTCGTDVKTFRRGHPVLIKEIPSGFG
+HEFSGIVERVGRNVEGFKVGDRVVAANSAPCGECFYCKKEEYNLCENLNLLNGAYAQYIT
+VPARIVKKNMLHLPDSLPFKRAAFCEPLANVVHGAERTGIKKGDTVGIIGIGPIGLMFAR
+VAKLMGARVIVAGRNPMKLKAAEEFAHADEIIDLKKYPNPVKIFKEFSDEHKGLDVAVEC
+VGLPEIWEQIFECVRPGGTVHFFGGCKSGSKVTFDTTRMHYGDIKLMSVFHHTPKYFRMA
+LDYIASGEMEVEKLITDTLPLDKVEYAMNEHIQGRAIKFLINPWA
+>tr|R7MC86|R7MC86_9CLOT
+MTSLTKICLHWTAGSNTPCNTDIKAYHFLIDSNGLIYLGTHKPEDNLNCKDGNYAAHCGG
+GNTGCIGLSVCGMAGFNLNKKETKYPLTQKQVETLCCLTAYLTIKYGIIIKENSVFTHYE
+FDRKKAKPEGKIDITYLPYLPNLQIIRIGGYLRNKAEWYRKKIKEGKYKFEKKGSYYEFI
+YVC
+>tr|R7MD53|R7MD53_9CLOT
+MKFAVRYLKNTFYPLNLPDSMKLEDGQMVIVRTEKGEEALKAFIVNSQIEKIWEHSKNKP
+EPLPVIRTMTQRDLQTLEEIKKEEVTAYFKCQALVKQHKLSMNLVQCRITFDRRKITFYY
+TAPERVDFRALLKDLTQVFTRVRIDLRHIGVRDETSILEGVGLCGQPFCCSSFLRKFATI
+NVKLAKDQGMPIAPGKISGTCGRLLCCLTYEYSNYIDAAKGMPPIGSSVMTTEGLGKVCY
+LQFMSGKVAVKMEDGKTKEFDKNDIEMVDADVNVEIDVPAINNYQDEDSSNIDIKQLEDD
+KNSSTGNV
+>tr|R7MHU8|R7MHU8_9CLOT
+MGQIYKYTTNPIGATGDGFALAYNAGAILQDMEFVQFHPTALAFDDEKNHNRFLISEAVR
+GEGAKLCDEFGTEFMSKYHEKRELAPRDIVARSIYCEMNNTGEPNVYLNATGIGSEKLMK
+RFPTIAKKCMEHNIDITKDLIPVAPAAHYYMGGVKTNLKGETSINGLYAIGEVSSTGLHG
+GNRLASNSLLECVVCAYETADFLKKSDLTLSDKSAEYKNIIEKYDENISKSDCDIDSLKA
+KVKDVMWTNVGIFRNEQTLKTALDEINKISLKFNRTGKCFNQNEYELRDMLIVAKLIIES
+ALRRKESRGAHYRVDYLDKNETCEHSTLTKKEGELSFVK
+>tr|R7MHN9|R7MHN9_9CLOT
+MEENNNNEVIYGKNSVMEALIAGNREINKILISKNIHSDVKINKIKELAQEKGIVFQFVA
+REKFQPYAEFNHQGIIAQISPIKYMDLDDFIETRKDNLSSVVILDGVEDSHNLGATIRTC
+VCAGVDGIIIPSRRNVQVNSTVEKTSAGAINHIPIIKVNSLVNAVQRLKDNNWWIIATDA
+SAKDNYYDVRYDDMNFAIIMGAEHAGVSKSLLKASDFVVKIPMQNSFNSLNVSNALSAII
+FETLRQKLTRKK
+>tr|R7MFP2|R7MFP2_9CLOT
+MKLKIITQERVVFDEEVDEIYSVGTDGEFGILKGHIPMMTALAIGVTRAKQGDNFKMFTT
+MGGILQFKNEECLILTTLAEAGEEINEARARDALERARRRLREADARLDAKRAEAAIARA
+EARLKAKLSQQ
+>tr|R7MGC2|R7MGC2_9CLOT
+MNLKENLGKNIQKYRKLNKLTQEKLAEAVDVDINSISSIERGRYFPTPDNLVKISNALNV
+PLSELFTFSSLATCEDYEKEIKNNINLIRTDVAKLSAVNAFIKNIL
+>tr|R7MFE9|R7MFE9_9CLOT
+MNEAEFYQKLGRQIKFLRENAHLTQEKLAEKSGISLDYLGKIEVNINKPGLKTLLKIANA
+LNLPIKKLFDF
+>tr|R7MFU6|R7MFU6_9CLOT
+MFGLTITGALILLAVFIFIANQYKRCPSNKIIVVYGKTSGEKTAKCVHGGGTFIIPLIQD
+FGVLSLEPMTTDIDLKGALSKGNIRVAVPSTFTFGISTDPKIMINAAERLLGLTKPDVIT
+QASDIILGQLRLAIATLTIEEINQDREKFLEQINANVNTELNKIGLEIINVNIKDITDES
+GYIDAIGKKAAAEAINKAKVEVAQQEKLGAVGEASANKEKEVQVAEQTAQTFIGKTNAER
+EQRIKTAELEAQAVEGENISKANIADYNATLAVKQADAFREGEVAKANAQRDVLLAQKEQ
+EEAKLKKEELARQEVEKLKVQVEADAEAEKLRRIAAGQADAIKAKYFAEAEGVKAVLEAK
+AKGYQDLVKISNNRPEIATSFLMIEKIEKIVEKQVDAIKNIKFDKITVWDGGTGSDKGST
+TANFMKDLIKSLPAMHDLAGQAGIELPQILGKVDNGETPVKEVSVKETEK
+>tr|R7MCS9|R7MCS9_9CLOT
+MQEKRLLYKKMQIEELVVLSQQEDFKALETLLKRIQHDIFATLTYMSQNNNNIHDLTQEV
+LLKVAKNIHNLKSPRCFNGWLNQIITNTYYDNLRKNKKNLDTISLDYECEPLNLTVKIEI
+PDKKSKPFDKCITSECERVIKSAIRELPEAFRIAIILREFQGLSYEEIAKTTHSNIGTVK
+SRIARGRIKLQEALKNYI
+>tr|R7MBP6|R7MBP6_9CLOT
+MFKYYGKTAPYLFLLPAGIVLLIFFFIPFFQTIGLSFFDYANNIYSPNFAGLKNYIEILH
+NPIFYKVMINTIIYLVVAVPILAIVPLFLAILINQKIRGITLYKILIYLPVIVSIVVAAI
+AFKWLYAEQGILNYLLNVLHIHSIGWLTDPKYAIYSVIIVTIWKGIGYYMMIYLAALMSV
+PNELYEACDIDGANFLTKHLTVTVPHIMPTIALVTTISSISAMKIFAEIYVMTKGGPLNS
+TKTIVYYIYEKAFENLDLGYASAMAVILLAIVMIFSLVNILCFEKNKYQI
+>tr|R7MED3|R7MED3_9CLOT
+MTVLKIEKLPHNNILPEYKTEGAAGMDLCAAISEPMELKPLERKLVPTGLKIELEHGYEA
+QVRPRSGLSIKHGITLINCVGTIDEDYRGEVCVPIVNISNETYTIQPDERIAQMVIARVE
+QAKLEVVTELTETTRGEGGFGSTGK
+>tr|R7MGY2|R7MGY2_9CLOT
+MVKEFEHLGILTDEISDENIDFKKLQELESNEEAEDGEDVLKSVEDPKVQESLLSVNSDD
+SVKIYLRQIGKIPLLSASEELDLAKKIQEEHDAFSKDVLVNANLRLVVSIAKKYIGRGLS
+FLDLIQEGNVGLIKAAGRFDYKKGYKFSTYATWWIQQSITRAIADKARIIRLPIHMIDSI
+SKIRRTTIELTTELGRTPTKQEIAYRLGLPVSKLTSIIKSAKSTVSMDTPATSDDDSSKI
+ADFIVDNSTITPDGKVSQENLLEDTRKILNQLSQKERDVLILRYGLDNNGMKKTLDEIGS
+QYGVSRERIRQIETRAISKLKKLCKNEKLHDGLINYFGG
+>tr|R7MJ46|R7MJ46_9CLOT
+MGKFDGTVEAYEEGIIVNGKKIKFFAEKDPAQLPWKDLGVEVVVESTGFFTDATKAHAHI
+DAGAKKVIISAPASNEDKTIVLGVNEKEYDPAKHNVISMASCTTNCLAPVAKAINEKFGI
+VKGLMTTVHSYTGDQRILDAGHKDPRRARAGALNIVPTKTGAAKAVALVLPELKGKLDGF
+AMRVPTPDVSLVDVVFETEKKVTVEEVNAALKEAADGHVLCYSDEPLVSTDYIGSHQSST
+VDSLLTRVMGDNMVKVISWYDNECGYSTRLAETTLMVAEKL
+>tr|R7MHS2|R7MHS2_9CLOT
+MYKNAIEKINKFYDLNLNSSRKEAIFDVLEEIIPFWRGAIFYLTPDNLSLEFSKNFDNIS
+TIQINKKLSEKLYDTADENFKPDVAQLFNIQEEKILCEKLVIKGAVFGIIILEKENEDFS
+FDEKLIFKTCASIISNLIKDLELSKVLKMQVEALQSGIITSNKAYADVKRQNKKIKESEK
+QQNEFIANISHDLRTPLNSIIGFSELLSNKIVGDLNEKQNGYVEDIKIAGIKLLEMINEV
+LDIAKIESHTVKLNISNIYADVLIDEVCNIIKPISDKKHITITKNIIGEILFKGDFIKLQ
+QVLFNILGNAVKFSPENSEIKISAKTQGDKVVIKIKDEGIGIAKKYHKKIFDKFFQVENS
+MSKTEASTGLGLAISKEFVKMHGGEISVDSSKGNGTEFTIILKSDYQG
+>tr|R7MBX2|R7MBX2_9CLOT
+MTDKSSNPFKNEDIVKDETATESQEKETPVEEDSKVEETQSEENKKLQEAYDKLNQQYIR
+LAADFDNYRKRQEQERESLVKYGTENALKKMLEVLDNFERGQKALEGVEDSEKIKECFQL
+VHKQVWDTLSKLGLEEIKAVGEEFDPNFHEAVMQTPTTEHPEHTVINELQKGYKVGDKIL
+RPTLVNVATQG
+>tr|R7MIA6|R7MIA6_9CLOT
+MSNSYERYKRQRAARDIARENVSRKKENKFFNNLKMFVLSTTALSLACLVSLNLYLSSLP
+PIENLEDFKPNIVTKFYSEDGEVIKTFTAYTYDKIELKDVPDQLKNALIATEDKNFYKHH
+GYDLLGIVRSSIQNVIARRTVQGASTLTQQLSRILFLSNERTFTRKIKELEISARIEKTI
+SKDQILEMYLNNVYLGSGAYGVSAASKIYFNKKLNQLTLPELAMIAGLPQAPSVYNPYNN
+KDLAIKRRNQVLKRMLTMKYITEDEYKKAIDAPLHLSSVPQLYTTNKAPYFSDYVVKEME
+KLGFEETDIIHGGYKVVTTLDSKAQEAANESILKNMRAWGLTKPSQQAAVFSFSPIDGRI
+LVFAGGKNYGETQYDRVTQSVRAPGSAFKPIVYAAAMEKGITPNDIVDDSPITIGNWSPH
+NSSHRYRGKIPVYKALMISSNVCAARMIQEVGIRSVIQLARVLGISTPLEYDYTISLGSN
+GVKMFEFVRAYGAFANGGYIVQPYAIERIEDSRGRVLYRAPKTKSSHQLSLKTAAEMTAM
+LKTVILSGTGTAANIGKPAAGKTGTTDDNKDAYFVGYTPDIVTGVWVGDDNNKKISGLYG
+GTIPARIWKDIMTVATRDYGAKDFDYPVIELSNYSASFTKAKVIGDDENPKNEGKAVENT
+EGSKNVEAQATPEIPQKTLNAAKEASSDSTKQSKPQAAPVPQAKSSGTKTAPIPMAVPES
+LR
+>tr|R7MEI4|R7MEI4_9CLOT
+MVCGSLEIEILNTFWNLTATDEDVDISIQDVVDELSSNGVERAYTTIKTVMDRLVSKSIL
+VRYKVGKKFFYKATMDKREMALDMLKEFTDNFFNGDYADMVKFVEREMSELLVK
+>tr|R7MIP0|R7MIP0_9CLOT
+MNFTPQAKEVYVDEKTDTMYVSDLGMKQIEESQQFATPHRQEQTFVQQKQIFSPQTTATI
+EPSDKIIGQYHDTYILIDTEEGLEIVDQHIAQERYIYEKLKSEKNIISQMLFVSDVISVS
+STEAELIKENIEKFEKFGYGIEFLNDTELIFRKIPQLLSKANPKDIIADILQNIEGDIDN
+LEERILITTSCKASVKANTKLSIWQMEDIIKKWRTTKMPYTCPHGRPIAKTIPHKELAGF
+FQRAK
+>tr|R7MDW3|R7MDW3_9CLOT
+MFEKFTEKALNVIVEAQNIAIYDHSDKVLSEHLLLALIKETKGFCSKIFKSYDVTYEKLA
+EEIYLTLNLEEADMTSSIPFSNDFKRILQRTMNLAEQSGNSTVHYEHLVLAAITDKESRI
+PQYLENIGFDIEKSRPLIEKLVQRKSKKDYHPELDENKDPEVDLTQETDSLFDNPESAKV
+FERAVSKLSTSNYEILGTEQIISSILEDKESNLAKILAQFGVTEELFEDKLSKVQSRQAE
+YEGRQIVFTPNAFIAMSLALQTAKELGSSEVLPEHMILGLLKTKKGVAYNIFKELHINDD
+DLAHGIIKPIEKQMPETLTILRFAKQEARRLGRNVVGTEMFLLGIIGEATGVGAVVLNEL
+EINIRDARLVVEKIVGAGNEYSDSEIVFTKRAKRVLETAWEYAKKANKTKIESSDLLWAI
+TTEPNSLAMQALEQLGTDVVEIREGIKKHSVNQ
+>tr|R7MCB4|R7MCB4_9CLOT
+MGIVFNAEQEKTLYIAGDTIWCKEVKEALNKYSPDIVVVNACAATVLNGERLIMNIDDLK
+EVLKNSKNATVIASHMDTVSHLTVTRKDLEHFKNNNNIDNLLIPTY
+>tr|R7MHZ5|R7MHZ5_9CLOT
+MIIEDLLKELMDKKGSDLHISNGLPPVIRLDGKLVRLDYEPLTSEGVEALLFPMMSNEQR
+RKLEQEWELDFSYGVEGIGRFRVNFYKDKGSYAAAFRTIATTAPQLEELGMPPIVTTIAD
+KPRGLVLVTGPTGSGKSTTLAAMIDYINRTRAEHILTIEDPVEFVHTSKVSVIHQRELGM
+DTRSFANALKSALREDPDIILVGEMRDHETIALALTAAETGHLVFGTLHTSSASQTIDRI
+IDVFPEGQQQQIRVQLANSLVAVFAQTLLPKRQPDGSRKGRVMAQEIMVVTPAIANLIRE
+SKASQIYSTIQTSTGAGMQTLESSLAALFKKGLVTLDDAMSKSSKPNELKRLIQGG
+>tr|R7MFI0|R7MFI0_9CLOT
+MKQEVNRLEVLEAITPLIENTAMRFNLVPIEIDFSKENHRWFLRIYLYSQDRSITLEDCE
+NVTRSLEGFLDELIPVKYYLEVSSPGLERKFKSEKEFIIFKGKRISLKLKEPLLGETEKI
+FKGEIIDYDYNEGLTFFRFDDGCELQIPKENIQSAKLYID
+>tr|R7MG19|R7MG19_9CLOT
+MRALGRNWKVLIVMFTKGGNDYGELNSFRELSPKISDNLKIIQAGLDRIVYINNETEEDI
+KLIKQGWEYAKKAIQNDEYQLIILDEANIAIDLGILDVDEVLEVLKNKPEEMEIVLTGRN
+AHPKVIEIAHLVSEIKPIKHYWNTGIAARKGIEY
+>tr|R7ME00|R7ME00_9CLOT
+MSKIKLPKSIRMVVTDFDGVITDNCVYINEDFSMSRKLNFKDIMGFFLLKRNGIDISIIS
+GEKNSAIETMAQKFQITEIHQNIRIKIDVLKDILKKYNLTQEEYVYIGDDVNDLECLNFA
+KYKITVPHAVEKVKNVDKIQITQSEAGNGAFREVADCLVG
+>tr|R7MD96|R7MD96_9CLOT
+MENNVETSKNSWKSASIIILVVIGFVLSIELAKIYYSANFDQYALPSFCSISDFVDCDGV
+AKTTESQFLGVPLAYWGIFLYSFILLLMGADKLKNIKLFKFMEVFKNKYHYIASLGLISF
+VISMILLCVSLFGIKKLCLLCACTYVLDLLIGLVAVVGIKGSFFGAIKQSFLDFMEALKP
+IPYRVAFVVVMACACGFLGWTYTSAKFSPALSFSREYLKFTKPIPENIAPKGNVLGSDAK
+DAVVLEIYSDYKCPMCSACNHMLAQIVKEYKNLRIEHHAMPLDTQCNKYLEQEFHHGSCI
+MAQYSEAAQMQGKFWEVNTLFFDKKPSTEDEVLDVLENSGLNLDMDKMKKDAHSTEVRDM
+INKDIDYAVANKQIGTPSLKMGDEFEMGIKGYHELKKWVEKNGAVPSNKLFK
+>tr|R7MFN9|R7MFN9_9CLOT
+MNIPEKAQNELGKLLKGNKNFINGTPTAKNMCLSTLQKLALYQEPYACVLSCSDSRVVPE
+IIFDCGIGELFVVRVAGITVGPNILESLEYAVKKLHVPLLILLGHDDCGVMSYANEHYPE
+MTDNFQSILKCVYPVIDHAGQMGCNNKFARKHTVWVEDYIMQNSEIIKSAVDSGDLYIAK
+CHFDHNTGEVYLIDRDLNKVI
+>tr|R7MHQ9|R7MHQ9_9CLOT
+MAAIKIEDLPTVYDAKDTEESIYKFWEENGFFKADSKSPKKPFSIVIPPPNVTGVLHMGH
+ALDETLQDILVRYHRMSGFETLWVPGTDHAGLATQNVVERQLAKQGLTRHDLGREKFVEK
+TWEWTNEHKGKILDQMKRLGASFDRSRERFTFDKGCSDAVKEVFVRLYEKGLIYKGSYIV
+NWCPRCNSAISDVETEYVTEEGHMWEISYPLKGESGAIIVATTRPETIFGDVAIAVHPSD
+HKYSELIGKTVVIPLTGREIPIIADEYVDKSFGTGAVKITPAHDPNDYEVGKRHNLKPIW
+VIDGEGKMKACGEVPSNLHGLDRYEARKQIVKMLEDNHSLLRVRDHEHNVGKCQRCGTTI
+EPLLSEQWFVKMKPLAKEAIAAVKDGRIKFIPERWEKNYLGWMENIRDWCISRQIWWGHQ
+IPAYYNNETGEMVVAKENPDPSKYTQDSDCLDTWFSSGLWPFSTMGFPNSETDDFKKFYP
+TSVLVTGFDIIFFWVARMITMGLEFTGKAPFSTVYIHGLVRDEKGQKMSKTKGNTIDPVV
+IIDKYGCDALRFTMTSLCTYGGQDIKISDERFEYGRNFANKIWNASRFVLMNLEGVDNNE
+IDYSKLTIADKWILDKLNSVAQEVNENIKNYRIGETAHVLYDFFWNSYCDWYVEIAKVQL
+QDETLKLNTQRVLRYVLDMALRLIHPIMPHITEKVWQLIPKETDIKAIMLAPYPVFEDKL
+AFPTEAKEMELVFETIKSLRNVRQSFNIPMSLKFDIEIRATKEEKPIFEAIESYIKRMAK
+VENISYADDSTPVAKKSASAVVSASKIVIPLENLIDFNEEIARQEKKLGKLQNERKSLEG
+RVNNPKFVANAPTELIKQTRDRIEEILVQESAINELIDSLKA
+>tr|R7MEB7|R7MEB7_9CLOT
+MKKGLFITFEGADGCGKTTQINLLKKYLEENGHNVLLTREPGGKGLGEKVREILLNYDGP
+VSDRCESFLFLADRAQNVDVIVKPALAEGKIVLCDRHTDSTVAYQGYGRGLDLEKIHMLN
+NLATGGKKPDITFVFDVDIETSMKRVGNEKDRMESAGREFFNKVRNGYLEIAKSEPERVK
+VVDSTRSIEEVHKDVVEIVEKLNI
+>tr|R7MIX8|R7MIX8_9CLOT
+MKTNTNYQNIADSYLFSTVAKKVNEFAAKYPDKKIIKLGIGDVTLPLCKEVVKALKNASE
+EMGIKESFHGYGPEQGYEFLKTKLQKYYETHGVKLDNDEIFISDGAKSDLGNILDLFAVD
+NTVLVPDPVYPVYVDTNIMAGRKVVYIDANAGNNFLPLPDKSIKADIIYICSPNNPTGAV
+YNKEQLKAWVDYAKENKSVILFDAAYECFITDEELPRSIFEIEGAKSCAIEFCSFSKMAG
+FTGTRCGWTVVPKELENGLLNKMWLRRQTTKFNGVPYIVQRGAEAVFSEVGQKEIQENLN
+YYKENAKIISDVLKKHNIWHIGGQHSPYIWLKCPNNMKSWEFFDYLLENIQVVGTPGSGF
+GRNGEGYFRLTSFGSRENNKEAVERMDKLFK
+>tr|R7MBU0|R7MBU0_9CLOT
+MFAELKELEEKYPLLKTPDSPTQRVGSVSEKFFSHKHKYRLYSLDNTYNEEELKKWYDRV
+CKEYDKKLSLVCELKIDGLAIALTYDKGLFTLGVTRGDGVTGENITPNLKTIKAIPLKLF
+EPKTLEVRGEIYMPKTSFEKLNEESLAKGEKVFANPRNAASGSLRQLDSKITAKRDLSMF
+TYTGIFEDAEDKNIKTHYDGMMYLKKLGFKVNPNIRLVDDIQGAIDYCKEWETKRFDLDY
+ATDGVVIKVNDLAIQKDLGFTARAPKWATAFKFPPEEVATKLLDIELNTGKTGVVTPVAI
+LKPVQLAGSTVARASLHNFDEIARLDIRIGDTVLIKKAAEIIPKVVKVMDTEVHNSLPIY
+NPPTVCPSCGGPLTEKDGEVGLYCKNPDCSSLMCAKIEYWVSKEAMDIDNVGPSLIQQLY
+DKKFISNPVDLYRLTMDDFMQLESIKEKSASNIYNSIQGSKTQPLNRVLTALGIRHVGKE
+TADILAGEYATIDDLKNASLESLSNIAGIGEIIAQSIFDYFRDENNLKLLNELKEVGVNP
+VSKVQPKSDILAGKTFVLTGTLQNMTRDEASAIIKSHGGKTSSSVSKKTSYVLAGENAGS
+KLDKAQDLGVIILTEKDFLEMIKE
+>tr|R7MF91|R7MF91_9CLOT
+MQQSYTDNKSKLQKAISEIIKTHRLEQNKSISLVSNEIGMTKSMWADLEKSIKDPQLSTL
+WRIAEGLEIPLSTIIKELEKNLGKDFSLIG
+>tr|R7MFR0|R7MFR0_9CLOT
+MKVAEIENNILVVKEREDEKLDGRKGALVKVLGCGLCGSDIVKLTQHLAKEGTVLGHEIV
+ASIVEIDSDTDFKVGDTIITSHHIPCGKCEYCKNGNVSMCRHFKETNIRPGGFSELVFVS
+EEHLKNVAYLKPQNLTNAEAAFYEPLGCCIRAVKRANLREHSTALVIGLGSIGILMAQAL
+KAFGMNVVGCDLISSRVELLKSLGIEAFKVTDMCESIKADGVFMTSGSDKAIPTALKYVR
+DGGKILVFSSTPHNMGYANNEIYYRELTVLGSYSPSPADLYDSYNLLKNKEVKVMGLSSE
+YALDEVQNAINDTLDNKILKAYIKVS
+>tr|R7MFB0|R7MFB0_9CLOT
+MWDKLKEQFNLLKLEKKKLCLITNSDKFESKDLFLDAIASALQGGVDIVILRELAYPDNV
+VVEIASKLRILCDEYGATFIVNNRSDIAMIVEADGVHLGQNDISPQDARTVLGENAIIGK
+STHNPDEVIQAVNEGVDYITFEPIADDKFVVEEYMLWVNENIDVPVFLAGEINLKNINNI
+IQKGTKRIALTNAIMYAQVPEDSARKMLMYLP
+>tr|R7M9M8|R7M9M8_9CLOT
+MVESTKKEYKNTLNLPQTTLAMRANATVRELEIQKFWEENNIYEKMIAERDKTNSFVLHD
+GPPYLSSEKIHVGTAMNKILKDILIKYKSQRGFYAPYVPGYDGHGLPIENAVVKNIKGGR
+HAISEVELRAKCREFAHKNLKGQESEFKRLGVLGNWENPYLTIDPEYEAEQVRVFGEMYK
+KGYIEKGLKPVYWCAACETALAEAEVEYADHTSTSIYVRFKFDDESVKKISSILNNANGN
+KDVYAIIWTTTPWTIPSNMAISMHPRFEYTFFEYKNDVYVVAQELLASFLKDVEWDEADI
+KVLGTCVGQDLELLATKHPLVDRKSPIILGEHVTLDAGTGSVHTAPGHGLEDYEVGCKYN
+IDVFSPLDGSGIWTETVGIPELVGVPYYKGNSMVIEMLQNCGALLQQQDIQHSYPHCWRC
+KKPVIYRATPQWFVKVDKFRDKALEAIHGVKWIPASGENRIGNMVESRTDWCISRQRAWG
+VPIPIFYCEDCGEVICDDRTIENVARIFEEESSDAWVKYSAEELLPEGYVCPKCGKKHFK
+KEKDIMDVWFDSGVSWRAVVEKRSEELGHTPVDMYLEGSDQHRGWFQSSLLTSIATQGKA
+PYKQVLTHGFVFGEDGRKMSKSLGNYIRPDDIIKNYGADILRLWAASVDYRNDIKIGNNI
+VGQLTEIFKKTRNTARFLIGNLFDFDPNSDYVEYDELKNIDKFALHKLNKLIAEVTEAFE
+NYEFYKYFQSLQNFAAVDLSSFYLDIVKDRLYTAGKKSLSRRACQTVLFENLMALVKILA
+PVMPHQAEDIWQNVPEVQRGGLVSILLSDWPVVNEKWNNPELEADFTKILKSREVVSRAI
+EPLRADKKVGSSLEVAVTVKADDDSVLKANEKDLADIYIVSQANLADEKPSDVLNEYSEE
+GYTVWVTKAHGEKCTRCWKYRELNEDGICPDCADAIA
+>tr|R7MAV5|R7MAV5_9CLOT
+MIDKTAIIHPSAQIADDAIIGPYVVIGEGVKIGSGTRVISNAHIEHAEIGKNCTISPFAT
+IGSEPQDLGYKGEDTKVVIGDETIIKENVTIHRGAACGDFTTRIGNKCLLMVGSHVAHNC
+VLADQVILANLVTLGGHVHVGFGAFVGGMSVFHQNIRIGDMAIISGFSASRQDILPYSKG
+EGRPPVPRGINVIALKRRGVPLEVRTATNEAFKLLISEDYNTSQAIEKIKAEIPMNEYIE
+KMIEFIQTSKRGVLLKSHKSGHECLAD
+>tr|R7MF96|R7MF96_9CLOT
+MKVPIVAAANMIDLFLANKFGDISNKQEFALNSMKSSNKELLDLVQILLETYKIKEKGIQ
+LYKKEINLNEFLSGIVDEMQGIANDNKLKIVFHPAVDNPMLNADPMQFQRVIKNLISNAI
+DHSNTKEFIEVSAKTIPNYIAVSIVDFGQGIPKDEIKMIFNKYYSAAKKLRKVGTGLGLY
+LSQQIAEAHGGEITVESEENVRTEFCVKIPIK
+>tr|R7MGW6|R7MGW6_9CLOT
+MEQFKRKHNYNGLLVVIEGTDGSGKSTQLELLKKSLQDQCYGVMVSEWKTSRLIAKVIDD
+AKERNLLNATTYSLLYAADFADRLENQIIPALKSGFVVLLDRYYYTALARDVVRGQNIEW
+VKNLYDYAPEPDLVFYLDMPVDTLLKRIIGTTGLDFYESGRDVGFSTDFYKSFGIYQNKC
+LEQYNQMKSEYGFISIDGTKSIDEIHEIMSNEVQKILDTGILD
+>tr|R7MCT1|R7MCT1_9CLOT
+MLQPKKTKYRKMMKGRMKGTETRGTKLEFGQYALQAVEPGWITSRQIEAARRAMTREIKR
+GGNVWIKIFPDKPITAKPAETRMGSGKGNVEYWVAVVKPNRILFELDYFDRSVAVNALEL
+AAQKLPIKVKIVEQPREQAK
+>tr|R7MB35|R7MB35_9CLOT
+MTNNFEEQLEDVRLKCLHCEKCSLCKTRTNSVFSGGIPNSKLMLIGEAPGYYEDMKGEPF
+VGKAGQLLDQILGCVGFSRQKDIYICNTLKCRPPENRDPLPEEKLACKEYLDAQVNILKP
+RIILLCGRVAVNSFLDTKLGITKLRGKWFEGPNFSKMMPIFHPSYLLRKDSKAKGSPKWL
+MWQDIKEVRRVYDQMN
+>tr|R7MHG3|R7MHG3_9CLOT
+MLEKEFDVVILGGGPAGFSAGIYTARGNVSTAILDVSMLGGQPSNYLELENYPAFMKIGG
+FELMEKFEEHADMFGVQKFPMQEIEFIDLVSSPKIIRTKEVEFRTKSVIIATGAKPMKLG
+VKGEEEFVGRGVSYCAVCDGAFYKDKVVAVVGGGNSAVEEAIYLTNFASKVYIIHRRDEL
+RADKIIQDRAAKNEKIEFVLNSVVCEIQGHDLVNNLILKNTKTDEMFNLAVDGVFPYIGI
+TPNVENISGQITQDKAGFIITDETMKTSIDGVFAIGDVRKTPLRQVITAASDGAIAGVYA
+VKYIESLKEITV
+>tr|R7MCP8|R7MCP8_9CLOT
+MSSIFHNIKIKMDEKYGENENYHSLTTILPYFKPYLFRTLLALLLAIPIGSLDAVIALSL
+KPYMDIVMLNKQMQSPLYIPFLIIIFTTIQGTLNYLATYMNDWVGGKVTNDLKIDLYKKL
+MHQSSSFFDKQTSGKVLKGYNNDADKSCSGLLTNIKTCISRLFSSISLIAVLFYNSWMLA
+IIAVIALSCAMIPLMKMKSTIKGVYNKSEGENAKVLTTYNEAFAGNKIIAAYNLYDLKKS
+QFNKLVNTVFGLRIKITQHVGWLSPLMHIIVSCGIGAVIGLGSYLIVQGKLTAGQFVSFI
+TALIMLYTPIKGLGNNAKSMTTCLCAMERVVSKLDKKSGIIDKPDAINFPDFKDKITFEN
+INFEYKKDKPVLKNISFEVPKGETIALVGNSGGGKTTIVNLLPRFYKLKKGAIKIDGVSI
+NDIKLNDLREHIAIVFQDNFLFEGTIRDNILLGKLDATEAELHNAIKNSYLEDFINSLEN
+GLDTQIGERGVLLSGGQKQRIGIARAFLKNAPILILDEATSALDNQAEHIVQQAIDNLMK
+DRTVFVIAHRLSTIQNANRIAVINQGYLTELGTHEELLKIPNGDYKKLYNMQFNLETSVI
+>tr|R7MI78|R7MI78_9CLOT
+MGYKILSKKEICPNQFEISIDAPYVVRNAKAGQFIIFRVEEEGERVPLTIADVDKENGIL
+TIVYMAVGHSTKKLAQLEVGDELLDIVGPLGKPTDIKKYGTAVCVAGGYGAAPCYLISKA
+LKDAGNKVYMIAGARTKDLLFWEDKMKDACTELYLTTDDGSYGIKGFGTTVLQEIINREK
+VDYVIAVGPMPMMRAVANLTKDKGIYTEASMNPIMVDGTGMCGACRVTVGGETKFACVDG
+PDFDAHKIDFDEVINRTRIYKDQERKRCEGCNLLKQAEKV
+>tr|R7MJH0|R7MJH0_9CLOT
+MKNELDNMRTTSRRKHCNVVXKHCNVVTDAMGIFYAVVILLLVIHLFIVQIFDFQKYRER
+GKMQRSSHDFAVRGDIYDRHGIKLATDRIYYNIYARPVDYSEKETPEKIAKLFAPILKIS
+ESELRAKLTNKKIPVIAIKKDVDRDTAKKISKVISENNFRSISLDKKNTREYPQGVFASH
+VLGFYNFDADVSNGVELTAKDKLEHVVRATRYQRTRDGKIIYNFSTDPVVPTMNPKGQDV
+YLTIDAAIQHVCEKELQKIIHEKDALRGAVIVMNPKNGEILAYAVYPTYDPNKFQKASNT
+QIKNWTLTDVYPPGSTFKTITVTSAMELGKINENSIIEDSGRMKFGGYTIENYDYKQKGA
+PGKINLVYLFEHSSNIGSVNVGFLMTHNEFYTMLKKFGFGEKSGIDLPGESSGLLASPRF
+WDRGLHMTMSYGYGTSVSIMQMVSAVSALANDGVRVTPHVIKYSPEEEAEKIKHIPTISP
+ETAHTITKLLAESVNNGKSCIKMDKYNVAAKTGTSRKPLENGSGYSGAMYTSTIGYLPAS
+DPKVLIYVVVDSAKNGPVWGNTVAGPVFHEVAEQTARILDLKPDKGQPNKVN
+>tr|R7MGF3|R7MGF3_9CLOT
+MGIMDSIDIGANALKVHGRRIDVHAKNIANLDTPNYVRKIPVLNAVDDVSFHGLMNSMKE
+DVFGVGTLPYLEGGVSFSGVVEDPTLGEKIYKPGHPDADADGYIRASNVNAMVDIADALM
+AQRAYEANLALVNISKSMAQRALEIGK
+>tr|R7MET7|R7MET7_9CLOT
+MVCTLDKNRVSTIRKALKALGKKNFVFIMHNGSFPAAEGENTGFGTINSNGGKNFLNYAQ
+GLFDAIQMGPAGKTKSSDSSPYTGTIFSNNPLFIDLKELTTDKWLKILSEKTFNDIVENN
+PNKDKNRTSYTYITKRQDEALTEAFNNFEKLNNKELNKEFEAYKKENDSWLSKDSLYEAL
+SIKNGTDFWPNWKDKTDKNLFNPKTKEEEKAFAKKIEETSKTYAKEIEKYKFIQFVLNKQ
+NLETKKLADSKGIKMIADRQVAFSDRDCWAYQSLFLEGWCLGCPPDYFSKDGQAWGFPVI
+NPEKLYNEDGSLGEAGILMKNLFKKMFRENPGGVRIDHIVGLIDPWVYKSGKKPMPSQGA
+GRLYSSPEHPELSKYAIAKLEDLDETLTSDKEKRVKTLTEEQVKLYGRLIEKIVIAAAKE
+EGLTKDSIVCEDLGTLTNPVAKVMEEYELLGMRLTQFTVPTEEDDPYRCKNITEKCWAMI
+GTHDNRPVSVWAKSLINTHEGYLHVKNLVDDLFQEANNKDEIIVRMTNDVEFLKETKLVE
+LFACKAENIQIFFTDFFNMTETYNVPGTSGDKNWSLRLPNNFEEMQTINLPLILKKAIIA
+RGSEFANANKELIEELDEIQ
+>tr|R7MIL8|R7MIL8_9CLOT
+MGQTLVEKIISNHAGKAVKAGELVIAKVDVCAVQDGTGPLTVQEFKKLGKDKLNNPERTI
+LFIDHASPSPKKELSNMHTILRDFAKEYGAVLSEVGSGVCHQRLVETFVNPTEILVGADS
+HTCTSGALGAFATGMGSTDVAVAMALGKTWLKVPPTFKIVVKGKFKEGICSKDLMLHLIG
+MIGADGATYKALEFCGDTIDNMCMAERFTLANMAVEAGAKCGLFVPDEKTKEYLISRGRG
+EMYKEIKPDEDAVYERVIEIDASTIEHTVSCPHTVDNTKLAKDLNDIKVDQVYVGTCTNG
+RIEDMRTVAKILQGKKVHEGVRMLICPASRDIYKQALKEGLLETFMDSNATILPPGCGPC
+VGIHAGILADGEVCLSTQNRNFQGRLGNTKGFIYLSSPYVAAYSAINGYISDK
+>tr|R7MBN8|R7MBN8_9CLOT
+MPVTPRETRKKVDETLIPQNLEAEEAVLGAILVNPETLAKVSDTLLPKSFYKPAHRYIYE
+AMLQLFNNNDNIDIVSVSDVLNYSGKLESVGGRAYINDLVENTITTSNIAYYAKIIQEKA
+VKRALINAGSEIVSKGYDLEPSDRSLEQAEKLIFDIGSSKATADLKHVKDLVLDTWDNIE
+YRFNHKDELSGLRTDFTELDNMMSGLHRSDLIILAARPAMGKTAFALNIAQNVAIKEQVP
+VCIFSLEMSASQLVQRMLCSYAEVDAQRLKTGNMLQQDLDKLAMAMNDFSQAPIYIDDTS
+GCTLTDIRTKCRRLKTQQKDLGLIVIDYLQLMEGGGKDDRLQQISAISRGLKILAKELDV
+PIITLSQLSRAVEGRNDKRPMLSDLRESGSIEQDADIVMFIYREDYYNKGESEEEENVKA
+SSKGLSEIIIAKHRNGPVGTVKLLFQGNITKFKNPIDTAFDDF
+>tr|R7MCH2|R7MCH2_9CLOT
+MLLGVNIDHVATLRNARGGAEPDPVQAAEVAEANGATSITTHLREDRRHIKDQDVRTLKK
+VIKTKLNLEMAVTDEMQKIALDVHPYSVCLVPEKREEVTTEGGLDVASQLTKVTKFVQPL
+VEAGIVVSLFIDPSREQIYAAAKTGAQFVELHTGQYSLAFGTPDEQEEFEKIREASRLAH
+ALGLKVNAGHGLNYENVSRMRQIEDLYELNIGHSIISRAVFTGLAQAVKEMNNLIKD
+>tr|R7MGW0|R7MGW0_9CLOT
+MTEFELLTAVMFKYFADKDVDVVVLETGLGGRYDATNVIKRNLCSIITHVDYDHMERLGN
+TIDKIASEKAGIIKPNCPCIVFEGREVYRDVTDKLGSLLLMVAPFAPTDGLALKGLYQQE
+NLSLALACIETIFPEISKDEIDEGLRNVKHICRFQYIPEFNLIIDGAHNPNGIASLKQSL
+DAYYPNKYRRFIFGCLKNKDYEHMVQSLFDRGDEVYFYHFKHQNSCTVEDLQAICPIESK
+ELIPDTKIDFKDDKLNIICGSFYMISELVDRFGIDIEE
+>tr|R7MB91|R7MB91_9CLOT
+MLKTQLGENLANLVGEIELKTILDGAGPILMVLNDLISQGKKIIVADSTSTTDLEQIVLA
+MQKSNYKILPVGTAAAAKVLSNEWFPQDEEEEVLPVKLPTLPKFIVSGSATHITASQIEK
+LEQSENYEENCLIIELSMNTILSGVEDSLVDRIVSNLGSNNIVLVHTSHLLKNFDGFSED
+TINADLTKSGLANVITDFLSDLTKRVLAKKKAILVTLGGETSYKCCNAIGANQLKLVDEV
+LPAIALGRSVNSDQWIVTKSGNLGGGNTLIEILRYFEKHEE
+>tr|R7MIL2|R7MIL2_9CLOT
+MKESYFPQEIEKKWQNIWDKTNAFKTPDVSDKPKYYALSMFPYPSGKLHMGHVRNYTITD
+VIARFKKANGFNVLHPIGWDSFGLPAENAAMKHHVDPETWTDENIAYMKKQLKMLGLSYD
+WDREVATCKPEYYKWTQWLFLQLYKKGLVYKKEAAVNWCNECGTVLANEQVIDGKCWRCD
+SVVEKKYLSQWFIKITDYADVLLEDLDKLSGWGDNVKTMQANWIGKSKGAIFKFPVIDAP
+NGEKFEVPVYTTRPDTVFGITYLVVAPEYKDIEKLTTPENKDKVEEYRENARKMSEIERL
+STERVKTGVPLGTHCKNPFNGEVFPLWTADYALVEYGTGAVMAVPTHDTRDFAFAKKYNM
+PMKVVIAPENNTSLDASTMTEAYTEEGVLVNSGEFNGIKNTKAKKAITQWAVDKGFGEFK
+TQYRLRDWLISRQRYWGAPIPVVYCDKCGIQPVPENQLPVLLPKDVDFSVVGKSPITTSK
+TFKDTVCPVCGGHAVRETDTMDTFVCSSWYYLRYSDARNSEECFNKDKVNHWLPVDQYVG
+GIEHAILHLLYSRFFTKALRDCGLLDFDEPFKNLLTQGMVLKDGSKMSKSKGNTVDPDEI
+FENYGADTARLFILSDSPPARDFDWSDAGVEGCYKFLNRVWRLISTNQDNISLDYPKFVA
+GSLKDKSNDDLVRTVHIAIKGITNDISNDFQFNTVISKYRELTNAIYDWQAKKSDLTEED
+KQVLSFAVVSLIKLMSPVAVHLTEEAWHDLGGEKSIHEEPWCEWDENLAKSSSITLVVQV
+NGKVKDKIEVDESLDQEEMKQVALNSEKVKALTAGKTIVKTIVVPKKLVNIVVK
+>tr|R7MCJ8|R7MCJ8_9CLOT
+MGSAVMAKDFSVAIVDVPQVVNASAQVQALKKDQQAKAEEIVKFVEKARKDVASITDANK
+KKAAEEKYNKELMAKKEKMDQDYAAKLKALDTSISQQINEKAKADGYDLVLSKGIVLFGG
+NDITSEIIKVVK
+>tr|R7MGY7|R7MGY7_9CLOT
+MKSNIFKSTIIEMKELNNLFIEMTAQSCNQHCKHCYIEIPQYKRIHDYINIDIIKQALND
+TTNDNIECIYLTGAEPMTHPDFNAILRLCLKRSNVCICTNGSYINEKKARFLKKVEDEST
+KELIFKISIDHFDEIKNDDIRYRGAFRQAIFAIKHLLKYNFNPIIAVTNYYNLSPEEWWE
+GFNSLFKKHNFDMDKSNLQIVPWHNKIETFEGEIESNYDNFDCVNGRILTANGIYTCPFL
+ANDYRGRCGSSFNDYTKRSSLETSFCNTCAKSKSPMFGIDFSKFE
+>tr|R7MF21|R7MF21_9CLOT
+MTPKVNNSTNVPTPKTTAQPKRVEQYKVKQSDTISTLAKNMGLTVTQFQALTGVTSLKTG
+TVLKFKMDEVPAHKGIMALAQKYNMDFTEFCKLNKIPAPYREYSPKKGEKFYIIKGLGNS
+ANKTQVANKTQSSKPTPKSASAKPAQTKSKRVAQTSHKSVKTKPRTSMTEAEKVIHTTAT
+AGAKVISNVVTWGSRYSPAEIAQGLNKSAKDHWGAVEKADFQEMLKQINPKNASAVIKAY
+KKISPNESLINTITSEIRSGKDARKNAVMYIYDSLAQEKKYTQSARAKFKANLDKEFDKW
+VGMVDTSQMDKTIDSMLAKTSSTQATNSSKKTTKVPHNGAVVKLTKSEKTFTVSDLQRGA
+IASGKKEAIEKFKEYCKTNNIQYDENMLDLAPIERYPAPVVKNGKVVSAETALLRPTSKP
+NGKVVVLNPGHGGYSSRNGCFDPGSYSFIKKGNGKYAPLLEYAKMKEYSDDLTEKLRAQG
+YAVVIAGGHAQTMSDQNTITNVISKLNSGQKGGQKYSKSNIVLISLHADSQPGSSGSGVC
+YDSKFADDTKLQACLNKNLNQDDWIKSAPSERRWGEKGIQVLHQSEQNPSVLLEVEYVNG
+NKSQNLDSRDYRTRYTNKIVAGLNEYFKK
+>tr|R7MGK3|R7MGK3_9CLOT
+MSNITLEDLRPAEGSTSKSKRVGRGRSSGHGKTSCRGHNGEGQRSGNSAKRGFEGGQMPA
+YRRLPKLKGFQVYSKLNYAEINVGRLDDLGLKEVSLDALKEVLTIHPSCVGLRVLGNGEI
+KSAVTVKAAYVTPSAKEKIEAAGGKVELV
+>tr|R7MIY6|R7MIY6_9CLOT
+MDNLKIYLDKDINQELIKSKKIAVIGFGSQGYGQSMNLKDSGCDVVLGLRLGGKSDEKAK
+KYGFKTMSIEDAVKYADIVQILIPDELQAEVYEKQIKPNMRAGQYLMFSHGFNIHYKKIV
+APKDINVIMVAPKGPGHTVRSQYIEGKGVPSLIAIYQDPTGDSKEVSLSYASAIGAGRAG
+IIETTFKEETETDLFGEQAVICGGVSALMKAGFEVLTEAGYSPYMAYFEVLHEMKLIIDL
+VNQGGLADMRYSISNTAEYGDMTRGPKVIGEASKNAMREILKEIQSGKFADEFTNEMHSG
+CETFNKLRKENANHPIEKVGEEIRSSFVWGNDDKIIDRNKN
+>tr|R7MFY4|R7MFY4_9CLOT
+MSRIGKKPVEIPQGVEVKVEGQVVTAKGPLGTEVVNVRPEIAVKLEDNHVVLSKVGTSRE
+TDALYGLSRTLVANAVHGVKDGFVKKLEINGVGYRAQMQGTTLNMALGYSHPVDIVPPEG
+ITITVEANTKITVKGSNKQTVGDVAALIRSKRPPEVYKGKGVKYEGEYIRRKAGKAGKK
+>tr|R7MIN7|R7MIN7_9CLOT
+MQVILKKEIQNLGEAGDIVNVKDGYARNFLLPQGAAEVATTGALENREKNIARIKAKQEK
+LHQEALEKAAAIEKFGKLELSAKAGESGKLFGTITTKKLTEELAAQAGIEVDRKAVSLNA
+PINKIGNYVMLIKLTSKVKCELNISVSASEVVKESIEETEETAE
+>tr|R7MJ60|R7MJ60_9CLOT
+MLNILAVFLGGGIGACARYMTSILCVNLFKINLPISTFIVNIVGCFLIGFLYILFVEKIQ
+TSNPLKLLLTVGFCGGLTTFSTFSAELFEMIQNQQFLHASIYVMISVIIGSVAVYFGGYC
+ARFL
+>tr|R7MGG9|R7MGG9_9CLOT
+MYNVAIIGAGPAGIFAALEIMKLKPDWKVVLIEKGQRIEKRKCPIREGSPKCVNCKRCGL
+LCGWGGAGAFSDGKLTLTPDVGGHLVDYMTRKQAEDLIGYADELYLKYGATEEVFGTDRK
+VFEEIEHQAVLAELKLVHSPVRHLGTERSLDVLKNMQDYLDERITILNNVSAKSLIVECE
+QVKGIELDNGEVISAEYTIIAPGREGADWLTNEFAKHKIGMVNNAVDVGVRVELPAPVFE
+PLTSKLYESKLIYHSPTFGDEVRTFCMNPNGEVVQENYSGIATVNGHSYANYKTPNTNFA
+LLVSEKFTEPFKEPIQYGQHIARLANMLGGGILVQRFGDLLEGRRSTPERIASSVITPTL
+TCATPGDLSLVIPYRQMTSIIEMLQALDKIAPGTASRYTLLYGIEVKFYSARVKLTQQLE
+TEGVKNLFTIGDGAGVTRGLLQASASGVYVARTICER
+>tr|R7MDG2|R7MDG2_9CLOT
+MLIITIIIKYLYVQRIRIIQYSLRLNCTYMREAFYKHLGLNIKKRRKELNLTQQELADRL
+GLSLNFIGKIEVAFSKPSLDTLIDIAEKLETTVSELANFSK
+>tr|R7MGN3|R7MGN3_9CLOT
+MSDNNTQDMTNDKGLEALKEAENAQINEQIDAQYEQIETHTTKQYDASNIRVLEGLEAVR
+VRPGMYIGSTSQRGLHHCIYEIVDNSIDESLAGFCTDIHVTIHKDNSVTVEDNGRGIPVD
+IKEDSGKSALEIVHTVLHAGGKFGDGGYKVSGGLHGVGASVVNALSEKYIVEVSRDGYVW
+RQEYMRGEPLAPVEKVKPTDKTGTKTTWWPDPEIFTETTEIDCDVIANRLREMAFLNKGL
+KIIFSRXXXSLVMIQKKQKLSTMQVVSEVMLNF
+>tr|R7MD07|R7MD07_9CLOT
+MKDVQNTQDNRNVDIQKVGIKHVELPLIIQRKNASNKTVYAEAKVCVSLPRNYKGTHMSR
+FVEVLNEWRTKDLLGVDIKGCLEKIIKKLHAQSGELEFNFKYFVDKKAPVTKLSAPMCYD
+CSFEGIMDGDDYKFILGVKVPVTTLCPCSKEISDNGAHNQRAVISARVSYNETEHVWLED
+LIELIESCASCPVYPLLKRQDEKYVTEHAWENPRFVEDVLREVVVKLRNHEIIKSFEVDC
+EAFESIHNHSAWAYQKEG
+>tr|R7MDS0|R7MDS0_9CLOT
+MSVSRDVTREENLKTRLLEKNYQLNTLLENLPLLVYMKDKNRNLVVANNESRNFVLNGID
+SYSDGVEIDMKDALPEVENEDNYVLQNKKHLRKEKVVKGSDGKQHWYKIHKAPILTSNNE
+INGLVAIAKNIDADKKLEYQRDLFLATLSHDLKNPLQAQISSLEMLYREYYGKIDEGHQE
+VMALIIESAKYMKDMLCTLLKTCKQNNGIIQLIYSRFDILSLMTKSIREVRDLGKIKNVE
+IRFNSKLTEDEKLMYADENQLRRVIGNMLNNAINYAFENSVVDISIKLENGFYVFDFKNE
+SEEISESLKVNIFDKYVCGNPLESNSGVGLGLYFCRKILEAHEGTISLDNIGTKNTFSIK
+IPKLDEKSALITEVAL
+>tr|R7M915|R7M915_9CLOT
+MANSTKKNRIRVCLKAYDHKLIDVSAEKIVETAKRTDAQVAGPIPLPTKRRIYCVLRSPH
+VDKKSREHFEMRTHKRIIDIYEPTQQTMDELRRLDLPAGVDIEAR
+>tr|R7MHB2|R7MHB2_9CLOT
+MYRIGIGYDIHKLVEGRDLILGGVKITHEKGLLGHSDADVLIHAIIDALLGALALDDIGT
+LFPDTDPKYKDIDSTILLKHVYELIQSKGYKIVNIDSNIIAQAPKMMPYIPKMKEVLCKI
+LNTNPDDFSIKAKTKEKLDAVGQKLAIESNAVVLLESMSK
+>tr|R7MGJ2|R7MGJ2_9CLOT
+MSRKPIIAGNWKMNLLQSDAKALYEGIKSFVDKFSATQLPTVVIAPVFTSLNQVAEIPCD
+CGCNGSKLYVAGQNCHWEKSGAFTGEISVEMLKDAGCSFVIIGHSERRQYFSETDEMINK
+KAKAILAGGLIPIICCGETLEQREAGVTDSHIASQIRAALEGISSEDVAKSVIAYEPIWA
+IGTGKSCDADEANRVIKMIRGVVAEVAGSQAADAIRILYGGSVKPNTIEEQMAKSDIDGA
+LIGGASLKADSFNEIIEKTMKVAV
+>tr|R7MDK5|R7MDK5_9CLOT
+METLTATEGLITKVIGPVVDVEFPSGDLPNIYTALNMFQDDGTKIVAEVQQMLGSNKVRT
+VAMSSTDGLRRGMKVINTNEPIKIPVGNAILGRILNVVGDAVDNAGPIQTDTYLPIHRES
+PKLVDQNTDIEILETGIKAIDLLQPYQKGGKIGLFGGAGVGKTVLIQELIHNIAMAHNGV
+SVFGGVGERTREGNDLWNEFKESGVLDKVGLIYGQMNEPPGARMRVGLSALTAAEYFRDY
+SKQDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLATEMGELQERITSTKDGSITS
+VQAIYVPADDLTDPAPATTFSHLDASTVLSRNIASLGIYPAVDPLESSSRALDPNIVGEE
+HYETTRKVLEILQKYKDLQDIIAILGMDELSEEDKETVNRARKIQKFLSQPFFVAEQFSG
+IQGKYVKVADTIKGFKEIIEGKHDDLPEQAFYMVGTIEEAVEKAKTIAEE
+>tr|R7MFJ3|R7MFJ3_9CLOT
+MRRDELIVMKVTTQNSNPAKKEVVEGQNDNTLTAYLREIADYPQLTAEEEKIVAEKIEQG
+DSEAKQKLIQANLKLVVTIAKKTIHMSGVPMIDLIQEGNLGLMIAAEKFNHKLGYRFSTY
+ASWWIKQSMFKAISEQSHCMKIPVYIQETLSKFSKVKYQMEQNTTSQVKNEEVAKKMNIA
+PDKIEMFLSAYTKTISIENGLEKSDGKDLNVADILADNSSLISENAEYQSLKDDIKNVIS
+TLKEREQEVVKMRYGLDDTERYTLEEIGNIYGVTKECIRQTELRALKKMKMTGENLLSCY
+IY
+>tr|R7MHS1|R7MHS1_9CLOT
+MTVEENLKLKEYKELIEIIAKVEYQKFSNSHLVELPELINIGTHALYILFKGKDPSKFNN
+TYLSTAIKWAIRNEVRRRYKWYSLKNKTTSAEDEASDIEFRADVYKNILSIDELQDAEVP
+TQIKSNDKTPEETIEFTELKDGILEAMKKLPPREKELIEYKFFKEKKLREIAAEFNISQS
+RISRIIQTGLDRIKKDLAKQGII
+>tr|R7M8Y1|R7M8Y1_9CLOT
+MMLDIIDKLKSSGRLIIVDEAEHLPYTSLELLRRIYDKAEVGILLVGMPRLMKNLKGDKK
+EYAQLYSRVGIKTELNPLTDEDKVKIISKLLPNQDSVYPALSSYCAGNTRVLTKLLVRAI
+RIAELNNMEVNEDVVQASISQIIM
+>tr|R7M9G2|R7M9G2_9CLOT
+MSENMEMSNETEDRQRILLADDESSIRRILETRLKMAGYDVYTAQDGEEAVAAFNKYNPD
+LVVLDVMMPKMDGYGVTREIRRSSDVPIIILTALGDVSERITGLELGADDYVIKPFSPKE
+LEARVKAVLRRTNNREMVTPSGKVTKNVITTGNIKIDTARRQVYRKNERIRLTGMEFSLL
+ELLVNNSGQAFSRNEILQHVWAYPPDHRIDTRVVDVHISRLRSKLETDPANPELILTARG
+IGYMFQRIN
+>tr|R7MIL7|R7MIL7_9CLOT
+MIKKGCLDILQAKCENCTDCILSKTRHNVVFADGNPETAKIVLIGEAPGENEDETGKPFV
+GRAGQLLNKFLEDAGISRQDDLYIINTVKCRPPENRVPTDVEKAMCERFLNAQIDIMNPQ
+AIIFCGATALKSFWKDKKVQISKVRGQWFDVTVNEKSYRAMAIFHPSYLLRNHSMEEGSP
+RRLMQQDLAVIKSEILVDNKVCSSNPFSAEMAMV
+>tr|R7MC92|R7MC92_9CLOT
+MLDKQYNDGGFSGGTMERPAFKELLKDIENDKIDIVVVYKVDRLTRSLMDFSKIIDVFDR
+HETSFVSITQQFNTTTSMGRLTLNILLSFAQFEREVTGERIRDKIAASKKKGMWMGGKVP
+LGYLKEDKKLVVHNEDAQKVQMLFDKYLELKSVPKLIQYLKENEIKTKTDKYFSKGQLYH
+LLANKIYIGKITHKDKIYDGEHEAIICDEIFEKVQMLLYENKIDKTCGVKCSSNSLLVVL
+IYDDLGKKMTPSHSK
+>tr|R7MJU6|R7MJU6_9CLOT
+MTDKKANSIKIKLVRSLIGTPEAQRRVVRGLGLTKKDQVVEHFASATIMGMVNKVSHLVE
+IVK
+>tr|R7MCE7|R7MCE7_9CLOT
+MENPINEVLKIVNKKNNKLSKIILMCFHAKGILKMINSIDRPANNVKTSIFYINDFHGKS
+INMERTVTAANAFDARNKNEPNVDTLKLSSGDIMIGEDFKTNQLAVMFQKKLGITSSAIG
+NHEFDMQDKISTILPQINYNLLSTNIKITPNSPWHNKVASSSIEERNGHKYGIIGTTPID
+LFKRSKEGSIQKEIHVDKIKETIEDIQKEADNLQKQGINKIILLSHLGYTVDKIIANQTK
+GIDVILGGHSHDLLFDVKEGENLFYSKLGEPVIITQAGRDGKNFGILNLEFDANGIIKKV
+QNNIGNTHDFKRYAPIKYVFDKVFGARTTYGYINEAPGPLNHDLIEPNPHAYFIADCIRK
+DLDADIAILPSSNVRGYFEKGKVDTRILADILPFKNKLYEVNYSEKELVDAFKLASKSFT
+NIANKPGIFYASGIKYTVSKNGHLRSMSYIDKKGKEKPIDIHNPKENKFYKTIINDYCAM
+GNDGFKILYQPERVIAKYQFDATKCIKDVLSKSDKPIDIKDDNRIKIV
+>tr|R7MJ08|R7MJ08_9CLOT
+MADGHKLSFLVQNPFTGKPTRATLIGFLDWKSTALVGYEIMLEENTQSIASALRNAIINL
+QNIPKIVYQDNGRAFKAKYFINTDFKETGFEGIYARLGIKTVFARPYNARAKVIERFFKE
+FQESFEKLLPTYSGSSIENKPAHFKRNEKFHKKYFKPNYYPTIDEVKMLVDKWLEFKNAQ
+PCPNDKNHTIAEVFENRAKIKIDTAQLDDLMMTADIKTIYQNGIRFLGTFYYSDKLYGLK
+TQVMIRYSLFDLSEIKVYTVKNQFLCTAKRVTKAHPMAYHLGDIKDVEDLKQKIQKQKRL
+KNKTIKELQKLLPNVDLKFIEQDIEEDVQEVIEVKPVKTKKPTPREEQMSAPVFLNKYEK
+FEWLMKNGCTSADDRIWLAEYKQSEEYRGLYET
+>tr|R7MEC5|R7MEC5_9CLOT
+MKMSKLFVQTMREFPSDAEVVSHKMLARAGYIKKLTSGVYNYMPLMWRVLKKVENIIRDE
+MDKAGAQELLMPFVQPKELWIESGRWEAYGKELMRLKDRHNREMCLGPTHEEIITALARD
+VLKSYKQLPTNLYQIQSKFRDEVRPRFGLLRGREFIMKDAYSFGTSQEELEKEYENMAQA
+YRNIFNRCGLDTKMVQSDSGAIGGSVSHEFMVITDTDAGENDVFYCEDCDYSANSNHAVS
+KLPATTVDGKEYFSKCEIVDTPNTLTIEDLSAFLKIPSTLILKSLVYIVDKEPVIALIRA
+DKTVEETKLMNAVGGMDIRIATSAEIQELMDKQGFNAVPGFIGPKGMKDVTIIADETVKE
+MKNFVVGINKTDAHQVGANLSDLGIDEIKYADIRLVEAGELCPECGKPLKVTRGIEVGNI
+FQLGTKYSKPMNATYLDTDGKAKPYIMGCYGIGVTRTAAAAVEAHHDDWGIKWPLAIAPY
+HVVIVPVSTKDELQMSVATKLYEELLKNGVEVVLDDRDERPGVKFKDADLIGFPFRITVG
+KTIAEGNVEFVTRATGEKVPMKPEEAATKVIEAVKNIK
+>tr|R7MGI7|R7MGI7_9CLOT
+MANLKDIKNRIQSVESTKKITRAMKMVAAAKVKRAETSVKTSRPYTKELVSMFQKLMNSV
+TEFSSETLKIKQAIDDYPALLHSRDVKTVGMLVITSNKGLAGAYNANVVRDALRRISEYK
+KQGIEVCLFVAGQKGISALRKKCEVLGCPIEKKYFSAIDDPSPIESRDIAEDLAEYYVEK
+KIDKVEIVTTRFRNMMSYSVESWQVLPVVGVADVKDRISDNVIDPLMEFVPDKHHILQKI
+VPMYMTNIFYQALLEAQASELASRMTAMSAATTNADKMIHDLSIVYNKTRQTAITQEIIE
+VVSGANSQLG
+>tr|R7MGI0|R7MGI0_9CLOT
+MSYLVGDKLFSGDTLFQKSVGRSDLPGGDFKKLSHSVKDILFSLPDDTKVFPGHGASTSI
+GFEKKYNEILNI
+>tr|R7M9U2|R7M9U2_9CLOT
+MLNQFSRTELLIGKEGLEKLANSRVAVFGIGGVGSYAVEALVRSGLGTIDIIDDDKVCIT
+NVNRQLYATRKTVGKYKVDVAKERILEINPDAVVNTYQTFYTPKTESEFDFSKYDYVIDA
+IDTVVGKLSLIEKAKEANTPIICAMGAGNKMDPTKFEVADISETSVCPLARVIRTELRKR
+KIKGVKVVYSKETPITPQEDLSISCKAHCVCPPGTRKCTVKHQIPGSNAFVPPVVGLIIA
+GEVIKDLIGYNA
+>tr|R7MDS3|R7MDS3_9CLOT
+MKTYKGIIFDFNGTLYWDSRKHKEAWVEFSKKLRGTPFTEEEMLKYMFGRTNEEIIKYAI
+GKQPTPEMVERLGQEKEEFYRQMCLKDKENFHLADGVVEFLDFLKENDIPRTIATMSDKI
+NVDFYIEHFNLAKWFDLDKIVYSDGIIPGKPAPDIYEIAAQNLGLKTEDCIVVEDAISGI
+ESARAAHIGKIIAICSEESPELYKSIPAVSSIINSFRDFDKTLFDIKAKV
+>tr|R7MID1|R7MID1_9CLOT
+MFIKDEIQTKKGAKVIIDTLRALGVDTIFGYPGGIVLDLYDELYRQSEIKHVLVRHEQSA
+VHAAEGYARVTGKCGVALVTSGPGATNTVSGIVNAYLDGFPVVVLTGQVFKNLIGKDAFQ
+EANICDITKSCTKKVFQVTDARELQSTLKEAFAVAMSGKKGPVVVDLSKNVFGEFVEYKA
+DNVSFNSESLECSKQDIESIFNRIKNSKRPVIVTGGGVAHSGAEEELFALSNSLNIPVVA
+TMMGVGTFPQNSQNYFGMIGIFGDKAANQILKDSDLIISLGARFNDRITCMFKDCNLAEK
+FIQVDINPLEIGRVIDGVDSICADVIAFLHALNKMPKSVDFSPWLEKAQGLRSLNTPNKK
+ISNMLHSFEVIQHIEKFTKDKDIIFTSEVGQHMLWAVQNLSLNKDRKILLSGGSGTMGFG
+FPAGIGAAIAKPDKTIVCISGDGSFQMNLEELAVCKDYNLNVKIMILNNGYLGMVRQLQE
+KSFGGRYCETKISNPDFLKLAESYGIGSRRVASIDEIEEALTCAFSTEGPFVVDFVVEPM
+ELL
+>tr|R7MGJ9|R7MGJ9_9CLOT
+MAIAYLSLGSNKGDRIGYVQQAASLLGADEGITIVRSSSFYETEPWGMDTKTWFVNAVVE
+VKTKYTPQELLKACQRIETQLGRDRKDSNTYEDRTIDIDILFYNKDIIEEDNLTIPHKFL
+HLRAFILVPMMELNADFVHPVLHKTIEEMHNDLENPEMVFLYGTRVDF
+>tr|R7MH33|R7MH33_9CLOT
+MDNIVSNYDNNNQRSNINPTRIKVIGVGGGGGNAVNRMIKAKLAGVEFWLMNTDLQVLTY
+SNVPNKLQLGVATTKGLGSGGDPSTGEKAATEMKDDITRALDGADMVFITAGMGGGTGTG
+AAPIVAQIARDLGILTIAFVTKPFSWEGKKRMAQAEAGIEKLKKYVDAILVVPNDKLLQV
+VERQIGLREAFCVTDEVLYRGIQGLSDIITIPGMINIDFADVRKVVKDSGTALMGIGRAQ
+GEGRAIKAAEMAINSQLLESSIDGASGIIVNITGSSNMTLYEINDATTIINNVVKDDADV
+IIGTAINEAFQNEIQITVIATGFSEKPDQSSINTPQLSAAEYFQGKSTSGVGNSTLSTNA
+GFPQMPQLKLDVPDFLKKD
+>tr|R7M9B4|R7M9B4_9CLOT
+MKELKDFEKDLNKCSKCGLCEIACPLFKLEPNDCVASKGKFIMLHGVAKGELKLSPKINS
+YIDMCLKCGKCDDFCPSGIDVCTILNTAKYEYSKNTFSGKLIHLLLSRPIFRTFVKLCET
+ISKPYRPKFINKEKTTTVAYFKGCVNQIFPNTDKYLAKIFKNSDVEIITPDFDCCGLPFL
+SEGAMERFIESAKYNISKLNFDYDYLLADCASCQSTISEYSKYIENIDFEGKIHNWGDLI
+ALKNLKFKFKNPIKITFHKPCHLKNDKFFKRIIDNCENIEYIQMEDYDGCCGFAGSFGIK
+NRKFSKQLSQIKAKNIAKTNVDYVITTCPACILGIKQGLFLENNKTKVISLLEFLSMADE
+II
+>tr|R7MIZ7|R7MIZ7_9CLOT
+MKVRSSVKKICDKCKCIKRKGRIAVICENPKHKQRQG
+>tr|R7MBF8|R7MBF8_9CLOT
+MSKQRQDEYKCPLEVTMEIIGGKYKGVIIGHLIDKTLRYNELQKLISHATPKMLIQQLKE
+LEADGIIQRQLYPVVPPKTEYSLTERGKRLIPSIIELNKWGLAYLKEMDIPCKYKEE
+>tr|R7MHX6|R7MHX6_9CLOT
+MKILFVIDRLELKYFEFNNLVTNFWLIKSFLKRGHEVRIATIDLLKLKSAVAYTSCYNSY
+IEGEEICYDKESLSEYKIDDFNLVMFRPDPPVDLDYINATYVFDFVDKSKTFVMNDTTAI
+RNFNEKLHAVMFNDLMPKNIVTSQKADIMKFLAENEEIILKPLNQCFGGGVMYLKAGDKN
+TAVIINSMTNNGKQLIMVQKYIPKAVNGDKRVLFLGDEVLDFCVQKTPSNDDFKFCEHND
+NNIKKALLSGEEKAKFKPVAEKLSSMGIYMTGLDVIDGKIIEVNVTSPCYFIKEINNHFG
+CHLEDKIADYILSMAEKRMLAVV
+>tr|R7MCU4|R7MCU4_9CLOT
+MKFVISKEDLYNGIKIVERATSQKAVQPVLYNILIETLENNKLRLTATDLVLTVITTVDA
+QIVEAGKITLPAKKLNEIVSKLSNDLITIETEDGGTNVNISCQKSKFDIIGISASEFPPE
+VSNYEIDDTKCFDVELKPFLKGIRQAGFAAAGYEVSNLLSGIVCDFSDGVLEIASTDGNR
+LARVREKLTSSFTEETQLIIPSRTLNEFLKMSSFIDEDIIKICKDKSTIIFKTEKTLTIS
+RLLDGQFPKYNQLIPSESPKQAIVNVSQLIAALERVSVMVNDKTSIVKMLFADNELTLSA
+DTPDSGKSEDKIDIQYTAEELLIAFNYKFVLDALRIIESDEVIIGLNASLSATVLKPNSD
+EDFICLIMPVQIK
+>tr|R7MJ74|R7MJ74_9CLOT
+MFNLFQSWKNYKKALKEKREAAWMNFKLKLPENVQHRVDTFEEWYRNYKESATCEVIETV
+VFVVVMVIIIRFFVGEIRWIPSGSMHPTLIEGDRIVVERYSRFFDGPKRGDIMVFYPPST
+RLSNSPLPLLARLTGIFCKDVAYIKRVVGLPGETIEIKAEKDGSAYVYINGKKYEEDYIK
+SIYEYPECPDKNIDPLFLESDQVMKCGPFKLDNDSYFMMGDNRGNSQDSRYWGTLKKDRF
+VGRAVLVFWPPQRMKVLHQLDNKLEK
+>tr|R7MCK4|R7MCK4_9CLOT
+MNTKEQYLKLREEFTKKYEPTLYNSELAGWNFYTNSTEENLKKYTQSQEQMSNLFKDEQM
+YKSLKAIQEEGLEDKHLAKQLKDLVKAFYNEIESGNELKALRDKENEIASKFNSYVMEID
+GKAISKAEIMVILEKEHNPEIRKKAYDANIKSGDEIADDLVEFVKMRNAYAKTKGYDTYF
+DYMIEDSYDITPKELDALLNGVSSKIETKSIEFDEERKAELAKSFGVKPEELKDYHYGLI
+TDNTPEKTVTEYLTSKEQVVDIAKDVYKQMGFDVDNMGITLDLFPRKNKNTHGFAFCIKP
+AKDARILANLTNNTNSLDTILHELGHCVYDIGLDISLPFLEQEPSSSAMTEAVAMMMGDL
+PKTENILSRLVPQDVLDKFKAELKKDDARFVNRSLQIIEFEREMYKNPERDLKSLWRDLK
+IKYLHRGDETESNNEWATIPHYLSHPGYYQNYFRAGLIKAQLYNAMKTELGEISKNSKTS
+DYLNDKLFKYGSSKEDSDLILEITGKAISENDFCNRIIE
+>tr|R7MDS9|R7MDS9_9CLOT
+MMMXXVDDDEEIRDLLEFDVRSSGYFVDTAKDGLEGLNKALNNTYDLILLDVMMPKMNGF
+DVCKNIRQAKLSIPILMLTAKGTIEDKTEGFDCGADDYFVKPFDIQEVLLRIRVLLRRNS
+VNVEETPLANEVLRSGDIEIFPESLEAVIVNKKVKLTPTEFEILYCLMQHFNHPVTLATL
+LDEVWGYDSNEDVRMLRVHVGGLRNKIEPNAKDPKYLHTVTNVGYKLTPFAQE
+>tr|R7MH39|R7MH39_9CLOT
+MHSTLDFLKKIFPLRQCKTPKFSSRPCLYYHIGKCLAPCQNLVTSEEYKAIVHQAELFLS
+GKQTELMKQLMEQIQKYSDSEQFEKAARLRDSYFDLQKTLEKQKVVYENTKLNEDIISLI
+HEDGILAIVIMMIREGRLIDKKDFTYEVEDEDKTEFFATFFKEYYNTLSLEFPDKIVSNE
+LEAVGDKALYEEWLEIISGKKVKISYGKSTQGKELQTLADKNCRVVIDNAKLSKMSKINE
+DFNNIGSYLKEKLHLNNFPHRMECYDISHIQGTNTVASMVTFINGLSKKSEYKKFKIKST
+EGKPDDFLSMKEVLTRRLVHLGDKGWDKPDLIIIDGGKGQLSSVMQIVKELGVTGIDFVS
+LAKRQEEVFLPNQSQSILLPRESSALFLIQRIRDEAHRFAITYHRKLRSKTEIKENGIPK
+>tr|R7MB98|R7MB98_9CLOT
+MIIEGSIESNKTDFLVEKYASLLNSGISSSEILVLVQNSTLKNNFIEKTYEKLTIDCVEK
+LQVHSFFSLVYNTINDNWAFLEDRNIFDNPVILPNLAGLEVSQFLLKDILKEVPFRGYNS
+RMSLLQQIFRRYSLIVQNNLSQSEIDRRAKILKEGFSDEASIAIKKLLKKTLELRDFDYL
+RQCLMFNFVYKNTDYFKGIKYLIIDDADECTPICIDFIEYLSKQLKDYFITIDPQGSSRC
+GYLSADKNNYQKLKNIFGDKIIVIPSQSKMLQDSQTLYENIYSEKVETLHNFTFESLSKR
+SEIIECTIKKIKTLLDNKVPPQEISIITPIVDEMLKFTLQENIPNNINLRYLSGSEKLIQ
+NRLVLAVITILKLNTDLKKTLSEFDIRVILSEFLHIPLKYCEEILENFQNQKTLITFDFK
+DEDYNKKYNDFLELVEELTNSNEKLSEQIVKIYNKLFSFDFWNKHEINKFNFFLKQITDF
+ENVFGKNFNSRKSEIILQVENSIISENPYSVLEIGKNDLIISTPQKIIDNQIKTKYQIWL
+DISNSEWIKSDTGPLYNAWVFQKDWYKDEYTIDDNIELSREKNARVMRKLALCAKDKIFC
+YSSLFDSNGIENYGALEDFIVVENPQEQEDTEQRTFKIIPREDQKPVLDYSSGKMGISAV
+PGAGKTTILLALIIKLLERGINPERIFVLTYMDSAARNFRERIKNVRKNSSRLPNISTIH
+GLALRILKENGNYEKLGLSSDFEICDDSQRNRMLREISSVMKIDTKTAEEFDRAVSVFKM
+GLGKFETLPTDAKLKKFRTFFNLYQSNLKEFNLIDYDDMLTGSVKILKENPDILAHYQDI
+CEYIIEDEAQDSSSIQQELISLLSGKHQNIIRCGDVNQSITSTFSNADVEGFRKFITQNN
+NVMMNCSQRCAKGVWETANNVVEIFSQKQDSKDAFFKMFMQPVEGKNPQTENAVAGEIFD
+SSVDEKNYILKTIKDTLSKNPNYTVGILLRNNYQVAAWQDLIENSGLKAITRNQCLEQKA
+IFKAIFAVMKIVLRPFDNENLGANYDILADLGLYKRGLGSEISKYENPFVKLNGDSIEAQ
+SLEQFNYDVNYWMSLCYLPPNELALKIGKQFFDSEIEKANIYLISTLIKRICIKNNSLEY
+AVNRLSELSKKPNLSGFKFFSEEDEEDKSSLCGKVQIMTMHKSKGDEFNLVFIPELQEKS
+LPLSIGKINLKSADFLETVKSLNSSYKKKSDYELKQEILAENLRLLYVAITRAKNKLYIT
+ASSKIKTFGKEKPSDPSIIFEELLGIERRIK
+>tr|R7MGI3|R7MGI3_9CLOT
+MAKETPVANVSEERNKALKLAIEKIEKDFGKGSIMKLGDKATVNVDAIPTGALSLDVALG
+IGGIPRGRIIEIYGPESSGKTTLAQHIVAECQKKGGIAAFVDAEHALDPEYARNLGVDVD
+NLLISQPDTGEQALDITEELVRSGAVDIVVVDSVAALVPKAEIEGSMEDQQMGLQARLMS
+KALRKLTGIIGKTNTTVIFINQLRMKIGVMYGNPETTTGGNALKYYASVRMEIRRTEGLK
+GDDGEIGNHVRVRVLKNKVAPPFRTAEFDIIFGKGISKTGNILDVAVNLDIVKKAGAWFS
+YNEEKLGQGREKAKEFLDANPEILAEVERLVREKLENQ
+>tr|R7MKA6|R7MKA6_9CLOT
+MKTFSIFFTTLILFANLSANATTFTGGVTKVGQQDSNQVVDAQTKKGVEFAKISIPQKNY
+RTYTDGNGNFQLDNIKITQPTIMNIEKEGYRPFSLTINNGESLNNPMKVEIVKSESADIS
+LDSDIIHLGDNSYSKNSANADEFRLQSSGPYYSKDFIMTNNAKRSANYLVIGSIVGLDTK
+LAKAMGQNRIKGGAYSSPAEIYFNGRKIGELQVNGDGQRIKIPNSLIVADSKNQITIKTG
+QNMMPSDHIDYDDIEIMNLSILSE
+>tr|R7MD36|R7MD36_9CLOT
+MLRGPFLDRSWMAQNPDYDSSNIVMLGLPFDGTVSYRPGSRFAPEQIRLASWGLEEYSPI
+FDRELEDVNFHDAGDLEFPLGNTYKTLEQIEHNVEDIYRDGKRVFGIGGEHLVTLPEVKA
+VSKFYDDLAVVHFDAHTDLREEYMGEEMSHSAVIRHISKFVKPENIKQIGIRSGMKEEWD
+FMAKHNTLCKYYEDLDSLKTKNVFVTVDLDCLDTSIMPGTGTPEVGGMSFNELVGWFKYL
+KDFNIVGADVVELAPDYDASGASTAVATKVIRELLMAM
+>tr|R7MHJ0|R7MHJ0_9CLOT
+MDNKEIEQNYEDFISTVSHELRTPLTSIRGFSQTMLTSWDRLDDESKKKFIKIIEDQSNR
+LIHLVENMLTVTKLQKSNNHLVFNEIDIKPTIDQTIMIVKNQYPNHNFNVKYDGILPKIF
+VDKDKFQQIMTNLIENSAKYSYENSVTTISATPQNNNVEISVTNIGIGIEEKDYDKIFTK
+FSRIDNPLTRKVQGSGLGLYITKNLVEKMDGKISVSSTPLKNNSNLSEITFKILMPVKNI
+EEQARIKCKQ
+>tr|R7MDK9|R7MDK9_9CLOT
+MLTGDTEESGLTVAKELNLDKAYTQLLPIDKVDKIEDIIEQKTKNKSVIFVGDGINDAPV
+LTRADVGIAMGGLGSDAAIEAADVVIMDDKPTKVATAIKIAKQTLTIVKENIAFALGIKV
+LFLILGAFGFVTMWGAVFADVGVTLIAVLNSLRALKIK
+>tr|R7MD71|R7MD71_9CLOT
+MTLEEELGKYLIENNLTIATAESCTGGLLSSRLTDVSGSSEYVKLNFVTYANEAKHKILG
+VSWNILNNYGAVSEECAEAMANGLYEVTKCDVALCTTGIAGPTGGTKEKPVGLVYISVRY
+KGIVTIKEIKLSPEIPRIEMKKRFADEALKLVLSILTSDRI
+>tr|R7MJP6|R7MJP6_9CLOT
+MENIVSDIFARKDDPSNNQTSRLGANPTNIKVVGVGGGGGNAVNRMIRSGLSGVEFWLMN
+TDLQVLVDGQTKNRIQLGSASTQGLGAGGDPSVGEKAAEEAQQEITQALEGADMVFITAG
+MGGGTGTGAAPVVARLAKQLGILTIAVVTKPFTWEGKKRQNQANSGIDKLKESVDAVIVV
+PNDKLLQVVDRQVSLQESFTIVDEVLLRGVQGISDIITVPGIINVDFADVKTVMQSSGSA
+LMGIGRAQGEGRAVKAAQQAINSQLLESSINGASGVIVNITGGPDMGIHEISDAASIIHD
+AVLDDATVIIGTAVNENIQGEIQITVIATGFELKNNASSLKFGDSTTGNAESSQLNAADF
+FSGAFNTQTKSILSDGNRNFTNIEIPDFLKR
+>tr|R7MK21|R7MK21_9CLOT
+MAKDCSFDIVSEYNKQELVNAVDQVKRELTTRFDLKDSNSQVELDADKSITITTNDDMKL
+KNIVDILQSKLVKRNLSLKILDAQTPENALGGNIRQVFNLKKGLTQELAKKIVSDIKATK
+LKVQASIQGEQVRVTGKDKDDLQAVIQNLRKNEDKYDVPLQFTNYR
+>tr|R7MII2|R7MII2_9CLOT
+MFELKKSNNLLENELFKSVYDKTPDYIKSLNLMDFNNKGEFSFILKKEHLKQYDEQSNPE
+GLGLEDWFAGYAKEAKVSTAGIRGPQNILYPQDTRFPINLVGIVLATLAKALVAKEKYPN
+KRIVKVAGCEVRYNSQLFLDAITRIQAAQGIETLVPVGKRTIPIWLASFLAFKLDLLGGE
+YITSSHGISVKNATKDLNCQGSQYLPEESMEFVNKIQAIFDEVNEKGSYEIKISASDNPL
+INENVLKLVDDGVDLYVEYLKSGVAQDFNLDLIKNLNSKIVIENVGGSAYRTLSRVLNKL
+EISEKFDWFDIEEDSFFHSIGKYDVTPKGEKAFYDYSVDATVIAKRADGTKFFPVIDTMN
+YSERLKDYPIGTVVLITDPDHDRLTITQTESSERISELDKLGVDYIRLNNDRVLTVFSAN
+QAFLMLMDFWAKQLKDKNLWNNHPRFMIKTTASALSWDEWAKNNDVKVVNVPVGFKEIAN
+IMKKVELNLKNNPADSVVVDDVFGNSIDLGVNPRLLFGGEESGGMIMGTEELIQSQHGRC
+AVAMREKSATEAIIVASSLVSKINDLGISLSQYLLDVFESNNIIGKFDTRVDIAYYNESE
+PDINKLKEAKVAGEALRTKNDMFYLAMAIALRENKISVTQIKNVLNDKFSSEGLNFDNLK
+SVKFVGDGTYLEFDDKYIEIRPSGTDAKTKAYGGGLNKDDIEKYASVLGNYSGDRTELHE
+EFIPQEYYAKSKDIAMDYYLKFVDKDANNEPFEIPEYDF
+>tr|R7MC90|R7MC90_9CLOT
+MARQDDKKKRKNCSLCADKVTSIDYKDAAKLKRYLTEAGKIIPRRITGNCAAHQRMIAKA
+IKKAREASIISYVFD
+>tr|R7MDD8|R7MDD8_9CLOT
+MRAEERTFVAVKPDGVQRGLVGEVIKRLETKGYKIVAMKMLQATDAQAKAHYEEHKDKPF
+FPRLIQYLQSGPIVAMVVQGFNAVAGVRHLMGSTNPDEAEVGTIRADYAQVKEYNIVHGS
+DSIASAEREIKIYFKEEELCSTSKSMSELVIEHLDAE
+>tr|R7MDH1|R7MDH1_9CLOT
+MSEDCIFCKIINGDFGTEFVYETENTVVFRDINPKAPVHLLVCPKKHIQSLIELEDKNLM
+AELMQTVKDSVKKAGLKAYKVQINTGKEAGQEVMHLHIHVMGKAE
+>tr|R7MAU0|R7MAU0_9CLOT
+MSIRDIENSIIQYLKDKFPQFLVQGFPEKPQEFILLHPVGAILVHYRGGNYSNSNAIGII
+SQDKGLNFAITVVTRNLRNNNGAYETLDKVKQYLCGYKIPECTKLTPNKEGFISETNGIW
+QYEIEFRLSTPSIEEMEEI
+>tr|R7MHU5|R7MHU5_9CLOT
+MSERFAFYRCETCGNLVQVFISGEGELVCCGKPMTLLQPHKNDEFANEKHVPVFLEYSES
+GETKIQVGAIPHPMEDNHYIQFIEAVSKDDKYLCVKFLEPTDEPIKNLHCSNDIDLALGY
+CNLHGLWVGDKKERDNDD
+>tr|R7MB03|R7MB03_9CLOT
+MNKQKVIALVDCDSFFVSCEQKRNPKLKKQPVCVLSNSEGCVISRSKEAKKMGIKMGEPF
+FIAKKEHQKAIYIVADHDYYAKVSNEVMSILKDFSPYVQVYSIDEAFVDFTGLTKLYKKN
+YYNLAKYLKLKIQEEADIPVSIGVSSTKTLAKLGSDKAKYKSDGVYLIGKRKIIKELKNT
+RIEEIWGIGHRLTTRLKQNGIITAEELVQKQDKWLDSKIGIHGLEMKHELTGRMVSPVVN
+DERIPKSIQNTRAFGIFTSDFNFIKNELNKHIHTSCRKLRKYETKCLQVGVMLRTKDFRV
+FSTSQDLLSPTDFELEISNIAVELLKEIYNPNILYRSTGVYLGKIGEQGTEQLSLYSDTT
+LETKKKNLAKCFDNLESKFGKNIIQTGFHYKKEKLQKKNNISSKDNK
+>tr|R7MI18|R7MI18_9CLOT
+MKSTLTKEQDNLVSISMVIPAKEAASAYNTAANRISQYVNIDGFRKGKAPRAVIERHVGV
+DRIRQEALDIILPKYLGQAVYDNKLDVISQPAITDYKFETGKDLEVTFEVETRPEVKLGE
+YKNLEVKAEVPSEDDGAFDKALEGFLTQHASMELVLDRPSNETDTVVFDFDGTCNGEAIQ
+GGSAKGYALDLAHSNFIPGFAEQLVGHNIKDEFDIQVTFPEDYHDEKLKGQPATFAIKIN
+EIKQRVMPELTDELVKKSTRFSTVDELKADIKDYIEKQRESLKKSAAENAVFKQVIESSS
+VEIPQRMIDREVESLKADYKQRLSYQGIDWDTFMKSQGNEEEFNNTLVEDAKTRIKNSLI
+IDKIAKEEKVSVEQSDFAGKLDQLAAAYGMGAQDMLKQFGQNPDFLQTLSQQIVNEKVRT
+FLVDNNKVEYVEVKPNKESVEA
+>tr|R7MJS8|R7MJS8_9CLOT
+MALIQPDEISSIIKSKIDNYELQTEVSNTGSVLEVGDGIARVYGLRNVMANELVTFEDGN
+DTLGIAMNLEEDNVGIVILGEYTNIKEGTTVKTTGRIASVPVGEGLIGRIVDPTGKPLDG
+KGEYPYSKTRPIERVAPGIVARRSVYEPLQTGLTAIDALTPIGRGQRELIIGDRQTGKTA
+IAIDTIINQKGKDVICIYVAIGQKASTVAQLAKTLEEHGAMSYTIIVSSTANESAPLQYI
+APFAGVAIGEEFMEQGKAVLIVYDDLSKHAQAYRAMSLLLKRPPGREAYPGDVFYLHSRL
+LERAVKLNDELGGGSITALPIIETQAGDVSAYIPTNVISITDGQIFLESNSFNAGIRPAI
+NAGISVSRVGGAAQTKGIKQVAGKLRLDLAQFRELEAFAQFASDLDASTKKQLLRGQKLT
+EVLKQPQYNPLSVAEQVSILFAANEGILDDVENPKISKFKKEWFVYFNANYSELAQRLNA
+GSALSDEDKKTLIEGLNSFKSTF
+>tr|R7MAW0|R7MAW0_9CLOT
+MLMTEMKCDIKDINLAEQGKNQIDWAFKDMPVLKKIRERFIKEQPFKGLKLSACVHVTKE
+TAALCTVMKAGGADAILVASNPLSTQDDVAAALVKYYDIPVFAVAGETVEQYKAHIQEAI
+NHNPDIIIDDGCDVVSTIHAQRPDLINKIIGSTEETTTGIIRLQAMEAEGTLGFPAVGVN
+TSLTKHLYDNRYGTGQSSFDGVLRAANILIAGKTVVVSGYGWCGKGVALRAKALGANVIV
+CEVDPLKALEAAMEGYRVMPIEKAALEGDLFLTVTGDKHVIDVQHLLSMKDGAFVGNVGH
+FDWEVNVSDLKKHAKEIKQIRPSLEEYVLDNGKSIYVLAEGRLVNLVAAEGHPASVMDMS
+FANQALGIEFLVKNKGKLEKKLYTLPHEVDVKIAELKLQSMGIEIDTLTKEQEEYLNSWN
+V
+>tr|R7ME85|R7ME85_9CLOT
+MNQNFYIDSFPYEIELTARVCHENARQLLESITDEISIDEFAILDTLTARSGLSQADLAR
+LILKGKAHTGRFLISLEEKGFIERHIEEKNGKLIKVSDVTPKGKKLYNDIVERFKPAVEK
+FDKIISQEQCKMIIKNLKNFREAIEKARNIVFE
+>tr|R7MIT9|R7MIT9_9CLOT
+MYNTKKIADDLFWVGANDRRLSVFEGVYPVPTGVSYNSYLLMDEKTVLLDTADKSVTHQF
+MENVAHVLGERSLDYLVINHMEPDHCAEIPCIVRKYPNVKIVCNAKIKTMLGQFFDFELP
+EEQLVIVKEGDTLNTGKHNLTFVFAPMVHWPEVMVTYDTVDKILFSADAFGSFGTVDGNL
+FADEVDFEHRYMDEARRYYTNIVGKYGPQVQSLLKKASGLEIKMICPLHGFVWRKDFDKF
+IDKYVKWSTYTPEIQSVLIPYASVYGGTQNVVEILASKLADLGVKDIKIVDTSITDSSYV
+VSEAFKYSHIVFASTTYNNGIFISMENLLHDIVAHNLQNRKIAIIENGSWAPTSGKLMTD
+LVSQLKNTEIIGNKLTLKSTIKENQMEEIENLAKAIVETLNK
+>tr|R7MF77|R7MF77_9CLOT
+MDDRELLLKLGNKIRYERVRRHLSQEKLAELANMNMRTISTIECGTTDIKFTTLNKIAVA
+LNVELKNLVEFVL
+>tr|R7MH68|R7MH68_9CLOT
+MDQELRDKYEVVIGLEVHAKLKTKSKIKNKIKNICT
+>tr|R7MJE8|R7MJE8_9CLOT
+MSNLQFQNDLEKLVEILPQRIRQHLSYEKMEDVIEIVLDIGRPPEIRHADGKIEYIDVTN
+VDDEDISYITSHVQEFTSDNRSGIPGTLHRISAIRNRQGKIVGLTCRIGRVVTGTISCIK
+DFCLQNKSILFLGRPGVGKTTKLREIARLMADELKKRVVIVDTSNEIAGDGDTPHPAVGH
+ARRMQVRQPEYQKDIMIEAVENHTPEVIVVDEIGTEAEAQAARTIAERGVMLIATAHGNS
+LESLIKNPTLSDLVGGIQSVTLGDDEAKRRSSQKTVLEREKQPTFDIVIEILDRNTLAVY
+KDTSEAVDYILRGWPIRPELRKVDKAYEFSQAPTPVPARVPNVIDKINALDNKIEHPESL
+KFSFSRQKYVEEVKKFKKIYLYAVSRSIAEKVIERLDLNAEITRNLDDADIVIAHKNFIK
+GGAKVLSTAEENRIQIFYVKTNSMAQIQKVIKEALDIAELNEKQSFYDITERALDEAKAA
+IEKVLAGAKDIELTPQNQQIRKLQHELVEQHNLASKSVGEGENRHLRIVGGQDYQEKTGS
+>tr|R7MFM2|R7MFM2_9CLOT
+MEVNVIGAGLAGSEAALQLAKRGFKVNLYEMRPCVKTGAHTTEDCAEFVCSNSLGSYDIT
+NGSGLLKHEMEILGGELIEIAKACQVPAGNALAIDRHKFSQTVTERIEQNPNINLIREEV
+TKIPNTPTIIASGPLTSSNFTDSIKEFTKSEYLHFFDAIAPIVEIDSINFDIAFWASRYD
+KGEASYINCPMNKEQYEKFYNILINAPRIEQHDFEKGAKFFESCLPIEVLASRGVDTLRF
+GPMKPIGLIDKRTGEKNYAVVQLRQDNSAKTLFNLVGFQTNLKWGAQKELLQSIPGLENV
+NIVRYGVMHRNTFINSPNLLSPTLQTRERKDLFFAGQITGTEGYTESIASGLLAGINMAK
+LLNEEPLLELPLDTMLGALTHYITNPEHKNFQPINSNWGIVPPVELPKKERKNKKLKGEM
+MANRAIESLKKYLS
+>tr|R7MA52|R7MA52_9CLOT
+MLKCKGRNMINVPNINQTASNIGTTQPKQEKVPNQNSLNSNSSQAQNYTQTIYPEKTTSL
+WGAKEGSVYNPSSTPENAPKTTHTSWFYINDVHGKMTNMERIYNMTEEFDRSNPKAITNF
+YKDAPQGDISKFKVSSGDIILGANYTHNQVANQFLNWSGFIASALGNHELDIVDPTKMAA
+LLDNANYKMLAANIDVDKNSPVYGRIQKSMVVEKDGEKYGLIGIAPSDMNERVKMNNTLK
+DFKVATPDETIKIVQEEVNKLKAQGINKIVVLSHEGIKNDKKLAQETEGIDIIFGAHTHD
+LIEGIKEGENLFSSKSGEPVVITQAGKDGETVGILNVDFDEKGVIKKVQNNVIKTRAYNR
+PLFIKDSVESILGKPEVIGRVKAAVEPPAKRLIENNPHGNLIADAMRMELGTDIAILNAG
+NIRGSFTSGPIDTRLISDITPFEDNMMILGLTEKQIVDSIKVGLKSVTKSSNKPGILLVS
+GLRYKANKKGELLDLEFTDKNNQVHKIDVNNPDPNKKYTVAADDFFATGGDGYLESNKNP
+DFVIQKFEMDKNKLACDYIKKLNQPIEIKDDHRVEFVD
+>tr|R7MHM3|R7MHM3_9CLOT
+MQARRASRELAFILLSQFDKKITNYSKESLDDIVLKSVRILSSSAHDELKLALGSLIDMK
+NKIDDYEAEHEINLNRPMNATNIPVPLPMTSDMTGRINEMIDIADKALLALEIAEFTTLE
+SEGDVKNYAIKIAQCYQENHEEIDSNIDKYSEGWDFDRLVKMDKDILRIALSELLFIKET
+PMKVVVDEAIELAKKYSTDDSANFINGVLAKAIVDNGIK
+>tr|R7MID9|R7MID9_9CLOT
+MRKELKKQIELLEQKMKRSPNNINNGGSHFLYRRERMIRFKMLQKNMSQKMLAKRLNLTE
+SYISKLITGERYNQDFERYIIHILDVNYCCI
+>tr|R7MGR0|R7MGR0_9CLOT
+MRILGIDPGMAIVGYSIVNYDGKNVVLEHSGSIQTPKGKRESARLLEIFNDMTSIVKKYQ
+PAVCAIEKLFFFRNQTTVMPVAHARGVILTVLEQFNIPIYEYTPMEVKQILTGYGRADKK
+EVEQMVKISLGEENLPKLDDTIDSIAIAISYTRSTDAIEDLKKFEL
+>tr|R7MED1|R7MED1_9CLOT
+MTKEEKTMEEQLNEDLLAEQAESQAEEEAKEAKKNQKRWYIVHTYSGYENKVKVNLEKRI
+EYTNMGDKIFRIEVPQKTVVQMKGGKKQEKEEKVFPGYVLVEMIMDEDSWYVVRHTSGVT
+KFVGSVKKPIPVKESEIKRILHRTSSQVEKVELDVKPGDKVRIISGPFADFDADIIEVYP
+DKSKLRANVSIFGRETPVELEYKQINKL
+>tr|R7MHL2|R7MHL2_9CLOT
+MNYHNITKDDMLNGDGLRVVLWVSGCNHHCKNCQNPITWDEKGGLPFDEKAEEELFEALD
+KPHIDGITFSGGDPLFPNNRSEVFRLIKKIRNKLPQKTIWLYTGYTWEQIKDLEGINDID
+VIAEGEFIEELKDNNIHWVGSSNQRVIDVKKTNKGNEIVLHV
+>tr|R7MHF3|R7MHF3_9CLOT
+MLDLYILETCPYCKQVMNYMKENGIKFHKFDTINNDNALKLLSIGGKDQVPFLYNEDTDD
+KIYDSERIIEYLKNLKQD
+>tr|R7MBB4|R7MBB4_9CLOT
+MKSVADIFGIETITKDAYRYALTHSSFTKEKELPYNECYERLEFLGDAVLKLTISDVLFK
+MFPDFQEGQLSKIRSIVVSDNTLADIAKKNGLQDLIIMSKHEEKQGCRKLNSICACAFEA
+TLGAYYLDGKYKELETYIAKTFTPYINDVKDHFEKFNAKAILQEYTQGKTKNTPVYTVLR
+ELGPEHKKEFEIEVKYNDEVLAVERGLSKKEAEQKCAYSACKKLGII
+>tr|R7MDH0|R7MDH0_9CLOT
+MVTLKKEVKLVGNGLMKNKPCEVTLFPSNSGQIRYFVKDKDSFTASVDNVISTDHCVVMG
+TKKARAMLTEHLSAALAFCHIDSVDICMTEEEVPALDGSSLEWVKAIKEAGTDKPFFAKE
+KYYTVSEPVYYLNGKTSLVILPSDSLFMSYAVNYAHPDLTRKFVNYNPKNKYEIIEARTF
+GFYHDLKKYQMLGFAQGVTQDNTVGFTDDGGYTTELRSENEPIKHKMLDLVGDLYLTGVN
+PLNMRCQILAKEAGHAVHVKVAKMLKDKLVEI
+>tr|R7ME42|R7ME42_9CLOT
+MSIEVRNLVKKFDDKVVIDDISFKVDDGEILAIVGFSGSGKSTVLKLICGLIPYDNGEVL
+TSEGDIAMVFQYSALFDSLNVYDNISFALHERRDLRSKYKEEEIKKIVSQKLELVGLKGI
+ENKFPSELSGGMQKRVSFARAIVTKPNTILYDEPTAGLDPMSSTLIEDYIVRLKRETNAA
+SIVVTHQMSTITRTADRVIMLYDGKIVFEGTPSELLKQDNPYTKQFVTASLDGPMKMKA
+>tr|R7MGD6|R7MGD6_9CLOT
+MNITQEFETIAAISTPVGTGGVGVIRISGDKSFEIAKKITDKNNFPVGKICHGWVVDGDT
+KIDEVIILPFKNPNSYTGEDVIEIQCHGGINVVQNILDVVLKNGARMAERGEFTKRAFLN
+KKLDLSQAEAVDDLIHAKTSNFAIQSVKNLSGVLANKINEIKGEIFETASRIVAGIDFPE
+DVAEPEYSYLVERFKHSIKEIDKILDCAKSSDILRQGVKVAIVGRPNVGKSSLFNALLNL
+DRAIVTDIAGTTRDVIKENIDLGVAVTLIDTAGIREDENIDKVEEIGIEYSKQSAKDADL
+ILFLYDSSVGLTDEDSQIYDIIKDKTHIVVANKIDLLKSGEFKEVFPNTAKLSTYSKDGL
+DDLKTKMKGIICQFSLEDTEFITNKRQQGCLERCKLCLKRALDAAELGELQDMIYIDLKS
+ALLSLDEITGEVITDDILNNIFDHFCIGK
+>tr|R7MBQ2|R7MBQ2_9CLOT
+MLLVIDENAENSRLDAYLAELYDGISRSKIQSAIKSGKVTVNGVVKKASYSLKEGDKIEF
+ENLVEEKVLAIEPENIPLEVVWEDENMAVINKPSGMLTHPTFIETSGTLVNALLYKYGQN
+LSDVNGEFRRGIVHRLDRNTSGLLMIAKNNKTHEYLANLIKNHDLIKKYHAILVGNYPRD
+NDVISDPIGRNNLNPKKMAVRPDGRPSVTKLKVIERFGNEATYVELNLITGRTHQIRVHT
+SYKKHPVYNDTMYGAGQGKVKTEEQVLQSYYLRFAKPFSQEIIELEIEPDEKLSKVLTYF
+RNRRV
+>tr|R7MAW5|R7MAW5_9CLOT
+MPKYSNSNYTTISLKYCYEELQKFYPQMTKTEFAVIINATRQNIGQRINRDSKLSKQELS
+ILKEYLEDRGIPTKFLNVAVVNDSIVQIPVRTEVELSCGTGTNANADFVSDTIGLDINFX
+LDINFIRKFGGNPKSVSVVFARGDSMADRIESGDALIVDESKTYINNGKVYAFVYDSELF
+CKQLKKTTDGIIAISFNKEYEPFEIDKTKQFAVVGQVIGTIKRI
+>tr|R7MGN2|R7MGN2_9CLOT
+MKDLKNALDLENYIVNDLKTDEDIKLYLNANLKDYLEDGDFNSFCRALEIVIKAKDTVAG
+FAQKAGISRTHLYSIFKNEKEPKFSTVVKIFQELGYELEIA
+>tr|R7MDC9|R7MDC9_9CLOT
+MKISLNCRTVSNEVQNIEISTEVIKGSLEIDFLQHEDGMCYHLLKKNGTLYEQVSITFDS
+QLKIDFLDVGQNIFILRSYLDGNLIWESNSFIVNNSTLELSYHFDANSVQLYWNKVIGAD
+GYMLYAKSQDDIFTSIKEVQTNEAVLYGLNGSEELKVKPFKKENGKRVYEFGFATCKLGQ
+KSYLEKLRLFSAIKKSSLSLYWENIANADSYKIYRLTNGKYVLQDVVRECYFTENYLPVG
+FSYFKVEACIGEEVITSSQTIVCNIKEVEMFAVNVNYKVVLYWNKAPGVAGYRIFKRTQD
+GNFTGFVSTTEAKYTVENVVPGEFCEFKVKPFIIENGNRLYGDLEAKCAVQTYKTPKIDL
+VVNEAYGGEVAVSWIFNGDVDGYVLLKNGVECLDIDDGLAHIAMVKYSAEKFKIRGYKNV
+FGAKVFTCESDEASVADENNRANMEKPNDYKLSVVIPAYNAQKFISRCISSALASDLKEI
+EVIAVDDGSTDETKDILSWYENMYPQFFKKIFKENGGAAEARNYGIAESKGHYIAFIDSD
+DMIRPDAYSTMYDSLQKTGADIAIGRLYKVDNDKYYVRHTLPLPAYKAINPEEYLRLLFT
+QTYNNVAVWNKMYRTKLVQEHPIPLLSYEDVSWTPYILSWADSLCYVDKVCVEWDRKIRS
+FTLSNELSSRSVELKYQDRLKAVDFFYENGNPQHKEVLAYLKAKRLYNQGETAGYNGYFV
+SITNMSDLLRENRFLQADEEYSNKLRPYVLDV
+>tr|R7MFK0|R7MFK0_9CLOT
+MDNKFRFDSIEEALEDFKNGKPVIVADDEDRENEGDVIISAEKVTPEKINFLATEVKGLI
+CLAISSEIAEQLDLPQMVEQNTEEMKTAFTISIDAAEKYGVTTGISAYDRAKTVEVATAR
+DAQPSDLRRPGHLFPCVAKKGGVLERTGHTEAVVDLAKICGHRPAGVMCEVMAPDGHMAR
+RDYLRKFADEHGMKFISVAELIAYRLKSEKLVTREAETTLPTPYGEFKLYAYKNQVNGSE
+HVALVKDDGSDKIPAVRVHSMCLTGDVFHSLKCDCNSQLFNALKYIEHYGKGAVVYLTDH
+EGRGIGLCNKIKAYKLQEEGQDTIQANISLGFKSDLRDYGTGAQILVDLGYTDFNLITNN
+PKKIIGLEGYGLNVLDTIKVDSEVTEYNKRYLETKKEKMHHFL
+>tr|R7MDB3|R7MDB3_9CLOT
+MDISNPQEEDKDLKSVGLELMFMTPEKCNSEDGITAVELAKRVNLPVEIVKKKLNILKEK
+DIVRVKGINPKYWKFNEYNFQRMDEDDETYMLLCSFDDVDFDKYFSY
+>tr|R7MKL4|R7MKL4_9CLOT
+MSRIFPYIKPYWFRILLGFAIAIPLGLLDGVTAFALKPYMDYVVGGKAFAYSWHGLNLSI
+SSLQMAFIIPAGVILFAIIQGVLRYLNGYLSTWTSQRITNDVKFDLFERLIHMHPQFFDD
+NSSGIVISRYMGDPGTASAGIVDQIKTITTSLFGALGLIAVMIYSSWKLAFVGVVVLCIA
+FLPVALIRRRIKDASNKNMVIGGKITTNINETYSGNKVMAAYGLQDRQNEYFKDQTWKSF
+NINMSLYKRAGWMSPMMYLIASIGIAIVLGYGTYLINTGHMTAGAFASFVTSLLLLYKPV
+KTLGNTLTGIQNIFVAMGRVFELFDLEPKIKDSENAVELKCFEKEIQFKDVYFEYVPNQP
+VLKDINLTIPKNETLAIVGNSGGGKSTLVNLLPRFYDIKSGSITIDGKDIKDFTIKSLRH
+NISMVFQDNFLYTGTIKENIMMGNPDATTEELMAAIKSAHLEDMIQELPEGLETELGERG
+LTLSGGQRQRVAIARAMLRNAPIVILDEATSALDNESEAIVQKAMDNLMQNKTVFVIAHR
+LSTIKNANRIAVINEGNLVELGTHEELMAIENGEYKHLYEMQFRTQGEDTV
+>tr|R7MCC6|R7MCC6_9CLOT
+MILVTGGAGYIGSHCVMALLENNNDVVIFDNLSTGHIETVQTLQKYGNVEFQQGDLTNFD
+DINSVFKNFNIEKVVHFAAFSQVGESVVNPQKYYINNVCGTINLLRAMLENNVKKIVFSS
+TAATYGEPVYIPIDEKHPQNPINPYGQSKLMIEKIMDDYNKAYGLKSVRLRYFNVAGANL
+KSRIGEWHDPETHLIPNILKSTFNNGKTFQMFGDDYDTKDGTCVRDYINVEDLAQAHLLA
+LKYLDEGGETNFFNLGTNDGNTVKEVFAACEKVTQKDIPVEMKPRRAGDPASLVADNNKA
+KENLNWNPKHTLEESIQSAYTWEEKLQNKLLVGIK
+>tr|R7MDE9|R7MDE9_9CLOT
+MVKSAYIHIPFCKSKCHYCSFVSFNKLELKDSYIKALLQEIDYYYKGELLNTIYLGGGTP
+SILSVKDFAKILKKFKPNHNAEITTELNPEGVNYDYLRELFDLGINRISLGCQTFDDKLL
+KQINRRHNAQQVIESVEIAQNAGFENINLDFIYGLPNQTPEMFYSDLKQAIDLGVQHISL
+YGLKIEEGCFFYNHMPQNLPDDDIQADMYLGAIKLLTNQGFEHYEVSNFSRPNYNSRHNL
+NYWNNEEYYGFGVSAHGYTNGIRYGNIKTIEQYIKNPIKHQEEKLLTTQEKLEEEIFLGF
+RKMKGIMVSKINHKYNIDFDQKYKSILNKYEKLKLIQKTEGGYSLTPNGILVSNVILADF
+LEDK
+>tr|R7MKC9|R7MKC9_9CLOT
+MNKNLKSNVKKHIPKDWLCELRILYRLGKETFNDIIRTGWVNIVIITTMAAILMIFAACF
+RTALSISSFSKELGSALEISVYLKNSSNAKEVKSEISRFEHVENIEVIPKAESWHKLKNE
+MSLPNIDNPLPDTLHVKVDTPENLQGVFDHIKTIRAVEDMSYAKDLATKIELVNHVVKTI
+TIIVIGIMGLLTITIINNTIQLVIQSRKEEIEIMRLMGVSNWYIRFPFIMQGAFYGFTGS
+LLALIPLNYVQNGLVNVHKFFMVPSPPYAQNLVILVMFTMSILFGAVGSFWCIKKHLQV
+>tr|R7M9L7|R7M9L7_9CLOT
+MELAQDKIDLIEKLIKNDRKYSNNEDLYDDFFNETAKRSVSIMNAIDSESTLEAYLRRIV
+TTSIVSVLKDSGRLRRTRSGYMSTKEVALEVNNNVDYSNVTVDYTNINVPLNPEEIVIQK
+EILEFVADTIKKIDEEEPDKDYLHIYTLRYDKGMTQKEISQEIGISQSEVSKRLYSLMGL
+VKNAIE
+>tr|R7MKR3|R7MKR3_9CLOT
+MFNETKTHEITVDVVILTIKNNAIHVLLVKRTTEPFKGRWAIPGGYVRLSENLDEAALRV
+LKEKTDVDSIYLEQLYTFGDPLRHPNARVITCAYFALVRSEDIKIVSTPELGWHKVSDLP
+PLAYDHKEIIQYSLKRTRERLELCPVAYQLLPEKFTLTEMQKAYELIMERKLDKRNFRKK
+ALATDGLIELEEYTKSSSKRPARLYTFENIELNSKRAHFIKKEKTK
+>tr|R7MGY0|R7MGY0_9CLOT
+MRDELLSILEKNSRIDFNELAILLGTTEEKVLEEISALENEGIICGYHTLINWEKTSIEK
+VMALIEVKVTPQRGKGFDNIAERNYNYPEVKAVYLISGGYDLMVILEEKTLKEIANFVSD
+KLSTLDSVLSTATHFILKKYKDHGTVLNKEEKDEREVITP
+>tr|R7MDR5|R7MDR5_9CLOT
+MENNVIFTRRSIRRFLDKPVEQEKIERILKAGMQAPSAHNMQPWEFVVVTDKDKRDEIST
+MSPWSGMVAKAPVAIVVVGHPTSEKSAEFLPQDLGACTENILLQIANEGLGGCWMGFYPN
+EERSSSLKKCFNMPEDRIPFSVIALGYSEDKNHFVDRADMSRVHYNMW
+>tr|R7M8S3|R7M8S3_9CLOT
+MNSNIPKYDLASRIQHSKFDSSFGMQGLRMDRVEKPETQDFKQVMSGLVENLNAEVNAPD
+NMMKDVMSGSKNVDIHDVMTAMAKSEISINVATQITGKVVNAYDRIMQISV
+>tr|R7MAL3|R7MAL3_9CLOT
+MIEMKVMGIALDTRTGSPIVVLHDKENRRALPIWIGSAEASSIIRKIENLSVTRPMTHDL
+IISIIEKTGYKLSKVEINDVEKETYYATIFLEDSEGKEIEIDSRPSDAIAAAIRIDAPIF
+VTANVLSNGSVSTDSAKDAEEAEEFKNFVQSIKPSDFARLMKDNDHHESDQ
+>tr|R7MHR3|R7MHR3_9CLOT
+MTMTDPIADMLTRIRNAAMVSHETVDVPASKLKVQLAKLLKEEGFISDYEVKEEGKFKVI
+SITLKYDANHKSVITKMERISKPGLRHYSKAKNLQKVLGGLGVAIVSTPKGLLTDRKARK
+ENVGGEVLCYVY
+>tr|R7MH07|R7MH07_9CLOT
+MFTSRKEQKEMQTQIIESAGKIYNYLSDKGEVTINKLRKDMDLDDNFTYMGLGWLSREDK
+ISYTQKPKSVTVKLV
+>tr|R7MKD4|R7MKD4_9CLOT
+MVKVIQLEEVDSTNSYGKKHIDEFEDKTAIITKKQTSGRGRLNRSWVDLGEENLFLSIIL
+KPSETFNEIYPNLTQYLSVTLCKVIESYGIQTQIKWPNDVLIDGKKIAGILSETVMQGQK
+LKGIVLGVGVNLNSNHEKINAIPNKIATSLNIETQKAIDLKEFLNKLLTEFFEHYDEILQ
+SGFLQIKDDYIKRNCFLGKELKVQVFNHIESGLAKAVNDLGELVLEDNNKREIVLTIGDI
+I
+>tr|R7MK23|R7MK23_9CLOT
+MIEAQKQDPNFDLNNSQKVELLIFQQLLKISRQDKKAGWYDIPIAKFGQVFSLLSKADEV
+LDEKTKDRLKFADDEWKLVLYVNSSSVAGTLLLSLEWQRPDKDDVYPFEEVRYFSRHLKW
+GRYKNVIFPTNVAIQSIPQNITKSSFTDLKDAECGKFIYEDLPKLRQVMDVVIDEKISKL
+MLEERPPINVVTMGIDYDQSLKASLDFEYDGVRVPYSKSTNEKPPYITIKKPDEDMIYWV
+KRNIKHENEAYAMLLACKFVPMQTNNLALEKENAIDFYNYYLKQAGSGWKFEEKDDMSFF
+KIMEDPFRLCAEIDFSDEQPDSFDIKIYGKVGDEVIDFDEIYDTIQSDEKYARIRSLGFV
+EYPAQNIYSMMRSFNSFDVYRNPDNRFTVKTYRAGLINELKNLGAELILSDRFKTFWEQM
+STFSTAEETTLPQGINAEFREYQLKGFGWLWFMYKYGLNGILADDMGLGKTLQALTVLQK
+AKEEDGPMPTLVIAPTTVVFNWESEIQKFAPTLSCLKLQGGERKQFFKKIPEYDVIITSY
+ALVRRDIAKLKDINFRYVILDESQNIKNATSQTAQAVKQLNSQHKLALSGTPIENKLEEL
+WSVFDFLMPGFLFSMADFNSRYVNPIMERQDKIVEKRLKLQIYPFILRRMKRDVAKDLPD
+KVENIAYCELTDEQKDFYLQVLDSTKEELFKSIEQNGLEKSRLSIFSALLRMRQICCHPR
+LYDKNNVKNVISSGKFEKLKVMLEEIISEKHRILLFSQFVDMLDIVKAWLDKSGIKYEYL
+TGKTKDRQGAVERFNNDPTIPIFLISLKAGGTGLNLTGADYVIHYDPWWNPAVEDQATDR
+AYRIGQKKKVFVYRLITRNTVEEKIQKLKTIKRNLVDSVISVDRNITKSLTMDDIREIFA
+VD
+>tr|R7MDC3|R7MDC3_9CLOT
+MSNTLKIILFAIFAFGLLCVAIFGLSKVKVDDFHKAAVIFVVDSSASNQKQLPEQKKTIR
+QLCSMLDPEDQIKILRVSQDAYIIYEGSPQSSAEVRKSMEKFTQFDSKEYGTAYGLSLKK
+AFNHAINMHKEGYVPSVVVIGDLENEGDVSKQINWNTLPSEVAQVKKQTGHFSMMFLFAD
+PEKLDVVKERLTPVLGEKDLVIGTEANSNKALRNFLTSIGR
+>tr|R7MD20|R7MD20_9CLOT
+MKSSTIRRSTLSRETMEVIENLSKENDSVPSEYVRPEEEEKTPTDSIENKAQEIDLLWQT
+FKSTQFNTNSPMAYISMGFVSGVVVTLIVLACLGTFVAKSNITAENINLPKKQMFNLEKL
+NIFAKKTTEPTLEEQTDIAEDTASNRVSVPTEEETQTATKVQNETTAKDLNLQNAKKYVV
+KNGDTGEGIIKHYFGAYTPERAEKVMKANNLTSLDRINIGQELIIPVEE
+>tr|R7MF94|R7MF94_9CLOT
+MNEKEKTYCKMFGKALRDLRVAKTGKSSILFAYENDIPKSTLTRIERGENEAQLITLKKI
+AEAFGWSMEELFKHIEERIPKDFKIFEDEHY
+>tr|R7MGX0|R7MGX0_9CLOT
+MGLFLGSHGKKLRQKFETDLQNGQTNIAVGTHALIQENVEFNNLGAIVVDEQHRFGVKQR
+NILKKKSQNPQMLTMTATPIPRTLALTVHGDLDLTVINELPKGRKPIKTILTGSHRQVWE
+LIKNEVNSGRQAYVVYPLIDESETLSAKAATIEAEKLQTEIFPQFKIGLLHGKLKNDEKE
+EVMKDFKEGKYDILVSTTVVEVGVDVPNATVMVIENAERFGLSQLHQLRGRVGRNSLQSY
+CVLITASRSQETRERLGIMTQTNDGFVIAEKDLQLRGPGEFLGTRQSGLPDLIISDIVRD
+AKILELARNEAIDFVKNYNIEDFPMLKNVTALEMFTGLDI
+>tr|R7MBD0|R7MBD0_9CLOT
+MIKIVFFGTPDIGLKSLEYLYNSDKIDVLAVVTQPDKPAGRGHKLQMSPIKKFAVEKNIP
+VFQPKSIRKEFDIQEELKKLEPDFFVTFAFGQILSQEVLDIPKYETINLHASLLPRYRGA
+NPIQRAIINGDKETGICTMITELGLDCGDICQKLVIPISDTMNCEELWNEIAEKSPKMIE
+DTLEGLKNKTLTPQKQCEDGVCMANKLTKEECLIDWTKTNIEIHNLIRGICRCPSAYFLF
+NEKIIKVIESEAVDGSGEVGKIVNHSKEGVDIACGKGLLRLIKVKPEGKGEMFAKDWYNG
+VKK
+>tr|R7M905|R7M905_9CLOT
+MIQQETRLEVADNTGAKQLLCIRVMGSSNKKFAAVGDEITASVKDATPNMAVKKGEVVRA
+VIVRTKADIKRNDGSVIRFDENAAVIINKDGNPRGTRVFGPVARELRDKGYMKIVSLAPE
+VI
+>tr|R7MC56|R7MC56_9CLOT
+MSKIKINKLTNANVYLNGINLLGRAEEVQLPQIKHKLAEHKALGMVGSAEFFSGIDKLEC
+KIKWNALYPEVLLASATPFTASMIQVRASLETYNGTGRIEEVPATAFIIGTFKEFPLGTI
+KPHENAEYETSMSVTYAKLVVDGVPLFEIDVLENIYKVGGIDMLTKYKKNIGA
+>tr|R7MBI5|R7MBI5_9CLOT
+MIKRRKSKEISIGNVKIGNNNPISVQSMCNTDTRDIEATTRQIKELADAGCELVRLAVLN
+KDAAEAIKELVKISPVPLIADIHFDYRLAIQCINNGISALRLNPGNIGKRENVEKVVTLA
+KQQNIPIRIGVNAGSLEKDLLDKDISLHEKMVESAMKHIQILEDLDFDKIKVSLKSSDVL
+TTIEAYRLMAQKVEYPLHLGVTEAGTLKGGLIKSSVGLGTLLAEGIGDTIRVSLTENPVE
+EVFAGYEILKSLKLRQRGVNFVSCPTCGRTQIDLIGLAKKVEARFKNLDKNITIATMGCV
+VNGPGEARHADFGIAGGINEGYVFKKGEIVARVPESELLDKLEEVINNSL
+>tr|R7MBB7|R7MBB7_9CLOT
+MFGFSYTDISTGEFKVTQASLNLVMAELARLNPSEVVAPSLKQDIKPFQIVPDEVVNLPE
+EITKRYNCSKIPPSVFDVEFSQNNLKQVFKTQSLESFGYSKYKLGFRAAGALLAYVWETL
+KGNMPKFDRIEAYELSEYMILDASTRKNLELVETLREKNKYGSLLWAIDKTKTNMGARLL
+RSWICQPLKNVSDIMERQNSVSELVAKSETRYSLSETLEKIYDIQRLATRMSNGSASPKD
+FVSLKLSLSMLPQLLDITESLDYDMFSTIREYRDEISDYVQLVENTIVDNPPILLKEGGI
+IKERVSGELDYFRDLLTGGEEWLRNFEEEEKERTGIKNLKIGYNKVFGYFIEVTNSYLNM
+VPQSYVRKQTLTGAERFITDELKHHEDDVLSAKFKSTELEYKLFTDFREYSKEFVSKIRE
+IADCIARADVLTSLSEIAVENNYCCPVIDESDDFIVKNGRHAVLEKILPLGEYVPNDLDL
+KSNSKNVDATQFMILTGPNMAGKSTYMRQNALIAILAQIGSWVPADSAKIGAIDKVFTRV
+GASDDLTLGQSTFMVEMIETSFILNTATDRSFILLDEIGRGTSTYDGVAIAWSVAEYIAT
+KIGARCIFATHYHELNVMTKTYPQIKNYRITISENNGEIEFLRKIVQGGASKSYGIQVAK
+MAGLPSSVVKRSEELMLKMQRDFSNNLATRKKMVNNEDVVPQLSLFGM
+>tr|R7MAQ2|R7MAQ2_9CLOT
+MGMDLMNIMKQVQNVQKKAGVMQEELANLEITGESAGGAVKVLFDGQGKFKSISLKPEAI
+NPENPSSVDSETVEMLEDVITQAMTQASQKASAEMESRMSQLTGGLKIPGLFK
+>tr|R7MJJ9|R7MJJ9_9CLOT
+MRLENRKNNETREVKFTRNYTKHALGSVLVEFGDTKVITTASVEIGKPKWMDKEDKRGWL
+TAEYSLLPSSTSTRCQRERTKISGRTQEIQRLIGRSLRACVDLEKMSDLTITIDADVIQA
+DGGTRTASICGGFVALSDAVEKLLADGTLKENPIIEPIGAISAGIVDGDVRLDLNYAEDS
+HAQVDSNVVLTKSGKIIEFQTTAEGEPYEYEKMLEIFQVARDGIQKIIEMY
+>tr|R7MFT4|R7MFT4_9CLOT
+MSVESILESIEKLTLLEAAELVKAMEEKFGVSAAAPVAVAAAPAAAAPADDADAEVSVVL
+ASVPADKKIAVLKEVRTLTGLGLKEAKDLVEAAPKAVKENIKKDEAESIKKTLEAAGAVV
+EIK
+>tr|R7MH84|R7MH84_9CLOT
+MLVHTIKEVREQIKEWKKAGLTVGLVPTMGALHNGHLSLIKKAVEKCDKVVVSVFVNPIQ
+FCPGEDLDKYPRTLEADQKLCESNGVNIVFAPTPSEMYGDCQMRTNDFLTYVIPPFFYVN
+KLCGKSRVGHFDGVCTVVNKLFNIVQPDFAFFGQKDAQQLIIIKKMVKDLNIPVEIIPCP
+IIREESGLALSSRNKYLSEEDKIQALALSKILNNIKNCYKKGITDVEALKETAYQFLNDH
+HDLEYLEFMNEENLDEITTADDHTRVFIACKVGGVRLIDNILLGE
+>tr|R7MC41|R7MC41_9CLOT
+MVKETYLHDKHVALGAKMVDFAGWHMPVQYSSIIEEHKTVRNAVGLFDVSHMGEVFVSGK
+DATAFLNKIVPQNIEKLDYEKAVYCQLPNKNGGLIDDLIIYKLGIEYYLVICNASRIDED
+LNWIVRNKRGMNVKIDNQSHNYSLLAIQGPRAIDLVRKMGYNLPDQKSFTIKPAIIEGIK
+LLASRTGYTGEDGFELLVENEYSEFLWDKILEEGQEYGIKPIGLGARDTLRLEAALHLYG
+NDLNENTTPIEAGLSWSVPKDKQADYNGKEIIMSQIANGVSKKLVGLEMLDRNIARHGYE
+IYFNGEKVGHVTSGCVSPSTGKNIALGYVKNLKEICTGTTVQVMIREKLHDAKIVKRPFV
+QKRNKV
+>tr|R7MJ53|R7MJ53_9CLOT
+MDSKTILRRNYQKKFDALKKVMIEIPPQGWLKTIRDFLGMTTSQLAKRIGVSQPRVFAME
+KNEKNIKISTMERIADALDCDFVYAIVPREKFDDIIYKQAQKKAKKILSKVNKNMGLENQ
+LAEKDVLEYVLKDIVKDLLYKNAKKLWDED
+>tr|R7MDA0|R7MDA0_9CLOT
+MKILVFDTCLDKMYVTLSEDDKILSSEVVTNKDNKYHSAFLISTIKDVLKKNNLSPKDID
+AIGTNIGPGSFTGIRACTTVARMIAQQLNLPAVGVSSLEILSKINPTDKPTMVALDARKN
+SAYLYCDEEVKGAIQLDEIKKQLEKADYYLITDDKMQKELGGTSYQQAEYPLGDILAKLA
+YEKLKNSSAKWQELKPLYIQPPPMG
+>tr|R7MAZ9|R7MAZ9_9CLOT
+MQNLKSRIEAVLFVTAKALSLEEIATYLDVEPEEIEESILELIMDYASRDGALEIDDENG
+YILQVKEDYSDIVEKICPIDLLKRFVRFIYHLRF
+>tr|R7MBW5|R7MBW5_9CLOT
+MKKELIFLGPPACGKGTQTSRLAEFLGFPHVDTGSLLRAEIKNGTENGKVAKSFIDKGEL
+VPVSLVASIIKDRLAQEDCKNGYILDGYPRSVEQADLLEEINKEIDGDAEADFRAIYFDL
+DTEILISRIVNRRSCPKCGEIYNLKFKPTKVEGICDKCGTELTQRKDDNEETAKARFDTY
+FKETAPLFDYYKNKNLLKTINAEGSIDEVWERLLKVIND
+>tr|R7MCW6|R7MCW6_9CLOT
+MFFNNTDKRYNQFSAYLKNKFGAKVYKITIDAGFSCPNRDGKISTGGCIFCDEGGSFSQA
+HSNLLSIQEQVNTGAKTLHDRFKAEKFMSYFQAYTNTYRPVNELEKIYKSALNHPDIVGL
+SIGTRPDCVENDKLDLISDISKDYYTWIEYGLQSVHDKTLLKINRGHNFDCFLDAYERTK
+ERGINVCTHVIFGLWESRDEILQTAEKLAELKVDGVKIHMLCALKDTKLATLYENKEIDF
+MSEEEYVQLVCDFLEILPPETTIHRLAGNGLKKNLIAPRWLGAKLDCLNKIDREFVNRNS
+YQGAKNTLQNHKNMT
+>tr|R7MGW3|R7MGW3_9CLOT
+MQIYSDKIFENPREIITAFDNESFILAFDKLEKLKNNYYLVGYIRYEARDIFLGKKIQAK
+YPLLYFEVFSDYKIFEPVKNPREVYLFPKPKISFSEYKKGFDIIKAEIASGNTYEVNYTF
+DFQIDTKYSSNEIYNYFLKEQKTPYNAFFKNNYEEILSFSPELFLKKVGNKILTKPMKGT
+IERGCNEEEDREKINFLKNDLKNRAENVMIVDLLRNDLGRISKTGSVKVPKLFEIETHKT
+LHQMTSEITSEIKDGTTLYEIFKAIFPCGSITGAPKISTMNIIDNVEVGNRNVYCGAIGF
+IHKDCCEFSVPIRILQKTKDEKSYIYRAGGAVVWDSVVENEWDEAILKTAFLAENSKDWQ
+LLETLKVEGEKPILFCEHLERLRNSARKLNFKYNKTLEKLKFSQDGMYRILLSKNGNFRV
+EFKPLKEIRTDKVVISDKIVNSSDVFLYHKTTFRPYYNESFEKIKNNEIYDEIFFNEKGE
+LTEGSRSNVIVNLGGVLYTPPVSCGLLNGTFRQKMLKDGRCEEKILYKKDLLNAQNIYCV
+NSVRGMREVFL
+>tr|R7MJL4|R7MJL4_9CLOT
+MKKAVIFDLDGTLLNTLDDLADSTNYALSRFGYPTRTIEEVRQFVGNGVAKLIERAIPEG
+KNNPNFEKCLAIFKENYAQNMYNKTAPYNGIIEMLSNLKSKGIKIAVVSNKFDLAVKELC
+KKYFEGFIDFAAGENEAQGIKKKPAPDTVISVLNKFNFASEDAVYVGDSDVDIMTAKNSK
+MPCISVTWGFRDEKFLLENGATILINAPSEIYNHLT
+>tr|R7MJ94|R7MJ94_9CLOT
+MTEQKIAVLGCGLWGRNIVRNFYNLNALGMVCDLDDDNIAKVKEQYPGIKTTKDFNDILN
+SKEITGVVVVTPSHTHFKFVKAMLEAGKNVYVEKPISTVAQEARDLADLADSKGLVLMVG
+HLLLYHPAVNRLKMLVEEGALGDIVYAQSDRLNINYFKNDRSVMWDLAPHDVSMISYVLG
+KNPERVLSAIGCSSDGNDIMDITHIGIKMEGGAIAHITDSWITPKKHVQLLVRGTKKTAI
+LDDTVAEHKLTIYDNFKAGSSENVQLDYLEIEPLKLECQHFISCCETGKKARSDGENGFI
+VVSILEEAEKIMLGDRAKNLDSVDFALSRTKK
+>tr|R7MEH9|R7MEH9_9CLOT
+MAKHCEICGKAPIKAAKLTFSHKQIVHTQEPNLQSVKAVVNGTTKRIRVCTSCLKAGKVQ
+KASV
+>tr|R7MFG0|R7MFG0_9CLOT
+MARIRQLSKHLINQIAAGEVIERPASVVKELVENSVDAGATRVSIEITNECRDIRVADNG
+CGIHPDDILLAFSKHATSKIKEDDDLFDIHTLGFRGEALASIISIAKLTCITRTKDFETG
+TKVSCENSEVKQVETGCAVGTIMDIKDLFYNVPVRLKFLKSSNTEFSYIQEIVQAIALSH
+PEVSIELKKFGKTVLKTTGQNNLTQTIKEVYSSDVTNSLKEVLKTDAISGLKISGFVSTP
+DYTRSSKKSYHLYINSRSVKCPIFQKSIDMVYKNLTANNKYPFVVLNLEIPPHDVDVNVH
+PTKKEVXXQRKKKLGTKIRTKFSILYIQPLKLVFQITKKNLKKKHIILLLKDIINQTIQL
+>tr|R7MCI8|R7MCI8_9CLOT
+MNNTKAFELSKLIDNELKTEEDIKEWLSLNLAEYLEDGNLNAFVRSLEYVVRAKDNISNL
+SRKTGISRSNLYAIFRGEVTPQFDTVLKILKELGYTLKVV
+>tr|R7MCN5|R7MCN5_9CLOT
+MKKKYNVGSLFAGVGGICLGFQNAKLGDKEYDIKFANEIDEYACETYRKNFKHPLLEGDI
+HKFLNPSLCSSEDEKNYYESQRHYFFDSKIDVLNGGFPCQAFSIAGERRGFADERGNLFL
+QIVELINQMDKYSQKPRILFLENVKNLLSHDSGRTYQIIKSKLEDCGYTIKEKVLNTMDF
+TELPQNRERIYIIGFLNKKDADKFTFFDNSDNYKTKRSAEERAREVEKVINYNVNYQDNK
+EFYYTKEKYPHYFLDDGINLAKEVNEKYQFYQCRRGMYVRKNQSNVCPTLTANMGTGGHN
+VPLIKVADGVRKLTPAETFRLQGFPVGHGYTLPVSFKGKPYSNSHLYKQAGNAVSVDVIQ
+MLAEEILKILD
+>tr|R7MJZ4|R7MJZ4_9CLOT
+MSRRSKPAKRVPLADPVYNSVDISKFINRIMRRGKKSLAERIFYATMERIKERTNEDPIE
+IFQKAMTNATPLLEVKARREVKARRIGGSTYQVPIEVKADRGFALSSSWLIESAKKRGGK
+SFIDKLTNELIDASNGQGSACKKREDTHKMAEANKAFAHYRY
+>tr|R7MA57|R7MA57_9CLOT
+MWERNITAVQIQQETGINAATISRIINEKHNNLGLDMVDKLCRVLDCKIQDLLIYERNNE
+>tr|R7MH89|R7MH89_9CLOT
+MHIHVNGRNIEITEAIKAYVKEKIGKVATRYDQIQGIDVVLSVIKNPAAEGKHIAEVTCK
+MSTGTIRCEEAAESMYASIDLLADKLARQITKFKDKNIGSDKASIRTDIQNEKDEEETVE
+VKAMED
+>tr|R7MCD3|R7MCD3_9CLOT
+METLSGLNLREIEKITDSLCATKFRARQIHNWIYLKSVKEIDEMTDLSKKFREELKKVAT
+VTDIKIKVKQVSSDGTIKYLLEYPDGECVETVLMRFDNRANLTACVSSQVGCAVNCSFCA
+TGKRGFIRNLSYKEIIEQVLTIQRDTGLKVTNVVFMGQGEPLLNLDNVLKAMEMLNESFQ
+IGARRLTVSTSGIIPQIKKLAELDMQSTLALSLHAPNHEIRKQLMQIENKYPMDELREAL
+KYYVDKTGRRITIEYLLIKGLNDTISSAKQLATYLKDIKCNINLIPYNPTAKNDYKRPDN
+NSIMKFKALMEHSGKKVTVRLERGADIDAACGQLSGKAKKEEI
+>tr|R7MJQ7|R7MJQ7_9CLOT
+MNYIQNYRISSNSVYAPKFGASNPVAGKESQPQSKEQEIKSLSNVTPDYGVKAPMSYTKT
+GELKISDDLTAQCYKLANGQKVVIVPKDGTTVVKTYVNTGSMNEPDNLRGISHYIEHNLF
+NGSEDLGDKVFFDEVNKMGANTNASTSFSVTDYYISSNLLDDTDLENKIKLHAGMIQSPK
+FLLDKLEKEKNIVNSEINMCLSEDENIGFTQTVKNLFNIKSSSNDLVAGSTDNITALTRD
+DVVNYFNNNYYPANMTTVITGEVNPDETMKLVSKYFNSQKVPNLNRHFETMTPIDKPIRQ
+DLISSKSEGGASIFLGFVGPENNNGEDIVKVNALYTLLGDLANSRFSSLEQKYSTGVSLQ
+KERISSRPNDNSILVFETEVKDDYVEPFLKDLYSNISKIAVTPPSEKELTAIKNKMKMGH
+DRWLECSHALNHAVGSSILDGRSEYLSKYNEMIDKLTPQDISNIAKKYLDLNKVALTVVH
+PSNTKPEDINNNYKATESISFTGANKKTPIKMENVSEYKLPNNYDIIFNDSNSDVIDFHY
+ILNNKDYNPKRSAVADVLDYMLLYGGTQKQSHSEMSSAFDTLGATTDISANTGGIGFSAR
+FPKDNLQKVLELAKENVLTPNLSEDNFKKAVKGCSDTYSTHEVSPFDKFDKAMYKNTSWE
+VSVDDKKEALPSVTLDDVKALYKELIEQSEGQVVVSGPFSKHPELKAQIFNNIGSLNAVK
+PKTIELKDSYIPQEKTEVYTAENKKNQAKIVEGFKFKYSQNIKDSVCLELLNEILGGSPS
+SRLFSDLREQRHLAYSVSSSWDVVDNIGSMYMTIGTTTENKESGEQTFDNIKKSIDGFNE
+NIQKIKTEKVTPEELEAAKKALKTAILSPLEMSSAKTSTLLSSAKNPYGLGYINKKLELI
+DSITADDILHTAQNVFSSKPIYSITATKPSLDANKEVLDALVES
+>tr|R7MFK5|R7MFK5_9CLOT
+MPKEITLAKFAGFCYGVKRAVTTVKKLKSENPDRNICVLGELIHNTQVIEELNAMGIKSL
+KELPNQGDGICVVRSHGESPEVFKQIENSGFEVYDLTCPDVKKVQQKAIELAQNNYFLVI
+VGKATHPEVIAIKANAEQFSKNVLVATEPEELKAFEQELKSAKKIGVVVQTTQMISTLNK
+IVEYLTPLTKELLIANTICKSTSMRQSEAKELAKNSDLMIVVGSKKSANTTHLAEILKNI
+TPTIHIETEQELDNYKDLIEKSQKISITAGASTPDSVIEKVIEKIK
+>tr|R7M9S4|R7M9S4_9CLOT
+MRTLLVIALKEPIRQTELVRLRSAAYEHVAELVEKGLVSKHKDKNGRSINVKTTAKFAEY
+FKLKGDTRALAQQLEKDLAEKNNA
+>tr|R7MC30|R7MC30_9CLOT
+MIINSNTVGIIADDLTGANDTALQFELNGADTNILLNNEIQKTQTNPSQAWAISTESRNV
+SPQDAFEKVKNAAQLFVNEINPDFFYKKIDSTVRGNIAVEVLSLLQVLEWDAAIVMPAFP
+QEGRITVGGYHLLKGVPIERTEMARGPQSPIS
+>tr|R7ME30|R7ME30_9CLOT
+MKPETKSFQLEIGGKTVTIETGKYAQSTNGSVTVRCGDTMLFVHCVVSKEPRVGIDFFPL
+LIDYEERMSSIGRIPGGYNRSEGKASDKAILVSRLIDRPIRPLFPKGYRNDIQIVAQLFS
+YDQENQPDTLAMLGASCALMLSGAPFEGPIGAVRVSRDSEGNLIANPTHQQAKASDLDIV
+VAGTHDSVIMVEAGCKFVSEDDIMAAVEFAQGEIKKQCEAQVEFAKACGVEKQEFVNPYD
+TTGIKKIIEETAHDMIFDAYHNFDRAYRQTKLEEAKKLVKEKIDALPDDDYIKQIIEETG
+IDFVAEEFKNAEKHIMRTMILDEGVRADGRKPTEVRPIWCEVGVIPRAHGSAVFTRGQTQ
+VLSVATLAGPAMKQELDGVDPETEKTYMHKYIFPGFSVGEVKPLRGPGRREVGHGHLAER
+ANIPALPSQEEFGYTIRVTSDVLESNGSTSMASTCGSSMALMNAGVPVKCMIGGVAMGMI
+TEEGKEPVVLTDIQGIEDFLGDMDFKVTGNDTGITALQMDMKAKGIANDTLRRALAQAKE
+GRLHILGKMREAITEPGPMSPFAPSISTMTIPTEDIGTVIGPGGKQIRAIIDASGAEIDI
+QDSGVVTITSNDQEGAKIAMKMIRDLTFKPEVGMVIKGKVVRIIPIGAFVELGGGKDGMV
+HISQVCNERIESIEPHLTIGQEVIVKVIKIDEKGRVNLTIKGVTEEDKAKVIQ
+>tr|R7MH10|R7MH10_9CLOT
+MNALILRLKNSIDKKILESVDKNLMGLHLFVPISVKDNFLFVAVSKASNKDEVNAILKKS
+FTQSIKFMLVGEDDLRELLADFVPAESIKASAEAPAASSTASPAKSTPISTEKPKVEHGK
+LGEILLAKGLVSEVQLMKALAESKRTGVPIGSMLFELGSISLEQLKDVLHDQTGYELVSA
+DQLVQQKKFVNILPEDFIKANSVIPISSDGKTLVLGVVKPLKMDVLKEIIYLTGQNPKQI
+LMTHYEFKTAVNTFFSEQKRQTDEIIEQIKEETVDSEDEATLWEQVDAELQDSTGSVAKF
+VNQIITNGIDNKVSDIHIEPRLSGYIVRYRKDGMLQKVLDVPAKVETSVIARFKVMARMN
+IAENRRPQDGTFSISYNGCSYDFRINTLPVSGKEKVCIRILAPAVSLASNDKEIKLVGAV
+EADIQKVKQMISCPNGIILTSGPTGSGKTTTLYSVLKSLNDESVNITTIEDPIEIKLEGI
+NQSQINAKAGITFASCMRAILRQDPDIILVGEIRDYETLEIAISAALTGHLVLSTVHTNS
+AAATVTRLIEMGAKDYLVSSTLSGVIAQRLVRRLCDDCKEEYHCTREEAMLVTHDEEEIK
+KIMATPIYRAKGCNKCGFQGYKGRLGVYEIMQITKEIKKLIAQGAHDLEIEESAVSNGMT
+TLNKCCFNHILKGWTTIDEFVRVLGMAGE
+>tr|R7MJ72|R7MJ72_9CLOT
+MNLEKLRLTNYRNCEELELDFDKNKILIIGKNAQGKTNILESIYFLSCLKTPRTSNTSEL
+INFNKDFFKIEADVIKSNTDIDLSYSYTTDKKRELKINGTKSTIKDFKTVLKTVLFSTTD
+LLLLRGAPQDRRDWLDRAISQIYPAYDDRLTKYDKIRVQKNNFLKECAKTGQTNDALLDV
+YNEQLSITGSNIIYIRKKFLKEIEKIAQNKHRTISETENLSIKYDSNFLGINNDTENIEE
+IQTAFKNSLEERRIEEQRRCQACVGPHRDDIVFYINNQEATKYASQGQQRTIVLALKLSE
+LDIITDKTGDEPVLLLDDVLAELDDLRQNYLLKSINANTQTVITSVDTILFEEEFLKDVE
+IYKIESGHLI
+>tr|R7MDV1|R7MDV1_9CLOT
+MRNWRIVIGYVCLVLIAISMLYPFFAMINLSLVPNGEIFNQGGKIIYSPITIDNYISVFN
+KIPLWKYFINSLFVAIVTTLGQVIISALAGYAFARMTFKWRDGLFLLVLITMLVPPQVNI
+IPLFFLMRQFHWINTYQALILPGLFGGFGIFMMRQYFLGLPKDLEESAKIDGCNIFSTFF
+KIALPLAIPAIATLSIFTFVTTWNSFMWPLIVTNTESMRTLPVGLAIFKGSFREITLWGD
+LLACSVICTIPVIGVFLLGKKYFINDILQGGVKE
+>tr|R7MA40|R7MA40_9CLOT
+MNNYIERVLNDTKMKNSNEPEFLQAVGEVLETIKPLLSVHPEYEKEAILERIVEPERIIS
+FRVPWRDDSGNIVVNRGYRVQFSSLIGPYKGGLRFHPSVNQSIMKFLGFEQIFKNALTGL
+PIGGAKGGSDFNPKGKSDFEIMRFCQSFMTELYRHIGQDVDVPAGDIGVGAREIGYLFGQ
+YKRIRGAYEGGVLTGKSISYGGSLARKEATGYGLIYFINEMLNAHQNSLEGKIVTISGSG
+NVAIYAAEKAYSYGAKVVAMSDSNGCIYDENGIDLELVKRIKEVERGRIKEYLKVHSNSQ
+YLEKTGEDSPIWTIKTDIALPCATQNEVSLNSAKALVENGVFVVGEGANMPCAQEATDYF
+LEKGVLVAPAKAANAGGVATSAIEMSQNSMRYYYTFEEVDSRLHQIMVNIFNSCKNACEK
+CGCSGNYVAGANIAAFEKLADAMIAQGVV
+>tr|R7MBA9|R7MBA9_9CLOT
+MIKEVLKQLWKDKFARIALIVLGIIYLALFLADFIAPYTKDFSDRTMAYVPPSKIFTIDE
+TGHISKPYTYNYIRDFNSQTLEIEYNLDRSKKHYVKFFAQGQPYKFLGLIPMKRHLITTD
+SDGRLFLLGTDINGRDVFSRILFGGRISMTIGFLALFVLFPIGLLYGGISGYFGGKVDML
+MMRFAEAVMSIPSFYLLIILASILPSGMTSTQRFLLIVIILALIGWAGFARVVRGMVLSI
+KSQEYIQAAQSIGASKMRIIIKHILPQTTSFVIVAMTLSIPSYILSESGLSFLGLGIQQP
+DASWGNMLKEAQEFTNILYRPWLLTPGFLIFVSVLAFNLIGDTIRDVLDPQSKVR
+>tr|R7MFN3|R7MFN3_9CLOT
+MEKFRFLTAGESHGKCLTAIIEGLPAGLNIDIDFINSELKRRQQGYGRGARMQIESDTVE
+IMSGVRFGKTLGSPITLVVKNRDFESWKKIMSVAPEDVTDEKAFSTFRPGHADYAGCVKY
+NQSDLRNVLERSSARKTAIEVAVGAVAKLFLKEFGIECSSEITQIGTACCCDKFKEEIDL
+TKENGDSVGGKFVVVYKNLPIGLGSHVHWDRGIDGRLAQAVMSIPAVKAVEIGENPLGYY
+GSTYHDEFTLENGEIGRTSNHAGGIEGGMTNGQDLVISAVMKPIPTMKKPLKSIDSKTLQ
+PTEAHFERSDVCAVEACSVVAESRVAWVLVNEILLKFGGDSIEEIRRNYHK
+>tr|R7MFF9|R7MFF9_9CLOT
+MQTLARFIQNKRNELGLTQKGLAIAANIPLEDVEEVEAGKELFLPVTVRQALAKVLKCEP
+SEIKKLEKDIASDIVSPEIIESLKQLILNGAGGLKCPRCGAPLDTRIARMYDLEDNLVLH
+PKAHCTKCPFQIHS
+>tr|R7MD14|R7MD14_9CLOT
+MIIQKLKIKIIALGKIKEKFLKEGIKEFLKRLTPYASVLILELNPIEIKDENLTAKILLD
+EGEKILSNIKPQDYVITMEIKGKQFSSEEFAQKIEEITNDGTQEIVFVIGSSCGIGKNVS
+DRANLKMSMSKMTFLHQFARLILVEQIYRAFKIIKGETYHK
+>tr|R7MCZ3|R7MCZ3_9CLOT
+MAKRIIFDEEARKALLKGIDAVADAVKVTLGPKGRNVILTKKFGAPQIVNDGVTIAKEIE
+LKDALENSGAQLLKEVSSKTNDVAGDGTTTASVLAQAIVREGLKNLTAGANPMSMKRGID
+KAVEAAVEKIKAMSRPVNTKAEIAQVAAISAGNNKEIGELIAEAMEKVGHDGVITVEESK
+SFGTNLKVVEGMQFDKGYISPYFVTDPERMEAVLEDAYVFCCNKKINLISDLVPLLEQVA
+RDGKSLLLIAEDVEGEALATLVVNTMRKVLRAVAVKAPGFGDRRKAMLEDIAILTGGEMF
+TEELGIKLENVTTQMLGKAKRVTVSKDETTIVVGDETSAAVQERIHLIKNQIAASDSEYD
+KEKLQERAAKLSGGVAVIEVGAASEVELKERKLRIEDALNATRAANEEGIVPGGGVALLR
+VQQELNSKLDSMDFESDDEKVGFKILTAALDVPLRAIARNAGAKADVVVDCVLEKDGAYG
+YDALNSKYVDMFQAGVVDPAKVTRSALINAASVGSMLLTTEAAVVDIPEEKPAAPDMSAM
+AGMGGMGGMM
+>tr|R7MFK1|R7MFK1_9CLOT
+MDKKEYIANQLKRTFNKKYENYCITRIYHLLKRNDVQIITQQMFKRKEDGKIALADLYFP
+QINLSIEIDEPHHFSQKEADKTRTREVLERKKLIDEKLIALGEVVYYELEELRIDVSKNI
+EDINSQIDNIITLINKRISELGDKFKPWDCCDKSPEDYIKLGKIECRDNVSLRTIQEVSD
+LFNKGYRGTQKCYFRTNAAEEHVWCPKLKLEDTDFKGNRYQNEISLDGKFIYETEENNDE
+FYTYDRKNEVRIVFPKYRDETGSWRYKFKGIYTFNRELSDKTKKAVWEKVGESIDLKQYF
+Q
+>tr|R7MJA7|R7MJA7_9CLOT
+MGLSAAQARLLTITARKSDCEFQSMSLSHQKIALSRDMERISTEYQNSLNNTKLVYDYTG
+TNTSNMDVSYGLLMTPSVYNDYYPKLVTDAKNRVVLNSSYAAAARAAGIPAEGLTGTPSS
+DVRNRFIEALAANDLITPATATTIQGTTYGNTIGLGSTKNVTVGTTDCTYDELLTLLKTT
+ESTTTAGVSLGNGATKIHYKDSKDKWKDAYEEVYKDGTKVAGGNGGTDYSLTLADLLENN
+YDLYYAAIRSEQTPIMETAELQKKIIDQVLPWISDQFTSVMGGVTSNELAIQYAYNQVYD
+LLYGDGHLGDLAASFNYAGGSGEDTDLDEHTEYTHNRQGASGTTYNIKNTMESVGTKVSG
+DVEDSYYNDVGIYAKDHIGFVYSAANKGSDDDGNDHCCVAISISNIAKVFLTAMVQFQEG
+ADNTDYSYNKGNIARTANLYDPEKDGYTFKVVTNTDADAGTDSSVANFYDALFNKICLNG
+WTENDMIDDTSYLQEMMKSGMVYLSSISTDGNYYQGSYSTDTHISEVADSEAIAQAEAKY
+NTEKAKIENKEDTIDLKMKNLDTEISSLTTEYDSTKQIITKSIEKSFKRYDA
+>tr|R7MK56|R7MK56_9CLOT
+MTKILSEITYIDKKEHLSTDYIEQNLRAKYGELIRWAIVDTQADKLKICLTYEKSGS
+>tr|R7MBE4|R7MBE4_9CLOT
+MVKGNRGNIKITTIEDLYILRALIRYKEDLEAFGEQ
+>tr|R7MGQ2|R7MGQ2_9CLOT
+MFETVKNNLLQIQEEIAPCKPRIIAVTKYFDKEAMISAYNAGLRDFGESRVIEASAKIES
+LPEEVRKNSTFHLIGHLQTNKVKHAIKTFDYIHSVDTVKLAQCISEHAEQIGKVQKVLVE
+VNNAGEEQKFGFSKEGIFENFEEMKNLKGIEIVGVMNMAPLGIAEEEIRRLFSEIVQIRD
+DLEKEFNCNLREISMGMSQDYKIAAQTGSTMLRIGRKLFR
+>tr|R7MK95|R7MK95_9CLOT
+MTNKKEQKKKKVSFPHMGTISYAWSAALRIIGCEPYVEPYTSKKSLSLGTKHSPEAICLP
+YKLILGNFIEAIEGGTDYVAMITSPGCCRLGEYGKCIENALKDLGYEAKYLELQLYDGVQ
+GMYNFLKEASGKNNPPLFIRAIVIAIIKVFMMDKLESKLSYYRAREINHGDAEKHYNKAL
+KIIDANDTLLGLKKAQKLIDEEMSKVEIDKNREVLNVDITGEIYVVNDEFSNQGIEKELG
+RMGVEVRRSLTVSSFLKDAIIPKIFRKGETHLQRADRLAKPYLMRDIGGDALECVSDVAY
+ANERGIDGIIHLSPFTCMPEIMSQNIFPSMREDCEIPILPLILDEQTGRAGYITRIEAFV
+DLMRRKKRKKEKAKKEAPAQEVVKN
+>tr|R7MDU6|R7MDU6_9CLOT
+MADVIEIKDEQFEQEVINSPVPVLVDFWATWCGPCRKLGPVIEEIAKDYDDKVKFVKVNV
+ENCINIAKEYSISGLPSLLVFKQGEAVERMTGLMPKSTIISNLEKHI
+>tr|R7MCC3|R7MCC3_9CLOT
+MTLGVIGKKVGMTQIFDEQGLAIPVTVIKVDETVVTQVKTVETDGYNAIQVGTVAAKEKH
+LTKAQLGHFKKNNLSNYRHLQEFRVENPQDYKVGDKVELSVLENVEKVDVTGKSIGKGFQ
+GTVKRWNFGRGPMAHGSKNHREPGSIGAGTTPSRVIKGKRMAGNMGNERVTITKLKLVKV
+DSANGLVLVKGSVPGCEGRLVTIVPTRTKWN
+>tr|R7MJD5|R7MJD5_9CLOT
+MSTIQSSNGNQYIAPGIGLSTAGYIAGSMASGAIGRVTNQVICGPILANGLKENNGVDTN
+AIRKALKIALDSTGMKDKGVTIKDYSGCKPSDIKSMNRIVKEFLVRVLKRKEKVSVLDFV
+NAQAKESAKLGANALYADKAIHVNIDRAGITAFHELGHAINENGSKFWKMIQHSRKFLGL
+VVIPSLPIIAMCKRKKVEGEETTGPIDKVTTFIKENVGKLTTLAFIPVIAEEFKATARGN
+KIAKELLSPELAKKVSKCNKMGGLTYVVLGISAGVGAFVANKIKDAIAKPKLVKNPEI
+>tr|R7MDZ9|R7MDZ9_9CLOT
+MKKILIVDDEQDIVESLKFVLENCNYTCYCAYNGEDGLKLAREIIPDLIILDVMMPRING
+FKISRLLKFDSKYKNIPILMVTARSQEEDKLIGEETGADEYITKPFDLDDVVKTVQKYLD
+SDK
+>tr|R7MEE9|R7MEE9_9CLOT
+MKGIILAAGAGSRLYPASHHISKILLPIYDKPMIYYPLSTLMLAGIKDILIITNEADYDN
+FVKLLGDGSRWGLHIEYRIQYVQKGIADAFLIAEDWINKEKVALILGDNIYHGHGFSTIL
+KNVVNNNTGATVFGYTVKDPERFGVVEFDEHKKVLSLEEKPKHPKSNYAVTGLYFYDENV
+CEYAKMLKPSARGELEITDLNKIYLEKGKLNVEILGRGFAWLDTGTHDSMLQASNFVQSM
+ELNKGVKISCLEEIAVNHGFIAADKVLENCKQYKNNDYYDYVRQVVKQKPIIFE
+>tr|R7MBW1|R7MBW1_9CLOT
+MDKFYLTTAIDYVNGAPHIGHAYEKILTDIIARHFSQRTNNLFFLTGTDEHGIKIQKTSA
+AQGKTPKQLCDENAQKFKDAWKALDINYNRFIRTTDEDHEKIVQKIFKKLVEKGDIYKHE
+YEGLYCSGCECFLNSKDLTEDGLCPDHLKKPEVVKEENYFFKLSSYKDAIIEHIKSHPDF
+IVPSFRANEVLNQLEDIQDISVSRNKANVGWGIDVLDDPEQSIYVWIDALSNYITAIGYD
+TENPXXRKSFRTV
+>tr|R7MFF3|R7MFF3_9CLOT
+MAFLALASQKSLLTLQKNFLQFQQVGIQNQIQLASAQMSAIQKEYRGCSSDESYEDDADY
+IYYEQLDEQLQTEKDLLDSQITELDSQISSMKTLVQNNIKSSCTLNLSGGN
+>tr|R7MGW4|R7MGW4_9CLOT
+MATILCKNYPQMATVRPNVFKVNSVSDKANTEFIPCPANIIGMKKHVQLLSFQRTVENII
+NDLDSAEIIVAGGKGLKNSKGFELLKDFADSLGGTIAATRGAVEMGLATPAIQVGQTGKT
+VHPKVYIACAISGAIQHTVGMTDSDYIIAINNDESAPIFDIADCGIVGDVFEILPEFIKR
+NRK
+>tr|R7MB97|R7MB97_9CLOT
+MGTELGIEDAESLYAKLHRPHSIKPTEQQAKQLQILNEAVNLITSNDKMGLFPNEGTQLY
+AFDETSNIESSTGYYAAVNSKNLDGVFIHTNKLKAESFPTMLTNVLCEMLEGQTSKNLSS
+YSYNQTELIRSQLNTLITQPQIIEKLNILEKIYKEQQK
+>tr|R7MB60|R7MB60_9CLOT
+MKKVLTYLFAIGIISAGLNPTFANPQTPPANFAQKHPSREMKRQKFEQRLNLTDKQKEEA
+RAIHKKGREQMKPIMEQIIYKRQEIEAISKTKMLERTKQEQIAEITTQIRELEKKANEIR
+KANSQEFESILTKKQKNELAKMKAEGRAEFEKNHPARPPFQGLGTPAGLFMPSFTSRPLF
+PPPAPDFTNK
+>tr|R7M963|R7M963_9CLOT
+MKDKCTKYEALFTFRDEEELNEHIQECEDCRLEHEKMQKVSALLQEVKPYFKERRRNLAK
+IKVACALFMLMFSGTTLGVINFNTDVSDTLKYGSTLSSEDLGLPVDSYGLIAVE
+>tr|R7MGU3|R7MGU3_9CLOT
+MIVLSGGKKVFPEEVEAVLEGDSNFAEVCVFGAIRTSGAKDGTEEIMTVVVPTEEIMQKY
+PNDEELESFVTQEVKNLSVQLAPYKRPVNIVVRKEPLPRTATRKVKRNVVKEQTLAQHV
+>tr|R7MAQ5|R7MAQ5_9CLOT
+MGFVVLDFWDLSVAVDFFSSTELVEALEDADETEGDFPCQLHHS
+>tr|R7MHX4|R7MHX4_9CLOT
+MINFDAENKYILEGTYQVSMSEKDMHYALKPAVLLNFMQDLAAKSIDKIDTDLSCDALLA
+KGLGWFLIRYRIEFDDYPIGVDKIKILTECRGGNRMTTFRDFECFDADTGKRLLRAVTSW
+FVVNLNSKSIVNISQEFPQFISFEKRDDDLALQKIKPISQSDCEKVFHVRYDDLDMNGHV
+NNTVYITWAMEVLDFDFRSKHKLKTLDIYFKHEVKYGDDIISSVKIDRENLTSEHLITDA
+NTGEEVCLLKASYVAI
+>tr|R7MEW1|R7MEW1_9CLOT
+MKKIVNILIIASVVALSGNSVLAKKQQVDENLLASKKQKEIQIVEPDNVKVNHKTEIKKM
+KSNAKSKAKSSHEAEGMYETKFPVINSQIEYADMNGEVTLSDCIKLAITHHPAIMSAISN
+SEIYKSRIGQAWSNFFPTLSAGVSYSRNDMFMTMGGNFAKMMVQKYDMYYVPNISANMLL
+FDFGKTKAIADSAKKTYESSRYDAETSIENVIYNVKVAYYNMIFAKLQKSVYENTVQDYE
+LQLKQARAYFDIGKKAKIDVTYAEYNLGKAKLNLIKAKNTMELASVQLANAVGIPELADV
+VLKDGLNTKEYSVNFEDLIKTAEESRPSLLAAKKKMDAAELNVRSAKRAFTPDIGAFGQY
+QYGGRKINSDYGYSVGLQLQYSALNLMLLKKQVDEANATYKKYVADYEQERQNVYLDVKS
+AYINLMNSHDSIAVSKLALQQAKEQQYQAFRRYQVGLGDAIEFKDSENTYLNAQLDYYST
+LLQYNVNAAELERVIGAPIKESDKEL
+>tr|R7MCW3|R7MCW3_9CLOT
+MKVLPKLTASAQKIMEGKAVATKIQRNPAKTRIVVAKNISSQARENLERYAEEMKPETYL
+EMRNYISRLEMEELMRNGKL
+>tr|R7MC54|R7MC54_9CLOT
+MARLIRPTWAVRCVQSGCKCLFEVAKLEDGKQQEVVCPNCGEHYVYPIYDNDEDEQK
+>tr|R7MK52|R7MK52_9CLOT
+MTEEPVVVKTKEITPLQEVEDTNNTEQTTKPNSQTSPSKVAASQIAEKPLTDNEKIEIIK
+EEYSDEEINARISDNEGNDDSNIIAAASSNASANIVKTTNTDDKLTRKLSRFNNDSIIES
+RKKMKKVQAVSAASGKKA
+>tr|R7MF45|R7MF45_9CLOT
+MDRQNAIGAAQVVGGTYLGYQGIKHGLPRALGLRTEYHTTNKTNADLIKKAGNILDPACG
+GKNGWAEKAGNASYVKSSRNYVHITGLHKDNIGTRPLFGKFTAPLRMFYRKTQCLMYKTF
+GNIDVKKFQKCFVEGDKKAFIINMAKEFKNSILHNRTKKFCISGTDSYFNTKFIPDADDI
+ALKSAEKIKVYNNRFSSMIAGLKKFGLSGMKENKSRVAFGVGLLSLGTYSAVKLIQKGVN
+NICKS
+>tr|R7MJV4|R7MJV4_9CLOT
+MGCKSNQFESAIIEENLIEHGYKKVQNIEDADIYILNSCSVTHKSDNEAMYLLRSAKHKN
+PNILTIATGCMAQIEKEELLKNDFIDFVIGNDEKLHLYDYINSDERFSANDILKQTEFNK
+VELFDTTKTRASLKIQDGCDNRCTYCIIWKARGKSRSADSEFIVNQINNFAKHGFKEVML
+TGIHIGQWGKEFGLSLLDLLKEIEEKTTIERYRLGSLNPPEITDEMLEFLKTSKKFCPHF
+HLSLQSANDKTLRSMNRFYKTEDYLKLIEKINETFENPFLGSDVIAGFAGETEEDFEITR
+KNLLSSGLTQIHTFPYSKRKGTIGAEMENQVPDDVKNSRATIIKEISKEKLNNFIKKNIG
+KTLEVLIEKHPDKHSQNLKGMTRNYLTVQIPSDRTDLFNTLQMVKLVKFENGKIYGELV
+>tr|R7MBZ2|R7MBZ2_9CLOT
+MQKELLKDLFLKDSTPLAGNDIPQELLNSFDNFILEKVPQLGVVPEVLNVYQKFQPMKQE
+APDEMKNKLFMTIKTFALDVARNEKVLDSLVLFRFLIVKAPLVAQDYFSIAEELQILWNS
+DLSKCFLDIYIKKEQNKPLLFLTLGNFNNFVKLDLKKAIQYYEKYIEIDETKPVVYTILA
+NLYSRLYGDESLKEQILYYEKAYSLKPTDRLSLHGLAFNYEKLGNKDKANIYYQKLLENN
+PTDTDFYNYGLFLISCGDFIQGHKYLKHRKSALNTLLPIEKKWDLETDISQKKLLVHFEE
+GFGDTFMYCRFVPLLKKYAQKIIFVVQDKLFDLLKNSTIISEGIDIIADSEDLNSLDYDY
+WMGILDCPYVLKTTTENVPYPDKYLNISKCLVNNYAKNYLKNDDKIKVGFAYHGDMSANY
+FGRDLTIDKFKTLFALSGFDFYLFQYDEDENFEGVVSLGKTFDNFTDTAMALENMDLIIT
+TDNVILNLAGALGIKTYALFNKQTNYRWYKLAGENVGWYNSCTPIQVENQGEWQPVFAKL
+VEILEKYKKENR
+>tr|R7MC50|R7MC50_9CLOT
+MIHEGEKEASVRIVLTDVNGNLLSIFKTININGKKSLCINGKPANDNDIPYEDFDFLLLD
+SDAHNQLDSKKMKDLIAKLKEKSNRQQIILVSTGNDLTDYANQIIAVNQKIKNQSEIKET
+QLI
+>tr|R7MHL1|R7MHL1_9CLOT
+MYIAIMPNKIKFNKQTKIKAPIVEALRAAYNNPTYQFHIPGHTKGLGTLPAFRNLIGKKA
+LMVDTTDEFDNLGTLTPATGPIKEAQELAAQAFGAKKTFFLINGSTIGNLAIAMGLTKKG
+QKVIVNRNCHRSILTGLIISGADPLWVIPEKFSDWGLWGNIDANSIEKLLKENDDVSAVW
+ITNPTYEGVVSDVKSISTICKKYNVPLIVDEAHGCLWNFNEKLPETSLKLGADIVVHSLH
+KTGGSMSQSSMLHISKDSKINAEDVERSLMLLHTTSPSLMLLGSLDAARANLQSQRGQKQ
+LARAISNAKFLRTEIDKMDSIHQLKSDFGYKTDVTKIFIKADGLSGKRLESILEIDFGIE
+VESASDEGILILSNIGNKRSDFEYLVNCLKKIDTHDYKDIYYLENKKHMPMLTPIIKKNL
+REAYFSEKEIIPKDQAVGRLSGEVVAECPPGISILLPGELITEAHLPYLTDYDVIEVLK
+>tr|R7MGR3|R7MGR3_9CLOT
+MLEKEKQYKTLDTPLKKQNFETQTANEFKAKQDALYKLRSDKETQILNQVQAAAKSVMVS
+QRLDAILSDQVIFVGGVDVTDLIIQQLK
+>tr|R7MA11|R7MA11_9CLOT
+MKTVTFDDHHQYAPIDIVDISGSIITTEKDAVKLARFDRDNIYALKLKTAVNVEELLS
+>tr|R7MC20|R7MC20_9CLOT
+MIMMIDEMITVKDYVKSLREDKENYFYTAEDYANELRNESLKSQTSAFITVQDYVNSLYN
+PELNETEEEIAARIEKSIKSAKSENEAQKLESLLA
+>tr|R7MA60|R7MA60_9CLOT
+MLTINPVNMTSKRYVSFGEGNMNNINSKVGVMSLDKKPSAKINFEKDMYITQKADSVQSN
+PLKAIGYNIVKAYNILVTPRRRDAQTESKYIHIPYMA
+>tr|R7MFR4|R7MFR4_9CLOT
+MLDNCRLLDSRLYKGKNGTLLLQKYNQYDHCGHSNLRLTLSTLGDNGEIKQVAEKSYKGG
+YFYKWVNGSATTGDRISVVGNGKILDLGDISHDYLSIDPFEVSGNMSEKSVFEVKDFCKK
+FGPRGEVAFKKFAAFVGQMCKR
+>tr|R7MDS5|R7MDS5_9CLOT
+MKKLLALGVLAVLLASLPVVASDKKNKLEQSEVKVEQTESVETVKPIEILPTMSVESKAQ
+NRIWVGTFQLVWNELMDNIIYGPIRFVGDTPKVVKELNKQSFKKSNVSENAYYTKYGTVS
+PELKKEIEKGIKEKFNETSDILDSFDWAKDSQKLFVYAMLKKDFKFLQAFDKLSEAPFAK
+NYNYNAQYFGINESSNKKLYKNVRVLFYNNSEDFAVKLFTKDKDEVILYRTNDDKTFLKY
+YSEMKEKTSKYHGNRKFVKDDELIIPEISLYQETNFPEVEGRDIRRTNFRIDRSIETVDF
+KMNNEGVKLKSEAAVAVRMTSLLPDNGRQFYFTDNFVLFLTEKGQKTPYYAMKVADVETL
+NKTGRN
+>tr|R7MK39|R7MK39_9CLOT
+MKPITPQQIASLSTAQQYFHDCYIVSSLGILSRSKKGQKILQNNITTNGKDFNIKFNNVN
+EKVEDYFISEKEINNLKFKSYENEMPFEELPVVKAVELAMNKLIKKHPFQKPLICRALET
+QERFEYNKPSNFLKLFTGITPETINESSLSMSLLDKISKAIDTLKKIANDKDSTFIAGTG
+ISFDGLPSWHCYGITKVDIQNNKFHVFDHRLNKELEFPIISGLLKFKFLTGFLGKDLK
+>tr|R7MCM9|R7MCM9_9CLOT
+MSDKPIEIEFDNKEVHEKLLDLAKKTENLRPLMKNIAGIFAYSTEENFKEEGRPDKWLDL
+AESTKKQRTKKRKWPGQILQVEGKLAASINTYYDNDSAVIGSNLEYAAIHQLGGQAGRNK
+SVEIPARPYLKLTDDDYNEIKHNIEKYLEM
+>tr|R7ME87|R7ME87_9CLOT
+MDKKKIINISIFAVILIAGIVFRLLYLHTDIWYDEACSWFTAKQSFPMGTMDNLLHLDLQ
+HTPLYFFLLHFWIKLFGDSEVAMRTLSLLFGIGTLPLVYGATKKITNNKIALFSLAISAV
+SPLLVLFSAEVRMYPMVVFLVVLSLNFLIDFEQTKSTKSLVKLVITNLLIPYTLVGGILY
+NVALWGTYAPYLYSQNKKDFFKYIKGLGAEIVGLIPYFILISYYAKMRSVFVISHEGELA
+FSHIVDVIRNFFGATIVKNIYWPSFDPYQITFLFAMLVVVPCVYFVYGYIQGMKKSDGFL
+SILYKLFILSFCLSIVFSMFQVNIFTVRYILYLVTPMFILAIIGLFKTLPQKHVERFLVV
+FILACGIFNYFNARDFKVLKTLAFKTVRLESDKLNLGVDDIVIMPFGADAPYYFRDLYSP
+RVFYFDLHKELRNPYNTHFYDEKQQKDIIERQALTIYDAVMSNNVFSRNFFDYFTKNVNE
+TVPKGRYVLIALYGSDADNITDIQTLRNSIPGDYVIPARKLEIMFKKFLCDVSVMLNMNF
+VPVKTFRQDNYTFFLYQKVK
+>tr|R7MBZ9|R7MBZ9_9CLOT
+MNEADGSWRQISNSKEWCADFIYHVIDETYKQQGKSVPKGLEKELPPGKPHHRVEELKQW
+GITNDKYIQTANKKNKGQLIAERVKPGDILILREDDASHTGFVTKVYPDGVFETIEGNRN
+DKVCRVRYSPNYHEISGFVQLR
+>tr|R7MDA8|R7MDA8_9CLOT
+MVVEGAGGITCPFNMKEEVLLLPDIIKALGLNIVIVADGGLGTINSVLLTVEYAKQQGIN
+IKGLILNNFEEDNFMHLDNKKQIERLTGINVIATVKKGDKDLNISTNDLLKIWEEE
+>tr|R7MGV3|R7MGV3_9CLOT
+MKNKILGFLFRAILPKKIKAKMLRKAFQKAPTVDCGIFAESKKGNRAMHNSIKQNREIGS
+AINPDDFKETLNADNEAMAVMKGIFAEAKPVQVKGLYDPPPQNAKKGIFTEFMEKSGRAI
+DDEEMIIHSDLV
+>tr|R7MHF5|R7MHF5_9CLOT
+MSNVILKNVRKTYDNSKTVINNVNLEIKDKEFVVLVGSSGCGKSTLLRMIAGLEDITDGE
+IYIGDRKVNNVPPKDRDIAFVFQSYALYPHMTVRENIAFGLKMRKVDKATIEKKVQEAAE
+ILNLGEYLDRKPKQLSGGQRQRVALGRAIVRNPKVFLMDEPLSNLDAKLRVQMRSEIKKL
+HEKLQTTFIYVTHDQTEALTMGDRIVVLNNGDIQQVDSPDEIYNNPKNTFVAGFVGSPQM
+NFINGKDLGLDENILYGIRPEKVTKADGDIKLTVDVEISEMLGSEKIAYFNIGDKKCSAR
+LDSDVQIGKTLDLSMCSSDLYKFDAKTGERIY
+>tr|R7ME99|R7ME99_9CLOT
+MITKNELDVLVEKYETVDFIKDDPVQFPHKFEDKKSIELAGFIASLVAYGSRQQFIKKLN
+ELFDLAEHEPLNFIQNFEPKILGDFNYRFGKPDDFAEIFLILKELYNTSDGLEELFAYGF
+SQEKMFECVVDYFYSRASEKAKQGFYQMIPNPHNGGAMKRMCMFLRWMVRKGPVDLGIWN
+FISPSELYIPLDVHVGRISRQTGLLTRKANDFKSVIELTENLKKFCPNDPVKYDFAMFGY
+GVNNK
+>tr|R7MGZ9|R7MGZ9_9CLOT
+MPQNGVYDLLKMLEIALDEGYSVLKYTVVNKREIETLIDRIYQALPTEVQEARLFLKRKE
+ELQNEAQQKANKIIQDAQAEADRKLSESDQIKAIELQGNKIKNEVYEECEKIKHIALQDA
+ENIRLQATDEAMKIREGAELYAEQVLTSIEGNLTQLQQVVKNGQIYMEQLRTDSIGKYPT
+QQVPTRK
+>tr|R7MI98|R7MI98_9CLOT
+MAKDVVEALAKETGFKNNGAKAQSFAVVRNTNCPAILVEVGYIINPEDNAKLIDKNYQNK
+IAEAILHGLENYLK
+>tr|R7MFW1|R7MFW1_9CLOT
+MNITAQMVKELRDKTGAGMMDAKKALVEVDGDMEKATEFLRQKGMASAEKKMGRIAAEGR
+VDSFIDANGGAMVEVNCETDFVAKNDEFKTLVANMAKHVEDLKPADVDALLATTCPSCDK
+LIGEALKEKIASIGEKITVRRFVRYEGPVATYIHNGKIGVLLSTDKEDKDLMNDICLHIA
+SSAPKFVSRAEIPQSEIDEETRIEMGKEDLLKKPENIRAKIVEGRVNKLMAERCLLEQPF
+VKDPSQTISQLIEGKLTIKAFTRYELGEGLEKRQDNFAEEVMAQVKG
+>tr|R7MDP0|R7MDP0_9CLOT
+MKKNFIITLVAILATSSIALADFSNFNPLSKLKVGRYVCNYQPQNRYSRSLSDKCIISID
+KWGGISQQNCPTDSTESMKLVQDGKCTYSPDRNKYYTCKYPQGSCRVLVAPESGSYTGCS
+GTITDFDRVEADVKAGKCSQE
+>tr|R7MIQ5|R7MIQ5_9CLOT
+MNKISMLRSIVNNGWTIANRRAVCSRIGKSNFEEIANLAKKKGMTGDIFDYQMVKDELNP
+RNLSEVKKVLGVEEPVSESASIAFKRVKNANGEVEKQPISVNINATRDNAGMVTYNFWDG
+DKPIGFVQLEEHFHKKNGTSCRPGILLKDYPKFGIEGDRVIVHMLQNFDEKTYSGIGKLA
+DKVAIQHCLLHGIEPNVVSEAAYQSHLAHFLRGKRFLPYRGEDFNKTFEQIAKTRVKGTH
+IDTSEYGTLFTYMPREMVQRLKAEVKNAPLFSYKV
+>tr|R7MD21|R7MD21_9CLOT
+MAGDEFSLENGRKINKSQINGEILKSKLSQNDKYQKIFSLFDANNDGKLDDKEVESFFEK
+MKSFASKGKSSVFESGEAEDFLKEFKDAKGKSLSDNGVKVGDLFGFVADISDVGFDPVKK
+AQTLVNKGKMNGNIYSSEEIKNIATTELSQDVQDAIKMFQAQKDGQGSVSDFYNLLKEKF
+GSDEAASKVYAKLREEELGAVLLDKAKNFELTEKDYWSEKANLAKELYETTGDEIYNSQA
+QEFENKANAVKGKTVTKQIQTRVQTGFKNDKIADKAVSVSATYKTVTKNVTETIYPLMDF
+DKTFLEERGIKYNEDAVENYDRKKAETQTLVEMNNTLEEVKSQIAKATAYSDSARVKAPN
+EPNYELSQGRSTEYMMDSTRVDELESGVYFVYKKLFGSDENINAALKRIGVDSTVSSTGR
+MSNANQAGKALVKYLENNFKAACGDKSFEQYQKETTEAYKQAYGDKNSSDIANAFIQSQQ
+EGIQNVKTAVSGVGMVVMLAGQFVPGGNVATGMIWGGLATATLGSSAVSLSEAKSKKGGM
+TQEDKSEIIKELSTSVALTATGMGIGKVSSAMYGQLILKNCPMLASKILEIGADATLSAV
+STAVITGELDLKGEGLSQLIPILTGLLKSKGSLKTYLIDDFKATSAARANKKTLSEPTNK
+KTQDSNVQEIKEQELSSVKESSSKKINSDEPQGAVKVQEKETPAKTPEEVKQELTEVMKS
+QGYNEWNIKHLLNSGKADFDIVLDLVKNPIIRNLKLGVESLGKINKDNVGFINHIIETKY
+YKKLGCNLDFVSQTILSVTNKNTLPFVNKLIDDGVINAETSSGIWKVLCCVEDNNTSMKY
+LNEFYDTEKSCFLSHLKFSYDPYKRDLFYSHFGMITDKNVDFAIDLLHSRNGKISNGGID
+DDYINIVKSTYKQGYSFLDSNDKHALLAVISKLGDTDKALFKKHGFNIDTISKTLSGVKP
+NVKISSAQQREFLVKTLSNNNAKANKVFKEFDFAKYGTDGLPLKYSRKDFMNNVEDILKV
+LPTQDRVEILSHYGIENDNFDGLLNNRPFEDLSGSSPEFKNAAKKVQSEIDKFTTKNEVD
+IPDKEVKEILDGLIKGLPEFTSIVGKQQHGTHAYSVDIHMLKVLQDAMNNPAYSKLSDKS
+KTVLKFAAILHDVGKAAGVIDSNHFRTSAIYMSSILDKFNLPTEMKHQIIDAVDNHHWFG
+DFNTDKLSAQDVAAKCRRAGDLDVYKILAKADLANVSSTFHYRVTGTSNKAEYDAFIDKK
+MSEVDVEIKKMNSNAPVVFDSKILNGGKKFPTKKVVKNGVEYNVRVLNLADLPEGMPLEK
+YGFVPGTTKENATFGVHFSDSLKESYDVIMSDSXXXVIMSDSRRLAQAHPIFSYMLLKWG
+HAGRISQEGLIFNVDNSNTVIACSVNSVSGFKKNLREHSSPFFNDGSMVANERAKISNLI
+REHLSENAGVKLSRDEYAELFDKYLKSKKYITQIKEDVKIGDKVIKANDLKTAIEKAQET
+LFTYNKSNEVDGSFDGNNEMTTVDPVPVGLYSTKFRIEDCSPELLKMAEEEGLPIILNPA
+KTKAWSVGDDVKPIVSDNPSGSAMSFRKVKSKLTSFFNKSSKISKEDAESFLKQFTLKQV
+GSGRVVRRFDDDDIAYLVEYVQKYPKEVYSLANELTLNEHGDSVPRFSFFSISILAPVMN
+KHPKKVSTLLGMTKENENGLVVPKYSAKEIENIILSKTYNKVIK
+>tr|R7MB42|R7MB42_9CLOT
+MYAGILTCGVAYTLQIFGQKFTSPTIASIILCMESVFAVVGGSLILHETMTPREVWGCIF
+MIIAVVLSQIQMKNFKKGLTVCSQNNEE
+>tr|R7MCB8|R7MCB8_9CLOT
+MRKDLFNSDAMSIDTYIMVKLKEKTAQLREKLEKKNRAPISLSMGAPTANPPAVLIDKLK
+EFLTENNIHTYSVTRGEPYYRQAVAERMKNRFGVELDVNTEIMSLLGSKDGLANLIRFII
+TPQQEEKEKDIILVPDPGYASYSQMIKISGGLDYSMPLTAENNYQPNIEEVFENLKNEGY
+DENKVKAIIINYPNNPLGVSATRDYVKTLVDFCKKHDILLISDAAYCDVYFDENEKPFSV
+LEFDGAKDIAVEFFSLSKPYAITGWRLGWLCGNSEVVTRLAKAKSTIDNGIFKALQKACA
+CVMNSPEGDDYIACSNNAYKRKQSIMVKGLKELGWEIDENKLPHTTFYLWLPIPRKYDSA
+FKFCEDLLEKSGVVIVPGDAFGEYGAGFFRISFVCSDEKLQEVIDRMKADGFKY
+>tr|R7MDP8|R7MDP8_9CLOT
+MGAYTKTGADEIPLSLLSRAIQGEMKICPKFLEPESKNLISNYEDVSIEKSVLGQIELAG
+CKITDEENSDIILYINNFQNNQGEIVMKVGTESFSKTFTTPNKPYMIADVRFANGADNNF
+VKELFKNKINNENFYGFSAWNTSANSLGSLICGAKIKFFAKKYNEKAFKKLQITRFLDDW
+AYQANVRQQLEKPNIEKTTKLMKDFEKTLEKVLNTNIAVNYKFPWERLFEVEVDFN
+>tr|R7MHH9|R7MHH9_9CLOT
+MLKLLSQLFLQFFHVGVFSFGGGYATLPFLYDIADKFHWYSAKQLTDMLAISSITPGPVG
+VNVATFAGFTTAGILGSLVATTAIILPSYIIVTIVFKVIDKFRTNRNIKGAIRGLKPAGC
+ALLSAVGIKLLFTSNLHLLGTLILLGFLILSIKKKQDPLFYLGISAILGLIIGHFNWIGV
+>tr|R7MDW0|R7MDW0_9CLOT
+MGFKEEMLCSKSHEYVIKQDDKYVIGLTDYAIEQLGDIVFLELPEVGDEFAKGDTFANIE
+SVKAASEIYMPISGKIVEINEALVDAPEQLNEDCYEGGWLVKVESSTAEDELKDLVSYAD
+YKEELE
+>tr|R7MEQ0|R7MEQ0_9CLOT
+MSRIVIDENKCKSCYLCIKECPKNLIKISEKTNKLGDRVVEFCDPNHECLGCAMCATRCP
+DLAITEVYKG
+>tr|R7MHN5|R7MHN5_9CLOT
+MFNFLRNKIYKIDKNGNKKRVFFIRGVHFSFKGKNSVVEIHEPLAKFDRCRIVCGNNCFV
+SIGSSPYRVKRLRVLTNGDNSSVKIGKDFSLTNTCEIITTPEKNLNVSIGDNCQFGLYIC
+IRATDGHKIISLEDGTVLNKGKDVVIGNHCWVASNVKILKGSTIASGSVVGMSSVVAGKC
+DTPNSVYAGNPAKLKKTNITWDRECP
+>tr|R7MGG1|R7MGG1_9CLOT
+MNFQTRKDIKRLEDKIKNGYSLPIFKGYVAVDKYGVEQIIDAIYANLPDDVMRAREFLKN
+SNITANTTPKGTTIFDILQMLEITLNETMSFANFSILKIKEIEILLDKIEKNIPEEIIQA
+EISNK
+>tr|R7MFX8|R7MFX8_9CLOT
+MEKNNETLSILRHSTSHIMAQAVQSLFPSAKLAIGPATADGFYYDFDLTDGHAFTHEDLA
+KIEEKMKEIIKQNLTFEKYVIPDVEKQIEEFKKEGEIYKAELLEEHKNDNPTLYITKDKD
+GNALFNDLCAGPHLPNTSYIKTNAFKLLKVAGAYWRGNENNKMLQRIYATAYWNKEDLQS
+YLTFLEEAEKRDHRKLGTKLDLFSTREELGGGLVLWHPNLAVVREEIENYWREEHRKRGY
+VIVNTPHIAKSKLWEISGHADHYRENMFFIQKDEDSDEQFILKPMNCPFHILIYQANRYS
+YRSLPLRMAELGTVYRKEKSGALSGLTRVQGFTQDDAHIFCTPEQLVDEINRIIDFVADT
+LAIFNMKFEVELSTRPESFIGEIENWDKAEAGLKEAMDRRGMKYDINEGDGAFYGPKIDF
+KIKDAIGRTWQCATIQLDFNLPARFDIKYQDKDGQLKTPLMLHRVIFGSMERFHGILIEH
+YAGAFPTWLAPTQVNIVPISNEKHIDFAEEVYRKMRDAGIRVNLDDRSESMNYKIRESLQ
+DKKIPYVCVIGDKEIEANSVAVRARAIGQVGTFKVDEFIDIIKAEIKSRANESFAKGLKE
+NK
+>tr|R7MBY0|R7MBY0_9CLOT
+MSENLLKEICNKVLSLFKQTEKEEENAKDVACNRLRVVLMQDRTNLTPELLQRMRRELVE
+LLSKYVEMDKDALELNFDQEGDQMALMLSIPVIRAKDEKEIEEALKAEDEAEESDEDLES
+EEDDNSEEEKEEETSSEDEENDSEYNQENSDEVEKSEEKSEEINNEEQEQNQE
+>tr|R7MHN4|R7MHN4_9CLOT
+MKEQLEKIYAEATTDIENASSVKDLEDIKFKYLSRKGEFNEIKKGLKDLSVEDKKIVGSL
+ANEITQKLESSIKDKFKLFYEKELNEKLQKEKIDVTLPGQYVPRGHVHPLTSTTNEICSI
+FQSLGFSVVPDEFAPEVETEYYNFDMLNVPKDHPARDMQDTFYTNVAENVVLRSQTSGAQ
+IHAMEGKNPPIRIIAPGRVYRNENINSRKNNFFHQIEGLYVDKNITFGDLKGVLNEFIRI
+YFGESRPTRFRSSFFPFTEPSAEVDVQCIMCSGKGCRTCSGTGWLEVLGAGMVDPNVLRG
+VGIDPDVYSGFAFGMGVERLAMLKYAVDDIRLFFNNDVRFLKQFK
+>tr|R7MCS7|R7MCS7_9CLOT
+MINQLLEQEASIVRTRGFELKTFTALNYKRARSWSNLGNLLGVNFDPIADVDQVTSIDVG
+LNMRKDTKYGIWYLNQNASMAIPIFDSESSYFKYSGGLLRLHDFSHGVIGQLRGSYQVIP
+NSKHIPYLDQFQTGGLATVRGYSEGVMLGKSGYFFSGELMFPLLPRTVTNKEGRTRNFIG
+NYLKGAVFADTAGVFPFVGEDVYGGSYFLASIGMGLRVQLPGDLSARLYWGYPLINNAYE
+QHRHMGRFHFELTLEPDFDSLLSKRSTKAQPAPAQPQPAQQPQLAPLDNGPNNYDDIRHY
+DYLLDGSATSL
+>tr|R7MAZ2|R7MAZ2_9CLOT
+MFKKLAQQLKAQNLENKYSSVSSPIQNSENPFLKNLSKHALNLYERKTDVKNFTKLALSD
+PENSSHNQIMDKLFRYGDVIDPFEESKLFDLSDNEHFLRDLGLK
+>tr|R7MHI3|R7MHI3_9CLOT
+MKKLLLSTIVLSMLAMPLPVMAGTHGTNGQVSGRSVGAAALSLLIWPGLGQAVNDQSYSK
+NATHAILGLTGVFRIWSCYDAFVDRQGGVWHNRI
+>tr|R7MJG9|R7MJG9_9CLOT
+MGILSNVNTEERPQMIILGVLTLYFLICGFILYLYFLHRITFLVTLVVCILFTIIYTPQF
+LILKKIKTKDKIKIVDDFLLINGEGIAFADIVNFRVEECKPKVVFFFNNRMVVFKEAIFH
+IKTRFDEFHFNVIGTEKIELLNQYLQNIVQR
+>tr|R7MBP8|R7MBP8_9CLOT
+MQNFGQNASSFNTARTSILTELSGGNAELGEAFALIINDMVMQSGITNPKAEPXXKSRAV
+>tr|R7MIS5|R7MIS5_9CLOT
+MEILLEYLAKGFLIMLAISMPCVLVAAGIGLVVGILQAVTQVQEQTIAAAPKILGVFLVI
+VIGGVGFIKLLTNLFQEGMVLAFNTVPQSENFVLDSNYHKYTTPFAGEMKDRFKNVDNIN
+EIMKNPGKVPYIDKYQREKYTPAAKTAMPKPDMVETKRILGQ
+>tr|R7MKI2|R7MKI2_9CLOT
+MAINLILFGFIVYTALIVVPSIWEELTAEG
+>tr|R7MDE2|R7MDE2_9CLOT
+METQVFKLPKSLKKDARYTFCPGCDHGVAVRLVAEVLDEMGLTENTIAATSIGCSVTIWL
+FCYNL
+>tr|R7MD95|R7MD95_9CLOT
+MQKKSFTVIILLFCLFSQNFIVFASENKYPDYAFEYLGEDRFEAYNRKMFNFNLGLNKYV
+IRPIHILWSSIMPEYGMDRIQSATNNIEYPIRLLSSLIQRDFETSKKETIRFFTNTILGL
+GGMYDPAKTLFKIEQSTENMEQALAGCKMDNGRFFVFPLLSFTSFRGLLGRVLDTALNPG
+SYIATPVLAIVKAGLTVNKTSYMQPIIQMVESNYADPYEIAKKIYGLEGYIKCKNLDRVD
+IKKEMDFVKSNDDKKVAQKPVILKQKTPVQVAEKNDKIVKTEVTSQIYMPSFLKGGANLD
+DYSTENFKLDADIILPNFNPQTPVVDSMRTALFDLPGVDESIWNELSVWNRSFSQRIKTS
+SVGVTEGRADYRFRYILQKDKSSPLAIIYPSIGEGIMSSHSVLLAKLFYDAGYSVVIQGS
+HFQWEFVKSMPKDYHPGLPAKDAIALRSVTLKIINNLQKRYSCEFGDKVFIGTSFGALTS
+LFLGDLESRDNVLGDSKFISICPPVDLIYAMKQIDKNSEEWNKSSEDLKQRVALTAAKVL
+KLYQSNDDSKKDINYLPFTDEEAKLITGFVMHQKLSDLIFTIENASKSAKTGIYHVIDNM
+GYRDYAEKYLLGSTDKDSDDLSYEVSLYSIMDYLERANNYKIYHSLNDYLTNTTQLKKLK
+EYTGANTVLIDNGSHLGFLYRQEFIDNLKNTISNLRE
+>tr|R7MII9|R7MII9_9CLOT
+MSERKLVGTKEMFEKALAGKYAIGAYNVNNMEILQGIAEAAEETQSPIILQVSAGARKYA
+NQTYLIKLVEAALATTTVPIALHLDHGADFDICKACIDGGFSSVMIDGSRFPLEENIALT
+KKVVEYAHAHGVSVEAELGKLAGVEDDVKVHAKDSTYTDPAEAARFVKETGCDSLAVAIG
+TSHGAYKFKGEAKLDFERLAEIKKAVNEAVGYDYPLVLHGSSSVPKEFVAKCNKFGGKLP
+EFGGNLPDAQGVPEDMLNFASKHGVAKINIDTDLRLAMTSTIREFFIEHPEKFDPREYMG
+PGRTAVKEMVMHKMRDVLGTAGHAKD
+>tr|R7MIE4|R7MIE4_9CLOT
+MAFSKKKKEKLFTEINITPLTDIFLVLLIIMMVVAPSFQSMDNAVDVPEVNNGVNIEDTK
+VTVSVLQDGSMYVNGEPTKTSALTDKLLAAKTDPEKAEVVVKADKNIKSAKIMTIMNAAQ
+DAEYKKLVVAGEPLNKKEQQEIERKAGQVDVPKDGE
+>tr|R7MCP7|R7MCP7_9CLOT
+MSTTYQIKKIHTLKNVLGLDDDTYRQMLLSFDVCSSKDLTQAEAEIFIDILQNDAKYIQK
+NNYKKYDEFAGRDEKMATPSQLRKLEVVWACISKAEDKSTTLRQFIKKQFHVDDLRFLTK
+ARASQIIAVLEKIKLQMCLKAI
+>tr|R7MFQ2|R7MFQ2_9CLOT
+MIIIMERDATAENIKAVTDLLNEHGFRVIVHEGDVHTVIDALGDKTTLSPNRIDALDGVM
+QIKFIREPFRLASRDRKSDDTIIEFSNGVKVGGANRPVFMVGPCSVEEDYEGLLEVATAA
+KELGCQFLRGGAFKPRTSPYDFDGLGEKALKYLAQAREATGLLVVTELMDVEDLDLVCDY
+ADVIQVGARNMQNFRLLKAVGKCNKPVVLKRGPASTIREFLLAAEHILYNGNEQVILCER
+GLKSFDNAFTRNLMDIAAVPVIKKLSHLPIIVDPSHGTGQRYLIEPMAKAGLVVGADGVM
+VEVHHNPATALSDGKQSLSIPQFREVFTKLNKMIDTLHLERSISIPSVE
+>tr|R7MFS7|R7MFS7_9CLOT
+MVVNLASKQEIINRNYNHIYAHEMAHKSAGGVFAGAISIERNADGIPVSGHVPIQMPVLN
+KKNPQQTIDHANTVIRAALAPSDSSGQDYKVANQANQIKMKAQALKSKSQGNKLDLQA
+>tr|R7MJK9|R7MJK9_9CLOT
+MPVVGEQVACLMDENSEDGVILGAIYTVDDVPIIETEKQVSANFEDGTFANVDKETQTLT
+LSFPNIHLIGNITHEGTLSNSAGITSSADITDKKSSMQAMRNTYNNHTHPDKNQKTTSTM
+>tr|R7MDE8|R7MDE8_9CLOT
+MTVKVNDSCVACGACESVCDAVFSIEDKAVVNEAAVADNMDAVKEAADACPVAAIEIE
+>tr|R7MFZ2|R7MFZ2_9CLOT
+MKQLNFMQKQFVTEYIKTLDGEKSVKNAGFTVEDAKEFAQELLSRDYIIREIKYQLNRQI
+DALNVPKGYVIQKLLQIAQFSLEEEDILDKDGNFTGKRKLRDSSAGLKALESLCKYLGFS
+SSVGESYREAKIITISNLDDKKI
+>tr|R7MDY9|R7MDY9_9CLOT
+MDYIKISMEELMKWLKDHLSEKRYIHSIGTAECARDLAKKFGLNEEKAYMAGLLHDCAKC
+FPNEELIAIIKEHLEVEDVELMNYKTLHAPVSAYIAKKDFGVEDEEILSAIRWHTLGRIE
+MTDFEKIIFLADKVEPKTRNKDYLEEVRDVLNSVDGLNKAMLDGLNKAMLICYKETIKSL
+VKRDLKICPVTIDIYNNLEDIVNVN
+>tr|R7ME14|R7ME14_9CLOT
+MSEETKEVLSFDTMQIMEMLPHRYPFLLVDRITECVPGKYARGYKNLTMNEQFFQGHFPG
+NPIMPGVLQLEAVLQLEAMAQCSAPILMTMPEFEGKLTLYAGVDGVRFKNIVRPGDKFEM
+EVELTKVKGPICKAHGVGKVDGKTCVEADMTFALK
+>tr|R7MH98|R7MH98_9CLOT
+MEKLLAPWYKDYLRLCKMCNVSPRLCGVKGGAWDHYYELSLKVYDPDGYESYMRIRKYRI
+QYNEKAQILDLLDKLDKGVLRVPLSDSEILKIKKLIEAADFSDSTEKSLAKLIAETKAYR
+ARMAAQRQRVMVYA
+>tr|R7MBR0|R7MBR0_9CLOT
+MLDIKLIRENPEKINELLKRRNPDLSIDEVIAIDEERRKIQTKADELRAKRKSESQKIGL
+MKKNGENTDKIQEEVRVLGDEIKEFEEKQTELDAKQKDILLHIPNIPDETTPIGASDADN
+VEVYKWGEPRKFDFEFKAHWDLCEEKNLVDFERGVKLSQSRFTLYRGKGSRLERAIINFF
+LDYHTEQQGYEEILPPFMANSATMTGTGQLPKFAEDMYKCENEDLYLIPTAEVPVTNIYS
+GEILSEDDLPKYMTAYTPCFRREAGSAGKDTRGLIRVHQFNKVELVKLCTPETSKDEHEK
+LTEDAEKMLQLLKLPYRREALSTGDIGFSANKCWDLEVWMPSYNAYKEISSCSNYGDYQA
+RRANIRYKEKATGKTRFVHTINGSGLAVGRTFAAIVENYQQADGTIIIPEVLRKYTGFDK
+I
+>tr|R7MD05|R7MD05_9CLOT
+MRVDYVSSYTQKSVNSRQNVNTVSKPVNPSVGISNIVKLSFTGKNINQLASLTPENNGLG
+LAETSQGGEGCVGYEIVESMRKHENMDARSFMPFWEHNNPKGGYKFLIHRKEDFPAGVAK
+LPDEMPNSAFYSAEVGEDLATVAKKLGLKIDELSYVIQSRPNGNGKDAKSRYCILEPTSV
+AGEVKRPSLSVLGELDTIPYRLLKISEHNPSYNKLKGQPHYFVYTSDLAKASKPYSYDCW
+GNVPFEAEIVNSDWMRVQADLLHSKMNTPEFGFYDPASVLAHDRVAHTYGVHVANRSANG
+KTDVNGVKVHIIDHNTGRNYQGLTNDPMKFISVVGDEADAAALKAMPDFELLRKAKEQGM
+AALSDRERQIVSTIVDPYLAPFRDGSGMYNILKTGISAVEANPENISEGTVSHTFDKEMK
+SQETPDAAKFLTDDFARIQTKSVGNGVTPANLRLNDPTANFGRGNNGLSDAKAGFTTFEY
+NGSNIDEVIAAKNKNAKWLTNLIWEAGEKGQAELNKLFFNEGQIADGHNVKGYLSPIREG
+DILVFGFGRPDEQKGFPISTKGFLNFLKDESVPKEMKQKVKVLLGAGPWNKDADDYKAIV
+RDLEEIGKLDGGAYKHNIMYVDGFTPNRLVGAAHYGLFTSRREMYGITPIECKIAGTPYG
+TTATGGPVDYTNPKNGFLTRDAVELRPERFGLSWANSPKEIDEARVNHQAEQVGDIFKSM
+IYEYSNDRPSYIAKSKKNIEERVDWHNNGEYNFGKSANRCYLDDILEVDKGWEARNKNPM
+RKVQGKFGEYIEQAEEMMKHTKSKSLKVVLAVVVGGLAIAGGAYMLLQKKKAPAQTKVA
+>tr|R7M8T8|R7M8T8_9CLOT
+MTEKIEKLLNDVNEITIKQKTIKETIAKETGNNFNIFEITHISQKEVPMCRILTELLDPN
+GSHGQNKIYLNLFFKIVLKKDIPLSEPDVIREEVIEGCRRIDILIKDRTKDFVIPIEVKI
+NACDQSKQLYDYSKKRKPNDENPKVYYLTKYGTEPSMGSRESLKDEEIGLISWNVDILNW
+IRACISDKATINKAPIREILLQFETAIEEFTLQTKKGELMEIENLLKTQNDIENAYSIAQ
+ALKNTLLSRFKEKLEEELTKIKPFDDNSQDDNEWNLGYKLSLSEDKSQVDVARISLENNS
+VFKLIQVLNPNDLSWNNSFSKNKFKEKVFSISDDTIFELVKENSFNNKVKECVDWIIEQL
+KVNGQM
+>tr|R7MB86|R7MB86_9CLOT
+MNKMFKLGFTLAEVLITLGIIGVVSALTIPSLVHYFKVKELENSFKKTDSLIQQALKMTS
+NELELDSLDNLFNIKYDGAEDEVQEIAEVFASQFAGATRIDYLKSPLRNNYKSFFHYSIN
+SFTTGKRDRSYWQAISGDFLMLGNGTLLTLPYYQGSTGNASSLMIFVDTNGPGRGPNRWG
+YDVFYYISNDNYYVNQCRPYVQDTYATMGCYRFAHKNMNPYDNSIPYWKSLYKDKKWWMD
+IKK
+>tr|R7MDV5|R7MDV5_9CLOT
+MIKFLNIKQHKAEVKRLKFVMKFQDQLDSLVKTVKDRARNEIFDNSYYREINVPIQNKDK
+SVYCRSLVLTISQDSKNKANHLLEVAMLHPTMMIENKRPIAMGNKAEILQALEDKDFMKN
+LSKDISEMSEKLKSI
+>tr|R7MD40|R7MD40_9CLOT
+MTINKHNEIRKNFNNEYLKVLSPLFQSLEPLRQKYVQKFFGVAFMSVFLPLTFIGLPLAF
+RYYFGDTEAFIQGGDFYFVTCIFILMFLAGVLIAPFLLIYLFTGEIFVSLKKDFQNEIKK
+QCLEKVLKSFGEIKPSTLTPKDLRLIGESGLGFYTSSDNRSKHITQIQCDDCMNGVYKDV
+EFRLLEISNGEHSWGRLIISFASNKTIKASAIIAPKNCTPVYSIDGTSIQHAFALLIEFG
+SLYFIGSGICSTLQSFLTGGGMSSFYQFIAFLLLGVSLLCFIRFTLKKLFEFYVGPKTEK
+IKLEDTQFNVSSKDEIEARYLLTPSFIERFKNLQMVYNSRDIKCAFFKDQIMFAINTQKD
+FFELGSLFVPMSDTRQIEKFYNEIIAIYDMIDYFKLNEKTGL
+>tr|R7MI17|R7MI17_9CLOT
+MITFDSLTLKAFLDENKDFLSGARINKIQQPTRRDFLFSLRNNGETKQFYININPQYYHL
+CFASKKNIDKRVIEIPQKPPMFCMLLRKYLQNSRIAKVNQPQYERILEFYVETYNEIGDK
+IYLCLAIELMGKYSNVILYNYDTNMILGCAHNVGAEKSREREMYGGLPYVYPPKQNKMDI
+LDYNGEVNYETLQNDFYWFSKSFAMQCKGQSLENLKSFVSLNKHVPAISEDLKTYSLYSN
+LLDNPVKSNSVNDMIDDYYSEYIYRDKFKTLRTHYESLVNQKLKKVVKSLKQMEYQVMQN
+KNADTYRLWGDLIMANLYNLEDYSKEISVYDYENDKQIIIKLDESKTLKVNANKFYKLYN
+KAKTSNAKLNELIEDLKQKQSYNESLLYSIRIAENIEELHELNDEVVETPKDKQKKVHSE
+PIKIELENETRIFIGRNNRQNDLIVSKLSSEDDLWFHIKDCTGSHVLLKTQKLTDELIYK
+CAKLAKEYSTAKTSTKAGVIYTKRKYLRKPPAAALGYVTYKNEKEIVVE
+>tr|R7MIA0|R7MIA0_9CLOT
+MRNFLSKTVVGIKPSGIRKFFDLVSEMKDAISLGVGEPDFDTPWHIRDEGIYALERGKTF
+YTSNSGLKDLRIEISNFLKRSYNLNYNPDDEVLVTVGGSEAIDIGLRAVIDAGDEVIIPQ
+PSYVSYEPCAVLAGAKPVIINLKEENEFRLTAKELEDAITEKTKVLILPFPNNPTGSIME
+QKDLEEIAKVVIEHDILVMTDEIYSALTYKDKHFSIASISGMKERTIYINGFSKAYAMTG
+WRLGYACAPKEIIKQMTKIHQFAIMCAPTSSQYAAIEAIKNGDEDVKTMRQAYNQRRRFL
+MDAFKKIGLQCFEPFGAFYVFPCIKEFGLTSEEFATRFLKEEKVALVPGTAFGECGEGYL
+RISYAYSLDNLKIALSRLERFVKKLREERKL
+>tr|R7ME23|R7ME23_9CLOT
+MVEGRVKTEEAEKLIKSALDLIDEKNYSTAQEHVDKAYKIFKEEHFTEGISICLSLISFL
+DYSEGKYNYEKALAMLQDGAFMATRASSVTAQLINELIFGNIHFAESNKDVAIIHYNNAL
+KLSVEEDKYNLSDTINTRIRQLQNGMDYSLPTKSDPLVSLVKISRSITALTDIDELLRVI
+AEETKNAIQADRCTVFLWDKDTDELWSKVALGLNSSQEIRFPADKGLAGYVVKSGETLNI
+VDAYQDPRFNPEVDTKTGYRTKTILCMPIMNNNKEIIGAFQVLNKIDGVFTKNDEDLLIA
+IGGSASIALENAQLFDQQLQLYREQKLLFESFIDTLATSIDARDKITAGHSTRVRMYSSL
+LAEAVGMNAKDRSLVEKAAILHDIGKIGIRDSVLQKEGKLTDEEYKHIQEHVRITHNILN
+KIYMSPDFRIITEMACSHHEKWDGTGYYRHLKGEEITLGGRILAVADVFDAITSKRHYRD
+KMPIANVLDILMKGAGSHFDKNLVDTFMSISCSKIIRVFLSEYNGQMNPNDEELLKQYDL
+MSIYRFVNSENLSAESQKVVDLFNYYYLGKSQEEKEQ
+>tr|R7MBQ5|R7MBQ5_9CLOT
+MNKKYIIAAIICFIIIGFLGWLIVISDEAQEKKEREMLPTKIGQKVWTYNMNKYQWREYQ
+KTDDEQSKNEIILQVQAPEGNGGYTSYNLITGNAQVPKEDVWVGEGSQEFLKGKKLYSYY
+PRTFEYYEIIFNGVKFVPRKLSKDEIKTILKGYDFIYVSDLKKSTVSIPYSKRHNKFAVI
+NDIGDNFYKYYIVPNDSKKMEIGDFSDQFILKDNNINIKLQRLEGCSKAYPCFDINVK
+>tr|R7MDJ0|R7MDJ0_9CLOT
+MVDRINSHIQQYNYNTIQRVKNVAMPSNDVQMAVAPSFTSAKTVPFATGQTQNLNLRTTL
+SGKEETQKYTFLTSKLDKNNRKILDALLKNGVLLNSDSNDKSTVLDNLYKIATEPRAEGL
+SSDGILKDTIATISYPYSITQQFGDIPQKYRQKVLSQNNEGKTNLFDIQQGKNDIDVELS
+GTCVAASTEFKLAKQQPAEFARFANELSSPKLAVNKTIELKNLADNTLNAIWLLNAFEIP
+YDMNNFDNAKLKFAPDKNALIRAQIQTTDKDPYERTPLDVLMQSTFMQIGSQQSYNTITD
+KRGGKFNQNDKGLIEFEKTFTESVVFDKNILSVTYQTVDENARLVGYETDLGTMKRHIVQ
+ALDMGENVIIGYTQTDNNNIIINGHEITIIGYKTDNKGKMTFICNDTDDNISKPIEYTED
+YLLPKIHHAALPQEIVEKDLNIVPNWIEGIQMYKEMKREAEQQRFAQQPQVA
+>tr|R7MCN6|R7MCN6_9CLOT
+MKVVQIDGFRGIITALFIGACLFAGFVVFPGMVAMSLWNKYLASLFMFPVLNILQGVLLW
+GIIAITYCILSKKGLAISFKDGPSLSDAEFDTIMRKAKINSQIKKINTVIQKADKFEKSK
+IESEKDLTHVSTPISLNKDINSEKEDETISNVK
+>tr|R7MFR1|R7MFR1_9CLOT
+MRKRAFTLTELLIALGIVGAIAAISIPSLMSTINNRVLASQLKNTVVGIQQVIDEQLTRN
+NTTSLSDTDFSSTNKLLSESNFSVSKICQAGTAHANCWKITTDATPYKWLTGADLRMNDS
+LTLKLKSGALIAYFPTTSAPFTYEGTIDKVIGAFDIDVNGNEGPNIAGRDFFSFYVTDKG
+KIVDRYYNKGNISLATKQEACKGDAYACFGAVGXXLER
+>tr|R7MH97|R7MH97_9CLOT
+MKPGDRVLSMDLSNGGHLSHGSPVNFSGLYFDVKSYGINENGEIDYENVRQMAIEHKPKL
+IICGASNYSKVIDFKKFREIADEVGALLLADIAHIAGLVAAGIHPSPAPYCDFVTTTTHK
+SLRGPRGGIIMCKEQFAKDIDKAVFPGLQGGPLEHIIAGKAVALLEASKPEFKIYAEQIV
+KNAKALAQGLMDEGLDIVGGMTENHLMTLDLRKTGKTGKDIANVLEQVGITANKNTVPND
+PQSPFVTSGIRLGTPAVTTRGFKEEDMKEVAKIIASAVFSSDNEVALKELRAKSLDLCKK
+HPLYN
+>tr|R7MAP4|R7MAP4_9CLOT
+MKKFAIIMALLLFQTQLTVGAATTYANYNKKPAQKTQVKKVNTQKVQPAKENDYLLKYNI
+NDLEAAPWLNGGKRKI
+>tr|R7MIW3|R7MIW3_9CLOT
+MYDEIFDRLSKSDFRKKFKLNPKDRLYLEQKGFDTIRSHAVDFIAKRIAPADIPNDGKQT
+PMRGHPVFTAQHATATCCRGCINKWHKFSKDVQLTKEQQKYLVDLIMEWIKRQVN
+>tr|R7M9F7|R7M9F7_9CLOT
+MKRFLLVLGIFLCLQGCAFAINLFDLGNGYYVDIDSFKIVGNYGYANSEYHSPDLSNNMI
+LRQEYD
+>tr|R7MEX0|R7MEX0_9CLOT
+MEKSFWSIFKTFFKVGTLLLGGGYVILPLLTSEIVEKKHWITSDELCEFYALGASLPGII
+AANTAIFTGRKLLGREGAIAATIGIVLPSFLAIVLLASILSEIVDKPSVQHIFWGVGIGV
+ITLLFLAVKEMWTKCVVDKFSICVYSVCLILSFTRVIPLSLIVILALVSGIIFQRIEDKK
+NLKNNKGDEQC
+>tr|R7MID6|R7MID6_9CLOT
+MKDYFLPPEALAVNPMIISSPLPGGALTANTQMLRDNNLMDKFPEIVSAMKEVVEKGGFG
+TSVTPVSQFYFQQAFNNVMFGKWKKIAEGYGKMVLGYFGKTPCTPDPEVVKIAEEQLGLQ
+PTTETVVDLNDKDPNKGLEVAKKRLEDANLPVNDENLFISAACKEKGILFLQGKGTIGVR
+KNEPAKEAPSTASSDSNEYTVTINGKKYAIALDGNKAKVNGKDYDFSVKEGIEAKGTSSG
+EGTPVKAALPGNVLKVLVSEGDTIEEGDVIAVVEAMKMETEIKSPASGTIQSVEIEVGNK
+VQTGQVLVTIG
+>tr|R7MBG0|R7MBG0_9CLOT
+MDKNYFELRLKINPEMEDLIAEIFFDNFDCEGVVLAEETYKDLEMISTTEGTLKIFLKDD
+DSTTFEDMKYDIENVLDLYREEFQSRGLTDDELGSWDFELEEKKTEDWSQKWKEKWDVTH
+VTDKIAVVPDWIDYKPNENEVIIKLEPGCAFGTGTHQTTQLCMKALEKYMNKGDKVADIG
+MGSGILSILAKKLGATSVYGCDTDDTVIEVAKENAKKNGIKVLDLSDFNPPLEGGSKFLI
+SGWGTKHKYPSKNIQLAKNLRNNSTKPEQILWQYLRNSQLEGVKFRRQQPIGSYIVDFMA
+AQEKIIIELDGGQHNENLNIQMDKIRDEYLATQGYTVIRFWNNDIYTNIEGVLLNIKNII
+NNPTRKSKIFTLPQGEGNIPNVPDIPIDGVYFELGSADKINDKFDFVCANILHFVLAEIM
+GDLKNLMKTGAIMSLSGILDEKKQMVIDAYEKENLELVEEIHQDQWTSFVVKRID
+>tr|R7MJL0|R7MJL0_9CLOT
+MSEIDSHKFACAVAQFLDDKLAKDITILNISNVSSLADYFVIATGDSTPQVKALMETVKD
+KVKTVFSRLPIRQENDVKNRWNLLDYGDVVVHILHKEERETYAIEKFWSHAYSVLEDEWR
+EVAKEYSEYQK
+>tr|R7MDU8|R7MDU8_9CLOT
+MSMNANPQVQPQAAEKSWLVTALLSFFVGFLGIHRFYTGYVWIGIAQLLTFGGCGLWALI
+DLICILANKFNDAKGKTLTDYNKVVAIVLGALLVLSIIVGMLSNLLSIAALFAGQS
+>tr|R7MA43|R7MA43_9CLOT
+MNNIEKLKELVVKFRDERDWKQFHNPKNLSLALSVEVSELAQNFLWVDNKDSINTANTKI
+ENVKEEMADIFIYLLSLADVMNINLEEAVINKIEKNKQKYPIEKSFGNCKKYTELN
+>tr|R7MES7|R7MES7_9CLOT
+MFKFLFAKKEQHSAITEAELNKVYSELKKAYPADNIPEIRKKYLSMHIQKYGYLTYSFQK
+ALDELTNEETLFALEEKWKQNNTFKNGEFTFKPNQISPLARNHEKNSDWFKKEGHDIKLI
+NLAALGNGNKSEETGKFFDWLKQLLILPTGCIENKIYNTTIYLIPFHPREFGCAYLPKSS
+EVSEKLKDKHVEELTGMNAKQQLQTFIYLAQTFIYLAQLAGHPVIYDILPQTGRFSKFVL
+ANPQVARWYDITELQKQLMNKINEVAEFLSKDHDSDDIQIVKDIYIQRLQGNSGDLSPAF
+QELFNSFDGIMIEHKKTFSNAMLERSYQLKIQKRVKELVAKIHGFKNDKKQLEEKDITKQ
+LDTIQALMTEGLWPAPGGAWCSAGVPIYDGMSECGGYPTFKHYDFKGDDVTALANLDCQT
+PYYFVNLENGKFNEDVIELFINSMKQLQQDYNFDGFRVDHIDHIVDEVSEQNGRPISYRA
+PRYVLNKLNTAMKKKFPYFATLAEYMLWDNFYKEYHQDMKFDVLWGNDIISQFDKTPERI
+SEDNQNLSNYNTKFKKGNMLSILKTYNNQDGEFHCIDQYPAQLGEQGALYKWAKYKLLPG
+GKFAQRPMMYVDGDESFTQGGIEYTIGEEVAMKRANNEDFYTKFDAIDRFVKSNNVITGG
+EAQIIVDDEDGYSAWLITREPLRKAFLVVSNHKYPTEKVTKTAATGESYKEIVEGYTIFD
+KEIPIPGDYTLKYEYSLNEKDYEAREIEHTDRLHFEKIEPSEFRIFELERG
+>tr|R7MK51|R7MK51_9CLOT
+MKYSIAILLIILCPLASYSLDLGNNINLTEYPTPEMVMPVEKIDSNTIISGSIEKNIEIN
+LNNCIWIALGNNPQISAAFQDILASDERIKQVWSNFFPSFSWQTSYTHLKQLQLSDALDK
+NLQFNYYLAGQVTLQQMLYDFGVTQNQATIRRMSYQAYKKTFEAVVNDVIFQTKDAYFNL
+LYAYENQRVALDNVKKYQMFYNQAKAFYKSGMNPKVDVTIAETNLSNAKLKQIQANSAVS
+LAIAKLNNIMGVPYIEKYSVIDKLEYKPVILSFEELIDIARDSRPELKLAELKVEQANQT
+VKLAKKSFYPTISFETQYQKGGKSWWSNDGYNIGGYLIFPTINLMLISSEIKEAKYLYDK
+ELANAKNTQNTIYLEIQNAYLKLEELRNQIPYTIIQVKQAKENYELSFGRYKVGEGSPTE
+LKDAENTYEQAQLAYYNALYRYNSAVAELEKSVGKNLNQEQDCLKFKN
+>tr|R7M9X0|R7M9X0_9CLOT
+MGRKALINSKLKRLFRVLLGILILGNSFVFATELAPVGEHQCHSIDVIIGQQENEKRNYI
+RYDIKDLKKPVVIDKTGTDIQSLINISRGGIAIKTKTPTSIGQIIPIKLVYEDIAIDTVA
+QVVFTQGNIAGAQFINSDKQTENNLLYLSIRLDADNGHLVTKLSS
+>tr|R7ME52|R7ME52_9CLOT
+MAGIVNFLSNVFQAPAGVNSTSPVVRQSSETNPYSNNPFVSYNGNSFSSRFYAQNKPVKG
+GYFAGYYNGKQNIVGRRLFIEV
+>tr|R7MK36|R7MK36_9CLOT
+MKNIFIKFLLIFAFILGLNTPSFAGDLGINSVIYDNSSSFVVINSSDSDDYSFNQSPKLN
+IVKDENKAYFDINSAVLKCPLQDIVVNSDGIKEVVVSQFSTNPNVVRVVVSYNDGFNPNT
+IQLRKLDNTLFLRFKNPTVSNYYFQPIYTENKVVEHYEPINIQNPVSVISNNILGQINSA
+FNLGQTTSDKNYILTSKDLVFHTDYYVDNLTVKGADAILTGIGSMTLSKPMYLSSPSRVA
+YDIPNTVVNPAIRNKEMKFNQVDSIKIGQFNRNTARVVITCTNPEQYVPVIYPDSQRLVF
+VDSKALTSTQGLSSVKANLNSVYDDITDISSHTVKLVFSKPVLLGVERKSSALELNFYNV
+DRFQDVNLKTAFIFDGIKMTAMKTGGAKLTIPTGKEDVFDIHAGADGKTIRIKVKGSSMQ
+LPQRPSEKILPIVTKNLAN
+>tr|R7MJ48|R7MJ48_9CLOT
+MKKSLARIAKLALIVCLLNGAAFADFREHFDLGQNYLANYQYSGAITEFRSALRINYLDN
+SARIGLINAYLARAAEYGNRDNNWAKAADDFRSALFYMVYYPTSTQVQNSASAINQATKN
+LEVCLKATNFDFSPENRFNYAKKLRAEGNFSAAAYEFNQALGSKSLQKNSFEQVGDIMKL
+LGNEPKASDYYKKAVSVDPTDLNLRLSYAKILDNQKDADNALKEYSYVLDKSNSDNKDIL
+YTLEKTFRQKLQATPNNGNLNANMGAVLQKEGQLDEALTYYKQAEALDPSNINTRINVGT
+LYQQKEDYRTAIKAYESVLILYPDNVNANLYRAQCYDKLGETKIAQDGYKKVLALDPNNE
+YIKGQMVENVKKTSSPQQFVDYVNTNLANSNPAGIFYDYAIELHKNGKIDDAIFMYNQSI
+KADSTDSEVYVNLALAQAQGNNYDGALATLKNAQSKFPKDSTITSTIKNISGMKTDSLFT
+KASDLYNNKQYKEAINTYLSINPATADSMIGVATSYQELGDRDNAIAYYQKALELKPVDS
+DIAYYIAVLYGEKEDLDHAKIYLNKSLTINKNNTQASEYLTSILEAEKSNLLNDAIALYD
+ENKYDESLVKFNELLSRDAKNSYALYYRGMIYDSKEKRNEAIADLKQAYNLNKDFTICNY
+IIASDYDALGKFNDAYKYYSAYANSNVEDDEYKQYAKARAEELKKYATPANK
+>tr|R7MA67|R7MA67_9CLOT
+MFYGEEEQKVNGDSMSDINAELEHFNWGAFFLG
+>tr|R7MGC6|R7MGC6_9CLOT
+MNKETISFKMEDYTIILHRDEEESKEMEQKRMALYVICLFNMMMKPMVEYYEEYHPERQT
+KVENIIQKHILRLNRLN
+>tr|R7MGZ3|R7MGZ3_9CLOT
+MKNIKDFAKELSLDVKTIEKLTRDNFNYYHFTIPKGNGEKRLITAPKGKLKVIQKWILVN
+CLEKFAVAECATAFIKGKHGIRVNAESHQYNKYILEFDLKDFFPNISFWDVQNLFLRMNL
+SQKLSILFAKLCTYDGYLPQGAITSPYISNLICYDLDLKLLELCDYYDITYTRYADDLTF
+SSDELYLLLSLMQEISSIIHYYGFKVNYNKTKVLLPSNKQTITGITVNNGEIKVDKKLKR
+MVRAKLYYGIKNNDIKDFDILLGFISYICSIEIDYKSKMISYVQYLLNKFGRHDNWGLLK
+ILNK
+>tr|R7MD88|R7MD88_9CLOT
+MQISNNQTNLNFNGAFKIKPSELKAQTEIPALFTQGMQKFTNIEEKGDMFIVVRDNYDKR
+IGNYLSENHVNGVKYYPTINTKSGLDDEKPEGLLALLKDKSIEVKTELDDIFEAISKQKR
+APRKAKLRTVQNELEKISNVLRLNIENPEIITNKNFTRIRDSHKNRTIELISPNNATTYV
+YVKPDSLNEDSIKCILDGNGNITKIATTPNDIHKFMKTFSKMKKDGVNQLV
+>tr|R7MJU1|R7MJU1_9CLOT
+MILPVSNFSDRHVAFRAKPGENKDITYDEDTLLENSFSNRIRIGMDKLTKAFTVYPAKGL
+TGSKNSNFYEFLTMGTVPYLVGSATLMAIFNAPNKSFMPDSKVAANSLGRKMALGVLFYG
+VFKSLSKSFIDAPVKWFTGIDTQLPYAKVNYQLQENPDDYNLTSIEYHKVGESVDFTRWD
+QLYGDPKKGQDLNFRYDKIAKKNGLGENLNDSDQEVKPIYKEVLVKSNLARSFSSYMWAA
+TGVALAFQKPWDNFFKSATMKFWKVNEFTHSLKVFGQSFVQSCKELYKGSPDAVKHFDKH
+AGKYLLGASVVVTALGLLNTLHITKKPPKHVSEQVMDSNKESVVS
+>tr|R7MEW6|R7MEW6_9CLOT
+MSRIGRIYSAALSATYDRYFITKASKKQKLDSVETNLRNYVERTSGASTHDPIEAMKRWR
+KAYKVGISRIKKNEQIEKQFKTPSMMSKIVDYVAGVIKK
+>tr|R7MCA8|R7MCA8_9CLOT
+MKYIFKKESIEIPEGFRSLTDEEIAKDFKALDMDKSYFISKNEWMLSFIKLLGEDIEALN
+KEGLDSIMDKIQDLSNEFDKYDLDHNKYIDFDEYKNFITQNLFISE
+>tr|R7MHG4|R7MHG4_9CLOT
+MSTSIDYFDYIRISIASPERILQWSHGEVTKPETINYRTLKPERDGLFCERIFGPTKDWE
+CYCGKYKRVRHKGIICERCGVEVTDSKVRRHRMGHIKLAAPVSHIWFLKGIPSYLGLLLD
+MTLKDLEQVIYFNSYVVIDGGDSDFRKLQLLSEEEYEDYMAENEESTLKVGIGAEAIKDL
+LAEIDTKKLAEEIRGELAGNVTSVQKKSKLIKRLRLLDNLISSETSPTWMIMDVLPVTPP
+DLRPMVQLDGGRFATSDLNDLYRRVINRNNRLQRLLEMGAPEIIVRNEKRMLQEAVDALI
+DNGRRGRTVVGPNNRALKSLSNIIEGKQGRFRQNLLGKRVDYSGRSVIVVGPSLSLNQCG
+LPKEMAIELFKPFVVNKLIERGYVQNIKSAKKKIERSEAIVWDILEEVIDGHPVMLNRAP
+TLHRLGIQAFEPKLVEGRAIQLHPLACTAFNADFDGDQMAVHVPLSIEAQAEARMLMLAT
+NNLLAPANGKPIVTPSQDMVLGMYYLTTLKDPSQDVKGYFYNFQDAISALEVGVIKLHDR
+IVVRDEKGEKLETTVGRIIFNEEVRKALV
+>tr|R7MJ32|R7MJ32_9CLOT
+MANFEGKDRREATLKKVLPEYGFKNLDEARELCLSKGIDVDAIVKGIQPIAFDNASWAYT
+LGCAIAIKKGIKDAADAAEAIGLGLQAFAVPGSVGDTRKVGIGHGNLGAMLLREETKCFC
+FLAGHESFAAAEGAIGIARNANKVRKEPLRVILNGLGKDAAYVIARINGFTAVETDYDYK
+TGELKVVKETPFSEGERAKVKCYGADDVNEGVAIMIKEGVDVSITGNSTNPTRFQHPVAG
+TYKKWCWENGRKYFSVASGGGTGRTLHPDNVAAGPASYGMTDTMGRMHGDAQFAGSSSVP
+AHVEMMGVIGMGNNPMVGATVACAVAVAQAMNK
+>tr|R7MFB7|R7MFB7_9CLOT
+MTMDEKKMFEAGCFLPSWTEETELEVMPISQVYVRRNKDLQTLVGELDQIKEHIQDVQQR
+QWNLAKLLHFHNNDFVKE
+>tr|R7MJC4|R7MJC4_9CLOT
+MCYKEIELFVSILPQKATNLYNFFTSTKLYGHTIANLIPTNNLASASSDIAQNVFNQSLN
+ITMGFAQAVFITLALTMFTYYILVDKKYLRDKFIEFFPPNLKEKAGCILYNITSRVGNYV
+RAQVLSMVTVGIMVTVMLAILGVEYPILLGLIAGICEIIPVLGPTIAVTVIVMIAFPLGA
+VKIILAIVLFITIQQVSNYVIRPFLFGKFMKLHPITILVALFVAEEFLGIWGVILSPAIA
+ATLCVLVDELYLAPINAKEQENNIEQH
+>tr|R7M8U4|R7M8U4_9CLOT
+MRAEINTWGELAIYCEDYDICKKCANKKKCPLIQAISQEIVILHYSDVAIGECGLFKKE
+>tr|R7MCQ3|R7MCQ3_9CLOT
+MIISVSFLHLDLISLATRAINVSMDNLKTLTTKELQSKWQEIFKIPAPKGYTKSFLIKEI
+EWYYKYRKLSGELQKRLDKLVEHYSETKTIDTKKIKKFEVTIGTKFIREFKGEKYEVIAV
+NGGFIFNGKLYKTLSAVANVITGTHWNGKKFFGVANG
+>tr|R7MHU6|R7MHU6_9CLOT
+MVDKLQVDNPANKQMHYGQTSVGILTPPNRLPKVLVYSGIEAQKRYDDMQHDLYVS
+>tr|R7MFB5|R7MFB5_9CLOT
+MFAKTIKKPIIIFLITIFLTLFTSACDNEQSQILFNKYPFSTETLNSTSNIFKTNDRIYY
+LVTLPKPVTTKKLYIQIVKTGGKTIAGDSADRLGYDLVWTKRVKLKDEQIYYFTDYVVFS
+ESGSYIMKVYSQDNPTKILTSSQFYVRN
+>tr|R7MGW9|R7MGW9_9CLOT
+MQLIIQYPNIRKLGYKLKPNFAFTNNPEFKEICELLFPAVLSSTVGQIHIYVDMFFTSSI
+SEGAWTAIGYANRVFQFPVGILVTAFLVPLFPIFAKLVADKDYNGIKNYFNKGVGVLFFG
+AIPIIIGILVVGMDAVRLVFERGLFDEKATFMVTEALWFLSVSIIPYVFRDSITRVYYSF
+NDSKTPFVVAFSSIVLKLVLNYVLISKMHFGIGGITLSTSLVTLFNACVLGMFITKKMDM
+DYKSLFINLLKMVVAGLITGGICYLCAFEFDKFVHLAKVPFEIIKITFIAIVCMIIYIPL
+NLLFKMEYAGELFNRLSAKLVRK
+>tr|R7MKU8|R7MKU8_9CLOT
+MTHSAAMAGEILPGKTILEALNTDLVCDAINVAMRELFLQIVYGRTQTAFSENGLPVGAG
+LEDLGKGLCSMVGTIHSTKQKGVRYLQLTEGYILELGLDKHDEVIGYKFVNLGKVMDAIK
+SGVDPKEAYEKNIGTYGRFADAVKTIDPRKQ
+>tr|R7MAR7|R7MAR7_9CLOT
+MTSGIPYSFVPGTKAKADEVNANFLAVLNKIEETNSAKLNVDLSNIDETGKATLDVVNTK
+ADKKELDGEWQYCHYVLALDVPLTSPTPLSFDLSSYMPKDENIYEIVLSVRIVTGSGNGM
+YAAGLLKSTPMENNVYFCNARSRTTSSATASGCGIIPLGADKIITIMRTTDYTGKISITF
+DGFRKVR
+>tr|R7MB38|R7MB38_9CLOT
+MRQSGKNQKRTIAVLLTGLFMVQQTMGLSVFAASTISGVTNGGSGSFNIDPTTKNNGTGF
+RHYQDFNLGQGDVANLNFADINTFVNMVDNQVVINGIVNSVRGNGFYNGKAVFISPNGMV
+VGASGVLNVGSLGVYTPNSIDYTNLKNSPSAATLAEATENASNGGAPITINGKVITAGNV
+DLVGGQIDIAKNAGIVGGVNLNQMTIQTSEQQATALFNNLVNTDNLANGNNFTSDATGQI
+RITSNKGVNVAGNIINYATGGEYQDANSTNYSGILINSHNGSTPDGDAITSGINVSGNIV
+NTKGLVEFNNNGGDLDISGNIKNNGTTHIYNQPLAQYSDATKNENIAKNSGINITGKIDT
+KGNLRIENRGGKGLNISGTVNHEGDSFVQNGYSSENDIMGYGKNNEKLDNTGALNIGGTF
+NTTGNAEFLNTEYGQDGLNVTGNVTTGGKATYTNKGAAGLNVKQGGAIKSSQGLEMTNYG
+VGGLNITGSANNTGKATVTNHSGRLTVGGTFTNNGDATFVNNGTELNVSGTVSNENGLLD
+MTNNGANGFNVTETGKISGNGGLNMTNSEAGTAGMNINGTVTNIGNANVLNKAGALNVGG
+SFSNNGNATFVNDGTELNVSGTVSNENGLLDMTNNGANGFNVTETGKISGNGGLNMTNSE
+AGTAGMNINGTVTNIGNANVLNKAGALNVKGSFTNTGDAVFTNDGTNLVVNGTVTNNKGT
+LKMTNNNGAFNVNGTVRNNGTTTNLTNAGADGLNVAGTVYSNGDLTMTNTGAKGINLAST
+GRVNGDNNIYINNNSKGGVNVKGLVNGQKDVNITSENGNVVIGDNTENDNYITAGDNINI
+NVNNGSILNEGSATKVKTLLKANKNLNMYVTDGTIGTEVQQDGAISGSTGIGPKNQGSRD
+FSKSINANIGGNVTAKTTKNSTTANNLVINYAAIDSDMNIDSIKADGRVILTVDDSSHAN
+GGAASGTRYNMLDANKTKGNVNVEGTGISLISNGSIGTKDNKVTFVQTDAANNKMDALAN
+ENIYLRENSFDAYGRDNETKLNTVSTMIAREGDLDVEFAGDTTIDNITAEGDMKIVTRGQ
+KMHIKNLGHIKDSAVTPEDYFGPRDYGLRDNPNLPNGGYTGEYENEALPNNVVVKALDIN
+HNIRKTEKTLDGGYEAWANSTVKIDNAVLDKGKLDITADEIYANGIHATFNKDGFTKVKD
+PTTNKVQGTPDGVEGIPTGHAVRPDDVTDTGRGETERNYYYPAGDGDGTFKGEDSNVDPD
+DGIVDATPLEIPDDNPTPPDPPEPPVPPTPDPEPDPTPNIPDGDGSITYTQRKGEDNIDN
+IDKRQYMRFNVADTKNPVALEKSSKIDGLLDVSRGGIAVSHHNDLKVGDVVPVHLTYGDL
+DIKTNVKIVTATTSRAGAMFVDLDQATANKLLYLNILLEDSMNLSFNNLR
+>tr|R7MBG7|R7MBG7_9CLOT
+MELKEIYDGKTFVETGLAIHVPKISFDVFHPKSGDISKLFEELRVLKKYNPSLVSLTYGA
+SGSGARFSKEDMKTILGLELNLMPHFTCVCETKNAIERNIINIENLGIENILALRGDIPQ
+GVNPCSLDFEHANDLVEFVHEKTTLSIGIAGYPEGHVESPSLDVDIENLKRKVDAGASAI
+FTQLFFDNDKFYRYVEKVEKAGINLPIIAGIMPIRSSAQIQKMLEMTHVDIPQNLINELE
+RFPQQVKKIGAEFAIHQCHNLIDNGIQALHFFTLNHSDQVSEVLDNIL
+>tr|R7MHZ0|R7MHZ0_9CLOT
+MNKIFTVILSDEFSTSEVIKLFAGEFDNLEICQENDYSEAYKKIANYQGKSILLADLSTY
+KQQKLELILKVTKECKSCKVLALSDNPSVDLIIEIMRAGAKEFVPIPIIKSEFFESVNKL
+LSEFNETKKTNNCKIISVFSNKGGIGKTSLATNLALELSKITKENIALIDLNFQMGDITT
+FLDLKPSFNISYMLENLDKINETFLLSTLERYKKTSLYVLADPPYFKQADNIQPRQITKL
+FNTLKETFSYIIVDAEASFEGKNIAALDNSDLVLLVSVANLPALRNTQRCLELFKKLGYD
+KEKVKIIINRYMENDEIKETDIEKVLSKKIYWKIPNNYFAIMTAINKGIPVSEINDSTNI
+ARSYKDLAQYISDNLYKQNMVEKFENILNN
+>tr|R7MJ45|R7MJ45_9CLOT
+MRIEAKNLIKIYGDRSVVNDVSFNISKGEVVCLLGPNGAGKTTTFYMVVGLVKPNKGSIT
+LDGQEISSWPMHVRAKAGIGYLPQEASIFRSLSVEENIKLVLQMNDKLTECEKKKKLEEL
+LAEFGVARLRSSTAISLSGGERRRVELARALAASPDFILLDEPFTGIDPIAIGEIKDNIR
+KLSEEKGLGVLITDHNPKATLSITDRAYVIFDGKIKIQGKSEEVAVNPVAKEFYLGKDFT
+L
+>tr|R7MAX7|R7MAX7_9CLOT
+MNKKLFVISGCSGVGKGTVLKEFMARNSKDFMLSVSCTTRKPRPGEVDGVNYFFLTPEDF
+QECIKKDKFLEYAQFAGNFYGTKQKYINQKFEEGMNIILEIETQGALQVKKKMPEAVLIF
+IAPPSIEELEHRLRGRHTEDEETIQKRLNLVKTELERSKQYDYVVVNDDLERAIAEVESI
+TKKELEQ
+>tr|R7MEH1|R7MEH1_9CLOT
+MKWSDLFNLNKKCTHPKVPIEDDIGYCPDCGELVENHWYITRCSCCGVKQRATIREGEVV
+PEEGFCHNCGSRAYQVEEIEKIDCININYAILVREIVKNEITEYTQSWMDAIQTSGYIPK
+LRQ
+>tr|R7MCM1|R7MCM1_9CLOT
+MNIIEYDKQKFINNIVAKIQPFEEERKKRLLKLLWWQIVLFLVTYGLGKAVVFFIATYPN
+ISVIFSILAFFSFVAFICNFGIYDKEFKQYLKRKCNTLILKKFNLDTIRGIAFSNDILKK
+SNLFSTYSYQEPDDVICGCYDDVNYKIAETTLVAKTSKSTVDVFKGVIISFPTNKFFKTE
+TLITSKGDENIRNYQTNSKFAIKLMLFTAFIPAVLMALVFLFFNAKSMLDSGASTESLIM
+EISSDFDLWIDVTLEIVFSLGVILCFAIPLNRQRKKMQEAKFEDIDFDNRFNVYTKDQVE
+ARYLLTPSFMERLKSVETSFGTKGIKCSFFEDTIMLAIPTNKDLFELGSLYCPIQKSKEI
+AKTYDQIKSIQNMIKHFKLNEKAGL
+>tr|R7MI96|R7MI96_9CLOT
+MNGKITKADSKHIYLNNIKGQHQYWKNVGKQIDKGEAFYRKTRKTSTKLANNPLGVIISP
+IPTIVGFVGYTGATVLSPLTALTSTGGSLTIPAGSSFEVKLIENAYIN
+>tr|R7MIZ9|R7MIZ9_9CLOT
+MEKNTQEVIFDESKTNFFKIDTPIGKLKFFVNSVIIFVAQIIVTIGMYFVGSNFYINPSL
+YWISFVVFIFFLYLFLVNYAKRLWDIMGNKKLAIIVAILLIMLSLTVYYSSILAFILNFV
+AFLILIFTSGKLIKKPE
+>tr|R7MCT9|R7MCT9_9CLOT
+MNVSRIFSSVGRFFGKSSGKVAEVIPEIAKPVRMTKTLRDPNTWRIIGLERTITRNGQEA
+TARIDYLGNGSRRLTINGGGDNTLWRTTTVTREKGASVFGGDRITVDKDTTKYWCYGEKS
+TLTKEYNPQGVLQHKGLKYHRNSGNEYHTYVEATQDRVYGEYPLEHSVESMLKDPRETKN
+IQHSLKKQYGSCYSGKLDTPRYSDNYGNFNAKETNYAKAVKAKEQAAIDAAKKAEQEAIA
+AKEAAEKAAAELRAKQPRINIGKAFNKDINTLTVKETTLANGTVQRTFTDPDTGKVLAKT
+EDLGILHKEWIYGGKADMIYMKQVGKDQPYILAKKGNYTQIRQMKKENYGYGVVDTIDDN
+LYYNDGASSLRRFSCNTDNSIGKIKIYDKTAAAKREQCPMLTEYYPDYPEFAVTQGSIGC
+SERETYRTQKAREHLKALDKDAQNNVLNLEDLFSDYKA
+>tr|R7MBD8|R7MBD8_9CLOT
+MNLFTFVKSWKDFSFLWTLIQPFILKLLKKNVPTSITKLYENLAKYTQPALDSLYKLKAK
+IKETPTEVDDYCFDQGVTAIETFANYLLGEVQNLRA
+>tr|R7MFC3|R7MFC3_9CLOT
+MSPTYKRWYDHDPLLLEVIELLRNYQTELRAQAEIFLQKIEEKVSKETIDKFYAMVKPVN
+ANNRWYDKDPVISKTVEILRIVPPEAQRICAQNFIKTLKDMGIEYESKNVKL
+>tr|R7MIL3|R7MIL3_9CLOT
+MYEIKTQAFFSAAHHLLNYDGECENQHGHNWMVEAFVQGETLNKSNILVDYKVLKKELNA
+VLDTLDHKDLNELPEFKGESPSSEMISAYIYNKLKERIVQXXXKERIVQLSKITVWETQT
+SCCSYFEAE
+>tr|R7MAH2|R7MAH2_9CLOT
+MKMNDYIELVNDKLNEFLQIEYPESIFKSMKYTVMLPGKRLRPVMCLETCRVLGGELEDA
+IPTACAIEMLHAQTLIHDDLPCMDNDDFRRGKPSNHKVFGEAIATLAGDALLTFAPQVIT
+KNSNNLSPSVLIRVLNEYFQYAGARGVIAGQVVDIESENNTQIIDKEKTLKYLHLHKTSD
+LFKLSMRTGAIIAGAEDEKLEALTEFAENFGLAFQIADDILDEISTFEEMGKTLGKDKEE
+GKLTYVSLYGLEESKCKLACLFKKCCDIMKEQNFESEIFKDMIKKINERVGI
+>tr|R7MCE9|R7MCE9_9CLOT
+MTQTLSKNNEKVKGSTVEFETENADIAHKLLEAKDYFYHPHNPDFKNLDFENEFFGFKLK
+DDGAKGNIYLIQRYETDGESNNGLRGATIVFKTQPNHPTLVEKSGGEQFELGTGVDRAQI
+PSYDVNRILSRYIKTMTDEELTQTISSMEKFWGESGTEKDRLNDMYVPFVREAHRRGLGI
+DFKDAHYVYLDKPSTSSYDMAKNLGYKIANKSMKDVGMQSFNAKDESKLPHQPTEEQSKE
+IRLLEEGVRILQECTDLSTKDLLNSDEVNKPTYMFSEGDHGAGAEAIIEGGEYQGHWMRD
+SHLLMQNYVGNLATFLHEISHKSGGDESEVFSMQLTKLQSHITNAIMHNPNAFKKIQTLS
+KMFDEVRSQEFNKQIPTTEVIQDKSFTPEKYKQHIDNLLSVTPEYREYVEPEPPKEPAPI
+EYTGDKNRIVSTGNSGELGKIKIKSFEENRRLTSRFNIAGIKRFAKSFINKILRHKPSKI
+EEDGGIILGDDDFASFTIDAGVAHFDKPIAKDQKPAKEEKHYKYEEFIPSKHESYTTLKS
+SDSMMKELEEKGSVALSIPNAGGLKPKISDTPSVEKDNDFNKTVSAQMTLSYAKKRNWSN
+EKIARDLMQNFYDGNGHTLEGVDLKVKQNDDGTYTIRIDGKGIYNYEHLKRLGGSDKDNP
+KDAGGFGEGSRIIAGSLLAKGTNRVRFACKDWQMDFTTAENARTHEEGVMRTLTKNEAQL
+DGNYVEFDTNDKELVEKIMDSKNYFYSPNNPDFRDLDIENEFFGFKVTPDKNGNLYYIQR
+FQTPDKKMDNGLQNMTLIFKQAAFGENFQNKGGYTIDLNTTRDRMAIEAEQMSELTXXNV
+>tr|R7MIE6|R7MIE6_9CLOT
+MYNLQAIISKGTNNALVQFERFGQIANNLANVQTNGYKKVTFEQILKEDGYLTGAVRTDH
+SQGSIRITKSPYDVAIDGPGYIPVVSPSGEVQYTRDGSFRQGKDGYLTTSDGWIVGEGIK
+IPTNCFKFEIKKNGEVLVYDARGDKAKKVGTIPLVRFDNPDGMQTADMNRLIATDEAGEG
+RLVKNHDCIKQNNLERANVSIYESATDLLRLNASMLASMQMLKLADTMYNKSINIREG
+>tr|R7MJ58|R7MJ58_9CLOT
+MSNLTTGKIVLLIILILLSLYLIWSFFTHTYIRAEFNKMDPMPSRMGVYYKGYKLGTTSK
+LKISKDFKTTYLYITLNQRGLQLPKNITARIKNYNEDTKYVDLIYPPSPMLKYIATGDTI
+KGESGFTLSGISDINQAHLDDLSEKGGDLLSSAKKTTDSLTQMFNLITDILEENRENIHS
+STTSLKNGMANLENTTANFKAMSEKVNDGISKQNIQNSTKNIEKLTANLTDSSKDFISIS
+GNFNKSSQDFSVLVPKLSILIDAVQLVVCNVNDIIVGLKKTLQQKFGGARLLFGKPIK
+>tr|R7MJH8|R7MJH8_9CLOT
+MFEKLKKFFYYKILHKNYWRTGKCKGCGQCCTHIYVKHFKHVLQDEKEFKRLQFLHKFYS
+DLEIIGKDELGLIFECKNLDKETKKCKNHFFRPGICRRYPQEELFAMGGTLSETCGYKME
+PIVPFKDVLNEVNKKSNKKNKIRLFSNVISF
+>tr|R7MC91|R7MC91_9CLOT
+MPTNIRIRRGKKANLPKSAPSGMPLWCEDTKELYIGTGTGVQIIHTYDADTVDGYHASSF
+LQSSKQFIIVSGANTGTTTYVYPPDGYAMSNLVAFIPSIRVIHYNGDVDKNDSMYCNWGK
+EDTRIRISCYNSEQRANPQCNYLAVWRK
+>tr|R7MDL7|R7MDL7_9CLOT
+MKIIDLKYMFGYQKIFKVDNRLSRGSAVFTPIRAARLKLNGVEQIIDLRGGTKAGSSFVK
+TLEKFYCKLFKIKYINIPLAFSRKSIPSQNSLKDVVSTLNGNNLKTYIHCHYGRHRTGEC
+IALYQKSNNQNETKIINDLLDNGWNNKKDFAENSYQSLLLFLQTYFPNKKNIDTVEKYRS
+RFI
+>tr|R7MIR1|R7MIR1_9CLOT
+MPKISGIVQRIIPSDLKRANSMISGALKSGYKKGSIYVEENNITGVRKTYTKSKSAVKEL
+KTLKLSKDDIPAIAAAIAGIAPIPIPGLSFMVYGVGHAIQYGIKNASKITSLFR
+>tr|R7MG60|R7MG60_9CLOT
+MNINLVEKLAQNKVFPIIRSSDPQDVICKAQALLDGGLDIMEINIESPKIFEAIETLSKD
+AIVCVGGIITSLQAKTAIECGAKIISSPIFQTNLIKISKDTQIPFIAGTSTANEAYKAWK
+SRIPLVKIYPITTMGGVEYIENLLRPMPFLNLIPQGDVKLEEVKQYIDAGVVAVGVGRHL
+TVANSYKEITERTKNLLEQLK
+>tr|R7MEV8|R7MEV8_9CLOT
+MKKLQILLILISLFIITPQAQAKEAQNSNANLQYMNLQWWNKFNDENLNNYLGEVYKNNP
+DLKIATIKAKQSKEAIKQAFANQLPQLYFNGNIQREFTSATTRFGDVVIPDYNQSRYYLP
+LTMNYEVDIWGENYLKTKSAKKQAEMIKEDERASYISISSDFAANYYTLIGIDKLIKNQK
+DLITIEENIVNLEKEKYKSGLCPVYELLSEQQTLAKMNERYNSLKERQDIIINQMITQLG
+DRFIKDINRSDYNTISNIDIPEEISTEYIQYRPDMKKAEEYIQKTGIDVKIARRDFLPKF
+TIYGQAGFNAYDWCRIFAPHTFLSNIGVAPSLDLFTGGYKKAKLRYNKLEYEKALQIYQK
+TILTSIQELNDAMMSVKTSNKNYQNSLERFNLEKEKLELANNQFKIGARSKLDNMKDNQA
+ILIMEEDMVTNNINKVISSINLYKATGGQDYTKPSTNL
+>tr|R7MCQ4|R7MCQ4_9CLOT
+MYLIPVPAYVIRSAIHNRKVLKVANKACHKVMGEGIKDTLRTADSIGIINLKFMKNCIKW
+YKKLYF
+>tr|R7MDI6|R7MDI6_9CLOT
+MFPEDNNENFSEENKQQEQNLESDETTIEDFLDKFTVLKKAEKKVFITERDNNSGEGEEA
+PESIAYKFNWGAFLFNWIWAVKYQKWWLLSIPVMLFIPYGFIPAGVLCIWAGMKGNQWAW
+EEVQYESEEDFHEAQRKWVKAWFGFLVVFVVICLMILSSMPKKKQVETQETMTSFTSTTR
+EMKIPDEVYQNTTVKDKYNELLNADKYIIYWVRYKNDFENSNLEFIQNKMTERKDALKNR
+FMLIPNLVEIHDENGNIIESRKNIQMEKYDLKPSCENQDKTCFEGWLYENCYNKYCVINP
+KTKAYIKVGGKKNVIPQAIKAANRWSTEKEN
+>tr|R7MFI1|R7MFI1_9CLOT
+MNNSLRNEFKEFLIKQGYKLRTPSGKNSTVYDYQKRIDYVCEIENCNWEELATNITTAIH
+DYSPNGKKSKYGEKSHNAVFSALKQYHEFINKEKNFDIVKEKESKNHISNAFLKSELDKR
+QITYTEKGKSFYEINISTNKYILKCRTYNKNYTFVSKSEIPNLADNIMTALVEWSNNKPT
+NVYLIPMIEWKNPQNTILKDKDYNGLQSQPEWGIDINQTNKEELNNFYIDKIINNIKKNI
+NQKIIKEIEHPQNLETEKQALIKVRIGHSKLKENVLKIKQACDICGLNHPKLLIASHIKP
+WAKSNDYEKLDCENILLLCPMHDALFDKGLISFDRHGHILISKELNQQNLALMNIDKKNN
+INITSQRQQDYLDWHRKNIFIN
+>tr|R7MG43|R7MG43_9CLOT
+MKSIQLALNSAYYATKDRYFVRKASPQKMNLIDLKFYDRLKETSGPKSNNFKDAYAGWKK
+EFGHKYRMGLREKVINNQFKQQSIIFKTVRRVARCLRRVLK
+>tr|R7MIW9|R7MIW9_9CLOT
+MKKMFAFFSLVFLWVYSCNFAIGYTGKWFNPRIIKTYIQPNHRYSVMMEHSFSEWDRLTG
+GRIRFKFVQSPNTAQIRVVFVKQIKSHDRAIGLTKSTVVGSNKKMTKAIIYIAEKDRQGR
+TLRKDEAYTTMLHEVGHAIGLEHSSDPKSAMYYAENDIQEISKNDLKQLKKLYGWD
+>tr|R7MJN9|R7MJN9_9CLOT
+MGFKFDTVRTIVSELGTKTANFLKHEQPANVLKQSAGNKPLFCHEYWKACKEQRIIRQTN
+RESVSLHGDLNGINHFFITGGNPKYMGDTFVKEMTPREMVSLTDMEFKRLKPTEKMLNVY
+RCIGEKPDFFSEYGLYKKRLGIKKGDVIDMKEYAYATSNKDYASRYLTNDTGIAYEIEVP
+KGSRVSRVGNETCDEIVFPRSSKFECIGTEHVKNSEQDFLRVKLRYIQPNEPWRNS
+>tr|R7MDU2|R7MDU2_9CLOT
+MVDVNQEYVPLHLHTEYSLLDGAIRIGDLVKFCAENNMPGVAVTDHGVMYGAMDLYIDAD
+KNNSKEREKAEQDPNYKPKLVNPIVGCEFYVHDGDISERNPSHNPRYHLVLLVKNNQGYK
+NIVKLASKAHIEGFYMKPRINWELLEQYHEGLICSSACLGGEVLQNLLKGDYEKAKATAK
+RFKDLFGEDYYIELQDHGLEEQKRTNPDLIRIAKELDIKMIITNDSHYLKKEDADWHDTL
+LCMQTKSSKSDTNRFHFPNNEFYVKTVSELRDSFKWLDSETFDECIKNTVEISKKCHITV
+EWKAPLPDFPVPEGFTTDTYLEKLVYQGIRRKYHQEEIDPKLQERAKYELGVIEQMGFSA
+YFLITWDFIHYAKTHDIPVGPGRGSAAGSLVAYALDITDLDPIEHNLLFERFLNPERFSM
+PDIDTDFCIEKRGKVIDYVVEKYGADKVCQIITFNTLAARNAMKSVARVFDIPYARSKQL
+SDLISGDPGAKISDSLQDGMELKTLYDSDPEVKRLVDTALHVEGLKNATGMHAAGVIISY
+KPLDEIVPVQHGKDGVVVTQYHREILEKMKLLKMDFLGLRNLTMISKTVKLIKKCQDIDL
+DINHIPLDDKPTYDMLIRGETVGVFQLESQGMTNLVKKLQPDVFEDLGALVALFRPGPLG
+SGMVDVFVDRKHGRQEITYPHPRLEKVLKDTYGTMVYQEQIMQIFQEMADYSLGQADMVR
+RMMGHKDPAAMAAQEDKLIEGSAKYGMKAEDAKTLFEQIQNFASYCFNRAHSSAYAFVAY
+QTAFLKCHYPVEYLSSLLSSVAGDQEKTQAYIEEALKYGIKVLPPDINKSYLEYAPDGKN
+IRFGLASIKQVGEGVIEEIIKEREANGDFKSIYDFIKRVDVKCANKRALEGLIKAGAFST
+IEKSRKQLMDNLEYITSTASKEAKEKESGQGSLFDMLGDTASVEDAKFHLSGSEEEYDAR
+QIQIFEKEFLGFYVTSHPLSTIRDKLPFLMTHKISQIPDIPNDKVVTICGLVTATKQIPT
+RNDPTKFVRFVTVEDLTGKIDTLAFNSKIAEYNDFLQNEQRIIVSGKVSRRSDDDPPIIL
+VDTVKPVDNSNIFTIELKDELKFEELMLMKQMLCKFSGSDPVMLKLPDLTGDVKILASSM
+FWVNSSNDLVNMLNKRFGERIGISIKSMDTNLKEPV
+>tr|R7MJN1|R7MJN1_9CLOT
+MQISRVQANYFTNYQNNNIRTNTKSQTPAANFNRAESSNPFAKVPVNYKYGANIHFGEYI
+DPNRTVPHVDYEEYLALKPAAKARLRRRYQTFLSKKTNIEGLFDNKYTTNPLSNEKTVEA
+FFDVAQMYNKYKGQPIICLGRSPKWFLNTSLWMKDGIDGYDFVAFSKYWYRPDPIDGVKL
+IPSMAPTEKEIKSYRKYLDRVQADPKSIVAFHEATGKKTIITDFIATGKGAASFLDVMGH
+YAKDEGILEKFAKSIEIVGIGSIDYLESLNPYIEEFSEPSVPLPPILQKYGRDIKQHFYN
+IKNFEMFKDMLMNQNVNECRSTYYPHQAWTVYQPDKFKTGLIKDMSKVKEIRESIPTTKG
+DCMSHFSPAMFDFRNLLSFHIFDELDKANLLIEKGDREKAKKRFKATKRFVRELKKAM
+>tr|R7MBF6|R7MBF6_9CLOT
+MEKDFIIAGFGGQGVLLAGEVLANAFMLDDKKVTWYPSYGAEMRGGTVNCSISMADEEVS
+AVQKSHADYIIVLNQASFDKFTPIVRAGGTIIVNTSLAEKIQKRDDINYVFAPITQMAEE
+KLGNIKMSNILALGLLAKACGLVSLETLEKALYNVIPPHRKHLIPKNVEALKLGYEYDLL
+NV
+>tr|R7MJ41|R7MJ41_9CLOT
+MNNNIKRVCVFASSSNFLDEKYYEDAKELGKLLGQNNYDIVYGGSNLGLMWACASQVKEH
+GGKITGIMPEKLHNLGVFTEGCDEFIITAGMRERKAKIDEISEAVIALXXKRL
+>tr|R7MBA1|R7MBA1_9CLOT
+MVDRNIGEYNRVTASTDSYVRTNFNIKPTDEETRNVISSTFGVIKNNILQAFWYATGLDD
+NVNGAFQQSMTDPNQSFEANGKRYYVYPGGVGKLQAYNEAGNPADGCFSMQVIG
+>tr|R7MF54|R7MF54_9CLOT
+MVDYKELMDKAIEVSKNAYVPYSHFPVGACVLTTSGKTYCGCNFENGSYGLTICAERNAI
+GSAIADGSAIADGEKKIKAIAIYSPKMNKCMPCGACRQVIAEFAESDTVVLQKIGEEIRP
+YTINELLPETFVL
+>tr|R7MIS2|R7MIS2_9CLOT
+MKKLSTQELFEKYCTKKEHTKEVCRLSLLIFEEVNKNLKEMSDRKKDILISSAFLHDIGY
+SIDEDSHNKYSQKLILKEGLSDFSEKETEIISCICRYHRGDLPDKKEDKLYKDFDKDEKR
+TVKRLGGILRIADGLEDDEIGEIKDIKIDYNEEDYITEISIYTEEEITPDIKTIIRKKNL
+FEYGFRTQVVLKFRKLK
+>tr|R7MCP0|R7MCP0_9CLOT
+MKERILLFVIVLGLTAFIYIFQSYTEWGLALLVILMSVYAIFTTIAYKIKQRIDLKKPQV
+KDESYKPFVSIMIPAHNEETVIAHTIETVLKLDYPNFEIIAIDDRSSDNTASVIKDIERQ
+YPEKVKAFIRSKDAFPGKSAVLNDALEIAKGEAILVFDADATMDSDFLTNLVYELEPKDV
+GAVQARKIIRNKDMNILTRCQNNEMTMDTYFQVSRDAVKGAVELRGNGELIKRAAIEDIG
+GWNNYTITDDLDMSTRLHIKGWDVRFCPNTAVYEEGIMYLFPLYRQRRRWLEGTIRRYLE
+YFGDILTSKKMSLRARLDTIAYISEFIMPAWFIIEIGILLVKVFVKDAPPHILLSSVIMG
+AIIGLGFVMACRYSLRRYDNLPRKAALVQSIETSIYLLLIWFPLVLFIGFKILFMKKDMN
+WGKTAHGLIQHEHAIQKAKEKIRQAKEELKKLLKK
+>tr|R7MJ97|R7MJ97_9CLOT
+MLKELLETKHCFKLVCGAGNEDIEEIKRLVYIYAIAGCRFFDLSANEDVIKVAREALDMA
+KVYDAYLCVSVGIKNDPHVEKAVIDYERCVNCGACEEICPQKAIHYAKVKKERCIGCGKC
+WKVCSRAAISYISEEKDLKEILPPIVEKGIDCIEFHAMGLDEKEIFSKWDYLNENYEGLL
+SICTSRGKLSDEALVERIKNMTVNRKPYTTIIQADGFPMSGGDDNYKSTLQAVATAEIVQ
+NEKLPVYIILSGGTNGKTSELAKMCEISYNGIAIGSYARKIVRKYIERPDFWTNPNVIND
+ALLVAKPLVDSVIL
+>tr|R7MJA5|R7MJA5_9CLOT
+MNQYSNLKLQALAIGSLPHNDLTKAMNVVKKDFPQIPFFPQLKNINKNEDMIIQFLEGLP
+SFLPSKLENFTIDSDSEEFFEDLETFFANYEEIISDSNSENLWNYGISKDFSSSFEEFEN
+IIKTTKPQFAKGQIVGPFTLATTLQDNNGKAVIYNETLKDIIVKLLSLKALWQIKRIKKA
+NPNTTPIIFMDEPSISQLGTSAYMTISKNDVTQMIQEISDIIKANGGISALHCCGKCDWS
+IPMKAKIELLNPDAYTFAENFSIYYKMIENLLQSGGKIAWGIIPTLDVEALENTSLDILI
+EKFNQAIKYLTNKGIDEKLIIDNSLITSSCGVGSLSIENAERAMDLVSELSKELRARL
+>tr|R7MB28|R7MB28_9CLOT
+MATIQKIXXXENPSEQFKQLWPVDVHVIGKDILKFHSIYWIGILMALELPLPKHIFAHGW
+ITIDETKMSKSLGNVVSPTSVLEHYNLEHPDAFRYYMATSAPCGRDGNYSDLDFKEKVNA
+HLANSMGNLLNRSLSMLVKYFDGEIKEEFLTNRSKEAESLLRTALGTIKIVENHFNHFEI
+QEAAQAIISIVDATNKFVTDNAPWTLAKEEKMTECGQVLATVLEVMCVISSLIYPYCPNI
+AADMAKQLSYDLSKKLDDVTTTNLKAGKLISKEEIHPVFLRVDSELADKSKK
+>tr|R7MHT2|R7MHT2_9CLOT
+MSFIQKVCQRLGENNKPIYTVMAIACGKGTVRPILSITDKKEKPDARKYAALRELMTEFI
+GVPTTMGMGLLAESLTGLVAKKGTIEYKHANAILSFLGICLAAGYFVPKFCNLGMPPIMK
+KLMPNYDPNATSDPVPTAPNVKKPEVITKPTGSKKPNGPRSLNYYSQVGTSMPYYRAEMR
+V
+>tr|R7MF61|R7MF61_9CLOT
+MPECMDKYKNDFAIEFAKIMQENLPQWKTLQKKYINALWKGEKLFWYIGCFIFAYLPGKR
+EFNYDLNFHIFMSIMIVIFGIIVVFFCENKDYQNEIKKSLFPKLLKVFGKDIEYVAGDDF
+YELSNKVNYRSGYISHSIYDNSMLFNKPVSYDSPDDIFSGTFKNCPFIISETNITNVKRY
+NNGKSDSFTLFNGIAMLFKMQKKIKFHVLIYSKGLFKNKVPKDFEKVEFEYEKFNKKYDV
+YVQKSKDETSGQIEARYLFNTAFMDRFMLLHTSFKISKMKCSIYNGSMLVLLATNRDLFE
+LNNMFYRIDDMNQYKKLFDEFASVFSFLEVLNLSSKTGL
+>tr|R7MH71|R7MH71_9CLOT
+MSDDKVVSLGAKKKQLSEESHNHNEESQNNELVYCSFCGRPNTQVIKMIQGPGVNICSEC
+TMIAVQYLILQDRMPSAEAQQILDAFWGKAR
+>tr|R7MJB7|R7MJB7_9CLOT
+MNTWRMEQSARGFIKQTGNTYSGIDYGMYENGIGKLRIMFDGNFKNPSNAVNMLTGEKVA
+PNVISDGLKAIRGEKSALNIHLDKRFI
+>tr|R7MCK7|R7MCK7_9CLOT
+MKKSTAVTLGLLIALVAGMSCVFAAEFTKFSSKFIKNFKDCDAYEESIVSEYEGKQFTTN
+RKIIGWRNSFCKYQETIKSPDDEYQLNCSFSNLQVDELYESMKDRAKEPQKYDLDIFSEQ
+TDKKGQTKYVVVGSQTIKGNKAYITWAKYQNNPYFCKPQKIK
+>tr|R7MBL3|R7MBL3_9CLOT
+MSMMVNPVSMSSVRFCGGTEGADILGRPGKFANANPSAEAPAAEKAPKKKSHKLLKTIVG
+LAVVAGALVALPKAFPNAIKVLGEDAMKNATFTQKAGHYLAKVGEAIGKYTYEPIAKLFK
+GKEKEVAEAATNVVA
+>tr|R7MCS1|R7MCS1_9CLOT
+MTVQDWFEKRKEAQIQRRALEARVEIEANPDLWTKCVHCDAQLLKKDIEDNNMVCPVCDY
+HFRVNARTRIKQLFDEGSFEELFTDIKPTDPLEFVDTESYKDRIEAAQKKTGLNDAVVTG
+LGTIDGHKVSCAVMDFDFMGGSMGSVVGEKVTRAMEKAIELKLPVLVITSSGGARMQESA
+LSLMQMAKTACACAKLDEAGLLYINLITDPTFGGVTASFGTLGDIIVAEQGARVGFAGRR
+VIEQTIRQKLPADFQTAEYLMKYGQVDVVSSRKDLKATLANILAMHE
+>tr|R7MHA3|R7MHA3_9CLOT
+MKKGFTLSEVLITLGIVGVVAVLTVPGVMKNYKSRLYTAQLQKAYAQIADSVQAMMNDQH
+VDNFYESTIANANSCTDANKGICEKGVGVFLNNYFKIAKRNCKSGNKTQICIAGTGENAY
+TSINNGGTKAIDAEYCVQNTNGAAICGKWDAENKMVHLLVDVNGTASPNMVGRDLFAIDI
+KSDGSLSDFGSNSPNPTVVASKNVCNDANTGSLYAYASGCLNTIINAGWKMEY
+>tr|R7MCV3|R7MCV3_9CLOT
+MRELVVENQEVLLIPQDYKFANRGKVTAVRAGDFTLELEYEPENIMVNTYCEFYTQTPHG
+KLYFDSYAKEINGKTLIIASPAKHKFLQRRQYTRIKFLNNLQLHLDGNDYDISTLDISAG
+GMKFKTNSNLNIDGSYAVSVPLSDSLSVDCEFQPIRIEKRMEEGGYTVSGQFVYKSSHDK
+MILTQFCAKRSVEIKNK
+>tr|R7MCW8|R7MCW8_9CLOT
+MQKKILYIIAGANGSSKSTLASELLPSENLDFLNADEVAKEICPENIESVKIKAGKIVLS
+RLEKLLNTEKSFAIETTLSGKNHIKTIERAKKSDIKSF
+>tr|R7M8Y6|R7M8Y6_9CLOT
+MTPSHSNSHGRRYRYYISRALKNNEETGSVSKIPAGEVEKFVIETTKEFLQDKKQIQKIV
+SEYKISKQNKLIYIAQDIQDYSEPXXFRAQTYKSNYS
+>tr|R7MCZ9|R7MCZ9_9CLOT
+MDLALQQRTPDLEYKIQSTIEMFKLSKLENLLSNWLEEMPNDSPVNYIGELNKNDVMH
+>tr|R7MJ75|R7MJ75_9CLOT
+MNILSVLNPHLKYPPVKYVPKPMPDYLIHRSVVRYYDYPIDNYTMFSTKKSEAGARTVMR
+CIPEHIERDGKVVPSLYIAFLFSRISGLGMGSKMLNFAKVLSKQWDCGGRIHLLADNSMD
+IMRVPHPFYYKNGLRAEDSKVNRRLARFIKQGARCTYLDFDSVHMYYPQLTKTQEKSGFW
+NKVKNCLGLNS
+>tr|R7MAD1|R7MAD1_9CLOT
+MTITLDNKQGLIAGDGILPIKMAQYAKENGFEVVCISLAHDNERELKKYCSKVYSCHPGE
+VNKIEAILKDEGIKQLTFLGKVHKKVLLQLHKFDKRAVDLIKEATRLNDDQVMLMIVSEL
+AKIGVEVLDQTIFIKNLMIPAGVLGCHKPTDAQMEDVNYGFWLAKEMGKLDVGQSVVIKD
+KMIMAVEAIEGTDVCIKRGAKLAKDGAVIVKVAKPKQDKRFDIPAIGMRTLRTMCHYHAS
+LIAVEANETIIVDQEKVVNYADKHNIVIMAV
+>tr|R7MCL7|R7MCL7_9CLOT
+MADSNFMFNRPFKPFGMNVKVPERTIQQAGETLEGIVKAPADPLFNFLEENEGVFNGDVA
+YEINKTNAQNFTIGSAMRLEDEKINGRHPSFDMHF
+>tr|R7MDQ7|R7MDQ7_9CLOT
+MGEGDFQITPAVQHYQNISIGVKDAYIKQTISIKSNYVASEIFIGNNKGLFTELESHKKE
+LEKELGALDWQNFPTNKSANIRRIKFVDFTNPDRYQEFAKEHIELAIKMKEAFHKYL
+>tr|R7MER4|R7MER4_9CLOT
+MLPMEELKERLKPYLSQYNLDELTDAQYTKMVEITREPLTLLSDITDAVPYFFGKDVHID
+EETQTKTLDTEVSQNVLKDFVPKAQTWDWTDENLHEKLADFRAEWKEKGVKPKVTMWAIR
+AAITGRTCGADMVGILDILGKETSLYRAQKAIK
+>tr|R7MCH7|R7MCH7_9CLOT
+MSIELSQVILNHGLTFLAVATGIVVIVVAYFLVKLIMDLTVLSKNLNETSVMLNTELKPT
+LKELNETIHSINSLVQSTDEGVGNVKISLENALTKTKSLSESIFGGFLKGFMTVYSFFNR
+KK
+>tr|R7MBR1|R7MBR1_9CLOT
+MKKFGFTLAEVLITLGIIGVVAAMTIPNLLTKMDHNAKIAKLQKSISIMNQAMRMSIHDN
+GEYDGWDSSLAPKPYIEQYFAPYLKIVTWCDTAQKCGYKKANPWDSEAVYTGFNSAGARV
+PFVTLDGVLFSVITYGGLSSGNDETDKLYDFSVSSSSGIIVDINVANNPNRFGNDIFFLV
+RTDTGSVMPLGYNLPDETIKNDCQKKQLRIYCAERLRRNGWKAPQDYPW
+>tr|R7MI46|R7MI46_9CLOT
+MEIRKINSNTPSFTNSGKIGLGLKTASKICSVQEGGAGLSHIKFIQDCATCLLPKVVFAR
+SKAELAENSFLEFTESILVYYFPALLGEKVFRNIFSKKLPKDLKSQVSIPAPILLKNKAI
+SNNKKIMPVKAALALAGLAIPLAEFVLNYAKNIMTLKIFKQANFDNIANLDKNKKVEDKA
+QAQKVENSAKRNIKMAGGVYATSLGLAGLLLAKGDKSKLLQQISELIVAPGSKLFKKNEK
+LKNFFNKFFSLDFGNDNGKLCLSRGQLTSCVLIGGAXXWRGWVFWFFKRQRKTKLFRNFV
+SLSACWFLHNLWK
+>tr|R7MBW2|R7MBW2_9CLOT
+MTTQQEENLINLLDGYVEKGGHHLNVNVFNRETLLDAQAHPEKYPQLTVRVSGYAVNFIK
+LTKEQQDDVISRTFHSAI
+>tr|R7MGR4|R7MGR4_9CLOT
+MGYIHCCGGLHKTRSFVLSPAENFVVCEMDYLAKCPNCQHTVLQLTRVDGEQNVSTVRYV
+NDVARKYFQKLKSKVLYERKYYDYSKRRGGTFYLNYNEYGVKKRCYSNLSSLKIGLEKYQ
+SIL
+>tr|R7MHJ6|R7MHJ6_9CLOT
+MATVDNILPSIDAAFVNVGTDKMGFLHAQDVMGKGTLKEKLSPKQKLVVQVVKEPTGHKG
+PRVTTEISLPGRFLVLMPNEPGVNVSKKIENSKERARLKAIVNLIKPVGVGVIIRTEAEG
+QSEADIQEDLEILLEKWNNIITSAETLTPPNLIYRDQDLLYRVIREACTDDVKEIIVDTP
+FALNRVQNILQNWHMAKGIQVTLYKGTEPLLIAMDIHKEIKAALNIKVNMPSGGYLFIQQ
+TEALTVIDVNSGKFISSATQDETILKTNIEAVHEIARQLRLRNIGGMVIVDFIDMMSRAD
+KLAMMEELEIALEPDKAKPQVGQLSDLGLVELTRHRQGQSLSEIFTKKCPHCQGSGYSMI
+DFNFATPTAEGEYRAKAAKIKLPTGTFKKNNKFNNKNNNQQVQQQAPEVAEQPQRPVIET
+SPEVVATEEVVKKENNKRNKNRRNKFDKNNKQPQQQLEEQEVKPAEQPVETPKETVVAES
+KVEEKVVAEVVTPEVQEEPAVEPKIKGKSRKRKATAKKVAEVASEAESTETPVVAPVVEE
+VKAVEEPKVQEEQVEEAPKKRTRRPNRGASKAAKTSKKKKKSEDEVEE
+>tr|R7MD89|R7MD89_9CLOT
+MLENSNKNLSFSENAIKVLEKRYLKRDKDGNCTETPSDMFKRVAETIAKGDLNFGKSQEE
+VNQLSKRFYDAITHRFFMPNSPTLMNAGRELGQLAACFVLPVEDSLEGIFETIKNTALIH
+QSGGGTGFSFSRLRPKNSVVKSTMGVSSGPVSFMEVFNAATEAVKQGGTRRGANMGILRV
+DHPDIIEFINCKSDNDKLNNFNISVAITDKFMDAYLKGEDYDLVNPQNNEVVGRMCAKDV
+FDLIVDCAWRNGEPGVVFIDKMNADNPTPLIGAIESTNPCGEVPLLPYEACNLGSINLGL
+MMKEENGSMNVDWDLLEKTVRTAMRFLDNVIEVNKYPLPQISELVSNNRKIGLGVMGWAD
+MLMKAGISYSSEDGTKLAGQVMEFIDYISKSESIELAKERGRFNNFKGSIYDRPNYLFNK
+FKGKSAGKISDDMWAKLDSDVQKYGLRNATTTCIAPTGTISMIAGASGGGEPLFGLVFSR
+LIMDGTEMLEVNPIFKDYMLSHNLYSDNLMAQIAKDGSLSHVEGVPNEIKRIFVTAHDIA
+PYWHVKMQAAFQLHVDNAVSKTVNFVESATREDIKEVYILAYKNNLKGITVYRNNSRQFQ
+PMNLDTKKKEPKIEIKPIEKNSEPKVEENREEYNPTGEIKTIKCPECGNEIQMAEGCFIC
+LNCGYSGCS
+>tr|R7MG20|R7MG20_9CLOT
+MITYSIILILLVLIIVSMFSELFLYGLLSTIVFIILLPFYYVVRVFNGKFLYGWKEKLGF
+FKNPNLGDKVIMYHGVSVGEVIALENLIKKTKEVFPEYKIVVTTGTKTGQEIAHKKYDKI
+ADFITYFPFDIPYCVDSFLMKIKPTVVLIAETELWPVFSFACNSKGIKLYCINGRMSDST
+YKLYKFLGYFFKHVLNKYTKILTQSEIDMNKLVSIGAPIERTSVMKNLKFDIKKVDEKID
+IGQDGYRVIIAGSTHKGEDEIVLDIFKNKLQKYSDIKLLLVPRHTTRLPQIIQILDTLGL
+NYGFRSKGDTFKDKDVIVLDTMGELSKMYAICHFAFIGGSFNKTGGHNPLEATVYSKPTI
+TGPSIHNFRDIYWLLSRSKAGKIVKTPSELSDYMDKLLSDNEFYKQACEDCSTVFNDQQG
+ALDVVIKELKEIL
+>tr|R7MA32|R7MA32_9CLOT
+MSDENRKSQYMSAPIIRRKKVNKIQSEADLLRTKHSFKEAVSAYLNSVLLDRSNPDTYLG
+LGICYKNMGKIKKAIENLEKAALLDSGKFDTFYELGLCHLKEETPCCAIKCFIKAVQIEP
+DNPDAIYQLGIAHEQCEEEDMALMIYQKLXLMIYQKLIENSPNYINAYVRKSSLLMKMEL
+YRPALALYKEILKINPNYTQVYSDIGLCLDKLGKHSDAKRYYRKFLACRPDSENANFIMR
+RVEKLRSLKTKTTKLSIV
+>tr|R7MKQ2|R7MKQ2_9CLOT
+MKVNSKKTGLNIDYSQNTTGITLSDIPEDKLALYSQKTIENACRLKAKYGNKYSDEYYLN
+YSSRDSYIRMVENFSESKRTNAAMCAVQDPNWQGYSYEEIIQMENNGVKIPQEVLLWAHA
+QQESDIVSYEIIESEALNDNNTSTGEISNSSDINTLLKNAQIYTVKSTSAQKTAEENAER
+YSELSTQAKKIQSENKNTYKDELEKISKLTKEWKQLDTKNKNGTLNSSEKNRYNELSKTI
+NSENNNNNKKEVAFNEKELDELLSSMNGLSEKTTENTKIADETIQASEALSNKIKTYNTS
+QQTHNSKGVLDEGSFDNPITGTNAFSIESVSMEAGKNLENQSNETDAILTEDSNLEVKEF
+AKEYSRKAKEAVKSSNNSTSKSNNETDTTTSETETKTEEPEQEKTKTFTVKPAVGVTPSI
+TATATTIRSMNDLSTNKNNVEGIHNSLVQSQEKATKNAKNVKKEEKKAEKEHTTNEKEIE
+AKENELEAIKQQQADNVKSTSEQVVEEPKADTPDEEKNPPQTPVVDNKEGEQEAIVNEIV
+TVLNADEKLKGTANSQNMKLKQSVSSNDKTTETLEKQNKALDKRNSNAKTVATNTTLTGT
+MTTTAGALSIGVGTPMMASLNPVTAAWGAKLVQEGIKETVAGTGAIVTGEISLGVSGDVD
+ENIKDFNSTVKSAKLTNKTQSKQIKETTNTLREIGQLEVSENMQTATAEGATTTKKPEKT
+TTSKTVKVPEKEEPVVDRRTCCCQNKRNNSFTRS
+>tr|R7MBT2|R7MBT2_9CLOT
+MNVDTSRNNVNFQAKIKFINKRDFMDKKFFPFVDCQKPTEPLRSSFIKDNDFWTGEIRTC
+TSGGLVDDSGVLGFHIFDCLENINKVGDSMAKIIDSKNGRNFSGLLIGAKDFSTRTDSIP
+LFNRVREIVERFVNPSVFKVHNNNFAESNIAYERDLDTWFVYTPLPNYPCYCQNEPFIAS
+LESLLSAFREIKIAPQDSLFIGEKQIVKEDCPKIFYEG
+>tr|R7MHD7|R7MHD7_9CLOT
+MSTVISDKEVKKVKSKFTDEFESYLKKQCTKTTFNGTELESFSWYKKVLGLV
+>tr|R7MBH9|R7MBH9_9CLOT
+MTNSKCEEKVIGIPRAMSFYNNYPFYYGFFNDLGIKIVLSDVTTKQTMSDGAALVVTETC
+LPIKVYIGHILNLINKGVDKILVPSLQSVDNKIYNCSKIRGLPDLVRNVVKQPFTMIEAT
+LDKSEKNQGLYHFLSEAVRPFGITDMNVIKRASKAGWRCYNNFYVMTKSGLPYSKALSYA
+LQGKVVISNTTKEYPISIALVGHGYNIYDERVCMKIFDKLEKMDVKVCTSLQLSAEQLDE
+GIASLGNEKYWANEDEMTGSAGHYLKDNKVDGVITITAFGCGPDSLMVERITRRAKQFNK
+PLLNLTIDEQTGEAGFVTRLEAFVDMLFRKKRASIVNKLNMNQQECSYSPNTEFIETKSM
+N
+>tr|R7MAI6|R7MAI6_9CLOT
+MAEKFNRATFTRNFLKNITRIKAPDEMLAEAKAQGLEKTLGVIDLIVLGVGAIIGSGIFA
+VVGIAAAGSADGSSLGAGPALVVSMIIAAIACIFSALCYSEFATMIPVAGGAYTYTFATL
+GEFAAWMVGWVLMLEYAIGFIAVACAWSNHFVQFLSGFENVLPAWLAHPPVWLTNDVFSA
+GKIAAANPDVFIPKLFGIVPICINLPAILIVLLITSILVKGTKDSAKMAGLMVFIKLAVI
+GLFILAGAFFVTPANWHPFAPNGMSGIWSAAFLIFFAYIGFDALATAAEECKNPQKDLPI
+GIIGSLIITTIVYVLVALVLTGMQNTSGPVPLDFLKAPMAYCMMQAKQNWAAGLISIGSL
+AGLTSVLLVLEMAATRILFAMSRDHFISQRFQKIDPKLKTPALLTWTVGLLAVVGILTLN
+LDVAAELCNYGTFTSFIIVCVAVLILRHTDPNRERPFKVPFSPVTPTLGILCCGGLMIYK
+STQAGSSALLFPVWLGVGAIIYLLYGFIKNRNNENKIHREIVHGVTED
+>tr|R7MDX0|R7MDX0_9CLOT
+MRILGTTKSQLALHVLEEMSKSAKGELSQEIRRALSTLKISGIREDNTKEFYKKILSDSV
+PNKFYITYPDGHGDQALIFTRKTQDGKIRFVSIVTNIETGVKDCFGFFEISQFECDKILE
+RFLRDEKTVELPPEAFKTILHNAQMQSILRNGNNWKLPYEYVCWSNLLLDIDFDNESIEQ
+ILKEQILPQKVDNTIIPMLEKMKISSHWFLDGNYSDEFEDLVVEMKSTKDLDALVEKYLP
+SVFYAEEKESWIDKLLMSAYIKYSIGKDDEASMVYGLSQDENLLAELFNTILKRSIYEYL
+MTIKYNKDMNTENFTPDEIDEKINYVEEKWVKNV
+>tr|R7MEJ7|R7MEJ7_9CLOT
+MINLGLNKNATRMLTGFAMGTLVMLCIILGDLALLIMLAVMLIFGSKEYVKMLNHKGFYP
+SLKVIYFTEAILASVVYFKRVDLVAITLTICAMCSFMWVLFRGRQPYIANVATTLLGMVY
+CGWFPLHLIFLRDLSCAKYDSGLAFVVLMFTSILLTDVGAYYIGTKFGKHKLAPVISPNK
+TIEGSIGGIFFAVLGALVIWLYMKILLLIDIHWYIAVCGALISTIFAQIGDLCESLIKRD
+AGVKDSGNSLPGHGGFLDRTDSFILTIPIMYYFCKCFVFQTEWIHTLTHFVKGLF
+>tr|R7MFJ1|R7MFJ1_9CLOT
+MFGKNRMEYVIKTCSTENAQDLQNLLNEMSMNGWELYSMHESGDEETPQMNCIFMRPAKS
+ESSSDSDIINISDFKSQMEKMLSPKLTEYEKCLEIQSKIRSQKDKINKIKAELDNEAPAT
+ASRNKLNDKISAGLKELDDLKAHLNKATSPDLMYSKLHEEKLTIYLSEELLGFVDSERDN
+SGEELIAETVKSRLKLTEEVGYVIPKVVFKDDENLNSCEFSIRIRGMEVFRAGVCPGYLM
+FYADELHTEHKIKNSISAVDEISERKVIWVEKDKTKDFWQKGITSSEYISKALEYVAIKY
+VDDLLDYDDIDKYLEVVEKENDFLIENIVPDLLTYSDLKYIMTSLIKEKVSIKNITYIFE
+KINDFAEEGSKADILNKIRLSLSRQICRKYTNEDGETISAFELSEKTYSDIVLGCDETED
+SLIKIDGEVAEKLAVKIQKKAKKLNIHSPKLIVPMDYRQIFFTLLSLYINDITVLAQEEI
+GCVFKIDSLGEI
+>tr|R7MA01|R7MA01_9CLOT
+MKNGIHPDYKKTTIKCVCGNEIETGGNEIETGSVVEGLTVEICNNCHPFYTGQQKILDSE
+GRVERFNKRYGKKN
+>tr|R7MID5|R7MID5_9CLOT
+MKNKFTYILVGLFASMGVVNADMFVPDFETMPAIRCDVSETIYNQDNTVVTHNKYFRIFR
+IDDEAKKVYLQKAPVDNLLYIDENKVQIHLQTLTDDSIISEQVTIDRTNNTYSGTSQIMY
+DNAMFQSRYAKTNGLCKALN
+>tr|R7MAS4|R7MAS4_9CLOT
+MNKKVLAILLMASLIGCGVQNSTFANIVETQQSAENVTEQSQQEEPLVISPRIEKELRTN
+ISKVYGEDKTDEIYNKLVEIAKTAKVQRPQNLKQEDLTRPSDWYKDEVIYMFYVDQFGTI
+TPEKPNQFKDITKMLPYLKTLGVTTLYMLPFADSPMEDAGFDVKNPQNVRQDLGGKPQFE
+EFIKQAKAQGFNIKADLVLNHFSDQHEWFQKALQGDTSKLDYFITREDMPEYTKYVDSKL
+GTVVEYKENDGSISKRRLIFPEITENNYRKVTINGKDYYLYHTFYPFQLDINWKNPDVLY
+YNLGTLNYWANLGVDIFRLDAIPYLDKEPGTNAENLPATHDIIKILSLYLQAVAPRTVLQ
+AEACQLPKDVIPYFGTEKKSETIVDGQLREFKRTDEVQIAYNFPYMPALWASFITEDSKY
+FKEALKQTPNIPDSASWATFLRVHDELTLEMVTPEMRELIYQALEPKGASFRKGFGVAGR
+MANFLDENHDHIEMAFSVLLSMPGIPIIYYGDEIGAKNNFANAKKSADLRKKKQAKSKIK
+LLSFFDSRDINRGSLTQQSFYDAMNSNKTYSGKIFHKVQKMIALRKSIPALSRGNLSILK
+TNYPHIFAYVRSYKGEKYLIVNNLSNKRLTAEVDLPSDMLVKAMKADDHSIALTNILTDE
+QYKLKLSLKDKKTRLLMYPYAVVWLKLP
+>tr|R7MH13|R7MH13_9CLOT
+MPTPKISVIVPVYNSEKFLRKSLDSIRFQTYSNLEIICVDDESTDNSLEILKEYSKADKR
+FVILSKKNGGPGAARNLGIALSTGDYISFIDSDDWILLDLYKNFIDLVTPKTDFFMFNVE
+SYVAGENDIVPKVFFEMTDWKMKSENDYSYLDCKSPFSRNLSACNRIYKASFLKENDILF
+PEGLKFEDAFFSTKCLLRAKSIIINPNIFYRYRNFASKSISMTFDEKTFDIFTIMDLIER
+EIENCGAYEHLKYALFQYKFFSYFNNYFCCPEELKHKYFDEMKNRLKFAVTQNLDLNLAK
+RLKNYPIFELIVNNDWESFEKNNKF
+>tr|R7MDK4|R7MDK4_9CLOT
+MFHDKAKNSADMTDSILVPRTIFKGYLGIMTGTTLLTLSSFTSKFSKISKSLGILGALTS
+LYGTWAFVRPFIVKDAKGVQTTKDVEKV
+>tr|R7MI41|R7MI41_9CLOT
+MGIFNVQLFNQNLLGGANENFPLFKSPKRQISYVTGPLWTPPEEMEILKKGLGPKKYATL
+QQNDKYHLGCIPVSKEFFEKAMNDKRYWILC
+>tr|R7MK71|R7MK71_9CLOT
+MSFDVNIGRAQPVIKAAANMNNDGGSGGNTGYMMRGRKKQEQKDSKSLFDSDSMVDSFEM
+ASKLPKKNFEESMGLKNSWLENFVSKFTK
+>tr|R7M929|R7M929_9CLOT
+MFQVYTAKDKSEMSKNLIGEFKDYDDAMDCAEKAIEGKEGLRYIVEETNGCVNSYGELIP
+TVVAESD
+>tr|R7MDP7|R7MDP7_9CLOT
+MNSIKETFFKTFGIKQRDLYACDWQAICPYPDIKCGGDCPHWVKYSTDYPNITDKHLLII
+ISLINAYDDRMLFKTNYQDLIEEILQLAIETGTNDGIVNCSEFKRQVRELFEEE
+>tr|R7MGQ5|R7MGQ5_9CLOT
+MDNYTGDILVRKALSNLKLQPSKKADLQIVKQPDVKTTKYSDINLKRWRDYAHILTGTLW
+QFPSRLREHGHSNEYHGNYIPQIAQQMYERYTKKNDVVLDLFFGSGTSGIEAINMNRRCI
+GVELKDELAESVSEKFTPKQLVTDVNIICADSTSELAVEKVKARLDIMGEEKAQFLMLHP
+PYDDIIKFSDKKEDLSNCATTEEFYDMFEKVAKNGYDLLEKGRFACLIIGDSYKNSEVQP
+LGFECMNRMRKLGFILKSTIVKDIQGNERGKGRTANLWRYRALAGGFSIFTHEYIFVFQK
+P
+>tr|R7MDY0|R7MDY0_9CLOT
+MKKVLLLVSILFVAVVSTACINNLAVQDLNNKAQSFMEKGDYTQAIERLKSSIDLDPSLF
+ETHYNLAIAYTKAEDYANAMEELKKAQELKPNFPDVYYSLATAQNNLAVDMTQLKVRMNI
+DDTLFTPKSEESSTMELSDKLTYKEKKLISELYDSATANYEKYLELNPNAEDKADVQAQL
+EKIKEAQNPQKVEG
+>tr|R7MB64|R7MB64_9CLOT
+MYTIKEVAEKMDISEHTLRFWAKSGFFPFVKRNQNNIRQFSDNDLEWVKIVKCLRSVGTE
+NKAIKRYIDLCIVGDSTIEERYKIILGTKEKALMQMDELKKQLAILEYKENFYKNLIKNN
+LKDTWNPMNSVTPNDKVG
+>tr|R7MJK4|R7MJK4_9CLOT
+MITKEVNDWLRKVETRNYSSWEIMEEFSKFHKYLTKDEVLQIKKRLESSIKK
+>tr|R7MBB2|R7MBB2_9CLOT
+MDLIEVKHAIKTYQTGEDSFNALNDVSLNVKKGEFVAIMGTSGSGKSTFMNMLGTLDKPN
+SGSYYLDGEDMLHLDSDRLAMVRCEKMGFVFQGFNLISRTSAIDNVMLPMIYKGIPEEER
+IKRAEWALEIVGLKNREDHMPNQMSGGQQQRVAIARAIVNDAPLILADEPTGNLDTKTSI
+EVMEFFVRLNEEMGKTIVLVTHEPDIAEYTKRVVKFKDGNIVLDEPKDVWLSHRTRET
+>tr|R7MDG4|R7MDG4_9CLOT
+MNFEEKTLNSEVVFDGKVITVIRDDVELADGHKSFREVILHSGGVVILAKKDEKTILLVK
+QYRYPLKETVYELPAGKLEIGENPDDACKRELEEETGYQAHNWTSLGYINTTPGICTEKL
+YLYLATDLEFFGEHPDEGEIIKCFEFPLDEVKNMIMSGEINDAKTICAIARADMLKD
+>tr|R7MH30|R7MH30_9CLOT
+MISVNDFKTGLTVELDNGLWTVVEFLHVKPGKGAAFVRSKLKNVITGQVVEKTFRAGEKV
+AKATLDRREMQYLYKEGTAYVMMDNETYDQIHVEEAQIGSGIKYLKENMNVMVLTHEGKI
+IGVDIPAHVELEVVDTPPSEKGNTSQGGTKPATLETGAVVNVPFFVANGDVIRVDTRTNE
+YLDRV
+>tr|R7MC74|R7MC74_9CLOT
+MKLCVFQGTFNPIHNAHTRVAEFVASKYDFDKILFIPAFNPPHKSLNLDMSYHRLEMAKL
+AVKNNSKFEVSDIEFRRKGKSYTYLTIVELYKEFPIEGKINFLIGTDAFQYIEKWYETDK
+LKNLVKFIVFVREDNFDISKYDYLKDKGYEFEFQPLPFEDISSTKLRDDIKLGKSISGYV
+AKEVEDYIKQNGLYKD
+>tr|R7MCX0|R7MCX0_9CLOT
+MKCPVCKKNIPESSLKCPFCKSRTGLLCSKCNTVNPIGSINCKSCGSELLKICKHCNGVN
+FPDATKCRKCGLPFENSKQTQPQKEHQRSTLEYNPKYLTHKQAFDTLTDGILSNEKKIFS
+IAGAKGIGKTTLLKQAIKNLEKEHLQWCIGECSPITQLSPGGVIQDMLLNTFNLPNFCIN
+NEEFQQNAMAFFENEFKFLKKNEISEFLNFLYNYKEGNYEDIINNKRRTYEILLQIFGAF
+ANTGRFVFVIDNFDFIDGFSVEFFTTLMHKTIVQKNLKFIALYNKPKPINSYFLIEELDI
+KAYVDINLAPMSSKELAQSIKMTSEAGTYITEREKEVILEKSCGNPAFVEQATSYCFDCQ
+ISDKAFLLTNNFENLILDRLETLKKINQEAHKLLCCAAILGNKLNLVLLKDIFGYKNQKF
+LDIMSYLVKSNFVRPYNQIYYEFNNLLLWETILKNITRDSSFADINVKIGKAISLYTLNT
+NATMAMIAHNLKENRMAFDIWTKTTRLASYIGDINLYVISQKQCLALLNEFNENETLNIR
+FNISERLGKLLTEYDPEEAMEYLPDAIANAKSNNNEAKEIELLSYLAQCCKKTGNYFGEV
+ECADNVLKKLKPEQTLEIAMVKSTKITSLLDIGNCGEVVNIIDNDIMPILNEYLSKPKSK
+MPIPIGLVYDTWVRTNLELANALSLQGNDRCFEILTKLFDIIEKHKIDDQLLICKAKLIL
+AFANTMKGDFATSQELLEDIGRIYRKDIMDAETISRWNMVFIINKFLLKDYDDLREILFN
+AVTFANNIGDNYAKNILKVFLGKTFKDNKQAKHALEIYNEQVTYFAKEKMALGALLSWYF
+IAEATLITEGAKNAIDIATQALEIAQNPRINNSYFIVLLKILLTKANMEKSDFETAKINL
+ETAMILAKKYNMNDLLVKIYYLWGKYNQELGSIQSTNQLELLKGAIKMYDKSINLIQKYT
+KNKYLFDKVNSRKTNLMKICKENGFKI
+>tr|R7MGR7|R7MGR7_9CLOT
+MQYVAIKKEIKNNEEIFVVNAIPLKNKNKSIIQKIPHPLGSDGMEFKTLEEAKDAITRAG
+FSYILPDGKKETKIPQKINKITYTENNYEELIYNAIKEKTNSANSNVCASAILAISEFPK
+DETFEILFSKFGEDNDLVRKNAISGVCRYGKILQPKIIKTLESQNWIAKNSAISCISNLA
+TNADIELEKFIVPLINATNDSNPIVQTNTLQALAIVYQNYKKNQKI
+>tr|R7MEC1|R7MEC1_9CLOT
+MKTSAMPENIAGEIPYLSNLFELLKTNKTDGLIVLNQIINGLGEILGLGQVFDFQLYEIL
+EMLLSEAPTSESAVVLLNAKEKFETLTENDEYLFDETKEVKQEIFEIKKLLSKVKASQII
+EEEISENSPFVFTAIDLTTSTDKIRNLLFNATNQTLVLKAIEALKERNNLTQNDKISALK
+LVTDSNIKNIINAI
+>tr|R7MGW8|R7MGW8_9CLOT
+MNYYVGVSLASGSTMDSGVAVIDEDNKIILLDKLYKMNDIIFFFENFSSLKNSKICVSVP
+FDRTMLEGKWRILSKPYQLVSSNKNIPNRDNWTQRHSNRGSEYFRELTERGIEVNRFDVY
+MTRQSLHLNSCYKDRSPADCKFLQQALRNEWGFEDLPTNMMPMSHLEAILGALLMKEKNQ
+NPDKIRAIYNFRGLDVIDIKDNLNISTDVYNFERELVGKTDLD
+>tr|R7MHK8|R7MHK8_9CLOT
+MSIITPIASGCSKVIGPLTKTRPVKGLCNYFNKDFEKALAYSTVGSIVAKDGIGCGMYVY
+QSMNNKDIPEKRRNFVAALDLTNGVLMILAQIGMFFAMRKLNDKLFHKIFNKSFDKAGHA
+FKTLAEQVRITQKKAGIKPDIKDNIKIPYDKVKNTTFGIFKFVTELAAATILGKRVIVPL
+IATPLAQKVEKKMNEKHSADGATSEPAKAETPADKEEVKTVDQPATVAATEKPADDGNTN
+LLAKYKK
+>tr|R7MH80|R7MH80_9CLOT
+MPVASMIELLEAGVHFGHQTQRWNPKMKPYIYGARNGIYVIDLRKTTDLLDEAYALVRDY
+AAKGKNILFVGTKKQAAEVVAEEAKRSGAYFINRRWLGGMLTNFETIRGRVNKLKEMEEF
+ISNGYVDKLPKKEVAQLNRQLSKLSKTLGGIKEMRGLPELIFVVDQDKEDIAIKEANKLG
+IPVICLADTNANPDGINYIIPGNDDAIRSIKLITSKLADAVLEGKQLRENKANEAKKVEK
+ISAEDANAAEEAKTEA
+>tr|R7MEG2|R7MEG2_9CLOT
+MERIDDLLKSYIESVNTSDEKLFREIWDREGSISFIHPRGYAIGFDEIVEHFRLGRMSTN
+FSNRNFKIKDIMIKYYGNTAFLEFRWDFFATMKDTNDEIHTEGRETQFIVLRDSGWKFSN
+IHCSSEG
+>tr|R7ME22|R7ME22_9CLOT
+MKKIFAILVSSLLLTGLAVQASDLIIESKNQSYNEADNKIKFNGNVKVTVDDLKVVGDSA
+DVNITKDQKLDTATFYEKPYAFEVKKNKKREVKANILKVSLITKIIRAEGDTQSIVFEGK
+KPIVVINSDTQEYDTKTGVMTATGSVTMFYKEIETYSNSAQITTDKNGDLKRLVLTGNAR
+VKQENNESFADRFVYEAASGNLTAYGHTTSNAIMDDGSKLVLKSAYQEYNQKRSVFNASG
+NVRIWYQDYYAAGPKVTLYSTAGSSKPNEAYFTGRSSITQGVRTIFADRIKMTMKPKSFD
+AQGNTRTVIKNIGSGSDDNMTLGL
+>tr|R7MAU1|R7MAU1_9CLOT
+MKKIICVLTLCVAFLTTAPSFAAPPPGGIGHGPSMGGRPPMHHTGHPPMGLRPGMGRPPM
+GPPPMHMVRRPLPPPMYRPMPIYRPYYYSYYYPSYYRTTYYSYYPTRYYSDIVTPVSTST
+NAVIVRDDYAGINTAANVINAAANVASTIRYLTW
+>tr|R7MH25|R7MH25_9CLOT
+MLEIFEKIVIIARMRALVISLAILSIFGIIPPQVQAEGLSTIQLEMRDYDEITLPAGTFI
+PVINLQEISTETCPEGYKVKFISTNDLFMYETNIIPRDSAFFGYIEKIHEPVIGTNASMK
+IKITKLQIKDGFEIPIKGYLYTSNNNLFGGELTQPSEWVKMPHYQSKFQGISWNHRAATL
+QIRPGGKRSMGQHVKIPAGDQQIIILTAPASITHTLTD
+>tr|R7ME74|R7ME74_9CLOT
+MGKKSKYPDYSTGTITVNGKTVASTTKDKNHNVVSSNYNMTDNEKKIYDSIQSNLYSSLS
+SLFDITDANKKEWNNQLNAMKNQGIQQINDIYTPLETNLKNDIANRFGNLDNSVFMDNLN
+EITDKKSQAISALSNTLLAAQGDLYSNELNNRINSISFLNNLNSAMNNNILNFTNAAMNN
+STSGNNYNSNAYNATNSGNLWSNLLKTGNTFVNAAGTAAKFMTK
+>tr|R7MGZ1|R7MGZ1_9CLOT
+MPIDFNPHIQFNSNINTPHRIIQQSVAFTGQLEKDTFTKSVKVDSSNVDNKYEGLKIEKK
+SFGTIKKTGEEATLYTITNKNGASVDLSTFGATITGIKIPDKDGKIKDVTQGYDNVTPYE
+ESPVGHAGGTIGPYANKISDGKFSINGEEYTLECNKDNGKSHSHGGTQGFDTKNWKANVL
+KDGIEFTYSKKDMESGYPGNVDASVTYKFDNDNNLHIIYKAKSDKDTVINMTNHTYFNLD
+GAENTQENSVYEHIVTLPNSSKITRTNEIAIPTGELIDVENTPFDFKTPHKIADVIDLEH
+EQMSIGSGFDQNYCIDDYDGKSLVEVANVKSPKTGIKLKVSTNLPGFQFYSANHLGKSAQ
+PVGKSGSRYEKRSSFCVEPQFYPNAINIKEFAEKGLLKQGEEYNREIIYSFSTDKD
+>tr|R7MEF8|R7MEF8_9CLOT
+MNKEELVQEISKKANVTQKEAAEVLSSLVDTIQKTVAKGKKVTLVGFGTFEPRKRAARTG
+RNPQTGKELKIPAKTVPAFSAGKKFKTVVNGK
+>tr|R7MI21|R7MI21_9CLOT
+MPKVSVIIPVYNVEKYLRECLDSVINQTLSDIEIICINDGSTDNSLEILKGYAEKDSRIK
+IITQENQGQGVAKNNAIEAAQGEYLVFVDPDDFLDSEALEVINKSFSDSAVDIIQFDYLV
+CSEDGANNRQRVFKKRAKRYFNLNLLNDKVFNWQEVGKKSIEGLSLFCTDKAYKTTFIKE
+NNIKFAPTKNGEDHLFSISANLLANKILYINKSFYHYRTRLKSITNSASIESFCVFKNIE
+LLKQFLITNNLIEEYKSSLDEYVSSVLSWHIANIPQDKTDEYLDKCKEILDPGNYELFLK
+KIKTQYSFWENIFSLKNIKRNGVTHKYLRILGLTFTLPVKCK
+>tr|R7MAG2|R7MAG2_9CLOT
+MYTDEIFENALKETKEESFKALQGEVKTVERVIEKLLTQLLECTSSVSERDFHVCGV
+>tr|R7MGW7|R7MGW7_9CLOT
+MMKKREILCTTVASVIVLGLLLLTPMSSINCSGNTCSIKQRLGIFGIKKSQKSFNRNDIV
+KYHLQDFRHTDIARYIHSSHTDYVPVLEMKDGSAIILPFSFCREPYKAEELVSKVKSDKD
+FSKKTMFGF
+>tr|R7MDM3|R7MDM3_9CLOT
+MEKILSLEDLENSENKTLYFTFDEKIEGIDCVTPIHAEMCAKSLGDFVQITGHVTGVVNL
+ECDLCLEKFEHNLDFDIEELYSKHSLIGEYEESGQEFEIKDGQFVTDLNGEKEVDIYDLL
+YQSVILSFPNKKVCGINCKGKEFLSEEKVPDPRLEVFNNIHINPKNS
+>tr|R7MFY6|R7MFY6_9CLOT
+MVRLINQDNLKQVTDIVYAMMKVQEFFTYAVEFNNPGISPCIYAMWHENQFGIHGLSNRE
+KLHVLISNSLDGQIISGVCERLGFNVCRGSSNRKGAVSGTLMLLSKLKEGENIAIMVDGP
+RGPLHEVKSGAIVLAREANVPIVPVHWYSPEFTFVRFPSWDKMTSPVGPCHLLNIFGDPI
+YTDGKTNEQVAAELKQSLFHLEEIAPEKYKEAKKLKLWKKKRK
+>tr|R7MG85|R7MG85_9CLOT
+MYDIRAKTWAIMVLGEIVMENIISFFQEIFMLKENNSAKIGLADFRAEETPVERKKSRVN
+HTPKELRLSDLMRKGSC
+>tr|R7MF09|R7MF09_9CLOT
+MKEEYSQQHRRWYDKDPVLSEAVRTLEETDDQTQIKVALNLIKIIIEHNIEDEKFEAVDD
+IINAVGSGLDDNKRGRWYDIDTTLRTAMNMLQNCPEDTQKVIAKEMAKMVVDKIKKDDDE
+DEE
+>tr|R7MKG0|R7MKG0_9CLOT
+MENNEELKVTEAPVEEVKAEATPVEASEEKPRRRRGRKQKIETTEEKPQSEWTERVVQIS
+RVTKVVKGGKKLSFRAIVIVGNQKGQVGVGCAKASEVIIAIQKAIADGRKNLVTVPIFKT
+TIPHPITGKSGAGEVMLRPASEGTGIIAGGAVRSVLELAGIENILSKSLGSKSPLNAANA
+TIAALKALTPFTDVAKKRGLTMAEFLN
+>tr|R7MFM8|R7MFM8_9CLOT
+MNSEKLKPFLIPILLLVATLGGAIYLGSQISTNVQSYMAVKEEVAQKQATVEEKTQKLEE
+YKKKEAEQKAKEAENKISGKPFYKPIESGMDTEAVIAGEFAEVLQLIRANQIKVRSIKYD
+YDPADDNFVQGAKDKYNVARLNMEMIANYSNYDNFLKEMYKHDHFLDIQSVEIVPYKKNK
+RVLLINFKVKLYAQK
+>tr|R7MGI5|R7MGI5_9CLOT
+MKKAAFTLAEVLITIGIIGVVAAITLPGLITSYQKNATAVKVEKFYSMINQAVRLSMVDN
+GEPESWDLPEKAFHYTSNVNYFNQYFAPYLKASSYKKVYIPAHENSLAVALSDGGAFMLC
+RQETTVSFFYLTNYSDLDKPNFYKDNKKFFEFQMGKISTVGDKSSRTDKNYIVPFTYTWD
+GTHRDLINNRKYGCSKNASNRVGFCAKLLQENNWRVPHDYPW
+>tr|R7MBA8|R7MBA8_9CLOT
+MSKNYKKMFETLNEYLKNKIEDIDQTIIEAVNARNNGKCFSFQEHLKGFVYAQLSALVSW
+KNIKAHHTELDSLFCNFEKDRLKEIAPEILIEKIRELKCYNPYTTKNQMTFLKNNIETFE
+KIEEEYGSLDKFITHSTPANIVKLLADSNSTYKLKYAGVALVCEYLRNVGIDIVKPDVHI
+KRIVGADRLNLIQSKSDYRIIEEFRRLSAEIGISQVKMDYLLWNYCSKGYGEICTAKPKC
+YECVIKEFCNKG
+>tr|R7MJ99|R7MJ99_9CLOT
+MNNKILVVDDDVAINELIKVNLELAGYKVIQANDGIKGFALAKQEAPSLVILDVMMPDVD
+GFTVAKRIRQNEETKDTPILMLTALSQINDKVKGFNIGVDDYLVKPFELEELLVRVRALL
+KRTNQIPISASTRDLLTLGEITLLPEQXXFCLSNIV
+>tr|R7MG33|R7MG33_9CLOT
+MFGWIKNICENIKALNFSVDEYKNDSIIQSLPSIACVNRAKKLIDQKQFDEATTLLKKAL
+DISNQDSLAYKYLGKIYEYKGQFSTAVENYEQAAKIAPNDKEIWLRLGMSYLNCEKFDNA
+IEAFETADKVTPCNTDVQTGWGMALMRQKKFALARDKFLTAIKISKYNFTAILLSAVMEI
+KLNDFEAAEMKLKFLAQVAPNEGSLYEYAHLKLLKSDFKEAEKYAKKAIEINKHMLPAYF
+ILGEIYSLQKNLEKTEQNFNKALDNDLEDCSLRFEWGKAYMRLFEFSKAKTQFEKSIEQN
+DSYLGPKIGLALVNAYDGDFFLLGELKEKHGDNTYIQEAIGLENLAQEKIEEAIDFFKKA
+LRTDNKQTYNYLNLVECYKKLGDNYKVREYYEKFISENPNYIEGLLSYSRWLVDVSDFQD
+AQRKLRRAEKLAPENSEVLSLLFLCLYTLVKNNICEYNIREAISVAEKASKISGNFKYQK
+EKEELENILIDIQGNN
+>tr|R7MKK3|R7MKK3_9CLOT
+MKKLSKIFALTLGLLMLSGTIAMAETKFTPLNFDDSSSVKTTATPSTSINSVDAKGTDLL
+DPSQVVAGPKMQNSILQIDNAQIELRNKLLNYKTNYTQIDSRYQTAKAERTAAKKQIKYA
+EKKIKNLDNAKKKIRKNFERKINI
+>tr|R7MG25|R7MG25_9CLOT
+MNKELTCNQVSALINFYLNGRLNPRLKQDFDNHLTKCITCRKKVEELKKIMSKFNHTENE
+EPKEKLQTKFIHNLSAYVDNELNSNENIKIKKMTISNPNARKELESIYKYQKLLHSAYQK
+TKNDSKFDYSKTIVSKIQEPLDYTTNYFLKLSIGFVALIMAIIGGFVYLYL
+>tr|R7MHT0|R7MHT0_9CLOT
+MVKGSGRIFVNGKKLADYIGNRPAIEMLVYRPLVLTETQDRFDVRVKAVGGGVVLAVVLY
+LNVVQSDTVFQEHWLNLMKNLKMF
+>tr|R7M9G6|R7M9G6_9CLOT
+MPLKVYIAPMKFYSKQGQDLKYRQFVKRALDEWHKVSNGKVSFIIVDNLMSSNINVDWKR
+VERQALGHCYFQYDKANRLFSAEVAIGLTEGLVHADYMDEEEVYHTILHEIGHAVGLGHS
+PFKKDIMYTPHQKGIMHVGEGDKLSINWLYTFPQGKTVAEIASKYGVSGSDIDEVVSRII
+SKQTKTDFEKVKDTIAPQEQRNLLDESENIANLRKYHMTLQNIKIPGALQEQIRKHYRDM
+NS
+>tr|R7MDU3|R7MDU3_9CLOT
+MASSGASIITNISSGLSNTYAYLASLYPQDGVTYKNITAARNDQTNYLTLNQSFASYLQN
+NFSTIDKDGDGKISADEMNKMTNTISTSGVSREELSQLAASGTYSSEMISKILENFDEMD
+TNHDGRVTSAEISSYTFSCNKQEMIDEDNYKKATNMSLFYGDDNSSTDVSSYSILSYKYK
+NFTNSKN
+>tr|R7MIW4|R7MIW4_9CLOT
+MGKLKIVLPIIGMILTFSDVYAYTTKDGMNFFNQYQNYANSYDEKLLDLYSPDANIIREV
+VKPTGETVSVKVPAKRFFKELKIGQKTAKIRKYKNRYKNIIVQEVPNGVKISAERQPIKE
+TYWLKMYQIVTPTSDGPKITEEMMQTKVQTFLKMQDKGEE
+>tr|R7MDD6|R7MDD6_9CLOT
+MAXXETFGFDTGLGNIMIDYCMNKYFNKPYDKDGEVAKSGIVSDSWLDCLLQDEYYLLEP
+PKSTGREYFSARYIENALKFSPENPCDIIATVTALTAKTIAQSWERFIYPNVGIHEAVIC
+GGGAYNPALMGFLRTYLPSYIDLKTCEDYGISNNFKEVMAFALLGYCTYYGIPNNLPCCT
+GAKKRVVMGKISY
+>tr|R7MIF8|R7MIF8_9CLOT
+MKTIFEKSNGIDGINLTDEKENLNFLDKDLLRTSDTELPQMSELEVMRHYKELSDLNFCI
+EKGFYPLGSCTMKYNPKVNEFLSTLEGFNIHPNTSDKNAQGALKLMYDLQTALLKITGMD
+AITLKPSAGAHGEMTGMMIIKKYFDSIGEKRTKVIIPDSAHGTNPASAKMAGFDIIEIKS
+NEKGQVDIASLKAVLNEDVAAIMMTNPNTLGIFEERVEEISKLMHDNGSLLYYDGANFNA
+IMGYTNPKLMGFDVVHLNLHKTFSTPHGGGGPGAGPVAVVEKLKDFLPTPTIEFDGNKYF
+RNYNVKNSIGSIKDFYGNFSVFVRAYAYILMLGQNLKHASENAVLNANYLKGKLKKYYDL
+PYDEPCMHEFVLSGEKQKQESGVSTLHIAKALMDGNTHPPTVYFPLIVHEAIMIEPTESE
+QKEKLDEFVDTIIEIAKMAKDNPEEILSAPHTTPVKKIDEVTAARHPDLKFIKE
+>tr|R7MGJ8|R7MGJ8_9CLOT
+MRTNLIQAYLNGSPAAKQYNSDKAAKDFDVHKELNNRTFIKPLPSNGKLVRNNLFDIPAE
+FFKDVKYDINALRHSVKGEANDHELGRLNDMGMKLGGVAIASYLFTRKSTPLTKVMEFVG
+LASFFAAMDVWPKLALQLPAYLVHGFNIRQKYEDNYGRKKLLYQDHQFIPWDLYSDEEIN
+KIGNRLKVPKDIPNRREFIQEKMRKIALQNNTMWMLTAGLATPITSALICNALTNPISKY
+QDGKINQKADNLLLNFNEEIKKVDYSKHQQELENLLSENKGKPITSELFEQIHSKLSEGL
+DRVVATDMQKDLESIIPTGSGYTIDQGVVDNIQNAIKTQLAPLNLSDEDLARILPNQDSL
+NHSFESKNLFRSGVKDFSEYSKEIQNVLNYNISEFIKANPDNPVNRKLLFVAKKLVHSPE
+FGADSPILKSLKFTPSAVLNEGAIKTIESASKILNQFKAEVGVLDKFAYLKAAQAPETIL
+ANSWNNITDDMLKSLNFTPKEIAKARIDREITGPLLREKLEYIVSDDTRYNQFVDNMFNK
+LSELHEKMASIDVPKDNNTNSYLGKVDTTYDGAAESLRKLGMNSLAQSINGKDGDVRSSA
+KHIQISFVKDRITGVKSSFYRLLNTVDVYRRIAQLDKNPAGTLHNKMPLQVKEEMLEFVK
+QMLLDAHTSDYAVKFFALRHPEINPPANASPEELARFYSQVEVQNGKVVNKVLGTHPENQ
+LVELSNDKGFFGNVMRFVYKEPPNPDTVNRGQTSLIWEDFMNYRKELLDILGGDSNFAKP
+YHLVDGIVNSTSERRFLRLGCAPDEMFNKLCKQKFNSNKWFKMFGGIGAGLLGVTVLSQF
+FMGKMKVPTANKENK
+>tr|R7MF35|R7MF35_9CLOT
+MTMNNPSNTEPSKLVIYNRDGLIEQEHFGYVVRTDKTRVLEKIGEDKNYPFYLRSCAKPL
+QAALLIDYGLDEKFGLTEEEIAICSASHAGEKVHVDIVKGILDKFEISPSKLKCGNHEPI
+SRTAQDELLLHGEHATALHNNCSGKHAMMLGLCKLNDWDIENYDNINHPLQKNIKKRIYE
+LCEVKNDYPVTKDGCGVPIFSMPLQNMVKGYLNLFCDPKYEKIKNAFLKHAYTIGGENRT
+DTKIIANSKNLVAKVGAGGLCIVVNTELEEGFVVKICDSNMEAREIVAIDLINNLNWGKI
+ETSHDIKTIHGDKVGEIITLL
+>tr|R7MGT2|R7MGT2_9CLOT
+MKTSKEIIKQAERDLREQFEKIDDIRDYNQEKVLNAFVENRVAPEHFYTVSGYGHDDLGR
+EVLDKVFAQVFKAEKALVRIHFASGTHTLACALFGNLRHGDKLLSAVGTPYDTMQEVIGT
+MGDEETRRSSLIGNGVLYDEVPLINGMDVDFEKLEKMVDSSTTMVLIQRSKGYSTRKSLM
+IETIERICKIVKSKNPNCICFVDNCYGEFVDTKEPLEVGADLIGGSLIKNPGGGIVEAGG
+YIAGKELYVERAANRLTAPGIGSEGGAMFNQHRLIFQGLFMAPSVVSEAVKGAVXXGCFS
+F
+>tr|R7MJ30|R7MJ30_9CLOT
+MIMITIAFLLGMILCMLFGVPYIDMLKKKMIGQYVKDLAPETHAKKQGTPTTGGVFIIVA
+IIMTSVITLLLAQKMTTIALITIMTLVFYTFAGFQDDYIKIKDKGNDGLTARQKLFRQIA
+IALLPTLFLVTTNPTACTFEIGNLVLDLKWFYPFFAVFIITGASNAYNLTDGLDGLAAGC
+GVPAFIACAIISHALGETELAIISSAVAGALLGFLKFNKPKAEVFMGDTGSLAIGGLLGT
+LAVLGKFEFLLIFIGGVFVIETLSVIIQVTSFKTTGKRVFKMAPIHHHFELLGWNEKKVV
+TVFSIVSLILSIFAVALFEIFSKGIL
+>tr|R7MKS8|R7MKS8_9CLOT
+MKKKELQSIDYTKERADENLAKTKSVFLYRRELAIRFALRQKEFTQKKLAKRLK
+>tr|R7MAF5|R7MAF5_9CLOT
+MIEKDRTEEIASTHLGKRVEMCDQYNPDLLVAVPRIDNRRHYNIDNNNLPFEGWDIWHAY
+EFSALTENGLPVTRLLKIKYNCTSEFIIESKSLKLYLNSYNMTRLGENISECLNICKEKI
+EKDLSDKLKTNVTVKFLDNDIKKIEIFQQFRNILDFVDEKSLKINHFKESPELLEAEDNN
+QKSEHRIMFDSLRSNCRVTHQPDFGDVFIYYKSKKHIKEHSLVKYLCSFRSEYHFHEECC
+EMIYKRLYDLLDKDDELFVSALYTRRGGIDICPTRWSKNFTPKEVADLIDTSKYARCGIK
+Q
+>tr|R7MB24|R7MB24_9CLOT
+MKQVEEAALQIQEMQQQEQSQNHNEESFKIDDKTNQDKEQVVKANVANGVSSEIMANYMK
+YYHLF
+>tr|R7MKR7|R7MKR7_9CLOT
+MAISNFQEKLLFYTKQKSLISSKLSNIQMQQLSATKDTAAKQQAYNQQLQELYYDEEYGY
+GTDEYSEMLLELQNEHEFELSSLNAWESELDLQKENLETQLNEINGYESAWQKLLLTNIK
+NDFVYGGISGK
+>tr|R7MHQ2|R7MHQ2_9CLOT
+MNDAFITAINTQYATVNWIDVITDNMTNIYTPGFKEKQVNFKTFLGGTISDDYAKNMGQG
+KSTPGTSKDNVFLEGKGFFLTKTPDGKSVYTRLGEFTFDGEGVYRAKNGNTVQGYILNDK
+GEIMQGTKTISADLYQQTSLKGGALDVPTTSIKMWIDPNNGKYLGKYDEYEIKNDGTIVG
+KAENGKKVVPLYRITTRNFHNAAGLYEYKDGLFLETEESGKPVLGCGEIRSGLIELSNAD
+FKGNISYYQMAKMQMEVVNKLISSNKDLLQQAMQLVSGS
+>tr|R7MHB1|R7MHB1_9CLOT
+MECDVIYYTNNCVKTSEGKEQTDFVSPKDESIIPMPFAEQVLVYGTCMRVKANPQYIKFA
+YWANMYKEALLNLKSKTSAYSQDSPVVKLFRQK
+>tr|R7MB54|R7MB54_9CLOT
+MRSVTTFDLQYAHRFYGFKGEAQYLHGHTGTSITTFDLQYAHRFYGFKGEAQYLHGHTGT
+LTIEVEDSVNMGVNMVFPCNEIQKTAWNVLKNFDHALILREDDPLLPAILGVYEQQGIRN
+GAPQNTMKGEAFKTELATAYPECRVVVTKETMTVEGMIKIVYELLKDKLNIAKITFTSGV
+NVATCDYTVNRTLDRCPLCGIALSAEGVCPKCGYRKQ
+>tr|R7MG40|R7MG40_9CLOT
+MSLNEKINELVVKMAKEPENIENYHALSELYMQEQNYDKVMSVLDSLLAIKPDDVQALVG
+MGTMWFYERDFRKSLSYYNRALDVNPKNFLIYYNIGNVFAEWKNFSKALFYYNRAIDLNS
+SNPEIYNAIALLYQDIEDYVEAKAYYEKALSLDPDNVGAMIDMGNVCFKLYDYETALKLF
+KKVFVLNPDNELVAVCIANALTLMKEKDEAYKYFEQALSMTEDKYSIYICYAISKTEFKE
+FDKAEQIYKTAIEFDPKKSNAYILLANLYSNQGKQKEAIDYYRKALHVETNNPETYTLLG
+NAHYLDNDMEQAIQSYRASISLAPENDEYRLIYSQVMDDYVKSVRGEV
+>tr|R7M9M5|R7M9M5_9CLOT
+MTALKKADKNTTNNVESGYEYQFFNAAGQGNGDGISVSDDVTAQIQADYAKKHQVKKGKR
+R
+>tr|R7MC69|R7MC69_9CLOT
+MAKKLSDEIATRKRSINFYSLGSYLPDPDIVLRKQGKDVKIYRELFCDPHVFACIQSRKA
+GVLSLEWELNRSLDKAKDAELVEDVLKKLDIHKLINDILDATLFGFQPIEIMWGKVGNYV
+LPLELKSKPSEWFCFDEENLLKFRTKEHFWGEELPPKKFLCPQNNPSYDNPYGERVLSRV
+FWPVTFKKGGLKFWVVFTEKYGIPHLIGKHPRGATKEETDNLADLLEEMIQDAIAVIPDD
+SSVEIQEANKSSSAEIFEKLIDKMNSEISKAVLGQTLTTEIGSAGSYAASNTHMSVRQDI
+IDADKKLVEKTVNQLIQWIYEINFANADVPVFELYEPEDVDLTLAQRDKILSDTGVKFTK
+EYFIKTYGLKEEDFDIREDIIPVNPNFKQFSEQEEQLLPGQAQIENLYKFITEGELNKQS
+QNMLAPLIDLFESCENYEEAFELLTDKNLQSKKFEETIQKALFLCELQGRADGLDED
+>tr|R7MJQ0|R7MJQ0_9CLOT
+MKKIYSLVLGLFILLVGFAQKVCAENIKFVQIADSHLSADSEYSQKVLKSAVDDINNQTD
+VSFVIFTGDNINNPSEANLRAFLQVANKLKVPYYLALGNHDVYKSKGMSKVRYFEIVREG
+NIFYPQKRPNYEFKKNGFVFLVVDGAKEAIPASTGYYREDTLKWLDEKLTKNEKKSVIIF
+QHFPVIYPDGVDLKTHKTYRVEDYKEVLAKHNNVLAIITGHFHINSETMENGVYHISSPS
+ILSIPQSYKVIDIVTTKDFSPIIYSQLREFKVEE
+>tr|R7MFJ7|R7MFJ7_9CLOT
+MVAVSGVSNYSPVNYVNFRGKAEKAEALADNQEILATKAEMPEDSFEVQHKEGKRELTKA
+DKQEIIQKARTKAVGWSIFGEGFSTLYYALRSDKTIAKKFDLDLKEDKKLIKQIKRDQTL
+ATLPAVVPGLGSAGALVAYIYCKNQDPEDIKVH
+>tr|R7MJ69|R7MJ69_9CLOT
+MSIRIPEVNTNKFFSKQNFSTRNIVKQAASDGFLPVIALEAFVEAGRTYQAYQRGGFDEA
+RERITEEFSGAVFWLGGVSSLNWLFEKLGQKILKLPEKSVDIASDSVRNPLKNFLAFEKT
+KDGAAILEKTMARFKFVKVISSVLIANAFIGFVLPKINQAITRSYHKQNPEAAQDKAVKV
+VTANNKTNLDGDTFNSRPTFDSFAQDKNNDKDNKKNVAFGFNLLSVANKFESDRNYKLLS
+VDAGTASGRAYSARNNDERVEILFRDLSSIYFYMFNMSNMNNWLNRMEQNGNPTRLDPVS
+ADFATKYMQNYLEDKGANVSAQQFREDMLGKSVELPESLKSKFTGKHNKVISLDEFKAEL
+QSLVPESELAMYERRAEAMSKLQPKIVNSSILTQGQVKDILAGGHINNPEFLEKFYENIF
+QKNFTDKYKYVAQSELDALKKQLVDYVQSIAKTAEKADTKEITKDLLNKMSSKNLKMNAL
+NWGAGFVTSALFLSTFIPKLQYQITKWRTGSDKFPGTAQYQEEPKK
+>tr|R7MBL7|R7MBL7_9CLOT
+MQITKITPQFSTTKITKHKNNNEYQTQTSLAPQEKLPIPTAQQLFTINNPSFCGGYSLNL
+AETIENLDKLATKYPDIYPKNVREWAGMILEEGNKAKDTLISVHKKLYANVKECFSLEEL
+KTKFPEFKDVKPASEVDAKEGSLLDEILKGQNEIFNNEEDLSLQLIKLYWGEGFSLNDLK
+AYAGGRDLNGIMNKLNIPKVNRNYGHVLKFSDPEYNERLTKQMTQKRREAMDIKAQQQDG
+EPVYIKRGPLSPEHRQHISEGLIKYYQENPERIFAMSERQKKFYEDNPEQAQMFRRVMQR
+AWNIFGAERIKQALSKFLKKERNQNISELTLEEPHKMTKEQSALMKKFWGVNEWAKKQFS
+KNVEFSWKKVKEEQNMFYKFDISPERFKQKFYAWCDEQGLDKRLTSLDDFKYYPHREELN
+QLDSRAVNQYTPRFIDSQEGDESAKMANTYQRALMNFGKELKKLGKDPKVSLDTKNLAFI
+LRQIIRSNLLSEQGGITIARKLGAQEVQEVYSTTLLGLMDHHENRLIKKLNKLLNEAYND
+LDRNWKAGNTIYVTQKDFDF
+>tr|R7MKJ5|R7MKJ5_9CLOT
+MLKPLQHDMNLTLFLHNGTSGYHPLKFRLLQALRSYPPPFFKLLLSFNIINTYSSLSPNS
+RFLYICKEKGSRYKPQAFTFLFICNYSFVVASAEVEVVASFGVEVFTLCCEFFKALLNKF
+FKFSWL
+>tr|R7MH77|R7MH77_9CLOT
+MVLATFLIIFAFFSFVRAFTISKQIKGSEIIKFDGFHDYNSHGVTVYGLDSMHSLGKEKN
+TVMFIACFIILIEFTMNVSYFITEIGGDIQGMFLSFVTALVPTALLIAETHLLSSTMCKI
+NNYNELLSMLD
+>tr|R7MI71|R7MI71_9CLOT
+MWAYQVDWWMTPKDFRLNQMRWGIAAIALNITIPLVLLIIAGRFIQKSPNNPVEFIGNAQ
+CTVAYSKLESKFDKISINSSMSEYDIAESFAKQFKNATVEGSRVNFAVKVEGGKKVDAYF
+INFSMQPETLCNILQRNCAITSTFVLPAEMNIPNHCEFFFDMNRNIEPDEETAKNLKKGI
+NIFKYL
+>tr|R7MJE2|R7MJE2_9CLOT
+MKVDSYKNLGYVQQSAYTRTQNAANPNFSGSLTGITPEIASDTDKLVEFLLKNKKARAFI
+NKFKSWQGELGGIMITAIGTGLIAPLSIAFNPFVKSKPNATEEEKKELDNTKKYTAMRQP
+ISAALAILFQAGALKPIDKIVNEMTNSPDAKRFWVVLDRSALQNKAYLERTITQEMKKEG
+TTYPDKKAFKAELAKRVKAREAEQMTKLADGLAETGKIQIGERSFDNKSVAEILNAQIDA
+YAEKAKHFKINDEGLDFYKNRANTLISNEKELKELFATHNLPTDEKELETYLKKAKDSTA
+SNGVKELIDEILKRDSDCRESRCQRTLERIDKIKEACNGEFNPDKYLESMKDGNKKLQDI
+IDGLESAKINDVAHADENTIKQTLGNIVEKCHYDGQDGRLRNLLEGSGTFLPDKNAIKAK
+VKKEAIEGYRALIEANYKGFNQLAKVAIGVFITLPITCTALNWVYPRFMDIFFPSLSGAK
+KEPPKAEVKTEEGGNK
+>tr|R7MDR8|R7MDR8_9CLOT
+MLTGLLVKRVISKDERNNFIGRVRTMASAVARMYVEQREAMGFPLCKKETGVV
+>tr|R7MB11|R7MB11_9CLOT
+MKKADLHLHSNYSDGSDSPKELVEKVKKNELSTFALTDHDTIAGCIEIKKYLPKDIKFIA
+GTELTCIADTVKCHILGYNCNPENETLNQLILKGKQLRRQKLDKRIQYLSDIWNVNLTQD
+ELDWLYSRNSVVKIHIGNILVNRGLADNNIDAMKKYLDGCQTGNTRFDGAEGIQTIEESG
+GIPVWAHPLGGEGEKHLSPDEFYKKFDIMKSFGIKGLECYYSRYNLDEIKFLVDFASKNN
+MLISGGSDYHGRNKTVKFGQLNTDNTEIPVENLTILSELIKFRKIKISYQ
+>tr|R7MAE7|R7MAE7_9CLOT
+MYCKKCGFEVTDNSIKKCPKCGAKVNGLPTWAIVLIVIAVIFTIIPFALGILGVILAMTL
+PVLMSDTDSSQFRIKYLRTISTLNQAQLMAMAKNDGEFTNSDDIWNKGIKENTAEVVDIP
+EGIRLSNGVEVKYEKLRESCEPNYSKKASESTACAMLTIDVNGFSKGPNKMSTSTKIADR
+YSVLMYPISVVPITGSEEEKILYPQGTSN
+>tr|R7MCB2|R7MCB2_9CLOT
+MTNKDKKSLHVKTSDRVVVIAGKDKGKIGNVKKVDTVKGKVVVEGANMVTKAQKPQPAAG
+IQGGLIKLEAPLDSSNVMVVCPACEKATRVEMKVIDGKKVRVCKKCGEQLDA
+>tr|R7MJ50|R7MJ50_9CLOT
+MKNYITEMNKCIELAKQAEGKTSPNPMVGCVILNDKNEIISTGYHKKYGENHAERDALLK
+LENATGCTLVVNLEPCSHFGKTPPCADLIIEKGIKRVIYGMKDVNPIVAGNGLKKLQKAG
+IEIIGPILEDECKKLNEVFIKNQTKHKTFVALKTATTIDGKIATQTGDSKWITSEDARRE
+VRNIRNRYDAILTSSATVIADNPTMEHKCKIILDRKLKTDINSTIYKQGKIFVFYDENIN
+IENNAQENITYIPTKTKNNKLDIEFILNKLYDLGIMSILVESGGKLNGSFMPYIDKLYHF
+IAPKILGDNSGKSCFDGNKIDKISNCTNLIFENSINFPPDILVIYNKQ
+>tr|R7MEY5|R7MEY5_9CLOT
+MLNLCGGGETLLPPEVPSIVKACLETGNYVTIVTNGTLTNRFEEISTFPSELKERLFIKF
+SFQYLELKRTNQLTSFINNVKLMKDNKVSFSIEITPNDELVPFIEEIKNLSMDSFGALPH
+ITIARLNTDPEIPILTKYSKEEYKKIWSTFGSPMFEFKLPLYNEKRTEFCHAGEWSFCTN
+INTGEVNQCYRGDLLGNIYDNIDKPLKLKPIGHKCKEPHCYNAHSFLLFGDIEDFSYITY
+ADIRNRVCTDGSEWLQPKMKEFLNSKLTEANKKCFITRLIGYFRHTKEEKA
+>tr|R7MBF7|R7MBF7_9CLOT
+MAQELELIVDLLKEMKRVNSTNMEGFDRLLANISNRLDSLDGNVASAELLKAYLGELTKK
+VEEKYSTTITKFSDIEQALRSIFLDQQEHVRNKDMKELFDIFSKNMNGFYTEAKQQKALL
+SGIESRLSDLSNNKSDKEDILRTITLLRNDFENLNHAYKNTIDEVNSNLKGILTNLIKMD
+QTAINTEMKEQLDILYKATSDIVNVLKAIDEKDAQIEKVLANVATSENLKIAQGVLDSII
+EKTIDISSSIGNLADKKDIEGLQAAAVIMNNKLDETSTKEDFSKINLKTESLLTQTEEVK
+QTLADVTKNIEKLPNTTQLEEALAGIFQDTKKLQEEIHSANIKNEVNSIEEKVNSLTDEL
+TTVKNIIEDISEILTSKILSSIEQISFENEAYDIKEHVSNMVAQLPQKEDIERILEEHHA
+HNKALNSILEKTDVIQDKLDNLPTHQDMEILNNNQLGLIENLQAVATKEDFEALSTKSDN
+LEEKLENLNFDNEFENIYDKTSSIEEWLEKSKIKEKTEEITEKLEAKSEQKDLLELLNLT
+KNIIKELEELSENADVKKVNRTVADIYQMIDELKTDLMNTQEMHNDSIIVQLSELQKTIS
+NVVTAEEFSKFIDELKDFIQRILNHTEKLASDFGDVKKLQDDIIFKLDNIDISNIENTIQ
+KNIESASSNLKQTIEKKHEDLSEKVSNIDTKLITISEYLNNGIKLDDATLKTTIKEIREI
+LQNKKSSFDNIEKDTNSVVEDVHKYVNEIKNLLGSSNKDISNDVKEKLTNLENIIVSYKA
+FNENHFEKILDRLSAYENLAEATSLPSSEIAGSISELGEIKDQIIQLGETFNSLTKVENI
+TDKDISSFISDKLNELGENLNELSNNVENGIQQGFAYNAELIEEKTTIILGFIKELRHAS
+TEDIDLFERLTVTDNKLMDLQQELELINTDVINGLTSKTTTLIEELAPIKELIRVLKQNN
+DQITKQEVHEKLTDLHDSIHEDLTNNPKITRTSYENFENTYDKISERLTTTENNLRDFIL
+GDVDSIIIKIDSLKTELEDQLNRIAPPAAAHMAEFHKFIDEINVFKQEQKDLLANTAEDI
+KTSLAEKMEDQHDEIKSLLTVAVNNEEIINAIEDLKKCFKSRIKALAENKEEEKSDEFAT
+NEFEEAFEENTKTAQVIADIKQDFNRFSDLINDLSGENPEIEDVLNTIKNKIDTITIVRP
+EKNDDENLTDFDIIRDENDEEPLEENIETIIGENNFDFIKAFDLLKQDITKLRTDVEKAI
+PQDGNKPAISSLSSIPKLGNDNLLINLNNKIDDLSKELNKDWLEEIKGYIAGSEIQSMLE
+DISGKIDILTLTDNSEWIEDIKNTLQNLNTSEISGEPNKEIQEMLKLISQKIDILASSDD
+YELIEDVRDSIETSEEIKETLNLLDKKVDIIATSNNNEEIEDIQDSLENIETKIDEISQT
+GNTENFDEIQNSLENIESKIDIISQTDNTESFDDIQNSLENIESKIDIISQSEDSTTLEE
+IDNLKHQLTNLSEKVDIVAQTDYSNDLDEIRDYIYGLEDKLSDIYTKTKPIEENVRKLSA
+SDAKLTSMLETLNHKIDEIFTNNNANSQKEFEDIKHLIFAQSDFIKNFENNSKTEAFKKC
+LKELTLEVNNLNINSHTETKQVQKSLKEMKESIMAAVVTIFNQVSFIEESEDIKDFVEER
+TDEINQNLEEVTKQLKQITSSTDETDYNYSMQDIESDLAKLRLALNELQNNELENQSSEL
+ANIADNVYRITSTVEELQNSMTQDEIKDIKSEIFTLREQTQKILASSDESYNAINTGLEG
+FSKVITNHLTDKVDKVTEMLEKSSVSDKVMRQALIYMGEWIDSASESIDKISSNAEEIVD
+VKNTIEKLKKEIPEQTDILNSIEEKFDEQQERLSYFEKQISKLGNLEEKFEQQEERIDRL
+EMTIEKILSAVEDIDDSKVNKKIDKLDKQLAKLSINIEKLTAYVD
+>tr|R7MHI8|R7MHI8_9CLOT
+MSDDLNKNVINLFSEHNNNHITPEIREKIKYYAGFNYVKVKKDANGNKFNKEHLLKYRLK
+CHYMVTVMREIDGEVVLYSYDVPNDDLFKFMKSFDENTLDGTIIEIDKYFPEDLA
+>tr|R7MAX0|R7MAX0_9CLOT
+MNTTMEKSEMMENEMEMCMETQMPEMMKANLAGEMKQPEEEMNPIDIMMGVVKSQINDLC
+DEIDEADKAFARSHHNDKYSKATYDAEETCKLLNAQKGILDKVLFAMEDIKSSMMPECA
+>tr|R7MKB4|R7MKB4_9CLOT
+MEINNLQFLNYTVNRKMTTEEFAKTANYVSVSDNVPISLNSKPIENEISVASVGSTLSDE
+ALEKLYMSAKVTTVANPATNGVKLSTSYRSFSPAEIMQIKTVIYNLHNSEETDPVPTPDP
+NPNPTPDPDPNPDSGPSSSSFIKSFVDVDTMFDYLENINPEINKETGISKAQLVALTQDD
+DWEDANYDFFGSLNRIFDSLDTDKNLTLSYDEIKIFIGKELGEDFNAYHDRVNDFSDKIQ
+AEYENLSEQEKLEFAIEKTREYLEASGLTNQIDALDRLLAQEDKFNTIKVGNIAIADLNV
+GNTSGYTNLGAYNYYAYTYDDYVNKNKETGIYKIWTDDVDFVTKEGQNEDLGITLDVSLL
+DSKWYELVNTLVHELTHATAYKYYADNDGSISGLVVQDLYDKNVLTDDEYNFYLDHWSNI
+CGGNPTDEEQEMFKRLQYLLYMQWGEYAAYQVDADYNDSIGQDVYKGKYDNATTAVDGPN
+EKQTIDNHIKSSYDNELPPDYKWWSYV
+>tr|R7MBR4|R7MBR4_9CLOT
+MIELNGIYKLKHIKGLISNNDYRYKVLAINKEKTMVCCVQLDGFDAGEKFVFMIECLLDP
+EKPDDIYFGELIRKE
+>tr|R7MB72|R7MB72_9CLOT
+MCAALENLINQGDKVLCLVIGNFGNRWAKIAQSRGAIVEKIEVEAGQIIDPEELRAKLAE
+DINKEIKLVTLTHSETSTGAANDIKTLCSIIREHGALSVVDGVTSVCAMPCKPEEWGIDV
+LVSGSQKGFMVPPGLAFLTANERAWKVYEECKYPSFYFDWGAYRKSTRANSTPFTPAVNL
+ITGLNTALRMIKDEGIENVNARHKKYALALRKALRAINLDLLVKNDENASYSITSILPPE
+GVSVPDIRKYLKEDFDIVVANGQNQLKDKIFRMGTLGFVCERDLIASVGALEAVLKKLGH
+KFELGKGVQTLIEELGK
+>tr|R7MKS1|R7MKS1_9CLOT
+MSLAISTLEYLQTRLNIPDSKLQTYADKSVEEIIQAEAAQGNQAAIQLAADMFSDPTQLI
+ELFQLADPENKLIIMQSMNSEQLEKLLPMLETEDLLQGLQFFTQDNLMDLLKEIPMEELV
+KTVMQLFSEREIIENMPEKELDKLLTSHDMDKELVLKNLQSLPEIYLQQIIESVTGEEAQ
+GNAQEMVIQISQMGDQNYKQAIMNLQPEQKRQLTLAITSAEPKYYEKFSADAYTHIINRE
+RQKDETIKAMGVIKPEYLQKMIATLPQDLMSVVITQIDTEKFADSLINKFPEILAKFIAG
+>tr|R7MCG6|R7MCG6_9CLOT
+MTMRKINILKKILICWVILGTFGLGGVSSMVCAAPTLRQKLNQTNAKRNYFHQKKKQTDI
+KLKNEKDKLSNNQQKLEVAHQELQTTTARYNNLVSNLSSMEAQLNNAIAEFRSIDAAMKS
+RIRQVYKHQRSGMFELILSAKDVNSMLDMFYYEKIVIKDDYRRMQAVKAKANEIARLKVQ
+VESQRRAVEASIRDINNQRAVIQSSIAENKSMIERLKKDKSYYERSERELARQSASIEHM
+IASMTRKHGGTSTVKVSSTGFIRPISGPITSPFGYRVHPIFKSRIFHSGIDIAGPNGGSI
+HASNDGRVIYAGWYGGYGKVVILDHGIINGKPITTLYGHMSAVLVSSGQNVKKGQTIGRE
+GSTGYSTGPHCHFEVRENGKPVSPFGYI
+>tr|R7MBB3|R7MBB3_9CLOT
+MFALPLYNRGVGVNSVLFYRYFIAVILYGIWIKFIKKHSLKITKDEILPLFMFGMLFSIS
+SLTLFCAFKYIAVGLACTILFIYPIIVALIMALFYKEKITKSVVFAIFLTSLGIFLLYNT
+NSGASLNLYGVGLVLLSALSYALYIVGVKNNKAVKHMKGEKLSFYVMLFGLLVYIYNLKF
+CTQLQVLHSPFLWLCTLGLSILPTIISIETITIAIKLIGSTSTAILGALEPLTAIVVGVL
+FFKEQLTYRILCGVIFILFGVMLVILRNNKKH
+>tr|R7MDY6|R7MDY6_9CLOT
+MFYNVQKVKDITDTKEKFFTRKVLMEHDNSSLSVVAIKKGEIIDTHTSESDATVYVIDGE
+IELHFDAQKFKIDKGEILMFKKDTEHKVLALKDSLFLLIKI
+>tr|R7MEI6|R7MEI6_9CLOT
+MKKKIGLLLATVMVLNTAIASTAYGWTNPLKNYNLYEDTHPSSNDESAMERDNVMSEYYL
+NSLTGQDSTDYVPATVPSYGSESESKQVEVPQRRNDYLRESSRKVYSTGQPGWLSEPSFY
+SNPTLASIKTKYHKSNFAGCLQECISYVKLHPSDTLGYYYLAMCYAKVSDKENAIRAYEK
+VIALNDNPMIVKYATNGRNCVMGSDDAKCYQDVNVPELIYPYADVAESVADLTPIDPQTL
+VNRNLTQLQSKLSPVEKKEEDNNDPNAKDKDKKKINLPFGQQDAKLDAFINAPYGNGLSP
+DLNKQYQQLQLKKIQQNLNNEQSTTDDSNVLKNIHNFDNHKTDSGEIKLAYATQNEMESY
+TKSPEYLQSQKELEELRVLFGNDNSSKSSDDEMMNMLMTGNGKNLSPEVIQAMMQKSMMT
+DFTL
+>tr|R7MBU9|R7MBU9_9CLOT
+METLDFTALENSVYRLKEVVEKYKENEKDSIVRDSLIQRFEFTYSISLKLLRRYFMERAF
+FVDDINSLSFNDMVRTATRLGLLKSDLEMWTKYREMRNLTSHTYDEEVALKVAKIVPCFY
+EEALYLLKKFKDTK
+>tr|R7MJQ8|R7MJQ8_9CLOT
+MKNLITTIFLIGILSVFLIFISETEKTKEVLEVYTPTKIGIDIDKNKTISNEEIFCIEGV
+ESFSLEPSEEFYNNNSKQYNLTNEDFISLGYLAQEFATNTILHKKVSFSPTSKITNECKF
+ANIKINNLEYKDILLNSGFGVNGNKIGNIENFRNKLEKAKKLHLVVLNHHSNKYHTLDCK
+YGKLAHDTIILPKRQLPKDAKPCNFCFKQQLKKKKTFKYKKDFDIFNIPNIPTPPLVLTQ
+GDIALYFTDFTHKLKPDNTCSSLVCTEFVKLTNQANESIDIAIFGYEDVPKVTEALKKAK
+DRGVKIRFVYDENYNTDKTYYSANDIIKKLSTVSKSDRNESISNSNYLMHNKFLIFDKKI
+VYTGSMNFSKNGLSGYDQNDVAVIKSKEIANLYEKEFNQMIAGHFHKEKDKHNTPNTFKL
+LNSTIXXXIVLLKFIFHLKTKLQIELLKSSKIQKNLFMFQHF
+>tr|R7MG55|R7MG55_9CLOT
+MSYWNIFTNLLSRTAPTSFAYANPFATPVSKTASLFTLAPKYSYSATRFTYPTYSYATPK
+FNFNFSNIFSGWGNGISSAYKNVKRWASNLGGGIVSAAKKYLGYNERNGSYKLFTGGKNH
+AWCADFSTYVVKEAFRNAGKSLPSGFGSSSVSGLMNWAKSKGCFLQTAGIANKSGVIKGK
+VKAGDLIIFKNGGRSHVGVVESIGADGRINTIEGNTSNKVARRSYSANDRTITGFAQIA
+>tr|R7MK70|R7MK70_9CLOT
+MNKSVIKEVKSIYSNKIRTKNPVTLTAEIKSIKPETKNSKTFFNGVIEKLKISKI
+>tr|R7MEG9|R7MEG9_9CLOT
+MLSTIKRGISKVREDIKVIYENDPAAKNFLEVILCYPGLHALVAYRFAHRLYKWHIPLIP
+RMISYFTRIITGIEIHPAARIGRRFFIDHGEGVVIGETTIVGDDVLIYQQVTLGGTGKES
+GKRHPTLGNNVIVGAGAKVLGNITIGNNVRIGAGSVVIEDVPPHSTVVGVPGRVVHRAIV
+DDQGNLMHNRIPDPVKCDINKLKAEVEILKEEIEKR
+>tr|R7MDU0|R7MDU0_9CLOT
+MEFILYLLYLYVLVYSLYLLILSIRNLKDRPFFIERKYSRYDDSKASFAVIIYSHNHKEC
+LEELVEELKMQDYPLADFKVYAVLDDCNDGSEKIFENDNFVHVVNIQDVGTLGKNKAVSM
+LLEELKKDETIDAYVFIDSTRRIAPEFLTLANAALKKYDAVTGELNINRENLDIVDRIKA
+VYKKYQANFFKQSRSLLGLATNVDSGLFIIKKSALEDAEDINFKDINSELEFSLLLSQTG
+HKCVYNPNIQSFILGQDCSFKKPRLTKRFNLLKNNFKNLKNVNFNYIEHICSLLNPNCWT
+LIAIYALLIAYSYHCQFIVKCSVVIFTAFVLIAIFALSLVNAKLNFKEIMLLMLYPIYSI
+CHIVKNFPPVRVLLKKLGANTDREVDKLSIDVMVQTKHGDRACKLEFISTESGLSKIRFI
+YKNKKYTTSSHLRMIDALQQLKSKMEDYGLILKICSCCSMFTSCPDGSTNMLKGKCHNEF
+PSPLLTEPRPTLIWNSCSCFEPAKVNNFIEEMAQEVEEQKD
+>tr|R7MBE7|R7MBE7_9CLOT
+MGQLLQRENVADFVKKLHQSGKTVVVTNGCFDILHVGHVRYLQKTKTFADYSMVLLNSDK
+SVRSIKGPTRPINNELDRAEVLCALSCVDYVVLFDEDSPRNLLDEIKPDVYTKGADYTME
+TLPEADVMKKNNIRVEFIDFVAGKSTTNTINKMKES
+>tr|R7MA66|R7MA66_9CLOT
+MTWRDLLNVQNVEKGFFRSSNSYGIPDIRKDEFEIKELIPYRVDSRRNGTAHFFLDDYRF
+ERCWKWADSQIPELRKYDGVLSPDFSMYTTYPKAFQIWQVYRNRWCAAFWQAHGIKVIPT
+ISWSTEDSYDYAFLGVEKGSVVAVGTVGVLNDEYAKKLFLDGFKEMVKRLEPKEILVYGN
+RLIEHDEYKNVRWFEPYMNKFNDIKKKGH
+>tr|R7MDJ2|R7MDJ2_9CLOT
+MKKVEDEKLNKPTKSDKKSLSSNPIKRVKSPIENAPMISIAKNANITEPQKEEKKELTST
+KKKLDKLIKPISVSEQNSLESIVETINNFNTTKTKVKSYNSEYKALTNPIQSNINYFEIM
+RNISDAFQNNTSIAGLFTQLNNIFVNKLKWNFVGFGLLHEKSKCINLKLYNNTGNTYSSK
+IFLSDENNPIINSFCHKTIVDIDNINYLNNPYLAKSSSVIFPMMSVHKCIGVMLVGQNIA
+NINTNLVSFISNYMGMFVHNIQLLEQTSKYANTDTLTSLYNHRGFQEMLAKELAKAKDNN
+NHLSVVMFDVNNISKINRELGHAKGDEVIKLLAEKVKQNIRNTDYAGRYGGDEIAVIMPD
+TDTRDAKYLAEYITYCLSCCFVDDVGPVKVSVGISTYPDCSSDQEKLLILAEQAMFISQA
+KGYKEGMSAIVSSSDFNFWDDVALNSFAEVLAKRHSQIGINFEEELVHKFNNEEIINHNH
+LMEMVTSLAGAIDAKDPYTKGHSTSVSRYSEALARAINLPESEVERIKIGAMLHDVGKIG
+IPESVLKKPGKLTDEEWEIMKQHPVIGAEKVLEPNEALRDLIPIVKYHHERLDGKGYPEH
+LKGNEIPLAARIVSVADAYHALVSDRPYRKGMPIEKACAILKEGAGTQWDADLVRQFISI
+APSLTAHV
+>tr|R7MFA6|R7MFA6_9CLOT
+MQVQPVRGYTLNFNGIGHRLVRMSKMSEAAKNVADRFSKEVEEKGSSWREIARNMFRD
+>tr|R7MJY5|R7MJY5_9CLOT
+MNNTNEIFLYDRTIKKDFDYNMWFAFPGPESFAMASLGYLWLFRAIDMLPDIDIERIYAD
+TKTTRIYRESINLIGFSFSFDMDFLSIFQILENNKLALKAKDRKESDPLIFVGGPVITSN
+PEPYKEIFDFMIIGDGEEPNFQAIQLCKENKNKPKSEILKLLSEIEGVYVPSLNPQKVKK
+ATKKLTECIYTPILSENSFFPNTFIIEVERGCANRCAFCIASYINLPIRFVEYQQIIDAI
+DLGLKHTNKLALLGAQVTAHPKFKEICKYIDNKIKQGENIEMSVSSLRVDSFTPEVVQTL
+VDAGQKNLTLAIEAGSERLRKLINKNLNEEQIYKAIEVAKSCGLKGIKFYGMLGIPTETI
+EDIDEIIKLAKNIKKNYKDFDISFGFSTFVPKANTPLQWFGREDGKSLEKKSNYLKKELH
+KIGVQSSISSPKWDYYQAVLSRGDGNLTDYLIEIYNQGGKIGAFKKAAKDLKINTDYYAI
+ENYDYKKTFPWDFIEIKPGKEFLISESQRLLK
+>tr|R7MAF0|R7MAF0_9CLOT
+MQKNEYFERTKEFLSSSRVLKLLYLVTFTVLITCIIASQNFFFQSIIENGISKRDIIAQK
+TLTVEDVKRTEQHKREVAQKVEPILVPAEDDFIKSNLETLQNSIIQIRKKKSSEKEKIEE
+LNVLFDLSGNPKKTFILDFLLHVDDASLREAFDKASLSLVNILQKGITEKDYEKDNINAL
+IQDNLITNVSKRQMIVIPALLEQVIVPNLVVDEAATEIAKLNAQEAVKPYKVTFQKGEKI
+VFEGEPVTRLKRDALREAGYNVYELNWQGILSVYILVLFLTIIYLAYLKFFEKDFLEHRY
+LALSSMMSIIACSIAVLLPTGFSPYILPIPAIIIISAIFLNPRIAFLLSSLTLVILTVGM
+QYETQFLIVFTILSIIGMITISKIKYTRRFDLIKAGFHLGVAGVLTMMSLYFIDKCLIDV
+NNYLILKNCIFLFANSIISSIAALGLSPILESTFHIITPYGLAELGDHNQPLLKRLQIEA
+PGTYHHSLMVSTLCEAAAEAIGANPILARVGAFYHDIGKLKRPLFFVENQSYFSIENPHN
+TLNPRLSKMVITAHPKDGVDLAKEYGLPSIINDFILQHHGEGIAKYFYNQAVQEEGAENV
+KEEQFRYTGPKPNRKETAILMLADAVESAVRAMKGATVDQIENIIDKIIVERLNDGQLAD
+SPLTLKDLKVIASTFSRILRGMQHNRIKYQENIAEEFAKNKIEMPNKILDEDFEKKIKEL
+EDKNHTDLNTDNKKDL
+>tr|R7MK32|R7MK32_9CLOT
+MKKAFGMLELLVVAVIVIVLYFTCFHSNYGRSNPFDDNARINSQKEIVDKKVKEVENAKA
+MKERIENNLKGDY
+>tr|R7MG69|R7MG69_9CLOT
+MPELPQYMSADEILEEWKEGYKTEPNKYKEKLAGVVYSSWYYMVPESEECQKYPLTSLCD
+FDVNRVIDEMVYGKKFPKEKIRFNFFATLMNEAKKYYEEEEYFLSLVLYATYIEHWFNDL
+INCLAVTKNLDDNATEKLIKMFTNDARLDILLPLFNLPEIDKDIKNDLKILFDTRNYFVH
+YKWKPKDEKEGAEQIQKFIDYSKKAPEIIEYLNNYVKQNIYNREFLKKFFANLIYKQSGI
+VVKE
+>tr|R7MC33|R7MC33_9CLOT
+MNGKFILNYVKNIEEFNSFIQNENEATDLKRKILKDKSVYPLGRIIKYNDFLLLAFTHFD
+KNNIAHISKIEYEKCLLNMWKELRRTYAGEKIFLPLIGSGITKFDDVPEKSNLDLLKCVL
+CTLKASGEQFTETITILVTNEIWEDLNLFDNSESVK
+>tr|R7MI62|R7MI62_9CLOT
+MITDMTSGNPLKHIILFSIPLLIGNVFQQLYNIADLVIVGRTLGVESFAAVGAVAPLFFL
+ITFVIVGLTNGFAVVTGQRDGAKDISGVKNSVIVSIILSSIVTLLFTVVCVFLMNPILHW
+MNVPTNIYHNAFWYIEIITIGLIATTMYNMLASIIRALGDSKTPLYFLIIASIINIVLAL
+IFIQCFHMGVPGSAIAVILSQGISFLLCLLFIKYKFPILHLAKEDFDSVKDKKEFCASAY
+EHLRVGVPMAIQFSIIGVGILIIQSVCNSFGSNVIAALTAALRIEQIATLPMMSFGVALA
+AYVAQNYGAKKFKRIRLGVINTSTINIVLSILMAFVMRLWGTDIISAFIGSATKNIINIA
+HQYLLISTIYYFFLGQIFIYRNALQGMGETVFPLLACTAELVMRAFASIYLAIKFGYVGI
+FYSGPIAWISASSVLFFGYLWSIKHIIWKFRYQLNIPVDDENI
+>tr|R7MHM0|R7MHM0_9CLOT
+MKKKILFIIIIVLVLISIRFAVSIFSSYMKQKARSNYVPPLVSVEEVKQEKVIQSFEAPG
+RVVSKYQVSIMARVSGYLQKSYFKEGDYVKAGETLFLIEPDEYKNATNSAGANIQNIKAQ
+LDFANKQLARAEELVKQDYISKAKYDEILANRNSLKAQYSAAELNYKDNKRNLNYTTVKA
+PVDGRIGFIDVTVGNYVTPSSGSLTTINSTNPIYVTFPLSSEDYSAISSLDKNVNTKRKV
+ELYFSNGVKYNYLGVQDFFDNKVDQTTGTVTMRATFQNPTNKLLHGEFVTVKIFANSPIS
+VPIVPITAVQENQEGKYVYKLDSKNLPQLTYIKVQGQTGSNWIVKDGLNKGDKIITEGLL
+KVTPGAEVKIMPQNLHSKKNN
+>tr|R7MEP7|R7MEP7_9CLOT
+MLTIQPNFTRNTAFRGEKAFVDQETYEAKKKYYKDKQREFNEILDDENIPEGMKKGAKVC
+KVASEGILEGWAVAWGASKGASMLKSPKVMKFFTKIGNLAKPLAEGLGKVFNKIGKFASE
+QVDILSKSKFVEKMNANKVGHVIVEGVKKLSNGVKYICNTTKDLFLKYTGKLTGDTYDKV
+TGAASKTLGVGAGIGGAYTAARGCSKPDESADVNDYENEADFLNDQYDDEEV
+>tr|R7MGC7|R7MGC7_9CLOT
+MKLNGLNVVTKFPRVNSKYQFNINPSERVRIDVNENSFKCLHETKSGDEWLLSGATGARG
+PIDFVEKQFSKAMKAVSLMMKESENIK
+>tr|R7MAB8|R7MAB8_9CLOT
+MKSVKEISTETKIQNRLKNHPVCLELVNYLFADAELQEMQEYANNVSIRRLGYNDHGPVH
+MRQVVGNAIKMLNILHEAGIKTSLEDEEIGTFEDSMCAVILAGLMHDLGMSIGRQGHEEM
+SALLCQPILERTLMHMFPNDLHKRVIIRAITTEAIIGHMSSRKIHSIEAGIILIADGCDM
+TKGRARIPMAINTTPRVGDIHKYSANAINRIGIHRGERKPIKIDIEMSGDVGFFQIEEVL
+LQKIDASPAKQFVELYAGVEGQERKCYL
+>tr|R7MCY5|R7MCY5_9CLOT
+MTKSNEEIINEMQQVVQQMVIDDLEENPDIANAFFDCDCCGKNKNLAGSIQYGDYRLCND
+CVLLAETGFALGKIKDIQDLMDAMEDKRLEELCKFIKEEEVRKTQMEN
+>tr|R7MI49|R7MI49_9CLOT
+MQTKEIKRLFIIGMNTYSEYQKEYFKNFFKLINEDEFVISFMDTKEKTNILPINLGNFTP
+FVTEVLHCLFEKIPITQDNIYIFFTNCDVMTISNTITLKSHHAKNIYMADCPPTSINPAV
+LKTLKQEYDIKTTTTPEEDIKRIRQI
+>tr|R7MBW9|R7MBW9_9CLOT
+MRYSVSDNKNPVGLEPGHGIEGLLDVSRGGIAVVHNNDLKVGDVVPVHISYGGLDIKADV
+KVISSTDHRAGAMFVNLDQSTANQLLYLNMILDDVNHISLNP
+>tr|R7MG51|R7MG51_9CLOT
+MKVEQNYRQPNIAQIKPKADNKGFTTNQQQYKQQSNPNFTGGFDLFLRFLDTNQAWGACA
+VDLGSMVIPRTAIDMSRNPEAGMETARREGMGTMNHSLVGVYGTLAGLALAMGLNHTYKL
+GDKNGVKAHSIFADSETLDMQGKIWDAKLKAATGNPNANPLREWLGDTFRNYEALVDGQW
+VKFKEDDINKTVDILEQEIKSDKKGGMSKEAFANAKNILISSNNVENNIRIIAGEGEKVH
+SSRYTVDYILGNTYKLGKVFTNDKVKEAFMNSREIAENAFLKAMKSMNIKRSLLGIGMAS
+VVGISAQPLNMYLTKLKTGSDKFVGGGEKDDSSKFKIKKALAAAVFGGGVLATIGNPKNI
+IKNLQFKGFTPTLNQFKFIYGVTIMSRFLSARNDNELTESSIKDTLGFANWLLLGNFVQK
+LVAQKLDASLIKREGKGVLNWITSSALKTRDEVLHAGLGAKAFKDGKALSYSEMVKLADP
+ATLKKLSVLKKSQLAGYLYSGIVLGMGIPKLNIYLTNRREAKKAQNAAAKNETQQTSKPQ
+EAENVQAQNEAQDTNQENNMFKPANIQFLHTQKNFTGEKLFN
+>tr|R7M951|R7M951_9CLOT
+MSKLSEKLLKLGNRAIKKAQENNRKKGIPNVYCINGKIIFELPNGELTTQYNFS
+>tr|R7MAQ7|R7MAQ7_9CLOT
+MKVAINVVAMILALVALVAMIDWILAGFGTLVVKLFHFNLTAIGMDLTHLSMNMILGKIF
+ALFAILMGVPLHEATTVGGLMGTKLVLNEMVAYLDLTNPALHLSPKSFLIASFALCSFGN
+FGSIAILLGGIGELAPNQRKNLARLGLRALICGTLTCYMSACIVGILFN
+>tr|R7MBU4|R7MBU4_9CLOT
+MAQQFNPQGMNAQNIKKRYAVLVFIKGSTAPLVLYVKDAQSLYQELIEKMQSNQAVLIEQ
+ETEGPLKKVCFISNQIAALAIQEEQFV
+>tr|R7MFP8|R7MFP8_9CLOT
+MSNNIFNPKGRIDRSTFIINYIILTTLYILIGIGLFTIAKNNYKLALLPIIPLFMMKILF
+TFNYKKRIFDCIKNLQASIILAIILGFDAEIISPLLPKIGNSVWLFFLTVVLLFVVPPAI
+LVCMPSRED
+>tr|R7MD67|R7MD67_9CLOT
+MFNKIDEIQRQYTYAVQPVKLFETPNSNLAQKSSFDFINQMQKSGNNPFHPDVSNSYKGG
+KLDIMS
+>tr|R7MI75|R7MI75_9CLOT
+MYEIKKQIYLDFTKNQKSALCNYLRALVKKSPDWSVEEIWESFVADEKYYLELNCSRFEF
+LAEVIDEQWFESDSIKYLKECKKYYDYKEKQRPIIEANKEFEKKKRKFLQEVKMSKEAPT
+KKQLYYYDRLCKKYGIEKKELESKLEARNIIDKIITEHSTGYKIDIDTTGNEEC
+>tr|R7MBD9|R7MBD9_9CLOT
+MTTEVRASHILVKTEKEAQDLYDEIKNGKSFAEVAQENSLCPSGQNGGDLGFFGKGMMVK
+PFEDAAFSLEVGELSQPVETQFGWHLIEVTGKH
+>tr|R7MH94|R7MH94_9CLOT
+MASIVDSLSEAFLDTFAPLKLVGFAIPVYFAIVSFMDGNLPMLYLWYGVISLLFLALLTQ
+GIYNVRRSKREILSLNPWALAKDLVKTIVAVLPNAVVWFGAAYLIAQNVTIPVEVDWAQK
+VFTWVLFSIVFAIVMTSYLSFAKTMKVVQAYNYKVIFDSCVDVLIALFFYVLQLALVQVV
+LFGPVAYLYSFFRVPFTHWTFLFYSSIVAVVDLSITANYLAQIAYECIPGNNEEYDNNYD
+APIDLIDEAAERMNGK
+>tr|R7M8Z6|R7M8Z6_9CLOT
+MEKIKILENLRMFKFLSIIGYVECILIPIYLGYIYSIENPNLRPDGTILMLVIISLFGFP
+TNVILTLGLFLESKFNKNFRDIKRHLITNIGFYLFLGITLIGFFTFLFSIFLIVI
+>tr|R7MBS3|R7MBS3_9CLOT
+MSFLTKPNDTKINMYKNDAYKAQLVLDSYYRPDKEGIKAYAKYLQNYKENPAAGMLISRN
+MIDDVNVNFPQTYSRNKHLVLKNPEIQKLVDEIDKEIDEKYFPKTLKAREFLIKTRRVVL
+EHIMPVKHNLKRELFRIYNAIYQNIKRIK
+>tr|R7MFL7|R7MFL7_9CLOT
+MTKRFGFTLAEVLITLGIIGVVAAMTIPTLIANTNSAKFRSQFKKSLSTLNQAGLMAQAQ
+YDFDYAGTDSKCGDKGGEQNPENVMSFCSLLNGTLTGHTYVGKPSNLKIANSGAADKTGS
+TKYSINKSTNGYTFTLKAADIDNYLAYQLADGSIVAFPKDATGCTLELGQQVNSTTLGAT
+GTLGGCIGFIDVNGTTLPNKEVTCGTAAASGTASKAVETPCTVKNDAKHMTDVFPVVFHD
+ATVEPASDAAKYVLTSAK
+>tr|R7MI43|R7MI43_9CLOT
+MVEKDYKLYGTKIVNLKTQEIGLLICLWENKFADKTVDFATCVDKTGKRYNIELDNIRGF
+EDDFEK
+>tr|R7MH12|R7MH12_9CLOT
+MATANSISKFENSLREFLINVMSDKYGDAKSYAYRYNNLKVFMDPKRCSDPHFFVSIGIS
+EANFSILDGKKLDGGLGAEDGYVKRWSDRVNINNELRAHWKIIKEAIAAEQEEDTGKKSS
+VTLRLRRAENSQDNLDVDMTGTGIDKTKREAKTKRLLKMKNNVLDSNKKDDKDKPKE
+>tr|R7M9X5|R7M9X5_9CLOT
+MTCDKNTQHIQKMFDEISKYYDKMNNIISFGFHYLIKFLSIRKLNLKPRSMILDLCCGTG
+DFTQIISKYCPRTRVIGLDISEGMLKLAKAKNPAGVFMKGDCVNLPFENSEFDYVTMGFG
+LRNIEDRKKALSEIYRVLDNGGKFLQLDFGRHNFISRVFDFIVPLFAKIMDTNENHYKYL
+INSKNEFPEPDDLIREFEDAGFKYVTKCDYLFGVISMQIMEKRF
+>tr|R7MGC3|R7MGC3_9CLOT
+MVDNRSAGFFGIGGSFNFKSGDISGTAAKLSDDKMGQGGEYFSQRGGEEEPPAPSSKYTD
+QSAVLRATLNSLAMMNVANVLNAKKRKAVLDEEDKITEDLKEILRVKKLKNLYNQNHQDQ
+EKDEDKIE
+>tr|R7MGV2|R7MGV2_9CLOT
+MQVTSQNVQQQNIPQQVKYNCNYNNSAAPTAQVQQPQQPAQAPVQCSYPQNYYVPQTQSQ
+VQQAQTVQNQCVAQPQAQQPQNVQVPASTSGVNIQIFNPSVTPPGATPPTYNVNAPCYPS
+NYYTNPMGAGAMNGAGQTGNGGNGSAIGANTGSEKNSETETKDDKKTEKKKIVQLTDDYI
+RNLENYLNSQEKDIRLSAAKEVYSRLEEDTSRKDDKALTALINKMLQDPSEEIRVLAMAA
+LQGRIVTGDDFTVNVLTRMQNDKAHYGMDAVDASNILLKMSGQQVEKEVPITEKSAKKEK
+TETKKEESKGSIKK
+>tr|R7MCQ8|R7MCQ8_9CLOT
+MTQTKVNSVLFDPGYAQHTTILSMSSEYIYAQINQFKNMNQRKMKFKMLFPQLVRMSDNN
+VGFCLGSLLWAVYIKSLGDNIEIEGNPCIGGTYDEAETVEEADFSIAFFEKLNKDSKYYL
+GKEYKYDEILVKILEVYKEFLTLNCGFVSTKTTGDVQLPRGIKIPNDEVLEQIHDKIQEV
+IKSGNLLDLLPMFSLIYEG
+>tr|R7MK45|R7MK45_9CLOT
+MNNSLYSTNMSKIQEGIKDASYEMELDCGWKRFINEGVGYVKGFTSMLVSHIVPFGLGLG
+ALLTKGLPSKICAGGLGIYAGYEFVKNFFGWGTPGGTFK
+>tr|R7M8X6|R7M8X6_9CLOT
+MTLYTKYLAYKENPENAVLCKRKNVLELKMTDFKAYADNLEHAFLEAAKFLNSLCIYSDR
+DIPYSTQLIPLSAVIAALGDKFHYSDVKDKVAQWYWCGIFGEMYGGANETRYALDIVGLM
+NWICNSGEAPDTIKRSYFDPCRLLSLQTRNSAAYKGIMALIMKNGARDFISSEEMNLTYF
+IDENIDIHHIFPKDYCMKENLGQEDSKWNSIINKTPLSAKSNRMIGGKAPSEYLKNIEKN
+MADTSKLSFNLQSHLVSVEDIYSNNFDAYFIKRTKSILTLISNAMGKNISGLDSEDVINR
+YGCSLVN
+>tr|R7MFG6|R7MFG6_9CLOT
+MVFMTGILACFYSLAVPFSIFITAVLVLLLNFKIFSVRRVCILIVIFYFGFFLTFFKIKN
+YDDLLANTPMNSTFTGRIVSVPNSPDKTKSKFFMQVTSVGKKTIQGKTLVTVSAPEDVLA
+KLNIGEEIRLKGSLREPFSATNPSQFDYSSYLRNFNVFTVLYSDDSNLEILNSKMSLRWK
+FLNGLNTTRNRVLSYHSKYLKSPNLEILGGIVFGDDAVAPPDYIKNSFINSGLLHILAAS
+GMNVAFIFSFWFLILKFLRVPYKPRVLSGMIMVILYTLMTGYIL
+>tr|R7MCN9|R7MCN9_9CLOT
+MVVLLQFGCSVTIYDFINVDSIEAPHGRALAVATGVKRAKPEKCVFTYSGDGDFASIGLA
+ESMHAALRGEKITAICINNTTYGMTGGQLGPTTLLGQVTTTSPTGRNVPYYGYPIKIAEH
+IAMCDGTAYSARVSLDSVPNIRKAKQAIRKAFEVQEKGLGFGFVEILSSCPTNWRMTPEK
+AHDRVKNEMMEVFKPGVYKDITENNN
+>tr|R7MFE3|R7MFE3_9CLOT
+MDLKKIIVLVILFVLAGYSSAFAVEDAQFSRSVEIKDGASLSMIDCIAVAFKNSPKVKQK
+KYQLDIAQSNVGIAKSQYFPVISVGAGFYNENNSDSGYYNSHYRELPTVALAVNKLVWNF
+GKTTAYIKMEEFYKIGAEYEFMDSLCNTIFDVKLRYYELLRAKALLKVAQENVNLNEKFL
+TLAKNKEKSDLKTAELNLSAAKIDLIEAKNNYKNSILDMNNTMYIETKANYTLKDTPTFS
+SKFNFDSENLKLNDFSSVKFPFDAENAVELAYQNSPDLNVLVSTKHAMEQSLLFIKRTYL
+PDLNVDAKYGFNNSNYSANNSLQVGVNLSSSVNLMELKHSIKGAKAQLNLADNEIDLFKK
+NLYFEVKKSLNNCEKTQNQIAITKMKVLQADENLKVVEDKYTTGELNYIALQDARKDYIN
+SLETYVSNIYDYNIALIKLEMAMHYHLVDIHHKSKHAVHYHSTELIEHINEVLDCDEAEE
+K
+>tr|R7MI33|R7MI33_9CLOT
+MQITRINSAKTELFFNTGNSQQISSKNTDNSKNITVLPSYEVAFTALAKITPATKMKMYA
+EKILNNLHENQKVHITANSKYLPFMNILSETAYKKGSGKVQYKIIEPEFEALKSKYNITE
+SFDFEQAEKEALKKENAIFLNFSDKNNPYKFSGLTHLEEAKEIEKVKSIIPQKVYDKFKI
+SPEEIFKEGLDLKKGESVVILAEREHIPFITKLMDYLYSKNNTKLIKVHISEDEKVSMLK
+YAKNKVLDEFPTFAKLANEEYLAKDTAYLNLNAGFQNSMEGVDTDRLNYLNKTRAKALAE
+SSNARFAETPWLIYYVPTTKTCISAYPELKENPIKAIEQAYTDANKINRIGALKEHREEL
+IHRTNKMNELAKQGFRKYHYISYDLKTGKPDGKTDFQIEISPKSKFMGPLLEYKKNNHST
+IPNIPTEESFSAPVANSAEGIISVTKPLLVNNKLVKGIVLKFKNGKVVDVKADENAEILR
+KYIQSNENANRLGEVAFVADSPIAKTGRFFNTTLVDENATCHLALGNAYGDCIEGIDNCK
+SFKEAQKYLKALNINSSPIHKDFMVGGDNVKITAINPETGETKTIIENDKFQL
+>tr|R7M8Z3|R7M8Z3_9CLOT
+MRCLSRFGNRKAFTLAEVLITLGIIGVVAAMTIPTLIANTRAQQYRARLKKTISTISQSA
+KMSQAQYGFDFAGLEGACTSNGALDNPESIQTICALLNGTLTGATYVNRLSDLKINNSKN
+YSFTSSYLRSLGSPNSSSYRGYILSDGTIFAFYTGLGRTNACAMPLGETLKSVYLSGLDF
+NLSDCYGFIDVNGVQLPNTEVSCSSGTNSLDSSSCVVKNDIKHLTDIFPVRLHDGIVEPT
+TAAGRFVLRTAN
+>tr|R7MG38|R7MG38_9CLOT
+MKSLYSNWCKIPDKIRFLFIGAVNAGISYVIFALAVYLLGQSHYQLCVVLQWTISSVFSY
+FNQKFFVFCTKGNYLHEYLKCCSTWAVSYFINVIILELLVRFVIKNVYISQFISIFLVSV
+VTYVLFKYFAFKTHKK
+>tr|R7MKB8|R7MKB8_9CLOT
+MKRIIILSALLLSANCAFGASNFSYQQNATNTGFQPNYYAEDSYKLNNNTLKGSVVTVPA
+GQSFKAVLMAPISSETAYNGQTITLALNSDFYFNGKRIAPAGSSVTGTVIEVSKAKHGTL
+NGKLTLRFTQIINPSGQTIPISAVVKTDDNTGTLIGGTKFDIATEYGKDVAIGAGAGAVL
+GTIAGPLSGGSVGRGAALMTAVGAGGGLVKSIWDKGTDVTIPANAGIELILTQPITVNPA
+SSEN
+>tr|R7MC80|R7MC80_9CLOT
+MTLAKAVVTGIVYKAPKTGFTANNVAVSSFVLNIGTQDETLIRVISKRQALESVVAGLSK
+NQKVLVEGRLQCGVSKMDDGTDKKVFEIEASTIELMGGASQAPSNSANQDGDILTFGEME
+SSPEANADVLLDDEEVPF
+>tr|R7MGU4|R7MGU4_9CLOT
+MACVQRISPRIDFTKYAAKKGLNVATIPLKDKSTVKILSNDTKFEEYYLKNGEVINSMKK
+DLPKFEDFSIFVADRLANIQENAVKGINVVAEWTKSLMK
+>tr|R7MKL0|R7MKL0_9CLOT
+MKFDSEFIRRILLTIEEHEDYVMSSRALLKQLEINTRPLERKFMGHILLLADDKLLESTS
+VKYPFGFVFGVDGEYSIIDVGYRLTARGYELIDIFRNEEVFEKVKNYSIDNALEISRQLL
+LKKATSKRKSFFG
+>tr|R7MCI7|R7MCI7_9CLOT
+MEIKPWDDYFLDLAKTCASRSNCLRAQVGAVIVGEDKKIKATGYNGTPSKVESCAERGEC
+YRIKNNIPSGTKYETCRSIHAEQNAIIQAGQDRCKDATIYIWGHNFICILCKRFIVQSGI
+KNCVLKKDENSPIVRVSVDDIREELENQK
+>tr|R7MBN1|R7MBN1_9CLOT
+MNIDFLDKIVTIKDIPKESPFEPCLIENNEKQIGEICTFLQSDSKLLLVNGFKGTGKTSI
+INFVSTFLSDKTLVLKYNCFETTILDDMLLSFFETFRNYTLMGKIIPPRIKTENFTQKIN
+SYFNTIHSPIVIILESFEEILKSNKSEILSFIKHLFKLANVKIIITTRKIEPEDFEDTEY
+EKTTCLALTKPIFEKFLKNNGIKHIGLLSNELYKHSKGYYNVINLSIKIMNLRQLNLVQF
+LEGYSKSFMAFSEFITREALSLVDPVSAHLFRLLTVMRIPIHVNLLKSLHLYNEERVFFF
+VTNSILSVDGECLYLDETFRDIIEHQIPENVMIKLHSACVDLYNTQLPLKPLERDLMLSR
+QTMRNEIEYHSLFIPKKPDLNMKDIRLITVDPMVETVQKSPAVEFKQEEPIQTTTNPSNT
+QIQEESKEDKINKISFIIDDESVLDNIADSIKGFIDDKTKQNEIEEKSDGMSLTQLLNLA
+KQEESKYNYKHAILLYQNALTKKEDESFYQFLPTIYIKLAEAHKHLSQWYEALEAYTQAQ
+DFYFNVADTDKIAQVKLEIANIYYIMYKHDNAKYILSELEQQNLPNEMMIKVNLALAKLT
+DNSDIEFKYYEKALKLVDIHTNKQILAELYYKSAGSYDEQNDTRMAALYYKKCIELDSNP
+NNNKYLSMALANLAELYDEAGSPQHAIKYYNESLRIDKATKNYNGLYYSAMHLAEIYGTK
+NKEKALEYLNQALYYAKKLNETYHIISALTEMGDFYSKLKDFTHAYKYLIEAYNLSKQSF
+NKENLNKIQTRIEDIKHRISEQEFTKLQDEYGKQN
+>tr|R7MJI7|R7MJI7_9CLOT
+MAISVAQQVYHHSLRKDDKGSMVNKTKCVASHFKNDLKYALLGSTVAAAGIGAGCLVYKK
+PKIGIKAMKTAGDMVAGLGKALGKFKTKFVADFGAALGKHGTTIAGKASKYGKFGTIAAV
+ALGTLGVLASLATKHAYNEGRIEQKYVDNAKIEKMTGSIVV
+>tr|R7MCP2|R7MCP2_9CLOT
+MFDAHGQKVDALYQLIQMKNCERIVKFKTASIDSALGYLQWHIRKYKRGLLLEVSLLKKI
+YDWRTKSVRYSYE
+>tr|R7MIZ5|R7MIZ5_9CLOT
+MARLTPLEKIRNIGIAAHIDAGKTTTTERILFYTGKTHKIGETHDGAAVTDFMEQEKERG
+ITIQSAAVTASWKGHQINIIDTPGHVDFTIEVERSLRVLDGVVAVFCAVGGVQSQSETVW
+RQANRYEVPRMVFVNKMDRTGADFYRVVDQIKTRLGANAVPIQLPIGSEDKFTGLIDLMT
+MKAEIYTNDLGTDIKEEDIPADMLEKAKEYHDAMVEAIASEDDALMEKYFEDPDSITVDE
+LKAVLRKAVCNNKIVPVTCGTAFKNKGVQLLLNAIVDYMPSPLDVKAIEGELEDGTKTER
+HSSDDEPFSALAFKVMTDPFVGRLTFLRVYSGKITSGSYVLNATNGKKERIARLVRMYAD
+QRIEESEVYAGDICAAVGLKDTTTGDTLCDEKAPIILERMTFPEPVISVAIEPKTKADQD
+KMGIALQKLAEEDPSFRVKSDEETGQTIISGMGELHLDIIVDRMMREFKVEANIGKPQVA
+YRETIRGNADQDSKFIRQSGGKGQYGHVKVRISPAEENAGFVFENKIVGGAIPREYIEPA
+RKGMEEALEGGILAGYPMIDVKVELYDGSYHEVDSSEMAFKIAGSMAIKEGCRKAQPCIL
+EPMMKVEIEIPDEFTGTIIGDISRRRGRVEGQEPQGNTGNVIVRALVPLANMFGYATDLR
+SNTQGRGTFSMEFHNYEQVPKNIEEEIISKSGAKA
+>tr|R7MAJ9|R7MAJ9_9CLOT
+MGMAASQARLLSITARMSNNEFEQQSVAYSKQRLSENSGRINDAYLEALNKTKYQVLTGY
+NGTDACYADITYNQLTGCNTVASGKQYLVKDNSGKVLVSSAIANAFKAGNGDLNIFLKQL
+GYTQADIDTTKSATAEEAIHEAWDKYLNSVGKSIYDANGNTSDSADYQGEHILGFDYRSF
+GAGQLNGIPTYSRAYIVSQEGKSSFYAYKDDEGYYVNRSAVVARNYVDKNNETKTGVFYQ
+TEDQLGSSNYTQLLDVTYDATTKMFTYLNDKNERVQSSTLYATQRKDGSADLSKTQKDRF
+SYNSKTGLYTSDSGYTYSITKEDIPLNYDGTTQTQRDLYDYATAITEAFYNKSNKSKDDT
+DLTYDAQQISYYKNIFYQMQSCGFTTLEEKYGYDEKKAKKTLNYDSTWMINQLKSGNLVL
+SYYSTAEKGFIGTTLDDDESITEKEDKSAIAKAEQEYTTAMDKIESQDKQFDMQLNKLES
+EHTAMQTEYDQLAKVISKNVEKSFNIFNA
+>tr|R7MHH3|R7MHH3_9CLOT
+MEENNLKISIAHLYPKLLNLYGDLGNIITLKNRCEWRGITVEFENINIGDSIKDHDFYFI
+GGGQDKQQEEVAEELYSHKSELLAQRDSGSVFLGICGGYQLFGHYYQPHDKDKLKGLSLM
+DAYTVAGQKRFIGNVTIKTDFLTPNTLVGFENHSGLTYLEGDTKPIGITVVGNGNNYKDG
+FEGGRYKNVFGTYLHGSLLPKNPHFADYLIELALERRYGEKINLSKLDDTLEWNAHNSVL
+NKDY
+>tr|R7MIH0|R7MIH0_9CLOT
+MTVDEYEALSEYKDRSTQSFNIPKIEKPSDFKYVPQPLYKIVKYNNPPGSVELSLGKKLY
+LKRMINAQGIVSPDYMMLIYPTVYYYPDSASVACDLFMIILDSEDTNLNRILKANVAKRV
+SRPILSTEKAIDNFAAFRTLTPVDFSEDGTKLLVKEKIGSQEDGIWETKAYVYDFNRRVS
+YDLQEVRDSITYFWKEYMDVNLDDRRWDIIPLGFDKNDPTRIVVQGYAYTGSTPIYLGAW
+SIDWQGRQSRLISFKKDFTPAVSENGYKVVRDGVEAYTTVQRQEKMQKTQGKVLEKQKKA
+EDKKIVDFIKEEGKYNLRSLKEDYKMDIRDYKKLQTLKGSTEDTTALDKAYEKYLNDQWA
+KDVIKTQKEIDKAQRNLDKTNQRIEKLNTNLENFSNNKSSGENSSDTP
+>tr|R7MCU1|R7MCU1_9CLOT
+MSNFEMIRNIAYLEPQTSFSEMAKDEFCHMLKLEGRFSTPLTTIKQIVDYVAKNPDTVGV
+LPVENTLDGTIRESLDNLILCKNPNIRIISELIMPIEYCLLSKTTEFYSITGLIATPRLI
+GKCHEFIQNELPRNLNLIEAPTMLESAFDLRNYNLTYASIGNKKIAETCMLNVLKENIHD
+DKNNKTRYILIGDVETMPTGKDKTTVAFRTNHTPGALLEILKIFLEHGINLSYISSRPSK
+FEPNEYIFIVNFDGHLGNTEMLQAIEEIKPKASFFRYLGSYKKGHLVKEA
+>tr|R7MDQ5|R7MDQ5_9CLOT
+MEGQIYKIHSDLFHVKSAGDFYECKVREVLKKQRQSLLVGDFVEFDNNVISKILPRKTYI
+KRPSVANVNQVVVVSALKQPDLDFHQLNRYIALAKYYKIPVVLCFNKEDLGLESDAQDKI
+LSIYGNLGYKVVFTSALEKKGIEEFRKLLKGKISALCGNSGVGKSSLVNALNPNVNLKTN
+SVSDKLHRGTHTTRHCEIIPLDETTNIVDTPGFSNVRFDFILPHDVDLLFEEMIPYRESC
+KYGNCLHINETGCGVLQNIDKIDETRYSSYVEFVNEAFEYKEKVKYNGVKEESSSKFKNN
+RAIAKISAKKREASRNTKKQLIYKELNNDENE
+>tr|R7MIW5|R7MIW5_9CLOT
+MKFETDYIEKLAKVLADTGLTEISLEDGEQAITLRKDVVVAPVAPVVSAPVQAAPAAQAQ
+APSAPAQTASEPAKKGTPITSPMVGTFYKSPSPDADAFVSVGQSIKTGDVVCIVEAMKMM
+NEIKSEISGKVVEICVEDGQPVEFGQVLMYVE
+>tr|R7MK42|R7MK42_9CLOT
+MKRMNLSLISALLLAVVTVPTTANSAEIVYPKSNNVVINSAETFFIGNEKPNKALKINGE
+NVSIHSSGGFWHVVKLDYGENKFVIDNGNDTQIYNITRNNINTTIKEEQTYQSYEKPLII
+ETNADNVPLRSMPNDFGLNRLQHLQKDIQMKVVGEFGNYYKVQLSRDDFAWLSKDYANKI
+DTNDLNLQRIIAFDYHEDSTKRIYEIKLSDKVPYTLSESDGLDLVVYNVKDYPYNKYEFY
+IANSGKLFGYKSYYTDDNRLIIEVKKFPDINNSTPLKGLIIAIDAGHGGTELGAIDRIRS
+YRVS
+>tr|R7MB59|R7MB59_9CLOT
+MVDFRKANQGDREFYINSVKEFYNSDAVLHSIPIENIERTFEIVMGKSPFAEIYIMEQEG
+VKVGYALLAKTYSQESGGEVIWLEEIYVLPQFQGQGIGGKFLEYLKCNYDVSRLRLEYTP
+INDLVCKIYKKHGFQSLEYKQMICGS
+>tr|R7MB83|R7MB83_9CLOT
+MNVEEDALLEKATKENPAEVVTEKVKKQWQQADLKKEATEEKVDLFNPDTKAGLNEPAPK
+VKDEVTSLIFTGKLKDSLTQHYNELGNVFKDIAKNRSADFKKLVKECGSDKEAFCKGVIS
+ILSEEIGMKGFEPKIEMKNLTEEADGQADWTKGTIYINSTENNVKKLVGLISHEYIHMLQ
+YRDILAQYGETGLREVIMNDNNIPQEKKESQLSEILKSPYTKKLLDNYDNLKHSPENSLN
+EYITRIYKDEFSNGIDPNKDMKGYTNQGVEREAYHLGSGKLGNNTTQLEGLTLEKEESMK
+DVLARMRAKLKTGQTSQDIKNNTSPKKAKNIVVNEDGSITFANNTPKGIVQSEITSENFE
+QQKEDFINEFNEKVGKFHNILYGNKVEKISTPEDLAAVKDFWEWTNSEEGKKQFRDSYEI
+IDKINAKNIADFKELVETMKAQKDLSDDIKSNLLYGAIAEESLKETKEFIQGIEPSDLTK
+LNELEIFDRTMLSGSSTEQKAKLDFYKEIKTGKYDSIIKDDNIFKHVLSIGYSVEKTKSL
+YDTFAGENISKEWFAKIQEGLENSDVNAIKQLYSQTKDLLDNNSDISWIMFRNLKQEDIP
+AKIEIINTLKSAKATNEEICDILNKTNKDNLDIAKDLVQKAFANGDEKAEKYNIVIILNR
+LTRGVYSKEFVEKNAEALLHLDGTCIRKTTETNLELASKISENKEISSYQVDMMLNYATD
+KEKTQKLIDNLDNGYTKLSEFEVMNQLRMDFIELIKKHLPPERLQELERKFSNDKETFEN
+MLLQQAFKLKGVELSPAEEKVVNDITRISPPLSIGTTVLYGVKSGLEKYFGDRDRTISDM
+NYALENAQYKDEATKQQTLAKFNDLYPRLSKSELATIKNIYFQLPPKERLNIDYSLIAKR
+EIIPLLKGTQNYDADAIKKALEFLNCSDAEFKQKKHNLETRRPELRNEYKFSEWKRILNM
+PEAEFNKLKTPFELRTETPVDIKAYEAQMREKMADRITYDPIEAAELIERAEKKQSLRNE
+MFGNDYVPDKINAFEKLPKKAPGTVTPLPAAGKLMRELRNTGHVKLSIPNEGGVKVKPYD
+AVIHPEDDYRLNVTQDAGIKIRYGTKLQWSNFKIARDLLQNYYDGHGHTLEGVNIEVNKT
+ADGKYKIKISGESSWDYSHLDQMGSSTKHDPLDAGGYGEGTRAVAVSLLSKADITNVKYA
+SGDWAMTYGRSSDD
+>tr|R7MCK0|R7MCK0_9CLOT
+MPNWEKGLIAIAINLVLIIILFKVIDVIDRRVRLKIQNEESNSPLLRFIPIIMKLLKAVL
+LFIAFTGFLQSQGYSVSSILAGFGIGGIAVGMAAKDALANIFGSIEILSDHVYKVGDYVK
+VDGIEGYVEDINIRSTKIRDLDNFLISVPNNVAANVVITNVSRAKKRFINMMFGVTYSTD
+NDSLQKAQEILKEVALAHKDIHKDFVVAIHDLGDSSINIRFRGYVKSGSYEKFLKVRSEF
+LADVIKRYREENIDFAFPSRSVYIESDNTKIEN
+>tr|R7MIS7|R7MIS7_9CLOT
+MGCLWGLNMKNKSFGFTLSEIMIALALIGAVAAMTIPTVGSSVQQRARLAEFRTAHSKAE
+LALKSIIFEDARIPQCYNSQHTNNSFGLSAALGGASISAKGTGCPALTRDFTRAMGSVRS
+CTTNPKREGCIPNNYPDGGNCFSVTGTEAYVLDNGMILFISKGTTGMKLFAIDVNGRKGP
+NKWGQDIFTFGVYPSAATRSGNNVYVSDLKVLPHQSCLPRSNTSAKNSKQMLEESTNYK
+>tr|R7M946|R7M946_9CLOT
+MNDYKYYLDNGIYNFQDGKYEDAIENINKSLELKNDWAIPYFYRGAVYDVMKKYDEAMLD
+YTKALSLDDKMTDAYYNRAKIILSRKDIENPNIEGAIKDLEKALELDEKFVDALFAMAAA
+YKKLGDYHKALSYLEKLLEIEPDAVNAKAFKKLILQKYIV
+>tr|R7MI88|R7MI88_9CLOT
+MKNKLINNFKLAILVVLFSTTNTAYAHGAKLRAMKPMIEKYAIVMVAIVVVSFALYVGLS
+IYNRLLAMKKLKNFTESNSSLKTPETVENSITMYITKNRLK
+>tr|R7MC19|R7MC19_9CLOT
+MSFANTMNILSNINCFLGSGVSYLEQRKQGVDPSIATCSLFNNIGNGVVRNAIAYDMAKC
+GNPMGFNVNMAYGYGNPVANTYGTMAMLSVASPWMFFNSPYCGMTPCYGGGMFGMGMPYG
+GFNMGFGYGISPGFFC
+>tr|R7MEL7|R7MEL7_9CLOT
+MNKKNFLIVGIVLFVLLTIVAMSMDVSQRKKVSFTNQNLALNNENPNIENKTTNVNSTNS
+KFSNKNISTDNTGVNLQGTGMKLNGSKVKSERTDIDFEPFDNQNTNYSSQNTSSDNQSNY
+YKSFDDFKNRKQRLENARNQINNASPRSNNQRTSRYVVKNIDWSTWKSEFINKILDDSMS
+ITSLDDYGVGTWFYYSFVVTSDGAIKNVKVSSPYLSDEDKQRIRNLIKSNEYQDITIFPA
+NSRRVTSKVDAVVMLGNSEKKSNPSDFNDIERIKMSLP
+>tr|R7MBR5|R7MBR5_9CLOT
+MLVQKITNTPVLNQFAKNDCCKPRKNSMFTSKTSDSISFGKSKESLVTNAFLQIAKNRKP
+SSLGEYMGTVGKTNFIFKETKFGKEARLSVLRNNEHATFNVSRGTNKPVAIVEAVEGNNS
+KNLVQIIQRFLKIVH
+>tr|R7MA96|R7MA96_9CLOT
+MKRDVLLVGVKTDTYPFGYYDQKGSFSGYDAALARIIARGLLGSDKKVKFVPVTASDRMM
+KLYSGDVDMIVATMSITPKRQEILDFSNPYYTAGQAVLVRKGSSVKSLRDLNGKKAIIVF
+GSTSERSLRSAVPNVGIRGYKTYPEAYKALKTGRADAIVSDDTILLGLALKDDSVELLPK
+RYSKEPYAVAFRKGKESKELIRAVNNIIEIETHNGNLRKIQETYGIK
+>tr|R7MJB2|R7MJB2_9CLOT
+MNRILKLIVIFCLTFGFLNGISLANSLSDVDGVDFNSYMNTMYSSIKKNWHPTENSGAGK
+VVISYKIKRDGTIIEPKIVSSTNTELNKFAVEAIEKSSPLQPLPKKCKKDLIEVSFTFSY
+KLK
+>tr|R7MET0|R7MET0_9CLOT
+MNISRIPGRIVSYVVSKAPQMTISGERANKAVAWVGKHISSPENRFILGATALMSQPFID
+LHNRKVDEDTRKVSAARTVAKIIAGTLTGVLIRSACIHSVNAFTKLPHEISPNMKFKSLR
+NLFTPSEGICKNLNEYKNAMGTILATVVMMFTNFLIDAPLTKFLTNKFVDKIHNNASKPQ
+NSQPAKMATETKEVKHD
+>tr|R7MFR3|R7MFR3_9CLOT
+MSENIEDRQKVARLLRLVRVGQLCVREAMLAYPKDTEDESLVAAYHALIHYEADEDLRNR
+DALYKEEQDDYIEFLSYTLEKGESLPQNIIENYKNFYESAPILHKNTAGGFLKSFFKMLN
+IDRRRKK
+>tr|R7MAU4|R7MAU4_9CLOT
+MGASIPQVKGMEPVEFKEGESETYIFETQTEDETETEDIEELKNTIVDLKQQVADFKEKS
+QNKETIKELKTQVKNLNIELAKFKDQAAGKDELAKKLQDLENTIRDKDFNEFIDSQISAG
+VLTPANKDAVFNILQDLDNVKKFDESSNSIDNFKTFICALPKQVEFDEIAQKTQRKRLMT
+N
+>tr|R7MDE3|R7MDE3_9CLOT
+MFELENTQFYSCQTFEGSDEFEKIKNKYNVIDLGSTFTNFSDTAGAVENMDLVICNDTSL
+AHLAGAMKKPCWILLPYIYNWRWHTDLSHCDWYDSVKLYRQPDHGDWMSVFSDVERDLKQ
+LLTSKII
+>tr|R7MFZ8|R7MFZ8_9CLOT
+MNIKDNAANIVSISRIFVAFVAIALLFKHTTCAYVWAVILTIIAFIMDGVDGYVARKFNQ
+SSEWGSVLDIMGDRIVELSYWIVFAILGYLADGNMALNAMFPIVCVARAFTTDGIRSVAL
+SKGMTAFGDKSMQSTAWGKFICASRFMRISYAVAKVAAFVLLIVAAIPALPVAIAQPIHL
+IAVILAWVAIIFCVVRAIPVVAESGKLFNDAK
+>tr|R7MJT5|R7MJT5_9CLOT
+MSEYYSYITKDKDRWDLIAYKFYKNPTKYEPIIQANPKVPITPILESGIRLKIPVLDESE
+TIKFTLPPWRK
+>tr|R7M9C1|R7M9C1_9CLOT
+MQIKVKEFLKKYAKKRVVVPIVIALVIGSIGYNNFKSNQVHYQTQKLDKCTITEVVEASG
+TINPVNTVSVGSTVSGLMKAIYVDYNTEVKKGQLLAQIDPANFQASVDQNRAQINNAEAN
+LAKLNAEMVMAQKTYNRYKNLYAKNFVARSELDQAESDYLAKKASIGAQQASIAQARASY
+KTAMTNLGYTKIIAPVDGTIISRDIDVGQPVAASFQAPELFTIAQDLKKMQIEVNVSEAD
+IGKVKEGQDVEYTLDGYQDSTFYGKVTQVRLDSTTTSNVVTYTVIVSVSNDDLKLKPGMT
+ANVSIITNKRADVICAPSIALKYSPESTGQKYKNQGIWILDKNKPLRVDIQEGASDDSNV
+EIISNRVKLGDEIIIGSTGGKKKSGASSNGNSKKRGGPPGMF
+>tr|R7MJN5|R7MJN5_9CLOT
+MDAAWKEYTQSKAPSADEILAQRQAELAKLDAKAAKSKDAQVSQAWAEHSPKVETPKAEA
+PKTEPQKKTVKIKQKKATAKPAESETVFVDRLPEQTKTTKATKEESVFVDRLPEQTKTQK
+LEDIIAQSEADATRIRQQKLQEVDEMIEKQKKEIDAALKRRQEQDFDDLILQSAACDDML
+HNPLGVDDMLHNSSIDDMFHHTGFDDMLGF
+>tr|R7MID2|R7MID2_9CLOT
+MTKLLNLISLWALPVILLTVLTLGIFKKIPIYEEFTEGAKDGFKVSVKIIPYLVAIIVGI
+SMLRASGAIEMLATFLAPILTKFNIPADTLPLMIVRSLSGSGALGIFSDIANNLGPDSYA
+TKLSAIMLGSSETTFYVLAVYFGAVGISKIRYALIVGLLADLVGIIAAISVCNLMFG
+>tr|R7MDU1|R7MDU1_9CLOT
+MFNRFFKFSQDKLSFLYDNSLFLQHIDKFILFFIMVTFLSSTFMNSDSIGFFALIAMFLT
+IVKMLTKPNEKLSFKHFEIWLVAYFMLVVVSLFGSTLFELSLKGFFKTFVYLGFYFSVAQ
+YLKNNTSKIPVVMGTMVLCICGESIVGFLQSFLHLDEISTWQDTSNLNPEDVLSRVYGTL
+KPLNPNLYGGYLVAGLGSVIGSVFYFLNKKQFKLMLVAVAFALLTVYTILQTGCRGAYLS
+MMLIFGCVFLLSAKFFWNTYKKIYLSIIGGAFALFVFAMTFVGALRHRFMSIFAMRNDSS
+NSFRFNVYHSSLQMLKDNWLLGIGVGNKNFREIYGLYMKTGFDALSAYNIYLETAVESGI
+FALVAFLAFLITMSKDAVKYILHSENREQIIFIAASIISIWAVMFHGLVDTIYFRPQLQF
+MFWTYVAVISTVLNDKSVKTPVIE
+>tr|R7MGG4|R7MGG4_9CLOT
+MADVSFTSRIRPVSCKDFNNIVSVIPRNKFVSHPWLIEDSKMGQNVFTTNICDCTSCLIS
+NGQEALLMHLSPMQESNHFFNNVLIYLRNHLDLKDENLQAILVGSKNTKKSLDIYNKFVD
+LLNNFGIPISELKNGKTPTNIAYKTNTDEIYVSNLTIDKLLKKGNSAEDALDKSFEKIEI
+SKTDSL
+>tr|R7MBJ6|R7MBJ6_9CLOT
+MDSILKKVWIFLLIFTGMGLVALVPFDKYQRAYMKEFHKVKSAPQKRVNAAYTYVEKVES
+GEIGETSEQNPPQVKKRIRYVQPNPRHRKPIYIRDKNNPKILHPYQG
+>tr|R7MC97|R7MC97_9CLOT
+MLKSIIMKKILSILFLLVTLQLGAFAQDTNLTFLYINGSNNNDTKMKDWYIKGVNKLHPV
+MIKKFENNSTIKKWSKDNKLVIEEKPQIFFWGYDSKTDLDFVKERLDISKAYSSTLAYEV
+RSLLTQFMHDAIWVQKTHNMLPILDELNEDVKENAEQGQNVILFGYSAGSFVTYQYLLYK
+MPYVNLSKLFKVLNADEEIQKLAVDNPRKDTCLSALSYDKGNIGVISNTGHLVLNQNKEM
+LMENYLKMDEITDKYCAPKDKVRGVVNFASPVPLFYSDMADKNYDFTFYNKYLVKYVLEN
+GIYFLTVNFREDPLGFPSSKNLTNKQIEELLGLKIENPTGVIYDYSSVWSKRSAFLAHTS
+YWSARGTFAKGVVKAFVNGTKFQYDEKYQNKVLKKKSKKSEV
+>tr|R7MGR1|R7MGR1_9CLOT
+MKKILLMFVFVCFTCLGASADQFLMYNNAGAPSRVMSLNGYSRSINTFGSNAAFTPANRA
+RTAARVRAAKRENAINKYLENAGRYGNSGGRTVAMQTQPVSRFDKSYSVNRAQKTYTKGG
+VTFYN
+>tr|R7MB95|R7MB95_9CLOT
+MNKEELVKEVSKKAKVSQKATADILAATLETIQKTVSKGKKVTLVGFGTFEARKRAARTG
+RNPQTGAALKIAAKTVPAFSAGKKFKELVK
+>tr|R7MFL0|R7MFL0_9CLOT
+MEILNTERTKLNNTIELIGEPSENNILIVGVVHGDEPQGKYLIEEYLKTHYNFPSNSDLP
+PSSKSKISVLPPREDKRLTQLARTLRNNMTVQEIKIWQYLKNRQIDGVKFRRQFILGKYI
+CDFVSLENKIVIEIDGSQHIESNSDLQRDEFLKSIGFKVLRFWNNEIDNNIEGVISKINN
+VISQCPPLEGGPKSPISRRGTLFIPCLNPDGLQLNRRTNANNVDINRNFPTKNWGNNEGD
+NATCDDETTNYFGGKSAGGEIETQFLIDTLNKYTPSLVMTIHAPYKVVNYDGPAKGIAEK
+ISDIIKYPVEASIGYPTPGSFGTWAGVERNIPTITLEVDEKIQVQQLVKPVFEIFDYLIM
+N
+>tr|R7MK07|R7MK07_9CLOT
+MKKEWILDNTVTNEKSLIKRLLISRGIKTEEEMKVFLNPLETPLTSPNVFTDMEKTVERV
+SRAIDNKEVIIIYGDFDADGVTSTSVLYKTLKFLGADVHYFIPDRESEGHGFDKKALIKL
+MTTIKPKVIISVDCGISDVDAVRFLNSFKMIDVIITDHHEAPEELPPAYAIINPKAPNAL
+DESLSAKQIEYLTYLAGCGVAFKVSQAILAKYEKTEFVYEILPFVAVGTVSDIVPLIGEN
+RYFVSKGLELISKGKHNGLKILLESAGYDITKGVSSEMIAFGVAPRINASGRLDTVESAL
+KVLISDNVQEIQMAVTTLNELNKVRQTLCQEVFAQADAMVQKEGNRFPAIVLANEGWHIG
+IIGIVASKLVEKYYKPVFLMNYNPVKNEYRCSARSIEGVPLYDVISANAEMLAGFGGHKL
+AAGLSFSGEQASFETVKKALCETVKEYTSSKELKPFIKIDLLLNPSDVTTDLVEEISKLE
+PFGASNPSPIFELNNLKVRQKRLMGSDNSHLRLVVASDAYEFTAIRWQKGDVGLKSGDSL
+DIAFHPQINEFNGNVSVQLIIDDIHSDSIVDEEIPSQNQYKIFDNRKKVWNLQNINDEIK
+KASSNIKVFIESKYIYDTVKKYPELASRVCSRYEITKCDVLMFFDYPADKKTLDIILEKA
+QPKKVHFMSYEPKVMDEAEFLKTFTGMVKFAAHNMGGKIDLVRCAGFLGKSIEVFQRLLD
+LYEEVGFLTVTDRNNAFYIIDFKGIDDLSKVLHSTKYAEIFDMIVECEAFQRSLLEDDLA
+EVLL
+>tr|R7MC27|R7MC27_9CLOT
+MALRYDCGEIITAMVTPMEKSGAIDYDKVEKLAKYLIDNGSDAILVAGTTGESPTLTNEE
+EIELVSTVKRAVANKAKIILGAGSNSTASAVEYSKFAQKEEVDAILSVVPYYNKPNQRGM
+IEHFSTIANSTNLPIIIYNIPSRTGVNIEPKTVAYLANQFKNIVGIKQSFPDMDKITELK
+MLCPDDFAIYSGDDSLTLPMLSIGAHGVISVTSHLFGSEMKSMIRNYKTGDVIAARNMHK
+KLYPAFRALFSAPNPTPAKAALAYKGIINEYVRLPHVTLTEEEKLSLFKVLDNVKKELGE
+ED
+>tr|R7MGW5|R7MGW5_9CLOT
+MANEDNIAIRKTPTLKLIILSIVTVGIWWYIWLWKLITDINNLYPQKGKCIHRYNWFCTL
+IGLDIISTILDIKGIQKEFIINIANVLWLLLNLILTLQLLKNIERYVKEKFDIEIKHNVL
+GWIFFGSFYVNYKINRLNKSIQDGINKKITQMKLFNTQEKFLDKVKRFFKK
+>tr|R7MAV9|R7MAV9_9CLOT
+MGKVTRGNSSQFGMNVPIEISKRGIRKKIAQTDLEIVKKEIREKELDLKIAVMRNYFSVI
+YAKSVVKILQDREKLFKNMMVISQQRTKNSPNYKLDVLQSQIKYQKQVVFLNKAKANLLV
+AQFELNNALNIKNSQTMYDTVESSLFANNLSILDLNLLPYQEIEDTAMKYSYSLSIAQDN
+IQRSEQKITEAKHKRIPDISVGGGYAYQTARQTGGESLPGAYVGVSADIPLLYFYNPEIK
+KAKITLERSNLNKESFENHLRYALKEDYNKFKYSKENMGYYSSILQESQTILDEHTKRYE
+KGQSTLLNLLQVETMHQETLRDYIDAIQKYYDAYLDLMHNVGHEILLNTDL
+>tr|R7MCM3|R7MCM3_9CLOT
+MFGKRGKMKILFASAEVAPFSKAGGLADVVGSLPKELEQDAEIAIFTPLHGCIDKDKYKI
+KELENSEMWLTFGNQPHKFNLYMAKLPDTKINVFFIKNDWYFSCFKEVYPKYLDPRYEHE
+RYISFSLAVMEYAKALNFRADVIHANDWHTAMLPLYLHSNYKFDEFWKDTKCVFEIHNLA
+YQGIWFQDVLDFANMRKDIVYNQWGCEHYDRVNWMKGAIQYADRVVAVSPTYAKEILTPE
+YGENMDYTLRGVQYKLRGILNGIDYTVFNPKKDKALAKNYDVKSLDKKEENKKAVCKFFG
+IKYNPDRPLIALISRLVDQKGIDLIRDMQYELQKLDADFIFMGSGDNSYENLFIWLSNNT
+PNIRTFVGYDAKLANLIYAGSDFFLMPSKFEPCGLSQLIAMRYGSLPIVRATGGLEDTVT
+GYPLDNSNGFKFWSYNGWDMLNAIKCALYVYGDKYVFNAMRKSAMEADFSWKRSSKEYMN
+MYREITGKQ
+>tr|R7MDT5|R7MDT5_9CLOT
+MFVLAAIGVAVYFNQEVVKIQAYKVKGMYYVYKGDKAYHDMRMQKAIGYYNTALKYYPQH
+YSAWYNLGNIYVAYEDYYSALYAYSQAFKYNPNMMIARMNYGIVASEKLGDFDSAIKQYE
+QIIKTKRHLLEIPYIYNNKISSKENKAIAYYNMGYSYRMKSLYANDDWEWQRRYLAKAIK
+AYQKSLEINPKSYDTLFNLGLAYQISGNYEGAGKCYCQAISNAPMNYEAHYNLAVLLRKL
+RHYNEAYEEIEKASTLISALGENSSTQQYAAIVMNDIMRNVYFNEEYKSYLRTIMDEEKS
+KNKQHMAKNKKDIATKETKADKENGTVTTTQVNIVNGKVVATEELDKAILDNFGECPSMH
+YFEPQEEDY
+>tr|R7ME68|R7ME68_9CLOT
+MTLSGPGAGEFPTASSVVGDILAIASEIGKTDYLLPMMRCNHHENAGMIPIEETENKYYL
+SITAQNSLGVIGRIGKACEEHNISLASIVQKEVAGNHAAKITVITEICKEKDMQNVVNIF
+NNDPAITSVNSLIRVQV
+>tr|R7MKC4|R7MKC4_9CLOT
+MFPQGTRGVPGEIRGVTKGFAGLAKLTKCDILPVGIIGSNEVKRWPFTGKIIVNIGKPIP
+YNKNTDIVKEKWIEEIQKLTGFKYIEEQPADKITEGEKNNG
+>tr|R7MA85|R7MA85_9CLOT
+MQIQNNTPNANPNFGMAFRKPVDIDKYAKYITEHESPRRAVAASNDFIRSHVSDTHFDME
+MGSDNSIKIVAKTPEGRKFLDKTGGEKKFPKNGNYSFSKLEEKQLEIEERRDALEKAGAS
+KFKMFFFNINSSIEMFIQKFRSKELSPKDLLPANMREADKFVSDSEKIINNEITLRNALN
+ELFGS
+>tr|R7MDF5|R7MDF5_9CLOT
+MGGRGSGGGKGGGGGGAAKKIPTGEGITDKNELINLYNSISGNSNLSIEQRVKAMHDIEE
+RIKELDAKKQADLKQKRLDALAKARAKRAENKKNGIKPEKKEKDPRKSKPKMSMDSTVSD
+LKYNLRRGVESDGYFSSNDFRVEDNGNYVNVSVRYLGKWKNPSHARYEEDYDWQVLQKSS
+GKQIDKVIKKLSKQSGRKITWGTSEKNWIDIDIPKMKGD
+>tr|R7MGU7|R7MGU7_9CLOT
+MYNDYKTVLDELKEHSHFRNLKNFERKDEKYIYFKGEKLLNLSSNNYLNFADNKEITQEF
+LDFAGDKFSLGSASARLLTGTLPVYKELEEMLSSLYKKEATLLYNSGYHANVGISSALNR
+KGDVIFSDKLNHASIIDGMKLSEGKFFRFPHNNMTALENLLERERKNFNNAFIITESVFS
+MDGDIEDLKKIVELKKKYNCIMIIDEAHAFGVFGEKGLGVAEKLGIINDIDLIVGTFGKA
+VGSMGAFVTGPKILIDFLINKSRPFIFSTALPPINIAFSKWIIENKFSTTKAKRERMLTI
+AKKFGSESHIIPVIIGENKETVDLCEVLFHNGYFTLPIRPPTVPVGTSRLRLSLTSEIEE
+NELLILKEKIDEVLLAK
+>tr|R7MG23|R7MG23_9CLOT
+MILQDRMESINNVIKNIAEFIQTHDEIKTDFNEYLRTIGASSKTGVPLQTACFSYILERN
+LGEDLKSIPELYLENNKNLDKETKDIVNAIDKSISSVFEIKKVTKTGFDLLNIVNERKYM
+VISLMKMTAFRGLGSGDYVIARLVNLNGDYYLLEISGVLPASRKDDAYRFAVAKIIQNPE
+LVYLDNPEKQKEIEQDVADVYKKFVDFFGTTEIITTNKFADDLIGMFNDYAEEGKKGDFK
+DLIKEPEEYKFFNVTEFNNSYDNFLENSLGGFSSHKETYDVGIIYDEELGLYAVPFYGTF
+NKIFEVPDYTKVLNFDSCIKYFLTNDKYSANLIRMVAAKHKNFMEIVNAVLAKNYTLEDL
+LKKYKRRYVDNKIISSTTVLYRSNAFSGTLGIIEDNENKPEIDTSKKIGRNDPCPCGSGK
+KYKKCCGANL
+>tr|R7MFH4|R7MFH4_9CLOT
+MKEFLKTNKVTYNLMSFTGFKSIIIFSLLLEGPKSYQELRTAIENHEYLHESVSIDTLRI
+YLNSLRKIGCKISKYTKGGITRYSIDSHPFELKITKEQAQSIIKVFKAIYQSIDISDLLS
+LQKFFDKFSNFITNEDLKIKLKNISPLHNINPEIIQNLMTYSGSNTEIIIYYNSLTSGKK
+NINIIVDKLEVSNGKLYLYGISSEHKNYSSFLVSRIIKITGINLKKSDLKIPVYQIGYEV
+RTIPNEKFELENNEKIINKNSEKIQVEITSPNKFGIMQRIMSLSPNCKILYPQDFKKEFI
+ENLTKMKEGYLEER
+>tr|R7MCH3|R7MCH3_9CLOT
+MNIDSIRNYSAGVMLKHKPKYGLENGAENKSADVCDKKNVNRGYYSGSFTGGKNGAAADV
+FENLGKSTWDKISGSKKFEKLREIFRTQGPIGAGLVSLVAAGVLRPATNLATTGKKDRED
+GIYAASHAISSAVIGFIVASIVMAPFGSAYKKISSNPEKYLKGLEKLFGVESIGKRRLEK
+SKAYKKLSDIAKFAMDSIVLGIPKAMLTIALIPPILKYVFHMEKGKKKDAAPVQQPTQDY
+SKNLVNSPVFKEVQGGKE
+>tr|R7MJ33|R7MJ33_9CLOT
+MTNRVVIGAQWGDEGKAKITDLLAQDADLIIRYQGGCNAGHTVVAHGKTFKFHLIPSGIL
+YKDKICLIGNGTVVLPEYFQEEIDGLKKENIDLSGLKVSPLASITMPWHTEVDGYSEDNA
+SKKGKIGTTKKGIGPTYTDKMNRIGLKIGDLYSPESLFEKLDIILPLKNKQLKEVYGLKT
+YSKEEVLDLCKKYAEIFKPYVCFDWQEMLRDAKRSGKKILFEGAQGVMLDVDFGTYPFVT
+SSNPVGGGAATGSGYGPTTIDEVIGVAKAYVTRVGEGPFVTELTDATGDKIREVGHEFGV
+TTGRPRRCGWFDAVTMKYACLVGGITSIALTKIDVFDSFDEIKVCTAYKDVRDGKIYTSY
+PEDVFIHKYLEPVYETHKGWNTDITGIREYEKLPENARKYLERLEVILETPISIVSVGPD
+RDQTIFKK
+>tr|R7MA29|R7MA29_9CLOT
+MKNNYFLPYQERWLNDKSKIKIWEKSRRIGATYVQSYEDVRDCVNKTVPAVCFSSADESA
+AKEYIDYCEQWVKLFHITAKRLGEVIIDNDKDIKAFVIQFSNGTKIHALSSNPKGFRSKG
+GKVVLDEFAFHNNPEELWKAARPCITWXPLYNLGLPVENFINSQRAKLLILQVYRSGFEG
+>tr|R7MCY1|R7MCY1_9CLOT
+MQEVFLKTLDNIKIAINHYSTNRNSVIIIAPGWFMTKDSKIFKKMAKALFKTFDIISMDF
+RGTGKSGSFYTFSAKEEQDLNCVINYAKTRYEKIFVLGFSLGGALSIISGAKNKNINGII
+AVSAPTEFYKIENKMYSPDAWIPTLFQKFEPLRWLTIRAGNPFLRKEKPIDLVQKITVPT
+LFIAGEKDPTVCPWHTQKLFETAKCKKDFILFKRARHAEDLYTDYPEKFETCCTNWLNQI
+>tr|R7MGQ9|R7MGQ9_9CLOT
+MADFTTTYGVFIPEIWSKKLNQLLEKNCVMMQCVNRNWEGEIKQQGDKVKIITPAPVSVS
+TLTSDNITYSSLNPTSQELEIDQKKFFAFKIDDVAKVQSNADIMEAHLANAKKAIEEVQD
+TYLLGMHTSVTAENTVGSEESPITLDKSTIYEQFVKLALALKNSDAVSAGAKPWVVINPA
+IESYLLQSPEFINAYKVADETLREGAIGRIAGMDVLVSTNLVDVDSKYYVLAGTNDAITF
+ASQLAKIESLRDKDSFSDLVRGLYLYGAKTVQPKALAKMIVKV
+>tr|R7MAB2|R7MAB2_9CLOT
+MIDYLNKRKLAFTLAEVLITLGIIGVVAAITLPTIIAKSKKRVVETQLKEYYSMMNQAFK
+LAENDYGDMGGWDSPARTDKLGGTGDYEWFQTYIQPYLKSSTVKNSFHLWCVWYDGFAIE
+FINGTAASCGIAEGFSNDFLCMFYPKAEKMKEVQDNSTQAQKLVPGKDYFIFKINLDDNK
+GFQPYDSDECYATTGTRWLPARGCARLIQKNNWTIPSNYPIKF
+>tr|R7MI58|R7MI58_9CLOT
+MSLTVNLLKGSSEEGNALAFEGILFSASELLS
+>tr|R7MBA6|R7MBA6_9CLOT
+MQITQIQNYSNTPKRAYVTNQRTVVQPKFTGVASVATAATEKASEGLYGKFTEWLANNYY
+KRFYKSKVAKFIVDHTNSTKWNNMTAHMSALGSTLISGMYIVKTLENDKLDPEKRKTLAI
+NDGLTWLISTGCGYGLGGWLAKKCNDGWLAKKFNNATTRAVANYLNNNPASKKTEIFGDW
+DPKNLKIMMKEWYKHVKPDSKEGQKLLQELGNQSYSNIRDFNLDVLKDIKITHQIDGLSA
+MKSLFVFGMVYRYLVPVLVMKPANWIGNYFHDKKAQKAQEAQNVKPADTKVDAKA
+>tr|R7MJR3|R7MJR3_9CLOT
+MAKEVRNFNRRYAKEYNIFRTIFYMGFLYIVVYGFYLIFYNFKIEGRSNIPAHKAKAGKY
+IYAGNHVSIFDPPMVSMAANCPIAYMAKKELFDPDEKLSWLVKRLGAFAVDRTKPEIATF
+KTVKDVLSTSWSLGIFPQGGTRPYGKLEGIRKGFAVIAKNAKADIIPVAIANWDGYPKLK
+PFTRRNVTIKIGKPISYKLKEDEIIYEWCKQISEMAGYENCAEIPESYMATNEESPAKVL
+N
+>tr|R7MJW5|R7MJW5_9CLOT
+MTDSPLDMFQKNSELDEIHLGQHVLAEFFECDPNILNSIDKVEKYMIDSALECGATIVQK
+CFHMFSPYGVSGVVIISESHLAIHTWPELGYAAVDLFTCGSKCDPKVAYEFLKKKFSSKK
+ASFTELKRGIITKDTMKVVEKPFEIMEQIES
+>tr|R7MH43|R7MH43_9CLOT
+MGYSVVVYFYNPNIFPLEEYERRLEAEKTLCSHFGCELIVGEYEPEVYYDYVAGLENEPE
+KGKRCDKCFELRLRKSAELAKLMGINEFTTSMVISPHKNYEKLTAIGNSIAEEFGLTYNS
+TNFRKSDGFLKTNNISKSLNLYRQNYCGCKFAMRNS
+>tr|R7MD25|R7MD25_9CLOT
+MGEAISTAGAWFGFGVVLDFISRKITFFHSPMKNSLAMNGIIGAGAGLITGVKTEFTKLH
+HKKDS
+>tr|R7MC87|R7MC87_9CLOT
+MNEYSKFEKALYIFLIGLLIFIIGVQLGIARGRELQRQGYYEYNLSD
+>tr|R7ME50|R7ME50_9CLOT
+MNKEYQMVTVYDYLKMLDKDVKYVNNDAKTIKENVEKYLINMRRAQTNAKLLEVLLA
+>tr|R7MIN3|R7MIN3_9CLOT
+MPKIARAYNNRDGQTSEMLSYSNSFRYEQQSYSYSSSSYRRTSKAEYDERYRHLREENRH
+NKRPRKRKTLAQSIVSGSIILFLFACVMPFAFNNITKAMFVPTPYKNIQTDLKDLSFPTH
+NYLSNAWSMGNRDFRFAASEKNAQMVPVKENVNMPVLQSELTNLMAQYPTIQPSVYVWDY
+ETGNYVDINASKVYATASIIKIPVLIDLFKSIEAGQVSLEETMPLTEYFRTEGSGSLQFK
+AAMSEYTIDKLAELMITESDNSATNMLMTRIGSMVDVNQAIRDWGLKNTEVQTWLPDYAG
+TNHTTAREMGRMLYNIDENDKFLTQESRAKILNYMGHVHNNRLIHAGLGAGAVFLHKTGD
+IGTMLGDAGIVIAPNGKKYIVVILANRPHNAIEGKDFIVHASELIYNYMVK
+>tr|R7M975|R7M975_9CLOT
+MSVSKFIAGFVVGGAIGAIAGILLAPKSGEETRRLLSESAQDMARRADETAKQIKDKADD
+AVSDLQRKGEEIKDKIQDLIAKQKESKEEVAEEKTEEPKAE
+>tr|R7MDA5|R7MDA5_9CLOT
+MEKLKELIKKVRIVDFIIVAFVIVALTVGFCTYKGYRQTADKQIEATSKIVFKIYMRGVT
+FSGDSIPIKKGEKTFISIRNVPYSDLDIVDVKADRRKIVLPSMNSKKVVIVVEDEAQPDL
+YDVVVTLTDTAKITKDGAVVGGNKIAVVGGNKIKLGLPITLEGADYKFTGSVSDIKVIDA
+VDDEVVNKEMNTTDDVQ
+>tr|R7MES3|R7MES3_9CLOT
+MGKIILGSSSPRRADILKKLKLDFEIIPSSYVEPHDQTDFSYAYVENLAYNKALYVAKEL
+HPERHLVLGADTIVVIDNKILGKPKDYAEATKMLHELSGKTHFVVTATSIIDSQTMTSKT
+KSTTTYVTFNNLTEEQIDYYISNFKPFDKAGSYGIQELPDGFIKSVEGELDNVIGLPSKT
+VLELLKHFE
+>tr|R7MIU4|R7MIU4_9CLOT
+MYRYPLVGFYIICGNELLEKGFKKLLYKTGHCKEVLNEKLEVPRFDELKEYVKKFEGNEK
+ELYKKMLKQKVLISGLPLLFGIGVMGFFITKSSNLFTKFRYDKAKNES
+>tr|R7MB67|R7MB67_9CLOT
+MDILDRLAKSKFRSRFKLRAKELEYIKEKGLDKIKSHTKDFIRDRVAPAEPVNDGKQTPM
+RGHPVFIAQHATATCCRGCIEKWHKFHQHRELTPTEQEYLVSVIMEWINRQINSNPVL
+>tr|R7MA47|R7MA47_9CLOT
+MEYPWTKYINIDNLPNEDMKILASIIGLEATIKIMCELQGVNISVPQNATVPAKIAYIQD
+VYDGSKQSRVKLSKLCGLSENYIFRMYRKKHKNI
+>tr|R7MG87|R7MG87_9CLOT
+MKIVFATGNMHKLKEINEIAKGSNIEFILPPAGFAPIETGKTFEENSLIKAREAAKLSNN
+ISLADDSGLCVEALNGEPGIYSARYAETPQARIDKLLNNLADEGNRKAKFVCAMTLVDEF
+GNILDSEIGECHGKIALTQSGTNGFGYDPVFLVDGYDITMAEMSEEQKNTISHRSNSLRK
+ILEFIKSNM
+>tr|R7MGE0|R7MGE0_9CLOT
+MIVNSATNFRIDRRRHKQELLSPQNESQFYSQNFQSQYSYRDIKRPLKTNPQDLSFKGLS
+LGMYKRLDKVYSKAEFEKFADEYLGKMGRELLEDITVKNKARTSNLIKIDPNDPDKIIVS
+KKTIPHLAWDGIIYPFKILPGDLLNGTVELLGKVPMLKDWSAKTLERPFFKNIRQRSKID
+SKINSLTGLLTYRDVKLKEAESSLAKKLGKEVKDLTAEELAQAKANADSKMESGLFQTFL
+KQFDPKSGNYDTKHERALNRLVSGLPPAIFLANDAYNLSRMMDDDPKAATKEQKIRFKQE
+TSRILTSGYLTLITMGAFQKFINKSKAGIVLTTGITVLVTEMFSRLSNGKHIFRLSPEEA
+RKENEQKHAPEAKIKPTEDKKQVTSTGKLDSTKPKEQQKPLLSFDTVMKASAVILATGYG
+IKGFKHIPAIKNMALKYFENMKANNPEKFAKLGIGDINADNAVKTFESKVLYRPFTSAYK
+NLTSQPFHVEPEKFNEVIKVLKEYDPKFAAMYERIGKSAIKTVDGKTFIDLGSKDKKVKP
+LVNFVIAPFKFMWNTVTLPYWMVDEKLMGVFRKAKPKAPAKDIDALAKSFDRICNQALKK
+NLDKEKFHDYLQVNFLKAFNLDSLSSVSNAELSNLAKTAASIATIWFLMTDNYNMVMLKS
+NGNDKEGANTKFKERFVQEGSRLFYQTLLIDLFNSTFRNQYNSSLLGMSWVTLVDTTLGE
+MLTRSSVGTPIKPHTRDELIDIETRQNNSTGFKKRYYNFMQRLTGKRSIKSYEVAPKGAN
+ATQTATVQSPATSIPSLSGNSMLLESMIKKQN
+>tr|R7MDE4|R7MDE4_9CLOT
+MEVSFCAAKPIQYQKISALRNSVARKSNSSYKTRSPQTNSDCLARMNRETRDANIFQKFI
+KAIKAIYRRNHNI
+>tr|R7MDM6|R7MDM6_9CLOT
+METLDLEDRYKEFIINSILKIIPNVEIYVYGSRVKGTAVKYSDVDIALKSGEEIPFDTVL
+KLKAFFSDSTFPYMVDIIDLNSISENFKNRIQKDLFKIY
+>tr|R7MAA3|R7MAA3_9CLOT
+MKYENVFSLLEEITVNNSEKISLGMKSKWGWNEFTYKGLGLLSRRLASYLIEDLQIEKGE
+KLAILSESKPEYGACVFGSVLAGLTTVPLDNKLTIFELHSILSNCEPTVMLVSSTYIDKA
+KELKNKIPSIKYLILMDSSSCENELIPSLYSIPEKYTAKWRRRPLSATAFTIYTSGTTGA
+PKGVEITFKNMLAQMHDLRIALREILPLNEEMRMLSILPMNHLFELTVGFFTFLNHGYSI
+YYTKSLKPSDILEVMKEKKIRFMITVPAFLKLLKSSIESELSKKSPLVKFMFKLNYALAK
+FLPIKMRKYLFSPIHKKFGGEFFGCIAGGAPLDVHVGEFFERIGIRIFQGYGLSETSPVV
+AVNRGKYQDMKSVGPALESFEVKIDDSTGELMLKGPSVMKGYYKQPDLTSEVITPDGWLH
+TGDIARVDKKTKLIYITGRIKNMIVLSGGKKVFPEEIEAVLEQSPNFAEICVTGVKRNFG
+EKDGCEEIAVVIVPTVDFSSNFDSFENLEKAIQTEVKYLSTQLAPYKRPIKIIVRKENLP
+RTTTRKLKRKEIKELITQ
+>tr|R7MBS2|R7MBS2_9CLOT
+MWDKAQFLYNIKQYEEALKIYNDLLVKSNEDRVFLLQNRLYFERAEVYKKLGKVELAEQD
+LQNANNLDIEESFKNPIPEPTLLLDEM
+>tr|R7MD58|R7MD58_9CLOT
+MSINGVNQNTDIQKLLKLMKSNKGANVGMSKKVDARMTKEGSIFAKTVSSTSNNKSNVAS
+TNNNVQARTIGNVQSDNVAKSISNVSATSSTSASTKAQGSTSSDRSENLDLSNYDFDNLT
+SVSETELKQLKSELTDLKNSNIPRFFQNDVEKKLSKVKSEITKRNAGETKKDEVAQESTK
+KDGESSKADAQTSASQSSSAASRAEQGTSKMNQSASKMKSLDSKMKSDEKKLNKNMKTAQ
+REISKNEKQMEKESAKIEKKAAEMENINSQIEQLSAVASSDSASQAEKSEAQQKIQSFTG
+NIGTLQKDIKTGTKSLNKIKTKSNKQIRTLTRTSKRFKTTQAQNKQTIQANQQESNKVLN
+VANKVDQIGSYTVTAGQITQYAGRAMQAWAPTAAAGRVVETVGTVTETVGNYTKCAANVT
+KATVQFAQGNIGQAFMSVGSAILSGASAVKGTQQLNKSMGAASKTATKTADQAANGANKA
+AEGAKEAANGAKDAATEGAKDVAKDTAKDVAKDTTKDVAKDTAKDVAKDTAKDVAKDTTK
+DVAKTGSKALRKFTFDDARQLGTALMNAGQMIEQSKQKQGAQPVNRRQMRAQKLQRRRVV
+>tr|R7MH01|R7MH01_9CLOT
+MRIKRGNAGVKRHKKILKLAKGFIGARSRIFKVANIAVMKALKYAYRDRRTTKRNMRRLW
+IVRINAAVRQRGMSYSRFVNACKKANIVVNRKMLADLAVKDPEAFNVIFETISK
+>tr|R7MBN6|R7MBN6_9CLOT
+MNKNQKVLLVFIGFCMCIVVGLIAFNVLMPKPEVQPDDIQVSERSVEEEVAQPETKSKEY
+VNVYFIGKNEHNEEVYKAVKRRYNKDIDGSKIRFSINALIQGPKQEERQRGVYTEVPSGS
+EIINISEQKDKVIINLNSAFVNGGGTDSLYKRLYQLIRLYQLIKTARLNSNLPVYLYIDN
+QRADVVGGEGIMLTQPLSNSSLDN
+>tr|R7MCZ0|R7MCZ0_9CLOT
+MKNKTFMFSMGVIAGVVGGIVAGVLFAPKPGEESRKELTDAACDLYEKHAPQIAEAKKQA
+LESIDLMKYKVERQIRKLSNSAKSKKMLKAKELEDSESQSTDNEFDY
+>tr|R7MI55|R7MI55_9CLOT
+MILLFGDKATKTAATRKNSNINNHPVENSGILAMSLSDAKSLLTMGEYDTYVSSNPVTVD
+YSAYSDFTDGSVESGFMASFSEATAFXXYEATAFLGGDSGMGGYSSAASFSGASAGSSCG
+GSFASVC
+>tr|R7MG29|R7MG29_9CLOT
+MKNLNFINYILEVLKITIPAMISVGVVMLARYYEKKKEYENKIREKKVALYEKFFMAQHK
+FIIEDSKTKNKHQREKILIELQNAIKDFTKDLMFWGSSDVIKAYNKLQTRMKAKDHKFED
+FEDFYFALRKDVGHSNRNLKTFDLLRLMLRADEFDEKGKPLKSTLINNNPDLQDENIDM
+>tr|R7MJ13|R7MJ13_9CLOT
+MNNLAYKYISTISFSDLYNWSFQYAQKCENLFTNKYKCVSIGSFLVRIKDPVDIEDNQNY
+KRVSIKLYNGGITLRDIELGVNIGTKKQFRIKQGHFLLSKIDARNGAIGIVPESCNDAII
+TGNFWDFEIDTNKADPQFLSLLMTTGYFVKLFDKASNGTTNRHYLQEDLFLKTEIPLPSL
+DIQKEFVKKYNDKIKLAKNQEKELIHLETDADNYIAQQLGIVCKNNVIKSNKYNYLTFYN
+LIDLSRWDLYKNDCGSIISEKYKFSKLLDVVTEKPLYGAGEKGIKKRSDIRYIRITDINE
+DGTLNDDFVSAEKVDPKYLLEENDFLIARSGNTVGKTFLYKKELGKCIYAGYLIKFKLDT
+KKIIPEYLLYYTKSNIYKQWIASNQRANAQPNINSNEFLNSPIIIPPLEEQNYIVNHLQK
+IKEKIINLKQQAEQNRIAAQEEFEKELFE
+>tr|R7MFN8|R7MFN8_9CLOT
+MKTLFIDDEIKYIGSQLAPHWIYKNFKIQGDAIVAFCGECEVKLTEMVDIEDVINNEPIY
+SKYMLSFITEQFNVNLVEGVLRQRLLVTCIKEALEKRGFKARRNGDDIFVNDKKLSVSIA
+TKSLTSILIHTGVNILSDGAPIPVSGLESDLGIKDVKEFAIEVMKNYSEELDDIVLASTK
+VRGV
+>tr|R7M9X9|R7M9X9_9CLOT
+MDVAKENFEKCGVADIIETKRGDAATILEYLPEDFKIDIAFVDANKSQYIKFFEFIKPHL
+NVGGYIACDNVISHAAKVQTFLEAIDADPDFENVVLPLPAGLSLGKRIR
+>tr|R7MEC6|R7MEC6_9CLOT
+MKKIMTFLMLLLCSMQSASAMNIDAFMDKHIAPVSDAVANLIFFPISIFGSKVPLIIFWI
+LFAGIFFTIYYKGIAIWGFKHALDIVAKPTEKSEDGNCGEVSSFQALATALSGTIGIGSI
+AGVAISISIGGPGAAFWIFVGAILGMSIKFVEATLAVKYRRFNLDGSVSGGPMHYIAHGL
+TRKNMRWLGQPLSVIFAILCIGGGITGGNMIQINQTAHQLIFITGGEHSILHGYAWIIGL
+VVAVLIGLVVVGGIKSIAKVTTILTPTMCLLYIVSGLIVIGANITHIPAAIVQIVTEAFH
+PTAVAGGIFGTIIIGLRRSVQSNEAGTGAAAIVYATSQTKEPVSQGFVALLETFLTGVLC
+LFTSFAIVITGVLKTSAVGKISGIELASNAFQSVISFFPIILSIIAVLFAISTLISWAYY
+GQKAWTFLLGEGKKRVLTFNLIYCLFIVIGSAMNVKSIIDITDAMMIAMCVPNIIVLYIL
+APEIKKDLKAYCQKYKVGKLINRGWIAESEVQPIAVPVDVIEDEEKSVGENL
+>tr|R7MH66|R7MH66_9CLOT
+MFCFNKNMGIELLTNKPIKFYQKNGVKFFERFRAVDKNRKPVELFMDEQNGCPTIFAKNH
+EGKHSTFELDFDLQSRTMRGKAIIANPKQQELGQVVNLAALMTFYVNKLNHFKVFAFRES
+MQFFAKFGFKVVTDNDDEIMKLLKLVKKSKGQEFENLRRQADFFGNRVSGKVPNDVPSLK
+YYACNVFSNYLKGLARKGEKFDPDKIPYNSRMDFSDWEFQTDNKDYLNQLFRKHEINFQI
+>tr|R7MJU4|R7MJU4_9CLOT
+MLPVISEDVANTAFSEIFEDMPAWRKRMIHYIKEENPEINTAIIEAANKTDLDPKAVALG
+AYMTYLMIELAAKENDAMMNYTE
+>tr|R7MDI8|R7MDI8_9CLOT
+MKSCWLNNQNNENLIVFFAGWSFDEKPFKFLQCNDFDVLFVYDYNDFKLPEELKNIKIYK
+HKYLITWSMGVFVANLFKNLFSDFEYKMAINGTISPVNNEFGIPIKMFELTLKHAKIGLE
+GKFYKNVFQTEEEFQEYSKTPVGRTIENRVSELENLYTEIKNHKELEIQKFYDFAIVSDF
+DKIIPPKNQIASHNQNKVRVLRLPYGHFPFYHYSKWNEILECK
+>tr|R7MAH5|R7MAH5_9CLOT
+MSSSINGVQLGNKFGADMRTQFMDQGINNLPNPESSVATSLPQNPLYNLLQVVFQGKKTD
+NISAFNQNDTFIKNGLVQNFIEENHNLNLIG
+>tr|R7MB50|R7MB50_9CLOT
+MYKKSAFTLAEVLITLGIIGVVAAMTIPTLLAKYQEKQTVTKLKQTYSILSQAIRSVQED
+VGTPDDWELSGRNYSTDDSVLIAQNLLPALKVVQDCGTTGTSCTYTKSYKYLNGGGAGNY
+GGGNLYRVVLMNGSSLSFVQWTDNERIDFYVDINGVKPPNTIGRDLFCISWFRDKGLYPL
+GAPVTGYTCNKNSSGWGCTYHVLHYENMSYLK
+>tr|R7ME49|R7ME49_9CLOT
+MTENKDKINVAPRFPKGKKRKKEEIEILAKARLKKRRPKLTKKRVFIPAIAAVLLIVLGF
+YAAIMSTHYQSTDDAFVEGRIISVAPRVAGPVVNLLVDDNQPVKKGDLLLEIDPNDYQVK
+LDQAEAKLAEAKARLNVSNHDVSKNTSDMHQASDDRVSAMSKLDFAQKDYKRYNDMYKTG
+VVSKQDYDRSSKDLDVSKANYQSASNRTKAMKSELDSSIAKTQTVQAEIQRLEAEVEQAK
+LNLSYTNIYAPSDGLIASRSVEQGNYVQTGQPLLAVVPRRVWVVANFKEGQLTHMHPGQR
+VWVKVDTYPNKKFKAHVDSIQRATGAKSSLFPPENAVGSYVKIVQRVPVKIVFDEDYSKF
+NIVPGMSVVPTVKIK
+>tr|R7MI38|R7MI38_9CLOT
+MYFNRRCKITFVCHGATIYSEEGRFSDAENYPPLSELGVEEMQNLTKYLKARGVKNDAIY
+TSPSIRTVQSAMMIAKLFKKEYEIIDELKTRDCGSWNGLTFGQIMEKYPEGLDRILKYPE
+EKTMAGAEGSVEFIARIKKVIDSLVAKNIGNRIIIVTHPEVIQAAICGALDIPADKLPKI
+FIRTGSATQISYYENWASLVYSDYVPI
+>tr|R7MC14|R7MC14_9CLOT
+MLLTADIGNTNITLGLYEDDKYINEFRLASDRDLSGEEYEILLKSLFKDYVIDGCVIASV
+VEELNIKFKRAVDNVFNIKSVFVTYDINLGVKVATDNPREVGADRIANAVAASNLYSGAV
+IVIDFGTATSFDIINSNKEFLGGVIAPGINTQMKCLKNATSKLPKIDVSISQNAIGHNTT
+DAILSGVIRGTACMVDGLVAQCEKELGEKATIVATGGYCGLIANYLTRPFDYVNPTLTLE
+GLRYIYNMNSTQKYISAHACERV
+>tr|R7MCR0|R7MCR0_9CLOT
+MSRNFVSKIMAGAIALTPVSCMKKEPLHQITNRNIHPIIERVDSFAKSDANKVFMDSLQE
+FAIDTLEISNKALNNQKIAKTIQKMASYRNPEIVVGSKIEYGYGWKMTGGIGWGLIRKDV
+TEPMMLPSSVVGVMENKVFSNPKEDKYFVPITYYGLPNPKLK
+>tr|R7MHR6|R7MHR6_9CLOT
+MGEPECALNVGVSGPGVVRAAVEALPDGADMSELANKIKEIAYKITSTGELVGRKLAKKL
+DIPFGVIDLSLAPTPAPGDSVAGIFQAMGLEHAGAHGTTAALAMLNDAVKKGGIMASSHV
+GGLSGAFIPVSEDAGMIEAAEKGYLTFNKLEAMTSVCSVGLDMIAIPGDTPSSTIAGMIA
+DEMAIGMINKKTTAVRVIPAAGKKIGDYISYGGLLGEAPIMPVNELSSAKFVNRGGRIPA
+PIHSLNN
+>tr|R7M957|R7M957_9CLOT
+MKNEYKPDLVLLIDYGAFNLCVAKFLHDAGIKIFYYIPPQVWASRKYRIKFIQKFVDKVL
+CIFPFEKPLYAQYGIDTYYCGHPLVSQLPPAAGRREFFRNHGLDVEKRLVSVFPGSREFE
+LKNLMPVFKEAVRRLKDRHSDLQFCISHAPNLSNEVYEKYLGDCDIKVIKGENQALLSVS
+DALILASGTVALEACLYKTPMIIAYKGPQILYWLYLLVRCIKRVCLPNIIADKDIVPEIL
+QSKATPMNIVYEIEEILYNSERREQMIKDLGCVKEQLSDKNSALEVAKVIDTELFS
+>tr|R7MET4|R7MET4_9CLOT
+MSKLDKIEELQGLIKEDSSNFQARRELAVLLMDCGFNEEALQHLLYLSKMFSFDEGIFYN
+LGIVYEKMKQFSKAREAYEKAIDIEPESMDAIYNLGLVYTELKEYDKAIDCFKQVIKSDN
+MDSNSYFNLGLIYFKQKDYLNAIEYFQKTIDINDEDIYAHFYIGNIYKELGDKDSAKEQF
+EKVINLSPDYSWAYFNIAVIDYEDGKIEEAEENLKKTIDLNKMDEEAYKILIKILLKNEE
+YEDANEYAKMRIEYCSETGDADYLLAQTYKSMGLIDDYENTLQNAIRNSQTLSIPIEKIK
+TELRNIKNEQS
+>tr|R7MJ12|R7MJ12_9CLOT
+MSISNLGAISYQPQVTSFTAKKYNGTEDFKPGLIMPEKEEKKNKHTVLKTVATLAVVVGA
+AVLLKKHGKSILNKIKGFFNKGSKVVGEGAKTAETAGKTIKVNTPAKPAAEVVRNIETST
+ANSSARKAVEQAIKDTPTKAQQAAYDESIRYVAPTAEQKAAIKANNAVAARETAIAHQIQ
+NAASPESVKALEKAKQGMSEVNTSLNGLFESNGAKLTVKNGKIVKIQTPDGRAITKELNI
+AKYEHKHGIDLSKLTPASAPKAKPVTPKAPKTPAPXXXLKLQLPLQKLKPQLHQRKPKLK
+LKQKH
+>tr|R7MEU1|R7MEU1_9CLOT
+MNLTITPKIISFNNTQNNNKIRQDKNHTTNSQITYKNIHAYKDFNIMFTGRTPANFYAQD
+FNRNNMPSSMKEYLDYDYEERQHIPPEQMMREVFKYIELADNFEDVKNIYPXXXNIYPDE
+ELFSNLHENKMKNKTSILAEIKMAKEMSDTPLLKDGNNNFGMYLLKKIYLEGKTLKEINK
+DFYEKDMNEEYIGIISKPLSNDDTTAYGIKFPKQSFWNSFIATREEYKKFFVTLPKNSVN
+PAARLPKKEETKETESNTPIKRKRATRKYLLPTYKKKQLTDDLKSSTMTSTDVEKKIRKR
+FAKDDPEASFIVKYLSPIMTVATDRAHLSEDLKSFIDAERRNGKIGNEDIILQRYWNKNP
+MMKNIFSHAIIDTIDMFEDIYGEGGFIAINSDLKEITPESKNQKVVDHVSQEYKELLDYT
+QTIYPNREARYAKHDEEQVKWDNYFEEKYGNIEKENNLQNTDEADYLTDEITPTTEEAEF
+DENKLSINDINEKFEERIKKEGIILPSPLLKEYCKFMNDNADLAFKIQVANLPKDCTVKD
+IQKIWRTDGSPDYIDDLNSRFFMEYEKEVQTTNCAIRELAITYDNQQLKNVNISADSNEI
+NEEDKEFQKFISTHKQEFNTLYSKLLAPMTDRERNLVTLAFMSEIDKYENDKNVDPRTNA
+VILMFKDISKLNKNQRKKIKDFINEVIPDSTKIILNKKSNKNDKFNQFTSFMNGIIDECV
+FNQQYLPFLVNKEIVEKYALLMDSFDKDLIRRMEETLPPAGREFYNASNDKIKTGYFCET
+VILPTLNKH
+>tr|R7MFI6|R7MFI6_9CLOT
+MTENRIYFVDVTNRDGVQTSRLGLAKLQKTIINLMLDDMGISQSEFGFPTTKHELNYLNG
+NLELVKRGAIKTTKLSGWMRGMAADVEQSFQSVPDLQYVNLSQSTSEQMIYGKYLGKKTP
+DDIIAMTKEAVECAKDKGAKIIGVNAEDASRSDIDFLIRYAKEAKKSGAYRFRYCDTLGY
+EDPQTTYDRIYRIAKETQMPIELHYHNDLGMAVACSVMGARAAIDAGVDAYINTAINGMG
+ERAGNADLVSCLLACLKSAGFKGKYKIDENIKLDRAWRLAKYTAYAFGVEIPINQPAVGD
+NAFAHESGIHADGALKDRRNYELYDFEELGRGEPEIIETGRMITTGEYGGIKGFRNVYNN
+LEIEFKDEHEARNILELARYANVHTQKPLTSSELRFIYYYPDIAAQVMTVSPYYEPIGAI
+KDRVEEEKLHPPVNVI
+>tr|R7MK55|R7MK55_9CLOT
+MEDIGLSPEKTGLKGSPTYVSKAFRNITTHNAQKFKMNLADSVNLLEEKLKSLEVLNNAE
+>tr|R7MGB6|R7MGB6_9CLOT
+MQIQNNTNIPSQINFGAKVSTVKVLEAATLKLTDSESVADLKPIIDTFWDKPFKAAGNRG
+YQYYLKVIADKITAKYPEIKNAVDEINTYALSHTKATKGDFRYIQKTIVDRLGSVVDIEV
+KKKMF
+>tr|R7MJJ8|R7MJJ8_9CLOT
+MQEIKCPKCGEVFQVDESGYSAIVQQVRDKEFSKELKSREAQFELEKDNAVQLAKLAIEK
+DLSEKLIQKDSEIAKLKADITTEQISKKSEISETIAQKDKEIVELKNKLASFDKDKELEL
+TKLVNKMNTELSEKDTCIAKLNNEKELTQKESQLKEQSLKDQYEEKLRFKDEEIARYKDF
+KAKLSTKMVGESLEQHCEIEFNKLRATGFQRAYFEKDNDAKTGSKGDYIYRESDPEGGEF
+ISIMFEMKNEMDSTSTKKKNEDFLKELDKDRREKKCEYAVLVSLLEPENELYNSGIVDMS
+HRYPKMYVIRPQFFIPIITLLRNASLNSLEYRKELAVIKAQNIDVSNFEAQMNDFKEKFA
+KNYELASRKFKTAIEEIDKTIDHLQKTKEALLSSENNLRLANNKAEDLTIKRLTRNNPTM
+EAKFAELNNSEK
+>tr|R7MDE1|R7MDE1_9CLOT
+MTISVNSKKKQVKKTFDELLNDLRTSNSEKVRYNAARVLGEMGDSKAVEPLIDVLKHDKN
+GSVRLYAARALGELGDSAATTHLIESLREDRNVDVRVRAARALGRLGGAIVVEPLVEALN
+DENPQVCITATDALIEIGDVATDALIDSLDHEKVNVRCDATRALGEIGNKKAVDKIINML
+YDEWVNVRIYAVTSLGKLNDTKAVPALIDVMKNRSENELVRAGAAAALGVLRDPRALMPL
+RELIMEAEELGELEDTALKSFKKIMAANWQSIPGATPQKKPAGTF
+>tr|R7MEF1|R7MEF1_9CLOT
+MAGSNNNNKVTGNIFSRDYNFSAVNPFSNNFETSSQLAKEVKTQPATNPIKRINGYDSAI
+LNKTNIEEPEGEDLSIDYRIKEKESVVKDLDAKIKVADNYGTQNEALSLKAKRQRVLQEL
+DTLRKQQMYGGRVLGEKQAFHQSFKEKMPVIYKIQEFISRQILSRVSKKVKSVVTLSDSL
+EQLSEISRSVDELIDMNVPYGEKVQNYEKLTEYLSQANMIHSKISKSLGK
+>tr|R7MIT6|R7MIT6_9CLOT
+MKKFDIRKTFETFMKEPLSILTEGLFQIVNIQANVFNQESSFHIDFVNNKTQLTVVNNDK
+MCNLFQTVLYKKKLREQKEKAATK
+>tr|R7MCQ9|R7MCQ9_9CLOT
+MGLYSYERPNTYTVWLKWLNDKSSSWREMENISSKKLWYNKELAIVDCDNNEYAIRSFNY
+YDLKGQSVSELSGENSFLQWNSLIPESLGESIYSYTCSVAMQK
+>tr|R7MGS0|R7MGS0_9CLOT
+MNYQAPPSSVVVSRPSAPETSTGCAVCSGDFEYDYDLPFYYSPFGVFTMFGYLLLVLVGI
+FIVAQVVLLGLIGIIAYIRQNIIKCPKCKKVFKKENKNLTHCPFCGTELKHSKE
+>tr|R7MCY0|R7MCY0_9CLOT
+MKKILASLLVLSVALPAFAINEQKLSRKCRKHPERCQVQMTTPVREQQMTLGVVQRNVKI
+GTSQAEVAEILGSPNIVTQDADGLETWVYDKVSSITAYNNSGFGIGVGGLGGGYGSGGFG
+GGLANVGYNKNGGVAQSVQKTLTVVLKFDESGKVSKVSYHMSTF
+>tr|R7MDD9|R7MDD9_9CLOT
+MIKKFTSLMALLFMMAVGVSPALASEADLVVPSIKTINPHSYMLLLIGLGISVIGLVFGL
+VEFLKIRKLDVHKAMDSVGNTIFETCKTYLVQQGKFLFVLEVLIGLCIAFYFGFLQKMGI
+AGVLTILAWSVIGILGSYAVAWFGIRMNTLANSRTAFASLKGNPLNILNIPLKAGMSIGV
+LLVSVELIMMLLILLFIPGNIAGACFIGFAIGESLGASALRVAGGIFTKIADIGSDLMKI
+QFGIKEDDPRNPGVIADCTGDNAGDSIGPTADGFETYGVTGVALVSFILLAVLGQENQVQ
+LLAWIFVMRFLMIVTSVVAYWLNGLFDKCYAKKAEKFDFEVPLTRLVWITSILSICMTFG
+VSHWLLSSMGNHIWLVLSCIISCGTLGAALIPEFTKIFTSPKAKHTEEVVTASREGGASL
+TILSGIVSGNFSGFWIGMVIVLLMALAYVASTHIPATLMSYSSVFAFGLVAFGFLGMGPV
+TIAVDSYGPVTDNAQSVYELSLIEELPNVKEEIKEQYGFDADFENAKQYLEENDGAGNTF
+KATSKPVLIGTAVVGATTMIFSLILVIQNTLGIEPEKILNLLNPYTLLGLLTGGAVIYWF
+SGASMQAVTTGAYRAVEYIKDNIKLGDADEKSANVANSKEVVKICTQYAQKGMVNIFIAL
+FTFALALACLSAPGCKTQLAVSFFVSYLIAIAVFGLFQAVFMANAGGCWDNAKKIVEVDL
+KEKGTPLHEATVVGDTVGDPFKDTSSVAMNPIIKFTTLFGLLAMEIAINENFRHIAPYVG
+VVFLIIALIFVVRSFYGMRIPSKK
+>tr|R7MBK3|R7MBK3_9CLOT
+MFVFKKNMIYINKLSPTVKLPFKEVKGSVNYRQSKACNMVDKLYREILPQFNKKEEISFA
+QAKKALKNVLKGQIDIPIRKNGYSDIFDGGSDILYSEFTGQISKTTIDIGTIKNKIKRVE
+LTTLLHEFQHVADQIFHPKYLTRNQKMANIGLYTKKYDRLYDDLIYNREFPEGKKDKKII
+LNHLRNKITKFLRGLDYEDKIDYLQDIRYSLISEKHAYKTQLKYAKKLNKKHLKINKEDL
+ENENKNFMFDEKIKLMKDLAFEIIQKNRQKHSLLLKKENKLRNINNN
+>tr|R7MC99|R7MC99_9CLOT
+MYINKLTITSIFEKNKNLLQAINPEKERAIGLIKDRIDTRNGFFVGDNIPKRLKNKVPKM
+FIDNQNKTQAQHSTKSFIG
+>tr|R7MA13|R7MA13_9CLOT
+MNIDKEKLVSCIKKITEPKVLVVGDLALDEMIYGDAERISREAPVLILQHTRTKLILGGA
+SNAAHNVATLNAGKVGVIGVSGDDYYSELLFDTFEKANIDCSKIVKDKSRKTIVKTRISG
+SITTSITQQIVRVDRQSKGRISEETEEKVIKNIEKVLPDYDAVILSNYHIGSLTDKIIKF
+TTDYANKLGKVVVVDAQRDLGDYKNVSSMTPNLPDTEKSVGFKIESEEDLKRAGSMLLKE
+TNAKSVLITCGADGMFVAKPYEDYTKIPVFNKSEVFDVTGAGDTVTAVYSLALAAGIDPV
+YSAIIGNVAASLVVRQFGCATTTVEELLTAVEKL
+>tr|R7MH18|R7MH18_9CLOT
+MTQEVLIPKMRRLDKRHREIKIPFINLVLIFCSILFLIATTFVNLNIKHYIIPIDLFTNK
+ALCSDNFIYSFWIVPQIPAVMMICSVLGKRMAVTTVMLYILAGLLFLPIFGLGGGITYLS
+EFGFGYILGYIPAVVFAGNILHQKYSFPNMIKASILGVLIIHLIGIFYMLIIALFKHADS
+SFISGWIAAQSGLKVLYDIIISFLAIMIGKYFHEFLNFILD
+>tr|R7MI28|R7MI28_9CLOT
+MKAALEKALSHWDDSKTEEAVKDQEAAKAIINKYAAECDCTDLAKVKELEDYFTDKSVWI
+IGGDGWANDIGYGCIDHVLAQNKNVNVLVLDTEVYSNTGGQASKSTPTGAVAKFATGGKQ
+TYKKNMGLMSMSYGYVYVASVALGADRAQTLKAFQEAEAYNGPSIIFAYAPCIAHGIDMS
+KTQTEQKRAVEAGYFPLYRYNPANPEQPFTWDAKDPKGSYQDFIRSEGRYKSLMKTNPEH
+AEALYQQAESDAAKRMNVYKAVGELMK
+>tr|R7M9T1|R7M9T1_9CLOT
+MFTMMDKKEAPETKKYTALREGLTEVIAIPTYLACGYLAGKGADLVKDVEKAKKAKHNLR
+FLGVCTAALVVIPGLCSVFVKPFTDRIFHGSKKDNKDSQPAKLDITSKTEQIDIANKPEV
+SKTGNIAHTGAYPMQPIASFRNQGMRVG
+>tr|R7MBA3|R7MBA3_9CLOT
+MRKLVIFLGIIGIIAQPALATEDGEIHLGTVEQAKIELPKVDYKGKDSLIINEQQIMDEI
+VKLQKEKDMEDIDNLWKGTVENNQVIGFALKKLATPESQRRIHSSLMAKTLSAIVSGASL
+APALVGADYMVQSGSYAAGRIAQNLLNKKNIPQEIPLTDTELIELAGLVENLQDKIINAY
+YNYKGCLSQLKEIRSRELLYSRNYAKAMDEEDFLEISISSALYDDMQIEEAKYVQMSKKY
+HLELQRLAGKKVVENLNLYQYNYDSALIGGDKDAK
+>tr|R7ME95|R7ME95_9CLOT
+MKRLLAGLLVCGMLTINAVPAFAYKGIEDVSKTYWAQPEIASVVSDSVMSLSNGNFYPEN
+KISRVEFVQALLKVLGNEDLEIKSNYRFADVAKSSAAYAPVARSQQLGLVYGYPDGTFKP
+AGHILRDEAQSVISHITIDGTVDANVVSKYSDANKVPGWAKNVYAKTLSYGIYVNHPNEN
+ELRPTEDLTRAEAAVLLYRLRQRLDLVKSQYKKVTETVTGTEHLNMVKKAPSNEVTVTNL
+RNIVKEGNVLAIEFNEAFKSKLHAAGDAVTFTNAEDIVTEEGTVLFPAGSTFYGNVLEIK
+DPQWFNKNARVYAQINKVVTPAGKTVDLNAKPFYKDYALKEGPWMTAGKVALYTVGGAAV
+GTGAGVGFSFIPNPDKVGTGVAIGTPVGAGVGLVTGLVTPGLNYSAKKGETVKVILLEDA
+SISK
+>tr|R7MEZ8|R7MEZ8_9CLOT
+MKTIEKLEKARNIDKCLKDQGINSTFFYAYERTLDTTNESINFSDVIWETDVKPIIDHCK
+EFDIDYITITNCQARIEDILALFVENGCSIQLTMVTSKYIDFKTNEPEIKNAIKVVINK
+>tr|R7MGV8|R7MGV8_9CLOT
+MTQATLDDFEKLLEESFSNSHSVADIVEGTVLKKEQDGYLVSVRGAKTEAFLPNREISSA
+EEAAPVELGDVKEFYVLKEENDEDGMLLSLKRLAFAQAWAQLNDAKVQGDTILAKVVSVV
+KGGVLVDVADLKGFIPSSQLRTGTPFDGLLDQKIEVKVLEADPKKNKLILSQRQAVAEQR
+DQVVDNILSELEEGQVVKGEVVRIADFGAFVDINGIDGLLPISEISWQRIKHPSDVISLG
+ETLEVKIIKIDNELKRISLSLKRMGEDPWQQIEGQFSEGQIITGTVNKVTGFGAFINIFP
+GVEALLPVSEMAEENVNPFNKFKVGDSVEVLIKKFTPQEHRIALSIKDINKDAE
+>tr|R7MDF4|R7MDF4_9CLOT
+MNFNVTKKLVFAAILVLLSQNSSFAVDDVWGGMGISDDSIQYNNDYANTVFEKYTTPSNN
+QTPDISTKQYPTNLSTQTTTSSVSKENKTIKNIEFYGLNSVPQSEITDKMQMKAGEEYTR
+EKMQADLKTIYETGYFTEKMKAIPTTNPDGTVSVKIVVEENIPVKDFTIEGNSVISTEDI
+LATLTGMKGKPQNITQLNIAISKIQELYQEKGYILARIDSVTDDPDGTINISIKEGIIDK
+IMIEGNEKTKDYIVARNILTEPGMIYNENLIKEDLVRLYATQAFKDVTREIEPSEEIPDA
+YDITIKIQEQRTASISVGGGLDTVTGLFGSMGITENNFRGRCERLSLTGLVGTGVILNDS
+SVKDHMNIQAELSYFKPYFYNADTSLNTRIFFRDFGSYQVPLAVERRYGGEVTLAHKLKF
+NRHATATFSLGAENIDVKEGDFNGISALYRRYNIPISERAKQLEGGLFLSLSPALLYDTR
+DSATVTRHGTMASLRFDENIGLNGFDKTNGKLTGMIKQYIPVAKKSSLSFTVKGGGAIHG
+DIPEVMAYRLGGPYTVRGFKMSGVGTGNAFIMGSAEFATPIPFLDRTRIAFLNNLRFTVW
+ADAGKVFDGTITNQLYDRPMYAVSAGVGLKVFIPGMGPLSIDYGIPLTNPGSNGSKNGYF
+TFGVGDLLY
+>tr|R7MKN2|R7MKN2_9CLOT
+MPLPRRVRTSLINRYAISDGQTLPYELEYSKRAGVWIQPYVEYGLGVQKSWEDRFTAFVQ
+AMIRQGGRNGVALSVGCKLSLGKDSKPIERVQNNIKVASKPSNINSKFNILTPQEITQRA
+NSMGFNRIN
+>tr|R7MAM0|R7MAM0_9CLOT
+MAEKVTKEMNILEIAQKHPESIEVFHRYGLGCIGCAAARFENLEAGAKVHGYDPDAMVAD
+INALIEAVE
+>tr|R7MHZ9|R7MHZ9_9CLOT
+MSISPVNVSSSTNPKYAKRNELIQKRNKAIAYGLPCIGLAAAGGLPLAAGAKFAEKNKIV
+LSALAAIGLVGTAIAGYQEMKACNAIEDLDIKMLYNA
+>tr|R7MAP9|R7MAP9_9CLOT
+MKQILLSLIKVYQYFSKFTPKVCRFYPTCSEYTKQAIEKYGILKGCWLGIKRICRCHPGN
+PGGYDPVP
+>tr|R7MHJ9|R7MHJ9_9CLOT
+MIKWKYSASVVICFVAIITCGCTYKTMPIVGMPNPWSECQENYSCAEKIAGFNMPLNLSN
+YSVRAMKGMIEVTYPLDEFRNVVVRKSIDESKGVDNSGDYNEYDESILTLSNGVEINIRK
+KNGKIIVMYFAAESGCYSARCEKGMTEKEVEDIYNVIAEVEASKLPPEAFKD
+>tr|R7MHM6|R7MHM6_9CLOT
+MMENIKRIKLKDFEIGSDKLTILAGPCAIESQEILDETAAGLKEITQELGINYVFKSSFD
+KANRSSITSFRGPGLEKGLEMLQNVKDKYNLPIVTDIHTPDQAHVVAQVADILQIPAFLC
+RQTDLLVAAAKTGKIINIKKGQFLAPDQMKSLIKKVEDSGNTNIMLTDRGTSFGYNNLVV
+DFRGIPIMQSFGYPVVFDATHSVQLPGANGSSSGGDRRFVPYLAKAAMAVGANVLFFEVH
+PDPEKALCDGPNMIALKDAKKLFSTCKKIFELVKE
+>tr|R7MCG4|R7MCG4_9CLOT
+MKKFLGFFTLLAFLTIPAQGAFAWTYDGLNSLNPFTGFRNCGCQKQKVVKCKKPKLTKCE
+KLHGVKIKGEPCGCAAPIQVEPRCNTCQKAF
+>tr|R7MB65|R7MB65_9CLOT
+MIFNYKRAFTLTEVLIATAIVGVIAALVLPMVITTYQNNMFEHMYNKENESIKAIMESLP
+VTENKSRFEDTMMSSDTISDDTSGLFLKKYFKVAKYCGNITDSGADCFAPEYAVYKEAPT
+HIRESVKAVDLIPRGTCAQLKNGTSICIAPQPKTRTVDWKSAQVVMDLNGLKGPNVVGRD
+LRVLEALPTVSAGSSVAGKQQGVEGVFAENETPITPTAIEECSSYTKDSSDGCCLYKKRN
+NMIKTGDICCTANSKIGPTVAACNTAITLHLNYYPTSSSYKYGDTPYTRSSGTFKLDPST
+ATLPDSLAVKIKCGNGTYSGGTLSATTIMSALANKKDAQWSGQIYDKSCAFPSEDLVWTT
+NSGTSVTINGITYKISKH
+>tr|R7MBC2|R7MBC2_9CLOT
+MNEIIIADTKILSYTKIAMKNTRQTNINIHRDAWVEVNISNLENNIREIKKNVPQGIKLL
+GVVKADAYGHGAVMLAPTILASGIDMLGVASIDEGVDLRQAGINCDILVLGAVPVWAVES
+AVKNDITISIFSEGHIQACEEAYKRTGIKPKVHIKLDTGMNRIGVRADEAINFIKKVQSC
+DFLELQGIFTHLAAAEELDKAKEQIEKWNSVIDNIDTKGLLLHILNTAGTICYDVPNSNM
+RRVGIALYGLYPDFPEGVNFRMPKLKQLISLKGRIVNIHTAKDGEGISYCHTYTAKGERT
+IATVPLGYADGIPRLLSNKITGRLNGVEVPQVGNITMDQMMFDITGVKATTGDVITLLDE
+DKSIDEWAKILHTINYELTCRLKVRLPRVYTR
+>tr|R7MJR8|R7MJR8_9CLOT
+MIENNNILLISEDENATELILNKLVLLRDNDKITKCNCKETKKALQNSLYCVVLLYADIK
+EQESIFKTIKTIKETKPDSEIILIPNDINTELILKAYDAGIYDYVPIDAESFDFVIKTIN
+CYKLRTLKNIEQRNEKFLYQQGVIDEKTNLYKCNYLKDIFIDIADDLRIQNGIFSILTLN
+DKNKTKISTNRLAGIIKTTVRGDDIIATARGGKFYLILPNIDLEGTKKLIQKIQDKMGEE
+FKIHAGMSKIGIQSFETLDKITQDSLKSAIQNDEMTVSLSEVTGMQNGWLEDEDQPRHKD
+FKLFKVAFTNKMKNVIEPIFFRFQKECETKLTNTQVSQYANNIESVFSLKNETLHSELVI
+RFNGYVKFKIEINHSGLDSAENTKLEIPLSQLTDKELTKLLKQLKQEYKQYALKKGD
+>tr|R7MD82|R7MD82_9CLOT
+MGNFPPEVRLVSRGGVEALKELSSAKLWIDNQRKIYYLRRGLEKRNSQYYIQTWHGSLGI
+KRVGLDSPLSNVENEWIPFGKQDAEMIDYIISNSDFETNVFKTNFFGQGNIKPWGHARND
+IFFKNTEEIDSIKSKIRKFYNISENKKIMLYIPSFRDNFNLECFNINTQMLKSALNKRFG
+EDWVIAIRMHPHLKKYSTELFNFSETVIDTSFYPDIQELLVASDGAITDYSSCIFDFMLS
+KKPAFVFATDIENYNTDRGFYYPLESTPFPVATNNKELEQNILNFDNEKYQKKIALFLKD
+KGCIEDGHASERIVDLIEKIMKDEV
+>tr|R7MHP8|R7MHP8_9CLOT
+MLHEVGHVLGLQESTRKGSSIMNMPVNEKQDILKKDISNLYHVNGWSYMNRRFND
+>tr|R7MFL2|R7MFL2_9CLOT
+MTKRFGFTLAEVLITLGIIGVVAAMTIPTLIANTNSAKFRSQFKKSLSTLNQAGLMAQAQ
+YDFDYAGADTACKEATGGRQSWCYSKP
+>tr|R7M8S8|R7M8S8_9CLOT
+MEALGISMQAVIQEAKQVQGTLIENSKECQSNILEYKKQIGILESKSQQYKRQSAVMNDI
+INLFIQS
+>tr|R7MA44|R7MA44_9CLOT
+MTKSEINHINSWDVNPEETTPVMQQYLKIKQENPGILLWYRLGDFYETFFEDALIMSKEL
+ELTLTGRDAGAKMGRIPLAVIPYKAADAYLEKLVQKNYKVAICDQLEDPKFAKGLVKRGV
+MLNVVLQELSPLVL
+>tr|R7MKU2|R7MKU2_9CLOT
+MKRFLLSFVLVLCLVFGINNHAIAKDNIEAIETISQIGSLANSGNYMQALDKCNQALKKY
+PKEPDLYYWKASIQSSINQKHEALENFNKAIALDSKEATYYVVRGICKMDLNDYTGAEAD
+FNKAIELNPNDATAFTMRGCAKLAQGNIDGANNDLTKANELFDVQEGIKSK
+>tr|R7MIQ3|R7MIQ3_9CLOT
+MIKKTLAFTVAEILVAMSIVGVVAAMTIPTLHYNKTKKEYSVKLKNFYSRMQNAIEDMQV
+DKGSFKDMMKPTNATMKTWYMDNIDPYMGHQFVNGNKIYYKDGSSLQLLGIGGCLDVWYD
+VNGDKSPNRVGYDKYRFLYCFDDSSRISWFGDKETFFGTYGAGLVDAKTTRQQMIDKCKS
+SGMGAEYCNRLLQVDNWEYKQDYPYKF
+>tr|R7MIH6|R7MIH6_9CLOT
+MQIPKLAVIIPCYNEELCIEKTCRRLLEVLEMLVEKGKISSDSYIYCIDDGSNDSTWSII
+ERLHSETPLVKGATFVRNYGNQKALIAGLEGVRDLGCDCAVSIDADLQQDELSIEQFVDE
+YQKGYDIVLGVRNDRKTDNFFKKITAIMFYKLMNILGSKIAMNHSDYRLVSKKALDMMDL
+YHEKSLFLRGFFHELGLKTTTVKFYVKPRFAGQSKFNFISLMGLALNGITSFSIVPLRII
+YGLGFVMALFGFLMGLETIFEKIFLNDSPNGVATMIILLCFFGGLQIFCLGVIGEYVGQV
+YREVKARPRYIVDKFLK
+>tr|R7MFC7|R7MFC7_9CLOT
+MTEEDFNNENLHEQTEEIVDEFALAKHSVKHKRLERKIRKKRKRVNRLKGFLRFVVTILL
+LYGAYHFFKLPQWYLPQDAFTKKDGKTVEIINNSIVPTSIIYEELQDVKVPRIPIFLMSV
+RPIKKEIFKIPVVKYIYVRRYGFPARIQIIIRERVPVAVIKTDLKSKPVAFFTSDGVLVS
+NKNYMGLSETKSALKILTNSPKIDGFWTVKKVEEISNMVKAVESYSGQKVEYVDMKNPND
+VYVKIQTTSIRLGMLDSTVYERIKRIYTILPQIGDMGNQAKYIDLSWDKVNYLKLKKNKK
+>tr|R7MH21|R7MH21_9CLOT
+MRDTFNEINITPLTDIFLVLLIIMMVIAPLLDQQGISLSVPENVEQTKMDKESKILSVMV
+TKNNKYYINNEEVSVDKLGTVLSQEMKNYPDGLLIETDGEATHGAVVTLMDKARYAGVKA
+ISLDQI
+>tr|R7MJ20|R7MJ20_9CLOT
+MKLDCRCENKQQALIKAKAALSNGNHTIEGSLSMPGNPYLIAGLNVEIKDVGYFSGKYHI
+TEAHHTIDKQMGYATNVEVKSC
+>tr|R7MIM8|R7MIM8_9CLOT
+MITNKIDGYYGCSMEYNPISETKNRKTGTKVYNNLAQPIADGVDDIPHGKSFSHKKVVLG
+DNSPLKQLGIDSFEIFKKKGEEAIVRFSSPYAPQGYSGSSLGFFQKTDKAEMKKFLSLLK
+DMNANGLKVPINALGVMLKRIV
+>tr|R7ME84|R7ME84_9CLOT
+MATVQAINFTSNPRTGSSIDKDKKEKAQNVATAVGGTGFAAKATRMASKRGLQQGESTLQ
+TMMQTTQNVMQGTGRTIKESKGLIASFKRHYKMFKGDAIKFFSKWKDSKVLGPIVKSPVV
+KGIASGFGGILAVFVLISGVNRAIENGELAFSDLKHQYNKYSNR
+>tr|R7MFC4|R7MFC4_9CLOT
+MKYVCTVCGWSTESDKAPEKCPLCGATTFKEISGGEKVYACEHNVGDGKVEDAEIMEGLR
+ANFNGECTEVGMYLAMARVAEREGYPEVAEAYKRYAFEEAEHAAKFAELLGEVVTNSTKK
+NLEMRADAEQGACEGKLAIAKRAKELGYDAIHDTVHEMAKDEARHGRGFDGLLKRYFN
+>tr|R7MH34|R7MH34_9CLOT
+MATQNFDYESFAQNLAAQAQELVPQDFDDNQKQYVINTLGNFSLLSGKALAEDPNLNFNE
+EQAVTITQIIAEWSFHKSVDLIRSGIPQQYWDGVMQKIAYTIFEIAKQTFSQNLPHDKIL
+ELIEHHVKKSYNEALEELKNKGAIDEGLMEFAESQSNMDRMAQEMQQQQQAPQPENANVP
+AQSPQAGTPATSADFPRVDSKVLKLATVAMLFKKMNQDKVQAILNKFDANDAETVIKFMR
+MPDLSERVGAHNALRCLQEIKTNLPQNTDLTPNRVVRKLQLLGQKYSSKDLDTILVRERI
+GVKRLVFNALEGKFYDKMPPKVASIVATHLSNSV
+>tr|R7MFI5|R7MFI5_9CLOT
+MTTKEFFTNSEELKQMMSAARATITAPFFGNNVEEIKTVSEAYKLARTSPGTVELTGMPV
+YKPEKLGLPQGANQLLFNDGTVVGRCAAARKIVGEPNCDLKYLLPIIREAIYKTRDKLMY
+RTEVVVGLDKDYMVKAHLLIPEGFENIMYSWMLNFQYINEAYANMYADSKPYPEGDIFVF
+SDPDWTHPDFPYGLTFFDPEHNCACILGMRYFGEHKKGTLTLAWGCAARNGFASCHGGMK
+RYNLDGGKSFQVAVFGLSGSGKSTITHAKHNNKYNITVLHDDAFVINMKDKYTIALEPAY
+FDKTADYPIGCEDNKFILTQQNAGAIALADGKVVSVTEDIRNGNGRAVKSRLWSPNRVDR
+INEPINAIFWLMKDPTIPPVLKLSGASLGSAMGATLATKRSSAERLAAGVDPNALVVEPY
+ANPFRVYPLAMDYERFKELIAEGVDCYILNTGEFMGTKVQPKHTLGIIESIVEGTANFHK
+WENFSDIEIMDVEGFDASFANKEYAEQFVARMNDRINFVKSRETEKAGIDKLPADALEAL
+EAVIKEAKA
+>tr|R7ME71|R7ME71_9CLOT
+MFENIKKQIKELAKNAVLKAEQELGSGKGQQKKRVAIDYVLKNLPIPEFMKMIVSVILSS
+FIDDSIELAVSYINSLSKMQGE
+>tr|R7MEK9|R7MEK9_9CLOT
+MESLTGVKFYISQIIKDNKLPAISRSYYDAGNPNFTLKFFMVYVDLNGTEYQNRPHTIKV
+DPTGKKMPDVLCSIVVDTPKFGASH
+>tr|R7MD83|R7MD83_9CLOT
+MKVLLLNGSPHKEGSTYTALKEMEKEFLKEGIETEIFYIGTDAIAPCRACGACNKLKKCV
+VDDKVNEFIQVMKECDGLVIGSPVHYASASGVIAPFLDRAFYAGSRAGKDTFTHKPGTSI
+VSARRAGTTATLDQLNKYFAINQMPIISGRYWNMVHGSTPEDVLKDEEGLQNMRFVARNM
+IYHLKCKEAGAKAGILPPEQEEVIKTNFIK
+>tr|R7MG34|R7MG34_9CLOT
+MADIVTIGSATMDVFVECDDANIVSVRSLKKKSEFMSYSYGAKIEITDFASQVGGGGVNT
+ATNFANLGLSTAAIFKVGDDIYSKGLFEFFKDRDVDLSYVIQNKEESTGFSIILTSFEGD
+RTVLAHRGANAHIKKSEINYDAIKNAKLLYIAPLNGDSNKVLDDIVKFAKENDTAICFNA
+GTTGIKKGFNYLKKILESAQIVVMNKEEASMATGIQLRSDTKEEKFSTMLIHPDLKAMFN
+KLKVSDYQIIVITDGGAGAYAYDGKKYYYCPCFEGPVTSTLGAGDAFASTFCASLRRENK
+DIEKALKMASINSAGVVSEFGATRGLLTFDEIEKRLSNSPDYECKIEEE
+>tr|R7MKF5|R7MKF5_9CLOT
+MLHLGTLIAVLIFFRKDVWEIAKALFLACKNRDFSDHKAKLGIYIIVGTIITIALALPFN
+GVAEHLVYHPALVGGLLIITGGVLFLSEYLSKKREGSTQKVSLKQALLIGLAQGVAVLPG
+FSRSGWTMATGLFAGLDRATSARYSFLLSIPIILGASMVYPFVKINVAEAVTYNWLAISV
+GTVVSGIVGYLCIKYFMKFISKFSLNIFGYYCVIMGVFTVIFFNVFK
+>tr|R7MK65|R7MK65_9CLOT
+MFICKNCKSVDKFELMFSPDYHGDKQFSQRYNDKNEIEITVDGYVFVPDLQFMNEHAVCR
+YCGQIYMWDYDV
+>tr|R7MBR8|R7MBR8_9CLOT
+MMNNNLINAEDLESSILGENKEFDSNDGIGILVDMAKQGKIDPWHIDILDVTEKYLQRMI
+ELKSLNLRVASRTLLFASILCRLQSNVLAGLSLEDFKDEPQDDVIYDDDGFIVEYPEDSE
+FIPTSNVVSFDEALQRRTSIRLNRNRVVTLKDLIKQLEFYEKLEKRASIKSAHERAKRHV
+RNYSRLTPEEIVSMAHEEYIEEAVLKLKDNLEQIFAREDKIELNELTMLGMDKISAYLAL
+LFLSRDTDYELEQKEFYSDLYVVKGGKKDAESEV
+>tr|R7MHY6|R7MHY6_9CLOT
+MEKNLVTIKNLSVEYKTKKGILGTPRIVHAVNDISLDIKEGEILAIAGESGCGKSTLAKT
+IMKLVEPSKGEILLNGKNILTLKGKEELKEFYEQVQMIFQNPYSSLNPKMKIGQILKEPL
+EINTQKSKAEIEKIIEEKISKVELDKNCLDLYPHEFSGGQRQRIAIARSLVLNPKFIIAD
+EPVSALDVSIQAQIINLLKELKDDFNLTFLFISHDLSVIKYLSDRIAIMYLGEIIEIGKT
+EEIFSVPKHPYTKALLSSVPELNTNEDKEKIQLQGELPSPEKLPKGCKFNTRCPFVMNKC
+REENPHEINFTQTHKCKCFLYN
+>tr|R7MDI2|R7MDI2_9CLOT
+MSVQPIIPSINTKNNNAQKIKAVNPNVNHNNNKVAFTGGNIIVSTMDFIEAGGYAASFII
+QDGLGFIAPRVGKGLLRGGKKKRDEDGNVIMDENGKPKRELNWAYARKEGLRELITGPSA
+FAIPYFMLNYIKKHYGTGNNVRLDYLDSLQSNFTKFAKDNVDAIKAGNADKTAFYKDVFS
+EVIENTVNKDSRIKESERMTKAEIEQAAEKLTQRQLKIDEILSDKSLNKKAKAQSVKELG
+GTVEDEFMRLMKNRVGGTVNEMGVKITSSKGKLKGGNIADLANAMRDYFGDAANNVKKVL
+TKDATSSIEDAVKHFTSRRMGTRVFTNLGLFGAVAAFYTQIPKLYNMGSKGKNLAFADED
+EADAPVQNQQAKNAEKADEKKKDVAFTGGMAGFMEKVGDKVINGKHAKSISDIFELHGPI
+ISGTAMPVLLYGFCIPPRLHNASDKYDYGEIVVRDMTAFTALLFGAKALARLFSDGFTKV
+TGLALNSKTENGRNVFQRTLDYLNPNDTHHSILSSKQLMSKYTNIEDYKGGINGFMDFIE
+NSGGNIKKAFSIDKNIHATVSEIVKNVKGKSFAEATSGEIREALKVANENKDELIKKLYK
+SFDGNNGLLKRAKTCNSTFGFLSTIVFVPGLIMWLTDFCEKMTEKRKAQEKALAEGKANG
+VDANSSANADASQKMDVKPVSASNIPTNAPTMVGFLKK
+>tr|R7MHV7|R7MHV7_9CLOT
+MPRKISLELIKWTAKMFFAWIKCCKYIKQYKPDIIFGTGGYVSAPVLLAGLTMKVPFVMH
+DCDANPGLVTRELSPFARSISIAFDVAKSKLKNQNCFINGNPIRTKFATLTKEEARKNLG
+LEDKITLCVMGGSQGAKAINNATAEILQDLSKKYDLQIIFQTGKRNFEEVSNKLKEIYPE
+YEQDKNLIIKPYFEDMVTVLKACDIAVSRAGSLSISELCASSIATIFIPYPYAAADHQRK
+NAKYMVEHGAGLYLENEDTTPETLKKDILQLLENKNELRQIQENATKLAKFDGVQKIVEQ
+LK
+>tr|R7MA24|R7MA24_9CLOT
+MGRLEELRINAYLSEVARGYSNNSFIAESLFPVINSELEKVDIFEFNKEAFQVYDTERAI
+RANSNVISPKGFKKHTTTLTEHDLAYPIDYREEEEARKIKLQVHATNVVTQGLLLKLETQ
+CAALAQDPTKYPATNKIALSGTSQFTHKDSDPVGVIDDAKDAISRQIGQDPNTLVMGQEV
+WESLKRNESLKGLIANSTNKIVTLDLLKEFFEVENIVIGKAIYSNAKDEFERVWGNNIIL
+AYVPKLNARTEYDPAFAYTIRKKDALQIDEYEKEGNKVRYIRATDIYTPFLVGAEAGYLI
+SNVNGTKGGNGGY
+>tr|R7MA34|R7MA34_9CLOT
+MIQLKSLFKLAPAMAIKYFKNKNNKFTWDWYELWQDAHKKSFTVAKAMREDILKDIRSAL
+EKALTEGKTFREFSKELKPTLQKKGWWGEQIVVDSQGVAEKVQLGSMYRLKTIYSVNMQT
+AYQTGRYKTQYENVDNRPYWEYVAVMDASTRPEHAMLNGLVYRYDDPFWQSFYPPNGWRC
+RCRVNALSDYNLQKKQRTLSSSAGTLSEELALVSKKSGEYKPVTVYTDPLTGKRVAPDVG
+WSHNPASGLIDD
+>tr|R7MAL6|R7MAL6_9CLOT
+MAITEYGSDTTLNKLEGKNWVATMMLCWTLGAFGAHRFYTGKTGTAWAMAIMTLTCCLAP
+ISAIWAMIDGIMIAIGSWNHDDGSELYERINWLGYIYIAVIVMTILYVLLQLAIFFAALG
+AAAGSAS
+>tr|R7MHL8|R7MHL8_9CLOT
+MAGIDIRRFLNSFGQNYAQQRTFAAKGTFNAQSQTSNVAPKVEVSVPKSTPQPVVQTQVG
+ETLQLNTLQSMDRAVYARELFQMPRNINEFVYMLQRGLTQGQFNMMYANQLAMQRNSLSQ
+LQAQILAQLQGLNTTMTKEIVNVQLSGQLQSSLKNLEILSGGMINLADISVLLQKNGKEA
+LTKLIMTMTEASKAGITDLTQMKEMAKLINASISIASENNPQKTLKLLLMLYLPWLPLED
+GVGFDLEVETKSGGEEESDSVLTVSITTKNFGTVIATIFLETSNSVQIAIECNDKFPKEE
+LQLRMDSDKKQYSMDTVTTYNINKDLKSNVDKASANINMSQTTEINPYLLLTAHSIIRHV
+IEIDNNATLGITSHSDNF
+>tr|R7MEN5|R7MEN5_9CLOT
+MADKIKIVGAKEHNLKNVSLEIPKNELVVFTGVSGSGKSSLAFDTIFAEGQRRYIESLST
+YARQFLGQMDKPNVEYIDGLSPAISIDQKSKSNNPRSTVGTITEIYDYLRLLYARVGVPY
+CPVCGKKIKPQTLDEIVSKIIQLGEGTKIQILAPVVRGKKGEYSSLFEELRQEGFVRVKI
+DGEIYNLDEDEIELAKTKKHDISVVVDRIVVKDSARSRIADSVQIALKKSDGIMMVDVVG
+DKEIIFSEKLACPDCNLSFEELTPRIFSFNAPYGACERCAGLGADFVVDPDLVVPDKSIS
+LNQGAIYAWATRSATTYYHDLLSSVCSAYKIDMDAPFENLSKKEQDIILYGSDEAIKIKV
+KQFGTSRYQTNIQPFVGVIPFLEKRYNDANGDYWREEIEKFMVAKPCPKCGGARLKPFPL
+AVKIKDKNIFDFTKMSIDDEFQFITDLYLDLTEYQLKIAKQILDEIRARLKFLIDVGLHY
+LDLARMTGTLSGGESQRIRLASQIGSGLSGVLYVLDEPSIGLHQRDNDMLIKTLFKLRNL
+GNTLIVVEHDEDTIRSADYIVDIGPRAGVAGGEIIAQGAVDDIIKEKRSITGKYLSGEKH
+IPVPDKVREGNGKFLQVKNAYLNNLKNVNVDIPLGKIVILTGVSGSGKSTLMQDLVYEYA
+VHKLRKNKPKPQGIDEILGFENIDKIIDIDQSPIGRTPRSNPATYTDVFTPIRELFAKTN
+ESKVRGYKPGRFSFNVKGGRCEACKGDGLVKIEMNFLSDVYVKCDVCKGKRYNRETLEVK
+YKGKTISDVLDMSVHEALEFFDNIPSIKNKLQTLNDVGLDYMKLGQSATTLSGGEAQRIK
+LASELNKRSTGKTLYLLDEPSVGLHWADLDKLVKILQALADQGNTILMIEHNLDLIKIAD
+YIIDLGPEGGVDGGQIVATGTPEDIMNCKESYTGKYLKKYLKKS
+>tr|R7MK76|R7MK76_9CLOT
+MHPQMQRVLIKYLKHYFDNQKIQGLITTHSNEIIKVSEIKKVRVIRIGVTSLLNNIFDLN
+KFIKTLPDKDEIQFYSLLFRINYSDLIFANKIIMYEGDTEKMFLERILNLEKYINLNEQY
+ISFVQVGGAYSHKYKPLLDFLGIKTLIFTDIDYKKSFTTIDKILDSEITNEGLKLYYNES
+KGALKVKNLYEWQQDNPNIRIFYQTQKDGYGRTLEEAILNKCLSINIVDVKSRRYWKVMK
+KRKKLKYSIPQHDTTNNDEVSDNLSCRDIAKATSDNKTDFMYSIVLQNDDKVAKFIPNYI
+EEGLDWLMQ
+>tr|R7MAY3|R7MAY3_9CLOT
+MKFKLSKLFLLLFLVGCTIGVVFAANTEYKEREIPLACSPDSTITLTYKFRSKADISKEM
+KEYVCSGSSEKLAKLSSAIVKHPDEAVLYMERSTVYFSTYNTQRGVADSESVRNLAKNKA
+LADAKKAISLDPSNEKYYSNLSEMYFSSFDYKNAKIYNDKARELKKTAVNTALKCAIDLK
+LKDPNASLKRFQCPEAMKYEE
+>tr|R7MFA7|R7MFA7_9CLOT
+MEEKKQKLLLIKLSSLGDVIFNIPLANALKNAGYEITWLVSEKGIQVVENNPCVDKTILV
+PIKKWKSRGFCLENFKEYLAILKQLRDEKFDIAIDSQMMLKSLYWLLFCGAKRRIISKEG
+RELSVLGGNEWIDNISYAPDSPIVLNYLRYAEHLGIKVDNIQVSLPPSTPQTVEKIDKLL
+SNFDATKPLVVIAPATTWVNKHWNKDNWKKVVENIAEKCNLVFTGGPCDNDLIEYISGGK
+YLNLAGKTDISELIELFSRANLVMAPDSGSAHLAWATGKPAVITIFTCTPKDVLAPFGSP
+NKYVALGGSGLPCEPCFKRKCHLRKNLNACTNFPNPKDVIDVINTLIF
+>tr|R7MCS0|R7MCS0_9CLOT
+MNDFAPYINGVIKEFEAENPNIKIKWVDVPFSEGEKRTLASVLSDNPPDLVNLNPDFSST
+LAHKGALQEIPQEKTTQFNQEILNSLKTNGKIYSIPWYATSAITIYNKKLLNKAQITIPQ
+TYDEIKNFAPQVRKNTGAYIFLPNITENDTMLKILNKYGCANSTAINSKKSVEVFDKFRT
+MYSKDLIPKETVTMTLQEALEKYMSENILLIGAGANFLNMIKENAPSTYANTDIAPQITG
+ELGQNDFSLMNFVIPSRAKHKDEALQFALFLTNDKNQLELAKLTNVLAVNQKTLQNDFYT
+KYDSNDLMSKARVISAKQLNKVQPVFKTQKGQKDINNIVNAAVQEILLGKDDTSKVLNKV
+SKDWKAIED
+>tr|R7MG91|R7MG91_9CLOT
+MFGFDKKNNKEKKQVIAYIHTHWDREWYREFEVFRLRLLRVFDNVLNMLQEGKIPSFYFD
+GQVSALLDYLEMRPENEQLVRDLVANKKLFIGPFYCLVDEFLTDGICFMKNLDIGLKIAK
+DFGCEDFIGYFADTFGHSKNIPVILKDYGIDKAIVWRGCPENLPSEFIFNGVNTVNLVRG
+YFNDIFSSDKFIEDKAKFIKKNLDMIAEKSGDTLLLPIGADHLGVPEDIASQINLVNQYL
+DDYEIILGSPFDYFEKVKFKVKYNEELRDNSQTFILQGAYSARTKLKQLNTECSYKLDLA
+NKLQMNFGNAYANSIEYAYKLLLQNQAHDSICGCSLDSVHSENITRYNKILQIANTIIEE
+IRTPQPDNLSMSFKYPDKYKLLEIERDYIEEGTQVISQRRGFPAKLLYDTSKIPVTEDYT
+TLYTLLKEFNSDNKTTKDVFVDNFEVFNRNIRIEVVDGQINIFDKATCYKNLIEFVRYKD
+LGDTYNYAPDIKDSGEVAKIKSVKMIMDGPLRCGIRITTSFFNVDVFVNKKSKLLNFKIK
+YPNLLTNRLWQVRFNLPKKVTETYSEDMNLLVKRKFDSNYNLRENLPQEKGQEAWTNTAP
+MQRFVWANGLGIITHGLTEYEVSKNTLAVTLLRSIGIISNPKNPARTTPAGPPFDVPGAQ
+QLGENTAEFSIGFFPVKDWTTYVEEVYPQTILF
+>tr|R7MIF1|R7MIF1_9CLOT
+MLADMSFSLSNYTINVNKRLSPFKMNVRNKSGDNEALLRHEIEHIKQFWDIIRLWGADSA
+VKLFDVHRICEVKPSLYKKMKEIEQTLGRITPNSEEGKNAQLYVEALINYPEVENYYGGY
+SLKDLILIRQYKKNLLEKNARLAEKEYKPSLFKQIKISFQEFIKLVKNN
+>tr|R7MC70|R7MC70_9CLOT
+MEQILQNIKEILGVPAFLINQCPILPQYIKLALIDSINFIPWLYILYYGIELLERFFLTH
+IEIFVKLIQKLGPLFGVAIANVPECGYQVIASTFYSRRMMTRGTLLAFLIAGSDDALPLL
+FMDLSKAFVIIPIVIIKIIVGIVVAYSVDIFDAITSGKKKLLEDVNVINSDLNEPACCHH
+RIQTVENPPYWYMHPFTHTFNMFMFTFICLAFFYCLIQSNAMGSAETLANFFMINSPIQV
+IVTAVLGMVSNCFVSVFLAVAYVKGIISFPALLSGLITVTGLGLMTLTKRCDKKSDVTFI
+TGVMLVVAIAVGLVAYYNMQVLDIVKDFIVR
+>tr|R7MFV7|R7MFV7_9CLOT
+MALLVSGGHTQIIDVESSSKQTILGETIDDAVGEAYDKVARLIGLPYPGGPRLDKLAQVG
+NPKAYELPEGKVDGYNFSFSGLKTAVLRLVKKLKTEYCTEECPELPENVIQDICASFQED
+VSKTLVKKLKKATQKRGYKQVVIAGGVAANSEIRKKVFNLEKDGYRVNAPAMKFCTDNAA
+MVASCAYFNTNTFDDIDVEVFSRVK
+>tr|R7MGC5|R7MGC5_9CLOT
+MHKLFVKTRNVKNFIGLMNNLIDKSNEVPKMGLVYGDPGLGKTQTAVWWATRNDAVYVRA
+QNKMTSRWLMEKIVFELGESPSRKMANLMEQCIAHLRLKPQVIIIDEVDYLISRCKIVET
+LRDVHDLTGAPVVLIGMQEAKTKLGKYRHLYDRLSEIIEFKPFSKEDMEVIVEELSEIKI
+TDEAKEIFFEKTNRFRQIIKGISLLENLAATNGLNKIDVKQVKGLNIEK
+>tr|R7M920|R7M920_9CLOT
+MKKVYIETMGCQMNKSDTERMFGMLSNFGYEETDAPKDADLLMVNTCSIRQLSEDKAFSL
+IGTWGKWKKTNPELKIGFCGCVAQQKAKEIFKRANYVDFVLGTHKIYSLPDIIKKINEGE
+KVCECEETNATEDDKAVKYEINRVKSVNAWIPITEGCNNFCTYCIVPYTRGRERSRLPET
+ILKEVKDALNSGFKEITLLGQNVDSYGKDFKDKNYRLADLLRDVNAIEGKFRIRFVTSYP
+TDITDELINTVVELDKVCEYFHIPMQSGSSEVLKKMNRRYDRETYFKIANKVREMVPDVT
+ITSDFIAGFPGETEEQFVETLTAMDELGLDYSNTAAYSPREKTVAAKWVDKYIDEDTKFE
+RLARLNEQNRKCCLASNKKFIGRELEVLIENFENHKGKNVITGRTRNNKIVHIPYDKDLT
+GEFVNVKITGVKTWYLQGEMV
+>tr|R7MD92|R7MD92_9CLOT
+MIRAISPIILLLISNIFMTFAWYGHLKFRSSALWIVILASWGIALFEYCFQVPANRIGYG
+VYNAAQLKTIQEVITLIVFSFFSVFYLKEQFKWNYLVGFCFIILAVFFIFKKW
+>tr|R7MCS8|R7MCS8_9CLOT
+MGMSASQARFLSLTARKTNVEYEGQQINQQRTTLSNESSSYYSRLTNMDVPTPPSSSDYT
+KISYTFTDGSETNTINSLIATKDGSYILNYTRETLEESVVSNGSVMVTRQIADDGSKTYY
+VGASKLRTLGQDVTDDPYLKTLSDSDRADALVVENQYLAMLQDKYKDKEWFVKYQYNSTT
+KGYSPVFYSAQQVENADYSEKTGASLSSIKSYAYGQSTESVEVRNQKARVEQDSTGRYKS
+IYIYQTDSEGNIQTDDDGNPLGYEYSLDASTASDDAAYNDAMNKYHYDKSLYEQEVQAIN
+SKIQIIQQQDKDLELRLKQLDTEENAISTEMEAVKKSYF
+>tr|R7MC01|R7MC01_9CLOT
+MPVEFFFIISGFFLFGNINYSQSFISFAIKKLKRLMPTVLGVLLITFIVSLFTPYNWVKH
+ENLFTILNIQNVGLTFQNGNIPPSWFVSSLFWGMCFYFYLGKIVSQKVFNFVTACLIFIC
+YAIFIHVPNSWHVLNYYNFINIGMVRALAGIGLGYFVRMLYNDYSEVLKSQFNTLKSKII
+FSALEIYLFFTLFYYLCFHASSYNNVLFEVIIFLLLFICFLLHKGILSKLLENNVSSFLG
+KFTYSIFLSHYLIKDLWNIYIMNKCQHFVIYHPIINIVSIFIVSIIVGMLTYYLIEKPSA
+KFLKNGLNINDNAYLGGGVGFLEPCSLCFA
+>tr|R7MDJ9|R7MDJ9_9CLOT
+MREIDNKLNSVNFKGIQKPSVEEVTTPEVAPASNAETKEIKDLANMPAAALGKSQIASDS
+IENDMKFLEKNPKLAQEINKAIDKYAETHGEEDTLKMIEKMHQEFVAKK
+>tr|R7MG97|R7MG97_9CLOT
+MNVRILDSCVGCGACAIINPEVFDIISDKAIVNPDNIEKTEDLCIDSALSCPVNAIEIGE
+Y
+>tr|R7MJP5|R7MJP5_9CLOT
+MDNTDPHTKIHISKINLDLAFLYKSSDINKSLQYFKNAIIENPIKPKAINCTVKAINEIV
+NILNSQGKLDLINEYVPVELFEFIKKDIKWSEKISEIQNKINQKPIQGKIIRYDIKRMFC
+IIENNEVHGDTYLGHFNDFTRLDGTQIYKLKNKIVTFVPINNDGQMVAKMITIIN
+>tr|R7MBJ9|R7MBJ9_9CLOT
+MEENTKVEVTDKDVYKHYFSSILIYGIVFFALAICPGLNEQIEYDFCNYIVVLGAYYIGY
+VALALPIFLFFRPKSILESRSVAILDFIKRQFKFGLTVEERIKNIEPKENEKQALVILFV
+KAFFGYYCVNLLCNKYILSMGYNIDFLKEFFNQAVQYGTANGTSFGIAQYIDDTFDMWRQ
+LIVMVITFVLGFSYLTELDLFKNKIKTVDTTPLGIISCLSCYYPFLILTDKLIPRFQEQS
+IPVDNFTLRIILNVLVVLAHLGMMLAVLRLGTKAGNLTNRGIVTSFPYNIVRHPEYSMNM
+IYIILTTIPVMLLGEISIFGKIIFTFGIGLWLYLYYLRAVTEERNLLQDSEYREYANKVT
+KRFIPKVF
+>tr|R7MAV1|R7MAV1_9CLOT
+MADHNISQEEEQELINLLILSDSLRDSILEFDNFETLSYSVGSSFASKLEELPAGEPVHT
+IDENLVDSESNDEQPEENETENSEEEENLAEENIEEQEVATDLDFSNTDEEEEEMVLDES
+FFSDDTTDAEEDLMNSTTNVDQPEEEPTPIVTEETHAEEDILPIQDNVEENLDMDVDVDL
+DMDSSIDLDNIDEDTPTENETPKEEAKTEQTKDEDPLSKIVGDALKKTIETATTAAAAGA
+AATAFSGAAEANVARTASTEAMKLAGVAGDIVDDVVKKNLESQHTNLDKIDYAKTTTNAN
+DVPEHIAAYDLSNAKIEADLEAEKAGQTDVPTDLTELKAIDTNSKGYENIEQEAVDFSNI
+EGGPVEEFRPETTENLEDLSHISAINSPTTPVEDLDIKLTEEKINEANNLSDLNFDNSTI
+DINADGTSSIDNLNFDLGLENNSDENLVDIGMTNELVIDNNNKSEEPISFDDFNQDLTED
+STMEDLSDAMLDETTFDTTTTEDVQTSTQEETQAVEELTTEEDLTTKEDFDTLPSLEEDD
+ILLDEDTTSNVESFETHTTLEDDILDSDFITEEETTEPSMNEENTDTDNEESVDDFLAEL
+SGDEDNTTPLESDMDTLSIEDTQTPEETDADFAELDELDDLDLTTTEESQTVEEHIQPEQ
+NSDEELNLDDLTEIEDTPIETTNAENTTTEEDFITEPEQTEKAFAVRENSIAISDKTFRV
+GEIPIDINNPEVQNFEGPEQLESLYNEDNVPGAALLQTPGRLGSARGNNSSNVGLGIGLG
+IAGIIIVLAMIGVIGFTVSKMLKPSEETPQPITDDATPTSTDNGVTDANTLNIDQNNVVN
+MDETTNTPQTQQPLTPTKKQQAKSTVPATVVPKNVQTKKIGATSFIEVKKLSWEVPDYIS
+YNGNFRQYFQSAGKSLKLALTSDLLLATDFTYTDQVRVSVTFNQDGSFKESRMLLSSGSK
+QVDDIVLRTVNQTLSVLKAPHSVGNDESTTVILKIYF
+>tr|R7MIR2|R7MIR2_9CLOT
+MYSNPKLNLIISVPHQISFPIWGLNNSNISVKGDVAIVGDMLNPQVKGALNFSDISSKDL
+DFELKDMTANLNGDILNGSANAKKFKFGGLEASDISSKISLKNYNNLYLSDLSATSFGGK
+VNGKISYGISDSLIGVEMNGSGINSTDAINGAIGIKNALTGTLGFGAKLVMQGVTDREIM
+NSMKGNVNFTIDDGRFMGIGRLENLVTAQNIASNSILKAAISSLSTFSTVQESDKFKNIT
+GNITLANGNANITSIKVAGPLMSYYVKGTYYLLPNSATLTILGRLDSKVVSCMGVLGELS
+ADKLLSYIPKFGAMTSKFLKQLTADPANENTELIPALTNGSTTYKDFKVIFNGPVESSSS
+VRNFKWLSTCDTTQMNVKKDLENAKEAVKNNINNKVENAKNTAQNVKNNVNTIVENQKAK
+AEAAKKDFAQTKADLEKAKENRAQSQENLKNLFNNALKNSQHKVNTSTPKEATTSTSAEA
+TTKE
+>tr|R7MC60|R7MC60_9CLOT
+MANKLYKPLLIDSVLATADLPKQRFISFNGAVSGAGEKAYGICDVETESGQYAPVATIGI
+LLVEAGGTITVGSEITSDANGKAVTLGDNQKSNGYALDDGAEGDVIRIIRGI
+>tr|R7MGT1|R7MGT1_9CLOT
+MKMKNDTKLLDKKIKKEIKTGNVKSAIELCQIGLQKDPTNADLHLRLGDLYLAWHLDIYS
+SCQYIDEAITEYQIALESYIDSYEIYYKIGVAQFYKGDLDKAVNYFETAVKKNPKYAKAY
+YMLAETYTKKARFLDAELNAKKAIQFSPLKSSRAHFLLHNLYKVSSFRIFKNKVKSALEY
+VMSALTLPFDIEAIKKVKESLAYIKFMPILMKGYLKIQSNGLDDAVDVYIDAVDKAPGFV
+PLYCLLGDIYSSLGQFENAITEYKMAIWLDSLNIPAYRHLCKAYEDLGDYDNAIEVYQKL
+IQIMPNMPEFHSNLAXXFILI
+>tr|R7MBT8|R7MBT8_9CLOT
+MECTYDRHRRVEGLREHIVHNSPKEIVIAELKKFKASKFIQKIEDDERKFLRSVNYDAAK
+LKNLGLSFMLKNHKTSNANKKSWFMNFIDKIF
+>tr|R7MDU9|R7MDU9_9CLOT
+MDQETYMKIMGYVPTVIEASSRGERSFDIFSRLLRERIIFLGTEIDDEVANSIVAQLLLL
+DSENSEKDIMLYINSPGGVITAGMAIYDTMNLIKSDVSTICLGEAASMGAFLLSAGTKGK
+RMALPSARIMIHQPLGGAQGQATDIELEAKEIRRMKDMLIGIMAENSGQPFDKVKEDCER
+DHYLSAYEACEYGLIDKVVERSH
+>tr|R7MBR6|R7MBR6_9CLOT
+MKIDKILINRIFVLSLPFWCAILANLAVKAHFKVFCLFKLIFHHECLGCGMTRAFVALSR
+LEFQQAYEYNPRVVIVAPLFILMWILMIKQSFKPNKKGT
+>tr|R7MIT2|R7MIT2_9CLOT
+MIKSIDNINLNNRYSFKSNSNNTPSFGNANLSKEAKYLNKFIKSQENLSTTRFIQGTMTN
+WLPKAILSRSLVDFSEFTFLEFLESGLFYFAAPFLGEKLFRNGLFKNVQSKNLKNNVSSN
+LAKSLDEIKKSSLDKNLQKRLVSTKAGVVLACLAVPALEYGLGFAKNLFTLKVFKISDFN
+NVANLNKEKNEDAELSKKVETHSKKVLTQVGILSGLGVASGLLLASKGHKSNIAQKFSEI
+LLEPGVAISKLLHKAGVKSKSTDNFLKDYLKLDFSNNNGKLALSKGQLALTCITGLFGYS
+SAAKDRGKLDFYEVWTRVPLVVVYTIFGSSILDSGFKKILAKKGKFPELIKSDSQGNIAP
+IPTSKDLPVIAEKLSKANKTPLNSELETLIKQKSIITGVPYLFSVVAMGFLLSGVSRLWT
+QYRYNQQTKNAQNPQKPQADFIKTSPVFKGIIEG
+>tr|R7MED6|R7MED6_9CLOT
+MQNLSSGKVVNLNSTSNSEKKFDGVMISKPKSMESINPMNKVVGITSRPSLNSIKIIKKD
+GTKEDYNIQKVISAVKKSAARMIVEFSDKEIDEICKFVNSSVLETKQQEIEIFKMHCIVE
+NALENLNPKVAKSYRNYRDYKIDFVNMLDKVYQESQKIMYIGDKENSNSDSALVSTKRSL
+IFNQLNKELYKKFFLTVPELQAIRDGYIYIHDMSARRDTMNCCLFDVANVLKGGFEMGNI
+WYNEPKTLEVAFDVIGDIVMAAASQQYGGFTVPEVDKILAPYAQKTFDKKVAKYIDMGVA
+QERAEQEALKDVEKDFHDGFQGWEYKFNTVASSRGDYPFITMTMGLGTSRFEKLASLIML
+DVRKGGQGKKDCKRPVLFPKIVFLYDKDLHGKGGELEDLFNAGVDCSRKTMYPDWLSLTG
+EGYIASMYKKYKRVISPMGCRAFLSPWYEKGGRKPADKDDKPIFVGRFNIGAISLHLPMI
+YEKAKHEGKDFYEVLDYYMEMIRNLHKRTYDYLGEMRASINPLGFCEGGFYGGHLGLHDK
+IKPILKSSTASFGITALNELQELYNGKSLAEDGEFALEVMRYINKKVDEYKEADGNLYAI
+YGTPAENLCGLQVQQFRKKYGVIDKVSDRGYVSNSFHCHVTENIGPIEKQDLEGRFWELL
+NGGKIQYVKYPISYNTKAVETLIERAMDKGFYEGVNLSLAYCDDCGHQELNMEVCPKCGS
+KNVTKIERMNGYLSYSRVKGDTRLNAAKMEEIKDRVSM
+>tr|R7MIB7|R7MIB7_9CLOT
+MNVVEFIRKEFCGWGKYERVVFPAGIVVIILLSLYMKDSKIALISAICGITYTILAGKGK
+ISCYLFGLCGTLCYAFLSYKNNLFGNLCLYLFYYFPMQIFGIFKWKQHLKDDSQEIVKTK
+LSTKERVVYFLVSLVLSFILYLVLKYVNDQSPMIDAVTSVFSIVGLLLTVKRCIEQWHIW
+FVVNGLSTIMWINAYLHGSNCFATVLMWATYFVLSIYFLQTWKKEIKF
+>tr|R7MBE5|R7MBE5_9CLOT
+MIQIITDYLSADKVRPLTDRVVVHAPEKIDFTIVANLTLYLDADADAVQKLVNERLNEYK
+EEMSSKLGKDIVPTQIIAILNSIYGVYKVELLSPAYQVLSNNQWANLQSFNITIGGRANE
+>tr|R7MCY3|R7MCY3_9CLOT
+MNNSYYETLDENFKQALNLCENNYSHSELLEFLQSGNIVQKQLSALKLETINSQNEAQIL
+VSNLVGQDGKIREAVSLRLNEFMSNPKTLEYFETPENYQIFLAAIIDINGNICRNVIGAI
+SNLKDNENFCNQFCQELVILTKDLLGKIEKDDFFEGKYKVNKEVFKLYWCLETIYVFWDK
+IKFEDLKEIILRTKDIQEYTIREKAAKILTRNFSDPELLKAKEALKNDSNYYVRRF
+>tr|R7MCD7|R7MCD7_9CLOT
+MKTKLLLIAAVAVMIPMQAQAAVSVDTTTDATYVKNQGYSAQTADMINITKARAAGEEYY
+TKDEQAFKNQNKFVRFWRKLYVYTDPAAEDYSFYHHNTQEVPKYYDL
+>tr|R7MKP3|R7MKP3_9CLOT
+MGALTYKPEHKFETQEQESDYDKLAQECSKILESQNSDNLDELFKLGGASGGARPTILTK
+INGEDWIIKFPSSQDPKNIGEQEYKYSLVAKDCGIKMSATQLFPSKICSGYFGIKRFDRV
+NDKKVHMVSVSGLLETSHRLPNLDYNILMKLTLELTKNYQDIEQLYRLMCFNVFAHNRDD
+HSKNFSFLYDENKKEWHLSPAYDLTYSSSFNGEHATTINGEVKIQV
+>tr|R7MEZ3|R7MEZ3_9CLOT
+MKGTTILPSLECRVLGKYSINKILKFPDKICELWILCLGISPAELSALDYSNINFENKTV
+LINQCVYRGTAENIRALYKIRTLKIPDVLFNKIPRNKTGKLFESVNVDNYDLLLNTHIKL
+LLDKNVCINIIRKNLGYQCLNDFEKRYNFLLPQELDDNFQIL
+>tr|R7MIG2|R7MIG2_9CLOT
+MRTNEEVDDEDGTTTVYSYCDSYVTRPSDSGSSGSTSFLPVTAPKMPNVCKSAPYYGMRN
+ANEVTTDENESESINCVCRTGSVTANNEKVCCASKSGYNSYAPTTVSASARTAYNNYAGT
+TSVAANTDTDYCRYCTGEYNPVNDWCCPEHSVYNGTACECANGYEMEKPGTSAERCKKTK
+CADGYHTDKITEVCVPNAPIIKGKRLCELIHSNWNIVPDSTYCNAFTTENNVSVNKAVLE
+AAKGNGGSGYLSINSKQGAFAKVRPNIVLANGLRLWILGDKAASIPGLSYNPVGITSTQN
+MCRELLKSSNEPLSTRALCDAAGGYFCAGEAHCYTLDSASLEKMGDARNCCASTDLSTID
+YSAGLEKDNRAFAVGGFTVFVDINGGAKGSSTLWEDIFPFYVGTNGRVYPGYPLDAPKAK
+NAVSNDVYLAGNSVKNIPVDVYYFETTASGSARKRIVAYSNVSYARGICYAKLVGSHTPY
+CKNLGLKARGMGTDVSKVTEMIDSNSNPCTNNNCFISVRNKLRFF
+>tr|R7MDJ8|R7MDJ8_9CLOT
+MKTLKSMRLHIGIFGKTNVGKSSLLNRITNQDVSIVSNIAGTTTDVVEKTMELLPIGPVN
+FLDTAGINDSTALSSERIEKTMKIINRTDVAIVVCDYNGIDDYERNLIEKFNELKIPFMI
+FINKTDEKYPSDSIIEDLKNYTKHILLSSVKTDDLIVFKIKELLVKLLPEDFVNSPKIVG
+DLIPQGSTVILVIPIDKEAPKGRIILPQVQTLRDLLDNNCVSVVVKESELKSAIDNLKFA
+PSLVVTDSQAFKNVSEIVPENIPLTSFSILFARLKGDLNAFSQGAKSIEKLQDGDRVLIL
+ESCTHHAIEDDIGRVKIPNLLRKKTGKNLIIDNIAGHDFPDISKYKLIIHCGACMTNRRE
+VLSRILLASENNVPITNYGICISYCLGILPRALKIFEV
+>tr|R7MKE9|R7MKE9_9CLOT
+MEYVKNKELETKEIKGIFTDMLKYAPSKLCGMLGNVITVPIYTSLFSTEQYGLYTISIAM
+LSFLCILFSDWVGLSGLRFFRHHQLMEDLPKYLTTLVTILTLNMILMFAISFIFKDSLYS
+FFHVPFKYFLAVLFLIIPVAIRALLSQLLRAQLKSVSYTLTTILNQFATIFLAVFFAKFF
+NLGAASILLAMGVSISLIDILLLYQSEILKIFKFQKIEWKFIVPIIKYGIPIAATSLSAW
+IITQSNKFIMNGISGFSKAALVGVGYGLTLPILMTLFAMITVAAIPRIINLYEAKIDVRP
+IISKFLGYYILVALPVISIISLYSVDYTHMFTNAKFYEASVLVPYFSFGVFFLAMTDYTT
+LQYHLANKTHIEFIIKLISGIIGVILNVVLIPKMGLVGVGIATLSANFLYLLLSLIIVLP
+ELRLNIPKNTLLRILISAIPTGVLLYILKKYIVFIAGSWQMLLCLVIFYAVYAITQKTLV
+KNSD
+>tr|R7MH72|R7MH72_9CLOT
+MKKLISFALVALITISLYNICFAAQKTYKLVTYRPLSQSECLKNKKVLGLSYCPYNNDHL
+AGAAFACGHKNNLPSGTDLHELAKQVYNNRTSETSIYGNRNDVMLKNLGIFVNDSHIYYW
+TSEEAKDGKGGYVRMFASRGSIPYYAPRDGSGYVSHALGKINYGNTRYVQTKNPKRNSNL
+AGLPNRDVLVTVCYKNQNSSK
+>tr|R7MAV2|R7MAV2_9CLOT
+MTTDKKCLINWVGGKRLLRKTIAPLIPKDIKSYIEPFGGGGWVLFYKDRWADLEIYNDLD
+GRLVNLFRIVKYHPNAFKEEYKYLLGSRDMFFQFLNGTFITDIQKAVQFYFIITRSFGGK
+GSSFGTVKKSSGGASKSQKNVLDKIDAIHERLDKVMIENRDFETLIKQYDFEDAFFYCDP
+PYSQGCGYDVTSTKDFDHERLREVLGNIKGRFLLSYDDSPKIRELYKGFEMIEVERLNGI
+NNRSDVENRKKIFKELLIANYPIKELHERQTDRD
+>tr|R7MCG9|R7MCG9_9CLOT
+MKKDKTHIHWYPGHIAKAEKKLKEQLSLVDAVIEVVDARLPISSCYDNISGLLNGKPRFL
+LVNKSDLVDKNLLKPYIEELKKRFEIPVIVTEAKNNKDINTIVKKAIELSEPRIQALMAK
+GLLRRPARIMVVGLPNVGKSSIINKLTRSSKTKIGAKAGVTRQQQWVRINPQLELLDTPG
+IIPMKQEDQERAKKLAFVNSVSENAYSNEIVAEELLSMLDEKQAKVFREYYKLPEELELN
+IDNISITRNWLLTGGSTDRERTSVYVLRDFREGKIGKFILDNLE
+>tr|R7MDK3|R7MDK3_9CLOT
+MGTPILEESKIPFKGEKIIHVKDKEFHITPVSMGNPHCVIFTDEDTLCMAKTYGPDMEVH
+PFFPEKTNTEFVKVISEKEIEMRVFERGCGITLACGTGACASVVAGVLNNLTENTVKVNL
+LGGAVNVEWSGSKDNPNADIFLIGPANYSFTADYIL
+>tr|R7MDI1|R7MDI1_9CLOT
+MSLTVYLGIDVGSVTTKLALVDETGKYVDSVMLKTAGKPVLAVQTGLNNLYSKRLTEYEV
+MGVGTTGSGRALAGSLVGADVVKNEITAHAVAASTNIPGVQTILEIGGQDSKIIILRDGI
+VTDFAMNTVCAAGTGSFLDHQAQRLNVPIEEFGETALRSTNPARIAGRCGVFAESDLIHK
+QQLGYPVEDLLYGLCQALVRNYLSNLALGKELLPTVSFQGGVATNTGMVKAFEEALNTKI
+VVPENHQTMGAIGAALLAMENHQYTETQTKFKGWNVADMHFTSITCACTGCSNNCEVITI
+VEGMDQVQHVEKIKDVKGNIIARWGGTCGRWDIS
+>tr|R7MH83|R7MH83_9CLOT
+MNTDDKIKNLLIFSGTPSDSSEDFEYAEFFKNFVGKKIICGGSTASYISRELKIPIKMPN
+AKMSIDGLPPSFVMDGVNLVTEGVLTLSKAVEYLKTERVIGIDNPAGKLVEFLIDSDFIS
+FVVGTGLNMNKINVLKLKSRKEIIDEIVLILQKKYSKKVSVQYIQ
+>tr|R7MC44|R7MC44_9CLOT
+MIEYDSSGRATSLQLEGSSVVYSLDTSSTTDDQAYNDAMNQYNYQKQVYEKQVQDINAKT
+EQIQTEDRTLELRLKALDTEQNALQTEMDAVHKIISKNIESTFKTFES
+>tr|R7MDJ4|R7MDJ4_9CLOT
+MKRKWKVLTLTGILAVTCGLYTWGIPAVVNIKSHKRFIKSHKSFIEQKVFENSGFIVDIG
+NPELSMGIFPSVWVKSDNISILNSDGTKALSIDNPQLKIELFPLLFKKIEIANVSATKED
+INFVLTKDSKFLLGQYPLDLKLKKDNKFTLNKIDWDLGSYNISLADNLNNQQVKLQGRYF
+EHGKYVQNKHIKFSTEGRFEVGKKSTDYMTDISLDFPLNHFTEDQLMIMGRVDNFDLASI
+SDYVNILSSGRIKKMGGIVNYSASTTPDKFGHKKIESTLRTNNLVIEGKDKASSIIYPKE
+LTAKLNFRTIENGIHFENTSLQSDKIHAFVDGKIFNIGEKVPNLNITASVENTRLEDVVA
+ILPGSEKLLPDFNLYKLKKYVFYGDGEGKVSFRGKANRPHLKGYVKLSNAYLIKPLRGAP
+DKASIDLNFNEQLMDLNVFVPTSVGQNVTVKGKVKIDGSKYSELFIKSTDSVILEPVEEI
+LNPLHEILKFQLGPVPMMKISGIGNIDMHSAGKKVDPHIWGKITFRNATASFNDVHNLVL
+NNGSGEVVFDDTKVSFRSYKAFINGKPVEIKGNCVVLGDLNVYVTAKGQSIQKLAKTINT
+SPILVDVQKAIAPFTHPTGVADVFLHIYGKVKNADEVVFNEDLFSKGTVTLHNATTVMQD
+TYLPFTNVNGVVNFDKYNSDYDVNGFVRNSKIYVKGTGEKNQIDLVAKSQKFAIKDCNDL
+LYPTTEMPFKKEIGMLNASFVGSYKGIADGGELDYDKVKVDGKFIPNINTNAPIRLNGGT
+FTIRNGVLKTSNLKGLFNNNPFNLTLTMADIYDSMTIASSVFNFKNFDISSVNEIKKQVK
+LPKQYAAQLDNITDMRGIVDISGTINNGKIWSNTNLKDTSFVYKPLGAVVRILNGEANMR
+GDTLYLKRVNSRVSSMPVFVDGSVADVFGIPKLNLLVSAKPTQTFFDRFINNKSVYPVKL
+KGDVNFNSKLRGSIDRISAHSNLNIGENSSIYYMGAILAGAPNGAVSTGELTTNPVSVVS
+DVVLRPNSVHIDSLKYNQTIMSQSQKKSIQNQLVASGDVTLLNDNVLGFKNFKVKTSNPT
+NAKIFNVLLKKPTIKQGVFTTDLTLNGTSLAPKILGDLNISSVDIPLLDATIRDININFK
+SDYIDILTKGVILTNDIVMKAKVVNNPTPPFVIEDVNVQMDELNLNVVTQALSDFEADNT
+RNKHLSLSSANYVPMPIDQLVIKNAQLNADKILIKKATATNFSSTMSLSEDNVAKINDYH
+FNIANGEVNGKINYDLTTFSGNAEMTIKNADAQIIGENFFDLPGQMYGHVTGDMHLSCNG
+LSSVECVNTLSGGGSFEVRDGRMPKLGSLEYLLKAGNLITGGITGLSINGIIDLITPLKT
+GNFDKISGEVKVENGIASDINVYSSGKDLNMYMTGNYNLSTFVADMEVYGSLSKNFSTLL
+GKIGNSSLNRLFNTIPGININDINPSSTSKINKIPNFEKANVLRVFKAEIFGDINGSNYV
+KSFRWIKN
+>tr|R7MF60|R7MF60_9CLOT
+MNSFFSCSNLKYMWILLGVLGVIVIILAVAYCFATSDKTVKCDNNAAIKALQEKNIGDLK
+EAAGNFMIQKINDEYKLVFSDELNQDSMYEGEFARFNTLDDPNTVIKADYDKSKTLVEHV
+DKDINEVVCTIPVTFSGFSLTDKKATLSGRVLYTIHANGGNNVEVDAAPITEMFRSNFKP
+IYNKRNNQYLKFEYKTGKGEIIDAINQLPKEEFGDFFNPIDY
+>tr|R7MHV6|R7MHV6_9CLOT
+MKIDKTKTNSIRKAFGKTLAEIGELNEKIIVMDADLACSTQTKIFADKFPDRFFDCGIAE
+QNMLATAAGLASEGKIPFVASFAVFVTGRTYDQIRNGICYPNFNVKIVGTHGGVTVGEDG
+ATHQALEDISLMRGLPHMTVIVPADCKECQEAIKYAALHEGPTYIRIPRSNVPDIFDENY
+SFNIHKAVVVEEGTDVSVFTNGETLAEVLLAAEELKKDNISLEVINVPVVKPLDFQTVIE
+SVKKTKLAITVENHSIIGGLGSAICETLADKLPSKVYRFGIHDEFGQSGKAEELIEYYGL
+DSKTLAKRIRAIIKKEKEQGNI
+>tr|R7MK86|R7MK86_9CLOT
+MTSKNFLFTSESVTEGHPDKVCDQISDAILDEFLTKDRGSRVAAETTVTTGMALVCGEIT
+ADCYVDIPQVVRNTIKNIGYVGSNAGGFDANTCAVLTSIDEQSTDIGNGVNKAFESREAN
+ADTSTVETEEIGAGDQGIMFGYACNETPELMPLPINLAHKLSYRLAQVRKEGLVNYLRPD
+GKSQVTVEYVDGKPSRIHTILLSTQHNPEINGISDNQKVQDIIREDLKNLVINFVFENES
+IKPDENTIILINPSGRFVIGGPQGDSGLTGRKIIVDTYGGYSRHGXXRHCGGAFSGKDPT
+KVDRSAAYASRYVAKNIVAAGLADKCEIELAYAIGVAEPLSIFVDTFGTGRISDDEISKL
+VAENFDLTPAGIIKKFDLRNLPAKNGGKFYQLLAAYGHMGRTDIDVPWEHVDKAEELKAK
+ACSCGCGCV
+>tr|R7MJZ8|R7MJZ8_9CLOT
+MKEKLFLIWDKIVSFYNKHSEVLTVLGLAILFYFIFFHNIGTYSLMDVDETRYVAMSRDM
+FNTKDFLTLYLNGQYFFEKPPLYFWQECLSFALWGGKVNEWTARFPVALLGFIFSFVVYF
+TSRKRVSRRFGVFTSLILATSLEFIMLAKYAILDIVLTFYVGLALVCYFQVYFCQENHKK
+FYWWAFYFFTGLAVMAKGIPGIAIPFGTVFFTSIMAKKFKEIFKPLYIIPGAIIFLLIVL
+PWHIIMFKKYDPLFYNEYIIKHHLHRFLNTANNEIGRKQPFYYYFLVVLWGFIPWIFSMI
+AVFVDKIKNWGKLHYVEKVRNFDFASMDNVHKALALCWVTVIWIMFFFSSSSTKLATYIL
+PIYYPLAIFVGLMWQDYVDKKKHEKPINISVQILGWICLVAGFAAMFTQYYLPAQLNDDI
+AEIKWFALICLIVFGLGSLLFVKYKKYVGVFIFYVLFMTVISAFATEEFFEVDYRFGQQD
+LIGFAKYAKDYNYKISSFNMDRKYSLLYYNDEKVDYNSNTGLTVDSVKNDLTKKDYVIII
+RNKEMYEIEGKLDYDVVKVGRRYTMIKGK
+>tr|R7ME08|R7ME08_9CLOT
+MGYLQIKRGLSENLPVEAKPGELLFTTDTKKFYIGNGEGNALTEFANAAQLANFLLQKAE
+KVHTHPSSEVTDFASAVDNRIALQKGQANGIATLDSSGRIPNAQIPNVFKEAAVVNNITE
+RDALNAFSGLHALVVDASADSTVGAGGGAEYVYNGSKWVKISEFNNLDTLVDWSGIQNKP
+EFVSAITDLEDVPSLEGEGGMLLCVLPDESGIGFMAPFDGNFDGGLF
+>tr|R7MJ52|R7MJ52_9CLOT
+MSKTIQVRVDDFLKQSADELFNSLGLDTSTAIRIFLTIAIENGGIPFEIKKPNSSLKEAM
+EDVLNKRNLSKPYKSAQEAVNAMLED
+>tr|R7MCY8|R7MCY8_9CLOT
+MLEISKTQDDGSLKILNLNEAVSGSWFNLINPTREEIQQVSLVLGLDESFLNNSLDADEL
+SRMDFEDGNLLIITNVPVMDEEGNFDTLPLGLIFTPESVITVCSHENKIINSFNADTAKF
+FDTRHKANFMLSILFRAAKFYLRYLNIINKQTESIEDSLRKTTNNKALFQLMEIQKSLVY
+FTTALKDNQLVLQKLLRMVHTANLQRILKFTEDDIDMLEDVIIENKQASEMVEMHRTILE
+SMMDCMASIINNNLNLVMKFLAAITIIMSIPTMIGSFWGMNVPMPFGQNHFGFLIVITIS
+IVATFIAAVFFNRKGMM
+>tr|R7MHA2|R7MHA2_9CLOT
+MIFSLVVLAFIFITGLVIGSFLNVVILRTVSEESIVFPASKCPKCQTPLKWYHNIPLFSY
+LFLRGKCAFCHEHISWQYPFVELLTGVLFVGLFLRFCTPFDPLFGLEMMNPIGWDQIGIY
+VFSLIVSGLFIAIAGTDILEKKVADAHTFSLIGVGILYSIIYAILTFVLYTKANGMPKLD
+LNFFLSCPILYSLAAAILGFLIMEAISRLGLVLVGARAFGEGDSYIAAGLGAVFGSMLGC
+SPTYPNFLPIFQVLVAILVLSGIVQMFITLPMFIKKLVNNKNWMTLGALVGFIVYTIGFL
+TAQNLGWLTHPIAYWASTIVLVGLGLFACKELIWGLKNNQAANGLYLPFGPAMIVAGFIA
+MFTIGF
+>tr|R7MCY6|R7MCY6_9CLOT
+MNLHEQCLLRYLTHPDELSYATEILKLNNKILEQKFVVKNILANISLLNYTEKVK
+>tr|R7MGS6|R7MGS6_9CLOT
+MIADLPGYGYAKVSIEARNKWQKYLEEYLLKREQVKYLVQLVDARHEIQKNDFQMREWVL
+AYNLPIITVVTKVDCISKNKIQSAISHVRKEFGGEIFPFSAVDNRYNEKILDFFCNSGSS
+DK
+>tr|R7MCV5|R7MCV5_9CLOT
+MRQKFLYFVFFILLSGMFSKTFAQTVVVESLSDFSTANPPTSIKVKLIEPLELAKEITLN
+AGVIVQGDLVDVTSPKRLKRDANFSFKPKSYTDKDGEHKITQDVTASYTEPVDKGNLAKN
+AALGVGSFFVKGLSIGYAAVEGAVKNEEDNRFKSSITSAYESSPFSYANKGEDLEIKKSQ
+YFYLKFPNLNKTKDDKKQNYTYTIEKE
+>tr|R7MAN4|R7MAN4_9CLOT
+MKLLSHELTHFKQYSSMLRTEGIGVESYARVIAENNVKQSLNSSSLSFMFKSQYNAALKN
+GKGEEFIQKAIDAQTKSYIPEIEKNFADVLKMPKISANSPEGKKAYEYLEAQKNYEGLDV
+LGLGSDAYRNNPLEVEAYGFGDKMGEIFGKYFS
+>tr|R7MDB8|R7MDB8_9CLOT
+MEVRSKGANSVYSKVCKWMKKLNQNVSTDKQAGEYIQDAIGGRIQLPNLTKKDVVDAIEN
+FSFEGKALTKSEQSIIKKFFNNEALTPTEQVVADKYSHAIKCALAEKQSDPVVNKFLLSG
+MKDALDRKVTTIEKLEKSGMRKDLIAELKNNPNIEPLRLGDVNNYKGKNGIAYFSDNQIR
+QFERLQLATGEKFDIISCSENIDLAKYGLENLPKSAKDAIKSGGYTTGQINVIFKNGKYG
+EIQVRGTGEFAEAEHVKYDALQEKLTLTPASKEYVSALKGLKPSSAERYDQYGSNVYDFD
+RNVELGIKSNAPELPKGFKSILSRDSMQKIHEADVVDQKAKMVNFVPHLEPLNMAYVG
+>tr|R7MGK9|R7MGK9_9CLOT
+MQVNSVSLANANSKPVFKGPREDLESFAYMDEESTRNLALARTSKDVKDKKHKAISRALY
+LAAPLSGGLAAACSVPSKVLTKVGGVNVSRATRIAAGAAGALRLGALFLGIDAIFALKNK
+IDNSNETMREFSQKHPLMSFFGTVAASFAAFYGLKHGAAALSKKLSSTGKHPVKAVRSLL
+KFSEKLNNSKILNKASEITAKVPAFVKTATKSVLDWGPVLFILAHFSHDVSHKREKAIAF
+QDNYNQIKGEQAVIRAALDVHDELAASVDAE
+>tr|R7MCH4|R7MCH4_9CLOT
+MKKILYTRFKYMDEILEDLMKNAAIRKAITRANLCKFWSKVAGEKFAQHSRPYSMLRGSI
+MVIACETPTVAQELMLRKTQLLVKFKPYVESLKMKLTDLKFDSKKWIDLPKE
+>tr|R7MG64|R7MG64_9CLOT
+MNMFKRWYDADSVVSRAINELEKSSEEIQVRCADYIIDLLKDVELEELSLDDQYNYIMRR
+WYDKNVKVSHAIEYLRLSPADVRRETALKVLKYLKELKA
+>tr|R7MIU8|R7MIU8_9CLOT
+MKYNDESDKFEEVPNLTSVDRVGNQTYTIPLKGGNIKTEVKKSGTNTITNLSVKNNNKTY
+DAAESAKILGLAPTWGKNKGVYYNKETRQHFIWDEKNHQFIVAEQIKQMNADGTYWDYSG
+KLHNL
+>tr|R7MA90|R7MA90_9CLOT
+MEKLKKLGIILLPIILVTTLLFGIFYNQKSIKIGTICKKLQLIDINIDHNQALDVIETAK
+ENQIEIPDTVINFDTHSDLYVYQEISPKLGAEIYNWINELVIKNPEIETIYWVMPKGEAT
+NAMMQYDFKQRDIDNIPIALEGNNKKNEDDVNPNVHQKAYTQDLIINTNNGYLEELAYKK
+DYEKLKQPNYKKFKLITCTEETLPNFKNKKVFLSIDMDYLSNSGFDTSEDWSHNLKPQEV
+EQAYNKMITTIRNKNIQPQIISLTLSPQYIPKSNEKQIQGIMEEFLYYSNGEDIIKEYTR
+RAGKPQVRKGQKKYKEV
+>tr|R7MGG7|R7MGG7_9CLOT
+MIIDGKYIILGSMNFSNSGENKNDENLLIIENSKLAHNYETFFKYLWAMIPDKYLKHNPK
+PESKESIGSCTDGVDNNFNGKIDKQEESCK
+>tr|R7MI23|R7MI23_9CLOT
+MKLLHTMIRVKNIDESLKFYTELLNMKLDHKKRLEDCWLYFLNDEEESTQLELTYNDETP
+KEGYNLGNGFGHLAFSVKSFDEFTEKMNSLGYKYLYEPFDLNGKGSKIAFVKDPDGYEIE
+LIEKVVW
+>tr|R7MJ37|R7MJ37_9CLOT
+MTLTNIISAIGNNSSIYPLIVRDCGIEAPSKILIARNENKKESKELANDATREKIIDEYA
+TSAIWLGGIPAVECIADKFISKKGYNPNVNIKLFKEEQNKNASNIFQGIEYNINKFKNIQ
+EKDVQEAIADLVKVKNNKPLFEGLLTKKFFAATIIPTVIMGFILPKLNFALTAKLRKNKS
+EQKSSPQPQVPNLLSNNNINFTGNITSTIANLRTVDKMAISDGGLTVGRVSTSRNKDEGY
+VNAFRMIGSMILNFVTPAYIAKGLDKTSNKLFKINVNLDPKILSNKDFISAIKENKFELP
+KSNSAKDLFEFIDSKPTSLFSQMAQEMKKVSYLESGYRDPRKYVDINDLANFRTEVVKFI
+ETAKISKNIEKFAQKAKWIKCANILANVGISSFLLAGVLPKLQYEFNKLITGSYADPGLR
+KQ
+>tr|R7MGL7|R7MGL7_9CLOT
+MLEQMNENKSTFDLTSRSAFSNENDTFTSRSFAALLAKNNVPASHKRIADNYLIIKKVFK
+FQACMSRISNVEKSLLEKYDFNILEFTTMKQMYDELALLQKWSSSEDENLRADSDNILLI
+RVKELKFLEASRYASVSNEIYNGHKALEQYLKEISKFQTVQTLRTLNF
+>tr|R7MCK2|R7MCK2_9CLOT
+MDVSRIEAISPRQIDWRRLTANQIIKYQEQGVDVPSQYIQWAQNFVNSIYSDDVTTYEKA
+TSSSSVETSTNTSDVTSENTEETAPVDESGDTTTEETNKTEAQTKREQLQQDGVSLVDQA
+ISFTSDSNAGRKAVNESASIISDAQDASVNEIQELESYMDELLAKAEKTQNEFKNEVSKI
+NEDKSDKSTFAKINRLQQELQKMGTQGQSEISATEANLIGFDSLINAQTPTIDSALDFGG
+ETVTVGNELMDVAKRSGLMGIFYYMPIAKTTINAGNSAVDASDNTLNLQNETLDINNANK
+STASSFKIQVQSKTGVAAAPVLKGEAGSDENSDPNSQEARKTQNNSTSNSDKTDLANNQT
+ASLDEILKKKIREGQYVDGANV
+>tr|R7MD51|R7MD51_9CLOT
+MSVQQIQLTNIHSMPQPRQYICNSCILPEGNRNYCLVDKNEVDYFVSQKEKSLPYLADIL
+QHSQNEAQVTETLLILDRMIDDGTDGIDKLYPILAKFNNTKSPNIQTYLAGIYRKIQVPD
+AFGPLVKMLIQNSLQPMDKNAPFDPNEEIGGAILSYLSDRFRH
+>tr|R7MFK7|R7MFK7_9CLOT
+MATEEKLYSDIPPTKLRNKEEKFKPAKTNRFWLTIASLFFFNMLQNRFYAFRYTGLENYT
+EREKGTPTILFAPHCNWWDGIVMYNITHRICHKEIRLMVEELNRFPLLRRGGAYSVNKKS
+AQSAMKALQYSVDVLGDLRNILCIFPQGIIRPPHFRPYKFQTGLAYIAHNAVKRYGKINL
+IPVSIDYCFLRDNRPEVIVDFGKRIELTDQNINRHEYTKFLEAALTQTSDEQFKNISQGN
+MDDYEILFKQHLKWYRRIEQRLKSIDLPDVSEV
+>tr|R7MBL8|R7MBL8_9CLOT
+MNNPIIDELEKSYLGKELPAMNAGDTVKVFVKIVEGNKERIQAFEGTIIKMHGSGLNKTI
+TVRKVFQGVGVERVFLINSPRIDKITVLRRGDVKRAKLYYLRERSGKATRIKEKIEKR
+>tr|R7MK60|R7MK60_9CLOT
+MRRAFTLSEVLITLGIIGVISAITIPSLLTKVRYVRDSAILKEDFSILKQMMLSANDDAM
+ASIVIGNNMDEMKNWFNTYFLPYIKVAKVCYGTKGCFPNKVKNSNGSILYSSGQCGAATI
+SFVLNNGSYICMDDYGTSHYGVYFGGISITLLVDVNGDKEPNQLGKDIFAMVFKDNQLVP
+GGYDMTDEQIDKNCSESCTGNECGSYCMQKVVKNGYKLPVYGK
+>tr|R7MJ80|R7MJ80_9CLOT
+MNLDSQIDSILSPVANKISGIIFSHVTIHGVRVEFLILLLMIAAFYFSYRTRFIGFWGFK
+HALDLITKKYKHEDTIKRKKHGEVSSFQALTATISASAGMGNVVGSALAVSVGGPGVIFW
+MMIAGIFSMALKFAEVLLGLKFRQINKDGTSSGGPMYYIINGLRAPWIKPYTPYLAKIYA
+VCCVFAMIGGWNLFQINAITTQITNVTGLFAGQRWVFGLIVAVITYVTVIGGIKAIGKFT
+SKVTPVMCSLYVLSAFIICLLNFNHIPHTIALILKEAFQPQAIVSGGVWGCMLWGFRRAM
+FANEAGLGTAPIAFSAVKTSKPVAQAFIAMLQPFVDTVIVGAATAFIIVVTGSYLNATGI
+EGIELTSRAFATVCPFFPVLLTFMAACFVLSTMLCGSYYGTKSWTFLFGESKATTRTFQV
+IYCLFIIIGSAMNLKSVVNLSDAFTLFLAVPNLIAVFLLSDIIIKELKRYCRRYNIGYFK
+NLK
+>tr|R7MAH7|R7MAH7_9CLOT
+MLDKILQIEKKYKELGETLSDPAVIQDYNKFRDLSKQRKAMEETVNLYYEWKETTEAIED
+AKQMLHEEKDEDMRSFLKSEIETNEAKIPAYEEKMKVLLLPRDPMDDKDIMLEIRGGAGG
+DEANIFAGDLMRMYLRYADKMGWQTQILSKTDCEAGGVSEVIISMKGDSIYSRLKYESGV
+HRVQRVPATESQGRVHTSTATVAVMPQVDDVEVNLNMNDVEITTARSGGAGGQNVNKVET
+AARVFHKPTGIMIFCTEERSQLQNKERALEILKAKLYDMEVQKQTKEITDLRRSQVGSGD
+RSERIRTYNFPQGRLTDHRLNHNLNVWTVIDGELDELIDLLTEYDQKLKLEKLAQEQ
+>tr|R7MDA4|R7MDA4_9CLOT
+MRFLLKKAPDNFIKSVNDEISSILNRHFDNYYPDYGYEEDMDKLSMPVEVTDKDKEYDIR
+AELPGVKKEDLDIDVEKNYITIRAKKEEEKKEDNKFFKKSEFKYGEFARSVYLPQEINIE
+KTEAKLEHGVLKIEAPKLYETKDSVKKLTVK
+>tr|R7MHU3|R7MHU3_9CLOT
+MLNTGAGGLNISGAAKNNKTATVTNKAGDLTIGGTFVNGGDATFTNDGNQFNISGTVTNK
+LTDAEKEFGTINMVNNGEGGFVIENSGNVNAESSNLSITNNAGNLDINGSVKNDGGKNLT
+NKTEILNDGKTLNIGKTGKVNTSGSLAITNNGEGGMNIDGSVNNDNSATTANDKIAFKDA
+NNTTITNTAGTLKVDGNVSSNTSELTMTNEGKTFEINGNISGTNNNVNLINKNGALDLNS
+SGRVNSTDDINITNSGKGTLVKAE
+>tr|R7MHL7|R7MHL7_9CLOT
+MGMSAGQGRLLAITARLTSNEYESQQISNAKMRLSTQSEEASSEYIAALNTKQLQYVTYD
+AKGNQNTQKLSVGAMYQYSDMKNQYIVANAAGQALISGEDADKFQNANNLDEFLQSYGLK
+KQWKSKTLEANYNKLQSEEFKAVKEAWDAEKAKYSEAIYDETTGFMYTAPEYDKDKNIIS
+YQDKDGNKYSYAGDDDKGNRLYTFKDKTINSGNFISSDQQWANEKSAASDAYAKAMADYT
+EAQEKSANGLDVDMGTYLTITSNAKAKYTSCITKDNWLSSRASYAYEGYVTNTTEDGSTE
+MSYSYDFNKVSDVCKDMEKYDMVIAEFNAEAADYGTNMEDLYEYDDKAKAQWYTNLWYRL
+NGSSTDKTKQGEIGQNYSKIDSKLLSSTTWLQDAILQGAVTVELAATDSPSSKINESDPT
+VTDLTGISWNSTIYTSCSDLTQSDDDQAIARAEAEYERKTKEISDKDQKYQNKIKILETE
+HSALQTEYESVQSAMNKNIERSFKVFS
+>tr|R7MFW9|R7MFW9_9CLOT
+MAVANLKKIDSKLKDLYKDQVTNAVPAAPQEPFVDKSDLLFMQMNFXXXCK
+>tr|R7MB96|R7MB96_9CLOT
+MARIDSFKHALEEKRAVKVIAGIDNFDIENIKKVVSSAEKSHASAVDICAREDIIREVRS
+MTDLPLFVSSIVPSELVRAVELGADAIELGNFDVLYKKGTSFSAQDVLRLARETKDMLGN
+REVFFSVTIPGEISTSDQIELAEKLEAMGIDLIQTEGHYTSEVELSGARALMDRAELTIS
+NTIELARNVEMPFRTATGINPTTAPFAFAAGASAIGCVQLVVVLVSIN
+>tr|R7MCW4|R7MCW4_9CLOT
+MLTKNSNITANFSGIDFSKYSSKVSEFVQEFSSRANKQGQFLNWVNLPSEQAKRVDEIYS
+LAERLQSQTGASKLSVMGIGGSKHTVEHMLSINGLNIKGDKIEFYSDVDSASLERFLYKL
+ENNVLDSNFLIASKSGSTFETKDGFLRVLAMLIDAYKAQGKSQEEAEKLAHKHFIAVTDK
+NAEKSELRRTSNEQGWLGDLFIHDDVGGRFSAFDDHALFTLAYAGMKKEDMIAMLNAAQE
+ISTESLTADLDVNDALKEGIFWADAKLNGIITSVHQYMGSIFENTVYWNAQMQNESVKDT
+LKQIAKVPDAMHHSAEAHFNPANKFAFALTVPQDNGVCRENAESYIAALTKSYEVTGNLF
+VETVKTQGMGLTPAAAGALTQLRAFATVYQEIVEKIMEGKEFPEVLDSVLQPHVEFYKKN
+LKGGVVVPGRISK
+>tr|R7MJP1|R7MJP1_9CLOT
+MDRNLVKIQGFDVDSFTFEQAVDWAYSKHGQIVTINPEMISAAQKNPDFAEIINSAELVV
+ADGIGVEIGLKILGYKVKRIAGIDLGKALVEKFTASGKSVAMIGAKPRVVDSAIENLSKE
+YKNLNVVYSHDGYFDNDEDIIESVISANPDLILVALGSPKQEFFIHNLKEKLPNSTLIGL
+GGSFDVWAGVVERAPKIYQKLGLEWLYRTLKEPKRFKRIFPTLPLFVLKVLKERFSK
+>tr|R7MGY5|R7MGY5_9CLOT
+MKTNIVSQTSMTGKSYTSVISKKRLVEDFANKSMEQFSEHGITLKAEELVKKVGYLIGED
+WTKLRKSGNPMDTLVYRVADNDNFVTIKPVYHQFKNSILMEIEDNNNHIDRILINRQKPS
+DYTYERAVITPYGSASGKTYNSQKDNDSKIETRVNDYITKYFDKLLTNDDGTSKLSKKYH
+R
+>tr|R7MBD5|R7MBD5_9CLOT
+MNQQDLIKKCKINKDAIDTRPFKDEYSSTVVMRHKSNNKWFGLIFTMDNELCINLKCPPD
+LIPILKDQFTSVKPAWHMNKKHWCTIEVNNIPPETLSELIKISFEITAPKKKR
+>tr|R7MF76|R7MF76_9CLOT
+MAEELDNTIEIIDDDGTTIKCELYDIVEFDGKQYAVLAEKDSEDEEPELVLMRYTEEGEE
+SYFETIDDDDEFERVSEYIENLDTEDEDEE
+>tr|R7MGP3|R7MGP3_9CLOT
+MEELEPKRVIALMSGTSCDSIDAGLCEVFPDMSVKLIKGINYKYPPHIKSKIFQIFRGEA
+SVKDICMMNFAIGKCFADASKVLIEEFGKPDFISSHGQTIYHYPFDEKIDDVSLKSTLQI
+GESSVISQETGCMTISNFREADIAQGGQGAPLVCFADEKWFKRRGKNFAIQNIGGISNVT
+VVSKDFETFGXX
+>tr|R7MF18|R7MF18_9CLOT
+MTWRGFRVLLITLFLIALTCKACLVKDVPPKKKTFTQEQSQLTTIKYPSPKNVTIKGTDY
+LESQAPIGTFGGELVSSTIGEGPKTFNPFNCKDNISALMSGIMYDGLLSSDPMTGQPTPK
+LAKSFSISSDGTTYTIKLRHGIKWSDGKPITADDVVFTWNDIIFAGLGDTSTRDSIVIDN
+KLPTVRKIDNYTVEFITPKPFAPFVRMLSTPIAPKHIFMPAVKKGNTYFDSFLSTNTKPK
+DFVVSGAFKLKEYVPAQRVVFERNPNYYEINTKQQKLPYLDKLVYLIVGDLNNEVLKFEA
+KELDVISLQGSKVARYKSLEPHSDFKLYNLGPDTGTMYLSMNLNNRKDNKGKYYVNTDKQ
+TWFQDLNFRTAVDYAIDRKNMVLNIANGIGAPLFTPESLNSIYLNKNLKPYDKNLDKSKE
+LLKKSGFYLDKKGKLFDKHGHRVEFDLYTNAGNTEREAIGVMVKQDLEDLGMKVNFKPIE
+FNSLVNKLVSTYDWDMVIMGLTGSPLEPNGGKNVWLSDGRLHMFNQRNPQEGKAKILPWE
+KELDYLYTQGALATKFEDRKKYYDKYQEIVYKEKPMIYIYSPIRIVALRNKFKNIYPSSL
+GGITHNIEEIYIGE
+>tr|R7MC26|R7MC26_9CLOT
+MGVHKYFLGSYFLTIFGVITAYLWGEHVHSGAGLVSVFIVMILAILETSLSFDNAVVNAM
+KLEHMSEAWRHRFLTWGIAIAVFGMRFLFPILVVAIFAKLDMLTVTNIALTDPDKYAHYL
+HLTHAPIVTFGGLFLIMLFLNYFFNHEKTVHWITPVEAPLSHLDHIKGIEIIISLAIVMV
+LQSFMPPEIRHSVTLSGIAGIITFLAIDGVAHYLEKHEEMRVAKCAADAVKCTGLISFIY
+LELIDASFSLDGVLGAFALSNDVIIITIGLAIGAMFVRSLTIMLVETKTLAKFKYLEHGA
+HWAIGALAIIMLITTVKEIPEVVTGLIGLVFIVAALVSSIIENKKEKQI
+>tr|R7MF86|R7MF86_9CLOT
+MIIPAPEDVAFNFFSIPIYWYGITMASAIFVAILCANYLFNKINPNLKKDTILEYAPALI
+ISGILCARLYFCLLNATHYLNNPLEILDIREGGLSIHGAIIGGVASMIFISKKSKTPLLS
+IIDAISCSTILGQAIGRWGNYFNSEAYGIPVASQNWGLFIPEAKRITQYANYSLFHPTFL
+YESVLDLVAFFILTIIYTKLGKKYKGMTFFAYLTIYSIIRFFIEQLRVDSAMNIATVPIA
+EIVSVLLFAIGIVGILSVLIKQKRTNV
+>tr|R7MEF2|R7MEF2_9CLOT
+MTESDKEIILNSSDAGDDIQKSIVVPIDEDMDTVKSDAPNTVDELAMELATIKQSAKKIA
+IIGSRNLPITHQQMIETLATALVMQGNTIITSGGSSGTNAAAIRGAMKANPDKLSVVLPQ
+TIGQQPSDVQDQLIGVPNIIEHADRAMMTLADASRICNREIIDECNQLICFLSHTSKTLH
+NAVQYAEEGHKVITVFYLD
+>tr|R7MIA3|R7MIA3_9CLOT
+MFDEILDVSAQIIKEGIGYIFPTLVTDTIENINKQVEVIKLAAKQQTSDMAKICGVHLEG
+IFLNPDKKGIHDANLFLNPTVENLKKVESDFIKIITLAPELAEPEAFEYLKNKGVKVQAG
+HCVGGNLDGCNATTHTFNGMKGVVHRGKSTALSALINDNIYTEVIADGVHVSDDALNLLF
+KVKPMNKILLVSDCLSCTHSQIKEFDFAGSKIYFDGHQATSKDGTIAGSTKLLPDIVKIL
+AKKDLFNKQYVANSYDYHSLPDRGEVEWDEDYNIVKVSY
+>tr|R7MFG8|R7MFG8_9CLOT
+MAKVLVTMPDEFLNKVDGLADSECCSRSELIREALRNYMRRVSKQQLKNASRNAEILEDI
+LG
+>tr|R7MJI2|R7MJI2_9CLOT
+MVSTSGQAFGTMVKPSRKSRVAKEFKYLENHDKRMRFNNSQDPIYYVFDCIENRPIPVLA
+KEFVKDSFFEAINFVSKVVG
+>tr|R7MET5|R7MET5_9CLOT
+MVENLEELSFDIPDGVLDEIQQNIEHIIQTFDVPEENKLEVIKQINFMYSRTKYLSQTDE
+LTGLSNRRCFDNTYEKEFLRAKRYNNKLTVVIFDIDYFKSVNDTYGHQCGDYILKQVANS
+ALQTFRKTDTVFRYGGEEFVVILTETDIEQSIIPLERFRKTIETLDLEYQGQKVNITVSI
+GACQLNEETSTKEELLEKADTALYKAKNCGRNQVILNKAL
+>tr|R7M900|R7M900_9CLOT
+MIWAIFNGAWRDIWPVFLIQVLFFIVGQFFLGFVFGILFFLLEIYIGKKGNEWAYYGTKK
+WKDLEHFRKVQRNWVGASIAASIILNFSLTFIVMLFGMSLAANPAFKVRKKAQAKQAKKL
+EKSSEYPTISVSKDINYSFSTIKLETLDYLKSRSEIKDYFDGKKLVIYFTGADCPYAQVF
+EKALEPIKNSSTMSSVFNFYAAEASGMKTFSSQEDAQADIDFNNSCHEFCVINTKNGQMF
+AIDGVGETEASTVGLILFQLANW
+>tr|R7MF55|R7MF55_9CLOT
+MKKFVVFIFTCFLLAESAFAGNTYDNYGYKTGSFKTNGDTTTIYNRYGSRTETYKTNGDT
+TIKYDKYGSKQEVIKKTSSGYNTYDKYGSKTGSFKIDSNGRTTSYDKYGKKTGSYKTGSN
+GKTTQYDRYGRKVRIFK
+>tr|R7MGB0|R7MGB0_9CLOT
+MGFKKLLKCINFGGNVQYMKSFVLIIISVLLGVPCFAKKAPEPVISTQGIEISQDVANSQ
+MTKSEKNEQKALQSRSKKYIKNNKNLKKQNLKKQKQERELEYLKSRLEVKRNKLETRFPN
+YVKGESK
+>tr|R7MA37|R7MA37_9CLOT
+MSKLDKYQKWLKDISDEVLGLTFSLDVWKQVIEIENNSKYFKKWGGHFQHWQNQNYTYRM
+VITLGKITDPCTRNKDDRNFIKLLEQLKIQNYISFDKFIKTYSLPPVEKPKRKIIEYIGE
+VAIYEMTRTIEDAQNDFEEITGCSYMEKDFSKMIDKDIEEIKQIFNKIKKLRHKKLAHMT
+DTTVRKVPTYEDIEKSIEQLQVLVKKYYLILFNTHQTFHYYDLNVKTVFEEAWIKNT
+>tr|R7MAS7|R7MAS7_9CLOT
+MFRETLDLYVKRILDFLIYTKNYFIRKNPIQVMTTSIIEGLKDFLTVKKKLKMAQYRLNY
+HRHXXLS
+>tr|R7MG45|R7MG45_9CLOT
+MRKLIIFSICFIFLLGLGFVPRNLYAEILTGSVTAVPDVFFGTWRVVSKLVDTDSVIFKE
+NNLDLWNLSRIGDVITLCNPFNGAEANITVNSVNGSYIVFRKTGKYSGKDLTDVVEIKLN
+GDSFSGTDTLKLDTYSDVTGKIIKTETAKYSIKGEKISGEVGSLK
+>tr|R7MDL3|R7MDL3_9CLOT
+MRIPPIIPKQTAITTVKAIRKGKNIVKEVVRQTEIMAMDERLKNKAMSTIMMATSLMPQM
+NTRLAKFSTIANEGHDVFVKRVPEKASAAITKRIVSKNVKIKAETSKPKYHEAFNNLLLN
+NDKHKNPLNNKAVIFDKKAKEYGVDPYVLIGIAMHESARGTSDATKLRHNIGGIMKKDGL
+KRFASFDQCIDEMAQTVQKHHHKSRLRTVKELAESGYCGENEKEEWITNVMGYIRDLRNN
+AGKIKS
+>tr|R7MBG4|R7MBG4_9CLOT
+MIYPKSIATLIEQFQKFPSVGPKSAQRMAFHLLRMPMPEVENFAKAIIDAKQNTHTCEIC
+FNLSATSPCEICSSSQRDRSTICVIAETKDLIAIEKTNEFKGLYHVLQGLISPMDGIGAD
+DIRIKELLNRLTNDEVKEVILALSPSVEGEATSLYLTKLIKPFGIKVSRIAFGLPVGADL
+EYADEITIAKAIEGRHEI
+>tr|R7MFC2|R7MFC2_9CLOT
+MIYFFYGDEEFNISNKIKEFKSKLDKDFVEMSYKYFNNPKFPDLISAIKSQPMMFGKMLV
+EINCLGYLSGKSSDDKAFDDKQFKQLAEALDCSSENVDVVFTAQIPPDSQKKIDKRKKIF
+KLLSKYNAQEFNQIPSYKTAELEGWIKQQAKSKDLKISDEVAGAILFQVGSNLRMLDSEL
+EKLKIYAGKSPVTKEMIKEICVTNEDLFVFIDYLVEGNKSKALLEYQKLLAKKHPLEILS
+VLHTLLHGRIQIKAYSAKHSPDEIAKIINMHPFRVKMEIQKLKNISLKDLVKLKKNLTDA
+EYKIKSGQSNLDIDKEIEYAILQ
+>tr|R7MJW9|R7MJW9_9CLOT
+MSFVPVVIEQSSRGERSFDIFSRLLRERIIFLGTAIDDMVANLVVAQLLLLDSENPEKDI
+MLYINSPGGSVTAGFAIYDTMQHIRADVSTICLGQAASMGAFLLSSGTKGKRMALPHSRV
+LIHQPLGGAQGQATDIEIQAAEIIRIKKSLNEILASNTGQSLKKIEKDTDRDYIMTPQEA
+LEYGMIDKVISRDAIK
+>tr|R7MF52|R7MF52_9CLOT
+MADQIIVTVSGVDKVGIVAEVTAVLAKNEVNIEDIKQTLMQGHFVMFMLCDIEKSTYTFK
+EIKEALIACGKNMGMEVWVQKKEIFDNMHKI
+>tr|R7MIX2|R7MIX2_9CLOT
+MKKFKIITLALIISLGTGLTINKVCSQTTTPTIVRAAVPQQQAPVEYVSVNPLDVVANPY
+RYLRRNIKIKAKFDKFSTLGLDYSPAMRSSEKYISFLIQRPDMTSHDIPLSELKIFLKKE
+VAEKNIDLDAGDEIEFTGKVFSTALGDPWMDVDSFKVLTVKKPKKESAEN
+>tr|R7MFD9|R7MFD9_9CLOT
+MTKSNKSEHSHYMNGLIVKSGYNIDSEKGFYLVNMDGVSALVGRIKDDIFILKKFNYVVD
+KPLQVRQDYGSVYIVKAGGFKCLVDVAKDKMGTLIEI
+>tr|R7MDT6|R7MDT6_9CLOT
+MIETYEKICKNLEDTKDLAKKFAKLVEEKGCFVNLYGEIGAGKTAFVKEVAKEIGIEEKV
+TSPTFVILNEYHGGKLPMYHFDLYRLENEGVKTIMDELREYSEGKQLTFVEWAEFSQNEF
+PFNHIKINVTYEDNDDRKYTFTGYGKDCIEIIKGLEK
+>tr|R7MBA7|R7MBA7_9CLOT
+MRRTLEGTKRKRQNVSGFRARMSTPGGREVINRRRARGRHKLSITAKKRA
+>tr|R7MHL0|R7MHL0_9CLOT
+MTYKNEKIGAFIVPTGIGASIGGYAGDASCQAREFAKHTKLIVNPNVVNAACFSGITENM
+LYTEGYTLDSFFKGEINLLPSNNNKIGIIYDKAIPQDVLNVHINTQNAVKTIYGINIAEY
+IITDEEVGVEFYIAEGGVSVGDVKNIETLGRACKKLLEKGCESIAIVCLFEDSDEDNENY
+ADGVGVDPVGGVEAILSHYISKHFKVPCAHAPAFVDYSIKPDIVNPKASAEYITPTFLPC
+ILLGLSNAPKITTNDNQGLNISDLDFLVMPWNSLGSTPVFESLERNIPVYAIKENNTELN
+ISKNNILKRSNIIEVETYEKALNLILES
+>tr|R7MG22|R7MG22_9CLOT
+MKRCFWVDEKSEIYTKYHDEEWGIPKYDDRELFELLVLESFQAGLSWITVLKKREAFRIA
+FDNFDVKKVSNYGENKIEELLQNPQIIRSKGKINAAINNAKIFIEIQKEFGSFSNYIWNF
+TDGKVIKNTSGETIVSSPLSDKISIDLKKRGMKYVGTVIIYSYLQAIGVLDDHDKDCFKY
+>tr|R7MK89|R7MK89_9CLOT
+MNKNYIPLYRKYRPQTIEQIVGQEHIKKALTNAIQMDRISHAYLFTGPRGTGKTSTARIF
+AKSLNCVNGPTITPCNECENCKNITNSIPIDVIEIDAASNRSVNDADEIIQKVALAPVNS
+RYKIYIIDEVHMLTNQAFNALLKTLEEPPKNVIFILATTEVHKVLDTIKSRCQRFDFKRI
+TTEDISKHLRYISDKEGINITDDALSYIAQNSAGGMRDSIALLDQLSVLNSSETAIDVDD
+INRLLGRLSFDSLTTLFGMISTSNQNGALDILNSIYNQGNEPSQILSNFLEYLRNALILK
+SIGKNSVQGVVQLNEEQVKKLTSQIENLETHQILSLIDKCAMYIKELKQTPNPKLWLDVA
+ILDMANLAENTKLEDLQKRISVLESGAPVRPINVSAYNTPPSPVMKQEVIKPRVSMETPK
+SEPQAPKVATVSEEEVLNQPVPMSKPASTAGNGLKALWVQFLENISSSPSRSILKQQAMP
+VKITKDEIIISVKSPNWLKQYGHEGSKHSLIVDAANTLFGCEVKKIIVRSPESGDDAIRA
+EQSSAEDEKPAPAPKKPLIVEKPEVSNNEVKEILEKKVSTQAPAVLNKVAQPVQTGVPQK
+QPQQPVQVHKIPNGDSSYHSDSVNMVMDLFEGKFIE
+>tr|R7MI54|R7MI54_9CLOT
+MELKGSKTEKNLMEAFAGESQARNKYTYFASKAKKEGYVQIGKIFEETANNEKEHAKIWF
+KLLQGGSIGTTSENLKAAAEGENYEWTDMYARFAQEAKEEGFNDIACLFEAVAKIEKEHE
+TRYKKLLESVMSDKVFERENEIAWECSNCGHIHYGVKAPELCPVCRHPKAYFAQQSKNY
+>tr|R7MI61|R7MI61_9CLOT
+MQSLNEILTELENVDNTTKNKVENELVSIGEAVVPELVNKLQVVRGIKRGVVAMTLIRLG
+DASVKYLEKAAHDNKDFEWVAEYLIREIKGMAA
+>tr|R7MKQ5|R7MKQ5_9CLOT
+MPSSISLEIVRFLFSNDLKSFTKVTCGRFKKFAIFGPVCAVSPSTANCPHTIKSKSGNAV
+RIALEIVKPVA
+>tr|R7MH19|R7MH19_9CLOT
+MRRFNLFYIAVMCSFLISQNLFLASNSAPLTMDQKGYVGTLPNLTRNYEPEKPAKKEPEV
+RPAKDFNSENEMKPVPRDNPAFVNIILKADKTSQYVNDLNEFIPMLESISDMIDNGANVQ
+VFNAKVYYFNKNAEYFRDKYAQKPESHFVSYKKLMDVNTHSHSIAVLRNEAEKYNPYMAY
+GSEGYIYNPNNIQEQLGYLKTEIEQTILILKESN
+>tr|R7MKW1|R7MKW1_9CLOT
+MSILGKYTENINNRDNKTLGTKSNDYVMPAVTREDTESISLKKGITLSAIIHPATLFTLW
+IILTILAIFGIHLTLMPKEKPKVNDIEFVLVDKEQTPKNKNTKYRADRNSRTGGINDPKK
+PVSMPSSKPAAKPAASSPASSPAPAPKKQSLMNKITQSVVPKHTQTTPKATTTQKNVTPS
+PAVTKAVPKPTVARPQPPTARPSIKPPMTPKAVSRPSSTPFKVPVPAGGTRAGQYATGPI
+SGSGTSKKGGSRGSGTYSPNPSLAPVGGGSGNRIASGSGHGTGRGTGSGTGSGYGRGTGS
+GGGNPGGGGGRPGIDAVREPDFGPYMRELQRRIKMNWDPPKGNESKRVVLLFKIAKDGRL
+LSCSVFKSSGLQNADKAALNAVHLAAPFRPLPPEYKGQSIDIQFTFDYNVFGATKY
+>tr|R7MEC4|R7MEC4_9CLOT
+MNIQSVGLYSLFSTQNPQLRRDNCVHVPMNKKILQCDTVTFTSVAKSEPLKKLLKFGIPD
+FYSDIVLVDTKDLELLLEHKVFSKPIRNIVRILKPYEKSLFPIEKQVYRLMKRTARTNPK
+MYLDEFLHKLVPHHSKILLEQQRPVFEKLSTLALQMPKEQIVQYNKLIDVTNKKLLNEPV
+IVPFSKKELLYKLKRIKERIAQKDNFKEVSDIEKIIKKVEFFEDDMGKAKKPTNKELKQF
+YKTFIYFENSSLQKDKDMVDLFNATKARLHRVPFEEKFKRKGFIHDLEKIVGQLQDTKLA
+HKMIQTARELPTSKNSLSAFVVKEANRSSSQIGYDLLADSVGSADHLVAAKAGGDSDIYN
+YVLASRRYNSERAHSKLSTIIEKDPNVRVYSQNQIDRLIELANSGIFKMCELSSSYILSV
+ARRIKKLSPSNDPLNLDTNKLKY
+>tr|R7MF72|R7MF72_9CLOT
+MFHFLRYNQYMNDILNKIKGTVVVSVQAMPSEPLYQEECINAMMKSVVTGGAGALRVAGA
+RDVKNAKKLFNIPVIGLTKPNVIPQNWKEIVYITPTIKEVIELVNAGADIIATDGTQRKR
+PNGEKLTDLIKYIHINKKLAMADIATLEDGLKAKEAGADILSTTLAGYTLESANSPANEP
+DFELLKQLVEQTNLPVVLEGRIWEPEQVDKAFELRAHCVVIGSAITRPQLITKRFVFRKT
+K
+>tr|R7MIK0|R7MIK0_9CLOT
+MKNYTTADSQSKVAQNYVAAADIMVEFNNLNKAYTLLSKAQKHARQTENINLMNDINTKM
+RQLSALNVK
+>tr|R7MBD4|R7MBD4_9CLOT
+MKKKILTSLLLIGLMASGISILAPASYAAQKLTRKQKKENQYLETALSAFEMKQYDTAIE
+YYTKAIELNPTNSESYAKRANAKYLLGNYKDAVKDYTSALEIDPNQENIYYNRGIANTNL
+KAYDDVIADYTKELEVNPKNINAYLNRGTTKVMLNKFDEAISDFSKAIELDAKNEMAYYN
+RGIAKRCNKDYKGALADYSKVIELDSKSADAYNNRGVAKYYLKDYSGAIADYTKVVELNK
+NFKRVYYNRGLANLGLSKFEDAILDFTKEIEQNSKNDQAYYDRGLAEAKLSHYNSAIDDY
+SKAIELNPKNADYYADRGELLYRSGGDLKKAEQDLTKAIELDSTDAEKYLTRAMIFCKLK
+MYLVAIDDLNIAIKINPKNTEAYDLRSYAIKSLSGQGK
+>tr|R7MDC6|R7MDC6_9CLOT
+MKNKRNGDITLSQTVLIVGIVGLILFALIMVPFYKSSKQKIAVVKYQKTFAQLQQANRMY
+SLVSGESMNKYNTNLPINEFAETYFTPYLQISEYCKGKQDSCWNTPQYKDLKNTKKFDVS
+LYSIILENNGTIGFHKNRQGLITMIFDTNGKAGENKLGKDVFVYSFYDNENHPKLCDEKV
+DQEKSISNGIHFGGYDKCGIPQDTYEYNELISKNFFDGCNKKASTDALGLGVGAGCGALL
+RKNNWDVDRNYP
+>tr|R7MC31|R7MC31_9CLOT
+MKDNPPALPIIMFGGSPINVAVPPILDEKISVNKNGIGSISSFLAIAKVIGIIKITVVTL
+SKKALVTAVNKPKAQRTFTG
+>tr|R7MKD2|R7MKD2_9CLOT
+MIIKKHRKKSAEEGAEQVVPQQNQEEVEVQQEKEIDLFDLDNIDFKQRQERRRGDRRRGF
+RRIDDRNLISRAKEEANSIREAAAKEGYEEGINAAKQDIDNLKESMEDFFNAKQDVYDEI
+APDILEISLDIAKKIIKKEMKESPEILLDNIKDILKGLSKEESKIVLRVNPAQVAMLKQE
+MPEAVSMAGLEAKVIIVPDENTMEGGCMVTTDNGVIDATIETQLAIISEALKEV
+>tr|R7MB08|R7MB08_9CLOT
+MIVYSQDGTAGSGRRFTAKAIAGETHIPYMEINTMDFGTKDVDIFGGGALSPEASIKKLF
+SIVRTQAESSPHKAAVLFIENFE
+>tr|R7MAG7|R7MAG7_9CLOT
+MNIKTCNVKRGLCNCFFCLYDIFSSMGQDYKKLLNKKKRKYCDIKTMGVNIDKNEYYEII
+LSNSAHPEKFDKK
+>tr|R7MG93|R7MG93_9CLOT
+MNIDKKLYTLKYSPDTESHLKPDKEKCKTCKTRNCTYICPAKVYEWNDENQELIINYENC
+LECGACRIACEKKAIDWQYPKGTKGVTFKQG
+>tr|R7MDI7|R7MDI7_9CLOT
+MFGVILAGGLGSRLWPLSRELYPKQLLTLNTNKSLLQTTFERLNKFIPAKKIISVTNSKH
+HSNIKMQLSKLSEETVILAEPISKNTAPAIALSVKYIVENFEDDDVILVVPSDLQINDSE
+KFIQTMQSAEHFAKEGHIVTFGVKPNYPETGFGYICTKEEKVVNFVEKPDKQTAEKYIQD
+GNYFWNSGIFMFKASTIIEEIKKYCPEIDTVIQKIDFSEKSISFTEFDKMPNISIDYAVM
+EKSSNIVMVELQSDWKDLGSWKSIYEISPKDENNNVFVGHVLDKDSKNSLVYSSSKLVAT
+IGLEDTVIVETEDAILACKKDKTEEVKQVYETLKQQHDGTQKVHKTVYRPWGFYTVIAEG
+KGFQTKIIHVNPGQKLSVQSHNYRSEHWVVLSGMAKVVLEGKDRILSPGHSIDIAVKAIH
+SLQNPYEEDLEIIEIQKGDILSEDDIIRYEDIYGRV
+>tr|R7MAV8|R7MAV8_9CLOT
+MTQQSTYKVKLVANDKIIEYLKSKDTVFEMLFNKYGYARLERNANIFESIVSNIIGQQLS
+NKVKQVIYNRFISLVKTVTPENILNTDKELIRQCGISYSKISYIKELSENVLSGKYDFNN
+LNKLNDEDLIKELCKIKGVGKWTAEMLALFSLGRENIISYDDVALRNGIIKAKGYKSLSK
+QRFEQLKKKYSPYCSIASLYFYAHNDNELRWK
+>tr|R7MGW2|R7MGW2_9CLOT
+MQRNFLEQFLTKISHFPNWVKEIIYMKLSEDIDNDDDMAFIFATYKPVLTYKGKCELDYK
+KSNFDANIYNILNFADADSSISDIVLNTYMSMEEIANYFLFCVDEGYMQIPDDSRILNIA
+GLLAGKYSTGEYFVNNGTISTEQLNDAVGNFKNEKTPKKFGQFLVDLGLISQKQFDKILS
+LKEEAKKRFVLDHNEVPKINQEYAKIADKYEKQIEDLKKENLMLKNKLNQLLAMVKNNDN
+E
+>tr|R7MA78|R7MA78_9CLOT
+MARSLKKGAYVEEALQKKIDKMNANSEKKVIKTWSRASMIVPDMLNHTIAVHNGKTHVPV
+YITEQMVGHKLGEFAPTRLFKGHAGSDKTAKRS
+>tr|R7MGG5|R7MGG5_9CLOT
+MKLLKIFLGLLMVILVANPVHAVGDISIDKNDGVYHIILSGEKVKKRIKFVASEDLMTNR
+EAHIKGNATLTVNAGFFDPKNGKTISYIVTDKMTAADPMFNNALLANPFFRKNMNMILNR
+SEFRVMQCGNKFQYDIVSHKANVPFGCSLITSAQGGPLILPELHLEEEGFIVKNAEGNVI
+RESASVLHKTSRTIIGLKGLNECHILIFTDDNPVDMYEVQQYCKELGLDRAMAFDGGSST
+SMNYKRNIEVVSVKGDGAGRMLKSFMLVY
+>tr|R7M9Y7|R7M9Y7_9CLOT
+MKGKEAVITQLCEKYNVDVALALSIIGQESGFGTSNLAQHNNFMGYRAAGDAGKSSKGFG
+YFSTPEKGLEAAIRNLSKYPEKYASKGVKKADMNNIDAIAKIYCEGSSYSSAIKNIYDKT
+VKSYLA
+>tr|R7MGN7|R7MGN7_9CLOT
+MKSGFVAIIGRPNVGKSTLLNQILGQKIVITTDKAQTTRKRIKGIYTNKEGQIVFVDTPG
+VHKPLNKLGEFLLDEAKIAVPDADVILFLVDGSESAGKGDKWIAQHLLQTKIPIVIVMNK
+VDKVKKPEKVEENLLSYKTLFEENLPVVRISAKTGRNIDTLMNNIFKKLPEGEALYPEDV
+VTEETMRDVTEEIIREKILLNTSDEIPHSVAVKVTNYQEKEEIDKIYATIYCEQKSQKGI
+LIGKGGSLLKKIGTEARLELEKIVEKKVYLQLEVKVEKDWRKKQNILKNFGYQQED
+>tr|R7MB77|R7MB77_9CLOT
+MANLEEIIKVNTEEIQADLVLKNAKLVNVLSEEIYETDIAIKDGKVAGISKGYKGKKEID
+LKGAYASPSFIDGHVHIESGMLLPSEFAKLVIPSGTTTVVADPHEIANVMGLQGISFMRE
+ATKDLPLDVYIMLPSCVPATRLETSGVDLNCYDLALLIDAPWVLGIAEMMNFPGVINCDK
+EVLSKIKLGLDKQKRVDGHAPGLSGKGLNAYVASGIASDHECTTSQEAIEKIRLGMYIMI
+REATGARDLEPLIPVLKEYNTRKCIFVTDDRHPKHLKKHISNMVEKAVEMGVDPIKAIQM
+ASLNTAEYFKIPNAGAIAPGYNADIAIFKDLKNFEPTMVFKKGELVAQNGKMTIDMTEFQ
+PPELRGSVNVKPIKKKDFQIKIPKGKSKIKVINVIPKQLITKLSIEKIHEENGYATADTQ
+NDILKIAVIERHKASGNIGLGFVKGFGLKTGAIASTIAHDSHNMIVIGTNDDDMYYAANQ
+LVKSQGGKIIVENGKTLAQLKLPIAGLMSEEPAEIVMEKLQTLEKTASDIGCKINDPFMS
+MAFLSLSVIPEIKITDKGLIDVGKFEVTNLFE
+>tr|R7MHK3|R7MHK3_9CLOT
+MRITPIQSTNIYPSSYNQGKTNKTQNTQALQSQYMSQIQNFGYGKDLVNRPNISFKGNEV
+QKAAKLLLEQVPFEDKLASLFQNLKIGDIIVTGANFNESQKALSKWLNKISFAIKKEIFM
+QEKSLKNNFAFFKNTLGDIEVLNINDKKMNLITGGKSYKLEAGDSFYIVNNDTLQYGSDT
+IHLKDKPQHDLWKMRSGFSTVHDFSKEVQDDLAKLNKKTVAKRILLAEKPVTQLNFSKIG
+GQDKAIEELKKGILYPVKYPAVYAPEDITRGFILHGPAGTGKTALCKALANEAGINCEYI
+SAPAFQQKYVGESEANVREFFDRLTKSQPSIGIIDEIDAVGATRGTGDHYDDKLIDQILT
+CMTDIYDNGDNVYILGLTNKYEGLDPALKRAERFSKHILVGEPDKDGVRQIFKIHTEGRP
+LDKDVNEEELVDKMHSIKTVGSDIKFITKLAKEEMMKRLGIYEKMEKGTFKDSDIENATI
+KHQDFLNAIEAFKTQHKSNNRNPIGFGK
+>tr|R7MGE8|R7MGE8_9CLOT
+MKLKTITKIFILSVVFIASSLSYVFAETLYFGSQTQFSRNVDYKFFENLSTCHPYATPTN
+INAPLGFPTGYYKTQIAGVSNNKCVVRNYRKNKASETWKLSEEFQLPIDYSKNLGLLITR
+EIKNPNERLTHLKKYCELNKRPSDACVNLQNGTDKNNYFYHINLGLAKYQTYPYTYSQQI
+PIQNKTFYTNK
+>tr|R7MJ11|R7MJ11_9CLOT
+MFNNYAKSELELMVGSNEKILWKGKPNKRCFILEGIFNPMLPFALAWFLFDSLFIATFIG
+GAATSGAPAVFSIFPLIFFLIHLMPVWIYLGGVIFVFRRYQHTEYIVTDKGVYISGGLFS
+YTCNMKPFTELARVNIHRGIIDQIIGVGDVVLTSNNIADYYNSDVRVNGRPVGTGFGITI
+SDIKDYRKVFELIKKLQEDIYTDTMYPNALRPEENPGYRTKYNGLN
+>tr|R7MHG1|R7MHG1_9CLOT
+MLNNFESFDNSETATKKDIVIQERVELVSSHMYKQFLDYQHATVNTNEIFARMVDCLELV
+SNNLKQSFSSRGVTTQNIYVDTDALKSVAMINILWHSISFTTRCNYKPQALFRDDGRHVF
+SNRIMAIRGNYNEIIKDAKDRDEEIVKLLENEIASLYVPADSSRKCVFKIKHTGQEFALN
+QIDAPREVVLKVVETVCGGGLYHQDGSLKSFIV
+>tr|R7MI77|R7MI77_9CLOT
+MLKDNFSLSLGERSKNPCDQSEIIRSSLTDLLQSNCLSLRKTNAFKKCAFTLAEVLITLG
+IIGVVAAMTIPTLMANIKAHQYSAKFKKTVSTLSNAAKMSQAQYGFDYSGLTDKCNAKSG
+TDNPEDKQSLCSLLNGTLTGATYYYGMNNFPNYEIKTSDTFNSWPSFKDNKNKIPIYQLS
+DGSIILFSAVLGEYSSIKEPCARYIGGDPGFIASGAYKGWGTGCYALIDVNGVSKPNKEV
+KCTRGTNKLSTMEAGNCIVESKDMGDIFPIIIYDGAASPYSAAAAYAFSNAK
+>tr|R7MFS3|R7MFS3_9CLOT
+MVDLITEKIGAVNSFVIPQRAENKTPKFQGDKNNSFEEKAKKIFPFGMITGGALLVYYGV
+KKPSGSAFLKKLAKDRISKISQSVQEFSTDVKQSIKEEFKGLNKSVQEYKKNRWIKPTEI
+LSDLEKSENIEDLIIAQDKGFDTIQQSINQCHRPGTTDFDSYMVEVLGVKKALADKLNLN
+RYHRDLSNGDLIHFPKFKNDKHKDLIATLSTEVDKNVKSASILMKQMQEEEFAQGVQKVA
+LKFSKIVTETRHLVSDTKFDLIDKAFPKVRKMLGLGDDFVPHYRKIATLQNYEKLSSEEL
+KPQNLPQDSEKIFANTIFENILKTQDFSTLDDKYIATLFARLPITTSVTDLGIMIDRLRI
+KGVVSQSKGLNEEKLYQNAIAKVEFLQNKLYNFGLNNYLEEAQADFSKLNPEQKRAKFAR
+INEIARKMGYNTIEQMDKVVLQKDSKYQRFALRKQIPEIKQHPEMYYF
+>tr|R7MHC6|R7MHC6_9CLOT
+MERIIKFLVVLSFVFSISCSQSFAVEQMNLSTLITAQNVKYETCTKVFNTDHVSLFHLAI
+AAINANRFTIDEIQSKSGYILFTAVNKQFLATVVNVNTNQGMLKITPVDNNYFFQPGIVL
+NVFKYIELNLNKKPEIVKFN
+>tr|R7MHI5|R7MHI5_9CLOT
+MTQNVKNQEAGSSQAQIRNVRIQKMGNLRERGLNPYPYGYDKDIMAQDLQDKYKDLAAGE
+EIEDCYHVAGRVMANRNTGMFIDLVDASGKIQIFSHKENLSEDDLKTLKSIDIGDIVGFY
+GSVRRTPRGELTIKAKSLKILSKSLLPLPEKFHGLTDVETKYRQRYVDMIVNDDVRQTFK
+KRSLIIQKVREYLTGLGFMEVETPMLHPQAGGANARPFITHHNTLDMDMYLRIAPELYLK
+RLMVGGVSEKIFEINRSFRNEGIDTRHNPEFTMMELYQAYVDYNDMMTLTENLVAYVAKE
+VLGTTKIQYGENEIDLTPPWDRKTMLGAVEEATGIDFNKIETVEEAKEAAKSVHVDADDC
+DKWGQVIERVFEEKIEPSLIQPIHIYDYPRDISPLAKVHRDNPRLTERFETRVNGWEISN
+AFSELTDPIDQRARFEAQMAAKAAGDEEAMPIDEDYICALEHGVPPMGGLGVGIDRLIML
+LTNSPSIRDVIAFPTLKKKD
+>tr|R7MGB4|R7MGB4_9CLOT
+MKYRLLEAQRKFLEIPHDYSLDVAVYQGGYGSGKTFAGSLLGILLALKFAGIRGLVGAQT
+YTLVRDTTLQSYYEHLDNMNFVEDVDYKWVSTEQKLVFRNGSEILFRHFEEPNKLKSLNL
+GFVEIEEMSDIPYDTFKMLLARMRQRISKKWKNFTYRIFGHTNPEMQRGWIYKTFFESSA
+PNYRVICAPTTQNIYLPEGFCSELKKLYDKGYYETFVLGKTGNYTQNLVVKDFSDENIRD
+VKYQENLDVHISCDFNVDPMAWVLAHKTADKVFYFDELVLENTTTSKTCDEFFRRYPNHK
+GRIIVNGDASGDNRSCTSEYTNYVIIKKRLESYGYDVEIKIKAFNPPIKNRIAAFNAKVR
+NANGDIGLYVSPKCEKLLYNIYNLKYVEGGSRIDVPSYSQIKQVRELKFLSHPFDAASYL
+VDFYWPIVL
+>tr|R7MHD6|R7MHD6_9CLOT
+MNKIILAFVVVIFSSCLSANAAGYCPSSQEVHNKSVSWMTRSTGASLDQLNALIKEQDSY
+MNNLLPNCLNYFKSTPNANCDRLSTVSAAYMMTPKDKQNLAKLQILTATAPHKARCQYQF
+QALQLMLK
+>tr|R7MIW0|R7MIW0_9CLOT
+MGSNILDSLGLGGGGIDVHITVSPACGLEMTVVDGHGGIKSYASVPLEYNEAQREIANYD
+EFKTGIETLFQMRNINPKKANVHLSLPTVWFGMKEGLPLLLDDSAITNIVIGDLENTYIF
+KRKDPIPFWFDALASTNSDSRSVFYTAIQADVVDTVKGIFTEMGSSLVSVSCSLFADLKA
+LYATGYATEQMNDDGNSWSLMIVNNSGYQMLGMQGKRILEYFEEPLPLKSYEGEEIYSEI
+ENAVQIALMSTPSTSLVIVSETDLVSAEVLSKKLQFGGTVIPVEDNQFRKEPLMEMSLNI
+IPEDQIKVSLHSIGECAPSEAFPISVDFLTAGGQKAAKVEVLEIPLGNGKFLSLTPQKAI
+IAAAILFVLILTPIGAAHMFVQNMNNKMLEKSADLDTQITDLDNQIKQYEAQNGEVQFDP
+LAEIEKVLKNNRLKIIAYAALGESIPKNLYLTYFMTGDDGMIDIKGCADSVEDVYVFFKN
+LKDSMVESKLRLSKLDLKSGSLDKIVTSTASTIDNAPYVFEITNMNDSQLKSFMDKLTSG
+PKKDGQNNDNNSNGGSDNSQDNNNSNNNQQNSSGDSNATPSDN
+>tr|R7MBU1|R7MBU1_9CLOT
+MLDSILAGLISWIEGVITHLGPAGISILMAIESCNIPLPSEAVLPFAGYLVSKGEMGFHA
+AAFAGAIGCVLGSLPSYYLGYFGGRKFFEKYGKYLLVSKKDLDEADKWVDKYGDWAFFLC
+RMLPVIRTFISLPAGILKARKRAFFSLTFLGSLIWSYVLVYVGVKLGEHIDKLKSIWHKF
+DAVIIIAVVILGGIYIYKHVKHLKES
+>tr|R7MDQ2|R7MDQ2_9CLOT
+MSKIRVSGGGDCGTNGGPNGDLFVVVRVESSDYYKRDGINVFSELEISPAQAVVGDNVTI
+KTLDGEKTIQIPAGAQHGNIVKIKGAGVPIITRPSQRGDHIVVLKVKVPTRLNEEEKMLY
+KKLYEIQTGKKPQKSIMSKVKGVFK
+>tr|R7MEW3|R7MEW3_9CLOT
+MKKLIIKWIIFALIIMGICYFPGLKVDSFWFAMLIAAVITLINIFIKPVVKLLTFPINLF
+TFGLFNLVINFAMLYGIAYFIPQFHMDNYLSGFFASIIIAISYCILKKI
+>tr|R7MI07|R7MI07_9CLOT
+MKIENNKSKNQNLYNEQVLINNVIEKYDYYEQNRTSQLSDNRLIRYAIYNSDIPKVNGWD
+ANIQLPEIYELAQTLKSHIVQNLYSHPDGMFDVAGVDAKTQSFANRQKAMLVNTFESMKI
+EDEMEKIVDSVVETGEVTLFVGWETKTKKVRRPLSIEEQIATGSTESFIVEDKVVYDNAK
+VKFINYEDFVFDKNGVDNWDKCSKIYRTYQTIDEINSNSSNNMLAPEKLEILKGVVAGKN
+CKNNSKNTDRKIEVLEFWGDINLPDGEVLKNKLLVVAGRSVIIRYEDNPFVINPFIHANI
+IECPDTGRGISPLRVALILNNISSTILNNQLDALALMMNPPYLAPKGCFKGQQDVSPGKI
+IEYDSALMTTTPTPLSFDKAMTGWDFLNYFKSTIESATGIFKNMSGNVQAYDRTATEINY
+SVYGQEARLNMILESINRKVIVPMVEKTAEIISNFRLGTESIPVLDNGLTCFIDVDDDVR
+GANYIYRYGDRKAIFERKSKLKELFEVVQSFAKVDEVASKINWLECFKFALEQYGIENAN
+NFLIQVEDKSIAK
+>tr|R7MKJ8|R7MKJ8_9CLOT
+MNLVNVCLSCDDNYSKYAGVVIASILDNLSEKSFANFYILDGNITKENKDKLLQLKQIKD
+CNIEFIQIDESKFEVYKQINTHKYLTLPAYYRLKLSELLPNVDKIIYLDCDIIVNSDITE
+LFNIQLGDNIIGGVLDARVKHKKKWKNTNYINSGMIVFNLAKIRENKIEDKFVEYTKQNT
+KTIETGDQDVINFVLKDKIQILPDDWNVQVSGFASRTSFTNKPKLIHYIGCDKPWVFASI
+TFFKDLYFKNLQLTPWALTEEEKQKWIIENKKASRKKFWKKRPLCFLHPKYLYAFYCSYI
+KK
+>tr|R7MI83|R7MI83_9CLOT
+MIKIRRLTYFDHPKLQKLISYLCTDDNDKLAKSLAEEPIGFLNAMLPLKLKFKSESFILI
+DKHEILGLITTVRTPGNPYKINITRLIFKDNMYEIGKGLVKYVMEKFGEKGATSFTVTID
+ECHDELFNLFINGCGFRQCASETLWKIEKPTPQKPHLHWRYAQNSDSKAIAQMYNDEVLN
+IYKPSLIRQPQEFQAPVFGGFCDYYKTRYLIEECEKILGYFSITTSDNLNYILDITTNSG
+YDFEYSEIINVMLCEIARKKRAFYPLVKQKKYIKNADKLGEYLKSQNYNPIQTQQILVKD
+YYKPVKEEASDWKVFILGENQITTN
+>tr|R7ME57|R7ME57_9CLOT
+MIIENPLSLDVVITFFLPFSKVVVVVVFSFLEGSSTSFSEITVSFVRIGLPSLSTPEYSV
+VVLSVSFSLTVFLVNSLAALYSSVIFPSFDCIVEV
+>tr|R7MB89|R7MB89_9CLOT
+MDTKISSGFSQNFSGKYQIDANQEMKTSEACLARDKAVGMMLALNDNDVNKASVEKLNGF
+LKNEYKANPSAPCKLDILVDDKYDKDFEKVMNTVGQKFSKVG
+>tr|R7MIA2|R7MIA2_9CLOT
+MATVLLFSDAVTSAYKDTSKALNEVELNDRKVVKKTLAQIMKQSFFHGANRFGTNFIA
+>tr|R7MEG4|R7MEG4_9CLOT
+MASVGSVSYAKNNPGVRQIVTTSKGEQIEIPVMMGSTTDVTPLKDGTYEVKYKPTIPNAQ
+WESKILTEDELVARYGKNTGNKLQTIA
+>tr|R7MG18|R7MG18_9CLOT
+MEKIIISLLLLTPFLAGCTNIDSQLTLNDDKSASIVTSLAYEGNLLNQADKVAQTVTNNY
+EKFLDPIYNVETVYSDKLSTITATKSVKNVQHVDLDLSSLGFKSNLPDGKFVEVKKNFLV
+TSFNIDLTYDYPAQVSKIQKVEQKVDAAKGTKGLQPEYLQKYGDASEIQQADVDAREDFS
+EHLDPSAKVLIKEDDADAVAETDNSKKDDKMNMSFSVKVPSFASYNNADSMNLNVYTWNI
+LRDKPTVIKLQYVQYSGFAIGFVIVLGIALLILLARKIKKHDAQRRIDNQII
+>tr|R7M8U9|R7M8U9_9CLOT
+MATKKYKVKNTNILHNGDLYKIGDVIELDDKQATKLQDVLTVVKETSTTNKNQNKTKTEN
+SEKSGGENGK
+>tr|R7MJ16|R7MJ16_9CLOT
+MEKNFIEIAKNAKQASLKIAELNTEIKNSALSKIADFFEAHKTEIFEANKRDLEEAEKLV
+ENGEITKATFNRLKLDENKMRDMIQGVRDIANLEDPIGKILFKRELDSDLTLTKISCPIG
+VLGIIFEARPDVISQISSLAIKSSNAVILKGGKESKHTNEKIMEIINSALNEVKEFPKNV
+VQQVFSREDVAEMLKCDNYINLIIPRGGNKLVKFIKENTKIPVLGHASGICHIFVDKSAD
+IEMASRVVIDAKTQYPSACNAVETLLIHKDFPKANDLLASLQLSEIKLVPNPEDWSTEYG
+DKILSYKFVDSLDEAIEHINTYGSGHTDSIITKDIQNAEKFMNNVDSAGVYMNASTRFAD
+GFRYGFGAEVGISTNKTHARGPVGLEGLTIYKYKLIGNGNIVDDYVKGTKHFHHKDLPCS
+>tr|R7MEK4|R7MEK4_9CLOT
+MMKIALVGNIASGKSTVEKTLQELNFSVLDTDFVAHCLLENNTEIMDAFKDYDILTAGKI
+SREKLGKIVFSDETLKQKLEAILHPQIRAKIQEYFSIHSNEELVFVSIPLLFEAKMEDLF
+DKVLFVYTNDDIRLQRLMKRNNYTKEYAIVRMNSQISQDEKVKLADWVIYNNSTVEDLRK
+MVVNAIEQIH
+>tr|R7MDY1|R7MDY1_9CLOT
+MKKLISATLLSAVMLSTSICTLPAGAVNEIASNKDRGYVSVSYTAEKEVAPDTVEVSIAV
+KTNDKKTMQEAVRKNKEITDKVYTYLKEQITVANGDYIKTSNFSASPSYIYSNNKRVLDK
+YEVSNNIIVHTKSIDKIAMIIDTSLSLGATNVDSLNFSLSEKDTQCAELLSNATKQVKKR
+ADILASAAGSSVVGIKNIDTSCSINNSNRFPVYRNSLMMAKAASMDAGSTESTPTNIEAG
+TIKIYSNVNASFYLK
+>tr|R7MJC0|R7MJC0_9CLOT
+MKKFLVGIFLILFSIFCINSSVISAENPAVSYPEDVDTQDIAEDEYTEDIDVEQMYRDMP
+VPDFKYVHNIDPGEYQDTMHSTWSPYPLFRLTAPLFFKSVAIEPGYYLLTPREHNGAWYM
+LFKEAGKVKYIVPCYKKEMVPMDFYKNNLPQIKLTKAQLIREKALKFVGKHVKSSKRDPI
+PDTYLEATDLDNNFISIIVYWGNYRYYFVLRSVQL
+>tr|R7MF71|R7MF71_9CLOT
+MVECLTGKKVLMKGNYAIANAAVLAGCQCYFGYPITPQSEIGEFMSGKMQELGRAYVSAE
+SELAAINMTLGACSTGVKAMSSSSSCAVSLMQEALSYATSDRLPIVLVSVMRGGPGLGNI
+YPSQGDYFQATKGGGNGDYKLIVLAPSTVQECVDLTYKAFYLAHKYQNPTVLLADGLLGQ
+MMEPVEFKPYPYPEIDNSSWCLTGAKGRDARIIRSYAPLADKQCEFLDNLYKKYAEIEEK
+ETEWEEIGTEDADVVLVSFGSTSRNVRTAAKMLRQKGIKAGTFRPITLFPFPNKRLQELA
+QTTKKFVVVEVNMGQMVNDVRLAVNGKVTVELLHKGVGTPPAPEEIAAKVEGLL
+>tr|R7MBM0|R7MBM0_9CLOT
+MQEVLVQNSKFYDSIPIKSIKTNEDDSDEIYRKCDFEFENLKACQTLKKDTDDVISTEEL
+EFKDKIVEDEPDYMGKLFKYFKYDSDGNKIEEYNFSKNKHIYYNEKGQVTGLEQFTKNNF
+KYSNSKNPEIYIDVEFKYDSYDRLVEELHFDENHKMIRHYTAEYEGDNISKIWVEDCLNG
+ATWQIVPIKVRTGNEPSFAIRY
+>tr|R7MCP3|R7MCP3_9CLOT
+MAVDLGKNLISSFLGLTGTRSVNASKAVVAPKAYKTAGYAAIPYEKAPVITDTVPTKNSD
+GTPLLAGYHTPNNVWVA
+>tr|R7MEP9|R7MEP9_9CLOT
+MKILYFTGTGNCLSVAKHFDAELLSIPQLVKDNIYEIEDDTVGIVYPVYAISIPDIVRKY
+LSQCKIKANYVFVIATYGFVNCGSLHEMKKL
+>tr|R7MJJ4|R7MJJ4_9CLOT
+MKRFILTLVLILCFLISTTTSIFANNVNVQRRWRNPQQIYTYVPSGSRNSELMKEAFAYW
+MKVTNGKVRFIYVNEAQKAQLRVRFVKDASVSSNHDNALGVTYYKKVKMICSERSCTQYM
+VLTTIDIANNAPNGALLRKDAVFRIMVHEIGHSLGLPHSSDRMSVMYPTKLSRNQTLAKS
+DFDSLAKLYGWKKF
+>tr|R7MBF0|R7MBF0_9CLOT
+MLSVQSCSVNSQNVAFKAKEKKSNVNSTSTSHAGLKTAAVWSSIVTPLGLANIYLNRLSN
+NSFPGVTYGKMNPKGKDLGKIFKMPMNANSKLALCALTLNYAITMGCGALVDKLNNDKRA
+KFAEELAEKGKDATYEENDYADKTRAGNVYCKSNAGKKWGALLGMGGILLPELIFMPIMP
+LNNFRFKGTSKIIKTIVLAQSAVLGAIGGFSLGAIADSFSNKTAAKNADKLASQPQEPKN
+VKTEEG
+>tr|R7MCN2|R7MCN2_9CLOT
+MSVLEAGMMVCFGASWPFQVVKTFKSKEVGGKSILFLWLVEIGYVMGMLHHILYAPDKVI
+YLYLMNFILVGADMTLYYKYKHDAKVRADLAKAELPANVVPEEIPVEVE
+>tr|R7MI14|R7MI14_9CLOT
+MKVDKLFNLSKKSYEYLNAGKIYTAEEINAAKRFIKSNTTAINAKTYTSPFGLTGTTARS
+IKAENTTQNANIQYAIAHGVPAQQATKMFIA
+>tr|R7MH27|R7MH27_9CLOT
+MNIAPIKYDNSRRYKYANPSFQNLKIMTSEHWDKDILDLVKHNAEIKKLEKYLWETKHSC
+LFTFSLRKCVI
+>tr|R7MBK7|R7MBK7_9CLOT
+MLKKITTPSNNICESVELILRGARKRRSLAYSNACEINSDAGIKANLSAVK
+>tr|R7MG15|R7MG15_9CLOT
+MLHATNNTFANIPYYGCLPMMQTNFGGDLQLCTIEPYAGYNIGYNLNPVAQQTWGGSIFN
+PGAATCYAANPFSNGGCSSTPVSSGIPTPGTQGFNDAVRRGASQIEELLK
+>tr|R7MHE1|R7MHE1_9CLOT
+MKGKAFKFGDNISTDHIAPGRLYHLRSDLNEFAKHVLEDADETFAQRMKKGDFVVAGSNF
+GLGSSREHAPLIMKIAGVGAVLAKSFARIFYRNAINIGLLAIECDTDSIDDGDELELDIE
+KGIITNHTNGTIIQIEPLPPVMIKLLQDGGLVEHIKKNGDFKLTD
+>tr|R7MA04|R7MA04_9CLOT
+MKNLLKSILSVAVLCLMTAPAFAFPDVSNDYWAAPQIKLLSEQGVIVGYPDGTFKPDANV
+TRAEFAAMAIRALGQQHTKVAQPVHFSDITEDYWAYQDIQKALYFDLISCDKKGELFRPE
+DSVSRAESLSVAVNALTTEQISPAKAKEVLSRKYADANSIPEWFIIPAGKAEILGMVVVA
+PSAKKAELEASRPATRAEVAAILYNMMEQAKLNPNAKLAEAMRKKTGEGYVIDEATVQGS
+VGIIPAGSVVPIKLNTYISSQSSEGGAMYTARVPQNYVTKEKFILVREGAMLNGQLLDVR
+PGQYFVRNGVLVLKNALITTENDQTTAFDGTAEIYKDRNWWMKFVRWAFKGEKLEVPADG
+TARMILLKPLKIDLTNGWIYEN
+>tr|R7MJ88|R7MJ88_9CLOT
+MKDDKEIEKILLNDEEYENFVNKRTEQDFEKELEDSCSNEVVVEDFKSVPKEKLFSKNSL
+YSVINKTSKTKSYINGVQAEGFLGSQNIVRANFLDKKINSFVAGDMYIKFYKYKV
+>tr|R7MJF5|R7MJF5_9CLOT
+MKALNTLKPDIEPFATKTLGEMIAMIKTLIEKGFAYESNGDVYFRVKKFPKYGYLSKQPI
+DQLESGARIEVGDQKEDPLDFALWKKDEKFGYKSPWGVGRPGWHIECSAMSRKYLGKTID
+IHAGGADLIFPHHENEIAQSECANGCKFVNYWLHNGFVTINKEKMSKSLGNFLTIDDMLK
+NYDANTLRLFILTNHYRMPVEFSDEALTAAQAGAKRLTNAKQTPINENLDITTTDEYKSF
+VDAMDDDLNTSKALAVLFDLATRANKGEADAYTILYKLGSTLGFTFEKASLSEDEISKAI
+SHVSEVLGKDFKTIDEVLELRKQARAEKNWDIADKIRIAFDECGIVLKDTKEGTTVEAK
+>tr|R7MDH2|R7MDH2_9CLOT
+MSIISTYLPRVNSKCFRTINSIRTNLGMRPFRDSKLLEKIEGVDVVDFSKNIGLKVPKEA
+KTYSYVKIGKKSDNVFSREIVSFFDSQKRLISRIFQENGINVKQRLYSYKKKTRIIQTKE
+YSTARLPETYRANIDIYNKLGDWHVVSLEKQIKEKVSEFVKEGKKALQLLTRRVDYDPKD
+MDFEQITYTKYPLNLGFGKKSDKQVLSAKIKKGNKDVKISELKQTANLGIDESDEFLKYR
+ILDPRTADGMEYLTYKFLRDKNLDKLYLRVYPLDSDVGKNSAGYFSARKSQICYSPVLEN
+YYSEDVVAVVAHETEHAYQHSLIGRVGKGINSYEYEALREFGPIEYGDNNFRKSIEYAIA
+RDEYPSYSSTEDLSRNRLYQENLLEVDAFAVEEPAKKAYTKNLKNFEFFDQF
+>tr|R7MAY8|R7MAY8_9CLOT
+MERLIGISDIHGEYEKLCAVIDNIAPQKEDTIVFMGDYIDRGPKSREVVDKLIELEDVCN
+CVYLIGSHEYAMLHAKSDDYYNYLFWNYGGDATVKSYGSFDNIMKIHGDFFNNLKFYHIQ
+NGYMFIHAGVRIGVPLEQQSEEDMVYIRTEFYKKKHHLPYKIIFGHTEFDEPQIQDDKIC
+IDTGCGKFKDAPLTAVVIENGVEHFVNSGM
+>tr|R7MJD8|R7MJD8_9CLOT
+MKKLLLSIVFTSVICFNLPVFSNEIEEDYFDMAASYSAEGDYASAMQYLDNILRINPSNT
+QAQDLKRGLTHVMSKDNKTFVSSVNPMVKQAEEYRKIGDEDKELSSLLQGTQSNNAYLAY
+YYLGNFYRRNHQYSKAIDAFNSSVSARPNFAQSYLAQAIVLNEIGEYNSAINPIDKYLTF
+NPKDDLAYAIKSRAEFSLGRLDEAKADNDKAIELNDCPEYQFDRAKILYKYGNYEESKKI
+FNSLLQDIQTSKIYEYMGLCDYAAGNYTSALSNIDKAIILSDDDEYLENKYNEIKKILEQ
+N
+>tr|R7ME60|R7ME60_9CLOT
+MENLSDQLDLLKSQYRQIFLEYAKSLQDEVYSLKPQNFEGEIFDSYDVYSTGRDWQNKVL
+NLINQKLNDEIASNLGMVATARESCHCVGCGVCCKFAVSEFSPEELSQKAKNGDSLALQF
+INTFVPYSSLDEAGKVFPEYVEMLKFKQESEYFIYHCPKVTDDNRCPEYANRPKICRDFP
+DNPIAFLPLTCGYKDWKTQSEPIMLKLNAMAEILNYYKNNLEKVI
+>tr|R7MID3|R7MID3_9CLOT
+MVNVSVIIPVYNVEKYLARCLDTVLAQSFDGDFEVICVNDGSTDFSPKILEAYAKSDSRI
+RVINRVNGGLSSARNVGMSVAKGDYFLFVDSDDWISTNTIEVLYKNATENNSDIVLFGYV
+KANSDLSPKTFLGVPECRQFGVFNAETIPESILKLFPVSAWSKFYKAEFLKNNNITFYEN
+IIYEDVPFWAEVFTQANAISYVNEALYFYRENREGQITKQVGESVFDIVKCYESVEVAYK
+KRNLWEKYKHSIQMLLMLDFMSKYYIVQPELRPKLFEIYKSQNKIIDYDYFYGQKLFDFE
+ERTFKRFQKLNSSSFEEFENYLKGEQNANT
+>tr|R7MBX1|R7MBX1_9CLOT
+MDTKTITQLSKLFRARFPYIYITTWEEDRAISLIKKMAKSEKLIRIPREVYIWTQTNGFM
+LDGQKIEGTQSPDKAIDFISECNKNAIFVMCDFHIYFGVKGRQVDYNVVRRLRDNISDLK
+TSKFRKNVIFIASELLIPETMQKEITILDMPLPTLEDIKAKLDKMVSQNKQIDTSELTPD
+GKERLCKAALGLTLQEAENAFALAMVNDGKIDGKDLNVILAEKMQVIKKTGILEFINTDI
+KISDIGGLENLKSWLNKRNNSWSEAAKKYCLPAPKGVLITGVPGCGKSLTAKAMSAAWQL
+PLLKLDFGKIFSGIVGSSEENMRRAIKTAEAVAPSILWVDEIEKSLSGMNSNGDSGTSSR
+IFGTFLTWMQEKTAPVFVIATANNISSLPAELLRKGRFDEIFFVDLPTEREREEIFKLHL
+MKRLKNSDVASKIDLTSELFKELASQTEGFVGAEIEQVVISALYEAFFNNRPLEVQDLIN
+TIKNVVPLSVTQKEQILSLRQWANIRAVAATRKDDMAHYGSKNDSEEDVNASRGGRALDV
+>tr|R7MIX4|R7MIX4_9CLOT
+MIDNFLLLKLNRSIWISLLDQEKIIEGINYFETYMNNLASIQTDKNYAKPVSEEMGACEA
+LFIMKMLEIADKFFEKKDYSNALICYTALFKYCQEDVELLKNYIECLNQLKLYDLATELI
+KHLEQTVPEDEDVYKFLADFYDKKNDCQKTIFFMEKYFNAPDCVPSAQDYNLLGCYYNKL
+YSQKMTDISLAKKSMDCFVKASELEPNTKLYAKNVTILAVRINDSETGKKYWNRVFELGK
+INNDDKYDYAAFCLRRSDFDGWKKYFGSRFQKETNPTAFPKLSKQEWKGDKSLYNSTILV
+YFEQGFGDTFLMWGYMSRLVKMAKHVIFVVQDAIYPLLKDNDLGVEVLSKSSTDLSKLKY
+DCWIPSMSIPVALNLEKDNISVGEGFIKVKEEEIQKAKEKYFNTDKLKVGISFKGSPIGN
+HFRDIPIDEFLMLDKLDNIEIYSLTKDIPDDAFECFKNHKVHNIAKDFKNFEETAAAMMN
+LDVVVTADNCLLNLAGALGLKTFGLFNWQYEFRWYNLAGKDSGWLTSVKPFICPKISDWA
+TPMSKIVNEIKTIK
+>tr|R7MJ83|R7MJ83_9CLOT
+MKVNKIRLTLKDIRNNKNISSRVFTTQKPNAPAPKDKWEPIIITKREMEQYAKDTLKKVS
+ELRKIFGF
+>tr|R7MEM4|R7MEM4_9CLOT
+MAVNTPRQTSHLKREILVRLIRAYLSENFEENTRLIPYDMRPKGSEVPYRCCIYKERAVL
+RDRAIAGLGTSIEDTDDSVLLSDIAKKAEERVQPEEHPLTVLTTACKGCVPSRIFVTDLC
+QGCVARPCESACRLKAISVHDGKSHIDPEKCKNCGMCAQVCPYQAIQRIIVPCENACPVG
+AIAKDDDGHARIDFDKCISCGRCVAACPFGAVHEKSQIIDILKQIKEGKKLVAMVAPALF
+GQLPCTPKQLKQAIQSLGFDDVVEVAQGADITTKNEAAEFKERMEKGDAFMTTSCCAGYN
+ELVDKHIPELKPFRSETKTPAYYTAEIVKKENPDAVTVFFSPCVAKKREALQNTNIDYIL
+NYEELGAWFIAMNVQLSDCGESEFKVESSAEARNFAVTGGVAGAVNALLEEGEKATPVVI
+DGLDKQAVRDLKKYAKNGKCDLGNLIEIMACTGGCLGGSSTINAYKPALKQLTNYVKESP
+EIKDVIKD
+>tr|R7MBH5|R7MBH5_9CLOT
+MEFKFNDSTLWEHKENCDREANSYMILSKSDDVKDVDIQNIIQIVDESGEEVSCTYDKFV
+EIFDNEGLAGFIM
+>tr|R7M9V9|R7M9V9_9CLOT
+MEGLNKFKVLTIAFICMFVFVVAAIYSNTKDATMKKEKQKAEQMANREGDNISVDNAQLE
+ELYIKVNELNKSVEELNLQKSGNNVNCEIRGIMGDNGLEELTIDAALQEARDNGRELVMG
+CHF
+>tr|R7MDP4|R7MDP4_9CLOT
+MLEKNSIIVYMVYSRGIWNMKKGFTLSEVLVTMGIVGLISALTIPAIMKDYKNKVMAASI
+EKTYSQLSDATKAIMADEMADSLYKTRLATYDKDCGTDKAQGACYFLPKYFKTTKTGCGT
+KAYSPNNVCLGDVYQTMDGSHKTKVNASDTEGELEVVTSFGYCIQTTNGATICGAYNVAN
+GIPTYMIDTNGPAEPNMAGKDFFTVDLMSDGVVADYGRGTVGPERCGTMTSAAWHEWSAG
+CLNKIMQAGWRMNY
+>tr|R7MCA3|R7MCA3_9CLOT
+MIISEFAKYLQEHNDKLLTRKTTPLKLLHEWLKQVINKNPKTNIDKIVHREILYCENQNG
+DYLIVGKSDSGRVLVSALIKFAKSYENYNHAKWVELTEKSFHKGDDNGEN
+>tr|R7MGN8|R7MGN8_9CLOT
+MGRAVAVRRWTTTALECYKRGCNCEGCFYRDFFSGSSQKCQMKASVLELVRVIGTPDVEL
+PQFLADE
+>tr|R7MJ04|R7MJ04_9CLOT
+MGNIGNIILASVRKRIPISLNGTQYLPANYKFSLKDPYILEALPEGSIDKFVKFENQNLK
+KVCQTLNNLTTSKGFSEGELKALYLKAFPNIKPPSDANIDAMVYLNSLSGKIGQKFDAHG
+MAKGSISEQLKELNKLLTNGIDKTKNFFTAPLALPAEAIQGAGAGLGTAGGCTYRSGSFI
+LVGEKSKLIEESGIKHVIVNDAYYNIINDLQRRFPEINFVRADKATEYFTKL
+>tr|R7MJV8|R7MJV8_9CLOT
+MCKFVQVIYKPSLNLFLNLHYIPDIQRCYSQYSKYLQDDFAKFNENICFYLEQSFPFFWV
+VLDNNDDFMGFVALENPCGDEKTLYCAELLTCLDKKAWGSFSRYSAKVFLKKCFEELGIY
+KIKALVFPDNFRVSTLLKTSGFRYETTLKSETLRMGKPQDIDIYAVYSK
+>tr|R7MAD2|R7MAD2_9CLOT
+MRIAVLSDIHANVQALEAVMNDIVNQQCEHVFCLGDLALAGPQPKEVMDYVMSQSAWTVI
+QGNTDKMIAQYGPEVVEFLEAQYPLMANAIADDVTLLDDSHRAYLEGLAPQLSLDVEGCS
+VLLVHGSPRAXGSPRANNEDILPEMPLEEVEEIISGTTEKLILCGHTHIPCGYQTNTNQT
+VVNVGSVGRPMTEQPKACYAVIDFSQGSFEIRHRFVDYDNKTAAKIVSERGFMGADRLAD
+LLLNPVERHI
+>tr|R7MI67|R7MI67_9CLOT
+MKERRRPTNNGKVKQRRQRRYSNGSADNPFQENNLNRRGSQSSFRKILTVMIILFFTAIL
+AIFLFADNKDFLNGKFGEHSFISTLLSKLSLSNSSKDKPEFVFPFGPRRQNILLLGVDSN
+GADSDLWVGTRTDTMILLNIDPRTKTVNAISIPRDSKVYLPKGMGIQKINAAHAIGGIDM
+TLKTVEDTLGVHVDKYIMFHDEGVREIVKALGGVDIYVEKNMHYNDNAGHLHINLTKGPH
+HLTDKDVVEYLRFRHDAMGDIGRTKRQQWFLRGLLADLQKPETITKIPHLISVTSKYVKT
+DMSPYEMTQYAGLAKHFDMDNVEIAMLPGAPNKHGYTSYWILDPEKTQEVVDRLIYRENS
+VGRKESYTASIMRSTDQIDAANKLKESLEANGIRVMCTGTTSSIHSQFIAHSKYVTVDYY
+ADLKKEVPAVKSRQFVYEPGNFMCADTDFTVVLAGDNK
+>tr|R7MD12|R7MD12_9CLOT
+MKNKIIATALAMLLSAQITLAAPFNANAKTKRIPAGTKLSLQMLTPINTGYNSKGTGFTA
+MLMTDQKASDDVILPMGSIIRGNIKEITPAKRMSKGAILYLDFDHVVTPNGRQVPLSLSL
+IGRADMTNDGGITTTKGYADAWKQTCKKSGQITTKSIEWGKDVTDTGWQYVIVPVAAFGG
+AFGTAGYFVYDSIADLIRTGKQVQINSNEVLNVILVEPIDVPVI
+>tr|R7MIT8|R7MIT8_9CLOT
+MGDLKVANKAQPSNNFHVQVNGNVTIQNHKGNAPLKDQQARTIVKNGKVTNYYQWTGGKP
+TKEAVLNLNSTNFDIFNSLRKADKKDKNGAVLSRSDLQALKKDPALQKKLGVTVRADESK
+GVYTVTSNGSTLYFDFD
+>tr|R7MBX5|R7MBX5_9CLOT
+MARRIIIFSGKQYSGKDTVAKIMLSQMPSFKRCAMGDIIKLTYAKEKNITYEEIEKNKPL
+YRADLIKLGNWGRSQDADYWMKKILEQDGDIMVTDVRVPHEYEVFKSAGAISIRIEASRK
+TRMARGVLVGEDDITEVGLDDVKDWDYVIENNSTYEDLKKKVDDLVKVLNS
+>tr|R7MD28|R7MD28_9CLOT
+MGKIILTGDRPTGKLHVGHYVGSLRERVAIQNEGDCDKIFIMIADAQALTDNAENPQKVR
+ENIIEVALDYLGCGIDPEKSTIFIQSMIPELTELTFYYMNLVTVSRLQRNPTVKTEIKMR
+NFEANIPVGFFTYPISQAADITAFKATHVPVGEDQKPMLEQCREIVHKFNKVYGEALVEP
+KIVLPRNSACLRLPGIDGKAKMSKSLGNCIYLSDEPEVIKKKIMSMFTDPNHLRIEDPGD
+TENNPAFIYLDAFSKQEHFEEFLPEYANLDELKAHYQRGGLGDVKVKKFLNNVMQTELKP
+IRERRKEWEQKIPEVYEILKAGSEEAKQVAQQTLHDVRKAMKINYFE
+>tr|R7MCC9|R7MCC9_9CLOT
+MPATFCGVRLISTGLTSALTAETLLLPSRSTTFPSVRISIIPFAEPPDSPLNILLGTSPS
+FGLDSNTFEIPDFLL
+>tr|R7MD66|R7MD66_9CLOT
+MQSTLDKKSYPTKEFISGKWQQEINVRDFIQKNYTPYEGDSSFLAKPTEATTKLWQECCD
+LLKKERDNGGVLDMDTKVVSTITSHGAGYIDKNLETIVGLQTDAPLKRSMQPFGGIRMAE
+SACKSYGYEVDSEVSEVFTKYRKTHNQGVFDAYTPEMKAARHSAIITGLPDAYGRGRIIG
+DYRRIALYGINRLIEDKKEQFKSLEGEMTPDRIQLREEISEQIKALKEMIELGNIYGFDI
+SQPARNAKEAVQWLYFGYLAAIKEQNGAAMSIGRTSTFLDIYIERDLKEGVLTEEEAQEL
+IDHFIMKLRLVKFARTPEYNELFSGDPTWVTESIGGMGIDGRTLVTKNSFRYLHTLENLG
+TAPEPNLTVLWSKRLPHNFKQYCAHISITTSSIQYENDDMMRVTHGDDYAIACCVSSMVV
+GKEMQFFGARANLAKCLLYAINGGIDERLKVQVGPKYRPVTSEYLDYDEVMDKYNDMMEW
+LAGLYVNTLNIIHYMHDKYCYERAQMALHDRDVKRYFATGIAGLSVVADSLSAIKYAKVK
+AIRDEDGVVVDYQVEGDYPKYGNNDDRVDQIAVDLVKNFMSKIRKHYTYRNSIPTMSILT
+ITSNVVYGKKTGNTPDGRKAGIPLAPGANPMHGRDSNGAVASLASVAKLPFNDAQDGISN
+TFSIIPNALGKDEIFMGDLNIQLDAGCCESNI
+>tr|R7MDJ3|R7MDJ3_9CLOT
+MQVQNNINSPRFTAFKMTPNANDLIINTLKKNAKLEDFVTCNKCISSLDAFPIQTSITRT
+HNPYESREQDRLKAYIEGKIEIEMRKHETISNYLKRLVGIADDLSNDKIKLDMLENGRTK
+TSQAEVLATDLNSKVSKFVKCV
+>tr|R7MCD2|R7MCD2_9CLOT
+MSSPSLIVVMVFPFSSVVTSLPSEDKLSEVSVVELLSTLMPLFSSGLFDVSKICPFAVEE
+AEMFGFARCSNPGYTTPFVCISF
+>tr|R7MDY4|R7MDY4_9CLOT
+MLIMLKKIFQKTIFWLKAARLYSAPITLLSWLVIFIFALKHGGNILAGIISLFGISLVHL
+ATNLIDDYIDYKDLQKENRFITAGRDCKCAYIRSGEATTKDLRNVILIFLSIAAFCGGIL
+FFLSGPAVFWLALIALFIALSYPHLSSRGLGEIAVTIAYGPLMFEGVFYVMTKNFSLDAF
+ILSMICVMFVNTILYSHMLMDYDGDKNANKTTLCTKFKNKDNALKLILFFYAFSYILLGF
+YIYKTGNYLYLLNYITIPLVIDLYNMLKQYNQNPKSLPKVQFWHQPLENWDKVKTTSNAP
+FYLRFFFARNISTIFMLLTCIAIIFG
+>tr|R7MCA4|R7MCA4_9CLOT
+MKKYLVFSMLLSMTLQPALALDFGTIKPVNPLENNQSTYMETISQPTYDLKRGTLTKNAI
+KNQYTIAMDKFMQSNVRSSYQDFRMLIENIQPSDYIYMRLIQEMASIGFFNLAELAMSKI
+QDDEVASLLEEDVKNFYFPSYKLTHKDQIYLAEIYSNIMYNDQSREATAELMKQSSLLSE
+SDYANYLAAFGSMKNGDVKQAEKFIDSAISKNPKNINYKRLKAEILAQSGKPQDGVKALN
+DLESSEINTIVFDNELHSSQQYILYKAAKNDYWKKYHLAYYYYYEGEYNKALRVLQASIS
+GKKNINKEVYALTSLVYFKLKEFEKAQDYALKSIDIDQSNYRALVVLGDIAFRNKDYKLA
+EGYYKRACGKDSSHSAEIKLAQVYQKMNNIKKAKELYSKVLRVASNSYEAYYQMALLEKD
+REVTYLKKAVAINPNFSAGWIDLARISINQEDFDKAQTFLGIAKYIDETDFRYYYYLGLV
+LKNKGLTADARKNFEKSLDLNPDYDLAKEELSI
+>tr|R7MJM3|R7MJM3_9CLOT
+MAKDVIELEGTIIESMPNAMFKVKLENEHEILAHISGKIRKNFIRILPGDRVKVEMTPYD
+LSKGRITFRLK
+>tr|R7MHX1|R7MHX1_9CLOT
+MVISFSKKEGLVDVPNARKIHTKPISRIGGVAIWASTMLTFLFLVLLSYYPYGKLVSGIL
+LGGSLMFLLGLIDDVYGLGAKFKLLIQVSIATVVYLLGVQINSVPFFGGIDLGWFSYPIT
+LLWIVGISNAMNFIDGVDGLAGSVVTVNAVTLAILAITLSPPNPISALIGFILAGSMLAF
+LTFNFNPAKIFMGDSGSLFSGFLLATISITGVMKVATLAILLPFVVLAVPIIDITYASLR
+RICKGQSPFVADAEHIHHKLLHAGFSQKKTVCILTSVAIIAGGLACLFASHNAIKYDFFL
+TLALVGIMLLLNLVRVLTKK
+>tr|R7MBU8|R7MBU8_9CLOT
+METLTIENVKDKIRAVPDFPKKGIIFRDITTGLKDAQTLQVMIDYLCEQYKDCEIDYIAG
+IESRGFIFGMPMAYKMNCGFIPVRKPNKLPAETIKESYDLEYGSDSIEIHADAIEKGAKV
+LVVDDLLATGGTAKAACNLVRKAGGELVGAAFLIELKGLNGVEKLADCGKVVSMLQY
+>tr|R7MA21|R7MA21_9CLOT
+MKKQLILICLITILGIGYTPAQMSYEPDERINITVYEKISPAIVAIDAQVPDGVSAGTGC
+IVTPDGLILTGLHVVEKATQIEVTTANGQTFKAKFIAQMAKNKDLALIKIDSKRPLKTVS
+FGDSEEVKVGQKVLSIGNPFGFSNTLTQGIISRIDYVKNRFQTDAAINPGCSGGPLLNST
+GEVIGISQSIYNPDHNISNIGIGFAIPSNEAIKFIATVKK
+>tr|R7MGU6|R7MGU6_9CLOT
+MHMGSYVINFTVYTMAMLGLIFFAIFIYKKVINGGLCKNSNKFLSIEETMSINPRKSIMV
+VRAGNEKFLIASDIDRTTMLSKLEGPKKISAQQILEQNLAKKYERFENTEKYENFDNLIP
+KENIQIDVEKQSQKSMRIADLDVVYPQKEHITLEPIKDKNPQGRRLEKTQMDRREAPKTT
+NKTVVLDFEKPKSHVFSTMKEMAKKINEL
+>tr|R7MJ06|R7MJ06_9CLOT
+MEKLLTKNKECNISNYLPVFSGKTFIVEKFPFYKEKEIAKPKTLFDCVKYFSKVNDVEQD
+LVGISFGFDNIILNEELSDKKVRHLAEELAVAIDNNCVWRVKDLKKEYGQLKEFSLAKDF
+LNKKCKEVWNVFDTRVKNIPHESMKALGITNKPDLESILGDSVRFYEKDGGNSTSRIIAT
+ILNNENLDYTISDIHKFLKLHHEKEKFNCNPKTIEYLISSQNYDKYKLFDLGVRKISIYK
+VYKGLSLKNKCRFIFNNLRNFKKVA
+>tr|R7MDE6|R7MDE6_9CLOT
+MKLLEIKNNLVKLSYGENEKPILGKFIVLATSEKSYVAQLVNLKSDNVNNFAIAKLLFTF
+TPDGVVDNYDGSIPSMASQLSFLDSSELLDLLPVETAVKIGQLAQQNESLSLDISVFEHN
+FTVFAERETDKTTFISNCIRQLFQMKEKSVIVDLNNNFADYSRIEFAKDFKLPLNSEMID
+FIFEYELAEVDPSTKAVIQDVFYAVQQYIKTLDFEFLPIDNFVDVVANQYKETQMPELAL
+LKNKLLKYRDSNIFANTKEEVLAFNQKLEEKNCSIVNLTDVNEALQKEVLVFVHKALESI
+KKYVYFFCPLTDGNSDKKLLKRFINNNHVFTTIIVSNSYKYVKELKSCAENVVIFAPEDA
+QHEFAAYNTFLNKLNLGECIVFGKLTQGIPFIVEMSDLDLDLTKDDVLGDKYQFVPVQEN
+VEMMATEDVELSKTLDNTDIPTSHLETSTLPEETSLQDAPVQNVAPQIDVAVEEQLEEPE
+VEDEKSSQEELPEEDVSPVDEEVLSPEGDVLVEYPDVPQDDFEDVSTTPSNIVEPVRNLL
+GDDLAEGDLEASEFPPQEDDDLGFDDVVDLSGEDSGEELPDLTEDDLDFIEDNSVASQEE
+VEDVISEPMQGESYVEEPYIEEQTPVVPVYPAQDTPIEEDDFQFSQGDAVTHPRYGRGVI
+EKIIKYGNKTLCSISFENVGRRLLDPSISEFTKL
+>tr|R7MDZ2|R7MDZ2_9CLOT
+MSIIINEIRAISGRKISPQRRMLQREVSNLLNQDINDIVELTKKSSKKQLSFLQTLANNF
+NRFNFYRNPAEKDNSKLVNEIFSKIKKPNNLHQSICNKFSDSFESLNTIIDWAGSNKKRL
+KFVLDLNEDLFKYDRPEGNTLIPDLLKSEHAEEYMKQYDKIKSFLKLNKDNPNAVSELDK
+KFTPEQFSGQNFKKLLELNQNRAKYSLLDRAIVNGDNCLKLLTPENHKLAKMMSEIFLPT
+DEMLKNGAAEDIANILISTNKKNAPLREELLSRFSPTIRSADREFSFENDKKLTLLSKLY
+NTIDLDKNAKSFVKKSLPKLDGNMQLDDFVDILENVSTKKLNIFKDNAWNIIFKTSKEER
+IDALNNNITDAFFETESSRISNKLKIQYGYIKKPSLTKNLYMKVKNGINILRDLITPEEA
+SKVKSTIPQEKALPKEAFKPEIKIEPETKAEPQIEPKTQVVPNSTPAKKTAKKQIVKDKV
+VEFVKTKLGEKTFNSQQEEFSKNATKIRMSLLPEIFASIADTRKMDRMIGKTRNQSSNKD
+ALTLYSKINGHNRKFVNYMLKKRNVDNSRMFEVRDIISILEKAESKIADNKKLNLNYRAK
+DAKAYYNHLFDAKIEQYGKLKRTNINKLNIIQKDVY
+>tr|R7MCM5|R7MCM5_9CLOT
+MSEKYEKALENFLKSVSLIKEEAAEVYDMYPRISWIYQNIKGDIENAKKYAKISIDIMPD
+YDFAQYRMGCIYLYADKNYKEAAKYFKKALALKMGETDIYVYYDVGKNYFSMKKYAQALK
+YVEMGLSLQPENLGLCSVKISILYKQRKYEEVRTLLQQASEKYPDDIWVQQANAMILAHF
+KQFDDAVKILEPIRKDLQEVNVYALFVLANCYFKKKEYEKSLETFLEYSQKEYLEYLEKQ
+DIRSIRSFIKKLSKLFPNDDRLNQIESNFSTVLNPKLEEL
+>tr|R7MDN1|R7MDN1_9CLOT
+MKKNLIISALVLISMSTCAYGAEGYVFSVNNKVNSSVQINTNAPSYDYLKFYDIDAEVIS
+AKLKVFDRKKEKDFIKTLSKKDKENYNYAKKVEKLVQKGRWNELSIKYPNYLPAYLEYYD
+KYISSNDYAGALLVLNKIQSLDKYNMVISADVLNYAYAMLYYNTYQYSNALRYFKIFEFT
+KDDGIYSSIGNCYFYVNNYQSAINYYKKIKVPTYTDKEYLFSAYLKMGNIFEANKYAQSL
+LNENYNFKNLMRVEATTSDDVAKLTYAYKARSLALTEEELVRANAEISALEQKKLEAKVM
+KLTQFVKVSKWSEFAKQMPENVSVQEISDKQDEFFKTANTYLSKYSGQQLTNAFKSLNED
+FTNFVAQKKQEYYQEKQIQAQKELVLEQQRNNLLQQELIEEQRMHNYLEERNLYYNMSRP
+QPRYW
+>tr|R7MA81|R7MA81_9CLOT
+MLNNKKDSSKDLKTKNMLYKEKKMRSFTVDEITQIVGGMLTKVASPEITHIAPPLLSDEN
+TLALALGEEEIANLANSKAKASLVPLGVQLEGFTTIEVERPRLAMMKLLNLFYVPPVVNK
+DIHPSAVVDPTAKLGQNVCIGPNVVVSPNAVIGDNTKILANSYIGSNVKIGNNCFFHPGV
+NIGDRVQIGNDVILNHGVSLGADGFSFVTENPNNIENARKEGEIKEGDVEQVIFKIPSIG
+SVVIGNNVEIGANTAIDRGTIENTIIGDNTKIDDLVMIGHNCRIGKGCLIVSQVGIAGSC
+VIGDRVVIAGQAGLADHIEIGSDTIITAKAGVTKSFPAKSIIVGIPAVPRKDFIKQLKTM
+KDAQDIFAKFRKFEPILKSFEDAHQEEIEVNK
+>tr|R7MFV3|R7MFV3_9CLOT
+MEELSEMIVQKQLGYNKKPIIILNTNGFYNKLNEFFEEIIEQKFANKNMRKIYFIAQSPT
+EVIEYLKNYEPSVLDVDKNAIYAR
+>tr|R7MEL4|R7MEL4_9CLOT
+MAREKYERKKPHVNVGTIGHVDHGKTTLTAAITGVLAAAGQAAARKFDEIDAAPEERARG
+ITISTAHVEYETEHRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGAMPQTREHI
+LLAKQVGVPNIVVFLNKCDMVDDPELLELVEMEVRELLSSYEFDGDNIPFIHGSALKALE
+AVQANPSIKRGEDKWVDKIWELMDALDSYFPEPVRDLDKPFLMPIEDIFSITGRGTVATG
+RVERGIVKVGDEVELVGIKPTKKTTVTGVEMFRKQLDQGQAGDNIGALLRGVDKTEVERG
+QVLAKPGSIHPHTKFTANVYVLTKDEGGRHTPFFPGYRPQFYIRTTDVTGSIKFEGQMVM
+PGDNVVMEVELIAPVAIEEGMRFAIREGGRTVGAGVVDKIVE
+>tr|R7MCJ3|R7MCJ3_9CLOT
+MSYKNDSNLVIANRFGDASSAAKAQLWETYDRLRDLTVSGSGTGTGFESAGGLLYNLASL
+LAPSSFATVFGGSETMNISGTSYYSKTNTNSAYGTDSLYNYSGFPSGAASIGSIYGLATG
+GASSILNGWGTNNGYITGGASSIGGLADITSAAAYGIGTGSGLGKIASNVVMPFASCISG
+FGGILTAVSPYLGIYGAGTTVLGNLMQGTSSAALAAYQNISGNITNNADVILSTKVRNIE
+TVCKMLDTQGDVAKKMLKEGIDSDSKAIQNL
+>tr|R7MBV2|R7MBV2_9CLOT
+MDKRRVVITGLGAVTPFGIGVDKFWESLKAGKSGISTSESIDISKHVVKISGEVKDFHPE
+EYMEPKVAKKMDRFIQFAMVAADEAIKDSKLDVEKEDPYRVGVIVSSAAGGFKTFEENHI
+RIIEKGPNKCSPFTVPMMIVNMPSGNISMKYGFKGINKVVVSACATGSHSIGDAFRSIQY
+GDADVMVAGGSEATICDVGVGAFSAARTLSKRNDEPQRASRPYDKDRDGFVMAEGAGVLI
+LEEYEHAKKRGAHIYAEIVGYGQSADAYDIVAPAPDGAGAIHAMEFALKDAGMKPSEVQY
+INTHGTSTGLGDKAESHAVAAVFGDRKVNPDLYVTSTKSMHGHMLGATGAAEAIACIKAI
+NDNVVPPTINLDNQDEEVADLNYVPYKAVKAELHAALSNSFGFGGQNASLIFREVK
+>tr|R7MHQ4|R7MHQ4_9CLOT
+MSYYDDLLEKIPKIKKVLDTDKNCTIYHYTKPEKLLNILSGGTLRFSNALYLNDKEEIAY
+SYRLIVKLIDEIPELNPDLFGKIKTHFSNKYKHIVDGENDFRNKLEYFTTSFSTESDNLT
+LWNNYAKGKNYTGYNIGFDKKKLIDEMTENKYLPVFGSVIYDKQKQIKIIHAIFKKWNML
+FNRALKCKKTNEVKLFDILFELIDVLSIVSIFFKNPQFKNEHEYRIVIVNAFGVENSKPT
+KVVEKNGLFVPYLEYKFSKESVTSINIGPTFDENIFYTSTNRMLLNFGYEDKEVCRSKIP
+LRY
+>tr|R7MCN0|R7MCN0_9CLOT
+MDIGLVTFIPIAVAIYYCEWGSILPFFTAGIFSLFVGDILCRSFNRGSDALNDIKRSEAL
+MTVSLSWLAFGVVCAIPYLFYGLSPVDSLFESVSGITTTGATILENFDYPRTIMFWRSFT
+QWLGGILYYLLQFYLNLLLQGVKCFLLKLQGQLRINLLQELKILPLLCGLFMRV
+>tr|R7MC37|R7MC37_9CLOT
+MVSWNANKSKEKGESFMDAFLWDADRDQKIKYGKQISTALRQKAMELGIAQDPALQEAFS
+KIDHEMNSLFWVDNDKASEGYNKAIEIIAKKMGGEYAKYATPNKKS
+>tr|R7MK80|R7MK80_9CLOT
+MNIVQPIRNREDIEKMKAVLKRKKRDLVLFIFGINCGLRISDILKLDVGDVKGRDFVEIK
+EKKTKKNKHFPLNPELKVVLEDFVKDRRKMNHYLLRNKATDLIATRHTGF
+>tr|R7MFA5|R7MFA5_9CLOT
+MADAKILATIERTDTEQLQISVSEYKGRSYLNMRIFYTTDDGATWLPTKKGVTFTPDQLD
+ILTEAIEEAKQEFMSADAE
+>tr|R7MD01|R7MD01_9CLOT
+MSRKLIIKNRRNNEEQLELTLEEFKAKFQMELKQAINTYKAHQESKNFLPPFLKPTPNYE
+QDFYFDLRWNFNNYAQTQYYIAQ
+>tr|R7MFN7|R7MFN7_9CLOT
+MKLQEKLKEYENQYLFLRWATGGEYGKLMYVGEDFVEFNIIDVETMSYRETALIYAPLIL
+EVSIGGADVARILAEVSSKMS
+>tr|R7MGQ8|R7MGQ8_9CLOT
+MAIKFNEFNNGYNNYNFAIGQQAFKEAKKAEETKEVVKSEVEFKGLKNETDLLTQNTQNL
+YGVKIGKFTTEDKSIADSTNAILASLGYSYKVSATEVASVTNGVKTVVMPGMKLAEDGAV
+EANIKNPAGPFAELFA
+>tr|R7MDF7|R7MDF7_9CLOT
+MALQSINNIEHRSNSNLVGFMPTRKNISYGYIDMSQSVKEKQVPKKDKVLAGIGSTLGAL
+SVLAYCMKRQKIKNPLKVEYTVKEMLSMAAVANIGGIVMGSIGEKASDIKKKWKEGAFQM
+VLTAAPMLLVDGTIKLCNKSKNPKINNNFMKIVASAIGVAVGSKAAIKLSNFLRNDKEAK
+KPERKLKLIDMVANLDDLVAVLVLAKIPFADKIHIERALPVIYSFCGYRSGTGDSRR
+>tr|R7MCX9|R7MCX9_9CLOT
+MVATGRPVLILPPQNIKIVADKMTYNDDSNILKGIGNVIVFKDGMPTKGSYLEVDMNEET
+MVMDNVESISDTTIMDAKKAIQKDGLIILHDGNFHSEESQVYRLMSRMVGPRFQNMIVPR
+ESQALFFGDPTGNNVRLDIDEIYVDARKNHDVFKAKGIKVYKDGKYLFKWPSLTAYTNKE
+HDYFEANYPEFGTRRKVGLFVGPGFVFGGPGGSVIKAIPFLNYQHKFGFGGAVKYFNTFN
+KTELGYASAADIFFLKGIQRLDDHLYLQYAANSFMDEWFLGRQMPKYMAEVYYDRGYNNK
+DFLAKNMDLGFRHRFGVGLMQDNDRNFYGEKLDSNNISTTRFRYMAELNQHIWHYKNEEK
+RIAADAGFVMQGSAAIYGTGDTQFIGRVGPRVHLQYKNWMQDIGYFISGYSDQTPLPRYD
+AYRYGHQSVYLSEAFRVCKYLSVGWAGNINLSDDAPNGKLFQENAFLFSIGPDDLKINLG
+YDFVRQTTYFGFNVAFDTKGTTVTYKKMEIKNPERLGKNQNKDDEGEKRKIAFSQSKNDS
+EVPVTNKKSKAGASEKPKVLEYAEVIDIEDPDKETIQ
+>tr|R7MK99|R7MK99_9CLOT
+MAGLALKTLSVSYFPTLGTIQVIGGSPSQLDMIRDYILANDKKTPQAYLEVQIIALSESG
+SKTFDNTWQFLSKNFSFNAGGGKGISTSSMYPVFFAGHGYDLVGDWDEDKGEYKKIGEVR
+KWSGSPQLVYSVNYLVENEKGRVLANPRIMITSGQKSTIDLTSDYVSKVTSQYLDNGSSS
+GSAQAQKEYTINNDNGIKVEITPFISPDGYVTLDLKPQYATIASQLTTPGEVEGERDIAA
+TLLQRRNLDLKGIRIKDGETMVVGGMIQETETKNVSKIPFLGDLPVVGMFFRSTTTGRKK
+EEMVMMITPQIIVDTEDAVSDDTSL
+>tr|R7MGF7|R7MGF7_9CLOT
+MIKKYAICYNQSMKNSEAVMSELKQLLLDHEINADVLDIDNLQSGYDFAFVIGGDGTILK
+VARFYSKFNTPIFGINLGRLGFLSQASRENLKESIEQILSNNYKVEKRIMLCANDYVALN
+DFVIKGSESSRTSRFSLQINGKFVCEYLADGIIVSTPTGSTAYGMAAGGPVLTPNIDVLA
+IVPICPHTFSARPIVVSAEDEIKILSCPNQEYKVSADGQKVFSFRNDLTIKKSLYCANLA
+LLSDNDFYSVLRNKLHWGLSPACIDRD
+>tr|R7MB04|R7MB04_9CLOT
+MINAIQSFVTSPALYNMTQSTVTQITTETCLKAVGRPAFILADKDIDSQTKKFSSTKEFL
+YQMTCLGIYLAAVMPILRKGTFALARKMYKDEPVFKIFKNSGDFMKYYKMNDTEKAAKLE
+EINKTLKTEKITKDKINEDFAKGLTELTSIVGSVTGLAVIAPVISHPLIHPILRTMGLEE
+KKANQNKQPEKTQQDTTPQAGAKIKTVA
+>tr|R7MB45|R7MB45_9CLOT
+MFKAILNCLKIKHYVKNLVVFIPLIFSLKFFSIKSILLSVVAFIAFCFIASAVYVFNDIL
+DVNNDKSHPIKKKRPIASGTIPIFHAWVLFVVLMLCSALISLYINTYVLLAVVLYLLLNI
+WYSVQLKFIPIIDVVCIALGFILRILVGCGVILVIPSPLVILLTFFTSMFFTFSKRKLEY
+NLIRDKKGCRKSIKEYTEPLLNQFVTINAVLSIAFYFTYMLDPSTIQRTGTEYLYITVIP
+FSIVVFRLLFKTYTCSDNDDPAEFIYKDKMLKVLMLLYLIILLIVLFI
+>tr|R7MCT6|R7MCT6_9CLOT
+MSKETERLYDVIKKSLITEKSVAATENAQYTFEVKKDATKIEIAKAVELAFPGRKVTKVR
+TVYMPSHEKRMGYKFGRTDSSKKAIVTIEGEPIEFVGV
+>tr|R7MA62|R7MA62_9CLOT
+MNGKDINLTIKESIFSKKIVGDIGGEPVDLKASESWGGYNIKGKFKDKDINVKLDSKFVG
+YKLSSDNMSLRIKNKKLFGNDIKVEGTYNEDPELIPLLLDAVYNLQEEEMIMALVIA
+>tr|R7MCH8|R7MCH8_9CLOT
+MEVNLEHLTHIINLDYMLRILIAVIFGFCIGLERELTNKYAGLRTHILVCLGACVFTLIS
+IYGFPTFAPGDNVLIDQATGIRDTSRVAAQIVTGIGFIGAGTVLRNGPIVLGLTTAATLW
+IAASIGMACGAGMFEIAFAGTLLSILTLVSIRVFERKVLPNSTKRTKRVKLVIVCQNQFA
+NKIHEYIIEKYQDISELSKKQLKADENSTKITCVMDIISRKPIKDLYKSFQTLDGIDSIS
+IQETID
+>tr|R7MIV8|R7MIV8_9CLOT
+MMKKILIMGVLCSLFIGLDAISACPLSNVISGQKSCNITQQQGQTIEDKLVPNKLNQMVS
+PTQSTSQEFRTLPHTMPEAIRTDKSENPEAEEGNKPYNAACQFGLCLPGENNGRK
+>tr|R7MD16|R7MD16_9CLOT
+MKSLPIKSRADIERIKQRYRENNNYRDLLVFLLSINTGAKLVELLKLTVADIKKGKPFIS
+KNANSRSVNKEIKSLIETLTNGRKDNEPLFKTINGKFLDRIQVYRNFKEICMDLNLGEKY
+SATSWRKTFGYHYYKQYGDLTFLQWKFNQGRVEETLKYIDVNIDLSSRFHSEFNL
+>tr|R7ME91|R7ME91_9CLOT
+MYQQTQPVQQPQVAPAPQFNPYNMNDFLTNSMSNPYSNDLMMQNMNFNTLA
+>tr|R7MH57|R7MH57_9CLOT
+MAKHSDTVPIEVTILTADHDIKGVVHVSKYTNTNRELTDLLNDRERRFLAVTNAEIYPRV
+GNQSPRRYNFLEIHMDYVLMVHPTTQAVFKDSGKTQEDISRFRELRLKLNQTKPF
+>tr|R7MAS1|R7MAS1_9CLOT
+MVNKIANIYNYIIELYKNELSYEAAKLETKRKLFVCLYKGCKFLCWGTVIFAIIFTLGYY
+LFLTGYQSEQQTPEHIIGAGIPIMVTFGIFACFCHSIGTIIQNLFASEAKKKLFSKIYKA
+LDSRLTYFPGKFKLPICWYDWEQFFEMFQKQNANHDILKTEIKKLNIFPHYHYIRIDDVI
+LGTYNEHPVQIIEFNLIEKIFERTSKGGHRRHYIEVFKGVLFQTSMEKNVKADILIKNRC
+SNLHSNILREKINLESNDFEKQFEVYSNDQIEARYFLTTATIDNLLKINNAKQRISGYIS
+GRNVNLLLHSDKDMFEPSIYKELDNPNNYSELIFQAKSILDLITSLKLDSKTGL
+>tr|R7MBF3|R7MBF3_9CLOT
+MTKNNNGFDIEYLEYKIKQAQEHNEPIDNYVLREISWLQQQLDIFLEKSKEEGKDIETDF
+DIAEIEIRQYAAMKQLAQKINHPCDIYDEKIKQVQIRFFGEEGYNN
+>tr|R7MI15|R7MI15_9CLOT
+MKCQIVTNSIKNFKTTNIGGLPVHPIIRTPKLEEVQDILELNSKIKIGEGTSGTAYEYGE
+NVIKIFDKILKKLAKKTLFSEMDNLASLSHLITKSGNENYLHNTQKGLFAFEKDKLPILV
+SSKVAGENPHPIEAPFNEKNLEAIVETLNRLDKGFGKTQFLQTDMRPPNIKITENDAGLL
+DFEYLQRVKLGDEKNIEQTAKTLPQLNKSNYTFFLNESDTGFGTSNLRAFEYDTLAPYLY
+RSPNITQAQETFRNYIKLKSEHHLEMAHHYNKLQTELGDEIFKRMEAEEACHYMALKSGD
+KDILHTEAAKLQMYSFLRWINLTAQKLSAPPINIAQIESFLDKERASYIQEIQRGITNKD
+AVKVYYYTNAKNTADEISNLITYAAQTYKIPPERLMQKAEFGLLTDKLLCKRTL
+>tr|R7MD47|R7MD47_9CLOT
+MLANIGVEQGVPISAKTAPKISGYKKSLLNSFFGISFIIGGKSNSRNPSIFKPIIITIEA
+TINAK
+>tr|R7MDL8|R7MDL8_9CLOT
+MKKTIISLLLASFILTEISPMACLALGNKNSTNEPKKVSITKSHKQRAKSDEFKYEYINY
+AWWNNFNDPILTGYIDRAIKNNYDLKMATIAVDEYYQAVKIQFANELPTAGVGFGPGYSK
+MPQSASSNWGFAMPAFASYEVDLFLKNHDKTNASKKEYEASLQDERSAYIAIASAVGTTY
+FNIVKLDKMITLQEDIVKDRKTIYNLMLARNKEGLTSTADTVKANKSYISGNTDLTEYKK
+QRTKLLNQLAVLIGETPNNSESLTRINYDNLHFSGNLPSEIPTDVIMQRPDYLKSEKMLE
+KAGIDVKVARKEFLPTFNIGAFAMFLSNDLGSLWSTKNALAGLGGGLGLPLFTGGRRIAN
+LKLKKDEYERLLNNYYKTNLTAIQEVNDALVSIRLDHEKYQDVEKQAKLEREDFGYSTNK
+YNQGTISKLDLIQVKENVLFTDQQVVNDKINCYVNYIGLYKAVGTQL
+>tr|R7MCF5|R7MCF5_9CLOT
+MVDAVQQAPIKPFTTIKYKTQDGENVTATKNNGIVTLSGDKKGVRQMPIDEFMKNELPKI
+APLEKTPAKDTVEISTKKPEAEVKTDKADKAEAPKDAKPADKTDKAPAEVKADAKDESKE
+PAVGKKLDVAA
+>tr|R7MD76|R7MD76_9CLOT
+MFKSVWYYNLTKPPLAPPDWIFPPVWSILYFSMLVALLLYLFKPSQNKKSGYIYFIAQLI
+LNFLWTPTFFYLQNIVLALIVIILLDIFVILTIKSFYKVSKISSLILIPYLIWILFATYL
+NIGYLVLNA
+>tr|R7MKJ1|R7MKJ1_9CLOT
+MNKLTILAKQLRQNQTPQEQKLWNIIRNHKFNNLKFKRQQPIGKYIVDFLCKDIKLIIEI
+DGGQHNTPENILTDAQRTQFLQSKGYKVIRFWNNEIDNNIEGVYLELENQYQAITK
+>tr|R7MCE2|R7MCE2_9CLOT
+MGAWGYTDYARNEFKQMYGVDPKDLTVSDVQWYDWNQYRRNNVTNFVQKIGQLGKQEHVY
+ISAVIFPDLASALAAKQQDWRTWSSNDYIDGFTPLFLTYDSKMLASMMNDVMRVKSPKTD
+LYAGLFVTFMGGASEDLIRQIYETRKMDANGVIIFDYAHTTPVYTSTLMASAFNSMKETK
+SQIVQIQKKKRLFRNKTKKAKTQQEKS
+>tr|R7MJY9|R7MJY9_9CLOT
+MVEKDYKLYGTKILNLKTQEIGLLICLWENKFGKSDK
+>tr|R7MHW1|R7MHW1_9CLOT
+MKDVIAAVSDNNANIVNANIKTKNHVGIIEMGLELDNIDTLKKVITCVQNLPDVFSVKRI
+QTSSSMIKKSSASKTSRGFRQKRRPKKTEG
+>tr|R7MIR7|R7MIR7_9CLOT
+MTNILKTSTMKLRKYWNKISMKRRKNTRKVHHEKQETFFTKLANGIITICLTAGMLWGLQ
+TYSASTSLKFAQVSDVHFLENGSNTTFKMIGESPRLLDDAVTQLNEHNDLDFVMFTGDLI
+DKPFEKELRAVLPHLENLNAPWYFAFGNHDRCIGGYLTTQVYMDMLKDANKNYTFKNAYY
+SFEPKKNYKVIVLDDIITDRLTSNGYIDEHQLKWLKNELDKSKNDTVLIFMHVPIVEPFA
+SPNHKLKNATQVMSLIESYKNPIGVFQGHYHATKVVQHDNVLYVATPALVSYPNAFRIVN
+VTNYKDKTTFELKWYETREKTIQKMAKLLVFSGAMYAGEPKDQSGVYEIKK
+>tr|R7MIQ1|R7MIQ1_9CLOT
+MTNIIKIVMSLLVVFIGLASFASFGDYINPNLDVTEVRASHILVKTRPEAVKIRKEIVNG
+DISFEDAAEKYSLCPSSVNGGDLGYFKRGQMVQPFSDVAFDLKVGQISDPVGTKFGWHLI
+KVVDKR
+>tr|R7MAG5|R7MAG5_9CLOT
+MEKFEFNLSIQELEKRTHKDYLIHKKFLKADAPEYLALAEGDKKALVHLCKAAEILEKIN
+MQLDCKHNLAVKEFLETESAKGNKQAKLTKILFDAQKGVNAIDTMSNPIRLIKGIEEKPG
+KGVYPEDLSKEEFHTVLLRMLNEGKIDEVKAILTQRSVVVRAAEDLAGIDYVDYFSDDFA
+KMADELDKAADVSTNADFNEFLHLQAKALRTADPMLDAYADKKWATLQDTPLEFTITREN
+YEDEMTGTIVENEELSAKLKEYDISPIPKDFLGGRVGIINKKGTEALMAIKKYLPTLADN
+MPYKDEYEQTISAEEDAKQTMVDVDMVMASGDVGEYRGGITLAENLPNSDKLSLTIGGGR
+RNVYHRQIRFISDKKKLQERLDAILDKEQHKYYLDEADHWFTIGHENAHSLGPKESSEKL
+GKYRNIIEENKADMGSLAFVDLLTELGMYTQEQRLQLIVTTIADNFLKSKPTMSQAHRVR
+TVMQNKYFAERGGYTITKDGKIHVNIDKAVPIAKEMLAEIIRIQIDGDFNKAEKYVMDNF
+VWSDNMELIAKKLQKVSKALNGTLETELADKLLKGEI
+>tr|R7MBM5|R7MBM5_9CLOT
+MEKRNPNDLLILGGAILLLGILLMSYSISTYRETKSLEDKIDFAEIDNNNSMSSSDKYFK
+YLSIADFLNQKLKKNEGLLMKNSSCVYLDYAQHNALALYRLTYNGMQTEESRRSVAAGNI
+RNLYSMLDNYKTCKQSNDYKKELGEILTDIQKTDDLYSQRQDRMNTFMGDYSPNSIPQQA
+QVQQPVEEPIQAPMATTKYPEQNVQPVPNQQSTGYQNSQSYSNVSASQQQPFEIRH
+>tr|R7MBP1|R7MBP1_9CLOT
+MDLKQISRNIFKRKSMDDLINTSKRSELKKTLNVFDLIVIGIGAVVGTGIFTIIGTAITG
+SAESAGAGPAIVVSMVLAAVACVFSALCYSEIASMIPVAGSAYTYTYATMGEFMAWMVGW
+ILMLEYAIGNITVASAWTGYFIQFLKGFKQYLPDFVVNFPIWLRYDYKTMVAICNNNHWD
+IHDKIPYLFGHIPFAVNLPAVAIVLILTMLLVRGVKESTRVASIMVGVNMFMILSFIIVG
+AFYVKPEHWTPFFPQDPTGVIMGAFLIFFAYIGFDAISTTAEETENPQRDLPIAILGTLV
+ICTILYVCVALVLTGIVPIERIDIQAPIAHAMSYIGKDWFAGLISIGALCALTSVLLIYQ
+LGTTRILYAISRDRFLPKSWRLIHRKYRTPHVMTWISGVVVIVCGLFMDLNISAALCNFG
+TFTSFVIICLAVLILRKTNPDRPRPFKVPFCPWFPILGILICGVLIVFSLKTLKTSSVYF
+AIWLFVGIMIYAFYGYHQKRIEERGRIIRKVKKVE
+>tr|R7MEA3|R7MEA3_9CLOT
+MTIEQLDISIKNSKNILLVSHINPDGDTLGSMCGLYSLIKDNYKKKCEMVAVSKISSTYE
+FLPYVEEVKSVEDFDLSREYDLVINLDVAAIDRCGDAQTLFNKAKDTINIDHHETNVGYA
+KQNYIEPFAAATAEVLVGIAKDLGWKISKQTAICLYTGIVTDTGCFKFSNTSQRTMDFSG
+LMLSYGVEPSEIYQKCYESNSKDMVLFQSYCVNKAKFVNNDKIAYTVVYKKDLEKYNYNG
+EDYTDGLTEKLRAIKTTEIAFVVKELNSSTSKLSMRSKTKDIAQVCSAFGGGGHKLAAGX
+XACGWSGN
+>tr|R7MCR7|R7MCR7_9CLOT
+MGNFKHYTVMKNEAVDALDCKDGLIYVDCTLGGGGHSELILKRIQPNGKLIAFDIDQDAI
+DAASERLKDYKNLTIVKSSYTNIKQVLKDLGIEKITGGILFDLGASYHQLTKQERGFSFS
+KEAPLDMRFNMDSDFSAYDIVNGYSEEELVKIFSEYGEERFSKRIAKAIVEKRKIKPLQT
+TTELAELIVNSTPRVKTSIHPATRVFQAIRIEVNHELQNVKNTLNDVLDLLDFGAIISVI
+SFHSLEDRVVKQTFKYYSTRCHCEKNQMICHCPPPALELINKKPIIASEEEVQENPPSRS
+AKLRIARCIKK
+>tr|R7MIZ1|R7MIZ1_9CLOT
+MATLRQITGLGYADAKKVIEFIPTTFMTSISDKEADLTKKALEFVGAKVEIK
+>tr|R7MH28|R7MH28_9CLOT
+MIKDRLNERTLTPQEVRTILKTDNKEIVELCKKAAIRPRKNAKGHTYFSYDEVKNLRKVQ
+AQVNGLVSNPIASKVPAAVGASSSVAGVKNVLSALQDLESRLSDRISKVIDEKLEGMDDV
+VVELIRCKTDNETLKQKIVDLNKEVYQLKNELNSYKPVALGFYKKKEVYVWE
+>tr|R7MBQ9|R7MBQ9_9CLOT
+MTIEKDRTMFGTRILNHKTKEVGLLIYTWTNKFADGNILYATCVDMNGKKYNIEMDAISP
+LED
+>tr|R7MA53|R7MA53_9CLOT
+MKKKWILIVILSLILLGVLAGGIYYFMSNPVMSDSDDVDKPSKEEIQNYIDHFDLSTLEF
+EKIQPSIYKYSKKLGFFDEVFSSQKPVFAYGYEKGSRMKYISEKFHKQMQKDLADNGFDE
+KYTIVTISKPEAQVNDVMKKYKLEIPDEESPCDLKDGDMKGVLDIVDVMSMCYGGACLID
+NKKKVFLSFTKEYPEVILKLLKEYK
+>tr|R7MAD9|R7MAD9_9CLOT
+MTKLVYLDNNATTRVDEHVLEAMLPYFKEEYANPSSMYDFAKKSSNAIKESRGVIKDFIN
+AKDEKEIIFTSCGSESANTGIRGVLNYNKNKKHIITTKVEHPCVLNVYKSLEKQGYKVDY
+IGVNSNGELDLEALESAITDDTALVSVMWANNETGVINPIGKISEIIKSKNKDTKLYVDA
+VQVAGKIPIDVQANGIDMLGISGHKFHAPKGVGVLYVNSKTMITPLIIGGHQERGKRAGT
+ENVPYIVGIAKAAELAQDSLHYEMTEVKRLRDKLESNIIKKIYNARLNTGIAERVPNTSN
+IGFEYIEGELILLHLSDLGICASSGSACTSGSLEPSHVLRAMNVPFTAIHGSIRWSLSRF
+TTEAEIDYVIDKLPGIIEKITSISPYQKELQALKALKYA
+>tr|R7MGT7|R7MGT7_9CLOT
+MKLPLEVMPALKRTFADGTKFISQEINGKTYRQLFDKDGRQLVEQVKSIERFNVGNKKVI
+NITKNTAYSGYGKYDYCDSDLQSLDKVYSKSGQLLGSRLYNSFVFHLRKNGKNLELPLSD
+LLKAQESQWKMGNYTKMNELADGFYHSGTFEKGIRVEHDVW
+>tr|R7MAC5|R7MAC5_9CLOT
+MLSVFISGLSRQSGKTLVIAGLAGTMQSLNYSTGVYKPIQTGAKSLNGFLQSQDLALIKR
+IDSNINTYSSYVFLSENCPLVSAYEANNTKIDLNDIYNDFQSCMQMTECRLVEGANSISS
+PVAEKMTEINIVKSLGIPLILVINPKQDKIGDVIAGVNFILSSKVKFLGFIVNNYDKESE
+NPEEKYYPQMVKEYTGINVLGVLPHYENFESLTPDTLIADTLNNVQLEEIMGLKIAKLNY
+>tr|R7MGR5|R7MGR5_9CLOT
+MQAVTLIIDKRLELSTKYKRLLESTSNKVIISKDIISALKIIQDKEPDLIIISDSFDNDL
+SDFCKQVRALTYNMRPIIIAMSKSADFSDRINVLNSGADDFLSEPVNPEEFKVRIQAHLR
+REFESTIEPKLMLPNRNYSIRAIKRTLSDNIDWAMLYISIENFTSYKKAYTELASDKLLQ
+TYCAIIQSSLDENDYVGQLNENEFLIITNPIKAEKLAQFLTFVFDSVATKFYAEHDLDRG
+YMILQGDEFAGRRANFVHTTIGVTSNEFKQFKDPTSVLANLQHIHHMANLPTKSNYLVDR
+PKITGENCVCEKEYNNKIMIFETDEALSTLLNTILNLQGYETQVFNEYSLPEVDKIPALI
+IIDAGDLESKNGLNLCYGLKQHKELQNTKIIVTSIIHDKELVLNTGADLYLPKPYEISSL
+IKWVDNFMKEFNN
+>tr|R7MJ36|R7MJ36_9CLOT
+MTELDIEQLEKILFENSDIGSREQLQTIQEGKGLGEFIRSIIGVERTEIEKVFSEYLDNN
+KFNSNKIRFVETIIDYIKCNGTMDTGKLFEQPFTFINTEGLDGVFAPKDADNIIYLINEI
+NKNARLHK
+>tr|R7MHW9|R7MHW9_9CLOT
+MIEFNATFLVAMLSFVVFIMIMNAIFYRPILNIMRKRDEYINSNYDEAKAFSEQAEKLDI
+KKAETIQQTQNECRTEIKNVVENAQGLASKNVQDVRTEVKNEIQLKKDSLVRESEALEGV
+LKSSVVTDLASSITSKFMSKDLAVNK
+>tr|R7MJT9|R7MJT9_9CLOT
+MGLAERFKEELKSKNIFEKSNIEKNLEKENIQFISKPINNIVIKPEKEERGNSIGQTINN
+NIVKAVDNDIYSVPKFEELETEIISKIRKTPYWNEYSIDRQKNMIEKYFKIKTKHIKVTN
+EDKNEFIKSILILSNNK
+>tr|R7MG80|R7MG80_9CLOT
+MKKIIILLLLLLFPSAVMSEMITGGVEYTASEAQDIILQDKPKPVNVGVLRNKYLDCNRD
+ENIQNMLKGFTDLKDRTLAYFSDGSYGVVYKDNPLTVLYYGKNGILTHTEERTSLVYPYK
+SYKYDTMGNLVNMTFRVSEFETFIFNNSGNLIAHWKGENCYNPDGKIIMTRRIMK
+>tr|R7MJM9|R7MJM9_9CLOT
+MAGSDIERLEDLHNAFADEEVNAIICARGGYGAIRLIDKIDYSIIQNNPKIFCGYSDITA
+LSAMILKKTGLITFSGPMVQSDFSTKDKFDKFTENSLWETLTQNDIQIKPQELKTYKEGE
+ASGILWGGNLATIVSLCGQDFMPNNKFIFFTEDLNEPVYKIDKYFRQLLNIPEFRNNIQA
+LVLGDFLDVDNQEWLEELFEEIGEELQIPTFGGFPISHSSTKATIPYGGYGTLKNGIITV
+TY
+>tr|R7MDM2|R7MDM2_9CLOT
+MKKIIVLLSLIFICPYAFAGQYSTTLDKIENSLFGFTYSNEAENTRINRIENKVYGKTST
+SQTSTRIAKLKKDLSVDEMGKEIEPKEDTFASPEDSWVVAKEPVESTKIDYPVINELEKQ
+VFKQEFKSQNIKTRLSKLESKTFGKTYENDDLSSRVDRLKAKIKPQTFMANGMQQQENKF
+YNDTIGKMDDNYHLDQYGSPNFDYDFYNKRNNNQNFSFPQDDDYFSSSSQPNVFKPTKTM
+SLSSIEKAIYKTKYENEPTSQRLSRIESSVFGTNFSQDSESERIARISSAINAQKSAKRY
+DSNRFGQNMATAMQIGTIILMVLACIL
+>tr|R7MB37|R7MB37_9CLOT
+MATNFDFLKSVDKNLFEIITEAEKLYRDEYFEQCMGQTRRFGEHVCKQVLGKNRTSENTF
+DQMLATLKDXXXATLKDKGNGSEQEKEFVNDLYFLKKHGNESVHSAKVKKDGMEALECLQ
+RAFEVGINYAVYNKKAKTNILKLHYDTELLVTGKKSKKSLSEKYLEEKAKEKSFTKRKNH
+PKTKKSKSYKKQVYSMKSESASKGIPFYWIFVGFSFVVAVVVMLILVL
+>tr|R7MGC9|R7MGC9_9CLOT
+MFEKIITTLSNPILFYADKEGHAVFRNFNWFGNCGCSYDLQLSKIEVGKVLEYRFDIEKP
+LKIAYWLVPIIIYLIFIHTRLSFWNLLVAEFFWILIIGILRAVCAYVYSDFLIKNFGQYK
+VVDFVPHMPKEKWQFYRRDFYNKIILIGIVIFLFFAPAFALQYGLKLCSTSHKKHAKVAM
+TISEIYNALYPKTSDSYDLIAYVKYAKHDYKGALDAYKTSLEMTGKHFSQKDLSKFANLL
+FLEKKISSPEDAVVLFDDYATRKNMTVLEQSKMLWMKSIFSIENNMPDSIVADYDSLLES
+LSPKDMKNRFYITSDKAYILYLMKDYENALANYDVLINYAENNKKQFAEELKSLYAERGF
+TKKQLGDTLGADGDFAASGIDIYEIDKYEPSYSEQQFVVDEY
+>tr|R7MK34|R7MK34_9CLOT
+MVNITKIANNLTNCQAAGTQLGRRNLPRYLYHVTTENNYQQMLKDGYIKGHHDLNSSSHL
+SGVFMFDLNNFSKRWTTMGIEWMGKLFTFARGLIMQDAKDDSNIVVLKIPTRTLSQRKLK
+CRNQLTDSETHNTYGDFATNQKHYTRKKNAIEYINEGNIPIQNVTKIGEADMGFNLRKII
+ENPTENSLDKLDVKKILQNLFKNTPEEKCINIATKET
+>tr|R7MFG4|R7MFG4_9CLOT
+MDRILVKNITILSLILGLALGILAPIPFIGMIMLFILLLGSAPLVMVYLIMDGKLELTTT
+KDSILTGALTGFMANITFSIAYCVVMVILSKGFHYTPNFFLTAMIENSPVWLLGTFIIFL
+GVLCATTNAFAGFATYYIINLIRDIYENNHKNN
+>tr|R7MCR5|R7MCR5_9CLOT
+MLNRLFGNYSDRERLPLGVQIAVIAVVLLFFGLTIELDKTMTCKSQYSYCTVESHNFFRI
+KKSKKLFMPKNVDYVNIDSYEKTIRRRHHYSRVETRYQVNIVDNNGKKTPVFDDYIATWQ
+AERSRDLIQKCIEQGSYPCVVKE
+>tr|R7MEN2|R7MEN2_9CLOT
+MWXMLLCGLVLLGLDKIYAKYFAKNEPKIFVMSPEEFFEKMKEQQNKEDKKDGD
+>tr|R7MCJ9|R7MCJ9_9CLOT
+MRIFAIGPNYYNLNLDKNKPKTGDLKNMDSEMATYINDLSGMPYVMPITFTGFAHSSKLR
+ALFAYKLPCMYTGIPMLDPKMITRLSSKGILYGPSKDILQVFERNKECFVDNESKIIALL
+QERSKIHPEMNLKELLEEIEPYHRKILRKKQAPIFMELTNIVNKKLPHDYQQKFQSLMVE
+TDKKLNDQPIYIPFSANEFKYKLAKARNILANGADIKTRKALNSIMKESKKLSTVTNDST
+IPNQQKVLASIEHILQKSPLAEDGELNNLLEISKLRLSQKKVVIPFSRKSFLYDLGKMLE
+TLPDHHLKKELIGIANKLPTSEQCLSAYVLKLCSEPSDKIALKLMWPSVASVEHIKPRSE
+GGENELANYGVARAKINSSRKSIPLDEWVVLHPEVKQNCQKYLDKLIDLYQAGIFQKHNI
+SPDYMMDFADTVKEQSKGKIQLDISRLFEY
+>tr|R7MBF5|R7MBF5_9CLOT
+MEKWVCTVCGYVYDPAENDGVKFEDLPDDYVCPLCSVGKDQFEKED
+>tr|R7MKP8|R7MKP8_9CLOT
+MKKVFVKTNNVKRFITMMNNLQNRAEGVPGMGLVYGEPGLGKTQAINWWAYKNDALLVRC
+TQLMSARWLLNEILDEMGEVRCGRLADSFKIIVRNFITNPQILIVDEIDYLTIDSRAVET
+LRDIHDKTNVPVILVGMTNANSRLKRYPHLYDRLTEIVEFKPFSQKDITSIVKELSEIEM
+TECAIKYIYSNANRFRQIVKIINKAENLAHANGLNSIDEILIKEVLNNDSEDKETM
+>tr|R7MBC5|R7MBC5_9CLOT
+MEDKEIDKIYELIDSEKHEEAKTLIVEILDKDPTDIDAQRLLALCEVNTEHYDNARKILE
+DVIKYRQDDALCWYYLGCCYDNLEMFTEAKFAYNKVLELRPEYVDAYKSLAIVYIKIQDF
+DKAKEIGKKGLEYSPKDDYSLYYILGTACMASKDLEGSIEYISKAIELNPENVQLYNNLG
+TTYLTCGNLDKAFEVYEKASEVDPKDSLTYFNMASILQVQNKHKEACEYFEKAHELEPTE
+DSYIVAWAISEVKAGKFKEAIEHYKFLASSYPQKATYKYNLACCYEVIGEFEIAISLLKQ
+LAMMNPKATNILKKLAGIYMTTGQYQNAKEIYEKIIKQGTTSYQLHYELALLSVKIGDID
+NAEQILKKVCKLKPEFAPAHKDLGVIYLNKRLFDYAKEEFELAYQYDPENYAIVLEYANY
+LHSTSNFEKADEMYQKAVELAPENPNALAFSALNKTHLKQIDKAMEQINKAMKKSSDSAF
+LLFIAGRIYFLAGDFESAKMYLVKSFELERIPDVQNLLGLCYMELGNYKQAKSIFSSMLD
+KAPLNINILLNMAKCCDSLDEKDDALKYAETIAENFPECEEAQELIRKLS
+>tr|R7MJ07|R7MJ07_9CLOT
+MQKTIWEKYAEVLVDYSTNVQKGDLVIIRAESMYAKELVRAVYKRVLERGGNPVVRTSFG
+DMAELFINNASEEQLDYIDPMTKLEYESVDKYISIGAPLNTKNMARVDLEKLSRRGKATK
+QLSEILMKRSAEGTAKWVIADVPTHALAQEAKMSFDEYSEFLFKSCYLDLDDPVAKLKDL
+DEKQTKWANYLNNVKEIHITGEKTDIKFNVEGRKWISCSGMNNYPDGEVFTSPVEDGING
+EIYFDYPQNYRGNSANGVHLWIKDGLIIKAEAERGEEFLHAMINMDDDSHGIGEIAIGTN
+EEIQEITGNILFDEKIGGAIHMAVGASYPETGGKNVSGLHWDMIKNMKNGGKIYADGTLI
+YENGKMLI
+>tr|R7MGS8|R7MGS8_9CLOT
+MIYNVTSKIMPNAKLPLEYVKNTFDKRNKIAKQKSIEFYKNITNECKDGVYSISRIRKCI
+DNLFAPNKINYTIKSEEREQFSGSIANILSVDKEKQILQYDGIALFLPLKKNKTEVENKY
+TLFHEVRHMIDYLYNPKVKMHRINNLINNEGYSNATDYINKFFMEEISSKTNMKKFRKEA
+SDLIDILPRDIAIETLQKIRSHLITEINAYSDEIHFRFKGIKNIDDFIDALNLKLSYKLN
+FKFEDKLKFANKKLNALLKEERASLKKQFD
+>tr|R7ME35|R7ME35_9CLOT
+MKNSKVKPMTKEQILISIDRLTRFKNTEVKYLRVFRDILTNNLIIPKFKKTELEEMNFEE
+IKNWAEFVINYSLEKMGKPQDGDYTINQKLFDYEKSVFIFGEEVEKLLKNKINYKACLDF
+IDETSPKNLQWLKILSSKDIKKIRKEKSLRFPIEKVVIAEGATEETLLPEFGKYCNFDFD
+KEGVYVLSAGGKNQVVKLYYSLSEVLKLPIFVLLDKDASENLEEIKPRLRSCDKIHLLAC
+GEFEDLLPINLVLRTLEYELKNISILEKEKLNEDIPRVKFLEEVFKTRGMHEFKKVEFAQ
+MVKLNIKTNEDISPEIRDIINEIKK
+>tr|R7MF66|R7MF66_9CLOT
+MQINSGIRYNDNGLTTSIRAMHLDSVLIGISNENVGGFDKVGYQKKEAVVSSFAEFLGAH
+AVSTTKDDRVGRINVSGNPLDIALANKGYFQVQTPNGIKLTRDGRFKVAEDSSLQTLDGA
+SVLSSAGTPIKLPFIPQDLKQIKIDKSGKITMFNPDTKKVMNIAQLGVVDANGIVVMDPN
+VKQGYNEYSNVALQEEFIKMMPIMKNFDANRQMFMLQNSVLGKAISQLSSSS
+>tr|R7MBL2|R7MBL2_9CLOT
+MLKDFELTSYDFYSNRRDMELISTIVETLKKILEEDRKQEQPLFLKISDNLIMNIARKVV
+QEKKKTFLIGITGESASGKTVFVDNTIKACLKNKTEGIYTVIRCDDYYKDTSKELKEAGS
+YEALFKTGFSFDTPDVIDLDLMKSHLVSLKEGLTIKSPRYNFVTCESDPNGDEKKPAKVI
+LTEGLYVLNEGVRDIMDVKVYVFTPLEVIKDRWYKRAAQRGKSGEAADLQFADVNKTAQQ
+YIRPAYQISDAIINGMVSQEYIQEITDKIFNALRAIEF
+>tr|R7ME65|R7ME65_9CLOT
+MIYNKFLLIISAFILIGSTYTNNQAFAIEFGEIKYNNAPIDYEKIDKESTLKLADFYFKS
+ALASKNPEERKKYLQKASGEYFILSKTNPGELYPIVQLARVYDWEGKDRYSKAYFFQALK
+IDKNNPSTNFYFGDFYLYRKDYTKAVYFYNKAFDNGFKENYDVILKMANIYEKLGDLLRA
+NQYYKKAFLLRPDNSRLPDKIREIERLKYQNTGYYKRTTK
+>tr|R7MC47|R7MC47_9CLOT
+MLNKNFIFLTIAFLLSNVNCANAENLTLKDLEFPKPPAYRVGLSEVPETQFIQAKQEKPT
+LEKTFAQIGDNRESAITDMTYADLSISKLSKEIGKELEFEENDMVSDLTLLWQGAATQSD
+TINFALYKLANPDADKPDSKSIKKVLTTIASMSTLVGASMASPVFAGSSLIGGNILNIMS
+QDTKALNYKYTRVNDADMIILIRKIEDLQQNAVNLYYDYMSAKKQLEMTTKLVEERQRKF
+ELAQKNNAPRELVVITDAYYRTAIDKQRTAKSDFFSKRAALEQFVGNETFVQFEKELEAR
+ENGTQEEQVENKEYNETIQNVENYTQNLQSPATEVKQQPLPTINEEAQNSYIDEIPDPNL
+NKMPDIQPLEIKKDKKSELTPAISGAAPISEEFETSELDKIAFGKKKTEHILTNDNSEEE
+IQPSKKVKTKKIKQKKEVKNIKPTAKKRKSARRSTAEELEPQFEFKKHDKYSTKGFIFLH
+GQDKETAKQQSPHYALPDPEGQQKAINQRQQKQSSQVNTDNLLPLAPIVQTNSQIQENNQ
+LYNLPPLDEIKAPALDGKGYSIHDFGDMAF
+>tr|R7M8X1|R7M8X1_9CLOT
+MEKLKNTEENKYFITSKKDFSPLPPFSKEIIDAVFDFAYDMTFGKEGEHRDHRSGGQHRR
+RNGEIFINTFQGKLSEFGIYYYLKKHNIIDLGRPDLEKWELGKWDEADFICNDKKISIKS
+TKFYGNLILLETKDWNSEGFYLPNNTQYNITILIRVKPDGEKLLKSQRLLFTDECRKEQL
+ESLIKSEKWQCDIPGFVTLDMLKQVVRDEFILPQNSYLNGTTKMDAENYYIQAGDLIDIR
+ELKGFLA
+>tr|R7MIP4|R7MIP4_9CLOT
+MTEFQSKIRTIEWMGTYSKMVDQTKFPTHFEYVDVTTGQQMFDAIKTMIVRGAPAIGIAG
+AHGVVLYAQELEKENLSREEFISKLLEKSDYMASARPTAVNLMWAVEKQKGIIKNSTSDI
+KTLIKELADNGKKLELEDIEINKKIGNYGAEVVPKGATILTHCNAGALATVGYGTALGVV
+RSAFANDPTVQVFADETRPRQQGARITTLELTMDGIPVTLITDGMCSYFMKKGMIDMVCV
+GADRIAANGDAANKIGTYTVAIAAKYHNIPFYVAAPLSTIDTSIKTGDDIVIEERSHDEV
+THINGKPICAEGVNVINPGFDVTPHELIAGIITEKGILRPDYNKSIAEAFGE
+>tr|R7MAM1|R7MAM1_9CLOT
+MKKFFTITGYLILGVIPCLYLAFLFYLPRKIDLNTYKPDIQKLVKDNTNLTLDYDDLKLT
+TSPFLEAGIKTGKIRVNLPDGSEVLSANSFKGKVFLPSLLLRSVRISNVEIDTPKLNIEI
+LNNESFKVGKVYEDIVNKQRKERLENPTIEAVEPQNLPIDVSKVKIFAPSVNLKNYSAVI
+DDTKAHHKLTLKGDKLKLGYFNGKTAKLKTEAKLLSDDNTNVVAKLDIDTFLPELKKEKK
+FQNNEEVFSLPFVNPVTAYRTYDLKSNINTKLKIRQHKIDKTILLNGYVDVENTTVKLSG
+LQLPESYFKLKSNGTVSDIDTNIYVTDSEYLNLFGTVDYGKDNPYIDLKLKSPKVHFANL
+LNITKAYLDTIHIQNDIANMTASGYLLANASLKTDFKDITSTGKILIRNGNISDKNIGLI
+FNNMKANIFLDNNTLQVLDSRVLINNKPLVFSGKIDSNSIANFDIKADKIPLSGLYLAFA
+PKDIKEEYILSSGNLSLNSKVTGEIKGISALLKTDLENLVLRDRAGNFILSNSDSKFVIA
+NYSGKIFGKMINKGFLFTLPKTNSVIKDELLTINIDNKNVKLNKSKIRVNNHSDIYLSGN
+IKNYLSDMETEFRADGGLVVSDIASFIGTDATPYLSMRGTIPIKALFSTHGKRMKVIVQA
+IANDSNYITPIKINNLDGKQSLFQFILNKNDDSIKIANSGLYSRNQNAQFNDNLYSNMGG
+AKEVVSIKGMVSNLNTTPFINLFKISIPRELDGSICIFNRSKFTVGGHLFSFGNLYSPRL
+TGDLTIRNLEIPEIQTKMRHGILNINNRNLNISLNDIDANGSDFRITTQTNFDLLQTMTL
+SNVRVFSRMLDVDKLMIASNNLMKSLPATPASSTASKTTTNIPVTVQRGIIHFAKIKSGN
+IVADNTTGRISLANNVLHLDRLRTHSMGGSVDGNIAMNLATTDLAVKVQGKNFDVEKVLL
+ELANMKDTLSGTMNFSTNITLKGLTMEEQLKTLKGSVDFNVKDGQLGPFGKFENFLMAEN
+LRENAFFSSTIGSVITNIATIDTSHFNSLYGHLTFKDGWANIEPIKSQGNVMSMYIAGKI
+NLLDNSADMKLRAKLASTFSDKLGPVANINPVNLIKNTPGLNVVAAKSFSIFCQSVSTEE
+LKAIPHLGKGKTEGNATKFQVVLHGDTRKPLKMIKSFKWLALDSEIQSAKDFVDTIPTPA
+EGEEGMTVEELIKLKEEQSTTKTQGTTIEQLEPEESNPSFFSKLKNKKKK
+>tr|R7MGY8|R7MGY8_9CLOT
+MNTNEEIVFKSNGWQAINRMGIINENYHTLILNYRELMNEIVRIQQAPEPFLLLFNNQNL
+NRYIFNFLASTSALIDSCRCVMNFYKNTEIHEHYTKNIKEQFANNSIAVFIKDLRNYQMH
+YKTTFPYVTPDKQVCFETHEFKQYDRWSKLSKEFIKEQGDFIILKPLFETYFKMLEPFYM
+GIYAELTQYHKQDFRETIELSTKMHVAIPNIYFQLAGCDKNSC
+>tr|R7MFL4|R7MFL4_9CLOT
+MQVQTISNNFNQQSFTGAIKISDNVAPKIRQQLDKILKDVDISKKPYDLEIKNVQDNKFL
+SIVSQNPNSPNEKYTVLVRDFLQKFSILNEAVGDAMKNFRKLSSMPKKNFEKTI
+>tr|R7MGK5|R7MGK5_9CLOT
+MSNIFKNIKYYLLSLKEKNLREKLKNTTKTSFSNKTSKTIIGSGSNLTLNSETKKLIESV
+RENVYAIVKQVDCNPEKLLEYIKAANTPVYKINNADKILALLKEEEGLITEQHGLMALYL
+FMALYLSICVGRGFSLKTPPMFVMREGVIDKYYMLHHFYRWYSLKSDLPGFEYEVQQKFK
+RFLIDNSPSAIRKFSMEDIISLKEAIARDQEATDFVLKYTKSVDGSKNVLDKIKNEGGAS
+V
+>tr|R7M8V5|R7M8V5_9CLOT
+MAKNEVLLSNAERLYVVDQLTIEEVAQKVGVNERTIRRWKTDHKWDLKKEQYLSTKTMFH
+EELYNFARKLMTSIEYDIDNNEKVDPGRMFAFTKMLPLITKIKEYEDGVINKPAKEENKG
+ITPDFVKLIETEILGMKTSEE
+>tr|R7MCR1|R7MCR1_9CLOT
+MVFIGMISGIPPAIAASYRTTLLFVSAKLNNSSPCFASNSLFAVTICFPFFIAVLIKSKA
+GSTPPTSSATMSISGSLTISYALSVMILSSNPSMLRFLFLLRTAIFTTSTFLKF
+>tr|R7MED9|R7MED9_9CLOT
+MHRITLINGDGIGPEISQSVMSIIKASGLEIDWDIQTAGADVIEKEGTPLPKRVLDSVKE
+NKVALKAPVTTPIGKGFRSVNVQLRKDLDLFANLRPCKNLPAVKTRFENVDLVVVRENTE
+DLYAGVEEQIDNDTAHSIKIITRKASERICKFAFDYAVKNNRHEVCCVTKANIMKLSDGL
+FLESFRNVAQNYPQIKPREILVDNLCMQLVQDPTRFDVLVLPNLYGDIVSDLTAGLIGGL
+GVAQGANIGLDCAVFEPVHGSAPDIKGQNKANPTALLLSAVEMLKYIGEKNYADRIEKAL
+FKTLSDGFCTSDLGGNLSTTEFTQKIIENL
+>tr|R7M9F2|R7M9F2_9CLOT
+MKTRFLQKCVKSAYEYATKGDYSSAYNVAKKCHPKEQQFLASFRNRAFSQLGSNDGASVV
+IDFAAYRGLQKGLKKVGGINGIVESANESSNQFFAHLSDDVSKRVISELPQTTLGWIKKD
+VKKSWVDLKYDVNETLRGLKSTIRTAKSWIQKKLPIKSSSNGKTALKSKSKAINIRKSVP
+EELKPLFANLEGKTGQEFVDAGYENLVKYMKLEGAAPKSIALTMSDGLWSVTGGFSPIKN
+TLQ
+>tr|R7MD27|R7MD27_9CLOT
+MVLSNSQLKGFTLAEVLITLGIIGVVAAITIPSLISKVQRAQIEAQVKENYSSVAQAMRM
+ADADDVEAMPVTVSVQGMKDWFNNFLAPYMKIEQACYQTAGCWHKRGVVKTLNHGSPAFE
+TAVGINDSTIGWGTMTFRTAKGAYFDLDGSGVGNSRGLFGINTDQSTMAFYFDVNGDKKP
+NVIGKDIYILVYEPDRGLLPAGIDKTKEEIENNCTNGNGYWCLAYLKSNGWKISDKTWKR
+>tr|R7MG08|R7MG08_9CLOT
+MRYKAKAVNFGIVYGQSKYGLAKALKISPAEAESFIAKYFATYPSIQATYPSIQAYMLNM
+VELVEEQGYVETIFGRRRYLKNEINSSNAMVREFAKRAAINHPMQGSASDLIKIAMIDFS
+KKLKDNNLKSKLIIQVHDELVVEVEKSELELVKSLVLESMELNQPLRVPLLVDINVGESW
+KES
+>tr|R7MFH6|R7MFH6_9CLOT
+MKNEIIIYQTQDGKTKIDVKIEDETVWLNQAQMVELFETTKQNISLHIKNIYEEGELDEI
+STVKDFLTVQNEGTRQVSRNVKHYNLDVIISVGYRVKSLRGTQFRIWATQVLKEYLRKGF
+ALNDDLLKQSGGGGYWHELLERIRDIRSSEKVFYRQILDIYS
+>tr|R7MIB0|R7MIB0_9CLOT
+MSENLKGNLFINRPKLAIVISFAILLAGLLLLNTLPLEEYPSITPPQVVVTATYTGASSD
+VIESTVAAPIEAQLNGVENMIYMSSTSQSGTYKLTLFFEVGSNSDMAVVNVQNQLQLVTP
+RLPEEVKRYGLSVKKSTGGPGLLLISVNSPNNTYDNLFIANYSDIFIKDELARIKGVGQV
+SVFGASNYSMRIWLNADKMANYKLSPNDITSAIQSQNIQTPAGDLGVEPMKNKQMIKLTM
+RTKGRLDEVKDFENIIIKALPNGSNIKLKDVARIELGAESYSNYSRISGKNASIITVSQL
+PEANAIDLSNKIQAKMKELSKSFPKDIEYKIQRDETEFVRESINEVIYAVLLAILLVSAV
+TYLFLGSARAAFIPFCAIPVSLIGVFIFMKFFNFSINLLILFGLVLAVGLVVDDAIVVLE
+NTQRHIQEGKTPKNATQITMQEVFGAVLATSLVLMAVFVPVSFIGGITGRMFRQFALCIA
+SSIGLSTLVALTLSPALCAAILKSDQEKADFKFLNTFNNWFDNLRDKYVKNTEIFINSPN
+LTLISLVSIIIITLGLFYIIPKGFLPTEDRGAVFTQIQLPDGSTATRTDEIAKDVEEKLL
+KIPGIRDTLTLVGLNGENTAFIVSNFKPWSKRHGKSESLNGIIMNINKTLANYPSATIAT
+FSPPAISGLGMFGGFEYQLLDKGNRTPTQIYEEALKLINNAKQNPNFATIYTSYSANLPQ
+LLIDVDIDKALAQGVSIPEVYDAISSYYAKSYVNDFNKYGRVYRVYLQADSEYREKLSDL
+RKVFIKNKNGQMVPLTSVITTKNIVGPYMRTRFNMYPSITINGSARGNISSGKAINTMEE
+ISNKILPSDMGYAWSGTSLQEKESSGQIGPIIVMSLVFVYLFLVGLYESWVLPITVLLIT
+PIALGGALFFQYVFGFALDIYSQIGLVMLLGLSTKQAILIIEFAKDATEKGETLINSAIQ
+AAKLRFRAVMMTNIAFILGLLPLVFASGAGAASRHSVGITVLGGMVAVAFIGTFLVPAYY
+VIIEKSKHKIYEYIKKKWGLK
+>tr|R7MC40|R7MC40_9CLOT
+MKKLIMAFAGLILSLGLMQSVDAKTIQVSALEDFNTTNPPAEIHVQMNANTRLDYDLMLF
+QGFQVTGKVVPQNGGFVFVPVSYVNFQEESLPITKEFPAVYKGRAGLIRQNQPFFLVFPD
+NGPDTFQYYVPSVSDMD
+>tr|R7MC73|R7MC73_9CLOT
+MTTVEPIRNKKDVEKVERYLQKQSARDHLIFVFGTNSGLRISDIVALNVGDVRNKNYVQI
+IEKKTGKTKRFPLNDKLKTLIADFVKGKRDKEPLFKSLWGRRYNRITAYYMIREACKNVG
+LEEKIGTHSMRKTFGYHHYQKFKDVALLQKIFNHSSQQITLRYIGIEQDQIDYSYSNFIL
+>tr|R7MJ84|R7MJ84_9CLOT
+MFTIINKRKTIVMKSFAFTLAEVLITLGIIGVVAAMTLPTLMHEYKIRQYKTGFWRTSSL
+IQSALKETANDFGYDNYEDLYYICGDVPSIGNCATENAELFKELNDDFLSKFKVMNTAPR
+SKLRATKFKDFSGKFSTSSYIELYGITTWNNPSGGGHILIDGTLISSIAFYHHGQYDGLS
+ITFDTNGPYKGPNQYGRDLFLFNVGHWYKLCSEKAGGSIYNGRGCYDYAKRDVNPDDTNK
+GYWRSL
+>tr|R7MK00|R7MK00_9CLOT
+MGMAASQARLLTITARLADNELKSQSINNAKMRLATQSSQASEKYINALNQANLMFSNYD
+ASGSEQSQLLTFNALTAFSSYNNQYGLVNAAGQLLVSESEAKIFEAAGGNLNDYLQAHGL
+VYDTTYFKQLQDIDNGGIYPEPFNNISTDTLKTWYEAYGSLENSQEQEDYKQKYNDYSTD
+TNTFKASLKTSFKNFANDSTKDVVSSTDDGKSVTFKRQLPNASLFTENTTFVAKFAKSLE
+SDLKNYPSETSKLWGYLTTDAKNEITSIKDSVLINGNTLTISSGKNIGSIKADDKTITIK
+GETWGYQYDETTKKYSFSTHPENETDEKGHEVTTYVTPTDGYSSLAELISGIQIKGTEYD
+ENGVVKSTDITNIKATQAADGSYSITSYKNYDLSDYDATNKAALGTTNAVNVKNAMNDLA
+ARIYAVLTDTNSINLVAIILDYNKGIDTGIDFTQEYEGKTISEYAKKYSDSKDAYLKFIY
+DEQSYDQVNEKLIKGEITAKDLTDPDFVLKLAKSDGLILASSYHTIIEDMFVSKMIEETG
+EPKYSWIDENDTANTGNADAKAQWYTNLFNRMKQGYKQLENGLASSSQWIEYALESGIVS
+MEQVDKNYTWKSLDYKTCTKITEETDNSAAVTKAEAEYNRAMNDIDSKDSMYDIQLKNID
+TEHTALQTEYDSIKNALTKNIERTFKFSSNG
+>tr|R7MFR8|R7MFR8_9CLOT
+MRYAISVQYVGKNYSGSQIQLEGGKPIDAPTIQGELEKALCTLILGKRYTEQDSENASQY
+NRPIRAIFSGRTDKGVNALAQVVHFDTDETIVASKFLYSINEILPDDISVSEIKEVDDSF
+HAQKTAKKRHYRFEFINRRCKNAFDGDLLRVKFKTDVERMQKSLNYLLGEHDFSSFKSSG
+TLNPSKICTIYEATVSKVGDKVSIDIIGNRFLYNMVRTIVGTLLEIEGHNLAPEHMKEVL
+EAKDRTKAGMTVSPYGLTLMKVMY
+>tr|R7MD15|R7MD15_9CLOT
+MKRLNKAFTLTELLVALGVIGILCAILLPIIFNIMPNKSTIMAKRVYYTVQTVVSDLIND
+EACYPDLTSASDTEKRVGFDDGFGYPNCSAWGGTEHTETIDTEGDPNVKFKTLFLDKLGQ
+TDIDAAQSNTTFATADGVEWAIHTMGYGTKNNKNVLALITVDTNGKSSPNCDQAAVATGA
+SGSYSNKIAGAESCNGRKKGFDRFTMAVYADGKIKINENDTWAINAIQVDRNITGDGTSN
+DNDNKL
+>tr|R7MD79|R7MD79_9CLOT
+MKRILIFGLFIAISMSISLPTLADDVDAPATGDLWDNWNTRQDEREAKPVSDEEFDKALK
+QVDQKVNKWKNWAEKRKIPKGEEFSQSNETEILNNEQEKSDNSLPVLTFPFELKIGEDYM
+PVGHYQIKGEKVDGQAVFKFYQGNIEMAQIPATETHDDFGEETITFSKWEAQGDNEIKIM
+YGSIDLNAYTYVPIREEF
+>tr|R7MF62|R7MF62_9CLOT
+MNSNNLCGGAKSNGIANGVYPGSFDNCGTPHVSYSVEDLTKKNTSIYRACSKTGTRGGAT
+GGKRTGIGSGCAAVIYKNGWKMPANYPW
+>tr|R7MHX3|R7MHX3_9CLOT
+MKTKIINHKEEIIDLSKMNIFEATKHIAIISSRQFSINPKTKIKYKVATPSIKNLLTDFS
+LSDMIEIV
+>tr|R7MBS8|R7MBS8_9CLOT
+MLKINSAFEPKLFNQLVQGSKATSERVANLRNIGTEQKDILLETIAKNINESNPEVTSAL
+SNMLDKLAEGKVAEAFDGIRGLLPKNAAIKETSLGTSVMADNWAKPVIFPKDSKMLGWVD
+NPKMVTTEDLWSAAYGEKPAHIFGSVGNSNIKPEQVRGGSSLSKKELSQKYEDAIVDFYA
+PIVNYLKENGAKTSDIGFAFAHSDCGVDKAARQIVEQHNLKGFATTPTEYTQYLRGTEIP
+PSEEFPNGAILADFPFPSVLTRGVGQIEDYANVYGKMVGKNNVESIFGGGEHAFIRDARE
+SLVSKDGANWVPVDIMKDKFGIVIPATDEKGVVTNAAANVLERVNANPYEQYKYAFKNYL
+PESKLKNELAQYDPQAAVATIAYTNLAKAGKIDKI
+>tr|R7MHL4|R7MHL4_9CLOT
+MKTKLLVEQHFHGCYGVDFNTATVDEIIDV
+>tr|R7MJR6|R7MJR6_9CLOT
+MKKRFWKIEYSITIFVIFAIILLLLPSSFISSKEAAYIHKWNETYNKVDYMFTAMTAQAS
+ENIVKGFHRAKTNEEREQLMITLVKPYLRIQEEDALKTKYKQYYMNGNKVNPKDQFYFDK
+LYNSNNGQIIGIKDIKDEDIYHPGFLMLFDMNGLKGPNTWGKDIYGINIFVDGKITPIGS
+GWNIDDVKKDCSETGTGVSCSYYYRIGGEFNE
+>tr|R7MCL5|R7MCL5_9CLOT
+MKKIIATALCLTLATPCFAASRYHDKYPNRGFHNHKHQCYDRCAYNDHHKRHHYTRTSER
+TRTIGAVAGIAGIAMIISAIVD
+>tr|R7MI70|R7MI70_9CLOT
+MEKSTTEKFLTIHGHFYQPPRENPWLEAIELQDSALPFHDWNERICKECYNPNSVSRIVD
+NKNQILDIVNNYQYMSFNFGPTLLSWMEEFAPLTYERIIKADIDSISEHSGHGNALAQVY
+NHMIMPLANAHDKETQVKWGIRDFEYRFGRKPEGIWLAETAVDDATLKVLVDNGIKFTIL
+SPYQALKIRKTGDKEWQDVSWGNIDPARSYKYTLKGDSKKSIALFFYDGAISKSVAFDEL
+LKDGNRFIKRLKEGVSETRNYPQLVNIATDGESYGHHTKFGDMALSYVLKIKAEDEGFKI
+TNYAEYLDKYESDYEVDIKQASSWSCFHGVGRWKEDCGCSTGGHPGWNQKWREPLRNALD
+YLRDGLAKVFEAEGPKYFNDNPWAIRNKYIDVILDRNYVTIRKFQKENFKPDLTEEQKVK
+GMELLEIQRQAMLMYTSCGWFFSEISGIETVQIMKYAARAMQLVARFTNEDFETHFKDIL
+SQAKSNIAEFGTGKDIYERFVKPSVVTAKQIACLWAISSLYQDFEDEEDVYCYTVKRHSY
+QKVQKGSSNFLVGHIEISSKVTLQKAGLMFALMQYAGGDFHCAIKEFSNDAEFNELQTTL
+IKTFALNPITEIIRTLDEKFGKEYFTLKDIFIEERKEILQILLKDQLEKFGNTYKEMYDQ
+GKGSIYHMQNLGLEIPKEFKISAEYALSHRYNDLLAGSDGFVEDPIVQQIKDINYEAKRM
+NIDIDKTPSNKNFAKRILTNLNRLTKSFEIQQADTIIELFEMIEKLDLQIDISEAQNIYY
+NKIYHRIGDILENNEKEPRDKDIKFVKLLLNIGEKLNINVGFYKSKLEKLGFC
+>tr|R7MKC7|R7MKC7_9CLOT
+MDNIILFYGPYDEFKKHIPQNFTNLTDYIYQSDKRHKDIRIYQNTDSYSYVPEKIDILNL
+VAFSEDYANLNEHAIQAFASLLAEDNITNVYLQNPPYQIVSQLEKKWNKILKKINYDYKK
+ITKSFLNKINKNFDKEIIGQTEVKLRLLSSLYTLTKTNSAKNFCVILFYGPSGVGKTETA
+KFLSSLMNNKKIFREQMSMYHNEEFSSYLFGGKHSQDSFAKRLLNRKSNIIVLDEFDKCN
+PIFHSAFYQLFDEGIFKDKNYKVSLKNSIIICTTNYLDVNNIKESLGEPIFSRFDAIIPF
+KELSNSDKEKILKKELSSELKTLTKEEKKYINKKELEAFLNQNIIKIGNVRRIRNFIKDS
+INYRIINKIFNR
+>tr|R7MCD1|R7MCD1_9CLOT
+MERYAIKQLIDWKNKKNHKPLIIQGARQVGKTWLMQEFGKRYYKQVAYINFDLDEKSREI
+FGIDYDTNRMIMDIGLATKIKINPEDTLIILDEIQECPRALTSLKYFRENAPQYDIIVAG
+SLLGVACHEGTGFPVGKVSFMNLYPLSFEEFLLAMDEERFVELLNNKDYKTIKLFNNKYA
+KLLKQYCYVGGMPEVVSDFVENKDFMSVRELQNEILSAYEEDFTKHIPENTVAKIRLLWK
+SIPAQLSKENKKFIYGAVKEGARARDFETALSWLINSGLIYRVNKITKPDLPIIAYEDFS
+AFKLFVLDVGLLGAMTGLEAETIIDGNRIFEEFKGAIAEQYVLQQFKTIKDLPVMYWSNE
+TSRAEVDFVIQLKSNVVPVEVKAEKNLQAKSLKVYMEKFKPNYAIRTSMADYKKTENLID
+LPLYCIDECTQGDVL
+>tr|R7MJT4|R7MJT4_9CLOT
+MINVNLKINHAMTHLPLKVAKGTAKQRLDKAISASDEFFGNVKSLYLKYGDITPELFAKT
+LRHTAKTKDIQVFTEELPGLKNSRLSYNLNVENSTHEGYVLFLPTAKYSDRYTREGGIPK
+TTTPSFMKTVFSFMNKIFNPKVAKRELTVNKYDYTTFKDFYQHSIIGTNNFTQKELSQIL
+KGRPAQEKIDLLQFFRYSMTEQLNGNRIANKCKTDMDRKFRTDTLERVPKFKIKAFDFPN
+KIKLVEAELAKILKQERANIANS
+>tr|R7MFK3|R7MFK3_9CLOT
+MINREDLLAGTRPEVGKRVLVTEKESFEGYQVMDYKGVVWGISMRAKDAVQDTMMSCKNI
+TGGELTSYTELSDEVRQRAWDRMVSSAKRIGANAVINFRFEITPVSYGGAYGTAEVIAYG
+NAVVIKPIVNYVPLGGLGNILAEFVDSYSGNQSSESAQKPTKHSPVAELTKIGDITYAVC
+PNCKLKYKVTKDENGKMKVLGLTDVDTKEEGFQIYCSKCGEKFTIPEVE
+>tr|R7MHJ7|R7MHJ7_9CLOT
+MSIVGYVAQATSIVPVLMVISIIPAVSSRLVKYLFQEQE
+>tr|R7MAT1|R7MAT1_9CLOT
+MKKLLSFFLSLGILSLTPISVLASDVQCECIKTTESLAKTHSKAPNNCINTTENYYILSK
+GNVIKVAFECKFLSECSKEGDRVYFYVPKDILSSCGTLIIPMGTKFSGYIRGITPQKKLN
+KNARAYINIDKLILPDNTEFEVKAKPFSKDFSLVENGWMTAGKLAASTVGIGAIGTGTGV
+GLAFIPKPHKIAIGAGTGVAIGCFIGLVTGLVTPGLKYHARQGEEIYIILCEDLIIPKCS
+IKEW
+>tr|R7MCN8|R7MCN8_9CLOT
+MTSHAEKAKELFENGYNCAQSVFATYAPEFGIDFNTALKLSSSFGGGMGRLREVCGAMSG
+IFMVLGLSKGYISPIDMDAKAEHYERVQHLAKEFEKVHGSIICRELLGLDCKSDSYVPSE
+RTETYYQTRPCGQFIYDACEILDKYLQEINVEQVDLR
+>tr|R7MD86|R7MD86_9CLOT
+MRKRAFTLTELLIALGIIGTIAALCIPSLMTTINNKSLAIQLQNNVAAVQQAIANQKIIK
+NTKDMSETAFANETDFYALFQSSKGETCSASSTTKCWGDSYRVIGGRNFSLAEETPPAVA
+IRLKNGATIAYLNGKLNLSAEASKKALCEVLIDVNGPDEPNIVGRDLFGFFISKDGVISG
+NRSTNPGTCDTPSECFNALVKNNYNVPDDKHYYNTDEHDEG
+>tr|R7MFN0|R7MFN0_9CLOT
+MKSLLVHTPQLCHNKDTGEFSSNINFCAMGLYSLAKEIEKEGIESEIIHLGIEKYLNPKF
+LLSEYINEQKIKFVAFSLHWHPQSYDVIEMAKIVKEKCPQTFITLGGFTASYFAQEIMKN
+YPFIDSIIKGEGEIPIRELAEKIANNDENLSTVPNLFWRKNREIAHNSNTFVATDEDLNS
+FTFFDIKKMKNFNSYAKIPFHLEYNKKNQLNNQPMSSQGICLGRGCTGDCTWCGGGHYAT
+QKVTGRNFISYRNTDEIIKEIKMLKSECKIENFRFAFDPHPENRACLMTLLEKIEKEFEG
+NLTTMFTLNGLPDKNFLEAYSKAFSKNSVISISPEFYDEKLRKKHKTFYYSNSELEEILE
+YMDKLEIHSELYFSTLPITTDQDNKDSDRYGKLLQRKYKCVEKYYLIPITYEPAAPWTIN
+PEKFGINFVPKKFAEYRMNATNVALSFENPVFLATKEL
+>tr|R7MH74|R7MH74_9CLOT
+MTEDDLFGEGVFMFDLANLTKFWTKTNNKQKTNFAQTLIDYVTRRSGNSSISIFRIPTKN
+IPTDALSIRRQDKLFEIGNKYETTSDIYNAYARKEITEKVMDEITIGSPATLSNKFDRKK
+IPIEYILEENIPAKDIELFGTAKVDFNNLDLKSVLKQLFADKKENIFLYKFL
+>tr|R7MHQ7|R7MHQ7_9CLOT
+MTKLNEIKYVDWQFKLNGIGDVAEGVEDINQCIALILNTPKGSDPHRPTFGSNILKYIDY
+PVNIAKANIIRETIDAISMWETRVQVNSVLFDVECSNIKIKVQWTLNGSSTKGTAEVTL
+>tr|R7MCF4|R7MCF4_9CLOT
+MCENRIKIRVLNGGHNIPKEDIIRRFYRSKKNFWNIYKNLVDEWNLFYNGNSEYILVAQY
+SNNDIEIFNENLYNEFIKDLK
+>tr|R7MAY7|R7MAY7_9CLOT
+MKKAFTLSEVLITLGVLGVVAAISLPLLVSNTRGRQYRSKLRKTLSSVSQAARMSHGMYG
+FDFAGIDEACQNGKNDHPEDVRSICSMLNGTLSGGTYIDKMSDLNIPDDSAPYSIISPYL
+HSLGYSNAADYHAYILSDGTIFAFYKGLGSHNGCPGKFDPAYETSDCVGFIDVNGVRLPN
+KEINCTSGVNSLAEMSCVVKNEAMYMTDIYPVRVYDGIVEPATAAGRFVLRIAN
+>tr|R7MCY4|R7MCY4_9CLOT
+MKRFNKINAFTLAEVLITLGVIGVVAAMTIPTLMTNLQNRKLESQFKEGYSILSQAFKSW
+QDDGLENRHYSRFMTYFTGVTDCGDTESTKDDDEYCMVRTSNSDGSGSHLTNRDLSYRTF
+SKKSRQIATYNLDDGQFYLQNGMLIMFDQNHADILISMDINGKKQGPNIWGYDLFTFQVK
+ENEITGVYELVPMGAPGTYITDKSTYCSLTSTDNQNGIACAYYAMSDSGYFRKLKK
+>tr|R7MIJ6|R7MIJ6_9CLOT
+MIKDKALTYFNNGYSCSESIVKAAIDEGLCPKDLLPCATTFSAGMSSGCACGTITGAQLV
+LGYLFGRENKFGNQASAREKAAELIEEFKKRNKVTCCRILSSGLVGSAKKEHCSKFVEDV
+SDILESLVKVTV
+>tr|R7MBV5|R7MBV5_9CLOT
+MNNREFGNKGEDLACEYLIKNGYKILERNKHFSKLCEIDIIAKLKDKVVFVEVKTRKSNA
+FGSPMEAITKTKYHNIKTGALSYVQEHKIKAFQIDVIGITLEPILKIEHLRNV
+>tr|R7M9N2|R7M9N2_9CLOT
+MKKLKSLLIISALLVSIPTATNAMQTKAVKEQQAVNKNSARQMQEMTDKNELFTVDQKID
+ILSKKYLNNFRTCEPLHISESMDIFGLKISFQVDINGWVNNKCSYYMTGNIGGLGKDIRE
+VFNINQSVTDEQIAKFKPVIECNFSKDELNTMVDAFVARSKRNTTQIAQMLEKPNKQYND
+SIQKLTPEEEKLVQMITTGNVCKIPNSAELMEQFSQFIMPAGETK
+>tr|R7MI50|R7MI50_9CLOT
+MFQRLLKGLFXGAVLASKIFDEIGFDSSPKYNEKRTDIIQNITFGSPEPLEHFCRTIQSL
+SPVNGYVTPIPEYIPGYEDQVIMAGGTFVEGSTIELSADGPMRAPYVAYMQGGLNYAHVK
+IALEKILDKVNK
+>tr|R7MJ93|R7MJ93_9CLOT
+MKTADSGYLTRRLVDVAQDVIIRADDCHTDKYINMKPITDGDVVIVPLIDRLLGRTVAQD
+IVDAEGNVVVPNGKTMDRDDIKKISGLNLQELRVRSGLTCGLEYGVCQKCYGWAMTTQKL
+VDIGEAIGIIAAQSIGEPGTQLTMRTFHTGGAVGVKEAKKEIIAREAGTVVSKIKARELR
+TRHGDIVQVSMYEADIEVKGEKRTTKYHIPAGATLFITDGQEVAKGFKMAEHAPSSQGDS
+SRLTEKATKDITTDISGEVVFEDFKADEKKDRQGNILRTTNKQGIVWVLGGDVYTLPGGS
+KVLVKDGQKISKGEKLAETLTICEHGGEVRVGDDLVVEEAKFDGKKIKKIVQGKELTIVI
+ASLQPENASFEQTKKEQLWTVDSTGEKYIVKAPVDTTVENGMIIAELIDDDCSVSSSGEI
+RYVDVEVDDNQIITKPGKVVFIPEEVHQINKDSTLKMVENGTAVTAGTEIVKDVYCHIDG
+IVEFKEYNDVIHEITVRPGEVHTLSNISELKVDEGEVVKKGTLIAEGVKAKETSIVTIMD
+SAADDLPIDDLDEDADASLTIDEDSIANQPVQILVRPVQVLEVNQKDVSIAFNTTDELID
+IVPVTQLQYKDGARVRNVDGATITRTSLVLQMQGYLSHLKGMVELDSNGSLRIVVLENLI
+VRREMEGAANAALQTELLVKDGETIDPRTPVAKTQVLAMNDAVASLKGDGEDVRRLLLIS
+DSCETTIAVKGKAVIKKGDFVKADKVLAESGETSPVSGLVTAINKGEISIRNGRPYLISP
+GTMLQIDSGSLVLRGDLIATLVFEREKTGDIVQGLPKVEELLEGRKPKDCAILAENDGTA
+KIEIDDEGFPRLFLVDNEGSSTEIKYAIDANVIVSNGQKIKKGQPLTSGPLNPHDVMRLS
+GPEAAQQYLVDEVQRVYRSQGVEIADKHIEIIVRQMTKKVKILDAGDTNLLPGELIEMQT
+FEKENKAAEEAGNTPATCEYMLLGITKASLNTESFISAASFQETTRILTEAAVEGKKDLL
+RGLKENVIIGRLIPAGTGFHHLINANEERDREERKRAVAQRNQARKPSAILEEIEGMFGA
+PDFNVDDEQH
+>tr|R7MD94|R7MD94_9CLOT
+MGIGKIGTTIGKEIIVWTRTSSKSLLASRPVKINTRGLKYVPKLEGDLVQISKNSKIIIP
+EDKQLFPWATKKPALTFDNINPESLVLVRMTNEFPEMGEILSQYARKNRDGLGFPRTTVH
+FTLNRSVKEDLTGLNWTTMDYAIISPFSETLKNTPVSKVVGGIQEDFMFLDKVKLPKDSI
+IVKYNPNIPAQELCVSEIFDGIRMVESSNRNIAEVANLVVEKMGYTTSDNALAKFLSLNS
+KDRIPLFSKNEESIRRFIRNIEDNGGIKKLINSLEKDIQLKEKIIKNETDEMFVYRMEES
+LKRVKVSLEQYKTLEKYYDKLLQYSNSWTDFCKKNNFINQMDSEAPYQKFATSISLIDAV
+ELLNKNSWGKDYKQRIINILNEALKSISSDKELCIDYKKVKKIIEESKTPQEAVEIMRKE
+FKIKSSKQLYKNKNLDDIFEINEIDYGINRKQNNDYPFFYLPF
+>tr|R7MAX5|R7MAX5_9CLOT
+MILSVIMKPINKLNRNIAKYDIYELYSSLAEENNFSNDSEFIDLIKKSLEQNIKSKIFKY
+GKQTEKMFAYVLSNLSECELIKKEDAGEIYSNNEVVIPDFRIILKNREQLLIEVKNHHSK
+VKLKDFYLRKTELQELKNYSNLMHTNLKIAIFWSNMRMWTLVDTKFFIEDNKYASINIET
+AILNNEMSILGDYWLATNPPLELKLQVKENELSPKCLNGVIDKVELYSNGNLITDKYEQN
+LAFNFILFGNWQAKQYIEFNEQTDERVIVTESNPIKGNEEEQPFYMIGTLSSLISNKYKY
+IVNYYQSSNSNFPKITPEKLSLDIDENNYIGKILHIWRFKVNKNM
+>tr|R7MB70|R7MB70_9CLOT
+MELNIYCENEFDNWKPNEEEIIKVTKKIFNSYMEEPEIADHCAITERDFKTVAFDILFCD
+SKKTHVINKEYRNKDYPADIITFAVFADSPEEEKFILDFEINLGEIIIALDKIIEESQKK
+EIPKEEELYFLISHGILHLLGFDHQTEEEFNFVVKHQKMALKKIGIVYDKI
+>tr|R7MHP0|R7MHP0_9CLOT
+MKKLLVVLMAVSVLSLGAAANAGTLSDALNNAANKVGQREQSLTNAQKEAQKRQQERQKA
+YEQQKKAHQKAVEKKKQEWQKQQEQARKDAQARQEANQKALEKKKQELQKQHEQAKKDFQ
+SRQKANQKEMQKKRDAWNTLIGK
+>tr|R7MGJ6|R7MGJ6_9CLOT
+MTVEYEQIKEKFLSGKLDGCETFFEKNGFYTEAGYCYIILDELEKARDMFNRALISDIRA
+HWGLILLQMLGGKVTLNPTYFEIRNFLELDLSIFIRYYKAGYINEILKFADFMAYYNPEC
+YKYIGRVFWANNFIPAAMFFLRKAKDKYYNDPELHYLIAYIAYHNDNDLKQSEKSLKTCL
+EILPKYAPAEALLRVIKNKS
+>tr|R7MI66|R7MI66_9CLOT
+MYVNKCIKCGREFETKNPKRVICPDCLYPDKKMMVNSSESGDSPATSQPAEQTPSYSTEE
+KPQFYNSYSSGGDDNQRPYNRPQRTYNNRPQQGGYNNNYNRQGGYNRDNRQGGYNNNYNN
+RQGGYNNNRAGGYQQRRPQGQNRFNNNRRPMNNRNKAPKQLLVSKEQLEQIELLYKLMLP
+LPNPDAHEVIGEKIGLEPRKVFFGINLVRQKMMLPKLPFPKRKLAITPDQLNAIKMLYEP
+LLPLPPIGCHKIIAAQLKMDEWRVHVGIGLVRAQMGLERWNQDRPDAPEEFKNQKAEEKS
+EKAEKPKSTRKKKTETPVEEVAEAPATEEAVEVEEAPKKRRGRPKKVEAEPSEE
+>tr|R7MH59|R7MH59_9CLOT
+MISNINNLLAEVAANPWKVYYYIAIFSTILFIFKLILFSFTGGGESEVMADFNTETDTDP
+SFGFFSFQSITAFFMGFGWMGYAALTQFSFGHKMSFLLAFAVGFMFMFMSATLMFLAKKL
+EKKVTNNKADALNKIGKAYTSFHPGSNGQVEIEFNGKLQVVNAVNTTKESINSFDLVRVV
+KVQNDLLYIEKVKK
+>tr|R7MC64|R7MC64_9CLOT
+MDIERIQLKGQLSEAKSKFKHLDTEAAGLVILIRSLLNPFEEDTLKLEVEKASVAFNRLQ
+EVFGEMQTLNTKIQKLEDYFG
+>tr|R7MEU4|R7MEU4_9CLOT
+MANKLKGTKTEQILINSFAGESQARNRYTYFSKIAKEEGYEQISEIFLLTAENELEHAKL
+FYKHIGNNNNAHVDAFYPFEFGTTEENLKSAISGEEEEFSVLYYNGELVAKEEGFDDISD
+TFRHVRVSEQHHAKRYRELLENLTDGTLFKKDRKQEWICRKCGYVYFGMEAPLTCPSCHH
+PRAYFELLCEKY
+>tr|R7MJV2|R7MJV2_9CLOT
+MDFISYTIKFLSLLAHFVGNYGLAIILLTIIVRLAMWHLNVQQQRSMKMMQSLQPKMKAI
+QDRYQSNPQVMQQKMMEFYKEHKFNPMGGCLPLLIQMPIFILLYSALISPQFIQVAGDQH
+FLFIKSLATTMRATAGISNNGILGIDKNDKLVLGNTATVYLPGEVIKNVKITDPTQGVEV
+QGEIEPGKDLDLAVSLDHVKLKFSQQDKIEKADLTVTNSNIRENETISFVRDGGVLKATV
+PTVPVNKTLHWDVILLIVLFAVTMFISQKIMMSMNKTDSSDPTQQALQKSMGTFMPLMII
+ATFVIIPIPAGVLLYLITSNIIQILQTILINKQLEIEEEKRKNGVSDLELKNAKKVTDKK
+>tr|R7MCQ5|R7MCQ5_9CLOT
+MMNNVSFTGLQNVGACHVAGTFERGKMVGTSLLVNLTNDFKGKDLTEYENVMRKCSDSFG
+HYFPHDKNFLHIQTQKFIFNDEDFETVPQLIVNGFPVEPETKTMPLFSYIAKLTKRIIGS
+TEGDIKIANDFKYGPDADIYISDIKISELEASQERRKLILDNIYSLPSAKAGANNINNDI
+QAQMMDYFA
+>tr|R7MKT2|R7MKT2_9CLOT
+MEKVGLNITPKEFKQLSKWLENIYNTAVVMDYFVANQPEIEECYNLAPVVKHLRNDADVL
+NAFFIDHEKDVET
+>tr|R7MGP8|R7MGP8_9CLOT
+MLKEYEEFLKDFDSIISQLFENQKKYVKCHKGCSLCCEIGEYPFSQLEFAYLTQGYLQLP
+ENRKILVQQNIRNLLMDKKEYKGEKRFEHKCPFLINGECSVYQYRGLVCRTFGVCYYDDV
+KGVTMLPECVHYGLNYSENYDDENKELHVDYIPRVNLRIDRILNSQLAHKYNLESGEIRP
+IVEWFGTKK
+>tr|R7MFS6|R7MFS6_9CLOT
+MIANFKKLCYIIHMKQNFKYYKSAFTLAEVLITLGIIGVVAAITIPMLIHNSRAIEMRTR
+LLRANSIIQNGIGRMVADEVDVAELMETRDYGLLRKYFKDGGCAVPKNASEGKYTNYYGN
+SSIGNAAAQKIIWPPYCLADGMLLWFATLNEYRSAGGWTSTSYTVLLVDINGLQGRPNKY
+GQDVFFWVFNPDDGRVHPFGKSVTYVLDNIASSDYYKYCPGSKSWSEAGIGCTETALSDE
+AYFKRLKF
+>tr|R7MGD8|R7MGD8_9CLOT
+MNVLFCTDGSKISYNSIINFSSWVKDFSLDILSVVDWSCLPDSVSIENSEFASQCSTSAN
+VILDYAETYLKEMGLNVAQKIKICGEAVDTILDLVDSGKYDFVVLGSHGKKGIQKWLGSV
+SQEVASSANISSYISKNINNRKKVLFAVDNSELSAKVVLNSLNFLNLEDKEIYLATVYEV
+PDYLFLEGNVDSTWILEIEKKQEQASRLLLNSFEKSFIEKGFQVNDKLIFRGVPSQEIIN
+FSNKEDIDLVVTGIRTRKHLSKFLLGSVSKRILENVKSDVLIVHP
+>tr|R7MD99|R7MD99_9CLOT
+MATALDFEKPILEIQEKIEELKKMSLESGMDLNKDIETLEQEAEDFKKELFANLDPTQKM
+QIARHPERPKFLDYVNLMCTDFIELHGDHVGTDDRAIVGGLAKLDGKPVMIIGTMKGKST
+KENLEYNFGMPQPEGYRKALRLFKHANKFNIPIVTIIDTPGAYPGISAEEHAQGAAIAMN
+LREMAKLSVPVVAIITGEGCSGGALGLAVANKVYLLEHAYYTVISPEGCASILWRDASKN
+LEAATALKITAPHLLEFGIIDGAIKEPTRGAHTDYEMMASEMKKTILEALDELSGMSGEE
+LRTQRYDKYRKMGAFLEG
+>tr|R7MGZ7|R7MGZ7_9CLOT
+MHIQNISQQNFTTRLLKNKTVLKTLEKISDHGTSFSAGTSLALSLVMRPIAIFSTPKVEK
+ENKQYAATNSICSGLIKFGIVEAVALPIEKAVKNIDKYSEKFLDNKTIENLTKNTGTLTD
+SRSYKLMTQIIKLSTGFFTAIPKSMLTLALIPVLMGSIFKTKVQNPKEEKKVQQITPFTA
+SNREIKEKLNFTGNIDKLSKVLGKIIDNKHFQNFAKKYETKDKDIAKHITAATDILLTTS
+FAVQTNNSKKIKENRKKALIYNNVISTAITLGGGYWLDKMIAKGSTNFIEKFKHINAKDP
+KLNKYIEGINILRPALIFAGIYYCVLPIFSTYLAEKVDKFIEKQKKS
+>tr|R7MJB9|R7MJB9_9CLOT
+MISTNVSEDLKPLAKVASGGEISRVMLAIKSIFATNDDIDTVIFDEIDTGISGKASQSVA
+DEIVELSKSHQIIIITHQAIIASKADKHFYVRKSQEDETKVEVYVLIGDNRVKALAELAG
+GEINEQSIEFAKSLLVQ
+>tr|R7MFD4|R7MFD4_9CLOT
+MKQRIVKIAQLENNKTPFIEWVNSLDKVTRARIQSRLTRILENNFGDFKKIDSEISELRL
+KFGAGYRIYYTEIEEIIVLLINGGDKSTQSKDIEKARKILQEWRNLQ
+>tr|R7MH82|R7MH82_9CLOT
+MGLATSQARFLCITARKADCEYKSTELAQQKLEITNQLSDISANYANAMNSTKLVWKNDL
+VENDYGLTYNLLMTPSAANDYNPYMVTTSSGAIVLNSEYAAAAKAAGISKAGGISSADGR
+DKFIAALVPNGIVTQDTANSIMTTDYVATKMDDGTLKLDKANTSATTGNVCWNSGAGMGS
+TPLDKNSVDGLDISALITSDLIGKQLVDWAQLITTSSEQITSAKYDSTIKDYDVQIKKAA
+TALQYAEANTEDYTAKEAALNALKDEKANFIAKYPKDKIVDVDRNSFQMDNNSIHDTGFT
+VVSNGSITYDEDTIKKMTIGDLLSSNIVLMTQNQSADKMSKYATELMESIASIFGYRNSG
+HGLNMDSKSNEALEFAMTMVKNINLKASNAITQGTSVDDKAMTNNSAYVNANDYNRIGTG
+GKYVFPKGPVSYQAVSVSNLLSSFLTYYDNYMNGNSSAYVVGKRVDTSAFVTDDRNYRYF
+AEAEGTATSQKEKLADFYDQLYNNLCEKGWREDASVQDNEYLENALKTGRYAMSSLHEDG
+YFYQTRYNETGYIVEETDSDAIARAEAEFTQKKAELTYKEDAIDMKSKKLDAEISSLSTE
+YDTVKQLISKSIEKTFQMFQN
+>tr|R7MHZ4|R7MHZ4_9CLOT
+MDLLVANTLMLHKGKNLDTICQAEVLNTFNKTRQDIDKIFYSMYVTEVVNNFGLEEDPSS
+EVIYNLLYKALNTISSAQNKVEILIAVIKFQLKMMIESGFSLEFDTCLHCQCNIGEETMY
+FIPTAGGVVCKNCAGKLYSAKKQMPHKLRDFFKQMAINDFDEIGEYETKANEKVCTVSFQ
+VLKEYIELKSPKKFKSTEMLQDVQPV
+>tr|R7MDX6|R7MDX6_9CLOT
+MAGPKPAALPLGDVPXXXLGDVPIFNYQQYLFYPLKIKCQYLFLFFRRFYLISLKNSLEI
+NCEYLLFSLAEIKILSFPFESWTTEIIPEISPIGNFLILAVNFTYGIXXXLRMEFLSRKI
+SFFLVL
+>tr|R7MIY2|R7MIY2_9CLOT
+MNVNFNPNYQSPNFGMAIKIDPNAKAILKKQTAGLSDSSFIKFWNSFDEAVERQAENPVD
+IIIRKCNHRKALAAEVVDNGSEPLENTVYSQGFIFPSKIKFINKAEKRAETLNDLNQRLS
+KYTEAVEDDYLTAIEKESAGGMDIEA
+>tr|R7MAJ5|R7MAJ5_9CLOT
+MQSFGKIITSIFLTLALFTPEAYALSEVKVEQGSVLSLNDCVSIALNNNPAIKNARYNYG
+LSKTNVGSARSDYFPTIGVGTGYNIQDVSGRKVSQNTNAYSVEATINQLLWNFGKTNAHI
+KMQKFYLIADEYNFYNTVRETTFDVKQKYYQVLAARATVLINKAYVQINERNYQRTKAYF
+DEGIKSKIDLVNAEVTLSDSKIQLVQAENAYKNSLVNLNNAMYLVNAPAYSISGTEIFNT
+SVADNVAPVDLTKITKPSDQEISKLPVNVKDAKLTSSVETLELLTDYKVEEFPYSFEECM
+KMAYKNRADLKAYNSTLDAVKENLVYVKRNYYPSISANAGYGFRDTNSTNSFNVGVNLSS
+SVNIMNQKYKVDAAKYQVDIAENSLNQLNQDIYFQVQNAYIDMIELEKQIPLLAVKVRQT
+LENYELAEGRYYVGLGDYIQLQDAKVNYNNAQCSYIETIYKYNVARANLESVIALPQPVT
+VTLEGK
+>tr|R7MH31|R7MH31_9CLOT
+MTFLKMYAPYMKMLNIKDIPINITEIDSILTNAKGYYELIAYINETRKVIFRFNIGAFRN
+NYSLNDILKMDLKYYAIKVGTYPEDKLAIEKEFPVTNEEPDVYNAMNKQDINNELDVYDV
+ILAGVECKNG
+>tr|R7MGQ4|R7MGQ4_9CLOT
+MQNQNNNNQVGVSSTASYPDSNGYVDVIKQLEDALRCDAQRVQMLMQQGTISTSQGQYLI
+TQLARKYNEINAFKTSVPSQNANVQPLPLEQVQVPENPMELFIQEHPDFFKKGARASVLD
+YIKDLDMDKDEISKIAKIVEGLETSAVDGYLKKSAHEKSLNDENAVAKSKLTSYAQNAPK
+DAANGRIFTREDIGRMTVDEFAKNEKLIMDQVKQGLIK
+>tr|R7MAI7|R7MAI7_9CLOT
+MLDFKSILKMATVSLKINKMRSILTSLGIIIGVSAVIIMLAVGSGASKKIAKDMESMGSN
+LLMVRSASAKSGGVRMGMGTRPTLTMKDAEVIESKARGVLAIAPYSAESKQLTYGNQNWS
+TTVGGTTQPYFLIRNYEIESGRGFLPEDNKNSTKVAIIGQTVSIELFGDVDPIGKTIRIG
+NVPFKVVGLLKTKGSSGMGQDQDDLVFIPITTAQRKVFGTDFPGTVSMIAVKAQNDEVLS
+LAQEDITEILQHRHHIGKNQDNDFEIRNLAEMQETIKSTTKTMSLLLGAIAGVSLIVGGI
+GIMNIMLVSVTERTKEIGIRMAIGAKASDIRIQFLIESFILSMAGGLTGVVIGILGAFLM
+HKFAGMNIAITLQSILLSLGFSAAIGIGFGYYPAYKASLLNPIDALRYE
+>tr|R7MEJ8|R7MEJ8_9CLOT
+MKKILIILLMFLCQSATFAIEDVKKVDLEEAMNSAIKNNIDLQAAQIDITIAKNNIKAAN
+RLQNPSFDAFYNFGASGWTEPRQLGLSQTVEIAKRKARKNLAESNLKLVEKNVGYTKFDL
+KMDVREAYINLVATKSILDTLEQQEVLQKELLTIAQKRTATHSVPEIDIIQAEIALNQMI
+TQVNTAKVNVKSALLDFNKIINDPNGITYDSTDNIFEEENNFKEMQTPSPNTNFPEFAQI
+KEKALANRYDIQIAKQEIDVAEKNLTVITRQKIPDLEIVGGYAYQMPLHTDDRRFNSGGY
+LGGSIVNIPLFYNYSPEIKNATLKLQQAELKYNSVQNKAEKDIKSAYEKFLTAGENLKYY
+ESKILVSSGKLIDISKKSYEHGKSDITALIVMKQSYKSIIVGYTYALAEYYNSWTNFLRE
+VNDEDFQF
+>tr|R7M924|R7M924_9CLOT
+MNIINLHDKNLFYIGGVVRDKILGKENFDIDITYQGNAIEFSKSIPNAKIMQINEPFGTV
+RIELDGKEIDIASTRGESYPQQGHLPVVKDIGCSLKEDVLRRDFTINAMAENTLTGEIID
+YTNGLDDIKNKTLRVLHDESFIDDPTRILRGLKFAVRFGFELDEHTKKLQDEYLKNINYD
+MSYKRLKKELVETFNLNSSIAFERFITQKIYKLISPNNKNIKFDFEKIREIENLVKTYNP
+QNVWIIYVGLLPDISSLPLTKQEKKIIDDYKKLQALDFSTDYKIYKNFKEIGDESIIMFS
+YLDMPLALKYLEELKDIKIQTTGKDLQNFGINPSPEYQKCFDYILEEKLKNPALSKEQEI
+ELMKKYFKI
+>tr|R7MJX7|R7MJX7_9CLOT
+MNIQSITPNLFINNNRNLKTQKNINNNYYATKPMLNTLAQDTVSFSGTADKVSKTVNKAV
+RTVAKKSSPSRIEQTIADGYEAKMEKYVARGNRFLDTLTVITSELQSKGYNISLDIVDSK
+AHMVKGKDSFVSKLKRSGESPMDRIRFTSYSEDVYDMKFVSDLISAFKARSWDLYMAPDK
+VSGRKVLSRKPDFDIRLDHVKQDTVKHLPEYLRGCIGKPQKSGYEDIQMRLVDTLDGSKD
+VTPIELLIVFGKNYSKAKHDESYYVYDISRALRNEMHISKVDASDPRSPEYRVKNNIGVI
+VDCLNTNISKPLFINGKSVDFYHEEPTIPVDLNPSDCVKIRGLLNGIRDKIGIYYRAEGV
+KASSEREAVKHIKATAEYKAREDKTITPEEIEAKKRELISKVYEHKKEDLDVICAVQARF
+EETAEKYGIGLAKDSSK
+>tr|R7MB81|R7MB81_9CLOT
+MFIGNSCNDCNRYNRLEMKNVDQNMLAWLEDIIEENNSRIERKEWKSKYNSYVVYDYEPF
+CTEGFEINLVISSIDSSYLNFIKYLYDEKISTIEYLNNCIMI
+>tr|R7MEU0|R7MEU0_9CLOT
+MSEKKIMDVEDLMLDYAEMTSFDFGSLSQEEMNTLNKISNSEYSKKPYAFKYGNFKLTDF
+FHSLLTDENR
+>tr|R7MJT0|R7MJT0_9CLOT
+MQNVLERKSIKNIDFNCDLAQSFGIYKNSSETRLLDYVSSVNISCGFHAGDPLTIKEALL
+EAKEKNVVVGAHIGFDDIQGFGYRKMDLASDELEALVMYQVGALMTFAKAYHMEIEHVRP
+HGAMYRQAAEDLETSKIIAKAIRKCSKWLVYYGATGENLAIAGEEENIQVCHEVHLEKIY
+DENGNIDFGARDLENTQISIQRLKDLLAHSQVTNNAGGKTVVRADSIHFSNKLSNAKELI
+IQAREIVEPLPYNYKNAQKSGWVD
+>tr|R7MKM8|R7MKM8_9CLOT
+MSLPNVAYFSMEIAMDQSLSTYSGGLGFLAGSHMLSAGYLQMPMVGVTMLWSYGYYDQRI
+DHSGNVEVAYIRKYYDFLTDINVQTEVECFGEKVKVKAYKVEPELFGTCPVYLLTTDIEG
+NSDWAKSISYKLYDGNEKIRIAQETILGIAGVRILQQVGYNFDVIHMNEGHALPAAFELL
+RQYNGDLEEVKKRTVFTTHTPVAAGNEVHWVDRLLEGGFFAGASRDTAVNLGGENFSLTV
+AALRMSRIANAVSQLHGLVANKMWEWVDGRCPIRAITNAVNLQYWQDKRVKDAQNDPEKL
+LAVKREMKSELFKYIANVAGKRFDPDVLTITWARRFADYKRAWLILMDKDRIGKLLDENK
+VQIIFAGKFHPDDVMGKEMFNKLLNRSHSLKNVVVLPGYELQLSGMLKRGTDVWLNTPLR
+PFEASGTSGMSANANGAIHLSIYDGWTVEGTFSGINGYAIEYPEIDDEMSWEERHWKDHK
+CLMSIIEDQIIPTYYDNKPEWARLMRQAIRTSEAYFNSDRMVIEYYNRLYKPIAHDDECS
+GGKKQEMNIKEAPTFDAWTFSNIK
+>tr|R7MG50|R7MG50_9CLOT
+MPKVSVIIPVYNVEKYLSECLDSVVNQTLKDIEIICVNDGSPDGSAEILEEYAQKDNRIK
+VITQENQGISEARNTGLKIASGEYIAFLDSDDYIDLKFFEQLYKRGIESNSDVVVCENIY
+RFSGNKQKLFLKVNKEVETTVLKEKFECLYLPEYCYVWNKIYKRECLTERFLKGMKWEDV
+YFTLNALKQCQKLSVAAGVSYYYRIVSNSIVNTPSNKNKYFYHKAFAYFYNFVCENKIDL
+DVNSYTAEKRYKLFGCTILKIQRKCFKTKYYLFNIIRWSMLNGAKLSAHFNKNDVNLIKL
+FTNGGHNA
+>tr|R7M9L2|R7M9L2_9CLOT
+MVAIEEKTYSQLERAINPTHDIKLFAGRSNPKLAQEIADQLGTTVGPMVVKNFSDGEIYV
+QVKESVRGDDVFIIQPVCNPVNENLMELLIIIDAFKRASAKTITAVIPYYGYARQDRKTS
+GREAITAKLVADLLTTAGANRVLAMDLHTGQIQGFFNILVDHIFATNVLVNYIKDLGIPT
+ENMVAVSPDMGGANRTRHFAKKLDIPIAIIDKRRDKHNEAIATNVIGDVENKVCLMFDDI
+IDTAGTICEAAKLLKSKGAKDVYVGATHPVFSGPAVERLASAPIKECIVTNTIPLDMSKM
+PSNIKQISVAPLLAQAISRIHDDESISSLFGFEKEMQV
+>tr|R7MJ68|R7MJ68_9CLOT
+MDKIIESFKNLYKGENVVKQHIYIALLFYLPCLASTILQFLDKESKKEEVIIILVSAVIV
+GFLSIVPVFVLQGLWAKFVNRRFSEAYGIPKLSWDCLSRGLKMFPLTLVWGLYIGIPCLF
+YLALVFIGFGLTISSQDSVIVFSQPVIVIVAVLGLLLAVMLLFIPLFLISPFVNMVFMKY
+CEKFEYSKELFNPLLPFRYMKKAFKDSIFLALKFVLVGMVTGMGAQMILFLLLMVLAIIA
+IPVVIILAMVNEHMFDSSVWAIPVVMLVSVVAIIPAYVRWITNLAYVDNLEEIYVDKFLI
+EE
+>tr|R7MH92|R7MH92_9CLOT
+MSFPRIIAPVVVLSLIFTALCFFTGDRATPYAAEKMRAIRGYMISTQYIYTQKDNTGHPL
+MAVIVSKSMNRKLENVIVLDFSSHVYQDVHQLSNIYSAKTGYAYDDKWVLNDISNYRISN
+DGIYIDINHLDKMNILEGKTASNAYTLMTYSTLKERDITNKNLKRYVNLLKQENLSEDYH
+GMLNKYLQRFFHPFVCVLLAILGCLLGFSKPREQRLIGFTIAIGCIFIYYITLPFFDLLA
+EKEILPPLITATFPTIAFLCAILGFYKSKDL
+>tr|R7MBS7|R7MBS7_9CLOT
+MCKNHHHKHEEEKNDKVLLARVILAIVLFSLAMIFTSAPTFKISLLGISYLIAGYDILIK
+ALKNIIKGKVFDENFLMGIATLGAIGIKEYPEAVMVMVLYQIGEYLQDKAVEKSQNSITE
+LMDIRPDYANIEKNGDLTKISPYEVKIGDTIIVKTGEKIPLDGIIIDGSATLDTSALTGE
+SRPREVKIGDEAISGCINTNGLLKIRVTKEYGQSTVSKILDLVENASSKKTKTENFITKF
+AKIYTPVVVLAALFLAILPPLIFGSNFSVWINRALTFLVISCPCALVISVPLGFFAGIGG
+ASKCGILVKGSSYLELLSKPETIVFDKTGTLTQGCFKVVKIVQQEDTTKEELLELTAYAE
+SYSNHPIALYIKKAYDKNIDKNRISEISEIAGNGVRAEINGCSILVGNENLLKNHNISYQ
+KANETGTIVYTAKNSKFLGHIVISDKLKEDAQKAIIEKSNNRT
+>tr|R7MI94|R7MI94_9CLOT
+MESLLYYSPVIIVVVVFLVQQRIVVTPEQLERKHREILSDIENRFVSIHSYEDLKSQFSE
+IKDKIDKIYDCLILK
+>tr|R7MAT6|R7MAT6_9CLOT
+MKNIIEEFNNDYWRFLENEIIEQTNNYLQIFIGDPGTGKTHGLANCVETILKKESHVAIL
+IQAKSVTPTDEWKDILTKNLGLSMDWSEEEIFQALEALSYRLEVKNTNDQLLDNIPYTIP
+RVLICIDGLDELKPSDFWIDRLRETKVISQRYKRIKFCATTRPCVFDKLKFNDELRQHLK
+YLRPSGDVPVNELFEKYILYYNIKINGCNWLKWTIKTPLALKLFCDINKGKTITDIDRKS
+VTLSKLIREKIKIIDSEFRTLCNNYNENDNIIFNTLIIIGNYFLTNKSIVKNELIELLKK
+HESLNILANNDLSPLISILEENGFLQSYEEYSKDILSIKKVHYEKGIQPFFDYILAILLL
+NKYDNPKELKSSDAIFEHEETLQTYAMMLLEEKQILISEIPIIREKIEPYDAVTFDFFAL
+TNNDPELTVKYKPRILSFMKRNATHLTKYVNDIVLQVSKLENHPLGPILLHEFLSSFEKP
+ITRDYYWCIQAWLRHSKNKIWENLENFELSSYRLTSEDKFNGLPLVYAWLLTNIDNKKRM
+SYRTELTKWGIQCPEEFCKLFDLTITTNDPQMKEELYAIAMGIVYSISDNINIIKHFISH
+IFNTIFKGNMSLTDNIAIRQYSRAITELAFQHKIITKEELNICIPPFKPFGNDISLSKPA
+MDGGGYGPIGYDLSRYVLCDPISNLFFEKHYKNDETESMGIYDDYFTTLEIDNILKNHTK
+LNKKDKKELLRTKELRIKRELKFKNTRIEFLDKLEKINDKDKAKIEAHIDEVINSTPTIE
+EMYSHYEIKAQNLLRKASSVYNVEGILPDQFILAAAYAYLEQNGYKDETEDFDSSIQCCQ
+FYTVFVQSCHSRFKKQYNVYLRKIYMVF
+>tr|R7MDU5|R7MDU5_9CLOT
+MSANKVRSLDKLGIGKDAIIEAIECDDKALRSHILDMGLTPGVEVTLVKTAPMGDPLEIR
+VRGYELTLRKSDASKIIISDIHDAHNCPRKNSEFNITLEHSQKGEEKTYETRKLNKGSVK
+TKLKLALAGNQNCGKTTLFNQLTGSNQHVGNFPGVTVDRTDGMIIGHKDVTITDLPGIYS
+LSPYSSEEIVTRDFILREKPDGLINIVDASNIERNLLLTTQLIELDVPMVIALNMMDEVT
+QSGGTIDINGLESALGVPVVPISALKNQGIDELVEHVINVAKFSEHPGRLDFCEEGDGKE
+GAVHRCIHALVHLVEDHAKDADIPVRFAASKLAAGDSLILKELNLDNDEISTCKSIVEQM
+EKESGLDHESAIADMRFTFIEKLCDEFVFKPQETVAYRLSAKVDKFLTGKYTAILSFLLI
+MSLIFYLTFGPLGTFLSNIMEFVILHITRFADGVLTSYGLNPVVHSLIIDGIFSGVGSVL
+GFLPVIVVLFFFLSILEDSGYMARVAFVMDKILRKIGLSGRSFVPMLIGFGCSVPAIMST
+RTLPSERDRKMTIFLIPFMSCSAKLPIYAMFTAAFFKSHQVLVMLGLYLTGIVVGIIFAF
+FMKIFVFKSETVPFVMELPNYRMPGLKNVYRLIYYKAKGFMTKAFTIIFWAAIVIWFLQT
+FDTKLNLVTDSSQSLLAVLGNFIVPIFKPLGISDWRISTAFITGFMAKESVVSTLTVLLG
+GDVTKLPVLFSKLTAFVFLIFCLLYTPCVAAVATVRRELGKRYAFLVILIQCSIAWITAF
+AVYHIGRLFI
+>tr|R7MGM4|R7MGM4_9CLOT
+MLRQTCRHLGFTLAEVLITLGIIGVVAAMTIPTLSTNIRNKELQAQLKKTYSEWNQVSMQ
+FMDDHEQSIPDYASENGTTGLIKEIPKYVKGVSKFSDWGYGVKDENGDNTTTMPYRIYAM
+KGGRTIPPCDAYGFRNDISGKTILFDDSPQSGFNGPRLCIDLNGDKRPNTMGIDIFSFQF
+TTDGHVIPEGTEHPNNRYRDVHSGGTVKASPTYCRGDNGQYNTLACTYYAIHDISPTGHG
+TYWKDYIGKKQYK
+>tr|R7MDW2|R7MDW2_9CLOT
+MGKMKIRLFPDGTIQMETEGIKGKRCMDYAKVLAKLADAKISSIEKTDEYYQTEVLRLDE
+TQHLQDN
+>tr|R7MIG6|R7MIG6_9CLOT
+MEIKPVTQATSPIKRLLTNPKAAQFAQSTICAISVETTLKALGRPTFIYFDKNANGRSKK
+YAATKELLYQSFCLGLYLGFINKVKKPAYNIIKKHFFNDKEQLRKLDLYDSFQEKIDKAA
+KEDKKGLREEFAKLIHENKDYKLGKGVHELSSIGSTVFILALCAPILSQIILHPVMDLIF
+KNKDKKNNTSPVKEQNPINSNATITEAKEIEKSESEI
+>tr|R7M9U9|R7M9U9_9CLOT
+MARIAIDAMGGDYAPKAIVEGALWAAQEYGVGLELVGREDEINAELDRIRKVGFISSDCG
+TSGHNRKIKIDVDKIDYTITHASEVIGMGEAVGQSIRRKKDSSIVASVRAVAEGRCQAVV
+SAGSTGAAMAASLFGLGRIHGVSRPAIAVTIPTMTHPVVLIDGGANSDCTPEMLSQFAEM
+GCAYAKHIVGVEDPKVGILSIGEEEGKGNALVKETYPLLKNMQEKGYINFVGNIEGKELF
+INKCDVVVCDGFAGNVALKVTEGTASMLLKMISKEFKSDILGCIIGLLAKPFLRRILKKI
+NWEVFGGMLLLGVNGISVIAHGRSSSYAMKNAVRAAVRVLNKDINSKIAENINR
+>tr|R7MIC6|R7MIC6_9CLOT
+MSKYKLKNSIFFILWEGIKVYFSNIDKFLLYMLFPVFGQVIGIALSFGLSLGFADKVVQK
+ADSPAVALLMILLLAIPGLLIFAKAFWDYMVAYVALNSMTEGAVTTGKVYDLDSHNEVAT
+QRGWKYIGFLIILSVLMSLGSSIFFIIPGFVLWIYFILVFQVFTFEPDLSITDIFKRSFL
+LVKGNWARTFILMAVLGFFSMYILTEGITVVFDYLNLTASASSIFNFISNLIPLDLVNKI
+LVHANQPIITNEMISKTIFVSVLGMIISGLTLPIRSICWSLWYKNLSDVKGVDAEIVVSK
+PVRRVSRKSRYEKED
+>tr|R7MDS4|R7MDS4_9CLOT
+MRDNVIDSWKGLCVISIILIHTVFHSGASYTPAYLKNLVLLFDVPVFFFLTGCLASIKVD
+LDPFKQMYKLICLFFFLTLFLELITGYTSLEHILEPLMLKDAYVKSLISVASSYWFVPTY
+IICLLYLTMITKYANKMIPKILLFIIPIYYLYSWFSGKLINVSTLGISSQIILFYFWLML
+LGQQSYNNKKYSSKILWAMCGVTSTILLIFLWHSIPNFSLQNFKFPVKLPYCIGSMISIS
+TIMLIKKEINSKILLFIGNKAIYFYLSQCIGSSLLFYIVPHLNYFWTINLIICFIINIII
+TLTLGYIFYQTDKNLSAHYKHQ
+>tr|R7MJ23|R7MJ23_9CLOT
+MENTQSLQYIKQAFELKDKKFYKPAIEMLYKALEIENDNIEILFQIGELYFLINNYARAI
+DYLEKVLAINPTHTEALKLSKIIKERQGNLDSALEISTKLFETQQNTENLKELVKILVKL
+KLFCEIDKYKTSEFFNSDVKIECAEALYVNGETEQAKELLKDCNPDDEKVLLLIGKIKFD
+ENKLEEAKEIFEKIGKNSQNPEVLNFLGLFELEKMNFIEAIKDFSKAANFDKENSKYLYN
+LGNAYFYNGWSEEAQKAYSKALYLNPDNLDYRYSLAYLYFDQKDYQKAQKEIDAILDINP
+EHPQARVLKALILEVNKDFLSAEQILEENLSKGFNDDFTKMSLIKIYLDLNIFDKAKNLV
+NEVIEKNPENLDYLSDLANIYIKEKEYDKALEIAKKILELNPNYIAGNILGAKASYLKED
+FETAKDYAQEAISLDLNCSQGYYYLALVRFKTEDTDEAIECMKRAILYDLNNPEYYAQMS
+EFYKSKQDYKSALEYISEAESLDNSNKYKFMYSELVKLNRKK
+>tr|R7MIE2|R7MIE2_9CLOT
+MGIEATSSSSTVSSTTSSAQVSSASNSDSAKKTSTDSSFKDEMDKVSSKEDKKDSKVEET
+KSKDAKEDDDNLTLNGNADYSQYGSLSINDANKMLSSDIMQMMAQNGLAQVSETSEVQAA
+SSIFSFGSDNTNQVSLTQNDAQFFINLTKSEDVSGQNIALQAQNMIANGGDFAEVAQNAK
+ISQTLLNALSNARETNQPLRIDFDQNVSVILRIGQDGALSARFIPGDKAVEQYLRNNIES
+LKATFRENDLPYSDLSYSNSSKQQNERRRNKQQQGE
+>tr|R7MG30|R7MG30_9CLOT
+MIKNKTSRQIKNERMLDFYRYYEKEISPLIEKYEGERKIRAVIFTVIAIFATCFLATYIY
+HLLSFPLIVVGLVLYAIVMLISYSFITRGLQNKIKKEVLQKLICSLGNINWIPEKNLIDN
+EMLRQSELFSTYNTRINDDTFEGEYNGLSFKISETNLTQVSGSGRNRRVDRVFNGVIILI
+DSNKTTNSKTIIATKGDQNIRNNATGTIATIFSSIVIIVLGYLLEDTFKIGIGIFLLIVF
+SLLALCQKIDNEKEMSSMELEDPEFNKKYNAYSQDQIEGRYLITTSFMERFKNLHTAFGT
+TKAKCAFVGDKIMFALSTHKNLFELSEGIFCSLKDPKQTKVFYDEISAIYDIIDYFKLDT
+KIGL
+>tr|R7MCE6|R7MCE6_9CLOT
+MFDSLITKIPENLQKVTGRVECSKAQYEKFGADLERISGGKVFVHN
+>tr|R7MFJ8|R7MFJ8_9CLOT
+MLKQTRESDLTFFVELAHQTKPKSPDELSIWEIAPAYIISELKTSFEISFIIFVPFIILD
+LVVANILLALGMFMLSPTIISMPFKLLIFIAVDGWALIVQGLVSSYN
+>tr|R7MIM4|R7MIM4_9CLOT
+MKKKKIGFTLAEVLITLGIIGVVAAMTIPTLIANTNSARFRSKFKKTISTLSQAARMSQE
+QYDFDFAGVDSTCGNNGKTQNPENVHTICAMLNGTLTGATFYNTASDIKIQKAGRNVNYT
+ITSEYANVHGIPTNSNHAYVLSDGTIVMIEKLLGSVASCHIELGEKVKDIYPTDGNMRYC
+EGFIDVNGISKPNKEVSCSQGSNSLEQNTCIVKNSPKYMTDVFPIRFHDGIVEPATAAGR
+YILQTAK
+>tr|R7MD46|R7MD46_9CLOT
+MKLLSTVNNPINSLYNWVDSTPMPQIIDTVTYDVYESNNPFRTSFNKNDISNKPLRLAAN
+TTATVGAEAFSIFTNPYYLTHKLVNIPTYYKNVVNTYKKNQS
+>tr|R7MGW1|R7MGW1_9CLOT
+MQLLIEKELKSTDKILKPDFNSKSGRELLAFYLQTKFRQIYLYDKKQEVPIINLINADFI
+NKFCRRLINKPTKHLLIGITGESASGKSTICREIKNVIERFHMPVTVLSTDNYFNDISAL
+INKYGSFDNLRDNGYDIDAPTSFQLDILKSDLEDLANGLDIKAPMYLPNGTGVSMPKAID
+VCSQKIIVVEGIATMYEQVKDAFDIKIYVETENELRKSRFMSRATEERNQSEDNALKHWH
+YITDAGEKYVKPFRSEADLVLNGNSDLNYFAKTLEYIYTITNNFQ
+>tr|R7ME32|R7ME32_9CLOT
+MKNKLIMFWVIVAIVIASIFTIYKKPTKLGLDLVGGSRILLEARTTDTVRTITPDVMSRL
+QVAIESRVNKLGVSETSVAQVGDKRLLVEIPNVTDLKEAEAYLGKTAQLEFKKPVFDANN
+QPKRDSKGLLMWESTGLTGEDLKSASIGTDQSGQWTVSLEFNASGANKFAELTQKLVGQQ
+MAIYFDNEEISAPVIREAIFGGRAEISGGSSGFQYEEAQKMVNLLNAGALPVPSEIIQEN
+TVGPTLGSDSIEKSKFAAIIGIGFVMLFMIYAYRLPGAIADIALIVYGLILFALFKAIPV
+TLTLAGIAGFILSVGMAVDANILIFERTKEELKAGRNLFTAINTGFDRAFTSIFDSNMTT
+ILTCVILYFLGTSVVKGFALTLAIGVLVSMFTAITVTKNFMHLIFGTGELKYPALFGLSK
+NEIGKGYEVTETKREKARFGILD
+>tr|R7MCR6|R7MCR6_9CLOT
+MQIYTSKQILINNTPLLCYSLLMKDFLLGLLDWIYKKKCYFCRSSRESVKMCSKCFDELE
+FLPIQVNRKFKDVNIYCAGVYSKNLQKLIRGLKYHGQRDLAYYFAKFMFQYWQRIGLDGE
+YQIVPVPIFPKRKKKRKYNHMDLVAQELSKLTNFPVNSDIIKRIKDTKPQYKLNKSQRMM
+NLSEAFSVDKNKFIENKKILIIDDICTTGSTFEEMIKEFNKVGIYDIVCFAGTTPWE
+>tr|R7MHW8|R7MHW8_9CLOT
+MSKMIGYPMKMSGKADTRVMLKMINNKIDLTWLYKFDKGNGFIVDGDETFMNDLATRVLV
+AKMHFENMLLNIKSIDYYAEDPDKNHGNKKRIPLVCFSSNIDFSNGKTFVKDFGMNLPKP
+MPSGFVNMLIKEKLFKGGTFIGHVKLINTGKYPTLQGDMKVSDVRIPSQRLYIKEGEFKT
+DNDHMHISSNGRYRRSSYHASGVIMNEIKFPIIVKDAELGVDNIDVEKYLQIFNNQTPSD
+VASDNVQKTVEESIAKNVSDDDDDNSQTFDLANLIIEKCRLKADKGFYKDIKFSNVVANL
+TLDENSVLKIDSNKFNIADGTSSAKINCDLKKHKYSLWLALVKVDSDIIASSLLNLPKEI
+NGKASGLMELETDDSLKLNGRIQFRVYEGIIPKIGLVEYTMKVAALFRNPLTMVTPSIVS
+DLVSVPEGKFEQIDGDLRLKDNVIKPMMIKSSSPQLSSFIVGTYDLEAQDAALRIYTKFS
+NRKKGIYGFLRNLSLNSLANRIPLSSRTDSDYYSAEISQLPKIDAEEKDCQIFLTKVDGD
+IVQNNFLSSLKKIK
+>tr|R7MBQ0|R7MBQ0_9CLOT
+MKNIVIYTDKNSSNLAEVVSSIEDSNVRLENASNLKDYETLNPGVIIIESVPDIKDVLMV
+TKFKQPILFIGETFKGCTVRAVAFDYVKTPVDNQELLVRVKNMLKIRELRDKLKTLSTTD
+ELTGLHNRKYLLERMEQEISRSKRYGTALSVLLFDLDFFKAVNDIYGYEWGDVLLKSIAD
+KLKQLIRKEDIITRYGDEEFIVVLPNTSEDNAFLFAERFRKDIEKMEFIPAGEEERHPIT
+ISGGISTFPCIPDTEEDANTIIRYAEHALYNAKKRGKNKIVQFSHLNLGE
+>tr|R7MDG3|R7MDG3_9CLOT
+MIYNTARVKNEEKDELLYQGSNYTSNPVKEENSVIEGSFYQVKPMTIREMVTRKINKSLC
+CCLMITIAITFVSYYIAMNYEAKMNNLDNEIVRLNAENQDLQAELDKYKSFNNVDSKIGE
+YNLLQKADKVIEVTALNNTNKKSVINTTKTASSGFNWAIGY
+>tr|R7MAP5|R7MAP5_9CLOT
+MSKTAIIIPARYGSSRLEGKPLLKVAGKSVIQWVYEKAQQSKLADMIIVATDDQRIFDEV
+KSFGGEVEMTSVNHKCGSDRIMEVVSRHPEISYICNLQGDEPLIKPESIDEVIKNVKEDD
+LADISTLVRVLTDEEEINNPNLVKCVRDINGFALYFSRSKIPYERNTGIATFYGHLGIYG
+YKRKALEAMTTLAQTPLEKTESLEQLRALENGMKIKTSVVDFVPVGIDTREDLEKFKQIV
+ESKLGKN
+>tr|R7MK30|R7MK30_9CLOT
+MATQSTSGGWGAKLNSVLSSLGVGSTKAAKSTTATPKTTSSSSTSSTSSTGATNSTGSLN
+LSKEVSMDNLKTLDGMVNDRDAKLKENVAKQKELGDTSELKTQNDDLKSETSQLESDLSA
+KEKELGEAGKQVKEKSSEYSKAQNKTKSIEGKLNSKKAERDNAQKGVDTAQSAVDSAQSE
+LDSITGQISDLESQLGSCSEEEKSAIQSKIDALKAKQTKAQEKLDKANEDLAKAQEKLDK
+AEQEVDSLQEEYDTAKADEDTAKEALDEAKDKETEVKDEKQDIEDNIDKNKETIQENEKQ
+ISESEKTLDELRTEYDTLYSQSQEIRCTAQEVMDKLSEKEGKTPEQIGAQLNKPGLPTYQ
+TDDIIKNENGTYSS
+>tr|R7MD68|R7MD68_9CLOT
+MRKLLLSLILCFAISGNAYAVQVSQDIQDFVNQTFPQTNFRFDGVIVLPDNTMYLPVFPA
+KVEEVEKVGIKSTYPLNQSLKQKPDMVILNNRYVLLKVVNTNGKKTVINLMNPPDELQSG
+LLPQDIMLPKGLVIPESLKGIIGDVDVSVTKDTGLKINNTRAKGKKAISPVHELNNKTFY
+IATGINKNIQVIQSNSKVAEYSLAQDAIINDIKSYNGQFLLVTYFDSKTMNIISLMDEKV
+IKQVPFDICPEQIIIDSNHKLAYISSGSNSSIYVFSLETMTLKRQLKVNGMCEKLTLSED
+GSKIFYVDRNTNNIWAMELDNSYMLKNIGSFPNISKIAYVNGKIYITSRTQNRLAIVDYD
+SLELKSELEVCEKPVDLFVKNDELYILGAAENLVEVLDTKEDVITDKLFLNTNAFATNIT
+PIDKTDMIMVTNARSGLYSVIDTATKEIVKTSPLDVPVRSIVVVDKVKTIK
+>tr|R7MAW3|R7MAW3_9CLOT
+MKKIYGILILAGLFIGSQVLANVVTTTRKINKTPTTQQYHKPTTPSRTTGSRLSDSVKNC
+RPYSETMVTDMGGVNFGFKVTIGGWINNKCRLDFISDAQGIASSFKQIYGVSASQAQIST
+FAPKVRCNFTKQQLAYVGDSILQEEARKNGGNGRMLKNPNQISLGGFSDSDARLMDVLMN
+DKACTILNANDLGNMLQSIMGF
+>tr|R7MDH5|R7MDH5_9CLOT
+MLDYTKEELISLIENNPEKFNEWKKEVEEVDLSEVDFSNIVLKEVDFSDVDLNSSSFADS
+NLSLVNFYGADLTSVDFTRSHVSECDFSESLLTGADCSYAEMIYCNFTDCDMAGCVLSET
+VLTSSDLSASENLASARYDNDTVWPDDDMLPDGFDSVCRDDLSALKDDEETSDGDY
+>tr|R7MIC5|R7MIC5_9CLOT
+MRNVELLMPAGNLEKLEYAVRYGADAVYLGVVDFSLRAMRKGEIITLENLKRAIDLAHKL
+GAKAYLTLNIFAFNEDIKHLEESMDIIKDANPDAVLVSDFGILRLVKKYLPDVDIHISTQ
+TNILNYECVKFWQDMGATRVVLARELSIPEIAEIKKQVPNMEIECFIHGSQCVSFSGRCL
+LSDYFTNGERKANHGNCSQPCRWSYKLVEETRPGQYYEINQDNRGSHILSPKDLCLVEHL
+KEMIDAGVDSFKVEGRTKSLYYVSAVAKTYRNAIDEILQNPNADLSKYFLELKKVGNRGY
+TTGFALGENKPDSYSYDISKGLAGADFLFEFKGIKKKHSEIDASSSADENFYFVKVKNKV
+LLNDEVEIITPKEQFTAKIVEILDEKGDNQQLANTNADVYLKFDREPVDYSIALARTIGV
+KEHVS
+>tr|R7MJF7|R7MJF7_9CLOT
+MAVNVVKLGDVATISAGQSAPKSNYFCEEGIPFVRAGSLEFLERGESIDLCEKISEDNAQ
+ICRLKLYPKNSILFAKSGMSANKGRIYKLERSAYIVSHLAIITPDETKLIPEYLMYWLQK
+HPPKTLIKDESYPSIGLTDIANMEIELPPLDYQKKIAKILDKADEIRAKKKLANDKLDEF
+LKSTYIDLFAENTKKVKLEELCYFITKGTTPKAQDMSQDSGDIPYIKVYNLRFDTRLDFT
+INPTFVTKESHKNFLARSVVYPGDVLMNIVGPPLCKVSIVPDTYPEWNINQAIARFRCNK
+GLNNLYLAWFLTTPFAEKQMLRNAKKTSGQLNLTLEICKNIEIPLPSLELQNKFAKIVEK
+VEAQKQKNELVIEQMNNLFNSLSQRAFKGGL
+>tr|R7MII7|R7MII7_9CLOT
+MITFQNVTKRYKNDHYALKNVSLQIHSGEFVFIVGASGAGKSTLMKLLYSEEKPTSGIVS
+IGGLNIASLTNDRIPNLRRCMGIVFQDYKLLQNQTVYDNVAYVIRTLGISSKEIDARVNG
+ALKIVGLHEKKKATPSELSGGEQQRVGIARAIVNGPPLLIADEPTGNLDPKNSMEIMQIL
+DQINQRGITVIVSTHDNAMVDYFRKRVITLDHGEIVRDIQAGTYE
+>tr|R7MDF9|R7MDF9_9CLOT
+MTTYNSNTVTTTRQVSGDTSTSTTINVDSTTTYSRQMGMVEFMYLGVGLLIVIFAILGFI
+KSIRSRKYYKCPVCGESFRSENMNSETCKVCGANLERTDDGNITDKTK
+>tr|R7MHK5|R7MHK5_9CLOT
+MFKKAVEYNPNYALAHFNLARSIAITGEKIEAAKLYQIAQDVNKITNEIDPQDITDKINA
+LFD
+>tr|R7MAW6|R7MAW6_9CLOT
+MITSRAVSSLKNICEYALPKLKKGGYFVAYKSRKTPQEIEEANSILKKYNSKIVDIIEYS
+LPLEENHERNLIVILKK
+>tr|R7MB31|R7MB31_9CLOT
+MQIQKTNNVQFGAKYISPATIKVKAGKRWKDTQVSFIKFDTSKQRDISFLEGVESLWGGK
+NLSAGIVDEAHILGGKTNVYGVTTQTSDFDVVDARKVLGLISTDKIAKGESEVGVYRMGT
+TPKYAYAQNKRSRDVKHIATAMYEAVKNLATKKAKAPVVIHNATPEDSKFLSKLGVEA
+>tr|R7MEW2|R7MEW2_9CLOT
+MEILTKKXXPYKKASFGKKSGAVLGFLAPIASHLISGSKEWKQLFKNCPLLAIAGFGIGY
+LVDSCTEANRANAADAAAKQDKQSQILAQSSQQKMSAVA
+>tr|R7MDC2|R7MDC2_9CLOT
+MKNFLVHNEKTTQEMCEAIGISKVEDLFKQIPQSVRMSELDLPEGLSEMETQRKVKNLAK
+SNKSDFISFLGGGIYNKFVPACINQVASRFEFNTAYTPYQPEISQGTLQVMYEFQTMICR
+LTGMDISNATVYDAGTACAEAILMACRISKKYKVCVLNSLNPEYKRVIETYTNSQGIEVD
+WVDEIPQATKDYAGVLVQTPNYYGEIIQPKEVECLSIICCDPSSLAILKTPAEMGADIAV
+GDIQTLGIPMNFGGPSAGFIACREKLMRQLPGRLAGRTVDKDGKQAFCLTIQTREQHIKR
+EKATSNICSNQALIGLCATLYLSVMGNKGFRQASYLSTKNAHILADKLKEKGYKILNTNF
+FNEFVLEVPNADDFLTRLENNNILGGIKLDDKKILVATTEMISDEDIDLYIKSI
+>tr|R7MJW2|R7MJW2_9CLOT
+MYEPEFTVITPTSNIVDAGLTDDFSLLVNLLDRQTYPYIEHIIVDNASSDETITLLKDYK
+NNGFLNFYSEPDRGKFDAMNKGIMHAKGKYIAFLSCDDFYHDVVAVADIVDAMERENADY
+CFFPAYCCHPEGFVFLFPPSMLSTFQVNPCARQAMVFKRSVLDQLRMFDDKFKLMADYDL
+MIRLVMGKYKGLYFERNVLTYKLGQEAIKHSTQMEAECRHIFYKNYKSLYPMTDEVLDRM
+VKISEVPKPLLDKLVTYFTPEDRDNFYQVAQNLYDMRVRAVNEMGNQNR
+>tr|R7MDG5|R7MDG5_9CLOT
+MTKEFYSIITDIGLQKINEALNDGTKLDLKYIAVGDSNGAYYEPDPAQTKLKNERFRTEI
+TELTQLTAKALVPASVGGFYMREFGIFDSENNLLLVGKQPETYKPLETQGSFKELWLKVV
+IIAINPDVIQINVDPTIQMASQSWVYNLFNGHTHPDLMPIWLYDTNGNGFVDTCEYVDGG
+TFTDGENMNIPQPPTVPQLIMSTTIYDKNGNGIVDDAENIDAGGF
+>tr|R7MJ43|R7MJ43_9CLOT
+MATRKLESHLTILGTIGGVAPFLGLFGTVVRILLTFNILADSGNQAATVASGIGSALIAT
+AFGLGVAIVAVIFYNSFQSIVKHYEDDFQLIKLLFLSFVDAEEAQGTQYSSSKVNL
+>tr|R7MGH3|R7MGH3_9CLOT
+MVRASAIEALSYLQNPEYKKDLTTVFTVAKDDKDPNVAEAAKAALDKLNQIQAQPEQAKS
+EQPKQEQAKTAA
+>tr|R7MHU0|R7MHU0_9CLOT
+MTDKPEVIQYRTVGTCCQLMQVAIQDGKVVDAEFIGGCNGNLKGIKSLIKGMPIDDVIEK
+LQGITCNSKPTSCPDQLAKCLIEYKSQKIAKI
+>tr|R7M9A8|R7M9A8_9CLOT
+MVLEGMYVENIMMHSETRVYPTEPQITAGLILGSQAFYRYSLRESTYPTLSLVDTLTDGE
+GNMIPPGHYELALSDERDFLILMQSKNPIALIPVFKVEVDMSQYSQVRDNKALKQQKKQE
+KEIAKTNKKREKKGMPPISKEDDIYQEAGIEYIHDLGGYYLIKYERGDVRAWGAVKG
+>tr|R7MI82|R7MI82_9CLOT
+MLIILKEFFTSQIFGIILGAILTGGFTLIVDLIKSNREEKTYIKRKRESLYQKMYDFSMR
+FEKDIRTKKNTIMSKGTKDLWNEIQIESIFGKQSTMETFYDLYEDLQENLEKSANNIIEV
+HIQNNQRILEFYSHIKKELGIKD
+>tr|R7MBY9|R7MBY9_9CLOT
+MKKALALDVGGTKIYNAIINENGAIISEIEKHSTPKTYEEIKQVFREIIKKHEKDVDVIA
+FSTCGAVNNENTQIIGSTGNIAKGYPNMPFRELSTKPVFVENDANCAAWAEHEIGSSKNC
+ANSIMLTLGTGVGGGFIVNNQLLKGKNGAAGEVHFKMYSDKRRKCTCGSWDCFEIYTSGT
+GLRITAQEMLNNPEVTTYDVIDGVNAGDTKMLEVYHRWEDDITNGIIGLANIFDPDCVVL
+SGSMAQFVETEKIEQNVNKEIVTTPTRVVKGSAGNYSGMIGAALLAFEKGVV
+>tr|R7MIT3|R7MIT3_9CLOT
+MTTLKGVNDITKEKKVAVVETTTAGSSSSSKIVINFSTSESKNPKSTEKLPTHSEELVVK
+NPSMKNSSKMEVFRVGAEKYLSTSGLKNIKNSEELVKYLEEKPNKTNEEKKLLAQYQAIS
+SGVVEPLVTYKELSKIENKENIPFLTADKYFSKTDEKYQKMSEEQKKQYCKQQILELADT
+VSTSSTPMEEKVIKATELFEVLNSSEISVEDFKKLSKNEQIQLYRDHQLQKMKELKELVP
+IETRQKWATMKPPMSADDKLKEYAKAFLNKYDSDFSAIKDDDKKDLYISAQANSMISKFL
+PNWKETDPKIKEMMFSSIVGTIDALTEANMSFDEFQAKPQSQKVKFLKVSPNNVETSKMS
+SEEISLNLAIFDYAKKNKNTPSVKELKKFISENPDYENKDAMLNALEMRSRLFGKNAKVQ
+DVETYKQRALEHGISAEEQIQKDFKDFGKLNANARTKRLRDMLLKADGDEALITQIKNLA
+LENGFKEAKFNKILAKTETHKRMACNATLNNNPKAMKAAIDMGDKIGDIKSTQVIACSAP
+VLMEAKAGQALGVDLANENSKYLESYTTGVNQRSDAVAYSAAVVQSENMSSAGRAVYTQS
+AVKTASVEQQVEYGREFSKLDYPEVTEGLAAASKYVDKSVKNQYNSYVEQAIKNYPPEQQ
+AKIRKALETGEISSETLEKTTVTTNSNKTEKSAESTGNKADSQNHAATPTTSNPIKQQGV
+GSDVAKAPSATNSPSRTSVTETPSVSSVASNDRISGVNTVSDVSSSKVSSSTNLTDSEAQ
+ELTEKAQVVLDKIEDFIKTQKASIEQHEAEKTEKAEHLSEEEIIKAIASGDISLADVKLS
+KEEVASLKDTITVLFEKNSVSTAYKKLVSKFGKLEDVFLRAFAENADSSTLRSFAGDFRN
+NTDVILRLFKYSKDNSLLAFLPKDTIVALFGKEIDGSEIPQSILWEIISEFEQKGETDKA
+DKFRVFLKEGAGVQTTQVQTATNNTLGTGMHVAEDKSFDKTANANTNTQNQKLPKQSNKQ
+AETTVPQPGSDSWYKDLNPKKSDVAAMLEEEKIESKKARIVEEQSNKNTDLHFAQKDYNM
+MDEDGFPSAPAFVSNSRRKGKKFDKKPYWLG
+>tr|R7MDG8|R7MDG8_9CLOT
+MGVGADDYIDKMLVQKYQEERVDNHDNMESMVDPNKMLEAMNDYAATVRNMMELRQRLNI
+ACYAINARTARYQKSLGQR
+>tr|R7MFM9|R7MFM9_9CLOT
+MTGGEPLLQIDFVTELFSKAKEKNIHTALDTSGILFNPENTQKIDELLKYTDLVLLDIKH
+INNAEHIKLTGLPNENILKFAKYLSDKNIPVWIRHVVVKDITFNEKYLTQLGEFLGTLNN
+IKALDVLPYHDMAIPKYENLGIDYPLKNTPPTTKEEAIKARDIIFSAYKSVKNNLKNN
+>tr|R7MFX7|R7MFX7_9CLOT
+MLSNLSINNIRYNNQYNYSKKVNSSSFDEKSIKPDCKNLFMDYLKYSGMVSFAGLNRPVE
+KVSTSLLKSLESYISKDIPVNSSAYNFLKRNPLGYYLESGKEVNKFLRSGKFDNILIITD
+DVPEVLKPILQRQNEEKKEYNRIILESIPILDSKFNSKTTEPMVVFRDAPKSWMDTVKGG
+ILHDNAYISTSTEKGASMEGIISNGADNFTYEIRLPKGTPFWDLTHTPEKEMVLSRDSNF
+KVLGHGVLELIL
+>tr|R7MKM3|R7MKM3_9CLOT
+MKVPRINFIKTSYNYVKTACKKGVKYMSEPPCYDEFMKKSPHTGLTTDEFIDLILKSI
+>tr|R7MHP5|R7MHP5_9CLOT
+MILSEGLLQLWHSTGIFNMIEKADPTITSAFEQFLHQFGHPIMILICLFLLWLGIKKQFE
+PLLLVPIAFGGLLSNIPLAGIAEPNGFLGIVYEFGIHKGLFPLIIFMGVGAMTDFGPLIA
+NPKTALLGGAAQFGIFGALLLALCCFGFTLPQSGAIGIIGGADGPTSIFVTSKLAPELLG
+AIAVAAYSYMALVPVIQPPIMKLLTSKKERQIQMEQLRPVSKREKIVFPLVVLGLCIIFL
+PDACPLVGMLTFGNLCKECGVVDRLSDTMQNALINIVTIFLGLSVGSKLSAEQFLTVQTL
+FILILGVIAFSFATAGGVIMAKLMNLFEIMAAKMSGREPKLINPLIGSAGVSAVPMAARV
+SNKVGLEYNPQNYLLMHAMGPNVAGVIGSAVAAGVLLALCH
+>tr|R7MEN0|R7MEN0_9CLOT
+MKKLLVLLGIIFIFGTPILAEDTANSDLLTNDVILFTQNERWGLKDKADNITVEPMYRKM
+IRVGTHSWIVQNKKYKFGLIDSNGKVLVPIKYRNADRIVTKFAKFGNDNDYGIYDEFGNT
+IVKPEYSKIDILFGQMFLTYKNYKYGIVGYDGKVILENKFDDIYMPKPNVMRISYNGEWY
+ELQQVKADTLTLPADAEHNLATKEDLSLQNIVVNTGVISSYSVVTFSDYLIKLFSSISPS
+HEDTIDELMLSKGADTVSIFMKLSWIPKYPVVYCKHYYRNVRNPNNGPLSTVKKELKRQI
+K
+>tr|R7MHN8|R7MHN8_9CLOT
+MLNFIQSHGMLISGLILLVSYIFIASEKIQKSVVALVGASLTMLLGLIPLSLNLQSNVKG
+VFEYVDFEVIFLLIGMMIIVNIASRSGVFKWMALNLLKATKGHPKTVLFALAAFTAVASA
+FLDNVTTVVLMMPITFVIAKEFDTDPVPFLITEVLASNIGGTATLIGDPPNIIIGTRAGL
+SFMNFVVELTPIVVIIFLIAVSLLIFLFRKGLKATPEKMEHVANLDNSKTITNKALMIRS
+VVTLALVILGFVTHDITHVSAYVFAVSGASFLLLFEKPKEIYRDVEWLTIFFFVGLFIII
+GGFEANGGIKYLADQLIVLTHGSLNAATMIILWASGILSGIIDNIPYTATMAPLIEELVS
+PTNPNAITGATHALWWALSLGACLGGNLTIIGAAANVIVSETASSKGYKISFLRFMKYGA
+LVTFISLLLSSVYLYFKYLR
+>tr|R7MG35|R7MG35_9CLOT
+MNKKNILFVFGTRPEVIKLAPVILELKKYPERYNVIICNTEQQKELSNQTLSYFNLKADV
+NLDCMRPNQTLVEVQSRILTSLDKVFETNKVDATIVQGDTMTVLCGALTSFYRKIPVFHV
+EAGLRSYDIYEPFPEEVMRQMTSRVAELHFAPTEKNRNALLKEDIAEEKIHVTGNTVIDA
+LFCLSDDAMNSAKEFYQDKNIPVDDNVVLITVHRRENHGERLDRILDAIETLVKKYSNHH
+FVLPVHPNPNVKDKVHCRLEKYSNVYLLKPLDYPYLVYLMKHAKLILTDSGGIQEEAPSF
+GCPTLVMRYETERQEGINAGVSVLVGAEYDKIVSLSSEILDKTRQDSRLQAANPYGKGDS
+AKIIEGLIREYFA
+>tr|R7MFY8|R7MFY8_9CLOT
+MNWLSITSRIASRFKPLGKQGSKLISKQTNIPIAKVKNIPIPKFAHTMDFVEISTKGGKG
+KTTVTSFKDSEGNLRWRNIRKTSKKETVSTTRTYWGDNSTLREIKSQTTVNGNTTQLMTS
+KHIFSKDSKTLDREKLTINYEKDNTTKEVQFFEKLKPHKQHQYVRTTASRNETGEIVQTG
+INSNFVSQKELEEISKKPYLFAKNYEDEEFLRAIIPYSKAKQNVSDREITVLNERLSKSV
+EGTSRSYTNEIRVDLSKQAGNKSKIVNVTNHELRHQYQNSLMEKLENPPQVIKYKLLKQK
+LESRQKASLEKNYKKLISQPENKSKPLSAKEKEQAEQWAKETDNYINGEKDSVGYLKQTI
+EKDAFAAGFTSQKEYDELIRNFFEKTMKFPLHMQENIEGLKSVGISRLV
+>tr|R7MKV3|R7MKV3_9CLOT
+MLKKIICDKFIENEIVFHNGLNVVLGDDIASNSIGKTTLLMIIDFIFGGNDYINKNKDVI
+ENLGHHTFNFIFQFGDELLYFSRNTENPKEITMCDKYFNLIKKISITEYTNRLKQYYKCK
+IDDFSFRDIIGRFFRIYGKENLNEKKPIQYYEKETFSESIINLIKLFKLYPTIKNLEEQI
+NDIKNKKKFIEEAVKRNFVPNVTKSIFNTNKDKIDKLNSELSDLKKSIISSSVSIENIIT
+QEVIILKQQKIIY
+>tr|R7MDB4|R7MDB4_9CLOT
+MIRFLGACVQNLIECIKYICGGNVRFRTIVSQAAAISYDSLPISLVIAFISAAVIAIQVS
+KEFLMTGAESYIGGTIAVVMIREIAPGFVALAIGARAGTAISAEIANMQVTSQVDAIKTL
+KISPVGYYFAPRILSAAITVPMVVLIAEFVGIFGGMFVSLETINLHPARYMASAWAWMAT
+KDIYISLLKACIFGGLIALVCASKGYETKGGAKEVGTSTTQAAILSTIYMLVADFLINLL
+FYIA
+>tr|R7MBV0|R7MBV0_9CLOT
+MKILVGMSGGVDSSTTALLLKEQGHEVIGATMAIWGKGGVYAEIQKKINSMPNKHSTHGA
+CFGPDEKEDIAAAEKICKEIGIEFHVFDCAKQYEEIVLNNFKKEYLSGRTPNPCIWCNSL
+IKFDVLPYLAKENGIEFDKFATGHYARIEQNEDGRYILKQGLSPNKDQSYFLYRLKQEQL
+ANIMLPLGSFSKDEIRNIARSHGLEVAEKPDSQDFYEGDYNELLQVQPKKGNIVDMSGKI
+LGEHEGIWNYTIGQRKGIGISAPEALYVVELRKDTNEVVVGYKDATMKDELIATKMNWIP
+FDNLDKEISCKAKIRSTQKPEPVTVKPLENGNIEVHFENMQKSIAPGQSVVLYDGDVVLG
+GGIIDRVA
+>tr|R7ME70|R7ME70_9CLOT
+MKTEILKSLYSAKHGCNLVLKRAKSSSSCVLSLVKSESGVETPVLKKSYDSLPNGNSLIT
+RFSMEGDEFRPSTTIILENNRIRDFLIHKSNGDSICGSMANGKVHSTEVDEMAMVTGSGI
+TKEGTTPMAKRFLNLINKFFPSKKA
+>tr|R7ME03|R7ME03_9CLOT
+MRFQTTYFGKFEKNGKIISGIWCGTRPEDATITEEREILFPDEGKKLKHKETELLFDTVW
+LRDGDVAENYEEIEKERITPNDITNENLPPLDSGQ
+>tr|R7MEH5|R7MEH5_9CLOT
+MKYYIYVEDNILKGAGCARCLNKEIQNIEVTETLCTDYISDNEKYIYSNGEIVKNPNYEE
+IFKKRKNSEKISKIIEKLNELDSKRIRAVCENQIKDSQTGETWLEYYNFQANELRNELQA
+IE
+>tr|R7MFF5|R7MFF5_9CLOT
+MAAIADSFKKVVDFVMDGFRGENPFDDINDEDYDDNDYDYIEDGNALREPAPSFTPVPMM
+EKRQESKIINHPSINRGGSEVVVVEPRSFDDAAAIVQHLKDRKIVMLNLHLLDKEQSQRT
+IDFVCGASQALNGNPKKVGDLVFVFAPSNVTLSADTSAQQSKFNDSLWRTSLQ
+>tr|R7MHM9|R7MHM9_9CLOT
+MQLKVKQNIGQDNVVLTYKSTPTKPSRVPSYVIKKDKADEFIKKYNSQEEILFKFSVLLS
+GITSLVGGIIPLKRKNTYKSKLNVFSSMSYAFGGLVMGVFTSSLISSKLKNDLMDKYDVI
+KYK
+>tr|R7MES1|R7MES1_9CLOT
+MSFWHKKSGFTLAELLIAIGLLGSVAALTIPTLAYNYRGKVLEQQFRSTYSEVKEIGSRM
+NYENGDVGEFAYKCVYVSAHKCGPQTAAGNNLYSGTNRWSAEFMSYLPGGAPFNKDANSS
+NGISGTLRNIYKDAGSPQGPRWFNANSTPGIVCDNGGIWTDSKGRLWTFNGENQFVCGDI
+NGTAAPNRMNVDTFIFKPMTAKEVAIYINNENPNDPHVTNYSGQFVLCDINKISNDNWGN
+KMPSQTGYRKGSGSAVDWCYFNEPIENIAAMDWADRLGNKKDTGTSAGPNGQSKTLTRNN
+NYWTDYINYR
+>tr|R7MDW5|R7MDW5_9CLOT
+MKIIPYETRTGKENMQIDSDLLDFAIKNELKEPIFRLYGWEPACVSLGRNQKDDFLDYEL
+LKSKNIDVVRRLTGGRALLHDNEITYSFICPESFLQNGSHIVSSYKEISQILIDKFKKRG
+IDLDFGASKPIKTGFDYCMLISTGADLCYKEKKLIGSAQCRSHGYILQHGSILYDYDKKL
+LEEIFKEKVSTDEITSIKEINPKLSKEEIIDILNEW
+>tr|R7M9R0|R7M9R0_9CLOT
+MIGKILDLDNNDIYNIWEDRIKQVLEINGMDLNNNAALLNSMFECARKYINLE
+>tr|R7MA75|R7MA75_9CLOT
+MSNLSPINDLSSRTFDELFARFQELDLECLLVYLFDKVNESALIHLAEQFHITGNEGWAG
+CTTEAEKRDLIKNSLNLHRYRGTKYSLVRVLEILGLNGKVSEWFEYGGQPYYFRISIDMN
+DKAFDEFTEQQLLDLITANKNVRSHLESLIIHLISTTTQMYASYTTTSEEVTV
+>tr|R7MEC7|R7MEC7_9CLOT
+MLSLLTNPIIIAVILLCILCLCRINVLLALIISSVVGGLVGHIGLSEVMDIFIHGMGDNS
+ETALSYILLGAFAASMTHTGLAPILATKISKIIKSKKYMLIFILTGIAILSQNLIPVHIA
+FIPILVPPLLGLMNKLKIDRRAVACGLAFGLEAPYIAIPAGFGLIFQGLIAENMMQNGVE
+VIKSDIWKYNWIIGACLFVGFLVAIFISFKKPREYENIIIKDEAKIEDLKLNKNHYITLI
+AAIITLTVQLWTNSLPLGALVGLAVIFGFKAIDHDKMDKLINEGVGLMGYVAFVMLVAAG
+FASVMKATGGVDALVNAITPFMGSSKIIATILMLFVGLFITMGIGTSFGTIPILAVLYIP
+ICLKLGFSIPSMIIVLSAAAALGDAGSPASDTTLGPTAGLNADGQHNHVWDTCIPTFLHY
+NIPLFFAAIIAVLIFH
+>tr|R7MBE2|R7MBE2_9CLOT
+MNYLLIENDKCVGVCDYEPNVGNDNIQVITYSGNIPQERLIYVDGKVADMNNYTFINGKY
+VKKTKAIENLLNTNDEAKHYLNDTDWLVIRHRDQLALGQTTSLTNEQYLDLLTKRQAARE
+RVVEYGE
+>tr|R7MDZ4|R7MDZ4_9CLOT
+MSMNVNNNSNFCMGATLGVVGMNAYFLPVTKDRFVRNAYNIHKEIAEDKIELLNKSAEEL
+SKNKLSSESKIFLKDISVAENIDDIANKCAELKKSFTDDGLVKTLKTSYANNFKNLKSSE
+ALRDTISSKAFSRIKWTNLGWGAAIGFILGSVAANAKHPMPPQG
+>tr|R7MD13|R7MD13_9CLOT
+MRKFLLFVLFVVLVIFMLYKSPMVGSYYYGQAKKVYDSGQYEQSIPLFEKSLFATPNNLV
+ARYYYVLALSKAKPTYSIQKKLYEMGNSKKDDEAKKYARYQAVALRHKLLAGVENNYILN
+AAQGNDILRWDIKSFPLKVYFENSNSVPRYYISNIQRAMNQWTERTNFVKFSTVQSEQGA
+DIVIRFLDIPSDVCSDGVCKYTVAYTDPVISSDKLLKRMNLTFYKTNPRNENFSELEVYN
+TALHELGHTLGLMGHSDNPSDLMFASNENNQGVYAIHRSDFQYLTMRDLKTLALLYRLEP
+TISNVKNLHSENFYYPPLILGSEDARLQRKLAEFEKYTKEYPTFASGYINLASVYVDMGD
+FNSALEKLNIASSLAKTQDENYLIAYNRAVIYYNMQKTQEAMQYATEAKSIKDDEYINQL
+ISDIQNLK
+>tr|R7M9Q2|R7M9Q2_9CLOT
+MKKIFVSLFLLLAFGLGQQAFSFENITTIDETSDKQIEAIEPETNIAPLQAEISFDWLTL
+DQTQREENIEKYKKLLFENNSSHIYFSKEDFKKEFAKYYKDKDFKLHYMLTNNGVTEDED
+AKYCAFYFKKGTLVMYAIQYKNNPTNAFYYSAFGKLYYTDLMSKEYPNYPYTSMQYDRKG
+QLKSAIYFITKDIQYMFDPDKEFQGIWYKDKMYDKNGKQTLTRNNW
+>tr|R7MC15|R7MC15_9CLOT
+MLSNIEKLSKVLNESYSEKTLNSSLGTFFAKNFGIKDFFINTDNIPNNFEYRYPVFKHKK
+CIGYLEFTNKTIELEKFLDITAPFISLKIQNILLSEKMQKDIDFHDTMKNIAKIIETQYE
+LNYVIPIVGEMLDKFFTDYLIYIFIRDENVGVNALAWPTACNDKNILEIVSRNHSKELSS
+DKKTFLIPLMSESKNVGTLVAKSTNNEEITPKDREYLQQLSKQIATTINRANVYAEILKH
+ATLDALTGFYNRRQLEERLKQEVSNAKRQKAPLCGIMTDIDFFKKVNDTYGHAVGDLVLK
+SIAKIIRGQLREYDIAGRYGGEEFSILLPFTKINEAQMVAERLRKTIEDKVIDISKVNAD
+SETKEIQVTLSLGIYEMQADDNEEELLKKADKALYQAKNTGRNKVVVNND
+>tr|R7MFQ7|R7MFQ7_9CLOT
+MNFIKILSEVPIGIVLVVFIASTIYCLVKYLDTGKNLNVLIRFISTFKRNDLNFRFKELD
+TWMASNPYVSAIWNEFKNTLVFSESVALKTQGNVKYQDISSTVQNVQTTTDPLYFFNEET
+LITSKFNSKLIQTIPTILTGFGPLFTFLNIAIAFGQIDFSTQEKTLASVSGFLVSMQMAA
+LVSVIAVGSSLVYLMIERILYNKLCKNPLITIQEMMGNLFASITSEKFLYELLRETKIQN
+NNSSNLIDGMPEQFKTAFDSSVASNLVPYLENLIFGLNQLNKQLKENVKLSKSDDVDELF
+>tr|R7MCK5|R7MCK5_9CLOT
+MTKTLSLPSGKIASLKKGRGFDLLQAQQKAKTSEEIPYALIAELAEIDGQKLVYEDILEL
+DLEDVIALQAEISGKFTEAKATEVKEETQKPLEQIIA
+>tr|R7MG31|R7MG31_9CLOT
+MKVVEKHANINSEDFGVTPVKPIPKEENPEDVVELEPQSFLYKAEKQVPTASFDIKYPKQ
+VENTSTDLNAKDNVSVGKEEIQSQEEEKIILPEENDRKIASSHSSKTVDLSDKISKGQNN
+NQITTLPENEEMAVPVVIVPEIKTPEVKVQNVKTPEKLEDEQIQNIEQSPSYDYGDEDKT
+EQVENTTSPEISQALINAVEGTKSKKIKKEKPAKQPKVKKEKTPKVLTEKPEKPAKLKKQ
+DTEKTIQISEEKPIKAKAKKARKEKPEKVSEQEKTITSIINNALGITPLAESNDELIQET
+SAVNKKSKKEKVQKPIKEPKIKPEKPVKEKVSKSKKTEQVENNIKPVVAQEPKRKTSFWD
+WFKFGKNKAENQEQKIKVKKEKIHKEKLEKEPAVKPVKEVKVKAEKIKADKPQKVVKDKA
+PKVKTEKAPKVEKVKTPKVKPEKQPKEKKSFNWWFKKDKSQTQNHTKESLSKIFSKSDDQ
+VFEKNEKEKTVIKKLDKKEE
+>tr|R7MAX8|R7MAX8_9CLOT
+MVHMVNGTPTDAQIYYRKTGQSHSGVNWKTGRCCCDSVFSQRKTVYVYEQPKMPTAVKAT
+FWSIAIKNFADIGMGIAKFFMGIFGKKKASAPVQTPAATQNNKVTPDKQGVNTPTSQVVT
+PKKATTPQEVNDPEKEENNNKKQTKEKKYKVPSSVDIHKFKGNVIVHDDGLGEKGDITGE
+AKFSAATKQNGYPASITVGQYNYAFERVDADGTVWYKSKDXXYKSKDGSGQLYRLEKNND
+GTLGLNQHAEDEGVGKADVSKWKKTTPTSSKKTQTPASTTTTTSTNNTQSTTTQANASQQ
+KTTSTDKKTPANTSIRTDDELKDTMHINEKLDLKKIPTFNDMSTDRKPYSPMTVTYGYSP
+EMQTVDISAEEVAKCQGDEAKIKDLALKKIREKEQPESKKTK
+>tr|R7MIB1|R7MIB1_9CLOT
+MKKGKNFDKIRFMERESWYNKKIPIKYIFIAFILIFSSSIFLPRPELSCSKANDICNYYF
+VNFRGEKEIEQTFKISDIDTYEITCDTSRRSMATFSPIISLKNGEEIDLYFRTYSFTRAD
+NIVQNILTLDNYQIKRSFWKNIFGGY
+>tr|R7M9E5|R7M9E5_9CLOT
+MKKKIVLVGLKNKNLGDIAILDTCKFLVQNLYPDAKISIKNIFPNRQTMKEVNNLHPKID
+FAIEKVKNYPYITQILNFSKWWLSQKRKTEIYKYYKKILKKNSYVIFAGGGIIKFSREYL
+WNPVYSITTYCQRKKIPVFFNATGVEGYDDKNFYSQLLKYSLNKPCVKKITTRDDINSLK
+KYVKNWNKISIAGDSALWARETYNIEDVEKTNIIGIGVIRGNIFNDYGINFSEKQLVNTY
+INIIKKLEEKGYKWQLFCNGAKSDYEMGKIILTTLGLPIEEKYLAPRPQKTIDLIKKIYS
+YKATISARLHANIIAVSYDIPTIGLVWNNKLKFFGERIECPERFLVKEQFTNANFVITVL
+ENAILNGYNKGVINSLKSKTQKSLYEFLQTGDIDE
+>tr|R7MHB7|R7MHB7_9CLOT
+MKIMNITAGKYKGQKITAPDENITRPTLSKVRMSVFNTLQCLVDFEGSSFLDMYAGSGIM
+GLEALSRGFSTVVSIEKNKKVYSIAKSNFKKYEEENDLKLILGDSLKTCAKLNKKFNVIY
+IDPPYFSGINEQSLEVVKNLACGIVIIEHAIDVDFSGYEIIKQKKYGDKFITFLEVVG
+>tr|R7MK63|R7MK63_9CLOT
+MANILWTIETIAAVLLTILVLLHSPKGDGIGGIGGASHVFASQKSAEKGLNKLTGIICAI
+FIFCTFLLGFGIVK
+>tr|R7MGD3|R7MGD3_9CLOT
+MLKNKDEIINVLTNGGVIAYVTDTVWGLGCLPNNESAVKKIYEIKKREAQKPLILMSNDI
+YPLLDYVKPIPKIGQVLIKKYFPGALTIVTDKSENTPDYITSSMPTVGIRVPDNEVFREI
+CEIIPGHVLATTSANLSHQPSAKTYEQALENMSGLADLIIEDYGYVAKGLESTVVGVMNN
+ELRIFRQGAIHLDI
+>tr|R7MIF3|R7MIF3_9CLOT
+MKINKLITKIFGVISLFAISATLTFAAEPNMTTPHQYPKKYTPEYIKQITPGYKDVGKDE
+VFYVALDMLKDTEGMFSRNAILGNNLSGKPVRIEFRNLSEINAEYATFDALGWKKSKKLY
+IYINTKHKNAPAGAIAALLAHEALHQDEYNSLAEETYAWTMEAFVWNDILKLYPESNQEQ
+YPLVVRENTLKRLLEKGNYTNKYIKKAVLSNSGYKNLPSYSPGFDNL
+>tr|R7MJI8|R7MJI8_9CLOT
+MKRILIVDDVPGWVRFHEQNIRHLNIPNIEIDTANSAREALSKLEVSIDNPYDVIFTDLQ
+MESDFLPKYAGEWLIEQIKTFKEYNSTKIVIISASPNIRIIAERNQVLYLSKTIARNADS
+ESYRAFLEY
+>tr|R7MB58|R7MB58_9CLOT
+MDKISVVIPVYNVERYLKQCLDSILTQTYTNLEIIIVDDKSPDKCPEIIDEYAKQDSRVK
+VIHNEENETFKAQNKNLLENAKLYAKYLNDAKLQKDVYFLGRLGDYKYYNMDLAIGRAIE
+LFEEVCK
+>tr|R7MF93|R7MF93_9CLOT
+MNKIIILALCLFIFCSKISAQEVKYNYDNNRATMYNALNLTNEQTKIREEILNKNAKILD
+EKYAKLKKESCKLLALKKGNVCNSEILEQKKVIKNIKKDISKLLSEEDKEFKKCLTNEQK
+TKYKTIQKLQKHDLKKEINREKIYKANPQMEEFAKPQNLTCKR
+>tr|R7MHM5|R7MHM5_9CLOT
+MKNLFLTCLLICSISAGFQSVEAYTIKQVQNSNYDYNNTNIYDNDLSRIEKYLFRQTFRQ
+EKNSSRLNRIEREIFNQNYPSMTISQRMNNALANYRGNDYDNGYYSSSNSYYPQTSIKNR
+LMNNLIGQPTGMTPSILSSPYINKFGPSYNRGFYGSNGWGALMVGDIKMCIAQQ
+>tr|R7MAA9|R7MAA9_9CLOT
+MNIEILKRIRIERYIFAGLMAVVMILIAELSGEREIIFPEICALTIGAWISEQQPWMCNK
+RKMFFLVSVASLFGMLVTKYVQIPLIFQTALCFAFTGFILTITKTTLIPIISACILPVYL
+GTKSWVYPISVTIMALMIITAQWLMEKNHLKPKNEYIPCEFNLKYQVVKWTKLLVVFGLL
+ALIPFKSHQIYFLAPPLIVTFAEFSNPKSPLRNKPFHIIGLMTLASATGCMLREGLNLYL
+HLPLSICATLACCVLFVTFDKVKTLFPPAGAILLIPMILKTQYLPVLPFEVCIGATVLIF
+TAKLLFRD
+>tr|R7MJ56|R7MJ56_9CLOT
+MIKKIKMPKQAGWLLPGLQVKRWFALIFVGAVLITVGILILFDLKPIYNTMQFIQQIATQ
+ISTEWLAFGIVMIGAAIFFKGWQKTNLSILDIEDDRNNDVLLENLYKRRKLNRGPRIVAV
+GGGTGLSMLLSGAKNITNNLTAIVSVGDDGGSSGRLREEMGILPPGDIRHCITALADDED
+LVNKLFKYRFTNGEGLEGHSFGNLFLTALYDITGDMVSAVRASSRVLSIRGRVLPATLDD
+MKLVAEMEDGRIIHGESTIPEAHGKIKRLFTEPANCKALPDVIQAIRDAELIILGPGSLY
+TSVIPNLLVKEISEEIIKSKAKKIYVCNIMTQPGETDNYTVSDHLKALIQHAGSNKIVDA
+VLVNDYLPDNLAGKYQEAGSYPVKLDVPEVKKLGIKIFAKKLIQDSREGLVRHSSTRVAR
+AVYYWFKKQQKKSSGFFK
+>tr|R7MFB9|R7MFB9_9CLOT
+MKVTQGSQAATSMIILWASGVISGIIDNIPYTATMAPMLVEIEKTMGATYAYPLWWALSL
+GACLGGNMTIIGAAANVIVSENAAKSGHPISFMRFLKYGVGVVAITLTISTVYIYFRFLH
+>tr|R7MHW2|R7MHW2_9CLOT
+MDESGKFIQKDKYLLSLKDFNASESIEKLINCGVNSFKIEGRLKDMSYVRNVTAYYNNLI
+NKYAKRTSSGKVFLDFEPNLYKTFNRGYTSYFLKDREQCFNFTSPKSRGEKIGKISRVFN
+NSFAIDANLNPQDGICFIHNGEMRGFLVNKVDGHRVYPNKMNGLKSGLVLYRNFDSKFEK
+QLEISKTVRKIGVNITIENSKIVAIDEDSNTVSLALPDGDIPKNLEKLKQNYLAQFSKTG
+DSPYYLQEIHILDENLKFLPVSKLNDLRRSLLNLLSKERLQKYTRVSQKPIRYADFPLRK
+IDYKGNVFNSESKEFYKNCNCDVLEPALEAQQNVSSGIELMRTKHCLKFASDLCGKACKK
+LYLVDSNGKKYPLKFDCKNCEMVILSP
+>tr|R7MG21|R7MG21_9CLOT
+MSFSDVATVGFAIRNVDKTTSGDLGRLPVAVGQTVNAIKAGAEYNSFLKRGVNVVKKVAE
+SDSVFKGISKGVKFVSNNINPLIVVSSGYNILTAKKEERKKTLFSEAGCIAGMFLGEGWM
+KKNLNPIIEKLPVSNKWKPVIKGLIFIGGSIGSSTIGQKLAEKAYKYWDKPLKQPEQHVY
+QPMTLKA
+>tr|R7MKA4|R7MKA4_9CLOT
+MAKTIGIDLGTTNSVVAVMEGGKPTVIANAEGSRTTPSIVAFSKSGERLVGQLAKRQAIV
+NPDRTIASIKRHMGDNYKVNIDGKDYTPQEISSMILRKLADDASKYLGEKVTSAVITVPA
+YFNDAQRQATKDAGKIAGLDVLRIVNEPTAAALAYGLEKEKSEKVLVFDLGGGTFDVSVL
+EIGDGVHEVLSTSGDTHLGGDDFDQKVMDWICEEFKKQEGIDLKGDKQAMQRVKEAAEKA
+KCELSSVFETNINLPFITADANGPKHLDLNLTRAKFEDLCFDLLERCKKPVEQALQDAGI
+SKNEINEVVLVGGSSRIPAVQKLVKDYTGKEPNQSVNPDEVVAVGAAIQAGVLAGEVKDI
+VLLDVTPLTLGIETLGGVMTPLVPRNTTIPVSKSQVFSTAENNQTAVDIQVLQGERPMAR
+DNKSLGMFRLEGIAPAMRGIPQIEVTFDIDANGIVNVSAKDKATNKEQKITITNSSNLSE
+QDIDKMVKEAEANAAEDKKKKEEAEVKNNAASLIGSADRVMKDFEGKIDEADKTKLEEQK
+AALQKAIDENKATDELKKLSEELQQTMFGISQKAYEAVQKDGANAQSANSENASSNESSN
+NNNDDDVIDAEYTKE
+>tr|R7MBQ6|R7MBQ6_9CLOT
+MKIIVRLFLIMCLFFATMCSNVANLSIDFSPVTNTIQATDNNTIYQSDTKSVKYLVSSNY
+TNTNVIFQKKENSKKIFYGFKNIIPPESSQFSLLLTYIYNKSYLRKNFVCLKRYYLSEIS
+PNAP
+>tr|R7MFX2|R7MFX2_9CLOT
+MKSATSDYIFADVNQILDLQCFKAQKKSQKNDWNFDIFQSVLSIKNAKILYNLDKNTNII
+IDGNNLRIDDNIDKKHVNYNVVATIKKGKNVLKIKTSDDNKVYLLDKEKFVVENSQISVN
+DKKLFFSGNVDTKSNYNISLSAKKFSIPYVLDFLNSQIVENNINEQLVYFKNIDGNFDFK
+VNVKNNNIDGLIDLNKLSFKLIPFMDLPILLNKGQVKIDNYRIQLKDFKGYYAINQVTIW
+ILKGQ
+>tr|R7MHJ3|R7MHJ3_9CLOT
+MPGAKEINTAVEINPQNIIALFRILSAKKPKYGCNKDEKI
+>tr|R7MJD7|R7MJD7_9CLOT
+MIKFDYRSADSLVVGSADGLNLSEEFAIYKDRIAEIIADLNKRKDKPGQWLQWMNLGYSE
+ETAWYVKEYAALVRNRFDNILVLGIGGSALGGIAVTEALLKPYWNLLTPEQRDNYPRIFF
+LDNIDPDTMTALFDMLDWKKTLVNVITKSGDTAETMSQFLIVKDRLEKELGDDYRKNIVA
+TTDQRTGILRQISEQEGYKTFVVPDDVGGRFSVFSAVGLLPFALVGLDIDEITNGIKDMD
+LALKNTDIHENIAAQNALIHYLMDTKLNKNLSVMMPYSSRLKYVSDWYVQLWAESLGKNE
+KLSGEHVHIGPTPIKALGATDQHSQIQLYNEGPNDKIITFIRVGEFDNTLEIPKIFEYTG
+IGYLGGKTINNLMNAEADSTKVSLSDYARPTVTITLPKVDGYNIAQLLYMLEVQTAIAGE
+LYNINTFIQPGVEQAKNYTYALMGRVGYEDSAKSLQARVASV
+>tr|R7MGG0|R7MGG0_9CLOT
+MKKVSLTLIILMLSILPCKAKSPFEIKIDKISQSSVFVYHIPDEDEGQETTPAQTQEEPI
+ITSDDVTADTSIKPNDNEEEEEVESDEEYNNVVDEEDENTSGEYEMGDMYTDVLKGYAEY
+NEEEANTITLDDSPDELLKLDITKPAKVAKNDYTSLKSSSLNFYDNQYSKYTGSEYNIAP
+KSSTNYRTYKGFSAGTTYDQGIDYAEFEQSSGVFSRYEYKNWAIRTAYSKTVNSTNNNYN
+DNFYFSPEWKVNQFFSLREVFSADIAKHRKKAEVVLSINPFGNKDSDRMRLEFGASQSYS
+NTNQVLRSQLKFSTNFKL
+>tr|R7MBV7|R7MBV7_9CLOT
+MSLGATAVHTHTAKTGSCPHGLPQGACPICNGMAGGNSTTKRDVPRNVGEMTYNQCAAIG
+AMLRAQKHARQQAQLAQQNHLQAIADFQKSIATAHQRIMDLATNISKSTPAIIAKPVNFV
+LTNVIGKALNFIQNIPNVISNITNAISQKFADISDKITAMYGELKASINEKISKFTNNLK
+KKLKSLFFVFGAEETDDEDKKIEEAKRAFELKTFIHKLFGKTENLNEKEIKKDDTSD
+>tr|R7MHG8|R7MHG8_9CLOT
+MINKVELGSVKNNSKTPNRIVIKNNNMGQPNFTGLGSLALKGIQKCEEKPMVNVAVLDLS
+TAIIPRTFFETFIGSKTKDEDGNDTHHRKLNIMGGFEALRREGSGLVINCLIPGFIVKFA
+AGLLNKPIMGQFKNSSLVKSWANSDTINCIQKYYNNAQGLTKEDRVYSTLKSMFDDIEGV
+NGNAEKDGLKKFKELFANDPEYKEHLRKFAKNIISDKPEKDFADDMYNFLVKKSGIAENI
+KFAGDKGYFSSSLGHLCESASDILHGAYQEGIIKDYSADATQGKNVEKLVSKEVEELSKY
+FGKAKKLVNAKSIAGLGMIIPLAISAQPINRWITHKLSGKKGAPIYNDDKERVLTPEEKA
+KLTRDKFIAVPLMWAVTGLSMLMDKPSLKMFQFKNIFPTMDQARIISAATFSSRLAAAED
+SNELKENTIRDIATFSSFYFLGDYAAKAIATFLEKHNKDGIKLINRLKEPAEGANILQKF
+WNWAKHTKMKSTDELLGSIGNEALRLKARNMRGLCQLGNIGFSLLSLGVFIPIYTRTQSN
+KKEKMRHDQNTTLTATSTPTSSSKFSENLIKDNSPTFKSFFS
+>tr|R7MK28|R7MK28_9CLOT
+MATILEQKSQIDKLWETFWSNGISNPLTVIEQISYLFFIKELDEKHTREERKANRLNRPI
+ENPVFDETPKQQNMRWSKFKDFAPSEMYKVVQEDVFPFIKNMGGENFAKYMKDAVFMIPS
+PALLATAVDMIDKLEMQDLDTKGDLYEYLLSKIAQAGVNGQFRTPRHIGKMMVELADIQP
+NDIVCDPSCGTAGFLICAIMYLKEKYPEMFMNTAKLQHFNNDMFYGFDFDYSMLRIASMN
+MMSHGHQNPNIDYQDSLSEDASGLKEFCTCVIANPPFKGSLNKDTIAKNLASEVSTTKTE
+LLFLALMIRILKTGGRACVIVPDGVLFGTSNAHTTIRQKLIDNQKLEAVISMPSGVFKPY
+AGVSTAILIFTKTNSGGTDKVWFYDMQNDGFTLNDNRTPIEENDIPDIIASFKNRHNEDN
+TDRKAKHFFVDADDIRQNGYDLSINKYKEVEYEEVQYEAPSKILADIKALESEVQTSLEE
+LEGML
+>tr|R7MFM7|R7MFM7_9CLOT
+MKILPIIKRFVKPSQKVSEVATAAKSVAQTTAPKVEAETNPFLECIYEMYAKDGVSRDVV
+DRIVLGGERQRFYRYVGKDELQKLLTGQKVTSSRPCHGGSLTDVTSDPNYGKIPTIGKYR
+LTFKDKAEFSPYPLGKDKNSRIIEHDLKDSEYYIRGGYDISDIEKIERKSEDGSFHLLNL
+FG
+>tr|R7MJY0|R7MJY0_9CLOT
+MKEFTQKDINTLFSGLCCSRCKNEFTKSSIKILERDCDILLCRLSCEKCGKDFGEIVFNY
+SRKAKHHEPLEIIEGPPPISYDDVIEAHRFIRKKL
+>tr|R7MC46|R7MC46_9CLOT
+MAKIIENERRIIRLSVDDILNIVREYQQLTKHSCCYEHTREILKKNVLYLPEEV
+>tr|R7MDV6|R7MDV6_9CLOT
+MKSFIAFLVLLIIACYAFPHFDFMRKTRTGEKQESFEPLTSSSLPPILKTYFVNNHVSFE
+LYTIPNHVKDLLTLNADFSSVFRNKSKISILIIEPKNENPNFKLLHEKLKTSITSYSNKF
+NMIYMYENKEISYPNPYDVRATKDLMEYCHYFCVIDPQRETLLTFKKLTATEANSIEPIL
+QQYSYLIK
+>tr|R7MGF0|R7MGF0_9CLOT
+MLICFAQGVQAAQFEVLVLPTGIFSTCSNYFCFPDVSEIIAEDVITNLNEYNSIKAKNLS
+DIRRELNNNDSLKFETENMLNNFEKTNNVDFKTLKDISQKFNVKSVLLISSNTVTPQNNI
+KRNLWEVLEISNAFKTTTPYILQTSAVLTDNVNNIIMWSSKYSKTVTDSNGFYLAQNQAQ
+AASQLEKIKLYSKNNISQNISQNIHLRFFPKDVRTFSVNKQNSNPDQPEEKKFVPNALEH
+LITPQMIKELDEGQANTSDPTDDFIFEF
+>tr|R7MF47|R7MF47_9CLOT
+MMKKLLVSLLFIFTVLFGFGFNQSTLANEVLPIRPNIVVARTVGLYQVGDDVTIYKEPND
+DSMILYRVRWTSDEFFPENIGAEKFFTVFLPEKELALVSVTDVTDDWVEIVYDNSTGKTG
+WIKKDDPYKFMTWINFYNTYGKKYGLRMLKSAPAVCKDVKSAPEDSAKTLSTINMPQKIN
+LNVIRGNWALVSVFDLDRIPKTGYVRWRSEDGVRYYFPEVK
+>tr|R7MHB5|R7MHB5_9CLOT
+MMPSKLNIVLYEPEIPQNTGNIARLCACCGASLYLVGKLGFSLSSKYTKRAGLDYWDSVD
+LHKLESMDELYNEFPNGTFYYLTTKADKLYTEIEFKDGDFIVFGPETRGLPDEYVKDSHA
+RTIPMKEGQRSLNLSNSVAIVAYEAIRQNGL
+>tr|R7MIM3|R7MIM3_9CLOT
+MQINNNPSFGARRISIEMITKNATKMGRKLENQWKLLLSN
+>tr|R7MJE9|R7MJE9_9CLOT
+MEENKLDLITIGESLIEFSTNQKFIDAECLHKYYGGDSLVVAVAAKRLNSEVGFITCLGD
+DVFKDYLLQSWENEGLDISHIRTVSDKNGIYMVSRTSAHDKEFMYYRKKIAPAKLSIDDI
+DEEFIKNAKIIYASGITQSLSMNSREAVKKAFEVAKENGVITAYDPNYSSLISTPEDAKE
+YFDEIAPYTDILFMSSKYDAKSIFEIESVENITKYLIDLGIQTVVIKSSPDKGYFINCLG
+KNYFVHFYTENIVDTTSSGDAFNGAFLHAISHGYTPVEAGKIASIDAGLQAQGIGAIKST
+PYYDEVYKIYKTEDF
+>tr|R7MFP6|R7MFP6_9CLOT
+MTILIITIAVMALIIFAVYGKPSSKPSNQLKFEDIKIDKEKQCVMIGASFYKFSDIEKLY
+VWQRGRQANILNSVERPSLFNLFTPEERRFYYLAEISFYLKNGECIKKELHSKGDVYELL
+LHLNPYVELDDSPETFKPTFMDSPLAILVRYLLWGWY
+>tr|R7MJD0|R7MJD0_9CLOT
+MLVSGIGYFDANSNNLYGVENNSNKSQSRSSASPNEFFGNYKEALPAKPQDNLLKKISKT
+VKSFMMPKPDTTKCKKHIDVVS
+>tr|R7MB17|R7MB17_9CLOT
+MSKCVKPLRIAGVGYSVPKTVITNDDLTKLYETSDEWIYTRTGIKERRVVSGNESAIDLG
+VEAAQRALDKSGFKAEDIDCVIAAASAPPQLYPALACDIQNRLGIPNFVPSFDLTAACTG
+LIYALQVARGLIGSGLYKNILLVAADNNSRLVDWEDRGTSILFGDGAGAMVVTEAEDGVD
+DVLSLDVRADGSIGQYISMNMPGKNCPLVEPCDEVDSKIHMAGRDVYKFVVTTLPNYVDK
+SIEDAGLKAEDIDYLIPHQANQRIIEALQQRLKYSDEKVISNIKYYGNTSAASIPIALVE
+GVEQGKIKLGSKAILCGFGAGMTWGAAVVRLREGIC
+>tr|R7MEB2|R7MEB2_9CLOT
+MALNFQELVFNLQKFWSDYGCIIQQPYDIEKGASTMNPATFLRSLGPEPWNTAMIEPCRR
+PTDARYGENPNRLGHYFQFQVILKPSPDNAQELYLKSLEAMGIDLKEHDVRFVEDNWESP
+TLGAAGVGWEVWLDGMEVTQFTYFQQVGGVEVKPVALELTYGLERIAMYLQNKESVYDIM
+WNDTLKYGDIYLQNEIETSKYNFEVSDTDALFKMFDLYQKEVDNCLAAKLVLPAYDYVLK
+CSHTFNLLDAHGVISKEGY
+>tr|R7MGX2|R7MGX2_9CLOT
+MVSQVGSMAPMLNYNNPLSATNTMPASNGSVFDYANPLATGTAYDNDMFMPDFLKTPVIT
+GQAQQAQAQVQPQAQAQAQNTQTDLTQQVPQSQQPVQTVSQQPVTQPQYDATPQQVAQPQ
+YDVANPQQQTTATQNPQFTGGELNGCLADTQGDDVDYTKSGNPYKKXXXLQKSFIR
+>tr|R7MCL6|R7MCL6_9CLOT
+METSIMLKLFESIGFPAVIFVIWYIYHNAQVKTFEKIIANNFEILKDLVETNQYSATVLS
+RIESKIDSNVWCPVLKREISG
+>tr|R7MGL2|R7MGL2_9CLOT
+MDLGVLVVFEMNIVNNNTQINFRAKFKNPVQILKKDISGHYVPHNAAFVELEPDNANDIK
+ALANINRYWAERDQYVCNIYTTALELRRNKDLNIFTRIFAVTEQNDNFEKLNDEKILGLA
+EVSTRKPKEYYISYIQVDPRNVFSISPEFKRVGTRILDSVKAFTNKILLSPNSHDTAKFY
+EENGFKPSKFSRSIYEWIRE
+>tr|R7MI36|R7MI36_9CLOT
+MNCKKLLTTSMILTSCILYAPHAFAAQPIKAQVSKSYTDISRLIEYNNYEDADARLKEIL
+SKNPNDLDAKALQLISQAKQWKLAPTQAELDRLIKKYPNNPTFHYAQGLVYLMRETSSDV
+EYIKNISNLSNAAIQEFVKAVELDSSYYQAYNAMGVATLKLGNRKDAQDLFKTAIKINPQ
+FAPAYDNLGNIAMLEGDLDQAEKYYLQSIKYNSHNPTSMYHMGQVESRRGDYTKALTWLN
+HSLHINPNSSPGWNLQGELYLKQGNQPAAINSFKKAIYVKPENSRPYINLAGVYERRSDH
+EFAMEELKTAIILNPNYKEGIYRVANMSLETKKYPQALEYYSRLLGDATYNNNAIIGLAN
+TYYEMAKDTADSNKFTTNKDVYLAYDYVNEAIQRTPNDLKLHLAKIKLGKITHQMEYTQD
+NLNYIIQSASNSLMDTVIKGEAYLSLGRERDAVYTFENAINFATSVDDELYLAEILVQHK
+QFRTARKALQKALMADPDNRIAENGIHYIDLCEMKSNEFFEIALRQYKEGNYASTIEYCN
+RAIDFYHNAPSIAKLKAQAYEAEGNYEGAVKYYTQYLALAPNASDKAAVEQRIQVFRQKI
+>tr|R7MGE6|R7MGE6_9CLOT
+MAKLTKKQKKMQEMLEGFNQPSTAVDAIKKLKEISNEVSKFNETVECHMRLGIDVRQADQ
+QIRSTVVLPAGLGKEVKVCVIAKGAKATEATEAGADFAGAEEIIEKIAGGWFEFDTLIAT
+PDCMGMLGKLGRVLGPKGLMPNPKTGTVTMEVAKAVKDAKAGKVEYRADKQGMIHCPIGK
+IQFNEEDLIKNYATLADAIIKAKPASAKGTFVKSVYLSTTMGPGIKLDPKVFAAEVKELV
+>tr|R7MF15|R7MF15_9CLOT
+MKKFDNMRVYAWIEFVIWLIIVAITVLGIRYHHYKSQQQYKSYQIFMEDVDGLIVGSPVK
+FLGVQIGYVKKIQIVSSSIYIKFVITQKGLVLPVGAIATVEASGLGGSKALEIYPPPEGQ
+AVDKIVATKDPTRLGKVISLFDDIFRELNGIFSTLDYAGRQIDFEQDIKKNIVTPADAKE
+GLIKFEKNIDTVIDAERSFKENFNRGEKDESGESKSNK
+>tr|R7MCU2|R7MCU2_9CLOT
+MLRTGIVGLPNVGKSTLFNALTSTRNAQSANYPFCTIEPNIGVVEVPDERLPILSKLCKT
+DSIIPTAIEFVDIAGLVKGASKGEGLGNQFLQNIREVDAIIQVVRCFDDENTIHVDGKVD
+PISDIETINTELALADMASVERRQARIAKVVKSGDKDAVLEDKVLKKLSELLSECTFIDV
+SKHFEEDELPVVKMLNLLSTKPVIYCANVSEFDLKDGNDYTKRVGEYAKEHGAEMVIISA
+KIEEELAELDKNEAQEYLKDLGIEDSGINRMIKSVYHLLKLRTFITAGEKEVRAWTITAG
+TKAPQAAGVIHTDFEKGFIRAEITPYKEFAELGSYNACKEKGVTRLEGKDYVIQDGDLVH
+FRFAV
+>tr|R7MFQ9|R7MFQ9_9CLOT
+MNYIFYALIVISIIIGAINGKLQDVVNSIMSGAELSVKIAFSLIGIMAFWLGIMRIAEKA
+GLIKIISKILKPITKILFDELPPESPAIGDVAMNFTANAFGLANAATPFGIKAMEELKKE
+NLGQNTASNSMCLFLGMNTAGFQLIPTTVLAVLVGIGYKNPTEIIAPTFIVTLIAFTSAI
+IFAKIGAKISKKVEEFKEVQND
+>tr|R7MGY4|R7MGY4_9CLOT
+MKEKNNTKPEKCPYCGKTDIVVNGYDSTTEKTPRYKCKDCKKTFKKNKNYYFKNKADKLF
+MVHILKLIKTNYSEINNAPKYGEPIKFQKLFSIKESDKKELDNMTLALDYIGSNKLKNLT
+PKLSIYLENNNIIIAKSFDNK
+>tr|R7M981|R7M981_9CLOT
+MVNVYSAEKINSSITANYSNAMKSQGVALHRFPETENVYLQSSQEGFSNQFAHAVYGDGP
+YSLTCPNRTTDILGQNCDYLA
+>tr|R7MJC9|R7MJC9_9CLOT
+MGFLLGAFGKLSAGRRMRQLQARMMRVQSRARRVTRDVEKMEKLLQRQEKSELNSLTLYS
+NSIYFAAQQSLLATTGLGAIQQKWAQGGMDALSDDEKAKLSQEQTQMSQNLSQMKAQNDM
+MVASMKQQIEDKYELMREQMLEPLKDEEEELQTEKDSLESQYEIAKNDYEACKKMEAADA
+KNLAPNYTGQG
+>tr|R7MKV6|R7MKV6_9CLOT
+MKPKFVLTKNVKGFINLIHNLKNKPDNISKIGLIYGNAGLGKTKTALYLSIQYEALYVRA
+TNSMSPKWMLEEIAKELDEIPRFYTADIFRQCVNTLRSNPQMIIVDEIDYLLKDFRTIET
+LRDLHDKTGVSIILVGMQLAKHKLKKHTHLFDRISEIYKFSEFEYSDIKQIAEEISEVEI
+TKDAVHLIHNKAKSFRQIVNTIDAFEKVVQANSLTQIDENIAQEILNG
+>tr|R7MBC9|R7MBC9_9CLOT
+MIVFEYITFILFVILVGLTTWFFSSKFYEKQLLSLKTENLELKAKIGLNENIINTVKAEF
+SKIAQESLKNQQEQLLSVHSTDLKTKMDLFKAEEISPLNTILKDFKDSIDNYQKSHKEES
+LEIKNAISIAEKYAKALTTNQNSKGEFGEKLLEQTLNFANLKENVHYTKQFSQGATKPDF
+IIYLPENKHLIIDSKVILKNYLEYRETETECDKKAFLNDLTTCINQLGNKHYEQIENTHQ
+AGFILMYIPIESCVNLIYTDPDFRKILELANAHNIIITGTSSIIVTLRLVANLWTTKNSY
+DNVKNIIETGEKLYNNIATHAQNLLTIQSAIENASKSINSEINRFKEKNNGSIFKEAEKL
+HEFGIEAKNTKSGKKFIENKIPEEFLTTEE
+>tr|R7MKW6|R7MKW6_9CLOT
+METRQAESMMRTMDIAEIDLSDEVLRDVQDISVPIQTLFDECLNFISVNDFATV
+>tr|R7MFS1|R7MFS1_9CLOT
+MNKTNMINEIATTYTLTTNTSTDEDAYNDAMNKYRYEQNQYDQKIQEINSKLEIIQQQDK
+SLELNLKQLDTEENAISTEMEAVKKVISKNVESSFKTFNA
+>tr|R7MCJ0|R7MCJ0_9CLOT
+MEYKFENIKIIDFIKTLTVYKGTSLRKLIAKLSNQKGVSNCYSNFYAKLKKETIRFSEVA
+DIADALGYEIIFKEKQ
+>tr|R7MGF9|R7MGF9_9CLOT
+MAIKIVVAIANCFYIYLMMIFIRCFLTWFPGLNWNNPILKALASSVDLYLDLFRKFIPPL
+GPFDLSPIVATFVLIFLRNAVVYGALFLFNALGVLG
+>tr|R7MKX6|R7MKX6_9CLOT
+MAAPEGNNANPLSEIGMALFVLFLLIILLCELPNWVINICICLNITLGIVLLMFALYVQK
+TLELSSFPSIILIGTMFRLVLSIASTRLILAKGEAGEVIHAFGSFVTGGNMIVGGVIFLI
+ITVVQFMVITKGAERIAEVSARFALDAMPGKQMTIDADFNAGLISPEEATKKREDLSRES
+SLMGSMDGAMKFVKGDTIAGIIIVIINIVGGLCVGCLMNQMAIGDAVQKYTVLTIGDGLA
+SQVPSLLMSIAAGIFMTRASAASPSLGSDVTAQITSKPYALFFAAGFLLLLAFTGHWTGL
+PWLPFLLFAVGLFVAGFQVLINADVQSQLGQLENVRQNMQDLVNPNRMYERLGVDILSLQ
+VGSNLLVIADPDQEGQLLAKIAALRQRVTDELGYILPNIRIMDSSALDANEYMISIRGNT
+VATGYVYPGKFMVIADQWDSMKKEVPEDAIIGIDPTYQTQAYWISQEDAKSARLVTAVDA
+TDVIVTHLQECVRKHVDEVMTKTDVLKLMELVRSQDPTLVNDLVPTIISTSDLRKIFVNL
+IREKVSIKDIIFVFERLCDYARFSKEPDILSERLRAALGRQICLSNVQDDKVLYALTLSP
+EWEKILDDSCQRTELGTMFLLNPVQVQELIETTATTLMRAHQTCGKQPVVLCSPRIRLPL
+FQLLERHIPTIVVISYSELITDIKVEAIDTIGDAYASD
+>tr|R7MCE0|R7MCE0_9CLOT
+MPEIDFCLFDLSKILILFPREDKELRERVLEYEKKAQQDMEQNRWKLFNEFGYGC
+>tr|R7MIA4|R7MIA4_9CLOT
+MKRKFVITQNVKRFVDLMDTLKNAPANLPKMALVYGDFGLGKSQTIMWWVTNNDAIYVRC
+NHKMSARWLLTEIVEELDDVPTYLTSLLFKQIEDKLRERPKVLVVDEVDFLLNNSSAIEI
+VRDLHDKIGIPVVLVGMSLAEAKLKRHKHIYDRLLGVLKFETFNKDDVAKIVTEISEIEF
+EPDALELVCAKFNQFRQIVKFLNKVENVAEMNNLKTITLPILEGILNEK
+>tr|R7MBH6|R7MBH6_9CLOT
+MMKKIFAFTLSEILIALSVIGVVAVLVMPQLVAGSKAGKAKAQFNTAYTLMAKAITDMDA
+DDVSIDPNKYPTRTFYDKIKPYNKIGVDCGYEPGQSKNKKVCPGGSADDGDKMYHQFSSS
+GLIATDLMDDGAFVLNNGMLVAIENCKGCTYGKDHNIWLVVDVNGRDYTPNKIGYDVFVF
+QVTKDGLLPLGAPGTDAMFSAHPENYCCDSRVNPGCTIANRSYNGYTCSYFASTDEDYFK
+RVFSGH
+>tr|R7MFB4|R7MFB4_9CLOT
+MFNFKKNGVHVVKYRVLWMCLSALLLIPGIIAMIYSMITYPTHSPMKVGIDYTGGTILQY
+GVPEAVSSDDLAKTREDLDNIGVTNTYLQVLNVNPTTENNNIKSIISIRTKFIDEGSDLS
+NQISTTIKKEYKNAELVQVSSVGPTLGKELFKMSIIALLLAIVGMIVYISFRFKLEYAIA
+AILGLVHDVLFVMGVFSILGIFCNVQIDGLFLTAILTLIGFSINDTIVTFDRIRENLRYY
+GKKMTFGEIVDASVNQTLTRSVNTSLTAFITLAALYFFGGVTTKDFVLAMMIGVVVGTYS
+SIFFCSMLVDFWEEKKGQPKHMAVEG
+>tr|R7MDH4|R7MDH4_9CLOT
+MPITPALLQKIQIPEVGRLTDYVIQNNRHISPRFLSREFLTMQDRYADRYYDTFCHDAGV
+MAKCLEQGKNPELPGVIYSAMCKLTEFFPRKLEYFALKGYQVAERNGDFIHMMARLNDLK
+KVYKNNPDKLMQYIDVLYGQERCLKELCYNYNNAISTFRSVSRPPASRESYYLMLANTQT
+ELAKLIRRKYPDQAKKKLLCARNIYSRDRIESPERNRASIAYIDMNLRKIELIKLIQES
+>tr|R7MK05|R7MK05_9CLOT
+MREYNDFKYACLFGGGAIRGAAHVGVLKALHKLGIEPTLLAGSSVGSIVAALYAVGFTDE
+ELAQVFLSVNFELFRDISLGFNNKFALSKGNVFLEWFRDLIERKYYGAAYLKGQCRPVTF
+KDLKKNLVIITTNMNNFSCREFSSFETPDFEVALAVRISCCMPGLMRAYNFNDELLVDGD
+LMKGKPMWYLSQNIQNSVDRILEIRLEGTFSGSDQKPLEYVNGMYTCMTSSETSFIKDLY
+GKCDNYDYLVVDTGDVVVVDFNYPLDKRQAIIDNGYKQTIDYFTQYLPIKKQRISDIYLN
+ILDELRRMQGFMLRKKYTAAKNCIQELFILILLEKDIIDSELLNALLAFQKLLSSNVKAG
+LLGRSKCLNVSTTTEVLNNLISDLTGRISSLEKYIEKFSN
+>tr|R7M9U6|R7M9U6_9CLOT
+MEEKEIQEQNVQEKETTKKPKGIKRIIASVVIAGLLVGAGFYVVNEMQYESTDDAYVDTT
+TVNVSPRVSGQIEEVFVKDNQFVHAGDLVAIIDDADYKIKLDQSDANYEKIKLDQSNAKA
+NLVAAESNIALAKKDLERYRNLYEQGAVSKQTFDAAQVKYDSAQANLTQANQALFSDKNG
+QTVADTNLKTAKAAKDKAALDLSYTKIYAPQSGTVSSRRVEKGMWVTAGSPLFTLVPEDV
+WVVANFKENQLRGMHPGQPVDIKIDTYPNKVFKGKIDSIQRASGAKSSLFPPENAVGSFV
+KIVQRIPVKIVFTEEIDTNQYNIVPGMSVVPKVKVK
+>tr|R7MC78|R7MC78_9CLOT
+MLSVDINKNDIYKCIYFIVAIAQKQSKASMGGSLSSRGDLIGGIFDRWINTVPESIIFNK
+IILPSISKKNVEVISDYYMYDPGHNKAGIAPDVIGLNINDKNINDKIVPFVKFNERWEPV
+EGMPQIEIKTFKKPQKMVSLRDQGYSGKYLVMAESDFRIDYLLPFFNSEIFNKEIYKELK
+MNDQAFIVSNEKGNIHEIAEIDFSEAKIGSVALLKITDADTFKNYSTYCNEHVCAHYIKD
+ITKQDKQPTQQNCNNFLSEYCDKNEIGLYRMNYKWYDNLLEDGIPYYVKNSKNKNKLNVR
+NYYKTLDISVDNINAIKVLKKSFSSLYIEILENAQINDIPLQRGYYKVELACLDRSSNPG
+SEFFMQKSLVKYLPDKEVILKNILKEIIDKNSN
+>tr|R7MF51|R7MF51_9CLOT
+MNIQHNNFYAPQFTSKLNPINPTVIRTKYGKLNLREVRKADLANPKFLDKLSKFYCANFS
+TCTDDPSWIMYNTVPKRIKNQMIENFVSYLRHIIKHDDGNMTLLLAKDKRSKIQGACLSY
+GYDLVDGSKDYILYVDSIAVNKTFRGAKLGKKMMQKTIEANKDNSSFTDVFLVGEKGALG
+FYKKLGFVNLIKKDPAQCKVSNFIALDREDYPKYVDFLTLPLKPEQPRWYSKVAQKISDA
+WIF
+>tr|R7MBE3|R7MBE3_9CLOT
+MAEVKVGENESIESALRRFKKKIQKAGILSEVKKRERYEKPSVKRKHKSEAARKRKV
+>tr|R7MAY0|R7MAY0_9CLOT
+MAKESRNLTGKLDYNQYESFMLKYRFGHYNVMNRPDYMAKVKAQLKTAFDKISAHGESTG
+GDRLIDKSDMSAFVYAITTKSRRDENNKFLGFEINGIIEPEEYAVSEKQLFENEDNLFSV
+KLRTAYKILNNKL
+>tr|R7MAZ6|R7MAZ6_9CLOT
+MAKKAMINKELRREKLAAAGKYPTVRLHNRCSICGRPHGFHRDFGLCRICLRKMAHQGLL
+PGVTKASW
+>tr|R7MIE0|R7MIE0_9CLOT
+MRISKLKKYVTWNIISVIGYCSLIIVACFLVMFLLSSSQIGMRRDLDNIFFDYTLKYVLV
+PYYSFYKLQLSAVAFFALGSILEKRYYYEQTHFGLRIFENHDKIYSILFVIGLSLNFLPL
+YIITLYIIKIFVRLL
+>tr|R7M9E0|R7M9E0_9CLOT
+MLELLKFFIKDEVPAVGLTRFKDKKEKSFDYGEPPKLNFNRPIFKPNYSNNFFLM
+>tr|R7MK48|R7MK48_9CLOT
+MKKTSIIPIPVKNALTNIGLNLSVARIKRSLQMSLIEGRAGITHVTLTKVEKGDPTVSIG
+IYAKVIFVLGLIDDLYNIADPYNDYLGRRFDE
+>tr|R7M9Q6|R7M9Q6_9CLOT
+MKKIVLFLILGVLITPFTFQKSEGSLISDRSYRAEMNKENRKEVKQIKNLFKIHETYANN
+HDIKGLETLYSDKYMNNDGFGKEVYFKSIKETWDTCKDLTYETKIVSINVSGDYASINVE
+ETASGTITDMLDSNPIAGELHSKSTGIYYLEKVNGKWFIVGETALTDESSLLYGDARFMN
+IEIQAPNQVSAGEVYTTTVKVDAEPDMFIIGAIDRDTVTYPTSTPKSELRAMHQSQTLER
+LLKANTDNLNEYAVASLAISKAKNVQDATYQIYMAGLVCVMKRVNVIPKNNFIKVED
+>tr|R7MJ65|R7MJ65_9CLOT
+MGISFNNNDYGITRKEWRAIKKELKSADKADDSFKLSKSDYKDMKASIKAGNLGDYLDKY
+GANIRNAMGLSLTGKVDGTEDVKAAQQIVNDVNLPNTDKAKVVQYIQMANYAQVKEGAEV
+AFKEVGDTMTKSNFYNHASYDQTADEFSALFTA
+>tr|R7MIQ4|R7MIQ4_9CLOT
+MKKQLLAEFAAKLYIEKLMTLENIAQRLNLNERTLRRWKAADKWDEKRSEYLKSNTTFHE
+DLYKFGRNLLDSIQNDMAKGEKIEPARMYAVTKIMTMLKNVKIYEDKVTSEKHMPETTKP
+EGLSPEVIREIEEKILGINI
+>tr|R7MAJ3|R7MAJ3_9CLOT
+MKKLLVTLIILCGCAVSAAPTLPWQKQPEPVKPDAITEQAKILYAQNEIDSALEILKGKA
+DDDRNADDWLIMGNILQDKDKIDQAIYMYNQAITKDPMNYKAHYNLGYIYFIQEKPNMAL
+AEFKKSVKYKDDFSYGYYNMGCAYLKLKDYRNAKYNFFRALDLKNRNPNIYYNLAYSYKK
+LNKEKQAQTYLDLYNKIMENQQL
+>tr|R7MB06|R7MB06_9CLOT
+MAIRKINPTSPGQRGMTKSDYQEVTTSTPEKSLLKSLNKTAGRNNTGRITCRHKGGGVKR
+TYRVIDFKREKFGVPATVKTIEYDPNRNVRISLCFYADGEKRYILTPEGLNVGDVIVSGP
+EAPVQTGNALPLELIPLGTIVHNIELNPGRGGVMVRAAGNAAQVMAKEGNYVTIKLPSSE
+MRMVRKECMATIGMLGNSEFKNLSIGKAGRKRYLGIRPTVRGVTMNPCDHPHGGGEGKTG
+PGGNPKTPWGKPALGYKTRKKGKASDKLIVRRRKKSR
+>tr|R7MBZ4|R7MBZ4_9CLOT
+MARVLISMPEEFLNRIDQVADGENRSRSELIREALRTYIYKQKIKESTGALQNANLLESL
+LS
+>tr|R7MFY9|R7MFY9_9CLOT
+MDNDVSNSPAPDSSVSYIELLIAWLMIESASIKLVTAECFCALAINVGIVIAATTPIIPN
+VINTSASVNPFVFR
+>tr|R7MIC1|R7MIC1_9CLOT
+MSVREFVKILLAKECMTLTQLAKLATENSDKKYTMDGLSHKMRKGSLDFNDVEFFANLLG
+YEISLKKIEK
+>tr|R7MJE1|R7MJE1_9CLOT
+MKKITQTAGRTQLGNFAPEFAHYNDDILFGENWNNTNIDIKTRSIITVVSLISQGITDNS
+LKYHLQNAKNNGVTKNEIAGIITHCAFYMGWPKAWASFNLAKEVWGEDTNPEMSEKEKYA
+QSLIFPIGEGNTAYEKYFIGKSYIAPISLSQVKIFNVTFEPKCRNNWHIHHAKTGGGQIL
+IVVGGKGYYQEEGKEPQELNIGDVINIPANVKHWHGAAPHSWFSHLAVEVEGEETSNEWL
+ESVTDEEYNKLK
+>tr|R7MCJ4|R7MCJ4_9CLOT
+MKIAQVSFLGQPNKYHKVDETISRSAQPSKDDYKWLQSQGVTDVVNFRHHTVNEFDERQV
+VNSLGMKYHHIPSSSKHPMSQNVLKFLNLAEQVKQEGGKLHIHCMAGVDRTGLYSFAYKE
+FNNLESTKDNVIEWIKIGLHIENYPDMISWALNFIKKYKK
+>tr|R7ME83|R7ME83_9CLOT
+MKYNKIMDEKKKILAINFGGIGDEIFFLPTLISLKKQYPNSEITLALEPRSKGVKDLTDV
+IDNLILIDVKGKNKYLEMFKLLRAAWAGHYDLVLSSGGNKLISILLFLTGIKVRCGYNTG
+FLSKILLTHAMRLNKKQYACKMYHDLIRNITDFNTELPEINVQPKEKIANSVLIHPGVSK
+LSVQKGCIKTITPEVWAKVIDLLVAEGKKVRLVGGPDDKECIETIMQNVRTQNFENLYGT
+TKNLRDLAELISSAEKFLCSDSAPLHVAVALHTKTYVIFGPTDVEALIPKNDNVVPIMAN
+DNCELKPCLWARRQTTCEKLSCLKISASQIASAVCNS
+>tr|R7MJU8|R7MJU8_9CLOT
+MTKYIFVTGGVVSSLGKGIIAASLGRLLRSRDYSVIIQKFDPYINIDPGTMSPFQHGEVF
+VTDDGAETDLDLGHYERFTDTSFGQVNNVTSGRIYQEVINKERRGDYLGATVQVIPHITN
+EIKSKIVAATKQFNPDFHIIEIGGTIGDIESLPFIEAIRQFKAEIGVGNAISVHCTLLPY
+LSTSGELKTKPSQHSVQVLRSYGIQPEILVCRTSKPIPKTEREKLALFCSVPKDAVIECR
+DMKTIYEVPLALEAQNMCSVALKMLGMDDRTPNLTSWETLVAKIKNPTTSVKVAIAGKYT
+KLSDAYISVVESLKHAGYADSTSIEIKWINSEECVDYANCKKLLSDVDAVVVPGGFGVRG
+IEGKLNVIRYAREHNLPFLGLCLGMQCAVIEYARNVVGLKGANSKEFDENPTYPVIDIML
+EQKNVKGYGGTMRLGAYECHLKPNSIAAKAYGAEVISERHRHRYEVNNEYIEKISEAGLV
+FSGMSPDGMLAEVVELPKLDWFVACQFHPEFKSRPDRPHPLFKGLIDAALKHSEKKK
+>tr|R7ME75|R7ME75_9CLOT
+MNVLSYLKDLYTKENSLLNHITLFALLGICAISTVGYLSYSFANIFSWVTSIPSQKAYIL
+LVFALMTIFFFCGYIYSFANNVFQDKTALPELELSSYSAFVRTLPVLISWYIYEAFLMVV
+GFVTVPATNHLFYVYYSVFLCILPFINLISIAFAKDFKLRPALFSFLTLFKVLNQTLGDV
+IKLFLQIVLLLIIPAGLVYLMFKYSAGITQETLKFSVNNIILCIATYLMMVVKLVYTRGL
+VEIVKDKLANL
+>tr|R7MA06|R7MA06_9CLOT
+MGLFIGIIRNVYLKQMKSTYQWQLHLITQAKMTATKAASSLMQVGTDYESDSLIAKKLQE
+RQYKLKLLEEKLDLQKTEIEERLEMINTELKSNQEMIHSGIQESFTYKAA
+>tr|R7MCF8|R7MCF8_9CLOT
+MIVAVWLPVNVPFIFKVEFVSFINSELFSVVPYRVKVPLFVTVPALLVSLPEIATLPDVF
+NFAISAPRSSEIKLRLISLLVVKSSKFKVKPTFEPLTIAPIILSTLELSVPFTVTFELFF
+EANPFVTPEFLS
+>tr|R7MCS4|R7MCS4_9CLOT
+MTVTKNLKTKYTEDVVPALKEKFGYKNDHQVPKLVKIVLNMGVGEASHNSKIAEAIEAQL
+TKIAGQHAVVTKAKKSIASYKLREGMPVGAMATLRGERMYDFLQKLICVVLPRIRDFRGI
+SPKSFDGRGNYTLGLKEQALFPEITYEEVDLVKGMNVSVITTAETDEEARELLRLLGMPF
+KGSHKQ
+>tr|R7MIQ0|R7MIQ0_9CLOT
+MKLKMTRKKLAILILLVIIVPIIYNKTSGMIRGMVMQQMMKLPKEVVVDTPHNEEVFISA
+ESTGRVEAKYSVDVIARVSGFLLKKYFKEGDFVHKGQLIFQIDPREYQIEVNNSRAAVSQ
+YSALLKNAQQELNRANALIKEDLISHSDVDQSLATRNSNKALLDAARQKLELARVNLSYT
+SIKSPIDGRIGKIKITEGNYVNATSGSLVNISSTNPVYVSFSLRSDDFVKLLKASNRLKD
+VKVRVQFDNGQWYDQIGKIDFVDNQIDQNSGSIPMRATFENPKNWLVPGDYMKVQLIAPQ
+KTSYMIVPQSCTKGDAMSGYYVWGVENGKSVRKDIKVSDDVVNKNWIVKEGLTLNDEIVV
+AGIQNITMEGQKVKILSAEEYAKRESKGK
+>tr|R7MJD3|R7MJD3_9CLOT
+MYKSQTPVSIGDRIISVISYVTAGWVGLIYMVILYFVRKPASLFLRYNIFQSIFISFFYF
+LLCMIFGFISNILLQIPLINALVSWFILLFNRPVIFEYSAIQSFVMGLFIYMSVVALLGK
+MPRVYWVSKIIDKSVR
+>tr|R7MHP9|R7MHP9_9CLOT
+MKITSMNTISFGAQKAEAQVVDKNKKGHKKEKKYVDPLANWPMRGLGYTNDIGVAISEIA
+PTASRLFWVPSLMYFGADVYDKYKNKGNKYDPNGPRAFSQAVFQAFASIILPATFGHIGQ
+SAFSQIDKYRGEKISTNAKEQTLRFIKHHAAEHDIFNAARNKEDIVDNFVRNFEIFSKDK
+KEAYKNKNIFVKTYDKLLANCKRGAIANTEPEKLKAFAKREFTKVLESCTNKEALGANLD
+KQIFKLKAWKSLGSFAVLLLTVKPIDMFTENIIIKKCVKPQMDYFNKQHSKMENFAQYKQ
+EEKASEKTA
+>tr|R7MIJ3|R7MIJ3_9CLOT
+MNNLENGLILLVMGMGFVLIFLTILIISMGIMSKIVGYLNKIFPEAVEEVKTTAKKVAGG
+MDEVALAIAAVMAKRN
+>tr|R7MK03|R7MK03_9CLOT
+MPKVSIIVPVYNVEKYLERSLNSLINQTLKDIEIICVNDGSKDNSLKILEEYSKKDNRII
+VINQENAGVSVTRNSGMKIAKGQYIGFVDSDDWVDLDFYEKLYKTAIANDADIAVADFVR
+EHPNKKPKRLNLKEEKVYETPEDKLLVCKVHREGCVWNKIYRSEFLKSINLEFVAGMFYE
+DRDFTIRSLYFSKKLVTVPNTYYRYFVNPKSICKKGINKIQNEHYILVRQQVLQFIKEHH
+INVPDGLYKAEIFRYKLFGKTIFTIKESIKSKYIFLFGKICIFKY
+>tr|R7MDR3|R7MDR3_9CLOT
+MVYEKQPQLFGFLNIYKPKGMTSFDVVARLRRVTKIKQIGHTGTLDPFAVGVLPICIGKS
+TRLIEYLDDDKEYLATVQFGKDTDTYDLDGTVTKTYDKKINQDDLISILDDFRGEIEQLP
+PIYSAIKVNGKKLYEYARNGEEVEIKPRKVFISKLELESFDYEKQEAKILVGCSKGTYIR
+SIAYDIGQKLGCGGYLTALERTKAGLFNKEYSIPLENFSEISDVMTNLVNPLDVLSLPKV
+ELNDIEKERVNHGMAIYNKGFKNSDIVILVYGGRIHAIGMVKENQILVKKVFEVL
+>tr|R7MDY5|R7MDY5_9CLOT
+MHGFINLITNCFNIICHLPAHLIEPIGFLPEFAKDAMIDSLNILPFLFIVFVIIEVIEQY
+FTKKRHLFVFFMKKVGPIFGSLLASIPQCGFSVIASTIYTRRILSRGTLIAVYLATSDEA
+IPVLLTYPNKAYIIIPVIAIKIVVAIIAGYLVDIFVGYKAKEPEIEQHHHLASVEIHSEH
+GCCHHQLADATKTMDFWLHPLKHTLNIFGFILGISLVLGFVLSRVGTEEVMAKYCLMNSP
+LQPFLVSLIGLIPNCAISVMLTILFVKNTISFGSLLAGLCTSGGLGILVLLNKNKDKKDT
+AIIISILVVVGTLIGLAFQYDLFHLSSLFKFIGIQL
+>tr|R7MH14|R7MH14_9CLOT
+MKDFFLNIYKNFKGIKILDRYISKQVIEMFLMGVFVFTTIIFASDTFITLIKQIAKFGIP
+FKVAFIMILLNLPSVIVMTIPMGVLLATVMTLNRLSLSSEITVMRACGIGLNRIAKPIFI
+FAVLMSLSSFFINETVVPVMTRQSKDLALWALGQKNIPEGKENFVFKEVTDSGTLKRLFY
+VGMCKKKTLYNVTVLDNAKEGTIQVLQARQGKTSPEGWVFEKGAAYTIANDGQVLNTTLF
+DTSTVKFGLDLSQELNKNTAKEMNFTKLAKYLASTEISPEDRRVYTIELFDKIALPITTI
+VFVLLGVPLAITPPRVRYNRGFLFSILIIFAYYVVRALSISFGEAGSLAPFIAAWLPNII
+LTIWGTALYYKKVYTIS
+>tr|R7MDI5|R7MDI5_9CLOT
+MSLQLAEQFEANEQYEDAYREYKKEFDQNSEDLGLMERLGHLSLILEKPEEAAWYYHEIL
+KRDVANPLAYEQLISIYENTDKYKYYIYRGNKNSLEGKLEFAVNDFKKALAVASDETQII
+MTRLTLANLYRQQGKDLKAIDEYNIILEYDNLHEEIFLQLADLYMKDEAYPSAIDALQRA
+KQKGFDTDRINEGLAAVYLKSGDAASAIKYTKDELLKIQCMLELGQIDEAYAKLNSLPDE
+FKNSPRYFTLQAQYCYSAKDFKKALEYIDEYNKLSPNSPLTFQMRALVYDEEGDEYNAHV
+NWGKYNMLRKNTDIAVNEFLNAVQLKDNDIDLLFLLAGLLTESGETNHAAEYYEKIAKLD
+PKNKEALRKLAKFREGIGDYRMQAKYLEKIVEADSKDLQALKELAKTYEKIKDSDGAIET
+YNKCLDLISDPAEIQLIKNKLEKLESHGSSSVDDSVGLIDKIMGFFNKG
+>tr|R7MC65|R7MC65_9CLOT
+MMKVGFSPISFRASENQLNLQNNKPQTLGTVQNQDSSILQAEAPKTRKSMRERIAGVWKF
+FASANRLIQAYAKGIAYATVTGFGVLSASWLFNSLPKAFMKNGPKLSATIKHPLNHISKS
+GKIFAVVGAVGAMGYQALKGHLSANQRTADIDHQLRVGHRDS
+>tr|R7M8W0|R7M8W0_9CLOT
+MASISPEEYAMKRNFLKQRQSLPLHLKIELSKNRIKQFYEHFDGQVYVSFSGGKDSTVLL
+YLVRSLYPEVPAVFVDTGLEYPEVRQFVKQTENTITIRPKITFKQVLEQYGYPVISKEVA
+KVIEESRRNPDGYTKKKFDPNSDYVKRYGTHYCMAKWQFLRDSDIPISAKCCQVMKKTPA
+KKFEKESGLKPFIATMAAESNLRKTEYLKKGCNSFNSDRPASTPLGFWTEQDIYQYIKEF
+DVPYCSVYGDILQDSKGKYYTTKVDRTGCMFCMFGVHREKSPNKFEKMRETHPKLHDYCI
+NQLGCGKVLDFLGVKY
+>tr|R7MHW5|R7MHW5_9CLOT
+MRTDLHIHTYFSDGVFSPEKIVDTAIDVGLQAIAITDHDNVLAYDVAQKHIKDNHLEDKI
+EVIRGIEVNTLYKNHEVHILGYFMNTKDKDFVELLKNQQQARIKQTKEIISLLSKKEGIK
+IKFEDIKKLVAEGGSIGRPHIAKAITNAGGTNNVMDAYAKYIHDDSPVYVQRKTVTPFDA
+VEIIYDAGGVPVIAHPHDLEIAEPLIKELMNYGLRGIEAYHRKHSPACVEYFSSMAENLG
+LIVTGGSDFHAPNIMNGQIILGKNFVPEWVYEKLVAEKKRIDMA
+>tr|R7MJG1|R7MJG1_9CLOT
+MKKSTLFDIISPVMIGPSSSHTAGAVRLGLLAKNIYKNTPKKVVFKLYNSYAHTGKGHGT
+EKGLLAGVLGLSVDDRRIKNIFESDIAKEIDYSFEYYDNFKYHPNAVEMIFEGENKMFIA
+GESVGAGEVAIRKIDDFNVKLTGKYNTLILVYKDMPGMISQVTSILQSKNINIASLICDR
+NAKGKEASMIISIDGNIDSSVVETVEEIPEVYFVSYVEKLEN
+>tr|R7MG13|R7MG13_9CLOT
+MKIQGLMYSPIVKPQVFTSDVDKDIDKIREKRDSLKNSLSQNRDSQSSVKDRISSVESDI
+SRQNSNINTEQSEISLEQEKLARSREKLQSDREKLERLQSRMSQLRAQYQNISTEVSKLN
+DVY
+>tr|R7MIY1|R7MIY1_9CLOT
+MGKNDIPVCPLVSIGSGIDMVCSQTKCAWYVPSVQKCSMYLLAYNALLDANAKQRAAKQQ
+QQH
+>tr|R7MCF0|R7MCF0_9CLOT
+MKKFLFILALILFNPLSAQALDEEICLEFDNNFQRLTINDSVHANPDVLSDDRSDSLVDG
+ENLETRENLLFEDEKLLEEAPPIWENVPTLKDANIVEQENRFFRGLTSQVDRLYNLKIEQ
+TNTASSLFKEPLTKHFQSGPLETFHPWAVVGMNMESNFEEGGHSYNKFNPSMVNVILDGQ
+FKGGKENFRILLDASHQHSRPFMKQFVQDFYVESKRIPHHTILVGRSRTGIGYEGIQSPY
+TLPLLNRSQISRNFGNIRKNGVRVIGNYSLVDYDIGGYSSDTFFTEFLPGMEFDGWVNFK
+PLAKTNGKYGKLTTGGGIITGRRNSVDYFISGVFIGYEYKKFWTRMEYSSANGSNGLTGL
+TSKHREGWYITLGYKITKKIEAVLRYDEFDPDKSCRHDHRREYTAGVNYYLKGQALKLVM
+NYIFCQNDNKSNSHRILLGAQIAI
+>tr|R7MCU7|R7MCU7_9CLOT
+MLPIVQNLITLKQPLNTILTGNEQQNKSLKRKIRKDFYKVKQELELTNYMFDDLRFCQKC
+AN
+>tr|R7MDJ5|R7MDJ5_9CLOT
+MAMLYKYLRQSATYRVFKHFMVTFTNFLDTLGKIAQIGYHVLIAILKGDIEKKELLTQCD
+RFGVSSLPITLSIVGMTSIIVASQVAHEMVKQGGSGFVGLLMTILIVREVGAIMSGFAIT
+SMIGSSLASELATMRVTEQVDAIDVLGVDSVNFLFVPRVLSGIIMMPFVVILASVVGVLL
+GAVTSDMFAGLSYRAYFDSAWLGLYMKDLWVSLLKSAVFGGTISLISCTCGYFASGGAKG
+VGIATTKAVVWSFIAIVVWDMVFAILFFF
+>tr|R7MCG0|R7MCG0_9CLOT
+MSIVSIAKSAYKALPRITTIKRAVKTVPSILFEDGADILVRGARDSFKSGIKNNLSIRKS
+ILQGLKDGGNKLALDVAKKTHANGSVFSRIFKSIKSTPADLVAATKGGASAAKAAGKSGI
+LGGVKGLGKGIWSKMPLVGNLLLIAFELPNIISATKDQGIGQGVAEVAKTTSRLVGGSIG
+AAIGGMAFGPIGXXVQ
+>tr|R7ME29|R7ME29_9CLOT
+MIPNITASTVYSTLGNNSSLIPLAIKDVANSCGLTAASYIAGDTVEGKDRFIDEFGTQAI
+WLGGIPTYKFLLDKLMFKPAKLDPNVDVRLFKNPEILKAAKEFAPTKAIKESIEYATSHQ
+KLAKSLNIAKFAASTILTTLTYFGLTKFRHQYTENQIKKDYLAKHPQTQDTFTGQTNKKE
+DTKNPAKVSFTGGVQDFIFDPVKNLMIVDASITGERLTHARNPQDFFGYVIKEGSFWAFM
+YFAGPMISKALEKHADKKGKSIDLDARVIFNDKLKESFKNGTLKQHLAEFKAADVSDADI
+YKFAVKPENKNIVIDFAKDSDVIQMLKEDKLFFAKKTDKVDTRKYIDLGDLRGVSNKLEK
+LLNQYEKSGESLDEFFKSVRNFKKTAVLKNMGACIGALGILAPAIMLAVRHFSPEYQVKK
+DIEEKLAKENAVA
+>tr|R7MJL5|R7MJL5_9CLOT
+MVTKKETMDFEALLDKYDYKFQKGDLVKGTVCGFDSQGVMVDIGAKTTAVIPTYEAVDKG
+ENIEDKFKKGQEGEFLIIREEDEDGKFLLSKKKVDFAYAWKELEKAKADDETILGTVVNV
+VKGGVLVEVSGVRGFIPSSQLRTREADVEVGSKLELKILTLDAQQNNFILSNKKVYEDSA
+EETRKNIFSQIEAGQVVKGEVVRITDFGAFIDLGGIDGLLPLSQLSWRWIDHPTDILNVG
+DKIDVEVISVDHDKQRVSLSLKNLEPDPWIEAEKQIKEGDKVEGTVTRLKHFGAFVEVFP
+GVEALLPHNEVVDYQNESKSILQVGDKISTYIIKFNPADKRIALSVHEASAEPAQESTEE
+>tr|R7MJN4|R7MJN4_9CLOT
+MLKLFWNNFKKTNDCIILATPLILFLSALSWYYSYARDSIDNIPKLILAIATMLIMISGC
+LSAWVYMAKKTIRMSNKIFVFEKDRAKAFGELILSLPIGIGRLFLPMLGVILIIIVAYSI
+LIFADTYVISKYIGTIDLSLLATEKLALSSQELMNEINSLPRQEILAINFWYLLFAFGSM
+IFSFLGILWIPEIVYAEKNPFKALYNSMKKIIITFPKTLGLFVYINILSIGISILNTLLM
+VNPISYFLVLIIYYYFLVYIVVLLFRYYEQTFIKSGTEN
+>tr|R7MDG7|R7MDG7_9CLOT
+MLKKFLYTLWITIFAVLLFFSVKNGSFLAFINSMENRTFDIRQSLIANSGARNHNKDIVI
+VAIDDGSYEYVLDNYGEWPLRRDAYAQMVNYIESQHPKMIVFDLMFVKSMKSGVQADNAL
+INVFKKYNNVYTSMNLDNQQDDLRIPPQLPNLSITPYPNTTNTIEYSNCRVILQGILDAT
+SNIGMINVSRSDDGVLRKMPLYLKYQDKYYPQLGYRVGLDYSNGNLKNIHPDEEASVILN
+WYGPSGTFEHIPMYKVLKASEGKKQLNYNFKNKVVYFGATAASLFDIKTVPVDKVYPGVE
+VQATYLNNLIDGSLIKKCSEPINVLAGIILALITVIFVLRIQSMPVAFGLSMTTSAFYVV
+LAYELMRYKNYWIKIVSPLSFALFAFIIAVIIKYLIKSRDFDAQYKLATTDGLTELYNHR
+YFQEQMQRYVSHSMRYETPFSLIIIDIDFFKKFNDNYGHQSGDAVLRQVAMTLKKNVRTT
+DIVCRYGGEEMSIILPNTKQEEAIAIAQKLCSMVASKKMKLSNGRESNVTISLGVSTFGD
+EDGKTPAKIIESADQRLYHAKENGRNRVN
+>tr|R7MCC8|R7MCC8_9CLOT
+MKTSDIVGIILIILVVTFVISLSPSSKDKSQLPKSSSQKLTEVTPSYTPSIYGAEQIPSS
+IYKNTLGNDTFYDIINPNNEKKHIFWAYADCPIGRKLKSDIDSILEINGLNNYYIHDGNL
+MSGEMIVKCNNQSMECVEPYLYDNCSDNICIINPPKKELIKVPNNDTATLEKKLLQMKNW
+>tr|R7MIV2|R7MIV2_9CLOT
+MNKADFDYCKDEFLWFLNVQYGDLKGKIKEQIDEFCHNFCFDDLYNYEAINKLFLNVEDK
+KRYIELSYGSNSKDALDCDDTHLARIVYFLIHRDEENNEYALPNLINFSDIGSGYKYKYR
+GDTINTYSTLFGSKNQGYEIFFKLCNVEDERVAIFRNRYVTMGNFILLPATTVQLNPDTR
+KWYSMNSYRGTNERYRDYFDLFISRLMSNDCIDFKLWKEQEELKDYFNFMNDKCKFIKAN
+MLENYFNMKTHQAIPNLFNHKDKEAPYYWYMDNKIDDIQYRQFALCYIDEATEIIRNRAC
+KISNILKSLYN
+>tr|R7MKU5|R7MKU5_9CLOT
+MGGNNVNTNYYRNESWINNTFSKRGRFVLGLLIAVLSVGIISCGCGVLQNLGGAAKQEEE
+VPIEDTNPAPKEEVNVPSDNSVGIDVKDNQASNLISYDVTSVGRSDPFMPSDEIRAFEEA
+KRSAIAEANAYNSHIAQLKKMKNVSIREQDDISPYSFNLPVPPTSLASKDAAAAKITRTK
+VVGIMYNRTNPSAIINVDNKDYLVRQGDKIIGQEYKVVTINPSIITVTLGSNVYSASIGE
+LFSREDLNGKANDLYNLKNRFGGRKG
+>tr|R7M9D6|R7M9D6_9CLOT
+MEITSVNNNLVKEIVKLQQKKYRIQSGKFLLEGYKAIKEAFDCGIELENIFVEKSKINDY
+IFAKNIVIETTEPVLKKLSTTDSAPSAVAVGFQKKYDKNILKKSKKVVLLEDIKDLGNLG
+TIIRSSVAFGADAIVLYGESVDIYNPKCVRASVGNLWKLPIFHIQKIEDLKGIFDGFEKI
+ATLPRSTNMLKSFTPKLPAVVMFGSEANGLSEELIEFSTNSVKIEMAKTVESLNLATSVS
+VILYELFV
+>tr|R7MCM8|R7MCM8_9CLOT
+MLFLFSIGQGLILILAGFITSKIKTSEKFYQLSEKIMKFSGILLILVSLYIFYKIFGGIL
+VK
+>tr|R7MGV5|R7MGV5_9CLOT
+MRNEKLHKQIHEKYGFTPTIEQTRMMIDKWLEKYHSKPCPNDKTKTIKEVLNEVEKQNID
+ENILDDLMMAQEMKNIGRNGIRFLKADYFDEALYGIREKTVIKYSLFDLSYIKVYTLKGE
+FICKAYRVTETHPLAHQMGDINDIEDYKQKIEKQHKLRKKTIKAVREHFNIEDIDFIEKE
+LLDNMKFQKIEPIKEITIQPEQQKEQKFEPKIKTSIVARPLFKSNFERYEWHMQNGCLNP
+EDRNWLADYIKSDEYQEIYK
+>tr|R7MDX1|R7MDX1_9CLOT
+MKFLNLFSLLYLIQDGGQGCFQLLGFVFVSITLVLLLKFICENFIITLIVCLVVITLLVG
+IILFTDYLKYKDEPPEQRTERLKTEEMIKEWQKRYH
+>tr|R7MGK8|R7MGK8_9CLOT
+MIKPAWMQKTWDYVASRYGEDVGKMLVHTGVIGWILSSAAQVTAILINEKIPKEQKMYMV
+PQELADAAVNIVSFYAVTRTFKAIANKLVSTGKLLPKTISTVLKNSSVAEKIGKNGFDVA
+KHGHLPTELLKEYGKFYSGIDILGTTLGSVISCNLLTPVIRNEIAASRQKKGIAKINSKS
+DGSPANIKAPNSKTAYFKAPTMQTFQASSMNKPYSGNLKV
+>tr|R7MH86|R7MH86_9CLOT
+MENSDLKQKKKQKAKNKKHFKQTGFYYSFLTIALIFCLIQIGYGAIMNVSKIIAYQGKTV
+TLQNLLKKAQARNQDLKSEKKMVTSDNSLEGIARNNLKMAGEDEVLIIINQKVEQPKKKK
+DKWSLKDLFKKKKETKQEEAPDNLYIPQEVVEE
+>tr|R7MH88|R7MH88_9CLOT
+MQWIDNKTTALAKKNKIVNALKNYSTRPEWSFAKTPGAGVHGFLATDTEQLFENFLNPLT
+NRQVKSPLFGIPLSAKSNYYQGLEQYGNITQQEINNFVKSLKGKTFAEKTLALQKKELEL
+LGANADIVAKIEGKTGLKGLEKLAKSLKVKKLGFKSIREFNELKGKFLDNPDKIMKALEN
+ADKKIKFSVWRGNDNILGKIKSHLIGRIATPQEYLNKYKAILGKGNTSRLGRFLPASLGW
+LTEGTTSRFAGGKLAVAMQSYFLADMLYHTIKAPKGEKTKTFAERFVNDFTYFMAMTFGI
+KAMHKVGGLKYLGIKDKAGIEAYRKGVEVFKAKHAAGLLKNKKAYKFAQKRLDVLLGKQN
+VKGFFNKLFFKVGKLINLGNERIPAYKSTSKYNLNWLRKCANGNILGVPLRFAIPMLVIS
+PFLAKLTTKTAHKIFGKPTNSVLDEDKEPEEVKTAQQQTQPQNNNIPEVNKPLQPPRNPN
+QYADSNLIKQRTNAINGQQQVNNVNPQQATPNATNPNVAQPTKENEEKEPVRTYIPSPVG
+MVPQTPDMSGINQAMSQADAAEKYANSVLKMG
+>tr|R7MGX6|R7MGX6_9CLOT
+MKQVYGYPQAIYGTNNYVGEPANSIFSTEKAMKGCPASRMSSNINGSTVATDGQITGAAS
+QMPCLNECPNKYNGITIDRNERKMDGNSCPIDIQTKNSINAVKKTLIPYEIPQQIQNITG
+GAAPFGGCQFPDVPNSHWAACDIDKLAINDVVVGYPDGFFKPNRNISRAEFATMLVKGFN
+LDCDLSRNTMFSDVAKSNWANPAIAKAVDEDLMKGYPNRTFRPKDPVTRVEALTSIAKGM
+TCDIDRCKADEILSRYSDGNKVPDWARIPVAKSLDSGALKDSPTPNMIMPNKDASRADIA
+SMMQTVRVALGYDTNPKTANTICPACPVDKNALIEHEEIVKIPTLKLSMIDQVTAKSSHV
+GQYFRANTLEDVTINGVTYPCGSTVTGQVVEVIRPSGCEKGALKLAFTEIKNGDCKTKLP
+KQILQAQVNKSKNVNPVARLVEMPFTWAGSLIGVVGRTAGGILTTVGNAAENVSNDAGYM
+LGHAFQGQFGASARSLGDGLYQTVKAPVDVTRTALSGTMGLFQTTGDEFAYLVDPRGYKI
+SAVNPREHITIAFGCNE
+>tr|R7MA20|R7MA20_9CLOT
+MPASFLHGVETIEIEKGARTIKTVKTAVVGLVGTAPLEDVDTDLRTVNEPTLILNEIDAV
+KYFGSPKNGYTIPQALQAIFDQGAGVVIVVNVFDPTQHETVSDVKKADIIGEVNALTGKR
+TGMKAFEDCYSLFGYFPKTIIAPVYCEDTAVVSALKTICDKIRAIGLVDAPVGTTVQEVI
+TGRGPEGQINFNIASDRIVLCYPHLKVYDSKTDSNVLEPYSQRLAGVIAAKDIDKGYHWS
+PSNSSINGIVGVEKQLTSMINDPSSEVNTLNEAGVVTVFNSYGSGFRTWGNRSSAYPSST
+HVTNFINIRRTADILHESVEYSMLQFIDFPIDDGLIDSINESVNAFIRTLIGRGALIDGK
+CSYNPDKNPVTEIANGHLVFDVEFMPPTPAERITFESFIDIELLKSLGG
+>tr|R7MCK6|R7MCK6_9CLOT
+MWLAESSESWHEAISPQGVFTPYNKLLEAGFDGYYGSFFNIKDWKNAKDLYKDVSLTLNE
+TKKFKEKKSAIGAFTTHDEVSPILLKGPQMSDMIIWLNATLPIDSYFVDGFQTGDDYNYK
+MGNKLAPSTNTDDDTYFTHRGKIDIFNYSRKPGGNNQNIHNDFLLGNNVKSTLVPVLNEG
+TFTPLKTKNSKVFAYTFGNSVKRVITIGNLDYENPQKATVKIPKYNPRFNILPIKISSMP
+DIKKGKISLTLKAGEIVVLVVHELL
+>tr|R7MEL5|R7MEL5_9CLOT
+MTVEPGFGGQKFMADCAEKIKIIKQHATQNLFIQVDGGINAETGEICTKYGANSLVAGSY
+IYKAENIKEAISSLKH
+>tr|R7MDI9|R7MDI9_9CLOT
+MDKEMISCENTKLHENSHPTFENSGTGVLGSIMFIALMLIIMALISIYMK
+>tr|R7MDA2|R7MDA2_9CLOT
+MGKSKARIFRKGINDQIPRISRADAISETVKHLETKNINDAKNLITMFGLSAEEILEAGG
+SYEAVIAIKNILNQC
+>tr|R7MIJ9|R7MIJ9_9CLOT
+MMELLKKLAESNTINFIIMLGILAVIVIKMNFKASMDTSISNVAGIIKKSDDAKSESITK
+LEKSKAEIEKLPTDIENLKKEAKVKADVFKKQIENSSSEEISNIKNSVSRVMSIEEKKIS
+NDLQKKTIEESILMAEKNIKRMLSENSDLHRQFIQESLDELDKVNL
+>tr|R7M9Z5|R7M9Z5_9CLOT
+MILDKVNSPKDVKALSISEMNSLANEMRELIIKKVNTIGGHMGPNLGIVETTIAMHYVFN
+SPVDKFIFDVSHQCYPHKILTGRKEGFTNPDNYLKYTGYTAPEESEHDLFKTGHTSTSVS
+LALGVAKARDLKGEKGNVIALIGDGSLSGGEALEGLDNAATLDSNFIVIVNDNDMSIAEN
+HGGLYGNLKELRKTNGQSEHNFFKTLGFDYYYEKEGNNIEKLIQAFEKVKDTNHPVVLHI
+HTQKGHGLKVAEENKEAFHWVLPGVLDKKDDASASIVEDYNSITKDFISKKSQEDKTVIT
+VNAATPGVFGFTKDYRESLGNQYTDVGIAEEHAVAYCSGLAKSGAKPIFCVMSSFIQRTY
+DQMSQDMALNNSPLTMLVYWGGLSGADATHLCSFDIPLISNIPNIVYLSPATKEEYLAML
+EYSLNQTEHPVKLTIQ
+>tr|R7MET8|R7MET8_9CLOT
+MQIDNKHIKKQFEKSMQDYDQNATVQILMASKLVFELSKISTTFENILELGSGTGVLTKQ
+IAKELNFSNYFANDLVEKSKHYVKKFIPKSTFFCGNALKIKPPKKVDLIISNAMFQWFPS
+LEKAIQTISSNLKTDGILAFSTFAPENFKEITNLTGLSLKYLTEKEIEEILKNQGFEILY
+IEQFYEELKFKTPLELLAHMKKTGVNSLSEKTWTIAKVKDFCDKYSKKYPENKLTYSPII
+IIAKKK
+>tr|R7MKE2|R7MKE2_9CLOT
+MTEKIISTISKIYAKSLIDVAMESNSLDKFHQQLGEVLSVLKSSCDLQKVIGNPTIKNED
+KVSVLDEIFSSRVDSKILNLLKLLIEKNRFDELELIYYAYCEMFDKNLNKKSVEVVSAVK
+LSFEDKTNILFKLEHKLNCEITPSWSVDENIIAGLLFKFDDYVIDTSVRTKIESLSKSIS
+R
+>tr|R7MGM1|R7MGM1_9CLOT
+MQYYNNEISKKYPQLLEYFKSGIYDENKNISHCLLFWGPDIQSQCELALDVARLLNCSKD
+GNDSCDCLNCKWVREQTHPAVKIYTRLDFKEGSSDEEETKGKKNINIAQAKSIISELSIT
+SDYHRVYIFCDRDEEGNLLPLNQINFPEATSNALLKTFEEPPKNTTFIFLTKDKSDIIST
+VVSRAQSFFVPSVVIENQEYNLVEDFISNYWTTGRNQVLDFENKMSALIAEHGAMVVFSQ
+IQNYLLSMIKTNSQKKPLFYKFMDDMKSVEDAKRQISLTPAMNIQTVVENLSFKMILQ
+>tr|R7MFP3|R7MFP3_9CLOT
+MVNALNHTQSTSSKIKTKKMYVSTPINRVQEVETRLNKIFKEELDSEGSILVSYKPEVVS
+KLARFILGHVNRSASIGIAGETASGKSTITLDIIDTIKSFATEFEIEDAITRVNTDDYYY
+DRSEMVKKAGSFAEFAKNYDLDVPHALELELMSKHIKELLAGKSVYLPKYDMSGTAKRYD
+NYTLANPSKIVISEGLFTLTDKIKDAFDFKIYVDVRSHVQKERFYVRAKERDLGDSADGI
+YKNASQKAEIYIRPCKAEADIVLSGEAVRARYKAFLNKLICIVQQENFRNKEI
+>tr|R7ME80|R7ME80_9CLOT
+MMKKILLILFVLCLALPVCAKKREAEQIITPMTQLEKRQFQTRTYDSSDKPLIMKAMLNV
+LQDEGFIVYNANPLLGFIYGVKDFDTSDPNIDITKEFGLSKSRLNWNGVKVATIETTANV
+TEYGKSIKVRVNFKRKLLNIYGNAQFIDDVNDENYYQDFFSKVDKAIFLQKQKI
+>tr|R7MBI1|R7MBI1_9CLOT
+MSVREDVKLLLAKEAVTMKSIAEKMKDRTGYPYNLKVLSDKLARKTLKYEEFKLITDILG
+YDIELKKRNH
+>tr|R7MCI4|R7MCI4_9CLOT
+MIEKDLDYYLNLNWTLIEGQDLDFDGNPYYYIEIKEIPSFTFCAKTLARARENYKKQLKL
+SLQVMLECGDHIIEPGEEPDEPDWESLCP
+>tr|R7MEE8|R7MEE8_9CLOT
+MNKLTNLAKNLRQNQTQQEHILWNLLRNHKFHNLKFKRQQPLGNYIVDFICKDIKLIIEL
+DGGQHNTKENILADEERTKFLESKGYKVIRFWNNEIDNNLEGVYLELEKIFQELTE
+>tr|R7MK18|R7MK18_9CLOT
+MPNNERVNISFFLKEFRSFISKTSFSKRSTNKEPKIYVSGIATKIKLEKLIPKIMLTKND
+NFSFFIKRNIISFIKITNKLTTIDWTKIKVNRCETNSPFRMLKMGCNNINIKGCTPTR
+>tr|R7MBI9|R7MBI9_9CLOT
+MWDYSEKVMDHYRNPRNVGTIEDADAVGSAGSLTCGDQLKIYLKIKDNVVTDAKFQTFGC
+GSAVASSSILTEMIIGKTVDEVRKITNKDIADALGGLPPEKMHCSVMGYEALEDALKNYK
+AEGYVDIDDLLGNNPPEKQEKMICTCFQITENVIWDAIKQNGLKTVDEVTNYTKAGGACG
+KCKSVIKDIIDTYYNKEKQDTQQLTPTQWVLKVNNVIETQISPELQKDGGDIELIDIKDK
+TIYVKLKGRCSGCKNSMMTLTNFVESTLKNSLGNDITVVEV
+>tr|R7MH55|R7MH55_9CLOT
+MIIDLIKSVFYEFLSYFVPERMTYEITGSCKKCGKCCNYMYSVDTYTEEEFKIMQNIFPT
+YKRFYIKGKDEFGNLIFACKLVTPDGLCSDYKNRPRMCRKYPVKRISYPAKLHDGCGYKV
+NIKRFEDYLKK
+>tr|R7M9H3|R7M9H3_9CLOT
+MKKVNQTNRVLNAVLATTAFCALTVSPALADPSAGGIQAGLNPIGPGYSARDVQIMHEVG
+GANTHDADMMRYDKNQRRSNSDYYQYEQKRYGTGGSAVKNYATPETSIPDAMKATVDEMG
+SKGVYVNSIEVSPSEILTQEEINSIIGQYVGRNVFMSDIQNAINGLNRLYAERGYVTARA
+YLPEQTVSNGNIRIELIESKIGEVTVVNNKYTTDNYILKRMPEKSGELFDIVNLEKDVLD
+FNRYHDGVNLSANLKAGQTPGTTDIELTAAETFPFHLIGMMDNAGRRSTGQLRGGPAIVA
+DSLFHHRDQMSLGTYFSKGAVSPFFDYSYPINKKDGRIGFSYSSTFANVKNGPYSWMGLK
+SNSYIYSLYYDQPIVRTRGFNC
+>tr|R7MB76|R7MB76_9CLOT
+MSGHSKWANIKNKKAKTDSQKAVVFQKYSRELIVAARLGGADPAGNFRLRTAIEKAKAAG
+LPNDNIKRAIDKGAGAGAADNYEELTYEGYAAGGVAVVLEAMTDNRNRTAGDVRSIFTKF
+NGNLGETNCVGWMFDRKGSIEFENTVDFDKLFEAAINLDAEDVTEEEDCYKVLTSVENFQ
+AVVEGLEAEGFKSTTAELTRIPQNTIEVTDVKTATSVMRLIERLEELDDVQNVYANCDIP
+DEIADQVEV
+>tr|R7MDX8|R7MDX8_9CLOT
+MPVYDSICNSMSTMSAGGFSPHPQSIGGYNSNVINWIIIIFMFIAGTSYTLQSRVLTRRR
+LSLFWKSEEFRTYATIVLFVSLALSGILYFEHHYSLIHSLTAGFYQMLSISSSTGSASED
+FQLWNFDAHVILFFCLFISSCSGSAGGGLKLTRWILIFKFIKNEIYKILHPNAVVPVKID
+GKVVSTDVVRQTIFFIFAFFGLWAISATFLTVTEQNLEIGLTSAITSIGDIGPGLGNVIG
+PMGNYSSLHSFSKIIFIFNMLVGRLEIIPFLVLFHKDFWTIKR
+>tr|R7MD78|R7MD78_9CLOT
+MINFENLYYKAIKRYCSSASCPLKQFIVKADNNLSPLSKDEVVISKAIKKAHSQHHYFQD
+INHTKILNQDIIDEKALKEIDDEFLEIAPMSEESIFYRGIGKLLDNPKTLEYDIIDKANI
+GDIIQPFPGYAYTATRDNYTFASRYAWTGDPNKAKAMLLEIHTPKGAKISVNREHGGEGV
+FPRNAKYRVISKTNVEVKNHPMLVEDCGETFPRQHIILEYIPE
+>tr|R7MHG0|R7MHG0_9CLOT
+MYIEYLQAKPQIINSPSRNISNIGKALISGIFREFKGSLITVAPVNSKRVLHFYNKNGFK
+RSPEYRWIYEHQA
+>tr|R7MAE3|R7MAE3_9CLOT
+MFDRIKNLKLVKQLKDNVSPRLRWLSFSNKNKLDKSTTDYLEAISGVDNLKSLSDEQELE
+AMVRAQLKEEFPNIESMKSYELLVDAVMHNIKKKQLQATDNLDIE
+>tr|R7MDJ6|R7MDJ6_9CLOT
+MDTLIKKIEYFIPFRTCEYVLTLSLFSILVLTHTIFQPPIFANDFIANKAVNTNTLIQMS
+EYVKEGVNPELKKEKFNERINQKYRGLKVTTIADGIKHIRMVKYYNGKPVRINVVEVNQE
+VAQNYEVKPAIASVTLPNKRTVRTIAQKTNSVVAINGGFFKPQTGVPLGTLMINGKIYTG
+PIYDRVALGIFENGYDVGRVRLNAKIYGNNEIIKIDNINQPRMLSSYVLAYTRDWGKYAP
+TSPKYGVQLQIVGNKITAASANPLPIPENGYVLVGPKAQLGKLFGAKSVNLQIGTNPKWD
+NVKHIISGGPYLVKDNQIYIDMTAQKLQSIGGRNPRTAIGYTKDNDLILVAVDGREGSSI
+GLTLTELASFMKSLGCTNAINLDGGGSTVMYVNGQIVNHPYQPGGIALSNALVISKKYGS
+>tr|R7MD17|R7MD17_9CLOT
+MTEMTFYPVNNNINIQSSSVFNSYSPRKNTEFSSKTNYRVRSYNRDISKEDKTKALIGST
+IGTIIPILFMMKKQNVKNPLKLKYGMWDMINTAAGSIIGGVGLGLIGEKKEVQKNRLKEG
+LFQFMNASIPTWIVGGVVSLCENSEKYNNKWNKILSVAGGLLVGMYGSAALSNLITDPKD
+KYPDRKLSAKDALANIDDGIGALALAKFPIIEKLNIGRFLPIIYTACGYRAGQSN
+>tr|R7MGK1|R7MGK1_9CLOT
+MGLFDKFKEVTKKVSEVENNIYHEKRDYLEIYERNLELEKEIAERTEELDDANRRMFTLQ
+HIWEMMNSSTPLENVMEAIVNSTQGELGYMHCAIIHKCVDEDGEYLQILAQSNDGLIDRL
+NNIIGSPGIQTRKLNYDGESVFADSMRQRKIIQTRSIDLSLKSVLPDLDAETVKKVISNQ
+PVKSVIIIPLITQNKEFGWFCVFSAREELAGTEMDFLGLFAKQIEMAITIADLFQAVRDQ
+AVTDALTGLYNRRYFEEALEKEVQRAKRQQQPFSIIGIDLDFLKKINDTHGHFYGDLAIK
+TIADVLKANARSVDVPARIGGEEFDVLLPGISSDGAMIAAERIRSAIEKTEIDTIGHITG
+SLGVATYFEHTDNVEELLELTDQAMYTSKREGRNRVTLAKPISETSWQEIAVNTFVDILS
+KNRIPMAKHLSKELCLKLQAPANKDEMTNESLYTVADVLTKLYNPMHSSGVIKNKVLMAA
+SLAKRFDLPKEEIDNLKVAVLLYDIGNLMLPQDILQKATPLTDEERDKIKNHPIIAAREI
+LKPISYIQDVLPIIEHHHENWDGSGYPNKMSKDEIPLTSQIILIIDEYFALIEPRPYRAK
+LSSRDALEIIKSDAGKKWNNTLVKEFISLIEHDIV
+>tr|R7MEP0|R7MEP0_9CLOT
+MSLSISAQSNSYLAKKLGKSESNQTGASSRTQVAQNLQTSSAKTTRTLTLGSKKQSNFVA
+GRGNTPGAARRSLTKLQERYNHRPNQGFYNTGGNSGVQETVVIRQSSNFGNMTGMYGMGG
+MSGMMGMGGMTGQMGMLNQMGAMLGMDQETMGYIGAGAYLTQQLGQLGSSMGLFGGSSSS
+SVSSSVSSSANTAISNMNSAKDVVSLKQAIEGAKSQEAGLSQSARQVESKQTAFTNATKA
+KKDAETSVANKKQDVATKDQTVKTLGNQVTLIKSQLTAASNAVSAANASCQAAKLNLENA
+SPEGKEAARAAVRKAEKALEEAIATEAKVKQALTEAENRLTNAENELKTAKEEYQKAEDD
+LATKGEALETAETELDKAKQAKQDYDALSSEIKTQESRLEQLDRQEKEAYSDTTQAIKDR
+EAKVGDKTDDKKLAKLKEKQNKHGDNIVKLQCMSAPPSETGKDGEDLRSTMLPSGKMVYF
+VGMEEVSEDVYNSHKKASA
+>tr|R7MJ89|R7MJ89_9CLOT
+MEASFIKLNTNSFYDKKVLKTISEKWGGSFAEDIYIDATNVFEKDTTKGGIYAITTQKKG
+FTQVEPKKYLD
+>tr|R7MDK7|R7MDK7_9CLOT
+MDVIKLNLARNCLKYLIQVYAIRRIYLPYYTCSVVWNSAREENCEVKFYHIDKDFLPTEN
+FEENDFILYTNYFGINSKNCKNLAKKYPNLIVDNSHSFFCKPLGLASFNSLRKFFKVQNG
+AYLFTSKQLGQVFDVDKIELQPVSMQENYEKFLKNELFLDSQKQIKAISPKVEKMMNDID
+FEAESIKRVRIFKQYEKVLKNFNNIQLDLNSGDIPYCYPFSPNSEIIKRKLWSKNLVLLQ
+LWKNFPKSFVESEFLNDTIALPLDNAEYAEKIIEIIN
+>tr|R7MHM7|R7MHM7_9CLOT
+MILIDNYDSFTYNIVQYLRELGVNPRVFENDKITINDLRKLNFSSIIISPGAGNPDTAGI
+SMDVIKEFYKTKKILGVCLGFQCLAQFFGGDIIKDKEPMHGKVSEIEVVANSKLFTNIPK
+EFSVTRYHSLIADINTIKSPLKITARTRDNIVMAIEHEMLPLYGVQFHPEAILTQYGHEL
+FENFIKLN
+>tr|R7MCX4|R7MCX4_9CLOT
+MCTQEKIVRIVTDYISGMTDRYAVEKFKENFIPEGIKRGMGDDYLFKLANAIK
+>tr|R7MFS9|R7MFS9_9CLOT
+MNFTLLSVAEPLKGSVSESSEYKQTQDDIFTGKVESLNRKDVINMTVSQVLDSSISVEGD
+EFFAEVTSDVYGDKGIIIPKGTVAHGKLTGTTEPTRLGREASMSLSFDYLVTPDGREIPI
+EGQMTTKLHPITAGAKIVAQDVGYTVAGGAVGGLMALNWLGLEAAIASQGYTLAGGAAIG
+GVAGLGVALIRKGNHVMIAPGDEIKVKINTQVDLPVYKEEALKQEEVHYDGLTVNINNIK
+HEKDPFGEVNTITLSVLISNMSDKTLSGFDMVLMNDYNAKFSPSIFGDTKLMFRQIRPGD
+KIVANVSFAVDNINRKFWLTFFDRRTKEVIAKVSLDNAYRSIPEKTKKKNAKVRSSKKDY
+KKSEDFMNMDF
+>tr|R7MIA8|R7MIA8_9CLOT
+MARTSKMNMIMHGDGHGGVHHHDGLINVNGIFENRFDVILTNPPFGARIEKDYKLSETDR
+FYDEDKLKEYEKRYGDDCIKQIKELNKAIDDGQKILDRFDLGKVSGLTEVLFMERCLKLL
+KPGGRMGIVLPEGVLNNSNLQKVRDYFESEAKILLITSIPQDVFIASGATIKPSLLFFKR
+FTEEERKQYAEAKNKAAKAVDKEFEPQVKEIEIKYADDKKAKTKALKDIEAKKETEIKEK
+TKELFNYEIPIVQVEKAGITTTGAKCENELEDVAVEFKNYRDLKGLWTVNKPNISYKING
+EKLVRITNGGEEVIDE
+>tr|R7MH50|R7MH50_9CLOT
+MGLFMFTARINSLIHMKLNTEYKLQKITKKLMDVQQYAAMVGKGEISIGDLLSSPSSMMG
+RTLGYFAWAHNNSLQYMQQNTPYMQQMYAQQMQQQNQVQQQQMMNFIQRSLYIQGRERMK
+EIETRNLNEEEKRITYEKEKCETLLSEINEELKSARDARKQGIQDLAPHYTGLG
+>tr|R7MAE4|R7MAE4_9CLOT
+MLVLFFTIIFIAELIIAGQIIALIQKARQNVCQINQTVTDMKPEIEKNICDVRIAINTIL
+LRITGVHGFIDKRKEDYKKIFSANFLTKAACFILANDWKKIFLALDVILTIKKFILR
+>tr|R7MF04|R7MF04_9CLOT
+MMSQSKKLSIAFYWHMHQPVYQLTPDGDYLMPWVRLHAVKDYLDMALWVNKFKNLKLNFN
+FVPVLLDSIIEYAEYDAHDIHSRLTITPEENLNHEDKIFILNNFFDANYQTMILTNEEYH
+RLYQVVQVEGTSDTEIFTNQEYADIMALFNLAWIDPSFKTSNPELKKLVKKGKNYTLEDR
+VRIIEIQREIIKKIVPTLKKLVQKNKIEITTSPYYHPILPILLDYKNIKKNAMPGDEILD
+LKTELDAKMQTKMALDRVEEIFGKRPRGIWPSEQCVNGKTLEMLSSLGVEWAISDEGILG
+SSINFEFEHDFKGYLNEPYHLVKTYQYKTKNSDIKMIFRDATVHNLINFEYPHHNPIAVA
+NDLYDRIKVLQSRILSSPDQDHLLTIALDGENCWENYMEDGASFLKTLYTLISEDSSLET
+VLISDYLEHSKEHKLLSKISAGSWFNKNFKLWIDEPVKDIAWTYLKRVRQDFSDFVKREP
+LNPNIEMARKELFICEGSDWFWWYGEPNDSGRDNIFDFIYRTHLKNIYRYLDLDAPSYLD
+EPITNISPSKPSRYPQSLITPVINGKDITSEDDIWNNAGCIETPDGPVLRESKLFEKIRF
+GNDNDNFYLKFHLNKFLKGNIDLTQRTYQMYVYLRKAGRKQALAPVRLINKTQNISPISM
+EKFHNEIQIAIRKDTLQFLRLIKAIPGDMWVLQSDKTIGVAYDEVLDLRIPFDLLEIKNG
+ETLEFVFINANYGVKDFYIPNEMVLSVTRPAFVPAR
+>tr|R7MK11|R7MK11_9CLOT
+MYGSSEISQFKDKYDSIVENKIIPMLEKVNDERGLKYRIWGIIISMPISIGIGYLAYLCF
+CVGDWMNAFFLICPAIIIPGVVSLSLEDYLLKKFELKLKTPILQELLTSIPDFYWQETPV
+VPEKEIEQILIFPKAKSCEKSFDDNFLGKFKGISFATGVCSYAFYSKHSVPFYFQGVIIK
+IKMNKRFSGHTVIVPNKRTTSLDLNEGVGYFDYYGDLKKAGLEQVTLEDVAFNHKFTVYS
+TNQIEARYLLTPSFMEKLKDFKEAYLANEMYCVFYKDYIYIAPNTGVDLFSLFKNPEVLL
+TDKSKFENLFAQLESIFNLISFFCY
+>tr|R7MCI3|R7MCI3_9CLOT
+MKEQELNTLMSVVSDPIENVYKIESYKDLAEIQRIIRIFNISEEQHNKHAMLSIKNLATF
+RLVLSNN
+>tr|R7MAV3|R7MAV3_9CLOT
+MARVLISMPEKFLDEIDSVANYENRTRSELIREALRTYMYRNQVRNSKKATTNAEILDAL
+LG
+>tr|R7MEM1|R7MEM1_9CLOT
+MKVYFDLNHDKVKNNRNGVSFGGIKPVKSEDGFKTYEFSYPFDEDHQKLFLEIYAVTQDK
+NNNYAIGQRIYPQNSHNGVYQLKTGSNRIDLAQTFGIDDNQAFAYHYVVENNHTGQKDTM
+LDPGDMVFDNQKGKFNLEIPTKSNLSRGGSMKLINIDSQKVGKVYNDKNMIVDDVNLLRR
+AQKGIKTLNNKFGGTMAGLQDAVRNGEYDMYGRIISLPVFTDDDFTAHAYWNKNCMQSAS
+SLGNINNYASLQRDMFAHGLNFVSDGAFVNEGLQGVHFKHMLKWGENSPYFNWFKASGLK
+NSPLNMGVFVKNKANISHKIVNSPYTYTQKQNGKVSISANKNYDSKRPTYIQFFDKRLVT
+DEEKNDTKHLIKTYSVMSPENVYSIHTHNDSVYPYSFEIDPKIYNENIERLNEYNSTRKD
+GKKISLSSPLAARIVSKFPTFDVEAKYESGFETWDANPDIAKLSFVYSHADTKDLKNLPK
+EERKKEIEKRLSANYQVQDYTVTSGQYWTQKTDDILRLSIAQQLKNIDYENPSLIYKNIK
+LKSNGQIFPKSLPKEITQEEVNNVIDGFYNSTRKLSTADTKSQVLEGLMNTPLDSFEFGD
+NLVAVLASPLISKRATNAKDVGVSRYDLYKQGNKNLQLKYKETYEKMDNLYKNEMSNYAM
+KVLETVQQNSNIKLFEGGKVTELGQYTLPLILPEIAKYAVVESLAPKVKVNVDDTSGEIA
+YDYNSLKNVHLQSLGITNPSSPEDEADMVISKMRKGISNLSVTPDSPIVKSIEKSLNGTS
+ANSFKLADLIIDKTQSGLDWRIDATKDIADIEALRNGNNNFDYTWQSVINFWKAFNQGVL
+SKNPNAYTVAEITDEGDLHRIGLGHWSDKFPSQNDIIQKFQRETGITSTAMYSYFFSDLQ
+EMFANKFEDGSMVPDGNPGMSGKLYGIMDSFLKHSSLDSINFAYTFIGNHDKPRAIHCAS
+MDMKMFYADLTNPDEKDKRYNAYKMIKDRFFGYIDPREIEEYDFSAVSPKAVSMGYAVRT
+PAIQTLEKYRNEGRISEEQFNQAFASISKSISDLVNGKYDGTRFDPDSFGVKPFDVTIKM
+VIKQAQKRHNLNLPQQVLHDFENDTFQQAIEPGITRLLGMMKFLVALPGMPTLYDGDDMG
+ATGYDTKTKNMYLQGRQRVHDEWAQDGNDLYKAFIKKHKKEFDDIMAVRKKPECNALNNG
+TPFMLPPQHATNGQICPAILRQSTDGRMAISIFNPTGFVNDTDKDYSPQHVRIDSINLNC
+EEDVPYLHNGTLGRGIQGLKQGTEFVNANNPNDVYYVREKYGTYYLKRLVDGKDSPIDFS
+DSTLILYSVPEGKPLSFTGRMDVKLPFKFVAKNYENSCNVENGKNLILYK
+>tr|R7MGL5|R7MGL5_9CLOT
+MEKSAEVSKFSKFMKWVKNLLFLTIGAIITAFALESFLVPNNIIDGGVIGISMIVSHITK
+LNLGLLILIINTPFIIMAFKKMGAKFVVQTVYANIILAVFLNLFHHYKVTGDLLLSTVFG
+GIILGFGVGVILKHEGSLDGTEMLSLVVARRFGCSVGEFIMGINVFIYLAAGKVFSWESA
+MYSIMTYFIASKVIDMVMEGLNSSKSVRIISDEATAIGQALIEKLDISVTYLQGIGGYTG
+QDKDLIYCVISRLELPKMLDIIKEIDSNAFVSVVDVHEVYGGRFKK
+>tr|R7M988|R7M988_9CLOT
+MDNNMRNNKNFNKVSNIIESLTVNPNPDSVAVLEEIGTNSSIDEVREMTSRALVKRNEHD
+SLNVVIANRGKGINDMSTVVAMSTINELLSLENKEEAMRVLENTISSESFDEEVKENARS
+VKALMALS
+>tr|R7MI27|R7MI27_9CLOT
+MNKLFSDNEEIYSYLPGNDEMSESITQNWTEQAIECYQINCDCKKCSLAHGHYSFICQMP
+KVIDTLLQTIGEPEKELKTA
+>tr|R7MG62|R7MG62_9CLOT
+MEKQNLNTKILIMDSISSNVQKSNIVSSEISTNNHDENIFQSLKSLGEFYFLPNKGNLGD
+VVIASSEFQYLDANKFSYKVYDLLNLRQCSAPFNFVYGGGGLWHKLYQQDYQEILNIFKC
+PLLNKCVVLPSSFYDCEDVIAAFNEKFVVFCREKQSYDYCKSLNDKATFILADDMVIGAN
+FEMYNNGFYNPTQINKFTNNSNITIESYIELYKKYSAEKNRAIAKLETIEDFSVGYLLRE
+DKEKVFNIDSSAISMDISSYLGGYGCDKSYDYICTKLFLELINKFDIVVTDRLHIGICAT
+KLGKRVLLIDNSYKKLSEVYKNSLYKFPNVKLTTVDDLSHDIEEMKNIKYEKNQYDFSIP
+SFTEFMTQYASFENEYGIERRFW
+>tr|R7MI20|R7MI20_9CLOT
+MSFESITILVFGAVIEAVAFFNTNEFTSISPVKVLVSQINLITASDSNNLTSAGLFNISK
+VLTFAFISGLSSFNFPFIIVLRDNVPFLMSLSLRIAA
+>tr|R7MD74|R7MD74_9CLOT
+MYYRSRFSFTGFLIASIFAAFYYHPKMIVPMLITIALLALPGYIIYTIIRDNAYKNSIKY
+VHKRYVFNQYTLTNDHCTVKYTPDEKLVVTDNINKNTRRDIRTFTISKSQNVNVNKLWNN
+VCKVFDDFVCLDSLVCFFNYDTTVNVKTIKLKEGPKSSREENITIDTSKNGPKFVDMNNV
+RPDTFAEGSAIANKGSEHFVNMENIQEAPKTIERQVDAPEFVEMGEVLSKESKQIDVNNA
+TASEISILPGINIVMAKKIVEFRDTNGLFKSEEDFFKVANVKEHFIPKIKAMIKFGNKPT
+PKNDDDNDEGRIIDF
+>tr|R7MH06|R7MH06_9CLOT
+MRTISNATSTIKEIWSYQHPVMHTWFLFSAASLGCMFTLLFFVL
+>tr|R7MHY5|R7MHY5_9CLOT
+MISVSTNLITQKLNSLRVSNPANSQKNIPTKVEPSFGENLLTSYLNNQAVMNAPAVQKTT
+PVNEVKAPEKPYKNDLRDLFLTNNAKILAIIPRTFNAKDKDGNEIIQGNEEHGTLKNAVD
+RLDEVKAEGFNTLHVLPINPPGASNAMGTAGSVYAPADMLKIDPVLLDKNDSRSDREQFK
+SFVDECHKRGLRVMVDMPSCASYDLYNAKPELMAHERNGLAKTPQGWFDIRMFQPWEDEG
+IRTLNPELLEYHRKFVDMMIDSGVDGIRADVARAKPVEFWDIIIPYSRKRDPEFAWLAET
+YTYEDASPQANMPYDRPEDSLRAGFDAYYGQYHIFNEWNTASQLHDYVIDNLNMSYRVEK
+GKSLIGSFATHDDISPMFHGGEVYCNLTSGLEVTLPMMNPYFVDGFQSGDWYSYDYRGKS
+SPETMTDNHDLTVHQGKLDIFNLSRKPGGDKPQIGKFMTECFKLRDNYNDVLTRGSYIVL
+DKKKDKLDQVIAFARHRQGRTLLVIANKNVNRDVACKVEVPSLKADQKLVNLLPSYGKES
+QFQVSQGEVSVNLGPGRIHVFEIDTPYIERYSKNVYKQH
+>tr|R7MD37|R7MD37_9CLOT
+MNYFMYLHAFTMVTTSKELKEEWGKTPFVSFIPVQHFQRELLNQFNEKRWNEIKSTTGVH
+KLTHKPKILGLNKVKDVSNTFYEKLINGELR
+>tr|R7MJL9|R7MJL9_9CLOT
+MLSWSFVNSADFLMISDIFKTASIFMPAFEDAKFIDEQTLSVVARASGILSINKLSPFVH
+PFSTRAEKPPTKFTPTSFAALSKTCAILT
+>tr|R7MH44|R7MH44_9CLOT
+MATKAFKSEKIDAIKSKIEKAQVAVITEYKGLTVEEITKLRREIQKDGGDYMVTKNTLAK
+IAVKGTEYEALTEKLTGPIALAFGFDDPVSPAKAVTKFIKETKKGEILGAVLDGKLLTVE
+ETKALAALPSKEELYAKMLGSINSPASGIANSINAVLSQLTRAMAAVRDQKAA
+>tr|R7MDN3|R7MDN3_9CLOT
+MHRLVRISPFNANGKRQTSFASVEVTPIIEDFEKTINIPPDDLEITTMRSGGAGGQNVNK
+VETAVRILHKPSGIVVKCQQERSQLQNKEYAMQILVSKLLAIKEAEHEKKLSDIKGETAD
+INFGSQIRSYVFHPYKMVKDHRTGCETGNVDAVMNGDLDEFVESYLRQKQN
+>tr|R7MKB0|R7MKB0_9CLOT
+MILPNKLISLSNSIAYKSTFILDEIKNKLYNPAELYAFLSEKFEDINEYIIALDLLCLMG
+YVNLDMQSEVLEYVKENNM
+>tr|R7M9A3|R7M9A3_9CLOT
+MVGAKPVFVDIDPDTFNIDPKKIEEAITPKTKAIIPVHLYGQPCDMESIMAIAKKHNLRV
+VEDCCQAIGSSFKGQKVGTFGDIGCYSFYPTKNLGTMGDGGLCTVNDEKLKDRLIALRNH
+GSMVRYHNDELGVNSRLDEIQAAILRVKAKHIDEWNTKRREHAAYYNKLFAGCADVQTPK
+ELDNTYCVYHQYTVKIPNRDEVHKMLQEKGIGAMLYYPIPLHFQKVNAWLGMGAGSLPIT
+EKNTEVVISLPMFPELTKEEQDTVAKTLMECIEKSKSAACC
+>tr|R7MFQ6|R7MFQ6_9CLOT
+MGKRAFTLAEVLITLGIIGVVAAITLPTLHARIQEKILLNKLKVTYSILSRAYKLAIEEN
+NGDASLWDIGRKMSEDGSSKMYNKFAPHIKQIHSCNTSRGAKCFANCYYDLFGNRCVTND
+ENIDFTSTWGKGILLNGVALGFWSAGDGCKAYDQKLQYSECGSIIVDLNGPSRPNRMGID
+VFEFVITAEKGVQPKYGDDTLDYGAKCKYNDKSGNNGRTCTWYALRYNNMNYRRKDISEF
+YVYK
+>tr|R7ME93|R7ME93_9CLOT
+MAKVSIIVPVYNVKKYLRKCLDSLINQTLKDIEIICINDGSTDKSLEILEEYKNRDSRII
+LLNQENSGQSIARNNGIKKATGEYIGFVDPDDWVDLDYYEKLYNTASTNDTDIAVGGIIR
+VTGIKKKKFLNFEKETLTDNTKLKFELCDVPEKSYVWNKIYKTEKLKEIGLVFEKGIFYE
+DCIFTPQALFYLGKIVTVPNIYYYYLRRGNSTVKQRSEKANADNVYAHKKANDFIKEHNI
+DISSHEPKTYRFKIFGVTIFKIRQIGKRKQYALFNIIKIGKL
+>tr|R7MAI1|R7MAI1_9CLOT
+MKKIILLLGVLLLANTAAMAECDYQCVAPYNMNSKLRTVAGAVTGVNFVSEKVAQSVLKK
+AISKTLTGDEIKVNLDSYSSKDLKNGIFKSLTLKGKNVKVNDIYLTSLDMKTLCDFNYIK
+QSDGDVIFMEDFPMSFNITLSPEDINRTMQTQKYQKVIDDLNKVGQSYGFGVKISSTKVA
+IKSGKFYYVIGISIPFVRQEQKITVESNFTAKKGKIHFANTQLITRGLSMDLQKLDFILN
+YLNPLDFSVQILDNKDAKVSVDNVDIKNNQIVTSGVVVIPKD
+>tr|R7MHH6|R7MHH6_9CLOT
+MTVKLAITGKSGNGKTTIVKAFLELFKELFPEKSILLFDNDLTGELGHSFGLDIRNTIYG
+IRSGKHEYKTGIPEDMTKQEYIEWAMEDILVPLSDNVDIIVSWFVGSKDCRCPITKQIND
+AVYKLINRYDIVIFDCEFDLKYLNQLVDTEMDCTIIVAKPSEESAHLAKRIEEFSAKYAA
+GNQLGVVINKVDNDNLSSVYELLNKYSLDVLGVIPFDKELKNNPMTRDSKAVQNAIKEFY
+FRLNLPQAKQ
+>tr|R7MAK4|R7MAK4_9CLOT
+MSSNVGSINSAPLVGAFQYNPYAMDGFDEIDMTYNSPLAMGGSIFDGSGYGGFGMGMMPM
+PMAGGGVTGYDPKSYFNNMKDYQKFYIDYNVDQQNMQRNADLRINASLEGIKDAAAVLRD
+KIKQNEQDQVPAAFKAYVQSVGAAYGEGSGKEVEYRALSLYEQMTGKSLIQDLRDNGHSS
+FTQGLLQSLTFSATYRTSAEDNISAITGQPVGTSEKVSQGCGKVLGAGAAGAALGALAGK
+LSHSGKVGTIVGLAAAGLSAILAFVTGGKG
+>tr|R7ME34|R7ME34_9CLOT
+MEKVKKVIIVDDFALSRAILKKMIAFRSDFVVCGEFENAEDCIEYLKNNDADLVIMDFCL
+PKMNGTNASNIIKTFSPRIKIILLVSINTRSEILMSLFANVDAYALKDVSQDQLLSIADK
+VFSSNIWVDSRIQHTIFNLIKYLPSSDYLYFKNLLTSNEGALIDMILKGFDKGDIAKSLN
+VQLPDLAVAVRSIFKKLSKTKRVIQLVEDFKYDLV
+>tr|R7MJF3|R7MJF3_9CLOT
+MQDNSYMYNLSNPALNNDLGLAFLDKTIPNPVDSWYTPGITGSMSNVNMQGHLKEDKFEP
+TRQQKDSKNWKKLFAIVGLGIAGVFAFKGGKKVFNVIKNVFNKIKTKIKK
+>tr|R7MJH4|R7MJH4_9CLOT
+MKKLVLLVTLISFSGATFAAEPLLLEPLTPAQLGNKVPTATTQQGATPKVMVQGTNGVYE
+ATYTPQLGANMVPQNAAAEGKPVPEKRQPRVKIRTKQRSQGNSYWNPGGKGTKSYF
+>tr|R7MHE7|R7MHE7_9CLOT
+MILKNKLTKETLDIPYSDFRKKFAKEIQDSFESYRKTQLNKYSWNFKDDNSLEFNFYIEL
+QWNFNHFGNSNWYIERLADIYK
+>tr|R7MF53|R7MF53_9CLOT
+MIKQQTRKPLVQKRHRSIRVKISGTSEFPRLAVYRSTKHIYAQLIDDVNHVTLASASSND
+KDIKEKLSHGGNIEAAKVVGEAIAQKAKKAGVECVVFDRGGFLYHGRIAALADAAREAGL
+MF
+>tr|R7MA71|R7MA71_9CLOT
+MANKIQFKRGLKTNLPSSADVGMPLWCTDTQELYIGTGNGVALVGGTSGSSEPSNTYTKA
+EIDEMFEDIATLLSEV
+>tr|R7MC52|R7MC52_9CLOT
+MDISKLSKAELVKNNEKLVQEFLIKQGYEVIKVLGDKVQTKYKIYKDNQSYTIKVMGYRY
+NDKSRGNYAWVKKQNFELEEYDFLYFVLYYFDKTHILKIPTEVFKRPCRDKSAFKSHDYW
+NKKTAPEYGIAIKKDTICELLQYEEKLLQ
+>tr|R7MHC1|R7MHC1_9CLOT
+MKLDKAAALEWISKGAQPTETVAYLIKNCNEDGTLNYVKKETVKLSKKALAKKQAEEEAA
+KAAAEAEAPAEEAQA
+>tr|R7MAW9|R7MAW9_9CLOT
+MEGYSFEIITGPMSCGKTEELLRRIRRCIIAKRKVKVISPDVDTRSKGDYIESRNGLWLD
+AIKVKHSVQILSLVKDAEVVAIDELQFFDSNIVKVITQLMNDGKKVIGTGLELDFKAEPF
+GSMPELMCIATQVDKLHAVCMKCGCEHATRTQRLIDGKPADKNSPLIMIGGDETYEARCI
+KCYELPNAHPELNKGFRLLQFDHR
+>tr|R7MGP2|R7MGP2_9CLOT
+MTDIKAVILAAGKGTRMKSETTPKVLHQILGKTLLGYVLDNVKNFVSEEFVIVGHHAEEV
+EEFVKTNYTNAKTVLQSPQLGTGHAVSMVCPALENFDGLVIILCGDTPLVKEDTLKKFVE
+FHQSNNSDITVMSTIFENPTNYGRIIRESDNSLECIVEEKDATREQKAVKEVNAGIYCLN
+WGKIKSAFSQLKSNNAQGEYYLTDIIAWGKAQHLNVNAYILDNSDEIYGINSRLNLAQAA
+KMMNKRNLEKYMENGVTIVDPDSTWISEDTEIGQDTIIYPFTYIEGENKIGKSCKIGPCA
+HLRGGVEVCDNVKVGNFVEVKKSKISSNTNVGHLSYIGDSELGEHVNIGAGTITANYNPL
+TKEKSKTILKDNVKIGSNSVLVAPVTVEEGTNVGAGTIVTKDLPAWALAITRSPLKILEN
+WVKKQLNK
+>tr|R7MH49|R7MH49_9CLOT
+MAHKKGMGSTRNGRDSEAKRLGVKKFGGEAVKAGNILVRQRGTKIHPGNNVGIGSDDTLY
+ALIDGTVKFEPHRRDRKQVSVYSV
+>tr|R7MI12|R7MI12_9CLOT
+MKQIFDKEKLYFFIRKPRFALVISICIVIVGLISLLGLKQESYPDVTPPQIMVSANYQGA
+SAEVIESSVATVLENKLNGVENLSYMTSSSYDGSYSLTMYFKVGSDKNINLMNVNNRIQQ
+VLTQLPEDVQRTGVTAISRSSGSGALILNLYPETGNWSPLDLSNYGSIYVKDELKRVDGV
+ADVNVYGAGDYSMRIWLDPQKMAGLNISTSEVKAAINAQNTQVTAGALGQLPTDDPQALQ
+LTLKTKGRLADVKEFENIIIRSNMDGSNVRIKDIARVELGAQSYTNLGLVNGKPSAIIMV
+SQLPDANVINMSKAVHAKVDELNSRMSNGIKIMTIKDDAEYIQESMKEVEFTILLTGIIV
+VLIIYLFLGDGMATLVPCATIPVSLIGTFFALDALGMSINLLSLFALVLAVGVVVDDAIV
+VIENVKRHIDEGKSAIMATQITMQEVGSSLVAMAMVLMAVFVPIGFMGGMTGVMYKQFAV
+CIAVSIALSAICALTLSPAMCSHFLGREKQEDSKKVDSPFVRHLKHIQKRINRRTSKIVE
+VFNKYFDKLEDFYMEYVKKFVYDKKLLVTTYLIIVALTLVSFKVISTGFIPDEDQGILLA
+SITLPDGASLSRTEEVSKKFLDQVKVLDGVDASKLTVFGDYAVNSATAIILLDSYEDRKV
+GPIEWVKRKSQGRETNLSHTAILQRIRRIAGNTKEASIMAFSPPAIMGMSMMGGFEFQML
+SQGDYTAQELESWANKLVAAANSDPSLSSVNTSFQANVPQYIVDIDYAKALAQDVDLQEL
+YSTLASMLGTYYVNDFNKYGRVFKVQLQADSRFRNTSTDLAGIYVKNKNGVQVPVLSIVS
+LRQTVGTASISRYNMYESVQIQGQQASGKSSGDAMKAMEAVAKKVLPSDMTFDWSGTSAQ
+ERAASGQTIVIVAMALVFVYLFLVALYESYTIPIAVLLVSPVAALGALLFQMMINQSFDI
+YSQVGMITLIGLAAKQSILIVEFAKEEHEKHGLPVREAAVKAAKLRFRAIMMTELAFIIG
+VLPMIFASGAGANSRISVGSTVFGGMVAAATLGAALTPAFYVLVQEFVDKFPKREITEKD
+LEI
+>tr|R7MD80|R7MD80_9CLOT
+MSITLMAYPMAFLINPEEAKNEKLKRASDDKVVNEEVATENLRAIRVLTNIKLEELNGIM
+SMIDCQKHDSYTYSFQNGLRVHWVPNGKYCSAILSGGKNAKFLQQNGEDFFKQLDEYAMR
+NVRLIESNEFFYYTYDTAYQNMRDIYAKLKDQGAKHIYSTEDDEVVAEVEGQNVKYFKPQ
+NESNYILEVEQKVTIMNIGMTGDFEGTNVRYGYLSNLKIQTNIKQEELKTLLRKANYLYY
+SGNSSTPLKNSDATLNWVYKNGFYVAEFSGTNNAAINKEAEIIFRKLNIAAGRDLRLIND
+QSTIVYTYNTNYTDKGILLNTLTEHGATELVENGDEISCKLFGMEMVYYKKDSNGGYVLD
+ITQVSNKGECEDVINDLNEEYGLNIQEMTYNKIKERLEQENMRLESESIMDDNSIVLTID
+I
+>tr|R7MIK4|R7MIK4_9CLOT
+MDEKEIDKKYIDFIENLIGQIQPLLPKDVNKLQEDYLVSNIRKSAMLMASGIQDDEEFSR
+IDFEQQCFYIQIMAEWSFHKEIDLFRSGIPAKYWKVVMQKIWYAMWEVMYACVKNEAPET
+VVLSLVERFVNRTYRDAVEELKENEIIDEKTEEKAKEQSNIKIMAQEVQEVRAINQKVKN
+IVRYLVLGIIISILVSFLILKFKIYGVIVILTLLVYYNVFSSKRNE
+>tr|R7MHE0|R7MHE0_9CLOT
+MLSLSTIEPPINPPTTEPIAVAIISAGPKWIYFPFGEYLKIAQSLIGVLAILTGFKENPF
+LCAKVAITGVMPRAEDARIVAFCFVFKLFCSACSCPLKLWICELFTLYRDILFSIYTSHN
+LHSIKNKT
+>tr|R7MIV6|R7MIV6_9CLOT
+MYSRPVTDEDVEKYKTLEDDSDVKYIFDSYGDHL
+>tr|R7MD55|R7MD55_9CLOT
+MSENWVTALDGLAAGGVIDFDAPAYLLNQPARYVGHPQLAELPMTNISLLPEGTRIKPLP
+KEDEFQHSDGNLVQNPKWKKVLAGIVVAGGVVATAIGILAHRGKIDLSKFKSKIKMPKMA
+GLKSAGKTVLDYIKKPFQFIASKFKKP
+>tr|R7MB20|R7MB20_9CLOT
+MRKITLIGMMGSGKTTIGKILSEQTGISAIDLDNFIENKENENISEIFKTKGEQYFRTVE
+ANTIKELTQTTSSQILSLGGGAFENEQSRELLLKNSTVIYLETTPEEIFKRIKKTNNRPL
+LKNNMTIEKISEIMTKRKNNYNLAHHKILTDGKTPSKIAEEILGALEWKN
+>tr|R7MCT8|R7MCT8_9CLOT
+MSEPIGAIGKKSYSIASDIYKDFKASDFSIKKELKKIGLLSNGQPNCVFDGNLRSSASAA
+SAQ
+>tr|R7MCY9|R7MCY9_9CLOT
+MCGIIISKMNYFDRARYFRTKKRLGQNFLVDGEVIQDIIEFANISPDDTIVEIGPGVGFV
+TEQLVKYAKKVIVIELDEEAIEELKKLDAPNLEIIHNDVLKTDLSSLTEDKFKVVANIPY
+YITSPIIAHLLGEIDDLNNKNRNKIKDIILMVQEEVARRMVATPDSTGKQYGLLTILSQF
+WADVKILRLVGRKSFYPAPKVNSALVKLDVRTEPKLKLSDYSYFRRVIKAGFAQRRKNIK
+NCLLNGSFLKEHISKALSNLGIDENIRGEKLSIEKFGELSEELLKVSKG
+>tr|R7MEQ1|R7MEQ1_9CLOT
+MSDIRAIIMVIDSMGIGAMPDCKEFGDIPECNTLKHVCKFNNGLNVPNLEKMGLGNLQDF
+MGIKKVENPTATYATLVEKSKGKDTTTGHWEIAGITLDRAFSTFPNGFPKEFIDKFIDQT
+KCGGVLANYPASGTAIIAELNDEHHATKFPIVYTSADSVFQIAVDTDMIPLETLYEWCKI
+ARRILTEDNYYVSRVIARPYKVIDGKPTRISKDRRDYSIEPIAPTLLNEVKDNGGKVIGI
+GKIEDIFSKSGITHAIHTGSNKEGLELTLKAVKHELPLEDIAYIKGKKYNNQEIIFTNLV
+DTDMLYGHRNDAKGYGKAIEEIDTYIKPIIDAMEEYDLLIITADHGCDPTVPGTDHTREK
+VPFLMYSKSLPSQGNLGEIEGFDSIASFIRDWI
+>tr|R7MC06|R7MC06_9CLOT
+MKHIFEQKVFYSDTDAYGVVWHGSYLRWLEMGRVGVCEMLGHNLIDLKDKDIVLPVVNLN
+VKYKMSAKLNDVVVTETEISEFNGFTVKFKQIIRSKETGKVCIDAEVSVVAIDNNGKLYR
+KMPEVLAKSFDEVLKCKELV
+>tr|R7M9R9|R7M9R9_9CLOT
+MNSASYIEPYILNWNGTVEHLKTGAIWACKKGCTNCGYCTKLIQLNGWKIPKDNPW
+>tr|R7MEN3|R7MEN3_9CLOT
+MKNLGETINNIMEENSSNRILILTNHLQIVGTIHEYKNKCENCHNCLIALKNVKIARIED
+LLNCEESCECNLHIFKEYDWFNICVDAIVGFSII
+>tr|R7MJG6|R7MJG6_9CLOT
+MPIEPIVTPKQKQPAKVTGKRYVVIDPGHGGSDCGAIRNGINEKDITLDISKRVVSLLEK
+KGYVVKMTRTNDTYVSLQDRVTISENFKPDIFVSIHVNSSNSESPTGLETHYYKDNSLKL
+AKNIHASMLNNINSKDRGLFKSRFYVINHTTAPAVLVEIGFISSPVERAQLVSASRKQAT
+AKAIAEGIYEYFK
+>tr|R7MGS5|R7MGS5_9CLOT
+MIKLTPPKITPYWLNEDRKLCDIVAHNKILGDLTLNTKYYPDVTERFITELRNKDEKILG
+YELFSFEDFSNDLFGYSIRVNPELRQKGLRLGELLRLSSIIEMFENKINKLKIYSKDTAI
+YFHSKYKFEPSITSFKDRDEALNSIINNPQTGMEKFIQSARQLLEKIKQHEEPELQRESI
+KEANKITKGYIEKALETKQGSEIYPFSYGMGMELTKDTVIKNKDFYNTLFQNHGIDYKI
+>tr|R7MIL9|R7MIL9_9CLOT
+MIKKIVGIICLILIVGILYTVKNTHKTPHPKQTTLQFASWGSESEISILKPILSDFEKEN
+PNIKIDFMHIPQNYFQKIHLLFASNTAPDVIFINNQYLPIYANAGVLEDLSTYKNEFEYN
+KFFPIAIDTLSYKKKMYAIPRDVSTLVVFYNKDIFDKYNVRYPNKNWTINDLLTTSQKLT
+HAPNIFGISFEEEPLFYLPYLNYFGVTDLSENTTQMQNGLNFYANLRNKCHVAPKREEIA
+SATMAQLFLQGKLGMHISGRWLVPKYRQEAKFRWDIVRFPDKNGIPSAPVDASGWAISKS
+SKHKKEAIKLVQYLSSKESSDKFTQSGLIVPARIDVANSKTFLDNKSPQNSKEFLEILNN
+ANPTPVTLNFKEITDTMKTKNEVLFNK
+>tr|R7MAZ1|R7MAZ1_9CLOT
+MNNLFTALENQNKQIPLAEILRPKTIEDFLGQSNVISPNSPILNLLKTNRLFSLIFWGTP
+GCGKTTLARLIATKTNANFIEISAVTSGVKDIKDAVDKAKEALRAGQKTILFIDEIHRYS
+KTQQDALLPHLENGTLFLIGSTTENPSFQVVPALLSRVQVVRLNPINDESMAQIIKRGFS
+YLATHYTLMECESGVLDFIINLARGDARYALNIVENAYFASDLRANKRILTVKTIEEICQ
+QRNTRYSRQEHYDCASAFQKSLRGSDPDAAIYYLAKMIVAGEDPRFIARRLITCAAEDVG
+NADPNALNVAVNAYKAVELLGLPEGRIPLAQAVIYVARAKKSNEAICAIDMALSDISAGK
+DFAPPMHLRDAHYKDAQKYGFGVGYVYSHENPEVEQQFLPDELIGTKYTRD
+>tr|R7MHT7|R7MHT7_9CLOT
+MRINPINVNRINHDFEHFARETMQSRIRNPHSFAKEISAFQKNYSKMGMLDVFCYNLADF
+AERLQGSGMRDFAGIVYSGLAKLPIAKDTRITILEKAITNAENQGDKFHILARIVDLKKL
+YKAEWMSKQYVKTLLKEEKCLKSIVTDFEEAKKGFKTVAKGTESEDVYRLRLAFARIDIA
+KTCMRQNPGLALSKIRSAKRVFIEQGRTKEVEFSEQLAKQIELRRY
+>tr|R7M9K3|R7M9K3_9CLOT
+MSEQVLMPMIGTNNRENKERAQNSLEKARIAHEKYLMGQRNNDLQEAIEHYVDAVKYDPT
+IPETYYRLATLMWEQGQISVDTAIEQCQTAISLSPRNRDAHLYTGYFMQLAQDYQSAEKE
+FKSAIRMNPLTSGRPRMILSQSILNKINTQDGSFKDYVGFLYYFLTGSVMLAWDRPTMKM
+FYKNMSNDVSIFSYNTVGKFLEKFKMYDSAEKVYNDAVSKTTKSEYFYNKMGDLALRNKN
+VDKTLECYRKVLEANPLNRSVLVKLATILQTYYPENTEEAIDCYEKLLEFDVDTAQIYYE
+LGHLYMSKEDKLNSVSAFKLAVDRDPENPFFNNSLGYAYAKAELYDDAIEHYQKAISLNP
+DPEWTSIVCQALGSIYAENKGNVEAAVSTYQAGIILDPKNYDLYIALGDIYMADYDLDQA
+IRSYCDAITLNPDDARAYSKVGIALWEKDYLEEALVAYHKAVELSPENEYAQNNLGILYL
+DGLADAEEALEYFEEAIALNPNYTLAYFNAGRASQEMGFTNDAANYYQMAIDLNRLTNEL
+DEEDIQQRLHSLFEI
+>tr|R7MCT3|R7MCT3_9CLOT
+MIKNTDNLNQYKNEKFLNFYKKYEKEITPYIGKYEKTRIIYAILFTILAILSTVLFERFI
+LLDFSLGAIISMGLFDFCVICIIYDKLNSKLKNKIKQTFIPKIIQTLGEIHWNTDETIIS
+DTILEKSKLFGDYNIRSNDDAFEGKYNGIEFKVSETNLSYESDSGDKRTVSTVFNGIIIL
+IDSNKETKAHTIIETKVKAIQKIIKKISLSVLLLWFSILSIGNGIHTNNITALVVGIVLP
+LVIILFIFPKNQMMSMKLEDPDFNKKYIVKTEDQVEGRYLITTGFMDRFKNLQTAFGTKN
+IKCAFFDNKIMFALHTNKDFFELSDGLFHSLKHPKRVKSFYEETTAIYDIIDYFKLDEKT
+GL
+>tr|R7MIE3|R7MIE3_9CLOT
+MEETKVCQFCGAEINSDAKKCKFCGEWVTEDSNSLPKELRHFNWGAFLLNWIWGIMHKKY
+ITLLYFPACLIPIIGPIGVSVWFGLMGNKWAWQSKEWESPAKFNEVQQNWVRIWLILFIL
+GLIFAIKAFLFFAIIGSVES
+>tr|R7MJZ3|R7MJZ3_9CLOT
+MPHFFINSEQVNGNKISISDKENYIHIARALRARAGEKLLLIDEKQTQYETTILQITNSE
+ILAEINNSYKSKRFLDFELYLAQSPLRSDAQALLIEKATELGVTGVYPVMTDNCAVNKSV
+AEKKVAKWQKIMYEASKQCERAIVPECYEVSTIEKVISENHFDKIIVFCERIADKTIRDC
+FIEKPIQQNEKVLVIIGPEGGFSQKEFDYFKTSGFEMLTLGNLILKADTAVVVALGNIIY
+EYSNFKK
+>tr|R7MCL0|R7MCL0_9CLOT
+MSFYCTPEDIEKQVSTHTLIQLTNDNPNQETVDTVVCEEALIYSSTLIDGYLRGKYTLPL
+NNHFPLLRIIAIDLSIYRLYSRRIYTDIPESVLQAYKNAIKTLEDLKKGIISLQTEEETS
+VRTSGEYRTNKTESDRLFNKRVMNLEY
+>tr|R7MFQ8|R7MFQ8_9CLOT
+MHEDDDKKTMKEKLHDTAEKVKEKACELKEDIKEGAEELKEKAHEAKEKLDEKLAEHKEK
+KEDE
+>tr|R7MB25|R7MB25_9CLOT
+MLAQTVRKNITTKKNMDIRTKATRFSDLFQARPKSEEVSFDELLDSKISEYVKQEEVDAP
+IVMEQDIDIEAVPTVDEYEIVENPDEAVVTFPIVGVELTEKLPFFKSITCKLASIYG
+>tr|R7MKN7|R7MKN7_9CLOT
+MKNNFYIISKTTQNFADYMSQTIRLSDQTPYTVKEVILGRKGKVSGKIATFLDKEGNVIE
+KAFNLKGKPLRNRIYTYKHGKIGNDEFVKSTEIEEYKLDRKIVDVYKKYQKKTEEEGIKT
+TLWVHEKTQTNHVAKHIPTDIINLTISRIQNLKNFKQEYLHSFTQYKPIVNNKISKNSPI
+KYIEYIVNDKFIALKSSIHTINMKRPKFDSFLGFRALSLEDFKIPITERFLSDRGIKHLG
+YKILPNYMPTDEKEITWKGLFCNGYIKFRRTWVPESKADFVSTSRHEVEHGWQYYLDARN
+GQDRGDNMLAIGENMGS
+>tr|R7MGM9|R7MGM9_9CLOT
+MGIEIFNPSRFAVGLTSGVQFNNFGNKIHFGQSLEKDSFQSSSPMRLVNETVIKNMIAQN
+PELKKLLNENKIPIRLNMQELRELTDGHCKTTQEFAGMIAKNLPQALKQHVNLKDLKDAA
+ILHDFGKVLIPPEILNKHGKLTDEEHKIMDLHSIIGYEMLKNSGVNDEVLKLVRFHHNNF
+EEKGAKRDYIPDINLQILNIADKYSALTEKRVYKEALTPKQALTIIYSDVKKGNVHPFLF
+QALVKAVTPPQPAKIYN
+>tr|R7MK75|R7MK75_9CLOT
+MYEDLIRKQIIVELKDLIKKAEDIDNDKDAYCEFMKTVILNTYSTN
+>tr|R7MFN1|R7MFN1_9CLOT
+MTDLLEYTKKLAEKIAYYDAMVDFTDESHWYNPFYNKTEVTVVWIDDINSQKRY
+>tr|R7MA17|R7MA17_9CLOT
+MDKIAITTGDPNGIGAEITIKALNELDLPQDKIVLISNKDVLDYYGKLDKKYDIIEIPFD
+KIDIKVGKVTKEAGEFSFQSLLKVCEIKPKAIVTAPVAKNAMYLAGHNFNGQTEVLQKYL
+AHDNQLAEMLFVANNFRVLLLTRHCALKDVYLTKEIIVKKITNLVKTFNNHFNIPNPRFA
+LCGFNPHSGEDGILGREEIDILIPAVKELQALGVNISMPLPADTLFVKAGNHYFKGEKDD
+YDCYIANYHDQGLIPIKTVAGDKTVNMTIGLDIIRTSPGHGTAFDIAGQNIADPNGMISA
+IREVL
+>tr|R7MIH8|R7MIH8_9CLOT
+MEIKEKLAFTLAEVLITLGVIGVVAAITIPGLITSYNKKITETRLAKFYSVFNQAIRLSV
+AENGDVDTWDDYWDNNGTITGGQENQTGVEKAFDTYLRPYMQIAYKKKIYYNGKNQTLYV
+LMDGSAFSYRHFDTRDITFFPKDAEKCIKMGKHVGTCSFMFIFYPISEAESWKYHYNKGI
+EPYLYDWDGSKTHLKSGATYSCANSGYYCTAMIKNNGWKIPKDYPLKLQY
+>tr|R7MK81|R7MK81_9CLOT
+MPFRYRLQKVLDFRINQKEEQRMKVQKAQQAVFEAEQNIKKNNQDILDTKAGMRSADPMM
+YEAYDNFLQHLWEKAEQLEQIRQDVQHKLDIEVEKLVKCEQAVKVLEKHKEKNKEAYLKE
+EKAVELKQFSELGVTRFFKQSQERAEEEEKEILNQLRKIEGN
+>tr|R7MGQ3|R7MGQ3_9CLOT
+MTEKITIRSDRDTDYKFMYKGEEVVLGAGKIIGIADGLEHVVLPTCAMKIMNNLIVIKDD
+VKK
+>tr|R7MFN4|R7MFN4_9CLOT
+MKRNAFTLAEVLITLGIIGVVAAITIPGLATKIQRRQLETQVKADFAIIQQAIRASQADD
+ISYDMVIQDGNDASIKEWFETYLTQHLKIEQVCYNKPGCWHKMGEVKNLLGQPPRYENAN
+GIGGNIVTFRIANGSMFNVDGNSAADMESFGITTDSDGLTFYFDANGDKKPNRMGKDIFI
+MVWNEEGLVPAGHNKTQAEVNTNCLRGDGYYCLQMIASNSWTIPDSLWKRK
+>tr|R7MEE4|R7MEE4_9CLOT
+MVKSAILLSGGLDSLVSLGLKKEELNISLALTFDYGQKSSIQEIETSRKICEYYGIEHKV
+IKLDWLSEITKTALCSEKDVPTGKELDNPENSAKLVWVPNRNGLFLNIAGSFADSADIDY
+ILIGANKEEGQTFPDNTQEFIDSVNKEFEYSTQKHPKVVAPLINSDKNDIVMLALKHGIP
+LELVRSCYQGGEKHCGICESCTRLKHALLANGDTHYMKILFG
+>tr|R7MBJ3|R7MBJ3_9CLOT
+MTTIIGIPLENRIEESIKLQEILSKYGCSIKTRIGLHDMGDYKCLNYGVVLIEVVNNINE
+IYDSLAKYWKIQSMKF
+>tr|R7MJS1|R7MJS1_9CLOT
+MLFNFRKKRSCMEREILEQSEISQRIIDAYVSSDGNISIDLPQNINRIILIASGSSYHCA
+RYAAELFGTISKIEASAVYSSEFLLENTIAHDENILYIFITQSGETTDTNSALEKAKEHG
+VKTLCITNKENSTIWNASDYKIACLAGEEKSIAATKSFTSQLLCSTLLALKFAQNNGIDV
+YDYVLDLKTIPSYINKTFELKPKIKQLARFLSKFKNIIMTADGQSYALAKEASLKIKETS
+YISTTSAILGEFMHGHVAVLNNKNAVLVYILNDDLTYTATKNLNKIKESYNPPICVIGNR
+TNQVKSTYNINIDCEKPIVKTFCIAIIIQLLALQIALRMHRNVDKPHGLNKVVK
+>tr|R7MFS0|R7MFS0_9CLOT
+MPISGVTSSASNSFFGCVSGSRLSEETIRKLRRLGIEPSTVTSEAQAQALITKLEQKLEQ
+VHKTANSSNAQQATSSEAEMIAKAKALAAQVGVSVSSSESLSDIFSKISKKLESITKGGD
+SLKEVKGYKSELSSLEDEYSTIQQSQNSMYSAMNYTANMNKYILGLN
+>tr|R7MHN6|R7MHN6_9CLOT
+MLYHNFITNIFRKTMENYKELIKGITREDFEKGLVNLHIHSRYSDGKATFKDLVEQAKAK
+GLKYFAITDHNTIQGHIENPNTDAISGVEFDVWHKYIFLHLLAYGIDLNNEKMKKFYSKD
+KRGTEADIVRIFSQRNLKELIEAIHDAGGIAVLAHPCCCWALSIDKFVKDLVKMGLDGIE
+VFYPYPRWRKYIKFSSPDSIEKIADKYHLIKTGGTDCHEEKL
+>tr|R7MAI2|R7MAI2_9CLOT
+MLPKQYRLKKRSAFKATYKVKNSSRMGGVTLFAGILKKGDTPTKVGFVVSKKVHKRAVKR
+NRLKRLMRESYRLLLKEGQLGNSQKYMSLVFMGSDRALGKSFAEIKTSISKMLERI
+>tr|R7MAM7|R7MAM7_9CLOT
+MRINNVQSNQNFGMALKINSKLYPEIEKSGLSHIKKLENLGDDVKNVKMYDVCLEKDAYD
+LKIRSANPNDNTDYLGNFRREESNLGKWHEFTCNSSGCEDTYGGYNPNEPQIFRTLYGKN
+AADEYKKFKEFDMYKQIGELSKLLEKRDKNNIAIREAQKAKKAAELEEAKAGELRLKEAT
+NDLMDKYKADFPEEQPIKENLFRRIVDKFIGFVMQK
+>tr|R7MGL4|R7MGL4_9CLOT
+MKIRKQLLTTILVSALVLGAQATNAQMTPEATTLYQEACTAEHQQDLKDAISKLEKAIAV
+SGGDAMLYTKLAGIYSEIDQYDKALENYKKVTEINPDDAFVYISIGSIYENQGKYKEALT
+AYNKALDIFPEYKFNYYNIANVQYQLRDYNGAIKSYNLFLDTYAQHAEARESLAASYYAT
+KDYTNASKQYQRIYDKNPESFKNYSEYGISLLNTDNSEKAVEMLEKAIEIDPENNSAHLG
+LAQSYQDLGKNDMAYEQYQIVLQKIPNLNTVRLDYANLLADMSKNTEAITQYNMYIKAFP
+NDINGYKNLAAVYKEVGNYDKAIENYLVALQKDSQNIELKKEIANCYHNKKDYQTALKYY
+NEILTAQPDNLDIKSNKAIALHALKQYDEAISLYQELLTTKDDKTIKTNLNDALVSRGHE
+LVEKGDNTKAIEDFKTAIKGGYSDGYVYYGLAKAYRAEGDNTKASENYEKAISINPDKTV
+YSAEYSDFISSLYTPKVNIDNTDNKVLPTISLSMDNNEQNISSAEKTPAIVKTSNVTIKQ
+NEDFIAEGDKNYKANNYDAAVKNYQDALQLVPNDAVTLLKIGNIYKIKEDNTKAVNFYQK
+SIIVNPDYTDGWFNLGLAYANENNLIESQKSFEKVISLDPDYNFGYAYYALGKALEHQGK
+KSDAIKNYKLFIKHNNDKDMINTVQAEIKHLQ
+>tr|R7MK85|R7MK85_9CLOT
+MTYKRLKSSNIEILNSIYSKVFKKFLFHSSYIFLCGRSVKDEDSFRHKINKKLPDLHKDI
+KIIYPENIFKGYLKDNPKKDMLELETVLASNADAICIIHESPGSFAELGAFTSDNNSTYF
+KRIIVLTEKQYSRKQTFLNVGPIKRVKNKYKKHQIMYDEIDLIEPSINFIDNLYSLICNV
+KKTNRPSKQYCIRITNLVGLAYFILIFLYIKNTNTNIINLKRDLNLFFKSNKEIANYYGS
+KNVNDKIYHASIHYLIEQEKFIEKNNANIKIKRNGIKEIERLIKVTKEKVTNIQDNIDVI
+KLANLEQKLYN
+>tr|R7MDP6|R7MDP6_9CLOT
+MSAALLASQLPKNPQAAPSTVPTAVPIGPPIQVPIAAPAFAPRAVPAAQPPTSAVVFIAV
+LPNCLNPSVAPIWNAGITSKTTPTPKEKIAKPAFPLIPFIKGANFGCLAAVEVKNLDTFV
+IPKAFLVFPKNPLLA
+>tr|R7MA73|R7MA73_9CLOT
+MPKKEKQGIVVSNKMDKTVVVKVADYEPHPRYKKIMESNKHYKAHDAENVCNIGDIVRIV
+EAKPMSKDKRWAVAEVVEKAR
+>tr|R7MGT5|R7MGT5_9CLOT
+MKNFLTILIILMSAMPVFAAKGTIATYVIDPEKNAFEHNNLGVMYVEEKCYYAAIQEFKI
+AISLNPKKQATAVYFNNLGKVYMTIGYPNLALDCFKNALTQYSLNFEYYQNLADCYQKLS
+QIEKQISEYSSTQDNNPLNKVMLGILYEKAGNKKKAIITLDEFASAEPNLIITPAVKEHI
+QQLVLELHKTQN
+>tr|R7MI79|R7MI79_9CLOT
+MHKLLGVLSSNQLWSITNRNGNAIVKLLKNIPLKSEIIHPGPKGMSVTFSDNPEKAGKII
+ATIFRDGVAGRTYQMPKADLLKRGAIF
+>tr|R7MK10|R7MK10_9CLOT
+MRKFLTTIILLFCAIDMTCSSAIATQQIFYNSAGTGVPSQMMDGYGNMQNLNGFGYNAPY
+VVTRPVRPVYPIARYARPVHPVRCCARPRPPYPPNITHRDIIMARTYYRRCPMYQQYYTV
+KTPPKQKEVISRFDKNYKIPQSSQRKVSCGGMTYYNSANPCR
+>tr|R7ME26|R7ME26_9CLOT
+MKYNKIIKPFLVLAVLLCTTLTSNATIATDAKLQYNKGIDYYQLGQFEESAQCFKNAIEL
+DPNYIDAYYNLGSILEYLKQDEAALAVFKQIILRKPDDYESVYKAAQLSKKLGEPEKAKM
+YLTLIPTDTLIGQKAKQLADSIGTDLPTAKAEQTAPETYQDAAPANDSNGVYEDIISPTG
+VIADKNGNLYVAGFSDNTIYKIGPDNKKLIYLKSQKIDGPIGLANDNAGNIYIANYNKDN
+VLKVDSNGAITELISNIQKPYCMYITGDLLFVSSQGSNSVIRYKLNK
+>tr|R7MCF1|R7MCF1_9CLOT
+MNAIARDIEIQNSQYPNTNENCSNSELANHRKKINKILEEGINTPNDKEAERSFNYAIAL
+NKAFEASNNVELLDSKPYQLLGNLHFTHKKYDYANACYNNAINILAKKIQNQTGNRPISQ
+MLEDYENYKNAISDNEVYNILMSKYKTYSVWKKFLTSPPQKPLYYNDYKDKFEKGYLDYK
+NLILPCAKMFERLNIICYKNQEFYPAEVCKQASKDIXXSK
+>tr|R7MEZ9|R7MEZ9_9CLOT
+MIKKLFTTSLAILILFATSNCAIAKRTKKMSQLELREMQTRIFDTPDTTRVMKSAINTLQ
+DSGFVIQEIDTDLGFIRAQKTFKKHHIDKKRVAGWSMMLAVMTATTILSYGTNVGSMYDP
+SMRISNEMRDKTAVVDTNVNIEKFGKNKTKVRFVLVEKILQNADGYSFVKSAPTNVIRLY
+KPNVYQEFFAQLDKSIFYEGI
+>tr|R7MGP4|R7MGP4_9CLOT
+MKDKKNYLDITDPIENSIEKDLFRRDLTINAIAVNIKSGEILDLVGGVKDIQSKTIRGIK
+DFNFEDDPLRILRVFRFYSILGFEIDSHLLEVVKNLKDSVLQPAKERIEYELMKLFEGKY
+ADSALLKMDECEILNKLFPFVDELKQVPPNLHHHLDLFNHSIETIRQIEILYDNASEKVK
+SHMDKVDFGGFSRLAHLKLAAFMHDIGKFSTWTIEEGTGRHRFIKHDDVGAKRAKPILKS
+MCFSNKQIDYITLMIKKHMYPTMVVQSPELTDKVMMRFVRKMEENAIDNILIAQADRLSA
+QGPEITKEIVEENLSALNKLLEFYLQAQDTIKPLPKLIDGNDVMQILKIKPSPILGEILN
+SLHEAQISGDITTKEEAISFVKNYPIR
+>tr|R7MHP3|R7MHP3_9CLOT
+MVKILDCTTRDGGHETKWNFEDVFVNTLMEFLNKSNVSYYEIGYRNHVDIEGKGPFYTCS
+PEFLKPFYEIKGDLQLGVMTDYKRYNANDFPNKSNDFIDFVRIACHPDKIAESLNVAEDL
+HKKGYKIFIQLMEIQNVGADGYIELFQWKNKNILESLYFADSYSALKPEDIEKYYNKLKT
+IGYEKLSFHAHNELGLALENSLRAAELGCYTIDTTFNGIGRGGGNLKLQELLENLPC
+>tr|R7MDQ9|R7MDQ9_9CLOT
+MTGRVIVITSGKGGVGKTTTNANIGTALAKAGNKVVMIDTDLGLRNLDLLLGLENRIVYT
+IVDVVEKRCKLKQALVKDKKNPNLCLLAAAQTRDKTAVSEEQLKEICEQLQKDYDFILVD
+CPAGIEQGFQNAVAGASEAIVVTTPEMSAVRDADRIIGLLEAREEIESYKLLINRVRPNL
+IKSNDMMSVEDVAEILSADLIGIIPEDTGIITSTNKGEPIVNDENSLAGRAYRNVAHRIM
+GEEVPFLNLEEETSFMTKVKKFFSHLVGKEK
+>tr|R7MH63|R7MH63_9CLOT
+MSDGKIIKVIFFGDIVGKPGRVAVRDFLQHNDTFKNYDFIIANIENASHGFGLTEKNYKD
+FLEYGVNAMTCGNHIWDKRDIYNYIDSADKLLRPINYPQGTRGVGSRIFDMGEFKIGVIN
+VLGRVFMNLVDSPWQMVKEEIERIKQITPIVVIDFHAEATAEKICFGKFCSELGASAFWG
+THTHVQTADESIINGMGYITDAGFCGASDGVIGMDYQTSLARFLTAIPERYEVAKGETTQ
+VNAVEVHIDSSSGKALSIKRIFCSRNNLEEESGNED
+>tr|R7MIP7|R7MIP7_9CLOT
+MDENLTKEEHTKQTTKEYPMCANHPLMKTLFIGFLIFAGAYCAFYTVADWYMKKIFAPQP
+LPPRMEKMFKNDMREMDRMFKNERFIPQKSAGVIHLEQSKDAYKVLIDLRAFDNNENNVQ
+VLTNGNLLTINGRTIKKSKHNEQISEFQQNYMFGNNVKLKELTKSTNGNYYIITIPIDNE
+EE
+>tr|R7MBW0|R7MBW0_9CLOT
+MTFAVKMCSWIDILSRQRENFAHALEQIRVGQISGPVGTYSNISPEVEKVTCKHLGLKPA
+KISTQIIARDYHAYFMQSLALIASVLEQFATEIRHLQRTEVLELEEGFGKGQKGSSAMPH
+KKNPVLSENLCGLARVVRANSIVALENIPLWHERDISHSSAERIIFPDSLTLVDFMLNRF
+NGLMENIVVHKDNMLKNTNKFGGIVFSQKVLLSLVAKGLSREDAYVIVQRNALDAFQNHG
+DFKKNLLNDKDVTSLLSSEEIEKIFDKQGFLQNVHTIYEKFEI
+>tr|R7MDX7|R7MDX7_9CLOT
+MLNDYNSNNPGSAQDWYVRYIKNSTSGTYTPYFYKASEVEDASKYNSDNYATSTINCYSI
+GSTTKTKEVLNQVGRVEKDSSGRYISITICQTDENGNIKYDENNNEMATTYSLTTNTSTD
+EDAYNDAMNQYRYEQNQYDQRNSYYLHFNY
+>tr|R7MHI2|R7MHI2_9CLOT
+MLNDNFLSELREVYKDITSDKSWVTTLLLCLFGGCYGLHRFYTRKNKSAIIQLLLSISVI
+GLPVSIVWMYCDLFQILYNNFADSDDKMLDRNITRKSVALLTFFLGYLGFTDFYVKDYKK
+GLIKFLLFISCFGAFISIIWNLIDLHLICFSEKSANKYSGLKNNFDTKICLLLLLLSYIP
+LIILFCYVCQSPMQVANNINNAWVGLVTLIKSIIKWILKILFYCLCGVLAIAAIIGSMAG
+DSKTTNKEVKEKSNSKYQYAIVSYQHEGQIFSFKVNEIYESNLDKAIWVTDAKGFNKQAK
+FMSINQITFADYSRSTLPDYRLKKDFYKK
+>tr|R7MJF1|R7MJF1_9CLOT
+MAILPISNVSVKNNPRLVSFGMRNDEDDDNNGEGYNFPRRVQNKMVTVPLATLIAMSPMV
+GNANEPAATLNSSKIIELAEANPAPEVDEATYVMGVDQSSAMTPAQRKYIQKQKPVKVLS
+AGNGAFLALETYSDDSNVVNFITYLPKDGDYRDQMYLPKVREIEYHDLGKNSFCGIWTGR
+QVRLPHELYYKKQEFKISDDAANALIDFLNGDTKMQDKTGLKVRVVKTPNLKPTENGEVR
+KLDW
+>tr|R7MK94|R7MK94_9CLOT
+MCEKGIKYYIKELMTIAAPIIMGNLGFILIGVGDVVIAGRYSTDTFAAISIATAIVNCIF
+TFGIGLISSISPLLSNYRGQNKSIKKYFYPSIRFSMLLALITSLAIVAVVPLIPKMGFEQ
+KLIAPVQDYMLITAFSTFGAYLHACLKEFLQAYEIVVFPNVVTFFCVFLNVVLNLTFVFG
+VGPIPSLGVIGLAIASLLVRYFMGFALLIYCFINMTFRNYKEKEYYQSMLKIGMPISLAV
+LVEFVAFNSIAILMGRVSGLYAAAQNLVCTLTTISFMVPFAISNAIAVKVGFANGSDNYE
+DLKKYSFFGTVLSVSFMICSAIVFTSFAPHLVRIFTSDASLVKIAVPIMYILSIFQVFDG
+LQISLAGVCKGIKQTNVVLFANFIAYWCVSIPLGCFLAFHVDFMLKGFWWGLVSAACLLC
+MIMLVKLKKYFKPVLQ
+>tr|R7MIK8|R7MIK8_9CLOT
+MSFNEEYKKIKKLITAELDIIEQKMVEPIDIQEPLKTHVINFLKAPSKRIRPALAVLLSK
+ALGEELTDEQLELLSAIEIVHNASLIHDDIIDDCEIRRGNKTIAAEFNNKLGVISGDYLL
+SIAMEKIGQLNSLEILNEFSHNIKKMCIGEINQNFNRFKIGTIEEYIEKSKNKTGYLFET
+AIVCNLILSQKISQNKFKNFGLNIGIAFQIRDDLLNILSIDTTKPSNNDIEEGIYNAPII
+YSGNPKDLTSGIEKTRGLLNNYVQEAEKVLTNLENNQYTIALKKFLELLKDV
+>tr|R7MEB6|R7MEB6_9CLOT
+MREYKKAFTLAEVLMTLGIIGVVAAITIPGLITKYQKLVTVVKLKKVYSQLNQVMRYINE
+YPGIDVISGSPSVYVENYILPHYAGATFYPRPVNGGNRNVMCYDPATAYFGAKYASAQYA
+WINTRTGKSSGYISTPFMGSESSIKLQDGTCIAFGIGYGNTGATIFVDINGSDVPPNRAG
+RDLFFFTLDKEKGSVVPTIAPSGGVDWSKFGAKKIIDDGWRINRDYAWR
+>tr|R7MC39|R7MC39_9CLOT
+METIEIKDFTDLPSGENSYQTGAIAPIEEQIDYEILSENKNLEYIDYLNLSEAVKVLGEF
+FDVHSAVFAKEASVCAVALGSSSETALEKALDCDPVAIFEGTAGFSKAISLDIAKQLCAM
+KIRNILAPNFSKEALTYLLNTNINVVKINTPLQELLGFCAKDIKVTPFGALIEEQNLSKL
+SKETFKVVTKTKPTQEEAEDAVFAWKVSKYLKSKSAVIAKDLATKAIIQGKSNGIVTSEM
+AMDYACESSKKAVLAVDGVIENEETINAAIQGRIGLIIEAGNGRNSNKIVKLADKYNLSM
+IHTTIQNNRY
+>tr|R7MHS0|R7MHS0_9CLOT
+MDNIESVTIKKMTADDVDKIIAIESEAYGEHHWSKDSFLNEIHNELARYYTLFTSSGEIA
+GYAGTWHILDEAHITNIAISPNYRRRGYGEALLKRVIDDCYTEMIKYITLEVRVSNTPAI
+NLYTKYGFSSFGTRKGYYQNNNEDALIMWTKNIFFDEYKIPYQKTIKELEGKINIQ
+>tr|R7MHR2|R7MHR2_9CLOT
+MDKITLEQDKKGEHSILFLLLGGLAILAIITGLLTNYKNETLTCSKSKDICTVEKINLLN
+VKSTKNLVKYSDIATVGFLKQKVKGNKYAKGYSFYLLTFILKDNNQKEIFKSEYYEKADI
+DKDMANLREQIENVNSDIVTLKREY
+>tr|R7MG57|R7MG57_9CLOT
+MKKTLLGLAILSFIGLSTNGAFAGYYYQAPNAGNMNFYPMMQRQMEQQETLDFVNHPEEY
+KEKRAKKDAQLDYEEGKVNPNVNPYYKPTSFNLKQKEDLPLQKPMEFSKDENGQIRIQGI
+K
+>tr|R7MGJ3|R7MGJ3_9CLOT
+MFAQLGDIQFDLITYFDGINSTVTYNYAEHERINNKTLLQFLGENLQEFTIKLNLHSNFC
+VPEDEILKIRTEAQLGKPLKFIKGNGEYVGAFVISQIQKTTEQTSPEGDLIAIQVELQLK
+EYAGKIPEDEEEEKGLKKKE
+>tr|R7MH54|R7MH54_9CLOT
+MSYREYRSPQRIIDERRRHRRHSNSNIILSAPDKSLIIIVVFLVIIGFLAIFSATAPKCM
+REGTNLASYLIKQAIFGGVGFFAMGFFAKFDYKKLEKYNLKFMWAVIIMLFIVKFTPLGM
+EINGAKRWINLGFMQLQPSEFAKPLFCMLLASMFKDKIDMSTVNKNMPVIFAMLFILFLI
+LKQPNLSMAIILCVTTFGLYLAGRGPWQPIAAGAGVMGLGILTMLPKLLHGYQMDRITVW
+LNPGSDAQGKGYNIIQSMIAFASGGFSGTGYGGSIQKLAYLPECHTDFIFAIIAEEFGFL
+GCLFVSALFVALVLRGLRVAKRCPDMYGKLIAIGITIIFGFQAFLNMSVASSFLPVTGVT
+LPFISYGGTSIIVSLAMVGILLNISKQRIQRIRTEAHGQ
+>tr|R7MI30|R7MI30_9CLOT
+MFNAVNNPFGQRIESAISTGQEKHQRQQNQQQNEEKKYLENDDKDEVKIGGMPILTEDEV
+QAMTENYIAKLKSENEGNTKVIEKLDKYLKKFDVKKFMKRNPNMTSPDFHMIIYNETYGL
+LN
+>tr|R7MK47|R7MK47_9CLOT
+MATGVSKKNMDVPFIGIASSFTDLVPGHIGMRDLERQIEKGIHSGGGQAFIFGVPAVCDG
+ISMGHSGMRYSLPSRDLIADCVETMAEAHQLDGLVLLSNCDKITPGMLIAALRLNIPTII
+VTAGPMLDGESHCEKLTMIKGSFEAVGKFRNGVIDKDRLLELEEESCPSAGSCQGMYTAN
+TMACLAEVMGMSLPLCGTAAAVSSKKRRIAFDSGMQIVELVKNDVKPLDIVDKDTLRNAI
+ICDLAMGGSTNSFLHILALANAGGINVTLDDFEELSYKIHQILKLDPATSFTMTDFHKAG
+GVPALLKTLQDANVGLVDKNTVSGRKISEITKNAYVNTDLIHPYSEPFTTKPGLGILHGN
+IAPDGCVTKISGIDSSCYEFEGVAKTFDSEELAMKALEDDKIKAGDIIIIRYEGPKGGPG
+MREMLAPTSLLVGKGLGTTCALITDGRFSGATRGICIGHVCPEAAEGGTIALIEDGDKIS
+IDINKRTMNLLVSDEELKKRREKLKPFELKCNSGYLAKYAKNVQDASHGAIV
+>tr|R7MIR0|R7MIR0_9CLOT
+MIENLEKIKAAIEIEAKYRYIDIHGKTQSFSSFIKKEAKKIAKKSKNPRWEIIVDAFEMY
+PVSSLPDRRKAIEHLIRVIKSDLEQEALDKQEEKEHQRQREKHPSQVDVMYIKGVGPKVA
+AKFNKLGIYTAQDLMMYFPKKHIDYSSRTLIKNLEEGQTTTVFGYIKSVSSFNTRNNLSV
+TKVTIADESGRFELSFFNAKGNKYLLERMKAQFPQNAGIMVSGVVKMNNYSGHLTMDKPT
+YSIMTGEFMENPDSNLNIARIVPVYTVCENLSIKTLRKAIFNAIELYKNDIKNIIPDFIR
+ERLGIMEKKDAVKQIHFPETMDSLEHARFSLIFEELFLIQLKLIRLRENTAKTTSAYALQ
+THSGGLVQKFISELQKFISELPFELTSGQKQAVNEILHDMNSDTPMQRLLQGDVGSGKTV
+VATIMLLAAVENGYQGALMAPTEILAQQHYNNLVQWLTPXSMVNSVGVKRGIVPRKSRKK
+TTPKI
+>tr|R7MBK6|R7MBK6_9CLOT
+MVPEFAEAAFKAKPNTVTGPVKSQFGYHIIFVTDRRGAGVVPYEKAKSDIKDYLVQEKQI
+KALDELTTAAKKKAKIEFVDQRYNPDEIAKKLHKQVNDMSGGAADVLQQQAKEKKSK
+>tr|R7MI22|R7MI22_9CLOT
+MHCFSGSLEFARECIKEGIYIALGGIYIALGGVVTFKNAKKTKEVAKNIPLEYLLLETDD
+PYLAPVPFRGKENQPMYVKYVAEEIANLRGITPEEVAKTSTENAKKIFKNVEF
+>tr|R7MAN8|R7MAN8_9CLOT
+MATPNINNKSQVNNVKLSDFKAGTKKSQMKSSASKSIFDSLDTNKDGVISQNELKGIVKG
+KVKNKDGKLVEKEYIKLKDFGNGRSLVIDSNGKQWIRAHDGIILKSTHDNAKAGGGTFPD
+KKSLATANFLAKEFNSAKKSFDAQMKKDGWAGDLADGISRAWTWATDSKNSANYVREDLK
+NQRKNVQDLQKAAKQGQAQFNAKFKEIYGVNYNQQAMDKYMAEPTEANYKKAFGSKVKNI
+KTRVDKYNKSQDTGAVAVKTTTKVAAGVAIGVATGGTGFVALGTAAAATTASSIVVEETD
+ALKVKDVVTKGKFEFREGTDHKKIFKDAAWDGASVLAGGAVGKAAGTIIQGTGKMAVAGR
+AAMNVTGDVAMGAAQEYAETGQITATGVATNAVMSGVGSVVTSGVLTKGYKAVKKGFGNV
+ADNVSQKFSTKKSNIPEIYYDSNGNILAGGVSGSSSGGGFFSKIKNKISDKFSSETPMEK
+QVRITNEAKTQRAIDSGLNDAIAQGKVNSDILDRINARGSNASISDSTTGYAISDRLIDA
+LERQKNGNTFVTRLSDNVNLSNISQHIENGGVCSVNGKLYINNNGEAVPIRMSQKTFDRL
+FDPMKLATMSQDGGTHICVATSQINSMLETPAGRTRLFTMLEDTGDGIKVNLANGKSPIF
+FPNGKPVKMPGRFMTNAPDGVQMIEQAFMANNIKKSSTAQMTDISTLSADSLGKQSTEVM
+NRRSTDEAARDIGGSCQISFATQKGNAFKGFTFKENVREDLEKLLNDFVPGQDVMVCHWG
+GHAKSVVNYDPTTQIVTYRDPMSSGVDTQCTFTQFMNKGSHDYGLQISLQKSSPVSVSSI
+PKEHNASTVSTPQPTTTPEVSVPVRPKEVSVTTNTSNFVSKTTNLTNSPSVVAHTADGAP
+IRASVTQSNVVIIKNGKYTPIKIPKPGTSEAILETSTDTFLIIKNDNGKVSIVTSETPEL
+MPASNSTTRTTASAQSQPEAKPVTRKRVELTYGNTNTSRVNTPANTVSSKPKPVSRPPLE
+IPAGAKLIDTVTIMGKQCRRIQMPNGEFLTEFGGKWKKL
+>tr|R7MGG2|R7MGG2_9CLOT
+MVCGLEIKKKGTMMISDKIRDVLNEQINKEFYSAYLYLAMSAYFSEIGLYGFSNWAKIQS
+REEIDHGMILFEYVLDRKSQIKLKQLEMPTLEMNGPIGVFEQIYQHERSITSSIDCVADM
+SEGECDLATRNFIDWYLKEQIEEEAKVLRVISKLKAFGAEKSALYLIDRELSNREYKPPK
+Y
+>tr|R7MHE5|R7MHE5_9CLOT
+MEYTEILRQIALVLAASYLIGSIPTGYIIVKLFTGQDIRTVGSGSTGATNVKRVMGKKWF
+FVVMLLDALKGALPVVLTALFGADFAGGLLPVLAAICVILGHSKSVFLNFTGGKSVASGV
+GTLLALDWQAGLIIAAVWGVVTWVSRYVSLGSVVALALSPLIMWFLNAPPAYIVYAVIAA
+IYVIYLHRENIKRLKEGTENKVR
+>tr|R7MA93|R7MA93_9CLOT
+MFFKKTEIYSIENIEKDFYDMPEAFVAYIRLNSWRKKQSRISAKINRLKKYYQKPTELFA
+RLVEGLYLNPQRIQIIAPHTYKRFYELLNSGYYKELSNLSEYLFNHDFSDKRP
+>tr|R7MGU0|R7MGU0_9CLOT
+MKSVTTFDLQYAHRFLNFKGEAQYLHGHTGTLTIEVEDSINTGVNMVFPCNEIKKTAWEV
+LKNFDHALILRKDDPLLPAIFNVYTEQGIKDGAPQNTNIGEAFKTELATAYPNCRVVVTK
+ESMTTEGMIKIVYELLKDKLNISKLTFTSGGNVATEDYKVDKTIERCPLCGIALTEEGIC
+PKCGYERP
+>tr|R7MDM8|R7MDM8_9CLOT
+MRKYLLEVGTEELPYKFIPSAIEQLNKGFTTFLNDNKVKFSDVKVYATPRRIAVIVDGLE
+NKTEDEEKIVKGPIAKVAFDEAGNLTKAGEGFARKNNLSKEDLYIEDNYVHAKIVIKGKP
+IAELLQENVPSIFMKLQGSHFMRWGYNDEKFSRPIKWIVSILDGNEVKIKIIDKESSNHS
+RGHRFSTQDILIKHPDDYVEEMKKAHVIVDQAERKQIIVEKAKEEAAKLGAVPYYTDDLL
+EEVTFITEYPVPAVCEFDPVYLDIPEEVTVTVMAIHQRYFALHKDGKLINKFITMTNYIG
+DEFKNIKAGNVRVIKARLDDAVFFFKEDTKKPLVDYVEALKGVTFQKGMGTMFDKTQRLI
+KLSNAIAGDLNVPTKDVERTALLCKADLTTNLVFEFTELQGFIGADYARVSKEDDKVVQG
+IKEHYFPLNAESETAKGIEGQIVGIADKIDTVCAVFAAGKKPTGSSDPLGVRRAALGVIK
+TILDGELKIDVDKYIKEALKLLPVQRDCANEVNEFFVQRMIIFLADKYNKNVLEACSKKN
+PLKDIADYVQRVQVVSEMNSPQLNENANRVIRILKDSTGENVNEKYFVEPIEKILYNAIN
+NIDENVNYNKYLEELESLNSTVSKFFEDVLVMDKDENVKNNRIALLSLLKGKYEHLTDFS
+KI
+>tr|R7MD59|R7MD59_9CLOT
+MTDAYFKENNKFLGLSGIINRRNFIVNFLILEIIEALILTTPLLYLLFTNPDMMLDFSSS
+AMRSNVFPIWYSIWLGIAGLIESILFFPSIIRRVRDIVGEVDENKVCLVASVLAVLVLIG
+YTPANNVAPLFRIISLFVIFILMMTKGKISSKKPKSKIAKFNWGACFGTWMWGLYNKRYI
+TALMLPLLLTTGWFPFMLICGIKGNEWAYEKNKKYSEIEDFHKSQSNQSALWAVVTPIIL
+VLGFIGIIIGSGVAVYCLTKDNPKFTNMITQKAAEYQEVAVQTNFEKIELTDSEYKFYID
+PQIWVKLPENSKKSMFQLALTHIAKEKNINVENTEARNEFKGIEIYNKIKIYSSFNNELL
+GEYTTTPVEMKKSYQKTIKGEKGALKEYINTMNSGYKFNEHPTLP
+>tr|R7MDN6|R7MDN6_9CLOT
+MIPPINDVEIKRQQRNLTNSQKKNITHTKEGVLVNSLIKDKEQDVNLSSSKDTYLISDKI
+SMPKELYQDNKIVDKKLLPLSAIALGVMSSVAVITGFVNRSAKVAQNLAEEKWLPAVTRN
+VNLSKETSQVIYQMIQSPNKKTFIAGTGVLALSVMAFMGKIFFDGFKDVWVKRKEANIQK
+NLQENLIAVETESFSGKMQIIRSMLSKYTLDFERYIQPQSESVLQNFGKNRFSKMPFTSK
+NESSNEKSSNTGNIILGGLTFLGIIGLGYLSLKNLTKGKLHLQEGLKQAQKAIEKIVASS
+NENSKNIDKNNLEHLFISIESSEDFIRENVNKLNWNSDNEKSEFINRIVTKIKTSAAKVN
+PNIGGDGTPKPAFNSFVDDYRAFFYNWLLDTSNPQFQQLFLGVTGVTAIGYGGKLAGDAI
+KEVQVKKINAETELELQKRLVSTELRNFKSKKDAAIQPLVEEFYKQVDSGKRTKEELKTM
+AENVLFEIKKGPPFVYS
+>tr|R7MC81|R7MC81_9CLOT
+MEIKIVKNTKEVLCDVLVVNKFEGKETSNALVNRFAPESFQGKAGQMFVIHTQKEYPAEQ
+ILAIGLGQENHMDNNVVRENVAKAVKKCIELKAKTVAFDFDTDYSFGVPTVIGASIANYH
+FDKYKTKKGHRISEIYLSNVSSDVEMAKTVAEAMKFTRNLANEPAAFATPTKLAEIAQGF
+EGLETVVYDEAKIREMGMGAYLAVAQGSAQPPKFIHMKYTPQNPKKRIAIIGKGLCFDSG
+GLDIKPAASMLNMKDDMSGAACVLGIMKVISKLHPEIEVNGIIAACENMPSGSSYKPGDI
+VTAKNGKTIEVDNTDAEGRLTLADALCYACELGVDEVIDIATLTGACMVALGTAASGIMG
+NDEEFIQDIIKTGNYVGEKYWELPMWQEYRDNMNSDVADMKNTGTRFGGASAAGMFLKEF
+VTDSVKWAHLDVAGTALIDKPQKEFCKGATGVGVRTLLSYILAH
+>tr|R7MA09|R7MA09_9CLOT
+MYEDEKLVCEDCGKEFVFTAGEQEFYAEKGLVNKPKRCPECRSARRKNNRKNRRMYDAVC
+SKCGAQTQVPFKPVPGREVFCKECFQKLSSENQEG
+>tr|R7MFC0|R7MFC0_9CLOT
+MEKSYESMTNKKTNYVKNIVYNIRLEGNLTKMGLSLNNIYQRPYVKPDRQSTVKKREEDE
+KSSATNAERQQESNQNSQSKGLQYVEQKTTPKYTPAYEQKFNLASSAYSNVNINSSNTQT
+NVNYSPQAVQKINPATQNQIDSKINIAQILKDFNNTAIAIGTPDDLKEEVDGYLALIDKQ
+VKKDNPNIKLIKSNLKNASTILDRHISETLQKESNVVENWVDTLFMQQIDFKYNEDDINE
+RFLVKFPDGSTSQTKRQEELHETAQTETIPEAVKEENSNVIPISVAGQTKSTKIPQDKQL
+KSLFIQAKKYAYANDPEKAIKSFEQALNRAMEIDDTETSGKIYYEVGKIYDDHDYLAQAL
+KSYNQAAKLSNDENVKTKAHYSMAQIYDDVNQITPALEHYVTTVSFAGEAENLPAQSASL
+TKIGNIYTDMYDKEAFDYYEVASDLANETENYNLRGFVASNIGGAHTKFDEPEKALKSYS
+QAVKNYTXXX
+>tr|R7MAG0|R7MAG0_9CLOT
+MTAIERINQLSHRIFNTSKSEQQTSRTSNPFAASNFQKNILTEDVFESSKSKQADKISFT
+GKLSASSKRIYSTFVGSINDFGSRFYEGIESVKAYCSKMKEGLVSTWNKIQEIGNREVSL
+DGAKEILSRDITSFFINSHDREIAKMSKMDPHSEVKPMFREALSALESDMVQAA
+>tr|R7MCX5|R7MCX5_9CLOT
+MITSPAPILRLFGVSFVDSEPGVDVEVVEPGVVTYSVNLCSLPSGPIFTVSFLITPGCTT
+VSIILPPVIVVSIVLPT
+>tr|R7MBJ7|R7MBJ7_9CLOT
+MFDLSSPTVYIPTIFVALVAIFASIFYKDAKKIVKKNTKDLPYYTEISLSMGYIDRNILE
+NGRFKYRNNVNPEIEYDNDQYNSLRHAGVLYSMYLYEILGLENKYHDARLKASKYFVENY
+IKKIDDTRYAVISNPKEEELNINIAKSGASGIALCALANLYKEQEIELEIIQGLGEFILS
+LQNEEGNIYAYYDLDKKEINKEAEAIYYPAEAAAGLMYLYEVDPQQKWLDAIKKTILYLV
+KTRKKMDLDIPFDHWSVLTIEKLFKANLVTPSEKNTMRAYAEQMAIPMLSNQITNKNNSY
+FGAFKDNVRLCSLGTIMEGMASIYFCTDSEDLKKILFKSMSIGNYFLSKTQVKTGIFAGG
+LPNSANWVKPGVTPNASVIRIDNVQHVASGWLKFQKILDITGLY
+>tr|R7MHI0|R7MHI0_9CLOT
+MAKRIGIDVGGTNVKIALVDDNGKIIYSNSVPTYAKMGYEYTVNNIKQAIKDLMKETNTT
+PSDIEGIGFDFPGQVDCKTGVVKLAPNIPGWVNVPIAQMIEDEFHIPTRIDNDVRCAALG
+ELKFGAGRGCENFICITVGTGIGSGIVINGKVVRGATNAAGELGHIKLQMNGGPICGCGD
+TGCLEAFASGPAIVAMAQEYIKGGKSTKFREMAAVEGGEITPYMVAKAAEEGDPVAKRIF
+EIVGEYIGIGLTSVINLLNPERVIIGGGVAESGELLLGPIRKTIKERAMVVAGNAVEIVP
+AQLGNSAGVIGASMLIEG
+>tr|R7MDD4|R7MDD4_9CLOT
+MGCLKNVTRAIFFTVLIVGFMTLGGQDWIKQQFMNFVNPSKDVVLERAQKIGDFSKVNRE
+FEIEKAAGVLGYNAVLAEHKASGQKMVVVDSGKKQILTQEDIKSSQAEEKIKAAINKIKY
+QSAAVEEFHVTEQGKMKSYGKEIPYVXXXKFHT
+>tr|R7MEA7|R7MEA7_9CLOT
+MTLRNERVRKELMRDISEILRKEIRGLEGVVSIVDVEVSHDNSFAKVIYSVLGSEEQIEK
+TKSVIEKSTAKIRYNVGKVLRLRLTPELRFVYTNGLEESSRVVDLINKISRGEIK
+>tr|R7M9Z9|R7M9Z9_9CLOT
+MNYIDITFDFTSDTPNYWDCFYAGVDRPDPDAKSPTMRQYQQILYSKTLPNGDFFELKQG
+NSSDKYLYWKDFCFGSDSIINMYIHHKTLQMLINDVKKEIPNFDKFYEEYLRKSYTIGGE
+IIFPKHPKSINVERGRYNGKIKDRFDLTLECIRLYYSNQQSPLYDTLKANHKFFELFIDF
+KGYVDFFYLNDLVSDDYKSINFYLDFDNFNRTDPRPQTVEEWNILYNRQMEFLNQRNSRI
+DKSFNG
+>tr|R7MAK9|R7MAK9_9CLOT
+MIFLMEREIKLETDNLASQIKYLAALDGFTVTKVKEKVNKKYQKTDSNRNLSNKFRNKTL
+RVSELVELLDILDYDIYIHKR
+>tr|R7MHI1|R7MHI1_9CLOT
+MSAEEVSMILNEYFAEMEPIITKYNGVINKFIGDAVMAIFGEPIQDINHARNAVKCAYEM
+LKKVEYLREKWLFEGKPKIEIGVGINTGEVFIGNIGTETRMEYTVIGDTVNLASRIESYN
+KVYKTNLLVSSSTYAHIADIADVIKISEVQIRGKAKKMNIYEVLRIDRDKDK
+>tr|R7MID0|R7MID0_9CLOT
+MTVYNYTALKDGTNELVKGKVEAADLREARAAVRRLGFTPTNIVEEQALKKEDKKKPTGK
+MPKLGLAEQIDFTSTLQILAAAGIPIIESLLFIENDAAKLKIRQVATELRRQIMNGGTFA
+GTVAKYPEQFGQVYIGLVRAGEDSGELEKTLDRLLELLNKQQAIKSKVVGTLMYPVFVIL
+LAVFIVIVMLVFVFPVFKEMFDSMGMQLPFITRVLMNMGLWMKKNWYAIPIGFAAVGAFI
+NFLFRWKPSKWKIDDISLKIPVLTDLIQFSNFANFIAVMQVAYDAGVPILECLYLANMTL
+TNHTLETRVEESTVMVQQGQHLSAALRKTRTMPKMILFMIATGEQSGRLGDMLGQATNYI
+DKQLDTIIDIMTKMIEPIMLVVIGTIVLILAAALYLPLFASYMGM
+>tr|R7MJB4|R7MJB4_9CLOT
+MKINDEYTVKIEKITNLGFGLAKIDGFVVFVKDACPEDTAKIKITKVNKNFANGEIIELI
+EPSKHRVKPFCPMQKVCGACQLQFIDYDYQLELKQQIVQDAMKTIGNLDIEIPRPIPSPE
+IKNYRHKIQYPVTETKNSKRILAGYYKPGTHEIVNIKYCPIQPEICDRIIEFIREKAFDY
+GISGFNEKKHSGDLRHIVIRSSLATGKNLVILVVNATKTFDRLNDFAKCIFEEFYEIAGV
+CVNFNSKKTNVILGNKTECLAGKDFVKERILDKTFRIGPNTFFQVNPKSAENIFRYVKEY
+IQNNFENPIILDAYAGITSFGICISDICKKVVSVEENKEATELARETARVNNIENVEIHN
+QDAAKFFEKEKRKFDAIILDPPRKGCTKESLDEACRLSKGKIIYVSCNPATLARDLKYLK
+EEKGATIESIQPFDMFCHTYHIENVAIINV
+>tr|R7MI91|R7MI91_9CLOT
+MQIPNNYTSPNFGSFRINSRIQDRLHVLSSEDLSLVKKAQIELKDITSSTLELTDNFEPK
+IYSQGPDVFVKLFHPVKPSSNELNITTIWDGSPLANFRRKGQKFCLRFPFETKDAAIEAY
+KRVKAAKTPLGQAIETVKLLDNCQMANIIRKD
+>tr|R7MFD2|R7MFD2_9CLOT
+MNTIKAKIKMLAISRGITLKNLAAKLSDMTGENYSYNSLLGKLNRESLSLKEAEYIAQIL
+DYKLDFVDINK
+>tr|R7MHF0|R7MHF0_9CLOT
+MGFCRNTMLKFPPLKPHKSIGNVFVYSQKNSFGSIVYKMANKDGKYVGLMETLPTIVNNK
+QQSYSPNATSYPSLLIQKLSVGPKRQGFGSAFINIAKKDSFKHFCNGNIHLVASDMYDGF
+HPPQVFYRKLGFQFNKSSGFTERKVDEFIAGKIPESDLYGLGDTYMFFEHNVDKDGKMVE
+SMKKFKEKFPEIFEWL
+>tr|R7MD87|R7MD87_9CLOT
+MLNKLKSAVVEDDFNLSKVVTDYYSELKNISKIEDLNKQYPKIKTPASPQEVIARKIESV
+LTRDFYEGLADNMASVEEASEYCVKPVGALVYDIAMKHNANPIELFDSVFPYTAVKIFER
+YESIATNGMSSVPEVRKIKTPQVSDLDLKLLRTDFDDFVTSVVRKHYLEGQKLNEIKYEK
+DGISIALSDLRGSDYKFEKMPEKVRSFVKSGEALDYAQKDYDNFDVNQFRARLDFFANGG
+IGENEEILGKIIDFDSCDFTPEDMKFLSKFLRELDFVRDGKKSMEEAVDYIKEQDLAPKG
+TNKLNELARQKAEEDIKIRQKVSSELKSVKKDFDNAMNVLYQNDLADIANSCADYRPKSI
+DDCKNAKYLISLINKNTDKETNILNRNAVEQSIMRWDTYNFYKAEGKTSDEVLTKAEKFA
+MREDGTIDVEKAGHYLINSEVAKMYPESVKYSKYPEVLDKIMEKTATQSEAVKYLCKYDD
+YMNLSSENKTQLSNFIDMFDQKNSVDKAILKSIVEQDYLNVDTPVQIKTSGSETVTATFS
+AKAKKAITDKYKYPTCLIYLKGFEDALASFAREWGSSGIKKTGKNNNTLRYKMELKVAGH
+DDRLFSSNNDYYFDVFSDKGFH
+>tr|R7MIR5|R7MIR5_9CLOT
+MPKVSVIIPVYNVEKYLKQCLDSVVNQTLQDIEIICVNDGSTDNSLEILKEYAEKDSRLR
+IINLRNSGVSVARNIGIFAALADFIMFVDADDSIETTTCEYSLNRIIETKTDICCFGVNE
+KCGNVVSSRGWEAYYLQFDNEPELVDLEAKKVFVVNVYGKLIRKSFLIDKNILFAHGIKT
+GEDSIFNLSCLIEGATYSILNKFLYNYNISRVGSASNNLKNALKNDIEGYEYFLASNCFK
+NSSDEMKIIVLEKFIGQMQYYYSRTVKYKLLYISQILKFNFYLDRNIPKQLLNDVSNIKF
+IRLSHFIQSIFSIRNEDSHKVVRFLGLKLKFKRKRKNV
+>tr|R7MEM9|R7MEM9_9CLOT
+MFRQYFLKLKRAFTLAEVLITIGVIGVVAAITIPSLVTSYQKRMTVNRLKGSYSKLAQAL
+RAASDDYGPVEEWDLSETGVASYDKAIATLVHERIMPYARVIDDCGQNCPLRRKVKICRP
+NGICTWGHRDSGYYTIYLADGSSWEFMIDNDGQNLMFVKVYIDINGNGKPNMFGKDIFVV
+MLDDGVRLLGSDTKYSRTSLLGNCRECCSKNAGSYAGDMCGGLIQRDGWQIMPDYPWK
+>tr|R7MGV1|R7MGV1_9CLOT
+MYNTKILTANNYGSFENLYEDFRKKAKTDYNFELEPLDYDGFLDAIDKDLIKCIVLYDDE
+KAVGFLVYTTAISEAIELNIIHSIDKEKLMDCAIELLTKFIDITQNLRKEKIVCYPMLGE
+QKSLISVIAKLGFKFVGIEVLRFMMKGTPSRELFSHARVVRLPEDYEVVSWNDKYFEDAV
+SVIQESFNESSDALFDPRFKTIEGTQDIITKIVKDVYAEFMPKATSVLLYEGKPVGFSFM
+NLTGGSIVNIPLVGIREEHQGKGLSTIMLKHSMDEIFKEIDIYNSPITEINTTTETNNLQ
+ALRLYKNLGFLEDYSYPQSYMPIEN
+>tr|R7MKQ9|R7MKQ9_9CLOT
+MFNTEDTYEVVIFSIGDTKAGTKMGKLQLKNTVDNSVLNCILWEETLNRFDNKIFRTGNL
+VRIVSASFNEKFNNCLISALELIKEAKLGLDENEIEQYWTKLQSYILKIKDEKLRQFVAE
+LFEKHAQSFKIMPAAKLMHHNYIGGLLVHTVECAEFAELNMNKFTYQANEDEIYAACLLH
+DFGKIFEYTIDIETGLIDYAQGFREEWISHSQYGFCICMNAGFKKIAKMIAAHHGRAEWG
+AIIDLDQKDLEPELYLIHFIDNLSAKFGKISTRLLEKKEG
+>tr|R7M993|R7M993_9CLOT
+MALHGTVKYSDMREVLVSLSWKYVVLSVLCAMLVPFLCAWLWTYNFDVKFSCEKSKNLCQ
+IERVNFANQKVVKNISQTDILNVQRNIDLPFLSDKQAPVAGANHSVVVRLKDGKAIKIYD
+INTRFSQPIEDMNEKANQINSYLQGSQNGYSFHHINRYGLSSIGLKLFFIFLLSLVGFFF
+LIPSVFEIVLAMNPNNLIGNFIFKTKKM
+>tr|R7MK66|R7MK66_9CLOT
+MNNQINSTPSFSGNFIVRTAAKNSDRISNIQKLFKESTKDMPNDTLSLKFNSEDRYEFLE
+TGKNTGTIFAISEGFNSWLDKFSDGEISKKLTKVLRALKEEIRFENKNSDLEMEIEEIAR
+KKRVNLFKAETLRENGYDEMAKRFETLAGFSQKKIEGIEAEKSANKKVFLKKLDKITQDD
+PIFDTYLSIF
+>tr|R7MDR1|R7MDR1_9CLOT
+MYEKNFAQYVFSSSVPFLNISSILSVKSSSAKFASVETINSSYDGE
+>tr|R7ME47|R7ME47_9CLOT
+MGDEDKQFDATPRKLEQARKEGQVVKSKDFSTAVSLLILFSVIFGLAPFIWNQIVQVFTL
+LYEQIPNAHTEQIGYTYILIVAVKGAALIIGPILAIAWLVAVLADFVQVGPLVAIAPLMP
+KLDKLNPTKYFKNIMSIKTLFELFKNIVKVVILGYIGWMVYKDHIESILMLASVDNNFAV
+MIEFGKLITEFIFKACIAFLIIAAADYGVTKWKFLKDQKMSFKEIKDEYKNSEGDPNVKA
+QLRQRRMQMLQQGAMDAVPTADFVVTNPTHVACALKYVAEEMDSPMLIAKGTELIAKKII
+GIAKEHNVPVIENPPVARALFKMVDINQPIPPELYKAVAEILMFVYKMKNKNTPNKRPQK
+>tr|R7MD63|R7MD63_9CLOT
+MLEKAYILASFPSRISLRVSIRSFICSNVSGHLLDGIKPPYARVSKDKIIASNFGKVINH
+SKRRSISASCFNPPRYFLSGI
+>tr|R7MAA6|R7MAA6_9CLOT
+MIKISSVGKYLDQPLLTAKINKQVPTVLTLTSSAFLAKEVHDSPKENRKKKVIQLGIILA
+ATTISAINASKIASFLTKRPMSKNIKQIYLENEKVVEWLLENNNLPKEVTKILNKSKNKI
+LGIKEVDILNKNLSRKDLNRLIPDPENITSKDIFREIGWLSIFGAVPVAGGIAGGIIADK
+ATEKHWENKVSNKIKEGLYQYLANIFMCNIGAGTALGLLERFNIRSKSARCVGMVSGIIL
+TGVVGGSAIANYISNKFINPLLSKHPQKETRTPELLDLGLHTDDIATVSLLSGLKWIEPS
+LPLLYAVSGYRAGIGYRNNSPDKEKQSHFLCEKC
+>tr|R7MK16|R7MK16_9CLOT
+MKKRFVLSGYFGFKNFGDEAILSVLVKKLQADGHRITIISSDPQYTKKQFKHIRSVYTFK
+FQDIIGAIAKSNVLVSGGGSLLQDATSLKSLIYYLLIIFIGLFLKKKVIIFAQGIGPIRS
+KFGQFLTKNILKHCDYVSVRDEKSLQLLNSWGIKADLLCDPIFSTTTEHSEKTNTLAIQL
+RDFKTMNDDFIDRLAQKVVNEFSDKEIEIFSFQDTLDKEVCSKFEKAIKLLKPEIKTTLY
+TGLTNEEIVSKLAKAQFLIAMRFHAIIIGLISKVKVLSINYDIKVEKISKEFNIPMIDLN
+KEFSNQFEGLKDENLDAIDNIVKTKTFNWSGFDNAVK
+>tr|R7MGA0|R7MGA0_9CLOT
+MFRKVLIANRGEIAVRIIRACRELGIPTVAIYSQADANSLHVRLATEAYCIGPAKSADSY
+LSIPAIMSAAMVSGADAIHPGYGFMSERADFAEICEKQGIKFIGPTAEAMRKMGDKATAR
+KTMIENDVPVTPGTGIVKTVEEVQEFAHRVGYPIILKATAGGGGKGMRICRNDEEVELNM
+ELCQSEAKNFFGNPDVYSEKYLENPRHIEVQILGDSFGNVVHLGERDCSIQRRHQKLLEE
+APSPAIDEETRKEMGAAAVRAAKAINYEGAGTCEFLLDHDGKWYFMEMNTRIQVEHCVTE
+MISSVDLVREQILVASGEKLSYTQDDIHLKGHAIECRINAENPRKNFMPNPGTISGYLAP
+GGFGVRVDSHVYQDYTIPPYYDSMIGKLICWGRTRNEARRRMYRALKEYVVTGVETTIPF
+HQAIIEDEVFMSGKFNTGFIEDFYKRKGLSEE
+>tr|R7MDI0|R7MDI0_9CLOT
+MADTLQKIKCPACGKEMEKVFIPSEGINLDICTQGCGGIFFDNRELDKFDEKDEDISKIL
+EQIDGKDFIKVSEDSVRICPNCGQKMVKNYSSIHNDIEIDECYSCGGKFLDRDELVKIRA
+EYDTEEDRSEDVLRAVYKTVGQELAEQDRQYAKIKSDKSLLRSLIRKIMVK
+>tr|R7MGU1|R7MGU1_9CLOT
+MKRILKFVVVFSIIFTPINVCANSTDEYLTADLLENSQPNEIVLNTKNNTKNSTISENPT
+DKIDTEEKPESQISEEKKSKEAEIDSVMDNSELDFEFFKIFDQDNDNVIDEDTIVGKIYH
+SKITRTDVPSFLLKEELTHRFQKGPVHKIQAYGGFRGSLNSIFTPNYSTDYDNLTTQVGM
+YGKFNNPNYRFKIAVNPIPRTDSNYLERFISDAYLINTSIPHHQIIAGYSRVQTGIEGGT
+SSYILPFVARSQIARNFGSARSLGVKILGNYNYIDYNIGVGSSGRYITSGMPGMEFTGWL
+NVKPFGSEDKKFGKLTLGGGFNGGHNGIDYSVGSVYVGYKHKKLWANFEAGIADGYSGSK
+GVSANKASGYAFSAGWNLYCGLEIQPSMAINW
+>tr|R7MA97|R7MA97_9CLOT
+MNIDRTLNPNYNTVSRSPNFTGVKLANPDFKSARNIMLQLKRVGFDCLGHKTRYCNNETQ
+DKIKMAKFVRENSSFGDKEYGVLFLPWSGEAYIMANPKDEHTIYRILKQYDDVSFNFLI
+>tr|R7MHF9|R7MHF9_9CLOT
+MKKGFILFGFLITFILSGLATFASGNYLHTITLEKSNTGYNVILGSDSMAKVMKKTPSDN
+ELVLELSGITSSDTVNALYKGTNSIDGLVVENIDSNKLKITVNAENIKNSTVIINPINGQ
+SAIVGESLPVDKVLWIGFVMALLAVIVKVSKKLTEEDDRILIKKDIKDREIELYRRYRNE
+MVTNPSINNRQDMRMKRMLKKIDRKIDERLTSSIL
+>tr|R7MIY4|R7MIY4_9CLOT
+MVDNSKNKEPVWANYITEENLPTEDLKLLCEIIGLEATKKLMFNAAGEKFSIHAHCNQPY
+KKQYIIDNYTATRRNIIELVKACDTTQRYVYKVIKEHVEGNRGKK
+>tr|R7MDF3|R7MDF3_9CLOT
+MWEKDINIHEVKEIRTRTSVFFGVGAIRKIHDIAKDIKSKGIDKVIVMSGKHAYKSTGAW
+DVVDAALKENGIGYINFDQVTPNPNTHHVNDATKMAREFGAKAVISIGGGSPTDAGKSVA
+ILLEYPDKNADDIYEFKFTPTKAAPVISINLTHGTGSETNRFAVVTNLEKNFKPAIAYDC
+IYPTYAIDDPQLMTKLSPKQTRYVSIDAVNHVVEAATSTVASPYSITLAKQVVELVAKYL
+PKAIANPEDLEARYFLCYAAMMGGVSFDNGLLHYTHALEHPLSAVKPDLSHGLGLAILLP
+AVVKTIYKDKAATLADILAPIVPGLKGDVSEADKAADGVYAWLKSVDVPEKLEDMGFKAE
+DVDKLTDLVFTTPSLEGLINIGPSGNSREVVRKIYEDSLSK
+>tr|R7MCG1|R7MCG1_9CLOT
+MINTVSQNYKKDNPFDLVSKRPQQSDSYWLQSQNTIQNPDIVEINNKEEKKLSIPKIQIL
+TPEEARKTNNAKLIGLSIAGAIVLTAAGIFFVLKGGPKGISKGFKKLQNHLEYKVQQSKL
+NNMSDTPLNRFYVYMIGKLDKFQHRSEAINNYTSLKDSAFKKIMYLSKPSRYLHQVTTRL
+FEKIGRQAVVNAYKKSEKSFNLARDMAAGTSMKAFSRKAGEIVEINGVKKTRIQWLEHLL
+KMDDDLAKSYEKYFGEESRSSRYLRIKKSAKELEEHFKDLKTFWSADLVRSFMAEDAIGA
+EKTAIQKLVRGHRKDISYSLKDFHIDTDKMIIQMTHSISHNDIAKINMLRNIRQSIYKYI
+QSGTNDGKIRKEILSGADCFRAEIAKAIKDNSMDKEVATNLLENITELRGMVVNFKSGKV
+EEMLDIYKKLLPESDYKTVEKFYREGVKNLDKSIKIETDDFISKVRDLALGSAPTDVLTI
+LGGLGTLGYYLGKSKDSDERVSISLKYGFPAIAGLGVSLYGNAKLYAGTKAMALGIGSSI
+IIGKIGNFLDKKLKEYQQSKRGLPPNTETLAKTKKDNKVA
+>tr|R7MGX8|R7MGX8_9CLOT
+MSLNVNYSSLYKNGIDTSILKDVSQEILRRAAQKSASYSNNSAAQVQSIAKPVELGVDLY
+QGKIDTNLQKQIAMNNSVQFQFNQSTLASIQYLNSQASVVNRLDGKYMPAVNEVVTETQK
+ATETNSASHFISIFAAAASKDKDGSNPFYRGELLASKSEKEEAKGVDTLKSIFS
+>tr|R7MKA1|R7MKA1_9CLOT
+MITLSEQELNKLKELSSENRQNVIKMVYEAQSGHIGGSLSSCDIMTVLFNKCMKHAVDGK
+SSPEYQSRDRFVLSKGHVSPVYYSVLSQVGFIPKSELKTFRKFGARLQGHPSLCCPGVEV
+ASGSLGQGLSIACGIAMSLKMDKNPARVYVLLGDGEMQEGSVWEAMMQAPHRHLNNLTAI
+IDRNRLQIDGNTETVMSIDDLPAKLKAFNWNVLEIDGHNLQEIYDAIESSKLSDKPTVIV
+ANTVKGKGVSFMENNAGWHGKAPNKEDFEKAMLELK
+>tr|R7MKL8|R7MKL8_9CLOT
+MMDKKLEQALNVQINKELYSEYLYLAMKAVFAELKLTGFVNWMDVQVQEERAHAMGMYDY
+VTTRNNHLELGAIDKPELKGTTPLEIFEQILEHEEYVTSCINSLMDVAEEVRDRAAVSFL
+DWYLKEQVEEESNVGTVLAKLRLIGDDKQALFNLDKELATRTFVAPVIG
+>tr|R7MGB7|R7MGB7_9CLOT
+MKKLLLFTIALVLMLFAQVQAANVNTVKAAIVKHSIEMGVDPAITLSIAKTESGFRHEAR
+SSHGAVGVFQLMPSTARRMGLNPYSLDDNIKGGIMYYKSMYKMFGSMELALAAYNAGPAN
+VKKYRAVPPFAETRRFVAKITADYRHFKAHPDPAMIAYKGGNVKTISGSRPTTIAHSPSK
+VSPKTPAGAAKMVAKTAPLPVSRIEESRKYNAELIKGLPAEVELKSQSVAI
+>tr|R7MG77|R7MG77_9CLOT
+MDINYFDLSGGINQASTKTELGANPKVIYWADSKNVEIYNNKGIIKQAGNTLFLELPTPE
+PIIAMHEIESDDLYKLVIITDSGKIYVYQNSTSSLKLLEKTLVGRKIKFANFLRGIIIAT
+ESDSMFYIKNNENFDIVDCNLKDKGGKLFYPDNICIYRGRVWCAKESTIYYSALGTYNDF
+TTAKDAGYISDFFTDTSNIVGMKNYKDYLAIYKKERVYLLAGSDPSTFEVVPFADKGTYA
+PNSIINVDNKQYFLSNGIFALEQVGELNQIRLGSEISLNIKDELSKLDFSRIKNSLALHY
+QSKNQTWFFCPYLGDEYFHTILINDYVNHAWYKRILPQNILTACLFNSSILTADKDGRIY
+KEDFGTTFDGRPIDFMWKSPFLSLGNVHHRKIIDEFYFVLDDLHDNNFNFSVYKDYDGQY
+SDNLECIVSRHFNQLVWGDDSTLENTDNCWAKEDDSIPVWSIGSDGLEKAEIFGSCYSIQ
+LCVEGAKQDDNCAIIGLQFREIYRDE
+>tr|R7MC17|R7MC17_9CLOT
+MKEKLDKAIECFKKKDWNGAIDLFTSILEVESTNAEIYNNLGLCYANLGDDEKAEKNYLK
+CIELNPKIPQCYINLVDIYYKQHRLGEGINILSYAIDMLPEDLIFRHYLARFYIEDAKRD
+LAVDELEFILDQQPENFDAYYDLARVYFDLGNYDSAIENLENVLEFKQDNEWIYYYLAEA
+YQANDEIDKAISNFLKAIATNNKFSIPYKKVAILFMARGDYEDAVEYLEDYMNFDIPEEE
+KTKVNALIASIKKKIGANEE
+>tr|R7MDR4|R7MDR4_9CLOT
+MLPLNEISPPITVSNFKIPLLYIAPPKPVAVLFLKDVPLLVLTVTVAVPELFWITPPLPE
+LPSAVDALLFSKVVPLASIEPPLLITTLLNPL
+>tr|R7MHD1|R7MHD1_9CLOT
+MFSFENLFGSLFTWDEPNGRLRYFFNHILIFIVMLFLIAILAAIPQSLRAIAYVFVGVIG
+LCNLYLIFTNVAKRIWDITGDKKQGIYWTIGLIIAGFIPAIGQIVDLASLIILLFVPGAE
+RVED
+>tr|R7MKT3|R7MKT3_9CLOT
+MEQIIKVAWDLNENTDNRYKLVYEIAELAKKIVDENQARKAREDFGFEETHETTYTKENP
+VEHALMVKASEADDNRLVG
+>tr|R7MBH0|R7MBH0_9CLOT
+MHTGFCVEYDLSLLDRNEEFLHALYPIIYTKSPMLANIKSCFYTDPTKDMLTIMNKSSDW
+SYEQEYRLFCSSEFKQDYFMPILPSRIFLGLNISDKDQEKIIKFAKKYYIEVRKMKINAS
+SFSLAHERVY
+>tr|R7MDP2|R7MDP2_9CLOT
+MASETLTEQLARTEMKFVVGENDFGTVLAQSNTENFSDIELALQNAGGKPKECEIKNYSV
+HGSKQGKPEYIITFKNEPSLIVVIECKSSTQKHSSKFLNAPKDYAVDGALYYAKYLKEYY
+NVIAVGISGQKKENCCVSSFFWGKNQENFIEYEKQRNFFLEPENYLRLYRGEKIQKNYSL
+NDIKETAIDIHESLRKNGIGNSTKPVFVAGLLIALSDKDFEHNFNDIKSFDLLVASIITS
+IKKVLKTSGVDSSKIDSIIETINKVTSIANLKHTQLVEDHSLLWYLKQLDQKIVPMMNYS
+ESTLDALGVFYHEFIKYSGSDGKGLGIVLTPQHLTEFMAEIAGVNKNSKVVDICCGTGSF
+LVTAMGIMHKNANMEEWEKIRKENLYGIEKSPDHHLLALTNMIVRKDGKSNIFYGSCFDE
+KYVEILKDAKINIGLINPPYSLKGGPSELDFIEQMLNVLVPSGIGVAVVPMSCAIGTKYK
+EERKRLFENHTLKAVFSMPDDIFSGQNVGTNVCVMLWEAHKKHDLNKKTFFGYYKDDGFV
+KAKRLGRIDKFNRWNKIKETWIRNYEERIVQSGVSCLKCVKWDDEWLGEAYMETDYSHLK
+KENFEETVKNLCVYELLENLKSAISNAPVISKKVELNVSDWKEFVVGDLFTCATTKPLVS
+SDLEDGKTPYITRSALNNGCSGHKLEEGDELNPANCITIGAEGTVAFYQPAAFLAGIKVY
+TLRNEFLNEYNSLFITTILNRDSYKYNYGRARVLKKIEEEKIKLPAKILPDGTSKPDWYY
+MTEYVKSLPFSSNL
+>tr|R7MFT8|R7MFT8_9CLOT
+MSGVEFNGNVGGIKGTQSLTNIGKISKAMNLGIMGYGHSGNTGGIAVERNIPGLQAVAQH
+FEDVPLMVYNNKGQTNLDLTGATLIPDYEAVTAEL
+>tr|R7MCV4|R7MCV4_9CLOT
+MSNPVLQERILNSSSFNSLENDSSMTINGTIIKTCLLSILLILTFAYTWYLQLAGFADKV
+AILRTVGTFGGLGLALFICFGPKNKFLAVTTSLYAMCEGLFLGSYSALLNQLFPGIVVQA
+AMGTIFALFSMLFLYQSKIVRCTDKFRRVISSAVFAIFITYLLQFVLSFFHVPTFGIFSN
+SIVGIVFSGVVVIVASFSLITDFDMIENLSGRVDKWFEWYGGFALLVTIVWLYIEILQLL
+AKIQSRNN
+>tr|R7MJ17|R7MJ17_9CLOT
+MNNTITPTYSNSLLVTDKLSNDLTEKKNKITRRQGLIGKGFDSAKSAIGVGRNSKKATQM
+IQDYKAGKVDYNTVNKYLDDFQYTQRDATELVLDSATGLGAFGAYAMAKKGAKFASPFLT
+GVKLKFDVAKVAGPIGTAAAILTGISIKPTLRFIDRIYLSKNEKKDNKTFWKDNLTGAID
+GALAPVAVLKGAILGIPLVMGENALQRYMFVKTDDKKSTKDFLEKQKDNLAVKAVATGAV
+AYKARKLHTSLGNWDKAIENALKNVKDLKPFEKVSIDSDFDMLQSKAQLLLNDPKFVMDI
+FSSGKSIEEKMQLIEAKNIFLPKFIQTIPENILGMLGKEEINFGGFKLNTKEISTIITRF
+KSDCPQSRTIKEAQDFISKTYGDKYTIINDKALGVGTVAETFLAKDNTTGKEVVIKLLKK
+GMSSEKIENDRKAFIDLVKQNSTDDKEKTDFTVRKINSLFDAWSKEVDLSKEMEATQILG
+KNARNYHAVKPIEVKDNIYVMEKAPGIQFNEFIDQMLKENKTISSREAMNLMRNYFQVFF
+EQLLSVPPKGQKVMHADPHPGNIFINLADKEKPFTFIDTGNVLRYTPEEAIDNALNHLDY
+FIGNSKGIAKSLLREANLPEGMTEKQALELVTKGLNEKVYNGHTNLVTGGNFFKDVNDVA
+LKIMSDNGIIANQNNTNLLKAETTYFMNLTCLKDIQKIMDKNSDISAISEEDAKKQMELI
+LKEIGESIKNSAINNKRYTTKKLKDRMDFISENKEQFYSTILSFAERIKP
diff --git a/Exercise11_files/Problem1/Flavobacterium.fasta b/Exercise11_files/Problem1/Flavobacterium.fasta
new file mode 100755
index 0000000..f7cd351
--- /dev/null
+++ b/Exercise11_files/Problem1/Flavobacterium.fasta
@@ -0,0 +1,31988 @@
+>tr|A0A1S1JC16|A0A1S1JC16_9FLAO
+MKWITRERPKIDRIACPWLIRNFVDPEAEFIYVPFDQVLDKAKELNAVPFDIPNVEFTHY
+QEQCTFDYIVKKYKIEDPAISIMAGIVRGADTDRHEIAKESAGLWAVSAGLSHNITDDYK
+LLETGMVLYDALYRWASHLYKQKHLKNSPFENLLHEVYNKFLKDKKTTGKTPSWVKDLKN
+LIQDQIDAQFTFDLKKISGELDLNPSYLSREFSKYFEDLNFGDYVRKQRIEKAVNLIENT
+TYTLTEIAYRTGFSDQSHFTRIFKLQTGKNPSAYRKKIQKK
+>tr|A0A1S1JBY8|A0A1S1JBY8_9FLAO
+LELVKAFARTTYSSIYIIDYEKKGFEYVSENPLFLCDHTPAEVQELGYAFYFKYVVKEDL
+DLLLKINTIGFDFYQNIPVEERLNHTISYDFRLKNPNGKTFLVNQKLTPVFLTNDGKIWK
+SICIISLSSELQSGNIKIYKKGENKIFSYDLEGDFWKVLKKIELTSREKEVLQYSIRGFT
+IANMAESMFVSADTIKFHKRKLFTKLGVGNIAEAIAYATSNKLI
+>tr|A0A1S1J8F8|A0A1S1J8F8_9FLAO
+MKLLDTKPHFYWFLTNLAKTQRREVFVFLALFLLKTHTLAPIVVEILLIFPLKSKRLKRI
+AG
+>tr|A0A1S1J0L6|A0A1S1J0L6_9FLAO
+MEARDTFLKEFRGETLGTISAQSSADELFQNQTIRPILKLQNDLFVAVFINYVNKNKADF
+YSYTVEKKLQTIENSIQKDIKFRNSLKGIVMALFTLEEYETYIQNSSSLNKRMMNLLIDR
+LKSQMQLFELESKSK
+>tr|A0A1S1JAM8|A0A1S1JAM8_9FLAO
+MFYTYIIYSKALDKYYIGSCQDVEKRLQDHLNSRSNYTKVAKDWELKYYETFPTRSEACK
+RESQIKKMKSRKYIETLIKTKG
+>tr|A0A1S1J2J0|A0A1S1J2J0_9FLAO
+MKRDYEKYKGIHPGAVLKRELDKRNISQLSFAHTLSEHAQTINAIVKGKRNLNTALAIKI
+EEALGVPEGALLVLQVYYDIKKEKEKSAQRRHPELSRLRRGLFWDTNIDAINWEKQSKAV
+ISRVFERGNMSEKKEIVRFYGIEKIKPVLRETAAKPHFTASPNYSKAKRS
+>tr|A0A1S1J6Q9|A0A1S1J6Q9_9FLAO
+MKNTFMILVLSLLLISCKQEIKPADIAKLNGYWEIEKVVFDKGEDKDYGMNENFDYFNIK
+GTKGTRTKVMAQLDGTFLTTDTFEDVSVRFKGDQVFLDYKTDYAKWSEELVSISDETFVV
+KNDQNKEYHYKKTGPVNLLNDGKKTK
+>tr|A0A1S1J7V0|A0A1S1J7V0_9FLAO
+MTLDATDKKLLVLLQTDSKKTNKELSLKLNLSVTAVYERIKKLEREGIIKNYVALVNKSK
+IEKGFVVFCHLKLIQHTKEFLTKFESEVTKLNEVLECHHVSGDYDYILKVLVKDMEAYRE
+FLVTKLTSLQHIGSTQSMFMISEVKNSTVISF
+>tr|A0A1S1J6I3|A0A1S1J6I3_9FLAO
+MKINEIEMVVFDMAGTTINEQNIVYKTLHKSINNFGIEVSLESVLSLGAGKEKHQAIRDI
+LEYNNITDENKSDVIFEYFKETLDNEYLSASVLPIEGVENVFENLKKDGVKVVLNTGYSS
+HVANTLLEKLNWKEGNQYDALITADDVVLGRPFPDMIYKAMQLFAITDASKVLKAGDSAI
+DIEEGKNAKCGVTIGVLSGAQTRQQLEAAQPDYILNSLASLYSVMK
+>tr|A0A1S1J5M0|A0A1S1J5M0_9FLAO
+METNLSTIHIFKTNIGDKDPNCPIRQKLDTHSDIQQWSIDCEDVDCVLRVVSETLHPETI
+IDMVTSFGHECQELD
+>tr|A0A1S1J0U6|A0A1S1J0U6_9FLAO
+MRTLEQWFDEYAVSHQNPKNKAIHYICVPAIYFSIVGLLMSIPSDFISNTLKLNAPVLEN
+WAAVVLIFVLLFYLRLSVTMALKIAVFSAICLIVNYYIGQVLPLWIFSIGVFIIAWIGQF
+YGHNIEGKKPSFLKDLQFLMIGPAWVVENLFSRK
+>tr|A0A1S1J0X9|A0A1S1J0X9_9FLAO
+MNITTPKPSNQPKKSTFRLIVTNLTFWVLIAIIAGILLGHLSPANGVKMEILGAKFIALI
+KLFIGPIIFLTIVLGISGMGNLKKVGRIGIKALGYFEVVSTVALAIGVAVAYFFKPGKID
+KSSLTLGDASQYTTHAAEHFSWLQFFLSNFTLQVLLAAIVCGIALNFYKKREQTILVLER
+FSNVVFLGLKYVMYLAPVGAFGGMAYTIGKFGLQTLIPLGKLMLCVYLTMALFVFLILGS
+ILRYYKIRILSVLKYIKEELLLVLGTSSSEAALPSIMVKLEQMGCSKSVVGLVIPTGYSF
+NLDGTSIYLSMSVIFLAQLYDVHLSFFEILSVIGILMITSKGAAGVTGSGFIVLASTLTA
+LHKIPLEGLAFLLGVDKFMSEARAITNLIGNTVATIIISKTERDFTELNLDPVVEE
+>tr|A0A1S1J2X2|A0A1S1J2X2_9FLAO
+MTQSKKSTGSYRWSICALLFFATTINYLDRQVLSLTWSDFIAPEFHWTNNDYGNITALFS
+IFYAVSLLFAGRFVDWMDTKRGFLWAIGIWSFGACLHAFCGIATAGIISGNWFVGFEGAK
+QAIHLVKDTGLVINVSVTLFIFARFVLAVGEAGNFPAAIKTTAEYFPKKDRAFSTSIFNA
+GATVGALAAPISIPFIAESFGWEMAFIIIGALGFVWMGFWVFMYDKPEKHPKVSTAELEY
+IQQDDITDSKLKGYVPETKDKVSFVDCFKYKQTWAFAFGKFMTDGVWWFFLFWTPAYLSS
+VYGMDSTEAALPLFVLYMITLLSIIGGWLPTYFVEKKGMNPYEGRMRAMLIFAFFPLLAL
+IAQPLGYISYWIPVIIIGIAGAAHQSWSANIFTTVGDMFPKKAIATITGIGGLAGGIGST
+FINKGSGMLFDYAKESNMSFMGFQGIEAGYFIIFSICAICYLTGWSVMKMLVPKYSPIIN
+L
+>tr|A0A1S1J4Z8|A0A1S1J4Z8_9FLAO
+MKLYYVYILKCSDNSYYTGVTNNIERRFNEHKSGLHKGCYTFSRRPLELVFYTDFKYVLQ
+AISFEKQVKGWSRKKKEAIINDRWDDLKQLAECLNETSHKNHVNKKL
+>tr|A0A1S1J5W5|A0A1S1J5W5_9FLAO
+MNKELIIRSSSEAVDFALLKDGKLIELHKEEEKSNFQVGDIFIAKIRKPVAGLNAAFVNV
+GFEKDAFLHYHDLGPNLASQLKFIKLVSAGKIKDFSLKTFQFEKEIDKDGIITDILSANQ
+SVLVQVVKEPISTKGPRISAELSLAGRFIVLVPFSDRVSISQKIEDKKEKDRLKKLVLSI
+KPKGFGVIVRTVAEGKNVAELEKDLQNLLGRWTAMCKKLPTAHHPSKVLGELNRASSILR
+DVFNDTFSGIQIDDEELYHQTKEYLQEIAPSKQSIVKFYQSNDTPIFEKYNIERQIKTSF
+GRTVSMSKGAYLIIEHTEALHVIDVNSGNRSNKATNQEDTAMEVNMIAAAEIARQLRLRD
+MGGIIVVDFIDMSNPENRKVLFDFLREEMSDDKAKHKILPPSKFGLVQITRQRVRPEVNI
+KTREEDPNNEHGEIEAPILIIDKISSDLDRILKTHKKVVLNVHPFVAAYLSKGFPSLRSK
+WFFEHKKWVKIIPRDAYTYLEYHFYDKKGNVISE
+>tr|A0A1S1J7U3|A0A1S1J7U3_9FLAO
+MKLKKINEKLQDALIENGLTEANVLQQETFSTIKSGADCIILSPEKSGKSTTIVLNVIQQ
+LAGKTEESPRALIIVEDKAKVLEMEALFEKYGKYTNLEVYGVHDKGDMDYDKNYVSTGID
+VLIGTPNKLSDMFTTAGYNVNRLKMFILDDADPILKLRHETKIMRISNSIAKVQRIIFAE
+ELTERIEILADKMLVEPYLFDMEDEGEEELDEDEDDIEEEE
+>tr|A0A1S1J8G3|A0A1S1J8G3_9FLAO
+MKVTLNRVNDAFHFKLKNERGHVVDVDSRAEFGGSDLGPSPMELVLMGVAGCSAIDMISI
+LKKQRQEITSFNAEVEGERVQVGEAKPFKEINVVFYLEGDINPEKAQRAAQLSFEKYCSV
+SKTIEPTATIKYKVVLNNEELK
+>tr|A0A1S1J9Y5|A0A1S1J9Y5_9FLAO
+MKTEKEKMVAGEYYLAGDPVLVKERRKAKNLLHRLNVTEYRTTKKAKEILAELIPNAGKS
+FYIEPPFHCDYGYNISCGDNVYFNVNCVVLDCAPVNIGSNVFFAPNVQIYTATHPLDAEL
+RKTLENALPISIGDDCWIGGNTVICPGITIGKGCVIGAGSVVTKDIPDNSLAVGNPAKII
+RKLNQEPQ
+>tr|A0A1S1JBM9|A0A1S1JBM9_9FLAO
+MKKIIIIGILFCIFSSCETYKRSKFEYQFGERKAEWINMYKTEVFFTCLRKSYENPAIFN
+LIAKEDLQVPYEPILSEYDKINLLSTKIIKDIPKPIYPNCDDCTEKEKQEQLKKNYFCAT
+CLNYYASSELDSIAKKAYKNYLKSERNILKN
+>tr|A0A1S1JCY9|A0A1S1JCY9_9FLAO
+MGFFDFMTEDIAIDLGTANTLIIHNDKVVIDSPSIVARDRISGKIIAVGKEANMMQGKTH
+ENIKTIRPLKDGVIADFDASEKMINMFIKSIPALKKRMFTPALRMVVCIPSGITEVEMRA
+VKESCERVNGKEVYLIHEPMAAAIGIGIDIMQPKGNMIVDIGGGTTEIAVIALGGIVCDK
+SVKIAGDVFTNDIVYYMRTQHNLFVGESTAEKIKIQIGAAIEDLDGPPEDMSVQGRDLLT
+GKPKQVDVSYREIAKALDKSIQRIEDAVMETLSQTPPELAADIYNTGIYLAGGGSMLRGL
+DKRISQKTDLPVYIAEDPLRAVVRGTGMALKNITKFKSILIK
+>tr|A0A1S1JFT7|A0A1S1JFT7_9FLAO
+MNIKKEIVLVFCFLLGLSIQAQDMQEGFTNLEKGEFAQAEIFFSKILKTYPDNKTAKLCY
+GRAVGLNSSPEKATVIFSELLKKYPDDFEIQLNYAECMLWNKNFSEAKPYYFGLIAKHPE
+SFPALLGYANTLSNLKQYEEALIYVNKALAVSVKNPNALVSKKYIRMGYANQLVQQQDYK
+TALSLLDENFEDFPKDKETLMNKANIYLITKDKKNATKVYRELAVSKKDSLFSLNGLSLV
+SHIAERDSEALSIAKKALKNSQFIEDIKLQNQTKERYVQALIWNRKYKEAAAKIKEYQIS
+NPNENWVLALSATLGMYRSDFKESIADYQNILVNDAKSFDGNLGISNAYFADGEPLKAYE
+AVDTTLKIFENQKDAIGFLKKLNENFTPSVEEIISYSFDNGKNEAYANNTVLNFPISTKW
+AFLGMYQYRKTENTVTKNSAVSNDFKVGAQWQFHPKINFNVLVGSSNARSFVSNYSQLLV
+DVFFKIKPLKLQDLELGYKRDIQNFNADLVSREITANNFYFNYNIGTNFKLGWFTQYYYS
+AQSDSNQRNLLFTSLYYNFLSKPILKAGFNYQFIAFQKQLPTIYFSPSKFNAYEIFVDFL
+KDEKSAENNAIFYTLSAATGFQYIENDSKQSTYRVQAKFGYKFSDRFLANFYGVKSNIAS
+ATAAGFQYTEVGLRLRWMLTSKPVFKVKKNEK
+>tr|A0A1S1J458|A0A1S1J458_9FLAO
+MYTPDLYKNEDPESIRTFLKENSFGILINQTHGKLCATHIPIELEVNSDGKEILQGHLSK
+LNPQAEGFAENDQVLAVFTGPHSYISSSWYDHENVPTWNYIAVHVYGRIKIVDEATSIEQ
+LKKLVDKYEANSMNPVRVENLSAKTMREARGIFGFEIEIDEIQATKKLSQNRDDHNYKNI
+ISELEKTENPQAIAVAKEMAKCRK
+>tr|A0A1S1IYD5|A0A1S1IYD5_9FLAO
+MKKWYCLRIIVLILSLNCFAQKSTKDYVTLSGKITDKNSDSLLVFKNRTPLKKINVKKDG
+TFSDTLSVKEGYYGLFDGKEQGFFYLKNGYNLKITFDTKQWDETMTCKGEGAIPNNYLFK
+KALYTEKATADKSIFKLEKDEFITKIDEIVAGYQKLIAETKGLDASFIAFEKKDFEEFRK
+SCVARYNKTTNLKKHQEEILPKGKVSPKFFNYENFDGSKTSLDDFKGKFVYIDLWATWCG
+PCKKEIPFLKTVEKEFHNQNIVFVSISTDRVKDHDKWKKMVGDLQLTGVQLFANGDTSFE
+AAYEVSGIPRFILIDPQGNIVDPNAPRPSDEGLKKWLKEAGVH
+>tr|A0A1S1J3Y5|A0A1S1J3Y5_9FLAO
+MRKVLNKIHLWLGLMCGLVVFVSMLAASIYVWEKELSSWYHNEKIFVPEVKEVVLPLDSL
+MVIVQKKHPLADYVEISKDLKKSYVFTSYEENTKPHWTAASDYANYSSIYIDQYTGKELG
+EVDLRYDWISNMRLLHQNLLLTYEVGHYIVGFSTVFIFILVLTGIYLWWPKNKAALKQRI
+WFKWKNTTRWKRKNYDIHNIGGIYTFVFILIFAITGLVWTFDWWTNGIYRLLGNDPEKVW
+AKVPEISNKKVVRVKDPLEYIVRDSRFKTSEWISVGLSLPEKSSKEAVPVTTYVKHEGNS
+GWDESDSYTYNSLSAENYFTVTQNDKTLGAKWRNSNYAIHTGSIYGFPTKVLATFISLFC
+ALLPVSGFLIWWGRHKKKR
+>tr|A0A1S1J747|A0A1S1J747_9FLAO
+MNKQFLKYSLFSLFLVAGQNAMAQNSDQTKNPLSVYQVTPLKVNDLVHTKLDVSFDYGKR
+YLYGKGWLTLKPHFYDTDSLRLDAKGMDFKTIAIVDGKKTIPLKYTYDNEQLSITLNRKY
+KSTEKYIIFIDYTAKPDELKVKGSLAITDAKGLYFINPDGKGDKPIQIWTQGETEASSAW
+FPTIDKPNQKTTSEISMTVDAKYTSLSNGKLISQKVNKNGTRTDTWKMDLPHSPYLFMMA
+VGDFKIYKDSYNGQEVSYYLEPKYAPYAKQIFGKTPDMMKFYGKMLGVEYPWGKYAQIVA
+RDYVSGAMENTSATLHGEHVQKTERELLDDNQESTIAHELFHQWFGDYVTAESWSNLTMN
+ESFATFGEVLWHGHDEGQDAEDRSRYEKLQNCLRSSKEGVSPPLARFHYGNKEDMFDNIS
+YSKGSIILYALKNQMGNAAFFKSLNKYLTTNAFKTGESHQLRLAMEEVTGKDWSPYFNQW
+YFQGGNPILNIEYGYADGKATMAVKQVQESSVQTFTLPLKVDFYVNGTKVRKDILIDKRE
+QNFSFDLPSKPDFIDLDPDKILVGKVIDNKKISDYLYQYKNVPTYYNRIEAIKFAAKDKS
+HEAQLILLAGLQDQRDDLRTRSIRAIDLADNSIKEAALKTLLNIAQNDKKTYARASAIIK
+LAGTGDAAYKNLMIESTKNQSYNVAAAGILGLSKYAPEEADKIKAALDEDTRNHITPLLK
+EFNNQK
+>tr|A0A1S1IXX6|A0A1S1IXX6_9FLAO
+MEIAIIAHDGKKADMVQFLNKNKTLLLQENIKLIATGTTGSKAENAGFKVKRMLSGPMGG
+DAQIAARVAEGKTKMVFFFKDPLASHAHEVDINMLIRVCDVHNVPLATNEASAQLLLNAI
+ALQL
+>tr|A0A1S1J1N4|A0A1S1J1N4_9FLAO
+MITSLSIKNYALIEKLTIDFSKGFSIITGETGAGKSIILGAIGLVLGKRADLTSLKNKEE
+KCVIEAQFEISKYNLKDFFTANDLDYEDETIIRREILPSGKSRAFINDSPVNLQELQDLS
+LFLIDIHSQQQTQELSDEGVQFKIIDAIANNGEVIQSYQDVLKGYKSDKSKLNALLKKQS
+DSGKEQEYNTYLLNELVTAKLKSGEQEELEADFEKLNNVEIIKEAMDKSLAIANEEQFGV
+FHSLNEIKTALQKIALFSPEYQNVFERITSLAIEFDDVSKELQNASEKLLNDPAQLELVS
+QKLQLIYNLQKKHQVTSVDELLGIQATLENSLVELDNIGEEITALSESIAQKVTDLDAFA
+EAIHQNRINAIPVLSQKLVSILETLGMPNVRFNMELLSSETYFQNGKDELQFLFSANKGT
+DFGLLKKVASGGEMSRIMLAVKAILAQYSKLPTLIFDEIDTGVSGEIAIRMGEIMKEMSG
+TMQIFAITHLPQIAAKGDSHFKVSKSTVDEDTQSELKLLSQEERVTEIAQMLSGAKISDS
+ALNHAKELLN
+>tr|A0A1S1J2B8|A0A1S1J2B8_9FLAO
+MKKSLIALSLGGLTIGITEFVMMGLLPDIASDMKVSIPVAGYLISAYALGVVIGAPLLVI
+LGRNFAPKKMLLILALMLTVFNALSIIAPDYNFLFASRFLSGLPHGAFFGVGAVVASRLA
+DKGKEAQAIAIMFSGLTLANLIGVPIGTYIGHNFIWRYTFVLIAAVGLLTFLFISLWMPN
+LEKSGTVNMKTQLLFFKKTEAWLIIGITAIGFGGLFAWISYIAPLMTNVSKFAPEDVSYI
+LILAGLGMLVGNFAGGKLADKYSPAPTVLALLFVMAIDLIMVYFFSFNQYVSLFLTFLTG
+AVSFSVIAPIQMLMIKTAKDAEMIASAALQGSFNIGNALGAFLGGLPLSAGYSYASPNLI
+GLVMALSGMVITFALMQKHKGNLQLQKA
+>tr|A0A1S1J3B7|A0A1S1J3B7_9FLAO
+MKMIKISMLALALGLMSFSAIAPLKSLNSETKVAAAAASTVVWKAETIDVGEIPQGTPKA
+IVYEFKNTGKTAVVITNVVGSCGCTATDYTKEPILPGKSAKVTATYNAANKGRFTKTVTV
+TTSAESTPKVLTLKGTVI
+>tr|A0A1S1J3F4|A0A1S1J3F4_9FLAO
+MSGTPLPFYNEFDWLIYLIFVLVSFVLTYYFNGYMIKASLIFGKEMTLQIIDKLRLSNYE
+SYLQIGEERVRTIMEDVRTLESLPGVFITFFNSLVMIIAGMGYMFWLYPKGALTIVSLII
+ILVFIYVYRNGIIEKDMDAKRDLDDVFMRFYNDFLHGFNKVKMSTKRSDSIFIGHITENR
+DKAIKLSTKAGLSSFGNELLGGYFFYFLIGAILFVLPVVFSIDKTVISGFMITLLFLMGP
+IGILINLMKSVIGYNVAFARINEFNDTLTDNLNHSDALPLSASNEEWPVLETLSINEITY
+QHVDETGSVTFELKPINLKFGKGEIIFISGSNGSGKSTFINLLSGLYIPKSGNIFLNDLV
+ITDDNRAQYRDMISCIFSNNYLFTENYDNFNLLPSNKHLAELLKKMKLDKVIRQDENNRI
+FQNLSSGQQKRLALIYTLLENKDIFIFDEWAAEQDPEFRKYFYENIIPDLKNKGKTVIAI
+THDDAYYQYCDRLIKFNYGGMLVQEQMGLEVGS
+>tr|A0A1S1J781|A0A1S1J781_9FLAO
+MDQTTKKHIDLLHPSVREEMAKIIEECNLALTGRAKVRITQSLRTFQEQEDLYAFGRTKP
+GKKVTNAKGGQSIHNYGFAVDICLIIDGKTASWDTVKDWDNDQISDWQECVEIFKKYNWN
+WGGDWKTFKDLPHFDKKGYSDWKVLSKLKRDRKNYVILYK
+>tr|A0A1S1JCJ4|A0A1S1JCJ4_9FLAO
+MVKKILKITAIVLVVLVAALFAIPYFFKDQIKAKISEAINKSVDAKVSFTDADLSLFKNF
+PNATVGIEKLVIINKAPFEGDTLVSLGELNLKMSIKELFKGKEEPLNIQGISSTNGLVNI
+IFNKDGVGNFDIALKDKEKDVKDDKSKPLSLKIQNYKIENFTFRYIDQGSKIKMVIDSLN
+HEGTGDFTNSKLDLTTKSVANVSLDMDKINYMKNVKLTLDAVLGIDLEKSKYTFKENKAL
+INQLPLEFDGFIQMVDAGQIYDLKFKTPTSSFTNFLGLIPSAYASSLEGVKTTGDFTVIG
+FAKGELTETTVPKFNVAIASNNASFQYPNLPKSVQNIVIDTKIINETGILNDTYVNLDKL
+SFRIDQDVFNAKANIKNITQNPIVNAALKGTINLANLSKAYPIKMDKPLAGILKADVTTQ
+FDMASVEKSQYQNIKNAGTMSLSGFKYTDENNKSMNISTALVEFNPSTINLKKFDATTGK
+SDLSINGVLENFYGFMFKKQELRGNFNMSSNQLAVDDFMTSGTPATEKAAAKPTEAMKIP
+AFLNCTLNAKATTVLYDNLKLKDVSGRLIVKDEKATLENFKTSIFGGTIGLNGAVSTKTK
+VPTFDMNLGFNQVDIAQTFTQLEMMKKIAPLAGIINGKLNSTIKLNGNLDDKELTPDLKS
+ISGDLLGQLLSTTVNSKNSTVINALTSNLKFIDPNKINLNDIKAALTFDNGKVSVKPFDI
+KYQDIKITIGGTHGFDQTMNYNLKLDVPAKYLGNEANAFLAKMSPADAAKLQNIPINAVL
+TGNFSHPKVSTDMKSAVTSLATQVANQQRDKLTQKGTSALNDFINKNTKAKDTTKAAATE
+KEQKTQEVTKKASDLINGLFKKKN
+>tr|A0A1S1IZN7|A0A1S1IZN7_9FLAO
+MNLIRFALRKPISILVLVAGLFFFGIGAIRDIKVDILPKMNLPVIYIAHPFGGYTPDQME
+AYFAKNYVNVLPFSNGIKSVETKNIQGLMIMKLTYYEGTNMAQAAAELSALSNRIQAVFP
+PGTQPPFIIRFDASSLPIGQLVLSSKIRSNNELQDLANVYVRASFTSIPGLLSPAPFGGS
+PRTIEVNVDPDLLRSHNMTPDQIVEAIRLNNQTAPSGNVRMGDKNYITPTNNTIKEVKDF
+EQIPLFKGGVQNLKLGDVASVKDGADITAGYALVNGKRSVYISIAKAGDASTWDVVQKLK
+KELPKIQSTLPEDVNLSYEFDQSVYVINSVKSLITEGIIGAVLTGLMVMLFLGDRRAALI
+VIMTIPISIISGVLFLKLFGQTINLMSLSGLALAIGILVDESTVTIENIHQHLDMGKPKA
+LAIWDACQEIALPKLLILLCILAVFAPAFTMVGIPGALFLPLALAIGFSMVISFLLSQTF
+VPVMANWMMKGHEKHPHGPEITDDEAEFNDCGLTPESEQNLITQKKSYVEREDTNNNGKI
+SPFERFRIRFMRTLDRLFVHKKITTVVYLVSATVLAIVLIGFIGKDVFPKTNSSQFQLRM
+RAVDGTRLERTEEQARIVLKELEKMVGKEHIGISSVYVGQHPSLFSINPIYLFMAGSHEA
+VFQVSLKEYHVDMDEFKDELRARLKKVLPDTKLSFEPIELTDKVLSQGSPTPIEIRIAGK
+DKKRNELYATQIVNKLNAISYFRDVQIGQPIHYPAMNINIDRTRAAELGVDMNDISRSLI
+ASTSSSRYTEKNNWVDEKAGLSYSVQVQVPLNKMKSKTDIGEIPVLKNSLRPVLSDVAKI
+TPGFVSGENDNLGAMPYITVTANINQTDLGTATKDVASTISSLGELPRGLFITPIGLSTV
+LSETLSSLQTGLLVAVFVIFLMLAANFQSFKVSLVILTTVPAVVLGALLMLTFTGSTLNL
+QSYMGIIMSVGVSIANAVLLVTNAEQLRKINGNALESAREAAALRLRPIIMTSVAMIAGM
+LPMAIGHGEGGDQVSPLGRAVIGGLLFSTFAVLLILPQIFAWAQEKTSTQSVSLDPEDEE
+SIHYISSLSKSKVGKS
+>tr|A0A1S1J5A8|A0A1S1J5A8_9FLAO
+MIKINVLLVALVVTLNSCNDRKTFNNVTNQRYLTLKSKFDSTLVNHFPTTLNSSDNFAVA
+NTNSEKNDVGLFLFEYNLSSKSIKDLEKKIIQNYKSVYTNKDLCLLIVNRFETERTKDSL
+EMVEIRDSSLIDKPCYKKLLPVPNFIDFSISNNVDFWKDKSFKIYVLTAESGNYFKQFEL
+QPNPQMPKGWENGFSKGVAINKTKNTVIYWSIIW
+>tr|A0A1S1J6F5|A0A1S1J6F5_9FLAO
+MRKNTFKLFTCSLLLGALSLTTSCSSNDDKTADPVNPETPDRWITVSGALMQDAPGDGNG
+GTMVYAVTKKNAKDPNYSINVYADGMPVQSNRTARLQSSVDGKTLFNITYTGANGGEFMT
+YTVNGAKNFTQSGTTVNISQYAGTSPRWNKLFDGDKTGVAVNVTAPVVKTNPDKTYMYTR
+GTATVLSLDLKGIRISGFKQYELPLTAQEEAQGHHIFRLDAPTINKAGNKVIIGTWLRKT
+NPTTGQIETTYDRPGAKSVVVDYPSLENPQIITSKVGFGDTSGFRSFNSFLGTDGNIYQA
+TQRDTNKGSYIVRINQNNQYDDSFVISLDTALGIKGSYIDAWRYAGNGIAYVLYTSTATG
+DQGFVARVDLNAKTAKKVEGIDYDAAIDFGQYQGFVVDGNELYLAVTPVGKDGNIYVIDI
+PTGAVTKGAKLVNKPGNHYIGVF
+>tr|A0A1S1J737|A0A1S1J737_9FLAO
+MTYKNIFQTLKIACLFLTVFGMQLLNGQTTYKYKVKWDLRKSPSTSRNVYFYLNTGDTYP
+FNGTYANASSTGSSSSFSYVLKNSGASPMDGVVVSNTPLRLSGAVDNVSSGFFQKHAPFM
+TGPYSGYWQSNFAYNFDNVTVTHNTQFEFFYLQTLVEANNYNVSNSELKQCETFNFTVAV
+VGESGFMTFAVEYYDPNTAGWKELLPYASRSAQNIPITFTSIPNLQLNQNFQLRARYTRT
+GSGGANDYSDILTYKFIPCSPKLNGAPVTAQVKCFDEPTGSVTLNFLSDIPTGQKLLLTL
+YQNGAYRSHKFAKDTDVKNRAYTWEGIAPGSYTIKYQTQNASDPNATIGSSPVETPVFKI
+ENAVALTFKATAIQPQCSTDKGGIEISVSGGTPPYYYILDNETKKELVKNPDIIDITTDG
+DHKVIVLDRFDCMEK
+>tr|A0A1S1J9G9|A0A1S1J9G9_9FLAO
+MSKLKINIILFGIGNIGSTLINQIIESQEFFLKSKNIDFHFPIITNSTVAFFEKEGVGYA
+WETNFLELAVPFKVQDIIEFAKENEFENLIAVDATASDELIHHYNTLIENGFNIVAVNKK
+ANTLPIDLYKEIRSNLKKYDKEFLYETSVDTGFPVLQTLRDLYYSGEKITKIRGVFSDNL
+SYVFNRFAAEETTFSSLLKDASLLGLMRSTFKEDLSGNDTARKLLILTREIGKDFELSDI
+KINSLINEEHLEQNGILNKEAIDRSFKIAKISQADDHVLRYVGEFDVVKNTLEVKLVSEP
+ITSAIGQLKGSDTIFEIYTQSYAAVPIVIQSASACKQAISRGVITDILKVAEKIKNKEAV
+WL
+>tr|A0A1S1JBY9|A0A1S1JBY9_9FLAO
+IQVARGYLNREELTNEKFIDSPFLEGERMYKTGDLARWLPDGNIEYIGRKDDQVKIRGYR
+IELGEIENALSSLAGVNQCCVLAKEDTTGNKRLVGYVVLEGALDKEQLQNQLKLSLPEYM
+VPQLWVALDTMPLTDNGKLDKKALPDPDGSELSSKEYVAPRNETEEKLVAIWQNLLGVER
+VGIHDDFFELGGHSLLATRLVSMIRKELSKEIEIADVFAYTTISDLETHLSSQSEGILLP
+VITGGERPERIPLSFSQERLWFLDQLQGSTEYHIPIVLSLEGALEISLLEQTLHGIVSRH
+EVLRSMLLSEEGIAYQQIISAEGWSLDTEIISDELVLKNQIADYVNQPFDLSKDYKLRAC
+LYTLGNQKYVLACVFHHIASDGWSEGILVNEFTQLYSTLQSNSIPNLPTLHLQYADYAIW
+QRNYLEGAVLEDQLSYWESKLSGVSTLSLPTDYPRPSVPSNAGAAVSLALDQKLSASLNA
+ICKEEGVTLFMLLLSAFKILLSRYSGQEDICVGTPIANRTQAELEGMIGFFVNTLALRSD
+LSGDPSFKDVLSRVKQTTLEGYDHQLTPFEKVVDRVVTSRDRSMSPLFQVMFDFHNVESK
+SGDIGEQEKGIQGVALSGYPFDIATAQFDLSFSVSESSTGISLALNYGTALFDEATINRM
+LLHYQELLQSITENITEPISNLSMLSQAEEHQLLNVFNNTAVAYPLDKTTVDLFEEQVKQ
+TPNAVAVVYGDEELTYKELDQRSNQLGHYLREQGVKPDDLVGICLERGFEMLIGILGILK
+SGGAYVPIKPDYPTTRISYIVKDIGCSLLLTDSFTKNILNSLALDVTTIVLGGSAAVYNN
+YSVDSLDLSYSSNSLSYVIYTSGSTGVPKGAMIDHCGLLNHLLVMVDELEMDNNSVVAFT
+APFTFDISVWQLLSGLLCGGRIAIYSERMILDISDFQDALEIYQVTHLQLVPSYLLSLLE
+TGSRKGLEDLHYFLITGEAATTSLLQLWFSVYPSIPVVNAYGPAEASDDVSLHIMKEAPK
+STIVPVGKPVANMSLYVVDIFENLCPIGIIGELWVSGVGVGRGYLNQPELTSEKFISNPF
+KEGERIYKTGDLVRWLPDGNIEFIGRKDDQVKIRGYRIELGEIENILSSLEGVSQCCVLA
+KEDTTGNKRLVGYVVLEGKLNKEQLQNQLKLSLPQYMVPQLWVALDTMPLTGNGKLDKKA
+LPDPDGSELSSKEYVAPRNETEIQLAEIWQNLLGVERVGIHDNFFELGGHSLLATRLVSM
+IRKDLKREVSIREVFEHTTISELGTHLSSQSEGVLLPVITGGERPERIPLSFSQERLWFL
+DQLQGSTEYHIPIVLSLEGALEISLLEQTLHGIVSRHEVLRSMLLSEEGIGYQQIISAEG
+WSLDTEIISDELVLKNQIADYINQPFDLSKDYKLRACLYTLGNQKYVLACVFHHIASDGW
+SEGILVNEFTQLYSALQSNSTANLPTLHLQYADYAIWQRNYLEGAVLEDQLSYWESKLSG
+VSTLSLPTDYPRSSAPSNAGAAVSLALDQKLKTSLNAICKEEGVTLFMLLLSAFKILLSR
+YSGQEDICVGTPIANRTQAELEGMIGFFVNTLALRSDLSGDPSFKDVLSRVKQTTLEGYD
+HQLTPFEKVVDRVVTSRDRSMSPLFQVMFVLQNEGDNQVQKENELNDIIISGYEFDTVSS
+KFDLTFSASENNNGISLAVNYCTALFDKATIESMLLHYQELLQSIISSTKQPISTLSMLT
+QAEEHQLLNVFNNTEAAYPSDKTIVDLFTEQVKQTPNAVAVVYEDEKLTYKELDQRSNQL
+AHYLLSNNNISQDSLIGVVLDRSDWLIISLLAILKTGSAYVPIDPNFPEERKMYIKNDSN
+CTIVVDDLLLDTFKEVITSYPADLPEIITTPAGLAYVIYTSGSTGKPKGVMVEHRNLVHL
+CFWHQSAYSVTAQSRGTLFSGVGFDASVWEIYPYLLSGASLYPISEKYRYDLDKLFTFLT
+QHAITHTYMPTLVCESFVDKEISLPNIIVLTGGDVLHLSKSSDIAIYNNYGPTETTVVAT
+NYKVLNTPITKIPIGKPINNTQVYILDNHDQLLPVGVIGELCIGGAGVTRGYLNQRDLTK
+EKFIANPFKEDDRIYKTGDLVRWLPDGNIEFIGRKDDQVKIRGYRIELGEIENVLSSLTG
+VSQCCVLAKEDTAGNKRLIGYVVLEEALDKEKLQKQLKLSLPEYMVPQLWVALEEMPLTS
+NGKLDKKSLPDPDISDLSNTVYVAPRSETELQLAEIWQNLLGIEQVGIHDNFFELGGHSL
+LATRLVSMIRKELITEVSIREIFEYATISELGIHLSSQSDVVLLPGITGGDRPECIPLSF
+SQERLWFLDQLHGSTEYHIPIVLGLEGALNVSILKQTLHGIVSRHEILRSMILSAEGIGY
+QEIISADHWSLDAEIVSDELSLKNHIADYANKPFDLSKDYKLRACLYTLGNEKYVLACVF
+HHIASDGWSEAILVNDFMELYSSFESGREAILPQLRLQYADYAIWQRKYLEGTVLEDQLS
+YWESKLKGVSTLSLPTDYTRPSMQSNAGAVTFLMLNQEIRTSLEQLCKEEGVTLFMLLLS
+AFKALLSRYSGQEDICVGTPIANRTQSDLEGMIGFFVNTLALRSDLSGDPSFKDVLARVK
+QTTLEGYDHQLAPFEKVVDRVVTTRDKGMSPLFQVMFDFKKMESKSEEAVQEELGIQGVK
+LSTYPSELTTAQFDLIFNASENSEGISLGVNYNTTLFDQSTIDRMLSHYQELLISITENI
+TQPISNLSMLTKEESYQLLSIFNDTDTAYPKEKTIVDLLEEQTKRTPDNVALVCGNNTMT
+YKELEERSNQLVHYLKSNGVVKDSRVAILFDRGFDMIISMLGILKSECTYVPLDASLPSN
+RLSYIIEDSNVSFLLYSEESLLSKLSVSEFIFLLDVTESYTYESSAISCEIAPASTAYVM
+YTSGTTGNPKGVMVTHGNIVSLCTSCDYTALNSDTVWLSTGSVAFDATTLEFWGTLLNGG
+QLVLADTNSLLEIKSLKDLIIRHKVTTMWMTASWFHQVVEEDASVFAPLISLLVGGDVVL
+FTYTNKLKELYPSLQIINGYGPTENTTFSTTYTIEGARVKALPIGKPIKNSHVYVTDSEL
+NLVPIGVVGELCVGGSGVALGYLNQEELTSDKFINDPFKAGERIYKTGDLARWLPDGTIE
+FIGRKDDQVKIRGYRIELGEIENVLSSLAGVTQCCVLAKADANGTKNLVGYVVLEDALDK
+ESLQQGLRLNLPEYMIPMIWVVLDVMPLTSNGKLDKKSLPDPDGSELLSKEYVAPRNETE
+EQLAVIWQETLGIDKVGIQDNFFELGGHSLLVIKLVALINEVFSTDFSINTVFEHATIAE
+FVANIHSEDHFKNSVMVPLQEKGSRKAIFLTPPGSGTVNCFIELTKLLGKNQPVYAFQCP
+GLYGESPISESIEEMASGFITEMQKKDPHGPYRLGGYSFGATVAYEMALQLRNNGFHVEE
+LLIFDGRILNEDNSEINEDELFREFLKEQTAIFGEDFDFSILALEDKSKEEQLESLSKLL
+RESEFKISDQELRGRLEVSFYNENYSYLNKVEEKLDAKIVLFKSAYVEKYGEIFFNDNDD
+YGWNEYTNKEIIVHSISTTHGALLNKENVEQICMHLKQ
+>tr|A0A1S1J0J9|A0A1S1J0J9_9FLAO
+MSTFSIFLVLITIVCFLLIVVIMVQNPKGGGLSSTISGTQMLGGVQKTTDFLDKSTWTLA
+TILIALILLSSLSFTGSLSDSDSKIIEKTEAPAATPAAPAQQTPAPATPAAK
+>tr|A0A1S1J154|A0A1S1J154_9FLAO
+MQLTHEENQFERKTFPITLVCDHIYFQQNIGSLFRISEAFGVENIIFLGKDIPLTPRKIN
+KTSRSTHLHVAHTIIEETADLADYLLQNNFEIIALEIASNSKPLKEVLIPENQKIALIIG
+SEINGISEELLKISNQIVHINMFGKNSSMNVVQAASIALYEITSF
+>tr|A0A1S1J2M8|A0A1S1J2M8_9FLAO
+MRSKTKTILTAWLVAGTLDLTAAITVYAFILQKTTAIKLLQSIASGVFKKEAYTGGSLMA
+LFGIGFHYLIALSFASFYFIIYPYLPFLKKSAVVSGFLYGLFVWIIMNLIVLPITFPVLP
+EKHLDFPLFLSMLILMFCIGLPIALITRKYYSFQTQS
+>tr|A0A1S1J3Q9|A0A1S1J3Q9_9FLAO
+MRKKEILFILASFFIVQSGWSQKKYPNLEAAQNSINYKGNPLNATDRKSLAFSDKGAWFG
+FGFLEPSVVQAGFSGPFLMTEQNGVWLSPSFVSLELTDENKKEAIQWKNTLVNQNSYNSH
+LEQSFKNEKLTIKQQLVYLSGHSALQKTSITNTSGKTVTLFPSYHSTLFLNDLKLSKEDK
+TLKIVSAKSTATGYIQFLNSTPEIEITNQGYKAQTEKLVLKPNETKEIVVSQTFIFSQYS
+WKTENENIAKTAFNTLLNNTQKEKENQLVQLIARKKNIYKEAVYSNLIAKLLLTLQNNTR
+IAAEGLKHGGLFPSYNYEWFHGFWAWDSWKHAVAVANYNPALAKDQMRALFDYQEPNGFI
+PDCIYRNNLLEENNYRNTKAPLAAWAIWKIYEKSKDINFIKEFYPKLKLYHNWWYKERDH
+DQDGLCEFGSTDGTVIAAKWESGMDNAVRFDDSKILKNGEKAFSLDQESVDLNSFLYAEK
+NYLQKMAEVLKLTEESKKWKEESTALKVKIQNQFWDAATGWFYDTTIDGKTLIKAMGCEG
+YLPVWAEVATAEQAQLAKQNMLDTASLNTFVPLPTLAANHPKFKPDNGYWRGPVWLDQSY
+FGINGLEKYGYVKEANELAHKLIYNAEGVLDKGTSIRENYQPITGKGLEAYNFSWSASHY
+LMLLLEDK
+>tr|A0A1S1J5X9|A0A1S1J5X9_9FLAO
+MEIKKIDFLKSYSSILLLLGGILLGSILGLVFKEKVEVIKPLGDVFLNLLFTAIIPLIFF
+TIASSIASLERTEKLGKLFVIMVLVFLSTILISAIVMILAVYLFPIHQNIILSKVPIENI
+QSGSIGEQIAQLVTVNDFFELLSRKSMLALIIFSFLIGFASLQSGEKGSAFRSFLDSGNE
+VMKQLLNLIMKLAPIGLGAYFAYQVGVFGPQLFGVYAKPLGVYYAACIFYFFVFFSLYAL
+VAGGKRAFVVFWSNNITPALTAVGTCSSIATIPANLEAAEKMNIPKHVRNLVIPLGAPLH
+KDGSSMSSILKITVLFAMFGKDFTAPSTILLALGITVIVSIVEGGIPNGGYIGEVLAITV
+YGLPMEQALPVAMILGTLVDPIATLLNVNGDLICSMVVSRFSEKTKW
+>tr|A0A1S1J6J2|A0A1S1J6J2_9FLAO
+MNTEKIYSVIGIGIGPFNLGLAALIEPIEDLSALFFDQAEGFDWHPGLMLNNATLQVPFL
+ADLVTMADPTNKYSFLNYIKQSGRAYKFYIRENFFIYRREYNEYCKWAAAQLSNLKFSHK
+VISIDPVDDVYKVTVIHTQTCVTTVYYTHKIVLGTGTSPHVPDFIDTEALPNVIHASQYL
+YFKPQIQKNASVTIIGSGQSAAEVFRDLLPDTEDGLQLKWFTRSSHFFPLDNKSKLTLEL
+TSPEYVDHFHSLSAQKRKQLLDSQHGLYKGIDHELINEIFDSLYEMSLEDTPLNVELRSN
+MRLTSVKEDTDGSHLLDFVQTELEQPFEDQTDYVILATGYKYKEPAILSGIQDKIGRLEN
+GLFKVHRNYTIDKNGTDIFVQNAELHTHGLSTPDLGMGAYRNSYIINQIANREVYKVEKR
+IAFQQFGVQRATPEFSSANVLELVNEQVNH
+>tr|A0A1S1J7C5|A0A1S1J7C5_9FLAO
+MKRRILVFVFLVFNVLCFGNSREVSSDENQRIENLASLAKIWGFLKYYHPNVAKGNFNWD
+EQLVTMIPKVESAKNREDLSKVYLDWIATLGVVEECKSCKDVSSKNYFDKNFDLAWADNL
+AVFTPELSRKLRYIEENRAQSNSYYVTKSSRDNVEVRNESKYKDFEYPDKNYRLLSLFKY
+WNTIEYFFPYKYLTDQKWSTVLEEMIPQFEKANNATEYQLALLVTVIKLDDTHASLYTDK
+NFEFFGKKYIPAFSNVIENKVVIVGIYSDSLAKINDIRKGDIIEEIEGENALKIMADRKK
+YVNGSNNSTKAKNYNHHLFNGSTDSVKVKIRRDDVVLVKMVKRYKGSDLKSNLSRTKEKF
+NLDANNIGYINLANIEVNDQDEIMEKLNSTKALIIDIRNYPPLMPYRIARRLSFENKEYV
+KCIAPDLKYPGRFIWKKSLVIEPLKKSYYKGKVVLLVNEETQSRAEFVTMLLQTGDNVTT
+IGSQTAAADGDVSRLEFSGFETAISGLGVFYPDGTETQRKGVKIDIEVRPTVKGIQEGKD
+EVLEKAKEYLVTEKS
+>tr|A0A1S1J8S1|A0A1S1J8S1_9FLAO
+MLKSKIDKATGFEKRFENINTVVFENSGDASKEVAQEIAALIQSKQKENKPCILGLATGS
+SPKGLYAELVRLHKEEGLSFKNVISFNLDEYYPMEPNSINSYVRFMKELLFDHVDILPEN
+YHVPDGLLTKEQIADYCHDYEAKIEALGGIDLQILGIGGNGHIGFNESGSLQNSKTRLVA
+LDHITRVAASKDFFGLSNTPRTAITLGVKKIMEAKQVILLAWGEGKSNIVKKSVEDEVTN
+RVPASFLQEHNNAVFVLDKEASSKLTRINKPWLVEKVVWTDKLTRKAVLGLALQLKKPIL
+MLTDADYIENGMSDLLADSGPAYDINIKIFNKLQNTITGWPGGKPNAEDTNRPERAEPAK
+KRVLIFSPHPDDDIISMGGTFMRLQEQGHEVHVAYQTSGNIAVADDEALRFARFVIDYNE
+KFGIKSEEADNIYQKAATFLTNKKNSEIDIPEVRYIKGLIRKGEARATSHFVGLTDDQIH
+FMELPFYETGTIEKKPIGKEDIQLTMDLIEKIKPHQIYAAGDLADPHGTHKVCLDAIFEA
+VKALKPKSFMDDCWLWLYRGAWQEWGIDEVEMAVPMSPDQVLAKRHGIFKHQSQKDGVVF
+QGTDAREFWQRAEDRNAETAALYQQLGLATYAAMEAFVRWHY
+>tr|A0A1S1JGM7|A0A1S1JGM7_9FLAO
+MIYKRSSQLFAEAEKVIPGGVNSPVRAFKAVGGTPIFVKSAKGAYLYDEDGNKLIDYINS
+WGPMVLGHAFQPVVDAVIEKAKLGTSFGMPTELETEIAALAVSMVPNIDKIRFVNSGTEA
+CMSAIRLARGFTKRDKIIKFAGCYHGHSDSFLIQAGSGAVTFGSPNSPGVTEGTAKDTLL
+AKYNDLENVKTLIEANKGEIAAIIIEAVAGNMGCIPPQKGFLEGLRELCTANGILLIFDE
+VMTGFRLARGGVQELYSINADIVTFGKVIGGGLPVGAFAAREEIMNYLAPLGPVYQAGTL
+SGNPLAMAAGLAMLQALNNDPAIFTRLEEKTAYLEAGIDRVLKANNVVFTINRVGSMISV
+HFDANPVVDFQTAAKGDNETFKKFFHGLLQEGVYIAPSAYETWFITDALTYEDLDFTINA
+IDKVSKTF
+>tr|A0A1S1JBQ8|A0A1S1JBQ8_9FLAO
+MKTGIDAISFDVANIHLPIKTLATARNIEPEKLEKGLGLIKMTLPDVHQDPVVFGANALT
+KLILDHNINLNEISRIYVGTESSIDSSKPISSFLISLMEQKFRENTLAECDVVDFTFACI
+GGVDALQNCIDFVKLNPAKKAIVVTTDFAKYDLNSTGEYTQGAGAVAMLVTSNPRIIAFD
+ENWATSTKGVFDFFKPYRTLSKEEITKNTNNDLWFDNLEAEIEIHKDQPVFDGQYSNQCY
+MDRTRNAYFSFKKLKNTTETLYNSWNSIIMHLPYSFQGRRMLSEIYALDSAEKIISENIE
+SADYQLKIKEVAKSEEYRNFVTEKLQPAELASSLIGNLYTGSIFMGLLSTLAHFYDTNKE
+IAGTQFGFLAYGSGSKSKVFEGTIQPEWKAALANVKLFENLEESVEIDFNIYESLHKKEQ
+KQSVRTPKNEWTLDRIEKEIPNLIGARYYKWVD
+>tr|A0A1S1J138|A0A1S1J138_9FLAO
+MLDKIIQFSIKNKFVILLLTLVLIAWGSYSIKQLPLDALPDVTNNQVQIITTAPTLASQE
+VEQLITYPLEQAVKTVPDIIELRSISRFGLSVVTVVFEDDVNIYWAREQIFQRLKQAEEN
+IPAYAGSPELAPISTGLGEIYQYDVYAKKGYEDKYDAIKLRTIQDWIIIPQLQGIKGVAD
+VSTWGGKLKQYEIAVNPNTLNSLGVTITEIFDALEKNNQNTGGAYIEKDQFAYFIRGVGM
+AKGTKDLGNVVVKNRNGSPVLVRDVAEVREGVALRYGASTKDGKGEIVSGMVLMLKGENS
+SAVVNRIHERMIQINKSLPEGVVAEAFIDRGKLVDSAIGTVSKNLLEGALIVIFVLILFL
+GNLRAGLIVASVIPLAMLFAVILMNAFGVSGNLMSLGAIDFGIIVDGAVIIVEATMHHLQ
+QLKRKKALTQNEMDAEVYNSASKIRNSAAFGEIIILIVYLPILALVGTEGKMFKPMAMTV
+GFAVAGAFILSLTYVPMMSAMFLSKSTEHKENFSDRMMAWLEAVYTPFLKKALQFKKVVL
+GVSLGLFALGLVVFNSMGGEFIPTIEEGDLAINATIMTGSSLTQMVETTTKYEQILKAKF
+PEIKTIVTKIGSGEIPTDPMPIESGDLIIVLKDKKEWKGKYDNWEDLANAMKKEMEVIPG
+ANIEISQPIQMRFNELMTGSRSDIAIKIFGDDLEILDAKATELISKIKSIEGIGDLKADK
+VTGLPQITVKYDYNKIALYGLNISDINQIIRSSFAGESAGKIYDESKRFDVVVRMNENNR
+ADITDVSNLFIPLPNGQQVPLSQVATVEYEQGPVQVIRENGKRRITVGLNVRGRDIKSVV
+EEIQQRLEKDYKLPAGYYVTYGGQFENLIEATKRLSVALPIALGLILVLLYFTFKSFKQA
+GLIFTAIPLSAIGGVFALWMRGMPFSISAGIGFIALFGIAVLNGIVLISYFNQLKKEGVF
+DPLQRVLIGTKTRLRPVLMTAAVASLGFLPMALSTSGGAEVQKPLATVVIGGLVSATLLT
+LIVLPILYLLLEKKFNDKKDN
+>tr|A0A1S1J757|A0A1S1J757_9FLAO
+MQHNVLILDFGSQYTQLIARRVRELNIFCEIFPYNHFPSDLSPYKAVILGGSPFSVRAED
+APHPDLSQIRGKLPMLAVCYGAQYLAHFSGGEVAASNTREYGRANLSYIKENEVFFNGVS
+ENSQVWMSHSDSIKALPTNAVKLASTHDVEFAAYKIEGETTYAIQYHPEVFHSTDGSKML
+KNFLVDIADVPQNFTPGAFVEEMVAELKEKLGNDKVVLGLSGGVDSTVAAVLLNKAIGQN
+LYCVFVNNGLLRKNEFENVLNQYKGMGLNVKGVDAGDRFLSELAGISDPETKRKTIGRVF
+IEVFDDESHLIEDVKWLAQGTIYPDVIESVSVKGPSATIKSHHNVGGLPDYMKLKIVEPL
+RMLFKDEVRRVGATLGIDPELLGRHPFPGPGLSIRILGDITPEKVQILQDVDAVFIDGLK
+SWGLYDKVWQAGAILLPVNSVGVMGDERTYEKVVALRAVESTDGMTADWVHLPYDFLMKV
+SNDIINKVKGVNRVVYDISSKPPATIEWE
+>tr|A0A1S1IZE8|A0A1S1IZE8_9FLAO
+MPCADMEINSAAHKTAQFSSEANHTHDKDNDLCSPFCACNCCGAQVLSYQTFLSFDFPVA
+HSIISIPLPNYNSVFASSFYGSVWQPPQIA
+>tr|A0A1S1J011|A0A1S1J011_9FLAO
+MTTIEQKSISNYWVTKVKNNPVINSIKAENGNSKKIQVDTNNLSFFKKLTSENAIAELTV
+LITVYTALLQRYFEVESFIFMSKPTDAETALLFKSISASGQSFKDYLGEVKKELQEVYKH
+SDYDDTLQEKYPFVEYALFGFFYNSKSAYTKNNFPFSLSVNKNDTELELSLSYDVSFVED
+HVAAHFLSIYANWLLQLEHFMNDSVDQIPVVTPLEKEELLNSFNPSVKKYPTKTLVELFE
+EQAAKTPIHTAVIFKEKELTYNELNQHANQLAHYLRQEYHIQPNDLVGIKLERNEFIAVV
+VLGILKSGAAYVPVDVNYPEERIKYIEEDSQCKVVIDENEFRNFLSRKDNYKTDNPERLN
+QSTDLAYIIYTSGTTGNPKGVMITHHNAVVLLYWSQEEFNAAAFDVAYAATSYCFDLSVY
+ELFYPLSIGKKIRILDNALEIGEALQYDKKVLINTVPSSIRNIIESGYRLENAAIINLAG
+EPFPVDIAKKLLQTNAEIRNLYGPSEDTTYSTVYRLSAQKEYTASVSIGKPLANTQVYLL
+DKNLELVPLGVAGKLYISGDGLSKGYLNRPELTAEKFIPNPFKEKSLMYDTGDMAKWLPD
+GTIDFLGRKDFQVKLRGYRIELGEIENAVLSFSENITQAVALVLSKNEVQNLVVYFTKTK
+VTDHEILKNYLKEKLPVFMIPHYLIGVDKIPLTPNGKIDRKVLENLPLNQVSNANYVAPK
+SETEKTLTTIWQEILGIEKVGIEDSFFDLGGHSLMIGQVINLIYKQLEGSISYKEFFLTP
+TIAQISQKIQKGGYKVIPKAKAQEYYPLTSSQHKIWVLSQLEGGNSAYNMHGALKFKGDL
+EVSKLENAFRLLIAKYEILRTYFKAGYDGEISQYILEEGEWNFALSHENYLNKSTEEISQ
+YLKEQQAAIFDLTKAPLLKAALLKTEENEHILSLVVQHTISDGWSLELMFAEIVAAYNNL
+VQEKPVDFSPAAIQFKDYAAWMQIQENEEAVLDSENYWLSLFKEDIPVLELPSYRSRPVR
+QTYNGNTLSYQFSEAFLSKLKYFSKTNNVTPFMTLMAGINALLYRYTNQNTIVLGTPIAG
+REHPDLENQLGLFLNTLAIKTEINGTNSFSTLLELQRKILIEAYEHQNYSFSTLVNKLNL
+KRDASRSALFDVLVVLQNQAQLNTLSTHVPMLGVEIEPYEVKRNTAQFDLSFIFTEQEER
+LLLSLEYNTDLYDAFWIKAIFKHFENLLTTVFNDVNVTIDAIEYLEVIEKELLLKTFNAT
+EIYFPKEATIVDLLESQAAKTPNDCALIFNDVQLTYKELHEQSNQLGEYLRENYAIRPND
+LVGVRLKRDERLLLTILGVLKSGAAYVPMDVNYPEDRIKYIVEDSNCKVVIDENEWSKFQ
+VKKHHYSTENLLKINRAEDLAYVIYTSGTTGKPKGVLITNKNVTALLYWAKKEFNTERFD
+LVYAVTSHCFDLSAYEMFFTLSVGKTIKLLSNALEISKELKTDKRVLLNTVPSSIRSLME
+EDFSSLENASIINLAGEPFPVDIARELLRTTAEIRNLYGPSEDTTYSTYYQLEKGKTYKT
+IPVGKPISNTQAYVLDKNLQLTPLGIVGKLYLAGEGVALGYLNKEELTAAKFIKNPFIEG
+SILYDTGDMVKWFPDGNIEFLGRKDHQVKLRGYRIELDEIENALLQFSAEVKQVVVAVKP
+FKGADTLVAYYTVGNAISKDDLKAYLQSKLPVYMVPQYYVEVPFIPLSPNGKTDKEALPN
+IDETNETNNGYVEPKGRIEKIVALIWKDILAVETISATDDFFNLGGHSLKLGQLINKINE
+QLQVTVPFEKLFEHSVLRDQAELIKRSFSKNFEPLAAVSAAASYEMSYAQKSLWMVSQFK
+GNEVAYNIPAVYHFHGTLDIIAFKEAFYRVIKKHEILRTVFKEDDEKSIRQFITPSEEFK
+LSIGCEDFSDFNDKELLLQQEIKQISNFEFDLFKGPLFKAKLVRIDSQHHVLLFVIHHII
+SDAWSLQLLIEEISSNYNSILKKEAVLPSSKLDIQYKEYSHWLKTQIETNAITNAYWMKE
+LQGHLKPLQYKYEYMLPDDIEDQDNKINFFLNAEVNSSIKKIAKKLNVTEFSFHLAAFFS
+FLHLQTEQSDIVLGVPFAGRAHAHLEDQLGYYVNLLPIRVKLHQNENFETIIRRVQHKLS
+KAFEHQMYPIDLILRDLEFERGDRGTNFINTGFTWNELTHDEFTINENLKAKAQSVATEQ
+VKYDLWVISNGSNFTLEYRKEVFSKDTIDLFAERYLVFLEELSKGIEHEIGAYSFKTERE
+KQLEASRINIEINF
+>tr|A0A1S1J5I8|A0A1S1J5I8_9FLAO
+MLIFDKEGLMLLAKRLKELRSEKKMSQEELADKSEITLSQIARIETAIINPTVSTIFKIA
+RGLDVSPKELFDFELTKTLK
+>tr|A0A1S1J5Y3|A0A1S1J5Y3_9FLAO
+MEETSVFEKFELQLDQTAKDFLKETAKWAYFLSILGFVGIGLMVLIAVFAGTIFSAMGNS
+MAGMGGLGGSFGALMGFFYVFIAAVYFFPVYYLYKFAVNTKRAFRENDSELLTSSLGYLK
+SHYKFIGIFMLAILALYGLIFVFGILGALLGR
+>tr|A0A1S1J8C2|A0A1S1J8C2_9FLAO
+MGDISISMKTGLLTHNLRNLLDGKADLGTAMKLGVMTSSLQQFLDGKANISMASKLGLMT
+SDLQTLLNSMGKKGAIGLILGILLNNNLE
+>tr|A0A1S1J9Q5|A0A1S1J9Q5_9FLAO
+MIKSNIDKATGFEKRFENIDTVVFENSTEASKAVAQQIAALIQSKQKNNESCVLGLATGS
+SPKGLYAELVRLHKEEGLSFKNVITFNLDEYYPMEPDSVNSYVRFMKELLLDQIDILPEN
+YHIPDGQLSKEEIADYCHQYEAKIEALGGIDLQILGIGGNGHIGFNESGSLQNSKTRLVA
+LDHITRVAASGDFSGLSNTPRTAITLGVKKIMEAKQVILMAWGEGKSNIIKKSVEGEVTN
+QIPASFLQEHNQIVFVLDKEASSKLTRINRPWLVEKIIWTDKLIRKAVLGLALDLKKPIL
+MLTDADYIENGMSDLLADSGPAYDINIRIFNKLQNTITGWPGGKPNADDTNRPERAEPVR
+KKVLLFSPHPDDDIISMGGTFMRLQEQGHEVHVAYQTSGNIAVADDEALRFAKFACDYND
+KFKIQSIEAETICKKAEHFLKNKKASEIDIPEVRYLKGLIRKGEARATSQFVGLPEEQIH
+FMELPFYETGAIEKKPLGSEDIQLTMDLIEKIKPHQIYAAGDLADPHGTHKVCLDAIFEA
+VKTLKPKPFMNDCWVWLYRGAWQEWGIDEVEMAVPMSPDQVLAKRHGIFKHQSQKDGVVF
+QGTDAREFWQRAEDRNSETAQLYNQLGLSRYAAMEAFVRWEF
+>tr|A0A1S1J9T4|A0A1S1J9T4_9FLAO
+MEKRKIEIMDTTLRDGEQTSGVSFSAAEKLTIAQLLLEELNIDRIEIASARVSEGEFQAV
+KGITTWATEKEYINRIEVLAFVDGGVSIEWMKKAGARVQNLLTKGSLNHLTHQLKKTPEQ
+HFSEIAHIVSLARANDIETNVYLEDWSNGMRNSPDYVFQFLDFLSTQPVKRILLPDTLGV
+LIPSLTFEFISKIRARYPKIHFDFHAHNDYDLSVANVMEAIKAGINGLHVTVNGMGERAG
+NAPLESTVAVINDYLPEVSINIKETSLYTVSKLVETFTGYRIPANKPIVGDNVFTQTAGI
+HADGDNKNNLYFNDLLPERFGRKRKYALGKTSGKANIEKNLQELGLKLNQEDLKLVTQRI
+IELGDKKETVTKEDLPYIISDVLDSHTYEERIKIESYILVHSKGMRPSTTLCLKFGDEII
+EENAQGDGQFDAFMNALSKIYKNKKLTLPKLIDYAVRIPPGSSSDALCETIITWVNNGKE
+FKTRGLDSDQTVAAIIATQKMLNIVT
+>tr|A0A1S1JGG3|A0A1S1JGG3_9FLAO
+MRIKTKLNLGVGLLFLMIIILSLVSGYAVFLIKADTENILKANYNTLEYSRNMILSLDEI
+KVNSDSTIHTFKEYLKKQTRNVTEPGEKEATAKLENDFALLEKNGSNETVKAQIRQDIFS
+IMKLNLDAIKQKSDIAKHTAENANLWIAIVGTLCFLIAFNLLINLPNNIANPIKELTQSI
+KEIANKNYSERVHFTNHNEYGDLAKSFNTMAQKLQEYNNSSLYKLFFEKKRLETLINNMH
+DPIIGLDHEGVILFVNDEALKIIGMKLEDVIGQSASALAVSNDLIRSLILKEPANDSQKK
+QPMKIFAHGKESYFDKETINITITPTGEEKEINIGDVIILRNITLFKELDFAKTNFIATV
+SHELKTPIASIKLSLQLLQNNKTGEMNDDQKQLVESIKEDSQRLLKITGELLNLSQLETG
+NIQLNIEKSNPYAIVNYATEAVKIQAEQKQIKLVVEANEHLQNVKADSEKTGWVLINYLS
+NAITYSSEKSTIIIRLKEENDQITFQVIDTGKGIDARYKDKVFDKYFQIPGSQKSGTGLG
+LAISKEFIEAQNGTIGVESNLGLGSTFWFSLKV
+>tr|A0A1S1J2Z8|A0A1S1J2Z8_9FLAO
+MIDKIKTLINCVLLITLFSSCNNGILQDSEIKEAKVIIVKSGDKNLYASLCIYYYEKGEY
+ESTLPYSLVMAYKYNDRDAYYNIYRTMIQINNGGEFNYETIKKLDKTSKEFALQNLIKSA
+NLGCNSAKNELEKYHLEGTLKK
+>tr|A0A1S1IZD1|A0A1S1IZD1_9FLAO
+MKNHLKTFWPAALLLFFSSAAPAQNNEKAGLELGTVPPYAMQVTYDKTSHLIFPSAIRYV
+DLGSDCLIASKAQDAENVLRIKASVKDFEQETNFSVITDEGRFYSFNVQYSSVPAALSYD
+LQTMQNSADKAISRGVLFEELGKTPPSLASLILETIYKNNKRRVKHIGSESFGVQFSLKG
+IYIHNGLYYFHTQLANQTNVPFSIDFMTFKVVDKKTARRTASQQITLVPLRIYKTLDEIS
+GNAADQNVFLLDQFTIADDKQLLIEIFEKNGGRHQTLELENSDLVKAGLISDMHLKF
+>tr|A0A1S1J3Y6|A0A1S1J3Y6_9FLAO
+MFTKENSEIKKILSFLTEIGIDVIEKELNDTFLPGLDLGPNCVVIDYDKLLYPGDILHEA
+GHLAVTSPSDRKLVGTEKITSNWPTEAEEMAAILWSFAACLYLKLPIELVFHPDGYKNDS
+EWLISNFTSGNFIGLPFLEWIGLTLGSDSATKEGKPAFPTMLKWMRE
+>tr|A0A1S1J6A9|A0A1S1J6A9_9FLAO
+MISIPHKAKQFLVLLIKLLIVGGAFYFIYDQLAHNDQLDWQKFIVLFRKNQSVLGIGFIL
+LLSVLNRYFEILKWQNLAKVIHEISLGEATKQVLAALTAGIFTPNGVGEYAGKALYYPKS
+EAKKVIFLNLICNGIQMILTVIFGIFGLLYFNAKYEIITTQTVAVLFGGFVLLFVVLFSL
+KKIKIKGYSIEKLIHKINEIPKSVHRKNIVLGILRYLVFSHQYYFLFLAFDVDLPYFTLI
+ATIAVVYFLASSLPTFQFLDFAVKGSVAIYFFGILGVNEWIVVFISTLMWFLNVVLPVVI
+GAYYVLNFKTKTAE
+>tr|A0A1S1J0I7|A0A1S1J0I7_9FLAO
+MKNYYLLIIIIVGNIWNNNAQEKNVPLSEFPMSNLTSPAFQLLEETVTDIYTPENVKALA
+LHVQNNFGESMAIEVTPYFFINTKSKKRTYDRYIGVTKDKATGNLKQNPFSGLNTTTLSF
+AYLKKDFETIAGDNKRQTFSIGLRTTLLRFFDKEKIQEKKQNIQSVLTDKALVVPDEILQ
+IVDEAEQKKAIEEFYEKQKIRDRLKAYEKIIKPIFKLDVAAAYSDLFKDNSINGGTINRF
+GSWLTGEFNLILNEDNEESSTNNYANLLFIGRYIEDGFNMDSTNVYTTNYYRDFGSKLSF
+EFGKFTLGYEYIKRNGTVKSERSVGNISFRINKNISITGAFGKDFQKEDNLLALFGVNWG
+LNFGNSSPSLE
+>tr|A0A1S1J794|A0A1S1J794_9FLAO
+MLEEKNDNLQEADGKLEIDINDSTENNAIETADTDAVPENTISNDEIESESTVEATEANH
+QTALDAITNSNAEESEDETLKERHEIPMQDYDTFSLDALVDELKKLINTDKVMSVKDHIE
+EIKKSFLLQYNHFIEEKKEEFNASKQDPNEEFEYHSPLKSKFDEYYNVFREKRNAHFKHL
+QTNLKSNLDNRLAIVEELKELINPQENIKDTLKHFNDLRERWKNAGAIPKDKYNHVWNNY
+HFHVENFYDYLHLDREARDLDFKHNLEQKQKIVARVEELVDETDISKAFRELQDLHRIWK
+EDIGPVSKEHRDTIWNRFSELTKKIHDKREVLFENQRANEQNNLEIKKEIIAKIEVLGTE
+KVNSHSQWLVQIQKVEALRNEFFAAGKVPSEVNEETWAAFKTAVRNFNAFKNSFYKDIKK
+DQNDNLNKKMALVAKAKELQESTDFTATTPIMKQIQEEWKQIGHVPKKYSDKIWKEFKDA
+CNHYFDKLKEHKSEENVDEVAAFDNKKAYLDILRAYQLTGDHKTDLDAIKAHIEIWKGYG
+KVPFARRHIEGKFNKILDALFEKLSLSKKETEMMRFSNRIDSLSDSNDTRKLDNEKIFLM
+RKIEEVQNEIFQLENNIQFFANTKNAKKENSIVLEVRKNIAIHKESLEVWKEKLKQLRNL
+NQE
+>tr|A0A1S1JA18|A0A1S1JA18_9FLAO
+MKYKISLFLLFVFVLNSCQNEDEKRRAENEKEAKKNEVIFNKINKSWSFIDEPINEISEQ
+KVNSWSEWRDFLNELRDKPRKTIGAFQKKSTAISKKVMALNNNIPAEFNIPQIRSRISIL
+ITKVRMMDLFIHLNQIPSEKVTFLIGEINKELVSLERQMDVVIVKSKIPKEEGEEDFLRM
+LDTARAIPNETTAPIPGKNIDPNTPKVE
+>tr|A0A1S1JBP8|A0A1S1JBP8_9FLAO
+MKKTILLLCLFWFTPSFSQDSISIGSKHHLFSKALNEERNFWVYLPPDYNSTKYAPAKYP
+VVYLLDAESNFHSFTGLQQSLARGPYASIPQMIVVGITNTNRTRDLTPTEANRQAFFDKK
+KKMFQQSGGNKNFIAFLEKELRPYIDSNYRTSGYNVLNGHSFGGLTAVNILLNHTSLFNS
+YIIIDPSLWWDNELMNKKADSLFNTKNFEQRSIYLAMADKKSIPQDTTTDMARGIRKFEK
+LLKDKKPKNLRWGFKFYDNEDHGTIPIPAEYDGLRFLFEEHLVQVKQAVIDPTLVEKQYA
+KLSQQTGFTFLPTESYLDWIGNYCLDIDKPQQALIFFKYAEKYYPKSKNIPLALEKAYIK
+NGDTKRADDIRKKIQN
+>tr|A0A1S1IXS7|A0A1S1IXS7_9FLAO
+MKNYILLCLTIICSFSAGSYAQQSKINTADKNYDNYAYIDAIKTYERVADKGYKSEDLFK
+KLGNSYYFNSNFEAAAKWYGELFAMNTVVEPEYYYRYAQCLKSSGQTDKANKIMTEFLAK
+SKNDDRAKLYAEDVNYLDKIKANSGRYKIEDAGINSKYSDYSSYVYNGKIYFASARDTGN
+FSQRKHKWTGEYFTNLYFADIDPPANSTVKVNKFKTSLNTKFHESSPAFTKDGQTVYFTR
+NNYINGKKGKDDNKITLIKIYRATLENGKWTNITELPFDSDNYSTAHPALSPDEKTLYFA
+SDMPGTVGQSDIYKVSINGNGSYGTPMNLGKVINTQGKETFPFVTSDNEIYFASDGHPGL
+GGLDVFVGQIEDNGTISNIQNLGADVNSPKDDFAYIIDPASRRGYFSSNKDGGQGSDDIY
+KFLETRKLQCIQELNGIITDSETLAVLPNTKLTLYDNLGNIKNTTISDATGFYSFPVECG
+KTYNVRAEKEEYTTKEINITIGKLTGKTSLPIALDKSACKVTIGDDLGKCFGIKMIYFDL
+DKSNIRTEAALDLEKILDVLNSHPTMKLDIRSHTDSRATHRYNEALSDRRAKSTIAWLVK
+NGIAKNRLTGKGYGETQLVNGCSDGVPCTEEQHQMNRRSEFIITAL
+>tr|A0A1S1J1U7|A0A1S1J1U7_9FLAO
+MTPLNRKLLILTVILAAIMELIDISIVNVALSHMSGNLGATLEDTSWVITAYAIANVIII
+PITSFLSANLGRRNYYIGSVVLFTFCSFMCGHSSNIWMLVFFRFFQGIGGGALLSISQVV
+VFELFPKDKQSTAGAIFGAGIFIGPTIGPTLGGYITENYDWPWIFLINVPIGILVMISCY
+FLLQEPLVKPEITKVDWTGITLLAIGVGTLQTVLERGEVEDWFETCYIVVLTFIAVTTLL
+LFIYWELTIEKPVVNLRVLKSKSLSIAAVLTFVTGFGMFISIYISPVVAQRLLSFSPYQT
+GLLLLPGALFALLALKMCGTLLQKGVSPVLIIAAGFLLFIYFNWRMSGMTLNTSAAEVAT
+SLIFRALGMALLTVPLTMLAVSSLEDKDVGQGAALNNMMRQLGGSFGVSIINTYVAHRFA
+AHRNELISTVTPDNTIAMDRINAYIRYFQSKGFAYNEAKFKALRLMENVILRQSSLLSYR
+DAFFLVGLFFLVTLPLLLFVLNKPKKRKTDLMLSDH
+>tr|A0A1S1J0B0|A0A1S1J0B0_9FLAO
+MIPRTILKSRFDKSTVVGRDTKFILVFNTAKNQEILPGYYYWYENKWNNLKNLTEENGLP
+KDNGKAGDLFFDYSTKDVYYYNGSMWLSMTTSDETFYEAVFENKSGVLKYKNSVGEKVVI
+NLPQLVPNFNYPKTVSLNAGKETLNFIDNSGRLTVLKLDILLAKSQNTNLTSTF
+>tr|A0A1S1J2L2|A0A1S1J2L2_9FLAO
+MNTSLLNLQPEILENDLVQLLPLQENDFEKLYKVASDPLIWEQHPNKNRYEKEVFQNFFE
+GAMESKGAFLIIDKSTGEIAGSTRFYEYDPENKTVFIGYTFYGRKFWGTGFNTQVKKMML
+DYAFRAVDKVQFHIGAENYRSQKAIEKLGAIKVEEINVAYYNEPSRHNFVYELKK
+>tr|A0A1S1J6U4|A0A1S1J6U4_9FLAO
+MRKIQIQILLFFLSGITLSFAQQPQKPSSVEIYNQIKKLNFLGSVLYIAAHPDDENTRLI
+SYMANEVNARTGYLSLTRGDGGQNLIGPQLRELLGVIRTQELIEARKIDGGEQFFSRAND
+FGYSKTPDETLEIWNKDKVLADMIWTIRKFQPDVIINRFDHRSPGTTHGHHTSSAMLSVE
+SFKLTNDPKIYPEQLKYVKPWQVKRQFFNTSWWFYGSQENFKAANKSNFIQLETGVYYPG
+IGKSNQEIAALSRSRHQSQGFGSTGSRGDETEFLELINGDRPIDKTNLFEGIDTSWNRVK
+NGKPVGDLISSIIAKYDFSNPSASIPDLVKAYTMIEALEDDHWKSVKSIAIKNIIASCTG
+LYLEAAAIEQEATPGSTIKVTLEAINRSSIEMQLNSVTSLPDQKSTPQNIVLKNNNDQKI
+SYQIQLPTTLEYTQPYWLKEKATEGMYTVSNQENIGIPDIIRQVKVVFNVRINGVEIPFE
+RTVIYKYNDGVKGEMYNFLDIVPEVTTSVLEKVLIFGSTKSKLVPVKVRAGKDGIKGNLQ
+LELPKSWSVSPKEIPFTLEKKGNEQIFYFEVTPPVNPEEAVAKSIAVVDGKRFDKDQTII
+DYSHITKQMVLKPAESKCIRIELKTNGDSIAYIMGAGDEVPESLAQMGYKVSIIKPEEIT
+PEKLDSFNIVMTGVRAYNTINALAHKQNILFNFVKSGKNMIVQYNTYGQTVTDQIAPYPL
+KISNDRVTEENAKITFLAPNHPILNTPNKISAKDFEGWKQEQGLYYPDQYDPAFTPILSS
+HDKGESAKNGALLVAPYGKGYYIYTGLSFFRELPEGVAGAYRLLSNMISLKQPIEAPKQE
+LKK
+>tr|A0A1S1J6W4|A0A1S1J6W4_9FLAO
+MIKWITKLFSSTQKEENTDYMKKYLIVGLGNIGAEYVNTRHNIGFKVLDFLAKKESLSFK
+TVKLGALAEYKFKGRTFFLLKPNTYMNLSGKAVKYWMDKENIPLENILVITDDLNLSFGT
+IRIKPKGSDGGHNGLKNINLVLNTQQYTRFRFGISDQFKKGQQVDYVLGDWDEEEKVKLP
+ERLEVASEIIKSFGTAGLENTMTTFNGK
+>tr|A0A1S1J659|A0A1S1J659_9FLAO
+MIKKISFSILLILSGKLFAQQPAEIKLTAEKLHSRVREWPYPVNGITVPTNAPALLWPGT
+NGKNRITPMESGSDIPEDPNIGNVRYKVMLASDKNFTKNPFTSAEQRWAVYPLHQALKAG
+KWYWKYGYALKGSNQWTWSPVYDFVIDAKYAAQKVAPPINEVLKRNEGAHPLLWDMNRIG
+EAFYRNNLDNPEAKKFIAFAEKLMLAPLPTEKPQRVIDTTGKNPLEKKIIIERMYHGFGD
+AVGNPVRNLCIAYQLTKDKRFILDAKRRALNLANMNPDGLATGDDFTSGAVLEALGWFYD
+SGYDFLTPQEKETLKNIITIRAKRVYDHLPNRFELHVSDNHVWQITLRNLAIATVAVIND
+VPEAKEWLTYMYEVWSARFPVLGTTDGGWHEGNGYFRVNFKSIIYLSQMFGDFSGVDYFK
+LPWMQNLPYYMLYTHPNGAASTAIGDMWENIPYIVKGEAWFADALTYRMNDPYLNWYVAE
+IKRDYPSYYHGTDDFLFFRLLNYKPNRNLPATSPEKLPKTRKFADVGVVAMHEDLTKANT
+TLSSYLFSSPFGSSGHGHASQNAFTINYKGKVLFGGTGYYSNFSDKHNLLDYRSSKAYNT
+ILADSLNQKIGEEGYGWIPRAISGQRIQYALGDASNAYGDIKSDFWLNRFKQINVVPNKT
+NGYGESGVTLYRRHMLQLEGGYIVLYDELEAKTPVKWTTQFHCPYYVIEGQNSANAKQQN
+FTVQTDLGNINASVFASSSLKMAVHHQFYEAAVNWNKVTNDEGQIKEFKDQWHAGITSEP
+KQKFRYLTIIQIKDGKTEVIKTGSDNGGLSHFQVGDWDIQVQLDGEKPAALQVTGKRIKS
+LFNYGSLPITFEGKTFSPKIAGSSVLLEMNGTELNKQEAVDELPDVAKYDKN
+>tr|A0A1S1J862|A0A1S1J862_9FLAO
+MPSIFTKIVNGEIPAYKIAEDDNYLAFLDVNPNAKGHTLCIPKQEIDKIFDMEEELYLGL
+MRFSKKIAAALEKTVPCKRVGVAVVGLEVPHAHVHLIPLNEMDEMRFQNKVSLSKEEFEV
+LAKDIQANL
+>tr|A0A1S1J4X3|A0A1S1J4X3_9FLAO
+MEFKEAKNKFVQTWGALGSQWGINKTMAQIHALLMVSNEAVSMEDIMEELQISRGNASMN
+LRALMDWGIVYKEFKAGERREFFTAEKDLDELAVKIARERSKREIKPALKILKEVSTIGA
+NDTAEEKHFVDQTSKLYDFVLKADNMMDKMTEFNENWLGRLVLKIMK
+>tr|A0A1S1J7X8|A0A1S1J7X8_9FLAO
+MAKTTKKETLDKKNESKTEKIKYGNLSKQQKFVLGCLLILFSVALLVAFISFYVNGQWQS
+DQSAVSQLGDRTEIVENWLGKFGAFLADLIVYRGFGIASFIFVRLFFLTGMFLALELSTK
+KLKNTWFWDLFALIIVSVLFGFFATSAPELGGTIGYELNLFLQDYIGKTGTLLTLLFGLI
+VYLIFKIKLSPEKIQSYFDSTKKEFNSELASIKKPQEAESAYNLEEFAIEEEDPELDNIH
+LKSNISQFEINKEALKPTISNASEIDLNPILKPVQMDINPVTVKTPVHTEEFVIEKAEEE
+DIIEENLASRLVADFGLFDPTLDLSNYKFPTLDILKEYSTGGITINQEELEENKNKIVDT
+LRNYKIEIAQIKATVGPSVTLYEIVPEAGIRISKIKSLEDDIALSLSALGIRIIAPIPGK
+GTIGIEVPNKNPTMVSMKSVIGSAKFQEAEMELPIALGKTISNETFVVDLAKMPHLLMAG
+ATGQGKSVGLNAVLTSLLYKKHPAEVKFVLVDPKKVELTLFNKIERHYLAKLPDTEDAII
+TDNAKVVNTLNSLCVEMDNRYSLLKDAMVRNIKEYNEKFRARKLNPEAGHRFLPYIVLVV
+DEFADLIMTAGKEVEVPIARLAQLARAIGIHLIIATQRPSVNVITGLIKANFPARIAFRV
+TSKIDSRTILDTQGADQLIGRGDLLYTNGNDVIRVQCAFIDTPEVEKITDFIGSQKAYAT
+AYLLPEFVGEENGINLDVDISERDTLFREAAEIIVNAQQGSASLLQRKLKLGYNRAGRLI
+DQLEAAGIVGPFEGSKARTVNITDLSALDQFFNNEQN
+>tr|A0A1S1J4Y0|A0A1S1J4Y0_9FLAO
+MGIKKGIRFITLKSVGSYINFLSYVRPQKAMELSYALFSQPRIGRLKKEALPKVLRNTET
+ETFHHNEHHFQTYIWKGNETKILLVHGWESNASRWKKTLPHLQKSGSTIIAIDAPAHGQS
+SGKEFNVPLYAEFINKAVEKYQPAIIIGHSIGGAACVYHQYLFPNTSINKMVILGAPSDL
+KTLIDNYISMLSLNTKMFSLLESKFMNRFNFKLEDFSGQRFASEFNVSGLIAHDTSDKIV
+AFEEGKKIASNWKNSQFIETKGLGHGMHDDELYQKVIDFLFSAK
+>tr|A0A1S1J7M3|A0A1S1J7M3_9FLAO
+MSIKILHIDSNHPVLWQQLEDVGFENYADFKSSKEEIEAKIANYNGIVIRSRFKIDKTFL
+DQATNLKFIARVGAGLESIDCEYAETKGIHLIAAPEGNRNAVAEHSLGVILSLFNNLNQA
+DAEVKSGHWNRESNRGHELDGKTVGIIGYGNMGKAFAKKLRGFETEVLCYDILDNVGDQN
+AKQVSLAELQQKSDVLSLHLPWTPETDKMVDQSFINAFSKPFWIINTSRGKNIVTADLVE
+AMKTKKILGAGLDVLEYEKLSFETLFQEESTPEALRYLMESKNVLLTPHIAGWTFESHER
+LAQVIADKIKAVFNS
+>tr|A0A1S1J8M3|A0A1S1J8M3_9FLAO
+MLDIKDFSIFENHSNFDFKGFLLKIASYWKLFAVSLIIAFAIAYQVNVRKEKIYGMQTMV
+SIKEERNPFFTSNTSLVFNWGGVSDQVNGISTVIQSRSHNELVVDKLEFYIDYLVQGKYN
+LIDSYGAVPFYVKINKTKGQLANTLIGIKFLSPTEYEIRIPFEGNSASLITYSNNSYSNT
+TVQPKEYVRRCKAGEQVTLPFLNWNLQINDNPGFYTGNEYFVRFNDFDGTVSRYRGVSVN
+ADEKGGSILTLGMQGTNKARMVDYLNATVKMLIKIQLDGKNQFATNTIRFIDSTLIAMEM
+QLKQTGNELKTFRKDKNIYEIEAGGAKVSDKIMDFDVEKDQVTRKIAYYNSLKSYLNNST
+DYSRLPAPTVAGIEDPNVILHVSKLIALSAQRSEMAYAVKSDKMFKDFDNQMQAVKSVLL
+ENITSAKALLLTDLAMVNAKIGQAESTVKKLPEEQQELLKIQRKYDLSDNIYTEFLKKRN
+EAEIVKASNLSDIHFIDPAKDIGGGLIGPKTSVNYVLALFMGILIPLLFVFGIFFVNNSI
+QNTEDISKLTQIPLIGIIGVNKDSLSLAVFDKPKSALSEAFRAIRSSLQFLYKKQQVSGS
+KTLMITSSISGEGKTFCSINIATVFALSEKKTVILGLDLRKPRLADEFNLKNQTGVVNYL
+IKQNSLEEITHRTEVPNLDVILSGPIPPNPSELILSDAMREMILELKQKYDYIILDTPPV
+GLVSDALELAQFADVTLYIVRQNYTKKDMITLLNTRVKRGELNNASIVLNGYENKAKYGA
+AYGYGYGAYANGYHDEEEKLSVWKAILSKFSKK
+>tr|A0A1S1JAR1|A0A1S1JAR1_9FLAO
+MKKLVTPLLLLCFVLASAQTQKTVSSDWTSFNQTIEIQSPVKKKFKVIASVKVESTEPQA
+WAGVWARVDTKNEEEGFFDNMRDRPIKSNEWKSYTVEGTIDKNSKSLSFGGLCLYNGKFY
+FDKFELLIENDKGVFEPLAVLNSSFETPLKNGEIPKWGLGISKEASVKVKEYKITQDKSS
+ADGKNSLLLEGSGIKPRAEAKIGNVEGASPKIGDMISMLEDLKARVERTVKNMNQYEIDY
+LHDAEANRIGALVMHLAAAEKYYQVFTFENRDFNEEEKKQWNAALNLDQGGRDEFKGHDI
+QYYLDIYNEVRAKTISELKKRDDAWFAEVQTKYDMSNQYCWFHVMEHQSSHLGQILFLKK
+RIPPQQKPTLPKEIKK
+>tr|A0A1S1J064|A0A1S1J064_9FLAO
+MAIIVNLDVMMAKRKMSLNELSEKVDLTLSNLSILKTGKAKAIRFSTLEAICKVLDCQPG
+DILEFKE
+>tr|A0A1S1J2W6|A0A1S1J2W6_9FLAO
+MKKNLRTFLILFITVFSFIANGYSQESVVVSGGNATGNGGSSSYSVGQIAYTSLPGGANG
+FVLQGVQQAYEIISLGNDEFKGITLAMTAYPNPAVDVLSLTVATNEWNNLSCQLFDTNGK
+IVSKKVEVTSPDTSVPMQGLNSGIYFLTVSNSGKAIKTFKIIKK
+>tr|A0A1S1J406|A0A1S1J406_9FLAO
+MKKLMLSLFIAFGFSACSLNNEDMNVVCGESEDLAFTGIPLLCNYSVKSLPTNPVAFLAA
+SEERLNAYFTKKENTCPNATITPIDFNKEMIVGIFSGLKPTGGFKIKITSIVQNKCQILV
+NYYEKEPEVGETIAPGATYPSDFILIPKTTKTILFNKVADNRDNVVIGSFSGQCTGADCQ
+KFYQINDFNIQKFLNVKAGAYDFDQYRYTATTKKGDYTLFLKSVPAEILALKGKTKTYGS
+PDAADQGGVYFELRQGINVTKITIDNKDTADQSAEIKAFKKAIQDKITSLK
+>tr|A0A1S1J568|A0A1S1J568_9FLAO
+MNKLFSLVFLFLSTTFIFCQTNKTKPKEIAKPFVLGVIDEIQSKELGEKRILNIYLPEGY
+KAEEATKYPVIYLLDGSADEDFIHIAGLVQFNSFEWINQVPKSIVVGIATVDRRRDFTFP
+TTIEKDQKRFSTSGHSDKFIAFIEKELQPFIEKKYKANNSKTLMGQSLGGLLGTEILLTK
+PTLFNKYVIVSPSIWWNNGSILNLDSAIFQENFSPQTDIYIAVGKEGLTPTEIPRVMEVD
+ANLLTEKIKASKSKNIRVYFDYFPLENHGTILHPAASNSFRFFYPIKEKE
+>tr|A0A1S1J5G4|A0A1S1J5G4_9FLAO
+MIQLHDKQFVPFISAKEIDFALSKIVAQVEDDFGDDTPIFIGVLNGAFMVVADFLKRYKG
+LCEVSFIKMASYEGIESTNTVKELIGINQDLSGRTVILIEDIIDTGNTIEELKKLFKAQN
+VKHFKIATLFFKPEAYKKDIKIDYIGIRIPNKFIVGYGLDYDGLGRNLPEVYKLAE
+>tr|A0A1S1J6G4|A0A1S1J6G4_9FLAO
+MKNLKHIVLLSGVFFTFLSCSNDKETPSNPGTITNPVEGNPANTTYKPAFTGQTRSNGVQ
+TNTAFETKIITSALTSPWGVKSLPDGRLLVTQKAGTMRIVTTAGVVSAPITGIPAVNAGG
+QGGLLGLCLDPEFASNRMIYWVFSEATGGGNNTAVAKGKLSADEKTIEGATIIYRAKPAN
+ASTLHYGGRILFDKTGNLVVSTGERSVLETRPLSQSLTSGLGKVVRITKEGQPASGNPTF
+SQAGALPELYSYGHRNPQGLALHPVSGEIWLSEHGPRGGDEINRLKAGANYGWPTITYGI
+EYSGEKIGAGIQQQDGMEQPVYYWDPVVSPSGMTFYSGNRVPEWQNNLFIGALSGMHIVR
+LAIDNNKVVGEERLLVSENQRFRDITQGNDGALYAVTDAGRLYKIDKK
+>tr|A0A1S1J721|A0A1S1J721_9FLAO
+MAETHKKILFKYYSTYLEEIVSETMWAEILDSEKGLFKLDNIPFFGPLIATDDIFRAEYD
+ENEKCFIHKETIEHSGNSIVQVLILEKEFDKEIIREKLKAINCLSEALNDTFLAVEIAKN
+TDYSIVKNLLSEYEANAIIEFAEPCLSDKHRTDLLKN
+>tr|A0A1S1J6H4|A0A1S1J6H4_9FLAO
+MTTEELTSNVLLALDEIRPFLNSDGGDITLISIEDDKHVKVRLEGACISCSVNQMTLKAG
+VETTIKKYAPQIETVVNIM
+>tr|A0A1S1J817|A0A1S1J817_9FLAO
+MKKIIYTLALAVTLWSCKTGSSSSTAKNNVVDVNINLVDVKDDKVLVTVTPPQIKTDEVI
+YSIPKTVPGTYSTDNYGKFSGDFKAFDAKGNELTVKRIDDNSWSISDAKKLKKVTYWVGD
+TFDTEKGTGFGNDDVFSPAGTNINAGVNFLVNTHGFVGYFQDKLEIPYKVTVTHPETLWG
+ATSMTDEDASKTSDVFTTSRYAVLVENPIMYSKPDYTTFNVNGMDILIAVYSPTGKFTAE
+SITPEMKTMMTAQKNFLGKVNANKKYTVLLYLSSMAKDDAHGFGALEHPTATTVVLPESM
+PKEKLVESMKDVVSHEFFHIVTPLTIHSKEIQFFDYNAPKMSEHLWMYEGVTEYFANLFQ
+INQGLINEAEFYTRIADKIEQSKRLNDTMSFTVMSKNVLNQPYKDQYLNVYQKGALIGMC
+IDIIIREKSNGERGILDLMHKLSNEYGIEKPFNDNELFAKVTELTYPEVGEFLNKYVAGT
+TPIPYDFYLAKVGVTKASEKAPAPVFIKGQAPYIGVDKATKAINVRSNIDLNVFFTNLNL
+KGGDIILAVNDKAYNFDNIYDLIGESDNWKENDPITIKIKRAGVEQTIKGTVKVPFEEKE
+TFKATDASKEKLKNAWLKG
+>tr|A0A1S1J8R2|A0A1S1J8R2_9FLAO
+MSFQAYLKTIKEKTGNGPAEFRALAEQKAFTHEGKLKPEVKAGDIVNWLKADFELGQGHA
+MAIYALLKGIKDENSQ
+>tr|A0A1S1JC41|A0A1S1JC41_9FLAO
+MFFTQIWQIVQIFEIILCSYALTENINSAITEFTIKMQCDYTYIIPRTTFPIDVSVLLVT
+PTTLTVADHGKDIADMIAEGINSWMKTNNPQTNARTFAFMLTAYSITDSYLPILQTPFTV
+VLLEDITI
+>tr|A0A1S1JCK4|A0A1S1JCK4_9FLAO
+MEKNNSTKPDPYQALRYREFNVFLILRFAMVFAWAMQFIVIEWEVYSITKNPLSLGIIGL
+MEVIPAVSMALFAGHIVDQREKKGLLVKCILGFSVISFGLFLVTWPRIVGGLSSNVILYS
+IYILVFLGGLVRAFLGPTIFSLLSLIIPKKAYPNAATWSSTVWQIGAVLGPAVAGFSINW
+IGVHWSMCLVFGFSVLSLIALSQISKKPIINPKIGESIKDSLTEGLTFVFRNQIVLGALS
+LDMIAVLFGGAVALLPIFAQDILKVGSEGFGILRAAPAVGSFITMLVSAYVPLYKNAGKK
+LLIAIFVFGLSIILFGFSTYFWLSVFALFLSGLADGISVVIRQTILQLKTPDHMRGRVGA
+VNSIFVGSSNELGAFESGATAKLMGTVTSVIFGGSVTLLTVLGFGLISPTFRNLDLQKDM
+DDHHNME
+>tr|A0A1S1J449|A0A1S1J449_9FLAO
+MTHKTGFEIMVTPLFYFIKSKHSLFFSVGRQKRVIISFLQETKAKNHLSPRKIKITFAPV
+>tr|A0A1S1J6I4|A0A1S1J6I4_9FLAO
+MSTNTFNKETELRLADFFSNSIDPETMAKTIRQVNYALALSVMQEHESLQSEKTNLQNGF
+YWLNQLAEILNPYLDVND
+>tr|A0A1S1J7T8|A0A1S1J7T8_9FLAO
+MNKIYYLASCDTCRKIIKALPEGNNLVFHDIKQNPITATELEEMYQLSGSYEALFSKKAQ
+LYKSMDLKNKSLTEADFKKYILEHYTFLSRPVFIIDGKIYIGNSQQNILQVMKALEQ
+>tr|A0A1S1JBF4|A0A1S1JBF4_9FLAO
+MKINKIIKKGLFILSGIFGLFIAILLFHIITVKPPVYDTPNLQVSRIDFQSDIDSLQARQ
+ICADLRSIKGLTSDSIIVKRNVVVYFHNNKITNSQKVFNELMSKRHYDAKRYILPANLAN
+KEVCPMNQNSLSYKLSQKINRFFN
+>tr|A0A1S1JBU4|A0A1S1JBU4_9FLAO
+MIEIDIEKENKAIAQEYKELLRISYQTLSPTDKKLIRKAFDVAVDAHKEQRRKSGEAYIF
+HPIAVAKIVASEIGLGATSIAAALLHDVVEDTPLTVEDIERLFNPKVAQLVEGLTKISLV
+QRDLNASMQAENFRKMILTLNDDVRVILIKLADRLHNMQTMDSMAEYKQTKIASETLYIY
+APLAHRLGLYNIKTKLEDLGLKYTEPNVYNDIVSKIRETKEEQDAYIKDISDVLKKSLDS
+EGVDYVIKGRPKSIYSIRRKMRAQNVSFDEVYDKFALRIVYKSDQHDEKFVAWKIYSIVT
+DHYRPSPSRLRDWISSPKSTGYEALHITVMGPKGRWVEVQVRSERMDEIAEKGYAAHYKY
+KNGATEESGLDVWLNLLREALENQETNAVDFVEDFKMNLYSKEIFVFTPKGEIKSLPKGA
+TSLDFAFSIHSEIGIKTRGTRVNGRLVPLNHELKSGDQVEVITSANQKPTVNWLEYVTTS
+RAKTKIKNVLNENTKKIAEEGKELLTRKLKHLKITINEQVINELVNFFKLKTSLDLFYRV
+GIGAIENQQLKDYAAQKSNTFINFFKNKIKRNKDNTASEDIHKPIISSNYDMLVFGTEHD
+KLDYKLSPCCNPIPGDDVFGFVTINEGIKVHKKDCPNAIGMQSNYAYRIMSAKWIDSSQE
+EFKAIINITGMDVLGLTNQLTRVISNNMSVNIQSISLSTDAGIFHGQIAVIVQNNTILKK
+MINAIKKIDGVDKVTREYRT
+>tr|A0A1S1J8H2|A0A1S1J8H2_9FLAO
+MKFSLIICTYMRPQPLLELLQSVKTQTLYPDEILIIDGSVNKESEIILSQNSFQNLKYFL
+VDDQNRGLTRQRNFGINKVGQDIEIVCFLDDDTILESDYFEKLLQTYSVFSDAMGVGGYI
+TNEVKWEKAAENYIPQINEFYFDGWKRKDGSRFVLRKKLHLDSNCLPGFSPLFSHGRSIG
+FLPPSGKIYEAEQLMGGVSSFKKSVFEKLSFSTYFEGYGLYEDADFTLRVAKIGKLYINT
+AARLGHFHAETGRPNQYYYGKMVVRNGWYVWRVKNPNPNFKDRYKWNAITCLLTLMRSTN
+ILTTQSKKAAFTETLGRSVGLLSLIINKPKIK
+>tr|A0A1S1J8L8|A0A1S1J8L8_9FLAO
+MEINENLQAERNLKAIELEKAGETEKAIALYEQNINEGFKGNHPYDRLATFYKNQIDLDN
+EIRVLEKAIVVFEKITLEDRLEGLPKLFRFKNRLEKAIETKKQLAKQKKAKLK
+>tr|A0A1S1J981|A0A1S1J981_9FLAO
+MKKTLLFFILLFSNYFYAQVSDIEHCYGDTSFNLTTQKALLIGNLNPAETTVSYHLSLAD
+ADNNLNAIANPSNYSSTQSSKTIYARIDHLGTITTNFFNLKIYEQIQFFPLITPIRCKGQ
+NDAVVTIAPSGGKAPYAYSLDGGPFTINYGNPIGTFTNLSPGTHTISVKDALNCSMIQAF
+QIVEPTTLTADAKVEYVNCIPRIVISGSGGNSNYEYSHFGVTYTQNNTVINPSPGNQTVY
+VRDGNGCVASKTIVVESLKPLSWMVNNRTGITCQGGNDGTFQVTGTGGKAPYLYSIGNEF
+TTVDVFKNLSVGDYTVKIQDATGCTISFSLNMPLINTAVTISPIITNDSNATNAGKIELM
+VSGGATPYNYSLKDSNGTLIPSKTTNPFTGLAAGSYEAIVTDSRGCTFSQKGINILNEPT
+PLTTTAAVTPITCIITTGTITITPNGGTLPYQYSIDNGNTYSSSNVFSNLSAGTYNVKVL
+DAQNVTATATATIDPIKIPLITATIYKRILCHGDFNGSILVGTNNGKSPILFSINGGVYT
+SNNLFENLTAGNYVLSAKDSNGCIVSTTVVLEDPTPITAEITYYYRTVTVNASGGYGKYQ
+YALDGGSYQDSRIFGMVTYGNHTISIKDPNKCTVSIPITVVEPTPLVSSYVVDKGTVTIT
+TNGGITPYSYRLQKSTGSPLTTTQSNVFTNLINGSYDIIVSDAQGGQVLFSNIIISESAP
+FTAVATSTPITCTDLKSTITVTSTGGSAPYQYSMSNPENFVNSNVFSNLNAGSYLVTVRD
+SNNFRTTASITISSAKPVLASAQIISAISCNGSSEGVVKVNVTQGQAPYTYALDNDPLQT
+DDTFRNVSPGTHTLRVLDKNGCQATVSVTLSEPTLIQATLAVNGNSITAFATGGTPPYRY
+SLESNHVVVADLQNSNTFNNLPAGIYTVRTIDANGCYFQSDYLEISPAPVLSASAEITPM
+DCNNSNGTIIVTATGGTPPYEYSIDNGNNYTSSNVFNNLIAGSYLIKVKDSQAATAAITA
+VISPANPLTAVATITKTIDCISNGTINVVASGGNGSYQYSIDNGVTYTSNPVFTNLIAGT
+YSVLVKDALNCTALVNAITLEQPVLLTATVTHTPITNCSSPVSDVIINGVGGTVPYQYSL
+NGLPFQSSSFYTGINPGNYILEVRDANGCSFSTVFTIVPPVSFVATVAINQAQNCNDFDI
+ATITAIGGQPPYTYSFNESNTFSAANTFTLAPGTYTLKAKDSNGCIAAVNATIAPRTIPE
+STLIITNATTAASNDGALIVNAIRGTAPYTYTLLNSNNTIIVPAQSANTFNNLAPGTYSV
+IVKDAKGCSSTQTQLTILAPSPLSAVATVIQPDCNNPMGTITVTASGGIFPYQYSMDNGV
+TYNHSNTFTVSPGSYSIKVRDANNALYTFVTTVVAPNPVHLTAVVTSSVSCVSNGAIMAN
+AIGGQAPYTYSINGSPYQTSNNFVNLNAGVYTITVRDTNNCTVTTTLMLQAPIPIAVSAT
+VYNKSITVTATGGTAPYQYSLDLNTFQSSNTFTVFNYGIYQVAARDVMGCIALIHVTIDP
+PAPLIEGKNTITVDFKSGQTLGDLVIEGQNIKWYSTKGLSTGKTSKTSETPLPLTTVLVD
+GVTYYASQTIDGVESTERLAVTAKVNGSLSTPDFALPDFRFYPNPVQHNLSIQNSSAIDE
+IELISVSGKTILTKRINHTQSEIDLSNVATGFYFLKVKAEGQIKTVKIVKK
+>tr|A0A1S1JF67|A0A1S1JF67_9FLAO
+MEELLEQIKNCRVCEDYLKDGVNPVVAASRKSKIVIIGQAPGRIVHNTNIAWNDKSGDNL
+RNWLQIDKTVFYNTDKIALMPMGFCFPGTGKTGDLPPRPECAPLWHEKVLRLMPDAELVL
+LIGQYSQKYYLGDTIKNTLTETVRNFEDYLPYFFPLPHPSPRNNIWQAKNEWFQEKVLPQ
+LREKVKVILDNSSLKK
+>tr|A0A1S1JAQ7|A0A1S1JAQ7_9FLAO
+MSSNFDKFQKRRLISSYFSVVLSVFLVLFLLGVLGLFIINSKKLANDFKEKIAMTVFFKN
+EANDSVIKAFNTELKRAPFARSFVYVTKEKAAKEHTDIIGEDFLTFLGENPLLNSYDIHL
+KADYVERDSILKIESKLRQNTMIEDIVYDKQLVNLVNDNIKKVSMWILIISGFLAVIAVL
+LINSSLRLSIHSNRFIIKTMQMVGATKSFIRKPFVMRSVKLGMLGAGLAIIALIGLLFYV
+ETNFPGLGILEDKALIGLVLLAVFGLGVLITWVSTHFATQRFLNLRTDDLY
+>tr|A0A1S1J7U0|A0A1S1J7U0_9FLAO
+MINKNIYIGLLAFCASLQIKAQQIPAPQQTKSVLILNATAHLGNGSVIQNSAVGFKDGKL
+TLIADATTVRLAADAYDTTIDASGKHIYPGFIVANATLGLVEIDAVKSSDDQEEIGTFNP
+NVRSIIAYNSESKVVETVRPNGILMAQITPRGGRISGTSSVVQLDAWSWKDAIIKENDGI
+HLDFPSNFRRSGSWFEPGVIEANKDYPKQVEEIAAFWGNAKAYNQAASKERNIVFEATKG
+LFDGTQTLYIHADEEKQIVDAIQLAASNQIRKIVVVGGFEAYKAADVLQKYNVGVFLRRV
+HDMPTSDDEDVNLPYKMAKILTDKGIVVGLENSGDHERMSVRNLPFLAGTCAAYGLDREK
+ALQLITSNTAKLLGIDATCGTLETGKDATLFISEGDALDMRTNKLTTAFIQGRKINLETF
+QTKLNDKFKAKFNQK
+>tr|A0A1S1J2P6|A0A1S1J2P6_9FLAO
+MSNNTLEKYKRAIRKKYEIEREGEYFDYLYKPSRAKLRDLCWLIFENNPTKEDLNVFSNL
+LGLDFDHTQKNKFKEKKDKFRPIETFFKGETDPSSMDVINMAAILVDFHPRPLKKFYENS
+KKEDTKPIRRIEKAKEVFEKKSAAKKEKPEKKSKKRNFFRDIKSMFF
+>tr|A0A1S1J3Z3|A0A1S1J3Z3_9FLAO
+MQLSNEEEDYNLSLSKFESMLKTNKVLFFDSEEFEEIILHYLDIGKANLAKKALKLALDQ
+HPKSTGLKLVQVEMLVYDDKLEIAEKLLNELYAIEPNNEEIYIQKANICSKRDQHEKAVE
+LLKIALQFTDDYADVYNLIGMEYLFMDNLEMAKDSFIKCLEEDLEDQSALYNVVYCFEFL
+DQNQEAIVYLNDYINKNPYSEIAWHQLGRLHYGVKEYENAIRAFDYATLIDDEFLGAFME
+KAKAYERLKKYHEAIESYNRTIELDDATSYALLRIGKCYEKLGNLVKALQYYNQTVHEDP
+LLDKGWIAITDFHMRQKNFQKALFFVNKALAIDNQNRLYWKRYATINKQMNFFEEAEFGY
+RKAVEFGDYALDTWLFWVDILQFLGEFDSAIQTLLQATEYFPEENEIEYRLAGLYFMTQD
+TTKAKFHLSNGLRLNFDNYILIEDLFPVVWSKKTVKNYIEKHRKQ
+>tr|A0A1S1J4S7|A0A1S1J4S7_9FLAO
+MNAKYIFKGLLAMFLLVIAGCESYNEAVLEDIGANRVFSPIELKAVVKNQTTVELNWTAK
+EDVDHYTVEFSADDPDFKTIYKTVNVTAKELPVKVALEGETVYSIRVKAVSASGLADSKW
+SVTTAATLTEQIFFPVQPADIEAKQVTLRWTPNSSVTQITAGPGGITHTITAAEKTAGAA
+IVTGFTGETAYTATLFNGTKKRGVVTFTTGIDIGTATLVKPTDDLNAKIAAADPDAVLVL
+MPGEYNVFVGEIILNKSITIRGLRSDNKPLLHNKFTLNAGAKSVSLIDLDINGDKTQSDA
+VKYNEVSTAYGALLISGCKVHDFVKSFITQTATGSTKIVSVTVENSVVTNILTVQGDCID
+FRTSHLGSLTLKNSTFNNCATGRDFIRIDNAPGITGTGLTTTVLVDACTISNKAMTASNR
+ILYVRFASNASTIRNTLFETPLAMYTNQTLTTPPTFLNNNYFNSAALHTAGVAAVKYDAS
+GTYGTLDPQFTNSATGNFTLKNQTLIDKKVGDPQWRQ
+>tr|A0A1S1J942|A0A1S1J942_9FLAO
+MLNIKPKVTLVGAGPGDPDLLTLKAVKALAGANVVLYDALANEEILAHAPKNAIRIFVGK
+KIGNHAYTQDQINQLIVDNALTYGNVVRLKGGDPFIFGRGSEEIEFIESFGIETFVVPGI
+SSVVAVPASQGISITKRGVSESFWAITGTTSDRKLSSDVALAAQSSATVVILMGMHKLPQ
+IIDLFQKENKGNLPVAIIQNGTMPDEKVGVGTVNSILDIVKEKKLSSPAIIVLGEVVRES
+NKLKGFYEEFLSKEMVR
+>tr|A0A1S1J9V5|A0A1S1J9V5_9FLAO
+MKAKIHLIVVTVLSTFFLQAQQQPKGIIGTSNWMNNWTNFKPANTEYSEATNIIAGTINK
+DTKLLKRNTYQLVGVVYVTNNAVLSIEPGTVIRGDDKTCGTLVITNGSKIVAEGLETDPI
+VFTSNKETTQRKPGDWGGIIILGKAPINTLGGVHTLPFDLEPMLNHYGGQDAEDNSGVLK
+YVRIEYSGRKLSAAKELNGLSLAGVGKKTILSNIQISYSNDDSFECYGGDLNLNNLVSYR
+TTDDDFDFTQGAQININNSIAIRHPFSSDISGSRCFEVDSYDKIGNTDMSKKLTKINASN
+ITLINLEENNQGLVRESVYVRENTFFNFTNSIVSGFTPFVLLEGNIGNGEVNLGKITFKN
+LIVNNCNGGITSEAGGANTAIESYYNNPIFDINFTKIKNSELFTTPNIKGSPDFRMNVNN
+TIAIGN
+>tr|A0A1S1JAE8|A0A1S1JAE8_9FLAO
+MNQNLAFADYAVFIIYFIVVSAYGYTVYRKRKQDEQDAKAYFLAEGNLTWWAIGASLIAS
+NISAEQFIGMSGEGFFLGIAVAAYEWIAAISLIVVAVWFIPVYLKNKIYTMPQFLKTRYN
+DSTALIMAVFWLFLYVFVNLTSILYLGAVAINGMAGGEYLHIIMIGLALFALFISLGGMK
+VVAYTDVIQVAVLIIGGLVTSYIALTTVGQYFGVGQNAIEGFKVLMREAPEHFKMIIPRP
+TATSSQLDINKYLTFPGLMSYLAGIWIINLNYWGCNQYITQRALGADLQTARTGILFAGM
+LKLLMPLIVMLPGIAAYVLYQNGHLPQLVGGKDGAYSAVLTFLPTGLKGLSVAALTAAIV
+ASLAGKVNSISTIYTLDIHKKYIQKEAGEKQQVNIGRIAVFGAMLLAVLFTWNDILGIGG
+VGGFTYIQKYTGFISPGVFAMFVLGMFWKRTTGAAAVVGVILGFVLSVLFNEYAPALFGN
+ETLLYTAYPNGKGAFEIPFHICMGLSFIFTTLVMVLISFAGPKVNPKAFEIDAEMFKVKP
+QTTVLIVITLLIIAALYIKFW
+>tr|A0A1S1JBQ6|A0A1S1JBQ6_9FLAO
+MIKQLRKPMFCVVSAMVTITAVNAQSAKPKEPGINLSNMDTKVSPKEDFFKYVNGTWLDK
+TEIPGDRNSWGSFNELRQKTDNDALAILKEASKDPKYKSNTDQGKAIALFNTILDTVGRN
+KRGVTPLQPFLKKIDAIKNVTDLQNFFIEMQPQGGIGFFGVFVGPDAKNSNKNTVNLGPG
+GLGLSDKDYYNADDKDSKEKREKYEVHVARMLQFIGESPVKAKESAKQILALEIELSAPR
+LDRVERRDRRKQYNPTAIADLKKNTPSIQWEKYFTGIGMAKLDSVNVAQPRYMIALEKTF
+SEKKVEAWKEYLKWSLLNRTASTLTTDIENANFDFYGKTLTGALKQRPREEMALQVINTA
+TGEALGKLYVEKLFPAEAKDKAKKMIANVMLAYENRINALPWMSQQTKVKAIEKLKKLTI
+KIGYPDKWKDYSALELKNVGEGGTYFDNMRSISKWAYAENLAKLGKPVDKTEWGMSPQTV
+NAYFNPSYNEIVFPAAILQPPFYNYQADEAVNYGGIGAVIGHEISHGFDDSGARYNADGN
+LVDWWTPEDLKQFTALGGALAAQYSALEPLPGIHVDGKFTLGENIGDLGGINAAYDGLQL
+YLKANGNPGLIDGFTPEQRFFISWATVWRTKSRDEAIKSQVKTDPHSPGMYRAVVPIQNV
+DAFYKAFDIKKGDKMYIDPDKRVKIW
+>tr|A0A1S1IZG5|A0A1S1IZG5_9FLAO
+MVRKMRNVHPGEILKMELIDGRKFSISKIAELLDTPISDISNVLNGNVEVSPMIALKLEK
+VFGGTADSFLRLQTGYDLEEFKKRFKP
+>tr|A0A1S1J113|A0A1S1J113_9FLAO
+MNTMRIKKVLFFLIFLNSLVMMGQENGKVTGRVSLTGNVPAEGVSVALRGTRYSAITNEH
+GQYEIKNVKPASYTISISAVGIRPVEDRIMVTSKQTTTKNFMLAESQEDLDEVVITKNKY
+KQDKPSLSLRLQTPVLEIPQNIQIVSGQTLKDQQIVSMSDGVIRNVSGAVRSEHWGDLYT
+NIKMRGSQVQAFRNGFNVVTSFWGPLTEDMSFVDHIEFVKGPAGFMLSSGDPSGLYNVVT
+KKPTGMTKGEASVIAGSYDFYRASIDLDGKLDKKGKLLYRFNAAAQNRGSHRSFEHNNRY
+VIAPVLTYQIDDKTKITAEYNFQYANMTEVGSYYVFGPKSDGYATLPVGFTLTQPGIPDT
+NIQDHSGYFMFEHKFDDNWKLTAQTSYFKYIQQGYSSWPASVGSSENTLGKGNIIRNVGI
+WDAESNMYLGQVFVNGKFNTGAVTHKILSGVDLGNKDYMADWGQSHDLDTAVNPFNVYSP
+NYGTPSNGFPAFDRATPLSVRAGIGGRLGQKYAAGYIQDELGFFENRLRLTLAARYTWIS
+QNSWGTDESDSHITPRVGASYSVTDNLAVYGLYDQAFIPQSGIIQNGDQVKPLTGNNLEF
+GVKKDWFDGSWSTTLSAYRIVKQNELTSDPKNGPNDVYKIVLGEKRAQGIEFDVRGKLLD
+GLNLIANYAFTESVVTSSVVKTIVVGSVVPGFAKHTANAWLNYSIQSGKLKGLGASIGGT
+YLAGRQTDSWSVGAISLPNYFKLDGGLSYETGKFKVTANVFNILDKYLYSGSYYEWLSAY
+YWQTEAPRNFRVGVTYKF
+>tr|A0A1S1J3A5|A0A1S1J3A5_9FLAO
+MANHKSALKRIRSNEKRRVLNRYQHKTTRNAIKALRLATDKADASSKLSTVISMIDKLAK
+KNIIHDNKASNLKSKLTKHVAKL
+>tr|A0A1S1J3W0|A0A1S1J3W0_9FLAO
+MEEKFIKKYWNEEDVMFFIHFTNGIATRQVEISKDNKVYLTQDNPVVNESMLYDQNMEDL
+ELNLNDFITKEEFEKVWKI
+>tr|A0A1S1J5Y0|A0A1S1J5Y0_9FLAO
+MTDLEYNYKGISTYSKTKGINNLVLAHQTEIEEVNNIPCFFWGSLTDPYVTAKCWSTIAK
+VVRSSFGPVPPSLRDPIVSAGSERLRFEGFSSCNGVYVRLDMKPEAIDGEFIANGTTNVD
+FNDPMLNALNAIQKNEKVTLAVGQQDVQVITSKAKVVEKKVTLPMRWIKGLTSVQLYLAD
+MDLKFELNKIQTIQLFQSLPKGSVKGDFFITKRAGKFMFSTLATSDSVRIGGVQRLRLLE
+GILAIVDKIFIYESDDKQTCAIVCEFGKMQLLMAFSPDSYRGFSGEGNVLETMTENLPME
+WVYGLNSLLKSNETFDPTMLSIENDIDFGTMDNLTSNLSSMGLLGYDLSEKAHFYRRLPF
+KTERILSLNPRLKNAKKLIDKEEVEITERRANYIEAKVKGSGVVHKVIIDTTSQKCTCDW
+FTAYQGKRGICKHILAVKMILS
+>tr|A0A1S1J6B2|A0A1S1J6B2_9FLAO
+MSVRKLKPITPGQRFRVVNGYDAITTDKPERSLIAPIKNSGGRNSQGKMTMRYTGGGHKQ
+RYRIIDFKRTKVGIPATVKSIEYDPNRTAFIALLAYADGEKTYIIAQNGLKVGQKLVSGP
+ESQPEIGNTLPLSRIPLGTVISCIELRPGQGAVIARSAGTFAQLMARDGKYATIKMPSGE
+TRLILLTCSATIGAVSNSDHQLVVSGKAGRTRWLGRRPRTRPVAMNPVDHPMGGGEGRSS
+GGHPRSRNGLPAKGYRTRSKKNPSNKYIVERRKK
+>tr|A0A1S1J7S4|A0A1S1J7S4_9FLAO
+MKTLAAQVITPEDLLIHWQGHRKLTRNLIEKFPEKDFFEFSIGGMRTFAQLTDELLAIAA
+PALKGIVNKEIKPYTEASEKLIFKAQYLEKWDEATAEINEYWKQLSIEDFSETFNLFGQY
+EFPIIQNVLYFIDNEVHHRGQGYVYLRALNIEPPFFWER
+>tr|A0A1S1J8P7|A0A1S1J8P7_9FLAO
+MNKFEQLGLNESLLKAILDLGFENPSEVQEKAIPLLLEKDTDMVALAQTGTGKTAAFGFP
+LIQKIDADNRNTQALVLSPTRELCLQITNELKNYAKYEKGINVVAVYGGASITEQAREIK
+RGAQIIVATPGRMQDMINRGLVNIKNIDYCVLDEADEMLNMGFYDDICSILSDTPDEKST
+WLFSATMPQEVARIAKQFMSEPLEITVGTKNSGSATVSHEFYLVNARDRYEALKRLADAN
+PDIFSVVFCRTKRDTQAVAEKLIEDGYSAAALHGDLSQAQRDGVMKSFRGRQIQMLVATD
+VAARGIDVDNVTHVVNYQLPDEIETYNHRSGRTGRAGKLGTSIVIVTKSELRKISSIERI
+IKQKFEEKPIPSGIEICEIQLLHLANKIKDTEVDHEIDNYLPAINNVLEGLSKEELIKKM
+VSVEFNRFIAYYKKNRDISTQSGERRERNDSEPREFNNNGAVRYFVNIGSRDNFDWMSLK
+DYLKETLDLGRDDVFKVDVKEGFSFFNTDPEHTEKVMEVLNNVQLEGRRINVEISKNDGG
+GRRDHNNRGGGRNSGSRREGNFAPRREGSGGGFRSDRNSAPREGGFRSERGSSPRREGGF
+RSSAPRSEGSSDRAPRRSESFGDSSRPRRPRRD
+>tr|A0A1S1J6W7|A0A1S1J6W7_9FLAO
+MEAIRQILSVKNHSITIILPDDFVANEVEVIILPVQHDDYKIPQWQIDQVRERTENYLKK
+PDNVSDIDDFLKEIENDL
+>tr|A0A1S1J4A2|A0A1S1J4A2_9FLAO
+METTYLKSILDNDFYKFTMQHAVIKLFPKAQVRYGFINRGNHFFPPGFGDLLRKSVDAMA
+DLRLTKEEKQYLWQHCSYLDPTYFDFLQGYNFDPSEVQITQTGSELKVTVEGYWYRTILW
+EVPLMGLISELFYKTGQSIRLDDEALKRVTKDKIDNYNKIGVSILEFGTRRRHSYEVHAL
+VNETLRKFGSNSFIGTSNVHFAMTNNMRPLGTHAHEWFMFHAAQYGFKMANMMGLGHWTQ
+VYDGDLGIALTDTYTTAVFFEQFDKKYSKLFDGVRHDSGDPIEFAEKVISHYTQMGIDPK
+SKVIVFSDSLNYEKVKRIADFCKDKIKMSFGVGTNFTNDAGLPSMNMVIKLTEVKLNNDQ
+WQGVVKLSDEKNKNTGTPEMIALAKEVLGIK
+>tr|A0A1S1J8P1|A0A1S1J8P1_9FLAO
+MKKYLLAFLLLFVHFSRSQSIKSIDSLTTEICKSLVQNQALDNEIRINTINNSHITPYLA
+KFKDSIVQRRVFEQLFFRLHKNCNEFVALFPNESEKSNWSMQNEKPLDEISREECNHFDE
+SSKYYYIENSGAKVAVTLSDHLWTENFNDGTFSKLRYKKKGSCEFELEFIESNNLSRKNL
+SIKGDKYLYHLYKEENGTYNVYLKNKETYYIFTIIRQ
+>tr|A0A1S1JAW9|A0A1S1JAW9_9FLAO
+MNLSNFKEERILSKINGIDFSGKALHNEKVMQTTIQKIKQNLCTFAPYKLWNLKENDRR
+>tr|A0A1S1J5S5|A0A1S1J5S5_9FLAO
+MKFQYGILCVFKNSFLKRFDVKEKSKANEKKDRVLATEAHITKSVISIFFRKNVIRSAFG
+CFQNMIFLVSNIILNSTNPIDKVNFNIIKTKNLFIFF
+>tr|A0A1S1JB56|A0A1S1JB56_9FLAO
+MEKIEHINYIKAPIAEVYKVLTTQEGLAAVWTEELVVKPEVGFVNEFGFGDEDVTKMKVV
+GLFRDKRIVWECVESDPEWIGTGISFDLTEKDGVTAVVLRHFGWRELTEFYQWCNYNWAM
+FLLSLKGYCEDGEGVSYQKRKF
+>tr|A0A1S1JA64|A0A1S1JA64_9FLAO
+MTTLNELNAISPIDGRYRNKTLSLAPFFSEEALIKYRVLVEVEYFIALCEVPLPQLSDVN
+PDLFESLRKIYKNFSTEDALWIKETEKVTNHDVKAVEYFIKDAFEKLGLSQYKEFIHFGL
+TSQDINNTAIPLSTKEAFEQVYMPSLIALISKLKELSVEWAAIPMLARTHGQPASPTRLG
+KEILVFVERLEEQMRLLFNIPFAAKFGGATGNYNAHHVAYPQIDWKQFGNKFVETDLGLH
+HSFPTTQIEHYDHFAAFFDALKRINTIIIDLDRDIWTYVSMDYFKQKIKAGEIGSSAMPH
+KVNPIDFENSEGNLGIANAIFEHLAAKLPVSRLQRDLTDSTVLRNIGVPMGHTIIAFEAS
+LKGLNKLLLNEAKFAEDLEKNWAVVAEAIQTILRREAYPNPYEALKGLTRTNEAIDKNAI
+HNFIATLEVSDAVRAELLAITPSNYVGI
+>tr|A0A1S1J6U2|A0A1S1J6U2_9FLAO
+MKNLAQQIEELNENLGHQLPREALDAFGKSIQDLRARNMEGNSIQTGDMFPDFKLPNTND
+ETVQLKEILKKGKVIAAFFRGSWCPYCSLELKALQDSLKQITDRKATLVAISPQKLDYSQ
+ELKSNYNLDFELLTDKNNALAKQLGISFGLQDYIVPTYRGLGIDLSEYNENGNSELPIPA
+VFVVDTNGSVRYKFADANYMNRIDIQELIKQL
+>tr|A0A1S1J7U7|A0A1S1J7U7_9FLAO
+MSTATKPNHIGRKISRIRELKDMKQEALAQALGTNQQAVSIMENSETIDDEKLIAVAKAL
+GVTVEAIKNFSEEAVFNYFNTFNETVSNSSFGNGTFNNECTFNPLDKVVELYERLVLAEK
+ELVKAEKEKIEYLERVLKEK
+>tr|A0A1S1J9I8|A0A1S1J9I8_9FLAO
+MRTIQFREAICEAMSEEMRHDESIYLMGEEVAEYNGAYKASKGMLAEFGEKRVIDTPIAE
+LGFTGIAVGSAMNGCRPIVEYMTFNFCLVGIDQIINNAAKMRQMTGGQFNVPIVFRGPTA
+SAGQLGATHSQALENWFANTPGLKVVVPSTPYDAKGLLKSAIRDNDPVIFMESEQMYGDK
+GEVPDGEYTIPLGVADVKREGKDVTIVSFGKIIKEAFIAADELAKEGISCEIIDLRTVRP
+MDKETILASVRKTNRLVVLEEAWPFASISSEITYIVQEQAFDFLDAPIQRITTADAPAPY
+SPVLLKDWLPNAGDVVKAVKKVMYK
+>tr|A0A1S1J1I2|A0A1S1J1I2_9FLAO
+MDITDEEILELENLLKERDIDIARGRLCVLNEGTNPNYRILYNAITDQHYNENGELVRGF
+RGCALEGSSRSGKTWSGVDIIIWLCLFVEVDGCTINIYRETYNEFKTTLYDDFKRRLDDY
+SLPNPFHNAKEIRSFKIGKSTIYFLGDGKHGASCDYAFYNEIMFLENSVFDQSEMRCRKF
+WWADYNPSVTEHWFFDKVLSRPDVGFLRTTYLDNKFVSAQERNKILSYEPWKPGSYIVKN
+NVICCYNKETKKVEPIGKTNQPPPHPANISNGTADEFMWKVYGLGLRGAMKGVIFPFVEW
+IDKFPEHIAPIYPNDFGFTTDPNTLIKYGEDEYNIWIEPLSYEPIENPEDLSDFIEAIGL
+EKDIIMPCDSADKYTGENKGTVEMVKGLKKQGYVNAFKIKKTKSVMYWLNSMKKKKIHII
+KNHLYQQAKKEQENYRMKEINGIAINQPIDQFNHIWDGSRYGHIAHNSPTIVLQSSQESI
+NNINY
+>tr|A0A1S1J277|A0A1S1J277_9FLAO
+MEFDFLEPLNDGILKFISSLSSQELGSKIVLHTEDQFPDISKINIAIIGVLEDRRNEDSI
+NIVNLNAVRKKLYGMFPGNWDASIADLGDILAGNSVEDTYFALKRVASTLIKNKVIPIVL
+GGSQDLTYALYRAYDDLEQMVNMVAVDNKFDFGKENETVSANSYLTKIIIYEPNNLFNYC
+NIGYQTYYNSQEEIDLIEKLFFDAYRLGEISNKIALAEPVFRDADLVSIDLNSVKSSASG
+NMVSFEPNGFNGKEICSLARYAGISDKVSSFGIFNHNSTAPEAGIIAQIVWYFIEGYHYR
+SKEYPFGSRATYLKYIVPLEDEELIFYKSDKTDRWWIEIPFESNGHNKLKRNTLLPCSYD
+EYLSACNQELPERWWKAQRKNAL
+>tr|A0A1S1J3Q4|A0A1S1J3Q4_9FLAO
+MIDLPANKKIVLFDGICNLCNSAVQFIIKHDKKDIFRFVALQSELGISICKHLGISYAKM
+DSILLFNPDSAYFYKSSAVIAIAKEFGGLWRLSEIFRIVPIFISDRIYDYVAKNRYNWYG
+KKESCMIPTAELKAKFL
+>tr|A0A1S1J768|A0A1S1J768_9FLAO
+MKNNFDLRTVNVMRYITPLREGGSLPALAEADDDFKYVLKFRGAGHGVKALIAELVGGQI
+AKALKLQLPELVFANLDEAFGRTEADEEIQDLLQGSQGLNLALHFLSGAITFDPVVTTVD
+AKLASQIVWLDAYITNVDRTFKNTNMLIWHKELWLIDHGACLYFHHSWNNWEQHAKSPFA
+LIKDHVLLPQASLLKEVDAEFKALLSHEILEEIVNTIPLEWLQWEDTEEEPETLRNVYLQ
+FLQTRLNHSEIFVNQAQNAR
+>tr|A0A1S1J8R8|A0A1S1J8R8_9FLAO
+MKQFKFLSVILLFLLSFVSREEFNKYVFGGEKFKSENNFISAKIQLVSTLTLKYLKDADV
+HLKIKKKIKYRATASENSTLNTPYLTKLIRFKFSKNRLSYGVVSVYQIQRHTYLHLYHFF
+>tr|A0A1S1JAF6|A0A1S1JAF6_9FLAO
+MIDEITRYSDADLAEFKEIIQSKIQKAQADLDLIKSAYMNDLNNGTDDTSPTFKAFEEGS
+ETMSKEANSQLAIRQEKFIRDLKNALFRVENKTYGICKVTGKLISKERLKIVPHATMSIE
+AKNLQR
+>tr|A0A1S1JC79|A0A1S1JC79_9FLAO
+MEQKIHQGRNVKRFREMLNIKQEALAYDLGEDWNQKKISMLEQKDVIEDKLLKQISAVLK
+IPVEAFQNFDEEQAINIISNTFNIEKEAYIGNAKPVFNINPLEELKKLHEEKIALYERML
+KEKDEMMARLEKLIGK
+>tr|A0A1S1IZ64|A0A1S1IZ64_9FLAO
+METLIFICLLLVIALLLQDKITISIMKKDKHTPKETNPNLPDLMGQPKTLRCLQMTKNAN
+GSQGRRQEQEMSNFDIEIDQENLDKEIPQEELNDVFRDLPDLEQEEEEWNGYGMLAGNDG
+FAQGVTFEELSAVGMLLEKEKLEQSQKETAIALVQKIQGTELFTLLENSIESASRKIAQL
+LDGSLSSEKDSGSSYLRKVDLNDFDIGDFV
+>tr|A0A1S1J4B7|A0A1S1J4B7_9FLAO
+MSVIAEIIDTLEYKVEKLFEKSKGLEHNNQALQLELAKAAQIIQKQSEEIEALKKQHETL
+KIANSLLGSDNNKRETKLKINSLIREIDYCIAQLSD
+>tr|A0A1S1J1D1|A0A1S1J1D1_9FLAO
+MKENIIQDKSFLFAVRIINLYKYLTAEKKEFVLSKQILRCGTSIGANIEESIGGRSDKEF
+LFKLEISYKEARETIYWLKLLKATDYISAVEFESIHKEAEEICKILAKIILTLKGKNANN
+>tr|A0A1S1J7U4|A0A1S1J7U4_9FLAO
+MKRTFVFGDIHGGLKALIQLLERIDCSERDRFIFLGDYVDGWSESKQLIDFLIDLSQKQQ
+CIFIKGNHDVWCQEWLENNVINDIWFLHGGKSTIESYVDIECSEKEKHRHFFNSMKDYFV
+DENNNLFIHAGFSSMHGPEKEHYQSNYSWDRTLWEMALTMDKRIKKNSLSYPKRLLLYNE
+IYIGHTPTLHYNVEIPMQGCNVWNVDTGAGFYGRLTGLDVETKVFWQSDIVQGLYPNEKG
+RNK
+>tr|A0A1S1JBF8|A0A1S1JBF8_9FLAO
+MSKLYIVPTPIGNLEDMTFRAIRILKEVDLILAEDTRTSGKLLKHFEIGTHMHSHHMHNE
+HKTTENLIARLKAGENIALISDAGTPAISDPGFLLTRACVENKIEVECLPGATAFVPALV
+NSGLPNDKFVFEGFLPDKKGRQTRFLTLAEETRTMILYVSPHKLVKTLAEFIQYFGEDRQ
+VCVSRELSKLHEENVRGTAKEILAHFEKTAPRGEIVVVVAGKTVEKETKKSKYSKNEEE
+>tr|A0A1S1IYV8|A0A1S1IYV8_9FLAO
+MKKIKAVIVEDSRLARNELKELIKNHPEIEIIGEAENVDSGFKLIQETQPDLLFLDINMP
+EKDGFELLEMLDKVPITIFTTAFDEYAIKSFEYNALDYLLKPINPKRFAHSIEKVSQNLI
+EKEEKSNKKLTPNNQIFIRDGEKCWLVKIADIFLFEVDGNYTKVFFQDEKAVLNKSLNHI
+EEKLPDDYFFRANRNQIINIEYILKIDPWFSGNLLVQLPKEVKVEISRRQTNNFKEKLSL
+>tr|A0A1S1J4N7|A0A1S1J4N7_9FLAO
+MKEKLAIVMLLTLFSIRVSAQSEKLYQTDKVSDKYAYVDVMKTYERVAAKGYKSVDLFQK
+LGNSSYAKCNLDKAAKWYRELFALTTDLEPEYYYRYAESLRSISLYQEADALIEKLKTKV
+PVKKKA
+>tr|A0A1S1J7G3|A0A1S1J7G3_9FLAO
+MKDPFLITKEEVLKFLKPVNPITHKGLQGHAVIIAGSYGKVGAAVLASKSCLKSGCGLVT
+VFVPKCGYQILQISIPEVMVITDENTNFLTSIHLPLVPQAIGIGPGIGVELGTQKALFEF
+LRVNKSPLVLDADALNILAENLTWLELVPENTILTPHPKELERLIGKWNSESEKFQKTIA
+FSEKYKVIMVMKGAPTYIIIKTEIYENTTGNAALATAGSGDTLTGIITGLLAQGYEPKYA
+AKLGVFLHGLTADIALPKTGYESFTASTIIKYLGKAFLSLV
+>tr|A0A1S1J969|A0A1S1J969_9FLAO
+MEKNLRQQKTAIIKIALFGPESTGKTTLAKQLAEYYETEWVPEFARDYLQEKWEENQHIC
+VVGDMMPIAYGQVALENQKLALSRKYLFCDTNLMVTKVFSEMYYGFCDPLLNEAALEHEY
+DLFFLTDIDVPWEKDDIRDTPKGRETVFSVFKQTLIDTKKPFITLSGDKESRLTKAIAII
+EQLAVAKQHGISSEDFVQIYEHGISFEKILQQLQIFKNGISKSNLVSPATISNGILSLSE
+AEFEEKAAFFDLQKSEIKLKKFVPASGAASRMFKFLSAFLNDFDIQKETINAYINRKNDK
+ELSIFIVAMEKFAFFKAVDKKLKEIYPDFEALDRDHKNYYFIKTLLSVDHFDFANKPKAV
+LPFHQYKRYIANPIEEHLNECVHYASSNQISNLHFTVSEAHQSLFENQIKVLKEKIEKDS
+GVKIDISYSYQNKSTDSICVDAKNSPIRDKNNKLVFRPGGHGALIENLNELDADVIFVKN
+IDNVIQNHLDQIALYKKALAGTLIKIQQKVFGYLNAIEKGEIQEKDLEEIVIFLSKKLNV
+ELNSDYSKFTFENKISKIKSLLDRPIRVCGMVKNEGEPGGGPFWVMSSKGSVSLQIVEAS
+QIDLTNKRQQEILASATHFNPVDLVCGIKNYKNEKFDLLQFVDQKTGFIVEKSVDGKLVK
+SYELPGLWNGAMANWLTIFVAVPLITFNPVKTVNDLLKAAHQPQ
+>tr|A0A1S1IZY3|A0A1S1IZY3_9FLAO
+MKKIMSLFLLLLIVPNFAFAQTKAFTLEKVKTFFPEDQNLSKENIEWAFLTVPENWDKPT
+GKTVKIAVAVLKSISKSKDSNPVVYIDGGPGSGGIEGIWAWLDHPLRKNSDIVLFDVRGT
+GRSLPKFCPDLGKKFLEILAKNQSSTQDEQQKTIASLECKQDLLNRNIDISAYNSSSIVK
+DLNALKNALKYDKWNVYGVSYGTYTAQVYANDFPEDIKSLTLDSSISDISQYYNRNTENY
+MSSLKKVFSACKEDPNCNQQYPNLQAAYYETIEKLEKKPITVKVDQRIISSGTFTYNAED
+FKIAIQQSLYQKRLIEVIPLLITEFNKGNKSTLSSLVAAFSGALGLDYGQYYCVSCNEAV
+PNNSISEFNKNARNYKELKGGLSFYKSDFAVCDKWNLGANKRPALVNLSNLSKLTIPVLV
+FAGAFDPITPALNGKITVDRFKNAFLVNAPISGHTPGFSLVGVQIAEEFIKNPLQRPNTR
+EFDTDNKVHFVTNIKISAGISNFANSLNEFNLLFFAPFFTALIIALLSIFAYVLIRKREE
+KTADKILKSLIIITSLLGLFTLIGFVLAINYTAENNFYILAFGIPDQFNYLFIIQWIFIV
+FTLISILYFILKLKFISNTGVMATILFSLLLVGIYFQYWGFLL
+>tr|A0A1S1J099|A0A1S1J099_9FLAO
+MKLSSSSAHTLVFLFCLFFYGLSSNAQNESYSSEDNEEIADTTFVNLREYSSDFVYDMKY
+ATEDNFLKAKVYDCAECLLRYKTVKALIAANRDFMKDGCKIKIFDCYRPLSIQKKMWEIV
+SNPEYVADPKKGSIHNKGGAVDITLVNAQGEELEMGTNFDFFGIEASHNYRKFPVSVKAN
+RKYLKKVMLKNGFNSFDSEWWHYNLKTGLKDKVSNQKWKCN
+>tr|A0A1S1J2B4|A0A1S1J2B4_9FLAO
+MQNVIDRTNKFYLLMSQKVLSKKEYEVLEKLLIEKMPLEQAAQQYGVTSQDVQELYERTC
+SKVKAAAELFSEIDQYEKKLQKLKLQLHPDPSPAAMRKEKAEKDRQKLLLNSAFPFSKRL
+QTILGNLEIKTIGELADMPLKDFMCIRGFKVKCREELIAFIEFENIGYLFKGFSVWKKQP
+IERFK
+>tr|A0A1S1J4Z0|A0A1S1J4Z0_9FLAO
+MKDPIVSIVVPCYNQAQYLDEALQSVSDQIFENWECIVVNDGGSDNAEQIARKWIEQDVR
+FKYYYQENGGVSSARNLGIANSVGEFILPLDGDDKIAKDYIKLAIRAFENDESLKLVYCK
+AEKFGDETGNWNLRPFSLKELALDNMIFCSAIYRKKDWELIGGYDNNMLDGLEDWEFWIS
+LLKNGGNVSCLNTIGFYYRIKLVSRQKKLDGTIKEKLFNYLSIKHADFFVEHLGSFGALN
+YNLQKEREGFSAKLKSEKFVLDLFCKTFFGFAIFGKINKG
+>tr|A0A1S1J735|A0A1S1J735_9FLAO
+MEQKIHQGRNVKRFREMLNIKQEALAYDLGSDWNQKKISMLEQKDVIEDNLLKQISTVLK
+IPVEAFKNFDEEQAVNVISNTFGDNSIGYQKNDNPTFNPIEQVLKMHEEKIALYERMLKE
+KDEMMARLEKLIKK
+>tr|A0A1S1J8L4|A0A1S1J8L4_9FLAO
+MSLKKQFVKTRPVCKVTFTIDAKDANSAAVVGDFNNWNPEEGILSKLKNGTFKATYDLVK
+DAIYEFKYVVDGVYENDPEADSYKWNDYAGSENSVLVV
+>tr|A0A1S1J1U0|A0A1S1J1U0_9FLAO
+MKFTFKNTFSRRNFFILGITFIVLTLLSIYILSSFITEITEKSNTATEERGFLKKQEVLV
+QELSHFLEIQKELKRIVEMSNTRNLSDNLKVLSTIHANDSLIKNNWFQINKEHITFVTAK
+NSPNLEASIEDFAVKNGNLNAYNCIVENKQDFFWRIYYKYIATNGTVIRYGYDIDLKALQ
+TYFSTIDQKALNYAFVFDKKGTILYHPEVKLLKKNVFKITNLRASDTTFTNKSSFSRQIA
+LSEYLGLDIVRYTKRLNIRGTDWYICVNFAEKISNEDVNTVKKYASLIYIVTTAILIVFF
+YLFTLFTRKNFQEKEVLAQEKNNLLIENEKINKEKALIQLQQLKEQINPHFLFNSLNSLY
+MLIESNTAVARKFTLNLSKIYRYLITPPVNNIVTVQEELLFIEKYIFLQQTRFTKEFVFS
+IQIEDENNLAKKVPYLAFQIAVENAIKHNIASEETPLKITIDIKENVVIITNNLNEKQNF
+GKESKFGHKYLEIIYKYYAKDDFEVFKKDGDFTCILPLIG
+>tr|A0A1S1J031|A0A1S1J031_9FLAO
+MKKYFFILALLSWTSWSVKAQTLSDDNFVYTLAPKKPVKAAKLNTLTKDELSQNVTYFDG
+LGRPIQTIAISQGTAGKDIITAMEYDGFGRQAKEYLPYEAANGSSSYPRIDATTAITTLN
+GIYGTSKYDNTANPFSEKSFERSPLNRVVKQAAPGTSWALGSGHEIKLDYGTNISADAVK
+SYKATATWEASQGLYQISFSDLGTYPDKELYKTITYDENTTANPGESSGSTVEFKNKEGQ
+VILKRTYESGNRHDTYYVYDVYGNLTYVLPPKATGTISNEVLNGLCYQYKYDNRNRLVEK
+KMPGKQWEYIVYDKLDRPVATGPAFSPFKDETTEGWLITKYDAFSRPVYTGWSGQPLGSS
+IRKTLQDEQNMATVLFETKQTSGIIDNISVYYSNTIAPTNFKLLTVTYYDDYNYPGVPAK
+PTVAGGQLVLDNAKGLMTGSWTRALTTASETFGEITTTFYDSKSRVVSTQLQNHLGGYTN
+IENGLDFTGKSLYTVTRHKRTFGDSELIVSEGYTYSPEDRLLTHTHQVNSGTIEVLAHNT
+YDDLGQLITKQVGNNTSNSLQKVHYSYNIRGWLTGINNVENLQQDTDPKDLFAFKINYDK
+QPGNSQIQALYNGNISETYWKTGTDLAKRSYGYQYDNLNRLTSAIYSKPNDAIPVSGAYN
+ESLSYDKNGNIKSLQRYGASDAPSIVFQIDDLTYGYLDQNSNQLTKVTDGPAGNDNEGFK
+DANKTGDDFTYDLNGNMIADKNKNITAIQYNQLNLPNKITFGTNGTIEYIYNATGQKLEK
+IVKEASSITHTEYLTGFQYSYVISDGYVPDDPGNTDPPIDGTDPVIDPPVEANRFSAFAA
+QSASLNVPSQPMLQFFPTAEGYYDDIYKKYVYQYKDHLGNVRLSYAKNPVTQVLEIIEEN
+NYYPFGLKHTGYNDYVASNNKYKYNGKELQDELGLNMYDYGARNYDPAIGRWMSIDPLAE
+KGRRWSPYNYAMDNPVYFIDPDGMWPWPSWNSVKQFTKGFVNSAVSMGVHNLVPAVGVYN
+GAKTVWSIGKDVINGNYSSAKNKTYNATGIPGAISTVKRASKGDAEAIGNLAVVAVAAIA
+TKGSIAATESSIAKGIATTASSTEGSTTLYRGVNSTSPAYENATQGIAKPRGGNATALEH
+NTVTTESNYTSWTANPDVAENFALRTSGEGVVLTADIPNSQLVKSPNTKSVNLVQAPGTV
+VSESETLAKGIVKGASVKTVKLER
+>tr|A0A1S1J9U0|A0A1S1J9U0_9FLAO
+MLKIILNLEGAQELSAFEQKSMVGGQPINPPKRCCVCPGRGSSTLVTCDSICSNGTIPAV
+LEDCL
+>tr|A0A1S1JBV2|A0A1S1JBV2_9FLAO
+MDLKNAQLDVDTWIKEHGVRYFNELTNMAQLTEEVGEVARIIARRYGEQSEKESDKNKDL
+GEELADVVFVVLCLANQTGIDLQAAFDKKMDLKSVRDKDRHKNNDKLK
+>tr|A0A1S1JCX9|A0A1S1JCX9_9FLAO
+MSEKITPYKDSSLGKKEQVAQMFDNISGNYDNLNRVISFGIDTKWRKKVLKIVSDTKPKI
+ILDIATGTGDLAILMSQTNAEKIIGLDISAGMLEVGKKKVQAKGLSNTIDLVLGDSEKIP
+FEDNYFDAITVGFGVRNFENLEKGFAEILRVLKPNGVFVILETSVPDKTPYKQGYKFYSK
+NILPIIGKLFSKDNSAYGYLSESAAVFPYGEALNNILRKIGFIDVVAMPQTFGVATIYSA
+SKK
+>tr|A0A1S1J834|A0A1S1J834_9FLAO
+MNKKAENIIVGISVGDLNGIGSEVILKTFEDSRMLEMCTPVIFANAKILSFVKKSFTSTV
+QFHGVDKLEQVLPGKVNVFNLWKEGVDINFGKNDEKIGEYAIKSFVAATKALKEGLVDVL
+VTAPINKYNIQSEDFKFPGHTDYLDKELEGNALMMMVQDNLRVGLLTDHVPLNEVSSHLT
+EELIVRKIETIRKSLVQDFSIVKPKIAVLGLNPHSGDGGVIGKEEDLILKPALKKIFEKG
+TMVFGPFSADGFFGSGQYEKYDAIVATYHDQGLIPFKTLSFGKGVNYTAGLNKVRTSPDH
+GTAYDIAGKDMADFNSFKEAVYLAIDIFRSRNQYEEITEKPLKIKEKQL
+>tr|A0A1S1JA37|A0A1S1JA37_9FLAO
+MKNDITIPKSSLDFLSLLKENNNKPWFEIHKPEYLIELNHIETFAGALLQELSKTDVLET
+ASGKKSVYRIYRDIRFSKDKTPFKTFWGGSYTRATKERRGGYYFHLEKGNSFLAGGFWGP
+NAADLKRIRAEFGHDSQAMQKIVQSESFISTFGTLQGEQLKTAPKGYDINHEAIDLLRYK
+SFLLIKRFTDEEVLSPLFLEQALTTFKNMRPFFDYMSEILTTDINGASIL
+>tr|A0A1S1J4J7|A0A1S1J4J7_9FLAO
+MKQTTNAIVMIRPVAFRMNEQTAVNNYYQKVLDGLLPSTVNAKAQQEFDAFVEKLRAVGV
+DVTVIEDTLETDTPDSIFPNNWISFHENGDVALYPMFAENRRQERREDILDVLEEKGFEI
+SNIVDYTSAEEDGYFLEGTGSLLLDRANAKAYCALSPRADEELFIEFCEDFDYAPVIFEA
+FQTVDGERKLIYHTNVMMCLGETFAVICADSIDDKKERKMVLENLKADKKEVILITEAQV
+NNFAGNMLEVRGTNDKRYIVMSASAHQSLTPKQIAQLENHAEILSSSLDTIEACGGGSAR
+CMMAEVFLPRS
+>tr|A0A1S1J2C1|A0A1S1J2C1_9FLAO
+MKKLLFFVLILVSGISFAQNDAKRISQYNLENKVAIQGYDPVAYFSPGKAIKGKNELSAS
+YQGVIYKFSSNENKQEFLKNPSRYEPQYGGWCAYALGSSGEKVEINPETFKIIDGKLYLF
+YNAYFNNTLKSWNKNQTNLKTQADENWKKINR
+>tr|A0A1S1J3R8|A0A1S1J3R8_9FLAO
+MANSKITIQFNSVPIYNQSVYFDQHSDITSMFARETFVGQRLGQYQAELPKDITTETSPE
+TIYSGYASDLYKRAFDLDFNTSNLYTVESTRGPAGSGIGTVIITANFAGAVFLNESADGD
+VTFIIENEPALPAFNITEVNFGQALSTPCQKVRVLVTTDNLAVKVISPVSIDPNTNNPFA
+LDWLRGDTINVIVEDANGKQASKSIVLPSLLSAANFTINVNNSPNGATVLVENANSTGLV
+LQYSLDNVSWQSSNIFTGLDVGDFVLNVKDQLGCSFTKAFSVNEFGIQSPYFYISKSNSI
+RYAKRITWGDSENYKTDENTLSCEVDVDVVYKEVQQFQSADIVPTQFKSNYSSNVAKVIR
+EDLSEIVIPIEKKSNNIGIKDKRDARKYSIGGGKAGIYFISGNTYDYNTSSVIGNYSLNG
+SLPEWGVSGNYIVISNAWFLIEEIVFDESKNSDVIIISENFSGSEISIVVGSIFNRFNYE
+IYEYFIDMVNFIDQKFHVQLVNSDPNFATITHLSEELWCQVKHEDVVEIKYHNTTNTDVF
+YATGIEFKIRIPLTSKKGLPEENSEIHKTDTAALLLSADLYEVDQFVFEPVTKEIWRKIM
+IALSHEKVWLNGVGYVKNGSFSTEGPLEKSNLYVLTANMIKTGNVYNSIGTGNFDLDEGQ
+VEVPGLISTESGYVAY
+>tr|A0A1S1J6L5|A0A1S1J6L5_9FLAO
+MPVRILMVCLGNICRSPLAEGILASKLPKNNFIVDSAGTGSWHVGHSPDKRSIAVAKKNG
+LDIGNQKGRQFKPADFNTFDYIYVMDSSNYDDVIKLAQTEEHKNKVRLILDELFPDENVD
+VPDPYFGVTNGFENVYQMLDEVTDIISKKLIEKHS
+>tr|A0A1S1JD71|A0A1S1JD71_9FLAO
+MNDIRQSLSQFMSLADEEFDLIKSKLEVEEIKTNTIIIKINQKVSKLYFVKSGLLRTYFL
+SDGKEINTYFACNGQFITSFSSYITQTPSIQYLEALESSTLYSITFEQLNNLYESYPKFE
+KFGKILAEQNYLCVLERMIYLQSKSAKEKYLYFIEKYEKKIVQRVPQLHIASYLGITPET
+LSRVRKEISIS
+>tr|A0A1S1J1Q5|A0A1S1J1Q5_9FLAO
+MVKKTFFCVDAHTCGNPVRVVAGGGPNLTGANMSEKRQHFLKEFDWIRKGLMFEPRGHDM
+MSGSILYPPSDPANDFGILFIETSGCLPMCGHGTIGTITIAIEEGLITPKIPGKIRMEAP
+AGLVNIEYQQTGNKVDWVRLTNVKSYLAAEGLTIDCPELGEITFDVAYGGNYYAIVDPQE
+NFSGIQNFSAGKIIQLSQEVRKRINAKYPDYFIHPENDTIRDVSHMLWTGEPLDPTSSGR
+NAVFYGDKAIDRSPCGTGTSARIAQLHAKGKLKVGEDFIHESYIGSKFIGKVVEETSIGE
+IPAIVPSIQGWAKVYGYNTIIIDEANDPYAHGFQVI
+>tr|A0A1S1J2Z6|A0A1S1J2Z6_9FLAO
+MDFRLKVFYTVALRLNFTKAATELYISQPAVSKHIQELEETYKTKLFERNGSKIALTPAG
+EILLKHTKNIFEIYREIDFEMSSFISDRQGLLRLGASTTISQYIISPVLARFHQKQKDIK
+VNLLNGNTEQIENALIHKEIEIGIVEGQSKNQSIKYTPFLKDELVLVCNTKNPLIKKNEI
+SLEDLKSMKFITRERGSGTLEVIEYSLKQVGVKISDLQIEMQLGSTESIKSYLLNSDCLA
+FMSIHAVDKELKNNELMVLDIANLSIERYFYIITLLGKPNALTELFIQNLSSYYNLEL
+>tr|A0A1S1J3P3|A0A1S1J3P3_9FLAO
+MNQPLAYVHPGAKIAKNVVIEPFTTIHNNVIIGDGTWIGSNVTIMEGARIGKNCNIFPGA
+VISAVPQDLKFGGEDSLAIIGDNCTIRECVTINRGTVASGQTILGNNCLVMAYAHIAHDC
+EIGNNAIIVNGVALAGHVVVGNHAVIGGLAAIHQFIHIGDHAMISGGSLVRKDVPPYTKA
+AKEPLSYVGINSVGLRRRGFSTEKIREIQEIYRILYQKNYNTTQALSIIEAEMEATPERD
+EILDFIRNSSRGIMKGYSGNY
+>tr|A0A1S1J4H9|A0A1S1J4H9_9FLAO
+MKLRPFLSVLLLGSLFVNAQNKPTIKEYKKVFTTYPFSDPDPIPKPDTKVYPYFRFDGFT
+DKPVQKEWKVIELENDYIKLMILPEIGGKVWSAVEKSTGKDFIYNNHVIKFRDIAMRGPW
+TSGGVEGNYGIIGHTPNCATPVDYITLTRADGSISCVIGVLDLLTRTSWKLDINLPKDKA
+YFTTNSFWFNSTETEQPYYTWMNTGIKAAESLQFIYPGQSYIGHNGEHNSWPIDKENGKD
+LSFYKNNNFGGYKSYHVFGKYDDFFGGYYHDEDFGMGRYGNHDDKPGKKIWIWGLSQQGM
+IWEKLLTDTDGQYVEVQSGRLFNQASEGSSLTPFKQRSFAPYQTDLWTEYWFPVKQTKGF
+VKANNYGAVNVKNENGWLKIYFSPLQKLNEKLEVFDNGKKIYSKDISVNTLQSFKDSIQI
+AVDPNQLKLTLGENKLVWNSAPEDGNLNRPLEIPKDFDHNSVYGLYLQGKNYLSFKDYVK
+AEEKLTACLQKDPNYAPALADLAILQIRKFQYREAVHSASKALSIDTYHPAANYYYGLAN
+LHLGNTTDAKDGFDIAAASVEFRSSAYTALSKIYFRENDLAKAAEYAEKSLRNNQDNLES
+LQLLAVLSRLQNNKSRAVEILNMINNVDPLNHFVGFEKYLWDLSEASKQHFTALIQNEMP
+QQTHLELGIWYTQLGRKEEALKVLSLALPNAEIVYWKAYLENKVVDLSKLQPEISFPFRG
+ETAEILEKLIKTNNQWQLKYHLALIEWNRDNVSKAKELFLQCANLPADPAFYGAKASLFK
+NETPLVLSSLQQAIKLDGQSWRYPKLLTEYYIAQKEFDKALATAAPFYKKHPQNYLMGML
+YAKTLLLNKKYAAADAFLTQLEILPFEGATAGRQLYHEAKLMQALAEMKNNQYKKALQLI
+SDAKLWPENLGVGKPYDEDIDERLENWLNYQCYMSLGDADKAKSALQNIIAFNPKVDNMV
+MNFLPANQLITAWAIEKTSSAQKAEEWLQKQAILYPDNKIVQWTFETFRKKQSNILTEEE
+KDGEVRIIEKL
+>tr|A0A1S1J562|A0A1S1J562_9FLAO
+MINPSAPGWIDKFFSEQKFSEAIPFETAESFYHKVRETGFIYGHIIAIDSQIPIPIKGWF
+KTEISKVALLNTLYGVFCLEKRSSEPNNFISEVLKFYKEMSPEGFNIFKILLPKDTPSLS
+LENIIDQRVQTNDSIISKNFSHLVTNALLFIDVLAFRQYLEHGTIPEKYLKRIEETVMGI
+VALALKTKTIKSQHDDLLIKLFEASIRYSKFSKVTVDTLETLQLDYYNHKLEHYYFIDMA
+GMALWSDGVVENEEAYFLYSLGSMMGISDDFVTKSIETTNTFITTHKKKIPYFNYSNPVK
+HFYDQMTHSVVKLIVRNKNRLVKEIIQSKELMVLLAYSTTRDLDAKEKKKVKKQLLDICK
+TIPSLTIFLLPGGSLLLPILIKFIPTLLPSAFNENLDENE
+>tr|A0A1S1J642|A0A1S1J642_9FLAO
+MKEEDKEYLDLLNKVYFESSTQFDKQLLFVASGALGLSLAFIKDIVVLSKATNKELLLLS
+WISFGLVILINVISHYTSLKAINYKIENINKKRIDFLRVLIL
+>tr|A0A1S1J758|A0A1S1J758_9FLAO
+MENKPLNFEEFKKALDGEKSKLQNLNDFNIPTDAYHVRDLTKSQVIPSENYSTTVTSPKL
+DSIETHFRNIEELLIEKIIDYKDDLIIGCVAWLTSYRILDALAKCKNVQIIVQKEDFLRP
+DLKTKDRNSWKNILHNKYNKITCEMARFQFSEPMEYLSFACDPTVEGVRCVGNHNSEKSP
+AFPRMHNKFLVFCRTTKNQDNSDFRYWPVSLWTGSFNLTQNATYSLENAICLTDSTGKNE
+LINSYLKEHHQIFTISEKLNWESTWIEPQFRIGT
+>tr|A0A1S1J7H0|A0A1S1J7H0_9FLAO
+MKKLLSRKFYFLPLLLCLWLPNINFAQANQAQKTISGKVTDDKNNTLPGVSISIKDSKYN
+AATDIDGNYTLVYSSSLVNPVIVFSYMGFIEKSEAVNNRGELNITMQEETNKLNEVVVIG
+YGSQKKSNVTGAISTVKKESLETRATTSPSEALQGLVAGVNVQKSGGVAGASVSVKIRGV
+NTFGATEPLYIIDGFQGDINTINPTNIESMEVLKDGAAAAIYGSVAANGVIIVTTKNGQK
+EGVKIDFSSFLSITNPSKTLDLLDADGYRTVHKRMYDEYNKYATSPKALPAYITAPSDVN
+TDWQDEVFRSGFTQNYGLGVQGRQGDFKFALYGNFVKQKGIIIDNQFGSQTGSARVSFKK
+SIFDIDGKMAYIGTQNALPNFQLKEVYTMSPLVPVYDDNEQYGYGLTNKNGLPAGTNPVA
+EEHFRKSNNVGQDITANIAATANIAPWFKYKLAYSYRVKNNQQTAHFPPFIANPKEVHLY
+PLQSELRTTWNEQILDNIITIDKTFGKHVFGLMLGNTFNSQASNWNQVSVEGKTTDYTVE
+NGQLVSIDRPSGFLDPGFETIGAGRGGTYTADGSKFQYNRVSFFGRLNYSYNDRYLLQMT
+VRRDGSSKFGADSRWGTFPSIALGWKIEQEDFFPKDIFISTLKLRASWGQLGNEAALGYY
+SANTLINTGNSLGSGYVQGVGSNPWPGSIALALENRNLQWETTDSKNIGIDYTLLKGKIS
+GSMNYYHNVTDNLLITKKLAPSAGVDDPILNVGKISNSGFEFEVNYRDQVDEFKYNAGLN
+FTTLKNKVVALANEGQTIYGEGLKFNAEHFPTQARVGSPISGFYLYKTDGIFQSVEEVNA
+HNKNGVLLQPNAKPGDIRFKDINGDGVIDDNDKAYSGTGLPKVEVNLTLGASYKGFDFSA
+LIGSGWGNKLYNGNRYFYESMSSGTNMLASTLNSWTPDNRSDIPRAVLQDPNGNSRESDR
+FLESGNFIRMRQLQFGYTIPSKMLGKAKIDKLRIYVSAENLFTITNYSGIDPEFSRSSVL
+NTGIDRFVYPFTRSFVSGIQYIF
+>tr|A0A1S1J7J6|A0A1S1J7J6_9FLAO
+MDIQAELKWIHQEIDKVKDPSFVEKLKHLLQSVNNSTVDSDKAYNLDIENALENIKKGNF
+YTEDQAKEIAKKWGRK
+>tr|A0A1S1J838|A0A1S1J838_9FLAO
+MSTLRFQALQEASNRKPVHFEEIDRKSNIFGSNVFNEKAMRQFLTSDALKGVRDAIQHGT
+KIDRKLADYIAMGMKEWALSKGVTHYTHWFQPLTGTTAEKHDAFFETSYDGSDPVEKFGG
+AQLVQQEPDASSFPNGGIRNTFEARGYTAWDPTSPAFIYGTTLCIPTVFIAYTGEALDNK
+IPLLRALSVMDEAATEVCKYFDKNVKKVTATLGWEQEYFLIDKALANSRPDLMMTGRTLL
+GHTSAKGQQLDDHYFGSIPTRALTYMRDLEQECMLLGIPVKTRHNEVAPNQFELAPIFEE
+TNLAVDHNSLLMDVMQRVAERHDFKVLFHEKPFKGVNGSGKHNNWSLATDTGVNLLSPSK
+TPMSNLQFLTFFINTIKAVNDYETLLRASIATASNDHRLGANEAPPAIISVFIGAQLSKV
+LLELESVTTGKLSPEEKTDLKLNVVGKIPDVLLDNTDRNRTSPFAFTGNKFEFRAVGSNA
+NCSNAMTTLNAIVAKQLRDFKTEVDSLIESKDMKKDDAIFNVLREYIKQSKKILFEGDGY
+SDAWEKEAAKRGLSNFKTTPEAIKAKVSKQALELFDELGILNHVEAEARYEIELEEYTKK
+IQIEGRVLGDIARNHVIPTAIRYQNTLIENVKGLKEIFGKEFETIAKEQIVLIKEISGHI
+EGINSKVLAMTSERRTANQLTDAQKMAEAYCNNVKPYFEDIRNHCDKLELLVDDESWTLT
+KYRELLFTK
+>tr|A0A1S1J6N6|A0A1S1J6N6_9FLAO
+MKKTIVLLTLFVISNLSAQQRPKLVVGIVVDQMKMEYLYRFSDDFSSNGFKRLMNNGYTF
+QNMHYNYMPTYTAPGHASIYTGTTPATHGIVGNEWFSRTLGKDTYCTDDASVKTVGDGTA
+EEGAMSPKNLLSTTITDEVRMGTNFEGKVIGMSLKDRGAILPAGHFANWAFWYSKTGSFI
+SSTFYGEKLPEWVSEFNNEKRYMTYINKGWDLYKPLSVYNESLPDNNPYEGKLYGSAAPV
+FPYDLKGMYEKNDAGVLRATPYGNDLLAEFAMKAIEKEELGKDSITDFLTVSFSSTDYVG
+HLLGPRSMELQDTYLRLDQTIADFLNYLDKTVGKDNYLLFLTADHAGAENVIYLKDRKYN
+VNNYPVKDVRKSLQDFSVKTFGVDLILNYSNFNVFLNKPVLKKKGLDLVKVKQSFKEFLI
+SQPQVKRAYTEEEILANSGKDYYLDFIAKGYDVTQNGDLIILDKPGNIEYSTTGTSHGTP
+YSYDTHVPAIFYGWHIKKGESYDKKAITEIAPTIAQKIKVTFPNGTEAKVLQEVLDEK
+>tr|A0A1S1J3N8|A0A1S1J3N8_9FLAO
+MKTILRSVLLLFLLAFSLQSCEDQDDVAAPASLQVNDFVWKGLNQFYLWQADVPTLADDR
+FSNQEALNAFLRGYSKPEELFQDLLNKPISKFPKGQAIDRFSWIVDDYTVLEQELQGTSK
+NNGVDFRLSYKPGSTTDLVGYVRYIIPNSDASKKDIKRGDLFTGINGTSLTVSNYQSLLA
+ADSYTLNMATFNGTGFDSNGKTVALVKTTLDENPVFINKVITSGSRKIGYLMYNGFYGNY
+DAQLNAAFAELKAQGVTDLVLDLRYNGGGSIQTSTRLASMITGQFTGKVFSKEKWNAKIN
+EYYQSEDPESLLNKFVDKMDGAAINSLNMTKVYIITTSGTASASELVINGLVPYISVVQV
+GETTVGKNVGSVTLYDSPTFGKTNRNPNHKYAMQPLVLKIVNAADFGEYTDGLKPTYEKL
+ERITNLGVLGDPNEPLLSVAISQITGISAKKAGDDSGVTLKAFTDAKAMDGIKNQMYIEK
+APEGLLRALK
+>tr|A0A1S1J1I5|A0A1S1J1I5_9FLAO
+MENILLEIKELSDLMLKKDHSHTVKLSPPVAGSKLKKLTAELNLNDSLLSFYKTTNGLFI
+SWFSDVDILCFGKLNIPKLETLSDYLTKVEKTDLKEYSAFIQKGYIPFDVDIINKFVTFI
+KPIKENYEIIRMSPDFNEVTLNCTLESYLNLGIKTGGLYHWQNYISEEVFNHFTKYNNDF
+FYYLVNTKLKPEILESFFSDSDTKTKSFPSIGGAKFKIPENHKITVHKENLGCSNIEIRR
+AEIAIKGKLNTNFVLYHYRRNGLEISWKSEIYFANFQMLSIETIFGGVLHAQERIWDNNY
+FKFINADKSFEKKLSKFYPLIIEESGDTVFSIENEKISLYIISSSFEPQKINLSFETFIE
+KLYSCGGISGWQNLFIDEYTEKNPLYKDILKGIEHCFPALNLIDFLKN
+>tr|A0A1S1J9H5|A0A1S1J9H5_9FLAO
+MKKTLIILFAFTIQFVNSQELALVKKDSKIGYLSKDGNFKIEPQYKSARSFSEGLAAVEN
+NGKWGFIDAKGAWIIPADFKNVKDFNSGIAVVQKDKDWVYINTKGEVQNAPVSDKLFDFE
+NGVAFIRQNGKVGLINSKMTVVLEPKYDQIKSFENGFARVENNKKWGIINTSGKEMIEPA
+YEEIGNYFKNTSWARKDKTFGIVSSGSFIPVDGAEKIWDFDTQDLTYAKKNGKIGFIDLK
+GNWVITPIYDKVKAFSKSLAPVCVGSKWGYINPKAEFVIEPTYSDAEVFSADGLAPVKEK
+NWGFINQTGKLVIPTQYNITANGFVIALFVKQDKGFIDGLARVKNEGKWGFLKPDGTVLG
+NQWFENAELFSQSKERISTAEIAAEKPKAEAKTTEKSETKTTKKPVAKKKK
+>tr|A0A1S1J9J4|A0A1S1J9J4_9FLAO
+MKTKIALLILFISGNLFAQEQKMSDAEINAFKQDVNVVSKKIKTLSTDFVQYKHLDFLSK
+DIETSGKMIFKEPSLLQWQYKKPYNYSIVFKNGKILINDEGKKSAVDIGNSKIFGRINKL
+IVGSVSGNMFDDKEFVISYFKSKGQNIAKFAPKDATLKKYIKQIELTFDKEEATVIQVKL
+LESSEDYTRIVLKNKVINAKIDDSVFNN
+>tr|A0A1S1JA16|A0A1S1JA16_9FLAO
+MDRKLPKIMASAVVILTFSVSGFAQNTDKRVSQKNVSENGQPSLITFSDKSTYRGTDYNT
+VFKEQLGLKDNQSFSKIKIESDREGFTHEKFQLYEQGIKVEFANYTLHSKEGKLVSMNGE
+FYALQNVKTTPKLSSKAAFDRAVAYTGAKQYLWENPQDAAAMNYEKPKGELVLLPAMEEQ
+GETRKSDKVRLAYKFDIYATNPVSRGDLYIDAETGKVLFYNATIKHLGEYSHGNKVKTAK
+AIHQKEDANTKKAFVAANAATRYSGTQVIQTTLSGASYILADATRGLGINTYNMKKGTSY
+TAAVNFTDADNNWTAAEYNNANKDNGALDAHWGAEKTYDYWSTVHGRNSFDNAGAIIKSY
+VHYSNAYDNAYWNGSVMTYGDGSGTYFDILTAIDVAGHEIGHAVCTYTANLAYQKESGAM
+NEAFSDIWGACIEYAAAPTKSIWLIGEDIERRSGHLSLRSMSDPNSEGQPDTYGGTYWIN
+PNCTPTSGNDYCGVHTNSGVLNHWFYILSVGKSGTNDIGNAYNVTGITIDKAAKIAYRLE
+SVYLTANSTFANARTSGIQSAIDLYGAGSPEVIATTNAFYAVGVGAAYVDSNDTTAPTAP
+TNLAASGTTGSTTNLTWTASTDNVGVTGYDIYQGTTLKGSSTTTNYTVTGLTALTAYSFS
+VKAKDGAGNVSTASNVVNVTTTAASLNYCNSQGNSTVDERIGKVVFGTINNTSTGTTGYE
+NYTAISTNAARGTAYTITITPVWTSTIYSEGYAVFIDYNQDGDFTDAGETVWTKATSTAA
+TATGTITIPATATLGTTRLRVSMKYNGIPTSCESFSYGQVEDYSINITASGAIVNQEIAA
+GLVETNETARFALYPNPVVDELNVSLADNTGYTFRITNTLGQQVSSGALSGNSIDVRTLK
+TGLYVIELNNGAKRIVKKFAKK
+>tr|A0A1S1JCF7|A0A1S1JCF7_9FLAO
+MENLALIDSFSEFKDNKLIDRVTLMAILEDVFRNALKKKYGSDDNFDIIINPDKGDMEIW
+RRRVIVADEDLDFENEEITLTEARMIEADFEIGEEVSEEVKLIDLGRRAILALRQNLISK
+IHEHDNTNLYKQFKDIIGDIYTAEVHHVRPRVVILVDDEGNEIVLPKEKQIPSDFFRKGD
+NVRGIIESVELKGNKPQIIMSRTSEKFLEKLFEQEIPEVFDGLITVKNVVRIPGEKAKVA
+VDSYDDRIDPVGACVGMKGSRIHGIVRELGNENIDVINYTNNIQLFITRALSPAKVSSIK
+IDEENKRAEVFLKLEEVSKAIGRGGHNIKLAGQLTGYELDVIREGDVAGATADEDDVELT
+EFSDEIEGWVIEEFAKIGLDTAKSILKQEVEDLVRRTDLEEETILDVMKILKEEFDS
+>tr|A0A1S1JE22|A0A1S1JE22_9FLAO
+MSFLKEIQRRRTFGIISHPDAGKTTLTEKLLLFGGAIQEAGAVKNNKIKKGATSDFMEIE
+RQRGISVSTSVLAFNYKDKKINILDTPGHKDFAEDTFRTLTAVDSVIVVIDVAKGVEEQT
+EKLVAVCRMRNIPMIVFINKLDREGKDAFDLMDEVEQKLGLTVTPLSFPIGMGYDFQGIY
+NLWEENINLFSGDSRKNIEETIAFSDVQNNPELDKIVGQKAAEKLREELELIDEVYPKFD
+RQDYLDGKLQPVFFGSALNNFGVRELLDCFVTIAPSPRPKDSETRLVDPKEEKMSGFVFK
+IHANMDPKHRDRLAFIKIVSGTFERNKPYYHVRQKKNLKFSSPNAFFAEKKEIVDISYPG
+DIVGLHDTGNFKIGDTLTEGEIMSFKGIPSFSPEHFRYINNADPMKAKQLDKGVDQLMDE
+GVAQLFTLEMNNRKVIGTVGALQYEVIQYRLEHEYGAKCTYENFPVHKACWVKPDDAKND
+EFKEFKRIKQKFLAHDKYGQLVFLADSDFTIQMTQSKYPSVKLFFTSEFD
+>tr|A0A1S1IZW4|A0A1S1IZW4_9FLAO
+MSIKKPVLTFYLFLLLILGGLTSNAQVLRKRTTLLMGGRFDISIVAKDSLTAEQNIDIVI
+AEITRIENLISDWKSDSQVSEINQNAGIRPVKVDREVFELTQRALQFSEATIGGFDISFA
+AMDRIWKFDGSMTEMPSAEAIKKSVEKVGYKNIILDSVQSTVFLKLKGMKIGFGALGEGY
+ATDKCRNIMLAKGIKAGIVNGSGDMTAWGRQPNGKDWNIGMTNPFHPDTLFAVVPLNNGA
+VTTSGSYEKFVVFNGKRYSHIINPATGYPATGLCSVSIFGPNAETANGLSTSLMVLGQKA
+GLLLLKKYPDYSCIMITDNGKLIKSKNFKIKKFKTKL
+>tr|A0A1S1J2A1|A0A1S1J2A1_9FLAO
+MKNEFKKGFYFKSYEAPFQSPFEKLFGIFKELITHTSGDFDEAISWLRELDIEYKLTDEN
+YTIDDFIEDLKKKGYIKDEVKPDGSGGFGITAKTERAIRQQALDQIFGNLKRSGSGNHKT
+KHAGNGDEHTGEFREFNFGDGLERISLTESLRNAQINNGVESFMLTENDLVVEETQYKAQ
+MSTVLMIDISHSMILYGEDRITPAKKVAMALAELITTRYPKDTLDILVFGNDAWIIPIKD
+LPYLQVGPYHTNTVAGLQLAMDILRRKRNTNKQIFMITDGKPSCVRERDGSYYMNSNGLD
+EYIVDKCYTQAQQARKLHIPITTFMIANDPYLQRFVNHFTEANQGKAFYTGLKGLGEMIF
+EDYETNRKKRVR
+>tr|A0A1S1J3M5|A0A1S1J3M5_9FLAO
+MLNIVLVEPEIPNNTGNIGRLCVGTESRLHLIHPFGFVINDKNLKRSGLDYWVHLDVTEY
+QNIEEWIEQIPDQSRVFLMSSHAEKSYLETDFQDGDWLVFGKESVGLSKEVLARFENHLT
+IPMSKLIRSFNIANSVAFVVGEAKRQIGLKK
+>tr|A0A1S1JBH0|A0A1S1JBH0_9FLAO
+MKSVQEIFKNKEYLLDEPEVEKLVEYCEELQDELIEFKFQKTNNKELAMLDMLKEVIKGC
+DAVEKEQMEHERFGYEAPNYQATISNLKSYIYSRCRDEKIWL
+>tr|A0A1S1JAV2|A0A1S1JAV2_9FLAO
+MKNLKIATAQFENKSGDKSYNLSVIEKLSQQAASQGCDVISFHECSVTGYTFARHLSKEQ
+MLNLAELIPSGESILKLTEIARNHNIVILAGLFEKDEDDNLFKAYVCIDQNGLVAKYRKL
+HPFINPHLTPGDQYCIFEIKGWKCGILICYDNNIIENVRATTLLGAQIIFMPHVTMCTPS
+TRPGAGFVAPQLWENRESDPTSLRLEFEGMKGRDWLMKWLPARAYDNAIYAVFSNPIGMD
+DDQLKNGCSMIIDPFGDILSECSSFEDSFVTALLTPEKCIQAGGNRYIKARRPELYRDII
+GQEHQSEQNVVWLNTSEKS
+>tr|A0A1S1JCW3|A0A1S1JCW3_9FLAO
+MLIIPIKDGENIDRALKRYKRKFDKTGTVRQLRARTAFIKPSVIKRAQIQKAAYIQTLKD
+SLES
+>tr|A0A1S1J207|A0A1S1J207_9FLAO
+MLKGFFHVPKAVNEPVKGYAPNSPEKAAVQAAYTTLWNSKIDVPLYIGSEEIRTGNTRTI
+SAPHDHKHIVGTYHLAEKQHIEKAIANALESRKAWANMAWEQRAAIFLKAAELIAGPYRA
+RINAATMIGQSKNIHQAEIDAACELIDFLRYNVEFMTQIYGDQPKSDSSTWNRLEYRPLE
+GFVYAITPFNFTAIAANLPASAAMMGNVVVWKPSDSQVFSAKIIIDIFKEAGVPDGVINV
+VFGDALMITDTVLASRDFAGVHFTGSTHVFKDIWAKIGANIHHYKTYPRIVGETGGKDFI
+IAHPSANVKQVATGIARGAFEFQGQKCSAASRAYIPQSLWPAVKEQLVADVKSMKMGSPE
+DFGNFITAVIHEGSFDKLASYIDQAKKDADAEIIVGGNYDKSVGYFIEPTVIVTTNPKYT
+TMETELFGPVITIYVYEDAKWEETLELVDTTSEYALTGAVFSQDRYAIEVATVKLQNAAG
+NFYINDKPTGAVVGMQPFGGARASGTNDKAGSALNLLRWASPRTIKETFVTPEDYRYPFL
+G
+>tr|A0A1S1J420|A0A1S1J420_9FLAO
+MATYNKRGYKAPKEKEVKEVNEETQVVIDEKDSTTAGVFSKLDETASKTEDWVAKNQKII
+IGLVAGIAIATIGYLAYQKFVENPKQDEAASEMFVAQQNFEKATNGVASDSLYKLALNGS
+EGKFGFVKIADEYSGTDAGNLANYYAGIASLNIGKYDDAIKYLGEFKSKEAIVGALAIGA
+IGDAYSQKNQQKEALDYYVKAAESNKNDFTTPRFLLKAGKTALALGQKEDALKYLTDIKD
+NYDATPEAAAVDVLIGLAQ
+>tr|A0A1S1J5I4|A0A1S1J5I4_9FLAO
+MIKVEEALQRIEANCIKMPTKQIAVNKALGYILAEKVISPINMPPFRQSSMDGYAFIHSI
+KHQYDIVSTFQAGDHSNLKLKANETVRIFTGAFVPDHADTVVMQEHVIANKDSILIAVMP
+TKGTNVRLKGEQIAKDHVVFEAGTLITPAAIGFLASLGITEIEVYKKPKVAILVTGNELV
+KPGEKLKKGKIYESNSVMLQAALETAGISKTKVYRVKDNLKATKKALKDILKKYDMVLVS
+GGISVGDYDFVKEALLQNDVEEHFYKINQKPGKPMFFGSKNGTLVFALPGNPASSLTNFY
+IYVYPAIRNRIGLSEIHRAKIVRTLNSDVKNDTGKTLFLKARYDETNVTVLDGQSSAMLN
+TFAVANGLLIVPEDVEAYEKGTLVTVLPID
+>tr|A0A1S1JC14|A0A1S1JC14_9FLAO
+MAYSNNDLMRFLDAQNKLYLTALSEIKKGKKETHWMWFIFPQIKGLGKSDTANYYAINDL
+KEATEFLEHPILGKHLIEISELFLTFKRKSADGILGDLDARKLRSSMTLFSLVENTNPVF
+QEILDAFFSGETDPLTLSIINSTIESSVETEMV
+>tr|A0A1S1J7I0|A0A1S1J7I0_9FLAO
+MEINLISDTITKPTYEMLQYMFNAHVGDDVYRQDPTVIELETRVAEFFGMEAGLFFPSGT
+MANQTAIKLHTQPGEQLIADKYAHVYHYEGGGVSFNSGVSCCLLDGHRGMINASQVAAAI
+NDPEFYHSPLTSLVCVENTTNKGGGACYELEDLREIKKVCDANNLKFHLDGARIWNALVA
+KRQNPKEFGAIFDTISVCLSKGLGAPIGSVLLGTKEDIRRALRIRKILGGGMRQVGYLAA
+AGLFALAHNIERLAEDHRRAKEIAAVLSTKSWVSAIEPVETNILIFSLAEGYSDQLLIEK
+LKQKNILISSMGHNKLRIVTHLDYKEVMHTYVIETLQKF
+>tr|A0A1S1J7Q2|A0A1S1J7Q2_9FLAO
+MKKSNRKELNWEQTEKIVSLALEEKNPFEIIKKEFGLAEKEILEIMKKKMPLEKFEMWKK
+KAIANKPKPKPVKIDDFDEDLDGKYYIKNKLD
+>tr|A0A1S1J988|A0A1S1J988_9FLAO
+MSIETISLSGRKKVVSNKEMTFMERLYLVAIVKGLFITLKHLFRKKVTIHYPEQVREMSP
+VYRGQHQLKRDEQGRENCTACGLCALSCPAEAITMKAAERKADEKHLYREEKYASIYEIN
+MLRCIFCGLCEEACPKDAIYLTTSKVLVPSSYEREDFIFGKDRLVMPLDVAIKNAQLNNA
+N
+>tr|A0A1S1J317|A0A1S1J317_9FLAO
+MKDLKKYSNKTKAAFILLIVMLLILLGNFNTLQNSKNVNENINAIYKDRLVVAHYIFQYS
+KELHFIKSEAEKLDLSDTIKKDEIIQTLNVIHTIDDLYAKTVLTDTEKQYFDAFLNSCKE
+INHQVAAKNWNKIAVSSNEALKTLEALSQIQIQEGKAKLANANAMYSKNNSLGQLQIALL
+IILGGITFYLLIVKKIKKSIKIPEPPSLN
+>tr|A0A1S1J6M4|A0A1S1J6M4_9FLAO
+MSVIYLLISVSIFVAIGFFVAFIVAVKSGQYDDDYTPSVRMLFDDETKITSQKNNSSIKE
+KQV
+>tr|A0A1S1J907|A0A1S1J907_9FLAO
+MKVKGLFLVFCTFFIFQSCGRKSAADFNSDFSLFKEYIVSFTGGIVSSESDIRVVLAFDK
+KEWKVNQELDDDLFDISPNVHGKVVALSTNTIAFIPEKKLEAGTEYQVTLNLDKLITIPK
+EKEKELSKFNFTVKTIKQDFTINTEDIQSYSKDYQYLNCVLKTADNMDVETAKKLVTANQ
+NGKEVKIKFEKQTGTAKEFRFKIDSIQRFLEASNLEIAYDGSDFDIEQKGQLDYPITGVN
+EFKIVKVDIPEGNNQSLLINFSEPLEKGQDFKGLVSIQNTNNLKFSTQGNVLKVYFSNTA
+PEKKEVPAVAEESAELAVDSSAVVVDSAAVVTDSSAVVVVQNEEETQEPEPVLSGELLLE
+VFQGIESQYGKKMDANYTEKINFDQIKPNVRLVKNGTILPSSNNLKLNFEAVNLSAVDVK
+VYKIYKNNILQFLQYNELNGSQNLKKVAQPIAKTTLNLVESKLINPAKWNTFALDLSKII
+TPEPGAIYRVEFVYKKKYSLYKCETSEESSEEEEEEVDENDVNYSGNSYDDYYYDDYDWR
+ESQDPCTGSYYYNARIATNILATDLGVIAKRGENKSYLFAVNNIVTTEPVSNARVDLYTF
+QQQKIATAATSSEGIASFQLNKFAYFAIVTLGDQSTYVKLDDGYSLSVSNFDVAGETLQK
+GLKGFIYGERGVWRPGDNVYLSFILNDASNKLPKSHPIKFRLNDPNGKTTYQTIQKTNDL
+NHYSFIVPTSADAPTGNWEAMISVGGAKFYKSIKIETIKPNRLKIKNNFSRKTLSSSYPN
+TSTLEVTWLHGAIAKNLNVEMQAKFSQQTTTFKGYEKFNFDDLVRQFSSEEINVFSGKLN
+ENGKASVDIHPKLQGQAPGMLRAAFITKVYEEGGDFSTDVISTTYSPYKTYVGIKAPEPN
+KYGMLETRTNNRFDIVTVDENGRPKSVKNLEVKVYKVDWRWWWDASSDNLSNYNSSDATT
+SYKSFVINTDSNGKGSIQFSLTDEEWGRYLIRVADHTDGHATALTVNIDWPIWSGKTRNR
+DASTANMLVFSTDKKNYAVGEKAQISFPSSEGGRALISIENGSKVVQTIWAKTKQGETKV
+EIPITAAMAPNVYFNITLLQPHASTKNDSPIRMYGIVPIEVVDKNTILAPTLSMPDVLKP
+EQTFTVKVGEKTGKEMTYTIAVVDEGLLDLTRFKTPNAWDSFYVREALGVKTWDIYDDVI
+GAYGGKINQIFSIGGDQDLGGGKAKKANRFKPVVLYYGPFKLEKGQTQAHQLKLPKYIGS
+VRTMVVAGDANTSAYGSVEKATPVKSPLMVLASLPRKISPSEKVTIPVTVFATEKNIKKV
+TIQLRTSGGLKVMGSAAQSLSFAQPDEKMAYFNLVVGSATGIGKVQVIATSGKEKSVYDV
+EIDMTNPNPVTNTYTDVVLPPNSTKTISWKTFGVSGSNKARLEVSSMPTINLNGRLQYLI
+QYPHGCVEQTTSSVFPQLFLSDIVDLDNTRKGIIQKNITAGISKLGSFQLPSGGLTYWQG
+STTADDWGSSYAGHFLIEAEKKGYVLPINFKSKWISYQQREAKQWRFEPKYGNDLAQAYR
+LYTLALAGNADLSSMNRLRETKGISNESRLRLAAAYVLAGQKSAGQNLLLRTSIDNESSE
+YNYYYYGSSERNRAMALETMLLLGQNQKAFTMASKLAKEMSTNQWMSTQTTAYCLYAMSK
+FAASNGPKGINLQFSKNGKGETINTQKTIADRSLTVQTGANSVVLKNLKNNTVYVRVLNT
+GILPIGQENAIQSDVSANIVFKNRKGGVINVSKISQGTEFVAEVTVRNQRNESVQNVALS
+QILPSGFEIVNTRFTDYGDAVNNIADYIDIRDDRTNFYFGMKSRETKVFRILLNASYLGN
+YYLPGLQCEAMYDNTFLARTKGFWVEVVK
+>tr|A0A1S1J5W1|A0A1S1J5W1_9FLAO
+MEECISVFDMLKIGVGPSSSHTLGPWRAAERFLEELKNESILDQTKRVKVDLYGSLSLTG
+KGHATDLSVMLGLSGQDPEYIPVENIAGIIKNIEEQHEIILANEYKIPFYFLQDIVFNKD
+FLPFHANGLKFTAYKADDSEYESTFYSIGGGFVVKEERTNAKIKEEIKCAFPFPIQNAVE
+LLNYTVTENKSISEIVYENEKSMRPEAEIHSELMRVWHTMLECMYIGCHSEGILPGGLNV
+RRRAFDMHQNLIGLSNYSDPQSWLEEIRKTEVKFRQILKWVSCFALAVNEVNASLGRVVT
+APTNGSAGVIPAVLMYYLVIENHNAGEKEIKQFLMVAGEIGSIFKKGSTISAAMGGCQAE
+IGVSSSMAAAALCELMGGSPAQVLMAAEIAMEHHLGLTCDPIGGLVQIPCIERNTMGAIK
+AINAAELALETDSKNAKVPLDKVINTMWQTAKDMNSKYKETSEGGLAIAVNMADC
+>tr|A0A1S1JCM6|A0A1S1JCM6_9FLAO
+MKLTKLLIFCFSFLLFSVVTMAQDVTVSGIINDENGMPVPGASILIKGTNKATASDFDGK
+FQINVPANGTLTISFVGYNTVQEAVNGRTKIDVKLKAESQALNEVVVVGYGTQKKSVVTG
+SISSVKAKDLESLPITRVEQALQGRVSGVSIAANAGQPGSASTIRIRGFTTLNNNDPLWV
+VDGVIVDNGGIGYLNQSDIESIEVLKDGASGAIYGSRAAAGVILVTTKKGKAGKISVSYT
+GFAGTSQAAKKLDLLDANQYVTIMNEANVNGGTPNRYTVPANVGNGTDWQNVIFNNHAQR
+SSHELSFSGGNDTSTFYMSFGLTDQEGIVNSDISNYNRKNIRLNSNHKLGKYIKIGQTLG
+YSHEKTIGVGNTNDEFGGPLSSAINLDPLTPVLVAPGAATGAGTPYENKNALRDANGNYY
+GISTIVTQETSNPLAYTQTRLGNNDFADNFVGNIFAEAEILPGLKFKSTAGGKLAYYGSD
+NFTPVYYLNGATKKDVNELFRSYKKSFSWNWENTLNYDKKIGNHHFGILIGKGTYVDNIT
+SGNDITYRGVPATTHAEASFNVDIPISDKIANAYNAQALEHRVESLFSRLNYDYKEKYIF
+TGILRRDGSTRFGPNHKYGTFPSVSLGWVPSKENFWGENKIVNTLKIRGGYGVTGNDSSP
+DFLYISTVGIQRNYTIGGVIVNGQSPNAIPNPDLKWEETKQLNIGFETTLLHDFNLSVDL
+FNKKTEGILMKVPIPGYVGATGNTYANLADMENRGVDIELGYRKKIGELNLSVNGNFSYI
+KNEITYIDKGVNFLVGDETVQSSSYEINRTEVGHAYNSFYGFKTNGIFQTQADIDSYKNA
+AGKVIQPNAKPGDFRWQDLDGDGVIGANDRTFLGTSLPKFTYGFTMNLAYKGFDMLVFGQ
+GAGGNMIYQGLRRLDISTANYQTEVMGRWTGPGSTNSYPRVTTDDSNKNFTNPSDFNLQK
+GDFFRFKTIQLGYSFPKEWIESISLQKVRLYVTGENLWTITKYTGYDPEIGGPTTAGMNN
+VQGVDRGYYPQAKSYMLGVNLQF
+>tr|A0A1S1J910|A0A1S1J910_9FLAO
+MKIQINTDKNIEGHERLEAYFSGELEKGLKRFEDKITRVEVHFGDENGEKFSLHDKKCVI
+EVRTAKLQPVTVTDHADTLEKAFIGALAKAKKSLTTTFEKMKAY
+>tr|A0A1S1J759|A0A1S1J759_9FLAO
+MKFKSKTVVIKVSVSDILKSKKFYEEILDFKTDGRYTLNSDGNFGTESFIQLYLEHKNKD
+GFMLGLYKDIDTPFYPLPETGTVPSFIVKDIQATLDYFRVNGVVIDEIDGVVINSNTSDD
+GYEDRFFFFRDPDNNSLVVRENILK
+>tr|A0A1S1JAC1|A0A1S1JAC1_9FLAO
+MNRATHPFLLSFLFVICSFPTVFSQNLKIKAVQVSQFANKVDQFLGYDSFGYYYQIKNNV
+FSKIKEKEIFEYKNVSLGTITKVDLQNPLKIVLFYEDFNTVVLLDNQLNKITEINFSFNN
+TPIIVSAIGMSAQNQLWIYNSLNQQIGLFDYLNNEYKTVSTPLTEPIKYYLTDFNTFYWI
+DKKNNWFSCTIFGKITALGKIPDYDAVEIMNHHQYLFSKANLLYFKDITSPDSNAFSEIE
+ILEKSFDKFYYKDQILSIFTAKEITNYKIVTP
+>tr|A0A1S1JCI6|A0A1S1JCI6_9FLAO
+MKSQKLHYTISFLFLFFNAIAQTGSIKYADTKYEKYAYIDAIKIYENVAEKGYKDEKMFQ
+RLGNSYYFNGELVKALKWYDELFSMNKEQEPEYLYRYAQCLKASGNYAKADVILEKFNQK
+QATDKRGILFESNKNYLNEIKANSGRFEIADAGINSKYSDYGSTIFDNKLVFTSARDTGG
+VAKKNFKWTNRSFTNLYTAELLPDGSLGTPQRFQKKVNTKFNESTPVFTKDGRTMYFTRN
+NFLNGKRGRDENKVTLLKLYKANLVEGEWKNIEALPFNSDQYSVAHPTLSVDEKTLYFAS
+DMPGTLGQSDLFKVTINEDGTFGKPQNLGSAINTEGRETFPFISEDNELYFATDGRPGLG
+GLDVFVTKIKDQGTFEEIQNIGEPINSPQDDFAFIINSKDRNGFFSSNRDKGHGFDDVYR
+FTERRKLNCEQQLTGTVTDSETNVILSNANVALFDENFQPVAEVITDNNGNYIFPNVKCG
+KNYFVRTSKTDYESKEVPVAIKRNSGKTTLLIQLEKRIKPIEVGTDLAKTLDIPIIYFDL
+DKATIKKESAYQLEKIVEILKQYPALKLDIRSHTDSRQTQQYNQVLSEKRAKSTRNWLIQ
+KGVAPARLTAKGYGETQLVNQCSDGVKCTDEEHERNRRSEFVITNL
+>tr|A0A1S1JB81|A0A1S1JB81_9FLAO
+MQAHEIDYQIFGEEMQYVEIELDPQEIVIAEAGSFMMMENNIQMETIFGDGSQQQGSGLF
+GKLLNAGKRVLTGESLFMTAFLNQGNSKSKVSFASPYPGKILPIDLTEFQGKFICQKSSF
+LCAAKGVSVGIEFSQKLGRGLFGGEGFIMQKIEGDGMAFVHSGGTMAKKVLGPGEVLKVD
+TGCIIGFTKDVDYDIEFIGGIKNSIFGGEGLFYATLKGPGTVYIQSLPFSRLADRIIASA
+PKSGGNSRDEGSLLGGLGNLLDGDNRF
+>tr|A0A1S1JB07|A0A1S1JB07_9FLAO
+MTFQNTREFAKQLDSEDILNHYQDQFIFPKVNDKRVIYFTGNSLGLQPKRTKAYIDEVMS
+DWADLAVEGHFYAEKPWWDYQERFAGPLSKIVGALPSEVTVMNTLTVNLHLLMVSFYQPT
+ATRYKIICEEKAFPSDQYMFQSQVHFHGYKTEDAIVEIKRREGEHNIRLEDILSKIEEVG
+DELALVLIGGVNYYTGQVFDMKTITAAGQKAGAKVGWDLAHAAGNIKLQLHDWNVDFAAW
+CSYKYMNSGPGNASGCFVHEKHHNNPDLPRFAGWWGHNKERRFKMEPNFDPVHGADGWQI
+SNLPILSLAPYLASVEMFAEVGMDNLIAKRDKITAYLEFILHEIDKEVKGNFEIITPSNL
+SERASQLSVFLHGEGRSLFDYLMKNGVITDWREPNVIRLAPVPLYCSYEDMYDFGQILKK
+GILGE
+>tr|A0A1S1IZB5|A0A1S1IZB5_9FLAO
+MVTKVAAQSVRVSGTVFSKDQKPLEGALVTLYPTHISTITNKKGAYFLNQVPKNTKRIMV
+TYSGYASYETAIVIIQNTIVLPAIFLKPEIQELSEVVISEGYEVRRKKQESLNLEIVNSS
+FIQRNLGGSLMQSLQRLPGVKTISIGSGGSKPLIRGLSFNQVIVVENGIKHEGQQWGADH
+GLEIDQYAVNRVAIIKGPSSFMYGSDAIGGAINIQPVPFPAQHVLGGTVDFTGKSNNEQF
+GGSVNLYGRNEKWFFDSRITAMDYGDYRVPTDTVHVYNYAVPLYKNHLRNTAGRELDVHA
+STGYVTDQLKSIFYFSNIYTKSGFFANAHGLEPRNVDTQLHDRSSRDILMPFQEVTHTKI
+SNTTSFSLGSHRFETQLGFQKNFRREWSHYVNHGYMPPLYPSDMYATKDLERQYDKEVFS
+AAFKDEFSIQNHQFNAGINAEQQQNSINGWSFLIPAFKQFNAGGFVYDKIQLNELWLLHA
+AVRLDYGKIKMKQYSDWFPSQVTENGQTTSEYLKRSEDLTRTFQSFNWSAGVNYTPGQWS
+FKANLGTSFRMPIAKELASNGVNYHYFRFEKGNPNLAAERSYQLDFGMEWKNAKWSFQLS
+PFFNYFPNYIYLNPTSQHDIYYGAGNQVFEYEQSKVMRYGGELQLRYQFLENLSGEVLAE
+YLYSEQMSGDKKGYTLPFSPPPSVLFGISYNPKIKSLKDTYFSLDYRFTAEQNQIVPPEK
+KTASSNVFNLTMGTKLKAGQQDFIISLQVQNLFNTRYLNHTSFYRLIELPEAGRNIILSL
+KIPFLIHK
+>tr|A0A1S1J181|A0A1S1J181_9FLAO
+MVFLGEFRYMKWFCCFNIIQIFYLEQIKIIYFWQKKHKKNEGMLLDSFVITSSHILMRNA
+>tr|A0A1S1J2T9|A0A1S1J2T9_9FLAO
+MSKYEDLKASVQEIIDLIAAKDNREANNKLLEVSDTLDDMLDHAEEDEDLREISRYQVLL
+NQLHVKINGEEQVDGE
+>tr|A0A1S1J3M6|A0A1S1J3M6_9FLAO
+MKKNFAHLLLLAFAAAFTGCSDDDKNDANTGEGLAIPIAVKLQDKFEVNTFKVLNITASA
+ETSNPNYQWVLKKNPVNQTKDSIIGTTKDLRFVALYPGAYELTLNVTEGDKKGTSGTIVN
+VINETQNYNPYITSIQDFNPAPGMFANDLYKDGFSKADVMRVALGRISETSVGYPIDLGG
+FGGSIVVGFDHMVVNLSGKKDFRVYGADLTDKANPPAPGLIYVAYDKNANGKPDEDEWYE
+IIGSQHAKENTVKNFKITYYKPAAGKKVVVSGPNDPFLDREHVYCENNQSQTYFLPRSKT
+KKEYYPAWDTQNTAVYEGTKLNVNFAAVRPGQTTLWNFEAPEWGYVNAKSPDIDIDWAVD
+KNGNKANLPGIHFIKVVNCVSEPMGLCHQQSSMATRFSGAADLQIIKKYNLKK
+>tr|A0A1S1J573|A0A1S1J573_9FLAO
+MKGIILAGGSGTRLHPLTLAMSKQMMPVYDKPMIYYPLSTLIMSGINEILIISTPHDLPN
+FKKLLGDGSNLGCEFSYAEQAIPNGLAQAFVIGEEFIGNDDVALILGDNIFFGSNMQKLL
+KSNTKPEGGVVFAYHVSDPERYGVVEFDENKNAVSIEEKPLEPKSNYAVPGLYFYDNSVV
+EIAKNIKPSARGEYEITDVNKVYLEKGKLKVGILSRGTAWLDTGTFNSLMQAGQFVQVLE
+ERQGLKVGCIEETAWRQGFISDAQLEELALPLMKSGYGTYLLEFLRQKKKGVKI
+>tr|A0A1S1J9W3|A0A1S1J9W3_9FLAO
+MNLKAIITDTHTHLYSEEFDQDRDEMMQRAINAGVTRFFIPAIDAAATQSMYDLEQNYPD
+YVYLMMGLHPTYVKDNYEEELKHVETELAKRKFYAVGEIGIDLYWDKTHLKEQQIAFKRQ
+IQLAKQYKLPIVIHCREAFDEIFEVLEEEKSADLFGIFHCFSGTYEQALQALSYNMKLGI
+GGVVTFKNGKIDQFLNQIDLKHIVLETDSPYLAPIPYRGKRNESSYLVNVIAKLADIYDV
+SEEEIAERTTQNSKDVFGI
+>tr|A0A1S1JB38|A0A1S1JB38_9FLAO
+MAIIITDECINCGACEPECPNTAIYEGADDWRYKDGTSLSGKIILPDGTEVDAEDAQTPI
+SDEVYYIVPGKCTECKGFHDEPQCAAVCPVDCCVPDDNHVEDEETLLNRQVFLHGE
+>tr|A0A1S1J2A2|A0A1S1J2A2_9FLAO
+MNTYSINKGIGRTVEFRGLKAQYLFIFAGGLLGILILVMILYMASASSYICLFIGSGGAS
+LIVWQTFSMNKKYGEHGLMKIGAKKRHPHYIICSKPVRRCLRSIPKSKTV
+>tr|A0A1S1J443|A0A1S1J443_9FLAO
+MDKNQLLMKLWEQYANITPSARRIHELLEERGEEIKNDHIAIRTFNDKRVNIEVLEKPFL
+NVGYEAKGEYNFESKKLFARHYEHATDKDAPRIFISELELEKCSSELQETVQNILNSCDQ
+NLFNDAELVLSGSVWKGNSQAIYKSLLEESEYAAWMYVYGFRANHFTISTNALKGFNTLE
+ELNTFLENSGWKLNASGGKIKGTPEQLLEQSSTLADLYVVDFEEGALEIPSCYYEFALRY
+PMANGELYQGFVASSADKIFESTDVKLQEAK
+>tr|A0A1S1JGQ5|A0A1S1JGQ5_9FLAO
+MKSQDVRKQFLDFFESKGHTIVPSAPIVLKDDPTLMFNNSGMAQFKEYFLGNGTPKSPRI
+ADTQKCLRVSGKHNDLEEVGIDTYHHTMFEMLGNWSFGDYFKKEAINWAWELLTEVYKIP
+KENLYVSVFEGSKEDNVPFDQEAWDIWKELIDEDRIILGNKKDNFWEMGDQGPCGPCSEI
+HVDLRTPEEKAAVSGKSLVNNDHPQVVEIWNNVFMEFNRKADGSLEKLPAQHVDTGMGFE
+RLCMALQGKTSNYDTDVFMPLIREIETITGANYTVKASNEAEEKVNIAIRVIADHVRAVA
+FAIADGQLPSNTGAGYVIRRILRRAIRYGFTFLNIKEAFIYKLVETLSEQMGDSFPEIRT
+QKALCSNVIREEENSFLRTLDQGLVLLDAVILNNSGDTIDGKKAFELYDTYGFPIDLTAL
+ILSEKGLKLDEKGFQEQLQLQKERSRAASKVTAGDWNVLVEDDIQEFVGYDRLSHQVKIT
+KYRRVDSVKDGEIYQLVFNATPFYGESGGQTGDKGYLEAQNGDIVYIIDTKKENNQTIHL
+AKSLPENLTGTFNAVVDANQRAKTSSNHSATHLLHQGLRKILGTHIEQKGSMVRNASLRF
+DFSHFSKVSDEELKEVENFVNARIRESLPLIEKRAIPKDQALEEGAIALFGEKYGDLVRM
+IKFGDSVELCGGTHVANTADIWHFKIISEGAVAAGIRRIEAITSEAAKDYFESQLLSYEE
+IRETLKNAQDPVKAIQSLQEENIQLKKQLEILLKDKAKNMKGDLAKELQEINGVQFLAKQ
+VDLNPEGAKDLAYELGNSYHNLFVVFATAQEGKPMLTCYISKEIVAEKNLNAGQVVRELG
+KYIQGGGGGQPFFATAGGKNVDGIAEALAKAVDFVK
+>tr|A0A1S1J200|A0A1S1J200_9FLAO
+MNHILSDRINNLATSQTLAMAALARELKAQGKDIISLSLGEPDFNTPDFIKEAVKKAVDE
+NYSTYSPVEGYLELREAICKKFKRDNALEYKPSQIVVSTGAKQSLYNIAQVMLNDGDEVI
+LPAPYWVSYFEIVKLSGGVPVEVPTSVDTDFKMTPEQLEAAITPKTKMMWFSSPCNPSGS
+VYSREELTALAKVLEKYPNIYVVSDEIYEHINFSGTFCSIGSIPGMLEKTITVNGVAKAF
+AMTGYRIGYIGAPEFIAKACVKIQGQVTSGANSVAQRATITAVEADPSVLNHMVQAFHTR
+RDLVVGLLKEIPGVKINVPEGAFYVFPDVSSFFGKTLRGTEIKDANDVSMYLLAEANVAT
+VTGDAFGNPNCIRFSYATSDDILKEALRRIKEALTA
+>tr|A0A1S1J5J7|A0A1S1J5J7_9FLAO
+MKIKTIKASETWQIRHEVMWPDQPFEFVQLEEDALGLHFGVFVEDKLVSIVSCFINDDKM
+QFRKLATLEEYQGKGIGSELVKYILQLAKEKKLKKVWCNARVNKKAFYEKLGMQDMGQVF
+TKAGQQFTIMEILL
+>tr|A0A1S1J8V9|A0A1S1J8V9_9FLAO
+MKNSIVYLGVALVAFANVSMASNHTTVVKPQLEIVNSFSTPLNVAVSKGDLDFVKKLLEY
+GADVNEMSEGLSPLMIAARYNKVDILKVLLAKGADASARNEKGFTALKYAELSNATDAIA
+ILKGLK
+>tr|A0A1S1JD81|A0A1S1JD81_9FLAO
+MKKSLIFLRFLLLFNVINMAAQQNAQYTQYMYNTININPAYAGSRGMLSTFVLYRAQWVG
+LEGAPKTSAFSINTPINDSNLGIGVSLVNDKIGASDKSSLSTDFSYTVQTSDNFKLSFGL
+KGTVSLFNLDTSRLNPADLDDPNLQNLNNVISPNIGAGIYWHSDKAYIGLSAPDFIVTNY
+YDNNEVAIFKNKINYYLIGGYVFNLSPYNNIKFKPAVLAKVVQGAPLQVDASANFMFNNK
+FMVGIAYRWDAAFSTMAGFQLTDGMYIGYGYDLESSKLNNYSNGSHEVFLRFEFIRKQSR
+MTTPRFF
+>tr|A0A1S1J1F5|A0A1S1J1F5_9FLAO
+MKNYTLLAFLFFSISNFAQIKGTVTDEKGTPLPFVSIFEENTYSGTTSNEQGKYQLTVKE
+PGKNKIVFQYLGYKTQKITISANAKTTLPDVKMTEESFALNEVVIDPKNNPANTIIKSAI
+AAKKDNSDKIARYIADFYSKGMFKVKDLPKKILGQKVDLGDDLASNLDSTGTGILYLSET
+ISKVTFEKPNKLKERIIASKISGNNRGYSYNTASRSTYDFYENTINFDTKLISPIADNAF
+AYYKYKLEGTFFDDNKQQIYKIKVIPKRDKEPVFEGYIYIVDDSFAIYAIDLDIKGYRMK
+NEFTEVMNLKQNFTYNTQNKIWIKNAQTLDFTAGLFGIKFSGKFAYIYSNYDFPASFENK
+TFGNEIVSFELNANKKDDAFWNNIRPIPLTIEESSDYTKKDSLQIIRKSQKYTDSVDAKN
+NKFKVLDVLMGYDYKNTYKRHSFEYKGLLNLASLSFNTVQGFNLDSGFSFKKWSEDESKT
+TSLSTTFNYGFSDQRFRVTGEFSHKFNTINHATISASGGTKVAQFNSAEPITKLVNSVSS
+LFFKDNYMKLYNLEFAQINYSQNVLNGVSLNAKLGYEQRKPLFNTTDYSFFKREDLYSSN
+NPLAPNDFTTPAFEKHHLFKTSLSARINFGNKYISRPDGRYNFKNDKFPTLFLNIEKAFA
+ASEKKYEFEKIGAAVLYDLSLGNKGVLGMSFKAAKFFNADNISFVDYKHFNGNQTHIGTS
+SRYLNVFNLMPYYTNSTNDSYFEMHLEHNDKGYIMNKIPLLNLLKSTLNIGFHSLAIPQR
+KPYSEFTAGLDNLGFGKFKIFRVDYVHSYQGGIQQNGVVFGLKILNVLD
+>tr|A0A1S1J386|A0A1S1J386_9FLAO
+MKKYISTSIKSIATVTAFLAICLQGYSQDKKQEISISVAGPGSFLKYSGGGTIVPGNGIS
+AGIRYSYYLNEGLSIGIGAEYQSYNSDAKYASFSGQYVTKDAENETFQFRYKATNFREEQ
+SLSYINVPIAIQFETKGTTQLYVAAGAKVGFAIKGCYQSTFQNLTTSGYYPQYNVELFNP
+AFAGFASTNDVKTSEQDLDTKVSYSATFETGVKQKIGNRTSFYLGAYIDYGLNNIYNKNG
+DKSLVQYNPDLPVQLQYNSVLDSPSVHNVRLVSYGLKLRFALR
+>tr|A0A1S1J6B0|A0A1S1J6B0_9FLAO
+MWFKRDLRSTDHEPLFMAQQENIPLLLLYFFEPSIMTRNDSNVRHWRFAYECLKEMQSKL
+KSIGAHIYYFHNEVQPVFEQFCRIYEVQTVFSHQEIGTKITFDRDIAMQSFFDIQSILWK
+QSQLHGVIRKLKSRQGWDERWEKVMRADPKMIDLNTFKFEDLDAGFYQNLKGKTLSEAIT
+THNKNFQQGGEYWAWRYLKSFAEERHVNYSRHISKPGLSRKSCRRLSPYLAYGNISMRMD
+YHYTNQFYQGSPNQKAMLNFVSRLHWHCHFMQKFESDCRIEFENIDPSFDVLIKPKIENY
+IKAWQKGQTGIPIVDACMRCLTATGFINFRMRALVVSFFVFNLWQDWRQLHFLALQFLDY
+EPGIHYPQLQMQAGVTETGTIRIYNPIKNSDQHDSEGIFIKKWIPELANIPPLLIHEPWK
+LGSIDQQLYECEIGKDYPFPIVDIEETRKYASDAICSIRKKQENIL
+>tr|A0A1S1J9S2|A0A1S1J9S2_9FLAO
+MASEEKSLNFIEQIIEEDLKSGLSKTKLHFRFPPEPNGYLHIGHASSIALNFGLGIDYQS
+PVNLRFDDTNPEKEEQEFVDAIKKDVEWLGYTWSEERYASDYFQQLYDWAVLLIKKDKAY
+VDSQSSEEMAIQKGTPSTIGTDSPYRNRSVEENLDLFERMKNGEFEAGTHILRAKIDMKS
+TNMLMRDPIMYRILHKHHHRTGDNWKIYPMYDWAHGQSDYLEGISHSFCTLEFLPHRELY
+DWFLDQIFEDNKLRPKQREFARRNLSHTVVSKRKLQQLVKEKHVNGWDDPRMSTISGLRR
+RGYTAASLRNFANTIGIAKRDNLISVSVLEFCIREDLNKIAPRVMAVLDPVKLVITNYPE
+GKEEWLEAENNQEDENAGFRKVPFSRELYIEREDFLEEAPAKFFRLTLGKEVRLKNAYII
+KGESVIKDSEGNITEIHVSYDTDSLSGSGTEASQRKVSGTLHWVSIQHAVEAEVRMYDRL
+FTDEAPDSYKEKNFLDFVNPNSLEIITGFVEPSLATAQNEDKFQFQRLGYFTVDKDSTPS
+KLVFNKTVGLKDAWEEKGKKEENSINNSLKDINKYFKVETKAERIAIESAIGESIKNVSS
+FSLLQNSLKKNINNNKGSLLFAQFILKYSSLKSPDFEEDDIKKLYTMSLRSESTYVRSKA
+LLNLRDLENESLRKQFEEDILKLHSNPPKNASEREIEILSEMIQK
+>tr|A0A1S1JC47|A0A1S1JC47_9FLAO
+MDFQYNETQLMIAQSIKDFAEKNIRPNIMEWDESQIFPVSLFKQLGEMGFMGVLVPEEYG
+GSGLGYHEYITVVEEIAKVDPSIGLSVAAHNSLCTNHILTFGNEEQKKKWLPKLATAEHI
+GAWGLTEHNTGSDAGGMNTTAVKEGDEWIINGAKNFITHAISGDIAVVIVRTGEKGDSKG
+MTAFVLEKGMKGFSSGKKENKLGMRASETAELVFDGCRVPDANRLGEVGQGFVQAMKILD
+GGRISIGALSLGISKGAYEAALKYSKERYQFGQPISNFQGISFKLADMATEIEASELLLH
+KAAYLKQQHKSVTTLGAMAKMYASEACVKIANEAVQIHGGYGYTKDFPVEKFYRDSKLCT
+IGEGTTEIQKVVISRNLLKE
+>tr|A0A1S1J2I0|A0A1S1J2I0_9FLAO
+MTENKNKQSTFPKWMGPLLEALRQLGGSGRPKEVTNTIAKNLNISDKTLEETTKTGIPRF
+YNQVAWARQYLVWEGFLDASSKGIWTLTPKGNETYLTEKQGREIFLKWVEINQKARKAKS
+KNEILKEQEEDEPENIEHTLKPNLLEVLQGLSPKGFENICKRLLREHGFENVEVTGGSHD
+GGIDGYGTLELNPFVSIKVLFQCKRYKGTVSRAQVGDFRNAMIGRAEKGIILTTGTFSED
+AKREASRDGAPPIELIDASKLIDLFEKVQLGLIPKVVFEVDLKFFEPYLDKEKVNS
+>tr|A0A1S1J2M2|A0A1S1J2M2_9FLAO
+MKKLLIALAIVLAPFASEAQIKTPQASPKGYIKQTVGLTDVEVTYSRPGARGRAVFGNLV
+PFGKLWRTGANENTIINFSDDVVIDGKTLKKGKYAIYTIPKIESWEVIFYLSTDNWGLPE
+NWSDSYVALRTTVKEDALPTPVETFTIGINGLDPNYGYLEMSWENSHVALKFEVPTAKTA
+TASIEKVLGGPSSNDYFSAATYLFQANGNIETARTYVDKSLDLSADKPYYILRLKSQIQA
+KQGDKKGAIETAKISLAAAEAAKNQDYVKLNKDSIAEWSR
+>tr|A0A1S1J0U8|A0A1S1J0U8_9FLAO
+MKDKKIIQDYWLNKIKQYSNDSSYLLSRYEQVPSGQYSLLLKKSSLDKIAKLSGGNAIAA
+ATIYLSVFNTLLKRYTNNESIWVASSPFNLEGVQPEKDTLLFYNTAISNVSSLRDAINAT
+KKEIEDTLLYDTIDFELIEKEFLNVELTSEDYLQYAFVYQKLNHRNNLLAQAKLCLEIED
+TTAGKESITIHFDTAKYDALFIQNMVEHFIYILENSSELIDTKVDDIEFITASEKQQLQE
+FSGESEKKIDASVIGIFEQQVKATPENIALVYKEKKHTYTAVNRKVNHLASLLQKEYGIT
+SGDIIGIMTDYSDNTIFSFAAALKLGATYLPLDYNLTTERLDYILSDTQPKVIITQIEYL
+NDLLHYDIPLFSIDVMLNEENISDVNWENNSKGDIAYIMYTSGSTGVPKGVVVKDKSIVR
+LVKETNYIEIDPQDRILAISNSSFDGSTFDIWGALLNGATLHIPEKDLVLNFELLFQAIT
+ANEISVVFMTTALFNSMVDTDIDSLKNLRKILFGGEMVSVSHVRKFVNHFGSGRLIHVYG
+PTENTTFSTFYPVEEVSEEAPSIPIGKPISYTQCYILNESMKLQPVGIAGELYVSGEGVA
+AGYLNQEELTSKSFVENPYQENALLYKTGDICKWLPDGTIEILGRRDSQVKIRGFRIELG
+EIERKITSFNSITEAVILVNKDSHDVKFLAAFFVADVTINTEELRSFLIQKLPNYMVPAH
+ITQVPQIPLNRNGKVDQKELNKLAKSNTETTRELVLPTTEIQIALHNIWKELFDKEDISI
+TDDFFDIGGHSIKAMNLVSTIHKNLNIKIDIGNVFEDRNIKALSETILQAQENVFQEIEA
+LTEQSNYAVSSSQQRFWALSQFQEANKAYTIPSIYTLTGDLDQTALAFAFQTITKRHESF
+RTTFKEDENQELRQFILPEAESNFEIDFVDFYNRSEKELEETINNLIQVVFNLSEGPLLK
+VSVLQVEESKAILVAVMHHIISDGLSMEVFIEELLHLYKARKNKLAVDFKPLRIQYKDFA
+AWQNEQLENESLQVHKAYWTEKFSGELPVLNLQKSKIRPKIKSYNGETITINIDGRTLKH
+FKNILDQENLTLFMGLLTVANVLIYKYTNQEDIILGTTISGRNHIDLEGQIGCFINVLPL
+RSQFSHKDSIIDLFRKVKKVTQEAYEHQIYPFEQLIGDLNLTHDISRNPLFDATVVLQNA
+DLDQKLEVLNSEGLEIALYEKIKATVSRFDISFNFVETVKGLEFSLVYNTDIFDTIFIRQ
+IQKHFHNLLNAVIANPHNSIASLPYLSVGEIQLFTSDFSAGTFNSQVCLDIVEAFQYQVR
+KTPAQIAVVYKNQQLTYEELDRNANKIAHLLITEYEVTSGEKVGIILDKSELLISTILGI
+LKAGGVYVPIDVESPKIRKEFIVNDIGAKVIITQMDYMFDLNFFEGSIIAIDVQLDALEN
+HSPAPQITNSPDAPAYIMYTSGSTGNPKGVLVPHKGVTRLVKNTNYIDFDRVHAILSTGS
+VSFDASTFEFWGALLNGGKLVLCDKEDLLNTTKLASLIKTEKVDTMWFTSGLLNQFTDQD
+VSLFEGLINVLAGGEKLSAKHIRKLLEAYPELNLINGYGPTENTTFSATYKITAPVEEDI
+PIGKPINNSKAYILDQNLELCPLGVVGEIYLAGDGLSLGYLNAEELNAEKFLNPRSLNRE
+RVYKTGDLGLWLPNGNIKFFGRKDSQIKLRGYRIELNDIEKTLDAHPDINGAVVVLKQLS
+ETADEKFIVAYVKSNQVMNQKELKAYLAERLPFYMIPTYFIEVEDFILNKNGKIDKELLP
+EIDLSQLEREYISYRNETEKTLSEIWSEILLIEKISVTDDFFEIGGHSLRAVKLANMIQE
+SFGVEVSIGHVFQFRTIETMAEQLRFIQKQEELTANKKDLQEIDIDL
+>tr|A0A1S1J6S3|A0A1S1J6S3_9FLAO
+MIQEIITYMNIVNSIENLIDTSPYKKNYIIEKVGIPSPTFYRKLKSQTFTPDEVLSIAKI
+LSPEENFRLELKADIEQAKREFEEGNFMTHEDMLLELKSNGII
+>tr|A0A1S1J6V7|A0A1S1J6V7_9FLAO
+MATNKELLGKGIKYLSGSLPLLFIGPSLIYNAFMNQHTNWHYLVLGIGIVACLSAMFLIF
+YGLKIIMKGLFND
+>tr|A0A1S1JBN8|A0A1S1JBN8_9FLAO
+MSVKQAATIGEVIQLLDEIIELSKIEQSNIGLFATLYREVTVKVKEGIQNGAFQNGERME
+KLDVIFANRYLKAYYEYKAKEKPSECWGFAFEQAEKFWPIVLQHLLLGMNAHINLDLGIA
+AAEISTAEDIGSLKADFDKINTILSSLVGSVEKCLIKIWPTLTWILKLTGKADTFFIDFS
+METARDGAWKFANEFVAVPEDKRVACTHERDVRITEIARLVSNPGYFVSAVFKFIRLFER
+GTVAQKIIDMQIVEQKNMECAVA
+>tr|A0A1S1J033|A0A1S1J033_9FLAO
+MTRMYHYATVSKALDQLNEKGFTFDFNLNSDLIKKNPEKFEIVHVYRYEGNSDPGDEAVV
+YGIKSISGKKGVYVAGFSADSDQETVKFLSDLSIKGR
+>tr|A0A1S1J0W1|A0A1S1J0W1_9FLAO
+MIKPTEMTDLLTVLEKLWKRTLQPDGSTVQTDDETWNAEIKALFQLGIGMEDTLQYLYFE
+KPDFDTFKIWISNRKRNINYESEGITTDVLSQEDLEFWNENGYVVLKNAISEKDCEDTQR
+AIWDFLQMDPFKEETWYERHEDQKGLMLNFSDHETLNRNRFSTKIKRAYEQLYKTDQLYK
+TIDKVSFNPPETRDFTFLGSPLHWDMSLRQPIQFEIQGLLYLTDCGPEDGAFHCVPGFHN
+QIDDWLNNLDPNVNPREEAIKTLKSEPVLGKAGDFIIWNSALPHCATPNKGQNPRMVQYL
+TYLPNDHNIAGEWI
+>tr|A0A1S1J6M8|A0A1S1J6M8_9FLAO
+MNDIFKALNDATRREILELLKHKDMSAGEIADAFNISKPSISHHLDILKRADLITSEKTG
+QFIIYSINTTIMEDVLQWILTFKK
+>tr|A0A1S1J8P0|A0A1S1J8P0_9FLAO
+MIENLIHTLENLNIRLRVENGDLKINAPKGTLTPEIIEEIKIHKNRFITLLSSSESIPNA
+AIKESYALTSSQYRLWTLSQFESGNSAYNLFAAFEFIGALEFEKLAEAFQILVERHESLR
+TVFKEDKQGNLGQYIVSAAQYTGALQFRDLSNATAEVLSNHINTLQRHAFDLEKGPLFIG
+EIVKTTADHHILMLNMHHIIGDGWSMGVLSKEFVTIYNGLVIGNEIVLPDLPIQYKDYSE
+WQNSPSRQAVLEKSKALWLETFSGDLPVLELPSNKVRPKFKTYNGSGIKHSFSKESTTAL
+NTYAQQNGVTPFMVLMAGINGLLSRYTNSRDIILGTPVAGREHSDLENQVGLYLNTLAIR
+TTFEATASFEELLTLQKETLLNAYSHQDYPLDSLVEALDLKRDLSRSVLFDVLVVFQNQQ
+ELLGSESLTINGVEIKPYKNLKKSFSKFDLTFAFSEYQGEMALDFEYNTDIYESEFVVRL
+AAHLENFLTKAIQNPEQKVATLNYLSETETTQLLEDFNNTVVAYPKDHTMVDLFVSQAKK
+TPEQIALVTDTKSFTYKELDEISNELSHYLLSNYNLAVEDLVGVKLGRSEWLPIALLAVL
+KSGCAYVPIDPNYPAQRIEYIEQDSKCKITIDDSFIESFKQAEFISKSLPQISFSSEHLG
+YIIYTSGSTGKPKGVMITHQNAVAMLCWSQREFSDTDFDTLYAVTSHCFDLSVYEFFYPL
+SIGKQIRLLANGLSIGDYIQSDKNVLINTVPSVIHTLIEKGTTFENAVGINLAGEAFPVS
+IANHFADSGIAIRNLYGPSEDTTYSSYYRVEGTYENSVPIGKALDNTQFYVLSEELALQP
+VGVIGEICISGDGLSRGYLYQPELTAEKFITNPFNENTKLYKTGDLGKWLPDGTIAYIGR
+KDSQVKIRGHRIELGEIEQVLQSQEDIDQCVVVTATVNGDPVIVSYLVSTATIDKQQLRQ
+SLSRELPEYMLPSFYVFLDKFPLTPNGKIDKKALPSVSTEDVIQQEYVAPTNEIEEKLVA
+IWEDILKLEKIGITDNFFELGGNSLKATVLINRINKAFDTRFSIEDLYETQNVIGVSEKL
+KFIVFQNELAGESVDDLDEIMI
+>tr|A0A1S1J281|A0A1S1J281_9FLAO
+MKKNFFLSFALAASFFVSAQQKNILLEQSFWKTAPDVNAVKAEIAKGNSPTVPNANAFDA
+TVVAINNDAPIASIKFLLDQPGNTIAKLTHDNRIYLHWAAYRGNLELVNYLITKGSDINL
+EDSHGTTPIAFAASNGQTNTALYDAFFKAGIDPKKKYADGANLLLIAVASDKDLVLTDYL
+VSKGLSLKDVDANGSTAFDYAARTGNIALLKKLLDRKVKPTDNALLIAAQGSRRETNTLE
+TYKYLVEEVKLKATATSKSGENVLHLLANKPNQGEIIAYFLAKGVDANKIDKDGNTPLMI
+AAGARETAALDKLLPVTKNINLQNAKGESALTFAVRSGAPEAVATLLSKGADVNVKDKDG
+NNLGVYLVQSYRPMGREANAAQDPFEAKIKLLQEKGLNLAAVQKDGSSLYHSAIAKNDLN
+LVKKLAPLNIDVNAKNKDGLTALHKAAMVAKDDSILKYLLSIGAKKDINTEFDESAYALA
+KENESLTKNNVSIDFLK
+>tr|A0A1S1J429|A0A1S1J429_9FLAO
+MPKMKTKSSAKKRFKVTGSGKIKRKHAFKSHILTKKSKKRKLALTHSALVHSTDMKSIKQ
+QLRII
+>tr|A0A1S1J8M5|A0A1S1J8M5_9FLAO
+MKKTLLSLLLIAITFSAKSQSYLGYTHDNYAGVQSVLFNPASIADSRFKTDINLFSVSGT
+VANDLYGVRLFDVYKKGYDFDKQSIMTPANSNNGLVNFDIMGPSFMFNIAPKHTIAVFTR
+ARSVTNAYNVNGSLVNEVKDGLDHASNFNFNLGNPNAVSHSWGEFGVSYAAVLWQNDQHF
+LKGGLTAKYLQGGVNGYTQGRGVKVAFVENKANPRASTLFSEGEVTVGASQDFDANKDYK
+FDANSNGFGFDFGLVYEWRPEYKKYDLNKATRADNNFRDLNKYKVRFGLSVTDIGSINYK
+NSKLDTYNVTGVVTEKMINDADNLYDFLNEHYTKVSTSKGVRTNLPTAIHADVDWNMYRK
+FYLNLNGDISMVSDSKLNGSSIANRVSLTPRYESRWFSFYVPMTWMEYSGMQVGSGIRLG
+AFFIGSGSVLTNLVSKESKAVDFHLGVKIPVYQKKFKDTDEDGVIDKEDSCRKVAGPEEN
+NGCPWPDTDGDKVFDKDDVCPSVAGPVENKGCPWKDSDGDTLLDNVDACPAVAGPVENKG
+CPWPDTDKDGVLDKDDACPDVAGPAENKGCPVLDADKDGVLDKDDACPLVYGPAENNGCP
+KVTKETLAQLKVEAKSIFFTTGKATLSDARKGETSGRLDAIKEILKNYPNAKFAINGHTD
+NIGNPKANKKLSEARAKVVMDALIEKGVNPANLSSQGFGSAKPVQSNKTAKGRAENRRTE
+IVYLGNL
+>tr|A0A1S1J9Z1|A0A1S1J9Z1_9FLAO
+MELKINQQIKNFDAESLSIQSLLDLEIPNKQNGIAVALNNTVVPKSNWNEQLVSETDEIL
+IISATQGG
+>tr|A0A1S1J6U7|A0A1S1J6U7_9FLAO
+METKKPENIDEYIGSFPNDVQEILERIRMTIQNAAPDAKEKISYSMPAFEQNGIVVYFAA
+FKNHIGLYALPSGHDAFKEELSKYKSGKGSVQFPLNQPMPYDLITEIVKFRVKENLKKAK
+TK
+>tr|A0A1S1J145|A0A1S1J145_9FLAO
+MNGFNKIKVIFTFFLTILSFCAYSQANVFKVTLDAGHGDHDFGAVYSGRIEKNIALAIVL
+KVGKILEGSPNVNVIYTRKTDVFIDLVERANIANRANSNIFVSIHCNANKNTAADGTETY
+VMGLSKVASNLEAAKKENSVITLEKDYKRKYEGFDPNSPESMIGMTLMQEEYLDNSISLA
+SKIEDNFDKLGKKLRHGGVKQAPFMVLHKAYMPRVLVETGFVSNPTEGNILNSEEGQNDI
+AKAIAEAILSYKSEYFGSGIPEIVDSKPAKDTSTPVKTKEVETPAAVKNAPKGTFFRVQL
+IASIKKTPLEPKNFKGLKNVTMLYENNIYKYFYQETSSYDAAKKYLEEAKDKGYGAAFLV
+ATKDGEKISIQDAIK
+>tr|A0A1S1J2C5|A0A1S1J2C5_9FLAO
+MTLLQFIKSKLEEDSQVGDVARDSQRDADFKELKTDDERLEHLKRKLINVREAFKAFKSE
+FKSVKS
+>tr|A0A1S1J3P6|A0A1S1J3P6_9FLAO
+MEIHAKIKRIIDELKLNNNSFAKLIGVTSTTIDSITIGRLQSDGERKRTKPGFDLLQSII
+THCNVNPEYFFGASDEIFVQKTNDAVGLNLPKIITVNEDGEENINFVGVKARAGYLDGYS
+DPEYMETLPSFSMPMLKNGTYRCFEIKGNSMSTTIHDGDYLFGKYVDNFDDILDGRIYVI
+ISKNDGVVVKRVLNRIRESGKLILKSDNRDGNYPMYSIYAEDILEVWYASMYASKQMPDP
+VNIYEKIHDLESKFYEMEETLRKKLN
+>tr|A0A1S1J8P2|A0A1S1J8P2_9FLAO
+MRSPVIVQKRIKKQLDAMINRFLLTIILGTFWAINIEAQVKSNKKIDAYIVEIKKQYNIP
+GLAVAVVKNGVLIHKKNYGLANIEMSVPVTDKTLFPLFSTTKVMSVVAVYQLIEQNKLSL
+ESTISDFVEDLPDSWKKVRIKNLLTHSSGLPDIVEYTDSKEEDTKQKVYSDTIKFSPGNQ
+FDYNQTNFWLLNRIVQKVTRKKLSEYILDTQFPLSQKEAVFEGNNLKVVENLTYGYVNTA
+NSGQILKRNWNFPEYEYGAAALNLTLDAFVEWNRKLDSNEFISEQTKVQLLKPFDYEVKR
+DFTYGLDFIKVKGEVSYGFSGGVSTAFRKFPDKKLTIILLANGMFIPTDKLNGINEVVNN
+IASIASP
+>tr|A0A1S1J1P4|A0A1S1J1P4_9FLAO
+MSIQETIQTLRNELNQHNYNYYVLDNATISDYDFDIKLKELQDLENKHPEFFDENSPTQR
+VGGAVTKNFKTIAHQYRMYSLDNSYSKEDLLDWEARIQKVLGNVDLQYTCELKYDGASIS
+ITYENGKLVQALTRGDGFQGDEVTNNIKTIKSIPLQLKGNYPDKFDIRGEIILPFAGFEK
+MNQDLIEIGETPYSNPRNTASGSLKLQDSAEVAKRPLECLLYFVTGNNLPFTSQFEGLES
+ARNWGFKVPNEAKLVQNMQEVFDFIDYWDVHRHNLPYETDGVVVKVNSIQHQEELGYTAK
+SPRWAIAYKFKSEQVSTTLQSISYQVGRTGAITPVANLEPVQLAGTIVKRASLHNADQIE
+KLDIRINDTVFVEKGGEIIPKIIAVDLSKRPEDSEVTAYITHCPECQTELIRNEGEANHY
+CPNFYGCPPQIIGRVQHYISRKAMDIEGLGGETVALLFNNGLVHNYADLYELKVEDILPL
+ERMAQKSAENLVKGVEKSKEIPFESVLFALGIRFVGETVAKKLAKHYKNIDALRQATLMD
+LILVDEIGERIAKSVIEFFENKENQEIIDRLKSYGIQFEIVEKINPNATEKFIGKTFVVS
+GVFTQFSRDELKKTIEDNGGKVGSSISAKTDFVVAGDNMGPAKLEKASKLNIPILSEEDF
+INKLNESE
+>tr|A0A1S1J6K9|A0A1S1J6K9_9FLAO
+MYKKFTDEELVELLRQGKDKAFDELYFRYRDELVRFVYVRMKSVPVSEEIVQEVFTTIWE
+RRKSLVIQKKFSAYIYTSVRYTTLDYIKMHTITDQYVREVIDRNTNDCDGSNTTEDSIYY
+EELQEAVDKAALLLPKKSKEVFILSRIKHYTNKEIAEELNVSHETVKYHIAYALKFMRNY
+LGEFN
+>tr|A0A1S1J9R7|A0A1S1J9R7_9FLAO
+MRLSAMGDVAMTVPVLRAFVKQYPTVKITVISRPFFKPFFEGIPNLEFFAFDEKQRHKGF
+AGLLRLYSDVKKLKIDAFADLHNVLRSKIVSLLFALSGKKRATVDKGREGKKELTRAENK
+IFAQLPTMFERHAKVFEKLGFPLDLSNPEFPKKAKLSSDILEIIGDQNQKLIGIAPFAQY
+NSKVYPQDLMQEVIAKLAENKTYIILLFGGGKKEIEILDSFSQSFENVVNVAGKIKFQQE
+LQLISNLDVMLSMDSGNAHIAAMLGVKVITLWGATHPYAGFLPFGQTMENALVSDRNQYP
+KLPTSVYGNKIVEGYEDAMRSISPKDIVTKIQLSI
+>tr|A0A1S1J0C4|A0A1S1J0C4_9FLAO
+MVKLSAYWKIQLIGWAATSLYWGVSAFFGSSFMWTIGIADFVLDVFIGISLTHLYRNFAL
+KRGWNKFSLKKLVPRMVLSVLILSVLYMLLIVGKLYLVRLFVLKSTSISFISFLQSTQLQ
+VFITGTRLMSIWVLAYHLYHYSRLEIETVKENARLSIILKEAQLNNLSTQLNPHFFFNSL
+NSIKFLVLEDPHSARRAIDLLSDLLRNSLNNNIGNLVVLSDEISLVRDYLELEKIRFEER
+LQVQIEVDSNLSDHLVLPLSIQALVENAIKHGIEKRKEGGAVTVKVEQLDSFINISVQNS
+GKLNKEIKDFSGIGLSNLKERLLLRYKGRASFEIKEMESETVLATILFPLE
+>tr|A0A1S1J286|A0A1S1J286_9FLAO
+MKPILQLYRGYANEEELIVMGHVFRRTYEYDYQKKNFKNATSIINQFRIKTIKNFDVYLK
+CGNQEIHTKTLDDGYFKFCIPLEKETPFGWIEYEVSIKHKTETITEKGSFIRPHKGKLGI
+ISDIDDTFLISHTGNFFRKIYVLLFKNVNDRKVFKGVVPHYQALSSAGRNNKEEENAFFY
+VSSSEWNLYRFIVKFTKIHHLPRAVILLKDIKRGIPDFFMSGRGNHDHKFDKIKHVLEFY
+PNLKYVLLGDDSQHDPILYERICKIFPVTVKAVYIRQTGKHKKEATKTIMKNLENLEVSV
+CYYKDSSEAIMHSKSIGLIS
+>tr|A0A1S1J298|A0A1S1J298_9FLAO
+MKTIYKAILIFSVALFTQNMTAQKATISGTITDAQSPLPGATIVLSNNQKATTDFSGYFT
+IQDVGSGSFELQISYIGYEVKNIKIDIKDNQQLKLGIIQLQSNSKELNEVVVSGMAQRNS
+EARALNMQKKSMSIVNVIAADGIGKLPDRNAAETVQRMPGVSIERDQGEGRFVSVRGLPP
+FWSSTTINGNRIPTAEEETTSRATAFDFFPSDLIAYVEATKALTPDMDGDAIGGSVNFTT
+QTAPTKRTIKASVFSGYNQKSDKGIYSGSLTIGDKSKNGKFGYIINGTYWDRNWATDNYE
+ARRQGDQGVYRLELRDYTGVRKTTGLNGAMEFNPSSRDKIFLKVTYGGLTDEETHYKHRI
+RFDKFNGTTNALTVEQQDIHNQLMTQFLGLDLGGKHQLANGKLDWSLASYRNRFKYGNIP
+NAEDNSYFLIQFNQTGVGVKPEYLKTVPLANGGAGGPRAYWAADGGIMDPSNPKSIFDFY
+SDPNFKTDPTKMKFSTLELYKINIVERDNIIAAINYEHNFNENLKMKFGAKVTDKDRIAT
+FRDEYYSWTGSPTPYLSNYASDLILQPGGTDYLRKETGTLIGNSFGPVLSPDGMTKLFNT
+SKANLVLNPADSQIPELGKGLGRNFNVGETTSSVYAMSTYNLSDKWTVLGGLRVTNTITQ
+VTGKTVENNVVVDAENTKTYTSVLPMLHVKYTPIENLNLRFATTRTFARPNFGDISPAGS
+LNTIDGEYAGGNPNLNPTYSWNFDLLGEYFLDEVGIINAGVFYKSITDPIFDDTYQGTIN
+GIPDIEISSPANGGNAWIGGVEFGITKRFSFLPGFLKYFGTQINATLMDSEMTLGKNANN
+PNGRKVSTPYQAKQLYNLQLFYESGKLNVRAAFNHKGAYATSFDANAKNTDMNDIYYGKY
+NSLDFSASYKIGDHFTIFSDVNNVLNEPLMYHFGETPNRPKQVEYYGMKFNLGLKYNL
+>tr|A0A1S1J5K7|A0A1S1J5K7_9FLAO
+MEAHNHPEDSQKTDNLMIPIIGIHKYNELKSFSSDKLSEFQKAQIESYESKNAEATSEQI
+KSRGDYAKKVFEPKEKVEFSISARKLFDLFKAKFKEINGIPFVKVDGITIKNLEPLIYYF
+SKDERFFSCDNLSDISQPSFDKGLLIIGNYGNGKTSTMKVFESIFRGIPKVGFKSYSANE
+AVIMFEKCTGENADNLRLEFEKTMWYGIKNFDDLKTERIASNYGKVNIFKEILEERYRLK
+SKTFLVCNFKEGYEDDLQAAVDEIGEKYGGRVWDRVYEMFNIIEFKGKSFRK
+>tr|A0A1S1J7D3|A0A1S1J7D3_9FLAO
+MNYLLPLFSVLLGYMVALFLKPKSKTNLKLLLAFSGSFLLSLTVMHLLPEVYETHKHNIG
+IFIMLGILFQIILEFFSKGAEHGHVHGHAKMSQIPWLLFTSLCIHAFLEGFPVSHHHGLA
+LGIAIHHLPIAVILTTFFINAELNKKAIFAFMLTFAVMTPLGTVASEYLPILSKYYTEIT
+AIVIGILFHISSTIIFESSEGHKFNVAKVSMIVLGILLAFVL
+>tr|A0A1S1JAX2|A0A1S1JAX2_9FLAO
+MNLYRLYVSIFLFFNLNVLGQNQEDQIYTAIDSFIAHPSPKALQDLTNTEAVFWKNPKPK
+TKGELLAIVVLNCNKAYYENQFGKAEKAIASYEKAWQIYQKNKLSDYDIIEYCLKPLGNL
+YTVLGDYDSAENTIKQYFFIVNTAPNYPDAQKQKFAAILNLSNVYQSSGKFNLATDLLEQ
+ILKTEKLSNAQKGIALNNLGNNYLLSSTGNLMRPETYQKIENTFKSSVNYLKNEKNQSET
+LSNSYRNLAMLNRQKHQFEASNSYLTKAEKLLLETPHIQARKIGKLYYEKASLLFDEGKY
+AESTEQLKAVFKLLIANYAPQNVLPNQNQLYAETVLIDALDLQAQLFLSQNQLKKALESY
+ELSLHIEEVLMNITLYENSRIISQIRSRNRTEKCLLIYDRLFQKENKTEYLESAFQLAEK
+TKSGVLKSYQSNIKKATTEEKSLLVQLQNLNNVIVKEQQKGSLANIANINQAIKKQNEVI
+LSLKQIRSKNPDLLPEISDLKTLFSKLEKDKAIMVYYFMGAENLYYFTLQNNRISLHRLD
+TAPTAMLSIITFINYFNTSATITNDISGYNYYGKKIYDLLQMPRNTIYQNLIIVPDGILN
+FLPFEALITKDSKTTNFAKMHYLLNDFRIAYATSANLYLNPNPVSNSENTILGVFPVFEN
+TSFELRYSKKELEAIRSNFKGKYLENSEATFSNFKNDANHYSILHLSTHASSGDIETPAS
+IKFYDQEILYSELYNLNVNPDLVVLSACETGIGKLYKGEGAMSVARGFQFAGAQNLLFSL
+WKVNDYTTSVFMTDFYENIKKGQSYAEANTNAKRAFLQDKSISNTKKSPYYWSSFVYYGA
+IQTEKQSTNYIFFIISLLGVIGLFLVFNHNRKWKIFTRFSKKRNTEK
+>tr|A0A1S1JB62|A0A1S1JB62_9FLAO
+MQKIKTALLSYGMSGKVFHAPFLNIHPGFELLGSWERSKKLIQQDYPAVKSYASIEDLLA
+DDVDLVIVNTPVGTHYEYAKQVLLSGKHAVVEKAFTTTVAEAQELAAIAKEKGLKLAVFQ
+NRRWDSDFKTVQKVIGDGVLGDLIEAEFHFDRYNPLLSPKAHKETVNDGAGILKDLGPHL
+IDQAVCLFGSPNAVFGDIRFTRADTLVDDWIDLLLIYENFRVRLKAGFFVREANPAYVIH
+GKKGSFLKPRGDVQEDDLKLGKKPNLESWGTESEVLQGFLHTEIEGEVIREKIPTLQGNY
+FSFFDGVYEAIVKNEKEPVTAQDGVKVMQIIEAAIASHTQQKVINL
+>tr|A0A1S1JD63|A0A1S1JD63_9FLAO
+MRDAVDAGLKPTNHTDFVVVPLDQMMVLWSAVNRISRGGETVGADQRVTPYEGLRAMTIN
+VASQYDETHRKGSLTAGKLADLVILDKNPLKVDGMKIKDIKVLQTIKNGKSIYRRE
+>tr|A0A1S1JCN7|A0A1S1JCN7_9FLAO
+MNTTKINSFLNDQIGVKISLIITLFSTTMLALSLLGSKSDYESFEMLSVLNIIILLPYGA
+ILTYNLLRNKKDYLHLLPFLFLNWFIGCFSTNVYVNVFENLPLWVYCTTFLFCFSNFVIY
+NREITNRTINFISYFINGCSYLLIVYYAVFLIPISMFSIIGILALGLGFYGLVPGIVLTI
+HTYILSKALFEQKNNTYAFFSGIGIILTSLITFTFLLNIESQKINQYGITKTFEENNDLP
+TYIKVSQNLKPNFLNEILLKKNIVYIASEDFFELDGFGRFNSNVQYHERKTHNPFLNIAY
+HFAENINLSDDDKVNILKSNFDKRLESEEQLWSGRDLITKNIKEDVKIYPNDRLAYTEIT
+MDVVCEEESRGQKEAIYSFQLPEGSVATSLSLWVNGIERKGVLTTKEKAKEAYNQVVGIE
+ARDPSLMQWKEGNRVTVRVFPITSELPRTFKCGFTTPLKVADDKLIYQSLSIKGPNINNA
+ATISRFQVKGNTEFKTSKDFDFADNYHINESKGLDKWEAEFPLNKKTSNSAFVWKNKSYE
+VKPLIKERISFTPREIILDLNNNWKIEELESILNLSKNKYFVLINNTKQEINASNYENIW
+SQFDELNYSLLPLFDLQENTLIITKCGTFSSNFEELESSKYLEKIRKGTKDKGLKVINIS
+NEINPFWQTAKEQKYVNFIQTNLNTCTDLISKKHFIKFQTNENSINLETAGISIHENSAI
+QQTAHTGSNHLYRMFCFGKVLNDQVEIQADTLKQNKYVDLAKDANIVTPISSLIVLETDE
+DYENNGIEKNVNTLGNASINNDGAVPEPHEWALLFIVSSAILFYYRKQKLTN
+>tr|A0A1S1J280|A0A1S1J280_9FLAO
+MEKEHQIFGIRAIIEAIQAGKEVDKVFIQKEISGELMKDLMKVMKRANINFSYVPVEKLN
+RLTPNNHQGAVATISPIGFIELEHLVESTIESGSKPLFLILDQISDARNFGAIIRTAECT
+GVNGIIVQKAGSAPVNGDTVKTSAGAVFNVPICKVEHIKDAIFYLQGSGIKTVAATEKTD
+QNIYDVTLNEPVAIIMGSEDRGINPSVLKIVDEKAKLPMFGSIGSLNVSVACGAFLYEAV
+RQRS
+>tr|A0A1S1J2K9|A0A1S1J2K9_9FLAO
+MIDRFNIAADILRLDESIRQKLQRPEKQIVVNFSITLDNGSEKNFEGYRIIHNTALGPSK
+GGIRYDKGVNLDEVKALAAWMTWKSAVTGIPFGGAKGGIICDPTTLSKNELEKITRAYTK
+ALIDIFGPEKDVPAPDMGTGPDEMGWLMDEFSILHGKTIHAVVTGKHLHSGGSLGRVEAT
+GRGVSIITLLALEKLKLRPAKSTVAIQGFGNVGLHSALFLFEKGLKVVAVSDVSEAFYNP
+EGLNIPELILYYNLNNKSIKGYPNSVAIKHEDLLLLEVDVLIPAATEDVITQKNANDIRA
+KIIVEGANGPISSDADKILHDNNVLVVPDILANAGGVTVSYFEWLQNSLLESWRIHQINT
+RLEDILEKGFETVFRIAAKYNVTPRIAAYIIALKKVADTQSVKEVALDTPKFKQN
+>tr|A0A1S1J400|A0A1S1J400_9FLAO
+MITNTALEYKGDLYPSKIISHQHEGDSVFFHTDNKVILKVTILRDSLIRFRFTTKGYFSN
+DFSYAVDKTQLHGYNFLELTEEEAYFQIRTSKVKCKIQKRDLRLAIYDLHDFLILEDELG
+FHWEESYEYGGNIVKMSKSSKDGECFYGLGDKATQMNLKGKRLENFATDQYAYQKEQDPL
+YKVVPFYIGLHNKVSYGIFFDNTFRTFFDFCQERRNVTSFWAEGGEMNYYFIYGPQMQDV
+VTTYTDLTGKPELPPLWVLGYHQCKWSYYPESKVKEITSKFRELKIPCDAIYLDIDYMEG
+FRCFTWNKNYFPDPKKMVAELAEDGFKTVVIIDPGIKIDKEYWVYQEALEKDYFCKRADG
+PYMKGKVWPGECNFPDYTNPVVREWWAGLFKELISDIGVKGVWNDMNEPAVMEVPNKTFP
+TDVRHVYDGNPCSHRKAHNIYGTQMARATYHGVKRFVYPKRPFVITRSAYSGAQRYTSSW
+TGDNVATWEHLWIANIQVQRMSISGMGFTGSDIGGFAEQPTGELYARWIQLGVFHPFCRT
+HSSGDHGNQEPWAFDEEVINITRKFVSLRYQLLPYLYTMFWQYIEEGVPMLKPLVYYDQE
+DTQTHYRNDEFIFGNQILVCPILEPNAVGRRMYIPRGEWYNYWTNEFATGGREVWIDTKF
+DEIPVFVKAGAVIPKYPVQQYVGELEFDELTLDLYFKLGKEKSVVYEDAQDGYDYKKGRY
+SFLSFSTIGKEKELIVQLHKEGKYDTPYSKYKINLIGLPFKVTEIEIDNEKIVFDKEGFE
+LNHFLIVDKEFNELHIIGE
+>tr|A0A1S1J450|A0A1S1J450_9FLAO
+MNTKSYFFQSFAIVALAFIAFIGFKQILPDKIFSDSKVDSKNVLIDSLLLESVANDSLEQ
+GGDSLTEDEKNEMREKIVFDASEGIEFPSETFDNYKGYQYLISFYEKLYQLENNPQAKVR
+IAYYGDSMTDGDLIVQDVRANYQERFGGSGVGFVSINSESAASRGSVKSSASKNWKMQSY
+LNVKHPTSPFGVNGHVFFANDKSNTTWVQYEAGLNKHATTLDSPTLYYGRGSKKGNVNFI
+IGKDTLRKSLVPNNLINTLKVTSGSIKGFKANFIHADSIPIYGFNFDSGNGVHVDNFSQR
+GNSGLPISTFNSNVMQGFNNSLKYDLVILHYGTNVLNYGTKNYNWYQRGMTKAVNKIKES
+FPGVSILIISTADKSTKYDLEMKTDSAVVPLMRAQKRYALETESGFVNLYTLMGGDGSMV
+KWVDESPARANKDYTHFNQRGAKAIGKLVYDQLNKGYEQYKVLRVNREADTNKRKAARKT
+NTDSVAVKTDSVNE
+>tr|A0A1S1J5B8|A0A1S1J5B8_9FLAO
+MLKTIFLLKSGRVNRDGESSIILRLSYKTKTITIASGKYISKEKWIQTNHLKNTLKAEKE
+KVIKSSLDLMQLNAEKKFTELFRIDPEVDLELLKSELTGKAKIGQPQGPSIISIIETYNI
+FFTKRVNSGERAAASLQKYKRAKDLLLDFITSAYKKEDMPASEISSSFVFKLEQFLKYES
+SFKDQTGIKNNSVVKYMKMYKTACNYAIKMDLIIKNPFNVYDGKLSVKDAVFLTQHELNT
+IENKIFSTPRLEKVKDIFLFSCYTGYAPVDAMDLTERNLSEDSTGNLWIMTSRAKTAIRA
+NVPVLATVEKIIAKYKNQQKGLIPKISNQKMNAYLKEIADVCGIDKHLTWYVARHTFATT
+VTLGNGVRLENVSAMMGHTNTKQTQHYAKVLDVNIMEDMEKLKSKFK
+>tr|A0A1S1J993|A0A1S1J993_9FLAO
+MKDKIILWSLFFLGFYAGAQKMQTKKVVVDKLTKLPLEKVNIYNQKDNSITNEEGVFSFI
+SDQDELNFSLIGYENLKLSFTEINKQDTIFLQSKTIELDEVVVGEEMAIMKKVYAKMKEN
+YIFEPYNENFFLRCVLKRNDELERLQDIYGKVSRKSIFKSKTQPDNKCEVEILNMRKVGI
+KDKADFVYFEFQSFEKLFDINAMISIKTEDFELTKEKNVAGDFFKISFIKKAENTIAQKT
+SGYFIINKNDYAIVETYFDLYDNGEKVPFQKKDKVEYRTTSFKTTSNYKKSASTNKYYLN
+NAKSDVRVELLVSEKNIKAFYDYSTNFFVTNSFIAEKAKSNLSMDKDIFKVKFPYSEQFW
+KSQNQLPLTSDLTAFLKRASENKENKKEFEIVGNF
+>tr|A0A1S1JAX8|A0A1S1JAX8_9FLAO
+MIDKIKEHIEEAKAFNDKNKESLEQFRIKYLGSKGLLKELFTEFKNIPNDQKKDFGQVIN
+TLKSVAEEKVRVIQEELESKQEVKGMFGDLTRAAEPVIIGSRHPISIVKNQIIDIFANIG
+FNVSEGPEIEDDWHNFTALNLPEYHPARDMQDTFFIQTNPDVLLRTHTSSVQVRYMENHK
+PPIRTISPGRVFRNEAISSRSHCIFHQVEGLYIDKEVSFADLKQTLLYFTKEMFGKSKIR
+LRPSYFPFTEPSAEIDIYWGLKTETDYRITKGTGWLEIGGCGMVDPNVLKNCDINPDEYN
+GFAFGMGVERIAMLLYQIGDIRMFYENDVRFLEQFKANI
+>tr|A0A1S1JBR3|A0A1S1JBR3_9FLAO
+MAKNYFYITFLLAFFFTVSVSAQDSKQLPKPQQVATIEGLSLYPNPVTGGKVTISSKNDL
+EKEIIIFDVLGKKVLQTHLSSRELNVSDLVPGVYIIKISEENASATRKLIIR
+>tr|A0A1S1J265|A0A1S1J265_9FLAO
+MKFKITVPAGYQVKNYGNDNLDINVILENKEIFFATLFTTNNIKMLLERDESAFFWAHTM
+VILKDLKKETIKKFVQEAIDSESLEAIFYKIGNLGQTKGYPSKFEKITDFSNKSE
+>tr|A0A1S1J2I9|A0A1S1J2I9_9FLAO
+MRDFSVFIITNSISDLTKLKFPEFDIVNIRSEIFKKFCEKTFTRTEEFLPKIDEEYQYDK
+IERFAIIKKDNKKFGEKKIHNLFNFLLILFPSTLSVEYMLDYNIVIDDLRFSSSFHNETN
+ISSRDSYLLFNEDKLDEVNLFIEKYFENYLEIKYLKSSIQNYLNAFDSNYFHFSFIAFCI
+CLESITVGKAELNYRIARNIAVICGKDRETSAVIFKNIKKIYNLRSEIVHGTEFSDDKVS
+DYLYYLELICSKLITELLKHNVNNIDSLNEKITTLGFGERSIISENWINTDFNNIIENKI
+YGEL
+>tr|A0A1S1J5P5|A0A1S1J5P5_9FLAO
+MKANKIGNKIAKARKEQNMSQAQLAQLLFISPQAVGKWERGESFPDIATLDRLAEILNVD
+LNYFSENLQSSESTPISKVINDTNVQEQKEFKEMGASDRSERPLLINFSGSALAKTDLAG
+VSLVNRRFVGSDLRDSDFSNADLTGSVFKGSDVREANFTGANLTDCTFSALDLSSASFIK
+ATLVRTEFSASELSGVKFMDAELVDVKLARSDLRKMTFIDCIFNGVDFKYSDLSGLCLDG
+HIFMDVNFSNAALNKVSFKGAVFRNVSFRPTFALTNRYYKTLQTICFDGAVMDKLTYAAL
+KGVGVDLSKVTTI
+>tr|A0A1S1J426|A0A1S1J426_9FLAO
+MKNLSLLLWSLVLLMSMSACENELDLVPQGAPSSGNFWKTPADAKAGVNAIYALYSDDNM
+YGRGFFWLNNASDDIGTKPRQNAERIKNFIVDGAESDTKDIWRLHYEVMKRCNDVIRNIP
+KISLDDKTKNMMLGEAYFNHAVMHLELAYHYGDDRAGIPIQDRENPTNVYVPRAKNVAEN
+YAYIAADLIKAADLLPYFSELSSDNYGRAHKTAAWGYLVRTYLYAKDWDNAIKYANMIVN
+SGKHKLLDNFEDVFKIKNNWSSEYIWSVTSSAENTSLGSIFPGVCLEDKGWGVYNGWGNF
+YPTKELFDTYDPADKRRSATILQKGDKFMYFGELVTFNEGKYIVSSSNRTGYQFKKYMEP
+FGYPKTTSGGIDIRYVNANGDKPSTALNVPLLRYADVILMLAEAKLMKGLSADTEINMIR
+NRAGLPSIGGATLTDLKRERRCELAGEWTDRHFDLVRWGDAQATYAKPLHHYNGTVIYPA
+RNFNPAIHHVWPIPPDEIAVSKGALFQNKGW
+>tr|A0A1S1J5T6|A0A1S1J5T6_9FLAO
+MKTNILGLPVKESELLVKELNVLLSNFQVYYQNLRGLHWNIRGKRFFDLHVKFEELYTDS
+QLKIDLIAERVLTIGGTPLHTFEDYIKNNKLAVGKNISNDEKAVHLIVNSLTDLLKIERG
+ILKQSDEINDEGTNSMMSDFIAEQEKTIWMMNAWLEEEL
+>tr|A0A1S1J1C3|A0A1S1J1C3_9FLAO
+MKANKPSLILFFLALLCTAIFDWTELFLFATYAKAIVIPSIFIYFLISTEFNIGKIEGVI
+FLFSFIGQVFNLMDIESSELGGVLCFLVVYLLIIRLYLGGHEKIKLEKKDFLPVSIVVIF
+IVYLLVSALGMQFDNMKRFSLIYMIYGIVLSVLSCLSFISYITKGTYLALLMSLMAISYI
+FSDIFYIFNEYFSYSVVLVLIRDVTQILAYFFMVEYFLEKTKTKKKKNAKQ
+>tr|A0A1S1J8Q1|A0A1S1J8Q1_9FLAO
+MSTIKKIFIVLFLNCFCLSFSQGEKKRNSKIVFLDLKSKAVKEYTIDKDTMKARFSIYVK
+KYESKEERDKATEVYKDMVKNIRTSGINPSEVRLPTFSIGFYSWGGKPEKLKSLKGIKFI
+TIKQFQDSIYFVKDPSYIIHQLKDGTYLKWKTYTMEVVD
+>tr|A0A1S1IYC8|A0A1S1IYC8_9FLAO
+MLNSQKLLYGKRRYLFTLIVFLSISVICVALDMGDSNDFDISRREVLLRKIGHELLLQSG
+DSTSRVLPVKKISENEYQINFENDFTFQPDSLLNITSRFLDKAPGASNYIVNVLNCDNGS
+VTYGYAISKNKKDDIVACIGRKQPKTCYRINIKFKPTGIITAKNEYLLGGLSFLAFVGFI
+FLKSVKPQKHLPESQHTTIFTLGSVLFNANDRKLIMNEKTIDLTVTETRVLLIFALSPNK
+TIERSRLQKEIWEDEGVIVGRSLDMFISKLRKKLENDPNIKIVVVRGKGYKLDILS
+>tr|A0A1S1J9Z0|A0A1S1J9Z0_9FLAO
+MSIKNIRLEVMQFLEKNVDSFVEQYLIPVEKIWQPSDFLPNSEGENFFEEVKELREIAKE
+LPYDFWVTLVGDTITEEALPTYESWLMDVEGVNQVENGGNGWSKWIRQWTGEENRHGDLL
+NKYLYLSGRVNMREIEMTTQHLINDGFDIGTGSDPYKNFVYTSFQELATYVSHNRVAQMA
+KKFGDNKLSKMCKMIAGDEMRHHHAYSEFVTRIFAVDPSEMMLAFQYMMKQKIVMPAHFL
+RESGQKISSAFEQFSDSAQRIGVYTANDYVDIMQKLINKWEIDKISNLTDEAEKARDYLM
+KLPARMARISERLVIPAESHIFKWVEPARL
+>tr|A0A1S1J4P0|A0A1S1J4P0_9FLAO
+MAYLKGMKIIGTFSLLLLLLSCNQKEGKTAVAESLSSGITKTFPEKLSDAAISIIDPSID
+YDPSYFKIDYPNGDIPKNKGVCTDVIIRSYRKLGIDLQKEVHEDMLENFSDYPNLKKWGM
+IKTDTNIDHRRVPNLEVFFERKGTKLPLSQNAKDYKTGEIVTWIINNKLPHIGIVTNKKS
+RDGKRNLIVHNVGRGQLLEDCLFEYKIVGHFKYQK
+>tr|A0A1S1J015|A0A1S1J015_9FLAO
+MRWVYYLAALLFVSITAVGQEMNIDETLTSARSEAEQGRYDKALSLIDPLLKTYPENEDI
+KTFSGRIYSWKKEYKTAIQRLSPMADRGNPNPDALLAIINVYYWTEDFEKCISYCDRYLA
+VDATNVDVLKIKVTCLEKLDRDKEALEIIEKASVNENSTQAFKALRTLIDRKTKNAVSVS
+YLNISTSNPGQAPLHYGYVEYTRKFSKSALVGRANMGHIGNDTQALFEADYYQTFAKKDY
+LYVNAGVSTGETIFPVAKFGAEYYFRPQKRFDYALGGRYMHFETDDVTLLTGQISYKTGA
+NTIAYRPYYDTGNTLFSHVLSFQHTNEEKERVIRFEVQYGNVPYLYLYSDFVQPLKAYRG
+GVQYQHRLGNSFFVRPIFLYEYEEYLPNEYRNRFNAQIIITKRF
+>tr|A0A1S1J4Z9|A0A1S1J4Z9_9FLAO
+MDDINTTSQITNENVNFETRINLAPLLDHVSAIKKELETVIVGQHKMVDQLLVAILSNGH
+VLLEGVPGVAKTITAKLLSKTLNIGFSRIQFTPDLMPSDILGTSIFNLKTSEFEFKQGPI
+FSNLILIDEINRAPAKTQAALFEVMEERQITIDGSAYQLETPFLVIATQNPIEQEGTYRL
+PEAQLDRFLFKITIDYPKLDEEILIIQREHLLQNHGKLEAVKTILSAVEIKEYQALVKQI
+RVEQNLLEYIARIVVNTRENAFLYLGASPRASIAILNAAKGFAAIRGRDFVTPEDIKEAA
+IPVLQHRVIVAPEREMEGITSSEIIRQIIETVEIPR
+>tr|A0A1S1J657|A0A1S1J657_9FLAO
+MLESSFGLGFFLKRPKIESKEWIVYFRITVDGIRKESSTKRKWDNTRWDQRFERAIGSKE
+DAKSLNFFLDSLTLKINEIKTEMMYSGKTITAEKIMDEVLGRTAPKIKVLEEFQKHNDEM
+EALLGKGYAKGTLDRFTITKNHLTAFIKFKLKKHDLEFADLNLEFVKDFEFYLRTVRDCS
+NNTTLKYIANFKKIVIRAIDKELITKDPFKNFKGRKTKLVKKPLTAQELYELESHYFTTD
+RLNVVRDVFVFQCYTGLAYIDAYQLKKTDIKEGIDGNLWIMSERQKTNSSFNVPLLPQAL
+KIVEKYKEHPLCIQRGTVLPVSSNQKMNEYLKEVAVLCGFPFTLNTHMARRTFGSTVTLN
+NNVPINVVKELLGHASVKQTEAYAITEQATIGREMSILNKKLNKTGSKISKPDLAVLSRL
+EKEIQAIKKKYNISS
+>tr|A0A1S1J685|A0A1S1J685_9FLAO
+MKPFTLNTHYKQILADTITPVSVYFKIRDKFPNSLLLESSDYHGNDNSFSYICCNPIATI
+KIENETISKTFPDGTKERISIDSSTNIPEIIQEFSNQFQSEKNDFKFINNGLFGYISYDA
+VRYFEKVSIAKKDRATLIPDVFYAVYQNIIAINHFKNEAYIFCHSVDGRNNISEIEQLLQ
+SRNIASYKFTKEGEGFSNLTDEEFKHNVALAKKHCFRGDVFQLVLSRRFTQGFKGDEFNV
+YRALRSINPSPYLFFFDYGDFKIFGSSPEAQIIVKNRKAEIHPIAGTFKRTGNDEQDAVL
+AKQLSEDKKENSEHVMLVDLARNDLSRNGHDVNVEKYREVQFFSHVIHLVSKVTGYLHEK
+ATTMQVVADTFPAGTLSGAPKHRAMQLIEDYEKTNRNFYGGAIGFMDFEGNFNHAIMIRT
+FLSKNHQLHCQAGAGIVASSDEESEMQEVYNKLRALNTALEMAEKI
+>tr|A0A1S1J786|A0A1S1J786_9FLAO
+MDLMGMMGKLKETQQKIEDTKKRLDTVLIDEQSADGLLKITLTANRKVKSISIDDSLLED
+KEQLEDYLIVTLNKAIEKATSVNERELDAVAKMDMPMIPGMDNLFK
+>tr|A0A1S1J896|A0A1S1J896_9FLAO
+MACGVSSNKKHIQDFKKDFKFNAYCSCLLKGYNDKNITSQITRIDKSFYSPILSSIFSDE
+FKKIGLEESKIMTNDSIKSINTVSEAMIGKKIQLHCLNFYNSKKLDSITKLNYKKWKNLK
+NIDSIVNINNPGL
+>tr|A0A1S1J9X1|A0A1S1J9X1_9FLAO
+MAQFNFNKWNTIIGWFAFAIALITYTLTVEPTMSFWDCGEYIATAAKLEVGHPPGAPLFQ
+MMGAFFAMFATDAQHVAVMVNMMSVFSSAFTILFMFWSSSMILKKIVARFAEIDQNNSIV
+ILGSSFVGALAYTFSDSFWFNAVEAEVYAMASLLIALLFWLGLRWEQDMDKPKGNKWLLI
+ISLVIGLSFGVHFMALLTIPSIGFLYYFKHYEKVTIKNFLIANVVVIGVLLFIFKLLLPL
+TMEAFADTEVFMVNSFGLPFNSGTIFVTLLLIAFFYFGLKYTKQKGLIFYNTIILCVLFI
+FIGFSTWIMLPVRANANTVINENKPSDAAEVLAYYNREQYGVNPLFYGPQYTEYFAGLDA
+KNPYSDKAPNYERDYKTGKYIITNNFKNAQQNSDDNQKTILPRMWSTEMGHIQNYINFTT
+PPNFRINPNYDYEQDLGKYGIDASQLTEEEYNKATAQLRNEVEKTISEFRKAYAQKQIDN
+EGYVKFLKSYGDYLIIEKPSAVDNFSFMFEYQFGYMYWRYLMWNFVGRQSDVQGKYDNID
+GNWISGIKALDSLHLGSQDNLPSDVTNNKGRNVYYFLPFILGLIGLMYHANKDLKSFYVL
+LALFLFTGIALKIYLNERPFEPRERDYALVGSFYVFAIWIGFGVYSLYESIQKYIAPKIA
+GPVIIAASLLAAPVLMASQNWDDHDRSGRYTAVAMAKAYLNSCDKDAILFTIGDNDTFPL
+WYAQEIEGIRTDVKIVNTSLFMTDWYIDQMKAKAYESDPLPISFTHDEYVGDKLDYVAHI
+PKIDTRWNIKDFIDFIKNPKSTVGLQNGQTIHFYPTNKIRVPIDKNVIIKNKVVNSKYND
+SIVPYMDIDIKGSALYKNRLMMLDILANNNWKRPIYFSGGAFDDEDYLWLKNYLQLDGMV
+YKLVPIKNVPSKDGGPMDMGQMDADKSYDIVMKWDWGNSNGNIYHDPETRRNSITYRTNL
+SRLMDQLIAEGKTDKAKKVIELAMTKMPVDKFGYYSLVEPFAGGYYKVGETAKAHDLLNK
+LVQKYKEELNYYATLTPGDQTDLAIDIITDIERYRSLLQVMKENNDLTFYEKHKVTFNTY
+VNVFERFGREKE
+>tr|A0A1S1JB51|A0A1S1JB51_9FLAO
+MPLYHKLGDFPQKRHTQFEKPDGGFYYEQLFGTEGFHGHSSLSYHVHRPTQVKEILNSYS
+VEPKIAIGKNIKSLLFKGFELKPENDFLDSRKAMMVNKDCIIGLAAPKESLRNYFYKNAD
+ADEMLFIHKGKGKLRTMLGNIPFEYGDYLIIPRGIIYQIEFETEENRLFYVESYSPFYTP
+KRYKNQSGQHLEHSPFCERDFILPNELETHDEKGDFLIKIKKEGMIHEVVYATHPFDVVG
+WDGYNFPYGFSIHNFEPITGRVHQPPPVHQTFETATFVVCSFCPRLYDYHPKAIPAPYNH
+SNIDSDEVLYYVDGDFMSRNNIEQGHITLHPKGIPHGPAPGAMERSIGHTETQELAVMVD
+TFRPLMVTEEAMGLDDGQYYKSWTE
+>tr|A0A1S1JBX8|A0A1S1JBX8_9FLAO
+MKSKRMKEEWNVIPNRGILPDNIEARMWNNIRRVTIDKYKRLYNWMAVACAVFVISIGSF
+HFFDLHKKTDIEITSTITFKNDIRLISLSDGTRVWLNQNSQLEYPEHFSDNERNVSLKGE
+AFFEVKRDPSRPFVITSGVIKTTVLGTSFNIKAYNEKQPEVNVRTGKVKVEGETNTVLLL
+RGDKAVYTVVSSTVKKEKTDMLEPEWKKALLYVDGLTLEQVLNKLKEENDFKVNYLEEDL
+KNLTIQGTLDSRQGIYEMLQTVAFALEIKIRPTGNNTYLISR
+>tr|A0A1S1J3Z4|A0A1S1J3Z4_9FLAO
+MNKNTISFETSSWTGEVSGNPIKAIGAFFAYADLDYYKQNLTKAVVYSYKSEVYEANNPS
+NAFVFYTAMNNFLKLCYCLQEKSKKWQVMASLHNETVFHLSSLTKEEYEDPFIVFQKAFD
+EKTPEEFESFLCLILELSTSPNAQDPYSDLTIPYIYLIKMLDAVALMKERGIEKIKECES
+A
+>tr|A0A1S1J4V9|A0A1S1J4V9_9FLAO
+MIEIKYFGAVAERTQCELEKVPFSEVSLQELLRDLDQKYQFDSLVFSVAVNQKIVSKTVD
+CTLQTNDVVALLPPFAGG
+>tr|A0A1S1J5E5|A0A1S1J5E5_9FLAO
+MDIITIIISGVIGIAAGFAIAKIIEKSNISNLIKNAKKEAASILKDANLEAENIKKDKIL
+QAKERFIELKSEHEQVILARDKKVAEVEKRVRDKESQVSNELSKAKKVNDEFESKTQEYN
+NKIEVLDKKQTEVDKLHKSQLQQLEVISGLSAEEAKEQLVEGLKAEAKSKAMSHIQDTIE
+EAKLTAQQEAKKIIINTIQRVGTEEAVENCVSVFNIESDDVKGRIIGREGRNIRALEAAT
+GVEIIVDDTPEAIILSCFDPVRREIARLSLHKLVTDGRIHPARIEEVVAKTAKQIDDEII
+EVGKRTVIDLGIHGLHPELIKVVGRMKYRSSYGQNLLQHSREVSKLCGIMAAELGLNVKL
+AKRAGLLHDIGKVPDTESDLPHALLGMQWAEKYGEKEEVCNAIGAHHDEIEMKSLLSPIV
+QVCDAISGARPGARRQVLDSYIQRLKDLEEVAYGFSGVKNAYAIQAGRELRVIVESEKVS
+DDNAANLSFEISQKIQTEMTYPGQVKVTVIRETRAVNIAK
+>tr|A0A1S1J8M7|A0A1S1J8M7_9FLAO
+MIPVKAYAAYDAVNPLKPYTFERKEVGAHQVQIEILYSGVCHSDIHTAKGDWGPVNYPLV
+PGHEIVGRIVAVGSEVSKFKIGELAGVGCFVDSCRVCPSCQSGEEQFCDEGMTGTYNGVE
+RGTDIPTKGGYSTSIIVDESYTLHVSEKLDIKGVAPLLCAGITTYSPLRYLKVGKGHKVG
+VLGLGGLGHMAVKFAVSFGAEVTMLSHSPSKEADAKKLGAHHFALTSNPETMELLANSFD
+FILNTVSAKHDHNAYLNLLTTNGTMIVVGAPPAPAEIPVFTLIMKRRSIIGSLIGGIRET
+QEMLDYCAEHNITSDVEIIDMGYINEAYDRMNKSDVKYRFVIDMASLK
+>tr|A0A1S1J247|A0A1S1J247_9FLAO
+MKDTAKHQGLRNQLVSTLEQKGITDKAVLDAIKKIPRHLFLNSSFEDYAYQDKAFPIGAG
+QTISQPYTVAFQSQLLEVKKDHKILEIGTGSGYQTAVLFMLGAKVYSVERQSELFRTTSN
+LFPKLNIRPKHLSFGDGYKGLPSYAPFDSIIVTAGAPFIPQPLMAQLKIGGRLVIPLGED
+VQIMTLLIRKNETQFEKHEFGEFRFVPLLEDKN
+>tr|A0A1S1J2V3|A0A1S1J2V3_9FLAO
+MKKILFLLVFTFLFCKVNAQEEQIQIETQNTALILKVGKNGLLYQSYLGTKLRDNSGYNA
+VSKESTKTFVVNDGNPLVNLRHQAYPTFGTENLFESAIRMTHNDGNPSLELNYVSHSTQK
+LDANTTETIIKLKDSVYPVEVTLHYKAFYNENTIEQWTEIVHNEKKSVVLYNYASSMLHF
+DADHYWLTQFHGDWAKEARMQESELTSGTKVIDSKLGVRTDMYQTPVFFLSLNAKANENS
+GELVAGTIAWSGNFKFAFELDNKNSLRISSGINPFASEYNLQPGKVFTTPSFIYTFSNKG
+KGQASRNLHSWAKKYGVKDGEKSRLTLLNNWETTFFNFDEKKLTEMFADSKTLGVDMFLL
+DDGWFGNKYPRSGDKSGLGDWQATKTKLPNGIGFLMQEAEKTGIKFGIWIEPEMVNPKSE
+LYEKHPDWVLKLPNRPESYYRTQLVLDLCNPQVQDFVFKTVDDIMQTKQGVAFFKWDCNR
+MMTNAYSAYLKNQQSHLFIEYTRGLYKVLDRIKTKYPNLPMMLCAGGGGRTDYGLLQYFT
+EFWASDNTDPFNRVFIQWGYSQFFPAFSICNHVTSWGNQSIKFKTDVAMMGKLGFDINVK
+ELKEKELKYCQEAVVNYKRLSPVIWHGDLYRMISPYEESRAVLMYVNESKSKAVLFSYTL
+HPLYDPQYNPVRFQGLDPNKTYKVEEINLMPEAKKSVEESGESFTGDYLMNVGLRVSSSK
+VETSIVLEITEL
+>tr|A0A1S1J438|A0A1S1J438_9FLAO
+MKFKFFQRKTVVLFFVLLAQFALAQERVVSGIVSDNAGLPLPGASVLIKGTKTGAQTDFD
+GKYSIKTSQNAVLIFNYIGMKAVEVTVTGNTANVSLSPASEQLQEIVVTALGLKREKKSL
+GYATQEIKGEDLTKVNNGNVANAISGKIAGVQIRRNNNIGGSTNVVIRGTTSLTGNNQAL
+WIVDGIPLNNDNTNSADQKSGGNTGGYDYGNAASDINPDDIETMNVLKGAAASALYGSRA
+SNGVILVTLKKGSKSKGGLGVSFSSGVTVGVVDKKTLPEYQNQYGGGYGDFYGTVDLGSG
+VHPYAATDDASWGPKFDPSLLVYNWSSFYPELPGYGKATPWTAVKKNPNDFYQKSLTFIN
+NIAFTGSGEKGDFRFGYTNYNMNQGILPNSNNRKDNFNFSGSYNILPKTKISASANYLKA
+NAKGMNETGYGDGGNNYLSSIRQWYSTSVDFQDLKDAYDLTGKNTTWSVGGPNDLTLQFH
+DNPYFQRYNNYNTLDRDRFFGNFALSTQITDWFDVTGKGAVDTYSQLQEERIAVGSKRTP
+NALGQYTRFDKTFREINFDLIMNFKTNITDGIKFNGMLGANSRRSVSKSIFAATNGGLVV
+PGIYALSNSIDKINSPGESEVAIGTNSVYANASFNFMETYFLEGSYRVDKSSTLPSSNST
+YTYPSITGTYIFSNHIKTNWLSFGKLRLNYAETGNDAPFAVIAATYPKGDNFGPDGIRFS
+TENNKSNSNLKSELTRGVEAGIELKLFNNRVGLDFSYYKSNTTNQILSVETPTQTGYTRA
+WINGGDVQNKGYEVTLSVIPVKTANFSWEAKVNWSTNKNEVISLGGADRISLGSFQGVGY
+VAEVGKPIGQLIGSGFTYLNGEKVIRSNGRYLQTAGATIGDINPDWIGGLNNVITYKNFS
+LNFLIDVKKGGDVYSLDQRFGHTTGIYESTVSNNHLGNPQRNPIASGGGILLSGVKEDGT
+PNDKVVSVEGANGYSFYNSMPEQQYVYDASYVKLRELGLSYRLPSKFLAKTFITNMILSV
+NGSNLWIIHKNLPYADPEAGLSSGNLQGFQTGVLPTSKEYNFNMKVQF
+>tr|A0A1S1J4A0|A0A1S1J4A0_9FLAO
+MKNLGVVITDGVGFRNFILSDFIQEAKTNFNEVIIFSCLPKTVYKDFDLNCKIIELEVFE
+ESFYTWFFRKAKEVTHLQLHAKGNFGIADNLNITQSKARNPRGYATRFIHQYSRLFHSEN
+WILRYNKWQQQTFQSNAITKQYTELLKENNISLLFFTHQRPPFIAPLIFAAEKLKIKTSA
+FIFSWDNLASKGRMAGNFDFYLVWSNLMKQELLTFYQSIKEDQIAIVGTPQFEPYVLNKY
+GYDKETFDKRFKIDHNKPTIFFTCNDASSENDPVYLEILAEFMVQRKLVKEVNLIVRTSP
+AEEPVRFKKYIEKYPFIIWNFPDWSISRERHQEAWTQRVPSVVDLNDLKSLLQHCDLSVN
+VLSTITLDAFIFDKPVINPVFGSETNGWFDDQKFLKYEHLSKLVDSDSTDIVKNDKEYLE
+AINRILSHIDLKKEERAKFLELQIGGSLEGTSQRISQILEKI
+>tr|A0A1S1J7P1|A0A1S1J7P1_9FLAO
+MITIKEAITKKELTDYIKFPFSIYKDNAYWVPPIVADELESFDKTKNPAFDNAEAYFYLA
+YRNNEIVGRITAIINWSEVNDQHKRKVRFGWFDAIDDIEVTKALLDKVYELGKKHNLEHV
+EGPMGFSNLDKVGVLTDGYDQLGTMITWYNHPYYVTHFEQLGFQVEKEYLESIFPFSNVK
+PEFFLKAQELIKKRYGLRSLTFTKTKDIMPHVDKMFDLFNDSYAKLASFVAISDVQKEYF
+KKKYISFINPEYIKFVVDKDDNLVAFSIVMPSFSEALQKAKGKLFPFGFIHLLRARKKSK
+DVVFYLIGVHPEYQNKGVTAIIFDEYYKTFSEKGIQNCIRTPELADNTAIHLLWKNFDPK
+VHCQRKTYLKYL
+>tr|A0A1S1J775|A0A1S1J775_9FLAO
+MLRPWQLEIQLNANDAKAIYLQIADAIIEAIQTGMLNSGNALPGSRQLAGLLKVNRNTVI
+EALDVLIAEGWLITLERKGTFVADILPLASKNIDQKQKPNYTEEEKQPLIVFDDGIPDSR
+IAPMNELARAYRQIFNRKSRWQIMGYSTEYGNLEFRKAIVQMLNFKRGMNVTPDQICITR
+GSQMAMYLTSNCLLSKDDYVMVENPGYQAAWETFQSSGAKLLPINVDKDGLLIDEVEAYL
+KKFSNIKAIYVTPHHQFPTTVTLSLKRRLKLIELSNQYGFTIIEDDYDHEFHFGQRPILP
+ISSYSNAKNTVYIGTLSKIVAPALRIGYLVSDHETILKVGKHRKIIDVQGDNIMEEAVLQ
+LINEGEIKRHLKRTTLIYKAKRDYFETICNKYLKDKTTFTKPEGGLAFWIIPNSPVNIFE
+IADKLLLKGIKIITPEKFSFNKPVQGFRLGYASLTEKQIEDGIVELAKLL
+>tr|A0A1S1J852|A0A1S1J852_9FLAO
+MYHKLQYISQGKTIEEQLYNIHEALDAGCDWVQLRFKNQTEKDTFTLAEAVKFLCEEYLA
+NFIVNDNLYLAQQIAADGVHLGLSDMKIDEARAILGNTKIIGATANTYEDIENHIKNGCD
+YIGLGPFRFTTTKEKLSPILGLSGYFKIIQELKRNKLEIPVYAIGGITLNDVAPLMETGI
+HGIAISGMLTESNQKEKLIQQLNEKLYANVIV
+>tr|A0A1S1JAY3|A0A1S1JAY3_9FLAO
+MKDKRILYVSSEVVPYLAENEVSLMSYDVPKMINDQGGQIRIFMPRYGNINERRHQLHEV
+IRLSGMNLVVNDLDMPLIIKVASIPKERIQVYFIDNDEYFKRKATFADEDGVLYPDNDER
+AIFFAKGVVETVKKLNWVPDIIHVHGWLASMLPIYMKHYYKNEALFSETKIVTSVYGQSF
+DENLDLEMINKVKFDGVPHESVADLETPNYENILKASILHSDAVIIASEHVSPSLTKFIE
+SSGKPFLPFATKDAFAEAYTNFYKTMGL
+>tr|A0A1S1JCF3|A0A1S1JCF3_9FLAO
+MNRFFTIFLHSTSSFSKLEQSKKIKDSTNKQKKNNKIKITYKIISIIEANCIETLRKVGT
+DQ
+>tr|A0A1S1J654|A0A1S1J654_9FLAO
+MKKILVTGATGQLGSELSALSTSYYQYEWIFADRTKATLDNLDLLQSQLNEISPDVIFNC
+GAYTAVDKAENEKELAFIVNCEAVKLIAKYAKENNVQLIHISTDYVFDGTSSIALTENSK
+TYPINVYGESKLAGEIACLTKNPESIIIRTSWVYSKFGNNFVKTMQRLMQEKEEINVVND
+QIGSPTYAGDLAKAMITILESSEWVPGIYNYSNEGEISWYEFALVIKEFGNYNCKIGGIP
+SSSYPTPAKRPNFSLLDKKKIKTFYHIDIPNYKESLKKMFI
+>tr|A0A1S1JA61|A0A1S1JA61_9FLAO
+MVLKDFYKVLSEEKTGDSKYTISILINEKHDVFKGHFPGNPIMPGVCMIQIIKELTESIT
+KSTLIMQTLSNVKFMALINPEVNPELRLELDIVTTEEDLVKVKNTTYFNDTVALKLSNVY
+KKI
+>tr|A0A1S1J2N4|A0A1S1J2N4_9FLAO
+MYKQELTIIVQSIIASNTIDEHTTCARNLSEFYEKIATVNHFENNEVHVKGGVALSSSGA
+ADCVDDYLRTVYFIKGVYKALTKLCIDFPERSINVLYAGCGPYATLILPLLPLFNKDRIK
+AILLDINTASIASVHHILSVTGLNDYSLELIETDAITYTKPEEFAIDLAISETMHYALTR
+EPQVAITRNIVSQLSSHGILIPEEIKIDLTYTYSDHEPSLKDAKSEVKGRNEIQPYPHSV
+FVDRLFTISKELFGNTSQDLEFKSDFYKLPDDFSNHPDVCIFTEIRIFEDIELKTAESYI
+TNPFCLVSMYNLTEYSEIQFLYDFSDIPKWSYNVKNALK
+>tr|A0A1S1J789|A0A1S1J789_9FLAO
+MKQLAKTKVTVRLRKAEDREEWYVYIESYPVEVSGKKTPQRIREYLNRTVKTVEWDKQRT
+ARTDAQGIKSYKPRRSDNGIIITRSETDREIMLYADGVRKIRQKEYDNIDLYSDAENLLA
+EQKERGKEDFIRYIASVAAKRHARSSKSIQINWERTKEFLKSYSAGSLMFSQINIRMAED
+FKLFLLAAPLGGGKKGILSLNTAARYFSIFKAALKQAFIDGYLTVDLSSKIKGIPEQESR
+REYLTIKELNVLAETPCEKDVLKRAALFSALTGLRHSDIQKLRWKEISLEDGMAKLHFTQ
+KKTRGVEYMPISEQALQLCGEPRLPGQLVFEDLPDPSWISRPLKKWVESAGIKKNITFHC
+FRHTFATLQLSSGTDIYTVSKMLGHTNVKTTQIYAKVIDEKKNRASQAIQLESLKKRAQ
+>tr|A0A1S1J8D8|A0A1S1J8D8_9FLAO
+MADLLKFVQNEFVAKKDFPVFGAGDTITVYYEIKEGEKTRTQFFKGVVIQRRGSGNTETF
+TIRKMSGAIGVERIFPVNLPALQKIEINKKGAVRRARIFYFRELTGKKAKIKDKRR
+>tr|A0A1S1J4D7|A0A1S1J4D7_9FLAO
+MNFKDLFNKGANCCFAVVFLLCLLAGNQMQAQSITLEGTVKDAAGLTLPGVNILEKGTKN
+GTSSDFDGRYKLKLTNPKAVVTYSFIGFKTKEVNAAGKTKVDVVLIEDSNALNEVVVVGY
+GTVKKSDLTGAVSSISGNDLKKVPVSNIAEALTGRIAGVQVTSSEGSPDADIKIRVRGGG
+SLTQDASPLIIVDGFPVNSMNDIAASNVESMTVLKDASSTAIYGSRGANGVIIITTKTGK
+DGKMAVSYNMFYGMKTMAKEIEVLPVDDFVKWQYEYALLDQTDKTILSNPSSYTKYFGSW
+QDRDLYNGLKGTDWQKQIYGRRGEVNSRDLGIRGGNEKLSYNFNYAYYDEKAIMAGSNFK
+RNNLSLALKNKASEKIDLGFTVRYSDTDINGGGANDQNQASSLDSRLRHSVGYAPIPMPG
+LTTDNDDQSVNSYLVNPFLAITDNDRQQFRKNYNLLGSFGWKLAKDLKFQSDLGLDNSNY
+SDYRFYGSSTYFSSTAKIGAGKPGMVMSDRKDVRFRNANTLNYDFKNILGDNHHLTALLG
+EEMITTTSNTVTTTILNYPKFFDLDQAKKLTTQGTPFSVDNFYSADDKLLSFFGRLNYDF
+KDRYLVTASFRADGSSRFLGNNRWGYFPAAAAAWKISEEDFLKNASWLNLLKLRLSYGEA
+GNNNIPVGQTVQSYLSSTNGFINGFDSYWSPSSVLANPELKWETTVTQNIGLDFGFFKNR
+LNGTFDVYKNVTKDLLIEFPVGGTGYKTQFRNMGETQNTGFEATLNFIAIEKKNYGLSFS
+VNVGMNKNRINSLGVMDNFGTNTNWASTDVGNDYVVNVGSPMGLMYGYQSDGRYEVSDFD
+YAGGKYTLKAGVVDASSVVGALQPGMMKLKNTDGSADNKVTASDQKVIGNSNPKHTGGLV
+INANAYGFDLSAAFNWSVGNDIYNANKAEFSTANRNGQYKNLSTEMADGKRWTNLDPASG
+QLVTDPTALEALNANTTMWSPYMQKFMFTDWAVEDGSFFRLNTLTLGYSTPQALTSKLGV
+SKLRFYFTATNVFVITNYSGPDPEVSTRRKTPLTPGVDYSAYPRSRQLVFGLNLNF
+>tr|A0A1S1J5H6|A0A1S1J5H6_9FLAO
+MQLAKDILETNRYSIEETALYCGFSGVTSFSRKFKQEFGISPSAYRNDSLITGFKPEDWK
+IPLSNACFNKLIQLKEEYKWLAKLLIIVIDNLDNEAFCIEMLSAKLFMSQSNLNRKVKSL
+FGFPAIRLLRDIRLQFAAEVLVVQKKSVTEAASLAGFFDIAHFSRVFKQNFNYPPSKYNT
+DNSLFPFVNLLRKVL
+>tr|A0A1S1J6G3|A0A1S1J6G3_9FLAO
+MILIQFTGLSGSGKTTLAENVRQLLIEKKYKVEIIDGDVYRKTICKDLGFSKEDRCENVR
+RLFNVGRNFVVSDTIVLMSVINPYENLRNELRNHEFVRTVYLDCSINNLIERDPKGLYKK
+ALLSDNDPDKIKNFTGISDIFETPLQPDLVLRTDIETVPVSTHKLYHFILNSLPDLA
+>tr|A0A1S1J3J9|A0A1S1J3J9_9FLAO
+MKTLSLKNLLPAGVIALAVCGAFATTSMQSASKKTTTLTQGYNALSNNKCGNVSVDCDDA
+ISENFCHISGDSGPLAYEKTTNNNCVTPLYRYDN
+>tr|A0A1S1J7L3|A0A1S1J7L3_9FLAO
+MKLRTLLLFIVFIKYSCVFAQEINPNSSNSILLEDKHGHLIQNLEEQKQFLKIREAKMKA
+EVLNLKKVILNSKERNLTSKTVATLQGVEICTNGGFEQYETINGSSYLKNFLYTIGDPPG
+PTQCRSITNTADSYINRYNPNNMNIMATSVSANLVDPYIGDIKAFDQYALKINHENSSTY
+GSIVQGKRFKTNNENYLKFNYKAVLQSVYDNSHTDNQAFVKARVLDKNKTVVSEFCLVGD
+EKNCIFSKVPSQNSGYVTLYTPNWQSGILDISSIPNYEEFTVEFMASRCGLGGHFGYMYV
+DDVCILQSAENLQGSIELDPLNKVCPTLPISVCGSYTIPNSGGISASVKKITLNVYNSSN
+VSVYNTSTTSNLDTTNKRFCFTLKSSDLPNITNTNYNVGVRIDYDISGTSCSGTTFDSAI
+DPDANPGWDISFLNCSSSCTINVTSAKISQCDANRDGSENFDLSTLNSLIVPSTAGLNFS
+YFKNYNEAESNLNAITNFTGYPSSSASIFVRVSKDATCYKIISANLEVRNPTANITGILN
+VCSGSTVLTASPGASYLWNTGETTQSITVTSLGNYSVTVTDSFGCSSNANVTIEPSQTAV
+SPTLQITQPSCFSATGTIKVTSTASQYSFDDGVTWGASNTKSNLNPGTYLVKIKTVNGCT
+SYSQSVIITAASTLYPNYTYINPLFCGDKGSITITTPAAYYSFDDGATWVNNSTANNLSP
+ANYKIRTKDLQGCISSANNVLISSNTLETPTYKIVLPACSTKGSITINTLSDFYTFDGGS
+TWVTNNTMSNLNAGSYSLGIKNALGCTSYYTYAYLNDFKDSYPQYTTEQPICGVDGSITI
+TTAADSYSFDNGVTWTSNNVKILPFGNYQIKIKNSAGCISSSAYVSLNQPYLSSPITSIE
+HPTCGVNGKITINSLSDFYSFDNGATWTTLNSKSLPPGSYTVITKNNLGCTSYPIGVYLN
+NPNIDLPDYTVVQPTCTSSGSITINTAASFYSFDGGYTWGTSSSLSNLNSYKFYNITIKN
+SLGCVSNSVGVSINTPKLPDPDYTVTNPSCGNIGNITFNTTADYYSIDGGANWSTNNVFN
+NLSQGSYNLIIKKNNCTSNSIYTYLDTSKLAQPNLTITQPGCGTKGSIKINTTASFYSID
+GVNWGTNPVFSDLPAGYYYPTIKNALGCISNSNPILLQDFFLPAPTFKTTQPTCGVGGSI
+TFTSTEAQYSIDGGRNWSTSPVFTNLSPNTYYLLVKNATGCTSPLYGVYANLQQYYLPNP
+DFTLIQPTCGIDGSITIATVASSYSFDNGNTWTTNPALSGLTSGYYNIMIKNAAGCRSYG
+LSISITPYYLPNPNIKIVQPSCGNGGSITVTTPADNYSFDGGSTWTTNPILLNPADSYYN
+ILIKNAKGCKSNSQYVYINKYYLSSPNVSAIQPTCSTTTGTIIVNTTADQYSFDGGITWT
+TSPVKKNLASGSYNVLIKNTLGCTSSGSYVYINTPPAIPAAPVATKVQPSSCDATDGSIT
+ITTPAISYSFNDGNSWTTSPTKINVGAGTYIIKIKTNSYSCESSTAVVNLSAGPAIAAPA
+FTTTQPNCSSSKGSITITTNAATYSFDNGLTYVFSNTKTDLTPGIYFIKIKNSAGCISDA
+APVTISPLLPLAAPAFTAIQPTCTNFTGSISINTVADFYSFDNGITFGTSNTKSNLSAGT
+YNLIVKYNSGCISLAATITIQDAPAIPVAPQVVVTNPTGCNPTGTIIVSTVANLYSFDDG
+LTWSTSNTVSLSPGSYFIRIKYTNGCESIPYKATINAAPNAPAAPIFTITQPITCSNPFG
+SILITNPADQYSFDNGKNYSSNPNSGNLIVGTYMVRVKNSIGCESAPISATINRPTDYPN
+DPAFTTIQPDCSNPNGAITITDPASEYSFDNGVSWTTTAMKSNLAPDTYFIKVKNNKGCA
+SNATTVTIIPFTNFTQNPALSGSQTFCIEQNATLNSITITGQNIKWYDAPVNGNTLPKTT
+LLESKIYYVTQTLNNCESLRFPVPVKVQNTPTPNADSPQQFCIQKNARIRDIKITGQNIK
+WYETASSTTSLSEITELVDGITYYASQSFSGCESDKTPITINILGATIGECIYFVDELPY
+PKFFTPNNDGYNDTWTIDFIYLAPNTGIKIFDRYGKFIKEIRPDNPWDGTYLGQQEPSSD
+YWFTVTRINGKEVRGHFSLKR
+>tr|A0A1S1J8J5|A0A1S1J8J5_9FLAO
+MKEEINAYNNVLELIGNTPLIKLNKITEELEGNFYAKVEAFNPGHSSKDRIALYILEEAE
+KKGILSPGDTIIETTSGNTGFSLAMVSIIKGYNCILAVSSKSSKDKIDMLRSLGAKVYVC
+PAHVSADDERSYYNVAKRLHEETKGSVYINQYFNQLNIDAHYNSTGPEIWEQTKGKITHL
+IACSGTGGTISGTAKFLKEKNPNIRILGVDAFGSVLKKYHETKEFDNKEIYPYRIEGLGK
+NLIPSATDFDIIDKFMKVTDEESAHSAREITRKEGLFVGYTSGAVMQAIKQYAEEGEFTK
+DSNIIAIFPDHGSRYMSKVFSDDWMNEQGFFDSVNEEEVQKIEFVK
+>tr|A0A1S1JAA8|A0A1S1JAA8_9FLAO
+MMLKLFKENIRIAFGSIKTQLLRTILTVLIIAIGITALVGILTVVTALENTVSTNFASMG
+ANTFNINQYENNLKNRGGNEREIINPIISYPEAVAFKNKYKYPFTETSLSFTATSKAEVK
+YSDQKTDPEITIVGVDEHFISNSGLETTLGRSFNQFDIENNTYSCVVGSDFEKGLLKDVN
+PIDKIISIRGARFKVIGVLKEKGSTFGNSQDLRVLIPIQVARSLFTTPKINYTISVMVSK
+KELLDEAVDNATSTMRRVRKLSPVRDNNFGIGRSDDLINRILGITKYLGWASWIISIITI
+LGSSIALMNIMIVSVTERTREIGVRKALGATKITISVQFFIETLLIGQIGGLVGIVLGIL
+VGFAFAAAMSFAFVIPWVAIFAAFATSFMVAIVSGLYPAIKASQLDPIEALRYE
+>tr|A0A1S1JB02|A0A1S1JB02_9FLAO
+MRKYLLTLQLFAFPLFFYAQTKTVSFSSVGTSSFYVPAGVSSVTMSAWGGGGAGGGSTVP
+GLTLQRAAGGGGGGAFAGGIYSMNMSIQTTLSITVGKGGAGALSGNGGAGDNSSITGYLI
+ALAGNGGAVNNGTVTNPAGGAGGLASGSTGATKVDGVTGGAGETLLPAVTGAGGAGGTSG
+ADVGGAGGASITGLLANSNGNPGTQPGGGGSGGKSALLGSASTGGAGGTGKVVIVYTCPT
+YSLTSISASTVNICTGTSSTITLNGSLPVGAYSVAYQVDGVTQTPVSMTVSTSGTGTFTA
+PGFSALGSKSLTVTSLTSGTSGNAADNCASTISANNTASVNVTSSGTAPVALAGTGATCT
+QITANWQSVSGSTYYTLDLSTDINFGSFVGAYNGLNVGNVLTVNITGLSNATTYYYRVRA
+FSGTCLSAYSNTITYKPAVSPGNVVLQAATNTLCTSFMANWSAEVNAVSYLLDVSLVSNF
+ASTVSGYNALDIGNVTTYSVTGLTASTTYYYRLRSKNGCGTSATGTATVQNIATTTQPGT
+PLNDPVVQPTCDVLTGTVVLKNLPNRNDYTITQTGTFSNTYSGGIGADWTKYTVAGLAPG
+TYNFTVQYPGSCASTSLSGIVVNALATNTYTIAGGWSLGTPTTSQNVVFADDFSSSGDVN
+SCGCTINAGKKVTINSSNTLTVKNALIVDSGAGTALTFKTSSSLVQVNSAVNSGNISYER
+TSPGILKKDYLYWSTPVNPQRLIDLSSGTAVTKYFGFDGTQWVVTDRTTNMVVGKGYIIR
+GPESYSNTVKVTFTGIFSGVPNNGNLEGELLSSGKSYLVGNPYPSALNADALLSANSLLG
+GTIYFWTHNTPVQLTYTNQYTTDDYASYNLSGGVSAKSDPLHSDIPANDNGIKPTGKIAA
+GQSFFVTTVAAGKVQFNNSMRLGGANNNQFFKAESTSKETTLVKKRIWLNMTNTSGAFKQ
+LLVGYIEGATNEYDSNYDGISFNANPYLDFYSVANGNNYVIQGRALPFADTDIVPLGYRT
+TIAGDFTISIDEVDDSMSEQAIYIEDKTTGEVHNLKQSNYTFTTAVGTFSDRLVLRYTGK
+TLGTDDFENRNNAVVVSVKNRIINVSSKKEQLKDVFVYDVSGKLLFSKSKIGNNEFQIQN
+LASGNQMVLVKVILENDVAGTKKVVF
+>tr|A0A1S1J4G8|A0A1S1J4G8_9FLAO
+MKRISIVGGGIIGLCTAYYLAKEGYEVTIFDQSPMDDGCSYGNAGMIVPSHIIPLAQPGM
+IAQGIKWMFDSQSPFYVKPRLDANLMKWGLQFYKHANERHVANAMPALRDLSLLSKELYQ
+DFARENNSFFYEEKGLLMLYKTDKVAHEMFHEGREAEKLGLKVDYLSAAAVAKLENGTKT
+DILGGIHYKGDAHLYPQKFMQFIKEELKRLKVEIHSGTTVQDFTFDHHKITKVVTDKGAF
+STDEVVLAAGSWSPSLAKKLGISVSILPGKGYSFTLKDQDHKPSIPSILCEGKVAVTPMN
+NDIRFGGTMEITHTGDTKINKNRLQGIINSINEFYPDMQVGMPENKDTWFGFRPCTPSGM
+PIITRAKKVVNLTFATGHAMMGLSLAPATGKIITEIISGKKTSVDTKMFQL
+>tr|A0A1S1J7Q4|A0A1S1J7Q4_9FLAO
+MSQEIRNLEPKALWNKFADLNAVPRPSKKEERVIEFMKDFGNSLGLETFEDEIRNVIIRK
+PATPGMENRKAIVMQGHLDMVHQKNADTVFDFDTQGIDMYVDGDWVRARGTTLGADNGLG
+VATIMAILESKDIPHPAIEALFTIDEETGMTGALNLKGGILQGQILLNLDTEEDDEIDIG
+CAGGIDVTATRTYNEEEVPEGSVGHIITVKGLNGGHSGMDINKGLGNANKIMNRLLFDAF
+ENFGLQVAEINGGSLRNAIPRESVAKVIISEMFDEAYIFDMQEIINDIKAEYKTTEPNLS
+IEIVKCDLPEKVMDLGVQEGIIRSIYAAHNGVYRMSADMEDLVETSNNIARVIVKDGEIT
+IGCLTRSSVETSKFDLANALRSAFELVGCEVELSGSYPGWTPNVNSEILDTLVGIYEKQN
+NEKPKVVACHAGLECGILGTNYPDMDMISFGPTIHGAHSPDERASISSAQKYWKFVLEIL
+SNIPVK
+>tr|A0A1S1J399|A0A1S1J399_9FLAO
+MNDKKVEEELKKIWDDVPISHSDEEKEASWEAFQSKAFPLKKQRFKAWHYASAAAVLLFA
+FIGVGLFFNKEQHQQEIKLTSNVIENTTSIVKTIFLPDSSKVELSPDSRIEYADNFKTNR
+KIEIKGEAHFQVTKDKKHPFQVFCNETTTTVLGTSFLVKGYTQKEVSVELFEGSVEMSIK
+DQTQKWILVPGEKFTYANNTVEVSEFERFTDFENEKLTVLAAYIKTNYGYTVKFPKEYYD
+QHITLRINKKEDLQIIIQLISEMYNLNFEINEKLKEVTFQ
+>tr|A0A1S1J3L8|A0A1S1J3L8_9FLAO
+MKRVIVDYAKLTNEILNLLVEKFPDGYDDSDVIRFRNAKNELVEAVEVRTEDTIYLVKIS
+TKLADRIENYDEDDDIDVDVDTIEPVKGLDLDDDIDDDDDDDNQDKPDVDNGDDDDDDED
+KEDIADDEDDEDED
+>tr|A0A1S1J5F0|A0A1S1J5F0_9FLAO
+MCKTRKLLLFLFVLLAPVVLRSQTTKDSLRVLKEVLLKAKPYQEVIPVQSLSGVLLENLA
+SHNVADALRYFAGVQIKDYGGLGGLKTVDVRNMGTHHVGVFYDGIQLGNAQNGVTDLGKY
+SLDDMESLTMYNGQKSEIFQSAKDFAAASTIYLRTKRPVFENNKKTNFLLRYKTMSINYN
+DLSFRLEQKLSDKVSWSASSEYIKSNGEYKFRYKRNNLDGTVAYDTSATRHNSDIEAFRF
+ESGLYGKMKNGTWDAKVYYYGSERGAPGAIVENKFSDGFRQYDKNFFAQGTFIKDLSERY
+KFQAKAKYAYDYTHYVARDTTSVLGEVVTEGAQSDDSYYQQEYYFSAVNLYKILPTWDVS
+LSTDFQYNRLNATRKGIKTLFSYPERYTALFALASSYRLDGFKVLGSVVGTHVQEEVRYN
+AKAPDKTEFTPAIFLGYTPFKAYDFNVRAFAKRMFRMPTFNDLYYTMVGSSTLRPEYMNQ
+YDLGFTYNIPVEKGFLDQFSLQVDGYYTNTKDKIIAAPTGNLFRWMMTNIGQVKGKGIES
+AVDMKMHFGKVNLTTHLTYTYSESRDYTKFAGLELSSYGDQIPYTPWHSGSGILNADYKS
+WNFNYSFIYVGKRYNGNVNNIKINEVQPWYTHDLAVQKMFSFHQYKIKGTIELNNVLNQQ
+YEVIYNYPMPGRTLKFIISIAL
+>tr|A0A1S1J5W2|A0A1S1J5W2_9FLAO
+MQNNENSPIPIGWVGGFPPAGSPMLYPTRDLSSLPMLSNMDNISFLQRQLGVRWPEFSWE
+TQKDSPNKRRCYQQFAPYISRAGYTDEGRVYSVICPQQGVWLKDEICINVEVTVTGQRGW
+VNEVTKEIAIDMTVEGKIWLTPNEQQGDKIKEIWPLLEYSFPKFPLNKDNAIRVTTHKQN
+DPDQPIFEVIHGLNPEFENPPFALHEGKAFATAYLAVEIGDIKLTKDKVVDDFNQLIMKA
+FNIGSGNMLQPGNTLSWNLWFTEPALVNKEEWKNHAEFWRNSIDVHHCSPTGNGTDARYF
+DGSKFSPEENAVDEIIKDIINYVRKHL
+>tr|A0A1S1J7G2|A0A1S1J7G2_9FLAO
+MKKLFLMLLFFCLQFSFAQETNSVSGIISGDGHQLQLANVHLVGTKYRSVTDSLGYYNFE
+NVPVGNYTLQVSLVGFQTSKKKIDVRKDAIQTYDFELDDTDNQLNEVVVSGTLKAVKRLE
+SAVPVEVYSPVFFKKNPTPSIYDALQNINGVRPQLNCGVCNTGDIHINGLEGPYTLVLID
+GMPIVSSLSTVYGLSGIPNSLVERIEIVKGPASSLYGSEAVGGLINIITKNPTNAPVFSA
+DYFTTTYLENNLDLGMKFNAGKKATSLLGVNYFNYDQVIDKDNDNFTDVTLSKRISVFNK
+WSFHRNDNRLFTIAARGMYEDRWGGDVRWERKYRGGDEIYGESIYTKRGELIGSYQLPFE
+EKLMLSFSGNVHYQDSRYGTTSYIANQKIGFLQLTWDKKIGSNDFLTGIASRYSYYDDNT
+PATKNAEKTWLPGIFVQDEITFSPKSQVLLGARYDYNSIHGSIFTPRFAYRFKANENTIF
+RLNAGTGFRVVNLFTEDHAALTGSRDVVLKSDLKPEKSVNVNLNYIQKINFDSGVFVGIE
+TTAFYTRFSNKIISDYETDPNKIIYDNIDGYALSQGISTNIDVNFTNGLKFILGATVLDN
+KNVQDKISQRPFLTERFTGTWSVSYKINPWNLVLDYTGNVYSPMKLPLLNEYDPRNPNSP
+WYSIQNIQFTFTGWKNFELYGGIKNLLNFTPKQNNPFLISRTNDPFDKNVQYDSAGKVLV
+TPDNPYGLTFDTTYVYGQNQTIRGFLGLRYNFR
+>tr|A0A1S1J0C7|A0A1S1J0C7_9FLAO
+MKNQLEITETAMEFLAEKKLSYPKIWTEEAIVFITELHRKFDSQRKLLLLQREQKQTAFD
+QGVMPSFPSETKTVRESNWVAGEIPKDLQDRRVEITGPVDRKMIINALNSGAKTFMADFE
+DSTSPTWQNLMDGQVNLIDAVNKTISYTDLIKHKSYHLNEKIATLIVRPRGLHLPEKHLS
+IDGNAVSGSLVDFGLYVFHNHKRLLENNSGPYFYIPKLEHYLEAHWWNTVIDFTEDYLKL
+ERGTIKVTVLIETITASFQLDEIIFELKEHIVGLNCGRWDYIFSYIKKFRKHSKFIVPDR
+DQVNMTSPFMNAYSNLVIQRCHKRGIHAIGGMAAQIPIKNNEEANAIAFAKVKTDKEREV
+KNGHDGTWVAHPDLVALAKNVFDAGMPTPNQIHVKKEYRKITEADLIEPPIGIITENGVR
+KNINVGVLYLASWLNGQGAAALHNLMEDAATAEISRSQLWQWLQNKVTLDNGQILNLAYY
+HELALDEFKKIKDELGEENYENRQFPLAEKVLERLVVNPDFVDFLTLPCYKYL
+>tr|A0A1S1J2T7|A0A1S1J2T7_9FLAO
+MSASHKNLHSKLSIGGLLITLGIIYGDIGTSPLYVMKAILGDYAINSDIVLGGISCVFWT
+LTLQTTIKYVLITLSADNHGEGGIFALYALVKKTKIQWLIVPAIIGGSALLADGIITPPI
+SISSAVEGIRAFYPTMQTETIVYIVIAILFILFTIQQFGTKLVGKFFAPMMLIWFAMLGT
+LGTIQILKFPEVIKAVNPYYAYHLLSIHPDGFFVLGFVFLCTTGAEALYSDMGHCGRKNI
+RISWVFVKTTLVLNYFGQAAYLIHHEGSTLQQLGGENGNPFYLIMPHWFLPFGIVVATLA
+AVIASQALISGSFTLINEAMRLNFWPKVKIKYPTEVKGQLYIPSINWLLFFGCVGIVLHF
+EKSGNMEHAYGLAIILCMIMTTILLNYYLIMKRVKLYLMVPLITIYLLIEFSFLIANITK
+FAEGGYVTLIIAIALISIMTIWYLAKKINKSYTKIIKIDDYKKVLMELSEDLSIPKYATH
+LVYMTNANRVDELEEKVIYSILQKRPKRADIYWFVHVNILTEPYKTQYKVTEIAKDDIYR
+IDFNLGFREPTKINLMFREVIRDMVKRGEVDITSRYESLNKNNIIGDFKFVLSEKFLSND
+NDLRWHENIIMSSYFFIKKLSLSEERAFGLDSSSVKIEKFPMVLHAPENIGLTRITK
+>tr|A0A1S1JBC8|A0A1S1JBC8_9FLAO
+MDQNNNIDFKDLWKKQSVSQPDMKDLLGRLKEFKAAGLRHLWITNILLLATTAFILFVWY
+YYQPEFISTKIGIVLVIVAMVMYVGVYNGLLVGYKNIDTTQSNQEYLQRLILIRKKQQFM
+QSTILSLYFILLGVGIGLYMYEYTLRMPLVYALLTYGVVLLWIGVNWFYIRPKQIKKQQA
+KINDLIGKFEEVNKQLEL
+>tr|A0A1S1J5V6|A0A1S1J5V6_9FLAO
+MEEKKVNSFLSRLKENAQKQTNYGGDTEMTEAKMNAKDCPNCGAGRAKQDGLTHCAYCGF
+EFLSVNLTDGVYLKKEDNSI
+>tr|A0A1S1J6C5|A0A1S1J6C5_9FLAO
+MPTDCISYQNSGYFSKLIQDYLDQKPELQSLYNHFPTLENFEKQIRDKQANFDHANRVPL
+VETLKKQYQNIQVSNSTKENIELLALPNTFTITTGHQLNLFSGPLYFLYKIISTINLTTE
+LKSKYPAHNFVPVYWMATEDHDFEEINYFNFKGKKFRWNKESTGPVGRLSTEGLEDFFEI
+YSKDLGSSTNANFLKKLFEEAYLRHENLADATRFLANSLFASYGLVILDADSADLKRAFI
+PYVKEELEQQTAFKAVQETISKFNDYTIQVNPREINLFYIEDQLRERIILEKDRYVVNHT
+KISFSKEEIFNLLECNPEKFSPNVIMRPLYQEIILPNLCYIGGGGEIAYWLELKSFFDAV
+NITFPMLLVRNSVLLSTEKQAKKADKLGLHWKDLFTKPADLVNAITHKLSGFPIDLTPQK
+EMLVKQFEYLYELAQQTDKSFTGAVKAQEVKQKKGLDNLEKRLLKAQKRKLDSEIQRVVD
+LQCELFPNQSLQERQTNFSEFYLEKGEELIPLLIQNLKPLETNFNIITI
+>tr|A0A1S1J6N0|A0A1S1J6N0_9FLAO
+MKKTIITIVIIIASLGVIGYILNKNKKENKEKTDIVAEKNAAVSVKVSPVKTEEVSLDFV
+ANGNFQPTQQLTFSAEKSGKVISVLAKEGDYVRVGQTLLTMRGDVINVDAQTAEAAYQNA
+KSDYMRYENAYKTGGVTKQQVDQAKLALTNAQSHLTQAKINVGDTRVKAPISGFINKKYI
+EPGSILTGMPATALFDIVNVSKLKLVVTVNENQVASLKTGDHINVTASVYPDKNFSGKIT
+FIAAKADESLNFPVEIEITNNVNNDLKAGMYGTANFASKQQKQNLMVVPRNAFVGSVSSN
+QIFVVEKGIAKLRKVTAGRILGDKVEIINGLTDGETVIVTGQINLQDGNTVEIIK
+>tr|A0A1S1J8D1|A0A1S1J8D1_9FLAO
+MPTISHKGRNMPESPIRKLAPFADLAKKKGHKVYHLNIGQPDIKTPEVAIEAVKNIDLTL
+IEYSPSAGYESYRKKLAQFYQRQNVNVNTEDIIVTTGGSEALLFALATITDPGDEIIIPE
+PFYANYHAFASSTSATVVPLVSTIETAFALPSIEEVEKLITKKTKAILICNPGNPTGYLY
+SEEEIRQLAALIKKHDLYLIADEVYREFLYDGDDKHFSVMNLEDVQQNVIMVDSVSKRYS
+MCGARIGCLVTKNKEVLATVMKFAQARLSPPTIEQIACEAAIDTPQSYFDEVISEYKERR
+DTLIAELNKIEGVIVTKPKGAFYCIAQLPIDNSEDFAQWLLESYDLNGETVMVAPAAGFY
+STPGMGLNQVRIAYVLNKKDLVTAVNILKEALLVYNKK
+>tr|A0A1S1J2K1|A0A1S1J2K1_9FLAO
+MVAIYKELHAKGLNIIGVSLDKEAAAWKEAIAKDGLTWTQVSNLKFWDEPIAKQYGVESI
+PATFILDASGKVVAQDLRGPELRAKIIELLAK
+>tr|A0A1S1J4G6|A0A1S1J4G6_9FLAO
+MKNKRIEIKNHQDLNCILSEMIDEFLESMIGSEKYTREPIEEEIEKFEFSDIELGFIYTS
+KAEALLKRYESRAKKIFSKYFDEDLFELNLYNITYS
+>tr|A0A1S1J6S7|A0A1S1J6S7_9FLAO
+MLKKSFKFLGWTLFGIFTFLALYVTAVLLISRITVNSTINKIDEQNAIPIYILSNGVHTD
+IVVPIVSEVKDWRKEIQFDQTESNDTLAKFVAFGWGDKGFYLDTPEWSDLKASTALKAIF
+GVSSSAMHTTFFKQLREGEDCKRILVSKENYQKLVNYISESFNNPENPEWIEGHSYGKKD
+AFYEAKGSYSLFYTCNTWANCALKAANQKASLWTIYDKGIFYHYQ
+>tr|A0A1S1JCU8|A0A1S1JCU8_9FLAO
+MKRILCFFSILSLILASCSSNVESAVNAENVLLPMTEKYTNASYPEDSSTVTYAYDGNKI
+TSLTYDNGSAVVFTYTGNLITKAVYTETYEGTTHTSTTTFTYENDKLKSTLKVNSGNSLH
+KKRTYTYNADGTISTITLLINPQTLEETEDSSSILTLDVNGNIIKQESDGFTTVVEYDTK
+NSPFKSILGYSSLLDSDVFDQDANSSNNLTKVTDMSGDGSQDINTYVNTYNSDNYLTKSV
+NGSETKEYTY
+>tr|A0A1S1J1K3|A0A1S1J1K3_9FLAO
+MVGFDENDLVNRDYVNTTTNGDNPNYTAIRDRERVNKKERYEVVYFCDAFVKNYQVPKTK
+ASFQKVERIIRLSQASNIVMRDQLNNFVAQNWNLL
+>tr|A0A1S1J2I3|A0A1S1J2I3_9FLAO
+MTQLEKIIEEIQHSNTPTKQFLEFVERDKEYQKAKTNKDKWKLILMILQRFSDIFKNGEY
+EDLRTIFKARYPNL
+>tr|A0A1S1J2V0|A0A1S1J2V0_9FLAO
+MREPKKCIIVDDEPAAHYVLANYIKQNPQLELVFQGFNGIEAMDYLREHPVDLMFLDINM
+PEISGMELLKIIPTHPSTILTTAYSDYALESYDYGVIDYLLKPIYFPRFLKAIDRFFATE
+NGKAKIEEAVINSVTVKVDGYFIEIELDQLLFAQSFGNYVKLHTIKRTYLASITTSELEK
+CLPEKNFMRIHKSYIVALDKIEATDKDFVVIKNEKLPIGITYKRELSDRLKK
+>tr|A0A1S1J3V6|A0A1S1J3V6_9FLAO
+MKFTAEQIAGILEGEVVGNPNVEVSRLSKIEEGEEGSLTFLANPKYINHIYTTKASVTIV
+NDSFIPEQEITTTLIKVEDAYASFSKLLQFYNQVKLNKNGIEAQSFITEGTKYGENLYLG
+SFSYIGQNVVLGDNVKIYPNSFIGDNVVIGDNVYIFAGAKIYSETIIGNNCTIHSGTIIG
+ADGFGFVPNDEGVYSKVPQIGNVIIEDNVDIGANTTIDRATLGSTIIRQGVKLDNQIQIA
+HNVEIGKNTVIAAQSGVAGSTKIGENCMIGGQVGIAGHLTIGNNVRLQAQSGVARNIKDD
+EILQGTPSLGYTDFNKSYVHFKNLPKIVSEVEELKKQIINPKNGNNG
+>tr|A0A1S1J7C9|A0A1S1J7C9_9FLAO
+MQKITILMHCKDQKGIIAAVTTFIAKVEGNITYIDQHVDVEQNVFFMRLECELTNQHVSA
+ESIKEDFSKTIATDFNMSWELYNQEHKPKMALFVSKYDHCLFDILGRYSANELNIEIPVI
+ISNHNELRSVAERFNIPFHCVPFTKDNKEEGEAKQIELLKKYQINFIVLARYMQIVTPKL
+ISLYENKIINIHHSFLPAFPGAKPYHSAFKRGVKIIGATSHYVTEQLDEGPIIEQDIARV
+SHIHSVEDFIMKGRDLERIVLARAIKLHAERKTIVYSNKTVVFS
+>tr|A0A1S1JCE5|A0A1S1JCE5_9FLAO
+MSKKTIYLLVGGTVALIAVLVGLSKAGVIGNKDEGTEVEISKVIASTIVETVSATGKIQP
+EIEVKLSSMVSGEIIALNVKEGQVVKKGDLLVKINPDLYTSGLDRSVANLSGTKAGLTQS
+EASYNEAKANYERNKTLYEKGVISKSDWDKAISSYEVAKATKQNAYYNVKSASASVTEAR
+DNLGRTLIYAPADGTISVLNVELGERVLGTQQMAGTELLRVANLNNMEVEVDVNENDIVK
+VKIGDEANVEVDAYLKKKFKGIVTSISNSASTALTSDQVTNFKVKVRILKESYQDLLEGQ
+PSTYSPFRPGMTATVDIRTKTKNNVLAVPISSVVVKSDTAAVKDFKVEDPNEDKKAAPKS
+DKKFECVFVKVGSKAKIKIIKTGIQDDTNIEVMSGLKAGDVVITGPYTTVSKDLNSGDKV
+KLKKADTSKK
+>tr|A0A1S1J3Q8|A0A1S1J3Q8_9FLAO
+MNKSELIDAIAADAGITKAAAKLALESFLGNVGATLKKGGRVSLVGFGSWSVSARAARDG
+RNPQTGKTIQIAAKNVVKFKAGAELEGAVN
+>tr|A0A1S1J6W0|A0A1S1J6W0_9FLAO
+MKSIDPNDFKITDKIKLSKIPTLLDLDADSEEKEAKLDKVQAKLSKQQDAMYAHNRYGVL
+ICLQGMDTSGKDSLIREVFKEFNPRGVVVHSFKTPTSAELEHDYLWRHYMVLPEKGKYAI
+FNRTHYENILVTRVHPEYILNENLPGIEKVEDIPKDFWKDRIEQINNFEKHITQNGTIVL
+KFFLHLSKEEQRKRLLRRLEEEKHNWKFSVADLKERAHWEEYQQYYEEAINKTSTKNAPW
+YIIPADDKEMARYIVAKTIWEEMQKHTDIKEPELPESIKTNIKIYKEQLENES
+>tr|A0A1S1J7B5|A0A1S1J7B5_9FLAO
+MRILVIQQKRIGDVLTSTIICNNLKTKYPDSIIDYMCYPNSVDVLKENKNIDNIIPLSNK
+VRKSTPSLFKFIFQIRRNKYDAVIDVYSKLETNLITLFSGAKYKVSYRKWYTKICYNYTY
+ERLDAVESEHGLAIENRLMLLKPFISEKITDVKPKIFLKESEIDDAKKLLKSYQVDMEKP
+LIMFGILGSEVYKTYPLEGMAKIIDFTVAKTNATIIFNYIPDQKEQALEVYNHCSAETKK
+HIVFDLYCTELRPFLALLSQCEMLIGNEGGAVNMAKALEIPTFSIFTPSVRKETWQIFEN
+EAKNFSIHLKDLKPEIYKQHTEQYIKDHTFEYYDEYPLTLMLEKLDTYFQEYKN
+>tr|A0A1S1J9G4|A0A1S1J9G4_9FLAO
+MRQFLQFISCSFLILVINSNLYAQTKKLSIDDRLLQDSIYKSNKKKVLNFSMKDFNTLFF
+EYFNRKNDPNIVLSKTEYYNYTVRIAAFSDRLASLYPEEKEVAAKNKAKWLSENYEDYLQ
+FKASQKK
+>tr|A0A1S1JBP0|A0A1S1JBP0_9FLAO
+MIEKVLKNVVYLFYPRNICAFTEKDIYFISEEYKRLVQTINDFNSEEGKVFRKRIVAEFE
+HDYTLNKLNDHTLFDLGDRCMTFNVSVIEDGELYTISLFISIIVPYYVIKVQKNIIDLYF
+SKSEVTNLQEKNTERRTINELVMDIETVIEDKFLYKKFPKEILNSVVEDISFQDTEFGCF
+TMFIAFFNNVIIKENEK
+>tr|A0A1S1JD40|A0A1S1JD40_9FLAO
+MTKVTNYLSEAFEELKSNVTWPAWAEVQKLTIVVAVFSILFALATWGVDEFFAKALAGFF
+NWLKG
+>tr|A0A1S1J6M7|A0A1S1J6M7_9FLAO
+MKKTLLVFLLAGSLISSAQESKPKAPQAPAKEENSPSNLTFNPDASVITNHSVTIKGQKV
+PYKATTGTMPVWDEDGKAIAGLFYTYYERSDVKDQASRPLVISFNGGPGSASVWMQIAYT
+GPSLLNIDDEGYPVQPYGIKENPYSILDVADIVFVNPVNTAYSRPTSKDIPTTKFFGVNA
+DIKYLADWINGFVTRTNRWASPKYLIGESYGTTRVSGLALQLQNSQWMYLNGVILVSPTE
+LGITRGVVSDAALKLPYFAATAWYHKMLPPDLQNKDLTDMLPEVEDFTVNELLPALTKGG
+SLDEQKRKEIGAKIARYSGIPEKVIQQNNLDLPYDYFWKELLRDKGYTVGRLDSRYKGID
+RKDSGESPDFNAELTSWLHSFTPAINMYLRNNLNYKTDFKYNMFGSVHPWDRSNDKTGEN
+LRQAMAQNPYLHVMVQSGYYDGACDYFNSKYDLWQMDPSGKLTDRMSWKGYRSGHMMYLR
+KADLEAANEDIRTFIKQSLPKAGQPAKY
+>tr|A0A1S1J7Q0|A0A1S1J7Q0_9FLAO
+MNSICTPKEALLKLEHYCAYQERCHAEVVSKLYSLKMTADEIDTIVVQLIETNFLNETRF
+ACSFARGKHRMKYWGRIRITNELKAKQISSANITLALKEITVEEYEATFDQLSERCWNSI
+HEKNTLKKRKKFCDYMLRRGYESFLVYDKVTLLEKEF
+>tr|A0A1S1IZS0|A0A1S1IZS0_9FLAO
+MAVHTKIALVTGGSRGLGKNMAIAIAKKGIDVIITYNSKKEEADSVVKEIESLGQKAASL
+QLNVADSGTFNPFFNSVAETLKSTFKTDKFDFLVNNAGTGLHNSFTETTEAEFDQLTNIH
+FKGPFFLTQKALNLMNDGGGIVNISTGLARFSFSGASAYASMKGAIETLTKYQAKELGER
+KIRANVVAPGAIETDFGGGVVRDNEQLNKNIAAVTALGRVGLPDDIGGVVAFLCTEEARW
+VNAQRIEVSGGMNL
+>tr|A0A1S1J1D2|A0A1S1J1D2_9FLAO
+MNHYETVFILNPVLSEVQVKETVTKFEEFLTSRGAEMVSKEDWGLKKMAYEIQNKKSGFY
+HLFEFKVAGEVLIAFETEFRRDERVMRFLTVSLDKHAISWAERRRAKLKSTKA
+>tr|A0A1S1J4Y6|A0A1S1J4Y6_9FLAO
+MNQKHQEDLAHIRSMMERSSRFISLSGLSGVFAGLSALIGGLYVYQLFKANGTEYFGGDY
+EKQYSADLVSELVFTGLIILAVAFTFGLLFTVRKSKKYDLPIWTSATKNMLFNLTIPLLA
+GGIFCLALIYHEVYGLIAPATLIFYGLALINAEKYTYSDIKYLGFCELVLGFISLFLIGY
+GLIFWIIGFGILHILYGLIMFKKYK
+>tr|A0A1S1J8U9|A0A1S1J8U9_9FLAO
+MIKKIIVSACLLISFVSFAQQGTASPYSFYGIGDTRFKGTLENRSMSGVAVEQDSIHLNI
+ENPASYASLKFTTFTVGGSFGTTNLKTGEKSEKAQRATFDYLALGIPMGKFGAAFGLVPL
+SSVGYKIQNDLTDTEGATSTQLQGKGGVNKVFFGLGYKIKKNWNIGVDAQYNFGKITTSS
+LALRTNVENATRETNTSELSGVNFNIGTMYQTKIDKKLSLFTSLNYTFASNLNSNSTRVI
+QVDGDSDPINTPEQTNKLKLPNKITFGAGIGEARKWLVGTTISFQGEGQLANFYNTRDNV
+RYEKYQKYAIGGYYIPNYGSFTSYFSRMTYRAGLKYEKIGLVVNNQEINDLGMTLGMGIP
+LNNGSFSNVNIGLEFGKRGTTSAGLVQENYFNFSMSFSFNDKWFVKSKFN
+>tr|A0A1S1JC37|A0A1S1JC37_9FLAO
+MATQTKEQKVQGSSSEQLVQDSPSKINLLNEYGGFAFLENVIDGLSNLNPTRKARKNIFL
+NDAQWESERTTLNNRLDLWLDLLKGNDSVESMIEVANAKATSADATLNKNLKYALNTTRE
+LETSYRSVALFYKNAESDKIKNVTIVNADITQLKDLDNTLFIDYVSNELKQNFDRLDLRK
+NYSILSVPGYLGSNAVLEKWSKIAHENKTVLLTDFQDLETPDDVIDIFFNANHTGGDVYK
+SNTIMTCNYLLGRSKNNEVGEEDNLYVPPSTSLAGKIYKTLMSQVVAGKKFGGLNEVESV
+RFDLKKSEISEIEKMGLVPMVNEYSKIMAFSAKTLFNGDNLGLQTYSVVRVFDHITKVLF
+DFLNRRAFENWTTRTEADLRSQIIKFLDGIKGPTNLIEKFTVMKIEQDKTQKDRILLDIH
+ITPYFPAKSFVIQLDGHKGDGPEEAVWHSDYKQV
+>tr|A0A1S1JCM7|A0A1S1JCM7_9FLAO
+MRCEFAREFYGSSGLTLVFFFYFDFISKYKCFVFSKAFFYGLFPVIKNWYKPVSSVKSVG
+QKKTLPFAKSKKRSVFN
+>tr|A0A1S1IZL5|A0A1S1IZL5_9FLAO
+MEIKNIKTLGQLKAVGYKSVSIKDELRNNLREKIKSGKPVFEGVHGFENTVIPELERAIL
+SRHNINLLGLRGQAKTRLARKMVELLDEYIPFVAGSEINDDPLHPISRFAKDLIAEKGED
+TPISWLHRSERFFEKLATPDVTVADLIGDVDPIKAANLKLSYADDRVIHFGMIPRANRCI
+FVINELPDLQARIQVALFNILQEGDIQIRGFKLRMPLDMQFIFTANPEDYTNRGSIVTPL
+KDRIGSQILTHYPESVAIARAITEQEAKLDETQHKLVYVPALARDILEQISFEARESEYI
+DNKSGVSARMSITAFENLMSTAERRALKAGVDKTTLRLSDFVGIIPAITGKVELVYEGEQ
+EGAAMVAQNLIGLAIRTLFPTLLPRIEKLEKPGEKTPYSDVIEWFFAESGFELLDDASDL
+EYQNILDEVTPLDVLLKKYLPQLDKKDQYFMKEFILWGLVEYKKLSKDRFAQGHQFKDMY
+GSYISKL
+>tr|A0A1S1J1J2|A0A1S1J1J2_9FLAO
+MKSNANGEIKTYGAKVFREKFLGQENPMHLLFKSSSDHFFCLEMEEMMQLRYAVPPSKHS
+CHTILFVTSGVHVAKVGFEEYQTNPNEMLIVPAGQIFSIEHINTKHIGFICQFHPDVLIG
+KYGNSEMLNDFDFLKIGGNPKIIISPDNFHFIVNLFKRLQAAYLETEIDNADIVQSYLMA
+LFFEMNKNAPKTSKSNTAAAVIFAKFKKLIYANIRTHHQVNYYASLLNVTPNHLNKSVKS
+ATGKSAVKWIDETILTEAKYLLYQTTFSVSEIAMQVGHEDHSYFSRFFKKHEGITPIQYR
+KLIDKS
+>tr|A0A1S1J6D4|A0A1S1J6D4_9FLAO
+MSRVCDLTGKRAMVGNNVSHAMNKTKRKFSVNLVKKRFYLPEEDRWITLRVAASTIKTIN
+KNGITAVLKKAQSEGFIK
+>tr|A0A1S1J8U8|A0A1S1J8U8_9FLAO
+MKRNKTIKVVLFVLLSLVWIFITTFNLGPFGSLGKLTTYKTGLLSVPLQSDGIQKIKSDQ
+KLDIYVDNVGIPHIYGATKTAAAYGLGYMHAKDRYFQMEMISRIVQGRLSEFLWSGTLKS
+DKFWKPYEFERKSEEILATYKKENPEFYAYLQAYSDGVNAYLNNNENTDPLYKALGTAPR
+KWKTEYSLLFTWYMSYTLTYFDHHIDQQEILEKLPGQEITYFYPLQPKGINTILPSGLLP
+STTNLPHLGAHSLETASVENAQKEPSLFDLGAKLMTNHKFYQGVGSNNWVVNNTKTKSKN
+NILANDPHLYLTLPEAFYEAHIVTGSFKAYGFTIPGVPVIASGHNDKISWGITNGEWDLV
+DRYKLQVKNDSLYLYEGKWIPFQIKNYTIKVKGKPDFIEKYRSTVHGKVIKEENGQYYAQ
+HWYAAEKSNSVKAMYEVMKSKNWDGFSTALKDYSYPPQNFAYSDVDNNIGIVCAGELPAR
+SSDYIGQVLDGSKKYTPVKALDAFWSAYNPDNGFLFSANQQPIQNNVYFGAHGSKDDYRA
+KRIYSVLEEKKNWSVPEIQKMQSDVVDISLNDFKTLMNNYPQKEKYNSIVKELKNWDGNM
+KGDGNQGLVFEMLRKVSIKEAKQFAKNRLQVKQEPSLQNFLKYLNDKKYTLPGGDDKQKI
+VDAIFKRTLDTLTQSYGDQWKKVTYKKISKFDINNMMFIPGLGEKIDNIGGNVNTININT
+EKFHPVFRAVYEVKNGNIQAHTILAGGQSGLINSTHYKDQIESWRKGEYKKSQFVANPAK
+LEKIITTIKFN
+>tr|A0A1S1J1P8|A0A1S1J1P8_9FLAO
+MTLYLWFVFFLAVQVIHFIGTWKLYQAAGRKSWEAAIPVYNSIVLMKIISRPTWWTLLLF
+IPIINLIMFPVVWVETLRTFGKKTTLDTLLGIFTLGFYIYYVSYTQKLVYNADRKLTSEN
+KAGDTLSSLLFAVIVATLVHTYLVQPYTIPTSSLEKSLLIGDFLFVSKVNYGPRVPMTTV
+ALPMVHDSIPFVKQRSYLKWPQLPYFRLPALEKIKRTDIVVFNWPVDTVHYFYEPKGRPG
+VIKPIDKKSNYVKRCVGIPGDSLSIKDGFVFINGKKLVLPERAKPQYSYSVAIDPKIPID
+FESLVRELDITDGAGFKSEKRDTLYFRALTEASAERLKNTPGITAVTREIDHGNDNAIFP
+HINKWNQDNFGPIYIPEAGKTVALTNESLPFYKDIITTYEGNTLQLDGSKFLINGKPATT
+YTFKQNYYWMMGDNRHNSEDSRYWGYVPENHIVGKPVFIWMSWDTNGKGINKIRWSRVFT
+TVDGEGQPQSYFKYFLFILAAYFVGEYFWKKRKQNKA
+>tr|A0A1S1J2Q0|A0A1S1J2Q0_9FLAO
+MKDLVAKINAEIETFKTESEALAEKGVKAAGARARKSSLEIEKLLKEFRKVSIEESKK
+>tr|A0A1S1J3T3|A0A1S1J3T3_9FLAO
+MLKEIESLIPHRNPFLFVDKIVSFSNETIVGIKTFDERDLWLKGSVPMSEYIPGTILIES
+MAQCGGAGVKLLGITNGIFGLVSIEDAEFFATAKFTDDIKFVIQNIRLSEKIIKQSGIAY
+VGDKEIIKATWMCVKLQ
+>tr|A0A1S1JA97|A0A1S1JA97_9FLAO
+MISLFDISLQLNGFPIKKAKTQLDEIRNLSEEQYAHFLQNRKEEIVAFHLENNSFYQELA
+GDNTKLEWENLPILNKQNLQKPLKERLSKGYTLKNVYLNKTSGSSGTPFVFAKDRHCHAL
+TWTSIFMRFGWYNINFNRSYQARFYGIPMNFAGYHKERIKDFLTHRFRFPVFDLSDGVLE
+KFLQKFKTKKFDYINGYTSSIVLFAKYLEQKNLILKEVCPSLKACFVTSEMLFESDKKLL
+EKQFNIPIINEYGASELDLIAFENLKGEWQVNSETLFVEILDENNQVLPYGKEGRIVITS
+LFNKAHPFIRYDIGDIGILDEKSTPQKPILKKLVGRTNDIAVLPSGKKAPGLTFYYVTKS
+IIEDDGNVKEFTIKQTQLNTFEIEYVSDIELNITQIQKIEKAITVYLEPNLTFSFTRKTV
+LDRSKSGKLKQFKSYL
+>tr|A0A1S1JAZ0|A0A1S1JAZ0_9FLAO
+MKISFKYISYFFLFVLGLSMTLTSCTDDLNVTPKDDDEFLSETFFKDPASYKQVLAKLYA
+GLYVGGNDGDGDAAIPGKNPDIAGLGGDFSSYLRLLFVTQEFTTDEAIIAWADGTLPTLN
+AQTWSPANEFLEGTFSRAFYHISVANEFLRQTTEEKLASRNVDAKLKADIANFRAEARFL
+RAFSYYNLMDLFGNVPITTEKDPVGFFYPEQKTRAEVFAFVESELKDLDNSLVASKANEY
+GRVDKTAAKFLLAQVYLNAKVYIGVDKNNEAATLCNEIITSSGYTFANVPYRYLFSADNN
+RNGAQSEVIFPIVSDGNAIRATGGGMSFIMHASIGGSMDAASRGMDGGWQGIRTRKEFVA
+LFPDATATGDKRGTFYTNGQSLDINNVSTFTDGYAVTKYINKNADGSAAQRNDIPDIDFP
+MFRLTDAYLMYAEATLRGATSGNLNTALGYVNQIRGRAGAPAITLPQLTLDFILDERGRE
+LFWECHRRTDLIRFGKFSGGSKIWQWKGGIMAGAATASFRDLMPIPARNIQANPTLKQNP
+GY
+>tr|A0A1S1JE11|A0A1S1JE11_9FLAO
+MEIKPIFLVIEDNLIDQLVIKQLLTKVLDIDQIIIANNGREGIQWLVTKNNDHPLIILLD
+IQMPIMNGFEFLEEFHKLKKGIKKGIQIYILSSTLDPDEIAAITANKYVSAFLNKPFPID
+EFKTILLNY
+>tr|A0A1S1JBB0|A0A1S1JBB0_9FLAO
+MNQTKYIFVTGGVTSSLGKGIIAASLAKLLQGRGYRTTIQKFDPYINVDPGTLNPYEHGE
+CYVTDDGAETDLDLGHYERFLNVPTSQANNVTTGRVYLSVIEKERRGEFLGKTVQVVPHI
+TNEIKDRMQLLGKSGDYDIVITEIGGTVGDIESLPYIESVRQLVWELGENNGIVIHLTLV
+PYLAAAGELKTKPTQHSVKTLMESGIKADILVCRTEHELSQELRQKLALFCNVKKEAVIQ
+SIDASTIYEVPNLMLEEGLDVVALKKLDLPKKASPDLKNWNTFLKRLKNPKHTVNIGLVG
+KYVEMQDCYKSILEAFIHAGAANETKVNVISIHSEHINAENIVEKLAGLDGVLVAPGFGE
+RGIEGKIEAVRYVRENNIPFFGICLGMQMSVIEYSRNILGYKEANSTEMNDKTPHPVVNL
+MEEQKTVTDKGGTMRLGAWKCDIKPDTLAYKIYGQKTISERHRHRYEYNNKYADELQNAG
+LKASGVNPDTGLVEIVELENHPFFIGVQYHPEYKSTVANPHPIFVNFVAAAVNAHKK
+>tr|A0A1S1J8H1|A0A1S1J8H1_9FLAO
+MKKQYDYLIIGSGLYGSVFAHEAKKAGKKCLVIDKRDHIGGNVYCENIEGINVHKYGAHI
+FHTNDKAIWDYVNQFVEFNNFTNSPMSLSKGKMYNLPFNMNTFYQLWGTKTPQEAKAKIE
+EQVAAYGVKDPKNLEEQALSLVGKDIYDYFIKEYTEKQWGRKATELPAFIIKRLPVRFTF
+DNNYFNDTYQGIPIGGYNKLIDKLLDGIEVVTNTNYFSDRTKFDGLADKIVYSGKIDEYF
+DYKLGVLEYRSLQFDNEVLDTDNFQGNAVVNYNDASYPFTRIIEHKHFEFGKQSKTVITK
+EYPCEWNPSNEAFYPINDAKNQALFEEYKKLSLEEKNVIFGGRLSEYRYYDMHQIIAIAL
+KRSKTELNND
+>tr|A0A1S1J9N0|A0A1S1J9N0_9FLAO
+MKEQSNENKLIEGEDFYYTPEGYKCFTEKHHLKRGYCCKSGCRHCPYGFDKRTGEIRKK
+>tr|A0A1S1JAR8|A0A1S1JAR8_9FLAO
+MKKIKQILLLSITLITILVAVILYQIKTYVPPAFNCRTPVPEFCGTPNLTEKATKGKEIF
+NSNCAACHKKHVRSTGPALSETDSLVFVKWLINKKGKINNTKIEEFGIDYHKATFSKVLH
+KEEIANLIEYCRN
+>tr|A0A1S1J3J1|A0A1S1J3J1_9FLAO
+MTNEEKVPFETMNFAGVTFKVINRHEANTIIGDLTDFNNQKIYNVFEDTWRFPDYEDNPI
+FLLAEDDVEMDTFEMDYSTDENPDVFILGFIFKGNLTVKKLISSFDTDNSPALIVLGETS
+TTNITLFGSVHYLGGGLKCDSLLGEYNHGELFVKGDVTAWLIYSDDMWMHFERFTNVQAI
+VNVGRPDVLICSNLTDTDGSIVTIENYLPSTHRLSDIVNDSFIEYSDDGTEILGNNYYDD
+CFNKGLSIVDQSKSDQYLYTDFRAQFKEAVETIVEMEKFKTEERLYSNIGNTTHLFVSFD
+YEGKKYSQLSEEIGNGFNIRMRGLWCHDTEEITLILEYLDEEGNPKYQWMNDETTNGIEF
+YCVKRAVIEAFYFLTSEAEEEDDVEIEEDEEYDNSFSLEEFAVQFGKYALPTDLVKLYEF
+EQKYGPETYSECFGLTITEDKTGIKTWSEKEAFYNSFIEFAGANGSGSSYAYWLINEDLN
+DCPIVVFGDEGGIHIVAENTSKLIHLLTLDTEISVDFDSAYFYKDEEYYEENENKEEFQQ
+WVKKEFSLDPLETNEETKEIVSEAQKKYKERLNDFLISFDIEIGEDDE
+>tr|A0A1S1J4S8|A0A1S1J4S8_9FLAO
+MEKLFKCALAFVFLALTGCEKDSNEQHETKTESAVPFEKKLLNANELPADIQQYINTDDA
+ENSAKSGNVETLNEPIFMMHDIVSMTDDKNITNYSISFFYPDTPENVYYNLVINVLPTGE
+SKKYIFKYICNPEDFENFKAHRFDFKYFDGITEISQVSYPTTRKFTSKSSVGDDPCAKIF
+VPSPSDPKSNPAAGGGSGNGGNLPSGGFNTSVPGYNSPPSSGGYKGGGDGSSGHDHSNCY
+GSNGQYWYYAGDVRPPHPHTSKSAGPCPEVTPPTGYVPVNTMPLIKILGTQLKLSIAQIA
+FLRNRPDTMNIIGSYLNSNNFSDEAKSFCNWAINYLMQNPNVTIHQFKNWFMGTSEGQDG
+DYDAAYWDNPNLVFPKQELPTFSNFKNACPSRYTTSETLCNDIGGDILKMYNAVIAKNNK
+LNTCAIRISRALNYSGVVVPSLPDNPNGTKNSVVGADGKNYIINAKTLNSWMKKTFGTNP
+TNYEHYDFTQGGNKGINFPNLLKNKKGIYTMVSRPEIQKAWGSGHADLLEDGQCLLDCHF
+YDSNNQFVPVDYIDIWTLN
+>tr|A0A1S1J6V6|A0A1S1J6V6_9FLAO
+MKWKGTRESDNVEDRRSISGGKVAIGGGVIGIIILLLNVFGGETGQTVGNVLEQMQGGQQ
+ATETAAPLSKEDEEMGHFVRSVLAKTEDTWEKKFAAEGLTYKKPKLVLFRGSVNTACGGA
+SSASGPFYCPGDQKVYMDLGFFEELKTKFGAQGGDFAIAYVIAHEIGHHIQTLLGTSAKM
+REAQEGKSEAEANKLSVALELQADFYAGVWAHDNQQYIEAGDIEEALSAANAVGDDAIQS
+KMQGQVVPDSFTHGTSAQRMFWFKKGFQTGDIKQGNTFDEIR
+>tr|A0A1S1J9S8|A0A1S1J9S8_9FLAO
+MKKFFLLFVILFFHSCQYFEKKVPSEKELLQKELKSINWKEVDEFPSVANCEKITDKKQR
+QQCFFEVMAQLIQEKLDIDTLSILYPELDTIEVKVTVFPNSTMKFEPQFPKDSVAYDTIK
+IDSILHARLVNFPKVNPALKRGIPVKTQFILPVILKAKEKK
+>tr|A0A1S1JAT9|A0A1S1JAT9_9FLAO
+MCGIVGYIGHREAYPIVVKGLKRLEYRGYDSAGVMLYDTESGIKLCKTKGKVSDLEVKAK
+ENLDATGSIGIGHTRWATHGVPNDVNSHPHLSNSGELVIIHNGIIENYAPLKEELKKRGY
+TFKSDTDTEVLVNLIEEVQKNEGLKLGKAVQIALNQVVGAYAIAVFDKKNPNEIVAARLG
+SPLAIGVGEGEYFIASDASPFIEYTSNAIYLEDGEMANIRLHKPLKVRKIKDDSLVDPYI
+QQLQMNLEQIEKGGYDHFMLKEIYEQPSVIKDTYRGRLHANEGIVQMAGVEDNLEKFLNA
+KRILIVACGTSWHAGLVAEYIFEEFTRIPVEVEYASEFRYRNPIINKDDVVIAISQSGET
+ADTMAAIKLAKENGAFVFGVCNVVGSSISRESHAGAYTHAGPEIGVASTKAFTTQITVLT
+MIALRLGKAKGTLSNTDFHTYLQELEIIPEKVAEALETNDRAKEIAAAFKDAPNCLYLGR
+GYNFPVALEGALKLKEISYIHAEGYPAAEMKHGPIALIDEHMPVIVIAPKQGHYDKIVSN
+IQEIKSRSGKIIAVVTKGDTQVRELADYVIEIPETSDALSPLITTIPLQLLSYYIAVMRG
+CNVDQPRNLAKSVTVE
+>tr|A0A1S1JBU2|A0A1S1JBU2_9FLAO
+MIKNLLHTLQSFNIRLRVENGDLKITAPKGALTPEIIEEIKAHKNELTKLLSSSESIPKA
+AIKESYALTSSQHRLWTLSQFETGNSAYNLFNAFEFKGVLEFEKLAEAFQILVKRHESLR
+TVFKEDDQGNLGQYIVPMAQYSEALQFTDLNNATAEVLSNHANTLQRHAFDLEKGPLFIG
+EIVKTATDHHILMLNMHHIIGDGWSMGILSKEFITIYNGLVIGSEIVLSDLPIQYKDYSE
+WQNSPSRQAMLEKSKAVWLETFSGDLPVLELPSNKVRPKLKTYNGSGIKHSFSKEITTQF
+NTHAQQNGVTLFMLLMAGINGVLSRYANNRDIILGTPIAGRKHSDLENQVGLYLNTLAIR
+TTFEEKTSFEELLKIQKETLLKAYSHEDYPFDSLVEALDLKRDLSRSVLFDVLVVFQNQR
+ELLASENLTINGVEITSYKQLKRPFSKFDLTFAFAEYQGELGLYIEYNTDIYESEFVACL
+ANHLDTFLTKAIQNPEQKVATLNYLSEAETTQLLEDFNNTAVEYPKDHTMVDLFVNQAKK
+TPEQIALLTDTKSFTYKELDEVSNELSHYLLSHYNLAIEDLVGVKLGRSEWLPIALLAVL
+KSGCAYVPIDPNYPAQRIEYIEQDSKCKITIDDSLLEAFRQAESISKSLPQITFSSEHLG
+YIIYTSGSTGKPKGVMITHQNAVAMLCWSQREFSDADFDILYAVTSHCFDLSVYEFFYPL
+SIGKQIRLLANGLSIGDYIQSDKNVLINTVPSVIHTLIEKGTTFENAVGINLAGEAFPVS
+IANHFTDSGIAIRNLYGPSEDTTYSSYYRVEGTYENSVPIGKALDNTQFYVLSEELALQP
+VGVIGEICISGDGLSRGYLYQPELTAEKFITNPFNDTTKLYKTGDLGKWLPDGTIAYIGR
+KDSQVKIRGHRIELGEIEQVLQSQEDIDQCVVITATVNGDPVIVSYLVSTAAIDKQQLRQ
+SLSRELPEYMLPSYYVFLDKFPLTPNGKIDKKALPSVSTEDVIQQEYVAPSNEIEEKLVA
+IWEEVLQKTKIGVSDIFFALGGHSLKATQVISKIQKEFNIKIELKELYKEPTITNLAGYI
+ESIQILNKQQLIPSVVGEELVF
+>tr|A0A1S1JBW4|A0A1S1JBW4_9FLAO
+MIGILFIYWIWKAFTGLALEYDKNKWGYFAIGIVSYYGGTLVSGFVAGFLNVLIGGLDSV
+DDAGVINSGWNILFVLCGGLACYGVYKLLERKGEKEKALKKIESIDSIGLTEEN
+>tr|A0A1S1J2W3|A0A1S1J2W3_9FLAO
+MAKYSRIEVALTMKENGMVPLFFHSDIEISKKVLKACYDGGARLMEFTSRGDFAHEVFGA
+LNKYALAELPGMMLGVGSITDAASASLYMSLGANFIVTPVFREDIAIACNRRKVLWSPGC
+GTLTEIARAEELGCEIVKLFPGDIYGPEFIKAIKGPCPWTNIMPTGGVLPTVDSLTSWFS
+AGATCVGIGSQLISKEILERQDYDGLKTKVSQVLDIIKSIKNK
+>tr|A0A1S1J4N1|A0A1S1J4N1_9FLAO
+MKKKIEILAPARDLIGGMAAINSGADAVYIGAPQFGARSNANNSIEDVAALVQYAHLFNA
+QVFVVMNTILYDNELETCRSMIWELYDIGVDALIIQDMAIMEMDLPPIVLHASTQANNRD
+ADKIKFLKDAGIKRVVLARELNLHQIKTIYDEADVELEFFVTGALCVSFSGNCYMSVANG
+ERSANRGSCAQNCRLPYNLIDGNGETLIRNSHLLSIKDLDISDQIPNLIEAGIVSFKIEG
+RLKDVVYVKNNVSYLRQKLDSYLEGAGSDKYMKASSGTCTYTFDSSLSRTFNRGYTDYFV
+NERHSSIGSWESPKSKGQYIGKLIRTVGNAYEIENGELLNNGDGLCFINENNEADGIYVN
+KAENGKIYPNVLKEVKDGTFIYRNNDAAFIKIVEREDSAVRKLSTTLLLTETATGFELIA
+TDEDGNVSTVTLEHAKEQTKTGESIEENIKTQLAKTGFTPYTANEINVMFSQNWFLPISK
+INEMRRTVYDQLTEIRLANYKREEHQLVKTSHPYPETKLDFMYNVSNKTARKFYERHGVT
+EIEKAFELQWDPGKSRVMTTKYCIKYELKKCPIHQKDIVGVKVKEPLVLKQGELEYKLKF
+NCKPCEMEIWEKDAEFEIEEDHFH
+>tr|A0A1S1J5A7|A0A1S1J5A7_9FLAO
+MEFQKDNTFVTGRLKSMTYAFNGAVKLIKTEHSIMVQFSLGIIMTIAGFYFHISQTEWLC
+QTLAIGLVLSVEGLNTAVEKIADFIHPDYSKRIGFIKDIAAGAVFFAAMTAIAIGLIIYI
+PKFI
+>tr|A0A1S1J7N5|A0A1S1J7N5_9FLAO
+MARFELKLPKMGESVAEATITNWLKEVGDKIEADEAVLEIATDKVDSEVPSEVSGVLIEQ
+LFGKDDLVQVGQTIAIIETEGDAPAVKAVETAAPAEVTEIEKTIEVAKDAVAAPQDFSGS
+DKFFSPLVKNIAKEEGISVAELESIAGSGKDGRVTKEDILKYIETRKSGVQAPQAVVEAP
+KAVQPAAPVQKSQQAVPVSVNGGDEIVEMDRMRKLISGYMVASVQTSAHVQSFIEVDVTN
+IVKWRDKVKSAFEKREGEKLTFTPIMMEAVAKALKDFPGMNISVDGEYIIKKKNINLGMA
+AALPNGNLIVPVIKNADQLNLVGMAKAVNDLGNRAKAGKLKPDDTQGGTYTVTNVGTFGS
+VFGTPIINQPQVGILALGAIRKVPAVIETPEGDFIGIRQKMFLSHSYDHRVVDGALGGSF
+VKRVAEYLEAFDVNRDF
+>tr|A0A1S1J8Z2|A0A1S1J8Z2_9FLAO
+MLGLKLATDPRWVNIVESNIEEILTDHAWCEQKAASNAISLVTYNSELEELVTEMLVIAR
+EELEHLQMVHDIIKKRGLTLGRERKDHYVNELFKFMKKDGSRRDALCDRLLFSAMIEARS
+CERFKVLSENIKDEELAKFYRDLMISEAGHYTTFLGFARKYTDNIDIDKRWKEWIEFEGS
+IITNYGKSETVHG
+>tr|A0A1S1JBA6|A0A1S1JBA6_9FLAO
+MNENPKYTLRELTLYFLKLGTTGFGGPVALVGYMHKDLVENRKWISEDEYREGLALAQLA
+PGPLAAQLGIYIGFVHYRFLGATLIGIAFVLPSFLMVLLLGIIYKLYGGLSWIQAVFYGV
+GAAVIGIIALSSYKLTLKSIGQLNWESMKSKWLLWLFFILAVFITYITEQEQVLLFIAAG
+LLYMVIKAPPKWWNSKTVNSFSLVFLLTGFSSYESSTLTKIAVFFAKAGTFVFGSGLAIV
+PFLHSGVVIENQWLTEQQFLDSVAVAMITPGPVVITVGFIGYLVNGFLGALVAALATFLP
+CYLFTIAMAPSFKKIAQNKPVKAFVEGITAAVIGALVGSVMVIAKRSIIDIPTALVAIIT
+IFALLYIKKIQEPYIIVAAAVLGIIIKLVII
+>tr|A0A1S1JE37|A0A1S1JE37_9FLAO
+MEILLTYFLVVNITVFILAGYDKYQARKNKQRIPENTLFFLEAIGGTVGLFLAMLFFRHK
+TSKSSFIIKFSFILFIQIVLIYLKMKVKF
+>tr|A0A1S1JDZ6|A0A1S1JDZ6_9FLAO
+MANLKEIRNRITSVSSTMQITSAMKMVSAAKLKKAQDAITAMRPYAEKLTELLQNLSATL
+DGEVGGDYTTQREVKKVLLVAITSNRGLCGAFNSNVIKEVKNRTEFYAGKQVDVFAIGKK
+GNDVLSKTHKVHGHHNAIFDHLTFENVAGIADNLTEKFLTGEYDRIELIYNQFKNAATQI
+VQTEQFLPLAPIKSDAAVSTGDYIFEPSKEEIVLTLIPKSLKTQLYKGIRDSFASEHGAR
+MTAMHKATDNATELRNQLKLTYNKARQAAITNEILEIVGGAEALNG
+>tr|A0A1S1J8B4|A0A1S1J8B4_9FLAO
+MKKIFIPIVALTMLLTSCNEDYLDPTKPSQELVFGTREGVIGAANGLQLLWSVDRTSPIY
+NTITGNGFTTKELRLLNAGNVDEGELSVGGGVLSTKNQVVNNLWSQCLVIKSESQKVIDN
+VGVLTSDTEKASILVHASIFKAMALTTLVQYFQSVPLKTGKNATFDSRADVLTEAIKILK
+VAEPLLDKATGATGLVTSINYKNTVYALLARTYLMAGDYDNAITYAGMVDLSVKSVFAFD
+QISANPIAYISITTNNVFQPVDLTLGLPPALAPSNSDGRLNFYIKPGSNPTVATGFFDSN
+TKSIPLYLPGEMMLIKAESYARKDNLPQALIELNKVLTKTAGADTYGIGANLPPYAGAVT
+KPAILTEIYRNRCIEMYMSSLKLEDSRRFDRPAAGTAGAERNRNWYPYPDSERNNNTNTP
+ADPAI
+>tr|A0A1S1J8Y0|A0A1S1J8Y0_9FLAO
+MILKFLILCALLLFIEYYSYQAFRALIKLRWVLISYQVISLLILIFIIYSFSQIDRSVGQ
+TKQFMFTTGLMLLVYVPKIVLTLFMFGEDIFRIGVSIVNYFVYNVPKKEMMPERRKFISQ
+IALGLAAVPFLSLIYGIFEGKYNFKVIKQTVFFPDLPDAFDGFKITQISDVHSGSFDNPD
+KINYAIDLINAQESDLILFTGDIVNTHAKEMHPWLETFKRIKNYKYGKFSVLGNHDYGEY
+VTWPSEKDKKENFEEIKSLYGQIGFELLLNEHRYIQKGDDKIALIGVENWGKNFAKYGDI
+DKASQNVSQDDFKVVMSHDPTHWEYVIKDHPKNFHLTLSGHTHGMQFGIEIPGYFKWSLA
+QYIYKQWAGLYENASRYVYVNRGFGFHAYPGRVGIMPEITVIELKKGNNVA
+>tr|A0A1S1JAM4|A0A1S1JAM4_9FLAO
+MKNTIAVVGLTLLLFACNSKQSEDKINTSGITKKESTHTKTSENKSVGSPNYEISTYDNP
+EFTSRITEHKRNLKQFSEKKLFLVIHDKWIQKLNKEQQAFFSENPNYELLSMAKGNLFQE
+DSNDFAFIVYDKKKVKISILLYNGLTSEYAELYKDIKVQNGFADPNSDAGFFRTLDYQFA
+DEFLFYNEDALKEHPDNYLETYVAAKITDLSKDDDFVLDHGSFAKNVSKTNLSNILCLAT
+SSVYSNWDCLRYDKTNHTFLIFYTQAFAD
+>tr|A0A1S1J5X1|A0A1S1J5X1_9FLAO
+MEDLDKTDLLILKYLQENSNINTKDLASKLFLTVTPVYERIKRLERDGYITKYVALLDKK
+KMNRGMTVFCNVRLKEHARNVGSNFVKDIVALPEIIECYNIAGDYDFMLKILVQDMASYQ
+DFVMNKLSTIENIGNTNSIFVMGEIKHSTALEF
+>tr|A0A1S1J669|A0A1S1J669_9FLAO
+MEQKITLEEIQNFKGNYPKQLWYLFFVEMWERFCFYGMRGVLVIFMVDQLFLKEDHASEQ
+YGAIQAFVYAFTFIGGIFADKVLGFKKSLFFGGIVMILGNLLIAIAPHDFFYYGIAFSII
+GTGFFKPNVSSMVGELYREDDGRRDAGYGMFYAGINVGGLFGGALCVYLGKFYSWQLCFL
+SAAIVMFLGLITFLFTKKYLGPIGDSPLLNLTPQKRRIREIAVYALSILSLPFIFIMVKN
+TKYTDYFMYTIGTVAVLYFAYELFKLGDSKLQKKLFAAFLFVFFYFLFNSIYEQSGGSLS
+LFAKDNLNNKLLFFTIDPNVVNNSSNTFFVVVLSPLIGLLWIWLGKRKIEPNTLIKFGIG
+FLFLAASFYIFYLTKFFAGANGIASLNVFTFAYLITTIGELCLGPIGMSIITKLSPKRLF
+GMMMGLWFLASAFGQLAAGKLGAEISRSNTGDTLISKLQSYTEGYYQLAIYSLVAGLILL
+AISPIIRKLMQEVK
+>tr|A0A1S1J6D2|A0A1S1J6D2_9FLAO
+MITVSTDKSKLDVPFIRNFLKDIYWAAGRTIEEVQTTIDASVCFGIYLNDKQIGFARVIT
+DYVVFGYVMDVFITEEQRGKGYSSVLIEHMMNDPQLKNIQIWRLATTDAHFLYEKFGFTA
+LQHPEKMMEKKIS
+>tr|A0A1S1J8I6|A0A1S1J8I6_9FLAO
+MDIISFLTSIAKISVFVSFLLAFFLLTVQTKNKLTNRMFAFYLIFFALDNSGIFIDDEFI
+KAHFNLEFFRWTACSLVLPFFYLYVLSVCFTDFRLRSKHLLHAIPFVLLNVFYMFRLYFL
+TNAEKIVFYNQRDQSPEMFFLFLALALQIVFYSIGVALVLKKYKAIYEENYTNPRSSVFK
+WLLQIAAIFFVLYYLCIIKNALRYVNYDSLWIWSNVILQFMVLVITCWFVLKALNHPDLF
+RGIDSKLQLAKDILPKQNNNVGEKEHQNEVISDQIATLKLYMTEKEPFLDPSLTIQELSN
+QINIPVRDLSVLINHHIDQHFFDFVNEYRIQKAMNILKDQSKSQLTVLEILYEVGFNSKS
+SFNTSFKKYTNLTPTAFRNAS
+>tr|A0A1S1JBD0|A0A1S1JBD0_9FLAO
+MKTSILKFMLAACILFGGTNASAQMIKTKTPARAKGQTDVLRLATTPLPTVRVAFIGLGM
+RGPGAVERMTHIPGVEIVALCDMTQENTSKANETLTKAGFPKAQEFYGDENAWRKVTALP
+NVDLVYVATDWKHHAIIGVQAMKDGKHVAIEVPGAMTMEEIWQLIDTSEKTRKHCMQLEN
+CVYDFFELTTLNMAQQGLFGEILHAEGSYIHGLQPFWGEYWNNWRMDYNIKHRGDIYATH
+GMGPACQALNIHRGDKMNFLVSMDTKAVGNPAYIKEKSGKEIKDFRNGDHTMTMIRTENG
+KTIQIQHDVTSPRPYSRMYQLSGTKGFANKYPLEGYALDGKELGDDVKPNHEKLSAHSFV
+PADVKKALMEKYKHPIVKNIEEQAKKVGGHGGMDFVMDYRLIYCLQKGLPLDMDVYDLAE
+WSCLGPLTEISLDNGSAPVEIPDFTRGGWNKLKKLEFSE
+>tr|A0A1S1J0P2|A0A1S1J0P2_9FLAO
+MKIKSLLFLGLLQCFGFVNAQIKAVDAVEYVNPLMGTQSLHSLSNGNTYPAICRPWGMNF
+WTPQTGKMGDGWAYIYTAEKIRGFKQTHQPSPWMNDYGQFSIMPVTGKLAFTEDERASWF
+SHNAEVSKPYYYSVYLADYDVTTEITTTERAAHFQITFPENEQSSIVIDAFDKGSYIKII
+PSENKIIGYTTRNSGGVPENFKNYFVLQFDKPFATTAAWHGKVLEKDKLELKDNHVGAVI
+GFKTKKGEIVNVKVSSSFISFEQAELNLKNELGTASFTETVAQSKQEWNKVLGKLNAEGG
+SEEQLKTFYSCLYRTVCFPQKQYEINAKGETVHYSPYNGKVLPGYMYAGTGFWDTFRALY
+PLLNLVYPSINKEMQEGLINDFKEGGFLPEWSSPGFRDVMVGNNSASVVSDAYMKGLRGY
+DINKLYEALVHGANNEGPLEAVGRKGVSYYNTLGYVPYDVKINENAARTLEYAYDDFAIW
+KLAKALNRPKKEIDLFEKRMMNYKNLYNPEIGWMSGRNKDGSFPKNFNPLKWGDAFTEGN
+ALHYSWSVFHDVQGLIGLMGGEKKFTAKLDAVFTTPPVFDDSYYGSVIHEIREMQIMNMG
+QYAHGNQPIQHMIYLYNYAGEPWKTQYWSREVMNRLYKPTPDGYCGDEDNGQTSAWYIFS
+AMGFYPVCPGTDEYVLGAPLFKKITLELENGKQLVINAPNNSADNKYVQELKWNNTTHTK
+NFINHFEVLKGGEFNFEMSSKPNLQRGTSSSAYPYSYSTSK
+>tr|A0A1S1J0S0|A0A1S1J0S0_9FLAO
+MKFPKSHSLQEIANLLDCEFIGDQNFPVLGMNEIHVVEAGDIVFVDHPKYYDKALQSAAT
+IVLINKKVDCPEGKALLISDDPFRDFNILTKHFRPFQGTNVSIALSATIGEGTIIQPNCF
+IGNNVTIGKNCLIHPNVTIYDHTVIGDNVMIHAGTILGADAFYYKKRPEGFDQLISGGRV
+VIEDNVGIGALCTIDKGVTGDTTIGEGTKLDNQVHVGHDTVIGKKCLIASQTGIAGCVVI
+EDEVTIWGQVGTTSGITIGAKAVIMGQTGVTKSVEGGKSYFGTPIEESREKLKQMANIKK
+IPEILNKLK
+>tr|A0A1S1J5S6|A0A1S1J5S6_9FLAO
+MKYNRCGKSGLLLPQISLGLWHNFGSVDNFDTAECIAVEAFDKGITHYDLANNYGPVPGS
+AETNFGKILWHNFQGNLRDEIIISTKAGYTMWDGPYGDWGSRKYLLSSLDQSLKRMKVDY
+VDIFYSHRPDPETPIEETMMALDYAVRSGKALYVGISNYSAEQTRVAVDVLKQLGTPCLI
+HQAKYSMLERWVENGLLDVLEEKGVGCIAFSPLAQGLLTDKYLNGIPENSRAHNPNGHLK
+EDEVTQERIQKLVQLNEIAGNRNQSLAQMALSWLQKDKRITSVLIGASSVKQLNNNIECL
+QNLDFAEDEINAIEKILA
+>tr|A0A1S1J8N1|A0A1S1J8N1_9FLAO
+MKLNKKNKLLIVGFLLVLYFSYSLAISNTLHYYREYQIKQEQIAADSNMPRLVGQMAQKE
+KQLDQALTKYDVSVSESFQNDLLKQLTSYSDSYKLKITDFQEPHAVMQKGFTVTSYIFSL
+EGSFNGCLALLNKVENNPALGTIRHLNFIKKKNYKTNTDELFVEVIMQKNKGA
+>tr|A0A1S1J5K5|A0A1S1J5K5_9FLAO
+MDFNLTEEHLMIQQAARDFAQNELLPGVIERDEKQIFPTEQIKKMGQLGFLGMMVDPKYG
+GSGLDAISYVIAMEEISKVDASASVVMSVNNSLVCWGLQEFGTEEQKQKYLPGLASGEIH
+GAFCLSEPEAGSDATSQKTTAVDMGDHYLVNGTKNWITNGNTASVYLVIAQTDPEKRHKG
+INALIMTKDMPGFSIGPKEQKMGIRGSDTHSLMFSDVKVPKENRIGEDGFGFKFAMKTLA
+GGRIGIASQALGIASGAYELALKYSKERKAFGTEICNHQAIAFKLADMAVNIEAARHLCM
+KAAWDKDQHKNYDVSGAMAKLFASQVAMDTAVEAVQIHGGNGYVKEYHVERLMRDAKITQ
+IYEGTSEIQKIVISRAVIAG
+>tr|A0A1S1J840|A0A1S1J840_9FLAO
+MAAPKKPAPKKTTTSKPKPAPKKGNRSFGEKVKWFFIKLFLWFFGISIASVVFFKYVPVP
+FTPLMIIRAIENKMAGKEVYFDHDWEPIDKISMNLQKAVIASEDGTFLKHNGFDFKALQK
+AYKSNERGRRIRGGSTISQQTAKNVFLWQGKSYFRKGLEAYFTVLIELIWGKERIMEVYL
+NSIEMGDGVYGAYAATEHWYRRDASSLTPMQAAGIAAILPNPRKFKATGSSSYINRRKER
+IVREMRSVGKINYNAE
+>tr|A0A1S1JAU2|A0A1S1JAU2_9FLAO
+MLEIDFKEIITVGMVLFAVIDIVGSIPIILNLRAKVGHIDSEKASIVAGLIMITFLFVGE
+GFLHLIGIDVHSFAVAGSFVLFFLALEMILGIRIYRDEEPGSASIVPLAFPLIAGAGTMT
+TLLSLRSQFHTINIIIAILLNIILVYIVLKSSKKIENLLGENGLGVVRKTFGVILLAIAV
+KLFAANVKGLFV
+>tr|A0A1S1IXS6|A0A1S1IXS6_9FLAO
+MNKTRLEAFSDGVLAIIITIMILEIKVPAGSEFADLKPLIPKFLSYVLSFIYVGIYWNNH
+HYLIHSLGKVNGKILWANLHLLFWLSLIPVATGWMGEHNFAKASMALYGTVLLLCSIAYF
+ILQRIIILNEGVNSTLAKAIGRDLKGHTSSVLYIFGIVFSFYNEWISGAAYFIVALIWLI
+PDKRIEKVFASKN
+>tr|A0A1S1J2D2|A0A1S1J2D2_9FLAO
+MNIETYKTDVTTKEEAKFVVALLQFVISDCIMNFDVEDKNHVLTIETNREIKDMVYGVFN
+KQGFYCQKL
+>tr|A0A1S1J4S0|A0A1S1J4S0_9FLAO
+MNITSQIKQPIFNEMELFEKKFHESMTSKVALLNRITYYIVNRKGKQMRPMFVFLTAKMV
+SEGIVNERTYRGASVIELIHTATLVHDDVVDDSNRRRGFFSINALWKNKIAVLVGDYLLS
+KGLLLSIDNGDFDLLRIISVAVREMSEGELLQIEKARRLDITEEVYYEIIRKKTATLIAA
+CCALGAKSVIEDDAQVENMRKFGELIGMAFQIKDDLFDYSEEAIGKPTGIDIKEQKMTLP
+LIHVLNTCTPQEKKWLINSIKNHNKDKKRVKEVIAFVKSNNGLAYAEQKMVQFQQEALLL
+LDNFSDSEFKDALVLMVNYVIERKK
+>tr|A0A1S1J951|A0A1S1J951_9FLAO
+MNKITLVFLIVCTQTIFGYAKITETEKLAATCKVWGFLKYYHPAVASGKINWDEKLFEVL
+PKIEKAQTKEEFSATIEKWIESLGEVSANTPAAPDSKTDYFYKNLNLEWTQKGKLFTKSL
+SQKLKFITENRFQGVNHFVNQEGKNVRLQFVNEPVYADFKWTDKNLRLLALFRFWNYTEY
+FFPYKYVMDQNWDEALTEILPHIEAPASEKEFLLAMREISIKLNDTHAGTISPDMVKYLG
+GEKYTAFTPKFIDDKAVIVAVANDSLAKIDDLRIGDIITKVDGRTVEQQLAELSKYTQGS
+NKAAATQVGGFIMFTGNTDDLEIEFIRDNTASVKKIHRYPNEKIKRSPPKKTAKWEILAD
+NIGYVRMSKVSKEEVATMMEELKRTQAIIFEARSRPAYTDFLVSEYLNPERRPILTLLQQ
+DLSYPGRYYFRNDMEECGKSNPDYYKGKVIVLVGSGTHSFGEQTVMSLQTAPNVTVVGTQ
+TSGSDGPNYEFNIINGFDSSFTSMGVFYPNKKETQRIGIVPDIKVIPTILGAQKGKDEVL
+DRALLFVKTGK
+>tr|A0A1S1JAZ3|A0A1S1JAZ3_9FLAO
+MQISGLVITFNEEKNIGKCIDALLKVCDEVIVVDSFSKDRTVEIAKEKGAIVIEQAFLGD
+GPQRTHGLPYCKNDWILNLDADEFLDKDAEKFILDKKYLEGNYDAFSFRVKNFLGDKLID
+FSGWYPDQKVRFFNKQTAHPSDSKVHQKIITQKEKKVAVHILHYGWDSLDQIIAKKNQYS
+GWHAQQLFDQGKRITAIKPVINGTVAFIRCYIFKKGIFNGVDGLSIAMIQSFFSYMKYAK
+LLKLQKRLK
+>tr|A0A1S1J5A9|A0A1S1J5A9_9FLAO
+MIKSILSFVFLGIVLTSCNCSKGAKGGDASKLEGNWELNYISGSSVDFDALYPNNKPTIN
+FNQIEKRVSGNNGCNSFNGALVVTGHKIDLTGPMAVTKKMCPQAQEGERLFMGTLPKITS
+YDITDEGKTLHFISGDIALMRFTRK
+>tr|A0A1S1J5Q5|A0A1S1J5Q5_9FLAO
+MREFYKQLLENNRQWVEKSLALDPNYFADLAKGQTPPLLWIGCSDSRVPANEIIGAKPGE
+VFVHRNIANMVVHSDMNMLSVLDYAVNVLKVKHVIVCGHYGCGGVKAAMGNQSVGIIDNW
+IRHIKDEYRLHDKYLNSIEDETERFNAFVEINAKEQVYNLAKTSIVQGAWKNGQDLMLHG
+WVYGLNSGFVTDLNVNIASNEELDEVYQLDL
+>tr|A0A1S1JBC9|A0A1S1JBC9_9FLAO
+MEALKEELKNKIITTLNLEDIAIEDIADNDPLFGDGLGLDSIDALELIVILDKDYGIKLV
+DPKEGKTIFQSIETMAAYISANRTK
+>tr|A0A1S1JCF6|A0A1S1JCF6_9FLAO
+MKKNILIAMLYVCAIGLSQEKMISKSGKITFEASVASFEEVKATNTNVTFVLNPATGEIA
+SLALMKGFRFKVALMEEHFNENYIESDRYPKAFFKGKIEGFDLQSLTVNPKDFIIKGKLE
+LHGKSKDVSTTARISKSISGVSILSDFSVNASDFNIAIPSLVKSKVSNKINIQVAAVLGA
+NRQ
+>tr|A0A1S1J7E7|A0A1S1J7E7_9FLAO
+MINDLTLDRALAFFKAFKGDDIVFDTPYCGTYTDFYSEIDSIGISTLRVKVDKNYINPDC
+VDKDNLADIPIGSIRKILNTNNVPLELHEIDGKILSLRAFLLKNKIFFNPAEQETLEKLL
+QKLESFYSQTLLESDRSPAPKINRNRFSELFLDL
+>tr|A0A1S1J2A7|A0A1S1J2A7_9FLAO
+MSTIEQLHGVFARAFEIPVESVNDGLEYQAIAEWDSMSHLVLVEELESTYKISIEMEDIL
+EMGSVAKIKDILKKYGFEIN
+>tr|A0A1S1J2T6|A0A1S1J2T6_9FLAO
+MADEKEFIQQLLNPATQNTAFQKLVSDYQKPLYSHIRNIVLNHDDTDDVLQNTFVKVFQY
+LKNFKGESKLFSWMYRIATNEALTFLSQKAKLNGITSEALQNKAIDNLKADVYFEGDEIQ
+IKLQKAIVTLPEKQQLVFKMKYFEELKYEEIAEILGTSVGALKASYHHAVKKIEIYVTSN
+>tr|A0A1S1J3M2|A0A1S1J3M2_9FLAO
+MKVKFIGGAGTVTGSKTLIETENSRILIDCGLFQGIKALRELNWDPLPVLPSTIDFVLLT
+HGHLDHCGWLPRLVAQGFKGKIYCTAPTKAIARLVLLDSAKIQEEEAERANKEEYSKHEQ
+AEPLYTVEQAEAVTPFFKIIAPNTTVEIAEDSTAVFENAGHIIGACSITVNAEGKTLVFS
+GDIGRDDDVLMFPPTKPVKADYIFLESTYGNKLHAELDVKKELETLINTAIAKKETVIIP
+GFAVERVQSVMFLLWKLKKEGRIPDVPYILDTPMGANALHVFLENLQWHKLSVEDCHEMS
+KMFTIVSKYEETMRIIENPQPKVVLAASGMATGGRVLSYFEHYISLEKTTVIFVGYQAEG
+TRGRKLLEGAKEIKIYGNYYSVRAKIFQIEGLSAHGDQKDLLNWLSALENTPKCVFLVHG
+ENLPADELRVKIQKQYHFKCTVPLMGNEMEI
+>tr|A0A1S1J848|A0A1S1J848_9FLAO
+MKKILKLSLVCAVLFTGMSTYAIDGNEDFNLHVLKANGKLIAFALNKVQKANLAIYDKDG
+SILYTENASGKDGILRTFNLEELPAGTYFLEVEDNIKKVRHEITITEATTVLSRKAISSS
+YKAGFSAKKTSVAAR
+>tr|A0A1S1J868|A0A1S1J868_9FLAO
+MKKNTALLLLLLVTTLTFAQRREKIKGSKIVTTSVKEVGEFDGIEADDNLEVYLERGEKN
+EIRIEADDNLHEIIGTDLREKVLRLYTAKESTIFKKLVVHVIYTGSLKTVIAKNEAVVYA
+IQELKLDDITFHSFDYSKLLLNVNSKKFSLFADDRSKTELNLKSEDASLQLSKNASIKTL
+VSSIKFKCDLYQKTTAAIEGIAEKATIRLDNNAVFTGIKFTLKEANVTTEGSSVATILAE
+NNLAIAAGDKSEISLFGSPKIELTRFSEEAKLIKKPSPVKAKATTPLQG
+>tr|A0A1S1J900|A0A1S1J900_9FLAO
+MSANRPIALSIAGFDPSGGAGVLADAKTFEQHHVTGFGILTANTIQTEDQFIEIQWTDLS
+FVIRSVETLFERYKISTVKIGIVPSLNYLNHILSTIKRISSNTLIVWDPVLKSSTQFEFM
+SIEDRLELNHTLSKIDLITPNYNEIEILFPGFIINQLEFQNKIPTNILLKGGHHPSATGT
+DRLFLKDEIIDLLPSDKKCFAKHGSGCILSAAIAANLARNQSLEEACRNAKTYIEKYLNS
+TPTLIGHHYVS
+>tr|A0A1S1JAA1|A0A1S1JAA1_9FLAO
+MIEDKNPQRTSIAQLGEFGLIDHLTKNFDITQESTLKSIGDDAAVLDFKDKKVVVSTDLL
+IEGVHFDLAYMPLKHLGYKSVVVNLSDICAMNAKPTQITVSVAVSNRFPLEALEELFEGI
+THAAKEYKVDVIGGDTTSSQKGLIISITAIGEANEEEIVYRNGAQKTDLLVVTGDIGAAY
+MGLQVLEREKQVFQVNPNSQPDLDMYSYLIERQLKPEARKDVRTLLHALEIKPTAMIDIS
+DGLSSEIMHLCKQSKVGCNLYEDKLPLDPQFISTCEEFNIDSTTVAINGGEDYELLFTID
+INDFDKIKGNPNFSIIGHMADESEGVHLVTRANTKIALKARGWDALTE
+>tr|A0A1S1JBJ8|A0A1S1JBJ8_9FLAO
+MKINFKKTYKFAVKSALYISLFATGFVMILMSLFYKNQLKYQFAFAIIFIISIYAFSFLV
+LQYRVERFIYRRVKKIYDEVSLLETTTLINQPITTDMETLSREVKKFATDKKLEIEMLEI
+REQYRREFLGNVSHELKTPLFTVQGYVSTLLDGAMEDKNIRKKYLKRAEKGVERLIYIVE
+DLDMITKLESGDLDLIMSDFDIVELIQNVFDLLEMKADKKKIKLAFESKNIKSVIIRGDK
+DRIQQVLENLIVNSIKYGKEGGLTEVGVVNLTKKKVLIRISDNGEGVEKQNIPRLFERFY
+RVDKSGTRSEGGSGLGLAIVKHIIEAHKEKVYVESEFGIGSEFSFTLEKANKTVKAEVK
+>tr|A0A1S1J957|A0A1S1J957_9FLAO
+MSAVYIVKELYIYPVKSLAGVSCQSAYAEEMGFENDRRWMLVDAENKMLTQREYPLMSQF
+YPQISKGKISITFKDQKHDFLIEEHLSQSIAVKVWEDDSDVVEVNKSTSIWFSEHLGFEC
+KLVKIIRNGDRKHESSKLKETFNVSLADGYPYLMIGTESLDYLNEKLEEKITILRFRPNI
+VISSQKAHEEDDFVTFKIGEVRFRNIKPCGRCIMVNNDPQKGIVKKEPLKTLSKYRNVNN
+SVLFGTNIVSLNSGLISVGDAIVF
+>tr|A0A1S1J5V1|A0A1S1J5V1_9FLAO
+MKFGIIKERKTPPDRRVVFAPNELTKLKQLYHEAVVEVESSDIRIFSDIQYKSMGITVTE
+DVSNCDVLFGVKEVPVENLISNKAYFFFSHTIKKQPYNRKLLQAILEKNIDLYDHETIVD
+AHNRRLIGFGRYAGMVGVYNGIRAFGIKFELFKLPKAETLDGKEALIKHLKRITMPALKF
+VITGTGKVGSGAKEILDAIKVKEVTVDNYLTKNYAQAVYVQLDVLEYNKRIDGQVVDFKD
+FVAHPEEYVSDFEKFTKVTDIYFAGHFYATGAPMILTREMLNANDCKLKVVADISCDVNG
+PIACTLRSSTIADPLYGYFPLEDIEVDLFHPAAVAVMAVDNLPCEIPKDASEGFGEQFME
+HVIPAFFNGDKDGILKRAKITEKGKLTERFSYLQDYVDGK
+>tr|A0A1S1J822|A0A1S1J822_9FLAO
+MKKVGNHNSISRKLLLSLSLTLIFSLTSFAQDPAAPAATEAAAAPAATAGGDPVKGKELF
+NANCAACHKLDAKSTGPALRGVAGKHDIAWIYKWVHNSSDMIKSGDPVAVKLFEENNKSV
+MTSFPQLSTGDIDNIIAYTSEVKAEPAVAGGGAATPPGTNVDGGGISNNIILGALALVMA
+ILVVMLFMVNKVLTKVASNNGIVVAPKEATTPIWKAFARNQFLVLVTAIFLLLASGYFVY
+GYLMQVGVDQNYEPIQPIHYSHKIHAGDNEINCKYCHSAARVSKTAGIPSLNVCMNCHKN
+ISEVAETTATPEYSKAFYDAQIQKLYDAVGWDKAKQAYTGKTQPVKWVRIHNLPDFVYFN
+HSQHVTVGGIECQTCHGPVEEFEIMKQYSKLTMGWCVDCHRKTDVKMEGNAYYDKIHAEL
+SKKYGVEKLTAAQMGGLECGKCHY
+>tr|A0A1S1J529|A0A1S1J529_9FLAO
+MNYTKEQILARCNEFSKNTLMETLKIEYIDAGPDFLTAKMPVNPSVHQPMGLLHGGASVA
+LAESVGSAASFFFIDMKEQEVRGIEISANHLKSIREGWVFGTARIIHKGRSIHLWEIKIT
+DEEGNLISLCKLTNMVLEKKKTV
+>tr|A0A1S1J614|A0A1S1J614_9FLAO
+MKKDFYEILGISKNADAAEIKKAYRKSALKYHPDKNPGDKEAEENFKLAAEAYEVLSDPN
+KKAKYDQYGHQAFDGSGGFGGGHGGMNMDDIFSQFGDIFGGGFGGFGGGGGGGPRRAKGS
+NLRIKVKLTLEEIANGVEKKVKVKRKVQAKGVTYKTCSTCNGQGQVMRVTNTILGRMQSA
+STCPTCGGSGQILDKRPSEADAQGMVLEDETVSIKIPAGVVDGMQLKVSNKGNDAPGNSI
+PGDLIVAIEELEHEFLKREGENIHYDLYISFPEAVLGVSKDIEAINGKVRIKLEEGIQSG
+KILRLKGKGIPSINGYGSGDLLVHVNVWTPKTLNKEQKQFFENALNDDHFIPSPEKSEKS
+FFEKVKDMFS
+>tr|A0A1S1J533|A0A1S1J533_9FLAO
+MINNAKERISVLDGFRTIAILSVILYHYFYRWNDSEYPYFGGNYFHYGFKGVPFFFMISG
+FVICYSLEGTKDFISFWKKRFIRLFPSILVASVLTYCVLLIFDHYNTFPDNHFRNLIISI
+TFLPPHIYNLFSETPEHFSYINFDYWSLWPEIQFYFFTSIIYFFSKKNFKRNFIIACFAF
+LLLYNVLLFYGFDQIKIVSKFFNLFNLIKYLIFFLSGALFYMLYNNKTFKLYIFLLIVSF
+LIINHTFDLLEFISAIIMFLLFFCFIYYPRSLQFLENRFIIKIGVSSYFLYLIHDYIGVV
+WIKNIVSFFYPNSFIAPILIMIVMITLSIFYTQKVETKISKYLHKCLVNKNND
+>tr|A0A1S1JA57|A0A1S1JA57_9FLAO
+MALENTLIQDKLTETFDTSVFNFQQERDIFSLETTADKITALILFLKNDSDLRFHFLTDL
+CGVHYPDNETDRQYAIVYHLHNWYENKRIRIKVYLNGEKPEIKTISNIFLSSNWMERETY
+DFFGVNFIGHPQLKRILNMDEMVSFPMRKEFPMEDSGRTDKDDRFFGRTTTNC
+>tr|A0A1S1J4S2|A0A1S1J4S2_9FLAO
+MKKSILTIVIVILVAFSANIILATSIKRETTTIEVADSSQLQTVYDAYFTVKDALIKSDA
+KLTSAKAKDLLDAITAIKMNQLKSEEHNAWMKVMKKITADAKSISATTDLKKQRETFKSL
+SKNTYELIKVSKSDQAVYKQHCPMVDADWLSKEKTIKNPYYGSSMLTCGSVVETIK
+>tr|A0A1S1J880|A0A1S1J880_9FLAO
+MTEVFKILETYKTQYENPITLDKGEIVKLGEEETEEKWKGWIWADNGINGGWVPIQILEI
+SEDNKEAKVLEYYTAKELDVDKDDEILKIKSLNGWTWVRKIINNDEGWIPDEIIG
+>tr|A0A1S1J8X9|A0A1S1J8X9_9FLAO
+MLESGNKKRNLISSLVNHHFCIENVTKSSILEVLKASSTKVVEFDEKFDWSFLSDESSSK
+TTKPFMLFDQINEWSYLIWNVWDFEETKQMTLFLSKELNTKVYYFFVDPWIATCRWVLAD
+NGTLLTSYYESHGTILNNEDNSETENILKQEDDFEDKFWNLYNSICQSIEILNKEQNVIL
+TKGHLS
+>tr|A0A1S1JAP1|A0A1S1JAP1_9FLAO
+MDSKIAQLRLISQKLHKTTDSTPQEIVQHLGAMQAQDYAMAKWAVGSRCDTSEKAIEEAI
+NSAQIIRTHILRPTWHFVSADDIYWMLDLSGPQVKRIVTSYVKKYGYDAKKLDQTNAAIQ
+KILAGNNHLTREEIMQELSITKTPSPDHLSGPIMMYAELDGLVCNGKMNGKQMTYALLEE
+RVPKTQGRLTQEEGLIKLALRYFESHGPATLLDFSWWSGFSPTSCKNTINAIELQLNSIT
+IEDQKYWFKNDISTEDDFRESIHFLPAFDEILISYKSREASILPEHQPKAFTNNGIFKPI
+ILENSKVIGTWKRTIKRDHAKIETQFFNETENHKKAILFEAIKPFENYLGTKIQIE
+>tr|A0A1S1J8R0|A0A1S1J8R0_9FLAO
+MNKNINALYQIAQKETRNIIGLMSGTSLDGLDIALCKISGSGQNSTVRIAQFETIDYSED
+IKIEIRKVFAKKEIDFQHLVMLNEWIGLLHAEMINNFLKKRNIPSAEIDLIASHGQTVLH
+APKFLHQQEKFPNATLQIGDGDHIAVKTGIITLSDFRQKHIAAGGEGAPVAVYGDYFLFG
+KKGENRIMLNMGGIANFTFLPASLNPEETFVTDTGTGNTLIDLFTKQYYPEKSYDKDAEI
+ARKGTVNQLLLDHLKDDAFFRQEFPKTIGPELFSAEYVKAALTRSSSETIAAPDLLATLT
+RFSAETIAEAIHYAVNNSVDSLEDFKIYLSGGGMHNPLLVQWLKELLPCDFHKTDELGIS
+GDAKEAVLFAILANETIAGEDFNFGSHKGIPSVTMGKISLPD
+>tr|A0A1S1J1S5|A0A1S1J1S5_9FLAO
+MQGEDDIRGLAKIMAFMRTVSILLMLMHLYWFCYGYFLDRSWTLDLVNKILGNFQRTAGL
+FSHTLYTKVFALVLLALSCLGSKGVKDQKITWTKINTALAIGFVLFFLNTPLLKLSIIIA
+SILYILTTALGYIALMVAGVWMNRLLRNNLMEDVFNCENESFMQETKLMKNEFSVNLPTR
+FYYKNKWNKGWINIVNPFRATIVLGTPGSGKSYAIVNNYIKQQIEKGFSMYIYDFKFDDL
+STIAYNHLLKHYNKYKVKPKFYVINFDDPRKSHRCNPLNPDFMTDISDAYEAAYTIMLNL
+NRSWIQKQGDFFVESPIILLAAIIWFLKIYENGKHCTFPHAIELLNKKYADVFTILTSYP
+ELENYLSPFMDAWQGGAQDQLQGQIASAKIPLSRMISPNLYWVMTGDDFSLDINNPIEPK
+ILCVGNNPDRQNIYSAALGLYNSRIVKLINKKGKLKSSVIIDELPTIYFRGLDNLIATAR
+SNKVAVCLGFQDFSQLNRDYGDKESKVIQNTVGNIFSGQVVGETAKSLSERFGKVLQKRQ
+SISINRNDTSSSISTQLDSLIPASKISTLTQGVFVGAVSDNFDERIEQKIFHAEIVVDNA
+RIAAESKAYQKIPQILSFIDKNGDDNMKREIDANYKQIKRDILMITEMELDRINSDPDLQ
+HLVQKEPKK
+>tr|A0A1S1J2M1|A0A1S1J2M1_9FLAO
+MYKILARINKILLPSFTKQGLDITKAKKWQMAVIGYRAYVTKRALG
+>tr|A0A1S1J4X6|A0A1S1J4X6_9FLAO
+MKAKLKSIYYKLNKLKNRLLYGKPVLVAMYHRTSNEVRSELQYLTVDLVSFEKQLHYFKE
+NYQILRLSDDWSSLKKTGIVITFDDGYADNLANALPLLEKYEIPATIFVTTLNINTKKEF
+WWDRFVFDYNFCDQFFYLPDVKEKASKGTHSFSDLNKLIGKLSNEEKEIWFLDFESLNKI
+PFHDNEDFRSLSYEELKRLSEHPLIDIGIHTHNHYPFGNLSYEEQKKELSFSIEKLDKLV
+TKSVKYLALPHGSFNDCTHRVIEESDCLGMLIANNDYSNHKNKSGKKINRILIPNIRDKE
+LVKFMNRFDFKIW
+>tr|A0A1S1J7C0|A0A1S1J7C0_9FLAO
+MKNLYLMGAIVLLSASLYSCTADEYDTAKTNDKPAIPAYADGPGDQPITVPPPPPPPPVK
+>tr|A0A1S1J949|A0A1S1J949_9FLAO
+MFQKITLLALVLVAVSCQKKDSTEKDKIKVADWLIGNWENKSPEGVLTENWQKLNDSTFS
+ASSYFIKEKDTIHLENIVLSQKEETLTYFATVKGQNDDKPVAFQSTAESDKQLVFENPKH
+DYPQKITYTKGANNTLTAEISGNLNGKPSSEKFVMTKK
+>tr|A0A1S1JB23|A0A1S1JB23_9FLAO
+MQSPSFSIYDASAGSGKTYTLVKEYLKIILSSPRNDAYRNILAITFTNKAVHEMKSRIVG
+SLSEFAKEEPSAKAIDLMEDLSRDTGFSVIKIKTKSQNIIKHLIHNYAAFDISTIDKFTH
+KVIRAFAHDLNLPMTFEVTLDTENLLVEAVDAIIAQAGQDETLTKLLVDFTMEKTDDDKS
+WDVSREILETGRLVLNENNRNEISHFQDKSIEEFIEIKKKMLALCKELESENENFAIEAL
+ALIEKNGIDLKSFSRGTFPNHLESIRDGKFNPRNKTFHEFDDIAINKTAKDRALIENIIP
+ELLQILVKIYKNFEKRDFYKAFLKNITPLSLLNTVSNELAKIQSEQNVLSISEFNAIIHR
+EIQNQPAPFIYERLGEKYRHFFIDEFQDTSEMQWQNLIPLIHNSLSGEDDFGNKGTLMIV
+GDPKQSIYRWRGGKAEQFIELGKEENTFFNHKKEVKHLDTNYRSYSEVIEFNNDFFKLIS
+TEFTNEDYKDLYENHSFQNINSKMGGYVNISFLPVIEKSDYADEEEVVEKSDLYVLATLN
+TIQKVLREGFEYKDIVILTRKRDQGIAIANYLTEQKIPLLSSETLMIQNATEVRLIVYLL
+KYLNNSADLESKANFLHFLGSNKEVKMPIHDFIALGMSQKKEGDFEKWLLTFDVSLSFED
+VRKKSLYEAVEIIIAKFILPDEGNAYVQFFLDIVLERDMRNQAGIADFLSYWDKNAEKFS
+IPSPEGNNAVRIMTIHKSKGLEFPVVIMPFAEEDYNRKPKDKLWLDTEDVNLDVPKALID
+NSSAVEGFGESASAVFNLKKQEELLDNINVLYVALTRAEEQLYVISQGMKERKDGELPNN
+MASFFIRYLMHKGVYDTERSEYEFGSKIRLSSSVKSVDLVKTIPVVSEVLDPKNIKIAQR
+EALMWGTHQQEAIAYGNIVHEILAFVKDQSDVDLAITKGIENGLITNDQVEMVSKTLQEI
+VNHPELSICFDGNAIILNEQTIVQKEGRILKPDRIVLTSNKEAYLLDYKTGVINSKYAKQ
+IQEYQEAIEDLGYKVLKKALVYIGSEIDVVNL
+>tr|A0A1S1J688|A0A1S1J688_9FLAO
+MNNKKAFIFDLDGVIVDTAKYHFLAWQKIAKALNINFTHEHNELLKGVSRVRSLDIILEL
+GNVPASQEDKDKWLIQKNEDYLSYLVDMNESEILPGVFKILQFLKEQNQGIALGSASKNA
+RPILEKTGILSYFDVIVDGNDVTNAKPDPEVFLKAAQLLQISPENSFVFEDSVAGVQAAN
+IGKMTSIGIGSKTILHEAHYVFEDFTSMDIQFIKSLIAK
+>tr|A0A1S1JBG8|A0A1S1JBG8_9FLAO
+MNNLKNSLFYITVIGGFTGLIYWVISKGVSLEAGRGVVHKKIESNHWNDFLHSMIENLQH
+PLAILLAQIVTIILVARLFGWFFRKIGQPSVIGEMIAGIVLGPSLVGMYFPEFSAALFPK
+ESLGNLQFLSQIGLILFMFVIGMELDLKVLKNKAHDAVVISHASIVIPFALGLSLAYFIY
+HTFAPVGVEFASFGLFMGIAMSITAFPVLARIVQERGMQKTKLGTIAITCAAADDITAWC
+ILAVVIAIVKAGSFTSALYVIGLALLYVIVMLKIVRPFLKRVGDLNSTRESLNKPVVAIF
+FLTLLFSAYAAELIGIHALFGAFLAGAIMPENNTFRNIFIEKVEDVAIIVLLPLFFVFTG
+LRTQIGLLNDPYLWKVTAVIIGVAVAGKFFGSAFAAKFVGQSWKDSLAIGALMNTRGLME
+LVVLNIGYDLGVLSTEIFTMMVIMALVTTFMTGPALDLIDFIFKDKVTAIPQEIGNKSKY
+KILLSFATPEKGKKLLKLANSLVKKQADNSIVTAMHLSLSTEIHSFDIKDHERKMLLPVV
+EESERLNQNMVSVFKVTNDIDTDIIDTANQGEYDLLLVGLGQSIFEGTLLGKILGFTTRI
+VNPDRLIDKFTGKEGLFENSPFDERTRHIIAKSKMPVGIFIDKNLEEINQVFMPVFSKED
+AFLIDYAKKLINNNGSQITVLDASGEVKSTRDIQETIRSIEQIAPNHIMIMHDRTIKKEF
+LETQNLMIISLDSWKKLIESQSTWLNNTPSVLILKP
+>tr|A0A1S1J8X1|A0A1S1J8X1_9FLAO
+MSSNKKYWKSVEELENSSIVEALRNNEFVEEIPTDEFLGNADALASSGTSRRDFLKYVGF
+STAAVTLAACEGPVHKSIPYVLQPEQIIPGVADYYATTVFDGFDFANLLVKTREGRPIKI
+ENNAIAGAKFAANARIHASILGLYDSARLKEPKVDGKQTTWSAVDLKIKSSLAEAKAKNQ
+QVVLLTNTLASPSTEKLIAEFIAKNPNAKHVVYDAVSSSEALDAFQAVYGQRALVDYDFS
+KSNLIVSVGADFLGDWQGGGYDSGYAKGRIPQNGKMSRHFQFESNMTLSGAAADKRVPMT
+TAVQKQALVQIYNIIAGASVPVTLDAAYKAEVVKAAQQLKAAGSKGVLVSGIEDKNAQLL
+VLAINQILASEAYTTAGARQIRKGSNAVVSQLIKDLNAGSVHTLIMSGVNPVYTLADSAA
+FVSGLKKVKTSVAFSLKEDETASIVTVAAPAPHYLESWGDLEITSGTYSLTQPTIRPIFN
+TKQFQDVLLSLNGAGGTFYDYLKVNSSAFTAGSSWNKVLHDGVAVIGSSALSGGAVDAAT
+AANALAKSKAAGDFELVLYTKTGLGDGQHANNPWLQEFPDPITRVSWDNYVTVSNADAKK
+LGLSNEIVANGGLNGSYATITTADGAKLENVPVIVQPGQAVGTVGLAVGYGRKAALKEEM
+QVGLNAYALYKNFNSVQSVSIAKANGEHEFACVQGQKTLMGRGDIIKETTLDVFNKENAE
+HWNPQPMVSLDHQEVKATTVDLWESFDRSTGHHFNLSIDLNACTGCGACVIACHAENNVP
+VVGKAEVRRSRDMHWLRIDRYYSSESTFEGDNERKEGIAGLSSSLSTFNEMEKPGDNPQV
+AFQPVMCQHCNHAPCETVCPVAATSHGRQGQNHMAYNRCVGTRYCANNCPYKVRRFNWFL
+YNKNSEFDYHMNDDLGRMVLNPDVNVRSRGVMEKCSFCIQSTQAVILQAKREGRVVAKDE
+FNNACACSAACSSGAMVFGDVNDKESEVAKLAESERMYHLLEHVGTKPNVFYHVKVRNT
+>tr|A0A1S1J2Q9|A0A1S1J2Q9_9FLAO
+MRKIGTTQAGFVLRIVLGITMLSAVADRFGLWGAPGALGVAWGNWDNFIIYTQTLNSFAS
+KSLAEVLGALATFFEILFGLFLIIGFKTRYIALGTAGLMLLFAFSMAVSVSIKAPFDYSV
+LTSAAAALLLSSLDKTYLALDNRSQ
+>tr|A0A1S1J885|A0A1S1J885_9FLAO
+MLKHNKISDSDLRNKIKKGEICFGGNQKLKIYGTLKCSSGKRMKRENRIFFSTEDEAKEN
+NFRPCGHCMKTEYQNWKNGLI
+>tr|A0A1S1J1G6|A0A1S1J1G6_9FLAO
+MKQITLIFIAFITFSCSQAQKTSFSKEALSEKLLAADDSQVAFKNILKKYKGKTLLIEVW
+ASWCGDCVKAMPQLKELQANNPTVSYLFLSADKTADKWKAGIEKHELKGDHFMMNDGMKG
+VFGKAIDLDWIPRYIIVDKTGKIVLYRAIEKDFDKINETLKGLK
+>tr|A0A1S1J2J5|A0A1S1J2J5_9FLAO
+MKNYITKIVMIAILITTVISCKVSKDIETPKDAFPENFRSASVSKDTTSIGDTEWKNFFT
+EKDVIQLIDSAVARNNDLQIATKNIEIAHYRFTQSKWGNVPEVNLSVAASTSNPSDNSFT
+GKNLGQALGQNHINDFTAGATLSWEADIWGKIKNQKKEAFAGYLQSEEVKKALQTTIVAN
+VSKGYYNLLMLDAQLDIARQNLKLNDSTTTIIKLKYDAGQVTSLAIQQSEAQKLNAAQLI
+PLLEQNIAIQENALSVLTGSFPDSKQRSIRLSALEVKNNTAIGIPSSLVSRRPDVKSAEL
+ALKAANASVGITKANLYPALRITAQGGVNSFEASNWFNIPASLFGTLAGGLTQPLLNNKK
+VKTQYHIAVAEREKAVLNFRQSVLVAVSEVSDALVKVEKLQQQESFLQQRVKTLQQAIKN
+ANLLFKNGMAEYLEVLTAQSNLLQSELELANIKREQLSANTELYRALGGGWK
+>tr|A0A1S1J4Z5|A0A1S1J4Z5_9FLAO
+MAKLLVKQVRSKINCPLSQKRGLEALGLRKMGQVVEHDSNPAILGMINKVKHLVSVEEAK
+>tr|A0A1S1J5S1|A0A1S1J5S1_9FLAO
+MKKTNTIALVMFLIFVSTSFYAQSVKMMTYNIRLDVASDGENAWPNRKDFFNSQIRFYSP
+DILGIQEALPNQVAEIASALPEYHKFGIGREEKGTGEACTIYYKKDRFQVEHTNTFWLSE
+TPEKVSRGWDAACNRVCTYGLFKDLKTKKMFWVFNLHLDHVGEVARVKGVELVLSKIKEI
+NTKNQPVFLMGDFNSVPDTKQIVEIKKVMDDTRDISIEKPFGPLGTFNEFKHNEPVNLLL
+DYIFVSKNSGLKIQKHAVLSDSKDLKYPSDHLPVLIQIN
+>tr|A0A1S1J7F9|A0A1S1J7F9_9FLAO
+MGEFFVRRPIVAIVMSIIIVILGLLALQKTPISQYPDINPPVVKINTSFTGANSLNVEQA
+VATPIEQKVNGVENMLYMKSTNTSDGACTIEVTFDVGTNLDNANMLTQNRQNQSSPFMPS
+SVKQQGVVVKKSLSFPMMLFTVTSNNPKYDAKFLNNYASINIVDQLARIKGVGEVALFGG
+SDYSMRIWLKADVMSKLGVTVDDVKNALNAQNMISPGGKFGAEPAPPGTEFTYGVTLQDR
+LVTEKQFGEIVVRSKKDGAQVLLSDISRIELGTENYSSSARRNSSPSAVMAVYQMPGSNA
+LEVAELAKKAMKDLSGKFPKDIEYQESLDTTLAITAGVEDIVHTLFEAVILVILVVFIFL
+QNWRATLIPLITVPVSLVGTIAVFPLLGFSINTLSLLGLVLAIGIVVDDAIVVVEAVIHH
+IEKGKSPREATIQAMKEVSGPVIAIALILIAVFVPVAMTPGITGRFYQQFAITIAVSVAF
+SAISALSLSPALCAMLLKPTKPIEEQTGWLAKFFAGFNRIFEKVTGRYLTGATFFAKKSM
+RIVVLLAVIMAAVVVLGKKIPLGFIPEEDQGYVLVNMSLPPASSLQRTDEISRKVDRFLK
+EEKSILSYTTINGFSMLTNSYQPNSAFIFISLKPWEERDETSKQFVDRLNKKFATQITTA
+SVFGFGPPAIQGLGASAGFSLMLQDKGGNTPQYLAEQTQAFIAAAQQRPEIKRIYTTFNA
+GSPQIKLDIDNDKAMKLGVPVSKVTEALGAFLGGSYVNDFNRFGRQYKVFIQGEAVNRVK
+PEDLNLIYIRNNDGDMLPISTLVTATKVMGPDFTNRLNLFRSAEIGGSPNDGYSSAQALE
+ALEEVAQQTLPADMGYDYINLSYQEKHSPGGSSVFIMALVFVFLILAAQYESWKLPFSVL
+LGAPFAVFGAFLGLLLARIGSDAYVNNVFAQIGLVLLIGLVAKNAILIVEFAKEEYEKGK
+PLYESAMVAAKLRFRPILMTAFAFILGVVPLLTATGAGSQARIVMGMAVFSGMLIATVLG
+VLIVPGLFVMIENIGKKKKDTIATTENNKDSNTTGHDD
+>tr|A0A1S1J8T6|A0A1S1J8T6_9FLAO
+MTKLKNIKVVVTDLDGTLLNPQHRISDYTKSIFQELHHQNYLIIVATGRHHLDAMAIIET
+LEIPVYLVSSNGARIHSPEREELFAFDLKSDVVKAALDVEIDPEITVVLFKENVWQTNRI
+NERLNAFQAELKYRPELVDYKTLEDFAAIKIFFSHENHEKLVALKEAILANSSSDLHHAF
+SLPTCLEFMDKSVDKAVAIQRVLEKEGFSLEEAVSFGDGFNDVQMLSETGKGLIMGNAPA
+LLKETLPDLEVIKTNAEDGVANYIASKILNKEFVMD
+>tr|A0A1S1J917|A0A1S1J917_9FLAO
+MYTFSSKLKTFSIVLMVLGLLGIGYGFLNAPKDIQEVEKILAADAHGSHGAAHGEAAEAS
+HETAGHEATEASHEGAAHAEAPAASHDTAEASHDSLKGAAHAETPAVSHEAAKVSHDSHE
+GGEHAKVDAAGEHEKHLEHVLHQLQNKPWSALYVASIFFLLLSMGVLAFYAIQQVAQAGW
+SPVLFRVMQGITAYLPAGSVIFFIILVLCGLHFNHIFVWLGEGVTDPKHANYDAIIAGKS
+GYLNFPFWIVRAAIFLLGWNIYRHYSRKNCLAQDEANDDLYYKKNFKISAGFLVFFIVSE
+SIMAWDWIMSFDPHWFSTLFAWYVFASFFVSGITTIALVTIYLKSKGYLEYVNTSHIHDL
+AKFMFGISVFWTYLWFSQFMLIWYANIPEEVTYFVTRIQLYNLPFFGAVVMNFLFPLLIL
+INTDFKRLNWVIVMAGVVILLGHYVDFFNMIMPATVGDKWFIGVSEIASILFFLGLFIFV
+VFTALTKAPLLAKRNPFIEESKHFHY
+>tr|A0A1S1J997|A0A1S1J997_9FLAO
+MNIQDLHNLFLKCKSVSIDTRKIEKDSMFFAIKGENFDANTFASQAIELGALFVVIDNAA
+YAIDDRTILVENSLETLQELAKYHRAYLKLPIIALTGSNGKTTTKELINVVLSQKFKTKA
+TVGNLNNHIGVPLTLLSFTKDTEIGIVEMGANHKKEIAFLCEIAQPDFGYITNFGKAHLE
+GFGGVEGVIIGKSEMYQYLAKNNKIAFVNLEDPIQIEKSAGIESFTFGVNNAQANLKINS
+IQANPFVVIGYDNFSVESHLIGLYNANNINAAVAMGAYFKVEDKAVKQAIENYIPENNRS
+QLLKKGSNEIILDAYNANPSSMAVAITNFLQLENSNKVMILGDMFELGDESLQEHKQIVD
+SLSDQNQSVCYLIGKYFYETKVAGDQLQFFETFDAFAEFLKTIHFKENTILIKGSRGMAL
+ERTLEFIN
+>tr|A0A1S1J5Y5|A0A1S1J5Y5_9FLAO
+MSKNVIHNFDILIQNSADINSAEHLTNVMIKELAKISKEMSQKKDIEQLWQEQESQNPFV
+NNSNFSAEGGVNDTIAKTGSNTALSVNNTPSVFGEARHTFDDIRGGAGTIPFGTTNVNTS
+IGEGVADTIDSTMMSAVLSVNTTSPIFRVEDDTLNLSKGLTSQIYSGVEAQQMLTMPEKW
+QTNGEPTLEAVKEAIRKKIEQANAANDRTAVEYWTIISKAFDENKGASVQDFDGKPNHEL
+FTEMYATLKQSNSVTATPNFNWEIVREKMIKAIDTNILLGKISEGSKKRWKIIQQELQKD
+STNVANLFEQYNELFLLLRQVEGLDDLPGTITITTKTKIYPNLSADRLYGKIGKEAVYVF
+LKEISYEDVQGNAVKRGAVKIKNANTSSFIIGETLEFFLDETLIVQNGNKNDGINWIVYK
+KKKGKKYEETIFEDEGTSFSYNFDTAGTYKIEAYGDEYGANNKKSKKSFAFTEVKIVAQE
+IVITPPSIVKERLVRPSSKEVLFKTALKYPKVKSLNPLKLYYQIETKTNNKGTIISDEKE
+LDSTGNISVLMPDLGTYKIKIISKNQYALTQEFEVSAIKNEVTSIGPIKGESNKNVFLLG
+GSNKTFTLEAKTFKIPPTDKEKQDVKWIVYDSKYNPYLTSGDIWYTEKDTPKRKHLHKWE
+SFGISVPDKEGHYTIEAFSDIAKGVDAKAVYKMEVQRPQVTEAYWAYSNDDKKETSGFSG
+EVNHVKAKIPGYDNQKVRISFYLNGSKAPSYYNETTTNESGEINRIITFDDTFQRRFGIQ
+EGKTAKISFKLMGIQNNRLYAFKKNASVNTAVLNVVTGANITAAYFQYDGKRVTAKDEIP
+LSYSGGYVTIVAKTQNMIGKEIVLTAHKVDEIPIYRSKVKIDSEGNASATFKITRRKGAK
+IGEKMSYFVGIEGHSTLHLGYKGLNMVVSNVTNTANTGTYKSHFDENMIHVFKVEGGYVD
+DKKDRGGKTNKGITFKTYESFYNLYGNGEAGTVEMHRNLSNTEAKKIYKIEFWNKIHGDE
+IYNASIAAYIFDFAIHSGVPNATKVVQATLNVSADGVFGTSTVNNINRVDPKIFYEKLDK
+NRRKFVEDIIKKDPTQKVYEKGWENRLNELKYKREEYNITQKIESWLKKEYKKSPIKDKN
+SSIAALILEAHALNLVEFNSEGKPGVFESGLGGSQDTFIKIRDGIIIGSGKGNAKPNKFD
+PTLTDIPIIETALKIIQSNVKNWVDNNYNPKEPNKLKLGSFMVWNNNGKDRIAGALRGSQ
+HGNKASAIDINLSTYSNDKIDFSKPNAETMVLEIIKHLPKGNYGFGFPKQGNFFPNDEKL
+KHGKSEYNKVYNQAYHHLKSEALKKELQRRMDDKDIIIVFSDNPDHFHIQLN
+>tr|A0A1S1J6K5|A0A1S1J6K5_9FLAO
+MGVVMEVNLNEEDKYYLAKKRVEEIKGFYGNLTAYVIVNLVLIFINLYTSPRHLWFYWPL
+MWWGVGVVFHGLKVFKVFPVLGKDWEEKKIKELMEKERENKNKWQ
+>tr|A0A1S1J8E0|A0A1S1J8E0_9FLAO
+MKKIIITLPLLLSFATFAQGFLHRDGQKIVDGTGKNIILRGLGTGGWMVQEGYMLQTQPF
+ASPQYVIRQKIQDVIGEEATKEFYAAYKANGITKRDVDSLAAWGFNSIRLPMHYNLYTPP
+IEAEKKDEISWIEEGFTMTDNLLKWCAENKMYLILDLHAAPGGQGNDAAISDYDTTKPSL
+WESEANQKKMIALWKKLASRYRDNPWIGAYDIINEPNWNFTGTNKNGCDENSNGPLRDLM
+VRVTKAIREVDTNHLIFIEGNCWGNNYNGIFPLWDENMALSFHKYWNYNTTASIQKMLDY
+RTQYNVPIWLGESGENSNVWFKEALTLVENNNIGWAFWPMKKIENIAGVTSVTKIPEYDV
+LLKYWKDGGEKPKPDFAKKTLMKIADNYKIENVTVKPDVIDAMFRQVQTNDTKPYKRHLI
+PGKIAATEYDLGTNEKAYSDKDFINYRVETGKFDEWNKGNTMRNDGVDILPCKDAGSNGY
+QVSFIEDGEWLQFTAEIKKQNTYKVAIRYSAENSEGKIYLEAENRKRSQIVTLPATGGND
+KWKTVVLSGVILNAGTQKIKVVFEKGGFNLNYLDFSEQKK
+>tr|A0A1S1JCQ3|A0A1S1JCQ3_9FLAO
+MAKPDNTQKRKEREEKEEAEDGLKFVIDGAKLKCDLCTVPEGDLKVNFDTPTIQDKKVAT
+IVEKDKKSVIFKGNCKKSPQSSSPCASVMQLADWKDVGTVYFQEKFPLLLKSTIKCNYGG
+VDIKITDSAQRNAPEKIDTTAAPVPPAEIIYVNGHFYNTNGAYEGKVNEAENSGDIGDVY
+TCTGKSTQKDKNGKEVTTYNDIKLLKENDENISHSNFCYIAYVVKMEAGENDLKELKCIA
+YTSFNRSKKLKIKWKQLLATAYSSVGDKKELKETKNDEKSKLTRQALFYVLNSEDDLTNG
+AEFWDGTDFLAWGNSETNPYNKLGQNKFDEYKFIEIPKDVYDAFVASNGTSTKYGDKGNH
+NKKNDEGTHEHITKKEKRKVLDKDKKPVLGKDGKPTFEEVDVPSKIKYEIPASDFKDKEY
+WKSGSFYYETGVNETYGISGTISAGKSIFWKKTKTRLTSETASKK
+>tr|A0A1S1J4E4|A0A1S1J4E4_9FLAO
+MKIVNKFYPHALVILGFILVSLIYFYPVLQGKQIFQSDIAQYTGMAKEQNDFRAAEHSEP
+YWTNSAFGGMPTYQLGANYPNDFVGKLDDALRFLPRPADYLFLYFLGFYGLLLVLKTDPL
+KAFIGAIAFGFSTYLIIILGVGHNAKAHAIAYMPLVIAGFILVFQKKYIWGGLLTMFAVA
+LEVNANHFQMTYYLLIFLLILSAYFAFNFIKEKEYKSLLTAIGVLAVAGIFAIGANATNL
+LATSEYAKFSTRSNSELTFNPDGSKKTNENALSREYITEYSYGIAESFNLIAPRLFGGSN
+HENVGTDSRMYSFMIEQGVPSEQAQDFVSGMPTYWGDQPIVAAPAYIGVVVFFLAVLALF
+IDDRKIKYVFFTGALVSLILSWGKNFALLTDFFIDYIPMYDKFRAVSSIQVILELCFPVL
+AVMGLQSFFKAKEEPKLQQKALVQTGVFGLGVILILVFAKSMFHFTGSSDNYFLESYGPA
+FVDALKEDRKSLYSADLLRSGFFIVITFGILWLFIKNKLAQNTTLIIVGLLMIFDLFFVD
+KKYVSAKDFVSPVQIAAPFQETPSDAQILKDTTHYRVFEVSGNMSSARASYFHHSLGGYH
+AAKPRRIQQLFDYQIAKNNVEVLDMLNVKYIIQTDKEGKEFPTINPNANGNAWFVSTVKL
+VNKPDDVMKALDHIDTKTVAVFNVREHEGKFRNARMKKQWDTTGTIQVVQYKPNYIKYKS
+NNEKDALAVFSEIYYKNGWNAYIDGKLTDHFPVDYVLRAMEIPGGEHTIEFKFEPQVVKT
+GSVITLASCIGMLLLLIGGVYFEKFFRKDSQRNHGDTLK
+>tr|A0A1S1J5X2|A0A1S1J5X2_9FLAO
+MNSTTKLLMAMSLLLSVTFASAQIKNKTTEKVKVNGNCSMCKKVIETAANVNKETKVIWN
+EDTKIATVTYDSQKTNLDAILKRIADAGYDNEKFKAPNAVYDELHGCCQYDREPSDKKQS
+TSSSHH
+>tr|A0A1S1J7K6|A0A1S1J7K6_9FLAO
+MDFQDFLQYVPNLIPAVLPAELAHIKMAPKERLEALKNLDLKDKNPRIAAVMMLFYPKNN
+KTHLVLIVRNAYNGVHSSQIAFPGGKYETTDANYEETALRETQEEIGVAPEKIELIKHFT
+PMYIPPSNFLVHPFLGISKEELLFYPDIREVASIIELPLSVFLNDEIVIEVTLSTSYANN
+ALVPAFNIQNHIVWGATAMILSELRDVLKTTFGEKV
+>tr|A0A1S1J9N9|A0A1S1J9N9_9FLAO
+MTKKILILLFFLGSIFMQAQNLVWKTNMTDAIALSNEQKKPMLILFTASGVPENLQNEIF
+KTPDFAVWSRDNVILVKLDLSDSTADESDREQKLKLKNAFGVEDLPEVCFASASIRKNKT
+TFSALGKIAYKPGGAKAWIAESNAILHSGE
+>tr|A0A1S1J601|A0A1S1J601_9FLAO
+MENYLRQLIAIEFTDKKELYTGFLIDYSDEWILLRNNPVDFILDGFVLLKNKNIEAIHRD
+QDLEFTEKVIRLKGLRTNAEDIIPIRDLNSIINFITNKYGIFQIAKKSAKSAYLGKLIEL
+TDEELTIDFLDTKGQFGGELSFNPQKIRVIEFDTDYINSLKLVVGENL
+>tr|A0A1S1J661|A0A1S1J661_9FLAO
+MNYNVNEKGYYGEFGGAYIPEMLYPNVEELRQNYLKITSEPGFKAEFDQLLRDYVGRPSP
+LYFAKRLSEKYNTKIYLKREDLNHTGAHKVNNTIGQILVAKRLGKKRIIAETGAGQHGVA
+TATVCALMGLECIVYMGEIDIARQAPNVARMKMLGAEVRPALSGSKTLKDATNEAIRDWI
+NNPVDTHYIIGSAIGPHPYPDMVTRFQSVISEEIKWQLKAKEGRENPDYVVACIGGGSNA
+AGTYYHFLHEPEVGIIAVEAAGKGVDSGHSAATSKLGKMGIIHGCKTLLMQTPDGQITEP
+YSISAGLDYPGVGPMHAHLAQTGRGEFFSVTDDDAMNAGLQLTKLEGIIPAIESAHAFAV
+LDQKKFKPSDIVVISLSGRGDKDLDNYIEYFKL
+>tr|A0A1S1J6K0|A0A1S1J6K0_9FLAO
+MIALNAATASTHHLQPLISDLGLILLTAGIAVLLFRLIKQPLVLGYLIAGFLAGNHFDFF
+PTITEMKSVEVWAEIGVIVLLFSLGLEFSFKKLMKVGGTASITAITQIITMVVMGYMVGR
+WMGWEQMDSIFLGVILSISSTTIILKTFDELGVKAQKFAGIVIGSLIVQDLVAILMMVLL
+STIAVSQQFSGSELMMSVLKLIFFLTVWFLGGIFFIPTLLKKAKHLLTDEMLLIISLALC
+LTMVSFAANVGFSPALGAFIMGSIIAETTQAEHIEHLIKPIKDLFGAIFFVSVGMLIDPK
+MLYTHALPVAILTLVTIIGQSVSSTIGALLAGQPLKQSVQTGMSLSQIGEFSFIIATLGM
+TLNVTSSFLYPVVVAVSAITTFTTPFMVKYAVPFSDFLERKLPKRWVKNINRYSVNAQAI
+KSVSVWQKVLNAYIIQIVLHTIIITAIILLSVKFVAPLVAETRFGNTLAALITLIIIAPF
+LWALSLRRVAVEEVDSLWEERKYRGAILMLILIRMSLGLFLIGFLLNIFFSPLVAFIALV
+VAIVVYQIFPKKLNEQYHKIESHFLKNLNDRENKKIDRRYANLMPWDGHMSFFDIGTESN
+LVGKTLEELRIRESMGINIAYIKRGDITIPIPTKNERLFPGDEICVIGTDAQVTEFNKYL
+NQNEIEAPTKVAETDIVLRQFEVSQEDFVQKSIGQFRTKTNGMVVGIERNGNRLLNPESS
+LILEKNDILWVVGDKKKMAELVKSY
+>tr|A0A1S1J8V1|A0A1S1J8V1_9FLAO
+MNYLKQSSCALLFAVLLVSCKQHEDARRPISQASGTFMKKSADRNKKLVANEEDVIKKII
+KSNPKTKYYATRKGYWLYYDERNETDLQTPKKGDIAYFNLEVKDINGQIIYSEADLGPQT
+YYVDKQDIMMGLRDGIKMMHKNETVTFLFPSHIAYGYHGDNKKIGPNQSLMCTVTLRNFV
+PDPAANPTTTAAQTPKTAAPKTVAQTKKDTLNP
+>tr|A0A1S1JBU3|A0A1S1JBU3_9FLAO
+MNRRNFLTLTGTLTGGMLVLPDFLHAFGSQSSLIVGEQCVVFVQLNGGNDGLNTFIPYDN
+PLYYDYRTKIALNKDIVIGKNKGMAFHPALKDLAQIQQNGDLTVIQNVGYPEPIRSHFRS
+QEIWQTATDSNKYSNEGWLGRYLDLQCNGHQATAGINLDSIDNLALKGNEPNFITVKDPN
+RFKVKSDKEVNVTLSDNPQLDFVRKIANSVTEGSDEIQKALAKSKAEISYSKTELSKNLE
+WIGRLIKGNLNSKVYYTSLGGFDTHDNQLALHERKLGELNDALYSFYQDLKQAKLLQNVT
+VVVFSEFGRRVRDNGNGTDHGTAAPMFIIGGNNQGTILGKNPDLSNLDNGDLKYEIDFRS
+VYASLLQQKMNFDYTKIGIKNAPVSGLF
+>tr|A0A1S1IYN9|A0A1S1IYN9_9FLAO
+MGHIELNNLPGYRLLNNFKRRKRVEKLNVERLKNSLDYLQSKQRELKRQNEEDTRTLESL
+IKYLKKDMIDQYKLTKYDLYIKQDVKDTETFINSVQKIIEDNQ
+>tr|A0A1S1J4A3|A0A1S1J4A3_9FLAO
+MATNDNTGLEIAIIGMSCHVPGANDWRTFWNNISKGEESVYTLSEEELLKRGFVKNETSK
+NVHIPVIAEVGNKGSFDAAFFGFTPYEAALMSPVHRMFLQSAWEALEDAGCLSESAISIY
+AGSGGDLPWKAHVALNSDSSKLDTITLDFITNKDHLPTLTSYKLNLTGPSFSINTACSTS
+LSAVHLACRGLLFGEAKVALAGGISLMLEPRFGYEYKEGSIYSKDGHCRAFDEKATGTIG
+SEGVGIVVLKRLEEALEDKDHIYAVIKGSAANNDGNRKVGYTAPSIEGEMECIRLAHKMA
+GIAPDSVSYVEAHGTGTTLGDPIEVEALNMAFENNKEHNCLLGSVKNNIGHTDTAAGVVG
+LIKAALSLKYRQIPGTINYSDPNPKINFSEGPFYVQKELHKWESVNNKPRRAGVSSFGIG
+GTNVHLVLEEAPGKDKNATKERSNLFLFSAKSKSSLQNYLLKFKEFLKNESDIALDEVAY
+TLQTGKRHFDYRAAISCTNKEELFLYTDILSNEENIGKVDEKKKTVLLFFPHTNHTDIQF
+YSNLYKENAGFRNKIDQSIATVELGNYDLKKWMNETAVSGKSKDKVLTKVFTVLSGYTLA
+NLLKEYGIRINFTSGVGIGEYTAACVSGILQLNEVLGMMLYDEKELSIQPAQIPFVQAAK
+DITINEGILTPQKYWVNGRSLKINASKSFSDIVQNNSAVLLEMGDSTSLTQFLNTILAEN
+FEENSHVTISLSQTDKAIHADDILKNTLRKLWLAGENIDWEETYDDNHPAKTTLPVYEFD
+KSEYPHVVNLIPENFNFLAKKEEKIEVGEKVNVLQKKKETTSEIIQSVFVEFLGEKKFDL
+DKDLFEIGCDSLKGMLILNKIKNELQVELSLMDFMEHSSVREVIESVEEIKNKAYQQVKT
+ITI
+>tr|A0A1S1J519|A0A1S1J519_9FLAO
+MARDLKYTRNIGIAAHIDAGKTTTTERILFYTGKSHKIGEVHDGAATMDWMAQEQERGIT
+ITSAATTCTWNFPTEQGKVLPESLPYHFNIIDTPGHVDFTVEVNRSLRVLDGLVFLFSAV
+DGVEPQSETNWRLADQYRVPRMGFVNKMDRQGANFLGVCGQVKDMLKSNAVAITLPIGDE
+ADFKGIVDLVKNQAIVWHDETQGATFDIVDIPADMVDEVRQYRSILIEEIATYDENLLDK
+YMEDENSITEDEINNALRAATIDMAIIPMLAGSSFKNKGVQFMLDAVCKYLPSPLDKEGI
+EGIHPDDADLLEEDQTKILRKPDVKEPFAALAFKIATDPFVGRLAFFRAYSGRLDAGSYV
+LNTRSGNKERISRIYQMHANKQNPIEFIEAGDIGAAVGFKDIKTGDTLCDEKNPIILESM
+KFPDPVIGIAIEPKTKADVDKMGMALAKLAEEDPTFTVRTDEASGQTIISGMGELHLDIL
+VDRMKREFKVEVNQGEPQVEYKEAFTRSATHRETYKKQSGGRGKFGDIVFTIEPADEVDG
+KVPVGLQFINAVKGGNVPKEYIPAVEKGFREAMKTGPLAGYAVDSLKVTLTDGSFHPVDS
+DALSFELAARMGYKESGRAAGAVILEPIMKIEVITPEENMGDIVGDLNRRRGQVNDMGDR
+NGAKTIKADVPLSEMFGYVTTLRTLSSGRATSTMEFSHYAETPSNISEAVIKKAKGNA
+>tr|A0A1S1J5M7|A0A1S1J5M7_9FLAO
+MSEERVIRINKVLRELNISLERAVDYLKDKGIAIDANPNAKISDSEFNILQSQFAGDKGN
+KEASKEVGEEKRKEKEALRVEREKEIEDKRRQDEERQKQQEVIKARAVVTGPVQVGKIDL
+NPKKPAIVSTTSEEPAKTEEPKAVVTPTQPEKPVQKEIVQPEPVVAPVVSEEKKVEKPII
+TEKKEVKVESPKVAQEPVVSTDPNTAEEIITTQYQKLSGTTLTGQTIDLSQFNKPKKKKE
+DPKITPNKPGAPGAGNNANKNKRKRIAPKPGTPGAPKPATGNAPGTPNPNKITPNTGGGG
+FNANRSARPGFVKGNRPAIVAKVEPTEEEVKNQIRETLEKLQGKGGKSKAAKYRRDKRET
+HRQKSDDEQRALDEGSKTIKVTEFVTVGEIAIMMDVPITKVIGTCMSLGIMVTMNQRLDA
+ETLTIVADEFGYEVEFITVDIEEAIEVVEDKEEDLVVRAPIVTVMGHVDHGKTSLLDYIR
+KENVIAGESGGITQHIGAYGVTLDNGQKIAFLDTPGHEAFTAMRARGAQVTDIAIIVIAA
+DDDIMPQTKEAISHAQAAGVPIIFAINKVDKPNANPDKIKERLAGMNLLVEDWGGKIQSH
+DISAKTGLGVKELLEKVLLEAEILDLKSNPNKAAQGTVVEAFLDKGKGYVSTILVQHGTL
+KIGDYMLAGKHHGKIKAMHDERGHIVKEAGPSTPVSVLGLDGAATAGDKFNVFEDEKEAK
+QIASKRSQLMREQSVRTQRHITLDEIGRRIALGQFKELNVILKGDVDGSVEALSDSFSKL
+STEEIQINIIHKGVGAITETDVMLASASDAIIIGFNVRPAGNARQLADKEEIDIRYYSII
+YAAIDDLKDAMEGMLAPEMKEEILGTAEIREIFKISKVGSIAGCMVMDGKIMRSSKIRVI
+RDGVVVHTGELVALKRFKDDVKEVSKGYDCGIQIKGYNDIEERDVIEAYHEVAIKKKLK
+>tr|A0A1S1J7M7|A0A1S1J7M7_9FLAO
+MDYKKFVYEQKKRDKVLKAKSTQVVVKEIRFGPQTDEHDYEFKRKNAEKFLKEGAKLKAF
+VFFKGRSIIYKDQGQILLLRLATDLEEHGKVEAMPVLEGKRMIMFIAPKKKK
+>tr|A0A1S1J9M0|A0A1S1J9M0_9FLAO
+MKLILRVFFFFIISAKLFAQAPASANKLIYLDSLWTPGTPENYKYTRLIEDYYSEKKSYV
+YQDHYKSGAIKYIANTTNKDVIINEGQAVSYYENGNKKSSVSYVNSKKTGKEFNWYENGN
+LKSELEYSDYKKGEVDFKVNNYWTPNKEQTVTAGNGKVEDTSYDIEQSGIIKDGFPDGIW
+KGKNLKSKYIFTEQYENGKLISGKSIDSLNIEHRYKIISEKPLPKNGIDSFYRHFSSKMV
+IPVDIRNKVSEKIYMTFIVDETGNLVDPKVIKGVGYGLDENAIQIIKEAKKWNPGLIRGI
+PARILYKLPITIVKNGR
+>tr|A0A1S1J7S6|A0A1S1J7S6_9FLAO
+MKNILKLSLVCAVLFSGISTYAIDENGNNNFNLHVLKGNGKLITFALNQVQKASLSIYDQ
+NGSLIYTENASGKEGILRTFSLEEFPEGTYFLEVEDSVKKIRHEITITDDKSILSAKAIS
+STYKADYSAQNSNVAVR
+>tr|A0A1S1J9D2|A0A1S1J9D2_9FLAO
+MAVLAKIRQRSALLIGVIALALFAFIIQDLFTRGTFGQSSKDVGSIDGKDISFEDFRVKV
+SNVEKSGQGITSTEAANRVWDQEVSIALLSTQFDKLGLRVGEKHLLEVLKADPNIGKNPM
+FLNAAGIFDVAKFKEYFKTNPEAAQFISQKEKDAELNAKFQIYNTLVKSGLYTTVSEGKL
+KYEMEANKVNFAYAAALYSSIKDSEVKISDSEIVEYMKKNEKKFKADATREIQYVLVEDK
+ASKQDEAEIKAKITALLNGRVEYNAKTGKNDTLPGFKNATNIAEFVNSNSDVPYDSTYVP
+KNALPAVDADKLFSLPAGAIYGPYVYGRYYAISKSLGFKAGVNAKASHILIGYEGSQTPN
+TKEKRTKEEAKAKAEEILAQVQANPDSFMMLAFTSSDDSSAQQGGDLGYFGPNQMVKPFN
+DFVFSNGIGKVGLVETPFGFHVIKITDKQDGIRLATIAQKIEPSEATSDKVFTLATKFEM
+DAADKDFNATAKELGLKVAAPITAKAMDEAFGPLGNQRNIIRWAFDKETNTGDVKRFELA
+NIGHVIAQYKSENKSGLVSVTLARPYVESILKNKKKAEILKAKMKGSSLEAIAKSAGVAV
+QQATNVTMDSPVLPGGVGQEPKVVGNAFALAANKISAPIEGNTGVYVVKNISTVKAPAAA
+NHAEYVAKVKAQSASDASRILPALKANAKIEDNRLQFNY
+>tr|A0A1S1JBZ5|A0A1S1JBZ5_9FLAO
+MLHKNKIPNLKVIAFDADDTLFVNEPYFQETEHKFCALMEDYLSHQGISQELFKIEIENL
+SLYGYGIKGYILSMIEAAINISNKTIPIEVIEKIIQYGKELLEKPIELLDGVEETLKTLH
+GKYKLVVATKGDLKDQHSKLHRSGLGHYFHHIEVMSDKQEIDYTKLLGRLDIQAEEFLMI
+GNSLKSDVLPVLGIGGYAVHIPFHTTWEHEKISHKIEHEHFSSFEKITEILQNLL
+>tr|A0A1S1J7E3|A0A1S1J7E3_9FLAO
+MKINCQNKIIILLVMFVVQLSFSQKKNETIGTETVNVVKPYSPTISDAFKVKETPSLDDS
+GNQPKETIKYSILSVPVASTFTPSKGKAEGVEKSKKEKLFNNYATLGVGNYGTLNAELFV
+NQDLGNNDYVAGMFRHHSSQGGIKGVELNDEFYDTALNVGYGVNNRDMSWNVDLGYQNQL
+YNWYGLPADFGSTLAGQMRDDLIRGINPNHSYNTISLGGNVAFAEGVFSKISTKFTHFSD
+SFSSSENRFYVKPSFKVDIMDQAINTNIIVDHVSGSFEHNYAYDNTKPLKYSLTNFGIEP
+SFVMLENDWTLELGAGLFYGLDSENSGNKFYIYPKVNASYKLVGDLMIFYTGVNGGLNQN
+SYADFVTENPFLSPTLLVKPTNNQYTVFAGLKGKLANNVSYNLTGSYLNEKDKALYRSND
+YTEDFSNQNYGFGNSFGVIYDDIRTFRFYGELKADFSQNVSFGINGTFNSYKYDGIEAWN
+LPSMKLSSNLDVNITKQWYAGLNVFFVGERKDMQSNVNLGTDPVITTLKSYFDANAHLGY
+KYNDRLTCFLKLNNIGNQAYEKWLNYPVQGFQVVVGANYKFDF
+>tr|A0A1S1J859|A0A1S1J859_9FLAO
+MQENNTITFIFLAILLLLIVIICFLMYQLMQFKKAKDDAEKSFYALEMKVNDLQLETLES
+KLNPHLFKNILNSIQSHAYQTYFALDKLANVLDYILYESKKKFVTAREEIDFALNLIEIN
+KIKVSPLFELKIKTNINKEDKLYEQPLLAPLISIDLIENAFKHADLQSADAFISVVFEFR
+DNAFFMTVSNKISNKKVLKKERSGFGHATLEHRLRIIYKNNFKLERFVENDVYIAHLKID
+LLEYKTEMLAAGR
+>tr|A0A1S1IY05|A0A1S1IY05_9FLAO
+MKILLLGSGELGKEFVIAAQRIGQTVIAVDNYENAPAMQVAHSFEVINMLDGEALDRIVA
+KHQPDFIVPEIEAIRTERFYDYEKQGITVVPSAKAANFTMNRKAIRDLASKELGLKTAKY
+QYATSAEELQKAVQEVGIPCVVKPLMSSSGKGQSTIKTEGDIEKAWQYAVAGSRGDVIEV
+IVEAFVDFNSEITLLTITQNNNPTLFCAPIGHRQERGDYQESWQPAKISDADLYEAQDMA
+EKITEALGGAGLFGVEFFLTNEGVYFSELSPRPHDTGMVTLAGTQNFNEFELHLRAILSL
+PIFEITLEKAGASAVILASEDSTNPTFTGIEKVAALPKTDFRIFGKPTSRPYRRMGVVLS
+HDTLTTPIDEITERAKTTSKLITVNS
+>tr|A0A1S1J3M9|A0A1S1J3M9_9FLAO
+MIKKWYFYASLIVIITFLTLGFKPFNLETKPWFLIEKTDGSEYVFPSQEEDDYPTLHKLN
+TPFTGKRLIGFKEAVAFKESQGKYRLVNSLGYMGKYQFGTQALRAIGVQNNKAFLKDPAL
+QEKAFLVLLSKNKWILRNEIEKYEGKIINGIEITESGILAAAHLGGAGSVKNFFKNKGGQ
+HFRDAYGTSLKSYLKAFGGYDLSFIEADSNATIHH
+>tr|A0A1S1J7R6|A0A1S1J7R6_9FLAO
+MKLPKEITNGFLIFLGIGIYFLLMNVLGLAHLFYLRTLNVFFIFYGVNKTMRMNLHEGET
+NFVSNAVSAMATSVVGVALSVFGLLVYSYARGGDAYVKTLSETFMFGGNPSVPTYCICLL
+FEGIASSVIVTLMMMLYWNNKYAAD
+>tr|A0A1S1J071|A0A1S1J071_9FLAO
+MTTLITNIKELLQVRETSIAKVSGTEMAILPTLKNAYLILKDDLIQDYGLMENLPETNAD
+LTIDATGRVILPTWCDSHTHIVYAGNREQEFVDRINGFSYEEIANRGGGILNSAKKLNET
+TEEEIYEQSKLRLEEVMHLGTGAVEIKSGYGLTIEGELKMLRVIQKLAQNYPIAIKATFL
+GAHAFPLHYKENKAGYIDEIITKMLPEIAQNKLADYVDAFCETGYFSVEETEKIMEAGIQ
+YGLKPKIHVNQFNSIGGIQAGIKYNALSVDHLEIMNPEDIEALKNTETMPVALPSCSYFL
+SIPYTPAREMIKAGLPIALATDFNPGSTPSGNMNFVVATACIKMKMTPEEAINAATINGA
+YAMGISETHGSITKGKKANLILTKPVSSYYQIPYAFGSNLIESVFLEGKILK
+>tr|A0A1S1J7V4|A0A1S1J7V4_9FLAO
+MKAIPRVKAFFLRTIFLLCVLVFVSSCKKNYPVATSLKNEAFTKNEKEEIEAFFFIAAAN
+ASQTIISKSQIAQQKSSDNNILEVSKQIEINQNQLLQEITTLANKKLIIITEINATHKRD
+LYDLIDANETNFNAAYLDSMNASLEEEIRLLESISKETNDQIILEMVLQYLPKQYEFLRE
+IQKSRIVI
+>tr|A0A1S1J0H8|A0A1S1J0H8_9FLAO
+MRLVVLGGGESGVGTAILGKKKGYDVFVSDFGKIKESYKEVLIINKIPWEEEQHTEDLIL
+NADVVMKSPGIPEKSPIVKKLLAAGVKVISEIEFAKPFTEALTIGITGSNGKTTTTMLTH
+YLLKSAGLNVGLGGNIGKSFAWQVAENKYDAYVLELSSFQLDGIIDYRPDIAIITNISPD
+HLDRYEYKYENYINSKFRITMNQTESDYLIYDADDEASAEWLKNNKTKAKLIPFSLTKSF
+DEGASINNNKMEIKINQEEFTMDTEHIALEGKHNMKNAMAASSVAKLMQIRNATIRESLS
+NFQGVEHRLEKVLKIQNVQYINDSKATNVNATFFALDSMNVPTVWIVGGVDKGNDYNELM
+SLVREKVKAIICLGIDNHKIINAFGNVVDIMVEVNNMNDAVKTAQRLTEKGDAVLLSPAC
+ASFDLFESYEDRGRQFKQAVHNL
+>tr|A0A1S1JDM2|A0A1S1JDM2_9FLAO
+MSHMKHLKLSAFALIVLAGCTTTMQAQESARKDFIKAPLAVVKKAPVSENELKRWSHLDL
+IKDSIPGMSVDRAYAELLQGKTGKKVIVGIVDSGVDIEHEDLKGMIWTNSKEIPGNGIDD
+DKNGFIDDVHGWNFLGNAVHENLELTRVVKKGDDGSPEYKEALAQYTKKYEDALRDKQQS
+DFLLEVHKTIQKELNKTTYKIEDLNTITSTDPKVAQSKEIMTQILTNAGPTFDPDSELKE
+YSKQVYGQLNYNLNKEFDGRKIVGDNPEDIKNTRYGNNIVFGPDKEEALHGTHVAGIIAQ
+VRGNNLGGDGVSNNVEILTVRAVPDGDEYDKDIALGIRYAVDNGAKVINGSFGKSFSPHK
+KWVYDAIKYAAKKDVLIVHAAGNDGYNIDETKNINYPNDSEDNVKEFADNVITIGALNKE
+YGETVVAGFSNFGKINVDVFAPGEEIYATVPNNKYKYLQGTSMAAPNAAGVAALIRSYYP
+KLKAAQVKQILMDSGVALPSMVVLGENHNPEAKPVAVSSTESSRTAKMVNAYNALLMAEK
+MSKK
+>tr|A0A1S1J0V3|A0A1S1J0V3_9FLAO
+MSHKAGFVNIIGNPNVGKSTLMNAFVGERLSIITSKAQTTRHRILGIVNGEDFQLVLSDT
+PGIIKPAYEMQESMMNFVKSAFEDADILIYMVEIGEQDLKDEAFFNKIIYAKIPVLLLLN
+KIDNSNQEQLEEQVAFWKEKVPNAEIFPISALQNFNVPEVFSRIIELLPESPAYYPKDQL
+TDKPERFFVNETIREKILLNYSKEIPYAVEIVTEEFFEDEKIIRIRSVIMVERDTQKGII
+IGHKGAALKKVGMDARIDLEKFFGKQIHIELYVKVNKNWRSNANMLKRFGYNQ
+>tr|A0A1S1J6N5|A0A1S1J6N5_9FLAO
+MKKILFLLITGLTASVSHSQEVSDAVRYAQDNLTGTARFRAMSGAFGAVGGDFSAISVNP
+AGSAIFSNNQVGVSFSNQNIKNNSNYFGTGISESKNSFILNQAGAVFVFHDHNPSNNWKK
+ITIGATYENTNNFDNRIVSIGTNPTNSIDKYFLKFANGIPLNVIDGLNYKDLFYNEQQAY
+MGYWGHVIDPVTTNSNNTQYISNVPAGGNYYHENEVFTSGYNSKLSFNIATSYKDRIYFG
+ANLNVHITDYRRSTSFYEDNDNPLETRETISSLRFNNELYTYGNGFSFQLGAIAKVTDAF
+RLGLAYESNTWYELNDETSQSLYSTRKAQGGQDINETVNPKIVNVYDSYTLQTPGKTTFS
+AAYVFGKSGLISIDYAIKDYGNTKYKPTNDAGFRGVNSDISNQLTNAGELRVGAEYKIKQ
+LSLRGGYRFEQSPYKNGTTIGDLNSYSGGLGYNFGGTKVDLAYSYLERKSNQGFFATGFT
+DGANVTSKLNNVTLTLLFEL
+>tr|A0A1S1J8E1|A0A1S1J8E1_9FLAO
+MRNLLLSSVLCCSLASLSPVCAQKTDVPKYIKNVEGVKEYSLNNGLKVLLIPDASQSNMV
+VNIVYNVGSRNEGYGEKGMAHLLEHMLFKSTKNLGDIKKMLSEKGGAANGTTWLDRTNYY
+EVFPSNDENLKWSIEMEADRMINATILQTDLDKEFSVVRNEFEIGENNPDGVLQERILSS
+AYLWHNYGKSTIGSKEDIERVKANRLRVFYEKYYQPDNSTLIIAGKFDEKKALQYVGQYF
+GSIAKPKRVLDKTYTIEPAQDGEKFVELKRAGDSKNIGALYHTAAYADKDYAAIDALGEI
+LTADPSGYLYKSLVETQKISSIYYWQPTTRDASFVYFGVAVPNDKDVVATKELVRAELDK
+IGSTKYTDEDVSRAKAKIIKQIEGVKNNTISFAINLTEIIGAGDYRLGFLYRDAIEKLTK
+EDIQRVAEKYFKSNNRTVGVFIPSKDEQRVKPVEYTDEQLAAFTKDYKGKALEKETAPFE
+ASIKNLKQNFVEGKLSNGAKYGLIKKEIKGGKVQAAFKFPVSNEKDLSGKSDVGAILAQL
+LKTGTTTRTKEQISDRLDVLKSSLSFGFSGQTLTVNVSTYKESFKEVMEILGDLLTNATF
+PQNELTKTISEYNTYLESNLNDPNSLAFIEVSRQTSKYPKESIFYTATVQEQIDAYKKIK
+QPELIDFYKNILGGNNGVGTVVGDLESKSTAQILESTFGKWNSKSKYERAIPTYFETQKA
+DKEYITPDKENAVAVGKISFKMTQKDADYPAFVMANEMLGSGGFLSARIPMRLREKEGIS
+YGAGSFVNVPITNDVSYWAYYAFLNPTKKNAVEIAAKEEIAKALKDGFTAEELKSNLVSW
+LNERKTRLGDDGTLMDLTNVYLQYGVPLEDYDALEAKVKALKIEEVNAVAKKYLSLDKMT
+SVYVGDFNKKQ
+>tr|A0A1S1J287|A0A1S1J287_9FLAO
+MSTIEQSAKGKKDGDIRYLTPLNIETNKTKKYCRFKKSGIKYIDYKDADFLLKFVNEQGK
+ILPRRLTGTSLKYQRKVSVAVKRARHLALMPYVADLLK
+>tr|A0A1S1IZL6|A0A1S1IZL6_9FLAO
+MKSFFTRQTEPFVYHKYYLLLQKRWAEKMKSVTDGLSKTKLIWGLLFFTVLTSGYLIYNL
+YRTFYKEAEVSTASKIKTINLKN
+>tr|A0A1S1J2F7|A0A1S1J2F7_9FLAO
+MEFSSPIFILVSIIPSVNINELTGLRAAVVKVNVELILRDVLLAEKKFLEKGLAEDFAQL
+ENGKN
+>tr|A0A1S1J3L4|A0A1S1J3L4_9FLAO
+MFTKMKNIDTAFRYVRGFTMLVIAGCIIISCYAVYKSFQTVSLMQDKVYILANGKALEAY
+ASERKDNITVEARDHVKTFHKFFFTLDPDDKVIKTNITKALYLADDSAKRIYDDLKENNF
+YSGIISGNISQTIQIDSVSIDIREYPYHFRCYARQNIIRTTSILKRSLLTEGALRNVSRS
+DNNPHGFLIERFNTIENKDISAETRK
+>tr|A0A1S1J4I8|A0A1S1J4I8_9FLAO
+MNGYKVKRDSDGILLEECKDNVGVKIGSFDCTANCPHNQNTKKEIQTEAFDLQFVKCSKL
+IINPLLFDI
+>tr|A0A1S1J4C9|A0A1S1J4C9_9FLAO
+MKHWIEAARLRTLPLSVSGIIVGSIYALSNPTETINTPTEVFSWKIFGFALLTTLGLQVL
+SNFANDYGDGVKGTDNADRVGPQRAIQSGVITPQAMKKAIIITSFLTLLSAIVLIYFAFG
+ESNFGYSIFFLLLGIAAIVSAIRYTVGNSAYGYRGFGDLFVFIFFGLVSTLGVNFLYSKE
+VDTLLILPAISIGLLSVGVLNLNNMRDEESDRKSGKNTIVVQIGGAKAKIYHFTLIITAM
+LLVVAFAFLSDYNFDQYLFLLAFIPLTKHLITVYKNQNPKLLDPELKKLALSTFLLSILL
+TVCMISLISDIIVNLFLGGR
+>tr|A0A1S1J937|A0A1S1J937_9FLAO
+MKKYALLFFVLYTMIAFGQETYYLEGTLAKSKIYMKIDVYKNDKETSLNAVYFYQNSLKD
+IKLEGNLKDNLFTFYFKPNDIITEKFYLKKLANNNFEGSWYNAKGVQFPVKIQPINFSGY
+KANLDKYYADDKLNYIKYKFLEFKKQKTTTYNNKEFVWYSEKHCDSEFFRAGNNFSEKNK
+SILNPILEKIHIQNTLDQLNCSSSFEYSEGKGIEGNTAVTFLNSNLLGFQISSSYYCGGA
+HPDWGSRGYLIDLNNGKDYGIDDILAFDKSVTTEEQSNFSNFSKYRSDFFAPKLLSAITS
+EYHFEKPKDDSDPCDYTNEEYWDFPSWNYTEKGIEFTPIFARVDRSCEESFLIPFEKLRK
+YKNPKFPYTL
+>tr|A0A1S1IXX7|A0A1S1IXX7_9FLAO
+MQNSEVFILAIESSCDDTAAAVLHNDKVLSNVVANQLIHNQYGGVVPEIASRAHQQNIVP
+VIDAALRKANVQKDQLTAIAFTQGPGLMGSLLVGSSFSKSLSLALKIPLIAVNHMHAHIL
+AHFIDEEGFDKPEFPFLALTISGGHTQIVKVNGFFDMEIIGETTDDAVGEAFDKSAKILG
+LPYPGGPLIDKYAKLGNPKAFTFTKPKVPGLDFSFSGLKTAILYFIQKNKLENPNFIEEN
+LNDICASIQHTIIEILMDKLKLAVKETGIKQIAIGGGVSANSGIRTRLKESEAQYGWKTF
+IPKFEYTTDNAAMIGIVGYQKYLSKRFETSAVVSKARIQF
+>tr|A0A1S1J5B0|A0A1S1J5B0_9FLAO
+MLQLNIKNETSRLRAVVLGSAVHNGPTPSLEEAYDPKSLEHIKAGTYPIEKDMIVEMDAF
+NAVFQKYDVKVYRPEMIESYNQIFARDIGFVIDDTFVKSNILPDRERELDAIQYVIDQMD
+PLKVIRPPEEVHIEGGDVMLWNDHVFIGTYKGSDYKDYITARTNMHGVEYLRKMFPNKIV
+KEFDLVKSKLEARDNALHLDCCFQPVGKDKGIIYKRGFREEADYLYLVNLFGKENLFHIE
+RDEMYNMFSNVFSIDDNVVVSEKNFTRLNNWLRANGFIVEEIPYAEIAKQEGLLRCSTLP
+LIRD
+>tr|A0A1S1J678|A0A1S1J678_9FLAO
+MNLSKRYIIAAVTVFTVTLFFGCESNFKEVQKINFSEFVPGSDADTVDIKYTDSGRITGV
+LKSPKMLDYSNLDFPFTEFPKGIDVTLYDKNQKRTFIRSNYAVSYKPTGIIDLQGKVRIT
+SEEGQMLETEQLYFDQNNEWFYTERKFKLIDAKGTSNGQGIDFSKDFKVINSQRVSGEIE
+SDE
+>tr|A0A1S1J9P2|A0A1S1J9P2_9FLAO
+MKKFLILTTIAAFVLFPTSQFAQSNKKKSKKDESAAAPPEKKPESAIKDYSKVITKDAIS
+DDGLFKVHKVDKKYYFEIPNKYLNKDMLLVSRLSKLPSNLGGGYVNAGSETNEQLIVWQR
+FQDKILIKSKSYNAVANDTLPISISVKANNYEPTLFAFDIVAFSKDSANTVVDVTKFYST
+DVKAISGISAEMREAYKVKGLDDSRSFINTIKSFPMNIEVIQDMTYNASKPSMLEDTESI
+SIQMNQSMILLPEVPMKPRLADPRVGWFTVSQYDYGSNELKSDLKTYIRRWRLEPKDPEA
+YARGELVEPVKPIVYYLDPATPEKLRKYIKQGIEEWQKPFETAGFKNAIIAKDAPTKEED
+PDFSPEDVRYSVVRYVASTTRNAVGPSVSDPRSGEIIESDVIWYHNHLRSYRNRYLLETG
+AANPSARTLQTGDEEMGEMMRMVIAHEVGHALGFPHNMGASCAYDVESYRNGDFTQQNGI
+SASIMDYARYNYIAQPGDKNIRFIRKMGAYDHYALNWGYRVIPNAKSPQDEIATLDKWIL
+DKAGNPLYKFGKQSSAFDPTSQTEDIGNNSMKASTYGLKNLEYVAAHLNEWTSNVTNNYE
+DLDELFKEMLDVWSRYVGHVVTNVGGVYENTKNPNQAGSVYEVVPKAKQIEAMNWLQANA
+FASPTWIVNVTTLKNTDFAGYAEKFRSLQVRQLNSLLSIGRIGRLVDNEVLGGDTYKALD
+LLRDTRKGIWKEAATPGNVTIYRRNLQRGYIDRMGALMIEEIKPSDRSTVYYNVGQSDVR
+ALVRGELNALRSTLLAAKARPVNAETKYHYEDCIKRIDLILNPK
+>tr|A0A1S1JBV1|A0A1S1JBV1_9FLAO
+MLVMKKMTLCVAILFFNALIAQEKKGNKLITLYLDLKDKSLREYSINKDTTGASFSIYIK
+KYESKKERERVTEKYRNQIDDPDSIGLPSFSVGLYVLNEKPKRIKSLKGIEFINIKQFQK
+NGYITSNPTYIIHRLKDGTYLQWSATAYETL
+>tr|A0A1S1JED7|A0A1S1JED7_9FLAO
+MKRKILILIVFQALLLSCSSINHNRYESINTFLKTKITNNESIIIIKEKADLRNALRIFY
+GGDKTAEVQENYRSSLFDQKSYDIMLETYSNDTIKKYWKPKDFPGFDFIFENRLGMWNTK
+FLDKYENKPGLVFSISDPVFYKNKKYVLFHFSRGSTGDIEGLIHENKTIIMQKVKGKWQI
+VDEVSDYIYH
+>tr|A0A1S1J882|A0A1S1J882_9FLAO
+MKKHYFLLFLFFISLSSNAQVSSNIDPDFDTKDYLPSLTLFSKDFALQPDGKIVLVGNSS
+SYKLYNDKNAVKGNNILRLNKDLSLDETFKTGLGFSSAPSGLAIQPDGKILIGGAFTTYD
+GKPVNKIIRLNADGTLDNTFNLSDKGFNSFTFTIIRSIKIQPDGKILIAGVFDVSIYQKF
+TGRNMLRLNADGTVDKTFQPGSGYPYNIFKFELQTDGKVVRAYENTFNKETSYRIDRLNS
+DGTLDSGFTAIEGFGGICSNNTVGYDSMYDCKLGIQKDGKILFGGCYSTFKYIGTSGFMR
+FNTDGSKDTSFKYVVPGFPMATVKDFIFLSNDKILKSDLTLINNDGSIDNTVVAKLDANT
+NSNKILLCPDNKLLVCTENIVNFTGGSTSFNRFIKLDLTTSEINAQEQPSTFYAGNDILE
+KPNGDILVLGNSKSTFNTKYHDGIKLLNKNGKLSQNKNLYQNLFTSPKSEKNTFRKGIVL
+PDGKVILNKIESTGVSSLVKYNDDFTIDASFSAPIYLGRIYNLILLSDGKILVTSDGQDS
+LTRLNSDGSKDLSFASVRGFNNLCYTSAVQKDGKIIVAGNFTAYNETKINRIARFNSDGT
+FDNTFRPDENLTGFIYTTGIQSDGKIIIAGQLNFNSITEKSCVLKRLNTDGSTDASFTEY
+NSTYVAHLVRGMEIQSNDQIVLFTNRNSTTDYQINDFKRLEKNGEIDTTFDSGEGFDGNI
+TAIKIQKDGKLLVTGNFVKYKNNWSNGTIRLLGTKSTLDTPDYFLNNDNSNLVLFPNPVK
+DVLNISSDENLSIKSIQIYNTLGQSVLDTKNIKNFSNINVSELSKGIYFVKINSNKGTTT
+NKFLKN
+>tr|A0A1S1JG55|A0A1S1JG55_9FLAO
+MSIKKYSEMTTEELVKSEKISKSAAYAFTILLLLLFISNIYLAFLKGFSAVQIVPIALLP
+LLIFSFKTLKDIQTELKSREK
+>tr|A0A1S1J3E0|A0A1S1J3E0_9FLAO
+MQLSVIILNYNVRYFLEQCVLSVQEAISSLDAEIIVVDNNSSDESCLMMKSKFPTVKLIQ
+NDTNYGFPKGNNIGVAEARGKYVCILNPDTVVAENTFKKILNFADRQVNLGIVGCKLIDG
+TGAFLPESKRGIPTPWVAFTKIFGLYKIFPNWKLCNQYYAQHLGTNESGEVDILVGAFML
+MTRDLYVDLEGFDEKCFMYADDIDLSYRALLKKKSNYYFHETTVLHYKGESTVKDEKYMK
+RFQEAMNFFYQKHFRKSWFFEFFIQIGIWFFSFVKMFQGITKSKPLPESVIFYSSNRILS
+EKLPEILKNKVRFLDFKKEKMVNSCQLFEGKRVEIILDNQYVSFKKCIKIIETLKDKNIT
+FKIFPKNANFIIGSNSRNDRGQIVKIE
+>tr|A0A1S1J5U1|A0A1S1J5U1_9FLAO
+MTKHFLLLALLFCNGIISAQNNNLFKPDEITTELHKNNIGKVTFMKGNIPLEQYKESDIL
+KSFELTYKSDLNIRVFMNNSVINYLHQLNPELSADQLLTTGNLQFAFYIDNKLLYTENLN
+YGCSFGSAGSKNTSTTFRVPLTSTKKEDWWSIYLWERFKLNGGEKALTNGKHKLKIEIRP
+YLKSDKNNEIKTGDLIAKGEVQLILKAPKLTAKQIEVQPIQPNSDWEVSNFAFDKKKIEK
+LNTAIASYNLKEITSIVVVYNKKLLLEEYFNDANRNTLHDTRSAGKSFASTLAGIAMNDG
+YLKNENQTLDQFYDLKSFANYAPKKDNVKIKDLLTMSSAFEGSDQNSDSPGNEENMYPTD
+NWVKFTLDLPMDKSKTNGGQWDYFTAGVVLLGDIIHKSVPGGLEKYADEKLFKPLNITHY
+QWQYTPQKVANTAGSLQMTSLDYAKYAQLYQNNGLWKDKQILTADWVQKTLTHQIQIPER
+QNEFYGYLFWNKTFTFKNTPYETYYCAGNGGNEFMIFKNLPLVVIITSKAYNKPYGHAQA
+DTIVQDYILPAILANKQK
+>tr|A0A1S1JAT1|A0A1S1JAT1_9FLAO
+MSIQAFLEKVKQTPNEITFPETIAIIEENYNFTPTAFQNGIQHNAAGENSGSCKLFSFAK
+LQNLTKDETLACFGAFYFDEVLGDPNGTNHQNIRNFINLGWDGIQFEGNALEQK
+>tr|A0A1S1J2G8|A0A1S1J2G8_9FLAO
+MRKALLLLLSVFYLVLSSGFTTITHFCKGVPQETNLFGDIPVGKVCPKCVAKKQQKSKDC
+CKHKAQFHKATEKLQQTTPGDLVPKFFGIAVSFHFYETVFSSYSSKEKKTEYSFFPFIPI
+RNNPLYIFYCVYRI
+>tr|A0A1S1J3B5|A0A1S1J3B5_9FLAO
+MKMQYFALAMFCMVSGNLWAQTVTLSNALERSIQNFEKIKAKEAIVNASKENTTYQKSQY
+LPDFTLMAQQSYGTINAQNGPLYSYGGLGSAATSMPLQDQNWNAAFGSLYLANINWNLFT
+FGKIKTQVAIAKADENAAQKDLEQAKFQHQVKVGAAYLNLLAAQRLKFVQDKNLERAQVV
+ETTTKSRAESGLIPEVDYSLAKAEVANAKSAVIKAYDMELDHSKSLAVMLGEEYKIYQLD
+SVFTTKTPIILSEAATETSQHPILEWRKSDILRSEQQEKLQSSLALPNLSAFGVLQGRGS
+GFDWNYVQDNTAFSKSYADGVGIDRSNYIVGINLSWNLTNIYRQSSKKREQKLITQSLQN
+EYEYMNQELIAQQKLANDKLKNAFENFEETKTQVIAATDAYRQHTALYDNGLTTIVDLTQ
+SFYTLNRAEIDYEIAQNNIWQALWIKAAATGNLNILLNAIH
+>tr|A0A1S1J743|A0A1S1J743_9FLAO
+MKIKITFFLFIITTICLSQNSKKWEQYLKKESDGTFEKYSLTPIENAHRNQYTIVKKLDA
+TYCIVENKSSKYNRSLKEILPVNNLWKLPSDFSNHHERKKYIIATDAIESLLADLKLANI
+SVVKILDDHLVILESDSKTILDKVIPLSSVTAVSQEALQPESESKIADQNFTLNAINKAL
+INFPLLTGENQIASIKDELFDLKDVDLFLKHIPSSTQSSTISSHATAMATIVSGLGNSSV
+LGKGVAIKAKLQSSDFLNLYPDEIATLQGATTQNHSYGTVIENFYGSLANAYDNQLALNP
+DLTHCFSSGNKGLEGYKSITGNFKQSKNSIAFGCIDQNEVILSFSSKGPAYDGRIKPELV
+AYSSQGTSNSTALATGIITLMKQQYKTIHNTALSNALTKAILINSAKDLGNPGPDFTYGY
+GNINAYKCLKTISENRFITDKLASGQTNSHTITVPANAKNLKITLVWNDLPAAINSNISL
+VNDLDLEVISADPTTFLPWVLNPENPQQPATKGKDKLNTIEQVSIENPTSGSYTIAVNGV
+YVSNASQDYSIAYEYETKNGFEWNYPVANDNFPYDGKIISPFKWSSSFSGTSGQLSISYN
+DGQTWEIIANSINLDSEQFNYTPAEKKFSKAKLKMTIGNTDYVSDPFTVSYDLNIRTSLV
+CDGTTEINWDKPADVASFKIYQLTNDRLEFKEQITNNNYVYTDAKIYTVTPVINDSEGIK
+SESTLQYDQNSNCYFELASAEIFEEDQIKVSASIFSLYNIKRIDLVKINNSAESVISTLN
+DIQSKTLSFLDTAPIKGNNKYKINILLGSNTTVSSQIIDANYLGDDLFLIYPTLLSKNEE
+LNIEAKKEEAATFYLYNVSGQNIITSSFLSKINSINLKNTPSGIYLYKIITSSGGIQTGK
+IAVF
+>tr|A0A1S1JBM2|A0A1S1JBM2_9FLAO
+MAKILTGVQSTGTPHLGNLLGAIIPAIELSNNPANESFLFIADLHSITQIKDGKTLRENT
+YSTAAAWLACGLNPDKVTFYRQSDVVQTTELTWYLSCFFPFQRLTLAHSFKDKADRLDDV
+NAGLFTYPMLMAADILLYDAEFVPVGKDQLQHLEITRDVASRFNHQMGETFVIPEAKIQE
+DGKLIPGTNGGKMSKSANNLINIFRDDKTIRKQVMSIETDSTPLEEPKNPDTCNAFAIYS
+LLATEAQIAEMRANYLGGNYGYGHAKQALFELIIEKFKTERERYTYYMNNLEEVDALLKK
+GASKASVIADGVLAKVREVLGFSK
+>tr|A0A1S1J0E8|A0A1S1J0E8_9FLAO
+MPKKLFRNLLIFFIFASATAQEVQTEVNPPYNIKTVSFVQNGSNVIPIFELGEAFQFQFD
+DLFGNEANYYFEVIHCDYNWKPSDIPKTDYIIGFDNQRITDYSNSFNTLQIYSHYRLPFP
+NQFTSQLRLSGNYMLRILNEDKEVVLSRKFILYENHCTVATQVKRSRDLSNIEHKQNLDF
+NISSNDIVFQTPLQNVKVLLLQNGNFNTSIKNIVPQYTIGNQLVYKYDKETQFWGGNEFL
+YFENKDIRAASTNVAKVGSSGDIYNSYLFTNLARANQIYSNNQDVNGNFVVKNINASNNE
+IEADYAWVYFSLSAPTFRASNKDIYISGMFNNYCLAPEYKMNYNSEKGIFEKAVMIKQGF
+TAFQYTVADKKGVIDYENAIDGNFYQTENEYTILVYYRESTDRYQRVIGKGNANSINIIN
+>tr|A0A1S1IY64|A0A1S1IY64_9FLAO
+MKILKDILYKVAIESVTGSTEIDIHKIDFDSRKIEANDVFVAIRGSLSDGHDYIEKAIKL
+GAIAIICDTLPENIEKGITYIKVKDTNAALAFMAANYFGNPSEKLKLVGVTGTNGKTTIA
+SLLFQLFQKAGFKVGLLSTVKIMVDETEFPATHTTPDSITINHYLNEMIEAGVTHCFMEV
+SSHGIHQKRTEALHFVGGIFTNLSHDHLDYHPTFAEYRDVKKSFFDSLPKTAFVLSNIDD
+KNGSVMLQNTVARKFTYALKTYADFKAQILESQLSGLLLKVNDNEVWVKLIGTFNAYNVL
+AIYGTAVELGMDSLEALRLLSDLESVSGRFQYIVSEGNITAIVDYAHTPDALDNVLKTIN
+DIRTKNEQLLTVVGCGGNRDKTKRPIMAKIATDLSDKAILTSDNPRNEDPEVILDEMEKG
+VEAHNYKKILRISDRKQAIKTACQLAQPNDIILIAGKGHETYQEINGVRHHFDDMETVKE
+ILEQLGK
+>tr|A0A1S1J8F1|A0A1S1J8F1_9FLAO
+MLSSHELLFFFSALGAFNGFLLSLYFAVNAKKKIFANYFLSLLLLVLSIRIIKSVFFYFN
+PHLSNTFIQIGLSACILIGPFLFLYLRSYSPYSKSVWITHTIPYLVMMAILGSLYSYVEH
+PQIWRMWIVKAIYLQWLVYIGFSFKYIQPILKKIKEKESLKKLEVWFLSIYFGVALVWAA
+YTFAAYTSYIVGALSFTFILYLIILLLIYGNSQETTFFQEKERYKNKSIDKETLDLISQK
+FSVIVEKELFLNSNFTLEEAAKELKVTKHILSQYVNEVVGKSFSNLIKEYRIEKAKELLE
+TEKNYTIESLGYDSGFNSKSTFFTAFKKQTGLTPTEYQKRYSK
+>tr|A0A1S1JA51|A0A1S1JA51_9FLAO
+MKQSKKGEFYGQTNKTISLEGITLTDTVYTHPTVDWHYHEHAYFTFILQGNVIEGNKKEV
+YNCAPGSLLFHNWQEPHYNIKPEGFTRGFHLEIEKKWFDDLTLNSNNLQGSTTVLNPDIK
+LLMYKIFRATKIDDFHFDLSTQTLLIEILSKLNGDFESIKHKNPKWVTMIDEILHDQLTE
+TITLDYLSKILGIHPIHLSRDFSKYFHCNLGEYIRKLKVEKALSLIALQSKSLTEIAYEC
+GFSDQSHLTRSFKEINGLNPSEHKKILFKK
+>tr|A0A1S1JBD8|A0A1S1JBD8_9FLAO
+MKNLFLSAAIVLGGLTSFASTSPISNTIVKIAVIQDEYTEIKVEEVPAAVIDALKKAYPD
+AILSKAYKNEKSEYKLSVTVGDKVGSLYANADGTWIKK
+>tr|A0A1S1JCI7|A0A1S1JCI7_9FLAO
+MKTFKSVFENYDWNTIQSKIYQTTSKDVEHSLFKAKLNLDDFLALISPVAQNYLEQMAQK
+CHEITKKRFGKTIQMYAPLYLSNECQNICTYCGFSLDNKIKRKTLSDAEIKIEVEALKEI
+GFDHVLLVTGEANYTVNINYFLNAIALIRKEFSIISVEVQPLSTEDYERLHQAGVYSVLV
+YQETYHQEVYKKYHTKGKKSNFDYRLETPDRIGTAGIHKMGLGVLLGLEDWRTDSFFNAL
+HLDYLQKKYWQTKYSVSFPRLRPAEGIIEPNFIMDDKDLTQLICAYRLWNEDLEISISTR
+ENEKFRNNIIPIGVTSMSAGSKTNPGGYVVDPQSLEQFEISDERSAKEIAQIITNSGYEP
+VWKDWDKIYSHKEESLKVLK
+>tr|A0A1S1J748|A0A1S1J748_9FLAO
+MNETFVTNWKSQVKKGTLTFIILNVLKNHEYYGYELIEQIRKHTEIEIAEGTLYPLMNRL
+KTEELVDSKWVEQETGIPRKYYSLTEAGIATLSQMNIYWENLEKSIKKIIQ
+>tr|A0A1S1JBT4|A0A1S1JBT4_9FLAO
+MKNNVTNVQKYIWLDQILDNESPKYNIGGYAFINGSVDVERFKKAFNILIKENDIFSFVF
+EEKSGFPVYSIQEANSDLALTCIEDWEESKAIEMIGKDFVIPFDIEKDKQLYKMWLIKVA
+PESYIWYSKLHHIISDGFSFQLLFNKVKRIYEQLGTTVVYDDLCIGKNKLSYESFIALDN
+AYRASEDFSIDKNFWLGRYEDLPSLIYTGTNKSAGHCNIEIALTEEENEALWSFVKTERL
+SIFHLLLGCFSIVLSKYYNREEVNLGMPILNRKNAAEKNTFGPFLSMLPLKLTLETTASV
+SDFIKEIRTTLFTCYRHQRFQQADILRNLPQETSKLYDVRLSYERMQYESEFSGNKASIH
+PLSNDSEEDPISIHVFEGINGDLSFRFDINEKYVSKFEANQLIASFRKVLTELQQTNHTA
+IAEIEISSKEQLEEIQAISKGPVVKRPEQTFLNLWNAAVAGYSSKTAVSCQTNFLTYETL
+DARANIIASYLQSNGVKKGDKVGVMLSRSEKSIIGILAALKTGAVYVPIDNAYPEERKHY
+IIKDAGLGFILTDSFSNSISEDKEYNIDRIPEEHKIAENYIPVALKPEDEAYIIYTSGST
+GDAKGVVINHASLYDYVLTFGTYFNLTEEDIVLQQASTAFDTSVEEIFPILSVGGNLVIA
+HDTKDFNELLKDCERFGITLLSTNPFVLQYLNDNHKNYNFKFKTIISGGDTLKPHQVDQL
+TASYDIYNTYGPTESTVCATYYKVNETDTSFPIGKPITNRGVYLLDGTKILPKGAIGEIG
+LSGLGLAVSYLNKKELTDNAFVHINGERIYKTGDLGKWSLDNNLIFYGRKDSQLSYKGYR
+IEVGEIEQAIQKVNAYVVDSYVCINEVGGMPILIAYLVANESFINISSLVIDLKAHLPEF
+MIPTHFVILDAIPLIPNGKIDIKSLPEPKTINIAEAVQLPVTPEEKEIASIWQELLRLDQ
+VDVNVSFFELGGHSLLANQFISSLRDQKGIELSLRDFYKSPTIKEISELVPTLNKKEVQN
+IKAPEQELYPLSFSQERLWFLNQLNSADTSYHVSRAMKLKGFVEVAALEETFAKLIKKHE
+ILRTVFVNQEGKPYQKILPPFGYTIPVVDYTGIKNKENKEKVIADSLERIESRAFEIEEG
+PLFRIELLKFSDQESVLVFCEHHLILDGWTQGILFRDFVDIYNELKRDPDFVAEKPEVTF
+KDYAYWERNSLNESVISEKLDYWENKFEGFSNGLLLPLDFEREETTVKKGGTIEHVFSLD
+FSEKLRQFSEKQDVSLFITMLAAFKIVLHKFSNQTDISVGTAVANRRYKEFQEVLGMIVN
+TIALRTTFNNENSLAEVLNEVKETCLDAYSYDDTPFGKVVERINPERSLNLHPLFQYMFS
+FVNVPVQSMSLLDADIEILNGHNKTSRFDISVVVNTVYEQIDSLTDNKPDRRISVEWDYN
+AGIFKYATMKRVLKAYLKVLEALVENPAQSLASLDYISSSEKAILLEDFSTSKSEALVEA
+TAVEMFEQQAGQTPDAVAVVFENRSLTYRELNELSSQLAHYLLKEYEIKTEDLIAVKLER
+SEWIYTSLLAVLKTGGVYVPIDPGYPEQRIAYIEQDSACKVVIDEKLLANFISRQDNYPI
+TLPVISLTPENLMYVIYTSGSTGQPKGVMIEHKSLVNYILNQKEEFGFDASDRIVQFSNN
+AFDASMEQIFLALLSGATLIGASKERIIDPTDFINLLKEHSVTHLHATPGYLSHLEHLSA
+CKTLKRIVAAGEVCPKNLVEKMIKIADFYNKYGPTEATISAVMGRVEQSDLQRNLVSIGK
+PLKDSQIYILSDNLELQPIGVFGELCISGNSLSRGYLNNPELTEEKFIAHPFIAGARLYK
+TGDLGRWLPDGSIELTGRKDQQVKVRGHRIELGEIEHALLTQDSISQCVVTVQNIETEPA
+IVAYVVGEKELDKQELRVQLSQYLPDYMLPGYYVQLDAIALTSHGKVDLKALPKVDVNDK
+IQQEYTAPVTVLEKQLAAIWEEILGIKTIGTTDNFFELGGHSLKVILVANKINRQLGYQI
+SVKDVFLNPTISGIISKLEEGTFTAIPKAEQQESYVLSSSQHRLWILSQFEGGSQAYNIP
+GSFELEGNLNTAQLTEAFNLLIARHETLRTYFKRNEEGEVRQFVIDAKDIDFKVDYEDFT
+NVENQQAIVEERILQSYQHQFDLEKAPLVNLKLIRQSENKHLLLFNMHHIISDGWSMGIL
+SQELITIYDHLTQNKTINLPELSIQYKDYATWMRSEEQISKLKKSEVYWLDIFSGNLPVL
+ELPTEKIRPRIKTYAGDSITHNFTKEASVTLKTFSEQHNSSLFMTLMAAINGLLSRYTNT
+RDLILGTPIAGREHSDLENQIGLYLNTLAIRTRFEETADFETLLQIQKETLLDAYSHQEY
+PLDNLVEQLGLGRDTSRSALFDVLVVLQNQQDLFDSNAEQIESLTLKPYKANPRKVSQFD
+LSFVFSEQQGELSLHIEYNTDIYESEFVVRLAAHLENFLTKAIQNPEQKVATLNYLSEAE
+TTQLLEDFNDTTVAYPKDHTMVDLFVNQAKKTPEQIALVTDTKSFTYKELDEVSNELSHY
+LLSNYNLAVEDLVGVKLGRSEWLPIALLAVLKSGCAYVPIDPNYPAQRIEYIEQDSKCKI
+TIDDSLLEAFRQAESISKSLPQISFSSEHLGYIIYTSGSTGKPKGVMITHQNAVAMLCWS
+QREFSDTDFDILYAVTSHCFDLSVYEFFYPLSIGKQIRLLANGLSIGDYIQSDKNVLINT
+VPSVIHTLIEKGTTFENAVGINLAGEAFPVSIANHFTDSGIAIRNLYGPSEDTTYSSYYR
+VEGTYENSVPIGKALDNTQFYVLSEELALQPVGVIGEICISGDGLSRGYLYQPELTVEKF
+IKNPFNDTTKLYKTGDLGKWLPDGTIAYIGRKDSQVKIRGHRIELGEIEQVLQSQEDIDQ
+CVVITATVNGDPVIVSYLVSTATIDKQQLRQSLSRELPEYMLPSFYVFLNKFPLTPNGKI
+DKKALPSVSTEDVIQQEYVAPTNEIEKKLVEIWQDILKLEKIGITDNFFELGGNSLKATV
+LINKINRAFDTRLSIQDLYKTQDITGVSRKLKFILFQNELAVETADDLDEILI
+>tr|A0A1S1J3Y9|A0A1S1J3Y9_9FLAO
+MNITIKQANIKNSLFLAYKYDQYVKNAKKSASESSDAPIHDDLRSAFQDLIPHFAFICEE
+IKESDCRDRLDSPDVDLPEEHFLLKYKVHGFTIGGQGDSEGVTISGSKKLESGKYLNLNT
+PFLKFEDYQDYPFMAELRESIDVLKSEVYEYLEGKQAPPKQQEMQLDDDEVVM
+>tr|A0A1S1J0K5|A0A1S1J0K5_9FLAO
+MVTCHLKYTIDPFQLAVFEDYGKRWIKLVNRFGGQHHGYFMPSEGANNIAFAMFSFPSLA
+EYENYRRLILEDQECIETFKIAEDSRCILSYERTFLRPVFE
+>tr|A0A1S1J1P5|A0A1S1J1P5_9FLAO
+MKKVTYLFDRDELFGMDYHALQAFKYTYFKLLSDNPFPISPNSGNFYEMIQYLKRKDETL
+PVKIGTYENITLFEAANRIASDLVIINGLIQLVEEQKEFEKATFTLRLGTTHVKNKGDFT
+IHTENGDLEGEAFNVAPSFLENKLRKTLDKWKKGPESSVLRYIFVNAEAFVYRENVKVDE
+WVRVVKVKKWEQ
+>tr|A0A1S1J307|A0A1S1J307_9FLAO
+MNTTDSTNFYQLAEQVNYKSLLNCYCREFSNWIQYEGVPKYDPALAEFMKTIDHSSFLKF
+DFTAIGQEVFAPLIYFSESGVHAFGFPVVSRTIATDAFREINPIEFTELVAAYSKTENPD
+IDPVPTQKRMQNSIENLALYLEHYKNSDRTANNPEQSFIASEQSLILGHTVHPLPKSREG
+FTKDELIQYSPETQGQFPLHYFLIHPENVAEKSAEDYLITDYLRKEVSQFADKNAKELLD
+FYSQYKIVPVHPWEATYLLEQKEVKEMQSKQLLFSLGQFGPSYAATSSVRTVYNADSEWM
+YKFSLHVKITNSFRVNYLHELNRGYDAAQLMKTDWGKGIQKDYPQIQLITDPAFITVVYE
+DKIIDGFSTSIRQNPFHGANANKNVTLVASLTQDNILTELPRIVTLIEESAKRQDLTVAD
+TAIAWFKQYLNISLTPLIGIFNKYGFGSEFHQQNVMVEFDENLFPSKFYFRDNQGYFFRQ
+GQVEELERLIPEFGKDSRSFIAEKRIIDFWGYYFLINHLLGIVSALGKNKLADEDTLLNL
+IYEAIKKEGESDVTGLVSHFTESVKLIVKGNLLTSLNNMDEASAPRTNPAVYKTFPNPLN
+RHFFSKKLIQPQANTTVFSRYFEKENVTITLRPVDVDKDLEMLHEWFHREHALKIWQMNW
+PIRDLEVFYRTLLPGGHSHSYIGEANGVPTFNIEVYWASRDIVGEYYDVLPSDYGTHQFI
+APTDPKLKYGSPATQSMMDFVLSESKVGKMVGEGSVDSIASMMNKAHVGFKIQKVIEMPH
+KKANLNFCYREWYWAKFPAAEEFQKNIVSAPQV
+>tr|A0A1S1J3S3|A0A1S1J3S3_9FLAO
+MKTRASLNEQDYLHNFMSTMTQRSDTIVNYVLAIYFLFGIALAFKYDTFEIGVGVGVLNL
+LLYYSAKFFFKKSNFYQYVLAIVLAIFMAQYIYQMHGLFEMHFTVFIASTILIIYQNWKL
+QIPLTLLVVLHHGALAYLQNQVFNDPKGLQLYFSQVNFDVETFVVHVVLAAVVFFMNGYW
+AYYFKEHSQNHISKISDEYELENMKLASAKYSSLTATKDYNDFIHRTTLDLKLPVSSVLK
+LIDVSKGHTDNDKLLNYLEMMRESAKRIDDLVNDIHVKSTDSRN
+>tr|A0A1S1J514|A0A1S1J514_9FLAO
+MKFLKAIFIFVVLISTKSFATAQVSDYLIIDKDTLRIQSNPLEEYFKIHPIPENLITTIS
+SANWRGYIAYFKFLEGKLVVENIYKEDYKKNSKGESDFFLTSIYKAIFGENKNFECNFYS
+GLLICPSGKMLQYVHMGYSSVFENYTLIELKDGVNVKSKKLTAEEFMGFKKKYFKYYKKT
+DEYKQKAKEFKEMTAESDKVLNKLTLENSNSNSKENKYLKQKEADYKADKEVESFMFIFL
+NDYMKTIEIPLN
+>tr|A0A1S1J5C5|A0A1S1J5C5_9FLAO
+MYEDLKYWYLRDHKLFRTLSYSQIKQLCIITGFKKASKGEIIYFSTSDLPRIFLLKKGNI
+KIVSIDEEGNETIKDIIQKGDLFGELTLETDAKNEEYAKVLSDDVAICSFLMSDFEDLLL
+RNPTLALSYTKFVGLKMKRIKNSYANLVSKDAKTRLYQFLKDWADKEGVAEGNSVTMENY
+LTQNDIAQIICTSRQTATQLLNEMETNELIHYNRKEIVIVDITKI
+>tr|A0A1S1J5S3|A0A1S1J5S3_9FLAO
+MKNRLPSHFSYQKILIVMLLFTVSLLQAQSPKGKLFIIGGGDRSDALMKQVLSVSELTKK
+DFIVVLPMSSEEPDSSFIFFKTQMAKLTPNPIVMLNFNKETAQNKKLTDSLQKAKLIFIS
+GGDQTRFMNVVQNTPIQTAIQKAYQNGSTISGTSAGAAVMSEKMITGNQKLQKEYSGTFD
+NIRYDNLETAEGLGLLKTAIIDQHFLKRNRYNRLLSALVEFPTLTGIGIDESTAIIVRNN
+QIEVAGESEVIVVKNPKGILKSKKNNLISIENLHMSIYTAGQKFNIQ
+>tr|A0A1S1J5Y9|A0A1S1J5Y9_9FLAO
+MVVINKNRHRIFLVFFWCLLGITIWSQLIEAYGVRAAAFQAFLVLLCSCLLAHFLSDIVL
+PVALRKRRMALFAVQSVMVVFMLSFCLAVIDAIFSNSHTRARLYPDEANMTMIQFLFARF
+FGSTPAAILICGTACGLRFYQEHNIIERNHAQLQQVHLEAQIKILQDQINPHLMFNVLNH
+IHILMQSDVQLASDLLIRFSDILRYQLYECNKEYVPLHLEIKYLKDLIGVEETRWGNELK
+VKCKWSIEDAQLQIAPLLLVPLIENAFKHVSRLPGQKGYVHLGCKQTAKQLHFKIENSYT
+EQYKIPSKNQGLGLENVKKRLAIQYPEKHQLNIIKTDSDFTVIVVLDLK
+>tr|A0A1S1J8V7|A0A1S1J8V7_9FLAO
+MEQPNLNYIDQLCGEDYAFKQKMIAIIKKELPLEIDSYHKCMQEQHYKLAAECVHKLKHK
+ISILGLEKSYDITHEYENYLLNGTLGSEDKFESILQLMQNFVNDL
+>tr|A0A1S1J371|A0A1S1J371_9FLAO
+MNKKQMRYVVKAQSIKKSVLTKALLFVALFFIGLTVKAARFDIGKRVTLKVENESIKSVF
+QKIEKQIDVHFMYETNQVNTNQKISLKLNNVPLEQALDKICSNLLLRYEMVSNNIVIKKS
+IKVSDAGQGKISISGTVFGGDDGMPLPGVGIKDKDSDAAATTDFDGTFKIEINSSAAVLV
+FSYVGYVTQEIKVTQSDKNISVKLAADMKQLQEVVVMGYGSVKKNEVLGSVGTVSMKETS
+SRTYNSATELLQGTVAGVTVINNGGDPTAEPTINIRGIGSLNAETPLIVLDGIIYSGSLN
+TLNPNDIASISVLKDAASAAIYGARASGGVILITSKKGVSERININVNYQGGFQNVAKKL
+DVLNAAEYADAMNTARDNAGMPRIPAFDPAFEPTARTTKTNWMDEIFRTGQIQDLSISVN
+GKTEKSNFFISGSYRKNEGILLNTYGTRYTARANSSFKLAPNFTVGENLSYSLTDGQAAN
+TTSGYTGAILAAIFYPPNATIYREDGSGKFGGVPEKYIGSYGDVINPVAYLKRLDNRNPI
+STVLINPYAEWEIVSGLKFKSNWGYTRIQNNATDFAVKITEPGKIFDFNRLTKSSATTTD
+LLSEQTLSYEKSLGKHNFKALAGYTYQQTKRDFYTVQGTGFDNEDPSQRYLLNAKLVQQV
+EAGMSEEIISSYVGRLNYDFNQKYLISGIIRRDGTSKLTSDNRWKVYPSVSAGWLISEEG
+FMKSIDPLVSNLKLRASWGQIGNLGNLGPYQFSVPLTQTQALIGSSPVISYGYSESELSN
+PNLRWESSEQSNVGLDFTMFNNALSGSVDAYIKTNKDMLVRDQLPGVSGTPLGRIVNSGN
+VENKGIEASLTYQKTRGEFKFDVTANAAFLSNKIVSIKDDLTSLEPLNLSRVRSLPLANI
+YQVGSPVGAFYGYSTDGLFQSNAEAKAYVNDKGVVYQPNAVAGDIKFKDVNGDGVINNSD
+RVVLGSPFPKTTFSLNTNFRYKGFDMNIFLSGTAGNKVFNAVKYTGVNASFPGYNLLADS
+KNAWSPTNTNTNIPILSSTDNNNNFGRISDFYIEDASFLRLRNVSIGYTVKEQWLHGKAK
+LRFFISGQNLFTITKYSGMDPEVGLKNFGLDLGKYPLSRIYMTGVNATF
+>tr|A0A1S1JC65|A0A1S1JC65_9FLAO
+MLPLITWNKPFSAPVEWQVYKYFKKKYLNYKEQKLLVNFNNLILAGTGLVPMFFADDLTM
+LI
+>tr|A0A1S1J1T6|A0A1S1J1T6_9FLAO
+MKKKFKFINLLMPLVVVFAILFPAIHSYEHIHSHNSTAKKVVLYPTDKSEFKMQDHSNEE
+CAICHFKFSPVSTFDFVTFQFYKNSTPIPYVHFYSKSFAPFFKGSLFALRAPPIA
+>tr|A0A1S1J2P1|A0A1S1J2P1_9FLAO
+MREKALLINLKNIVLLVLVLSTSTMVSQKKNKKNKEDKTVQVKDSLKDSKGKKYDDLVKK
+GTFKKGLFNTIQVKTDLYLEINDSLFQREFLVVNKISSVPLPVNDAGLNKGMNYENKIIT
+FHKDLVAKKVWVKSSVPKVSSPVGDAITASVNNNFSESIIEVFDIETKNNDSTSVVIKAN
+KVFDGKQKSFNDVLSNIGFGGSVKSELSYIENVKTFPKNIVVKSQLTTSVSEGGPALSVT
+LGVTSNIILLDKTPMQSRFADKRVGYFSEKHWYFSDSQHAMQEKELITRWRLEPKKEDIE
+KYRKGELVEPKKPIVYYIDPSTPKQWRSYIIEGVRDWQVAFERAGFKNAVIAKEPTEEDT
+DFDVDDVRYSVITYVASQKSNAMGPAVVDPRSGEIIESDIIWWHNVMTSLQSWMRIQTGA
+IDPKARGNKFSDEHMGEAIRFVSSHEVGHTFGLKHNMGASFAYPVESLRSKDFTAKMGGT
+APSIMDYARYNYIAQPEDHVEAITPKIGEYDKYAIEWGYKWYADQKEEHTALNDLIAKHQ
+NDPIYFYGEQQDGDSTIDPRSQSEDLGDDAMKASEYGLKNLKKVVGKILEWTYDKDESYY
+QTGKLYIGAIGQWNLYNYHVLTNVGGIYLNTTVHGDNKASYVPVPAAIQKRAVSYLLKNS
+IALPEWLFFNPILDKTNPLKDSPLGPYEYTPYTLTRELQYGILYNLLSDDRLLRITENEL
+FQRNEAKENVYTVTQLFKTVHQNIFAPTIQNKSLTIMERMTQKNYVDVLIVSTNKLFEKT
+DSKKIIQLEETLKMPHLCDYLQESKMARNINQSSLKRVSEVTSDKKGELNQILKLLKTKR
+NIGNQETKNHYFDLIQRIEKALNNTL
+>tr|A0A1S1J6W1|A0A1S1J6W1_9FLAO
+MKKLSFLKPIINFIAIGLLITTLSRLFLFFIFKDRVTETPNFWYIFPIGLRMDLILLCYM
+SFLPAVLITFLPDKASKFTNKFLVIYSFLLLFLILFVELATPDFVKQYDTRPNKIFLDYL
+IYPKEVVGMLLKSYLTSIIVTFLILGVVLYFAFKKGKKYFYTSSADYKFKLMVFPLLAFL
+LFFGARSSLTSKRPINASNAVFSTDQLTNTLGLNSFYTVAFAAYSIKNEGNTKMYGKMEE
+AEAIARVKKYMIAGPGDFTDAEIPFLHVQQPDTLLKKPYNLVIFLQESLGAEYVGILGGK
+PLTPEFDKLSKEGLLFTNLYCTGTRSVRGIEAVVTGFLPSPSESVVKLGNSQQGFFTLAD
+ALKQKGYETSFIYGGMANFDNMASFFNGNGFQDIVDQEDFESDGNKYAFKGTWGYSDEDL
+VTKANNYFKAKGDKPFFSLMFSTSNHEPFEYPAGRIKPYDAKPATVNNAMKYADFSIGKF
+FEMAKKEPYFKNTIFIVIADHNTRTYGKNLVPINKFHIPALIMGPGVKKGTVYSKLASQI
+DIPPTLLCYLGLPFETPMVGRNLNKLDPKTQGRSIMQFNDINAFRVENQVVIMQPNLKPL
+QFEIKNDTTLIPVKLNEDLAKDALAHVITAGNLYKENKYKLRDKKK
+>tr|A0A1S1J580|A0A1S1J580_9FLAO
+MGNQSVVNKILSLSPYVELFVRKIYWNNIKLSSNLKKRSIQQSVELKDFNKVKRQLTDFG
+LNKGDILILHGSYEAIEKTGKTPNNIIDELLELVGDEGTLAMNAARVFPEEKSKDNYIDA
+DYANQIVTYNVRKSRVWTGVLPFCMLRYKESKVSRFPINPMVAIGKYASQMMEENISGEL
+NSSCGVNSSWKFCADRNAVIVGLGTDLTHSLTIMHVAEEIMGENWPVDDWYRERTFNVID
+NDFEEIVKVKERKPKWGTLHFAERTLCKDLLKIGILKTTIIDGVLVEFLKSKELIEFLNS
+KNRNGYPYFNVKKKS
+>tr|A0A1S1J206|A0A1S1J206_9FLAO
+MKTTKYYIAAITCFVIWGFFSLALKPIHEYPSLDILFYRVFSCSILMLLIAFTFKRKRIK
+ETIATFKALPALERRRSLLLNIGGSVFLMANWFTFIYVMNHVSVKATSLAYLVCPILTTL
+LAYFILNEKLSKTQWMAVGLSVSGCLLLSYANIMDMVFSIVIGSTYASYLVSQRINKGFD
+KFIVLTFHITLAALFLLPFYPVYSGPIPTEFKFYFCIETIAILFTIFPLFLNLYALSGIN
+SSTVGMLLNINPMIAFLLALFWYHEPIGSIQIVAYSIVFLAVLVFNSHHIFAIRQKITQY
+PKVLK
+>tr|A0A1S1J4I5|A0A1S1J4I5_9FLAO
+MKKILVTGGAGFIGSHVVRRFVNKYPEYQIFNLDALTYAGNLENIKDIEDKPNYTFVKGD
+IVDETFINELFSLHNFDGVLHLAAESHVDRSIEDPLAFVKTNVIGTMNLLNAAKNQWKGN
+FEGKRFYHISTDEVYGSLGVEGLFTETTSYDPNSPYSASKASSDHFVRAYGETYGLPYVL
+TNCSNNYGSYHFPEKLIPLFINNIINNKALPVYGDGNYTRDWLFVEDHAIAIDLVFHEGK
+NHETYNIGGFNEWKNIDLVKLLCQIMDQKLSRPEGTSQGLITYVKDRPGHDLRYAIDASK
+INRELGWKPSVTFEEGLEKTINWYLNNEEWLQNVTSGSYKDYYQKQYS
+>tr|A0A1S1J8Z9|A0A1S1J8Z9_9FLAO
+MVKIKNETRRNRTFHVLITIIASVLVVSGIVLGIWFYVFNRNHEETNDAQVEQYVTPIMS
+RITGYVQEVRFNENQFVHKGDTLVVIDNREYQSKLNVALADVQSARQNSLVAEKNAVNTA
+SATAINEAQLEAAKSNLWKTKLEYERYKALVSEEAATSQQLEKVKADYESAQAHFQEMKN
+RIHASALSTSVAEANVPTTQTNIASRQATADNAALFLSYTIITAPYDGWIGKRTLQPGQL
+VKEGQSLLSIVSKEKWITANFKETQLQYLTVGQNVEIKADAVSDKTFIGTIASLSPASGA
+RFSLLPPDNATGNFVKIEQRIPVRIQLKDNDKQIDFLRAGMNITVIAAH
+>tr|A0A1S1J123|A0A1S1J123_9FLAO
+MKNYNFLTVILLGITLIGCGDTKKGENSLFTIDDSAFPAHFLPQEAISIGVLNPNSKEID
+SIAYFVNDKKVGSTKGAEKFKFELKEQRLGYQYLKATVYFGSDSSDATKRVELVSNIEPK
+LLKYKIINTYPHDKQSFTEGLEFYKDTLYESTGQEGASYLRKYDYKTGKVFKQIDLDKKY
+FGEGITFINGKLFQLTWQNKTGFIYNANTLKLEKTFAYEKDIEGWGMTNDGKYIYQTDKT
+EKIWKMDPATQKMIDYINVYSGTSKIKAINELEWINGKIYTNVWFKDAIAVVNPVSGAVE
+GILDMSGLRKLMTDVTKDDVLNGIAYNPKTKTIFVTGKNWSKMFEITVSE
+>tr|A0A1S1J432|A0A1S1J432_9FLAO
+MNSKITPLKTNLFASAFTLLTLLTGCSSEEERWTDVKEAPITEIVTGLDAKRIISFRVTN
+PGTTQAIHSAVNNLKKTITVYLPSYYEYQYLEAAISLPANTTISPAAKELIPVFSKTPVT
+YTTKAADGTTAVYTVNVVIQQPKLVVNEVSSPTETFSISTDSPLTVKGQNFLPSYEVTKV
+FVVDAQGNKKWQMKQYNEGLDIGSFYVMYVFADAANTTIPLQPDTDYWLMMESYNLSTTM
+KYPFRITN
+>tr|A0A1S1J9Z3|A0A1S1J9Z3_9FLAO
+MKKLALLLLILANFTFVHAQNSEKELIQNTEKAVKKINDTIEDEGWKAKGTVSLLLNQSS
+FNNWVAGGEDSFSGTLGINYDFNYKKDDLTWDNKILASYGLLQTKNADFEKKTDDRLEFN
+SIAGKKAFGDWYYSFFLNFRTQFTTGYLYGKDVNGKEIRTENTKFMSPGYLTTGPGIYWS
+KTENLKINFAPLTSKFTFVDRAYTSGIDQATGLPYVDGAYFGVDANKSMLYELGFYASVY
+YKLAIMTNVTAENTLNLYSNYLRDPQNVDINYSLNVIMKVNKFLSANLSFQAIYDDNAFS
+GFQTRQVFGVGINFGF
+>tr|A0A1S1JAT7|A0A1S1JAT7_9FLAO
+MRVYLLIMLFFSGISFAQNSITGSVTDSSTKQAIPGANVVVVGSSNGTSTDFDGTFKLST
+SAKLPFSIKVSAVGFESKTINVTAANQKINVILKDEETKLNEIVVSASRTPERVLESPVT
+IERMGIVDIKRTASPSFYDGLENLKEVQMNTSSMSFKSINTRGFATVANTRFMQLVDGMD
+NSSPLLNFVLGNMIGISEIDVQSVELLPGASSALYGANAFNGIMFMNSKSPFTYQGASAY
+FKYGMTSQEAAGTNNYYDFGMRFAHAFNKYFAAKANFTYMEATDWYATNYNDKTIPGIDR
+SNINYDGINVYGDEVSTNLKGVGQSLAALGIIPASAVNLLPSKNVSRTGYNEVDLTNNKA
+GNTKIDFSFHGRPFGDERLEIIWQSKFGFGNAVYQGANRYYLNDFFMQQHKIEFKGKNFF
+VRGYTTTEDGGNSYDMGFTGININRKWKDDKTWFGQYAGAYVQATLGGATPEQAHAAGRT
+TADTGRFLPGTAAFKNAFTQVIADESVLTGSKLVDNSKIYHSDANYNFKDLIKFAEIQVG
+GSFRLYELNSHGRIYTDGNSGINYTEYGAYTQLVKKFMEDRLKFTGSIRYDKSKNFDGNF
+SPRVSFVYSGGEKKNHNFRASFQTGFRNPSTQDQYIGFNIGNAVLIGSAPDNLLRYTETL
+PVSTTAGQAFAGGPTVVMTGVNAYNNSYTASSVGAFSALAGTNPVAAAALLRKTNINYVR
+PEEVKAFELGYRSFINDVSVDLNAYYNIYNHFIGNLNVVAPFYGTAQDAPNPLLGPTDPG
+FQTLHALQNGNIRAYQLYTNTDVEIKSFGFGVGLSKKVIANFELGVNYNYAQFDFDQAKD
+PSFEAGFNTPKHRVKVSLGNDKLFENFGFNVSGRWNSEYKWESTFADGIIKAATVIDAQI
+NYGLPKLKSLFKLGASNIGGKEYAQVLGAGYIGQQYFISWTINP
+>tr|A0A1S1J2F1|A0A1S1J2F1_9FLAO
+MNLIRFALRKPISIMVMVLGLLFFGIKASKEIKVDILPDMNLPVVYIAHSFNGYTPQQME
+GYFTKMYVNMMLFTSGIESIETKNTQGLTLMKINFYEGTDMGQAIAEINALSNRSQVFLP
+PGAPPPFIIRFDASSQPVGQLVFKSKTKTNNELQDIANFTARPFLIKIPGLTTAPPFGGS
+PRTIEINIDPNKLRTHQLTPEQIVESISRNNITSPSGNIYVNDINYLTPTNNTIKEVADF
+GNIPIFKNGVDNVYIRDVATIKDGADITTGYALINGTRSVYINIAKSGNASTWDVVKNLK
+KAIPAIQNNLPDDVAISYEFDQSVYVINAVKSLITEGVLGAMLTGLMVLLFLRDRRAALI
+VVLTIPISIISGVLFLKLFGQSINIMSLSGLALAIGILVDESTVTIENIHQHLAMGKTKA
+KAILDACREIAFPKLLILLCILAVFAPAFMMTGIPGSLFMPLALAIGFSMLLSFILSQTF
+VPVMANWLMKDKENHAHTEDKFDGFKNRFVQFLESIMSKRKPILIVSFILVTAGAFLMYS
+NTGKDVLPTVNSSQFQVRIKAPEGTRIEKTELKIKQVLGELETIIGKDHIAISSVFIGQH
+PSSFAVSPIYLYNAGPHEALMQIALKDFDGNTNELKEIIRKHMKEKMPELHFSFEPIELT
+EKILSQGTNTPIEVRFSGMMKKMNVMYANKLLAKLKEIDYLRDQQIPQSLNYPAYEINID
+RIRAAQLGIDAQDIARSLIPITASSRYTSKNMWVGGMMGIAYDVQVQTPQNILNSKDELM
+NVPLGKNSDRPVLGDVATITPTKVLGESYNLGTMGYTPVTANIHNTDLGRAQKDVQAAID
+SLGELPKGVNIQVSGMVPVLEETMNSLATGLLIAVIVIFLMLTANFQSFKVSLVILTTVP
+FVILGSLILMKLTGSTLNLQSYMGIIMSVGVSIANAVLLISNAESLRLENGDALSSAIQA
+AALRIRPIIMTTLAMIAGMLPMAIGHGEGGDQVAPLGRAVIGGLIASSFSVLILLPLVFV
+WIQNKTTTQSPSLDPEDENSIHFITLEK
+>tr|A0A1S1J4B4|A0A1S1J4B4_9FLAO
+MKPNTQQLSDLTIQVRRDILRMVHAVNSGHPGGSLGCTEFLVTLYQNIMERKEGFDMNGI
+GEDLFFLSNGHISPVFYSVLARSGYFPVSELATFRLLNSRLQGHPTTHEGLPGIRMASGS
+LGQGLSVAIGAAEAKKLNKDNHLIYSLHGDGELQEGQNWEAIMYASAKKVDNLIATVDVN
+GKQIDGTTDEVLAMGSLRAKFEAFDWDVLEIKEGNNIEAIIAGLNDAKSRTGKGKPVCIL
+LYTEMGNGVDFMMHTHAWHGKAPNNDQLASALAQNTSTLADY
+>tr|A0A1S1J4F4|A0A1S1J4F4_9FLAO
+MKKELHIFFTCLMFYTRIPCPKNINHDPDYLNKATRYFPFIGWIVGSISFLAFYLFSLFL
+SIETAVLLAIIASILTTGAFHEDGFADVCDGFGGGWTKEKILLIMKDSAIGAYGAIGLVL
+LFLLKFKLLSESISLFTTNIFLIFLLFISAHSLSRLAAISIIFTHEYSRDDATSKSKPIA
+KKHSWKEITGSFFFGLIPLLVLSFFQSKFLLAIIPVFIMRYFLARYFQKWIDGYTGDCLG
+ATQQVCEVIYYLSILLIWKFI
+>tr|A0A1S1J610|A0A1S1J610_9FLAO
+MHIAIAGNIGAGKTTLTKLLAKHFKWEPHYEDVVDNPYLDDFYHQMERWSFNLQIYFLNS
+RFRQILQIRESGKKIIQDRTIYEDAHIFAPNLYSMGLMTSRDFENYTSLFELMESLVKAP
+DLLIYLRSSIPNLVGQIHKRGRDYENSISIDYLSRLNERYEAWIQTYTKGKLLIIDVDNI
+NFVDNPEDLGNIINRIDAELNGLF
+>tr|A0A1S1J7Y9|A0A1S1J7Y9_9FLAO
+MKYHQINSALFVKNRKKFTAEMKPNSVAVFNSNDIYPVSADSTLPFAQHRDIFYLSGVDQ
+EESILLLFPDAPYEHQKEILFLKETSEHIAIWEGEKLTKERAFQVSGIRTVYWLQDFHKI
+LNEMMTYADTMYINTNEHYRATVETETREARFVKWWKERYPAHNVAKSNPILQRLRSVKE
+SEELDLIQQACDITEKGFRRLLSFVKPNVTEYEIEAELIHEFIRNRSKGFAYTPIIASGN
+NANVLHYIENNQQCKEGDLILLDVAAEYANYSSDLSRTIPVSGRYNERQKAVYNAVLRVK
+NEATKMLTPGTLWKQYHVEVGKVMTSELLGLGLIDKADVQNENPEWPAYKKYFMHGTSHH
+MGLDTHDYGLLHEPMKANMVFTVEPGIYIPAEGFGIRLEDNVVIQEKGEPFNLMRNIPIE
+ADEIESLMNE
+>tr|A0A1S1JAS7|A0A1S1JAS7_9FLAO
+MGFFADFKASLLKGDVLSLATAVVIGGAFGKIVGSAVDDIIMPVVGLLTGGIDFTQKFVT
+LDGNSYPNLAAAKAAGAAVITYGNLVQAIINFVIISFFVFVVLRAADKAKKKETVVEAAP
+AGPTQEELLTQIRDLLKK
+>tr|A0A1S1JB95|A0A1S1JB95_9FLAO
+MKKVYFASDQHFGALTPELSLPREKKFVAWLDEVKEDAEAIFLLGDLFDFWFEYKTVVPK
+GFVRILGKLAEIRDSGIPVYFFVGNHDLWMDDYFETELNIPVYHDNKEFTFNGKTFLIGH
+GDGKGPGDKGYKRMKKVFTNPFSKWLFRWLHPDVGVSLAQYLSVKNKLISGDEDVKFLGE
+ENEWLVLYAKRKLETKHYNYFIFGHRHLPMILPVGEDSNYVNLGDWIGYFTYGVFDGENF
+ELKKFEK
+>tr|A0A1S1JB66|A0A1S1JB66_9FLAO
+MENNNVPKHLYFYSVGLSYKKADAEVRGQFSLDAVAKTHLLEQAKKEGIESLIVTSTCNR
+TEIYGFAEHPFQLIKLICDNSNGSVDAFQKVGFVYKNQEAINHMFRVGTGLDSQILGDFE
+IISQIKTSFTHSKSMGLANAFLERLVNAVIQASKKIKNETEISSGATSVSFASVQYILKN
+VEDIGNKNILLFGTGKIGRNTCENLVKHTKNEHITLINRTKDKAEKLAGKLNLIVKDYSE
+LHLELQKADVVVVATGAQNPTVDKAILNLKKPLLILDLSIPKNVNENVEELEGVTLIHMD
+YLSQLTDETLENRKLHIPAAEAIIEEVKEEFITWTKGRKFAPTINALKEKLNAIKNSELD
+FQSRKIADFNEEQAEIISNRIIQKITTHFANHLKDDDTMVDESIEWIEKVFKIKAS
+>tr|A0A1S1J5R9|A0A1S1J5R9_9FLAO
+MEEYGKILIIATPIFLVLIIIEKLYGIYKKNDTAPLIDSVSSISSGITNSVKDVLGLSLT
+FISYEWLVSKIALYHLEANVLSYCIAFFVIDFYGYWSHRWAHQINLFWNKHAIHHSSEEF
+NLACALRQPIASLVNLFTFLLIPAALLGVPASVIAITLPLHLFLQFWYHTKHIKKMGFLE
+YILVTPSHHRVHHAINPEYLDKNHSQIFIFWDKLFGTFQAELDDVPPVFGITRPAQTWNP
+IRINFQHLTLLIKDAWRAENWKDKLTIWFKPTGWRPENFEEKYPVTKIENVFAFNKYGTQ
+NSQKLIYWSVTQMLITLLFVTYLFDNVAKIGLPNIFLYGFFILITIYSYSELMDKSKYAI
+FWEGLRFSIAIGIIMYYGDWFGLNQVIPFSNPVILTYLTLSFLITIYFVNIDFKNYRNQP
+VNS
+>tr|A0A1S1J7N7|A0A1S1J7N7_9FLAO
+MKPTPTFCKSDYQFLRELILKSKNATNAKEIGQLSNELDRAVIRKESELDSSTIRINSHV
+IIEDVKAKKQMKIQIVLPSFADVKEGKISILAPLSVAIIGFKKDDVVDWELPAGIKTLKI
+AAVDNSSENAS
+>tr|A0A1S1J7Z3|A0A1S1J7Z3_9FLAO
+MKRKLLLLFLTLLFIEAKAQQEIYNFTPGGAGNCIQFNDKIFLTGYQQSTGGEVWQSDGT
+AANTTLVKDIYPGTGNGISRSLALNAAILNNKLYFLAKDENSLGEIWKTDGTESGTEKIT
+NFINGRVLKLTTVGNVIYFLLKKDNEKLEVWKTDGTTIGTVLVKDNLSIWNSPSFEGKCN
+NTFIFSFQPPSTNNSRVWRSDGTTEGTFPITGEFDGNGSGYLDGTGGTSILTQFIEANGK
+LYFTTRYFLFETDGTLENTKNVATVRSLGNLVHYDDVIVVNNDLYLMFFTIKKSSSSSNN
+LVILKYNIVNKTITTVYEKNANEYFFASNLVNIGNSLIFTTSNQTAGTELVSLSLTDNTV
+VNIKELSASNDLTLPVTNLANTNGSIIKINDEENLILSGIDKNYIRKGWIFNSSTQTVQN
+ISALNDIRNPFIYKDFLYYSKDNRFWKYANNLSTIDVTQKKAIVFYPNPSSDFMQLNVDS
+SNEVENISVFDLNGKLLQTLSNSSQIDISSLPKGIYTAQIKWNGTLINKKIIKN
+>tr|A0A1S1J9Z5|A0A1S1J9Z5_9FLAO
+MKLFLDNHFIAKIKTCSLAIAVLLLPYSCATHKAQYGKNVSANETENATDTIKIAHTFYL
+VGDAGNADEEKAQQTLELLHQKLKKASKKSTLLFLGDNIYPKGFPAHNEGPEKALAETKL
+TNQLKLTEGFKGKTIVIPGNHDWYNGIKGLELQAEFVTKYLNDKKAFLPRKSCAIEAVKI
+DSTTALVTIDSEWFLEDWNNHPTINDNCDIKTREDFFDELESVLNKNQEKTVILAIHHPL
+MSNGSHGGQYSLEKQLFPLEQKIPLPVIGSFINLLRKTTGASPQDIQNKQYTAYAKRIKT
+LLQKQKNVIVVSGHDHNLQYVNKENIKQIISGAGSKSEAARAINSNDFSYGGNGYATLTL
+FKSGDAKVSFFGNENNHEKLLFEQEIIKAKEINWAADVPNNFPPKITTSIYSQKMTQKSL
+FHKFLFGNHYRKYYSLPIEAKTATLDTLMGGLKPIREGGGHQSKSLRVSDPKGREYVMRA
+MKKSATQFLQSVAFKDQYIVNDFENTYAENFLLDFYTTSHPYTPFAVGNLADRIGLAHSN
+PILYYIPKQNTLKEFNSNFGDELYMVEERPADNHLEGKNFGNPTNIISTSDMMKNLHKDE
+KYTVDENEYIKARLFDMLIGDWDRHDDQWRWGEYKKEGKVIYKPIPRDRDQAFSKYDGTL
+LSLLMNIPALRHMRTFKDKIDNVKWLNREPYPLDIAFLRTAGEKDWIAQAKYIQENLTDA
+DIDNAFKSLPKEVQDETIKDIQQKLKSRKKELQKYASEYFDVLSHTVMIAGTDKKDKFVI
+RHSAKKTLEIQVFRVKKEGDELIYTKTVTDAKTSNLWIYGLDDNDTFQVTGNEKSKIKIR
+LIGGQNNDTYNIGNGKRVIVYDFKSKQNTYNLDSKTGTQLTDDYDVNLYNYEKPKYNVIS
+GLPNMGYNPDDGVKLGFNLNYTVNNFKQNPYTQKHVLNGFYYFATEGFELNYAAHFPGLL
+GKWVIDVESQYTTPNFTVNYFGYGNETVNNTEQFGMDYNRVRIQKFNVSAAIRHVGRYGS
+EFSIQPMFQQMRVEETKNRFIDIPNIINPEIFQSQTFGGAKIKYHFKNSDFAAKPTLGVT
+FMISAAWLANLNETKQNFPTLESLLGFTHKIDSNGKLVLATLLKGKAILNNNYEFYQGAA
+LGGDTDLRGYRNERFLGSSYFSQSTDLRLSIGKIQKTIAPLTYGILGGFDYGRIWLDGEN
+SRKWHQDYGGGLWLNAINVLTARITYFKSPDETGRVIFGAAYSF
+>tr|A0A1S1JBF5|A0A1S1JBF5_9FLAO
+MHHPGFKLITIKEVKSQYPFLTDREGFDYFEEWEEEDFFLVASESVNFEGHFYFDLYENR
+EKKWLAGVLNLPLKEMEDLRIEGVLINGNLSVNGTIINAEGDYGPYVLIKGDVSCQSMLL
+GGSYVEIEGNVTAKEVVMTSYNHGNFKCSGCIEAPVFIVEDHYTTVADRKNDLFYYNDKT
+DDMDPENESEYDEETDEEVISAELRKHLNNPLITTFEELKRELEEGELVLKESNPLPKNQ
+EYWKKRVLSNYRDLKIVSLQFKTAALCEMALNMTHHALPFVEEDFITPEICEKLVSKDGF
+ALQVIPDPFITEELCWKAAQSGTLVSLIPERFYSEELIITTFKKGKHEPNINDVPAEFIT
+DSLLSAYAKIGKGLWLDKICKENGKDKLAILKSVIDSGIQHLDTIFGNHFSKEVVDYAAS
+IYDNEENKPEWDNYVQKYKVKFERLGLNQFF
+>tr|A0A1S1JDF0|A0A1S1JDF0_9FLAO
+MDNKKRSIEKPTANNVKCWDSSGSTEMVTQRLKEMFVEMGQKTRIENGQHPAERAVFRKQ
+HGITYGQFVINEDIPEKFKKGIFAGSSFDCAVRFSSDTGPTSPDLNSTIGVGLKLFGVEG
+PKLFGEGPTADFIFQNIDRFFASDAQQMCAFTTAGAIDRDYDSYINKHPELAGILQAMQK
+EEASVLSTGYWAILPFQLGEYQIVKYRLVPDDTYKGAPFDDDNYLRLDLEKRLRNGAATF
+RFEIQLRTNDATMPLNDAQVVWSTEESPYISIARLHLPQQDVTAIGQSEFGSNLSFNIWR
+TLEVHKPLGSIAEARKTVYAASAEARHQANGQQLQEPNAINPHFRGNTDEDSNCIVRAGI
+YPPIGVMRVGTSEEEYFIGPLVDEPEVKEDVYAYRDKTGAIKRQAAQFRIYGFNAAGKAI
+KELTMDNAKITWHSHLANQKSSWYQFQIALDIPDASAPNVPPSLLRNIDVKDRSQLLIDG
+GGESISDPNVTEGKKFTGEFMGQSVYLGEMHTDEKGRLVMLGGHGKSKNINGDRAITFAN
+NEGWYDDMSDGPVTATVEYEGVALNVDPAWVICAPPDYAPMQKSVRTMWDLMRSVAVESG
+MLVRPARPSFSKDILPIFERMTNLQWVNAGFAAAFGWGGQFNYTSITWVKKLNDPSSANL
+EMRRTISNNFRRFDQSGAEAPQLWPWLYGDAVAIPTQGSVRQHSTLSQLQLQFLDQWVEG
+DFDADFVDKTGCPYIPPVKKIDDYPIAEQPDMLTKAAMDFCLADAFHPGCEMTWPMRTSG
+MYMAPFRLKHAPKTPKTDYHYYGSTMNSDVLTLPAGPLLGGQVPGGVTRWMAIPWQTDTA
+SCRDGYTTAYDPYLPTFWPARVPNNILSEERYKETLDTHLAEETRREAFAYRYFWLDDLP
+LDGEAPTQTNQINAMVKYFDKLAIVQPRPGVSDDPNFPPEMQIGIIPNDEQNQLLLKETE
+TRLRKILNDNKRLDKKEESLLNITLEHLSNEGLFTEQVVIESTRDQLLELVQDELVQDET
+LTGEVQKLVDLLASKAHKFTRTRTVPHSRQPRKEVGVPEQLVRFQRFIPKQY
+>tr|A0A1S1J468|A0A1S1J468_9FLAO
+MKTIDYIPTSKIERASKLVQTGAKIGVNYIKHYAEKMVNSDLTRDKLNENNAEDIYDGLK
+SLKGSALKVAQMLSMDKNFLPQAYVEKFSLSQFSVPPLSAPLVLKTFKTNFGKTPYEIFD
+EFNANSVNAASIGQVHLAVKDGKKLAVKIQYPGVANSISSDLALVKPIAIRMFNLQGKDS
+DKYFKEVEDKLIEETNYLLELQQSQEVVQACSKIENILFPNYYPEFSSEKIITMDWMSGL
+HLSEFTAKNTDQKVGDKLGQALWDFYMYQIHVLRKVHADPHPGNFLVDENNQLIALDFGC
+MKQIPDDFYVPYFELINKNVITDETLFNQKLFELEILRPDDSASEIAYFTEMFHDLLSLF
+TQPFQKETFDFSDETFFDNIAKLGERFTNDTNLKKMNGNRGSKHFIYMNRTFFGLYNLMF
+DLKAKIVVENYMKY
+>tr|A0A1S1J4L5|A0A1S1J4L5_9FLAO
+MLAKRVIPCLDIKNGRTVKGVNFVDLRDAGDPVELAELYSAEGADELVFLDISATEERRK
+TLVNMVRNVAEKINIPFTVGGGISSVEDVEILLNNGADKVSINSSAVKNPPLINELAQKF
+GSQCVVVAIDAKQINGQWIVHLVGGKVPTELNLFDWAVEVAARGAGEILFTSMDNDGTKN
+GFANEALAKLSELVNIPIIASGGAGNIQHFVDSFKKGKADAALAASVFHFKEIEIKTLKE
+ELRNNGVEVRV
+>tr|A0A1S1J831|A0A1S1J831_9FLAO
+MLPILVENVVYRHINNGLLEKKQKFIEHLNQNEIDDFIENSGDSTETYSQFSTLHSEFLV
+LSKSSLKHDQKKPVFSNDYRIIEGEENEYRILQYHFTFGNQGYQLEIGSSLGEVKDLTFI
+IRFFIIIVFVVILLITFLADTFYIEYLLKPFYKIIDTKIRRVNEPEAFDHTPIKVRSHDF
+RELDSVLNQMMDRIAELFKKEKQFISNVSHELLTPIALLKSKFENLLQNESLDDNAIDKI
+AGALKTLDMLKKIINNLLLISRIENNQYEANENINFHEMVTDLQEDLQDRIDDREIQFWN
+KMNHHYVFTGNKTLIHILIYNLVTNAIKYNKPQGSIIVTDGFQDHNYFISIADSGVGMND
+FQIEQIFNRFARLSSDQEGQGLGLAIAESIASFHHIEIKVTSEIDKGTTFTLLFPGEQKH
+N
+>tr|A0A1S1J3Y2|A0A1S1J3Y2_9FLAO
+MKLIKLDAIDSTNDFLKSLSSQDELENFTVVTAENQTKGKGQMGAKWQSEVGKNLIMSVL
+VRDFVFNNEHVFNLSLIVSLSVIEVLKSLNIPDLSIKWPNDIMSYNKKIGGILIENTLKS
+DGRIVSVVGLGLNVNQTNFDELPNASSLAVISGSSFEKELLPYLIVGKMKEMIGAWEVNS
+KHLWSVYFNSLFRKGVPMPFKNLENQNFMGIIQGVSPVGKIQILLEDDSVSEFDIKEIQM
+LY
+>tr|A0A1S1J613|A0A1S1J613_9FLAO
+MRKPISYFLPFVFFAGILFGCSDDDSKGDSYKANYLPAIDASTLPPENRPMTMFEDTESS
+SKMYDNKDRWFRVNQPMQIIQKGKDSVQISLYSPVGLKDVKVYAKLPNYDKRFLLFEFTT
+VPAFHRSAHQIPLINGTHDYQLESGKAVTIDKIDGFSSGAIEFSVESTDPLFAMFKRIKS
+NRLVQFSTQYHLNNPADDPNKFLPMNPVLAKEAITMIINYSYAISHPLYYDTFMNFDRYK
+KEQATAAGAGINGALNWHGNAEDKDGVYDYLTKAQIEQAYNTYIDSRTLNMAMVGGGSAW
+GGGALASQWESGYVTGHWVGDMSVWTHEYSHHSGYSHSSNLCNSGEGGGQQGMFTDFYKY
+LISLNDLPFTDPDILKGYTKTSYLSQSYKKPVFKIDPKNPFLVKYKGEGKWK
+>tr|A0A1S1JB18|A0A1S1JB18_9FLAO
+MQTPLKIAVVGSGLVGSLLAIYLKKAGHTVHVYDRSPDIRKINFSGRSINLAMSNRGWKA
+LDGVGVGDAVREIAIPMDKRAIHLVDKLNFQNYGQEGESIYSISRGTLNRKMIDLAEEAG
+AEFLFEQKIWDVTLNDATLHIGETERGEWEEKKYDMVFGADGAFSRIRHRMQRQSMFNYS
+QEFLNMGYKELNIPANADASHKLDKNSFHIWPRGEYMLIALPNLDGSFTCTLFMPFEGEN
+SFASLTDRKMVEDFFLKNFPDSIEVIPELANDFFKNPTSTLVTMKCFPWTYEDKIALIGD
+ACHAIVPFYGQGMNAGFEDITVLNEMIGKYGDDWKKIFSEYQISRKPNADAIAELSYRNF
+MEMSTKTADEKFLLQKKIEKAFSDKHPDKWIPLYSRVTFSDRPYSEALAIGDFQNVIMEQ
+VLRIENIENIWNSPEVENKILELLQK
+>tr|A0A1S1J2T2|A0A1S1J2T2_9FLAO
+MKTELKQDIGTTFGQFSDTVSLFTQSEVNQIPFEGSWTAGQVARHIIKATSGLRQVCEAN
+TQKLAANYDEKIPALQGIFLDFSTKYDSPDFIYPEDREYDKTELISSLQRIEKEMQDIAE
+NYDLTLTCMDFEIPGIGNLTIYELLFFCNVHAKRHLNQLKNIYTVVKN
+>tr|A0A1S1J4X8|A0A1S1J4X8_9FLAO
+MLKKGSKINSILTGSCPRCHKESMYSDRNPLHLTKVLKMNENCSHCGLKYQIEPSFFYGA
+MYVSYGLNVAVGIAAFIVSFVFFKTSVEESFLIIVATLILLFPFVLRLSRNLYINMFVSY
+DPEAGSK
+>tr|A0A1S1J5I3|A0A1S1J5I3_9FLAO
+MCTVSFVNHNGVVMITSNRDEKVIRPEAIAPRNYCHNGKNVMYPKDSKAGGTWFAVDKNG
+TVLVLLNGGTEKHRISFLYRKSRGLIALDMISSSSPKDFWDEINLEDIEPFTLVLYQNEE
+LYELIWDGLVKIKTLLESSKNHIWSSVTLYPPEIRKKRSNWFFEFLEGKDEIFSTDMLDF
+HKNTQNDDSENGLVINRENVLKTLSITQVVIKQNKGTMKYCDLIKTKEFSTSFISI
+>tr|A0A1S1J9J2|A0A1S1J9J2_9FLAO
+MNPKILITSLVLSSIFLTSCKKELEPQENTPNSELVKLGLAKDTTKAAPVVQAPTAANPN
+TVLSANGGMNPAHGQPGHRCDIAVGAPLNSAPTQGQTTTTQPAQTVQVKPGQQNVVTTTT
+VTPTKVAKGMNPAHGQPGHRCDIPVGAPLNSPAAAKQPVAANTAQSGTTSQTFTVTPPAT
+DNAVPALLSTETATVADGKNPAHGKPGHRCDIAVGAPLPKS
+>tr|A0A1S1JCG6|A0A1S1JCG6_9FLAO
+MITNQTPLFSEVKEIILQSRKRVFRMANSVLLETYWEIGRVIVEDEQRGKDRADYGKATL
+KNLANQLTLEFGKGFDDSNLRNMRAFYKVFPIRDALRHELSWTHYRLLSRLVSEEKIKYY
+LNESIQNNWNSRTLQRQINSLAFERVVEHKSIKAESDTIQNLIKDPYIFEFLGLSAEAKN
+SERSLETSIIDHLQQFLLEFGKGFAFVARQQHIVTDTSDFYIDLVFYNYILKCFVIIDLK
+TGLLSHQDIGQIDMYVRMYDDLKKSESDQPTIGILLCSEKDETIVKYSVLADKKSVFASQ
+YLLYMPKEEELKALIENDIQRFQLDSES
+>tr|A0A1S1J6G0|A0A1S1J6G0_9FLAO
+MKFTRKAHANWKGTGMEGKGTISTQSTTLDNAQLSFKTRFADGVGTNPEELIAAAHSGCF
+TMQLSFLLNEGGYTADDLTTEATVTFEDGSITLIHLDLKGKVPSISSEDFEKTAAKAKEI
+CPISKLLNTTITLSVTLIA
+>tr|A0A1S1J7U5|A0A1S1J7U5_9FLAO
+MKTLYPLSLIIVLSFFVSSFAKTDHKNVSYKKTSTVAPVYKNSGSDNVNEISNDFFKRYS
+DLKRYKSDVMSLYKNRTPGTIWFDEDAINEFGSALYQKAKKTNDLIVPYQKEIDALFSSS
+ATKLSKTDADMLLSSLYIAYAKKSNADAGKKMSYDAMLTDFLNYSTIEEATTSTTENVKV
+TYDQYYKLQDVLKKYKKLDRSNKWKPIVPEETPYKDLRPDAVSNTIAQVRTRLYLLGDLK
+KDSKSNVYDRELMDAVMKYKVRNGFKPNYILAEEHIKEMNVPLADKMETLKLNMERCLTI
+SDQMAGCDEYVLVNVPSYELIYVKNGKVQLSSSVFVGAPLTKTTIFNGEIERIVFSPYWT
+VPQSIVNNELKSKIAEDKNYLAKKNMEIVNGQVRQKPGPENSLGLVKFMFPNPDDIYMHD
+TPSKTLFDFEKRTFSHGCINVKMAKELATAMLKDYPEWTPDKIDKAMAGKTENSFKLTKK
+VPIYITYFTSLVNENGEIGFFQDVYEQDAELNKTVSPQTGVVSN
+>tr|A0A1S1IY55|A0A1S1IY55_9FLAO
+MISQSTIDAVFDAARVEEVIGDFVNLKRAGSNFKGLSPFSDERSPSFMVSPAKGIWKDFS
+TGKGGNSVKFLIEHSQFTYPEAIRYLARKYNIEIEETEQTDAEKAMTDVRESMYLVSEFA
+KDYFNKTLLNSEEGKAIGLSYFKERGFTNETIKKFSLGYSPETWDALTKEALGKGYKLEF
+LESTGLTIPREDRPFDRFKGRVMFPIESMSGRVLGFGGRILTNDKKAAKYLNSPESDIYH
+KSKVLYGIFQAKQAIAKQNNCYLVEGYTDVIQFHQAGIENVVASSGTALTPDQIRLINRL
+TRNITVLFDGDAAGLRASVRGIDLILEEGMNVRVCAFPDGEDPDSFARKNSHDDLVAYLE
+ENSKDFIQFKASLLMKEAKNDPIKKADLIRDMVNSISKIPDRIQREIYTQECARIMDISE
+QVLVSTLAQLIQKDLAEAGKKQKQEQRPFEVHRNQPAKQTGYSGGDPEDPRTGPPEDYYP
+GEPSYAQEPAEKVDILYRLERKVIEILLLYGDKTEEFEDVLLKTNEEGEVIMVSEMKNYK
+VYQRIYLSLQEDEVELSNNLFRDIFTDLIGFYNQNEKFSLEQYLMRLQPDFAQEVTDILM
+EDERLALHDWEGQNIFSKMKHETIAQYVTETIMSMRWFLVGKIIDELKSSIKPDNSDNTE
+LLSMVVDYSKLVNSFAKKLGRVMSRYH
+>tr|A0A1S1J208|A0A1S1J208_9FLAO
+MDIRKKITYTYVALSSFSTLLLCIVVFVLFRENNRYHFLKRLEDRAKIVASIHFQNDPEK
+IKYYSNLKKNGLEELIEEEEFVLKINSANSFDYNTKLNLPNEFYSNILKTGKDYFEVENK
+YYLGQVFTENNQKYIVIVGARDRKGPTTTIYILKIMLFGGIGFIFLAFFLGRFLAKRVIN
+PVARITKEVNRISASNLHNRLPEVKNSDEISDLTETFNDMLDRLETSFEIQANFINNASH
+ELKTPITTIIAESEIMLLKEREVPEYIQSLENIYSQASRLGNLTESLLKLTQTGYDGKKQ
+VLDIARIDEVLMDVKSDLDKIYPDNRVSIKLNFAPKDSNLLLIPCNKPLLELAINNIITN
+GVKYSDNNEVFVTLSANQDWIKVAINDIGIGIPPEDIPHLYEPFFRGKIATKYIGYGLGL
+PLASKIIRMHDGEIQVQSEQNKGTIVTIVFNKTSSKKSNIKTSNVES
+>tr|A0A1S1J6C7|A0A1S1J6C7_9FLAO
+MTSSIKSKIKSIRELKNYTQEYMADQLGVTQAGYSKIEKGKTILSYEKLVEIARILEVSV
+EDVISFDSQRYFNSFNKVRGNNNGSIQINSDNSAALKALYEDKIVLLEKLLSKTEEELRR
+YKEKFGEI
+>tr|A0A1S1J6J9|A0A1S1J6J9_9FLAO
+MKKYLTLLIILFFTTGNGQNLVLEYSGDNTVDFHIYNSTDNFKYKIDDITKVDRSTVEGL
+VQSYFFATNNDWLKNNYLEEKSFNPNEEKHFNTLKKLNKEKSKVVFLHKLSYKHEGFEMC
+FINFIADLDGIDFKFPTLLSCIKKDNKWYIYNLANQQKITDILWTFRSCRILQLINGQKT
+SNALMNNLIQKTLSTNKFLDINKLYDETQTWSFDDANQRFFTMTDNNNCDDNTILDVSKS
+INFTSVFKSAKISTFDKDDQTKNAAIISSIKKNATDSVYLKAKFDLDYNGRTYSVIKYNL
+INSTGKSTLKTQLLDSTLDVSSQQISEVIFLFENLNLQIFSDLSPAMNAPESQKQDILYK
+NTRGNLDVLNISKLFDLYQKNKPLFAKYLEN
+>tr|A0A1S1J3W6|A0A1S1J3W6_9FLAO
+MKIKYKNSSKRNFLQIFVSKINTTKNKIIMKTMLLCLFLSLSFAFVSEKTGWLEVDWKII
+FIPALLVLQIIIIGTALKNRYKKH
+>tr|A0A1S1J2R9|A0A1S1J2R9_9FLAO
+MIKMYPLEWFDSLIINSFDADNSSVKVSEYELENLSKTIVSESKKIKIHIKDSFFELKSK
+RQIRLLIRKYHSSLVFLIDRVVEIRKIEKFNSPEFFRIFDLIVSSLDDLLSFVEIRYSSF
+ISLDQRVSFSYFSIWKKETLAILKNLIKKKENTGENDLELEYVVNLLAAPLHNSRNSKYT
+YRQILYYREIIIELEKLNYPVTKSEGFSNLDLVLIRMNFNSREYTDRLVTRIGRYLEGFE
+NLSERIEKLLYFCKKLSKINADLKLTFNPSQQNLISFLEYWFSSEIRFAEKKAAILMQEQ
+IDASVGSEFVEKVDSKLECILSGDQIGLILRATDEARIIKAKSMNYIFKSIVPYLSTPVK
+RNLSYQSVRSKSYNAEDRDKEIAIESLEKIIRKIKTY
+>tr|A0A1S1J3I6|A0A1S1J3I6_9FLAO
+MHYTEKTNRVAVNTAIKKPPDVLSVRRIKIQPFYRRSRSRCMYKPPAKVVPYIHLCGNWL
+QEAGFKPCEGVTVTVMKGTLIIKRGKR
+>tr|A0A1S1J212|A0A1S1J212_9FLAO
+MDLKKTNAPVNTITYNKTVIEEPTGNVYEAITIMAKRANQINSEIKKELTEKLEEFATYN
+DSLEEVFENKEQIEVSKFYEKLPKPHALAVQEWLDGKTYHRGSNK
+>tr|A0A1S1J7L4|A0A1S1J7L4_9FLAO
+MIHAKNIHKFYDKLEVLKGVDLHIKKGEIVSIVGASGAGKTTLLQILGTLDKPSGLETET
+SLTINGQNILELSDKALSKFRNLNLGFIFQFHQLLPEFTALENVCIPAFIAGKKNTEVES
+EAKKLLDYLGLSHRIHHKPNELSGGEQQRVAVARALINKPDVIFADEPSGNLDTHSAENL
+HQLFFQLRDEFGQTFVIVTHNEELANMADRKLVMVDGLISN
+>tr|A0A1S1JAW3|A0A1S1JAW3_9FLAO
+MKKLIWFCCVYSIFAASYLKTNAQSMQNDIVAPIAKEVPKSLKKHKETRVDNYFWLNDRE
+NPEVIDYLNQENAYYESMTSHTKELQRDLYEEMKGRIKEDDSSVPYFYNGYYYITRFETG
+QDYPIFARKKGSLSAAEEILFNCNEMAKGHAYFKLGGLSISPDNKFASFGVDLVGRRIYT
+IQFKNLETGEILQDKIENATGGSVWANDNKTVFYTKQDQVTLRADKIFRHKLHTDAAKDV
+LVFNETDDTFNVSVSKEKSRKYIVIGSGSTLTTEYRILNSDNPDGEFEVFQTRVRGLEYS
+ISHYEDSFYILTNKDKATNFKLMKTPENKTGKRHWVDLIPHREDVLLEDIEIFKNYLVVE
+ERSNGLNHIRIMPWNGEPDYYLPFGSETYNAYTTTNVDFDTDILRYSYQSLATPSSVIDF
+NMKTKTKEVLKEQEVLGGKFDKENYIEERVWATARDGVKVPISMIYRKGLERNGKNPLLL
+YAYGSYGITMDTYFSSTRLSLLDRGFVYAIAHIRGGEDLGRQWYEDGKLLKKKNTFTDFI
+DCSKFVINEKFTSSKHLYAEGGSAGGLLMGVISNEAPELYNGVIAQVPFVDVITTMLDDS
+IPLTTGEYDEWGNPNNKKYYDYMLSYSPYDNVKAQNYPNMYVSTGLHDSQVQYWEPAKWV
+AKLRNLKTNSNLLFLDTNMDAGHGGASGRFEALKDLAKEFSFLLDLEKIKS
+>tr|A0A1S1JB43|A0A1S1JB43_9FLAO
+MKTKHFCLIGLLFFGSSYVLFSKVLPDIQSPIDFAHWFNLIGACFLVSFNKVFPRNKLNT
+AASFITTLGVIAHIGLCTIDFIMSSFGDNDAAREVLSTHISNTPLVLYPFIIIGPSLLFI
+GLAIHSLNFIRTHLIFVLMVVLAAPTVGFSFFVLKNGVCMLLSCIVFLLGLGLLLYRKEN
+PETNGV
+>tr|A0A1S1JDE2|A0A1S1JDE2_9FLAO
+MEEETKIEDDFTLIRFQNDSSEPFFANRELGSDMIQFHFGLKGNSNFLFSQGSYTLELKE
+EKSLLLYNPKKQTSLHLELAPNSWVISIIVSIKKFHALFSTQADYITLLSADNNNQKYST
+EANISPPMAIVLSQLFHYNFHPSIKNLYYKAKGYELLSLYFNRSENPSAQHCPFLIDQDN
+VLKIRKAKEIIIANMNEPPGLQELADEIGLNMKKLKIGFKQIYGDTVYGFLFDYKMDCAR
+KLLDSGCYNVNEVGLKIGYSTGSHFIAGFKKKFATTPKKYLMSINTNFKTVSIL
+>tr|A0A1S1J4R7|A0A1S1J4R7_9FLAO
+MEIKDNTFARQFETIVPEGLLSVEYSFQEKKIFLTKINSPEGFDNQATIDTLLKGIMEVV
+SEKKFRIMPIHPKIVLFIKKNPEYKELLPPGIRI
+>tr|A0A1S1J057|A0A1S1J057_9FLAO
+MELLKKYHLSECAKIVSASIPGEKSKVLLKLQSEIEGSIVSYPRSMPIAIKRAKGSIIED
+VDGNQFIDFFGGCGVLNVGHGNEYVLDYVKEQQTELIHALDFPTENKLDLIQLILKNLPT
+EIQEEYKVSFGGPTGSDAIEAAIKLAKIKTGRDGIIAFTGGYHGMSSGALAVTSDTFFRN
+KLTSLIPNVSFAPYSYCYRCPFSKNSDSCEFECVSHFEWILNTAHSGIVKPAAIILEPLQ
+GEGGNIAPKEGYLERIVEVAHKHDVIVIFDEVQSGFFRTGKFLEFMNTKAVPDIVTFSKG
+FGGIGFPISGLIYKKSIEAWKPADHIGTFRSNQVSIAAARGAFDFIDEYEIEKYTESIGC
+YLMEKLKELEAENPFIGDVRGKGMMLGVEFVKDKITKEPFPEYLKELREECFQRGLLFEV
+GGHYKNVMRLIPPLITTHKIVDEAIEIMKEAIKVRMEKYLESVL
+>tr|A0A1S1J1E3|A0A1S1J1E3_9FLAO
+MEKDNIAVGLDIGTTKIVAMIGKKNEYGKLEILGIGKSKSLGVARGVVNNITQTIQSIQQ
+AILEAENNSGYKIKDVVVGIAGQHIRSIQHTDYISRNNPEEVIGEKDIQLLIDQVNKLAM
+LPGEEIIHVLPQEFKIDGQSEIKEPIGMYGGRLESSFHVVVGQASSIRNVGRCIQSSGIE
+LSGLTLEPLASADAVLSQEEKEAGVALIDIGGGTTDLAIFKDGIIRHTAVIPFGGNVITD
+DIKEGCSIIEKQAELLKIKFGSAWPGENKDNEIVSIPGLRGREPKEISLKNLSKIIHARV
+VEIVEQVFAEIKAYGHEDPRKKLIAGIVLTGGGAQLKHIKQLVEYITGMDTRIGYPNEHL
+AGNSSEEISSPLFATAVGLVMNSIENSTQSAVRMEIVNDQPKVVYRNVPPPIQQPVQQRY
+EVEENYVERVETIEETREVRNSVSKEESTETKIRRSFFDRYVDKIKDFLDNAE
+>tr|A0A1S1J5T9|A0A1S1J5T9_9FLAO
+MKDHRNSFAELKSGTLMCFKISMVFTVLFCAFLGTDLNVENVLLTFGISCLYSFGLGFGN
+GFINVLLDKKWDWLEQTNLRVYYGILITILYTVPVVLGINYVVCVFVQHLPPDQFFSERM
+IWAHLFYVILSLGVSTFMQARSFMVKWKQASKFEVTQQKIIAGTANAKFESLKNQIDPHF
+LFNSLNVLSSLIEENPDNAQRFTTSLSKIYRYVLEQKDKELVSVEDELSFAKTYMNLLKM
+RFENSLFYELPTTNINPDAKVVPLSLQLLLENTVKHNIVSEQKPLHIRIFVEGDYLAIQN
+DFQKKEVLQDRQGVGLQNIVNRYSIVTNRKVLIEQNEENFTVKIPILTKQITVMETSAEY
+SDENKAYFRAKKRVEELKGFYGNVISYCCVVPFLIFINLRYSPGFQWFWFSALGWGFGVV
+MHAFKVFGYSSDWEERKIREILERENKQKNWK
+>tr|A0A1S1J651|A0A1S1J651_9FLAO
+MIPQLFVEKIDLGDGRSITIETGRLAKQADGSVVVRMGDTMILATAVSARTSNPGVDFLP
+LTVDYREKFAAAGRFPGGFFKREARPSDSEVLTMRLVDRVLRPLFPDDYHAETQVMIQLM
+SHDEEVMPDALAGLAASAALAVSDIPFYNLISEVRVARIDGKLVINPSREELEKSDIDMM
+IGASMDSVAMVEGEMKEISEAEMIEAIKFAHEAIKVQIEAQYRLQAAFGKKEIRTYEGEK
+ENEEIYKKVKAAAYDKIYAIAKVGSAKHERGAAFAEVKEEVKALFTEEELAADGDLVSKY
+FYKTNKEAVRNVVLELGVRLDGRKTTDIRPIWCETDYLPRVHGSSLFTRGETQALATVTL
+GTSREANQIDSPSEQGEEKFYLHYNFPPFSTGEAKPLRGTSRREVGHGNLAQRALKNMIP
+TDCPYTIRVVSEVLESNGSSSMATVCAGTMALMDAGVQMVKPVSGIAMGLITDGEKFAVL
+SDILGDEDHLGDMDFKVTGTADGITACQMDIKIDGLRYDIMEQALSQARDGRLHILGKLT
+ETIATPRADVKAHAPKIITRTIPGNFIGALIGPGGKVIQELQKATGTTIVINEVDEQGVI
+EILGTDPAGIEAVLAKIKSITFKPQMGEAYEVKVIKMLDFGAVVEYTAAPGNEVLLHVSE
+LAWERTENVTDVVNMGDVFQVKYLGVDPKTKKEKVSRKALLQRPPREEKKE
+>tr|A0A1S1J717|A0A1S1J717_9FLAO
+MKEIKLFCPATIANLSCGFDVLGLCLDNAGDEMIVRKSDQKGVRITKIEGADLPLETEKN
+VSGVAALAMLETLDVDCGFEIEIYKHIKAGSGIGSSAASSAGAVFGINELLGRPYSRKDL
+VQFAMQGEKLASGNAHADNVAPALLGGFTLVRSYAPLDIIRIDSPEELYATVVHPQIELK
+TSDARSVLKQNVSLKSAIMQWGNVGGLIAGLYTKDYDLIGRSLHDEIVEPLRSVLIPGFD
+QIKQTALENGALGSGISGSGPSIFALSRGKETADQIAKAMSDVYEKMNLPYEIHVSKINP
+DGVRVL
+>tr|A0A1S1J9X3|A0A1S1J9X3_9FLAO
+MKKLFTKFSIKKLALVLLALLALYSCEKGNDQADAVAQDKLMDGNVDLLDKGRYGLAQMP
+DAYLKSIEFLTPVDYRARIAELRPDLVTSTQKMSLTAKVAAAKNLPTPPVGDQGSEGSCV
+GWGVGYAAHSIARYLNNSVHQSNWSGASRSAAYIYNQIKLGNCGAGSYPNDAMNLIKNQG
+ECSEAQMPYIAGGCNTQPSAQQKTWAAARKTGGWFNVNPRSTADIKYYLNQNYAVAVCFD
+VNQSFYDIRNNNHVWSSLYGSRQGGHCVCIVGYDDATGLFKVQNSWGSGWGRSGFFYVTY
+NNIANGAFNWAGCIIPNPGANS
+>tr|A0A1S1JB94|A0A1S1JB94_9FLAO
+MVNLEWYRTFKAVYKNGNFSIAAKELFMSQPAVSQQISMLEAHVGNKLFNRKSKGVEPTE
+YAKLLNNLIIDALDRLENVESSFRAKAEDANRLISVGISKNLFNCIGNLLIAKFDLIDFT
+FAENDVLFELVDAKKLDFAITTKRFDTFDTVYEIVGKIKLIMVAPVRLDGTEFRQKLKSD
+NYAEVEQWLNEQKWYSHDARIPHIKLFWLHAFNKKRPSMVPNYIIPSESEMLRMLSDNEG
+VAITWNCNARKYIKENKLQLLWNSFHVPEEYVYVLTAKNNNLNSFFEIISKELKLFFGNR
+L
+>tr|A0A1S1JDM1|A0A1S1JDM1_9FLAO
+MDIKRVAIDAVNETIVMTVVHMDYKGQVAKRINEKMPLATVKGFRKGQVPKDLVEKQYGK
+AIKQEEVKKVVDLALERFVQAERLNLLGTPLAKVNENFDWDAEELTFEYEIGLVPNFEID
+LEAKNNIVKYIVTADDKLIDGQVERIQKQFGKAIPQEVVVADSDLTGTFANEENGINNTT
+TIALATFSKAAGDKFIGKKVGDVVTVSTKGLFEDDHQLMDYLKVGHDNVHGLDIEVNFTI
+EAINGAELAELNQELFDKLFGEGKVASLEDLKSKIKEDAEAQFAQQADQKLLLDVQDFLI
+ESTKFDLPAEFLKKWLQTVGEKKLSAEEAEVEYARSEKGLRFQLIEGKALAQSNIQINFE
+DLKAFTTNAIKQQMAQFGQLNPSDEEVQTIVARVLSNQEEVKRLSEQVVAEKLLEIFKEK
+ANPTTKEVTYEEFIAASYGE
+>tr|A0A1S1JCI1|A0A1S1JCI1_9FLAO
+MDLKEIQNLIKFVANSGVAEVKLEMDDVKITIRTTLETNVTEATYVQQLPAQAALPQAVV
+PQQTAPVVVNVSAEAPAAAVEDSKFITIKSPIIGTFYRKPSPDKPVFTEVGSTIAKGDVL
+CVIEAMKLFNEIESEVSGKIVKILVDDMSPVEFDQPLFLVDPS
+>tr|A0A1S1JB03|A0A1S1JB03_9FLAO
+MKRYLILLLFTFQGLMAQVQFEAKVSKNTLGVNERLRIDFIMNVDGDNFDQPSFDGFKVV
+AGPSQQISQSWINGRSSFQKIYSYILQPDHKGTVTIKQAAIEYNGQIYKTAPLKIVVTNA
+IAQERDPNDRPQGSSTGDEMLHLVAEISKTNPYLNEPITVVYKLYFNYINVTGFKELAKP
+KYNDFWNQNIDIKQLAVEQGSYQGQRCYYVVLKKTILYPQKSGRLTIEPLSLDIGVQLPT
+NRRDMFGQMIVSDDNKVVSAGAKTINVRPLPEATKPEGFGGAVGKFNFTVTPSKTTLKSG
+ESLDLFVSAAGNGNMKLFTLPKPVVPNALEMYDPVHDEKVTTSLSGMSGKISDKYTIIPQ
+YKGKYAIKPMQFSYFDLSTGSYKTITSQEIMIDVLDGPMPSAANAPAHAATNAIAKTEQF
+KYIKPKTTLVSIAKNDFYGSNLYYTLLYLPFVILPIIILAKKRKEAIDGDVTGNRIKMNN
+KLAKKYLSEAKKQLNNKEPFYIALEKAMHNFLKAKLHIETSEMSKDNISDLLLSRNANPE
+SVQSFINLTENCEFARYAPASSTSIQQDFDKAVLIISDLEKQIV
+>tr|A0A1S1J4T0|A0A1S1J4T0_9FLAO
+MKLFFHKVTNWEYWPFKVLYVPIYFLWAYYAIKARSVFFFNASNPKIKNGGFIMESKKQI
+YDLLPRECYPHTILIKEDTDLNKIAEKIVENRIYFPLIAKPDIGLRGSGVKKIRNVFELS
+EYAGKANFDFLLQNLIPFKNEVGIFYVRHPHQKEGKITGIVSKEFLIVTGDGISTIEGLI
+CKTPRFQLQLDVLREEYGDQLHQVLKYGERVNLVPFGNHARGAKFLDGSDWITPKLTAMI
+DKIAKEVPEFYFGRFDIMYNTFEELERGEKFQVVELNGAASEPTHIYDPKHSVWFAWKEL
+ARHITYMYEISAANHKKGVPYLNYKVGIREYKLHLAQNSKIINF
+>tr|A0A1S1J6N8|A0A1S1J6N8_9FLAO
+MGRAFEFRKGRKMKRWSAMAKTFTRIGKDIVMAVKEGGPNPEANSRLRAVIQNAKAANMP
+KDNVERAIKNASNKDTANYKEILFEGYAPHGIAILIETASDNNNRTVANIRSYFNKCNGT
+MGTQGSVEFMFDHTCNFRITKGEIDAEELELELIDFGAEEVFEDEDGILIYAPFGSFGAL
+QKELENRGLEILSSGFERIPQITKELTEAQIADVEKLIEKIEEDDDVMNVYHTMKEE
+>tr|A0A1S1J3U4|A0A1S1J3U4_9FLAO
+MMFIFILFVVIVGGCWKLGKVAGNALFPDQNSSRFIDRSTNIVHHHHHHYHDNRSIHVDG
+KQFKDLK
+>tr|A0A1S1J1K2|A0A1S1J1K2_9FLAO
+MKNNFFMILIYSKDVDDFVNNVMDCLDQDFVRIGESDKAVIESMNFSNEKSSYTLKTSYL
+ENIELEEVQSIWFNGGGINSGESNYENKCYEVLNDAFVLQKPVRKIGKRIADFETNRLDM
+MLEAKAQGLKIPHTLISGSKEKLKDFYAAFDTKNGIISKRILDILYYQDEEFLYNFNVTF
+QITAEILDKTPDEFAISFFQERIIADFEIRVIYIDGNFYSTAIHNFDHAIDIRTKFVEMH
+NIRMVPFKLPADIEEKLAKVFEKFNLNYGSADLMYCIDEYYFLEINPTGQISFINNACNY
+YLENKLADILKNEK
+>tr|A0A1S1J1P7|A0A1S1J1P7_9FLAO
+MRLEDFDNDEDKVIQDRLKQKTWNEIRTNDSWAIFKIMAEFVNGYESMGRIGPCVSIFGS
+ARTKPEDKYYLLAEKIAYKISKAGYGVITGGGPGIMEAGNKGAHLGGGTSVGLNIELPFE
+QHFNPYIDHDKNLNFDYFFVRKVMFVKYSQGFVVMPGGFGTLDEMFEAITLIQTKKIGKF
+PIILVGVEFWSGLIEWVKTVLVEKMHTVSPEDLNLFKIVDTEDEVVDVLDKFYKKYDLSP
+NF
+>tr|A0A1S1J2U8|A0A1S1J2U8_9FLAO
+MKNSNYLYLQFADRIEKQIKSGVLNVGDKLPSIREVCAETGYSMSTVSKAYYEIESRSLI
+ESRPQSGYYVTNISARTIPEPSPSSPVLKCVNIDREDLIDQVYKNMTDPSITMLSLGFPS
+NELLPIAKLNKGMIQAMRQLPNSGTSYEQVQGNLNLRKEIARWSFTWGGSLTERDIITMP
+GCTSAISHCLMTLTKPGDTIITESPAYFGILQLAKSLGLYIMELPTNMTTGIELDALKKA
+LSTKKVKLCLLMSNFSNPSGSMMPVEHKKEVVRLMEFYNVPLIEDDIHGDLYFGSSRPTN
+CKTYDESGIVLCCSSVSKTLAPGYRVGWVSPGKFKKEILRNKIYHTLSTPTITHQVVGDF
+LKNGRYENHLRKIRQILNHNCTNYINTVLESFPKGTKVSQPQGGFFLWIELDKNIDTATF
+YQLAMQHKISFAPGRIFTFQNQFSNCMRLSFGLPWTNELRSSIQTLGKLIDQ
+>tr|A0A1S1J5N6|A0A1S1J5N6_9FLAO
+MTVTDKNLLETYSNLFEGLSFSNKIELIERLTKSIKGTKSKESNFYKSFGAFKSEKSAEE
+IVSDIKSNRSFTKKEIKF
+>tr|A0A1S1J9G3|A0A1S1J9G3_9FLAO
+MKNQVTSIYKQAERFAEITKKSIISGNIVRAKKCLALAERLFISGSFETKNAISNVYVFS
+VSSFMEMRHCNISHLFPQTLRAEYIRQINTSGV
+>tr|A0A1S1JAX1|A0A1S1JAX1_9FLAO
+MKKTQTKILLVDDEPDILEIVGYNLAQEGYQIVTASNGKEAIAKAQKELPELIIMDVMMA
+EMDGMEACEHIRKIPELNNVIITFLTARSEDYSQVAGFDAGADDYITKPIKPKLLVSKVK
+ALLRRLKEQEVVSDTLNVGGIEINREEYKIIKGNVEIALPRKEFELFYLLASKPGKVFKR
+DEILDKVWGNEVVVGGRTIDVHIRKLREKIGEDLFKTIKGVGYKFEV
+>tr|A0A1S1J8A1|A0A1S1J8A1_9FLAO
+MNIEVISSQNLKQLVELVLELWNDCSFDEEVESYKAIIDSENEICYVVKDQEDYIAFVHL
+STRNDYVEGAEDLPVAYIEAIYVKPAYQKQGIARRLTKVAENWAKQKGLKQIASDTDLGN
+SASIDFHQKTGFTEVERIVCFIKNL
+>tr|A0A1S1J459|A0A1S1J459_9FLAO
+MNTKLKFLGLLSIALMGFSSCSNDDKKETDATTTGEEFVFSGGVNNPSANYMLTAGTLAT
+GFTSANGNGAEITGNGRLFKNGFYYKIASGKLSKYKFEKNLLTISKEITLAGNALWSYWL
+NDNTLIVWNGTTSAPNADLTYNIVNTDDLSIAKSGTLTVTGLQATDKAIYLSGCVLNNGK
+LYLPYTVYHSGWTSTSVAYLASVDYPSMSNLKIDTDNRSGALGTFSTLMGGTIKYNNDLY
+IITDCGDRWGSVADKPSAIFKVSNGSTEINADYFFDLSTSSNGNKEFYGLYDLGNGKGIT
+RLGKKDVLLTFDDYNSSDVFEYYVVDVVAKTKTKLNLPLSQYVSASPVLVENGKAYILVS
+SKANGNFVYTYDINSGSLTKGIEVKGLDYVNWISRLNK
+>tr|A0A1S1J8F7|A0A1S1J8F7_9FLAO
+MKKITLLLLALIAFNTVSGQSKKKQILLLGTFHFENPGLDVAKVNTFNVMSDKSQKELEN
+ITNKIKKFGPSKIFVEWNYQRQDKLDKFYNRNTDSLLHKQSDEIVQVALRSAKKLGHKKL
+YGIDYNNTDFPYDSLVKGMTAAGQFDLIKKNEETMKYYEKSQNEKIAKYSLTELLLDINT
+KKSNEDNIGWYVETATKGGKTDDFVGAYLVSEWYRRNLYMYALIQKLTESKDDKIMVLLG
+AGHTAMIREFVEHNPDFEIIELATVLK
+>tr|A0A1S1J936|A0A1S1J936_9FLAO
+MNTPFQKASQLIDAENAQDPNIEIAQNTEYPKELLYSDRMYKRLMQFEPEASEAIQIASK
+AQHICRWKVARESYPMDRVGYLRWREELKKFHAKTTAEILKKAGYASEFIDRVSFLIEKK
+LLKKDAETQLLEDVICLVFLEYYLDPFVHKHDEEKLKNIIKKTWDKMSDKGHQEALKINY
+TEENLNLIKASLGL
+>tr|A0A1S1J9D3|A0A1S1J9D3_9FLAO
+MRIDIITILPELLKSPFEASIMKRAIDKGLVEVHFHNLRDYTTNRQKSVDDYPFGGGAGM
+VMTVQPIDDCITHLKSQREYDEIIYMSPDGETLNQKMANTMSMYENIIILCGHYKGVDQR
+VRDHFITKEISIGDYVLSGGELGALVLSDALIRLIPGVLSDETSALTDSFQDNLLSGPIY
+TRPADYKGWKVPEVLTSGHFAKIDKWREDMAYEHTKNRRPDLLEEK
+>tr|A0A1S1JB98|A0A1S1JB98_9FLAO
+MALDSKIPNGPISDKWTNYKDHINLVNPANKRNLDIIIVGTGLAGGSAAATLAELGYNVK
+AFCFQDSPRRAHSIAAQGGINAAKNYKGDGDSVYRLFYDTVKGGDYRAREANVHRLAEVS
+ANIIDQCVAQGVPLAREYGGLLDNRSFGGTLVSRTFYAQGQTGQQLLLGAYSAMNRQIGR
+GKVKMYNRHEMLDIVIVDGKARGIIARNLITGEIERHSAHAVVVGSGGYGNVFFLSTNAM
+GSNATAAWKIHKKGAFFANPCYTQIHPTCIPVSGDHQSKLTLMSESLRNDGRIWVPAKLE
+DAKAIREGKKKATDLSEDERDYFLERRYPAFGNLVPRDVASRAAKERCDAGFGVNKTGEA
+VYLDFAAAIKRYGAEAAHVKGLNENDSALVTKLGTDIVKSKYGNLFQMYLKIVDEDPYVT
+PMMIYPAVHYTMGGTWVDYNLMTTIPGCFSIGESNFSDHGANRLGASALMQGLADGYFVL
+PYTIGDYLAPDIKMGPISTDLPEFVEAEKGVKDQIEKFINNKGTHSVDYFHKKLGKIMWD
+KVGMARNAKGLAEAIEEIAALREEFYKDVKVPGSANEFNQELEKATRVADFLELGELFAK
+DALHRNESCGGHFREEYQTEEGEALRDDENFAYVAAWEYKGKPSDAVLHKEPLVYENIKL
+VQRSYK
+>tr|A0A1S1JCZ0|A0A1S1JCZ0_9FLAO
+MKTFKLVPVFLLLILASCSTVSVYSDYDKNVNFASYKTYAFFKPGIDKVEISDLDKRRIL
+RAIDDQMQAKGFTKSENPDLLVNIFTKAREQVNVNQFSAGWGYGWGWGWNPYMMYGGNQT
+TVSTSTEGTLFIDLIDAKKKEMIWQGEGVGTLTKNVAKKDEKVAEFVSKILAQYPPVKK
+>tr|A0A1S1JDT7|A0A1S1JDT7_9FLAO
+MAEQKISVAKYLQIRLEELGLTHLFGIAGNYTAPFLNTILEDKNAKIKIVNDTNEINAGH
+CTDAYARQNGFAAVAVTYGVGAFTLLNSVAGSYVEHCPVLVINGAPTNKDQQRSLVQGML
+ASHMTGDMYSNINVFRNVTVAAEQITGSSDAPYKIDAVLNACLLYGRPVYLEVFEDAWRM
+ECNAPVTPLVEKGTSKCRTSARKAAQRVAAMARGKEIIFWGGIEIQRYGIQKEFLDLIET
+TDTEFVTSILGKSIVSENHRKFRGVFNGKASPKDVKEQFEKAQVKIGLGVWTTGKNLGGF
+DVWKDDTVLANHSGVRIGASYVANVSLKDFIIFLKEELTKVTFSAYEMYDTEKKLPKSFF
+VADDSIAKNEKPLLTYDTFFKRINSFINGSHIVVADAGFPLLGAQGIRIAEPNGFVAQAS
+WLSIGYSVPAATGIKCARPDKRPVVFVGDGAFQETCQAISTQNKLKHDTIVFVLDNGIYG
+IEQMLVNPNPFRGADQVDYDIPDLNSVYDYNEMHRWKYAKLVDVFGGKGFEVNTLDELED
+VLQQLDTIKENTIIHVNIPKTSIPEAIAYKTEEPGEDEFLDKDWSLC
+>tr|A0A1S1JEH5|A0A1S1JEH5_9FLAO
+MLSKNIETALNKQIRIEAESSQTYLSMACWAEVHGLEGIAQFMYTQSDEERAHMLKLIKY
+VNERGGHAHITDLKAPKTSYSTFKEMFEELYNHELFVSKSINELVHITFEEKDYATHNFL
+QWYVSEQIEEEATAKSILDKINLIGDDKGGLYLFDRDIQQLTVTSSIAINPK
+>tr|A0A1S1J0F1|A0A1S1J0F1_9FLAO
+MSAHNNAKKGDIADFVLLPGDPKRAKLIAETFLTDVICYNEVRGMLGYTGFYNGKRISVQ
+GTGMGMPSISIYITELIEEYGVETLVRVGSCGSIQDDVNMMDIVLAMSACTDSGMNKFKF
+NGNDFAPTANFELLKKANEIAEQNKIKAHTGSVLTSDFFYTESHLGDPFLNWKTYGVLAV
+DMETAALYSIAAKYRKKALAILTVSDHILKKEALSADDRQNSFKEMIEFALQLA
+>tr|A0A1S1J2E3|A0A1S1J2E3_9FLAO
+MKKIIILLFTTLTFHNIHAQEIKTLTYFQNDTLKLDLDLYLPQKKANKKTSLILFAFGGG
+FSGGERTSEKDFGLFMAKNGYAVASISYSLYMKGKDFGCKGALTEKIKAIQIGVSDMWQA
+TSFLVKNADQYNLDTSKFFISGISAGAEIGFHASFWDYKLMNLYPNNLSPDFKYAGFIGG
+SGAIMDINLMTKEKAIPMLLAHGNNDETVPYNAGSHRSCLTNASGWLILFGSYAVYNHMK
+DLHKNIELITFCGGGHEFSGYLFHEGQQYVLDFVNNVLKGKKIESHLIIPSQKKNSGNYL
+FCE
+>tr|A0A1S1J3W8|A0A1S1J3W8_9FLAO
+MKQFYLLAFIITSSVIYSQEIATTESGKKVQLNKNGTYKYLSSSKNIESTVLKETDFIKT
+EEYVKFKNQEIYVLNGDEKPVLTSFSFGSDFNRFSSLSIEQINSMISTANIKTMFQMKNR
+RTYVPKKISFFFVEKDSTWMINISYIASNDYGGQKDGSAYSTFTDIGAFKDLMIL
+>tr|A0A1S1J4W0|A0A1S1J4W0_9FLAO
+MAKIEKFEDLEIWRLAREICQQIEYLIQNTNLKTNYSLTNQIDRSSGSIMDNIAEGFERN
+GNREFINFLSIAKGSAGEVKSQSYRAFDKKLINKEQHLELNEKVELVKNKIGAMMNYLNK
+CEIKGLKFK
+>tr|A0A1S1J6H7|A0A1S1J6H7_9FLAO
+MKSAKNGIVKMGLSLFFVFTSCDKDSDTLKNGHETVKETKVDLGTHKVMTYSIIHNTKYL
+IVFESGLGDGHSVWDEKKIPAQLNAKLDIVSYDRAGYGKSEKDSKPRNINQLRSELETVI
+NNFSNGRKVILVGHSLGGMIIRDYAVKNPSKVAGLLFIDPSHEYYNQPSQEEEDMLYNLF
+KTNFGENFGGTLEAREIIEDSQYMATLPHLPNIPVIVISSLKVDASTSESDKQKWFKAHE
+LLKEGVFDFTHVSTTKSGHYIMNDEPNLVIDNFNLLLSKIK
+>tr|A0A1S1J8B1|A0A1S1J8B1_9FLAO
+MKKITSICFIALITTSGFSQTFNSKRLDSLFTLLEKNSKYMGSIAISENGKTIYTKSIGF
+DDIASAKKSSIQTKYRIGSISKTFTASLILKAVEENKINLNQTIDKYFPTVKNAKTITIS
+HLLNHRSGIHDFTNDDDYLKWNTQFQSRAKMIERISAGTIVFEPDTKGQYSNSNYILLSY
+ILEDIYKKSYGEILSLKITKPLHLKNTYLGGKINLNDNECNSYTLEGKWNKESETDASIP
+LGAGAVVSNPTDLNLFFESLFAGKVVSIAHLNQMKTIKDKFGMGLFEFPYYDRKSYGHTG
+GIDGFRSVAGYFPNEKLALTLTSNGMGYDNNNIMLCALNSYFNRPFTMPVFSTVEITSTT
+LDLYAGTYGSPQIPLKITISQKNNVLIAQATGQPSFPMEAAAINIFKFDTAGIVLEFNSE
+KKEMTLKQGGKDYLFTKE
+>tr|A0A1S1J7V3|A0A1S1J7V3_9FLAO
+MALNTTNPTGTEAWKNLQNHYNATHKTTIQELFQQDNARVEKFNLQWNDFLIDYSKNNIS
+QETVSLLLELANSIGLKEAISQYFEGAIINQTENRAVLHTALRAPESSVIKVEGENVIPE
+VYEVKNKIKQFSHEVISGERKGFTGKAFTDVVNIGIGGSDLGPVMAVEALQYYKNHLNLH
+FVSNVDGDHVNEVIKKLNPETTLFLIVSKTFTTQETLSNSETIKEWFLKSASQEDIAKHF
+VAVSTNIQKVTEFGINPDNVFPMWDWVGGRFSLWSAVGLSISLAIGFDNYNELLKGANEM
+DEHFKTTAFDKNIPVILALLSIWYNNFFGAESEALIPYTQYLQKLAPYLQQATMESNGKS
+VGRDGKPVNYQTGTIIWGEPGTNSQHAFFQLIHQGTKLIPTDFIGFVQPLYGNEDHHDKL
+MSNFFAQTEALMNGKTAAQVQTEFDKQGLSAEKTSYLLPFKVFTGNKPTNTILIQKLTPK
+SLGSLIALYEHKIFVQGIIWNIFSYDQWGVELGKQLANSILDEINTKTVKNHDSSTSFLL
+NHFLKNK
+>tr|A0A1S1J1Z1|A0A1S1J1Z1_9FLAO
+MKKINLIEDNLNNLTGMWKTVSSSFLSYHTTPLFEYSKVENSGWPNKLWFRKDISKNDID
+EITKTMQANSELAFAYWDIYGTKSYEILDAYGFSLKSEQVAMALKLDQKFTLQNNLSFKR
+VSTEQDAKIWADLYPHAFGYVISKEILIQNYDNVHFYLVSLNAQPIGTFMLFQTQNTIGI
+HGVGVIPEMRRKGFAEEIMKYALNLSIDLNRDYAQLQASAMGKDIYTRLGFEDLFVIKNY
+VLGANSKS
+>tr|A0A1S1J5T2|A0A1S1J5T2_9FLAO
+MIAIETFRSLALSFPDATEEPHFEKTSFRINKKIFATFDEKNNTAVLKLNEIDQSVFCAS
+SELIFYPVPNKWGKQGWTVVELSKVRPEMFEDALILSYQNVAFKKK
+>tr|A0A1S1J6P2|A0A1S1J6P2_9FLAO
+MSQKILLDKINIPGIKTYEVYRQNGGYASVEKALKTLTPDEVTEEVKKSGLRGRGGAGFP
+AGMKWSFIDKKSGKPRHLVCNADESEPGTFKDRYLMEFIPHLLIEGMITSSYALGANLSY
+IYIRGEYMWVFKILERAIAEAKAAGWLGKNILGTGYDLELHVHCGAGAYICGEETALIES
+LEGKRGNPRIKPPFPAVSGLWANPTVVNNVETIATVPWIVNNSGDDYAKIGIGRSTGTKL
+ISASGHIKNPGVYEIELGLSVDEFMNSDEYLGGMSSSRPLKAFVPGGSSVPILPAELIFK
+TANGEDRLMTYESLSDGGFATGSMLGSGGFIVYNDTACVVRNTWNFARFYHHESCGQCTP
+CREGTGWLEKILWRIENGQGREEDIELLWSIQSKIEGNTICPLGDAASWPVAAAIRHFRD
+EFEYHVRFPEKIKNRDHFVAEPFSQVKHLVGKQTV
+>tr|A0A1S1J773|A0A1S1J773_9FLAO
+MSLKNSITTSDYLNFDSTLNKAMKIIKTENNYKLGFLVVFGINAGLRISDILKLKHEDLE
+KDSISLVESKTNKKRVIRLNDNIKNAYEILKTRTDIRSGHIFTSNQSTVITVQYVNRKLK
+EMFATKNVAISSHSLRKTFGRQVWANNGESDKALLYLSELFNHSSPAITKRYLGIRQEEL
+DDIYMSL
+>tr|A0A1S1J625|A0A1S1J625_9FLAO
+MRKQEIKKFNKTLSKNNLTIVCAESITAGMLSSSIASVAGASSILKGSIVTYDRELKSTI
+LQVNPSTIDKYSAESIETTIEMAYGLLKLYPSSDIYVAVTGIASPGTEKYPVSGEVGDIF
+VAVYYKHLKPHLRLQTFITKIESTERNKIREEAVRFIFEKITNMVS
+>tr|A0A1S1IXQ7|A0A1S1IXQ7_9FLAO
+MEVAVNIELKTLNIKQDITYHNTSNDSLISIVLNDWNNAFSDKNTPLARRFSDEFYRGFH
+LAKTSERGSTTVLSLTDSDNSALEWERTEKNPDYIVVKLNKKLRPGEKIDLHLIYIAKIP
+SDKFTRYGFDQNGGMNLKDWFITPARFENHRFMKYDNFNLDDIANASTDYELEIKIPNQY
+AITTDLNPVSNDTTNSSFKTYQFSGKNRTDFSLFIEKQNGFTSYDNGSLEVLTNLKNKRL
+TEIQSAIIINKVVTFANSFIGKYPHQRITVSQVDYDRNPFYGLNQLPSFISPFSDEFVFE
+ITFLKTYLNNYLKNSLRLDPRKDNWVYDGIQIYAMMKYIEENHLDQKMLGRLSDMKLFSG
+FNITNLTFNEQYSYYYMLMARKNLDQPLGDPKNTLIKFNEQIASKYRAGLSFSYLDDYLN
+HNIVPESVQEFYDLNKTEQTNRYDLEKILTKKSPKKIDWFFNTIIGSRDIIDYKFTHVSR
+TKDTVAFRIKNRTGIYAPIPIYGINKNEVVFKEWVEPKTADSTYIFERKNADKIVINYDN
+EVPEYNQRNNWRSIKSLVITNRPIKFNFAKDLEDPYYNQILYIPTLNYNYYDGLTPGMRL
+HNKTILDKPFTFDIEPAYSINAKTFSGSSSFSWNQYYRNSTLYNVRYSLSQNYYHYAPDA
+TYLRLNPMVQFRIREENFRDNRKQLIMFRQVIVNREASTYIKDNSTPNYSVFNARYVNTK
+MELVNHFNFMTDVQFSGKFGKVAAEIEYRRLFENNRKLNLRLYAGSFLYNRTNSDYFSFG
+LDRPSDYMFDYNFFGRSESTGIFSQQYIIAEGGFKSKIAPRYANQWMATLNASYAIWNWI
+EVYGDVGLMRSKHQSENFRYDSGIRLNLVPDYFELYFPVYSNNGWEISQNKYSEKIRFIV
+TFSPKTLLNLFTRKWL
+>tr|A0A1S1J0D0|A0A1S1J0D0_9FLAO
+MNSNEALITKFYTAFANADAKTMSECYHPKIHFIDPAFGLLKEEQVSKMWEMLILKSKGN
+IKIEFSDIKADDSSGSAKWVATYNFSKTNRKVINRISAEFAFQDGLIIKHTDSFDVWKWS
+KQAFGFTGYLMGWTGFFQGKIQEQALLSLKKFQANQTGS
+>tr|A0A1S1J4Z6|A0A1S1J4Z6_9FLAO
+MKQNIYDDIDFFENYGKMPRSIEGLNAAGEWHVLKNMLPDFRSKNVLDLGCGYGWHCIYA
+KEQGAENVIGVDLSKKMIDKAKENSKGLSIEYDQKPIEDIEFENEQFDIIFSSLTFHYIQ
+DLEALFSKINQYLKRGGSFVFSMEHPVFTAKAEQDWYKDENENRLHWPVDHYQNEGVRQT
+NFLGHKVVKYHRTVASILNAVVNSGFNITQISEPKPSEEIIEKYPEMTDELRRPIFIMIA
+AGKS
+>tr|A0A1S1J5G8|A0A1S1J5G8_9FLAO
+MILSSYLDIILRSLSVYFFMTIALRIFGKKELSQLNTADIILILLISNSVQNAMVGPDTS
+LWGGLVAALALFIINYIIKKLTHKYKGLSNLLLDKPEILIHNGELDFKILSKLDISHEEL
+KEAAREHGLEHLTDVKLAMLEIDGTISIISKDKQNLKQTHYKRKHNRKNLQK
+>tr|A0A1S1J7D2|A0A1S1J7D2_9FLAO
+MLFLSVQDLFAQKPKTIIVENADFQEINENEIPGALLLTGNVKVNHDGVVLTCNKAYFFQ
+KENYLKAFGNVQLVQGDTLFLNSKYAEYSGNVKKAFATGDAVMSSPDATLSTDTINFDRN
+IQQVFYNTKGTIINKDNTLVSKSGRYFVTEKKFQFLTAVTITNPKYVIKSNHLDYYSNSG
+HSYLLGPSTITSKSNYIYTERGFYDTKKNLAHFLRKSYIKYDDRLIEGDSLYYNRNIEFA
+SATRNVKITDSINRGIVKGHYAEIYKLKDSMFVTKRAVAINLVEKDSVYIHGKKLMVTGK
+EGERILRAYNNVRFYKIDMSGKCDSIHSNSKTALTKLIGNPILWNGESQITGDVMHLIGD
+KNTKKLDSLKVLNNTFIVSRDTLGTGYNQVKGLNLFGKFREGKLHDVDVIKNTEVIYYMR
+NDDNELIGINKNVSSKINLIIENNDIETITFFNKVDGDVYPEADLPENARKLKGLRWRGD
+ERIKSKDDIFTAEDNEMNDKLIQEGKDEEAKDKNVPLKVRKETLDYGKKKPAVKTTTNAK
+SKTKK
+>tr|A0A1S1J846|A0A1S1J846_9FLAO
+MKILLTGATGYIGKRLLPLLLDQGHEVICCVRDKSRFYYPKRDTKNIHLLEVDFLDAKSV
+EKIPDDIDAAYYLIHSMSGAVNYDELESISARYFKEKIDRTAAKQIIYLSGIVNDKSLSK
+HLSSRKAVEEILKNGKTPTTTLRAGIIVGSGSASFEIIRDLVNKLPVMITPKWLNTKCQP
+IAIGDVLEFLIRSLLNPKTYNESFDIGGPDILTYKEMLLGFARAKKLKRYIYTLPVMTPK
+LSSYWLYFITSTSFKLASALVSSMKVEVVCSDSRINDLLSVKPMNYEMALQRALTKINED
+AVASSWKDSQISGQFKGSVAYYLKVPKKDCFIDRRKRKIIDRDAVISKIWSIGGETGWYY
+ADWLWSLRGFMDKIAGGVGARRGRTSRHEIHAGDALDFWRVVYADKKEGKLILYAEMKLP
+GEAWLEFKIINNKLYQAATFRPKGILGRLYWYSVLPFHGFIFNGMINELTR
+>tr|A0A1S1J2B7|A0A1S1J2B7_9FLAO
+MKTSKFPIPVNESERLAALKRYNILDTLPDHAFDDATKLVSYICDVPIAHISFIDESRQW
+FKSEIGIGVSEVPREISFCQYTILESKMVEINDTFLNERFKDDANVTGGFKVRFYAGIPL
+TTPDGYNIGTLCAIDHVTKELNEDQRNALRIVAKHVISQLELGTKNIELDKQKKIAEKAV
+LAKDSFLANMSHEIRTPLNGIIGFTDLLAQTKLDTVQRDYINSVQIAGENLLLIVNDILD
+LSKMESGNLTIEAMPFNLKSTLKHIYNLLKIKASKDVEFNLFLDADMPEIVIGDEGRLNQ
+ILVNLIGNALKFTQEGEVTVSVKVMEQTEDYYSLKFSIKDTGIGIPPEKLKTIFERFTQA
+EDSTTRRFGGTGLGLNIVKQLIELQGAEINVKSQENRGSEFFFVINYKKADYIQETDEKI
+SGESLGKLKILLCEDNVLNQKLAKSVIYNFGFELEIAENGEEGIELLSKNEYDLVLMDLQ
+MPVKDGYQTTDYIRNEMNSSIPIIAMTAHSLVGEQERCYNVGMDGYVPKPFKQPVLLEAI
+RAVMTPEYKVTRKRKVNLSLIDEMACGDLNFRQDMINLFIEKIPNEEVLLQEAFKNNDFL
+KVKNLTHNMRSSLDLFMLDDLSNCLAVIEEEARTEKFTNDAADKVNIFHCGIIEVIKYLK
+EL
+>tr|A0A1S1J2R6|A0A1S1J2R6_9FLAO
+MLKPTFIKINLIVLLLIFSTKTMAQMTENSVLPDNLKWSQGTALTILDKYPKAWQIDGTE
+KPKWDYKMGFVLFAFEKLYQKTSDKKYFEYIKEYADELIDANGKIAKYDKSEYNIDCANP
+GKLLFGLYDETKDKRYLEVLQELRDQLENQPRTASGGFWHKQIYPNQMWIDGLYMAEPFY
+TQYTVKFENGKALNDIAKQFELVHDHLTDKNTGLVYQAWDESKEIAWANPQTGTSPTIWG
+RGIGWYMMALVETLEYYPKTHPKYKVLKEYLNQIAKTVVQHKSTSGLWYQIADKPEMNGN
+FLEASSSAMIIYALAKGADKGYLNPVYKKTAQKSFESYVKEFVITDDQGHIVISKVSSNV
+GLGGKPFRDGSNEYYIKSKAKDNSSPALAAFLLSALELDQ
+>tr|A0A1S1J4W5|A0A1S1J4W5_9FLAO
+MELNEFRTSSGEIILYNGQPDLEKLEVLCSGAGDIWHSSFEQGYKNAFPELVYQTATFFW
+YINDFDNLDECVSWRINSNSFAIRKSVWETLGGFDPEYQNHQIQALDFGYNALRNSAAIP
+LYIKGLFTDNIKEEINITAKDRYIFFRKNFKKEHSLFMLYREGFWKTKEWNAFFYAAKNF
+KRSSEKPVIKPRELNRIEGKPSVSYIIPTMMRQDFTLQLLEDLSVQSYPVAQVVVLDATP
+EALRNEKLYSEKEFPFELIVKWQQTKGSCRARNEAIELCTGEYIVFGDDDVRVQSNFIEN
+HIRLMQTYNVSVCNGLDVRADNEQQELKDLEVKLEKLGEKRWKSGASSTFSNANSCVKTE
+YVRKLTGNDINFDGGYGEDTDFGISLAKLGQVVILNPFSPNLHLKPPVGGYRFWGNQAKI
+IGKKRKTQPWELDTPVKIIRPVPSPTIMYGIVKHFTPQQVIEYKYKYFFLYLFKGSKKGL
+LYRFFRIPYKNLQFKKSLFYAKKLNDLGIRYK
+>tr|A0A1S1JC80|A0A1S1JC80_9FLAO
+MQNSTHYLAFNDFESIPKIDLKEDEYYLFQYSSDSNLDQGILKYYLEFLPQKFRQEVLKY
+RRWDDRYNCLFGKLMVCMGSHILGNNTFEFDKIVKDIYGKPYMLDSSFNFNISHSGNTVV
+CVFSKQEIGVDIEEINEINYSLFENVFSTQEFAEINRDGLDKFYEFWTRKESVIKAIGKG
+MSIPLTEIEINKGHVTYGEDTWYTKSFKIDNKFCSITTKYDQIKSRQTHILF
+>tr|A0A1S1JCH7|A0A1S1JCH7_9FLAO
+MATITAADVNKLRQSTGAGMMDCKKALVEAEGDFDKAIQILREKGQKVAANRSDRESSEG
+AAVSFINADNTKGAIITLNCETDFVGKNEAFVTLAKDLVEKAINFSSKEEFLASDFNGIT
+VAEKLIEQTGVIGEKIEIGGFEILEGAFVGSYVHVNKIAALTAISAPIANAETLTKDVSM
+QVASMGADTLSYKDFDPAFVESELAARIAVIEKDNEEAKRLGKTLKNVPKYISFSQLTEE
+VIKQAEEDAKAELKAEGKPEQIWDKIIPGKIQRFISDNTTLDQEKALLDQNFIKDDSKKV
+GDYVKGFNVEITGFKRVTLG
+>tr|A0A1S1JCW0|A0A1S1JCW0_9FLAO
+MKVKVLLPLLGCLMMLLTASASFAQTGTIKGTVSLSNDEAADNISVTLKGTKIGTTTDAQ
+GNYEIKNIRPGNYILKVSVIGFSSKEKNVEVSAGSNLVENFTLLTTSEALTEVFVKGNAN
+KYTKSESQYVSRMTIKNLENAQVYNVVTKELIKDQLVTNQDEALKNVPGLYQLWAATNRA
+GDGASWYSLRGFTTQSLVRNGLAGKVNSNTDAVNLERIEVIKGPSATLFGNVVSSYGGLI
+NRVTKKPYDNFGGEISYQNGSYGFNRLTADINTPINDDHTALFRLNAAFGNANTFQDFGY
+SKSFFVAPSFAYKVNDKLTISIDAEIGNQDNSGMPLIYLPFGVSIADLGVNNAKNLDVNF
+KRSFLGDEFMTNTKTLNVFAQALYQISDEWTSQTVFSSSSNKASGLQTWFYLLKDQEFSR
+NAWDANGKDNAIEFQQNFNGDFKIGSMRNRFLVGGDIYYGSNKLLYQSLPGYAPFDTIKY
+TGAVTTYYDFNPTNVKDALTGKGNAPYTTNSSIATYSVYVADAINITERLILSAAVRFDH
+FQNKGSFDPASNTKADNFSQNAFSPKFGAVYQIVKDQVSVFGNYQNSFTNKGFLNANVGG
+KLEMKQFDPEKANQLEVGVKVNAFQNKVSATFSYYDIKVDNIVIADPNLPNASIQNGTQY
+SKGFEVELTANPIPGLNLLVGYSNNNSKLNDLRPVTAGPENLINYWFSYNLQKTKLKGLG
+LGFGGNYGDATYIYNNGPGQTFELPSYAVVNTALYYDQPKYRVSLKVNNLTDQLYFNGYT
+TINVQAPRTVMGSLTYKF
+>tr|A0A1S1J1I0|A0A1S1J1I0_9FLAO
+MSATWYECKVKYRKTDETGGQKVLTEPYLVDALSYTEAERRINEEMSAYISEEFKITNIK
+VANYAEIHPFENTDRWFKSKVSLLAYDEESGKERKSNMYMLVQANDVREAYDNTLHVMQS
+TMGEYSIPAVSESPIMDVFPYFSGEEGEAEQLERFNRLKASKPVQAAAEVIDHMEFETAL
+EE
+>tr|A0A1S1J348|A0A1S1J348_9FLAO
+MNTTLIRTEVTEKGVQQDQDFYKDIFHQNSGTEYAQAMKLAQERVSNFLKNNKKPFSGIK
+PEEIRAKVEEIDFDTPLPDYESLLNEVDELYVNHATAFHLPEYIAHLNCPVVIPALAAEI
+LISAINSSQDTYDQSAGGTFIERKLIDWTSEQIGYTQGDGVFTAGGSQSNLMGLLLARDY
+YALQYQKWNIKLEGLPPDAHKYRIFVSDKAHFSNHKTTWVLGLGEQAIVNVGVDQRYRMD
+PEKLEKAIADEIRRGNIPIAITATAGTTDFGNVDPLKTIADIANRYNLWLHVDAAYGCGL
+LLTEKQRHLLNGIELADSVTIDYHKSFFQPVSSSAFIVKDKLQLNIIKHHADYLNPKEQN
+YDVLPAQVNKSIVQTTRRFDALKLWFTLRYMGKKKLGQFTEALIEITQQTAAYIEADPNF
+ELLCHSDIGILLFRYLDGPVESNSCDVNKYIKEKLFYGGEVLVASTKVNGEFYLKFTILN
+PLTTLNDIKNILNLIKQNGDEYHRLN
+>tr|A0A1S1J1I9|A0A1S1J1I9_9FLAO
+METVKDFFQSVYDSYKDRIKNPLIGSFMISFIIFNWRAFAILFISDWPIHTRIKWVEDHY
+SENKNFVWPFVISIFYVLILPYINLGLDWLLSMYSNKKMLKINYKRNTELVRRKAEAVIL
+REIADAQAGTSEINNLKERNDSLVKELNNTVIQMEEDLKRHNATVEQYQTREKELKEQNR
+KYVIAELLNNDVEFYVTSEDIQKMNEIYNVMTEKGRTHYLEAITELENENYKGDLNSLLR
+YRDLDLVEFDSDESGKKIRKVTNLGKTFFTYLKKGYDLM
+>tr|A0A1S1J3S0|A0A1S1J3S0_9FLAO
+MNWNRYIKDYQSYLRIERGLSKNTIENYGFDIERLCLFLETNSIEISPIKIDDETVQQFI
+YAVAKEVNPRSQARIISGLKSFFNYLVFEDYRNDNPMELIETPKTGRKLPDTLSLDEIDS
+LIAAIDLSTNEGERNRAMLETLYGCGLRVSELVSLKISDLFFEEGFVKITGKGNKERFVP
+VGKFAQKYIQIYQKEIRVNLKIKKGCEDTLFLNRRGNQLTRAMIFTIIKDLAVKINLHKS
+ISPHTLRHSFATHLLENGADLRSIQLMLGHESITTTEIYVHLDRSFLKEVMLSFHPRK
+>tr|A0A1S1J3E9|A0A1S1J3E9_9FLAO
+MNLEELFHQYKEQTIEGRYLTLDHIQPLLEQLNTNNQVEIIGKSVLGEPIYSYQIGSGPT
+RIYLWSQMHGNESTTTKALFDFINVLNSGSEFAEKMLKNFTFYSIPMLNPDGARLYTREN
+ANKVDLNRDSQNLTQPESNILRSVFEAFKPHFCFNLHDQRTIFGAGETGKPATLSFLAPS
+YNEEREVNENRLKAINVIAGINDVLQQYIPGQVGRFDDSFNINCIGDTFQHLGVPTILFE
+AGHFPDDYEREITRKFLFFSLVSSFQLISENDLVDNRINDYLNISQNKVVFYDFMWKNIK
+INYDGIEIITNFVAQYKEELIENKIHFNAYIVEVGDLENYFGHYEYDAKGANYSDDFGSF
+PKLNQKADFCLDKNVKFVNGLIKS
+>tr|A0A1S1J915|A0A1S1J915_9FLAO
+MFPLKKYLSIVAFLLLLSCQSETDEKDDTAQGTVTNVSPLTTYLQRVAMVQTVQDNVIDG
+SSYCTIRLPYTVTVNNAKIAINSTADYKKVTDNINANAYDDDIVKIDFPVMMVYYNYIEK
+NIPTESDFKALIDYWNLYPDLLSKINGLKVNYPITINIYNSANQIASSVSIVSDQTFFNF
+IKNLNSSQYISLKYPISIADYNNQTKSISNNLEFENAIKYAIDNCPENNIVTLDFPQTIT
+KGTWEIPYFFDDSEKTSTYIGYSLVFKSDKSVVATKGATSQTGQWESTLQNGVREVKIEF
+NSEPLSKLNRSWRLFEFNNSQIRLRDISTTTDYLYLQKQ
+>tr|A0A1S1JA38|A0A1S1JA38_9FLAO
+MKTTWTLDSSQSDVLIKMRHSIIAYMGGTTNKFGGYVNIEDNEVEDASVEFSLDINNKID
+NFQQIDTYLQLQDLFDVNEHPIISFKSTSFQKVNNNINFFKGDLTIKDVTKVVELDAEFI
+GVNTYNGEKKVAFEIKGDIKRQDFGLDYNSFSHNGGLALGKDIKLIANLEFSI
+>tr|A0A1S1JBW9|A0A1S1JBW9_9FLAO
+MKKIIEIICVLFTVASINAQQEKGIIGYTNWLSNWSEFKPHKVEYGEPNQILTGNISVNT
+KLLKRNIYVLQGNVYITNNAVLTIEPGTLIIGDFQTKGTLVITKGAQLIADGLETDPIVF
+TSNRGLKKAGDWGGIVILGDAPTNKFGNIGSYNLDLDPSLTTYGGDNTFSNSGILRYVRI
+EFAGKNLKNVATFNGLTIAGVGSKTILENIMVSYCGGNSFAFYGGDVNAVKFVSYKSIND
+DYKFTQGVQCRLYNSLAVRSSYLSSNKDGSRSMEVKLYENKNETDFTKKQTFVSATNITL
+LNDSENINTDIQSGLVKEALYVAEGASLEMKRSVISGFNPAVLLDSKTEINSANLKRIKF
+EEMFFNLCTGNILTEGNRNKEDLEHWYGNSLFSNVYSKSDNKETFVDIFNIKRPDFRLQL
+GKITAQNGNR
+>tr|A0A1S1J1A1|A0A1S1J1A1_9FLAO
+MKEVQIPQTLITLAVGLAIWFIPAPDGVVAEAWHLFAIFVATILGIILKAAPMGTMCMIA
+IALTAFTQVLAPGDAGKSITLALKGFGDKVIWLIGISFFIARGFIKTGLGNRIAFLFIRI
+FGKSSLGLAYGLGLADLVLAPAVPSNTARGGGIIYPIMKSMSMSFGSMPDQPETHRKLGS
+YLTLSSYNANLIASSMFLTGTASNPMCQKFALNLGIKISWISWATAAIVPGLVAFFVIPL
+VLYKIYPPELKKTGDAPQIAAQKLKEMGAITRNEWMMLLTFFILLFLWMTGDLFSIDATT
+TAFIGLVILLLTSVLTWDDVKAEKGAWDTIVWFSVLVMMASSLNELGFIGWFSDVVKAEI
+GGLSWQMAFPIIVLVYFFSHYLFASATAHVAAMYAALLGVGISLGIPGLLLAFMLGFVGS
+LYGTLTHYGHGPAPVFFGSGYVDLKSWWVKGLITGLVMLFIYMVIGGLWLRLIGDF
+>tr|A0A1S1JC95|A0A1S1JC95_9FLAO
+MKKIVLLILVLTTLGFDTQKEDAFDTGEYFKFRIHYGIINAGYATLEIKDATINNKKVFH
+AVGKGYTTGMSKFFFKVEDLYESYFDKQNGDPYRYVRKINEGGYTKNQEGFFDQSEKKVL
+VKDYKRKTEKTIVITDNVQDIISSFYYLRNHPNIDKLKSGEAITIDMFFDDEITKFKLKY
+VGRQDITTKFGTVSSMVFKPLVQTGRVFKEKESVTLWITDDENKVPIRIKADLAVGSLKA
+DLDEYKGLKNPFKAKK
+>tr|A0A1S1J6Z8|A0A1S1J6Z8_9FLAO
+MKIKYFEYITVYLSVFLVCVFVGVIGRLVLLEKGADEYTAGVFFWISTGFGVLMFAILSL
+FLNELAAGILNRFLKAEKKQSPESLITSEDLVKIEEGLQNGLIKPEMPEKKNSALDIEKI
+REERQNAVRNQKQERIDTAIRYAQQEFAMYASDDDLKQLSKNIIIYAEEINFEKIKPVKV
+KDLSNLDLYHFGWNIWNCFKVSKQDRAAHFLKLTFADALKDVEENSIKTHLKDDEQKGLI
+KIIEDFTDF
+>tr|A0A1S1J7J7|A0A1S1J7J7_9FLAO
+MLKLKKPRIYYLFAFLCVICCGILSRKIAVLPLYFGDALYAVMMYILIRILFFNQKTSIT
+AIISLTICYGIEFLQLYQADWMITLRKTLFGRYVLGQGFLWSDLLAYTLGITTAFIIEKI
+ILNYTTYENRIRIKQQK
+>tr|A0A1S1JCC8|A0A1S1JCC8_9FLAO
+MNLLESIDKTNLPQHLAIIMDGNGRWAKQQGFLRAFGHENGTKSVKNTIKTCAKLGIEYL
+TLYAFSTENWNRPKLEVEALMKILINSLKKELGTLQENNIKLNAIGNLEKLPKSAQKELL
+DVIEKTKNNTRLTLTLALSYGSREELVQAVRIISDKVKNNIISIDSIDDSIINEHLYTQN
+LPDVDLLIRTSGEHRISNFLLWQIAYAELYFTNVLWPDFKDQDLYEAIISYQKRERRFGK
+TSEQIK
+>tr|A0A1S1J576|A0A1S1J576_9FLAO
+MEKSEKIIWALRIIAAGILLQTLFFKFSGAEESIYIFSTLGIEPYGRIGSGIAELVVAIL
+ILIPKTTWIGALGGCGVMAGAILSHLFVLGISVQNDGGLLFLLALITLLCCLGLLYFNKS
+KLFNLLNLK
+>tr|A0A1S1JBS1|A0A1S1JBS1_9FLAO
+MKINKYNSLVFAVLFGFGLSGQAQTKKWTLEECVRYALENNITIKLSELDVQNAAIDKRA
+AFGSYLPSVSGNASHSWNIGLNQDLTTGLLRNQTTQYSSVGLSAGVDIYKGLQIQNTYRR
+TKLAIIASQYQLLKMQEDISLNVANAFLQILSNKEDLKIKQEQLTIDEKRLARSEEMVNA
+GTIPRGDLFDLKATVATDKQNITVSENNFLISKLSLAQLLQLKEFTDFDVVDDTNAKDEN
+NIMAQTPDEIYNKAKETRTELKLAQTNLEIAQKNVTIAKGAYQPTLRGFYGFDTRASYSD
+RTRLDENNKPYSVGPDPIFKQFSDNKGHNFGFRLDVPIFNGFSIRNNVERSKVSLEKSKI
+DLEQKSLDLQRNVYTAFTNAKGALNTYESSTVTLEARQQAYNYAKEKYDVGLMNSFDFTQ
+AQTLLTNAQSDVIRTKYDYMFKIKILEFYFGIPIVPIVTK
+>tr|A0A1S1IZ61|A0A1S1IZ61_9FLAO
+MKNIITQFSRLFVGVLFIISGLIKLNDPVGFSYKLAEYFSEPVFNIPFLEPLALGLAIFL
+VILEVVLGVMLLVGYKSKLTIWALLLLIVFFTFLTFYSAYFDVVKDCGCFGDALHLTPWQ
+SFTKDIVLLFFILILFINKKLVKPLFSKFVTNILTLISIILCVIMAVWVLNHNPIKDFRP
+YKVGSNIEKGMEIPEGAPKSVVEMIFIYKVNGVDKEFTEKDLMNIPEGATFVDRKDKVIT
+EGYVPPIHDFTMTKDDSDYKDELLKEPKLLVFVTYDLTLSNPEGMKKLETLNKEAKTKGY
+KVIAMTASGPDEITKAKKQYGLDVDFYFCDATTLKTIERANPSIVVLQNGTVVQKVHYND
+ISDLKL
+>tr|A0A1S1J746|A0A1S1J746_9FLAO
+MLESRKIAHLINSIGGFKSVSLIGTKSHSRNTNVSIFSSVFHIGANPALIDVIFRPSPPQ
+RDTLSNILESGFYTLNHINESIYKKAHQTSARYDAAVSEFDAVSLTPEFKNGFQAPFVQE
+SLIQMRIELKEKIDISINNTTMIIGEIVQIYIPEDCVSPDGFVDLEKANTITCSGLDSYH
+KTIQLARLSYAKPDKEITSLL
+>tr|A0A1S1J4S3|A0A1S1J4S3_9FLAO
+MKVLKYILDFYLNGSIHVALSCYALIRITFHVFHIQYDESMALFGFLGTIVGYNFVKYDV
+LVRVQKKKIGNQLKIIAILSFISLFLVGYYFFQLKRITQIVSIVIFLITALYTLPFFPNR
+RNARNWAGVKIYIVAVCWVGATLVLPLINAEIPFTSDFFIKCIQRFVLVFVLVLVFEIID
+LANDDPHLQTVPQTIGVKRTKILGLLLLIPFWGLEVFVSTFNYHDAFINLIMIFVLMLFI
+AFANPNRSKYYTSFWVESVPIFWWLMILFL
+>tr|A0A1S1J583|A0A1S1J583_9FLAO
+MSVHVVLAQDEKVQKFREATDNSKSGNYKEVLSNLFQLGTSNLTGPNKSVEFNSTLYGIK
+SIFWDNITTDTVFSKQKFSRNFEFNTKLNFDEQFNYKGFSGGITYALINQRDKDVVNFAK
+TALALDYKFWTSELSEIQDKLVSELDKTGDKKFSEKIEAINIASSILTNKEFDKIDDSNI
+YFNKIITEFENRNKSIKLKDYIAKIHELRDKEYSNLEKKALWTVSLNGTTNDKGNNKKLT
+FGTVFLQGFKNLELDIRSNLVYSDTLIEKSVQRLELRNSAGLNYKMFKRNDQSVFEIKLY
+MEYNSILKNKLADEKKNTFLASSDFRIRVTKDIWIPLTIKYDIEKSNFLGFLNITYNFGK
+EDEHKLVLNE
+>tr|A0A1S1J1K5|A0A1S1J1K5_9FLAO
+MKKQSSKALLTMALFVGVSSVWAQQTPPATVVNPVNNYDYHDAFGPNFYTKNGTPTRSAN
+GQPGVEYWQNRADYQITAKLNGTTNEITGTDEITYTNNSPEKMSFVWLNLDQNLFKNDSR
+GNAVVPLSGSRNGAQGQVFDGGNKIKSVKVISGGKKKTEIEAKYIVTDTRMQIFLPETLA
+SKGGAVKIKIEFSFVAPFEGSDRMGVLETKNGKIFTIAQWYPRMCVYDDVKGWNTAPYLG
+ASEFYLEYGNFDVKLTVPANHYVVGSGELINGAEVLPAEQLKRYKEAGQSDKTVTIRSAE
+EVAAAANSKTTGEKTWHYQIKNARDFSWASSAAFVLDGAKINLPSGKKALALSAYPVESG
+GKEAYGRSTEYVKASIEHYSKKWFEYPYPVATNVAGNEGGMEYPGIVFCSWESKGQDLWG
+VTDHEFGHIWFPMIVGSNERLFAWMDEGFNTFINSLSTEEFNKGEYKEAPSNLHKLAEPF
+TRPDLETIMSSPDNMKEANIGMLCYFKPSSGLVILREQILGKERFDLAFRTYIERWAYKH
+PQPDDFFRSMENVAGEDLSWFWRSWFVNNWRFNQGINSIKYIKNDPSKGVAITVENFDKM
+PMPVILDVKTKSGKVTRVKLPVEVWQRNNVWTFKHNSTEEIESITLDPDNVFPDNNQANN
+VWTASNGKIEKDVVLDGYLGTYSTSKAPLKIDFTEKNNVLNVLITNYPKFTVKAVENEKD
+VFQSAEAGLKFKFNEAKTGFDMIILSNGNAIPFTKN
+>tr|A0A1S1J435|A0A1S1J435_9FLAO
+MNTTKNQFLLIVLSVLFLSSCGDKTKKETSKIKTLPVYKVTLQDTIVSNRFVADVHAKNN
+VEIHVRIPGLLDKVYVSEGQKVHKGQLLFKISDVELQIQLLKAQAVYKSTMADLRIATVE
+LEQAQTLFNKKVIADKELELSKAKYEAASAKVAHAVAERKAINQQISFTTIRAPFDGTID
+RIPFKEGSLVENGSLLTTVSQLDDIYAYFSIPENIYFQMMTDKSLNKPGGDIKLELPNGV
+VYNQKGELRTADGEIDRQTGSIQYKAKFHNPQGFIKHGTSGKLIISEPKKNVILIPQKAV
+FSIQDKQFVFLVNKEGIVKMTNISIGSTLDDVFILNKGLKSDDLIVQEGTQSLRDGDKIN
+IQNASL
+>tr|A0A1S1JBI6|A0A1S1JBI6_9FLAO
+MLKNNFRYIAFLLVFFMLSCAKRGSITGGLKDTLAPVLKYSSPKNFSTDFKGNEIILGFD
+EYVKLKNLNKQLIVSPPMKHEPLILPTTPSKVITIKIKDTLLPNTTYSFNFGQSIADNNE
+GNSINQFKYVFSTGSSIDSLSISGQIKDAYEKNVDNFVSVMLYEINDTYQDSLIYKQSPR
+YITNTLDSLRTFKLENLKAGKYLLMALKDKGSNNRYNPKDDKIGFIKHYITVPNDTVFEL
+ELFKEVLPFKAVKPVQASGNRLYLPYESKQNFKLSKPKVVLKHGNDTMETIVTAFPKKDS
+LQIWYKPLKVKADSLAVEVSKEKYNKRFSVKIKDQKKDTLNITAVQNGTINFRDRFTLES
+TTPLVKFDKSKIRLVNKDSTAVDFTTEYDEFEQKLYVDFKKEPVEKYSITFFPGALTDFY
+EKTNDTLAIKLSTKEPADYGNLVLNLKNVKRFPIIVEVTNAKGDVVYASDYSEGKTKIEF
+NLLVPDKFTIRIIYDDNKNKIYDSGDFLNKKYAEEVFYYQTPVDVRTNWDVDQAIDLSIP
+FNPEVEKKQAEKKKKDEEKKRKAF
+>tr|A0A1S1J333|A0A1S1J333_9FLAO
+MTTHLALLRGINVSGHNMIKMEALKIMLENMGFQNVRTYLQSGNVFVDTEEESPSKVGFM
+IKQEIFKVFGHEVPVIVIAKEDLELCFSNNPFLKEKDIDIKKLYIVFVSIALKKESIHDL
+KISQFKPDEASIDENRIYIKYDIGAGKTRLELKYIEKKLNVIGTMRNLNTVTNLLNMYV
+>tr|A0A1S1J9C5|A0A1S1J9C5_9FLAO
+MEEIINKVANSALEVFDLEDYYPKGARVQIDISQWLLEGFLLKEKDFREHLKNHDWSQYQ
+DQYVAINCSTDAIVPAWSSILVAIHLAPYAKKVVNGTIEDLESSLYEEILSKLDYTPYKG
+KPVIVKGCSRKPVPTRAYILAATYLQPFARSIMYGEACSAVPLYKEPKK
+>tr|A0A1S1JA32|A0A1S1JA32_9FLAO
+MKNFDINEDPHRRFNPLLNEWILVSPHRAKRPWQGQNETLATETLPKHDPNCYLCPGNVR
+ANGEHNPTYKDSFVFENDFAAMKQDEIIFEEDIKHTFFKTKPEQGISRVVCFSPRHDLTL
+PEMEIEGIESIVKVWQKEYAELGSIKYINHVQIFENKGSIMGCSNPHPHGQIWAQSSLPT
+QVERTQQNLKSYFDKNNRTLLQDYVQAELKTGDRVVIENDDFIALVPFWATWPYETMIVS
+KRVVNKITDFTEEETNSFAVILKQLTIKYDNLFSTSFPYSSGIHQSPTDGLEHPEWHFHM
+HFYPPLLRSATVKKFMVGYEMLGESQRDITPERCAEVLRQQSDIHYKQK
+>tr|A0A1S1J7B3|A0A1S1J7B3_9FLAO
+MKGKIILLSALFFMTTGAISAQAKNAPRSIISTTAIIRKYHDQKELSGMQKGELLELYIE
+RIKVLVKTLPYIALVTKPGVTMADLGIPDDNEHKKVLDGQAVGTTTFLDTTVEFQRKMMP
+YSDKGNLIAAILFYESTLKSLHEFNELNEM
+>tr|A0A1S1J811|A0A1S1J811_9FLAO
+MVNKIEHIGIAVKNMEDANVLFEKLLGVPSYKMESVESEGVLTSFFQTGTNKIELLVATN
+PESPIAKFLEKKGEGIHHIAFDVEDIHAEIARLKNEGFVLINDVPKKGADNKLVVFLHPK
+NTNGVLVELCQEIK
+>tr|A0A1S1JAF2|A0A1S1JAF2_9FLAO
+MILNLDPKFTPILNKEEIKFQSFTFSGGEPHIKISPDFDNTQKVTITHRLNSFNDLGLLC
+ITVDALRRMDVKVIDLFIPYFPAARQDRVMIKGESLSVKVYADIINTLQLNKVFVFDAHS
+EVTPALVNNCEVIPNHTFIAAVLKEIGENVKLISPDGGALKKIYKVSEFLGGIEVVECSK
+SRDVKTGRLSGFKVYEDDLNGMDCLIVDDICDGGGTFVGLAEELKKKNAGKLYLAVSHGI
+FNKGFEVLNCFDTIFTTNSVKDFEGESVQVIGLDQLV
+>tr|A0A1S1J184|A0A1S1J184_9FLAO
+MTNSNRRNFIKTAAIASVAVALQSFQSNSEEEEKNIVSKKGKKPIVLSTWRFGIQANEAA
+WEVLKSKGTALDAVEAGVKIPEGDPKERSVGYGGRPDRDGRVTLDACIMDENANIGSVAA
+LEYIKHPISVARAVMEKTPHVMLVGDGALQFAVAQGFKKENLLTEESEKEWKEWLKDSKY
+KPIANIENHDTIGMIALDANGNLSGACTTSGMAFKMHGRVGDSPIIGAGLYVDNEIGAAT
+ATGHGEEVIRISGCHLVVELMRQGKSPQKACEEAVARIVKLTKNRNKDLKDIQVGFIALN
+KAGEYGSYCIQGGFNYAVYDDTGNRLIDADFFLK
+>tr|A0A1S1J5A3|A0A1S1J5A3_9FLAO
+MEIYLVRHTETTCEKGICYGQTDVDLAVPYEEIFKDIVSQLPLEALLFSSPLKRCTMLAQ
+YIQNTIKPASFIMDDRLMEMNFGDWELKNWDAIPTEELNPWMEDFVTTQVPNGESFTILH
+ERVGTFLEDYVFNQTTPVVIVSHAGVIRSILCHQSGLPLKDAFTNKVAFGQVIKIVN
+>tr|A0A1S1JB88|A0A1S1JB88_9FLAO
+MPKILLIEDDISFCKLLEKFLIKKTYEVAIAFSAAEARVAIKKESFDLILTDLRLPDSDG
+IGLMAEIKTAYPQVPVILMTGYSDVNTAVKAIKNGAADYISKPFNPDEVLLVITNALKAS
+EEETDEVVVKEKKTTKKQTAAENEFVKGISIASKKLLDHIQLVSPTDMSVLIIGESGTGK
+EIIAKSIHQQSLRKNNNFIAVDCGAIPKELAASEFFGHLKGSFTGAISDKMGYFEAANGG
+TLFLDEIGNLSYENQIQLLRALQERKIKPVGSNKEINVDIRIITATNEDLREAVKNGDFR
+EDLYHRINEFSILSPSLKEREEDLMVFADYFLEKANQQLNKEVIGFSPEVVAIFQNYNWP
+GNLRELQNCVKRSTLLSKGEFIESDVLPAEFFQIQKPTSSNDNFSLSENEREAIIQALSR
+AQNNKSEAAKLLKITRKTLYNKLKHYNID
+>tr|A0A1S1JC59|A0A1S1JC59_9FLAO
+MRKIIIMPMLLASFIVFSQEKIVTKSAAITLEASVPSFQPVAGTNSNVTFVLNPATGEVA
+SLALMKGFQFEMALMEEHFNENYMETDKYPKAVFRGQIEGFDIKSLTEDYKDYIIKGKLE
+LHGKSKDIKAAAKITKTGPRITIISDFAVNASDFSIPIPSLIKYKLDDKVKVQIIAVLK
+>tr|A0A1S1JFA6|A0A1S1JFA6_9FLAO
+MKSLVLTLFFFFFTFILTAQKSEYSSAAIADSLKENANAVVRFDQIDIAILSQRTMNAKN
+RRVVTVLNEKGLSAIQAHEYYDKSTSVRSIEAVVYDAFGKEIKKVKRKDFKDQSVVGGST
+LFSDSRVIYLDYTPISYPFTVEFSSEVQTSSTAFIPSWMPLKGFYSSIEKAVLNVVYPAD
+LGFKKKELQFSGFNVKKTTDTSTQLSYTASTILAQKQEDYSPVYRDLFPKVMMGLEHFHL
+EGVDGTATNWTDFGKWYSEKILSGTTDLPEETKVKIKAIVGNEKDPIKKAKLVYDFVQKK
+SRYVSIQVGIGGWKPMLATDVDRLGYGDCKALTNYTRALLQAVDVPSYNTILYGDSNKTN
+IESDFVSMQGNHMILSIPNGSQYTWLECTSQDDPFGYQGTFTDDRDVLVVKPEGAEIVRT
+NIYEDKGNTQIEKGTYTIDESGHFSGSILINSEGSQYASKTRIEHLQPTEKEAHYKEYWD
+NINNLKLGKITLNNNKETIRFTEDVQLSALNYATVSGNKLIFVVDAFNQSATNVKRIRNR
+KNPFQIQRGYADTDEIEVNLPVGFAIEFLPSNFELKGKFGEYKTEIIKKENNKLLYKRSL
+FLNKGKYSNKEYDDYRLFMEQIAKNDNAKIILTKN
+>tr|A0A1S1J1B8|A0A1S1J1B8_9FLAO
+MIKKLYVLSFICLFISKINAQDTAVKEGTEVAGKEVKSYLVKDFPEGVYKTYEDFIAKTG
+IFMGDALERRTIVGYKSIEKNVDAYHVFFCWKRNNIKITDYFAIVYNGNLYIQQRYLMKF
+ASKEDGNMSADNPNSYHRVLNDGKFLYLEGPFANMWSKAFAYNAGAVGGAILANLNTLKG
+IVFNVDKKEFNFIRECENLNALIEEYNGVKIECKDKKVDILTVRENVDKIIK
+>tr|A0A1S1JD91|A0A1S1JD91_9FLAO
+MKKILFPTDFSEAATNAFVHALEFAKIVNAELVLLHTFEIPVYDSQFFPENYASIYSSIE
+LAKFEMFKDEIPKLRTIAAERKLDHIVIKHRLMDGDLIFNLKNAVEEDHIDFVIMGTSGV
+SDWTKFFLGSNTSSVISEVKVPVLCIPADAKFKKIKTIGFTTRYREKDKAELRKVLEIAK
+KTNAKVKSLYVRASNTDVSDATIKEWDKEFAHENVEFLVLPSDEVKETILDFVLYKDVDV
+LTVITHKKSFFESIFESSFSKKITKEVSIPVLVMHES
+>tr|A0A1S1JDX9|A0A1S1JDX9_9FLAO
+MKYLKYPVNFKSLVRGSQDNFCKIEESIAYNIMMIITTSFGEIPEIPNYGSVIWDLEFNQ
+HIKKRDWEDLVRKSLLKSITEFERRLTLSEVTISLDEIDNTELGSSIRRKANIVVKGDII
+ESLMPFSFHTKLNISPISQ
+>tr|A0A1S1J3R1|A0A1S1J3R1_9FLAO
+MSDKLDTNDKPELLDSIIGLIDQTRHFVAKTVNQELTLLYWKIGKTINEEILKNDRADYG
+KRLIQNLSINLSNRYGTGFNKRNLHSFIKLNTVIQDFTIVHTVCAQLTWSHIRSLIYIED
+DIKREFYIQMSIHERWSVRTLQERMDSMLFERTAISKKPEETIINDLALLKNEKQISPDL
+TFRDPYFLDFLGLHDTYSEKDLESSILAQLQNFITEMGSEFAFLARQKRITIDDEDFYID
+LLFYHRGLKSLVAIDLKLGKFKAGYKGQMELYLRWLEKNEQKEGENKPIGLILCSEKSPE
+QINYLMLDNDEQIKVSAYLTQLPEKKLLLEKLEKAIAIAENNIKNK
+>tr|A0A1S1J1L7|A0A1S1J1L7_9FLAO
+MNKKQLFLLHFAGGSIYSFEFLRSLCTDFEMIPLELPGRGKRIKEKLLTSYPDAIKDLFS
+QITDKLNGSPFIVYGHSLGSSLGLGVTDLLEKNNTPPQCLIVSGNAGPGIATENNRSDLE
+RDDFISMLTELGGIPDELLKSKELLDFVLPILKADFKIVEEDFFIENTIVKAPIVAIMGN
+SEKYVDRINNWRKHTFSGFNSYVLKGNHFFILDYGDKLKEIFDISFKECTSLNYNNVQ
+>tr|A0A1S1J1U9|A0A1S1J1U9_9FLAO
+MKKIIFTEKAPAPIGPYNQAVLSGNTLYASGQIAINPTSGELVTDNINDETKQVMENIAA
+ILEAADMSFENVVKATIFIMDMNNFAAINAVYGSYFDEKTAPARETVQVACLPKNVNVEI
+SIIAVQ
+>tr|A0A1S1J3F7|A0A1S1J3F7_9FLAO
+MPHLRIVLILLFIVLNTINVLAQEKPFNVVNISKDGSQYIKFGMNLQVWGRYAELNEGSK
+IGTNEVSDAYDIVIRRLRLQAMGMLTENIFFHLQLGQNNINFTQNNGPSNAPLSVMDALG
+EYHFSKKLHIGGGLTAWGAGTTRYSANSSSSHLTLDTPMYQQFTNISSTFGNRNLSIYAK
+GDLGKFNYRAAITNPYRNTTDNLGINSSVSTQTPRAQYAGILTYSFYDKESLEDAYHKGT
+YLGTKKILNIALGYMTQAKAMWHLTPDATIAYDDMRILGFDVFYDSPINSKGAAITAYAA
+FNNNNYGKNYIQSVNTPNPAIGDNSLINGSGAGFIGVGTGNIYYAQLGYLFGKSDNESKK
+GRFQPYAATQIADLEALDTPMAMYELGVNYYTTGTLGPKFSLNYQNRAVYDKSLTGAYKQ
+SDRLGMVVLQCQVSF
+>tr|A0A1S1J4T9|A0A1S1J4T9_9FLAO
+MEQKIHQGRNVKRFREMLNIKQEALAYDLGEDWNQKKISMLEQKDVIEDKLLKQISAVLK
+IPVEAFQNFDEEQAINIISNTFHDTQGLINYSPTFNNDPIDKIIRLHEEKIALYERMLKE
+KDQMMARLEKLNNK
+>tr|A0A1S1J8C6|A0A1S1J8C6_9FLAO
+MKLRILTLTAATLLLISCGTKKAAPVATATPAATETAKTTELTPALAEGKNLYENSCARC
+HKLYDPKKFSQEDWKPILVRMQKKAKVDDTQIALISNYITSQL
+>tr|A0A1S1JB77|A0A1S1JB77_9FLAO
+MAHPKRKISKTRRDKRRTHYKATVAQIATCPITGEAHLYHRAYWHEGKMYYRGQVVIDKS
+VAVA
+>tr|A0A1S1J2M3|A0A1S1J2M3_9FLAO
+MKVKNIIYAAVLSSVCFNGTAQKTVLNKAEKEYNQYAFVDAIAIYEKVAESGYKDEKMFQ
+RLGNSYYFNAELPKAAKWYDALFAFNEQQEPEYYYRYAQTLKSVGDYAKADKMLEIFNAK
+VKTDTRGVLFENNKNYLEQIKANSGRFDIANAGINSKQSDYGSTIYNNKLVFASARDTGS
+VIKKTFKWTNKSFTNLYAAELKADGTLDNPIRFEKKINSKFNESSPVFTKDGKTMYFTRN
+NFLGGKKGKDNKRITLLKLYKAEFVNDKWANIIELPFNSDQYSIAHPALSLDEKKLYFAS
+DMPGTLGQSDLFSVVINEDGTFGKPENLGTAINTEGRETFPFISGDNELYFSSDGRPGLG
+GLDVFVAKIKEDATFDLVQNIGEPVNTKLDDFAFIIDSNTRKGYFSSNKEGGIGNDDIYK
+FTETKRLDCEKKLFGIVSDSQTNEALADAKVILLDDKFKEIATIISDKNGSYNFDVKCNQ
+TYYVRVSKQDYETNESSVTIQPTNDKPELDIKLNKQIKQIEVGTDLAKTLDIPMIYFDLD
+KSFIRQEAAFELEKVLAVMKQYPEMKIDVRSHTDSRQTQEYNMRLSNKRAKATIEWFVKR
+GIAPTRISGKGYGESQLINKCSDNVACTEDEHQLNRRSEFVIVSMQ
+>tr|A0A1S1J916|A0A1S1J916_9FLAO
+MSIAVNNISKSYGTQKALNEISFSIEKGEIVGFLGPNGAGKSTLMKILTTYLLADNGSAL
+VNGHDVMTNAKAVQRSIGYLPEHNPLYLDLYVREYLAFNADVYQVPKSRIEEVIQLTGLS
+GESHKKIGQLSKGYRQRVGLANALLHNPEVLILDEPTTGLDPNQLMEIRNVIKNVGKDKT
+VFLSTHIMQEVEAICDRVIIIDKGQIVADKKLDHLVSENAEQVIEVEFDYQVEEQLLAKL
+ENITAYKNTHDMTWELTFVSEKDMRPAIFDFANENGLKTLQLNQKNKNLEAVFREITK
+>tr|A0A1S1J1D8|A0A1S1J1D8_9FLAO
+MITVNDISVQFGGTTLFSDVSFAINENDKIALMGKNGAGKSTLLKIIAGQSKPSTGSVST
+PKDAVVAYLPQHLLTKDGSTVMEEASKAFGEIFKMKAEIDEINEQLTVRTDYESDAYMKL
+IERVSDLSEKYYAIEEVNYEAEVEKILTGLGFEREDFTRQTSEFSGGWRMRIELAKILLQ
+KPDLILLDEPTNHMDIESIQWLEEFLVNSAKAVVVISHDRAFVDNITNRTIEVTMGRIYD
+YKAKYSHYLELRKDRRIHQQKAYDEQQKMIADNRAFIDRFKGTFSKTDAVQSRVKMLEKL
+EIVQVDEVDTSALRLKFPPAARSGQYPVIVKEMSKAYGDHVVFKDANVVIERGQKVAFVG
+KNGEGKSTMIKAIMKEIGVDSGSVEIGHNAQIGYFAQNQASLLDENATIFETIDAIAVGD
+IRTQIKNILGAFMFQGDDITKKVKVLSGGEKTRLAMIKLLLEPVNLLILDEPSNHLDMKT
+KDIIKDALRDFDGTLILVSHDRDFLDGLATKVFEFGNKRVKEHFEDVAGFLAHKKMDSMR
+EIEK
+>tr|A0A1S1J638|A0A1S1J638_9FLAO
+MSQSRRNFIKTTSLASIILVPGIGFFVQSCNNKDKGGSKDKGTSNLTRAIPIRLVDAHIH
+LFNARYLPLKAIIDNVPILTLIAGPIANLLYALTDDFDSQASSFVLEDDTLKTMQPDKII
+DWFIDRTSRKLDYEANKTKSDKTNKNLEQSELLNSIADLAKEMDKEQKSINSFNQNVFLQ
+KFAEQYSQANAIVPDNDAKLKYKKMYSDPVRWALKKLSLPNVDAELQQYVDCDGIPVINF
+LAIMMTDEVKIYQQATRGYGGANLALQIHYMMDMQASYTNGRTYYPFHPVQTANMMQLVN
+NSKGKLLGFTAFNPKNKNAMESFKMGIAAGNIGVKFYPPMDYKPFGDDDAVVRENVKDFF
+TYCETHQIPIFTHCTPVGFQAKKGSGLNSDPKYWEMVLKEHKNLRICFGHAGGGDPKVKD
+HDFHGWYSTPKQWSKIDCYAKKVVELCEEYENVYCEIAHLGNIIKKVKDRQRFTYNLIEN
+FNRSEPPCRLKDKICFGTDWNMIGMINEQQHYYDVLVDIFQHPKLIGNIDNFFSENFISF
+LNIKKFISNNESDYLTQESRSYLEGLLN
+>tr|A0A1S1JBI0|A0A1S1JBI0_9FLAO
+MTKNIFILAFFMLSISGNSQTLKLEEIMKGEGFTGNQPTYGRWSLDGKKVYFEWNPTNDL
+GANTYSWQKGAAKPTLVEPKEAAFSKLDFKRKPTSDVVYYSDKGGLYSYSISTKTVKKII
+QQSTPVSNVELGATSGIVFFEQNDNIFKYNAKEGTVLQLTNFKKGVKKEKTPDKESFLKT
+QQKELFQFVRDAAAKKQWNLAKSKAVKSDFAKEYFYGKDNFYNLKADPNGNFATFSLAEE
+SDNKKEKMEVFITDDGYNQTPDTKQKVSIANLVKTKLGIYSVAKDTVYYVNFSTLSHIQD
+NPKYYETYDNLKNKAKEDRFITAQAPVYNENGSAAIVEIRSQDNKDRWLVNLKLENGTFK
+EIEHQHDDAWIAGPGIPSYSFDSGVLGFLADNETIYFQSEATGYSHLYTYNLKSGKKTQL
+TTGNWEVRDVALSNDKKTFYLTTNTTHPGNRNFYKLPATGGALEPVLTKDGAHEVVVSPD
+EKSLLVRYSYKNIPWDFYIADNKKNASLQQISSSVSPSFKEYKWREPEVITFKAQDGTPV
+NARLYTPKTENANKAAIIFVHGAGYLQNAHNYWSNYHREYMFHNLLTDLGYTVLDIDYRG
+SDGYGRDFRTGIYRFMGGKDLSDHLDGKKYLVEKYGIDANRVGIYGGSYGGFITLMGMLT
+APGEFASGAALRSVTDWAHYNHGYTGNILNFPETDPEAFKKSSPIYYADNLKGDLVMLHG
+MVDDNVEYKDIVRLSQRFIELQKKNWSLASFPVEAHGFKETYSWIDEYSRILNLFNATLL
+KK
+>tr|A0A1S1IXP7|A0A1S1IXP7_9FLAO
+MKKITFLFTLIYISCTAQQNPIKPTGLVVSKAMVVSARAEASKVGADIMKKGGNAFDAMV
+GTELALAVAFPYAGNIGGGGFMVYRKANGEVGSLDYREKAPLAATKDMFLDKDGNVIKGK
+STETALAIGVPGTVAGVFAVHKKLGSLPMSEILKPVIALAEKGVIVTLKQQKQLEAYHDA
+IVKVNGPNTLMAGKFKENDTIKYAALASTLKRIQKNGKDEFYKGQTAKTLVNYIQKKGGI
+ITLKDLEKYEAKWRKPLQFDYKELKITSMSPPSSGGICLAQIMKMISPFYLSKMGHNTPE
+SIQVIVEAERRAYADRSQFLGDPDFVKIPMNALLSDAYLKDRMSSFNAEKASLSSEIKEG
+KVTYNESTETTHYSIVDAQGNAVAATTTINDAFGSKYYCDELGFFLNNEMDDFSAKPGSP
+NMFGLVGNEANSIAPQKRMLSSMTPTIVEKNGKLFMVVGTPGGSTIITSVLQAILNVYEY
+NLSMQEAVNAPRFHHQWLPDLITFEPGAFSNVTIDKLKAKGYLINEKNAPVIGKLDCILI
+LPDNSLEGGADFRGDDTAVGF
+>tr|A0A1S1IY06|A0A1S1IY06_9FLAO
+MDIEKDYIKLIFGLKLKQVRTQKNLSLFGLAKLTNLSKSYLNEIEKGKKYPKTDKILLLC
+EHLDVTYDQMVSLKLDNNLAPIGEILKSGILKEIPLELFGIQEADLIDIIANAPAKVNAF
+ISTIIEIAQHYNLSRESFFLAALRSYQEAHSNYFEDLEEKVIAFSKSFQINLDSKITIKE
+LEAILKEEFDYTIKEIAFTDQEALEDLRSIYVPKSKTLLLSTEIDDPQKAFILAKEIAYN
+YLNLSDRLLTFSWIKFENFDQVLHNFYASYFAGALLLPRQLLVNKINDFLNNENPNPEEF
+VTLIESFEVSPESFYQRLTNLLPKDFHLKNLFFLRMSHKIGSDFYQIKKELHITNQQEPH
+ANETNEHYCRRWVSVKTIDEAIKQNKPHFFDAQISSYVHSGNEYLVFSSATKDPFIKDNI
+RSISVGILINPTMKKKFKFIEGKPLVKRIVGVTCETCDVKDCLERAAPPIALEKKKRHEN
+TDAVVQQFISQYS
+>tr|A0A1S1IY25|A0A1S1IY25_9FLAO
+MIIVKSREEIELMRESALIVSKTLGMIASEIKEGVTTLYLDKLAEEFIRDHGAVPSFLGL
+YDFPNSLCMSPNSQVVHGIPNNTPLKNGDVISVDCGAFKNGYHGDHAYSFEIGEVAPEVK
+KLLKVTKESLYVGIREFKAGNRVEDVGNAIQKYTEAHGYGVVRELVGHGLGQKMHEEPEM
+PNYGKRGRGKLFVEGMVVAIEPMINLGTRNIKQHKDGWTITTADGKASAHFEHDVALVDG
+KPEILSTFQYIYKALGIESNEEDEFRKVPLVL
+>tr|A0A1S1J273|A0A1S1J273_9FLAO
+MIKYEKYKPSEIDWLGEIPSKWEVKRIKDVFKQISLNGNKLSENCYIPLENIEQFTGKLI
+QRVSNDNNETTNLFNSGDILINKLRPYLGKIYLPDFNGGVSGEVVVLRSIFNGKFSHSKY
+FFYRFLSTKFIFKINSMTDGVKMPRTNPTKILNLNIAIPQLKEQIEIANYLDSKTQAIDK
+KINLLIQKANYYKEYRKSIINEAVCKGLDKNVKFKNSDINYINDIPQHWKIERIKDLFNI
+GRGRVIGQELLVEEGKYPVYSSQTENNGCLGYIETYDFDNDLLTWTTDGANAGTVFRRSG
+KFNCTNVCGTLIPKRKNLDLDYVVYALQESATHNKRIDTNGAKIMNNEMAVINIAFPPLN
+EQTEIAKYLDTKIKTTDKIVENINTQIIKLKELRKTLINDVVTGKIKVT
+>tr|A0A1S1J2Z1|A0A1S1J2Z1_9FLAO
+MNKYTVLKWEKLLLWLIPPVVRKKTHLEWLNVLLAPLRTIYEEILYKMQHTGQVIYLEKV
+LNDAFNPTKNYDPNLSMEQKRLEELIYIDESIKPAIQYVYLHKEYYEPDITLPDKKVKKG
+ALMIPQLNIFNNNELKNRDNKPVYLAHRKDYTKVNYANFRIFIPKHLIKSGTIEILPNKD
+VELSKTTAIQVTDTAYHNLLNFYKLAGKSYESYSYVQEIMD
+>tr|A0A1S1J3L0|A0A1S1J3L0_9FLAO
+MEFNKIEDILEKYFQGETTIAEENQLKEYFSSPDVAQHLEQYKPMFGYFSQVKEQKSTQA
+IPLKTKKRKVAWLSIAASAVVLLGIGTYFYTSEKNATPVTAQSELGTYDDPEEALAATQK
+ALALLSNNVNVGIESVQYIKEYEQSKNKIFKQ
+>tr|A0A1S1J4D2|A0A1S1J4D2_9FLAO
+MGTEIKLKGDRVIEQIPSIKDKALRINLNENIYGTFAEIGAGQETVRHFFRSGGSSGTIA
+KAMSAYDKDFSDAVYGAESDGRYVTEERLKKMLTHEGQIIEERLSREKHPTKLFFSYANT
+VATIDFAKQFKGHGWVGIRYQIEPDEAYNEIILHIRFKETDARLQQETLGILGVNLIYGA
+FYKYNDPKRLLRYLYDHLDKDQLEIDTINFSGPRFAHVDNRLMSLQLVKNGMTDAVMFNP
+EGKNILPAAILYKKNLLALRGSFRPVTKVNMDMYEKSLKMFLEENKVEKDNTLVIFEITL
+SNLRSDGEIDERDFMDRAELLCSLGQTVMISNFQEYYKVVEYFANYTKARMGLAMGVNNL
+VDIFDEKYYRHLSGGILEAFGKLFYRDMKVFLYPMLDENGVLMNSNNLKVHPRMKELYKF
+FKFNGKVIDIADYDPHNLEVFSREVLKMINQGKTGWEHMLPTGIAEIIKEHHLFGYHPQK
+ELEQNT
+>tr|A0A1S1JC11|A0A1S1JC11_9FLAO
+MKTAITLANTIPIGIKSEHYLVFSMIIITIGKNLEPKIPIEANTLIMIFLAISLIGITLQ
+IVNNRLKKKILFDTFQKRY
+>tr|A0A1S1JG34|A0A1S1JG34_9FLAO
+MLYSKIEGEGKPFVIMHGFLGMSDNWKTLAGQYVEAGFQVHLLDLRNHGRSFHSDEWSYE
+AMVQDVFEYCQANQLKKIELLGHSMGGKVAMLFATTHPEIVDKLIVADIGPRFYKQHHQD
+ILAGLNAVDFSVKPSRNDVEAIVAQYVSDFGTRQFLLKNLYWKEPGQLAFRFNLEVFNNN
+LDAIGKALADDLVFDKDTLFIRGGNSGYILDTDFDAIREHFPKAKFETIPNAGHWLHAEN
+PKMFFELTAGFLKE
+>tr|A0A1S1J7W0|A0A1S1J7W0_9FLAO
+MNDIENYSIIIEEIFGVGTTTFDINKLHSNKVIRALNHTQFSHFKENFIERLKRLEKTYR
+LYPKYLKEILVQVNEIQSLKNWDGAFAELAAFDHLNSTNELFEPISPNITLASSKSLAEE
+LGKNETNLDGFVKDYSLYFDIKCFKDNNEEILQGIYSQIRDHLNYQNVHFSAEYALDVSY
+DDFKNNRNNLLNELKETLNIKTKQSYFRSKVIPNFGVRILWDEGVLTAVRTYDPYLHAKN
+LHRSIFNYANKFMKSEPTLIVLVVFPWYNLVVNDFVSNIEFYRSFSRRFFCQYKYSSEKM
+SNFNSKYKGSKKLYTISKYLSGIIVLEDNTILSEDKTISNVNSYSFLNPNAKNSIKSMPK
+HYIHQFTNVRFDDFENDNY
+>tr|A0A1S1J0D5|A0A1S1J0D5_9FLAO
+MKKLFKLVLNTIPRPILIRLSYVARPVLALSLRGSKYTDPIDGKSFRSFLPYGYGKQRNN
+VLSPSTLSLERHRLLWLYLNDQTDFFTAPKKVLHFAPEQAFYKRFRKQKNLDYTTTDLFS
+PLADVKADICNLPFKDNEYDVILCNHVLEHIPDDTKAMRELYRVLKPGGMAILQIPQDLS
+RAVTFADDTITDQKERARIFGQYDHVRIYGRDYFDKLRSIGFIVIEEDYTHKISPELVEK
+YCLAKGEIIPLCFKQEN
+>tr|A0A1S1J238|A0A1S1J238_9FLAO
+MKNFTIHLVILVFLFVSKVMGQETFESKARKIANKIEKVTKEEKEALKEEIEAINVQLSE
+GKITQEQADKRKKELAEARAIIIEEKVTLAQNELNDLVQQKVDGKIKEGNYKSGRALIVH
+WNDIKWMDDNKKRKDSIRGERRTTSQFVFAAGLNNMMVDGKLQDSKYRFTGSHFYEWGFT
+YNTRLMKNDNLLHAKYGLSLMYNNIRPRDNKYFVVNGNQTELQTNAIHLDESRFRNVYIA
+VPVHLEFDFSRPKVSNGKTYFRTHNSFRFGIGGYAGVNVKSKQILKYDQDDLDYKTTIKG
+DYNVNNFIYGLSSYIGYKEMSLYLKYDLNPLFRNNTVKENNISLGLRFDFN
+>tr|A0A1S1J4E7|A0A1S1J4E7_9FLAO
+MNKTVNINLGGMVFHIDEDAYLKLTRYFDAIKRSLTNSSGQDEIIKDIEMRISELLIEKQ
+KSDKHVVGLKDVDEVIAVMGQPEDYILEDEEKTSQSFNDYGTRKHKKLYRDKEKGMIGGV
+ATGLGHYFGIDAVWIKIIFLIFVFAGFGTGILAYFVLWIVTPEAVTTSEKLEMTGEPVTI
+SNIEKKVREEIENLSDKFKNANYDAMGNQVKSGAERISSSFGDFIMTIFKIFAKFLGVIL
+IISGISTLIMLLIGVFTLGTNVFVDFPWQNFVDAGNFTDYPLWSFGLLMFFAVGIPFFFL
+TLLGFKLLSPNLKSIGNITKYTLLAIWIIAVAIAISIGIKQATELSYDNKMVEKKSINIT
+PKDTLFVKFRYNDYYAKDLDHRSDFEFVQDSANNQLIYSNDVRLHVLPTDEATPYIQIEK
+TARGNSFINAKQRAEKINYKFELNGNRLILDNYFLTDVKNKFRGQEVDVYLYLPEGQLFK
+PDSSVQDYDDSDNDFFNLHFSGNYNYKVQGSKIKCLDCPAEENEYGDEYDDTTEKSFIEN
+DTVNGVSIEVNGKEILNAKKTKGKLTTDENGVVIKIN
+>tr|A0A1S1J675|A0A1S1J675_9FLAO
+MTSKHKKEIMFKIKNTITLFTLVAAVSITNAQIKVGDSFPDVQLQNNKNTATKLNSFKGK
+TVLVDFWASWCAPCRLANKKLVKMYDQYKDQNFEIVGISIDNDKTKWLKAIEKDKMKHQQ
+LIDPKGFEAKTALTFGVEALPSAFLFDASGKLVAINPTEAQIIAQIKKNKK
+>tr|A0A1S1J711|A0A1S1J711_9FLAO
+MEDKKNQTNPSSSDPTPKVTGVGGIFFFSENPKETRDWYAKNLGLEVNDWGSTFESRKID
+APEVVESLQWSPFKKDDAYFSPSKKEFMINYRVQHIEALVKQLKENGVTVLDDIATYDYG
+KFVHIMDAEGNKIELWEPA
+>tr|A0A1S1J947|A0A1S1J947_9FLAO
+MENKNLVRCGWCSSSDLYKKYHDEEWGVAIYDDPSIFEFLILETFQAGLSWITILNKREN
+FRAAFDHFDYKKIAQYPEEKIESLLQDTGIVRNKLKIRATVSNAQAFLKVQEEFGTFSDY
+IWKFVNGKPIDNNPKTLKDVPATTPISDEISKDLKKRGFKFVGSTVIYAHMQATGMVNDH
+VEDCWTRKK
+>tr|A0A1S1J9N5|A0A1S1J9N5_9FLAO
+MKRRIVLAGAFMGMLAIILGAFGAHLLKKYLSIEELNTFEVGVRYQMYHALFLLFLSTRK
+DIAEKMVKTIYNLVVAGVLLFSGSIYMLATKSLTVFDFKIIVFATPVGGFLLIIAWALLF
+VTILRRKS
+>tr|A0A1S1JB85|A0A1S1JB85_9FLAO
+MKKIIQTLFAAALVMSLVSCKNTKQKLQEYVVTYNKSTAKSFHEENITLTTARGYLEDDK
+IELRFETNLKENESNKSAAVSSFPVLLKKMIKENKIPQELIEEGVRFDTYFLADDNTVLA
+KEVINKEALPNLLK
+>tr|A0A1S1JBR6|A0A1S1JBR6_9FLAO
+MLNKGLRDEEKIRIDNVLKTLRSLVFVPYPLNNTEKENIENQLKEIGLDFETLSSQKNED
+LITLLMKLHFDWEHLEQFGDILIEFSKDENHNFTHKALAVYEYIQQESKVFSFGINTKIA
+SAKNRS
+>tr|A0A1S1JCT8|A0A1S1JCT8_9FLAO
+METLKDISNIEDIKLMVDSFYGKVRKDDLLGSIFNDKLQDRWPEHLEKMYGFWQTILFDV
+RAYSGSPFPPHKQLPVDKTHFDRWVLLFNTSIDGLFSGTITEEAKMRAANMAYMFNYKID
+YFRNPENH
+>tr|A0A1S1J572|A0A1S1J572_9FLAO
+MFSQGQLIFGLCFFIAFVIVMIFAYRKDLALHKVFYKGNYKVLLVFLLFIAILFVIKFFF
+KR
+>tr|A0A1S1J6A1|A0A1S1J6A1_9FLAO
+MKTKQRAIVEKICPLEFAVNAISGKWKIPIVWRINEGEKRPSEMLRGIAKVDRRVLNQHL
+KELEQDGILSKKIFNELPPRVEYSLTPLGEKLADVLWKLNDWGEILLSEKPVLANSYSGV
+>tr|A0A1S1J440|A0A1S1J440_9FLAO
+MIAVIFEVIPNEGKKEEYLSIAASLRPELDKIEGFISIERFQSFSDPEKVLSLSFWKDEE
+SVQQWRNLEMHRHAQARGRKEIFKDYHLRIAAVVRDYGMFDRNETPADSSDFHAK
+>tr|A0A1S1J517|A0A1S1J517_9FLAO
+MKKHLLLIAILFCSALIHSQERYFLNSDTRLYTSTTTAGDFLGYFKYGAEVQLLSENKNG
+WYKVRSDNFSEGYVPEQFIAKRLNAKDVQTKDPENPIIEGNDNYYGSSHLFVLVAGLKAR
+ALPDKNSKIRAILFTGDPVAVNYLPKNPDEWVNIQGHSDPEYAQFTLGKFLGKRPDFNSL
+LKDFDKLNVNAIAERKTIGERIVELAWNSENAKLAPAYQRYYEVVKQLNDPKLLADTELN
+IAIAKGLAKTKKPEEITAFSKKAEFLLKGVKTKSLFFSQKDLVKNFGKPTKKGTVSDECG
+IYLSELFYYYPDFEVSVDEKQNQAEITKVFINESNKLVFSPTASLDHTLTEKAFIEKYGT
+YIGASMKNPHLYAIQLEDSEFRIEFRDGKLFTIEIIFYC
+>tr|A0A1S1JAT3|A0A1S1JAT3_9FLAO
+MRVFKFGGASVKDAEGIKNVYDVLQKVGYEDVILVVSAMGKTTNALEVVIKNYFDKSSEL
+SSSVQEIKKYHNQILLDLFENEEHAVFTAVKALFSELEYFLAHNKSPNYNFVYDQIVSFG
+ELISTTILSHFMNFMGIQTQWLDVRNFIKTNANYRDAEVDWEVTQQNISKNVPRKVLNIT
+QGFLGADENNFTTTLGREGSDYTAGIFAYCLNAESVTIWKDVPGVMNADPRYFENASLLN
+QISYREAIELAFYGATVIHPKTLQPLQKKEIPLYVKSFVNPLLKGTCVSKGVDLEPQYPC
+FIVKREQLLISLSSIDFSFIMEENISEIFALFHQFKIKVNLIQNSAISFSVCVEDKFGNF
+NDLNAILSKKFKVEFSENVTLYTIRHFTEQAAQTVEENKAVLLKQVSRETMQIVTKEIN
+>tr|A0A1S1JA82|A0A1S1JA82_9FLAO
+MAEIKPAEISAILRKQVEGFESGATLEEVGTVLQVGDGIARIYGLSNVQYGELVEFDNGL
+EAIVLNLEEDNVGVVLLGPSTGIKEGSTAKRTQRIASLKVGEQMVGRVVNTLGFPIDGKG
+PIGGDLYEMPLERKAPGVIFRQPVTEPLQTGVKAVDAMIPVGRGQRELVIGDRQTGKSTV
+CIDTILNQKEFYDAGKPVFCIYVAIGQKASTVAGIAKMLEEKGAMAYTVIVAANASDPAP
+MQVYAPFAGAAIGEYFRDSGRPALIVYDDLSKQAVAYREVSLLLRRPPGREAYPGDVFYL
+HSRLLERACKVIADDGIAKNMNDLPDSIKSIVKGGGSLTALPIIETQAGDVSAYIPTNVI
+SITDGQIFLDGDLFNSGVRPAINVGISVSRVGGNAQIKSMKKVSGTLKLDQAQFRELEAF
+AKFGSDLDSVTLNVIEKGKRNVEILKQGLNDPYPVENQVAIIYAGSKNLLRNVPVNKVKE
+FEADFLAYLNSKHKDTLNALKAGKLDDNITDVIEKAAKEISAKYN
+>tr|A0A1S1J488|A0A1S1J488_9FLAO
+MEEEFLLQLKSEPDKVIAKIKEQSKDSAKILAYQKEYKQHDRTIRDSQVGNIQKDKVVGT
+GEKSKSVKTVRIPIDFAKKIVSTATAFEVGKPVTLVPSESNYLSDLVKMIWKTNRIDALL
+QKLVSLKKSETQGAIQFYITDIKDNSLFKKILNFFKLGTQAKEIKSKILDNTKGSMTPFF
+DATGNMTLFMWEYKAKNTNGKELNHVEIWDEVNYHYLNDETGKLAYFDKVIPHGFDRIPI
+VYVEQEEPEWFIVRELIDRYETTLSKLGGSNDYTAYPLLQIFGEVNSFPEKDDSGKVLQF
+PIKVDDDGKQIHGKAEFLTADNSAESAKLEFDSVKDLIYSISHTPDLSFNNLKGMGDISG
+VALKLMFLDAVIKSTMNEGDNRTMIERILNIITSGVVKTTNTNLVKFSEALFYEIVFNSI
+IPDDVKTATEIITSLKAAGLLSTTTAIKLIDMVENPEDELKLIQEEVALKPKEKEAAVV
+>tr|A0A1S1J4V5|A0A1S1J4V5_9FLAO
+MKVFPFKIPKSGEDPLIYQEDREIVFYDKLHQHEEIQISFIEKGQGAIFAGDTISHYREG
+DILMIGSNLPHVFRSEVYDNESSIMRTLFFTTNSFGKDFFSLTTFKNIQPFLENSKNGFI
+THNPPKKIVKSFKKLNKSDNYERFILFLEIIKWLSNSEREQLSNHLYDKKITDNEGKRMQ
+TVFEHVMTNYQKNINLDEIASIANMTKNAFCRYFKVRTNKSFFQFLIEVRIEHASKLLAN
+NSELSVLEIAELCGFNNISNFNRKFKELKQTSPLQYRKLNL
+>tr|A0A1S1J5U5|A0A1S1J5U5_9FLAO
+MKKIVLVVTFALLLPAMVIAQTKTETPDVFAKSTNYVNDFEKILTSSQTKNLSDFLKAGE
+TKTKTKITIVTLSSIAPYTNLTDYSSDLEQYLVSKLKIDSSILIVLSKQLRQIHIQGVNK
+LRPKMSDQEIKDIVSAYVLPELKKGDYYKALQEGSIQLIKKLE
+>tr|A0A1S1J6K1|A0A1S1J6K1_9FLAO
+MTDLWEFYKRGTWVEPFLTFSIGLFVLASLFFYLLIIQSRNRKIKEERRRERYDAFIDKL
+LFSVVFEDISFSDVLKNNDYTLMAENKFFREVITESLINLHKNYQGVYAQKLEQFYQDSG
+LINDSLKKLKSLKWDVRGKGITELAEMNVYDAFDTLITFSNARNKVLQITAINACIKLAG
+TKGIVHLTEHTNPIDDWTQVNIIHAFKKHDIGDTKGIELLLESQNTTVVTLGLKLIKELK
+LTQKLIFVEQLAERTSNTSVKHGAQHVVLALTV
+>tr|A0A1S1J196|A0A1S1J196_9FLAO
+MKSLLKNAREQKGLKTREVAQLLGIDQALISKFESGSRKPTKDQIVKLSQLLEIDYETLM
+IAWLKEKILYEIGDDEFALKALEVAEKEIKYNKTVSKLKLSTTLEKILSEIDVLKENLDT
+YRQFDSYKISQALELEYTFESNRIEGNTMTLRETDMVINEGLTISGKSMREHLEIINHQE
+AIGFIKDLIQKSNGLNERDLLAIHNLILRGIIPEDAGRYRKVQVMIQGSSHMPPQPFLIA
+KEMEEYFIWYEINKNKLHPVILAAEMHERLVTIHPFIDGNGRTSRLVMNLILMQKGYLIA
+NIKGDYENRMQYYQSLETAQIKKDKEDFLFFIAKIEKESLERYISIIGQ
+>tr|A0A1S1J1L0|A0A1S1J1L0_9FLAO
+MATENTQVVEKKNNKFTEATVTSIITRVAEIQATGELVLPADYVPENAIRAAWLMLPGVV
+DRSGNPALEVCTRESIANAFLDMVTSGLSVSKKQGYFVVYGNKLQFDQSYIGDITVAKRV
+ANVKEVNAVTVYSDDIFEYQVDYSTGRKNITKHDQKLQNIDLSKIVGAYAIVTYNDGSSD
+SEIMTITQIRTSWSMGGAKGNSKAHTLFTDQMCEKTVIARALKIETSSSSDKGLMTDKTE
+IDVQHEIKTKANKESLNFNEVEEAVIEEITSEIIPSSTEINFEQETAQNQPPF
+>tr|A0A1S1J453|A0A1S1J453_9FLAO
+MKRFFPVYVRVPLIFFIVFALMEYFIDSGDRPAFIKYPMVSIFLFVFLFILIAIEITLSA
+VNRVMYQLMSPEEKAKADHEKSLSLTESTWYKELMHKLTQTEPIEREGDLLMDHDYDGIK
+ELDNNLPPWWVYLFYICIIFGVIYVARYDIFGGDDQETELRKEMAQAKIDVEEYLKTAPD
+LMDEKTVVLLTDDASLAAGKEIFMTNCAACHRADGGGQIGPNLTDDHWILGGGIKEIFHT
+ITNGGRDGKGMVSWKTNGMKPKEIQKVASYILSLQGSNPKDPKEPEGEVWVDKSAPKKGD
+TADKTKDSTEVKK
+>tr|A0A1S1JBK8|A0A1S1JBK8_9FLAO
+MKWIPNFNSSNSLRVIFVIAVFILLFLSSIAHKHNQDLNESSKLVMHTYEINIQLERLMS
+AIKDAETGQRGYIITRNARFLTPYIYSRDKVNTSFINLKKLTKDNPRQQKNLQNLFKLII
+QRFVSFENCLKYSDPKTYDKRKLDNHLFGGRILMENIRFKVDEMNDIEKTDLAKRLKIYD
+AEISLSPLFSISLFLVALSFILLAYRQISRDFERLKVFNKQLLISGKLMAESEAIGKFST
+WQWDLDTNKIDYSDNQYRLLGYEPNAFVPEKGTFLNFVHPDDKETVAKSMKGILNYKQLP
+FVYYKIVLPTQEVRHFKTTGKLLTDEQGSKILLGINFDITDEHLLNIELQARNVELENSN
+KELASFNHVASHDLQEPLRKIQTFISRISDADKAVMSQNANDYIAKIEISAKRMRVLIDD
+LLLFSRTNTTKKEFIKSNLNELLKNAEAELTEMIDEKKAVITSTKLPKLAVIPYQIEQLF
+INLIGNSLKYNRPNVAPEITIESQKVFSVDYRELLDQNVKKYHKITFTDNGMGFDPQFKE
+TIFVLFQRLHSKTDYPGTGIGLAICKKIVDNHKGYIMADSQPDQGSIFTIFLPD
+>tr|A0A1S1JAD2|A0A1S1JAD2_9FLAO
+MKNIIITLSFLFANLAIGQTHQITKHNGEQLDVNFIKQENDLIYYSLDGSREEQKISKYA
+VSQLTNKETKETKKITDKVLVDSKSDYKLVTVLPQEKTAGLKQVANFSGVSTKTKGESPL
+ANQKQTAMRIKAKSASNGYPFVSIVEKADGKYEAVAYAY
+>tr|A0A1S1J670|A0A1S1J670_9FLAO
+MEINDTYQTISFESEEVLLKEKSSKFFGYAYPIESEDEVKPIIENLKKQHPHAVHYCYAY
+QLGTAPKISYRANDDGEPSNTAGAPIYGQIQSFGVTNVLIVVVRIYGGIKLGVGGLITAY
+KTTAQMALEACEIIEKTIDVHFLISFDYKNMNRVMRVIKEKKLEITAQEMEINEDSGLPI
+GKITTKTRKKNAETIFDIFDLMFEIDIKII
+>tr|A0A1S1IZT8|A0A1S1IZT8_9FLAO
+MKKQSFFSILAASIIITSCGNKNDKAAQAGGAPQVKEYKTLTLEPKSATLYTDYPASIQG
+QQNIEIRPRVEGYIDKIFVDEGAVVRAGQPLFKISAPEYEQEVRTAAASIKSAQANLSAA
+KLAVNKVKPLVEKGIISKYDLESAQYTYESALATLAQANASLVNAKTNLGYTTVTSPVDG
+VVGSIPFRLGSLVSSNTADPLTTVSSIGNVYAYFAVNEKKLLSFTQNTDSGIALAEKIKK
+MPAVSLLLSDGTAYGEKGRIETVNGLINTETGSVTFRARFPNTKSIIRSGNSTTVRIPNE
+VNQAIIVPQSATFELQDKLFTVVVGKDGKTKNANITVLENTAGNYYVVKSGLQSGDQIVL
+EGVAALKDGTEIKAQNQSAETVYADLK
+>tr|A0A1S1J251|A0A1S1J251_9FLAO
+MNIKLIAIGKTDNKSLQTLIDDYTKRLSFYIKFDLEIIPDIKNVKNLSESQQKEKEGELI
+LSKLSPTDQLILLDENGKNFSSVGFSEELQKKMNSGIKTLVFVIGGPYGFSDTVYSKAQG
+KISLSLMTFSHQMVRLFFIEQLYRGFTILRNEPYHHQ
+>tr|A0A1S1J5C9|A0A1S1J5C9_9FLAO
+MSKAERTKQFIIEKTAPIFNMKGYSGTSMSDITEATGLTKGSIYGNFENKDEVALAAFKF
+NVKKLQDAFTREIDKQTTFKDKLLVYPRLYSNYYELRITQGGCPIINTATEADDTHPVLR
+KKVESIILAWKEKLVYFIEQGIAVGEFKGESINPEKTALTIIAIIEGAVMISKITGDLSN
+LSTIMLSLKKIIDDLE
+>tr|A0A1S1J6A2|A0A1S1J6A2_9FLAO
+MLEQILCIDDDPITLMLCKKVISKSSFSKEIITAQNGEEALHHFNTLKYTNNKNKANKKP
+ELIFLDLNMPVMGGWEFLDHFTSPAYKEFNTASVIVLSSTIDPEDLAKAKKYPIIIDFLS
+KPITLPMLEYLKKKIGI
+>tr|A0A1S1J8D4|A0A1S1J8D4_9FLAO
+MKLSHFQFNLPKELLAEFPAENRDESRLMVIDRQKQTIEHKMFKDVINYFDDGDVLILNN
+TKVFPARLYGNKEKTGARIEVFLLRELNSEQRLWDVLVDPARKIRIGNKLYFGDDDSLVA
+EVIDNTTSRGRTLRFLYDGSYEEFRNKLTELGETPIPKYINREVTAEDAERYQTIYAKEE
+GAVAAPTAGLHFSKHLLKKLEIKGVNFAEVTLHVGLGTFNPVEVEDLSKHKMDSEELIIR
+QEACDIVNAAKTGRKRICAVGTTSMRAIESSVSSQNTLNPYEGWTNKFIFPPHDFSIANC
+MITNFHTPKSTLLMMISAFCGHDLMKRAYEEAIKEEYKFYSYGDAMLIL
+>tr|A0A1S1JAB1|A0A1S1JAB1_9FLAO
+MIQEVFKKNKIELVCFFFIAFAFVFKISLATPFILFLLLLNISGAKDFKDNFAVKLLSLL
+FGSIYILYLLSFFLNYDFSSKLIIRSLGFIFIPLLFLVKRISEKEIKFFIFSFLILQLIH
+TLYINCIVLQYHFFSASKSFENFTALVENKFLIERPYFSLNCLLSIFCVKFLLDRATVKK
+GILYLFIGLMIFTLFIIAARLAMGVSVLICLFIFLKERKIAYFAGFLCILVVTVLTNKYA
+IQRLAIEKGEPRIAIWTCAKNIIDEQEFNYFIGTFSSEKVDKKLIECYNSKEISSGPYWW
+IGKYNYQYNTHNQYLWFFVCYGLLGLILFLGIFGVHFWNFIKNKNAYSFFFILIFSFQSL
+FENLLSRQLGIYLFIWFCFLFVFPIENTIQDEE
+>tr|A0A1S1JAE3|A0A1S1JAE3_9FLAO
+MLYLTGIIITFFLVVVLASKRNKTEADKILALWLFFTGFHLFLFYLHYKNDYSDFPFLLG
+LELPMPLVQGPFLFLYTSALTNQNRYKKFNLLHFIPFLAAILVLIPFYNLSFEEKAAVFK
+NKGKGYETLISILYATIVFSGIIYPLLSLQKLIKHRKNINNQFSHTERINLTWLRYLIIG
+SGIIWLVIIFSDDQYIFSVVVFYLIFIGYFGVKQVGIFTNQPLSENNHSETSTLESVNTG
+NTSEKIKYEKSGLTSSELMAIHQRLTQLMNDEKIYKNADLTLTELAQKISVHPNTLSQVI
+NSVEQKNFYDYINSQRVEEFKRTILLPENQKFTFLSVALECGFNSKTAFNRNFKKATGVS
+PSEYLK
+>tr|A0A1S1JBM4|A0A1S1JBM4_9FLAO
+MREIEQLYHNNFGIAFYWKKENETITDKVQLVFKETGFYFTVQELNYFCDLIEDSMIENA
+CCEACELKNSCHKFLLKTPCAAIDLAVSIKELKSIKDLVEGSLFRIELDEYVYGVGLN
+>tr|A0A1S1J9N7|A0A1S1J9N7_9FLAO
+MKIHYISKNNSVLNHFLGQIRNVNVQNDSMRFRRNIERIGEIMAYELSKDLAYKNVEIQT
+PLGIKNTTEIESDLVLCSILRAGLPLHNGFLNYFDHAENSFVSACRYHPNNDAEFEIRVE
+YQAVSNINDKTVLLLDPMLATGQSIVAVHEKLIQNATPKEIHIVVVIAAPEGVAFLEENL
+PENCHLWVASLDEKLNEKNYIVPGLGDAGDLAYGSKL
+>tr|A0A1S1J575|A0A1S1J575_9FLAO
+MITCSTWAQSATGYFDKALKKAEAGNTKGAIADYTKAISMNSKFVEAYQNRGVAKLKLND
+LKGALADFSKTIDLDSMNADAFTGRANVNYKLTNFKETVADCTSSLGLNPKDYIAYNLRG
+LAYNKIGDQKNACKDFTKAIELGSQSAIKNKSTFCK
+>tr|A0A1S1J8L1|A0A1S1J8L1_9FLAO
+MLKKERHQFIMDKFKSVEKINTIDLATELSISEDTIRRDFNEMHNKGLINKVYGAAFPVK
+EKSNNVFDIHIINEDKKRIVGQKALSFLNEGQVIIMTGGTTNLSFCKLIPIDFSATIYTY
+SLPIAMQLSQHPNIELIFIGGKLQKKAMVTVGIDVVQVLSKIKADVCFLGVSSLDVNQGL
+TEMGYEVSIIKKEMIKASDKVIVLATSDKINGKMPHQVCGLDKVDAIVTELNPKSAKIRS
+FVEAGVRVV
+>tr|A0A1S1J9F9|A0A1S1J9F9_9FLAO
+MKLVARILLFIFIAFLSTPTIVTVMKKSNDASIFFSFSEEEHSHKELKAAVYPAILQHEV
+VMPVYIEKKTIVSENIVKLDNISPSIFAPPPNLA
+>tr|A0A1S1J9P7|A0A1S1J9P7_9FLAO
+MKDIKSIITGLSHKEVQIFLDDSEENLRVTGNTAALTAEDKNDISTNKDRLIALLKSSKN
+SAKFNFESISAVSESESYEVSAGQRRLWTLSQFEGGSEVYNMPMRTILKGNYDIGYFQKA
+IIATIERHEILRTTFKMDENGDVRQYVQPTTDVNFGLSYVDFRNVADKDASVSGYIKEDS
+FVPFDLEKGPLFRLSLLQTEEDTYVFYYNMHHIIGDGWSMNVLSKDVFAFYESFVKGITP
+DLAPLAIQYKDYANWQAVQINSAVSTKDKAYWMESLSGELPILDLPSEKRRPSVKTHKGR
+SLRAYISKETTAMLQHFTKENNGSTFISLLTTINVLFHKYTSDTDIIIGSPVAGRDHADL
+ANQIGFYVNTLALRNTVEAGENFTSIYKRIKEQTLEAFNHQMYPFDSLVENLNIKRDAGR
+SSVFDVLLVLQNTSANEVTIEIPTSKTDAILDLGETVSKFDVELNFREAGEHLVLDVAYN
+TEVYEYQMIEGLIRHYKQILEEVLFQPETPIGKLTYISQEEEKELVQDFNATATNYPVDL
+TLIDLIEEQVANNPEGVALAFEGEEMTYAALNEKANQVAHYLRSINVTTESIVGLCMERS
+FEMVIGMLGIMKSGGAYAPIDPHYPVERIEYIVKDTKAEVVLVNNDSFNKVNFLEGTTIL
+NLDQQDSVLVNQSKTNPAVAIPVTNAAYVIYTSGSTGNPKGVVNEQRGLVNRLLWAKEYY
+NLTAKDVLIQKTTFCFDVSVWEFFLPLLTGCKLVIPKPEGHKDSDYLRELIAAHGVTMIH
+FVPSMLSAFLLDIDVSKCSSLKNVVCSGEALKISQVEDFQKVLPNVVLSNLYGPTEASID
+VTSWIVPFNAVDLKRVTIGVPVANTQIYILDSEMNIQPKGVTGELYIGGVQVAREYINLP
+ELNAYRFVQNPFGEGKLYRTGDNAKWLQDGTIEYLGREDSQVKIRGYRIELGELDTVINS
+CPFVHQGVVIAKEDAYGVNELVAYVVFKENKTKEDLVAYLKEHIPGYMIPGIMVQLDEIP
+LTSNGKVNRKALPDPTFSREYEYVAPGTKTEEELVAIWQNLLNVAQIGITDNFFELGGHS
+LLAVRLISATKKVMNVGLTITNVFGNPTISELASFIEKQDTASTFSLVSKQDLPADIPLS
+YAQERLWFIDKLKGSEHYHMPTVLTLKGDLNTAYLSQALKTIVERHEALRTIFIEKEGVA
+YQVVQSSDRWELNVVSGVADYKEFTAEEINKPFDLSKDYMLRATIIKVSDAEHILVLVRH
+HIATDGWSESIIVKEFKELYASYVTGKEANLPTLNFQYTDYSVWQRTELSEEVLAEKLEY
+WESKLTGVAPSALPTDYARPAVQSSRGNHISLKLDSDQSEALRAYAKEQGVTLFMLLSSV
+YKVLLYRYSGQSDICIGTTVANRPQQELESMIGFFVNALALRTDLSGNPSFNEVLKSVRQ
+TTLEAYNHIAVPFEKVVDRVEKTRDKSRSSLFQVLFVLNNNPEAKVAEFSDITIEPMAMN
+YNIAKYDLTIFAEDSAEGISFSFNYCTDLFSAATVSGLRSHYQNLLTAILENGTSAIGNL
+AMLSAEEEQALLVEYNTPEYVLSGKGTVLSHFEAQVAKTPDAIAFVYNDSRMTYKELDEA
+ATKLAYYYQQTYDLKQGDLIAMMMDTSNWSLLAMVSILKSGAGYVPIDLSLPKERQLYMV
+QEANVKCLLIESSSLFDVIDFSVPVFSIDIQYADIQTLPQEVTFSTLATEDTTAYVVYTS
+GTTGQPKGVQVSHKNLVDYYEGLEAKIAISANKSFGLMSSLSADLGNTVLYGSLLSGGCL
+HLFNKDTLMDGVKLQAYFNANPIDCIKIVPSHWQALSINNKLLLPARTLIFGGDVLQVSY
+VKEIAAQDSNVMIVNHYGPTESTIGKLLHQVDPAFDYVTIPVGKLFSDSEAYIVSSDMSL
+CPIGVSGELLLGGKGISKGYLNREDLTQEKFIANPFATAKSTVLYRTGDLVRRNSLGEIE
+FLGRVDDQVKIRGYRVELKEISRVIQGYSGIVQNEVLFKEDATGVKRLVSYLVVEEGYSE
+ADLKSYLSGVVPDYMVPQVYVVLDQMPLTSNGKIDRKALPEPTVTEGRVYVAAETETEKG
+LVAIWQDLLNVEQIGVTDDFFELGGHSLLAVRLLSAIKTTLNVAINITDIFDHTNIAALA
+SFIESQDNTLALPLVVKQDLPADIPLSYAQERLWFIDKLKGSENYHVPVLLNLKGALNTD
+YLSQALKTIVERHEALRTIYLEKEGIAYQKVQSSEHWNLTVLTSVADQKAFIKDEISRSF
+DLSKDYMLRATIIKVSDEEHILLLVRHHIATDGWSTSLIVNEFKTLYASYAEGKEAVLPA
+LSFQYTDYSVWQRSEVSGDYLAEKLDYWESKLTGVAPSALPTDYARPAVQSSIGDYINFK
+LDRDRSEALRAYAKEEGVTLFMLLLSVYKVALYRYSGQSDICVGTTVANRPQQELESMIG
+FFVNTLALRTDLSGNPTFNEVLKSVKQTTLEAYNHIAVPFEKVVDRVEKARDKSRSSLFQ
+ILFVLNNNPEAKIAEFSDITIESVPMDYDISKFDLTIFAEDSPEGISFSFNYCSALFNSS
+TITGFRSHYENLLDTILADDTSSIGNLAMLSAEEEQALLVDYNTPEYALSGKGTVLSHFE
+VQVAKTPDAIAFVYNDSRMTYKELDEAATKLAYYYQQTYDLKQGDLIAMMMDTSNWSLLA
+MVSILKSGAGYVPIDLSLPKERQLYMVQEANVKCLLIESGSLFDVIDFSVPIFSIDIQYA
+DIQALPQEVTFSTLATEDTTAYVVYTSGTTGQPKGVQVSHKNLVDYYEGLEAKISISANK
+SFGLMSSLSADLGNTVLYGSLLSGGCLHLFNKDTLMDGVKLQAYFNANPIDCIKIVPSHW
+QALRIDTDLLLPERTIIFGGDVLQVSYVKEIAAQDSNVMIVNHYGPTESTIGKLLHKVDP
+AFDYVTIPVGKLFSDSEAYIVSSDLSLCPIGVSGELLLGGKGISKGYLNREDLTQEKFIA
+NPFAAGKSAVLYRTGDLVRRNSLGEIEFLGRVDDQVKIRGYRVELKEISRVIQGYPGVVQ
+NEVSFREDVAGVKRLVSYLVVEEGYSEADLKTYLSGVVPDYMVPQVYVVLDQMPLTSNGK
+IDRKALPEPTAATGRTYVAPTTKAEEDLVTIWQNLLNVDEIGVTDNFFELGGDSIIVIQV
+VSRAKKKGYQVQVQDLFDYQTIAELAVAAERNSKEFSTAEQGILEGEVPLSPIQQWFFER
+NEAVLSHFNQAVLLSIDKKIPKEKLEKTVELIAKRHDSLRSIYQKEIVQGQEEWKQFYGE
+SVNFYRTETIDDEKNVAEAVTAICAKYQQSLDIEKGDLARFVLIETPDAVPYNRFFMVSH
+HLAVDGVSWRFIIDDLETLLTEETTDEKLYLENKNNSFRDWINKLKNFAETEEIESQLEY
+WQQINSDYTPLPTDFSANKPTRQTKKTQIGILNQEYTKHLLKDANSAYNTEINDLMLSAL
+QMTFEDVLGTKRLALGFEGHGRENVLKDIDVSGTTGWFTNKYPVILSKENAETEGDIVKS
+VKEALRRIPTKGMGYGCLRYLHSSEEIRHSLKDCGWDVVFNYLGQIDNVLNQSAVFSSAP
+EYGGDHISPTSILEEKFIVKAIIVANELRISWDYSEAQYQSETVQNLADKYIEYLTQLIE
+HCISKEDRELTPSDFGLSDSLDFKEFDALFESEIAEESQDESVLRF
+>tr|A0A1S1J3M1|A0A1S1J3M1_9FLAO
+MKKAIISTTIIFLFIACQKTEKGNLIQGKIEKEQIAVVSKIPGKILKIWVKEGDLVQKGD
+TLAVLDIPEVDAKKSQAEGAVVSAKAQYKMAVKGATENQIKQLEAKKTGLKEQYEFAQKS
+IRRLTNMLKDSLISQQTYDETFAKYQGAQAQYNAVVAELDDAKKGARIEQQTMALGQQDR
+ALGALQEVETANKERYIIAPQNMSIETITLNLGELALPGYTLFNGYIDNSIYFRFTIPEN
+QLGEFKKGQEITVHVPYKKENIKGKISTIKQLGAYGNIATAYPDYEMQESLFEIKITPVN
+MEQTKDLITKTTVTLSH
+>tr|A0A1S1IZ80|A0A1S1IZ80_9FLAO
+MSKAIYIATSDQNSGKSIVTLGLMSILIGKTAKVGYFRPIVEDFVDGELDNHIETVLSHF
+NLDIKFEDAFAITKSKLIKKKNKGKIGEVLDLIIEKYKKLEERFDFVLVEGTSFTGEGTS
+IELDLNVLIAKNLGIPTIIIGSGVGKTLEELVDSLYLVYDSFKVKEVEVLSVIANKVQPE
+NIELVTQGLQKSLPANVLINTIPLISSLNNPTMQEIVNQLDAKVLFGGAYLNNEIGHFSV
+GAMQLHNYLVHLHDNALVITPGDRSDIILGALQANESANYPTISGIILTGNIVPEESILK
+LIEGLSSIVPIIAVDGGTYGITNKIGSIRSEIYANNTHKIETSISTFEKYVAMDDLSERL
+ITFEAEGMTPKMFQYNMVKRARQHRKHIVLPEGNDERIIIAASRLLSMDVVDITIIGDKK
+QIEGKVNELGITLDFSKINIINPIESELYEDYANTYYELRKAKNISITTARDLMEDVSYF
+GTMMVYKGHADGMVSGAAHTTQHTILPALQFIKTKPNSSVVSSVFFMCLEDRVSVFGDCA
+INPNPTAEQLAEIAISSAESSSAFGIEPKIAMLSYSSGSSGKGDEVDKVRTATEIVKQKR
+PDLKIEGPIQYDAAVDRAVGKSKMPDSEVAGQASVLIFPDLNTGNNTYKAVQRETGALAI
+GPMLQGLNKPVNDLSRGCTVDDIINTVVITAIQAQGL
+>tr|A0A1S1J3D4|A0A1S1J3D4_9FLAO
+MKKLILVLLFCSTASFAQQDAQFTQYMYNTINVNPAYAGSRGVLSIFGLYRTQWVGLDGA
+PETSSFSVNTPVGNNVGLGVSLINDKIGPTNENNLSADFSYSIPTSATAKLSFGIKGSAN
+LFKLDPTKLTPEDQGDPQFQDFKNKFTPNIGAGVYWHTDKAYVGLSVPNFIQTNRYDDND
+VAIYKDKINYYFIAGYVFELDRYETVKFKPAIMTKMVEGSPLQVDASANFMFNDKFVIGV
+AYRWSASVSALAGFQITDGLYLGYAYDRETTKLVNYNSGSHEIFLRFEFLNKYGRITSPR
+FF
+>tr|A0A1S1J3U2|A0A1S1J3U2_9FLAO
+MEKNKDLGRRRFLRNSLLVAGGVFIAPLIESCSNDDKPDHDGAPDGMKNEGFETGVASFD
+PTETGVIIWTRYSAGSDAEINWEISKNASFTEITRKGQAAASSTNDFTIAVDVQNIPSNT
+KYYYRFYNAKTKQVTVTGETRTLPSKTDSVNDVKMAVVSCSNFPAGLFNVYGAIASSDAD
+VVVHLGDYIYEYAPGQYGTNPFTNPLGREHKPTREITSLSDYRERYRQYRGDKNLQLLHQ
+KKPFICVWDDHEFANDTYKSGAENHQPSEGDFQVRKMAAFQAYSEYIPLKTGKDFRIYRS
+FNFGTILSLYMMDTRVIARDKQLSYGDYIDNSGNFDQTKFKTDLLSTNRKLIGSEQMAWL
+GSQINADTAKWKVLGQQILMTKMLIPAELLMLLNQILGEVSKLGSATPATMKALTATISQ
+LVVIKMRHKQGDPTLTAQEIARVTTTLPYNLDAWDGYFAEREQLYAMLSGKNVVVLAGDT
+HNAWMGKLTDMQGKRIGTEIACSSVSSPGLESYFGITSDPTKAIELAQAFTVLIDDLEYA
+NLYKRGYTYLKFTASGSEAEWRFVDSVTTETTNTVTEKKYTIA
+>tr|A0A1S1J5G7|A0A1S1J5G7_9FLAO
+MYPVCIPPKIDHSELQDYFELAKQNPLYIEFYKGNDFAAGAPVLSKKELMPILETKFKLE
+EEKTGVYLVRSGGSTQKPLVFPVDIQENHNQRLALAGELTRNNFFTSKTIALNIFGYSDM
+YRTAAIMDDILEKCQATTLALSAHASYADMEQAARHFKPDFIFGTPSKLICFAHFLQKNN
+RQIEIGKLFYAGEFLRPNTQKFLQQVLGFQEVYSMYGSAETGIWAWSHCTKTPSLFSVIK
+GIIVEIINPDEEGYGTIAVTNTFRKRFPVFRYAIGDIGRWVELDGKSFLELKSREAKSFI
+VCEQHYDLDKFLSFTSEATAFQIQLSTNKNFKDVVKMLIVQNVSEDKREAFVEEKDAALK
+KLLNYEDGFMDVEVLLVTAADLYIDPNTTKTPVLLDRR
+>tr|A0A1S1J740|A0A1S1J740_9FLAO
+MLDWIKNINKEYPDFWKEYLTKFEVKPNRFVVLSTETSGLNPNKDVILSLGAFSVTDDSI
+VIKDNFEAVLLQYKFLQDNGLSNEFIIESKMMKMPEPDAIEALINFIGNSVLVGHHINFD
+IEMLNAALERLDCGRLKNEALDIDMMYRKLMDINDKQFSLDDLSEIFKIPKSDRNSSAED
+AYKIGLLFLKLKSRLGIK
+>tr|A0A1S1J953|A0A1S1J953_9FLAO
+MSINTNNNGLPNIEDLQLLANELFNTLPNEFPKEISLSPDRNEHPRATKVAETFLNTGNF
+SGHNPAALPLQDAPASPTALPAFSGFGAAPTVANYGSGASALYPNAGAGFDPQSETSPLG
+ISHGNNVNVNNPQTGFYDENFGNNGAAQLNEESFFSKLFLNNEYLPFQSQGSSFETELKA
+ALAFVDTKFTKRTNLPLNGNEISNSYYFLEQNPFAFDQRNSNLIVGNTFEKQDFGGISGS
+HFDANRIKKDFPILRETVNGKPLVWFDNAATTQKPQSVIDRIAYFYEHENSNIHRAAHEL
+AARASDAYEAAREKVKTFLNASSVNEIVFVRGATEGINLVAQSWGDYNLVAGDEIIVSNL
+EHHANIVPWKRLADKKGLKLRVIPVDDDGQLLLDEYAKLLNSKTRLVAFTQVSNALGTVT
+PAKKIVEMAHAVGAKVLIDGAQSVSHMKVDVQNLNPDWLVFSGHKLFGPTGIGALYGKEE
+LLNEMHPYQSGGNMIQDVTFEEIKYHKAPNRFEAGTGNIADAIGLGAAIDYVTKLGIDAI
+GQYEHQLLDYATKLLKEIPGVRLIGTAANKASVLSFNLQGYTNDQVGQALNKEGVAVRTG
+HHCAQPILRRMGVETTVRPSLAFYNTTEDVDTFIKTLWELKKVKF
+>tr|A0A1S1J9J9|A0A1S1J9J9_9FLAO
+MVSKNQIKLISGLHQKKQRFANQLFFAEGVKVIQELLQSNFELEHLYTTLNDFEEVHSSK
+RTLIYEQELKKISALSTPNSCLAVFKIPAENKIIDSGLILALDDIRDPGNLGTILRLCDW
+FGIKQIVCSKETVDIYNPKVVQATMGSITRVNVNYVDLETFIAQTKLAVFGTFMDGENIY
+KTDLSQDGIIIMGNEANGISSEIEKMVTSRLTIPRFGELQKTESLNVATATAIILSEFKR
+NS
+>tr|A0A1S1JBA4|A0A1S1JBA4_9FLAO
+MNKGKLIVFSAPSGSGKTTIVKHLLGKEDLNLEFSISAASRDPRGEEEHGKDYYFISLEQ
+FKKHIKAEEFLEWEEVYRDNFYGTLKSEIERIWALGKNVIFDIDVAGGLRIKHKFPEQTL
+AVFVKPPSVDELKRRLKQRSTESDDKINMRIAKASVELATAPQFDTIIKNYDLDTAKEEA
+YQLVKDFVNK
+>tr|A0A1S1J4H3|A0A1S1J4H3_9FLAO
+MINEVIKKNGITYGVMIGIASALFTATIYAIDLNLFTAWWMGIIGIVISLTISIVLLSKT
+KKELKGVFPFKDAFTTYFIAAVIGVLISTLFNIVLFNVIDPGAKDTLNEIMIKYTANMMQ
+KFGAPASSINEAISKMKESSPYSTIELLKGSVFAIVISAIFGLIFAAFFKSKTTQE
+>tr|A0A1S1J157|A0A1S1J157_9FLAO
+MNFIKQIDLKRAALHCFYWIFFLFFYFSNKADNEDSYAFLFIYSWKIVAQAAVGYGLIYW
+IIPQTLNKKKYLLFTVSALGWLYFVFALLMILKFYYLEPKFPGFFDYWPGHKMTVIERLT
+SVKLMLREFSFLTYPVIILGFISFNRKQQRLLKLEEEKKSMELKILKNQLNPHFLFNTLN
+NLYTLTLKKDHKAPEVIAKLSEILDFVLYRCNEDYVSIEKEIALIENYIGLEKLRYSENR
+LTISFTKNIEVSNKISPLILLTFIENAFKHGVINETEKAIISLHLESKKQQIIFSIDNTK
+PKNDFGKTSDKSKIGLVNVRKQLDLLYPKKHQLEIEETQITYAVKLYLNI
+>tr|A0A1S1J2E0|A0A1S1J2E0_9FLAO
+MFNQIMKMALSLLLILVFTNCQNVSKMNPENKHDLTFKIVYKQLIDSVPALSKYPTIGKN
+GHEYSRIDIPNPELSFPRKYMELYGTSEALIGRYVSENGTRDNHFFSVLNDSFNYHSDSD
+VIDVAITANGDFLKLTSDFLYIVKKDNVKIQHPLKGMKIILSENKDIWVIGISNAWLIEG
+DYTKVKVLEWFGGIHTVSYQNALYCIDNSKSTIVSLDTKGMITNEKTVQNFGPFEKLAGF
+WGNKYITLEGATFRWYEEAVLKRKIALQSAGILNNGEVFISYTENKKTYLKTNTISKEWE
+VPEDSKSYILPIVFEKGDSYFGYHLNSCGEFSKKDKKAQETNHIDEKVYEKTILPYRWKI
+GQSRYFNIPDYNTLRVSLTGPKEIVLIEIDNAVLK
+>tr|A0A1S1J630|A0A1S1J630_9FLAO
+MIYKVVIIEEAKADYKNSLLYYKNIHPKLGNKFNDSFKKSISILKSNPLSFQIRYDNIRI
+IFLKTFPYAIHYSIYKNSIVIKSIFHTSRDSELNLF
+>tr|A0A1S1J9V9|A0A1S1J9V9_9FLAO
+MKRIYKITLLVGITILVSSCHNNSAPNYQYFPNMYESVAYEPYTEAKIFKGGKEGQLPVE
+GTINRGFEPYEYENSTAGYELAKANLKSPLTEAEKSSEKGKELFEIYCISCHGATGNGKG
+KLVEREKFLGVPSYKDRVITEGSIFHVETYGLNAMGSHANQLSAHERWLVADYVLKLKSQ
+L
+>tr|A0A1S1JBQ3|A0A1S1JBQ3_9FLAO
+MELSYWELKNWFTNIDYTIVGSGIVGLHAALRLRERFPTAKILVLEKGMLPQGASTKNAG
+FACFGSLSEIMEDLKTHSEEEVVRLVEKRWKGLQLLRKRLGDTAIDFKPYGGYELFLRED
+DLSFEECISRLPFVNEILRPLFKADVFAKESDRFGFGNSHDYLIFNPFEAQIDTGNMMQE
+LLRQAVSEDILILNQQTLTAYSDLGSEVELVLNHFSFKSKKVLFATNGFAAQLTKGAVKP
+ARAQVLITEPIANLAIKGTFHLDRGYYYFRNINDRVLLGGGRNLDFETETTTEFGETKIV
+QNKLEDLLKNVILPNQDFRIAHRWSGIMGIGNSKNPVVTQLSENVFCGVRLGGMGVAIGS
+LIGTELADLI
+>tr|A0A1S1JAW0|A0A1S1JAW0_9FLAO
+MKNFIVIILVLFLSVSCKKELVKQPAKLIEKDKMIDIMYDLSILEAMKYQHPVSADSVET
+SPTAFILKKYKVDSVQFSQNNRYYAADYENYKSIFDEVGKRLAVNQRATDSIVKIEEKKA
+AKEKKKSIVKDTIKNKLSKTSLDSIRKTTRLKR
+>tr|A0A1S1J7M1|A0A1S1J7M1_9FLAO
+MGPQKLLNLIGNTPLMETVNLVKNKNVKLLLKLEGNNPGGSVKDRAAYNMIASAIERGDI
+KKGDKLIEATSGNTGIALAMIAQLFQIEIELILPEDSTKERTQTMRAYGATVILTPASEG
+IIGSRDYADKKVAQGGYLMLNQFANDDNWKAHYKTTGPEIWNDTEGTVTHFVSAMGTTGT
+IIGTSTYLKEKNANIQIIGAQPSDGSQIPGIRKWPQEYLPKIFDASKVDTVIDVSEEEAR
+KMTKRLALEEGVFAGMSSGGSVAVALKIAEQLESGVIVAVICDRGDRYLSSDLFD
+>tr|A0A1S1J7P7|A0A1S1J7P7_9FLAO
+MKDLSDLKKVFMLALLLQGMISYGQGLPIVGFGDPANYTINTFSVPGSSGLDLHWHGGIR
+FGDKTGSDVMRIENGNVGIGTSTPATKLSVLGVISKLTETGIDGTFDNLIKYGHKSDLES
+GTSYANRWHGIDATITAGTAEQNKLKFRLYSGGTGNLIPVDVMTLVGNGNVGIGTSTPSN
+VQGWGRVFDVAGVDNSKILATSRNGLSRVGIFSHNDWYGGGGFVGTESNHPLHLITNYNV
+KMSILANGNVGVGTLVPDSKLTVAGNIHAQEVKVTVNAGAVPDYVFANDYKLKSLEEVES
+YIKKNSHLPEIPSAKEIEKNGLMLAEMNLNLLKKMEEMTLYMIEQNKRIEKQNEKIRVLE
+EKVFVK
+>tr|A0A1S1J8B3|A0A1S1J8B3_9FLAO
+MEERNKTLGEFIIENQKAFQYSSGELSRIINSIRLAAKVVNYKVNKAGLVDIIGAAGEQN
+VQGEDQQKLDVYANEVFIQTLINREIVCGIASEENDDFITVQGSDNSHNNKYVILMDPLD
+GSSNIDVNVSVGTIFSVFRRITPIGTPVTSEDFLQPGVNQVAAGYVIYGTSTMLVYTTGH
+GVNGFTLNPAIGTFYLSHPNMKFPKNGNIYSVNEGNYVHFPQGVKNYIKYCQREEEDRPY
+TSRYIGSLVSDFHRNMIKGGIYIYPTSSKAPKGKLRLLYECNPMAFIAEQAGGKATDGFG
+RIMEIQPTELHQRVPFFCGSYNMVEKAEEFMAETE
+>tr|A0A1S1IYU2|A0A1S1IYU2_9FLAO
+MKNIETLTQEAISLLKSLIETPSFSSEEDQTALLIENWFNQNEIPFQRENNNVWAFNKYF
+DENKPTLLLNSHHDTVKPNQAYTNDPFKAIEKDRKLFGLGSNDAGGCLVSLLATFVHFYE
+NQNLSHNIVIVASAEEESSGKNGLNSVLKHLPELDCAIVGEPTLMQLAVAEKGLLVLDVK
+VKGTASHAAHQNDDNAIYKSIPVMEWFKNYKFDKISEVLGPVKMTVTQISAGKQHNVVPS
+ECDLVVDIRVTDCYSNTEILEVVKANINAEVTPRSMHLNASSIPVAHGLVQAGIALGRTT
+YGSPTLSDQSVLSCQSLKLGPGETLRSHSADEFIFVNEIEEGIDLYIKILTGFFKL
+>tr|A0A1S1J0G8|A0A1S1J0G8_9FLAO
+MKKRLYKFIFFKLMGWKIVGIENAEVKKCVMMVMPHTSNHDFYLGIFTRGISGLEMNWVG
+KKELFRFPFGYYFRNVGGEPIDRTGGLNKVESIAAIFDRKEVFRLAVAPEGTRKGVKELK
+SGFYYIALKANVPIIPVAFDWGKKEVNLGKPFLPTGDYDCDLSVLKKHYNGVLGKIPENG
+FWS
+>tr|A0A1S1J4G9|A0A1S1J4G9_9FLAO
+MKKFIKYSLYLAIVCSFYNCSNDDTKPEPVIEEPKPEPIKDPTLTIKLQADFTTERYNVV
+AIDPEVTIENANGAVAQYKWTLKVTGKDGVAKDSVIGDSKTLKFIAPKALSYAVDFTVTL
+NKLVKQASTKVTVAETGKTYTSKALSIIDYVPAPHYNNDGFEFTTKAEAIENAQAILADG
+SLVDLGTFGGYIVTKFDHTVINAYGKRDFTVQMNTVSNASKFSPVSIMVAYDANKNGIAE
+DNEWYEIAGSEYYKSTTVKNYEVTYYKPDPNKTAVAGKYDWQFDKEYLKWANNKTASGFI
+TRTKKWRRYNYYPQWLGDSYTLKGTKVNLATKDISDGEGTAFNVGTFEWGYGGIKDPSID
+ISWAVDSNGNKVHLPGVDFVKVYVPTFTEIGALDLVTNSFKQAEDLNFAAGK
+>tr|A0A1S1J503|A0A1S1J503_9FLAO
+MSNHKILTIDNLSLQEFDSEADLIPLLTPEDEEEMNNEELPLSLPILPLRNTVLFPGVVI
+PISAGRDKSIKLINDANAGGKIIGVVSQINEEDEDPSKDDIHKIGTVARILRVLKMPDGN
+VTVILQGKKRFEIDEVVSEEPYITATIKEVSEERPAEDDTEFTAILDSVKELAIQIIKES
+PNIPSEATFAIKNIESQSFLINFVSSNMNLSVKEKQGLLSINGLKERALETLRYMNVELQ
+KLELKNDIQSKVRFDLDQQQREYFLHQQMKTIQEELGGVSQEEEMDEMGLKAKTKKWDEK
+TQKHFEKELSKMRRMNPQSPDFGIQRNYLELFLELPWGEYSKDKFDLKHAQKVLDKDHFG
+LEEVKKRMIEHLAVLKLRNDMRSPIICLTGPPGVGKTSIGRSVAEALGREYVRISLGGLR
+DEAEIRGHRKTYIGAMPGRIIQSLKKAGTSNPVFILDEIDKLSSGNSGDPSSALLEVLDP
+EQNNAFYDNFLEMGYDLSKVMFIATSNNMSAIQPALRDRMEVIKMSGYTIEEKVEIAKRH
+LFPKQLEAHGLTAKDLTIGKKQLEKIVEGYTRESGVRNLETKIAQVIRNAAKAVAMEEDY
+NKKVTDEDIVTVLGVPRLERDKYENNDIAGVVTGLAWTSVGGDILFIESLISEGKGALTI
+TGNLGNVMKESATIALEYIKANAKKLGLNVELFQKYNIHLHVPEGATPKDGPSAGIAMLT
+SLVSLLTQKKVKKSLAMTGEITLRGKVLPVGGIKEKILAAKRANIKEIILCHENKSDIDE
+IKAEYLEGLTFHYVKEMSEVLALALTDQNVKNAKTLK
+>tr|A0A1S1J9L9|A0A1S1J9L9_9FLAO
+MALSEQEIIRREKLQNLRNLGINPYPANLFPVNHTSKQIKESFEEGKKVIVAGRLMSVRD
+QGKACFAELQDSEGRIQLYVNRDVLCEGDDKTLYNQVFKKLTDLGDFIGIEGELFTTQVG
+AKCIRVSGFTFLSKTLRPLPLPKVDEDGNVHDAFNDAELRYRMRYVDLTVNQHVKETFIK
+RTKLFTAMRGYFNDAGYLEVDTPVLQSIPGGASARPFITHHNSLDIPLYMRIANELYLKR
+LIVGGFEGVYEFSRNFRNEGMDRTHNPEFTAMEIYVAYKDYNWMMEFAEGLLEHCAIAVN
+GTSEVTFGEHKINFKAPYARVTMTDSIKHFTGFDISGKTEEELFEAAKGMGIEVDKTMGK
+GKLIDEIFGAKCEGNYIQPTFITDYPKEMSPLCKEHRDNPDLTERFELMVCGKEIANAYS
+ELNDPIDQRERFEDQMRLAAKGDDEANGIIDEDFLRALEYGMPPTSGMGIGMDRLIMYLT
+NNASIQEVLLFPQMRPEKKQTVELSDEEKFIVDLLKGNENKMDLQQLKITANLSGKKWDA
+SMKNLSKHGLTKVAVEGEFKFVELVG
+>tr|A0A1S1J9N2|A0A1S1J9N2_9FLAO
+MQIQKQQFIFLLFSLGLCFHIQAQENCTLQKALQTARSNNPFLKTEQLNVKIAESDIVTA
+KLRPNPSLNNQTLQLMQSSGFHENTQWHDKQNRQVWWQLTKPFQIAGQRKNKIELAGKNV
+LFAEKNYSETERNLFFDVANKWLEVWTVKRRLEIISTAKSNIDSLLFTNQNRYKNLVITQ
+TDLYRTELLSKQYDIQLKTAFQEVNNHQSELKLLLGTQENVSADMSDDFLFAMPNTIDDL
+FVKAFQNRSDLQSVKSLIDVSDSNIKLQKSLSFPQPELGVIWNPQNAVQYFGVYANIDLP
+IFNRNQGEIKKSVLVKNQVENQLSALEVKVRTEIKIAYENYERQKQNIANFESLLKQSKT
+ILDNVKYSYLKGGTTIVDFLEAQRSWLETQQQYYDTMQSYKQSYIQLLYTTGLINQLAL
+>tr|A0A1S1J9V1|A0A1S1J9V1_9FLAO
+MIHIPDFAHATTVQIIFCFLAFITVITAFLTIFSRNPIHSAIYLVICFFSIAGHYLLLNS
+QFLAIVHIIVYSGAIMILFLFTIMLMNLNEQKEVHRPRITRLGAIVSFCLICIVLIAIFI
+NSKPIVGEYDSTGEDFQSIKVLGKILLNEYMVPFEFASILLLVAMIGTVLLSKKEKLNK
+>tr|A0A1S1JAB0|A0A1S1JAB0_9FLAO
+MSTQKFATNALHAGHDVTKNAGTRAVPIYQTSSYVFNNSDHAANLFGLAEAGFIYTRLNN
+PTNDVLEQRLAALEGGIGAVVTASGASAISTSLLTLLKAGDHIVASNSLYGGTYNLLSVT
+LPRLGITTTFVDPSKPENFTKAAKENTRAFFVESLGNPKLDVLDLKAISAEAKKFKVPFI
+VDNTVATPYLLNPIAYGADIVIHSLTKYISGNGTSLGGAIIDAGTFDWANGKFPEFTEPS
+PGYHGLVYHEALGNAAFIAKARIEGLRDFGAALSPFNAFQIIQGLETLPIRIQKHSENAL
+ALASWLEKQEEVAWVNYPGLKNNKYYDLSQQYLPKGQSGVVTFGLKGGFEAAKKVVDETK
+LFSLLANIGDTKSLIIHPASTTHQQLSDAEQLETGVSKDLVRLSVGLEDIEDLIADLQTV
+FASVTESQYSINKN
+>tr|A0A1S1JAG3|A0A1S1JAG3_9FLAO
+MYPYFKKKFIIPAVAAGFLFIGTSFKDDFFEIAKQIEIFTTLFKAVNTNYVDETNPGDLM
+DKAIKSMLGSLDPYTVYFNEQDVVNFKINNTGEYTGIGALISRKKDRLIVREPYKNYPAD
+KAGLKAGDEIIQIGDVLIADFKDDASQLMKGTKNTKINIKYLRQGQTFTTQLVLDEVDIK
+SVPFFGKIDAKTGYIVLAHFSRKASNEVKDALEKLKADGATQIVLDLRGNPGGLLNEAID
+ICNLFVPKNEVIVTTKSRIEKHNNIYKTTKEPVDTAIPLAILVNGRSASASEIVSGALQD
+LDRAVILGSRSFGKGLVQRSVDLTYGTQLKVTISRYYTPSGRCIQALDYAHKDKNGVAQK
+TDAKNFNAFKTRKGRTVYDGGGVLPDIELDETKMSPITTALLKNDGIFDYATTYYYKNPN
+LGDKTPTITDADYSSFKQFLKTNKISFDTESEVALKNMMAAAKNEKIDETIATEYQQLQA
+ALEKSESTLLDKNQKEIRNLIQEELIKRYQYQEGLYQYYIKNNSEIKKAVNVLNNQTEYK
+TILKM
+>tr|A0A1S1J6X2|A0A1S1J6X2_9FLAO
+MNTYDLIIVGGGPIGLACAIEAQKKGLRYLIIEKGAIVNSIFNYPLYMTFFSTAERLEIG
+EIPFSCLAPKPGRQEALEYYRNIHRYFNFSIHLFERVLQVEKIANSTFKITTDKALYEAV
+NVIIATGFYDIPIEMEVKGEELPKVRHYYKEAHEYAFRNVLVVGANNSSVDAALECWRKG
+ANVTMVIRKKEINSRVKYWAKPDIENRIAEGSIKAYFESNITEIRENEVEIETPTGKITI
+ENDFVLALTGYKPDLAFLENMGIQLSEDELKTPTYNPETMETNVEGLFLAGVICGGMHTH
+KWFIENSRVHANMIVDYITSK
+>tr|A0A1S1J9A3|A0A1S1J9A3_9FLAO
+MTFQELQPKISTIVSDTVLVRDEKLLAICQLLNENIEYYNWVGFYFANHENKTLHLGPYV
+GAETDHTVIPFGKGICGQVAESNANFVVPDVAAQDNYIACSFTVKSEIVVPLFVDGVNIG
+QIDIDSHVIDPFTEADERFLEFVNQEVAKLY
+>tr|A0A1S1IY88|A0A1S1IY88_9FLAO
+MKKIYSLLALMSLFMLSGCSVYNFTGTGNIDAKTFQVNFFQNNADLIEPGIDRTFTLTLQ
+DLIQNQTNLNLVSNSGDLVYEGEIVDYRTTPMTATADQGAFQNRLSIRVHVRFTNKKKEK
+DDFEKTFEFYYDFPGQGLPTGATLNTAIQVIFERITQDIFNESLAKW
+>tr|A0A1S1J160|A0A1S1J160_9FLAO
+MKQLITLTFLLLTLTAFAQKPCEYSANVTDSLGTYKVTNDYMISEKYFGGTFDYVFFALA
+QTDGLPTLNLQLIQKSKDFIKANCFDKNSKVFLQLENGKIVTLIHIDKESCGTLIHDEKG
+FDNRINTGIFMFMKEGFEELKKSPVSIMRIKYLTNIEDYIVKRELTSELNGKVYHPNTYF
+MENIRCVE
+>tr|A0A1S1J3R6|A0A1S1J3R6_9FLAO
+MKNYILVFALIFTTISFAQTITSKKEEANVEQYALLQKVNKYYPDITLNKTVTNFYADGN
+IIDTHQEFDLTTSKFSSYKIGLEPDNKKLLFEYVSDETGKVYGDVTIFKGNALRTTFNEK
+NNEISVSLNGKPVYLKKIKQN
+>tr|A0A1S1J264|A0A1S1J264_9FLAO
+MNYFSSDFKLGILGGGQLGKMLLFDTRKFDIQTYVLDPSDEAPSKFACNKFFQGDLMDYE
+TVYNFGKQVDILTFEIELVNLEALTQLENEGLKIYPSPKTLKGIQNKGIQKQFYADHHIP
+TAPFERFENLEGLKAKIQDIKLPFVWKCTEFGYDGNGVKVIRQVSDLDSLPNVECIAETM
+IPFKNELAVIVCRNPSGEIKTYPVVEMEFHPEANQVEYVICPARIDEKVAEKARAIALNV
+SEKFNHVGLLAVEMFQTNDDDILVNEVAPRPHNSGHYSIEASYTSQFENHLRAILDLPLG
+NTDSKVAGIMVNLVGAEGFSGDVVYENIETIMGWNGVTPHIYGKKQTRPFRKMGHVTIVN
+EDMSEARRIAEDVKNTIRVISE
+>tr|A0A1S1J703|A0A1S1J703_9FLAO
+MNKRVVITGMGIYSCIGTSLDEVKESLYQGKSGIQFDSERKEFGFQSALTGMVPKADLKN
+LLTRRQRMSIGEETEYAYMATIEALKNANIDDAFFEEREVGIMYGNDSVSKAVIEATDIV
+RDKKDTALIGSGAIFKSMNSTVTMNLSTIFKLRGINLTVSAACASGSHSIGLAYFLIKSG
+FQDVIICGGAQEINKYAMSSFDGLGVFSARENEPEKASRPFDKDRDGLIPSGGGATLILE
+SYESAIARGATIIAEVAGYGFSSNGGHISTPNVEGPSIAMQRALDDAQLKATDVDYINAH
+ATSTPVGDGNEAKAIFEVFGERNPYVSSTKSMTGHECWMAGASEVIYSILMMQHDFIAPN
+INLENPDEDAAKLNLVKTTLNKKFDIFLSNSFGFGGTNSALVVKKFKLNDE
+>tr|A0A1S1J751|A0A1S1J751_9FLAO
+MKKNTLKYSFFIVFLFFLIACSTKKNNFLARNSHALSTKYNILYNGGIGLDKGLKAVHAN
+NQDNFWKMLPIEKMQFDENFSQGDKPKNADFEKAETKATKAIQKHSMNIGGRERNSQIDE
+AYLMLGKARYYDQRFIPALEAFNYILYKYPNSSNIYTAKIWREKTNMRLGNDAIAVKNIN
+LLLKNTDLNKQTFSDANALLAEAYLNLEKKDSAVAKLKIAEEFTRINEDRARYRFILGQM
+YQEAGIRDSAFYYYDGVIDMNRKADRKYMMHAYAKKAQMFDYKNGDQDLFLEMYNKLVAD
+RENRPYLDVLFYEMGVFFDKNDEQQDALVFYNKSLGRKSKDPYLIASTYRNIGDMYFKNT
+NYTIAAKYYDSTLVKLDPKSREFAFIEKNRKNLDNVIKYEAIAKRNDSIIKVYGLSPTDR
+KSYFNDYIAVLKEKDEEKRILEEKEKEKLANIDRNTNANGGPTAVNPQSVGAANPGIGAF
+NPPSGNETASTSTSTFYFYNPTTVAYGKLQFKKLWGNRVLEGNWRLAAVKSANNAALNDT
+LNNNAANALKDTIVIEKYTTDFYEKQLPQTQVAIDSIGVERNFAYYQLGLIYKEKFKEYN
+LASDKLEQLLKNKPEEKLILPAMYNLYKIYQITNPARAERIKSDITNNYPTSRYAQILNN
+TNAADLASPDKEYQKWYKLFQEEQFDTVLDNIDNLINQYSGDEIVSKYELLKANTLGKVN
+GLTAYKKGLESVADNYPNSDEGKNAREILEKQIPALEKLDFTSVDSKNWKIVYVVANNDT
+KTRQKIEEAIRVFLLVENYERLTTSFDKYNRTESFVVIHGLKSEAYARDISGVFRDDKKY
+KIPNPAIIISSDNYKLVQIKKNLDTYLAPKTP
+>tr|A0A1S1JBG5|A0A1S1JBG5_9FLAO
+MFSWKKIKKHTVNVNFFNSFGQIPTQFLTPFMNKKTKFFKNVLLLQFIPVFLLGIFILSN
+PKSQKVIRIREIHPYEFNYGELLPLISFAVCCIVALFTLFPKTPEDDEEIVKRKRKQNFW
+KFAFYCNVFLLLVIGIFSVLVFQKDALIIDQPVHFYAIIFSRFLLVIVISLVVASFLLAA
+GIYWKTNKSLATAILVFSFLILTVSSVFELAFVSVFIENSERHFIAKGQKQTGNQEEVYE
+DYGESDEGDDESEDTAVLLYDSWISLIENWGGTKGEHNFFGVRQSIDYSMQNHIAENENY
+YLVQFIDSLRNKPDKLYSEFEMYKRVFYSAVSDETYQEANFDKIVNGLLLAYEDIGSQKD
+KLIEIYRVMGTEQKNGPYQEEYFLKFESYFSQETIQKIKDLKTSADQDDYTKADLMWFYG
+FWVRRNNEGNLKEVALILKEIKEHYENSEE
+>tr|A0A1S1J3X3|A0A1S1J3X3_9FLAO
+MKNNLFKGIIAYPITPFDQNEKVDITLYKKLLERLIVSGCHAVAPLGSTGVMPYLSDEEK
+EAITIATIEQVRGRVPVLVGVSNLTTEKTIYHAKFAEKAGAAAVMIIPMSYWKLTDDEIV
+QHFDAVAKQISIPIMAYNNPATGGVDMSPVLLKRLLEIANVTMIKESTGDVQRMHYLKRE
+LRDDVAFFNGSNPLALAAFSAGATGWCTAAPNLIPKLNLDLYHAIENNDLEAAQKVFYKQ
+LNLLKFIVNKGLPRAIKAGLEIQGIESGFLRSPLKPLTANEIEEFKLILKELE
+>tr|A0A1S1J922|A0A1S1J922_9FLAO
+MKSNLLSNIYNPADLRLLTEAQLSQVAQELRDFIIDVVSVKEGHLGSSLGVIELTIALHY
+VFNTPDDLLVWDVGHQAYGHKILTERREIFHTNRQLEGISGFPKRSESIYDTFGVGHSST
+SISAALGMAIASKLKGDFDKQHIAVIGDASIASGMAFEGLNHAGVTDANLLVILNDNAIG
+IDPSVGALKKYLTAVKNGKNPKQNNIIKSLNFDYSGPIDGHDLPVLIKELNRLKKIKGPK
+FLHIVTTKGKGLQQAEENQVKYHAPGKFDASTGELYSKSEENLPPKYQDVFGLTILDLAK
+KNEKIIGITPAMPSGSSLKFMMDEIPERAFDVGIAEQHAVTLAAGMVTQGMTVYCNIYST
+FLQRAYDQVIHDVALQNLPVIFCLDRAGLVGEDGATHHGVFDIAYLRAIPNLIIYAPLNE
+IALQNILYTAQLGLNHPIAIRYPRGRGVISNWEVENFGHYKKIEIGPATCLKKGTKTAVL
+STGTIGNNVIEAINESYNSATIAHYDFPFIKPLDTNTLIDIFTSFERIITVEDGTVNGGF
+GSAILEFAASHNFKNTIEVLGIPDTFIEHGTVNQLQQLCKIDVKSLINLFSNDTK
+>tr|A0A1S1JBJ9|A0A1S1JBJ9_9FLAO
+MEQQIPYIPKNKVRIVTAASLFDGHDAAINIMRRIIQSTGVEVIHLGHDRSVEEVVNTAI
+QEDANAIAMTSYQGGHNEYFKYMYDLLKEKGAGHIKIFGGGGGVILPSEISELHEYGITR
+IYSPDDGRSLGLQGMINDLVQRSDYPIGDQLNGEIDHIENKIPTAIARLISAAENFPEIA
+KPVFDQIHESNTDSKIPVLGITGTGGAGKSSLVDELVRRFLIDFPEKTIGLISVDPSKRK
+TGGALLGDRIRMNAINNPRVYMRSLATRQSNLALSKYVAEAIQVLKAAKYDLIILETSGI
+GQSDTEIMDHSDVSLYVMTPEFGAATQLEKIDMLDFADLVALNKFDKRGALDAIRDVKKQ
+YQRNHNLWDKNPDEMPVFGTIASQFNDPGMNTLYKAIMDKIVEKTQSELKSTFQITKEMS
+EKIFVIPPHRTRYLSEIAENNRSYDEIAASQQKVAQKLYGIFKTIETVSGKVPQINKAGI
+DDDSVILSEAEGLDENRIFLNLLLNQFDKVKMDLDPYNWEIILNWDEKVAKYKNPVYSFK
+VRDKEIKIATHSESLSHLQIPKIALPKYEAWGDVLRWNLQENVPGEFPFASGLYPFKREG
+EDPSRMFAGEGGPERTNKRFHYVSAGLPAKRLSTAFDSVTLYGNDPDLRPDIYGKIGNAG
+VSICCLDDAKKLYSGFDLVHALTSVSMTINGPAPMLLGFFMNAAIDQQCEIYIKANELEK
+EVEAKINKIYKEKGTERPKYQGDLPAGNNGLGLMLLGVTGDQVLPLEVYNDIKVKTLSQV
+RGTVQADILKEDQAQNTCIFSTEFALRLMGDVQEYFITQNVRNFYSVSISGYHIAEAGAN
+PITQLAFTLSNGFTYVEYYLSRGMNINDFGPNLSFFFSNGVDPEYSVIGRVARKIWAKAM
+KNKYGANERAQMLKYHIQTSGRSLHAQEIDFNDIRTTLQALYAIYDNCNSLHTNAYDEAI
+TTPTEESVRRAMAIQLIINKELGLAKNENPIQGSFIIEELTDLVEAAVLQEFDRITERGG
+VLGAMETMYQRSKIQEESLYYETLKHNGDFPIVGVNTFLSSKGSPTVIPAEVIRATEEEK
+QYQITMLDNLHQFHEAKVNEHLRQLQEAAIKNENLFAHLMEATKVCSLGQITSALFEVGG
+QYRRNM
+>tr|A0A1S1J9E7|A0A1S1J9E7_9FLAO
+MKLYPIESGNFKLDGGAMFGVVPKTIWNKTNPADANNLIDIAARCLLIEDGNRLILIDTG
+MGDKQSEKFFGYYSLWGSHSIDKSLAKYGFQRDDITDIFMTHLHFDHCGGSVQWNSDRTF
+YEPAFKNAKFWTNENHWEWATKPNAREKASFLSENILPMQESGQLNFIKRPESDFGFSEE
+MNFGIYYVDGHTEKQMIPHIQYQDKTIVFCADLLATAGHIPLPYVMGYDTRPLLTMPEKS
+KFLNAAADHNYYLFLEHDAHNQIITVEQTEKGVRLKEVFTCEEIL
+>tr|A0A1S1JBV8|A0A1S1JBV8_9FLAO
+MITVQNTINASVDKVWEFWTAPEHITKWNFASPDWHTPHAENDLRVGGKFTSTMAAKDGS
+MSFDFGGEYTVVEQNKAIEYILGDGRKVEITFKETPSGVEVIEKFDPETENPEEMQRGGW
+QAIMDNFKSYAESN
+>tr|A0A1S1IZE3|A0A1S1IZE3_9FLAO
+MAGIVSAIVSYVITVKLKKLDFKNEYYKEILKKRLVAYQYIESQIAVLKTVVLDEADSQP
+YHMMFSYSDIEFFEFQKNMLMAISFSLWIDDETSENLEKLNELFYNLNIKAGGKSNLELI
+DLGKKYYQHISDLRFQLENSTKRGLYNLHDIDKAFKTKKVNTKREIRELK
+>tr|A0A1S1J195|A0A1S1J195_9FLAO
+MKTNTLKKIAFLSLGVISTGNLFAQNKPEKAPSVPAKDTYFGITVEDKYRNLEDLKNEQT
+LSWLKAQADYTNNILNSIPGKKTLIDELTSINDRVTEAISGTQIMEDGTYFYQKTTPKDQ
+VAKLYKRAGLKGKETLIFDPQTLKGEAKDIFTISSFSPNKSGKLIAVNISKNGGEMSEMF
+LINTADNKILADKIDKLRFGNANWLDDDKSFLYSQSPTADIHDAKAQLNIVTKLHVIGNE
+ITKDKVIFSKAMYPELKIAEEEIPIMGYDVDSKMLFLMPYSVNPNMKMFIAKGSELKSAK
+ISWKLLTDRKDEIKNFAFSDKDIYFFTSLNAPKFKVTKTSMANPNLATATLVIPEDKEAN
+LNPITITKDGIFYTKTKNGIESKLFFTDFEGKKHSEIKTPKKSATIVLSSRGSKFSDLWV
+RTTGWTTKGERYKYDVKKNNFVREELSTITEYPEFENFEIEELMVKSYDGVEVPLSLIYK
+KGIKKDANNPVLFYGYGAYGMSMSPTFNPSLLLWVERGGILAVAHVRGGGELGEKWHLEG
+QKSTKPNTWKDVIACTEYMIKEGYTNPTKTAIYSRSAGGILVGRAITERPDLYAVAIPGV
+GSMNTVRGENAPNGPANTPEFGTMKIEDEAKALIEMDSYLQLKEGVKYPATLTTAGFNDP
+RIIVWSPAKFAARLLEVNASKKPTLLKVDYEAGHFGGASKAKSYEEVADVLSFALWQVGH
+PDFQPKN
+>tr|A0A1S1J6B7|A0A1S1J6B7_9FLAO
+MKTKITIATLLLVGITAVKAQKYDIKTAKTYAEISAKTDGKWEARKYIGGTVFKNVDRLK
+LAPEHTDHSFDIRYEGPGWESNRIGYRLYLDWRNAIDIFGKKTSEIVLPKVGQDNFDSYH
+EMSDWGADILKAGKGIGIGSIDRYLNNEKLHFYEVDSTIATVVNKTNESGVKVQYYGWKT
+ASDKIDFTSVLTIKPNELYTQHTIQASKEIKGICTGIVKQKNTELLKKESKNKKWAYLAT
+YGQQSLVPDKLGMAIFYQINTIENTPDTDLDYLLVFKPTTKATSFYFLGAWEQEPNGIKS
+KEEFVKYLDEKLEVLNKKGKM
+>tr|A0A1S1JAM2|A0A1S1JAM2_9FLAO
+MIWGLSAILGIYLITIGLLIYGFFKVKKYQNIDLKPQTSFTIIVPFRDEEENLPNLLESF
+SKLNYPNDLFEVILVDDNSKEKFQISHFTFQISQIDNVRISNSPKKDAISTAMQLVKTDW
+VVTTDADCLVPENWLLTFDNYIQQNKVSMLAGAVTYECENSFLHHFQQLDLTSLQGATIG
+SFGLQSAFMCNGANFAYTKSLFEDLNGFEGNSKIASGDDVFLLQKAVGIFPDEVHYLKAA
+DAIVSTKPTEDWKTLFYQRVRWAAKTSSYQSSFGKLLGLIVFLGNLSFVVGFCSVVFWIL
+PYYFFVLLAFSKFAIDCILLYATNRFLVKDKIKSLFLSSLLYPFFSSAVALYSLFGSYEW
+KGRKFTK
+>tr|A0A1S1JBD5|A0A1S1JBD5_9FLAO
+MRFTAPILFFILISLTSQAQVKPKENEQMGYILTEQDSILNDTIELPEIIISKEKLDPEA
+QKQFAILQNRVYKVYPYARLAADRLTALNNGMARLKTNREKKKYFKIVEDYLNNEFEARL
+KKLSRKQGQILVKLVHRQTGITTYELIKTLKSGFKAFVSNTTASLFDISLKMEYKPFESN
+EDYLIETILVRAFDSGKLVNQKAANPVNYDDLMNHWETKAKETKAEK
+>tr|A0A1S1JCP4|A0A1S1JCP4_9FLAO
+MKKSLFAMAAILGLALTSCSSDDNNKKNENTSTFVLKVDDLQGNINDGTVTLDPTKTYTL
+TGGLVVKGGATLIIPAGTTIKSSATAPATSLFIAVERNAKININGTAAKPVIMTSGKAAP
+AQSDWGGLIIAGNAKVNTGDNGTTEVGGLSYGGNDNADSSGNINFLKISYTGSKYTAEKE
+YNGVSFFGVGSGTVVSDIYTFESGDDGIEFFGGAVNATNLTIINSYDDSLDFADGWVGTA
+TNVYIKGVTKAGVEGSTNAKDPSGAVPMTNAKIINISIVKGDAAFLADEKAINYKEGGGK
+QAYTNLYVANGMPADLAKLSTDAGATANIAAGNFTITNYTFGASVTNLVGPKLSGTTTGA
+VGAGAGADLPSWASWTK
+>tr|A0A1S1JGP1|A0A1S1JGP1_9FLAO
+MNASIETNPLLERLPKHLKQFIKPQDYGDYTPINQAVWRYVMRKNVDYLSRVAHHSYLDG
+LKKTGIEIDSIPSMYGMNRILTEIGWAAVAVDGFIPPNAFMEFQAYNVLVIASDIRQLEH
+IEYTPAPDIIHEGAGHAPIIANPEYAEYLRRFGEIGCKAISSHKDYQMYEAIRLLSILKE
+AEDTPQEKIDEAEKAVADLQNNMGELSEMAQIRNLHWWTVEYGLIGTVENPKIYGAGLLS
+SIGESAWCMTDNVKKIPYNISAANQNFDITQLQPQLFVTPNFSYLSLVLEEFANKMALRT
+GGLSGIQKLIHSNALGTIELSTGLQISGVFTNVLEDEGKPIYIQTTGKTALSYREKELVG
+HGTLTHPHGFGSPIGKLKGFNLAIEDMSPKDLQAYSIVENETVKLEFEGDIIVEGEIITG
+SRNLHGEIILISFRNCTVTHGETILFQPEWGNYDMAIGKKVVSAFSGPADVNSFDLINTV
+PKTTTIKAQHTAERDDLEILYQTVRLTRENKSATTELNTVFHKLKESHPNDWLLAVEIVE
+LLERSNEKQLLQEVLVHLDQLKEKRPEVAHLISGGLDLIFDKEAV
+>tr|A0A1S1JCP6|A0A1S1JCP6_9FLAO
+MTREEKSIAIENLTAQLAGTNIIYVSDISGLNAETTSNLRRACFKAGIKLEVVKNTLLAK
+AMEASANDYGDLPTVLTGNSAIFISDVANAPGKIIKDFRKKSDKPVLKGAFINNEIYIGD
+NQLDALATIKSKEELLGELIGLLQSPAQRIISALQNKFAGSEEETEA
+>tr|A0A1S1J4W6|A0A1S1J4W6_9FLAO
+MQNKGLIKFFAILFALVSIYQLSFTFVANSVKSEAKAFAGDNPDKELKYLDSIGKEKVLN
+LGFTDFTYNEVKNKQLNKGLDLEGGINVILQISVKDVLKGLANNSKNPVFNKSLADATAN
+LEGNKTYLNKFFEAFEANSKGSVKLASPDIFANRSLQGEGGVDFQMSDAQVQKVIKKKVD
+ESIESAYKVLRERIDKFGVTQPNIQKLGETGRILVELPGAKDVDRIKKLLGGKAQLEFWE
+TFKIEEIGNFLVASNEALKKTEVKVKETKAVAKDSLNALLTDNAKDSVDTKKGNNPLFDK
+MLGQGGGPVLGYFAPKDTAAVNAYFKRADIRVLLGADQHNAKFVWSKPTTIKDAKGKDIE
+AVELYALKGNRDNVPAMSGGVVTDAKDTFDQLGKPAVSMQMNSQGAKVWEELTGRAFSQK
+GYIAIVLDNIVYSAPGVTSGPIAGGRSEITGSFDVAETKDLANVLNAGKLPASADIIQST
+VVGPSLGQAAIDAGTISSVLGFLLVCLWMVFYYGKAGWYANLALLLNLLFLFGIMASFGF
+VLTLPGIAGIVLTLGTAVDANIIIFERAKEELREGKSLSDAVVASYGWHGAMRSIIDANV
+THVLTGAILFIFGTGPIKGFALTLLIGIVTSLFTSIFIARIFIDRNIAGKGDLTFSTSVT
+KNWFTNFHFDFIKIKKFTYIFSSIVVVVSLVSIFFVNGLDEGVDFVGGRTFQVKFEKPVD
+ATVVSDELSAAFGTPVEAKILGDDDQLKITTKYKIKEDGVAIDEEVNQILYKSLTKYFPN
+TSYEKFINSFDGKRIGVVQQSKVGASISEDIKTNSYWAVLGAMAVIFLYLMISFRKWQYS
+LGAIAAVAHDVIFVLGIYSLCYKFMPFHMEMDQHFIAAILTVIGYSMNDTVIVFDRIREF
+IIGNRKGSFEDIVNASINTTLSRTLNTSLMMIIVLLTMFIFGGESIRGFIFAMLIGIVVG
+TYSSLFIATPVLVDTISSDDKHTIEDKHNA
+>tr|A0A1S1IXU8|A0A1S1IXU8_9FLAO
+MQKFVSFIIIFLFFAISTAQNRFGAPEVDPVQIQKTYTDWSAYQSKKIMLSRDFIALDSS
+KEISKETFLDQLANGNFIPIRLESEPEMYVYKLFEIQPGTDSSIKATMNQIGFDALKNYK
+MEGTAFPKFSFKDLDGNLVTNESMKEKIVVIKCWYIHCTPCIREFPQVNKLAAEYKDRKD
+ILFISLAEDAAAQLKTFLARKPLSYSVIPDMKAYMNEALQLNSFPTHFILNKEGMIVKVL
+PNFESLEVALAKESRQ
+>tr|A0A1S1J5A2|A0A1S1J5A2_9FLAO
+MKAIGFKTSLPIAEEESFIAFETPKPVPGERDLVVKISAVSVNPVDFKIRQNSTKDTVLE
+TPKIIGWDAVGIVEAVGEKVSLFKVGDEVFYAGDITKPGSNAEYQSIDERIVGRKPKFLS
+LEESAVIPLTGLTAWEILFDRIRINPEKDKGKSILIIGGAGGVGSIAIQLAKKVAGLTVI
+ATASRPETIAWCKEQGADYVVDHRNLIASVQEAGFQQVDFILDFVDTNSYWDTMVELIKP
+QGHIASITGSSDPVALNKLKNKSVSFSWELMYTRSMYETDDMQEQHVILNKLADLLDQGM
+LKSTLNVTLTGLTVANFKKAHELLESGKTIGKIAIKF
+>tr|A0A1S1J6Q5|A0A1S1J6Q5_9FLAO
+MRNPEIVLNSLIKHSGDSSYKFERLYKVLFNEEMYYTAYQKIYSKVGNMTKGIDGKTIDG
+MSISRIERLIESIKNESYQPNPSKRIYIPKKNGKKRPLGIPSFDDKLVQEVIRMILEAIY
+EGYFEHTSHGFRPQRSCHTALISVQQSFTAVRWFIEGDIKGFFDNINHEVLIGILKERIN
+DDRFIRLIRKFLNAGYIEDWMYHKTFSGTPQGGIISPILANIYLDKLDKYVKEYIKEFDK
+GERTTATRQYRLYEQRRYRLAKKLECETDETVRAKMIADIKELRQERNKYPAYNKMDSSY
+RKLKYVRYADDFLIGVIGSKQDCKRIKDDIKNFLIEKLKLELSDEKTLITNAKKPAKFLG
+FDVYVRKSNETKRDKHGRTVRCFGDKIVLYVTAEVMKKKLLSYNAVKLVTQKGTEVWEPR
+SRYYMKDLDDLEIISQVNSEIRGFYNYYAIANNSSYVQSFSYIMEYSMYKTYALKYQTSV
+SKEKTKKCINGVFSIPYKNRKGYIIYRRFYNEGFKRQKIARGVYVDNLPMTVTITGGRNS
+LIARLQNEKCELCGANDKLEMHHIRKLKDLKGKEDWMKRMIARKRKTLAVCSKCHDKIHA
+GKLD
+>tr|A0A1S1JBJ0|A0A1S1JBJ0_9FLAO
+MIAHLQGKLVEKNPTEVIIECGGVGYQVNISLHTFSLIPNVENIKLYTHLQIKEDAHTLF
+GFVEKSEREIFRMLLSVSGIGANIARTMLSSIEPRQIINAIASGDVGVIQSIKGIGNKTA
+QRVILDLKEKVLKLYDLDEVSVVQNNTNRDEALSALEVLGFVRKTSEKVVEKIVKEDPEA
+TVETIIKKALKSL
+>tr|A0A1S1J2A9|A0A1S1J2A9_9FLAO
+MKNWMLTIGVFFLTLGTIQGQGVIGKWKTVDDETGEAKSIVEIYEKSGKVYGKIVEILRE
+NHKKDLCTKCDGADKNKPILGMVIINGLKKDGSEYSGGTILDPTNGKKYKCYIALESADK
+LKLRGYVGISIMGRTQYWSRVKN
+>tr|A0A1S1J335|A0A1S1J335_9FLAO
+MRFLYLFFLFISLQTTSAQNQFVADDMPYNTALNNAKAQGKPVFLMLYADWCPHCNLMKK
+EVFSDPAVIDFLKKNYVCVWKNIEKEEGTALKNKFNTKSLPSFLFIDSAAETLLYALKGE
+LKKEVFMTEVNNALNPKLQLPYLEKEFLADPSNVDKFFNYLNTLKKGKDRTDLSIPTHVY
+LHTQSDAQLISETNWRVIANGVTDIKSREFQYVLSHNKEFAAVASQSRIDRKIENIVTES
+LRPYVDNLDTTNYYKQREIAKSIRLQKVDSLVFKFDLTLAERTEKWQFYKKVTLENTQKL
+VWNDASSLKDIGQIYLKHISDTESLKKAIEWIKHAIELNDSYDGNLLLARLYQKIKDKKL
+ALQYAKDAKEIAKEMNWNSKEVDALLVELGKR
+>tr|A0A1S1J650|A0A1S1J650_9FLAO
+MKKKLIVLMVCLLLVGTSARPAEKVAVLPILEIVKAVTKKVIKAIDLRIQRLQNKTIWLQ
+NAQKQVENVLSKLKLDEISDWTQKQKDLYKGYYEELAKVKSIITYYQRIREITKKQTQLV
+QEYERAWNLFKQDTHFKDSEIQYMERVYTGILEESVKNIDQIFLILDSFATQMSDLKRLE
+IINKAADQIDGNYDDLTMFNQQNILLSLQRAKTEADVNQVKQFYGIP
+>tr|A0A1S1J776|A0A1S1J776_9FLAO
+MTTSNFNFSDTIILEDDSVLLRPLQESDADNLLEISVNEPETWKYSLVGADGKENLINYI
+QLAIKGRENQKEFPFIVFDKKTQKYAGSTRFYDMNLEYKSLQLGYTWYGSAFRGTGLNKH
+CKFLLLQFAFETLGVERVEFRADNNNERSIAAMKSIGCKVEGVLRSHMPTANSDVRRDSI
+VLSILQKEWFDEVKENLKHKL
+>tr|A0A1S1J4I2|A0A1S1J4I2_9FLAO
+MLFEDLSLSKSIQKAVFEEGYLNPTPIQEQSIPIVLSGRDLIGCAQTGTGKTAAFAIPII
+HQLHRIVGSSKKAKQVRALIVTPTRELAVQIGQSFDTYAKYTNLTQLTIFGGVSQNPQVD
+ALKNGVDILVATPGRLLDLHKQGFLDLDHLHTLVLDEADQMLDMGFINDVKKIVKLTPKN
+RQTLLFSATMPIAIRELAEMFLKDPEKVEVSPVSSTAETVEQRIYFVEKTEKRNLLYHLI
+KNENLSNVLVFSRTKHGADNVVKALRKKDIPAEAIHGDKSQNARQRVLDAFKNKEVGVLV
+ATDIAARGIDIDQLPFVINFDLPNIPETYVHRIGRTGRAGNGGIAISFCGKDEQPYWKDI
+QKLIKVEVKTITNHPYPWHSGSPGATDEKPKNSNRSGGAHKSRKSNASKQNKKRWY
+>tr|A0A1S1J645|A0A1S1J645_9FLAO
+MKKALITGVTGQDGAYLAEFLLEKGYEVHGVKRRASSFNTQRIDHLFRDLHEENVRFILH
+YGDLSDATNLIRIIQEVQPDEIYNLGAMSHVKVSFDTPEYVANVDGLGAMRLLEAVRILG
+LAEKTKVYQASTSELYGLVQEVPQTEKTPFYPRSPYGVAKIYAYWITVNYREAYNMFACN
+GILFNHESPLRGETFVTRKITMATAKIVLGLQDALYIGNLNSQRDWGHAKDYIEAMWLIL
+QQDKPDDFVISTGKTTPVREFVRMAFLECGIELEFVGENENEVGKVKSCTNPKYQIEIGK
+EVVKVDPTYYRPTEVDLLIGDSTKARTVLGWKPKFNLDDIVKQMVAADIELFEKEVK
+>tr|A0A1S1JCK5|A0A1S1JCK5_9FLAO
+MFLLCLPNILFSQEKKPKVVLVLSGGGAKGIAHIPLLQKLDSLHIVPDLIVGNSMGSIIG
+GLYAMGYSGDSIEKITKNIYWDKLLGGGQSLRSVSAEEKREFQRYLVGIGIKDGKLNSVG
+SLLNDQNLRESLSELTFPVYNVKDFDSLPIPFRAMATDLVEGKEVILSKGSLAYAMRASM
+SLPAIFKPVPYEKTMLVDGGVLNNFPTDVAKKMGADIIIGSDVGGGMQPMGKLNNIMMIL
+MQTSMFPSNVKNPANRDLCTILVDHMPNLRFSTADFAASNEIYKDGKIAANKNLPALIAL
+SEKLKGFTQRTHKLPYMPKEFVLDTIIYKKISPENLPLVVGRANLKPHVKYTSKDLISGI
+NRAMGTNLFDEIGYSYFIKDGDKPGLTLFGSERAKNQLNTSVHYDTYRGVGVIFNYTARN
+VLADASRLLVTADIAEQPKGRINFQKNFGGRREWWWGTELYGAFLKQEIYLNGKASDNIL
+YNTFEFNNEVNRNLNSLKSYFGFGLNYHYTYFKPKYDREYNPNAVSLNNYSSNNIEFNMH
+YSYNDMDKVFFATNGTIIKSNITRSLLSNVNASISAPDVLRLSGSTNNYTKFGLSFEKRL
+PLKKKITGIVGFDACFIFQDQLKNNQISFFDFGYATRYFLGGIIPSSGSNRFSFPGLHED
+ELNVTQYMGLKLASQINITGKIYLTPHVNIASVGFDSFGDFIDHAFKPKGNWDHNFETSL
+VLSGGAAISYQSILGPIHFDTSWINNIDKVRLFFSVGLSLNP
+>tr|A0A1S1J0S3|A0A1S1J0S3_9FLAO
+MKIKEIYALNPLQEGIFFRWQISENEYFEQSCYHIYGKVEVELLQKTFDFLVSRHDTLRT
+CFNNTTVNDILQVVLDSVPSGFYYRDESANENFSLENFKKSDRDKGFNLYKGSQIRLTVI
+KLRENVFEFIWSYHHIILDGWSIELLIKDFFYAYKCLLAGQEIKLSAPPSYSAYSKWLME
+LDKKSIAAYWEEYLSGFETNTGIPFFNPDNQNRQETEVKVLHTLSEKNKGTVTALCRELG
+ITENIFFQTIWGILLAKYNDTDDVVFGSVVSGRPSEVDRIEEMLGLFINTIPVRIKFNSE
+ETIKNILIDTQKEAIKSIPNHYIQLAEIQSNSNLGQQLFDTLVVYENYPSQEYAEDELIN
+SAQDTLEVVGVEAFEKTNYNFSLAIVPGINTVLRFTYNAQKYSSEFIENLKKCFEYLYLQ
+VLENPDSLFSEIDLVAGEERNKLFFDFNRETFDITANQTIIGYFSKQVLKNPNKAAVKYK
+EESLSYQELDEKSNKLAHFLIQNYDIKEHDFVAVALERSEMLIVTILAIFKLGAVYVPID
+IHFPEERKKIITESSQCVVVVNEDTIKEFENSTQNDTAINREIELSQIAYAIYTSGSTGK
+PKGVMVTHRNFSVLLTNCRKKFGTDSKTHFPVLASNSFDIFFFEVFYPLTIGGTITILNS
+ETIQDLALLSKEIEKINGFHAVPVLMRQLLDYSIDFDMADRFSQVTKIFMGGEVSSNETL
+EDLSKIFPNASLHVLYGPTEGTIFITGQTYLQKQKSYNPQLIGVPNKGSKIYLLDTANNL
+VPIGVPGEICIAGEQVANGYVNDEGIGREVFMTDFFSRKKLYKTGDLARWHFNGVIEFIG
+RKDSQIKLNGYRIELGEIETALQEQETIKKAIVLVDNQKVDQKRIVAFYTGAEELDEKSL
+KKQLQQKLPSYMIPSKIIWVEAFPILINGKTNVKALLTLGQQTTKSEQYTLPKTELEAKI
+LNIWKAILCNENIGIQDNFFEIGGNSISLMKMVRLINKELDINLKVLNAFKFSNIEALTH
+HITQDVEPGLELVDEKNSKSVDIANQTLSILKKKQQTN
+>tr|A0A1S1J1A5|A0A1S1J1A5_9FLAO
+MPISPNFTSILSKDWEINFTQCTPNGFLKYTDLCNILQLTAAAHSEIGGISFTDMQEFDQ
+AWVLSRMRVEITALPKWRDIVTVTTWINSLENSRSVRALEIHANGKKIVGCETYWAVFNT
+QLRRPEALALPYEHFELYPEKRATTEGFSKINITHEKEAIFEKTVYLSDLDIVNHVNNVK
+YLEWCLDHVDPKRILKQEVKSFEMNFMKELSLQDNVIIHEGENDNQTISTFSITKGEKTS
+FALKLHWK
+>tr|A0A1S1J2V4|A0A1S1J2V4_9FLAO
+MKKLFVSIFAITVLFSCNKNGKSESDKALDTKFDAYKDRFVTDLWKINPGWASAVGYHKL
+DSVLVVPDAAEEKRQLDFVNSELDSLKQFKLEDLSDNNKTDFQMIKNQLEATVFNIKEVK
+SSQWNPSEYNVCGAFAEILNGKYDSLEVRLRAFNAKMNNVPAFYEAAKKNIKNPTVEHTE
+LAIAQNLGGSTVFDVDLAAALEKSKLTAAEKKEMLDKGIVAKKAVADYADWLKKLDNKTP
+RSFRLGSELFAKKFNFDIQSSYTAEEIFKVAVDHKKDLHEKMFVLADKLWKKYKGNEPKP
+ADKLDLIKQVIDKISLQHTTPEKFQSEIEKQIPELTAYVKAKDLLYIDPSKPLVVRKEPA
+YMAGVAGASISAPGPYDKNANTYYNVGSMSGWTAENSESYLREYNDYILQILNIHEAVPG
+HYTQLVYSNQSPSIIKSILGNGAMVEGWAVYAEKMMLESGYKNSDEMWLMYYKWNLRATC
+NTILDISVHTKNMSKEAALDLLTKEAFQQQAEADGKWKRVTLSQVQLCSYFTGYTEIYNL
+REELKKKEGDKFNLKKFHEKFLSFGSAPVKYIKELMLSEE
+>tr|A0A1S1J4J8|A0A1S1J4J8_9FLAO
+MSQNTLEIEREEKKELYAYQKGDIDAIFDRLDNAPPKHHLLYQLPTGGGKTVIFSEIVRR
+YLANNDKKVVVLTHRIELCKQTSKMLKGFGVSNKIINSKVKELPDQNDFSCFVAMVETLK
+NRINDEKLHLDNIGLVIIDEAHYNSFRKLLNSFKNAFILGVTATPLSSNIKLPMHQSYNE
+LIVGDTISSLIDKGFLARATTYSYDVGLTSLKVGINGDYTVKSSDDLYTNTIMQEKLLHA
+YTERSIGKKTLIFNNGIHTSLYVYETFREAGYDIRHLDNTSSSEERKDILQWFKKTPDAI
+LTSVGILTTGFDEPTVETIILNRATKSLTLYYQMIGRGSRKLPGKDEFTVIDLGNNAARF
+GLWSEPVNWQHIFKSPEFYLENLRDDTEIEMYFKYSMPPELRAKFSKTADVTFDVDEEHK
+LIIKQNLRSKVVLDKSLEQHASMCVDNTETLQEAKSLGKELDDDIECRIKRFAKCLSQCS
+KNYREWLLDDYKKNLTLLIGKKYREKIMNEPDE
+>tr|A0A1S1J671|A0A1S1J671_9FLAO
+MLLVPSFGSFVVYTSFKLNQDEIVKTICVQRKLVFNTCNGRCELQKSLKKYADNEKKMQN
+NLKEKSEIVYIQNTTTADFKLVAPIESKAKIYASLDEKPISVSITTFHPPSYFI
+>tr|A0A1S1J536|A0A1S1J536_9FLAO
+MEARIQILSEKKLIGKYVIMSFLENKTHELWSSFMPKRKEIKNMVDADLYSLEVFPTAHF
+DNFDPGNTFEKWAAVEVSAFDEVPQEMKSLVIPEGLYAVFVHKGPQSEGHKTYREIFVDW
+LPNSAYTVDERPHFAIMGEKYKKEDPDSEEEIWIPITQKA
+>tr|A0A1S1J5P2|A0A1S1J5P2_9FLAO
+MKRIILFTGLIALVCLTSCTTKKEEKEEVEKFVVTNPVKIDTSFTKQYVSQIKSVRNIEI
+RAQEKGFLQNIFVDEGQFVKKGQLLFKIMPNMYQAELLKAQAEQKSVEIELQNAKLLADK
+NIVSKNELSVAQAKLQSAKAEVALAKLHLSFTEIRAPFDGTIDRIPLKLGSLIDEGELMT
+SLSDNSQMFAYFNVSEPEYLQYQTDVKDRADNRVSLVLANGETFKEKGNVEVIESEFNNE
+TGNIAFRARFPNSGKLLRNGETGQVQMIVPLKNAIVIPQKATYEIQDKKYVFVIDKNNKV
+NSREITITGEIPDLYVIRTGLADTDKILLEGVQKVKENDKIKYEFQSPKAVMNNLRLKAE
+>tr|A0A1S1J741|A0A1S1J741_9FLAO
+MKKNITRFSILTSFFLLFSCNDNKLTEVVEVPLPTKEEKITIGSPNDVKADPGSFELTKL
+PFSYDALAPAIRTLTLETHYSKHYLTYTNNFNKEIVNTEFENLPIEDILKKMDLSNAKLR
+QNAGGYYNHTLYFNILTPKEQTPKDTLAGSINKEFGSLSNLTSQFKGQATKQFGSGWVWL
+IVDRAGKLQITTTDNQDNPLMKNALIPGTPILGIDLWEHAYYLDYQNRKGSYIDAFYQHI
+NWEKVNENYIEALKKVKKV
+>tr|A0A1S1J0Q1|A0A1S1J0Q1_9FLAO
+MKYTLLFFTAFTFAQQTQFVDFKTVSGQLSVNAVEKTISGTVDYQFEILKPIDTIRIDAK
+NMAFSNVQIDNRETVFITTDKELKIVGNFQKGENHLTFQYSAKPKQALYFVNMDNSEVQI
+WTQGQGRYTSNWFPSFDDVNEKVVFSLGVTYDSTYQVISNGILESKKINTNQTHWQYKME
+KPMSSYLLMLAIGKYDKKELRAKSRIPLEYYLENKDADRFEPTYRYSKRIFDFLEKEIGV
+KYPWEIYREIPVRDFLYAGMENTTSTLFATRYVVDSIGFEDRNYTNVDAHELAHHWFGDL
+ITAESSTHHWLQEGFATYFAALAEREIYGDDFFYSKLYDTAQQIKFASRTDSIPVLNAKA
+SSLTFYEKGAWALFVLHESIGDKAFKKAIKSYLKKYAYQTVNTQNFFDEIKKVSDFDLDK
+FQKTWLESIVFDTATANTLLSKNKSIQVRLEVDKLKKTALAEKVDFLSKTLDSDIYSSVK
+EAIVNQLENEKYESKKALLLQALKTNDLQIRQAVAASLTKIPEDFRAEYENLLDDKSYQT
+QEVALYWLWRNFPEHRTRYLDKSKNWVGFNDYNLRTLWLSLGLSTPNYAKDSEVLISELI
+AFSSAKYEATTRQNALEKLIAFKIINDAVLTNLVSATTHHMWQFSKFGRDTIRLLLKNTD
+LRASFERILTNLNPDEQFQLKRLLAEEIKK
+>tr|A0A1S1J4L0|A0A1S1J4L0_9FLAO
+MKNAILFCILFYTIFGFAQKTESHKLTQKEIAQRELDGVSEFPIYRALECSDKSGVYELL
+LCENQKNISKKDTLNTKIQAIYTLNDHGGFLEKWRINDLLEDSDPKETTIYFWTKYCSTT
+DLDGDGLIDPVIVYGTRTEYNEIRRVKIITISHNKKYVIRAVECDLDYCRSFKKDSTWNL
+LPLKTKTYLNSLVERLRKEQNLLLKDG
+>tr|A0A1S1J5H8|A0A1S1J5H8_9FLAO
+MEKLFEVQFLEEAYLFLKNMEPKHSEKIIYNIHKAQIKNDPELFKKLTDDIWELRTLYQG
+NQYRLLAFWDKTNIKSTLVIATHGFVKKQSKVASKEILKAKKIQLNYFKEKD
+>tr|A0A1S1J8E3|A0A1S1J8E3_9FLAO
+MDSTILQSEIILENEKVLLIPFESRRNIELKEIIFDDGIWKYMGMYVRDEKDFENYIQNT
+LQQKAAGICYPFLIIDKATNRIAGSTRYGYLNLASQKCEIGWTWYGENFQGAGLNKACKF
+ELLNFGFEAIQFRRIQFSADLENRKSQRAIEKLGATKEGLFRNNYIDSEGKSKDDVYYSI
+ISEEWQAVKTNYFPEFI
+>tr|A0A1S1JAP0|A0A1S1JAP0_9FLAO
+MTQISILGCGWLGLPLAKKLTAKGHLVNGSTTSESKLTILKESGINPFLVTLESESVSNT
+ITDFLTESEILIIDIPPKLRESKTNVATSTEMVFVRKMENLIPFIEKSTVKKVLFVSSTA
+IYGNDNTTITEETLPNPETESGKQLLLAEALLQKNQNFATTILRFGGLIGEDRHPVKFLA
+GKENLENPDAPVNLIHQNDCIAIIEAILNQSKWNEVFNAVAPFHPTREEYYTQKAKEHNL
+IPPKFKAEKSNIQKVISSEKIESVLNYQFRPDHY
+>tr|A0A1S1J7G8|A0A1S1J7G8_9FLAO
+MMAQSEIIITDKTKIIATAESTQGAARILKLYLEKSVSKPFEITTKSQKEGDASEIILEI
+SNDKKLKANEFSIKSDSKSIYITAPSQKYLRYAVYSLLEIWEFRKFTATETYIPKVTQFT
+FSKNTSKTYQPSFDYRALFYPDCYDEDFRDWHKLDWHIDDFSLWGHSFSMLVPPKEYFKS
+NPKLFALYEGERNTESLCMTNDTVVSLVEEKMTEIITETTHAQFYSVSQNDDVVYCECTQ
+CKAMNTKYGGPQGSFYYFLNKIAARFPKIKITTLAYLHTFKPPVNLKIAPNVYTILCPIE
+LDRGKPTTNQNNPSFVKNLENWSMTSPQLFLWDYTVQFSNFMSPFPNFESFQSNYKLFQK
+NKVKGLFVQGYADVPGDLSELRQYLLAKLMWNTDIDIKAVTADFLRGFYGKAAPFVAKYL
+DLIEANQSKSKAYLDIYSGPVQARNTFLTPEAMDQYDHFLEQANNAVENDSILSARVHKL
+RLALEFVYFEQAKFYGKNQHGMFVVNNKGEKEVKAGLTERVLKFSQSCNQFGVYELSEDG
+ISPDNYYKEWIEICKNTTTHLGEDLKVTFLTPPSDEFKGKGNYGLVDGNRGYKNFNINWI
+GWYDTNPEIEIETKNLDFNILKLNFLSDQRHWIFTPKNIKIYGFKNQKWELIKEQICNIL
+TEDYEITTQSWEVENQIFSSFTKIKIVAENRKELPIWRKRKNKKAMIMLDEIELYKK
+>tr|A0A1S1JA13|A0A1S1JA13_9FLAO
+MKKIIVFASGSGTNAENIIKYFERTKIAKVVSVFTNNASAKVIERAKNHQIPVEIFSKNE
+LLERNVLQKIQEIGPDLIVLAGFLLKFPENIIEQYPDQIINIHPALLPNYGGKGMYGMHI
+HRAVVDNKEKETGISIHFVNENYDEGGIIFQKSVALTEEDTPETVAEKIHELEQKYFPEI
+ISRLLEA
+>tr|A0A1S1J4F7|A0A1S1J4F7_9FLAO
+MKIALLGYGKMGKVIERIALERGHEIVLKKDEFSTYDGLSTADVAIDFSVPTAAVDNISN
+CFHANVPVVSGTTGWLEHYDEMISLCNEKKGAFISSSNFSLGVNIFFELNEYLAKIMSQL
+DSYKVTMEEIHHTQKLDAPSGTAISLAKGVIENSQYTNWTLDEAKNNEIHIEAKRIGEVP
+GTHTVTYDSPVDSIELKHTAHNREGFALGAVIAAEWLAGKTGIYSMKDVLNLK
+>tr|A0A1S1J809|A0A1S1J809_9FLAO
+MQKSVFLLLLFCYSFGSAQTSSTNNSIIPAPNFYKATGDSIRFNGQIKVLFEKNKYSAKE
+QKTAKLLESAINANTSKKKSTIDVLFITQNPASSLKKEGYKIVITPKKITVTGSEEGLFY
+AVQSLLHMLPNKPKNQEIKLPCVTIEDEPRYDYRGLHLDVCRHFFSVDVIKDFIAQMSSY
+KLNNFHWHLTDDQGWRIEIKKYPKLTEVGSKRAQTLVGNKFERFPYFFDGNPYGGFYTQE
+EIKDVVKFAEEHYVNVIPEIEMPGHATAAVTAYPNLSCFPDRPYKVIEYWGVFEDIFCAG
+KEETFTFLEDVLTEVMALFPSKYIHIGGDECPKARWKECPNCQKKIKELGLKNEHELQTY
+LTTRIEKFLNNNGRQILGWDEMLEGGLTPNAAVMSWRGESGGIAAAKQKHFVIMNPEHIL
+YLDYNQAYSPNEPLTVGRLVTVEKMYNYNPTPVDSLTIDEQKYIMGVQSNLWSEYLTSPA
+KLNYQLYPRMFALAETAWTAPQNKNYDNFVLNRMPHHLEKLELQKRLYKVPTPFGANETA
+LIASEYVLDLKPTIKNGQIFYTIDGYNPDETANLYEKPVTIHIPKGEFRTVKTVQISPGG
+RKSSINKIIIRNPDLKPALAVKPTKQGLKYEYFIGTLFQQVQDLELAKPVNSGIFEGTVS
+SEKWKTKKERYIGLKFDGYIYVPETANYTFSTLSDDGSKLFIDNELIVNNDGIHWLNEAY
+GAVKLEKGFHKFNISYFDQVGGTTLNCFIQPEGKEKQEISASQFYYE
+>tr|A0A1S1J976|A0A1S1J976_9FLAO
+MKRFLVFCLYFFTNCVILAQNKDIWISFWDKDTTHIGFKDANGTIKITPKFMGFTTARKF
+DKIIAVTEEINDGWKSYYLTKSGKIVGRDSLYIFDNGPDCENEDYIRFTDRKTDKTGMFN
+SEGKIAIPADYSVLSKVQNGMIVALKGALKKQDGEHFFWTGGKRHLIDLNNKVLIEDFKN
+STDLNFYSLQKSKAPNKEESRENFAGVDGEYYSFINYDKEFKWWLKNNLLSDLSKENLMK
+ISFDKITYWKEPIGWKSESKTKFIEDNYALLKSKLQQLKASGTDYFVSSDGLNPFIFETD
+EYTTYFNNCNEAKEWMYPVKNIVINSKNKADFKQDHFEFLRTEKGYKLISVSVAKDDLK
+>tr|A0A1S1J9B7|A0A1S1J9B7_9FLAO
+MKYYIIAGEASGDLHGSNLMKALYEEDPQAEIRFWGGDLMQKAGGTLVKHYRELAFMGFV
+EVLFNLKTILNNIKICKKDITAFQPDVLIFIDYPGFNMRIAKWAKALHYKTHYYISPQIW
+AWKENRIKAIKNDIDKMFVILPFEKSFYEDKHHFPVDFVGHPLIDAIQNQPSFNETTFRK
+ENQLGEKPIIAVLPGSRQQEITKMLSVMLSVVDDFQDYEFVIAGAPSQDFEFYQQFISNK
+NIKFVSNKTYDLLRSSSAALVTSGTATLETALFKVPEVVCYKGSAISYQIAKRIITLKYI
+SLVNLIMDEEVVTELIQSECNTKRIKEELQKLLTSDYREKLLKNYDILEQKLGGVGASKK
+TAKLIVADLKHI
+>tr|A0A1S1J2Y7|A0A1S1J2Y7_9FLAO
+MKKIFRLSYITILASVLLVTSCTNDSALVKDEQVVNAKTNSKTGKSALSSGTRKLLIIGI
+DGCRGDALMGANTPNVHGLLPNAVYSLDALTEAPTWSGNGWSTMLTGVTHLKHGVTDNSF
+SSPNFTSYPSFLKRLETYNSALKTMSIVHWAPINTYIVDGIDVEKTFTTDLAVKNEVVAA
+LTNDNPDALFLHFDDVDHAGHSYGFSLNVPQYKSSIETTDGYIGEILTALKSRPNYANED
+WLVVVAPDHGGIVTGSSGSHGGSSYEERNIFTIFNNKNFTSTKIEKPVDPTTTITGKFVN
+FNSNSIYASTSNALYNFGTSSFTVECRVKTSGYSSDPSLVSNKNWVSGKNRGFVICANTG
+GTWKVNIGDTQSRVDISGGTINDGKWHHLTLVVDRTAKLVKTYQDGAFVGQAAIGASFGS
+LTSGLPFAIGQDGTLTYGANVNGNIAEVRVWNKALSEASILNYTCSSVTASHPDYSNLIG
+YWKGDNGSGNSFTDSSVQQVNLAFPNTPTWISSTAALKCGTATGAVPKMVDIAYSSLQWF
+GVPINTSWSLDGRSWLPTAN
+>tr|A0A1S1JC97|A0A1S1JC97_9FLAO
+MNKIALSFILTLTALFAFSQESNNTSIKPGFTAEQFPVFPNCENLQSKQLENCFYKEVQD
+FVFQNYQVPENLKQANYKGEVKVLFEVDANGEFKVIYVNALNDALSEEAKRVFKKFPKIK
+PSTYNGKPTYSKYTISIDIPLKSANQIAQEALAAAQILKPIEKPMTELDSIVYKKYNNPE
+FESHLNIPFSHSYYAQFDKAMNQVGSNNHTASKPFTYAEVSKYYNLKAVNQSLQKNVSTW
+LGRKFWNENMVQIQGEDYWLSLNPIVDLQMGKASDLDASYTYVNTRALNFRGGLGKQINF
+TTTIFESQGRFAGYYNDFAETLKPSGGNPAILPGMGIAKRFKTDAYDFPLAEANITYAPS
+KFFDLQLGYGRNFIGDGYRSLLESDGASPYPYFKINTTFWKIKYTNTYMWLKDVRPDVTL
+ERTYATKFMANHYLSWNVSNKLNLGFFESVVWTDNNNRGFDINFVNPIIFYRSVEFASSS
+RSGNALLGVTSKYKWSNNINLYAQFLLDEFSLGDMKSGDGSWKNKFGYQLGAKYFNAFEV
+KDLLLQLEYNHVRPYVYAHSAVITNYGHNNQSIGHQWGGNFSELVAIGRYHKGRYFADAK
+FTVGKRGLDFDTAEDSFNYGSNIYKNYDEKRPYDKGVKVGQGNKTNVFIADIQGGYLINP
+MTNLKLFGSFLYRNFDPTKNTPTTFKQSTTWFSIGLRSDIFNWYFDY
+>tr|A0A1S1J706|A0A1S1J706_9FLAO
+MAKGVAITGMGIISSIGNSVEENYISLIENKVAVTRIENIETIHAAINKVGEIKKTNDEL
+VQELELTPDNNFSRTAMIGTFAAKQAVKNAGITAINEFRTGLISATSVGGMDMTEKHYYD
+YFKHPELIKYITCHDAGDVAEKIAEELGLKGIVTTISTACSSAANAIMLGARLIKSGKLD
+RVIVGGTDALAKFTINGFKTLMILSDEYNKPFDNNRKGLNLGEAAAFLVLESDEVVQKQN
+KKVLARVSGYGNANDAFHQTASSENGDGAYLAMKKAFDVSGLKPSEIDYINVHGTATPNN
+DLSEGRAILRIYGDEKVPDFSSTKPYTGHTLAAAAAIEAVYSVLAIQNNVVYPNLNFETP
+MEEFDLKPQTTLKNKKIEHVLSNSFGFGGNCSTLIFSKCN
+>tr|A0A1S1JGI5|A0A1S1JGI5_9FLAO
+MSDVTAIHNLVQKRNELKNEIAKIIVGQDAVVDQILLCIFSGGHALLIGVPGLAKTLMIN
+TLSQALGLDFKRIQFTPDLMPSDILGSEILDENRHFKFIKGPIFSNIILADEINRTPPKT
+QAALLEAMQERSVTIAGQNYKLDLPYFVLATQNPIEQEGTYPLPEAQLDRFMFAIKLEYP
+TFEEEVQVVKRTTSDAKTVINPLFSAQEIIDFQHLIRRIPVADNVIEYAVTLVSKTRPDN
+ALSNDFVKNYLDWGAGPRASQNLILAAKAHAAFNGKFSPDIEDVKAVATGILRHRIIKNY
+KADAEGITEEVIIKKLM
+>tr|A0A1S1J476|A0A1S1J476_9FLAO
+MSKLPILMYHNVVEDEAKSVDLSVSVAKLESQFKFLHDNNYTTFHFKDLENLKELPSKSI
+IITFDDVTECQLLYAVPLLEKYHLKASFFIPFSYVGNFDYWIEGKEKIMSVEQLKGLNPD
+LIELGYHSFEHKRYSSLSKEELEADFAKSYAFILDNQLDIKPVLAYPFGNYAKKHSEFAV
+FENMMRDNGIKYGLRIGNRVNNFPFKNNYLVKRIDIKGEDSLFRFKLKLKIGKLKLF
+>tr|A0A1S1J714|A0A1S1J714_9FLAO
+MTKRKEQFNEATELTVSHEIRIRFNETDPLGIVWHGNYITYFEDGREAFGRQHGLTYLDI
+AKTGYTTPIVKSKCEHKLSLRYGDVVTIETTVIDTPAAKMIYRFRILDDKGEVACTGETV
+QVFLDQEGNLMLTNPPFYEEWKRKVGLLK
+>tr|A0A1S1J5T1|A0A1S1J5T1_9FLAO
+MKQVLILYLFLLPFISFSQINGDFTLDWQNKKEMSFGDSKLKIPYFSGNSFRYDTTKKSI
+ILLLYLTESGYSNYNSIQIFNVIYESVSTADLGDLSLENIPEKPNETLKTTTSRDLKQVF
+LSLSPIIKEGNSFKRIRSFSYKKTTDNAAKNNNTSSFQKANTIYNSVLATGDWYRFYIEK
+SGVYKISRSFLQSLGFDPGKTDPRRIKIYGNGGKMLPLANNTYYPEDLAENAIQIVGETD
+GVFNNEDYILFYGEGVENWSTESQTNLNLYDTKSYYYITTTGGDGKRIVPLNQPTGNSTL
+ELNTFDDYQFHEIDKINIAHLGRQWCGESFDITQEQEFSFNFPNIDTSVPIKIELKAASA
+AYTPTSFTISANGQNVGNLNFQALALNSDIKYYNQELPSNAAFTGAENVKIKLTYNNNGV
+PGSKGYLDFINLTAKRKLLGIGKQFRFQYNLAGSTPGIANYTIGNAAAISQIWDVTDPTN
+TLKIENNNQANLSFKTSLGEIRTYIALDPADYYAPLKESQPKVANQNLKGTLFRNAQNSF
+QDIDYIIVTPKNLVSQAEKLATFHRINSNLNVKVIPLENIYQEFSSGKQDVAAIRNCIRY
+LYNNASTSEKKLKYVNLFGDASFDYKDRITNNTNIVPVYQSVISNSTGEASFASDDFYGL
+MDANEGIVVFPFGGIDIAVGRMLISDNAQAAEMVNKVLEYHDQKSFGNWRNNVVMVSDDS
+DRSSDASLQSRQNTLADAISTQKPFLNVEKIFLDAYTQEASAGGSRYPKARTDIFNAFEK
+GALVFNYLGHGGEDGLAAERIWEKSDGQNLNNQYKYPLFITITCEFSRFDDPTRPTAGEY
+TFWNPKGGAISMLTTIRAIGQYNAENFNDNLNKNLFSYGSNQYTSIAEALRISKNENPSS
+SSNVIFYIGDPALMLAIPKPKINLTKINDIAISQPIPDFKSLSKIKITGEITDENNTLLS
+NYNGELATAIFDKLITTSTLNNDGYSPAMSFKILGETIFRGNASVTNGQFEFSFVVPRDI
+RIPVDYGRISFYARKNQTLENQSGYNTNIKIGGINENAPQDNISPKVKLYMNDETFVSGG
+ITNESPFLLAFLEDENGINTASGIGHDITAVLDGDVSNPFVLNDYYQTKLDDYTNGNLRF
+PLRNLAAGMHTITFTAWDVYNNPVTSEIQFIVVGNESLTLTHVLNYPNPFSTYTQFWFSH
+NRPYEPLDVQVQVMTITGKVVWTKNQIVTTEGFLSRDITWDGKDDFGDRIGKGVYIYKLT
+VKSNLTNKKAEKYEKLVIL
+>tr|A0A1S1J6K2|A0A1S1J6K2_9FLAO
+MKPDLFQAPDYYNLDDLLTDEHKLVRESARAWVKREVSPIIEEYAQKAAFPTQIIKGLGE
+IGGFGPYIPVEYGGAGLDQISYGLIMQEIERGDSGVRSTSSVQSSLVMYPIWKYGNEEQR
+MKYLPKLATGEFMGCFGLTEPDHGSDPGSMITNFKDMGDHYLLNGAKMWISNAPFADIAI
+VWAKNEEGRIHGLIVERGMEGFTTPETHNKWSLRASSTGELIFDNVKVPKENLLPNKSGL
+GAPLGCLDSARYGIAWGAIGAAMDCYDTALRYAKERIQFGKPIGGTQLQQKKLAEMITEI
+TKAQLLTWRLGVLRNEGKATTSQISMAKRNNVDMAIHIAREARQMLGGMGITGEYSIMRH
+MMNLESVITYEGTHDIHLLITGMDVTGIPAFK
+>tr|A0A1S1J2T3|A0A1S1J2T3_9FLAO
+MNAQWNSTNPVWTTSNVGIGTNNPTSRLQVTANDAGDGITLTHLNPRAKTWKLTSGVENY
+DHHQFSIKNQNGTYFVIDGNNGNTGIGAISPNSKLHINANDAGDGITLTHPNSRAKTWQL
+TSGVENYDHHQFSIKNQHGTYFVIDGNNGNTGIGTITPAYKLDVCGTIRAKEVKVELFSG
+CDFVFKKDYKLMNLSDLEEYVTTNQHLPEIASEKEMIDNGLNMKEFQMKLLQKIEELTLY
+VIEQNKQIKKQNQEIKKLKAIKKHN
+>tr|A0A1S1J4X5|A0A1S1J4X5_9FLAO
+MDISFFSSTIVQVAISLIISWALFALLCSMILELTVQIKSERGRFFRSKIIEKLFDFSNQ
+INWGLLMYNNSNIRLLTKSEKAPPTEITSKTLAEVLVDTVANAQAAKILLQDDEVNHEKK
+YSNDLLNNFEFAITYLGQSDLILMLKNAMNKAKIRASGSVNEVAEKVLYEELIKEVTIWF
+DQFSDRTSVWYKKLSRKRLFIIGLLVSCIINIDSIVLFKYYDTNPTARTAMIDYYTKNKM
+QLEVLSAKYGTPGQGAATDTAALNSTKKDIKGLSKQIDSLKTNLDLPIGWKKAQCADVKS
+SSEKDCFTFSCILLKILGIIISAFAASLGAPFWFDILKKATTTAQTVIKEV
+>tr|A0A1S1J5K2|A0A1S1J5K2_9FLAO
+MGNKLSGKDLIKLGFPKNNSINIALGQINRYRKREKKESILTEAKDVLLNPEKYEGNGTW
+GKVAEGLIKPVQVRMHQLKTTRAPFKIFGENEIDEQAKYQLYDSLKLPISVAGALMPDAH
+SGYGLPIGGVLATDNAVIPYGVGVDIGCRMSLSIFDLPASHFKGKEHQLETILRDNTKFG
+MYETHASRVDHDVFYKSEFQDIPLLKNLLPKAYKQLGSSGGGNHFVEFGIAKIENPENEW
+KLEKGEYFAVLSHSGSRGLGANIAKHYTYLATKQCPLPKNVQHLAWLDLNTHDGQEYWLA
+MNLAGEYAKACHDDIHRRIAKAIGKRVVVTIENHHNFAWKEMVNGQECIVHRKGATPAGE
+GQLGIIPGSMTAPGYIVKGKGNAESLNSASHGAGRLFSRAKCKSTFTQSEIKKVLKANEV
+TLIGGNIDEAPMAYKDITKVMSNQSDLVEVLGTFTPKIVRMDR
+>tr|A0A1S1J8G1|A0A1S1J8G1_9FLAO
+MKNKTILAFILLSTLFIACKEDKLAPVAANAVKPTVVTEALPHDTDDPAIWIHPTDSSKS
+IIIGTDKDTDGALYAFDLKGKIIAKSEVLKRPNNVDIAYGLIVDGKKVDVAVTTERESNK
+IRIFSLPDLKAIDNGGIAVFEGEELRDPMGIALYTRKTDGKIFAIVGRKSGPSGSYLWQY
+ELSGNGKFATAKVVRKFGAYSGKKEIEAIAVDNELGTILYCDEQFGIRKYKADPALNDNK
+ELAIFGKTGFKGDNEGIAIYKKTDSTGYILVSNQQANTFMVYPREGANGNPNSYPLLAEI
+PTSTIECDGADVTSINLGGSFKNGLFVAMSNGMTFHYYAWDLIQKRIDEGRK
+>tr|A0A1S1JAX4|A0A1S1JAX4_9FLAO
+MISTDYTNNSRIKRKIYGIIGAAITLIIPFFLMLDNHNDHLETDQSFCPFKMVTGFPCPG
+CGITKSLVYFYEGDIYKSLSYHILGPFVIVFCWLTIIILTTEIITKKEYFSGLLYNRKLA
+YNMAYFLGFYHLIRLVLFIRESSFDDILHQSIWF
+>tr|A0A1S1J6Z9|A0A1S1J6Z9_9FLAO
+MSYTDKMLRDDALKGKVIVVTGGGSGLGKAMTKYFLELGAQVAITSRDLEKLKNTAAELE
+TETGGKCLPLQCDVRHYEEVENMLQEVLKTFGKVDVLLNNAAGNFISPTERLSANAFDTV
+IDIVLKGTKNCTLAFGKHWIDTKQTSATILNIVTTYAWTGSAYVVPSATAKAGVLAMTRS
+LAVEWAKYGIRSNAIAPGPFPTKGAWDRLLPGDLAEKFDMAKKVPLKRVGDHQELANLAA
+YLVSDFSAYVNGDVITIDGGEWLKGAGQFNLLEAIPEELWDQLEMMIKAKKNK
+>tr|A0A1S1JA09|A0A1S1JA09_9FLAO
+MQISPSVELSPYIKHYLFLDTKEVSQQKLRLFSDGNTGIVFSLKGNLTSDLNHQEIQNFL
+PDSFLYGQLTGFKDIYSNQEITLIIVVFQPNGIHQLLGIPAYEFLDSIVSIDTIFNREGL
+ILQEQLCENYTISEKVELLNHFFGTYISDKTASYQLIIESSLRFITTHKGSFNVNQLAKF
+TGYTERHLERKFKECIGLNPKKFGNIIKLHYFLKLLKEKSVDINLTNISYNAGFSDQSHL
+IKEFKKHTGITPKEYLNNTGKLTNNLIKTAPPILL
+>tr|A0A1S1J0H5|A0A1S1J0H5_9FLAO
+MDLQDQLKNLFPDHVESNEPEEIQEQDHVLYIQKEPMICKFEKRKGKATTIIEGYEGSDE
+DFKVLAKEIKTKLSVGGTFKDASIIIQGDYRDKIMEILKAKGFKTKRVGG
+>tr|A0A1S1J1D5|A0A1S1J1D5_9FLAO
+MNQHPIFSEHPGLIIVFAIAVVIMLLLDLGIFNKKSHVVSNKEAVTWSLVWISLAMIFSG
+LVYYFAGSAKFYEFQSAYWIEKALSVDNLFVFILVFKFFDVANHNKHKVLFWGIIGALVL
+RAIFIFSGAFLIELTYLNKLLSLVGVEGFKYDINLIMTAFGLFLVYAGIKSWSAGDEDDE
+EDYNNTKGARLIRKFFSVSDKYDGDKFFTFENGKKLATPLLVVVAVIEFTDLLFAVDSIP
+AIFAISSDPFILYTSNIFAILGLRALFFLLDNFIHLFSKLQYGLAIILSFIGVKMIISPF
+YHIESLYSLLVIGGILAISVIASVMLPEPKEA
+>tr|A0A1S1J3K7|A0A1S1J3K7_9FLAO
+MKCNLSVLLLLFLIKSLTAQNTPNRIPDSLIFKSYGYLDDKIYQYKNDSLKASPYLYAYL
+RKARREKNHEELVNAYQNMLHQSPMTLRLKYADSMVQTAVKSRSPELIGSAQLSKGIVYY
+SQKNYVKAYDYYIKANESISKTENDYLIYKTKYHIAQIKYYLGFYDEAISLFNDCIEYFK
+KNQPRPYLNSLHSLSVCYNKIGDYRKCSETNAFGIKECERLNIPEMELFFKHSEGINQFF
+LNNYHTSIQLLQEVMPQLNSMTEFANESIANFYIGKNYWKLQRQAKAVPYFKKVEKVFIE
+KGYIRPDLREVFELMIKYYKKENNLKSQLYYIDQLLKADSILTDTNKYLMGKIHKEYDTK
+EILLEKEKIQQQLVREKYYDVILISVVVVLFSAVIYGTYNHFETKKRNKIKFDLLLKKNE
+QSSLQKQATDKFEITDISQETVQQIIKHLEKFERDKKFLHKEATLTTLTVRFNTNSKYLS
+KVIYHRSGKRFADYINDLKIDYLVELLQNSSMHRNYSIGSLAEEAGFTSTPRFTNAFQSK
+TGISVSYFLKELKKENS
+>tr|A0A1S1J5G9|A0A1S1J5G9_9FLAO
+MEKVTIIKIGGNIIDNPQELEQFLTDFSKIEGHKVLVHGGGKSATKMAQSIGLIPQMIEG
+RRITDAAMLDVVVMIYAGQINKHIVAQLQSKDNNAIGFSGADGNLIQSVKRNHPTIDYGF
+VGDVKQVNTKLLATLLENGIIPVFCAITHDKNGQLLNTNADTIASELSIALSEVFEVTLT
+YCFEKQGVLQDSEDDTSVITEINEALYNKLKEEKVIHSGMIPKLDNCFNSLSRGVQQIKI
+GHHKMLQNSEIPHTTITL
+>tr|A0A1S1J6G9|A0A1S1J6G9_9FLAO
+MNILDKIIVDKKREVVLKKSIIPVSQLEASVFFGRETISLSQKLKTSSTGIIAEHKRRSP
+SKSVINQSFTVEEVVKGYENAGACGISVLTDGKYFGGSLDDLLLARASVNIPLLRKEFIV
+DEYQILEAKAYGADLILLIAAVLTREEIKSLSEFAKQLGLEVLLEVHNQEELEKSVMPNL
+DMIGVNNRNLKTFEVSLDFSKQLASQIPNDFVKVSESGISSIEAISELRPYGYSGFLIGE
+NFMKTDNAGQAATEFIRQLYAVSFKP
+>tr|A0A1S1IYI8|A0A1S1IYI8_9FLAO
+MEYHNPVLLHPTVDGLNIKPDGIYVDVTFGGGGHSKEILRRLGPNGKLFAFDQDEDALAN
+ALPDERFTLINENFRFIKRFLRFHGVKGVDGILADLGVSSHQFDVPERGFSTRFDAGLDM
+RMSQKNDLNAYRVVNEYEEQDLRRVFFDYGELKNAPVLARTIVEARQGYPIKTTDELKEV
+LAKYLPERVRNKILAQIYQAIRIEVNQEMDVLKEFIEQSLEILNPGGRFSVISYHSLEDR
+LVKRFIKNGMFEGEPERDFYGNFSVPFKTIGKLIVPDEAEIKINNRARSAKLRIAEKI
+>tr|A0A1S1J511|A0A1S1J511_9FLAO
+MYKSIIRPILFGFDPEEVHYFTFSFVKFISKIPGVSSIIRSVYEVKDSRLEREVFGIKFK
+NPVGLAAGFDKDAKLYKELSDFGFGFIEIGTVTPVGQEGNPKKRLFRLKEDQAIVNRMGF
+NNGGVLEAVERLKKNSGVLIGGNIGKNKVTPNENAVDDYIICFDALFDHVDYFVVNVSSP
+NTPNLRALQDKEPLTALLQTLQNRNTEKQKTSTQKVKPILLKIAPDLTDEQLLDIIDIVK
+TTQIAGVIATNTTISRDGLQSANKVETGGLSGKPLTKRSTEVIRFLSEKSNKAFPIIGVG
+GIHTADDAIEKLNAGASLVQLYTGFIYEGPALIKAINKKVLKQL
+>tr|A0A1S1JB96|A0A1S1JB96_9FLAO
+MNTLLKRQIVKFINPEHLKDLKYFLQAVNESYDNHEDQMSMFQRAMKISSDELFEANKKL
+REEANSLKEINSNLTEILNSMNLDAEKLGNEKDFNQSDFLKKQSIEIVAMNKQREELLLS
+LENQNRELNEYAHVVSHDLKAPLRNIDTLINWVLEDNKDLMRQSCLSSLNQVLLNVEKMD
+LLIKGILDYSTVDKVESEERLIDFNLVIDEIKREIHTPKNIKISIINDLPKIKGNSWRFK
+QLMQNLIENSIHYNNKAQGQIEIGCTEKEQDFEFYIKDNGVGIAEKYHGKIFKIFTKLEN
+NNQNSGVGLSIVNKIIEYYKGSIRLESKENIGTTFYFTLPKNYGGA
+>tr|A0A1S1J4N5|A0A1S1J4N5_9FLAO
+MNMNLKVLTAVCIVISAITANAQSTTTKLPGDASLPSSKESLEKMVSFDKGNFKYKVEDY
+FAKPNASSFKISPDGQYLSYKEKDKNKKNHVYVKELKTGKITKAIVEKENLIGSYGWLDK
+NRLFYTQDKGGNENNHLYAVDIDGKNLKDLTPFEGATLRSVKIIKDTEFVIVTLNKNNKQ
+IFEPYRINFNTGEMTQLYENKDVNSPINSYLFDKEGNMRGYTVLENGVTTKTYYKDLETG
+KFNLIQSTDWKNTFSIIELNDNSKNKDEAYVVTNLDSDKERIVLYDLKKNTIVKEVYSDP
+VYDVSSISTARKNRNYELDYISYTGVKEITIPVSKFYKEVYSKLSSQFKDKDFSIASSDN
+NESKLLVFVTSDKLYGRYYEYDTKTKNIKLLYDLMPQLKEKDMAEMRPIEFKSRDGLTIH
+GYITLPKAALEGKKVPLIVNPHGGPQSIRDDWGFNAEAQLFASRGYATLQVNFRISGGYG
+KEFQESGYKQIGRKVMDDVEDGVKYAIKQGWVDQSKVAIYGGSHGGYATLMGLIKTPDLY
+SCGVDYVGVSNIFTFFNSFPEYWKPYKEQLKEIWYDLDNPKEAEIAKEASPIFQIDKIKK
+PLFVVQGANDPRVNINESDQIVKAMRAKGFEVPYMVKYDEGHGFHKEPSKIELYKYMLGF
+FAENFNK
+>tr|A0A1S1J828|A0A1S1J828_9FLAO
+MNLDSQDTIFVHFKRNKLQSKTVFPIDSFGVQKRWYTITLGNSYEKKFIRFYFQEYTSPE
+KRDKKTKSDVRTENKLFLKKHKKQIVGIDFFKNHDVCTLREIFYNKVVYIIDFNERKKGK
+LILYETTPSFSCDAIE
+>tr|A0A1S1J752|A0A1S1J752_9FLAO
+MLKLKKTKNKMKTLNIKFIALTLILLLTGVNSYSQITKAEIIATGLTCSMCSNAINKQLK
+AFTEVDSISTDLNTNTFTVYFKKDNSLEPKVLKKAVEKAGFFVGSLVLTAKFHVDKIEDN
+TTLKIDDATYTFIDIKKPVAHAEGKYRVLDKGFVTQKEYKKLLKSYSKYPDYATENENDY
+YLKAL
+>tr|A0A1S1J7R0|A0A1S1J7R0_9FLAO
+MKKLFFLFGIILFAQPIFAQSKTVTGTIISTTDGLSLPGVSVLIEGTSKSTTTDLDGKFS
+ITANENETLVFSFVGFASKKIKISANMTTINLKMTEETNALSEVVVLGSTVRATRKELGN
+AVTSLKGEDLVKAQPGGLSTALQGKIAGAQVSQNSGDPAGGFSIKLRGTSSILGSSDPLY
+VIDGVVLNNATTNVTNLNVTTGNSNMQIGQNRSADINPNDIQSVEVLNGGAAAAIYGSRA
+ANGVVLITTKKGVAGETRYTFSTSVTSNQIRKKLDMNMSDKQFVSTSPALFPIQGNPASP
+TTVTVLGRNLETRTTNVQRHDYQDDIFTTGVGTDTYFSLQGGDEKTKYFASLGYLVNEGI
+IKNTDFKRAGAKVRLKHDFNSKLSATVGLNYVNSSSNEKPDGNVFWSPINAINITNNIYD
+INQRDVNGNLLAVDPNRVNPLSIIETFKIKQNTDRIISDLQLNYTPFKNFNADLIFGIDN
+YNQRGNVFIPRYPYVVNPAYYNDGYVSEATNRVVQFNNDLNLRYLWNINDKWKATTYGGY
+NVQTYRDNFAAVEGRNLKPFIETINAFNTLIPGSPSSSQSKYNLWGYYLQETVGYKDKLY
+LTVAGRQDASTIFSSANRSQFYPKASVSYVFSDEPFMQNIHDAVSSVRFRASWGKSGSLT
+AIKPYARFTNYSTGTLLGNSVFTIEGFKQGNLDLRPEQSVTYEIGGDFGFIKDRLNLSFS
+YYNADIDDLLLPVQLAASEGATNTIKNIGQMNNKGFEINLKYDLIKKENLHLDVFVNYSS
+NRNKVTGLPQTRFKLDSNLAGAPVFVEMDKPIGIFYGTYFARNPDGSLLLTPSGYPQTEK
+GDVNTGAPQRDASGQPTGTILNKQIGNPNPDYIIAFGANLNYKKFGLSILFDGVQGVDVF
+DADYRTRQGVGSGKIVTQELNGELPRGYIWSVYNVEEFRVVDGSYLKLREVSLNYSFGKL
+NKFFDDLTVTASGRNLISWDHFTSFDPETNSGGQSSVARYNFGTVPIPSSYSLAVKVQF
+>tr|A0A1S1J9R4|A0A1S1J9R4_9FLAO
+MIFNWFKIFIYHLKQNKLFSFLNILGLSIGIAGVIFAILYWNNENAYDQWNPEKENVYQV
+FNKIGATGDIWASSSIPFGRTCKATIPEIESICFFNSWYGNDMIKYQGQKFFHKKITVSD
+NGFFDMFPLPIIKGAKTNILKEKNSVAISEETAKLLFKNADPIGKSITYYDTNYTVKSVY
+KTISPSAFEPNYVFSGIAREGDEQSWGNFNYGLMIKVKKGTDIATVLKKMQNVDYVNRTL
+KDAKASGQTPEQYLKENGQTTVILDKLSDTRLHGTKSSQGANLPEGKGNLQLLYIMVGLS
+ILILILSLVNYINLATASAIKRAKEVGVRKIVGATKKQIVLQFIFETAIIVVLAILFALA
+IVELSLPYYNTFLKKSLTMNGSEFYLQLIFMFGLVIVLAGIFPAIYISNFETLKVLKGNF
+SRSKSGIWIRNSMLIFQFGIAAFFIIGALIVNSQVSYMMNKDLGFSGDQVIKIPFNYQER
+DKKLLKYQTTRQELLKMSGVVDVSTFAGSFGNSTNSSSGFTHNSIFVQPRNVEMDFGFLD
+MMKIKIVQGRDLSPKFASDTIDNWLVNETLVKTLDLKKPLNTVVTSGWGNEKGNMKFKIV
+GVVKDFHITGLQDKVPPMVFINLRTLKWNNFDNIYVKVSPDNLAGTLAKLDKYWTKSINQ
+DYPFEYEFVNKGFARTYQEQVKQKNLFFILNLVVIIIAIFGLFALASFSMERRLKEIAIR
+KTLGAETDALLKELSKQYVGFCLLGFVIGIIPAYLLLQKWLENFAFRIGVSVIPFSIALA
+SLLALTLVIVLAKAYQVTKIDILKYLKYE
+>tr|A0A1S1JBG3|A0A1S1JBG3_9FLAO
+MKRIATFVSLLITGILFAQVIDVNRSDYLLNEAYNRNQNQTISQYIKSNNIVTVAQIGNY
+NQANLTIISSNAYVTAQQTGNNNYMNVYKNADEINQSYTQTGNNNYISDFSMYSRGITSM
+GINQYGNNLSVISTGSNSISKDLIINQTGNSGTIYIFNR
+>tr|A0A1S1JCS5|A0A1S1JCS5_9FLAO
+MNIIKNRTGKPPNKGKSRFSKINAWLHLWLGLASGIIVFIMAITGCILVFEQEIKEFTSP
+WLNVEAQSPEHLLPPSQIYAAVQKVLPNKEIHGFWYNGLDKSVKVDIESDSLIYVNPYNG
+KITGMVDHEDFFHIIDEGHRNLWLERDIGAQITAWATFIFFFLLISGLLLWFPKKWNKTT
+INSSFKIKWEAKFKRLNYDLHNVMGFYVLILAVLISFTGLLMSFHWLRESTYWISGGWAE
+VKEQTVSVKKEPLSKEQLDKLTAVDFIWKKVRTEIAKENKEAVIIHFPDDPKEDFYACTD
+MYKGIWRDLYFDSKTLELLPKSEKYIGNERFSDWLMRSNYSLHIGAIGGLSTKIIYFIGS
+LICASLPITGFYIWWGRKKKQKSKA
+>tr|A0A1S1J6Y6|A0A1S1J6Y6_9FLAO
+MPQNRFYPNEEFKEIEINASLQLKYAISNKGRLISFTDEIQNGRILKGGLSDGYPTFRFK
+VKDGDKIVNKYLFLYKLVAHYFIPKESEEQTYVLHLDYNRSNDDVKNLCWATKAEMMAHS
+RKSPHVIQAKKNLIEHNLKADGRKLTTTKVMLIKKILARPEQKTRLKMIAKQFGVSEMQI
+RRIASGENWGHVKV
+>tr|A0A1S1J7X1|A0A1S1J7X1_9FLAO
+MLQNEKKQSFIALGRFLSQFSETENTRNESVLGNDLFFDDFIKLIALSQSHNGWYTPEQV
+HFAIHSWAEALTEENIEKWLSAYSSEFEKADKTEKTVALILAGNIPLVGFHDFLSVLITG
+NKALIKTSSNDQHLLPFLAKYLIFVDENLKDKITFVEGKLENFDIVIATGSNNTARYFEY
+YFKDKPSIIRKNRNSVAILNGKETHEELEALGEDIFRYFGLGCRNVSKLFVPKDYSFDAF
+FQAIFKYQDVIHYEKYANNYDYNKAVFLMSNFKLLDNGFLTLKEDPSYASPISSVFYESY
+ENIEDLQARLEADAEQIQCIVSNDLAQNSISFGQTQKPRLWDYADNVDTITFLLTTK
+>tr|A0A1S1JA40|A0A1S1JA40_9FLAO
+MKVNKIVVLQLMMSMVLMLGTASCSKKSSSSHASRATGWDVDSQNGTAARNAGKKQQAGP
+GLVFVEGGTFTMGKVQDDVMHDWNNTPTQQHVQSFYMDETEVTNGMYLEYLEWLKKVFPP
+TEENYKNIYEGASPDTLVWRNRLGYNETMTNNYLRHPSYANYPVVGVNWIQAVEFAKWRT
+DRVNEAVLEKNGYLKRGAKTQDVSAESLFNTEGYVASPSTTYGGNEELVLKKNPSGRKKP
+KAGKDGVVQEEKNVYAQRSSGLILPEYRLPTEAEWEYAAAADVGQREYNIYKGQKKYPWS
+GDYTRSSKRKNKGDQLANFKQGNGDYGGIAGWSDDGADITNSVKSYAPNDFGLYDMAGNV
+AEWVADVYRPIIDNEANDFNYFRGNQYAKNKIGKDGKIEIITKDNIQYKTLSNGKKVATN
+LPGEIAQVPVDENETYLRTNFDTSNNINYRDGDKQSSKYFDFGDSESGSKADQTMYNSPK
+HNITTDSLGQMVKKYDNSSKRTTLIDDNVRVYKGGSWRDRAYWLDPGQRRYFPQDMATDY
+IGFRCAMSRVGAKSEKRKSPRN
+>tr|A0A1S1JCJ8|A0A1S1JCJ8_9FLAO
+MKSNIHLPINWTDGVKLTKDHFINNYFNYVTIVSDYNKVQLNNFNYGCIQPAGNKSIDIE
+IKIEGGQLVAYLKKCEVIAKNGHIISFNQDIYGTKLPEVSINANDLDRNSFEHYYVIVSV
+NPYDLIPVGIPDPEIIPLHHPHALPEIKLHIINKKEVNDNFLSGYFLIVKKIIFQNGTFI
+EDNKYIAPVVKTKNNEILNQFIAKVNTELYQLNDFSIKIHKKNVQNSSNNRLVSNTFSLC
+TKIIGYYSENCFYLKNVAPEESPVYMFDRIIVLANHLISTLTLMDDKEKEVLLQYYYEWI
+DVKPSELLSVLFEAKSAVYDHNDIAQTLEKLNQFLGILKRLWQKLSELEYIGIRKENIVI
+SEETKVAAPKSNTWSILD
+>tr|A0A1S1J3S8|A0A1S1J3S8_9FLAO
+MKRTFLVLLLITSCTLSFSQETTISEKIKSLDSLKNGTAEMMSKYNLKGLSVAVFENYKV
+IWTNQWGVKAIDTGEKIDLNTAFSTASISKPIVAIVCTILEEKGLINLNAPISQYLKSWQ
+LPKSDYTSKTPVTWKHLLSHTAGTSQSGFEDYYQGDSIPTIVESLQGKLLPRSKKPIEFL
+FKPETDWQYSGGGYVIIQCALEDHFKKPLAQIVKEQLLDPLYLQNSTMIQPNENDFLTNI
+AKVHNSNGKIIRTGIPITPQVAPSGLWSTPTDLALIAIELQKALTGKGQVISKAVAEKVT
+NIATMKGPRGWSYGWQRSLGYGNLDWFSHDGSNTGTGGDLLATMKNGNGIAILANGDKPN
+RLPVMTYIEKEVITKLNWSKPIKGGAIQIPSELKNAIKGYYTEILYGYDRMGTTKIAEEH
+NGLYLYSPFLKENFDIEKTKMYYLGNNTFKIDNYPNEIHFNLLNHKLQAITITRAVSTTR
+FLQLSLEQIRTPQTQLIEIFSENTFETAVNQFKKLRLKYPDYNFEDDLNNFGYNLFNKKL
+TDLSVQIFALNCSEYPASANAFDSLGEIYEAIGQLGPAKENYLKSLELNPKNENAAQMLV
+KINAQLKSK
+>tr|A0A1S1J835|A0A1S1J835_9FLAO
+MESLERLKMITSKYLESNQDHDNKVEMVAFEIKHWCNDFLRIHQNIEETSISHNHRVERK
+EKLINEILSI
+>tr|A0A1S1J8Y2|A0A1S1J8Y2_9FLAO
+MAKIKLEYIWLDGYEPTQNLRSKTKVEEHENFKGTLEELGNWSFDGSSTKQAEGGSSDCL
+LVPVAIYPDPTRINGWLVMSEVMYADGKPHPSNGRATIDDDNDDFWFGFEQEYFIMDTKT
+QLPLGFPVGGYPAPQGMYYCSVGGKNTHGRKLVEEHADLCIAAGINFEGINQEVACGQWE
+FQLFAKGAKKAGDEIWVARYLLDRLTEKYGYYIEYHPKPLGDTDWNGSGMHANFSNEVLR
+TCGDQATYERICEAFRPVTAEHIAVYGAYNDQRLTGKHETASIHDFSYGVSDRGCSIRIP
+LMTVQKGWKGWLEDRRPASNGDPYKIAARIIKTVKSAL
+>tr|A0A1S1JA77|A0A1S1JA77_9FLAO
+MSGSKKRSGSLHEKAGISPPEITNVSAIQQIKKNRRQQPSSKELIDGILTGNITALSRAI
+TLVESTNPEHTAKANEVIKGCLPHANQSIRIGITGVPGVGKSTFIETFGSYLTQLGKKVA
+VLAVDPSSSISHGSILGDKTRMEELVKDENAFIRPSASGDTLGGVARKTRESIILCEAAG
+FDTIVIETVGVGQSETAVHSMVDFFLLLKISGAGDELQGIKRGIMEMADAIVINKADGDN
+IKKANQAKLEFNRALHLFPPKKSNWQPKVTTCSAITKEGISEIWNTIADYTETTSSTGFF
+QERRKEQNQFWMMETIDEHLKSNFYNHPEIIGQLIQIKKAVQNDEISPFAAAQFLLDKYK
+NSF
+>tr|A0A1S1J359|A0A1S1J359_9FLAO
+MTKLKLIFSAVMLLVMGNIFAQITTSSLSAKVNDGTSPLTGADVTLTHLPTNAVYKAVTD
+KQGRFSFENLNAGGPYELEIKSSATKDYSNAQIHLALGDNDLPVIVVGKADNNVLEEVVI
+TSSKPSSKNNGTNINEKQVNGLPLINRGIQDVTKLVPQSSNNSFAGTNFRYNNVTIDGSI
+NNDAIGFSPSLGGQSGTSGMPGSSTRSNSISLDAIQDIQVYIAPYDIKLGNFLGGSVNAV
+TRSGTNNVTGSIYSYGRNAAITGRNNAGDGSKMPNSFGDYQIGFRLGLPIVKDKLFFFTN
+MEYAERTDPIFYNAGQTDSNGKLTSLVDNTTAQQISDFVKTNYGFDTGTFGGYNNFAKSQ
+KFFNKLDWKINEKHSLSLRNNTVISQASNLERDAANFRFSSMDFTQKNQSISTVLELKSH
+FNSQWSNSFIASYSAIKDYRDPKSGNIMFPQTEIGYNGGTIFLGNDREATVFNMKQNTAE
+ITDNLTYKTGNHTLLFGTHNEFYDINYGFVNALNGRVSYKSLADFYNKLPTRVRGTYPFD
+GSSRDQIFNNPYAQFKVNLYSVYVQDEIRIGNKLKVTPGVRIDYTDLPNKPKLSPQVQNS
+PADPNYGNTYSYTPLSQIKNNFFSTALVSPRIGFTYNVDEDKTLVIRGGSGVFTGRIPFA
+WLGYAYYNDGVGYGSYDKNNLTPAQVATAGDPLAANGLNGYHDATPKVQADLVDNKFKMP
+AVLRNSLAIDKIINGYKFTTEGIYTKVIRDLEFQQVNKTDNPTYFSYDTNHQMPIYAANI
+NPAFSNAYLLSNTNKGYRYSITEMISKTYDFGLNFMVAYTYGNSKDITNGIRNSMESNFQ
+MNQSLTPNNPQLATSNFNIKHRIVSNVGYAVKVADNNTFSANVYFNAQSGNPFSWGFVNS
+TIAGTGQAAGLAYIFKDAAEAAKYIGVNAAGVPSATAAQQVADYEAFINGNDYLKSRRGS
+FTERNGATTPWNIQADLKLMDEIKIAKAGTLQLSFSIANVGNLINKDWGRSYFVPNTYNS
+TANLGLTKSGNLGGVATGDPTYTFQKPSTSPYTVDQLASRFQGQFGVRYTF
+>tr|A0A1S1J674|A0A1S1J674_9FLAO
+MKIEQIYTGCLAQGAYYITSNGEAAIIDPLREIQPYLDRLERDEVKLKYIFETHFHADFV
+SGHVDLSKETQAPIVYGPNAACEFDCISAKDGQEFKIGNITIKALHTPGHTMESTTYLLI
+DENGKDHAIFSGDTLFIGDVGRPDLAQKAAGMTQDQLAGILYHSLRDKIMTLADDVIVYP
+AHGAGSACGKNMSKETVSTIGNQKVNNYALRANMTEAEFIAEVTDGLLPPPAYFSMNVAM
+NKQGYESFETVLYNGMKTIKAEEFEAVAEETGALILDTRSAANFSKGFIPQSINIGINGD
+FAPWVGTLIGDVKQPIILVTETGLEEETVTRLSRVGFDTIIGHLEGGFEAWEKAGYEIDT
+VNRITAQQFSNEFKFGEDKVIDIRKETEYAAEHIEDAYSKPLAYINDWVKDINPNEHFYL
+HCAGGYRSMIAASILQARGFRNFSEIEGGFGAISKTEIPKSDFVCQSKVLK
+>tr|A0A1S1J9J7|A0A1S1J9J7_9FLAO
+MKKKNVAYLILLVGAISMNAQVVKGTQGSNGPIGGGNNSPGLYIGAGGGAAVNANATTTN
+LNVGIGTNNPSESLDVNGNIRGNIFKAASITASGAITSGGTIQGNSITVTGDVNANRGFF
+TGNVGIGTSNPSNVQGWSRVLDVAGADNSKILATVDNSTYKTGIFSHSSWFGGGGFIGTE
+SNHALFLIAGYDPKVAILPNGNVGIGSKNPDAKLTVNGDIHATEVRINTNIPVPDYVFLN
+DYRLRTLQEVEDYIKKNSHLPEIPSAKEIEKDGLLLAEMNLHLLKKIEEVTLYLIQQNKE
+MEALKAEVKALAVQKDNRN
+>tr|A0A1S1J3F3|A0A1S1J3F3_9FLAO
+MIKKIILFSLLALVLISCNSKENKEEYKHAVYRAVHKGDTAVLDIRINNKRFFGRYEVFY
+HKIGKDSGDVRGDIKGDTLRGDYHFISNGGNWKRVPLALLKKDNKLFLGKGVIGIYFNLP
+LFMPEVPIEYDESEFVFEKVKE
+>tr|A0A1S1J5C3|A0A1S1J5C3_9FLAO
+MRIRTHLTILFSIITAAILLVFAAIIYFSAKEDREKEFYAVLKKEAITKANLFFNAKVEV
+KTLQNIYRNNRKVLNEVEVAIYDVNFNLLYHDAVDIDFVKETPEMVKEIYQKGEKRFYQQ
+DWQVIGLRYTYEKKSYIITATSYDQYGYSKLNNLLHNIIFVFTLSILFIYAAGRYFSRKA
+FEPVKEMTDQMKNITATNLDLRLNDNENKDELSELANTFNEMLNRLENSFDAQKQFVSNI
+SHELRTPLAAIITELELSITKNREISEYQLAIQSALSDARKLARLSNSLLDFAKASYDPS
+EIAFKQVRIDEVLLDARQQLQRANSEYKVDIHFEQEFEDDSEISVKGNEYLLKTAFVNLF
+ENGCKFSENRQSMVSVSFDKKKIILKFSDKGIGIPLNDIKNIFTPFYRGDNKKYAEGNGI
+GLSLTHKIIQLHNGTITAASAPSKGTTFTIILESL
+>tr|A0A1S1J7D6|A0A1S1J7D6_9FLAO
+MQNTIHTLKKGEKAIIKDFDIDLIPLKLLEMGCLPGNLVELLQIAPFGDPLYLDINGSHV
+AIRVETAREIEVELIKTNL
+>tr|A0A1S1J087|A0A1S1J087_9FLAO
+MPKTIKKVGVLTSGGDSPGMNAAIRSVVRTCAYHNIECIGIYRGYQGMIEGDFKEMGPRS
+VNNIVNKGGTILKSARSVDFRSPEGRKKAHENLLKAGVDALVVIGGDGSFTGGLIFNSEY
+GFPVMGIPGTIDNDIFGTSHTLGYDTALNTVVDCIDKIRDTASSHNRLFFVEVMGRDAGH
+IALNAGIGAGAEEILIPEEDLGLDRLLDSLQKSKASGKSSSIVVIAEGDKIGKNVFELKD
+YVEANLPEYDVRVSVLGHMQRGGSPSCFDRVLASRLGVKAVESLIEGKSNYMVGLQADKV
+VLTPLEQAIKGKSEIDRELLRVSDIMST
+>tr|A0A1S1J5W7|A0A1S1J5W7_9FLAO
+MKAIFNRFKKALPAVLMCSFTLLSCDTGELKIQHDFPFEVKVMPVPKDIAKGSTVEIRIT
+IERDNSYTGAEYFIRYFQFDGKGSLQYYDEPRYLPNDLYPLKTEEFRLYYTSLSTVSQSF
+NVWISDNFGNEKQLSFQFNSVD
+>tr|A0A1S1J1Y6|A0A1S1J1Y6_9FLAO
+MKKIFIALVLFFSIQSQSQTFIKFNAATALLAVPNVGVETSIGKNLTFSVDVMASFWESF
+DGKNPMQFYTLTPELRYHFKENYNGFYVGGHAGPDVYKIQKWNYWNTNMYEHGFGYRLGV
+TVGYNIKLNDKFLLDIFAGGGWHQGFYHGYYNDGTPGRYEKAQNWNKSGEWLPYRGGVMI
+SYKL
+>tr|A0A1S1J3F1|A0A1S1J3F1_9FLAO
+MEITGRIVKDASVFKVKQNREAVNFSIAVNDSYKPKDSTELKKIVTYINCSYWLSAKKAQ
+WLKKASVVELFGRISMNVYIGNDSEAHGSLTFHTSHIKILAFAKSEKETLQISAGAKANT
+EKEPDGLPF
+>tr|A0A1S1J414|A0A1S1J414_9FLAO
+MRHLLPKMIFVLPFFLLIGCKKNESSEIVKTETEKNSIEYASGLSIIKHEGYSVVTVSDP
+WPDAHTKFTYVLKEKEAKAPDSLQKYTTIKVPLESIVVTSTTNIPFLEMLEVENKLVGFP
+HTDYISSEKTRALIDKGAVKNVGQNEKLNIEQLIELSPDLIVTFGVDNNNAMFDNLKKSG
+LNVLIQADWMEQSPLGKAEWIKLYGALFGKEEQAKELFDKIVLSYDQAKKLVAGKPATSS
+VLYGSMYEDIWYVAKGNSWVAQFMRDAQANYLWADLKGTGSEGLSFEKVLVKAKTANFWI
+AAGSFKSLDEFGKSNPHYTEFDAFKSKNVYTFEGKSGATGGTVYYELAPSRPDLVLKDYI
+KIFHPELLPSYEFTFASKLN
+>tr|A0A1S1J9U4|A0A1S1J9U4_9FLAO
+MNNVASILLLAFLALTFLQSGYEKIFYWKDNVEWLKGHFAKTRLKNQVPLALLHLLIMEL
+ISGILCVVGAIQLLTDSGREFGLYGAIFSCITLLMMLFGQRLAKDYDGARTIVIYFIPAV
+MAVYWLN
+>tr|A0A1S1J556|A0A1S1J556_9FLAO
+MIEFFRHFLQEFELPLSNPVLIFSLILFIILLSPILLKKINIPGIIGLIISGVIIGPHGL
+NILAKNSAVDLFSTIGLLYIMFIAGLELDMNEFKANRNKSLLFGFFTFIFPLTIGFPVCF
+YLLKYDFNASFLTASMFATHTLVAYPIVSKLGIAKNQAVAITVGGTILTDTAVLIILAVI
+MGSSQGSLNQAFWIKLTVSLAIFSAIMFLVIPRIAKWFFKKLESEKHAHYIFVLSVVFFA
+AFLAEVAGVEPIIGAFVAGLALNPLIPHSSALMNRIEFIGNSLFIPFFLISVGMLVDISV
+ILSGPTALIVAGTLSVVAIFGKWIAAFFTQIVFRYTKTERQLIFGLSSAHAAATLAVILV
+GFKAKILDENILNGTIILILITCIVASFATEKAAKKIAICEEEVSNEDANGDQILDEHIL
+IPLAKTSATESLLDFALLIKDKKSSNPVTLLTIVPNNDQAEINILKYRKAVDKFVIQGSA
+SEVKINTIARIDHNPASGIARTSKEIMSDIVIVGWPRKTGFLDKIFGENVDSIINNVDKC
+LFICRFQKTFIEEKRLVFICPPFSERGVGFHLLLQKISRLSQELSIPIVIYAEYKTHEAI
+VQIATKLKLNAKLAFKSILNWDDFESISDEIKATDLIVFNFSRKGSVSYQSIFDRLPQKF
+EKSFSDNNLILVYGQEDRKETAMDAYDDFTATPLTKGLEAIEQIGRGLGNILKKG
+>tr|A0A1S1J2G5|A0A1S1J2G5_9FLAO
+MKKSIEVLQTGFCKTNNRFRKLALSAVLALIFFNSCDNFVEVDLPKSQLTSDAVFEDAET
+ANAAMAGLYTKLRMNGILAGSTTGLSSMLGLYTDEFNYYQPNSVSNLFNNSLTAGTPQIS
+DIWNQSYNQIYTANSIIEGVQRSTSITQDQKNHLMGEALFVRAMLHFTLTDIYGDIPYVT
+TTDYTTNSKISKAPTDQIYQNALKDLNTASDLLPEKYISNERIRPNRSAAKALLARLYLY
+MKLYPEASNAASAVINNTLYKKESNLDRIFLKGSTETIWQLMPGTAGANTQEGDLYIFKA
+GPPPIVGLREEFINAFEPTDKRKTHWTAMVSNGNQRWYYAYKYKQDQPTASSLEYSVVLR
+LAEQYLIRAEARAFQGDLTGAKEDLNVIRNAAGLSNAAALSFQDIMIDILQQRRFELFTE
+FGQRFFDLKRFGKLDKTLSPLKPGWDANDRLWPIPVLELNSNPNLNPQNQGY
+>tr|A0A1S1J3Z7|A0A1S1J3Z7_9FLAO
+MVSFLIFLGVFLFMECVTWLTHKYIMHGLMWYFHADHHQPKYENTFERNDIFFVLFAIPS
+IILFYFGVEGGFNYLFFIACGVTLYGVCYFLIHDVLIHQRFKWFKNTKNKYLIGLRKAHK
+IHHKHLGKEDGECFGMLFVPFKYYKI
+>tr|A0A1S1J6R7|A0A1S1J6R7_9FLAO
+MGKKIIWSSSALNQLEDIHFYIFFESKSIAIADKVVNTIFDSTEILKTQPEIYKHDTQKT
+NNDGSFRVYSVYNYSVSYQITEEIIYILRVRHNSRKSKKHSWKV
+>tr|A0A1S1J718|A0A1S1J718_9FLAO
+MKIIAWNCNMAFRKKATFLDAYNADIAVISECENPENLKFQTDAKLPNDILWYGTNPHKG
+LGVFSYSNYRFELLDCHNPLFKNILPIAVTGGDVDFTLFAIWANNPQDKDGQYVTQVWKA
+INYYEDLIKENKTILIGDFNSNTIWDKPRREGNHTTVVNKLGEKKIFSTYHKYFKQEQGK
+EEHPTLYLYRHENKPYHLDYCFASQDFMNVLERVEVGTYQDWTMLSDHKPLIINFNI
+>tr|A0A1S1J7E0|A0A1S1J7E0_9FLAO
+MADVHIPDALLVKNYVEGNENALATLIKRHESKIYGFIYSKIADRDISNDIFQDTFIKVI
+KTLKSNSYNEEGKFLPWVMRISHNLIVDHFRKTKKMPMYRETEEFSIFSVMSDDSLTIEN
+KMIFDQVEVDLKRIIEELPEDQKEVLVMRMYQDMSFKEISELTDVSINTALGRMRYALMN
+LRKIIDKHQIILTN
+>tr|A0A1S1J9K6|A0A1S1J9K6_9FLAO
+MKNLFFASLILFAFSSIAKAQQLKSPEGKFVMEFSLQNDGTPVYNLKYKNKDVVKTSKLG
+LELKDDKKSLLNDFTVVDSKTSTFDENWKPVWGEVDQIRNHYNELAVTLNQKGTDRQIVI
+RFRLFDDGLGFRYEFPTQKNLTYFVIKEERTQFAMAGDHTAFWIPGDYDTQEYDYTKSKL
+SEIRGLSQKAYTANVSQKSFSPTGVQTSLMLKTADGIYINLHEAALINYSCMHLNLDDKN
+MIFESWLTPDAKGDKGYMQAPSHSPWRTIMVSDDAREILASKMTLNLNDPSKIDDTSWIK
+PVKYIGVWWEMITGKSSWSYTNDFPTVQLGVSDFSKAKPNGTHGANNANVKKYIDFAAAN
+GFDAVLVEGWNEGWEDWFGHSKDYVFDFVTPYPDFDVKGLHAYAKSKGVKIIMHHETSGS
+VRNYERHIDKAYQFMKDNGYDAVKSGYVGDILPRGENHYDQWIVNHYQYAIEKAADYKIM
+VNAHEAVRPTGICRTYPNLIGNEAARGTEYQAFGGSKPNHVTVLPFTRLIGGPMDYTPGI
+FEMDISKMNPDNKSHVNSTLANQLALYVTMYSPLQMAADTPENYNRFPDAFQFIKDVAVD
+WSESKYIEAEPGDFITVARKAKGTNNWFVGNVNGETARTSNIDFSFLEKGKKYTATIYAD
+AKDAHYKTNPQAYTIKKIAVTNKSKLSQLSAPGGGYAISIIETK
+>tr|A0A1S1J2X0|A0A1S1J2X0_9FLAO
+MIELKNVTKNFHQKDRIVSALSDVSLTVPPGKIFGVIGTSGAGKSTLIRCVNLLERPTSG
+EIIVDGKALMQLSNAQLAVERRQIGMIFQHFNLLSSRTVFENVAFPLELVGASKAEIKNR
+VLELLELVGLKEKASDYPASLSGGQKQRVAIARTLANNPKILLCDEATSALDPATTRSIL
+NLLKDINRRLNITVLLITHQMEVVKSICDEVAVISHGKLIEQGSVGEIFADPKHELTKEF
+IASSLHLDVPQVYQERLQKEDREGLNPLLRLEMTGKSVNEPVISEVSRLFDTNFKIVSAQ
+MDQAGEVNFGVMLIELSGKRENYDAAIEYFISKHIKTEIIGYV
+>tr|A0A1S1J8T2|A0A1S1J8T2_9FLAO
+MKNKKTSLIYKLVLIILLFSASAKAQIQKTEPPFWYAGMKNPELQIMFYGKDISQYEASV
+SNNVVIKSVEKTENPNYLFVTIDTKDVKASDLVFSFKNKNKVAFTQKYTLKERRANSADR
+KSYDASDVMYLIMPDRFANGNPKNDSNTALTEKGNRQDPSGRHGGDIEGIIKNLDYISSL
+GATTIWNTPLCEDNDKQHSYHTYAQSDVYKIDPRYGTNEDYVRLSAEMHKKNMKLVMDYV
+TNHWGITHWMMKDIPTKTWFNQFETFTQTHHRREVITDIHASKIDQEVCIDGWFVPSMPD
+LNLRNPLVAKYLTQNAIWWVEYANLDGFRVDTYNYSDQTAMANWAKAVTNEYPNFNIVGE
+IWMHNQANLAYWQKDSKIGAIENYNSNLPSVMDFTLQSQISSAFNENEPSWDNGLIKFYN
+NFAMDYLYPNTNNILVFAENHDTDRINHNFKYDLAKYKLTMTLLATIRGIPQLYYGSEIG
+MGGDKSKGDADIRQDFPGGWAGDKNNAFTKEGRTAEQAAYFDFTSKLFNWRKSNEAVHFG
+KMTHYIPENNTYVYFRYTDAKTVMVVFNNNTKEQVVKTNRFKENIKNFKTGKDVITGKTF
+DLTSEITLEPKSALVLELE
+>tr|A0A1S1JBU5|A0A1S1JBU5_9FLAO
+MKLTLPQQDIYFEQLLFPNEPVYNIGAKIEIKGQVNIEIFKRAYVALIDQHDAYRSIIVK
+KEENVGIQIVADHQSELGFIDFSDFENSTEQANLYMQKEFMKPFDLLKGSLLHIFTLVKV
+QDDFYYLFSVYHHIITDGWGTSLMFQRLVQNYNEISESGAIISDYPFSYKDFEEDDFQYQ
+NSESLKQDLEYWSQKFKPLPENLFDKLDDRVQINKSSRKELVIRRAVYNQLNELATSYRC
+STFALILGILYTYFGRKHENNDFAIGLPVLNRSKSAYKKTVGLFMGISPLRMSLDFEATF
+QDLIIDIKNQLKQDYRHQRLPLGKLIQELQLYSQKERLFNITLSYEKQDYSAHFKNTQTK
+VIPLSHQSERVALALYIREFDESEDVKIDFDYNLNYFDEVSITQVVNHFEKLVHAVLNNS
+DKKLKELTYLTTEEKQQVVFDFNRTKVEYPKDKTVLDLFQEQVKRVPEKIAVKEERKSYS
+YSELDKLSNQIATYIISKFGPEDKAPIAVLLGRSANMIAVLLGILKTGRSYIPLDPAFPK
+DRLSYIVIHSQTDIIINENNDETEAIKQVKTIALEHILAEIEELHSTTFQIVSPRDTAYI
+IYTSGSTGNPKGVEIGHQSLLNFLTSMQQVPGINENDILFSVTTYSFDISILEFFAPLIS
+GATLYIANQNLLSDPNLIIRKLEELKPTILQATPSFYQMLFNANWQGDKQLKVLCGGDLL
+SESLAQRLISHSSALWNMYGPTETTIWSSVKKIEHPSQASNIGKPINNTQFYILDAFLDP
+KPIGIPGAIYIAGDGLALGYYKNNELTKEKFIQNPFDTNSWCYETGDVGKWNHNGEIEFL
+GRNDNQVKIRGYRIELGDIESQFNQIAAIKDTVVIAKKGVQQEAFLIAYVLKNQEFIDTI
+EITNQLKKTLPYYMIPNAIIPLEEFPLTPNQKVDRKSLSQREIQYNTNEEHFKEPVSDLE
+IKLSHYWATVLNTKEAISVTDNFFALGGHSLNAVKLIGLISRNLYVEITLKTIFDFPTIK
+ALAVYLQELKPTQSNAIPLAEIKDLYHLTPAQYTIWLASQQTKNSIAYNMSAGYTIEGII
+DTAKVNRSINQIIEKYEILRTNFIEIDGIPYQKINAPEKNRFEIVVHQLKNDSIEEAIDR
+LSNTEFDLEKDMLIRVQLLPLETNQHLLLFSTHHIMMDGLSLEIFIKEFIQNYNQSTPDR
+TQENSLKLQFKDYSEWLNKTVKEDQSKNELFWKNYLQNYTPKNSFDRDFSIQNNKQNGSS
+LSFELTEEVTFLLKNLAAENQMTFYTLLVASVNVLIYKLSNHSDICIGTVNSGRNSYELN
+NQIGMFVKTLVLRTQIQAEQSFTDVWENVNHNLLEINNYQNLPLDKITPDIFDLMLVYQN
+PEFNFENTIELDELKLTSYPIESKFSRIPIVFNLFESEHQLKGTIDYNSDLFEEDTIQMI
+VSEFGKMLNEIVVNPLRKIGEIDDKLEQEINTTLDFDFNF
+>tr|A0A1S1JD83|A0A1S1JD83_9FLAO
+MKYKISIFSFCLFTILLVSVTLMPKKQTGTIVLITQQKTFIAGDKIILDFKGNSSNKPKL
+FLIHSLGKTLLDGTIKNDKLTFILPRIYAEKAGHIDWFLAVNGENKLHGNFEILPNNGTK
+TNIENYLGPPSTLVGDDHFVMYVTIPTDDFDNPKPENTLVIFRSQFLNAITTQTVKTKDL
+IAWKIIKAPTKSGIVLVSAQCNATITKEFDAVIFAGIATNFMISFIRNHQFADGNQITTL
+KTTIIKDKFGNVVSDGTMVSFIISTTGGMVLKSFGTTINGIATAQILHPDHQDVYTVKAY
+VAGIAESNSIAINYMPINPKIEFGFSKDNRTIIVGPLRSFMNQLVPDGIKVSLKVYHHNQ
+LIATLQEDSEKGYAVFTISSEYYKEKKYSFEISTLGSSEKVEEKKYDSN
+>tr|A0A1S1J133|A0A1S1J133_9FLAO
+MKKVISVLVILVLVSCGVKKSSDGTSKILYEVLTEQSDGGGNIKFFEILTEPNEIKMLEN
+DPHLKAKMKQDDISNSNYVILNMGEKNTGGYSIGVEKVEETDKNIIITVKENNPAADAMV
+TQAITYPYTVIKVHSKKEIIVK
+>tr|A0A1S1J7F6|A0A1S1J7F6_9FLAO
+MSSEIKNLKPLSFDDEKLKPISFETKNEVKPNFVPLANANTNDIKNKDSNFVFFFGVGES
+GKSVILSSMLYYLSSHAGVLRPKLGTPNSKEAQVLLSDFFENIRQGILPNRTTRDQVTRL
+DLIFEPNNKSKKVPSINLTFLETSGENHKDISKGGTYHSSIEAYLNANIPLTFIIVTSFD
+NAHLEDTLINEFLDELERKGKNLKSINVILVISKWDKSGRTDVSNENELENFINERLPRT
+NNRINSYELNKTYFTIGSIENNGNGERITLLNLAQAEVLSNWLYESIIGYSLDYEGTFWE
+RLKFSF
+>tr|A0A1S1J8K9|A0A1S1J8K9_9FLAO
+MSATIIQSLLDKTKDFSLDETLAFLANEYPGKVIFSTSFGQEDQVITDFIAKSNQDIAIF
+TLDTGRLFQETYDVFHKTLKKYKKPIEVYFPEAAAIESLLQSKGPNSFYDSVENRKECCF
+IRKVVPLRKALAGNSVWITGLRAEQSENRNDLQLFEYDGGFEIIKFNPLLKWTLEEVETY
+LSENNVPQNALHKQGFVSIGCAPCTRAIFPGEDIRAGRWWWESSHKECGLHSAKKE
+>tr|A0A1S1J8S9|A0A1S1J8S9_9FLAO
+MEAYHNKVEYYTALFNKINKKYNSISILRLLSVFLCLFLLFYYIKTNEILYVAFAFLSFV
+GFLFLMRIHSHLSFKREHTKAILKLNKNEIVYLKREKIPFENGIEFNDFSHPYAYDLDIF
+GEHSLFQNLNRTATYIGKKTLANQLLNLSSNETILENQEAIGELKTKMDWRQDFLALAMI
+SYDTKNTYDALIYWKSFQNNKLPKVLIALSVILPVLFFGFLAAYFITSKVILLSYLTYVF
+IANMIVLGSSFKRIQSEIAKADNVDKIIKQYSLLVQKIETETFQSKRLIDLQQELIFKNA
+TASKHLKDLSELFSRMDTINNFVTATVFNGMFLFNLHVLKALLKWKENYSEKLEQWINIV
+GEFEALNSLANLSYNNPDFVFPEINSDYKIGFSNLSHPLLNSATRVGNDTHFYPESFLIL
+TGSNMSGKSTFLRSLGINMVLGGIGSVVCASKANMHPLPVLVSMRLSDSLADSESYFFAE
+IKRLKQIMDALEERPAFVLLDEILRGTNSDDKRNGTIEVVKKVIAKNAIGAIATHDIEVC
+LTTNEYPKVLINQCFEVEIKDNELHFDYKLRDGICKNKSATFLMKKMGVI
+>tr|A0A1S1JAZ9|A0A1S1JAZ9_9FLAO
+MKTNKFEEVSHRNSVPIMAWDFHCEHLKELKAILTDVKKVNKISSQFIWDAKNLEIEERI
+KNEVVLVTDLDLKIIFASNGIRKMTGYKEEEVLGKTPKMFQGPATSKVVLKEIKEAIQQR
+IPFEKTIENYRKDGRTYKCKINARPVFNLKGQLSHFIAFESEELD
+>tr|A0A1S1IYG7|A0A1S1IYG7_9FLAO
+MDAIDKKILMLLQQDAKQNTKEIAEKIGLSVSPTFERIKKLEQKQYIKNYVALLDAEKIG
+KSISVYCQVTLAVHSRELIDDFKQHILVLPEITGCFHVSGNYDFLLKVAVNDMNEYQKFV
+IDKLSVIKGISNVQSSFVMEEIKNDFAFNL
+>tr|A0A1S1J1X1|A0A1S1J1X1_9FLAO
+MKFAIITHVQHIESVNQYFGYAPYVREMNIWFKYVDEVIIVAPLKIDNLTKIDAAYKHDN
+IDFIEVPDFSFNSFNARLKAVFKFPIIFRSVFYAMKKADHIHLRCPGNMGLIACLVQILF
+PNKSKTAKYAGNWDSNSKQPITYKAQKWILKNTFLTRNMKVLVYGGWENQSENIKPFFTA
+TYSDSEKEIIEKTSLDTTIEFIFVGSLAPGKNPLYAIQLVHELVERGNSVVLSLYGEGSE
+RNSLEKYIESNNLENEIVLHGNQDLEIVKKAYQKSHFVILPSKSEGWPKAIAEGMFWGCV
+PVASKVSCIPFMLDYGNRGVLLEMDFEKDVNQISEILKNQTLFLNKSNSAGKWSQNYTTD
+VFEAEIKKLFSK
+>tr|A0A1S1J356|A0A1S1J356_9FLAO
+MIYIYYSYISENNHKKLMQESLLKLPIDFQKKVKSYRRWQDAQLSLLGRILLYKGTDNFD
+KKYREINIKYTEYNKPYFGEERGEVFFNISHSGKIVVCAVTNLCEIGIDIELKRDIQLDD
+FQPQMTDGEWIKITGSFNKMDSFYNYWTQKEAVIKGCGKGLAVPLRSFEVLKNTAIVDNE
+NFFLKQIWLDDQYKCHIATNKLVNESSIKISEFDSSKLSHKLIQI
+>tr|A0A1S1J3E2|A0A1S1J3E2_9FLAO
+MSEEIPIVKKEENTLNKITDLATTITIGGIVLYQMGWVYWTNYFSVLDIDASFIEMPFEK
+FITTTWYLSLFVFFCFLAGVIEVLNKKGNDLDASSAIFGVSVAITMILSTYMSDILFISI
+LSGLLLFFILHMYLSSKYNIEQKTVNKSKFIYGVLVIMYFLCFLVYSDKAKKDANEVRKK
+IKNQDIEITFNNESKAKGKFVFYMNSKYFILVKNKKGKVETVVLNDSEIHHTRFIK
+>tr|A0A1S1J3Z9|A0A1S1J3Z9_9FLAO
+MNKIVPISLLFFLIGTVSLFAQVKKDTVLVVKDTSKLQEIDPLTPAKAAFYSAILPGLGQ
+AYNKKYWKIPLVYGAIGTSLYFYLDNNKKYHDYREAYKRRLEGYNDDKYKFLDDSRLIAG
+QKFYQRNRDLSLLFVVGFYALNIIDANVDAALIQFNVNERLSLRPEIYPDAVTFKPNVGL
+TFNYHF
+>tr|A0A1S1J5M6|A0A1S1J5M6_9FLAO
+MKLYIKSIETYFILICSFITFCASAQQDPEYTQYMYNTMSVNPAYAGSTGTIEATLLHRS
+QWVGIDGAPETQSFSVHSPLRNEMIGLGLSVVNDKIGPSNELYIDGNFAYSIPLGYEKRL
+AFGLKAGMRMLNVDWSKGRFYNNNDVLLNQNINNQLKLAVGAGVYYYTNKWYVGLSVPSF
+IKSDYYDDIQESISYDRLHYYLMGGYVFDLNPNLKFKPAFLVKAVSGAPLTADISANFMI
+AEKFVIGGSYRTDDSISILAGFQISRSFYAGYAFDYTVSDLNKYNDGSHEIILRYQFTRK
+QSKIKSPRFF
+>tr|A0A1S1JAP5|A0A1S1JAP5_9FLAO
+MKLFCLLTLFFTLTIQAQFQINGIVTDSNNKPLPFATITTSDSNNTITDVDGKFILKALS
+KPETFTVSYIGFQTKTILITDHKTFYPVFLFQKTDDLKEVVVSNENPALTIIKKVIANKN
+KNNPQKKLNSFEYKSYNKLIVTANPDSIDGRIDSTATYKNFDKKRINIDSSDYKFKEIIS
+KQHLFQTEKVSQYQFGNNKLKETILGTKMSGFKQPIYEVIAFNLQSISIYDPKYELFETK
+YENPISNSAPQSYNYKILDTVTIKGRETYMIYFKNKQRRKSSGLEGVLYIDQENFAIAKA
+VMRIKGVLDISGIHEFEYVPSEKIWFQSNTTFKIVKGKNDDDIKILGGTIQFDGDVEDNF
+EPRKKSASDFTYLLSESNNFDIHYNTTAPIKDPALYIEIKDDANKKPEAFWEEYRKEDLD
+LKSQRTYQLIDSLSIKKRIENRLGLGRKIINGYFPIGPVDLDLKKIISYNNYEGFRLGLG
+GITNDRFSKNFRIEGYSAYGTKDGQHKYSLGAGFLLDKNTNTWVNGYYTDDVREIASTVF
+AVDKRVFKIYDPRPINISTFYQYVGWKANIQTKIIPKTEAVVEFSRTYVEPKFDYLFNYN
+GKLYSDYIMTTAMVSIVWAPFSAFMQTPTGRSETDKRFPRFTFQYTQSLPNVMENDFTFG
+KIDFKAEYEKKYLNGQKTSLLLQGGYATGDVPITHLYNTMPNNLTKETIIQRITFAGRNS
+FETMFFNEFFSSQYVFFQLKHGFDRIRILKKVRPSLVLVTRMAWGNMENPQQHVGPIYKT
+LDRGFFESGIELNKIYKGIGFGGFYRYGPNQLMKFEDNIAVKISYVLDLGL
+>tr|A0A1S1JB59|A0A1S1JB59_9FLAO
+MDDRYSKNKLYLSDEEQEIIKDFPILLAGSGIGSVIAECALRFGFEKITIVDGDQVERSN
+LSRQNYTEDDIDSNKVDALARRLKSINKNAEINCIDFFLTVENIGDHIKGHKAAINTLDF
+SSPVPLIFDTACQKLDIPVLHPYNIGWGSLVTVIARDGLLLNALANGEEEFNESTMMDYA
+SSYLRFWGNPQKWMDSIIEKYKIEKGCQSPPQMAIASWSVAALCTHLLFNIATGKKFKKF
+PEFYLSAIIDEDL
+>tr|A0A1S1JBU8|A0A1S1JBU8_9FLAO
+MRIEKKINKVSEDGLCKLSVFSNVSVFFSFFFQTAFYYWYSKIASFISIYFFKILFPLRK
+EVSFVLFYLVYLLLFSKRWIGT
+>tr|A0A1S1J3A8|A0A1S1J3A8_9FLAO
+MNNHTILSEATVPLESLEKQLEGKLFYDHTMRLLYATDASAYKEMPLAVAIPKTKEDIQK
+IIAFAREHKSSVIPRAAGTSLAGQVVGNGIIVDISQEFTRIISVDEASKTAWVEPGVIRD
+ELNLHLKPYKLFFGPETSTSNRCMIGGMVGNNACGARSVIYGSTREHVLEIKGFLADGNE
+VTFGALTNAEFEDKCNGINVVSSLEQAIYVQVKEILSSASNQILFEDHFPKKSIPRRNTG
+YALDLLADTMPFKDSEEQFNFCKLIAGSEGTLFFSTAIKLNLVDALKPYSALVCIHFESI
+NESLKANIEALKFQPDSVELIDHYILECTKENIEQSKNRFFVKGDPQAILAVEFLRDSPE
+EIETIAKEMEALFRSKNLGYHFPVVYGEDTNKVWALRKAGLGLLSNIPGDAKAVAVIEDT
+AVDVNDLPDFIEDFNAILKKRNLNCVHYAHAATGELHLRPIIDLKTEEGTVLFRTIATDI
+AHLVKKYKGSLSGEHGDGRLRGEFIPLMLGEEIYQLFVQIKETWDPWGIFNPGKIVNTPP
+MDTNLRYTAGQDTPMPETYFDFSEHNGILRAAEMCNGSGDCRKTEKSGGTMCPSYMATRD
+EKHTTRARANMLRETITNSTQANKFDDDNLVAVLDLCLSCKGCKSECPSNVDMAKLKAET
+LQQYHDKNGVKFRSRLIGNTPKINKWFAAIPWMYNLSTKGALGNVVKKTTGFATERKLPL
+MHKITFAKWMKTYRQKGDFSNGKVYLYNDEFLNYYDVEIGQTAVQLLNRLGYQVEIPKIG
+ISGRTYLSKGMLKEAREIAEQNIRDFEQAIPQDGILIGIEPSAILTFRDEYPDLCRGELK
+VKAKNYAAKAFLIEEFLAKELEEGRISSSNFTDRQERIRMHGHCFQKALSSLVPLKKILA
+LPENYTVLNIPSGCCGMAGSFGYEKEHYELSMKIGELVLFPTIRSEEEATLISASGTSCR
+HQIADGTGRKAQHPVEILYKALK
+>tr|A0A1S1J4I7|A0A1S1J4I7_9FLAO
+MEEKRNLRKERIGVVTSNKMDKSIVIAEVRKVKHPLYGKFVLKTKKYVAHDETNDCNIGD
+TVRISETRPLSKTKCWRLVEILERAK
+>tr|A0A1S1JA50|A0A1S1JA50_9FLAO
+MINFKLKYIDEIVPIGQEPNQRLSWFWLTDGELWLDFENDIIYEYSDEAIYYFGNKSTSY
+NEYYLVRFIEDFTNLFGKINESIPEKFYSLTEDLEKFKTESENWFSIHDTDENENTDFYF
+DEYYKLLSWINERTLDSAHLIGGPNLFFFRKNDQIKIIWEAEYTLENGISLWTVKDGFCE
+MNYHDFVNEIKLFGEDFFNKMDNQIELALSKDFKNIHIDKKRLVEEHQERKEDFWNAFKM
+LKQEPVNKTNWTDIEQTYNSIVEEIR
+>tr|A0A1S1JFU9|A0A1S1JFU9_9FLAO
+MRKVKFLIVILLAMQINGQNLKIMTYNIRVDLAVDGDNDWSHRKDFFTSQIQFYQPDVFG
+IQEAAPNQVNDIASNLAQYSFVGIGREGVGKGESSTIFYNRERLKMLLNNTFWLSETPGE
+ISLGWDAAYKRVCTYALFKDLKTKQLFWIFNTHLDHVGEQAKINGIKLILAKIKEVNNKN
+YSVIFTGDLNSEPESEGIFLLKKEMKDTREVSKTLPFGPSGTFNGFKHNEPVTRLLDYIL
+ISKDTGFKVEKFAVLSDSKDLKYPSDHLPVYVELSY
+>tr|A0A1S1J9A8|A0A1S1J9A8_9FLAO
+MEKELKINTAAIKADVTIKERLWVLVPAVLLIGLLATLIYNHHAEFSWNAFVDGFNQEFL
+VFFAIGVFAQLVDGTLGMGYGATSTSFLLAYGVPPVISSTAVHVSEMFTTGASALSHHRF
+GNINKKLVKHLLIPGVLGSIMGAYLLSDVINGDIIKPFIAVYMIVLAIIIIRKALVKKII
+KKKTKKLGFLAIFGGFMDSVGGGGWGPIVTSTLLGRGRNPRYTIGSVNAAEFAISFASGI
+TFMLFGGIHGWQVIIGLILGGVIAAPLGAYLLNKIRRKPMMIAVGILIILLSFKTLSKLL
+>tr|A0A1S1J038|A0A1S1J038_9FLAO
+MKAVTSLFLFLIFVYSNSYSQLSSDKIFESFKQGERTNCSSIAFIKASLNVYGLDNLFVN
+EKTGENTHRITLKNNASFNLQEDEISKAKVSAGFIYIKDNPESEKITDYAILTYAVMAKY
+KQIIDKVDTFDKALEDLEDGSVYTPTIYKYLGFKEGKQVLKLKRQSGSEYCGVVAWSTAH
+AVFVCEDFMDYYGNKKSIWIKYPGRFRVIKS
+>tr|A0A1S1J0X7|A0A1S1J0X7_9FLAO
+MKITKHSGYKVPFDKEKLKLSLKKSGAAPDVITESMVQIEKQMYDGITTKEIYKMAFAIL
+KKTANGYAARYNIRQALQMLGPAGFYFEKFIARLYAAEGFKSKINLTLQGKCVSHEVDVA
+IMKDDAITMIECKFHGSKDGASDVKVPMYILSRFNDLREKRHIIFSNNETFTSCIIVTNN
+RFTKDAQDFANCSGISLLSWDYPPDKNLKNKIDRGALYPITCLTTLSMVEKEKLLFLDQI
+LVKDLLDDQEGLKKIGLSPNRIKNIVHEASQICKLI
+>tr|A0A1S1J1A0|A0A1S1J1A0_9FLAO
+MKIFNWTNIRLILILGLVIFLYSFAQHRNGDRKLKKSMVVFVGENTLFVKPETVNKLLIE
+NKRDASSIRKDELDLNKIEKTLNAQDMIEESDVFVSIDGVLKAVVKQKTPIARVYDGDRS
+FYIDYEGNKMPLSDNYTARVPLVSGAINKKNNEDLAALFRTIYDDAFLKKNIIAIQIMPN
+GSLKMFNRNYNYFIDFGRTMNVDKKFNNYKAFFQKAVLDSSLYKYNKIDLRFTEQVVCTK
+>tr|A0A1S1J7T7|A0A1S1J7T7_9FLAO
+MKEKFNELINNANSKRYKAYYKLNQLPELTGLSIRMLKYKMIKIKEKYAGVTNLLDKDGK
+QWKIHYSIINEFMPINKRKTYTENNYDWQSFVSWNPFENYDKEYHQELIYQIKNEMPDKY
+IKYTIEMDGRGFNHVHFITDGNLSEVKTIVENVIYKYFSWNEISFEATSITNKYNCLNYT
+NKAPIITEII
+>tr|A0A1S1JAI3|A0A1S1JAI3_9FLAO
+MKQFYILFLVLATHLTFGQLNSKPYDYFVQFNGDQLSKKVSVDQIVNHPLISKYKEGKAS
+LDLKKYAALFKLDQKITVHGNFTDSIPYYQVTLPIKNKEAVKQFLIEEHTKNKNTDSVEV
+PVIQDYGKYAVFTPKNQKTSFVWNDNYLVLVELTKKYKPKSYDWEDRTQDSIAIDEPYQE
+TSTETTEEPAQSAEEAAASAAKETEEAVAVSNAAYEKAEADFNLLQKEQQSLFIKSLFEN
+GFTAPVSEKINGAADISSWLNYSSAMTSLNSAYGLLSKFTSYNKFLPMQNNAANMVKGIN
+LDFYFENDNARIEEVIEYAEPMAQIVGKMTDRKINKNIFNYFPDENPLGYMSYHINTKAA
+LEKFPTLVADLFQSQYLVKEDLTVITDLISTIVDEEATATLFDGDLSMFLYHVNEVEVTK
+KVYGYDENYEEKITEEKVKKNIPLFSMVFTSTHPTFGDKLIQLGLRKKFLEQKGDFYEIF
+GTEDYGTIFIKKDKDVVLIANTLDYFNDGKGLFVKEAKKELKKNYISGKLNFTRASFSYE
+NSGKAKGKDSEKLKRLSEQFSDIAVQSPKKLIDNKLKFELRLNASKSDKNVILQTLDLAE
+ELSK
+>tr|A0A1S1JB04|A0A1S1JB04_9FLAO
+MKNSKPLIIFGESVLPGESKTINVEIARLHTTTKLNIPVIVRRSKTEGPVVLFSAGIHGD
+EINGVEIVRQLISKKINRPAKGTIICIPIINMYGFVNKSREFPDGRDLNRVFPGSKKGSL
+ASRFAYHIVAEILPIIDYAVDFHAGGASRFNVPQIRITENNPELKELADVFNAPFTLYSK
+NISGSFRTTCEKANIKMLLFEGGKSLDINDTVANEGVMGVKRLLNYLNMLDPKHLVENAE
+DPSIYIKNSVWLRAKCSGLLHDYNRIGRFVTKGTILAIITDPFGKFEQKVKAPHDGFVIN
+ANHSPIVYEGDAIYHMSKNRDEYADE
+>tr|A0A1S1J2R0|A0A1S1J2R0_9FLAO
+MNLKLPLLIVLLISGFINAQQTVSIKGSKPFPATTSYTFICEKYVFTGETEVQIAKTDKG
+GALKLSIGISNDKTQISGGVYVDLVNGDVIACVDKNIKETLDGKTTTYYYFTPAEMVKLK
+KTDIKAIRFIIKGNNTAAFGDQTGYFTALNRMTYFSTAFDKSKKTFDTAAAISVL
+>tr|A0A1S1J8Y8|A0A1S1J8Y8_9FLAO
+MKKALLLSGGIDSICLAYDLKPDIAYTIDYGQTVAEREIYVSDFVCQKLGIQHKVIRVDC
+RNLGTGTLANSENLSISPSEEWWPFRNQLLITLASMQGIKDGISELYLASVKSDNFHKDG
+TEDFYKLSDKLVSFQEGKIRVLCPTLDFFSHELVNKFNVPLELLSIAHSCHISNIACGKC
+SGCIKQLKVRYEINLE
+>tr|A0A1S1J552|A0A1S1J552_9FLAO
+MHIQKKFSILITTKNRKQDLNFTLRKVQHLLDREDVSCIICDDGSTDGTYSFVEKNYPEI
+QLIRNNKSEGLIYSRNRMMDLVTTDFAISIDDDLHFITTNPLEIIEEAFDKNPDAALFSF
+RIYWSLQEPEIATSDDVLHQMKSFAGGANVWRMSAWRDIPNYPEWFVFYGEEDFASFQLF
+KKQWKIYYLPEVLVNHRVDLKSRKNNADYSLRLRRSLRSGWYLYFLFYPLKVVPKKITYS
+VWMQLKLRVFKGDFKALKALFLATIDLILAFPKIIKNSNRLSVREYKTYQELEDTKLYWK
+P
+>tr|A0A1S1J515|A0A1S1J515_9FLAO
+MKNFFANFFGRNNNPESIVSFDVLDSINTYLQNESSRVDFKMKGIHDTVSATLYSFPDSF
+DHEEGRAEIKKSGFKNSYEVLNELYKKVNIAPLSDDEMLEEPVCNYLHIEFYSEPSLEMK
+KHLKHVLQNFIIFFCCTNSMETNDFKLLYSNSYFYDYTKGFLEAEPIDIEAPKNKLQEIG
+FNDFKTVLQGICEYMGIELTPTVIRPSAESLMPDEVSVGHFREFLQLLSRGDIEEDLLED
+QSQVLFDNFGLEEGDEEYDYEFDFFEGINSWHSDWKFDPEDAEYFISEMIGETFTFEYPE
+ETYSHDLFPYIQKELAKQDLELMSYDTQGDSYLFFVANKNDVTRILELSEITEMGIDRLV
+>tr|A0A1S1J4R5|A0A1S1J4R5_9FLAO
+MGIIDKLNKDFESRVRLGIMSILMVNEWVDFTEMKNLLNITDGNLASHSSALEKAEYIEV
+KKEFVGKKPKTSYQVTPRGRAAFKEHLSFLEKLMKS
+>tr|A0A1S1J5Q6|A0A1S1J5Q6_9FLAO
+MARTKEFDEDKALDKAIEIFWCKGYNGTSAQDLVTHLGLSRSSLYDTFGDKQKLFSKALR
+RYLEHGQEATRNLLNQSEDIKETLTEIFKQAVIESLDDRMTKGCFVVNAAVELAMHDEEI
+AKIVSDNRQTVEEIFLTAVKKGQQAGQISMQLEARMLARFIFNNYTGIRVLARSGENDKK
+VYDDILKAMFSVL
+>tr|A0A1S1JAQ0|A0A1S1JAQ0_9FLAO
+MKKLLLFLLVTYQSTLLSQTVLASYPLDLKRYDQNNTIVNVENKATHDVFVFATNTQNLT
+ILKYNNALFLKDEFIVSRANLENKSILGYSFSEDGNPTLYWASEDSSEILVVKYYLETKT
+YKILKFQYPSSSEYIVAKFQSNNLLYLLSKELTSHTLTAYVFKNGIVEERIFDFSAFTFQ
+NKRGQSVNFSQLIKENPIIKIDPKDYTPLDKASKKSKIYLEDNHLILTLDHNPKETQLFD
+LNLDNQDVIEKKITQSEIKTPRKISNSFYHEKKLYQINANEDELVLDIKNYDSGELVKNI
+RVTKEDTIRFKTSPFLVQQGGERKPRELRNTKRFLQHLGALEIGLSLYDNGISTSMTLGG
+TPRVGGAYYTVMNDTFTWDYLPVVNDETVFFETALNQKSEFVAKDPAPMALDNLYYFLNN
+NRKAILDNIFRFDDYYILGYYDTALKQYQMRKFTDGFPENETQNPIIDKAVFSKPFSFER
+P
+>tr|A0A1S1JEU1|A0A1S1JEU1_9FLAO
+MKHYPFILFLLLTFVSCSKELSFENESFEKESTIPCEKDCPKITIDVPVAKNIPVVADSI
+NKKVFSVIKEIVYFEEDPKKANEYKSLAASFIASYEEMHKKFPTETFGWEATVKGNVEFE
+SDEIINIKIDHYTFTGGAHGYQGYRSLLFHSKTGKTIFIDQIFKNEKEFMAYAEKEFRKK
+YKIPEKSNINATGLMFENDKFHLPQNIFYTKEGLLLYYNSYEAASYADGPKELLFPYDEV
+GKYLKYQ
+>tr|A0A1S1J538|A0A1S1J538_9FLAO
+MKPTKEFTVADYLLTRLKQLNVTEVFQIPGDYVKHFTQALEDFNGIKTIGTSNELDASYA
+ADAYARTRGLGAVSLQYGVSTYSALNAIAGAYVERSPVVVISATPGADARQIGNMYNVLY
+HHSTGNLNADQEIFERVTVAAETLSSSVDAPEKIDNLIIAALTHQRPVYIACYKEVWGEP
+CPKPSNKKLEPQIIKSEAAELENAVSQAWTQISQSKKPLIFAGVELLRHNLSKQLEELIK
+VSGMLYTTTSLGKTVLDEKGEKFIGTYSDQASIPEVIKIVEASDCILSLGTIITDDYLWL
+VENKFSAMIQATTQEMRVGYFTYVNVTLKDFIEALTERFKKASGYPLKAVAPAQPKFPEP
+WRSNSDPKYDKLPEIITFNRFFERASYFLEKQKMLDDIVFTFGVSSSMYVATNMYGLSKN
+AFISSAAWQCIGFETGAASGAQLGSGKQAWTIAGDGGFMMVTQALSTLVKYNINSVIFVM
+SNGVYAIEQVYVDMDSFKAGPSHKFDEFDILPKWDYQALAKAFGAKSYRAETVKELDEVL
+LKLKEKTDLPTLVEIIIPQKDLAQQMERLGNE
+>tr|A0A1S1JAA2|A0A1S1JAA2_9FLAO
+MITSVFKKSTPLNYSLVVILILVFFFLFQIQEPSWITSYFLAFQKVSLLCFILASFFLIN
+FIVKKNGLSKDNGYAIFFYLLFLLFFPTIFNNANVIYGNFFILLALRRLISLQSLKASKE
+KIFDASFWILIASLFQFWCILFLILVFISIVFHVSRDYRNWILPFIALVAVSIIFLLVSL
+IFHIDITDFFQKRAVIDFNIDYFKSNYENGALSIYVAVALFFVVSMLTTLSNRPQIVHSS
+YKKVVACFFIAAFVYILSPDKSNDLLFFSVAPLTIMAASHVEYMQQKLNNEIVFYVLILC
+SLFTFFSQL
+>tr|A0A1S1JE69|A0A1S1JE69_9FLAO
+MKKITQMICVLLTVTSMSAQQEKGIMGYNNWLNNWTEFKPNKVEYGEANQILAGNISVNT
+KLLKKNIYVLQGNVYVTNNAVLTIEPGTLIIGDFETKGTLVVTKGAQIMADGLETDPIVF
+TSNRSQKKAGDWGGIVILGDAPINKFGNVGSYNLDLDPSLTTYGGDNAAANSGILRFVRV
+EFAGKKVKGVDTFNGITFAGVGSKTVLDNVMVSYSGGDSFAFFGGDVNATKFVSYKSIND
+DYKFTQGVQCRLYNSLAVRSSYLSSNKDGSRCMEVKSFEKKSETDFTKKQTLVVATNITM
+LNDSENIKADIQSGLVKEAVFVAENASLEMKRSVISGFNPAVLLDSKTEINDANLKKIKF
+EEMYFNLCNGNIFTEYNSNNEDLESWYGNSVFFNVYSQSNNRETFIDIFNPKKPDFRLQL
+GKITASSSNR
+>tr|A0A1S1J9M4|A0A1S1J9M4_9FLAO
+MNIFVGSLPFSIEEADLRESFEAYGAVDSVKIITDKFTGRSKGFGFVEMPNDSEAQKAID
+ELNGATVQGRTIVVNKSEPKPEGERRSFNNNRGGDSRGGYGNNRGGNDRGGNRGGY
+>tr|A0A1S1IZ16|A0A1S1IZ16_9FLAO
+MTRIITLFCIFIAQIGFSQTADSYLEKIRNNEALSTAFFQQMPKGGDLHHHFSGSIYAEP
+LLERAIAEDFYLNLETMEVSKTKPEKGNWQTFSSLKKDGKLDHYQQQVMQTWSAKDYNGS
+VPSDDLFFDSFQKFEPTIKGHFAEGMLELKKRALSENVSYIETQLSTIPCDMNVSDLADF
+NAKLRQTATQKDEKAALKLLDELYQSLQKKEAKKYATDFNTNFIAKLHKDLKIDDERFTM
+RYQNFVLRFMDPVDLFKNLTIAFISANDSKLVAGVNIVSPEHGENSMKDYWLHMVMFKYC
+NSKFPAVKYTLHAGELTLGLVQPEELTWHINDAIHIAGANRIGHGVDIAYEANSYDLLRH
+MAQKNIPIEINLTSNEFILKVKENRHPFTLYKEFNVPIVISTDDAGILRTNMTEQYVLLA
+KRYPDVSYATIKKYVYNSINYSFIQDEAVKKQLIKDLDNRFKTFEAKFSKN
+>tr|A0A1S1J0N6|A0A1S1J0N6_9FLAO
+MDKIKILWVDDEIDLLKPHILFLEKKNYTVTTSNNGLDAIALFEEDNFDIVFLDENMPGM
+SGLETLSEMKEKKSAIPMIMITKSEEEYIMEEAIGSKIADYLIKPVNPNQILLSLKKNLD
+HSRLISEKTTLDYQKEFRKISMELAMVNSFEDWIELYKKLIFWELELENINDQAMIEILE
+SQKVEANSQFGKYIERNYEDWFAPKADKPVQSHNLFKELVVPEIKKKDKPILFVVIDNLR
+YDQWKSFETVVSNYYKLEKEVPYFSILPTATQYARNSIFSGLLPIEMEKQFPQYWKNDVE
+DGGKNLFEAEFLSAQLKRLGLNIKEDYFKITNYAGGKKLAENFKALKGNDLVTVVYNFVD
+MLSHAKTEMEVVKELASDDKAYRSLTLSWFKNSPLLEIIQQAQLLGFKLILTTDHGTINV
+KNPSKVVGDKNTSLNLRYKTGRSLTYEQKDVYVVKEPKTIGLPAINMSSSFIFAKNDYFL
+AYVNNYNHYVSYYKNTYQHGGISLEEMIIPFLVFNPK
+>tr|A0A1S1J152|A0A1S1J152_9FLAO
+MNKFKYYFILLLAGISFVSCSKKDDDEVVITPLRDYATQYKADNDSIVKYLKTNYIIVTN
+SPGNPQDQDVVIKKIVPGDGNVSIWDQKTYVLDTRDVYSNDVTYKVYYLTLRKGVGSSPT
+NTDKIVSSYSGNLLNGTVFDTSNNNQVVFNLFPYAVEKTVIEGWSEIFPKFKTGTSSTDS
+NGVITYSGFGAGVMFLPSGLAYYGDVKDAIPAYSPIVFSFKLYDLQRMDNEVSTSANGDR
+LVVGDGIPDYLEDLNGDGYLYDFGINKTKYPNPPAGLADDTDGDGISDFLDLDDDGDGFT
+TRFEITKPATEVGIVNGINYGASKYYPWEPTVDNPLTPNVDETEPRGIPRRPTGALTDPS
+KPESYTNARKFIEADYTDKPRLKIHLDKTYPFKQN
+>tr|A0A1S1J4C1|A0A1S1J4C1_9FLAO
+MLKKYFRKLENIIALGQSLMTPKQFIFLSSVLIGISCSLAVIVLKTFAHSVFSFATYING
+ILKLSFINSILPIIGIVLTVFVIKRVLNGSIEKGTSQILYAVAKKASIIPRKQMYAQIVT
+SSLTVGLGGSAGLESPIVITGAAFGSNFAQNYRLPYKDRTLLIGCGVAAGIAAAFNAPIA
+GVLFAIEVLLVDVSISAFTPIMISAATGALVSAIVLDETILLSFKKQEAFNYHNIPFYVL
+LGILTGFMAVYYARNFQKIEHYFASLKIGAYKKALIGSSLLALLIFIFPTLFGEGYESIK
+TLSETDPGKILNNTLFEDFRNNQWVLLLFVGCTMMVKVFASALTLGSGGNGGNFAPSLFL
+GSYLGYFFSKFISLIGLSKLPISNFTMVGMAGILSGLFHAPLTAIFLIAEITGGYSLMIP
+LMIVSSISFAISKRFEKYSLDVKGLAKKGHAFTSNKDSNILSTLDIDSIIQCDYLTVHPD
+ENLGKLVDLISHSNQVVFAVVNNEKELVGIVHFNDIREIIFNAYRVKYTAIKDVMKTPLV
+TISSSDSMEIVMSKFEQSKTAFLPVIRNEKYYGFISKSIALEAYRTKLRSMTIE
+>tr|A0A1S1J530|A0A1S1J530_9FLAO
+MKKILLLSDTHSHIDDTILKYVAQADEVWHAGDIGDLNVTDTIKKLKPLRCVYGNIDDAQ
+ARLEFPLHNRFLCEDVSVWITHIGGYPGKYNPNIREEMASNPPKLFICGHSHILKVMFDK
+KNNLLHMNPGAAGKSGFHQVRTMLRFVIDGDKIKDLEIVEIGKK
+>tr|A0A1S1J658|A0A1S1J658_9FLAO
+MEERHIRNRLYISPEEQELIKKTPILLGGAGIGSAIAECLLRLGFETLTIIDGDVVELSN
+LNRQNYTEHNIAQPKVEALKERLLAINSQAKITIHNCFLTPENVGNYITDHKIAINALDF
+TSDVPLIFDSICQQKNIPVLHPYNLGWGALVLVISKDEDLEVLKKPDEKFSEVNVVDYVL
+EYMRYWENPQKWLEEILDKYKKENKNLSPPQLPIASWLVAGMCTHIAFDIATNAPVKTFP
+EFYLTSLK
+>tr|A0A1S1J655|A0A1S1J655_9FLAO
+MSTTKTIQSALISVFSKDGLEPIVRKLHEQNVTLYSTGGTEDFIKNLGIPVVPVEDITSF
+PEILGGRVKTLHPKIFGGILNRQDNESDVQQMKEFDIPQIDLVIVDLYPFEKTVASGASE
+QDIIEKIDIGGISLIRAGAKNFKDTVIVASVNEYSLLLDLITEQNGATTLENRRLLATKA
+FHVSSHYDGAIFNYFNTDETIYKESIADGQVLRYGENPHQKGFFFGDFDAMFKKVHGKEL
+SYNNLLDVDAAVNLINEFKTDGPTFAILKHNNACGLASRKTISEAYLAALACDPTSAFGG
+VLIANTKIDVATAEEINKLFCEVVIAPSYDEEAITILQEKKNRIILIQNEVELPTRQVRT
+CLNGLLIQDRNNITDTKEHLKTVTITEPTAEEIEDLIFASKICKNTKSNTIVFAKNGTLI
+SSGTGQTSRVDALVQAVDKAKAFGFDLTGASMASDAFFPFPDCVELAKKAGITAVIQPGG
+SIKDELSINYCNENNLAMVFTGTRHFKH
+>tr|A0A1S1J940|A0A1S1J940_9FLAO
+MAYDKFNILTSSAVPLPIENVDTDQIIPARFLKATKREGFGDNLFRDWRYNGDDTPKTDF
+VLNDSTYSGKILVGGKNFGSGSSREHAAWAVYDYGFRAVVSSFFADIFKGNCLNIGVLPV
+QVSPEFAETIFKAIEADPKTELEINLPNQTITLLSTGQQESFAINGYKKNNMINGFDDID
+YLQNIKEDIVAFADKLPY
+>tr|A0A1S1JDP6|A0A1S1JDP6_9FLAO
+MPLSIINSFASWVLKQRIHQIELFLKYPNEVQEELLHNLLTASENTIIGKQYDFESINSY
+QTFAERVPIATYEELQPLIERTRQGEQNVFWETPIKWFAKSSGTTNAKSKFIPVSNEALE
+DCHYKGSKDLLCLYLNNNEDSELFLGKSLRLGGSSQIYENNNTFFGDLSAILIENMPIWA
+EFSSTPSSKTSLMSEWESKIAAIINETKNENVTSFAGVPSWMLVLMNKVLENTGKESLLD
+IWPNLEVYFHGGVSFSPYKEQYKNILPSKDFRYYEIYNASEGFFAIQDLNNSSDLLLMLD
+YGIFYEFISMDTFGTPNQKVIRLADVELNKNYAIVITTNSGLWRYLIGDTVRFTSLNPYR
+IRVTGRTKHHINVFGEELMVENTDQAIAKACQLTHTEVIDYTVAPIFMQDKEKGAHEWMI
+EFKKKPADVGLFQKVLDETLQTLNSDYEAKRHNNMTLNPLVINVARENLFYDWLKERDKL
+GGQHKIPRLSNQRDYLEQLKEM
+>tr|A0A1S1J466|A0A1S1J466_9FLAO
+MNTDQVYLKPNLVIEPLFDNWYAWSHLISPATAAMNIVGRHLKIMGSYIQAPTAHAAAVK
+NPKMLGGPFIDYEGKRVDEIEQLRNNTLKSQKDLIAFSEGIKELDLMLKTKAKGYSLEPL
+YAEVPEILKGYVELIYDLNNQPSFRFFETLLYNSEFYKETSQSILLWLTDNDERPFVLST
+PRLEDKDKIHLNIPFNHSGLDELSKMRRIPGSLSEIKKKLDIPSDMEAVFESFFTTEVPK
+PYEKYTGDKVRMRYFGHACILVETKDVSILIDPIISYYGYPQEVERFSDMDLPDTIDYVL
+ITHNHQDHILFETLIPLRHKIKNIVVPRSSNGSLQDPSLKLMFNSIGFNNVVEIDEMDTI
+KFNDCSITGIPFIGEHSDLNIQAKICHHVRVGDFKMLFVADSCNVESKIYQRVQSLLGDV
+DVIFLGMECDGAPLSWLYGPLLTEPLARDKDSSRRLAGSNFERGRGLVEAFNPKEVYVYA
+MGQEPWLEFISSIKYTAESHPIVQSDLLIKDCQANNIIAERLFGEKEIMYSK
+>tr|A0A1S1JBW7|A0A1S1JBW7_9FLAO
+MTYLDYDVVFPELDKINEFAFETVTTDFSNPKKIKKINYTRKIAITRYKDNGNDKLFQLF
+LSEIEITSNLSTENIIFLKRIGAAFDEVEVEVNNYGKIIKIVNFEELGKRWEIVRAKLAI
+DNVGFVVESYLQDISSSVEDEQKMITFFSDYKMFGLYFFSLYRNPSPVERQKKIMDCGSA
+VMLEHVRPKDEKLDTYFVSGKPFEEGTETDSIKYDGTVEYREHQIELATLEIEKEGLSIL
+YNINKTSL
+>tr|A0A1S1IYF8|A0A1S1IYF8_9FLAO
+MNNSGVIQTSQSADLVTYKILIEGEELSKTYQVKSIVVQNEVNRIPMAQIVLTDGEASER
+DFKLSNEDLLIPGKKLEINAGYHNDEEAIYKGIIIKHSIKIKSGASLLIIECKDEAVKLT
+IGRKSKYFYDVKDSDAFEEIIGTYGLEKDVETTNFSHKELVQYNTSDWDFIVSRAQANGK
+LCFVENGKITISKPDLSSAAVETITFGATLLDFDAEIDARNQFAKVSSYSWDYTNQELVE
+IEASDPGVSLNGNLSASDLSETIELENLELRHGGAITETELQDWADAKLLFQQLSKVRGR
+VKFQGIPAVKPNTIITLEGVGDRFNGSAYITGVFHELTEGNWTIDAQFGLNPEWFSETYD
+IHTPTGSGIMPAIKGLHAGIVTQLEGDPNGEDRILVKIPIINNEEQGIWCRVASPDAGEN
+RGIFFRPEIEDEVIIGFVNEDPNNAIVLGMLHSSGKPSPITASDDNHQKGIVTRSEMKVM
+FDDEKKSIGIETPAGKKITLDEDQGVIVIEDENSNVITIDSNGIKMESAGNIEIVASGDV
+KIEGTNVSLKAKAQFKAEGSAGAEMSSSAVAIVKGSIVQIN
+>tr|A0A1S1J7V1|A0A1S1J7V1_9FLAO
+MSQNNVLKGVFLVALGATTYGMLATFVKMAYTEGYTTAEVTTSQFVLGIIGILLINTFQK
+LKHKDNVVKATPKNIFSLMLAGTSLGMTSLFYYLAVKYIPVSIGIVLLMQTVWIGVLLEM
+ILEKKLPSKQKVFSVFIVLIGTVLATNILHNEIELDWRGLVWGMLAAASFTTTMFTANRV
+ATEISSAQRSLYMLFGGAIIVFSFALVTQVTPFNLAIFAKWGIILALFGTIIPPMLMNLG
+FPLTGIGLGSIVSALELPVSVTMAYVLLNEEVILSQWIGIILIILAIVIMNVNFKRKNS
+>tr|A0A1S1JA21|A0A1S1JA21_9FLAO
+MKNFFFLGIAIIFEIIATSALKKSEEFTRLIPSIITILGYFAAFYFLSFAIRTIPVGIAY
+AIWSGVGIVLITIIGAVFFKQIPDLPAIIGLTLIMAGVIVINVFSKTTAH
+>tr|A0A1S1J2J4|A0A1S1J2J4_9FLAO
+MLNTNEFIEFDIFEIKKFEDMKRIFKLIKEAKELKKTKGDKFWIENFPKYSLQEFYFIED
+DIKPDFKTAKLSKNIWHFYSLIELLEVNYEIEYIDCLLLDSSKGRLTFNAYSYPYGGTDG
+LIAFIKSFGCPPTKIYDGTEVVNIKKKSLLDRIKKFIQ
+>tr|A0A1S1J3I1|A0A1S1J3I1_9FLAO
+MKSLFDTVSFKCSKLVTQSYSTSFSLAVKMLSPGIRDAIYSIYGFVRFADEIVDSFHDFE
+KENLINDFEKEYYKAMQTGISLNPILNSFQHTVKQYNITDDLVQAFLKSMKLDLVKSSYP
+THTEYEDYIYGSADVVGLMCLKVFVKGNEQKYEQLKNEAMRLGSAFQKVNFLRDLKEDNL
+ILNRNYFPGINLNSFDEEAKTNIIAEIEEDFRIAFQGIVKLPIDAKFGVYTAYIYYRKLL
+QKLKNTPYYEIGNSRIRVSNYTKAGLLAQSFVTYKLKLV
+>tr|A0A1S1J733|A0A1S1J733_9FLAO
+MKRIFSKHSINVFELELTDWPYGQHTHNFCELILVRKGHGLHKINDTIFTYNRGDIFLLT
+PEDSHQLEIKDPTILLYIKFTEQIFNDKQSWIKSGWFETNSRFLFRSNMTAGSLIKNRQD
+TKKIFFLSKMLLEEYKSPKLHSRELTLEFFGAIIVIVLRHLTEHSTKKTFAEKERDKVND
+VLAYIRLNINTEKKLTLATIAAEFNISANYVGEYLKNHTGNGFKKIIMETRLERATVLLK
+QSTLSISEIAEKTGFTDASHMNKTFQKYKEINPSELRFKKI
+>tr|A0A1S1JBN6|A0A1S1JBN6_9FLAO
+MNAKHPSESLTILTDLVLPSETNPLNNLFGGELLARMDRAASIAARRHSRRIVVTASVNH
+VAFNRAISLGSVVTVEAKVSRSFKSSMEVFIDVWVEDRESGNRTKANEAIYTFVAVDDTG
+RPVEVPAILPETELEIQRFDAALRRKQLSLVLAGKLNPSDATELKALFL
+>tr|A0A1S1JCW4|A0A1S1JCW4_9FLAO
+MNTEEFGFETQAIRTQLERSQYLEHSVPLYLSSSFVFEDAEDMRASFTEEKERNIYSRFS
+NPNTTEFVDKICKMEGAEAGYAFATGMAAVYSTFAALLNSGDHIVSASSVFGSTHALFMT
+YFPKWNIETSYFDISKPETIEGFIKPNTKILYAESPTNPGVDVIDLQLLGDLAKKHNLIL
+IIDNCFATPYLQQPIKFGAHLVVHSATKLIDGQGRVLGGVTVGSEDLIRQIYLFSRNTGP
+ALSPFNAWVLSKSLETLAVRVEKHCENALKVAEFLEAHPNVNSVKYPFLKSHPQYEIAKK
+QMKLGGNIIAFEIKGGIEAGRKFLDKIKLCSLSANIGDTRSIVTHPASTTHSKLSEEDQL
+AVGITQGLVRVSVGLETVEDVIADLKQALS
+>tr|A0A1S1J629|A0A1S1J629_9FLAO
+MQDAIDFLSARNPVFLDIIDKYGLPPIPKRPQGFATLVLLILEQQVSIDSAKATFLKIKA
+YTTCSPENMVELSDEEFRNLGVSRQKTKYIKILAEAVLSKELDIESLATKSAKEVREELI
+KLKGIGNWTIDIYLMFCLQEPDLIPLGDIAVVNTIKELLDIHDKKEMEIHAEQWSPYRSY
+ATYLLWHYYLNKRNRKITY
+>tr|A0A1S1J1T9|A0A1S1J1T9_9FLAO
+MKNIIFILLFVVLNGATCEKEHEVVRSFCYWKTDLNFEKTEDSLIKDLKVKHLYIRFFDV
+DWNPYAKEPLPVATLHDIRLNESNPEITPSIFITNEVVLKSGKKQLDSLAVRIAKRIEQI
+GLKMNDSKAEKIASSIVYPKDYYKQENRKQLNYDSVKSSEMAKLKVDFKEILIDCDWSEK
+SKDNYFYLLKQIKKSYPATAVSATIRLWQYKYASKAGIPPVDKGLLMCYNLSKPEDFTTK
+NSIGTSEELAQYITHNQYGLKLDIALPLYSWAVVFRGNQFKGILSDYDRVQNDTVKLKKV
+SDAKYILQDDILVGQTYLRNGDEIRIEKISEDELDKMISIVKSKIPIDNQTKVTFFSFDK
+KYINDYGTQNISGYYARF
+>tr|A0A1S1J299|A0A1S1J299_9FLAO
+MANRLIINFSQETVEVLNKGNYSLCCFLASRSRNASQFRPLCWSVTKNFLRSVLIEWEYN
+LSGYISTSEITENQTIYIPQPQSERPASSSTSRRSIGGTNYKIELKQRLLIQDFGGLSVD
+TNNDNPTVLIQNESGTEYATGICVHNTNDNRYYGSCTFRIFGRQNIEVTPDNKAFLMFSD
+NNPQNNTVMLISESPGILIDFDLMNDSRIVTFDVDQGWSSNDEVWGIKYPAGTNLQTLLV
+S
+>tr|A0A1S1J8W3|A0A1S1J8W3_9FLAO
+MRSILIIGAGRSASSLIRYLLAKSESENLHLVVADLSLALAEKKTQKHPNATPIALNIFD
+TEERKAAIEKASIVISMLPAHLHIEIAKDCLEFKKHLVTASYISDAMQALDEEAKKNNLV
+FMNEIGLDPGIDHMSAMKVIDEIRAKGGKMLLFESFCGGLVAPESDNNLWNYKFTWAPRN
+VVLAGQGGAAKFIQEGTYKYIPYSALFRRTEFLEVEGYGKFEAYSNRDSLKYKSVYGLDN
+VLTLYRGTIRRVGFSKAWNMFVQLGMTDDSYIMEDSENMSYRQFVNSFLPYHPTDSAEIK
+TRLILKIDQDDIMWDKLLELDLFNPNKKVNLPNATPAQILEKILSDSWSLEPDDKDMIVM
+YHKFGYELNGEKKQIDSKMVCIGDDQTYTAMAKTVGLPVAMATLLILNGKITTPGVQLPI
+KKEVYLPILNELEEYGVIFNEQKMPYFGYNPDLF
+>tr|A0A1S1J956|A0A1S1J956_9FLAO
+MTADKLTTFDVLIEIPRGSRNKYEYDFEIKRMRFDRMLFSSMMYPADYGFIPETLALDGD
+PLDVLVLVNEPTFPGCVMEVKPIGVFHMADDKGPDEKIICVPVSDPIWNSLNDLSDINGH
+LVKEIEHFFQVYKDLENKKVDVEGWGDVNEAYAIIAECTKRFDDIENKPEGLFSIK
+>tr|A0A1S1J7P0|A0A1S1J7P0_9FLAO
+MILDIVSPEAKLFSGEVTSVTLPGVDGSFQILNNHAPIVSILEKGTVKIASAKFNFSKDV
+ASKFTKVNEQTYTLEIASGTVEMKDNKVIVLVD
+>tr|A0A1S1JCV1|A0A1S1JCV1_9FLAO
+MNLGIFKDFWDGHPNHLPFLSLVELTSDESQSFNLKLSFSKLEAILETNSEQKISDGIRL
+LLEQENWRAHLVASVSLLLISQAKRDRLINLYWERLSRGSWVSPQILTSLSRCDTSFNTK
+GEKILTEGFTINYASLSSIDHHVLRGGVPTTVSEKKIIAAVNYLLNNIINDNDDNYDNDS
+GGSIAKNWKEKLTELIKENRVKLAYF
+>tr|A0A1S1J1F1|A0A1S1J1F1_9FLAO
+MDTLSAQIDTRLYRTEITSASGNIVIADEPQEMGGKNLGFSPSELLASSLASCTLITLRM
+YINRKQWEVTEINIKVDFERDLDQKISLFTRKIEIIGEVDDKQRQRLETIANSCPIHKTL
+TNSIEIKTTLI
+>tr|A0A1S1J1Y4|A0A1S1J1Y4_9FLAO
+MEVKNIKAFGTEAADAPLQTLDIQRRAVLAHDVEIEILYCGICHSDLHSARNEWHGTIYP
+IVPGHEIVGRVTKVGDHVKNFKVGDLAGVGCMVDSCRECEHCKGDLEQFCDAGSTLTFNS
+PDTHLGGQTFGGYSQSIVVDENYVLHISDKLDLAGVAPLLCAGITTYSPLRHWNVGPGQK
+VGIVGIGGLGHMGIKLAKAMGAHVVVFTTSLSKTEDAKRLGADEVVLSTDPEQMAKYTKS
+LNFILDCVSAEHNIDAYLNLLKVDGTLTLVGAPMEPLPVTSFSLILGRRSFAGSAIGGIK
+ETQEMLDFCAEHNITADIELIGVNEVNDAYERLLKGDIKYRFVIDMASL
+>tr|A0A1S1J376|A0A1S1J376_9FLAO
+MEKDFIEAERFYQAKKKVKEIREFYEHLAVFILVNIIVIAVNLITSPEYLWFVWCVLGWG
+VGVVIHGLTVFDIPPFFSKDWEEKKIKEILEKEKLRKPENNYGN
+>tr|A0A1S1J4T4|A0A1S1J4T4_9FLAO
+MTTGKINVSVENIFPLIKKFLYSDHEIFLRELVSNGTDATLKLKHLISIGEAKVEYGNPV
+IEIKVDKEGKKIHIIDQGLGMTADEVEKYINQVAFSGAEEFLDKYKDSAKDSGIIGHFGL
+GFYSAFMVAEKVEIITKSYKDEPAAHWTCDGSPEFTLEPADKTSRGTEIILHIAEDSLEF
+LEDSKISGLLNKYNKFMPVPIKFGTRTETLPKPEDAPEDYVNETVEIDNIINNPNPAWTK
+QPTELSDEDYKNFYRELYPMQFEEPLFNIHLNVDYPFNLTGILYFPKLGSDMQIQKDKIQ
+LYQNQVYVTDNVEGIVPEFLTMLKGVIDSPDIPLNVSRSGLQADGAVKKISNYITRKVAD
+KLKALFNENRADFEQKWNDIKIVLEYGMLSEDKFYEKAGAFVLYPTVDDTYFTLEELKEK
+LKENQTDKDGKLIVLYAGNKDAQHSYIETAKEKGYEVLLLDSPIISHLIQKIEGDNSGLT
+FVRVDSDHIDNLIKKEENTISKLSDEEKETLKTSLETYIPKAYSVQLEAMDSQAAPFIIT
+QPEFMRRMKEMSQSGGGGMFGMGNMPEMYNLIVNTNSDLASSILNTEDKTHQEHLVKQAL
+DLAKLSQNLLKGEALTAFVKRSFEMIK
+>tr|A0A1S1J4Z4|A0A1S1J4Z4_9FLAO
+MPSIKKNENTDYLDREIIHKLSENGRISFSDLAKELNISNSLVHLRVRKLQESGIITGFS
+VKLNPKEIGFETTTYTGIVTKEARFSYSIAEKLKEIPEVVECHWVSGKYALFIKIVAVNN
+EELRKILYEQIHQIEGVGSTDSFFSFGSAFEKNLPV
+>tr|A0A1S1J673|A0A1S1J673_9FLAO
+MEKNIDNDEVSLKEFIQQIKEWYYYLLSKWKIILLVVTFGAIVGLSYSLIKKTIYTATLS
+FALEDEKSGSGGLGGALGLASSLGLDLGGGGGSIFAGANLTELFKSRSMVEKTLLSPVTV
+NGKVISLAEMYIQNNEWKKAWKDKPKLASIKFLPNANRKMFTRIQDSILGVMYEKLSQSG
+LSVIQKDKKISIININVSSTNEFFAKSFCESLARQVSKFYVDTKSKKAKMNMEVLQKQVD
+SIRGQLNGSITRVAVANDNTFNLNPALIVRKTPVARSQVDVQANTAILTELVKQSELAKV
+TLRKETPLIQVIDRPILPLSQERFGKARGILTGGFLAGILIVLILIVKRILNRIGL
+>tr|A0A1S1JA14|A0A1S1JA14_9FLAO
+MKLNKLNSIILLGLVAIISILVTQLLWTKEAFTIEQKKLSQKAHLALLEVAKKLYEGTNH
+ELPAQNPVQKIANDYYIVNIDNDFEPDILEFYLKSEFKKMNITTDFEYAMYNCQSDEMVY
+GNYISLTEKKTIKQPVYFPKHKNLVYYFAIRFPNETTYLFSSMRFWFILSIALILILLIY
+VYSIFTLLQQKKYSELQRDFINNMTHEFKTPLSSILIASKYLIEQTPIKEDKKLYTYTDI
+IINQSYKLNGHIEKILNVAKSDYAPLELKKESVLVVPIIEEVIQNILLKYPEANIKIETL
+SKEYKIETDVFHFSNLVYNLLDNAVKYCSGKCLILIGITTENSVLKLAFKDNGVGISSKN
+LSFIFDKFYRAQNEKSNEVTGFGLGLYYVKEICNLHNWKIKAENNSEKGITITLSIPYKK
+>tr|A0A1S1JBJ3|A0A1S1JBJ3_9FLAO
+MVIMNNQIFLNGITIEQLAEVLKPLLLAKTQEQNLSENPLLTRDEVCELLSFNKTSLWKH
+TKSGRLKSYGIGNRVYYKRDEVLEAVKPINS
+>tr|A0A1S1J8E9|A0A1S1J8E9_9FLAO
+MKKISLLLICLLIIPYAKAQNIERPITTGVPFLLVAADARAAGLADQGVATSADAYSQQW
+NPAKYAFSVDKQGFSISYTPYLTDLANDISLGQATYYNKINERSAFAGSFRYFGFGDIEL
+RTTGDPNEAARIVSPNEFALDGSYSLKLSEKFSMAVAARYIRSNLKIASEEIDASASGSF
+AVDVAGFYQSEEIAYADFNGRWRGGFNLQNLGPKISYDNDNISSNFLPANLRLGGGFDFI
+LDDYNKLGLSVEFTKLLVPTPPGPGTPVDANGDGDFTDPGDISQSQADAAKYKTYKDIGW
+VSGIFKSFGDAPGGFSEELKEITYSVGAEYMYQDAFAVRAGYFHESPVKGARQFFSLGAG
+FKYNVVKVDVSYLFSTSKVKNPLENTLRFSLTFNFGDKYEVY
+>tr|A0A1S1JCB2|A0A1S1JCB2_9FLAO
+MKRKILMAFVILGMISCQNKEKTEKENVVEAIATDTITKTAVGTADVSDVPVKDDKTVEL
+IRKQLLVLLKKDLPALTKEDRFFYYDAFDLNNDQKEEYFVGFSNSYFCGSGGCSGYILNN
+DGSLINSFTVTDFPIYVTTSVSEKFYNLIAVSGGEFHLLKLKNGKYPSNPSVQEVVKEEA
+TRESAKVLDIDGKKLEKYSF
+>tr|A0A1S1JAY2|A0A1S1JAY2_9FLAO
+MKFKLHISQTIEKLLTQEDTDGDKKITIDDHGPKRFLLNGEEGNSILIEGTYQLSNLLQE
+LALAKKENTEFAEISLDQIVEDPVKRISGKIKNLYWKGLTRTIDANGVKKILEDNKIENA
+ISYLYVPFGDEIVFDYFKKLEAVTPKLKVVQMPKHISPEYVLSLNQKPGILALALQIKNN
+EISGVPFVVPGGRFNEMYGWDSYFIAKGLLIDDKIELALGIAENFKYQIDHYGKILNANR
+SYYLTRTQPPLYTSLIRDVLEKSNPDIFWIERHLKTAIKEYLTVWMEEGKRLTANGLNRY
+KAEGIGLPFEVEEGHFDDILEQYAPKYNLSTREFEKKYLEREVVDVELDKYFIHDRSMRE
+SGHDTTNRLVGICANLNTVAINSLLYKYETDIAFLIRKYFKNEFQYFEDQSFSTEYWLTK
+AASRKEKINQLCWNSEYGCYLDYNFVNEEQHFFEAATTFYPLWAKISTPEQADILVKKTL
+PNFKMKGGIAGSTKESIAAIDENAPVRQWDYPFGWAPHQMLLWEGLLNYNFNEEAQEMVY
+RWLWLITRNAVDYNGTIPEKFDLSISSHKIFAEYGNVGTEFDFIPEEGFGWMNASYQYGL
+TILEEDLKQKLSDLVDPDVLF
+>tr|A0A1S1J3D1|A0A1S1J3D1_9FLAO
+MGFESLKNISAIAFYFASVICFVLANVLKDSNLSVYYALLVIGIVLFFLGVFKRMRTNR
+>tr|A0A1S1J3I9|A0A1S1J3I9_9FLAO
+MFLRVARHTDNIEKIANFYINVLGFELLGSFEKHKDYDGVFLGMPQSDWHFEFTQSKVKA
+NHTFDEDDVIVLYPKSIIDYNELIDRIERNNISILTATNPFWNENGKMFLDPDGYRIVIS
+PLKAVIDQIN
+>tr|A0A1S1J9T5|A0A1S1J9T5_9FLAO
+MNSLQIILKKKIVFLSLFTLLTGSAFSQNKTKIEIGTIDSISSKVLNENRKIWIHLPKSA
+RNTGFAKQKYPVVYLLDAEGHFSSVVGIIEELSETNGNTNCPEMIIVGITNTNRNRDLTP
+THSDVDPPFVPQSLSDQSGGGEKFVEFLEKELIPYIDSKYPTAPFKTLIGHSFGGLTALN
+ILTNHTDLFNSYIAIDPSLWWDRQKFLADTKKKLANKNLSKVSLFMAAANTMDEGMNIEK
+VREDATLLTKHIRSILDFNDFLQNNKKSNLNYAYQYYNDDNHGSVPLIATYDGLRFLFKF
+NQLKLSITEQFNFNKAVFAKIEKHFENVSKKLGYTVNVPENTVNAYAYQSLGKKDMDLAG
+YLFKLNVANYPKSANVYDSLGDFYEANGDKKNAIASYEKALLLDKNFSEAKGKLEKLK
+>tr|A0A1S1JBQ9|A0A1S1JBQ9_9FLAO
+MKNLFALAAILLLNFVNAQNKTEVAFTETPIVLKINIDQLFGTLTTPNLEKRYPVALLIS
+GSGPTDRNGNNPMMKNNSLKMLAEVLAKNGIASLRYDKRGIAESKPAAISEQTLVFENYT
+EDAKSWINLLKQDSRFSEVIVIGHSEGSLIGMIAGAKANKFISIAGAGESADQLIKSQIA
+SKQNKQVEELTFPIIDSLKSGFTVKKVDPMLNALFRPSIQPYLVSWFKYNPQNEIKKLNV
+PILIVQGNQDLQVTVKDAELLSKANKNAELLIVDKMNHVMKIIDGDHQANLESYKNESLP
+ISEIMATKIISFIKK
+>tr|A0A1S1J0R6|A0A1S1J0R6_9FLAO
+MKKINCIILDDEPFAVKLMADYASKVPRLNVLYADSDVFKAIEILNNEVVDLVFIDIQMP
+QLTGIELMQMFNQKHNFIITSAYPDYALDVFQFHVIDYLLKPIVFNRFYQSVEKFIRWQE
+TMQNQQTDDFLFVKADRKHHKIATENILYIEGLKDYIRIHTKGEKIMVLENMKDILEKLP
+LNQFVRIHRSYIIPKSKIKVIEGNQIQLTSGEQLPIGETYRKLVSDWLS
+>tr|A0A1S1J1W8|A0A1S1J1W8_9FLAO
+MKIGLIGFGKTGKSVATVLLENNKFCLEWVLRQSTVLEHRSVSEFLGIPSKEPGLIYSGS
+KVKMEDLLDKHPVDVIIDFSSNEGIYSYGEVAAKRKVKIISAISHYKDKELQLLKKLAHK
+TTVFWSPNITLGVNYLLFAAKFLKKIAPWVDIEVNEEHFKKKEGTSGTAVKIAEALELDK
+NNINSVRAGGIVGKHEVIFGFPYQTVRLIHESISREAFGNGVVFVAENLKNKPRGLYNFE
+DILTPYFTV
+>tr|A0A1S1J7G5|A0A1S1J7G5_9FLAO
+MKISQLMLFGVFFIGISSIEAQEKTSLTLGEAVQMAWEKSNEVTLANTKVNTKKYELKSV
+KDNQYPDIKISGQYQRLTKASISMPNQSENASIASPDRAMFGMATLSLPLFSGFKIQNSI
+EAYDNLYEAENATAAKTKEDVALKVITYYTALYKAQKTLDVLNENQKSAKQRVTDFTELE
+KNGIIPRNDLLKSQLLVSKTQLSIDEATNNLNNINFYLTTLLKLDPNTKLQVNEADFFNL
+KTSNAPTSDAIALENRKDLEAIRLQQKATESNIKVAKAAYYPTLALLGGYTALDLKDIIT
+VRYAMNFGLGLTYDLSGIYKNSAHVRVAESKAMEVKNSEAVMTDRIKVEVQKSIEDYDLA
+INQSVVYDEALQQASENYRLVKDKFDNGLSDTNDLVEADVEQLSAKINTALSKATIIQKY
+YELLSVSGQLSQSFNLSKI
+>tr|A0A1S1J0V1|A0A1S1J0V1_9FLAO
+MLKKIAYITLFAVALTSCSDTLDDINKNPNATETPLAPYLLTGTLKQGADLYWGADNNFN
+ASLLFVQHWAKVQYTEPDRYDVSNTSFTTLWNTGYATLITDLNTILKFPDQQANPNYKGI
+ALTLRSWAFLLLTDAYGSIPYKEAGLKVTPAYNTQKEVYTGLLEDLKQAQSLLNPTSGSV
+TGDLAYKGDISKWKKLVNSLRLRIALRISDREPALAKQAAIDATTDAAGVISNNNETFKF
+TFTSSPQQNPASAWFETRDDFRISKTLVDKLNEFSDPRLPVYAQLPTDASVGKYVGGANG
+LSNSDANSQGFAKTSKPGAYFLTSSSPAVIVSYSEVLFNLSEAVARGYIAGDAEQLYKNA
+ITASFNQFGITDATTISNYLNQAAVKYDAANYAKSIGTQKWIAFFGQGLDAFAEWRRLDY
+PVLKAGPATVLNGQIPSRFFYPGTEQSLNGASYQTAVSAQGKDLLTTKLWFDAK
+>tr|A0A1S1J408|A0A1S1J408_9FLAO
+MIYVFKTSVDTPSKLEFASALLDELIPNAIWNFDLEDCDNILRIDSEAEINEKILKNAIF
+DCVELE
+>tr|A0A1S1J4A9|A0A1S1J4A9_9FLAO
+MCQLNIFEEFEIDQRNEKLSIAADEILAALNDGMKVKYEPHYYFQEGGLIVLMAVNKFKD
+VVFNILDLDGKVPAGLTPCWRNVQYIKQDITKIKNL
+>tr|A0A1S1J523|A0A1S1J523_9FLAO
+MKNIKLIFTSMLFLLIAFSCDDDGGTSKIGAVEGATPNLIKIATADQGINIIALQGGGDV
+NLGLTLTVATGDVTSMDVVGYFTKSGVVSKATLQANVTTFPATLKYTKADLIKAFPTFAS
+FGLTDKLVITADLKLKDGSVLKMFTDNGQPLYGADVANSTLWKVQQTYTALCPLNDASLF
+NGNYKVTADTWQDYSIGDIVPVVYNAANGKYVFRILNTANPYLINGSTSYIIGTINPATN
+AVTVTSNEQWNYGPGQVYTVTGTGNVSSCTGDINLKISFSGSSDYTFNLVKAP
+>tr|A0A1S1J8K5|A0A1S1J8K5_9FLAO
+MTDTNGISIPGASISIKEEKRGTTTDFDGKFSIDVQEGKTLTISFLGLEPQNILIGNSNN
+LNIKLKEAAATALSGVVVTALGIKRERKELGYSFQDVKGKDLADNPTLSVAQSLYGKVAG
+VNISQTTGGFGGSSRIVIRGNRSISGDNQPLFVVDGVTLGNTGLAAITDSKSGRYSEGAD
+NGDGLSSLNMDDIENISVLKGGAASALYGERGANGVIVITTKKGKRSSLKAEYNGTTTFD
+QINTTYKDFQREYGTGSNGVLPNPNDIANGKNATTSAWGPKFGSAGNTTTRIFDGSYKPY
+ENVKDNIKDFFRTGVSVNNSFSLSGGGDNTSFRLNYSNLDATDIVPKSGLKRNTFTLGVN
+SQIQKLTLDAKFSYITENTDNRPSLSDDAGNLGLSVAAIAPNIDQAWLKNYEDPNGVYYP
+WNADANRLNPYFVINENKNETKKNRILGNFSATYTLTSWLSATARAGIDRFTFESSDFVN
+AGSTWLSRQNGSLINSNTTFQEYNTEALLNAQKSFGDFNVTFGVGANQRNSQRIVSGVAL
+TDMITNGINKQANFQSSILNPKTNDEILVRSVYSYLRTNYKNYLFLDFTGRNDWNSTLAS
+AVSSSNNNNYSYFYPSVSSSFIFTDGFDIKSDVLTFGKIRASWAGTAKALEAPYSTALNY
+NIQTKPLLGNPIGSVANSIIPNNTLKPEFTTSYEAGIDLGFFKNRLQLDLSYYYTKTKNQ
+LIVLNTSQTSGFVGANANAGTVENKGFEALITAGIFRNPDGFNWDITLNFAKNENKLLEL
+TDKTDLQVISNARWAGAQIVAKVGESSTEIYGRKFQRSPDGQIIIGANGLPLLTDGYESL
+GKTAPDWIGGVTNEFSYKGISLRANFDMKFGGKVYSMTNAYAAYNGLSDETIEGRDGYNA
+WVAAQLAAGKTLNEIGQLTPTAGLIVEGVTEIKDGSGNVTGYQNNTRYVNPQTYWRSLYG
+DNTTPEPFVYDASYVKLREASIGYDFPKKWLKGTGLDRFKFSVIGRNLWNIYSKVPNIDP
+ESTYTNGNGQGFEYGSLPYRRSYGFNLQLSF
+>tr|A0A1S1JAV3|A0A1S1JAV3_9FLAO
+MTKKLLLFTFFLGNLFVHGQTDYGILVISTLSPSRGWDGSHAGSLSLTLGNKSIFKSSST
+SDEVEIEYDFFYVTDNPSKIDYRSATAGNKNGTDCQIKDSTPFNIATFSRDAFGGCIGDF
+EVLSMNIPIPVYPETNQKCVEDIITLKNGWNWQYQFDGAGWAPFPSQFQEKASISFQLKD
+LPNYKSTGDVRFRAGYQQQFAKIVTYNIIPCSPRLGNTSDPNYTTCSYSNGGVTFTFSRP
+LEPGEKYLFNRNPVGSTFITDATSNDPDVEKISALSYKWKNIPVGVYEFKYQTQFGSNTP
+STLSPVTKFEIKQSTPLTFTATAVQPVCSTDEKGIRITASGGSKSYYYLLDGEPLAQKHA
+FTSPHTIKITTDGAHKVIVVDSSDCIEQ
+>tr|A0A1S1JA71|A0A1S1JA71_9FLAO
+MTKADIVAKISEKLGLEKGDVQATVETFMEEVKTSLETGDNVYLRGFGSFIVKTRAEKTG
+RNISKNTTIKIPAHNIPAFKPAKVFVEGVKTNNEAK
+>tr|A0A1S1J1W6|A0A1S1J1W6_9FLAO
+MEIGIDSFASAMYGDHNTLSSVDAMEQLLQRIELADQAGLDVFGIGEHHKKEFLDSATAV
+ILSAAAARTKRIRLSSAVSVLSAADPVRVYQSFATLDLISKGRAEIVVGRGSSIEAYPLF
+GFNLNDYDELFKEKLDLLLQIRDNEFVTWSGKFRPSINNLPVYPRALQEKLPVWLGVGGT
+PESFIRAGSLGLPLMVAVIGGQTHRFRPLVDLYREAGKAAGYQPEELKVGLHSPGFVANT
+TEKAIEEYYPGYAEVWTKLGLERGWPPVTKAKFDGLIDDQGVLVVGGPERIADKILRHSE
+SLGGISRFTFQMDNAGLTHTQLMTAIELIGAKVIPLIQKG
+>tr|A0A1S1J3D6|A0A1S1J3D6_9FLAO
+MKASIITIGDEILIGQIVDTNSGFIAKSLDRIGVEVHEMISISDDKKHILDTFAQLQNKV
+DLVIVTGGLGPTKDDVTRKTFCEYFEDELVMDAKVLAHVTELIEGFYKRPISQLNKDQAL
+VPSKCTVLHNKVGTAPGMWMKKEDTVFVSLPGVPYEMKYLVEEEIIPKIIREYKRPYIIH
+KTILTYGQGESLVAERIEDWENNLPEFIKLAYLPNPGRVRLRLSARGTNKEELEAAIEEN
+VKSLDAIIHDIIVGYEENETIETVIGKILTKQNRTISTAESFTGGKIASILSAIPGASAY
+FKGSVVSYATEAKVNVLGVSQDLVDQFSVVSAEVASAMALNVKEMLKTDYAIATTGNAGP
+TKGDSEAEIGAVFIALATPEGIIVEEFNFGQPREKVIDRAVNKSLEILKKEILKIVQ
+>tr|A0A1S1J4M9|A0A1S1J4M9_9FLAO
+MVWIFFLIAVALILALDLGVFNKTPHIISTKEASKWTLIWVTLSFLFSGVIYWLYTTDYI
+ANPDNLKPAVASMKFITGYLIELSLSVDNIFVIAIIFASFKIPQKYQHRVLFWGILGAVV
+FRGLMIFFGVMLINKFAWTTYLFGAFLLFTAIKMLFTGEDEDFQPKDSFIYKTLGKIIPI
+TSHMEGEKFFIPTKTAKKAATPLFVALIVIEFMDVLFAVDSVPAILAITSDPFLVFSSNI
+FAILGLRSMYFFLANMLAKFSYLEYSLIAILSFVGLKMLLHDFIHVPEWASLAFIALSLL
+AGILVSLKFGAEKELTDTDKE
+>tr|A0A1S1J6C3|A0A1S1J6C3_9FLAO
+MKKILYALGIMLLTVSCDDSSLTDLNVDVKNPSVVPPSTLFTNAEKNLTEQLVNTNVNRN
+IFRLVNQQWTETTYLDESNYNWVTRKISDNHWDRLYAGPLADLSQAKGFLEKDVISPTDP
+EFAQKTIVKKNQLILIDILTVYTYQILVDTFGDVPYSEALKGSGDYLPKYDKAVDIYKDL
+IVRLNKDIAGLDTSKPAFGSAEVIYKDNLTAWIKFANSIKLKLGINLKSSGLESAIADAA
+IISGAAGGFTSNADNAKLPYMLDLPNTNPLYVDMVFSGRNDFVVAKPFVDKLVALNDPRK
+TPYFRPTYKDTNAAGDLITVTGYRGGIVGIKNSQSRYTHASDKIKAPDFSGTLLDYAEVE
+FLLAEASGRGVAVGGTIASHYNAAILASMEDWGVSLADANTYLAQPAVAYATATGTWQQK
+VGEQAWYALFNRGFEGWTSTRRLDFPVLTAPASADAAAEGKVPSRMAYPIREQTLNATNY
+NAASTSIGGDKLSTKIFWDK
+>tr|A0A1S1J7J5|A0A1S1J7J5_9FLAO
+MENGIYAKFNTSKGSILVKLTHDLTPGTVGNFVALAEGNMENKVKPQGQKFYDGLTFHRV
+IPDFMIQGGCPKGTGTGDPGYKFDDEFHPSLKHDRPGVLAMANSGPASNGSQFYITHVPT
+SWLDGKHTVFGHVIEGQDVVDAVAQGDNLDAVEIIRVGEEAQKWNAIEAFISLKGARLKR
+DAALKAESEAKMEQLAAGFDKTDSGLRYKMIQKGEGKKAEAGKTVAVHYEGSLENGKVFD
+SSYPRKKPIEFRLGQGQVIEGWDEGIALLQVGDKARFVIPSDLAYGASGAGGVIPPHATL
+IFDVELMDVK
+>tr|A0A1S1J8S0|A0A1S1J8S0_9FLAO
+MKLPVIKQLTQFIEENDQDYIIETIEVLEAMTEIPSLKDEELDVIGELISNMYGALEVHK
+MVVQGTDKKEALNAFMKRVLGSIDK
+>tr|A0A1S1JAQ3|A0A1S1JAQ3_9FLAO
+MKLKASITSNSMKLIDVFNKITSGALITGPDFQRKLVWKKQHKYAFIKTILLNFPFPEVY
+IASSEVDVVTLQAKEIVVDGQQRLTTIVDYIKGSGDFANQNQVTPFDELSIDDKKDFLNY
+SVTVKDLKDIGIDNIKEVFKRINSTDYSLNSNEILNAQFGDGEFSIFCKQIVYKDFEPSE
+EITDVILDSNTKTKLNSFFEDKKIFSDNDVRRMFDIQYIMLLTSTILEGKYFGRSTRINH
+YLEKYNGSFDVHQSILDKVIKSINLIDSLKLSSSSYWFNKANLFTLIIEFSKVDENLIDL
+DILESKLLELEKKVDVYFTDEDISMISDEERKYFEFARQGSHELAAREHRAKVIRDLITE
+STAKAEGEAKAEIEIEIEIENKNLEMLVNHNIDFSILIPTETGLKKSIMDAVSGVREFLK
+TNDLHNYETQESGPDHKKKLEGYFITDTDKIKTEISLYRSNGRGDFRIWFSDLKSFVSEK
+EELALLNIEKTIYILNVSRYNYEDNPNLITKA
+>tr|A0A1S1J5P0|A0A1S1J5P0_9FLAO
+MKSTFDQIKDIKNHGYTLDFSTVFNHAFENYKKIAVYAGLMLLVFSVFFGAIVYLILVAF
+FGIDKLTNANFLNIQPQNLSQIYLVLYIIGTAFVSAIMSPFTAGFLKMADCAEKDQEFNV
+STIFSYYKSRHFAQIFAATFLISLFSVIVTTFLEVLKLNAVGLVFSLTLSFFTFLTIPLI
+VFGNLKAIDAIKSSLILISKQPLILLGLIITIVGAILVGLCAFCIGVLFTIPFSYSMTYA
+IYCAIIKTDKEDPIDSIGQSDF
+>tr|A0A1S1JDK0|A0A1S1JDK0_9FLAO
+MDTNLALLLVLSPFLGFLINVFFGKSLGKTVSGIIGTAAVVVSFAVTLFFFNQVSQTKQA
+LQVTLFDWIQISNLKINLGFLLDQLSLLWLLFVTGIGSLIHLYSISYMHDDENMHKFFAY
+LNLFVFFMITLVMGSNLLVLFIGWEGVGLCSYLLIGFWHKNQDYNDAAKKAFIMNRIGDL
+GLLIGMFILGSMFSTLDYATLKTAIAGASNLNIPLLSLAALCLFIGACGKSAQIPLYTWL
+PDAMAGPTPVSALIHAATMVTAGIFMITRLNFVFDLAPDVQSVIAVIGAVTSLVAATIGL
+VQTDIKKVLAYSTVSQLGLMFLALGFGAYEVAVFHVITHAFFKACLFLGSGSVIHGLHGE
+QDMRKMGGLRKAMPITFWTMLISSLAISGVPFFSGFFSKDEILLTAFHHSIPLYVVGSVA
+SIMTAFYMFRLMFLTFFKDFRGTEEQKHHLHESDGLITFPLVILAILATFGGLISLPGNS
+WLNGYLAPLFTKVAGEEHHLGTTEYTLMGVAVLGGLLGILIAYVKYFKQDNVPEADENIS
+GLTKVLYNKYYVDEAYDAIFVRSINGLSRFFRDYIETGLSALVFGLGKVANELAFQGKKL
+QNGSIGLYLFAFVLGLCAIVSYIFLAK
+>tr|A0A1S1IYH2|A0A1S1IYH2_9FLAO
+MLSHKAKYALKALLYLAEQEENHISRTIEIADGANIPKKFLEQILLDLKRGRLVSSKQGK
+FGGYYLIRSKNDITLAEIHRLFDGAIALLPCASLNFYEPCSDCKTEEECSLRHGLMIIRD
+ETLKAMQGITIASLIKK
+>tr|A0A1S1J1Q8|A0A1S1J1Q8_9FLAO
+MKLKFKIKSGALQFTVFVAVLIALLLTGLILYAYTFIYMKEQSKGAIENIQFVDMGIYSL
+LEQKELNTDTIRIDFIKKENQIVKVHLSQWGIFQKGISEARFRKKKFVKSAIIGSLLRAN
+ESPTLYLQETHNALTVVGTTSIRGVAFLPIQGVNSGYIAGNSYYGRQLIYGTIKKSSTEL
+PKLGKIQTDAIQYYLKEYKINDPGDYINLFSVSRIVNSFKAKTKGYYAVQPIILENKRIS
+GNIIIKSETAIKIRKSALLNDIILIAPVIEIEDGTIGSFQAIASKKIVLGKKCNLGFPSA
+LVLFQDNKNDSDQNLSVSSDNQILIDSGSTVKGCIAYFQTKEKPDFQTQIVLEKDARVKG
+QVYCNGNFELRGTVSGCVYTKQFVANQAGSIFMNHVYNATIENETISVVYGGIPLEQEPK
+SVLKWMY
+>tr|A0A1S1J594|A0A1S1J594_9FLAO
+MHKNQQLLFSILFLFFFGWKSDAQEKTLYPKNEFRGVWIATVVNIDWPKTAKDSVEKEKA
+DYLEILEAYKKLNYNAVIVQIRSVGDALYPTELAPWSRFLTGKEGQAPNPYYDTLAWMIE
+EAHKRGFEFHAWLNPYRATFDLNKQQLSPDHDIFKHPEWMIEYAGKIYYDPALPEVQEHL
+TKVVKEVVDKYDIDAIHFDDYFYPYTVPGKTFNDTASYKKYGAGLSLGDWRRANVSNFVH
+TISTMIKTSKPWVQFGISPFGVWRNKSQDPKGSETQSTSNYDDLYADPVLWMDQKWIDYI
+LPQLYWSMNNPRASYSKLVKWWSENSNNTALYIGHASYKIRGDNDKSWNFASEIPNQIDY
+ARSFKKVSGSAYFSSKWFMNKNFDIVRLLEENQYKYPALPAAVPNLKHIIIDTPVFSEYS
+KDSSKYTFTIKSPLNTKVRYIVIYGGDHVSKVDINDATKIIDKITVYETNGVISFSIPAE
+KINQYKACAVTFIDYYANESTPAAIDLKKPFKPYTPAQPNENR
+>tr|A0A1S1J6R2|A0A1S1J6R2_9FLAO
+MKTVSSIVENYIKTKPFLLNALSLGIINLTSLSRNIMTELESEFGKEVKQGAVVMSLKRL
+TEELDFKLNHKINKVIKNIGEITVRSELTDYTFAASETVLNKQADLISDINALSDIFYTS
+SRGVNETNIVVSSSVNHLVEKHFMREKLIQKLDNLASITVKLPKENIVVPGIYYFIFQRL
+AWEGIIINEVISTSNEFTILVGEDQVDVAFKVIKDLKN
+>tr|A0A1S1J8K0|A0A1S1J8K0_9FLAO
+MQEAKVMNDDRTKKLLLGLALDAIGMLTYSIPGFAEPADLIWAPIAAFIMTKMYQGRVGK
+VASVLTFIEEILPGTDIIPSFTITWIYTYFFSKRE
+>tr|A0A1S1J948|A0A1S1J948_9FLAO
+MKEISITSSFNIYNNLEELPKDIQELMSQAVEVRKKAYAPYSQFRVGAALLLDNGKIVVG
+SNQENAAYPSGLCAERVAIYHAGSVYPEAKILKMAITAASDTNQTTAPIPPCGSCRQSIA
+EYEIRQDTPIEIFFMGEIGEVYKSASLKNLLPFMFDKKFL
+>tr|A0A1S1JB30|A0A1S1JB30_9FLAO
+MSTAPKPRHIGRNISRIRELRDMKQEALAQAIGTTQQSISIIEGSESVDDEKLKKIAEAL
+GVPAEVIKNFTEEAVFNIIGNTYHNDASSIKNNNCTFNPLDKLIESYEENKKLYERLVEA
+EREKVVLLEKLLK
+>tr|A0A1S1JC96|A0A1S1JC96_9FLAO
+MRETSNKYLIVALLFGLTFHGSAIFFTLESTYDALIHIFFGNHYAHSWFEPWNYSWYTGF
+NVMSYPPLVHQVIGLLSLIGGLKFGMFTVAIVGIILFITGAFRFSLLISGNRAVAGYSAI
+LAVVSSSFIETLHIFGQLPSIIGISVLMHALPEIYLFIKTGKKKYYFTSLSLMAVTVCSH
+HVTPLFGMVFFVLPLIGMIVMDTARGNVNSFKQITFKIFCKTFLSLLKRIILFCGSAVFL
+LVFCILPYWINSKANPITQVPIPHGSRDNFIEVTSSGLMFFLIPWGILLFILPYIFYRYY
+SKRYIFFGLSLTLLTVLGTGGTTPIPLAILGKNAFNILTLDRFTLWASIMSLPFFGEFVY
+RLVEGDLRTALQVKFGSVYRRIIGGLFAGCFLFFAVFTMTLGYFRPFQPQKINFLPIVNF
+LNQDQHDHWRFLPLGFGDQMAYLSTQTKAMTVDGNYHSARRLPELTSRAVERLENSKFRG
+LEGIGSLQQFLTVPEKYNLKYVFSNDKFYDPILYFCGWHRLSQLENGIMVWEKLNVHPLS
+KILPKDDVPIYLKLMWGVIPMLTILVAFMLNVQMIWLQALKIKPLEKPSFNKFGIIYANF
+PTPMVKFLHVWTVILLLIISFGVYRIYIKNATQISPENVVKAYYDALDFKFYDKAHSYVV
+PNKEYSVAQFMLEISVSDGVLNSYAKLDAIETKIIQQNKDKARVSAVTKWVTPLELIEKK
+YIHDVQKIKGKWFIIRDKKDSDIPPDEFISDNVNSYYKQGRREITTQQTYHEDVLRQPDL
+EIVSASLVKINNQYIVIGEVQNIDNVPADVVLKATLYDKDYKSIAVFNAKYTIKHKLMPK
+EVTSFKVNFEDIAWLKPTDVKPTTFNPDEFTPKELKNIPTTFDIQSAGNVATTDLYNSVA
+ISDLLIDDNQIKGTLFNYGIQEVTIPELLISYYNDRKELVYVDHQFIKEGVRIQRKQYFA
+YKLPKDLKPCIIKSSTENCFVNGLKSKDLGRVIIPVRNSRQESAQMQKVKGHRGYSFIKI
+EINNYIGNPR
+>tr|A0A1S1JE74|A0A1S1JE74_9FLAO
+MKNYIPFYLLILSFFSFHTYSQKNKIATADKQYANYAYINAIETYERVASKGYKSADMFK
+KLGNSFYFNAEFDKAAKWYDELFTMTNDVEPEYYYRYAQSLKSTGRTEKANQMLDLFFQY
+SKNDTRGKLYKKNENYLDLIKANSGRYTIEDSGINSKFSDYGTTFFQNKIVFTTARDTGG
+LGQQRHKWTGESFTNLYEAVLDENFNPSVPKKIKSKINSKFHESTPTFTKDGTTVYFTRN
+NYMDGKKGKNEQKTTFIKIYKATLNQKKEWDNITELPFNSNNYSTAHPTLSPDEKTLYFA
+SDMPGTIGQSDIYKVKILSTGGYSSPQNLGPGINTEGKETFPFVTDENEIYFASDGHPGL
+GGLDIFVGKINDAGVSNIQNLGADVNSPNDDFAYIIDIKSRRGFFSSNRKGGQGSDDIYK
+FLETKKINTDYQLYGVVTDLDTNEILPNAKITLYDQDMKVKDSTLTDEKGNYSFILDPET
+PYYIRAEKENYTTWEQKILVSKDRPKAYLPIPLEKSRYQVTVGDNLGKVFGIKTIYFDLD
+KFNIGKEAALDLEKILDVLNLYPKMKLDIRSHTDSRQTQKYNQLLSDRRAKSTIDWLIKH
+GVDKNRLTGKGYGETQLVNHCSDNENCTEEEHQMNRRSEFIISGL
+>tr|A0A1S1J048|A0A1S1J048_9FLAO
+MRKKEILKVLFFSITIAATVKHIAIFAIGGYMETTKNSFHNDLINLDIYQEKATDIFYLE
+LMNLIILPYVAAVLFYFFTRINLIQKNNFLLFIFLFTILFFLFYFFYKLFI
+>tr|A0A1S1J305|A0A1S1J305_9FLAO
+MEKIFNFEDRLVRFAGECIFFTRQLEKLFENEYYKNQLIRSSGSASLNFGEAQGSITDKD
+FIFKLSLVAKELKESRNSLKILDYIKEGDNNKRDKLLIEVEQLIAISSKMIINKR
+>tr|A0A1S1J6J8|A0A1S1J6J8_9FLAO
+MINLFNTHIDTLAIHRVGNKSRNEAIFLSEQPFNLNDEIVPLIKEYFFKPFREKEENYYQ
+FAHEVDLDYNDMFKYATEIFSNPGNLHEVSKKITTHLFEQSNHPHIKNGEVYITYLTNLS
+IDNNVVDAIGIFKSELQADFLQFEEKESNLEMILQQGINLSKLDKGCLIFNYKKEEGYKI
+LTVDSNRYDARYWLEHFLSVDAFEDENFITKKYLKFCQNFAKDVVLPAEDKKEEVMFMNR
+SVNYFAKNDQFEEQNFLNEVLDNPELIPEFKNYKVDKGEKYSIEDVTSFPIANAAVSDAR
+KSIKNVINLDTHIQIKMDFINPESAEKFVEKGWDEEKQMYYYLVYFNKEEKS
+>tr|A0A1S1J8F4|A0A1S1J8F4_9FLAO
+MLSKEIQLEVNKGAMLPLMEEFYTIQGEGFHTGTAAYFIRIGGCDVGCHWCDVKESWNAE
+LHPPTSIDLIVNNASSQADTVVITGGEPLTWDMSLLTQQLKDKNMKVHIETSGAYPLSGT
+WDWICLSPKKNKLPTQTVYDNAHELKVIIYNKHDFIFAEEQAELVNDNAILFLQPEWSKK
+EEMTPLIVDYVMNNPKWRVSLQTHKYLNIP
+>tr|A0A1S1IYN8|A0A1S1IYN8_9FLAO
+MKLSDIKKTLPTLENVAFQLENGTFVPEHFHVTEIGMITKNFIDCGGVIRQEKSVNFQLW
+NADDYEHRLKPGKLLHIIKLSEEKLNIEDLNIEVEYQNETIGRYDLEFNGNHFVLKNKVT
+ACLAQDACGIPSPSGFIELNKDKTNSCSPNSGCC
+>tr|A0A1S1J4D1|A0A1S1J4D1_9FLAO
+MATKNKAITREDIVSKYMDEVLEKGQKPKSVYHFAKENGFTEAEFYAFFGTLEGLEKEIF
+RLFFANTVDLLHKNADYHEYDMKNKMLSFYYTFFEILTANRSYVLQSLKIDRNPLKNLVQ
+LTSLREAFKEYVSEILTDDYRLEQEKFQKFQEKALQESAWLQLMMTIKFWMEDSSAAFEK
+TDIFIEKSVNASFELMNVAPMNHLIDFGKFLFKEKIYSK
+>tr|A0A1S1J577|A0A1S1J577_9FLAO
+MNDCRIWKYDFFDIIFVEEYRDTEFRKTIEFKNKTIYKMDFIFNTYNVKPINASSALEGV
+YMLVHHYRQYDNYRICYEAPLIGCFFYGLKFKNAKVV
+>tr|A0A1S1JC30|A0A1S1JC30_9FLAO
+MKTRKFLAAAILALGFGSTSFAQKTVMVGGAAMYPNKNIIENAVNSKDHTTLVAAVKAAG
+LVETLQSKGPFTVFAPTNEAFNKLPAGTVETLLKPENIKSLQTILTYHVVAGKMNSSDIA
+KAIKAGKGKAALKTVSGGTLTAWMDGKDLYISDESGNKAKVTTSDVNQSNGVIHVVDTVL
+LPKM
+>tr|A0A1S1J2P7|A0A1S1J2P7_9FLAO
+MNKELENILDHKWWQEIAVVAFSFTIYTLKNDWMLFSSFTSILMGIFFYLILYLHAQFNR
+FFLLPILFKKQRPVTYIFLTLAGVLLFSVVLYEVTSLEMFSNCRLYQNSHQRSYVYQLAS
+VLGTLVCILSPIIVFKFYRIHKRQTDETLLFNQMQLNSLKGQLNPHFLFNTFNTLYGISL
+EFPDRTSDLIMKVSQLMRYQLESNNKQCVSLEDELEFINSYVQLEKERVGYRCEITYDCK
+IDNENAYKVSPMLLIAFIENAFKHGTCAIEKCFVRIIITVENGLLHLHVVNSIPKKKTDV
+ISTKIGLKNTIERLNLIYGKAYKLDIQDDKNTYIVDLKLQLKKFVE
+>tr|A0A1S1J3K2|A0A1S1J3K2_9FLAO
+MKISYNWLKQFIKTDWPSDQTSELLTDLGLEVEVVEKYQSIKGGLQGVVVGHVLTCEKHP
+DADRLKVTTVNIGLEAPIQIVCGAANVAAGQKVPVATIGTVLYDKEGAEFTIKKGKIRGI
+ESHGMICAEDELGLGTSHDGIMVLAEGLVPGTPAAEVFKVVNDEVFEIGLTPNRADAMSH
+LGTARDLRAGMLQRGVNIELITPSVSNFRVDMRTLKIDVTVEEPLLAPRYCGVTISGITV
+KESPAWLQDRLKAIGLTPKNNIVDVTNYVLHELGQPLHAFDAAKINGKVIVKTLPEGTKF
+VTLDDVERTLHKEDLMICDEKGPLCIAGVFGGKKSGVSEGTTTIFLESAYFDAVSVRKTA
+KRHGLNTDASFRFERGIDPTITEYALKRAALLIQEVAGGKITSDVIEVYPKKVEDFSVLL
+NFSHVSKIIGQEIPKDTIKKILVSLDIKVNSVSDSGLGLTIPAYRVDVQREIDVIEEILR
+VYGYNNINFSKKFNATVANSPRTEDYKVQNVIASQLNSQGFHEMMANSLTTAAYAKLSTA
+LKEEHNVTMLNPLSSDLSTMRQSLLFSGLEAISYNINRKNSDLKLFEFGKTYHKYLNGYE
+EHKHLTLLISGNRNKESWTNPQKATDFFLLKGYVRGVLSRLGIDKITNAPVQSDVFAEGT
+AICYNSETLVEIGVVKKSILKHFGIKQDVYFADFNWDLILKIITGKIKYTEIPKYPEVRR
+DLALLIDKSTTYESIFNLARQTEKSLLKDINLFDVYEGNKLPEGKKSYALSFTIQDNTKT
+LTDAQIDKIMSKLQQTFETELGATLR
+>tr|A0A1S1J5V2|A0A1S1J5V2_9FLAO
+MKVKENLYNQRIISIDALRGITIFVMIFVNELASVVNVPQWMKHMPADADAMTFVDLVFP
+AFLFIVGMSVPFAFNARLIKGDSARTIWTHTLKRALALIIMGVFMVNASDGYDAEQMMIT
+PALWGFLAYAMPIPIWNKYGKDFPVGLKSILQYGGIAVLITLYFLYVQTDGTIGMTPQWW
+GILGLIGWAYLISVIYYWLVSGKLWAMIVFLIVCVSLNSANLTQSLHLPEWLRFIAGHLT
+HATLVTAGIIISLLFFDRKIEKKINWPVIGFIALFFSFGFFLRQYYGISKIQGTPAWTLL
+SAGICTVLFYFLYWLMELKKQTQWSNFFMPAAANPLLIYILPGAIYYFCKALNIHIIPGY
+FREGVPGIIWSLVFSTIMLYVMKICNKYKIQLHL
+>tr|A0A1S1J7D8|A0A1S1J7D8_9FLAO
+MNLSQEDWVNQLAADENAVILDVRTEDEFNDGYIENAVNIDINKGQGFIYEIEELDKNKN
+YYVYCRSGARSAKACQIMNELGISNAYNLLGGILDWEGETVNP
+>tr|A0A1S1J9M1|A0A1S1J9M1_9FLAO
+MLKKNTEIINELINNPNWSEVVKLYSGLFENEYKREEFVIDLAQQDVLLAAQCKTTSIEE
+EINITNAIKKDAINNFKKDPRNTVFALLEIEAADELFLSKYNAFRNPFGKRDRKSFDELL
+INSTAEQYISYLCYVSKLKHITFLIWSISFAKKFTLNTQQIENLKLPYELLFKRKFYTFA
+YELFLIINNNSEEKANEAFVYELLKERRKDSFRFALKIISKHKLKCYNKEFIYESLSLKN
+KQLKKINPENALIILQ
+>tr|A0A1S1JCB5|A0A1S1JCB5_9FLAO
+MSQSITAFMDSVSQKNPNESEFLQAVLEVAETVIPFIEENKKYQNKMLLERMVEPERVIL
+FRVNWLNDKGEIQVNKGYRIQMNSAIGPYKGGLRFHPSVNLSILKFLAFEQTFKNSLTTL
+PMGGGKGGSDFDPKGKSDNEIMKFCQSFMTELSKHIGADTDVPAGDIGVGGREVGYMFGQ
+YKRLRNEFTGVLTGKGISFGGSLIRPEATGYGAVYFAQSMLATKGDDFEGKIVAVSGSGN
+VAQYATEKATQLGAKVVTLSDSAGYIYDADGIDAEKLAFVMELKNELRGRISEYVAKYPN
+AKYVEGKRPWEVKCDVALPCATQNELNGDEAKVLVANGCIAVAEGANMPSTPEAVTVFLD
+AKILFAPGKASNAGGVATSGLEMSQNSLRLSWSSEEVDERLKGIMLAIHASCVKYGSDKS
+GYVDYVKGANIAGFVKVADAMLAQGVV
+>tr|A0A1S1JE88|A0A1S1JE88_9FLAO
+MKRFLPWIIGAVVLIGIYSWVKGINNTAVTLNQTVEQSWGDVQTAYQRRNDLIGNLVNTV
+KGAADFEKSTLTAVIEARAKATSVTVDPTNITPEQLAEFNKAQSGVSSSLSRLLVSVEQY
+PTLKANENFLKLQDELASTENQILTARTRFNEAVKPYNNHIKTFPNSLFAGMFGFKEKAY
+FNAVEGADKPVEVKF
+>tr|A0A1S1J1W7|A0A1S1J1W7_9FLAO
+MKKIIVTAFTALVLFSCQNDQSESADSKVEAIAHRGCASQEVLEAQLKADPTLAIRMNEI
+NAFTENAILTKRLVNGKIEIPVVVNVLYRTAAENISNAQIQTQIDVLNKDFNALNSDYNS
+VPALFSGVKANVGITFVLDQVIRKSTTKTSWGTSDAMKKTAQGGLAPTSPTTKLNMWSCT
+IGGGILGYAQFPGGAAATDGVVVDPKYFGLSGAANAPFNLGRTATHEVGHWMNLRHIWGD
+ATCGSDLVSDTPTHNTANYGVPAYPHYSTCSGTPVEMTMNYMDYVDDNAMYMFSQGQKSR
+MAAIFVTGGPRASFGI
+>tr|A0A1S1J593|A0A1S1J593_9FLAO
+MKEENDNLKFIILLLSISLLWVWSWIFIDKFVAIEQRANFGDKFGFINSLFSGLALAVII
+YSIILQQKELNLQRKELSDTRQEFKDQNFQTTFFNLIKTQQQIVNEISTTIVDLKSYNQY
+SYYEANGRTFFMRSRIEFKRIEKALNSSFVNFSEWTEYDEQVGGPQNEYEEQGLFDSRKL
+SYTLKYYDINKKDWEDAQRLKELELAKFIYGKFFNKFLHVYGHYFRHIYHILLFLDKTEH
+EKMAQFESLDEKQKIKQEFYQYANFVQAQMTTPELFLTFYNSLSFFKLQKLIIKYNLLEN
+LPKEDLIHEKHNIVEGISLKSRVDILN
+>tr|A0A1S1J644|A0A1S1J644_9FLAO
+MKNQSVKNNIDWISVFIYISLVILGWLNIYSSSLLSTEGTYQKQLIFIGCTIPLIFVVLF
+VDGKFYEKYATIIFGVSLLSLAGLFLFGKTIAGQRCWYAIGSFTLQPSEFAKAATSLALA
+KYLSDTQINLKDTNRQLQALAIVFSPVLLILPQPDPGSALIYSIFIIVLYREGLPSWYVW
+TGFITILLFVLTLVLEPYVVILIALGVLTIIHFKGRVVDRNIILSGILLAVMSAFVFSVD
+YVFDNVFKQHHRDRFNILLGKSVDMKGIGYNTNQSEIAIGSGGWIGKGFLEGTQTKGGFV
+PEQHTDYIFTTVGEEWGFAGSLVVILLFAGLFLRVIYLAERQKTKFSRVYGYCVAGILFI
+HFFVNIAMVIGIFPTIGVPLPFFSYGGSGLWGFTILLFIFLKMDANKVNEW
+>tr|A0A1S1J6S5|A0A1S1J6S5_9FLAO
+MQSIRDNFERMAKLSDAEWNTFSSKLIREEFPKKTPILKAGTIENYLSFVEKGLVRYYIP
+GEDHDRTFTFVFDGEFTSGYDSFITRLPVTYTIETLAETVLWRISYEDLQDIYTETKIGN
+TIGRFASEGLFLKKTKRELSLLNESAEQRYLNLFTEQPQLIQRIPQKYLASYIGITPQAL
+SRIRKRIY
+>tr|A0A1S1J7S3|A0A1S1J7S3_9FLAO
+MKKQNIEDLFSSMENFSSVPPPELWSQIEEKLDQPKKKKKKAILWWSAAACLLLGLLLPS
+VLHFTSTSAIKTVKNGSIENNSVVLDEKEDNENSNRTIQSKENNAVVNTPQQESNHTVSN
+SSLKNSTNSSELSIKNHNQKTAVAHSDVTNKANSGNANLNSTLQKKNEDHTATQKVIVSA
+KTNTAHSNPSNAFNSASTNQFLNPKGKSSNQNVAEKVYTISKNNGLGSYSKNYPISADKK
+AANQIVAEQTFSAGKANPFYPNSKNKVSASVFEEQLPAKNNISTALSAVNPLSDKHQKTA
+IENAFPGRELTGNSKNNSKFSTVLSKQDSVQLAELQNLEKGIINPEEKNEKEKKTTISKG
+ERWAVEVFAGLANSENYKNDKTLGNVNDSKQGSTYGVKTKYKINKKWAVGSGFKINELGQ
+SVADVSYISNGPPNAAMTSNDYFNQNATVVAAAPQISTSSGYIFVSKNTTNALKQNNIES
+NSIESGNLDQNLRYIEMPLEVSYSVFSKNRTNININTGGFVGKLISNNMALNGNSIGQNV
+NANDFIYGSTLSSTLQYRVYKKTSVFVEPAMNYYVNPLSSQSFNQFQWGLNFGLNVTF
+>tr|A0A1S1JA29|A0A1S1JA29_9FLAO
+MKKITTFTLLMVSLFATAQQETIDQKVNALLKKMTLEEKIGQLNQYTGDNAATGPITINA
+NKQAEIKAGLIGSMLNVTGTKYTRQYQELAMQSRLKIPLLFGQDVIHGYKTTFPIPLAEA
+ASWDLATIELAARVAATEASASGIHWTFAPMVDIGRDPRWGRVMEGAGEDTWLGSKIAYA
+RVKGFQGNKLGDLNSVMACVKHFAAYGAAVGGRDYNSVDMSERMLLETYLPPFKAALDAG
+AATFMNSFNDLNGIPATANVHLQRDILKGKWNFQGFVVSDWGSIGEMVAHGYSKDLKAAA
+LAAITAGSDMDMESNAYRYHLAELVKEGKVPVDWIDDAVKRILRKKYELGLFDDPYRYSD
+QKRADKALNNPENRKAALEVAKKSIVLLKNDNETLPLSKNLKTIAFIGPMVKEYKENMGF
+WSVELPEVDYNKWIVSQWDGLQNKVGKNTKLLYAKGCEVDGDNKDGFAEAVATAQQADVV
+ILSIGERRDMSGEAKSRSDLHLPGVQEDLVKAIQATGKPVIVLVNAGRPLIFNWTADHVP
+AIVYTWWLGTEAGNAIADVLFGDYNPSGKLPMTFPREVGQIPIYYNHFSTGRPAKDEDAK
+NYVSAYIDLKNSPKFPFGYGLSYTKFNYSDLKLSAVKMKNNETIKVSFQLSNVGKVAGEE
+VVQLYLKDKFGSVVRPVLELRDFQKVKLNAGESKTIEFTIDKEKLSFYNNKLEWTAEPGD
+FEVMIGASSADLKLKADFELL
+>tr|A0A1S1JCM3|A0A1S1JCM3_9FLAO
+MDTLDTTLKRNHEELFNLLKGFITEIIGEEFVEEMDITPQSSFTKDLEMDSIEIVSFSEK
+IKSHFGDQIDFTGWLSAMDLDELINLDLNKIINYIYECQ
+>tr|A0A1S1JFS8|A0A1S1JFS8_9FLAO
+MNKFIRNIIAFSLKNKAFTFFWVGLLAVAGFISFKNMPIDAFPDVTNTQIIIITQWNGKS
+AEEVERFVTSPIEISMNSVQKKTSVRSITMFGLSVIKIIFDDGVDDTFARLQVNNLLKNV
+SLPDDVEPDVQPPYGPTGEIFRYIVKSDSRDSRELLTYQNWVIDKQLRSVPGVADLNVFG
+GQTKTYEVGVDPIKLAKYNITPLQVYNAVNGGNLNVGGDIIEKNGQAFVVRGVGLLKSIQ
+DLENIIVDDAKGNPILVKNLATVYESAMPRVGQTGLAKNDDVVEGIIVMRKGENPQETLA
+LIKAKIQDLNDNVLPKDIKLVTFYDRDNLMNFTTETVMHNLFEGIILVTCVVFLFMADWR
+TTFTVSIVIPLSLLFAFLCLKMMGMSANLLSLGAVDFGIIIDGAVVMVEGLFVVLDHRAH
+QLGMTAYNKIAKGSLIKKTGAEMGKAIFFSKLIIITALLPIFSFQKVEGKMFSPLAYTLG
+FALMGALLFTLTLVPVLSHILLNKNVKEKNNPFVNFWDRIVSKGFAWTFKHKVKALVGSI
+ALLVTVFFSATFLGTEFLPQLNEGALWVTAELPMSTSLPESVKTAAMIRKDLESFPEVKN
+VLSQTGRSNDGTDPNGFGFIQLQVDLKPKSEWTRKITMDELINEMDDKLKVHQGITYNYS
+QPVIDNVAESVAGFKASNAVKIYGDDLDKLDELSNEVLAQIKNIPGIKDAGILRNVGQPE
+ISVVLDRDKMAAYGVTLSDAQAVLELAFGGKTATQKYEDDKKFDVRVRFSKEYRKDENDI
+AELKVPTISGIKIPLKEISDLKTITGPAFIYRDNTKRFIGVKFSVRDRDLGSTIAEAQAK
+VAKLKLPTGYTVGWTGEFENQVRASARLAQVVPISLIGIFVLLFILFGNIKDSLLVLANV
+PFAIIGGIIALHLTRMNFGISAGVGFIALLGICIQNGVILISEFHHNLKAKFSLEESIFM
+GVKARTRAVVMTALMASIGLMPAAISTGIGSESQKPLAIVIIGGLITATILTLLVFPIIF
+WVFNRKKHVPIE
+>tr|A0A1S1JCS0|A0A1S1JCS0_9FLAO
+MEELLAFINSFQPLDQETEKAIKNLFKEESYKKNEVIIKEKQICQKIYFIKSGSVRRFFY
+NDGEEITKWIYTDHQFITSLSSFFEQKPSFELFQACEDTILYSLSHTDEQILLEYPLFSK
+FYIKLLRIYLSKLNEFHHFYKSMNAQDKYFYLLNSFPPIIAKSKLKHIASLIGVSQETLS
+RIRSSIN
+>tr|A0A1S1J448|A0A1S1J448_9FLAO
+MSSIIQLLPDHVANQIAAGEVVQRPASVVKELLENAVDAKATDIKLIIKDAGKSLVQVID
+NGMGMSVTDARLCFARHATSKIRQAEDLFSLHTKGFRGEALASIAAIAHMEMKTKQDQEE
+LGTHIVIEGSKFVSQEEAVLPKGTSFAVKNLFFNIPARRNFLKSDTVEFRHVMDEFQRVA
+MAHPNIHFTFYHNGSELYNLPAAGYRQRIVGIMSGKTNEKLVPVSEDTEIINVQGFVCKP
+EFAKKSRGEQFFFVNDRFIKSGYLHHAVMAAYDGLLKDGSQPSYFLYLKVPPNTIDINIH
+PTKTEIKFDDEQALYAILRASIKHSLGQFNVAPVLDFERDANLDTPYHYKDLEAETPTIQ
+VDGTFNPFTDDKTNQHYAKSGSGSGFSSGSGSGSNSGSGSGSSYSSGANSYSGYSKRVEP
+TASWESLYTGLETESIESSPFTFENEEVTSSLFNDNEIEQASQGTYQIHKKYIVSPIKSG
+MVIVDQQRAHQRILYEQFLLNMTVNQASSQQLLFPLNLFYSSAEMKLIEELKPSLETTGF
+VFDEAQTDHIVISGIPVNITESEVSLVIEQLLSDLQDGIPANSYSQNDTIAKSMAKSLAV
+KTGSYLTEKEQDNLVNGLFACKDPNISPFQKPTFITMRVEDIDKKFAL
+>tr|A0A1S1J870|A0A1S1J870_9FLAO
+MTPEEYLNGQVLLIDKPLKWSSFQAVNKLKYLLINKVGLPKKFKIGHAGTLDPLATGLLL
+ICTGKFTKRISELQGQAKEYTGTFYIGATTPSYDLETEIDQTFPTDHIDETLIHETVKQF
+LGEIDQKPPIFSAIKKDGVRLYEHARAGETVEIASRKTTIHEFEITRIALPEVDFRVVCS
+KGTYIRSLAFDFGKAMNSGSHLTVLRRTKIGDYDVKNAIDITLFEESLQQE
+>tr|A0A1S1J2M6|A0A1S1J2M6_9FLAO
+MKHKAISIRPFIGAKDFEISRSFYQDLGFEEGVLDPKFSVFEAGDLSFYLQDYYDKSWNE
+NTMIFLEVEDVDYYYKQLLALNLTGKYGVKLTPIVHQDWGSECFLHDPSGVLWHFGKFNK
+>tr|A0A1S1J2Y9|A0A1S1J2Y9_9FLAO
+MIFLFLVFNFSPRIHKLKRIELVKIREICGKIKILLIYIICGKKTLRTSRNSLRALRLSF
+ISIISIL
+>tr|A0A1S1J382|A0A1S1J382_9FLAO
+MNIQHIPQIKHTESGNFFLLAGPCAIEGEEMALRIAEKLVGITNNLQIPFVFKGSFKKAN
+RSRIDSFSGIGDEKALKILRKVSETFNVPTVTDIHTNEDAAMAAQYVDVLQIPAFLVRQT
+DLVVAAANTGKTVNLKKGQFMSPESMKHAVQKVLDCNNENVMVTDRGTMFGYQDMIVDYR
+GIPTMQQYATTVLDVTHSLQQPNQTAGVTGGRPDMIETVAKAGIAVGVDGIFIETHFDPA
+NAKSDGANMLHLDYFEGLMTKLVAIRKTVNSF
+>tr|A0A1S1J856|A0A1S1J856_9FLAO
+MGKIIGIDLGTTNSCVSVMEGNEAVVIPNAEGKRTTPSIIAFVEGGEIKVGDPAKRQAVT
+NPTKTIASIKRFMGHTFAETQEEAKRVPYSVVKGDNNTPRVDIDGRLYTAQELSAMTLQK
+MKKTAEDYLGQTVTEAVITVPAYFNDAQRQATKEAGEIAGLKVMRIINEPTAAALAYGLD
+KKGTDQKIAVYDLGGGTFDISVLELGDGVFEVLSTNGDTHLGGDDFDQVIIDWLADEFKS
+EEGIDLRLDPMSLQRLKEAAEKAKIELSSSAETEINLPYVTATASGPKHLVKKLSRAKFE
+QLSDTLVKRSMEPVAKALKDAGLSTSDIDEVILVGGSTRMPRIADEVEKFFGKKASKGVN
+PDEVVAIGAAIQGGVLSGDVKDVLLLDVTPLSLGIETMGGVLTKLIESNTTIPTKKSQVF
+STAADSQPSVEIHVLQGERAMAADNKTIGRFHLDGIPPAPRGVPQIEVTFDIDANGIIKV
+SATDKGTGKSHDIRIEASSGLTAEEIEKMKKDAEANADADKIAKERAEKLNEADSTIFQT
+ESQLKELGDKLTDDQKTAIEYALTELRMAHQSQDLDAIQKGLDNVNAAWKTATEAMYAQG
+GEGQQAAPQQEQSQGDNVEDVEFEEVK
+>tr|A0A1S1J3L7|A0A1S1J3L7_9FLAO
+MVKFGYTILYVEDVEKSISFYENAFGFSRKFVTPEADYGELSTGETTLSFASKELAAQNL
+KDGFIESKPEQKPFAIELGFITDDVEELVQKAISAGATLVKETTQKPWGQVVAYVRDLDG
+FLIEICTPVQ
+>tr|A0A1S1J6H8|A0A1S1J6H8_9FLAO
+MSLRKYLTSRVFFVQVLSAAAIIAVLGYLFMHWLTFTTDHGNEVTVPNLAKLTEEQVESK
+LDELDLDYVLLDSVDYRSEFPKYSVVEQDPLPGTKVKVGRKIYIKINASGFSSVKIPDLI
+EKTYREAVPTLKALGLEAGTITYIPNLGKDMVLEMRYKGRNLKVGDRVLKASKIDLVLGD
+GKATYEDEGQAVDSVAAPTTEKTNDEQ
+>tr|A0A1S1J801|A0A1S1J801_9FLAO
+MKITKVFAILMLLISVTNFAQTGSKKLDKIIKRDYQIIECTIAKMSDKTVEYSLPGETLQ
+ISLDVSQIARIDFASGRSQTFDVSANTASSGNSGQVIAAAEMKPNTIAVLPVPYVNSGTL
+ESSEEMAKFAQNDLYNKLLDKSSNIFPLTVQDLRVTNSLLHKAGIDYKNIDETPIEDLQQ
+ILGVDNVIATKVSYTVTEGSVASTYNSGNAKVSDNNKKLKTNDISTTTSSTQTYYNYMVY
+FDMYKNGTKIYSQTRKPFLNIKDSWMDSVSYLLKRSPIYVKK
+>tr|A0A1S1J8X6|A0A1S1J8X6_9FLAO
+MQKPEIPDNEHLRFEALDAYKILDTLPEDEYDALTKIAAQICGTPIALVTLVDHNRQWFK
+SHHGLNATETPRDFAFCAHAINTPDELFIIPDATKDERFHDNPLTINDPNVVFYAGAPLN
+TKDGYSLGTLCVIDTKPREGLTENQQESLKALANQVISQFELRKKNRFLEDLNDEIIKKN
+VQLDQFAYRLTHDLKVPIRGINSLLIFIKEDYKTLLEDTELEACIDLIYSRNEYMDFLIN
+GILEYTKVSNDQICFEDFNVESTIQYIVNNGALHIPTHINFRNCDTFIRHSKIGFVQIIQ
+NLLSNTTKHTDKEECNVWISLTENETNYSFVYEDDGPGIPEKYWLKVFELFETVNSKYGK
+NAGIGLSTIKAIVDRVVGTIYLKNREDNKKGACFCFVLPKEYNC
+>tr|A0A1S1JCB6|A0A1S1JCB6_9FLAO
+MNERIIELIDIAPKDFWGAQDTHLEIIKKYYPKLKIVARGTTLKAFGEKEVLDEFEKRFQ
+RLMLHFTRYNNIDDNVIERVIMSDGQDEKKAYDHDKILVHGVGGKIIKAMTPNQQLLVDT
+IKKNDMVFAVGPAGTGKTYTGVAMAVKALKDKEVKRIILTRPAVEAGENLGFLPGDMKEK
+LDPYMQPLYDALRDMLPNEKLEDYILKGIIQIAPLAFMRGRTLDNAFVILDEAQNTTHSQ
+MKMFLTRMGKNAKFMITGDPGQVDLPRRTISGLKEALLVLKDIEGIGIIYLDDKDIVRHR
+LVKKVIDAYKQIENHD
+>tr|A0A1S1J104|A0A1S1J104_9FLAO
+MSQKVLLNSKEVTIILHRLACQLIEKHLDFSDTILIGIQPRGVFLAERLKQILESEYKTP
+EISLGYLDITFFRDDFRRTEKPLEANKTQINFIVENKKVIFIDDVLFTGRSIRSALTAIQ
+SFGRPSEIELLVLIDRRFSRNLPIQPDYRGRQVDAINGEKVKVSWKENEGEDVVYLITN
+>tr|A0A1S1J2U6|A0A1S1J2U6_9FLAO
+MKKSKLFIFAIALLAVLMISCHKGRNKLVNSWKITAVEPKLPISDSMKNVILTQGTLTFT
+EDGHVTGYLTQEINNGTYALTKGGKNLVIKDETGTPYPCESIITEDQLTLDSKEMKVTLK
+KI
+>tr|A0A1S1J259|A0A1S1J259_9FLAO
+MKYLITIVGPTAIGKTALSIALAQHFNCEIISCDSRQFFKEMTIGTAVPTPEELQSATHH
+FIQNKSIFENYTVGDYEKEALLKLEELFSTNDFAILIGGSGLYVDAILKGFDEFPEIDPE
+VRSDINANYEKLGINYLQEQLQKLDPDYYQKLTVENPQTLQNPQRMMRFTEVCIGTQKPY
+SSFLNQKKNNRNFIPILIGLEADRAVIYNRINQRVDLMMNGGLLEEAKALHPNKTLNALQ
+TVGYRELFSYFDGEFSLPFAIEEIKKNTRRFSKRQLTWFKRNEATKWFDYATDRKEIIDY
+IENSFK
+>tr|A0A1S1J8Z8|A0A1S1J8Z8_9FLAO
+MISEKLKKGHLLIAEPSIIGDLSFNRSVILLADHNKEGSIGFIINKPLKYTINDLIPEIE
+ASFKIYNGGPVEQDNLYFIHNIPELIPNSVEISNGIYWGGDFESTKDLINNGSISKNNIR
+FFLGYTGWDENQLENEMQGNSWIIADNSYKNKIIGKSTTHFWKEQIIELGGDYLIWSNAP
+ENPYLN
+>tr|A0A1S1JAF0|A0A1S1JAF0_9FLAO
+MQFSQILGQDYIKSHLIKSAASGRIPHAQLFIGPEGSGTLSTAIAYAQYILCNNTGDENS
+NGNDSCNLKFQNLSHPDLHFIYPTVTTEDVKTKPKSLDFIQDWRSFIQEMPYGGLFDWYK
+VLGVQNKQGEIRVEDAQEVLKSFSLKSYEGGYKIMIIWMADKMNIAASNKLLKLLEEPSD
+KTIFILISENEEDIIQTIRSRCQVIHFNGLPEKVIAEALVSKENIDEKLAFKIAHQAQGN
+FSKALHLLKEDDSELPFEQWFVNWVRAAFRAKGNAAAIQDLISWSEEIAGLGRESQKKFI
+QFCMEMFRQALLLNYQAPTLVYIEPKVDKFKLENFAPFVNGNNIHEIFKELSDAMYHIER
+NGNAKIILTDLSIKLTRLIHKK
+>tr|A0A1S1JC23|A0A1S1JC23_9FLAO
+MKIIQAYKKKNKNWEYLKKEGELKNPLVLVFGNRMQLERLEVIEAIRKEFPYEHLVFGST
+AGEIIDANVFDDSIVVTAIEFEKSSFEIRTDNIFNYKKNANTLGDSLYQQIPKKNLKHLF
+VLSEGSFVNGSSLIEGFENCIQNKVSISGGMCGDDAKFEKTLASYKENPKEGEVVLIGFY
+GETLEISFSSFGGWSSFGPERIITRSEANVLYEIDGQPALDLYKKYLGDKANQLPQASLL
+YPLNVTPEGKLQAVVRTILNINNDDQSMILAGDAPENAKVQLMMASVDAIAEGASQAAIL
+AMKNRKNHPQLALLVSCVGRKLVMNQRVEEEIEHVQEIIGNKVAITGFYSYGEMAPFSDN
+TFCELHNQTMTLTLISE
+>tr|A0A1S1J3K6|A0A1S1J3K6_9FLAO
+MASKPSIPQGTRDFSPAEVSKRQYIIQVIKHNFEKFGFQPIETPSFENSDTLMGKYGEEG
+DRLIFKILNSGNFFYNKSKIELPKSIEQLQAVSADKITIAERVELNSFTKQISEKALRYD
+LTVPFARYVVQHQNEIEFPFKRYQIQPVWRADRPQKGRFREFFQCDADVVGSKSLWQEVE
+LVQLYDTVFTALGLEGVTIKINNRKILSGIAEVIGASDKLIDFTVALDKLDKIGEGGVKK
+EMIENGISEEALVKVQPLFSFTGTFADKINQLSDLLAASEEGMKGVEELKFICDNVATLG
+LSTATLDLDVTLARGLNYYTGAIFEVAAPKSVSMGSIGGGGRYDDLTGIFGLKNMSGVGI
+SFGLDRIYLVLEELQLFPETVSATSKALFINYGDAEALYASQAIQKLRQENIKVELYPDN
+VKVGKQFQYADKRLIPFAVIAGDQEIASNSYSLKNLVTGEQITVDFEGLKNALLA
+>tr|A0A1S1J5R3|A0A1S1J5R3_9FLAO
+MKILKYLFLLLLLSLVALTVFVATQKGIFSVERSKVINSPKATVYNYLNDFRNYEDFESW
+SVEDPTMKMTFPNKTVGNGASFYWTGSEGNGNAITLKTKDGESIQQKMKYDGTEADVNWT
+FKDTLAGKTKVTWKASGTMSFLFKVYAALNGGSDKVIGTIYEKSLANIDKNLDYETKTYA
+IKVNGLVRKTETPYIRQTFTSEIGKVGKNAKIVIPKLIEFSKNNGLATNGKPFIIYHTYD
+ITTGLAKISICLPTSREIVTTSGSDISGGKLNGFEAVKTTLKGDYSHLNEAFKKTTTFIN
+NEKITPDLSWSHLEILTMSKLDVKSPSKLMTEIYYPTKPKVVPVAKVPVYRPATTDPAVA
+KPVETPKKPAEEEQSEF
+>tr|A0A1S1J6A0|A0A1S1J6A0_9FLAO
+MNTSEFILDKVAPVFNRQGYVGTSLTDITKATGLTKGAIYCNFTNKEELALKSFQLNVDV
+AITPLFKILASTTGSLEKLYTITKYQRSYYDVVKDRGGCPMLRVGVDTKYINPLLFKSAQ
+SLSQRFITGLSNIISEGISSGEIQENIDPLQYAKLLLSLIEGSSLLAFTHNDESYITTAM
+DFIDSTIIDKIRK
+>tr|A0A1S1J815|A0A1S1J815_9FLAO
+MKTKSILLIALMLLISKSVFSQTAFKVDVKGKGAPVLLFPGFGCTGEVWNETVAELSKNY
+ECHIFTFAGFGNVPPIEGPWLSTIKNQVVSYVKTKKLKKATLMGHSLGGTLSLWLAAEET
+NLFKKVIIVDALPASAALMIPNYKGEVIPYDNPQSKMMLGMDQKAFNAMNSQATSYMCLN
+KEKQKTVNEWMSVADRKTYVYGYIDMLNLDLRKEIAKIKIPVVILAATNPDLATVQNTYK
+AQYENLPSVKIYYAANSAHFVMYDQPEWFMEKVKSEIR
+>tr|A0A1S1J8G4|A0A1S1J8G4_9FLAO
+MDFQIGLIIAGLAVGFIVGLTGVGGGSLMTPILLWFGIPPTTAVGTDLLYAAFTKAGGVF
+VHNKKGNINWKITGWLTLGSVPAALITLWILSSIKTDIETINHVIKYSLGWALLFTSVAI
+IFKKKLLEFSQKHAGDKFHRESTTQNTLTIAIGVLLGATVTLTSIGAGALGTVTLFFLYP
+LLPTPRLVGTEIAHAVPLTLVAGIGHASMGNLDLALLAQLLMGSLPGIYMGSMLSGKVPD
+QFLRNAIAVMLFMAGYKLIF
+>tr|A0A1S1J924|A0A1S1J924_9FLAO
+MNKRVVIVSAVRTPIGSFMGGLSTVPAPKLGAAAIKGALQKINLDPKLVDEVFMGNVVQA
+GVGQAPARQAALFAGLSEEVAATTVNKVCASGMKAVMFAAQAIACGDAEIVVAGGMENMS
+LIPHYVQMRNGTKFGPASMLDGMQKDGLTDAYDNNAMGVCADLCASEYNISREEQDNFAI
+QSYERSAKAWDAGKFDNEIVPVEVPQRRGEPIIVSKDEEYTNVKLDKIPTLGAVFTKDGT
+VTAANASTINDGAAALILMSEEKATSLGLKPLAYIKGYADAAQEPKWFTTSPAKALPKAL
+NKAGISISDVDYFEFNEAFAVVGLANSKILSLDNDKVNVNGGAVSLGHPLGCSGARIIVT
+LLSVLEQNNAKTGAAAICNGGGGASAIVIERA
+>tr|A0A1S1J970|A0A1S1J970_9FLAO
+MNKLTRNFIPLFLLLFFISGLTTNSSLYAQGPNAPEASGFEPVDATDMVSLLTGDMTYVV
+PLLNVPSPEGGYPIALSYHAGIAVDQEASWVGLGWVLNPGTINRNVNGYPDDWKDGLVRE
+FAYDEGGSAYSSAISIGYGVPGEWSVGVGVSWGSNRSLGGSVSASVGGIYGSVGTDGVSV
+GVGLNDNLGVSASVGYSGSFGIGADIGMGEDSYLNLGIGYGPGGVNGNIGLSEKGRGKDG
+KLIKGVSSGVGISLSSSGMSVNSRIQGFGTSASVAFNSSTKASDYNVLHENTSFTLTTPF
+GYFSYGKNTIRWSLLNITDFTMDGSIYAYDPSGEISTDFNYENGDVKVSYEAHNDTFEVD
+TESSFEQSSKDIYIKSNNGVFSNLDNYNVTAQGIGGSIAPQFLNNVRMVPFGVTAKGDNF
+SGLAVGYAYGSQTHNLPNSFKKIKPIQFNFCNSFNSYLNVIPFDMSYIQGQGLNFTYSSP
+PAPLANDYSYSQDQSLIYHRSSYKEAENRKRNGQYIEYFTVGEINSGVAASKGFLDSENN
+FQRDQTSCGYDSGDAFIKRNFDSGIGGFKITSTDGKTYHYSIAVYQAEQIRRLYGIVDNK
+TENQAHMDRMHVTPYATHWLLTAITGPDYIKNDVNRKYPDEGDYGYWVRFDYGKWSDGYI
+WKTPIKSVNIFNKVKEYNWGRKQVYYLDKIKTRSHTAFFIKNLREDNKSSAMIYKNMYHY
+RTSSTNYMNIPSNPLLKLEKIILLKNEDANSINKNRGIPLTNVQNYNYYLSGQYSRTWSP
+TSFYLRKYSVNNSGNVFDTNDFAGLNIEGKALKIITFNHDYNLAKGATNSSIGKLTLNSV
+NFKGKQGIGVIPPIKFNYAYNYNFDLARKNDFGYYENVPQAWSLDKITTPTGGNINIIYE
+PDSYDKVAIKNGRVFTSKLKFTFLTEPPHGSGDDEGSMKNAPKGITRIKIEIDYQDPTTS
+GLRLADYFDPSKPFFMDMWYSAMYNNRGAGYDRSSVNIDKANATIVELNTSLNYMIIDVM
+ASSPAFRDTFQHSAEPVSALNAGNQYSGVENANLPRFELAWNGSSGGRQYSMRHTIIGNK
+INPNNNSGIRVKQITVDDNTGKTYNTYYNYNNPFTGKTSGIIPYYPEPNYAVNQQAPYIS
+LLPGPVVTYAYVTESSNEIKKQYKFKVLEEIVQTNNLISFGDLLQINTSEQNPLSNVFLK
+NVTVKNNMQALGRIEEIKVLNTKDQIVQQTKNNYKTVTDYFSLGQYQQSYYAVKHISTWG
+NNAYEQNFYNVSSMIDVNTNLQSITTNQNGYTNTTYFDQYDPITGQATETRIVSSDGKSY
+KTKIIPAYLKYPEMGSKVDNLANKNMLSQTAVNYSYINDGGTWKETGVGITTWSNIWSYQ
+DIAGTSVNVLASAPVDQKIWRIHKTYVWNGIKDVNGIFTNYNSTTGSKDDNFDWAIGVGQ
+PSQWKQISEITLYNHFSSPLEMKDINGNYASTKMGDNDTKVTIVGNAGYNEMFFSGAENN
+PSANFPTYLEPEITITNASRNSVYFHTGKQSVAATSSSLFGTAMKNGQHRPGKYKISVWV
+EKTNASKARINNNGVIVDFTETYNAGNWVLKSGYVTVPTSAYSINVTSLDTSTVYFDDLM
+IRPIYSSTTGYVYNEWDELTYIIGNNGLATKFEYDAGGRLIKTSTEVIDDLANGVTGGFK
+AVKTNVYNNKYLN
+>tr|A0A1S1J9F1|A0A1S1J9F1_9FLAO
+MNKAVKIAIALVICLMVGYSASIVTRPSVETWYPTLIKPPFNPPNWIFMPVWTLLYIFMA
+VAAGLVWDKIKEQKETVKMALGFFIIQLTLNAIWSYLFFELKNPMLALIEIVLLWLMIYE
+TYLKFVKINKISGYLLIPYMIWVAFAAVLNASIWWLN
+>tr|A0A1S1J4F9|A0A1S1J4F9_9FLAO
+MTEVDKKEYKLDENIKIAVIGLGYVGLPLARLFATKYAVVGFDINEGRVASLKSGTDTTL
+EIDDETLQKVLVDNSGDKQGLYCTTSIEDIADCNYFVITVPTPVDKNNRPDLTPLYKSSE
+TVGRVLKRGDIVIYESTVYPGVTEEECVPVLEKVSGLKFNIDFFAGYSPERINPGDKEHT
+VEKILKVTSGSTAEIGQKVDALYKSVITAGTHLAPSIKVAEAAKVIENSQRDINIAFVNE
+LAKIFNLMDIDTQEVLAAASTKWNFLPFKPGLVGGHCIGVDPYYLAQRAQEFGYHPEIIL
+AGRRLNDSMGEYVAAQVVKLMIKKGISVNGANVLMLGITFKENCPDVRNTKIVDVIKALK
+EYGITVTLYDPLASIEEVKKEYKLQTINSVPKEKFDAVVLGVAHAEFLKLDFSELQKENS
+LLYDVKGVLGTLADNRL
+>tr|A0A1S1J5P9|A0A1S1J5P9_9FLAO
+MKKWTLNLSLLLLLFIISQVTFAQNSSVKGTVSDGKLAIEFVDVVLKNTADSTKVAGYAV
+TDASGNFSLDHVTSGEYKIQFKLIGFKTVTQKVKFTGSPISIGTITLKTDTNLLNTVVVN
+SHKKQIQKTNEGFIFNAVSNLTQTGGTATDMLKNIPTVAVDADGGITLRGKSPMILINGK
+NSAITNMDQIAASSIESIEVISNPTAKYDANAESGIINIRLKKNNQSGMNGAVVLGGGFG
+AKGRLNSSVLLNQKTDKWNFGLGYDNRFAGRTKKIKGERINYLIDDEHYINQNRSDQRTE
+GLQNLKFNIDFSPNENNSFSFEALGNMESQDNDETLYTQVNSSANQFFSSNKRHSLELER
+SKVAELAFSYDRKFADDRKNLNASITSSFNKHRENTDIDTYQFDQYYNLIGDAAWQRTHN
+YEHENISNAIVNYALPVSERTILETGYKGTFRFFDSDFQSADQKNGEYVVNPLASNGFKF
+NEQINAVYGLLNSYIGTKETPKWKYNLGLRAEQVSNNGKTQNNSDNFSNHYVKLFPSASL
+QLNLASDEFLKMGYSKRINRPDLDNLNPFIDITDALNPHGGNPYLKPEIIHIIETGYSKE
+WSKYSLSTNVFYRNATNTIRQYAELQDNGVVLQQPRNIGSTITYGLETIFSLKPIGFYDA
+NISITAFQQNINATNLAQDVVNNAFSWYGKIINNFVPWKGGKLQIIGNYNSALATAQGKR
+IPIYNVDMGFQQKLGKGNARLGLVVTDMFNTLESGFKNNTALFSNNRTSKSDTRALMLTF
+AYTFKSDFKEKLLENQFSTE
+>tr|A0A1S1J6K8|A0A1S1J6K8_9FLAO
+MESIRNIAIIAHVDHGKTTLVDKIMYHCQLFRDNENTGDLILDNNDLERERGITITSKNV
+SVQYKGTKINIIDTPGHADFGGEVERVLNMADGVCLLVDAFEGPMPQTRFVLQKAIDLGL
+KPCVVINKVDKENCTPEEVHEKVFDLMFELGAEEWQLDFPTVYGSAKNNWMSDHWENVTD
+NVEALLDMVVDNVPAPKVSEGNPQMLITSLDFSAFTGRIAIGRLERGVLKEGMPISLVKR
+DGAVTKSRIKELHTFEGLGRKKVTEVIAGDICAIVGVEGFEIGDTISDFENPEGLASIAI
+DEPTMSMLFTINDSPFFGKEGKFVTSRHIRERLTKELEKNLAMKLGETDSADKFMVFGRG
+VLHLSVLIETMRREGYELQIGQPQVIIKEIDGQKCEPIEELTIDLPENLSGRAVEFVTMR
+KGEMLSMETKGERMIVKFNIPSRGIIGLRNQLLTATAGEAIMAHRFIGYEPYKGEIAGRN
+KGSLISMEKGKAIPYSIDKLQDRGKFFVEPNAEIYEGQVIGENSRSDDMCVNVTKEKKQS
+NVRSSGADDKARIIPPIIFSLEEALEYIQKDEYVEVTPKSIRLRKIYLTETDRKRFKF
+>tr|A0A1S1J799|A0A1S1J799_9FLAO
+MEKDLQKYAETFLTAELKEILSSNRHKNTSELNEFEKAIIYNYSDIGYESLNETLRDGKD
+LPEFGKHLNYALNKLPDYKLLCYRSIKVNKSKLQRYYDALKSNSIIIEESFLSCSKSRFV
+ASGFSSSPLFIIFSKRGKDIEKIAKFGIDNGENEREVLFMSGSKFKVIDITEEADKTIRI
+TLEEV
+>tr|A0A1S1J8Q8|A0A1S1J8Q8_9FLAO
+MNPTRTFILLLFFGLGLQQTFSQSYQFKTSGFSVLEKNEKGKWGEWSNLDLVNLSVILDT
+NKHRIVVYSQEIQLFSILDYIEREENDTDIVYSFMCKDNDGKACKLSIITRKKQDFRKQL
+YINYDDHIIVYNMVSV
+>tr|A0A1S1JD45|A0A1S1JD45_9FLAO
+MKTKLLSFVLVFTAIVSYAQQDAQFTQYMYNTININPAYAGSRGALSIFGLYRTQWVGLD
+GAPETSTFSVNTPINNSNLGVGVSLVNDKIGPTNENTFSADLSYTIQTSADFKLSFGIKG
+SANFFNLDVTKLNPESQGDPQFQDLNNKFSPNVGAGVYWHSDKAYIGLSVPNFIETNRYD
+DNDYAIYKDRINYYLIAGYVFDLDRLQYIKFKPALLTKMVQGAPLQVDVSANFMFMDKLV
+LGVAYRWSASLSAMAGFQINDGLYIGYGYDRETTKLNNYNSGSHEIFLRYEFFRKNSKMT
+TPRFF
+>tr|A0A1S1J941|A0A1S1J941_9FLAO
+MDLIHVQPVVNSVIFSFLGIIILLAAYLIIEKLTPENTWKEVGEKNNVAVAIVLAAFIIG
+ISMIISAAIHG
+>tr|A0A1S1JBF7|A0A1S1JBF7_9FLAO
+MNIRKGNPEDMKSVLGLIQELAIFEKEPNAVVITEADLIRDGFGEKPLFHVFVAEIDTDE
+NHKEIVGIAFYYYRYSTWKGKTIHLEDLVVKEKMRGTGLGSALYAEIIKQGKRDNVLRID
+WNVLDWNTPAVKFYENSGAKILEDWRVVQMDETGINSFLEKL
+>tr|A0A1S1IYY4|A0A1S1IYY4_9FLAO
+MAKIIGLTGGIGSGKTTIANYFAEMGVPLYIADDEAKKVMQSEKIVKQIKLAFGDSLFEN
+DVLNRAKLAEIVFNDADKLATLNAIVHPAVKEDFELWLLKNKKYHYVIYEAAILFESGRY
+KDCDVIVTVTAPEEMRIERVVKRDKTTREQVLSRMKVQWDDEKRISLSNFVINNSNLKIA
+REEVVKILKILNIKQNQS
+>tr|A0A1S1JAP6|A0A1S1JAP6_9FLAO
+MKKTTTPFYDILGISSAAICLVHCLIFPLLTILPLGISHNPFIDLTFASIGLIAIVKIIK
+KSSLLVAITLILSISLIWISILSEMILDVHLDLIFIGGIGMIIGHLLNYKNHKHI
+>tr|A0A1S1JCJ2|A0A1S1JCJ2_9FLAO
+MVLLINIIILLVAFRLLFEQKIIGSLMKKQWTNLIRFQHVLFFVIYTTFLVISTLYFTEM
+PFALYRILFIMAVNTVLYFVCYSYLVPAYYQTNKYPEYLLYALILFISTTLLRLLVEPEF
+SQESDAVQDQTLFLISVYSSQSIVILVASFLGISRHKFLIEYDYLDLEVKKNETDLNLMK
+SKINPHFLLNTLNNIYAGSYNQHGNTTEAILQLSQLLQYVIYETDKKTIAIHKEFEMMKA
+LAGLYQLKYNNTLNIVFELNDSEVQEQVEVPPSIYFTLFENALKHSGIGADKEAYIKVNF
+DKVDDTFVFRIENSVPDKIHFNNHNGYNGMGLVALKKILTMKYAENYQLFDELLNKTYFS
+TLKIKL
+>tr|A0A1S1J0R7|A0A1S1J0R7_9FLAO
+MKVKNLVYALLIIVLGGFIAYRVVSNKKKNDESKKFGDKDTPTTVTGIVVKTATFDNNLS
+LSGSIEANEQIEIRSEVSGIVEGIYFNEGSFVNKGQVLFKVNDIELKAQLRQAVTREGLA
+AENERRAKLLLQKEAISQEEFDVAKADHASAQAQSQLIRAQIAKTSVKAPFSGKVGLRSI
+SPGTYITPTVLVAKLVNTGKLKITFSIPEKYAAQVKSGSVIDFSVSGSDKVYTAKIYAIE
+PEVEVATRTLQIRAIADNVDGKLFPGTFADVKLPLNIVKDAIVVPSEAIIPVQSGKKVYI
+ANMGKAKEVMVDATTRTDSSILILSGLKAGDTLITSGVMSLKNEAPIKVNVKK
+>tr|A0A1S1J978|A0A1S1J978_9FLAO
+MKKCVILVAILFSGILVAQEIKPELEAVGNRVKATYYYENGSVQQEGFFKDGKLDGVWVS
+YDTKGNKMAVGEYTEGVKTGKWIFFNDKNLCEVAYENSKVTSVKNLQKNALANRN
+>tr|A0A1S1J736|A0A1S1J736_9FLAO
+MGTIPTLVGAGLVVIGAGLGLGKIGGSAMDAIARQPEAAGKIQTAMIIIAALLEGLAFAA
+LILGK
+>tr|A0A1S1J0M0|A0A1S1J0M0_9FLAO
+MALLSKKAMNFAYGMGAAVVIIGALFKITHFEIGPLTGTVMLSIGLVTEALIFALSAFEP
+VEDELDWTLVYPELANGQARKKADKVEAPSDAQGLLSQKLDAMLKDAKIDGELMASLGNS
+IKNFEGAAKAISPTVDSIAGQKKYAEEMSMAAAQMESLNSLYKVQLESASRNAQANSEIA
+ENASKLKEQMQSMTANIASLNSVYGGMLSAMSNKG
+>tr|A0A1S1J750|A0A1S1J750_9FLAO
+MTDLKNKNALITGAGKGIGKAIALALANEGINVILVSRTQADVDQLAIEINNLGVKSLAL
+AADVSDINSINSAVEKALAEFKSIDILINNAGIGAFGKFLELEPNAWERIIQVNLMGTYY
+TTRAVIPNMIERQTGDIINISSTAGLNGNAVTSAYSASKFAVLGLTDSLMQEMRKHNIRV
+TALTPSTVATDMAKDLNLTDGNPEKVMQPEDIAELIVAQLKLSRRVFIKNSSIWSTNP
+>tr|A0A1S1J9M2|A0A1S1J9M2_9FLAO
+MSIWRVKPISAFEADMKKSDLKRVLGKWSLTAIGVGAIIGGGIFVLTGTGAYYHAGPALA
+VSFIIAGIACVFAALCYSEFASILPVEGSAYAYAYGTIGEIFAWIIGWGLILEYAMGSMT
+VAVSWSGYFNKLLKMFHIHLPEWLTTDPASYSGEGFSMNLPAFLIVILVISLLIKGTKSA
+AKANNFIVILKVSAVIFVIIAGLFFINTANWSPFIPAATQIIEKETTHNAYGIGGIVSGA
+AAIFFAYVGFDAVSTQAGEAVNPKKDVPFAIIASLLICTTLYILVSLVLTGMMNYKDFNP
+LGKYPDAIKAPVAYAFDIAGQGWAGFIITIAATIGLVSVLMVMIMGQSRIFLGMSKDGLI
+PAVFSKVNPLSGTPKTNLIILGGIIATVAAFTPINKLADMTSFGTLFAFTMVCIAVWILR
+VKQPGLTRTFKVPALPIIAVLGIAINTYLMINLSHDAQLLSLGWLAVGILVYFGYSKKRS
+RLNNNEIEE
+>tr|A0A1S1JA48|A0A1S1JA48_9FLAO
+MKTKYTTTILAFLFVLLATPTMWAQQRASIKGQISLTNNQAADNVTIILKGTKIGTNTDS
+RGFYEIKNIKPGNYVIKVSAVGHSSKEKSISLNGGDEIIEDFTISSNSEQLDEIVINGHG
+KKNPLARKENQQVSRLPLKNLENPQVYSTITGELLKEQVVTNIDDALKNAPGLTTLWAST
+GRGNDGAGYFSLRGFAVQPTMINGLPGLTNGSLDPANIDRIEVIKGPSGTLFGSSLISYG
+GLINITTKRPYDHFGGEINYTTASYGLNRVTADVNTPLDDEHKVNLRINSAYHNENSFQD
+AGFKKSFFFAPSLSYEVNDKLSFFVNTEFMNNKATNPTMLFLDRGTPLRVHNMKELGYDN
+KRSYTSNQLAIETPSYNLQGQMVYKFTNEWTSQTVISRGSSRSEGYYSYLYEGTKGYPKV
+TEGIVLGRFINYQNSTTLTTDIQQNFIGDFKIGKLRNRIVAGFDYFNNATTDNGTGYIAN
+GSIYIGNASLQTVNENVFKITDPTKYITTGDNGNLSKAGTDDLLAKAKTNNNKTKQEVYS
+VYVSDVINFTPALSAMASVRIDRFMNADNGGYNQTAFSPKFGLVYQPILDKVSVFANYMD
+GFSNVAPGEDLNAGIRTPRIYNPEHANQFEVGTKLNLFKDKLYATFSYYDIKVTDQVYSI
+RTDATNSTSYQNGGQRNKGFEAEIVSNPVPGLNIVFGYSYNDAVLTAGDSEFVNFRPESA
+GARNLANLWASYKFLEGPLQGFGLGFGGNYVGDNKIMNRKTTGAFTIPEYTVLNSSIFYA
+AEKFTLTLKMDNIANADTYDGWSTIHPRNMRSVAASFAYKF
+>tr|A0A1S1J5C7|A0A1S1J5C7_9FLAO
+MIVKNHTIELKDTSASEMARFRQIMLGIWSQQIEDDENTSKMNMFIEEWSKKKKKKKKTK
+KVIPIYKNIYIALDYDGTQVGDQNREIVEFTSMEKSGWKGIYASNIREANTQLINYLRGT
+IADNILLETHGGPERYLNKNGEVLSVGTYMSADNNNRSHIGEKDLSNSITGTNTKNQDDV
+NALVSIIKQIKPKGNFYLQSCNTADSDIFFNNLHTLTGNTVNLYGSNELTSTRFVLNKNK
+KGIANYTPANLFDRNTITTRGGKLYQADRKDEPPILLNNIKINKSGIVSF
+>tr|A0A1S1J5Y1|A0A1S1J5Y1_9FLAO
+METLIVLLGVFVITLLFIKLISKKIEIFQSARIAMAVMLVFTAVSHFVFTKGMAMMVSFL
+PWPTAIVYATGIIELMAAVGLLIPKTRVLTAKLLIVFFIVLLPANIYAAAHSINLQTANY
+SGKGISYLWFRIPLQLLFISWVYFSFIKKQPGLKGVTAS
+>tr|A0A1S1J8Y5|A0A1S1J8Y5_9FLAO
+MQAQDRPQPKPGNSPVVNIKKPQTFVLANGMKVLVVENHKLPRVSFTLTLDNAPFAEGNK
+KGVDELTSALIGNGTKKITKEAFNEEIDFYGANINFSSSGASGSSLSKYSGRVLELLAEG
+ALQPNFTQSEFDKEKAKLIEGLKADEKSVPAIASRVVDVLAFGKNHPSGEYLSEATVKNV
+TLADVQSNYATYFVPENAYLVIIGDVKFKETKAAVEKLFSGWKKQATPKNTYPAPENAAK
+LQIDFVDVPNAVQSEISLVNTVNLRMSDPDFFPAVIANQILGGDFNSYLNMNLREKHGWT
+YGARSSIDGGKYVTKFKASSAVRNTVTDSAVVEFVKEIKRIRTEKVSEDILKNVKAGYIG
+RFVMQVEKPQTVARYALNIETEKLPADFYEKYIQTINSVTADDVYRVANKYFMLDNMRIV
+IAGKGSDVLTGLEKLQIPIFYFDKYGNPVEKPVTKKEVPAGTTAKTVFENYLKAIGGEKV
+VATVKTLSMTGSTTIPQAPSPLTFTSKLDSKGKMMVSLAMGPMNLMKQVVNDKGAYIEQQ
+GQRKNLEGNDLAEMKASAAPFEELQLVKRTDLKVESIEPINGKDAYAIKDGKTTYFYDVA
+SGLKLAEAKVREQGGKSTTQITNFNDYKDVKGVKIPFNIVQNVGFELDIKMSDIKINEGV
+SEADFL
+>tr|A0A1S1JGC1|A0A1S1JGC1_9FLAO
+MIPQTIIFGIDSKRISHFTSIELVQVINDHHRFEIRVPHAVVESPLAYTLENAQAWLGKV
+VHIILEDKNNFLGVVTNIDFDQEMGHSGNHIVVSGYSKTILLESGEKLHSWEEMNLKDIV
+KEAIKNGAGEQLQNEVNPEYSSKMDYQNQYLETDFQFIQRLAKQYNEWLYYDGEKLIFGK
+PKSFDKPISLTYNSDISKLKISVQAVPNKFSAFTYNESADKRYTAKSKDTVGGLPKLGNE
+AFATSKEVFATPAFTHGIVSTGDDLVLESFLRKKQESAAADTNYVSATTKNTKLKIGSIV
+NIKSSVLENESMITQEVGSYIITEISHYATHLGEYENNFRAIPSKVLSLPEPDVAYPIAQ
+TQQALVESNTDPKNKGRIRVQMLWQQGTSMKTAWLRVLTPDAGSSGKVASNRGMVFIPDV
+GDHVMVHFRYGDPNRPFILGSVFHGKSGGGGGQDNNKRSFATRGGTSLVLDEGDNSFTAT
+DPSGNMVKLNGDGTMTIYAPNKIDVLSKEINILADEKVNINGINEVNVDSKKIVAVGTDE
+VSVKSDTQIGNEAPSINIKGKNTILAEGKVVDIDGKTMTNVKGGVVNLN
+>tr|A0A1S1J1D4|A0A1S1J1D4_9FLAO
+MEIILKQDVQNLGFKDDVVSVKPGYGRNFLIPQGFATLATPSAKKVLAENLKQRAHKEAK
+VVADAKALAETLKALEIKLTAKAGGEKLFGSITNIDIAEALEKSGNAIDRKFITSGIVKR
+TGKYTASIRLHRDVIVELAYEIIAEK
+>tr|A0A1S1J3J4|A0A1S1J3J4_9FLAO
+MRIDKYLWCVRYYKTRNMVTEACKKNHITVNGQVAKPSKEVFPTDRITFRKDQITQIITV
+LDIPESRVGAKLVDIYRKNETPPEAYAHLELLKLSKEHYRKSGTGRPTKKDRRDIDEYGN
+EIFDEEEDV
+>tr|A0A1S1J540|A0A1S1J540_9FLAO
+MAKIFFKVLLLFLLAGCAASKKTKFDDYVFKTKSEKQVYINSYDQALKLWDIPYTEETIP
+TTYGTAHIIISGVENGKDLVLLHGMDASSTMWYPNIKALSKTHRIYAIDFIMEPGKSTLT
+TKPLSSEEIVILYNEIFNHYKLKNIDLIGASRGGWIATLLATQKENSIDKIVLLSPAQTF
+KSVDKVRKMTPALLLKLFPNEKNFEKTLNIFSIHPEKISPVYKQQFYLANKYAKSNSSML
+KMRPFSDDELKFISNPVLILIGDHDVINSEESLERAQKLLVNGTTKTINDAGHFLSIDQS
+KSVNEQVIEFLNPKKANLKP
+>tr|A0A1S1J7P8|A0A1S1J7P8_9FLAO
+MKKHLFVLSILLLLSCQSNKKEDKKELVVANKVNEVEIEESNDSLIYKIAEDSIVIGGDT
+LKIEAPFIYSFEGILDSNKKIQIHISNKLTEEYGGYWKSGDLYIDGENQIFGFGIIKNKK
+DNFYTGEVYYHRDESDKVICNIKLYNLGSEEMFIECIYNKKKYKIYPSTKFPSYKCYDKI
+DYTLFDTREAYKKGNARDYTPSRDYIFFGEILSNDKSFEALSSNLKYLYADSLSIKDHKK
+WKHNFGIKKSVSDDNYMSESLYTSSPIFIDSNIYVISGYWYNYMGGAHGLYHTSYDNYEV
+STGRKIEIVQILNIKDKKFIEFYENRIRSEYGDAVPSTIPFANTYYILPTGITFSYAPYE
+LVGFAGGEPHIFISYEELKPYILKNTILDKYNSN
+>tr|A0A1S1J7Y4|A0A1S1J7Y4_9FLAO
+MGRKLLLILIIVFGVFKASGQTKNEKLAIGINHGFGSEFNNRNYTFTNHFYKVELRYRVN
+ESKYFKYEVLVQPEVNFGRHQLLNFYFVKPDRPDYLEKREEYTKLKDVHEYVLNLGFLVR
+KPIGKVFSVYALGSIGPMITDTETERMSKGFAFADVFAMGFSVKMNRLQLDARGNIRHVS
+NGGLNSENAGYNTRNIELGISYFL
+>tr|A0A1S1J9F4|A0A1S1J9F4_9FLAO
+MNNKEGNNKRGGSRPNSSRPNSNKPKPPMAKRAQGPKKVKPAVKAAEEEKAQKIKKQNQA
+PKRQKASDEIRLNKYISNSGVCSRRDADIYIQSGNVKVNGVPVTEMGYLVKLNDVVNFDG
+VTLTPEKKEYILLNKPKNFTTALDEGQEYRNVLELVRGSTTAKIAPIGRMDKNTTGLLLF
+TNDTDMIRKFTLPNQKSSKIYQVSLDKNLKFEDLEKISKGLVLDGHRVFVEEISYIEKEA
+KSEVGLKLRSSNVKVVRAIFENFDYDVLRIDRVSFAGLTKKNLPRGNWRFLTDQEVINLK
+NV
+>tr|A0A1S1IYB8|A0A1S1IYB8_9FLAO
+MLKKHSPKVLIFILFSLFFSISSLAQKNIYAGIEIGRRTIKVSVLDVSNIKKADYKIIYY
+SNDEGLSFAKHITATGELTQEDINKAGLIVFTQLTKIRAQFKIPEENIFLVASSVFGSAR
+NVDALKNKISTLTNKELDIINVDEEAKILVKGSIPPVDYANALHLDIGAASTKGGYIDEL
+QDGKLEFIPLELDFGTMSLTDAVKKTVANQSQASDMTVYQEKSFDFNPIVRKKIKDMLDA
+NPLLLKKEKIYLSGGAVWAFTTLYYNENTKDHYLPIKLEDVIDYDAILKNNFNKFNTLAK
+TNTEAARVLNIYDQKYLISANNILQACVESIPNLEKKKIYFVKEGPITWLISYIADRSKK
+VNTNF
+>tr|A0A1S1J5Z4|A0A1S1J5Z4_9FLAO
+MSFFKKLFSTDKKETLDKGLEKSKTSFFSKLSKAVAGKSKVDDDVLDDLEEILVASDVGV
+NTTLKVISRIEKRVAADKYLGTDELNQILREEIGALLSETNTGEATEFEIPKNKKPYVLM
+VVGVNGVGKTTTIGKLAYQFKKSGYKVVLGAADTFRAAAIDQLQVWADRVDVPIVRQNMG
+SDPASVAFDTLQSAVAQNADVVIIDTAGRLHNKINLMNELTKVKRVMQKVVEDAPHDVLL
+VLDGSTGQNAFEQAKQFTAATEVTSLAVTKLDGTAKGGVVIGISDQFQIPVKYIGVGEGI
+EDLQVFNKYEFVDSFFK
+>tr|A0A1S1J991|A0A1S1J991_9FLAO
+MKQQHSYLGILFLILCLISVPNHLFAQDKNTVSGKVLDDSGQTIPGANVSLKGTDKNTIT
+DENGKFVFSNVSAGDYTIVATNVGYKTFGKQITVKEGESLEVNLLLEGESQSLKEVVVTG
+SSSPRSKLESSVAITTMGAKAIEDRAPASTAALLQTIPGFVVEASGGEIGNNLFARGIPS
+AGAYEYVQIQEDGLPVFEDGALQFANADTFYRLDETVSKMEAVRGGSASIFANNAPGGII
+NFISKTGQNDFQGRAKFSTSDYGMFRTDLNLSGALIQDKLFFNIGGFYRADNGVRNTGFT
+ANKGGQIKGNITYKFDDNDYLRINFKHLDDRNTFYLPIPLKSNNGKIEGIPGFNPNYGTL
+TSVNFSRLNVPQYGGGTFTADLEDGSHPIINSIGAEFKKKISEKVTFKNAFKQTNINLNY
+NAIFPNGGPWTQDAYATGVQNTTASNLTYSYVDNGATLDPNALIMRADLWHIEKKMNNFA
+NNFSFAFDLDPVKLTAGYYYSNWKSNQYWNWNSYLVGVSDNPRLLNVKDNTSGVNHTWNG
+VERITWLERDAQTKGVLNDVYVDAEIKATDKLTFNAGLRYNKDKYSGYRDNARFFAENLG
+VLNNNTADDKVTTVKGNPYTYWRYDVSEWSYTAAGNYKFNDNMASYVRYSHGFRSPIEES
+FYDNAADLSKLENTEVNQFELGYKYSNSFFNVNANLFHMNLKNVAFTDILSDGSSENKFA
+DVNNIGLEVETNARYKMVKMNFTFTVQKPEYDNFTGSNADGSTFNFNGNTARRIPKFFCN
+LRPEVDITKDFTAYVQFSYYDKKFTNQDNKQVLPAYKEVGAGLNYTYHNLRFAVDASNLF
+NEIGLTEGDPRQTTSAASDVFMARPILGRAFRFSVAINF
+>tr|A0A1S1J129|A0A1S1J129_9FLAO
+MKNLQKGDKKLLNAWAFYDWANSVYTLTIASAVFPIFYEALFTDRDHYIDVFGMHLKNSA
+LISFITAAAFLVVSFISPLLSGIADYVGNKKAFMKFFCYMGALSCMGLYWFDLDNIYTGL
+AFYFLGLLGYWGSLVFYNSYLPDIAFEEQQDKISAKGYSMGYIGSVLLLIINLAMIMKPK
+LFGITGTDGEAAMKAMRYSFIMVGVWWILFSQYTYYYLPKGSKASGQKLTSSVVFNGFKE
+LKKVWALLKDNIALRRYLSGFFVSSMAVQTVMLVATYFGAQEIEWATKEDSTIGLIKCIL
+IIQLVAVVGAVLTSRASAKFGNIPTLIVINSIWAVFCALAYFIVLPMHFYVMATVAGFVM
+GGIQALSRSTYSKLLPETEDTASFFSFYDVAEKIGIVIGMCVYGIIDQITGSPRAAIVIL
+AIFFVTAIFLLRRVPKKAL
+>tr|A0A1S1J1Q1|A0A1S1J1Q1_9FLAO
+MNVLRKILFPFAILYGCVTAVRNFLFDKGILKSTSFDIPVIAVGNLSVGGTGKTPQIEYL
+IRLLSQKYKVATLSRGYKRKSEGYVLASESSNAEILGDEPFQFYQKFPNIQVAVDANRRN
+GITQLLSQKEKPEVILLDDAYQHRKVKAGFYILLSSYDDLYADDFMLPTGNLRESRSGAD
+RANIVIITKCPKELSEGRQEEIRSKLKLRSSQQLYFTFINYDDFVYNEEEQLAVKDIKSE
+SKLLLAGIAKPTPFFDYLKNEKEDCLTFPDHHHFSDVDVANILEKANHRKIITTEKDYVR
+LKDSKLISQLYYLPIKSTFINNSKNFDTAILEYVQKNLVT
+>tr|A0A1S1J4I4|A0A1S1J4I4_9FLAO
+MSNFKKIVPFIYPYKRYAFLNIFFNILYALFSTLSFMALIPMLQVLFDKTKKNYVMPTYE
+GITHAKEFAENYLSYYITKNTDPNNPGFILSVMVALIISIFLLKNLADYLAMFFINFLRN
+GVLRDMRNALYKKTLELPLAFYSEKRKGDVISRISADVNEVQTSFLAILELIVKEPLTIV
+FTICAMLIISAKLTLFVFVFIPVSGYIISLIGKQLKKQSGKAQQEQGSFLSTIEETIGGL
+KVVKGYNAENYFNTIFQNSTERFFKLSNSIGNRQNLASPASEFMGITVIAILLWYGGQMV
+LIEKTLDGPSFIAYMGLAYNILTPAKAISKASYGVKRGNAAAERVLEILEQENTITSKDK
+AVEKTTFDSNISVQNINFKYEDETVLKDFSLDIKKGQTVALVGQSGSGKSTIANLLTRFY
+DVNDGTISIDGINIKDMNLQSLRSLMGLVTQDSILFNDTIKANIALGKLDATDDEIIEAL
+KIANAFEFVKELPLGIYTNIGDSGNKLSGGQKQRLSIARAVLKNPPIMILDEATSALDTE
+SEKFVQVALENMMQNRTSIVIAHRLSTIQKADLIVVMQKGKIVEQGTHEELIAHNGTYNK
+LVTMQSFES
+>tr|A0A1S1J952|A0A1S1J952_9FLAO
+MSTINYLTKTFSTLKNIRAKRNNAPPTNELTDSRFGVTETNKKAEKKNPDSLLFLMYSKE
+NETLFI
+>tr|A0A1S1J0X6|A0A1S1J0X6_9FLAO
+MKSVHAQILHLLLLFIGIASINAQNYKPADALIGNKTLKKGVLSNGMTYYIYPTAVNKNT
+ASYYIIQNVGSILENDNQKGLAHFLEHMAFNGTKNFPGKGILTTLEKQGAVFGDNINAYT
+SFDETVYNFDNIPSTDPKVIDTALLILHDWSHSLLLTNEEIDAERGIIVEEWRTRQNAST
+RISNLFNPYLYNHSLYANRVAIGDMDIVRHFDYALLRDFYKEWYRPDLQAIAVVGDVNAE
+EIEQKIKTLFADIPKAKNPKKRFEVAIPDHEEPFFKVALDKEITNSTISFKIIQNDAGQS
+QTFADLKQSITRIMAFSMLNDRLNELAQKENCPFKNAEAYYSNFRRVNDVMGMDIAPKPN
+KQAEALAVVMDEYIRAGKFGFSEGEIQRKVTFIRSFYENYIQSEKEVSHSSIANSIQSDY
+LLHRLFTDTKSEFEMIQSILKDIDSKALQVELTSGYTSKNRVVTVEGMENETNLTKEDAF
+AIIAKSENNPNLKPYADSFNDKSLLTDVTIVPGKITAEKESKEIGATTYILSNGVKVHYK
+FANKNVNDVQLYAESFGGASLYDLKDLPSTFALNGLTDASGVGAFSNINLEKILSGKVVG
+TGINVGALNETVSGNAKVKDLEAMLQLVHLRFVKPRFDKEIYDIKKLDLQNYLENKDKDI
+NAKMTDSINAIVYGKNNPRVRILDQQFIDDLSFERIKAIYKERFCDVSNFEFFIVGDVMP
+EVLKPLLEKYIASIPGIKREETFKDKTPVWSSNKINKEVLIKMETPKSTVNIQFESDFKY
+TSKNAVLADMLRDILTLRYTENLREKEGGTYGVQVSAAASRFPKNTVALSINFDSDPIKV
+NSLLPILYDEINKIKKGVLVKEDLAKTKSNYLKSREDSKNFNSYSLSLLYNFFEYNINMD
+DPAAYVDIVNSITEKDIQEFANAFLNKAKSYEIVFKPLK
+>tr|A0A1S1J1P0|A0A1S1J1P0_9FLAO
+MIKIIIHITKFIIAAVTALLFASCNLNVNTIKGSGNVTTEKRTLSGNFTKVSVSNAIDLV
+IIQSDSTEVVVEADDNIQQEITTKVENGTLYIKCKYNSFQDIATKRVTVKMPVIDKLAAW
+SAASIMSKGLIQGQDINIEASSASTVDVNIESDNITCDSDSGSSIRLEGKALKMQASASS
+GGSVSARKLLANEIHAEASSGGDVNVHPIVNLKASASSGGTVNYDITPKTIEKTSSSGGT
+ISQG
+>tr|A0A1S1J2K4|A0A1S1J2K4_9FLAO
+MKINRFIKTSLLLLLVQLGFAQNKVSKEISGQIFEQSTSVESVNIINNTTQVTAVSDANG
+GFSIVAKEGDVLVFSAVNLEGYKRRITADDMNTGRLQIKMTAKEVELKEVVVNENANITA
+ENLGIIPYGQKKYTPAERKVYTATSTSVDKLLNKISGRTAMLKKEVNVEKKEALFRKMEY
+LFEENYYTERLRIPVADIKGFQLYCVDDADFAVSLNTKNKTMSMFLLTDLARKYLIILEN
+EK
+>tr|A0A1S1J5H9|A0A1S1J5H9_9FLAO
+MKAKAFDTGLFKRILKYTKPYKWRYYGVIIFAVSLSIFAALRPYLLKQTVDGYIKTHDKE
+GLLLYIMLMGAVLLMEVFSQFYFVYWANWLGQDIVKDIRTKLFKHILSFRMKYFDLVPVG
+QLVTRSVSDIESIARIFSQGLFMIISDLMKMLVVLIFMFYMNWKLTWIVVVAMPILVYIT
+RIFQRKMQVAFEEVRTQIANMNSFVQERVTGMKIVQLFNREQIEADNFKEINNKHRVAWI
+KTILYNSIFFPIADIISSITLGVVVVYGGFKILNGDHFTTFGDLFSYTMFIGMLFNPLRQ
+IADKFNEMQLGMIAANRVFDIIDTQDHIQDTGTIEAPIFEGSIEFKDVRFSYIPEEEVIK
+GIDLSVASGQTVAIVGSTGAGKSTIINLLNRFYEINSGTICIDGHNIENYTLASLRKQIA
+VVLQDVFLFADTIYNNITLHNPEISRDQVLEAAKKIGVHDFIMSLPDNYDFDVKERGVML
+SSGQRQLIAFLRSYVSNPSILILDEATSSIDTYSEELIQRATETITKGRTSIIIAHRLAT
+IVNADKIVVMDKGLIVEQGTHQELLLKTDGYYKNLYDSQFAVAN
+>tr|A0A1S1J3U8|A0A1S1J3U8_9FLAO
+MTLTLNSKNLLEKLLVLVGVINSSNTLPILDCFLFDIDGSQLKITASDLETTISSTLEIT
+STDKGAIAVPARMLIDILKSFPDQPLTFSVLENSTIDITSASGIYSIAYSPAKDFPKPVL
+IEDAKAVQLNSKVIAKAVSKTVFATGTDDLRPIMMGVLFQFTTSGLNFVATDAHKMVRYT
+RRDVVMPEPIDFIVPKKPLNVLKGILSSLDINVDISFNQTNAIFSFDDYVVICRLVDGKY
+PNYEAVIPVDNPNKALINRSTLSSSVKCVSIFSNKTTKQLVLGFNGNEIHLSAEDIDYSN
+KANERLACSYQGADTRIGFNSKYLSEMISNLSSEEINFEFSLPNRAAIMTPADGESEEES
+TLMLIMPTLIS
+>tr|A0A1S1IY36|A0A1S1IY36_9FLAO
+MQIILSNIKMQINEKIYVKDPETSALGKKIIEQSILLIDDIGFDNFTFKKLGEKIGSNES
+SIYRYFENKHKLLVYLSSWYWSWIEYKLVFNTTNITDKKEKLKKAITIVTEKISDDIYTD
+HINESILNKIIIAEFTKTLHTKEVDQENKEGFFLIYKRMINRIVEIVKEVNPDYPYAKSL
+VSTIVEGSLHQHFLTDHLKTITDCNETVTTTQFYLNLAENVLR
+>tr|A0A1S1J5C2|A0A1S1J5C2_9FLAO
+MTKNILVLCTGNSCRSQIAEGYLRHFLGNKAHVYSAGIETHGVNPRAIATMKEDGIDISE
+HTSNHIDEYQNIHFDIILTVCDHAHEKCPFLPSQAQKFHQNFPDPARATGTEAEIMQEFR
+TVRQMIKAYCNTFAKTIYTNY
+>tr|A0A1S1J9H3|A0A1S1J9H3_9FLAO
+MISYLLKSGMLLLIFYAVYKMVLENEKMFRFNRAYLLVSLVFSFVIPLQIISIGSFVTDR
+IGLVQLNELVLERSTERLNTISANDFLLVLIVVLYGTVFFILMARFVWNLISFFKKMQSN
+EIQFVNGQKMVLVQEPGLPYSFWESIFINKAEFENGKIPSELIAHENAHLRQRHTLDVLF
+IELLQIVFWFNPLLFLYKKAIKLNHEFLADEAVNVRFGEVKSYQYLLLDFASNKNTVALA
+SNINYLITKKRLLMMTKKESPIKIVFNVFTVGAIYALLLFVFSTKTMAQKPPIKGDIKEK
+DLYVLEDVEKLPEYPGGMTAFYKFIGKNFKMPAAVGKNKIEGKTYMEFTIEKDGSLSDIK
+TIKDVGYGIGNEVTRVLKLSPKWTAATQQGKAVRVQYRLPITIQSEK
+>tr|A0A1S1JAS2|A0A1S1JAS2_9FLAO
+MLTKEDIARRIAKEVKDRYFVNLGIGIPTLVANYVREDIAVEFQSENGVLGMGPFPFAGE
+EDADIINAGKQTITTLPGASFFDSAFSFGMIRSQKVDLTILGAMEVSENGDIANWKIPGK
+MVKGMGGAMDLVASAENIIVAMMHVNKAGESKILKKCSLPLTGVGCVKKIVTELAVLEVT
+DKGFKLLERAPGVSVEHIIASTEADLIIEGEIPEMDIR
+>tr|A0A1S1J9L6|A0A1S1J9L6_9FLAO
+MKIQIINKSQHALPNYETIASAGMDLRANLTEAITLKPLERTIVKTGLFIELPIGYEAQV
+RPRSGLAAKKGVTVLNSPGTVDADYRGEIGVILVNLSNEEFVIENGERIAQLIIAKHERA
+EWIEVEELSETSRGEGGFGSTGVK
+>tr|A0A1S1JDS8|A0A1S1JDS8_9FLAO
+MSTLTKPNHIGRKISRIRELRDMKQEALAQALGTNQQAISAMENSETIDEEKLIEVAKAL
+GVTAEAIKNFSEENMINYFNTFNDTDFSNSQGAFSQNHQCSFNPLDKVVELYERLVLAEK
+EKVEYLEKLLKEK
+>tr|A0A1S1J3Z2|A0A1S1J3Z2_9FLAO
+MFHKEGGPSILLGTVFAVAVLLIAEKFIDINWLRIVVQLAGLLVLIIILQFFRNPKRIAI
+RNSDHILAPVDGKVVVIEEVYEGEFFKDKRLQVSIFMSPINVHVTRYAMDGIIKFSKYHP
+GKFLVAWHPKASEENERTTVVIENETFGQVLYRQIAGALARRIVNYAKEGMQVVQGTDAG
+FIKFGSRVDLFLPLGTPINVVLNQKAVGGKTIIATKA
+>tr|A0A1S1J8D7|A0A1S1J8D7_9FLAO
+MRKIKKILLVLLVLIVILGIGLCAYIFHLKPKYEGEVQLKNLQKETTVYFDDFGVPHIYA
+DSEKDAMTALGYVHAQERLWQMELLRRIAPGRLSEIFGSVALKNDKFFSGIGIEEASAKA
+IAKLDPNSQSYKMTMAYLDGINQYMEEGVTPIEFTLVGVKKEKFTIKDVYNIFGYMSFSF
+AMAQKTDPLLTFIRDKYGVEYLKDLGIEGEFNTTRIKNSKENIEEYTTISKSVAALLENS
+LIPPFVGSNSWVAGPTKTKSGKVIFANDPHISFSQPATWYEAHLVTPDFELYGCYLAGTP
+YPLLAHNRNYAYGLTMFENDDIDFYQEKNKEGDSNQYQTPTGFAAYTSIKKTIKVKDTSD
+VVLTVKSSRHGPIMNDVLDRLGKKNLIAMSWVYTQQPIQILDAVYGLSHAKNKDDFRKAV
+SLVAAPGLNVMYGDAKGNVAWWATGALYKHDKGVNTFLILDGASGKDDIKEHLDFSKNPS
+AENPKWGYVYSANNQPEAIDGFLYPGYYLPEDRAKRISGLMDAKSDWDKEAISKMIFDNT
+SLVSPGVVQRLISTVAGSSLSAEEKEAINALQSWKGTNNTEDVGPTIYNKWVYLYLKNTF
+EDEMGADNFTLYLDTSLGKQIIARQIQNENSVWWDNIKTKNVKETRSDIVLKSFHEAIAE
+LQEQFGNQVADWNWGKAHTVEHEHPLGKVAALRSLFNVGPFAAPGSNEVINNQFFGFNKE
+GKYHVKGGPSTRRVVDFSDIENSWSILPTGQSGNPFSKHYDDQAEMYNAGKFRKMKLNKE
+EIIKTSTKLVFKPAGK
+>tr|A0A1S1J2S0|A0A1S1J2S0_9FLAO
+MTSEILHAKLKENFGFEKFRPNQETIITTILSGQDTLAIMPTGGGKSICFQLPALVLPGI
+TIVISPLIALMKDQVDSLKTNGINACYINSSQSSQEQQFYIDNLKSNTFKLVYIAPESLS
+YLDVAFNELTISLIAIDEAHCISSWGHDFRPAYTNLGYLKSRFPSTPVLALTATADKATR
+TDIIKQLKLRNPKTFVASFDRKNLSLEVRPALDRVKQIVDFIDKKPNESGIVYCLSRKTT
+EELADKLKKNGITAKAYHAGLDNKIRAKTQDDFINDDCQVVCATIAFGMGIDKSNVRWVI
+HYNLPKNIEGYYQEIGRAGRDGLPAETVMFESYADVIQLQKFASEGLNSDVQLAKLERMK
+QYADALSCRRKILLSYFGELVKENCGNCDICKNPPTFFDGTILAQKALSAIARLKESEPL
+AVIVDFLRGSRNAYIYEKNYQSLKTYGIGSDISWYDWNQYLIQLINLGYLEVAFHQHNKI
+LLTSFAKKVLFEGEKVKLNTVVKKVIDKNEVKEANTKTAKNSLFETLRKLRYEIAQEEEV
+PAYVIFSDAALRQMEILRPMTDEEFLAIDGVGNAKLERYGAEFIKAIIQFQKAKKTSTKV
+KKESNTYKTTLELFRNGETVTEIAGKRNLGYTTIISHLAKLYLDGEEIDLSSFVTNEEVK
+QLHKAQIELEYPSALKPYFDYFEEKMSYDKIRLGLAIVERNK
+>tr|A0A1S1JA47|A0A1S1JA47_9FLAO
+MITKKVNNVQEAIEGIESGMTIMFGGFGLCGIPENTIAALVNTSISDLTCISNNAGVDDF
+GLGLLLQKKQIKKMISSYVGENAEFERQMLSGELEVELTPQGTLAERCRAAQAGIPAFFT
+PAGYGTEVAEGKEVREFNGKMHIMEQAFKAEFAIVKAWKGDEAGNLIFKGTARNFNACMA
+GAGKITIAEVEELVPVGTLDPNQIHIPGIMVQRIFQGEKFEKRIEQRTVRQRA
+>tr|A0A1S1JBW3|A0A1S1JBW3_9FLAO
+MKELSYLNKYFIKYKYSFSLGILITIIAQIFSLFTPKLISKSLNAIEKFDKLPKADQSSQ
+IVIDSYREGLIHNVLLIIATTIVAGFLTFLMRQTLIVMSRHIEFDLKNEVFKQYERLSQN
+FYKQNRTGDLMNRISEDVSKVRMYVGPAVMYTINTFIRFAIVIIYMYNVSPLLTLYTILP
+LPILSYCIFKLSSEINKRSTTFQQYLSKVSSFTQEIFSGIRVIKANSLENQHQNNMVALA
+DESKKKSLDLAKVQSLFGPLMIALIGISNLVVIYFGGVMYINGTIPNIGTIAEFILYVNM
+LTWPVASLGWVSSMVQEAEASQKRLNEFLKIEPEIKNNNENHSDIEGTISFENVSYTYED
+TNIEALKNVTFTVKKGETLAILGKTGSGKSTILSLISRLYDVTEGKITIDQNEISGLNLY
+DLRNNVGIVPQDAFLFSDTIKNNIKFGNQNATDEEVIEAAKNAVVHDNIIAFNKQYDTVL
+GERGITLSGGQKQRVSIARAIIKNPAILLFDDCLSAVDTETEETILSNLFEICKDKTTII
+VSHRVSSAKNADKIIILEDGKIIQQGSHNQLINQEGYYASLYLKQLSEKELL
+>tr|A0A1S1J2H9|A0A1S1J2H9_9FLAO
+MKNFKPNSKIKSPQKGLLFSALLAAQFSFAQNNPNADFKGVIGKTLADSKEYWPEPVKAP
+TGAPNIVWILLDDVGFGASSAFGGLIQTPTFDNLANNGLRYTNFHTTAICAPTRSAILTG
+RNSGKVHVSGFSHTVLSAGFPGWDGRIPSDKGTIAEILRDKGYNTFAVGKYGLTPDEEAT
+DAGPFDRWPTGKGFEHFFGFLGSQTDQYKPDLVEDNAHVTPDGRHLTDQITDKAISYITK
+QHKAAPDKPFFLYYAPGAVHAPHQVAESWIEPYKGKFDEGWDAYREKVLANQKKLGVVPA
+NAVLPERNPLITDWKKLTPDQKKVYARFMEVYAGYLTYTDHEIGRIVEHLKQSNQLDNTL
+IFVAIGDNGASKEGTTQGTINQSLFAQGGSDEENLQKNLNNIGEIGTAKGLNTNYPLGWA
+QATNVPFKNWKQDAQSEGGTRNPLIVFYPKGIKDKGGIRNQYSHVTDLLPTTLDIAGIKA
+PEYIREIKQDAIQGSTFYASLNDAKAPSLHTVQYYYIFGNRAIYKDGWKAGAAHLPDSFA
+VKKSLGKNEKPAESNFDADVWELYNLNEDFNERNDLAKKYPEKLAELKKLFDEQAKENNV
+YPLIDWQDVYNRRIHNTTADKGKTLQDLIQQATRPGNSK
+>tr|A0A1S1J3V2|A0A1S1J3V2_9FLAO
+MKEDIIFNLKQVHQRMENACKSSGRNVSDVKLLLATKTVSPADIQIAIDAGETLLGENKM
+QELRDKNPALKDLKIERHFIGHLQTNKVKDVLKYVTCIQSLDRLSLANELDRQLQKEGRT
+LEVFIQVNTSFEESKFGLPPTEVLSFIQKIKRYETLKIKGLMTIGLLDVEKEKMRPSLRL
+LRKTRDEIYAAEIEGINNLQLSMGMSQDLELAIAEGSNLIRIGTSIFGNRFLGKEIWNEN
+IAE
+>tr|A0A1S1J5P3|A0A1S1J5P3_9FLAO
+MKKNRLLAKWLNNDLSQDELAEFEASPDFEKYQKIKNYTAHLEVGDLDENAMLSNILNQK
+TVTPKAIPLYKNWMFRAAAVFVLVLGITFVMKLLVPQTQIANFGEKTTFSLPDNSEVVLN
+SGSEISYKKWNWVNNRHLELKGEAYFKVAKGQRFEVQTSLGKVSVLGTQFNVKVRKNKFD
+VVCYEGRVRVNYANTQIVLTHGQSVNFENGKQVNTTINSLKPEWIDNQIFFYQENIRTIL
+DEVERQYNITIELNTKDTTSLFTGKLPAKDLNTAIQIISTTYHLEAKKVSKNKIIFDEK
+>tr|A0A1S1J5R7|A0A1S1J5R7_9FLAO
+MKSKTLQITLVYIIISLFVAIICHKLLTTYFSKTDYYIVFFLKDIFFILSTALFFKYILS
+KNEKKNITIFKKLKETNEEIKESNEKYDIVAKATSDTIWDWKIQEDSINWNKGIENVFGY
+NPTEVGKTSKWWFDKIHPEDSIRMSIKLYSFIEQKTEKWQDQYRFKCADGSYKYVLDRGF
+LLKDENGRAIRMIGAIQDITKQKEEEQRLRLLETVITQSKDSILITEANSPDRKIPKIVY
+VNPAFSQMSGYMSNEIIGKSPNIFKGPKSDSEELKKLLRAIKNEEECLIETITYTKSKEE
+YWVRFSMIPIFNTEGVISHWISIQRDITDEKKLETEKEHLIRELTQNNKDLKQFSYITSH
+NLRAPLSNLIGLLNLIEDIPVENEELEEILSGFTKSTHLLNETINDLVKVIIIKDNPSMQ
+KEEVSLQEVFENVFSQLSFQIELHKPIIKLKFDKVPLLNTNKAYIESILLNLLTNSIKYK
+SENRKLKISITAEQIDQKAILTFKDNGIGIDLERNRDKVFGLYQRFHNYPDSKGLGLYLV
+KSQVETMGGTISIDSEVNKGTTFTITFKN
+>tr|A0A1S1J6L1|A0A1S1J6L1_9FLAO
+MKIACYDCNTETELRVGFEVVNFVCPNCQSLYTRDSEGMFRRRSKYKTTLNDFPLAIGDI
+GFLKGSEYKVTGILVKKVHPDYRWTEFILENHENECIYLSVSNGHWILLTEMEEVFEVKK
+HPLILEHNNKDYNIFEYSDAAIINAQGFFDFELPQNKNIHLVEYIRPPYMISVERMNGVE
+TAFYGEYIKKEEIKKAFKNVVLPYKFGVNMIQPSRFNLNNTAIIFCCIAALLIATNWFIY
+KDQFKQKVFSKSIKFAEFDNKEITSDAFILNGGSAPLSITVATDVDNSWANLNVALVNEM
+TNDEIYANKDIEFYHGYSDGESWTEGDNMEKFNICGVKAGRYHLLITPMKAPEDVNNSEM
+RVNVVWNEPSNRNVWMVVIAMIVIYLIIWFFTYNFEKERWADSSYSRYDE
+>tr|A0A1S1J8D6|A0A1S1J8D6_9FLAO
+MKIEFYKDDLNYKSDKMNSLGIIVLTDRFVFHHEFTNYCFIIIRECVAKFFIHKSYVKDV
+SFFC
+>tr|A0A1S1JAT8|A0A1S1JAT8_9FLAO
+MANTYHQVYIQAVFAVKYREALINSEWKSKFLSILGHLINETGCKTIIVNGTENHVHCFL
+GLKPNISISELMKTIKAKSSKYINDHKLTKSRFEWQEGYGVFSYSQSHVDAVYKYIQNQE
+EHHKKQSFKEEYFTFLERFQVSYDEKYLFNDLI
+>tr|A0A1S1JB84|A0A1S1JB84_9FLAO
+MLKTNKKTKIVATLGPACSTREIIKDMIEAGVNVFRINFSHADYDGVKDKINIIRGLNEE
+FGYTTAILGDLQGPKLRVGVMEEGTVVNDGDVITFTTAEDIIGNAQKVFMKYQNFPNDVN
+PGERILLDDGKLIFEILTTDKKTEVTAKVIQGGELKSKKGVNLPNTKISLPALTEKDIAD
+AIFAIEQKVDWIALSFVKTPRDLQDLQELIAKHSEHKIPIVAKIEMPEALENMDKIVAYC
+DALMVARGDLGVELPAHEVPLVQKDLIRRAKTARIPVIVATQMMETMITSLTPTRAEVND
+VANSVMDGADAVMLSGETATGNYPVQVIQKMTQICEAVEDSPLIQVPQNTPQIKTKRFVT
+KTVCHQAALLANEIKAKAICTLTNSGYTAFQISAWRPSAHILVFTSNRRILTQLNLLWGV
+RSYFYDKDESTDDTVTDVNEIAREKGYVVKGDYLINLAAMPIKEKGMVNTMRVSEIE
+>tr|A0A1S1J2G0|A0A1S1J2G0_9FLAO
+MGAPAARITDMHVCPMVTGTVPHVGGPILPAGSPTVLIGGVPAACVGDMATCTGPPDTIA
+AGSATVLIGGKPAARMGDSTAHGGTIVAGLATVLIG
+>tr|A0A1S1JEB3|A0A1S1JEB3_9FLAO
+MFNNFKMSMLSLRVRIFLSMIVLIVVASFLLASISIIQFKNEAKEYHQERLERKENAVKE
+HINYVLSTTTYPLKTANLDLIFKDKIHELAQIHKIEINIYSLDGKLLKSSKESFAVDKVA
+PPIPEYILKLVRSSIEKRFVDIKTIDGVKNRSSYSLIKDEKFKPLGILNLPYLEDDGYYD
+NELNTFLIRLSQVYSFMLIVAFGLAYFLSTYITKSLKTISDKLEETNLDQKNEKIVLEAN
+SKEVNFLIKAYNGMVDKLETSAIKLAQSEREEAWREMAKQVAHEIKNPLTPMRLTVQSFQ
+RKFDPTAPDVKQKLNDYSETLIQQIDTMTAVASAFSNFASMPAQQNETLNVVEVVELALD
+IFNEDYIVFESEEEEIISKMDRTQLIRVITNLVKNATQAIPESQFHKSIVVTVKRIDDDV
+EIAVKDNGIGIQKQDISRIFEPKFTTKTSGMGLGLGIIKNIIENYKGTITFESTYGKGTT
+FRVSLPITNS
+>tr|A0A1S1IYW6|A0A1S1IYW6_9FLAO
+MLKTVNILNKRARFDYEIIDTYTAGIVLSGTEIKSIRLGKANITESFCEFNNMELFAINT
+YIEEYSFGNQFNHKSRSERKLLLNKKELKTLHKNVQAKGLTIVPLKLFTNEKGLAKLQIG
+LCKGKKNYDKRESLKEQDTKRDLDRIKKAYN
+>tr|A0A1S1J551|A0A1S1J551_9FLAO
+MKEKTIDYILRATWQAVSRMYNEEAAKYDATMATGFALLSIDKEEGTPSTALGPRMGMEA
+TSLTRTLKSMEDKGLIVRKKNPTDGRGVLIYLTEFGKEKRDLSKNTVLKFNETVRKHVSD
+EKLNHFIEVSEIINELIQDKNIFNQTEKSENE
+>tr|A0A1S1J5S2|A0A1S1J5S2_9FLAO
+MSTTITPFVAFKVKDISLAAWGRKEIELAEAEMPGLMALRAEYKDEQPLKGARIAGCLHM
+TIQTAVLIETLIALGAEVTWSSCNIFSTQDQAAAAIAAAGIQVYAWKGLDEQSFDWCIEQ
+TLFFGEDRKPLNMILDDGGDLTNMVIDRFPELVPGIKGLSEETTTGVHRLYERVKAGTLP
+MPAININDSVTKSKFDNKYGCKESAVDAVRRATDLMLAGKRVVVCGYGDVGKGTAASFRG
+AGSIVTVTEIDPICALQAAMDGYEVKKLNTVIANADIIITTTGNKDIVLGEHFEQMKDKT
+VVCNIGHFDNEIDMAWLNKNHGASKIEIKPQVDKYTIAGKDIIILAEGRLVNLGCATGHP
+SFVMSNSFTNQTLAQIELWNNSAAYNNDVYMLPKHLDEKVAALHLAKLGVELEVLREDQA
+AYIGVEVQGPFKPEYYRY
+>tr|A0A1S1J9Z2|A0A1S1J9Z2_9FLAO
+MNLNEFAYKLGVLGTVIILLWVGLFKFTAVEAGAIKELVENHFAMGWMYKVMSVQQVSNL
+IGIFEVLTGIGLLASLFLRRIGFYAGFASAVIFVTTLSFLATTPGVFKMVEGFPVTDFFI
+LKDIPYLAISLMVFVNGKE
+>tr|A0A1S1J9U9|A0A1S1J9U9_9FLAO
+MGKKFLRFEFLLLFAVFIIATCGLIYELVAGTLASYLLGDSVKQFSFIIGVYLFSMGIGS
+FFSKFFHKNLLNTFVEIEILVGLIGGLSSVVLFLLFESVESFQFILYLFVFVTGFLVGLE
+IPLLMNILKDKVEFKDLVSNVFTFDYIGALLASILFPLVLVPKLGIMGTSLFFGMINVSI
+AIVLCFLLTKELKKPYFLKVKAIFSFGVLLTVFIFSDVILSYSEGKLYGENIIYTNTTPY
+QRIVLTHNKSDYRLYLNNNLQFSSVDEYRYHEALVHPAMSMAKAVKNVLVLGGGDGLAVR
+EILKYKEVQKVTLVDLDEGMTRLFKTNKVLTKFNQNSLNNPKVTVINTDAYIWAKSCQEK
+FDVAIIDFPDPSNYSLGKLYSLNFYQTIKGILKPNAAVVIQTTSPYFAPKSFWCINKTVM
+QVFPQVDAYHAYVPSFGEWGYTIAINGFGSGFNEVNRKSPGLKFYNYQFDRFNYFTNDMI
+SNEIEINRLDNQILVRYFDEEWGKLQ
+>tr|A0A1S1J2F9|A0A1S1J2F9_9FLAO
+MENKNIWEKLGTIGTFLSTTVLTIFTAIVGYQTSVMSDKVATFEKRINENRMISELIEKF
+ETSMKGTIKSDLALLTLERYLRNNTEGGVLAVQDREMLVGFAESLILNTKKNDINIKELS
+YKVPRDFLMKYDLKRWNDIVAKYGPIKTDYIGSKQNVSDSTITYQQPVYQVADTQKATLV
+TSILDKIVYIQYESDVEIKKVEKMQQIFKDNQWAAPGIDKVNGKFSNIIKYFHPEDERLA
+KEANKILEGKYKIVNSITPKYQKLVPKGQIEVWTSN
+>tr|A0A1S1J6H2|A0A1S1J6H2_9FLAO
+MSKTLFDKVWDSHVVRKIEDGPDVFFIDRHFIHEVTSPVAFLGLKARGVSVLYPERTFAT
+ADHNTPTINQHLPVQDALSANQLKALEDNANEYGISHWGLGHIKNGIVHVVGPENGITLP
+GATIVCGDSHTSTHGAFGAIAFGIGTSEVEMVLSTQCIMQPKPKKMRINVNGQLSKGVGP
+KDVALYIIAQLTTSGGTGYFVEYAGDVFENMTMEGRMTVCNLSIEMGARGGMIAPDQTTF
+DFLEGRLFTPKGEAWDKAVAYWKTLKTDPDAVFDAELNINASDIEPMITYGTNPGMGIGI
+SKHIPNAKEVEGGEETYKKSLAYMGFKEDDVMIGKPIDYVFLGSCTNGRIEDFRAFAEIV
+KGRKKADNVTAWLVPGSHVVEAQIKEEGILDILTDAGFVLRQPGCSACLAMNDDKVPAGK
+YAVSTSNRNFEGRQGPGSRTLLASPIMAAAAAVTGKLTDPRELF
+>tr|A0A1S1J0Y8|A0A1S1J0Y8_9FLAO
+MYEQKYIDREKSWLAFNARVLQEAGDSSVPLLDRLRFVGIFSNNLDEFFRVRYAAIRRLS
+LSGISGEKYLGGVSAHQLIKDITEIVIQQQSESLRILGNIEAELEAENIFIINEDQITRD
+QESYLKDFFVQKLSPELVTIILNDLAEFPVLKDTLGYLAVRLEMNTNDEVRYAVIEIPKT
+INRFVVLPSEDDKQYVILIDDVIRYNLKNIFNIFDYKSVSAHMIKITRDAQLDIDSDLSK
+SMLEKIASSVKDRRIGEPVRFIYDNLIEEDTLRFFLDKMKIVETDSIIPGGRYHNRRDYM
+SFPNLGRYDLLYKPNEPLPIPGLSLEGSILEKMSKKDYLLHAPYQSFSYLTKFLREAALD
+PKVTSIKITLYRLAKNSQIISSLINAAKNGKKVTVQIELQARFDEASNISYAEQMQTEGI
+DLIFGIKGLKVHSKICVIERVEEGKTRRYGFISTGNFNESTAKIYTDVTLFTCHQQILKD
+ISKIFEFFDINYRVHRYKHLIVSPHYTRTKFIKLIDREILHALAGRKTHIKLKMNSLSDF
+KMIDKLYEASNAGVKIQLQVRGICSLIPGIPGMSENIEAISIVDNYLEHSRVYIFGNAGL
+TEVYISSADFMTRNLDGRVEVTCPIYDLQIKKELIDNFNIAWKGNVKVRYHSYKLDNKYK
+PRNHHAPFRAQFETYKYYQNKITVQEEVV
+>tr|A0A1S1JBC4|A0A1S1JBC4_9FLAO
+MELDEKKYLYLLFLLPIVACIFLFNMYWKKKKQREFGDLEMVKRLSPERSVFKPVLKLSV
+LLLALACLIIGLVNPKIGTKMETVKREGIDIVFAVDVSKSMLAEDVAPSRLEKSKQLVSQ
+IINNLGSDRIGIVAYAGSAFPVLPITSDYSVAKMFLQSMTPDMVSSQGTSLDEAIRLSST
+YFDEKSKTSKLLILISDGEDHSEGATAAAEEANKMGMKIITIGVGTEKGGTIPLKENGVV
+RGYQKDQNGQTVTTKLNQEDLKNIAKATKGGYVYGGNTKEVLEYIKNALNNIQKTEFEAT
+QMADFQSQFQWFIGFAFLLLFLDIFLLERKTNWIKELNLFNEKK
+>tr|A0A1S1J7K4|A0A1S1J7K4_9FLAO
+MTQNSKIYYTLTDEAPLLATYSFLPIVQAFTGTAGIAIETRDISLAGRILSNFPELLTAA
+QKTGDALAELGQLATQPDANIIKLPNISASVPQLKAAIAELKSHGYGIPNYPEDPQNDAE
+KEIKAKYAKVLGSAVNPVLREGNSDRRAPRAVKNFAKSNPHSMGAWSADSKTKVASMPSG
+DFYGSEKSLTVAEANDVKIEFVAKDGTTTVLKASTPLKAGEIIDSSVLSVKKLKAFAADA
+IADAKKEGVLLSVHLKATMMKVSDPIIFGAIVEVYFADLFKKYETLFAELNIDTRNGLGD
+IYAKIAGRPEQAEVEADITKAIENGPALAMVNSDKGITNLHVPSDVIVDASMPAMIRTSG
+QMYNKEGKQQDTIAVIPDRSYAGIYTATIDFCKKHGAFDPKTMGSVPNVGLMAQKAEEYG
+SHDKTFQIKADGVVRVTDNKGTVLMEQNVETNDIFRMCQAKDAPIQDWVKLAVNRARLSD
+TPAVFWLDENRAHDRELIAKVQKYLKDHNTVNLDIRILNPVAATEFTLDRIIKGLDTISV
+TGNVLRDYLTDLFPILELGTSAKMLSIVPLMNGGGLFETGAGGSAPKHVEQFTEEGYLRW
+DSLGEFLALGASLEHLGQTLDNSKAIVLSETLDQANDKFLANDKSPARKVGQIDNRGSHF
+YLAYYWAQALAAQNKDAELKAIFTPIAAEFEANEAKIDAELIDAQGKSQTIGGYYQPTPE
+LVSKAMRPSETFNSIIAQIK
+>tr|A0A1S1J7Q5|A0A1S1J7Q5_9FLAO
+MSFINSIIKVFVGDKSQKDVKALQPYLNKIKTFETSLMSLSHDELRARTVFFKERIKEAR
+ADKDAKIASLKAEVENIEDIDKREDLYDAIDTLEKEAYEISEKTLLEILPEAFSVVKETA
+RRFKENSHIEVTATAKDREFSATKPYVVIDGEKSVWANKWNAAGKDITWDMIHYDVQLIG
+GMVLHEGKVAEMQTGEGKTLVATLPLYLNALTGNGVHLVTVNDYLAKRDSTWKAPLFEFH
+GLTVDCIDNHQPSTEQRKKAYDADITYGTNNEFGFDYLRDNMAHSPSDLVQRKHNYAIVD
+EVDSVLIDDARTPLIISGPVPQGDRHEFNELKPKIENLVAQQRQLANGFLAEAKKLIKEG
+NTKEGGFLLLRAYRSLPKNKALIKFLSEEGIKQLLQKTENQYMQDNNREMHKVDEALYFV
+IEEKNNQVELTDNGIQYLSGDTDPDFFVLPDIGTEIAAIEKQKLDKDGEAEAKERLFQDF
+GVKSERIHTLTQLLKAYALFEKDVEYVIMDNKIMIVDEQTGRIMDGRRYSDGLHQAIEAK
+ENVKIEAATQTFATVTLQNYFRMYSKLGGMTGTAVTEAGELWQIYKLDVVEIPTNRPIAR
+QDKEDYIYKTTREKFNAVIEDVTELSNAGRPVLIGTTSVEISELLSRMLKMRGVTHNVLN
+AKMHKQEAQIVEEAGKAGVVTIATNMAGRGTDIKLTPEVKAAGGLAIVGTERHDSRRVDR
+QLRGRAGRQGDPGSSQFYVSLEDNLMRLFGSERVAKVMDRMGLQEGEVIQHSMMTKSIER
+AQKKVEENNFGVRKRLLEYDDVMNSQREVVYKRRRHALFGERLKLDIANMLYDTCELIVS
+QNKAANDFKTFEFDLIRYFSITSPISEADFTKLSDIEITGKIYKETLAFYTEKTERSARE
+AFPIIKGVYEEPNNHFERIVVPFTDGIKTLNVVTDLKKAYDSEGAQLIADFEKNITLSIV
+DEAWKKHLRKMDELKQSVQLAVHEQKDPLLIYKLEAFNLFRGMLDNVNREVISFLFKGDL
+PAQNVPEIHEAKEVRQKENFKLSKDEIVNSEEINREAGETQQRQVTETIVRDMPKINRND
+TVTVQEVATGKTETMKFKKAESLVASGEWVIVK
+>tr|A0A1S1J9C6|A0A1S1J9C6_9FLAO
+MNNAVAGFSKLSKKEKINWIANTYFSSPEEALSIIRNYWNTDEKLQQLHDEFIENTITNL
+YIPLGVAPNFLINGKYTTIPMAIEESSVVAAASKAAKYWSTRGGFKATVMATEKIGQVHF
+TFNGDADKLQSFFDKIKPKFFTDTQSITKNMQQRGGGILDIKLKDKRSLLENYFQLHATF
+ETKDSMGANFINSCLEQFATTLKDEFHHSDLFSEDETLKVIMSILSNYVPNCIVRAEVSC
+PIEDLTEKHIPNPQEFAERFVQAVQIAEVEPFRAVTHNKGIMNGIDAVILATGNDFRAVE
+AGVHAYASKNGQYSSLSHAKIEDGIFTFWLEIPLALGTVGGLTSLHPLVKLCFDILEKPS
+AKELMEIVAVAGLAQNFAALRSLTTTGIQEGHMKMHLNNIINQFEATEEERHLIKTHFKK
+SAVSHSAVVEFIENLRKK
+>tr|A0A1S1J9W0|A0A1S1J9W0_9FLAO
+MSSKVSFLFLLLLCFGYHGHSQKSNTPARLNDSTVVTSDGVPLFLKVSGKGDLCIFLHGG
+PGAWSKSFEEMGGNVLEDKLTICYFDQRGCGRSASSPDNNYSLNRMLEDIEDIRKTLNTE
+KVFIMGHSFGGILASAYAQKYPEHVKGLILLNATLDINDSLLNQIDFMGKTLGENITVKN
+NETALDTFIASKKRIKKAGKDYMILSDSKQNVEKLDSIDSSFKRNYSFGQQALSMPVYLS
+NFTKQTSLIKVPVLIITGSQDHSIGPDHYRMFQFPNREVKIIKGGHILYYEKNKEFKNAV
+QAFVQKTASK
+>tr|A0A1S1JF15|A0A1S1JF15_9FLAO
+MKKLALSVAVVLGSLSVSANTVVAQEQIKIAVDVQTEYTEVAADAVPAAVKTALQTAYPG
+AKLAKAWVNEKKEYKLEISVGDQKATVFSDVNGNWLKI
+>tr|A0A1S1JFK7|A0A1S1JFK7_9FLAO
+MIKNLIQTLQSLNIRLRIENGDLKINAPKGALTPEIIASIKACKNELIKLLSSSESIPKA
+AIKESYALTSPQQQLWTLSQFEGGNSAYNIFDAYEFKGALNFEKLNQTFKILMERHESLR
+TVFKEDEQGVLGQYIIPFAQYSGVLQFTDLNNATTEALSNHANALQRHTFDLEKGPLFLG
+EIVKTATDHHILMLNMHHIIGDGWSMGILSKEFMAIYNELAIGNEIILPDLPIQYKDYSE
+WQNSPSRQAILEKSKAAWLETFSGDLPVLELPSDRTRPNFKTYNGSGVYHFFSKESTTAL
+NAYAQQNGVTLFMLLMAGINGILSRYANTRDIILGTPVAGRKHGDLENQVGLYLNTLAIR
+TTFEATASFEELLTVQKETLLKAYSHQDYPFDSLVEALNLKRDLSRSVLFDVLVVFQNQE
+ELLTSQGLVLNGLEITPYKNQEKSVSKFDLNFSFSEKQDQLSLVIDYNTDIYELDFVMRL
+ASHLDSFLRKGIQNPNQEVASIDYISSSEKAILLEDFSTSKAEALVETTAVEMFEQQAGQ
+TPDAVAVVFENRSLTYKELDELSSQLAHYLLKEYEIKTEDLIAVKLERSEWIYTSLLAVL
+KTGGVYVPIDPGYPEQRIAYIEQDSACKVVIDEKLLANFISRQDNYPTTLPVISLTPENL
+MYVIYTSGSTGQPKGVMIEHKSLVNYILNQKEEFGFDASDRIVQFSNNAFDASMEQIFLA
+LLSGATLIGASKERIIDPTDFINLLKEHRVTHLHATPGYLSHLEHLSACKTLKRIVAAGE
+VCPKNLAEKMIKIADFYNKYGPTEATISAVMGRVEQSDLQRNLVSIGKPLKDSQIYILSD
+NLELQPIGVFGELCISGNSLSRGYLNNAELTEEKFIAHPLIAGARLYKTGDLGRWLPDGS
+IELTGRKDQQVKVRGHRIELGEIEHALLTQDSVSQCVVTVQNIETEPAIVAYVVGEKELD
+KQELRAQLSQYLPDYMLPGYYVQLDAIALTSHGKVDLKALPKVDANDKIQQEYTAPETVL
+EKQLAGIWEEILGIKTIGTTDNFFELGGHSLKVILVANKINRQLGYQISVKDVFLNPTIS
+GIISKLEEGTFTAIPKAEQQESYVLSSSQHRLWILSQFEGGSQAYNIPGSFEVEGNLNTA
+QLTEAFNLLIARHETLRTYFKRDDQGEVRQFVIDAKDIDFKVDYEDFTSVENQQAIVEER
+IIQSYQHQFDLEKAPLVNLKLIRRSENKHLLLFNMHHIISDGWSMGILSQELITIYDHLT
+QNKTISLPELSIQYKDYAIWMRSEEQTVKLKKSEAYWLDIFSGNLPVLELPTEKIRPRIK
+TYAGDSITHNFSKEASVNLKTFSEQHNSSLFMTLMAAINGLLSRYTNTRDLILGTPIAGR
+EHSDLENQIGLYLNTLAIRTRFEETADFETLLQIQKETLLDAYSHQEYPLDNLVEQLGLG
+RDTSRSALFDVLVVLQNQQDLFGSNAEQIESLTLKPYKANPRKVSQFDLSFIFSEQQGEL
+NLHIEYNTDIYESEFVVRLAAHLENFLTKAIQNPEQKVATLNYLSEAETTQLLQDFNDTA
+VDYSKDHTMVDLFVNQAKKTPEQIALVTDTKSFTYKELDEVSNELSHYLLSNYNLAVEDL
+VGVKLGRSEWLPIALLAVLKSGCAYVPIDPNYPAQRIEYIEQDSKCKITIDDSFIESFKQ
+AEFISKSLPQISFSSEHLGYIIYTSGSTGKPKGVMITHQNAVAMLCWSQREFSDTDFDIL
+YAVTSHCFDLSVYEFFYPLSIGKQIRLLANGLSIGDYIQSDKNVLINTVPSVIHTLIEKG
+TTFENAVGINLAGEAFPVSIANHFTDSGIAIRNLYGPSEDTTYSSYYRVEGTYENSVPIG
+KALDNTQFYVLSEELALQPVGVIGEICISGDGLSRGYLYQPELTAEKFITNPFNENTKLY
+KTGDLGKWLPDGTIAYIGRKDSQVKIRGHRIELGEIEQVLQSQEDIDQCVVITATVNGDP
+VIVSYLVSTATIDKQQLRQSLSRELPEYMLPSFYVFLDKFPLTPNGKIDKKALPSVSTED
+VIQQEYVAPTNEIEEKLVAIWQDILKREKIGITNNFFELGGNSLTASVLINRINRAFDTR
+LTIQDLYETQDITGVFRKLKFILFQNELTVETADDLDEILI
+>tr|A0A1S1JC40|A0A1S1JC40_9FLAO
+MKKSILSILLLGVSYFTNAQQIKTNVDVHNVQKGKGTVVLNVYDKKENFLKRACFTKVQK
+VNQETMKFQIDLPRGTYSITVYQDLDNNGKLNSNWLGMPKEPVGNSTNFMPDGGAPTFQD
+CSVYILNNDATIKINLY
+>tr|A0A1S1J360|A0A1S1J360_9FLAO
+MKNLKTIAIALFVAVAGLSVNAQTKKIDVKASTIKWVGKKVTGEHSGTVNFKEGAVVFKG
+KKLTGGNFTVDMTSLTATDLTGEYQGKLNGHLKADDFFGTEKFPTAKLVFKTIGAKSTDV
+YTVTADLTIKGITKPVTFDIAVKGNTATTAFKVDRTKYDIKYNSGNFFQNLGDKTINDEF
+ELTVALKF
+>tr|A0A1S1J550|A0A1S1J550_9FLAO
+MSRIGKSPIVIPADVTVEVKDGIITVKGKKGQLSQEFSDVTVKVEGDQVQVERSSDHKDQ
+RAKHGLYRSLISNMIVGVSEGFTKELELVGVGYRASNQGQKLDLALGYSHNIVLEIAPEV
+SLETISEKGKNPIVKLTSFDKQLLGQVAAKIRGFRKPEPYKGKGVKFVGEVLRRKAGKSA
+>tr|A0A1S1J5D3|A0A1S1J5D3_9FLAO
+MNLSILIPLLNEEESLKELYSWIIKVMQSNNYSYEIIFVDDGSTDDSWNIIESFSNENPN
+VKGIRFMKNFGKSQALHAGFAKAQGDVIITMDADLQDSPDEIPGLYEMITVQKFDLVSGW
+KKKRYDSVVAKNLPSKLFNWAARKTSGVELNDFNCGLKAYKNAVVKNVEVSGEMHRYIPV
+LAKNAGFNKIGEKVVIHQARKYGETKFGMERFINGFLDLITIWFLSRFGKRPMHLFGAIG
+SLMFIIGFLLAGYIGISKLYHMYNGMKYSLITNNPWFFIALTTMILGTQLFLAGFLGEII
+LRTKNNEARYKVAREVNF
+>tr|A0A1S1J7K5|A0A1S1J7K5_9FLAO
+MKNSIVFLVLLAINFCLGQSKFNQKESEKFQKTINSEYADAKTSPLMAEDLKTFKSLDFY
+PINAKYFVTAKLEKAQNEKVFEMKTTGTRTPKYIKYGTLYFTIDGVALKLNVYRNIELSK
+TKEYKDHLFLPFSDLTSGKGSYIGGRYIDLKVPKGNTIAVDFNMAYNPYCAYNHKYSCPI
+VPLENDLNVEIKAGVKAFH
+>tr|A0A1S1J9K2|A0A1S1J9K2_9FLAO
+MKDRIISVDVLRGLTVLLMTVVNNPGSWDYVYPILDHAKWNGCTLADLVFPFFILVVGIA
+IPLAMPIKQDKPENILKIITRSLRIICLGFFLYFFNSIYFLGLDGFPLLLVRLILTFLVG
+YALIGNFNLRIKTILAVGLFIIFLALAYGGHENFSDVRLPGVLQRIGVVYLLVSLVYLKT
+NVKTQIILSALILLGYWAIMTLVPVPGIGPANLEPGTNLASWLDSILLKDHMYIATKTWD
+PEGILSTVPTIANGLIGLLIGQLLLKPIPKTEIAKKMGILSVALIISGLLWALFFPINKA
+LWSSSYVLFTAGIGLFLLTLVYYVVDILNHKKWTTFLLSWGVNPMIVFFVSGILPRALAM
+IKIQNPQNISETINVRDYAYQYWISPLFENQLLSSLTYSVLYVLLWSCVLGYFYKKRLIF
+KV
+>tr|A0A1S1IXM6|A0A1S1IXM6_9FLAO
+MDTLQFLNYLTEENITIQLSEDNLKISYTSEEISEAVMEEIKVRKSEIVEFLKQQQETGI
+EASIPLAPADLMYYPLTPSQTRSWIVSHNWGDNFAYNMSKSFQFEGELDITALEKASQKL
+ISRHESLRTVFAENEGGEICQWIKSPEELNFKISHIDFRGEDISEERLSKFIKEERAIPF
+DLQTGPLLKFYLIRLEEDKWLFYSIIHHIICDSRSFNILIRDLFFFYKAEVMQVDALLPE
+LRIQYKDVAVWKSKRFEDINLSKEKEYWINQLGGELPLLQLPEDYTRPVIRNSEVGMLRR
+TIKAESVKEFKTYCRNEGGTLFTGLMTLFNLLFYKFSEQKDIILGFPVYGRDFSELEDQI
+GFYADTIALRTRFEAQNTFKELFNIVNTNAFNAYENREYPFEEIVNQLQVERNPGRNTLF
+DVFVVLQNFDTDSLEDDFLPGGLKVVEFAELKEGYSAYDLTFNFAESKDGSLFYEIEYNS
+AIYQEETIKRLTDHLEYLMTETIANDKIAISALESIDSSERKRISDWSRNQSNVILSDKS
+IDDSYKTLDFGLYYFGNTGTEENQYEILMIGAAYADLNGYSAVWTPERHFNEFGGPFPNP
+SVLGAAVAARTKNIGIRSGSVVAGLHHPIRIAEEWSVVDNISGGRAGICFASGWNANDFV
+FYPENFKDRKDILLQTIEEVRSLWIGNSVNFKGIDSIEKPFKILPKPVQKEVSVWIACTG
+NIETYKRAGEIGAGILTGLLNLSFDELEEKIAVYRKAYKENNHKEGGDRVVLMLHTYLDE
+TVEKAQEKARPSMKKYLLKSLEMNGKEALEQSNDPSLQKITEKSVDEMLDFSVSKYFKEG
+SLIGNLESSLPILNKVVKAGVNEIACLIDFGIDKTSVLEGLPYITKLKDSFNAVRKEIGA
+TKKEDSSKSIETSVLKLFKEQYLLHPHKIAVSDGADSLTYEVLYQKSENLARYLQSKGAK
+KGMIIPLCINRSVDQLVGILGILLTGAAFLPIDSGFPNKRITQIIDEVNPELLVAQKENT
+SLFSSEIVKVDIDEVPNVRDGIFEAVEIDSSDLAYVIFTSGSTGKPKGVMISHHALENVI
+VSLSEKLELDQTIKFVAVTPLIFDISLLEIFLPLITGGQVVMTNEKEGKDIYHLNNFLKE
+NTVTHMLTTPTRWKMLLDTGWKNTENLVVMAAGEDLDQQLKNNLVALTGTGIWNLYGPTE
+TAIISSLQFLEQDDIVNIGKPIDKTGLYVLSEEKMLMPQGAVGELYIAGSGLALGYFNDK
+ALSDEAFVPNIVDPEMGDLLYKTGDLVKWLPDGTLKYMGRKKNQIKIRGYRIDLKEIENV
+LEQYQSVKKAILSLNEDENGEKELTAYLHSNEKIDYVSLRTFLKSYLPDYMIPEKFKTVK
+EIPVTVNGKADLKKLQLLKNNHTISNQNTFVLARNETEKQLTEIWKDLLKLEEISVNDNF
+FFLGGSSLKLAKMKNEIYKRFSIPPVSLTLLHQLTIASFSVEVEKLLRQTEEVDEVEYEK
+FNI
+>tr|A0A1S1J167|A0A1S1J167_9FLAO
+MKKIQMVDLKSQYEKIKTTVDASIQEVLDTNTYINGPLVHQFQKNLEDYLGAKHVIPCAN
+GTDALQIAMMGLDLKPGDEVITADFTFAATVEVIALLQLTPVLVDVDVVNMNIDIEALKK
+AITPKTKAIVPVHLFGRAANMDAIMEIAAEHNLYVIEDNAQAIGADYISKSGAKNKVGVI
+GHVAATSFFPSKNLGCYGDGGAIFTNDDKLAHIIRGIVNHGMYERYHHDVVGVNSRLDSI
+QAGVLNAKLPLLDEYNAARRLAATKYNAAFAGNTHIITPEFDASQNDHVFHQYVLRIIDA
+DRNALMQYLLDKGIPCAIYYPIPLHSQKAYADSRYKEEQFPVTNQLVKEVIALPMHTELD
+DEQIKFITDSVLEFLNK
+>tr|A0A1S1J1W0|A0A1S1J1W0_9FLAO
+MTAIKESSTIQENKQYALDQCPVTYVMEKIGGYWKPIIIYHLSGGSKRYSELKRAIPAVT
+EKMLIQHLKQLEADHLVIREAKPVVPPFVTYSLSPSGKGLMPVIEAMATWAFKDKEDGFK
+SS
+>tr|A0A1S1J8Y1|A0A1S1J8Y1_9FLAO
+MKKQLLVLLIAVFISFGVNAQVKSSETNVLVLIYSQNGGTYKMAKSIAEGIQEYPNAKAI
+IKRIPSINPKEKLNADVEKLPIATIEELANYDGIAFGSPVHFANISADMSSFFSQSIPLW
+TSRTLEGKPATVFMSAGSGAGKEAAILSFWNILASHGMVIVPTGIMGTATLDKTVPQGNT
+PFGATSLAGSVGTRPSQSELNLAKEQGKALARVASGLKNTETIKAAKTTSIEAKSDINKT
+LKDNNITLPEAPKPVGNYVPFTISDHKVYINQVALKDGKILNPGKVGATVTDDQAKEATY
+QTMLNVIAVLKEACGGDLNKVKQCVQLTGYFNTTPEYTQHAALMNSASNLTALVFGEKGK
+HARATIGAASLPINSAVEIQAIFEIE
+>tr|A0A1S1JDH7|A0A1S1JDH7_9FLAO
+MDRFSFLNAAHTEFFAQLYDQYLVNPDSVEPSWRSFFQGFDFGQTTYNDENPVQRIVEYV
+TNDNVDCSLVSDKLQKEFNVLKLIDAYRTRGHLFTKTNPVRDRRTSSPTLDIENFGLTTA
+DLSTVFDAAQAIGVAPSTLQDIVTRLQTIYCQHIGIEYMYIRNPGVVKWIQDKLAVNVNQ
+PNFSSDEKKTILNKLNQAVSFENFLHTKYVGQKRFSLEGGESIIPALDALIEQAAEKGVE
+QFVMGMAHRGRLNVLANIFGKSTQDIFGEFDGKDYDQEYFDGDVKYHLGLTADKKTRTGK
+NININLAPNPSHLETVGAVIEGITRAKQDKYYPNDFSKVLPIAVHGDAAIAGQGILYEII
+QMSLLDGYKTGGTIHIVINNQVGFTTNYLDARSSTYCTDVAKVTLSPVLHVNADDAEAVV
+HAVSFALDYRMQFGRDVFIDLLGYRKYGHNEGDEPRFTQPVLYKIIAKHKNPRDIYAEKL
+LSDGIIDASYVNALEKEYKSALEENLEASRKKDLTIITPFMQNEWNGFVQVTDTQMLEKT
+DTTFEKKELDSIINTISTLPADKKFINKITKIVTDRKVGYDNNTLDWGTAEALAYGSLLT
+EGFDVRISGQDVERGTFSHRHAVVKVEDSEEEVILLDTIANKKGKFGVFNSLLSEYGVLG
+FDYGYALANPNALTIWEAQFGDFSNGAQIMIDQYISCGEDKWNNQNGIVLLLPHGYEGQG
+AEHSSARMERYLQLCARHNMYVADCTTPANFFHLIRRQMKTKFRKPLVVFSPKSLLRDPR
+CVSTVEELANGSFQETIDDTTVNKKDVKSLVFCTGKFYYDIVAERENNGRNDVAVVRIEQ
+LFPFPVEQIKEIIAQYPNADDYVWAQEEPKNMGAYSFMLMNFDLVKWRLASLKAYSAPAS
+GSYTRSKRRHADAIRMVFDKNLFR
+>tr|A0A1S1J2S7|A0A1S1J2S7_9FLAO
+MKREIIKTLDGSTTIHLQEWNESYHSKHGAIQEAKHVFIKNGLSLFDAAPVSILEIGFGT
+GLNAFITFLESMQKQQQIDYVGVEAYPVDAKEVLEMNYVAELEADNYKDVFEKMHECEWN
+QKEVISADFRLTKRKQFFDEIDDFEIFDLIYFDAFGYRVQPELWSTEIFRKMYQSLKPNG
+VLVTYAARGVVKRSMIEVGFTVEKLAGPPGKREMFRAFKKV
+>tr|A0A1S1IZ02|A0A1S1IZ02_9FLAO
+MKKIFALLLGVFAITTAIGQTTTSSIKGIIKSSTNELLPGATILAIHTPTGSKYSAVSNE
+DGRFNILNMRIGGPYKIVVTFVGFRNHEYADVNLDLGKPFNLDVVLEDESQTLEEVKIVS
+KDKVFKSGKTGAETTIGKRELTALPTISRSAEDFTRLEPTASGGSFGGRNDQYNNYSLNG
+AVFNNPFGLDAATPGGQTGSQPISLDAIEQIQVATAPYDVTLSGFTGASVNAVTKSGTNE
+FHGTAYGFYRNQDLTGNKIKGEKIFVPTLEQTQAGFSLGAPIIKDKLFIFGNFEIDKRSD
+LGSNFVANNNDGVTGINESRVLESDLIAVSKALSNLGYETGPYQGFKHESNSNKGIIKID
+WNINDNHKLAVIYNFLDASKDKPAHPTALGFRGPNASILQFRNAGYQINNNLSSFLVELN
+SKFSESVSNKLQAGYSHFNDYRVPFSVPAPVINIQDGAGSNYIIAGHEPFSINNTLDQKV
+IQITNNLNYNVGKHAFTFGASFEKFKFENSFNLAGYDNFGNPNGYAGTFFTPYFTTQDFL
+NDAAKPFATSIIAQNLKYAQDVFAAKNNFKVGTDGGWKLAELNVGQLAFYAQDDISIDDN
+FKLSLGLRIDKPLYFNTADLIQKYIDTNNGGAKRNNDTDYFDPQTGQAVKLISTNLPSDR
+ILWSPRIGFNWDVKGNATSQLRGGSGIFTGRIPFVWLGNQVSGADDGFLQIMDPDYKWPQ
+VWRTSLGFDHRFENNFIVTADLSYNKDINAVHVQNWGLKSPTGTLAGVDNRPIYVAADKG
+ANNAYVMTNSNKGSAFNATLKVQKNFENGLYASVAYNYLKSKDVNSIEAEITGDAFAFNP
+ALGNVNNDVLSNSKYGDNHRFIAVASKKWKYGKDKWATTVSTVLEYAQGGRFNYTYGGDI
+NGDGSSVNDLIYIPTTAEIALMNFSAPGEGAAFDQFISQDKYMKDRRGQYAERYGAISPW
+RGRCDLKILQDYNFKISSTSDKKNTIQFSIDVLNFGNLLNSNWGVVQVPTSVQPIGVTVA
+GNTPTYTFNGTQTKTFNYDASLLSRWQAQFGIRYIF
+>tr|A0A1S1J2C2|A0A1S1J2C2_9FLAO
+MRARKEKQDWKIASEIELIYKNKVRVSERPYLSSSKTAYELALKVWDMGKIEFFEQCKVF
+LLNRSNKVLGVYEVSSGGTSGISVDLKLLFASVIKANASAFIMIHNHPSGKTLPSIADRL
+FTKKVNEAAALLDIKLVDHLIVTLEGYYSFADNGNFFEDGF
+>tr|A0A1S1J8B7|A0A1S1J8B7_9FLAO
+MIAIDLLEKYGALRKSFAKNEIIFKENNLPAYYYQIVSGEVKMSNYNDDGREFIQGIFYK
+EQPFGEPPLFLNQKYPANAIAVEDSEILLLDRNSFMKLLGENPDISLKIIENLAQRLYYK
+SVMAAEMSTQEPEHRILKLIDHGIVYFNFKKDINGYLINFTRQQIGDLTGLRVETVIRTI
+KTLEKKGVLKIINRKVYR
+>tr|A0A1S1J3G7|A0A1S1J3G7_9FLAO
+MYHNIFKNFQSLLLLIAVLSLTNCSDDNASNENSNPTPVSSDLAFSMQRFTIMTLNPTIS
+ATTEATYSWTITKAPSESYALSTTTAKELLFAAAEAGVYELAVTVNDKGNVQTQKVVVTV
+TKETKEYKSYISKVFEFKPAPGQFVNDLPIANDGDTPERILSRANTYLAKKNGDLVSLGA
+FGGYVVFGFDHTIVNVKGKRDFRILGNAFWAEANPNPNSTMRGGSSEAGVIMVAYDTNKN
+GLPDDQWYEIEGGGHKMPKTIQHYEITYYRPDPNKIPMSGGTTGTVGFVDMEYILWKDNQ
+GKSGYLVQNNAYNHSLDYWPKWLKDQSSITYKGTRLPDNAVDESGSGSYFVQYAFLYGYA
+DNAPNNDDDSGIDINWAVDEKGNKVVLPGIDFVKVYNGLNQQAGWLGETSTEIMGATDLH
+LSGESIPTR
+>tr|A0A1S1J4F2|A0A1S1J4F2_9FLAO
+MRKKFFIYGFLLFLIVLAIYLYTKRGFLLVIILPILLVVGIYNATQKKHAILRNFPVLGY
+FRYLFEMIAPEIQQYFIERSTDGKPFSRNQRSMVYQRAKNIDSNTPFGTQQNLNHDSYEG
+IKHSIFPAKVNEELPRVLVGGKDCKQPYLASLFNVSAMSFGSLSENAVRAINIGAQKGNF
+YQNTGEGGLTEFHLAGGGDITWQIGTGYFGCRDTEGNFSPEKFSEKANLPNVKMIEIKLS
+QGAKPGHGGVLPARKNTEQIAKIRGVEPHTTILSPPGHHAFSDTKGLIRFVAQLRELSNG
+KPIGFKLCIGNTAEFEAICHEMITENIFPDFITVDGAEGGTGAAPLEFADGVGMPFEPAL
+IFVNKTLVGLNIRDKIRIIGSGKIISGYSILHAIALGADMCNSARGFMFSLGCIQALRCH
+NNECPTGVATQNKMLMKGLVVTDKSDRVYHFHKNTLHSANELLAAAGKKSFSEVDINIFM
+RGDEFGNLSDNYFPDNLTNVTKH
+>tr|A0A1S1J800|A0A1S1J800_9FLAO
+MQETKIWKVNHNILTELNKSNLDYEDRIHKWIENDIKIILPDAILIGSKIKTDHLKEIDL
+LAIDSSGDLIIIELKRGNTTRDVVAQALDYTAWASTLKAEDLTAILQKQNIHESIYELLN
+KNFDDGEQIEINENQKILIVASEVDAITERVINYLSTKGLNINAVTFNYYKDDNSELVAR
+NFLIKRNEIFTTDENKRNGRFITKLFNEGKLLVGHKVRYIPLNNKGVDNFAEIVRKGSKC
+LKITGTDETFSFSGLRKKFILDNQLNDYNAYFPYNQWGEWELIGESENKELAEL
+>tr|A0A1S1J6L4|A0A1S1J6L4_9FLAO
+MNWYVVYTKPKWEKKVADRLIQMGIECYCPLITQVKEWSDRKKKVEVPLFNSYVFVQLKD
+IDRNSVFQIAGVVRYLFWLGKPAIVRDEEINSIKASLKAPNISDISVTSIQAGDRIKIEF
+GAFSNQEAIVQEVSNTHYILVLESLGCVLKIKYK
+>tr|A0A1S1J9P5|A0A1S1J9P5_9FLAO
+MSKNAIPTLSVLNILGEQTFGITLFRHSVKGRNEFEQPHKHDFYLVFFVENGSGFHSVDF
+KQTRVEDYQIHFVGAGQVHNWSLDVNTNGFQLMISPAIMTVFSNLSQLPFFGQSSPFCLS
+LDKNGFQNVKSQLEEIESDLVKDDLLTKEIVLLRLHLLFKLLQKEYVLQFPDHDVAAKSE
+KIIKKFKTLIEDHFTTQFSVNFYAGELNVTSNYLNILSQKFLNKSAGDVIKERTILEAKR
+LLISTDLSVKEIAYQLGFSDNGYFAKVFKKYIGITPTDFKENYNLYHSYH
+>tr|A0A1S1JAK4|A0A1S1JAK4_9FLAO
+MEKRKLSFWEIWNMSFGFLGIQFGFALQNANTSRIFETLGAKIDEIPILWIAAPVSGLII
+QPVIGYFSDRTWTRLGRRRPYFLIGAILSSVALFIMPNSPTLWIAAGTLWIMDASINVSM
+EPFRAFVGDNLPEKQRTLGFAMQSFFIGTGAVVGSVLPYLFTNVFDVSNTAPEGIIPDSV
+KWSFYIGGIVFLLSVLWTVFKTTEYTPEELHAFELQSKKDKEDLILNPETESQGNIKRQF
+FLGLLLAVVGALVSFLIFENSLAKELYILFIGLVFMGVLFMIASQLRTSKVHNGFTIIMT
+DLLNMPVTMKKLAWVQFFSWFALFSMWIYTTQAVTQHIFGTTDTTSKIYNDAADWVSVLF
+TVYNGVAAAVAFLLPVIAKKVGVRATHLLALCAGGVGLISIYFIGDKQMLILPMLGVGIA
+WASILSMPYAMLSGALPAAKMGYYMGVFNFFVVIPQIVAATILGFVIKQFFHNEPIYALI
+IGGVSMIFAGLLTLRVNSRTKIEIHE
+>tr|A0A1S1JBD1|A0A1S1JBD1_9FLAO
+MRNIILGINCVYHESAACLIIDNKVVAAIEEERLSRVKHAKESKIDNPDELPILAMNKCL
+EMGGISLEDVSLIGFSFKPERRLENIPSEDRFVPNNWGCEDGEKLFYDKLTQIPQKLQEM
+GFKGQFSFIEHAIAHCASAYYPSPFSDAAILSIDGIGEFESTTLAYGHGKNIDVVQQIAY
+PNSIGFLWEKISKFLGFSEYDACKVMSVASFGNPLTFEEEFSKIISINDQTIFELDNEVL
+CFRVEDYSKLEKLFNIKKRETLDELEEVHKDIAAALQKWTTDIIVKVTDRLFEETKSENL
+CVAGGVALNCVANTIAFENSKFKNIFIQPAANDAGTALGAALKLNIEAEGNLEGLVLDNT
+FLGPSFTTEEIHNEMSKRNLVYSHVEDIEVKAAELIKAGNIIGWFQGAMEFGPRALGNRS
+LLADPRNFHMIKKLNSIVKHREDHRPFCPSVLSEETENWFDIKKSTPVSEYMLMAYPALT
+NKKELIPAVVHVDGTSRIQAVNQKTNPKYHGLISEFYKLTGIPMVLNTSFNDREPIVCTP
+EDAIKTFLKSNIDYLVMGNFILNKQDNLEKV
+>tr|A0A1S1J243|A0A1S1J243_9FLAO
+METKDGRIALYAKTRKEWRDWLQENSQIEKSVWLILYHKKSKIESVNLIEATEEALCFGW
+IDSLCKKRDPESYYLTFTPRNAKKSKWSQPNKERAERMIAEGLMTEYGQLSIDLAKQNGN
+WESV
+>tr|A0A1S1JAL5|A0A1S1JAL5_9FLAO
+MKSNTKIRKVEKQDLDFVYQAINELENEVLDFEIFKEIFNENISNPRNVYLIAENENEGL
+GFISFHTQNLLHHCGLVGEIQEFFIHQNYRGKGIGRQLINEILQYADRNNLKSIEVTTNK
+RRVENVLIYENLGFGLTHNKFTIYK
+>tr|A0A1S1J422|A0A1S1J422_9FLAO
+MKFKSTISVFLLTLIFGFAACNTEEIATPKSSENATIETSTTTSGNLTAKIGNCAQVPGW
+ASQNGGTTGGGSSQEEVVSNYTQLKSAIENSAVKVIKVTGTITVTTRLSLQDQSGKTIYG
+ASGAKLVSTNQTKDGSGIINIKRCTNLIIRNLIFEGPGAYDTDGWDNAILDDCQNVWVDH
+CEFRDGVDGNFDIKNKSDFVTVSYTKFGYLKTPKAGGPGGSDDHRYSNLIGSSDGATADR
+GKLRITFARCWWAPGCKERMPRVRFGKVHLVNNFFNSTVSNKCIAAGFEASLNVESNVFE
+GVKTPIDLMSGFTAVTATDNVFTNTTGNQAGSGTAFTPPYSIVKLNKTAVKADISANAGA
+TLGGNICGSF
+>tr|A0A1S1J607|A0A1S1J607_9FLAO
+MAIFLYFLFLPQNCGKNIFNFHFATKVVTKLILFLFCYNFCDKISVTNFLFFIFLTQLLC
+QSFYFFKF
+>tr|A0A1S1J878|A0A1S1J878_9FLAO
+MNSLLLPTYFPSISHFAVMAQSENITFEMEDNFQKQTNRNRTYIYSPNGIQLLNIPVKHS
+KSGHQKTKDVIIENEFDWQKQHFKSLEAAYRSSPFFEFFEDDIRPVFEKQHTFLMDLNLE
+VLDITTKCLRMKLAFGKTTEYFHEVENISDFRVLANGKKDLNSFEKYTQVFDDKHGFINN
+LSVLDLLFNEGKFAMDYLKTQKLLV
+>tr|A0A1S1JB34|A0A1S1JB34_9FLAO
+MAEHNELGKKGEDLAVEYLERNGYKILDRNWTFQKAEIDIIAEKESILAIIEVKTRSSLS
+FGLPQDFVKPKKIQLLVKAVNAYINDRKMDIEVRFDIIAIHKNKESFAIEHITDAFFHF
+>tr|A0A1S1IYN2|A0A1S1IYN2_9FLAO
+MRTLKLTTLLIFTFFSFSKINAQTTPNDSIKLDYTKIYSLALDGNPKSALPLLEIDTNKK
+IADKDLKFKTNFENRFKFAEDKSDFLETRKSKIDQLLKIYRDYWRFSFLNKEKKTDTLIL
+KNVSNFLKTNFPSAKNLTLNEDSINVYQKKYIASLGYHTTGFGKTGGLYDLLVWKTEKDT
+IYKVTYDGKETPIKIYFMDDFVTLGWSEYATLGRYYPAGWATKEALFCVKKAYDLKSENF
+RVSYIGHEGRHFADYKLFPKLKGVGSADLEYRGKLTEVSLYSQEGLMKRLQFFINTGNYD
+SDNGHSIAAYCVIRDLSRVLFGNDFEKDINKWKAIPASKINEAAAKLLAENTKALEKIPN
+VEKFIK
+>tr|A0A1S1J1Y3|A0A1S1J1Y3_9FLAO
+MPFVRISLPKKLSLATKNNISEAIHQSLIAEFHIPSADYFHVIEELEPHQIKYPESYLGI
+SHSEEIIYVQITAGQGRTVEQKKKLYHQIATRIAATTAILINNVIIVLLENNGLENWSFG
+NGEIQEPTHLKK
+>tr|A0A1S1J4U8|A0A1S1J4U8_9FLAO
+MKIVKLTFNYDWPLFRQTPNFSQIWGDYKFVIDDNLKECDFWIVYTDYKIKTEIVKCDPE
+NVIFIPGECYNTSPKFTQKFLDQFGTIITVQKELKHRNIIYSHNANPWFIGKSYDELNLL
+ETPDKTKLISVVSSNKAFTEGHRKRVDFVKKLKEYFGDQLDVYGRGIADFEDKWDVLANY
+KYSIAIENDYCDDWVTEKFFDCLYAHTLPFYYGCPNLGSIVNKESFIRINIDDFESSVKI
+IESAIKENEFEKRLEILKKESIESLHRDNFFPFLADVLDKMNMVSKRGINFKLKKNEEDL
+LKINFKKVIKRLKNRFIK
+>tr|A0A1S1IXP8|A0A1S1IXP8_9FLAO
+MKKVVLFLTIMFMSMSYAQEVKQIPQINVSGEGKVKIAPDQVCISATVETKGNNAKDVKK
+QNDEKIDAVLKFIKKMNVPVADYKTKQVSLNPQYDYEKKKTSYNATQTVEIVLKDLSKYD
+EVMEGLVQQGINRIDNVSFESSKLAQHQSEARKLAIKDAKAKAEDYVSVLGQKVGKAIAI
+SDNSQVYNPRPMYAAMKSMAMDTNGGAEHETLAVGEIEITANVNVSFVLD
+>tr|A0A1S1J1P9|A0A1S1J1P9_9FLAO
+MKKTLLILGFLCCAVTSSKAQVVGTDIGDIAPEIDLPDTKGNNIVLSSLRGELVLVDFWA
+SWCGPCIKEQPELIKLYNTYSGKFSIYSVSMDTKKALWTGAIAKQKLPWTQVSDLKYWNS
+PVIGDYMLQSVPLNFLIDKNGIILAKNIHGNALNEMLKSLLTAQ
+>tr|A0A1S1J6S1|A0A1S1J6S1_9FLAO
+MKQQQILQQNFQVTFNYDIIFSRSLFDTGNTSLIDVIKKEPAFQQPKIAIVIDRGVVETT
+SQFIANVIHYFNHYQFGISEHSINVVQGGEAVKNSLDVIESVLQLINDNKIDRHSFLIAI
+GGGAVLDAVGYAAAIAHRGVRLIRIPTTVLSQNDSGVGVKNSMNYFGKKNFLGTFAPPYA
+VLNDSDFLTTLKERDWRSGISEAIKVALIKDASFFDWIENNAQALNNREVSVMETLIIRC
+AALHTDHISKNGDPFEKGSSRPLDFGHWAAHKMEQLTNYEITHGEAVAIGIALDVTYSFL
+IHRIDTLSLERILKCFLTLGFAITHPVLDAHLEEVIRGLEEFREHLGGRLTIMLINEIGI
+GEEVHALDKEIIIQSVQYLNSFCQLNTEVC
+>tr|A0A1S1J487|A0A1S1J487_9FLAO
+MIYLITGGERSGKSSYAQSLALQLSDTPIYVATARKWDSDFQNRIDRHQQERDERWTNIE
+KEKYLSEIDFSGKVALIDCVTLWLTNFFVDHKNEVTLSLEEAKKEFLSIAQQKNATLIIV
+TNEIGMGVHAETHIGRKFTELQGWMNQFLASNADEVVLMVSGIPVKIKG
+>tr|A0A1S1J664|A0A1S1J664_9FLAO
+MKSYINSISVYLPENTLTNEDLNNEFPEWSVEKISSKTGIFKRTIASDGEFVSDLAIKAC
+LKLFEEHSIDKNKIDFVLLCTQSPDYFLPTTACIIQDKLGLSKNCGALDFNLGCSGFVYG
+LALANGLIAGETAKNVLLITSETYSKYINKKDKSNRTIFGDAAAACLVSSDPSSGGIRKF
+VFGTDGEGAENLIVKNGGSKFALEIGEDIFSEEEFVRNDSNLYMNGQEIFKFTTASVPVL
+VEDCLEKNNLTLEDIDLFVFHQANKFMLDYIRRKINIPQDKFFMYFEDIGNTVSSTIPIA
+MAEAIAAQKIKKGMKVLIAGFGVGYSFGATVIEF
+>tr|A0A1S1JCD3|A0A1S1JCD3_9FLAO
+MIDRERIIKNYVEGYNQFDIDKMTTDFSRDIVFENIQNGEVNMTLNGLNEFKEQAENAKA
+YFSARSQVITVLNHFESKTEIEIDYHAVLAIDFPNGMKAGEELNLKGKSVFEFLDNKILK
+LRDIS
+>tr|A0A1S1JD88|A0A1S1JD88_9FLAO
+MKISYSLLCFFVFTTIGFSQSKQKEKLTLEDGVSEQLAHFRKKQISKLTYGLSFEIPEKK
+AQSINAELVLDLVIADGSESLYLDFKEKTQNIKSVTANGKNIPIVHQKGHIIIPAEGLVK
+GKNTIAISFIAGDLSLNRNDDFLYTLLVPDRASTLFPCLDQPDIKATYKLKLTVPKDWSV
+LAGAYVEEKFEKDDFTSYTFGESDKMSTYLFSFVAGKFKSITEKPGLEMTMLYRENNAEK
+LKSSTDTIFKLHQQSLDFLEKYTHYKFPFQKLDFASIPVFQYGGMEHVGAIQYKESTLFL
+DNSATDSEKLDRAKLIAHETSHMWFGDLVTMKWFDDVWMKEVFANFMADKIMNPIFPKVN
+HNLQFLTAHYPNAYGEDRSLGTHPIKQNLANLKNAGSLYGAIIYNKAPIMMRQLEASMGK
+TAFQKGIEKYIKKYANDNADWNNLVEILDAETPLDMKKWSEVWVNKSGRAIFTDKIAYDA
+QNRISSFEITQQAEDRSTNVWPQIFDIGLVYPNNVKVISATIKDKSLSLKEAIGLEKPIA
+VIYNYNGFGYGVFPLDGNNLESVLSLKDEVARASTYINIYENTLTGNIAPTKAFDCFVKG
+IQQEQNELVLKIITNQTSAVFWKYLTQKQQNRAQKQLEEVVFDRLKTNLPSNIKKTLFNL
+FSSIAYSDSGKVKLYAIWSKETVISGLKLNEDDYTNMAMNLAIFKHEKADEILNKTKTSI
+SNPDKQKRFEFLLPSLSKDEGGRDAFVQSLKDDANREKEAWVSVGLANINHPLRQESAQR
+YIRFSLDLVDEIQRTGDIFFPKDWLNNTIGKYSSKYAFDEVQRFLKENPNFSPILKRKLM
+QATDGLYRAQNIKKETE
+>tr|A0A1S1IZQ6|A0A1S1IZQ6_9FLAO
+MRRDIFQAIADPTRRSILTLIAVQAMTPNAIAENFNASRQSVSKHLRILVECDLLKQEQQ
+GREIYYSLEIEKMKEIDQWLVQFREIWETKFNQLDELLVTLKKQNK
+>tr|A0A1S1J0B6|A0A1S1J0B6_9FLAO
+MKITFYGHASLGIEVGGKHIIVDPFITGNPQAAGVDINSLEADYILLTHAHGDHILDVEA
+IANRTKAVIVSNAEIAGYYAKLGFSSHPMNHGGSWQFDFGKVKYVNAIHSSSFPDGSYGG
+NPGGFVIEGEHKNIYIAGDTALTMDMKLIPMRTKLDLAILPIGNNFTMDVEDAIIASDFV
+ECDKILGYHFDTFGYIKIDHEDAIRKFFDKGKDLMLLEIGESIEL
+>tr|A0A1S1J142|A0A1S1J142_9FLAO
+MSEEKKLGSVEVSLAVGQEWARKFRKSQEGKGKVDAYLIPLESIKLVLDQDIDAVRAYVG
+INNAGEQNLMLVGTKLDPKTGVYVDVFKKQLAAAGARTAGDGEDVLYDASRPCPPYTDPD
+SPMNQ
+>tr|A0A1S1J367|A0A1S1J367_9FLAO
+MLIILLLPYRIIAQGLGDDMTSLHGVLEQLYDEMMPLCSNLIAVGQGIAGFGTIWYIASR
+VWRHIASAEPIDFYPLFRPFVIGFCIMIFPSVLALINGVMKPTVTATAAMVTGSNNAVAV
+LLKEKEKAIKETDPWKMYVGAAGTGDRDRWYKYTHDGADPSDESMLAGIGNDVKFAMEKA
+SYSFRNSVKEWLSEVLRVLFEAAALCIDTLRTFQLVVLSILGPLVFGIAVFDGFQHTLTV
+WLARYINIYLWLPVANIFGSIIGKIQELMLKLDLSQVQATGDTFFSRTDMSYLIFMIIGI
+IGYFTVPSVANYIVHAGGGGALGHKVTSMFSNSASSVVRTSSNAVGMAADAMGDADRRMT
+SSMAATAGSSPYFTDKGNYMNDRLKGNSKQT
+>tr|A0A1S1J396|A0A1S1J396_9FLAO
+MLKTAFSRYINNFKGFSREIWILAIVTFINRAGTMVLPFLSKYLKEDLHFTYNQVGWIMV
+AFGFGSMLGSWLGGKLTDKIGFYKIMIFSLFTSGVFLFLIQYVTHFWTLCIAIFSLMTIA
+DMFRPAMYVSLGAYSAPENRTRALSLVRLAVNLGFAAGPALGGLIIMGMGYSGLFWVDGA
+SCIIAISIFAILVKEKKKILHEDKIESTEVKKSVFQDKIFWVFLFVCFATAIIFFQLFTT
+LPLYHNEKFGLSAFQTGLLMTLNGLLIFTLEMPTVAFMERKGFPKIKIITLGSSIIALSF
+FLLLINAWAWILIISMILFSIGEILNFPFSNAFALSRAPRGQEGRYMALYTMSFSLAHIV
+SAKVGFEIISRFGYQINWLFMASIGVFATLCCFWIKKALAREKIS
+>tr|A0A1S1J4G1|A0A1S1J4G1_9FLAO
+MKEIIALSEKTITISRNDFLKVKGSIDDNIYFVESGSLRLFVLADDEEQIIRFGYQQNLI
+VSLDSFLTGRPSDLCIQAIKKTVLKIITKKQIEQFLKIEANKNLWITILENLVVQQMERE
+IDILTSSPKERYQRVLKRSPQLFQEVPNKHIANYLRMTPETLSRLKKS
+>tr|A0A1S1J567|A0A1S1J567_9FLAO
+MKLDILAFGAHPDDVELGCAGTILKEVSLGKKVGIVDLTRGELGTRGTAEIRDEEAKEAA
+KILGVLVRENLGMRDGFFTNDEKHQLEVIKMIRKYKPEIVLCNAIDDRHIDHGKGSKLVS
+DACFLSGLAKIETSIDGERQEAWRPKVVYHYIQWKNIVPDFVVDITGFEKKKVEAVSAYK
+TQFYDPNSKEPATPITSKNFFESLDYRAKDLGRLVGKDFAEGFTVERCLAVNSLENLL
+>tr|A0A1S1J965|A0A1S1J965_9FLAO
+MITVQNTINAAVNKVWKFWTEPEHIVKWSFGSPDWYTPYAENDLKAGGKFKYTMAAKDGT
+ATFDFEGVYTRVETFSEIEYQLSDNRTGSVHFKESDEKVILTEVFQPETENPENMQQQWC
+QAVIDCFKEYVENN
+>tr|A0A1S1J9S1|A0A1S1J9S1_9FLAO
+MNRINCKNFVFGLSFLIFGYTANAQKKTIEKRDLIQYVDPMIGTAKMGHTYPGATVPFGS
+VQLSPETDTIAYSTNGKYNGDVYKYCAGYQYEDKTIVGFSHTHFSGTGHSDLGDFLIMPT
+TGKLQLNPGVASKPLSGYRSAFSHATEKAEPAYYSVLLEDHKIKAELTATTRVGIHQYTF
+PKSDDAHIILDLTSGIYNYDKKNVWTFVRVENDTLITGYRQTNGWARTRTVYFAMSFSKP
+IKNYGQAPLEKSVYRGFWGRFDQTKNFPEMAGQNLKLFFDFDTEEGEKIKIKMALSPVSS
+AGAVENMKKEVPGWDFEKVKKQSQKVWNNELNKIQVETLQKEDLVNFYTAMYHAFLGPTE
+YIDLDGNYKGLDMNVHKAENFKNYTSYSLWDTYRALHPLFNIVQPSRNSDMISSMLAHSD
+QSVHKMLPIWSHYANENWCMIGYHSVSVIADAIIKGNINFNPEKALEACVKTAKVPYYDG
+LEYYMTKGYVPEDKNGASVSKTLEYAYDDWAIAQAAKKLGKTEIYNEFITRSKNYKNVYD
+AQSGFMRPKLNDGTFKKEFDPLDTHGQGFIEGNSWNYSLYVPQDPADMIQMMGGNEKFKV
+RLDSLFNMHLPDKYFENTEDITRDGIIGNYVHGNEPSHHVVYLYNWTNSPWKAQDKIRMI
+LKKMYRNGADGLGGNDDFGQMSAWYIFSSLGFYPVAPGSDEYALGSPLVKKATFNLENGK
+KFEVETTNQSDKNVFVSKVILNGKQLDRPFLKHADIINGGKITFYMSAKPNKKQY
+>tr|A0A1S1JCS7|A0A1S1JCS7_9FLAO
+MNLLPKLFVFLILITLVTSCSTDEKLPFYSNETNQPGRVTISGYSALNDSLQVRVNDKII
+EINKDKKTAFVKKIEKEYDFVYFGSQGKTISILNKNTKAVLHTYQFNAQKVKDTISFFAK
+DNFWIDNVSRIKPGVLSKTANSGYKFIFPNQNVYSKNSYTGNLDGIIRKINGQVLGTVEN
+INKEKFSSFIEFPFSSPPTILMELVKHGTTESYIPGQKVTVIMTMSVNKSKLIVLEEKLD
+ANGNFSGVEGTLNLTDYFVFK
+>tr|A0A1S1JEF5|A0A1S1JEF5_9FLAO
+MRTFVIGDIHGGLLALEQVMKKAKVTTQDTLIFLGDYVDGWSQSPQVIEYLMDLKSKQNC
+ICIRGNHDELLLSWFKSKTEDVDETLWFKHGGEATVLAYEKLSEEEKQAHIAFLESLEDY
+YLDDQNRLFVHAGFTNLNGVKYEYFPKLFYWDRTLWETALSLDPNLKIGDALYPKRFTLY
+KEIYIGHTPVTRIGETTPVQKANIWNVDTGAAFKGPLTILNVDTKEFWQSEPLNELYSSE
+KGRN
+>tr|A0A1S1J0B5|A0A1S1J0B5_9FLAO
+MLFLYNLVISIAGFFLKIVALFSPKIKLFVEGRKNVFTILEEKIKPSDKTIWFHSASLGE
+YEQGLPVIEKIKEKYPAHKIIVTFFSPSGYEVRKNNTTAAVTLYLPLDTKSNAKKFLKLA
+HPELAFFIKYEFWLNYLNELEKSQTPTYLISGIFRDNQMFFKWYGGFYRKALKAFTYFFV
+QNENSKEKIKSIGFDNVIVSGDTRFDRVNAILERDNTLDFIEKFKNNTPTIIIGSSWPKD
+EVLLAEYINQASEDVKFIIAPHNIKSDQITSLKAQITKSTILFSEKENADLSNYNVFIID
+TIGLLTKIYSYGTIAYVGGGFGNPGIHNILEPATFGIPIVIGPNYSNFAEAIELVALKGC
+LVISNNQELKQNLDRLLQDKAYLEEKSQICKSYIQNNKGATNSIMNIVAQPFYTNRT
+>tr|A0A1S1J3G3|A0A1S1J3G3_9FLAO
+MLKIKYFLWLLIPLVWSCSNEEEEYVNIPLEFKVPSNFPALAYNIAQNPPTVKGFELGKK
+LFYDGRLASDGVVSCGFCHIQANAFTHHGHTVSHGVNDAQGTRNTPPIQNLAYQSVFMYD
+GSADHLDLQPIIPLTSIIEMNGNLNAILKMMKADKEYQKLFGQAFTDKEISTENMLKALS
+QFMVMVTSSNSKFDKYRRKEAGGTLTADELAGYDLFKTKCASCHATDLQTDNSFRNNGLA
+VNPMVNDVGRYKVTELASDYYKFKVPSLRNVEVSGPYMHDGRFGTLEGVLDHYARGIESS
+PTLDPILKQNGKFGITLSETDKKQIIAFLKTLTDTEYLTDKRFAEF
+>tr|A0A1S1J4L3|A0A1S1J4L3_9FLAO
+MKKIVLFLTMCLMAFPVRADEGMWFLMFIERLNHRDMEKMGLQLTAEEIYSINHHSLKDA
+IVQFNGGCTAEIVSKEGLVLTNHHCGYDAIAELSSAEQNYLKDGFWAKQRSAEMKPKSLY
+VRFFVRMDDVSKRILSKVNDKMTEAERSKAIQQEIALIEKENNEGGKYTVSVRPFFQGNE
+YYYFVYQDYTDVRLVGTPPESVGKFGGDTDNWEWPRQTGDFSMFRVYADKDGNPAAYSKD
+NVPLKPKHYLPVSIKGVKENDFAMILGYPGRTNRWMPAGGIEQNVKFAYPAWVEGAKTGM
+DQMKKYMDKDATVRLQYASKYASTANYWKNRQGMIDALTKAGTAEVKAAQEDKFYEWATK
+PANKEKYENVIPTINDYYRSTNVKSTHDNYLTQLLRTSAYATGPANLGNALIAYYNETDA
+KKAEMLPKINAMIENIYGEFYAPLEKDVLTAQLNLYASKAAEYGLATQIAKMKSENNGDF
+TADVAKATEISYFTSKDKVLAFMANPKPLAIVHDPLYIISNDLLTKYRAKTDDQLKADDG
+FANAYRKLVEGLRESKLNAIQYPDANSTLRLTYGKVRALPADPRNDAKINNYTTMESMVK
+KYKAGDQEFDLPKRLLELNKAKDFGQYADKAGYMPVNFLTDNDITGGNSGSPVLNGKGEL
+IGVAFDGNIEAMAGDVIFDSKLQRTINVDIRYVLWIIDKYAGAKNIIDEMTIIK
+>tr|A0A1S1J8R5|A0A1S1J8R5_9FLAO
+MNTGKITVIFLFLVTTIFGQQKITVENIYSGAFRAKGMDELQSLKNTDQYTVLNVDQASR
+SMQIDLYDFATLKKVANLIDTKNHKDLAEGIDSYTFDASEKKILIACNSKQIFRHSFTAN
+YFLYDITTKTLTKLFDFQIQEPTFSPDGTKIAYAKENNLYVYDLASKKSTAVTTDGKKNA
+VINGITDWVYEEEFSFVRAFDWSKDSKKLAYIRFDESAVPEFSMSIFQKDLYPTIETFKY
+PKAGEKNSVVSLHIYDAVSNAGKKVDLGNYNDFYIARLQWTNDNNVLSAQVLNRHQDNLD
+LLFVDGTTAATKVVLNEKDKAYVDVTDNLTFLKDNSFIWTSEKDGFNHIYLYDKNGKLKN
+QVTKGNWEVVSYYGFDEKNKTIFYQSTENGSINRDIYRIALDGKNKIRLSKNTGTSAATF
+SPNFQFFINTFSSSTQPTTYTLNEAKTGKEIQVIENNQALSAKLTAYNLPTKEFFVLKTA
+KGNELNAWILKPKDFDSSKKYPVFMYQYSGPGSQQVNNDWNNSDDYWFASLTQQGYIVVC
+VDGRGTGFKGADFKKVTQKELGKYEVEDQIDAAKVIGAYPYVDASRIGIFGWSFGGFMAS
+NCIFQGNDVFKMAIAVAPVTNWRFYDSVYTERYMQTPQENASGYDQNSPINHVDKLKGKF
+LLIHGSADDNVHVQNSMQMMEALIQANKQFDSQIYPDKNHGIYGGKTRIQLYNKMTNFIK
+ENL
+>tr|A0A1S1J1V5|A0A1S1J1V5_9FLAO
+METIEYFKLQSKNLYKDFKTQKSYFDADYGREFYQYTPKYFDIDALILDFDIDEDNFTLM
+KAQHYVANLAGFTKWTEMLDASSSALKLSELLFRNMHKISVIEWDIYISAQQRENGFAFD
+DDLKLDIFETVFDKVDDHESGGHDYRLTQSEKVSDENQNSKPKKKKMKKTPMQISALPLV
+GEYRLEFIRTANVVFEKVLIRIEPKNPELVRKLWDAENYIDEILLKPEMLPIDHDYALSL
+IDAFLVHHVIELAVETDD
+>tr|A0A1S1J211|A0A1S1J211_9FLAO
+MARIAGVDIPKNKRGVIALTYIFGLGKSRAIEILEKAQVSQDKKVQDWNDDEIGAIRDAV
+SFYKIEGELRSEVSLNIKRLMDIGCYRGIRHRSGLPLRGQRTKNNSRTRKGKRKTVANKK
+KATK
+>tr|A0A1S1J5B9|A0A1S1J5B9_9FLAO
+MFHKNIKLILAGLLVVAGIWQFTESNIGNGIFLILLTAIPVFLYFKNEFILLAFLKLRKQ
+DFEGAKKWLAYIKNPEAALVRKQQGYFNYLHGIMLSQTNINLAEKHFKKAIELGLSMDMD
+LAVAKLNLAGVAMSRRRKLEATNLLNEAKKLDKQGMLKEQISMMKEQMKKI
+>tr|A0A1S1J6N9|A0A1S1J6N9_9FLAO
+MEIKISTQTILKVLHVLSWIIFVGLCIEAGGILTKTIATLTLDPTDAAKFWRSVDLTQVY
+QFNQSQYITLSSVIIIVALLKAILFYCIIKIFLNKDLNISAPFNNLFRNFILTLAYLSFG
+IGFFSSWGIELVKALSNSGLKLQDIQQLQIAGADVWLFMGVILLVVAYIFKKGIELQDEN
+ELTI
+>tr|A0A1S1J818|A0A1S1J818_9FLAO
+MSITKESELLGMQKASDAVAYTLKEMIDYAQPGMSTKELDQYGAKILSDFGAKSAPHLTY
+GFPGWNCISVGNEFCHGIPSVKRILKEGDLINIDVSAELDGFWADNGASFVLGKDIHQHQ
+KIVNASREILEKAINNIKDGVKISDIGYIMETEAKRRGFKIIKNLSGHGIGRSLHEQPDE
+ILNYRNRFDQRRFKKNAVVAIETFISTNSTYAIELNDGWTMVGNNGGFMAQHEHTIVVTD
+GKPIILTEKNGIFN
+>tr|A0A1S1JCR5|A0A1S1JCR5_9FLAO
+MINPFTDEYFMKKALQEAEMAFEKGEIPVGAIIVVADKIIARSHNLTELLNDVTAHAEMQ
+AITAAANFLGGKYLKDCTLYVTLEPCQMCAGALYWSQISKIVFGARDEHRGFMTMGTQLH
+PKTTVVSGVMANEAADLMKRFFVERRK
+>tr|A0A1S1JDR5|A0A1S1JDR5_9FLAO
+MALRRVVVTGLGALTPIGNNIQEYWNALVNGVSGAAPITYYDTEKHKTKFACEVKNFNIE
+DFMDRKESRRLDKFAQYAVAASDEAIKDAGLTNDNIDKTRVGVIWGAGIGGLETFQEEVI
+YYAKGDGTPKFNPFFIPKMIADIAPAHISMRNGYMGPNYTTVSACASSANALIDAFNYIR
+LGMCDVIVSGGSEAAITIAGMGGFNSMHALSTRNESPETASRPFDGTRDGFVLGEGAGAL
+VLEDYEHAKARGAKIYCEIGGGGMSSDAYHLTAPHPEGIGVIAVMKNTLRDAGMNPEDVD
+HINTHGTSTPLGDVAELKAISAVFGDHAKTININSTKSMTGHLLGAAGAIEAIASILAMQ
+HGIVPPTINHTVVDENIDPSLNLTLNKPQKREVNVAMSNTFGFGGHNACVLFKKLVD
+>tr|A0A1S1J2H6|A0A1S1J2H6_9FLAO
+MAETKQQQTALGDVAARQLAIATRTVPQIGTITPRWLTHLLHWTPVESGVFRLNKVKDGS
+HIEVDCSARDERVLPNTFVDYIDNPREYNLAAVQTIVEVHTRVSDLYSKPYNQISEQLRL
+AIETIKERQESELINNKDYGLLSNVAPSQIIKTRTGAPTPDDLDELLTKVWKEPGFFLLH
+PLAIAAFGRECTRRGVPPPTISLFGSQFLTWRGIPLIPSDKLPIKDGKSKIILLRTGESR
+QGVIGLIQPGLQGEQSPGLSVRFMGINEKAIASYLVSLYCSLAVLVDDAIAVLEDVEIGK
+YHEYKY
+>tr|A0A1S1J374|A0A1S1J374_9FLAO
+MKKNIITLLFACAVTNMFAQVPTVSAPVKIEAAGNISDKVTHKVLKPLAKVALDKESILI
+YDYDGSLFSFNLESEKINWTVKATDSFTELCANAITLQDGVVYVPFINGEIFAIDNQSGA
+VFWKSRLGNSTDQIILKNQIPVINEGKLFVTSQNGNLYALDIKTGGLLWNHKLDAENNES
+PVLLFNNKVFIQSGTSVYSFEANTGKLLVQKTCEEAMRGKLVTDGENIFTANEKNVVFAL
+NPDRLDVLWQFKLEETQNNIKERIFCKDKKLYFAAQGPEVSSIYAVDSKAGTQIWKRDFK
+GDNVEYMVEESDNIWGYTRKSKLFQLDITNGEIAFEYKLSTRPISNLEFLGDDYFFYYSD
+AALIQFEYKTKDENEVYLRTSIKDDVYSAFLKLIR
+>tr|A0A1S1J8F9|A0A1S1J8F9_9FLAO
+MAHKKGVGSSKNGRESESKRLGVKIFGGQAAIAGNIIVRQRGSKHNPGENVYISKDHTLH
+ARVAGVVKFQKKKDNKSYVSILPFEA
+>tr|A0A1S1J7M0|A0A1S1J7M0_9FLAO
+MEGRKTLEYYVLDVFSNESYKGNPLSVVFTDGNLKLETYQDISKEFGYSETSFIYYSTRE
+KALMVRSFTPTGIEIDGAGHNLLGAVCGALLKGMPIFDEQNESELFVIMKHSAIPLTVTL
+DPVTFYPLVQMHQKSAVIKQEIPTYKIAVALGLKIEDLDVNAFVPTIVNTEVAHAMVPIK
+SSQILNSFVPDNQLLIEISKEYKFEGFYCFTIADENEEHIVETRFFNPIIGINEDPATGT
+AAGPLIGFLTQKKFTKSDKEYKILQGVRLKQPSMIEVMNREEDILVGGSSTITMRGELYL
+>tr|A0A1S1IZ96|A0A1S1IZ96_9FLAO
+MKQTLLFTEDLWKRFVARTAESQESFELKTYPHLDPYFNFFKHSNDIKKLVSNMELIAKH
+SFLPFVKILTKTPRFRFQENEKTYGLETKIRPIAFASHFDSYIYGYYSFALTEKYQHYIR
+AKGFSECVLAYRSDLDGKCNIQFAKEAFEAVRKKTSSNGHCTSIALDITGYFDNIDHTIL
+KSKWCKILNLQELTKDQYKIFRSLTKYSYISRDSILKHFKIDLKTASSWNSLLDLVPDNA
+AGPTFNNKFDLLRKRNLITVNLPKVSQAGEKSFRGIPQGSPMSALLSNIYLIDFDEKIFN
+LSIELDFTYRRYCDDLLIICDSEKAVQINEIVLKEIAAYKLVIQTKKTEIIHFRPTLSGK
+IRGFNQKKIEKFSPVFTPQNEQQFYRNLQYLGFEFNGVSIYIRPGSLSRYFRKMKGRIVK
+TVMMAYSDKSKRDKILKKQIFERYSHLGKRNFLSYAVKASKKRYYSKSMKAYREGMDSKS
+IRKQLSAHFAIMEKEILMKSLTRHEFKEYIYTKKKEQGRRVSRKKLKF
+>tr|A0A1S1J341|A0A1S1J341_9FLAO
+MSGEKDLEKLLKSMKPQHNLGDYVFCKVEKIENMSMDDIVMLFKENEAITLILKKEIADT
+LKLDYSVVMSWITLTVHSSLEAVGLTAAFSKALSENGISCNVVAAFYHDHIFVAKKDTDK
+AMEVLNLFSV
+>tr|A0A1S1J5Q4|A0A1S1J5Q4_9FLAO
+MNENEISYLIRGAIFKVYNKLGPGLFESVYESALFYELEKLDLKVQKEIEVKITYDEMIL
+DPAFRIDLLVEDKVIIELKSVEDLAPIHHKQLNTYLRLTNKKLGLLVNFNTLNILNDIKR
+IANKI
+>tr|A0A1S1J891|A0A1S1J891_9FLAO
+MKNEVKIHEVDPSLNNRRSFLKLSGLTLVGAGLLMAGCSDNDNDDDMEDTTLPGIRNGVF
+DLGSGDFGVLTYAYALEQLEADFYTKVVNSTSFNVTFNPIERQVLTDLYHHEVIHRDFFK
+AALTGALPDPSSQLLPSLAFNYGSLNFNSRTEVLATAKALEDTGVAAYNGAGKLIKSADY
+LLLAGKIVSVEARHASAIRSLINPDSKDFAGDDIVNASTGLDVAQDPSKILPIAGGFITT
+KFTAKYLP
+>tr|A0A1S1J235|A0A1S1J235_9FLAO
+MTKYYLLIIGLFSMACFAQKTTLYTIGDSTMANKKDPERNPEHGWAQVLQPFFTENIVVE
+NKAVNGRSTKSFINEKRWDSIYKKLKKGDYVFIEFGHNDEKIEDSTRYTNPHTSYRYNLI
+KFVNESREKGATPVLLTSIARRNFNEKGVLIPTHGDYPLITRLVAQEFKVPFIDLEYFTE
+ILEQSYGPEKSKLLHLHFKVGENNYYDKDKNDDTHLSLKGATEIAKIVINQIKAATDPAL
+AALKKGIK
+>tr|A0A1S1J961|A0A1S1J961_9FLAO
+MEQPWIHKAKTDSLLIIGPSFFVLAIILVFQDYITSIENNYSFYTWLFLIVFIDVAHVYA
+TLFKTYFVKEEFLKDKKRLILLPVICFVTGMVLFSFGSLIFWSFLAYIAVFHFIRQQYGF
+MRLYARNEVKTKTSVWIDNLAIYAATIYPMLFWFFSPERKFNWFVENEFFRFENKAILET
+LFWFYIAILLVYVIRTVIVSVKNKFFNIPKNSIIFGTALSWYFGIVYFNDDLIFTLLNVV
+SHGIPYMALVYFKEIDGKGGKEIGVLTYLRRYNGVLIYIGILVVIAFSEEFLWEFFVWNE
+NIAVNTSFDFSGWQFLLVPLLSVPQFTHYILDGFIWKTKK
+>tr|A0A1S1J9W7|A0A1S1J9W7_9FLAO
+MAEDNFFERVYAIARQIPYGKVTSYGAIAKALGTARSARMVGWAMNACHNMDDVPAHRVV
+NRKGLLTGKHHFDGTNLMQQLLESEGIKVIDNQIVDFEKHFWQPEIEL
+>tr|A0A1S1JBI9|A0A1S1JBI9_9FLAO
+MKILLLEDDFTLSKEISAFFTSNGFECFSYYDGSLLLKKYFPYEYDLIILDINVPGSNGI
+EVCKGIREVDKKTPIIMLTAFSEIEDKLASFDNGADDYLVKPFHFKELYARSTSLLRRKE
+IPQQVETKITIADLEILESDMKVFRSNEEIKLTPKEFKLILILAHAKGKVLSKQFIAEKL
+WDYHIETNQNTIEVYINFLRKKIDKDHTVKLIRTKVGYGYYLSDQE
+>tr|A0A1S1J2V8|A0A1S1J2V8_9FLAO
+MSINQNKYLNNLKIKFESYAPISESSWHLIAGIAEIQSIKKGDILLQNGQIAKEIYFIIK
+GALRAYITDAAGNLYNKNIFLEGDFAGSKASLLQQTASHFTIEALEDSTLIQLNYKKYRA
+LIDQNDDLKNYYIAYLEKNWVIEKEQREIALVMQNATERYLQLLSKHQDIADRIPLLHIA
+SHLGITPTQLSRIRKNLEKDL
+>tr|A0A1S1J4T6|A0A1S1J4T6_9FLAO
+MALSVSKLNKFVLFKLPSAYICGVRVKAIDKDRCVVSVKHRWINQNPFNSMYFAVQAMAA
+ELTTGALVISQIQQSGKKISMLVANNKGNFTKKATGRITFVCNDGHLIADAIKETIKTGE
+GQTFWMKSIGTDESGTQVSEMDFEWSVRIK
+>tr|A0A1S1J724|A0A1S1J724_9FLAO
+MNLPWHLYLMASLYIIAGLNHFRKPGMYFKIIPPFFSNPKLINILSGVAEVIFGILLLIP
+VTSHFGAWGIIATLIAVFPSNLYMYQNKKASFGLPKWILFIRLPIQIVLILWAYQYTF
+>tr|A0A1S1J5E2|A0A1S1J5E2_9FLAO
+MKTKLLIIFLFYSVVLSAQFLYFKETDDKNDKTHLLKKSNNFLQLSAPEEGFKLFQSNVF
+QFQSNEVNFYTELVSDKIGAFRVSLGSHINSAKENTVEKQTIASLLNGGGNGVLNATTIV
+GYYKSSWGTFCLALNPKLGFQLPALGSLSNEATFNFQLGGQMYIDIFGGNDKLKLFSIIS
+AYEIVGSKDLYENLDIENKPFFLSQLNFGIIVKNQWRIMASCPLASTYDKFVRQPVSVGT
+QIIID
+>tr|A0A1S1J8J6|A0A1S1J8J6_9FLAO
+MNHFNPADKIQDLQYFGEFGGVNPSISDSSTYTFLSAKTMFDTFEGNMEGCYLYSRHSSP
+SNLYLDQALAAMEGTETANVSASGMGAITPTLLQLCGVGDHIVSSRTIYGGTYAFLKNFI
+PRFGIETSFVDITKLDIVEAAITSKTKVLYCETVSNPLLEVADIAGLAKIAKKHNLKLVV
+DNTFSPLSVSPAKLGADIVIHSLTKYINGSSDTVGGVTCASKEFINSLKNVNSGASMLLG
+PTMDSLRSASVMKNLRTLHIRIKQHSHNAHVLADKFEKDGLKTVYPGLKSHPSHELYKTM
+INPEYGFGGMLTIDVGSLEKANELMELMQTRNLGYLAVSLGFYKTLFSAPGTSTSSEIPL
+EEQAEMGLTDGLIRFSIGLDNDIERTYKMMKACMTELGILQNKTILYK
+>tr|A0A1S1J6Y5|A0A1S1J6Y5_9FLAO
+MIETVIDFDLTENYDENIFDNFMSTVERLNLSGETSIEESKKLENLVLKLERNVQDLTDL
+STEFNSLILNNVKRILSDYNKILIHSQSNEMLGLAFNTFQTLNNSIYHYQHDNAFNKLVD
+VTNRLSISNNLNGNLSSLENIKKTAFIGLTSLEYEYSYVNNLFDNILYESSEILINFKTK
+ENETHKPLEFIYQFIEILNKIEGVRVEIEEIKKGSLVVTLRAYFNSKKAKDDACELLEGA
+KKFASGKLEKEYEEKEKIKEEKLKINVEKKILQQELDQSVNLDSLYLKALNIKQSEEDLK
+RKQLENIKLGLEVLKDSRDLFTELIGEGFVSQSDFDMFINQIPFLQKIDGKLTVGENALI
+DKKDQN
+>tr|A0A1S1JCC4|A0A1S1JCC4_9FLAO
+MTFKEQIQQGIPTILPPKATYDLAINHAPKRKEILSAEEKKLALKNALRYFDTRHHAELI
+QEFSEELETYGRIYMYRFRPEYRMYARPIDEYPGKSLQAKAIMHMIQNNLDYAVAQHPHE
+LITYGGNGAVFQNWAQYLLTMQYLSEMTDEQTLTMYSGHPMGLFPSHAEAPRVVVTNGMV
+IPNYSKPDDWEKMNALGVSQYGQMTAGSYMYIGPQGIVHGTTITVLNGFRKIKQNPEGNL
+FVTSGLGGMSGAQPKAGNIAGCITVCAEVNPKITKIRHEQGWINEIVTSTEELVKRVLRA
+KANKEVVSIAYLGNVVDVWECFDKENIKIDLGSDQTSLHNPWAGGYYPVGISFEEANEMM
+ANNPELFKEKVQESLRRQAKAINQHTAKGTYFFDYGNAFLLEASRAGADVMAENNIDFKY
+PSYVQDIMGPMCFDYGFGPFRWVCTSGKPEDLQKTDAIASQVLEEMAQTAPNEIQQQMQD
+NIKWIKGAQENKLVVGSQARILYADAEGRIKIAEAFNQAIAKGEIGAVVLGRDHHDVSGT
+DSPYRETSNIYDGSRFTADMAIQNVIGDSFRGATWVSIHNGGGVGWGEVINGGFGMVLDG
+SKEASKRLASMLFWDVNNGISRRSWARNDEAIFAIKRAMEVQPLLKVTLPNIVDENLF
+>tr|A0A1S1J2H2|A0A1S1J2H2_9FLAO
+MITVNDAAKVFDTVLSIPGMNEPVKMDLKISRKNVLLLSHLIQDGLKIREGSSVLLESIS
+EQGRTELESLSQECLQKAGLIELHEKLAGISASIKG
+>tr|A0A1S1J496|A0A1S1J496_9FLAO
+MQNLPKKIRSKKLNAKVDLTAMVSVSFLLIIFFMVTIELTKPKVIVYDTGADRGCCDCPP
+RHYGENRSMTIILGENNKIIAYTGLLFAPIVPPKELEYGKNGIRRELFERNKTVLEYSAA
+LGKPGQGVTVIIKPSKKSSYGNLVDIIDEMKVIGITSYSIVDYYTPEEENLLASN
+>tr|A0A1S1J6J0|A0A1S1J6J0_9FLAO
+MKLKFLILLTFIITGTNYAQEKNGTGEANPNEIKSEIQVIARVQKDRILLRWAVSNAMAW
+KKLNTYGYTVERYTVTRNNKTLPTPEKVVLINALKPEPLETWEKLIEKNDNAAIVAQAIY
+GENFSVTGTDKLENIVNLSEENEQRFTFALLTADRDYEIAKKAGLGIEDKTVKPNEKYAY
+RIISNVPEKEATISYGGIFVGLEDYQPLPKPMDFTAHFTDSSTMLSWNFKILSHTYANYF
+VERSTDKKTFERITDKPYTSLNQENTSNSQIFYVDSIANNKPYSYRIQGISPFGELGPYS
+QVITGKGTAILKYVPHLTVKEFKDENTVTLTWEFPAEGDNEITGFELNRSDKDDDGYKTV
+IKNIPAKSRTVTYNKLLSTNYFTITALGKQGSNRTSFPMLVQPVDSIPPSKPIGLKGVID
+SLGVVKLTWDPNKEKDLLGYRIYRGNTTEEELTQLTVSPSEPNSYQDKVLVKSLNSKVYY
+KVIAVDYHYNMSDFSDVLIIKKPDVIPPTSPVFTSFKIKEGAVFLEWVNSQSEDVAVHQL
+YRKENDQKDWTLILETKNKEEKFQDKTAVEGNTYRYAIFAKDESNLVSNPSPGLTLFVPK
+YSVMPAVKGFFAQPNKTSNTIDLSWDYANNEVDGFEIYKASDKDPLQLIQIVPGKTRFLP
+DPTITINTTYQYGIRATFKDGRTSKMDFFTVKF
+>tr|A0A1S1J7N1|A0A1S1J7N1_9FLAO
+MKKCLVYIFILLLSFTAKASFILLPMDETTQQNHLKAYGITYWCLSRDYKASWLLNYRGG
+SFLLPDADEIRKECKIRGVSFEVLSDAEEASILNDISSPSQNMESVILEKAPKIAVYTPK
+GKQPWDDAVTLVLTYAEIPFTPIYDEEVLSDQLLLYDWLHLHHEDFTGQYGKFYSAYKNT
+PWYIEQKKDAEALAVKLGYPKVSQEKGAVAKKIRDFVIGGGFMFAMCSATDSFDIALSAD
+GVDICEAMFDGDASESNYQSKLNYGNSFAFKDFTLERRPEVYEFSDIDMTGKRRIPMEKD
+YFTLMEFSAKWDPIPSMLCQNHTQLVKGFMGQTTAFDTNLVKSNVLIMGTCELNGESRYI
+HGEKGKGMFTFFGGHDPEDFQHQVGDPPTVLDLHPNSPGYRLILNNVLFPAARKKKLKT
+>tr|A0A1S1J8I7|A0A1S1J8I7_9FLAO
+MRKIILSVILITILVLTFLSNFILSDNPIPAEAVKFDTGDTAWMIVATAFVLLMTPGLGF
+FYGGMVGKKNVISTMLQSFMAMVIVTILWVIVAFGLAFGPSIRGIIGDPTSNLFFQNVGT
+STTWSLAPTIPFMLFALFQAKFAIITPALITGAFAERVRFWAYLLFMVLFILIIYSPLAH
+MTWHPDGVFFKMGVLDFAGGTVVHMSAGWAALAGAIFLGKRKVQKVNPARITYVLLGTGL
+LWFGWFGFNAGSALGANGLAVQALGTTTIAAAAAAMAWVFLDKILGHKLSALGACIGAVV
+GLVAITPAAGFVSISHAIFIGAFSAIVSNLVVSKFPKGKIDDALDVFACHGVGGMVGMLL
+TGVFASKAINPAVGDNQGLIFGTPTLFINQLTALVIVSIFAFVGSYALFFVVNKITPLRV
+TEEKEELGLDISQHGEFL
+>tr|A0A1S1JDN4|A0A1S1JDN4_9FLAO
+MATISRFEDLEIWKEARRLAKEIHLIAIHTELRSDLRFKNQIKASSGSVMDNIAEGFERD
+GNLEFRQFLSIAKGSAGETRSQLYRIFDFEYVSEQKFEALKTDYENLSGKIKNFISYLNK
+KDFKGNKFQ
+>tr|A0A1S1J3G6|A0A1S1J3G6_9FLAO
+MAQSSIEWTEMTWNPTTGCTKISAGCKFCYAEVMSKRLKAMGIEKYKDNFKVRVHEPSLK
+IPYTWKSPKVVFVNSMSDLFHEEIPLEYIQRVFKVMNDNPQHVFQVLTKRAERLSEIHKK
+LKWTHNIWMGVSVEDERVIDRIDFLRNTKAHTKFLSLEPLIGPLPYLNLKKIHWVIVGGE
+SGSKARPMNEDWVLDIYQQCKKANVSFFFKQWGGKNKKATGRLLNGRTYDEMPRIMEVES
+GAK
+>tr|A0A1S1IYF3|A0A1S1IYF3_9FLAO
+MSYSITYGLLLEVTILHNYFLNNGEETFASMSNDDKEKMLQKFNTAVFTTITPTLETHTI
+LQNYKMVFKESKTGFKIYIKVKEADETDPFIKVPADLNLNFLITIHDYQFENYTNLEFTP
+NRVLLFGNVKPPKEPVTFKYLPKINDNKLVSSAYLVSEETTTDLISTLHSSETQDIFGII
+SLTMQGDNSSENSIDDDGKINSPNFKIHFDNRKTLWKYINRKADTEIETNTTKPLTRSGF
+VEIDPLTDFDVPQPVSSSYPNPSVKSITKDNGDYYSEIFI
+>tr|A0A1S1J5U8|A0A1S1J5U8_9FLAO
+MIAAHESYENQNARFWIENEILFFGYKPNTTVNLEVAMRVVADRVAFQNERYFPVFCDTR
+GIASIDKAARDYLAKSGSMLAKAVALIGSENVSITMSTFYLEISKPSVPTRIFTVEKEAL
+DYLKDFI
+>tr|A0A1S1JAS8|A0A1S1JAS8_9FLAO
+MKFPKQKIAKALLILALVLVVLFLGFYFFRDSLLKQAIAKVTHKMNTEYNSTFSVKSASF
+DGLSGIKLTNVILVPKNADTLCHIQKIETSISLANLLIGDVQIGTLKVNNGYIQLVKKGN
+VRNFDAFLKKDKSDSDKNEKRKYASFAYRIISKLLNLVPTDMKLENLNFRIDDNGKKTSV
+AINKLVLDNKQLETNLHVQSKDFDQRWNIKGFADPRNKKADIRFFNLDTGAIRVPYLDER
+YNLKASFDSIRLNVQNIEKDGSELHLDGYTSITNLKINHPKIASKDVVIKNARFDYRFLL
+GDSFISIDSTSTMQLNKIKLHPYVSYDTEKDTVYTLKVNIPKMQAQDFIVSLPEGLFTHF
+EGMEAAGSFDYKLDFKFNKNKPNALVFDSKLNKEGLKITKYGEADLNKLNGEFVYRAIIQ
+NVLQRPVLVGNANPNYTPLDQISPYLRKCVLTTEDPSFFSHRGFINEAFKQSILKNIRTK
+KFSRGASTISMQLIKNVFLTREKTLSRKLEEILLVYILENNRVVSKERMLEVYFNIIEWG
+PNVYGIGEASHFYFQKSPANLNVDECLYLATIIPKPRKFMYQFNDQGNLRDYALKNQKFL
+KNLMFRRGLLVPEDTLGQLPVYISGNARSLIRIKAPDSTAVKNDSLAIEDEFDL
+>tr|A0A1S1J4G0|A0A1S1J4G0_9FLAO
+MNRITQLFKIKYPIIQGGMIWNSGYKLAAAVSNAGGLGLIGAGSMYPEVLREHIQKCQKA
+TSKPFGVNIPMLYPNIEEIINIVVEEGVKIVFTSAGNPKTWTSFLKEKGITVVHVVSSSV
+FALKAQEAGVDAIVAEGFEAGGHNGRDETTTLTLIPMVKEKVQIPLIAAGGIATGRGMLA
+AMVLGADGVQVGSRFAASIESSAHDNFKETIVKVREGDTQLTLKELAPVRLIKNKFYQDV
+QELYEKCPSKEDLVQLLGRARAKKGMFEGDLEEGELEIGQIAGLIHEILPVEQIVQQMMS
+DFEVACQEKAKFEF
+>tr|A0A1S1JBR1|A0A1S1JBR1_9FLAO
+MSHEHVSNTKRIWFVFALLSVVTTVEVILGIYKPASLEFNHFVGLNLLNWIFYILTIFKA
+YYIVWAFMHMEGEKSSLRWSVVAPVIFLVLYLLFILLTEGHYIYGVFKDSTIKWNF
+>tr|A0A1S1J3T6|A0A1S1J3T6_9FLAO
+MDSNVKKEVENHILKASGLGEKSVGYKAIQQLFSMEELDLMFKYELLLDIRRGCIHLGLN
+IQLSRDKIYIDEDVVKNYYEKVMGLQYPEQKPELTYYDRIKLNRKEQ
+>tr|A0A1S1JEQ9|A0A1S1JEQ9_9FLAO
+MNPLLLTDGYKVDHRRQYPDGTTLVYSNWTPRKSRIEGLEEVVFFGLQYFIKKYIIHDFE
+ADFFKKPKEEVVKKYARRINNYLGENQVGTKHIEDLHDLGYIPMVFKALPEGVSVPLRVP
+MFTMYNTLPEFFWLTNYFETLLSAIVWLPCNSATIAKEYRKVLDKFADETSSVPEFVDWQ
+AHDFSMRGMGGIEAAITSAAGHLLSFTGSDTIPVIDFFEEYYNADSDAELIAGSVAATEH
+SVMCMGTTEGECETFKRLVTEVYPKGIVSIVSDTWDLWKVLTDYLPRLKEEIIARKGKVV
+IRPDSGDPVDIICGNPNGKTEEEKKGVIELLWDVFGGTVNAKGYKELIPQIGAIYGDSIT
+VARATQICERLKEKGFASTNVVLGIGSFTYQYNTRDTFGFAMKATYGEVKGEGRAIFKDP
+ITDDGTKKSAKGLMKIDLIDGVYHLTDNVSWEEEKQGELKEVFRDGKLLTEQSLSEIRTR
+VKSAVNVEA
+>tr|A0A1S1J1U8|A0A1S1J1U8_9FLAO
+MKKTYVVAVMLMLVSLSNTILAQNTKIPGKTEWFDPNKKATTYCNPINIGYNYTTENHNG
+IPESRRSSADPVIITFKGEYYLFATNQAGYFWSKDMSDWKFVYGSFQRKPADDDQCAPAA
+WVVNDTLFYVGSTWKRDHPIWKTADPKSGQWLRHVDKAMLPTWDPAIFQDDDKKVYMYYG
+SSGKLPFVGVEVDYNTWLPKGNQAAYEKLYKATEVEDIQRAYGEIKEVVGLDPANHGWER
+FGPNNDMEPAPWGNFIEGAWMTKHNGKYYMQYGAPATEFKGYANGVHIGNSPLGPFTYQK
+HNPMSYKPGGFVIGAGHGNTFADNYGNYWNTGTCKISIKDRFERRIDLFPAGFDKDDVMY
+SITSYGDFPIVLPTKKRNQEKGASSGWMLLSYKKPVTVSSSEECMEVETHRMDNGGKKVY
+EKFCYGAVNLTDENIQTYWSAKTADPGEWLQLDLGRQMQINALQINYADHKATQFNKAMD
+IYYQYKIFMSDDAVNWKLVVDKSKNAKDVPHDYVELTKAIKARYIKMVNVHNASGLFAIS
+DFRVFGNGLAEKPQSVLGFKVDRNATDARNAMISWKKQTNATGYNIYYGIAPDKLYNSIM
+VYDESSYDFRGLDKGTTYYFTIEAFNENGIGVKNEVVEVK
+>tr|A0A1S1J2G6|A0A1S1J2G6_9FLAO
+MRNTAKTTTLERRFPLLAVENNCILSKDADITACFEVRLPELFTVASAEYDAIHSAWHKA
+IKTLPDFTVIHKQDWYIRENYDPEMDKDDQSFLARSYQRHFNERPFLNHYCYLFLTKTTK
+ERMRMQSNFSSLCKGVLIPKEIRDKETVHRFMEAVTQFERIINDCGFVKIRRMSEEDIVG
+SEGGQGLLEQYLTLSREIGTPLQDIALGSTEVRVGNKRLCLHTLSDTDDLPSSVSADTRH
+EKLSTDRSDCRLSFAAPVGLLLNCNHIYNQYLFLDNSEENLQKFEKSARNMHSLARYSRA
+NQINKEWIERYLNEAHSFGLSSIRAHFNIMAWSDDPSELKQLKNDCGSALALMECKPRHN
+TTDTATLYWAGMPGNAGDFPSEESFYTFIEPALCFLTQETNYHDSPSPFGIKMADRLTGK
+PIHLDISDLPIKRGIITNRNKFILGPSGSGKSFFTNHMVRQYYEQGAHVLLVDTGNSYQG
+LCELIKAKTKGEDGIYFTYTEDNPIAFNPFYTDDGVFDIEKRESIKTLVLTLWKRDDEPP
+TRSEEVALSNAVSGYIERIKELDAFPSFNGFYRYVKDDFIQILEAKKVREKDFDIANFLN
+VLEPYYKGGEYDYLLNSDKQLDLLSKRFIVFEIDAIKDHKVLFPIVTIIIMEVFINKMRR
+LKGIRKLILIEEAWKAIAKEGMADYVKYLFKTVRKFFGEAIVVTQEVDDIIQSPIVKESI
+INNSDCKILLDQRKYMNKFDDIQAMLGLTDKEKAQILSINMNNDASRHYKEVWIGLGGTH
+SAVYATEVSLEEYYAYTTEETEKMEVMQLAAELGGNVELAIKQIAIRRREQENQ
+>tr|A0A1S1J543|A0A1S1J543_9FLAO
+MKIQVAIVEDDKNYNQALKNIIDFQQDMECVAQFFNGKNALQKLEALEPDVVLMDIQLQD
+LSGIDLVFKLTDVMPGTTFVMCTSFENDEKIFSALRAGASGYLVKGDPLDKIIQAIQEAH
+KGGAPMSFAIAKRVLQHFQETKVQVQTLSLLTVTEKEVLDLLAQGLLYKEIADKKNVTID
+TIKKHIGNIYRKLQVSNKIEAINKFNTKN
+>tr|A0A1S1J9I0|A0A1S1J9I0_9FLAO
+MSSFDVVIIGSGPGGYVSAIRCAQLGFKTAIVEKYNSLGGTCLNVGCIPSKALLSSSHHY
+AEIAHFADHGIEVSGDVKINLEKMIARKQAVVDQTAGGVNYLMDKNKVTVFNGLGSFVDA
+THIAVTKADGTSETIEAKYTIIATGSKPSSLPFIKIDKERIITSTEALALKEVPKHLVII
+GGGVIGIELGQVYLRLGAQVSVVEFMDRIIPGMDSSLSKELTKVLKKQGMKFYVSHKVKS
+VERNGDAVVVQAENAKGETITLEGDYSLVSVGRRPYTDGLNADKAGVKISDRGQVEVNDH
+LQTNVPNIYAIGDVVRGAMLAHKAEEEGTMVAEILAGQKPHIDYNLIPGVVYTWPEVAAV
+GQTEEQLKAAGVKYKSGSFPFKALGRARASADLDGFVKILADEKTDEVLGVHMIGARTAD
+LIAEAVTAMEFKASAEDISRMSHAHPTFAEAIKEAALAATDNRALHV
+>tr|A0A1S1J4L8|A0A1S1J4L8_9FLAO
+MNTFNKDKFVQDYEIHLKSQILQFNKIENPTKRDEEIFYPDADKIYLDLVKQNNLKIHSD
+ELEDVYSKTQEINNRLFKLIKPAK
+>tr|A0A1S1J6L7|A0A1S1J6L7_9FLAO
+MSINSIFQFLVPKDKKFFPLFEEASSNLIELASNLHEAVNLPLKEREVLFQKIDELEQKG
+EDITRQTNLELSRNFITPFDREDIHTLITSIDNVADYLHGAASRMKLYQVDKITKSIRKM
+TEINLEACQNIDSAVKELSNLKNMNIIKEACARINKLENKSDNVYNKAVFEIFENETDAK
+NIIKYKEVLSVLESATDKCKSVANILESISVKHS
+>tr|A0A1S1J8U6|A0A1S1J8U6_9FLAO
+MKSIILREIKSFFGSPIGYLVIAIFLISNGLFLWVFEGDYNILNSGYADLTPFFTLAPWI
+LIFLIPAVTMRSFSDEKKQGTLELLLTKPLSIWEIVNGKFLGSFLLIVLAIVPTLIYVKV
+ISSLGAPEGNIDMGSTIGSYFGLLFLIAAYSAIGIFTSTLSENQIVAFIIAVFLCFTLYF
+GFEGLASLIPGSSTIVSVFGMQDHFKSMSRGVIDTRDVIYFLSITALFLSFTVYQLKSFK
+A
+>tr|A0A1S1JB33|A0A1S1JB33_9FLAO
+MKDLLRTRTSLVESVENILNLQAKLESDASNKYLAMAAWLDRNGYANTASYLYKQAEEER
+EHFLKVFKYITDMGGIAVTPSVPEVQQEFASLREVFEIALQNEIAVTQAVNKVIAKCRAE
+NDYATEDFMMWYVAEQREEEKNARRALELFDLIDESEAAGKFQLDVQIAKIGE
+>tr|A0A1S1J3S5|A0A1S1J3S5_9FLAO
+MELNKYSKTITQDQTQPAAQAMLYGIGLTEEDLKKAQVGIVSMGYDGNTCNMHLNDLAKD
+VKKGVWDANLVGLIFNTIGVSDGISNGTEGMRYSLVSRDVIADSIETVAGAQWYDSIIAI
+PGCDKNMPGALIAMGRLNRPSLMVYGGSIHSGKWKGETLNIVSAFEALGKKVKNEITPED
+FKGVIQNACPGAGACGGMYTANTMSSAIEALGMSLPYSSSNPALSQEKRDECLAAGKAIR
+TLLEKDIKPRDIMTRKAFENAITIVAVLGGSTNAVMHLIAMAHSVGIEITLDDFQAINDR
+TPILADMKPSGKYMMEDIHEAGGIPSVMKYLLKVGLIHGDCLTVTGKTVAENLASTPDLQ
+DGQQVIHEIQKALKPTGNIQVLYGNLASEGAVAKISGKEGEYFEGPAVVFEGEFEVIPGL
+EAGKIKPGNVVVIRYCGPKGGPGMPEMLKPTSAIIGAGLGSSCALITDGRFSGGSHGFVV
+GHITPEAYDGGGIALVKDGDLIAIDAVKNTINLKISDEEFAARKESWIQPPLKVNRGVLL
+KYARSVSSASTGCVTDK
+>tr|A0A1S1J7H8|A0A1S1J7H8_9FLAO
+MKKVFLLAIIAGLSFSCGKKVAEENKNSEKKEEVKPAVVGGDSDAHGCKPSAGYTWSALK
+KECVRLFEVGTKLVHAEDGKTYSTVAYVIFDGNKAELFLDTQDEVILLERKSEGEPWIKG
+DLQLIPWKGYVLKKAGKIIYTGE
+>tr|A0A1S1J9U5|A0A1S1J9U5_9FLAO
+MKTEDLLNQIAFIKEIDKVKYIQRKTKLFHSDRNENDAEHSWHLALMAIVLAEHSDEPID
+VLKVVKMVLIHDIVEIDAGDTFIYDSQKNHSNTDEERLAANRIFGLLPKKQAEELIAIWE
+EFEAGETNEAKFARSMDRLEPLLQNTSNNGGTWKEFGVSYDKVYEKKSVIKEGSKTLWSY
+AEGLINESVEKGILKKE
+>tr|A0A1S1J149|A0A1S1J149_9FLAO
+MKKIILDLAVTLDGFIEGPNGETDWCIMDDDMDFDGFLSSIDTIFYGRVSYDMWGNYQPD
+ENANPAEKSLWKEVHAKNKFVFSSQNREDNNASFINSDIVTKANEIKKQSGKDIWLYGGA
+SLIKTFIQFNLIDTYRISVHPIALGSGKPLFEDLKERLELKLLTTNIFKSGVIQLIYEPV
+K
+>tr|A0A1S1JA84|A0A1S1JA84_9FLAO
+MKKLVTSAIAVIALVFCGTTQAQKKTPKLENSLLWEVTGNGLSKPSYLYGTIHAICSGDY
+FLSDKTKKAFEASNELVLEIDLADPKEMADMQQLVLGKEPLSKRLSPEQLSKLDLILQKT
+TGMTVKQVDAYSLTAVMSMVSIKSFGCKDLKFYEMEFIENAKKRNIEIGGLETVKSQEKM
+LEKAYNNDEMLMMLEELNDSVMSQSVSFYKNENINGLYDVITDEKMGSEKTNKVILDQRN
+MNWVKTMPEMMKKQSVFFAVGSGHLGGEYGVISLLKKAGYKVKPVMQ
+>tr|A0A1S1J416|A0A1S1J416_9FLAO
+MKEQLTEIISQVYHKSNRNGFTFLTGAGISAESGIPTYRGADGIWVKGTQFHKPEEFGTF
+KYFKENPEEVWQYSLFRKKMFENAQTNESHHEIVKIENLLQDRFHLITQNIDNLHRRAGT
+ERIYEIHGKTREIKCSNGCKEIEKLPIEVKGKDIDEDLTKEDIELLKCKQCGSWMRPNIL
+WFDEYYDEKTNKKYSSLKIAKNSGILFIVGTSGATNLPMAIAETTLKYGGTIVDINTEDN
+LFTERIKEKKNKIIIRETSTETLKTIREILQNVIGK
+>tr|A0A1S1J5A6|A0A1S1J5A6_9FLAO
+MKMTTQALRQKVGQFFFPAVFINDTEENIQETERLIKEYNIGGLTFFHSRASAATNYESK
+KKVEFNDDSYQKIKALIVRYQNAATTPLLISIDAEWGLAMRIEKTPQYPYAITLGALPED
+KSNLVYEVGKQIGLDLKAAGIHYNLSPLADINNNPNNPVIGYRSFGENKAKVAHFAVEYL
+KGMSEVGILGCLKHFPGHGNTNVDSHLGLPVLNETLEELLENELYPFIKGIEHNVDSIMI
+GHLAVPSLNEGKNTSATLSKPIIETLLREKLGYDGLVISDALNMHSVSKLHETKGELEWE
+AFNAGNDVLCFAENVPEGIEAILKNASPERIEESFNRIIKAKQKVGILAENHFTSGELNF
+GRASALNLEIAQNSITKIIDNFTIEQIFEAQKNNRLAKLSLYKNTKNPFFQTLNTVLNSA
+EFAFENAEASSISEIKKGLEPFETVIISLFVPKAKPMNNFEIDDEVLELLSDLLQTKKCL
+LYVFGNPYVLPIIPNLSKASRIIQVYQDFEEFQKNAGIQFLENNICRGNLPVNIEIQ
+>tr|A0A1S1J5B1|A0A1S1J5B1_9FLAO
+MIDSKIPEGPLADKWNNYKAKAKLVNPANRKKLNVIVVGTGLAGASCAASLAEQGYNIQS
+FCFQDSARRAHSVAAQGGVNAAKNYKNDGDSTFRMFYDTIKGGDFRSREANVYRLAECSA
+HLIDHAVAQGVPFAREYAGYLNNRSFGGVQVSRTFYARGQTGQQLLLGAYQGLLRQVSLG
+KVTMHTRHEMLELVIIDGKAKGIIARNLETGALERHVADAVVLASGGYGKVYYLSTLAMG
+CNSSAIWRAHKKGAYMAGVSWIQFHPTSLPQHGANQSKLTLMSESLRNDGRIWVPKKAED
+ARNPNTIPEEERDYYLERRYPSFGNLAPRDISSRAAKERIDAGHGVGPMKNAIYLDFSDA
+IKAQGKNTIEAKYSNLFAMYEKITGINAYKEPMLISPAAHFTMGGLWVDYELMTSIPGLF
+ALGEANFADHGANRLGANSLLQACVDGYFIAPYTIPNYLAGELNAPKATIDHPSFEEAEK
+SVRTQLDRFLNSKGTLSTDHFHKKIGRLLYEKCGLSRSKEKLEEAIEDIKALKASFEKDL
+LITGDDTLNSELEKAGRIADYIELAELMCYDALQREESCGAHFREEYQTTDGEAVRNDND
+FCYVSAWEWKGEAKPPELHKEPLVFESVELAVRSYK
+>tr|A0A1S1J7M4|A0A1S1J7M4_9FLAO
+MIKNAIVKVFLICLLLTVLSCSKKQGTPVTNINIGIHGNNELKIQIDVTTNENVQVYAEY
+WPAQKDTKNRISSPVSKAGLSHSLVLCNITPETQYHFQLITSNGKEKDSSKIYTFKSRKL
+PEWLQKQFKANCPKPELVPENFKKGFMLLAKRETPGVAYIVDYKGNLRWYHTVEGTGFKV
+THFTKEQSIIAILGKNDEPTSYGSEILEINLQGDTLTHIKKGQGDLKQVIHHEIIKKSAN
+EIVTLFVDQRITDLSSIGGKQKDTINGDGILILDRKGKQLWKWSVFDDLDPMKDKKLLKT
+KKDWMHANSLNYDKDGNFLISFYNNGQIWKIEAKTGKVLWKLGRGGNLKMSQDTDFSQAH
+AAHINPEGSLMFFDNGVDKKQSSVFALKVDEKNKSVQLDFHVQLPKDVYNDRMGSAYMIN
+KELILACCSKRHITVLTNKKGVLLWALESEIPPYRVQFIPEENLKPFLLN
+>tr|A0A1S1J9R3|A0A1S1J9R3_9FLAO
+MNTHFKKIGLLFLLAMSFVSCDNSDSDDALILPPSASAFKSISEQGVKKNTQNFTITAGT
+GVVTLTSAKGVKLSINGDCLTKNGVAVTGAVAIEYIELFDKGNMLVTNKPTMGVMPDGKK
+NLLISGGEFFIRATQGGVELKSSCSMNLIVPAALTDGVDNAMTLWVGKIDEKGELAWEQP
+KPNADGTGGKGGVQGEGTNYFVTFGNFGWTNVDRFYSDPRPKTTLLVDAPDGYDNNNSAV
+YLSYDGEGTNALAKLDTYTPAGLFSEHYGQIPIGLKCHVIFVTEDNGQWRYAIKAVTVAA
+NDVYTFTLGETTVGTEAQLVAAINAIQ
+>tr|A0A1S1JCJ7|A0A1S1JCJ7_9FLAO
+MKTFFLSTKVLSHKGSKIQKSSRTKSIFLLLFSIFFSQFSFAQEQDSTKVNKLDDVLVSA
+VRVTAKTPVSFSNLDKKDIKFRNLGQDIPILMNYLPSVVTTSDAGGGIGYTGIRVRGSDA
+TRVNVTINGIPYNDAESQGTFWVNMPDFASSVESLQLQRGVGTSTNGSSAFGASLNMLTD
+NYATKATGEISSSYGSFNSNKNTVKFSTGLLNDHFELAGRLSTIKSDGYVDRASSDLKSY
+FLQGTYIGKTTLIKALVFGGTERTYQSWNGIDAEKLNSDRTYNSAGKYKDEAGNVHFYDN
+ETDNYKQNHYQLHWSESISDKWSSNLAFHYTKGQGYYENFKYNEPIKGYGPIQPTKMVEN
+DLGELVPGTDLIRQKWLDNDFYGTTFSVKYKEEKLDVIVGGGWNKYEGAHFGKVIWARNS
+SQALPGDHYYDDFSTKTDGNIFAKANYQLTEKLSFYGDLQYRNVTYKANGKDTGLVDDSF
+NFFNPKAGLNYAINSKNTLYFSYARANREPNRTDYEGGNVKPEKLNDFELGWRFNSDKFQ
+LNSNVYYMAYKDQLILTGRLDDVGAPIRANTEKSYRLGLEVDATIQLSEKFILRPNFTLS
+SNKNIDLAVEGTHYGTTDIAYSPSVIAGNIIVYSPIQNLHISLLQKFVGEQYMNNIELPA
+AKLADYFVNDLNVSYEIKPKSVFKSILITGLVNNFLDKKYVSNGAMWDVYPYYYPQAGIN
+FLAGLTLKF
+>tr|A0A1S1IZN6|A0A1S1IZN6_9FLAO
+MKIQTYYNHVRFYTPHHFVYYPVLALFLGCSIYFACTTENTLIWSFISVCFLLLFFLAYM
+LRQHYALTLQNRIVRLELRYRYLSLTGKRLEEFEYKLTDDQIFALRFAPDNEILPLLEDA
+LKNNLTGDAIKKAIVHWRADYNRV
+>tr|A0A1S1J481|A0A1S1J481_9FLAO
+MGRKNTDKIVFHQIQVLDAGAKGVSVAKAPDGKVIFIPNVVPGDVVDVQTFKKRKAYYEG
+KAVKFHELSEHRIEPICDHFGVCGGCKWQNMKYSQQLYYKQNEVKNHLQRIGKVELPEFE
+TILGSEKQFFYRNKMEFSFSNSRWLTEKEIGSTEDLGNRNALGFHIPKMWDKILDIQKCH
+LQEDPSNAIRNEIRALANEHNMAFFNPREHSGLLRTVMIRTVSTGEIMVLIQFFEDDQKN
+RELILDHLYEKFPQITSLQYVINAKQNDTIYDQDIKLYKGRDYILEEMEGLKFSINAKSF
+YQTNSDQAYELYKITRDFAGLTGNETVYDLYTGTGTIAQFVSKKAKKVIGVESVPEAILD
+AKANAERNNITNCEFFVGDMKVVFNEAFIAQHGKPDVIITDPPRDGMHAAVVDQILKIAP
+KKVVYVSCNSATQARDLALMDEKYKVTRVRPVDMFPQTHHVENVVLLELR
+>tr|A0A1S1J415|A0A1S1J415_9FLAO
+MNLIMSFRSLFLFIILSCSLLQAQDSTSVLLRIHEDLSPENTFARRFYTNPANQHYARRY
+SLSELSAGYSSAAQQTNIQQLGNGIRQFLIKAQSYYKINSENTVFGNAHYKNGKRKNVRW
+NESSDYQIIYPYVTADSIGGDLSYEEYSFSGGYAKVLNKITLGISADYRALMEYRDIDPR
+PKNTVSDLNVSTGISLNISDHYVLGSALNLQKYTQSNNLKFFSELGAPAVYHMVGLGVYN
+KLLTGNKLSSYYDGRGYGANVQFFSKDRNGFGLLLGYHQFGYEKIMTEFQNLVASTILEN
+QYEGEVSYFKKLKEKFWGAKIGLFYTDRTGKENIFDNQSTTSYIKIAKHTKYTNQATSVV
+FSGLYYVPNPELSWSIAPSFTLKNTAEKYLDPLRTIDLQQGIGRLDFAISKLLSTSLINV
+SASLEHNWILSSEMELSDRKANLIFNMLNYNFTFLSSPYTKINLAARWDYKYQPDLNFFV
+KTSLDYYSFPQKQNNTFFQMSIGLTF
+>tr|A0A1S1J8M2|A0A1S1J8M2_9FLAO
+MKVYFLGTGTSQGIPIIGVDHPVCKSTDAKDKRLRVSIWITWDDHSYVIDCGPDFRQQML
+SCGCRKLDAILFTHEHADHTAGLDDIRPYNFRQGEIPVYAHQRVIDNLKRRFDYVFETVN
+KYPGAPSVKTIEVVNDVPFAIGDKTAIPINVMHGDLQVFGYRIDDFAYLTDVKTVDAAEV
+EKLKNLKVLVVNALRVEPHDTHFNLQEALDFIDLVKPEVAYLTHISHVLGFHEEVQKQLP
+ENVFLAYDNLEITI
+>tr|A0A1S1J9C2|A0A1S1J9C2_9FLAO
+MNRKLLILLLFLGSFGLHSQNLIWKTDMNDAIMASDSQKRPLLIFFTAAGVSQRIQSEIF
+VTPDFAVWSRDNVILVKLDMSDTEASDMVKEQNVKLKNALGIQELPQVCLLMASVRKGKT
+TFNNLGLVPYKQGGAKAWIADANLILNP
+>tr|A0A1S1J9S4|A0A1S1J9S4_9FLAO
+MKKLILALILGFTGILSAQNSVSGTVIDLQNKPLAGVSVYAAELHKGTTTDENGKYDFKN
+LPNGSFRLSFTLIGYTTQSKTISKLLKENTLDITLTESVFEMDEVVVSTPFNKLQSQNVM
+KVEHESIKTLQQKGTSTLIEGLATIPGVSQISTGTSIGKPVIRGLSGNRVLVYSQGVRIE
+NQQFGDEHGLGLNDAGIESVEVIKGPASLLYGSDALGGVLYFNPEKFADANTFKANFSQK
+YFTNTQGSNSSIGLKTSTDNWKFLARGSFNTHSDYKIADGDRVTNTRYNETDFKTGVGYS
+NSSFSSVLRYNYNKLDIGIPEEGIAEQSSSKNTLFPRQGIFNHLLSLNNVIFFQNSKLDV
+DLGYIANDRSEFEDSNVAALHMKLNTFNYNAKYHFPKFGKIETIVGVQGMHQTNKNSGEE
+YLIPNATTNDFGAFGTANYEWNNNVLQAGLRFDNRKVTSEAHGTEGEEGYFLPLDRSFDS
+FNASLGYKTKLAEPLTLRLNVATGFRAPNLAELTSNGVHEGTNRYEVGNSNLKNEQNVQT
+DLNLEYKNTHFEFFINGFYNHVNNYIYTSPTGEVRDNNDVFAYVQNNAKLYGGEAGLHFH
+PHPLDWLHFETSFETVTGKKQNNDYLPLIPANNWNNTLRTEFKIKNWFEEGYASLNVSST
+FSQNNVSGFETASKGYTLVNLGFGGTVKLGKHAFDVNLNGNNLLDKKYIAHLSRLKTDGI
+PNIGRNIVLGVNFNL
+>tr|A0A1S1JAN2|A0A1S1JAN2_9FLAO
+MIGENIRGSSKIYAVTKRLLENQGDRPNANIYICEDEKNVKYILKHFYSKTPVSFIGYSK
+HNHYGRRRDGSHRVFNEIQKKNTQYPFLLKHIERIKHKNKWLIILEYIEGSTLSEFVKIN
+HFKDFKKVNSAIEQFGLELKNWHSSEFAHGDPHLDNVMISNKNDDNYIIKLIDYGQLHHP
+DFHYCKKVNCYKDKNKRINEDLKNTNNKLGNGFLKGLIDLENALNIPNQLSSIFKKAYY
+>tr|A0A1S1JBY3|A0A1S1JBY3_9FLAO
+MMPQVISKGDEALAEFSTDRALNQVKIIAQKPHYVGSLNHELVANYLKLELNQIGLETSV
+QEGFTLNDRGILVKSKNILARIKGTNNTKALLLLSHYDSAPHSFSKGASDDASGVATILE
+GIRAFLYAKQPHKNDIIILFSDAEELGLNGAALFVNSHPWAKDVGLVLNFEARGSSGPSY
+MLMETNQGNKALVKEFSNAKTTYPVSNSLMYSIYKMLPNDTDLTVFREQGNIQGFNFAFI
+DGHYNYHTQQDDVQHLNKTTLAHQGTYLMPLLKYFSNVDLNTTTSTEDDVYFTAPFSFIN
+YPFSWVWPMTIIALGLLIIFIFIGKAKRVITFREIFKGFVPLLGSLIIAGLVTFLGWKIV
+LQIYPQYSDLLNGFTYNGHAYIGAFVTLSIAISFAFYHHFSEAKITMNHFVAPLLLWIII
+NAFVANSLAGAGFLIIPVYFGIFLFGIFVLTQHYSLGLNLLFSIPAFVIIAPFIVMFPVG
+LGLKILFVSAILTVLLFTLVLPIFGTFAKKGIWTIFFFAVSIGFFVYAGYHSDYEPGKAK
+SNSLLYVYNANTNSALWATYDVNLDDWTKTYLGQKNQSAVGLNTLPIASKYNSGFTYSAI
+APVVDIPKPTIAFLKDSVVGNNRYLKIKITPNRKVNRYDIYANPKMTFFNFKANGVLASG
+QKGNRLERDGMKILCYYVVGNEPLVMEFYTNKLTALDMELIESSFDLMTNPLLKVKPRSN
+WMMPTPFVLNDAVLIQQKIKRYTTPATAPAPAAIVKDSTALKKDSLKPIAKPIVKPQ
+>tr|A0A1S1JGK5|A0A1S1JGK5_9FLAO
+MSAILKLKFFFEKYGFHVSSRLADKLGMRVTSVRLFFIYISFVTAGLGFGIYLTLAFWIR
+LKDLIRAKRTSVFDL
+>tr|A0A1S1J1R6|A0A1S1J1R6_9FLAO
+MGIFSAILGNAGSVSQEELLKKYGQLLTDREEIEMGFKLLRDTFIFTNKRLILVDVQGLT
+GSKTEYKSIAYKSITRFSVETAGTFDLDAELKIWVASELQPSIVKQFNKSVNVYDVQKVL
+AFHVLG
+>tr|A0A1S1J1V7|A0A1S1J1V7_9FLAO
+MIREILNTEIKSIENDGIDVVYITDYRAKNIVPVPFSVSNFSVLLIKSGKMNIRFHDETN
+IVNRKDLLVIPFNSICTRLEATDNIQLYLIRTNFDFAFNNCYEKELSDAFSFLMLKSDRK
+ISLQETDFKVLSLIYKIMYVLQNSNDKPEVITKLRRICFNLFIYELKFIHSKYKPDLNLD
+FSRRESIVIQFLTLLSIHLRKQHHVQFYAGALFITPGHLNKMVKESTGKTAKAFIIEALV
+NVSKNLLTDSSYSVANIADELEFSSAENFGVFFKRHTGMLPTEFRSNKK
+>tr|A0A1S1J8M0|A0A1S1J8M0_9FLAO
+MKITIPLSVLFLLLTTTSFSQTIPDLKLKPKEIPKGYTLNDGNICITPQACTFYNDIETY
+ASIVGTLKSKSIQNFKSKTDRGSVMYFEFEHTFKGDRFLQGLLWGKDGQPTDEHPEEYLA
+KGKFLIIWNFHPNSVLKEKSETKIEAILQ
+>tr|A0A1S1J2N5|A0A1S1J2N5_9FLAO
+MSEQIKDVLNTLEELSDILLVFDKEKKKIMAVKGIDQNGNLETVEPTRKNENQFMRVDKH
+GDVFSNFFSNFFSQLKNPTNFSFFKIPALLAVDTSKEMQKQIDHPTPEGEQLMKKHEVTE
+YKQKNKINMETAQTNPETSEYKYKPEQIDWETLNHLGLSKEKLEKMSLLDPMLKGYKTNE
+LVPVSLNLGTAVTRMDARLSLKQNDEGQVVLAIHGIRKGPNLNYPFFGHEFSKEDKENLL
+QTGNMGRVVNLTNPKSNEIVPSIISIDRLTNEVVALRTDFIKIPDEIKGIKLNEEQKQTL
+LEGKPLTLEGMVSKKGTAFDASVQFNADKRFVEFIFDRNDPNKQTQGNQHNQTQGAPKNF
+RDKELDNEQYQKLKDGQTVYISGLVDKKGKEYNGYITYNKETNKTDFSFQNPDKAKEQIK
+PAQAHKTQTAVNSEGKTNEATKNIKEPLKSGQTNPDDKKQQEHHEESNAPAKSKGRKM
+>tr|A0A1S1J5T7|A0A1S1J5T7_9FLAO
+MKNNPKQKNSLKHVLFGSLIGTTIEFFDFYIYANAAVLVFPQLFFPGSDPTMATLESLAT
+FSIAFLSRPLGSAFFGHYGDKIGRKFTLVAALLTMGISTVTIGFLPGYASIGVAAPLLLM
+LCRFGQGVGLGGEWGGAVLLAIENAPPDKRAWYGMFPQLGAPIGLLLSGGTFLILTDTMT
+NENFMDYGWRIPFIASSLLVVVGFYIRTKITETPSFENAKKEKEEVKVPFLTLIKSYRNQ
+LIFGTLAAVTTFLVFYLMTVFTLSWITSDLGITKRDALLVQLFSVLFFALFIPVSAVVAD
+KIGRRKMLIIATAAIALFGFLFSSFLSKGNIILITTFACIGMALMGFTYGPLGTFLSELF
+PTNVRYSGASLTFNLAGILGAAFAPMIAIWLASTYGLSYVGFYLTGAALISLVSFLVVSK
+KVHQF
+>tr|A0A1S1J7M6|A0A1S1J7M6_9FLAO
+MKIIIRSAKIIDSESPFHNQTVDLLIADGLIEKIGTSLPEIDNAKEVKFDHLHLSQGWFD
+SSVSFGEPGYEDRETIANGLNVAAKSGFTAVALQPNSFPVIDNQSQVNFVKNKANGFATE
+LFPIGALTKASEGKDMAELYDMKNAGAAAFGDYNKSIDNANVLKIALQYVQDFDGLVITY
+AQDPNLKGNGVANEGIVSTRLGLKGIPALAEELQVARNLFLLEYTGGKLHIPTVSTAKTV
+ALIQEAKAKDLQVTCSVAVHHLVLTDEKLEEFDTRFKVTPPLRSETDRKALLNAVLDGTI
+DMITSDHNPIDIEFKKMEFDTAKNGTIGLESAFGALLTVLPLETVIEKLTLGKTVFGIEN
+SVIAEGSKANFTFFTPEGKSTFTKENILSKSKNSAFLGAEIKGAVYGIFNQNQLVTSK
+>tr|A0A1S1J986|A0A1S1J986_9FLAO
+MQDKLLVTVICLCYNHEHFVAESLFSVMLQDYPFIELIIIDDCSNDDSKKVIKNWLLDYP
+KVKFITNKRNLGITKSFNMALKLAKGDYIIDLAADDVLVPNCISLQIETFKKSTFTNLGI
+VYGNAELITEKGEFDSYYFPVDHNHKTIKKKQNGDVYKSVLSGLDSICSVSSMTKKTVYD
+SLNGYDETLAYEDLDFWIRASRVYEFDFIDEILVKKRISENSLTSSFYDNKKLAFRKMNL
+STYLILKKAIHLNRTKKEDLAVQKRVHHEIVHTFQIKDYNLLFKNFSLRFWLFWRTTFKK
+Y
+>tr|A0A1S1J9D6|A0A1S1J9D6_9FLAO
+MSHLEPEAKIFACSQSVYLAEKIAEQYGIPLGKVTMSKYSDGEFQPSYEESIRGLRVFIV
+CSTFPSADNLMELLLMIDAAKRASARHITAVMPYFGWARQDRKDKPRVPIGAKLVANLLD
+AAGATRVMTMDLHADQIQGFFEKPVDHLFASTIFLPYVESLKLDNLTIASPDMGGSKRAY
+AYSKFLESDVVICYKQRKAANVIDTMELIGEVKGRNVILVDDMIDTGGTLAKAADLMIEK
+GALSVRAICTHAILSGEAYEKIENSKLSELIVTDSIPLKRESKKIRVVSCAPLFAEVMHM
+VHHNNSISGKFIM
+>tr|A0A1S1JAB7|A0A1S1JAB7_9FLAO
+MKISIGNDHAGPDYKKAIVAMLQAKGYEVTNYGTDTEASVDYPDFGHPVASDVSEGKADF
+GIVICGSGNGIAMTANKHPKVRAGLCWTKEIAYLTRLHNDANIVSIPARFTSIAQAVEIV
+ETFLTTEFEGGRHQNRVNKIACQ
+>tr|A0A1S1J6H1|A0A1S1J6H1_9FLAO
+MLEILKEPWPWYVSGPLIGLTVPILLILGNKSFGISSSLRHICAACIPANISFFKYDWKK
+ESWNLFFVFGIFLGGVIAAYFLANPNPIEISPELSTKLAAYGITDHNGLVPAQLFSWESL
+FTLRGFIMIVVGGFLVGFGTRYAGGCTSGHAIMGISNLQWPSLVATICFMIGGFVMTLLI
+LPYILSL
+>tr|A0A1S1J0Z6|A0A1S1J0Z6_9FLAO
+MEKNILIINGHPNSSSFNFAIAESYLKGAIASKATVDTITIAKLDFNPNLQFGYQKRTEL
+EPDLLVSWEKIKKADHLVWIHPVWWGGLPAITKGFIDRLFLPGMAFQYRENSVWWDKLLK
+GKTAHIITTLDQPGWYYRLFYGRPSVNQLKKATLEFCGIKPVKVSYIGIIKTADEAQRKK
+WLQKVYNWGLLTK
+>tr|A0A1S1J2A3|A0A1S1J2A3_9FLAO
+MKYLSLRTSKFLFIISLLFSVFSSFAQQNGGKIKGQITTSDGKSASGVIITLKNSKYKTI
+SNIDGSFRLNKIAENIYTLQASLSGYETIEQEVTVANNETTNVTLQLKFNGKETRASEDN
+GDQLDEIIVSASRKVETLSKTPSSVTVINAKDIEDLSIVSSNIANTVAFAVPGLGSGTNN
+TGNYGQTLRGRNPLVLIDGIPQSTPLKSAGRELRSIDPSVIERIEVIKGATAIYGNGADG
+GLINYITKSGKTQKKFAGYSEAGTNGNIKGDSTLGYRFNQQFYGKISKFNYMVGGTYEKT
+GVFRDGGGKVISPEYGLGETKTYNVFTKVGYDLTPKQRIDFMYNYFSSNQDSDFILKNGV
+YGVSPAIGVLGNRPGVDEGNRYNHNANLQYVNRGIFGSTSLTANLYFQDFLTAFSNSTFF
+YGSGQSQTASTKKGLRVYLNSPFVISSNFTGDVTYGFDLLNDKTNQKLVDGRVWVPNIDM
+VNLAPYAQLSTQLFGDWNVKAGLRAENIKINIDDYNTLATGANGAGSIAVKGGELNYDAF
+VFNTGIRYSRFKFFNPFVSFSQAFSVFDLGRVLTNAKQDAISKLETEPIIVNNYEGGFSS
+QLGKFNLSASYYLSTSKLGTNLIQVDGFLVAERLPERVWGYEVQADYQILKELTVGGNYA
+NVQGRGDKDSDGNFYGPNDIYLKSNRIPPVKITGYAKYGGKRLNVELYWMYVGDRDVFKP
+NAKGAYAIGEGPIHSFNLWNLASAYKVTDSIRVKLGIENIFNTDYYPTTSQFFGTNANYT
+RGNGTRFNLALGYSF
+>tr|A0A1S1J5E3|A0A1S1J5E3_9FLAO
+MFEITINKKTIILKKNYFIAAVFLLQCCISFGQKQNPIGCGTQLSQKEETAFVKSLSKIK
+TWKKGNTKKAATVPYIIPVVFHILADGTNINNVFTKEQMKCRIDDALLTVNKDFNGLFPG
+YAMTDPRFDAVKSKLNIQFVLATVDPEGNPLEIPGLDWHPEAHVADGYDAKIYDYIWYGK
+NSRYYLDVLVVDEPNTGQGPTGSGHAFLPIQDAIPRVAFNHRYIGSTCGSHASATFAKVM
+THEFGHYFGLKHTFQDDCDPVNDGMADTPPTKVAEGCTRNVLNSCGVYANAENHMDYNTE
+CQNMYTRDQTNAMTYWLEDKTVAKYPRGVLWDPANLSAVGVIESDPTANFSSSTTAICSG
+KAIAFKDVSLGLPNSRVWTFEGGTPATSTDQNPTVTYNTSGKYKVTLKVTNSQGTNTKEV
+ANYIEVDQKSNANYTESFTGVFPPRGWEVMNPDKGLGWEKRKGVGHNDSSCMIMNNADNS
+VLGALDYIRLPYFDFTAGQNSQMYFDVAYTKFDDVSPDVLKVQVSTDCGQTWNDVYSKTH
+TVLQTTAVPTAQANNWIPVTDANWRKEVVDLTAYIGNSNVSIRFVNVSGYGTRIWIDNVN
+VAVTQAATPVSDFASSMRDTRCTSLTAPFVDVSTGNPTSWNWSFPGGTPSSSTDQNPTVI
+YEVPGSYTVTLATKNANGSGTITTKNNFITIVDPYKTSFTEGFEGSFPPTDWEIINPDNK
+LAWEQRIGVGRNSSSCMVMNNADNDKVGEVDEIILRPADLSVGVTDFSFDVAYAKFDAVS
+PDALEILVSKDCGLTWESIYKKTHMELETFESADANNWIPSLDSHWRTERVTLSRFKGEP
+NVLFKFKNTSGFGARIWIDNLKFNFDSKETPFSEFVLKSDKLCSDLPIAFKDNSTGEPTA
+WVWSFPGGTPSSSTSKEPTVVYDSAGTYNVTLTASNVYGAGTVMTKNGVVVVKSKNSLPF
+LENFEGSFPVQDWQIINPGEDAITWEKRSDVGKGDLSCLVINNADNPTAKVDELILKAVD
+LSSAATPYLYFDLAYTQYLSVFDPEPAPDKIDILVSSDCGVTWTNVYSKNQIQLQTVSPP
+IQDDPATTTSNETNDWTPTKDSDWRAEKIDLGIVKQQKNVLIKFKSTSGFGTRIWFDNLK
+VDNGPNLAVTKPREINNLKGVQVYPNPSANVFHVVTPSSADSYTVTVHSAEGKMIHTETF
+SGGNNTEKSINLSGKTRGVYFLNVTSSAKKTFTQKIIKQ
+>tr|A0A1S1J5T5|A0A1S1J5T5_9FLAO
+MKSNTILLFMFFAVFFTSCQDELNIEPKQREDASVTLSTEEGVTNVLTGTYALAARGNAY
+GGRILVYADLLGATGATATTEFRFRGSFGELRQMYIKQMLADNVIITGTYSRCYEIVNAT
+NTVIDNISKVKDPAKQARMIGEANFLRSLAYFDLVRFFAKPYVSGQANNQLGIVIRDKAI
+YDFNADLSKERSTVAEVYKVIIDGLNLAYTNLPKDNSFYADKYAAKALLARVYLQQGNYA
+LARDAADDVIKNSGHSLSTKYADAFNHDTDQAEDVFAIQITKQTGVNDANTFYSAENNGG
+RGGDIAIRDPYLEKFTDPNDDRAKFNYVNPVNDRILTLKFTDQFANVGIIRLAEMYLIRA
+EANFRAGTVVGNTPIDDINIIRTRANAQKLTAVTLDAILLERQFELAMEGFSIHDIRRTK
+GSIDVSVDGDGSELLSYDADVLVFPIPILEMDANKKITQNPGYSK
+>tr|A0A1S1JA79|A0A1S1JA79_9FLAO
+MITPPYLQKGDTVAILATARKNIDDNLKPTIDLLHSWGLEAVVGSTIGLDFNQLAGTDEQ
+RAADFQKQLDNPNIKAIWCVRGGYGTVRMIDLLDFSKFKQHPKWIVGFSDVTVLHNHLNT
+MGYQSIHGIMPVTVPRATPAAVSSMKSALFGEPISYSIAPDKMNRFGKATGELVGGNLSI
+LYSLLGSPSAIDCKDKILFLEDLDEYLYHIDRMMMNLRRNGCIENLKGIVVGGMTKMKDN
+EVPWGKNAVEIVDDVTKKYNIPVIFNFPAGHIQDNRALIMGSTVTIDVNASGSSLTFKK
+>tr|A0A1S1J1F7|A0A1S1J1F7_9FLAO
+MITIIKNTFKRIIIWWKAVILGYPYYRIKSEKGDDGEYITGFTYRKRAKAIAKETGGKYF
+IDYSFIIHEDQNI
+>tr|A0A1S1J2W2|A0A1S1J2W2_9FLAO
+MKKTYLLKGLVHTFIFLFINNLSAQVTNNSQKLLPQMIPPSPNAYNLGNYGNVPVGMLTG
+SPSLNIPLYSYKTTNLEVPIALFYGNNGVKVDEISSNVGQGWNLSFGGVISRIIRDEPDE
+KRQTDFVPPNDNFTPAQKESYFKFIAENDIIDSESDLYSFNFGSYSGKFIYDHDNSLVMM
+PAQNVKVEKLADAESYTFVITTPDGVKYFFGNKETTFMPKEPGGRPFPIIATSAWYITKI
+VHPKGDEVYFNYAPKRDSYITSKSQTLTMQSPYVQLDCTGSLLTYSPTFSPIFDHRIDIS
+GQVITSITSNNSVNGEINFNYLENNSADVTSGNKKISEIVIKKNTIDAIEKVKFTYSTTP
+NNRVFLDKIQYNDPGKNYQFEYLDKNSFPARLSFSQDHWGYYNGKNNTKLIPNKTGLEFD
+NIEYGGADKNPNPDFAKIGMLNKVIYPTKGSTVFEYEPNDYFGTKTIIPERTTVGAPIDN
+SGASTKEIVVTSLSDQDIKINAAVAFNMYECPDGDAGKTRATVRARNTATGSYEDFRNRL
+SNGDLFNLGNSIQLSPGQPQEFILLAKPNQTYVISITLGNFSLLMPQRSCTTATLNVNYM
+ASAPYDIQTNIVTGGMRVKSTKDYFDNGSVPIYKRYLYAAKSDLTKSSGNPGKMPLYVDR
+TLDNTSCMIPTSHGPVETFYLRKFVNISSGSIASLFDNGSSNVNYQYVTVSNGNDTFING
+GEEHKFKIYQNNFNQIWGTLPIAGSSTDYGLLVNGLPETVTYFSATNKIVSTTTNQYDNL
+LLKESKSYNTRKYYDIFGTINETGIPNVSVTEYKNSSYWNYLKSKEEIQYDVNGLNPLST
+VTNYLYKNPNHFQLSEQNTNSSNQEAIATKYYYPLDSEIANEPYVSELIAKNMINVPLKT
+ETFRNSSKLSEQKTVYTKTAGNLLVPGFVYEAKFPNSNAGLNQLEKKVSYNNYDGKGNIT
+QYTIENGAPVSIIWGYNKTQPIAKIENATNTQIATALAVSDLNTVNESNLTAINNLRSVL
+PATMITTYTYIPLVGISTITDPKGDKITYTYDSFGRLQFVKDKNDKVLSQNQYNYKQ
+>tr|A0A1S1J8R4|A0A1S1J8R4_9FLAO
+MTFKEKVNGLIIEALLEKPSVFLIDLAVSDSFKISVGLDGDNGVALQDCIDISRAIENNL
+DREEQDFSLEVASVGVGSPLKMTRQYIKNIGRTLIVTTNTEKIEAELVEANDVFIILSWK
+AREPKKVGKGKETVQKEQQIPYTEIKEAIVTVTF
+>tr|A0A1S1JFZ5|A0A1S1JFZ5_9FLAO
+MPKQLLLIWAIICSGIITYFCLTDSSNIPAVNFPSIDKIVHFCFHFGFTISWILFFKKEL
+KGKAPDDYKAYLISFIFSVFFGITIEILQGVLTVTRASDVTDVLANALGAIFGIFAAIVF
+KKQIDKI
+>tr|A0A1S1IXZ8|A0A1S1IXZ8_9FLAO
+MKKVFLSLAVVAVLTVVSCKKADAAATEAVDSTAVAVDSAAAVVDSAAATVDSAAAKVDS
+AAAKVEEAAAPAKK
+>tr|A0A1S1J694|A0A1S1J694_9FLAO
+MKKILLISLLVLSCNTNKTAQPIDCIENIEYTEFSNENQPTVILDIKINDLSTIKKLENK
+KLREFIIYSIKKEDRNYFFYEVWKTPIRKENTFSFIIRTNYFSQNISDKEKRIWNKDNIT
+KALSGDVGLIFDKDTIHVKPSKDREITIQLLND
+>tr|A0A1S1JFC7|A0A1S1JFC7_9FLAO
+MKLDIIKNQWLDIVFEGRNKIYGAYELRKSNGKTTVKSLIIGSVIFSFAVAAPLIASFLP
+DSSEDDVNNDIKIATVKLPPKKEEVKPNQPPPPPPPPKVDQVKFVKPVVAKANEVTEDPP
+KIEELKDKKVGNETIKGDPDAVLTVDEPVGKGPVTEIIQEDNNVYNTAGIEVKPDFPGGI
+EKFYKFVGNNYKTPEEEGLKGKVYVTFVVEKDGSLTDIKVLRDIGYGTGAEAIRVLKKCP
+KWTPGEQNGKKVRVLYSLPITIQSAE
+>tr|A0A1S1J3D8|A0A1S1J3D8_9FLAO
+MKNLKINNRFTAELPADSNETNEVRQVSNALFSYVNPTKPSNPKLIHASQEVAESVGISL
+DEIKSESFLNVFSGKEILPETRPFAMCYAGHQFGNWAGQLGDGRAINLTEVTHNDAFFML
+QLKGAGRTPYSRTADGLAVLRSSVREYLCAEAMHHLGVPTTRSLSLMLSGDQVLRDMLYN
+GNAAYEKGAIVCRVAPSFIRFGSFEMLTARNELQNLKQFVEYNIKYYFPEIKGEPKEQYL
+QFFKTVADKTREMILHWQRVGFVHGVMNTDNMSIHGITIDYGPYGWLENYDPNWTPNTTD
+SQYRRYRFGNQPQIAQWNLYQLANALYPLINEAEPLEKILESFMIDFESDYKNMFLSKLG
+LFISTETDNTLIDGLETVLQLSETDMTIFFRNLSSVQKSDSPEKAIERIQDSFYIPEQIS
+GTILESWQKWFTLYLERLHTEVLSDKERSEKMNTINPKYVLRNYMAQLAIDAADQEDYSL
+IDELYQLLQKPYDEQPEFQKWFAKRPDWARSKVGCSMLSCSS
+>tr|A0A1S1J3W2|A0A1S1J3W2_9FLAO
+MFTIEQIKEAHAKVQTGADFPNYIQDLIILGVKGYDTFVHDGHVEYYGVNNYHVTADEKY
+DEIKVESVPNKERFIEFLVMHQDGQTDYLTFCRHAAQCGIAKWRVDIIEMTCTYFDKDEN
+EILIEKIPG
+>tr|A0A1S1J464|A0A1S1J464_9FLAO
+MSKELQLKAFERLLIIMDELREQCPWDKKQTLQTLRHLTIEETYELGDAILDNDLNEVKK
+ELGDLLLHIVFYAKIGSETNDFDMADVCNEICDKLIHRHPHIYSDTKVKDEEEVKQNWEK
+LKLREGKKSVLEGVPRSLPALVKASRIQDKVKGVGFDWEESHQVWDKVQEELEELQVEVK
+AGDQDKIEAEFGDVLFSMINYARFLNVNPEDALERTNKKFIKRFQYLESKAAEMGKPLMD
+MTLAEMDVFWNEAKKQ
+>tr|A0A1S1J4R8|A0A1S1J4R8_9FLAO
+MESNATTNENLNLYEKAENYTKTSLELIKLKTVSASADVLSTLTSRIAVGAVVAFFTLFL
+NIGISLWIGKKLGENYYGFFILALFYLIVAIVLHKSHHKLIKTPIGNMIVSSILKETKQE
+AHCDSGQSKN
+>tr|A0A1S1J4Y3|A0A1S1J4Y3_9FLAO
+MSELSINTTQNVKINFIAATIGERIGSYFIDLAIKLAYVTVISLVFFYGLNFDKVLNTLD
+NWSRMSIILLMYFPFIIYTITLESIFEGQTIGKKLVKIKVVKIDGYQAGFGDYLMRWFFR
+LVDISVLGGIVGLISIISSQKGQRLGDMVAGTAVITLKNKINISHTILEEIGDAYVPTYP
+LVIKLSDNDMRIIKETFQSALAKNDHEIIYKLVAKIESVTGIKNQSGNNSDFLRVILKDY
+NFYTQNM
+>tr|A0A1S1J4R9|A0A1S1J4R9_9FLAO
+MAFPIEKKLVVGVSSNALFNLQIEDEIFDKKGIIEYRKYQKENKLVLLEKGPAFPFIKRF
+LEINKHYPEEQPVEVVLLSKNSPETGIRIFNSIKHFELDISRAAFTSGKSPFEYIPAYNI
+SLFLSTNDLDVQNSINAGFPAGKYINNNVEDFDEDIELRVAFDFDGVIADDNSEAVYKES
+KNLKDFHDYELAHITEPHEPGPLADFFKKLAFFQKLETKKENNSTDYRKILRTSIITARN
+APSHERAINTLTSWGVTVDELFLMGGVDKSRILNVVKPHIYFDDQLVHLNKEATKIPLVH
+IPFGIANK
+>tr|A0A1S1J7L1|A0A1S1J7L1_9FLAO
+MSKKEKDKDKKKDKKKKKNKAAILENIKKLENCKSSCCEKYKKSEKKRCSRCPMFDLFKK
+TA
+>tr|A0A1S1J814|A0A1S1J814_9FLAO
+MKQITSVQNPFIKSLVLLQEKAKARKQTGTFLIEGLREISLAIKGGYEIETVLFLPELVT
+ENQIHKLVNSPVQLIKINKEVYQKLAYRDTTEGVLAIAKTKSMLLSDLKLSDNPLIIVAE
+APEKPGNIGALLRTADAANLDAVLIANPKSDLYNPNIVRSSVGCLFTNQIATGTTAEIIA
+FLKEKKIDFYCATLQNSTSYHTQDFTTPTALVVGTEATGLTQDWRDAATQNIIIPMQGEI
+DSMNVSVAAAILIFEAKRQRGFN
+>tr|A0A1S1J995|A0A1S1J995_9FLAO
+MKNFFLFAMVALLLGSCQNDDSTADSSFSMKASGADYAHPATVQTVSGAITSNTTWTNDR
+VWEIDGVITVKNGAKLTIQAGTFIKAKPLAPGVATGVLVITKTGQIDAQGTAESPIVFTS
+YNLLDDNANTSALPGDFGGVVILGDAEVNTGSVTNIVEGLDDQSNFTEFYYGGSNNNHNA
+GILSYVRIEFAGRILDTDVEINGLTLAGVGNGTTVNHIQVSYGKDDSFEFFGGKVNATHL
+VSFAADDDNFDFDFGYTGSITKAIALADSNSTHSLSGGNPDSNGIELDNNATGTLTTIIT
+RPVISQLSIIGVSSSTVADLYENAIHVRRAGNISLTDVTVTGYNTGIRWDSPSVPSGSSY
+LRVSIHGFDNVALPVGTTLTGFGTTTSTVDPATKWSLNQPFFNNGALNFTGTTGAFKTES
+NWTNTWTKFSNF
+>tr|A0A1S1IXY5|A0A1S1IXY5_9FLAO
+MITSKTISNGILRALTTILIVAAVLYFLYQIQTVIVYLCISLLLCLIANPLIQFLKNKLK
+FSNSLAATTALILFILAIVGFILLFVPLIISQANNLSLLDTQNLQQQFLETERSIENYFN
+IQHLDLDKVLKESKITSIIDFSYFTGFLNSIIGFMANMGMGLVSVFFITFFFIKDQDAFK
+VSARKILPDTNEDKILNSITKINHFLTRYFIGLLLQLTVVFILYLIVLMIFGNKNAFVIA
+FLCAILNIIPYIGPIIGTILAGLLTMISMIGSDFQSEILPKTIYVLIGFLLVQAIDNNIS
+QPIISSKSVNSHPLEIFLITLISGITFGIVGMIIAIPAFTMVKVILKEFFPDNKIVSVLT
+ERI
+>tr|A0A1S1J792|A0A1S1J792_9FLAO
+MTKLQVRAFLYQLGCFAILFILGRFLVASYTGLTGFWIPMTAFIVATLISPKFQSVKTKD
+GEKLFMKWIFIKGIREIG
+>tr|A0A1S1JAC9|A0A1S1JAC9_9FLAO
+MNFKSIFFLSVLGFWSVFSVNAQSRVENFLTPSDTLNKKRQNTVIFTEATLASVTLLGLN
+QLWYADYPRSNFHFINDNNEWLQMDKVGHMYSAYHLGRFGAEMMKWSGADQKKQLIYGAG
+FGFAFLTAVEVLDGFSSEWGASSGDVIANATGTALYVSQELLWKEQRIVPKFSFNTTQYA
+NLRPKVLGSSLNEQLLKDYNGQTYWLSVNLHSFAKESKIPKWLNVAFGYGADGMLTGNLQ
+NDNPDFTQNPKRFRQIYLSFDVNLTKIETKSHFLKTIFSVFNTIKIPAPTLEYSANKGLK
+AHAFYF
+>tr|A0A1S1JAX3|A0A1S1JAX3_9FLAO
+MLNFELYNPTNLIFGKGQIEKLSTLIPKDAKILLAYGGGSIFKNGIHEQVIQNLKGFDIV
+EFGGIEPNPHFETLMKAVAVIKAEKIDFILAVGGGSVIDGVKFISAAVNFDGNPIDILQK
+RLLIKENAMPFGTVLTLPATGSEMNSGAVVTIEATQEKLAFGGSALFPKFSICDPTVIAS
+LPKRQLQNGVVDAYTHVMEQYLTYPHEGYLQDRIAEGILQTLIEVGPKVVENPTDYALAS
+NFMWSCTMALNGLIQKGVPSDWATHMIGHELTALYGIDHARTLAIIGPSLYQIMFDTKKE
+KLAQYGRRIFNLTGSDDEVAKEAINQTVAFFHTMGMDTKLSQYTDDYSKTADFIVNRFNE
+RGWKGLGEKQLITLDKVKSIVEMSY
+>tr|A0A1S1JCU4|A0A1S1JCU4_9FLAO
+MAFDIEMIKKVYENMPGRVDKARELVGRPLTLTEKILYNHLWDGAPSQVFKRGVDYVDFA
+PDRVACQDATAQMALLQFMHAGKSKVAVPTTVHCDHLIQAKVDAATDLARAKTQSNEVFD
+FLSSVSNKYGIGFWKPGAGIIHQVVLENYAFPGGMMIGTDSHTVNAGGLGMVAIGVGGAD
+AVDVMSGMAWELKFPKLIGVKLTGKLSGWTAPKDVILKVAGILTVKGGTGAIVEYFGEGA
+TSMSCTGKGTICNMGAEIGATTSTFGYDASMGRYLRSTNRADVADAADKVASYLTGDPEV
+YANPEQYFDQVIEINLSELEPHLNGPFTPDLATPISKMKEEAIKNNWPLQIQVGLIGSCT
+NSSYEDISRAASLARQVADKNLKTKSQFTITPGSEVVRYTIERDGFIDTFHKIGATVFAN
+ACGPCIGMWDRDGAEKEERNTIVHSFNRNFSKRADGNPNTLAFVGSPELVTAMAIAGDLS
+FNPLTDTLINEDGEEVMLEEPTGDELPPKGFDVKDPGFQSPAEDGSGVQVVVSPTSERLQ
+LLAPFDAWDGKNITGAKLLIKAFGKCTTDHISMAGPWLRFRGHLDNISNNMLIGAVNAFN
+QKTNSVKNQLTGQYDAVPAVARAYKAAGVPSIVVGDHNYGEGSSREHAAMEPRFLGVKAV
+LVKSFARIHETNLKKQGLLGLTFANEADYDKIKEDDTINFTDLTQFAPGKPLTLEFVHAD
+GTKDIILANHTYNQGQIGWFAAGSALNLIAAGKA
+>tr|A0A1S1J5Q2|A0A1S1J5Q2_9FLAO
+MEKIKQNTEPFDTKRSIRNASGKVISIKRSTLSSDGKEYSWSNKMERVGVIRSGIPYDSI
+EVISRRLNNPVKSMLAIVGIPQTTYNKKKSEHLLLDSRDSELVILINELIDYGLEVFNNE
+EEKFQRWLKKPNLSIGGSTPENMLDTVTGINEVKFSLNRLEYGNLA
+>tr|A0A1S1J9D5|A0A1S1J9D5_9FLAO
+MSELPHEIKLTYIIAIMVMLLFVCFIIMVVFVYNKKQLIQQQENQIKESEFQNQLLQKEL
+ERQKAIQVERERISQDMHDDLGAGISAIKLQAEFLKYKMPEESFSEDLEVIIATSEDMNL
+AMREILWSLNSQNDTIGNFIEYVSLYVKRFLDKTTITFQLDSNIIEKETNLSVKARRNLF
+LVVKEAVHNVYKHSEASTLQIQFEQTENDLKITVNDNGVGFSDTIQKGNGINNMSLRMEA
+INGTFKIVLAQKGTHLLFVCPLEDQILEQYSKDFF
+>tr|A0A1S1J823|A0A1S1J823_9FLAO
+MKKIIFLLPLLGLMSCYNAEHNCKDFKNGKFKFEFEVNGVKKTTVFERKDNIEIETFEGK
+TDTSTIRWVSDCEYILQKKHPKNMAEEKAISMKILTTSKDSYTFEFGMVGSDQKQRGTVV
+RVE
+>tr|A0A1S1IYE8|A0A1S1IYE8_9FLAO
+MGAFNQKSKSSPSGPSAFNSRQGEDFFGVQTKLSIGKSNDKYEVEADKAADQIVSKKQNT
+KPETFFSSSPLVQKKSLAEQCTPVTQLKPEQEETLQSKTETVTPEIPKAAEKTPISKPLI
+QQKKTEEEVQPKEEEQEIQKSAETETSPTNTASLESKLQSSKGGGSPMADTTQNQMESGF
+GANFSKVRIHNDSNAVQMNKELGSQAFANGNDVYFNEGKYNPDSQEGKHLLAHELTHTIQ
+QGNKPNIQKQNPPSNLDSLNEMLDSFNVPEDDVITMCSQLNDTEKATVLGNSSYKTRMAA
+ALDVAQMIRAVNNLGAPLNTKLEWVNAAATFGTFFMDYSEIKGMVTAADQPQRDVLKTDV
+WKSFFVGVCTNANMIEALDDLQFDLITKLVWLKAEVFSASWSIDYSNIKPWVTSTTTNQT
+ERDALKTHTDVGMNFFVDVCDNVTMIEALNDLQYDLVTKLTWLNAEMFITRFELNYTTIK
+PWIIHSSTDQAQKDALKTPLWKDFFSAVCDNTTMVEAVTDLNFDIVTQLDWINFEGSDFI
+PKLTWLLNHSTDYDVIRNEILNASPGDRQAALADTSIRSLINSRLTAPVSVAVFSHLLLG
+SMYWRNPPNNDFFAYFVTNGGSGTLPAAATMNCWESIMYAAYLSNRINASWIQTFYNNAF
+SSGGDPNVLIWSQLGWNSGLPTYPGTTPTVGQLIFYTTSGDPYPGHVAMAIDGTHVISLW
+SEPHNNYFIQRVDITVFSGVIQISNPPW
+>tr|A0A1S1J0C2|A0A1S1J0C2_9FLAO
+MNFLAHIYLSGENDLIKIGNFMADGIRGKQFEHFPEDVQKGILLHRFIDTYTDSHDVFRQ
+STKRLHEKYHHYAGVIVDIVYDHFLAKNWEKYSDEKLDRFVNQFYRSLHENYPILTEKTQ
+DMMPYMIKQNWLLSYQTVEGIHQILTQMDRRRSKNQSNMQFASAELKEFYPEFEHEFTLF
+FEDMKNQANQKLLSL
+>tr|A0A1S1J455|A0A1S1J455_9FLAO
+MRILKSVVIVFFLTLLSNAYSQKANREKGIQIIPKPKQLVLKQGNFQFSATTKFVVSDDD
+AQKEIVTVLINKFGSAAGFRPEISNKIPKSNYVQFKVDTALKNEAYLLEVNKENITITAK
+GSAGFIYGLESIRQLLPESIESKSRIKAVKWEIPTLTITDEPRFQWRGLMLDLSRHFFDK
+SYIIETIDRLAMLKMNVLHLHLVDDQGWRIEIKKYPKLTEVGAWRVDQENAPWNARQLTN
+PDEKGTYGGFLTQEELKEIVKYAAAKNIEIIPEIEMPAHVSSAIAAYPELACFNQRIGVP
+SGGLWPITDIYCAGKETTFEFLQNVIEEVIEIFPSKYIHIGGDEATKTNWDKCPNCQKRM
+KDNGLKDAHELQSYFVKRMEQYINSKGKKIIGWDEILEGGLAPEATVMSWRGTVGGTEAA
+RQGHDVIMSPESPCYFNFYQGPQNVEPLAFDAFNPLNKVYAFDPVVDTMTPQEANHVLGG
+QANLWAEYITNTKASEYMIFPRLAALSEVLWSTRENRDWNNFTSRLPSLLQRYDYLGINY
+AKSAYLVTSTASADLNNKVINVALKNEFPNSDIRYVLGDKNIDDKAIKYTNPIAVKETTI
+LKASLFQDNKPVGRIFTDTIVFHKAVGHKVNYVTPYNDSYKGDGALGMVNTIRGSKNFHD
+GQWQAWLVKDMEIVIDLEIEQSIEKVTVGTLESQGAGIYFPIQVTVLVSKDGTNYKEARK
+ILRPFAVNVNSELKDFKINFEKQEVRFVKVIATNLKKSPTGSSSWLFVDEIVVD
+>tr|A0A1S1J715|A0A1S1J715_9FLAO
+MHQYFYAIHMFVNRRKSLSVVLAILILFVFGFFASQIKFEEDITKLIPTNDKTDVTAKVL
+KQLNFADKTTVIFKLDKNGTEDDLKEMATAFSDSVTQSCKPYVSGIQGKIDEESIQETID
+FVYHNLPLFLENKDYEVLQSKLQKDSIAATVQGNYKSIIAPSGFITKDFILQDPLGISFI
+ALKKLQQLNIGDDFTLDNGFVMTKDKKKLLLFITSNLPSSETEQNTIFASKLKSIQDNLN
+QKFKTKTSIHYFGSALIAVANANQIKSDIILTTSIAMFTLMLILILFYRKVLIPVIIFLP
+TVFGALFAIAFLYFAKEQISAISLGIGSILLGITIDYSLHILTHYKHNSDIKTLYKDITM
+PVIMSSSTTAVAFLCLLFVKSDALNDLGIFAAVIVMASAFFSLLIIPHLYKPKENNVEHK
+KNVIDKLAHFSFHNNKFLIGFCVLTVIISCFTYKNVGFNNDLSQLNFIPTEIKAAEKDLE
+ESTSLTSKTIYVASYGNSMEEVLRNNSALFSDLSKEKQNGKILNFSSVGGIMLSQKEQQQ
+KINRWNSFWDTNKKQLLQTQLITEGSKLGFKPTTYTAFFEHLNFNFKPISPQEYLKIQAL
+QLKEFVTEKNGFFTISTLVKVSPQQRDSFVKVTETKQNLIAIDRQQMNETFFSTLKTDFN
+TLVNYSFIAVILILFFFFRRLELVIVSCIPIALTGIVTAGIMGVFGLQMNIFSLIVCTLI
+FGHGVDFSIFMTSALQKEYTTGKNEIAIYRTSIILAVITTILGIGAMIFAKHPALRSISS
+VSLIGVFAALIITFIFYPILFKIFISNRSKKGNPPFVLRTFIHGVISFFYYGMGGILMSL
+FSITIMPLLPIKEKTKMKAFRYVISKFMKSVLYSNPFIHKKVVNKFGETFEKPAIIIANH
+SSFIDILAMGMLSPKIIFLVSDWVYNSPIFGGTVRKSGFYPVSEGIEGGVEHLRQKVNEG
+YSLMIFPEGTRSESNQVKRFHKGAFYLAEEFNLDIIPVVIHGASEAIPKGDFVIHHSHLT
+ISILERISPDNTSFGKNYAERTKQMSAFFKKEYHKIRQQLEGPDYFKKMILHSFDYKEIE
+IINNVKSDLKEHLEVYYRLNKQLSAKDRILHLSNDYGQLDVLLTLQEPQRKITSFNFDEE
+KRAISKTNYFLKKRKISYLDTLEPALQNQYDVLLISDKNQANDLEKIVTLTSTVILLNPS
+DLKNTLITFDFECIFEDNSIIVLKKKGA
+>tr|A0A1S1J6W5|A0A1S1J6W5_9FLAO
+MNIKRKNLRIIPLFLLGLLYSCSPTVRVTTDYDRDTNFSEYKTFAVYDLKEQEGQISQLN
+VDRVTKAIRSEMLSKGFTETTASPDLKINAISILKNKTEVSANTDFYGYGGMYRPYGYWG
+RGAMMGGANTFVNTYDYVDGSLIIDIVSTKTKKLIWQGIGNAKIDSQPNNPEEFIASSVK
+KILAGFPPGLAKK
+>tr|A0A1S1JBR0|A0A1S1JBR0_9FLAO
+MVKKNANFFRFLLSFIVLLICTSKIHAQCAGTDAQIIICDIENPVNQSISLFSLLGGIPT
+PGGTWTDNNNLRGLDSATGMLNAQLISSGGTYQYTYTVTTPGCVVDKATVTLTIGAYSGI
+GTEATICNDRGEYNLFTAFNSVIMGPHSNGTWRDSSGRIVRSTFTVPKVQVKTTYNFTYT
+VPPVLACESAPLTSAVKITVVRKPEAGDPTDKELCGTTDLGPYANFDLHDLLSGEDMGGK
+WSGPGITASTGHTVNLQTLFATSGAGEYTYTYTVFAVPDQNICENDSETVKITLEKRLDF
+TGARVLVDSDICEDKIATASYTARIMQGPQVIPNGEYEVQYTITGPTIASATVKANFTNG
+ILIFPLSSAYFKQIGTFTLTVTSIIATSSKKLCTNIINNLSDDLIISPLPRLDGAILTTS
+PICQNEAAIIQLSNASLLANGTYRITYNLTGDNVVTGRTVNITVSGGNANFVIPASLNVK
+SGSSAITITSITNITNPSPQCANVANVKGNQIINPLPDGTTIVVQVENFCFGESVPVAVS
+GLGNLTDITLSYTLSDSNSSALQTVVLAVTNGKATFVIPQELLLNTGSTRIKALNVKNNV
+TSCDIDLVNVSDTFMLNAIPDAPLAASPQIFCKVEGAVITNLTPRGTQYKWYSSATVTTP
+LADTYVLKTEQLYVREISAANCLSAPTPVSVVVNDTPAPTLNSGGENFCGLKNPTIADLS
+KATNVSSTVAWYDAENNGNLLTSTTLLRDKATYYGFDLSIVTSCISDNYLGVTVSLFDCN
+PDEYAFFIPDGFSPNGDNVNDTFRIPDIEFLYPDYTLEIFNRYGNVMFKGNRNKPNWDGR
+NSESAGFGDGIVPNGVYFYVVNFNKDNRRPQQGRLYLNR
+>tr|A0A1S1JC06|A0A1S1JC06_9FLAO
+MQAKDLLQLADQFGSPLYVYDAEKIQSQYNRLTKAFSKVENLRVNYAMKALSNVAILQLL
+KNMGSGLDTVSIQEVQLGLHAGYDPDKIFFTPNGVSLEEIEEVAAMGVQINIDNLSILEQ
+FGTKHPNIPVCIRINPHVMAGGNANISVGHIDSKFGISVHQIPHILRIVENTKMHIVGIH
+MHTGSDILDIEVFLYAAEILFDTAKHFKELQFLDFGSGFKVPYKKDDIETDIEELGKKLS
+KRFNSFCTEYGRDLTLIFEPGKFLVSEAGFFLAKVNVVKQTTSTVFAGVDSGFNHLIRPM
+FYGSQHHIENISNPKGKERFYSVVGYICETDTFANNRRISEITEGDILAFRNAGAYCFSM
+SSNYNSRYKPAEVLWMNGQGILIRAHETFEDLLKNQIPLPQEIAATV
+>tr|A0A1S1J544|A0A1S1J544_9FLAO
+MKLKCIIVDDEPPATRILENYIGKVSFLEKTAVFNDALKALEFLNTHSVDVIFLDIQMPQ
+LTGLQLSRIISKEIKVIFTTAYPDFALEGFELNAVDYLLKPIAFERFYQAVSKLNGDSKT
+EVVSDNHSAEFIFIKTDGKNKFVKLFLEEILYVESLQNYVCIHTGNQQIITHSSLKNVVE
+SLPEKGFVQIHKSYVVALKHIESTDNFSVFTNGKELPIGATFKDAFFEKIEENKI
+>tr|A0A1S1J6E8|A0A1S1J6E8_9FLAO
+MKQFKILYAEDDETLAFLTKDNLEQNNYEVNHCRDGQMGLENFKKENFDICILDIMMPKM
+DGFELAAQIRKCNSDIPIIFLSAKTLKEDRIKGLRLGADDYLVKPFSIEELLLKIEIFLK
+RSQKNILIEKPVYEIGKYQFDTSNFVLFNESEKISLTQREAELLKLFLDNKNSVLKREQI
+LTSLWGTDDYFMGRSLDVFISRLRKILSNEKGISIENLHGIGFRFTM
+>tr|A0A1S1J9A1|A0A1S1J9A1_9FLAO
+MNKSIPYCITPTPDGAWLHTCNENLLLASLSKDTDNKTETIILETFKNALALFVEIRAAL
+KKTCHTTPFIGGLYLVDGTEMQNAMITINGMGETSAYSSTKSYSGTPSAVNLQFFEDVLG
+ISNDKLKYLESNLLRYMKIIQEDAKRVTAETIGILTCVVGYVELTGTTVTTFTYVTATST
+TKDQFDKIDCGCNDLDKFNYEFNIVKFNYSPVNSVASKVVANENN
+>tr|A0A1S1JCS4|A0A1S1JCS4_9FLAO
+MTTKIAIQGIKGSFHHQVVKEYFSENVYIDECLSFEELIDSLLSGKSEQAVMAIENSIAG
+PIIPNYALIDKNNIHIIGEHYLNIHQNLMALKGQKIEDIKEVHSHPMALLQCMDFLKQYP
+NIKLVEDKDTAETARRIQEKQLTGIAAIASKTASEMYNLEIIAPEIQTIKNNMTRFVIIK
+KENSFLPENEINRASIKFELDHKRGSLAAVLNVMSDCKLNLTKIQSLPKIETPWKYAFFV
+DVTFEKYEDFAKAKSLLNIMAEYFKVLGEYKNTKPLSES
+>tr|A0A1S1J106|A0A1S1J106_9FLAO
+MKLTILGCYAATPRTITNPTSQVLEIRNRLFLIDCGEGTQVQLRKNKIKFSKINHIFISH
+LHGDHLYGLIGTISTFSLLGRTTDLHIYGPKGIKELILLQLKLTESWTTYKLFFHELESK
+ESEVIFEDNKVIVKTIPLKHRVYTNGFLFQEKPGDRKLNVEAVQQYNIHTAYFQKIKGGG
+DVTLDDGTVIKNKELSFDPIPSMSYAFCSDTVYHEDVLPIIKDVDVLYHESTFLESEAAL
+ALKTLHSTAKEAATIALKANAKKLILGHYSTRYDGIERFKEEAETIFPNTLLGDDGRSFE
+F
+>tr|A0A1S1J1U2|A0A1S1J1U2_9FLAO
+MKIKFIFFAAFLFCQISFAQKKDTTAVNKLSEVVVTGQFEPQSIKKSVFNVRVISNQDIQ
+NLAANNLADVLNQYLNITVRPSGTTGRSTVSLFGLDAQYFKILVDNIPLVNEAGLGNNTD
+LSQINLNDVDHIEIVEGSMGVSYGANAVSGVLNIITKKSSKYKWDINAAVQEETVGKEYA
+LFDKGRHIQSLRVAHTFNENWFVSVGANRNDFQGFLNGKKGKDYFQTDFMRGYSWLPKDQ
+LNGNAMLSYRKDDFRFFYKFEYLDEDVDFYNSTVQSLFNPTLGSYRAADDKRYFTNRYFH
+NLNATGSLFSQLTYNVSVTHQKQQREIENFTYYLFTKTEGANEKKKDQSMEVLSSTGTLN
+NFFSDKSIDLQVGYEFVNNKGFALVQKKNNVIESVYKTIENYDFFVSSEIMATDRFSIKP
+GLRFSAQSKFKNQYASSVALRYLFDKGVELRGSYGNGFRTPNFEELYVNQIFDGHFFAGN
+ENLIPETSTSYETSVKKFTSFPSGLQISNTIGGSYLDVNDRIDMVFIGNNPNTGTPENQY
+INISKYRMWNFSTTNQLRLNSLTINVGAALVGVSQRLDNQKIVSNDDFLYSFNLNASVSY
+NIPKWKTIISGYYKYNGKTQQFEEGASEYVLSTIAASNWFDASIRKNFFKDRFEVTVGAR
+NIFNVTDVNRSKTSGGSAHATSSNLMLAYGRSYFFKLAYNLNL
+>tr|A0A1S1J2M0|A0A1S1J2M0_9FLAO
+MKVVSNKNNLQILHEDNHIIVVNKRVGDIVQGDKTGDKPLSDIVKEYIKDKYNKPGDVFL
+GVIHRLDRPTTGIVVFARTSKALSRMNEMFSNRETQKTYWAVVKNKPQQNTAKLVHYLKR
+NEKNNTSKAHLKEVPDSKLASLDYTVFKELQNYVALEINLHTGRHHQIRAQLAAIGSPIK
+GDLKYGFDRSNPDGGIHLHARKLVFVHPVSKENLTIIAPTPDETIWNAL
+>tr|A0A1S1J4V7|A0A1S1J4V7_9FLAO
+MKKVLLFISFLFCITSASAQQDPEYTHYMYNMSVVNPAYATGVPAMMNFGGLYRTQWVGA
+VGAPKTFTFFGHTALSDKIEVGLSLVSDDIGDGAKKENNFYADFAYVLNLGGKNKLSLGL
+KAGYTSLQSNFNGFKLESGNAASDLAFAENVNVTKPNIGVGAYYFRDNFYVGLSVPNLLG
+TKHLEEKSGINAYGSEAIHTFLTAGYVFQLNDKVKLKPAFMSKFVPGTPITLDLTANVLY
+NNKFELGAAYRVNDAVSALMNINVTPTLRVGYAYDHTLSNMGRFNSGTHEIMLLFDLDLL
+GKGYDKSPRFF
+>tr|A0A1S1J5L4|A0A1S1J5L4_9FLAO
+MSVLNGKKILLGVSGGIAAYKTASLVRLFIKAGAHVQVIMTPASKDFVTPLTLSTLSKNP
+VHSSFFNQDDEDAVWNNHVDLALWADLMLIAPATSNTLSKMTTGNSDNLLVATYLSAKCP
+VYFAPAMDLDMYKHPSVLSSFTALKSFGNIMIPAESGELASGLSGEGRMAEPENIIAFLE
+ADLESKLPLKGKKILITAGPTYEAIDPVRFIGNHSSGKMGFDLANEAANLGAQVILVAGP
+THYKAKNGLVKVINVVSAQDMYDACHEYFNDVDVAIAAAAVADYRPKVVALQKIKKAADE
+FSIELEKTKDILASLGAIKKNQFLIGFALETENEIENAKLKIQKKNLDLIVLNSLQDEGA
+GFKKETNKVTFIDQDFKIEPMELKSKESVAVDILNKVVLHFAKS
+>tr|A0A1S1JA85|A0A1S1JA85_9FLAO
+MNTINEYLSLAEFESIIFGNNKVVISDIVLNRVNESFNFLKEFSGNKVIYGVNTGFGPMA
+QYRIKESDQIQLQYNLIRSHSSGTGKPLSPVCAKAAILARLNTLSLGNSGVHPSVIHLMA
+ELINKDITPLIFEHGGVGASGDLVQLSHLALVLIGEGEVFYKGDRRPTSEVFEIEGLKPI
+QVEIREGLALINGTSVMTGIGVVNVHLAKKLLDWSLKCSCAINELVQAYDDHFSEELNQT
+KRHKGQQEVASRMRQNLSDSTLIRKREDHLYSGENTEEIFKEKVQEYYSLRCVPQILGPV
+LETINNVASILEDEFNSANDNPIIDVKNKHVYHGGNFHGDYISLEMDKLKIVITKLTMLA
+ERQLNYLLNSKINEILPPFVNLGTLGFNFGMQGVQFTATSTTAESQMLSNPMYVHSIPNN
+NDNQDIVSMGTNAAVITSKVIENSFEVLGIEMITIVQAIDYLGQKDKISSVTKKWYDDIR
+NIIPEFKEDQVMYPFVQKVKDYLIHS
+>tr|A0A1S1JC92|A0A1S1JC92_9FLAO
+MKSNVEAFRDYLELEKKYSVHTITAYLNDVFSFKEFNRVNFEQEGIEGVNYGQIRSWIVS
+LVDEGVSNISVNRKMSSLKAFYRFLLKTKQIEVSPMLKHKVLKTPKIIQIPFSEKELTDL
+LLEVGDPCGFEEVRDRLIVDLFYATGIRRAELIHLMKRDVDLSSGLLKVLGKRNKERIVP
+ILPIIAGQMKLYLQERALIEKVVDEEYFFISGKGLKLSESFVYRLINSYFSKVSEKVKKS
+PHVLRHTFATHLLNNGADLNSVKELLGHSSLASTQVYTHNSLAELKKVYANAHPRNKQ
+>tr|A0A1S1J0G2|A0A1S1J0G2_9FLAO
+MKQRIIGFDLARAYAIFGMFIVNFNMVFGSHNDQSTVAQFMSLFSGNSSSVFVILAGMGI
+ALMTNRVEYTPAEKNKLRNTILKRAGFLFVIGLLLNLIWPADILHFYGCYMFIIAFIIFL
+DKRFFLFLAAVAIFTFHFLIFIVPYETGWNMESFQYKDFYTLNGFIRNTFYNGWNAVFPW
+IAYFLLGMYLGRLNWSSKKIQQKMFIIGLLLYVSIALLQLLSGQFVLSENLHLFINADYL
+PPYLPFMLSTSGFALMLIAFFMYIGEKNGNNQYVQSFAPTGQMTLTHYISHLTIGLILFS
+ALTGNDLVQYSADQKATKPIYILLFSIAYFVLSYYFSKLWARHFQNGPFEALMRKITR
+>tr|A0A1S1J4W8|A0A1S1J4W8_9FLAO
+MIFFIIGVVFISLFALSGYVLRDKMSSIFLNVYLIWWLCLLGISLSNPFGLYEVSLWTYC
+LILLSISFFSFGFIFNRLITKIEIKKEDTNIEAVLLESYDKTKGSKLFVSLLVLFSIIIF
+NYLMQYQKAILLFGTEEARVMRYFVGNVFKYQIEIYFYNYVIESFSIFVSAYLAFSFVWL
+RFNKVFFLSLIYVYLYSSFGSGRFYIIELGFFICFLFLLKNKVFSNKNKTLSLKEKKKIK
+TRKRVTLLVIIPTLFCFYLFSIYLSNFRKGLFELNYENFITGNSDFFEQIIVYCVGSFRA
+LEYGLNSLSKEFPITFGSMNFGGLDEFLGFLLRIFGINYQYSNVLYGELTSKTITIGFDQ
+EYNALYTNVFGQYLDFGILGIVFLSFFWGFIFNLFVVAFQKLKTFYLLLMVSFLFVTSIL
+TPLLWKFQSPSAWIFMLFLVYLDNKKNINSKMIKVLAFKN
+>tr|A0A1S1JB92|A0A1S1JB92_9FLAO
+MKKLILSAAIVLGGLSVQAATSTVKTSDIQSVIVQDEYKEIGTDAVPAAVKSTIEKSFPN
+TKLEKAYKSEKDEYKLEISSGDKKYTVFTDASGNILKK
+>tr|A0A1S1J548|A0A1S1J548_9FLAO
+MTKKEIARDFLKLAANGHSHEAFRLHAGENFKHHNAYFKGDAETLMLAMEESTRKNPNKT
+LTIHHILEDKDLVAVHSHLKQTPSDIGFAVVHILRFEVDKIVEFWDLGQSIPTEMINENG
+MF
+>tr|A0A1S1J278|A0A1S1J278_9FLAO
+MKRREFIEKTAASTALLSLGLSLSSFENNDIKHLTILHTNDVHSHIDPFPADDPRNPNKG
+GVSRRAALIETIRKENPNVLLLDAGDIFQGTPYFNYYGGELEFKLMSMMKYDASTIGNHD
+FDNGLDGLHAQMPHASFDFICSNYDFKNTVMNGLVKPYKIFNKNGIKVGVFGLGIELAGL
+VDKQMYKETVYNNPVEIAQDMTQLLKKEEKCDLVVCLSHLGYKYKDDESKICDLKLAAQT
+QDIDLIIGGHTHTFLDKPTVVKNKANQDVLVNQVGCYGINLGRIDFYFDKNKAHTNEGKS
+IIV
+>tr|A0A1S1J570|A0A1S1J570_9FLAO
+MKQLLLKSLLPLLFFLIGISSCAQNLHLQIKGANQIETQIIDSLNYSENHTNIKSLFEEV
+KNVSEKLTKQGYLDHAILETKKTNDSTFISKIDLKNKTKEVHIYIGTNHSFFDEAKIKND
+TLILAYEELENYLNQKTLDAEKAGFALNKLKLENLQKKNSIIYAELNYKSEKKRIVNSII
+LTQTDPTKRDYFPKGHLKQLKKKYLNKTFNQEIIKQLYNDINAFEFTSQTKYPEVLFTTD
+STKIYTYVEKRQANTFDGYIGFSNDENKKTTLNGYLDLSLLNTLHAGEQFSLYWKSDGNQ
+QKTFNTKIEIPYIFQSSLGIKAQLNIFKQDSTFQNTKTAIDLGYFLNYNTRLYLGYQSTE
+SSDIQNTNNTTISDYKNSYITSTLEYKKTDYLQSLFPKKASLNLLLGYGKRDTNNTPKTV
+ESSKQFYTNLNLSYNFELNKKNFIYINPQILYLKSQNYITNELFRFGGTNSIRGFAENSL
+QGNFASMLLTEYRYKVSNNLYINSIIDFAIYQDLSNTQNLNKLQKLSGVGIGTTIQTTSG
+LLRINLSNGGENLQEIKLFNTIVNIHYNVKF
+>tr|A0A1S1J6P5|A0A1S1J6P5_9FLAO
+MKKYASLLFFALLLNGCDDGDLVVDTIDFSDPSITAATCNTTTNSLIYKLKKQESLLIQL
+PPNTLTNDATVPGKPLTYDINNTTTRVVYRAYNGQVAIDNICGAIPPTTPAVTEEWQATA
+GKIVDISTAAITDNPDGSSTITGYNHNLVFQNITFLKPAGPQVEAEYPFGTFKTTYNSPN
+ATFLGVVRQCSTSKQLYNFSASTAITIDSIDPKLLENVVTPSNQPKTGLIGTTLNKVLLR
+TYNDGSLTQDYFCASPLPTKPTVNEIWIADNGAQNVSGIIEVTTSLVGSTYFHKIVLKGV
+RFTRANSSFKLPTIYNYGILEVSTTP
+>tr|A0A1S1JA17|A0A1S1JA17_9FLAO
+MSKESQSPKDQNNVVTAVAQFVSTLWMEGEFRDQPAYLTEIFEEILKTEIGDDLDLRTKM
+ISCIKTSKMLAKALDPFTDQEIEKASIEMLNTN
+>tr|A0A1S1JAI1|A0A1S1JAI1_9FLAO
+MKDKFYAYIQQLQDQICAGLEAVDGTAKFREDLWKRPEGGGGRTRVIENGTVFEKGGVNI
+SAVHGKLPEAMQKMFNVDEADFFACGLSLVLHPKNPMAPTVHANWRYFEMYDTSSSPSTG
+PRKIIQQWFGGGQDLTPYYLFEEDAIHFHQTCKTACDKHNPEFYPKYKKQCDAYFWNAHR
+NEARGIGGLFFDYCKATETMSMEDWYNFVTEVGNSFLEAYVPIVERRKNLEYTAENRNWQ
+EIRRGRYVEFNLVHDKGTLFGLKTNGRIESILMSLPPHVQWVYDHHAEAGSVEEKLIQVL
+ENPVDWIELQ
+>tr|A0A1S1J1Y2|A0A1S1J1Y2_9FLAO
+MKSFSFPPISNKDAVILILGTMPGTKSLELNQYYGHNQNNFWKFMFVILKEDLSSDYETR
+KALLQKNNIAVWDVLQHCDRIGSLDSAIKNETPNDFETFLEQHPNITTILFNGQKAAAFF
+KKYVQLKKNYHLITLPSTSPANAGKSYESKLQEWKISVDPHHNNASTPHTD
+>tr|A0A1S1J5Q9|A0A1S1J5Q9_9FLAO
+MSAQGLPCRTTEENAKVYRNSPKSLQEKKDFEAFTKTFTLQRKSKTSKTAATPTYVIPVV
+FHIYGDVQSGKTITYEKIVNHLAQLNDDFNGRNADYQTVEPFFQARRGTLNIEFKLAKKD
+PNGGCTTGVVFHAAKNGYGNGGGYDDQIAADAWDNKKYMNVYIQNDLYNEGVFNNSGVAW
+YPDSGMTANNTARVVFNGAYLYDNSYSKEFSATLTHEFGHFLNLIHTFEGGCSGTDEVAD
+TPAEDGQHTLACTPGTNCTGDKVNIENYMGYNGAQGCYKMYTQGQIDRMLAALQHPARIT
+LWQPQNLIDTGVNTTESSLVATGTTFKEAIINDGSFDTASVVTLSGGKTFALSSGTLSAG
+THFTHTFPAGITPVVTVNSNGQVTVTLSGKATNHAAAQNTTAGITFLPAAFTGGTTGLSC
+TALFYNLRFTDPYGIFFVDMPDINISSNLVWKFFDIAKGDDTSFGGWRYAANALKIETYG
+KRLTCESGSRNITLLAQNTAVGPTSNMTAPGAYPNQLDLRTASYTAWDGKSGYVGFEYKI
+DGLPCYGWFKISVAANGDGYTISEYAYNTQPNAPIYTGVTNKTAVVLSESILYEAEANDG
+GVTTTSTISLSTNNGTFTKSTGTLTAGTDYTITGVPSGLTAVLTLQGNSKVVVSFTGKAT
+AHLPANDAAVTITFKDAAITGGIATLDMSSKTINLKFDAPYGVFYVNNPDYVASAAQTWQ
+YFDLGIGDNTEYGAWQFAAAALKVETYGKRLVGPAGTRNISLITEGTTIGASSNFVTPGA
+AYPDQLDLRTASYTAWDNQTGYIGFEYKSRGRTCYGWMHVKVEAGGVGYSVLDYAYNTKP
+NESIQAGTQAPVTVLAPSSLTATVNNTSLQAQLTWVNNATNATNIVVERAGADNVFAEIT
+TLASTAVTYTNTGLTAGSTYKYRVRAKANSIYSAYSNEVTATLTAGSAYCTAQGNNNYEY
+INSVTIGSFTNTSGKDAGGYANLTSKTVTVTPGTATSVSLAAGFSGGSYLEYWGVWIDYN
+KNNVFDASEKVIDGISSTGTATGSFTPIAFTGTTRMRIVMKYYSNPSACGNIGDGDVEDY
+TVVAGTAPNPTTLPTPTNIGNSGVYSSGFYASWNTVANATSYEVQLNNAATGWTTFGTST
+TYYLWVPKQGTQTVYQFRVRAKNATDASNWSAPLTIDLQNGSAGADQTDFTKSFTMYPNP
+ASDVVNFNFANLNLADTKITIYDSTGNVIDIVKNTLSYPVNRLRKGVYIVVATDGSFTDT
+KKLLVK
+>tr|A0A1S1J7T9|A0A1S1J7T9_9FLAO
+MGIVLNQSFKNTIITYIGFGIGAINTLYLYPVFLGATFYGLTNYVTSCANVIMPLFAIGM
+QNTLVKFYSQYQTEEEKSRFLSFTVLFPLLLIIPLLLIGLVFYDEILFFLSKKNAIVRSY
+IWLIPFIGLCMAYFEIFYAWLRVNMHSVFGNFVKEVGLRLFSLFLLIGVYYNWLSVEGFV
+YATAILYFLAFLITMLYAFSIQKPTFQFTIPANTKDILVYTFYIILSGSVANLLLDGDKM
+ILNQYMQIENIAFYSVATYIALVISVPSRAMHQIVYPITAKLMHDNKHDELNQLYKKTSI
+NLQIVGGFVMLCIFVNIGQLYELVPKEYSGGIAVVFMIGLSKYFDLILGNNNAIIFNTKY
+YRMVLYLGLMLVALTVILNMIFIPIFGIFGSAFATLLSITLYSLAKLLFVVKRLHLYPFT
+IQTIYSMLITFALFLLFYFWEFPFYQLVSIALKSVLVTVLYVYLNYKFNISPDINKVIDT
+VLKKIGIKI
+>tr|A0A1S1J9I7|A0A1S1J9I7_9FLAO
+MVSSYKTFTLTEQLTAEQIDFFNEYGFIHFKKFINPETVSSIIDASKQVQQKWIDNDLKK
+VNGVPIKYGKDLDGSPIVQRFAFINQHHQTLSGLLLDPRFDSLLQLAGDDARLGTEEKDG
+MVFNHYINGPESKFTKMGWHTDGLRDIFYGAKLNPMLNVGIHLSTLKPENGGLKIIPGTH
+KQSIYQMLFRKKYFLDHNADSEEVSIIPEAGDLTIHDGRLWHRVAESSIRGEESRRRVIY
+VPIIAGKYAPKNENSPTVFYQRFAGIVK
+>tr|A0A1S1JAT0|A0A1S1JAT0_9FLAO
+MKYYSLNHNAPKVSFKEAVIQGLASDKGLYFPENITALDASFFDEIENLSHEHIAFEAIK
+QFVGDEIPADKLKEIIADTLVFDFPVVKVEDGIYSLELFHGPTMAFKDVGARFMSRCLGY
+FNRDNKDAKNTVLVATSGDTGGAVASGFLGVDGVDVVILYPSGKVSDIQEKQLTTLGQNI
+KALEVDGVFDDCQDMVKKAFLDETLAHKNLTSANSINIARWLPQMFYFFFAYKALKSQNK
+PLVFSCPSGNFGNICAGIMAKRLGLPIEHFVASTNVNDTVPRFLENGKYDPKPSKATISN
+AMDVGNPSNFIRIQELYNNNLKAFEKDFSSYSYTDEETLVALKNIYNTNGYIAEPHGAVG
+YLGLKKELKKHSNAIGIFLETAHPIKFLDVVEPALGITLPIPAQIESVINEEKVSVKIGS
+YEELKSFLG
+>tr|A0A1S1J1X0|A0A1S1J1X0_9FLAO
+MKKITLVLLLLSSFTFLFAQAPQKMSYQSVIRKTDGTLVAGTLVSIKTSILAGSASGTAS
+YVETQTTTTNSNGLATIEIGGGTPTTGTFSGINWGSGSHFIKTEIDPTGGTNYTISGTSQ
+LLSVPYALYAGSSQNKGKPSIIITGDITDAQAVAQIDAEFGPYTENIYVTSTTNLTSIDL
+SAVKKLVTLKIQNNSKLTNVNLSNLLEVYNDLDVDNNNKLGSIIFPALKIIQGYDTGILN
+NPSLTFIAFPVLTTSKGLYFHNNILLTSIELPSLSTIADKDTTLDFTSNALPSSQVNLIL
+SRFLNLSSFKGVRLENQKPSAPPTGQGIVDKATLIGRGSSVTTD
+>tr|A0A1S1J3R5|A0A1S1J3R5_9FLAO
+MSFQAYLTNIKTKTGKGPDDFKKLSDEKGFSVSGELKPEVKATEIVSWLKTDFDLGHGHA
+MAIYALLKGLRK
+>tr|A0A1S1J4V1|A0A1S1J4V1_9FLAO
+MSNTFLNNNQIGVVATFSELVQTHFKGERNAQCWYRNLDGDFNEIVAKLSLEENITVVYP
+EDLIALELSEKGSIAREVILNDLQLLTDFGASPSLNLLKCYERDDEFDFISTDVYSFHVD
+RSPITTDTFLCTYHGAASDIVSNSQAEQKILIPEIRAKLQELYDGPPEEFESFLEENYFD
+LHYQLHPNAAPINLGLGHLWRLAVDHPKQQVLPCIHRAPIENDGEYRLLLIC
+>tr|A0A1S1J611|A0A1S1J611_9FLAO
+MLHTIKSYLKFLWNSKNEHAVHSPFVFHLLTKCFYDRKPKLEYQILKKYRKSLLENKNFI
+EVTDFGAGSKVFKSNSRQISKIAQTAGISPKRAELLFRVTNYFQPKNVLEIGTSLGLATA
+ALALGNPKAKVITLEGCPNTANVAQNQFTKFDCSNVNSIVTEFENYLQDIQQRLKTETED
+FDLIYFDGNHSKKATLAYFELLLPTINNDSVWIFDDIHWSEEMEEAWGIIQNHPKVKVTI
+DTFQWGFVFFRYEQEKEHFVIRA
+>tr|A0A1S1J7S9|A0A1S1J7S9_9FLAO
+MKKSLMLYLFILAILMNVFTYMFYSSEVKFEQDRYVKTTKKLRDSINLVSTKLAEADYFS
+LEHNENAQNYFDNSATGGKVILYEKLIPLVTEKLLDLNANPNGNPYTGQDKIGPNKFIIN
+KVKILNHRWIIADYSNGEMWGEVLLKYFVNDDESITFEVNQTWLYQK
+>tr|A0A1S1JBS3|A0A1S1JBS3_9FLAO
+MNVIVGNKLKILRKNKRMSQEEVADFLHISQSAYARMESGESSSWANHILRICEIFEIIP
+EDLLKVEHKKQDLNGEGSSTTTAHLSGKIIEEYEERIKELKQTIRDLKKV
+>tr|A0A1S1J4S6|A0A1S1J4S6_9FLAO
+MANTKELSVEDKLRAIYDLQLIDSRIDEIRNVRGELPLEVEDLEDEVAGLSTRSEKLKGE
+LEVIEEQIKGKKIAIDEHKEVIKKYTKQQESVRNNREFNSLTKEVEFQELEIQLAEKQIK
+EMKASIEHKKEVISNLKEKLDAKSSHLKHKKSELDAIMAETQKEEIFLTEKSAEYASQIE
+ERLLAAYNRIRSSVRNGLAVVSIERGASAGSFFTIPPQTQVEIASRKKIITDEHSGRILV
+DSALAEEEKEKMEQLFSKI
+>tr|A0A1S1J6C0|A0A1S1J6C0_9FLAO
+MIDYLKDFRIGIFIAIIAIVTIILGAVTDKVLRYFLYRKQANKEYDATGFKFLKHLIITV
+IYILGFAFALIQIPEFKIIGHSVLAGAGVISIVAGLASQQALSNIVSGIFLVVFKPFRIN
+DKITINNFVGTVEDINLRQVVLKDAENNRIIIPNSVISAQIIVNTNMHDSKCCKIIEIGI
+GYQSDIEKALEIMQDEIAKHPFFIDTRTAENKKQNTPLVVARVVALADSSVTLKAWAWAK
+NSTDGFILYCDLLQSIKKRFDENNIDIPYPQQVITLKK
+>tr|A0A1S1J0G6|A0A1S1J0G6_9FLAO
+MERKTKITAEEGQQDLLITREFDLPLKLLFMAYTEPEIVEQWMGTKVLQLENKKYGSWQF
+ETSDPKGNVVFKANGVVHEFFPEQKITRTFEMENSPFPVQLEFLEFEAITEETSQLKMHI
+IYRSAALRDQMLKLPFAQGINMAHNRLQEFASKKLN
+>tr|A0A1S1J3W5|A0A1S1J3W5_9FLAO
+MNTYSKYAPNVFVAKCPEMHEKGETITLTTKYGKEHDCIVFNLVAKDKDGNFFYSIVRAD
+GFNYQEYCKQKADRYQKWSASAEKKSTEYWEASHEGKDFLVLAEPIKIGHHSEKRHRALI
+ERNHNRMSKSVEQTKIAEQHESKADYWEQKAHLINLSMPESIEYYEYKVEETKERHVGFK
+SGKYERTHSFSLTYAKKAVNEAEKNLATAKKLWE
+>tr|A0A1S1J5B7|A0A1S1J5B7_9FLAO
+MKYYIVIPAHNEQDLIGLTLQSLVSQTILPSKVVVVNDNSTDRTEEIVLGFAKENPFISV
+VNKTSDAIHMPGSKVIQAFQKGLETLDSDYDIMVKIDGDLIFPSNYFETIIAHFQSDSKV
+GMAGGFCYIEKNGDWILENLTDKDHIRGALKAYRKETFQQIGGLKPAMGWDTVDELLCKY
+YGWKIVTDASLHVKHLKPTGANYNKTARYKQGEAFYTLGYGFWITAIASAKLAMMKKKPF
+LFLDYVRGFWKAKKAKTPLLVTPEQAKFIRNYRLQKMKQKFFKS
+>tr|A0A1S1J0T1|A0A1S1J0T1_9FLAO
+MVIKKNNKMTGIEFYTFLQSIYTQDGQPLYKNYSFKKWLHKKDSQSFQFNGNKAVKSIPK
+YWLIDSKNAKNRGEKIDRNWFNNFYKQQNFNDCRASIAIWLIEKY
+>tr|A0A1S1J571|A0A1S1J571_9FLAO
+MENAKYLYGASGHCKVIIEALRSNNITVNAVFDDQPKTEIIHNIPVLDSLQLLKAKAGKI
+VVSIGNNQIRKVIVSKVEKSFFTVLHAKAIISESSKIGEGTVIMAGVIVNSDAEIGKHCI
+INTGAIIEHDCKIDDFVHISPNSALAGNVFVGEGAHIGIGACVIQGVKIGKWATVGAGAV
+IIKDIPDYAVVVGNPGKITKYNKINE
+>tr|A0A1S1JCE0|A0A1S1JCE0_9FLAO
+MIKSYKIILIVQFFVLIALGFTFSKVEYGEFFPIITKIPLFLIGFFPLILLGVSILVQRL
+VITVIYSDLSKNHSEKEGEDKFWTISFFTYVIFASFMFLTSLICIALSFRSAAEEYKVFI
+LKLCIFVVLLMVVSLIIGLFFKVKEKVNEVSKMLSSLMVFLSLILFGGAFFIGVGSMATP
+ECYLNVMFDAIKVMPLVDERLALVDSSTVEETEVIGNGVKYVEDYYGFIDMNTSNVKSTG
+FLRNRYDEEYSDSRISNEIKFFFRDFLYLRKNQSLTGYRNETKIGLHIDEYVYETKLLTD
+KLRENPDELRDAYESYRPILFALLSRNIYNDSNLDLLIEVLISSRDDISRAENENKGEIE
+VIDMIYKTMIYGAEKEFPNHHFNEISPFVSKKTWGLITRNSKQNTKTDYKNKATAVWIYS
+FWARRSQEGNMDVVYAILKDVKQHYQVFDSQ
+>tr|A0A1S1JF36|A0A1S1JF36_9FLAO
+MKHTKVRDLLNSTTTLQEVNAKGWVRAFRNNQFIALNDGSTINNIQCVVDFENTPDETLK
+RITTGAAISVIGTLIESKGAGQKYEIQVNKLEILGDSDAEKFPIQPKNKPSLDFLRENAH
+LRVRTNMFGAIMRVRSVLSYAVHKYFQDKGFVYVNTPIITGSDAEGAGEMFKVTALPFDN
+TPRTEDGKVNYKEDFFEKETNLTVSGQLEGETYAMALGQIYTFGPTFRAENSNTSRHLAE
+FWMIEPEVAFNNLDDNMDLAEDFIQYVIKYALDHCQDDLKFLEGRLLDEEKSKPQAERSE
+MALLEKLNFVLENNFKRVSYTEAIDILRDSTPNKKKKFQYIINEWGADLQSEHERYLVEK
+HFKCPVILFDYPANIKAFYMRLNDNTEPGRETVRAMDILFPGIGEIVGGSEREERYDVLV
+EKMKALEIDEEELSWYLDTRRFGSATHAGFGLGFERLVLFVTGMTNIRDVIPFPRTPGNA
+EF
+>tr|A0A1S1J734|A0A1S1J734_9FLAO
+MKTAMKIGLKILICFMLLVSCSEDQIDETGTGAVKGRVVDARTYEGIENARISSSPTTST
+VFSDKDGYFEIDNITMGKYSFQAQKDGFTARFEPATVEKDITVQIIFELQVSTANNKPPD
+VPILTAPTDNATGQSLTLDLTWTAKDPESDPMTYTVTVKNGTTDETKTYANLKDTKLNIS
+GLSFSTKYYWQVTADDGINKPINSVTNSFTTLAFPNPRYLYVKKVKNNNVIYTADEAGNE
+LQLSSAEVNSYRPRKNLSINRIAYISSDGSLNQIFTMNPDGTDVKKITNFIPIAGFNMEY
+VNYCWSTNGRQIIYPNFDRLYRIDSDGSGLIQLFKTPNGKFISECEWSQDGSQIVLKVND
+MSGYNVEIYVINTAGDVLYQVLSGVTGGASGISISVDNSKIAYTRDVSGFENSTYRRLDS
+RIFIYTAADNTSTELASQKPNGFNDFDVKFSPNEAELIYVNTSNDGLSANMIQKVTISSS
+NSNGSRTTLFQNASMPDWR
+>tr|A0A1S1JA22|A0A1S1JA22_9FLAO
+MKTTRNTAAKTAVLEIFDKSKTALSHTEIHKQIDDLCDRVTVYRILDRLVNEDIVHKIVN
+LDGTVKYAKCHHHAQRVHIHNHAHFSCEKCLEVTCLENVKPSYIIPHNYKVNEINFTLSG
+LCPNCLNSNN
+>tr|A0A1S1JAK1|A0A1S1JAK1_9FLAO
+MKNIILGFSFFFSITTFAQVSANKVHDAIVEEFLTNCAEKHNYVFEMAEWQECLDQGLKK
+DSTVAYLWQQKAMPYFKCKKYEVGMPFLDKAVRYNKQEWLPYRAFIKCIFAKTYKSAIVD
+FEECIKLYGNSYVMDHTYSFYMGLCYLQLNEYDKAEKLFDDYVNDIYKNRQQLEHPTAYF
+YQGIAKYELKKWDEALVIFDKALKVYPEFSDVKYYKAVCWLKQGKPREEVVALVGIARDD
+AAKGFSLNEDNTIYETYPYQKKFTKQ
+>tr|A0A1S1JDB9|A0A1S1JDB9_9FLAO
+MKKNLFLLGLLVCSMATMAQTEKADKPESWYFKLGASYFNQTASTEFPVVGGQLPNRDVY
+AGTLANNKLASRESVTGSFGQGFRSGITAGYRFSARLGVEMSANYYVSNEKTMSQTTNRL
+ISYNPATSPAATYVSFTANGEIKAFDLAPAIVMFLGEAHGFEPYTKVGVIVPVHGTLDIK
+TDRQYTTFVGANQVASTNAFSKDVVKPNPTIGFMASLGTSYKLGKHISAFAELEYRNFTV
+HGKTKETTIYTENGVDKLNETTAFRAASYSATHTKYVDRLDGNSNNKEYNPSGYDSTKPM
+NELSSYVGISGLGLTLGLKYSL
+>tr|A0A1S1J5I0|A0A1S1J5I0_9FLAO
+MLEFNFTPFPVIETERLLLRRITNDDVNEVFELRSNPETMKFIPRPLVKDSEDALAHIKM
+IEDKIVANEGINWGITLKGNPKLLGIIGYYRMQPEHHRAEIGYILLPEFHGKGIIPESVN
+GLITYGFEELKLHSIEAVIDPENYASEKVLQKCGFVKEGHFKECEFYDGKFIDSVIYSLL
+SNKKQ
+>tr|A0A1S1J5R8|A0A1S1J5R8_9FLAO
+MKNLSWFNKIMFFLNIVLTVLTFSIYILPFLAPKSFPLLSVLTLFMPAFFVLNGLFFVYW
+GIQFKKRLILSGLVLLTGITFISKFYKFSTKEYVRDERDFSVMSYNVRLFNVFKWLDRDD
+IPSNIKAFIDEKDPDILCIQEYSNSAHLDLKVYPHRYIFIEGNKIKTGQAIFSKFPIINQ
+GNIIFPNSDNNVIYADIKRGKEVIRVYNMHLQSIKISPDVSDISDNIDHVNQEKSQLIYT
+RISKGFRQQQEQAEIFKENIKQCKNPIIICGDMNNSPFSYVYRNIKGKLKDAFEEAGEGF
+GATYKFRYYPARIDYIFTDSKMKVKQFESFSDFENSDHYPIMTRLSIE
+>tr|A0A1S1JBZ1|A0A1S1JBZ1_9FLAO
+MKKTDIAIVGLSCLFPGAKNAEEFWQNIINKVDSTQVVPADRIDPVHFNGSKEATDRFYC
+NRGGFIPDYEFDPTAFGILPLAVEGTEPDHLLTLELVQKALEDAGVFRKKVSLERTGIVI
+GKGNYTGPGATRAIEIVRTGEQIFSLLQELLPEVSSSDIEKIKQAFQERKGRFSADTAMG
+LIPNLVASLVSNRFNLGGVAFTVDAACASALVAVDHAVQELLRGRSDMMIAGGVHTGQNA
+AFWSIFSQLGALSHQQQIKPFSEDADGLLIGEGCGFVVLKRLEDAVRDQDKIYAIIKGVG
+ISSDGNGTSVMSPSVKGQLKALEQAWAQANLNKEQIGYLEAHGTGTPLGDKTELQTLAQF
+FGKEETAARAGIGSVKSNIGHAMPAAGIAGLIKTCLALHHDILPPTLYCENPTASIQDTR
+FTPIQEAKNWSQTGLPKIAAVNAFGFGGINAHVVLEGYDIPKKDEVLLLARPTREALLSA
+LQDNDTSVGNGDYRIALFDPTPERIQKAIKIVSKNNAWRNKQDIWYTSAPLLQNGGKLAF
+VFPGLDGLEKGEVETVSRYFGLTAPIETAGEGLLNDALGIFNTCGILDSSLKKLGIYPDM
+NAGHSLGEWLAGYASDLAEASSVKDLIDVLDPKTFELKDSKFIAIGAGLEEVKPLIEQIP
+NLYVSNDNCPHQVILCGTNAALQELTPLLKSKQIFHQVLPFQSGFHSPFVADKLDVILAG
+MEKVQFQKTKIPLWSATTLLPYPADQKSIRKLSAEHLVQPVRFRELTEKLYAEGVRFFIQ
+VGTGGLIGFIDDTLKGSPFSTLASSVANRTALAQLQRVVAALFVEGKVLALDFLNIQNHR
+KIVPKKGIKLQLGSPIIRDFEPLQNLRKSIHTVQPKKVLTEAKVSHPLVRAFQENIADMI
+RMQEEVLDVFQNQGEAVVLTPVLTKKQLADSPFTKTLHVNLDTHPYLIDHSLLRQPKGWS
+DVADMEPVIPMTMIFELLAEAAQAEQPETKIHKIMNVSVFQWMNVARPFEKMIKGVWRSN
+HHAYLDIENFANAEVSLTASHPPQPTFDLSIGERLPIERTPLEIYEKHMFHGEKYQGITV
+VSAVGKKGITGQIKGNGGKGSLLDNAGQLFGLWLQLTLTKDRIAFPVKIKQIEFFEDMHD
+QDGVFECTCILTELNDEFAIADIILQRDGKVWCAIKGWQNRRLEIDEALWNVSMSPLHNR
+LSEEIAPQVFFFHQAYSRVSSWDFILKRYFNQREKQYYQELLPNRRKNWMVSRVAVKDAV
+RQVLSEKKKQPSYPITFEIYSDKTGKPHLKGNATEQIQISLAHKGKDAVAIARHDKPVGI
+DMEIIAERSPEFYQLVFTDTELALLEERDQAEWTTRFWVAKEAYGKLLGTGLKGNPKRHE
+VTCIQGDHLWIDQIEIKTIKHLNYIIGWTL
+>tr|A0A1S1JDV1|A0A1S1JDV1_9FLAO
+MLVIAESFLGPKKIRFQPFPLTNTFSKAVGALTLHTEVPKPRIVTCTGIKKPAMFIASKV
+AFVKMLVGAKVLKVSLCFDNEERKICFLNLIRVVIH
+>tr|A0A1S1J804|A0A1S1J804_9FLAO
+MIKNILNYFKKRKERKKAQKETIHRVINNYNELINELRLIQEKKSKLSKKERDFVELRIM
+HLISKGHIQVST
+>tr|A0A1S1J857|A0A1S1J857_9FLAO
+MPKFNQFEKLVIHEFEDDVFPHVPHTHTYYEIIYIKKGNGIHHLNHNLLPYKSGDLFVIS
+PEDEHYFDIKKRTRFVYIKFTDNYFDSNRNLFCDDLLLNTPEDFMRNKLLKETILKLDDP
+CKTILKNTIENITAYNCKTDVSSSPIVFYQILSIFGLIKETIRCMNLQLKSTPIDNEQIA
+TYIHQNIYNPKLVQIKVIADHFNIAQTYFSAYFKRTFAISYREYIHNLRTTLIEKRIHNN
+QLPIKQIAHEFGFTDESHLSNYFKKRKNMKPTDYKKL
+>tr|A0A1S1JEG5|A0A1S1JEG5_9FLAO
+METVYVNSPLGITKIVGDEDGIAIVSVSDVGDNDISQTIPKVLEEAVSQLQEYFDGKRTD
+FDLKLNPKGTDFQQKVWKSLLEIPYGKTISYMDQTKKLGDIKAIRAVASANGKNPLWIVV
+PCHRVIGTNGSLTGYAGGLSRKKWLLEHENPSTQQSLF
+>tr|A0A1S1JB19|A0A1S1JB19_9FLAO
+MKTLLDLENWNRKEHFAHFIQMEEPFFGATVEIDCTQAYETAKSLESSFFIYYLHKTLVA
+VNAIENFRYRISGDQIYINDQIDASATIGREDGTFGFSFIEYHPDFKTFEKTALQEIERI
+QNTTGLFTRSFENDNLIHFSAIPWLNFTSLSHARSFTFPDSCPKVSFGKMMVSPTGKRTI
+AMSVHVHHALMDGLHMGQFVDYFQELMNQ
+>tr|A0A1S1IYE3|A0A1S1IYE3_9FLAO
+MLVKLSTITTLYRRFTKNQVLTEGHLNEIVDYFDDQDRISRIGLSGVGIICGFKVSYSPV
+SKDITITQGSGITTDGDLIQLYKSTPNGGKIIDFESKQYTHYKVYDNKKAAYKPYFYDGS
+KQLEIFELLTAEQQLTESANTYPIHYLKKNTGLEVTDAVVLLYIESYEKDSDLCVSLSCD
+NQGLEIIGNHKALLVSKTVAAQINTHDKIISKIKFSNLYYKLPELVSNRIVLQPEDFSSY
+YEIKRKFTNGLFRNNVVARLQDGFEILLTPLKMPTILDSIKKNLASLYSFDEKNVPPDFQ
+YRYDLLNDLIDSYNEIRLLLSNMDYDFCFPDIKSFPKHLMLGEVQKSGPCFEYRHSFYKS
+PLLTGQNLSTCNDCLPFDTLNEPGKKDTINEFIVDLEGKEITICYGKNTDLQQLYSLIKR
+CVQLLANYNVNYTYIKITPSFELGSLGKKAIPFYNNVGDHLIELWDYEKTTIGQQRNNRS
+YHDNLLNTKWPNEMVSDHNFYRIEGHQGTDYKKALKTIQAIRRQYGLGFNVVVLGVKASE
+AKKIVENYTSYYLNKNHGYEHKSGVAPGGTFVMIYIEGEYSQYPYYYGYGYPYEYPRGNS
+LAGDFEKEGDKKEPGESIVLNPVIADFTLPYLCCDDNFITLSLPMNHICFDETTPYFPFH
+VTPTGGFVKADVDEDLNGGVTKNQYGEFVFDPKLVSEELIGKPITFTVNNFETNCQITIF
+RKPKFDFTFVFPKSLNKDGVVVDFSISGENQKDMKYVWDFGDGSEPVATTEAKIQHIYVY
+DVPAKESYSFQVKVTGENGNCNAQAQHPVTFEVPVVVGIDTRNICRNDLKPHVLTIEPNS
+KKTVLSGPGVSQNDAGQYIFIGNNVPKDVDQVVILINGKPSNLTIIMQNPPVALFSYAIR
+NNQIAFSNKSTDALKYIWNIEEEVIETDATEAIIRPTSLYKNDVIKVSLTALNKRCGESI
+DGPRDIRIREKPTENPCLTNAVEFVKKTNLTFEKINQQPELQKFSKETLSLITEIQKQFA
+SVEKETSAYINGDFNTALPEMYNELVYHNLLLAARNARMEEEKTVLSFLTESHISLFYTI
+IKCQPAELINKFEKPFTTITARIDSLLQGFVKNQYKTDPKGTLKAFLTDQKIPFKDIKFI
+LEAIESQLKSLN
+>tr|A0A1S1J2F5|A0A1S1J2F5_9FLAO
+MTAFNTSLTDGFGRRHNYLRISLLEKCNLRCTYCMPADGIALSPKASLMTADEVFSIAQT
+FVQYGVDKIRLTGGEPLLRKDFPEIISKLSALDISVSITTNGILIDRHIDVLKKFKIKKI
+NLSLDTLVSSKFSSITLRNQFDKVVDNLHLLLNHDFQVKVNVVLIKGFNDNEIVDFVKLT
+RFLPISVRFIEFMPFAGNDWDRSKMISQKEILSLVGNRFSQQEIIKLKDEDNFTARSYKI
+KNFQGDFGIISSITNPFCDSCNRIRLTADGKIKNCLFSNSETDLLTPFRKGESITNLISA
+AVQSKKKVRAGMVTIDEMNDPAKHFDNRSMIAIGG
+>tr|A0A1S1J3M7|A0A1S1J3M7_9FLAO
+MRKRNSKQILTVLFSTLSLNFTFAQRKEFRETTVDSLTFVNNRKALNSLNTDSFLKRIST
+KENIEIPYRLLTPKDNSNHHKYPLVITFHNSTRIGNDNENQLEPFAKIWLRPEIYTKYQC
+YVIAPQFSERSSNYEKNSDGIQVSKPSAAVFALLELIQNIEKEYPNIDKNKIYLIGYSMG
+GSTAQNLLNIAPDQFAGMVSVAAVPDFSNLKKLSQKNIWLIHGKKDDDNPYIGSVELFAK
+LSSNKNLTFTTLNNLNHNNIVIPFLLTEEIPKWLFEKHK
+>tr|A0A1S1J3T8|A0A1S1J3T8_9FLAO
+MKNVFYKEDCDEFVKRINLLQPDSVGLWGKMDVAQMLAHCNVSYEMVFDDIHPKPGFFLK
+FILKTLVKNKVVSETPYKHNNPTASQFIINGTRDFNLEKERLIAYINKTQLLGEKDFEGK
+ESHSFGRLTATEWSNMFAKHLEHHLSQFGV
+>tr|A0A1S1J867|A0A1S1J867_9FLAO
+MKIKYLTFLASTMLLISCSGTISTAKKEYQITKTAALKSDWNFNPNEWRLQNDTLTGNGG
+PMHWGVIESKKKLPKNYEIDFKVNIVKESLFEIMLNLEQEKYIRTYLYTIEKSIIIGKGV
+YHKDSDAYGKRGGPSLFKKPIQLENNKWYTVKIRVENNQLYFAVNNQTFLECSVEKSNLN
+QQGQLGFITNGQAKITDLTIKTIP
+>tr|A0A1S1J9B4|A0A1S1J9B4_9FLAO
+MNYYYKTKINLMKHISQSKIYVLLVVALLSLGACSKNVEDPVVDTTGSTGDKEDSDVSTG
+LNYSSFEVNLPENLRPLTNSAYETYGIKPSIRFSVSEDGNLDTYWEGELAPTADGHRHLS
+RISLSTKSIVSEISFPKELNLGNTTFLGYEYFGNNRYMMGASEVNSDDIARKRPVYYCFD
+GSGNVKYSIDLWQAPPNPSDTHAAGRSGQGIIVYNKKLDNFGIYLARRGMGEHQAAWLSF
+HEAATGKSTFIRPWYISHNFDQRLLPLNDGRYLASAHADALPSRGLLIETWKFNDDPFNR
+TWSNVFPLPNSATSNDNITNTATGDLLELPNGNIAVLYTTQHEFTANDLRRDLRLSIFSS
+VGAGMGSAVKVKDVWLTSYKATETAGWGAQMAHYSQGKIFIAWNAFDMSKNNKVLKSSLA
+VVDYDGNVLTTKDVSLSNGKDDNSRLVQPSQIIRKTNDGKYLVFMSEGSAPNKLRVNLVG
+IN
+>tr|A0A1S1JBP6|A0A1S1JBP6_9FLAO
+MNEDNDYLCPVRAKDYRQRKKVLTQSFVLCFLIKFIDLQVSLFAFALSGHYLLLNLFYSA
+LHHTDAFRLSAFFVK
+>tr|A0A1S1JEI9|A0A1S1JEI9_9FLAO
+MKVHIIGGGNLGVSIALGIAKFSKNNQVTVTRRNTSSIQYLSEHGITVSSDNKHSIQEAD
+VVILTIKPYQVDVVLAEILPVIKGKTIASAVSGLSLDMLQSKTNNEFAVVRIMPNIAAQF
+GESATCISFPEQDREKALPIVDLFQDLGTAPVIDEKLMDAATVLGACGTAYALRYIRASM
+QAGIEIGFDSNTALAIAAQTVKGAAKMLLEEQVHPEQLIDRVTTPQGCTIVGLNEMEHNG
+FSSSLIKGIKTSLKQIKG
+>tr|A0A1S1J2W4|A0A1S1J2W4_9FLAO
+MKIVIIGGGFAGINLAKELVNHPQIQVTLVDKNNYNFFPPLIYQVATAFLEPSSISYPFR
+KFFAGKKNLEFRLGELLSVVPAENKIILNNGELTYDHLVFATGAETSYFGMENVMKNAIP
+MKTLNDAIEMRNALLKNLEKAAITKDMRKRRKLLTIVVAGGGPTGVEVSGMFAEMRKSIL
+LKEYPELETSASNVYLVDGGDALLSPMSKASQEDTLDALTKLGVVVKLQTRVVDYVDDTV
+HFANGETIKTKNLIWAAGVSAKIFEGIPAESYGRGKRMATDQYNKVNGLTNIYAIGDTAI
+TAGDKNFPDGHPQVAQVAIQQGLNLAKNFKAMVQNKPLKAFMYNDKGSMAIIGKNKAVVD
+LPSPKWHFKGFFAWFIWLFVHLMSLITYRNRLNTFWNWMIAYFAKDQSLRMIIRPDKRS
+>tr|A0A1S1J4X2|A0A1S1J4X2_9FLAO
+MCGIVCAFDLKQKAETLRPQVLEMSKIIRHRGPDWSGIYSNDKAILSHERLAIVDPASGK
+QPLFTEDKKLVLAANGEIYNHRELRKQFQGKYNFQTESDCEVILALYREKGPHFVDEMNG
+IFGFAIYDVEKDEYFIARDHMGIIPLYIGWDQHGTFYVASELKALEGYCTKIQLFPPGHY
+MTSKDGEFVQWYKRDWTEYEAVKDNETSIPEIKKALEAAVHRQLMSDVPYGVLLSGGLDS
+SITSAVAKKFAQKRIESDDTTDAWYPQLHSFSVGLEGSPDLAAAQVVAKHIGTIHHEIKF
+TIQEGLDAVRDVIYNLETYDVTTVRASTPMWLMARVIKSMGIKMVLSGEGADELFGGYLY
+FHKAPNAREFHEENVRKLGKLHMYDCLRANKSLAAWGIEGRVPFLDKEFMDVAMRINPQD
+KMINKEHPMEKWVVRKAFEDMLPESVAWRQKEQFSDGVGYSWIDTLKEVVAQEVSDEQLA
+NAKYKFPLQTPTSKEEYYYRSIFAEHFPSDAAALCVPQEASVACSTKIALEWDEAFKNMN
+DPSGRAVASVHDDAYAKA
+>tr|A0A1S1J2U2|A0A1S1J2U2_9FLAO
+MSKLGKKVGIHTIENAERNWTICPECQGRGKKSQRLSKKVRLQYQIALENFEKSKDSGVS
+PTRPKAHLNVCLHCDGSGLIPSEHPTMIDKENYPHVAIIGAGIGGVALAVACLHRRIPFT
+LYERDTNFDARSQGYGLTLQQASKAIEGFGIFSLEEKVISTRHLVHTPEGKVIGEWGIRK
+WIPSDTKTAPKRTNMHIARQHLRSALLKQLGANDIVQWGHQLIDFKESEDQSISLNFEVN
+GKIISTKADLVVGADGIRSTVRKLLIGDEVTPLRYLGCIVILGICPLKALDGLDHNLLDS
+ATVFQTANGNERIYMMPYTEDSVMWQLSFPMSEDEAKILSAQGPKALKEEACRRTQWHAP
+IPQILSATLETQISGYPVYDRELLRPELLAKNKRTTLIGDAAHPMSPFKGQGANQALLDA
+LSLARGIVRGCRPLSNWREAGIRESVLTEFESEMLVRSATKVKGSAEAAEFLHSEIVLHE
+GDEPRGRCLKNK
+>tr|A0A1S1IZI8|A0A1S1IZI8_9FLAO
+MSNSVYSINKGINQSIQFKGLKAQYIWYLGGGVVGLMILFAVLYIIGIPSLICIGFVGTA
+GGFLVFKIYRMSNTYGEYGMMKALAKKQIPKWIKVYSREVFIKL
+>tr|A0A1S1J6Y9|A0A1S1J6Y9_9FLAO
+MENWTIRAIKKEDNQAVAYLIRSVFDEMEIPKVGTAYEDPYLDLMFEEYNKPKSVYYVVE
+KEDEIIGCCGIAPLENGSPEICELQKMYFLPKTRGLGIGSVMMKKCLEQAKIFGFEKCYI
+ETMPFMHAAQKLYVKSGFEYLEAPMGNTGHSSCPVWMLKKL
+>tr|A0A1S1J8K4|A0A1S1J8K4_9FLAO
+MLKIGITGQAGFVGTHLYNTLGLFPEEFTRIDFQKEYFEDQDQLTDFVAQCDVIVHLAAM
+NRHNDPQVIYDTNLGLVQKLVQSLEHTKSKAHVLFSSSTQEERDNLYGKSKKEGRELMIN
+WANNSEGEFTGMIIPNVFGPFGHPNYNSVIATFCHKLSHNEIPTIEIDGDLKLIYVGELV
+DAILSEIRSKKGKAELLVKHTSEFKVSQILSLLEKYKSEYQEKSIIPGIDSTFELNLFNT
+FRCYMDIKNHFPVKFVEHTDPRGSFVEIIRLGVGGQVSFSTTVPGITRGNHYHTRKVERF
+AVIKGKALIQLRRIGTNEVLDFYLDGSEPSYVDMPIWYTHNIKNIGDEVLYTNFWINEFY
+DPNDPDTYFENVE
+>tr|A0A1S1J985|A0A1S1J985_9FLAO
+MATEDKEIILLKVSGHDKIGVTAGLTAVLATYDANILDIGQADIHDTLSLGILFEIQAGS
+SSGPVLKDLLFKAYELEIKVKFIPISIEDYEKWVKSQSKQRYIINILGEKLAASQLAAVT
+KIMSAQNLNIDSIIRLTGRTSIVDLEEYPRSCIQLSVTGEIVNKIDMTASFMEISRTLNV
+DISFQEDNIYRRNRRLVCFDMDSTLIQTEVIDELAELNGVGDQVRAITESAMNGEIDFNE
+SFKQRMALLEGLSEDVLQNVAVNLPITKGAHRLMKALKYYGYKTAILSGGFTYFGEYLQK
+ELGIDYVHANKLEIKDGKLTGKYIGDIVDGQKKAEYLKAIADKEGIHINQTIAVGDGAND
+LPMINLAGLGIAFHAKPKVKENAATSISSLGLDGVLYLLGYHDRYIDMM
+>tr|A0A1S1JC61|A0A1S1JC61_9FLAO
+MRKICIFLLFLFCGNVLRAQVNPTVQDTTKTQFSVGKVEIGNPPSILSAYRYDPITDRYI
+YTSSVDGFNINYPIVLTPKEYEDLVLKESRRDYFRKKSDAIDGKKSGSEAAKKNLLPRYY
+INSGLFESIFGSNTIDVKPTGSVEMDLGIRYTKQDNPAFSPRNRSSLTFDFDQRISMSLL
+GKVGTRLEVNANYDTQSTFAFQNLFKLAYTPSEDDIVQKVEVGNVSMPLNSTLIRGAQSL
+FGVKTVLQFGKTTVTGVFSEQKSQTKSIVAEGGGTVQNFDLYALDYDNDRHFFLSQYFRN
+KYDASLKSYPFIDSRVQVTRIEVWVTNKQNRVATNNNNLRNIIALQDLGEGQVTGVPDNQ
+VVVISNPVGFFNNPIDTPTNNTNNKYDPATIGKPGAYLNSNIREIVTAKSGFNNANTSEG
+TDYSVLENARKLTANEFTFNPQLGYISLQQRLANDEILAVAFEYTVGGKVYQVGEFGSDG
+VDGTVVTGNNNANKAIITQSLVLKMLKSNLTNVQNPVWNLMMKNVYQIPQAYQIKQDDFR
+LNILYTDPSPINYISPVPGTTFPANPTADNKVELTPLLNVFNLDRLNYNNDPQAGGDGFF
+DYIPGITVDVQNARIIFSTKEPFGELLFKKLQNTGSGENYDDPTTYNANQKRYVFRNMYR
+NTQSGALQDSDKNKFLLRGKYKSSGSNGIPIGAFNVPQGSVVVMAAGRRLVEGIDYSVDY
+QLGRVQILDPSLQASNTPIEVSLENNSIFGQQTRRFIGFNVEHKISDKFIVGGTYLKMNE
+RPFTQKSSYGQESVNNTIFGFNGNYSTEVPFFTRLVNKLPNIDTDVPSNLSIRGEVAFLK
+PDAPKASDFEGEATIYIDDFEGSQSTIDMRSAYAWSLASTPFVNSINDNTFNANSTTLEY
+GFKRAKLSWYTIDPVFYASKPSGISNDDLSLNTTRRIYSRELYPNTDIAQGQIQVVNTLD
+LTYYPSNRGPYNNNPNFGASPASSNFGGIMRALNSTNFEQGNVEYIQFWVMDPYVGNGEA
+AVGNTGKIYFNLGEISEDVLKDGRKQYENGLGPDQIMVNPRPLWGDVPASQSLIYAFDNN
+AGNRSNQDVGLDGLPNSKEASVYTNYGGETDPAGDDYTYYLNTDGGVLDRYKNYNGTEGN
+SPVSIDSPNRGSTTLPDVEDINRDNTMSTINAYYEYSIDVKPGMQVGQNFVTDIREVSNV
+ELPNGSTTTARWIQFKIPVAQPQNTIGNITDFRSIRFMRMFMTGFSDQMTVRFGALDLVR
+GEWRRYTGTLDANDTNPADDGTEFDVAAVNIQENGTKCPVNYVVPPGVRREQLYNNNTII
+NQNEQALAVRVSGSGLQYQDSRAVFKNVSVDMRQYKKLKMFLHAESLPNENTLLDDEMVG
+FIRFGNDFTQNFYQVEVPLKVTRTGGSCSISPDQVWLEENNIDLALELLTRMKIKGMTVD
+INSDKRDVNGIYYPDDDLSVGGGDGDGRLRLGIKGNPNFGLVRTLMVGVKSRADHKTIKG
+EIWFNELRMADLENKGGMAAILNIDTNMADFATVSATGKKSTIGFGSLEQGANERSREDL
+QQYNIVTNLNLGKLLPHRWGINLPFNYAIGEEVITPEYDPFNQDIKLKQLIKETTDEAEK
+ENIRTRAVDYTKRRSINFIGVRKDRAPEQKPHVYDVENFTFSQSYNQVERHDYEVADYVD
+EQSNSAVNYAYTFQPKEVVPFKKTKFMKKSEYWKMLSDFNFNYLPSNVSFNTNILRQSNR
+QQFREVEVQGIGLDPLYRRNFAFNYQYGFGFNLTKSLKINYTAASNNIVRNFLNDDNTPK
+QDFNIWDDYFDIGTPNQHVQQLVLNYDIPIHKIPVLSFIKANYSYTADYSWQRASTALSE
+YVDPVSGSTFDLGNTIQNANSNTFTTTLNMNTLYKYLGLTPGSKTGAKPKAAAPPKPGEK
+IVNTAKPATTSSPFYDGMIGILTSIKNVQVNYTVNSGTVLPGYTPGVGFFGTSRPTLGFV
+FGSQDDIRFEAAKRGWLTSYQDFNQSFTQVTNKLLKVTANIDLLPDLKIDLNMDRNYSEN
+NSEQYSVVKNNVTGDLDYKALSPYNYGMFSISTVLIKTAFSTSTATESAAFDDFRNNRMI
+IANRLAEERYGAGAPIPRYGDANNPIPAPTDPNYKVYTANEGYPIGFTKSNQAVLLPAFL
+AAYTGSSASSSSTDIFRSFPIPNWSIKYNGLMRYKYFKDKFKRFSLQHNYRASYTINQFR
+SNFDYIEKPNGQDVNTNFFNKTIMSNINLVEQFSPLIRMDFELKSSLRVLTEIKKDRALS
+MSFDNNLLTEVKGMEYVVGLGYRFKDVIFSSRLADSPTGIIKSDINIKCDFSYRNNETLV
+RYLDYDNNQLAAGQNIWSLKLTADYAFSKNLTAIFYYDHSFSKAVISTAFPLTNIRSGFT
+LRYNFGN
+>tr|A0A1S1JDD3|A0A1S1JDD3_9FLAO
+MNAEYNTFLDKKPVFNKVYQQNWKALYSFAFNILRDKESTEDIIQEIFIDFWVRMNDTDI
+QNYTAYLFQAVRNQCAKRLRYKKLTVFELQVLEESIQLIDEEEFFEFPKEQIVEQVRQKA
+HEILPPKCLDIFNLRFYEKLSIKDIAEYKKISVSTVENQINKALKMLKTENDYFIKLLAI
+LIFCS
+>tr|A0A1S1J1C9|A0A1S1J1C9_9FLAO
+MKKLILLIILSLGFEAVAQTNEFTLKGKVMDSKTKQSLSYVTVTLESSDQKKRTVSSDEN
+GMYVFKSPPGNYQLKIEFISYKPFTVNAISLQKDLILKDVLLEEEVNELNEVNVVAEKSA
+VELKMDKKVFNVGKDILSKGGTANDILNNVPSVNVDIAGAVSLRGNSGVTVLINGKPSML
+TANNGLSQISAGNIEKVEVITNPSAAYEAQGSAGIINIILKKNSMQGFNGSLQAGIGNPA
+NHSLNANVSYKTEKVNLFSNIGYRYIDVFASNRQFQHNTSNNAVTTLNQYDDIRRNNSIY
+NIYIGGDYYINAKNTLTGSYYRDRNNNNYKTAIEYEYANASNATDSTINRHENYKEPKFY
+NALELNYVKTFDKKDKKWTTSLQYDFWHDDENQYIDQQKTMPYEPEVSNLYSRDIESSND
+IFLKSDFVNPINENSKIEMGIRSDLRAIRSDYYTVLDEVLQDQFTNKLKYDENLYSGYIQ
+FGSKVKKFSYLAGLRAELSDIKIADSKNLFSNTKNYINLFPTVHLVYNLTEKTDLQLSYS
+KRINRPRFWQLNPFSGLSDLRNLTVGNPDLNPMFTNSFELTLLAKPGKFSINPSVYYQHT
+TDFFEYILQRTDENYFVRTPVNLDTEDRFGAEVSSTYSPTKWLRLSLDFNYYKFKQQGTY
+KEVVYDVEDETWLSGFRSVVKFPKIISGDFSFKYRGKNQGVQSVTEAQYSANIGLNKDFF
+NDKMSVTLNVNNLFNSQLTKQTVSTPLYYLESEFRSQGRYIRLTVIYRFNRKKNEADRLP
+DSE
+>tr|A0A1S1J1H7|A0A1S1J1H7_9FLAO
+MANSKGIITRKEIIEEEALTWGKDYANQTQIAIDKNKEFVQGILQIAGIQKQIKEASSNS
+TYNAALQQGILATQKAILAIKEREAAEISANKIRMSTIALEDKERKAKESSNKATLEEKI
+LLAETNKQLKQAARERLGLVGAYAKLNQARLDAQKRLAELISAEKKNTAEIIVAQAEFDK
+LDARVKAVDAAIRNYTKNIGNYGSAFEGLRGTLKDLIATFGLVTGLELFGVVVKDIFSIV
+LDFDKQLIAVGKTTNMTGEELKQFGRELVELGDKSNGITVAGLIESAEVAGQLGVTGTAN
+ILKFSSAIEKLKLTSDINSEEGVAQFAKFIEVSSDSFENADRLASVITQLGNSFSTTEKE
+VLSNSTEIQKGVAVYNTSAQGVLALGAATSSLGSEAEVSASSIQKTFGVINQSIATGKNL
+EAILKLTNLTQKELSKQFNQDATGVFVKFVKGLNTAKKEGQNLAIVLGELGLDEVRSFKT
+IGSLAANYDLLASAMAQAKKEYEENVALNKEVEAASESLSSILADINDRWEAYVLMANDA
+SSGSIYLAKVLKFVRDNFKEIMDFIVKFGTVLITYVGILRTVNFVMVTYSALQAAATAAQ
+IRFALATGIGTRSILAQAAAARQAMVAQEGLNVATKATPWGLILAFLSAAIVAYMVFNDE
+MSDAEKNIKKIVDANKELEESEKAFSDARDQSNNERFKDIEQDIKLRKAQGENSDKLDKE
+EIAMKKKILVASLEVFTELKKAEADRTQTEINSSRQRIAQFQIEKNYLANGNWRVSKEGH
+NSDELDDLIKTEKDKISFKKATAIKNAQLTTDEKKRLEKQLADLDKDAAIKDAEFKKEMS
+KKELAALRKKLKDAFELWKKGLDDQFKLQQFRLQVGLDMDDEILENDKMSYDKRLDSLSD
+YNQLASERIRNAAEYELFQLGKYNEKTGKFIRELSDLEISELLETGKIKKELTNGQKLIL
+EKFQDDQKKITLKGVKDRQKIIDSEVEEVKKRIDADLLTNDTKLNKALEAENILYNASLN
+KNTNLEKAQEEHERRIIEIKRSAAKEAIAIQIKAIEDILAAQDKLPENERISVQKRKQYD
+NELSRLKLENSELNVLNNDQATKKILFFNEEYFKKVEELSQNLTFALQDLGNAIFERRIQ
+NIEADQQANDAYYAKQIELAKNDERQKDLLQKERDKKNDALEKKKRKEQEKQAIFNKAMA
+IAEASMNTGKAVTAALTAGPGIGLALAVITAAVAAVQLAAIVATPLPKYKDGRKGGKKEI
+AVINDGIGPSGGYVQEVIERKSGAIEVPTGSNKIVQLYEGDTVHKSVGDFNKMQRAAMMA
+SLNMQGQKMSDFQATQYYETAYGKEMLEEMKLTRKVIENQKQPIIKIPKIDIPHEVWKSK
+NTNWS
+>tr|A0A1S1J4R4|A0A1S1J4R4_9FLAO
+MQKNALHILLADDDEDDRLFFKDAFEEIKIQTKVEFAHDGMQLMDHLMNPDNALPDILFL
+DLNMPKKTGKECLIEIKKTERLKDIIIAIYSTSSSEEDIEDTFIQGANIYIKKPSDFNNL
+KKIINEVVTVNWHYHTSGLNRDNFLLRLK
+>tr|A0A1S1J726|A0A1S1J726_9FLAO
+MKTKLLFIALLAIGLSSVPVQSQTTVYAKSSDISDNLDLRAVASIFGESANLQDFERRLN
+DSKYQISNLDLNDDNQVDYLRVIESVENRTHVVIIQAVLDRDVYQDVATIDVERDNYNRV
+NVQIVGNSYLYGANYIYEPVYNVAPVIYTSFWVTNYRPYYSSWSWNYYPRYYYAWRPYPI
+YRYRNNINLCINVNNSYNYVNTRRSYRAPVIYETRRTYGYETRRPDYSFAQRNSNATNRY
+DLDQRRVTTRDYGRNQNTYTTNRSNSDRVSTTDNRTSTRNYGENRTTSDRTYTTNRTSSN
+SRDNSGISTNPVRVENTGRRDYGQNNSNVSRRNSQSYGTTERVATPQRNESSRSYSENRG
+NSERQSSQNTQRYESPRATQESRGSEPQRESGSNGRSYGGRRI
+>tr|A0A1S1J7U2|A0A1S1J7U2_9FLAO
+MVQKTSNAFIAASWVALGAGTVGFIVGLARAEMLLNEKGYYFTVLMFGLFAVVSLQKSVR
+DRLEKLPVTDMYYGICWFGTLLSIVLLIVGLWNATILPSEKGFYAFAFLLALFGAISVQK
+NTRDNMAYSSNE
+>tr|A0A1S1JA67|A0A1S1JA67_9FLAO
+MQTKINKVELRNLEFDDYKQLKDSMVESYPEMADSYWKEDDIKRLLSIFPEGQLVILADG
+KVVGSALSLIVDEKLIDKRHNYKQATGNHTFSTHNKNAEILYGIDVFIHPNYRGLRLGRR
+LYDARKELCEQLNLKAIVFAGRIPNYAQHSKKLTPKNYIDKVKHKELHDPVLSFQLSNDF
+HVLRIIKNYLEGDEESKEFAVLLEWNNVYYDESPKLINLEKSVIRLGLIQWQMRPLNNIE
+EFFEQAEFFIDVVSGYGSDFALFPELFIAPLMADYNHLSEAEAIRELARYSDPIRKRFQE
+FAISYNINIITGSMPYLDNGNLYNVGFLCKRDGTSEIYTKIHVTPNEVQHWGMKGGSQFK
+TFDTDCGKIGILICYDVEFPELSRIMANEGMNILFVPFLTDTQNAYTRVKHCSQARAIEN
+ECYVAIAGCVGNLPKVNNMDIQYAQASVFTPSDFAFPSNGIKAEATPNTEMTLIVDVDLN
+LLKQLHEHGSVRTLKDRRTDLYEIKKIDS
+>tr|A0A1S1JAV1|A0A1S1JAV1_9FLAO
+MGIKSFAQSPELTVKGEDAEKVRMNKLFVNVKVVGNIAYTTAEMHFFNSGTRQMEAELIF
+PLPENVSVSRYAIDINGKIREAVPVNKNKGKQVFEAIEHRGVDPGLLEKVDGNNFRTRIY
+PLLPNGERTVIIGYEEELSAFDKDNLVYQLMSRFPKKIDQFEINVSVLGASTAPTVTENS
+GNEITFSKWNQSFQASIKKENYQPAEKIVFKIPLQQNIPSVLMQDVGGQHYFYGNTFVEG
+NKTVKKTPASIGLIWDNSLSCQNRDLKKELDLLNVYFQKIKNTKVTLYFLNYTFEKRKEF
+VVSDGNWAELKTVLENTKYDGGTRFSQISFENQDEFLFFTDGLSSLSENLLPKTKKPLYI
+ITSSVSSDFAFLNFSSMKTGGNFINLNQINAEAALDKLVNTNLKFLGIKENLTVTDVLPI
+EGTSVSGNFSFSGISLNPKNEITLLFGYGNQVVLERKITLEAAIQDTKEVNIEKLWAQKK
+IANLDFQYDKNADEIELLGKKYGIITKNTSLIVLEDIRDYISYDIIPPAELRAEFDRIKK
+QEHDATLAQQKNNWESIENYFKELNIWWKKNVQYKGQKIASKYKYKRQLPPPGLGRDGGT
+VYQETIKGDPDAVLTVDEPVGAGTAATVIEDNNVYNTASAPKVDQVKFVAPVVAKAEEVT
+EDIPKIADIKDKKVGSEEINKVSNSAELQEVVVVGYGTQKKTDLTGALEEGTSKNKDFSE
+DSNFNRGYLAGDSKKPLIIVDGQFYEGELTDLKSDDIASVEVLKDPSRISTYGSRGANGV
+IIITTKKDSSNSGVVQTKSWNPDRLYLKALASAPKEKQYDLYFELRKAQERNPSFYFDVA
+HFFYNQGDVKKALLILSNIADLGLENHQLYKTLTYTLRQWKDHNDAVFTAKQVVKWREHE
+PQSLRDYALTLEDAGKYQEAFDQLIKALEVNYYGEMSGQYEGVEDIILMDVNRMITEHSG
+IKTGKLDKKYLAKMPVDIRVIMNWNQMDVDLDLHVIEPTNEECYYSHTSTQIGGRFSKDF
+TEGYGPEQYIIRNAIKGKYKIKTDYFGETELTENGPATLMVEIYITRAGKTSRTLKTIQL
+GKVKENDILAEIIW
+>tr|A0A1S1JCG7|A0A1S1JCG7_9FLAO
+MRNLLMLLVAVLGTSVMVHAFPAKNIKTTPVKEVKATKHPKHKADKKVKSAKTAAPKTEA
+PKAKK
+>tr|A0A1S1JC94|A0A1S1JC94_9FLAO
+MTNNNPIGVFDSGIGGTSIWNAIHDLLPNEKTIYLADSKNAPYGQRTKEEIVALSKKNVD
+FLLEQNCKLIVVACNTATTNAIRELRADYDIPFIGIEPAIKPAANNSKTQVIGILATQGT
+LNSELFNKTAEMFQHTTIIEQVGHGLVQLIEDGNLYSPEMTQLLESYLRPMIEANIDYLV
+LGCSHYPYLIPQIKKILPEHIHIIDSGEAVARQTQNILRETVGFTANPKSEPVFYVNSNP
+EVLKSILDHKYPVIEKDF
+>tr|A0A1S1JD99|A0A1S1JD99_9FLAO
+MKIEKRWIISFIIISIVCVTGAFWPTITENSYVLSEFGTTDHIVPADVAWMLTSCCLVLI
+MTPGLSFFYGGMVGKKNVISTMLQSFICLGVVTLLWVVVAFSLAFGDPVGLNLGGHFYSF
+FGDPTTFAFMDYVGVLPHKQLASTIPFMLFALFQMKFAIIAPAIITGSFAERVRFISYLL
+FISLFTLFIYAPLCHSVWYPTGILGSYFGVKDFAGGTVVHMSSGFAALAGVLVLGKRKNN
+QHIPTNIPFVLLGTGMLWFGWFGFNAGSALAANGTAAMAFATTTTSSAAAMLTWVFFDRM
+NGRKVSALGACIGAVVGLVAITPAAGYVSVPESMFFGFITALVSNSVVNCHLSKKFDDTL
+DVFACHGVGGIMGMILTAIFAHGEDASLLHGGWNVFAHHMMALVLVSIFTFFGAYFLFKV
+TNFIIPLRVSEENEHIGLDLSQHDETLDPKLKAITEVHYG
+>tr|A0A1S1J1Y9|A0A1S1J1Y9_9FLAO
+MEKDNKKKSIPEINEELMMKLMVDGVKMEGLQVPNEKPVQAIEPLQEKSITKERTRIKKP
+ADQGYANLFFKKSETNARDGKTVYIRTDFHEKITRIVQIIGEDKISIYAYLDNLLEYHFQ
+EFAEQIITSFNDKYKPIL
+>tr|A0A1S1J4N0|A0A1S1J4N0_9FLAO
+MKHTVVIPLYNKEAYIYDTIRSLAFQEKKVSELIIVDDCSSDLSLVYLKDALSFFSPQFL
+QTDVQIIELEENKGPSNARNIGIELATGDLISFLDADDCYLPTCLQDSSSMMEEENLDVL
+ILGILLIPSNHYLPKTKSFEKEMIPFSEELFLIPDPLHTISSPDFIMGFGSNVVIRKKHL
+EDIFYETDVSISEGIDLWYRVLKTLPQPSRVGLLNKACIEVREVEGSLSRISPTDWKAIE
+IPIIIKRYRKSSNRYDQQLMGMYSQRWLEHAMERLPSWQQKGLFIFNHFKLLVKNSYYLK
+RRNS
+>tr|A0A1S1JA80|A0A1S1JA80_9FLAO
+MNWEQLLSLKRQGDTSKRLRVEQDDTRLGFEVDYDRIIFSAAFRSLQDKTQVIPLSKTDF
+VHTRLTHSLEVSVVGRSLGRLVGKKIIEKYPHLKEVHGYHMNDFGAIVAAASLAHDIGNP
+PFGHSGEKAIGEYFSIGNGLKYKDQLTPKQWQDLIDFEGNANGFSVLTASRPGIEGGLRI
+SYATLGAFMKYPKESLPKKPTQNIADKKYGFFQTDKSFFEEVANDMGMIVNKTGDDIGFE
+RHPLAYLVEAADDICYTIIDFEDGINLGLVSEDYALEYLIKLVKDNIGVAKYKTLTTKED
+RISYLRALAIGTLINDAVNVFVENEEAILAGKFPFALTDKSKYKAQMDDIIKLSIDKIYQ
+SREVVEKEIVGYQIIQTLLDKFITAFNNKYEGTASNYDKLLLKMLPEKHHLEKTNLYERL
+LHICHYVSLLTDGNALELFETINGRKNK
+>tr|A0A1S1J7I1|A0A1S1J7I1_9FLAO
+MPLYTAQPLKIYNSLSGEKESFNPIHEGNVGMYVCGPTVYSNVHLGNVRTFMSFDVIFRY
+FLHLDYKVRYVRNITDVGHIVDDVDEGEDKIAKKARLEQLEPMEIVQRYTVDFHNILKSF
+NFLPPSIEPTATGHIIEQIEIIKKIIDTGIGYEANGSVYFDVVKYNETNNYGILSGRNIE
+DMLANTRDLDGQSDKRNPQDFALWKKAEPEHIMRWPSPWSDGFPGWHLECTAMSTKYLGN
+HFDIHGGGMDLKFPHHECEIAQNEACTGQSPVNYWMHANMLTLNGKKMAKSTGNNILPGE
+ILSGDNNILSKAFSASVTRFFMLQAHYRSILDFSDDAIVAAEKGYKRLMEAVDALPTISA
+GTTSSIDIAAWKQLCYDAMNDDFNTPILIAQLFEAVRYINLLKDGKETISAEDLNTFTTA
+INAFVFDVLGLANDKAADGNTDKLEGTVNMLIAMRNQARADKNFALSDQIRDQLIGLGIQ
+LKDGKEGTSFSI
+>tr|A0A1S1J3Y3|A0A1S1J3Y3_9FLAO
+MSTLSKPNHIGRKISRIRELRDMKEEALAQALGTSQQTVSTLENSEEIDDERLSQVAKAL
+GVTVEAIKNFSEEAAINYFNSFTDNSAGTFNNHCTFNPLDKLMESVEENKKLYERLLQAE
+KEKVEFLEKILKGK
+>tr|A0A1S1J6R0|A0A1S1J6R0_9FLAO
+MIHTENALSSKSEVLIEKENKYGAHNYHPLPVVLERGEGVYVWDVDGKKYFDFLSAYSAV
+NQGHCHPKIVKAMVDQAQKLTLTSRAFYNDKLGNYEEFVTKYFGFDKVLPMNTGAEAVET
+ALKVCRKWAYEVKGIPENQAQVIVCENNFHGRTTTIISFSNDEVARKNFGPFTEGFIKIE
+YDNLAALEKALESSKNIAGFLVEPIQGEAGVYVPSEGYLAKAKALCEKHNVLFIADEVQT
+GIARTGKLLAVQHENVQPDILILGKAISGGVYPVSAVLCNDEIMNVIKPGQHGSTFGGNP
+VAAAVAIAALEVIKEENLAENAERLGIILRKGLNEIAERNNLITLVRGKGLLNAIVINCG
+EDSDLAWEICLKFRDNGLLAKPTHGNKIRLAPPLVMTESQIQECLEIIEKSLDAFKN
+>tr|A0A1S1J8B9|A0A1S1J8B9_9FLAO
+MITTAKRLDTVEEYYFSSKLREVRQLQSEGKPIINMGIGSPDLSPSKAVIEAVAAAIQEE
+NGHGYQSYQGLPELRKGMADFYQNQFGVVLNPNNEILPLMGSKEGIMHISLAFLNEGDHV
+LIPNPGYPTYTSVTNLVGAVPVYYDLKEANAWEPDFEALEKLDLSKVKIMWLGYPHMPTG
+ARGSLTLFEKLVAFAKKHKILLVNDNPYSFVLNDNPMSLLQVEGAKDVALELNSLSKTFN
+MAGWRVGMVLGNPEIIDAVLKVKSNMDSGMFYGIQKGAVAALNCDRSWFEDQNVIYRRRR
+ELTEKLAEKLGCEVYKEGVGLFVWAKLPEGIASAEKFIDEILYEKHIFITPGTIFGSNGE
+GYIRFSLCVKEEKVQEAIERF
+>tr|A0A1S1J0U1|A0A1S1J0U1_9FLAO
+MSNNLLETPIEYLKGVGPSRGQLLRKELGIHKYGDLVNFFPNRYIDRTRYYKINELQNTG
+SEVQIIGKIINIKTVEFAKNKKRLVATFVDDTGQMDLNWFQGHKWIRESLKLNEVCVIFG
+KCSLYGSQFSMAHPEIELWSEHERSLRSAMQPVYPSTETLANKGISNRTINKLMEQLFLE
+TQALFTETFPTYLIEELRLISKRAALFNIHFPKSTDALAKAQYRLKFEELFFIQLQLITK
+NLIRKHKIKGHPFTMVGTFFNEFYQNHLPFSLTNAQKRVIKEIRSDMGSNAQMNRLLQGD
+VGSGKTIVAFMSMLLAIDNGFQACLMAPTEILANQHFIGLSELAKTLNINIKLLTGSSKT
+AARKIIHEELENGSLQILIGTHALLEDKVKFQNLGLAVIDEQHRFGVEQRSKLWKKNEIP
+PHVLVMTATPIPRTLAMSLYGDLDISVIDELPPGRKPIQTVHRYDSNRLKVWKFLRDEIA
+LGRQIYIVYPLIQESEKMDFKDLMDGYESISRDFPLPQYAISILHGKMKPADKDAEMKRF
+SEGKTNIMVATTVIEVGVNVPNASVMIIESAERFGLSQLHQLRGRVGRGAEQSYCILMTS
+FKLSSDSKTRMETMVQTNDGFEIAEVDLKLRGPGDLMGTQQSGVLNLQIADIVRDRDILG
+LARNYAMKILKEDAPLQKPEHAILKAVFIELTKKKNIWNYIS
+>tr|A0A1S1J2L7|A0A1S1J2L7_9FLAO
+MKRFQDENKFLESFINEILVRCPKCDSKAKVKSKLSEGCECGHCCTKVFECKDCFLKLDS
+PVYQYIAYGKAHCNQCYERYEFKSQPLKDKPKVYKTRCPHCNFQEEWKPKVEKVLKNSKR
+DDGLVKEYYYNLPLWFQKEVGTAVFWAYNQQHIDYLGRYIEAELRERNNNGSGNSTMVSR
+LPKFVKEAKNREKLLKIIEKWKK
+>tr|A0A1S1J2P9|A0A1S1J2P9_9FLAO
+MSLNLRPATTNDLEKILNIVNHSILHTTANYSYEIQTLEVQTKWFEDKKAKNLPIVIAEL
+DGEVVGFGSYGQFREKIGYQYTVEHSVYVVDTVIGKGIGSQLLSELIRLAKEQGYHVMIG
+AIDADNAGSIAFHEKFGFVATGTLREVGYKFDHWLDLVFMQLILK
+>tr|A0A1S1J324|A0A1S1J324_9FLAO
+MPEKSHQDIKLFLEGKPSLNGEELWNNWYDHPEEIFDTIALITSDQSKLKKEIQNIKKTN
+KVISLPNRNWAVAASLLFVVSLSCFLYLSSLKTITRQYATRAGEHAKIVLSDGTQIWLNA
+GSHVKYPVTFKGDTREIYLTGEAFFDVAKDKKHPFIIHTDKMDTKVLGTSFNVQAYPDQT
+TQEVSVLTGRVNVKSTVTKENVYVTPGQKVVFKSHSNKLQAFKDIPMNSISLWRKHIIVF
+EDAPLPEVIATINRNYNVTVQIANKNLNNLKISAYFKELPAGQVVALVCNIINAEYKIES
+GTYVIR
+>tr|A0A1S1J4J0|A0A1S1J4J0_9FLAO
+MKKIVYLFFASFLVSVSCVGSNDDVTSENETIENPKTTISLPLGGNAYSSKHLDGKNTIT
+DNGIENWTDSNEFFTAYFRISKPGTFQITVEESVEVYGKSELEFSINNETKKVNFTTSKK
+AVIAGTWNLKKEGYIAVKIKGISKTGDRFPSISRLTIASADFDGKISYVPNNEGDFYHWG
+RRGPSVHLNYQTPENTNTEWYYNEITVPQNEDKIGSYFMANGFGEGYFGIQVNSATERRI
+LFSVWSPFTTDDPNSIPETHKIKLLKKGENVYTGEFGNEGSGGQSYLKYNWKAGNTYKFL
+LRGLPVGNNTTTYTAYFYAPELNKWLLIASFNRPQTNTYLKRFHSFLENFIPEQGDLSRK
+VLFNNQWVCDEKGNWSEINSARFTNDNTGAKEYRMDFAGGTENGFFYLKNGGFFNDYTTP
+KTIFTKPLTNKKPEINFNTLP
+>tr|A0A1S1J4P5|A0A1S1J4P5_9FLAO
+MENLSNGLEVLSNVIDEAMTSNNIVKYENIGLFTIKTGNEWMEEAKNKPVPKKLFGEFWF
+EGELCILFADSNVGKSILAVQIADSISKNKEITPFKLDAEKQAVLYLDFELSAKQFENRY
+SKNYDEHYYFDNGFSRIEINSDADLPSNTDFETYLLNSLEWSIAKTGAKTIIVDNLTYLK
+SGNESAKDALPLMKKLKALKSKYDLSMLVLAHTPKRDLSKAITKNDLAGSKMLMNFCDSS
+FTIGQSSADSSLRYIKQIKQRNTEEIYGADNVCVCQIIKPHNFLEFEFLDFDEEKTHLKE
+SNKVDKADRDELIELAKELSDSGKTQREISDELGIAVGTVNKYLKL
+>tr|A0A1S1J5Z5|A0A1S1J5Z5_9FLAO
+MPRELLLQVTPEIAANELLLKDHLSKQIKVSPKEIQHVSILKRSIDARQKAIKINLKVII
+YLQGEPFQETKIELPVYKDVSSAQEVIVVGAGPAGLFAALQLIELGLKPIVLERGKDVRG
+RRRDLKAINREHIVNEDSNYCFGEGGAGTYSDGKLYTRSKKRGDVTRILELLVAFGASED
+ILIEAHPHIGTNKLPKIIEDIRNKIIEFGGQVLFDTRVTDILVKNNEVEGVVIQNGDKIL
+ANKLILATGHSARDIFELLDKKKIFIEAKPFALGVRAEHSQQLIDSIQYSCDYRGEHLPP
+APYSIVKQVNGRGMYSFCMCPGGVIAPCATSPGEVVTNGWSPSKRDQVTANSGIVIELKL
+EDFKPFAKFGALAGMEFQKSIEQKAWHLAGETQKVPAQRMIDFTQNKVSADIPKTSYVPG
+TTSVEMGQVFPGFLSQILREGFKEFGKSMRGYLTNEAILHAPESRTSSPVRIPRDPATYE
+HLQIKGLYPCGEGAGYAGGIISAAIDGEKCALMIAETLK
+>tr|A0A1S1J7B7|A0A1S1J7B7_9FLAO
+MQKIISYPISVIYYLCFGFCLAVFHPIQWFCLNVFGYQAHKKSVDYLNFFLLRCTNLVGT
+RYTVSGVEGIPKGVPIIFVANHQSMYDIVTMIWYFRRFHCKFVSKKELGSGIPSVSYNLR
+HGGSVLIDRKDPKQAIPVIKGLSEYIEKNTRAAVIFPEGTRSKTGKPKEFAQSGLKILCK
+YAPSAYVVPVSINNSWKMVRFGMFPVGLGNHLTFTAHKAMAVKDYDFADLMALTEKAVVE
+GVNEYK
+>tr|A0A1S1J9W1|A0A1S1J9W1_9FLAO
+MRVISFQFSSIVFLSFTILQAQPKKYAIHTIAFYNFENLFDINDDVNTNDDEWTPNGTQH
+WTMEKYEQKLKNLSKVLSEIGRPDNSNAPVLIGGAEIENRTVLEDLVKQPNLLPFDYGIV
+HFDSPDKRGIDVALLYQRKYFRPTSYSNIPLRIYLKKSADKEEEIQQPEDDIEIKTDNKN
+RVFTRDQLLISGFLEGEEIHIIVNHWPSRSGGEKASSIFREAAGSLNRRIIDSLQQINPH
+AKVITMGDLNDGPFNKSVKTVLGAKTKKSEVEEFGLFNPFAAMLDKGLGTIAFRDSWDIF
+DQIIITKSLIQSDFLTFNFWKAGIFNKTFLVQSSGSYKGYPLRHSLTEVGFSDHFPVYIY
+LIKEVK
+>tr|A0A1S1JG04|A0A1S1JG04_9FLAO
+MKFSSIISLFTLLAVLAGCSTAQKLETLKPEPDDASPLVYEANPSFINLPITVKLSDIEN
+QTNALLNGLIYEDNTIDDDDIEMKIWKQAPIKIQNDPANPDKKIKTILPLKATIKYRIGT
+KRLGVELYDIREFNLNGIITLSSEVALTNWKLNTKTEFKSLDWSESPTMQVFGKNMPITY
+LINPAISIFKSKIEKKIDEAIEKSMDFKPNVLTALEKICTPFQLSDTYESWLRIVPVEVY
+STNAKLKNDQFLLDMGMKCNMETIVGKQPESKYSANKIILKPVAKIPNQISANIAAISTY
+VDASKIMTKNFAGQEFGSGSKKVTVKNVSIWHKNGKMVIALDVLGSVNGTLYLNGFPQYN
+PQTKEIYFEKLDYVLDTKSRLMRTASWLGQGYVLRKMEESCRYSIQPNLEEGKKNMAAYL
+KNYSPMPGVFVNGKMEDIQFDKIQLTNQAIIAFIKINGTVNVSVNGLK
+>tr|A0A1S1J319|A0A1S1J319_9FLAO
+MQKRSNKYYLTLSLKEYANGETEPAKELGIEFDNHDEIFDIIEKIKAKNLFENPHEATQF
+ALGLKLFSEIKLKHRNNPLFEELNEVFPVFMKKLKSL
+>tr|A0A1S1J490|A0A1S1J490_9FLAO
+MKNKKEHYILLLLIHAVIAVVVFAIPFLSKIYALLIPIVGLFIVYRTKNANNEVLIVAAY
+LVGVEVFLRMTGGNFNNEYVKANVIFFMLLGMIYRNFSTNAFIYWVFLIFLIPGILITST
+AFNPSIDIKKSLVFNLSGPLCLAISSIYMFKRRILFSDLQNVLVAMGLPILSTTVYLFLF
+NPSVRDVVTGTQSNFETSGGFGPNQVSTALGLGMFVFFTQLILFSKSKIKIILNGVLLIF
+VTYRGIVTFSRGGVLTAVVMIVCLLFLLYKYSNLRGKNKFVLVFILTGLIGMGVWAYSSF
+QTKGLIEKRYANQDARGRNKKDRLGGREQIMNEELALFIDNPILGVGAGMGKYARAERFR
+DDAASHNEITRMLSEHGLFGVFGLIILFLTPFVVYISNKQHLYFLSFFVFWLLTINHAAM
+RTAAPAFVYALSLLFVQVKIPEKAENSVD
+>tr|A0A1S1J6L0|A0A1S1J6L0_9FLAO
+MENLHEVLKKEKYRKIKFKVTKTQHLLIKAKINNVSGNFILDTGASNSCVGFESIEHFEL
+TAKKSKTKASGAGGTGMLTQISKHNRLQLGSWKNHDFSLVIFDLSHVNEALESYKAKPVH
+GIIGADILLEGKAIIDYYNHYLYLK
+>tr|A0A1S1JA72|A0A1S1JA72_9FLAO
+METNRQKKIGGVIQKDLVDILQGEVRKNGITNLVISVSKVSVTSDLSVATVYLSIFPQDK
+AQETLEGIKSNTTLIKHDLSQRVRLQLRRVPNLVFFIDDSLDYIEKIDNALSNRENPIEN
+RDLLEKRRKS
+>tr|A0A1S1J6G8|A0A1S1J6G8_9FLAO
+METKKAYIAGGCFWGMEELFRTRPGILNTEVGYIGGQNENPTYRNHPGHAEGIELTYDPE
+VTNFREILDYFYRIHNPTTIDRQGNDMGSSYRSAIFYQNEEEKAIAKEVINLVDTSKKWG
+ETVVTTLEPYSTFWAAEPEHQDYLQKHPNGYTCHFERFEESFLL
+>tr|A0A1S1J598|A0A1S1J598_9FLAO
+MNQLSFKDFTKSLIVITILVHIISGNLLAQSKNPSPLNFPTPKNIDNMLFYIQRDPNINT
+AIYAINYEENGKINKSNPIKAYWIRYAEKGEKKDFNYLQRKFAYGIETKTLENEEFEFKF
+VSYKKLALTLKKIEADQKYHVFANVNQKKIQVEKIFVRIEGGSFWLPNVKYAEVTGIDAL
+SNKTITERMLLK
+>tr|A0A1S1J7C6|A0A1S1J7C6_9FLAO
+MKNLVVSCLLVTCIGLQSCKNNENQKAAEAAKADAETIVSTECYKAIYEKDIIDLKVNTL
+KNGKISGNMTMKVSAATERVGELTGEFRGDTLFADYTFQEVTNKNKTFKNPMAFLKKDKR
+LILGNGTMQTTMGVTYLVKDKPIDFDRVKYKFDAVECTEKAK
+>tr|A0A1S1J888|A0A1S1J888_9FLAO
+MNLESPKVTVQKSAQDLFDLLTDVKNFEKLMPDNIAKFEVIGEDAFIFGLKGMPEIKLKM
+KDKTAPNKIVLGAASDKLPFTLTSNIDSVSGSESAVQLFFEGEFNAMMAMMIKGPISKFI
+ETLANNMTKL
+>tr|A0A1S1J849|A0A1S1J849_9FLAO
+MRWTIKPKPSEEKIKHLAQALNVEDFVATLLIQRGIETFDQAKDFFRPQLEQLHDPFLMK
+DMDKAVSRIELAIKNQENILVFGDYDVDGTTAVSLVSSYLKSHYPNIATYIPDRYDEGYG
+ISFKGIDFADDNGFSLIIALDCGIKSIDHIAYAKERNIDFIICDHHRPGDSLPDAVAILD
+PKRDDCSYPYDELCGCGVGFKLIQALGTNRNETIHDLVPYLDLVATAIAADIVPITGENR
+ILAFYGLQVINSDPRPGIKALVHQVKKKTLDITDVVFIISPRINAAGRIKHGNHAVELLT
+EFNFEQAQQFASEIEQYNADRKDLDKKITKEAFQQITANNEQDRFSTVVFQEDWHKGVIG
+IVASRLIETYYRPTLVFTKSGDKYAASARSVKGFDVYNALDACSEHLEQFGGHMYAAGMT
+LKAENYKTFKEAFETQVSATILPEMRTPEIEIDAEINFRDITPKLIRILKQFEPFGPQNM
+TPVFMTSDIKDTGYAKTLGAEEEHLRLFVKQNNSDGIAAIGFGLGKKLDLAKNQNSFQLA
+YSLAENEWNGTVSNQLMLKDIRTNGKK
+>tr|A0A1S1JAH0|A0A1S1JAH0_9FLAO
+MSKEVKSVEYGLEKIFEGAQDFLPLLGTDYVEFYVGNAKQSAHYYKTAFGYQSLAYAGLE
+TGVKDKASYVLKQDKIRIVLTTPLTQDSPIHEHLKKHGDGVKVAALWVEDARSAYEETMK
+RGARSFMEPTVESDEFGEVIRSGIYTYGETVHIFVERKNYNGIFLPGYQEWKSDYNPEPT
+GLKYIDHMVGNVGWNEMNTWVKFYEDVMGFVNFLSFDDKQITTEYSALMSKVMSNGNGRI
+KFPINEPAEGKKKSQIEEYLDFYGGPGIQHIAIATDDIIKTVSQLRARGVEFLSAPPHTY
+YQAIPERLGVHMDMMKEDINEIEKLAIMVDADEDGYLLQIFTKPVQDRPTLFFEIIQRMG
+AKGFGAGNFKALFESIEREQELRGTL
+>tr|A0A1S1JCJ6|A0A1S1JCJ6_9FLAO
+MITVLNATKNTFSLKSIFTDFKEITKAGLAISVLFSSVAGYLLGVNEEHPFKWSVLAVLA
+IGGYCMVGASNAFNQVIEKDIDALMDRTKNRPVPSGRMSPKMALFVASLLTIIGIALLYT
+INAKSAMFAAISIFLYTSIYTPLKTVTSLSVFVGAFPGAIPFMLGWVAATGEFGIEAGTL
+FLIQFFWQFPHFWAIGWFLYEDYEKAGIFMLPTGKKDKGTALQVILYTVWLIVASLLPVL
+GYTGQLFISPIAAILVFLLGLWMLFYAVRLYQLRTPKAARTLMLVSVSYISLLQIVFIVD
+KFLR
+>tr|A0A1S1J1F2|A0A1S1J1F2_9FLAO
+MGLIKDIYSVSFYEQFGQAVTEVHPTFDKQKFIATIYEGDFSQKEWKDRMKHTTVVLHQF
+MPENFPEAVSLLDKIIENLKKNSFTDSNLAFIFFADYIEMYGLDDFKTSAKAFVSITQFI
+SCEFAVRPFILKYKEQMIDEMTKWSLHENHHVRRLASEGSRPRLPWAMAIPYLKKDPDSI
+LPILENLKNDPSEYVRRSVANNLNDIVKDNPQIVLEIARKWKGHSKETDGIIKHGCRTLL
+KQGHPEILHHYGLNNANIELSSFEIKTPIVKIGDYLQFHFHLNNKNNDPKTIRLEYAVHY
+KKAKGHLAKKVFKISEKIYPPNEIIKVERNQSFKIITTRVFHTGKHQLSIIINGTESETL
+DFELIE
+>tr|A0A1S1JAQ9|A0A1S1JAQ9_9FLAO
+MTEKDLDTRFSEAVETALKMTQATLPQDVQLRLYAYYKQATFGTAVYNQSDNFDLRNAFK
+TNAWMQISHLTAEEAKENYIAIINSLTSK
+>tr|A0A1S1J1C6|A0A1S1J1C6_9FLAO
+MVKLKKYNGVLKLFVIFLTLFFIFSCSQKNYNLTKIEGKQLPITEKGTETPAIENFIKPY
+RDHINKDLDNVLAYCPETLDKSTGKWQTSIGNLMADVCVKRGNLVFEAREKKKIDLCLLN
+HGGIRAILPKGNVTNRTAFEIMPFENSMVVMALKGDQILEMTSYIIKAQKAQPLSGMTFT
+IAKDKTAKNIMIQGKPLDLNKVYYVATNDYLANGGDSMSFFAKSVQKYDLNYKLRDVLID
+YFKEVDTIPVAKDIRITEE
+>tr|A0A1S1J4F3|A0A1S1J4F3_9FLAO
+MRKAFLKEEQTKKALADFILNADRLSMDIECKKFEDKFAQYQKCKHAVLFNSGGSANLAM
+LQALKNLGKLKDGDKVAFSALTWSTNTMPIIQLGMVPVALDCEPDTLNTMSCHLLERLKT
+TDLKALFITNILGFTGDIDTIKEICDQRNIILIEDNCESLGTELPQGTTGNFGIGGSFSF
+FVAHHMSTIEGGMVCTSDDDFAEMLRIVRANGWDRNLTVEQQEKWRGRFDIQSEFQAKYT
+FYDLGYNFRPTEITGFLGQYQMQFLEENISKREQNYLRIENIIKDNSDFVYLKHDHINRL
+STFAFPFVCKTPQLREYYLDKFTKAGVEIRPMIAGNMQEQPFYKKYVSELYEMPGADMMH
+ANGFYCGNYPELLEEDLLIIENLLKK
+>tr|A0A1S1J3G8|A0A1S1J3G8_9FLAO
+MSTLRLGDIAPDFHAETTEGPVKFHEWLGDSWGVLFSHPSDFTPVCTTELGTVANYLPEF
+TKRNTKVIALSVDGLDSHLEWIKDINETQNTTVNFPIIADEDKRIATLYDMLHPNASDKF
+TVRSVFVVGADKKIKLTLTYPASTGRNFDELLRVIDSLQLTANYSVATPANWKDGEDVVI
+TPAVPDSDIPAKFPKGYTPIKPYLRITPQPNK
+>tr|A0A1S1J6I6|A0A1S1J6I6_9FLAO
+MKNIIPFLIAIVLFTSCEVKKESNTLPLSGTWRLISAETTEKDSTFSTFNPKTKMIKIIN
+DSHFAFFNHDLNNGKDSTNAVFFGGGGKYTLKDSIYTENLEYFNNRQWENNKFEFVVKIK
+NDTLIQKGIEKLEKLGIDRIITEKYVREK
+>tr|A0A1S1JAW4|A0A1S1JAW4_9FLAO
+MDETPKRFDRIIAILIQLQSKKIVKAQELADRFDCSLRTIYRDIRTLEASGVPIYSEAGV
+GYALMDGYRLPPVMFTREEVSSFIAAEKLMQKFTDPSLGAHYASAMYKLKSVLKSTDKDW
+LSNIESRVIMNTAEPMFNDNSPNTLALLFEGIAEKKQLLLSYKTYETDTATQRNIEPVGV
+FHDNNNWYFLGYCHLRQDYRQFRADRIQGIRKTDADFTIEHDALETYINKTETCPTTKVR
+ILIDKKIARYLGTEKKYHGFISEKEVDGKIEMTFMSRDIENSFPRWFLMYGDYATILEPE
+ILKAKTLELLEVNRKRLL
+>tr|A0A1S1J3B0|A0A1S1J3B0_9FLAO
+MNIDRMEFISWMERIIERFDLLSSHISELEKKRGSVDGEELLDNQDILQMLKISGRSLQR
+YRSIGRLPYYTISGKIYYKLSDVHQFIRESIKVCMPKTCAKE
+>tr|A0A1S1J9N8|A0A1S1J9N8_9FLAO
+MKEHYDVVIVGSGLGGLVSSIILAKEGYSVCVLEKNNQYGGNLQTFVRDKTIFDTGIHYI
+GGLGEGQNLFKYFNYLGIMEHLNLKKMDDNGFDIISFEDDQNEYPHAQGYANFTSQLEHF
+FPEEKTGIEEYCKRIKTICESFPLYNLEWEGKYDNEILGLNAKQTIDECTQNEKLKAVLA
+GSNFLYAGIADKTPFYVHALSVNSYIQSSWRCINGGSQITKQLLKQLKKYGGEFYKYKEV
+THFNVENKKVTSVNMKDGTNVSGSYFISNIEPKTTLKMTGEEHFRKSFYSRVQSLEGVIS
+AFSLYIVFKPKTFKYINHNHYHFKKSSEVWTAHNYDDDSWPKGFMASMNASKKQEEWAEG
+MTFITYMKYDDVIPWATTFNTTVEENDRGESYEEFKAKKAAKFLEEIELKFPGIKNCIQS
+VHTSTPLSYRDYIGGHNGNMYGYVKDSNNPMKTLIPSKTKLDNLYLTGQSINMHGVLGVT
+IGAVVTCSEIVGKEYLVNKINQASE
+>tr|A0A1S1JBU6|A0A1S1JBU6_9FLAO
+MAKVVLECSFCGRKKPETNLLIAGINAHICDKCIEQAHGIVLEELKSSGSAKLVGDLILK
+KPKEIRAFLDQYVIGQDQTKKVMSVAVYNHYKRLMQQQLDDEVEIEKSNIIMVGQTGTGK
+TLVAKTIAKMLDVPLAIVDATVLTEAGYVGEDVESILTRLLQAADYDVTKAERGIVFIDE
+IDKIARKSDNPSITRDVSGEGVQQALLKLLEGTIVNVPPKGGRKHPDQKFVEVNTQNILF
+IAGGAFDGVERIISKRLNRQAVGYSTSKNVDNIDKDNLLQYIIPKDIKDFGLIPEIIGRL
+PVLTHMDPLDKETLRAILTQPKNALVKQYQKLFLMDEVEFTITDEALDFIVDKALEYKLG
+ARGLRSLCEAILTDAMYELPSSDDKVLSIDKDYAKHTLNKNLLKRMEIAS
+>tr|A0A1S1J1E9|A0A1S1J1E9_9FLAO
+MALNIKPLSDRVLIEPVAAETKTASGIFIPDTAKEKPQKGTVVAVGNGSKDHTMTVKVGD
+TVLYGKYAGTELKLEGTDYLIMREDDILAII
+>tr|A0A1S1J3H7|A0A1S1J3H7_9FLAO
+MAKNYKEIMNDITTFVFDVDGVLTDSSVFVTNEGEILRTMNIRDGYAMKAAVESGYNVCI
+ISGGSNEGVRVRLRNLGINDIHLGTPDKVATFAEYTETYNIQPEQVLYMGDDIPDYHVMK
+LVGLPTCPQDASPEIKNICRYISHVNGGKGAARDVIEQVMKVQGKWMEHFNGKHD
+>tr|A0A1S1J564|A0A1S1J564_9FLAO
+MSSTPKISVLMPVYNCELYIEEAIDSILNQTFSDFEFIIIDDASTDSTVSIIKNYNDPRI
+QLIIKPQNSGLTNSLNYGLSIAKGEYIARMDGDDISLPERFVKQVAFLDKNPDTVLIGTY
+FKIIGKDKIVAVPEDHDDIKLAMLKDCCIGHPTVMMRKSYLDRFTLIYDTQKEPAEDYDL
+WTRLLVVGKLYNLQEVLLNYRVHNSQVSHKRNEQQINTALEIKVNLLTNLNFERDDETQD
+FLKKIISRREFVSFREINRFEDLKNKLLLANQTSFFEKAGFERYLLEIQNNLLKDYFLKK
+EKYTPKVYLQYLKIRKKSPFKLKSLHEIKLFIKSIIFYSKK
+>tr|A0A1S1J6C6|A0A1S1J6C6_9FLAO
+MKKFFLLGASIALLACQQQSNPNLKTLYALPKKLKEVSGITYFPETNLIYAIEDSGNKNE
+IYAIKSDGKIARSIVVSNATNVDWEDITRDKSGNVYIGDFGNNDNERKDLCIYKVNKNQL
+NKDSAVAEYKVSFSYPEQTEFPPKKKEMFYDVEGFFEHGNYFYLFTKNRSKNFDGTAFIY
+KILNAPGTQKAIKIGEFKTCDNYNHCVLTSATISPDGKKVALLSHDKIVLFKGYKNDLFH
+KGSQTEIKLDHFSQKEAVVFKDNTTLLIADEKANKTGGNVYEFKLK
+>tr|A0A1S1J6Q1|A0A1S1J6Q1_9FLAO
+MSKLPNVTTSIFTVMSKMAAEYNAINLSQGFPNFPVDERLTDIIARLAKENVHQYTPMAG
+FPPLMEQIAQLVQKSYNRTIHPETEILVTAGATQGIFTTILALVKTGDEVIILDPSYDSY
+ESPVLLCNAKPVRVALNDDYTPNWETIEKACSSKTKMIIINNPHNPTGKILTQDDFSHLE
+RLLSKHPDLLVLSDEVYEYITFEEKHISAHTKEFLLNRCIMVSSFGKSFHITGWKIGYTV
+APEHLMKEIKKVHQFLVFSVNSISQAAISQYLEIVDVNLLGKFYQEKRDYFQKLLQNSRF
+ELKPCEGTYFQVASYANISADDDVTFCKKLITEHGVAAIPISTFYSDHKDQKLIRFCFAK
+DNFTLEAAAKKLGNI
+>tr|A0A1S1J8B6|A0A1S1J8B6_9FLAO
+MSDKKHVWDKVNNWEEELLFLKAIIDKTELVETVKWGGPVYVYNKKNVIGIGGFKEYFTI
+WFFNGVFLKDEKKKLINAQEDKTKSLRQWRFTSKDQVNEAEVLAYISEAIENEKQGKIIK
+PSKKEAIVSELFQKELDQNPALAEAFQKFSPYKQYEFLEYIETAKQDKTKLSRIEKVIPM
+ILENIGLNDKYR
+>tr|A0A1S1J979|A0A1S1J979_9FLAO
+MNKKYFKYINTLFVVIPMTLIMAFVGLMRNYGFGEDWFLKFLKAWSVMLPVAYIAAFIII
+PNARKLAEKTTTGS
+>tr|A0A1S1JA27|A0A1S1JA27_9FLAO
+MVLSRFWLAIFVSSILFVVVSLFTGNSYTLDFILNGQKDDPILVSEKYLEQIPAFVRDSI
+DLKEDKTMIVNRDLTNPDTTYVYKNKTVKIYSGVQKSDGLLPTCKSTLIDIIIPLIAYLA
+FFCGLMELLIVSGASEKLARFLSPMFTKVFPSVPKNHPSISYMTLNFAANFLGLDSAATP
+FGLKAMESLQELNVEKDKASDAQIMFMCLHASGLTLIPTSIIGYRAAANAANPADVMLPC
+IITSLIGTVAAFLIVGIRQKINFKSASLVLALMAIIAAIIGLLFYVNHLDLIGKNYFTSN
+LSGLMLVGIIGITLIFSFIHEKKFVAQDTTMFDTFVDGANNGLKTGVKIFPYVLGMLVAI
+SLFRNSGLFEIISNGIGFIFSSIGVSSEIINALPVALLRPFSSGGSRGFLLDSMSTFGAD
+SLTGRLSSIFQCSAETTFYVIAVYFGSVNIKNTRYALTTMLLVDFICVIAAIFVASWFF
+>tr|A0A1S1J1Q7|A0A1S1J1Q7_9FLAO
+MFDNLSDKLDKAFHILKGHGKITEVNVADTLKEVRRALLDADVNFKIAKDFTTKVKEKAI
+GQDVLTTLQPGQLLVKLVKDELTELMGGDVAGVNLSGNPSVILMSGLQGSGKTTFSGKLA
+NFLKTKKNKKPLLVACDIYRPAAINQLHVVGDQIGVEVYSEPENKNPVEIAQNAIKHAKA
+NGFNVVIVDTAGRLAVDQEMMDEIARVHKAIQPQETLFVVDSMTGQDAVNTAKAFNDILN
+FDGVILTKLDGDTRGGAAISIKSVVNKPIKFVGTGEKMEAIDVFYPDRMAERILGMGDVV
+SLVERAQEQFDEEEARKLQKKIAKNEFGFDDFLTQIQQVKKMGNMKDLVGMIPGASKAMK
+DVEIEDDAFKHIEAIIHSMTPIERSKPSIIDVKRKARIAKGSGTKVEQVNQLMKQFDQMS
+KMMKMMQGPGGKNLMKMMGGMKGMPGGMPR
+>tr|A0A1S1J1U1|A0A1S1J1U1_9FLAO
+MAGNSYGNLYKVTTFGESHGEALGGIIDGCPSGIELDLDAIEVEMSRRKPGQSAIVTQRK
+EPDAVQFLSGIFEGKTTGTPIGFIIPNTNQKSDDYSHIKDNYRPSHADYVYDQKYGFRDY
+RGGGRSSARETASRVVAGAIAKQMLPEIKINAYVSSVGPIHLDTPYQDLDFSKIESNPVR
+CPDEKSAAIMEEYIRDIRKQGDTVGGVVSCVIQNVPVGLGEPVFDKLHAELGKAMLSINA
+VKGFEYGSGFSGSEMKGSEHNDLYNPDGTTKTNLSGGIQGGISNGMDIYFRVAFKPVATI
+MQTQDSLDNKGNITPMTGKGRHDPCVVPRAVPIVEAMAAIVLADFYLINKTYL
+>tr|A0A1S1J1Y5|A0A1S1J1Y5_9FLAO
+MESKKCFCDTGLLFENCCGQYLENNQKAPTALALMRSRYSAYACHKADYLLETTYISERK
+YYSKTEILKWATANKWQRLEILSFAENTVEFKAYFLDSDSKPQVHYEFSTFKFENKEWFY
+VDGKFE
+>tr|A0A1S1J3F5|A0A1S1J3F5_9FLAO
+MKNISLLSGIAVIALGFVSCKDEKQEQAEKTIDSYVAYVDSVKNVKADDLKADWKAVEAE
+YEKRAANAQLALADIKENNAATEKINTSKIKYEEFRNNMVTILAPPAPSPKQQLRNALFG
+EGKIGEDMSFAWVNAKNIHSVYQQFVHTVEKNKDSYSREDWDEIKLMYEALDSRKNTVEK
+EGLTGEDNRKIAGLKLKFAPMYTLNRMGAKSEETAAAKK
+>tr|A0A1S1J554|A0A1S1J554_9FLAO
+MKTKSNPVVYFEIPVTNIERAIQFYSAVFDFEFERDRIHDNEMAFFPLIEGNNGISGALA
+QGEIYKPTIDGTLVYLNTEDIEETINLAVKNGAEILFPITSNGEFGWVAEFKDCEGNRIA
+LHMSQKE
+>tr|A0A1S1J6F0|A0A1S1J6F0_9FLAO
+MNFFKKIFGSSEPASDEEHESEYGANQAPDSHLSIDERFIFNFKKNGGKFLYCENKQEVA
+EQFENILEENDWFENEVLCYEPALFSLLEENKLLYLSPRNPKFLLATCENLIADEGSILF
+SSKQIRQDKPNELPANIVIIATTSQILSIKSDGLSAIKRKYERDYPTNITTIKYFEKAKE
+EDFTQYGSVAKNLYLLLLEDL
+>tr|A0A1S1J6R4|A0A1S1J6R4_9FLAO
+MGNILNQIGIENYIFLSVVLFCIGIFGVLYRRNAIIVFMSIEIMLNAVNLLFVAFSTYHQ
+DAQGQVFVFFSMAVAAAEVAVGLAILVSIFRNLGSISIDNLKNLKG
+>tr|A0A1S1J850|A0A1S1J850_9FLAO
+MNYFKKRIKNSQFVIYLFLLFSFSAFAQQNTGKIKGTITTSDGELAVGVNIILKSSKYGT
+TSNEDGAFEFNRVRPNTYTLQVSLAGYETLEQEVIVSINETTTLNLQLKVSNKQLKEVII
+TNNRGKAFPKQSTYVSKMPLKNVENPQVYNIVSSELIKEQAITNYEDALKNVPGIQKLWE
+STGRGGDGGSYYSLRGFEVQANIVNGLPGLTNGSLDPANVERIEVIKGPSGTLFGSSLVS
+YGGLINTVTKKPYNGFGGEVSYLAGSFGLNRVTADINTPLDDADNVLFRINTAYQTENSF
+QDAGFRTSFFVAPSLSYKVNDKLSFLINTELMLEEKTTPSMLFLGRDSALQYANLAELNY
+NTDLSFYSNDLSIKNPRYSLQGQMTYKISDQWTSQTVLSRSSSKSRGYYTYIYDNEDGNK
+DFGFNITKEQSQTVTTDIQQNFIGDFKIGSMRNRLVAGFDYFERNVMSGGSGYGKLYNIT
+AQGEVRQLNAANPYYLTQTSVDKLLANEPAGNFNPKDATYSVYASDVLNITSKLLVMASL
+RVDYFDTKGDIKNKNDDYTQTALSPKFGLLYQPVEDKLAVFANYMNGFRNIAPAVSYDTD
+GNLIGSKTFEAEHANQLEFGVKATIFEDKLNATVSYYNINVANLVTSNPLYSSQGGEAQS
+KGFEFDLNAAPIKGLSIIAGYSYNDSKITKGDVGNVWLEQGKRPFWSGPKNLVNLWVTYK
+FEEGTLENFGIGFGGNYASENAILDSSKTGKFVLPDYTVINGSVFYNSNKFRVAFNINNI
+ANKDYFNGGWSTLNPQKPRNVVASFAYKF
+>tr|A0A1S1J8J7|A0A1S1J8J7_9FLAO
+MNNNSPNDWLFEITPKNKFFSLNLKEVWQYRDLLFLFVKRDVITVYKQTVLGPLWYLIQP
+LFTSVTFTIIFNNVAGIETGTVPPFLFNLAGITVWNYFTACLTGTSDTFKANAAIFGKVY
+FPRIITPLSVVISNLVKFGIQFLIFIGFYIFYYFQGADLSLNGLVLFFPVLIIIMGILGL
+GLGMLISAMVTKYRDFSHLIGFGIQLLMYLSAVMYPMELIKDKLPSYGWLVVYNPLAYII
+ETARFMLLNVGDISVLGLTYTLIVTITVFFIGLLVFNKTEKSFIDTV
+>tr|A0A1S1JCI9|A0A1S1JCI9_9FLAO
+MKKVLFTTLIMMSLNAIGQNVMSPELLWKLGRVSALGLSKDAKNVVFKVSTPSVEENKSS
+SKFYIIPVGGGTATEIKDTKEVLADKNVSPDGKFLVYNEEVKLDKVLGKDFYPKLDKSDA
+QIYDGLDYRHWDTWNEGKFNHVFYKENKEGAAGIDILKGENFDSPQKPFGGDDDYIWSPD
+GKSILYVCKKKAGTQYAISTNTDIYEYNLETQKTINRTEGNLGYDTAPQFSPTGNLTWLQ
+MKRDGYEADKNDLIVEFKGIKTNLTANWDGTVDNFIWSKDGKNVYFVAPVDGTKQLFTVN
+FPGLTRIAIQVRQLTNGDFDVNDLVGFAGDDIIVTRNDMNHAPEIYSFNLKKNTWKQISN
+VNTEIYKTLALSKTEKRYVTTTDGKKMLVWVILPPNFDASKKYPTLLFCQGGPQSALTQS
+YSFRWNFSLMAAKGYVVVAPNRRGMPGHGVEWNEQISKDWGGQVMDDYLSAIDDVSKENY
+VDKSRLGCVGASYGGYSVFYLAGIHKNRFKTFIAHDGVFNTVSMLGTTEEVFFNNWDFGG
+PYWEKDNAAAQKSYTVFNPATMVQNWNRPILIFQGGKDFRVPIGQGQEAFQAAQLRGLKS
+RFVYFPDENHWVLHPQNAQVWQGEFFKWLNETL
+>tr|A0A1S1JCY4|A0A1S1JCY4_9FLAO
+MAKVKYYYDSENLAYTKIKTRKRAKVGYALLFLLASALFGFLVFILLINTPYFETPKDRL
+QAREIENLKLQYAILNRKMDEIDAVAETLENRDNNIYRVYFNKAEIPDSIRKAGFRDSRK
+YKDLEGYNNSQLVLNTTKRIDRLSKELAIQSRSLDEILKLASTKGTLLLAIPAIQPVRNE
+NLIRMASGFGYRTDPFTKVRKMHNGMDFTAKTGTPVYATGDGVIERADNSASGFGNHVVI
+RHGFGYESLYAHLSKYNCRPGQRVKRGDVIGYVGSTGRSEGPHCHYEVHKDGKVVNPLNF
+YYGNISAVEYVAISQMANQENQSLD
+>tr|A0A1S1J8Q3|A0A1S1J8Q3_9FLAO
+MAKSLNILLIEDDVIEVMKFNRVLKSLELNHRIIEADNGEEAVNVLKMKEIIPDIIVLDL
+NMPKLNGIEFLTILKADDVLKYIPAIILTTSNNHRDVMECYKIGIAGYVLKPLKYEDYVD
+RIKKLLDYWSTNELISQ
+>tr|A0A1S1J9D4|A0A1S1J9D4_9FLAO
+MNSIKQALGVLWIILAIAATYFCIFEFGLPKLLSDKQDDLVFGIIILFILTPLIVLGLGT
+FGYFAVAGEYNTKIKR
+>tr|A0A1S1JA00|A0A1S1JA00_9FLAO
+MIHLLTDIEVKKNKALIYEFLLNLDKEKYCQWHPAHKEFAVIKRTEKELGSILYFKEIVD
+ETTVNYKWRIIELTENKLIKMKALYFYPIYLTIALESISQNKTIVHHYLEIGYSIKFLNL
+IIDWAVGHSLFSLKKRKSQQLHAIEEYTNLENLLN
+>tr|A0A1S1JAZ4|A0A1S1JAZ4_9FLAO
+MITIASLIVFLAFYTLYYTSKRATLSYDLGFEKWMKSNPKSTRFLGLGLLLLAYALWLFT
+QSLCCGTLMFFIQLMTIGSLIIILAPLKKISRFTILGFFILAALLEFYYY
+>tr|A0A1S1JEQ1|A0A1S1JEQ1_9FLAO
+MSENLKFAVIGGGSWATAIAKMLCVNLSEIAWYMRNDAAIEHIQKYKHNPNYLSSVEFDT
+AKLKLTNNINEAVAYADYVIFAIPSAFLDGELKNLTVSLSDKIIFSAIKGIVPETSLIVG
+EHFHIQYDIPYYNIGVITGPCHAEEVALERLSYLTIACGDPEKASIVAKHLSGNYIKAKI
+SDDIIGTEYAAMLKNIYAIAAGIAHGLGYGDNFQSVMMSNGIREMKKFIRKVHKMKRNIN
+DSAYLGDLLVTGYSVFSRNRMFGNMIGKGYTVKSAMMEMSMVAEGYYATKSAYKLNQGYG
+AKTPIIDAVYAVLYEGKDAKSVFKKLTESLD
+>tr|A0A1S1J558|A0A1S1J558_9FLAO
+MKKYPVYSVQNFSCNDIHRDFYVNTFKEHLKSHSFVEEPHRHDSYLMVFFTKGSGQHEVD
+FDQFEIKKGSLFVLQPGQMHHWSLSEDVEGFVIIFSQELYNLYFGQKKINEYNFYHSIHN
+RPEMVFEEKGITKIRPYFDLLIQESTQEGRYQLDKMLNLLDCIHIEIARKYNETYSHQAH
+SYNIKIDKFEMLLEHYFKQEKLPSFYAEKLSITLKHLNRICNEILQKTATEVITDRVILE
+IKRMLIDKQLAVNEVAFKVGYEDYSYFSRFFKKQTGLSPTEFRNKK
+>tr|A0A1S1JBT7|A0A1S1JBT7_9FLAO
+MIKKYKIIAIILLLSLLPVGCMVGPKYKKPEQLKSDSYQHERNLDSLASVVNLKWFDLFN
+DDVLKDLITKGLQNNYDLKIAVTRIDQLRAQLGYSKTNLLPSFQYGATINSNEKNLTPSN
+VGANMSWEIDFWGRYRHENKAVQNELLATEEARKVVLSNIVSDIATAYFQLRNFDDQLEI
+AQHTLSTREKYYEIINQRFKSGYISEVDKAQIEQQVAIAEATIPNIKRQITVQENIISLL
+TGQLPSQIPRGKSNTELRIVSEIPLSIPSALLENRPDVKAAELKYKASNERIGTAQAMRF
+PSFNLAAIAGFASADLSNLFLGSSYSQNASAGVTGPIFAFGRNKRRVEIYRQQAEELKFT
+YQKTYISAVNEVEQSIQNIKTYKEEWSARNRQVKAALINYKLSYERYDSGYVSYLEVLDV
+ESNLFQAQLSLSQLSERQLSSMVQLYKALGGGWSP
+>tr|A0A1S1J6C4|A0A1S1J6C4_9FLAO
+MHKKILLSVGLIAFVFNFSYAQMSVVNEIAVKYRNWLTGENLDYSKTEVNERYSRFLSNG
+IAAKNLSAYDFANPGPAWNFTISADQTAYQVLVEQKLIRLVFLYQLKGSAASPNPDYHSP
+ALRDSILALFNYMKAKGISSTTNFAYLSIPATEEVITSGHGICLRSSGYATSVFLMKDEL
+VAAGEFTHHLGALKSLTAFISPDYPNFNFTNPGFNSDVIRSSIQQRFCYVLAQDDASTTK
+VTDMDFLKRFIDNALKISNGWNDCIKPDFITYHHRGPYSNSYGVEALQQSSIMNMMLKNT
+SYELNVEAQSNLKNAILNYSKFSKGFEMPLGLAGRFFTNTDALNDLRPALAFLYVADPVA
+NLEAGREFVRLWNLSATANTNLLRQNALSITLVHTPGSLMDLLQTLNAGLSPLPEITQGQ
+FNFPFAGLSVHKYNGFQASIKGTSKHIWHFEDSATENVFGRYTSAGAMDLLTTGAPVTRA
+SNGYSENGWDWSHLPGTTVAYLPLNILETGTMREMNGKSFLAVGSLDHNGIFGMDYKDYN
+SATGMTALKSNFFFKNMILCLGSNIKDTNGTYPIHTTLFQTALANTTTATYVNGTATTGN
+TYTLTQTGAFWATDALGNGYVVPGNSSNTDAITVNRLEQNSRNNSNTATTSGNFTSAYIN
+HGTAPVSAKFQYAVVLQGGQTATQRLAANFTSYFKIYHQNSQAHIVQYLPDAIFGYVIFT
+PSTVFTYDVVVSVNKPAAVMTQKTDNGNRLKVSLTNPNLGLLASNETYTWSQISSQNSIL
+NRVAQADPVKLTLAGQWELAAPASNITTSINGANTEVTFATINGLTIQTELVKSSTLGIH
+DPTEQASKDLTVIVAPNPSQSDFKINVTGEAGETIFVNVFDTLGKRVNILKSDYGQTIVL
+GSDWTPGIYFAEIRQGKQKKTVKLIKR
+>tr|A0A1S1IYD8|A0A1S1IYD8_9FLAO
+MKNSSLLILAFLFQTYSFAQQYELKGKVINQNKAAVEFIIGSLFNPQKTLTAQASTDSLG
+SFVVKVPKGNYRLILEQFGTEYMNREITIDHNTDLGIIEIKESVQLEGVTLKSRKKLIEQ
+KVDRLVFNVENSVTATGGTALDALKATPTVRVQNEVVSIVGKGEILVMIDDRLQRMPQED
+LAAFLKSIPSDNIKSIEVITTPPAKYDAEGNSGLINIKLKTAKANSWNANLGTSYTQKTY
+ASGNMNGLFTYNHDKLSAQASVSKGKQKLLTTSESTIFYKDETWKQEVKNKSTADVLSLG
+LGLDYKVTEKWGTGLKYLGSFTDKVNANNPFTTIYDNANGMTDSYIASNANAKNNPKMNA
+VNFHNSIALDSLGKNISMDLDYFDYNKKDHRFFSGNELDRNQNNIPGGFFSSTNSNVNAI
+KNYSANIDVSLPYDWANLSFGAKTFHTNTNNNLIVYDNETGTPVFNTNQSNVFNYKEYNQ
+ALYFSGSKKINSKWETQIGLRIEATQTKGYSENLNQTNTNNYIKLFPTAYLTYVPNENNS
+FSLNYSRRIRRPDFDYLNPFVIKTSPYYYSEGNPYLKPSLIDNFEFSFIRNQKWVSSVYF
+SQVSDFGQELSIIDPSTNVTRNTPLNYANTYQIGLSTSYNFNKWSWWNSFTGFNLNYQNV
+KSKTAFIQSIDGYNGYLYSNNDFTINSNKTLFLGLNYGLQLPGRYQIFNISTLNILDISV
+KLLTFNKNLSVTIIGEDLLNAQKPLISYDSNQIKTNVKSYSDTRGFRISLSYKFGNQSIK
+SKQRDFGNEEERSRAN
+>tr|A0A1S1J787|A0A1S1J787_9FLAO
+MISITEKTLQDLQFPTVLETISAGCNTDIGKEKALQITPFRDQETLMQALMQTSEYVSSF
+QNNNAIPNHGFDAITHEIKFLAIEDSFLEVGSFRKIATLSSTSNFLLNFLKKFDDYYPNL
+NARASRVEYTKDIVTTIDAIVDKYGEIKDNASPALLSIRQGMNLIRGKVNQSFGVALTQY
+NSLGYLDDIKESFVQNRRVLAVLAMYRRKVKGSILGSSKTGSIAYIEPEATLKYSRELAN
+LEYEEKEEITRILKQLSNAIRPYLPLLIEYQDFLSDIDVVAGKAKYANRINGILPTITEE
+RRLFFREAYHPILYLNNKQKNEVTHPQTIELKQDNRIIVISGPNAGGKTISLKTVGLLQL
+MLQSGMLIPVHERSETFLFDRILTDIGDNQSIENHLSTYSYRLKNMNYFLKKCNKKTMFL
+IDEFGTGSDPELGGALAEIFLEEFYHREAFGIITTHYSNLKILANELPYATNANMMFDEK
+TLEPMYKLALGQAGSSFTFEVALKNGIPFGLINRAKKKIEVGKVRFDKTIATLQKERSKL
+EKTSLNLKEEETRAREESKKMENINVKIKQKLESYQELYDSNQKTIYIGQKIEDISEKYF
+NNKNKKELIGEFLKIVEIENSKRKKATPKETKAIIEKKKEVIAEITVKVEEIRKEKKEKK
+LKPVVEKPKPILKVGDRVRMLDGRSVGSIDAIEKNKATVNYGIFTSKVSLDELELVEAVK
+K
+>tr|A0A1S1JA98|A0A1S1JA98_9FLAO
+MDVLKIATAGSVDDGKSTLIGRLLYDTKSLTTDKIEAIEKSSKQKGYDYLDFSLATDGLV
+AEREQGITIDVAHIYFSTAKKSYIIADTPGHVEYTRNMVTGASTSQVSIILIDARKGVIE
+QTYRHFFINNLLRVKEVIVAINKMDLVDYSEEVFNKIKADFQALNAKSTFKEQNVSYIPL
+SAINGGNVVDKSENMKWYDGQTVLEHLEGLHSSDVFEAGKARFPVQTVIRPKTEEYHDFR
+GYAGKLYGNSIKVGDAVTVLPSLTESKVSKIHFFDKQFDEAVAGSSITIELENDINVTRG
+DMIVKSSELPKIEKEIHTTVCWMDSKKLVPGTKYIVQHNTNSVLAKVESIKNTIATDYSG
+TTPASQLAINEIGEVSIKLSKPLYFDAYNDNKSNGAFILIDTATNTTAGVGFIR
+>tr|A0A1S1J7X2|A0A1S1J7X2_9FLAO
+MINKRLLIKNLLAHNDESSFYDKKRQLNLHSREGKGKFLKHICALSNSNPTNNSYIVVGV
+EDHDNEIVGDDFFDDSRIQNLVNAFLENPPKIQYENVPFPNLPKDKVIGLVTIKPKSKIS
+YFKKGIHTILANSVFMRRGSNSVPVEGEVEKNYQNTETVIGIENSSRNSIQYTLDGVIDF
+MNFRHKDMSPKYHVFKELFVICWAGVPKKSRDKTFLSRVDIELINEQIKLFYSAQDVVTI
+VYDEDSFTITEYVPLGLNDKTSYYPLEKQTIHFFDNGYYKIENEMLFQPPEFNRKMLYHI
+YNSNIALLQKLQKGIALSERELKDLENLPSTFMICHLNGFEDAKQKLIDAKLLLKPFGNI
+YLSFKEALRVLRKMKYDVQEGAK
+>tr|A0A1S1J8Y4|A0A1S1J8Y4_9FLAO
+MKNNVWYICFIGCLLLSGFFKMNAQSTVWTLDKAIEAAQKNRKIVASLEKEYKINQLKTK
+ELNAKYLPRVALNYNYQYNPIIATSVLPAEAFNSHQASEGMIPVKLGANYSQSAGLLLQQ
+PLLDMAISKLIAESKLQEKLAALNEKEAKLELTYEVSKVYLNILVAEEQEKEAVGDTART
+ALSLETINQKYKYKRVLKADVNDAKVTHNNAVQKYRNAVNNVLVLKQYFLYVIGNESLIA
+AAVKLEKYSVEESIANLDDNLIEALPQIEILKTQNEVLENKKKLERTKYSPLITINGYLG
+ADQFTEKLNPFQQNSWYGNSYVGVSLKLPFSFGENTAKRIDQLKFQQNQNKDRITENINK
+SKYNALNAATVYANVLEQLKTVSENSKLTSEIVMIYQDRYKFDQIAFNELNDKEIKLQNL
+ELFQNQLKKQLIVSWLDWKKAAGKLVW
+>tr|A0A1S1J022|A0A1S1J022_9FLAO
+MDNRKFILSLKKGNEAAFREAYLNYYDKLINIAKRFNFTVLTPQDFVQETFLRVYNKREL
+LHEDVLFDKQLFVICKNIIFNHLNRENKIVQLEPSHVVMENVDNDHEIFEERQEILNNLI
+NELPEQQQKIYTLHKLENLSYKEIAALTDLSEKTIANHIYLASKFIRKKVENH
+>tr|A0A1S1J257|A0A1S1J257_9FLAO
+MMSNSEFGSISFDLPKNQSNVIKVIGVGGGGSNAINHMFKQGIKGVDFIVCNTDSQALQN
+SSVPNKIQLGMNLTEGLGAGANPDVGQQSAIESIADIEKMLDRGTKMVFITAGMGGGTGT
+GAAPVIAQLAKEREILTVGIVTIPFQFEGKVRQEQALLGIEKLRKQVDSLIVINNNKLRE
+VYGNLGFKAGFSKADEVLATASRGIAEVITHHYTQNIDLRDAKTVLSNSGTAIMGSSVAE
+GENRAKEAIIAALDSPLLNDNKITGAKNVLLLIVSGSNEITLDEIGEINDHIQAEAGYNA
+NIIMGVGEDETLGEAIAVTIIATGFDVEQQNDIVNTEPKKIIHTLEDEQRSVHNLTNKSV
+TSFDLTIDTPTSKSEEKIVFDLMDDEDTVAPVTPAPVVPVAATPFEVAPVAATPTMNQEE
+LVVMSEFIKNLDVTFEIVSPITDIDFTITTPQAEAFQDIKPVQQVQQRTFEREEQTTFSF
+DLPIFRSEPEVRKEPVVEETKVLFELTNETRNIKVNDPVSFVPVTELSDKGVIKYSLEEY
+MEVENDLMTSKPVEKVVEEVIPAELNITMKPRPDFAVEPDYSTTANVSPMELTIEETLRL
+RAEERRKKLKEFNYKFHNNVSRIDELEKEPAYKRLGIDLSNSQANNTNSRISVGTDSNND
+LQLRSNNSFLHDNVD
+>tr|A0A1S1J3R9|A0A1S1J3R9_9FLAO
+MEKLNRVSSGLSEKLPIKIVQFGEGNFLRAFVEYAFQKLNQEADFNAGIAVVQPIDRGLV
+NMINAQDGLYTLFMKGVKKGEEIQEKELISNIVKAIDPYASFQEYLALAREEELAFIISN
+TTEAGIEYIESDQLSMQPPVSFPAKLTVLLYERFKHFKGAADKALTIIPCELINYNSDTL
+KEIILKYCADWKLENEFVFWLTASCSFHNTLVDRIVPGYPKDQIEEYNSQLDYKDDLIVS
+AESFFLWVIEGDDKLKAKLPFGKTALDVKIVADMQPYRTRKVRILNGVHTAMVPFSMLYG
+NETVKETVDNAFTGDFVNKAVFEEINETLNMDKAELVSFSEEILDRFRNPFIKHLLSSIA
+LNSISKFKVRVLPSLTGYVDIHQKLPVHLTFAFAALIRFYKGSWKGGVLPINDSEDIVSF
+FESLWKSDDYEKIARLTLQNTSFWDEDLTLVPGLTKAITVALEEIDANGIENGFTNFQKQ
+INNVTQKV
+>tr|A0A1S1J001|A0A1S1J001_9FLAO
+MRKIIIYLFIFLIVSNIGFFQQFYKLPILLEHFKEHQQRHDISFFDFLEMHYWGEDLKDN
+DSDRDMQLPFKNISGPYVQLVFVPQDKPVFYIPFTVGFSPSGTTPYTSDLYSNPSLFSVF
+RPPVA
+>tr|A0A1S1J4V2|A0A1S1J4V2_9FLAO
+MTLKKLFALCFLLLCQITVAQNDSITKLKTVVVSDANLKKYSNSQSVLKLNDSVIGKNEA
+LLTDLLNFNSTIYFKEYGRGMLSTVAFRGTTSSQTAVIWNGININSQMNGSTDFNTISGS
+DYNSISVKAGGGSVIYGSGAVGGTVHLNTDLAFYNKFENSLRLDYGSFNTIGINYKTSIS
+NKKWSTQIGFSKNSSTNDYKYLNQYNWKGEQRWNQNGQYDVITLSANAGYKINDKNSLKL
+YTQTSNTDRNTSLVSESETKSKYVNGFNRNLLEYDGDFGRFKTNLKTAYIFENYKYYADN
+SSNIFTYGKTENFISKADLGYQLLESIQLNGILDYNRTKGYGSGFGDNVREISSAALLIK
+QDISADWKNEFGVRKEFTDNYKSPVLFSAGSSYQFGKLYNLKLNVSRNFRIPTFNDLYWE
+EGGNPNLKPESSYQAEIGNVFTIQNFSLTQTFYYIKIKDLLRWVPGTNGIWMPQNTDKVN
+SYGAETLLSWKKNFGKNNLTANATYAYSVSENVETKKQLFFVPFHKATASIAYSKNNLSA
+NYQFLYNGFVYTQSDNDPEKIVSAYTVSNIGVDYDFKLLSSFKVGFQVLNVWNTFYQSLE
+HRPMPGRNYNLYLNFKF
+>tr|A0A1S1J5K3|A0A1S1J5K3_9FLAO
+MSKIPVYFMPGLAASPAIFERISLDESVFEMCLLEWEIPQPKESLSDYALRISKNIKHEN
+PVLVGVSFGGVLVQEIAKHINARKVIIISSVRSNKEFPRRMKIGKTTKAYKLIPMKLILN
+IENLAKYSFGEKVNKRIKLYEKFLAVRDLNYLQWAVESIILWNRSEIDPKVIHIHGDQDD
+VFPIKYINSCIVVKGGTHIMILNKYKWLNENLPSIILEN
+>tr|A0A1S1IYZ4|A0A1S1IYZ4_9FLAO
+MFLNYIKEFFVKKSLKNNLNNVKNEVFTSNVQTIGLLIDESRFDHSEDLIKELISKGITP
+ENIKIAVYRSKFSEKQTYSRPTFGRKSVNWKGEITEGFLNEFIKTEFDLLISYYDIETAI
+LMLITAKSKAKFKVGFASVDEKLNRWMIDTAIKNYKLFVHELFRYLKSIK
+>tr|A0A1S1J159|A0A1S1J159_9FLAO
+MKNSTKNILTILSFLTFSIAFAQNIEGVVKTSENIPLEAANIVIKGTTSNTTSDQNGKFS
+IDSRGKLPLTLLVQYVGYKTTEIELTDLPIAPLQITIKEENELIEVVVSSRRRIEKVQDV
+PIAVSVITGKQAEQTGAFNVNRIKELVPSVQLYSSNPRNTGINIRSLGSPFGLTNDGIDP
+GVGFYVDGVYYARPAATTLDFIDVEQIEVLRGPQGSLFGKNTTSGAFNITTRKPSFTTGA
+DFEVSYGNYAFLQAKASVTGALGKKVAGRISFSGTQRDGLIDNVATGRPTNSLNNQGIRG
+QLLFTPSENTNIILAADITTQRPDGYAQVVAGVAPTQRAAYRQFNAIIKDLNYQLPSQNA
+FDRKIDHDTPWRSGQDMGGISLNIDTKIGTGTLTSTTAWRFWNWDPSNDRDFTGLQVLAK
+SQNPTRQTQFTQEVRYAGQLTSKLSGVVGAFFIDQTSQTDGTEESGNAQWRFSQSSTSPL
+WKTPGLFEGYGIKTDARIRASSAAVFGQVDWAITERLHVLPGIRYNFDKKDAQYSRTTYG
+GLQTTDPALLALKKSVYSDQSFASNTDNTDFSGNITVSYKASDKINAYATYAKSYKPVGV
+NVAGLPTDSKGLPLLDLAVIKPEKVNHYEVGVKTSPFKNSIFNLTFFNTEIKDFQTNVQA
+AELGVNRGYLANADKVRVRGAELDASFVFSQHLTVNAAATYTDAKYVKFTNAPLPLEETG
+APVAFKDVSGTELPGASKWAGSLGGELSDHAKFFGNKGKIFLAVDSYARSEFSSSPSASK
+YLVVPGYAIFNARLGFRASEGLSVHFWGRNLLNKDYYEQLLPAGGNAGQYAAVLGDQRTY
+GITLKYSL
+>tr|A0A1S1J547|A0A1S1J547_9FLAO
+MKQRYLLFLFSVLFPIILVSQPSHNKKVVGYYAQWAIYGRDFNVSKIDGSKLTHLNYSFY
+GTSYDPAHPENTKLQCLDTYADFEHMEGGIPWDAPVKGNFYGLMKLKEKYPHLKVLISVG
+GWTKGQDLSPIAASPVARTALAADMVKFITTYPFIDGFDIDWEYPLSGGTDGTEILNGAP
+VPPQKYHPDDNKNLVYLLKAMRQAMPNKLITIAAGNNVRNVSKQYLGPNNRAQYGMTEDI
+STYCDYITYFGYDFGGNWYDKTCYNAPLYASGNTNDPLYGAAQSESLDELTSQYLNVVGF
+PANKLIMGLPFYGKKFDHVANDGTNPNLPGLFVAAPRDVVSACKNAQPPLGTWDTGAPCE
+NSGSIEICDLVGNSVTTPHPYLDPNTMMVTPTAASAGWVRYFDNTTKVPYLYNSKLKQFI
+SYEDKQSIDLKARYIASKNLAGGMVWELSQDTRGAVPNALLSQINDSFNVAVEGTLVFSG
+AVKMGANLVSDATVQLKDENDAVIQTVKSSDGNFTFNKVVSGANYSVTALKVSYTFTPVK
+LTNVTANQTGIVIQGTQPLYAITGTMLNGTTVVSGVTVTAASATANVTAVSDSKGAYSIN
+SLTAGADYTITAAKTGMTFSPASTLYSVLSENKVLDFNQNATPTNKISGTVKNGAVPIAG
+AKIELNLPWTDSTHPYATFVATTDTSGKYSFDNAIFSGYTTISSLKMNAWDNNSVVYYPT
+DLANLPIPVLSKEYNFNSSGVTPEVTITSPSAANLAIVPGTAIQLKANASMTFEDGKTTL
+SSVVFNVNGLNITGASTTGTEYAATWTPATADFNKNYTLKATATASNNATAENSFPFYLQ
+CSGTACPNVLPEIIWLTPASNTINQASGFQPVSISVNVTDRDGTISSVTVNVNGTYFPTI
+KGSGDTYSYTFTPNSYKEYPIIIKAIDDKGGEKTLNQSITIVNSKFNPLPAKVIVGYAHG
+WESGSAPFLYFKEIADKKYNVVVYSFIETVNRDGYTPVLVVNEPRFFTKGVFDPQLLKND
+IKTLRDKGIPVIVSIGGQNGHVELKTIDQKNIFVNGIKAIVDQYNFDGVDIDFEGGSMNF
+GAGALKDFSYSAISAYPKLKNVIDAFKELKTYYGTGFILTAAPETYYVQVGYSVYGDGAG
+SFLPVIHNLRNELDLLMVQLYNTGSVNALDNIAYSQATPDFLVAMSDMLMKGFNVASTGF
+YFPPLPASKIVIAIPACPGAAPAGGYLTPDKGINAFNYLRFGTTYSGRKYTMKSSLQPQM
+RGVMTWSINWDAACGSGYEFSNAYDNYFSKSLSVDQFGEKEETNFIVYFKDNALSITVHN
+EAIDIDHVEVYNALGQSVVKYKNTQNNRNLWLEDGSFLTKQLFIVVITDNLGQRKSYKLV
+NF
+>tr|A0A1S1J691|A0A1S1J691_9FLAO
+MGKFITGKNLENAIYEIIWEAEQNLLIVSPFIKLDDYFIRLFDNHLNNPNLHILIVFGKN
+EREINRSLSKNDFDYFRKFLNISIVYVPNLHAKYYGNEKKGVLTSMNLYDYSFKNNVEFG
+VYSETSILSKFTKNADDEAYQACYDLAEKSEAIYIKRPVYEKKLLSSLLGKNYIKSDVLH
+DTTDKFYSSPNRNKLRDITTLNDFPFELELGAESKSRPKREEIENPTNGFCIRTGEQITF
+NMKKPFSYQAYRSWASFGNENYPENFCHKTGKPSHGKTSMRKPIL
+>tr|A0A1S1J6F3|A0A1S1J6F3_9FLAO
+MQFQYFLPSEILKPYIKHYYIFESDSDKEFEDTVFPSGEMEIIFNLGDGIWESLVDQTFY
+KTPKIELWGQITKPLAIKSKGKHTMLGIRFYTHTAAYFFKDEIGIFNNQIFDLEDIIGNP
+IKHLHDQLLETSDIKKRIELIETFLIQKIITNDKISDKIEKVAHILSSLLNDPTESNINS
+ISVKYGITPRYLHKLVFQHTGLAPKAFNKIKRFQHSLKLINTTEYPFTSIAYDSGYFDQS
+HFIRDFKSFTGTTPTSYLENQSPINQLII
+>tr|A0A1S1J7T6|A0A1S1J7T6_9FLAO
+MKEINYLQPDEIWEVFDVKSEDDFREKYLLKGKFHSLVPETIINDYKVVERLMYYSYFNY
+PLIDEAFSKSTRIFEACVTLKLEISGLKRDGFESLHSKLTRLKELCSNDLFEQWRGAKEL
+RNHFAHREAGALVGIFLMNGFKHNLNLINSIFLESTAILNKEKKLKDLLQQSEHLVKGLF
+ILEYKTQKILIYGAKPFTTGIINNLGKSLWVFIPITGDKIIQHVNDFPASLILKLENVQI
+NEKGLNAIDAVTKEVIQLTVTENAENVEKFNLHNKRIAEIEKISPNISLEYMSMLKHDTA
+KEISDFLYEDW
+>tr|A0A1S1IXZ7|A0A1S1IXZ7_9FLAO
+MEKVIFEKEVLDYFDDLVFALFKEEYFGFPESAQNYVDKIVVFIISDISSFPHKKTPKLL
+QYLGSNYIFYKPNAETTWYIFFEKRNQNYLITGIVNNYSAEAKGL
+>tr|A0A1S1J012|A0A1S1J012_9FLAO
+MIKEKNNTTLTFEDFKTEVMNDYKIAVTSRECSLLGRKEVLTGKAKFGIFGDGKEVPQLA
+MAKAFKNGDFRSGYYRDQTFMMAIGELTPKQFFAGLYGHTDLDFDPMSAGRQMGGHFVTH
+SLNEDGSWKDLTKQKNSSADISPTAGQMPRLLGLAQASKIYRNVDGITIKDKFTVDGNEV
+AWGTIGNASTSEGLFFETINAAGVLQVPMVMSVWDDEYGISVHARHQTTKENISEILKGY
+QRDEDSKGYEIFRVKGWDYAELVSTYERAGAIAREEHIPVLIHVNELTQPQGHSTSGSHE
+RYKNAERLAWEKDFDCIRQMRLWMIAINIASPEELAEIDFDLKKEVLEAKKEAWNSFINP
+IIEDQKNLLALLGQIAEASINHKERIQKYISELSAIKSPLKKEMLAIARKILRFIEVPNS
+KVLLSNWITNYIEITQPRFSSNLYSDSDLNVFSVEKVLPKYAEDAKADLDGRMILRDNFD
+ALFTKYPETLIFGEDVGNIGDVNQGLEGMQEKYGELRVADIGIREATIIGQGIGMALRGL
+RPIAEIQYLDYLLYAIQIMSDDLATLQYRTVGKQKAPLIIRTRGHRLEGIWHSGSPMGMI
+INAIRGIHVLVPRNMTQAAGFYNTLLECDEPALVIECLNGYRLKEKTPLNFGEFKTPIGV
+VETLKEGSDITLVSYGSTLRLVEQAAVELLDLGIDCEVIDIQSLLPFDINKDIVKSIAKT
+NRLLVIDEDVPGGASAFILQQIMEEQDAYHHLDSKPQTLAAKEHRPAYGTDGDYFSKPSA
+EDIFEKVYSMMHEVNPSKYPALY
+>tr|A0A1S1J3I3|A0A1S1J3I3_9FLAO
+MDWITAREFEDITYKKCNGVARIAFNRPNVRNAFRPKTTSELYQAFYDAQEDTSIGVVLL
+SAEGPSTKDGVYSFCSGGDQNARGHQGYVGDDGQHRLNILEVQRLIRFMPKVVIAVVPGW
+AVGGGHSLHVVCDMTLASKEHAIFKQTDADVTSFDGGYGSAYLAKMVGQKKAREIFFLGR
+NYSAQEAMDMGMVNAVIPHDELEATAYEWAQEILQKSPTSIKMLKFAMNLTDDGMVGQQV
+FAGEATRLAYMTEEAKEGRNAFLEKRKPNFGENKWLP
+>tr|A0A1S1J600|A0A1S1J600_9FLAO
+MKTLHIIVREILYRLKTDYKRFAAAVKSRKVNTAKIKGELYSSESNSLLFQMYLHEEEDL
+FI
+>tr|A0A1S1J480|A0A1S1J480_9FLAO
+MNSNEIEIHKELKKYFGFSQFKGLQEQVITSILEKKNTFVIMPTGGGKSLCYQLPALIQD
+GTAIVVSPLIALMKNQVDAIRSLSSENGIAHVLNSSLTKTEIAQVKKDITSGLTKLLYVA
+PESLTKEEYVAFLQSVSISFVAIDEAHCISEWGHDFRPEYRNLKNIIKQLGKVPIIGLTA
+TATPKVQEDILKNLEMADANTFKASFNRPNLYYEVRTKTKNIESDIIRFIKQHKGKSGII
+YCLSRKKVESIAEVLQVNGISAVPYHAGLDAKTRAKHQDMFLMEDVDVVVATIAFGMGID
+KPDVRFVIHHDIPKSLESYYQETGRAGRDGGEGHCLAYYSYKDVEKLEKFMSGKPVAEQE
+IGFALLQEVVAYAETSMSRRKFLLHYFGEEFDSETGEGADMDDNVRNPKTRIEAKDQVVK
+LLEIVRDTKHIYKSKEIVFTLIGRVNAVIKAHKTDTQSFFGSGSDHDEKYWMALLRQVLV
+AGYLSKDIETYGVVKITKEGLNFIKKPVSFMMSEDHEYSESEDEAIVTAGKSSGTADEVL
+MGMLRELRKKVAKKLGVPPFVVFQDPSLEDMALKYPITLTELFNIHGVGEGKAKKYGGDF
+VSLISRYVEDNDIIRPDDLVVKSTGVNSANKLYIIQNIDRKLPLSDIASAKGLSMDALIK
+EMEQIVYSGTKLNIKYWVDDMLDDDQQEEIHDYFMESESDKIEDALKEFDGDYDIDELRL
+MRIKFISEVAN
+>tr|A0A1S1J5I6|A0A1S1J5I6_9FLAO
+MNKVETSFLHKNQFGDDFLWGVSTAAFQIEGAHDTDGKGPSIWDVFTSQKGKIKNGHHAS
+TACDFYNSYQNDIDLIRELNIPNFRFSISWPRIMPTGVPPINQAGIAYYNKIIDALLLAG
+IEPWITLYHWDLPHDLELKGGWTNRESVNWFSAYVEICVQSFGDRVKNWMVINEPSVFTG
+AGYFLGIHAPGKKGITNYLKAMHHVTLATAAGAKIIRNRIPDAHIGTTFSCTHIEPATQS
+SKDIEAAKRVDTLLNRTFIEPILGMGYPQGDLPVLKKLNAYIIEDDLNNLSFDFDFIGLQ
+CYTREVVKSSLLIPYIGAELISAEKRNVISTDMGWEVYPPALYEVLKKFNAYNGIKKIII
+TENGAAFPDTLKNGKVYDIKRTHYIQDHLEQILKAKKEGLNVDGYFVWTLTDNFEWAEGY
+NARFGLIHVDFDTQQRTIKHSGLWFKDFLS
+>tr|A0A1S1J8K8|A0A1S1J8K8_9FLAO
+MFEQLTQLVQQYGGDAVVNNTAVPNEHNEAVIQETSSSIFSGLQKIASEGGTEQLAGLFN
+GTSKLDSSNPVVQQITQQLSGSLGEKFGLSSTDSAGVASSMIPQVLNSLVNKAKDPNDSS
+FNISDIISSISGNSGQASGIMETINKYGMQFGLDQNNDGKVDVADAVSLTKSGGLGGLLG
+KLFGK
+>tr|A0A1S1J2U3|A0A1S1J2U3_9FLAO
+MKKIKFAVLLVCLLTSLYNYAQQAPPARNKVKVTGKVLEKVSKQPLEYATISITAPNDTK
+VIAGGITNPKGEFDVAIAPGTYDIKVEFISFKPTFIKGKTISGDTALGVVNLSEDAAQLS
+EVVVRAEKSSVEIKLDKKVYNVGQDMMVKGGTVSDVLDNVPSVSVDSEGNVSLRGSDNIR
+ILIDGRPSNAINVAEALRQLPADAIDKVEVITNPSARYDAEGGSGIINIILKKGKNQGFN
+GTFIASTGLPETYGLSANLNYKTEKLNYFTTAGYNYRTNEGMGLTNTSYYNADGSPKGYL
+DEDRDTKRIRNGFNARAGMEWTVAPNTFWTNAINYQKNSGEDKDYINYNNFDAAHAFTGI
+TNRFNNADTGSENVEFTSNLIKNFNDKGHKLTADLSVSRNTDDSDGLITALPTSNTTLND
+QVQKQILLQTDYVLPLGKGSQFEAGYKGSFGDLNNEYNVTNLLNGEYVIDPKKSNTLEYK
+ENINALYVQYGLKVNKFSYLFGLRWEDTNIQVNLLDNSVFNTKKYNNLFPSAFVSYEISD
+QSNFTASYSKRLSRPRGRFMNPALNYASNINIFQGNPDLDPSLTDKFDVGYIKRWEKVTF
+SSSAYFENTKDVFSFVRTPNGDKVDGIPVILSRPINLGKEQKYGFEFTFNYSPYKWWKIN
+SNFNLYNVKTTGENTYTDTNNKVIVQNLNNQANTWFARISSKVTLPYKIDWQLSGTYNGS
+QKTAQGKILDQFGMNTAFSKDVLKDKATIAFNISDIFNSRIMRSYTYLQNDTTLESQTSY
+GEMQFRKRQFNLSFTYRFNKPKSDREKPGAPKNDGDGGGEFPG
+>tr|A0A1S1J2Y4|A0A1S1J2Y4_9FLAO
+MKKINLLVIVLLTAFSVNAQDVKFAPLDASPVDIAYSPNKAVKFKKTDNPAPTVKVIYSR
+PSVKGRAIFGELIKFGEVWRVGANENTEIKFYKPVTIGGVNIPAGTYSLFAIPEKDKWTI
+IINKEIDLWGAYAYDESKDIARVSVPVKPVSNTIEALSIAFTTQGSVTNLVIGWDKTTVE
+VPITIK
+>tr|A0A1S1J6U5|A0A1S1J6U5_9FLAO
+MLSIKNLHASIGDKEILKGINIEVKAGEVHAIMGPNGSGKSTLSAVIAGNENYEVTDGEV
+FLDGEDLADLAPEERAHKGVFLSFQYPVEIPGVSVTNFMKTAINETRKANGQEEMPANEM
+LKVIREKSELLEIDRKFLSRSLNEGFSGGEKKRNEIFQMAMLEPKLAILDETDSGLDIDA
+LRIVANGVNKLKSEKNAIIVITHYQRLLDYIVPDFVHVLYNGRIVKSGGKELAYELEEKG
+YDWIKAEN
+>tr|A0A1S1J4E6|A0A1S1J4E6_9FLAO
+MATFQQQLERARKLTPKKLEIDLFKFIRSIEKDLLDIQKKRISQDSKDIFGNPIGFYSYW
+TEVITDGRKKQGQPFSGIDSGDWMKGFYMQEVSGVLRFSSRDPKNQDILNSDHWLSDELF
+GLSDKELKEVITSRLLPFFIKNSRNILKL
+>tr|A0A1S1J8A3|A0A1S1J8A3_9FLAO
+MKKLLVLCFVVLLSSNFYGQDVTTKAVKSKTEAAAKKKKAEADKAKADAKKETAKSKKAA
+DDASKAAAKATKESASAAKKTADKQATKAKNEATKAKTDAVKATKTADKAASTKAAGVKA
+EATKTAAKATEASKAAQKDATAAKKTVSKTIKETNEKAPKVADKVTGEYNGKKVYTGPKG
+GKYYINKNGNKTYIQD
+>tr|A0A1S1J9L2|A0A1S1J9L2_9FLAO
+MASITLGGNPIHTSGELPTVGSQLADFKLVQNDLSVVSLSNFAGKKLVLNIFPSIDTGTC
+ATSVRKFNESASNLENTTVLCISRDLPFAQKRFCGAEGLENVVNLSDFQAGDFGKTNGLE
+IVDGPLAGLHSRVIIVVDANGKVTHTEQVAEIANEPNYEAALAAL
+>tr|A0A1S1JC52|A0A1S1JC52_9FLAO
+MIDKVEISDYKALMYVWESSVKATHDFLKNEDFEFYKTIIPGFFDHVTLHCIKNSTKEIV
+GFMGTNDENLEMLFVSANEIGKGIGKELLLYAIQNLNVTKVDVNKDNIQALEFYQHFGFE
+VKSMSDVDGCGKPYPILHMELTNGERNNSSSLQTGNCD
+>tr|A0A1S1J1T4|A0A1S1J1T4_9FLAO
+MIPKTVIEKEISALSTTLAPITAQMHQWAEKNIFLKWAVLSRGKFHCLECTHSWKPDSQS
+QSCKNYINCTACQGKLKMHQHNQVHFKEIEYFALTDTCSGYQVVRIICSHKNMKKNVLPA
+YSHTEVMQHWINPKGEVRTISRSTNVFSNAYDAWQYYSPLEIRPKDFQNSPKYRINPYKV
+YPHMKVIPLLKRNGFKTSTYGIAPQILFTALLKDPIAETLLKSSQTSLLKHYLTSHEQHL
+RENWQAVKTCLKQRYQIQDIKIWEDYIALLRWFKKDLSSPALVCPENLDQAHDRLVAKKR
+DIQRKKHLAQMRAEIQKAEPIYENDKKQFFGLSFTDNDLTVKVLDRVQDFLEEGDTLHHC
+VFTNEYYKKKDSLILSAQIENRPVETIEVSLSRMEIIQCRGLRNKATKYHSRILRIINKN
+LPEIAGRLKKQKKQNALA
+>tr|A0A1S1J183|A0A1S1J183_9FLAO
+MKSLKNAPQIILNSKHIGHPIDFKWNKKKMEKFLDPLDEYKELETKLLNINHKATVGLSA
+ALLEWIYWRFLGHNTSITDTEKRIEALWCSTKDPELSSPLLFDTNFDIPASGPINGPLWV
+AHMTVRMIDVRYRKGSYFLQNEILGLVLLARHITPKKNVFDNWFNNIIIQLTYLYPCPYA
+NEDLDETDEKVYDSHNESLICRDFFFNPKFRYTIMASEKAVNKYIQNSDQKSNPFLQLSQ
+KVS
+>tr|A0A1S1J3U0|A0A1S1J3U0_9FLAO
+MEKIVVIGGSRGIGSAVVLQQLENRQVYNISRTAPEIFHPNLIHYGADVLHDDLPEIESI
+DALIYCPGSINLKPILSLGADDFRNDFEINVIGAVKAIQHYLPALKKGTNPSIVLFSTVA
+VKLGMPFHASIAAAKGGVEGLVKSLGAELAPKVRINAIAPTITETSLSASILRNERMKEN
+MIERHPLKNYLKPREVAQMADYLISKAAGSISGQIFQMDYGLVSFKM
+>tr|A0A1S1J4P9|A0A1S1J4P9_9FLAO
+MLLKSIRHSLDELDDLLGQLTDADYARPCSALNNATIGEHLRHILEMFIGLEKGYNSGVV
+NYDNRERNIRMQTETAFAKELITGIKANLKSENKTIYLEQVIDGLALRIQSNYYRELLYN
+LEHCIHHQALIKVAVMPFKDVLIHENFGVARSTIEYRKQCVQ
+>tr|A0A1S1J5H7|A0A1S1J5H7_9FLAO
+MKQAIINATVHTGDEIITNGVIIIENGIILSVQKETPNDIETIDLKGKHIAPGFIDIQIN
+GGEKLYFSQTPTEETIQDIYDTSLQYGTTHILPCLISSSRETIINGIEAVRSYMKKYPNG
+VIGMHLEGPFLNPLKRGAHPIDQVRKPTNEELEEIIRLGKDVIKVITIAPECFTEEQLNM
+LIESGIVISIGHSTVTYQEAQVYFSKGIKLVTHLFNAMTQFGHREPGLVGATLENENVYA
+PVILDGAHCDYAAAKLAYRLKQDKFFLISDATFLGRKIASFKWNNFDAYLEDGFYRNSEG
+SLAGATISMLEAVQNAYNHLEVSADEAIQMATSRVAAAIGLENQIGKIKPGFPASFVQFN
+DNLSEIKTLNFSKTPFFIS
+>tr|A0A1S1J6C1|A0A1S1J6C1_9FLAO
+MDIHLYNESPFETIISFHKLIESFEKIALSDVDYRANYAKAILNQIEALPELRTGIKDYA
+TIKDNEALIKNLLADIFPTALTNNEIKAVTIPFQNLSFNYTERFKKILSNAGSEFDMEIR
+DFDDHQFYVNNCCIILGAYYKQRIDFNNPFFYDIPDENGIEKHYRILYNADFMEVIPTEK
+SISLTQEDIDLLLDNYNDLELWKSKFPKGSWILKGFGIVSLFDATTESAISNLKSNLLKP
+DSKTAATDEIVFNIFKSIFKIPDLKVGFIVYNPEEEKFIRPVKFETQMQSFLLSKDQEID
+CKNAFFGCTFEKLLNNKEPLVVSNVKKFIEESSNKKLGEHLLKQGIQSCIFAPVIKDGQL
+LGVVELVSSEIKALNTINATKLELVLPYLTDTIDRYNTDMQHQIEAIIQREYTTIHPSVY
+WKFKKESQNYFQNINHTKDYIFKEIVFKNVYPLYGQIDIKGSSEHRNETVKIDLKNQLTA
+LLKIFESQNSNHNLVLLEQRKFELESFRDELDAPLKADTEQYIQRYIEEEIHPLLKNTKE
+TEKSEKLEREYFESLDAKSGLFYQERKKFDNAMSIINKKLASVLDKKQLEAQQIYPHYYE
+RFKTDGVEHNLYIGSSIAPNQPFDMMYLHNLRLWQLQTLCEMELEHHQLKESLPYELDVT
+SLILVFTSPLSIRFRMDEKRFDVDGTYNARYEVVKKRIDKSNIKGTQDRITEKEKITIVY
+SQNSEEAEYLKYIKYLQHKKILEPSIEQFEVEDLQGVSGLRAIRVKVINNNTNPAAKKIT
+YQDLLDELN
+>tr|A0A1S1J8N4|A0A1S1J8N4_9FLAO
+MRHGKKFNHLSRQTGHRKAMLANMACSLIEHKRINTTVAKAKALKQFVEPLITKSKEDTT
+HNRRIVFAYLRSKYAVTDLFRDVAAKVGDRPGGYTRIIKVGNRLGDNADMAMIELVDFNE
+LYNGGKKEVKKAKSRRGGKAKKAEGTPEAPAAESETTTEASE
+>tr|A0A1S1J3H4|A0A1S1J3H4_9FLAO
+MNGNLLLRTAVAIILLTHSVFGMFNNGINDFGNLYLNQIGFAPFGVFLAWSIKLSHVVAA
+ILLLSNKYVKPAGFVTILILIMGIILVHFQEGWFVVGGGRNGAEYNFLLIVVLLAIMYPN
+GLKKQN
+>tr|A0A1S1J616|A0A1S1J616_9FLAO
+MDNSVDITEDFGTLYHPKSALVFDESRGLSKEVYVEHFDMDSSGTPINAHPLTEREAEEL
+AKALTTDKQKQTAFLNSQGILPTAVLHINRQRDKGAVIWHTKAQKRPLYFIEGLGIPSGQ
+AYVPPMVWQADKNSLRVFALLSGRRPTAETQLYYAPFFNIYEDGRVCMGSVNISIKNSAC
+VEEFTKVWEDYFFNSYFSHLMGENSPVRGNCVSLWKDLVSSGRPFPKEVLKNTSKTLKNL
+L
+>tr|A0A1S1J7A0|A0A1S1J7A0_9FLAO
+MTENEISTIVIGLAIQVHKALGPGLLENAYKECLFYRIKQRGLSVEKEKAMPLIFEEVKL
+DCGYRVDLLVENKLVVEIKSVESLTTIHLAQTLTYLKLGKYKLG
+>tr|A0A1S1J7A3|A0A1S1J7A3_9FLAO
+MQNVSEAAAYTLQFINQTQKSIFLTGKAGTGKTTLLREIIATTHKNTVVVAPTGIAALNA
+GGVTIHSMFQLPFSAFIPSYEEASQFTETVKFENKETLRRHFKMNNVKRNVIRNMELLII
+DEVSMLRADLLDAIDFMMQTVRKNTRAFGGVQVLFIGDLLQLPPVIRDEEWRTLRNYYKG
+KFFFHSHVIQQYPPLYIELSKIYRQSDDTFISVLNNLRNNQITPQDIQVLNEYVKPDFDL
+KNNPGYITLTTHNAKADSINEQAIGDLAGNEFAYQPFIVGDFPEKIFPVEENLKLKVGAQ
+VMFVKNDLSFEKRYFNGKMGVVKSLSAEEIFIHFPEEDKTIEVEKYEWKNIRYKVNDLTK
+EVEEEVLGTFAHYPLKLAWAITVHKSQGLTFEKAALDVSQVFLPGQAYVALSRLTSLNGL
+ILLSPLQMNGISNDQDVMDYALNKATEEVLKHSLHFETKNFIHNYLINSFNWADLAQEWR
+NHRFSYNENAVASEKSKHSAWAHKRLEIIDSLADPAQKFVNQLNKIFNKETVDLFFVQER
+VVAAYDYFFKPMDKLVTDLLNKMAEIQKFKKVKEFYEELAFLDDLQTKAVLRLMKAKLLI
+EIVVAGETICKEKLSSTAIKNYKFDKVAKIREEFNMSNTDIFKSEEPTVRYTARKLDKST
+PKAEKKTTIEETHDLWMEKNSIQDIARIRKLTVQTVEMHLVKLIQAKKVEISDVLPYDKI
+LALREAFEFYSEESLSPLKEKYGDEFTWDELKMFKASIN
+>tr|A0A1S1J955|A0A1S1J955_9FLAO
+MNYGKEFKKFATKHQGVNAMYYDKIIAAMNPTNMTPYIIEERQLNISQLDVFSRLMMDRI
+IFLGTGIDDQIANIVQAQLLFLESADASKDIQIYLNSPGGSVYAGLGIYDTMQYIKPDVA
+TICTGMAASMGAVLLCAGAAGKRSALPHSRVMIHQPSGGAQGVATDMEINLREMLKLKDE
+LYHIISQHSGQTFDKVHKDSERDYWMIADEAKEYGMIDEVLRRS
+>tr|A0A1S1JAB9|A0A1S1JAB9_9FLAO
+MGRLGLTEILVIVGIVILLFGGKKIPELMKGLGSGIKEFKNAAKDDQSAPAAKKEEEETK
+>tr|A0A1S1JD50|A0A1S1JD50_9FLAO
+MDFSKNILETIGNTPLVKLNKIVAEIDALVLAKVETFNPGNSVKDRMAVKMIEDAEADGR
+LKPGGTIIEGTSGNTGMGLALVAIIKGYKLICVMSDKQSKEKMDILRAVGAKVVVCPTDV
+EPTDPRSYYSVSKRLASETPNSWYVNQYDNMSNALAHYEQTGPEIWKQTEGKITHFVVGV
+GTGGTISGVGKYLKEQNPNIKIWGIDTYGSVFKKYHETGIFDENEIYSYITEGIGEDILP
+KNVDFSLIDGFTKVTDKDAAVYTRKIALEEAIFVGNSAGACIKGLLQLKEHFKPDDVVVV
+LFHDSGSRYVGKMFNDDWMRERGFLEENVTKAEDVIKDHIDKQLIVVRTEELVSHAIERM
+RKYKISQIPVVDINGFVGSVDETDLFRSYVADKNVAEKPIKEVMGKPFPIVKLGTPIEEV
+SKLFTKENDAVLVDLGNGSHHIITKYDIIGSIK
+>tr|A0A1S1JAE9|A0A1S1JAE9_9FLAO
+MRKVLLPSLIIIAASLLVIRIFYLQIIDDSFKLKSENNAIKKKYDYPERGYIYDRHGKLL
+VANQASYDIMVIPREIKEDLNIPEFCTLLNITREEYDKRIAKAKVYSPRLPSVFLAQLNK
+NEFAAFQEKIRKYEGFYFQKRSLRDYEVDYGANIFGFITQVNERQIAKNPYYNSGDLIGK
+QGVEESYEDILRGIKGVKYIQKDKYNREIGSYKEGRYDTIAVAGEDINLTIDAELQKYGE
+ELMINKRGGIVAIEPKSGEILALVTAPSYDPGILVGRQRSKNYTLLYHDSIAKPLYDRGL
+LAEYPPGSPFKILTGLVALQEGVINEQTTFMCHHGFSYGRGRFMKCHGFGPHQLHNGIYN
+SCNTYFAQSYMLTINKYNNPAKAVDVWSDHIKSFGLGQFMGYDLPTGKRGNIPTSKTYKR
+IYPNGGWRSTTIVSNAIGQGEVLMTPIQLANMMATVANQGYYYTPHIIKKIEGKKIDAKF
+TTKHVTTIDQKYFPPVISGLFDVYNKGTAYALRVEGIDICGKTGTAENFAKINGKRTQLK
+DHSIFVAFAPKDNPKIAIAIMIENGGFGATVAGPIASLMIEKYLRHKITRTDLETRVLNK
+SLASEYAKLGGMNEASAIESTPKDSTLKAKIVPVKPVTPKAEVKKTVSDTTKKN
+>tr|A0A1S1J202|A0A1S1J202_9FLAO
+MDLFIYLFAALFSVLNPIGTVPIFVGLTQHDSQKERSRISLWTAINVGIILLVSYFIGQY
+VLTFFGISIDALRIAGGIVIVNSGFSLLSGKFNKKRGINKKIETDAQQRNDIALTPLAIP
+MLAGPGSMSLLIAFYQEHHGINEIIISCSAILAIAFTIFAILKSAHYLARILGASGIVAI
+SRIVGFIVISIGIQYIVSSIINIIKGNLM
+>tr|A0A1S1JBE8|A0A1S1JBE8_9FLAO
+MKNLILLLSLVLITSCSSSDEDTQGVFYSPSWIQGSWKDNTTGAILTFTKNDIKYNSGGN
+TYSFSKNQIRTSSNRIIPQQIAKTDNLYIVDFGQGLEGSLIRFNFFKKTDNTIESKGHLP
+GNYTRL
+>tr|A0A1S1JA01|A0A1S1JA01_9FLAO
+MSKPYNLEERTLLFAKECRIYIRNLPKTLSNIEDGKQLIRSSGSVGANYIEANEKLGDKD
+FLFRLKIARKEAKESKFWLQLLNDLNPDQNISSQSLLYEIEELRKILSVIITKTSK
+>tr|A0A1S1IZJ7|A0A1S1IZJ7_9FLAO
+MINTRRLKESYIMSYLSMYSNDPKLNVWHLSILTAILGLGYRQGQRRRIKVSRSKIMELS
+HVNTLPTYHKYFKQLQDLGYIKYTPSYHPGYKSEVKLCKRRLSQNI
+>tr|A0A1S1J3Z8|A0A1S1J3Z8_9FLAO
+MKAKIIVTSLVLLLFCTTKISAQEVLTIEDAMKIALENNFEIKIAKNSLKISETNVTVGN
+AGMLPRATASVTDNNSVTNSSQTRQDGTTTSLRNAKNNSLAYGVSLGWTVFDGMKMFAKL
+DQLKELQKLGDSEMKRVILVKIGQVNSAYFDLVQQQQQLSALDTTIVISKQRLTLAQNRF
+SIGKASKLEVLNAQVDLNSDQVALLRQKESYANAKILLNQYLARDPKINFTVTNVVAVDN
+KLVLVDLIELAHKQNPALESQIINKRIAELQLKQVKADRYPVVNLTSGYNFNESQSSLGF
+TSQNSSKGFNYGFNATLNVFDGFNQHRNEKVAKLQIENSQIAIEQQNMILDTQLSTAFQT
+YLTNLELIGLEEDNVTIAKQNLDITLDKFRIGTITTLDFRTAQLNYVNAKVRYSNSQFQA
+KLSEIALKELAGNINF
+>tr|A0A1S1J4J2|A0A1S1J4J2_9FLAO
+MSYLDNILFAILLIIGFGFFASSVKKIIRNINLGVDVNRKDNSKARWKNMALIALGQSKM
+VRRPVAGILHIFVYVGFIIINIELLEIIIDGLFGTHRIFAPYLGVVYDVLIASFEILAIL
+VIFAVTVFWIRRNVIRLKRFVNKDLDGFPKSDANYILYFETVLMLLFLLMNASDLHLQNV
+PGGVFHKAGSFPISQFIAPIFNGMSNDLVVLLFEVFWWLHIAGILVFMNYLYFSKHLHIL
+LAFPNTYFANLNPEGQFDNLESVTKEVKLMMDPNADPFAAAPVDENAAPAKFGASDVQDL
+NWVQLLNAYTCTECGRCTSSCPANQTGKKLSPRKIMMDTRDRLQEVGKNIDANKGVFVPD
+NKTLLNDYITPEELWACTSCNACVEECPVNISPLSIIMDMRRYLVMEQSAAPMSLNAMMT
+NIENNGAPWQYSQQDRLNWKNEN
+>tr|A0A1S1J566|A0A1S1J566_9FLAO
+MKKYTNTGSKDTRSGFGAGMTELGQKNENVVALCADLIGSLKFDDFKKNHPERFFQIGIA
+EANMIGIAAGLTIGGKIPFTGTFANFSTGRVYDQIRQSVAYSDKNVKICASHAGLTLGED
+GATHQILEDIGLMKMLPGMTVINTCDYNQTKAATLALADHHGPAYLRFGRPVVPNFTPAD
+EPFVIGKAILLNEGTDVTIVATGHLVWEALIAAEALEAKGISAEVINIHTIKPLDEEAIL
+KSLAKTKCVVTAEEHNILGGLGESVSRVLALNNPAPQEFVAVNDSFGESGTPEQLMEKYK
+LNNQAIVEAVERVIKRK
+>tr|A0A1S1J7B6|A0A1S1J7B6_9FLAO
+MLAMKTVMRSDIFKRELVVVNDPIRFNKEDLVEKKINYNYKGIRGVITDIMLDGVHLVAR
+DLIIENEFYSIEVEHDFSFIKLHIEMEGDNEYCPENTSDRGIYIPQGHYNLFYLPKIKGI
+LNYRTKRRKTLEITFTASYLEQLFYPNLKTTIPLLAEAIATHTSYAMWDTSKSISPKLNV
+LIEDILQCSYSGAIKKAFLESKVVEILSYLFTIINEEENTKVSVELSACDYVKILEVENI
+LKTQFKEKHTLASIASQVGLNNFKIKKYFKMVFNATVFNYLTQVRMEYAKQMILEKDLPI
+SVVSEELGYKNPHHFTVAFKKTFGYLPSKLKK
+>tr|A0A1S1J879|A0A1S1J879_9FLAO
+MNDCIVIIPTYNEIENIESIVRAVLSQHKPFHLLIIDDNSPDHTANKVVALQEEFPERLF
+LEKRAKKSGLGTAYVHGFKWALERQYNFIFEMDADFSHNPNDLEKLFDACHFGGADLAIG
+SRYVTGVNVVNWPLSRVLMSYFASVYVKFITGMKIHDATAGFVCYKREVLEKINLNKIKF
+VGYAFQIEMKYRTYCAKFEIKEVPIIFTDRTKGVSKMSNAIIKEAILGVISLRLKKLVNT
+L
+>tr|A0A1S1JBB6|A0A1S1JBB6_9FLAO
+MNNFEQNGYMFLKDFFSENELAAIEKVLIKFHEIWLHDNEISYEKGAINSHSLTKGDCLK
+EEEKTRLFEFITQTKFEEIRSIIFPKPPVFLNTQLFFDPKEETRKNYWHRDIQYTGMSVE
+DQKKAIKTQNVVHFRIPLKSERGIELIPKTHREWDLPEEFEVRNSLNGRLQSDDLKRGEI
+VRLNRGDLLVFSANMIHRGIYGKDRFSLDIIFCDNIPVMKTFIDKDNLPSAKILEKLTNK
+QLFDI
+>tr|A0A1S1J5U9|A0A1S1J5U9_9FLAO
+MSHFRKILVWQKSISLVTKIYKITNRFPKEEMFGLTSQIRRSSISIPSNIAEGSGRESTK
+EFLRFLFISLGSLFEMQTQLEIAKNIIYINEEEFNLLYEDSREIERMLASLIKKLKDNN
+>tr|A0A1S1J0D7|A0A1S1J0D7_9FLAO
+MDEILKYFPDLTELQIQQFQKLDFLYHDWNEKINVISRKDIDALYTKHILHSLGIAKIMK
+FEPGATVLDVGTGGGFPGIPLAILFPETRFYLIDVIAKKIKVVQGVVDALELKNVKAEQK
+RAELVKGDFDFIVSRAVTNMPDFVSWVKGKIKKQHKHTLKNGILYLKGGDLTEELAAFPK
+ATLYDLSTIFEDEFFETKKVVHLPLKFTV
+>tr|A0A1S1J9G1|A0A1S1J9G1_9FLAO
+MNRPGAVGALLDIYEQAILDLKNVITSIPDNVLPHIIDEKTTSKDCKSIQAILSHVVSSG
+YSYAISIHNLKGHNMRRPDKVFHVTIAEYLKDLTNVFLFTENIFKEIKDAELEQYDDSLK
+IKTGWGQLYDIEQLTEHAIVHVLRHKRQIEKIKSSQLNWNFL
+>tr|A0A1S1J9P9|A0A1S1J9P9_9FLAO
+MSKVEDFLSKEEEQDIVEAIRVAENNTSGEIRVHIEQTTSKAPFDRALEVFHELKMHETQ
+LQNGVLFYFAVADKNFAICGDKGINDVVTPDFWDCTKDAMILQFKSGNFKQGIVDGILNA
+GEQLKKYFPWSEGDSNELSNEISKG
+>tr|A0A1S1J9S3|A0A1S1J9S3_9FLAO
+MKEKIIAKASELFLKLGFKSVTMDDIAGEMCISKKTIYKYFCNKEVLIEESTSLVHKQVH
+EIIDTIVAKNYNSIHENFEIREMFRDMFKNNIDTSPIYQLKKHYPDIYQNILCQEIDLCS
+HWFRKNIEKGISEGLYREDLNVDVYVKFYYTLIFHINETTVSESEAQKIELEALEYHTRA
+MATEKGIVELEKQLKKIRV
+>tr|A0A1S1JAR2|A0A1S1JAR2_9FLAO
+MKNLFLSAAIVLGGLTSFASNAPIANIIVKTVSVADEYTEIKLEELPAPITEALKKAYPS
+AVVTKAYKNEKSEYKLDVTVGEKVGNLFANADGTWIKK
+>tr|A0A1S1J404|A0A1S1J404_9FLAO
+MKIKNNPSKIKLSDSSYKLNKISKNIRNRRSVYANQFIKGELPDQLLEEILTNATWAPTH
+KMTEPWRFIVFRGKYLKKYGEYMAHYYKDFYTELSPEDQKDKLSYLENYPLNAACMIGVV
+LVKNTKIDLPEWEEIAAVSSAVQNIALTCHAHKMGSYWSTKGVAIDYVAKFGLSENEKSL
+GLLYLGYYPEALKPSKKKRTPLSKKVVYLD
+>tr|A0A1S1J6Z5|A0A1S1J6Z5_9FLAO
+MNETLKRTISGAVYIALLLTSILFSTESFIILFGIFLIIATYEFCNLVGINKVFSILFVS
+LFYSAVALISFYKTETENYISKTFKENIIITVDTEKLFSALLIITLIVSVKCIVFLFDDT
+QIISKTSKYIYLLGYVTLPFLFITKISFGIKDYNPKIIIGLFVLIWTNDTFAYLVGKSMG
+KHKLFERISPKKTIEGFLGGVVFAAFAGFLISKLYIQPKADFSTKSILIWMIIALIVSIF
+GTIGDLIESKFKRVAGVKDSGSIMPGHGGVLDRLDSVIFVAPIIFLFYQILYYVS
+>tr|A0A1S1J9C0|A0A1S1J9C0_9FLAO
+MKRRLLFGERMLLGEGKDPFHVVIPFRLRGVLEEKEIQYALGRLQKKHPWLQALIHLDEN
+NVPWFEVSKLPNPIPIRIVDQKREEDWQQETMRELQTLFDYKSKPLIRLVWIKGNDTSDM
+LLTFHHCLCDGGAAMNLIHEFLKVLDNPTADIGIENPILGIQDVVPSPILNSNRQRFKAK
+MIGRLATFAIKCIPVSKKAIDRQTDYLIHWKLDPATSQQLISHCQSLAITVNTFLSAIVL
+DTFKKVRGNKAFNKVSCPVDIRRFAPQVKKDHIFAFGLMIVLSSDPKLDFLDNLRVMQQH
+VDRKTAKLNPYITMMVMESAHKALNNFTKLLKRGKSSNDCMFSNLGRIQIPYQYQSFALE
+TIRSPSVIGPLGNTTTILTSTYQGVIDFSFMGSEGYLPYYEALAIRDEIIDSIKHQLNYQ
+AAS
+>tr|A0A1S1JAG7|A0A1S1JAG7_9FLAO
+MSIKSVAAKLFASTIYYQTKAWANKPVETQQAVFKSLIHSAKETQFGKDHHFDKIKTVHD
+FRKRVPVRDYEDLKPYIDKVRMGEKNILWKGKPLYFAKTSGTTSGAKYIPLTKESMPFHI
+EASRNAILHYIYETGNADFVDGKMIFLQGSPILIEKYGIKFGRLSGIGAHFVPKYLQKNR
+MPSWETNCIEDWETKIDAIVEETIEQDMTIISGIPSWVQMYFERLQEKSGGKKITDLFKN
+FQLFIYGGVNYEPYRAKFENLMGRKVDSIELFPASEGFFAYQDSQKEKGMLLLLNSGIFY
+EFIKADEFFEPNPKSLTIGEVETGVNYALIISTNAGLWRYNIGDTVQFTSLFPHKVIVSG
+RIKHFISAFGEHVIANEVENAMKEATQGTKVVINEFTVAPQINPSNGLPYHEWLIEFETE
+PENMDVFAEAIDNSMRKQNIYYDDLITGNVLRKVVVSKVSKNGFQEYMKSQGKLGGQNKI
+PRLSNNRDIADNLK
+>tr|A0A1S1JBS9|A0A1S1JBS9_9FLAO
+MTDLITTFNSLWQDIIAHPGTSLAIIGNLILIESLLSVDNAAVLATMVMDLPENQRERAL
+KYGIWGAYIFRGIAMVFASALIAIWWLKPIGGLYLLYLVYSWYKDKQKEGSEEEKVNKEG
+NWLYRLTVNTIGHFWATVCLVELMDMAFSIDNVFAAVAFTPNIILVCIGVFIGILAMRFI
+AQRFVNLLEKYKFLETAAFVVIAILGIKLALSLYEHFYPETAFSKFLGSHAADIGISALT
+VAIFFVPILTSTFFDFPKKTKSVMR
+>tr|A0A1S1JGB1|A0A1S1JGB1_9FLAO
+MDIEFELLLSAKLLLALLLGGIIGIEREREQQNAGVRTFACICVASCLFVSIAAHLTEDK
+SAIARMLAAIATGLGFIGAGLIFRDEKNLPKGLTTASGLWTTSAVGMAIALNMFVIAICS
+TAIILFIFTINQFSWYRKFVEKLFKDKNLKK
+>tr|A0A1S1J074|A0A1S1J074_9FLAO
+MSKVVLITGGSSGIGKSIGEYLHQKGFVVYGTSRNPEKVQSSVFPLVALDVRNAESIQLA
+VAQIIAASGRLDVVINNAGVGITGPLEEIPTEEIKNNFETNFFGPIEVMKAVLPQMREQK
+SGLIINITSIAGYMGLPYRSVYSASKGALELITEALRMEVKSFGIEITNVAPGDFATNIA
+AGRYHAPVVKGSAYEKVYGDILATMNEHVDAGGNPNEMAEAVYKIIQKEKPKVHYKVGAF
+MQKFSIVLKRALPDKVYEKMLMNHYKL
+>tr|A0A1S1J0M5|A0A1S1J0M5_9FLAO
+MIVNRILQIIEYKGINRRKFYIETGLSNGFLDKVKDVGASKIEQILRIYPEINPEWLLTG
+KGHMLENAAFFEYEWGIKMSEIEEPSTVYEVTTTKTLKKQFVPVYDVETVDGMVSLFKES
+EGKPIDYVSVPNLPKCDGAIYVSGDRMYPFLKSGDLIIYKKMRNRIEHIIWGEMYLISVV
+TDEPEEFLLIRWIQKSDKGEDWIKLVSENSRYESKDVLLKNVEGLALIKATIRINSNF
+>tr|A0A1S1J4M3|A0A1S1J4M3_9FLAO
+MKAYVFPGQGAQFTGMGKDLYETSALAKELFEKANEILGFRITDIMFEGTAEELKETKVT
+QPAVFLHSVILAKTLGDDFKPEMVAGHSLGEFSALVANGTLSFEDGLKLVSQRALAMQKA
+CEITPSTMAAVLGLADNIVEEVCASIDGIVVAANYNCPGQLVISGETSAVEKACEAMKAA
+GAKRALILPVGGAFHSPMMEPAREELAAAIEATTFSTPVCPVYQNVTANAVSDANEIKKN
+LIIQLTAPVKWTQSVQQMIADGATLFTEVGPGKVLAGLINKIDKEAVTANA
+>tr|A0A1S1J8Z6|A0A1S1J8Z6_9FLAO
+MTTKYKLTSDLGIIFTHVCNIIGVIILFFLIYSILIVEIGAIIFCLILESFLYLKFYRFF
+SKFKNVTFDINFFYFENEVIPIKNITNLKKGRITYTYKNETKELHYNYFYGINYNKLKEF
+HNNLINSI
+>tr|A0A1S1J5E8|A0A1S1J5E8_9FLAO
+MEKLLLELEREILLKDLYEMDECPPLGHTPALMHAYVIRPENHGTPYQAFQQEVIKTPKL
+GFNEVLVKVMAAGVNYNGLWAGLGEPASPTAFHGKDFHIAGSDASGIVWEIGEGLKNNPE
+FKFKVGDEVIVHCGQTCGICQECNGGNPMLCESQKIWGYETPYGSFAQYTKVRAQQLLQK
+PKHLTWAEAGGYMLTYATVWRMLYGFAPNDLKPGTNVLVWGGSGGLGASAIQLIKLAGAN
+AVAVTSSDERGEKCMELGAVGYINRKKFNCWGALPDIGNKEEYKEYLKEVRKFGSAIWDI
+LGKKVNPDIVIDHIGSQTLPVSTYVVKSGGMVVFCGATSGFNMSFDASFVWMRQKRIQGS
+HFASLSELYHANQLILQKKFHPVISDVFTWDELPLAHQKMLDNSVEYGNIVINLAS
+>tr|A0A1S1J6E9|A0A1S1J6E9_9FLAO
+MKYPNLFSGYNLKGLNLKNRFLMAPMTRSRSDEQGDVPNDLMAEYYSQRTSAGLIISEAT
+QISLQGKGYARTPGIYAKEQIEGWKKITSAVHAKESKIFLQLWHVGRVSSAKVNGLQPAG
+PSDLTAKDTSVYIFDGAPNGDATFVPVEEPRKMTHSDIKQTIEDFAQGAKNAIEAGFDGV
+EIHGANGYLIDQFLRNNSNVRTDQYGGTIENRIRFLLEITEAVVSEVGKDKVGVRVSPFI
+KFKDMDDPQILDTIMTAADRLNDLGIAYLHLSEADWGDAPEIPRDFRIKLRKTFSNTIIA
+TGNKTPETAEQLLESNLVDIVGFGRSFLANPDYPNRVLIGASLNQITDNHTLFGGGDKRG
+YTDYPFM
+>tr|A0A1S1J6U3|A0A1S1J6U3_9FLAO
+MTSLLFAPLTIKKITLKNRIVISPMCQYSAIDGFANDWHLVHLGSRASGGVGLIIQEATA
+VSPEARISPSDLGLWKDEHIEKLKTINEFILSQNAVPGIQLAHAGRKASVSIPWEGNKKL
+DIGQGGWQTVSASAIPYHDDEPFLPEALDKNGIQKVISDFKAATKRAVKAGFQVMEIHGA
+HGYLLHQFLSPLTNVRNDEYGGSFENRIRLTLEIVEAVQSEWPSDLPLLVRISATDWAEG
+GWNPEESVQLSILLKEKGVDLIDTSSGGLVSHQQIPLQPNYQVPFAAKIKKEASILTGAV
+GLITEAKQAEEILESGQADVILFARESLRNPNLPLDFAKELNDDIQWPKQYERAKI
+>tr|A0A1S1J8B8|A0A1S1J8B8_9FLAO
+MKIATIIVRVLIGLLLLFASLSFFFKLAPEPETTGDFKAFNMGLVASTYLLPLAKSIELL
+CGIAFVTGRYVTLANILILPITVNILFINYFLAPQGLPLAILLFLANLFLIYRYWDNYKS
+VFTR
+>tr|A0A1S1JCH0|A0A1S1JCH0_9FLAO
+MSSIYQNICNNTDYKADTSVLQIKTIDMHTGGEPLRVIVSGFPKLKGNTVLEYRRDIKEN
+YDYLRTALMFEPRGHADMYGCILLPPNDDEADFGILFMHNEGYSSMCGHAIIAISTLAAI
+MNWITVKEGENELKIDAPCGRIFSFVTVVNGEVTGVRFHCVPSFAVGLDRVVNVEGIGDV
+VYDLAYGGAFYAYVDLRKNTHLNFGLTEENYRTIIQTGVDIKHDVMEQDAEIQHPFEEDL
+SFLYGTIFIDEPLNGSNHSRNVCVFADGEVDRSPTGSGVSGRIAIEKARSAINLGEVITI
+ESITGSTFKGSLVREEKFGPFKAVIPQVEGTAFVTGVNTFLIDPKDPMKNGFILR
+>tr|A0A1S1J6D7|A0A1S1J6D7_9FLAO
+MNLLLLGGGQYLNAGTPKDSHSHHLEKRHRVKFTNQDQGSSIIEDADCDTEEECLGSDDL
+KGGLSNHLFTTNYSLLDSWYLSFATSQTAANDYNRFKIFLSLCGNSNPIYITQRVLRI
+>tr|A0A1S1JBC7|A0A1S1JBC7_9FLAO
+MKYNPNEIEAKWQKYWAENQTFAAKNNSEKPKHYVLDMFPYPSGAGLHVGHPLGYIASDV
+YSRFKRHQGFNVLHPMGYDSFGLPAEQYAIQTGQRPEDTTRVNIDGGVDKEGKQIAGYRK
+QLDKIGFSFDWGREVRTSNPDYYKHTQWIFIQLFNSWYNKNVDQAEDITTLVALFEKEGN
+VNVNAVSDDNIGTFSAEEWNALSADQQEKILLQYRLTYLAETEVNWCPGLGTVLANDEIV
+NGVSERGGFPVIRKKMTQWSMRISAYAERLLQGLNEIDWSESIKESQRNWIGKSVGAMVT
+FKLKNHDEVIDVFTTRPDTIFGVTFMTLAPEHDLVAKITSPEQKEAVEAYIEKTAKRSER
+ERMADVKTISGVFTGAYAEHPFTKEPIPVWIGDYVLAGYGTGAVMAVPCGDERDYAFANF
+FKGQNGMQEIKNIFANVDISEAAYGSKDNVEIANSDFLNGLNYKEATKTAITALEKLGQG
+IGKTNYRLRDAVFSRQRYWGEPFPVYYVNGLPKMIDAQHLPIILPEVEKYLPTEDGLPPL
+GNAAVWAWDTTNNKVVNTDLVDHATIFPLELNTMPGWAGSSWYWMRYMDAHNEPEFAGKE
+ALAYWESVDLYIGGSEHATGHLLYSRFWNKFLKDKGFAPTEEPFKKLINQGMILGTSAFV
+YKVIPKYEIEGSLYIKELNKPLLVPYVYYKEIQEKIDKLPGGYTYVNSEIFVQGDKYYEI
+LDKIYSENKDIFDGQEPDFFLQKNHVDVSMVNSSDELDVEKFKAWREDYTNAEFILDDNG
+KYIVGREVEKMSKSKYNVVTPDDICNEYGADTLRLYEMFLGPLEQAKPWNTAGISGVFGF
+LKKLWRLYFDDNGLIVNNDEPTKDNLKSLHKTIKKAADDIESFSFNTSVSQFMICVNELS
+AQNCHSRAILEPLAILVSPYAPHIAEELWQQLGNTTSISEVSFPVFEAKHLVETSKEYPV
+SFNGKMRFTIELPLDLTKEQIEEIVMKDERTLRQLDGKTPNKVIIVPGKIINLVG
+>tr|A0A1S1J361|A0A1S1J361_9FLAO
+MNTIKSKLTLILLSFVIFYSCKKEDKSSDKSSNLKNLQTDIKDNTIKGRKTTTLFSFNTT
+ENTEIVKISGSEVSEDDNFLLVGDKNILLVTKYKKNKPQQLIQSDTLLISDYNHVTIDRQ
+LFLRKKINNADYFLFALMESPLGNGDHSLYLSFIMLNLNTLKYYTLKYEGEPTLRSDNAV
+DGNFLENTELDHNTAIKNELYRFANKSKWIYSPSEEEKDINFYKNFEQKWYEDNYTEDGK
+SSYPAVVKSTYYSEDLFQFNGRGNDDGAIENADFKIVPYFRHNLIGYDKNKRLYFPIKVE
+SCAHGCAKTIEFLSEHEIEVSYEMNVQQPDTIDLNKIIFTNRP
+>tr|A0A1S1J8B5|A0A1S1J8B5_9FLAO
+MKNSIIMLSAALMLGGVAHAQKVAFEEYNLDNGMHVILHNDPSAPVVITSVMYHVGSKDE
+RPDRTGFAHFFEHLLFEGTKNIKRGEWMKIVTANGGVNNANTTDDRTYYYEVLPSNNLEL
+GLWMESERLMHPIINKIGVDTQNEVVKEEKRLRYDNQPYGNILPVVKENMFKKHPYRWTT
+IGSMKDLDAATLEEFQAFNKKFYTPNNAVLVVAGDFDKAKTKEWIQKYFAPIPKGEELKK
+QTYVEEPINQTIKATYEDPNIQIPMVVASYRTPSMKTRDARVLDLISSYLSDGKSSKLYK
+KIVDDKKMALQIGAVGFSQEDYGMYILYGLPMAPNTTADILKEMDEEIVKIQTDLISEKD
+YQKLQNKFDNNFVNANSTVEGIAENLASFYLLYGDVNLINTEIDLYHSITREEIREVAKK
+YLNPNQRLILDYIPSTKAQN
+>tr|A0A1S1J7P9|A0A1S1J7P9_9FLAO
+MTEIEMTEFFESYGRMPAFSRIKKIYDITNNLDLFLLKILRSDFRRYSLKKNFQLVKDFH
+SGKITEVGYEYESAMSFIELYNLKNNALIIDIKDETFDEIVWSLPERDCEDAEILFEGMS
+EFLYEIDELIRHEQNEIKKSSPVNNNTEEEEEEEEEELIDYSENSYSSKVIFLEKLGVLE
+YLKNKPPFNTSVNSLANALSGVTGVKATTLQPMLNAMISKGISEKNNPLKSIKTVNVVVN
+KLVNIGYKAE
+>tr|A0A1S1J8H3|A0A1S1J8H3_9FLAO
+MTSVITGDIIDSRKQKSKDWVESLKRILSPFGDTPLQWEIYRGDEFQIEIKNPEEALLAT
+ILIKAHLKALKLDARMSIGIGDKTHNAEKVSESNGSAFIQSGELFGTLKKLKVNLALRTG
+DTAVDEKMNLMLQLALTFMDNWPAQSAEFVAIAIENPSLSQEELAPKLGIKRAAVSRRQK
+RAQFDLILSLDRYFRTQINQLTTL
+>tr|A0A1S1J9C9|A0A1S1J9C9_9FLAO
+MEIRPIKTEHDYDLALERVNAIFDAKPNTDEGDELDILVTLIEKYEQINYPISEPDPIEA
+IKFMMEQNGITDADLGVILNSRSRVSEIFKRKRALTLNQIRILTEALHIPASTLIKEYAL
+NP
+>tr|A0A1S1JDL2|A0A1S1JDL2_9FLAO
+MAIAKPFNLTKWIDENRHLLKPPVGNKNLYVDSGDYIVMIVAGPNARKDYHYNETEELFY
+QLEGSIKVIIQEDGKRKEMDLHAGDMYLHPAKVPHSPVRSEGSIGLVIERKRAGLGYTDG
+LLWHCDHCNHKLYEVLFELHNIEKDFLPHFEYFYNSLELRTCDNCGTVMESDPRFVAKK
+>tr|A0A1S1J0H7|A0A1S1J0H7_9FLAO
+MIKVCLADNHPVTHFGVKSYFKDHDQISIVANVGNFSMVRDILQTKEIDILILDLELEGL
+SSIFEVKSILKNFPKTKIVIFSDLAEQMYAPNAIKAGVSGYVHKTEKLETLGISIIKVHE
+GKIIINETVRKNMALIAKQSKSERLYRKLSNREIEVLRYLSDGKKNNEISKILNLNEKTI
+STYKLRLLTKLNVTNLVDLVNKAKTLEII
+>tr|A0A1S1IZR9|A0A1S1IZR9_9FLAO
+MFITLTQDQVQFQYGSKRWQYCFNEITELGLLKKKKTYLLENGVFTLTTALAYYCMFFSN
+LNDLYYIGPTIIVYAVLIILRFYNTFEFDYYVIVKDVYKKEIKVKIKVLDRHEIGKQIDE
+FLNLNFNRLLKKTKTNL
+>tr|A0A1S1J1L1|A0A1S1J1L1_9FLAO
+MEEPRIIYSLNAFPLINNRWQMGNKLKETVYMTALSILYSHLWYKDIELYADETAYNFLY
+MLPCRITKMDKEHNKELWMKSKIHAIEKQTKPFVHLDTDVFIKKKINFNFDSIILERREC
+GYEAHYKKQIDFFNQYTQNLPYWHPDLGLSYSCGILGFNDLTLRDKFISAYYDLEKIYTT
+NRKEFEPLKQQGFEPCIVIEQYNLASVLDYNNITPTLLLKGRNITEQSKYASEISYSHLF
+GIKKYKKDITEEIEYRLFKIFPYWYAQIKIELEKHQIIPKEEISSPTMLAS
+>tr|A0A1S1J0P9|A0A1S1J0P9_9FLAO
+MNKINNPKPDTWSEILKRPTKTIDDIEVTVKEIFKEVQKKGDEAVAKYTSIFDGITLENY
+EVSAEEIQEANSSISEELKAAIQLAKENIYKFHSAQKTDKISIETTEGVNCWQEKRPIQK
+IGLYIPGGTAPLFSTVLMLAVPAGIAGCKEIVLCSPPDKSGEINPAILYAATLCGVTKIL
+KVGGIQAIAGMTFGTNSIPKVYKIFGPGNQFVTVAKQLATQFGVAIDMPAGPSELLVVAD
+DTAVPAFVASDLLSQAEHGTDSQVILVSTSKRLIEAVEKEIQVQIEELPRKAIAKKAIEN
+SKLIYVENDQIALDLINEYGPEHFIICSQYDDFYCNGIINAGSVFIGNYTPESAGDYASG
+TNHTLPTNGYAKNYSGVNLDSFVKSMTFQKISEKGIQNIGNAIELMAEAEGLQAHKNAVT
+LRLKSLKERG
+>tr|A0A1S1JCY1|A0A1S1JCY1_9FLAO
+MSLKDTVNTYKIAFFSTQPYDKTFFNKYNDSFGFELDFFETQLNPQTAALIEKALIVCVF
+VNDIVNEAVLKQLAEKGVKIIALRCAGFNNVDLDAAKKYNLKVCRVPAYSPQAVAEHAMA
+MILTLNRKTHKAYNRVREQNFSLNGLLGFDLFGKTIGIIGTGNIGKAFAKIAIGFGCKVL
+AYDIVTSAEMEKDGVRFVSLDEIFKSSDIISLHCPLNDQTKHVVNKESIVLMKDSVMIIN
+TSRGALIETAAVIEGLKEGKIGYLGIDVYEQEEKLFFRDLSADIIQDDAIQRLMSFPNVL
+VTAHQAFFTNEALTQIALVTFNNIESLLTENDIENKTALLV
+>tr|A0A1S1J2Z5|A0A1S1J2Z5_9FLAO
+MNLHELVVNDTEKIALEDLLFSTENKTILIQTIKEHKYIEELKKYNLKVDNKIILHGHSG
+CGKTTTAKAIANALNKSIVIVNLSTVIDAKIGETSKNVKVLFDKAIREKAVLFLDEFDQI
+GKSRDSQDKDVAEMKRLVNTIIQLIDYLPADSLLICATNYYDSIDTALLRRFQIKLKFEM
+PTDTELNAYYDKLLAHFPIHLQEIKRKYAISYAEAKDYIHTTMKKQIIAELEFQEQQRLT
+EIIA
+>tr|A0A1S1JCD9|A0A1S1JCD9_9FLAO
+MKISKYKISNSNRIFQFTLLFIALVTCNSIFAQFTIPEKPSLQTSVYDYANILNASEKSQ
+LEQKLIRYSDSTTTQIVVITIESLKGEDVSQLATKWGQTWGIGGTAKDDNGVIILLAKKE
+KKIAINPGYGLEDRLTAGIGGTIIRNIIIPEFKAGSFYNGLDKGTDAIIDVFKGKFKGER
+KQTKGKDFPILPFIIIVVIVLILLSRNKRGGGGNSGNNSGGGGPSLLDVIILSNLGRSGG
+GGFGGFGGGSSGGGGGFGGGFGGGGFSGGGSSGGW
+>tr|A0A1S1J377|A0A1S1J377_9FLAO
+MTTLIIEDEKPAARLLQRKLEKLDIAVKTMLHSVEESVYWFENNEHPDLIFLDIQLSDGL
+SFEIFEKINIQSAIIFTTAYDEYALKAFKLNSIDYLLKPIDEDDLEVAVAKFKTRLPKTS
+SENSNLQLDFEQIRQMLSNPFEKNYKKRFTVKIGQHLKVITTDEIECFFSENKGTYIHTF
+DNRNYLIDSTLEILEQEIDKKDFFRVSRKFIVPLIAIKEIQVYTNSRLKVILPTYKEDEV
+IVSREKVQDFKNWLG
+>tr|A0A1S1J6C9|A0A1S1J6C9_9FLAO
+MNAKGHCYPKVIILQAVYFKLRFKSRFKLSCRDVEEIMKMRGIQVDHATIQRWVFKFAPI
+MEFQMKKREIRAGMS
+>tr|A0A1S1JAD0|A0A1S1JAD0_9FLAO
+MYHFLQKFHSGWAYLALLLLLIATVNAIIGLTSKKEFTGKDRKIALFALIGTHTQLLVGL
+ILYFVSPLGKAAFGQMSNAALRLTSLEHPLINIIAIILITIGWSKHKKLVNSEAKFKTFA
+IFYGLGLLLILSRIPWNLWF
+>tr|A0A1S1J1F6|A0A1S1J1F6_9FLAO
+MVVEVFKTNVQKEADKNYVIAVIQSQFPDYKINFDLEDCDKILRIEGIDLEPENIIDYMN
+CLGYTCVKLE
+>tr|A0A1S1J350|A0A1S1J350_9FLAO
+MSLSTTSIKRPVLTIVLNLLIILFGFIGYTFLGVREFPSIDPAQVSIRTNYTGANSDIIE
+SQITEPLEKAVNAIDGIRNITSSSNQGSSNITIEFNLDKNLEEAANDVRDKVSQAIRSLP
+QDIDAPPVVSKADADSDAIISMTVQSDTRSSLELSDYAENVISQRLETIPGVSGVQIWGQ
+KRYAMRLWIDPVKLTAYKCTVSDVRNALNSQNVELPSGKLTGNNTELTVKTVGNLSKPEE
+FNNIIIRTNGDKIVRLSDIGGAELGPENIETKLSQSGLPMIGLAIVPMPGANYLDISSEF
+YKKYEALKKDLPKDIKLNIALDNTIFVKKSVLEVAETLGISIILVIIIIYLFFRDWAIAF
+RPLIDIPVSLIATFFIMWLFGFSINVLTLLAIVLATGLVVDDGIVVTENIFKKVEEGMSP
+IEAAIKGSNEIFYAVISISVTLAAVFLPVIFLEGFVGRLFREFGVVIGAAVLISAFVSLT
+LTPMLNAYLMKGGEQKKSKFYVKTEPFFEKLNSGYADSLNRFIAKKWLSFPILIACFGLI
+YLFFTILPKETAPYDDRSSVTMRMTTPEGSSYEYTDRFMQEISRLVDDSIPEKKVSLVIT
+APGFGASATNSGFIRLSLVEPDQRKRSQKDIADQLTKMTKRYPDAKTSVIQQPTIAVNRR
+GGLPIQYIIQAPNFEKLREKIPVFMEEVGKSDVFSVTDVNLKFNKPEINVSIDREKAESL
+GISILDIAQTLQLSLSGQRFGYFIKNGKQYQVIGQFDQKDRSKPLDLTSMFVKNKSGELI
+QMDNVVKIEEQSNPPQLYHNNRYMSATVSAGLAPGKSISDGIQEMDRIKAKVLNDTFTTD
+LSGESRDFVESSSNTSFAFGLALLLIFLILAAQFESFIDPLIIILTVPMAVAGALFSLWL
+FNQTWNIFSQIGTVMLIGLVTKNGILIVEFANQLREQGKPKLEAILEASEARLRPILMTS
+LAIALGALPIAMSLGAASTSRIGMGVVIVGGTIFSLALTLFVIPAIYLMWSKARKHYPEF
+DHIDEYERNTK
+>tr|A0A1S1J4M2|A0A1S1J4M2_9FLAO
+MEVKVLDFNGKDTGRKVQLSDSVFAIEPNNHAVYLDVKQYLANQRQGTHKAKERAEVTGS
+TRKIKKQKGTGTARAGSIKNPLFKGGGTIFGPRPRSYSFKLNKGLKRLARKSAFSIKAKE
+SNIIVLEDFNFEAPNTKNFINVLKALGLENKKSLFVLGETNKNVYLSSRNLKASNVVTSS
+ELSTYAILNTNNLVLLEGSLELIEENLSK
+>tr|A0A1S1JCA4|A0A1S1JCA4_9FLAO
+MKKYILFLVVLIIASCSKDDFGDRKAESKIVVEGWIEEGDYAQVLLSSSISVTNTIDSTN
+VLNHVIRSAKITISDGVTSEVLRVKNDKNRVPPFVYYGSVLKGETGKEYSLKIEYLNRVV
+EATTKIPKSVAIKSAEYVKKVDTDTTGYVFVKFDDPLNEKNYYQIATRIEGEEPVFVPAF
+YGNLDDKNFSTSAVSVQVNRGVLLFPKTKFTPYFVDGDLIHVKLRTQNKEALDFWNSWQN
+EIVNSRNPIYPANTSLKSNIKGGIGIWAGYGQSTFRVKAL
+>tr|A0A1S1JE46|A0A1S1JE46_9FLAO
+MAFEELKENTENIQDQAKIYLDSHLAYYKLWGFKVAMKSTTLIFKFTLILLCVGMVLLFG
+SVAAAFAFSNLFGSYTLGFLTVGGIYLLATILLFFVKDKFVEGPILEKFSEIFFND
+>tr|A0A1S1J7U1|A0A1S1J7U1_9FLAO
+MKSKLIALSLFLSLFLSSCDAVDNLLTFTISNETSIQIKSTSPINLPSEIITPDVTTNSS
+AEFENNKTKASLVKDVKLKSLKLMITNPTDKTFTFLKSVHLYISTTDSDEIELAYQDNIN
+ASTNNIDLICTDARLDQYIKADKYKIRTKVTLKETLTKDVTVKAEMKFRVTADPF
+>tr|A0A1S1IYZ8|A0A1S1IYZ8_9FLAO
+MRYLLDTSTCVFFLRGKLNLDVMVKKAGLENCYISEITVAELRFGAENSDDPVKSNKAVD
+NFLNGLTIIPIFGSIKRYAMEKVRLRKIGKPINDEFDLLIGVTAIENQLTLVTDNVKDFK
+MLDGIQIENWFERS
+>tr|A0A1S1J2W5|A0A1S1J2W5_9FLAO
+MKKIFVFLLMIVSIASYSQTNRFTGTWSTENCKTCSKEYVLKINMAQSNNKIFGTAEITS
+DNQKFVSGVMEVTGNVYALGEKAQITIKGKDGSAGAVLFAKDDVLQFSKRGGDDLVPKET
+VLTKLYE
+>tr|A0A1S1J9J1|A0A1S1J9J1_9FLAO
+MSNPNQQQEQINIELDETIAEGIYSNLAIINHSSSEFVLDFVSIMPGIPKAKVKSRIVLT
+PQHAKRLLKAIGENIHRFEVAHGEIKETEQAPIPLNFGPAGQA
+>tr|A0A1S1JCN5|A0A1S1JCN5_9FLAO
+MNQVKKLLIIGSVWPEPNSSAAGGRMMQLISIFKQNKFDITFVSAALDSDFMVDLSEFGV
+AKKSIELNSASFDDFVKELNPQVVVFDRFMIEEQFGWRVAENCPEAIRILDTEDLHCLRA
+ARQKAFKENRKFEVTDLFSEEVAKREIASILRCDLSLIISTFEMDVLKDKFRISADLLLY
+LPFLTDSMSEDDLLKLPSFEERNKFVFIGNFFHEPNWNTVQYLREVIWPLIKKDFPTAVL
+EIYGAYPSQKVLQIHQPKNGFYIMGRAVDAVEIVKNARVVLAPIRFGAGLKGKLLEAMQC
+GTPSVTTAIGSEAMHANLLWNGFIEDDAAEFAIKAIKLYQDENLWKEAQKKGIAIINECY
+LKDRYSDGFMSVVNSLLMDSTSHRLHNFMGSLLQHHAYKSTMYMSKWIEAKNK
+>tr|A0A1S1JB91|A0A1S1JB91_9FLAO
+MNRVLIKNAKIVNEGSIFEGDVLIENDLIVEVADSISLKTSDCKVIDAEGNYLIPGAIDD
+QVHFREPGLTHKGDIESESRAAVAGGITSFIEQPNTVPNAVTQEILEDKYQVAAVKSFAN
+YSFMMGATNDNLEEVLKTNPKNVAGIKIFLGSSTGNMLVDNKAVLEKIFSSTPLLIAVHC
+EDETTIKNNLQLYKEQYGDDIPVTAHHLIRSEEACYISSSKAVALAKKTGARLHIFHLST
+AKEMELFTNKIPLEEKKITAEVCVHHLWFTDEDYKTKGNFIKWNPAVKTADDRKALWEAL
+NDGRIDVIATDHAPHTKEEKMQPYLNAPSGGPLVQHAVVAMFEAHHQGKISVEKIVEKMC
+HNPAKLFKIEKRGFIKEGYFADLVIVNPSLPWSVKPENILAKCGWSPFENFTFKSRITHT
+FVNGEMVYNNFKVKDIRAGKRLLFDR
+>tr|A0A1S1J4Q1|A0A1S1J4Q1_9FLAO
+MRIVQIIDSLEAGGAERMAINYANSLSKNISFSGLVVSRKEGLLVSQIDQKVSYLFLKKR
+KTIDLQAIFRLRKYLKKNKADLIHAHSSSFFIAVLVKLTLPEIKIIWHDHYGISQDLSSR
+KNLSLKAGSFFFTGIIAVNSALKDWAKSYLWCSNIVCFPNFIIDAVSNEKQILRGVAGKR
+IICVANLRPQKNHELLIDAANLMKDQYSDWTFHLFGKDFDDAYSAKLKKKVSDLRLQETV
+FFYGTSGSVSSALQQCEIAVLPSLSEGLPLAVLEYGLHRLPVVATNVGEISKIIASEKEG
+LIVEPDNLKEFAGAIEKLIVSGKYRDEMALGLYNKVQLNFSESAIVKEYLLWLKSLPTFT
+S
+>tr|A0A1S1J9T8|A0A1S1J9T8_9FLAO
+MKEQFKKFLNEEQDPKAIEKITSKLNDLLMKNEEIGYIAVQKKPAITVFPDSIILTNKRI
+IICKPKNLGLSMDFTDYTWDDIASTFVKENILGSEFSFGTKTDLTISIDYIPKTQARKIY
+TYAKEQLDLLKNPAASETPITEATPIVEDNFEDDVEEVETEEVTSFAEILPAAATPYETF
+EPIQPAPTSTGERKLSDLSKEELFDKLQNYKKLLDNGLIMQGEYDTYKKEILSYM
+>tr|A0A1S1J095|A0A1S1J095_9FLAO
+MIEKIISQPSIDVVNPLLFSMGEDVMGFLNEVQLQYPEAISFASGRPDAKYFNMGQFSEC
+LDYFVQHNVREKGIEENIVLENLGQYNRTKGIINTEVAKYLFIDEFIKVNPEDILITVGA
+QEAISIGITTLCDRENDVILVEDPAYIGITHFAKINDYKIESIPVIANESSIKAIEDKIL
+EHQEKGKKVKVVYVIPDFQNPTGNSMSLSNRHKLLALARLYDFVIFEDNAYGDFYYENEK
+MPTLKSLDENDTVIYLRSLSKTIYPSLRLCLMVVTQKVKVQDKIFALSDLMAKTKGYVTV
+NTPSIMQAMFGGLLLKNKFSLESLNAEKRTGMKEKRDQLLESLNHFFNKETQYWAENISW
+NLPAGGFFLILKVPFKVTKEDVIRCAEVNKVIFTPMSFFYMNEGGENELRLAFSNVTKEE
+IIDGVQRLSEFIKSKVKNQ
+>tr|A0A1S1J370|A0A1S1J370_9FLAO
+MEKKKTNTKFIIILAVLVLVGGTYGITKYMHSLAHEETDDAQIEKKMNPIIPRVSGYISK
+VYVKDNDFVKKGDTLFTIDKRDYQLKIDEANAALLGAEGQYEAAKADIGSANASISVSDA
+QMKSATGSIESAKIRLRQITNDYNRYNNLYKTHTITKQQYEQALSAKEEAENQVRVLQDQ
+QRASSYQKSVIQSKSKVSDKQTEVASANIKKAKTMLDVAHLNLSYTVVTAAIDGQVSKVD
+IQPGQLVQPGQSLFYIINNNEAWVVANFKETQLNKMVAGQKVSLKVDAYPNYEFKGTVTS
+FSPATGSRFSLLPPDNATGNFVKTIQRLPVKISLDESNDPEKVKLLRPGMNVDVDVHLK
+>tr|A0A1S1J5F8|A0A1S1J5F8_9FLAO
+MEKETINNVEGYQLSINQMNLWSVAEKNIQNYFNQVVIDLKSDVTIEKLKRGLALVISKN
+ETLLFKMNEAPNVGFPVQAVSELKQTEIVERTVQALDQFTITATVQESLGYGYDPLKDSA
+IRFCLLKDSQGNQVLAVRLFSLWADSYSTAFLCSELSKAIFDETSYEKEEREVVEYQDFS
+AWQQQLFSDPEEEGVNFWKNYPTDLTKDIVPFKNRNNQTFSPQRKSICLIDGDAYTELKA
+KMVQEDSSAEHLLLSQFAAYLSKFDEDSFTIGYLPFKRYYNELENTFGLVAKTLPVGLNE
+FASLSEKEAIAFIKKTVAEIGMWSDYFYVNRIHDKEVTEATTFNYVFEYAELNDNYSSDT
+LKIRDLFSVTDVFEVKVNAVDYGDSLAIDLYYDTALYSDAAAALMASQLKGVFTNQNDVL
+AGQAIIAASNDTAKEYASFDSILAIFNEQAALQGNNTALSYDDVTISYKELDEKSNQFAQ
+YLIQNCGIQKADPVAVLLDRSPYFMISVLGILKAGAYYIPMDTAYPKDRIQFVLEDAACK
+LLISTPAIIGAEIYADLTVLDPSKEEIFQAQADTALFNKANPEDIAYCIYTSGSTGNPKG
+CLITHANLLNYIQWSNDYYFTDAETGNWGLITSISFDLTITSLFTSLTRGKQLWIGSDEK
+SINELLIESFTNPNIDTLKLTPSHLSLLKELNINKTNVKIIICGGEQLTQNQLQNVWDID
+KDIRIFNEYGPTETTVGCIVKEMTSDQTEVRIGKPIANTTIAIVDQQGNPCDIGMYGEII
+ISGAGVAKGYLNRPELNAERFIATENGSLSYKTGDIARWMDNGEIIYKQRRDDQVKVRGY
+RIELSEIEQQLLQHPGIHQAVVLVDSKNENEKEIIAFIVCSQKEESKEIKRYLERKLPVY
+MVPSVIIETDAIPLTVNGKVDKKYLLTLNKGRSSSVAYVAPVNELETQITAIWQEVLQLD
+TVGTEDDFFELGGHSLKATQLINQYHKVFEVKLGLKEVFSSTTIKAHANLIGNSEVKKHL
+SIQKVQDAEDYPVSAGQRRLWVLSQFTGSAGVYNMPFHLALKGAYDVKCFSKAIEATISR
+HEALRTVFKINDEGEVRQVIKTTEELGFRVNYIDYTTDLHQDTNVAQYIKEDTYAAFDLT
+NGPLVRASILQLSDDDYIFYYNIHHIVCDGWSMNVLAKDVLALYEQLLEEKEPELPVLKI
+QYRDYAVWQQEQLQQEQNNVHKEYWLKTLTGELPTLDLPYQKVRPTVKTYAGNSLRTYIT
+PEVTNGLKKYGQNQGGSLFIGLLAAWNVLFHKYTAEKDIIIGTPVAGREHADLSDQIGFY
+INTLPLRNAVDPEQSFDSFYQAVKENTLSSYEHQMYPFDNLADDLDLRNDTSRSAVFDVM
+LMLQNMRDVAENKNLDQTAFYTIEDKGYKVSKFDMDIAFQEQGDYLAFNITYNTDLYSQE
+AVSRIINHYKQLLEVLVQDPNQQIKNIDYLSKEEKQELIIDFNANSVSYPTDKTLIDLFV
+LQAAKTPENTALSFKNQKYTYQELDHLSNRLANCLRQDHHIVKGDFIGVQLERDASVIIS
+ILGIMKAGAVYIPIDTAHPESRKAYIYDDTNIKLLLTDKSHITISDDFKGTLLDLVTDFE
+PNNYSKDLEDVKLTTDDLAYIIYTSGSTGNPKGVMIEHKGIVNTILAQIELFDITNNDNG
+LQFASFSFDASISEIFTALLSGACLSVIDREHREDPKMLEKYIIENKIAVATIPPSYLSL
+MDVNSLRRLKTLITAGEAPVYNKVKEYLELGNYYNAYGPTETSICSAMYGLLKGEDLPLG
+NIPIGKPIANTQTFILDKDHKIVPVGVIGEICIGGAGLAKGYLNRPELTAEKFIEHPYAE
+NERLYKTGDLGKWLPDGTIEFLGRKDDQVKISGYRIELGEVEQALLAHNQIDEAVVMVEI
+NQFNIKSLIAYIVVSDDTLSLEQLRGFLKNLIPHYSIPSEFIALKQLPITINGKIDKKEL
+GNTPGIKIASEKQYVAPETEKEKLITGIIAEVLGKEAGRVSLQDNFFDLGANSIKIVKIL
+NEINKQLGLDIKVVSLFENPNVEEFLQYLNAVDSQEKQTEQVPEDISEALDEFINLM
+>tr|A0A1S1JGL7|A0A1S1JGL7_9FLAO
+MKNLIVYAHPNTGSLNHFFKQIITENLEKSGQEVIVRDLNAINFNPVLSLADMKGQRVGE
+IAGEVKIEQDFIAWADRIVFIYPIWWTGMPAIMKGYIDRVFSYGFAYRYDQGIQKGLLTG
+KKAIIINSHGKSNAEYESIGMDKALALTSDIGIFNYCGLEIQKHFYFDKADRVSDENVSG
+WSNQIKEVFQEKVLCV
+>tr|A0A1S1IXR8|A0A1S1IXR8_9FLAO
+MKKLLLAEDDFDFAAILKQYLELHQFEVIWAENGEIALDYFSNQTFDICILDVMMPKLDG
+FSLAEKIITINPETPFIFLTARKLKEDKIIGLKLGADDYIIKPFEVDELILRLQNILKRI
+EQKRSLDGNNIIEIGSYIFDNERLTLNNKNHVQQLTEMEASLIEYLYLNHNQLLKRDQIL
+MSVWKKDDYFSGRSMDVFISRLRKYFNSDPKISIESTRNIGLEFKIEKP
+>tr|A0A1S1J384|A0A1S1J384_9FLAO
+MKVTITHIDTACVLININGFKIITDPTLDKKDDFFPQYVSRPLAFSKKYIDPALSIAEIG
+KVDLVLLSHDHHSDNLDKNGRVFIKTVPVVLSTKDAVKRLKNNNTIGLDNWEEYTVETTR
+VKGLKITAIPAQHTNIKRLDKVMGKVIGFTIEWEDQTGGCLYISGDTVLFEGLLELEKRK
+KVETAILHLGAGAFPYLKRNLRVTMNGEEALETTRLLNPSTVIPIHYEGWWHFKQSVKSL
+KSEIEKSELREKFLWLESGIETALKF
+>tr|A0A1S1J3R0|A0A1S1J3R0_9FLAO
+MKSNLKNFEASPQLYARIAGILYLVIIVMGFFAETFVRNKLFVSGDATATAQNIMHSQFL
+WKIGITADLIMQICDLPVMIILYYLLKPVNRKLALLNLSFNLIQTAVLVANKLNLLAALF
+FLGDAEYLKSFSPDQLHTLSYLSIKLHDFGFGIGLIFFGFVCLLEGYLIFKSGYLPKTIG
+VLMSLAGICYLTNSFFLILIPKLSSIILLMPCLIAELSLSLWLVFKGVKLPVWKQQLV
+>tr|A0A1S1J3X6|A0A1S1J3X6_9FLAO
+MLTIIDKYILKRYLATFSVMILLFIPIGIVIDVSEKVNKMLENKIPFTAIAIYYYNFTVY
+FANSLFPIFLFLSVIWFTSKLANNTEIIAVLSSGISFSRFLRPYIIGASIVSVFVLLMGF
+FIVPAASEGFNNFRYTYLKGNGKQLMRGENTNVYRQINDNDFIFVNSFNEESKTAFNFTL
+EHFENEKLTYKITASRIKWDPKSKTYALYDYTKRTLGELNDQIEKSPEKRVAFKFELADL
+TPVVYIAETLPLGKLIDFIEKERKRGSGNIDMYLVVLYKKYSVPVSAFILTIIAVAVSSM
+KRRGGMGTNLAIGIAIAFSFVFFDKIFGTLAEKSAFSPLFAVWLPNIVFGILAVYLLRNA
+KR
+>tr|A0A1S1J697|A0A1S1J697_9FLAO
+MYFKKITLLVFLIFACGSSAQTLSLKEAIKTGLENYGSIKAKNNYTNASRESLKQSKRDY
+LPNLNLSAQQDYGTVNGQNGPLYGFGGLGVASSGLPLPEQNWNSAFGALYLVNMNWDFFT
+FGKTQEKINLSKIDVQAKEKDLKQEKFQQEIKISAAYLNLLASQRLLISQQKNLDRAQVF
+KKTAVARVKNGLLAGVDSTLATAEVSKAKIALNLAKNFVKEQNNKLVDLMGVAPQDFVTD
+SLFVTQIPKELLKENTATDSLHPLLQLYKTKIDYSNQQVKLYKRFYYPTMTAFGVLQTRA
+SGFDSSYATNQHAFTRNYWDGVNPDRTNYLVGIGITWNLTTPFRSNKQVTAQKFVSQGLQ
+EEYNQADRELKSQLNFAEDKIKITLENYAEAPIQVEAAKRAYLQKSTLYKNGLTDLTDLT
+QTMYVLNRAEIDRDIVNNNVWQSYLLKVAATGNFDLFINEF
+>tr|A0A1S1JA60|A0A1S1JA60_9FLAO
+MDLIEIISGRCLIEILGACVRFTYLNTIILFKKDDFITFSEIWSPKGNKNKKDANSERNH
+IIGVIFLGGIIFLLVIFTT
+>tr|A0A1S1JBZ6|A0A1S1JBZ6_9FLAO
+MKILKRILIVLILIVAIVLIAANFMPKTYAIEREITINKPVDSVFKYVRSLKNQNEFSVW
+ANLDPKMKSTYTGTDGDVGSVSAWESTVKEVGEGEQEITKITEGKRIDFALRFKKPMDDT
+AVGFMSTETAPGNQTKVKWGISGVIPYPMNIMLPMMKMDQMIGNDLQKGLENLKAKMEE
+>tr|A0A1S1J2A5|A0A1S1J2A5_9FLAO
+MASLSSIILPVLEGMEESHLKVQLLKFLPNQEEAFSKIEKSFNQLTSKVQDKERLQRFFH
+SWSQTNNSAMTVSGISNRMTMLVHKNQPIADEKALLQSITSLNRIVDEDLAVVGRILHSQ
+LFYTMATTICTDDDWLSRRYLNQSACDFKAWKDQNSLRNKDIMIALLTTLIHEIYTHGEV
+ELILPKFQSWLINDYGYTEEECDKTLAWISVHCGPTEKNHFFFAVSSIFHYAKAMNIDLE
+SYDLETIVNDYLAKKSAVMVDLLEVEELSF
+>tr|A0A1S1J9V7|A0A1S1J9V7_9FLAO
+MINFNYETEFTLDNEQAFSDWLSAVIVSENKNEGEINYIFCDDEYLHKINVEYLNHDTLT
+DIISFDYTVGNELNGDIFVSVERVEDNAKDFNVSFTEELKRVLAHGILHYCGYKDKSDAE
+AELMRSKEDEKIAMFHVEQ
+>tr|A0A1S1J700|A0A1S1J700_9FLAO
+MVTLQKGDKAPNFSGVDQDGKAHKLADYAGKKLVVFFYPKASTPGCTAEACDLRDNFERF
+KANNYELLGVSADSQKAQLKFKDKYEFPFPLLADEDKSVINAFGVWGPKKFMGKEYDGIH
+RTTFVIDENGIIDEVIEKVKTKEHAAQILK
+>tr|A0A1S1J3A6|A0A1S1J3A6_9FLAO
+MKIKCSFCNGKCIKNGFQSNGNQRYKCCVCQKRQQSEYGYNAYKSNINQNIILFTKEGLG
+IRSIARILKISTTTLLKRIVSIARSISKPIISKGKTYEVDELCTYIRHKKNYIWLVYALE
+KNSRTVVSFNLGKRTNKTLNRVLDTLKLSEAKKIFTDRLKNYRYLIDEKLHSVKRFGTNH
+IERKNLTLRTHLKRLNRRTICFSKSIVVFAAVLKIYFWV
+>tr|A0A1S1J4U2|A0A1S1J4U2_9FLAO
+MTIGVGGSNAIAELEKIQNMTLNVKSIQPEEYQMRIQKAVSLMKTAGFKSLFVNAGTNLY
+YFTGTKWNPSERMVGALLFEDGSLEYIVPKFEEGTFRKFMKIEGHLNCWEEHESPSVLFG
+KILETKGINNGKIALDESAGYFLVDAIVKANPNYEFENSQPVTTGCRIQKSANEIAIIQQ
+AKEITMVVQRAAARILHPGIKAETVVDFINQAHIKAGIASGSHFCIVLFADDSQYPHGVT
+TPQDLKDNDVVLIDTGCRLEGYLSDITRTYVYGTPTEAHVKIWNLEKAAQKAAFDAAQLG
+ATCGSVDDAARKVIAAGGLSADYELPGLPHRVGHGTGLDIHEHPYLVRGNTTVLQEGMVV
+SNEPMLCIPGQFGIRHEDHFYMTAEGPKWFTTPMHSIDNPFGIGIN
+>tr|A0A1S1J624|A0A1S1J624_9FLAO
+MSILIYAESAEGKFKKVAFELASYAKKVAETLGTTVTALTVNISDVSELSKYGVDKVLKV
+NNDKLAGFTAKAYADVIKQAAEKEATKVVLLSSTTDSIYLSSLVAVALNAGFASNVVGLP
+VSTSPFQVKRNAFSNKAFNITEITTDVKVLGLAKNSYGIFESAGSATEEDFNPTIGDNDF
+GVKVESVEKVTGKVSIADADIVVSGGRGLKGPENWGLVEDLAAVLGAATACSKPVSDLGW
+RPHSEHVGQTGKPVATNLYIAIGISGAIQHIAGINSSKVKVVINNDPEAPFFKVADYGVV
+GDAFEIVPQLIEKLKAFKAQHS
+>tr|A0A1S1J5F9|A0A1S1J5F9_9FLAO
+MSSDSSKRYAQRGVSASKEDVHNAIKNIDKGLFPQAFCKIVPDYLTQDQEHCLIMHADGA
+GTKSSLAYMYWKETGDISVWKGIAQDALIMNIDDLLCVGATDNILLSSTIGRNKNLIPAE
+VISAIINGTEELINELKSFGVTIHSTGGETADVGDVVRTIIVDSTVTARMKRSDVVDNAN
+IKAGDVIVGLASFGQATYEKSYNGGMGSNGLTSARHDVFGKYLAAKYPESYDAAVPEELI
+YSGQVNLTDAVANSPINAGQLVLSPTRTYAPIIKKILDTYTPADIHGMVHCSGGAQTKIL
+HFVQNLHIIKDNLFPVPPLFQLIQEQSKTDWKEMYQVFNCGHRMELYVPENIAQDIIAIS
+KSFNVDAQIVGRVEAADTKKLTITSEYGTFEY
+>tr|A0A1S1JBB9|A0A1S1JBB9_9FLAO
+MFEVYITKAAKYLPNEAISNDEMESYLGLINDAASKARRIILRNNKITTRYYAIDKSGKS
+THNNAELTRNAILQLFDENFTALDLEVLSCGTSTPDIFLPSHAAMVHGLLKNKSVELNSS
+TGVCCAGMNSLKFGFLSVKSGNSKNAICTGSEKVSTWLNAQMYNHEAANLKNLEEQPIIA
+FKKDFLRWMLSDGAGAFLLENQPKGAISLKIEWMEAFSYAYELETCMYAGGDKLENGEIK
+AWSDYAPEQWLNESVFAIKQDVKLLDEFILSKGAESMKEAMDKNNITSDHVDYFIPHVSS
+NFFVEGLKKGLNEKGIGMADEKWFMNLSRVGNVGSASIYLALEELMNSGNLKKGERILLS
+VPESGRFSFAYAYLTVC
+>tr|A0A1S1JBE5|A0A1S1JBE5_9FLAO
+MENSQFHFDSETFNRIFPFYVLLDHNLLIQDRGEGLIKVLPDLKCRGYFLRSFTITNPFI
+EELNVDNFYKVTNQLVIIESVKDKISLRGQFENYESGYLFIGSLSHTSLNYFEEKKISLY
+DFANYDAALQNSLNTIHQQENQLKEANKKIVDIALFTTQSPDPLIRIDFEGHLLKMNPAA
+EDLKNLIFQGIDYEIEDFLKFIIHQIDKRKERWMFEAENNGKCYSFVCKSLQQEGCVNIY
+GRDITEQKRNQEELNKLSLVAKTNKNGIVFTYPDGKIFWCNDAYLKLTGYENDEIIGKTP
+VEVGSDALSNKEEIHRMINAFYEGNTFEVEILHAKKNGGTFWSKTVGQPIFDSSKKVIQY
+FAMIEDISEDKQKEEQLLLLSSIADKNISAVIICDSEGKIEWANSSFTTMTGYSKEELIG
+KSPGRLLQGEATNPKTIAYLKNQIKQGLPFTCEILNYTKYKKKYWVRVQGQALHNKQGEV
+IKYFAIEENISQEKEFNQQLIDSENRLTSLITNLQSGILLEDEDRKVLIANKRFCNLFDF
+KGEPEEMIGFDSKMATEENKHFFKRSDEFIERVEEILRNKKNVFSEEIELADGRVYERSF
+IPIAKGKKNDGHLWSFEDITIKKKYKESLEAEKEKYRNIIANMNMGLLEVDMDDVIQLAN
+QSFCDMSGFSLIDLLGNNASEILLHPEDKKLVNFKNKERVKGKSDSYEVTSINKKGETRY
+WLISGAPNYNVNGEVIGSIVIHLDITRQKSLELQKEELLKKLEKQNEQLNDYAQIVSHDL
+KSPLQSIHSLVTWIKEDNDKEFNAQTSQYLDMIEDKVEKMDHLIEGILTYSKVDDIEMIT
+ENINLNVEINKIIDIIHIPKNIEVIVKKELPTIKAERFRMQQLFLNIISNAVNYIDKPLG
+IIQISFEEEKKHYIFAIKDNGPGIAAENQEKIFKIFQSFTSNKKSTGIGLSIVKKIVENY
+KGNIWIESELTKGTTFFIKLPK
+>tr|A0A1S1J1N9|A0A1S1J1N9_9FLAO
+MKQLKLYGMSRAFNTTLKASTIDELITYLINSEYDDRENRKVERLINIAKFRYKAFMEEI
+DFDSSRRVEKNLINRLEFYDFIF
+>tr|A0A1S1J397|A0A1S1J397_9FLAO
+MIKLIPSRFRIYCYSASCFLVFTGCKTIDQDVIQHNFIVGERNKGDLFYNNLLDVSIEIP
+KGVVYDDLSKIKKSALQKRIGNFKDVTASHLFLSYKTDQNLETFYFFEKIEKPSDTIVHE
+KLLQNDSINGIIVYEKLKGSKRIVALTRMSANTNHLEKATESMRKVHLDSTSLNKLSYMH
+LFNYYTTEPHKNYLQGREKIKKAPIKDPKKIMLKDPLYLTINSYIGDNKEYDALIKGYES
+DKNDFNRTVLNSLSQNEVKKEEAVIAAIGDLANDNQMIILNEDHFYPKHRLFAMNLLDVL
+KQKGFTVISMETFTPNYSTNTAPVPNAKNGFYIKDPYFGHFVRKANAMGFTLVGHENSDQ
+KIDREIGQARNVMKILEKDPKAKIFIYVGHGHLEEEGKKRLMANYLKEYSNIDPVTINQE
+TVMMKIKEKLVLLPKSVFAKDTLMKSSADYFLINNLEANLQSVYPNQVFKKVSLKDQKFI
+PLKNQELLVDVFLLDEYNTTKNADLLIPIQSTLITPKSDTIETNLPVGQYYITVKSANND
+LFLFNRIEVN
+>tr|A0A1S1J860|A0A1S1J860_9FLAO
+MKNVASFIAVVLFSTISYAQNGPKIEFEAQDNTIDYGKISKSDNGVRSFEFTNTGDAPLL
+ITGAESTVSSIVVTKPAAAVMPGKKGKIDVKYNMVSGPIRKTITVETNAVNYPDGRVALK
+IKGEVL
+>tr|A0A1S1JAK6|A0A1S1JAK6_9FLAO
+MNTKGHCYPKYIILQAVYFKLRFTLSYRDVEELMKIRGVIVDHATIQRWVYKFTPLIESE
+MKKIKGRVGASWRLDETYIKVKGIWCYLYRAVDKLGNTVDFLLTRKRQRMSAQSFLIKAI
+DNNYRLRVIKIDKSSSNIAAIKVYNKRSFSKIKIRQCKYLNNIVEQDHRFIKWRIQNGLG
+FKSFESAKRTLSGIEVVNMLRKNQMVKPGKSMFKSFCKLAG
+>tr|A0A1S1J0T3|A0A1S1J0T3_9FLAO
+MKKIVLLMIAFNLINACQKPKDNNNYHYSIKVKNNTNKVLYIYRGFDSVMPLGDFRSDPY
+FKTTAAFAGNGNIEIGEIRFTGGGRPTCIEDILHVDERLYIYVFDSAFIANKKWDEILKD
+SLVDGRLEVTIDELIKNSFTINYNKK
+>tr|A0A1S1J2H1|A0A1S1J2H1_9FLAO
+MIAKIGRSGNLYGALAYNQLKVKNENGQILFGNKMIETASGHYSVAQLVQSFAPYLIANR
+NTEKHTVHISINPDPKDVVSDDRYREIAEEYMREMGYGQQPYVVFKHTDIDRSHIHIVSV
+CVDEEGKKISDKFEKMRSMNVCRELERKYGLIQVADKECGKDERVFRPVDYRTGDVKSQI
+ASVARHVPNYYHYQTLGEYNALLSLFNVTAEKVEGELHGQLRQGLLYIPLNSKGERAGHP
+FKSSLFGKSAGPSNLELHYAKSKEALKHHPAKPAIAAAVNIALKATSDEQAFKKLLSEQG
+INVVTRRNGTGRLYGITFIDHNSKTVWNGSRLGKELSANTFNDYLNSSIKLETKKPVELQ
+SKISASNDAELPAEEPHNLFDFLNTAEKYEDGLIEAFGGLLLEAQGEDYREQDFVNKIRK
+KRKKRSGR
+>tr|A0A1S1J482|A0A1S1J482_9FLAO
+MNPLIQQFKKYGTLSSIAETAIEQKTKIFIKKKNEHFLKQGQLLTSYFVVKKGVFRAYIN
+RNEKEINVWFGEENQIFGAIMPMYANKPSPEYIQFLEDSEVYAIAVDDLEILYEQYPELN
+RIGRKIAEELCVILEDRITSLHTESATERYQSLMEQQPSLVERINLGHIASFLRVTQETL
+SRIRKR
+>tr|A0A1S1J4M7|A0A1S1J4M7_9FLAO
+MKSIQRLVLLLCVVLSSYFVSAQNKSDLYQKLTVLFPKAEITTIENLEGYAESYQLILDE
+PLDHKNPQKGTFKHYVYLSHLNFSNPMVIETHGYNTNNIKSEVSKLLNANQIAVEYRFYG
+KSRPEPLPWEYLTNDQAIADYHNLVTKLKQLYTGKWISTGISKGGETALIYKSKYPDDVD
+VAMPYVAPLINTQEDPRTVEHTKTVGTAECRAKITAFQRAVLENREAVLKEFEQYAEEKK
+MTFAEVPFAEALEYAVLEFPFSFWQWGGKCEAIPSVTASPKELFAYLDEVSGVRTYNDKM
+YFHYLPSYYQHLKELGYYGFDFSPVADLLQVVKSASNDRFAPKGVVIKYNPKYIREVRKY
+VENKGSKILYIYGGYDTWYSCAPTPDSKLDALKMVLPGGSHTTRVKDFPESDKKRIMETL
+SRWLDLKALNDKAEIN
+>tr|A0A1S1J5X0|A0A1S1J5X0_9FLAO
+MKLLFFYFIVVLSSYSQTSFHGILKSLNGVSETNISESNRASFYLGKDSFDKFTSNKILD
+LYKDSSTKAEYCIIPISISSEFNIYVQIPSFILKEKKNLVTTNVYGSYLIFDKKDSKLYR
+IDCESSCGSVYKKNKNVLITNSSFNMLMPSVFILDKDLKNLKKVM
+>tr|A0A1S1JCX7|A0A1S1JCX7_9FLAO
+MKFSKLLNVLFYILPLAAIAQTEISAVATDASCTGDGRADGTIKITVKNVSEPIVYAVAK
+SPYDPANIIASTDSLITHLEPGDYFYGYYENNTFIKAATTIKVGSTYSSISPTIGLFTAK
+NYTYCASDPDPLGDIAINVEKGNPPYTVNLLNASDGTVVRNVQTTTGIVKLSGIPSGQYK
+VSATDNCGTLISPVTVLNLPPNEVLKNFNLDKGTINAVDLIYNTPNDVCSGISSATLPNG
+LLAVSTGGAYFNTLPALYGVPNFIYKLEIQNGSGWDVYNNLTLTDVKKKYAMPSDRSKWG
+IVRLSATYCNITKTVELDYGASTIGTVKPFTDFEFSIEDDPLNTNCNDTGQVLLKNVPKD
+QGGCLPYTVEVTDNSTGIKNTYTVTGINSLEICKLNIGKSYTIKVTDNTGIAIKTYTFTN
+NTSNTFSQKPVITDPKNVFIDPNYFAPDKDIKGKIQFFTGPSATFFGKCALAVYPPMATP
+GYVGLQGKVTVSLVNGPSPLAVTYKEPIFGLGNELLPGTYTIRIKDSACFDEEFQVVLDS
+YFTKIEITNVSFNPDASRCDRYNKNVTIKVSAVGTGAINSTLASFYGNNQIFPGIVSGPA
+GMGTFNAILGSNSLKQGISNFSFFQDIAGKYEIGIARKFIGGRPLLQSELIENTQTAFVD
+VQPNFPAFDLSKSGGIVCLGNTTGDLYTQVDQVTETVTYFIKKETDSDFPSTGQSSPVFK
+GLTPGNYIVKAKTACYEVLQPLILRSSFSQLINGGDRAVCIGGDIKLSIIQMGPINSIKW
+TLPDGTQIDAPELNINNVTAAQIGTYKVEINSFGGCYFTESINITLGGLPTPTGNSTQQF
+CAAAKATVADLITVETNVVWYDAAIAGNIIPSATLLIDGKTYYAAAKTSTCESTNRLAVT
+VSISDPKTPTGAATQEFCAATNATVADLAASGTNIIWYDAFTGGNIIPSSTLLMDGKTYY
+ATAKTGTCESTNRLAVTVSISDPKIPTGAATQQFCAATNATVADLAASGTSIIWYDAFTG
+GNIIPSSTLLMDGKTYYATAKTGTCESTNRLAVTVSISDPKTPTGAATQQFCAATNATVA
+DLAASGTGIIWYDALTGGNIIPSSTLLMDGKTYYATAKTGTCESTNRLAVTVSISDPKTP
+TGAATQQFCAATKATVADLTASGTGVIWYDALTGGSIIPSSTLLIDGKNYYAAVKTGTCE
+STNRLTVTVSIADPVTPTGAATQQFCAATNATVADLAASGTGVIWYDALTGGSIIPSTTL
+LMDGKNYYAAAKSGTCESTNRLTVTAIVKNDLPNKDPDWLTSACISEKVTYTTAAGMSSY
+NWLISNEGTIVNGGQQSDDFVTVLWNNAGKGAVEVNYIDETKCNPLVNINFSIEIKSCLK
+PNEDADIEIRKTINNPMANIGQQVVFTISAENLGGNNFNNVQIRDILPSGYMYTSSKTSS
+GDYNITTGIWNLPELLAKQTETLTITAKVKATGDYLNIAFLENSTPEDHNPNNNKAQAGI
+TNPEVIVFNMVSPNGDGKNDYFEIRGLERYPNNSVTIYNSWGVIVFDTTNYGANDHFFRG
+ICEGRATVNQNVGLPPGTYFYVLSYGNGALMTEKSGYLHLTSR
+>tr|A0A1S1J0D6|A0A1S1J0D6_9FLAO
+MKKIITSFSLLLATTLAFGQQLGDGYAPIITDFNVPLLSGSYSGLDVTAGATPDPYGWQH
+FFAIRHGNSNYNYQLQIASSFLENDRLFFRKLATTNSSPRNSGWVELATRGSNNFIGDQI
+VNGGIVGSGSGDTGVYLSLVNSSKTAPAIAKRWTIYNMTGSYGNSLQFWAYDNLSCGSGL
+CNNRFTIMDNGNVGIGITIPQNKLDVKGTIHSQEVKVDMLGWSDFVFKKEYDLPTLAEVE
+KHIKENGHLEDIPSEKEVLENGINLGEMNAKLLQKIEELTLYMIDIKKENDQMKVKQLEF
+EKTINELRKKSK
+>tr|A0A1S1J0H2|A0A1S1J0H2_9FLAO
+MKSALEIKPDISYKSAGKFEETRFEKIHNEIFRNSAEASVIVAQEIAQLIRSKQEKNKSC
+VLGLATGSSPIKVYEELVRMYREEGLSFSNVITFNLDEYYPMSKENNQSYHYFMHQHLFN
+HIDIKPENVNIPDGTVAIEELNQYCIDYEMNIKNAGGLDFQLLGIGRTGHVGFNEPGSHI
+NSGTRIITLDHITRVDASSDFNGIDNVPKRAITMGVSTIMRSKRIVLMAWGQNKADIIKR
+TIQGDISSEVPATFLQNHPNATFVLDQSAASELTRFKTPWLVGECIWTQELKSKAIVWLC
+QKTKQSILKLTDRDYNNNGMSDLLAQEGSAYDLNINMFNVLQHTITGWPGGKPNTDDSHR
+PERANPAKKRVILFSPHPDDDVISMGGTFSKLIKQGHDVHVVYQTSGNIAVTDDEALKFA
+EVAKDFLGDAASGINFKAVIEFLNNKSENQIDSLEVRKLKGLIRRRESYAATRYIGLKDE
+NTHFLDLPFYETGQVKKNPLGPEDIAIVKDIIAQIKPHQVFAAGDLADPHGTHEVCLNAI
+FAAMKQLKPEKYMDDCWLWLYRGAWHEWDIHEIDMAVPLSPSEVLLKRHAILYHQSQKDR
+VMFQGNDSREFWVRAEDRNKNTAVLYDELGLAEYEAIEAFKRFDY
+>tr|A0A1S1J2Q7|A0A1S1J2Q7_9FLAO
+MKKILILTILITLLMIPVKSMGQSAEIQQLILNIEKLSQFKKILSDMKKGYELLSGGYKT
+VKDMTEGNFSLHKTFLDALMQVSPAVKNYKRVAEIVEYQISIVKESRNGMNRFIKSGNFS
+GQEINYFEKVYGNLLNQSLRNLDELTMVITADKLMMSDDERLKAVDDIYEQMQDKLLFLR
+NFNTTSNVLALQRSKEKNDVYVSKSFQEFKE
+>tr|A0A1S1J5R2|A0A1S1J5R2_9FLAO
+MIKNKTIQNSITIVILFLSGISFAQQKASNTVSLDVFYAKIQSEKKPQIIDARGPEEFAL
+NHINGAQNFNLESKDYAKRIAALDKTRPVFTYSIGAGRSVWLADELLKNGFKEAYSLEGG
+IANWIGNGKPFYSNSKSKLTLVEYNKIISENNDVLVDIGSVYCGACKKVKPVLETIRTQY
+GANLKIVEIDLEDSPQVIADLKTVKVFPTLILYKKGKIIFKKEGLGDLKNDVDVALASK
+>tr|A0A1S1JA99|A0A1S1JA99_9FLAO
+MKRILKLLVLVLVLAFLYFGFTTYPKLDLISGFSAKSVASGHFIDNRSKELIEKTDNDIH
+MIDLAENTIDDAGKFAVSTVYGLKERKAIYREGLGATLIDNDYDISKPYLLPKRTKLVNN
+LSFPYGNKEPKDTTFSNIDYAKLKKAVDGSFDVKGQKNKRSRAVVVVYKDKLIAEKYDTG
+FNKDSKILGWSMTKSITSSAFGVLAKQRKIDIYKPAPIAEWRNDDRKNITVNDLLHMNSG
+LEWEEDYTKICDATEMLFQAEDMGKVQMDKPAKFKPNTHWYYSSGTTNLLCRILRGQFKT
+QQEYLDFWYSALIDKIGMNSMIVEQDMSGIFVGSSYAWATARDWSKFGLLYLHKGNWNGE
+QVLEESWVKYTATPTNTSNGGYGAQFWLNAGGKFPDAPRDMFYCNGYQGQMVAIIPSLDM
+VIVRMGVNEGDHYFDFNEFLKEIISSIKK
+>tr|A0A1S1J0G0|A0A1S1J0G0_9FLAO
+MNKKVILMILDGWGKSPDPKVSAIDNANVPFINSLYKNYPSAQLRTDGLNVGLPEGQMGN
+SEVGHMNLGAGRIVYQDLAKINLAVAHQTLAKEQVLIDAFTYAKENNKKVHFLGLVSDGG
+VHSHTSHLRGLIDASQEYGLENVFVHAFTDGRDVDPKSGAKYIQDLEEHIKNTPVKIASI
+VGRYYAMDRDKRWERVKLAYDLVVNGIGTPSKNAVSSILDSYAHDVTDEFIAPIVMVDEQ
+EKPLATITEDDVVIFFNFRTDRGRELTEALSQQDFHEQNMHKLNLYYVTLTNYDETYQNV
+KVVYNKDNITETLGEVLEKAGKKQIRIAETEKYPHVTFFFSGGRETPFEGESRILRNSPK
+VATYDLQPEMSAYELKDALVPELNKGEVDFVCLNFANGDMVGHTGIMSAAIKACEAVDAC
+VKEVIEAALANDYTTIVIADHGNCETMINPDGSPNTAHTTNPVPIILVDKELKNIQDGVL
+GDIAPTILELMGVPQPNAMTCHSLL
+>tr|A0A1S1JBX2|A0A1S1JBX2_9FLAO
+MLKYSKIAGLVVFVFLFAMCNQKSKNDKETILKGAIDITVDETIKPIVDDQVAVFEGTYY
+DAKITVKPKSEAELINDLLNQKASVVVTTRDLTKEELAKFEKSKIKPRVTPFATDAIAFI
+SNKGNNDTLIALETVIDFMQGKPDARIKGLVFDNPNSSSVRYMKELAKVKDVPAKGVFSF
+KTNDEVIKFVSENDGMIGVVGVNWLSQPSPNMVDVVKKINVLSVKGLNSNQYYSPTQNDL
+AEVKYPLARDLFIINCQGYSGLGMGFASFIAGDIGQRIVLKSGLLPVRTPGRKLKIRNQI
+VKDKE
+>tr|A0A1S1JCL3|A0A1S1JCL3_9FLAO
+MSSNLIIRLRAGDDSCFKEIYDLYHFKVFCFVKKYTSQLADSEDVTQNVFIHLWKYRTKL
+DPQVSLEAVLFKSSKQEISRWYKKQNRIFSVEDNALILELDSKTQSEEEVSLQMERIEYL
+LDKIPAKRRKIFSLHKFEDRSYKEIAEEMEMSPGAVANQISKTLQFLKKNSVHNHELYWF
+ALFFVYQTELVL
+>tr|A0A1S1J5F2|A0A1S1J5F2_9FLAO
+MGNIGLGIKKLRLVCDEGFFTFYENRNQSDCSTVRKKVEVAYSTKRTENSKVKRLKILLL
+CGCFPGLKNPLFELGEI
+>tr|A0A1S1J6T9|A0A1S1J6T9_9FLAO
+MNEEIIKAYEVIKEGGIILYPTDTVWGIGCDATNPEAVAKIYKLKQRAETQSMIVLMNGE
+KMMYNVFKNIPEVAWQILDLSEKPTTLILDEPRNVAPNIIAADNSLAVRLVKEPFCFKLL
+ERMKKPLVSTSANISGQPTPIGFKDINPEIVKGVDYVVNLYHDRIAGKPSTIIKLTNDSQ
+VKVIRK
+>tr|A0A1S1J807|A0A1S1J807_9FLAO
+MYSNQKIQIFLLHFAGGSCYSFDFLKNYIQNSFEYHALELPGRGKRNLERHLHKKTDAID
+DYVSQIKRLRNSNQPYIIYGHSMGATLGLSVAKKMEEQLDSPHILIVSGNPGPGASYNDK
+VRHSLADSEFKEELRSLGGVPEEILEDEDLYNYFSPIMRADFEILEKNKLSEVGLVINTP
+IYAVMGDQEETSKDIQNWELYTSGKFDYQVLPGNHFFIHNQVKTLAKIISECAAYSAVCT
+>tr|A0A1S1J016|A0A1S1J016_9FLAO
+MTLIKSISGIRGTIGGKVGDNLTPVDAVKFASAYGTFLKNNTSKEKLTVVIGRDARISGP
+MIHNLVVNTLIGLGINVIDLGLSTTPTVEVAVPLEKADGGIILTASHNPKQWNALKLLNA
+KGEFLSGEEGAKILEIAEAEAFDFSDVDSLGEITINDAYMDIHIDEVLNLPLVDVEAVKA
+AKFKVVVDGVNSSGGIIIPKLLEQMGVEVVKLYCEPNGHFPHNPEPLKEHLTDISELVVK
+EKAHLGVVVDPDVDRLAFISEDGEMFGEEYTLVACADYVLSKTPGNTVSNMSSSRALRDV
+TVAHGGKYEASAVGEVNVVALMKKNNAIIGGEGNGGIIYPESHYGRDSLVGVALFLTHLA
+NKKMSVSALRASYPEYYMSKNKIELTPQIDVDAILEAMTEKYKNEDISTIDGVKIDFATE
+WVHLRKSNTEPIIRIYTEAPSQEKADVLALRIIDEIKAIAGI
+>tr|A0A1S1J3F2|A0A1S1J3F2_9FLAO
+MKYLLTSLLALTLFISCNSDKENKKTDYTVENEKEITDYIAKNKLNAIKSTTGLYYIINE
+PGTGAQPTASSNVTVAYTGYFTNGKVFDKSKTEGISFPLDRVIKGWTEGIPYFKEGGSGS
+LLIPSHLGYGSGGTDGIPGGAVLIFDIKLLKVNK
+>tr|A0A1S1J234|A0A1S1J234_9FLAO
+MSKKRILLKIGSNTLTKETNHISRGKIEDLGMQIAALNKEYEFVIVSSGAIAAAKQFVKL
+ESKGKEIVVKQALASIGQPHLMRIFHENFSDLGLLTSQCLLSYSDFEKEQSKVNIVNTIN
+VLVENNYIPIINENDTVATDEIRFGDNDKLAALTAVLLNVDILIIATNTNGIYTKDSIHD
+EIPETIKLVQDLKVLEKEIGESKSSHGTGGMQSKIEAAAIAKAANIETWIVNGLDDNFIL
+RALKEEIPFTRIV
+>tr|A0A1S1JAE1|A0A1S1JAE1_9FLAO
+MKTYATLLLIMVPVFSFNSFGQHSAPTPAAIENATLLLDGTPKDGLVIVGYYVEETVNMA
+FGKRITQYEVPKISMIDTYNLGPNNTRTVTPIYGKAKVKIAEENLQPKTVSKTITNVINP
+VKVAVIAPTKPQKYINVDVVTTYEKVIDKGYKTPEMLAKVADRAYFEGDLVTAAKYYGQL
+IEMNADLEAMYYYRYAQSLKEINQIEKANEIMKLFEIKNSASKVARK
+>tr|A0A1S1JAL6|A0A1S1JAL6_9FLAO
+MDINEISFENLPKAVAHIVKEIAEIKLMIQNIQVYESKEKNIPIGIEEASRLIGKAKPTI
+YALVRQRKIPCYKYGKKLYFFEEELLEWISKGKKKTIQEIESEVLKYNHN
+>tr|A0A1S1JB54|A0A1S1JB54_9FLAO
+MLDIQKIRADFPILSEKVNGKPLVYFDNGATSQKPQVVIDAIAKYYQEINANIHRGVHTL
+SQLATDAYEISRVKIQHHINAKFSHEVLFTSGTTHGINLVTNGFASILKPGDEVIVSSLE
+HHSNIVPWQMLCEKTGATLKVIPMNEEGELIIEAYDALLSEKTKVVTVNHISNALGIINP
+IKYMIEKAHAVGAAVLIDGAQAVPHLKPDVQDLDCDFYAFSGHKMCGPTGTGILYGKEEW
+LNKLPPYQGGGEMIKEVTFEKTTYADLPHKFEAGTPNIAGGIVLGTAVDYLNHIGFHNIH
+QHETHLLQHATKRLLEIEGLKIYGTGKNKASVISFNIDGIHPYDIGSIIDKLGIAVRTGH
+HCAQPIMNFFCIPGTIRASFSFYNTKEEIDIMVEAIKKAKAMLS
+>tr|A0A1S1JCS9|A0A1S1JCS9_9FLAO
+MTHNKSTSLFESKQVKEALMQSFVKLNPKLMIKNPVMFTVEIGTAIMFAVCVSILMGAAD
+QGSFIYNLIVFLILLATLLFANFAEAIAEARGKAQADSLRKTREETPARQILPNGEIKNI
+SSSELKKGDIFICEAGDLIATDGEIIEGLATIDESAITGESAPVIREAGGDKSSVTGGTK
+VLSDKIKVIVTSEPGESFLDKMIALVEGASRQKTPNEIALTILLAAFTLIFIIVCVTLKP
+FADYANAPITIAAFISLFVCLIPTTIGGLLSAIGIAGMDRALRANVITKSGKAVETAGDI
+DVLLLDKTGTITIGNRKATNFYPAKGVSEEDFIKSAVLSSLADDTPEGKSIVELAGAELA
+NKLSIEGATLIKFTAETRTSGVVLKDGTNIRKGAQDAAKNITLQAGNSFPEDIAQKVIDI
+SSKGGTPLVVIKDNQVQGVIELQDIIKTGMKERFDRLRKMGVKTVMVTGDNPLTAKFIAE
+AAGVDDFIAEAKPEDKMNYIKNEQNLGKLVAMMGDGTNDAPALAQANVGVAMNSGTQAAK
+EAGNMVDLDNDPTKLIEIIEIGKQLLMTRGTLTTFSIANDVAKYFAIVPALFITAIPALE
+GLNIMRLHSPESAILSAVIFNAVIIPILIPLALRGVDYKPIGASAILKRNLLIYGLGGLL
+VPFIGIKLIDIVVALFM
+>tr|A0A1S1J3G2|A0A1S1J3G2_9FLAO
+MKNKEFNIPPVYAVLLAIISVQCGAAIAKSLFPTIGAAGTASLRIGISAVILLLAYRPNL
+KAVTPKQWRIVLPYGLTLGAMNLVFYSAIERIPIGLAVTLEFIGPLLVAIVGSKRLLDYC
+WVVLAALGIVLIAPWSNDQIDPIGVLFALFAGALWAAYIVLGGKVSKIMHGGEAVATGML
+FGAILILPFGIYENGLINLTPKLFGMGVALALLSSTIPFTLEMKALGQLPPRTFSILMSL
+EPAAAAICAFIFLQEHLNFYEILAVICVVIASAGSTLTAKR
+>tr|A0A1S1J569|A0A1S1J569_9FLAO
+MYKGTLSKKVEVFTHIIYWLLMGYFTFVKNLIQAKNYTPDLFLCTYMIVFVLTFYFHYFV
+VMRLVFKSFQWKRFFAGVLVSYLFFTALRWLLEQEISQVLFHRINYINPTFFNYMEDNLH
+YSSMTVILSSLLWFVIYFIRLLEYNQVILEESKNTEIKFLKAQINPHFIFNTLNNIYSMV
+YFQSDKSLMAIEKLSQIMRFTTYESQKEKIKLADEIDYIKAYIELEQLRHQDSAFIDFRI
+ETQNSSEEIPPYILSPLIENALKHGVTSNEKPILIELRLEDKKLNFKVVNDIAVQKKDKL
+GGIGLNNLRKRLEIHYPQKHQIKVVNQNNQFTAELEIELK
+>tr|A0A1S1J7V9|A0A1S1J7V9_9FLAO
+MYSKEESQKIKREFWVAFAEKYPRKWVLYDTKIKDFSFKFYVDNKKAQVLIDIEQRSDEK
+RNAYFEKIEALKNILEEEFIKDLVFEKNYTLESGKTISRIWVEKPGVGFSNRNNWDAIFD
+FFNEKMHALEMFYLEYDEFIKDIDS
+>tr|A0A1S1J853|A0A1S1J853_9FLAO
+MSAEKLEGSLQTTYHNAVATVEFGHPASNSFPRQLLDRLTSEINTLSQNKAVSVIVLQSL
+GTKVFCSGASFDELLAVKNEQQGAHFFSGFAHLLNAMRNCSKIIVARVQGKAVGGGVGII
+SACDYVFATPESAVKLSELAIGIGPFVIEPAVSRKIGKAAMAEMTLAAQAWKSAAWALEN
+KLFTEIHNAENLDVAVADFAQQLSLYNPEALYEMKKIIWEGTEHWESLLVERASITGKLV
+LSDFSRNALEQFKK
+>tr|A0A1S1J0L1|A0A1S1J0L1_9FLAO
+MKVRNFLIAIVSIAGGFSSYAQSNLLNAKTPAQIGLKTPAQLISDNDKPLAYGYVDDRDI
+LMGKTTWEIIDLNEKINFPMYFPVDTANIGSDRRSLYDVLTKAVKSGKITEVYSDSYFNT
+KKSLKDIQGALSRIDTTDAGRELINQYPDDYKTRVVKKKVVTGTGKKKVVSYVDETVGPT
+RTVPAEYILKQDLTAADVTQYKIKGYWYFDKRQSELKYRLLGICPVTPDVYTMNSDEKDY
+IELFWVFFPNAREALHEAKAFNDNNSALPISFDQILNSRRFNAVVYKEENLYGDREIKDY
+MKDNAQNQLLESERVKEKIRNFEQDMWNY
+>tr|A0A1S1J7R7|A0A1S1J7R7_9FLAO
+MKLKIPLSYHIFLFLGLYITFNLWEIGINNRDLDLVFNRISFMFNISFIVVIFIVYFLNF
+HTFCKWFLNKKKILLFVMSIPVSLLIFSAIRYFVQEVILYELTGIHNYAKETREISYYIK
+DNFFFGLPAVILSSLAYLFFHFQETQKQNQELVLENKKAELQMLKSQVSPHFLFNTLNSF
+YSQLVLKEDEMASDILVLSDLLRYVITETEKDEVLLFKEIQFVENYIHLQKKRFEDQLYL
+DFVIEGNYSTEKILPSVLVHFIENVFKHGKLNKEEEKAVIAIIIKENFLELSTFNYNGTG
+ENYSSTGIGFDNLSKRLEHAYKGEFTLEKIAEKNTFKTYLKIPLKK
+>tr|A0A1S1J2I6|A0A1S1J2I6_9FLAO
+MKKIIILLLIGTAFSCKNTQSVTLKDNSDPSKYIDFISEKDLKTMLYVVASDEMEGRETG
+SKGQKKAGLYMIGQYKKHGISFPKGATDYYQHIPASFLNARRNENLPDSENIWAYIEGSE
+KPDEVLVISAHYDHVGVKNGDVYNGADDDGSGTVAVMEMAKAFAKAKKDGHGPKRSILFL
+HVTGEEHGLHGSRYYSENPLFPIANTIADINIDMIGRRDVEHEKTNNYVYVIGADRLSTD
+LHNIVVAQNEKYTKIDLDFKFNDPKDPNHFYERSDHYNFAKFGIPSVFFFNGVHEDYHRK
+GDEPQKIEYDALTKRTKLAFSIAWELANRSDRPVVDKPIK
+>tr|A0A1S1J5Q8|A0A1S1J5Q8_9FLAO
+MNRILEAAFLFVKPELASQFEADFTKASQYISSINGYLGHRLEKCLEVENKYLLLVDWNT
+LEDHTVGFRTSEAYLQWKKILHHYYEPFPIVEHFETVFENKK
+>tr|A0A1S1JAR7|A0A1S1JAR7_9FLAO
+MIQKITPNFTKIVLLFSLVVLTKLNSYAQTPVIGPQQLPFERICAGFIVNGVVFNEYFAT
+FSYVDFPAGTTFAVELSDETGSFTNPTATTTLAVTDDTALKQQTIKFAVPTNLKGSDAYS
+LRVKSLNTTPVVNSPRFKNAVGNTTFSVYYSTYVSSFYINEKQPTASFCAGGNLTLSVYN
+PTPSDQASSPANYSNLKYKWYKDGAVIAGQSSKDLIVNAAGKYYAEIDYGLCSDVNFSSN
+RVDVTTSGSGGSAVTISSSLGNPFCASGSGTVLTATSGNTYVWKKDGAIISGATTRSINA
+NASGVYTVQVDFGGCSATGTIDLKSNSFNASIDAPETTSINEGETLNVSVTTDASNPTFE
+WFLNGNAIASATSSSYVVSIPGNYKVKISQASGCISSQEFSFKVTGPMASTTVIPNVVSL
+QNPYWNIPDVYKTVQTKIIIMSSNGEIMYDGLGSDYNPETNTFIKDFKNVNPVYYYVIKS
+DNGEKKGSITVIR
+>tr|A0A1S1JBQ4|A0A1S1JBQ4_9FLAO
+MKINSLIIEIDGIDKEILRYLMDDARKPILQIANKIGISGAAIHQRLKKLEQSGVISGSK
+FTVNPKVLGYNTMAFVGVYLDKASRNSEAVKDLKKIPEVLECHYTTGNWSVLIKIICRDN
+EHLMQLLNTKIQAIEGVSRTETFISLDQQIDRQIQL
+>tr|A0A1S1J1H2|A0A1S1J1H2_9FLAO
+MARPERNSVDYFPFLCEEGKKMFYLEETYGNDGFATFVKLLRELAKTEYHYLNLSKPSTM
+MYLAAKCKVQKTVLEAIINDLVDLGKFDAVLWKENNIVWCQDFIDSVQDAYKKRNNNCIT
+FDGLLTLLDSLGIRKLKKDQTIDSINTQRKEKESKVEESKEKLDARKLKFSSTLQPFLDL
+YGKDFLNDFYRYWTEPNNSGTKFRRELEKTWDLERRLSTWAKNNKNFKPIQNGSAQSSGG
+FSKNR
+>tr|A0A1S1J2V1|A0A1S1J2V1_9FLAO
+MTTNKYWGKVEQDWAGFSSDVTFTDPFFDQHDVEIFLGEEFDEEGEEIEEPPTEDQLTQF
+EETYQNFITNIETNLKSIQKKAYERYLKLYAHFYEDSEKSGEPALNIDNLDKHNEYIKEI
+MYLRVLDEKTIKVSIRYKLDTEHGLEFKFVGGQIKNVGGIAET
+>tr|A0A1S1J3X8|A0A1S1J3X8_9FLAO
+MAVTEVQFGIKEALSQLGIKEVNEGTSTGLNHFSGGEILESYSPVDGQLIAKVKTSTAAD
+YEKVMEAATAAFKQFRLMPAPQRGEIVRQFGEKLRVHKEALGKLVSYEMGKSLQEGYGEV
+QEMIDICDFAVGLSRQLHGLTMHSERPGHRMYEQYHSLGVVGIISAFNFPVAVWAWNTAL
+AWICGDVCVWKPSEKTPICAIACQNIISEVIKENNLPEGISGLINGDYTIGELLTKDTRV
+PLISATGSTRMGKIVAQVVAGRLGKSLLELGGNNAIIVTPDADIKMTVIGAVFGAVGTAG
+QRCTSTRRLIIHESIFDKVKDAIVAAYKQLRIGNPLDEKNHVGPLIDTQAVEMYQQALRK
+VVAEGGKILVEGGVLSGSGYESGCYVKPAIAEADNSFEIVQHETFAPVLYLLKYSGTVEN
+AIAIQNGVAQGLSSAIMTNNLREAELFLSVTGSDCGIANVNIGTSGAEIGGAFGGEKETG
+GGRESGSDAWKVYMRRQTNTINYTTSLPLAQGIKFDL
+>tr|A0A1S1J4Q8|A0A1S1J4Q8_9FLAO
+MFSYIQLQADTIANASNVVIEKIAPENEISMFGFIMKGGVFLIPIALLLFYTIYIIFERY
+LYIKKASRIDSRLIQDVGDKLNAGNIELARTIVERSDTAAGNILKEGVLVIGRPIAEIES
+NMDRAADIEIGEMERNLGHLGLIAGIAPTLGFIGTISGVIKIFYSISVTENISIGNISGG
+LYEKMISSGSGLIVGIIAYSAYHLLNGKIDDFALKIQKQILEFVNIIQRA
+>tr|A0A1S1J532|A0A1S1J532_9FLAO
+MTKNGFYILLLISILFTSCIPVKDLVYLQDKNNSGEQNNITAVESKPYRLQVNDVLSIDI
+KAIDSKLVSIFNTTETASSGAGKSESGLYFNGFTVDDHGNIRMPILGEINVIGYTLEEVR
+VRIEKKLLEEYFKSEANIFVTVKLAGFRYTINGEVGSTGTKTLFQEHVNIMEAIANAGDI
+TVTGNRKSVTVIRQTPTGVQIQDIDLTDINVMKSPYYYLQPNDYIYVKPVKQKSWGTGKT
+GIESITTIITVLSLATTVYLLLKN
+>tr|A0A1S1J797|A0A1S1J797_9FLAO
+MAEFIKIYSDKPSEAAIAKVVKVLQSGGLVIYPTDTVYGLGCDITNSRALEKIAKIKGVK
+LEKANFSFICHDLSNLSDYVRQIDTSTFKILKRALPGPYTFILPGNNNLPKEFKKKTTVG
+IRVPDNNIILEIVRQLGNPVVSTSIRDEDDVIEYTTDPELIFEKWQNLVDLVIDGGYGDN
+VGSTIIDLSEHEPVVVREGKGDLDIL
+>tr|A0A1S1J845|A0A1S1J845_9FLAO
+MDIVKFKITSKTIKVEVRNSNNYVFNFNTALEIEKEDREVLLRLYNALDLLFKKETHPEI
+KNYISPNQTNILDQISAADNLEQEK
+>tr|A0A1S1J782|A0A1S1J782_9FLAO
+MTTQQLHEQILLKKSFLCVGLDPDLTKIPPHLLETEDPIFEFNKAIIDATHDLAVGYKPN
+TAFFEAYGLKGWLSLQKTINYINENFPEMFTIADAKRGDIGNTSSMYAKAFFEDLNFDSV
+TVAPYMGKDSVEPFLAFENKHTIMLALTSNEGAFDFQTLNVNGKELYKQVLETSKTWKNS
+HNLMYVVGATKAEYFTEIRKIVPDNFLLVPGIGAQGGSLSEVCKYGMNDKVGLLVNSARA
+IIYASKGTDFAEKAREEALKVQKEMEEIINSKV
+>tr|A0A1S1J854|A0A1S1J854_9FLAO
+MNKEIKIIECPRDAMQGIKTFIPTKNKVSYIQSLLRVGFDTIDFGSFVSPKAIPQMQDTA
+EVLAQLDLSQTTSKLLAIIANTQGAALAAAHEPIQYLGFPFSISENFQMRNTHKTIAESL
+ITLEEILEIADQKNKEVVTYLSMGFGNPYGDPWNVEIVGEWTEKLAGMGVKILSLSDTVG
+SSTPEVITYLFSNLIPKYPQIEFGAHLHTTPNSWFEKIEAASNAGCTRFDGAIQGFGGCP
+MATDKLTGNMPTEKLISYFTSNKKVTGLNSLSFESAYNEASKLFGKFH
+>tr|A0A1S1J9H6|A0A1S1J9H6_9FLAO
+MKNEKPLILVTNDDGILAPGIRALISVMETIGEVVVVAPDKPQSAMGHAITINNTLFLDK
+ISKEEDVVTEYSCSGTPVDCVKLAVNEILKRKPDLCVSGINHGSNSSINVIYSGTMSAAV
+EAGIEGIQAIGFSLLDFDWNADFEPIKSFVKKITLETLENKLPPGVVLNVNFPKLKEEEI
+KGVKICRQAKAYYSQKFDKRQTPFGKDYYWLTGKFTNEDQGEDTDEWALENGYISIVPVQ
+FDLTAHHTMQQLNTWKLNE
+>tr|A0A1S1J1B1|A0A1S1J1B1_9FLAO
+MPFFSFLFKKSNSGCPRCLGKGFVDWEDIRRLNKQLKWAPGPCAYCNASGKATPEMLSNV
+AVDTTYLTIDLPESEIEKIKNGDEETIEKGKLQELFVESIIKYTEYHYVNKNMDAQSIAD
+LYLNTEDEKAPFSVEKENLIQYIQKIIELKNSKPD
+>tr|A0A1S1J3G4|A0A1S1J3G4_9FLAO
+MSFVQAQNSSAFSGFVYHAGNPLPKVLVTLESSGKSVLSDRTGYFSFNGVSNGTYNIRIT
+TMGFKDYIRQIVLNGSAMKPLHINMEPGIDLNEVSVKGRSKKSNPESLVNAQYSAMPVTI
+IDRKTIELMGSRRLDEVLKEQTGIAIVNNISGGARSVGVQMQGFGSEYIMVLIDGQPMVG
+RNNGNFDLSRISVSNIERIEIIKGASSSLYGSEALGGTINIITRHGVIDPQLQTSVSYGS
+LNILDATVEGETPFAQNKGTANIAANYYRTDGFNTNSKYIKGTTSPPYDNYSLQGRSRYQ
+IGAESYLNLSGRYGLRRSFMQKDFGLGHISGDHQDEQDLNLSLSFDHRFNSNLRSITRYY
+LTHYTADMSVAWQQSNNAVSQDVFKQTLHRVEQQFSYSNNNSYQLVGGIGGSQENMNDKS
+LNGVNSLQTFFSYVQGEWSPVQKVKAVGGLRYDHTNNFGGRLNPSFGLQYFITPKLTFKT
+GIGTGFKAPDFKTNYLVFFNPNGNYLVIGNAVLAPTLQQLKEDGQISEIRQYVLNQTAGN
+LQAEKSTSYNAGLVLEPSKKFKIEGNLFYHKITNQINSIQVATGTNNQIIYTYQNLPKAV
+NKGFEIALKLSPIKNLEISAGYQYLIAKDLSIKDSISAGKWPYSQNIHDPATGNSYKPRP
+SDYWGIENRSRHMANTSIFYRYNPWKLNANIRVNFRGKYPFGDRNGNQFIDQYDIFVKNY
+WLTNASIEKQLLKDHLSIRFTADNIFNYTDPLMPGQPGRILLAGISYRFFKDQ
+>tr|A0A1S1J6I9|A0A1S1J6I9_9FLAO
+MKVYTKTGDKGTTALFGGDRVPKDHIRIDSYGTVDELNSYIGLIRDQEMDAHYKTILIEI
+QDRLFTVGAILATPAEKEVLKNGELRLKNLGIIDTDIQLLENEIDQMEESLPQMTHFVLP
+GGHPTVSHCHIARCICRRAERLAVHLSHNEAVPEIAIRYLNRLSDYLFVLARKLSSDLNA
+EEVKWIPRK
+>tr|A0A1S1J9F7|A0A1S1J9F7_9FLAO
+MESFRTEIENPVVQKEIIELEKKIHLFRGGKIDDERFRSLRLARGIYGQRQEGVQMIRIK
+LPYGKVTSEQLIRITKVSDEYSTGRLHITTRQDIQIHYVSLDRTPELWANLAKDDVTLRE
+ACGNTVRNITGSELAGVDVNEPFDVSPYAHALFQYLLRNPICQEMGRKFKISFSSSDEDT
+ALSYLHDLGFIPKIVNGERGFKIMFGGGLGSQPAHAELLSEFVPANQIIPTAEGIVRIFD
+RYGERAKRMKARMKFLIKEMGRDVFLDLVEKEKKAIAFETYEIDTTAFDGPIPEPLLEVP
+QVTIEDQAAYEAWKKSNVIAQKQEGYYAIGIKVLLGDFYTDKARLLADLIKNYAANELRF
+SLRQNIVIRHVKEANLPFFYQELAKLNFVHLGYNSTADITACPGTDTCNLGIASSTGIAE
+ELEKVLSAEYPQYLNNREIEIKISGCMNACGQHNMSAIGFQGMSINSGKLVAPALQVLLG
+GGRLGNGAGRFADKVIKVPSRRGPDALRTILNDFDANGSGQKFLDYYDSKGEKYFYEILK
+PYADVTNLTEADFVDWGNADNYVKAVGVGECAGVVIDLVATLLLEAKDKLTFAQESFDEN
+KWSDAIYHAYAGFVNGAKALLLSENEKTNNHAGIVDLFDTVFIAAGKIELATSFRELVYQ
+INAIQPSEAFAKQYIQEGIAFFDTIEKYRAQQLENA
+>tr|A0A1S1J9N3|A0A1S1J9N3_9FLAO
+MRKEECFYLGKIAKKFSFKGEVLAYLDTDEPELYENLESVFVECNKHLVPFFIETSSLHK
+NDFLRIRFEDVNTEEDADALVGNAIYLPLTMLPKLSGNKFYFHEVIGFEIEDQRLGIFGK
+IAAVNDTTAQPLFEVLNGEVEMLIPMIDQFLVKIDRENKKVIMNLPEGLVEMYL
+>tr|A0A1S1JA66|A0A1S1JA66_9FLAO
+MENSKTEHWNNPPVHREENKKVVAGILAILLGALGIHKFYLGYNKEGVIQLILGFIFGIG
+GIIGVIEGIIYLTRSDEEFYQTYQVGQKGWF
+>tr|A0A1S1JC89|A0A1S1JC89_9FLAO
+MYNKFTISEIILNILAQSPEKTCPFEDLTSMVIACLNESLQESLFIQRSNQAKVLDALIM
+LDSEGLIILDSATDASIITIKGLINIRSKSFLN
+>tr|A0A1S1J5V3|A0A1S1J5V3_9FLAO
+MFSCKDKENGKVKNELKLIKPQEVVISKELRGLIPDVYENVVTETIDFDNDSKKDFICTV
+YDSKRDINIEYWITSNYKLFLVNEFYGSINYKFFINLDKDDILELFRCSGEEDGIDYAFY
+DIKNKKLEPFLYFTPILIDKERPNNYFHGYPWDISEIVVSDHKLLSSVANNIEIDGNVLV
+PENQKFLPVIFFKGKTTQPEIKYDKKIKKEYFSLEKIINTVNKVSEGQNFN
+>tr|A0A1S1J7C8|A0A1S1J7C8_9FLAO
+MYKFKSYQYSIALSACLMVAGCKAPAPETTTTSTPVPESFGTTTQIQDANNSTATLAWKD
+YFKDQNLVELIDVALKNNQELNITLQEIEIARNDIRVKKGLLLPTVGVRAGAGVEKVGRY
+TSQGAGDANTDIKPGVKTPDPLGDFTISAYANWEVDIWKKLRNSKKAALNRYLATVEGKN
+FVITNLIAEVADSYYELLALDTQLDIVKQTIKLQTNALEIVKIQKQAARATELGVKKFEA
+EVLTSKSMEFGILQQIKETENKINFLLGRYPQEIKRTNTNNFLSLLPAVVTSGIPSQLLA
+NRPDVKQAELELVASKLDVKVARAEFYPSLDISAAIGVQAFKPSYLLTFPESLLYSLAGD
+LAAPLINRNAIKAEFASANARQLQALYNYDRTILNAYLEVSNQLSKIENLQKGYDLKSQQ
+VDALNTSIDVSNDLFKSARVDYFEVLMTQRDALEAKLELVDTKKEQLNAAVHVYRDLGGG
+WK
+>tr|A0A1S1J4U0|A0A1S1J4U0_9FLAO
+MSSISSDQKKSLLLTTVIYAVLIALLFLIRFWPPYNPENNVALASGGGGGGVTVNFGDSD
+LGSGANYKSEVLNVKNEARQTPAKATPDEAILTQENTTTDESVAIPTKEKPKKATPVVKP
+EAKPIPEKPKVSNSTNDALSSILKGSNKGGDGDDKAAGNKGKANGSLSSNGYYGTGGSGG
+GTGGGNGTGNGIGTGSGYGPGSGGGSGGGSGYSLNGRKALSKPAPKYTCNEEGKVVVEVT
+VDQNGKTISATAGIKGTTNTASCLLEQAKIAALNTKWSADDKAAAKQVGKIIYNFSLD
+>tr|A0A1S1J0U0|A0A1S1J0U0_9FLAO
+MKNNQEVVEENQLKRGLTNRHIQLIALGGSIGTGLFLGIGPAAVLAGPSVILGYAVAGII
+AFFIMRQLGEMVVEEPVSGSFSHFAYKYCGSFAGFASGWNYWILYILVSMAELTAIGVYV
+QFWWPEIPLWASSLFFFLVINALNFASVKVYGETEFWFSIIKVVAIIAMILFGTYLLISG
+TGGEQATIHNLYNDGGFFPKGFFEKTASGSFQGLLSAMALIMFSFGGLELIGITAAEAEN
+PEKNIPKATNQVIYRILIFYVGALVILFALSPWRQITTDSSPFVMVFQNLNGMEFELFGT
+KIYFTRLIANVLNLIVLTAALSVYNSSVYSNSRMLYGLADQGNAPKFLKKLNNKSVPINA
+ILISSCFAAICILINKVIPEEAFSILMSLVVSSLIINWGMISYTHLRFRRTKEQESTKTM
+FPSIFYPVSNYICLVFLLGILTIMWMTDMKLSVELIPIWLGILFIFYKVYKTKK
+>tr|A0A1S1J447|A0A1S1J447_9FLAO
+MKKILTYIALASIGTLTSCKDEVKKPKVIYDTASKTNTVAKTDSTQIEIADLPIQMEGTS
+YLIHPVGDLRVFEKGTKARYGSSSVNDVSFTISNLGEFEITGYLQNLKFQKVDSDSIRPL
+TDKPALILTATYLKTVADKTQNQIMVYTLADSDTNKDGKIDTSDIKTLYLSNISGERFTK
+ISEDFQELVDWNLIESRNRLYFRTIEDTNQNGQFDKNDVLHYNYIDLASKKWEVKSYKPI
+>tr|A0A1S1J4R0|A0A1S1J4R0_9FLAO
+MGMNKNTILGWATFIMVLMGLLLIGLGAFRYRDVSGWGFAATGVGFIANAWVFNALKGRV
+>tr|A0A1S1J6C2|A0A1S1J6C2_9FLAO
+MTPNLQIELRRFISSNVVSKLNKFYFENDALLIKGIDVSIGTVLMGLYNRAEESDFYKGI
+TSMMQDDSTFYQEVDFTSGRILSVDDCYRLEGNSLLKEIFTNKKGRISEMISNEVGIKSE
+TAREILNFSALLVVSYLKNNIQILESLKLLLEDQKRDILNSIPPGIKIILGFSCYETVEE
+KNQSIGRSIFTLFGHNFFSF
+>tr|A0A1S1J7F0|A0A1S1J7F0_9FLAO
+MALSTSKDLKLAVLIDADNVPYSNVKGMMEEIAKFGTPTTKRIYADWTKPNSNGWKGVLL
+EHAITPIQQYSYTVGKNSSDSALIIDAMDLLYSGKLDGFCIVSSDSDFTRLAIRLRESGM
+KVIGIGEKKTPNSFIVACDRFIYIEVLDGAIQKKKPKVTTTTDTKKPVEKPAEKALHKID
+KQTIDLIEATIEDIEDDDGWAFLGDVGNLIVKKKPEFDPRNYGFSKLTPMLKSLTDILEI
+DERESDKKGIKHVYVRLRFN
+>tr|A0A1S1J9B9|A0A1S1J9B9_9FLAO
+MFSDLKSDLQSGFFLEQKKPLRAAEVLYVYFFKKNYNSVSAEGSGIIHDILQIVNFIFCF
+ILMGQICELFFNQPNKNQNNFYYPIKIV
+>tr|A0A1S1JE52|A0A1S1JE52_9FLAO
+MKLYKLLSFSFLFATLASCTFTENIYVSDNGTGKFSLDMDGSSLMAMAGDQIGDQLGANN
+KKNMDSTFTFKQLLADKGESISKLSPEVQSEIKKLEDLVVNIKVNEEKKEFLMTFSEDFK
+KVNDLHDILQSVNTLQKLVGGADASTPFVGGLGDNNSKVSFNYDGKKFTRKATIDKQKQA
+EKVKDTTAEMSKMVFASSTYVLKYHFPKRIKKVSNPTALFSEDRKTITIQYPFTDYMENP
+DKLNFDVEFEK
+>tr|A0A1S1J1H4|A0A1S1J1H4_9FLAO
+MKKTILLTALVLNGLTSFAQSNDEKNIKLFYKKALTESKCYTWLEYLSNDIGSRLSGSAS
+AEKAVQYTKRQLETLGLDKVYLQEVMVPHWVRGEKETAYILDNKTKTVVPICALGGSVAT
+PKTGLTAEVIEVKGIKELAELGDKVKGKIVFYNRPMDPENIETFKSYGACVDQRYAGAKE
+AAKLGAVGTIVRSMNLRLDDFPHTGAQSYGDLPKDQYIPTAAISTNGAELLSKSLKVNPS
+LKFYFKQSCETLPDVLSYNVIGEMTGTENPGNIMVVGGHLDSWDLADGSHDDGAGVVQSM
+EVVRILKNLNYKPKNTIRVVLFMNEENGGKGGAKYEEVSKQKKENHIFALESDSGGFSPR
+GFSIEADDANFKKIAGFKDLFEPYLVHSFTIGHAGSDINHLTSKSIVKAGLKPDSQRYFD
+YHHAANDKFDAINKRELELGAATMTTLMYLMDQGGIVLPAAN
+>tr|A0A1S1JB86|A0A1S1JB86_9FLAO
+MSPRIAKELSVIDIKAFWAFVAKNKTENHLHSIAKMRFRKITNSAHRYLTAQNILGYDFK
+AIDLNEV
+>tr|A0A1S1J1U6|A0A1S1J1U6_9FLAO
+MNIGVDAAALGMSGAVVASTNDVNSVYWNPAGLTHLEDHQISLMHANYFANIAQYDYIGY
+ASPIDDRSAWGISMIRFGVDDIMDTTQLIDNQGNIDYNRIRLFSTADYGFTFSYARKLPV
+DGFQYGVNAKVIRRVIGKFANSWGFGFDFGLQFERNGWNFGLMLRDITTTYNVWNINEEE
+YKKIANAIPGENSELPESTEITLPKAQLGVSKKIEFHGDYSLLVATNLNMRFEQTNDIIS
+SKVVSIDPALGFEFGYTNLVFLRAGAGNFQNVTQLDNTEKLNFQPNIGLGFKYKGIQVDY
+ALTDLGNQSTALYSNIFSLKVDLGIFR
+>tr|A0A1S1J513|A0A1S1J513_9FLAO
+MDATFATGKELQKMDPVFGQLSFDDHEQIVFCNDKDTGLKAIIGIHNSVMGPALGGTRMW
+NYNTEWEALNDVLRLSRGMTYKSAITGLNIGGGKAVIIGDAKTQKTPELMRKFGEFVHSL
+GGRYITAEDVGMETKDMDTVRDVTPYVTGISEERGGSGNPSPITAYGVYLGMKAAAKSQF
+GTDVLEGKKVLVQGIGHVGEALVEYLTKEGAIVTITDINEEKLFQVASKYNASIYSGEDL
+YTADVDIYAPCAMGAIINDATVDKIKAKVIAGAANNQLADENVHGARLQERGILYAPDFL
+INAGGIINVYAELEHYGKAEIMSKTENIYNTTLEIIEYAVKNGMTTHKAALTIAQNRIDL
+RKIENAKK
+>tr|A0A1S1J8N7|A0A1S1J8N7_9FLAO
+MKFKILLLAAFIFISCKKESKTEVTTISTPAKNSVETTEKKETQNSSDTIVISTKHKTNK
+IVCDLDGDGKNETVEIVRSTKSDKSGLRIIFGNGNRTDYFGMGNTILYQGFEEIDWAGIF
+EKAPKGEVVWNNVNDQGEILGDDEIKEEDKIKLPNDGIFIHAEESCGGGIIYLKDGKYEW
+IQQE
+>tr|A0A1S1JFC1|A0A1S1JFC1_9FLAO
+MKKLKTQTLLVFVLCLFIPLIGNAQTSTKTVPMPSQQNKIIIDKIVEAVRYKSYVTDFCL
+ATISEAVLKEKWNDQKTIEITESIDYKNFRDAVYNMFAFYNEIELETLLKTYQKDTVYQT
+TNVMVTNDALGYNLEIFANDIVRGRYK
+>tr|A0A1S1J134|A0A1S1J134_9FLAO
+MSTPYTSVIEEGKIPNTYMTGDVSYKKQTSAIHPDNTVIKEVSFEPGSRCNWHVNPTLQL
+FIATNGIGYFQEKGKAIRLLHKDEVVTILPGIEHWYGATPFSSFSHIAIITEIDKGTGIW
+FDSVTDEEYYSYGK
+>tr|A0A1S1J1N3|A0A1S1J1N3_9FLAO
+MNILDDLKLQYRLGGIAMRVIFWNIGCFLISLVLFYNFSTAQFAFPNWLALSSDPAVFMF
+KPWTFLTYAFFHYGFLHLLFNMMVLNFASQLFLTFFTQKQYLGLYILGAIFSGIVFALSF
+YFLNISAPIVGASAAIMAILMGVTTYQPLMNVRLLLIGNVKLWHITAVILVLDLMQFRLD
+NTGGHISHLAGAFFGFLFIKLLQNGTDLSKIVSRTLDFFANLFKKSPSTPFTKVHKNYKK
+PTEKVTSRIVTKDKTQQQIDEILDKISQSGYDCLTKEEKEFLFKAGK
+>tr|A0A1S1J3J3|A0A1S1J3J3_9FLAO
+MGNLSVATFGGGCFWCIEAVIQRLKGVESLKSGYSGGFIKNPPYREVCTGRTGHAEVIQV
+VFNPDIISYHDLIFIFMTSHDPTTLNRQGADSGTQYRSIVLFHNEEQKAITEKVFEEVKA
+FYEDPIVTQLVPFEVFYEAETDHQNYYNNNQDARYCQIVIDPKVHKLKKMYADRLMD
+>tr|A0A1S1J672|A0A1S1J672_9FLAO
+MLDETAIEKLKEKYGNVLKLTSDDQSITAYCKKPSLTTFLTYQKRYNDDPHDAILFLFKE
+CVLEKENYEDEFMLSAGNSIISMIRSDSEFTINATPQKDEFKKSAALIRQAFQVDPYQLP
+MDEFYKLIEEALWLQKHNETRLENTFITAFAKTFSN
+>tr|A0A1S1J6Y4|A0A1S1J6Y4_9FLAO
+MKKNYIFLLLLVLTVFFSNVAVSQTSLGSCSSFISNLKKGLTVSAGRKESNNVLLQIADS
+KSFSGKINYKESSISSEYLIGEIKNVSGSSFYLKVMEKSLEGHIILKKTNEAYKYSSDVH
+GNAYVSKVDINSLICVDYATLSQKEAKTAKNSSATINADLLKLESFPGGIGCVLLDFDGH
+TMPAGSLWNNGGAIYALPSGMSDAFILQAFEVVAEDYRPFNLNITTNEAVFNTYPKTKRK
+RVVITPTDTASPGEGGVAFIGSFTWDNDVPAWCFNVNTGKAAGETASHEIGHLFSLKHDG
+RTSPSEGYFSGLNGTSWGPIMGTSFVRPVSHWSKGEYNNANNTEDDVAIISDKSWGIGYR
+TDDYGNNTASAFNLTLSSKGEIIKRDGVIEKESDKDFFSFTTSGGDVSIEANTVSRWGTG
+NLHILIQLYNSAGVEIGQYWDSDPYNLDGFMFANLLAGKYFISISGVGAGDKTNGGYSAY
+GSIGSYSISGTIPNTNLNTLSFDKNLNFVIYPNPSNKIITIKSDHDATLNLITILGKTIT
+TFKVKANVEDILNVENLSSGIYFLSEMHEGKLITYKFVRK
+>tr|A0A1S1J904|A0A1S1J904_9FLAO
+MKKTFLLMAITTAGISFGQGKIQYPQTKKGETVDVYFDTKVNDPYRWLEDDKSAETGAWV
+KAQNEVTYGYLDKIPFRNELKKRMEKLWNYEKISAPFVEGKFTYYSKNNGLQNQSVVYRK
+GKDGKEEVFLDPNTFSKDGTTSLGGLNFSKDGSKAAYAISEGGSDWRKVIIIDAITKKVL
+EDTIVDVKFSGVSWHGNTGFYYSSYDKPKGSELSAKTDQHKLYFHKLGTSQKEDKVIYGA
+DQKRRYIGGYVTEDDKYLVISAANSTYGNELFIKDLTKPNSPIVTIVDNFNSSNQIIENE
+GTKLFIDTDLNAPNSRVVTVDISNPKPENWKDFIKETKDILSPTTGGGFFFANYTKDAVS
+FIQQYDYNGKLIREIKLPAVGSAGGFGAKKEDKTLYYSFTNYTTPGTIYSFEPKSGKSEI
+YQKPKVDFKSEDYESKQVFYTSKDGTKIPMIITYKKGLKLDGKNPTILYGYGGFNVSLTP
+SFSIANAVWLENGGVYAVANLRGGGEYGKKWHDAGTKLQKQNVFDDFIAAGEYLIAQKYT
+SSDFLAIRGGSNGGLLVGATMTQRPDLMKVALPAVGVMDMLRYHTFTAGAGWAYDYGTAQ
+DNKEMFEYLKGYSPVQNVKKDVKYPATMVTTGDHDDRVVPAHSFKFAAELQEKQTGENPV
+LIRIDVKAGHGAGKSVAATIQENVDVQAFTLYNMGIKALPKK
+>tr|A0A1S1JBI4|A0A1S1JBI4_9FLAO
+MKTIAPALEVISNSYGSSFTYTKHAEKTNSKAHLWHYHPEIELVYINGGAGKRQIGSHVS
+YYTNGSLLLIGANLPHCGFTNEMTGNTDETVIHIKPEFLGNDFFVAPEMKKVRNVLNQSK
+GGIAFGGETKKNVGKRIEMMENQLPFERLLTLLSILDELDSSEEYTVLNADGFSLELQTQ
+DNDRMNVIFNYVKDHFQESIAIDEVSNLISMTTPSFCRYFKKISNKTFTEFVNEYRLVHA
+SKLLAEKPMSINEVCYESGFNNFSHFSKSFKQYTGKSASQYRNEHKIVIQ
+>tr|A0A1S1JBY1|A0A1S1JBY1_9FLAO
+MTHIELFAGCGGMSLGLDSAGFELFFANELSPMAGETFAYNILNENLQSLSQKKESAIKS
+LWIKSNYPKNDLENRLRENPFSTSNGNFSDLQEDINLKEKLLIGNIDHLLDFLNENPAII
+QELKEENIDLISGGPPCQSFSLAGRREKDNHKNQLPLSFAKFAGLVQPKTVLLENVKGIT
+SPFTEGEDENKQKYYAWLEVSKAFVLEGFVPICMMLNSKYFGVPQNRPRFILQAYRKDIF
+DNLKQLHLNNEILLISERFYNLVIANNNNLEKISIKDFKYYDIENNPELFNGIILPKISH
+LNDDFITTYDAIEDIKNASIKYELNKTNGQYPNLINSIFSFDLDNSNKIRNHEERNHNFL
+VKSRFRFYQVVDQFQNGLKKDAIDLLTGKTISKNQLEKLNVEFSKHKLLFIENNIEVYKA
+PKDIETIEALIKSIPTRKHSQRALRKFEPAPAQLTIPDDLCHYDPDEPRTLTVREMARFQ
+SFPDWYEFRSKVTTGGKMRKFEVPQYTQVGNAVPPLLALALGELIKIQIQSLQ
+>tr|A0A1S1JEN3|A0A1S1JEN3_9FLAO
+MKLFHSINDFQSTKKTILTLGTFDGVHIGHKKILERITQNTENGKYESLVLTFFPHPRMV
+LQEKSEIKLLNTITEKSKLLEATGIENLVIHPFNESFSRLTAEEFVHSILVDQFHIQKII
+IGHDHRFGRNRTANIDDLIAFGHEYGFEVEQISAQEIQDVSVSSTKIRKALNEGNMSLAN
+DYLGYNYFLTGEVVQGKQLGRTIDFPTANIEINDEYKLIPKAGVYVVKALIDQKEVSGMM
+NIGFNPTVNGQKQTIEVNLFDFDADIYGKKIQVSLLQYLRDEQKFGSVDLLKEQLHLDRK
+NALTFLNKI
+>tr|A0A1S1JCN4|A0A1S1JCN4_9FLAO
+MIEQLHPRILENKDWATLLFVLTFAVVAMTKSAYETRFSEFSKLIFSDKYAKIYRDNNHL
+RSSFTVGLFFVQVISYAFFIQLTMHIFGYASKTDWILFIQLATFLLYFILGKFLIEKIVA
+TSFNIDEFAELFNLQKVTYRTYIGVLILPINAVLFYYDNIPKIVPLAIIAISLCISLYSY
+FISIKTYQNAIISKLFYFILYLCALEIAPYYFLYYWITKQAA
+>tr|A0A1S1IYV1|A0A1S1IYV1_9FLAO
+MNTTINNSAISVSIKHSGAELFSLKDNQNKEYIWEGNPDFWGKHSPVLFPIVGTLKNDTY
+TIDEKAYQLPRHGFARDMNFELIEKTENTAIFSLKSNAETLEKYPFEFELQLIYSVENTT
+LNIEYKVINTGKSKMPFSIGAHPAIALPGDFKNYAFQFEKQEVLKYYLLENDLISNQTET
+LKNENGLIPFDYQLFENDALIFKTLESKSLTLLQNSKPYVKVDFEDFPSLGIWTKPQAPF
+ICIEPWLGYSDTAENSGNLFEKEGILVLEANQNFNSKFSISIL
+>tr|A0A1S1J230|A0A1S1J230_9FLAO
+MKILWIVNTIFPAPSIAMKKETPVIGGWMYGLAEQISKQENVQLAVATTYGGNEFMKMTI
+DTIVYYLLPCKNNIKYDKSLENLWHEVYNEFTPDVLHIHGTEFAHGLACMRILPNLKYVI
+SIQGLVGIYSRYYYGGLSFWDIAKNISFRDIARFDTIFQQKNKFVVRSKNELEYLQRTNH
+VIGRTSWDYVHTKGRQSSINYHFGNESLRDAFYSAKKWSLDNCQQHSLFLSQAGYPIKGL
+HQVIKALAILKVDFPNLKIKVGGGNITKNETFNDKIKLSGYGKYVRKLLKKHNLDQDVVF
+LGSLSEEQMVIEYQRAHLFICPSSIENSPNSLGEAQLLGTPVIASYVGGIIDMVEDGKTG
+LLYRFEEVEMLAQNIRRIFENDEFAILLSKNAQIASSLRHDRIINVNNTLAIYNQIVNA
+>tr|A0A1S1J4P6|A0A1S1J4P6_9FLAO
+MLTRESLQFLDDLKNNNNRDWFLDNKKRYEVFKKDYHQLVSDLLDVMKPLDPALELLEVK
+NCTFRINRDIRFSKDKSPYKAHLGIWMSSAVKGLNRAGYYVHIEKGASFIAGGFYSPEAE
+DLKKIRKEIAFFHEDLEAILADKNFKKEFGSLDINENSTLKNPPRGYEKDHPAIAFLKLK
+SFTATQKYNIDEVTQKDFVSKMSQKLIALKPLNEFFNRALDTEEF
+>tr|A0A1S1J631|A0A1S1J631_9FLAO
+MTTDIIELNDFIVLIEQSNTSKTFIQQCEIDGDAVGFAFYGSGNVELEIKHNNQTKYLTN
+TTGLAICFFGNQKVEFSHKIEPDKPLQSISIFTKPKHLHSLPQAEKEIFENYLPELLNPQ
+EHFVQGPSFYMTLEMQVAVQKIFNTTYTGNTRLLFLRSQVNELLAHFYALLATGTKIDLS
+EIDKNKLFKAKEIVTNSYSKPPSITQLSQMVGLNSNKLKKNFKELFGIPVFKFVQEERLH
+KAYELLRDNEKTVQESAWEVGYDSLSSFSNAFHKKFGMRPNEVRQQFFSNKS
+>tr|A0A1S1IXN9|A0A1S1IXN9_9FLAO
+MATPKIYLKNNVQVEPLISNWYAWHHIIPPILTGFNVVNRYIPIMESYINDPSIHETAVK
+DPAFRGGPFIDLDKKHVDEVAALLENTKKMAAPLFEFTDAVKELDKLLKKKATGHLMQPL
+YKEVPSAIRGYVELYYDRHHRPDFRFYEPLIYASPYYVEDFQTVKLSLINKDADRPFIFS
+TPRLSNLEAALELKLPFKSKQIDELFKMKREPQTFEYIKELLNIDQNDEALFRDLFTTEE
+PKKYEKYTGDSMRIRYFGHACILIETKEHSIVLDPVLSYTYESDVSRFTYDDLPDEIDYV
+LITHGHHDHILMETMLQIRHKVKNIVVGKSIGGAIQDPSLNLLLRNLGFENIIELEELQT
+ISAIDGIKITGIPFIGEHHDIHINSKLSYHVELDGYSLLAVADSCNQSPELYEHVHEIIG
+DVDVLFMGMECDGAPASWVYGPIFTTKQEREKDFSRRGRGSNYDEGIKMVNCFNVKEVYV
+YAMGEEPWVRHILDVEYTDESNPIVQSNMLIEDCRNRGIVAERLFAEKELFKQAVLLY
+>tr|A0A1S1J3S9|A0A1S1J3S9_9FLAO
+MIKLKNIMLLFGMALSFGIQAQNTYKNWPDIIRKNDAAWFGTDEAKNIAENVLLYQREIG
+GWPKNIQMQNELTPEQKKDLLKLKKTTAETTTDNGATCQEMLFMSKMYAQVKDDRYKESF
+LNGLNYLLEAQYKNGGWPQFYPLKKGYYTHITYNDDSMVNILNIIRQVSEETDYFSIKPS
+KAIVEKAKESFRKGIDCILKTQYKQNGTLTAWCAQHDEVTLAPANARAFELASLSGSESA
+KIVLLLMSIEKPSPEIITAVQSAKLWFEKTKITNLEEKRVLNDAGKVIDKKMIVTQNAAP
+IWARFMDLSTNEPFFCDRDGIRKKSIEEIGAERRNGYSWYSDSPKEVLKKYTAWAVKNGV
+KITSKESSDPQKSNRITVALDGSGDFTKIQDAINACPSFPYEKVTVFVKNGIYKEKIRIP
+EWNSQVALIGESKENTIITFDDNFSKINVGRNSTFHTYTLLVEGDDFSASNLTIKNASGD
+NGQAIALSVVANRVQISNCLILGNQDTLYLSGKEAKHYIKDSYIEGTTDFIFGSATALFE
+NCEIHSIKNSYITAASTPEGTAFGFVFKNCKLTAEPTATAVYLGRPWRIYAKTVYMNCDL
+GKHIRPEGWENWSKPEAEKTAFYAEYNCKGEGAQNAKRVSWSHELEKKDVEKYTIDNILK
+DSIPQWYLR
+>tr|A0A1S1JCL4|A0A1S1JCL4_9FLAO
+MLLNRRISLLYFVNEIRSQIVLIVLFAISIGLLDMHPLFQQVSLPLSIPALVGTAVSLLL
+AFRTAQSYERWWEARTVWGAIVNDSRTLIRLIIQFTPKENKEIADAFTERQIIWLYALGE
+SLRKQPFSTRVQTYLDVFQIKASNIPNALLDKHSLNIAELASQGIISEFKQVQLNETLAR
+LCDSMGKCERLKNTVFPKSYSVLVHTLIYVFAAILPFGLEDSQLVVEILITILIPVLFIS
+IEKTAIIMQDPFENTPVDTPMTSLAKTIEINLLEMTGAENIPIKEKNELYYEM
+>tr|A0A1S1J393|A0A1S1J393_9FLAO
+MIKFPKIDFPQLKSKLQVKSPWDRIIIMLLSLLITVPIFIILHQNLIDLQWAFNLDRVLI
+FILVFTAIFFLLMLLRTIIILCIAVYLLVLFYGSVIGNYGFSEISEDYNSMIYTMSDNPF
+PQDIIVAKLLPFPNKSKIINAIEYQNPKVRNFAIMATSKHFKGLKGYSDYRTIIQCFAVF
+KEINSRWNYVNDPKEGDYIATASESLEYFSGDCDDHSILMAAAVRSIGGTPRLIHTKGHI
+YPEILIGSTIDLEKVNYLIKNVLFVKESYGKKIHYHIDERGQVWMNLDYTAKYPGGPFMY
+EEILGELTLN
+>tr|A0A1S1J8G0|A0A1S1J8G0_9FLAO
+MSNLPDEAFRDTIGTIDEGGKRKFIFPKKPSGKFYEYRKIVSYVLLAILIANPFIKINGN
+QFMMFNIIERRFNIFGFPFWPQDFYLFVISMLVGVVFIILFTVVFGRIFCGWICPQTIFL
+EMVFRRIEYWIDGDRGAQMRLAKQEWNAEKIRKRGIKWTLFFLISFGIANVFLAYLVGSD
+ELFLMVEQGPIQQASNFIALLIFTGVFYFVFVWFREQVCIIACPYGRLQGVLLDNKSINV
+AYDFVRGEKEEGRAKFSKKEDRALTGKGDCIDCHQCVHVCPMGIDIRNGTQLECTNCTAC
+IDECDSIMENVGLPKGLIRYASEDEIEKKAPFKFTTRMKGYTAVLFILLSVFVGMLFLRT
+DVQAIILRLPGQLFQHKGDKISNVYTYKIVNKTMKDYNDIHFELIDQKGEIKNVGKTHFK
+VVKEGISQGTLFIEIDEVLLESDKTKVKIGVYNGKELLETTTTNFLGPRSFN
+>tr|A0A1S1J944|A0A1S1J944_9FLAO
+MTEITNYITNDFRAIDSQETIASVQDFFADLSFSHFPVLENGIFIGSIAADDVETFDTDK
+KAIDYKYTLERFFARKSMIWLDVLEVFAKNHTNTIPVLDENNTYIGYYEMEDIMKFFQET
+PFLKEQGGIIIVQKGLLDYSMGQVTQIIESNNGKILGCFVSEADLENVQITIKIGIGPMN
+EIIQTFRRYNYEIISEHQEDAYINSLKERSDYLDKYLNI
+>tr|A0A1S1J2G4|A0A1S1J2G4_9FLAO
+MNKAILHISDFHVTSCFDANGDLLNDFNSWLVVDKKAENERFIISFCDFVEEQIPDTLIY
+LIISGDLTNSAKDNEFIELALILDILITKLRISKENILIIPGDHDVNRVDAAIAFEKAGA
+GAQPKKLYDFNVEKFEKFEKFYNTFFEKSKTFSAENAVTDVLVIEDLKIIYIGLNSNFKI
+GAISGLGFIDPAKLGQELAEITTTYSDYIKIAVIHHNLINFYKKEIAPQWDKENYSDIKR
+ILEINQVDCYIFGNEHTPFSEIKERVPHISIGSFGCKNPDPNFNLLVFKKKDSQVILENK
+YFRITNNNINGQPEHGVWDISSSCGEVSKIELKIPPSQTALPFSDFLPEETESPVDAEVQ
+KKEPLHPFDINDSRHLSLLKLIKDNNLFHSGHFHWSETSRAHGWIDVAKLLGDRSRLAKC
+KKHIYETIANSDIKFDFVIGLGVEGNILATRTAVLSSKPYSFLPYSYRYDDHSDFEKQLN
+FENNGRFKSVLIITDVVHDGRTIRKLIHKKRKEDKTHEFFNGVEKIYVVSLFYTGKITES
+HTDVYNLLNKNKEDEFFDSENDHLESRIEFHFISHIGVEVCPYNKNNYKSDCIIVREGLG
+CIHKFYTEKI
+>tr|A0A1S1J2J9|A0A1S1J2J9_9FLAO
+MKNLFLMITFLYSSFLIGQNGISPDKVVTPPEKVVFTFQKEYPGKVPVWTLKYVGDDDDE
+IRYEAKFKTDKNTNALAVYDNLGALKAFELQIPLSKLPQKAQVYLKKNYPASAIKESAVV
+VDDKNKTTYEVGIQKNAKFYDVVFDKNGGFDVIIEKD
+>tr|A0A1S1J8I1|A0A1S1J8I1_9FLAO
+MKNILNYLPYVVVLLAQFLINNYTVILILTIVTGFIAAFKIENKRVFLKCFLIGLVVATT
+VFLIYESRVEYVKELFVNIGLSSLFIYVLFPLFNALNTAILFFFGYKIGTLVLERKLKRA
+LQA
+>tr|A0A1S1J8Y3|A0A1S1J8Y3_9FLAO
+MKFANASISIFILFILPFTLFSQVKNIGLPAIKNYKRSDYKGGTQNWNIDQDKNGNIYFA
+NNNGLIQFDGSTWNKYPLPNNTAIRSLKIDGQSGRIYVGGNNEFGYFKSDAKGRLQYHSL
+SALISKKDSRNINLIWRIHLYKGEVVFQSFTKVFFYKNNKLRLINAPRRFQFSFLIKEHL
+YFQDKVLGILEYKNQKLSPLKGTTALNDKEIWAMFPLPNNKLLFATLEKGLFTYDYNSIT
+PWETEANSFIKKNTSLGGAIIGNKFIVLNSVLNGAVICDLNGKILQHLNRQKGLQNNTVL
+TSFVDNKNNLWLGLDNGIAFINQNSPFTFFDYSYNIGTVYASVIFNKNLYVATNQGLFYH
+AWNTPFKDEPFNRVEGTIAQAWNIQIINNTLLCASNSGALVIDQNRVSKTLDNKGYFGFK
+TIPNHPGYIIGESYSGFSIFKNSANEISYVNQVEGFDETTNTFEIELDNNYLWLKKDPYL
+YQMRLSEDLKRFDLVKKHAHISTSKKGIGSLQLINNKVYFQTKNHFYRYSDEQEDFFEDK
+KVTALFEKIPTVNTIIEDKYNNLWYSYNESLGVLIKGSNGKYIRTEAPFSNLTGNLVNKY
+ISVNTIDPENIFIGLTDGLAHYDSQISNKFITKPKVFFESFSSTSDTIMTGNLEKPLTDL
+LIPYQSNHVKFTFSSPTFENQENVTYSYKLEPFEENWRNWSTTSIKEYTNLREGKYTMKI
+KAKNSYGRESDVSEIIFTISPPWYRHFLAYLTYFLLLLAGIYIVSNRIKLKIRKNKYYET
+IEQRKLYLEKESKIKQKQYELAKEIERLKNDKLQIKILAKDKELVSNSLQVVKKNKVLNG
+IIHKLKEIDNDALDESTKFQVSKLNKSIVKEVNTDKSWKDLEKHIKNVHFEFLKRLKEKY
+PTISPRELDLSTYLLMNMSTKEIAEIMNISTGGVELARYRLRKKLGLNKKENLIGFLMSI
+>tr|A0A1S1JBA7|A0A1S1JBA7_9FLAO
+MERIEIYSSKKKSFLLLILSLLFVTGGIWFFIDSENLANFRYKSPIFIKAIGIISILLFG
+MALFTAIKQLVKNRLLILIDENGINVNPKKTPAQNIEWNNVEAFSELKIQSQKMVVIEVN
+NPEYWIKNENNAIKRKLIEYNFNNYGSPIVVSAGSMQINHAELVKILNENLEKYKN
+>tr|A0A1S1J1K9|A0A1S1J1K9_9FLAO
+MNRTFTFFFPKKPFLVYVITFLSVFQTMAQTVPTMQASNLAFTNTTSTGTTLNWTNGNGG
+GRIVFMREGIGSAPVPDNIYFAENKVFGLGDQIGTTGWYTIVKINTDNKTVITGLTPGKT
+YQVIVMEFNGNPGYPSYLTTTSTGNPAAITTLSNVATLSNLNLSAGALTTVFQSETTDYY
+ARVPNEVSSITVTPVASDANAKIKVNGIAVTSGTPSQVIGNLEVGSLYANSNLITVEVTA
+QDGTVKIYRIRVFRLLPQPTIQTTGLTFTNTTSTGITLNWTNGNGGSRTVFMRAGTNADS
+VPNPNPVSELRNGSYQGNPAFGLGDQIGTTGWYVITHINVDNKIIVTGLTPGTTYQVMIM
+EYTGSSYYPSYLTITSTGNPAAVSTLSNVATLSNLNLSAGVLTTVFSSETTAYTAKVSSG
+AGSIKITPITTDNRATIKVNGVAVTSGNPSQEISLATGASTMITIEVTAQDGTVKNYIIT
+VEKSSLGVVDNKIEGFAVYPNPVPQGKLYLQTKLIALKDVKIFDMSGKMVFSVSTTNREV
+FIEGLQKGVYILKVNQDGAESTEKLIVE
+>tr|A0A1S1J9E0|A0A1S1J9E0_9FLAO
+MHNTHNPIAVRVENIQKIWNKTRKEKPKAKVFSMVCFKDDFPLLDAFIHLESSAYGKSED
+SFVAFVVDFDDKKDFFSTIIEQWIVTFEEDLKKNPNWNWKDFATFKEVLPEINQLSIESL
+KEFYIKMLISFKEFEAKTGNLLIVSLLIKKVSNADLLTESLNELAVLLPENIGFLFLDYQ
+ERQQYRDVVFAAKENGTIIEIPNQEINKAYKEIATQGNPNDPQVRYRKCLFEIGEAAKNK
+KQEKVKKLGNELIDISKSTGETSFWASSYLIYASFLFQFKDEKELIHQLLDKGIKITTPF
+YKEKDDVAGILMQLLVYKGSHHSIIGNTDTAIDYFLKQVAIAKEINQEMQVINGYNYALL
+LAAKKRGSRYTEILNDAFEYGYALTDEILKIVNFTFIADSYLESDPKIGYSEKEAVFKRM
+VLIFGENWNDNPKQIAKQIQEEYQLSNTY
+>tr|A0A1S1J9F6|A0A1S1J9F6_9FLAO
+MNRIILIALITFLGFSAQAQTKKNKNLKYTTEVNGTCEQCKKRIEKAAFSVPGVKSAVWD
+INTHQLAVILNEEKSSTADLNAVIAKVGHDTKEVKATDADYDNLHSCCKYVRE
+>tr|A0A1S1JAZ2|A0A1S1JAZ2_9FLAO
+MKNKRIKDLLDETFSDLKLFYRDTTLDDSLLTAYQIGQILKEKDFTDMSFIGGGLSGNCR
+FLIASAGARDLSKFNPDSAKNGHALLDDNSFFKVLDICKIDNKTQIFLLNIPGNSLPLFK
+NSTSNLEEEIIEKARQKFTAKINAPLIPELQTELWREKTKAPIGISLSGELHFDDSTIKK
+EEVQRIEINKIKKRIEINKKPWWKIW
+>tr|A0A1S1JAH7|A0A1S1JAH7_9FLAO
+MGVIKLKNIRTFSYHGCLIEEGKIGSDYTVDLKIKTNLQKSAQTDHLLDTVDYVHLNKIV
+TEEMAIRSHLLEHVAKRINIRVLSEIEMIEKTTVWVSKINPPIGGDVETVTIKMTETRK
+>tr|A0A1S1J504|A0A1S1J504_9FLAO
+MKKSIIAFVTLALLASCSKKESTDGLHLTGNIKGLKNGTLYIQKIVDTSLVAIDSIKIDG
+NSAFETNIKLESPEMLYLFLDRGVTNSLDNNVMFFAEPGNINIDTNLDNFIYGAKITGSK
+NQELYDEYKKINSRFNEESLAMVESRFKAVKRKDQKAIDSINVKQESNIKRKYLYATNFA
+LNNKDHEIAPYIALAEIYDINIKFLDTIQKSMTPKVANSLYGKKLTKYVADIKKEQQK
+>tr|A0A1S1J7H4|A0A1S1J7H4_9FLAO
+MEEFNETLDVPNATAVNFRNDYGSEVGYFKNLNTLRYNILGKVFQQEGESCNDIKQTSEV
+LLCIRLSDEINKIVKN
+>tr|A0A1S1J8H6|A0A1S1J8H6_9FLAO
+MRKKQAHILIVDDQEEILFSAKMILKKHFETIFTTNSPKKIISILNENEINVVLLDMNYR
+IGFEDGREGIHWLKEIKTLSPKTVVILMTAFGKIDTAVEGIKIGAFDYVLKPWNNEKLLE
+IIDKAVVESRKNSKKEVVEKSTKSYFTGTSPKIKQAYGIAERVAKTAANVLILGENGTGK
+YVFAEFIHLNSERKEQPFVHVDLGSLSDNLFESELFGYAKGAFTDAKTDTAGRFEAASGG
+TIFLDEIGNIPLHLQSKLLHVLQTKTVTRLGESKARPLNVRIIAATNADIKAEVKNKMFR
+EDLLYRINTMEIHLPSLRERKDDIIPMANFILDKIAEKYNQENWCFDDNVGPYLEKYPWK
+GNIRELENKIERALILADNHTISVTNLDILDFEELQENDENPLSEMEKSAIEKTLFKNNG
+NISKTAEELGLSRAALYRRIEKYDLRNI
+>tr|A0A1S1J996|A0A1S1J996_9FLAO
+MSKTLKIYIAVLVLILALILIADREQPKPIDWTPTYSVNDKIPFGLYVFNNEINDFFKNH
+TVERISDLTPYEYLTSKYDNDSLVENYKIKGTFLNISESNTIDEESVNELLYFVSRGNNA
+FLSMKDFPQYLLDSLKVEVNADYLNSGNTTVWLANSQLKDKKYKFVQTLENYFSKIDTAK
+TTVLGYQLSSLKKAKKHVNFIKIPYYQGHFYLHTQPVAFTNYNLLKANHYQYAENVLSCL
+PEGDIFWYTKGQNSERISESPLRYILSQPGLKWAWYFFLFGMLIFIIFNAKRKQRIVPIL
+KPLPNLTVDFTKTIGNLYYQEGDHTNIIDKKIIYFLEKIRNEYLIDTTKLDDHFIQKLHH
+KTGKNVTDIQELVFLINEHRKSYHGSLEEDLIRINNAIEKILH
+>tr|A0A1S1JA62|A0A1S1JA62_9FLAO
+MQKSTIQFLIINCFLAIVLVSCGAVTKNYTPKKLDRTSYQVPYFADSKTDYVYKTNITVY
+GHEMSGIFIAKKINDTTHRIVFTTEFGNKLMDFEISETDFKINSIVSELDRKILISTLRE
+DFRLLLKKDYIFQQQFENESADIYKSQDGKRDNYLFISKKDQKLEKVVQSSKTKEKFTLT
+FSSENNIFAEKILINHQNIKLKIELNYLKSE
+>tr|A0A1S1JE62|A0A1S1JE62_9FLAO
+MFLIVAKYLIPKGYRGMAVFPFVILKYDADKANAVFVNHEKIHLRQQLELLILPFYILYV
+FEYAIRLIQYKDKELAYRNISFEREAYANETHLNYLKSRSFFGFLNYLTLKHH
+>tr|A0A1S1JBL7|A0A1S1JBL7_9FLAO
+MGFGLIKVTNKKMEFLQLNELQLSKYDNHYQKLKIIFERTIELIETHHPDEIAIEAPFFG
+KNVQSMLKLGRAQGVAMAAGLSRGIPITEYEPKKIKMAITGNGNASKEQVAKMLQQLLGL
+KELPKNLDSTDGLAAAVCHHFNSGKVIAGKSYSGWDAFVKQNEERVKK
+>tr|A0A1S1J9X9|A0A1S1J9X9_9FLAO
+MSSQEIIKIEDDFTLIRFQNDSSELFLGQHEVGSGLIQFHFGIKGNAKFLFNQGTYALEL
+KEEKSLLLYNPQKELPLNLELSPNSWVISVIVSIKKFHALFSAEADYITFLSPDNKDKKY
+YNEGNISPSMAIVLSQLFHYNLHPSIKNLYYKGKGYELLSLYFNRTEDPNAEQCPFLIDE
+DNVLKIRRAKEIIIANMAEPPGLQELADEIGLNLKKLKMGFKQIYGDTVYGFLFDYKMDF
+ARKLLDSGSYNVNEVGLKIGYSTGSHFIAAFKKKFATTPKKYLMSINANV
+>tr|A0A1S1J790|A0A1S1J790_9FLAO
+MSGSGGGGYQPPQRTKFDCYTSIITNTVSSLNIKVLEKRKIGDLLEVVLGKNESLLLEDG
+DGEILGAILHLNTPDIIDCIKNGSLYKAEILSINSPACRVQITRK
+>tr|A0A1S1J7H6|A0A1S1J7H6_9FLAO
+MKKVYLDNASTTAMRPEVIQEMLKVMTEDFGNPSSTHSFGRNGKTILELSRKSIAKHLNC
+AAQEIIFTSGGTEADNWILRSAVEDLKVERIITTRIEHHAVLYTALVLESEYNVQVDYVN
+VNPDGSIDLTHLSNLLAEDKKTIVSLMHVNNETGAILDLERVGVICKQYNALFHSDTVQS
+VGKTEIDLQKIPVDFIVASAHKFHGPKGVGFAFVRKNSGLQPLIFGGEQEKGLRAGTEAV
+HQIAGMAKALSLSYENLDVERNYILGLKGYLIEQFEAHFPGFRINGKKDDFYNIINVILP
+FSADKTSMLLFSLDMKGIAVSRGSACQSGSVKPSHVLKEMLSETDLKLPNLRISFSHFNT
+KEDIDWLIESLKGV
+>tr|A0A1S1J8V4|A0A1S1J8V4_9FLAO
+MDIEKIISELSFKAVRSSGAGGQNVNKVSSKVVLTFDLNVSQALSEEEKLLLQKNIGARL
+TTENILILNCDEDRSQLKNKDIVIKRFLEVIKKGLHVPKVRKATKIPKSVIKKRIKDKKS
+ISEIKQSRKKPNLD
+>tr|A0A1S1JCH1|A0A1S1JCH1_9FLAO
+MKEDRTVQITKFLNLVSRMNFFTNLKSEQQNDSVVSCFKIASYNELNSTISSLLRTCIQT
+LKSDPSETDIDIINLLEIAVQLLPSDEIELLDELNKIL
+>tr|A0A1S1JDP4|A0A1S1JDP4_9FLAO
+MKIYFLAIIMMVFPCLVHSQNQDAKPVRLKQINIVKTNYQNSKDGEIVNKTVVFKDGKIQ
+TITTSDVIQHFFYNTKGLLDMTVKDKVGSDWKEVVNYTYDADNNITKFVKKYQEGNDYIT
+KVVTFTYEGARVKVITKKSTNHQNLVDDIEYIVENGAIVRRTSRDRNKAIIGKIEYVYFN
+DNVIKHKGLVGDKISKSFIFDDKNSVDVLIVKSLFGDNYKVIVPMISYHEEEFSFESISP
+NNEIVFSPSSTVLVGVSRKYKYNKLNFPISCSQIEENGIVKTEKTFIYE
+>tr|A0A1S1J8I3|A0A1S1J8I3_9FLAO
+MEIQLLILPGLGNSGDKHWQTFWHEKFKNSTRIVHDEWDEPIRAEWLERLEEEISGLNGP
+TILVAHSLAVSLVLHWAQNNNNSNIVGALLVAPADVDSPAHTPESIRNFSPMPTSKLPFP
+SIVVASENDPYATFERKKYFAEMWGSDLVNVGQRGHINSDSDLKYWEEGQLILKQLIEKT
+K
+>tr|A0A1S1IY75|A0A1S1IY75_9FLAO
+MSLQTLIMDEIKTAMKAKDTVSLEALRAIKSEMLLAATASGSKEELTEDDEIKLLQRLVK
+TRKESARIFTEQNRPDLAEPELAQVAVIEKFLPAQLNEEEVEAVVAKIIAETGASGIASM
+GKVMGLASAQLGGTAEGKTISTIVKKLLS
+>tr|A0A1S1J518|A0A1S1J518_9FLAO
+MELILQFLKTQFQFQLDTLFQAENPTGKPVLIQLDSNGFINDFIIENNLTQTDTLLLGLA
+LVHHIKPDFLSSIIAEYLPNGGELPEFGGVKSKNHRGILPTGETAQFLIAGNDLDARISF
+YNYLHNQSFLYQKRIIKIESVPNGEPKLSGLLILEDEYIEKFITGKILKPQLSSIFPAQL
+IETALDWDDLVLNSSTLNQIKEIETWLKFNEILLHEWNMKATIKPGFRVMFYGAPGTGKT
+LTASLLGKYTQRDVYRIDLSMVISKYIGETEKNLSSLFDKAADKDWILFFDEADAVFGKR
+TNVRDAHDKYANQEVSYLLQRIENHPGLVILASNFKTNIDTAFTRRFQSIIEFEVPSSRE
+RLQLWENNLPKGIKIAEDVNLSEISKKYEITGANIVNIIQYACLRTLEDQNENINLHHLL
+QGIKKEYVKEGKMM
+>tr|A0A1S1J6P0|A0A1S1J6P0_9FLAO
+MENKPEESAPDKIDSVKPEVVQPATENVKPANAPVKKAPVRKTAPVKTTAAAKPTAAKPV
+APKAPAASVTKAATTTTKTPAKAVVKTAAATPTTTKPAVAKAPIKKTVTPPAKPAEKTVT
+QPAVAKSKEENTNQAVEIEEAKKDKAAKKAKKVKDKEKDKAKKKLAKKKEKAKNDKKKEK
+AKKAKLKAAAKKKEKAKKAKDKAKAKKIAKKKAKAQKKAKAKKKK
+>tr|A0A1S1J877|A0A1S1J877_9FLAO
+MNKKHHSNNILSNLGIESLNEMQEVAQDAILNDNNVLLLSPTGSGKTLAFLLPILELLQP
+EILSVQCLILVPSRELGLQIEQVWKKMGTPYKVNICYGGHSIDTEIKNLSNPPAVLIGTP
+GRIADHIDRDTFRTDKIQTLVLDEFDKSLQLGFHEQMSYIIGKLTKLNKRVLVSATSDIE
+IPRYTRVVNPTVLDFIPEEEEKTNLSMKMVVSPAKDKLDSLFNLICSLKSQSAIIFCNHR
+DAAERISDTLNEKGIYATYYHGGMDQEERERALIQFRNGSMSYLITTDLAARGLDIPEMK
+HVIHYHLPLKEDEFTHRNGRTARMQASGTAYIIVHESEKQLDYIDYGMEVLEVASTTVLP
+KPPQFQTIYISGGKKTKLNKIDIVGFFSQKGKLEKGDLGLIEVKDFVSFAAVKYNKVKDL
+LKNIKDEKMKGKKFKIEVARKVVKKEEER
+>tr|A0A1S1JBB5|A0A1S1JBB5_9FLAO
+MKFIVSSSYLLKQLQVLGSVINSNNTLPILDNFLFELNNSELTVSASDLETTMSATLSID
+STSKGSVAVPAKLLLEILKTFPEQPLTFTVEENNTVEISSNSGKYALAYAAGEEFPKSVS
+LEEPSVTLVPADVLATAVSKTIFAAGNDDLRPVMSGVFFQFSPEGLTFVATDAHKLVKYA
+RTDVKASQVADFIMPKKPLNILKSILGTSDAEVKIEYNDSNATFSFDNYILTCRLIDGKY
+PNYEAVIPKENPNKLMIDRSLFLSSVKRVAIFSNKTTHQIRLKIAGAELNVSAEDIDYSN
+KAEERLTCDYQGDDLQIGFNSRFLTEMLTNLQSDMIMLEMSLPNRAGILTPVDGLEEGET
+VTMLVMPVMLNS
+>tr|A0A1S1IYA7|A0A1S1IYA7_9FLAO
+MKKILLTCFFIIVSNAWINAQELKSPDGNLVLTFNLNAEGTPVYFLAYKKKEVIKESRLG
+FILKSDIKMNKGFQIAGTQKQSEDNFWEPVLGEQKKIRNQYNELKADLIQEKSKRKITIY
+FRLFNDGLGFRYEFPVQDNLRHFVIQEETTEFNLTGDHKIFWIPGDYDTNEYSYTTSKIS
+EMQSLMYNAAHVSMAAQTTIKNLAAQTPLMMKTIDGLYINIHEAALKNYPAMCLNVDDKA
+YSLSSHLVPDAVGNKGYIQTGSFTPWRTIVVSDDARNILVSKMILNLNEPCAFEDTSWIK
+PVKYIGVWWEYFTGGGSTWAYSDNQDVVIGATDFSKLKPNGTHGANTKHVKEYIDFASTN
+GFDAVLVEGWNEGWEDNTAFKKERIYSFTKSYPDFDVKDLSVYAKQKGVKIIMHHETTSS
+ASEYERQLPDALKFMVDNNYNAVKTGYVGPIIPRGEHHDGQQMVNHYTYIAKEAAKHKIM
+VDSHEAVRPTGLHRTYPNWFAQESARGTEFEAMEGIHPDHTTILPFTRLMGGPMDYTPGI
+FQGDLSVYGSKKNKLSTTLAKQLALYVTMYSPLQMAADLPENYMRFKDAFQFIKDVALDW
+DDSYILEAEPGDYITIARKAKGKQEWFVGGITDENPRIALIDFSFLPAGKSFTATIYEDG
+KTADYKSNPQSYNIRKVNVNSKTKLKQKLVASGGVAISIK
+>tr|A0A1S1IXW7|A0A1S1IXW7_9FLAO
+MSESLVVPTMAEMLAQGTQPEVLFWVGCAGSFDDRAKKITKAFVRILNRTNVSFAVLGTE
+ESCTGDPAKRAGNEFLFQMQAMMNIEVLNAYEAKKIVTACPHCFNTLKNEYPELGGQYDV
+IHHTEFLKSLIDDGRLTVEGGQFKGKKITFHDPCYLGRANKVYEAPRDLIQKLDVELVEM
+KRSKANGLCCGAGGAQMFKDAEPGNKEVNVLRTEDALEVQPDIIAAGCPFCNTMLTDGIK
+HQEKEGQVKVMDVAELIANAQDL
+>tr|A0A1S1J221|A0A1S1J221_9FLAO
+MKTYEFLLLGKNQAILEILLRLVNAYENWNAVGFSDEKLAQDYFLNHKIDIVLLSSGIED
+HIEKEFTSFCLKQQPDVEVIEHFGGGSGLLKSEIEYRLHLKGKI
+>tr|A0A1S1J460|A0A1S1J460_9FLAO
+MYHSKIAGLGYYVPSNVVTNDDLSKIIDTNDEWIQERTGIQERRHIIRGEDTTTTMGVKA
+AKIAIERSGVAKEDIDFVVFATLSPDYYFPGPGVLVQRDLGLRTVGALDVRNQCSGFVYA
+LSVADQYIKTGMYKNILVIGSEVHSTGLDMTTRGRGVSVIFGDGAGAAVVSREEDLTKGI
+LSTHLHSEGQHAEELALQAPGMGARWVTDIIADNDPNDESYYPYMNGQFVFKNAVVRFAE
+VINEGLEANGLQVSDIDMLIPHQANLRISQFIQNKFKLSDDQVHNNIQKYGNTTAASIPI
+ALTEAWEQGKIKSGDTVVLAAFGSGFTWASAIIKW
+>tr|A0A1S1J6H0|A0A1S1J6H0_9FLAO
+MKVLKFGGTSVANAQNIKLVLEIINQKSKQDQLVVVVSALSKVTDLLQLAAAKAAANDES
+FREIVAEIEKKHLDTLKELIPVSEQSSLLSHVKRIINHLETLLDGCFLLGELSPRTADTI
+LSFGELLSSYIIAQAYQQIDKNAVYKDSRELIKTNNNFGKAVVNFEVSNQLIREYFAENQ
+SKISILPGFISQTLDGIATTLGRGGSDYTAAIVAGALEAEQLEIWTDVNGMFTANPKIVK
+QAHPIATISYQEAMELSHFGAKVLYPPTIQPVLRKNIPILIKNTFEPEAEGTLISDQVLS
+KDTVVKGISHIDNISLVTLEGPGMIGVSGSSKRLFEVLSQEKINVIFITQASSEHSICIG
+ILNSDADNAEAAINRAFEVEISQNKIDPCIVEKDLCIIALVGENMKNHQGLSGRMFSTLG
+KNNVNIRAIAQGASERNISTVINERDVKKALNTLHENFFEENTKQLNLFVMGVGNVGEKF
+IEQIHNQRKFLKDNLKINVRVIALSNSRKMLFDEDGISLKDWQSALDKGENANKEAFISR
+AKELNLRNSIFVDITANASVSETYENFLKQSIAVVTCNKIACSSAYDNYKKLKNLSRQYN
+APFLFETNVGAGLPIIDTVKNLIASGDKVHKIQAVLSGSLNFIFNNFDKDNSFHDVVKEA
+GVQGFTEPDPKIDLSGIDVARKILILIRESGYEMDIDAIANESFLPAECLATTNNEDFFA
+SLTQHAPHFSKIYDEALSKDSRLKYVAQFENGKASVGLQFIPKEHPFYNLEGKDNIVLFY
+TDRYVDQPLLIKGAGAGAAVTASGIFADVIRIGNI
+>tr|A0A1S1JA56|A0A1S1JA56_9FLAO
+MGPEILVPISLFLMIFGIIYLIYSTRNRERLALIEKGVDASIFLKGSGKGVPTWKVLVLN
+LAFLLIGSGVGIFVALLITTYTSLEDSAVYPSIIFIMAGVGLLAGFSKAKDLDKE
+>tr|A0A1S1J0I5|A0A1S1J0I5_9FLAO
+MSKQFSSFGISAPILKALGELNIVEPTEIQQKTIPLLLAETQDVVGLAKTGTGKTAAFGL
+PLLQLVDTESPVVQAVILVPTRELGQQIFRNLEDFGKHIPNISIASICGGIPIKPQIERL
+TQPTQIVVATPGRLIDLIQRKAIDLKQTSYLVLDEADEMVSILKESLDEIIAELPKKHRT
+LLFSATLPGTIKQLIQNYLNKNVVQVSANMETAGNQGIDHEYIVVDPIEKLDVLMHFLNS
+KEGERGIIFCKTKAAVNKLAKNLAINRFSSGALHGSLSQGIRDRIMEQFREGHINILVAT
+DLAARGIDVKEISYVVNYHLPDTYENYVHRSGRTARAGAKGLSLTVLQEEEVVEIPEFEA
+ELGIKFTKFQKPSALSLEENNMLLWAKQIFKTKPNHDMSTDLKTKVKTVFHHLTKDELIE
+KLMASYVLQNKVEVTEKPVKKFKK
+>tr|A0A1S1JCN6|A0A1S1JCN6_9FLAO
+MNLLLRLLVTAGLVLLIAHFLPGVHVASFTTAVIVAVVLGLLNLFIKPILVILTLPVTLI
+TLGLFLLVINAIIILFCTNIVGGFKVDSFWTALFFSVILSVLQSITYKIIGDDK
+>tr|A0A1S1J108|A0A1S1J108_9FLAO
+MNKISFLTLLFFVVMLSFSSCEEILLVPDISKKDVVLVAPGNNVTLSSSGVSFSWENVQH
+ADKYRLQIATPNFDNPQQLVRDTLVSKNSFSQQLNIGKYEWRVKAVNSGYETVYTKRSFE
+VLNNNDFQNNTIILLTPANNLTTKTALQKLSWETILGATSYQLQVLDENNTLVKDQTTAT
+VLLNFTFDEGKYTWKVRASNGTSQTLYTSRSILVDTKVPNTPVLSSPANASSGTNTSVNF
+QWSRTPVAGSPEKDSIYVYTESTLTNLNFKDKAVTPYSKTLTKGTYYWFIKSFDEAGNVS
+PRSTVFNFTIN
+>tr|A0A1S1J9S9|A0A1S1J9S9_9FLAO
+MKRILITGAAGFLGSHLCDRFIKEGYYVIGMDNLITGDLKNIEHLFKLEHFEFYHHDITK
+FVHIPGDLDYILHFASPASPIDYLKIPIQTLKVGSLGTHNLLGLARVKKARILIASTSEV
+YGDPLVHPQTEEYYGNVNTIGPRGVYDEAKRFQESITMAYHTFHGVETRIVRIFNTYGPR
+MRLNDGRVIPAFIGQALRGEDLTIFGDGMQTRSFCYVDDQVEGIFRLLHSDYVYPVNIGN
+PDEITIKDFAEEIIKLTGTNQKVVYHPLPINDPLQRQPDTTKAKELLGWEAKVSRSEGMK
+ITYDYFRSLSKEELSKEEHKDFSNYIK
+>tr|A0A1S1J292|A0A1S1J292_9FLAO
+MTEGNFVDYVKIYVSSGKGGKGSTHLHREKFIEKGGPDGGDGGRGGHVYLVGNKGLWTLF
+HLKFARHIKAGHGGDGGGDRSTGADGEDKFIEVPLGTVVKDKETGETLFEITEDGEKRIL
+SKGGKGGLGNWHFRSSTNQTPRYAQPGLPGVEMDVILELKVLADVGLVGFPNAGKSTLLS
+VLTSAKPKIADYPFTTLKPNLGIVAYRDYQSFVIADIPGIIEGAAEGKGLGHYFLRHIER
+NSTLLFLVPVDTPDIKAEYDILVNELTKYNPEMLDKERLLVISKCDMLDDELKAELKIEL
+DVAFKDVPYMFISSVAQQGITDLKDKLWKMLND
+>tr|A0A1S1J445|A0A1S1J445_9FLAO
+MIKWADVIHFTNKGNPIPEKRVEKTEEEWKQLLTPEEFQVTRLKGTERSFSSELCSLFDP
+GIYECKCCGTLLFDASEKFESGTGWPSFTQPLKENAIAYHADKSYGMIRVEVVCNTCDAH
+LGHVFPDGPEPSGLRYCINAISLSKIKD
+>tr|A0A1S1J5D9|A0A1S1J5D9_9FLAO
+MPHFVIDCSENVIRLKSADDIMQEIYHTALATTLFVPTDIKVRIHPFSYYNNGNSSDDFI
+HVFAYILEGRNTDQKAGLSKAIVTKLNEILPEVPIISINIMDFEKASYVNKAMV
+>tr|A0A1S1J6T6|A0A1S1J6T6_9FLAO
+MQKLTNKEEEIMHILWRLKKAFVKEVQAEITEDQPHYNTLSTIVRNLEEKGFVAHNAFGN
+THQYYPIITLEAYSKKYMNTAIDNYFNSSYKNMVSFFAKEEKISAAELREILDMIENPKG
+EK
+>tr|A0A1S1J938|A0A1S1J938_9FLAO
+MKNIKILLILFYFCSCSTNTFPKFDYNKSDNPWIDAYKDNVFFSCLKESYKNDSIFKLIE
+KKDVLNPYDGLSLEDLEKTRCLGINLSTNIPKPILCDNCKEGNNYYMANCLHYYISKELD
+SIAKKAYKNFLKFEKDNSKN
+>tr|A0A1S1JAE7|A0A1S1JAE7_9FLAO
+MFSKLAYSVFEQSIKDYHQFDNVDQPINNPYPKDKFEHLLYLKNWIDTVQWHFEDIIRDP
+QIDPVAALTLKRRIDASNQERTDMVEYIDSYFLQKYSEVKVKDGAKINSESPAWAFDRLS
+ILALKIYHMHEEATRVEASQEHRDKCQEKLNVLLEQRSDLSTAIDDLLTDIENGDKFMKV
+YKQMKMYNDDELNPVLYQNKK
+>tr|A0A1S1J0X4|A0A1S1J0X4_9FLAO
+MNDLSNYRKSYEKSELLETNIPEDPINLFNRWFHEVEDFGGNGEVNAMTVSTIGLDGFPK
+SRVVLLKKFSEEGFIFYTNYDSEKGKAIAANPHVCLSFFWQEMERQVIIKGIAVKTSENI
+SDGYFDSRPDGSKLGAMVSKQSEVIPSRTFLEENLKKLEKEFEGKHIPRPENWGGFLVAP
+LEVEFWQGRPNRLHDRIRYQSQSDFSWKIERLSS
+>tr|A0A1S1JB13|A0A1S1JB13_9FLAO
+MKFNTKVIHGGQHHDPATGAVMPPVYQTSTFIQTSPGKPLADYEYSRASNPTRTALENAL
+ASIENGTRGLAFSSGLAATDCILRSFKAGDEIIAMDDLYGGTYRMFSRIYKDSGIKFHFV
+DMTDIEKLKSLINENTKLIWVETPTNPLMKLADIQEVAKITKANNILFAVDNTFATPYLQ
+KPLDLGADIVMHSATKYLGGHSDVIAGALIVKDEALGDQLHFQQFATGATLGPMDSFLVL
+RGIKTLSLRVQRHCENGEKVVQYLSKHPKIDTVYYPGLESHPFHEIAKKQMKAFGGMVSF
+TFKSGKKEDSIAFLEKLKVFTLAESLGGVESLANHPALMTHASIPADKRAEVGITDDLVR
+LSVGIEDAEDLIADLEQALA
+>tr|A0A1S1J493|A0A1S1J493_9FLAO
+MPRSVNSVAKRARRKKIMKQAKGFFGRRKNVWTVAKNAVEKAMSYAYRDRKQNKRNFRAL
+WIQRINAGARLEGMSYSQFMGKVKANGIELNRKVLADLAMNHPEAFKAILNKVK
+>tr|A0A1S1J7A6|A0A1S1J7A6_9FLAO
+MDNRITRPTPSDREVDWNKTKVLLSKTDTKGTILYANEAFIDVSGYDEHELIGHAHNIVR
+HPDMPKVIFKFLWDSIKSSQNIHVIIKNMSKTGRFYWVVTDFKIIADDDGEIVGYFGTRK
+SVPEEIIAKFIDPLYKKLLHIEEVSGMGAAEDYLIGFLEERKKTYMEYIDHLIATGKDDK
+NKISKGLFSGLFEKKAAPKK
+>tr|A0A1S1J9C8|A0A1S1J9C8_9FLAO
+MNFSNVLIKWYLQNKRDLPWRKTTNPYHIWLSEIMLQQTRVAQGTPYFFAFTKEFPTVFD
+LANASEEQVLKLWQGLGYYSRARNLHKTAQYVANELNGVFPPNYKELLKLKGVGEYTAAA
+IASFSYNETVPVVDGNVFRVLSRYFDIESDIASPATKKEFTELAYELMPKDNPAIFNQAI
+MEFGALQCVPKSPDCTVCDFNDSCAALQKKKVAVLPVKSKKIKVTNRFFNYLIVEDALGN
+TILQKRTAKGIWHNLYEFPLLETDKIVDFDVVSKAVTDTVFTSYTIIGIEDYPESTVIHK
+LSHQHLHIQFWKVKIEGLIENGLKASELNVFPFPIVIHNFLEKQEIIC
+>tr|A0A1S1J8Q5|A0A1S1J8Q5_9FLAO
+MGQKTNPIGNRLGIIRGWDSNWYGGNDYGDKLAEDHKIRKYIHARLSKASVSKVIIERTL
+KLVTVTITTARPGIIIGKGGQEVDKLKEELKKVTDKEVQINIFEIKRPELDAYLVATSIA
+RQIESRISYRRAIKMAIAASMRMNAEGIKVLISGRLNGAEMARSEGFKEGRIPLSTFRAD
+IDYALAEAHTTYGRMGIKVWIMKGEVYGKRDLSPLAGMDKKQSGTGGGKGGDSPRGDRKP
+FNKGGKPDARKRK
+>tr|A0A1S1JCG1|A0A1S1JCG1_9FLAO
+MKRIFLNKLFLVSSAVLLFAYGVIYACADGDWDYFGSYSSNFTPETFADNSYRPLFLSGG
+IFYGIGFDTEHNSRFNKDIKSDWGTYLKGKIDTTTVNYFLIGDEKPDYYSENKSAIKNKE
+EIKDLHTFYKSKKENKSSLKWGKKISLKDDKVKSFVEFLYLAQKIETVSINRDYWSYDPV
+EAKTFNDAKMIQSIENVYNTTSDPFMKNRYWFLTMKARFYSNNKQKAVDFFNKTEKSVPK
+NVLYYRALSYVAGVNHKQNKFAASNYLYAQVFDKCPELRTVTAYCFSPKNETDWNKALTM
+AKNNKEKAALWAVRGYYKDEKQSIEKIYELDPKSEHLNYLATRLVNRQEEAINNSFQKDG
+GENQSMKKLSVAENKTENQVKVDQKTLDLIAKISAAGNTDRPYLWDLSLGYLQTLKGDYA
+NADKNFDKAVKTLPKTELAGMQLRLLRFVNNLSKIDKLTDKNEKTILADLNWLYFELPKN
+YKGQEFRYQNASSWSRSYLSTLYREKGNPVMAEIYGESRYSYWNDGNSFYDNEKVLLDMK
+AFLSKSNKSEIESIGAGIYSLKLKDINNFQAVQATFKNKIPEAIEYMKQTDSVQYSKFLG
+NPFNGNIKDCHDCDHTAYQKRKYTFMDFLTTIKEMQGKLAQKEDVYTNSLLLGNAFYNIT
+HFGNGRTFYEITIIGYGSSPYSFRDSMKRMITNCDIPRMYYQKALEAATTKEQKAKCIYM
+LAKCERNEYYNNKYNNLKNWWEADDDKINFIAWSGFKALQKDYSDTKYYQDVIAECGYFN
+TYVNQ
+>tr|A0A1S1JDX2|A0A1S1JDX2_9FLAO
+MNKRNLIIIVLALFALTSLQAQVTFKPGLRAGASFSTFSNTRSDYKTDFYIGGFGEIKLT
+KIYTLQPEITYSQQGASNVKTFISYNNGNDVVSLKDLEIDYLSIAVVNKFTLKNGFQFQA
+GPTLDFRLRDNLLYEKSDIDLAFIMGIGYRLPSGLTFEARFKKGIVDVLDSDYYGSNGNN
+NDYWFRDYNTNVSFQIGVSYPFGK
+>tr|A0A1S1J7C3|A0A1S1J7C3_9FLAO
+MEHFIGYIKHYAIPLFVFTSLALALALILKRIHYQYTLPYRHHIVRKSEIFLTEITLSKP
+EESILKYKIAKFRSEIPIHKTWCKEMLIDDMIRMKSNLKGKTAKNILIIYKQLGLNHYSA
+SLLRDFRKYKKCDGIYHFQALGYKPGITQIQKYLFHPNKVIRSNANIAYLILTKGDWQAV
+NKIPVKVSISTTIKIMDVLHSQNIPIPPDIELWIESDNPTILKLAVMTMVFYNYRNRSGD
+IIKLLKHENKNLRTDVIIAIRDLYLYEAEEDLLLQFKQESIELQLEILDALAIIGSEKTI
+SFLNHQIPNEEIKDLKLKMVATLNDLDSVRIDVLGRQDSDTQKMINHIRELQL
+>tr|A0A1S1JB64|A0A1S1JB64_9FLAO
+MSLKKLDNPALLLIDIQKGFDDIAYWGGERNNPAAEQSAAELLEIWRNKKLPIFHVQHCS
+SNPNSILNETHPGNEFQDIVKPQEDETIIKKNVNSAFIETNLKELLDDAKIKTVVIAGLT
+TDHCVSTTTRMAGNFGYNVYLISDATATFGKKGVNGEEFSAEIIHQTALASLNEEFAQVV
+TTEFIKRIV
+>tr|A0A1S1JBS7|A0A1S1JBS7_9FLAO
+MLSILIPVYNYDVVSLVRKLHEQAVELNISFEIICLDDASNLFTNENQQINQFHNGSFFI
+LEKNIGRSAIRNLLAEKAAYQNLLFLDADTFPVHENFLLNYISKIDNREKIIYGGILYEK
+SKPSKEKLLRWIYGAKREALSVFDREKNVHLSFLTLNFLIQKSIFSKVNFNESIPNLRHE
+DTLFSYDLMQNEIDIVHIENPVYHLGIENSSTFLIKSEEAVLGLKNLVDSDLISKDYVKL
+SHYFQILKKFRLQFLVSFAFKILKPLFKKQLLGKNPSLFLFDLYRLGYYCSIN
+>tr|A0A1S1J5U4|A0A1S1J5U4_9FLAO
+MKIKNILPILLFFITFSFYAQNDKTDEKREKIKAYKVSFLTTELELTSTEAEKFWPIYNT
+YDDKQYELRHEKMKMYLRKLDDDNISTMSEKEAASLLSQMESADKELYTLRDKYNSNLKK
+ILSAKKILKLKKSEDDFNRKLLKQYRDKAGKN
+>tr|A0A1S1J701|A0A1S1J701_9FLAO
+MKKISLILIVAIASFSSYAQSSFKEDVDVVQSIYGKSKGDLVKEYMNLSDSQAAAFAKVY
+DSYEADRKGLGQTKFQLINDYAVNYATLTDEKADELAKGTLRNHIGYEKLYSKTYTQAKK
+VIGAINAAKFIQLEVYLQTIIRAEILETIPFIGELDKSKVKI
+>tr|A0A1S1JFY6|A0A1S1JFY6_9FLAO
+MKKDKPDNVVFSSEHGYNASLLPYATNVGAPVIKADDLAGWKGMGLNKVNKEFESKFNEL
+KMQYQDLIEEFQWNELVYNARFSFEPIVGEIYHLYKDADGFDFLSLIGPKEWNKEHIATF
+RLNSDKKWILIN
+>tr|A0A1S1J6G2|A0A1S1J6G2_9FLAO
+MSLIPEEFQIKNLINQDTYLVNGELKPWTGQTTPVFSTISSTEKYTPTLLGSIPFMEEKE
+AAEVVEAANAAYNKGQGLWPTMKVVDRIKCMENFVKQMKETREEVVKLLMWEIGKNLGDS
+QKEFDRTVEYIQDTIDSYKELNGRSSHFEKVQGVNAMIRRGPLGVVLCLGPYNYPLNETF
+SLLIPALIMGNTVIFKPAKHGVLCISPLLEAFRSSFPKGVINIVYGRGREVASPIMKSGK
+IDVLALIGNSKSAIALQDQHPNKNRLRLILGLEAKNPAIILPDADLDLAIQECITGSLSF
+NGQRCTALKVLYVHESIAEEFNKRFAEKVDGLAFGNPWEKGVSLTPLPETDKPKYIQGLI
+DDALHKGAKVLNEKGGKHSENYIFPAVLYPVNKEMRVYHEEQFGPVVPIISFKDINEPLE
+DMAESNYGQQVSLFGKDIKTLAPLIDALVNLVCRVNLNSSCQRGPDAFPFTGRKDSAVGT
+LSIPDALRSFSIRTFVASKDIAYNNEILQELLNSRESNFINTDYIL
+>tr|A0A1S1J7T2|A0A1S1J7T2_9FLAO
+MDNQDKIFDKFKEAAHNSESKDFPGMEKVWSRLEDKLDKKEDKKTISLWKKIAVAASLLL
+LLSLGAQFLKSDKTVPALTPKAVVNEEEKATQPILEKKEVIVSSESPIIPKAEAVKILDQ
+QIKQQQKVAIQEIQHTTDNAIVTQASPAPVADQIIPPVAASSEYFKEEETENNAAKDKAI
+QNYGYAGAARRESAKMAYAEKPVQMAKKSAPLIVLNGNAMSHNDDAKRDKMMQAELPNLQ
+PENVDSLVVLDAPLYIIDGIYYSESELFGNNPTSPYAPLNKQEIKTITVLQDLEATSKYG
+DKGKKGVVIITTRKGKPAAKN
+>tr|A0A1S1J8W1|A0A1S1J8W1_9FLAO
+MNKKEQFNEIYNKHYNKVFRLCKGYFCGDIALASDAAQEVFIKVWEHLDTFRNESSISTW
+IYRITVNTCLLYLRKSSARKEVRTDILPKVASETYSDEKEEQLQQMYQCIQKLEETNKMI
+ILMILDGIEYPEISEVIGITEETLRVRIHRIKKSLTQCVQNENI
+>tr|A0A1S1JAL4|A0A1S1JAL4_9FLAO
+MDIQLEKLELIKLLAETEDPSILKSIRKIFKKEQKDWWDDLTEEQKANVAQSELEFERGE
+FISFEDVMKKYR
+>tr|A0A1S1JAJ8|A0A1S1JAJ8_9FLAO
+MSSDKEAKLKALQLTLDKLDKTYGKGTVMKMGDRAIVEVETISSGSLGVDLALGVNGYPK
+GRIIEIYGPESSGKTTLTLHAIAEAQKAGGIAAFIDAEHAFDRNYAEKLGVDIENLIISQ
+PDNGEQALEIAENLIRSGAIDIVVIDSVAALTPKSEIEGEMGDSKMGLHARLMSQALRKL
+TGTISKTNCTVFFINQLREKIGVMFGNPETTTGGNALKFYASVRLDIRRSSQIKDGENVI
+GNRTKVKIVKNKVAPPFKTAEFDIMYGEGVSKTGEILDLAVEFEIVKKAGSWFSYGDTKL
+GQGRDAVKALIKDNPELADELEIKIKAHIKELADA
+>tr|A0A1S1JDT8|A0A1S1JDT8_9FLAO
+MNIKQISHLPNTSAMESFGLLPDNEEILSCELCNKNGMKAKIINYGATLTSLLIPVATGG
+VVDVVLGFDTLESYLASYHLPSAPYFGATVGRYAGRIDKGLFALNDQTFQLNTNNNGNAL
+HGGNIGFGQKTWNITHITSGDNPSITLSLLSQNLEENYPGALQVDLTYTLTEENELKLEY
+KATSTEDTIVNLTHHTYFNLDGHDRNLLNQTLFIDSDKMLETDTENIPTGNFIALSNHDF
+DFRTAKKCPESIDNSFVIEPGKTVSATLSSAENNLQMKVITDQPSVHIYVGGNCFGSVKG
+KENANYHTFSGICFEAQNFPDAPNHKHFPNSVLRKGETYHQKTLYRFETIT
+>tr|A0A1S1J4X9|A0A1S1J4X9_9FLAO
+MFTTKTIKLAFVLCCASLPLSAQKINSKEAARLENLAQQVSIIRDNWGIPHVYGKTDADA
+VFGLLYTQCEDDFKRIEMNYIEKLGRLSEIKGQAVLYNDLEIKLLIDTEEAKADYKKAPL
+WLKKLLNSYADAINFYLYKHPEVKPALLTHFEPWFPLLWTDGSIGAISTADLTTGELKAF
+YSGNGDKVAYVEREKNVQTGSNGFAFAPSKTAAGNAILYINPHTTFYFRPEVQVTSEEGL
+NVYGAVTWGQFFVYQGFNEHCGWMHTSSNVDVADMYAEKIVDKKGKLFYEFDKKLIPVIE
+KEIIINYTENGKLIPKKFKTYFTNNGPIMAKRDGKWISLKSNNRSMTSLIQSWVRTKSTS
+FEDYKKAMDLKANTSNNTVYADNQGNIAYWHGNFIPIRDKNLNWSKVIDGSISSTQWKGL
+HNVNETVHLYNPTNGWLQNCNSTPYTVAGENSPKRENYLPYMAPDGENFRGVNAVRIFSK
+GNQYTLDKVIADGYDTKLSIFEILIPSLITVYEKNKTAYPELDEVILILKNWDYYAKENS
+VATTLAVEWAYKLDPIILKAYVDEGEPDQVENTRKFATNATAVQMLPQLQFVLKELNSKW
+GTWKVAWGEINRFQRSNGDIDLKYDDAQPSLPIAFGPGSWGSLPSFKSSYQKDSKKRYGY
+NGNSFVCAVEFGPKIKAKSLLAGGNSGNPDSKHFNDQSEMYRKGSFKEVLFYKDDVIKNA
+EKTYHPGE
+>tr|A0A1S1J8C8|A0A1S1J8C8_9FLAO
+MIEKIVAEYVSFIRTFETLLKKKYKQDINPCSFSSTFFERKGTIEGIEYYFHGSGCTANK
+DGVIYDYDISINEITFSQWKFSEFVRTHPEYQKLNYSDDFIEYELYQLINKGILGWVIVK
+NMEKPPFGCVFKSYRVIQEPPFLIN
+>tr|A0A1S1JBL2|A0A1S1JBL2_9FLAO
+MSKQVRVRFAPSPTGPLHIGGVRTALFNYLFAKKHNGVFYLRIEDTDQTRFVPGAEAYIM
+EALEWLGIAPEETVGKNEKFGPYRQSDRKEIYQKYADQLIQSGWAYYAFDTPEALDAHRK
+QHEAEGKTFIYNHHNREKLDTSLVISTDEAASRIANGEHYVIRFKTPVDETLHLKDIIRG
+DVKFETNLLDDKVLFKSDGMPTYHLANIVDDHLMETSHVIRGEEWLPSMPLHVLLYRAFG
+WDAPEFAHLPLILKPIGNGKLSKRDGDKLGFPVFPLEWKTEEGISSGYREKGFFPEAVVN
+FLALLGWNDGTDKEIFSLEELVASFDLNRVHKAGAKFDPEKNKWFNHQHLIQQNDADLAK
+SFSPILEEKGFSSFVSAQEDIAKLTRIVSLIKERANFVSEFWDLTDFFFQAPTSYDEKAS
+KNWKEETPALMQELISVLENIEDFTSANIETIVKDWLTKNEIGIGKVMQPFRLSLVGALK
+GPHLFDIVEIIGKEETISRIQKAISTL
+>tr|A0A1S1J1L2|A0A1S1J1L2_9FLAO
+MFQKKNHVFILVQIIIWTIYTGIIFIPQIIIPELNFLGYKNWQLLLDYFFSVCVLTLVSI
+ALKHFYDRYIKLDDFKLWEIIKLLFLIFASALFYYGALTAYNYLMITYVYENPEVFDHPS
+QSAKRQVLFVFVMGFLFFLWIVVYTIYKTTSQIKNNKMDRMEIENTLKDSQLNALKGQIN
+PHFMFNSLNNIRGLILENPEKSREMITRLSEMLRYSLTKNEITTIALEEEIEMVENFIEI
+SKIQMEERLNFTSQIAPNTLQLQIPPMIIQMLIENAAKHGIAKLKEGGQIALETNMENNN
+LTIEVSNTGVLTIEKNSTQLGIKNIEKRLHLIYGEKARFKLQEIENKVIAKITIPIL
+>tr|A0A1S1J512|A0A1S1J512_9FLAO
+MEPKLISGNCHSDQRGFLFYNNDFDSSLVKRIYIIQNNSLDFIRGWQGHKIEQRWFSALS
+GKFKIQLIEIDNWENPSKDLKVYIFQIDSEKLDVIHVPKGYISSIQSLESDSRLLVMADY
+MLGEIKDEYRFDIDYFKK
+>tr|A0A1S1J640|A0A1S1J640_9FLAO
+MEFFWYVVLMGILAVYIVLDGYDFGAGIIHLFFAKTEKDKKAITNAIGPFWDANEVWIIA
+AGGVLFFAFPTLYASSFSGFYLPLIMILWLLIFRAIGLEMRGQVHHPMWEAIWDKAFGIA
+SLLLALFFGIALGNIVRGVNLGMVTNGVSTQEAHYFFLPLWNPTFSPRASELGIIDWFTL
+FLGIVSVVSLTIHGANWIIFKTNSALNPQLKNVVFKLNIVLLVLVCISLQIWHFIEPKPF
+HNFVENPILWFFPLMTFVGILGLFKVRSWKKDGYGFLFSSLFLVGGFASTAVSIFPNVLP
+STNKVNPSLTIYNTAAGEYGLNAGMSWFFIALFLVIIYFIIQYRVFSGKMDDIGYGEH
+>tr|A0A1S1J4M8|A0A1S1J4M8_9FLAO
+MKTKTQFLSLCFLIPLFILQACGQNTKKQNTTTTAMENKISKPGNPYYSNTDTTKLNVSN
+AEWKKVLPEDVYAVMREADTERPFTGKYWKTDEKGTYYCASCGNKLFRSGAKFASSCGWP
+SFFKQDNKKSVVYKNDNSLGMERIEALCGRCGGHLGHLFDDGPPPTGKRYCMNSIALDFI
+PDTK
+>tr|A0A1S1J9D9|A0A1S1J9D9_9FLAO
+MKLLRSTLLLLLLLCTSNNFAQIIQTTLDPGELPAPPSNWTKKNQLGFDISEIAFVNWSA
+GGTSSISGLFKGEFNRTYIRGNHKWANELIIKYGLNQQDGTELRKTDDAFLFNSTYGFRK
+DTISNWYYSAKFNFNTQFTDGYNYPNKDVAISRPFAPAYVFLGAGAENSDKKKNRTLYFS
+PITLKTTLVLDQALANQGAFGVRKATYIVDPMDPNSKILLENGQKVKAEFGILLTGYMKS
+EIYKNIFYENRLSLYTDYLNKFGNVDIDYDTRLDLVVNAYVKANIGVHLVYDDDIKTKKD
+FFDPATGTTSQVNNGPRAQLRQVLGVGLVYAFQ
+>tr|A0A1S1JBA9|A0A1S1JBA9_9FLAO
+MQQPTKKKNSTILIVCAIAALLLALIAYCSFKEPVTDKEMIELVEKYNENCPLTIQEGIR
+LDNVTLPKDKVVQYNLTLLNVEKETAEIEVIKRNIEESLLSTVKANPGLKAFRDNDFTLI
+YNYDDKKENYLFQITITPSQYK
+>tr|A0A1S1JBC6|A0A1S1JBC6_9FLAO
+MQTNLRIAVLLVYSLFFNLTSAQNSAPNWKNIGPIPFPQKTIGQVHGIGRCLQIKFHPTD
+PNKMYVASASGGLYQSNDKGLNWTSLGTDQVINASSSSITVDPTNNQVIYWGTGDANYSY
+DGLGVYKTINGGATWTKSNSGMDNRLVRDVLILPTDSNTIIAATNNGIYKSTDAGANWTL
+QSVSGIEVQDICYKPGTNGQIIYATASKNFYRSLDAGSSWTEITSPAFVFGANGTRVSVC
+DADPNVVYVANVGANAIGEIYRSTDGGSTFTNMRSTTECIAAYSASGGGQGDYNFDFEVN
+PVNSNELYVCAHVIWRSTDAGVTWVQQQSSWSKDLHTDQHHIVFDPYVSGQLWNANDGGV
+WSNTANGTGAWTPKSDGIAATEIYHGALGKTNRNLQYIGTQDNGGFYYNNGIFYNNRAGD
+YGPYMWFDYLSNFYSESNKYKCPYPPGSGSCVDLNLPETPSGGKFAFTPENADIAYHANA
+GKIYRCLNLTSASPSWTLIYTVPSGTIRDLQIDPGNADRLYVFTDLPALYRSDNAKTDAS
+FVQTTLPSTSTNGSVAPIPNSDVVYLGLGTTIYRSVDKGTTWTPTKGFPSAQVQKVVADN
+KSINEAVYASYALGVYYKDITKSSWINYSSGLPIICNITDMDIYNDGISKGILTVYYYGR
+GVWQSDLVPPPSNIMVAMTSPVNNTTFSGPATINLNATASVSSGNISKVEFYNGTTLLST
+STSSPYNYVWTGVLPGNYDLTAVAYDNLGNKKSSSLVTVMVTLVCNKVTGIAFGTAPYYH
+YTCDKAFDGDINTSFDADDSEDPAYVGLDLGTAKVITNLRYYPRDSRAGRMTGGKFQGSN
+TSTSAGFVDLYTIPTEPNYAWHDVSIPNSTAYRYYRYCTPPDNYADVAEIEFCASNELPT
+VNITAPINNKLYATVPANINITATASDADGSISKVEFYQGATLLGIVTSSPYSFNWTGVP
+SGTYQLNAKAYDNLNAVAVSSNITVIVGNQNPTVSIISPDDYADIPNPSAITIYATASDA
+DGTISKVEFYNGTSLLGTSTTSPYSYNWTNVPIGTYTLTAKAYDNSGGITSSSPITVNDI
+FPCSTLSGSTFGTSPWTAGYEYDKAFDGDINTNFSAKSASSGYTGLDFGTAKVVKAIRFY
+PRESFEKRMTGGKFQGSNTSTSAGFVDLYTIPTEPSYTWQEVSIPNSKAYRYYRYLSPKN
+GYCDVAEIEFCGLNDTKVSISTPANAATFIAPATINIAADVNGAVSKVEYYIGASILGTS
+TNSPYNYNWTGISSGSYNLIAKAYDNTGAVTSSAPVSFTVRNNIAPTVSITTPADKAMYT
+APATFDIAATANDTDGKIDKVEFYNGATLLGTVNTSPYSFNWKNAAAGTYTLTAKAYDNN
+GVATSSSAVSVRVNQPPTVSINAPTDKTIYTAPATFAITATANDTDGNISKVEFYNGTTL
+LGTVNASPYTFNWKNIAAGTYSLTAKAYDNNGAVTTSSAVSVRVNQPPTVSITTPADNAI
+YVAPATFDISATAKDADGSIDKVAFYNGATLLGVVNASPYTFNWKNVAAGTYTLTAKAYD
+NDNDVTTSSAIVITVNTPVNQSPSAAITAPANNTVFTAPASITIDAVATDSDGTISKVEF
+YNGVSLLATSTTSPYTYNWKNVTVGTYAITVKSYDNANVTATSAVVNVVVNNNHAPSVNV
+TSPADNTTFIVPATVTIDAEAADSDGTISKVEFYNGATLLSTSTTSPYTYNWENVTAGTY
+AITVKAYDNANATATSAVVKVVVNNNQAPTVRLTAPTDNTTFIAPATVTIDAEAADSDGT
+ISKVEFYNGATLLSTSTTSPYTYNWENVTVGTYQITAKATDNTGNVTSSTPVIIAVKASP
+IISMISSSENNQVIDNGKDILFTFDVTDPDAVLSSIIIKDNGEIISTINKSSYSFVLTDI
+SPGDHYFTAIAILKNGTKYTFASLNIVSKNCKSKEWNTSTDYLTGDQVIYQNIIYRALAV
+NKNKQPNQDQSTWSNIGTCENLIVKNPPAVKPKYMLYPNPCTTHFNIKFMDCEGKSFYYS
+IMDVNSRILREQKSESINNAIFEKEVNIQGLPSGTYIVHIHLDERIYSEKIIIIEKPSMY
+KRKK
+>tr|A0A1S1IY97|A0A1S1IY97_9FLAO
+MLDYIIVGSGLAGISFAEIALKNNKSIVVINDESQNSSRVAGGLYNPVILKRFSEVWKAE
+EQLSLMDEFYETIEGKLKTKVNFKLPILRKFFSIEEQNNWFSASDKPLLAPFLSTKLIFK
+KYNGIDSPFDYGEVLHTGYVDTALLLDKYHEYLLQNKLLLQESFDYAKLIIDEDFVQYKE
+YQAKHIIFAEGFGLHANPFFQDLSLDGTKGELFVIKAPDLDLDVIVNTSVFILPLGNDLF
+KVGATYNWKDKTDTPTEEGRTELIDRIEEIINCRFEVVSHFGGVRPTVRDRRPIIGTHNQ
+YNSLHLLNGLGTRGVMLGPAMAKDLYEYIEDQKTLDPTIDIHRFYKKRK
+>tr|A0A1S1J213|A0A1S1J213_9FLAO
+MHISKVSLVNYRNFANANFKFNKGINTIIGENGCGKTNLFRAMRLLLEDASYQFAYKLSE
+ADFNRSIGDWRGHWIIISIEFDEISSDEAIQALFIHGTGEIVVDNVKKATYNLFFRPKAD
+IRQKLSELKEGDKEGLEILLKTISVTENYETFFTGKSTVDFTDKDVYKDLVGDFENVKFN
+STIDASKYGIKIPHQLSVAKEISFTFIQALRDVVSDFHNNRTNPLLTLLKSKSGEIKDSD
+FEPISQLVKELNTGIETLPDVQTIRSDIKETIKDAVGETYSPSSISIKSSLSEEADKLLQ
+SLKLFIGEPGEDYEGGIHELSLGGANLIFLTLKLLEYKYQKSKETFANFLIIEEPEAHIH
+THIQKTLFDKLDYGDTQIIYSTHSTHISEVSNVSNINILAKKRNYAEVYQPSNGLLPDNI
+NKLERYLDAVRSNLLFAKGVILIEGDAEEILIPLMVKKVFGISLDELGISLINIRSTGFQ
+NVAQLFHNDRLKRKCSILTDLDTAIIDTKILDTDSKTLKSYKQKIEKSNKAGIERKVILD
+DFIKDNDLVRVFYADYTFEVDFIKAGNTPEAKGTIKEVYVDIPTRKLAKVELDSDEVGIY
+GKRILRMAKQEGKGWFAILLGKYINEYVIIPTYIIDAIIFAKSTFTEALIANLIKYRIKI
+NIRDDENLDFSVVNKTLLNFGEGKATLADLTNDLVKVIPDDQIIYILKKL
+>tr|A0A1S1J2N2|A0A1S1J2N2_9FLAO
+MLISKIIHEESIYFNLHAEQTISSSYFAAEIGLYATELFDSTLNRITKGLDEIDNSTKYV
+LYLDFERIENAGKNLFDDLSSIKSKVKSLIFINLKENILSQLSLSEDFLNNPNNHKVDED
+DKFAMFYFGNDSATEKYLDSKDLFEDYLLSFIMHFKTKDTDKLFLHESSSVYLTSYIDIK
+RMISEDTSFMMFCLYHLSIKVKDSWIENINDKPVLVCQNLNSSFISSVLSNFLQLDILIL
+DHVGPVNTHYSSLNSKIEEGKKYIIVSDVVCLGTEVKITKNIISFLGGRVIGNVSIVKLD
+TLYEDDIAKEKIKNLSVFNINQKNNSQVKFKIKTAIDPDE
+>tr|A0A1S1JAU0|A0A1S1JAU0_9FLAO
+MQDNHLYEYAVIRVVPRVEREEFLNIGIILFCKKKKFIKVLFHLNKERIQALSADFDIEQ
+LECNLTSLEKIVNGAKDGGPIAEFEIPERFRWLTAIRSSAIQTSRPHPGLCQDLEKTIQR
+LFEELVL
+>tr|A0A1S1J3K0|A0A1S1J3K0_9FLAO
+MFFLDISLGSVTIPFKEVYNSMTGSHASKSTWEYIIVNYRLPKAITAMLVGIGLSVSGLL
+MQTLFRNPLAGPDVLGLSSGAILAVAIVILGAGFLPSFLNSILLSPYAIVLASTIGSVLV
+LLLVLLVAQRLRNTMAILIVGLMFGSFTSAIVGVLTYFSSAEQLQKFTFWSLGSLGNLSW
+TSISILAVCVAFGLFLSAGSIKPLNALLLGENYARSMGLNYKRARLIIIFATSILAGSVT
+AFAGPVAFIGLAVPHIAKLTFQTSNHTVLYWSTFFYGGIIMLFCDMASQMPGLETTLPIN
+AITSIIGAPIVVWLLMRKRNFQ
+>tr|A0A1S1J3I0|A0A1S1J3I0_9FLAO
+MRKIVIALSVLMALTSCVSKKQYAALEAKNKEIQDLLNSCTVKLNTCLEEKAGLAATAES
+YKQHNQDLISTSKDLTVLTTKGAENLEKSLESLKEKDLKISRLQDALTKKDSVTLALVTS
+LKGAVGINDPDIEINVEKGVVFISIADKLLFKSGSYDVSDKAKSVLAKVAKVVNDKPDFE
+CMVEGHTDDVPYKSNGIILDNWDLSVKRSTSIVRVLSNELGVNPAKLIAAGRSSYVPLVA
+NDSAENKARNRRTRIVVMPKIDQFYDMIEKEMKKQAK
+>tr|A0A1S1J702|A0A1S1J702_9FLAO
+METVKIPQGVQVTLNVAISSDAIVGAAIRLKGEVTTYPDNQFSVILGDLSTLQNEKMTVQ
+SLFHVDQNIDQIMATTRLDIEVSYGDQTQKLTVKKRKIYNQLFIAFAYVQFTKQ
+>tr|A0A1S1J4Q2|A0A1S1J4Q2_9FLAO
+MTHINKLKIFNDPIYGFITIPNELIYDLIQHPYFQRLRRISQMGLSYLVYPGANHTRFHH
+ALGCMHLMQKSVDTLRFKGVAISAEEENALYIAILLHDIGHGPFSHAMEKSIVEDVHHEA
+ISLLFMNKLNEEFEGKLSLAIQVFKGDYHRKFMLQLISSQLDMDRMDYLKRDSFYTGVAE
+GNVNSERLIQMMNVVDGVLVIEEKGIYSVEKFLLSRRLMYWQAYLHKTSLVAELILMKVL
+KRAKELTLKGTVLPCSEPLLYFMKNRVTLKDFDAEKLDLFSQLDDFDIISALKAWQKHND
+FILSTLSKMLINRDLLKIKLTAEKIPAEELQSLKEEFANEHHITQLEAGYFIFGGKIKNQ
+AYSKEAEPIRIFKKDKTIEDVVEASDQLNLRSLSKLVTKYYICFPKQLI
+>tr|A0A1S1J5L6|A0A1S1J5L6_9FLAO
+MTIEEVIKSTVKMDNARKVILNIMYTQNVIQDHFNELIKPYDLSGEQYNVLRILRGQKGN
+PANMCVIQERMLAKTSNTTRLVDKLLLKDFVTRNVCPGNRRKIEVLITQKGLDVLKELDP
+KVDEHERLFAKNISPEELELLNQLLEKYRTQQN
+>tr|A0A1S1JAI0|A0A1S1JAI0_9FLAO
+MDTKELLKKVRKIEIKTKRLSNHIFSGEYHSSFKGRGMTFSEVRQYQYGDDIRNIDWNVT
+ARYNEAHVKVFEEERELTMVLMVDISGSEGFGSKSQFKKDIVTEIAATMAFSATQNNDKI
+GLILFSDNVELYIPPKKGRSHVLRIIRELIEFEPKSHKTDISQALKFLSGTQKKKAIVFM
+ISDFMAENYEQTLKIASKKHDITGVRVYDIREEKIPNLGMVSMLDAETGKIQLVNTGSKT
+VRLNYEKHYQDRVNYFKDIFSKSGAGVVNTRVDENYVTKLLGYFKSR
+>tr|A0A1S1J2H8|A0A1S1J2H8_9FLAO
+MKIKTLNVTFMVIAYLISIPLQAFFWAIIGVKAHYLILLFSHFIFFIFLIYLFTGTLIID
+CNGDKDTLTLEWDKKPIYTKIENQVIFLSEIKSWKFFNGRGADRLKLYFNNDEFLKIDFN
+NLTDFGQNSKKVDQVLFFLSRKNNKQQLS
+>tr|A0A1S1JA12|A0A1S1JA12_9FLAO
+MIDFFLDSYKNTPLWHIALEFLVFICGILSVWFAKKENIWVYPTGLIATVISVYLLYVAG
+YIGDMIINGYFSIMSIYGWYVWAKGGTVEDNLPITRTNANEKIIGIVLFFITVFVVFGIY
+KYFDYEIRNDNYVDMISSGIFFAGMWYMAKKKIENWTLWIIGDIIVVPLYAYRGLGMLSL
+QYLIFTILAISAYLEWRKILDSKKQLS
+>tr|A0A1S1JBA8|A0A1S1JBA8_9FLAO
+MYNVLNVFTMIKNYKLLFFSFLVCFIPTLAKAQLGSSCGIPAWYSVTQYSSNSYVRYNNI
+VYKNNSWSQGAGSTPGSSSVWSAVGSCDEQLIINNPSLAYTACNTVSDWNSTTPNYNVNN
+IIRYNNGVYKAKYWVAGTEIPDQSSAYTFLGVCIKPIAISPAYADGQIIIKSTLSAINLT
+ASLNLYGFSATQNKVEIKKTTESSYTTYNMSLSGNTISYNWTPTAYGDYNIRYTTVNSIG
+ISTVVNTTIKIAITAPAVITITGPPNATSYTQLNFSPISITFTIQPSSGSSISSILFKDL
+TAGTNANVSTNPQNSYTFNWTPQNYGNNSLQIAVTDNNGTIATTGLQLTIVNPATQNISF
+ASLPNQIKAVNGIPKTFVFDKAITSLKRRNTTVFDYTITGNTLKIIPKKAGRSGLQITTS
+DGTIYYLGLRIDNANGSVLKYPDYVSVGSVSEDTTDDVNFYNNNIDDSNLLKNNRMDVRY
+IYINGGPIAGWNTWQPDRAIKFARNSLKMGLIPFFVFYNIPDGSESYELDLAHVKDASYM
+TAYFNNLNLFLNQVKAELGDEFFGVVLEPDFLGYMQQFNEPITTTTAVNATSIAQNAGTL
+KTLVERINFELNKKRTDENLNMEFGWQLNLWAKAGVAGPKGIIRETDTGTFTTQLNKIKQ
+TAADIFQYTNSMGIMSNNADFISIDKYGLDAMGAGSTGNPADPFSYTWFWNNDHWMNYLN
+FVQKLYEASGKHVVLWQIPVGHINGSETVNERTAGPFQILNNTSQHYEDSASTFFFGDTV
+NFSNDATRYNYFSQNKHADPKLLVNPTTKKVTFGNHFAEVKNSGTKLVLMGAGVGASTDG
+IGNPGTTLTDDHFWIQKLQDYYINQTSGASTSSAAALNDDLTFNSSLIIYPNPVKEELSI
+DTKEKVEVVYVFDMNGENVITLKNKTKINLSELKNGWYIVAVKLENGKKISNKILKN
+>tr|A0A1S1J121|A0A1S1J121_9FLAO
+MQHLGSHIINKLFLEVNTQSKEKAYYLKDHLDTFLKEELLPLLEAYFDTLHTQIPLYSIQ
+IEKLDLNLSLAPELNFNALKLEILNQIQKQIDDQIQKGFPDTERYKLMNREEKNSDEFFI
+FLETGTSPWWVITSDNNYGNGNGKSNVKGNTPLGPEEDPQLQKNIGDKTFGSKLRNALKN
+SQIRTRFIKQLSDAQIYDILKKTLLLAADDKETATKIIEKIHRNMRKLVSKSKQGLNQRN
+LIWEIVFSELLQHDEALTKEKLVQLIASFVSITQENLKIILEQIRQNVSDKSVLSVLSNL
+APEIANIKALSEQIASDVLPESDKEEFLKLKFSETDRSPEVANEPQPDTKMEAQNREARD
+LESGNKEKEKIHKVGDPDKKKKTEENRNPSSKSPETDAKETAEINALLNRNKEIEGKNEK
+TKDLEDWHSALFPADGATSDVPSSHYVNNAGLILVHPFLKHLFGNCGLLRKDNTISDPET
+AAHLLHYIATDREQDYESQMLFEKVLCNIPINRPINRNIILSEELKDQGKEMLQAVLDNW
+PIMKNSSIALLQNEYLQRPGKIILSEDNPKVIVERKTQDILLDKINWNLGIVKLAWKDKI
+IFVDW
+>tr|A0A1S1J2F3|A0A1S1J2F3_9FLAO
+MSNGKSLKAVAYGEVLWDVFAAEKKIGGAPLNVALRMQSLGCNAAMISCVGSDEDGVTII
+NHVKNLGLEAEAIIKSEDFPTGLVHVTLNEKGSASYVIHYPAAWDKIVLSDFARSLAVNA
+DVLIFGSLVCRDEVSRKSLEELLRTNVYKVFDVNLRKPHYSYEILEQLMHAASFIKFNDE
+ELLEVSAALHSPFTTLEENIYFIAEKTGTNAICVTRGQYGAVLLWENQLYENYGYTVKVV
+DTVGAGDSFLAALITSLLTGKKPQDAIDFACAVGALVAASPGANPEIPLSKIESLLIGTI
+>tr|A0A1S1J1P3|A0A1S1J1P3_9FLAO
+MEIQSNFSLKNYNTFGIEAKARQFVAVHTVAELKTILEENKDEQKFILGGGSNMLLTKDI
+DALVIHIDLKGKTILKEDDDFVWVESQAGETWHDFVLWTIDNNFGGLENMSLIPGNVGTT
+PVQNIGAYGTEIKDTFVSCEAINIATQEIKTFTNADCKFGYRESVFKNEVKDQYIITSVI
+YKLTKRNHKINISYGDITAELAKNNITVPTLKEVSNAVIAIRQSKLPDPKELGNSGSFFK
+NPILLKSDFEKIHQKFPEMKYYEVSETEVKVPAGWLIEQAGFKGKRFGDAGIHKNQALVL
+VNYGNATGQEILAVSKDVQKTVFDTFGIQIEAEVNVI
+>tr|A0A1S1J7D9|A0A1S1J7D9_9FLAO
+MLKNDLFLKALKGETVQRPPVWMMRQAGRYLPEFRALRDKYDFFTRCETPELAAEITVQP
+IRRIAPDAAILFSDILVVPRAMGIHVELKDNLGPIIPDPIRTMEQVNQVFVPDVNETLGY
+VFDAIKLTKEMLNDEVPLIGFAGSPWTIFCYSVEGKGSKSFDTAKGFCFSNPIAAHTLLQ
+KITDTTILYLKEKVKAGVNAVQIFDSWGGMLSPVDYQEFSWKYINQIIDALAEVTPVIVF
+GKGCWFALGEMGKSKASALGVDWTCTPRNARYLSGGNITLQGNFDPSRLLSPIPTIKKMV
+HEMIDEFGKDKYIVNLGHGILPNIPVDHAKAFIDAVKEYGN
+>tr|A0A1S1J806|A0A1S1J806_9FLAO
+MNTNTSQTKIATFGELLLRMNVANGNRFTQANEIKVYVGGAEANVCVLLSQLGIPTDYIT
+RLPQNDLAQLAVNELQKYKVNTSKCVYGGDRLGLYFVEAGNQIRQSQVIYDRSNSSFATI
+QKDQINWDLALADVTHFHWSGISPGVSHEATLVCKEAILAAHQKGLPISSDFNYRSKLWQ
+YGKHPSEVMPDLLQYSTITVADLDAIEIYFGIKTDAKESDADRFQKTFELLKAKMPFLKT
+LAMSFRKSDGPAHLYKGLLIHEGNFYQTSEHKIHAVTDQIGSGDAFNAGLLYGLTHKLSG
+QDCIEWATACGVIKQSIHGDFAISTPDEVNHFIKNGSSNRINR
+>tr|A0A1S1J890|A0A1S1J890_9FLAO
+MITGKNYVGSTLKAGGNKTFKTFNPQQNVENPWVFTEATHEEIEEAVALAHQAFGTYKKC
+SGLERAGFLNAIADEIVALGNDLLVQYCSESGFPMGRAEGERGRMVGQLRAFAQMLIEGS
+WVQAAIDTAITDRVPAPKEDLRKILVPLGPVVVFGSSNFPFAFSTAGGDTASALAAGCPV
+IVKSHSMHVGTGEMVASAIIKAAQKTNMPEGVFSNLIGGGTTLGTALVKHPLVKAVGFTG
+SIRAGRALFDLAAQRPEPIPVFAEMGSVNPVVLLPNAVKVNSQKWATAYAGSITLGAGQF
+CTNPGLLFGIKGAELDKFSEELTQAIEKIEPFCMLHPSMKEGFEEGSATMLAQKGVAKIA
+EYKGDAASNYGVQKVLTVDGKTFLENKILSHEVFGPVSVLVQCDDEQQLLTIINQLDGQL
+TGTIIGEPEELKNQDELIAAMQSRVGRLIFNGVPTGVEVCPSMIHGGPYPASSDSRFTAV
+GIHAVYRWVRPFSYQNWPNELLPAELQNENPLQILRTLNNIQTKSQIA
+>tr|A0A1S1J7N3|A0A1S1J7N3_9FLAO
+MNKEARVTFVINTLKELYPTIPVPLDHKDPYTLLIAVLLSAQCTDVRVNQITPILFAKAD
+NPYDMIKMSVDEIKEIIRPCGLSPMKSKGIHGLSHILIDKHNGEVPQDFEALEALPAVGH
+KTASVVMSQAFGVPAFPVDTHIHRLMYRWNLSNGKNVVQTEKDAKRLFPKELWNDLHLQI
+IWYGREYSPARGWDLEKDIITRTVGKKSILEEAAKKKV
+>tr|A0A1S1J8M1|A0A1S1J8M1_9FLAO
+MRYSIAILAFFLLTSCKNESKTDSLSNYFTYSKKSEVESAGVRMIPIKTPVGEFKVWTKR
+FGNNPKIKILLLHGGPAMTHEYMECFETFFQREGFEFYEYDQLGSYYSDQPKDSSLWTTK
+RFVEEVEQVRKAIGADHNNFYVLGNSWGGILAMEYALKYQQNMKGLLVSNMMASAPDYGK
+YADEILSKQMKPEVLAEIRALEAKKDFSNPRYMELLIPNFYQKHLCRLKEWPDGLNRASK
+HINSEIYTLMQGPSEFGISGRLANWNIKNRLHEITIPTLMIGAKYDTMDPKAMEEQSKLV
+QKGRYLYCPNGSHLAMWDNQKIFMNGVIQFINDVDTKVFQ
+>tr|A0A1S1JAE0|A0A1S1JAE0_9FLAO
+MKKALVIIALSIFAVSCSDKTAEVKEVKTAYVDTSVLMKEYTEAKDLEAKYKAQAEEKGR
+QLQAEITRFKQDAANFQSQAQANGQAWAQQRGAELQKREQQLGYAQQALSQQLQQESGVE
+MDSLVSGVKKFIKEYGKKNGYSYIYGTGDAASILYAEEKFDITKDIVKALNDKYKATPKT
+EEKPAVKEEAKK
+>tr|A0A1S1JD34|A0A1S1JD34_9FLAO
+MKNIYKILIAFIGVLAVSCNADDVENRQIVEAVVTPEITAPATGKAFVLDVDKPSQEVAK
+FTWSKATYSAPVVVSYTLLIDKKGGDFSKAVTLERTTNIAEVAVLAKDLNQAAIDLGAQT
+EVASLFDVKIASSVSGGVPQVSKTLITISVTPYTGKVDYKFTEWYLVGDATVSGWDNNKG
+NQILFRNPKNPNEYTFTGFFKAGAFKTISTLGSWAPMYGGAGDVLVYRGKESDADPASFV
+IATQGYYTFKIDVQKLTYKLTPYDASAAKTYGTVGIIGDSTPGGWNTSTAMKKSTFNDHI
+WTLGVTALKDGGLKFRADDKWDVSWGGTTPFSGGGSGENIPVAKSKYVIYFNDLDGSYLM
+IPNQE
+>tr|A0A1S1JDF2|A0A1S1JDF2_9FLAO
+MDLPPYSPGLHKLVTLHVDETQKLTNSQGFVDVTNMILEKYALEKVGVIVHNFDNNSFTI
+SFCLKESHICIHTWPEYNQLTLDVYLCNYLQDNSKKVRDVMADYISYFEGKIIKDFEINR
+>tr|A0A1S1J803|A0A1S1J803_9FLAO
+MRKHFMLFFGLFTAFTLQAQEDFQIGNRASKVTIPFTLINNLVFIPIKVNGAELNFLLDS
+GVEETILFSMEEKQEVSFKNVQKIKLRGLGSENEIEGLKSTNNVLETHGLKSNNHLLYVI
+LDQTFNLSSHIGIPVNGIIGYKFFKNNLVELNYQKKKIVVYQNNEETLKRLNKKFKEVPI
+TIERAKPYLYTTAFVDNVAVPAKMLIDIGNSDAFWIFKNDIIKLPNKNFPDFLGKGFSGD
+IEGHRAKIEKFSIGEFDFKNPIVAFPDSTSIRNVKMVPGRIGSVGGEVLKRFTVVLDYAD
+KTLYLKKNSKFLEPFTYNKSGITVQHNGLQWVQETVHLETVQVVNSIQEAGYTAKKDNNF
+RYKFSLKPIYEIVNIRKKSAAERCGLKAGDVIVRINHALPYKYTLQQINSLLKSEEDVWI
+DLEIERNSLLLKFRFKLEDEL
+>tr|A0A1S1J1H6|A0A1S1J1H6_9FLAO
+MGSTRKEHDFLGELDIPNHLYYGIQTFRAVENFNITGIPISKEPLFIKALGYVKKAAALA
+NKDCGALDAKIAEAICYGSDQVIAGKFDQEFVSDLIQGGAGTSVNMNANEVIANIGLEYL
+GHKKGDYNFLHPNNHVNCSQSTNDAYPSAFRIALYLKIESFIKTLEGLEIAFAAKGEEFK
+SVLKMGRTQLQDAVPMTLGQEFNAYATTIGEDVRRLRDAQSLVLEINMGATAIGTRVNAP
+EGYPEICVNYLAKEVGIPLTLSPDLIEATVDTGAYVQIMGTLKRTAVKISKICNDLRLLS
+SGPRTGFNEINLPARQPGSSIMPGKVNPVIPEVVNQTCFYVIGQDLTVTMAAEAGQLQLN
+VMEPVIAFAMFTSLDYLSNAIQTLIDKCIIGITANEDHCYNMVMNSIGIVTQLNPILGYE
+ESASIAGEALKLNKSVHQIAVIERKLITQEKWDEIYSLDNLINPKFITK
+>tr|A0A1S1J2H4|A0A1S1J2H4_9FLAO
+METLTAFILCGGKSSRMQSEKGLVLFRGKPFIEHIIKAILPITAEIKLITASKEYDYLPY
+QKIPDVIADKGPLGGIYTALLHSETEFNLILSCDIPLISTELLQELLSKHTEEAGITVFA
+SESRMHPLIGIYSKKMIPFIKKAIDTDALKMMDLLARIPHQIINLDESEIFPLTNINSAD
+ELNDLNANLS
+>tr|A0A1S1J4X7|A0A1S1J4X7_9FLAO
+MKITKICCIGAGYVGGPTMAVIAQKCPHIQVTVVDLNEQRIADWNDPNTDNIPIYEPGLS
+EIVGEARGRNLFFSTEVEKAIDEAQVIFISVNTPTKTYGKGKGMAADLKYIELCARQIAK
+VAKEDKIVVEKSTLPVRTAEAIKSILDNTGNGVQFQILSNPEFLAEGTAVTDLLNPDRIL
+IGGDTTSEGEEAISALVDVYANWVDKEKILTTNVWSSELSKLTANAFLAQRISSINAMSE
+LCEKTGADVNEVARAIGMDSRIGPKFLKASVGFGGSCFQKDILNLVYIAKSYGLNEVADY
+WEQVIIMNDHQKKRFSSKIVQTLYNTVADKKITFLGWAFKKDTNDTRESAAIYVADDLIN
+EQAKISVYDPKVSKTKILNDLNYLETRSAEENNVAVSTFANAYDACKDAHAIAILTEWDE
+FTMYDWQKIYDSMHKPAFLFDGRNILDAKNLESIGFIYNGIGS
+>tr|A0A1S1J2F2|A0A1S1J2F2_9FLAO
+MKHIISACFFLFSWGVFSQNVTITVDKSVTLKEFFKQIESQSDFKFAHTDQINTNQKYFT
+ETKTYKNISVKELVNELNKSAAVQFSIVGNNIFVKQKITKAPKKKNKLSGQVFDENKQPV
+IGANIFIKELSTGATTDADGKFSITLDKGNYTVLISYLGLKNNEKQIVVSDDSRINFYMD
+SDSHELEQVVVTTNKAVDVKNTQMSVNKLSMAEIKRIPVAMGEADPLKSILTLPGVTNAG
+ELSSGFNVRGGAADQNLILVDGGPVYADSHMFGFFSIFNPDIVSGLDLYKGGIPSKYGGR
+VSSVLDITQQSGDFEKYKVNGGIGLISSRLLVQGPIQKEKGSFIIAGRASYAHLFMKLAD
+SKNSVMFYDLNAKFNYRLGANNTLSFSGYFGNDLFDLNNFFNSTYGNTMGILSWKHKFSE
+NLNTNLSVYFSDYKFNLDLDREGFKWNNNIQTYGLKYGWSQTVSEKLKLNYGIDGQYYDF
+NPGTVKPTNTTSQFNYKQLDKKYAFESSVYLDFEHQLTEKLNLRYGLRYSMFYRLGGEEI
+NTYEDGKAVVFNPLYKIYEEGTPTGSITYKKGATISKFDNFEPRAAVSYAFNETTSVKAS
+YNRMAQYIHMLSNTQFPLPTTIWTPSGPFTKPQLLDQFAVGYFQNFKDNEYSFEGELFYK
+KIKNRIDYIDGADILANNNIEQVILNGKARSYGMELMLRKNTGVLTGWVSYTLSRAEQKT
+PGRTPEEPGVANGKWYLSGYDKLHNLSVVGNYEYNKKWSFNANFSLQSGQPVTYANGYYE
+FGGINVPNFSLRNENRLPLFHHLDLAATYTPKPDKKKGWQSYWVFSLYNVYNRKNAAAMT
+FATNEDTGMNETKRLSIFGVVPGVSYNFKF
+>tr|A0A1S1J6G6|A0A1S1J6G6_9FLAO
+MKTLENQTLLYDEDCPLCSLYTTGFVKSGMLDQNGRKSYCQLSEEEQNFVDLKRAPNEIA
+LIDNKTKTVTYGIDSLIKVVGFSFPLIEKISTLKPIHFILKKMYSFVSYNRKVIIPGNAV
+EENKLQCTPDFNYKYRFLFIGFALTITSSILFGYANLIPGLPKTSISREIIITLGQIVFQ
+SLFLFQFDRQTIMNYAGNLMTVSLMGSLILSPVLLLSKFIPLTETIVLGWFGVTVLILFL
+EHFRRIKILKLPIYLSYTWILYRIIALFFILN
+>tr|A0A1S1JEV9|A0A1S1JEV9_9FLAO
+MKIKGLFTFFTLTLFQFLTAQTYELHNSINFNDVNDGRNVPDGITWFKPDALRYGIYRTS
+GTWDAPNYQQLKLAFRTGIVIDGGYENPKSGTVIQPNDGKVGIGIDTPSAKFEVRGNSAV
+YSDFASYPGKTVNGFLPNGKEPTLVISEKISGTMNWGVGGQFTYKGGLSFGRGGSGIYSV
+NPNPAGSSLYGDIRFHTTDWNGSDYTNFDRMVITLGGNVGIGTVSPLYKLDVCGTIRAQE
+VKVDLSGGCDFVFEDDYKLMDLNKLEEFVTRNKHLPEIASEKEMIANGLEMKEFQMKLLQ
+KIEELTLYTIEQNKKLEIQNKKSEKQEKELKLMKQKIKRLESSRK
+>tr|A0A1S1J8P5|A0A1S1J8P5_9FLAO
+MDNIHVLIIEDTPEQSDALRKVLLQNNYKVVGIATNFADALKLFYENTIDIIIIDIFLDG
+KPEGITFAESINIIPNAAKPFVFLTSSQDRQIFEKAKLTKPFSFLLKPFNELEILYAIEM
+AVEKFYAQTEVFQTEEQDTVISNDYLFIKKKNSLKKVALNDILYIDVEERYCNIITEKEK
+FVILISLTKISNLLDKNRFIKTHRNTIVNTNKIEEIILADNLIILKGDHKINLSDTYKDF
+IKKMNILS
+>tr|A0A1S1J6E4|A0A1S1J6E4_9FLAO
+MQLSNSEEQLMEHLWKLEKAFMKDLLEAYPEPKPATTTVATLLKRMIDKKFVAYNEFGNS
+REYYPLVKKTAYFSKHVNGLISNFFNNSASQFASFFTTETDLSTSELEELRKIIDSQIQK
+KKK
+>tr|A0A1S1J4A7|A0A1S1J4A7_9FLAO
+MKKGIHPENYRLVAFKDMSNDEVFITKSTADTKETIEVDGVEYPVVKMEISRTSHPFYTG
+KSKLIDTAGRIDKFKTKYAKHAKK
+>tr|A0A1S1J6D5|A0A1S1J6D5_9FLAO
+MNTTITDVFFDLDHTLWDFDKNSEMAFDRIFKSKYPEIKTEDFIEKYAPINQECWKLYQN
+DKITHLELRYNRLKFSFDALNCTMSDESINEIANDYIEFLTDNNHLFEGAIEVLEYLKPK
+YKLHIITNGFANVQDKKINNAALSGYFETITNSELAGVKKPNSIIFDYALSAAKASKENS
+VMIGDCLDADVNGALNAGLDAIFFNEKRIEAPQNIKQVNHLLELKKYL
+>tr|A0A1S1J7I3|A0A1S1J7I3_9FLAO
+MKKILFIFLIVLLFFIGYKISRKDTIVPLAVTSTIDKKEINEIKEIIKSDSKYNDRYAFF
+IDMKIPSGKNRFFIYDLKNNKIIDKGLVAHGLGSETEIKGKLKFSNVPNSLSTSLGKYAV
+GEHYNGKFGKAYKLYGLDPTNSNAFDRNIVFHYYFDVPYKEQNGYICNSYGCPMVNKKYF
+ERVAKIIDNSGSDIVMSIYY
+>tr|A0A1S1J8Q9|A0A1S1J8Q9_9FLAO
+MRKLVLVLMFFSVMGFAQQDAQFTQYMYNTITINPAYAGSRGVLSIFGLYRTQWIGLDGA
+PKTSSFSVNSPINNSNLGVGFSFVNDKIGPTNESTFSADLSYSVQTSSDFKLSFGLKATG
+SLFSLDVNKLNTLHQGDPQFQNLDNIFKPNIGAGIYWHSSKAYLGLSVPNFIETNRYNDN
+DIAIYKSRINYYFMAGYVFDFGSDVKFKPAAFLKMVDGAPLQADVSANFMFIDKLVVGAA
+YRWSAAISAMAGFQVSDSLYIGYGYDWETTNLNKYNSGSHEIFLRYELFKYKGKATTP
+>tr|A0A1S1J9P6|A0A1S1J9P6_9FLAO
+MKKISDFIYNNAASLAIGFFCFGVYLYFAIAGNRICDCETTENYKSTGSRTSYNRFYHK
+>tr|A0A1S1JBC0|A0A1S1JBC0_9FLAO
+MKKYTIIFLLLTAGLQFSCNDDLDPTVYSSLTDTNGFQTKSDAIASINSIYGRLKGPSVG
+DNFSYWATRHFALTDIATDLGHCQYGGDPGQLSLGLWNSANGLLLEDWNAMYKLVANANF
+AIFNISKMSGITEPEKTQFIAEAKFLRASAYMDLTDAWGPVILVTEANLDNPNYLEQTPP
+SPVETIETLLIKDLNDAAAVLPVNYKKNAIYESNDVGRATKGAALTLLAKLYLRNHDWQK
+VASLTQQVMNLNEYSLFPTYLGLFKESNKWCSENIFSSLSDANVNGTELLNHFGPIDHPV
+VENRWQYYTVNWDFYNTFGNEDDRKKCFFPEFMGTDKLLHKQAPSLGAQPPKGEFYMPDV
+STRKYADDETTTYYDGHSVNILRYADVLLSRAEALNEISGPTAEAIDLINQVKGRSHAKL
+LVLSDYNKTSLRDAILQERGWELFYEGKRRQDLIRMNKFDVLVNAYHVRVGETAPITMPK
+NKYYTYPQSQVDLNPNLSNADR
+>tr|A0A1S1JCZ1|A0A1S1JCZ1_9FLAO
+MKDVKFIEIKNRIQKKCLEIWGIENINMADPLVMMLLDVFVHELYYLYHEGIESDNKIIE
+RIAQEIVPSQWNLPMPAHALASTAATNGIVVLNSDAEFIIKSTFATNVDYDIHFTPFTNE
+SIIEGEVGFQLYDSLLIDSFKNVNRLPVHCKISDHRMWIGLDISRENLEKLNSLKFTFVT
+ENSSLDAFLQFVTVRDTHGNTIDFENESFAEVQDNKHYVEAIKSYYKNFIYKLKLNPEKL
+VYESLLDKFNIEKEALKSAKKNTELIWLEFVFPEIFTKQELDKIQIKINTFPIVNRKLNN
+RVHNAQVEGRLFPMKAERNTHFLDVMKVFNEKNIEFINGIKQPNAITSNTYTVFYGGLEN
+YDSRTAKFFLKKLARALREDISSFSNINADYIDATMTKINEEINSIESKITSSYSQVNEE
+EVYALIHETDKSKILYCSYWTSNGQVANNLKKGTVLKQTVLSELVQDSTVFETTSLGGIY
+RNNKVEKLINLRYGFLSKERLVTKQDIKSAVHYHLRNITKEVLITDGVGISNERKKGVFR
+TIDVKVILQDKYALQIENKQKIGLFLKETLEKQSVMNIPFQITIN
+>tr|A0A1S1J1T7|A0A1S1J1T7_9FLAO
+MKLQHLQIQSNNIQETAAFYQNVLNLSILEKDSRSVTIQAGESVLQFIENLQLDSIYHFA
+FNIPQNKLQEAIQWVTNKVDLIVIEDTAVIANFENWNANAIYFYDNNGNILEFIVRYDLN
+NAQTEPFSSQSILNISEIGIVNENPLVLANQLITQHNLEFFSKNDNSELFAALGDDEGLL
+IMVRPGRNWYPTQIPSESNTTEVRLENKGIQIELKFS
+>tr|A0A1S1J4Y4|A0A1S1J4Y4_9FLAO
+MIELFIKRKILSLIISVMIVLLGILALFQLPITQFPDIVPPSVTVTAKYTGANAEVSANA
+VALPLERAINGVPGMTYMSTVTSNDGLTLIQVFFEVGTDPDLAAVNVQNRVTTILDELPE
+EVIRAGVTTEKEVNSMLMYLNITSTDKTQDEQFIFNFTDINILQELKRIDGVGRAEIMGQ
+KEYSMRVWLDPQKMLSYAISANEVIASLQKQNISAAPGKVGEGSGQLDNQLQYVIKYGGK
+FYEPKQYEEIPIRANSDGTILKLKDISKIEFGSMSYGMVSKTDGKPSASIMLKQRPGSNA
+SEVIASVKEKMAELQKTSFPPGMDYNIAYDVSRFLDASIDEVLKTLIEAFILVAFVVFIF
+LQDWRSTLIPVLAVPVALIGSFAFMSMMGFSINLLTLFALVLSIGIVVDNAIVVVEAVHV
+KISEEHMAPLPATISAMKEITGAVIAITIVMSAVFIPVAFLSGPVGVFYRQFSLTMAISI
+VISGINALTLTPALCAILLKPHNPDEKKTSLLNRFFDGFNKWFDNVTAGYIRILAKFADR
+TTVTAGLLVLFCLLTWGTSKFVPGGFIPSEDQGMVYVSVTTPQGATVERTEKVLDEVTRL
+AKEIKGVDNVTTLAGYSIVTEIAGASYGMGMINLKDWNDRDISVNEFITKLGEKTKNISD
+AQIEIFAPPTVPGFGNTSGFELRLLDKSGGTITNTDAVTKNFIKELNASPEIQNSFTSFD
+ATFPQYLIHIDYDQAAKKGVSVDNAMSTLQTMLGSFYATNFIRFSQMYKVMVQASPQFRK
+NPESILDMYLKNDAGEMVPFSTFIKLERVYGPEVLTRYNMYMSAMINGEPADGYSSGEAI
+AAVEKIAAEKLPGRFELEWSGMTREEILSGNQTIYIFALCILFVYLLLAAQYESLLLPFP
+VLLSLPVGVFGSYLALLMVGLDNNIYAQVALVMLIGLLAKNAILIVEFAMAQNKIGRDIT
+EAAIEGARLRFRPILMTSFAFISGLIPLCIASGAGAVGNRSIGTAAAGGMFIGTVFGLVI
+IPGLYILFAKFEKALKK
+>tr|A0A1S1J2I4|A0A1S1J2I4_9FLAO
+MKLLLDLDTFVQTLNDKGYDGYFHTEGCCPGKLRDSISRFLELWKNGSDAPLSAGYLNLS
+TYLQWNGQEKPKVQCNISVRYENGKFDLEHTEMYIKRTDPYGQLLKESKLANLTSNSIPT
+LKEAVAQVSENPKEEAAPKKRGLRI
+>tr|A0A1S1J2F8|A0A1S1J2F8_9FLAO
+MIRSTCENALQVIRKAEQEFSLDPEHIIEKSYHMTTVLRNLLCTVKTNVLEKGFSDENEE
+INFFKNIKPQILGKLIFYNKVFRIEASCPVVTGKMHHKYFSNELNLLKQEYKEHFYNTDF
+YRYYRTGRTEWDHHFFCRGKIDLHEGVNSFVFEIDTQFSTYYDYKVARIIANELLYRYLV
+SKIEPDPQQTAIFSDGNTANRDFFWTDSKNALIELIYALHASGSISHGKAGIRKISMVFQ
+LLFRIQLGDVHHAFHRMKDRTESKSIFLDQLKLSLKQHMEKEL
+>tr|A0A1S1J403|A0A1S1J403_9FLAO
+MSEGEKLIPINIEDEMKSAYIDYSMSVIVSRALPDVRDGLKPVHRRVLYGMYDLGVTSRS
+AHKKSARIVGEVLGKYHPHGDTSVYDAMVRMAQEWSMRYLLVDGQGNFGSVDGDSPAAMR
+YTEARMRKISEDIMADIEKETVDFQLNFDDTLYEPKVMPTRVPTLLVNGATGIAVGMATN
+MPPHNLTEVINGTLAYLDNNDIEVDELMTHIKAPDFPTGGVIYGYEGVREAFKTGRGRIV
+MRAKVGFEEVDGRECIIVTEIPYQVNKAEMIKRTADLVNDKKIEGIANIRDESDRNGMRI
+VYILKRDATPNVVLNTLYKYTSLQSSFSVNNIALVKGRPQMLNLKDMIHYFIEHRHDVVV
+RRTQFELRKAEERAHILEGLIIASDNIDEVIAIIRGSKNTEEAREKLIERFNLSDIQARA
+IVEMRLRQLTGLEQDKLRAEFEELMKLIEHLKALLADVNLRTNLIKEELEEIREKYGDDR
+RSTIEYAGGDVSIEDLIADENVVITISHAGYIKRTNLTEYKTQNRGGVGQKSAGTRDQDF
+LEHMFVATNHQYMMFFTQKGKCFWMRVYEIPEGSKTAKGRAIQNLVNIESDDKVKAFICT
+QDLKDKDYINSHNLVMVTKQGQVKKTSLEKYSKPRVNGVAAITIKEGDELLEAKLTNGDS
+QIILAVKSGKLVRFEETKTRPMGRTASGVRGITLKDDTDEVIGMVTIDRENVNDSQILVV
+TENGYGKRTKLVDDDGEDVYRITNRGGKGVKTLNITDKTGKLISINAVTDADDLMIINKS
+GLTIRMAIEDLRVMGRATQGVRLINLKGKDSIAAVTKVMKDDVAEVVVDEDGNVIESAIE
+RVKPDLEVLEDEGVVEDEDDEDEVADDESEDEGDSDDEESEE
+>tr|A0A1S1JC18|A0A1S1JC18_9FLAO
+MIMKRMFVLIIASSLFLSFCISKPEKDNSDYTLAFAKEIYVEKGIDNDEKDVRNFIGVFP
+KSNDTITVYQLNSDLTETPQVFSYWISNRSNSSIVIKCSESGQNIKVGFNKNNVVTVDND
+IYVINNEYYTFLKQKILIENSVLDLVFFLKDGYGDYSQVLDPLNKNWRNQKENRSHKIIS
+VKVKNRNYQTDNDFFQYKIDYAYRGNGQLKSISGANRYHKTFVEENDTYSKYSIEDEKNE
+RSSSNEELYKNKKTLFDSLSGSWTQNSTAKTFKFLKYQSKLKVIDVTQKPKNLEEVIKLL
+KVEKMISSKD
+>tr|A0A1S1J330|A0A1S1J330_9FLAO
+MLKRKNPDEEGNLNQLTTGFAQQANEAIVEALQEENGVLDKLMSGYQKVLIEDPIRPFYE
+EDLQKIVKNVDYGILQVLEGTWVSYNNNSDNQSQKKLIGSGIHTTIMPSPGTNAGTIPGK
+YSFECEEYIEKLTFNLVPGGVRNRGGANEQFCGAVKYEQSIKSVNRVNGQDALQYTPIHE
+ENGMYLWLSDVFNYAATEKTISEDRGIHAISPNNPNKDLYKSGYQDETLFLIKDDQGNKE
+YVTLENLNGRKYYEIIASKELKAGAGQTGPYFIPDYSISRSGVIPHGSTITLLGDLKPNK
+SGYLISGAPQYPEGFAAWDYKHLAISQTMGGADASNEPINLDAPPPPWVFETLDDKNDER
+ENKIYTQRILAHHLYPYSVRPDLRLRDTLKSDVVKNHVVIEMSSKNKTGAQGGILNVPFV
+NRFVPTVEMNMRMWIETVVENKKEILQLQYEQVIFFEFDFGDDGGTTSWPHIQVNTLRKM
+EDVSPDQKRLIEEQFPGTYKMGSSGEASGCPHHKE
+>tr|A0A1S1JCQ8|A0A1S1JCQ8_9FLAO
+MFYKAISLVFLFVFLGAQAQQNDSITKVDSTSQQLKFNYKQLIIPGVLIGYGVIGLESDQ
+LLSFNSQIKNEVTEDIDKKITIDDFSQYAPAATVYALNAFGVKGKNNIRDRSVIFVTSYV
+IMASTVLGLKSITHEERPDGSSKNSFPSGHTATAFAGAEFLWQEYKDKSIWYGIAGYAVA
+TGTGLFRIYNNRHWLTDVAAGAGIGILSTKIAYWLNPYITKKLFKSSSENKSTSMVMPFY
+NGKQYGLGFVKVF
+>tr|A0A1S1J0N1|A0A1S1J0N1_9FLAO
+MTTTYSFEIYNSASLLPLEWNSLAAANIFLTKEYLEVLENSCPVNMICHFIGIFSDSKLV
+GIVLTQFLFTEKLESFGERDQCLKTSVRNFAFKNFASHVLFVGNNMLTGQNAFIFASDIK
+QSIALKTLHKAINQLKKNLKASGRKVHITSIKDFTATEIIPLQNEFKNNYTFSTQPNMVF
+EIHKDWASEQDYINALSKKYRDQYKRARKKADGIVKQKMSLADIKKYEDVIYDLYFHVAK
+NAPFNTFFLARNHFSFFKEIMKDDFLFYGYFLEEKLIGFNTLIKNGSAMDTYFLGYDETI
+QREKMLYLNMLYDMIAYSINHGFKEVVFARTALEIKSSVGAKPVKMYGLITHSNTLINHN
+IGRLFSYLEPKTDWQERNPFK
+>tr|A0A1S1J3T0|A0A1S1J3T0_9FLAO
+MPQAQEILSKYWKHDSFRPLQKEIIDSVLDGQDTFALLPTGGGKSICFQVPSMMLEGICL
+VISPLVALMKDQVANLQKRNIKAIALTGGIHTEEIIDLLDNCQYGNYKFLYLSPERLQSD
+WILERIKNLPINLIAIDEAHCVSQWGHDFRPAYLKISELKKYFPKIPFLALTATATPRVI
+EDIKTELELKDPVLFQQSFERKNIAYMVFEVEDKLYRTEQILKKNPQPSIIYVRNRKSCI
+NLSAQLQSLGFTATYYHGGLSAKEKDKNMQLWMSEQAQVIVATNAFGMGIDKDNVKTVIH
+TQLPENLENYYQESGRAGRNGEKAFSVLLFNNSDATQTEQQFLSILPDKKFLKAMYIKLC
+NYFQIAYGEGLDESFSFKLNNFCNKYDFPTLKTYNALQFLNQQGIITLSQEFSEKITLQF
+IIESKEVIRYMSLNPNDEEIILAILRTYPGVYDIKTPFNLSLIAKKSHHTEEQVLALLEK
+LKEKEIIEYKAKNNDSTVLFNEVREDELTINRVSKYLEKQNELKKEQLSSVLYYIKENKT
+CKNRLILDYFGEETNENCGVCSYCITLKGKITEADSIADKILYLLKSTALTSREIQSQIK
+LDANDIILVLQQLLENNHITILANNKYTLKS
+>tr|A0A1S1J7I8|A0A1S1J7I8_9FLAO
+MKKLLCLLSLSLLIFSCVNEEISEQPLSSNQASTSQSSAKKSTALTAKSSSIQYSLFQVT
+QEFNSGTEAVIVGEIYCSQAVEAKFQFGYHGNVPTKYEVRMPGVPLITSAFGPSNRTITT
+QLLPGINTFSVTVKFSGPNQYANAKLSLLSINNDTSLNAEGDIDLTAQGYSEQKAVDGSS
+NSMHAICSKCGALNLKDALKCISCGK
+>tr|A0A1S1IY87|A0A1S1IY87_9FLAO
+MRKFTIHLLPFIFLLLTILSNAQTQKDAYVVLVSMDGFRWDYAKHFKLQNLAQIAKEGVH
+AKSMRPSYPSKTFPNHYAIVTGLYPDHHGIINNVFYDAALNESFSLSSNAKNDSRFYGGN
+PIWNVAEQQGVKAASFFWPGSDTDQKRPGIYKEYDNKIPYETRIDTVIKWLQLPEKQRPH
+FITLYFDEPDHTGHSFGPLSPENEKVIRRMDTLMGRLSSKLNQLSIAKQINLIIVSDHGM
+ANISNDKKVAVLDYLKPEWLGYNAVINPIMSLQAKPGFQDSISNALKKVPHIKFWKSKEV
+PKRLHFGTNPRVHDFVIEAKKGYSLVKEKSVHVSGGTHGYDNKEKDMQAIFYAKGPAFKV
+NKTVGSFQNVSVYPLIAHILGLQIDEVDGKFSEVSNMLK
+>tr|A0A1S1J2K7|A0A1S1J2K7_9FLAO
+MEKEQLIQILIYFHALFGGIALLSGSISLVSKKGKSIHKKSGKLFYYTMLLSALTALIIS
+SLPKHESSFLFSIGLFSSYFTITGYRALQFKNKNINLKTDKIISGIMIITGILMILYNPL
+INQKINIVLTVLGLVGLLFSTRDFLLFQNKTNLQKVWLKLHLGKMIGGYISATTAFIVVN
+QFIPNIYGWFIPGTIGGFYIVYWIRKLNKKQNQAKINLE
+>tr|A0A1S1J3V4|A0A1S1J3V4_9FLAO
+MYKELEKFKVSSSFTFTIEDSLEQVCNAPEGGAGVFVVYAVEGNAKELIMVGSTGTVQND
+GTLKSKNGGLYDKIVNGHQFAKTGRKYSWPAQMKLENIAALEVVWFETFNADSKGIPTTV
+EGQVLQNFLDENAKLPRWNVAF
+>tr|A0A1S1J4E9|A0A1S1J4E9_9FLAO
+MKKMMRNMRFVAIVALLVAMSSCSADSAEGSESPATAEAVVANYNYNDSEIESMKLINDY
+RVSIGLNTLKGINHVSFKCEEHNKYMIANNVVDHNDFTSRSNNIMSVLGAKKVGENVAYN
+YKTSEAALRAWLDSPGHKANIEGDYTHFGLSVSIDPNTGKKYYTNIFVKM
+>tr|A0A1S1J7A2|A0A1S1J7A2_9FLAO
+MQHWDILLSNQVNKKAFIDTLLLGEAKGELALFNTQKGILFSDIAIEKFIEKEYQYDTVE
+AAPESHRQLRTFSSGERKKEFLKYCINQNPDFIIFDNPFDHLDLASRAALAKSLERLTDN
+IAIIQLVNRVADVLDFVPNKASIKDNSFELHPISKNEKHFKTLNSAAIPKAIEPHSFHES
+VLIKMDKVSVSYEERKIVDNISWTIKQGEFWQLVGPNGSGKSTLLSLITGDNPKGFGQDL
+YLFGRKKGSGESVWDIKKQIGIFATSMTDLFQKGHTLEEMILSGFFDSIGLYIEPTTLQK
+QTVTQWLEVIEMSHLRKKRFIDLSIGQQRVALIVRAVLKHPPLLILDEPVEGLDDENVDL
+VIQLINTIKQETNVSILYVSHRIENGLAPTSVFELLPTPTGSIGKIKYHSELN
+>tr|A0A1S1J8V5|A0A1S1J8V5_9FLAO
+MEQLRSIQSEIDQYLHHIEEGLSLSEITIKYGLNSYRYGSSSFLEALFDPIPMTPQTVFY
+DLGSGYGNIILYGAVKHPDVQFKGIEILEERNKVCVALIEKEGLANARAISGDILKADIS
+DGNVFYLYNPLYDFQYAELLEKLYHISLRKNIIVIAESSCIFFDEADWLEQYHFKDIDVL
+RKIKYYRSKSVH
+>tr|A0A1S1J418|A0A1S1J418_9FLAO
+MKNLFAVLAVALFTIGVQAQDTKPAPKKEKAKKESCCKKMDNAKTDTAKTDTAKTDKKSC
+CAKK
+>tr|A0A1S1J5N2|A0A1S1J5N2_9FLAO
+MFKKVLVAEDLDTMNLGIEQVLKDLNISHFQQSKYCDEAFLKIRRAIQDDEPYDLLISDL
+SFKTDHREVKIANGDELVQKVRELQPNIKIIAYSVEDKSYRIKSLFEDAKVDAFVLKGLN
+SIQELKKAIHLIFTSDQKFISPEVASALQEKNNFEIDDLDILILKHLSLGTLQDDIIETF
+KEMGIKPNSKSAIEKRISKLKDFFKANNTIHLVTITKDMGII
+>tr|A0A1S1J8K2|A0A1S1J8K2_9FLAO
+MKKEELQAIASQLKHPTGEKGIEMANMMHETNINMTRHSVQNLHVISGNTILELGHGNAG
+HLEYVLEQVEDLTYYGLEMSELMCQEAQQINAAFVAKKQAHFSLYNGTDIPFEEASFDKI
+FTVNTIYFWQEPEKLLSEIYRVLKPEGTFCITFSEESFMKQLPFTQFEFNLYSTEKAERL
+IEKTAFQVVHKETLTEKVKSKMGELVDRDFTTLVLGKR
+>tr|A0A1S1J918|A0A1S1J918_9FLAO
+MITIQNLTKVFRTEEVETAALSGISLEIKKGDFLTIMGPSGCGKSTLLNIIGLLDSASGG
+SYKLLDQEMIGLKEKGRANVRKENIGFIFQNFNLIDELSVYDNIELPLIYNNVKATERKQ
+KIEAIAEKLNISHRLKHFPQQLSGGQQQRVAVARALVNDPKIILADEPTGNLDSKNGNEV
+MELLTDLHAKGATILMVTHSDYDASFSQRTIHMKDGVVFSEKFNQRNVDVFMDAK
+>tr|A0A1S1J355|A0A1S1J355_9FLAO
+MEKFIVIKKANGEFQFEFVNKNGEIILSSGDYTRKFMCMKGIESVKVNSQDNTKFFRKTN
+SKDERYFNLKAFNGKIIGTSKIFKDRDSRDEGILEFRKYAPHAIVEDHSNTVLAESAAF
+>tr|A0A1S1J4I9|A0A1S1J4I9_9FLAO
+MTKSNIYETNWTDLVFENKNKEYGAYQLRQESSKNTVTALFMGLLLLAGLGSASVLINKF
+GAHGPVETEPTVFSVPIRPTDIPIPVQPQPPAPPVAPQQTAAAPPVTSTQLVNPVVTAAT
+QATPDVIATNADNHPVVDNANTGTGNAVNALPASGGNVETAALTGESKDPVNVAILDKLP
+EFPGGMTKFYTYVGNNFNRPELDAEKTLRVYVSFVIEKDGSITDIMVKNDPGYGIGKEAI
+RVLKSLKTKWSPGILNGKPVRTAYNLPITIKTE
+>tr|A0A1S1J541|A0A1S1J541_9FLAO
+MENTPTFFADGENPKMIEAYQKAQETFKYFWRELSWEYRRIVPGLDVACVKLAFTQEIDG
+ETVVEHMWINDINFDGDTIYGILVNQPNDLTNVNNGDEVQIPVNQISDWLYASQGKTYGA
+FTIHAMRSEMSGEEREDHDNAWGLEFGDYNDILVVSDQKEKPENLIEHPMSKNMKESLID
+FVKNNPEELSATDELGYTFLHRETIAGNKTSVEVLLESGADTKVKTNNGKTALDFAKQLN
+WEHLIPLL
+>tr|A0A1S1JB58|A0A1S1JB58_9FLAO
+MVKNLKWLFLVSVTFMACNSDDAVTVSDSSDGQPLTSGQANFSKYVALGDSFAAGFSDNA
+LFKAGQTNAYPNILAQQFALVGGGTFTTPFMTDNIGGFSSGGVQVPSLGVRLYLDVATST
+PVPVSGVSGTDISARLTGAFNNMGIPGAKATHLALAGYASANPYFGRIASSPSATVLGDA
+LAQNPTFFSLWIGGNDVLGYATSGGDGSNPITDPATFDAVYKNLATELSKNGRKGVVANL
+PDISTLPHFTTVPYNPLTVSLLGNGSTAVGTATINALNAQLYGPLKSALNYLGVTDRIDL
+LSLTAANPLLIKDETLTNLSTQLTAVLTPSVGAQTAAFYGTVFGQARQAKAADLVLLSTR
+AAIGTAPTAANSGIGMAPPAPLDKFGITYPLQDKYVLIPSEITEIKNATAAYNLTIKAAQ
+EANGLALVDADGLMKQLSTANGISVNGYTLTSAFVFGGVFSLDGVHPSARGYAFIANKFI
+ESINAKYGSNLKGVDVGNYQTLYPKVIN
+>tr|A0A1S1JBE0|A0A1S1JBE0_9FLAO
+MLLRFLYLSILLLFSLPCFSQTTYPKITGYFGILHLLVTLNKDETAVNFRDYYAVGFPTG
+INIWKNEKIGFSFEVVPNIKDDQGTSKVTHILFHPGILVALGHGYTFAGRAAFDSSGRYG
+ITPVLNKTIIKSTNCSYFAAIPLPIHFGNNHPASFTVGFQFGIAF
+>tr|A0A1S1J9Y7|A0A1S1J9Y7_9FLAO
+MGFKTQIRFLHKWLGLISGLIVFIISITGCIFCFHDEIKDITRKEWRIVEPQNKPFVLPS
+VLKEKAKEILPNYKSSMVSYYGKNRSAIVYTYADSENRYLYFNPYTGKHLKIEDPDTDFF
+IIVERIHLYLLLPDYIGKHIIGSATIIFILLVISGLIQWWPKRKSDLKRSFTVKWSAKWR
+RVNYDWHNTSGFYISIIAVIIAITGLTFTYEWVGDGIYSTFNFGGDKTLEIKVPVIDTTK
+FNNNSVTAVDRAFTTTAKLQPDAEMYFVTFPQQKGSIIDTGAYPHALRYDHQSNYYFHPN
+TGKLLQSEPFQKKTLGLQVVEMNYGIHTGQILNLPGKIIAFIVSLIAAALPLTGFIIWYG
+RNKKSKKSRA
+>tr|A0A1S1JDJ8|A0A1S1JDJ8_9FLAO
+MKLDTIRNTSSNKILLHTIIWVFFILTSLIQFYESPFKVSADFYVQWSTGIVLFYLNFFY
+LVPVLLLEKKYWLYFVFVFALILLFMIIRINYFIPDFSQARPLKNLPPPEDLKLMYKGTR
+VRAVLATRQPLFFKIGPSFFYILIITISAIIRTLTEFYNNQQNKLIAETHRTNTELIYLR
+KQTNPHFLFNSLNSIYSLAHKKSDLVPDAIVTLSELMRYMLYETDNKTVDLEKEINYIQN
+YIELQKLRLNNIEDIVINVHGDTRNKFIEPLLLISFVENAFKYGTDYKGAAHVKIKIFIL
+NSSLDFWIENTIEDYSKDPDNSGIGLVNIQNRLDLLYPNAHKLDITQHDEFFRVHLNLEL
+DKIQTAID
+>tr|A0A1S1J7L2|A0A1S1J7L2_9FLAO
+MISKFRFSTAVKSSRDILTCIKEFNTSGELFGNGDRNVIKLFDLEGKKINIKSFKIPNLI
+NKVAYRYFRKSKARRSYEYATILLERGIGTPQPIAFLENFNFVGLRDSYYASEHLTTDLT
+YRELVEIPDYPDHDNILRQFTRFSFGLHEKGIEFLDHSPGNTLIKKKQDGNYEFFLVDLN
+RMEFHESMSFEMRMKNLCRLTPLKEMVAVMSNEYAKFYKEESEQRIFETLWKYTADFQEK
+FYRKKRLKKKLKFWKK
+>tr|A0A1S1JA65|A0A1S1JA65_9FLAO
+MSTSQVITVPITEQQHLLFLFLPLKKGLLAEALKASQLIREAAAPATAPNGDLRKTTGVH
+YFTIYAQEDGKPTPGIPVPGFQSFPGKDVMVVMSIYDGQFDAYINAFFEIDAVVNGLNGL
+LHLIDETGIPGVDPDGPTSAKHIIKKKGVKKNAAAFFCFLMRYNFGDPVFSAGDKNGKYT
+FGTNFPGLTVAKIIDKYPKANEIWPPAPSDVTYSFPKAQKPDCK
+>tr|A0A1S1J5J4|A0A1S1J5J4_9FLAO
+MKINFKFFLGLLITLFMQIANAQEGSITGKVTDSKRVPLPGVNILVKGTKVSTQTDFDGN
+FKITAKKGDVLTVSYVSFATVHVPASNLMTVQLVETQNELEAVLVVGYGTQTKKNLTDNI
+ARVTAKDIQQIPVSNVQNALVGKLAGVQITQTNGKVEGGINVRVRGAASISAGTQPLYVL
+DGIPLITDNESSNGAPTNPLLTLSPNEIESIDVLKDASSAAIYGARGANGVVIITTKKGK
+DGKGTFSLNFSQGVSEATHKRKWLNAKQYVELIREAGKNVDDLASVEEELDRLAQGTDWR
+NGEIDTDWQDIAFQTGYTTDADFSVSGGDDKTRYFFSGAYNNTTGIIDSNSLERITGRSN
+LSHKLSDRFTVGMNIGFSRAIINRVQDDNSFTSPLQSVAQAPISQARLADGTANPNTEYA
+NYLLAKDNTFWKTIMRRLTGKVFGELKIVKGLKFNSDFSYDYMTQTEDYWQGKNAPFMAT
+DGAVFATSVNTENYIFSNYFTYDKTFAEKHALNLVAGMELNKYNNRYQDVNSIYFPNDGF
+QTIDGGAEINEGHGREIDYAFVSQFGRLSYAFDGKYLFKASIRRDGSSRFGKNERYGVFP
+ALSAGWVISKENFLKENPVLTYLKIKGSWGKLGNAEIGNFASRQLYQTNPYNLKSGLTFD
+QPGNDNLTWEKSTQIDFGAELGFLDKITFEADYYQKDTDGLLFDVPLPKSAGGGDLGTIS
+KNIGKIRSSGFEFTLNTKNITTENFTWTTSFNLTTNQSKVKSLPNNNADVISSYTINRVG
+ENISSFYLVEYAGVDPANGDALFVKNTKNADGSIDRSTTNDYSEAQRTILGNPFPTLMSG
+LTNTILYKGVDFSFTFQGEWGASIYNTAGIYQSTAADYFDNQTLDQLDRWQKPGDITNVP
+QARFGGTNGTQNSSRYLGKSDFIRLRNLTLGYSLPKKTVSDMGMSNLRVYMTAVNLLTFT
+NYKGSDPESRRDDITRANPNIGQEFYSAPPARTIAMGVNINF
+>tr|A0A1S1J323|A0A1S1J323_9FLAO
+MDKIAVVILNWNGVKLLEQFLPSVIRFSEGAQIYVADNASTDHSIDFVKNNFPSIKIVQN
+NGNHGFAKGYNDALQHIDAEIYALVNSDIEVAENWLNPILETFENEKLTAIIQPKILDYK
+NKEYFEYAGAAGGFIDKYGFPFCRGRIFDTIEKDNGQYDDNCELFWASGACFFIRSEVYH
+ELGGFDETFFAHQEEIDLCWRAANEGHVIKYVSGSTVYHVGGATLQQGNPRKTFLNFRNS
+LLMLVKNLPKKRLFFVIFFRMVLDGIAGIRFLTQGKFGHTYAILKAHFSFYCISLKYLKK
+RKDFQIQEYYMVKSIVYLYYLKKLQVFKEIFNINQNIKN
+>tr|A0A1S1J309|A0A1S1J309_9FLAO
+MKKNTTESPAFSTHQKIIIAILALLQFTVILDFMVISPLGDILMKTLNMTPANFGFTVSA
+YAFSAGASGLLAAGFADKFDRKKLLIFFYIGFIIGTVFCALSTSYVMLLLARIVTGLFGG
+VIGSVSLAIVTDLFVIHQRGRVMGFIQMAFASSQILGIPVGLYFANHWGWHSAFIMIAVL
+AVLILIAIITQMKPITKHLEVQSDKSPFLHLWHTLSNKHYQVGFMSIAFLSVGGFMLQPF
+GSAFLVNNIHISQLELPMVFFFTGLSVLFIMPLVGKLSDKVSKFKLFAAGSILSVIMIII
+YTNLGPVPLWQIVVLTMIMFMGIMSRMIPATTLNTAIPGLEDRGAYMSISSSLQQIAGGI
+AAVCAGFIVHQKTKTSPLENYDILGYVIAVITLSTIFLIWRVNKLVKSKDTVAPTPVPEM
+AEV
+>tr|A0A1S1J5X8|A0A1S1J5X8_9FLAO
+MTNFSTIKKLYHITESNGFADSEMEVVKNIFGTLPQVFVDYYAELGKIQNLNHTQDLLIV
+PERFQYYKHNDYLIFYSENQKACVWGIHKEDLSKSDPPVYMSEDEKDWNLETETLSDFFT
+AMAFLQAGFALKFPGNTFYELEEDELNFVRANFRNKGFSFKQWLGGINFYGNYDDDVVIV
+QAGNQLFYAADTKEHFVALNKVLSGLGTEL
+>tr|A0A1S1J754|A0A1S1J754_9FLAO
+MASFIKEISFRWSDLDPNFHVRHSAYYDFGAQHRIEILEELGLTLRVMQTQGFGPVLFRE
+ECIFRKELKLSDKIFIHTKTSKMKADASRWSIIHEFRREDDTLCAVITVDGAWMDTKLRK
+LASPTPEIAIEALSIFPKSDDFVGL
+>tr|A0A1S1J967|A0A1S1J967_9FLAO
+MFPIPANTDILLADAESENLYLSLIEQINKDFNLANEGIDFPMSISPDELKIQLHEKIYR
+MIQYKFAEYLNLLYIIDVPENEIKKLDGSDLVILAEQVSFLILKREWQKVWFRNYYK
+>tr|A0A1S1J2S2|A0A1S1J2S2_9FLAO
+MDYNTKELFHYLNKVISDNVAYEELSNLCLSLFCTCNILPERFEKTIINKEKLAIIFSKI
+AKEKNIISYPPNASYYGASFHDTHSEGHWLEVMASVLKLAREPNIEEAINLVG
+>tr|A0A1S1J4K7|A0A1S1J4K7_9FLAO
+MTFGFLLMPSEGYACGKTNAKNSCEKKAVSKHETADTSQKNCCKKDNGSKNDEHGCNRKC
+DHSGCTPSGLQFSLMTKNEFEFEKNLFNFSPEKTIPYYKNISISDGFTSIWSPPKIK
+>tr|A0A1S1J5L7|A0A1S1J5L7_9FLAO
+MSANLVQRFCNTTLSNNKTKELLGKCLKKAFDESIDDALESENILGLAWKFQVPQFDEMF
+KDHQNHSYPPFTC
+>tr|A0A1S1J5M4|A0A1S1J5M4_9FLAO
+MKKHADSTSQLVFWIDLFCGAGGTSTGIHFTDIPNMFVAACVNHDSNAILSHAQNHPDTL
+HFTEDIRDFKVVIKLKFLVDSLRIAFPDCRINIWASLECTNFSKAKGGQARDADSRTLAE
+HMFMYLVALDPDYFWVENVREFMCWGPLDEKGKPVSRTAGRDYIHWLNKVCSHGYKYDSK
+ILNAADFGAYQSRERLFIQFAKEFKSGLSFKSLPIAWPEQTHTKDKVESTLFPMEKWKPV
+REVLELEDEGVSIFERKKELSDNTLKRIYAGLLKFVANGDEVFTKRYNGGKINPHQKVNS
+IEKPMGTICTNVTHALVKSVFLKKYYSGRPEGKVIGIDGPAGTIKTVDGHAIVTASHLNT
+YYGNGGVHSIDNPCPTLTTKDRVAKVDINFIDQQYGNSLPTDIDSPIGALTQNPKFALVK
+TKPWIMDTNFNNVGKSVDEPAATILACRKYPYLVKAQQYIFNPAWGGNNGSIENPCCTVV
+ARQDKAPLYLVSTELGQINIPVYESDSETMILIKKFMVSYGVIDIKMRMLNIPELKQIQG
+FPKDYKLIGTQTEQKKFIGNAVEVNQAKALVKNNYRLLQQHSMKIAV
+>tr|A0A1S1J6Q4|A0A1S1J6Q4_9FLAO
+MKKNLLILLLLLLTVPLWAQQVQITESSGWLESAFVKWQPVSNAQTYNVYYSGNGVTDKK
+IDDQLIRSYGSYFRADIPGLKAGSYAVKIKPVISGAEGTGSTTGSLTVAAQDRNGFAFEG
+GRVPGGYKADGTPKDNAVILYITQNTKNTISMNITGASANPCVGLQNILYAIKKGKDTRP
+FIIRLIGNITDMSVMEGGDVVIENANNAASYLTIEGIGNDAVANGWGVRLKSASNIEVSN
+LGFMNCNSTAGDNVGMQQDNDHVWVHNCDLFYGNAGSDADQIKGDGALDNKTSTYITLSY
+NHFWDNGKASLLGLSEGTTSGLYITYHHNWFDHSDSRHPRVRYYSAHIYNNYFDGVAKYG
+SGSTLGSSLFVEGNYFRNSKHPMLTSLQGTDIWDETNQVNNAGTMGTFSGEAGGSIKAFN
+NTFDASNGTNSMRFVAYNDPNPLYNISGKISSTTDFDAYVATTRGETVSSAVKSKSGANT
+YNNFDTDATLYVKNLTIEQPATAKTKVTQYAGRVSGGDLKWTFDNSIDDTSSTVITALKS
+TLTNYTGTLVAVQGEGNPPTSSQTLTSTSNNNQTVTSGTAIGTIVFTWGGDATDATVTGL
+PTSGISFVKNATAKTITITGTPTANISYSIATTGTGTPATGTGTITVTTAGTQTLTSTNN
+NSQTVASGNAIATIVFTWGGNATDATVTGLPASGISFVKNTSAKTITITGTPTATVSYSI
+ATTGTGTPATGSGTITVTTGTPAGDEIHNFTTSGKTSSFYTITGNMNSTNGSITYAGLTL
+TARLKIESSTTITYTTASPSTLTLVFDSNFTGTIKVNNVSYTASAGIVTASIPTGSNTIT
+KGSVANLFYISTDYNSGSTLRTAQTSSEITSESKTSKVILYPNPVADVLYFSESVQSIEK
+VQVYNMSGTLVKSVGKNVESIDVSNLISGTYLVKVYTNEGSFNQTVLKK
+>tr|A0A1S1J3S6|A0A1S1J3S6_9FLAO
+MNVDIKSAHGLIPAIIQDAETKNVLMLGYMNEESLQKTIETQKVTFFSRSKQRLWTKGEE
+SGNFLNLVSIKNDCDGDTLLIQAIPVGPTCHTGADTCWQEENKENYGFISTLENTIKTRR
+ENADSEKSYVASLFEKGINKIAQKVGEEAVEVVIEAKDDNDDLFLSESADLLFHYLILLQ
+AKGYQLNDVVDVLKKRQK
+>tr|A0A1S1J237|A0A1S1J237_9FLAO
+MSTSTQHTILITGGAGFIGSNLSEYFLGLGYKVVCLDNFSTGHRHNLKGFISNPNFRLIE
+GDIRNFADCISAVEGADYVLHQAALGSVPRSINDPITTNDVNVSGFLNMLTASRDAKVKR
+FIYAASSSTYGDSQGLPKVEDVIGKPLSPYAITKYVNELYAEIFSKTYGLETIGLRYFNV
+FGRKQDPNGAYAAVIPKFVMQLMKYESPVINGDGNYSRDFTYIDNVIQMNELAMTSLNPE
+AINTVYNTAFGDRNTLNDLIGYLKEYLVAFDSKISDVEIVYGANRAGDIPHSLASIDKAR
+KMLGYDPKYSLQEGLKEAVSWYWKNLK
+>tr|A0A1S1J436|A0A1S1J436_9FLAO
+MILKRIILITLLLFTGTFAFSQNFNVQELGKAKLINVSGGASANTVFYSGNATREPFSYF
+LNGNINFNIANLYNIPLSFSYTNQKFGYNKPVLMNRLSIHPSYKWITAHIGDVSMTFSPY
+TLSGHQFTGFGVDLTPQGKFKISAMYGRLLKSNEFDSAYPDILPAYKRFGYGFKTAYSLE
+KINLGLTLFKAKDQINSLNNPVPFELDVAPKENAAISFETNFKLFQKLQVSTEYASSSIT
+EDLRVVANGKAKGVSSFLLGRNSTTTSYNAFKGQLAYPAGKGTLGLGYERIDPNYRTFGG
+YYFNNDLENVTVNATQSLYKDKVSLALNLGLQKDNLEKQKESQMKRLVTSANVDLRPNQK
+LNLNLNYSNFQSFTNSRNQFDYINQASNYEYLDTLNFRQVNQNLGLTVNYLLRNDKQLKK
+AISANFSMQDAVNQQQGKTIAGGASTYYNSALTYSLGYPQKELSFNGSINNTYGQTDGGK
+SFIIGPTVGASKLFFDKKLNANASTSYNTSYNNGRKQNDIFNFRLNGSYIYLEKHNFNMS
+VITLFNKTATGKNNDMTATLSYSYSFDKIKMRPKREPRTEEDMNLTSILKINLNGKALEG
+TRDQITAQLKEMQLALNPLPEKESTNLEHLLTLASLTPDDKQFKEKVLDYLEAYNIEAEN
+VKKYKDYVLEAAKKLETEMKDKDASLENAYVSALGRVNSHKLHGVNEENITDKTAYKSYQ
+KLVERSNKNRDQLTRHRWMLKEISALTKLPAAEIQQNPAAVVFSAEEMEEAFKSIKEKKS
+GPEIIAAIEVKMIPFYHDLALKNANIDEIDLNHIQK
+>tr|A0A1S1JCR4|A0A1S1JCR4_9FLAO
+MKFNSKYLPLVIGATLALGIVLGSLMNAPADDQLLAKNYSKTKLNKLIDFINNEYVDSIN
+TDSIVNLTVDNILSKLDPHSVYIPPTEQAEVAESMKGDFVGIGINFYMYKDSVAIIKPIE
+NGPSAKAGIKSGDRILFAGKTKLFGRRLSSDILFSKLKGLKGSEIELTVFRRSEQKKLKF
+KVKRDIIPIRSVDASLLLGNNAGYIKINRFAETTFNEFKSGLDRLKQKGIESLVIDLRDN
+GGGYMEEAIAIADEFLKDKQLIVFTKNKNGTTEKTYATKAGSFETGKVYVLINENSASAS
+EILAGALQDNDRGTIVGRRSFGKGLVQREMDFNDGSAVRLTVARYYTPTGRSIQKPYKKG
+NEDYFKESEARIKSGELYAKDSIKVADSLKFKTPKGKIVYGGGGIVPDVFVPIEAEHGNE
+NVAYLMQTGIVGHFVFEELDKNRGVFAGLHFNEFLAKMKSSDLYFKKFKTYVLSAGLDLK
+FDKTKALVNRYITAEFARQLYGELYYYDVILKEDAMIKAVLKPNK
+>tr|A0A1S1JF05|A0A1S1JF05_9FLAO
+MSKTKEFLIPFVGLKLGKHHFEYQISNTFFANFDYDEFQSSDIKVGLVLDKKSNMLELEF
+KHKGTVNVPCDLTSEDFDLPLKGKMKLIVRFGEEFNNDNEELLILPHGEHEIDVAQYIYE
+MIALSVPLKRVHPGVKDGSLQTDALKKLNELTVKEEKKESKQEEDIDPRWDKLKKLLTDK
+>tr|A0A1S1J1J4|A0A1S1J1J4_9FLAO
+MCNNSDHTNDTLFKRNGTDQGDRVNSILDPHNLELHDFDKEDWFLFTYNFAKQVNFFDTT
+NSKKASGNWQEIFDHFGYSKKDIPNRKDKDYTLLKQSISETLQDIEFEGTLTPHMTLFIC
+FLKLLELSKERFNKITKKHLDFFYKDILQIEKLAAKPDQVHVIFELAKKSTEERIEAQTQ
+LDAGKDALGNKLIYKTTEELVANKAQITALKSVYNDTTLGEIKCSQVANSLDGKGESLKE
+GSKYWLPFGYTSNEEKYTELEAARLGFTIASPLLQLKEGERNIDITITFNEAFTFDTEPF
+KEPITVNDLVDNISIFCSGEKEWLGPFKLIGTAATSGIVEKQLRLVFQISKDTPSIVNYN
+QKKLGEHFSTTEPVIRFLIRTEDKKGHYLFRNLVTKTISSIGVKVDVKDVKSLVLESDTG
+LLNAEKPFYPFTTQPTSGSSFLIDYPEMFSKKWKNINVSIKWKNTPKSFKTHYQAYKKKY
+QDTTISQTLFFNGMFLKEIIKDKAVNQPEDPQPKTDAVAINIPEKSKLILNTVDTDLIVD
+SDAYFKGNVSLLNKENWETKITDTTLFTLKDGVYVTEFPLVGDGYDIDKSGPIRLTLNQS
+LLHSLYPKIYTLAIMSKIADTLIPNEAYTPFVETISLNYTAEETVNFTHQNEVEYQAERI
+RLFHEAPFGQSEEHSYLKNVARQKGVLDANSALTSRLVPDYCKGGEFYIGLEEAETLQQV
+ALLVQILEGSENPQVDSFVGRQKIEWFILCDNQWKNIENEILANSTDNFLKSGILKFAIP
+KQATKTNTLFPDNLIWVRGKMHKAYDAVCKVIDIKTQVVTAEFYNHNNELSHLEKGLPAE
+TISKLITRITQVKSVAQPFNSFNGKAQESDETYYKRVSERLRHKNRAITLWDYEHLILQE
+FPEVFRVKCLNHTNNEKESFLSPGDITLIVVPDIINKNVFDLYEPRVNTATLNKIRNYIS
+NLNSMHVEVAVINPEYEKVIIKLNVRFYAQYDENFYKKQLNEDITKFLSPWAFDTTQDIL
+FGIELHRSTIIDYIEKLYYVDYLAELEMAKLKDNTESENPNDITYQATLDFLPVLSPSNP
+KRILVSVKNHIISTKINSCKEPNFQSEESCQY
+>tr|A0A1S1J3N1|A0A1S1J3N1_9FLAO
+MKAKNIYKYLAISLIALFLGSCTSTEVDAKFDQNATERLSSRQKELNDVLLSSSEGWKAV
+YYTDSTQLGGWTHLFKFLPEGKVDMASDFNSLTGTYKSQYEIQVGSTVSLVFTTENRIHL
+LSDANNSPTAALLAKGYLGDFQFFYYGQKNGDIIFKTNRNGHEVRFVKATAKDWTDLPKN
+TPIINAITGNEVSPLYRLLQINDGSTVQNYDFDYNTAARFGVATSLVAGSNDVQNLALAF
+TPTGATVKPALTVKGQKLTNFVYDSATNNFVATGTGGVSATLKFSNVPPRLTDDYKILLP
+GKIYARFGYYVDDYTEDASTNSQLFVNELAKINASLPKGVAISSVQLYLNHSLGNFIYYT
+FTGGQAAIFHYIDVVEDAPNQKIILKHKSWNGNTTVAAPAFLANFDKNLVNTTGVYVKKE
+NFKLGYTNTVYTFTSASSSFRMTTWLL
+>tr|A0A1S1J6L9|A0A1S1J6L9_9FLAO
+MKSKIILVSFFFFFATGAISAQAKNAPRSIISTTAIIRKYHDQKELSGMQKGELLELYIE
+RIKVLVKTLPYIALVTKPGVTMADLGIPDDSEHKKVLDGQAEGTTVFLDTTVEFQRKMMP
+YSDKGNLIAAILFYESTLKSLHEFNDIMN
+>tr|A0A1S1J763|A0A1S1J763_9FLAO
+MYSKSKILLIIFYVLIIANLFSYSTIIYLEKLFQNNDKILEVIITVNGIFSAILTTFLFG
+RLNISKESKITAKANAISLSEKITALRRILYEVTNYYGVWKHDNSTKNLLEVNKFKSVDY
+FDYKLMSYSDYKPEDYELIEELNEHEDHLDVESDMFLSMISIVNNRKKPEVFETVLYNDY
+YDNELIYEIDFLQRLSEINHLSRLSSNLNKYDVFDYNKLNKDSKDRLSRLIHEINSNYDL
+EKYNFKEMLAVICSDIESDILPKLLKSVKRVNDGLSVIEIDIINTIKVSLLIGVILPLLN
+LAISEYAMKEFISILFIVANFSMFFYFVFRIKKFSNEQI
+>tr|A0A1S1J8Q0|A0A1S1J8Q0_9FLAO
+MKRTRKSEVPEVVKQLGIRIKDIIEEQQLKQREVAHDAEMDVENLRKYIKGSQEMKISTL
+FKIAQSLKVDPSDLIKDL
+>tr|A0A1S1JAU4|A0A1S1JAU4_9FLAO
+MTLTEKDSQYLWHPYTQHKTAQAPIAISKGEGALLWDENGKEYIDAIASWWVNPFGHSNR
+FIADAIYKQLTTLEHVLFGGFTHEPAVKVAEKLIEILPKNQQKIFFSDNGSTAVEVAIKV
+ALQFFFNKNEKRTTIIAFENAFHGDTFAAMAASGISFYTQAFQGMFIDVVRIPVPVKGQE
+QESFDALRNVIQNHSCAGFIFEPLVQGAAGMVMYEPEALAKLIQICNENNVLTIADEVMT
+GFGKTGKTFAMDYVTEVPDMMCLSKALTGGTIPMAITTFTQKVFDAFYDDDINKALFHGH
+TFTANPTGCAAALASIDLLHTDEMQANIERIHKSHLDFQKKIEKHSKVITARTLGVIFAV
+EIKSDSEESYYGSMRTKLYNFFIDKGVVLRPVGNIVYILPPYIMSDEQLQKVYKTIEEAI
+EMV
+>tr|A0A1S1JAY5|A0A1S1JAY5_9FLAO
+MNLEKILAISGKPGLYVLKVQTRTGFVAESLADGKKITVNLKSNVSLLSEISIYTYEGEK
+PLTEVMQRIATKENKGQAISHKEDNATLSAYFKEILPEYDEERVYPSDIKKVLNWYNTLQ
+AKGLVTDLAPAAVEAVEEAPVAEEKPKKAAAPKKAKAKKEE
+>tr|A0A1S1J7Y0|A0A1S1J7Y0_9FLAO
+MNEITTTLNDFLLHTKSSAALIINGKGKLITSLHLDYADSIAAMSSAIVSMSDKLLLDLE
+KGSLKQLFLKTAEGVIIGNKISGTNFIITFSKDGSNLGLLLRSTEETAAELSKNSLLK
+>tr|A0A1S1J510|A0A1S1J510_9FLAO
+MAATAYNSKSKLTRDLSISLFIYALPVLAIFLYFKLTNGAIAQSHIALPSFLEFIKPAFE
+NIRTWGLTAFMVILGIIEFTAGLYDDQWTGQERKVDIICFLAPKLLLPPVIAFFSLTALP
+YLIPNLANSLSWVPFWGGFFLIAVADDLTQYWYHRLHHQVPFLWRFHRTHHSAPYMGMAM
+ASRQNFIYTVFFSQIYLTATLTFLGLGLPALFVLVIKSFITLGAHSSIAWDKPFYKYKVL
+HPIAWVLERLISTPATHHAHHADTSGDGVGHFKGNFGNMFFIWDIIFGTGLITRKFPKSY
+GMKSYKQEEWYAQFLWPIFKSKKEGSALAEGVLAVPIRQKVEKTVPNQPYYEQVQS
+>tr|A0A1S1J8N8|A0A1S1J8N8_9FLAO
+MSLVKLSIKGISYSQTQNGAYALILNEVDGERKLPIVIGAFEAQSIAIALEKEIKPPRPL
+THDLFRNFAERFDIVVKQVIIHKLVDGVFYSSLICERDKIEEIIDARTSDAIALALRFNA
+PIFTYKNILDKAGIYLKSNTAETDQGSQEIDDVLSNPETFGREEESNQSGDIYSKHSLQE
+LNELLDQAVSQEDYEKAAKIRDEISRR
+>tr|A0A1S1JA96|A0A1S1JA96_9FLAO
+MKEPIETERLILRELLLSDAEGMFELDSNPNVHLFVGKKPVTTIEQSIAQIENIQQQYKD
+FGTGRWAAVLKETNEFLGWSGIKFITYEINGHKDFYEIGYRFIEKHWGKGYATEAGKAFV
+DYAFNKMKVKALYAYADEGNEVSRKALEKLGFRYVNSFEYEGELEAWYELKHPDL
+>tr|A0A1S1JDI9|A0A1S1JDI9_9FLAO
+MRTGTVKFFNESKGYGFITDEETGKDIFVHASGINAEELREGDRVSYEEEEGRKGKVAAK
+VAVI
+>tr|A0A1S1JDW0|A0A1S1JDW0_9FLAO
+MLKEIYITQTNCITPLGFDVESNVEAILRGNSGIQLQNDISLMPHSFYASIIDDEKLNSA
+FAKISTETKYSRLEKMMILALEPIIKNSGVELNSKAAFILSTTKGNVTALKNDSADSFNN
+AHLDVLAKNVAAFFGFQTQPIVVSNACVSGVLAISVAKRMIQSGLYDHAFVVAGDEVSEF
+VLSGFNAFQAMSDLPCKPYSKNRTGVSLGEATAAVLVTAETTNAKIKVIGDSSINDANHI
+SGPSRTGEGLFRSIQNALKEAQIEVNKIDYISAHGTATPFNDEMEAIALNRLGLQNVPIN
+SLKGFYGHTLGASGLLETVIAIESANQNMLFESKGFDEMGVSEPINVIEKNEEKTIDFFL
+KTASGFGGCNTAVVFEKVK
+>tr|A0A1S1J2J3|A0A1S1J2J3_9FLAO
+MSFFRYFIFFILLATFTSYPTVAQEKTVSKNNTNAVVGNTKKNNTCLPEKIRNKQIISLS
+IVMIILLFFLFYFFYQNNKLRQKIKRKDAKQKILLNVINAGIDSQEVERKKIASFLHDNI
+NSLLSTVGLHLKTFTTLNDIKSDEIQKAKSILQEAHDLLRDMSHDLVPTLLVRFGLIYAL
+EDLCERNSNSHINFKFSSTIPTEKRYIEKFEMKLYFIVSELFNNIVKHSDAQKAKIFLSE
+KNNQFIIVIQDNGKGFETQRLNNFEGFGINRIRARIKKYKGSISITSKANEGTTVKIKVP
+LPF
+>tr|A0A1S1J596|A0A1S1J596_9FLAO
+MKNKNPETEQESLYKNLDQMSTKELLINMNTEDQKVPHIVEKQIPKIEKLVKAIVKKMQL
+GGRLFYIGAGTSGRIGILDASECPPTFGVPHDMIIGIIAGGDTAIRKAVENAEDDTEQAW
+KDLSKHQISSLDFVIGIAASGNTPYVLGGLQKAKENNIKTGSISCISKGLIAEVADYPIE
+VVVGPEFLTGSTRMKAGTAQKLTLNMISTSVMIKLGRIKGNKMVDMQLSNEKLVKRAIKM
+IVEELQIEHDQAAELLEKHKSVRAVLQANNAKK
+>tr|A0A1S1J930|A0A1S1J930_9FLAO
+MQNISTKIASLHWDSITESMHENGFAIIPNLLDNEQCEALKADYSKSELYRKTVVMERYR
+FGLGEYKYFTYPLPDLIQNLRTSIYPKLAPIANAWMKALHIQTVFPDTHQELLEQCHANH
+QLKATVLILKYGKSGFNTLHQDLYGDVYFPIQIVLFLNEPDEDFTGGEFVLTQQIPRAQS
+KAIVLKPKKGDVLVFTTNFRPIKGTKGYYRVNMKHGVSEIHSGERHTLGIIFHDALS
+>tr|A0A1S1J1V8|A0A1S1J1V8_9FLAO
+MEQNATQPYFRKILVIDDSATDRYIAKRMAEKYYFAEEIVLEELATTALEYLRSLEDTPD
+LLPQFIFLDINMPEMNGFEFLEEYAKLSESIKLNCIIMMITSSTHPEDLKRAESNPLVIG
+FLNKPLCKEKFEGIKQEFLLKNH
+>tr|A0A1S1J4U4|A0A1S1J4U4_9FLAO
+MILPFLKKLQNSPKGFRLANTVFFFLSGFGYSSWVSRIPHIQAQLHLSEAEFGAVLFAFP
+IGLMLTMPFTGMLLNKYSSRYVMLLGAIMFNIALALPGLAAFVWQLVVILLIFGASRNIF
+NLSINAQSLEVQKLYPKSIITRFHAVWSIAVFSGAGLGYVMVTQHIAPVHHLLGVSVFMM
+GLTACFYPMSIHNEPVPVKKKFFSMPEKNLIKFALICFVSMACENTMYDWSGIYFKNILK
+ASPKLTSAAFVFFATAVTLGRLFGDYGVMKFGTKRILFYSGVLITAGFTICFALPYAYPT
+IFGYVLIGFGVSCVVPLVFSIAGRSSKLSSGSALTSISTIGYLGFLLVPPMVGFISEYLS
+MKWAFLIMALLGILMIFMVNKIGENE
+>tr|A0A1S1J0A5|A0A1S1J0A5_9FLAO
+MSQEELLVLIYKKDERAFTHLYDMYSKSLFSVINVLIKNREEAEDVLQEVFVKIWKNIDS
+YNESKGRFYTWILNIARNTSIDKLRSKNFNNSQKNLSSDNFVNLLDDSNKLVNRIDTIGI
+QEFVKKLKPKCIEIIDLLFFKGYTQQEASEELAMPLGTIKTQNRNCINDLRNYLKI
+>tr|A0A1S1JAG0|A0A1S1JAG0_9FLAO
+MELKWKIKPFEALNVNELYDLLKLRSEIFVVEQNCVYLDLDGKDKKALHLIGEYDGKTVA
+YVRLFDAGISFDNASIGRVVVDANYRDRKWGHDLMREAIAAIKSNFNKDAITIGAQLYLK
+KFYESHGFVQTSEMYLEDDIEHIEMVRS
+>tr|A0A1S1J2E1|A0A1S1J2E1_9FLAO
+MKDSQINPYEHSDIKVKLLKLYLEKYINILALAKGVHTVEVFDLFCGEGIYNNGKEGSPV
+IILRLIKDIYYKATKNSKVKFNCNFNDYNNQKTVKLSNYISEKKMHYQEMGALSYHNKDY
+QVFKDEILQARKIKGLKRFIFIDPYGYKNISVADIEDLLSDNNTEVLLFLPTQFMYRFEK
+KSTPESLYNFLTEIMPKEEQRMSSSGVDFIHKLRDGFGDKLKGKHFVDSFIITRNINEFF
+ALFFFTSHLYGFEKFLEAKWSIDEEEGRGWSPKFEKVDLFSAIDVQPKTDKFEENLLAFL
+SELRSNIEIHEFTISNRHLTTHAVQILKKMQNSNKLMITTVDNSKLRKGAFYIGWNEVKT
+NKIKCFIKYESNGAI
+>tr|A0A1S1J8H8|A0A1S1J8H8_9FLAO
+MIRLSGTNHLLGHRLWIKDFPKPKEQIKIPYLIIGGGISGLSAARQFHKRGVPDFLLIEM
+ADHLGGNSSNGQNKYSKYPLGAHYLPLPNFEDKELLGFLEEEKIILSYDKKGLPVFDELQ
+LTFAPDERLFYKNNWQEGVVPKEGNSEEEHKEFQRFFREMDVFRSAKGEDQKYLFDIPIH
+LSSKDQETRALDKITMQQWFEKNNFKSKPLFNYIDYCCKDDFGLGITFVSAWAGIHYFAG
+RKQDAAAEKSDSVLTWPEGNARLAHHLKKYTAQKTLKNHLVYEVKIEKNKVIVQAFDDVN
+KSSIEIIADSVIMATPQFVNQYLIKDRKQFTKQFHYTPWLLATLVVNNLTDNLSFPLSWD
+NVIYEAKGLGYVYAQHQTLNQIQDKKVITYYYSFSSADLKKTRKEIYKKDKEYWKQVVFN
+DLKIAHPDIENDTEEMEIFLLGHGMISPVPNFIFGDAKKKASQNIENLIYFAHSDLSGIS
+IFEEAFHQGINAVNKLLDGTALDS
+>tr|A0A1S1J1W1|A0A1S1J1W1_9FLAO
+MAKKNLGEMSFLDHLEELRWLLVRSTIATMIMAFVTYFISDYLFDEIILGPTRPTFFTYV
+WFCDLSHQLGFADSICITQLNFIIQNTEMEGQVNIFVWMCLLAGFILSFPYILWEIWKFI
+SPALYEKERKNARVFIFTSSLLFFLGVLFGYFVVIPMSVNFVATFSVSDVVKNQFTLDSY
+MGMVKTSILGSAIFFELPIAIYFLTKLGLVTPEFLRKYWKYAVIIILIIAAIVTPPDVVS
+QTIVAIPMLLIYEVSILISKIVYRNKMKENV
+>tr|A0A1S1J4U3|A0A1S1J4U3_9FLAO
+MKKTLTFTILTAALTLTSCSDSDTYKDIETPPVTDNPTPGPETPTTAISYSKNVKAIIDA
+NCVGCHQSGRSAGFRPLTTYAEVKTATEGAGLLNRIQLQNGQQGIMPQAGRMSQANIDLI
+VKWNTDGLKEN
+>tr|A0A1S1J641|A0A1S1J641_9FLAO
+MIIGVPKEIKNNENRVALTPAGVSEMKKHGHTVYVQATAGLGSGFSDDEYANAGAVVLGT
+IEEVYAIAEMIIKVKEPIASEYPLIKKDQLLFTYFHFASSEPLTHAMLEKGAVCLAYETV
+EKADRSLPLLVPMSEVAGRMAIQQGAKYLEKPLKGRGILLGGVPGVPPAKVLVLGGGIVG
+TQAAKMAAGLGAQVTIMDLSLPRLRYLDDIMPANVNTEMSNHYNITKAIATADLIVGAVL
+IPGAKAPHLITRDMLKLMRPGTVVVDVAVDQGGCIETCTPTTHENPTFIIDDIVHYCVAN
+MPGAVPYTSTLALTNATLPYAVQLANKGWETACNENEELKKGLNIANGKILYKGVAEAWN
+LPFNEEIVLANA
+>tr|A0A1S1J973|A0A1S1J973_9FLAO
+MKYDVIVLGSGPGGYVTAIRASQLGFKVAVVEKENLGGVCLNWGCIPTKALLKSAQVFDY
+LKHASDYGLKVSEFDKDFPAVVQRSRGVAEGMSKGVQFLMKKNKIDVIEGFGKLKPGKKL
+DVTDKDNKVTEYSADHIIIATGARSRELPNLPQDGVKVIGYRQAMTLPTQPKSMIIVGSG
+AIGVEFAHFYNSMGTEVTIVEFMPNVVPVEDEDISKQFERSLKKAGIKVMTNSSVERIDT
+TGAGVKAFVKTAKGEEVLEADIVLSAVGIKTNIENIGLEEVGIAVDRDKILVNAYNATNI
+PGYYAIGDVTPGQALAHVASAEGINCVEKIAGLHVDPIDYGNVPGCTYATPEIASVGLTE
+KQAKEKGYELKIGKFPFSASGKAKAAGTPDGFVKVIFDAKYGEWLGCHMIGAGVTDMIAE
+AVVARKLETTGHEILKSIHPHPTMSEAVMEAVADAYGEVIHL
+>tr|A0A1S1IZP6|A0A1S1IZP6_9FLAO
+MKKAKIIFWITTTIIFLFEGVMPALTSQTELAKEGIRHLGYPEYFGNALVVFKILGVLAL
+VIPSIPKNIKEWAYAGFGFDFIFASISHAAVDGINFQAFFPLIFLVILAISYVYYHKIER
+YKNIAL
+>tr|A0A1S1J8H7|A0A1S1J8H7_9FLAO
+MLQNKVILGSEEWCSFPELGIPTIKARVDSGAKTSAMHAINIAPFIKNDANWVKFDINPI
+QNNIKTIIHCEAPLVDKRIVKSSSGFREHRYVIQTHLKIGDIKWPIEMTLTNRDSMGFRM
+LLGREAMSGRVLVDPEEKYLLGQPSPEALKELYQNSEKASSGLRIGVLASNPELYSNKRI
+MEAGEMRGHEMHFLNIKECYMKLDAKTPEIHYRGGKILNQFDAIIPRIRPSITFYGCALT
+RQFEALKVFVLNSATAITQSRDKLYSLQLLLNSGIDIPTTGFANSPLDTDNLIKMVGGSP
+LIVKLLEGTQGKGVVLAETKKAAESVINAFKSLNANILVQEFIKEANGKDIRCFVIDGKV
+VAAIQREAMPGEFRANIHLGGTASVIKVTAEEKKIAIKAAKAMDLKVAGVDIIRSSKGPL
+LLEVNSSPGLEGIEGATNKDVAGEMIKAIEKNFKL
+>tr|A0A1S1IY60|A0A1S1IY60_9FLAO
+MKINTAEFIVSNSEVSKCPKDFLPEYAFIGRSNVGKSSLINMLTNHKNLAKTSGRPGKTQ
+LINHFKINNNWFLVDLPGYGYAKVSKKTKSVFQQFITDYFETREQLVCAFVLIDIRHEAQ
+KIDIEFMSYMGESEIPFCIIFTKADKISKVKIDSHVAAYKKQMFANNWSEMPQYFVTSST
+EATGKEDLLAYIDEVNQEVFKNNSEF
+>tr|A0A1S1J276|A0A1S1J276_9FLAO
+MKKIVSLLIIVVLFCSCSEYQKALKNDDVAAKFEVATKMYDAGKYSKAIRLFEQLASSYR
+GKPQAEKLFYMFSQSYYKTKQYYLAGYQFESFVSGYPRSEKVQEAAFLGAYSYSKLAPVY
+SLDQTDTVKALEKLQTFIESYPNSEYIAQANEAVKVLNGKLEKKAYENAKGYNTISDYKS
+ALIAFDNFIADFPGTPLKEDALFYKYDSAYKLAINSIPSKMEERLNVAKVAYGNLIKFNG
+ATKYKKEADEMNARVETDLQKFTK
+>tr|A0A1S1J2N9|A0A1S1J2N9_9FLAO
+MKQLYFYWIFLFSVSISFAQNKPTFSVVGTAVNKESVLKNKRLDISKIKVENISNKPIYL
+VWETVSNTFPKEWDCSMCQHGACQIGIPKGSSFNKLNPDQQGFIAIHVIPANKIGNGTVK
+FKIYDKANPKYAQILTFEVEVL
+>tr|A0A1S1J343|A0A1S1J343_9FLAO
+MATTDNNKETIYIPLEDVNSEHCALIVEKGLAEVKGIETHKVEVNNRRAAITVKGNETVG
+NAVKAIKDLGYGVPTVKNTFPVLGMTCASCASSAESIVTYELGVVNASVNFATGNLTVEY
+LPNLTDASKLQKAVQGVGYDLLILEEAKQQESLETIHAENFKKLKNKTIWAVLLSLPVVV
+IGMFFMNIPYANEIMWLFSTPVILWLGKDFFVNAWKQAKHRSANMDTLVALSTGIAYLFS
+VFNMLFIDFWHQRGLHAHVYFEAAAVVIAFILLGKLLEEKAKGNTSSAIKKLMGLQPKTV
+IVIQPDGTEKQVAIEEVNAGAVILVKPGEKIAVDGMVISGHSYVDESMLSGEPVPVLKKE
+NEKVFAGTINQKGSFQFKAVKVGKETMLAQIIKMVQDAQGSKAPVQKLVDKIAGIFVPIV
+MGIALLTFMAWMFLGGDNAVVQGLMAAVTVLVIACPCALGLATPTAIMVGVGKGAENGIL
+IKDAESLELARKVTAIVLDKTGTITEGRPQVTGIKWLKDVDTTKDILLSIEKQSEHPLAE
+AVVKSLEGVSGVVLSNFDSITGKGAKAVYADETYYVGNKKLLAENSIVIAESLLIQAEEW
+GKESKTVIWFTNSKQALSVIAISDKIKETSVQAIKELQEMNIELYMLTGDNEATAKAIAA
+QTGIKHYKAEVLPQHKADFIKELQQQGKTVAMVGDGINDSTALATADVSIAMGKGSDIAM
+DVAKMTIISSDLTKIPQAIRLSKQTVATIKQNLFWAFIYNLIGIPLAAGVLYPINGFLLN
+PMIAGAAMALSSVSVVSNSLRLKWKK
+>tr|A0A1S1J6X7|A0A1S1J6X7_9FLAO
+MKMKSFLRKTTFMVSAVTVFAAVVSSCSSKSDEVEAETAQHFTIASWTQDLQYIASVPSL
+AEGSLTFKGKGIEANGSRYIWHKQYVYLMNLPQKKFIQYEMGKDGSLKEKGAILTDGVVP
+NYFQSLNIVDDNTMLVLGGLDINNGTVGWARIKLSDFTIEAKGTLAVPYDAAKKGVQFSV
+GRAFVDNGKLILGGYFYDNESKSYTVDGVRALVYDYPAMNNLKVIKSTATEGGVGYDYLN
+SLDKDEEGNHYFVASAGKFWTGVGGKSGVVRIKKGAADFDKDYFIDVTTPLGKQACLMGI
+NYVGNGIAIGTVQYEELMTSVRDRLKNVGQLVRIDLKNKTVSLINTPLSPVSMVRSPLVY
+KGKYYTAISPVDAVASIYEVDPATGAFKKGTTLDGGGSVTVNLIAPHPTK
+>tr|A0A1S1J0I9|A0A1S1J0I9_9FLAO
+MLYYLFEYLDKTLDVPGTGVFQYITFRSALAFMLSLLLSTIYGKRIINFLRNQQVGETVR
+ELGLAGQNEKAGTPTMGGLIIIFATLVPVLLFARLHNIYIVLLIVTTLWMGSIGFVDDYI
+KIFKKDKQGLKGIFKVIGQVGLGIIVGSVLYFNPAVTVRTDTGRTDVFKTATNNSTIVLP
+APVEEKSTATTIPFVKNNEFDYAEILAWTGEGYEKWAWLVFIPVVIFIITAVSNGANLTD
+GIDGLAAGTSAVSVLALGIFTFVSGNIIFSNYLNIMYIPNSGEMTVFISAFVGALIGFLW
+YNSFPASVFMGDTGSLTIGGIIAVLAIAVRKEILIVLFCGIFLAESASVIIQVTYFKYTK
+KRFGEGRRIFLMSPLHHHYQKKGYHESKIVTRFWIVAVMLAILSIVTLKLR
+>tr|A0A1S1J6B1|A0A1S1J6B1_9FLAO
+METTHTQTADVLDGNITQAQLNQWKYKHKKVVKLTIADDDETTLFAYFRKPDMSIRAAVL
+QASKMDEFKALEVLFKNCYLGGDAKIEQEDDLRLNITTAFSDHIQPKPVKVEIL
+>tr|A0A1S1J911|A0A1S1J911_9FLAO
+MSLRLLFLTLVLSFNYSVFSQTSEPHNINQKPDNKTVPSQTDYIKILWVNKQGVLQLNEE
+CIKTLTDPQRAALGFVTTGVDHDCYWDSDKKADESNLKCKFLWALNLGYQCSETHLGFLK
+QWFKEDTEVLGRLQYCSKNETTPKNKEFFLWLKMATTDNNIKIIYSAVGIDNDTNSNWKW
+TEASSYSYTNTGIKQISRKNLDGGFF
+>tr|A0A1S1JCQ6|A0A1S1JCQ6_9FLAO
+MKLKRFEVLLKFTREQRKGVFLLFIIIVVLQAVYFLVDFDISEKIAPQEKQWLTLQSEID
+SLKLLKFGEKRKVYAFNPNFITDYKAYKLGMSVQEIDRLLAFRKENKYVNSAKEFQEVTK
+ISDSLLDVISPLFKFPNWVKNKSSHKMERNEFVKEPVYKKGKIIVLDINDATQEDLVKIY
+GIGEALSLRILKQREVLGGFVSMEQMNEVWGLSPEVVKELTAHFKVVIPSSLKKISINEA
+SLKELAKFPYFRYALAKEIVTYRSMNGNINNIEDLSKIKGFPIEKAKIISLYLEF
+>tr|A0A1S1J500|A0A1S1J500_9FLAO
+MVDITHKISTLRKATATAIVKVSKQETIDAVENNLVPKGNVLEMAKTAGLFAVKNTHLSI
+PDCHPIPIEFTSVEYEIKGLEIHIIFTVKTVYKTGVEVEAMHGASIVALTMYDMLKPIDK
+EIEISTIKLIQKEGGKSSFKNRFPNTIKAAVFVCSDSIFAGDKEDRSGKIIVEKLSSYGV
+EVSHYEIIPDELDSIQDRTKAFAKEHQLVIFTGGTGLSPRDVTPEALSPILESRIPGIEE
+AIRDYGQQRMPYAMLSRSVAGTLGKSLVLALPGSTNGARESMDAVFPHVMHVFHVLKGKN
+HDSL
+>tr|A0A1S1JBX6|A0A1S1JBX6_9FLAO
+MMNVKQYLDSTYLKTASQAGLSEAENTLVVKNAIEEAIHEGFKLIMIRPEQVVLAKEMIH
+KANSTLLIGTVIDFPEGDSDLESKLKEANKAIEDGADDLDFVCNYKAFKEGDVDLVKQEI
+LVGTQIGLASNKTVKWIIEVAALNDTQIIQLSALIKNVVMSHFKEENYSSVFVKSSTGFY
+KTENDLPNGATLPTIIMMLENASPLPVKAAGGVRSYQDAIEMIRLGVKRIGTSAAKTIAD
+GGNTSNQY
+>tr|A0A1S1J6T5|A0A1S1J6T5_9FLAO
+MSQNKNALIRYKTIDKCLQNKYRQWTLDDLIECCSDALFEYEGRANPISKRTIQMDIQLM
+RSEKLGYNAPIVVYDKKYYKYEDDEFTITDIPLTETDMNVLTETVSMLKQFKDFSLFSDV
+SDILQRLEDKIYAEKSHTKPVIYLDKNEKLKGLHYLDEIYQAIIKKVTLVITYKSFKSQE
+ESKFHFHPFILKEFNNRWFLVGKKKGSQPITNLALDRIISIDYDFNIPYLEENFDAELFY
+KNVIGVTVNTGLQPKKIELWIDATNAPYVITKPLHHTQRLIKENDDKSIIVHLFISPNYE
+MERMLLGFGDGIEIIKPENLRNRVKAILQKAISRYEPENTIELKP
+>tr|A0A1S1J9Z8|A0A1S1J9Z8_9FLAO
+MKKILFLSAILAFASCKKETAETPVETTTEAYSEGETAKAKTPEEFGKQIFEGQGNCFSC
+HQPDKKVIGPSIQEIAKIYKDKNGDIVTFLKGKADPIVDPSQFAVMKTNFPVTQAMSDEE
+LKAIETYIYSHLK
+>tr|A0A1S1J9X0|A0A1S1J9X0_9FLAO
+MKKFLALCCCLLLTSCFEITERIKHHDDQSGEYTLMVDFSKSWFKTKSAMWMEEVDGVKI
+PNEQEITKKLEDFKVKALKIDGITNITTKTDFDQYVFIIKLNYANLKALNAVVNTINNQS
+NQVHFSSNAKSFERIASYPVPEKVVKDPKKKEDLEAASITAIYTFDKDVKAVENPNSRIS
+QNKKTVFLKQSMYSVLKKSALMNNTIQLTP
+>tr|A0A1S1JCI8|A0A1S1JCI8_9FLAO
+MGKTFVYNTGAAADDIKKEDLRVTFGIFIDGTLNNKTNTDMRNKHSRGKDAEGNIDYSKD
+NATLESEDEKKYKKIKNKGRIEELLSKKNKTPAEEAEFKAIDERDKYLVASYRVPLNEFG
+LDRMGTDNSYSNDYTNVARMWQCCEQKKYAIYVPGMGTDHLMRDSTDGFAFGSGQTGIRA
+RVRNACEQIADKVALKMAESDDATKLAQITLDVFGFSRGAATSRNLVYEVNHDSGYANAV
+KKQIPCGVEYIERPYSESGSVRIQKMRNAFVDVDNYEIDNSYLIRDQLPKMGHLGYSLLK
+KTSLDFDDLKNVEIVVRFVGIYDTVSSYFEENGVRDHYDDYGNVKDEGGKLIKEAWSTHF
+NDDIAELHLNNLYCQKVVHFTAKDEHRQNFALTRINQIPGRYIEKNFPGVHCDIGGAYMT
+EKEVVDEIGTQMKDRHYVSVFPNGFFDDKIGLEALRRDLIRQYWYKEDQIETKIQWSFPP
+YSKLTGTRGKKIEGTEDQYEGVKKEYSYIPLHFMETYARSTEMKEYFVEETAVKFPLDDF
+LTDVESYLTPYALDETNEVKEWDFISDEVIEQKRLERIEKERRDAEMLDIEQKLKTHNYE
+FEELKIAVDNLRVEQYKPKLDFEKLKMPQKEPEMKTYTIEGVTVVGYSGQTMLRKLRNEY
+LHWSSTRDWFGMQPNEGRKRKIH
+>tr|A0A1S1JBE6|A0A1S1JBE6_9FLAO
+MSIDYSANKTILVAPLNWGLGHATRCIPIIKALQENNYIPIIASDGVALALLRKEFPYIQ
+TLELPSYHIEYAKNAKNFKWKLIKNLPKMIVAILDEKKIVKSWIKKHGIDGIISDNRLGV
+FSKKVPSVFMTHQLNVMTGNTTWFTSKCHQHIIKKYTECWVPDTNDTVNLTGELGHLKTD
+DLKLKYIGPLSRMRKKDTPKVYDLMIILSGPEPQRTFLDEKLQKEVVNYKGKVVFVQGIV
+EKIQTKWQAGNVTYYNFMNSKQLEQTFNESEFVLCRSGYTTVMDLAKLGKKAFFIPTPGQ
+YEQEYLAIKLQKENLVPYAMQDDFTIEDLSKVKSFKGLTQFNDTIDWDTLFTVFEDEN
+>tr|A0A1S1J0E1|A0A1S1J0E1_9FLAO
+MNTALLTENEYSGGFANYIKEAGEVNLFEELEISLHEFIKFVQNIPMDKFDYRYAEGKWT
+IKDIIQHIMDCERIFAYRALRFSRNDKTALPSFEENDYAISTDSNSRSIQSLLTELSALR
+HSNLLFFKSLSEEQLKRIGTASNLQISVRALGFVMIGHQKHHQKVFEERYL
+>tr|A0A1S1J5V5|A0A1S1J5V5_9FLAO
+MAQNKTIETENSVADFINAVEDTTKKNDAFELVRLMQEQTGFEAKMWGPSIIGFGSYHYK
+YASGREGDAPLVAFSPRKAAISLYMYASPEKREELLSEFGKHKAEKGCIYVKKLSDIDLE
+ILKKMISVSVEHLQELYPPQ
+>tr|A0A1S1J8G6|A0A1S1J8G6_9FLAO
+MENNIRKKDIAIVGISGKYPKSDNINEFWKHLMNGEELVHFYSDDELRAAGVTEKELANP
+DLIKAQASLEDPNSFDYSFFGYTRQEAMSMDPQVRMMHELVWLGLEDAGYNPKTYKDKIG
+LYLSASDNMNWRAYTMITNNDNVNSFYLNQISNKNFISTLISYNMNLRGPSYYVDTACSS
+SLVGIHQACRSLLMRECSIAIAGGVRVYSKVYKGHQYQEGMTNSKDGHCKAFDEDSSGIV
+SGEGAGVAVLKRLEDAIADKDQIYAVIRASVVNNDGNRKVGYTAPSISGQYECIKQAQQI
+ADATPESITYIEAHGTGTKLGDPIEVEALNKSFEYNTNHHCALGSVKTNIGHLDSAAGIT
+GFLKTTLALKNKMLPPSLHFKNPNPEINFKSGPFKVQTELSAWTSKDNQPLRAGVSSFGI
+GGNNAHVILQEAPLKEEIAENNSYKLLRFSAQSVGALNAYQERLTSFLEENEKDNFQDMA
+YTLQVGRNQFKYNRFLVSNSRENAIETLKDPLSKSVYSGKLSQKRKIVFMCTGSGAQYLN
+MGKNLYEKEPYFKELIDKGFSIIKTLTGVDVTKVLYGENAGAEKNTDINKNEFTQPIVFV
+FEYALAKLMMRWGITPDKLIGHSTGEYVAACLSEVFSFETGVKLVAKRALLMNKTPGGSM
+LSVSLSEEKIKTYLNDQVSLAVVNSPESCVLSGTDSAIEALIEILETEEILCSKLRISLG
+GHSFLMDSVLEEFRQELEKVEFSAPKIPFVSNLTGQLINSEEAVSTQYWVDHLRHTVRFS
+DGLATLLKDSDSIFIEVGPGNTLTTLFQQQKHDETSNNTAINLVRHPKQEINDQEHLCQK
+LGELWMNGIDINWETYYGEQKPYRVSMPGYVFNKTKLPVKVNPFAFLNFSGSEEGAIAAP
+LTTEDYDDSEAFQEDLEDNAVSFVNYVPPSNETEEKLVEMWKSFFSKDEIGVLHDFFALG
+GNSLKGVTMLKLIQKRFDIEIKIKDFYQKSTIKELAAEIDMGLKLVTLQEESTYKSVMTI
+>tr|A0A1S1IZM6|A0A1S1IZM6_9FLAO
+MSKDPQGKMLQKGIYTGIIEKDENNNYFCGEYLLDYKIAHTNFNIGDWITIKSIIENPSD
+ISYDKYPKKSKNFDKANNKPENK
+>tr|A0A1S1J8T0|A0A1S1J8T0_9FLAO
+MYSSILEKYINDPSWTEVIKLYSGLFEYTIESNEFIKEINSINVYLAAQCSTSFINENLE
+LESEIINKADILLNEKISSNYSIDILYINTMLELGQFEKILPFYEKTLPKNIPYLNSIIH
+RLFENNTFINANSLNAILKNNSNFYISKIIEFYNSSEIEIEEDQYRLIVNNLIDCKNNKT
+KYLIDFIKLKNEITLYIEKEKINAIAQKIDDYNDFKFWINKFDIEINYVNYVNDKVKSDI
+SLKVSYLIFCLIVKNKKKFRNYLHSLIQNLIQREDKRCLVLGIFLISYFNKINIFKENLS
+SENLSLFFLIQNKINLKERECFTRTELQITKKLREINIKENLDSFKGKIYHTKVLSIWKY
+HYVLHSGNYGLKPSLLPFDETIETLKINDQVSVIGLHIDNKNLRLYTSQKQLKNHSLRFN
+PKHLNILNKDDIIKCKIFFNDERIRLSPIGLGKDFKCMLMKKYDTADFPLKSQEFVVTQV
+INPFFVKVLPL
+>tr|A0A1S1J8T9|A0A1S1J8T9_9FLAO
+MSKVSYYTAEGLKKLKDELEHLKSVMRPKASQDIAEARDKGDLSENAEYDAAKEAQGLLE
+MRIAKLEEVYSNARLIDESQLDVSKALVLSNVKIKNQSNGMEMKYTLVAESEADLKTGKI
+SVTSPIGKGLLGKSVGEVAEITVPNGVLKFEILEITRD
+>tr|A0A1S1JAH3|A0A1S1JAH3_9FLAO
+MSIQNINVALIGNPNTGKTSVFNQLTGLNQQVGNYPGITVEKKIGFCKLPHNIKANILDL
+PGTYSLNASSMDESVVIELLLNKNDKLYPDVAVVVTDVENLKRNLLIYTQIKDLEIPTIL
+VINMSDRMESKGITLDIPYLEEKLKTKIALVSSRKGLGIEELKELIVSYKNIPHEPCLNA
+SVIDQAYFEKLQEAFPNQLLYKLWLVITQDVNFSNLDRNEIRSTFTKSHSELKRLQQKET
+IKRYQFINDVLKEGLKVDASMAKDIRAKLDRVLTHKVWGYVIFLAILFLIFQSIFSWSTI
+PMDFIDSSFASLSSWVAAELPSGILTDLLSQGIVPGIGGVIIFIPQIAFLFLFISILEES
+GYMSRVVFLMDKIMRKFGLSGKSVVPLISGTACAIPAIMATRNIENWKERLITILVTPFT
+TCSARLPVYTIIISLVIPDKRLFGILNMQGLALMLLYLLGFATAILASYILDKILKISSK
+TYFVVEMPSYKLPLFKNVAINVVEKTKAFVVGAGKIILAISVILWFLASYGPGKDFNEAE
+TIVKERFADTTIDETQFENEVASQKLENSYIGLMGRAIEPVISPLGYDWKIGIALISSFA
+AREVFVGTLATIYSVGDTDNESTIRSKMQEEINPETGHKIFNFASGISLLLFYAFAMQCA
+STLAITKKETNSWKWPAMQLVLMSGLAYFVALITYQLLK
+>tr|A0A1S1J587|A0A1S1J587_9FLAO
+MAKNVLLTGGTGFVGKQLTDLLTDSGFTVSILSRSARENTSLITYYKWNLKTNYINEEAI
+LQADYIIHLAGEGIVEKRWTKRRKKVIVESRVQPIDLIYSILKKNNKVPEAFISASAVGI
+YGAVTSSVICTEDTPPATDFLGVTCVEWEQATDKITSLGIRTAKIRTGIVLGRNEGFLKK
+LGPNFKAGFGAILGTGKQYLPWIHIDDLCQIYLKALTDETIKGPYNACVTDNTTNLSFSK
+MLASLYGYKIWLPKVPAFILKIVLGEMSEAVLKGQRVSSEKIQKTGFEFQFTDLEGALVN
+CLN
+>tr|A0A1S1J5N8|A0A1S1J5N8_9FLAO
+MTLCIKNMVCRRCIMVVESEFKKLGLHPISVVLGEVKLQDSISKSQKEVLLKSLQTLGFD
+FIDDKKSKTVERIKKLIADLIHSKNNDHKVNLSDHLIKNLSQDYSTLSNLFSEIENTTIE
+KYFISQKIEKVKELLLYNELSLSQIADTLNYSNVAHLSNQFKKITGFTPTDFKQLKDKNR
+IDI
+>tr|A0A1S1JAW2|A0A1S1JAW2_9FLAO
+MFKALKSKNFKLFFYGQSVSVIGTWLQKTAVSWMIYSVTGSVFLLGLATFLSMIPSLFLA
+PLAGSIIGRYDRHRAMILLQSLAMLQAGALALLIYLKIYNINFILALSLIQGIINSFDMT
+CRQTMMIDIVDNKEDLPNAVALNSTLNNFARIAGPALAGIILHNYGEDICFIGNFLSYIP
+VLISLLMMKITPHIKATEKMKMVDDFLEGLDYIKKESEMAKMLLMLMCSSLFVISFNTLM
+PVFAKDIFTGNAQTFSWFESAAGIGSILSAIYLANLKKADNMGKIMIAASLLLGFSIIVL
+AYSNSLTVALICMALSGLGMMAQTSSINIYVQTQSPVHLRSRSISYYLMAYQGMIPVGSL
+IIGYVSHIIGTRETVAIQGIICILSVIVYVYYKKQSPEEEFGTCEVRYKN
+>tr|A0A1S1JB40|A0A1S1JB40_9FLAO
+MNLYSEHYVSEKSERFVTKIWCLDNYGGETTIENKLVLPNGCFNLAIVSGTHIEVHTSKR
+KYEMNEGFYFCSQMTNKVLVNIRPKTKVTIIQFQPWTLSMFPQYDLSHFSDSIIRINPEE
+LPFKIQTDAVTENLLRAINVYFEELSALHSEKNTIEKICEIIRLHNEEISVSEISEILKV
+SQRLLQMKFKTATGLTIKKYIQILKFRKSVDQMVHSNPEKLSLTEVALYNKYFDQSHFIK
+QFKGVMKTTPKTFNSSLYFLSKKR
+>tr|A0A1S1JCS8|A0A1S1JCS8_9FLAO
+MLLKKLALKTIDFRYVLTMCFLFFFNSIISAQEVIKDTVVSKPAITMTAGQKLKVDGIIA
+TVGDYIVLDSDIDKAFLEISAQGGSTKDITRCQMLGKLLEDKLYAHQAIQDSIVVSDAEV
+RSMMDERLNYMVQQVGDINKVVAYYKKNSVEEFKTYFADILKEQKLASEMTKKIVDAVEI
+TPEEVRNFFKKIPKEELPTFGAEMEVAQIVVEPKVSKEDEQKVIDRLNAIRKDVLEGSSF
+ATKAVLYSQDPGSAPTGGFYKMTRKTPFVKEFKDVAFSLAQGEISEPFKTTFGYHIIMVE
+KIKGQEIELRHILIPPTVSENALKEAKERITNVRNKIINKEITFAEAARTESDEKETRAN
+GGTLVNPNTQDTRFELTKMDPTLYGQVSNLKDDEISQPLLNTDDKGKKTYKIITVTNRIE
+QHVADYAKDYTKIKELALKEKQITTISKWFDTKIKDTYIKILGEYRDCKFVYNWLKK
+>tr|A0A1S1J3A0|A0A1S1J3A0_9FLAO
+MNKTRETLSKGYQMEELLRNYFLKSGYYVLRGVPFVYEGFDVTDIDLWLYSRTSSVSREV
+TIVDSKNKKTPQAIERIFWVQGLRIATKATSAIVATTERRPEVKDFGRELGIVVLDGQFL
+QKLFTSESGKSDRISDEDFEGKINEYALNKLDGNWKGRVKHSKSLLATSLSFDSCNEWLM
+HAKFFAEQSITKENQRETALRCLYLICSFIAIGLDYCMKEISFQEPSERSKLIKEGFTYG
+SKGNIGIKKILNVAMGLVEEHTKDGSVIARQVKSNVEKQLATLNTSTLGEYFAKNEVART
+LFIVAREFEQIAMAKEFKGHTDASVELRSMLFCLVDFWGFDRSNFSAKQ
+>tr|A0A1S1J545|A0A1S1J545_9FLAO
+MELILREYNLKLKHTFTISRESIDFQPSLIVELKSDGFSGFGEATSNPYYKTTVPVMIQD
+LEKIRSIIESTTTETPEVFWSKIYPYLKEDMFALCALDMAYNDLYARKKGKKLYESWNYS
+TEKNPLTDYTIGIASIEKMVSKMQELPWPIYKIKLGTKEDIAIVKELRKHTDAIFRIDAN
+CGWDVEETINNAIELKKLGVEFLEQPMKADDWEAHKEVFKHSVLPVIADESCIIEEDVAK
+CFNHFHGVNVKLVKCGGLTPGKRMIEEAKKLGLKTMVGCMTESTVGISAIAHLLPQLDYV
+DMDGALLLAQDIATGVTIKNGVIHYSELNGTGVTLI
+>tr|A0A1S1J3B2|A0A1S1J3B2_9FLAO
+MTTNNKIIALPFAGGNKYSFNNIEKYIPKKIDWITLELPGRGSRFKEKLFDNVDQMVNDL
+FNQIMPHIQEGNYIIYGHSMGTLLGYELAKKITEKRMHKPMALFFTGRGAPGFSRFNNKK
+SILPSSLFWEEVGKIGGLPKEILECNELLDLYYPIMKSDFKAIEDYSYLPMEIPFTFPIH
+ILMGKDEIGFGDEKTPLTGMKDWQNETSNNCTFELLEGDHFFIFKHAESIAKRISQIAIN
+SVVIF
+>tr|A0A1S1J174|A0A1S1J174_9FLAO
+MKKITLLILLFTAHSVMAQDKFFTSTGTINFEASVPFFEDVKAVNRQVTIIVEPKTSTFI
+CTVFIKDFRFKLDLMQEHFNENYMESHRYPKAVFKGKIQKFDLKNIDEIEKEYQIKGKLS
+MKGKSREILVNALIKKVGDGIQIISDFPILISDYNIEIPNRIAAKIAKTVNTELTGVIKS
+DDPVYLTLK
+>tr|A0A1S1J2N6|A0A1S1J2N6_9FLAO
+MIKIIENYFFLFDNEILSLICSLLFWTILPNLDHSALHYAVAKAHSEQQLTILPTKLETE
+A
+>tr|A0A1S1J537|A0A1S1J537_9FLAO
+MKKSLKYIDGNSDKFWEINVTGFEFTVTYGKNGTSGTSQTKSFSTDEECLRNAEKLVSEK
+LKKGYSENGEVSIASKPKTGKAANSAAVLEEYDAIIKAKDIHLMLPFLKENAKGNVEALK
+KHIKKNKKYWTQYIDLSKEPEFLKKNKTGNNWGSSWGTRGDQKQKEMITLSAIALFDKAD
+INSWDEVLQLLDEADQKSYVLDTLLWAKPNWLETFILDKVKRQDWVSVNYHILRKFEEEG
+LLQFNPELYALSLAATNEWRAKTKIRKFINTLVNDTKGYQRDIPELFNYETILHNSFFRD
+NDNQSYDEFQTWSIVYKTLLDEKKMDRSFFIENAIQIQTKEWNNNLKSFFRKRIEEFNAT
+EEELIVFQENIFSFLHNAYPPITSYGIELVKKIYSHPKFKAKSFLEWLEPLMMRGDCKAA
+IKNALPILEKISKANPKLNNQIASILADVYVISDLTLQEKVSKIILKIGSSKDKVLKEKL
+STYVTLMQGNIKSGLSQFLDEDVLMADDAGFEEYQFQPQKELVLTEEVQLPKDWNEILFQ
+FGNFIASEEVLDTEILMNTYIQQRDLFPADYSAQLQPYQKQLNKFYFESVHKNYMKSFLS
+QKIENINNKLSTRDSHYLKINTLVLIRPLLEKVQQKIESNSKLPLLSFPSHKPYWVAPKV
+LLERVIAYQKANEEIDSLDLAIAIARMPRENTHEALPLLSEIEGELKALLSYCLGAEDKL
+TIDSGSLVSKLLATLGKTTKESGILSLWAVAARTFYPDHTFSEFENTYLKQVPFVVSPFQ
+TEFSFKEKWNEWNNYKTHEKERSPSWYELRFELPQYIKTPNYLLYSLDIYKRSNSWDYNI
+NYGGNTFYWHSLTPQNPDALVMTLLNNCVVPDGSKPELKGFLDVLNRPEMRFSDNVLLLF
+ALCFFQEKKDLRLLASETLMNLIEKQTIDIEKFAEKAAFAATGKYGAFSRLTDGIIALKD
+ISPIHNSALLQFFNTFFACLEVSEKLPTNFKKMVENYVDVLIKTNQKPSESVIAFFEQWK
+DNASLKSLIKQILK
+>tr|A0A1S1JAC4|A0A1S1JAC4_9FLAO
+MKIIVPMAGRGSRLRPHTLTVPKPLIPVAGKSIVHRLVEDIAKILKEPIEEVAFILGDAA
+FFGDDLVASLEELAGSLGAKASIYRQDLPLGTGHAIMCAKESLSGPAVIAYADTLIRADF
+ELDPAADAVIWVKQVDQPEAFGVVKLNANNEIIELVEKPKEFVSDLAVIGIYYFKEVGDL
+KKELQGVLDNNIQNGGEYQINDGIKAMMANGKVFKTGSVDEWMDCGNKDVTVETNSRMLG
+FLHNDGEHLVDYDVKLENSTIIPPCYIGENVVLKNTTVGPNVSIGKGCHVTDSTISNSLI
+QTYSQIKNAQLDNAMIGNHVVYDGKFSSVSIGDYSVLE
+>tr|A0A1S1J0C0|A0A1S1J0C0_9FLAO
+MQKLTNKEEEIMHILWKLQKAFVKEIQAEITEDQPHYNTLSTIVRNLEEKGYVSHSAFGN
+THQYYPLVSIEEYRKGFMHTAIDNYFNSSYKSMVSFFAKEEKISAAELREILVMIETP
+>tr|A0A1S1J5B2|A0A1S1J5B2_9FLAO
+MDTIKTSTRYRVRDDYATATPVHVVWEITLACNLKCSHCGSRAGKVRPGELTTEQCFGVI
+DSLKRLGTREISIIGGEAFLRKDWIEIIERIHQSGIECSMQSGAYNLNEERIIAAKKAGI
+NNIGVSIDGMPDTHNKIRGRRDSFEHAVNCLGLLKKHNITSSVNTVITKRSKNEMNELLD
+VLIENNVKNWQIQLAVAMGNAVDNADELIVQPYELIDFYDELIVIYRKALAHNILIQAGN
+NIGYFGPYEHIWRQGNEKYYTGCSAGHTGIGIEADGKIKGCPSLPTSAYTGGNVKDMALE
+DIWKYSEEMVFSRYRNKEELWGGCKGCYYESSCLAGCTWTSHVLFGKRGNNPFCHHRALE
+LKKKGLKERVRKIQEAPGDSFDMGLFEIIVEDENGVIVEIQSPHSETPVPVVDVTARVPR
+IPKALKLCNGCDNYVYEEEEVCSFCNSNVKEVNDEYAAKMEKAKRSLEKLEFLMMK
+>tr|A0A1S1J6J4|A0A1S1J6J4_9FLAO
+MKKIISLVLLLFIVSACSEDIKFNNPAFQSLKENVFWRATTYNAYNSVSGGIVIEGDLGF
+EKVVLKVPNTGVQTYALGRDNITTANYSNTQPSQSYSFSTGTDRGDGLIVITEFNAENKT
+ISGTFKFNALNEDKKDTEKPKISFTEGVFYKIPISATFEN
+>tr|A0A1S1JA05|A0A1S1JA05_9FLAO
+MSKNLTTRSEDYSKWYNELVVKADLAENSGVRGCMVIKPYGYAIWEKMQAELDRMFKETG
+HQNAYFPLFVPKSMFEAEEKNAEGFAKECAIVTHYRLKNDPEKPGKLIVDPNAKLEEELI
+VRPTSEAIIWSTYKGWVQSYRDLPLLINQWANVVRWEMRTRLFLRTAEFLWQEGHTAHAT
+KAEALEESEKMMHVYADFAENFMAIPVVKGLKTETERFAGADETYCIEALMQDGKALQAG
+TSHFLGQNFAKAFDVKFANAEGKQEHVWGTSWGVSTRLMGALIMTHSDDQGLVLPPNLAP
+IQVVIVPIYKTDEQLAEITVAVNELTAKLRKLKISVKYDDRTTQKPGFKFAEWELKGVPV
+RIAVGPKDLENGTFEVARRDTLTKEVVSNDGIVNYVNDLLEQIQVDLFNRALNYRDTHIT
+EVNSFEEFKEILDGKGGFVSAHWDGTAATEEKIKDLTKATIRCIPLDAVEEAGTCVFTGN
+PSSKRVLFAKAY
+>tr|A0A1S1J589|A0A1S1J589_9FLAO
+MKTTTLLKISLRQNAIFIPSEMITNDVKNLSGTTSVLLANVSKLGFTFSESLLHALNNVS
+PTYKVEVLEVLREVLGTDKNWTPLVKEWNVPTGESVLDHVITYFGNVFKTKNGTTLSCGH
+IIPDNTFPLERYNGCPFCGTPFEFGKIEKVGQGSKLKMLELWSEKDLNDFYISLLQSKTA
+LDATQTDTLKMVMQYLSLPKTEVAMKETLMLVIDLLIENGKEDQASQFLKTPTDILRYLW
+FKNTGMLQIIEPKTIVKRAAKNGQHFHTVLDTSVQARMASQKDLKLKYSRKECLMVANWL
+NNMDMEVEAMCETMHPKRGMWVRFIRALRLAEYSKRKGFEKLNFLMDVFYNQVYDVWQGK
+VNSSRLKFDADKTFALLKQRPGLFARSLFSNMLWFGADETIAHFSEIIDKVPARLIFTLN
+MYASNYFDKNIQRSVKPLGGTNKRVNPNALLNLYDESQLEEMKNQIEDLCLLAMRKRFAA
+VKNTNKTIYIDPQLFNIPVSIGDRSDTVQDLPVALMGTRFPVEGNEVRLFMQWGAGLPAQ
+HLDMDLSCHIAYEDRSDICSFSRLTTTGCQHSGDIRSIPNKIGTAEYININIDELAKAKA
+KFVTFTCNAYSNGSITPNLIVGWMNSKHPMKISEKTGVAYDPSCVDHQVRVTQNVAKGLV
+FGVLDVAKREIVWLEMTFGGQVVQGLDFKGVQALLAKLNSKLNIGSLLQLKAEAQGLTIT
+EDQNADEVYTAQWAMNPAVVTQLLID
+>tr|A0A1S1J7A7|A0A1S1J7A7_9FLAO
+MKKHFLTSLALFSFILTANAQWSGTTFIYTDLSVGIGTSSVTSPLTISKPTWNLIPTVEI
+KHISGNFGCDGCLNVAQKISVLDDQGINKSNIGLWVTAKNAANNYAAIFENGYVGIGTTT
+PTAKLHINNGANTDAAVLATSSEDNKLVVSSGVTQPINVPTFTITQEFANNRNNGYISFH
+RGHSVHGGFLTFGASGKERLRIDSDGNIGIGIASPLYKLDVCGTIRAREVKVDLQGTCIP
+DFVFKKEYKLMTLNELEKFVTTNHHLPEIAPEKEMLENGLNMKDFQMKLLQKMEEMTLYI
+IDQNKKNEKQEQEIKLLKAEIKKIKSAKK
+>tr|A0A1S1J9E6|A0A1S1J9E6_9FLAO
+MKKIVFLALIMLASLSIQAQTSKELIGKWQLVKLNKNGTEKDIKEKFKSDQVFQIFNEDG
+KFTGIVGDKSTNGKWKLSKDNNTLTVTVDLIPVKFQIDYFDSQKRVITHDQLGTLEYKKV
+DN
+>tr|A0A1S1JAY8|A0A1S1JAY8_9FLAO
+MILEAAIGDAYGAGFEFRDLDFISQNNHLTQYHKHGLYTEIYKRYTDDTQMAIAISELLL
+EEDNWNEIKVADKFVEVFHRDKRRGYSDRVYNALDASRNGSDFIKIINNGSNGNGSAMRA
+YSIGYLKDIEQLMSFCEIQARTSHYTVEGISCAKRIALAVHYFKYNLGDGSSLVSFLNET
+LKENETYKITSPIDMHGYPTTQAVIKIVSEATSMKDCLKTSIDYGGDTDTVAALCMAILS
+NKENCDKTLPAFLYEGLENDTFGKDFLIKLDAALDNKFN
+>tr|A0A1S1JAV5|A0A1S1JAV5_9FLAO
+MIQNPKRYTITAALPYTNGPIHIGHLAGVYVPADIYSRYLRLQGKDVAFICGSDEHGVAI
+SMKAKKEGVTPQEVIDKYDGIIRKSFADFGISFDNYSRTSAKIHHDTASEFFRTLYDKGD
+FIEEVTEQLYDAKANQFLADRFVVGTCPKCDNPEAYGDQCEKCGSTLNATDLINPKSTIT
+GETPILKETKHWFLPLDRYTEFLTEWILVGHKNDWKPNVYGQVKSWVDGGLEPRAVTRDL
+DWGIDVPVEGAEGKKLYVWFDAPIGYISSTKEWAAREGKDWQPYWKDEDTKLVHFIGKDN
+IVFHCIIFPAMLKAEGSYILPDNVPANEFLNLEGNKLSTSKNWAVWLHEYLEEFPEKQDV
+LRYALTSNAPETKDNDFTWKDFQARNNNELVAIFGNFINRVVVLTNKYYDGFIPKPNELS
+EVDENTLAELKAYPAVISSSVERYRFREALGELMNVARLGNKYLADEEPWKVMKDNPERV
+KTQMYVALQIAAALSVLAEPFLPFTAAKLSRILKNEGKLQWNDVTENSELIPDGHQIGEA
+ELLFAKIEDEEIQKQIDKLEATKTANLAESKQPEPQKDLIQFEDFAKMDIRVGTILEAEK
+MPKANKLLVLKVDTGIDVRTIVSGIAESFSPEEIIGKRVSVLANLAPRALRGVESQGMIL
+MTTNAEGKLVFINPDADAPNGETVN
+>tr|A0A1S1J738|A0A1S1J738_9FLAO
+MHNNLVILAGGASSRMKKEAISNNLSAEEIAQANERSKGLIGVGASGRPLLDYLLLNAKK
+AGYKNIYIIIGEQGELFKEFYGSQNTDNDFHGLTISFAVQYIPEGRVKPFGTADALFQAV
+EQFPELNTQQYSVCNSDNLYSAAALLALRETNSPNAFIAYDRDALEFPSERISRFAIAKL
+DQNNQLLDILEKPSADVLADYKDVEGKIRVSMNAFKFNGSTLYTHLKNCPVHPERDEKEL
+PTVLLNAVKENPNTTIGIPFSEHVPDLTAKEDIADVKEYLKQYYPVLDWSI
+>tr|A0A1S1J0M7|A0A1S1J0M7_9FLAO
+MKNALFALFLLAGISTQAQDKKTNEKPVIVETACGECQFGMKGKSCDLAVRIDGKTYFVD
+GTTIDEHGDAHAEDGFCNAVRKASVIGKIENDRFKASSFTLIKEK
+>tr|A0A1S1J2B0|A0A1S1J2B0_9FLAO
+MDKQSGYTWKLGMFVAIGLLLFIMAIYFIGKQKNLFGSTFHISSRFKTVSGLEVGNNVRF
+SGINIGTVEEIRLINDSSVVVVMVIKDDVRKFIKTDARASIGSDGLMGDKVLTISPGVKS
+QKAIENNGAIASIDGIEMQDIMKSVKKSVDNVGVISDELATFSHSMNNGNGALARLVRDD
+KMANSVSNTLSNLESGTKGFSDNMEAAKNNFLLRGYFRKKEKEKEKQKEEAKEKKEEQQE
+KINKEKEEKAKEEKQKQEKQKEEDAKKASSGKEKS
+>tr|A0A1S1J6A6|A0A1S1J6A6_9FLAO
+MTTKEQIIEKLKNWLEKTKISYDKDIGINCWNKEFKKLRDGNDKEIYIVDFQTEDKIEYD
+ENGEIISLFEGMSCFAYFDAETLELLYIMKKAGYIEADGSY
+>tr|A0A1S1J851|A0A1S1J851_9FLAO
+MKSIFIYALVLLCMCSVSAQSLTQVSGTITGEDPNEKLAYASVIIKKDASIVETVITNDK
+GDFKVEGMKIGKYTVEFQFLSFETTTMALDVDGSKSHINLGTIKLKSNVTSLNEVVVTAE
+TSQLALKLDKKVFDVGKDLISKGGSATQVLDNVPSVRVDPSGSVSLRGNNNVLILINGRK
+SGLTSIQGLEQIPAESIKSIELITNPSSRYDAAGSAGIINIILKKNNKQDLSGSMTLSTG
+TPADHRILGSLNYKKGKFNLFSNFGVRYSDYVGLNTRDQVTTADGKNLFLSQREDQDRHD
+DGGLVYLGLDYAINDDNSITAAFYRNQTKDKDTNTFNYYLSGDGVGNSHIQTIADSQEKR
+SYNQLEFNYTKTFKKPGRKFTIDAQYDFWNSTKDFNIERRTITPNNGDRSLIDTKSNRGN
+DDIVVQSDFVTPLSETANLEAGVKVEHRLITTDFAADEEVNGTLKPIDGFNNGLDYKEQI
+LGAYVQYGNKINKFSYQLGLRTEYTSIEIKDQNTRNILIDSTYTRLFPSVNLSYALSDKT
+TAQLNYSQRINRPNLFQLNPFPELQDFNSRIFGNIRLVPSITDGIELGLLSKTKKWVLNP
+SVYYSKTQNNFQYFTSQNSDDVFETVLINLDEESRFGVELSAQYAPAKWLSLNAVINAYS
+FDQKGSVGTTNLDYSNETWTATLLGQVKFPKNFTLQSKFEYQAPVSDAQTRTKSFYYLNM
+ALGKSLFNNNGTLTLGVSNIFNTRKTRETTIGSDFVVNQMTNFNAARWNLNFNYRFNKAK
+SRKEHKSNRE
+>tr|A0A1S1JB37|A0A1S1JB37_9FLAO
+MYKPNKTRLEPSKRPLLYGVKRKLILIMTAFMLGMANGMHSEDSQLKGNQNYTEQHKKD
+>tr|A0A1S1JC62|A0A1S1JC62_9FLAO
+MSTKSILNDTSIAFLESYLNNASPTGYESEGQKLWMNYLKPYVDTFITDTYGTAVGVINP
+DAPFKVVIEGHADEISWYVNYITDDGLLYVIRNGGSDHLIAPSKRVHIHTKKGIVKGVFG
+WPAIHTRLRDKEETPKISNIFIDLGCETKEQVEALGVHVGCVITYPDEFMILNENKFVCR
+AIDNRMGGFMIAEVARLLKENNKTLPFGLYIVNSVQEEIGLRGAEMIAQTIKPNVAIVTD
+VCHDTTTPMIDKKVEGDLKMGKGPVIAYAPAVQNKLRDLIVDTAEEKKIPFQRHATSRAT
+GTDTDAFAYSNGGVASALISLPLRYMHTTVEMVQREDVENVIQLIYESLLKIENNETFSY
+FN
+>tr|A0A1S1J505|A0A1S1J505_9FLAO
+MELESLKLDKFKDCTLKREQLFVLDGGGIRTDSGTICGPHAGYQKKKYDYGYDINRGGEG
+NITFHDRSNVRECDAALTKNAEEFYALP
+>tr|A0A1S1J6X4|A0A1S1J6X4_9FLAO
+MSDIASRVKAIIVDKLGVDENEVVTEASFTNDLGADSLDTVELIMEFEKEFDIQIPDDQA
+ENIATVGQAISYIEEAKK
+>tr|A0A1S1J5R0|A0A1S1J5R0_9FLAO
+MQDKLILALDQGTTSSRAIVFNHKGEIVSISQKPFKQIFPKPGWVEHDPNEIWSSQVSVA
+AEVIAKVGITGREIAAIGITNQRETTIVWDRETSEPVYKAIVWQDRRTAKYCDELKAKGH
+TEMIQKKTGLILDAYFSGTKVKWILDNVPGAREKAEQGKLCFGTVDTWLIWKLTRSKLFM
+TDVSNASRTLLFNINTLDWDDELLALFDIPRAMLPEVKESSAIYGETSTTLFSTKIPISG
+VAGDQQAALFGQLCTNSGMIKNTYGTGCFMLMNTGEKPIFSAHNLLTTIAWKINGKTTYA
+LEGSVFVGGAAVQWLRDGAKIINSSDEIEALAATVPDNGGIYFVPALTGLGAPHWDQYAR
+GAIVGITRGTTNAHIARATLEGIAYQVNDLLKAMEADSGYKGIELRVDGGAAANNLLMQF
+QSDIFGSNVTRPTTLETTALGAAYLAGLAVGYWSGLDDLKEQWSIDQVFSPKMDQEKVDL
+LVKNWDRAVGRASHWIEE
+>tr|A0A1S1J2S9|A0A1S1J2S9_9FLAO
+MKRANYLFLISLLLVCVSVSPQSNAKETAFYEDQYKNLQVGFSKTTSIIFPYTIKSIDKG
+SAEVLVQKAKGVENILLVKAAKQHFFQTNLTVVTSDGKLYVFVLNYDDSCPDLNFKAENA
+VAASRDVLFSLENENQKRIEQCAWSAYSKKKKISGLKKSKYQIRLEVNGIFIQQDVLYLR
+VVFENKSKINYDIDQFRFFIRDKRKSKRTASQEIELEPLYATSSSSVIPYKSEIIKVYAL
+EKFTIPENKYLTIQMIEKNGGRNLELDINNNLTNLVFPISELSSDTF
+>tr|A0A1S1J472|A0A1S1J472_9FLAO
+MDLFGETTNWKTKLEPILSKYKGRKHPLDYQNTYQLLVMVVLSAQDSDANINKIAPALFE
+KYPTLKSLSQTDAETFIPYISKVRNYPTKAQWLLEIAKTVQNDEDIPLTMKELTALKGIG
+RKSANVILRETHQPAEGIIADLHVIRVAPRIGIIKESKDGIKTEKDLMQVLPKTIWSEIG
+MAISFLGRETCRPKPKCDECTIADSCHYFATEIA
+>tr|A0A1S1JBW2|A0A1S1JBW2_9FLAO
+MKINPSIFPLKVFLIGILLFHFQTGFSQEEKNSELYKIIMSRDSLLFNVGFNTCDISQFE
+NLYSDSFEFYHDKDGPSDKALFLVNLKKGLCKSVETYKARRYLVPGSTEVYPLYQKGVLY
+GAIQMGIHQFYEKSAGKNESLADVKEKFGSTARFTHLWILENGTWKLKRSLSYDHQETNT
+AGTQSDIFDNDAAIKKWLVQNNVPALGIGMINDGKLQEVKVFGDLKKGVTAPYNTIWNVA
+SLTKPITAIVTLKLVSSGKWDLDEPLYKYWTDPDIANDPNIKLLTTRIVLSHQTGFPNWR
+YMNKSGKLDFKFKPGTKYQYSGEGMEYLRKALEKKFHKSLDQLADELIFKPLKINDTKFT
+WGAITDVSRYATGYDNKGNAYEPTKNKTASAADDLLTTLEDYGTFLCSVMNSDGLSKKVY
+EDMTAHQVQTKKNKYFGLGFEIYDLGNDDFALSHGGADNGVQTIFLLLPKTKQGLIIFTN
+VDEGYKVYEKILTHYMGEKGKKIIEIETK
+>tr|A0A1S1JCA5|A0A1S1JCA5_9FLAO
+MDKITFLNPEFFWLFLLIPIAIAWFFWKRNQQSATLKMSSTQGFKNSESLLTKLKPCLYV
+FRIIALSSLIIALARPRTVDISNQTKTTKGIDIVMAIDVSGSMLAKDLKPNRMEALKRVA
+ADFVGERPNDRIGLVLYASEAYTKTPVTSDKAIILEAIKGIKYDTVLQDGTGIGMGLATA
+VNRLKDSKAKSRVIILMTDGVNNAGFIEPETASDIAKQYGIKVYTIGIGTNGMAPSPYAY
+APNGGFLFKMQKVEIDEQLMKSIARKTDGTYFRATSNDRLAEIYSAINKLETTEIQELKF
+YDYDEKYRVFVLLAAFLLVLEVGLRNTVYRSFI
+>tr|A0A1S1JF26|A0A1S1JF26_9FLAO
+MSNIRITKQFSFETGHALYGYDGKCKNVHGHSYKLSVTVIGSPITDRSNVKFGMVIDFSD
+LKKIVKEEIVDQFDHATVFNQTTPHIELANELKNRGHHVILVDYQPTSENMVVDFADRII
+ARLPKEISLFSLKLQETESSFAEWYASDN
+>tr|A0A1S1J3L9|A0A1S1J3L9_9FLAO
+MKIKNPYKDKKWFKLLGNKYVWVLLFFVIWMLFLDNYSYFDHRFLDNQIHELQDNKKYYQ
+DEIKKDQEQIKQLKNPEQIEKYAREKYFMKKDSEDIYIIHFEGDTIQDKE
+>tr|A0A1S1J1C5|A0A1S1J1C5_9FLAO
+MAKKSTIQTEKVNAHIVEWLKNYATRAKVNGFVIGISGGVDSAVTSTLCAQTGLTVLCVE
+MPIHQAANQVSRGREHIEQLKKRFPNVSSVETDLTATFEAFKSAVPQTDDEAKVNLSLAN
+TRARLRMTSLYYLAGIHGLLVAGTGNKVEDFGVGFYTKYGDGGVDLSPIADLMKSDVYAL
+GAFLTIPESILSAAPTDGLFGDNRTDEDQLGASYDELEWAMLASESGNTGADFSEREKIV
+FEIYKRLNTSNKHKMDPIPVCIIPKTLK
+>tr|A0A1S1J4I3|A0A1S1J4I3_9FLAO
+MDGKLKIKISVADRVYPLTVEPAQEEGLRSASKKIDAMIKQFEESYAVRDKQDVLAMCAL
+QFASQVEQKQIDNAIDGEETIERIKRLNALLDQYLEN
+>tr|A0A1S1J6J3|A0A1S1J6J3_9FLAO
+MENRKKVAFYTLGCKLNFSETSTIARNFNDEGFDRVDFEEIADIYVINTCSVTENADKQF
+KQVVKKAMKLNEKAFVAAVGCYAQLKPEELAAVDGVDLVLGATEKFKITDYIHDLSKNDM
+GEVHSCEIAEADFYVGSYSIGDRTRAFLKVQDGCDYKCTYCTIPLARGISRSDALENVLK
+NAKEISAQNIKEIVLTGVNIGDYGKGEFGNKKHEHTFLDLVQALDEVDGIERLRISSIEP
+NLLKNETIEFVSKSRTFVPHFHIPLQSGSNDILKLMKRRYLREVYTERVHKIREVMPHAC
+IGVDVIVGFPGETDEHFLETYHFLNEMDISYLHVFTYSERDNTEAANMPGIVPANVRAKR
+SKMLRGLSVKKRRAFYESQLGSNRTVLFEGENKEGYIHGFTENYVKVKTPWNPELVNTLQ
+EINLTKIDEDGSVRLEFLNKLAEA
+>tr|A0A1S1J7K3|A0A1S1J7K3_9FLAO
+MKLTKPRLALIGGILCISIFPILVKLKLAPGLISAFYRMFFAVLLLLPYVLVTKSFKLPK
+TKFILLAVLCGILFSSDVAVWNIAIQDSSATQASLLTNLSPLWVGIGSFFFLKIRPATNF
+WIGTVVSLFGMVTLVGFEFFMDLNFDQAFLFAVLSGILYSIYLLVSKNALSEIDVLSFMT
+ISLLASSIYLGILCYALDQPFAGFSNTGWFVLALQAVICQLCAWLSISYATQHMRATRVS
+LSLLSQAVITSILAWLFLEEQITLQMVFGGIILLLGIRITFYDKTISLKKLF
+>tr|A0A1S1J875|A0A1S1J875_9FLAO
+MGKIGGFKEYNRADESNIAVAERVTNYNEFTIPLAKDKIKEQGSRCMDCGIPFCHSSCPL
+GNLIPDFNDMVHQEKWQSALEILQSTNNFPEFTGRLCPAPCEKSCVLGIIKEPVAIENIE
+KNIIERGFAEGWIKPQAPKTRTGKTVAVIGSGPAGLAAAQQLNRAGHTVTVFERDNAIGG
+LLRYGIPNFKLEKGIIDRRVAILEAEGITFKTNVNVGVNYSVAELNSFDSIVLCGGATER
+RSLPTKGIESKGVVQAMDFLTQQTKVLFGESIHDQVMATGKDVIVIGGGDTGSDCIGTSN
+RHGAKSVTNFEILPKPPVGRSETTPWPFWPLQLKTSSSHEEGCDRNWLINTKEFLSNDKG
+ELVGLKTVEVQWKMTPGQRPELIEKEGSEKIWPCDLALLALGFTGPEKTLSEQLGLEIDM
+RNNYKAKNYQTNVPHIFTAGDMRRGQSLIVWAISEGREAAREVDLFLMGSTNLPTKGNGD
+LPSL
+>tr|A0A1S1J934|A0A1S1J934_9FLAO
+MTTKIKIPFFWSKIRKNVLLTALILQFLACAKNETFKIEAFKTTSGWGYSIATKNKIIIK
+QAIIPVINDSKSFASESDALKVAHLVVTRLDQNRSPTVTKNDLILLKIKL
+>tr|A0A1S1J6A4|A0A1S1J6A4_9FLAO
+MKKTLLWITFLWSVATFAQTQTVSYSVSPSTFEETTPITITINGTSVDENSWGITDHSLY
+MWAWAFDTNDTTQKGSPDNGSWDASSEASKFTYNSGTDTYTKTITPTVYYNTTGIGRIGF
+LVKAKNGNGDKKSQDILVEVGSFQVSLTSPAENSTTIIVSGANFNIVATNTNGAASYLLK
+SNGATINTNTSTISYSYSHSNITSNQSYELSVTQGATTIVKKFSVVVNPNTVLETMPAGL
+TDGINYNLADATKATLVLDAPLKDFVYVAGSFNNWQPSSAYAMKKDPASGKFWLELTGLV
+SGANNTYQYWVVDTTPLANSPSMVKTADPYSTLVLSPYDDPSIPSASYANMPVYPTGQNF
+EVTVLKTGQTPYNWQVTNFVKPEKEKLVVYEVLVRDFDAARNYQRLIDRIDYFKNLKINA
+IELMPVMEFEGNESWGYNTSFHMALDKFYGTSDKLKEFIDLCHQNGIAVILDVALNHAFG
+RNPMVRMWMNDPDGDGFGSPTAENPYFNTVAKHAYNVGEDFNHQSLKTQNYVDRVIKQWI
+EEYKIDGFRWDLTKGFTQNCTASDGACTDAYQQDRVDVLKKYADYSWSLDPTHYTIFEHL
+GSDTEEKEWANYRIAETPSKGVMMWGKMTGPYNQLSMGYANESNISRMSSESHGFTANRL
+MGYAESHDEERLMYKNIQYGNSTVGYNVKTLDTALSRMSAIGAVSLLVPGPKMIWHFGEL
+GWENSIFTCNDNSVNNDFDGVAGDCKLDTKPQPQWVNNWLGNSARSKIYTDWAKMITLKI
+KEPVFLGTPVIANTNSLSVNIKITNSALSSTQLKDVLIVANFDITAQNVPTGFQYAGTWY
+NLMDNTTINVTDVNTPLNLPAGEYRIYGNKAANLAITDFEKGSAVHLYPNPVTDYFTLNV
+PVSKVQVYAVSGQLVKSFNPKGNRDSQFAVNDLKAGLYLVKAVDENGHTQVMKFVKK
+>tr|A0A1S1J1T5|A0A1S1J1T5_9FLAO
+MKQKIFLLFLLFSTLNNYAQLSDSEYQDRCDKEFQSLCNLLPKGQEESWIIKARNIDIEY
+IKIGKEKQKEEEVYKKLNAEAIYAVQYLNSINNFLLPAKTKLVNSLADKIVKIKIGSSIE
+SKIDSLDRVFNDYANTNKAKNFEKAYDKFLSEKSKYLKIKSERDTLFYTVYEVKSNVYSD
+PDSKDIYAVFNWKVRIEKLNKLKTDFDNISEEVKSKQFLVVKDPNPIVPLLFQFCTLLVV
+ISGVFVNFAFEKKRHKIVLILVLSSLITAIILLFVSDNTFLNTAVNILVPGIGYIIFYYK
+KKRS
+>tr|A0A1S1J8A8|A0A1S1J8A8_9FLAO
+MISIDPKEIPTAKLQGYLQSAVGPRPIAFASTISAKGIPNLSPFSFFNVFSANPPILVFS
+PARRVRDNTIKHTLINAEETREVVINVVNYDLVQQTSLASTEYGDGVNEFIKAGLTQVPS
+DFVKPYRVKESPVQFECKVTQIIPLGDQGGAGNLILCEVVKLHISEAILDENGAIDQHKI
+DLVSRLGSNWYSRSNQGLFEVPKPLTTLGVGVDVIPDFIKESPVFDGNDLGKLGNIEALP
+TTEEVSIFVKENFSVKGVLSSDDLEKVHLEAKKYLNKDDISSAWKVLLAKQ
+>tr|A0A1S1J9J8|A0A1S1J9J8_9FLAO
+MQFKRFFLTVILMIICTAVYAQNNGNASFTGYILDDNNQPVAGAEIQLQNTAVVVKSNSS
+GKFVFQNIASGKYQLVVSMTGYQIREMAVVVGQNQKEEIVIALKSNSVVLNSVDLFGKTI
+ETKIKEQPFAVSVISTKKLAERDVDLNRLMDGVSGIRVQESGGMGSETNYSINGLSGKAV
+KFFVDGIPMENFGSSFSINNFSINTLERIEIYKGVTPVSFGADALGGSVNLVTRSRLKNY
+IDVSQTVGSFNTYRTAVSGKWRNESGFTLQTNSFFNYSDNNYPVWGPTVEVAGENGRPIP
+GYPRFRRFNDDYKSYTMRADIGFTNVKWADALLLGFTLADQDRGIQTGRTMAYVYGDVRY
+NEKFVMPSLRYSKKGFLFSNLDVDLYASINKLRGTTTDTSSYKYNWTGKPIGTVDGELGG
+IRSGKSIYSFQDRTQLARINFVYHLKENQEVNLNYVFTGTRRKGSDAIAEADWTIPLRQP
+QDLNKHIAGLSYEISSFEDRWKNIFFTKYFAYEANAVVFDYNGGSSKETFYQNTKDNAWA
+FGYTSKWLLPKDYTIKFSAENTARLPEAIELLGNGNTIVNAPDLQPERSFNVNASLQKTI
+RNTVQNVNFGLNVFFRDTKNLIWLTEGDLMGTARYENLGKIRTLGVEVEANYARKQWLET
+SFNFTYQDIRNMQRFEGNGAPNHVYRDRLRNTPYVMANAEARLFLDEMFQMKPKISFFVS
+THYVHQYYLGWPSLGEAREKMYIPTQFVQDAGFGYTFGNGRYSANFACRNILDKQVYDNY
+LLQKPGRFFSLKLRYFLQ
+>tr|A0A1S1JBM3|A0A1S1JBM3_9FLAO
+MDQDIILDKLKKAKQELIFNHEELQRCTKDLKIANVNLNIREKEKELNMEEFNSGLEQMM
+FAISHKVRKSVANILGLSKLLCEDVNLGNNELKEILLLIIQSAESLNASTEELSKFICIK
+RRTDI
+>tr|A0A1S1J256|A0A1S1J256_9FLAO
+MSIASNLNTIKAGLPENVTLVAVSKTKPVPDLMQAYDAGQRIFGENKIQEMTEKWEQMPK
+DIQWHMIGHVQSNKVKFMAPFVSLIHGVDSLKLLQEINKQALKNNRIIDCLLQIYIAEEE
+SKFGLDENELNELLSSPEFKVLKNIRILGLMGMATFTEDQSQIKKEFTHLKSIFDSIKEL
+NKENCNLTTVSMGMSGDYQLAIECGSTMVRIGSSIFGGR
+>tr|A0A1S1J3T4|A0A1S1J3T4_9FLAO
+MKRKFYIPIAIIMLLYCCQKKDWIDPNENEIEIDSAEMPGINDNLLRKWFALNKESDSII
+KSAQLIIDKQREEVESHPQDEREYMTVCIDDAQRELDLLKKKVKFTKVFAGDIKHYDLSL
+QHTIDSLEEDYVREKYKLEDVLKELK
+>tr|A0A1S1J5U3|A0A1S1J5U3_9FLAO
+MKHYLFIVVCLLNSFLYSQSKKSTDSVSYYNKLTDTNLSNKKYEKAIYYTEKSIDFCEAN
+NKLENLANQTFKLGKIYYQQKNYAEALKNFHKSVALFENTKPTCTKVLALHYIGLTNTTK
+SNYETAAIYYRKAEELLNQLKIKDHAEILNYQKAIALKTAKNLPLAAETFHKITQRPDNT
+EILKTKTDSYYQLGLIETQLKRNDSAIVYFENALNYNAKINNLAQKSKIVLAISQYYRQN
+KKFDLAYSYLEEHYQLENYVLKLKNTQTDHDEFEKFKKNESLKASIKKESEEKIQLKTYR
+YSKLVSILAIALISILSLLSLALYKNNIIRNQNNLLLREKNKELILAKNKAEKASKARSE
+FLSTVSHELRTPLNAINGITHLLLEDNPKKKQLKYLESLKFSGNYLTTFINEILEINKID
+STKVEIENISFNLKELLFNIQSSLKELATANKNYFNLEIDEAIPDNIIGDPTKLSQIILN
+LINNALKFTQNGHVSVIAKLYELEEDNTTIYFEIVDTGIGIPEDKLQTVFESFSQGSIEV
+NRKYGGTGLGLTIVKKLIELLGGEIKLKSEVGKGSTFTFKLNFKINKEQLKTIEEIKPYN
+DVQLNNKSILLIEDNKINQMITRKMLENKNISCEIIDNGEDAVELLKVKRFDMILMDVHL
+PGINGTTATKLIREFDKTTPIIALTAISLDENRDMLLSYGMNDVITKPFVPDEFYSIIAR
+FF
+>tr|A0A1S1J609|A0A1S1J609_9FLAO
+MKILKFGGKSLSNGEGLNKVVSIITDKVQQNEKIAVVVSARGNATDELEYILKIAAKNGN
+YKPLFENFKAYQISDYPQVDLSEEFNVLEKLFEGVSLIGDYSNKIKDQILSKGELLSAKL
+LTAILIGKGVPANFVDSRELLKTDSKFGDAQPLEQLSKKNVINYFKEHNGSTVNIVTGFI
+GSNNNNDTTTLGRNGSNYTASLIANYLNAEELQNFTHVDGIYTANPDLVADAKKIEFLSF
+NEANELANFGATILHAKTIIPLLEKNIPLRILNTFNHENRGTLITSDSAKEGIKTLSVLE
+NVSLVNLEGRGLLGKAGVDARIFKVMGDHNISVSIISQGSSERGIGLVVATDKATLAMVE
+LEKEFENDFYSKDVNQITVTDNVSVISIIGQDLSTFHKPYTALIKNKIVPILFNNTVTGK
+NVSLVVKKSELHKALNVIHGEIFGVSKKINIAIIGHGLVGGTLINQILESTDAIEKRKDV
+RLNVFAIANSKKVLLDKNGVSSNWKTDIEKEGLAYTIQDIIAYANQHHLENLIAIDNTAS
+AKFVENYIPLVESSFDLISSNKVANTLSYGFYKELRKSLAENQKNYLYETNVGAGLPLID
+TIKLLHLSGENITKIKGVFSGTLSYLFNNFSAKDVPFSKILQEAIDNGYTEPDPREDLCG
+NDVGRKLLILARELDLQNEFEEISIQNLIPEHLREGNVGDFLTKLKEFDPIYEKIKADQK
+PNHVLRYIGELSGDLQNDKGILEVKLVSVPSDTALGGLKGSDSFFEIYTESYGDRPIVIQ
+GAGAGSAVTARGVFGDILRLSDKG
+>tr|A0A1S1J662|A0A1S1J662_9FLAO
+MKNTLIAPSVLAADFANLQRDIEMINNSQADWFHIDIMDGVFVPNISFGMPVLEAISRHA
+KKTIDVHLMIVDPDRYIKTFADLGANILSVHYEACTHLHRTLQAIKAEGMKAGVAINPHT
+NIDLLEDVINDIDLVCIMSVNPGFGGQSFIENTYAKVEKLKALITRKNASTIIEIDGGVT
+SKNAKQLVEAGADVLVAGSFVFKAENPTQTIAELKTLTTF
+>tr|A0A1S1J8U5|A0A1S1J8U5_9FLAO
+MSIIQEFLRYNRQTILPEIGDEGQEKLKKARVLVIGAGGLGCPILQYIATAGVGYIGIMD
+FDTIEIHNLHRQILYTEKELGKLKAVVAKEVVSELNPLIKVEAIVEKLTPENARQVITQY
+DIVVDGSDNFTTRYLVNDTCVALQKTLVYGSILKFEGQIAVFNHKGSKNLRDLFPEMPDP
+KDVPNCNLNGVLGTLPGIIGTMMAHETLKIILELPTLNNELVLFNTINWNFMKLNF
+>tr|A0A1S1JBS8|A0A1S1JBS8_9FLAO
+MGLPSINSLLLGKQYIGIEHFTLNNEDKVSLLLVENKKEGLVIAKKDRVNYNGKIAEKWD
+SKLPFFLIVNTNQVIQKEVSGIDPSDEKLLHKAFPNTNWEEFYFEIWRLKTKSIIAITRK
+SYLDEMLANYVAQKISIAGISLGICSIAEIVDYTTETEFYTNHQAVSRQEQNQIITSEAL
+ESAVIYNINDLQLENRQLLAFSGILRMIMNNTPNTGSVVSYSEELYDVYNQKVFFNKGLK
+VMVAVVFVILVLNFLFFSHYYKLAQETSETLLVNKSSVEDVNQLKKRIIVKEEKVKSILG
+KTTSQSSLMINEIARKVPSSIVLTELAFNPLEKKVKLEEPILVQERTITISGTTIANEAF
+TRWVEEIEKLNWVDKVLITHFGKNEANETAFSIKLTLR
+>tr|A0A1S1IZK8|A0A1S1IZK8_9FLAO
+MKNLLLTGLIIFLGSCSNDDFDNSDLRLVSSQAISKEKTADFKNGSALEENFKEVRAGDY
+VLLVPAQLEEKIISVLKAQPGRNELNTFEKSTSDLDTISSTEDPVSTLLIIVDESTLGSS
+LKLDVKGYIVNLGNLRGQQYHIVDDFIIQYEISKRQDSTLLTGEKESILSISSISEAILF
+SEKDRKDRDWETSTTSKSTKYL
+>tr|A0A1S1J7A4|A0A1S1J7A4_9FLAO
+MESLIHIQKTFEKVTYIDKKINNREFEDCVFKNCDFSNSNFAYNTFLDCEFIDCNLSMTS
+LSGTSLKNATFKNCKLLGIAFNECDDFLFQVYFEESTLDYAVFSNKKMPKTKFINCSLRE
+ISFIGCNLTSSLFDNCNLEGAIFNDTQLASVDFRTAYNYKIDPEFNPMRKAQFSTQGIVG
+LLDKYDIKIV
+>tr|A0A1S1J2L0|A0A1S1J2L0_9FLAO
+MKKIGLVGGISWVSTIDYYKFINEGVNKKLGGLQFAECLIYSLNFGDVQQKTWAHSYELL
+WNACLSLKNSGVDAIVLCANTAHMFAREIENEIGLPLIHIGTETAKVIVKEKITTVGLIG
+TSFSMEMDFYKDRLKSFGLNVLIPEKQETRNYIQYVLKEELGRGIINPDSRQNYIQIANE
+LIQQGAKGIILGCTEIPLLLNQSDFSVPVFDTTKIHSQAIVDFILS
+>tr|A0A1S1JB75|A0A1S1JB75_9FLAO
+MKNGQLSQEQSLQVFSNMISNKVQNGFTLEERNDELLFAVLSKGGKVVNHSLNFMIFCLT
+LGLWSFAWLYLTIEATKQKKILVAIDEDGFPFEEKCLVA
+>tr|A0A1S1JAR0|A0A1S1JAR0_9FLAO
+MEEFGRIIVSETAMNSENPQDVIHSNISVINLMREEGVDDEFIHEDALMSYYLDFYWSQY
+TEGNFAQFVYKSGWNKELNELIEEGLTLIGAEKHLELFQQQSKKVRLMSSVKLNKFLSGK
+LEGVNPIRDLLNNDTFYELEENLVTLNAGFLKNHPDFEVLSVDDMFATLEEFVGHEIKRV
+>tr|A0A1S1J5Z3|A0A1S1J5Z3_9FLAO
+MSSVLKTNALESEAIYIFREVISQFDKPVLLFSGGKDSITLVRLAQKAFFPAKIPFPLLH
+VDTGHNFPETIAFRDKLVEELGLELIVRNVQDAIDEGKVVEETGKYSSRNSLQTTTLLDA
+IEEFKFDACIGGARRDEEKARAKERIFSVRDDFGQWDEKNQRPELFDILNGKIENGQNVR
+VFPISNWTELDVWSYIEKEHIEIPSIYFSHKRKVFLRDGLIWSHSPFVYQEEDEQIEERI
+VRFRTVGDMSCTAAVESYAATIEEVVGEIRSSTISERGARIDDKRSEAAMEKRKQQGYF
+>tr|A0A1S1J047|A0A1S1J047_9FLAO
+MAADVILDALPDGPTKEDELKKKVKLEYKKILLENRKVSYGVVALLQKELDLQRVNNELE
+EVEEFLSTITAHKATL
+>tr|A0A1S1J698|A0A1S1J698_9FLAO
+MNLKVNFSKTAERNLDDILKFIEARWSEKSKKLFIIKFEKAISIVSMNPEISPKSSVNKK
+YRKCVITKQSSLLYSYSANEIRVHTIFDTRQDPNKIKKDIQ
+>tr|A0A1S1J1R4|A0A1S1J1R4_9FLAO
+MKVDQKGHTVTIKDTQGDFNAFLERVTQQFKTFEKQNIIIDLSADSDVSEKEVKLFLPLA
+KQQKKAKKSFVIVVSDLDFNAVSDKLVVVPSLLEAHDIIEMEEIERDLGF
+>tr|A0A1S1JAL8|A0A1S1JAL8_9FLAO
+MNNSELINKTIAFVKEKLNDAEGGHDWFHIERVYKNALLIAKGTDCDLTIVQLGALLHDI
+ADSKFHNGDETIGPKTARLFLESEEVAEEIIQHVVNIIENISYKGGNFEKRFSSVELDIV
+QDADRLDAIGAIGVARAFNYGGFKNRTLHDPAIAPITNMTKEEYKKNTAPTINHFYEKLL
+LLKDKMNTETGKQIAAERHRFMETFLAQFYAEWEGEK
+>tr|A0A1S1J1S1|A0A1S1J1S1_9FLAO
+MLTVNNLSVQFGKRILFDEVNTTFTHGNIYGVIGANGAGKSTFLKILAGDIDPTSGHIHL
+EPGKRMSVLNQNHNMFDEHTVLETVLMGNKVLYAVKKEMDELYADYNDKNADRIGELQVQ
+FEEMNGWNADSDAAAMLSNLGITEADHYTLMGDLEGKIKVRVLLAQALFGNPDLLIMDEP
+TNDLDFETIAWLENFLANYENTVIVVSHDRHFLDAVCTHISDIDFGKINHYSGNYTFWYE
+SSQLAAKQRAQQNKKAEEKKQELEEFIRRFSANVAKSKQATSRKKMISKLNISEIKPSSR
+RYPAIIFDQDREAGDQILNVEGLAASIDGDLLFKDVDLNMAKGDKIVLFSKDSRATTAFY
+QILNNEQKADAGTFDWGITTNQAYLPAENHSFFENDLTLVDWLRQYAKTEEERDEVFIRG
+FLGKMIFSGEEALKTSRVLSGGEKVRCMLSRMMMERANILMLDEPTNHLDLESITAFNNS
+LKNFKGSVIFTTHDHEFAQTVGNRVVELTPNGVIDRYMTFDEYLDDEKIQELRKKMYNL
+>tr|A0A1S1J2S8|A0A1S1J2S8_9FLAO
+MEHLHKEEKIKKNKINQPGSCCSHDEPVHSDDDGHDHGHSADSGWFRMFLPAIISFVLLL
+IGIGFDQYFEQNWFSGPVRIAWYVIAYLPVGFPVLKEAYESIRKGDVFSEFFLMSIATIG
+AFAIGEFPEGVAVMLFYTIGENFQGLAVSRAKSNIKSLLDQRPDEVSVLENNVATKVKAA
+DVAIGAIVQLKAGEKLGLDGELLSDSASFNTAALTGESKPDTKVKGEAVLAGMINGSTIA
+LVKVTAAYNDSKLSKILEMVQNAVTKKAPAELFIRKFAKIYTPIVVYLAIAICLLPMLFV
+SDYVFSDWLYRALVFLVISCPCALVISIPLGYFGGIGAASKNGILFKGSNFLDSISTIQN
+VVMDKTGTMTEGVFKVQEVIIQDGFDKDEILKLVNVLESQSTHPVATAIHNYVGQIDSSI
+LLKNVEEISGHGLKAEIDGKELHVGNFKLMDKFSIAYHVDPNAVVYTTIAIAYDNKFAGY
+LTIADEIKADAQEAVTKLKALGVKVTMLSGDKTNVVQFVAKTLGIKNAFGDLLPEDKVNK
+LNEIKAKNETVAFVGDGVNDAPVIALSTVGIAMGGLGSDATIETADVVIQDDKPSKIPMA
+INIGKQTKKIVWQNITLAFVVKAVVLILGAGGLATMWEAVFADVGVALLAILNAVRIQKM
+KF
+>tr|A0A1S1IYJ9|A0A1S1IYJ9_9FLAO
+MNTIDTTSANSLPLSEAENKMWWKNSESEQILNRGYLLKGETVEGAIDRICTAAARRLYK
+PELKESFVEMIERGWMSISSPVWANMGTERGLPISCFNVHVPDEIEGITHKLGEVIMQTK
+IGGGTSGYFGELRERGSAVTDNGKSSGAVSFMKLFDTTMDTISQGGVRRGAFAAYLDVDH
+PDIEEFLKIKSIGNPIQNLFTGICVPDYWMQEMIDGDVDKRQIWAKVLESRQQKGLPYIF
+FSDNVNKNKPQVYKDKNLRINASNLCSEIMLPSSIDESFICCLSSMNLELYDEWKDTEAV
+KLAIFFLDAVLQEFIEKTEGNYYLSAANRFAKRHRALGLGVLGWHSYLQKNMIPFEGMEA
+KMKTTEIFQHISDKADKATQDLARIYGESELLKGYGRRNTTTMAIAPTTSSSAILGQTSP
+GIEPFSSNYYKAGLSKGNFMRKNKYLKMLLEKKGLDNEEVWREIMLNGGSVQHMTQLTKE
+EKDVFKTFKEISQLEIVQQASIRQKFVDQGQSINLNIPADLPIKEVNRLLIEAWQLGIKS
+LYYQRSQSVSKELVTSLVSCSSCES
+>tr|A0A1S1J201|A0A1S1J201_9FLAO
+MFKIFIQRPVLATVISILLVILGVLGLTKLPLQQFPDIAPPSVLVTAVYPGANAETVLRS
+VAPSLEESINGVENMTYMSSTASNDGSLAITVFFKLGTDADQAAVNVQNRVAQATSQLPA
+EVVQQGVITAKQQNSFIMAIGMYTEDESKYDQTFVANYAQINIIPEIKRIPGVGSASIFG
+GVKDYSMRVWLNPTQMSTYKVTPNEIMSAIQDKSLEAAPGKFGERSTEVFEYVIKYKGKL
+TKPEEYENIAIRSNADGSVLRLKDVARVELGAYSYNSLTRLNGKKGVVIGIIQLAGSNSN
+DIQIAINKLMEKASKDFPKGIKQNIFYSTKVSLDQSIEQVEHTLIEAFILVFIVVFIFLQ
+DFRSTLIPAIAVPVAILGTFFFMQLFGFSINLLTLFALILAIGIVVDDAIVVVEAVHAKM
+EHKHLSPKVATHEAMHEITGAIISITLVMAAVFLPVGFMEGSTGVFYRQFAFTMAIAIVI
+SAVNALTLSPALAALFLKDNHGAQGNENEVFAKKGFKEKFFTAFNSSFESLTNRYVGGIK
+FLIRRKWLSLGGLALITAATILLVKTTPTGFIPTEDQGFIAIAVNTPSGTSLDGTQKVMT
+QAENLLRADESSRFVTAISGFNLLTNSTSPSAAVIFVLLKPDEERGKIKGIDEIMADVQG
+KLGTISGGSFFVFSFPTVPGFSNVEALDLVLQDKTGGKLDKFSGVSQSFIGELMKRPEIA
+MAFTSFKADYPQLQLDINDEKANQLGVNVKDILQTMQTYFGSAQASDFNRFGKYYRVVVQ
+ADIADRADPSSIDRVFVKNKTGEMVPINTLVKLSRIYGSETASRYNLFNSISINAIPKPG
+FSSGDAIKAIEEVAAQHLPAGYSFEFSGQTREEISSGGQSATIFLLCLIFIYFLLAAQYE
+SYILPLAVIFSIPAGIFGVFVAIGFTGIQNNIYVQVALVMLIGLLAKNAILIVEFAVQKR
+KSGQALILASIDAAKLRLRPIIMTSLAFVVGLIPMMSAKGPSAQGNHSISIGAAGGMISG
+VILGLFIIPVLFIIFQYLQEKVSGKPVAVIHNEEK
+>tr|A0A1S1J8H0|A0A1S1J8H0_9FLAO
+MTVDLLLGLQWGDEGKGKIVDVLTSNYDIIARFQGGPNAGHTLEFDGIKHVLRTIPSGIF
+HKKSVNIIGNGVVIDPVVFQKEIEGLEKFNLDIKSKLIISRKAHLILPTHRLLDAASEAS
+KGKAKIGSTLKGIGPTYMDKTGRNGLRVGDIELEDFKERYRALADKHEAMIAFYDVAIQY
+NLAELEKEFFEAIEELKKLDFIDSEEYMYQAQKAGKSILCEGAQGSLLDVDFGTYPFVTS
+SNTTAAGACTGLGIAPNKIKEVYGIFKAYVTRVGSGPFPTELFDEVGATMAKVGNEFGSV
+TGRQRRCGWLDLVALKYAVQVNGVTQLMMMKGDVLSGFETLKVCTAYNYKGENISHFPYN
+IEPENVTPVYKEFKGWQADLTGMTTYDQLPVELKEYIEFIEAEVGVPIKIVSVGPDRKQT
+ITK
+>tr|A0A1S1J4E5|A0A1S1J4E5_9FLAO
+MTADFKHVSSSKISISELMLPSHTNFSGKIHGGYILQLLDQIAFASASKFSGNYCVTASV
+DTVNFLKPIEVGELVTMKASVNYVGRSSMIVGIRVEAENIQTGAIKHCNSSYFTMVAKDN
+EGKSVPVPGLILSNLEEVRRFRKCIKQIESKKEVEEHARMTDVNSIEDLANLNQYNVLLE
+IH
+>tr|A0A1S1J7N8|A0A1S1J7N8_9FLAO
+MNKFFVSFGKPLFVLTILVVLTFQGYWIEVNYKNKKEEILERVQSEATQILLMNLFKEPA
+LKQKIEKANKSKNKKVEVFVSEPKAEVVKQYLKVSNNGLLYEHEKLDYFLYTSVRKRLKA
+FLKKEAEIQVYFEGNDVKRTYPKGIVITDRNTTKTINSFQQENNKYRIHIVNMAGVVIYE
+IKEIIFFSIFYVFLFLITIFILFKSLIFNRNLLQNKEIFTRNMTHELKIPISTIMIATEA
+LETYTLGEEPAAVKKYTAAIHRAVNQLSFLVDSILQHARSSDSKEKLVLSSVNLLALLQE
+VKEDLTHIVLKKQAEIVFEDVDENVQIKGSRIQLKQIFLNLLDNSLKYSERAPRIIISAG
+KMNNTVIIRIQDNGIGIPEKYKEEIFAPYFKIMNDDTHNVKGFGLGLSFVRESLKKQGGS
+IRVLKQKTEGTSIEIKIPAHE
+>tr|A0A1S1JBY0|A0A1S1JBY0_9FLAO
+MDISVYYQNEYGTVELKIYKTSNLFESRVSVIVKNDLIGDVILLKNTKFELDTKVLIAES
+LVSVNMRNVYHFLNELKEHINRDQIEMGGGNLFDMISYAKACQIFNTRLQLRPFAIIYCI
+STEEVQRVYKGAMSNNLAIRVRSGGHDHEGECSGTDTILIDLSRMNMVEVDKKSGVATIG
+PGNRFERLTTLLAEQQVMIPHGTCATVGIAGFTFGGGWGPWTRSKGMCCERLVGATIVLG
+DGSIKELSEDGDLQARELLWALKGGGGFSYGIVTELKLQTFELPSELIRFEIEWNKYETD
+FDTERLKIVRKNRVPTIQFLKEWEDVINANRNLESNANYLNLNKKLIGTNLKISAIPAIE
+NFDANTVVHNCVMYGYWEGSASDLSKFIEKSFKNPQTYDFIITDIAGKQAGKAYGANMMS
+NWDRESFHTIKQLLKGEVQGKLSKSRPISPDLENPAPHKITSCLVDTQGLGPKGHEALLR
+SLTSPLILDGNREMGLFTYITLGAISGIFYQDETKELESAFPYKNKQYTIQYQTWWNESL
+ERKEEGKNNFVYDRINQALDWMQVCRDFNIPNTSGAFISFKDSSIPTEVYFDTSYERLKE
+IKKKYSRDSLNHFRTRKTII
+>tr|A0A1S1JD20|A0A1S1JD20_9FLAO
+MSKSPFFKNIRFPNVFILLIIVFISCALLICINFFTIKILSANRAYVHGESHYSKGQKDA
+ARYLIMYLFTKDTNQWKLFSQELKVPQGDGIARRSLLKYGDNEIARRGFLTGRNHKDDLD
+DIVWLFVNFKDVSFLAKAIHEWGQGDELIAKLSRLGQQVDAQIKQNLLTPNSQQKFLNEI
+STISDKLTINERNFLNTLGEGTRKIKSLLIITNIIFILIIVISVCTYYSIMVKRLVISKK
+EIEEKNENLIHVNHELDRFVYSASHDLRSPITSLKGLIEITQLEDDIEQVRDYLTLMHKS
+LVRQDQFIVDIIDYSKNKRKQVIIEPVSLKELLDESISQLMHIENANKIKFTKELLIDTI
+QSDDLRLRIIISNLLSNAIKYADINKEEMFISIKTYTEEGYNKIEITDNGIGIKDEFKNN
+IFEMYFGTNKNKGSGLGLYIVKEAVENIKGSISVFSENTIGSKFIVAIPNYHGN
+>tr|A0A1S1J218|A0A1S1J218_9FLAO
+MKNVSLSLLAALFAMASCNNDETSKNQESEVAVNENPGSFKEIGSITIGGEAAAEISTYD
+EKTKRLFTVNNSGTNQIDVIDISDPTKPVKIGKIDLTPYEGASNSVAVYDGKLAVALEST
+LNKQGNGKVVIFNTSDYSLIKQVTVGALPDMITFSPDGKFIMTANEGEPNTDYTQDPNGT
+ISIIDTATYAVTTLDFSSFSGQAEALKKEGFRISKFAKSFAQDIEPEYITISDDSKTAWV
+TLQENNGVAKVDLTSKTITALYPLGFKNFNTAENAIDVSDKDDKIAFNPWKVKGMYMPDA
+ISHFSANNTPYFVTANEGDAREYAAYADIKRMKDMKLDATAFPDAAALKLETNLGRLNLI
+ADMGDTDGDGDLDELVAFGARSFSIWNGNTGKIVYDSKNDVDKKTNELGTYDDKRSDDKG
+SEPEAVVAVKMGTQNILFVGLERSDAFMTYDVTNPASPQYLQTVKTGDAPEGILFIPASK
+SPTKRSLLVVSSEGDGTVKIYQPDLK
+>tr|A0A1S1J437|A0A1S1J437_9FLAO
+MNILHKTTYLMILVAFFATQLIYGQTGKILIETQLTRYGPDLKSNTYSVNITTNGSSAFG
+KAYNLNNNDDDVKVYYDLVQYDETKYPLKIVINGSYVVKPTQLGGPECNQKDEANLVAPK
+SVSMGACHGRTNFLLLDLPKPSGSIGNCGNFTVQKQIRLSGAGYSWQYKKNTDTQWKYFT
+YGTQYNENGINFNFNDVPDLKDYTGNLFVKFVVEYENLNTSKIETYESDIAIYPIIPCSP
+KLDTTSDPNFTTCSYSNGGVTFTFSRPLEPGEKYLFNRNPVGSTFITDATSNDPDVEKIS
+ALSYKWKNIPAGVYEFKYQTQFGNNTPSTLSPVSKFEITPSKALTFTATDIQPACSSDKG
+GISISVSGGMPPYFYILDNEPKKELTKNPDIINITTDGEHKVIVVDSFNCIEK
+>tr|A0A1S1J6U1|A0A1S1J6U1_9FLAO
+MNPILNQNLFLVKEHVGMFKASNNYDIYNPESNQIILNCRENNLGFFTKMLRFTDYKRMT
+PFNVEIAAASGEKLISVKRGIAVFRSNVEVFDEKERLIGTFKQKFFSFGGRFEILDKNEK
+PVATLQGKWTGWDFKFTHENKQLAQVSKKWAGMGKELFTSADNYVLQIEETVAQDSPQRQ
+LILAAVMCIDMVLKE
+>tr|A0A1S1J6Y2|A0A1S1J6Y2_9FLAO
+MVNIDDFVKRLEIILDYYTLNASSFADRIGVQRSSMSHLLSGRNKPSLDFVLKILEVFPE
+IDLYWILNGTGNFPKTEDSADLKKNESVSEFAKSFSPIPSDENSASGNSLSENTKTKNVS
+SAEIKNQNLNAAENEIEKIVVFYKNGTFKTYVP
+>tr|A0A1S1J7C2|A0A1S1J7C2_9FLAO
+MKKTTLKLFPFIASIILFLVSINCFSNTSDTITNSKKVFISKNLPKDEIGLLNNSLSYYQ
+TPKSEFTNDFLKKNFPVSQETNKDRDLAMSVFKEIAKNDNLTDLLEPKKLSMLPLGIKKT
+IGGIQYMLGISSAKFTPEYTELTAFVKIVIPQNDSLGKPKELFFGANGIKLSHKGGLVGA
+TNLVLLGDVPININGQNALLILKGGMEMSTGVVQKKTYVTIDCNGFKELGIAADVEFSRN
+FLEPVDDDYKLIPAPNRVRGSFQTIVSNWNDILIEISLPKFQLTSYQGKGPAFELNNAVI
+DLSDIRNSDKIEWPDADYVKDYLVPGNENLWRGFYVKSLKVVLPEQFNKRDENKRVKFEA
+ANLLIDRMGVSGKFIGDNVFSLKEGSASGWQFSLDHIEMEFRANSLTAAAFNGEIVLPVS
+SEENTQCDPKSRGRLAYNAIINPVDNEYILKADVTNNICFQAFKATASLEKNSYLELKVK
+DGKFLPKAVLYGSLALKGSNKNTTAAELANSPIKSSETTNADGEKKEAINFKGIIFQNLT
+LQTVVPYLTADYFGYKHIQEKDAAVSNFPVTINEISLVATDVSASLKVDVAINIMKNQFN
+GQTKFYVIGSFDREKGIQKWKYERIKFEEIKVAADLGGVKFKGSIAIMDNDPVYGNGFKG
+SVSADFTGGIKVEANAIFGSTTFRYWYVDAMVDNLNIPAGAITFKGFGGGAYYQMKKDGF
+SSSFVASKSNYVPDADSGLGVKAMIKFAGTATANAFWGGAGFEIAFNKHGGLNRISIYGE
+GHIMQPFEIPGADELTKALQTVTENESLMGTIATEALKTSNLSAAAEQLYPNDVKNSMGI
+NAFAAIEYDFRAKTLHGTFDLYIDTPGGFIQGRASGNRAGWAVLHFGPDKWYIRAGTPTD
+RLGIKLAIGSVEVEAGGYFMLGDDIPGSPPPPDIVAKLLRVDVAKLNYMRDENSIASGKG
+FAFGSDFSIKTGNLSFLMFYANFQAGFGFDIMVKDYGEAQCKGSGQIGINGWYANGQSYA
+YMQGELGINIKLFFIRKKISIIKGGGAVLLQAKLPNPVWIRGYMAGEFSLLGGAVRGSFR
+FKLEFGEQCEFISANPLEGLKSIADITPAQGAKDVDVFTVPQVGFNMPVDKNFNIEGDDG
+VKTYRLKLEEYTVKKGGVPVVGNLSWNKTNDLVSFNSFEILPEKSELTLTVKVSFQEYAN
+GAWKTIMDQGQVAMETETRTFTTGVAPNNIPVSNIAYSYPVFDQKYVYQNESKEAYVVLK
+IGQAYLFDLKPGQSQKATYKTGSKTTNGTIGYKADSKKVIVSLPALENLKPYSLSLMTLE
+TTKDANANLNESFDKQDLGTNANVEVKSNKLAETLTGGQGVELLQYNFNTSQYNTFQEKM
+TAKKARKTHIEIIEADIHALHAENTATEAFDEIEIAGTPQSMNVPLVSVEALLDDSYFKN
+DIYPLIYQGYPLEADLTLNRNTSLLGNPPVRGVEIITSYLSDLINNPKSSYLRDRLPYRY
+NQPFYYKDDFIKIQYKVVNKYLNSQNRAMIDKYNYIITGRFPMIKDGTYNVKLNYILPGG
+QAGTSSIFTFNKTN
+>tr|A0A1S1J7M5|A0A1S1J7M5_9FLAO
+MNIHEYQGKEILASYGVRIQRGIVANNAVEAVAAAKQLTAETGTGWHVIKAQIHAGGRGK
+GGGVKLAKNLQQVEEIAEQIIGMQLITPQTSAEGKKVNKVLVAEDVYYPGESETSEFYVS
+VLLNRGTGRNMIMYSTEGGMDIEEVAEHTPHLIFTEEIDPTVGLQGFQARRIAFNLGVTG
+NAFKEMVKFIDALYNAYVGSDASMFEINPVLKTSDNKILAVDAKVNIDDNALYRQPKYAE
+MRDIREENPIEVEAKEVGLNYVDLDGTVGCMVNGAGLAMATMDLIKYAGFEPANFLDVGG
+TADAKRVETAFRIILKDPNVKAILINIFGGIVRCDRVAQGVVDAYKNMGDAINVPIIVRL
+QGTNAEIAKELIDNSGMPILSAVQFQEAADQVKAALS
+>tr|A0A1S1J312|A0A1S1J312_9FLAO
+MNTKTLQFKTSDDLTLWTNLKNGDEKSFSLLFEKYYGDLVNYGNSLSPNAEKVQDCVQDV
+FTDIWVYKNGLQSSVVVKAYLLSSVRKRIARLYERDHIFRKSASTDSIAFLLEFSVEHDL
+MDDDYATKEKVIHLNKLLNNLPARQKEALYLRYHQGLTVDQIADMLEVNYQSASNLLHRG
+LLTLRKEWKGSVSLILLLSSTTF
+>tr|A0A1S1J461|A0A1S1J461_9FLAO
+MSDKTIRSNSEVVLIGAGIMSATLGVILKELQPDIKIEIYERLDVAAAESSDAWNNAGTG
+HSAFCELNYTPEKADGSIDPKKAISIAESFEISRQFWSYLVEQKKVPSPDNFIKSVPHMS
+FVWGEKNVAYLKKRFEALQNNPIFSQMEFSSDFEQLNKWMPLVMEGRDANEKLAATHMEI
+GTDVNFGALTRSMFNYLATLDGVSLHFNHEVKKLKQREDKSWRIKITDLATGDVRKAYTK
+FVFIGAGGGSLPLLEKANVPEGDGYGGFPVSGQWLKCTNPEVIAKHQAKVYGKASVGAPP
+MSVPHIDTRVIDGEKALLFGPFAGFSTRFLKNGSYLDLPLSIKPNNLIPMLSAGYHNIPL
+TKYLIEQVRQSPKDRMKALREYLPTARSKDWKLERAGQRVQVIKKDENGGGVLEFGTEVI
+STHDGSLAVLLGASPGASTAVGIMVDLISRCFTNQVKTPEWQSKMKTMIPSYGQTLNDKP
+ELLAELRKHTSEVLRLKNS
+>tr|A0A1S1J6Q2|A0A1S1J6Q2_9FLAO
+MYRSHNCGELNASNINTEVTLAGWVQKSRDKGFMNWVDLRDRYGITQLIFDESRTDKAVF
+ELAKTLGREFVIQVKGTVIEREAKNKNIPTGEIEILVSELTILNAALTPPFTIEDETDGG
+EDIRMKYRYLDIRRNPVKNSLLFRHKVAMEVRKYLSDLDFCEVETPYLIKSTPEGARDFV
+VPSRMNEGQFYALPQSPQTFKQLLMVGGMDKYFQIVKCFRDEDLRADRQPEFTQIDCEMA
+FVEQEDILNIFEGLTRHLLKEIKGIEVDKFPRITYDYAMKTYGNDKPDIRFGMEFGELNE
+FAQHKEFPVFNAAELVVGIAVPGAGNYTRKEIDALIDWVKRPQVGASGMVYAKCNDDGTY
+KSSVDKFYDQDDLGQWAKITGAKPGDMIFVLSGPANKTRAQLSALRMELATRLGLRNPEV
+FAPLWVIDFPLLELDEESGRYHAMHHPFTSPKPEDMQLLETEPGKVRANAYDMVLNGNEI
+GGGSIRIHDKATQQLMFKYLGFTEEEAKAQFGFLMDAFQFGAPPHGGLAFGLDRLVAILG
+GQETIRDFIAFPKNNSGRDVMIDAPAAIDEAQLKELAIKLDLK
+>tr|A0A1S1JAB3|A0A1S1JAB3_9FLAO
+MKLPENLNQKLEIRKQNNSLRKLPVFSNRIDFSSNDYIGFSKSESIFKHTHAYLLENEIF
+QNGATGSRLISGNHSLYQITETFIAEFHDAESALIFNSGYDANVGFFSAVPQRNDVILYD
+ELSHASIRDGITMSNAKSYKFNHNDFEDLERLIQKFPDTTVYIVTETVFSMDGDSPNLEE
+LVVLSEKYNCYLVVDEAHTLGVFGEKGEGLMQYLNLHHRIFARIMTFGKGLGCHGAVVLG
+STALKEYLVNFARSFIYTTGLSPHSVATILIAYKQLEAEKVTIEKLRSNIVFFNQHKNLF
+GLKPMFVRSKSAIQSAIVPGNENVKRLAEQLQGKGFDVKPILSPTVPEGQERLRFCIHSY
+NSEKEINEVLELLGNFVF
+>tr|A0A1S1J1B6|A0A1S1J1B6_9FLAO
+MHFISQELEDYIEQHSENEPELLAKLNKETYQKILLPRMLSGHFQGRVLSMLSKLIRPVN
+ILEIGTYTGYAALCLCEGMQENGQLHTIDIKEELVDFQRKYFDASPWGKQIFQHLGEAVE
+IIPTLDVKFDLVFIDADKENYINYWEMIVPKMNKGGIILSDNVLWSGKILEPVHPNDVST
+KVLLEYNLLLKNDPRVETVLLPIRDGLTVSRIL
+>tr|A0A1S1J3I8|A0A1S1J3I8_9FLAO
+MKNVKLLSLALSMLICFVASAQEKIITGNVTDEASIPLPGVTIVIKNTKNTTQTDFDGKY
+SIKAQKGDILIFSYIGFNSQTQTVDNKNVINVKLTGQQQSLNEVVVVGYGVSNSDYESSN
+YSRRDKKMVAKTITSTLQGRVAGLPITGNYVQPALNQNIITRGTTSISSKDEPLYIIDGV
+PVKSDQFSKINPNDVEEVKVIKEAEATSLYGSRATNGVVLVATKNGIYKNLTEKELNAKL
+KKITVPQPVEPNEEDYNTFVENAFESPKTAPLSTFSIDVDNASYTNVRRFINNGQAVPKD
+AVRVEEMVNFFKYNYPQPKDQNPFSINTEVSDSPWNAKNKVLKIGLQGKNIPTENLPASN
+LVFLIDVSGSMSDMNKLPLLKQSLKILVNELRPKDKVAMVVYAGAAGLVLPPTSGDEKKT
+IIDALEKLNAGGSTAGGAGIELAYKIAAENFIKNGNNRVILATDGDFNVGDTSNADMEKL
+IEDKRKTGVFLTCLGYGMGNYKDSKMETLADKGNGNYAYIDNIQEANRFLGKEFKGSMFA
+IAKDVKIQIEFNPKQVQAYRLIGYENRKLRPEDFKNDAIDAGELGSNHTVTALYEIVPTG
+VKSDYLAQQPDALKYTKVEEAGTNYSNELATIKFRYKKPDGDKSIELVQVIENKSVALEK
+ASDDFKFSSSVAWFGLKLRDSKLISDKSSDAILKLAKQGLSNDPEGYKAEFIRLIEAVKF
+N
+>tr|A0A1S1JA23|A0A1S1JA23_9FLAO
+MEYKIKKQQVHRLPVYLANSFLTRSDAENFLEEINNEDPDIVYSIVYGKSYPWNGTFAEF
+PEPIKK
+>tr|A0A1S1JB71|A0A1S1JB71_9FLAO
+MSTKFTEYKGLDLPTVASEVLDFWKKENIFEKSVSTREGAEPYVFFEGPPSANGLPGIHH
+VMARAIKDIFCRYKTQKGFQVKRKAGWDTHGLPVELGTEKELGITKEDIGKTISIEEYNE
+ACKKTVMRYTDVWNDLTEKMGYWVDMEDPYVTYKPKYMESVWWLLKQIYDKGLLYKGYTI
+QPYSPKAGTGLSSHEVNQPGAYRDVTDTTIVAQFKTLPETLPAFLKGFGDIHILAWTTTP
+WTLPSNTALTVGPKIDYVLVKTFNQYTFEPINVILAKNLVGKQFGKGFFASEDDADFDKV
+KNGDKQLPYKIVAEAKGADLAEIRYEQLLPYVLPYQNPENAFRVITGDFVTTEDGTGVVH
+TAPTFGADDAKVAKEAKPEVPPMLVLDENGTAVPLVDLQGKFTAHVGDLAGKYVKNEYYD
+AGQAPERSVDVEIAIRLKEENKAFKVEKYVHSYPHSWRTDEPLLYYPLDSWFIKVTDVKD
+RMFDLNETINWKPKSTGEGRFGNWLKNANDWNLSRSRYWGIPLPIWRTEDKKEEVLIGSV
+EELYNAIEKSIEAGFQKENPFKGFEIGNMSESNYDLVDLHKNVVDGITLVSASGQPMKRE
+SDLIDVWFDSGAMPYAQWHYPFENKDKIDENKDFPANFIAEGVDQTRGWFYTLHAIGTLV
+FDKIAYKNVVSNGLVLDKNGQKMSKRLGNATDPFETIKEYGPDATRWYMISNANPWDNLK
+FDIEGIAEVRRKFFGTLYNTYSFFSLYANIDGFKYAEAEIPLNERPEIDQWIMSELHTLI
+KFVDECYEDYEPTKAARAISDFVQENLSNWYVRLCRRRFWKGEYAHDKIAAYQTLYTCLL
+TISKLSAPIAPFFMDKLYRDLTGSTQTEQFASVHLAEFPKFVENFVNKTLESKMQKAQTI
+SSLVLSLRKKEMIKVRQPLQKVMIPVLDENQRAEIEAISELVKAEVNVKEIVLLDDDSGI
+LVKQIKPNFKALGPRFGKDMGLISKEIQSFSADQINQLDKQGALDIVIAGNTVTLSLEDV
+EITSQDIEGWLVANSNGITVALDITISEELKNEGIARELVNRIQNIRKDSGFEVTDKIKV
+QIKRSGLLEEAILKNEDYIKSETLTDDLVFVDALENGTEIEFDDIKTMILISK
+>tr|A0A1S1J7J8|A0A1S1J7J8_9FLAO
+MRELKLAVKPYVPEKIWMSLIKAYNFTNLRAIRDGYKIRKAPKNHQKALEIVRKKEKVKV
+AFFLTHESVWKYDLLFDLMLAHPQFEPQIFVCPVVNFGKENMLFEMNKAYNAFKNRGYDV
+FRTYDTATAEYLDIKKTFSPDLVFFTNPYEGLQDYRYYIKEFSKTLTCYVPYSIPTVNYE
+FTYDLNFHNLIWKIFSETDIHQKMASENQRNKAINRVVTGYPGFDPLLINKRPREVWKNK
+DPALKRIIWTPHHLMNELSKVSNFLEYYDFFLELATSYKDKLQITFNPHPLLRVKLENDP
+NWGKEKTDNYFGKWINLENGQFGDGYYIDLFLTSDALIHDSGSFMAEYLITGKPSLFMIR
+DESIMDYWSTFGNEAITAHYQSRNKKEVIDFIENVVLNGNDWMKDKRCDFVQNTLIPKNN
+STASENIMKYLESQIFE
+>tr|A0A1S1IZA5|A0A1S1IZA5_9FLAO
+MITIIAEKPSVAREIAVLLRATEKKDGYLTGNGYFVTWAFGHLVELGMPQDYGFCGFQKS
+ALPIIPNLFLLTIRKIKNDRGYRVDAGAQKQLKVIKHLIERSEKIIAATDAGREGELIFR
+NIYEFLKCSKPFERLWISSLTEKAIKQGFDNLKPGSDFDGMYKSAQSRSHADWLLGINTS
+QALSIAAGDGIYSLGRVQTPTLGLICRRYLENKSFSKKQYWQLELLHSKEFSDFKSLSQN
+KWEDKKTADNVLKLIIRNGNTAIVTSAETKNTAEQPPLLFDLTGLQKEANTKLNLSAEET
+LTIAQSLYEKKFITYPRTGSKFIPEDMWAEIPRLIRILQGCDLFKHSVANLKWTHFNKRI
+VNDLRVTDHHGLLITEKVPSALPAKENALYNMIAFRLMEAVSQPCVKEVTNITLQALHYD
+FNLKGSRIIESGWRAIRGSFFDDDPQQELPELKMGDELKIKSAQILEKETNPPVLYTEAG
+LLSAMETAGKELENHDQCKTLQNIGIGTPATRSGIIETLFSRHYIDREGKSLIPTPKGLK
+VYELVKDKKIADVGMTAQWEAVLAKIENSQTDDLAFKKDIKTYTASITAELLQISIEKAS
+LPQLICPKCKTQHLIISDKIIKCEDKVCSWLQYRKICGVHLSLSEIENLVNKGKTSLIRG
+MKSKSGKKFNACIVLNEQAGSFFEFGKSKSV
+>tr|A0A1S1J524|A0A1S1J524_9FLAO
+METKIIDSLINAFEAKLDILNIFMNVGASIDEIENLQNTIKQKLPGSYIQLLKKYNGEKR
+ILGFMAGFGYSSIEDVIRDWAFFKNAPETQPAGINQLKKIKNTLYSPKRIPFAHDGSGNF
+ICIDYDPNFDGISGQILYLPAGDPEPISVIADNFDNFLTLIIEKIESEELELIDEREDWD
+EEDWDKAEINFCKTWKDDWTDIAEEYNSKL
+>tr|A0A1S1J5K9|A0A1S1J5K9_9FLAO
+MSVAKKDYKKITTKSLIEMKSNGEKISMLTAYDFTMAKIVDTAGIDVILVGDSASNVMAG
+HETTLPITLDQMIYHASSVVRAVDRALVVVDLPFGSYQSDPKEALRSAIRIMKESGGHAV
+KLEGGKEIKESIKKILNAGIPVMGHLGLTPQSIYKFGTYSVRAKEDEEAEKLIEDAKLLE
+KIGCFGIVLEKIPAHLAEQVAKSISIPVIGIGAGGGVDGQVLVIHDMLGMNNEFSPRFLR
+RYLNLYEEMTQAISQYAADVKSADFPNSGEQY
+>tr|A0A1S1J772|A0A1S1J772_9FLAO
+MKIDIKKVFLVFLPFTQALTLNIFFPLKISEIALVVLILFYVNKTIISKDTIWFFNNNLV
+ILLLGILVTLSFFVNIFWNYSYPPKLIPFRINRVGDSFIRLCYFYLCLAAYYISFRLFIK
+DIRILEKWVLGAMISAIFGWYLFLSSKLNIPYFTLPGMDDPQILEGFIRCSTFKEGNYFG
+LFLLLSASVSFYLEKRAHGWFLLFSVIVSMSTISIISVFIFIFYFYRKRLLSLNILLKVI
+PVAVIGVLLFIQTDLYQKYVYEKLFDSTRTLTQNNFSKVDRVITGNVAFYSGIENPFFGV
+GPANYGLHYDYYNNYKKIVVHRNDYFDHFAQRKNERAIPNNVYLEVLSEYGVIAAILFML
+FLFLILTKAYYLKEDAIVAGIFSIIISFNAFPSFIMLFIWVFLAIPFAIHRNKLNQQTAT
+IN
+>tr|A0A1S1J9U6|A0A1S1J9U6_9FLAO
+MENIKSYVQQHKDRFINELIELLKIPSVSADTAYSQDVIDTAEAVKESLSKAGCDFVETC
+DTPGYPIIYGEKIIDPNLPTVLVYGHYDVQPPDPLELWTSPPFEPVIKTTEIHPEGAIFA
+RGACDDKGQMYMHVKALEYMVQNNVLPCNVKFMIEGEEEVGSASLAWFVERNQEKLKNDV
+ILISDTGMISNQQPSITTGLRGLSYVEVEVTGPNRDLHSGLYGGAVANPINILAKMIAAL
+HDEDNHITIPGFYDKVQELSLEERAEMAKAPFSLEKYKKALNLNDVYGEKGYVTNERNSI
+RPTLDVNGIWGGYTGEGAKTVIASKAFAKISMRLVPGQDWEEITELFTKHFTNIAPAGVT
+VKVTPHHGGQGYVTPIDSIGYQAANKAYTETFGVPAIPVRSGGSIPIVALFEKELKSKTI
+LMGFGLDSDAIHSPNEHFGIFNYLKGIETIPLFYKYFVELSK
+>tr|A0A1S1JCF5|A0A1S1JCF5_9FLAO
+MLFLTMTLFSCGTDSDAGEFVVGSDYLAVSNKVILIDTMTVEMSTINFDSLITSGKNRIL
+IGSYEDPIYGKVKSNSYFQLASDSYSLKNDGSDTESTNYVFDSIAMILKYDKYYYGDTTK
+VQTFDIHRLTEKVKPNTNDKNFYNNSVLNYSDESLGSILYKPRPAGKDSINIKMSSTFGA
+ALFQKLKKREITDFDSFSEYLKGLVLVPSVSNSANVIGFHVASSKVRLYYSKYQANTEEV
+PYIMDFKISDAQKQFNSISLDKAGTLIQNLPAPNSKLSSVLTNRQGFIQSGTGVACRIDF
+PNIKQLKRISANGAIVDAQLFLKPVNNTYSEKYPLEDSLKVYVSDNLNRISTSLVNSAGT
+AVFGILNKKKDEFNENVGYSVPIGYFLQKEMLKQSSSRSSLILTLPGISKTVNRIVLGDQ
+KHLNNKLQLKIYYISY
+>tr|A0A1S1J501|A0A1S1J501_9FLAO
+MKKLYLVLIVVFQLSCFAQNKELLYNFTAIPQSSLVNPGADVAYKFYFGVPVLSGISANL
+GSSSFSAYDLFANNGVNFNDKIRNVINKSSSRDKTQINQQLELFSGGFRVGGKDSQSYLS
+FGAYQEFDFLMYVPKDPAILALDGNKDYIGKSFNLSDLNLRAEVLSVFHVGFHKKVSEKL
+VLGGRAKIYSSGANATSTRNSGYIYTGQAAGTPNLYTQTISSNLEIKTSGIATFTKDEYD
+GSIPSDIVHNTFFNGSLGLGLDAGFTYYFKDNLQLTASIVDLGFVRQSKDIETLTYKGTY
+HYEGVNPNFDNSNEPKNIFDDFDKAIPRDTLYNKYTTLRPTKFYSSLQYSFGESRSDEDC
+NCHGKVTRKYVNGVGGQLFAMSMPVEPFVALTAFYRRNIFEKLDVKATYTVDSYSSKNIG
+LGFAGTLGKLNMYVLVNNLLELKDVSKANSMAFQFGFNFIFNDNSEE
+>tr|A0A1S1J7K9|A0A1S1J7K9_9FLAO
+MKKLFAEFFGTFWLVFGGCGSAIFAAGIPDLGIGFAGVALAFGLTVLTMAYAVGHISGGH
+FNPAVSFGLWAGGRFPAKDLIPYIVAQCVGALAAAGTLFTIASGKAGFAIDNTKAGAFAS
+NGFGAFSPDGYSLQSAFIAEFVLTLFFLLVILGATDKFANGRFAGVAIGFALTLIHLISI
+PITNTSVNPARSLSQAIFVGGEPLSQVWLFWAAPILGAIVAGFIYKTLLQNHAEA
+>tr|A0A1S1JBE1|A0A1S1JBE1_9FLAO
+MIPTLPQQELLNATNFCVIVPTYNNHKTLKRVLDSVLDFTSNVIIVNDGSTDETSEILKH
+YSQYTQIHHPKNLGKGRALRNGFRKAIELDFEYAITIDSDGQHFAADIPNFIAEIQNQPN
+SLLIGSRNMTQENVPKKSSFGNKFSNFWFKFETGIQLDDTQSGYRLYPLKLIPKQFYTNK
+FEFEIEVIVRSAWKGIVVKNIPVQILYDPAERVSHFRPFKDFTRISILNTVLVIWALLYI
+KPRDFFRKAKKKGFKKFFLEDILESSDSNFKKSAAIALGIFIGISPFWGFQTILLLTFAT
+LFKLNKVIAFLASNVSFPPFIPFVIYGSLKMGSYFVSNDVMLTANGSVTLDDIQKNATQY
+IVGSLILASVLALSAGLISYLLLTAFSAKNKTKIT
+>tr|A0A1S1JD55|A0A1S1JD55_9FLAO
+MDLLLLLLGFICMIVGIFGSFLPVLPGLSSCWVGLLLLYLTKAVENNYWVLGITFLLTIV
+ITILDYIIPAKGTKKFGGSSYGVWGTNIGLIVGIIAPIPFGVIIGPFVGAFVGELIYDST
+NHQRALKAATGSVLGFLASSFVNFLCCIIFLGIFISIVWQNRLLLF
+>tr|A0A1S1JEY6|A0A1S1JEY6_9FLAO
+MKIALIQSNLYWENALENRKQFEAKINLIDADVNLIVLPEMFSTGFTMNAAAVAETMQGE
+TISWIQSLAKQKNAAIVGSLVIVENEKYYNRMVFVFPSGEIQYYNKRHLFSLAGEDQFYT
+RGDEKVIVNYLNWKICLQVCYDLRFPVFARNVENYDLLLYVANWPKVRTNAWDALLKARA
+IENLSYVIGVNRVGLDANNFEHTGHSQAVDFLGNYILEPQETEDTFVVELDENSMLETRK
+KLDFLSDKDVFRIDF
+>tr|A0A1S1J1A8|A0A1S1J1A8_9FLAO
+MLNISDNKTKLQPLDRYETVRNLSNRPHYKILNRIIIASSILGIIALLLPWTQNISGSGA
+VTTLKPNQRPQSIQSVISGRIEKWYVQEGDFVKKGDTILFISEIKEDYMDPNLVENTKNQ
+VDAKKNSLESYGEKVTTLSGQIQAIENERKLKLEQARNKVKQSLLKIKSDSIDLVAVKTQ
+LRIANTQYNRSVQLNKEGLKPLTDVEEKRLKLQDVDAKIITQENKYLTSKNEYINARVEI
+NRITAEYGEKVAKARSDQFTTLSNKFDTEAQVSKLENQYANYSLRNGMYYIRAVQDGYIN
+RALQAGLGETIKEGTPIVTIMPSHYDIAVETYISPIDLPLIRKGEKVRVWFDGWPTIVFS
+GWPDMSYGTFGGTVVAIENFISENGKYRILIAPDPDETKWPKQLSIGSGAQTIALLDTVP
+IWFEIWRTLNGFPPNYYKSTQKVTKEKK
+>tr|A0A1S1J4L9|A0A1S1J4L9_9FLAO
+MKNLISFVFVLGFCTVSFAQDLAYKPINPAFSGGETFNYQWMLSSAQAQNDYKDTSANGG
+YKQPTDLERFKSTLNNQLLNRISNSLFDSQFGSGTGSGGGTGGGTGGGLTPGNYVFGTLS
+VDIYNSNLGMVVNILDIETGEQTQVIIPGK
+>tr|A0A1S1J5L1|A0A1S1J5L1_9FLAO
+MIFQKIIGFICLLGILAIPFSGNTQTTARPNILIIMTDQQTADAMSIAGNKDLHTPAMDK
+LAQNGVRFTKAYCAQPLCSPSRTAIMSGKMPFETGFVGNAPEKDGQWPDDLLMMGKIFHN
+GGYKTGYVGKWHLPVPTTKKSQHGFEYIENTNFQDYNDAATPSFCARFIKENKNTPFLLV
+ASFLNPHDICEWARDEDLKMDVLEKAPPPAQCPQLPTNWKIPDYEPKIVRDQQKVSFRTY
+PTVNWTADQWRQYRWAYNRLVEKVDGYIEMVLASLKKYNIEKNTIIIFTADHGDGYAGHS
+WNQKQILYEESAKIPFIISKIGEWKPRTDDLLVCNGTDIIPTICGFTGVPKPTYLKGIDI
+SKKITNPTEILRDTLVIETDFADNEELLNISGRAVISKDFKYIVYNKGDLKEQLFNLTTD
+PGEITNLAVNKAYKKELIALRRYLKEWCKKNGDPFQSGL
+>tr|A0A1S1J1J3|A0A1S1J1J3_9FLAO
+MNYFSFYKDGKALYCLIFIGMMLSFPSVSAKILKRSYQTFPQKHSIQGTVTDGSAPLPGV
+TIAVKSKPLINTITDYNGHYTITAAPNDTLVVSFIGFKKTIVPVQNRTKIDIRLQYDTTT
+LQEVKVNAGYYSVTESERTGSIAKITSKDIEKQPVSNVLATMQGRMAGVDIIQDSGTPGT
+GFQIKIRGMNSLREDGNQPLYIIDGVPYSSDLIGYSNTNSGVPTSTGPLNSINPNDIESI
+EVLKDADATSIYGSRGANGVVLITTKKGKAGKTSITLNASTGAGWITAMVPLMNTSEYLE
+MRRQAFANDGIASYPAAAYDINGTWDQNRYTNWQKELLGGTSAITNLQASIAGGSDLTQF
+LLSGTYRTETTVLPGDFGYDKGAVHFNMNHSNEDKKFKLSFSAGYTFQNNLQPGTDLTRI
+ARTLAPNAPALYDSEGNLNFENNTFRNPLAQLRGINTGKINDLVANAVLSYSIMPHLEIK
+ANLGFTDLKNSEQRLLPSTMNNPALNIGSSRSSIYTNLTSRQSWIMEPQIRWFRDFKDSS
+IDILIGGTAQQQSTARLYQSGKGFASNSQITDLSAAVTKSILTNDEILYKYQAFFGRVNY
+NFKEKYILNLTARRDGSSRFGPGRQFATFGAAGAAWLFSKEDFIKDDSFLSFGKLRASYG
+TTGSDQIGDYQFMDTYTTSGNAYNGIVGMDPTRLFNPNFSWEINRKFEIALETGFFHDRL
+FFTAAGYRNRSSNQLVGIPLPATTGFSSVSANLDAVVENSGLEFTLRTINFNNPNFKWST
+NFNITVARNRLISFPGLEGSTYSSRYVIGRPTTIAKTYQFNGVNPSTGIYEFEDVNKDGI
+ISIEDRQTIVDLTPQYYGGLQNTVQYKRLKLDFLFQFVKQQNYDYSSYVPGGSFINQPQD
+MVHSWKNQGDITTYQINTSGQNSAAVNAYYNYSDSNAGIVDASYIRLKNISLIYDLPLKA
+AQGVQCRLSLQGQNLLTFTPYKNGDPEFRFSGYLPPLQIFTAGIQMTF
+>tr|A0A1S1J3Z6|A0A1S1J3Z6_9FLAO
+MATTKKGNKKKRLKDEIYTIIRNDIPLRKKIADALIIEVSSVYEGAKRKSPRFSLPMVLE
+IIAKHTGKLKEELTNE
+>tr|A0A1S1J6X3|A0A1S1J6X3_9FLAO
+MIILVGTRDSNIKNGVIFNEKCSNCEAQDTLYFSIYRKYVHLTIIPLFPVGKSVFIKCNN
+CSEQFDYEDLNQNSQLKLANEKTKSSVELFTGSILLILIGIYSSYAYFKDSDKTAKLIKT
+PVIGDVYNLKFSDGYYSNMKIDKVTKDSVFTTHNNFNTYLPYEIDDLDRAENYTNRKVNY
+SKNELLELYKNEKIIKIRRSEYPLDNQEPQFKIPITK
+>tr|A0A1S1J974|A0A1S1J974_9FLAO
+MKYVIYIFLIFGIGLLVYGYIYPTEYCLDINIHDTYYVFSYRPVATAVLLFSLLLYMVHF
+LYKKVR
+>tr|A0A1S1JBB7|A0A1S1JBB7_9FLAO
+MDSQDINVLLAKHFSGETKPEEEAVLMNWIKNNPDEYLSLKIFFAESQPLDSPQLFETAN
+AWNRIAPNLSSTKTTVFQLYKKYIYATAVAAVFILISTFAFLYANTEITVQTADGQVKSI
+ELSDGSLVTLNDNSSITYKRFLWNNRTVSLNGEAFFEVKHDESRPFSVNTGTLSVKVLGT
+SFVVTTTEKEKSVDVITGKVKVTATPTNQTVILEKKQAVHYASGRLIKSDTADKNLLSWK
+TKSLSFENTPLQKAFQDIEDCYHIKIQVEGKISDSCTVTTNFKNESIKEILEEFRLLFGL
+SYTQKGNTVWVKNISCEK
+>tr|A0A1S1J3J0|A0A1S1J3J0_9FLAO
+MFEFLPYLLAFTAALFLGIYLGKTLFAARFQSEKVSLEERLSATTNQLQIQKEQFENERR
+NFEKQLHLSSSEKENIRTEKDSLAIQLSKKEVDFENLWERHKEQKNEVSELQEKFTKEFE
+NLANKILEEKSAKFTEQNSENMKSILLPLQDKIQGFEKKVEQTHKESIDYHAALRQQILG
+LSEMNAQMSKETLNLTKALKGDSKMQGNWGELVLERVLEKSGLEKGREYEVQQSFTNAEG
+NRVLPDVVINLPDGKKMIVDSKVSLVAYEKWINEESEILKIDFLKEHVNSIKRHVEQLGS
+KNYHDLYQIESPDFVLLFIPIEPAFAIALNEDSTLYNKAFDRNIVIVTPTTLLATLRTID
+SMWTNQKQQENAFEIARQAGALYDKFEGFVTDLVRIGNKIKDTKTEYENAMSKLVDGRGN
+LISSVEKLKKMGAKAKKSLPENIIARASNSDENQSLN
+>tr|A0A1S1J410|A0A1S1J410_9FLAO
+MRYDSIPASLFENNRKRFIEKMQTNSLAILTSNDVMPNNTDDVMGFAQNNDLFYLSGIEQ
+DETILVLYPDAFKEENRAILFVKEVTEHTLIWDGDFLTKEKVTALSGIKNVKWIHEFEKA
+LQLFAFEADAIYLGHNEHIKRITSEMNTRQDRMIQWCKQKYPLHHYERVAKITRELRPIK
+SAEEIALIQKAVVISIEGFKALLKAVKPNVKEYELEAELAYHYIKNGGNRHAFKPIIASG
+KNACALHYNTNDSVCQDGDMLLVDFGVCYGNYNSDTTRCLPVNGKFSPRQKEVYQSVLHC
+LKEGSKFLKPGVLSKEYELQMASLVEAELVKLGLITLEEIEAQDPENPVYKKYFMHGTAH
+FLGLDVHDVGLYSKPFEKGMVLTCEPGIYIREEGIGCRLENDYLLTEDGNINLSEGLPIE
+IEEIEQLLNTK
+>tr|A0A1S1J7Y7|A0A1S1J7Y7_9FLAO
+MIKKNVLSVLVVLAVLLSSCKQEPKETPAPLIDVKTFFKNGEKSTFRISPDGNYFSYRAD
+YKGKSNIFVQKVGEQKAVRVTNDTLRSISGYFWKGDRIVYAQDIGGDENFQLFSVKADGK
+DLKALTPFPGVRSDITDALIDIKGKEKELIVQINKRVKEYFDPYLLNVETGTLTLLYDNK
+ENFDGWFTDNNGIIRLASKTDGVNITWNYRNSEKEPFTPLVTTTFKDIFTPASFDKNNKN
+IYALSNIGKDKVILVEYDPISKKNVKELFSDPNYDLSTLDYDRKKQVLTSVGWEAEKQEK
+HFFDKDWETIQNNLEKKLEGYETEIVSYDDARTKAIAWAGNDRTPGKFYLYDFKTAEIKE
+VANPYPWIEEKQMSHIKPVTYKSRDGLEIHGYLTLPLGIEPKNLPVVINPHGGPWARDGW
+YYNPEVQFLANRGYAVLQMNFRGSTGYGKKFWEASFKQWGKTMQDDITDGVEWLKKEGIA
+DEKRIAIYGGSYGGYATLAGVAFTPDLYAAAVDYVGVSKLFTFMNTIPPYWKPYLDQFHE
+MVGDPKKDSLLLASTSPALHADKIKTPLFVAQGANDPRVNKAESDQMVEALKKRGVTVEY
+MVKNDEGHGFHNQNNRYDFYGAMEKFLDKHLKKAK
+>tr|A0A1S1IZY8|A0A1S1IZY8_9FLAO
+MQIRENLSFKNRIMGMISHEIRSPLSIISIYSKMISASIKDAEIKDTFKSIQFTTNSLLL
+LANQILEYSKDGNYEPKLNNKKFLLKEEIHQIVNSMASLVESKGNKIEVNSNLISNLEVN
+SDAAKIHQLFYNIIGNANKFTENGLIKIAMDLEKTSDKQVNLKIEIEDSGIGIAKNDLKN
+IFELYYQGTVSGKVNDLGVGLGLNLCKEIVELFDGKIDVQSEEGKGTTIIFNLFISLV
+>tr|A0A1S1J9T0|A0A1S1J9T0_9FLAO
+MILEMKVPSPGESIKEVEIATWLVKDGDYVEKDQAIAEVDSDKATLELPAEMSGVITLKA
+EEGDTVAVGAVVCLIDTDATKPSGSAPAAEAPKAEAPKAEVKTEAPKAAPVQAPAATSYA
+AGTPSPAARKILDEKNIAPASVSGTGKGGRITKDDAVNAVPSMGTPTGGSRGTERTKLSM
+LRRKVAERLVSAKNETAMLTTFNEVNMTPINQIRNEYKDAFKAKHGGLGLGFMSFFTKAV
+TRALELYPDVNSMMDGDYKIAYDFADISIAVSGPKGLMVPVVRNAELLTFRGIEAEIKRL
+ALRARDGQITVDDMTGGTFTITNGGVFGSMLSTPIINPPQSGILGMHNIIERPIAVNGKV
+EIHPMMYVALSYDHRIIDGRESVGFLVAVKEALENPLELLMNGDAKRALEL
+>tr|A0A1S1J8C4|A0A1S1J8C4_9FLAO
+MNNLKRTNSDDTDFKNLVVLLDQDLKIRDGDDHAFYNQFYKTDLIKHVVVFYENDIAVGC
+GAFREKEKDTVEIKRMFVHPDFRKRGIASQVLAELEQWAKEIEYRYTILETGKNQPEAIS
+LYQKLGYTIIPNYPPYEKMDNSVCMKMTL
+>tr|A0A1S1J9I9|A0A1S1J9I9_9FLAO
+MNTFSFKSVLAASVFFVGATGCFAQDILVNSLKLNASEKSKENFKFTEVINLGTTSVKAQ
+GSSGTCWSYSTNSFLESEMIRLGKQPVELSQIFSARNVYVEKGINYVRMHGAVSLGDGGA
+LHDVINMYKKYGTVPREVYTGLNYGTDKNKFGEMAALIEGVLAAVVKNPNGELTPNWQKA
+YAAVIDSYLGKTPDNFTYKGKNYTPQSFAKEVVGINPDEYIEMSSFTTSPYYQKTTMMVP
+DNWSFDQVYNVKVNDMTDVIDNALKKGYTVAWATDVSEKSFSWKNGVAYVATKKFDDMTA
+EEKADMFNGPKAEPEITPEMRQTAFDNYTTTDDHGMHIIGLAKDQTGKEYYIVKNSWGET
+NDYKGFLFVTKNFVKYKTTALMVNKGGIPSDLAKKLGV
+>tr|A0A1S1J4G5|A0A1S1J4G5_9FLAO
+MNQNVFIELINPFKDKVFRLAKRLLTSTEEAEDATQEVMVKLWNKKDSLDSYNSVEAIAM
+TMTKNYCLDQLKSKRAGNLKIVHNNYTDREPQLDKKLEDSNSLEWVEKIISQLPEQLQIL
+IQLRDVEQYEFDEIAKIVNMNETAIRVALSRARKKIRESMVNTHSYGIQ
+>tr|A0A1S1J477|A0A1S1J477_9FLAO
+MGNINPQYNDRVQYILKSKEMGELIIVEPIGWNDDDKEYSRNEEYHGIFPKFSNSLQFVK
+EGADYIQLGYDIYGIMMEIELIRNERHPQNDVWTLTYSGYLDLSTWGRSNGQVKVKFNSG
+GLEQELKARNSETVEVDRTTTINDSIIPELQTINVELDGRKIFLQTKFVTKESENSADLV
+NTSSDGNTRGSTISVPMALINKSHESAQAPIAGSLVGDNSWDRTGNGDVSNLFFAISDRD
+RDLKIKIKLQFKANIYTFDDVQNFKFCVRLATYKNGGDFILKENRFLFEKTSHAELHGKT
+FQVDFDDTVKILANESLGLLFDQNVDFANTRSQRLEISAENIVCSLDVDEESFEEKSTTK
+AILAHELADRLVTIATNKQGAFYSDYFGRKDLGYPVNGKGAYVAFTHGFWVRQFDKLPLP
+KEETSTSPKVTNLFKPVTTSFSDFTTSTKAVFNLGIGIENIGNKERVRIEELSYFYNKNV
+TIRLPNQVKNVDRNTAPDKYYSAIEIGYEKGGDYEEAFGLDEFNVRSNFSTYISRLKNVY
+TQISKYRADSYGMEFARRKPKSLNETEDSSYDEDIFFLDLKKTSSNTFSQRKWQDDFEKA
+PTGIFSPETATGLRLSPVNSLLRHGWWISASVIKYATNKLKFGSSAANRQLRTKLSGKHE
+YAENGDVINAELEPARFIPETIDFEHVCDFDVMQQVNGFTMILGKKVMNLYGLVEFINED
+GETEKGFLLNLKPNGKGSWKVLKFNR
+>tr|A0A1S1J4K3|A0A1S1J4K3_9FLAO
+MKLYNSIKNNKTALVLLSLTTFFSSCSNYLDVDKDTDDPTVAPLNYLLTNTQTTISELGD
+FNNSTGDILAVYTHQMTSREEEDQYGVKVDNIPMNNDWNTIYLGLNDIETLIKQATESGN
+LVYLGIAQMEKAYIMAYAVDMWGDVPYTEATKLTSGNLGPKFDNQKEIYASIFKLIDAAK
+ANLKTNAGLKKPGLDDVFYGGSNTKWIKFANTFKLKLYNQVRLTSDFDQAGFNALVAEGD
+FFTSNADDFQFARFNSISPTNERNRLFIESYESTQFGSYQSPWMYEILKGVNPNIHNGNP
+DPRMKYYFYNQLKPNQFPPDQGNTTTGNPGADYWDKSTGFVSIRFGSTGPDRDKSAENTF
+TYPGIFPSGGRYDDGQGGSVSTLAAKSGTGIAPHRILTYDEFLYIQAELIQTGKLAGSAS
+TKLQQAITASFAKVDQVVAKSQSPQLATIPVLTGSTAVTNFITKIITEFNAADATKKLEI
+IMTQKWVGTFGDPADQYVDYRRTGFPVLANPLSTTKEYQLNNNDAFPLNDSQTVLNNPFQ
+LSWYWPQVELNSNANAPAQKNPGTYKIFWDL
+>tr|A0A1S1JAS0|A0A1S1JAS0_9FLAO
+MEKVKAKKHLGQHFLKDESIAKAIADTLSLNGYDEVLEIGPGMGVLTKYLLDKPINTHVI
+EIDTESVAYLGENYPKLKDNIISQDFLKYNINEVYENKQFAIIGNFPYNISTQIVFRTLE
+FKHQIPEFSGMFQKEVAERICEKKGSKAYGILSVLAQAFYTTEYLFTVDENVFIPPPKVK
+SGVMRMTRKEDYSLPCGEKLFFTVVKTAFQQRRKTLRNSLKTLNLTDKLREDTIFDKRPE
+QLSVEEFIELTQKIEADGVQS
+>tr|A0A1S1IZZ4|A0A1S1IZZ4_9FLAO
+MKEKYDLIIVGSGVLGTFHAYHALKKGMSVAILEKNSKPEGATVRNFGQVVPSGMDLKWQ
+NFGKESLKIYKDIQSQFDISIRQNGTVYLASNEEELQLIEELHQINISNDYESNLLTKEQ
+CLNKYNGLRADYCKGGLFFPQEVTVEPDTMIHKLHQFMTANLGLDLFMNTTVVETQDLND
+EVIARTAAGVVYKASKIIICNGSDFKILYPEIYNNSDLIVSKLQMLQTKPQNNYRLDGSI
+LTGLTIRRYESFEECKSYQTIKAKENPDSFEKKYGVHILFKQALDGSVILGDSHEYAPAK
+DIDSLGFDLNMDIDHFMIEEAKKIIDLPTYEIQNRWFGMYSQCKTKDIFEYTVDQNIHII
+TGIGGKGMTGSAGFAKHNIDTIFNA
+>tr|A0A1S1JBJ5|A0A1S1JBJ5_9FLAO
+MNAKLLLGALILFFTLNSCKNDAVKEEQTSSKDNFSVVIEGVFEKNDKLQVFYLLDGKEW
+SEENSVSQAIYASKDMQKIELDFPKNIKIKNIRVDLGFNPTQSYVTIKNISVKYKDEIID
+GDLEGYILYFTPNEFVTWDPNYFGYKLSTLNDNYDPFMTGNELFMDKLAMMGQKKE
+>tr|A0A1S1JGJ4|A0A1S1JGJ4_9FLAO
+MAKEISKVVKLQVKGGAANPSPPVGPALGAAGVNIMEFCKQFNARTQDKPGKICPVQITV
+YKDKSFDFVVKTPPAAVQLMEAAKLKSGSGEPNRKKVASVTWEQIRTIAEDKMPDLNAFT
+IEKAMSMVAGTARSMGITVSGDAPF
+>tr|A0A1S1J4E3|A0A1S1J4E3_9FLAO
+MKKLFIFSALFSLLLSCNTKTTKENNTTNKETVTKTDNSFSKTTIYEGIIPCADCSGIQM
+TLKIYNDYSVSQNNKFELISVYQGKEPGNVFTQKGNFNTERGLDKDPDGTIYVLNWDQPE
+EKQLYYGYYSSNPEKIYLLDKDRKRIKSDLNYFLTLKK
+>tr|A0A1S1J8Q7|A0A1S1J8Q7_9FLAO
+MNNFDWTQLINPEFYITLSIGGVQIGLFIVLFIVFAETGLFAGFFLPGDSLLFLAGIYSR
+DLMQNVVDIPTDFLNVFILSTLVAIMGVLGNMTGYWFGAKSGYYLFKKEDSFWFKKKYLL
+QSKDFFEKYGGKAIIYARFLPIFRTFAPIVAGIVSMDKKKFMFFNVLSSFLWSFILIFAG
+HYLYGVFLKEGIDLKHHIEYIIIIIVIISTFPVLIKLFKKRPSEKI
+>tr|A0A1S1JA25|A0A1S1JA25_9FLAO
+MATNRTFTMIKPDAVQNGHIGNILAMITNGGFKIVSLKLTQLTVADAQAFYAVHAERPFY
+GELVEFMSRGPIVAAILEKDNAVEDFRTLIGATNPAEAAEGTIRKAYATSIGENAVHGSD
+SDENAAIEGAFHFAGREQF
+>tr|A0A1S1J407|A0A1S1J407_9FLAO
+MCVNGKEIKLCTCVPNGMDTIIHHKNSRKNRKKRRVDFTWTLEKCMGYSKTTMDGMGYRP
+EEVLTEDLTNERMLMVLNTNNCFDFDYQPGEGDNLQVFAPENSMRRHLSFIFKNGEWTAG
+SHMPFMYEMEKINFGKVTFKDI
+>tr|A0A1S1J5T8|A0A1S1J5T8_9FLAO
+MNIPKQDFLSTNKLASVFSNTSATYKFYWFLAILELVEKDNFNIEKRKIFSRMISNSWYT
+VNYFQISFGKQDLIQDAVRAIIKTENLTINENRNKINSVLENTNNIQTIRILNHFDKNVP
+HWFISSWFSGTRNEIYLLSQNFDYGCLYRLEKDYIEINPIWISYLKLNSKILKDFCYWNL
+SIFLQKRNPNVPDIPNKIYKTITRNSLIKQTNEYWKFVFNELGAVDCIFTDKKLVFDEKR
+YALDHFVPHAFVSHDLIWNLIPIDKNFNSFKSNKLPLIDKYFDRFYTLQKTAFEIVKSSN
+SKNKYLEEYLGIFPDLDDSGLDYIRFKETIQPLITIASNNGFSYMKE
+>tr|A0A1S1J5W8|A0A1S1J5W8_9FLAO
+MKLKFFLFVLLGVITTANAQNSGSVSGKITEKSNSAPISYATISIKENGKVVAGVNSDDH
+GDFSIKNLALKSYTIEIQYIGFRKYVGSLLLSDNKKTATINVSLEEEATQLKGVNIVSER
+STIEQKIDRKVITVGKDLTTAGASASDIMNNIPSVNVDQDGKLSLRGNDNVRVLIDGRPS
+NIDPAQLLKQIPSTSIKKIELITNPSAKYNPEGMSGIINIILHKNTNTGFNGSYSGGITF
+GEVAKYNQSLDLNYKTGKVNFFGNVGQNFGTYYNDGFINRYDQDIRQKIDVVNENDSYLY
+KIGMDYFINDHNTISFYTNQNKSNGKFFVDTNIDYSNVSSSDINNMLQKSKYTGPDNVGT
+YNLAYKHIFKKEGHTLDIEGNYSDNKETQNAGFDTQIRKKDNTLNNQSYNDYIAGTRKLS
+TLNIDYVNPLNDKTTLEAGAEARITKTDNDYITGNPLAALPVSNYTYDTDIYSAYVTFGQ
+KFKKFSYQLGARFESYKVVANLNHGLDKFNDDYITLYPSAYLTYNLNEKNTLQFSYSRRV
+DRPSLEQTKPIREFSTPLITALGNPELRPQFTNSVEVNYTKTFEKGSFTTGVFVRSINDQ
+ISRVLLPDDTDPSGNKQILTYANFDRNTSYGFEASFTYKIAKWWDISPSIDFSSINQQGI
+VFVYDPVTQKSSPLERKITVGAFNGRMNSNFKVNKRLSFLLFGFYRGEVEGLQNNSHAMY
+KMDMGSRYTLLNNKMNISLRFNDVFNTMKYAFDSQYPYSHSGQFTWESQTVYLGLTYNFG
+GAKIKNLQRKQREDNTNKGGGGLF
+>tr|A0A1S1JAH2|A0A1S1JAH2_9FLAO
+MRQLKITKQVTNRETASLDKYLQEIGKVDLITADEEVELAQRIKAGDQRALEKLTKANLR
+FVVSVAKQYQNQGLTLPDLINEGNLGLIKAAQRFDETRGFKFISYAVWWIRQSILQALAE
+QSRIVRLPLNKIGSINKINKMYALLEQSNERPPSAEEIAKELDMTVNDVKESMKNSGRHL
+SMDAPLVEGEDSNLYDVLRSGESPNPDRELIHESLRTEIERSLETLTPREADVVRLYFGL
+GDQHPMTLEEIGETFDLTRERVRQIKEKAIRRLKHTSRSKILKTYLG
+>tr|A0A1S1J0J8|A0A1S1J0J8_9FLAO
+MGDRILKDIRFYESEKQNIEGQSIPRQLGKLFVPTKDTNFIGQRIARKLNELKFTYGEFD
+HIYINLTTVLKENEIIISNRNVDKRIKYLDFGIDVEKLQSLSDSEKNILIKSITFQALRK
+ISNDLNLALVNQTEKLIDELDTKIKIHFKTKETKSFKIDIYYQIEVEEIGTMAVIEYKDK
+KNNFYGSMNYKLQFYEDIYTLIDTISIAKGLITLKPKKSFTADINNKRYETPIQLELSDF
+TPVI
+>tr|A0A1S1J4X1|A0A1S1J4X1_9FLAO
+MRKLSWFFLLPIILFSTIVSAQKSAIYTYDLKDFDKALALYNDKQYASAQLIFEYVKNNA
+TTEEVQSDCAYYIANCAIRTNKVNADALMEKFVHDYPTSTKQNQAYIEVAQYFFEQGNYP
+KALQWFDKVDESYMSKSDSDKFNFQKGYSYFSAKKKKEATTYFNKVVNSADFGSQAKYYL
+GFMAYEGDDYKEATKYFDEVSGEEKYKEKLSYYQADMNFKLGSFQKAIDLGQKAMSKSND
+LEKSELNKIIGESYFNLKQYGKAIPFLEQYAGKKGKWNNTDFYQLGYAYYEQKEYEKAIS
+QFNKIIEGKDFVAQNAYYHLGLAYLNTGKKQEALNAFKNASEMDFNAQIQEDAALNYAKL
+SYEIGNAYQTVPGILLDFLKKYPNNSSRSEVEKLLVDSYISSKNYKEALSLLEKNRSAEN
+KAAYQKVLFYRGVELYNESNYPEAGKMFKNAVSEQKTPEFTARATFWKAETEYMTDDFQN
+ALLSYKQFAGLAEAKTTNEYKNINYNIGYAYFKQKEYDQAGNSFQAQIDNSKEDKVRLND
+SYLRLGDCRFVSSKYSAANEAYSKAIEAKGVDADYAQFQKAISYGFMSKNDKKAEELSHF
+LQMYKKSSYRDDALYELGNTYVAEKKNDQALKTYDQLISEFKNGSFTSKAILKQGLIYYN
+SDRDDQALVKFKKVAAEFPKTPEALEAVSTARLIYVDSGKVDEYATWVRTLDFVAVTDAE
+LDNDTYDAAFKQYSQNNSKQAITGFTGYVNKFPKGMHALEANFYLAQLYFAEGSETKSVA
+NYQYVTDQPRSEFTEQSLSRLAQIFLKAKDCDQSIPVLVRLENEADFPQNKNFAQANLMK
+CYYDKKDYDNSVVYADKVLQNAKADANVKADAQIIVARAAMQTGNEDKAKTAYAKLSATS
+KGELAAEALYYDAYFKTKEGKFDASNVSVQKLAKNYSAYKYYGAKSLVLMAKNFYGLKDS
+YQATYILDNVINNFTDYPDVVEEAKKELSAIKLEESKTNSSITK
+>tr|A0A1S1J5P7|A0A1S1J5P7_9FLAO
+MKRTIKKVAVIGSGIMGSGIACHFANIGVEVLLLDIVPRELTEAEAKKGLTLESKAVRNR
+VVNEHLANSLKSKPSPIYSQKFANRITTGNTTDDMAKIAHVDWIIEVVVERLDIKKLVFE
+QIEQFRKPGTLVTSNTSGIPIHFMSEGRSEDFQQHFCGTHFFNPARYLKLFEIIPGPKTS
+TEVLDFLNEYGSKFLGKTSVVAKDTPAFIGNRIGIYGIQSLFHLVKEMGLTIEEVDKLTG
+PVIGRPKSATFRTVDVVGLDTLVHVANGIYENCPTDEQHELFKLPDFINKMMENNWLGSK
+TGQGFYKKVDKDILSLDLDTLEYRAAKKANFATLELTKTIDKPINRFKVLVKGTDKAGEF
+YRKSFAGMFAYVSNRIPEISDELYKIDDAMKAGFGWENGPFEIWDAIGVAKGIEIMKAEG
+LAPAAWVTEMLASGSDSFYSVKEGATFFYNIPTKSQTKVPGQDSFIILNNIRESKKVWSN
+SGAIIEDLGDGILNLEFQSKMNTIGGDVLQAINKAIDLSEKEYQGLVIGNQAANFSVGAN
+IGMIFMMAVEQEYDELNMAIKLFQDTMMRVRYSSIPVIVAPHGMTFGGGCEMSLHADKVV
+AAAETYMGLVEFGVGVLPGGGGSKEMALRASDLFRKNDVELNVLQEYFLTIAMAKVSTSG
+YEAFDTGLLQHGKDIIVVNKDRQIAEAKKHALLMAEAGYTQPIRRTDVKVLGKQALGMFL
+VGTDQMQAGKYISEHDRKIANKLAYVMAGGDLSEATLVSEQYLLDIEREAFLSLCTERKT
+LERIQYMLTKGKPLRN
+>tr|A0A1S1JBY6|A0A1S1JBY6_9FLAO
+MKSSTQQNIKTLGITVFVLIALNVLGSLFFHRFDLTKDKRYTLSETSLQIVKQVKNPLSI
+KIYMQGELPADFRRLQQETRQLLEEFQAYNSNIVFEFVNPLENEDESMDVIKSLYQKGLT
+PINITVDDKGKQSQAMVFPWAVAVYNNKEVNIPLLKNIMGASTTQKVIGSIQHLEYSIAD
+AINKISKDRQKKVAIIKGNGELNEIHIAKMLQQIRESYYIGPFTLDSVGQNPTGTLAALK
+KYDLAIISKPTETFTDEEKQVLDQFIMNGGKTLWLIDQVAADMDSLYNQAGATLAYPRDL
+NLNDMFFKYGIRINPDLIKDEQGSPLKLATGEQGSATQYQDFIWKYAPLVQPSSQHPIVK
+NLGGIKFDFASPIDTLKNGIKKTVLLQSSPYSKAIGTPAPITLNSVTEKTTPQDYANKGN
+IPLSVLLEGSFHSAFENRVLPFKENSFLAKGKPNKMIVIADGDLARNQLDKNMMPVELGY
+DQRTGNLYDNKDFMMNCINYLLDDTGLINIRSKDVSLPLLDKEKVYENYTLTQFITIGLP
+ILILLIFGLAFTYIRKRKYSN
+>tr|A0A1S1J2L5|A0A1S1J2L5_9FLAO
+MYFQNYLAEIGKTAIYLTIFLSLICTMIHIAFFEDQPIVCGGLTSFFSNQKDLEVLFYAT
+NKQDLYLKVQEHSGLDLIIVDLIASDVQGLEVYEYLHKNHPDLRVIAFTSLSSPILVENL
+LAMGVKGYVNKNQDSEDLLEAIRLVWEGGVYLPDDYAFLSKQNRVGTAITLTAKELTIMQ
+YIIREFTTADIAGELKLSVNTVENHRKNIFSKLDVSNVAGMVREASKLGHIN
+>tr|A0A1S1J314|A0A1S1J314_9FLAO
+MSITLTPFTKQQLLPQEEKLEIGRFKSELFIGIPKETSYQERRICLTPDAVSALTYEGHR
+VMIESGAGESSSYTDKEYSDAGAEVTNDTKKVFGCPMLLKVEPPTTAEIEMINPETIIIS
+AIQLKTKKKAYFEALAQKKITALAFEYIKDEDGSYPAVKSLSEIAGTASILIAAELMITD
+EFGKGLLFGNITGVPPTDVVILGAGTVGEFAAKTAIGLGANVKVFDNSITKLRRLQNSLN
+QRIFTSTVQQKALLKALRRCDVAIGAMRGKERCPIIVTETMVEHMKKGAVIVDVSIDTGG
+CFETSEVTTHEKPTFIKSNVLHYCVPNIPSRYSKTASLSISNILTPYLLQIAEDGGLESA
+IRCNKGLKNGIYMYHGILTSKAIGEWFDLPDNDINLLVF
+>tr|A0A1S1J4S4|A0A1S1J4S4_9FLAO
+MCCSANAQDLISPSYGFSHSKTAYITLADGTEINGTIKDIDRDKGLIEFIKLQDGTGKKH
+KLKPEDIKFMYLPPSGLDNLGKRLNFLEDFKKWNDDKLNQDFLNQGYAYFETADVKIKKR
+NSKLLMQLLNPSFSKEFKVYCDPYAKETTSLGVGGVKFIGGDAKSYYVAKKDSPAFLLKK
+KDYKKEFVPLWGSCEKVIAANPEPKWTDLTKHIVSYSECTEAK
+>tr|A0A1S1J6U6|A0A1S1J6U6_9FLAO
+MNNSIEKGKPIAITSYILIIGVLIAMSMNSEDKNSFASFHIRQALGLSLTFISFGAIISN
+FDSFFITFPMWICISILWTYGIFTAIQGQTKPIPLVGELFQKWFQKIG
+>tr|A0A1S1JAJ5|A0A1S1JAJ5_9FLAO
+MKKRTILYMAGILLGSMTACTKDFEEINTNPNSVEVPNATFIFSQSQLDGLNNNYFFTNV
+LQCGGMLQHYATYKEASGVGDKYLNNESYYSAYFNRGYPTAVNEIQTVINTLKDNPVESN
+KLNIARIWKAYIYHRMTDLYGDIPYTEASKAYTNEHFLPKYDSQEFIYKDLLKELDEAAA
+ALDPAKASFGKADFIYEGNIAKWKKFSYSLILRLGLRLSKVDPALSKTWVTKAITGGVIV
+NAADNALIKYTDGPNDFNRNPAGIDSRSLDFAKDSFGQKNTEGGKLAKTFIDVLKTTADP
+RLSVYSGVWQGTVQNTDPAVQKGFPNGTKTAPSPAEQGTYSEPNQSTVFRYDAPMMILSN
+AETNLYLAEAAIRGWYTAETDKDLYEKAVKASFLNMGIYGAAYAITDATPYLTLNPYNVA
+GTFDQKMSQIHSQIWIALFVDEQEIYANWRRTGYPALVPINFPGNVTNGTIPRRIKYPVS
+EYSVNSSNLADAVKRQGADAFTTRIWWDK
+>tr|A0A1S1IYX8|A0A1S1IYX8_9FLAO
+MNKLVTFLAFLIFGFAQAQQLNCTVTINTERLPNPNQQVFKTLQTSLSEFVNKTDWTGIA
+LKQNERINCSMYITLSSNSSDQFSGTIQVQSSRLIYNSTYSSPILNYNDKDFNFRYIEYE
+PLLFNPTTFESNLVSVVSFYSYLILAMDADSFQMGAGNQYLETAQNIASVAQQGGSKGWS
+QSDGVQNRYYLITDMISPMYSDLRQTMFMYHNGLDGMSQDLKASKEKIKSALMLTGKLNS
+VKPNAFLTRVFFDAKSDEIVSIFSGGPSIPITDLTDVLNKVSPLNTTKWSQIKF
+>tr|A0A1S1J5W9|A0A1S1J5W9_9FLAO
+MLKKTISLATILLALTVLSCKDDVVPKPAGFLRLDYPEAKYVGFENNCPFTFEMNEAAVI
+KGEKNCGFAITYPKMKATIYLTYKPVQGDIVKLLKDAQKLTYEHVIKADDILEQPYLNPQ
+KKVYGMFYRVDGNAATNSQFYVTDSTKHFITGSVYFYAKPNFDSVMPAASYIRNDMQRLM
+ETLKWK
+>tr|A0A1S1J153|A0A1S1J153_9FLAO
+MIKITLPDGSIREFASGVTPMEVAKSISEGFARNVISASFNGTTIETETQLTTDGSLTLY
+TWNDAEGKKAFWHSTSHVMAQALEELYPGIKLTLGPAIANGFYYDVDFEDQKITDADFKK
+IEDRVLEISRGKHEFKMRPVSKADALEMYKDNVYKTELISNLEDGTITFCDHATFTDLCR
+GGHIPNTGIIKAMKVMSVAGAYWRGDEKNKQLTRVYGTSFPKQKDLTEYLELLEEAKRRD
+HRKLGKELELFAFSQKVGQGLPLWLPKGAALRDRLEQFLKRAQKKAGYEQVVTPHIGQKE
+LYVTSGHYAKYGADSFQPIHTPAEGEEFLLKPMNCPHHCEIYNVRPWSYKDLPKRYAEFG
+TVYRYEQSGELHGLTRVRGFTQDDAHIFCTPEQLDEEFKKVIDLVLYVFGSLGFENFTAQ
+ISLRDQENREKYIGSDENWEKAENAIINAAADKGLNTVVEYGEAAFYGPKLDFMVKDALG
+RQWQLGTIQVDYNLPERFELTYKGADNELHRPVMIHRAPFGSMERFIAILLEHTAGNFPL
+WLMPEQAIILSLSEKYEIYAKKVLDLLENHEIRALIDNRNETIGKKIRDAEMQKTPFMLI
+VGEEEEKNGTVSIRRHGQEGKGNITVTIDEFVAIVNEEIKKTLKVFTV
+>tr|A0A1S1J5M8|A0A1S1J5M8_9FLAO
+MDSEKFIFCLEGVPDIENNFVTQVVKNLEEIAIDQGIASIYKTCDTIEGLEESLNVLLYE
+DHNFKDYEIIYLVMPGGPNNICLHDYYYSLEEIAELFEGKMKGKIIHFANLKVLDLNDEE
+AQYFLDITGARAISGYGSTYNKIASCSTIDKAFFSLYQENDDITEVVEELYQKHYALCKL
+LDFRLYY
+>tr|A0A1S1J7F7|A0A1S1J7F7_9FLAO
+MKKILVIDNYDSFTYNLVHYLEDLNCEVTVYRNDEFDIDEIASFEKILLSPGPGIPDEAG
+LLKAVIQKYAPTKSILGVCLGQQAIGEVFGGTLSNLDKVYHGVATNVKTVVSDEILFEGL
+GSEFEVGRYHSWVVDSNLPDALEATSVDENGQIMSLRHKTFDVRGVQFHPESVLTPKGKL
+ILENWIKS
+>tr|A0A1S1J897|A0A1S1J897_9FLAO
+MLLKKLSFMDYEFISKVVLIIGIYFFVNYFYKKTDWHSSSKNEKKKFQYYFNYIFIFFFI
+TFLYIFIAFVFIVFLKESLHYLATRSYWEQIFLVLGVIVSYFYYLIISDSRKLKDNEKSS
+IIKEQKKLIYQLEEKINTLEKEN
+>tr|A0A1S1J8D2|A0A1S1J8D2_9FLAO
+MGTVEERIIKSETRIFKAVFPSTTNHYDTLFGGTALHVMDEVAFICATRFSRKKVVTIST
+GQIDFKKAIPAGTLIELVAKVISVGRTSCKIHVDIFMEQMYSELRETVVSGTFSFVAVDE
+NKKPVPILDDLN
+>tr|A0A1S1JC39|A0A1S1JC39_9FLAO
+MKETSNKYLIVALLFGLTFHGSAIFFTLESSYDALIHMFFGNHYAHSWFEPWNYSWYTGF
+NVMSYPPLVHQTIGLLSLIGGLKFGMFTVAIVGIILFIAGTFRFSLLITGNRTVAGYSAI
+LAVVSSSFVETLHIFGQLPSIIGVSVLMHALPEIYLFIKTGKKKYYFTSLSLMAVTVCSH
+HVTPLFGMVFFVSPLIGMIVMDTARENVNSFKEITFKIFYKTFLSLLKRIILFCGSAVFL
+LVFCILPYWINSKANPITQVPIPHGSRDNFIEVTSSGLMFFLIPWGILLFILPYIFYRYY
+SKRYIFFGLSLTLLTVLGTGGTTPIPLAILGENAFNILTLDRFTLWASIMSLPIFGEFVY
+RLVEGDLRTALQVKFGSVYRRILGGLFAGCFLFFAVFTMTLGYFRPLQPQKINFLPIVNF
+LNQDQHDHWRFLPLGFGDQMAYLSTQTKAMTVDGNYHSARRLPELTSRAVERLENSKFRG
+LEGIGSLQQFLTVPEKYNLKYVFSNDKFYDPILYFCGWHRLSQLENGIMVWEKLNVQPLS
+KILPKDEVPIYLKLMWGIIPMLTILLAFILNVQMIWLQALKIKPLEKPSFNKYGIVYANF
+PRAMIKFLHIWTGILLLIISFGAYRIYIKNAVQISPENVVKAYYDALDFKFYDKAHSYVV
+PNKEYSVAQFMLEISVSDGVLNSYAKLDAIETKIVQQSKDKARVIATTKWVTPLELIEKK
+YIHDVQKINGKWFIIPDKKDTDIPPHEFMSENINSYYKQGRRKITTQQTYHEDVLRQPDL
+EIISASLVKIDSQYIVIGEVQNIDNVPADVVLKATLYDRNDKSIAVFNAKYTIKHKLMPK
+EVTSFKVNFEDIAWLKPTDVKPTTFNPNEFTPKELKNIPATFDIQSAGNVATTDLYNSVA
+ISDLVIDNNQIKGTLFNYGIQEVTIPELLISYYNDKKELVYVDHQFIKEGVRIQRKQYFT
+YNLLRDLNPVIIKSSTENCFVNGLESEALARAVIPVRNSKQESAQMQRVKGHKGYSFIKI
+EINNYIGNPR
+>tr|A0A1S1JDD0|A0A1S1JDD0_9FLAO
+MSVKIRLQRHGKKGKPFYWVVAADARSKRDGKYLEKIGTYNPNTNPATIDLNLDSAVKWL
+HNGAQPTDTARAILSYKGALLKHHLDGGIRKGALTQEQADAKLAAWLEAKAGKVDAKKDG
+LSKAQADVKAKALKAEQEVNAKRLAAAAQAEADAIAAATAAEATEEVAEVEASTEETATE
+ENNETTEA
+>tr|A0A1S1J3U6|A0A1S1J3U6_9FLAO
+MKIVKTYKIALMAGVLLLASCAHEVQPKESQFDFSALSKTDLDKWIGTNFLDPYNINVYY
+EWNQNLVDNTKYLFPPQVDKVQPAMEVVKKIWVDSYTKIGGVNFVKKIAPREFVLVGGVN
+LNTNGTVTLGLAEAGQRVTLFEVDKLNKKNRANVTQFIHTIQHEYVHILNQTKPFDEQAW
+SKLTPVGYTSTWYTEALSTSRSLGFITSYARLNIYEDFAETAATILTSSKAEYDAILASV
+TDATAKANIKAKEALVVKYYKDSFNIDFYALRDEAQKNTDVVVNN
+>tr|A0A1S1J5X5|A0A1S1J5X5_9FLAO
+MENTNHPLLNWIPYKLIEKENEVYLEWLYLADKRYVDPFFDETISKCKSHAYNSTSFKIV
+STVENLVDWSNELVSADLKSLVFHVSRCGSTMLSQSLATSKENIMISEAPLIDEILRSPN
+FGTDKKSELLQSALKFLGQIRFPEQKNLIVKLDAWHIFKAGYLRSIFSGLPFALLFRNPG
+EVLKSHQKMMGMHMVPNLLPPDVFGISAKEISEISFQQYGALVLGKYFQGFLDFYETDQN
+VVKLNYNDGMKSVIEKFISFITIDYSADELEKMYERLNRHSKNENAVFKGDSFKEEVLEV
+DLTLVNSLHKKLENVLLEDVTN
+>tr|A0A1S1J774|A0A1S1J774_9FLAO
+MEISGLVITYNEEKNIGKCIDALFRVCNEVIVVDSLSTDNTVKIAEEKGAKVVLQSFLGD
+GPQRIHGLPYCKNDWILNLDADEILAEDAEKFILSGQYEKQNFDVYAFSLYNYMGCKLIN
+FAGWYPDKTSRFFNKQTASPSKDSVHQKVCGTNKTHLKVHIHHYAWDCFGQFISKKNLYS
+TWHAQQLYDQNKRVSSFKPILNGTVSFVRCYFFKKGFLHGLDGFTFSMTQAFFSYMKYAK
+LLKLQKQNK
+>tr|A0A1S1JBG1|A0A1S1JBG1_9FLAO
+MNCIIIDDEEMARAIMGKMIESTSQLNVLQEFSNAINAIKYLNQNEVDLIFLDIHMPDFT
+GFDFIQTIKNPPKIILVTSDKNFAIEAFEYECIIDYLVKPITEDRFQKAIQKANTTPSSE
+KKNINKGINEDNINEFYINIDRRFIKIEFALVNIVEAKGDYIHIKTENKNYVVHSTLKKI
+EDKLPKDLFLKVHRSFIINTKKIIDIEDNSVLVGKDVIPVSRANRPDLMKRLNLL
+>tr|A0A1S1JE90|A0A1S1JE90_9FLAO
+MKSFLYKYRKFFIVLIVFSTVTISLFYSALKPQKTLPIYNPADVNPELVDSTVQYKSKYH
+TIADFSFVNQNGDTINQKNYEGKIYVADFFFTTCGSICPKMTTNLEDVQKAVLNNPKVML
+LSHTVFPEVDSIPVLKAYAIKHGVVDSKWNLVTGDKKEIYTMARKSYLAVKLGRPDQLYD
+MVHTENFVLVDQKRRVRGFYDGTNKEEIKRLLEDINFLCQE
+>tr|A0A1S1J066|A0A1S1J066_9FLAO
+MNISEEIFIANLGLHIKGLREKKDWSQQQLADACDIPRNQISRIERAKINTGIRTLIRIA
+NALDIELTELLSLHLK
+>tr|A0A1S1J7H2|A0A1S1J7H2_9FLAO
+METNFNKEQEDFELQKMASKKVVKLKAFYTHVIFYSVGLILYILKDYFGLPLNIFPVQYL
+NGFVMCIWTTAFVVSAIDIFASFKIFGEEWEERKMKSILEKKEKKQKWE
+>tr|A0A1S1JB52|A0A1S1JB52_9FLAO
+MKRILLFIMLAFSVENYAQVAVSPSYRGADEEFENGELEKFKSTTTIFVLPQLNSKESYE
+KILKEVWTVTPFKVVEYKDFKELDYLDGTYSFAKLEGDVKVSSKGGVFVHTNLGLKIFDK
+EKFDKGFKKIKPDAKNYDIKVNGVYEGATSYIAKFPLSVKPAFLLDAMKALTSEKAAIIY
+NRMYTESSFTNTNLGMLKNYFQNINEMIGKGGHCGLYDDYVNPEVKNLKESTLYIPEAYM
+MEFNSWKGTEKLRDEKDLKELVEDYKYKFQFIRDEDLEKKILNNEEIYYLRYVSMNANKY
+LQVVNAKTGLPAYYFYGIATYNLKDNDFERISKAVSKYSSK
+>tr|A0A1S1J649|A0A1S1J649_9FLAO
+MSTLLDNLNWRYATKKFDATKKISSQDLNTLKEAVRLSASSYGLQPYKVIIVENPEIREK
+LKAAAYGQTQITDASQIFIFANDLNLGADSVDAYINTISETRGVPADALGGFSDMMKGTI
+SNLSVEAKNIWTAKQTYIALGTLLTAASELKIDATPMEGFNAAAFNEILGFDKLGLNTSV
+IATVGYRHDEDETQHYKKVRKSHENLFITI
+>tr|A0A1S1J0G5|A0A1S1J0G5_9FLAO
+MKIYRLAVVLCLFFLSCDQKTKVEKAVEEIPVDIKVERFDKVFFETKPEDLAKVKKQYPF
+FFPAGNDDNVWLKKMQDPIWKEVYTEVQKKYSNFEPVREEFNALFQHVKYYFPKTKTPKV
+ITVIGEMDYNAKAIYADTLVIVALELYLGKDHKFYEFPNYLKQNFEEKQIMPDVVSSFAY
+RNIPAFRDKNLVSQMIFEGKQLYAKDLLLPNYTDAEKIGYTPEQIKWSQENEAYMWRYFI
+ESEMLYSDDPKLTTRFIVPAPFSKFYLEIDNDSPGRIGAWLGWQIVRSYMKNNNVTLSEL
+LKTEAKVIFEKSKYKPKK
+>tr|A0A1S1J1F9|A0A1S1J1F9_9FLAO
+MAGGKLTPRQKMINLMYLVFIAMLAMNVSKEVISAFGLMNEKFEDANTSSVTTNAGLLTA
+LDQKAAEAKGEFAIAAGTAHKVEAITKDFYSFIGGLKTQAVKGFEVDKETGKMPYESMDR
+GDNIDDWFTGDGYTKKGNEIIAKIEKYKSDIKAALGTDKKYADIIAEVEKKFNVSDVKNK
+EGIKEKYLAYHFKGFPAIASAAKLSAWQNDVQKLEADVYNRALGKAAVAAASYSNYQAIV
+VLDKNAYFQGEKVTGKVVLGRYDENTKPTSFQGPGQIVNGQAVISLTAGGVGEQNINGQF
+TFLEDGKNIPLKFAGKYVVVPRPNSATISADKMNVVYRGVVNPISVSFAGVDANKIVASA
+PGLVSAGKPGKYNMNPGSGTEATISVTGTLPNGDKVTDKKTFRIKGIPGPTGTIRGEMGV
+VKGPKSNLEIATIGAKLLDFDFEVGLDVVGFNLKIAGQPTVVVNGNRLNAQCKSVLARAG
+KGDQVTISEIKTKLVGAGSYLLPRTAPVIYEIQ
+>tr|A0A1S1J467|A0A1S1J467_9FLAO
+MINFNGNIVAEEDNILTQNRAFLYGDGVFETVKIINNKILFLEDHYFRLMASMRVVRMEI
+PMNFTMEYFEEQILSLVQQKGISKSARARITVFRKEGGLYLPKTNEVSYLIHATTLEDVL
+YALNSVEYEVDLYKDFYVTKQLLSSIKTTNKMINVTGSIFAHENGLANCILLNDTKNVVE
+VLQGNLFMVVGKKLITPPISEGCLNGVMRKQILALAKKVEGIEVVEEIISPFDLQKADEL
+FLTNVIMGIQPITKYRKKDFTSNLAHLLLQKLNESISEN
+>tr|A0A1S1J8N2|A0A1S1J8N2_9FLAO
+MNFQPTFENRQIAIEKALFFESLTSKLIKHMMGLELLGSTKSLDNKTSSISLRAKIDLLV
+DCGKIDKLTYANLLHIISIRNQFAHNFECNNFEDLPKFIDGIDKPLLKYSPDLSASVEES
+LKKGFLNMANQAFKFLLNEFGGVTKEYQIDTEKLKIRITEEEEKLLDQYGIQGARNRALV
+LNKVRQLLKEDENEELNSKINDEIIKFKSKNPDLH
+>tr|A0A1S1J9K1|A0A1S1J9K1_9FLAO
+MKVDVHAVNFTVDRKLVDFIQERMDKLEKYYDRVVSADVFLKVERTSDKENKAVEIKINV
+PGDDFLVKKQCKTFEEAVELSAESLERLLVKRKEKIRAHI
+>tr|A0A1S1J8X7|A0A1S1J8X7_9FLAO
+MKGVLIVNLGSPESPTPKDVKPYLDEFLMDKYVIDVPYLLRALLVRGIILRKRPKESAHA
+YAKIWWDEGSPLVVLSERMQKKVQPLVNVPVALAMRYGSMTIEKGLQELHDKGVSEVMLF
+PLYPQYAMASTLTILVKAEEIRKKKFPQMTFTNVAAFYNKPDYIKNLADSIQKHLAGFPY
+DHLLFSYHGIPERHIRKTDVTKSHCKIDGSCCNTPSPAHDFCYRHQCYETTKQVVKLLGL
+PEDKYSLTFQSRLAGDKWLEPYTDIEIDKMPAKGIKNLAVVTPAFVSDCLETLEEIAMRA
+REDFEKNGGENFLAVPCLNDDDQWCQTVGNWINDWAE
+>tr|A0A1S1J9U3|A0A1S1J9U3_9FLAO
+MNKFLITGLLICSTLGVIGQVKSPIKFTAKITNRNSDTLVIKGKDNFKQVIPINKKGIFV
+ASFDAPKGFYMFSDGTEGSNLYLKPNSDVNLTMDAKEFDETIVYKGKGVDESNFLAQQAL
+NDEKFQKEAFVKEATEFASLLEAKLKTDLASLEKGNFDAEFTTALKKKFESFNRYAKDDY
+ESAAKAKKMTGTLSPDFNYENHKGGKTKLSDLKGKYVYIDLWATWCAPCRAEIPYLQKLE
+EKYHGKNIEFVSVSVDKAKDNEKWKKFVTDKKLGGIQLFADKDWESEFVTSYGVTGIPRF
+IIVDPSGKVVSSDAERPSSPELQTQLDALLK
+>tr|A0A1S1JAR4|A0A1S1JAR4_9FLAO
+MKNWKFYNALFARILLVMIPFFFCVFLIYKELYYNAILVGFVVFLLLSEMYFFVKGQTLF
+YDKMLLSILQDDFSNNFPEESKKENFRNLFLLYDKLKVQRQEQTSKERIYQSILNNIDTA
+TLILEKEGEDWNLFLMNDCFSNLFKVPKVSQWKYLKNYLPSLCEEIEKTNFTELKTAISI
+KIEDQDLQTFVLQTSHTKMYEKEYFIILLDSIQRVIEKKEKEAWINLMKIISHELMNSLT
+PIRALSQNLLQIVDQDELEEDDFEDIKSSISTIINRSDHLQVFVENYRKLAMLPTPTKKM
+TPIKVLFEDCLRVMSPILKTENIELVNEINSSRSILIDKSQIEQVIINLITNSIYALKEK
+SEKKMFLSSYTENNRFFIIISDNGKGIDTEIRDKVFLPFFTTRKDGAGIGLTLSKNIIEA
+HGGYLSYQTDEDKTSFVICLI
+>tr|A0A1S1J765|A0A1S1J765_9FLAO
+MSTRVPQNQEDQEIDLLQISKKINHFFQRINTSIFRGIQFFVRNWILVAVLILLGFLTGW
+YLDANRESYDNKIIVAPNFGSVDYLYAKIDLIDSKIASGDTVFLKNIVGISNPRVISKIE
+IKPISDVFRFVENKEQNFELIKLMAEDGDINKILLDNVTSKNYTFHSISFISNELIDEKE
+FVEPILKYLNNSEYYNSIQKIEFKNIELKIAQNDTIIAQINDVLNGFSGTVKNTAKNDKL
+VYYNENTQLNDIIKTKKELINDQGRNRLELISFDKTIKDINSTLNIKNTKSIFGKLKFIL
+PVLFIILFGLINFFKTFYNKQLAKQKLTQS
+>tr|A0A1S1J5L9|A0A1S1J5L9_9FLAO
+MKKNYFLLLLMFAATAFAQIPTGYYNTATGTGYTLKTQLYNIIKGHTDNGYGGLYTTYQT
+SDVDNFFENDGTVLDMYSENPSGTDPYNYTTGSTQRCGNYVAEGDCYNREHIIPQSVFNE
+QSPMVSDAHFITPTDGKVNGIRSNYPHGNVSSATYTSQNGGKLGSSSVSGYSGTVFEPIN
+EFKGDIARMYFYFATRYENTVAGYSFPMFDGSGNKVFTTAFLNLLITWHTQDPVSAREIA
+RNNAIYARQNNRNPYIDHPEYVNQIWGGTPSSDTQAPTAPTSLASTSKTATSITLSWTAS
+TDNVAVTAYDIYANSALKTTVSGVTATITGLTPATAYSIYVKAKDAAGNVSASSNTISVT
+TDSGGTGSTTDLLFSEYVEGSGNNKAIEIANNTGSSVSLASYTIKKQTNGSGSWSTGLAL
+SGTLASGSKFVIVNSSISSSCYSTSAANISTTATEMAFNGNDPIGLFKNGVLIDIIGTFN
+GGTANFGADVTLRRKSTVTSPSTTFNLSAQWDSFSQDTCTNLGSKKVQSTVAGGEENIAD
+YSGIIVYPNPSNGNFNINLNESGSSYAVEIVSFSGQKVFEKQNATENTISVSHLPSGIYI
+LKIVKDSKTSIRKIIIN
+>tr|A0A1S1J0A7|A0A1S1J0A7_9FLAO
+MNTAILDPNIQEFITQNSGVPITKLALQKNPFPEIEWIVILNQIEAKSKAKDKLPTWFAA
+ENIIYPSKISVEQTSSERTAAYKASLISGESLIDLTGGFGVDDYYFSQKFKNIAHCEINN
+DLSAIVKHNFKQLKVENCTFYADDSTSVLNQFNKKWDWIYIDPSRRNDAKGKVFMLKDCL
+PNVPDLLNFYFEKTESILIKTAPLLDLSAGLSELQFVKNIHIIALENEVKELLFEIHKNY
+SGEITIKTANILKDKIETFDFILGNEIGFPSYELPQKYVYEPNSAIMKSGGFDEVSTIFK
+INKLHKHSHLYTSETLIEFPGRRFEIEKTISYSKNEMKIELANQQANITTRNFPDTVENI
+RKKWKIKNGGNLYCFFTTDKNDNKIVLICRKIT
+>tr|A0A1S1J0A2|A0A1S1J0A2_9FLAO
+MSSNTFINDNFLLENKFAEELYHNYSKNQPIIDYHNHLNPQFIAEDKIFENITQVWINGD
+HYKWRAMRTLGINEQFVTGNAPDKDKFLNWAKTVPYTMRNPLYHWTHLELARYFDIYDLL
+NEKSAEKIYQEATEKINSPAYSTQNLLKKVNAELVCTTEDPIDSLEFHQKLAKNPIGTKM
+STAFRPDKAILISNDGYNAYLDKLGEVSGVAIHTYADLCSVLRNRIEFFNQNGCKLSDHG
+LDQIYFEEFTENEINSIFKKKRENRILTPEEVLKFQSAVLLFLSETYHEFGWVQQFHLGA
+LRNNNARMHRILGPDTGWDSIGDYPQAQKLSGFLNALDSKDKLTKTIIYNLNPADNEVMA
+TMIGNFNDGSVRGKVQFGSGWWFLDQKDGMTKQLNALSNMGLISCFVGMLTDSRSFLSFP
+RHEYFRRILCNLLGDEIKRGELPNDMEWIGKLVSDISYHNAKEYFKF
+>tr|A0A1S1J391|A0A1S1J391_9FLAO
+MKKLLSIFALLFVIAIGFAQESETKFDEKLAKSLNADEYGMKKYVFCLLKSGSNTTASKE
+ESKKLFEGHMANIGKLAKEGKLVVAGPFMKNDRNYRGIYIFNVETIEEAKALVATDPAIK
+ANLLEAELTPWYATAALQETLKIHDKIAKKKI
+>tr|A0A1S1J639|A0A1S1J639_9FLAO
+MIIMIAAVAENNALGKNNDLVWHLPNDFKRFKSLTTNHHIIMGRKTFESFPKPLPNRVHV
+VITRQNDYQPEGCIVVDSIEKAIAVCPENEDSYIIGGGEIYNLGLPYTDIIEVTKVHHTF
+EADTFFPVINETEWQLVESEENFKDEKHLYDYTYETYIRK
+>tr|A0A1S1J8Q2|A0A1S1J8Q2_9FLAO
+MEIQNEDLVYIKRNLAIEPLVDNWYAWPHLISPATAAMNIKDRHLKIMTSYVQNPMIHAA
+AVKTPKMLGGPFIDYDGKRVDEIKGLIDNTKEQCAALLKLREDVFALNDMLKKEAKGYAL
+IELYNKVPESLQGLVELVYDINNNPSFRFFESLLYETEFYNESLQSFNLFLVHDDDSRSF
+VLSTPKLPGEDILRVNLPLKSEKIDQLFEMEDHPKTFGEIARIFEIEAEDLPLFKSFFTK
+EKSKKYERYSGDGVLTRYFGHACILTETKSTTILADPLVSYGYESDISRYSYDDLPESID
+YVLVTHNHQDHILFETLLRLRRKIKNIIVPKSNGGFLQDPNLKLMFERIGFKNIIELGEM
+ETIHFDDCSITGLPFVGEHCDLDVRSKLCHHVAYKDGLKILFAADSCNVSPKLYERIHKV
+MGDINVIFLGMECEGAPLSWLYGPLMPETLARDKDESRRLAGCNFEQAKAMVDVFKPSEV
+FVYAMGMEPWLKYISSIKYTDESIPIVESNKLLEYCLANDIDPERLYGEKIIEYKNDLVL
+S
+>tr|A0A1S1J901|A0A1S1J901_9FLAO
+MNASQIEKNVSELVKLIDKENFIFDLLIAYGISKTSITRLKKGDFNLSKIEGEVLYKKKV
+FFKEVASDKLLTTIDDLTKNEEDLKHNPRFVIVTDYITLLAKDIRTGLTLDTPITEINKR
+FDFFLPWAGQEKYQSKNENHADRKASYEMAKLYDILVHENPNIYDDGGHNLNIFLSRLLF
+CFFAEDTGIFNEEGVFTNTLGQHTKSDGSDVHLFLDRLFKVLNTEDNSDEPAYLQVFPYV
+NGGLFGSNIVSPKFSSKARKIILECGGLDWSEINPDIFGSMIQAVVNPEYRSGLGMHYTS
+VPNIMKVIEPLFLNELREEFEKSKGKPSQLRKLIYRISKIKCFDPACGSGNFLIIAYKEL
+RQLEIEILQDIYNTESQVSIVFTEVKLSQFYGIELDDFAHEMAILSLWLAEHQMNKVFVD
+ELHDYGKAKPILPLKDAGHITQGNATRLDWVKVCPISKNDEVYILGNPPYLGSRNQDTEQ
+KEDMRFVFRKDYKSLDYVSCWFYLGAKYIEGFNAQIALVSTNSICQGEQVAITWPRILND
+KIEIGFAYQSFKWTNNAKGNAGVTVIIVGLRNITNKVKYLFDHGLMKEATNISPYLTNSK
+SIYIKRTSSPISNLPVAVFGNMPNDGGNLLLNEIEKEELISAYPQTTKYIKEFIGAHDFT
+TGKKRWCLLIADRELEEAMKIDILSKRLDNVRKIREKSTEVSTREKANTPNQFYFFSHQD
+TDSILIPRHTSERRDYIPVGFFDSKTVIADSALAIYNAQPWIFGLLNSKIHMSWVRGVGG
+KLKTDYRYSTGLCFNTFPFPKITDKQKEQINLHVFDVLDERAKYPEKTLAQLYDPDKMPK
+GLREAHYQLDLAIERCYRLKPFESDVERLEYLFKMYEEMTTKNSLAIKEKKTKKVK
+>tr|A0A1S1J2S3|A0A1S1J2S3_9FLAO
+MKGPISQFIEKHYLHFNSAALVDAAKAYEQQLANGAKMMVSMAGAMSTAEIGKIFAEIIR
+QDKVQIISCTGANLEEDIMNLVAHSHYERVPNYRDLTPEDEWALLERGLNRVTDTCIPEH
+EAFRRLQKHIYKIWKEADDKGERYFPHEFMYKMLLSGVLEEYYEIDLKDSWMYAAAEKNL
+PIIVPGWEDSTMGNIFASYVIKGDLKASTMKSGIEYMTFLADWYPKNSANGIGFFQIGGG
+IAGDFPICVVPMLYQDMEMHDVPFWSYFCQISDSTTSYGSYSGAVPNEKITWGKLDIKTP
+KFIIESDATIVAPLIFAYLLDL
+>tr|A0A1S1J8D3|A0A1S1J8D3_9FLAO
+MISKSLYFSAVMALTCSLGFSQDKKQQDIKSIKSMCGCYEVKFNFAETFQYAKDSATYKP
+SETKHESALEWVELLEDTPNKIVMQHLLIVSDDMIIKHWRQDWLYENTDLYTFNKGTSWK
+YKQLDKKAVKGQWTQKVFQVDDSPRYEGSSTWVHVDGQNYWANIADAPLPRREQTKRNDY
+NVLKRRNIHEITATGWNHEQDNDKLVRDDSGKDVLLAQEKGLDVYTKVPDIKCIAAQKWW
+KENNALWKNVRDKWQTLFDRHQDLNLEAKVDRKALYSLLFDLKPTATKAETDAIINKFVK
+>tr|A0A1S1J9G8|A0A1S1J9G8_9FLAO
+MLFLLNMKKIINFYIRAFLIISFISIPFIFIAFEDFRINSFSYKMWIATFCPQLIYIVYL
+FRKQKWYQNFKSNFFSKKTNYWLVVFTCLISFIVYFFLIIFKWIKVESTVNWDIEIIGYF
+ILIFLSALLEEILFRYIPYKILIKEISIKNIVLVSVFFSFFHLFNPNINIIGLINIVVAG
+VFFSLIYLKSNSIFLCGFIHAFWNFSIGCLLGSNISGLKVTSVLQYYPERPYFLSGGDFG
+FEGSIITTIVFSISSLFLYQLKTNEIFGNK
+>tr|A0A1S1J7J0|A0A1S1J7J0_9FLAO
+MKINWGTGIVIAFALFMSFILYFVFEVQSNSKYDNDLVVEEYYKHDSHFQEEMARIQNAQ
+DLQQKPSIAYHKDGVEIVFPAVFENDKVKGNILLYRPSNKKFDFNTQIALTNSALLIPKN
+KLVKGRWDVNMEWQYGGKKYLSKEVIYVN
+>tr|A0A1S1JBZ7|A0A1S1JBZ7_9FLAO
+MFTLKNNLRITHFVLLMSFLIFLFFHLPFYSFVFNNVDYKSFNGIVLIVSLVILMLVLNA
+FVLYLLFSLSRHVGKVLLILFFIVSSIAVYFVNTYSVIIDESMIGNILNTNYEESSSFFS
+FKVILYVIFLGIIPSIYIAKVKITKVPLKEFSITSSVTLVFIAVLIFVNASNWLWIDKNS
+KRLGGLAMPWSYSVNTPLFYIHKFKKNEKEILLPNAVIKDNEKSVVVLVIGESARRQNFS
+LYGYKKNTNPLLSKTENVFHFNANSCATYTTAGVKCILEHKNSDDLYEILPNYLYRNNVE
+VIWRTTNWGEPPVHIKNYQNKEALKADCKGVECDYDEVLLRGLKEQIQASKKNKILIVLH
+TSTSHGPTYSKKYPPQFETFKPVCNSVELGKCSQNELLNAYDNTIVYTDYILHSVIEDLK
+ELKEYKSTMIFVSDHGESLGEKNLYMHGVPISIAPKEQYEIPFIVWVSDHSKQLKPNETL
+TQNHVFHSVLKFLNVESPVYDEKMNIFK
+>tr|A0A1S1J268|A0A1S1J268_9FLAO
+MIIEPRMRGFICLTAHPKGSEQNVKNQIEYIKSKGPIAGAKKVLVIGASTGFGLASRITS
+AFGSDAATIGVFFEKPPVEGKTASPGWYNSAAFETEAHKAGLYAKSINGDAFSNEIKRQT
+LDLIKTDLGQVDLVIYSLASPVRQHPVTGVLHRSVLKPIGQTFTNKTVDFHTGNVSEVFI
+APANEEDIANTVAVMGGEDWTMWMDALKAENLLAEGATTVAYSYIGPSLTEAVYRKGTIG
+RAKDDLEATAFSITDSLKSIGGKAYVSVNKALVTQASSAIPVIPLYISLLYKTMKEEGIH
+EGCIEQIQRLFQDRLYNGGEVPVDEKGRIRIDDWEMREDVQAKVAKLWLEATTETLPEIG
+DLAGYRNDFLNLFGFEFAGVDYAAEANEVVEIESIK
+>tr|A0A1S1J9L5|A0A1S1J9L5_9FLAO
+MNSVLKIIKAIFSGGILFLAPLILLAVLLEKRFSIVQKITVHYTKVKFLALVIEEVAVIV
+FICSATGSQLFLFDS
+>tr|A0A1S1JAH9|A0A1S1JAH9_9FLAO
+MYYIDPHIHMVSRTTDDYQAMRAAGIVAVIEPAFWLGQARTEASSFKDYFSTLVGWERFR
+ASQFGIKHYCTIGLNSKEANNEALAEKVMDLLPLFAAKEGVVAIGEIGYDDQTPAEDKYF
+RLQIDLALKFNLPIMVHTPHRDKKNGTIRSMDVLEEHGVAPHMVVIDHNNEETAKQVLDR
+GYWAAFTIYPNTKMGNERMVEVVKQYGSERIIVDSSADWGVSDPLSVPKTAALMLERGIA
+KEDVHLTCYKNALTAYSQSGQMNEEDWKNEITITQDSLFEGSSVLRGQESKEIVYPKIII
+EN
+>tr|A0A1S1JB21|A0A1S1JB21_9FLAO
+MSFFDIIVAALLAFSLYKGIKNGLFVEVASFISLLLGIYIAIKFSSFMKELIMKHVSWNP
+NTIQITAFILTFILVVIGIYFLAKILTGIADFAFLGLPNKLGGGFFRILKTILIISIFIA
+LFEKINFNNTFAKKETLDHSIFYNPIKKVAAFVYPSVEKWYGEFKDHHTETSKEE
+>tr|A0A1S1J124|A0A1S1J124_9FLAO
+MLALLFKNFIRSKGTKIGLMFLLLIGFIGILIGQQFQQKQQNNIAEAALYQKEHIARNAA
+FHKDEMGLLLYYIKFSLINKTLPLNPLAIGQRDVNPSIQSVTIRGLEGQKYDSELNNPNN
+LLSGNIDFSFVLIYLFPLLIIAFSYNLVSEEKESGTWKIVSVQSENTFLYILKLFYVRIL
+SLIALFTFLLLLAVLILRIPFDSSLLAFYGLGVLYLIFWFAVCFFIVSLQKNSNFNAVIL
+LTIWLFLIIILPAVINTYIVNKYTIPEALELTVKQRNAYHEKWDMDKKITMDKFYQHYPQ
+FKRYPLPDTEFNWLWYYAMQQAGDDDSVQQSQELQTKLEQRNKASQFIALFVPTLHAQLQ
+LNEIAKSDLGNQLLFLKETKHFHEKMRLYFYPKIFDNSNVSKENWSKFKVETFTDPSKTN
+GIKAFLPLLLFNLLLIGLGWMNFKNSKKETF
+>tr|A0A1S1J2D5|A0A1S1J2D5_9FLAO
+MKNVKELLVTLFLFTFMHTTIHAQNEIIPLWNTIPGEIKAPEYKENESFIDGKVQSTSLV
+TVPTLSVFLPKQSKPNQTAVLIFPGGGYQHLAIDKEGTKVANWLNSLGIAAFVVKYRLPS
+DQIMKDKKNGPLQDAQEAIRHVRQNATKYSIDVNKIGIIGFSAGGHLASTLATHYDEITY
+DSKSKTSARPDFSLLIYPVISMQNEITHKGSQSSLLGNNPSQEVRDFYSNEKKVTSKTPP
+AFLIHATDDKTVLTENSINYYLALKRNGVSAELHLYEKGGHGFGLGVNSTSKFWTRDCEE
+WLKINGYL
+>tr|A0A1S1J3W9|A0A1S1J3W9_9FLAO
+MKPLKFIGIILLLLLPFLSGGESGKHTAELTICQLQENFTASEVPQFSSSALVSPKDLDI
+HFIVKKKIKHRATTSDSSTLKTPYYTKLVPFRIFKNRLIYGMATVYQIQRHTHLHLYQLF
+>tr|A0A1S1J3Z0|A0A1S1J3Z0_9FLAO
+MKILSLFLFLTVGVFTGTKHYYKKETAISTLEVERMNLRVNEIKNMMSIDSKYNTKIAFF
+VDMSIPSGKNRFFVYDLVNSKIIDQGLVAHGSGSETGVKGSLRFSNTPNSNCTALGRYVI
+QKCYKGIFGKAYKLNGLDETNNNALKRAIVLHYYSAVPYEEQDYYISNSHGCPMVNEQFF
+KRLEKYIDCSKSNIILDVYY
+>tr|A0A1S1J4L7|A0A1S1J4L7_9FLAO
+MSDTIEKIKCLIIGSGPAGYTAAIYAARANMNPVLYQGMQPGGQLTTTNEVENFPGYVDG
+VTGPEMMIQLQEQAKRFGADIRDGWATKVDFSGDIHKVWINDTIELHCETVIISTGASAK
+YLGLPSEQHYLQMGGGVSACAVCDGFFYRNQEVVIVGAGDSACEEAHYLSKLCKKVTMLV
+RSEKFRASKIMEERVRKTENIEILMNHDTVEVLGDDNVVHAIKAKNKTTGEIFDIPATGF
+FVAIGHKPNTDIFADYITLDETGYIVNVPGTSKTNVEGVFVAGDAADHVYRQAITAAGTG
+CMAALDAERYLAAKE
+>tr|A0A1S1J5Q7|A0A1S1J5Q7_9FLAO
+MSTETRPRNIGRNISRIRELRGMKQEILAEAIGVSQQSVSNIEASENIDKEKLVLIAKAL
+GVTVEAIENFTEESVFNFFNNFYDNSANNGHLSNNNNHCTFNPLDKVVELYERLVQAEKD
+KVEYLEKLMKLK
+>tr|A0A1S1J241|A0A1S1J241_9FLAO
+MNDLLVKINAEIETFKAEAESLTEKGVKAAGPRARKSTLEIEKLLKEFRKVSIEESKK
+>tr|A0A1S1J780|A0A1S1J780_9FLAO
+MGSCVNECAALQSYFFMSGNTYIAPVAEFGDYHVFNVPPTYVELISIADTSFGCAWRDPM
+ACYEQSTINMNDCFWGITNAVLPEPTVHTNLFCDKKTLTAVSCPGPYRFSWEYSTNGINF
+TPMNITTTPNQSFEFVKANYPALNNYTGTIIFRVLIDSDPSAPDENVYSNVVTYNIIPCS
+PKLSATSDPNYTTCSYSNGSVTFTFSRPLEPGEKYLFNRNAVGSTFITDATSNDPDVEKV
+SALSYKWKNIPPGQYQFKFQTQFGNGTPSTLSAVTNFEIRQNTALTFWATAIQPECSNSR
+GFIEIHAAGGTSPYFYILDDQTEVVNGQTVPKKVGFSGYHQIPITADGGHKVVVVDASNC
+IEN
+>tr|A0A1S1J1X2|A0A1S1J1X2_9FLAO
+MQKNFKPHPNSFKNTFCVFHEVLSDKIEGLKKQFESKAGSAYYYTEAGMYRVSNHWGRLA
+NSKWRLVAMVPETASKTKIGFAAWNEFYPDNAEEKLYYIEADFDQNLVTYQHKKNPNYDG
+KPVLRTSFETTKRIKQVRNLQQLTSWAKHFDYEDIDELRKQIINELIYTEKTLDEIKREI
+>tr|A0A1S1J4G4|A0A1S1J4G4_9FLAO
+MNKSKIWLSSPHMGGMEQNYVQEAFDTNWVAPLGPNVNGFEKDLEQYLNEEIYVGALSSG
+TAAIHLGLILLGVKSGDEVLCQSMTFSASANPIMYVGAAPIFIDSESDTWNLCPKALEKA
+IVERISKGKKPKAIIGVHLYGMPYKVDEIHSIAERYNIPILEDSAEALGSYYKKQKCGTF
+GHIGVLSFNGNKIITTSGGGAIVTKSKETKDKAIFLSTQARDNAPHYQHSHVGYNYRMSN
+ICAGIGRGQMEVLDAHVQLRRKMHKFYVTYFAKIDGITILKEPSNDYFSNHWLTAIVIDP
+QKTNGKTREDLRLALESDNIESRPLWKPMHLQPIFEKFPYYGNNVAETLFENGLCLPSGS
+NTTTEELNRIKNVFDTFFNK
+>tr|A0A1S1IXN6|A0A1S1IXN6_9FLAO
+MLTFFSCRKNEFANANDKITISFDGKHLNGKEKEKYLDSIFNLLKDQNNDSVTRNLHFKL
+STEYYYNKNPKKSLAASLEVLRLSKEVDDKEGIAKAFYYIGDSYGNVKKDSAYFYYLQAE
+KVYSTLSDYDNTGRMLFNKAYVLFYDGNYIECEVEISKALQYLKESKDQQLLYCCNALMG
+NCLEKLVNYDKALWYHRMALNNLEKIKLNHIDKDEITNYNVTATINICNLYDLKGEYLKS
+IAKLQGLLSSDLEKNWPRLYANVLSNLAYSKMKIGEYDNVYEMFSKSLEILKNKGDEADI
+LYKKIRIGEYFLTQKDTAKAIEVLKEANLLATRIKNSNEILTSLKLLSTLDKKNSLYYAN
+EYINLSDSINIVQKNAHNKYARIEYETSRIEDENKILTKKNFYILILSFASIFVLLIVVI
+LRYSKYKNKEFQFLKKQKSANEEIYLLLMEQHEKINNARDNEKSKIAKELHDGIMNRIYG
+VRMNLGFFNSKVEKEIIEKRKEYIFELQNIENEVRMVSHDLSHSSFLDGNDFNVLLLSLV
+EGQKGISDTEFSYTTDENFEWSAIQNIYKINLYRIIQEAILNINKYANATKCEIKIQFEA
+NSILRMSITDNGQGFDTSTKKEGIGLSNMKERTSSLKGKFSIESQIGEGTKIEVQFNIRE
+LT
+>tr|A0A1S1J2X4|A0A1S1J2X4_9FLAO
+MEKKYSVVIHPSPEIIEAIKTMKEHLATKIGWFNSKNSVAHITICEFTTDDSQLDKFKQK
+LFNICDTFTPFQVHLDGFGSYESGAFFIAPNEESKKSLQPVMKKTQKALLLSNLKKSSDP
+HISIGRKLTPENLKIASQLFTTIAMDFFCKEIILRELDPVKKQFFVIDKFPFGSNPQPEL
+IQGTLF
+>tr|A0A1S1J895|A0A1S1J895_9FLAO
+MKAINRVLIAPLLVLQFVSSSKVGAQSAAPSFKSNPKIQVYTTAENPKLRLSLSNNFILN
+SASQQTKSTVSIAIDPSKTDQTFLGIGGAITDASAEVFAKLSSKKQQEFLTAYYDKNKGI
+GYSLARTNMHSCDFSSESYTYIQEGDKELKTFTIDHDKKYRIPLLKKAIETAGGTLTLFV
+SPWSPPAFMKDNNDILHGGVLLPQFAQSWANYYAKFIKAYEKEGIPVWGLTIQNEPMASQ
+RWESCIYTPEAERDFLKNFLGPTLEKEGLGSKKIIIWDHNRGEMLEKRANLVFSDPEVSK
+YAWGIGFHWYETWNGGSPKFESVGNVHEAFPSKNLLFTEGCIEKFDASKFQFWGNAERYG
+INMINDFNNGTTGWTDWNILLDQNGGPNHVGNFCFAPIHADTTKDELIYTPMYYYIGHFS
+KFIQPGAKRIRNVISDKSVLSTSFLNTNGKIATVVMNQSDKAVVYEIAINAVKKTFTIPA
+HAMQTLVY
+>tr|A0A1S1J7I6|A0A1S1J7I6_9FLAO
+MKPQYLLLLSFVIACQKPKSESQIISINPENKVENAIPAKEKFLKTDTITLNDEGETPAN
+NYILAHLISQKADKDSIVTGNYQLDFYQNKTKTVSSKISIKGIEKGSEWGASLGLASATT
+KNSPFIHISFGYPACGYNQNNYLYYLKNKTVQLVHEWSSMSDSGWGGWVEFVNPSAKVNP
+DSFYCKTVFFEPDDNDENMGTVKYSDSMVFRLIGNQWKKQPLTKEDQTYFEKKMSFDDFH
+SQK
+>tr|A0A1S1J7L6|A0A1S1J7L6_9FLAO
+MENNLPSSNAGQSLGIIALIFGIIGVLAAFIPCFGFIAVLFGILAIVFGAIALNQAKKEN
+ASTSLPKAGLYLGIAATVFVIIWVAIFVGSIGSLALEHKDEIKRALDSVEVEQIKTDDSL
+DIKVQVDTTTIETTVK
+>tr|A0A1S1J863|A0A1S1J863_9FLAO
+MLKQFLNLKLSQKLSPQQIQLMKLIQLPTQAFEQRLLEEMNENPALEAGKEDEYEADEFA
+NEDYDDYDDAESDRIEADDINIDEYLSDDDTPDYKTQVNNYSEDEERETPFASPISFHQD
+LINQLNTFILNDEEREIAEFLVGSIDDMGYIRRSVPDIVDDMAFTQGIYTDEKMVDKMLH
+VIHELEPSGVGARDLQECLLLQLKHKTPTEYIDLAIDIIENQFDAFTKKHYDKLLQKYGV
+SNEQLKKAIHEIERLNPKPGGSYTGNNKVTENVVPDFAIRIVDGELELTLNGRNAPSLHV
+SKDYQEMMQTYKDSRDKSSAQKDAVQFIKQKLDSAKWFIDAIRQRQETLFVTMNAIMHYQ
+EEYFLDGDETKLKPMILKDIADMVGLDISTISRVANSKYVETPYGTKLIKEFFSEAMKND
+QGEDVSTLEIKKILQNTIEEEDKKKPLPDDQLAEILKEKGYPIARRTIAKYREQLDIPVA
+RMRKKI
+>tr|A0A1S1JCH4|A0A1S1JCH4_9FLAO
+MKNIKKMAILLMVLGVAVLTGRCVSEESGSEQKIEQSIKVSQARVWFEQYQSKVKIDSSF
+KSQVYNWDSAITETFENRTEALVVPVTDKNLSDAYKGQKVLYLYPLENKKEFSATLYEIL
+PLSESLEKIKISADLVNFNGYIIAWDLERGFVNGAKFENSNTTAALTGLRVISPVESERL
+NKSTAKSDSDPFELDEVIIRREKSENKQEYGGGAYGGGLKSGSKGNSPKGYVKSPGGGGS
+GSSTGSTVTKVIPPSCESFNFTSKKGANWQVAMVKNINFRVIGLSPKGIEILHVLSYPQA
+IYFGTPTNIQVGNTDMTPGIAANVSARALQQSMQDVIDKYGGTDVSDLILDRYFRERLVH
+NYPLYVSGGRVNFNSTEKLPATNYKTNTWTSGNCN
+>tr|A0A1S1J1V0|A0A1S1J1V0_9FLAO
+MLDIQNISFSYTENPVIKNVSFTINKGENIAIIGESGCGKSTLLKLMYGLYNLDEGKIFY
+NEKPILGPKYNLIPGMPFMKYLAQDFDLSPYETVAENVGKFLSNGFANMKKLRVQELLEM
+VEMEQFSNVKAKFLSGGQQQRVALVRVLALEPEVILLDEPFSQIDAFRKNALRRNLFRYL
+KQKGITCIIATHDSTDALSFADEAIVMRNGEVIIKDNPTKIYEDPETKYVASLFGEVNEV
+PTHLLVPYEDQMHKTLVYPHQFKMVTESNLPVKIRRTYFRGNHYLIETVYKRQLIFFESE
+IDLPLEQEIFLGLNYL
+>tr|A0A1S1JBX4|A0A1S1JBX4_9FLAO
+MIDFIYQDPYPILKDDTQYRKITSDFVKVEQFGQREVLTVDPKGLELLAEEALTDVSFML
+RTTHLQKLRNILDDPEATDNDRFVAYNLLQNASVAAEGQLPSCQDTGTAIVMAKKGESIF
+TGVDDAEWLSKGIFNTYQKRNLRYSQIVPISMFEEKNSGSNLPAQIDIYAKKGTSYEFLF
+MAKGGGSANKTYLYQQTKSLLNDKSMDAFIRTKIKDLGTSACPPYHLALVIGGTSAEANL
+SAVKKASAGYYDHLPTSGNMAGQAFRDLEWEERVQKICQESEIGAQFGGKYFTHDVRVIR
+LPRHAASCPVGLGVSCSADRNIKGKITKDGIFVEQLEVNPKQFLPETAPHLEAPVEIDLD
+QPMADILAKLSQYPIKTRLKLNGTVIVARDIAHAKIMELLEAGKPMPEYFKNHPVYYAGP
+AKTPEGMASGSFGPTTAGRMDVYVDEFQKHGGSMVMLAKGNRTKQVTDACKKYGGFYLGS
+IGGPAAILAQDNILKVEVVDFEELGMEAVRKITVKDFPAFIITDDKGNDFFENL
+>tr|A0A1S1J3Y7|A0A1S1J3Y7_9FLAO
+MDSLNRITNFTSGINNSFVSSQKSFNNYTYYKDKESLNKYTASLNEISRLIDSLTLITKD
+NKEFMRILKEKNQSENSVESIKLSIDSIIESQINPDKTTLSKPFKLNKFAYKKILDSIKT
+DSYIKVDSVSKKGLFSRLGAALAGKVDVQKEQLKITVTMKYDNKVVTGSIEEQFANLFNT
+TNKFYEEQFKNLKRSFANLKDQDAKLKEFNNELLNLEAEIMPNYNNSLKLLQDNTQKQLQ
+KQYDSNKIARSYTIAILILMMFIVSLVLFGFTRLAFQY
+>tr|A0A1S1J491|A0A1S1J491_9FLAO
+MEENFRMIAKCFFGFEEILENELRTLGAQDVEKGVRMVSFKGDKGFMYKANLSLRTALKV
+LKPIYSFRANNEQALYKGISGVNWSKLLNANQTFVIDATVHSTYFNHSEFVSQKCKDAIV
+DQFRERTGQRPSIDKAFPDLRINVHIDKDQVSVALDTSGNSLHQRGYRTATNIAPINEVL
+AAGVLLLSGWEGQSHFVDPMCGSGTFLAEAAMIACNIPANINRKEFAFEKWKDWDNDLFD
+QIVNSLMKKTKEFHYTIKGFDKAPSAVNKAKDNIRNANLEDYVTVSEDNFFDTEKAVEGK
+LHMVFNPPYDERLDIHMEEFYKNIGDTLKKSYPGTNAWFITANLEALKFVGLKPSRKIKL
+FNGSLEARLVKYEMYEGSKRTKFQV
+>tr|A0A1S1J4I0|A0A1S1J4I0_9FLAO
+MKFLTKKRPEDFRLKNLPGAEIKLTLFLVFVFTVQVSATSAVRINRRTDIAFFFEKTVKG
+KVTDQNGLPIAGANVVVKGSRTGVQTDSDGSFAITVADNVTKLIISYVGMEDQEVTVGSS
+PLKIVLKEAGQKLEEIVIGYGKAKKKDLTGSVSSIGKDNLNLGGTISNVGQALQGRASGV
+QVQQNSYAPGTNPSIVIRGGNSLNNSNSPLYVVDGFITSTGASISPNDIENIQILKDASS
+TAIYGSRGANGVILITTKKGKSGKMQIEAEISDGFQSIIKEPSLINGQQYADIQNAIAKE
+NGRPPVFSSDFPVANTNWFKAATRPGEVINRTITFSGSDKTSKFFLSGNYIKQTGAIENT
+DFKRYSVRMGGEKRFNDKLNVGTNIYGAASEGNNSDFGDNILSPLFSIQTAPPTIPIYNP
+DGSYYKFQGKDNALALLLEPTDHIINRLVNGNMFLDYEIIKGLTYHFGAGAEWQENIEGR
+YTPRTLVAGAALKGSGSEENKTYFRWSTEQYLTYKFNIKEHSMSAMIGTSNQKDTYEFLR
+AAGTGFSNDALTYHNLDAAAVYLKPETEKIETKLTSYFGRLNYSFSDRYLAAFTLRKDGS
+SRFGSNNSFGIFPSGAVAWKISNESFMQNSKTVSDLKLRVSYGVTGADGIGDYAFMPTLR
+AWGVTIGDGNFVNGTEPANLANKDLKWEQTTQTDIGLDMGLFNDRITATIDVYKKRTTDA
+LIRVPIGGWWGFNTQTINSGVIDNKGIELGITSTNFRNDHFLWTTSLNVAYNKQEVVSLA
+DNVSIISQNTSNPSGTVSGREFTRLEPGREMGVLYGFKYAGVIKTGEVYAPQPLSKPGDP
+KYEDLDGDGAITVNDRTYLGNSTPHYTLGLNNDFKIGNFDLNIFFQGAFDYSVYNMTRMV
+GESTTSTDALNRWVAGTNENTDVPRDGYYKSTYGSYVNSKFVEEASYLRLKNLSIGYTIP
+ESVLKPLKFVDNIRLYAIGQNLLTITNYSGNDPEVNGHFTNDTTKQNLGGGIDFNSFPAS
+RTIILGIKVAIH
+>tr|A0A1S1J5Y2|A0A1S1J5Y2_9FLAO
+MARTIAEIQNEILIEKGKQSSLNNLTDSKTAIWKLWINIVATAIWIHEKIVEKNALISRP
+HTLNWYRSQALNFHYGLTSTSDSNSKIPFLWKDGSYQFDTTGLDETEIEKLKIIKHCAVS
+EIDLETVLDPTQKKDRETIFSDYFRNKVGVVFLKVATVKGDKISRIDVPNELYAFKEYMA
+KIKDAGNHIHISSDNGDILKLNLTVYVDPLNIYIDPANPANPKNGSLILNEKIFPVQDAV
+KEHLKSIEFNGAFVKTYFVDALQNTPGIKIPVVNKVETSWAKNPNDQLSPPLEDVTKTEY
+FIPNSGYFDLDALEIQVNYIPYTFYRDKQ
+>tr|A0A1S1J6V9|A0A1S1J6V9_9FLAO
+MKNHQTQVRVRYSETDQMGVVYHGNYVPYFEIGRVEWLRNKGISYKSMEESGIGLPIVSM
+QINYKKSARYDELLTIHTAFKSQSSVKIEFDCAIYNEADELLTTAVFILVFISLKTGRPT
+APPDYILELFKTLV
+>tr|A0A1S1J6R6|A0A1S1J6R6_9FLAO
+MIDLDYLAFLENILTDNRKERFLDVLANRTKHFTVAVEDVFQMHNTSAVMRSCEVFGIQE
+LNIIEQRFGKRIDKEIALGAQKWVDINRFDTVEGCMTSLRNQGYQIIATTPHENDCLIQD
+FDITKPSALFFGTEKDGLSPEIMEQADGFLKIPMVGFTESLNISVSAAIIIQNLTNRLRN
+SDIKWQLSDEEIIEKRLLWAKNSIKDIKRIEARYYEENPR
+>tr|A0A1S1JBR4|A0A1S1JBR4_9FLAO
+MKKVNAILIMSLIFTTTIFGQKTFTLTSKDLGGELTKVQEFKGFGCTGENQSPQLLWKNA
+PAGTKSFAVTMYDPDAPTGSGFWHWIVFDIPSDVNELITNAGAKDKFPIKGAVQSITDYG
+IKRFGGPCPPEGHGFHQYIITVYALKMDKLGLDENTNPAIVGFNLWNQTLAKASIVAYYK
+R
+>tr|A0A1S1J489|A0A1S1J489_9FLAO
+MKKNQLEIACFNYESAIIAQDNGADRIELCDDMRLGGTTPNLITAERVREKLTIKMHVII
+RPRGGDFVYTEEEFLEMKQDIKQLKALGVDGFVFGILNQDGSVNKEQNLELVQLASPLSC
+TFHRAFDVVNSIEQGLEEVIACGFQTILTSGRGKNVEEGIFDLELIQKLANDRIEIMPGG
+GLRSSNIKLLQEKLQPTFYHSSAITDQTETANPEEIKELKNFL
+>tr|A0A1S1J0Q2|A0A1S1J0Q2_9FLAO
+MKLLEGKVAIITGASRGIGRGIAEVFAKHGANVAFTYSSSVASAEALEAELNGLGIKAKG
+YQSNAADFNEAQTFVDAVLADFGTVDILINNAGITKDNLLMRMSEADFDQVIDVNLKSVF
+NMTKAIQKTFLKQRSGSIINISSVVGVSGNAGQTNYAASKAGAIGFTKSVALELGSRNIR
+CNAIAPGFIETEMTAKLNEDVVKGWREGIPLKRGGSAEDVANACLFLASDLSAYVTGQVL
+NVCGGMLT
+>tr|A0A1S1J8D5|A0A1S1J8D5_9FLAO
+MKNKLIAFSQRIINWIKKNKIKSAIAFVLLLIYYFSIPRTLFKEPYSTVIESKEGELLGA
+KIAPDGQWRFPAQDSVPDKFKKCIVYFEDEYFYKHPGFNPVAMVNAIKQNQKAGKVVRGG
+STLTQQVIRLSRKGKGRTYFEKLIEMILATRLELGYSKDEILELYAAHAPFGGNVVGLEM
+ASWRYFGVQSNQLSWAENATLAVLPNAPSLIYPGKNQIKLLNKRNRLLLKLHKEGVIDQQ
+TYELAIEEPLPQKPYDLPQIAPHLLQRAAKDQEGTRVKTTIDYALQNRVNQIARYYYNQY
+KQNEVHNLAILVIDVSNRNVISYVGNAPTDKDHQKDVDIIDAPRSTGSILKPLLYAGMLD
+DGELLPNTLVADIPTQIAGYTPQNFNLTFDGAVPAHRALSRSLNIPSVLMLQEFGVNKFY
+EELQKFKLKDINKTPDHYGLSLILGGAESNLWDLCRTYANLSSTLNYYVKNQAQYRTNEF
+TELNYKSNFEPDFGSESDQKNILGAGSIWAAYNAMEEVNRPEGDEAWKFYDSSLKIAWKT
+GTSFGNRDAWAIGTNSRYVVGIWVGNATGEGRPTLTGVTSAAPILFDVFNLLPRQRWFQT
+PYKDLAEVEVCRLSGYLAKDGCPKIKQWVPKKGKSTSVCPYHKTVHLDITGQFQVNSSCE
+SIDNIVTKNWFVLPPVMAWYYKSQHIEYLPLPPFKEGCQGTQTTTMDFIYPKTNGKIYLT
+KDFNSKVQPVILKVAYSEREKELFWYVDDVYKATTKTFHELPVTPTSGTHYITVVDASGN
+EIRRKIEIVRE
+>tr|A0A1S1J2X5|A0A1S1J2X5_9FLAO
+MKISGAEAVIRCLLAEGVDLLYGYPGGAIMPVYDELYKFQDQLHHVLVRHEQGATHAAQG
+YARATGKVGVAIATSGPGATNLITGIADAQIDSTPMVCITGQVGKHLLGSDAFQETDIIG
+ISTPVTKWNYQVTEASEIPEIIAKAFYIARSGRPGPVLIDITKNAQFDQFDFSYEKCTGI
+RSYTPVPKLKLDKVAEAAALINSAKKPFIVFGQGIILGKAEAEFKALLEKSGIPAAWTIL
+GLSALPTDHPLNVGMLGMHGNYGPNLLTNECDVLIAFGMRFDDRVTGNLNTYAKQAKVIH
+FEIDPAEIDKNVKTEIAVLGDVKEALTALLPLIEAKSHDLWHNEFKELKRIEYDSVIKEE
+LNPTNNKGISMGETIEMINKHSKGDAIIVSDVGQHQMFACRYAKFNSTKSNITSGGLGTM
+GFALPAAIGAKMGKPDREVVAIIGDGGFQMNIQELGTIFQTKVPVKIVILNNEFLGMVRQ
+WQELFFDNRYASTKMINPNFVAIAEGYYIKSKKVTQREDLDAAVAEMLASKDSYFLEVMV
+EKENNVFPMIPTGACVSEIRLS
+>tr|A0A1S1J1E6|A0A1S1J1E6_9FLAO
+MTFISYAQKAHVKGVILDEQKRPVTGVNVSSSGNVSQSDSNGFYEIIVPSGKKISLIFTH
+VSLKMMSLTVHLASNEIFVFNPLMSSSEEQMGEVFVSSKSKKRIQGIANVDVSTIKKIPG
+ANAGIENILKTLPGVNSNNELSTQYAVRGGNYDENLVYVNEVEVYRPFLIRSGQQEGLSF
+TNTDLVQNVDFSAGGFQAKFGDKLSSVLDITYRKPTQFGASLEASLLGGSISVDAVSKNK
+KWSAVTGVRYRNNSLLVNSQDTQTNYTPTFADIQTNINYDISAKWQMSFLGNISQNKYLY
+QPLTRETKFGTIDQPMALAVYYEGRERDQYNTYFGALKTTYKVSPTFTLKLIGSLFHTIE
+QEHFDILAQYRLGSIENEDISNVDFTRGIGSQLSHARNDLDALIANIEIKGFKEWKNDSQ
+LEFGLKYTRESIRDRIVEWEMIDSAGFSINPPIAFLPKNNQPYEPYTGPLLPYQEVRATN
+FNNINRFSGYTQWNKKSEIGSSQVWYNLGARFQSWNVSGGAVEGKTQTVFSPRAQFALKP
+DWDMDMLFRLSGGLYHQPPFYRELRDLNGVVNPNVKAQESVHIVLGNDYNFKMWNRPFKW
+VTELYYKSLSDVNVYSIDNVRIRYVANNNAKAYAQGVDFRLNGEFVPGTESWISFGYLKT
+EENYENKGYIARPTDQRLKFAMLFQDYMPSIPSVKLYLNLVYNTGLPGGAPAYSDPYLYQ
+RRLNDYRRADVGFAKVFVDGNTKVAKAKWLKNFKELSVGVEIFNLFNNQNAITNTWVRDV
+YSKNQYAIPNYMTSRVFNVKLNARL
+>tr|A0A1S1J6D0|A0A1S1J6D0_9FLAO
+MKNIAIIMGGYSSEYKISLISGNVVHQYLDKTKYNGFRIHIFKEKWVYVDENNAEFTIDK
+NDFSVTVNDQKITFDCVFNAIHGTPGEDGLMQAYFELLGIPQSSCDYYQAALTFNKRDLL
+SVLKPYGIKTAISYYLNKGDVIHTAEIVKKVGLPCFVKPNKAGSSFGISKVKTEAELPIA
+IEVAYKEDNEIIIESFLDGTEVSVGVINYQGEIKVLPITEIVSDNDFFDYEAKYEGKSQE
+ITPARISDELTQKVSETAKRAYEVLKMKGFSRSEFIIVDNEPYMLEMNTIPGLTTESLIP
+QQAHAAGISLEDLFTNAIELALS
+>tr|A0A1S1J861|A0A1S1J861_9FLAO
+MKTFEDLQNIWDQQAASNIKPAANDVIEKAEAHTKKIKRNHLWTRIILSLTAIILIAYYI
+WVGAYKQTVFSFGLGIMITMLMVRIALEWSSARKFENLKTDVPLIEYSKQAQRFYQWRKK
+IHYIFTPIIYLTYIVGFTLLLPVFKENFSKGFYLYILVSGFGFLLFFGVMLVRIIKREVK
+LLDFLKNIS
+>tr|A0A1S1J097|A0A1S1J097_9FLAO
+MFSFKEYSQEILTTIILILVLIALRIIVAKLIRRYASTSQLLEHRTNLVIKYIHLLMNIL
+VMISLIIIWGVETKDIFITVSSIATVIGVAMFAQWSILSNITSGMILFFSFPFRIGDTIK
+IHDKDFPIEAEIEDISAFHVNLKTKDGEKIIFPNNLLLQKGISIMPVQYEEKEFFD
+>tr|A0A1S1J4R1|A0A1S1J4R1_9FLAO
+MITREATIEDWEILYSFFKIIYRENHPLHNKEFWEWQFGNKEYGRSFICLNEKDEVVGHV
+GANFGGGLAWIINVYLNEECRGKGVLGKLYELARNYYPLAATAANEAGLGLYKNMRWIRY
+YDLVRYVKINPDLVETDFETVCRKVEVNVDRLIKKDTHYFQQPSIKGIVLEDGSRAVSQE
+NVGGLRITDIENLGKLEAQAWQLGYLWIDYITSWNDLKTKDLEKNGWTLDYKNTVPWRLN
+PIEEKYFCDITFLSEKPLDNEFIVHRSYSDHGRIGSLK
+>tr|A0A1S1J684|A0A1S1J684_9FLAO
+MKRIYYLILITVLFASCKSASTAVGNKESKRENRYTVTHLIEHATDNIGVRYKAGGTTKS
+GYDCSGLVFTTFESENIKLPRNSFEQAKVGRIIKFNDAQKGDLIFFKTNRSKQINHVGLI
+VEVKSDEIKFVHSSTSKGVIISSTKESYYQNSFAQINRVLE
+>tr|A0A1S1J9K7|A0A1S1J9K7_9FLAO
+MRYLLIVLFSLVAVSCVKKQKDVGTVGVKKGENTKGQVLGNKRIKELESQVYHLMLHENK
+YCYFLGKKGDYQNITLNFNVKSLISDATIDNIFYDNEFNPFRNQLYRIKNYKVESSSNYE
+IAVFDEFEGKDARINFGLINKKDDVWKFEFLPSWKEEESKRDYLANLDLRQKYLFVNKKS
+IDSITVLTKGVWSEDDNDENLDTVCYKMPYYFKLKEKYKHWKNYNPIRFVSSKNKVAMYT
+SPDVSSEVVENLKYNDWVIINDTVEKGSTGNNSWLDVYDRVNFRKGYILNKDLAEKPTYK
+NLLIK
+>tr|A0A1S1J3Q7|A0A1S1J3Q7_9FLAO
+MIFYRQDLTDTQLLDLYKKILKPRLIEEKMLILIRQGKVSKWFSGIGQEAIAVGVTSVLD
+DSEYVLPMHRNLGVFTSRNIPLHRLFSQWQGKANGFTKGRDRSFHFGTQEYNIIGMISHL
+GPQLGIADGIALAHKLKKENKITAVFTGEGATSEGDFHEALNIAAVWKLPVMFVIENNGY
+GLSTPTNEQYFCENLADKGIGYGIESHIIDGNNIVEIYNKLAQLKEEMQKDPHPVLLEFK
+TFRMRGHEEASGTKYVPQELMDEWAAKDPVANYKKYLIETGVLTTEFDEQLHSSLKQEID
+ENWAMANAEPEIVPDYSGELEDVYKPFVYEEVKSDSEIANIRFIDAISSSLKQSMERHEN
+LVIMGQDIAEYGGAFKITDGFVKLFGKERVRNTPICESAVVSAGMGLSINGCKAIVEMQF
+ADFVSTGFNPIVNLLAKSHYRWGEKADVVVRMPCGGGTQAGPFHSQTNEAWFTKTPGLKV
+VYPAFPYDAKGLLNTSINDPNPVLFFEHKQLYRSVYQDVPVDYYTIPLGKAALLKEGNSV
+TIIAFGATVHWALETLNKNPEIKADLIDLRTLQPLDTETIFNSVKKTGKVIIYQEDTLFG
+GIASDISALIMEECFEHLDGPVKRVASLDSPIPFTKALEDQFLAKNRFEDVLLELLKY
+>tr|A0A1S1J146|A0A1S1J146_9FLAO
+MLQKNASAVPFTSAETSNSVFESLTAAGPIIKGTVTDVSGSPLPGATVLAKGTKIAVLTD
+FDGKFSIEMPTNSDRLVISYVGMETKEIGISNTNPVIVLNEAGQNLKEVVVTTGYEKTSK
+RTFTGAISKISGSELKVDGVVDVSRMIEGKAAGVTVQNVTGSFGSTPKITVRGSSSIFGD
+TKPLWVIDGVVQEDIINVSFADLASGNSATLLSSAVAGLNANDIQSIEILKDASATSIYG
+SRSLNGVVVVTTKQGRRDSPLKVTYSVENTVRTVPSYTQYDILNSQESMSIFQEMRTKGY
+LNQSSSITARFSGVYGILAKEVNRYNESNGQYGVRNEQPYINEFLQKYELANTDWFKVLF
+RPSITQNHSLSFSGGGKNNTFYGSLGYYTDPGWTLADNVKQLSSNLKGTFFINDRLNITL
+STLASIRDQEAPGTYESKNDAVFGKITRDFDINPFNYVLSTSRTLRPYDENGNYEYYQNN
+WAPMNILKELKNNTMGIKVNDIRFQADIDYKINKNLTYNFTGSARYANTSREHKIYEDSN
+VVGAYNAGVGATLNTQIQKDNVFLYQNPNDLTAPKISVLPNGGFLRKYTNDMTSYNVRNS
+ITYRNTLNDKHELEGFFGTEFRSVDRNNDNFTAAGIQYEKGLSAFIDPKLIEKLVNEGNS
+YYDFGAERERTVGFFGKVGYTYDRRYTGSITGRYDGSNRQGDTGSSRWLPTYTLSGKWNI
+KEENFMKNVESVNTLALRASYGLTATAGPATNSLAIYRSFITNRFNTGDRENAINISDLQ
+NADLTWEKQFETNIGFDLGLFRNRVQVTTDVYSRKAFDLIDYVITSGVGGQSVKQGNNAD
+METKGIEFGFTTQNIAAKDFKWSTTLNLSVYDQKITKLANRPAVFDLIASNGGNTVGHPR
+NSLYSYQFTGLNPEGLPTFKLQDGAENNITEANFQDTNNVMKYLKYEGSVEPNKSIGLAN
+TFTYKNWSLYVFIVGSGGNKIRLNPVYNNVYTDQTVFTKEFANRWINPGDEQYTNVPVIA
+DQLLNRNYGANNLQIAYNTYNFSDERIASGDFVRLKNISLGWEFPSDFKRKLGVSTFTLK
+GSAVNPWLIYSDKKLNGQDPEFRNTGGVAFPITAQYTFAINISF
+>tr|A0A1S1J1Z4|A0A1S1J1Z4_9FLAO
+MNSSSMEIKPKKHYEILDGLRGVAAILVVIFHALEAFNEGSRFKQLMNHGYLAVDFFFLL
+SGFVVAYAYDDRWEKMSQWEFYKRRLIRLQPMVIMGMVIGASLYYLQASNVAFPQIATMP
+IWKLILVMLAGFVLIPLPPSMEIRGWGETFPLNGPAWSLFFEYIANILYALFFRKFSNKV
+LGFLVLIFAGMLVQYTVFGPKGDVIGGWSLTMQELYVGFTRLLYPFFAGVLLSRLGKLIH
+IKGAFWVCSILIIVIFSIPRLGDENSLWINGLYESIAIILLFPLIVAIGAGGEIKNPLSL
+KICKALGDISYPIYIIHYPLIYCYMAWVFENKVPLKDGYGIGIGIVISSIVIAYLCLKFY
+DEPVRNWLQNKFQKRKVS
+>tr|A0A1S1J3R7|A0A1S1J3R7_9FLAO
+MGIKNRLIIMSFLQFFVWGAWLITIGNYWFGTKNWEGTQFGLVFGTMGIASLFMPTLTGI
+IADRWINAEKLYGALHILYAVVLFGIAHVTTPDNFIYVMFIAMCCYMPTIALSNSISYTS
+LKLNNKNIVKDFPPIRVWGTIGFIAAMWITNLSGSKATEYQFYIAGVGALILGIYAFTLP
+KCKPQRLTKEDASLVETLGLEAFKLFGNYKMALFFVFSMFLGGALQLTNAYGDVFLDEFK
+HFPKYADSFVIKYSTIIMSISQVSETLFILAIPFFLRRFGIKQVMLISMLAWVLRFGLFG
+FGDPVGGLWMIILSCIVYGMAFDFFNISGSLFVESNTDSKIRSSAQGLFMMMTNGIGAVL
+GSLTSGWAIDRFFTKSFTNTTELATFLQTESTNSKMLDFVKGQGNSVSADGIFTNPILMK
+DWQTIWLSFAAYALVIAIAFAILFKHKHDPKEIENLSH
+>tr|A0A1S1J3Y4|A0A1S1J3Y4_9FLAO
+MLKKLLVGLWMALLVVAISFLFWQNEFKYSLPTPVPQNYKAIAIGSKIDLKCCLADRKPI
+FIHFFNPDCPCSRFNIPHVSELIKKYGDRINFKIVVLNKERSFTIAEIQKKFDAKIPVYF
+DQAIAKNCGVFSTPQAVLLDDSQNLYYRGNYNKTRYCTNADSNYAQMAIDSLLKQNHSPS
+FDALALRAYGCSLPKCNK
+>tr|A0A1S1J4Y5|A0A1S1J4Y5_9FLAO
+MSMKIYPLQFDPILKERIWGGEKLQTILNKPITSKITGESWELSTVEGDVSVVANGALKG
+HFLTDLIDQSPNEILGTAVYERFGNQFPLLFKYLDAREDLSIQVHPNDELAKERHNSFGK
+TEMWYVMQADADARIIVGFKEDSSKEEYLENLNNNTLVSILDDVKAKAGDVFFLETGTVH
+AIGAGLVVAEIQQTSDITYRLYDFDRTDAQGNKRELHVDLALDAINYKKVETQKKYETTL
+NQSNAMVDCPYFTTNFLPLDGTLEVSKKGETFTVYMCTEGNFEVAYQNVNYQYKQGDTVL
+IPAGMHNYSIKGAASILEVYIS
+>tr|A0A1S1J5K8|A0A1S1J5K8_9FLAO
+MVPQLWVTLEVMPLTTNGKLDKKALPDPDSSELSSKAYVAPRNETEEELAIIWKELLEID
+KVGIHDNFFELGGHSLLATRLVSMIRKKLCIEVTIKEIFEHTTITELAAHVSVQSEGVLL
+PNIIVEDRPVRIPLSFSQERLWFLDQLQGSTEYHIPIVLRLEGVLEVSILKQTLQEIVSR
+HEVLRSMLLSEEGIGYQEIISAKNWSLDQLEIKDRSMSESSLRDYLMRPFDLSKDYKLRA
+CLYDLGDNQYVLAIVFHHIASDGWSGGILTNEFMELYNALQFGHTAALPELSLQYTDYAI
+WQRKYLEGIILENQLLYWEEKLRGVGTLSLPTDHIRPSVQSSVGASVSFILDKELSASLE
+SVCKEEGVTLFMLFLSIFKVLLFRYTGQEDVCVGTPIANRTQSELEGMIGFFVNTLALRS
+DLSGDPSFRELLAMVKQTTLEGYDHQLVPFEKVVDRVVTTRDMSMTPLFQVMFIVQNASA
+TNKKLDLEGVVVSDYEFDMVTTQFDLTLNVSEEEEGISLNINYSTALFEKTTIDRMLLHY
+QELLKSVVADTSRSLGNLSMLTKEEEHQLLDVFNNTDVAYPKDRTVIDLFTEQVKRTPAA
+IAVVYNGEELSYKELDQRSNKLGHYLQEKGVKPDALVGICLERSLEMLIGILGILKSGGA
+YVPIDPDFPRDRLNYMLTDAGIDLVLSSELSRAVIDKREGLSVLSLDSDWDLISNCSKRE
+LSPLLSPSNLAYVIYTSGSTGVPKGVPVVHTSLVNFLLSMINGLGMSDLKSFLSVTTYTF
+DIFYLEFFTPLLLGAKVIMLDSISIKDADKLQSFIADYRPDFMQATPSTWQMLIDNDWDN
+KEGVTILTGGEAIKESLKDSLTTISNFVWNLYGPTEATIWVTAQRLNRFQKVNIGRAIDN
+VKIYIVDNYDKIVPLGVIGELCIGGVQVARGYLNREELTNEKFISNLYKEGERVYRTGDL
+ARWLPDGSIELVGRKDDQVKIRGYRIELGEIENVLSSLPGVAQCCVLAKEDSGGSKRLVG
+YVVPEGNFDKEVLQEQLKISLPEYMVPQLWVTLEAMPLTSNGKLDKKSLPNLDGSELSNK
+EYVAPRNETEAQLAEIWQELLGIDKVGIHDNFFELGGHSLLATRLVSMIRRELLIEVSIR
+NIFRFNTVEELASYIIYKLVNSTDTKNDYSINIEL
+>tr|A0A1S1J7R5|A0A1S1J7R5_9FLAO
+MLNLYGIQKNVIKPQNNMISKTNFRTIGSLVIMLFLFNSCDKGDSPVDSESKTPETTNPE
+TQTPPPAVTTNLSIESSNTFGVLKLSQDDFKYWNSHTINETATVEKLKTLCKTEIYPVLK
+DDFDFIVIVLNNATSTPPTGMPYGIYQSVKNDTQGIGLSLFDSTKDYGSAGKLQGVYFLY
+LNNIQGGPILHEMFHRWANYAVPQDYVYHWDKVKGILSGVSNNIADIELYLAGAIPASEI
+KDAESLAIYNDPRFTNKTRIPNSTNSQKSFKSLLVVMNPTTLTDTEIKSYKDQIANVTRT
+PAQGVTTGYQNLYNKSRGLLTLTIGNLDKSKK
+>tr|A0A1S1J876|A0A1S1J876_9FLAO
+MKMYPNFLCALTLFLTASFGMLHAQNNNVNPEYGIKGGFNMSNLYSSDANDENILYGFNA
+GLYATLPISDFIAIQPEILFTTKGAKLEYNNALASGDSKFRLNYIEVPLLVRVNITRNFN
+VHAGGYASYLVSSKVTGRGDFNFEQEIDTNDLNKFDAGLSAGVGVDFDPISIGLRYNYGL
+TTIGKERTVAGTTYTFPDAKNSNLTLYLSYKLN
+>tr|A0A1S1J871|A0A1S1J871_9FLAO
+MKYKRILLKLSGEALMGDLQYGIDPKRLAEYAEEIKQIHSKGVEIAIVIGGGNIFRGVAG
+ASAGMDRVQGDYMGMLATVINGMALQGALEDKGMKTRLQTALKMESIAEPYIKRRADRHL
+EKGRIVIFGAGTGNPYFTTDTAAVLRGIEINADVILKGTRVDGVYDSDPEKNASAVKFDF
+ISFDDVLKKGLNVMDTTAFTLSQENKLPIVVFDMNKIGNLLKICEGENVGTVVNI
+>tr|A0A1S1JFV9|A0A1S1JFV9_9FLAO
+MNLKTLFVISSLASIFVSCANDDPSTLMDPTPINGLATYSQNVKSIIDNNCVVCHAAVPK
+NGAPMSLVTYDQVKNAVLNRGLLTRISLENGDSSLMPQGGPRLPQTTIDIINKWNQDGLL
+EK
+>tr|A0A1S1J3A2|A0A1S1J3A2_9FLAO
+MNDNFTNEYFGIGIQNGKTPENLGVLWRSAQNLGATFIFTIGNRYAKQACDTHDAVKAIP
+YFHYDTFEAFLENLPKGARLVGVELNENASDLETYEHPRRCVYLLGAEDHGLSKKVMEKC
+HHLVKFKSVKSLNVAVAGTIIMYDRNLPKPRS
+>tr|A0A1S1J3W3|A0A1S1J3W3_9FLAO
+MSNNTENLDLEDELFEHFRFEVPKGQALLRIDKYLMNLIQNATRNKIQNAATEGNIFVND
+IPVKSNYKVKPFDVVTVMLSHPPFENHVLPEDIPLNIVYEDDALLLINKEPGMVVHPGHG
+NYTGTLVNALAHHFDNLPMNSSERPGLVHRIDKDTSGLLVVAKTEAAMTHLAKQFEAKTS
+EREYIALVWGNVAEESGTIEGNLARHLKDRMQMAVFADPEIGKPAITHYKVLERFGYVTL
+ISCKLETGRTHQIRAHMKHIGHPLFNDERYGGHLILKGTTFTKYKQFIENCFKALPRQAL
+HAKTLGFVHPNTGEMMRFDTELPQDFQDCIEKWRNYVKSHNVDEEEN
+>tr|A0A1S1J6Z6|A0A1S1J6Z6_9FLAO
+MDKKYTIKDIAKMAGVSKGTVDRVLHNRGKVSPTALDKINEVLNVINYEPNLIARNLKNT
+KVYRICVLLPDPEIDPYWLPCINGIQDAKTEFKAYSVIIETHFFNPESTKSFLSAHDIII
+QKSPDAVLIAPLFHKETVEIVKQYDDLNIIVNTFNNQIEGESIKSFVGQDLHKSGRVAAS
+LMNLILTEGQIAIIHIDESLKNAVHMQEKEKGFKSYFDEKKISGFSLTTLKLKHQNVETK
+FSAFLDENPNLKGIFITTSKAYQIASILSTVKDKKIAIIGYDLVEKNVNFLNQGLVHFLI
+HQNQKRQAYLGVSTLVEHFLFRKDIPETILLPIDIINVENASFYVS
+>tr|A0A1S1JBM5|A0A1S1JBM5_9FLAO
+MENKKEMRKWLEDFNLNHPLVIAGPCSAETEDQVLKIARELKDSKVSVFRAGIWKPRTRP
+GGFEGVGEIGLKWLQKAKAETGLLMGTEVATAAHCKLALEHDIDVLWVGARTTANPFAVQ
+EIADTLKGTDKIVLVKNPVNPDLALWLGGVERLHMAGIEKLGVIHRGFSTYEKTKYRNIP
+EWQIAIELQNKFPDLPLIIDPSHITGNRNMIFEVTQEALDLNYDGMIIETHYDPDNAWSD
+AAQQVTPDALKQIIKDLTIRKTDDTTDEYNQKMKKLRANIDVLDANLLELLGKRMKVADE
+IGQVKKDANVAILQNNRWNEILGKMILEGEKKGLTEEFVLRMFKAIHQESIGHQEKVFNA
+>tr|A0A1S1JC45|A0A1S1JC45_9FLAO
+MSSSTILIFIIVYFGILLLISQIISKKGQDNDSFFKANKNSKWYLVAFGMIGTSLSGLTF
+ISVPGEVGSPNGEQFKYFQFILGQAVGLIVIAKVLLPLYYRMNLTSIYSYIEKRMGTNSY
+KTAASIFLVSRTIGSALRFYLVVLVLQRYVFDYYHIPFPLTVFLGLTFVFLYTYRSGLKA
+IIITDTLQTFFLVSSVFITIYFVLNSLDLTVFESVSAIRNSNYSKTFFFDDFLTNKYHFA
+KQFLGGLLIMIAMVGLDQDLMQKNISCKNIKEAQKNMYTFTVIFVTISLLFLSLGALLYM
+YAAKNNISVPLDLVTNKPRTDLLFPEIALNHLATVPALVFLLGIIAATFATTDSALTALT
+TSFCVDFLGMDKTENISNPKNVKRRHLVHLTFSFLFFLVIIVLNSFNDSSVVALVFKAAS
+YTYGPLLGLYAFGLLQKNRIVTDKLVPWFCIVAPILTYVLSENSKTLFGYVFDNELILIN
+ALITYTGLYFTSKKTDEKIYF
+>tr|A0A1S1J0J7|A0A1S1J0J7_9FLAO
+MNSLILYFAKLGFSEKDIAEFLSCIKTRQFSANEFILTNGQLENYLSFIDTGIVRYFVLT
+NDKEITFDFAFKNSFYCAYDSFYNRTQTQVYIQALTDCQLYSVSYDQLQKLYDKCETAKK
+LGRIATEYLLDKKVKRELNLLTKTPKERYQSLLEEQPKYIQQIPLKYLASYIGVVPETLS
+RIRKRIS
+>tr|A0A1S1J764|A0A1S1J764_9FLAO
+MFNRLFVYLFNRLFVGLNFDFAQSDSLFVCLFVCLFVGLSGVEASTLLSLRTVAEPKSLA
+LMGAASFCVRDSGRKRYSGQQEKASKN
+>tr|A0A1S1JAB8|A0A1S1JAB8_9FLAO
+MNEKTAKSVSKFLSLVLRHSPETIGLKLDENGWADVEELIIKCNKNGSQNQMTAELLDYV
+VENNDKKRFAFNEDKTKIRASQGHSISVELNLKEAEPSEFLYHGTVGKFMESIKLEGLQK
+MSRQHVHLSKDKETAIKVGSRRGAPQILTVRSGVMYRDGFKFYLSENNVWLTAEVPAKYI
+EFKS
+>tr|A0A1S1JBP9|A0A1S1JBP9_9FLAO
+METLEFKIRIKAPVQKVWAVLWDEETYKKWTGSFCEGSYAISEWNQGDKIHFLSPNGEGM
+NSVIETKIPNEYMAFKHIGEIKDFKELPLDEEIKKWTGAMETYRLTADDEFTDLVAQVDV
+VEKYIDYFKEAFPKGLETAKELSEK
+>tr|A0A1S1J5Y6|A0A1S1J5Y6_9FLAO
+MVANYSLFNSLIPGVAILGNALKSIITKWYVINSDIIFYNNPKLIMLGLSMIAFLTLLVY
+QFFRIKTRIGYFIERKPETETVNREYHLYILFFGIALIVIEIINEIFKIRPKSLLLVNVS
+IGFSMLLFYFIIGKIKFLKERVQSIFILSFFVYLFYIGYNIIYRTNDIIPIIAFLIFFYF
+SYSILKPIKLYWFFVGLVFTFLITTVVYQLIPVKSSIILINYCVLIFILNQVKYAVLLNN
+SDNFRFTNEIVHKGNSLTIATNEKNEILFCSETITSILGYLPDEVMGAKFWKLTNETDYP
+ENLSNINHEEDKLYIRKLRSKNGEYKYIQWKDKRFSQGLIISIGQDVTEQITVRDQYKNL
+IQTATDIIFEIDSDGYFTFINDFGFSILGYSENEIISQHYSNFIHENYQRNAVDFYENLE
+MNENNFPTIEIPILKKNGKKLWISQKIIVRKNDLGQTIGFAGIARDITEIRNIENDKRKR
+LKKIESYNNSINKLSTTDFSQYDNLNTVIDFIIKEAAIVTKTNRVSFWKCHKDLISCKNL
+FSIDKQHLNDKNILDKQSYPIYFETLKSKAIINAPDVFNKLETSEFQKLYFTKNHIKSML
+DVPIFLNGQLVGVVCFESTEEKRNWDNEDINYARTISDVISLAISSQMRLEAEKKLEFKS
+QLLSALSLCTEKFLMSKSTQEMFQETYNLIGKAAKVDHMYYYEKDFTTNTVSQKYKWSRQ
+GIEHQITKLQRLTKDQLQEIYDAAQNKKIVNTLTRKLDNTFFKQLLIANEIKSILILPLY
+INDIFTGFIGFDDCTKERKWSEEEIYIFQVLANNISSALERNRNETKILESEEKFKLIAN
+NIPGTVYLSKFDAFSTKIFLNDEILNLTGYSKSEFIENNLSFLSLIHPDDKDEVINNQID
+NLQSGMPLHNIYRIRRKTGEFIWVEEFGDVIKKGDEIEFVGGIYFDITNKKESEDAIKAK
+QLAEAANKSKSDFLANMSHEIRTPLNGIIGFTHLLMNTGLEEIQEKYMTTINQSAHSLLD
+IINDILDFSKIEAGKLELFIDLYDIKKVLGQVFDLIVYESNQKNLQLELNVAPDVPKYIW
+TDIVRIKQILINLLSNAVKFTNKGSIKLNVSVLEKSSNNDCTIRFSVVDTGIGILEKNQK
+KIFKAFSQEDSSTTRKFGGTGLGLTISNQLLALMESRLQLESKIDKGSNFYFDLNLKTSN
+QSISEKYNTELQNTSLELNSDDPVSNQKSITFLIVEDNKVNMLLLKTIIKNLYSGAYIHE
+CENGYEAVSQFENINPDLVFMDIQMPIMNGYETTRAIRNTIIGKDIPIIAVTAGAEKEER
+NKCLSAGMNDYISKPIMKGSVEEALVKWLK
+>tr|A0A1S1JD17|A0A1S1JD17_9FLAO
+MGSGYLILAGAIMLFSWIVSSRLKSKFEQYSKLQLRNGMSGAEIAEKMLADHGIRDVRVI
+STSGQLTDHYNPADKTVNLSEVVYNERNAAAAAVAAHECGHAVQHAVGYEWLTMRSRLVP
+IVSLASNYVQWILLAGILMIRTFPGLLLIGIIIFAATTLFTIITLPVEYDASNRALAWLE
+NKNMLTQQEQAGAKDALKWAARTYVVAAIGSIATLLYYISVYSGSRRN
+>tr|A0A1S1J682|A0A1S1J682_9FLAO
+MATTLFDDFSPISSKQWKQKIQFELDGADYNQTVIWNSPEDIQVKPFYHTDEFTKAATVK
+TQVSDFKICQNIFVYDIDKSIQRAINTLERGAESLRFTIEDKTIDVQKLLETLPLENRIV
+YFNLNFISIDFVKLLDQISIQKKATFYCNTDPIGQLAREGNWFSTADKNNFETLEKISKA
+TANISFLSIDSGLYQNAGATITQQIAYSLAHANEYLNRFPNTLKPIVFEVSVGTNYFFEI
+AKLRALRMLFKLIAAEYNPDLECHLLVTPTKRNKTIYDYNVNMLRTTTECMSAILGGADA
+VANLPYDSLYHKDNEFGDRIARNQLLVLKHESYFDKVDNPADGSYYIESLTMQLAEKSLT
+LFKDIEANGGFLKLLNDGTIKKKIQESAAKEQELFDSKKEILLGTNKHPNKEDKMKHDLE
+LFPFVKIKPRKTLITPLIEKRLAEKLEQERLELE
+>tr|A0A1S1J7K8|A0A1S1J7K8_9FLAO
+MKYSKIFFLFLLGITLVSFKPLDVKQADTTYTSVYFLTDKQQIETLIRKAYEWIETKKTQ
+GDFDVIENKKGDKYVALNTKTHHKIISELKNSNFFAQQFIDNYNKIALKIGENLKSSKIE
+YWVGELPPYGNDSNPWCNCQDNPESYWKTLKVNDLKIQNNKATFYWTWTEWKDSPKYKVT
+AVKENGIWKIAALDGFDYKSFTKI
+>tr|A0A1S1JAN3|A0A1S1JAN3_9FLAO
+MNLLPQEKFETLGLSLPPAPQPLGIYKPYLVDGKYLYLSGHGPVRDDKSLIIGRIGDDMD
+IEEGKLAARQVGLTMLSTIVTNFGSLNKVKKVIKVLGMVNCNGEFLRHPYVINGCSELFA
+EVWGPENGIGVRSAVGMGSLPDNIPVEVEAVFELY
+>tr|A0A1S1J340|A0A1S1J340_9FLAO
+MISYNTKDWFTFIFHFHKSDTVRKLLPIMIAIGIYSSIVGYLEVSYFKIGKNDYIHNIPI
+MHGMLGFVISLLLVFRTNTAYDRWWEGRKLWGGLVNNSRNLAIKLSAMLKEENDKKFFRK
+FIPAYASVLHKHLHDSDTGKQLFEDVDLEIDHHKHKPNQVKRIIFQKINDLYEDKKISGE
+QLIILNEELQSFTDICGACERIKNTPIPYSYSAFIKKFIFFYTMTLPFGYSVSLGYYVAP
+VVVFIFYVLASLELIAEEIEDPFGDDENDLPTKKISENIKKHIEELI
+>tr|A0A1S1J8J0|A0A1S1J8J0_9FLAO
+MLAIVIPYYKLIFFEETLKSLSEQTNKRFRVFIGNDASPEDPSLLLEEYKDKIDFVYQIF
+EENLGGISLVKHWERCIALVEEEDWIMILGDDDILEKNVVSSWYEHYNVFHTKSNLVRFA
+SKSLNMNLNGRISHSFTNPVWEKASDSYFRRFKGLTRSSLSEYAFSKTAFKKFGFFDFPL
+AWHSDDAAWLFFSDDKPIYSINESNLLIRYSSSSISGKQNNQKLKDLASENFYKQCIVEK
+MEFFSKPQQLDLILEYEISIKKNRKLRWAEWRYLLLFYLSAMQINAFMKCLRRCCLSFR
+>tr|A0A1S1J1B2|A0A1S1J1B2_9FLAO
+MAFKVENTPNKKTIQSKKSSSIEDLLKKEISLFGDSFNNKKKQAFYQELAVLLKAGVSFK
+EGLSLIVESLKKTADKELIQSILNQVVNGKPFSEALSASKSFTEYEYYSIQIGEETGTTA
+QVCNELGYFFERKNEQKRIIVAALTYPSIVLSTAVLVVIFMLSYVVPMFQDIFKQNNMEL
+PFLTQIIVQLSGLTKTYGVYFIVILIAFVFSTRFFKNNARYKRALHYSLIKIPVLGSFMT
+KVYLAQFTQAVTLLTTAKVPLLNSIQMVKKMIRFVPLQEALGEVEKSILKGNSLSSSLKN
+TPLFDNRIISLVKVAEETNQTEYVFKQLSEQYNQEVVQQSKIMTTVLEPFIILFVGVLVA
+VLLVAMYLPMFQLSSAIG
+>tr|A0A1S1J364|A0A1S1J364_9FLAO
+MNTKYSDLINQTYYFPQEEFKLNKDNLQFHNIDLMKLVEQYGTPLKFTYLPQISENINKA
+KAWFRKSMEKNKYDAKYYYCYCTKSSHFEYIMNEAFKNNIHIETSSAFDVNIVENLLENG
+KINKSTYVICNGFKRDEYISNIARLINNGHKNTIPIIDNYEELDLLQAEIKGKFKIGIRI
+AAEEEPKFEFYTSRLGIGYKNIVSFYKKQIQENDKLELKMLHFFINTGINDTSYYWNELV
+KCIKVYIALKRECPTLDGLNIGGGFPIKNSLAFEYDYQYMIDEIINQIKIACDEAEVDVP
+NIFTEFGSFTVGESGGAIYQILYQKQQNDREKWNMIDSSFITTLPDTWAINKRFIMLAVN
+RWNDTYERVLLGGLTCDSDDYYNSEQNMNAIYLPKYNKEKPLYIGFFNTGAYQETIGGYG
+GLHHCLIPQPKHILIDRDENGILATEVFSEQQTSDDVLKILGYTKKV
+>tr|A0A1S1J0F5|A0A1S1J0F5_9FLAO
+MKKQILSLAVIALLAFAVQSCEKKEPKPAEEELTLGNKVDSLTTDIKEVKDSAVSKTESA
+AEDVKEATKKAAEDVKDATKKGAEKVENAAKAAKDGTVKTAKEVNEALKK
+>tr|A0A1S1J2D3|A0A1S1J2D3_9FLAO
+MKNFIFSFLALLLLPAYMSGQAIKGKVVDSNGMGVPGAIIAASNSRVSADADFDGNFAIN
+AKVGEILKISMLGFEPVSVAATSAPMTITLKESGDTVLKDVVVIGYGTRKKIDNTSAISS
+IKSEEITKMKVLNASQAIQGKAAGVQVSASDAPGSTPSVIIRGAGSALGGKNPLYVVDGM
+PTENINNINANDITSYEILKDASSLAIYGTRGANGVIMITTKSGKGKLTVDVESFAGIRT
+PLKKVRMANSDEYVRYSNIAYSGAFPQGRFSANQPYNTNWFDEITRTGSYTQNNIAISGS
+SDNVKYFFSVGNYEEKGILNRSDYGRTTIRSNNEFKISDKVRVTQNMSVSTIKNTPMPLS
+AFTNAYRQSPLVPVRYPNGKYGVPFVSNGVVAETGASFNNVANPVAQLDFTNERQETVIL
+QGGLKLDYDIFKSLKFTSQFNGEFFTYKQYNYVDNLGLWLSGDPTRVVSAYDTKSLNTNT
+LTRGRDQYFNWNLSNYLTYNKVFAEIHDVEVTAGIEANVQGTREKLTIDRKNVNPNSNYW
+SLKDINVASSVTGYKDEALNQRRLASYFARFQYKLMDRYLLTGTVRRDGSSQFAEDKRWG
+TFPSVGLGWIVSKESFLSNIETLNLLKLRGSWGRLGNQNIPLNTQVFTSGVDVPGLGSGI
+TINSQIDPNLSWEIVEELSGGFDFELFANRLKGSFDLYDKKTTNTILNVKPYATSGYNIS
+TYSHIGEVSNKGYEIALRWDDKISDNLSYWVGGNYSHNKNELTSLKNVQIAPTIGGGLGN
+GQNTKILDNTSVGQPLGSFYMYEFAGIDASNGKMLYYTAAGDKVVQSALNERTDKKYVGT
+VLPTSTYGITLGVNYKNFDFSVDGYGTGGAKVYNGKKAQRFGGENIEASMARNFWTPTNT
+TASNPAPSNEIPYASTFFLESADYFRINNISLGYKLPLKEDLFFNYCRIYVNAINPFITQ
+KYSGFSPDVVSDGKLVEGTQGVELDAYPSLRSFVIGANLKF
+>tr|A0A1S1JBM6|A0A1S1JBM6_9FLAO
+MQSDQYSYIPILMQFILAVGFVAGTIVISGKLGPKRSSEVKDKNFECGIESVGNARIPFS
+VKYFLVAILFVLFDVEVIFLYPWAVNFKELGVEGMLKMIVFMSLLLVGFFYIIKKKALDW
+E
+>tr|A0A1S1JCR6|A0A1S1JCR6_9FLAO
+MKRIFLIIISLFGWITYAQTGTVKGKIIDKQSEKPIIGVAIVLIGDEKKNAISDAEGSFK
+LTNIPVGRQSLSFSFEGYENTSVSDLDVTTGKDNLLTVSMMEKFNTLDEIVVTSGLSKAK
+PINKMALVSTKQFTTEEVNRYAGGRSDVARLVSNFAGVSTGDDSRNDIVVRGNSPSGMLW
+RIEGMPVPSPNHFSTLGTTGGPISALNPNLLANSDFLTSAFPAEYGNAIGGVFDLSFRKG
+NPDDYEYMISAGAYPGVEFMAEGPLGKKGGSFVASARYGFVGVLGLAGTDAQPNYRDISF
+NVDLGKSKMGNFSLFGIYGTSDIDFLGDKIDKEDPFAAQDEDAYVKSGFASFGLKHNLEI
+GTKSYLKTIVGFSNSSNSYENFRYYNFSTPAVNRLPFTDISNNENRVTFSTLFNSKINKK
+TTFRAGLLFENYTLDAKMATRDRQQDNNGDGYPDFVQLINNNGNYNIIQPFAQGQFRLTE
+KLTFNAGIHGQYFSINKEFAFEPRAALAYAVNQRNTISFGYGLHHQSVAAPILFLNEWVN
+GNQIQTNKNLDLVQSQHYVLGYDVRLARKWRGKVEIYYQDISKAGVQSFPSSYSTLTEGA
+DFGYSIDKTSLVSKGSGYNQGIEFTVEKFFSEGYYALFTTSLFESKYKGSDGVERNSPFN
+NGYVINLLGGKEFRIGKAKKNVFSIDTKFTTAGGRYYTPVDLAASNNAGYEIRDDANAFS
+KQYDPYLRLDVKFGIKFNSKTKKRFHQFYIDFQNVTNHTNIFTKEYNRLTNSVNQKDQIG
+FSPDFGYKFQF
+>tr|A0A1S1J8V8|A0A1S1J8V8_9FLAO
+MNQDYIKPDNWSIIEEGFDAERVKSSESLFSIGNGAMGQRANFEETYSGETFQGSYIAGI
+YYPDKTKVGWWKNGYPKYFAKVLNAPNWIGIDIQINEENLDLHHCTAVKNFRRELNMKEG
+WYNRSFEATLKNGTEIAVNIRRFLSLDLDETGIIKYEITPLNKDAKIVYKPYIDAGVTNE
+DANWDEKFWEPLEVKKAANEAFVTAQTFKTHFKVTTFMHNTIFANGENVNISPSTIDSTA
+DKIQFTYGTIIAKGQTSSIQKIGGYTVSLNHENTLTAAEKCIKTAVTLGYDTLLQNQINA
+WSKIWEMSDITIDGDVKAQQGIRFNIFQLNQTYLGKDSRLNIGPKGFTGEKYGGSTYWDT
+EAYCIPFYMATKDQQVARNLLTYRFNQLDKAIENAKDNLGFKNGAALYPMVTMNGEECHN
+EWEITHEEIHRNGAIAFAIYNYHRFTGDYSYIPEKGLEVLIGIARFWHQRASFSKAKNQY
+VILGVTGPNEYENNINNNFYTNYTAKWCINYAEEQINKVAAEYPADHQRIMEKVALSPAE
+ILEWKKVADNMYFPTSEELGIYLQQDGFLDKELIPVKDLDRSQRPINQKWSWDRVLRSPY
+IKQADVLQCFYFFEDHFSKEELKRNFEFYESFTVHESSLSPCVHSIQAAVLDKMDMAYTF
+YLRTSRLDLDDYNKEVEEGCHITSMAGTWMSIVEGFGGMRVKNDQLHFSPKIPKEWNGYS
+FKINFRNQILKVAVNHNETTFTVDSDQDLTLVVNGNPVTAEKLFQTN
+>tr|A0A1S1J1Y8|A0A1S1J1Y8_9FLAO
+MKEDIFLSGLKVQFEEIDSAKLTMETRFEDLDTWDSLTKFSIIAFVEDDYGIKLKIEDLN
+KLESPIALFEFISEK
+>tr|A0A1S1J785|A0A1S1J785_9FLAO
+MLTKGDKVSVLDEAINGTVVSVKNKEVLIETEDGFTMTFFVNELLKIQDSSNLMNSIKRI
+DLDEISKEKTEPKPRSFVKEKKDKREISAPEFDLHIEKLVPNKRGMSNYDILTLQTETAK
+RHIEFAIRNRIPKIVFIHGVGEGILKAELDFLLGRYDGIDFQDANYQKYGLGATEVYFRQ
+NQK
+>tr|A0A1S1J8Z0|A0A1S1J8Z0_9FLAO
+MNILKFIETFTDDSLMRSTGSRRDSFNQFGSIGKTLAYASIPFGLSAMANKALAKDITAT
+PATPIGALQFALTLEYLENEFYAMALDSGVIPASENGGRDRKVFEQIAAHESDHVKFLIA
+GLGGPASANFVAKPTFDFTVGGAFDPFHDYPTFLALAQAFEDTGVRAYKGQAANLITTPD
+LLTAALQIHSVEARHASEVRRLRGLKGWISNSERGAGMPAATQAVYDGEGVTVQAGFNTA
+AAFGAAAGSEAYDEPLTTQQVVDIANIFIV
+>tr|A0A1S1J9R6|A0A1S1J9R6_9FLAO
+MKLAEISITRPSLVIVLFTILTLGGLFSYSQLGYELIPKFEQNVITISTIYPGASPSEVE
+NTVTKKIEDAIASLENVKKIDSKSYESLSIVSITLTSEAKVDFSLNDAQRKINAIISDLP
+EDVKTPALTKFSLSDLPIMTLGANGKMDEAEFYDLIDKKIAPILSRVQGVAQVNIIGGSE
+REIQVNLDALKMQGYGLSVPQVQQNILTSNLDFPTGNIQTRDQKILIRLAGKYKSVEELR
+NLVVSSQNGIQVRLKDIADVQDTQKIAEKISRVDQKSAIVLQIVKQSDANAVAVSEHLLK
+TIATLEKDYKANQLKLEVAKDSTVFTLEAADSVVHDLLIAVVLVAFVMLFFLHSIRNSLI
+VMVSIPASLIATFIGIYLMGYTLNLMSLLGLSLVVGILVDDAIVVLENIYRHMEMGKSRI
+RASYDGTAEIGGTVTSITLVIVVVFLPIAMSSGLVSNIITQFCVTVIISTMLSLLASFTI
+IPWLSSRYGKLEHIEGKNLFGRIILGFESYLTRFTDWVSHLLTWCLDHYIKTFAVVIVLF
+FASTIGLMAGGFIGGEFFASSDSGEFLVQIEMPKDASLEQTNFMTQKAEAYLKAQEYVHS
+QITTVGQTSEGFGASQATAYKAEIDVKMIEQKDRTDDANVYAAKIKRKLEKVLVGAKVKT
+VPVGILGTAEDATLGLIVTGPSTESAMAFAKLAEAELRTIPGTTEIKLTVEDGNPEINVK
+VDRDKMAALGLTLQTVGLTMQTAFSGNTDGKYRAGEYEYDINIRYNAFDRKSITDVSNLI
+FINAAGQQIKLSQFADITEGSGPSQLERRDKSASVTVKGQNVGVPSGTIVQQWQVKLDKL
+KKPAGVNYIWGGDQENQSEGFGTLGIALLAAIILVYLVMVGLYDSFVHPFVVLFAIPLSF
+IGAMLALALTNNSLNIFTILGIIMLIGLVCKNAIMLVDYTNQRRAAGESIRTALIQANHA
+RLRPILMTTIAMVFGMFPIALASGAGAEWKNGLAWVIIGGLISSLFLTLIVVPVIYNIME
+KIIHKFSKGEKINYEAEMFADYTPTELSEDGFNPKHTH
+>tr|A0A1S1JBV4|A0A1S1JBV4_9FLAO
+MYVKNEVLYVQQSINLALNSNLYLRNNSQLLQGTTGNSTNSGLGTLSVYQRGTSDNFDYN
+YWCSPVGNATNSSGNENFGITLLSRPTTEIASVASTILPVSNSDGTSNPLAIASKWVYKL
+INANNYSQWIFVGGSTILAPGEGFSMKGTSGTDSTDPEGTGVTNNSGGSQRYDFRGKPND
+GNITISLGANNATLTGNPYPSALHLNAFLLDPSNANTGGIAYFWEQDKTVNTHTLVNYKG
+GYGAYSPISLGSNGIYVPATFNTYNPDGSVNNTGLSSGLVIQRKYSPIGQGFVINATASG
+TATFKNAHRAFYKQGSGLSQFEKHIPKEKSVKGIEATEGISYLKLNVIINNEFTRQLALV
+FVSRATDGVDIGIDALGMDELPNDVNFLIENNNYIIQGLNFDAEKKIPIIVKATTNTTFK
+FKIPEVINWEASQMIYLYDALNNSFHDIKNGMYEVNLEKGVYTDRFKITFKDNKTLNTSE
+KNYNPFFINQDNINNSLKVSNPKNLSLRTFKLYEITGKVILHKENLGTEQNYIFSTNGLS
+NGVYIAQFLTLNNERFTEKIIILNSKN
+>tr|A0A1S1J0W8|A0A1S1J0W8_9FLAO
+MKVRKFLIVIVGVIGSFSSIMAQSNLLNAKTANQIGIKNPAQLRADNDKPLAYGYVDDRD
+ILMGKTTWEIIDLNEKINFPLYFPVDTANIGSDRRSLYDVLIRGIKAGRITEVYADSYFN
+TKKSLKDIQGGLSRIDTTDAGRELINQYPDDYKTRVVKKKVVTGTGKKKVVTYVDETVGP
+TRTVPAEYILKQDLTAADVTQYKLKGYWYFDKRQSELKYRLLGICPVTPDVYTMNSDEKD
+YIELFWVFFPNAREVLNEAKAFNDSNSAYPISFDQILNSRRFNSIIYKEENVYGDREIKD
+YMKDNAQKQLLESERVKEKIRNFEQDMWSY
+>tr|A0A1S1J1E8|A0A1S1J1E8_9FLAO
+MYSQEAIDILINRIGWSELSSGLPFGLTASNKTADSGKMFNWYHSSVLVDNVYAAVPEVE
+MNEVDFNDYLGTIRKQAVLTVLTSILDTYVDYDPVVDYSNVILQRPALFDDSIGYSVSIK
+MLELYLSTSRSNFFERNAKMSYQSLKVELEGARNDNGHFVAKGIIYKLEQSIKKAQKIIF
+PYKIVVNNANAW
+>tr|A0A1S1J322|A0A1S1J322_9FLAO
+MKMFFLKSILFIFCLTLFSCESKKQNPAAKAYEAGVILSFDDAYVDEWSEADQALRKYSW
+KATFNVCRIDSIGKPQIEKLLEMQKYGHEIAGHGYHHYNAVKFVNKNGMDAYIDQEITPM
+IASMKKHSFKMTSFAYPYGLRSDALDKALSPKFKIIRGRAFGGELPEKQDSYFNNSKIVF
+AFDIDNSHIHFSIPYLLELLHYAKKNNKILILCGHKPVRNVTENYQTKIETLEFICRYMK
+LNDLKFYTLSDLDGLLEHK
+>tr|A0A1S1J821|A0A1S1J821_9FLAO
+MKTIDKLEVEIVDRIYKLFLDKYSGNKSSFAKASNCTETTVRRILRNEQGITVNLLIRMA
+DALDTTSSELLKDLHLRDKE
+>tr|A0A1S1J8D0|A0A1S1J8D0_9FLAO
+MKNTALTHIHESLGAKMLPFAGYNMPITYEGVNAEHETVRNSVGVFDVSHMGEFLLTGPN
+ALALIQKVTSNDASTLTIGRAQYSCLPNNEGGIVDDLIVYKMKEEEYLLVVNASNIEKDW
+NWISSHNDLGVEMKNISDDYSLLAIQGPKAVEAMQSLSSIDLGAITYYHFEVADFAGFND
+VIISATGYTGSGGFEIYCKNADAEAIWNKVFEAGAAFGIKPIGLAARDTLRLEMGFCLYG
+NDINDATSPLEAGLGWITKFTKDFTNSENLKKQKEEGVTRKLIAFEMQERAVPRHDYEIV
+DASGAVIGVVTSGTMSPSMNKGIGLGYVTVNNSTVDSDIFIRIRKNDVAAKVVKLPFYKK
+>tr|A0A1S1J3Q5|A0A1S1J3Q5_9FLAO
+MSKRDLKKYLAELDKEQLEEQIIELYEKFSPVKVYYDFVFNPKEDKLLQECKVKISHEYF
+PIKKAGARKRPKAKLRRSVAQKYIKHFILLGVDPFVVADIMLYNIEIAQTYSSQNPVKQD
+LFCKSIFNSFEQAVNFSISNGILPDFKERIITIQQETLQQKWINRYDFEAILEKID
+>tr|A0A1S1J7X6|A0A1S1J7X6_9FLAO
+MINTSFLGKIATVIIQDYSDKLAETTIILPNKRAKVFLIEALKNETKKTILSPEIISIED
+FVQDVASIRSVDSIELLFEFYEVYLSVTEKQHQQSFELFANWAKTLLQDFNEIDRYLLDP
+SHVLSYLSDIEDIKKWGIEVENKTKLLENYIDFWKLLPLYYDSLYNHLLNKSIGYQGLIY
+REAVNNLNHFSNTVSNRSFIFAGFNALNAAEEKIVQHLLALDQARIYWDVDQTFLNDPYH
+DAGLFVRRFKESWKHYKVNPFEWIVDDFSQSKNIQIIGTPKTIGQAKLAGSIIENMITEN
+PTTALDKVAIVLGEENLLMPVLYSLPSSVGSLNITMGYSGKNNPSQILIAKLFRMHTNAL
+SRKGESYVFYYKDILDVLTHPLVEPYANASNLVRIIKENNYTFITHNRVLELHLNPSPLF
+DLLFQKWENGSIAVLENVSALLVMIKENFSNDNEEEKIAKAFVYAVFKVINKLINYYTKH
+NHIDNIDTLHAIYKQIIDVAEVSFEGEPLRGLQIMGVLESRVLDFDTVIVTSMNEGKFPA
+GKSQNSFIPYDVKNELGLPTFKEKDAIYTYHFYHLLQRAQNIYLIYNTENDGLDAGERSR
+FITQLEVEKQKKHNLTFDIYNPVLPTTAYQPMVVPKSDAVMDRLKEIALAGFSPSALTSY
+IRNPIDFYFQKILRIREVEEVEENIALNTLGTIIHETLKTLYEPFIGKFISETDLENCFK
+LLDAEVLNQFKLVYKEGEIKKGRNLLAFEVAKRNVSNFLKMELESLKNGDAVQIIALEET
+FERELNHPDLPFPVLIKGNVDRIELRNGKIRIIDYKTGKVEKTNVILKSWNGLTQELKND
+KIIQVLAYAFMFETKAKEIPIEAGIISFKNLKSGFLPFTFKEDKEITTTVSREILSNYLE
+EIVLLLKEIFDPTIPFEEKMD
+>tr|A0A1S1J522|A0A1S1J522_9FLAO
+MKISFVKNISFKNLSYYLISSGFTALIGLVINPFLSIGLSHDDFAIIGYFASFASVLAPI
+MSFSLSSYYARNYFLIEEKERIKLLNTILSLFVVFGLLVLFFFYWGYYYYHINFVPSIPF
+KPYAFLSFFPIYFSSFYNIYLLDLRMQNKAQKYAVVTILNALGGALLSLLLVYVLRYGAE
+GRLIAMLIVAILFGIYSLKAQNFSFQIDWPIVQKTFVFCTPLAISAILTFFFMGIDRTFL
+AHLNDNHSLGLYNIGLQISGYLGIFGTVVLQTFEPDLYKYASLKQTKKVIRLIILITVVT
+LLPNLLFMLLSKPLINVLTYGKYMEAREFANILCLRNVTTSLSFALSSVLVGYGFSKYEL
+FNKIIGSFFAILLYKYLINNYGFYGAAWGQSLSWLVMGVISMMFLFLRKNKIKTQL
+>tr|A0A1S1J612|A0A1S1J612_9FLAO
+MKKIIVSFAIITALIIGCKTSTKSNDAKTLRVALEPKSKSTVAGTATFTERKGKVTFAAK
+ITGLQPGVHAIHIHEKADCSAADGSSAGGHWNPTFKKHGKWGVAEYHKGDIGNFTADANG
+NGTITLTTDEWCIGCGDESKDILGKGLIVHQGSDDFTTQPTGNAGGRVACAGIIK
+>tr|A0A1S1JC82|A0A1S1JC82_9FLAO
+MKLLYSYIIKHKMLLFFALIMASINICFSLSDSIITGKLMQDCGVGLHKYDGNPVGFIKS
+LAFWLGLSLGAAMVSRITKNFQDYFTNVVIQRTGAQMYTDGIKKSLDLPFAEFEDQRSGE
+TLSKLTKVRSDSEKLITLSISLIFQTVIGFVFVIVYVARIDYRISIIFLITAPIIALVSS
+YLGKKIKIVSKKIVNQTNALAGSTTESLRNIELVKSLGLTYQEEKRLNLNTFKILQLELQ
+KIRFIRSLSFIQGTTVHFLRTCVVFTLYYFLFGGKIIVGDLLTMVFFTFFIFGPLQELGN
+FIIALNETKVSMENFKTLLSAPKEFRPKNPKHVGAIQSLLFSNVSFQHKTAKFKAVENIN
+FEIKQGQTVAFVGPSGSGKTTLVKLLVGLYTPAEGQVFYNDIDSTEIDLLDLRKQLGFVT
+QDAQLFSGTIRENLLFVRPSATDEDLYDALKRASCEKLLQRAEDGLNTTIGEGGIKVSGG
+EKQRLSIARAILRNPNLLIFDEATSALDSITEEEINTTIRNISDKNRITVLIAHRLSTVM
+HADKIFVLEQGKIIEQGKHEDLIFEKGLYYAMWRQQIGERK
+>tr|A0A1S1J284|A0A1S1J284_9FLAO
+MAKDINKSAFDLATKIKLDIFRESFKEWLPIFIHTPYVEKRFIYDFFAGSGMDSDKNFGS
+PLILLDEAKGENLKHCSKSEGKKIVFAFNEKLKKKNKELEVNIKEFVNNCLQNCNREKCV
+YEHHFGNFNFKEAFKRPKVLEIMKNKNYGKFVLLDQYGFKEVDNDIFTQLINFPKTDFIF
+FISSSFINRFQNHDSIKKYIETEKIEFKKSEPKHCHKLVSQYFKDLIPKNKDYYLHQFSI
+RKGTNYYGLVFGTGHTLGMEKFLKVCWDKDKMAGEANFDINNDFQLGTLFYNEKFSNKIE
+KFKEEFTTKILNNEIVSNIQGLKFTLKSGIQTRIYLEIILNLLENDKIEITRGRFNEKVI
+NIHKLKYSEVYEFSEKVSYIS
+>tr|A0A1S1J387|A0A1S1J387_9FLAO
+MVYKFRVILDAEEDIFRDIAILEDDTLEDLHNAIFNAFGFDGMEVASFYTCDETWNQEDE
+IPLFDTGDVPGEQRTMGDYPLSSILDEQNTKIIYVYDFINMWTFLVELAAIEDQIAGAPY
+PETLFSHGEMPDEATEKNFEADMHDDIYGEFEDDLDEDDLDMFEGDDSFEDYGFEENWN
+>tr|A0A1S1J7L9|A0A1S1J7L9_9FLAO
+MNKTLLFLLLITCLLSGCGAYFNQPVGVQKAVFGENTSATEHLVDMPKPKEQIVVGVYKF
+KDQTGQYKATEVGSTFSTAVTQGATSILIKALQDSKWFVPIERENLGNLLNERNIIRSTR
+QEYEAKKEGGETVLTPLLFAGVLLEGGIISYDTNIITGGFGARYFGAGGSTRYRQDRVTV
+YLRLVSTSNGKILNTVYVSKTILSQSIDASLFRYVNLNRLLEVETGFTRNEPIQLAVTEV
+IEKAVEGLIVQGIKDKLWEVNAPQNQIDAFISAYDVEKSEADLAQLYDRNLEDKRGLFGI
+EVAGGTAIIQGDYKSPEPAPMTRGAVKFFFTPAFNISASANAFKIANKGRDKLGYISTDL
+NLEFIILPRDILTPFVFGGYGFEFNKDYKNFHSKVQFGGGLEYMATSSLGVKLFAEYNMT
+FSDNVDYIVRGKRDDYYWRLGLGLTYYFPKSSKHKK
+>tr|A0A1S1J8G7|A0A1S1J8G7_9FLAO
+MSDIIKEFNDYRSKMNEKLLADNNKIVKRIFNLDTNAYAPGALDVKTKELLGLVASAVLR
+CDDCVKYHLETSHKEGVTKEEMMEAMGIATLVGGTIVIPHLRRAYEFWEALEEAETK
+>tr|A0A1S1JDG1|A0A1S1JDG1_9FLAO
+METYQFVNQKSLDQFHQMISAKTRNGFVVVEHNEKLPYVVLSKKPKAINHPLHLFLTCIT
+FGLWITVWIYFSITLSRKTSILVAVDEDGNLFEDRCLSE
+>tr|A0A1S1J085|A0A1S1J085_9FLAO
+MKKIILSALMLLGLAFTAQSQEISKHALGIRLGDNNGFGGEVSYQLGLNQKNRLEFDLGW
+RNSSNVDAIKGVALYQWVWNIDGGFNWYAGVGGGLATWNHDYYTNNNRYKDNGTYVFAAG
+DIGIEYRFKEAPITLSLDARPEVGSGYYDDDNFGFDVGLGVKFRF
+>tr|A0A1S1J1V1|A0A1S1J1V1_9FLAO
+MKNKKNIYILLPIVLMVWGAVLFQLFSFTNSDEIIIDNTPELMIKPLKLNKRQSFTIDVN
+YRDPFLGKMYAENTTPKAKPSGVRSPKVIKPKEALVWPVILYKGLISDNKEKNKVFVLII
+DKKNYFMKIGDTENEIFLKSGDKESIYVKYKGELNLIMLQD
+>tr|A0A1S1J321|A0A1S1J321_9FLAO
+MEITYKTIMNKISFLFILLCLFTACSDDSSNGSEPAKYDYYFPTEEASITAAQIGAGTGT
+LDPKGITVANNKLYVCNGDVLEVFDAVSMAYIKTISAYTKGATTIPFTKLTSVCVDSGRL
+YIGSVDSRLFVLDEITNAGINTVGNGQWWNTFVHVFGVVVKDGLIFVKEKETSIKVFQTT
+QITDSSDWNLKPIAKLNTLDGWDEVYAMDIDAGNLVVAGRDAKSYLYYNIESIKTNAAAS
+LTEPIKPVTAVFAAAEPMAISFSKDWAITSENIGSNNYLRLYPKGEFKDRIYTPRVNALD
+IMGQNPFGSIVGVAQLNDRLYLSDNTNKKIRVIKLNKATITEQP
+>tr|A0A1S1J730|A0A1S1J730_9FLAO
+MYKVFVNDKPLFLTNEISRETNFQLFLLESIDIEQLIVKIFQNKIQKAYLYHPDEKEIMK
+TLKAKIPVSKAGGGFVYNKRGEVLFIFRNGKWDLPKGGIEKGEEIEATAIREVEEETGVS
+QLRITNKLQKTYHVFKRNGKYKLKITHWFEMHTDFEGIPHGQAEEGIEKVAWLNPEQIKE
+ALKNSYENIKLLFEEESEIKVE
+>tr|A0A1S1JBN5|A0A1S1JBN5_9FLAO
+MKALYIFIAAVFLVSCQNQGKEDINKAKQASIDSMKVEISKQRVIDSMRTEMAKIREEQK
+VEAQQKLETQKVVVVNQKADGTPTATQTTPKKKGWSSAAKGAVIGAGVGAVTGAIVSKRK
+GEGAIIGGLAGAGVGAGTGAIIDGSKKKKE
+>tr|A0A1S1JCR1|A0A1S1JCR1_9FLAO
+MESTEKIQNLLPIGYLFLVVLGILKECVFFFQLKINILKYSTIMDILVSPIADLTANPII
+ILSLIVFAVFILLFISLCYKHRNKSWVKKIIGTKPDGDKFSDIEIKSKLKHFFLISIGIG
+LLSFFLGLGIGEGSKIAEKIKSNKLQYEQKLTFNTGETETIFLIDVNSAYYFYLTPKNNA
+IKVAPLGAIKNIELTCLESIK
+>tr|A0A1S1JCT4|A0A1S1JCT4_9FLAO
+MEQNELYPVFLKLHNLNVLIVGGGNVGLEKLSFLLKSSPNANVEVVAPNFHLEIKVLAEK
+HPSITLTKSKFKKKMLKKRHMVIACTDDLKVNKKVYELSRKRYLICNIADTPDLCDYYLG
+GIVTKGNVKIAISTNGKSPTTAKRLREFFEEVIPEDINKMVENLNEYRKTLKGNFEEKVK
+RMNEITASLKNKE
+>tr|A0A1S1IZ70|A0A1S1IZ70_9FLAO
+MKTNILVFFLLCFSASTFAQEEITVQRYTAHNKGKFFVSWGGNRESYTKSDVNFRGKDYN
+FTVDNMKAHDKPKGWHIDYVNPVNMTIPQTNFRMGYFFSDHYSVSIGWDHMKYVMTQNQT
+ANVNGYINLPADQAGSIYNGVYNNRPVDMSQGGAQEGGFGKGEVGSGTAFLMYEHTDGLN
+YINTEVSRHDDISKLFGITNTDKIQVNLTEGVGVGLLYPKTNTTLLGKERHDDFHISGYG
+LSAKAGINLTFFKYFYIQGELKGGYINMQDIRTTQSSEDRASQDFFFLQRIIAVGGIFRI
+>tr|A0A1S1J6I8|A0A1S1J6I8_9FLAO
+MTKIITIITLFICSLISAQTQFEQGMGKAFGLWKEGKNTEASAMFERIAAAEKNSYLPNY
+YVALINTTAAFSEKDKTKIDLLLTKAQDALDTEFVKDQNNAELYAMQALIYTAWVVADPM
+TNGMKYSAKVMEAYAKGKAIDPNNPRIVFGEADYQIGGAKWSGVDTKPLCAQVDKAVELF
+ATFKPATPFSPKWGLERALETQKNCKK
+>tr|A0A1S1JBP7|A0A1S1JBP7_9FLAO
+MIKKASVGLLVVAMSMTSCVSKKIYNDLETKYSDLKKENRSITDENESLQKSKNQLELDR
+DALTKDLNATKTDLEKQKADLAAQQKKYKVLQDSYNALEKNSNDALESNMAKNRELLAQL
+EAKSKKLADEQARLDKTANRLNELEAMIAAKEEAMRKLKETLSKALNGFEGKGLTVEQKN
+GKVYVSMENKLLFNSGSWAVGTEGRKAVVELGKVLGDNPDLSVLIEGHTDDDPYAGSGPI
+ANNWDLSTKRATAIVNILSENTKINKQKLTAAGRSEFSPLASNATPEGKAKNRRIEIILT
+PRLDEIAEMLNSIN
+>tr|A0A1S1JB87|A0A1S1JB87_9FLAO
+MKKIRNFCIIAHIDHGKSTLADRLLGATQTVTAREEKAQLLDNMDLERERGITIKSHAIQ
+MEYTYKGEEYILNLIDTPGHVDFSYEVSRSIAACEGALLIVDAAQSIQAQTISNLYLALE
+NDLEIIPVLNKVDLPSANPEEVSDDIIDLLGCKLEDIIHASGKTGFGVENILAAIIEKIP
+APKGNPDEPLQALIFDSVYNPFRGIEVIFRVVNGEIKKGQKIKFMATDNEYFADEIGTLK
+LNQVPKTVVSAGDVGYLISGIKEAREVKVGDTITDAKVPTTNMITGFEDVKPMVFAGIYP
+VDTEDYEDLRSSMEKLQLNDASLVFAPESSAALGFGFRCGFLGMLHMEIIQERLEREFDM
+TVITTVPNVSYLAYTKKHPETPLVVNNPSDLPEPSKLDRVEEPFIKATIITKADFVGNVM
+SLCIEKRGQITNQTYLTTERVELNFDMPLAEIVFDFYDRLKTVSKGYASFDYSPIGMRTS
+KLVKLDVLLNAQTVDALSALIHEDNAYNIGKKMTEKLRELIPRQQFDIPIQAAIGAKIIA
+RETIKALRKDVTAKCYGGDISRKRKLLEKQKKGKKRMRQVGNVEIPQEAFMAVLKLND
+>tr|A0A1S1J2T4|A0A1S1J2T4_9FLAO
+MKRVFLLVLFALVSNLSFSQSEQSLIQNCIQNYIEGTSYNQPDSISKAFYSEASLFLSHK
+DKPLWIVPASEYVTWFQKGKKGEFNGRVGRVISVEFFNDIAIAKAEIVIAEKKQEFMDMF
+LLKKIQGEWRIISKAASSKATNKSGKRILFIVSNAHYYGNSTISTGNSFAEIINAYDTFI
+HAGYTVDFVSPKGGSIPLAYINTSDNLQKQYLYDQDFMYAIKHTVSPKEIDYKNYKAVHY
+IGGGSAMYDVPESLDIQRIAMQVYEDNNGIISSVCHGTAGIVNLKTKNGKFLVDGKRISG
+YPDSFEKQDGEYFKHFPFLIQKTIEDRGGDFKFSKRNESYVEQDGRIVTGQNFQSSNGVA
+LKIIEWMEKNK
+>tr|A0A1S1J342|A0A1S1J342_9FLAO
+MPRPKKALFNWSSGKDSALALYKISQNPEFKIECLLTSVNQQYQRISMHGVRVELLEAQA
+KSLGMPLKIMQIPEMPTMETYEGVMNETLLELKNQGITHSIFGDIFLEDLRKYRETQLAK
+IDFEGVFPLWKIPTQDLIQEFIALGFKTIVVCVNERFLDKSFVGRIIDQDFINDLPENVD
+VCGENGEFHTFTFDGPIFSEPVSFEIGEIVYRKYEKPKTQEASNTACDTNSSDAFDYGFW
+YCDLI
+>tr|A0A1S1J8L7|A0A1S1J8L7_9FLAO
+MKKNVVVALSLLTFSGIYAQENKKEQDSLKNNELTEVTIVGSRSKNRVKTDVPVPVDVFN
+ISEITKGAPQTSVTQILNYVAPSFTSNATSTADATDHVDPAQLRGLGPDQVLILVNGKRR
+HTSSLVNINGSPGRGSVGTDLNAIPSFAIERIEVLRDGAAAQYGSDAIAGVINIVLKKNA
+NYLSGGIQYGTNLSSGSNNFKGGADGQNLQVDLNYGTSLGKAGSFLNVTGSAVTRQATSR
+AGIRSNAIFNAYNAVENRAAQNGVNINSFFSNINNTPNSAQILNSLKQYAPQVGYFTPAQ
+QNAIASAGTIAQMQTALNFDVTNNELAYRGQERSDYNMSVGQSELASGQLYYNTKYPLTE
+TTSLYSFGGLSYRNGRSYAFNRLPNGSGTFTQVYQNGFLPEIESSILDASAAVGATTELF
+GFDTDISTNLGTNSFKYDVNNTINATLGTNSASSFYAGKVSFLQSTTNLDLSKKYDVLNG
+LNVAFGGEFRYENYQIQQGEEASYGLYDTNGNLVPGILPSNSPLIVTDFFGNKRGAGAQG
+FSGFQPSDAKVKDRKSGAAYVDLELNATENWLLNGAARYENYSDFGSTVTFKLASLLKLT
+DNINWRISGQTGFRAPSLQQKYFESSSTQFINGSPYQVGYFTNDSQAAKSIGVENLKAEK
+SKSISTGFTFKIPEANITIATDAYFTRIDDRVVLTGQYARPTDAQINAATSPEQKDALTL
+FQQAFDLKGVERASFWTNGINSETKGVDVVISHKYNVIPDFTIRNDFALSYNTTKRVGEL
+NVPQSIINAGGEPFKYSFFPESSRIYLEEAIPKLKANLTTTFSIKKLDIYLRNSYFGAVT
+DPGATDVNLDGSSSVYEHPEYSAKLVTDLSFGYQINEKFRLTVGFNNIGDVYPDRNNPAT
+PAFTNTTPTLSPAPSTDLSNANQFAYSRAVSQFGLNGRFGFARLSFKF
+>tr|A0A1S1J8K1|A0A1S1J8K1_9FLAO
+MKVKTILVSQPEPKVENSPYFELQQKHKIKIDFRPFIHVEGVNAKEIRLQKIDLNHYTAI
+ILTSRNAVDHFFRVADEMRYKVPEGLKYFCQSEAVAFYLQKYVVYRKRKIYVGAKDFADL
+SPLIKKYKDEKFLLPASDQLNADAPVTLNNLKVDWAQAVFYKTVMSDLSDLADVYYDVLA
+FFSPTGIKSLFKNFPDFKQNDTRIAVFGSTTQKEALDHGLRIDILAPTPETPSMTMALEK
+YIAEANKGK
+>tr|A0A1S1J2U1|A0A1S1J2U1_9FLAO
+MESKLSIAEFRARLKNNTEIGSLKIKFSHLRIFPRFGALKPFYGLFDDKSFRLTINSATS
+PTCFIVKGSYKNVDNRLKVNYTIEPNSKIQLFWVKYSPVVAIIAINLFFVVFARGLRRAS
+TIVNLFLLITIFYSRWKEERRRKKLEKKFLSIFEIKRDW
+>tr|A0A1S1J5F4|A0A1S1J5F4_9FLAO
+MENDKEKNTAEFYERLKVELDNSNTWPAEYLYKFIVPSVDDNVERVEKAFDSMGAVIKTT
+KSKTGKFTSVSVDVTMHSADQVISKYKEVSTIEGIVSL
+>tr|A0A1S1J7F1|A0A1S1J7F1_9FLAO
+MSENINLEVNTAKYTDFNYPNGGETSIQGVRGVTGSENVYISGSLIGLNDIVQGLIYEGP
+LNGSGNQGKWNIVNFPSTPTATVINTSCYGPNNGHQGKVQIVGSYKISASSGKAPSGNLG
+FYYEGPADGSGTWIQVSPNGGNTNNVFVHSIMGGIAVGNYDVENDKNGYAFLYDVVTKEY
+IDFKVPDSLTTTLYGIWHNGGDHYTMAGGYSSAKLGEISQAFLVDYNSKTKQTSNLKSFS
+YKNETILSVVTHFEGITASKDNGYHMPSDWISVNGKDMGASFVAVNRNSDGTFGEANWID
+IDFPNADSTSANTAYQNSILGVYTVKNDSGTVTVSSYVAKVHP
+>tr|A0A1S1JB57|A0A1S1JB57_9FLAO
+MENDLVEKESWFKRNWKWFLPSAFLCLFLIGILAASTSQDSITDIAKAYSDELLFEKAIE
+KANKNPSILENIGTIEPIDKLAILEGNVMYSNNHNTVNLSVRVNGAKKKGKLNISAFKKG
+TEWVYQKIAVRTKNPKNEIIVLEEPQK
+>tr|A0A1S1JC26|A0A1S1JC26_9FLAO
+MKTIANLGLTSLVLIILFFSCKKFDPATSENLADQQTTTDSTAVSSSAAVEKKDGKQKFI
+RTADIKFKVKNVVKSTYAIENTTQKFGGFVTYTSLQSTIRDQVKTKISQDSTLETTKYTV
+QNDITIRVPNTQLDTVIKIIAKQIDFLDFRLIKADDVSLKLLSNQLSQKRNTVTQKRVEK
+AIDAKGKKINDVMEAENALANQKEANDNSIIEKLSLEDQINFSTITLQLYQNETIKQEII
+ASEKDSDAYKPNLGIQVIDSLKNGWYILETIFVFLINLWPFLLIGFGGFFLYKKYFKK
+>tr|A0A1S1JCD6|A0A1S1JCD6_9FLAO
+MKVAVVTAFPPSKVTLNEYGYHLVKNFVQNSEVSELILLSDKTSEAKQLDFDQKEKVKVK
+ECWRFNSYTTIFSVLNAVREEQPDVILFNLQFVKFGDKKTPSALGLLLPMILRFFGYKTV
+VLLHNILEQVDLEKAGFTESKFMQKIYNFIGTNITRCILKANKVAVTIHKYVDVLNAKYH
+TKNVMLIPHGTFESVKNPNFEIKSGPKQIMAFGKFGTYKKVEILIDAVEIVRKTNPEKLE
+VVIAGTDSPNTPGYLDGVQEKYKNVEGIIFTGYVEENNVERIFTDSTIVVFPYTSTTGSS
+GVLHQAGSYGKAVIMPDLGDLALLIKDEGYKGEFFNPESADSLAIAIDKIISNDTYRKEL
+AIANFQAASALSMDKIIMMYIECFKSIQ
+>tr|A0A1S1IZ87|A0A1S1IZ87_9FLAO
+MSKELDKKTKGSWLIHHTNKLQGVINQSGFENTFLAGKAGILLSAISANQSITINSERLK
+VLAKAANINTTFELPKLIEVLQNQELIDTSATGIAVLGVTSNKTLEHTSDIFDALAPSGN
+ENASIALAERASISPIFATDISEELSDTYKLSFGELNQLLADSESIGFVDIEKITDTDKL
+LFNGNLFRRDSTQKIKNVLDSLKPEEQGKLNELTETLKKNACISVEYAENLLGLNLFQKV
+VAVGLFDISVVSNSTENVGFLTLPSAFSKYSDSMVDDAFDLAKAFVSSITYGMTKSSYAR
+GQIHLVDALLRALVRGESVGPVRAIAEDYKILELKGVVQVSQGSKNGRSGPMLSLLKKEV
+GELALQVIQQGDVSEHSLSALPTAAVTKFNGPEYNREKTRRKQTSINPKATNDMLSILRT
+GGKF
+>tr|A0A1S1J233|A0A1S1J233_9FLAO
+MSIIIRPIVTEKVTKESEVLNRFGFVVDKKANKVQIKKAVEAAYGVTIVSVNTMNVRPDR
+TTKYTKSGLISGKTNAIKKAIVQVQEGETIDFYNNI
+>tr|A0A1S1J295|A0A1S1J295_9FLAO
+MKMKSPSNNYSFLVADDHSVVRQGVSLMIKELFSNALIHKAGNFKDTLTILKEQSIDLLI
+LDVNFPDGNSISIITEIKSIQPEVKILIFSAYDENIYAMRYLNAGASGYLNKETSEEEMK
+NAISSMILSGKYITQNLKDRILDSYISKKPTNPLDVLSNREIEVAQLLIKGYGNLEIIEH
+LNIKKTTVSTYKNRIFEKLEIDNLADLIKVFQLYAD
+>tr|A0A1S1J4P3|A0A1S1J4P3_9FLAO
+MELPLYDSKVDSTRNAVVSKCEKFRYTLFRKWDDSKPLVMFIMLNPSTADAMYDDPTIRR
+CIGFAKSWGFGGLYVGNLFAYRATDPKNLLTCENIIGADNKYWLDKMASLCEYVVVAWGN
+STIMNKLTKKISANYRPLKGIENLHFIEYSNDGTPKHPLYLKGDLKPKKVSEINFKI
+>tr|A0A1S1J5L8|A0A1S1J5L8_9FLAO
+MKTQVISNTIFSFFKDRKGVSYLRENDKIIRQFVFTIFFIGIGIWFIKHERSELVEVNTV
+ITNASFFWVSCGIALAFLYVSLQALMYFASFKAVQSGISFKQAIILFLKRNFVSVFLPAG
+GISSLAFFTKSIEKSGVKPTQIHFASVVYGFVGILSVIIVAIPALIYSLLEGTAGSGEGY
+ALGAVVILALFLFLIYDSIVKKGPLYRLIIKLLPSAVVFLDDLQQNRILKKNFLQVVFYS
+VLIEFAGIAHLYIAMIALGFEPSLPAAIIGYIVSVIFLIVSPFLRGLGAIEISMSFILIQ
+FGFDNVSAIAITFLYRFFEFWIPLVAGAFLFLFNANTLLMRVVPSFLLFVLGLINIVSVL
+TPAISERLHILRNIIPVSAIKASNDFVITAGLFMLVNATFMLKGLRNAWWSAIFLSGISV
+IGHLTKAIDYEEAVIALVVFISLIITRKEYYIKSNAHLQSIGLKTVLITMAAVLIYSILG
+FYFLDKKHFGIDFHWQQSIRYGFQNYFLVGSSDLVPLDRFARRFLLSINISGFLSIGFLI
+FALIRPYTIKKEAIEDDFLSAKDLRSLYGTSALDYFKTYDDKNIFIAKSKKSFLAYRVAD
+SFAVVLENPVAASEDEFKQCIVEFDEYCYENGLRSIYYRVPEENLELFASLHKKNLFIGQ
+EAVVDLSVFTMEGGAKKSLRNAISKVKEKGFKTTIHTAPVKDGLLQKVKAVSDEWLAGTG
+RTEIVFSQGKFDWEELKQQTIITVENAEEKIVAFLNVIPDYAKGEGTYDLIRKTNDAPNG
+IIDFILLELFAYLKSQGCTSVNLGLAAMSGIEDPDTFPEKSMKYAYERIKYFSHYKGLRD
+FKEKFSPVWYNKYLVYTHDYDLLQAPLVLNKVVKP
+>tr|A0A1S1J6F9|A0A1S1J6F9_9FLAO
+MTPFIAEILGTMIMILLGNGVVANVLLKDTKGNNSGWMVITSAWAFAVFVGVTIAGPISG
+AHLNPIVTLGLALIGKFTWNLVPVYILAQMIGAMSGAFLVWLSHKDHFAATEDEGTTLAC
+FSTSPAIKNNLSNLISEVIATFVLLFSIFYIAGPSLQIATDANATIGLGTIGALPVAIVV
+WAIGLSLGGTTGYAINPARDLGPRIMHAILPIKGSSNWTYAWIPIVGPIIGSGLAAALYL
+AIN
+>tr|A0A1S1J6Y8|A0A1S1J6Y8_9FLAO
+MHFKHPEILYFLFLLIVPILVHLFQLRRFKTSFFTNVRFLKEISVQTRKSSKIKKRLLLA
+TRLLLLTCIILAFAQPFFEAKDSKNAANEMYIVLDNSFSMQAKGKKGELLKRAVQELLEN
+TPETASFSLLTNTENYWNTDIKSSKSALQNLKYSATPLELPSIIAKIKAHKSAHKKDIVI
+ITDAVGLTGKDIKNLDTEEKPYFIIPEAEQKNNIAIDSVFINQTLENFYEISVNLSAYGE
+DFKPVSMALYNQNKLIAKTIIHFDAKKKKIDFTIPKEAFHGYVVIEDNGLAYDNKLYFSI
+LKTKKTNIISIGEPEKSNFLSRIYTSAEFNYNNYSISSLDYNSLDKQNTIILNELTEVPQ
+ALQTTLKAFVAKGGNLVVIPSEKTVISNLNSFLGNFGKIQFTTLENKAKLITKINFDHPL
+FSGVFENKITNFQYPKTNSSFGISSPYPAVLSYEDQSVFVTAIQNPVSGITVFTAPINAT
+NSNFQQSPLIVPLFYKMGQNNQKTGVNALIIGSNQPYFVDVLLTKDAILEVKGNDDSFIP
+IQQILNNKVKLTFNDFPETAGNYSVFDRKEWVENLSFNYKRSESDLSQVNTNVVSDFKTA
+DTISTIFNTLQTERTDSQIWKWFVIFALLFLALEMAIIKFVK
+>tr|A0A1S1J1G3|A0A1S1J1G3_9FLAO
+MEPKIYPVIMRVFSPLLFIFSVQVSLACGWSVSPETSRLALFKAQREGFFKLTPFYYSAD
+NYYDTNTVSGADQELNCAEWKKKLGSQVDPKDVHVILYETDAEKFETAYETKSLKKVFDK
+NTFIEALLLSKNKALLNYILFAKKLEYNSNPDVKWESWGNIGYDSKDHKIADVSDFEKKI
+RTAKDSFLKQRYAFLLLRYSFYASDKNEVIRLYDTYFAADKNTILSPWALYYKALCVEDL
+ALQNYLLSKVFVSCEEKSFAVLQHYNWKLTAETLALAQNDEERSVILAIEGLRNPAPGLK
+TIQEVYELSPNSLYLSFLIGREVNKLEDWIFTPQYTNDGTPSVVFDSTVWYENYTKAKEE
+NFRKDILYLRELEYYLISIREQTSGEQKDYITAAIAQLCFIGDEIDLGKKYTDMISEKAN
+SSIQMQKNIQLALVSLKQDDLKNNEVQNQFFKYFDSVENLVETDLGLFKNLYSLYRIASK
+DFAAKGDRVTAGLLATKSDIKNEGEYSAYNTPYFYSYIGYFDRNNATEADIDRLIALQEK
+KDKTPFERYICSGTIAPNVNYYKDLKGTIAFRNNNLELAYQTFASMPKDFWEKNYAYKDF
+LNENPFTPKILQRDTERKFDYRFNKADFIAQLIQLKKQNTATSNLKLAHAYFNVSYLGNS
+WMMTAYDWTSGESYVDYVYGDNSENEKKYQNGNYYSLSMAKMYYEKALKMSKNTNEKALA
+SLMIFECNYYNHYANIVSAEEEEKNPFKAGQELINFYSVYRKTTAFQKYNCPLLESYLK
+>tr|A0A1S1J4H2|A0A1S1J4H2_9FLAO
+MKKIFLIFMIVFTAQVSLAQVKSIKGVITDSDGMPLPGASVAVQGGQKGTTSDFDGVYSI
+EVQKGQTLVFTYVGLETQSIVVGDAATINVKMLQAASNALTEVVVTSLGIKKTRKSLTYA
+AQELKGEELTRVRDANVINTIAGKIAGVAVTKSSAGTGGSTKVDIRGSSSATNNQPLYVI
+DGIPMLNSGSGQPNDTFGSLNGGNRDGGDVVSLINPDDYDGMTVLKGAAASVLYGSQGAN
+GVILLSSKKGKVGQSSFSGSSVTTFESAAYLPKFQKDYAARTGEDESWGTKQNIKDHVKD
+FFQTGVTQITSVGYSAATENSSTALTYANTSGSGIIPGNGIKRNNFGIRQTAKFFDNKLT
+VGVTGNYTTQSIANKPVNGLYFNPLTGVYLMPRGNDFNYYKNNYEVFNPTRNLMAQNWMT
+NRDIMQNPYWAINRNKSEDTNTFFNGAISASYKANEWLTIASRYSYNRVDSGFEKRIFAT
+TQGTLSHANGRYISNDAVSTQRYGDLIATINTKFSDDFSFNANIGTSITNTMTNDRTILD
+SGIGAGLKITNWFTLNNFVNNTGNYQTIDSKREIQSVFAATTLGYKDMLFLDVAARNDWS
+STLVNTNKGSYFYPSVGLTGILSEMFKMPESVSFAKVRATYAQVGNDVAAFVTTPVDLYV
+PGNNSTQPQVGLQRGTTLKPELKSEYEFGTEWRFLNNRFGIELSYYNSTTKNQYFQSAAP
+DGSPEGVRFYGFNAGSIENKGFEIVVNAGIVKGDKFSWDSSVNFSQNKNKVKELPASSKG
+IVNLTVPGVNNYQYSLIEGRPFGVIMGKNILKDDQGRILLDKDGKIQGTEGFTEVGNSNP
+DFMLGFSNTFKVGSFFANVLIDGRFGGNVMSMTEAQNDFFGVSKATGDARNAGGVPVNAI
+KPDGTVVTNIPAEDYYKKVGGRDGITGEYVYKATNVSVREISVGYTFNPKKLPVFQTASI
+SLIARNLFFIYKDAPFDPNIALSTGEGLQGIDIYGLPSTRSIGLNLNVTF
+>tr|A0A1S1J4K2|A0A1S1J4K2_9FLAO
+MEENLKRLNKFIGETGYCSRREADKLIEEGRVTINGAVPEMGTKVSPDDEVRIDGKLIVE
+KNEKMVYLAFNKPVGIECTTNLEVRNNIVDYINYPKRIFPIGRLDKASEGLIFMTNDGDI
+VNKILRARNNHEKEYTVTVNKPITDRFIQRMGNGVPILDTVTRKCKVEQISKYTFKIILT
+QGLNRQIRRMCEYLGYDVTALKRIRIINISLDVPVGRYRDLTDAEIKELNHLIAPSSKTE
+EASLPKEEAPKRRTEFISKHDPRFKKRGDY
+>tr|A0A1S1J8B2|A0A1S1J8B2_9FLAO
+MKKKFIVLGVLFAAFGFTKINAQINFGEKALGAVQKGVSGFTFSNADAAALSKAAVDKMD
+TENQVAAATDPYTLRLNRVFGKYTAGDGYTLNYKVYKLKEVNAFATADGSVRVYSGLMDI
+MDDNELLAVIGHEIGHVANQDSRDAIKAAYRKEALLEGAASQSATIASVTDSQLGKIGSA
+IIDSKFSRKQEAEADLFSYEFLKKNGYNVNAEESAFRILAKMSEGNEASFIDQMMSSHPD
+SKQRAEDAKKRAEKDGLYKPYVQQKIVNTAPAKKGTPAKKAPAKKKK
+>tr|A0A1S1J8X4|A0A1S1J8X4_9FLAO
+MKKLFFIALVALCTVATAQSSLPKMATDIAPLLIGEKIPNTTLKSVENAAVKISDLLEKK
+KTVLVFYRGGWCPYCNMHLQALAEAEKQILDLGYQIIAICPDAPENLKITEEKDKVKYTL
+LSDSEGEFTKAIGIAYEAPENYKSVINVHSKGVNKSFLPVPSVFVVNPNGEIAFEYIAPD
+FKHRISTELLVSVLKNLK
+>tr|A0A1S1JAD9|A0A1S1JAD9_9FLAO
+MKKSFLNFFAVLLLILIHTNGYTQKVITKTGTIKFQATVPSYEEVAAENKSVSAILDQST
+GDFAALALIKGFRFKVALMEEHFNENYMESEKFSKATLKGKLEDFDISKITNTPKNFTLK
+GDLTIHGKTKPIIVNVKISKAANGLSTVGSFEVKPEDFDIEIPSLVRKKIADKIKISYNF
+LLVK
+>tr|A0A1S1J886|A0A1S1J886_9FLAO
+MKILKTLFILAFLTFLSCKKEDKSFETPEKVAAHTFEVLKNIDKKTNEEFLQEVMTYQEL
+KDLANNPNAKLGEIVKSKFESVSQKAFTDTSIRDFNDIKETGKTYNIDWSSITFSEFKHL
+VIEFDNMKGLRVETYFKNKDGQIYFVKSQSFYDGKGYRIVKLAEIVPKR
+>tr|A0A1S1J0Q8|A0A1S1J0Q8_9FLAO
+MKNFYFLFIICLFISCKKEAPKAIPVVKKAAPAIILTDERKVSIDTALIGTFKSETLKLF
+YNSSENMTVWGNLKKRTYVLSQLADAEQLGLDPEDYKASKLQKFESKISSLSDSDLATYD
+VLLTYNFEKYLNHLYKGKLDPKKLYTDWDLEEKTFDVNNVLIKAFNKNKLDSIVDGIQSK
+ASPYKQLLKALEIINTFPDDDIQPIESVTKITLNDTNTALINIKKRLLFWKDMTGKDSLT
+SIYDHKTFESVKKFQERHGLAADGVIGVGTISALNFSKEKRKHQIIANLERWRWYTTDLA
+EDYFIINIPDYKLNVVESQDTTLVRNVVVGTSKRKTPIITSKLRTVVFNPTWTVPPTILK
+EDVVPAMKRNRNYLANKNITIYDTAGKEVSPAAWNENKPGNYRYVQSPGYNNALGLMKIL
+FPNNHSVYLHDTNHRNNFGRNNRSLSSGCVRVENPLELAEHILGDSTNWSKDKIDTIIAS
+KKTTSIRITKKYALYQWYWTAWSKKNQLIFRADIYNLDSDLYAKLRN
+>tr|A0A1S1J1D0|A0A1S1J1D0_9FLAO
+MQKQIIVLIGGPGTGKSTLINELVARGYCCYPEISRQVTLEAQQRGIEQLFLEQPLLFSE
+MLLNGRIKQFKDAVEEPHEVVFIDRGIPDVTAYMDYINDDYPESFVQACEDYKYSKTFIL
+PPWEEIYESDTERYENFEQAEKIQKHLVDTYKKYGYNLIEVPKDTVENRILYILDKI
+>tr|A0A1S1J105|A0A1S1J105_9FLAO
+MEIFHISAECYPMAKVGGLADVVGALPKYQNKAGHDVRVVVPCYDTKFRKENDFECVHWG
+NVKLGNFNFPFSVLKETTDKLGYELYLIEIKELFDRPNVYGYEDDIERFVSFQMATLDWI
+TARNKVPDVLNCHDHHTGLIPFLVQYAYKYESLSSVRSVITIHNGLYQGWFGFDKLFYLP
+EFDLKHVGFLEWDHSINSLAVGIKCAHAVTTVSPSYLDEINNAANGLEALFKSVRHKSKG
+ILNGIDFEVWDPAKDQMIESNYSIDTFEIGKQQNKEKLCEEFELDPAKPIFSFIGRLFEE
+KGGDLLPQASALALSENFENINILILGSGNSLIEEQLVQLRNDYKGNYNVFIGYNEALAH
+LIYAGADFILMPSRVEPCGLNQMYALRYGTVPIVRRTGGLRDTVIDFGDAGNGVCHDQAS
+VGDICYSINRAVKLYGDKINFKNIRAKGMGTDHSWERACQEYIEIYNLIIEKNEI
+>tr|A0A1S1J4F5|A0A1S1J4F5_9FLAO
+MTTILKTKDLNIGYKSKKGVVTIAENLNLNSASGKLISLIGANGIGKSTLLRTITGIQQP
+LKGHVFLNEKNISSYKPLELAQNLSLVLTEKLPPSNLSVFELVALGRQPYTNWIGTLSQN
+DIEKVQEALELTQIEHLAQKKHFEISDGQLQKVLIARALAQDTPLIILDEPTTHLDLLHK
+VSLFKLLKKLTEETQKCILFSTHDIDLAIQLSDEMIIMTPELVVQDAPCNLISKGSFATL
+FKDEHIIFDAEKGKFVIT
+>tr|A0A1S1JDV9|A0A1S1JDV9_9FLAO
+MAFKAVLEFEGNEYQVLFSKVDMLRHTDGKGAVSSEIKGGRLNLRVKSTDNTTVIEQAVN
+SQHKPVSGKVKFFKADSEQVMKELSFENAFIVFFSEQLDALAETPMTTEITFSAEKITLG
+NATLDNNWAKI
+>tr|A0A1S1J6P8|A0A1S1J6P8_9FLAO
+MDKIQLPKMLKNLHLYLLLLCSLIGFEGFAQTFPISVTTQITQPSPIYLSKYADATTINS
+PIKIQLLLNDLTISNRQVRLKIYFQGNGVSFSNNDFVVGAKPLYLEGGFPLQLTNVDLAP
+YFQFQNLLGLNPNQYAQPLPEGISNFYVEVYDFATGKKLSRKTGTTTVIFQNEPPFLNLP
+LNNASIMQQNLQNIVFNWTPRSINVSNVEYEFSLVEIWDNYTPVQNAFAYSPPLYTTTTK
+MTTLQYGMSEPQLIPGKKYAWRIKAKAILGAEEIGVFKNNGYTEIFAFTYEVFCTSPLAI
+KTESIGQDQAKINWSGNIDNFDYQVNYREKNSGSEWYKAVTPRENITLSNLKPNTTYEYT
+VGSSCDVGKYIHSSIYEFTTIARDEIVFQGCGIKPDPKDLTNQTPLPELFPNDVISAGDF
+PIVVLHATGSNGTFSGDGYVTLPFLEKFRKLIDAAEALSPKDGEGNSKWNLSENTRIKIT
+FDNIGLNTDFKLISGEIVAGYDAGNWDNMLDGDKLVDDIAAAFEKEAAELQKEINEPEIT
+QNTEVPTNSGQDPAVIPNPTNEVTPPVSNVTTPPVTNTPTNPTGGTPVPSNNTNAPPKPT
+ENSNTTEPKKEGKPFSSKELYAIGLNSKDEPKRVAKTGQTLYYINKASLLNEKKETTFLL
+VNNPNYAEKLVDKESIKWTVNGTPFPAFTGKKQFVKNVSEKDELTNVTSTAGYPNPTDKY
+VYVKWVDHNYSSNTLAVEGSKIAEFKKTLEKLARYLGTRVYNRRDRPKGEGDKGILYDVS
+YQNTIQNKEGESNRLYYKETESVTKLEVGAKIGYEAPVPGCAIPSIDRMLFGHKFKVEFG
+LYWFVGAQTSATIGMTNTTRDWVDNPQMRTSTWTYGHPSTFAIEGTVGLNPKFVIKVPGI
+SGEASAKSSAKAKLYEFNFKKWKSSFPLVEDGIPLEISPITKFDIFGLSWSHEWGKYEHT
+IKFN
+>tr|A0A1S1J171|A0A1S1J171_9FLAO
+MKNSLTLLLISLICQITVGQNSRKPIHGQVTNKSLAVESGFVMNVNANVRTFIGSGGLFD
+IMAKPKDTLLFTGLAFQSKKIVLTEKDCAGVLLSVPLDLISNELKEVLVHKDLKVKSLGG
+GSQQYVDMQFEDDKQSTAKNITMYSDQTIKYGMNFVRIFKDVKKLLSKDDDDKEEVITDL
+AFIEYSRANFKPNFFTGTLGLKEDDIELFLLYCSNDPESRKHLGPDQKFELIDFLVNKNK
+EFKKVKVSQ
+>tr|A0A1S1J3B9|A0A1S1J3B9_9FLAO
+MKKILFVMAAAITLAAAPSAKAQFVVTDPANLASGILNSANEIIQTSSTVSNVVKNFKEV
+EKVYKQGKEYYDKLQAINNLVKDARKVQQTVLLVGDVSEMYVQNFGRMLNDPNFSARELT
+AIAKGYSALLGESTELLKELKQIVTSSSLSLSDKERMDIIDRVYKEVKEYHSLVRYYTNK
+NISVSILRAKKQNSTKRVLELYGTPNQKYW
+>tr|A0A1S1J4V6|A0A1S1J4V6_9FLAO
+MTREHYIPFNKEFLLEQQLTAFAEDSKKTDDFRKLFDIIEHYFHYEAFNLNRNLKQNYAL
+FDPDLSLNERENFIGKSDFNVFKETLLTVLEQGNYRRIEQETLDKAFEDSDLIGLKLSID
+FNAFKDYELYVRGQHKTKEKIRKYFFWKKEIEIEYYDRVLIYLHYSEADYIKEKKVKLGK
+MPIEPGSVALKIFKRVPKNDLETIFPNAIPRMSTKDKLFFWVPGIGGGISLLSTTVIPAL
+IGMYGAYQSGETIDLLNSKASLNQGLIALGILSLYLFRQYSNFVNKRIKYSKILSDSLYF
+KNLGNNSGAFYSLLNSSEEEVLKETILAYTFLYKNEYAISAEELDNQIESWFTTALNTNL
+DFDVQDALLKLKTMALAVESNGKWSVIPLDDALVTVDSLWDNVFDYNQKVEACECN
+>tr|A0A1S1JAX5|A0A1S1JAX5_9FLAO
+MKISLTQKYNVPGPRYTSYPTVPYWNETNFNEQKWITSFRRAFAESNSQNGISLYIHLPF
+CESLCTFCGCNKRITKNHNVEETYIKALLKEWSLYCNLLPEKPIIKEIHLGGGTPTFFSV
+NNLELLINGIFKNARKAENHEFSFEGHPNNTTYEQLKKLYHLGFRRVSFGVQDYAEKVQK
+AIHRIQPFHNVAKVTFWAKEIGYTSIGHDIIFGLPFQTVENVIDTVEKTNSLKPDRLAFY
+SYAHVPWIKGNGQRGFNDENIPKDAEKRKLYEVGKQLLAQNGYHEIGMDHFAFASDSLYK
+AAQDKKLHRNFMGYSASKTQLMIGLGVSSISDSWYSFAQNTKTLEEYYQLLESNKLPVVK
+GHILDDEDLIIRKHILNLTCEFETSWSNESLYFKEIPAVLSDLKEMENDQLIVIEENKIK
+ITEAGRPFVRNICMAFDLHLKRKSPETNLFSMTV
+>tr|A0A1S1J168|A0A1S1J168_9FLAO
+MSTNNRRFPAEWEKQQGIVLCFPHNGNDWPGKYEAVQWAFVEFIKKVATFETVFLVVADE
+KLKEKVRGMLEMGRVNLANVSFIVHKTNRSWMRDSGPIIVQNGSKREALNFNFNGWAKYK
+NYQLDKFVPAKIADFIDVPLTQVMYKGKPVIVEGGAIDVNGKGTLLTSEECLMHPTIQVR
+NAGFTKEDYEAVFKEYLGVTNVIWLGDGIEGDDTHGHIDDLCRFVNEDTIVTIVETDKND
+SNYKPLQDNLKRLQNAKLEDGKSPTIVALPMPKRVDFDTLRLPASYANFLILNNCVLVPT
+FNDSNDRVALNILAECFPDREVIGISCIDFIWGFGTLHCLSQQIPA
+>tr|A0A1S1J405|A0A1S1J405_9FLAO
+MEMNRLIYGERRAKVIECIRAKLQTIEDENLSLLENLGIDFKKTTGLAWNDSAVWFYNDP
+NNPVDKLPNEVKSKVDLVISSCLKDCI
+>tr|A0A1S1J4K4|A0A1S1J4K4_9FLAO
+MAKQSAIEQDGSIIEALSNAMFRVELENGHIVIAHISGKMRMHYIKLLPGDKVKLEMSPY
+DLSKARITYRY
+>tr|A0A1S1JCA2|A0A1S1JCA2_9FLAO
+MKLKFKWIFTLVVALSMQFSFAQERTVTGKVSDKTGVIPGVNVLVKGSKVSTQTDFDGSY
+SIKAKTGDVLVYSYVGMNNKQVTVGSSNSVNVVLESEAQLMNEVVVVGYGVQKRKEVTGS
+ISKIAGSEISNLVTPSFEGVLAGRATGVQVVTNSGIIGVAPKIRIRGIASISSGTDPLIV
+VDGMPILSGDIGGSANTNGLADINPDDIESFDILKDGAATAIYGSRAANGVILITTKSGK
+KGSLKVTYSTTFGVASAAKKYDVLQTPDFLVIANEKRTNRGQAPWAVGSTYNTDWQSAVL
+RNAPQMTHNLSFSGGSDKTKYYLSLGYTDQEGINLANGMKRYSVRANIDQDVNRWLSVGT
+NLSVTRTEYNGLNTSASGLSGNIFNTIRQLPNVPIYDAANPTGYNITLPLSTNTVGKWDN
+TDPVGDNITNIVYALDHNKYYSKVNRTLLNVFANAKITSDLSYKLQVSADNSITGGFQYW
+NPVHGDGRSRNGYLINDNTEYLRWNWQNILNYKKTFAENHNIGVTAVAEYQKQRYQYFFG
+QGSDIISDFYDKNLVTNSYITKDSGGSITENGIMSYLGRFTYNYKEKYFLQGSIRRDGIS
+KLGKDKRWTNFPGVSAGWTVSKEDFMQPISNTLSDFKLRASYSKVGNTEIGNYPYMDLTA
+PSPYGPTNGIGYFQFGNPTLQWESSEKIDFGADLGLFNNRLTIGFDYYRNNIDKLILAVP
+VSPSLGIPFNTTNKNIGKLYNEGYEFAVSFKAINNENFKWDVSSNLTLSKNVVTDLVDGQ
+DIIGGTSGDTNIAPNLILREGESMNSLYGFRYWGVNKANGNPVYYKADGSLVQGNLPGST
+YSVFDPSNPAAAGAAATLVTADKTILGNTLPKYYGSVSSSMKYKNIDFGFMFRFSGGNKI
+FNSTRRELMNTNFNNNGTEILGRWQSVDNPGDGWTPRLYASSNTSSNLSGSATTRFVEKG
+DFISLDNISFGYTLPKLLLDKIKVDNFRIFVQAQNIWLISDYKGINPEMETSGVDVNGTP
+RSKVISVGLNVSL
+>tr|A0A1S1J2L1|A0A1S1J2L1_9FLAO
+MYAFRKPFTVATFDQLSFWGIDYKILLILAQVLGYTFSKFLGIKIISELKSARRILYLIS
+FIAISELALLGFALVPAPYNILFLFINGLPLGMIWGIVFSYIEGRKTTELLGVILCSSFI
+VSSGAAKSVGVFVLKVLGCNEFWMPFVSGLLFIVPLIVFSLFLEKIPNPDDEDLVMKSKR
+RPLDKKERASLFRQFAFPLTILIIFYAMLTAMREFRDNFARELWDSLGYKESISIYMYSE
+IPIAISVLVILGFLGSMKNNYKAFKNYHLVLLLGSVLIGITTLLFQKHLMSPLLWMMISG
+FGMYVCYIPFNGLFFDRMIATYKIDGNTGFLIYIADAFGYLGSVLVLFFKNFGDKNISLL
+SFFTTCIYLLSFVGIITTIMSFNYFKRKFRKTAKIHAAMSYEL
+>tr|A0A1S1J3L5|A0A1S1J3L5_9FLAO
+MRILKIAILLCLMCSITTYSQNILIPRTIQKVTIDGNLSDWKTPFLGPFVAHDSGKKATQ
+DTYVSFAWDNDNLYITYRSIDSKIMGKTQQKDTEIFNTDDLVEIFIDADGNGENYLEIGV
+NAYSSYYDLLLKCISPACGGWNMNIAFDVLGLETQSKITNEGFNTEIKIPFSSLNTIKNG
+NFSTPKVGTKWRGNAFRIDYGNTTEYVALQAYKSSKFGFHQPQEFAVFEFVE
+>tr|A0A1S1J8L5|A0A1S1J8L5_9FLAO
+MLIVLAIIGILLLIALPNLMPLITKAKSVEAQVQLKAIYNAEKQYYFMYSKYSSNFSEID
+FEAPKTTKENGSANYVYEIVQSDNNAFKVKATAITDFNGNGVFNVWEIDQNGVPKQIIND
+>tr|A0A1S1J2Q2|A0A1S1J2Q2_9FLAO
+MILKKIALLLLITTSCSIFAQKDGYWDKERATTKEIIVSARDRIILKTEDLPIGTTEIVY
+RITLLDENQEMANSLVSVLKSIPDPTGISQGSAGAVFLMSKISGDDTCTYALFTSNETAK
+KYITDGKTDKACYDQKDPLSKDAKRLSLDKSSCLGQNVSTLWFGFHSKNWLLNQKIVLEV
+VPWVDTKLNRGWNQDNKNEIISLCKTSTMAQKMANSDDFCVCILDKIMKQYRYTEFQKLL
+PIEKTKAYKDFGNSCYKDADISKNVYNDLRAQAAALVRLQKYNEAIPKLNTIINDGKATA
+LDYSSIGYCYILTKQYGKAIKFLKEGEKLDDTELLVKLNLAHVYLISDDYSEAKAIYKKY
+QSQNVTDSLSWIEKTKQDFVIFQKAGLPSKDFEKILKLYN
+>tr|A0A1S1JC85|A0A1S1JC85_9FLAO
+MKKNTLSLIVMASVFVSILSINSCNSILEVSKIETNRAFNTRTNNKVQFSIIETGTAKTQ
+KAFAFKGGSLFENLKIAHISVWVKHPNGDFLFDTGLGDSINIQFDKGMSFFHKLMFKYKK
+GQSVKEQLLLNGLNNNSIRTIILSHLHWDHASGINDFPNSDIYTTEEELKFAQSNKAFSP
+AFIKSQYNNKSTKWKFLNFEKNKYEFFEESCDFFGDGSVIFVKLPGHTLGSIGMFINGQK
+RYFFTGDVTWAIEGFKRPSSKNRIPSKLVDYDKNKLDTTIIKIHTLMKLDTNLVVIPAHD
+FEIQKTLKHFPEFQY
+>tr|A0A1S1J229|A0A1S1J229_9FLAO
+MTAYDKEELDDLILIEEAASLYSAGFIDKNQKDRIKSELTAFRMQNNILVRLGFFLLGSF
+LYLSICGAISLLGLSGEQFFFSICCYIFALVGFVGAELLANLKYYRHGLDDAFVLGSILN
+LGIAVAITTEGYELIIAIFVAFKSFLLYRRYLNLPALLVFCVASVAVLFFGLLELGEIGK
+MILPFVTLLFSAGFYFFTKKNIQKLTETYHYNGLLFANSFCLILFYLSCNYLVVRELSVT
+LMDNPIAEGKDIPFAFFFYAFTLIVPFVYLVQALKTKDRILLWISFLAIGFSIYTIRFYH
+SVLPIEIALTLGGIVLFAIAYFSIKKLKDKESGLTFKPDRLNSSNPFLNMETLIVASAFG
+VKPEAKPEDSPMDFGGGGFSGGGSEGTF
+>tr|A0A1S1J483|A0A1S1J483_9FLAO
+MTTKKYITLILILGSLTALGPFSIDMYLPGFSGIAKDLHTSVAKVSMSLSSYFIGISAGQ
+LLYGPLLDRFGRKKPLFIGLMVYILASLGCIYVTNIDSFILLRFVQAIGSCAATVASVAM
+VRDLFPVKDIPKVFSLLMLVVGLSPMLAPTIGGYVTEDYGWHTVFFILMCMGIAILIASQ
+IGLPNTYKPDTSISLKPKPIITNFISVFKEPQFYTYAFTGAIAFSGLFSYVAASPIIFMD
+IYHVDAKTYGWIFAFMSLSFIGSSQLNSLLLKKYSSEQMIFGALISQSVISILFLILALN
+DLLGLYQTIGMLFLFLACLGISNPNTAGLTLAPFAKNTGSASALMGAIQLGIGALASFAV
+GVFVKDSVAPMVAIMTTTTLTAFIFLNISKPSIKQKVELSEEDDITIGH
+>tr|A0A1S1J5B5|A0A1S1J5B5_9FLAO
+MKPQRNILTEKIDDSNWSEVIHLYSGLFENINDRQEFVIDLSEVNILLAAECKMTSINEE
+ENIEVEILKRAFYSYKDNDDYLSIVTLLKMQEYYIATDLFNYKFDLKINQNIAINAILRN
+TEPLDFINQISKKLSKEVLSNIIQIVSKNTADKDYKYYLSLSKVINNENVLELYAEVSNS
+IHYNNPDIIFFLLKNCNRDQANIIFFDIKKKLKTLTVNIINQMILISDDISVFNFYNELK
+EYNLNPNLETFKYLIKKKSIKYDLIINEVFDYIIKLDLIKNNRNRNNVWIPYILYQ
+>tr|A0A1S1J667|A0A1S1J667_9FLAO
+MLFLILSILCSVIVGVIFKITRKYNTHPTQIIAFNYIVALALCYFTFSPNLKEVAANAPW
+NIYIAIGILLPVVFLFLVASIKNVGIVKTDTAQRLSLFIPILAAWFIFKEEFNTYKIIGL
+LIGFLALLLILKKQPDTTENKWIYPAVVLVGFGIIDILFKQIALYTTLPYPTSLFVVFCI
+ALAVAFLISIYEIGVKKRKLDSKNILFGALVGIFNFGNILFYLKAHKAFAENPSTVFAGM
+NMGVIVLGSFVGLLFFKEKLSKINFIGIFLALIAIIFIVVSQFK
+>tr|A0A1S1J8W0|A0A1S1J8W0_9FLAO
+MDLFNPHTDETTNLLPKDGTVNYYGKLFSREDSNHYLEVLLNTIEWKNDEAVIFGKLILT
+KRKVAWYGDSGFEYTYSNTTKKALAWTPELLVLKAVMEEKTGETFNSCLLNLYHSGEEGM
+AWHSDGEKDLKKNGAIASVSFGAERKFAFKHKETKETVSLILEHGSLLVMKDATQTNWLH
+RLPPTKTTSKPRVNLTFRTIVT
+>tr|A0A1S1JAT4|A0A1S1JAT4_9FLAO
+MKRQFSRPLFCALFSAVSFTAVNAQNATSKEPGINVSYMNPKISAGQDFFQYVNGTWLSK
+TEIPSDRTTWGSFNELIKKTDKDAMSILKEASKNPKYKSDTDQGKAVNLFSTILDTVGRN
+KAGIKPLQPYFKKIDAIKNIADLQKYLTEIGQEGNSVFFGIYIGADEKNSSKNSVMLYPN
+RLGLPDQDYYISEDKDSKEKRSKYVLHLARMMQFAGESPEKAKQSAAGILALETQLSKPR
+LNRVESRDSRLQYNPMTVAELQKLTPAINWDAYLSSLGLAKLQSIVVTEPKYMKALQTVF
+TENKVALWKEYLKWDLLNSYASELSTDLETANFDFYSKTLRGAIKQLPREEKALQVVNSS
+VGEALGKLYVEKVFPAEAKAKAVDMIHNVIQAYKTRINNLSWMSAATKIKAIEKLDKLTV
+KVGYPDKWKDYSALEIKDVAEGGSYFENMVNLSKWNFKKGIDKLYKPVDKTEWGMSPQTV
+NAYFNPSYNEIVFPAAILQPPFYNYQADEAVNYGGIGAVIGHEISHGFDDSGARYNAEGN
+LVDWWTPEDLKQFTALGTALADQYSALEPLPGIHVDGKFTLGENIGDLGGINAAYDGLQL
+YLKAHGNPGLIDGFTPEQRFFISWATVWRTKTRDEALKNQVKTDPHSPGMYRAVVPVQNV
+DAFYDAFGIKKGDKMYVNPDKRVKIW
+>tr|A0A1S1JB89|A0A1S1JB89_9FLAO
+MKNFQKLTKEELKSINAGTGKCIAYPLCNGEQVTPIGQNSCGWYLYKTVSNSTCMEYGLS
+>tr|A0A1S1J0R4|A0A1S1J0R4_9FLAO
+METEKNTFLKEDEQNIFYEQKQALKNIFKNLDITKIAFVGGIADYINLRAYYDMPINDID
+IIYENEDDLSLIKESEVITRFFNRFYDLQGEVLVSEYQINDKNVHTDYYKRDFSKIGLTQ
+SYLLGEMVWHATFDEMKTFHNDQIPKLTSEATGEKYEWKRLYKHSKKASLYNNVCYLDEK
+QQLQTLSDILWKNQE
+>tr|A0A1S1J555|A0A1S1J555_9FLAO
+MELLYRFQIENLFFVNTYFIGQMVLLGLFYKSILGLKRQKAFVNWSLTLMLFVLAVQCLI
+NTEQFFKFNLFAITATSLLSVVYALLHFYNMLTDDRKYYYFTVGLSSYLLVSTVLFLVGN
+LTLGLSDDLKYFTWRLNAFFVLLYYLFILYEWKVSFNPKNKINNQI
+>tr|A0A1S1J7I4|A0A1S1J7I4_9FLAO
+MQDLMKFAPYLLMFVVLYFFMIRPQQKRVKNEKEFESSLKVGDKIITKSGFHGKIVELAE
+TSAVIETMSGKLKIERSAISMEMSAALNKKA
+>tr|A0A1S1J1W4|A0A1S1J1W4_9FLAO
+MQEKTLSPKESKKRKMLLMLPLITFPFLTFLFYSLGGGRMESKMAGNDERKGFNFNLPLP
+KFKEDSALDKMSYYDQAAVDSIKLREQIKKDPNYIDNKVSEDKADSFSTSDFESRMLPKN
+RSALNSQSFQDRNEQKVYEKLRALENVISQPVVPAYGQDMREFKNYGTSRGELEEIKKLE
+GLMSTMSTPQEPDPELQQLGGMLENILDIQHPHRVQERLKQTSESKKGKIYSVQKKEAEN
+NISSLQGNVDWQTSLKTNEFYSLDEAQPAEEIQNSIEAVVHQTQTIVNGSVVKLRLTNDI
+FLQGTIIPRNTFLYGMAALKGERLEVKITNIQYNNSIFPVELALYDMDGIDGIYIPGAIN
+RDVAKASADRSIQTLGLTGISDSWGAQAAGMGIEAAKSLMSKKVKLIKVVVKAGYQVLLY
+DEKQKNLKP
+>tr|A0A1S1J7Z6|A0A1S1J7Z6_9FLAO
+MKILIVEDDLRVAELIRRGLEEQGFICTLVYDGISGKKMALQNEFDLMITDIILPKMDGL
+DLCKVIRENQPNLPIIMLTALGTTDDKVEGFDAGADDYLVKPFEMRELLVRIRALLKRHI
+NIGNNSGNVLKYATLEMNLNEKTVKRNGKEINLTPKEFNLLEFMLLNPERVLSRVEIAEK
+VWDTHFDTGTNFIDVYINYLRKKIDKDFDQKLIHTKSGMGFILKLNNED
+>tr|A0A1S1J2J1|A0A1S1J2J1_9FLAO
+MKKIAVLLVALCVFNQSMSGQAKQRKELILQIAALQVYIDYAKKGYSAVSKGLNFIGDAR
+KGELNLHGDYFTSLLKINPKVRNYYKTAEIISMQFKIMKLCRKTLADLKTADLFHGNELD
+YIERSFAKLLQNCSQTLDQLLVITTDAELELKDDQRLERIDLLHRTMLEDYNFCLSFSRD
+ARLLSVSKSADKKDSKNVDELYGL
+>tr|A0A1S1J4H4|A0A1S1J4H4_9FLAO
+MKKSFLFLVVLIAYLFSLPLFSQTDNEPVALGLPGDNLNLYAVLDVFQKSKTLEEFERVL
+NEQDSKVNNLDLNNDGEIDYIEIESQKKGNTHVIVLQVAVNSKEKQDVAVIEVEKDKKNN
+VHVQIIGDRDLYGKNYIVEPSDATAGTPNPGYKGDAPVIVNNNTINNYNTTAGNPGYVTT
+NINVWPVVLYLFSPVYVVYRSPWYWGYYPSYWRPWRPVYYHDYWGYHGHYYRNPYYRRTV
+NIRNQRYYNNYTTRRNSSAVVRDYRSSGRYNATYNGRDYKRPAPVTNTRPTRPATTRPAN
+PSTRPVTRPTNPTTRPTTRPVAPTNPSTRPEARPSRPVNRPTNPTTRPTTRPVTRPATRP
+AGNRSIAAPPNSNRGSGANRR
+>tr|A0A1S1J553|A0A1S1J553_9FLAO
+MKKILFLTGTRADFGKIKSLISILEQQSEFEVFVFVTGMHLQEQYGYTLIEIERCNFKNV
+FTFENHTHETTMDLTLAKTIEGLSGYCKTINPDMIVVHGDRVETLAGGIVGSLNNILVAH
+IEGGEVSGTVDELIRHSVSKLSHIHFVSNKQAAKRLIQMGEIKESVFTIGSPDLDIMFSD
+QLPDLVTVKEYYKIDFENYAIVMFHPVTTEIKEMQKYAENFVSSLLQDNHNYIVIFPNND
+LGSQFIIEAYKRLKENKRFRIFPSLRFEYFLTLLKNSQFIIGNSSAGIREAPYYGIPIIN
+IGTRQQNRAVHADIINTNYSEEGIIESLAVIDSHKVQNVEDDFGKGNSNVLFLECLQKED
+IWLLNHQKQFRDLSN
+>tr|A0A1S1J9C1|A0A1S1J9C1_9FLAO
+MTNTEKTKHAEAKDAISATKRTPKILTVRHVKTYSFYRASRCPSIFRPRPKELPQIRLSG
+NWLQNAGFTIDRNLTITVMKNMLIIRPAKEIEN
+>tr|A0A1S1JBH7|A0A1S1JBH7_9FLAO
+MTGIVYKSTGSWYTVKSEKGDFIECRMKGKFRMKGIKSTNPIAVGDIVDYELEQTSDAVT
+GTIFNIHERKNYIVRKSVNLSKQIHIIASNIDQVFLLITINNPPTTTSFIDRFLVTAEAY
+GIEAVLIFNKIDTLDENTLDEQLYLQHIYQEIGYKCLRISSTENKGVDKLKEMMVGKVSM
+FSGHSGVGKSTLVNAMEPSLHLKTTVISEQSKQGQHTTTFAEMYDLSFNAQIIDTPGIKG
+FGIVDMEPSEISGYFPEFFRLKDQCKFNNCLHKEEPHCAIKAALEKDEIAWSRYNSYLKI
+LEGDEEHYRTDTYGDDRAASDETRK
+>tr|A0A1S1J5C0|A0A1S1J5C0_9FLAO
+MYTDPIADYLTRVRNAVAANHKVVEIPASNLKKEITKILFDQGYILSYKFEDNSVQGSIK
+IALKYDKDTKEPVIKDIQRISKPGLRKYAGAAKLPRILNGLGIAIVSTSKGLMTGKQAKQ
+LNVGGEVICYVY
+>tr|A0A1S1JA55|A0A1S1JA55_9FLAO
+MEIRFQTKEESNKQQQEDFMKLSKTERVYAFFRLMEQVSRFPIKNKEDKNKDNFLIVIKP
+K
+>tr|A0A1S1J3C5|A0A1S1J3C5_9FLAO
+MTRERLISLDVFRGLTILLMTIVNNPGDWGNVYAPLLHSEWHGCTPTDLVFPFFIFIMGV
+AVPLAMPTKTWDSTTFNKILVRSLRMLGLGIFFNYFGKIQLFGLEGIPLLIGRLIITVAV
+GYALMGNFSSKIKNILAFSILFIYLFLAYSGIEAYHDVRLPGVLQRIAIVYFVVSLLYLK
+TTQKTQIITGITLLLGYWAIMTLIPVPGIGAPNLEKETNLASWLDGVLLEGHMYRGTITW
+DPEGVLSTIPSIVNGIIGLLIGQILQREITQKQKAVKMIAAGVALIIGGLIWNAFFPINK
+SLWTSSYVLYTTGLATACLAFLYYIIDIATYKKGLKLFLIWGVNPMIVFFFSQIIPQALV
+MVQFKNPHHPEEQINLLNYLYQFGIAPFFSNPMTASLAGALTYVGIWTFILWIFYKNKLI
+FKV
+>tr|A0A1S1J604|A0A1S1J604_9FLAO
+MEIKTPIKVTSLLVLTSIIFLLSAFTLFKSPKINLVQTSTWYIAGPAIESQETINQVRQE
+KGIVKVIAKDNPSGEIELNVLITPSDSNDGAPTNLSDASKFVSITYKSSHLIKLQAREGN
+EEGTGCIHGGSHPRVDLPASPNKFKTITIRWTDFRQDGLPNGKLLNIHNLCKFNFVNYHP
+VSGAFLEIKSVTL
+>tr|A0A1S1J8E2|A0A1S1J8E2_9FLAO
+MEITEFNGELFKDFIEIVHRTMEEIRIHPEYSLSKNNHQLFSPEGKYANKVFDIYSKINE
+IKGDFKKIEVFLRRFPLKKIYDENEITHLDYIKYHTEVFYHKSNTLLDLFKLFTNEVYEL
+GYSERKCTWGNLMKSEVVKDSLSIKVIEYYHKSFEHIIKARNLNTHRGIFKDSEKDDIET
+PMMIYKNSEKFNMELGDDFRKMMPEFLLEYKLKKYKNERLLYIKSGNNAAEQYINFYMNV
+TIPEFLNRAKAKR
+>tr|A0A1S1JC81|A0A1S1JC81_9FLAO
+MKIYSKLTLSVLLAASAAMISCSSNDDETPAPPVKASIYERLGGTKMVSDPDNSGQMIEQ
+GRLSFRKVVNSTIGLIVADIQSNASGNLQAHFAPLLAETGTTQSTNIAKLSDNLTDFFSF
+NTGGTNAVNTYSGLSMSAAHDPAKNPRMGTKSSSADYTKFEGYVGAAANANGVASNTELY
+TDIVAVLESLRTPIVQK
+>tr|A0A1S1J992|A0A1S1J992_9FLAO
+MQQIFNFIIRNSNRLLFLLLLGISLALTVQSHSYHRSKIISSANFLSGGVYERINRVNEY
+LNLRTENDELVLENARLKSLLFNKQDTTKLPLADSVKGVKPADIIVSKVIHNSYNTHENF
+ITLNSGANDGVKPDMGVINSLGIIGIIDDTSPRYATVVSILNTKSQINAKIKKSNHFGSL
+TWDGKSTGFAQLKDVPRLASIRKGDTIVTGGQSVIFPEGINIGTVDKIYIEKNTSYYVIN
+VKLFNDMTNLGHVYIIKSKDREELINLENKEKNE
+>tr|A0A1S1J177|A0A1S1J177_9FLAO
+MSFLNSIFGNSESADTPKSNVNWTPLTDVTQLMEIEAISNEKPVVIFKHSTRCSISRMAL
+KQFEREYALEDTVGAYFLDLIAYRDVSNEIASRFNVYHESPQLILIRNGKAVYDVSHSDI
+DAEALKSKI
+>tr|A0A1S1J5S0|A0A1S1J5S0_9FLAO
+MTKSFEEFEVYKKGIQLAKLIFELMNNKPFEKEFGFKDQMKRAVVSITNNIAEGSEYNNN
+KQLVRYLKISKGSCAEVRSMLILSRELNFCSPSEIQKGYNLSIEISQNLSNFIKYLNTKT
+DA
+>tr|A0A1S1J6P4|A0A1S1J6P4_9FLAO
+MKKAEELIDKVDPGWTQVEEWIKTAKNKVEILPVDALKAKEVLYKIQVTTRSPMGAIVYH
+TGGLLIDDGWIRILGSGNAKFNRTLPDWNKGKSFNDFGETAPFLLVADDAIGGFYLLNGG
+GLGSDVGKMYYFSPDNLEYEQLDITYSEFLGFCFDNDLDKFYQGNRWNGWRAEVSKLKGD
+EVFNFYPFLWTAEGNDINKNSRKIISVQEQYGLNLDLRKQLGFDK
+>tr|A0A1S1J4G2|A0A1S1J4G2_9FLAO
+MEILVIMGPPYSGKGTQCEILKEELKFKHISTGDRCRLEKQNKTEIGKIMSQYEEKGDLV
+PDSIMKDLFSKILDENSSAKGIILDGYPRTEPQVNDLMKLVASKNMEIGKVINIEVPKEE
+LLKRAQKRAETSNRKDDKDVEIHLKRIKVFETLTRPAIEYMKSKIKVLTFDGLGAIDEIT
+ERIKNSL
+>tr|A0A1S1J833|A0A1S1J833_9FLAO
+MQSIYAMHQSGSDNMEKEEKFLFYSIDNIQDLYLIMLSSLIEICKKESVFLHLSSKKHLA
+TAAERNPNEKFIKNKIFQLLAESNSLSIALENRKINNWNLNDDYIILLLNDIKSSALYAK
+YMSTTTNTFEEDRQFVIDLFAEVIVPNEKLYEYLEDDKLTWVDDIPVVNTHIIKQLKAIK
+TEDPDDFRVPKLYKDVEDKDFAKDLFRRTVLNESVLAKEYDDKTPNWDSERIAEIDTIIL
+KMAICEFLKFPSIPVKVTLNEYLEIAKEYSTPKSSIFINGILDNLVKELTANKKMVKVGR
+GLM
+>tr|A0A1S1J227|A0A1S1J227_9FLAO
+MSEKITIYDIAEKLNITAATVSRALNNNPKIKESTRELVIKTAASMNYKQNKLALALKSG
+RSNNIGVIVPRIDSNFFASVIRGIEEELHPHGYQVIICQTHENPKRENENLYTLIDAQVD
+GIIMSVTDVTGENDGAFQYVLQKNVPLIFFDRSKHIDGVSSVTINDFRGGYQTTKHLIDE
+GCRNIAHLSGDQSLEIFKNRFLGYKQALLDNGITFDEKYVIPVKSTVDHGKQAVELLLQL
+ETPPDAIFSSSDFAALGAIQELKERNVSIPKEFCVAGFSNEPFTKFMELSITSVDQSPLE
+MGKMSARVFLEQVDKTETIKIEKKVVLAPELHIRKSSSRTSL
+>tr|A0A1S1JBF3|A0A1S1JBF3_9FLAO
+MNDIIAYFSTIPSSHRSLILVGGITFFWMIENTFPLFRMHYRKWQHAGINFFLTFTTIII
+NFVLAFILIKTANWTTENHFGLLQWLPALPLWLYTIIGLLLLDLIGAYTPHYVQHRFKIL
+WHFHLVHHTDTWIDTTSANRHHPGESIIRFIFTTLGVLIIGSPMWMVFLYQTLSVISTQF
+THANIALPQKLDTLLSYFIVSPNMHKVHHHYVLPYTDSNYGNIFSVWDRLFGTFTTLPKD
+KIIYGVDTHMAVEENNNLKNLLKIPFQKSRSAKNS
+>tr|A0A1S1JCA6|A0A1S1JCA6_9FLAO
+MINQDSIVALATPSGAGAIAIIRISGSDAITIGNSVFKSIKNKDLTLQKTHTLHLGHIVD
+DSKTLDEVLVSVFKGPNSYTGENTIEISCHGSTYIQQQIIQLLLRKGCRMADAGEFTLRA
+FLNGKLDLSQAEAVADLISSDNEASHQIAMQQMRGGFSNEIAKLREELLNFASLIELELD
+FAEEDVEFADRTQFHELLNRIEFVLKRLIDSFAVGNVIKNGIPVAIVGEPNVGKSTLLNA
+LLNEERAIVSDIAGTTRDTIEDELVIGGIGFRFIDTAGIRETKDVVESIGIKKTFEKIDQ
+AQLVVFLFDGFRFQVSGSDYIVEIEKVKNKYPLKPILVVVNKVDLLSENEIGNINQKLET
+LNLKLLKISAKENIGVEELKEQLLSYVNTGALRNNETIVTNTRHYDSLLKALDEIQKVKF
+GLETNLSSDLIALDIREALYQFGLITGQVSNDELLGNIFANFCIGK
+>tr|A0A1S1J118|A0A1S1J118_9FLAO
+MKKITIAIDGFSSTGKSTLAKQLAKELEYVYVDTGAMYRAVAYFAMQNQLIAADFFDKAA
+LITALPNIQLEFKFNADLGFAEMYLNGENVEKQIRTIEVSSFVSKVAEVSEVRSKLVEQQ
+QEMGKNKGIVMDGRDIGTVVFPNAELKIFMTASAETRAQRRFDELQQKGDNVSYEDVLKN
+VVERDYIDTHREDSPLIIADDAIEIDNSYLNREEQFTAVLELVTDVVKTI
+>tr|A0A1S1J190|A0A1S1J190_9FLAO
+MNTIVGTYECKVDAKGRLMLPAPLKKQLTSSLQNGFVLKRSVFQQCLELYPMSEWDLMMQ
+KINKLNRFVKKNNDFIRRFTAGVKVVEIDALGRLLVPKDLVTFSGISKDVVFSSAVNIVE
+IWDKDLYEKSISGEDMDFADLAEEVMGNINDDDNGIS
+>tr|A0A1S1J4G7|A0A1S1J4G7_9FLAO
+MSKIATLEVDGQKIELPVITGSENESAIDINKLRDLTGIITLDPGYKNSGSCKSEITFLD
+GELGILRYRGYSIEDLAEKASFLEVSYLLIFGELPTAKELEQFENGIKKHTLVNEEMKNI
+IDGFPKTAHPMGVLSALTSALTAFNPKAVNVENEKEMYEAICKTMGKFLVIATWTYRKSM
+GYPLNYYDNTTGYVENFMQLMFKLPTGPYSANPIVIDALDKLFILHADHEQNCSTSTVRM
+VGSSHAGLFASISAGVSALWGPLHGGANQAVLEMLEEINKDGGDTDKFLAKAKDKNDPFR
+LMGFGHRVYKSFDPRAKIIKKAAKEVLDTLGVEDPILEIAKKLESAALEDEYFKSRNLYP
+NVDFYSGIIYRALGIPTDMFTVMFAIGRLPGWIAQWKEMRENKEPIGRPRQVYTGHPLRD
+FKSNK
+>tr|A0A1S1J5S4|A0A1S1J5S4_9FLAO
+MIQIYHNPRCGKSRNCLAFIENTKQEYQIIPYLTETPNFNDLKKLLEKLNLKPLQLVRIK
+EKIWIENYKGKELTDDQIIEAMVENPILIERPIVVKDDKAIIGRDPELVASFLDQL
+>tr|A0A1S1J7V8|A0A1S1J7V8_9FLAO
+MKLKFYIFLFLLSSAVFAQQKQVETSIDTTKNKIGAEFKLTLKTVVSSKSKVVFPKLKNI
+GPLEVIQSYPIDTVKKNDTYELIKKYGLTQFDSGKYTIPSIKILIDKKPYATDSIRVEVA
+NVKVDTLQQKMYDIKDITAADNSIGDWWIYVLILILILAIGAFVYWYVKKHQKKKIEEEV
+YKTPIEKATSLLNNLEQKELVQKGEIKEYYSELTDIARNYIEEAIHIPAMESTTSELIQA
+IRTASTKKKMTLTPETVENLERVLRQADLVKFAKSKPLEFEITEDRNKIQKVILTLDNAI
+PTEVPAEEEDQLLNEAQKQKQIKLQLLKKRNKRIAISVGSVLFLLIATTAFFIVTKGFNY
+VKDNVIGHPSKELLEGEWVKSEYGNPGILIETPKVLKRMDTQKVLPKETMALIKEMQLFA
+YGSMVGNFYVTVSTSKFKNPVELDLAKALEGSLKVIEAQGGQNIIVKQEDFQTNEGVQGL
+KGYGTMTVFNPIDKTSTKAYYELLLFKQDQGLQQILILHEEGDTYANDITTRILNSVELR
+KASN
+>tr|A0A1S1J7Z4|A0A1S1J7Z4_9FLAO
+MSLPFYIVDVFADKKYTGNQLAVFTEAENLSTEEMQQMAREINFAESTFITKLDREKNKA
+EIRIFTPVHEMQFAGHPIIGTSWVLINKIFDNSPENITLEVPIGPISIHQSEDLIWLKAA
+QPKFWDIYAKEDFTLFSNLKKEDFENQFPIQEVTTGSAFVMVGLSNKRALENLVLDKDKA
+DEWMKNNCKTAHRALYFYYLEDSKLFSRMLCIEHNQLVEDAATGSASTCLQAFLLKYHLP
+QFEMINYQGDYINRPSQIYFKGQLTENQFDIKIGGKAQFVAKGEWEV
+>tr|A0A1S1J8J4|A0A1S1J8J4_9FLAO
+MNAFMIYLPIVMAILGLLFMGIKRAWVLKQDAGDGKMKEISEHIYEGALAFLKAEYKLLT
+IFVIIASIALAGITFIPGVKTHLLIVVAFIFGALFSAYAGNIGMKIATKTNVRTTQAART
+SLPQALKVSFGGGTVMGLGVAGLAVLGLTGFFIIFFNILSGGVWKDTETMTVVLETLAGF
+SLGAESIALFARVGGGIYTKAADVGADLVGKVEAGIPEDDPRNPATIADNVGDNVGDVAG
+MGADLFGSYVATVLAAMVLGNYVIKDMGGNIADAFGGIGPILLPMAIAGFGILFSIIGTT
+LVKITDDNAKEAQVQKALNIGNWVSIVLTAIACFFLVQHMLPEVMTMEFFGEGSQQISSM
+RVFYATLVGLVVGGAISSVTEYYTGLGTKPVLAIVQKSSTGAGTNVIAGLATGMISTFPT
+VLLFAVAIWISYALAGFYGVALAASAMMATTAMQLAIDAFGPISDNAGGIAEMSELPKEV
+RTRTDILDSVGNTTAATGKGFAIASAALTSLALFAAYVTFTGIDGINIFKAPVLAMLFVG
+GMIPVVFSALAMNSVGKAAMDMVYEVRRQFKEIPGIMEGTGKPEYGKCVEISTKAALREM
+MLPGILTIGFPIAIVLLGKLVYADNNQLIAEMLGGYMAGVTVSGVLWAVFQNNAGGAWDN
+AKKSFEAGVLINGEMTYKGSDAHKAAVTGDTVGDPFKDTSGPSMNILIKLTCLIGLVIAP
+ILGEGHSSSGMMEKGSCCKKMEIHLGGDSKCGDFSKMTKEECVKMCKEKGCSAEETAKCL
+AHYDANGKYVHQKTDCFDTTKYSKKRVEVNLSTVNGVTVGTVTKTENGKTTTEVFEGTEA
+EVKAKIEAVK
+>tr|A0A1S1J6W9|A0A1S1J6W9_9FLAO
+MIPKKIVLTVFLLSFIFLFRVNAQKYNTIDNTVLKYPTNFNSVESLAERIQKDFTSDYDK
+ARAIYSWIALNIKYDYKAYLNPPKPLRFTYINESDKQAKIAVLKEKTWQNTFESRKAVCE
+GFTLLYQELAYLAGLKCEVIRGDSKRSLSDIGRENSFSNHSWNMVQVDGKWILIDVTWGQ
+GYYDSGKKVAVNHFSPVYFDTDPKYFFAKHFPDSGTYLGKKLNKEDFLNGPLLFDAAIEG
+GHEILAPASGIIKANEGDKIRFKIKNIAKTDLFYYLKNGKPVRIEDSKAVNGVLEFEVIY
+DKKIGSYITFFLDRDGIMSFKILSK
+>tr|A0A1S1J7W8|A0A1S1J7W8_9FLAO
+MLFIIPRVKKMLTTPIYMLLLVCFFITNAFSQQSTGSIKGTVITSDDHLASSVNITIPKL
+KKSALTDENGVFILSQVPTGTYEIEINMMGHIPSKQQITVSANETSTVSFQLESSLKELQ
+EVVVVSAAKKFAKKQSEYVARLPIANLENPQVYTVVPKELFVEQIAVDFRSALNSAPGLN
+NVTQSVGSGGVGLSLRMRGFSGSSAAGSIRNGMNTNWVTMSDPVNLESIEVIKGPSATLF
+GSSLTTYGGLINRVTKKPFDVMKGEVSYTTGSWALSRTTIDFNTPLNEEKTMLFRINAAL
+DNQKTWQDYGKSHTFIVAPSFTYKASDRLTFDFDLELYQGNRNSTSIGLGSGTPPVKSLN
+DLHFDFKKSYATDDLQSEAKNTNIFAKATYQLSDQWVSQTNFSNAFTDNKANYLFLLINT
+AANSGITLQRRLYNINSTFKTSQIQQNFIGNFNIGSLKNRLLLGIDYTYISTNDNRWLIN
+NYDAAVANPALTINGNAAFINMEKYKQLIANMTAPTVVNTRDFRTLSFYASDVINITDRF
+IAMASARFDHYENKIAQYNQNAVSPKFGLVYQVIKDKVSVFGNYMNGFSNVSPAPTADNP
+NGLTEFKPEEANQLEGGVKIELLGGKLNGTLSYYDIKVKNKLRTDPNNPLFSVQDATQSS
+KGFEADLIANPFRGLHIIVGYGYNQSEYTKANPSLEGKKPYSTPANVANFWISYKILDGQ
+AKGVGFGFGGNSQSDSYLNDANTFTANGYTTLDASVFYEKQKFRLGLKVNNLANKEYWSA
+DYWANMMPTRQLVANLTFKF
+>tr|A0A1S1J1Z2|A0A1S1J1Z2_9FLAO
+MKKIIYVLTLFFTLLISFNASAQDILKSKDLSTVKVDYLSDDDLAKISAQLKSNNATIDQ
+VESMALSKGMNQTEFNKLKMKLTEFEKKNSKDASKDKNKDNKIKTEDKDSEFGRKQEKIK
+NDKVKDSLNALIFGSELFDNPTLNFEPDLKMATPVNYILGPGDKLEVSVYGVQQFDDTVP
+VNFEGKITIQNVGQIAVAGMSIEAASQKIRAAIARVYSTVRSGQSQVSVSLSDIRTIKVT
+IVGGKQPGNYSISSLASVYNALHLAGGPGKNGSYRNIELIRNNRVYKNVDIYKFLVKGDQ
+SDNVSLKDNDVIRIPAYTQRVVVEGEVKRPGIFEMKKGEKFSDLLNFASGFNEFAYTASV
+NVLQKTGKEFKVHDINESEYGSYTPQSGDVFKVTKILNRFENRIKIEGAVFRPDYYSYSE
+GMRISDLITRAEGLKEDAYTKRARIIRLKTDLTTEIVNVDLSAALSGDLNSDIELKREDV
+VTVYSILEFREEYKVTIDGEVKNPGEYEYFENLTLNDLVVQVGGLTGSASKRVEIARMVK
+SDVIDDADPKRIELVELEITANNNEQIKNFVLKPFDVINIRKMAVYEKPEMVKVSGAVTY
+PGKYVLANKKETVYNVVMRAGGLTSIANLDGMKIKRPIKEEQIEQLESVNLNLDKKLTPE
+EEALKAKQEVGNVKQKDTLNSKLSKKLRDELKFATIPVNWEKIVKDKNHYSNVTLFPGDE
+IEVSVYNEGVKVTGNVLLTSEIPYRSGKGFKYYLNSVGGVDNKGWKKKAYIIYPNGKAAV
+TTSFLFFRSYPRVEPDSQIVVPEKPQSKKMTAGEWVGIGSVVSSLALLIVTAFK
+>tr|A0A1S1J6J6|A0A1S1J6J6_9FLAO
+MKNNYSVRHLMAFLSFFCWSGLSLVAQTMPTVQTLPYAQNFDNLTANSTTYPAGFQGWNA
+AGAPGSNYVTNATLVGDRALVASSTSSTNSGNVHNYNGKIGFLNNSSLDLAIGFAFSTTG
+KSSIEIKYDAMVVRNPFGSTVSDTRINEMVLQYRIGDNTAFTSLLSTAYQNNNVIQVTPA
+TTAPQNLQTIKVSLPAECNNQPVIQIRWISKQVSGGGARPSFAVDNINIDVKADTSAPVS
+DSGYPKADNILLDSFDFSDKLNEVGKTYYVLVPGGSTAPTAAQIKAGHDASDAAALQSGF
+LDVTNAANVYTKTFSGLTLNANYTVFSVSEDALGNLQATPAKVDVTISSAPIPSLTTTVS
+TLDFGFSEANLSSDNLSYQIQGTNISNPVTVTANDKFTVSKDGNTFSTSVSYLAADFASG
+ATPTVYVRFTPDAIGSFSGQITHDATGATTKIVTLTGVGIDPYQQGFNDANVLSNSGWTQ
+YNVAGTANKWTPTTVARNVNSGAGAVIMNGYSDSGASKDWLISPKLRLDNAAKFDKAILL
+SFYSRKFYAGTDLKLMVSTDYDGKSNPENATWTVIDGKFPTITGTYAQSQYIKLDSYKTS
+HTYLAWVYETTAGGANNAAEWSFDDFAITNTTGYIDANPVLDFGDVNVSGVSGTQTFPLK
+AEGYGDITVTAPADFQLSLDGSSFQSTVVVSAADAAGSKQIYARFTPSVKALTISGVLTV
+TGTSLNKQIGSFTGSSIPKADTFDVVTYNLEFFGTDVKDKSNKEFGPTDDALQIENVAKV
+MNKLNADVYVVQEVSDEPALDALVQKISINGKTFDKVISPSWSYSFNPADPNFPPQKLVV
+IYNTQTATVKNTRVMFKDLYDQIRAKTVTLNNYPSPENKDENFFSSGRLPYMVQIETNVG
+GVKKLINLVDLHARANSGSDISKYNMRKYDAQVLKDSLDTYYANSNLIILGDYNDDVSKS
+VITPNPSSYKMFVDDQTNYNALTLEISKAGAYTYLSSGGFLDHIMISNELNDQYIANSIA
+VYDPRNDINNYTNTTSDHGPVIARFELKSSNLSTIDFETKNGYAVQAYPNPTTDVVNVIV
+KTNTDKKLKLKFYDVSGHLLGNPVDINATQDVSTTAVPVSYLQTGIYFYTLTENNKVVYK
+GKIIKK
+>tr|A0A1S1J9A7|A0A1S1J9A7_9FLAO
+MNPKILIIGACGQIGTELTQKLRKLYGTDNVIASDIRKLNTDVVNSGPFEVVNALDFNQI
+EHLVEVHQITDIYLMAALLSATAEKNPAFAWDLNMNSLFHVLNLAKAKKIKKIFWPSSIA
+VFGPTTPKENTPQYTVMEPSTVYGISKQAGERWCEYYHNIYGVDVRSIRYPGLISWSTPP
+GGGTTDYAVDIFYKAIADKKYECFLSSETKMPMMYMDDAIDATINIMKAPAEKIKIHSSY
+NLAAMSFTPTEIAAEIKKHIPEFEITYNPDFRQKIADSWPASIDDSQAREDWDWKHTFDL
+ETMTKDMLEHLG
+>tr|A0A1S1JAP4|A0A1S1JAP4_9FLAO
+MNTSFYLEGFQKAADRLDQKTLDEKSIEVAVGLYLDSVFLKLYKRSWSTNPQEALTAESR
+IFFSIWVNDSGIEKQRMMYNIHALKLRKFKVYTIESRKFAEVFRKSFKKYEEIWPNVTTN
+HGPLTLMEGWVTLNSENFQEEITELTHKFLKIEYLIDDAFYQFE
+>tr|A0A1S1JE41|A0A1S1JE41_9FLAO
+MRIFIFLYLLVVPTLLFSQEKTTSKNSLDMNTKYSSITDTVKKKKAKIATIDQYQIITLE
+HDTTYVDTSLTLKSAYKQNHLRKDDFGLLAFSNIGQTFNTLQYSLTSFSPYPEIGFSGKH
+FNYMQADQINYYSAATPLTELFFNTTINKGQNVDSFITLNTSKNLNFSIAYKGLRSEGDY
+INQLVSAGNFRFTTSYATTDKRYAINAHYTYQDISNQENGGITTPTDFESDNKDYKNRQR
+LQVYLTDAKSFLKGRRLFFDHAFRVNPKNGSNNLYVTHQFNYENKLFEYTQATLASNIGN
+GTAFQRFGDSYVTSGINDKTKYERLYNKAGLTYENSLLGKFNFFVDDYRSNYEYGRIIIR
+KDKTVVPDNLFVQINNFGGQYEYQKNKWNGRFLYSRSITNQSLSNLDAKLRYDMNDKIQF
+DFRYRNINKLPNNNFNLYQSSYTEYNWSNNFKNEKINSLSANVSTPWLNAEVQYTVLNDH
+LYFRDKSTDAQAAAHIQIIEPAQYGNAINYLEIKASREFKFGRFALDNTLLYQKVGQSDL
+ILNVPDFVTRNTFYYSGYFFKKALYMQSGVVFNYFTKYYGNDYNPVVGEFFVQNDKKIGG
+YPLFDLFLNARIRQTRFYFKAEHINALFSKSDYYSAPNNPYRDFVIRFGLVWNFFQ
+>tr|A0A1S1J0Y9|A0A1S1J0Y9_9FLAO
+MNWIILIIAGLFEVSFATCLGKAKEATGTDVYLWYTGFFVSLTISMLLLIKATETLPIGT
+AYAVWTGIGAVGTVLMGILVFKEPVDFWRLFFLFTLVSSIIGLKAVSH
+>tr|A0A1S1J6B6|A0A1S1J6B6_9FLAO
+MMHRITEYSNELKLLLYGIFIYLEMDAEIVKVLFYLMVLDTFLGIVKTIVLNNPFSFKKL
+ALGFVSKLAVLLIPTALALMSKGLNYNFKWFVTIVMDLLIVSDGISIISNIIAIKTKKEV
+ENFDAMTLILKSIRNRLIQLFKRILITIDPRYHVEE
+>tr|A0A1S1J7N4|A0A1S1J7N4_9FLAO
+MKKIYLTFLFLSLTLCATAQEKQSFAIANGNFLLNGKSIQIHSGEMHYSRIPQPYWRHRL
+KMMKAMGLNAVATYVFWNYHETAPGIWDFKTGNKNLAEYIKTAQEEGLFVILRPGPYVCA
+EWEFGGYPWFLQNVPDMVIRGNNTAYLAATKAYFSELYNQVKNLQITKGGPIIMVQGENE
+FGSYVAQRKDVPLEEHKKYSAAVFQQLKDIGFEVPFFTSDGSWLFEGGALPGALPTANGE
+SDITKLKNVVNQFNNGQGPYMVAEFYPGWLDHWAEPFPTQTPQETVDQTQKYLDHQVSFN
+YYMVHGGTNFGFTSGANYDKEHDIQPDMTSYDYDAPISEAGWATPKYNALRAILKTNETP
+AVPAKIPVITIPNIALTKVVDLADLKSKIPPVTADNPLTFEQLNQGDGYVWYSKRFTQPI
+SGKLELKGLRDYAIVYVNGKKVAELNRYYKKYDCEIEVPFNATLDILVENMGRINYGSQI
+NANNKGIISPVIINGETITGNWKMYPLPMAQEPDVTAYKNSGKIDRPTVYQGTFNLSKTG
+DTFLDMRDWGKGIVFVNGINIGRYWSVGPQQTLYVPGCWLKKGKNTIQIFEQKNGKIQKE
+VKAISTPILEDLKPENGQ
+>tr|A0A1S1J6E2|A0A1S1J6E2_9FLAO
+MLSFFKSKPLLKDLLSDPYVDIHSHVLPGIDDGAKTITDTLKLVRAFQEMGVSQFTTTPH
+INHYVWNNSAQIITAKQQETKLLLEENHIQIPFQAAAEYFIDDWFENHFKNEKLLPLKDN
+YVLVEISYQNAPIHLYKTLFELQVAGYIPVLAHPERYVYYRKDFNEYHKLKKAGCLFQLN
+LLAVVGYYGEYICKTAEELLKKGMYDFTGTDVHHMNHIRAFDQKIKIHSIANLKEVIANN
+QFFKF
+>tr|A0A1S1JAU7|A0A1S1JAU7_9FLAO
+MVFTDWKTNTIANILPEEFYNLIEKNRNHIQKTFPVTLSYCPDLAKTKQFLAFNQDKENH
+KEGYFFYPRDNKTNALIGYLCIKSIDNRISKCELGYFVDEDYQGKGITSKMVSETLDFCF
+NTLNMNKVFICTSKINKASQQIALKHHFKQEGILREEFKNSDGTLEDVVYFGLLKSEYNI
+HER
+>tr|A0A1S1JBD6|A0A1S1JBD6_9FLAO
+MITANDIFTISSQKQFEKIALKVFRFQHENNVVYRDFCDFLKVNPQQVKSLEQIPFLPIQ
+FFKSHNVVSNNDPAQVTFTSSGTTGMITSRHIVTDVTLYEESYRNGFSQFYGNIEDYVVL
+ALLPSYLERDGSSLIYMVEDLIKLSNQPESGFYLHNHDDLIKKLTALDESGQNVILIGVT
+YALLDLIEKHQFNLQNTIIMETGGMKGKRKEMIREELHEQLCSGFGVSAIHSEYGMTELL
+GQAYSLGEGVFECPSWMHILVRDPEDALTYVKDGKTGGINVIDLANINSCSFIATQDLGK
+KNPNNSFEVLGRFDNSDIRGCNLMVL
+>tr|A0A1S1J3X5|A0A1S1J3X5_9FLAO
+MLKLNFPTYTFRFKNSENKVSIFDEIRKKFIILTPEEWVRQHVVQFLMIEKKYPKSLINV
+EKVLTVNGLRKRYDVVVFNSDGSIHILVECKAPEVKISQATFDQIARYNMTMQARFLNVT
+NGLNHFYCQMDFENEKYQFLRSLPDYKE
+>tr|A0A1S1IYH8|A0A1S1IYH8_9FLAO
+MKTNENKDLEYVKRLADGYLNTLKPTNDKTGYYTAEIKVLNYSELGCVIANMLKLCVLAL
+NQDECKISETVKPSAIDVGIVLEVTLQLFPNDEFDLLSEINEVLISK
+>tr|A0A1S1J0D2|A0A1S1J0D2_9FLAO
+MTTLNDLHSISSSFSNTDKMPVLFLGHGSPMNAIEENQFVTGFRNLAKTLPQPNAILCIS
+AHWFTNGTKVTAMQMPRTIHDFGGFPQALFEVQYPAKGSPELAQETKKILEPVHVDLDEH
+WGLDHGAWSVIKHLYPEANVPVIQLSIDYTKSGQYHIELAQKLQSLRRKGVLIIGSGNIV
+HNLRLVDFRNFDKDNYGYDWAIEARETINSYLLDDNFQPLIDFEKMNKATQLAIPTPEHY
+LPLLYTLGLKEKSEELSLFNDKLLAGSLSMTSVKIM
+>tr|A0A1S1J4U7|A0A1S1J4U7_9FLAO
+MSGNTIKKNKQKSKWSKLNHWLHLWLGLTSGIIVFIVALTGVLFIFCDNIIDGLAYDSLY
+VSEVKEQKLTPEEIIRAFKTQLPDRKPSYFITYRDPERTIKMASSTKDRDLQFSWIDPYT
+GKVLTSGKAYDFFYVIAHIHSGHIPFGDIGNLVVEISVWIFLIELITGLILWWPKKWNRS
+TKLQSFTIKKNASFKRLNYDLHNVPGFYNLLPALLITITGLIIVNKPLNSATQKAFGGMP
+RAYSKFRDIKPEYDSTKTFAALNPIIERLFAKDEAIEQVKLSIAAKDSITSLFAVTAEDI
+GLKGVQNGKTFVLNRYTGQEFEIPVKVMNGLDIDDTTMNLHIGFWAGWIGKTLTLLVGLV
+CMFLPVTGFLIWYGRQNKKKKTQSV
+>tr|A0A1S1J749|A0A1S1J749_9FLAO
+MKKYFGGVCIAFLFGFTANAQGLLNKSETIFTHQDTLRGSITKERAWWDLKYYHLDIKVS
+PKERTISGSNTIRYTVLTPYDKMQIDLQEPMQITKVTQDGKELQFKRDGNAFFITLTEKQ
+KVGDIKEVIVSFTGKPREAVKAPWDGGISWKKDKNGKDFIASSCQGLGASVWWPNKDHMY
+DEVENMLISVNVPGDLTEVSNGRLKSVKKEKDGTKTFNWYVSNPINNYGVNINIGDYVNF
+SEVYKGEKGDLDCNYYVLRDNLALAKEQFKDVPKMLKAFENWFGPYPFYEDSYKLVEVPY
+LGMEHQSSVTYGNGYKNGYLGRDLSGTGWGLKFDFIIIHESGHEWFANNITYKDIADMWI
+HESFTNYSESLFLEYYYGKDAAAEYVIGCRKGIQNDKPIIGNYDVNNEGSGDMYPKGANM
+LHMMRQIINDDAKWKSILRGLNKTFYHQTVTSKQIEDYINTQSGINFNRVFAQYLTTTKI
+PVFEYMFKNGTFGYHWTNCVSKFDMPVRVKLNGVETWLKPTTEWQSEKTTNEDRKVEVDK
+DFYVTTSNIVE
+>tr|A0A1S1J760|A0A1S1J760_9FLAO
+MSTLKIAIQKSGRLNEDSIQILKDCGISINNGNDQLKAEASNFPLEVLYLRNSDIPQYLI
+DGVVDLAIVGDNLLVEKGRQIEVIQKLGFSKCKVSVAVPKTFEYNSIQDLSGLRVATSYP
+NTVNEYFNSFGLTVDIHQISGSVEIAPNIGLADAIVDIVSSGSTLFKNNLKEVEVILKSE
+AVLAVSPKVSPEIQKHIDTLKFRIQSVLRARNSKYILMNVPNDKIEAIGKILPVLRSLTV
+LPLAQEGWSSVHSVIDKDTFWDVIDQLKEEGAEGILVCPIEKMVL
+>tr|A0A1S1J9D0|A0A1S1J9D0_9FLAO
+MQPISLISDHFIEEKCNFKELIERLRAGFSTSDINVPMRHHHDYPNPEEGKDSTLLLMPA
+FQSGKDLGVKIVTVSPNNGKYDLPSIQGTYIYLDGHKGNIKAILDAKSLTGKRTAATSAL
+ASSYLSRKDSSSMLMIGTGALAINLIQAHASVRPIKEVYVWGRTIEKAQLVCHVLKNSPF
+TCKPVSTIEEVISQVDIISSATLSPIPLVFGRWLKAGQHLDLVGAYKKDMREADDEAVLK
+SSLFLDTYQGGLKESGDILIPLTTGIITEETIKADLFELCSTAKPGRTSETEITYFKSVG
+HALEDLVAAGYFYEAYNLKAQKNV
+>tr|A0A1S1JAD6|A0A1S1JAD6_9FLAO
+MLLKNYKPILYLFFFALAAYLLHKALFSVLEINTQNFYYSTAFLYLIFFTLSAFLYLILL
+VVKKKNFEIVGMAFLFGTASQMLLAYLILRPILENKSGEVMVEKINFFITFILFLLFQTL
+LTVRLLNEKH
+>tr|A0A1S1JB99|A0A1S1JB99_9FLAO
+MGLFKRNPFGHILFIKKWLIRILGAMTHRRYRGFNELQIEGSEIIKTLPDTNVLFISNHQ
+TYFADVVAMFHVFNASLSGRQDTIKNIGYLWQPKMNIYYVAAKETMQAGLLPRILAYVGA
+ITVERTWRAKGVDVTEKRDVNPNDTENIRIALEDGWVITFPQGTTKSFKPVRKGTAHIIK
+QHKPVVIPIVIDGFRRSFDKKGLRMKKKGILQSFIIKEPLEIDYENDTIEEIVEKVEYAI
+EQHPSFLKVIPAEEIKVQEELNKMRRWDY
+>tr|A0A1S1JBK0|A0A1S1JBK0_9FLAO
+MNTLLKRQIAKFINPEHLKDLKHFLQAVNESYDNHEDQMNMLQRAMKISSDELFQANKKL
+RDEANSLKEINSNLTEILNSMNLDAEKLGNEKDFNQSDFLKKQSIEIVTMNKQREELLKS
+LENHNKELNEYAHVVSHDLKAPLRNIDTLINWVIEDNKEMGESCLNSLNQVLFNVEKMDL
+LIKGILDYSTVDKLESEERLIDLNEVIDEIKRDIHIPKNIEISIINDLPKIKGNTWRFKQ
+LMQNLIENSIHYNDKSQGQIEIGCREKEQDFEFYIKDNGIGIAEKYHDKIFKIFTKLESN
+NQNSGVGLSIVNKIIEYYKGSIWLESKENIGTTFYFTLPKNYGTA
+>tr|A0A1S1J6H6|A0A1S1J6H6_9FLAO
+MKKLYFLLPFVFLACKSNPVTVNTTSSTAVSNPIEVAYKVKESEVSDFLKELSSDEMEGR
+ETGTKGIEKAAAFLENFLKKNHVAPYFTAYKDTLTNFKTPAYNIVGVIEGTDPVLKKEFV
+VLSAHYDHIGLEKKQQADVVFNGANDDASGVTAVAEMAKYFSETKSNKRSILVVFFAGEE
+KGLLGSKSLVQKLKKQNFNLYTQLNIEMIGVPMKRDYLAYITGFDKTNMAAKINEYTGKK
+TIGFLPKEAEYKLFYRSDNYSFYEAFKKPCQSISTFDFENFAFYHHVSDEFKVMDISHMT
+SFIQEFLPAVTKIAITPTEEITMNK
+>tr|A0A1S1J929|A0A1S1J929_9FLAO
+MDYKEELAKQLEEIFKRHDEITINDNLSQICRELAGYTEKIKDCLSKDQDLSEDDKKRIE
+QLEKEYNTNIDKFKKLKGF
+>tr|A0A1S1JB20|A0A1S1JB20_9FLAO
+MKIISYNVNGIRAAITKGFIEWLQQANPDVICLQEIKATEEQIPVEDITAAGYPYQYYYP
+ATKKGYSGVAILSKTKPNNVVYGTGIQHMDFEGRNLRADFDDCSVMSLYLPSGTNIERLD
+HKFMFMDDFQTYINELKLMIPNLIICGDYNICHEAIDIHDPVRNKTVSGFLPAERAWLDA
+FMKSGFIDSFRHFNKEPHHYSWWSYRAGARGNNKGWRIDYNLVSNVMEHRLKRAVILPDA
+VHSDHCPVLVEIE
+>tr|A0A1S1J1D6|A0A1S1J1D6_9FLAO
+MKSGVFDILKARFLINDDAVKNWRFIVFIILLAILMIANTQRYEQKVFEIAKLNNEVKEL
+RSEFVDRRSELMKLKMESTISDKMLEKKIFPSTVPPIKIEVKKEEEKSFFKRIWQ
+>tr|A0A1S1J492|A0A1S1J492_9FLAO
+MFKISLKNSILLATYALPNTILSFGIVYIINNTLSGNKSFMTDYTGMVFFAIVVYTYLLN
+IIFQKGLNEFSFKMLYDNEKTIFSKILQTSLIKLENLGSQRFFTVVEDLRVFGLLPYTVT
+HTVNSVLMLVLCLIYMFTISVSSALIVVVLIIAVAASYFVVINSMSKKVTSLREYNDDYY
+KYVDDVMKGFKKLKLSFFRAENLMNRFLIPNRDQAGELDFKISYIFLSINLISQYGLYAI
+IATILFVLPSWGLLSQSDVIAYVVIVLFISGPINNLINLQQTYTRFIVANKRIKDFLKDF
+EVDEDVKKQLPIDNTSFESIEFKDIHFSYNSDSNDSAFALGPINLEVKEGETIFIVGGNG
+SGKSTFINTFTGLYTPSKGEILLNGKETESGQENQNLIAAVFTDDHIFSHNYEEYTVENN
+PEYKQLLEMMKLDKVILDDKESSARRKFSKGQSKRMSLIFALMEKKPILVLDEWAADQDP
+YFRKFFYEELIPKLKAEGKTIIAVTHDDAYFHLADRIIKFNYGKIDAEVKVDKSKEYSKE
+LFWA
+>tr|A0A1S1JAG2|A0A1S1JAG2_9FLAO
+MNPVFEVQKTIREILLKVLDSHSLEQLNKIPQGFNNNIIWNIAHCVASQQALVYKLSGLP
+VTISEDFIAKYRKDTKPEGDVSQAEVDEIRELLSTTLKQVENDFAAGIFMNYNEYTTSLG
+YTLKNINGALDFNNYHEGVHTGVVMSIRKFV
+>tr|A0A1S1J683|A0A1S1J683_9FLAO
+MRNKKTLVLGATTKPERYAFKAINMLVEKGHTVLAIGQNRGEVAGVKIHTKTIPVKNIDT
+VTLYLNPARQREYYNYIIEAQPKRVVFNPGAENPEFYQLLELNNIKAEVACTLVLLATNQ
+Y
+>tr|A0A1S1IY99|A0A1S1IY99_9FLAO
+MKKFIAFATMLTLVIGCGKSGDKGELVGVTGGKWHPEKPYGMTLVPGGSFIMGKSDADLA
+NVEDAPTRTVTVRSFYMDETEITNSEYRQFVEWVKDSTMRVRLAILADETGQKPAGDSKG
+KKGGSIADFAFNDSDPEKMTAYDKYMYDNYYSVGTKDDPYAGRKLNKKVKLIKDTKAYPD
+EYYTEVMDSMYLPIEESYNGLRTIDVNKLKFRYSWMDIQAAAKAKVGKRKDFVKTEQVSV
+YPDTTVWIKDFAYSYNEPMHNDYFWHKAYGDYPVVGVTWKQAKAFCAWRTLNKNGYIKSK
+KKGRDLVNAFRLPTEAEWEYAARGGLESATYPWGGPYTKSDRGCFLANFKPSRGDYAADE
+ALYTVEAKSYEVNGYGLYNMAGNVSEWTDSAYNPNAYEYVSTMNPNVIDGNNQRKVVRGG
+SWKDVAYFLQVSTRDHEYADSARSYIGFRTVQDYMGTQSTGGGKKKK
+>tr|A0A1S1J381|A0A1S1J381_9FLAO
+MKKRYLLLFLIFPFFMHSQDILWEKSYGGQHADYLFDAQPTADYGFILAGSSLSNKTGNK
+DDDNHGDLDYWIWKMSEKGELVWQKSIGGSGFDLLQSIKNTKDGGFILAGTSDSGRGFQK
+NEKCKGLTDFWVIKLDASGSEQWQRTIGGKGKDELLCAFQTRDGGYMLGGSSSSDYSGNA
+PAATNGMPKPTSKADQFNKLEKCRGNMDYWIVKLDKQGDVEWQKTYGGAYTDVLRSMEQT
+TDNGYILAGYSNSPVSGDKTENNKGVGDYWVLKITDTGEIQWQNTYGAEGDDQPYVIHQT
+ADGGYIAGGNSNSKNALTTMGGIVGNGTDYWILKLDKDGGVVWSKTYDFGKTDILTSLVE
+NNDQSYLIGGYAQSESRRPREGIVAKALNAVSKEKEGINDYIAMKIDNNGEEIWNKTVGS
+AGEDILRKLIETRDGGYLMAGTSNSAASRDKNGSMGGNDFWVVKLKDKTKVEKVKSSIEA
+IPNPASSYTNIIIGYDFKEGTATLIDITGRTLQEFDINSRTVPVNLSGYSEGIYIIKVRT
+DVKTESVKVIKSIK
+>tr|A0A1S1J3E7|A0A1S1J3E7_9FLAO
+MTTNTILLILLSLVIAVGLSYFQYFFKAKNKSNVIWFLAFLRFLAIFGLLLLLINPIMTK
+NALEVTKTPLAIAVDNSSSITALNSNKKVIELHQKLMSNPALRDKFEIQSYQFDADFKLS
+EKFDFKGKQTNLDEVAKNLKSINKNLIFPTVIITDGNQTTGNDYVYRFDPVNKVYPLVVG
+DTTTFLDLKINQLNVNKYAFHKNKFPVEVFLQYAGDKATNADFTISQGGKVVAKEKVSFS
+PSKKTATLNLLLPADKVGLQIFKAAVSSNIKEKNSYNNIKNFAVEIIDQKSTIAIVSAIN
+HPDIAALKRSIETNAQRKVILVKPNDINQLQEASVLVLYQPTTAFKAIFDNNKLAGVNTF
+IITGNNTDFNYLNQQQKNLVFKMSGQREDYLAEFESQFNLFAVDNIGFENFPPLQNLFGT
+VTTNGNVSVLLSSKIRNVSTNAPLLAFTENQAKRTAFLLGENSWKWRLQSHIDNQSFEKY
+DVFIDKVIQYLASTTSKKSLVVTHESFYNSGEAIVINAQYFNKNYEFDEKARLTITVTNA
+ATKQVKNYDLLKGNNSFSVNLDGLATGKYNFTVKELNTNTSYSGHFEILDFDIEKQFVNP
+DVQKLKQLALQTNGKAFFENQADELIQQLIENKEYKSIEKNISTKTPLIDWVWLLILIAL
+VFTAEWFIRKYNGLL
+>tr|A0A1S1J0Z7|A0A1S1J0Z7_9FLAO
+MKNILKYVFFAGVAITSVSCDHYLDVEPVGKVIPETLTDYRAVLTTGYSTNPIHKALSTI
+RTDELVLDESNDNATFYRDHYIWNDANPDKTTNSFPYAALYNRIFYTNVIINEASAKLAP
+SAEKDQLIGEAYALRALSYFDLLNIFSKPFNAATAATDRGVPLALKIDLEQAYVPQSVAV
+IYDQILSDNEEAKKLLNLDTQTTGINYRFSKAALYAMESRIFLYRKEWAKAIAAADKAIT
+YKSALINLNTTAALPNLYNGPESILALEDPFINLLKGTSYAAPTLTGVYDKTNDLRFALY
+YQASGSRYRFRKGGDIAQKCTFRTAELYLTKAEASAQLNDLTTARTTVIAFIKNRYKTTA
+FDQLSLSIAAMTQTQLLDFIAQERQREFAVEGHRWFDLRRTTQKQIIHTFNGENYTLIEN
+DPRYTLPFPLDARLNNPEL
+>tr|A0A1S1J1T1|A0A1S1J1T1_9FLAO
+MSSENVQTKWGQFISLIIVFFFWGFVGSANDILIPVFKKVFTLSQVQSQLVAWAFYAAYF
+VGSLIFFLVSLKLDVLQKFGYKKTLSAGLLLSAVGSFLFIPAATMESFPFFLTALFTVGL
+GFSIQQIVANPLAIKMGSPATGAHRLTLAGGINSFGTTIGAILLGIALFGMGDNKKTALS
+LEDIKLPFIILGLAFIIVAVFMNFSKIEDPAKEDEEEIKVAHEKFNILDYPQLYLGMLGI
+FIYVGTEVTIISNLPALLHTHEFGNILEDAIAPFIALYWGSLMIGRWNGGVNVFNTSNLV
+NTALKFIVPALAFGVIIGANLFAAHDVSSFYIYPIWILLFIAVSFVGGKNAGKTLMLFGI
+SGVLMMFAGLVYPDPQIAKFFFISGGLFLSIMWPSIFDLAIAGLGKNTGKASSFLIMMIL
+GGGVIPLIQGSICDIDLTSPNGIFGITWTHFSYIVPLLGFAYLGFYGFYCPKILKRQGIN
+HVEGGGGGH
+>tr|A0A1S1J2Z9|A0A1S1J2Z9_9FLAO
+MKNNIFSRKTLIAAGIACLLLPLNSCDKELEVTPYSYFTTANFFSDANEANMATLGVYES
+MSSMDSYGWNISLVFDADTDIEQMTGIGADDWRTIAHYQGISQTNMFYTVWSKLYEGIDR
+ANVVIERIPQMELFSNGNTAQKEQLNRYLGEAKFLRGFYYSELVRLWGDVPFKTKSSQSG
+DNLKGALVDRQEIYTQIIKDMTEASLLLPEQLPTDERINKWGAKAMLARVALFAGGYSLG
+ADGTMKRPSNYKDYYKLAQQQINDVIAQNPYKLNPSYAKVFKNQCQHVLEPTENIFQVAF
+YNPSGNIGNASWVGNFNGPATAAGFYPSNISRCLVPKPFYNSFNAADQRRDFSIATYSIN
+NLGNKLPLLTTNQDERWTVGKWSREYQTNATAERVYTHINWVIMRYSDLLLMRAEVENEL
+NEGPNTIAYDAINQVRKRAFGADIQGSRIAVDIKTKGTGYTNAANVLIQITGGGGTDAAA
+AVITLSAGGINTIGMLRSGDGYTTAPTVTITSTDGKGTGATATARLLTKPTTAEMSLATG
+LNKDNFLKAVQQERAWELSGEGMRRADLIRWGILGDKLIETSAAVKQIRSTYFFPAITNF
+VAGKHELYPYPQNETDVNKNITRQNPKY
+>tr|A0A1S1J308|A0A1S1J308_9FLAO
+MSVLVNKDSKIIVQGFTGSEGTFHASQMIEYGTNVVGGVTPGKGGTSHLDRPVFNTVKDA
+VEQAGADTSIIFVPPAFAADAIMEAADAGIKVIIAITEGIPVADMIKANNYVKERNSRLI
+GPNCPGVITPGEAKVGIMPGFVFKKGTVGIVSKSGTLTYEAADQVVKQGLGITTAIGIGG
+DPIIGTTTKEAVELLMNDPETEIIIMIGEIGGQLEADAAKWVRADGNRKPVVGFIAGETA
+PAGRTMGHAGAIVGGSDDTAAAKKQIMRDNGIHVVDSPAEIGKKVKEVLG
+>tr|A0A1S1J132|A0A1S1J132_9FLAO
+MKYLLVLLLAGVTASAQIKKEQLNLMPWPQSVVLNDGNFALNKNFKVNITGNPNPRIFGG
+VTRFLRRLDGRTGIFFEQGFITKLNEVPTAELQINCTKSGKIGLYEDESYHLDIKPNKIT
+INATSDLGALHGLETLLQMLQNTNNSFYFPVSKVSDFPRFTWRGLMVDAARHFQPVDVIK
+RNIDGLAAMKMNVLHWHLVDDQGWRIEMKKHPKLIEKASDGMYYTQEEIKNIVKYADERG
+ILIVPEIDVPGHASAILTAYPEIGSKVITLTGGTSEKNIQGTAIATYGIERNAGIFSPTL
+DPSNPKTYQLLSELFDEVCPLFPGAYFHIGGDENEGKDWDANPKIQEFKKKNKLTTNHEL
+QTYFTMQLIPMLKKHGKQLMGWEEILTKNMSKDAIIHAWRGPNEGVVAGQSLIESVKKGY
+KTVMSNGYYIDLMYPVASHYLNDPMPKGANLSTEEKARVLGGEATMWTELVSSTTIDSRL
+WPRTAAIAERLWSAEDITDLASMRKRLDVVSFRLEELGLTHIRNKDVILRNISNNQNTNF
+VEEFTNVCEPLKGYKRNKGGTEYQMYSPLTLFADACTPDAKDSLAFDDAVAQYLANKTPE
+NKEKVTAFLNKWIAVNKGLVELSANAPLIQHFLPLSKKLNDASQELLLALDNKSTLKGDD
+LKNLIELCNSKDHADVELSVYESLKKLI
+>tr|A0A1S1J1P2|A0A1S1J1P2_9FLAO
+MNNIVAIVGRPNVGKSTLFNRLIQRREAIVDSVSGVTRDRNYGKSEWNGKEFSVIDTGGY
+VRGSDDVFEGEIRKQVELAIDEADVIIFVVDVEEGITPMDETVAKLLRKVTKPVLLAVNK
+VDNAMREKDAIEFYNLGLGDYFTFASISGSGTGDLLDALIDAFPEKPEVEVKEDLPRFAV
+VGRPNAGKSSFINALIGQDRYIVTDIAGTTRDAIDTKFDRFGFEFNLVDTAGIRRKAKVK
+EDLEFYSVMRSVRAIEHADICILVIDATRGFEGQDQSIFWLAEKNRKGVVILVNKWDLVE
+KDTMSTRDYEEKIKKELMPFTDVPILFVSALTKQRLLKALEATVQVFENRKQRIATSKFN
+EYMLKVIEAYPPPATKGKYVKIKYCMQLPTQTPQFVFFANMPQYVKEPYKRYLENKIREN
+WDFAGVPIDIYIREK
+>tr|A0A1S1J3E6|A0A1S1J3E6_9FLAO
+MFKKVLVAEDLDSISIAVIQALQELNVPVIDHVKYCDDGLNKVKKAIMDNEPYDLLITDL
+SFKKDHRKTILNGGEELIEAVNEVQPKIKKIVFSIEDKSYRIKTLFYDLGISAYVSKGRN
+SIVELKKAIEGTFRNEEKILSSDLSFNFNEKSLFEIESYDISILKLLSQGYILDNISNEF
+KATSITPNGTSSIEKRINKLKIYFKANNNVHLIAIAKDFGLI
+>tr|A0A1S1J187|A0A1S1J187_9FLAO
+MKSEEIKKLFKKFELATSELEGVECWSARDLQLLLGYSKWENFERVIQKAKDACKNAGEI
+IDNHFPDVRKMVEIGSNSERPVNDIALTRYACYLIAQNGDSRKVEISFAQNYFAVQTRKA
+EMVEQRLLEFERIKAREKLSQTEKQLSGILYERGVDSHGFALIRSKGDQALFKLSTNMLK
+KKMGIPENRPIADFLPTISIKAKDLAAEMTGLNVQNKDLKGLNKIENEHVDNNIAVREML
+TKRGIIPENLSTAEDVKKLQRKLDGDEKKLLKNNRKKKD
+>tr|A0A1S1J094|A0A1S1J094_9FLAO
+MKLIVDSGSTKADWIAIDDNGKVLFTTQTLGLNPEILDGPEIVERLNDRFDILQNKKNAT
+HLFFYGAGCGTERMKIELSRIFQEYFENAIVEVQEDTYAAVYATTPKGEAAIVSILGTGS
+NCSFFDGKVLHQKVQSLGFIAMDDCSGNVFGKELIRKYYFNKMPKELAVEFEKEYNLDPD
+FIKNKLYKEPNPNAYLATFAKFLIKHKDTEFCRKIIFKGMKSFVKNYIKQFDNCKEVPVH
+FVGSIAFYLKDELQETFDKYGLQLGNVLRRPIDGLIAYHVANQ
+>tr|A0A1S1J4R6|A0A1S1J4R6_9FLAO
+MELKEIIDLIKKHNITAYEIAKNTLLTEVGINKILNGSSQNPRKSTLKMLEEFLINYPNN
+GNNITQQNITSNANNLLFSTNVMHVPLVNQYAYAGYMNGFNDPEFIEELPKIPFIVEKEH
+KGEYMCFEVKGDSMDNGTHESYLERDILLCRNVRRDFWKSKLHIDKWDFVIIDKNSGICV
+KRIIKHDVENGIITCHSLNDYYEDFDIDLRNVSKIFNIVDIQRKRNRR
+>tr|A0A1S1J6M3|A0A1S1J6M3_9FLAO
+MSFPKRFHFLFFIFFLVLNVCSQDKGKAVPFKKIIAAIEKQHHVSFNYTEDNITNLQISP
+PKKSLTLDQKLQYLTEKTNLSFENIENQFINIYKNDSESQMICGYVFSNDYKKPIENANV
+NLLNKTQVTTNSNGYFEFRKDSKNTLLISHIGFITKKIVVNNSSSKTCLQITLESEITEL
+QEIKANAILASGISKSPDGSFEIKPKKFGILPGLIEPDALQTMQQIPGVNSLDESVSSIN
+VRGGTHDQNLFLWNGIRMFQTGHFFGLISVFNPNLAHTISIYKNGSSAFYGESVSSVVAI
+SSTPETTEKNTFSAGINMINADIYAKYNLCKKSSIEISARKSITDFVETPTYKEYFNKVF
+QNTTITDFSEKQNINYRSDKKFDFYDATLKYTRKIGAKDQIILDLITIKDNLEVFQSATV
+YDINKSENNVLRQQNYGGNLSWKRNWNNFNTTKINVYNSAYELLANQKTTFGDQIVIQEN
+TVNNNGINMENHHIISSKISLSDGYQFNEIGITNLEQVTNPDFYRKVKDVLKTHALILEG
+KYNDTLSRIYFKAGTRINYIEKFKKYNIEPRIQFNYGINKSLNLELLAELKSQNSQQIID
+LQKDYFGIEKRRWIVSNNTTIPIQRSKQISLNLFYKKNNWLLDIENFYKKVSGIITSSQG
+FQNQLEFVRMTGDYEVLGTEMLLQKKMNHFLTWLSYTYNHNNYYFSNFEPPSFPNNFEVM
+HTVSWAGIYEKNNFKIALGTKWSSGRPKTSPDFSQINLSDLVLVYNKPNNTNVHIFSQVN
+ISSTYKWETANGIQYKLGLSILNILNRKNEISEYYRVSSLTNSIEEVETFSLQRTPNMSF
+RVSF
+>tr|A0A1S1J920|A0A1S1J920_9FLAO
+MTLYQTTFENFNKNYMGSAAMAVIGQSCLGGAAAMYVLANGTSIPQMIQLAIIVLACVFA
+NTSILAQMKHKTVFNLIIASALLSVFFILLNSFIL
+>tr|A0A1S1JAC0|A0A1S1JAC0_9FLAO
+MSDALKHECGIALVRLLKPLEYYKEKYGTAFYGIQKMYLMMEKQHNRGQDGAGFASIKLD
+VAPGERYISRVRSNHSQPIQDVFKQINERINEEMSSHPEYADDVAKQKANIPYIGELFLG
+HVRYGTFGKNSIESVHPFLRQSNWMHRNLILAGNFNMTNVKELFENLVELGQHPKEMADT
+VTVMEKIGHFLDKEVMQLYQDCKLEGYSKREASPVIADRLDIAKILARSAKNLDGGYAMA
+GLLGHGDAFVFRDPAGIRPAYYYQDDEVVVVASERPVIQTVFNVPFESVQEIEPGNALII
+KKNGKVSMNQILEPTVKKACSFERIYFSRGSDAEIYQERKNLGKLILPAVLESIDSDTDN
+TVFSYIPNTAETSFYGLVEAAQDFLNQRKNNYILANRNTLNAETLQELLAVKIRTEKVAI
+KDAKLRTFITEDSSRDDLVAHVYDVTYGVIKPTDNLVIIDDSIVRGTTLKMSIIKMMDRL
+KPKRIVIVSSAPQIRYPDCYGIDMAKLEGLVAFRAALALLKERNLYHIVDEVYTKCKAQE
+NYVDTDVVNYVTAIYDQFTPEEISDKIAEMLSSPEINAEVKIIFQKVEDLHIACPKNLGD
+WYFTGDYPTPGGNRVVNRAFMNFYEGKDARAY
+>tr|A0A1S1JAV9|A0A1S1JAV9_9FLAO
+MSITKHNWTKDEIIAIYNKPMMDLLYEAATIHRQKHDPNVVQVSTLLSIKTGGCPEDCGY
+CPQAARYNTGVEGNDLMSVSQVKAQALRAKSSGSSRVCMGAAWRNVKDGEEFDQVLEMVR
+TINKLDMEVCCTLGMITENQAQRLAEAGLYAYNHNLDTSEEYYKDVISTRGFEDRLQTIE
+NVRKTNVTVCSGGIIGMGESIEDRAGMLVALSTLNPQPESVPINALVAVEGTPMEEEKPV
+EIWEMIRMVATTRIVMPDTQVRLSAGRTNMSREGQAMCFFAGANSIFAGDKLLTTPNPDV
+HEDMKMFEMLGLNPQKPFTKVSQPKTVEAADSQFVPLGEKPKWSRPGHTIERNLEATAKS
+KI
+>tr|A0A1S1J220|A0A1S1J220_9FLAO
+MKDRLKVMTVVGTRPEIIRLSRVMAALDNSDAIEHVIVHTGQNYDYELNQIFFDDLGIRK
+PDFFLNAAGATATETVGQILIKIDPLLETEKPDAFLVLGDTNSCLCAIPAKKRHIPIFHM
+EAGNRCFDQRVPEETNRKIVDHVSDVNLTYSDIAREYLLREGLPADRIIKTGSPMFEVLN
+HYLPSIESSDVLERLGLKNGEFFVVSSHREENINSEKNFQGLMDGLNLIAEKYNFPIIVS
+THPRTRNMIEKKNIQMHQNVQFLKPLGFNDYNALQMKSFAVLSDSGTISEESSVLNFRAL
+NIRDAHERPEAMEETSVMMVGLSPERIMQGLVQLQYQKTGKERNFRPVDDYSMPNVSEKM
+VRIILSYTDYVKRVVWSEM
+>tr|A0A1S1J300|A0A1S1J300_9FLAO
+MYFKDLYKQRVMFFLAVTLLVFVYSDWNGNNDFFQWIIKDLFLVILFLLFHYPIVNTICK
+VTFRLLRKLLKFDRFSRQYKFSFTNSFIEVHSPLGGFTHRWCQIEKAILTKDYFLLYIKD
+KNGYIISISNKENCSKKIEKLIEFIDCNVTRVERI
+>tr|A0A1S1J4V3|A0A1S1J4V3_9FLAO
+MIKKHFLLLLLVCSGIWAQKDIDINELKWLPNSHSFWVNSGKDILVYDVDKLNQNTTVLT
+QQQLTTAGFNGEVEELVWNQNKTKVLVYTNSKKVWRANTRGDYWFFDLTTGKGRKLGASL
+EESSLMFAKFSADNENVAYVSKHNIYLENLASGKITALTTDGTDKVINGTFDWVYEEELA
+ARDGFRWSPDGKSIAFWRVDASETKFHLMINNTAALYPFVVPVEYPKAGEKPSAVKIGVI
+DITSLKTNWLDIPGEPDNNYLVRMEWIAKNEVMAIQLNRNQNQVSIYNCNTQSGKATLVY
+QEKSAEWIDVFDISSGVYDGFPCQFVDNGKSFLWSSDADGWMHVYKISRDGKKKELITTG
+NFDAYFKAYNDKTKSIYYIASPKDATQRYLYETNINSLKTKRITPEVFEGTNEYEFSTDG
+SYAKHTNSNINRDFNVRLVSLSDHKKILPKEADVFVKPTRDFSLEKFKVATVDGVEIDGI
+MAKPLDFDPTKKYPVFFYVYGEPMASVANDMPYFNGFIDLLIPKGYIGIAMDNRGTPVLK
+GRKWRKSIYKNIGIINTRDQAMAAKEVLKWNFIDTNRVAIHGWSGGGAVTLNLMFQYPEI
+YKTGVAIAAVTDQHFYDNIYTERYMGLPDENEAAYIQASPVTHAKNLKGNLLYIHGTGDD
+NVHYKNAEVLIDELIKYDKIFNLMIYPNRTHSIHEGEGTRKHLVDTFIKFIEEKCPPGAK
+>tr|A0A1S1J665|A0A1S1J665_9FLAO
+MLSRILEHKSKLIIAVAIVLCFAVIRAFENQLFYDPFLDYFDGDFKNLPFPEVKTFTLFL
+NLLLRYVLNTILSLALIYVLFQDRDMLQFSLLLYVFFAVILLGMFFVVLECFAEGNWLLF
+YVRRFIIQPIFVLLFIPAFYYQQQNLKK
+>tr|A0A1S1J783|A0A1S1J783_9FLAO
+MAKDNNPNPSKFKISPWLIYTAILLVFLFISFATGGSNLSEPAQLTSSKFNTLLEKGQIE
+KVIVYNKAEAEVYLNAAALKDAANKKVAKDIFDRPNKGPHYTLEIGNDQIFQTKLEKAVG
+EGKLKDFNFLQKNNWSDILISLLPIIIIIGVWIFIMRKMSGGAGGGGGQIFNIGKSKAKL
+FDEKTDIKTTFKDVAGLEGAKEEIQEIVEFLKNPEKYTNLGGKIPKGALLVGPPGTGKTL
+LAKAVAGEAQVPFFSLSGSDFVEMFVGVGASRVRDLFKQAKEKSPAIIFIDEIDAVGRAR
+GKSNMSGGNDERENTLNQLLTEMDGFGTNSNVIVLAATNRADVLDKALMRAGRFDRQIFV
+DLPDIRERAEIFAVHLAPIKKVEGLDLDFLAKQTPGFSGADIANVCNEAALIAARNNKTA
+VDKQDFLDAVDRIIGGLEKKNKIITPEEKRAIAIHEAGHATVSWMLEHAAPLIKVTIVPR
+GQSLGAAWYLPEERQIVRTDQMLDEMCATMGGRAAEKVTFDRISTGALSDLEKVTRQARA
+MVTIYGLNDKIGNVTYYDSSGQSEYNFSKPYSDETAKIIDKEISELIEGQYQRAIEILKE
+NKDKLNQLADILIEKEVIFKDDLEAIFGKRTFDKNLEEVVS
+>tr|A0A1S1J8C0|A0A1S1J8C0_9FLAO
+MKYNLLLALSFISFASYSQNYSSDEAASTANDTVKNKKGEILNEVLIKTNREPKPVTAVR
+SGLKPMDNPQSIQVISSDVIEQQQAIRLSEVIKNANGVYVSSARGGAQESFFSRGYDMSA
+NNMFKNGFRYNSGSIPDVSGLEKVEFLKGGSALLFGNVAPGGILNLVTKTPSFKSGGEVS
+MQIGSYAFYKPSFDFYGPLSKSIAFRINGSYENSESFRDVVKNERVYVNPSLLFIINPKT
+QITVQGDYLTADWTPDFGTGLIGKQILDLPRNAFYGSLWSNGTTKSASASVLLNHDFNKN
+WKLNFNSSYQTYDRGQKSTAQMSNITNSGDWTRALVQNKNLEQILGDQLSLQGNFNTGSV
+KHQVYTGVDWENSFATGYTYAFDPANYDTINLFTFDPSKQKNDIPNARATQILKTETNRF
+GAYFQDLISITEKVKVLAGIRWSWQEGQATTYKETYNTGTKVQTVAPENAIAEVGAKKLD
+NAFSPKVGIIYQPTKSTSLFASYSNSFSPNTGFTVDNKTIEASIIDQYEAGIKKEFFEGL
+LSTNLTVYQISNSNLAQTAPFLADGVTENVNSNIKVLGGATKSKGVEIDVTATPIEGLNI
+IAGYSYNDMRYTKTSGTSGSFVAGDQVVRTPKNTANLSFFYKVPEGMFKGVSFGAIANYI
+GNRLGGWNDDYLWTAVKPTPTNPKPNPAYIVTIRDRDIPIEGYTTIDASVGYEWRKFSVL
+CKLSNITNELNYTVHENYSINPIAPRQILTSLKYKF
+>tr|A0A1S1JA90|A0A1S1JA90_9FLAO
+MIKKFIYLEWKAFVRSASFGTSVVMKVLLGFLMVYFSLLFVGAGIGAFYILKKMKLEPLV
+TINQFLIYYFLFDLVIRLLMQAIPVLNIKPLLILPFKKPTIVHFSLGKTALSFFNWVHAL
+FFIPFSIVLVLEGYDLLGVIFWFLAAFSLIYINNFLNIILSNIDKLFVVFVGAIIALGAA
+QYYKLFDITSFTTPIFQGFYATKGLFLIPALILIGLYLFTFKYFKNNLFLDAGLSQKEDI
+ATTENLSWLNQFGTLGTFLKNDIKLIKRNKRSKTTLVMSFIFLFYGLIFFGNKQQPEVMT
+IFAGIFVSGGFLFVFGQFVPSWDSSYYQLMMTQNIPYRGYITSKWWLIVIATFISTILAS
+FYLFFGWQIYLTVVVGAIYNIGVNSHLVLLGGAFTKTPIDLSSAGGAFGDKKAFNVNAML
+LTLPKILVPLGLYGIGLYLGNKTIGLALVAGAGVLGFAFKEKVFSLIEKRYKIEKYSTIS
+AYKQKN
+>tr|A0A1S1JB67|A0A1S1JB67_9FLAO
+MTIKKLFFLFVLLINSYAHAQEKQIDSVILFLDLKKETTRYSFSKDTSSISFGFYRKKFE
+SKKSRDSITKLYSYRGKKRIQDFEDLKNIKPKYLPEMGKRPNFSLDFWSIGKPTKRIKSI
+KGIDYINKDRFISNEMNYLSKKIYILHKVKDGSYMIWEVVPVPLE
+>tr|A0A1S1JF77|A0A1S1JF77_9FLAO
+MLKKLLVLTIFIWFSGLQAQETVSSYKTRKIIARRDTIHLEEVSINSGFFQLFNTKNEPL
+DSTFYKVDFKKGTLLLNEKLVTTGDTLLVNYLKYPDFLTREYTLYKSNQVVSNDIGTEKL
+YKIDNAVTKKVTPFDGLNTSGSITRGVTVGNNQNTVLNSNLDLQITGKISDKISLRASLQ
+DSNIPLQDGGYSQKLDQFDNIFMELFTDDWNIRAGDVFLENRKTQFLNFNKKVQGLSASF
+NFGTDENKTNIFASVAFVKGQYAKSTFTGQEGNQGPYKLKGQNGELYVLVISGSERVYVN
+GVLLKRGENNDYVIDYNAGEITFTSLFTITSEMRINVEYQYSERNYNRLVTYAGGTHESK
+NWSFGGYLYSENDMKNQPLQQNLSKEQVQILSQAGDDPNLMKAPSAYEDSYADTKILYKK
+KLVNSVEIYEYSKDASTVLYNVKFSLVGNNTGNYIIQNNNSVERIYEYVAPVNGILQGNY
+EPLVNLVAPIKLQVATFLGKYNPDEKTLVDFEIAVSNNDKNLFSKIDDANNDGIAIKTNI
+KKRLFTRSWSLDAFANYQFVQEDFRSVERLYNIEFNRDWNLNEILLGNQNMLITGLNFDL
+FAKKETSNIGLFTYQFEKLDYSESYSGSRHTSTALFKLQQWTIENRGSFLNSDAINSTSK
+FIRNQTRTKYHFGKNWVGASMQLENNQQKNKITNQFSALSQRFSEYGAFIGRGDSTKVFV
+EIGYLQRRNDSLQNGFLKHVNNSQTYFLKSKLIQNKKTDLAVYASYRKLDFTDASRKNEP
+SLNSRILYNDRFFNQLVQIGTTYETSSGTIAQQEFTYIEVPTGQGVYTWNDYNGNGIQEL
+EEFEIAAFPDQARYIRIFLPNRVYIKTNQNRFSQSVALNPLQWQNETGFKKLLSYFYNQT
+SFIMDRKVKSQGERLELNPFNSSEENILGLNSSFRNSLYYKRGKQKHSVTYTYLVNKGKS
+LLSIGSQNVQNNSHQLQYTHLYRKSWLFNFFTKTIKTDLVSEDFVEKNYDITGYQMAPKV
+SYLFSKNTSLDFFFEFQNKENQIGNFETLVQNRLGTSFSFAGEKKITVNGEFSFYRNKFT
+GNEFSSVGFQMLEGLQAGQNLVWKFLLQKNITQFLDVNLNYQGRKSETGPVIHTGNIQLR
+AYF
+>tr|A0A1S1J0L5|A0A1S1J0L5_9FLAO
+MKNLKMKPRLIALFALAIGFLTLSWGMVGHERINKAAVMALPHPLQVFFYNHIDFITQEA
+SVPDIRKYALNYKDENPRHYFDMESFGNPADFPQTLEAAKQKYDAKFLNENGILPWYIEE
+MMVKLTKAFKEKNRAEILFLAADLGHYVGDAHMPLHTSSNHDGQLSDQKGIHSLWESRLP
+ELFVKNYRLNVPQAQYYEDVHKATWDMINDTHSLVQPLLDVDKKLRTTTPENETFKMDAD
+GKVLKSKYNTAIFSDEYAKKLHKELNGMVENQMKKAIAATASFWYTAWVNAGKPDLSDLD
+AFELTQRNNQALKDDARLFQQGNLFGMKNQND
+>tr|A0A1S1J427|A0A1S1J427_9FLAO
+MENNYKNAHTHIFTMNNAPKNFLELYMPPFLAKGVDNFTNTNLGAWLIRQLASSNKGMAK
+RYATFLQIGKSKYQTDIFEDLMSRYPNETFQFITLCQNLEYLGVGRSVSGFEGQIEEVID
+IKRKYPTNILPFFGLDPRWKSSGDEIQKTVERYFETKIEVGGTSVYPFQGLKMYPSTGHY
+AFDAKLRKTMEWAADNGVPIMTHTYYLGGIYNYDKDYIKRNLNPIDPYTGNIHGAPNAVP
+KFIEEKGGLFGNLFNGNDRKSCRSSCSYFLEPHSYESMLNSIKDLKICFAHFGGVNQIQA
+SEGNNKDSNQINPYGVLRKNWFSQIQNLMTQHPNVYTDISYDVAECLLKENSELYKVFFR
+EVDKSYGNQILFGTDYFMTEKDSLEQVAVQGFRNYASNAKLQNGNSLWDQMAKNNINSYL
+ESKYYSGKPVIIRSV
+>tr|A0A1S1IYT8|A0A1S1IYT8_9FLAO
+MPITANDTKRKSWLEVPENSDFPIQNIPFGIFLTKENVVTVGTRIGDYAIDLGALQQLNY
+FAGIDLTDDMFMQDTLNDFISYGKITWRLVRNRIADIFDETNPQLRDSKKDRDIVIFNID
+DVEMQLPVLIGDYTDFYSSKEHATNVGKMFRDPENALFPNWLHIPIGYHGRSSTIVPSGI
+PVHRPMGQTLPAGHDTPVFGASRLVDFELETAFITTDVNVMGENISTYEAEDYIFGMVLL
+NDWSARDIQRWEYVPLGPFLAKNFASSISPWIITMDALEPFRTKGPKQDPTPLPYLQTKG
+KKAYDIHLEVALKPENQEETVISKSNFKYMYWSMAQQLTHHTSNGCRVNSGDMMGSGTIS
+GPTEDSFGSMLELTWGGKNPITLNGGGERKFIEDGDTVIIRGYCESNEVRIGFGEVSSQL
+LPPFVRQ
+>tr|A0A1S1J9C3|A0A1S1J9C3_9FLAO
+MDRKILLLFLTAFMISCSKKSDEKTAVAIKDTLNQNTFEGEEDGYESDESIVTLKELQFP
+KRGKSIQDFVLEPCEIKMQAEGFLNDDNLKDVVIVLQNTNDSADSRPTLVLLQQESGGYK
+LQDLSWEAVGPEYPDYFRLGDISIDSEKKLHILLEGMGPAGNREAVYKYIDDKLVLISIG
+TFHSGAGSWLTSEYDLISGKYDHEVTNTLHDSMPSEHQIGEFKLKRQMLFARDNPDTIVE
+TLPQANW
+>tr|A0A1S1J0K9|A0A1S1J0K9_9FLAO
+MIVKPGDFFFGLMEFLAYIVPGFVLSITLPIYLNIGIPCYLDVKRDGPTIFSWIAFILIS
+YIAGHFIHHLCAMLLNPLYEISYAKIKQKKYHEFLNLAENVIKERFSFHSDYLKIAEGFL
+RLNHPGLVAEIEVYEANSKLFRSLTVLGIYLCFFPKMPIAVVVILVIASFFSFLKFANQR
+WTYRFVVYEYFLLEKSDQ
+>tr|A0A1S1J357|A0A1S1J357_9FLAO
+MKNILNKLINHEVLSKEEAKDVLINISSGAYNPSQISAFLTVFMMRSITIDELSGFREAL
+LELCIRVDLSAYNAIDLCGTGGDGKDTFNISTLASFVAAGAGIKVAKHGNYGVSSISGSS
+NVMEKMGIKFSNDPSFLEKCIDQAGICVLHAPLFHPAMKHVGPIRKELAVKTFFNMLGPM
+VNPSFPKNQLVGVFNLELARMYAYLYQNTDVNFTILHSLDGYDEISLTGPTKIITSDMEG
+MLKPEDFNVRLLSQREIEGGRTIEESADMFVSIISGKGSEAQNNVVCANAGMAISTVTKC
+SPQEGFKQAKESLFSGKALNVLKKLKDLMI
+>tr|A0A1S1J1E1|A0A1S1J1E1_9FLAO
+MTKEESIKEYYFRINKSIDYIKENLHEELSLEKLAALSSFSKFHFHRIFKSVTGKTINEF
+IKNAKIERALFFLMNNPSKTISEIANDCGFLNVSSFSRSFREVRQMTPSEWRVQYKNSNI
+RIIDSNIGKMQSEIENYLALKLNNLKNIEMSEIKKLDFEVKNLEAFNVIYIRNLNIHSHD
+SETFEEMFKKLFSWATPRNLVNFPETKALTVYRSNANLSGMLQADVCLSVPEKIVGEGIV
+GNTIISGGLYAIFHKEGPMSECFKTWNYIYEVWFEENGYQPDNRNFFLSHLNDPKLHPEN
+LHIIDIYIPIKLL
+>tr|A0A1S1J0B4|A0A1S1J0B4_9FLAO
+MALILENIAKHVSLTPEEQAHFLSKTETHFYKAKTILLNAGEVCTHSYFVNSGILRSFNI
+NDNIVEHVLAFACQGWWMSDMYSYFSQKPGELFIEVLEDAEVVSLSKENQEQLYLDIPKL
+ERFFRILIENSLVANQQRLMDNLSLTAEERFEKFCAKYGTLVHKVPQKQIASFIGVTPEF
+FSKMKARLLKK
+>tr|A0A1S1JAN4|A0A1S1JAN4_9FLAO
+MLKQFFILCSGADRDLLEGCSNGEQTKYVGIGATVFFTAVMAFLASAYALFTVFDSLYPA
+LAFGFVWGLLIFNLDRFIVSTIKKRDRFMDEFIQATPRIILAIIIAIVISKPLEIKIFEK
+EINTVLLKEKNEMELANKKQVGNYFKSDLDKNKAEIAALKNDILTKEKEVNALYSTYITE
+AEGTSGTKKLGKGPVYKEKRDKHDAALKELATLKTTNEAKIAEKEKTGKQLQADLDKKVT
+QTQPIIEGFDGLMARINALNKLPWLPSFFIMLLFLAIETSPIIAKLLAPKGEFDFKQEEA
+ETAMKATLEQNKYQRELLVKTSAQMHDKVYADIAGDRGLFDLQRKNAKELLELQSNSFVE
+KQKATL
+>tr|A0A1S1J3B8|A0A1S1J3B8_9FLAO
+MWNIIYTYKTKLLIIKTINPVLTEINRSKLINYTTTNLTAELHGFANFTAKKEGIIPSLK
+KWLNVKKLNWLVSLLVKSSFKIYN
+>tr|A0A1S1J925|A0A1S1J925_9FLAO
+MSIPANLKYTKDHEWVSIEGDVATVGITHFAQKELGDIVYVEVETLDQKLDRDEVFGTVE
+AVKTVSDLFLPLTGEIIAFNENLESEPETVNSDPYGDGWMIKIKIADASEIDSLLSADAY
+KELIGA
+>tr|A0A1S1J1G5|A0A1S1J1G5_9FLAO
+MDPKIRYEIEFPINSSPQLLYQYISTPSGLSEWFADNVNSRGEFFTFIWNDSQEKARLAS
+KKTGEKVKFKWVDESSKDTEYFFELHILVDELTKDVSLMVVDFADKEEVGEAKQLWENQI
+SDLKHLIGSV
+>tr|A0A1S1J2R2|A0A1S1J2R2_9FLAO
+MKTQINGTEILELGFPEGKIIGIALKINSKRNGFTRDEMIAHYKNVLETPENYIDDKVFS
+KLAVALIEKSNEKPEDFIALNQNPNTYSAYGLDHIEDGARKQMEVAMKLPVTVAGALMPD
+AHQGYGLPIGGVLATKNAIIPYGVGVDIGCRMALSVYDIPEDFYFENEAKFKKELIKNSI
+FGAGHGFHGQYKSDHAVLENETFNMNPFVKNLKDKAWSQLGSSGGGNHFVEFGIMEFAQD
+DAVLNIPKGKYVALLTHSGSRGMGATIAGHYTKIAKEVCKLPEIAKNLAYLDMNTQLGQE
+YWMAMNLAGDYASACHEIIHNKMERALGATILAKVENHHNFAWKEIWNGEEVIVHRKGAT
+PAGKGVMGIIPGSMTAPGFLVRGKGEENAINSASHGAGRQMSRTQAIKNITATEMKSILS
+DHGVTLIGAGLDEAPMAYKDIHQVMKAQEDLVDVVAKFTPKLVRMADDGSKED
+>tr|A0A1S1IZ40|A0A1S1IZ40_9FLAO
+MISEEQFQSELQLLISNAIREDVGTGDYSSLACIPDTAHGQAKLLVKDQGIIAGVALAKM
+IFEYVDPKLKMKVFIEDGTHVEYGDVVFEVSGSSQSILKAERVVLNSMQRMSAIATKTDQ
+YVQLLDGTGAKILDTRKTTPNFRVAEKWAVKIGGGENHRFALYDMVMLKDNHIDFAGGIT
+LAIKKTKEYLKENNLDLKIIVEARNLDEIREILLSEGVHRILIDNFNYEDTRTAVQLIGN
+KCQTESSGNINEKTIREYGLCGVDYISSGALTHSVYNMDLSLKAF
+>tr|A0A1S1J172|A0A1S1J172_9FLAO
+MKFDLLQRDPQSKARAGSITTDHGVIETPIFMPVGTVASVKGVHQRELKDDINPDIILGN
+TYHLYLRPQTEILEKAGGLHKFMNWDRNILTDSGGYQVYSLSNNRKIKEEGVKFKSHIDG
+SYHFFSPESVMEIQRTIGADIIMAFDECTPYPCDYRYAQRSMHMTHRWLDRCINHLDKVP
+YKYGYEQTFFPIVQGSTYKDLRRQSAEYIANAGQQGNAIGGLSVGEPAEEMYAMTEVVCE
+ILPEDKPRYLMGVGTPINILENIALGIDMFDCVMPTRNARNGMLFTANGTINIKNKKWEA
+DFSPIDEMGHTFVDTEYTKAYLRHLFAANEYLGKQIATIHNLGFYMWLVREARKHILAGD
+FRPWKEMMVKNMSQRL
+>tr|A0A1S1J3S2|A0A1S1J3S2_9FLAO
+MSYLNVPRLTFSGQFQADPSTVNNDPTHFNNETFEPKYQNYGPGQENGWWNPDGTGNWRF
+LGCKITSVTYQDGTSTDNPLLDPIIGMSVMDTDARTAGKIVDLDSQQQMVSQLWGFVVRI
+VNNEGNTLVKGDYEMAPFSNIWFSRSVDLRGSSGAGATYQSVIKNIDWNFKISNSRYLNE
+LKAVSAKQLSIHFSVDRFNGDHTSDQFTLGRIAGSIGPSNNREPKHFVLGRQLFPNPLPQ
+YLPQGQRQKYNYATALVDEKLKQVVLDFGNALQFNAEGVNTSENLHLVINTNTGISVIGQ
+INYSGLDWYMNTSGIFTFPLSDEQLDLCNQYPLAIVTNMTDSINDVFSLKKSKTGILIYT
+ESIDYVGADQFVFRLDPEDKCKINFYATHLGKALPNAIIQAQDNTQNLLGSPPPPVVPAV
+GTPPIPYFSGNKPAEVTTDANGKAVLRFTAPDPGNPRVYIDGQIYAISYNLSTQSFDDCN
+QSNFISLLIFSGAPTPKIIPDWDNFIQPIMQQYANLYPLMSKGIFNLADKTVVDKNAQIL
+HLVFSKDLDDPNYMPATRDLSKYKKTVILNYLQDVIDKTATANKA
+>tr|A0A1S1J7L5|A0A1S1J7L5_9FLAO
+MNTEAEKISLLLEMIAFSTVDGQLHKREYEFLWLVAQELNISADVFRDLFHQESAGSVIK
+SEFQRIQQFYRLALIMYCDGILHEKEAKAIQQIAIEMGLNPIATRRVLDLMKKAPNAIID
+PKLLLKVFQEQHN
+>tr|A0A1S1J7P2|A0A1S1J7P2_9FLAO
+MNPNYYHQTITSKSVWNKSIVFLLFFLFAFAKGNAQILEPVKWTSKIEKKAGNNAVLIFD
+GTIEKEWHMYSQFTPEGGPLALEITFKNQKGNYNLVGKAKEGKTKTAFNDVFGVNETFFE
+GKAHIEQEITIINPNLKTVDVDFDFQVCKEVCINSSKKFSIAIPSNFKMDAVAAVSESKL
+DETKVEGIAVDTVKKVAASAVEQVIKTDKALAETSEEIPASTPSRSLWSIFFIAFISGFA
+ALLTPCVFPMIPMTVSFFTKQSKSRAKGIRNAIIYGFSIIAIYVILGLIVTKIFGADALN
+ALSTDVWFNLIFFVILIIFATSFLGAFEIMLPNSWANKADQQADRGGLIGILFMALALAI
+VSFSCTGPIVGTLLVEAASNGGIAPIVGMLGFSLALALPFMFFAMFPGWLNSLPKSGGWL
+NTVKVVLGFLELALAFKFLSNADLVLQLHFLEREVFIAIWIAIFAALTLYLFGKITLPHD
+SPLNHISVGRLYLGLLTLVFTVYLIPGLWGAPLKLISAFPPPPQYSESPFGVGGSANSNS
+GSTETVSGLPEGAELGPHGIMVFHDYEDGLAYAKSINKPIMLDFTGYACVNCRKMENNVW
+SEPMILPILKNDVVLISLYVDDKRDLPKEEQYVTAKGDKIETVGDKWTDFMISKYKTNTQ
+PLYVITDLEGKNLNSSKPTISYVSAEEYLQWMKEGISNFK
+>tr|A0A1S1J932|A0A1S1J932_9FLAO
+MFVNKFAKCFALAFLSCSIFSCSSDDSSKDETPTVNGTKYVASYWLADYTQYILDFNSTD
+QLMTGEISAKGVGIEQGGSCFPVNNTFFALSTEDEGSVSFRLNNSGKLGAGDKISFESSY
+AVGYTDDKKLINIGATWDGSSSDYELMIYNPATVSIDARKFNDFSVNPANKKILYWPTGA
+AVSGDKLFVPVYIKDVSDGTNKVLSSDATMRVYKYPSLEYVSTIKDARTTAIGLYYTNTG
+IVQTESGDIYTFSSNARAGGYPVTGVSSGVLRVRKGDAKFDPGYFFDLQSSTLKGKVLAA
+YPLGGEKVFISYIPTEVDAANSVYSFLNTKTIFKSAILDLSAKTILAVTGLPDHGGDEFF
+GLGSMFVENGKAYKSFVTGDQARVYQIDIATGTAKAGALIKEGLYLPSIGKLTY
+>tr|A0A1S1J9R5|A0A1S1J9R5_9FLAO
+MKSETLTSEQFYTSNPDLNNQQALNSSIFRISNANVTSKKVSERTKSKTGLFVLVSTFIL
+MFIGAYTAYQLQSDFDQFQLERINSSWGFPFLILAGVLFVFQAGVFLYNLYLYFTYKPIE
+SVSDEMLPTCTVIVPAYNEGKLVWDTLMSLAESDFPEQKMQILAVDDGSKDDTWYWMQQA
+KIKLGDRLTIFQQPENRGKRHALHRGFELGTGEIFVTVDSDSIVKKDTLRNLVSPFVVDE
+KCGAVAGNVHVLNSKKAILPKMLNVSFVMSFEFMRSAESQLGSVLCTPGAAAAYRKTSVF
+ACLDEWINQTFMGQPSDIGEDRAMTNMILRQGQHVLFQRNAYVLTNVPEEYTGLYKMFIR
+WSRSNVRENIAMAKYVFTDFRSESKFGARLLFVSQSMKMIMAYPFMFFMFFFIAVHPILF
+LSSTLLAILIVSSFPVLFYTKRYNFADSLWAYSYSVFYTFSLFWITPYAIVTANKKGWLT
+RGLA
+>tr|A0A1S1JAU9|A0A1S1JAU9_9FLAO
+MKEKEQEFLNRIESHKGILYKVSKMYMDNSDDQQDLFQEIVCQLWKSYDSFRNESQFSTW
+MYRVAVNTAIVFLKKEKRKVDKYEIASENIKDDEGDSHIKESQIDHFYKAVQKLEKIDKA
+IIFYQLEGFSHKEIGENLGISEGNARVKLNRAKEKLKEIIKNQGYGF
+>tr|A0A1S1J7I2|A0A1S1J7I2_9FLAO
+MPVPNIKRGYRKTRYILYKETLIDYKEHFWSFLGSFVGIGILAYLESIHFGGSDLVYLIG
+SFGASSVLIYGIIQSPFSQPRNLIGGHLISAIIGVSVNKLVPDIVWIAAPLAVSLSIIFM
+QITKTLHPPGGATALIAVTASPQIKNLGYMYVLSPVLVGVLILFVTALIFNNMTSSRSYP
+SHSTYHKHYHKIRKRLSRKG
+>tr|A0A1S1J1M5|A0A1S1J1M5_9FLAO
+METDQAFLGTGWSFPPEFKKTTRATVMISDEEDIKSSLEILLSTKIGERIMVPKYGCNVD
+ELLFEPLTTTLKTYVSELIRTAILYHEPRIDVEKIDISQGDDLNGELLVALDYRIRATNS
+RTNMVYPFYKQEGTNI
+>tr|A0A1S1J275|A0A1S1J275_9FLAO
+MKRIYISMFVLSGLLFAGCADDFLDVSPTESIPSADVELVNNDAGASGFVTAIYNQFLGW
+DMSSFGWNAVTSIISDDADKGSDPGDTGADKDIIDALTYNASTPSFQSTWDAHYAGINRC
+NQALAIFPKLDKVTPALKVRLEGEAKFFRAFMYFTLVKGYGGVPIIDHLPIPGSEGDRIM
+QLTRKTPAEVYAFIEKDLNDAITNLPEKSAYAAEDKSRVSKGSAYALLAKVNLYQKNWQK
+VIDNCDKVTGYSLVADYALQYKKAGEFGPESIFEINGIGSTSSPGFGIGNYSVSQAPRGA
+GGWGWGFNTPTQGLANAYEAGDVRRAATIIFRGSVLYDGRPVPATVANPMYNYKAYSSDF
+YNQEFTDTNLRYLRYAEVLLMKAEALNELGQTSAAIPLVNMIRKRAGLGDTPFTSQTDVR
+KAIWKERRLEMAFEHDRWFDLVRTGQAQAAMAADGKTFVVGKHELFPIPTTFLREAGGLS
+QQNPGGY
+>tr|A0A1S1J6A8|A0A1S1J6A8_9FLAO
+MLQRKTFMLLLSLITFQIYSQQPASIQLTAEKLHSRLREWPYPANGVTIHTNAPALLWPG
+TNGEKEIVLSGDIGDDFTIDPKIHDVVYKVILASDPDFKQNLIIGEEQEWAMYPLHQSLK
+SGMWYWKYGYRQKNTPNWVWSPSYNFIVNATAANNPVSPAASTVLQRVSGQHPRLWNMNK
+TGNEFYLKNLSNPEAKKFIAYAEKLMLEPLPEEKPRRYIDTTGKSELQKKINIEAMYHGF
+GDMVGNPVRNLCIAYQLTKDKRFILDAKRRAINLANMNPDGLATRDDFTGGALLEAIGWF
+YDAGFEFLSPDEKTFLKSVIKLRGERIYRHLPNRFEININDNHIWQITLRNLAIGAVATV
+DELPEANKWLTYIYEVWSARFPILSNTDGGWHEGSGYFKVNFRSFLYLSQLLGDLSGVDY
+FQLPWMQNLPYFLLYTHPSAASCMAMGDMWEKEPNIAKIDAWFADALTYRINNPFLNTYV
+ATIKKDYPNYFTGTDDLLLYRLLNYKSEQNLPESSFHELPKSRWFQDVGMTAMHENLSDS
+SKNLSSYFFSCPMGSSGHGHASQNAFTINYKGKTIFGGTGYYSNFSDRHNLLDYRSSRAY
+STILADSLGQKIGEDGYGWTPRFITGKHLQYVLGDATKAYGPVTNEFWLDRFEKINIVPN
+EANGYGQQNITLYRRHYLQLEEGYVVIYDELEAEKPVKWTSQFQVPYYTIESQKTVSNKQ
+QNFTVKTDVGLVNTSVFAHNDLKMQVHDQFAETAVNWNKVTGADGKVFEYKNQWHAGITS
+VSSKKMRFLTLIQIDGKPIDNIKSAVLKNGILQLNFGNWQLSAQLNSDEAPMLDIKNEKL
+NSAFNYGTSSLKLGKKTYEHQTSGSSMLVEITNNKPTLQEVIDELPDVAKYDFKK
+>tr|A0A1S1J5E6|A0A1S1J5E6_9FLAO
+METITLGGGCYWCVEAVYENLAGVKSVVSGFSGGKVANPTYEEVCTGTTGHAEVVQITYD
+KNITDLNEIFKVFFTVHDPTTLNRQGADVGTQYRSVIFYKNEEQKKAAQSIITELNKAKV
+YNNPIVTKVDPFKVFYKAEDYHQNYYANNKNQPYCKMVIQPKIEKFEKVFKDKLKNKQKA
+>tr|A0A1S1J813|A0A1S1J813_9FLAO
+MSEEIKKNNYSADSIQALEGMEHVRMRPSMYIGDVGVRGLHHLVYEVVDNSIDEAMGGHC
+DTIGVAINEDGSVTVEDNGRGIPVDLHKKEGVSALEVVMTKIGAGGKFDKDSYKVSGGLH
+GVGVSVVNALSVHMKSTVFREGKIYEQEYERGKSLYPVKQIGETEKRGTRQTFYPDNTIF
+TQTTEFSYDTLSARMRELSFLNKGITITFTDKREVNEKGEFRSEVFHSTEGLKEYIRYLD
+GNREPIVSHVISMDHDKGEIPVEVALIYNTSYTENIFSYVNNINTHEGGTHLQGFRSGLT
+RTLKKYADASGMLDKLKFEIAGDDFREGLTAIISVKVAEPQFEGQTKTKLGNREVVSPVS
+QAVGEMLENYLEENPNDARVIIQKVILAAQARHAAKKAREMVQRKTVMGGGGLPGKLSDC
+SEQDPARCEVYLVEGDSAGGTAKQGRDRNFQAILPLRGKILNVEKAMHHKVFENEEIRNI
+FTALGVTVGTAEDSKALNIEKLRYHKVIIMCDADVDGSHISTLILTFFFRFMKELIEEGH
+VYIAAPPLYLVKKGNKKEYAWNDVQRDQANERMGGSAAIQRYKGLGEMNAEQLWETTMDP
+NFRTLRQVTIDSLAEADRVFSMLMGDEVPPRREFIEKNAVYANIDA
+>tr|A0A1S1JAK8|A0A1S1JAK8_9FLAO
+MNKTHFLLILLSLLFISCFKNNKQTESVSGKTNTISVIIDDQLWYGEVGDSIRNKFASPV
+LGLTQEEPIFTINQYPARLLEGFVTDSRSIIVVKKAVADKFEVTHSASLPHNTFRIYGKS
+VDDIICSIELNSAQIIKVIRDTEIKKIQEDNSKSLLNPAIIKNKFHVDLQIPVGYEYMLH
+KKNFIWLKKDIISGNTSLLIYQIPIRSFEKSSNVVDNIIRMRDSVGYYIKGKEPKTRMIT
+GEAYAPYFSTILLDGKKAFETKGTWELKNDFMAGPFINYAIVDEMYNRILVIEGFCYSPS
+NEERDLMLDLEAIIKSVKIDKR
+>tr|A0A1S1JD28|A0A1S1JD28_9FLAO
+MFKLLKRKPRAYSKIENHIFGIITELLKLSSTEINGDELGGKYYLSNEEQHFKVTVLGND
+YVIRLTNTRDSVAEKYDKTFVDDVLKAIKEEKHRRMEEVYDSITNNIEKMAERLHNTLRE
+SNVQENQKVRKLETKDRESKKVN
+>tr|A0A1S1J4Q5|A0A1S1J4Q5_9FLAO
+MNQQEINFDELFHVENKISNQEHFERNKERFSNQCRIVYEALLRGERLTTAGALLKYQIG
+DLRRRIKDLKDIWSVPINWEYKEGKYKEFFLTNNTDIS
+>tr|A0A1S1JAB2|A0A1S1JAB2_9FLAO
+MSRDTQLKERWEKLVDILSNQFSQGEDLDLDAIIYLIGVQELGKVHREFKKDEKLNLMHI
+AICRLLEPYGFYEFDFFDAEGWPHYKVKEELPPLKAGEQSVLMKEAIVNYFLERELIE
+>tr|A0A1S1J7B0|A0A1S1J7B0_9FLAO
+MGKLFLSFILLLLIPNKIQNNITTDIDGNKYTVIKIDKYFISNQNLNVSRFRNGDVIPEA
+KTMQEWRKYGKLKKPAWCYHESNEKNKKKIGKIYNGFAVNDPRGLCPNGFHIPTHKEWKE
+IITFLGGYDNAGLHLKSKNWDGDNSSEFNAVPGGYRSTVNEIDFYPLDYCVLFWGTKVQI
+SKNSNDFIGLMDGDNSVNGEVTAHTSENGMYVRFIKNN
+>tr|A0A1S1JAZ7|A0A1S1JAZ7_9FLAO
+MKIYVIGIGLIGGSMVLDIKDQHPNAAVFGIDSNEKHLQEAIDLGVIDQEGHFEDLSGAD
+FVIVSVPVDVALTVLPKVLDLVGDKTIVFEVGSTKKPICDAVASHPKRRNFIATHPIAGT
+EFSGPSAAIRGLFKGKTNIICEVEKTTFKLQEKALKLFSEIGMRIRYMDPVSHDKHIAYV
+SHLSHISSFMLGKTVMNKEKDEQDIFDMAGSGFESTVRLAKSSPAMWTPIFEQNKEYVLE
+TLEAYISNLSRFRDLLKEEDYSAIFEEMESTNKIKEILNGLTIKK
+>tr|A0A1S1IZZ7|A0A1S1IZZ7_9FLAO
+MENNNEIIVSDFFNMEYDFVEYYVGMAKMVVFWHVKALGFEVIAYAGPETGVLDRCSYYI
+VKNDIKLVITSASQPSSYKIVSFVDLHGNGIKRLAINVDNVKDFFERAMKNGAIPVEHPH
+LTSDENGFVEQASLKMFDDNEIVLINYDNYNGDFLPGYKNVQSEWNFEGEDTGLQKIDHV
+ACALRLNEINLWEKYFNNIFLSKTVVEFDERKVKGEKKIGMLLKVLQSGNKSINNVLVEP
+EHGVKNQVQLFIDQNYGTGIQHIAFESNNIIKSVKALRESGVKFTRYPDSYYEKLASKYP
+ELDVEPLKKHGILCDVLEGALLFQIFTTPIGDRATFFYEIVQRVNDYQGFGLDNIYALFE
+AMEEELTLSNKI
+>tr|A0A1S1J2E4|A0A1S1J2E4_9FLAO
+MQITEPLEFGKYYHIYNRGINNENLFKENRNHVHFLNLYNKHIEPIAETFAWCLLKNHFH
+LLVRIKTFEEILHTHEDYEIKRIIAPHQSFGNLFNAYTKAINKGYNRHGALFERAFKRKL
+IDNETYLQTVIKYIHYNPVNHGFCQHPIEYPWSSYQTCISEKPTKLKREKVISLFQDIEG
+LKSSHQQKENFTSLEDFLNS
+>tr|A0A1S1J3X7|A0A1S1J3X7_9FLAO
+MKYKVIIAGLIISGLLTSCQDFGEEYFDTPAQSTLDEQLIFSTAGLAQGAVDGIKVSFGE
+EQSYRGRLLAYQGLNTDTEWLLTSSSDNVKSDLVVYDAKSDNTEMNSPKNAWAMMYEGIE
+RANLCIRGLRKYGNPLPNTEMGQLLGEALTLRAIYYADLIRNWGDVPARFEPVSTSTIYV
+SKTSRDEIYKQLIADLGEASTLVAWPNETAATTSTERINKAFVKGLRARLALMSSGFQQY
+PDGVRRSTDPALSVGTMYKLALDECRSVIASGSAHLEPTFEGLWRKYNQESTTAGGESLW
+EIPFAATRGRVLFTFAVRHDASDQFQQMGTNKGGVNGPLPFVFYDYDQADSRRDVTCVPY
+KWGAAVNGKSKQELTDLQTWYFGKYRFEWMNRIVSAPNDDGVNKIYMRYAEVLLMAAETA
+NELEGPGSAAVYLKEIRRRAFASQNQAVKVDAYVDGLTSKQAMLNGIIEENKYEFTGEME
+RKFALIRWNLLKTKLDEAKVKMARLKARSDEYANVPSTLYYKYKADNTTLEIYGLNRGET
+QAQGTDYTSKSWDKLDDNKITTLYKAGVNPDKRQFWPIWQTFIDGSNGQLANDWVFGN
+>tr|A0A1S1J430|A0A1S1J430_9FLAO
+MEINSKIEKAKKGDQIAFTFLLDYFWNEVYSFMLKRTENETIAEDITIETFSKAFDKIAS
+YNSEFQFNTWLIAIAKNVYIDLLRKKKTSLFIEITDNEDQQAYNIADPTPSAEDALIKEQ
+NLSRLLQCIKELKPHYQEVIQLRYFQEMTYQEIALKINEPLSNVKVKLLRAKKLLAEIIE
+RNR
+>tr|A0A1S1J4P1|A0A1S1J4P1_9FLAO
+MKYRCIIIDDEPLARELIASHLVNFQNFELIDSFENALNAYTFLETNTVDLIFLDIEMPL
+LKGNEFLKKLKNPPKVIFTTAYREYAIEGYELNVIDYLLKPITFDRFFVSIEKFKQVQPL
+KKETKSDSENHVFVTSGSRNIKIVFDEILFIESLKDYITIHLENGKSHHIKQNISVFEKQ
+LDSNFVRVHRSYIIQIKKLTAYSKNEVEINTVAIPIGNSYKENWLHHLDTALLK
+>tr|A0A1S1J528|A0A1S1J528_9FLAO
+MARKTTTRRASYSRKSKPQRSILASGLRFIIYSFLVLLFFATVYHYRDGLAYYLGFKSNK
+VLEEDAVEKHLSDVRNVQVLENHKGKVIGIDVSEFQGTVHWSDVEVLEEKYPVQFVFIRA
+TAGNNKVDRQFMHNWLGAKKHKIIRGAYHYYRPNENSIEQADLFIKTVKLQKGDLPPVLD
+IERLPKNQSLDSLKKGLKRWLNKVEAHYQVRPIIYTGERYYGDFLKEEFGEYLFWIANYN
+FYREKIEEDWLFWQFTEKATLPGIKRTVDVNIYNGDLEQLQFITVE
+>tr|A0A1S1J5Y8|A0A1S1J5Y8_9FLAO
+MKNIITSIVLAFSVYGYSQTEKGRDSIVETSINALDEIVITKKKVLYTQKSDRLVFNVEN
+SIVSEGGTALDVLSRAPGVVVSQDGELSIRGQQGVGVMINGKLTQLSQKELANYLKSTTS
+SNIKQIEVITNPSSKYDATGKAGIINIILKKPNAGGLKGTVFTNYGRARKNRTNSGVNLS
+YNKDKFGVYGNYSYTFRGEEERKEFDQIQYTDNTRQTISTKNHQTSVTDEPLTSNNFKIG
+TTYEVSPKTNLEVYVDAKLGRYENIANGRNTLLNTSNQVQFDALTFNDSKEKWNDYTYGF
+SGVHKFNTEGKNMSFDLEYETSKFRSNQFQSAKNTDPAIAANINDRRGFIPSQLSVFTGK
+IDFVNPLKEKQSIEWGAKASVKNNDNPSVYEYYDNNQWIVDPNSTNHFEYKEQIYAAYAN
+YKYQLENLNIQGGLRTEYTAIEILQKTLNETHKDDYLKWFPSVSLKYELSNDHSLHASYS
+KRINRPSQFDLNPFRFYDDSFNYSQGNPNLVPEITHSSEIGYAWKSAFMASLYFSKTKDV
+FTEVYDYNPANNTTVTSQINVSKSFNYGANITNTAEIYKWWSVNTLFNIFENKFMGNVVN
+TDKIDPIVTLNLSVQNSFTISESLKAEVNAQYQSKSNLGIYERDAFFDFSIGISKQVLAK
+KGSIKFNITDIFNTNNFHINSVIAQTSINKRYDLDNRIATIAFTYRI
+>tr|A0A1S1J635|A0A1S1J635_9FLAO
+MRHQYVTDWTTKMGWIGVDLFFVLSGFLVSGLLFKEYLKFGNIKPGLFLVRRGFKIYPIY
+YLTYFLYLTPKIIKHQFEWKGFLSDMFFIQNYVYAWGYAYTPSWSLAVEEHFYFGFALLL
+WFVTKYAWISLKPNQASKVDKFEVLIFLMILLSLCLRIVSNVYFPENGDKNFTMSHLRMD
+SLFAGVFVSYLYYFKNEKLRLFFESNRILLIIISFLALTFTPFIDFEESFFVRTFGYSLL
+YIAFSIILVFFLVSTEINKKLDSLFSNRIVNIISKIGFSSYSIYIIHGFINFFFALVNNF
+ILNKFFNQISIFFLTCIISVLCGIFMTLNIEKYFLNYRDKYFPSRIN
+>tr|A0A1S1J7A5|A0A1S1J7A5_9FLAO
+MILPIVGYGDPVLRKVGEAITPDYPNLKETIANMYETMYNALGVGLAAPQVGVPIRLFVI
+DTTPFSDDEDLSSSEQEDLKGFKKTFINAKILKEEGEEWSFNEGCLSIPDVREDVYRKPT
+VTIEYCEEDFVMKTEVFDGLVARVIQHEYDHIEGVLFTDKISSLKKRLIQKKLKNITEGK
+TFQEYRMKFFAAKKGR
+>tr|A0A1S1JC50|A0A1S1JC50_9FLAO
+MTFASAFTSQSTESTPVSVSKNVYELKALFKAIESQTDFSLLYSDEVAKLKTQVPFSSGT
+QTIAALLKEAAVKFKVAYQINDGLITFKMNNPAKGKKAVNVAKQIKISGTVTDNLGKPIP
+GATILIEGTSVGVQTDLDGKYSIEAGEGEILVFVYMGFKTVKQKVEKDRTINITLEEEAE
+ALNELVITALGIKREEKALGYAVQKVDGSSVQTVKGVDVATSLTGKVSGLLVKNSTEFAE
+SPTVEIRGESALLVIDGVPYGNMTLRDIPADDIESLSVLKGATASALYGYRGASGAIVVT
+TKKGSSKKGLTVSLNSSTMFTAGYLAIPETQTTFGRQIDATTNMYKGTGSWGVPMEGQEV
+VQWDPVSKSYKSMPYLPVGKDNFKNFLDQGYILNNNLSVTQQGEFGNLRSSATWVSNKGQ
+YPNSQYDKYTYALGGDISVDKFKLSSSISINKQSSPNIGFNGYKGYDPMYNILVWSSPDY
+DIRKYKDYWLVKNESQNNSYTGTNNNPYFDRFERLHSLDRNVFNGFVSASYEIAPWLNAT
+VRTGFDTYNNKQTVRVSKGSLVGAGVSTVILNGTEIWGESLKGSYNEGLGSGYSSNTDFI
+LNGNKKINDFDIDGLFGGTIYYTQDEGIEARSQGGLSVPGFYSLKASVTNAVVNSSVYKR
+QVNSFYGRLAGSWKGMAFLEGTLRKDWSSTLPESTRSYLYPSVSGSFLVSEVLPKFDWLT
+LWKLRGSWTSSKTPAGVYDINSVYNITTNSWGGLNSASYPDVIRGNEVRPESASTWEMGT
+AANLFKKRLSFDFTYYSKRMYDFLTATNVSSASGFSSNYINIDQEITRRGVELTLNFTPI
+KTSDWQWDVMANWSKYARYYTKLDKEFSADRPWVKVGNRVDAFVLNDFQKSVNGAVIYEN
+GLPVYSPYESVYGYGDPDWIWGLTSSLCYKNFTLNISVDGRVGGLAQTTTEMYMWQSGNH
+PDSVNDIRYKDITTGTSNYVGDGVKVISGAVTYNAYGNITSDTRQYASNDVPVTYENYVK
+RIHKGTAWGGNSSPADTYSTTFLKLREVSLTYSVPKSVYSFIKAKNATVSAIGQNLFLWA
+KDFKYSDPDGGVDNFSDPSQRFVGCNIKLEF
+>tr|A0A1S1J2J7|A0A1S1J2J7_9FLAO
+MKKKLLILLCLISLSAFAQTTLIPDQNFEQKLISLGLDTVLDGKVLTSNISSVTSLDVSS
+SSIKSLRGLHAFTNLETLNCSNNELTGLDLSLSRKLSTLICHSNKIQSLDFKQNPLLRNL
+DCQSNLINYLDISKNEYLTQLYCSKNKLTSLNITKNFNLQGLYCSDNVLYTLNLTNNNVL
+VNLVCNNNRLKSLDLSKNTLLVDLYCENNRITSLDVTRQNKLRNVNLNSNELINLNLKNG
+NNQLLNTNNLSFLRNPQLACIQVDNTLFSNTNWQDVKDLAASYSVDCPLYTFIPDSNFEN
+TLIALGIDSGTPDRKVLTSNISSVTTLDLGVNTTIEDLTGIQDFTALQTLICHGNTGEVI
+NGGNGKLKILDISKNVNLTTLDCSYNQLINLDVTKNPLLVSLKCNVNRFDKIDVTKNVNL
+DYLDVSSNSIFQLDVSKIPTLRYLRADNTKLTYLDISSNPNMVGLFCNNSDLRSLNLKNG
+NNQLISAQDINFKGNPNLNCIQVDNAVNATTNWSAAKDAATNYSTECVNDSFTLIPDSNF
+ENALITLGIDAGVPDGKILTSKVSSVTKLDLGTNTTITDLTGIQDFKALEWLVCQGNTGR
+AGDGGNGKLKTLDVSKNTNLTILECSFNQLTNLDVTHNPLLRSLRCSVNKLTAIDVSQNT
+KLDDLDVGSNQITTLDVSKIPTLRFLTAESTKLTTLDLSSNPALVGLFCRSSDLTSLNLR
+NGKNQLIVPQSITFTGNPNLTCIQVDDAAFSTANWSAAKDASAIYSNQCQTGPYTLIPDS
+NFESALISLGIDSGVPDGKVLTSNVSSVTKLDLGTNATITDLTGIQDFTALQRLICHGNF
+GHMDTGGNGKLTTIDVTRNTKLIALDISYNKITALDVSKNPLLISLKCSVNKLTKIDVSQ
+NIKLDNLDISNNYITQLDISKIPTLRYLSADYTKLTALDISSNPVMVGLFCNNSTLTSLN
+LKNGQNQLIAAQSINFKENPNLTCIQVDNAVNSTANWSAAKDASANYSNECQTGPYTLIP
+DSNFENALISLGIDSGVPDGKVLTSNVSSVTKLDLGTNATITDLTGIQDFTALQWLICHG
+NFGHMDTGGNGKLTTIDVSKNTKLTVLDVSFNKITNLDVTNNPLLISLSCNVNKLTAINV
+SKNTKLDNLNISNNHITQLDISKIPTLRYLSAHYTKLTALDISSNPVMVGLFCNNSTLTS
+LNLKNGRNQLIAAQSIDFKENPYLTCIQVDNAVNSTANWSAAKDASANYSNECQTVLYTL
+IPDSNFEKKLIQLGIDSGTPDGRVLTSSVKTVMSLDVSLSNITDLTGLEDFTSLTSLKCQ
+ANYTLKALDVTKNIHLTTLDCSNNYLITTLDVSKNTALVDLNCYYNKLSTLDVSANTNLT
+TLQCSSNKLTNLNVSNNKALTKLDLGYNLVSNLDVSQNTKLTSLTCTSNQISNLNISLNT
+KLTELWAGNNKYDVLDVSNNTALTSLICNTNQLTSIDISKNTALTRLLVYQNKITSIDIS
+NNPLLSSFDCNSNLITNLNVSKNIDLNFLYCDNNKLTVLDVSANTKLGTFDCANNLLTNL
+DVSNNKNLRSLECESNKLVNLNLKNGNNYRFDPFPGSDPNFILYRIDFRNNPDLTCIQVD
+DAYYSNEKWSTRKDPKAKFSEDCNNSTLITDSNFEDFLIAAGIDTDGKNGKVATSSIANI
+KVLDISNSNISDLKGIENFTALEKFICKGNLITTVDMSNNTQLNYLDVSNNPLTSVNVSK
+NKLLKEFYCNGIQIILKKSTSTSSRLTTLDVSNNTLLTNLNCSNNQLSSLDLSKNTNLTE
+VNCSNNLLTDLNLQSGNNGILVNLNLKNNTQLTCIKVDNPSSSTATWTDAKDEIAKYSAT
+CRTLETNEQVFNNINIYPNPSHGELYITNVSVTKATIYDSLGKLVKVVSLKGDTQENYID
+LKGIAQGVYYIFIENPEAHTVKKIIIK
+>tr|A0A1S1J723|A0A1S1J723_9FLAO
+MKKITVIAFVLCIGIITSNAQVKVSPGLRGGLNISDLSNMPENSSSKSDFYVGALMAIKF
+NKYFTLQPELNYSRQGSEIRLSYLDFDNNTSRRRSQKAEINYLTLGAVAKFNFKGKGFHV
+LAGPSIDFRTNDNFDKFGENPVDVDFAIVGGVGYTLPNGLTFEARLKQGLVDIYGYDGYD
+YDNENRRYYDDITLNQVFQIGISYTFKVK
+>tr|A0A1S1JAH8|A0A1S1JAH8_9FLAO
+MKLVLSLFLWVHFVSTPDLSSIRKMYADVTKSEANAKEFSEKLSGISADDDKILVAYKAA
+SILLDSKFKNRLKDKMDRFKEGAKLLEATIKNDPNNIEMRMIRLSIQENVPGITGYRKNI
+KEDKKFLTDHYAEQSAALKEYLKNFVLQSKSFSEKEKQFVK
+>tr|A0A1S1JFR9|A0A1S1JFR9_9FLAO
+MFVRIVKMSFHEEKIPDFLENFESVKNKIREANGNRFLELYQDKNNKCIFFTYSYWETEE
+DLENYRQSELFNTVWNFTKKLFNAKPEAWSVDKLLSLN
+>tr|A0A1S1J8Z1|A0A1S1J8Z1_9FLAO
+MTNLTKVGLVVAVFLTTIFTYAFDGKGDYILNIKTGNGKVVSFTLNSIEKSVFTIYDENN
+NLVYTGETASNQLETSKTLSLEAYPAGTYILEVKENGKVAKHEITVSAKKLKTVKMDESV
+NKSPAFRR
+>tr|A0A1S1JAL2|A0A1S1JAL2_9FLAO
+MKKHLYDLLTIVLLCLLIFSCSPENDYTSIEKQESALLIRSKEWLSSKHIISEKDVLWNS
+ATLYQQSTETSFVAIIPVKSSNSFLLQKIILEINDYNITGKLWSFDFKDSQEIEDLQKIA
+THKILESFTGEVRITNLETMETRKDSYKQGIANGNNLFSKSSGAGVCNNCHGDEGAIKLN
+EVVVTGPGGNPWPNPITNPVNPPIVPIGGGSSGGSANWNRVEQIKDNNLDPCGKSALEKL
+KNLKQNDITKMLQRFGGPISPYDVTMQKGPVLGGPSVFGQTIKLSDNNYQITINQDYLNG
+VIDSEPNSPPTDLSVATTLIHEIIHAYFLSIIDQQKSTGNSSLSDFPTLFEAYVRSTNPG
+SPSNDMADAHHAEIANRYVDIMASALQEFNTGTPVASGAAQQMYKDLAWSSLQGTPIYNA
+KLSAADKDRIAQRKTVEARNKSRGNQNPQGKPCN
+>tr|A0A1S1J2B6|A0A1S1J2B6_9FLAO
+MRKKIVAGNWKMHKNAAQTEELLNELIAKIPAQTTAQVIVAPTFVNLQAAAAKLKNTTIG
+VAAQNVHQAEGGAFTGEISADMLTSVGVNTVILGHSERRAIFHETDALIANKVDTALKHD
+MTVIFCFGEELKDRQSDNHFNIVENQLRDGLFQIAKESWSKIVLAYEPVWAIGTGETASP
+EQAQEMHEFIREVVRKAFGAAIADEVSILYGGSVKPENAKEIFSKPDVDGGLIGGAALKA
+DDFLAIVTAI
+>tr|A0A1S1J0E5|A0A1S1J0E5_9FLAO
+MIYKIYPLLVFLLLSFGKDSNNTSEVKKAAVKTIAKIETFTVDSKIESIYNTLNPNHFSL
+PELRTFSEALKGFYFLKERGVIQKDILTLIDFSLSSNTKRLWVIDLATNTVLFNSLVAHG
+RNTGEEFASNFSNANSSFKSSLGFYATGEVYKGKHGVSLRLDGLENGVNDNARERGVVMH
+GADYVSESFIRNNKRLGRSQGCPAIPMGLTNEIIEIIKDKSLLYIYHPSRSFAMEERLIS
+>tr|A0A1S1J9B1|A0A1S1J9B1_9FLAO
+MKVTIDGQSIDVEPGTTILQAARMIGGDLVPPAMCYYSKLKGSGGKCRCCLVEVSKGSEA
+DPRPMPKLMASCVTGCMDGMEVNSKSSDRVTEARKSVTEFLLINHPLDCPICDQAGECDL
+QNLSFEHGNPKSRFIEEKRTFEPEDIGPNIQLHMNRCILCQRCVQVADQLTDNRVHGVLD
+RGDHANISTGISKAIDNEFSGNMIDVCPVGALTDKTFRFKSRVWFNKPFNAHRECTTPGC
+CGKTTVWMFGGEIQRVTGRKDEYHEVEEFICNSCRFDHKNVSDWVIEGPREFEKDSVINQ
+NNYTQKLEKVEIDTEKNILLGRDIDRKKISMAAIPLTTNDKKS
+>tr|A0A1S1J1B3|A0A1S1J1B3_9FLAO
+MNPIKTKVCSSCESSFSCGDTSNENKCWCNDFPPIFNLSEGGDCLCPVCFKEACEDKIDA
+YVETLTPQKALKNKAISLPKQEKLIEGIDYYLEDGNYVFKAWFHLKRGSCCGNECRHCPY
+>tr|A0A1S1J2N7|A0A1S1J2N7_9FLAO
+MIRITIIGSGNVAQHLIKAFSKSETVEIVQVFSRKKEALASLVSFEKITDSFDSLLEADL
+YIIAVSDNAISEVSKQLPFQNRLVVHTSGAAPIETLDIKNRRGVFYPLQTFSKNATIDFS
+AIPVCLEAENTFDFRVLEKVAKSISQSVYPINSDQRKALHVAAVFVNNFTNHLYQIGQEI
+CKEHQVPFDVLKPLIQETAQKINTLDPIDVQTGPAKRKDSTTIEAHLEYLNQENQKNIYK
+ILTQSIQNNGKKL
+>tr|A0A1S1J3F9|A0A1S1J3F9_9FLAO
+MKTIKLAIAGLFLLVANATQAQVSINVNIGTPPAWGPAGYEEMEYYYLPDIEAYYDVRAS
+QFLYFGGGRWVRTTYLPRQYRNYDLYGGYKVVLNDYHGRTPYVYFDRHKVKYYRGYHGAP
+QRCYKPRPRYGYDDRHYDKKRYEKRHKHDRDDDDDDDDHDGHYGRRRG
+>tr|A0A1S1J484|A0A1S1J484_9FLAO
+MKAFKILIMILAISVALYEQVSAEKNIYIMVIAIAVFMYGMMQLSAKTPSKNQDKEEQDV
+D
+>tr|A0A1S1J4G3|A0A1S1J4G3_9FLAO
+MSKRTFQPSKRKRRNKHGFMDRMASANGRKVLARRRAKGRHKLTVSSEPRHKK
+>tr|A0A1S1J4K0|A0A1S1J4K0_9FLAO
+MKKSILLVLLAVSSLFSCKDEHSNLPDGLYADIETNKGHIIVELDYKKAPVTVANFVTLA
+EGKSEFVTKDYLKGKPFYDGLKFHRVIENFMIQTGDPEGTGSGDAGYRFKDEITDLKFDK
+AGVLAMANNGPATNSSQFFITHVETPWLDGKHTIFGHVVEKGQEVVNQIKQDDKIVSVKI
+IRNGEAAKKFDAIKVFHDYFSEIAKEKGKYAGVQKEKVAYLASIKPKATKTNSGLEFVIT
+EKGTGKKPATGAQLYINYSGFLEDGTLFDSSVEEVNKAFGKFDAARAEAHGYQPIPFQAG
+RKDGMIPGFIEGIEQLSFGDKAVLFIPAHLAYGATGAGGVIPPNANIIFEIQLLEKPQ
+>tr|A0A1S1J6F2|A0A1S1J6F2_9FLAO
+MNAIKIDTPLQYPIAITEFKSAAPSENCVIIASATGVKQNYYYNFATYLSENHYSVFTFD
+YGGIGDSKSAPLSKFKTTASDWAKNDFETVVQYVKEKNPHSKLFVITHSIGGQLIGLVPS
+NNLFDGIVMVASQSGSWIHWKGFDRLKMQFLWYAIIPSFTKIFNYLPSSHFTRMEDLPKG
+MAVEWAKWCKKPNYHFDCIENAKEHYDKINCSIKSYSIDNDFYATVSAIDWIASKFKKSE
+VRRIHLKAEEFGVKDIGHFGFFRSQFKDTIWPIFLEDLKRFQS
+>tr|A0A1S1J729|A0A1S1J729_9FLAO
+MNENSKPYALVTGASKGIGKSIVYELAKQGYPLLLVARGEDELKALSDDLQVKYGINAPI
+LSIDLSLAGASLTVTNWIKMNNYPVGVLVNNAGYGVWGNFSESSLTDQLGMMQLNMNVIV
+ELSHLLVPILSQEKQAYILNISSTAAYQAVPTLAVYSATKAFVLSFTRALRFELGKSSIS
+VTCFSPGPVDTGFAARAGLNPFNKMAEKFNMQPDEVAKMAVKAMFSKKSEVIPGFTNIIS
+VYANRLLPKGFIEKTAAGIYKI
+>tr|A0A1S1J7S1|A0A1S1J7S1_9FLAO
+MKKITSLAPGRTCLFGDHQDYLGLPVIACAIDRNIQLIAEQNLTQTFVLNMIDINETRTI
+DIDATFDKLEPRDYFASSLRVLRRYGCVPNVGYDITITGDIPINSGTSSSSALLMAWIRF
+LIDAYGIDREVTPEFISKLGYESEVLEHGEPGGMMDHFSIGVGNIVYINTKDPFSYKVIG
+TSLKGLITGVSGVPKETIGLLGELKGNALISIDIVKQNFPDFDLHASKIEDLDRYRSCLP
+DRLIPFFEAALKNYHYTKEALKEFEKPVLDLKKIGGLMNQHHEVLRDLLKITVPRIDAMV
+NAALRAGAYGAKIVGSGGGGSIVVIANPEKEDLVIEAILEAGAQEAYAVAVDPGVRVIEN
+VEI
+>tr|A0A1S1J7S7|A0A1S1J7S7_9FLAO
+MSTTKIQLNTIEEAIEDIRQGKVIIVVDDEDRENEGDFLAAAEKVTPEMINFMATHGRGL
+ICAPLTESRCKELDLRPMVTNNTDHMETAFTVSVDLKGHGVTTGISAADRSKTVIALTDS
+NVKPHELARPGHIFPLVAKQGGVLRRTGHTEAAIDFARLAGFKPAGVICEILNEDGTMSR
+LPELAKVAKKFNLKLVSIEDLVAYRMQHDSLIVKKEDFDIETRFGTFRLRAYEQTTNKQI
+HIALTKGTWNLGEAILTRINSSQVNNDLLGTLTNNAEQQLDDMFKVINENGKGAVLFINQ
+DMTAVNLLNRISELKTLQAGGTMKAPKVIIDSKDYGIGAQILHDIDISKIRLVSNTEQTK
+RVGMIGYGLEITEYVSY
+>tr|A0A1S1JCA7|A0A1S1JCA7_9FLAO
+MIEIKDLHKSYKMGSSELHVLKGINFNIEEGELVAIMGSSGSGKSTLLNILGILDEADSG
+SYILDKTPIKKLNETIASKYRNKFLGFVFQSFNLINYKTALDNVAMPLYYQGIKRKERYD
+IAMKYLEKVGLGSHSHHLPNELSGGQKQRVAIARALASNPKVLLADEPTGALDTKTSYEV
+MELIQGINDEGKTILIVTHEPDIAAMCKRNVVLKDGLIIDDKKVEQVRASSYV
+>tr|A0A1S1J186|A0A1S1J186_9FLAO
+MINIGIIGGSGYTAGELIRILMYHPKVNIDFVYSTTNSGKPLSVAHQDLIGDIEMNFTDV
+VNPNVNVVFLCLGHGKSISFLKENQFASHTKIIDLGNDFRLNKDAHFEGKDFVYGLPELN
+KSAIKKANYIANPGCFATAIQLALLPLANSDLLLNDVHINATTGSTGAGVGLSETSHFSW
+RNNNMSHYKAFEHQHLGEIGESLVQLQDDFESELLFIPNRGDFPRGIFATLYTISDESLE
+QTVTRYEEFYKNEPFVTITTTNINMKQVVQTNKCIISLMKKGNRILITSIIDNLTKGASG
+QAIQNMNLMFGLEETTGLKLKPSGF
+>tr|A0A1S1J2E2|A0A1S1J2E2_9FLAO
+MKSKPFKLAFTALAAILFLAGCSNDKDNTTVTPEAKKEIALSTSTTLGSYLSDKDGKSLY
+FFATDAKGQASCTGGCEAVWPPFYVDNLTAEKLSSGLTLTDFASITTTSGKKQLTYKGWP
+LYYYAPSVNGTNTPETAGQTTGDGVGGVWFIAKPDYSIMLVRSQLLGHDGKNYKSDYTVG
+DGLTTYFTDAKGLTLYTFKNDNFKKNNFTKADFSNNAVWPIYETDKIVVPSTLDKSKFSV
+ITVFGKSQLVYNGWPLYYFGQDTNVRGANKGISFPSPAVWPVPVKDSPPAI
+>tr|A0A1S1J3V0|A0A1S1J3V0_9FLAO
+MIEIDKIALIKVENGQILSTKSRGKNKYYIPGGKREDNETDEQTLIREIQEELSVEILPE
+SIEYVGTFKAQSDGHADGITVKMTCYKADYTGTPKESNEIAEIKWLNYKDLDIISEVDKI
+IFTHLKENGWIN
+>tr|A0A1S1J4B1|A0A1S1J4B1_9FLAO
+MKKIALLLILFNTAFLFAQKEISGVVRDKSGNPLPGVNILEKGTTNGVSTNFEGGYLIKV
+KEGAILIFSYVGYANVEKSSSNSKTDVTLDENGGQVLNDVVIVGSRNTKRTVVNSAVPID
+VISVKDVTTQSGKIEINQLLQYVAPSFNANKQSGSDGADHVDPASLRGLGPDQTLVLING
+KRRHQSSLINLFGTRGRGNTGTDLNAIPATAIKRIEILRDGAAAQYGSDAIAGVINIVLN
+DNVDELTGSVTYGAFNTNAKGDFLDGTPNTKNFRLDQNGNGNTYGKNQSFDGGSVKVAAN
+YGVAIGDKGGSANFTTEYINKNKTLRPAYDFRKGFGDASIQGFNLFGNLSLPVSEKTQFY
+AFGGRNYRDTDAYAFTRNGGERVVESVYPGGYTPRITSNIIDNSLAAGFRTKTASGWNID
+LSNTYGKNLFHYYIKGTINASLEGKSPTEFDAGGHSLTQNTTNFDFSKNYDSVLSGLNLA
+FGAEYRTEKFTIFSGEEGSYATYDTNGRPITDPTTQSAPTIPNPDYDPTDPTSSPTISRP
+GGSQGFPGYSPSNTVDKSRTNLSLYTDAELDITESFLLSGAVRFENYSDFGSTLNGKLAA
+RVKAGQHINFRGSVSTGFRAPSLAQIYYNLRFTNFNAGGATEVLLAPNNSPVTKAFGIQK
+LNEEKAVNASLGFTATFGDFTATVDGYYIKVKDRIVLTGYFDAKPLNLGVDKAQFFVNGV
+DTSTHGLDIVLAWKKKFGESFFSATLVGNINDMKIDNVKNGTLDEGTFFGKREKAFLLSS
+APDNKFGLNLNYAKNKFDAGIAFTRFSKVVLVDYTDENDVYNPRLITDLTVGYQLTKNLK
+LSIGSNNLFNVYPTKQDETGNTEAGGYWDAVQMGFSGAYYYARLGFNF
+>tr|A0A1S1J778|A0A1S1J778_9FLAO
+MYTLKEAEQPSQYYQDRILGKAINKKTSESLAITDLKIEELTEQNFDVICYAKCSYSVGF
+FRNIRSATKELGLPAPSQVLENSLQQ
+>tr|A0A1S1J9H2|A0A1S1J9H2_9FLAO
+MELNYGVQSDIDGNYILELEPGEYTIEISAISFQTQKITGVKITEGGETPLVVSLKEAAQ
+SLKEVVIVQNYKQATASIQGLLLQQKKAAQFSDGISAEQIARTPDRDVASSLKRITGVTT
+IDNKYVVVRSMGERWNQAVMDGITLPSTDAYQQNFSFDIIPTSMVESIVVSKSATPDMYA
+NFAGGYVEIKTKDIPKENFNSFSISTSYNSRSTFKERLTKQEGAYDYLGFDDGRRDYPTN
+LTALPIPTNEADSGLFIEQSKRFTADNFTTYKTYAAPGTTLQYAMGRAYKLKDNNKWGFV
+GSLFFKNTQDKLDIEHTQRASNADNSLFVPETDKALYSTFTKYGFRNSGANYTFNSTLAG
+MFNAGIQFGNHKITARNTVMHIYNNQLTQVTGWSDSDAISEIMNGSILPSTSETDYPVYQ
+TLLQSKLEGSHKFGKLDINWFGAYNTVSKDTKDATFLDTYRKKVGDDTLLYHYVYNSETR
+FPFSRSNFTNDETDYNFAINFKYSFDFSDTYTNDIKAGYFGTYKKATNQQESAKVVVMGT
+GADKAEIYEPLSKFLDGSRYHYGGFGWQDYGVYGNRYVGDVKVHSPFLMLDDKIGRYIRL
+VWGVRAESYLYTEIESQSEAAGDFGKDQKDDKLWQFLPSASLVVSPTNKLNIRLGYNKSV
+LRPQFAERLSIPYYDPIQSAKIYNYSGGMISSVSNNYDLKLEWFPSGGEILSFGVYHKNI
+DDPMESVGSLNPSRIRNIYNLNSANAKLWGVEVELYKSLSFLGEGEALKDIFISGNASIN
+RTKVTSYVAIDGTGGLYEANRPLYGQSPYTYNLGLDYVGDRLGFSVRHNAIGDQYILVGF
+DYQSEEIRMPYSITDAQISYKFFKEKNLEFKCSMKNLFDAAIKTYDNSNSYSHIENVPVG
+SNPRDRYSLGANATNKYDEDIDKVLFKAKSGRTISVSLSYSF
+>tr|A0A1S1J1X9|A0A1S1J1X9_9FLAO
+MNYISIQDIDSLSKWVKSALKIKKNPLKNQSLGKNKTLGMLFFNPSLRTRLSTQKAAMNL
+GMNVMVMNFTNEGWTLEFEDGAIMDSGASEHIKEAAEVVSQYCDIIAIRAFAGLADKEKD
+YAETVISGFLKHATVPVVNMESAVRHPMQSLADAITMEEYKTKHKPKVVLSWAPHPKALP
+QAVANSFVEMMQMQKDMDFVITHPEGYELSPEITKDCKIEYDQNKAFENADFVYVKNWSN
+FNDYGKVTNTDPNWTVTAEKMALTNNGKFMHCLPVRRNVIVSDEVLDGKNSIVIQQANNR
+TYSAQLVLQKILKKL
+>tr|A0A1S1J592|A0A1S1J592_9FLAO
+MFLEQGIKPHNKFWLYLLGSVLIIIASFIGQIPFSLAVFYKSWISGKGFPSNDAAVMKMF
+EPNLTLFLVMISFAFAFVGIYYVVKYMHRQTLLSVTTSRAEVDWRRVAFSFLLWSLFSVL
+SFVVLYFSSPESFVWNFKLVPFLILVIIGTVLIPIQTSTEEYVFRGYLMQGFANLARNRW
+FPLLMTSVIFGSMHVFNPEVVKMGYIVMVYYIGTGLFLGVITLMDEGMELALGFHAANNL
+VGALLVTSDWSVFQTHSLFIDISEPSAGVDVLLPVAVVYPVLLFIFSKKYNWNNWKEKLT
+GEINVVESLN
+>tr|A0A1S1JAM1|A0A1S1JAM1_9FLAO
+MKKLILSAAIVLVSLSMQAGNGTMTGLLVKTVSVQDEYKEVDAVPAAIKTALDNAYPGVK
+LDKAYVNAKKEYKIEITVRGEKSTVYTDASGNILKK
+>tr|A0A1S1JAZ6|A0A1S1JAZ6_9FLAO
+MKTMKNWLLTGLLFMIVSTAFSQGKISGMITDGVGSLPGANVVIKGSTVATSTDFDGKFT
+LNATTSTGEIVISFLGYENLTLRFSVRNGETTNLGTIVLTSNSNELSEIVVKSTIVDIAK
+DRKTPVAVSTIKAAEIQEKLGTQEFPEILRNTPSVYATKAGGGFGDSRINIRGFNQNNIA
+VMINGMPVNDMENGSVYWSNWSGLSEVASAIQVQRGLGASKLVTPSVGGTINIVTKASDR
+KEGGSFSSGFGNGRNFKIQGSYSTGKLDNGLSASILLSQTMGDGYVNGTQFEGSNYYVAL
+GYGSKSGKHDFQVTVTGAPQWHNQRSTVPTIATYQKYGINGDPNIRYNADTGYLNGEEYN
+IRKNYYHKPVASFNWDYKINETTKLSTVLYASMGRGAGAGATGGVGGNTYNSAVFLTADG
+LVDYNKIQAWNNGTGQVFFNGANRTRTQIGGVYQNSSSTGRTGAGTTASPYVYNTTSGIS
+QTSSINSHDWFGAVINLNKKLSNTLTLDFGLDGRTYTGYHFTVVNDRLGGGEFFDNNIAS
+LKPTGRRIATTASTNVQWNVFDKRNYDKISFNSTGKVKWYGVFTQLEYSKDNLTAFVQGA
+VSQQGFKREDDFVYLPTDPLTSTPYKNILGGNVKGGANYNLSEKSNVYVNAGYYSRQPFF
+NSVYPNNRSTVNPNLTNEKIIGFEAGYGFRSRFFNATVNVYNTTWNDRYLKGNALPTDPN
+TYTEYLGLNEVHSGVEVEASSNITDRLKVTGMVSYGIWEYKGNATVNAYNQADNSPVAGY
+VATPVYMDKVKVGDAAQMTASLGAAYEVLTRVTLDANYNFNDKLYAGLSPINFADPNNKG
+ALQLPSYGLLDAGFSYKMLTGKNKDKSVNFRLNVNNVLDKTYIAESRTNTFADDNLPVAT
+GQPAGSKGTYASNGMLYNGVANVNQVFFGFGRTWNFSLRYDF
+>tr|A0A1S1JFI9|A0A1S1JFI9_9FLAO
+MNVLTLPDELNLDQSRLINVYDYTSSKRISKQQIILNQNVFSFLIEGTKEVVFDNSAVSI
+DASKFLIMKSGHCLMTEKLSDSSNYRSVVLFFSNEILLRFIRKMEWRKEEAEECKSVRAF
+EYDVFLKRFVDSLVDISKLSIEIKSKLLEIKFEELMLYLMGMYGTEFLYSLTVNSDDSSQ
+KFFQIIESSHLSKLSLKELSFLCNMSVSTFKREFEKHYSESPIKWFQHKRLEFAHYLLHQ
+EQKSASEVYFEAGYESLSSFTQAYKSKYGVTPKQAQKK
+>tr|A0A1S1JAE2|A0A1S1JAE2_9FLAO
+MKIENYIAQLLYRYQCVTVPGFGAFLTEIQSAKLNESTNSFFPPTKMISFNGYLKNNDGL
+LANHIAQAEKTSYGFAVSAIAFEVVSWKKTLEENGVVTLKNIGEIRYNADQKMVFTPNDQ
+TNFLTSSFGLSPFVSPLVKKENSERKIEEISEGDAISLYENEEGRTTNPLLKYAAILVLG
+LGITGSIGYPLYQNQIAAKTLVVESSVQKKVENKIQEATFFIQNPMPAVTLSVDTTNVET
+ASEKTMPYHIMAGAYRSEKNARKAYNQLVKDGYEARMLGENKHGLFPVLYGSYATMAEAE
+KAQKEIQKGENPDAWILIQPL
+>tr|A0A1S1JEZ7|A0A1S1JEZ7_9FLAO
+MYPTVSEQHDFMYDKMIPTMQKVLSEIRDLVTTATKRANIEQYILHPTLKPLTTTTFSWF
+NFYFYLSLNGLQSTYCFTQDFQYPSDKYSLYKQYIDAGSIELDR
+>tr|A0A1S1IZG4|A0A1S1IZG4_9FLAO
+MNELDLQDKYLVNFFCERPDGLQYKEAKANTVSSHFFINEDLKQFLSETSLNKDNYKKLS
+KKFTSEKELIEAFSLFLDEKVKSSMNMALFINSNKSVTFEGLKFHLFYPSGSEAHEDKLF
+DENIFSIVQELPYTFKYQGKQYFSFRPDLSFFLNGIFLGYSELKSNWNNQNAKKNGRKKV
+AMDYQTAVQEYLKIADGNDLSQTIRKDFLKIFEKAIHITSTDINETYIIRNISNHFDEIK
+NTVVSDEYDFDEYEKKVFRDFKPYPLINKDADKNLKFEEVFKALYDKKMIEKEILYYNFI
+ERELIKKEGSKVKEYKHNDGRLISPRPKQKFGADKVIAKINEFLEHENEPDYFINKLEKE
+LKAKGIGETQIKELIAKRQKYQNNKNVYSLLLQYAAGFGKSNIIGWTALQLKDLRKDGNY
+IYDKVMLVVDRLQLRDQLDSMLHNMNIQKGMFLEASDKKSFMTALSSDKRVIVVNIQKFG
+AIKEILDNEVTSKLSTLRVAFLIDEIHRSNSGSQNEEMISVFDELQSGFDNSKVYTNTIH
+KKNLIIGFTATPSDITLARFGEYNKYAEAEKFWIPFDSYTMKEAIEDGFILNPIRGIVPV
+SSKMQFGIPDNELEGFEGDSGYEEIPDDTDTGIDEEGKKYAIRKKKIYSNKERIEAISKF
+ISERLVSTVYHNIRGTAKAMLAVSSIPNAIRYKRLIDKHYKELVEQKKHERFKEAPIYIV
+YSDSQDQPSSNSVNHGINEKQVLQNFKLAKNGLIIVVDKLQTGFDEPKLHTLFLDKEIRG
+INAIQTISRVNRTTKYKNDCKIIDFSYKNVNVKNIKQAFEHYSNVVVSDFDPLGDEEKLD
+IYLKELKDQDLFKTHFKAFQEYNTTNDDINIILAIDNNFTKFITSTSKEAKKLKKIINDY
+FKILNLIEFVIEIDKKYNEELFLQFWRKFSIIYGQINKDQDDIDDVEIYFDNKIGIVAPQ
+DYKVKEKNKVTGVPTGSDNKYKYNILKVIEKRNQEEEAIAELIEDFENKIDTFFNFIKGD
+EMGKRLIAKIKDEGSAFSQDEIYTDFNKLYRKYTIMNKDLGEFFKRETKDILNQMCDDFE
+RSVINNGLELPSRPTPPKK
+>tr|A0A1S1J4M5|A0A1S1J4M5_9FLAO
+MSGTTANLNNTGANFDTGNDSIVIVLNLETIPGGKTLDTTGFAPEVIPAGHVVIEETATG
+ILKPMPVSGSNYGSLPANHTYKGIVISSVLTTKPFVGILVRGSVNKNASKYGIASILSAL
+ASALPLIRFTKD
+>tr|A0A1S1J7V5|A0A1S1J7V5_9FLAO
+MVNLLNEIYENNITISLEGTDLKLGFKNDVIDEVLIQKIKENKQEIVSYLTKYSSVNKHN
+SIPKAEKQNSYEVSSSQLRMLSSILLDTEAKGFNYAVPNSVYLKQDINVANFKRAVLSTI
+ERHESLRTVFRISEEGEIRQHILEKDEIDFTIEFFDFRNSNKGKEDVKNFTREDVNEPFD
+IQNGPLIRVYLFQLAESEFIFYCNIHHVISDSWSLEILFKDIFAFYTSFSLGLPHELPEL
+NVQYKDYAVWQNEQLAGGFFKDQEAYFKDTFSGELPIINFTNNKSRPAVKTVNGFALKSY
+LSKQTTAEFKKLCSDKKGSIFMGLLAVWNVLVYKYTNSRDIIIGTAVGGRDHADLKGQIG
+CYINSLPLRNQIDPEQTFSTFFDTVKENTLSALDCQFYPFDHVLKLINYNKNMSRSPLFD
+VMILLQNAIDNSHQFKVDESQIDTIKQLGETSVLTDLDINFMEEGEHLCCHLVYNTDVFE
+AEFVSGLMTHFKQLLEKIVLQSDIPLQEIDYLSAEERKELVLDFNDITLDYSKDETLLSL
+FEKQVKQTPEGVALVAGKNNFTYAALDKASDDLARYIQAHYKIQKGKLIGIQLDRNEWNI
+IAILAILKQGCAYVPIAPEMPNQVKEHIISDTQLELLITTTSYMFDLEFYTGALIAVDLG
+FDVSDCDSIAIEVTPSDLAYVIYTSGSTGLPKGVMIEHGQIVNTILSQIDYFKLNESNKG
+LQFAPFSFDASVWETFMILLSGGSLYMANDEQRKDANTLTAFIKENKINIATLPPSYIAL
+VDIDDLKTLETLITAGEAPDYEIMKPYFKYGTYYNAYGPTEASVCGTVFKMPESNTEAYR
+NIPIGKPISNAKIHILDHHNNLVPVGVVGEICIGGTGVARGYLNREELTNSKFIKNPFAE
+KGNLYRTGDLGKWTKEGNIIYEGRNDEQVKIRGYRIELSAIEQQLLTDDQILEAVVGVEE
+GYEGAKELVAYIVASETINPGNIRSFLSKILPEYMIPQKYVQLEQMPLTINGKIDKKALP
+ALHNNTVLDDNHTFVAATTFEEKLLVSVWEEVLKKEGIGIKDNFFTVGGDSIKSIQIVSK
+LKQHGFALKAGDIISKPKLEDLVPLLQKNDQILDQSEVTGEVILTPIQEFFFSKVRNKIF
+NAPEYYNHTVLLQTQDEVDPQVLESCIDQLVQHHDVLRMAFPEENNTRKQYNKSSTEESY
+TIHFYDLREDEDHLTTIRNTGIALQSSFNLATGPLVRIAHFRLKDGDRIAFIIHHLVVDG
+VSWRILLQDFADLYANSKEGNEYKLPYKTTSYQTWAKELKAHAQELKTTEELSYWQEICR
+QRGTPLCELKENEAYKLNCDTTTAMVLDKETTTLLQTSAHALLNTQIDDIILTCLGLAIK
+DTLHKDKVTVQMEGHGREEIIDTVDISRTVGYFTSFYPFVLNVSKHDALENLVKVKEDLL
+KIPNKGIGYSVLHFLNDDVDLGTTFDLEYNYLGDFGYEVSSENDSVFRYGRESIGGNSSA
+ANHNNLGFSVVGMISLGELKMNIGYSSLLFEKETMDELSSAFKNHLVTLVNHLNLLSESQ
+AHQNEDVEINTAADFQITPNQNFILSKTMSQGIIGPIVTSKFDSKEDFLKRFKSFMELFP
+ILRTQFYKEDGLVKQRMLPSSEVPIEVYYETKVNKEQVTALLSKPFDVIEGALVKVLLIQ
+EANNVSDQNSYIFISIHHALTDAFTNMILLKNLRAYFNDQPLEINHTLYYEFAAWQKSYL
+HSAEANEHRKYWLETLKDVVRKEQTEEAPAGLIDCVQQTATITADDFATLSKTINATGLT
+PSAFFTALHQLILSKHTDKALQLILVQARELGTNDIERHKVLGVVNNFLPLPVLNPSKTT
+KDRYVKEVYSLYMETLMHQQIPYEVICEDVERIYEVSVKSEIGGMLNFISSESEKPLDAT
+VAENSKKHSVNDFTQGIDLICSSYPNAVEISMSCSLEKYKTLFSEDFNLKNYLFELAQEL
+I
+>tr|A0A1S1JDZ1|A0A1S1JDZ1_9FLAO
+MTHKILIIDDEEKLRSLLARIIKSEGFEVIEAKDLKSGFKKLEQTDIDVVLCDVKLPDGN
+GVDFLQNIKTSFPLIEVILLTAFGNIPDGVQAMKNGAFDYIVKGDDNDKIIPLLYKAVEK
+VHLQKKVKQLEKRIGDKYSFSTIIGKSKGIEQVIDLAKKVAKTDSTVLLTGETGTGKEVF
+AQAIHENSNRTGKSFVALNCSTFSKEILESELFGHKQGAFTGALKDKKGFIEEANGGTLF
+LDEIGEMPIELQAKLLRVLETSEYIPLGDTTPKKSNFRLIAATNRDLKVESEEHRFRSDL
+YFRLNIFEITLPPLRERIKDIALLTHTFVKQFSEKTNKKTLQISDDFIHKLEHYSWPGNI
+RELKNIIERSVILSSDDTLTSAVLPYEMQQETEKNTKQMSAFSMQSIEKLHIQKVLNYTK
+GNKAETARLLEIGIATLYRKLDEYGIQ
+>tr|A0A1S1JC08|A0A1S1JC08_9FLAO
+MNNQIIIESKRKKIDTLIKNYPNFEIIDVTSKAQNPWVKFSPFYPLENIPIPFTDNKFSK
+SVEGIWQGLKVFENSDIDPAKFDIENMKNIKRTVRKYGKVKGHRKGINGEDILSYSDSKK
+LIYLPTYKWILDNKLKNEITELKKILDQKSIILLDYETSEDIFSFKPISHAFLVKLFLEN
+NYPI
+>tr|A0A1S1J0R9|A0A1S1J0R9_9FLAO
+MKTIQSILLAAVLMLSLQVNSQKRYSLSKSAFEVAGTSNIHDWTMKSSDGVGSAFLTVTD
+SKITDIKNLTVSLSAESLKSGKGSMDDVAYKALETDDHKNIKYALKSAEKVNENTWNFNG
+TYTIAGVSKDFKTQIRVTAYKDGTFALQGSNRMTFSDFEMTTPSAALGVVRAGKELTVIF
+NITLTDFTKNDNILVIK
+>tr|A0A1S1J3J8|A0A1S1J3J8_9FLAO
+MSKILIIEDEASIRRVLVKILSEENDTYQVDEAEDGAAGLEKIKNNDYDLVLCDIKMPKL
+DGVEVLEEVKKIKPEIPMVMISGHGDMETAIHTMRLGAFDYISKPPDLNRLLNTVRNALD
+KKQLVVENKILKKKVSKNYEMVGESEAISHIKVMIDKVAQTEARVLITGPNGTGKELVAH
+QLHEKSERSNFPLIEVNCAAIPSELIESELFGHVKGAFTSAVKDRAGKFEAADKGTIFLD
+EIGDMSLSAQAKVLRALQENMITRVGAEKDIKVDVRVVAATNKDLKTEIAEGRFREDLYH
+RLAVILIKVPPLNERRDDIPALITHFTEKIASEQGNSVKVFSPKAIKLLQEYDWTGNIRE
+LRNVVERLIILGGSEISETDVKMFASK
+>tr|A0A1S1J6J5|A0A1S1J6J5_9FLAO
+MSDFELNDKKIQILEVAEKLFSEKGFEGTSIRDISKHAKINIAMVSYYFGSKERLLEALI
+IYKTADLKLQLENLLQENIEPLDKVNKLIEIYITRISCNKGIFRVLHFELNSKKREKSMI
+AFTELKKGNLKSVESIIAQGQSKGVFRKDVIIPLITPTIIGTFFHFHMNRPFFEELLNLK
+TEEMYNEYIKNSLTKHIQQTIKALLVYEN
+>tr|A0A1S1JCQ1|A0A1S1JCQ1_9FLAO
+MKNPISVSLLELAIITQDSNAKETFQKTKEIAQLADNLGYKRFWLAEHHNMAHVASSATV
+VLIGYIASQTQNIRVGSGGIMLPNHSPLIVAEQFGTLEILYPGRIDLGLGRAPGTDQPTA
+EAIRKDFFEQAQRFPQNVTKLQDYFSVENATAKVRAFPAEGTNVPIWILGSSMDSAALAA
+AYGLPYAFAGHFAPRQMIQAFEFYRENFQASDTLDKPKTMACVNIVAADTNEEAERLSTS
+LYQMFLNLIRNDRKGLQPPVDSLDDIMSEEERFHVNQMTACTFTGDQIQLEADLKKFISY
+AQIDELMVTSPIFDRQAKLKSIQITKEVIDSLNK
+>tr|A0A1S1J8T8|A0A1S1J8T8_9FLAO
+MIQKIVCAFSVVILFTSCGKKENKLTEKETAPIIKEKGMSILFPDKKGIDFFKTETISTN
+TITAQFSAPAKIAATVLPSDEGALQPVVLFDNSELAASYTQFMQSRISISQIQNINIKQK
+RSELERTKDLNRHGAATGQDLLNAQTALSIEQTSLANEKAALIEHESRLISAGFTPDMLR
+KAKVGTAYLICDIPENQISKVKSGSTGDISFNSFPNETFKGRIDAIVDRVDLETRMVKIR
+ISVHNPSNKLKAGMFASVSFGLKEGNFISISKTSLITVNGKNYVFVKESENNFKRREIQT
+GQQVGDRIIVFKGLNNNELVVVEGVMQLKGLSFGY
+>tr|A0A1S1IYL0|A0A1S1IYL0_9FLAO
+MATGKLRSFTLSELLVVMIITAIVVGMAFSVLRLVQKQIHTIQSNFDKTTRLALFEQQLW
+QDFNEPHTIVFDDQNQILLMTSEIDTVMYSFKEKFAMRNRDTIKLKINPNKIFFKGKEVQ
+SGSVDAISILAESELPDYQIFVSRKNDVTFFMNQEDGL
+>tr|A0A1S1JA26|A0A1S1JA26_9FLAO
+MIKVSDTAKNKIIDLMREDGFDAASDYVRVGVKSGGCSGLSYDLKFDKTKGDDDKIFVDN
+DITIAVEKKSFLYLAGTILEFSGGLNGKGFVFNNPNASRTCGCGESFSL
+>tr|A0A1S1JBJ6|A0A1S1JBJ6_9FLAO
+MKKLFKYALAFVFLALTGCEKDSNEQHETKTESAVPFEKKLINANELPADIQQYINTDGT
+KNSSKSTNAETLNEPIFMMHDIVSMTDDKNITNYSISFFYPDTPENVYYNLVINVLPTGE
+SKKYIFKYICNPEDFENFKAHRFDFKYFDGTTEISQVNYITSGKFTSKSSAGDDPCNKIF
+VPSPSDPKSNPAAGGGSGNGGNPAPGGFNTSVPGYNSPPSSGGYTGGGDGSSGHDHSNCY
+GSNGQYWYYAGDVRPPHPHTSKSAGPCPEVTPPTGYVPVNTMPLIKILGTQLKLSIAQIA
+FLRNRPDTMNIIGSYLNSNNFSEEAKSFCKEIIDQSILNPSLHFDILASANSPMNIDKSS
+ITNDTPEGKKFNTIYNALITSPEFKKLFIDIFQNNSRFNVKFEIEEHVYEDNNPSKKEVN
+ATTSQLSGANNIVIKINKQILISGTDKSQTNIENAKTILHECIHAYLFIKASNPAINADF
+AKILNTMYPTINEQHDFMYDKMIPTMQKVLSEIRDLVTTATKRAILETQYTMHPTNNPLT
+STSWIWNEYYKYISLKGLDEVYCFKVDFPKESDQWKLFAKYIEYGHKELIQ
+>tr|A0A1S1JBY4|A0A1S1JBY4_9FLAO
+MKPLNSPKIATQKRRFLILFFTTFTFIFGCLFITLITANKGAAELEQKHKYYNDIAVKQG
+EMNLLLGEILIEINDLRFKDRTLNERKNLQSLINEKRFAINNEIQKSKTNLTNSFGLYEE
+LLVELQRIQTKIDVLKEAATSYEIKSNQLKNCIEKHKLENKKNSTKS
+>tr|A0A1S1JC86|A0A1S1JC86_9FLAO
+MIQSMTGFGKASLQLPTKKITVEVKSLNSKGLDLNVRMPSVYREMELGLRTQISTKLERG
+KIDFGIYVESTSEQTSTKVNVPVVKNYIAQLKEVYPDADETELMKMAVRMPDTLKTEREE
+IDENDWEQIQLIIEEALENILTFRKDEGESLEKEFNLRISNIRQYMNDALALDPERIKAI
+KDRLQTAISELKVNVDENRFEQELIYYLEKLDITEEKVRLTNHLDYFLETIKGSEANGRK
+LGFITQEMGREINTMGSKSNHAQMQKLVVMMKDELEKIKEQVLNVL
+>tr|A0A1S1JCT3|A0A1S1JCT3_9FLAO
+MNLLLQTTQHNLQGQIAVTGSKSETNRLLLLKALFPNITLANTSNSDDSEVMQKALIGHD
+EIIDIHHAGTAMRFLTAYFAVNEGREVVMTGSSRMQERPIKILVEALEQLGVEISYEKEE
+GYPPIRIKGKKVTASKVTLAANVSSQYISALLLVAPKLENGLELTLEGEITSIPYIKMTL
+ALLNDLDIQTSFEGNVIKVYPKTEVASKEMVVESDWSSASYFFSLVALADTASITLSSYK
+ENSLQGDSELVSLYEKLGVKTTFQDNKMTLVKQENFKFENVNFELNNTPDIAQTIVVTCL
+GLGIGCHLTGLHTLKIKETDRLEALRIELTKLGADISVTNDSLTLVASENIKHNVKIATY
+NDHRMAMAFAPLALKVPIVIEDAEVVSKSYPDFWNDLKVLNFEIVETL
+>tr|A0A1S1IYL9|A0A1S1IYL9_9FLAO
+MKNLFYMLSFLLTLSGFAQERTIKGKVLDAKDGLPIPGVTIAVENSSVSNNTSEKGVIQS
+AGLGTVSDFDGAFELKINNNIKSLRVTYMGYLPYTIDITDKNQYNISLKSDVSELKEIVV
+TGYQKIEKRKLTSAVAKVDMADIKQAGVASLDQMLVGQVAGVAVTQQTGAPGTIAKIRVR
+GTASLNGAQDPLWVLDGLPLEGNDIPQNYDKDNIDVLSNFSIAGLNPEDIKDITILKDAA
+ATAIYGARAANGVIVVTTKKGKKGSMKVDLNVNTFVTQKPDFSKLNLLNASQKVDFELSL
+ASREDLTYRDGNGEISRILKQANELGAYRSGGFSSLSTPTQNAINALRNNNTNWGDLLYR
+SAINKQYTLSLSGGGEKSDYYFSLGAYNEEGATIGTGFDRYNLTLKNNFDVTDKLHVGVG
+IFGTQSKKSSYISDTDTFTNPANYSRNANPYLTPINADGSYNYDKDMTGYGNGSVYIPFN
+YLEERENTNYELTTRSIKALLDVDYKITKGLKASTQIGLQFDNNASEKYAGKDTYFTRKE
+REKTSVFANGAYTYFLPIGGIIQNSNTDFFQYNWKTMLNYNTTLGGKHELEFMVGNELRK
+NKSTAINTKGFGFDPKTLTTTQIVFPTQNYATNPTYRTYLKSENENAFASFFATASYTYD
+RKYTFFGSVRYDGSDLFGADPKYKYLPLWAVSGSWAVSEENFLKDSEIVSNLRLRASYGL
+QGNIDKNTSPYVVGTNQTTIILPGQSEPIISVASPPNDKLRWEKTTNTNFGMDLGLFNNR
+INIITDVYGRKSTDLIGLQSLPVENGFEYTNANWAQVTNKGYEISLSTRNIDRPNFKWNT
+TINFAHNKSTVDRIQTRSNTYLPSRQGLPVNAVFALKTNGIDESGFPLFVNKKGETVNTQ
+TLFGLFDPYADFFPGVFSQSKLTNEETRDLFTYVGDADPKFTGGFINTFKVHNFDLTIAT
+TFNLKQTVVEKPNFNGTQLDRGQNYTTDVLNAWSPTNTGSNIPGITSPTSGTGDSWMAYQ
+WFSPAGAPLNVYNYLDTWVHEMSYMRLSSVRLGYSLPKTATKTLFMDSIRFSIEGRNLFV
+ISSDYKGYFDPETFGNIYAQPIPRSISLGCNLTF
+>tr|A0A1S1J7Q6|A0A1S1J7Q6_9FLAO
+MKKTALKIVLFSTVMIATSFATPQRISPSDSIAKFSTNTIDDQFTGRGKRKQDNVNTLHN
+LNQSEGFRQDRQAIGVVKKMD
+>tr|A0A1S1J6E0|A0A1S1J6E0_9FLAO
+MKLFTFLFSLFTLTLFAQNNKKYETFFEKGNGNQSASYQETIQYYKLLARDFATIQIKEM
+GLTDSGEPLHMITYNPDKEFDFEKIQKNKAVLFINNGIHAGEPDGIDATMQFYRDLATGK
+IKAPKNTVLVTIPVYNIGGALNRNSTTRANQDGPEIYGFRGNARNYDLNRDLMKSDTRNT
+KSFVEIFQKINPDVFIDNHVSNGSDYQYKLTYIMTQHNKLGTVLGDFMNSEMMPALVKDL
+QQKKIETTPYVDSFKDTPDKGFGQFVDSPRYTTGYTSLFNTIGFVVETHMLKKYAERVKM
+TYEYTKSTLDYTDANYQKIKELRVKNLQQYQAKKNYTLKWELDSTKATTFSFLGYEAAYK
+KSEATTGNRLYYDRSKPYKKDVPYIKEFKSVKDVVIPSAYIIPRGYWNIIDLLKNNNISF
+TQLKNDTIIEVESYKIADFKTVPSAYEGHYLHRNTTVTSKIVKMAFAKGDYIIPTNQKGV
+KYILEAFEPEGVDSFFNWNFFDTILQQKEHYSSYIFEDTAAKLLKENSTLKAELESKKQT
+DPEFAKNPEAQLDWIYKHSAYYEKAHLQYPVYRVL
+>tr|A0A1S1J246|A0A1S1J246_9FLAO
+MKYTTRQSAILLLSDGTIFHGKSIGISGKTFGEVCFNTGMTGYQEIFTDPSYFGQIMVAT
+NTHIGNYGVNDSEVESESIKIAGLVCKNFSFNYSREDASGSLEDYFTKQNLICISDVDTR
+ALVSYIRDNGAMNAVICTDGTSIEDLKKELANVPNMEGLELASKVSTTEPYFFGDENATY
+RISALDLGIKKNILRNLAKRDCYIKVYPYNSTYKDLAEFNPDGYFLSNGPGDPDPLFGAI
+EVAKEILANDKPLFGICLGHQVIALANGVQTYKMFNGHRGINHPVKNLITGKGEITSQNH
+GFAVNKEQLDNHPELEITHLHLNDETVAGMRMKNKNCFSVQYHPEASPGPHDSSYLFDQF
+VENIKEAAAKTM
+>tr|A0A1S1J8E8|A0A1S1J8E8_9FLAO
+MKYLLFLLALFVFNISALAQSGNNDFWNKEIENSSDIIKPNILSNHPLGIYISRLNHNFN
+VRSPDKYSFSFEFSSGNVALPYVKSYELTDPNDQKAAENMPWHVREYAFDFNKVPHNTKE
+FTADGVIRSYRFTFTLPITVHHELNFGLRINSLDGGKYPYSIFTSDETIEWFHSNIAGGE
+DPFSRRYYGLNKAGISYKDENDRVLTMHNGNFTIPGIDINYNYYPKLEMNEKHHIYLNFG
+AQLGINTSPYNPVADFGISSSILKKKIIKNKNILTFGASAGVLRQHFLEYGDRVNISSRD
+FFYSLEGLIDYKVKLKNNNHLSYGINYNFQSSYNRKNEKDHTVLTGQRIKTHWQKTISHL
+YEDLEGWNFICTYSTKRFSYFVYFREDLNLDNAPDFQTGIGLKMSIKKK
+>tr|A0A1S1IZB9|A0A1S1IZB9_9FLAO
+MAHNINYNSKTGKYSFFSVKQKAWHGLGQIVEQYPTSAEAIRHAGLDYEVAKSPLYTKGS
+EIIQTNEGIEMGSTELAVPDCFATIRTDSNAVLGVVGKDYQIVQNREAFSFFDAIVGGGD
+GILYETAGALGNGERIFITAKLPDYIRVGNGDDVTEKYIFLTTSHDGSGSITAAFTPIRI
+VCQNTLNASLRNMSNVVRIRHTSGAKQRLEDAHKVMGLADRLSTQLEGIFNEWAKVKVTD
+REVKKLIQLALCPNAETLALIKKGAENEVSAVFRNTVDDAFAYAMASESQQMDTTKGTLF
+GAYNGVTGYYQNVRKYKDDEAKLQSIVMGGTAQGKAQKAFELCTAFQADGAQILKLN
+>tr|A0A1S1J0Y4|A0A1S1J0Y4_9FLAO
+MNINLLVKLFLILFLFLFSLAGYAQSETPKDSLSNTLNEVVIAQNKKTFINTNGNVKVDV
+ANSIYNVIPNTVDLLAKLPTVQISSDRESISVVGRGNSLIYIDNQKVEMSDLNALAVADI
+KTIEIIQNPSSKYEAEGRAVILITRKFSKKDRFKTEISEVASFKKKYNNYLGFNTSFKKN
+KLEWKANFNYNQLQPWENHSIDYQIPEAEIVSKYDVEAYSKKRQFVFGGSLFYKINEDDY
+FSFSVNSKLQKDIFPIHTITYNKNKETGNNVLTYSDNDTRKNFVNSFLNYNKKIKAIDAQ
+VFTGLQWSNFDQALWSNVKNKYNETQFEWAQLRDQKFKVNVFSGRIDAEKKFKNEMKFEI
+GGLYSSAGSKSDFDLLHYENDEKEFSHYDFKEQNLAGYSQFSGKIKEVEFSVGVRVENTN
+VDGKFKADLTPLIRKNYTNFFPKVQLSFPIDSLKSISVNYAKSISRPNYSSLSQGTTYIN
+PYFLYARNINLDPTIVNEISSTFQYHDKSVKLTYYQNTNPVYNSFFFDKELNIMTFKDVN
+FEKESALILDFELPFTYRFWTTTNSLVLVSEKIEDSSAVFRSSKPYFYYYSNNEFRLPKD
+YVLVVGFRTIAKQYKGVFERNARTVVDVAVSKTFFKNWSCVLSFNNVFKSITEAEVFTIN
+NISSKSRYLIDEHEISVSVKYSFGKVRESEFKGKRMEENSDRIR
+>tr|A0A1S1J1H3|A0A1S1J1H3_9FLAO
+MLNIHNLSVSFGGTYLFEEVTFRLGAGDRVGLVGKNGAGKSTMLKMLARDFAPDSGVISQ
+EKDIRMGFLRQDIDFERGRTVLEEAYEAFTEIKIVEKKLEEINHQLVTRTDYESEEYGQI
+IEDLSDYTHRFDLLGGYNYVGDTEKILLGLGFKREVFNNQTETFSGGWRMRIELAKLLLQ
+SNDVLLLDEPTNHLDIESIIWLESFLRNYPGVVVIVSHDKMFLDNVTNRTIEISLGKAYD
+FNKPYSQYLELRHEIREKQLATQKNQAKKIEETEKLIEKFRAKASKASMAQSLIKKLDKV
+ERIEVDEDDNSVMNISFPVSKEPGKVVIEAENVTKAYGDKTILKDISLLVERGSKIAFVG
+QNGQGKSTFIKALVNEFEYQGNIKLGHNVQLGYFAQNQAEYLDGEITLLQTMEDAATDTN
+RMKVRDMLGSFLFRGDDVEKKVKVLSGGERNRLALCKLLLQPINVLLMDEPTNHLDIKSK
+NVLKAALQKFGGTLLLVSHDRDFLQGMSNIVYEFKDQKIREYLGDINYFLEQRNLENMRE
+VEKKDVVKEAAPKESKKTSYEDQKKGKALQNRLSKVESQIKQLEKDIQHDDKMLASNYDK
+HIEDASFFTAYNKKKEDLDQLLLDWEIVQEEIDNFNA
+>tr|A0A1S1J2P5|A0A1S1J2P5_9FLAO
+MATTVPPDKKSNYEKLFASCIIKEAKYPEIDALVAKIVSNKSRYQSVGDPLNIPWYMISI
+IHCMEGSLNFTTHLHNGDPLTKRTVNVPAGRPKAGNPPFTWEVSANDALIYDKLNSWTDW
+SIAGILYRLELFNGLGYYKQGINSPYLWSYSNQYTKGKYVQDGKYDPNAVSKQCGAAVLF
+RRMMEQHLITLPNTHIVEQIIAQGNQTMYYSGKVTNEAAELQKLLNSAGSVLRIDGKAGE
+RTSTEYFKFSKTYLKGDPRRV
+>tr|A0A1S1J584|A0A1S1J584_9FLAO
+MEVNNSIIHVILTGGIGSRLWPLSRKSQPKQYLEMFEGKSLFELTVDRNNHLADKVMVVG
+NVDNHSLSAKVMDKSKREYINIVEATPRNTAAAIAFAAFACDPDDILIVTPSDHIIEKME
+DYNKAIDEAIVKAKEGFIVTFGIIPTKPETGYGYIESKGDKVVSFREKPNETTAKNFIAR
+GNFLWNSGMFCFKAGVLLEELKQFQPDVFEKSKAVWEANKEGFLDLDLSLEIPSISIDYA
+VMERSKKIKVVPAAFSWSDLGSFESVYDYLVSRGHSIDDNGNMVIGTEKYTAFLGLRNTI
+FVYTGTANLILQKENSQDVKDLYCELERQNSELLN
+>tr|A0A1S1J709|A0A1S1J709_9FLAO
+MITLKGDSIYLRALEPDDLEFVYAMENDERIWEVSNTQTPYSRFLIRQYLENAQQDIYEA
+KQLRLAICQDQDFPAIGLIDLFEFDPKNNRAGIGIVIQKDENRNQKVGSEALGLLIKYAF
+HHLNLHQLYANIAMGNAASVALFTKFGFEKIGIKKDWVLLHNKYQDEAMFQLINKHI
+>tr|A0A1S1J7A1|A0A1S1J7A1_9FLAO
+MKEIHYISTETLSLEALQEIIVNQKTLELSEEAKVNVQKCRDYLDKKMASHSEPIYGINT
+GFGSLCNVKISNENLSQLQENLVKSHACGTGEEVPAEIVKLMLLLKIQSLSYGHSGVQLQ
+TLERLVDFYNNDILPVIYTQGSLGASGDLAPLAHLSLPLLGEGEVLFEGKKTAAAEVLKH
+FNWEPIVLQSKEGLALLNGTQFMSAYGAHILLKAYKYSYLADLIGAISLEGFDGRIEPFN
+ELIHFIRPHKGQIVTAQRLTEFLDGSEIIAQEKKHVQDPYSFRCMPQVHGASKDAIDYVR
+KVFKTEINSVTDNPNIFIEADQIISGGNFHGQPLALALDFMAIALAELGSISERRTYQLI
+SGLRNLPAFLVDNPGLNSGFMIPQYTAASIASQNKQLATPSSIDSIVSSNGQEDHVSMGA
+NGATKALRVMGNLERILAIELMNASQAIAYREPLKSSDFIETFLSSYREVVPLVKEDRIL
+HYDIKKTVEFLDSFQIENDLLTMA
+>tr|A0A1S1J516|A0A1S1J516_9FLAO
+MKFKKKNVVAIILGGGQGSRLFPLTETRSKPAVPIGGKYRLVDIPISNCINSDIFKIFVL
+TQFNSASLNAHIKNTFNFSIFSQSFVDILAAEQTPDNPTWFQGTADAVRQCMSHFLKHEF
+DYALILSGDQLYQMDFNEMLEAHIAADAAISIATLPVNAKDAPEFGILKTNHESFIEAFI
+EKPHASLLPEWESDVSEHMKEKGKKYLASMGIYIFNRELLVELMADPETKDFGKEIIPQA
+VGKHKILSYQYEGYWTDIGNIESFFEANIGLTADIPEFNLFDNDNKIFTRPRLLPPSKFR
+NSTINQSLISEGCIINAKEIKSSVIGIRSRIGEGTVLENCYVMGNDFYQDLDELNREAAI
+HKIHVGIGENCFIQNALIDKNVRIGNNVHISGGKHLDNFTNELYSIKDGIVVIKKGAVLS
+DNFRIE
+>tr|A0A1S1JA41|A0A1S1JA41_9FLAO
+MSQWDGKSKGTVLGYRIFVFLIQKAGIKAAYVLLYFVASYYFLFLKKSNKAIFYYFKERL
+QYSWFKSKKMVFKSYYTFGQTIIDKISISAGMRNRFTYEFDGIEVLKKLLAEKKGGVLIS
+AHVGNFEIAEHFLGDIDLNFQINLVTTDLEHSAIKNYLESVTQKPTVKFIIIKDDLSHIF
+EINAALTNNELVCFTGDRYFEGTKSLSENILGKEANFPAGPFLIASRLKVPVVFVYVMKE
+PNLHYHLYAREAASKHRDEKGLLKEYVQSVETILQKYPLQWFNYFDFWNKAH
+>tr|A0A1S1JBI1|A0A1S1JBI1_9FLAO
+MQKPIKLVVLSVILLFFALNITFAQDKAKQIDQLLTTYNQYGQFNGSALVAENGKVIFKK
+GFGSANMEWDIPNQPDTKFRLGSITKQFTAFLILKLVDDGKLKLDVPITTYLPDYPKETG
+DKITLHHLLTHTSGIPNYTATPNFLRDKSRNPYTPEDFVKTFNKLPLEFKPGEKFNYSNS
+GYFLLGYIIEKVIGKTYEQYLQETILTPLKMVNTGFDHSEVILKNRAAGYEKQGKNFVNS
+SFIDMSIPYAAGSLYSTVEDLYLWDQALYTTKLLSEKSMESLFKPYIKAWVDFYSYGWFI
+SEAATGSKDKLKVTEHGGGINGFNTLISRVPADKILVVLLNNTGNTVLGEMNTAIRAILY
+NQPYKPARKSLAIDLLDVFSTKGLVAGMDTYKKLKNDPTFVIKENDMNEAGYQLLQSGKK
+KEAIEIFKINAETFPKSGNVYDSLGEAYLTDGNKDLAITNYKKSVELDPSNENGKKVLEE
+ISKNKTK
+>tr|A0A1S1JF95|A0A1S1JF95_9FLAO
+MYVVKRDGHKEPVMFDKITERIKKLCYGLNELVDPVKVAMRVIEGLYDGVSTSELDNLAA
+ETAASMTIAHPDYAQLAARVAISNLHSNTKKSFSETMKDMYNYVNPRNGQDAPLLSDEVF
+KVIQENSAFLDSHIIYTRDFNYDYFGFKTLERSYLLKINGKIVERPQHMLMRVSVGIHLD
+DLKAVIETYDLMSKKFFTHATPTLFNAGTPKPQMSSCFLLAMQDDSIDGIYDTLKQTAKI
+SQSAGGIGLSIHNVRATGSYIRGTNGTSNGIVPMLRVFNDTARYVDQGGGKRKGSFAIYI
+ETWHADIFDFLDLKKNTGKEEMRARDLFFAMWTSDLFMKRVQEDTTWTLMCPNECPGLYD
+VYGEEFEALYTDYEFRGKGRKTIRARELWEKILESQIETGTPYMLYKDAANRKSNHKNLG
+TIRSSNLCTEIMEYTSKDEIAVCNLASISLPMFIDNGKFDHEALYNVTKRVTRNLNKVID
+RNYYPVKEAENSNLRHRPVGLGVQGLADAFIMLRMPFTSDQAKALNQEIFETLYFAAVTA
+SMEMAKEEGPYSTFAGSPMSQGEFQYNMWGLKDEELSGRWDWASLRKEVMEHGVRNSLLV
+APMPTASTSQILGNNEAFEPYTSNIYTRRVLSGEFIVVNKHLLHDLVDRGLWNEDLKQEI
+MRHNGSVQNIDIIPQDLKDLYKTVWEMSMKDIIDMSRQRGYFIDQSQSLNLFMQDANYSK
+LTSMHFYAWQSGLKTGMYYLRTKSAVDAIKFTLNNDKKEETSPTLVPETEAISVEDYKAM
+LLKAQAGDPEDCEMCGS
+>tr|A0A1S1J999|A0A1S1J999_9FLAO
+MKVTEHIENAKGNTLFSFELIPPQKGKSIQELYDNIDPLMEFKPPFIDVTTSREEYIYID
+KGNGLLDKKLTRMRPGTLGICASIKHKYNVDTVPHLLCGGFTQEETEYMLVDCQYLGINN
+VMALRGDAMKDEQSFVPKAGGNSYAIDLVRQINDLNSGKYLHELMDADNKADFCIGVAGY
+PEKHLESPSLQSDLKRLKEKVDAGADYVVTQMFFDNAKYFAFVEKAREIGITIPIIPGIK
+PIAVQRHLQILPQIFRIDLPEDLIDAVDKCKNNAEIKQVGIEWAIQQSLELKAAGVPVLH
+YYSMGKSENIRQIARQIF
+>tr|A0A1S1J3P8|A0A1S1J3P8_9FLAO
+MPPIEPMILNSKKIFLIDGLGALFSTLLLGVVLVELEIYFGVPQKTLYLLAVLACLLMAS
+SFASYWFANENWRGCLKIIAFANLLYCGITAGLLLYLYTHLTYLAVFYFLAEIAIILFLA
+RMEFKIASR
+>tr|A0A1S1J4H1|A0A1S1J4H1_9FLAO
+MEEKKFDLNSIIGFVLIFGILIWIMYQNQPSDKEIAAEKAKKELIAKQEAQAKADKTKTA
+VLPVASATTPGDTVQLAQLQKTLGGFAYSATLPSAKEGFTTIENEKIKLKIANKGGYIVE
+ATLKEFKKFEKNSGQLVELIKDNNANLNIQLQTADNRTLNSKDLFFEPTLTKNGADQILT
+MRLKAGANEFLEYKYVLKPNDYLVGFDVRSQGLNKVLNTGKPLDLQWDLKTYRNEKSISY
+ENRYAEIYYNYKDGKESYVGQGDHKEETPEKVDYIAFKQHFFATILQTNTSFEKSQLVSQ
+NLVKDEKIDTVYTKQFKANVPLAFSNGEIDYKMSWYFGPADYKILKSYDKNFEKIIPLGW
+GIFGWINRLIFIPLFGFLSSTIGLSLGIAIIIFTIIIKLAMSPITYKSFLSQAKMKVLRP
+EITELGEKFKKDPMKKQQETMKLYNKAGVNPMAGCIPALIQLPFMYASFQFFPSAFELRQ
+KGFLWADDLSSFDSVVKLPFHIPLYGDHISLFPILAAIAIFFYMKMTSGDQQMAAPQQEG
+MPDMAKMMKIMIYVSPLMMLIFFNSYGAGLSLYNFISNLITIGIMYVIKNYIVDSDKIHA
+QIQENKLKEPKKQSKFQQRLQEVMEQQEAAKAQNKKK
+>tr|A0A1S1J6V4|A0A1S1J6V4_9FLAO
+MLEKEVINFERTAIVGIITQNQSEEKLNEYLDELEFLTFTAGGEVIKRFSQKMERPNPKT
+FVGTGKIDEINLFVKENNISTLIFDDELSPSQQKNISRIIDCKILDRTNLILDIFAQRAE
+TSYARTQVELAQCQYLLPRLSGLWTHLERQKGGIGMRGPGETEIETDRRIVRDRISLLKD
+KIKTIDKQMSIQRSNRGAMVRVALVGYTNVGKSTLMNAIGKSDVFVENKLFATLDTTVRK
+VVIKNLPFLLSDTVGFIRKLPTQLVDSFKSTLDEVREADLLLHVVDISHPDFEDHIESVN
+QTLLEIKSNDKPTIMVFNKIDAYKHLTIDEDDLITERTRRHYTLEEWKQTWMSNVGEDKT
+LFISATQKQNFEEFREMVYEAVRQIHITRFPYNKFLYPDYKDAIEKEEE
+>tr|A0A1S1J884|A0A1S1J884_9FLAO
+MKKQALFLVLTLIISINSYSQILFEHGYLINQNDQKIECQIENLDWKSTPTSFRYQLPDN
+SNIITADIKTVKEFAITGQSKYIRSLVKIDRSSKNIENMSTDKNPDLKEETLFLKVLIEG
+KASLYLYSDGNLRRFFYKMDNTEIKQLIHKSYLIDQNSTIAKNNYFREQLFIDLKCENIL
+QKEYEILDYSSNKLLKFFIKYNKCSDTNFATFESKEKKDLFNLTLRPRLNSSSLSISNSP
+LDYYDFKFDSKTNLSLGIEAEFIFPFNKNKWAVIVEPTYQYYSSEKSKQTSNLSGGEAKA
+KVDYKSIELPIGIRHYFFLKNNSKIFVNASFLIDFDSNSKIEVTRKDGSVVSKLDVSSRN
+SLVFGIGGKFRNRYSIEFRYLTGRTILSNYQTWNSSFSTTSVILGYSFF
+>tr|A0A1S1J141|A0A1S1J141_9FLAO
+MSSALTHILSNECPICHKGKVFTDKNIFFTFGLPKMNEFCSHCNYKFQKEPGYFFGAMYV
+NYGLTVAQGIATYCIAQFFFEKNFDLRIIPIIAVVITLLTSFNLRFSRLAWIYMFKDYTK
+>tr|A0A1S1J115|A0A1S1J115_9FLAO
+MLTQLIVSLGLLLTVILLSVIVGREMKKIYANEKSITDLINPLDRLIYRFCKIDPTVQMN
+WKTYLKVLLSVQFIWFLWGFVILLLQGKLFLNPAGIDSMEWTLALNSTISFLTSTNLQHY
+SGETGASYFAQVGVFMLLQFLSAATSLCAGVAIVRGLAAQSIQGLGNFYSDFVKSSTRIL
+LPLSIITATFFLFNGVPMTFDEPEKITSVEGREVVVSTGPAAAFLPIKELGSNGGGFFGT
+NCAHPFENPNFFTYIIHTIIVWLLPMSFIIFVGRYLNNKKFSRMLLGVMLMGFVVTCIPL
+ICGEMSGNPKFSAMGIDSSPANMEGKEVRFGTYYSSFYSAVNMIIPAGTITGMHDSYMPL
+SSIGMFIGMQVDAFFGGLGTGWINMFIYLIIATFIGSLMVGRTPELFGRKISIKEVQVAV
+LVNLCALAIPLLFSAIAVHVYLYVPEAVEWLSNTGPHGFTTIVYEYVSSMAGNGSGFEGL
+ADNTPFWNLTTSVTMLAGRFIPMIGAFLIIGYLSAKKAVAPSLGTLRVDSGIFGTLLFMV
+IMILTVMSMFIVFALGPVQEHLLMI
+>tr|A0A1S1J5N0|A0A1S1J5N0_9FLAO
+MTTEEQISRTPFPNSKKVYINGEIHPIKVAMREIHLSDTKLSNGGIEKNPPVTVYDTSGP
+YTDPNIEIDIRKGLPRLREQWILDRNDVEILNEITSDYGQSRLKDESLNHLRFEYLHQPK
+RAKKGANVSQLYYAKQGIITPEMEYIAIRENQRIELLNEQTKAMQCQHGGHSFGANTPKS
+KITPEFVRSEVACGRAIIPNNINHPESEPMIVGRNFLVKINANIGNSAVTSSIEEEVEKA
+VWACRWGADTIMDLSTGKNIHETREWIIRNSPVPIGTVPIYQALEKVKGIAEDLTWEVFR
+DTLIEQAEQGVSYFTIHAGVLLRYIHLTADRVTGIVSRGGSIMAKWCLFHHKENFLYTHF
+EEICEIMKQYDVAFSLGDGLRPGSIADANDAAQFAELETLGELTKIAWKHDVQVFIEGPG
+HVPMHMIKENMDKQLEHCHEAPFYTLGPLTTDIAPGYDHITSAIGAAMIGWYGCAMLCYV
+TPKEHLGLPNKKDVKDGVITYKISAHAADLAKGHPGAQYRDNALSKARFEFRWEDQFNLA
+LDPDTAREFHDETLPADGAKVAHFCSMCGPKFCSMKISQEIRDVAAAEKGMQEKSEEFIE
+QGKEIYI
+>tr|A0A1S1J131|A0A1S1J131_9FLAO
+MATTYKTPGVYVEEIVKFPPSVAQVETAIPAFIGYTEKATNKINGDLKLKPTRITSLLEY
+ERFFGFAKPETTISVTINDVSTDNGDVRSIIVDQPTSKQPFLMYYSLQLFFANGGGPCYI
+VSVGRYGNDLDDADSAVTAINNSNALKSGLAEIEKVDEPTLLLFPDATKVSGITITDYYG
+LYNDALTQCQNLQDRFTLIDTLNYDESSPTDTNIDDLRNKVSSEKDTIKYGAAYYPHLET
+ILDYAFDASKIVLKHYSYTAKAYDQIAAGLVPIEDPATGITATVTKLVSEPVAGDIAGQI
+SDLLLQMYSANPTGFDLGGTFASSPAKKTAFLNKLNPLLTTLEALSILKSSLNDEANAAI
+STISDEDPGIANTITSNLNTFNLIFTAPGKIDAVYKNLKALKKKIQDENTDPKLKKILLT
+DTLNFDTELKKLVTYTPLNAQTGITGLVNNFSGIAAALTALITAIKSVNGKDLNNGELNG
+RKLSALEAIDNATYNKILTEIYNLPITLPPSSAIAGIYARVDKDRGVWKAPANVSLNYVI
+KPTVKITNNIQDGLNVDTVAGKSINAIRSFTGKGTLVWGSRTLAGNDNEWRYVPVRRFFN
+MAEESIKKATEQFVFEPNDANTWIRVRAMIENFLILQWRAGALAGAKPEQAFYVRIGLGQ
+TMSAIDILEGRLIVEIGMAVVRPAEFIILRFSHKMQES
+>tr|A0A1S1J2L9|A0A1S1J2L9_9FLAO
+MKEALLKTRSFFGLLRRSLAGSEKNFTSGSINKTILLLSVPMVVELLMESLFVCSNLFFV
+SRLGTNAISIAGATTTFITFCYSVSIGLGIAASAMISRRIGEKKFKAAGQTTMQVIYATV
+PIAALISIVCTIWTTDIMSAMGLSDAMVEEGRTYGIVMFASSGFLILRIVVNGIFRGVGD
+ASTAMRILWLSNALNIILCPVFIYGWGPVPAYGLLGVGLATLIARVIGVLYQAWYLIRAK
+TMLKIGLAQMVFNLAIFKRVLKLAFGGTVQFIIPASSWVFMIKIMSHFGESALAGYILAQ
+RVTSIATMPAWGLGNAAGILTGQNLGAKQPERAEKSVWRAGMLNMGFLVLIGISWIFLAV
+PVIKIFTDIPEVISFSTMYIHLISIAYILLGYTMVISRALNAAGEVKVVTWLYILMFYVI
+QIPLAYALGISFDLGSNGVFTAILVSEIILAVACIVVFRKGKWKHTKV
+>tr|A0A1S1J3C9|A0A1S1J3C9_9FLAO
+MLLATQLQRVFVLKDKGQEIRLSDPEPKWSTEAVLNFYAPTYPILTTAKISAPAIRDDAV
+EYRFETVMGTKG
+>tr|A0A1S1J2V6|A0A1S1J2V6_9FLAO
+MQRDEQIFDLILEEKDRQIHGLELIASENFVSDEVMKAAGSVLTNKYAEGYPGKRYYGGC
+EVVDVIEQIAIDRAKELFGAEYANVQPHSGSQANTSVYHACLNPGDTILGFDLSHGGHLT
+HGSPVNFSGRLYRPVFYGVDAETGRLDYDKIQEIATKEQPKLIIAGASAYSRDMDFARFR
+QIADSVGAILFADISHPAGLIAKGLMNDPIPHCHIVSTTTHKTLRGPRGGLILMGKDFEN
+PQGLKTPKGEIRMMSSLLDLAVFPGNQGGPLMHIIAAKAVAFGEALKDDFFTYAMQLQKN
+ANAMADAFVKRGYNIISGGTDNHMMLIDLRNKGISGKEAENALVKAEITVNKNMVPFDDK
+SPFVTSGIRIGTAAITTRGLVEEDMEKIVVLIDKVLTDHTNEAVIEEVADEVNEMMSERP
+IFVY
+>tr|A0A1S1J4Y9|A0A1S1J4Y9_9FLAO
+MHDTSLKSTAIKGVVWSAVDKFAIQFGQFIVGIVLARILLPEDFGVIGMLTIFIALSQTF
+VESGLGTGLIQRQNRTHIDFSTVFVFNLAVSVFFYALLFFSAPYIASFFNQPKLIDLLRV
+LGLILILNAFAVVQRTKLTIAIDFKSLAKSNVIGMIAGGVCGVTAAISGYGVWALVIQML
+VGTFSTSLSLWFLGNWTPSVVFSKKSFTSLFGYGSKLLMAGLYAQILNNTYNICLGKFYA
+PASLGHYTRAKSFADLSAGIIVSIVQQATFPVLATVQNDRERLVSIYSRMIRMSAFFIIP
+LMTIIALLAKPIVIVLLTEKWISLIPLLQWMVFARIFLPMSAINMNLLNAVGRSDLFLKV
+DLSKLPLTILAMIITIPLGVKAIVIGHVITSALSFIINAYLPGKFYGYGAIKQLKDMVPF
+FIAAFGMAISVYAMTCFVDNLILQLFLGVVLGGVTYLFISYLLKLEELKEVWQLFLSLKS
+RLLKF
+>tr|A0A1S1J563|A0A1S1J563_9FLAO
+MINNALKLNPKTNKYSFIEGLRGFAILLVFGVHFFGKFQKEDYFLGEDSVFEPIIKFLHS
+GHIGVDCFFLISSFLIYKSLTNPNNKISFIQFMYKRYSRLLPVIVFILIIPFIIYNGFHL
+KVIFDNIFFLNIFNSSSSIVVVTWSLVYEIYFYILAGILYITLPNKITTSIIFLLLIFTS
+ILLIHFFIEQHIIGEPVRFLGFFFGVFLAKYHQKINRSKVLFKYKELIVIAGFFIIFFQM
+YGWLNFNWVTSVMTDKLYNALFYITVQMGFFLIILGNLIKGNKLEFLLVNGFMQLLGMVS
+YSFYIIHCFVITKLNLTSKLMMYLNISSFISMIIEYMVSFSFAVLLSIYIYEYLEKPYFN
+KIKK
+>tr|A0A1S1J668|A0A1S1J668_9FLAO
+MKKENKSVIIWLLSGCVLLFLMVVVGGITRLTNSGLSMTDWHLVTDTFPPLTEAKWNEAF
+EQYKKFPEYQKINIHNDFQLSDYKFIYFWEWFHRFIGRIIGLVFFVPFVYFLIRKKLDRP
+TINKCIVLLAMGGFQGFLGWFMVRSGLIDNPDVSHFRLSLHLTFAFITFAYTLWVALDLI
+YPERNVYKIIPLRNIARIALVALLIQIIYGGFVAGLNAGLIHNHWPLMSDGQFIHDSVFI
+EQSTLVKNLIEGKSGVQFVHRTFAYVVVALILFLYYKGTQFSLTRNQSKGINVLLVFVFI
+QFLLGVFTLLYSVPLALGLIHQIMAFFLLSAMTYTLHRLSK
+>tr|A0A1S1J6N7|A0A1S1J6N7_9FLAO
+MAKKTVASLQTSSKRLSKAIKMVKSPKTGAYTFVESIMAPEEVDEFLKKK
+>tr|A0A1S1J8T4|A0A1S1J8T4_9FLAO
+MFKTRREIVFVILAGIFITNAVVAELIGGKLIQIGPFVMSIGILPWPIVFLTTDLINEYF
+GEKGVKKLSFITACLIAYAFLILFMAIVIPAAKGISPVNDEQFKAVFGQSMWIIVGSLIA
+FMASQLIDVWIFWFFKRRTGERKIWLRTTGSTVISQLFDSFIVLGIAFWLPGKIDFDTFI
+SSGLTGYIFKLSVAVLLTPAIYAGHHLIKKYLDKDPAHEKSKHINNGE
+>tr|A0A1S1J2E7|A0A1S1J2E7_9FLAO
+MKKIVVVIALLATTFNSCSNFIEEDNRAFGSAEQYFLTAPGFESLVNTNYATLKDIYGGD
+PWLFEAGTDMYSEGRNQEPEGLAKYLTLSSSSAGVDLLYRTCYMAIQQANKGLYYSTLTE
+KASTVDTRVGELKFLRANAYFLLVQTYGGVPIVLENINTAITSFDRNSAEEVYTQILKDL
+NEALPAVGTGAYTGRVNKRAVQDLLAKVYLTKGYETFGTPADFTTAASLADQVIAGQGLN
+VSFADVVKPGNEMNAETIFSVQFSVASNATGVTALGSSQNYWFSSYLGAAAAGNPYPNRS
+YTLCPTAYALSLYEQGDKRWENTFMTEIYSRYYDFYTVTDKTVLKITDFYEPRWFTLADR
+AAWNTANASRKANAATFRYHNWGTYSSAAASGGDYNLIPVRKFDDPNAPYSGATSANYNT
+TPITPATNRSSTRDFIVARLGETYLVAAEAYFKAGQPATALTRLNEVRRRAGGGVVGAIP
+VMTTIDINTILDERGRELLGEYHRWFDLKRTGTLVQRAVLYNPKITNANVFNGQNGNLKI
+LRPIPQSALDLNRSKNYPQNPAY
+>tr|A0A1S1J0Q3|A0A1S1J0Q3_9FLAO
+MKKIIYALILSLVAVSGLVFANREIKTETPKKLTQKPISIAEREVKLKKWKTTPDGIVYK
+KWEESPAGKKVYASEARIRKSISDFTNMDGIITSLSLPPDSKLGFGIMVRIKGDDYILSF
+GPENFNDDGFWQLHGLKVNDRIIIKSHSVSHSPKYSYPILSGDYVERDGKVIYKRVIPKD
+GC
+>tr|A0A1S1J0W3|A0A1S1J0W3_9FLAO
+MKRILAVLGMVLLSSLGAVAQNRLITGIVADAENKGIVAASIEVQGKPYSAITDAEGRFK
+MNVPEGPVTLNVSSIGFTPQSVVLQQNQNKISVVLVENTQELKDVVVTSFGVKKQKKSLG
+YAVGELKGDELTKNKEINLGNALQGKIAGVNVSAPVTGPSGSSRVVIRGATSASGLNQPL
+YVVDGIPIDNSQQGNAGMWGGADKGDGMSSFNPDDIASMSVLKGSAASALYGYRGSNGVI
+LITTKKGKSGTGIGVDFSTNATFNTPASLLNWQDKYGAGAPVNGVATRFNNLQELRDSYY
+FAWGDKYDGTPSLGIDGTTRPYQAYGKNNVENFYRTGFSSSNTLAISGGSETTNFRLSFG
+NTKDESIMPGTNFGRNNIALSLNSAVNKKISIETNAQYITEKSHNRPYLNDSPRNPSFPT
+TFLTPGTDIRWISNGFDANGGEADYFGANVYHTNPYYATQSPLNDDLRKRFIGSAKVNYN
+ITDKIYAKGVLGVDDINYEYTEIEPTGINYNPGGSYENRVENRSEYNASAYLGYKGDIVK
+NLSLDAFIGANRQHNRFSGIKMRGNNFIVPFQYFYGNTQPDKSEKLFSESEVNSLFYSAD
+LGYKDFLYLSLTGREDWFSTLDPSSNSTFYPSVSSSFIYSEVIDLPEWMSYGKLRAGWGN
+VGGALPDAYALALTYIGPDGQTDSLGQPILGVNGETVPNRTLKPYNVSTIEFGFENTFFN
+NRVSTDLTFYSKKTTNDITDADISQSSGYRTTKINVGEILNKGVEFAINVKAVKTPNFSW
+SVGYNFAYNNSEVLKLSDKITTKSLEGNRDGRASVVLEKGQPFGVIKAYDYLRDANGNIV
+LDTNGKFLRGNLIIAGQGVAPTSMGLSNDFQYKNFTLSVFVDAKFGGEIYSATNQLGTRY
+GLTEQTVSGREGGVAVKGTDVNGNPVNTTVSAYDYWRSYSDVTSNFVYDADFVKLRAISF
+SYNFPKTYLSKTPFQAISLAFSAHNLWTIYDKVPNIDPESNYSNSNAQGLERASMPLTRN
+YGLTLNVKF
+>tr|A0A1S1J498|A0A1S1J498_9FLAO
+MIGKFVVTVWKCVADFFDRHFVALTILIGVICLTLGIYLGNDKVWFYKLLFTVGSISLTS
+GIFAGIAKSNQFTEIYKKILRDIIYAQEHLENRNDLEKIWDNVTQTLSNKKFQKISVTMR
+KNIKKYFLPLEHDYYYDNFMVDLTIDYDEEHEDYIKVKEITTFTIICDDENLKIENRYQR
+MLKFDPANRELSKNHSFKLTIDNVEQKIVDIRLKNVIDGNKIIESYQKDLSGKKSYVIKR
+EDIKTYNYKYNPIRKQIAVWIYNNCTVDITYPSEMLIDIHGLGVLGEFKIEDKSNTRVKR
+LRAEYKGLIYKNQGFFIHFKNN
+>tr|A0A1S1J865|A0A1S1J865_9FLAO
+MIRRFFFFIFLWVTAIASAQESTASKNVSTFTIEAPQLKTTKKIWIYLPDGYAASAKKRY
+SVIYMHDAQNLFDGKTSYAGEWNVDEKLDSLKAPVIVVGIEHGNDKRLNELTPYKNEKYG
+GGDADNYLDFIVKTLKPYIDQNYKTKTKAKNTLIMGSSLGGLVSYYAVLKYPEVFGKAGA
+FSPSFWFSNNIYTLTEQTPKVKTKIYFLCGDKESDDMVRDMTKMERLLDTKRCYCLHLTK
+SKIVKGGEHNEKLWRDGFAKAIIWLGY
+>tr|A0A1S1JA76|A0A1S1JA76_9FLAO
+MQRENQKPTQQDVLPAVAKFLSFLWMEGEFREQPEYLSEIFEAILETEIGDNQHLRTKMI
+SCMKTIKMLTQALDPFSDQQIAQACSEIATA
+>tr|A0A1S1JCB4|A0A1S1JCB4_9FLAO
+MSGNHLHSICLNISVLSPYFTCYVLDTLVDLENVKWIKKPNKNEDLEIVYASEINKIVAL
+TEKYGITKFPPELLSYRLPEISRGFIPFGEFTFFNAFFLDEYYTRL
+>tr|A0A1S1J621|A0A1S1J621_9FLAO
+MTKTAQSVWENCLSFIKDNIQDQAYKTWFEPIKSVELTDNALYIQVPSKFFYEWLEEHYV
+KLLKVALTKELGKNAKLLYKIKMENTYGNKQPFTEQLPSSNRVPMKPQEVDAPFKNLNPE
+LKNPFVIPGIRNLKIESQLNPNYSFDNFLEGDSNRLARSAGMAVANKPGGTSFNPLLIFG
+GVGLGKTHLAHAIGVEVKDKYPEKTVLYISAEIFTQQYIDSVKKNNRNDFIHFYQLIDVL
+IIDDVQFLSGKSGTQDVFFHIFNYLHQNGKQVILTSDKAPVDMQDIEQRLLSRFKWGLSA
+ELHQPDYETRISILKNILYRDGVEMPEDIIEYVARNIKSNVRELEGAIISLIAQSSFNKK
+EVTIELAKSVVEKFVKNVKREISIDYIQKIVSDYFQLDVETLQSKTRKRHVVQARQLAMF
+FAKKFTKASLANIGSQIGDRDHATVLHACKTVDNLVSTDKQFKKFVEDINKKLTL
+>tr|A0A1S1JCG3|A0A1S1JCG3_9FLAO
+MKNTILILLFIFISCTNTKEQHQKIIVIQPLGDFNIEQAKSVFNKIKTINPNVVLRKNIP
+FPKNSYYKPRNRYRADSIIKTIKNNVGKDTVIVGLSNCDISVTKGKIRDWGVMGLGYHPG
+KSCVVSDFRLSKRNKEVQFYKVVLHELGHTEGLPHCPVKTCLMRDAEGKNYLDKETAFCL
+KCKNYLTEKGWNLNSPTT
+>tr|A0A1S1J8R7|A0A1S1J8R7_9FLAO
+MNFNVTQITRINQQDFVFSDKSNLTFPIPPLASSQLYRNQGVLTLKICATVYINSKDSAA
+PAVRTLIENDTNIEVYFDYTWDESTPDTYDVWYVEIDYISDRISQITSVTSYLRNLDPET
+SRGTTTQVDN
+>tr|A0A1S1J3N4|A0A1S1J3N4_9FLAO
+MKITLKIKLLVVMLCAVTNWSFAQKTVFNIKYSEQLAVFVFLQNLSENYPDNVFKTEFQK
+SKYNTEKFQKLAVEFDHLTLDYSYPFEEFPEGSKKPMQSFDFLRKNLIETENLKDFKIRS
+IGVLTNKTLNDLTRIISAFTPIYNELIYNPNKEKFEKQLVEITKYAKENDLERYFEMGLI
+FYNSSWDTSIPFEIAFYPLPNSKGFTANSFGNNFISAIQTDLDDYKDLFSVMLHETYHII
+YNEQPLEVKKMIDNSFKENKSKYSNYAYHLLNEALATSLANGYVYAQLNGKVDDGDWYNK
+KYINLMAKEIYPMLNEYISQKKAIDKSFIDRYIEIYETKFPNWINEMDNLMAYRYVISEN
+EKDFDVIKQKYRYRSRSEDETEISRSTLEKMQKSNLTKMIIVSKNNAENLKLIKNSFKEL
+KNWKFNAAKEFDYKILLEDKSQLFIINQKESELKALLD
+>tr|A0A1S1J373|A0A1S1J373_9FLAO
+MRKVIFILIILLSAYGHAQVTSSAMSGTIRSNKGEPLPGAIVEIIHKPTGTKYYSTTGFD
+GGYAAQGLRPGGPYTLKVTYIGYKTTEITDINVGLGNNLTVNVKIDEEANALQEVVVTTK
+SNGNFNKGKTGASQQFTNREIVAVPVLGARSVNSITKYNANAGANGTFGGQDSRLNNFTI
+DGSVFNNGFGLGSESQAGGRTGSTAISLDAIEQLQVNIAPYDIRQSGFLGSGINAVTRSG
+TNEIEGSVYNSFRSNKSSFIGTHPGKDVTIKPGKFDEKIWGARIGAPIIKDKLFFFGNFE
+TIENTSPATTWTSTGSPQGGAQISEPTYQEMQTLSNYMRDKFGYETGPWENYDATKTSKK
+FLARIDWNINDNHKLTARYVHHDSSSDELTSNSNSLGFGNRRTSTLAMSFKNSGYTILDN
+TRSIVLELNSKLGNSWYNNFIAGYDKQIEDRGLQGGGLFPTIDIKKGTANYISVGLDPFT
+QGNKLSYSTLHFTDNLTKTIGKHSIVLGANFEYFKSSNLFFSGSNGVYIFNSLADFYAAA
+DQSAANGGAPSTATATSPARFQYRYSALPGAVEPLQVLKTNKLDLYAQDEIKLSERFKLS
+VGLRASRVWFADTALENPTVTAMTFANGEKFNTGEMPDAQYLFEPRVGFNLDFNGDASTI
+VRGGSGVFTGRAPAVYLSNQIGNNGVLTGFIDASGAALATGGYGFTPRPAQYFTPSTPTL
+PSTFDLAFTDKKFKYPQVWKTTMAVDQKLPFGFVGTIEGVIQKNINAINYYNANFDAPVG
+TFTGADNRPRYSRNDNGTRINDNVSNGIVLTNSDKGYFYSTTFKLEYPYQKGLWGSFAYT
+HSQAADLISPGSIASGSWTSARSVNGNNDLDVSLSNNNTPHRLVGVLGYRIEYGKGLGGA
+TSINLGYIGETANPFTYAYSGDMNGDRVNGNDLLYVPNSASQLSFAPLAVSSTVNGVTTT
+RTYTEAEQRTAFDAYIDQDKYLRTRRGQYAERNAAILPMLHRLDLSISQDVYIKIAGKKN
+SFQFRADILNFTNMINKNWGVTQRATNPNVLAYSSTTAGNVPVYTLATQTDPDGNRYLIK
+DTFQKNASAFDVWQAQFSIRYIFGK
+>tr|A0A1S1J6E6|A0A1S1J6E6_9FLAO
+MFKIFIQRPVLSTVISVIIVILGILGLAALPIAQYPDIAPPTVNVAASYTGANADVVLKS
+IVIPLEEQINGVENMTYMTSTATNDGNASIKIFFKVGTDPDLAAVNVQNRVSRATSLLPV
+EVTQAGVTVTKSQSSNLLIFSLYSDDKAYDQTFLQNYAKINLVPQIQRVVGVGDVTVFGS
+RDYSMRIWLKPDVMQQYKLIPSDVSAALAEQNIEAAPGKFGENGDQAFQYVIKYKGRLTS
+AKEFEEIVIKSAGNGQLLRLKDVAKVELGSLSYSSTSTTNGRPSVGIAISQTPGSNARDV
+INNSKKLIDEAVKTFPKGIKYTVLINVNENLDASIEKVIHTLVEAFILVFIVVFIFLQDF
+RSTLIPAIAVPVAIVGTFFFLNLFGFTINLLTLFAMVLAIGIVVDDAIVVVEAVHAKLDN
+GYKSAKKATIHAMNEISGAIISITLVMAAVFIPVTFITGSTGVFYKQFGITLAVAIILSA
+VNALTLSPALCALLLKPHADDHKHQSFIQRFYTSFNVAFDNVTEKYKRSVQFLSIKKWIA
+LGSILFAAGALFYMMKTTPSAFVPAEDQGVVFANISLPPSASMERSDVVAKKVDSIAHTI
+PGVENTLRIVGQNFTAGAGSAYSMVIVRLKSWEDRELSVDDVIGQLFAKTSGIREANIFF
+ISPPTIQGFGQSGGFEFQLQDKGGHSTAEFYKVNNEFLAKLSARPEIQYATTPFNPGFPQ
+YMMDINLAKAKDAGVSVNTILSTMQGYYGGLYASNFNKFGKQYRVMIQASPEFRTNTEGL
+NKIFVRNSAGTMAPITEFVKMTRVFGPESISRFNLFTSISITGAPKPGYSSGDAIKAIQE
+VAAESLPAGYGYEFSGLTREELASGSETIFIFVLCLVFVYFLLSAQYESYILPFAVLFSI
+PFGLAGAYLFSIIFKLNSNIYLQISLIMLIGLLAKNGILIVEFALERRRKGLPIVQSAIE
+GAVARFRPILMTSFAFILGLVPLMFASGAGAVGNKSIGTGAVGGMLIGTILGVFVIPVLF
+IIFQTLQERVSGPPKENYDDEGDDDEEVQLIETRKE
+>tr|A0A1S1JCA0|A0A1S1JCA0_9FLAO
+MKYILISITALLFFSCNKKDEVKQGETGFTKEVLSSGIVGIGRVEPEEKLSLLATEVGGV
+VLAIHKKENDTIGKNDLIIELDHSVQDAKIARIKSRIQTQKAEIDIAQLKLKEQKINVAN
+KQIELERLRNLQEKGAEIKQNVDNLETETKIFQTNLEQLKSKILVENSRLQEIKQELEVS
+NREMQQYLIKAPGDGQIMTMYATKGAALSPSQSFADFIPKSNLVAACEIDELFADKVKKG
+QKAIIRQIGSNKIIGSGKVIFASLALKRKSIFSEKAEDQEDRRVREIKILLNNPTKYLIN
+SRIECVIQVSK
+>tr|A0A1S1JAF3|A0A1S1JAF3_9FLAO
+MAPSRKKYFIYIIFLVFPISLSLYAQNTTVERPTSTEVISEIRGCENQKIKNADQVCIGE
+LDNSNQLLAGLSIPKDSLSMAAEGKHQNSECKENSFLTGSFSVLAKDIIENYKYDFSETF
+IDILFFEDIDLARTRTI
+>tr|A0A1S1J591|A0A1S1J591_9FLAO
+MDVLKKVKSATLVEALVATVLIVIVFVIASLVLNNLVLNTFSKNTHMIENRISELEYEIQ
+NKAVKVPYQENYKDWDIQISQDPGSTTKIINISAINIRSKKEISKQQILWQQEN
+>tr|A0A1S1J866|A0A1S1J866_9FLAO
+MEDDYTEVQKSWWDRNWKWFVPTGCLSLVVLFGLFITALVFGVTTMLKESDSYKSAMNEA
+QHNAIVLEKLGSPIEDNGVASGSVNSSNSVEHCNLQIPIRGSKSRGTLFVVGTKNGTWKY
+DEMSLYVEDTKEKIDLLKK
+>tr|A0A1S1J0M6|A0A1S1J0M6_9FLAO
+MQKRNTYTEIEDFLSDESFQSWILSKIDNDSWEEWTLESRQRAKLVEDARLLLLAMKVPD
+QTISPVDLHHALQATWIKIEEKENQNNSTPSSKIKFLKKYFLSGIAAALIIGLGSVWLYN
+NQIIPNSKEVTYNELISENNEGLVEQTNNSDKAQIITLSDGSSVLLQPNSKLSYPKIFTG
+NERKVYLSGEGFFEISKNPKKPFFVYANEIVTKVVGTSFRVKAYSDQPDVEVLVRTGKVK
+VKSNDLVAKSDDDEVVLLPNQALRFQRKDLSFNKITNITQDIVLTRSVGNIEQLSFEFTD
+IPVSQIFETIEQAYLVDIDYPKNKLKDCHLTTSLSDQPLMEKLKIVCNSIGNKTTFEMNG
+NQIVIISDGCN
+>tr|A0A1S1J163|A0A1S1J163_9FLAO
+MKKKLASVSLLLLSIAASAQNTTTTSAQSSIDKPAYNKWSIELNGGLNKPMRAITPGYST
+ESLSAFHADLGARYMFNPKFGLKLDVGYDQFQERKDTPEFDSKYYRASLQGVVNLGRALN
+FETWTNTFGLLAHGGFGVSQLSSDKGFDGKDYMAHGIMGLTGQVRLSNRVALTGDLTGIV
+NGRQNHNFDGKGVPATGSLDGVLLNASVGLTFYLGKNTKHADWYSEDNERLNKLEDRVNT
+IETNLIDTDKDGVADLYDLEPNTISGVAVNTKGQSIDTNQNGVPDELESYLDKTYAKKGS
+EAAPTNKTVEELINGGYVNVYFDFNSSKPTNTSLSGVDFLVKYLKNNPGKSADIIGYADE
+IGNSSYNTELSRKRAEAVKKIATNAGIDASRLNVIANGEDTSVNKNSKEARQIVRRVTFQ
+VK
+>tr|A0A1S1J3G9|A0A1S1J3G9_9FLAO
+MQPKERILEKAAFLFHTQGYNSTGINQIIEEAKVAKASFYQHFKSKEDLCVAFLEWRHEY
+WFTKLEEFTSDQKDSKLKVLASFDFLIAMNLKENFRGCSFLNLLSEIPSDNEKVLSVIQS
+HKSDLRNYFKAEIENELLADHIYLLFESCIIESQLFKSNHLIEQSKKIIQTLIL
+>tr|A0A1S1J696|A0A1S1J696_9FLAO
+MKTIFYSNGKLLISGEYLVLDGADAFALPTKFGQNLVVENGTNQEISWKSYDFDGQLWFE
+DSIPFSEIIDNPKSEIETVKTTLIQILHEAYLLNPEFLKNTDGYKISTHLTFPKNWGLGT
+SSTLLNNVAQWTKVNAFTLLKNSFGGSGYDIACAQNDTPIVYQIENNAVKPISFNPDFID
+KIHFVYLNKKQNSKAAIKAYYNNKNQNLAQNIAENNKITSSLINAKTAKEFAFAAEKHEV
+HLSDILEMETIKEIAFPDFNGVVKSLGAWGGDFVMVISKEDPRSYFASKGYETILSYEEM
+ILQK
+>tr|A0A1S1J9K4|A0A1S1J9K4_9FLAO
+MKLDRKEILKALETITIAGEGKNMVESGAVANVITFGDEVVVDLVLHTPAMHIKKRAEDD
+IKKTIHELVSPEAKIKVNIKVETPEKNEIKGRAIPGIKNIIAVASGKGGVGKSTVTANLA
+VTLAKMGFSVGVLDADIYGPSMPIMFDVENEKPVSITVDGKSKMKPIESYEIKILSIGFF
+TAPSQAVIWRGPMAAKALNQMIFDADWGELDFMLIDLPPGTGDIHLSIMQSLPITGAVVV
+STPQAVALADAKKGVAMFLQDNINVPVLGIIENMAYFTPEELPDNKYYIFGQEGAKNLAE
+DLNVPFLGEVPIVQSIREAGDYGRPAALQTASVIETVFEGITRNVVQETVNRNDSLPATE
+AIKITTMAGCSAVKKN
+>tr|A0A1S1JB26|A0A1S1JB26_9FLAO
+MEVFLNPDAWIALLTLTFLEIVLGIDNIIFISIVTGKLPEEDRKKATRIGLFLAMFMRIA
+LLMGISYLIAMKATLFSIHWRWFEGDFTGQAVILFLGGLFLIYKSTKEISEKVDHHAEEE
+KTLKTVAKKSFSNVIMQILLIDLIFSVDSILTAVGMTNGVHGALTIMITAVVISVLVMML
+FAVPVGNFVNKNPSIQILGLSFLILIGFMLITESMHLSNAALAGEHIGAVPKGYLYFAIS
+FSLAVEFINMRIRKKHSSH
+>tr|A0A1S1JBF6|A0A1S1JBF6_9FLAO
+MSEFWIYFQIGLKHVLDINAYDHVLFLIALTTPYLFKDWKRILLLVSVFTIGHTLALLLS
+VYGIIAIKVNTVEFLIPITILITAVFNLLTAGKNSKNDGLNVVFFVTLFFGIIHGLGFSN
+YFKTILGGSPGSKLLPLGEFALGIEAAQLVVVFVVLILSYIVQTIFRFSKRDWALVMSAF
+VIGVVIPMIIESPIWNR
+>tr|A0A1S1J636|A0A1S1J636_9FLAO
+MTITQLQYVLAVAEHKNFTLAAEKCFVTQPTLSMQIQKIEEELSIQIFDRSKKPIQLTDI
+GQKIVNQAKNIVNEADRIKDIVEQQKGFIGGEFRLGIIPTIMPTLLPMFLNNFIKKYPKV
+KLLIEELNTDEIILKLKNGHLDAAIAATPLEDEKIKEIVLYFEPFVAYIPEHHASFQKEE
+IEVADLNINEILLLQDGHCFRDGILNLCKNASDLDQNNFQIQSGSFETLIKLADEGLGTT
+LLPYLHTLDLKDSDKQKLRNFKEPKPAREVSLIYPKSELKMQIIDALRSTIAGVVKGAIV
+FQNVQIISPLQQKK
+>tr|A0A1S1J4P8|A0A1S1J4P8_9FLAO
+MSILTQHFNTKHNTAPFSQIKIEDYVPAFNEAIALAKAEIDAIVNNPDEPTFENTVVAMD
+FTGDVLDRLSSIFFNLNSAETTDEMQKIAQEVSPLLSEFGNDITLNAALFAKIKAVYEQK
+EKLNLNPEQTTLLDKKYKSFSRNGANLPEDKKEDLREIDKELSKLSLQFGENVLAETNAF
+ELHLTDEKDLAGLPEGTIEAARLLAKSQEKEGWIFTLDYPSYIPFVTYADNRELRKKMAI
+AFGAKAFQNNEFDNQENVLAIAKLRFKRANLLGYKTHSHFVLEERMAESPEKVFSFLNDL
+LAKAKPAAQKEFAELTAFAKDLDGIEQLEKWDGAYYSEKLKQQLFNLDDEKLKPYFQLEK
+VLDGAFTVAKKLYGLTFTEVFDIDKYHEEVMTYEVKDAENNLVAIFYADFFPRRGKRNGA
+WMTSFKSQYIKDGTNERPHISNVCNFTKPTETKPSLLTFNEVTTLFHEFGHGLHGMLANT
+TYPSLSGTSVFWDFVELPSQIMENWCYEPEALALFANHYETNEIIPIEYVQKIKESASFQ
+EGLATLRQLSFGLLDMAWHGQDPTGITDLKTFETEQFANTQLYPDVKENAMSTAFSHIFQ
+GGYSSGYYSYKWAEVLDADAFEYFQENGIFNYEVAAKFRDNVLSKGGTEHPMTLYKRFRG
+QEPKPEALLKRAGLL
+>tr|A0A1S1J6H9|A0A1S1J6H9_9FLAO
+MKIVISPAKSLNFEKELPTTQYTEPHFLKEARVVHKILKTKKPAELSELMSISAKLSDLN
+WKRNQDWKTPFTPENARPAVYTFDGDVYTGLDAYSIPVEKLDVLQSKLRILSGLYGVLKP
+LDLMQAYRLEMGTKLPVGEYKNLHEFWKPTVTKALNRELSKGELFVNLASNEYFSAVDVK
+ALKVPVITPDFKDYKDGKLKMISFFAKKARGMMVRYIIDTNAETIEDLKGFNYEGYQFDG
+NLSKGNHLVFTR
+>tr|A0A1S1J906|A0A1S1J906_9FLAO
+MPQSLSKVYVHLVFSTKRRYPFIDNVIQERLWEYLGGICKGLECNPIQIGGYQDHVHVLC
+LLSKKITQMKLVEEVKKQSSKWIKTIDDRYAKFYWQDGYGIFSVNPSELERVIQYIKNQE
+EHHKKRNFREELLAFLNKYQVAYDERFLWD
+>tr|A0A1S1JCT6|A0A1S1JCT6_9FLAO
+MTLFSDTELFATGLKGKKIFDLPDAELILIDNFFTKEESDRFYEKILHQTKWREYEMEMY
+DKIVTAPRMISWYEDKDNVGADPNGPDWTYELLTIRGRVERETQLEFNSLLLNLYRNGND
+GVSWHSDKEHNSGPDPIIASVTFGETRMFRLRHKFRKEIPQVEIPLHHGSFLLMSGTTNS
+FWQHQVPKTARDVLPRINLTFRRTNRKS
+>tr|A0A1S1J0W6|A0A1S1J0W6_9FLAO
+MRTLFSFIAILILFGCESEGELTREKIGSMVVSSEAILLSTGTFEAEGGNTVTGSAQIHK
+DGDLYKLSLKDFSISSGPDLKVYLSKTNRPESFVNLGSLGTGNSQTYTIPPGVNLAAYPY
+VLIHCQQFNHLFATAALKSNSL
+>tr|A0A1S1J232|A0A1S1J232_9FLAO
+MRKLALIALFLIQLSHSFAQSKNSPLQISHLTGDFYVYKTFHDYNGTLISANAMYLVTDK
+GVVLFDAPWDKTQFQPLLDSIKARHHKEVVMHFATHSHEDRAGGLDFYRKKGIKTYTIKA
+TDQILEKNKEARAEFVIPDDTLFTVGKYTFEVYYPGKGHASDNIVVWFNKQKVLYGGCFV
+KSVEAKDLGYLGDADVKEWQKSILKVQSKFKNPKYIVTGHDDLKDLTSLKHTLKLVKEYN
+AAKSSGK
+>tr|A0A1S1JC72|A0A1S1JC72_9FLAO
+MNLFNEVLAAQKQLENVVAATPLTQNLNLSDEFKSTILLKREDLQIVRSYKIRGAYNKIS
+SLTETEKASGIVCASAGNHAQGVAYSCHLLQLKGKIYMPKTTPKQKVKQVQLFGKSFVEI
+VLTGDTFDDAYASATADATENQKTFIHPFDDDKVIAGQGTVALEILDSYKEPIDYVFVPI
+GGGGLASGLSEVFKQLSPNTKIIGVEPKGAPSMKNSIEANKNTALKTIDKFVDGAAVKQV
+GDKTFEICRTNLDDIILVPEGKVCTTILRLYNEEAMVVEPAGALTIAALDFYKDKIKGKK
+VVCVVSGSNNDIERTAEIKERSLLYEGLMHYFMIQFPQRPGALKEFVNNILGPDDDITYF
+QFAKKNSREVGSVVVGLELKNKKDILAIKMNMTKNGFEFQYLNDRQDLFTQLIG
+>tr|A0A1S1J1I3|A0A1S1J1I3_9FLAO
+MKNKYIKIFCIAIVGAMTLTSCDKGFEELNKNPNALTDPAVKSMFTLAEIYVDGQDFSNT
+RGNNLYAAQIVQQFSSLGGPGSKYSYAPEYSAALFSESYGKGLNQIFQLMSVAKDAPENS
+NMIQACRIMKVFMFQKLTDTYGEVPYFDAGKGYNGNVFAPKYDTQEVIYNDLLKELDEAG
+DALDATKPFVGNADLYYQSNVTKWKKLANSLMLRVAMRLSKVNPAKAKQYVEKAVSKGVF
+TSNDDSLVLKHDAGPVGVKTNPITSSWVRNDLNGGEANIKFSKTFIDALKNNNDPRLRIY
+AKLEATGNNNPASQQGLANDAKEFPGGDKKKFSDPNTSTVLRLDAPTLIMSYAEVQFILA
+EAAVKGWSVGGNAQKFYEDGVKAAMEVLTIFGDKVPAVTPAEYTAYITANPFKAAGTEAQ
+KIEQIITQKWIVLLFNGFEAFSEYRRTGYPVLVPVNDPTGETKGTIPRRLIYDQSELITN
+SANYKEAIARQGLDLMTTRIWWDKQ
+>tr|A0A1S1J8N9|A0A1S1J8N9_9FLAO
+MNKVVTLLLSVFIFGTNVYAVTTDTLRVGAFGKIMIYKPKITPTAVVLFVSGDGGWNSGV
+VDMAKNIVDQGAVVAGIDIQHYFKEIKKEKSKCYYPAGDFEELSLMLQKKIKMKQYLKPI
+LAGYSSGATLIYGMLAQAPANTFGGAFALGFCPDIETDRTLCDGSGLTSHVLKDGKAYFL
+EKTEKLSAPFIVLQGITDQVCNYADTKKYMEGMKQGKLITLPKVGHGFSVTKNWLPQFTA
+AFREIVNTPNYNQQKSEQNLLLKEQHLAPLPFEMPLILIPTKSKEESLPVAFLISGDGGW
+TSFDQSVGETLAEKGIAVIGLDSQKYFWNAKTPVETSNAIAKAVEHYLQQWNRKTFLLAG
+YSFGASVIPFVAGNFPESLKEKLKGLYLLSPDVKADFEIHIADMLSMESSKDTFDVISEI
+KKIKSYNPICFFGDEEDAATRNRFSEAGIKTIALPGSHHYNNDYNKIAESILKEVK
+>tr|A0A1S1J9J5|A0A1S1J9J5_9FLAO
+MKAALLHIKNFFQSLHLKKYVRRFGFFILGIIALLLLTCGGLSIYFNQNKAEIITKINTK
+INENINGKFHIGDFHYKFLTGFPNFTLALKEVEVKDNQWATHQHTLLKAQEIEVRLNVWS
+LIQNEINIHKILINDAAIYVYKAPNGYSNANIFKPKKKKAPEEKSDTETTIDQIELNGVH
+FTLNNLLGHKLFDFDVDRLQSKVEHDGDNWQTDVYLNTQIKSLAFNTVHGSFAKQKELKG
+TFAVAYSAPKERIDVVTKDLKIGTDSFDIIAFFNLAKGNALFGINISTSILWQNASNLLS
+ANISSKLNRFNLKKEIEVNCDIKGDFNAEGDPRIVVQAIAKNNELSIPDGLIKDCNFKGI
+FTNNFKPTAGYNDANSAIILTKFTGEYENIPLTIPQLSINNLEKPLATGNLSSDFDIERL
+NQISNDKWIQFTSGHAKANLAFQFDIVDLYINKPRFIGKIDVDDASFHYIPKNVRAVKTN
+IHLDFTEKALLIKQIAYKHNKNTIFIEGEIDNFLNLYYDAPEKMIVNWKIYCPNIDLKQF
+LGVLASSQKVKGPAKTAKRPTISNHLRSVIDKCSVVIDIKADKINYNKLVATNTTARIQM
+LDSKLVIKNGSLQTSGGTITFDSEVVPNGKNYAFSSNAQVNRVEIASFLKSFNNFGIQSF
+SPNNIKGKLTSTASVNGFINSRGELISNSIRGKLGFKVNQGALVNFEPIVKIGKFAFPFR
+DVENITFSDLSGQLNMRGEQIDINNLTISSNVLNIDVNGIYSFGRGTNLALTIPLRNSKN
+DAKLATQAERDAVRERGIVLHLLAVDDNGKMKIKWGKRDK
+>tr|A0A1S1JAD1|A0A1S1JAD1_9FLAO
+MAIHRLDLDEFDEIDYYLMAIHTSLEDYRLAYFINKNLPINLSKSKNEIHAQTKEGEANF
+SRFYYYDSEKAVSWNLIQNKNEIISVSKNDSQDLFSNETSEVSTTIHLLPEFKKVDFFLK
+IDNSEEALDFSEIQQQLNKIESIAAIYAVDTDKIKSKNNLIF
+>tr|A0A1S1JFW6|A0A1S1JFW6_9FLAO
+MGQYKSRQEFLKNNPRSIAFAALAKATKMQNTITNQAIKLSPNQLEGKEVIIIGSGVGGL
+TTAYELLAQESGAKVTILEASHKTGGRCMSLRTGDTLIEDENSDLFDSKPGEPQVVRFKR
+PVGDSEPYLNAGPGRIPSSHKRLLSYLKRFSVDVEIYVMNSESNLVQKDESFGGEPMVYR
+RLDHNTRGWLAHMVYKNAEELLRNSQVGISESNLNTRVEELQSLMISFGELDVDGTYSAT
+AGSPGFEDGKTRAGYEVLPGVAAGIVADVLSFDKLLESKFWEGTKFYQPTDFLWQPTLFQ
+PVGGMDQVQHAFAQQVAALGGNILLNSPVKKIKWDSTKEKYIISVGQVGTEEPIYYEADY
+CVCNLAMPFLKNILDSDLLNSRLEPEFKDALEAVFVAQFEPTQAPGYEAREDGYIPRFLA
+CTSKVGWQANRSLWQGSPINLKTMAVEKSEVGVVPIFGGISWTDNEIQQIWYPSTAYQDE
+KGVLTGAYNFDKVAHDWGKLPVNERLTKARNDASKFGNKFAEGLGEGVAIAWQNMPNIKG
+GWAYWQAVGDANYSTKQFNAIAQGSGIIDPNTKNASNANFFIVGDQISSLPGWQEGAIAA
+ALNAITRMAKPEVKIQPLKNLPDTRLMVEGI
+>tr|A0A1S1J425|A0A1S1J425_9FLAO
+MGKIIAIANQKGGVGKTTTSVNLAASLGVLEKKVLLIDADPQANATSGLGIDVESVEAGT
+YQILEHSITPKEAVLKCTSPNVDVIPAHIDLVAIEIELVDKENREYMLKKALESVKDEYD
+FIIIDCAPSLGLLTLNALTAADSVVIPIQCEYFALEGLGKLLNTIKSIQKIHNPDLDIEG
+LLLTMYDSRLRLSNQVVEEVQKHFNDMVFDTVIQRNVKLSEAPSFGESIINYDATSKGAV
+NYINLAQEIIKKNSK
+>tr|A0A1S1J788|A0A1S1J788_9FLAO
+MKTTSAIYQKLEAFIKKYYTNELIKGGLLFIGFGLLYFLFTLFIEYFLWLKPFGRTVLFW
+LFVGVEVFLLFRFILFPIFKLFKLQKGIDYNQASAIIGNHFTEVSDKLTNFLQLSASGNT
+AESSELMLASIEQKANSLQPIPFGNAINFNNNKKYLPLAIVPVLLFAVFYISGNSTIISQ
+SLNRVVHFNATFLPPAPFKFVVLNQNLQTEQNKDFVIKMESVGKIVPENVMIHIGNESYF
+MESSQPGKFEFKVEKPVENVSFSFEGNTVSSEEYELKVITVPSIANFEMVLNFPSYLKKK
+VEIIQGTGNAILPEGTLVTWKMKTQSTQEIVWKGENSIFKFNRDQNEFKLAKSISQNTEY
+QILTSNNKVKNYEKLDYQLSVIKDQHPSIHVAPAPDSLKLDKNYVLGRLGDDYGLSKLQV
+VYYERNKPNTAKRGTIPVKSGVFDQFVFNFPSNLAVQEGVSYEYYFEVFDNDAPHGFKST
+KSSVFSDRVATTDEIHDLELQQQNENINSLEKSLKNQTKQFSEMDKIQKAGKEKENLEFK
+DQQKVNDFIKRQKQQDELMKQFTEKMNKNLDKFQSDKKDKTAEDLQKRLDNAEKDLEKNQ
+KLMEELKNLNDKLNSEDLFDKMEKFKQISKNQSRNLEQLVELTKRFYVSKKAEQVAEKLN
+KLAEKQEQLSNKDKENTQDKQEDINKEFDKIQEDLKNLKEENKTLKAPLDIPNDASKEKE
+VKNDLQKASEELSKKNSASAKPKQKSAAKKMKSMAEQMDAGMEGGEQEQMEEDVAMLRQI
+LDNLLAYSLSQEDVMKQFRTMKLGSSAYTKNIKIQQNLKQQFRYVDDSLFALSLRNPKVA
+EDVTKEIGNVQYNIDKAIESLSDVQVPKGVSHQQYAVSSANKLADFLSDLLNNMQMSMSK
+PGSGKPKPGDGQGMQLPDIIQKQKGLGDKMKEGMKSGSKPGDKPGDKSGEKPGDKPGDKP
+GDKPGEGKNGEGKESNGKDGKGKNGDGKTGQGNKNGGQSNGQMKDNDGEGDAEAIMEIYK
+EQVKLREALQKELAKKGLDSQGKSVIDQMKASEKQILNKGFKNENLQRILNIQQELLKLN
+NAVQQQGQDTKRQSETNKTEFPNRTNALPSSLLEYLNSVEILNRQSLPLRSNFNQKVQEY
+FNTK
+>tr|A0A1S1J7Y1|A0A1S1J7Y1_9FLAO
+MKKTILIGLFAALPIVVFNSCNTSNSQTLASKTADDDSYITIDTSKIPDDPFGESVRYGR
+ELMLKTAYYIGPNGIKGKYLGNKMNCTNCHQDAGTKPHAFNLMASHDNYPQYRGRENKVL
+TLAERVNNCIMRPHSGKPLPLDSKEMVAFLSYFKWISKFVPKDGDFKGAKNLEIEFPDVA
+ASPERGKALFIENCARCHGNNGEGQYNADKSGYTYPPLWGQYGYQPGSSMHRVIKQAQWL
+KSNMPYDKVSPGKPYLTDLQALDIAAYVNDDSVHDRPNPKTFDYPNKMGKPIDYAHSPFS
+DNFSEEQHKYGPYKPIIAYWKKNGWKAVY
+>tr|A0A1S1J8U7|A0A1S1J8U7_9FLAO
+MTLKNRISLLVSLLFTILFGLASTLIFVLYSNFRKEEFRDRLEIKALSNIKLLVNVKEVD
+DQLLKVIDQNSINQLYDEKTLVFDSNFKLIYSSIDDAKINWSIEDLKYLRKHKTFFKQQG
+DYEVYGVFYDTKDRDFYALISATDDYGKRKLLFLRYTLIISYIFFTCICWVLTSFMVKKA
+MSPLNIFHQKIKNINENNLDTRVASKNNKNEIDLIANEFNFMMDRIEVSYQKQKEFTANA
+SHELRTPLSRITSQIENTIADPATSDKGKSFLKTILSDINQLTELINSLLILSKIDNKKN
+ENKEVHRMDEILFSAIENLNKSYPEFLILFEIEESNNLDTALEINGNKNLLEIAISNILK
+NACVYSDNKQAKVIISTQDDHLVISISNTGQTLNEEEQKNLFQPFMRGKNSKGTTGFGLG
+LRIVHRILTLHNASITYSVPDINTNLFQLFFHL
+>tr|A0A1S1JBT5|A0A1S1JBT5_9FLAO
+MREVAFIKQNKEKWLEFELAIFGKAKKNPDELANLYIQMMNDLSYAQTYYPKSKTVIYLN
+HLASQIYQKIYKTKRTEKNKFLEFFVTEVPLLMYEYKRYLLYAFALFFLTVGIGVVSARY
+DQDFVRLILGDSYVNMTLENIKKGNPMAVYGSGSNWGSFIGITMNNLYVGARCYIYGIFG
+GLGTFYIFLQNCIMLGSFQYFFYEQGVFWKSVRGIWIHGSMEIFAIVIETTAGFILGASI
+LFPKTFSRMNSFKIGFKNSFKIFLSTFPFTISAGFLEGFITRYSIDMPNWLSSFIILLTL
+AVISFYYLIYPFIVHKKTTLS
+>tr|A0A1S1JD01|A0A1S1JD01_9FLAO
+MLLTNRDIDSIFIKIFHFIQEHHKRFIFHCSGAFLIPENYIYQKHFTPLEQFQKKQDALL
+FKPKFNPPFFLQIYPTIRKSKDLKSKFVSRN
+>tr|A0A1S1J5B6|A0A1S1J5B6_9FLAO
+MRNCTKLLALLLGVILISCKRETKTVSSKNEVKREQLDKKVYTSNRESDFKVAPVNFLEE
+KYKVNGYCLQDHSPTFPVYFFDLEDLGFFDVNYIGKSSLIQDYWSVYNKKGFFSEFKINT
+GDETSKEINDKVSQILKQKLNEYYIVASFLPKEAVSKYYKDGSGDFDLKENACTYFYIHE
+NNKWVFLKKLLTNKITKEGIDLYTELLLSYKLKNLKAIDENYQGNFSATVEEELTTEGTR
+HSTYNFTIREDKISLKLDSFYGHSIGEGDYKGTEENNVLELYYNGNDDRCIKLDPTYLIK
+KEGNKYFIKGVGGEGTFHEWIKLDKK
+>tr|A0A1S1J9G5|A0A1S1J9G5_9FLAO
+MEKQYLNINAKNFPEIYDLYWNELFCFCRHHVGDEEAAKEIVQQIFISIWERREQLQIET
+SVRAYLYGAAKLKIVEYHRKQVTKKKHESTHFAEMNKVSNNTEEHILHKDLLRELQLAIS
+TLPERCRQVYLMSREDGMDNRSIAASLVITEKAVEGNITRALRHIRDHLKVFRSLVIFFT
+PLCRVSEDLCNYIII
+>tr|A0A1S1J2X3|A0A1S1J2X3_9FLAO
+MNLKIAVLPGDGIGPEVILQAKKALHAIGEVYNHEFVFEEALMGAIAIDKTGNPLPEQTL
+NLCLNTDAVLFGAIGDPKYDNNPSAKVRPEQGLLKLRKELGLFANIRPIKPYKSLIDASP
+LKREIIDGADFTIFRELTGGAYFGAKTLNEEGTHASDLCEYSEEEITRIAHLAFKSAQNR
+RKKLTMVDKANVLETSRLWRKVVQKVGQSYPDVALDFLFVDNAAMQLILNPKQFDVILTE
+NLFGDILSDEASVITGSIGLLASASLGEKNALFEPIHGSYPQAKGKNIANPIASILSAAM
+LLEHFGLFKEAAMIYKAVEKAIEFKVVTVDLKPDSKFGTNEVGDFVSNFIFSKDDLLYFN
+NDNVHIGQSTIV
+>tr|A0A1S1JAI7|A0A1S1JAI7_9FLAO
+MKKREPISHIMTKSVITASENDDLKKIVELIKQHTIRHIPIVRGKEVIGIISRTDINRLT
+FGALFEGQEEADEAILEMLSISQIMTSKPKTVSSDTSIRDLAQILVTEEFHALPVVDNGK
+LTGIVTTTDVMKYLLEQYD
+>tr|A0A1S1J2M7|A0A1S1J2M7_9FLAO
+MEQKLPLPPFTYETALEKIQLAEDAWNSQDPERVSKAYTVDSEWRNRDQFVNGREAIIRF
+LTQKWEKERHYKLKKEYWAHTENRIAVRFEYEYQNPDGNWFRAYGNENWEFDANGLMQKR
+FASINDLPIKEEDRKLK
+>tr|A0A1S1IYB9|A0A1S1IYB9_9FLAO
+MFTKYNKIAFSGILALTLFFANPVVSQQKKAKQTNLDYTQYVNPFIGSAGHGHVFVGANV
+PFGAVQLGPVNVFEGWDWCSGYNYASNTILGFTHTHLSGTGIGDLNDILLLPVSGKVPLT
+KGTKEDMTTGYGSYFSHQNEVSKAGYYSVILDKYKIKAELTATERVGFHKYTFNSTTDNH
+VLLDLADGIGWDKPVKTFIKKVNETTLVGYRYSSGWAADQRIFFTMEFSEPIAAMTLYDA
+TTAIAGNEGEALKMKAVLDFKTVKNKQILVKVGISPVSYENASANIKAEIPGWNFEAVAK
+EATSKWNQELNKIQIKADDKTMKVFYTAMYHTMFAPSIFNDVNGDYRGTDKKVYEKANFT
+NYTTFSLWDTYRGLHPLYTLTQPEKINDIVKSFLAIYEQQGRLPVWHLMGNETNTMNGNH
+SIAVIVDAYMKGYRGYDVALAYEAIKKTAMQTRDGMDYVQKLQYIPADKMLESVGNALEY
+AIDDYCVALMAKDLNKTDDYNYFSKRANLYKLYFDKETTFMRGKLTDGNWRTPFNPLSSA
+HRKDDYVEGNAWQYTWLVPQDPYGLIDLFGSEDKFLAKLDSLFLITDKVEGEEISPDISG
+LIGQYAQGNEPNHHIPYLYAYAGQPWKTAKLIREIDEKFYSTKPDGLCGNEDLGQMSAWY
+VFSSMGFYSVNPANGIYVLGSPLVNTATIHHKEGVSFTLKAVDNSKTNIYIQKAEYNGKP
+YTKSYITHDMIVKGGELKLFMGSKPSITFGVKKEDRPL
+>tr|A0A1S1J0W2|A0A1S1J0W2_9FLAO
+MQKDKLNWFKNVEHRTHPHPGLNWLTATLSVPDVARAIDFYTGVMEMVSISELEDQNNGE
+LLFARIRYRGNNFVLNKEHWDFQAVAPITSGQVPPFIFYLYVDDVKTLVAEIRKDKEAKI
+IAEPEMQFWGDLKARIQDPFGYIWDLAEKAN
+>tr|A0A1S1J3Q1|A0A1S1J3Q1_9FLAO
+MKNDLQFDFTVDKATKTVIINREFNAELPLVWDAFTKPELLDQWVAPKPWSSKTKHMTFE
+VGGRRFYAMVSPEGLERWAVQEYTSITPKTNFKMFNTFADQNENRELPGSNWDHSFSEQN
+GITKVSISIFNESLERLEKMIEMGFEQGFKMSIDNLEQLLKTLSE
+>tr|A0A1S1J4U1|A0A1S1J4U1_9FLAO
+MNLNQIQNVYFIGIGGIGMSALARYFKNIGKQVSGYDKTPSMLTSELIESGIDIHFEDNI
+GLIPKDYYTENTLVIITPAVPKTHSEWNYFTERDYVVKKRAEVLGIITKDTFCFAVAGTH
+GKTTTSSILGHILYESGADVTAFVGGIVENYNSNLIGEGKTVTVVEADEFDRSFLHLHPN
+IACITSMDADHLDIYGTSDAIEASFVEFASKVEDKNKLFITKELPLEGVQCAINEEAVYK
+AFNVRIDNGSYVFDVQTPSEVMTDLRFGLPGKHNLMNGLMAIAMAKTFGTPTDSIAKAIA
+SFNGIRRRFSYQIKSENLVYIDDYAHHPTEINAVHQAVTELYPGRKVLAIFQPHLFSRTR
+DFADGFAESLSQFDEVFLMDIYPARELPMEGITSEWLLGKMTNSNKKIVAKDDLLAEIKA
+SDAPIIVTIGAGDLGEMVPSIKKMLNENI
+>tr|A0A1S1J8J9|A0A1S1J8J9_9FLAO
+MSSHHIVRDDQEPALIIANGAACHPELLGQLLEWSPLVIVLDSAIERVIELGIKVDVLLG
+DFDRGFDPEIYKTTQYPIEIVHTPDQDKTDLEKAFDYLIDRKIPAVNVVWATGKRADHTI
+TNITNIARYRDLLKIVILDDHSKVFLLPQKFEKWYTAKTPISLIPIGVVNGIYSTNLQYP
+LENDTLTIGYRTGSSNSVLQDGLVTIIHTDGDLLLMECMD
+>tr|A0A1S1JAI8|A0A1S1JAI8_9FLAO
+MFLEEYDVIVVGAGHAGSEAAAAAANLGSKTLLVTMSLQNIAQMSCNPAMGGIAKGQIVR
+EIDALGGYSGIVSDRTAIQFKMLNKSKGPAMWSPRVQSDRMRFAEEWRMMLEGTPNLDFY
+QEMVKGLIIEDGKIKGIKTSLGVEIRSKSVVLTNGTFLNGLIHIGEKQFGGGRAGESAAT
+GITEDLVRAGFEAGRMKTGTPPRVDGRSLDYSKMNEEKGDAKPDKFSYSDLTSPLTHQRS
+CYMTYTSLDVHDILRDGFDRSPMFNGRIKSLGPRYCPSIEDKINRFADKERHQLFVEPEG
+WNTCEVYVNGFSTSLPEDIQFKALRSVAGFENVKFFRPGYAIEYDYFPPTQLKHTLETKL
+VEGLYFAGQINGTTGYEEAASQGLMAGINAHLKVHEKAPLILKRDEAYIGVLIDDLITKG
+TEEPYRMFTSRAEYRTLLRQDNADFRLTPMSHEIGLASEKRLRRMEKKLNESEKMVAFFR
+ETSVSVTETNPILEAKETAPITQGDKMFKVFSRPQIDLEDMLKFEKVKAYVEENNLDQEI
+LEQAEIQVKYSGYIEKERNNADKLTRLEEVKIPENFDYDKIKSMSIEAKQKLSKIRPVTI
+SQASRISGVSPSDISVLLIYMGR
+>tr|A0A1S1IYQ8|A0A1S1IYQ8_9FLAO
+MKQINNNTAITRTKVLSQRKFVYLGLVAASIMVLASCGQKKTEEAPEEEKSQTEVALNEA
+QYKTVGIETGLVENRNLNKVIKANGYTTVPPQNSAEVSTLIGGTVKDIFVLEGTYVNKGK
+VLATIQNLEVIEMQEEYHSAVANIEYLQLEYNRQKTLSDENVNPRKTFQEVKSKLAAERA
+RAQAAKNKLEALHVSTKGSTSLVPVVAPINGYVGKISIAKGAYAQTGVVLFEVVDNSQMH
+LDLNVYEKDLGSISIGQVIDFVLTNQSNKSIKGKIFGINKSFSNESKTVAVHAKIESADA
+KGLIPGMYVSANINITNATVPALPKDAVVRNADKYFVYVEEEAHEEKKTPEKGNHEKEVH
+FRAVEVIPGTTDLGFTEIKFVENVDPNAKIVTKGAFYLLSAMKGGGEHDH
+>tr|A0A1S1J452|A0A1S1J452_9FLAO
+METSVTIIGIVIAIIVAIPIYFSARSNAANKSKILNIKKRFNPTHPENFDLTESQSNKTL
+TIDQKDKKFVLMNFNPNQEESTYVDLKNVSSCKLALTTDGNSDTILKIDFEFLDKETSKK
+NTIAFYDFDDDRIKQISAYQDHVFAKKWLKIIQDSI
+>tr|A0A1S1J4W9|A0A1S1J4W9_9FLAO
+MSTQTKQFTLHEDWTVVVLGFIIIGISLFIFLPEIPTFKWSTGTDLVVDVFNFGNLKIIG
+LQFIYLTAIGTLGAFLIGKSVKNFLLGFPIVYLLTIFALVISGNTTIKGLNLEAVIFSLI
+IGLCLGNFFILPRWFRSSLSTEVFVKIGLVLLGTTVIFSDILKAGSLGLIQALVVVLSVW
+YFAFWLCKKLKVDDELTMMISSAVSICGVSAAIATSGAIKGDSKKLSYVISIVLVTAIPM
+MIFMPVIAKHFNFPEEVTGAWLGGSIDTSGAVVASGSLVGETALKISTIVKFSQNVLLGL
+AAFAISVYWTYTQNKSEEAVAAKPTLAVIWERFPKFVIGFIAASLLFSFLLTAEVRDEVK
+DSLKNLQGIWFALAFTSIGLETKFKDLLGNTSRKPLYAFLIAQLFNIIVTLIIAFLLFKK
+>tr|A0A1S1J5S8|A0A1S1J5S8_9FLAO
+MKNKLVLLFLGCAVLGYAQKKNTKNTVKIKPKSEFVAELLSKMTLDEKLGQLNLPTSGDI
+TTGQANSSDVAKKIAEGKVGGLFNIKSVQKIREVQRIAVEKSRLKIPLIFGMDVIHGYET
+TFPIPLGLSCTWDMNLIERSARIAAQEASADGINWTFSPMVDVSRDPRWGRVSEGSGEDP
+YLGSQIAKAMVNGYQQNDLSKNNSIMACVKHFALYGAPEAGRDYNTVDMSHIRMFNDYFP
+PYKAAVDAGVGSVMASFNEIDGIPATGNKWLMTDVLRKQWGFKGFVVTDFTGIPEMIEHG
+MGDLQAVSALSLNAGVEMDMVGEGFLGTLKKSLDEKKVTIETIDNAVKLILEAKYDLGLF
+SDPYKYCDANRAKTEIFTANSRKEARATAAQSLVLLKNQNQLLPLKKSGTIALIGPLADA
+KENMPGTWSVATRMENAISLLAGIKEGAGASTKVLYAKGSNLDYDEEFETKATMFGKTLH
+RDGRSKEELLAEALKVADQSDVIVAALGESAEMSGESSSRTNLEIPQAQKDLLNALLKTG
+KPVVLVLFDGRPLVIKEENETVPAILNVWFAGTEAGYAIADVLFGDVNPSGKLTSTFPRS
+VGQLPIYYAHKNTGRPLVNTEGKFEKFRSNYIDERNEPLFPFGFGLSYTTFEYSNLKISS
+DKMNSGEKLKVTVDVANTGNYDGKETVQLYIRDVVGSVTRPVRELKNFQKITLKKGEKQT
+VTFEITVEDLKFYNSALQFVAEPGQFDVFVGGNSNAEKKVSFVLTN
+>tr|A0A1S1J6A5|A0A1S1J6A5_9FLAO
+MRRYRRDRYEVYRDEISTDESYNLAYRKVKKIKGFYTHLKVYLIVNAIIIVSNLNRDYFS
+HSVYENGLLDWRTYSTAICWGVALAIHAFTVFGPDIFFSSEWEQKKIQKYMEREAQNNNT
+KWQ
+>tr|A0A1S1J6Z1|A0A1S1J6Z1_9FLAO
+MTYIDIGINLTNKQFQNDTDDVVQDALDADVSQMILTGTSIRNSEESAKMARQYPGVLYA
+TAGIHPHDAKSFDAQSISKLRNLLKQKQVVSVGECGLDFDRDFSPRNVQETCYKAQLELA
+IEIQKPLFLHERAAFTKFMNITKDYLPQLPKAVVHCFTGTLQEAKTYLDNGFYLGFTGAI
+SDTKRFAHLKEVIQYVPLDRLMIETDAPFMLPKNVPNSLLKKYHERRCKPAFLPYVAGTI
+AQFKGITLAKVAEETTRNSKSFFGI
+>tr|A0A1S1J8C9|A0A1S1J8C9_9FLAO
+MRIVLQRVSEASVTVDQKKVADIQKGLLVLVGIEETDTQEDIDWLVGKIIKMRIFADEND
+VMNCSIQDIDGDIIVVSQFTLHASTKKGNRPSYIKAAKPDFAIPMYENFLKSLEREFNKK
+IQAGIFGADMKVSLVNDGPVTILIDSKNRD
+>tr|A0A1S1JBV7|A0A1S1JBV7_9FLAO
+MRIKSSGILLLSAILLFSCDKKRVFDEYKSVGSAWNKDSIVTFDLPVLDSTKRYNLFVNL
+RDNNNYPFNNLFLIVAIETPSGFTKVDTLEYQMANPDGSLMGNGFTDIKESKLFYKENVK
+FRGKYKVHIKQAVRESGKIPGVQTLEGITDVGFRIEQKD
+>tr|A0A1S1JC25|A0A1S1JC25_9FLAO
+MKKVYLLITLISFSVFSQKKFDNIKSEKLGEERRITIGLPESYEANPDKKYPVLYLLDGD
+YLFDPFSGAVSYGTYWGDLPEMIIIGVHQNKNDEREDDTTIDQNTGLPFEKGANFFEFVG
+AELVPYIEKKYRTSPFRIIAGHDVTASFINFYLYKEQPLFNAYIAFSPELANKMEIRVPE
+KLAKVTEPVFYYLSAADGDNKKLKEPIEKLDSNIKIANNPLVSYKYDLFKGTTHYTQVLH
+AIPSALYQIFDVYKPINSAEYNNKIAVLETGYADYLENKYNTMSKVLGVQIPVRMSDFKV
+IENLILKKNAYDELGKMAEIGNVNYPKAMLGEYELGLMYEKMGDPKRASKKYQNASQMEP
+IGDLNKDLMYEKMDQMNALAKTTK
+>tr|A0A1S1J0P0|A0A1S1J0P0_9FLAO
+MRKIKVIIVDDERLSREELKRALEPHEDFVLVGEAGNADEAKSLIEAKMPDLIFLDIQMP
+EKSGFDLLESLDNAPAVLFTTAYNEYAVQAFEVNALDYLMKPIREERFAKAIEKIRNTLS
+GKYSLGDVAVKDRKIFIKDGEKRFFIQLDEIYLIESLENYTRLFFQDKKALQRRSLRQWE
+EMLDENVFFRINRTEIINLNHIREVNRTASGKLEVTLKTGELLEVSNRQAVKFKNLNGI
+>tr|A0A1S1J1Z7|A0A1S1J1Z7_9FLAO
+MKESKKNASLLTDVTENRSGSYLSDEKKTTVERLKKPLIFTLMGIVCIGCMYLIFKPTTD
+KKQVENIGLNDSVPQASRSVMQADKQKAYEQEMLEQKEQQKHDALTALSDYWNEDSAGKK
+EDLPDNEEDPKNPALNSYRSAQSTLGSFYQEDNGETKELRRQLEELKGELAQKDVPAPAT
+IDDQLALMEKSYQMAAKYLPSVSNSAEPAGKNTPAPIAELQKENFSAMFPAKKSTISALY
+RQPSDSTFLAGWNANREFNSAGSWIQPKNSVKACVHQTQTIIGEAGVSLRLLEPARISGH
+TVSAGAMVTANAKIQAGRLQLKITSIELDGSIIPVDISIYDLDGQQGVSVPYSAERSALT
+EMAGNMSQQSGTSLMMTQSAGQQMAADLSRGVVQGISGYFSKKVRTIKVTLKAGHQVFLV
+SKK
+>tr|A0A1S1J2L6|A0A1S1J2L6_9FLAO
+MKTRNFLAVAILVLGFGFSSFAQKTVMVGGAAMYPTKNIIENAVNSKDHTTLVAAVKAAG
+LVETLEGKGPFTVFAPTNAAFDKLPKGTVETLLKPENKKSLQNILTYHVAAGKWSAADIA
+KAIKEGKGKAVIKAVNGGTLTAWMKGKDLYISDESGNKAKVTIADVNQSNGVIHVIDAVL
+LPKK
+>tr|A0A1S1J3I4|A0A1S1J3I4_9FLAO
+MENFKNVNPVKVDKTTIINLEKGKLPPQVLELEEAVLGAMMIDKKGVDDVIDILQADAFY
+KDAHKFIFEAIVQLFTETQPIDLLTVSAQLKKNGKLELAGGDFYLIQLTQKIASSAHIEF
+HSRIILQKFIQRSLIRISSEIIEASYDETADVFDLLDQAESKLYEVTQGNIKRSSETAQS
+LVLQAKKKIEEIAKKEGLSGVETGFHNLDKLTSGWQPSDLIIIAARPAMGKTAFVLSMAR
+NIAIQYGHGVALFSLEMASVQLITRLISSETGLSSEKLRTGKLEPHEWEMLSTKVKDLEK
+APLFIDDTPSLSIFDLRAKCRRLASQHGIKIIIIDYLQLMTAGGNNKGGGNREQEISTIS
+RNLKALAKELNVPVIALSQLSRAVETRGSSKRPLLSDLRESGAIEQDADIVSFLYRPEYY
+KIEEWDDDEASPTAGQAEIMIAKHRNGGIENIRLKFLGHLGKFDNLDDFSGSYDDLPSKM
+NHDDNSFITKSLPSANEAFGSNLNDDDDDNDVPF
+>tr|A0A1S1J9Y0|A0A1S1J9Y0_9FLAO
+MIVKKIVIVVSAFFSISVVAQNVTKADAEIKPVVKISYLDSVKSTFKKNELATRVDSLWM
+NELVSLDIYDDLTKDIQTINTDVTVDEELPTDLLKQRLQAMNGKSPFNIEYNQGLENIIK
+SFLKNRKKSFSRLMSLSEYYFPIFEDAFAKQNVPLEIKYLAVVESALNPKAVSKMGATGL
+WQFMYGTGKQYALKIDSYIDERSDPLRATAAASEYMTKMFSIFGDWELVLASYNSGPGNV
+TKAIRRSGGKTKYWDIRSHLPKETQGYVPAFLATMYLFEYHKEHGINPQRAVVKNFETDT
+VQIKSQMTFKQIADLLDMPQSQIQLLNPSYKLNVVPFYQGEEHYLRLPKEKIATFVSNED
+KIYAYVAYQSQNKTIPVQLAMRTAPRAKYIAKAKEKEESPKEIQFYKVRKGDNLGAIAEK
+YNVSIVDLKKWNNLKSNSVAFGRNLKIKSEIEAVVKNPKEAKATLAIDKKSEEAIASADD
+KDKNNAQPQEYVVAAGDNLGSIAKKFGTTIAELKELNSLTSNNIGLGKTLVISKAVPEIV
+DENAVTTAIASNNSIDSFKKKATSKALGEDYYVKKGDSLYSISKKYPGVTISDIKKWNNI
+KDGDIKPGMKLKING
+>tr|A0A1S1JEL0|A0A1S1JEL0_9FLAO
+MKKLGFLKRRYLLNRKEMEIRFIRIAAVFLITAVSSAQQLGSGFADNVPDLTQPIKSGIY
+ELNTTNYVNGDGSASWYHLFVMRHSNQSNNHQLQLSSSYTENDRLFFRKIANTQGAVWNE
+LATRGTNNFIGNQSVSGNLGVGTLNPVTKLSVVGGISKLTETGVDGIFDNLIKYGYKSDL
+ESGTSYTNRWHGIDATITAGTAEQNKLKFKLYSGGTGNLVPVDVMTLLGNGRVGIGTVNP
+DSKLTVAGNIHAQEVKVTARAGEVPDYVFANDYKLKSLEEVESYIKQNSHLPEIPSAKEI
+EKNGLMLAEMNLSLLKKMEEMTLYMIEMKKENLVMKEKQKQLENTVQELKKIVKQ
+>tr|A0A1S1J0R1|A0A1S1J0R1_9FLAO
+MFVFLGNSVYGQSSKAAGNEIYKQVSAASISGTIIDAENKEPVIFATILLLNDEQETLVK
+SELSETKGEFNFKNLKNGNYKIKITHDDYKTFSTGIISIKTDNQKEVLPIELFKITKKES
+LKEVVILKKKKFVETKIDRTILNVDALESNSGITALELLKKAPGTSISDQGVVSLNGKAN
+ATIFIDDRPTYLSGAQLESYLSGLASDNIDKIEIMTNPPAKYEAAGNGGVINIKLKKSKK
+EGENGSVILGLRQHKFTEYNATFALNKKKENYNIFLNGNAGYKKRFQDLYISRNYTDTGS
+YSKQENNNVGDAIATNLRFGADYNLSKNTVIGVSADASIWNGNDLDNSLNYLYNRKQTTD
+SIVKTLGSSDAKSVNSGINLNINHKLNEKSDVSANLDYLLYDSFPYQEFKNSIIFSDANK
+NYSDMLVGGAASKVYIYSGKADYSNQLTKKTNLQTGFKYSNIKTNNKSEYFDIVNDISTP
+NLNQNNKFLYNEKITALYVSSNTTLDRLSVQLGLRYESVKIVGDQLGNEIKPRTKNTTKY
+DNLFPTLYLSYKLDSLANNTVGINYGKRIDRPFYQDLNPMVIQVDKLTFYKGNPYLQPSI
+TNSVEASYAHKSLLNFTLAYSKIDNQIMETIEIINNVYYSMPGNIGNTQVTNLSLSSTFN
+IAPWLTFTGNAQVSYTDTKSDFFGGKLHTYGYNFRIDPVLQVKLKRDYNIELFGRYVGKA
+YVAQFALDPYWFLDVTISKKLSNRSSLKVIGMDIFRTYITKGQINNLVNANADFRTLSNT
+RQVRLSFTYNFGDKMTTQERENNSIDTEKNRIK
+>tr|A0A1S1J147|A0A1S1J147_9FLAO
+MSTNNLFSPFNLKTLNLKNRIVMAPMTRSFSPNGVPTDEVASYYQKRAEGEVGLILSEGT
+VINRPSSSNDANVPHFYGEEALNGWKKVIEEVHTAGGQMGPQIWHMGIMDNHHSGWVPPV
+PFEGPSGLNRPDFSNGNTMSEKDVENTIIAFGKAAADAKRLGFDTIEIHGAHGYLIDQFF
+RAETNLRTDIYGGKTLPERSRFAIEVVKEIRRQVGNDFAVIMRFSQFKPSDYNYKLAKNP
+QELEAWLSPIVDAGVDILHCSQRRFWEPEFEESDLNFAGWAKKVTGAPTITVGSVGLSSD
+FFGAFAGESSEPTSLEELNRRFDRGDFDLVAVGRPLLSDPNWVAKIKAGHTDQLKGFSKE
+ALGQLILE
+>tr|A0A1S1J9Q1|A0A1S1J9Q1_9FLAO
+MKKIVLSFLFSLLFLNFTKAQSSKNTLYKGTIDGKINVTFYIKAEENPCTADLMYTSIYR
+YDKSGGWIQLNITQNTKNENQFALVEHGFSGMMILTKEGTNFSGLWISPDTKKQLKVVLK
+EASMSKKDIESYEKKLEKVNYENNDC
+>tr|A0A1S1JAN0|A0A1S1JAN0_9FLAO
+MSETPTYRKIIHIDMDAFYASVEQMDNPALRGKPVAVGGSENRGVVSAASYEARKFGVRS
+AISGVLAKKYCPEIIFVRPRFDRYKEISNKIHKIFHEYTDQVEPLSLDEAYLDVTQNKKG
+NPSASLLAQEIRLRILNEVGLTASAGISINKFVAKIASDVNKPNGQKTVNPDEVLNFLEE
+LPIRKFYGVGKVTTEKMYQLGIFTGADLKSKDVAFLEKHFGKSGAFYYNVVRGVHNSEVK
+ASRVTKSVAAEHTFDVNLSSEIFMLEQLEKIAVSLEKRLKKYNISGKTVTLKIKYSDFTQ
+QTRSKTLPYFISDKSLILETVEELLYQERMKDSVRLLGISLNNLNTEEKKAVVVQLKFSF
+>tr|A0A1S1J379|A0A1S1J379_9FLAO
+MKKIILSILAVAAISFTSCSTDEQNAETQAVAKEQSQGSNLTKKSALALCTVTSTSVTVN
+RTAAPSSTYTNWTPVAAAIGGVNVQWEGIYGGSIRPVGNAGKWYVGTVNLNQTCDDWDSW
+NSAIVVKNASGNVGTSPADPYNVLGYNGTISGANYRLGYYSYNILTHVMTPAKAIVIWRT
+NSGTNSQSVTSPASALEAYLVKVTSITPGSSNSTVNYNWTQVK
+>tr|A0A1S1JAW1|A0A1S1JAW1_9FLAO
+MAKPSLHTFHIPVMGLAYTIDSPIRVAQFGISSVISIADDDLIEKMRNFYSTKFNFPYEE
+ISQKFHDYRAQRITSYLNLVDKIVKEKFENFKTELIESKTALENYIAMLPNTSDIKKGFQ
+NLLEDGISFKENIQNYIESHLSPGCIDVNIMTKIDKDNFEKNEQLPIEFNDAHAALRGFA
+NSDLESSVVLSAGMNPRLYSYFENFSDFFPNSKNELKKRIILKVSDFRSAMIQGNFLAKK
+GLWVSEYRIESGLNCGGHAFATEGLLLGPILEEFRQKKNQLIQSAHELMTKVLQQKQVHV
+PQAPLPLKITVQGGVGTAEEHDFLLQNYEVDSVGWGSPFLLVPEATSVDPATRKLLMDAK
+EKDLYLSHISPLGVPFNTLKGTTNEALKQKRIEQNKAGSSCPKKFLALSKEYDPHGICTA
+SKKFQDIKLAELDAKKNSLSKEAYEREKFSITEKACLCVGLANASYLENNIQIKGQAQGV
+VICPGPNMAYFDQEVSLSDMLAHIYGNKSILRANNRPNLFVKELKMYIDYFRNEISNISG
+EITNAQLKKWTVFKANLLEGIAYYENLFSSSFYFQEDPEKIKYQFDFYKLELATIKVPTC
+ELV
+>tr|A0A1S1J372|A0A1S1J372_9FLAO
+MKNTSLEFDNVITVCRTLFINKMKDYGSAWRILRLPSLTDQIFIKAQRIRSLQENEVRKI
+DEDEKGEFIGIINYSIMALIQLELGVVDQPDLDVEKATELYDAQVKRTKDLMEAKNHDYG
+EAWRDMRVSSLTDLILQKILRVKQIEDNKGKTIVSEGIDANYQDMINYSVFALILNPITK
+>tr|A0A1S1JA54|A0A1S1JA54_9FLAO
+MANPLIKITNIKRDFVLGNEIVYVLKGIDLQINKGEYVALMGPSGSGKSTLMNLLGCLDT
+PTSGQYVLNGKDVSQMRDDELAEIRNKEIGFVFQTFNLLPRTTALDNVALPMIYAGYSKA
+DRVKRAEEVLKQVNLADRMDHQPNQLSGGQRQRVAIARALVNKPSIILADEPTGNLDSKT
+SVEIMKLFGDIHAQGNTVILVTHEEDIAAYAHRVIRLRDGLIESDTQKEVKSFS
+>tr|A0A1S1J0Z2|A0A1S1J0Z2_9FLAO
+MNYILRVDPKNPYKERLEKAIINLLPFVEAEAVYLSFNKSNKVTVITFILKKETDKDEEI
+LEEIQEKVISIYPEFIFKFMDSDCAKKGFKNGKPYFVQHCTLKELIYFEPGAKVFYPRED
+TSKKLLKKAKKRFSLDMEAAVVSFRNVSVYSGKNKNEEAVFALYQTLRYIYICASEFFTA
+VFISNTCLFQQYDYIIKYAPSFKRILNKNTALHNEIVALLNKAYSCAMQNTEMGDIDPEL
+MIKAKTKVELMQKELNRLFLEYKALCKEKMQKLSRQKCTGKYIFNEKIPSNYFVDDALRS
+INDLMVTNSNIRCVYCFGYTILHDQESKPKNYSDKLPGYHFYLLIINLDQTQYEIAPMEE
+LILEKSEGRYQVTILSHSAGLIRKKKTCQKYFFNYVKAYGLLIYNAPYYSVYLKKYLPWE
+SEFKEKYEKEKVLTAKQLFDDAEYFLSDSHVTVKKVLFRKVIEKISLGFIYLHLGYLSDK
+LSMNSLFSLLKYIQEIELPFDHENEKETKIMEYLFETAVVSINKVAQDSNNDYDKLIENR
+CILFLKHAKDQLAKEAGKLDFKKSRYF
+>tr|A0A1S1J559|A0A1S1J559_9FLAO
+MKKIITFCLIILTTSVGFAQEKSKDSLQTNNLDDIIVTASRKKESIKEVVSSITIVGAKK
+IQSQTLVNSNIGNILQYTVPGLATASNQTSNFGQTLRGRPFLVMIDGIPQSTPLRNGGRD
+LQVIDPSSIERVEVIKGATSIYGNGADGGIINYITKKSHSEEKISGSVQLGLITQPKTFA
+ESFGYRASLSLAGKLKKLDYVVGFTQERSGVAKDANGVNLSPFYSLSNLNTYNGLFKIGY
+ALTDTQRLEFSYMGYASKSFLDQDVKIGKWGEIPTIGVDAGGRLGTPEGTPRNHNFRVAY
+SNSEIWNNTSLDVNLYAQDFRTVYSYDRDQFLNGGQSNVASQKKGLRVNFDSRLFANDTY
+KAEVIYGLDLLQDKTVQKLEDGRFWTPQMKMLNTAPFALIKFDAWGKFTLKAGARYENIK
+VKADDFNTLPVLNAKNNTYTKSIFVQGGELDYNALVGNIGLRYNIMPEVNVFTSYSQSFS
+INEVGRILRTSTESVISKLPTDPIIVNNYEMGVAGAIKKWFNYEVTSFWSTSQLGATSIQ
+SADGSFAMQRAPENIWGYEAVVGFNPIEFLSFGGAFAWIEGKVDNDNNGSYEKYINGSRI
+MAPKLTTYVQIRPLKNLDIELSSLHNFKRDRFDPNPTTNLYSFNEGPVKKYTVFNLSSSY
+LINKSFRLALGVENLFNKDYAPNIAWWQARDKDFVNAPGRRATLQIQYNF
+>tr|A0A1S1J898|A0A1S1J898_9FLAO
+MRSVVTLYSCFLFFCSISSKAQSKPTNQDKVLDQIDELKEVVIKSQPSLIKHGANGTVEV
+QVANTLLSTSSSVTELLGRAPNVIVADGQISVLGKGEAIIYLNGILINNERFAAIPVSQI
+LKIEVVSNPSSRYDAEGKAVINIITKKNIESGIMGTASQQITVSKFAGTSTNTLLDFNYT
+KGKFSFVTNYGLQLGKGRELLYTTRTRSSTDEYMQSKLTTDWQRQFNNYSNFGFGLQYAF
+SDKQYITLGYSGNVADLGGAVKSRNTITNNIGNSLYSTNISKNDVLLNQFINLNYNLVTD
+DLGSSLFVGTQYSNYNGNVKDFIDENGLVDSFLTEKYLKNNVENTTNITSIQSDYAKKID
+EDTTLEMGAKFSRAAINSKTNFLVSKVKEGDFEVDTELSSDFKYDEKIGAAYFSYLSSLS
+EKFSYSLGARGEWTNYDLRTNANGNQEFKKSYANLFPNVLLNVKVSDEFKAHVSYVSRIT
+RPRYQSLNPFVIYQDPFTTIEGNPDLLPEKVHAFEIGAFYRKFDFKIGYTHKTDPISGAA
+LRGDNPNSYILRSINFDRENTFFASLSRSFKNKIWSSVNTVSVSYSKAVDHKYSYEFGAV
+KPQLYLYSNNTFTIPNLFKIQLLAWYLGDRSYGLGHDDDRSIVTIGIERNFFDDALKLNF
+TANDILHKFRTSGNYNVGQTEIYYHRTYTTNYFRLVATYTFGNSKKQTFRKLKTEEVENN
+RAR
+>tr|A0A1S1IYS8|A0A1S1IYS8_9FLAO
+MLLKKRIPMRYVLGKIKVELALVMTYTILFEIFHHYFINVAIEIPIAIPTMVGTIISLLL
+AFKSNQAYDRWWEARIIWGSIVNESRTLVRQMLTFYKDPGFSVEANEFKENFTKRQIAWC
+YSLGQALRNKDAIKPIKDLISEEELNFVKNHQNIPNAILLLHGRDLRIAKKDKRLNAYQQ
+VEIDNTLSRLCDAMGKCERIKNTIFPTTYSMYIRMTLCLFILLLPFGLISLLSWFAVPLI
+TIIGGTFFLIEKMAIHLQDPFENRPTDTPVTAISNTIEKNLMQMLNEYQSEFDIIKEFDL
+QPDLKKAENNAYFVL
+>tr|A0A1S1J2C0|A0A1S1J2C0_9FLAO
+MASKDRILRQKEETRNNILGAAYDIVKEEGWNGLSMRKIADRIEYTAPIIYEYFSNKEAI
+LEELTGKGFLKLAKELQTAKDKFEKPEDQLEAMWMTYWDFAFSNTEMYQLMFGVQMTCCA
+QRCSAQEAPYKLFTSVIAEVMKDSNPSEDIIKQKYFTFFSVIHGLIAINIINKSDILETI
+NAQILKDAIGGIIKSIQ
+>tr|A0A1S1J508|A0A1S1J508_9FLAO
+MKVTISRKAHFNAAHRLYRKDWTFEKNDAVFGKCNNPNFHGHNYGLTVSVTGKIDPETGF
+VLDVKVLADIIREEVEIPFDHKNLNLDVPEFQDLNPTAEHIAVVIWNKIKKRIQPDFDLE
+IVLNETDRNFVTYKGEE
+>tr|A0A1S1J546|A0A1S1J546_9FLAO
+MYTALFAHIEKFVTLEASEIDLLESVLSLSNIKKKDHVLREGQVCNTLYFIVKGCMRQYI
+INSKGTEQTLQFGIESWWITDYLSYHNHVPSHFYIQAVENSEVIALEQSVLESVLIQVPK
+LERYFRIVSQKSFGAAQMRIKFLFTMSAEERYHHFNNLNPEFVQRVPQYMLASYLDFSAE
+FMSKIRAGKV
+>tr|A0A1S1J5P6|A0A1S1J5P6_9FLAO
+MANKIEVKELLEAGVHFGHMTRKWDPNMAPYIYMERNGIHIINLYKTAAKIEEANEALKK
+IAASGRKILFVATKKQAKDIVADKAKAANMPYITERWPGGMLTNFVTIRKAVKKMSSIDK
+MKKDGTFMTLSKKERLQVDRLRAKLEKNLGSIADMSRLPAALFVVDIKAEHIAIKEAQKL
+NIPVFAMVDTNSDPREVDYVIPANDDASKSIDKILSLVTTAVIEGLSDRGSEKEVEVAEE
+AAPAAEAEAAPATEE
+>tr|A0A1S1JAI2|A0A1S1JAI2_9FLAO
+MKKIFLITLFLAGAFVTQAQELKWYTDVKEAITVSNKEKKPLLMFFTGSDWCGWCIRLQN
+EVLKTAEFKKWATENVVLVELDYPRRTPQTPELKNQNNELQQAFGIQGFPTIYFTSAESK
+DGKVNFKGLGQTGYVAGGPTAWLTVAEGIVHPKKS
+>tr|A0A1S1J192|A0A1S1J192_9FLAO
+MKVYKIETVQHVNATVEECWDFFSSPKNLQTITLDNMSFEIQDFDNKRMYPGQIISYTLK
+PLLGIKINWMTIITVSKENQYFVDEQRFGPYALWHHKHFFEPTATGTKMIDVVHYALPLG
+YLGRIMNSLIVKNKLKTIFDYRYNKIEELFNSKA
+>tr|A0A1S1IYW9|A0A1S1IYW9_9FLAO
+MEKIIQITAGRGPAECTWVVAQVLKKVLEEAQEEQLETTLLQREVGQENGTIETATIAVK
+GKNATQFAASWTGTIQWIGQSQFRKMHKRKNWFIGIFEIEPQQNASFLESDIQYQAMRSS
+GAGGQHVNKVSSAIRATHVPTGIAVVAMDSRSQHQNKKLATERLLKKLEDETLQQLKNHV
+GKQWENQLNIQQGNPVRVFTGTDFKKNKTEKSYKGTRQKLKTDLRNEHN
+>tr|A0A1S1J9R8|A0A1S1J9R8_9FLAO
+MFTAADFIPNTYTSSIENGNFEWSAPSNIALVKYWGKKDNQIPANPSVSFTLKNCKTITK
+LAYTKRETSPASNFSFDLLFEGKPKEDFKPKIQKFLERIEIYLPFLKKYHFTIDTQNTFP
+HSSGIASSASGMAALAMNFMSLEKVLNPEMTEDYFYQKASFLARLGSGSACRSVKGNLVA
+WGNQANIKGSSDLYGVEFPYTVHENFNNYQDTILLVDKGEKQVSSTVGHDLMHNHPYAER
+RFAQAHENLDQLITIFESGNLNEFIKVVESEALTLHAMMMTSMPYYILMKPNTLQIINAI
+WKFRNETQIPVCFTLDAGANVHVLYPENVSDKVLQFIQDELVVFCQNGQYICDEIGDGAI
+AL
+>tr|A0A1S1JBM7|A0A1S1JBM7_9FLAO
+MFQFKQFSVLQDKTAMKVGTDGVLLGAWAPINHNPFSVLDIGAGTGIIALMLAQRTNAEQ
+IDALEIDEDAYEEAVENFENSPWGDRLFCFHAGLDEFIEEPEDEYDLIVSNPPFYAEDYK
+SENEQRDLARFQDAMPFEELVEAADLLLSENGILAIILPFKEEEKFIALAKESELYPVKI
+TRVKGTPTAVVKRSLLAFSRNETPQPEVDELTIEIDRHVYTPQYIDLTKDFYLKF
+>tr|A0A1S1JEX6|A0A1S1JEX6_9FLAO
+MNNDNEVVNYTKEERKNLILKEINLHTRVSFETLSAKLFVSEDTVRRDINELESESLLIK
+VKGGAMTKAYHHSSSNQTYAGEAKQTIAQKTLGLLRDGMVLLLGGGTTIREFIRLIPDTL
+NLTIFTVTVLSAVELLDKPNVKIIMIGGSISSYSQMCVSGDVYNQLANIKVDLLILGTNA
+LDIEGGFSDSDWETVQVKKAMIQASEKTAILTISEKLDTVLKMKIANLSEVDYVVTEVDP
+DHEKLQAYKKAVPSLVFV
+>tr|A0A1S1J0K8|A0A1S1J0K8_9FLAO
+MAKDIKFDIEARDGLKRGVDALANAVKVTLGPKGRNVIIGKSFGGPTVTKDGVSVAKEIE
+LKDPLENMGAQMVKEVASKTNDLAGDGTTTATVLAQAIVKEGLKNVAAGANPMDLKRGID
+KAVEAIVADLAKQAKVVGSDSDKIKQIASISANNDEVIGELIATAFAKVGKEGVITVEEA
+KGTDTFVDVVEGMQFDRGYLSPYFVTNPEKMEVELDSPYILLYDKKVSSLKELLPVLEPV
+AQSGKPLLIIAEDVDGEALSTLVVNKLRGALKIAAVKAPGFGDRRKAMLEDIAILTGGTV
+ISEERGYTLENTTIEMLGTAKRVSIDKDNTTIVSGAGEADIIKNRVNQIKGQMEATTSDY
+DKEKLQERLAKLAGGVAVLYVGAASEVEMKEKKDRVDDALHATRAAVEEGIVAGGGVALL
+RAKAALADLKADNADEATGIQIVSRAVESPLRTIVENAGLEGSVVVAKVGEGSGDFGYNA
+KTDEYVDMLKAGIIDPKKVTRVALENAASVSGMILTTECALIDIKEENAGGMPMGGGMPG
+MM
+>tr|A0A1S1J690|A0A1S1J690_9FLAO
+MRDFIIEDDLLITNGDFSIKNADQQNIEHLLLSQKGSYKEFPILGVGIKKYINSPDATSR
+LRLENEIDKQLSYDNFHVKKLDVNDLQNIKIDGNY
+>tr|A0A1S1J4K1|A0A1S1J4K1_9FLAO
+MQLFYNPDIDESTERFSFDKEESRHIIKVLRKKDSDILHVTNGSGLLFETQITLASDNKC
+IVEVISIKKSPAPKFRLHLAVAPTKMNDRFEWFLEKATEIGIQEITPIFCDRSERKVINP
+ERFEKIILSAMKQSNETYLPKLNEAISFKEFIKQKNEGLQLIAHCEETDKKSLKEVLKPN
+ESVTLLIGPEGDFSEKEIVLALEHKFQPVTLGNTRLRTETAAIVACHSVVFFNEN
+>tr|A0A1S1JFJ8|A0A1S1JFJ8_9FLAO
+MKKTLVFIVAFAAQISFAQSIFPTDGKNVGIGTINPTDLLHLNSVSPVLKMTYQEGGFAA
+IRGLNSTWIFGFNGDPGFENISFGTQDGSGSRTLTFAAGGSARMQILNNGNVGIGTLNPQ
+QKFVVSNNGTEGFELYLDHLNSIVGLQSYNRALSSYSKMQLDASQFSFMNGNVGIGTLNP
+RQKFVVSNNGAEGFELYLDQLNSIVGLQSYNRALNSYSKMQLDASQFSFMYGNVGIGTAN
+PNAKLTVAGNISSREVKVTVDAGADFVFEGDYNLKSLDSVEKYIKENKHLPEIASAQEME
+KEGINLSEMNIKLLQKIEELTLYMIEMKKENAEMKKRLEKIENK
+>tr|A0A1S1J9N6|A0A1S1J9N6_9FLAO
+MKQINFSHEGGFPLEQETLERLQNAYRTELFGALKAHFGVAIGENCIIAEPTANRDGWAI
+VHDEKDFLKEGVLYPIRNTTVTSYLKTIRTGTNLVYGTGRSQTAYFDFEAVYIELPEYTA
+GKATPEIDTDDLKVRYYQLKDFRTIKDIPAVERILKTLQDQIDANKEKILKATDDIAEIN
+KYFPGIKTDVTNLKSDVINIKKEYLPIDGSKAMTGNLTVEGKVYLKQTGKENPDGSILVL
+DSSNQVIKSNTLISRLLERVAKLEEKKPVESPIPKGMIAIWGRPAAEIPEGWQEYAPLRG
+RMPVGFDLTQSEFNRIEKQSGEKNKTLLIEEMPPHSHGLPIDGGGTTDMPTLSGSRNNDE
+KISDVYKTGPSGEGKAFSLLNPYSVVHFIEYTGLPRDTTKPTPPTNLTVTKVTSSSISLG
+WTKATDNVAVTDYLVSIDEGDYISLGDVDKYIATNLTPEKSYTFKVFAKDAAGNISDGSA
+ITKVTPKAIPVPTLLPIEIQGNEVVIKWNRIESYTPISYRLIRRIADKTDDTPAEFADIK
+STSQTDYYGGNQKVYTYYYKVQALGEDGNESQFSEETSKIVPPYDPNCFYIESPVTMASG
+QTKKLKNIVIGDKLQGFSFPNEIDESEGDYMTWNGKLNEAAKAEVTVTDKRTSIQPNYYE
+IKTPDTTIKVTGEHPLLVTEDGENLKWTRAKNVQQTMLLIDKLGKTIPIESIVFKEEPLE
+VALLDVENVDNYVISGIVAHNTKVDPLE
+>tr|A0A1S1JCQ5|A0A1S1JCQ5_9FLAO
+MDPEPSLFLNTTVDINLIIGFVGIFILLFLSAIVSGAEVALFSLSQKDIDDTLQENHSKG
+KIISRLLDRPKKLLATLLVANNLFNIATVILFSFIGQNIFGAIESPALKFILEIILVTSL
+ILLFGEVLPKVYASRNNVKFAKRTAYPLAVLDKLLTPISLPMRSVTLYLHHKLGKQKNNF
+SVNQLSQALELTDSEGTSTEEQKILEGIVSFGNTDTKQVMSPRIDIFALEMSEPFSGICP
+KIIEKGFSRIPVYRDNIDQIEGVLFVKDLLPHIDKEEFDWTSLIRKAFFVPENKKLDNLL
+KDFQSLKSHLAIVVDEYGGTSGLVSLEDVIEEIVGDISDEFDDENLNFSQIDEKNFLFEG
+KINLKDFYRIVAVNEEIFESHKGEAETLAGFILEILGNFPKKDQKIAFENCVFTIETVDK
+KRVKQIKVTID
+>tr|A0A1S1J1Q2|A0A1S1J1Q2_9FLAO
+MIIRKATIEDSENITALLLLAMEDIIYKFTGEKDPKTAYYFLLHFVETENNQYSYQNCYV
+AEEDNEIIGAVAVYDGGQLHSLRKPIVDYVRLNFNADFNPEDETQSGEFYIDSVGVSPNH
+QGKGIGSKLLQFLIDEYVTQNQRTLGLLVEDANPNAKKLYLKLGFKVKGTRTLVGKNMEH
+LQIG
+>tr|A0A1S1J9W8|A0A1S1J9W8_9FLAO
+MKGLKVVFWVLWRVWFYILMAIPILIMLPFLLVSIASEKGYPYFFKMARIWAKFILFGMG
+FYYKVEREEKLVRNKSYMIVANHTSMTDIMLMLALVKNPFVFVGKKELSKIPLFGFFYKR
+TCILVDRSSSKSKNEVFKRAQNRLNQGLSICIFPEGGVPDDESILLDEFKDGAFRLAIEH
+QIPIVPIVFADNKERFSYTFFSGSPGKMRAKVLPFVSTDGLTADYRKELRDQVRQMIYKD
+LLKFKNKE
+>tr|A0A1S1J331|A0A1S1J331_9FLAO
+MFNKFIQRPVLSIVISLIIVFLGVLSVLNLPITQFPTISPPMVNVTADYPGSNGELMIKA
+VIIPLERALNGVPGMKYMSSDAGNDGEATIKVVFNLGTDPNQAAVNVQNRVASVTNKLPP
+LVIREGIKITREVPSMLMYVNLYSTDKNTDMKFLYNYADINVLSELKRVNGIGSGDILGT
+REYAMRIWLKPDRMLAYKISADEVMEALSSQSLEASPGKTGESSGKRSQAFEYVLKYSGR
+FTTKEQYGNIVVKSNANGELLRLKDIANIEFGSSMYDIYSNLNGKPSAAIVLKQSFGSNA
+NQVIEEVKAKLEKIKQKFPKGMDYEISYDVSKFLDASIEKVIHTLVEAFILVGLVVFLFL
+GDWRSTVIPAIAVPVSLIGTFVFMTFLDISLNLITLFALVLAIGVVVDDAIVVIEAVHAK
+MEEEHLSPFKATKKAMHEIAGAIIAITFLMAAVFIPVAFMSGPVGVFYRQFSVTMATAII
+LSGIVALTLTPALCAMMLKNNHALPKKKTPVNVFIDGFNNKFNLAQGKYQNVLGKIVNRR
+AVTVIALLGFCAGTWLVSSTVPSGFIPNEDQGMFYAVIQTPPGSSLERTNNIAERVQKIA
+EDIDGVKSVSSLAGYEILSEGTGANSGTCLVNLKDWSDRKESVLEIMHEMEEKCKDIAGA
+NIEFFQPPAVPGYGAAGGFELRLLDKTGSGDYKKMEKVNNDFVAELNRHPELSNVFSFYS
+SSFPQYMMKVDNDLAQQKGVSIENAMNTLSTLVGSNYEISFIKFGINYKVIVQASPEYRA
+QPDDILKLYVKNNRDEMVPYSAFMRLEKVYGLSEITRHNMYTSTQISGSAAAGYSSGTAI
+KVVQEVAAKKLPRGYDIDWAGISADEVAQGNQAIWVFLICLGFVYLVLAAQYESFILPLS
+VILSLPAGIFGAFFLLKLTGLENNIYAQVAMVMLIGLLGKNAVLIVEFAIQRHAAGKSVL
+EAAMEGAKARFRPILMTSFAFIAGLLPLAFATGPGKIGNRTIGTAAAGGMLIGTICGVFL
+IPGLYYIFGKIAERYKLVKHEEENPLTEEIDNNHV
+>tr|A0A1S1J5C1|A0A1S1J5C1_9FLAO
+MKKFIESISNVWKIEELKNRILITLGLLLVYRFGAHVTLPGIDATQLTGLAGQTKNGLGS
+ILDMFTGGAFSKASVFALGIMPYISASIVVQLMGIAIPYLQKLQNDGESGRKKINQITRW
+LTIAITLVQGPTYIYNLYRTLPGSAFLLGFNSPEFLFSSVIILVTGTIFAMWLGEKITDK
+GIGNGISLLIMVGILARLPQAFIQEFTTRVTNNNGGPMLLVIEIIVWLLVIISCVLLTMA
+VRRIPVQYARRTTTGDYEQDLAGGNRQWIPLKLNASGVMPIIFAQAIMFIPAAVAGLSKS
+DTSQSIVGAFSNMFGFWYNFVFATLIIVFTFFYTAITVPTNKMADDLKRSGGFIPGVRPG
+AETSDFLDKVMSLITFPGSLFLALIAVFPAIVVSIMDVQQSWAMFFGGTSLIIMVGVAID
+TIQQINSYLLNKHYDGLMKTGKNRKAVA
+>tr|A0A1S1J9G7|A0A1S1J9G7_9FLAO
+MKTFNLENEPKIKTGFKTPENYFDTFSTKVLQQINEEKEVKVIPLYKRKKVLSIVAAAVV
+FAALLIPVINHYNTSKDLDEDTLETYLSYQSNLNQYDLIRELDTKDIDKLGKNVALEQET
+LEDILATNPNIENLISE
+>tr|A0A1S1JCU3|A0A1S1JCU3_9FLAO
+MTELQTIYQRTLKFAAKRHADQNQVIPGTNLPYVVHLSNVTMEILFASQNTTSFNTAFAI
+QIALLHDILEDTATTFEELTAEFDEEIAQAVLALTKNSKIPKEERMTDSLARIKALSKEV
+WAVKLADRITNLQVPPEDWSVEKIKEYHKQAVQILNTLKGGNAYLEKRLLERIQNYLLYC
+TVEKS
+>tr|A0A1S1JE00|A0A1S1JE00_9FLAO
+MLLSVLILFIPKNKKMARAIVHMDLDTFFVSCERLTNSQLKGLPLIIGGGDRGVVASCSY
+EARKFGVRSAMPIRMALKLCPDAKVMKGDMELYSQLSHDVTEILQEKAPVLEKASIDEFY
+LDITGMDKFHGSYKWTNELAQSVMKETGLPISFSLSINKTVSKIATGEGKPTGNLEIQEQ
+NVQDFLNPLSIQKIPMVGAVTFQLLSRIGVRKIQTLAEMPAEVLQQMIGKNGLELWKKAH
+GIDHTPVEPYTERKSISTETTFSQDTIDIAKLKRILLGMVEKLAFQLRAEQWLTSTITVK
+IRYANFDTETKQSKIAYTSADHILTKNVTELFDKVYQRRMRLRLIGIRFSGLVRGTYQID
+LFEDTQEMLSLYAAMDQIKNRYGYDAVMRCAGAHFKPNTKDEILKRIK
+>tr|A0A1S1J0T4|A0A1S1J0T4_9FLAO
+MNLNILIVDDHPMTVDSYINLLSDGEFQQNLPNFIKSHNCEDAYNKIILHHKQNINIDFA
+LLDINLPPYKQSNINDGIDLAYLIKEKFPNCKIVLLTMRSEPLTVDKIIKGIRPEGFISK
+SDINFEQFPVICKNIIKGEIFRSDTIVESQRELFKKNINWDNHDNQILILISEGVKTVNL
+PEYIPLSMSAIEKRKANIKDQLLKGKGSDKDLIEKAKTLGLL
+>tr|A0A1S1J2U5|A0A1S1J2U5_9FLAO
+MKLRSTETFWLLRNAMKKSYPSIDSDKNTTILIIGGGITGALIAYKLITEGKKIILVDRR
+DICNGSTAASTALLQYEIDISLHELIKMRGLNCALDSYRNGKKAIFDLRNIIDTIKSDCQ
+FEFKKSIYFCSLKKDLQFLKDEFKIRKENGFDVNWLEKWDLEKLGLNALAAIESKTAAVM
+DPFKLANDLLIYCQKKGMEILDRTNITSIQNQKDKLIAVTENKCSITADHIIHCSGYEST
+ETLNEKVVDLKSTYVIASESLPTLPVAFRNAIFWDTSSPYLYFRATSDNRVIMGGGDVAF
+KDPVKRDKLLPKKEQFLLKKFQRKFPDINFKIDYSWAGTFGETKDGLPYFGKPDPNKNEH
+YVLGFGGNGITFSVIGMNSILDSLNNKKNPDLEYYRFGR
+>tr|A0A1S1J6I5|A0A1S1J6I5_9FLAO
+MKKSLLLLTFLFSIQFSTVSAQTQLDVNGVTVPRKIEFQGKTLQLNGAGGRSKMWLEVYV
+QALYLSQLSQDPQFIIDSDTEMAIRIEITSSMVSSSKLTKAMNAGFEKSASSNLNQLRPR
+IEEFKTFLSDMITEKDVFVLAYNPLDQTINVYKNEVLKGKIPGFDFKKALFGIWLSDKPV
+DETLKKHLLGI
+>tr|A0A1S1J6Q8|A0A1S1J6Q8_9FLAO
+MEQKIHQGRNVKRFREMLNIKQEALAYNLGEDWNQKKISMLEQKDVIEENLLKQISAVLR
+IPVEAFQNFDEEQAVNVIANTFNTNDNAIGFVINNHNPIEKIIQLHAEKIALYERMLKEK
+DEMMARLEKLIK
+>tr|A0A1S1J6U8|A0A1S1J6U8_9FLAO
+MKKIISLLLIFTFGLSSCEKDDICDANTPTTPRLVITFYKDAEPTVKENVINLRVIGEKE
+AKGIVFNKTITDVDNPLRYVTNSNTISIPLKTDQNTTTYDFIYNSLSTNPAAINTDRITF
+NYTHQDVYVSRACGFKTIFTLPEIGPFVRTDSGGDGLWIKQIFVKKFNIELENETHIEIY
+L
+>tr|A0A1S1J1M2|A0A1S1J1M2_9FLAO
+MWVKEPNKPLGESLNENVNFLYNEGKVYIMDNHLCAAWCWLKQVDIKSSFDFIHIDRHYD
+LLGFPHTIETQITNKGIEIHKLTFEEYLNLKQLGRNNAEWQMFRWDNYIINTHLAYPTLF
+AEKIFATQRDGTINEGFVDKEFDFLTLANEIDYWLESKKWIVNLDIDYFFNRVDDKLFQI
+FSDEYIVTLVKKIKKNFENITVLTIALSPECCGGWEESFRIMKIICDILEVNFIEELNK
+>tr|A0A1S1JAP2|A0A1S1JAP2_9FLAO
+MKSNSFINNWLTTSFYFVLFFCAGSLQAQKTSLLEKKITIQIENDSIGAYISTIITQGVN
+LSLSNNKLNLDKKIKIDKGTYKLKTLLHLLFETESVKFLEKDNKIIIYTVSRAPDPFTIS
+GFVYAGDSKEALPYATVRVLNTNIAVNCNDYGYYTLTLPENKYIINASYTGFTSQTDTIL
+VNKTIKKNFNLEMGLSLAPVEIRSSKKPLNEISSIVDTQHVNTLPFLMGQSDPLKLLTLK
+PGTYGTSLNVRGGSTDQNLVLLDGVPIYNYNHFTSLLSIFDSQAIKQISFFKGGFPARYE
+GRLSSVIDVKTKDGDMQSYHGAANIGLLTGSAMIEGPIIKDKMSFMISARRSWIDALTEA
+IFDQDINFKYRMYDAYFKINYFIDSSNRLYLGAYTGGDLIRVNFFSSEAPQLTWNNRTLS
+LRWNRVYNPRLFQNSVLLLSNYNNLFANADEDGTRKFRITDIGIENNLNYHWSSFLNSAI
+GLRINMTHFSNNTIDRDQLIKSLHFKTYWDNDITLSDKVRIKAGLHYATFLTKNKVYNSF
+QPRTNFVYKYSNSNSLFASYAIMEQFYHQIAQNTYALPSDLRMPSTNQLPPEKAFIYEAG
+YEKTLDKGYIRLQLYEKKVSNILMYRPLYDVSDQDKTQSPLIGFGNSRGLELEFSKQFKK
+FDVQAAYTLSKSTLRFPAINNGQTFNSPNDITNQIKGAVTWNINQSWVLSTMFNYSSGVL
+ISAPDSFSYNDKKDSYPVDPNQSNEISRPNNYRLPRNYNVDIGVSKTKKTKSGNQSRLYF
+GVNNLVGQSPPFIIETSLSNGTFNLEQARMFKYFPYVGYTYTFGTGKEKLN
+>tr|A0A1S1J3K5|A0A1S1J3K5_9FLAO
+MINNIKTVFSIKDLENLSGIKAHTIRIWEKRYNILEPMRTDTNIRLYNLQNLQKLLNITL
+LHEYGYKISKIATYPEEKIPQLVREIISKKNSQNYAITSFKMAMMNFDQEIFFNTFDWLI
+SEKSFREVFKDNFLPLLKELGLLWQSETITPANEHFMSHLIKQKILIYTESLQILKPTKT
+DRIFVLSLPLNEIHKIGLLYLQYEILLKGYKTIYLGESMPIENLQDLTKHFENITFVSFM
+TVQPDRNVINQYVKSMGQKLLQKNNEIWLMGNMVEHIDQKILSERIRVFDSMDETISML
+>tr|A0A1S1J214|A0A1S1J214_9FLAO
+MPIGFDGIDIALICSELEQRRKNPDRGDLGGLSFIRCKAGRGVFFSGKGAPFTEKRSGNQ
+GGDYFRFDIIF
+>tr|A0A1S1J279|A0A1S1J279_9FLAO
+MSKLIIAAGTGFLGKVLIYHFKNKFEEIVILTRGKSQIIDGIKYVNWNTKTFSGWESELE
+NATVLINLAGKSVDCRYTSKNKKAILLSRLESTKILNKAVLNCKNPPKHWLNSSTSTIYR
+FSLDKQMDEVEGEIGNDFSINVALSWEKAFFKTETPNTLKTALRTSIVLGKNGGALLPLK
+TLAKIGFGGKQGKGNQWISWIHEDDFARAIEFIIKKEMAGKVNIVSPNPISNSDFMQELR
+KAVGVPFGISLNKFFLEIGSFIIRTETELVLKSRNVIPTRLLEKGFAFKFENIDPAFQNL
+LS
+>tr|A0A1S1J2X6|A0A1S1J2X6_9FLAO
+MRNTNTKGYFTAMTLVCLMVFASCKVTSQEPSNKEIIIGKDLKWSDKMALTLMKRHPESY
+RIDDSKTAKWDYVHGLVLHAIEELNKKNPDPRYAAYVKSYADVLVQNDGTIKTYELDKYN
+IDLIVPGRLLFDIYATTKEEKYLKALQLLRKQLTEQPRTASGGFWHKQIYPNQMWLDGLY
+MGEPFYAQYTVTFEGGKSLDDVAKQFELIQLHATDPKTGLLYHGWDESKQMPWANKDNGT
+SPNFWSRALGWYVMALVDVLDYFPKNHPKQKELVKYLNTASVALAKYQDKSGLWYQVTDK
+GGAEGNYLEASGSSMFAYAFAKGANKGYLPAKYKSLANKAFDGLTKQLIRVDADGGITLT
+QACQVAGLGGNPYRDGSYTYYVNEKKKDNDPKATGPFILAAVELNR
+>tr|A0A1S1J5X3|A0A1S1J5X3_9FLAO
+MNDFFSKIKVQYEKCLPFVMYSKPNSTTIFALLQQNDALHKISDYKEKGFVFASFDEKQL
+ILIPENESEILTAEQLEIAFEAAEIEESGIDNEARLHYEALVSKGIQAIKNDEFKKVVLS
+RSEEVTLSEFDFVSTFQHLIQLYPTTFSYVFFHPKIGLWMGATPERLLKANGNVFETVAL
+AGTQKATLETDILWQQKEKDEQQYVTDFIVKRLREVASSVDVFEPYSVKAGSIWHIKTDI
+SGVLNDNSTLEEVIDTLHPTPAVCGLPKKKAKAFIIENENYDRTFYTGFLGELNSSFAHD
+EISSDFYVNLRSMQIQENKAILYMGCGITKESVPEKEWEESVNKSMTMKRVLKIK
+>tr|A0A1S1JB09|A0A1S1JB09_9FLAO
+MATNISTVLLNASSEKVWNTLTQPELVKQWQYGSDLITDWKIGNEIRFRNEWEGQVFEQW
+GTVLEIIPNQKIKYSLFFPRPELEDKPENYFVMSYVLTEENQKTKLEIVQEDNRPGAVQE
+KPQGEENPILQALKALIES
+>tr|A0A1S1JC66|A0A1S1JC66_9FLAO
+MKYINEQNILEIGNNWNEIIQVIEDTVLLLEKKDYAQPIKPYLRYKDLKNRIIAMPAYVG
+GDYNISGIKWIASFPDNIKNNLPRANSVIILNNADTGVPISVINTPMVSAIRTSAVTGAI
+IKSYREAVEINEKINFGIIGLGPIGRMHLEMIFTLHEDIIDKIYVYDINSIDTELLPEKW
+KHKIVLANDWEQAYLNSKIFITCTASSKRYINLPPPKGSLQLNVSLRDYEADVYDFIDCV
+IVDNWDEVCRENTDIEMMHQTKGLLEKDVLIITDVLSGKLRKTIKANDTIMFCPMGMAIF
+DIGIAKYFYELSQDKRIGQTL
+>tr|A0A1S1J1U5|A0A1S1J1U5_9FLAO
+MKAFEKSVYIEYPVSAQFKKIVLSNMESYDGTKKEQLKSFLEDLQKNGCICGMISEFVYN
+SDCRKFYIQHLDDLENIRYEIEDSLGESVKNRHRLPHYTFVCWLCFEEYCFDIYRNSFE
+>tr|A0A1S1J4M1|A0A1S1J4M1_9FLAO
+MKFYKIPLLLLFFLFNLNNVYSQVSYEFCMTGKYGNTIVLDFKVHNNTNASIPDYSFVFN
+WKGVSNVIMWSGMDVIQNGDNGIVELKKTTWGNVLPVGTTIYSVTMDYVPGMFPPGQGTL
+NGTPIKGITCYTPPATENFKCEKNFSSICAIKPAGPNGNEIKIGEGSVWAWGERVDVYIP
+ENRKGWAISMAVSHNLFTNLMGFEAMSVNEYFATTIQEINAGCEGSKLIAPGWVTKKYPN
+QDLINGGVNCYDTTGKVAAGYFQQEMGGSWMEMFMNYPCFIPQVPKNNFISDPAIGASFE
+FQSIIKTYHDYRNIAFWQYVKCWNPIGFIKDSKDPYAAVKILALAYNQGMNSGAFEPVFV
+KNRANAVAATNLMDYISPASPSGLDRLYAEQINRLTKVLDDRVADISWTDAAIWGVTDKS
+AHTFRGFYDAQIEWSDVDEYIKKITPFYAAFGVTEANFRAAVKPVFDRINGGNSISFRYQ
+MHDVVEAIVVFLPAFDPKKGLSEVYGNESNGCYAPTARMEGFDGGCGKDLGLTVYFSGTP
+PYKFTYKRTDVSPEIVYPEIATSQNPYSINSASLSEGTYAIVAISDANSAGEVVCEPIEI
+KNVGVAISAKLVKEGGGTCTGTGAGVKVEINGTGSGPFIIEYEINGVVQSPVTINNTGLY
+PLIVAPAKEGTYRLTKISTGGCTSVLDDTIVINKEIPASASAKLTRYGGVSCSGLGSGIQ
+VNLTSTKSVPFTIEYEINGTVQSPVTISSTGLHTLIMAPANVGTYRLTKISVEGCDFLLD
+DTLIIYGGVPPKASADLIKYGGNACLGENSGVQVEIMSPDSGPFVIEYEINGIPQSPVTI
+NDAGLHTLVTAPSKAGIYRITKISNGGCSFSLDNTLVIDNEEPFTANAKLVKYGGDFCLG
+ENSGIQAEITSRDQGPFTIDYELNGIAQSPITINNTGLHTLIGSPAKEGTYRLTKISTRS
+CSLLMDDVLIIEENTIPAEVVIEGNLMICKGDNTDLKVNIPSNHTIKSYQWEVDGNAISG
+ASTNTYVANQEGNYTVNVVTSMGCYLLSSVAKVIFLNKEDCELQKPELTEFDYPKFFTPN
+SDGYNDTWHVNNLENFTKLEIDIFDRYGKFITHLTKDSPGWDGTYRNSPVFASDYWFVLT
+YEEINNPGITKQIRSHFSLKR
+>tr|A0A1S1JB97|A0A1S1JB97_9FLAO
+MMKHLFKAAVKWTFKEKGEDATKRFYSKSHQITIEGKPVLNVSAAKAFKGDPELYNPEDL
+LLSSLVSCHMMSYLYVCSQNGIEVLEYSDHAEATLEVSPDGSGRFVVVHLYPKVKIANAD
+QIELANALHTKANQLCFIANSCNFPVSHHGSCEV
+>tr|A0A1S1J2Q6|A0A1S1J2Q6_9FLAO
+MNKVVAFGEIMLRLSTERHLRFSQAKAFGASYGGGEFNVCVSLANYGLNAEFVTRLPENE
+IGASAVKEMRKMNVASGNVVYGGERLGIYFLETGAGTRGSNVVYDRAHSSMATIEKGMID
+WEKVLEGANWFHWSGITPAISQSAAEACLEAVKAAHKLGITISCDLNYRSKLWQYGKTPS
+DVMPELLQYSNVILGDIDTAYFMLGIPKVNPNYQDEKSLPVLYSKLFDLIPGLKIAATTL
+RYSVSASHQRIGGVLFDGKAIYQAAVKEVTPVVDRVGSGDAFMGGLIYGLQEYQNNNQRA
+LDFAVAACCLKHTIAGDYNLVTLKEVENMIDGDATGLVSR
+>tr|A0A1S1J9N4|A0A1S1J9N4_9FLAO
+MRLIISFILFFVVNVAVSQEKKDFTEQEYLILQDKIRLTANANVDSSIVYANQLARSNNN
+KHLAFANAALSYLIQLKGNAVKSKEKYQLALNYLDKMPDDKEKTQLRSYLYNYAGLSEWK
+RENYSDAIENYQQGIKLSIKIGDIIQIVKFKSNIAAINVAVGNYRLAIKDLRSLNDFVDK
+NQSVYTKQQYLNNKSNINLSLAGSYESFYMKDPKKKVLLDSAEYFYQKTISYSQNFPDNK
+IVAKLSLGNIYGELKEYKNAEKTYYDIIFLANQNNMQEILCTTNYNLGDLYYNTKKYDKA
+LVFFKKSDSIGELTKTNQVDHLKSNYYQAKIYNILKEPELAYKHSKIYLDNYEKSESKLN
+DEILEVNYKLGVGDLTSEMVTIQEKYKYDVFLNKALKVFYVVIFIGIVFLLIKNIRDKNK
+AHKKMNALIEEFKANLEKKNDPEPEIAVLESEELQLKKENVNLSIDEAKENKIVEKLLAL
+ESKQEFLHADFTLPYVAKKIKTNTTYLSYVVNKRFGKSFGEYSNELKINYVINEMITNHM
+YRKYSTQAIAESVGFKNAVSFAKSFRKRTGVSPAQFANNI
+>tr|A0A1S1J5X7|A0A1S1J5X7_9FLAO
+MSSLLDKTEFTQEYILGLIASRTEESINIDFKDARALSSGDGKEISKDVSAFANSDGGLI
+FYGINEENHVATGTSFVDGNKYNKEWLENKITSNIQQRIQNLLIIPVRFDNDIMKTVYVV
+KIPKSPNSPHLNGDNKYYRRFNFKSVPMEEYEVRDSYLRVSASMVKIDSFIVQLVNTHNI
+NRYEFKIEVLITNTGNNVAEKYKVAAIINTTVPAELSATNPYSLTNNFEDGRILSTNVVP
+AIFPSEKLNILTFNLAVRNENISKFTETSTIEFTVFNQGSIKKSSNNQVIEQIKKLVESN
+D
+>tr|A0A1S1J6P6|A0A1S1J6P6_9FLAO
+MKLHHLRNATLVIETETDVILVDPMLGKKKTIAPFTIFRYKPKRNPLISLPKNSRDILSK
+VTVCLITHLHPDHIDKAGEIFLRRKSIPVICSSKDQSALSKRGLSIVQTLNYWEPQEFLG
+GKITGIPAVHGYGFVAKLMGNVMGFHLELPNQKSIYISSDTIFTEHVQKVLIEFKPDISV
+VACGVARLDFGQPLLMRMNDILKFAALAPGKVFANHLEALNHCPTTRTALKQALLDNNLL
+DKVSIPNDGTSVEY
+>tr|A0A1S1J7D1|A0A1S1J7D1_9FLAO
+MNLSLEYKIQEPKVILDKNPVLILLHGYGSNEADLFSFATELPDHYYIISARAPYDLQYG
+AYAWYAINFDADQNKFSDNEQAKTSRDVIAGFIDELTTNYPIDPNNVTLVGFSQGSILSY
+SVALSYPEKVQRVVAMSGYFNEDIIKDDYDKNDFKNLKFFASHGTVDQVIPIEWARKTPA
+ILEHLNIPVTYKEYPVGHGVAPQNFFDFKNWLAI
+>tr|A0A1S1J7R2|A0A1S1J7R2_9FLAO
+MKRVVVGLSGGVDSSVAAYLLQQQGYEVIGLFMKNWHDDSVTISNECPWLEDSNDALLVA
+EKLGIPFQTVDLSEEYKEKIVDYMFNEYEKGRTPNPDVLCNREIKFDVFMKIALSLGADY
+VATGHYCQKSEIEVDGKTVYQLVAGNDVNKDQSYFLCQLSQEQLSKALFPIGALTKPEVR
+EIAAEMELVTAEKKDSQGLCFIGKVRLPEFLQQKLQPKEGLIVQIDKNDPIYTIEKPTGI
+SLEDELKIESQKLDYLPTMGKVMGKHQGAHYFTNGQRKGLNVGGTTDPLFVIATDVDTNT
+IYTGLTSNHPGLFKKALFVGNSEVHWVREDLKLKEGQQMEVMARIRYRQPLQKATLYQFE
+NGMYVRFEEAQSAITEGQFVAWYLENELVGSGVIS
+>tr|A0A1S1J983|A0A1S1J983_9FLAO
+MKITPAEKTDYGILRTLFLQERRSTFYWLDPSVFQLKDFDSLTKGETILIARIGETVVGF
+ISIWMKNCFIHHLYVDQDHQSKGIGSALLKAAIQITDLPITLKCLENNSRAVIFYQQKGF
+SIKERGLSEHGPYILFELTGSIK
+>tr|A0A1S1J9K9|A0A1S1J9K9_9FLAO
+MNSALLLNIFRFIMLLAIQVVIFNNMNFLGYISPFPYILYIILYPVNSNRTGLIVSSFLL
+GIIMDMFCNSGGIHAAACLVLAYYRPYIFKFSFGLSYEYQTIKLNDSLTPERFSFILVSV
+VLHHIVLFILEAFQFKFILDVLLRTLFSSIFTIITSIIIIYLIKPNKR
+>tr|A0A1S1JCZ8|A0A1S1JCZ8_9FLAO
+MKKYLVQFKPFLIFIGTFFAAYIGLTLLYKFYLNGFGPNEIDGITNTVGRNVEQLMQGFN
+CDIKIHKSLTDSWMEVWYNKHYSVRIVEGCNAVSVMILFVAFVLAFSGKFRATLLFIVFG
+IFSIYVLNVARIAILVVLLFRFPEQDHFLHGTLFPLIIYGFVFLLWIIWVNKFSKYAK
+>tr|A0A1S1J0L9|A0A1S1J0L9_9FLAO
+MKSLVLFFLAFIFSPAIFADTVSDKEKEALIKLYEATNGSEWKVKWDLSLSVATWYGVKV
+ENGKVVGLHLANNNLQGNLPVELLTLVNLITIDLHDNKIQGQLPLEIGKLSQLETLALFN
+NEIQGQLPGSIYTIKTLKVLLLNQNKLSGSLSKEVSNFGVLENLSLFDNKFEGEIPNELE
+KLGHLSELNLSYNKFKGGVSKNLILLDALNMTMFDEEGNPFLLEIAARKETTMVTRN
+>tr|A0A1S1J0X8|A0A1S1J0X8_9FLAO
+MVVQYQGEQYGKATTFTIRIIGNNLSKSSSNYQIDLLVGDKKLPTFTTGIHQSLSNCLKE
+IYLFRKHHGITFEASSEKVAPLLVPYDLVLYNYNKYALFMA
+>tr|A0A1S1J2Q3|A0A1S1J2Q3_9FLAO
+MKASDKFKTAIESYLSEKAQNDAVFSADYKKESKNLESCFHYIFGEVKKTEECAFDNQEI
+FDMAVKYYTDDTIGTPAPVQCKVAASSPAKPDLFSTAPAVSQSTVQKTEIVQPVKPVQTL
+TLFDL
+>tr|A0A1S1J5D6|A0A1S1J5D6_9FLAO
+MARSLKKGPFVHYKLDKKVQENVESGKNAVVKTWSRASMITPDFVGQTIAVHNGRQFVPV
+YVTENMVGHKLGEFSPTRSFRGHAGAKNKGKK
+>tr|A0A1S1J8U1|A0A1S1J8U1_9FLAO
+MKYYSTLLSLIFFATSSAFSQEKVVKYTVSSGETINQIAVKFKVTPYDIYSLNPDARNGV
+KPNTVLLIPTSGAKTAVKNDIAPVKSSNSGKTITHEVQPKETLFGIEKKYNVTDEALKAA
+NPFLVKDGLQIGQTLEIPSKGSAVKTTVSTSAKPKSAVPEKYVYHDVVAKETKFSIAKQY
+GMTIEELEKRNPEIVSNLPVGYRLTIKGTAPKVETSAPSAAAVVKPAETKKAVETSKKAT
+SYMEYQVKPKETFYSLTHTFHITQEELTALNPALSEGVKEGMVLKVPAGYVAPTPIIVHQ
+QPAEKEVEKSIEKTIEKPAENTAGIKVVDKVKSETVSANPEVVELTKKRGENERKKLVLL
+LPFNLAKMQGDTISAASRIKSDKFLNMTLDFYSGALMAIDSARTLKLPIDVAIYDSQETK
+NSSNVSGLMAQNKLQDANAVVGPFYQSNAESTANTLRLYNIPVISPLSKDKANPIDNLYQ
+TIPSNDVVRNAVFDYMRGKNGNIVAVVDKKKESVISYIKQNQKGVVFANLTETGALDVAN
+LKSLLLPNRMNYVVMESANTAMVRTTIKALTDAQKTCQIQLVVLEPNNTLDSDEISFDSL
+IKLKLMYPSVTRDSDEQSVLIFEKEYRLKNKVNPNTYATRGFDVTFDTMMRLVQGKTYQE
+TADLMTTEQVDNKFQFYKKEDGGHANKGVYILYYDNDLTLKVAN
+>tr|A0A1S1JBR5|A0A1S1JBR5_9FLAO
+MKNYILLSLLGFVLLSCKKEINESEKLSEQEKEIPFVSNQGSSDSVFTAAYLPTSTTRQI
+VKHNYYTLSYNEKFEQAEWVAYELKKEYLKNTDYKRPYFIEDPKVTTGSADWRNYKKSGY
+DKGHLCPAGDMEFNESAYNDTFYTSNISPQDHDFNSGIWNRLEQKTRYWAEKYHDIYVVT
+GGILKDSDKKIGTEKVSVPRYFYKIILVKTGKEHKAIAFLVPNKDSDKSLYDFVVPIETL
+EKMTGIDFFPNLKNLKSSQSF
+>tr|A0A1S1J1V3|A0A1S1J1V3_9FLAO
+MKNTKLQAFIPLFYLVWSDDLLTQKEFVTIQKFINDLTWLSPEEKQQLLSRVDISNPPGR
+NELAQWKLDIEKSIENKEDIRSIFDIAVALSEKDLDISTLKSNFIQLENDLGILGEEALQ
+NFKTKAGSFTANSQTNSEFDVQKITALLNGKEAEIINRVKAIISRPEFAYETSTDIKVYR
+QTVYNWCKLLAAENLGNMAYPKQYGGGENIADYFAIMETLSYHDLSLVIKFGVQFGLWGM
+SVQSLGTEKHYAKYLRNIGTLKIPGCFAMTETHHGSNVKGLETTATYNHADQTFIIHTPN
+KNAQKEYIGNAAVHGQMATVFAKLIIDDHDYGVNAFVVPLRDANGTVLKGITIGDCGHKM
+GLNGVDNGTISFDQVVIPKENMLDRFASVNDKGEFESPIPSDNRRFFTMLGTLVGGRIGI
+PRSALAAAKSGLTIAIRYSDQRRQFGPEGGSEVPILNYRMHQRRLIPPLAKTYAVHFALQ
+YLTNRFLNRTEDEMQEIEALAAGMKSYSTWSTRDILQECREACGGKGYLSENRIDALKND
+TEIYTTFEGDNTVLMQLVAKNRLSEFRKSFGEMGSLGIINYVYENAKTALTEKNPIATRK
+TDDEHLLDGDFHLQAFVHREKTILASAARRIKKLVDGGLEPYDAFNVVQHQMIDVAQAYL
+DRVVLEQFQLAIQAVEDNKTKEILTKLNQLYALAQLEKNKAWYLEDGYMEAVKTKAIRKI
+VNQLCWDIRPDAVALVNAFDIPESCLSAPIAV
+>tr|A0A1S1J732|A0A1S1J732_9FLAO
+MTETTIQKNLFSKIYTTLKQALQGDESFDYTAGSIKKAVILLAIPMVLEMMMESVFALVD
+LYFVGHLEHSSFAIQTVGLTESVLTIIYSIDIGLSMAATAVVARRIGEKDPVAAAKAGMQ
+AIVIAFVLSIFLSIFGIIYAKDILLLMGASADAAEHGFRYTQIMIGSSLSITLLFLINGI
+FRGAGNAAIAMKSLWIANICNIILCPILINGFAEIPALGLLGAAIATTTGRSIGVLYQIY
+HLFYGNGVLKIKMSYLLPDFKQINALVKIAAPGVLQFVIASCSWIFLAQLVATTGGDHGS
+AGYQTALRIMMFFILPAWGLSNAAATLVGQNLGAKQIERAEKSVYTTAKYNVIFMATIMI
+ITLCFGEYIISFFTNDEMVKTIAVEALQIMSIGFIFYGIGMVLINTFNGAGDTWTPTGIN
+FFGFWLFQIPLAFVLAKHFNMGPKGVFIAIPVAETAITLAGIFFYKKGKWKRVQV
+>tr|A0A1S1JAJ7|A0A1S1JAJ7_9FLAO
+MASTRAAIRYAKAILDLANSKGVAEAVNNDMKSIATAIESNEELSAFIQNPTTKVEVKES
+ALLEVFADVNGVTKGLFHLLFENKRFEILEAIALEYKKIFDEGNGVEVAKVTTAIPMDAA
+LEAKVLAKVATLSDKKITIENTVDPSIIGGFILRIGDQQYNASVANRLQVLKRELSN
+>tr|A0A1S1J8T7|A0A1S1J8T7_9FLAO
+MWKKHPKALPFLFLSEMWERFGYYLMIGIFTLYLKDVKSGFAMTEKEASDLYGTFIALVF
+LTPFIGGLIADRYLGYRKSIILGGILMGVGYFLIGVHDLTMLYIAMTLIIVGNGFFKPNI
+STLLGSFYSKEEYKDKKDEGYNIFYMGINVGGFICNFFGAALQILLGWHWAFMAAGVGMF
+IGVIVFLLGTKHYVGHDQKKGVQEGDMPFYKIILFILLPSFVFGAIGWLIKGVASDANVN
+SSIFGSDSTDAFIFACIPIVLFYGSLYFKAKTEDKRSIGALLAIFGVVILFWAVFKLNGS
+ALTTWADRYTDREVTGTSGMVIAKLKLAKEVEYKKDSTELYDDQFRLQKVNGVVKKEVNY
+PLYFRNVAPDKLPAEGAKVHLWATNLSQSINPGWVVILTPLVVAFFSFLRMRKKEPSTPT
+KIAFGLLISALSVLVMIAAVKIGDNGTEKVSAWWLVANYGIITIGELFLSPMGLSVVSKL
+SPVNITSLMMGGWFLSTSIGNKLSGVLASMWDSYDNKVNFFWVNFALLMFATILMFALVK
+QLNKVMKERGIN
+>tr|A0A1S1J8J2|A0A1S1J8J2_9FLAO
+MKKLLVVTVLLILQACSTAKNANDQWIGQSKNNLIKAWGPPIRTINNQDHGEILIYADQV
+YANTNTSEGTRIAGLNYWNYTYIYTHKDGKIYLYKTDKQQQPPQTIAVK
+>tr|A0A1S1JBC5|A0A1S1JBC5_9FLAO
+MSNTITTTNFSFPNQKSVYRGKVREVYNINDDLLVMVATDRLSAFDVVLPKGIPYKGQIL
+NQIATKFMELTQDIVPNWLIATPDPNVAVGHLCEPFKVEMVIRGYVSGHAAREYAAGKRQ
+ICGVTMAEGLKENDKFPEPIITPTTKADNGSHDEDISREDILAKGIVSEEDYLVLEKYTR
+ALFQRGTEIAASRGLILVDTKYEFGKTKEGVIVLIDEIHTPDSSRYFYADGYQERQEKGE
+EQKQLSKEFVRRWLIENGFQGQEGQQIPDMSDEYIQSVSERYIELYENILGEKFVKADID
+NIDQRINKNVLEYLSGK
+>tr|A0A1S1JA87|A0A1S1JA87_9FLAO
+MKRIILPLIMLGSLLTSCNNDSKDEAETTSVVLKDQSVTPSLIKAQTGFESLKIYSLFSS
+DDVFADSPKFVFGGSADGSGLLKNTDGTFTFLVNNEDNFAVSRITLDKTFKPTKGEYLLN
+SSGGTWRLCGATMATQAEHGFGPLYLTCGESGEESRTHALDPYASAGGASVSKELAGFGR
+LSAENALPLRSTAYKGKTVVVIGDDDSGTYGGQVFMYVSNTVGDLSGGSLYMLKRNDSNQ
+REKDMTVDQTYPVSFVKIDNHTTLTGAQINASVNTLKAIKFGRVEDLDYRKGGNNADREL
+YFNVTGQDITGTNADASRTKYGRVYRLNLDAADPLKGTLELVLDGDNRSGKAGKFQNPDN
+ICVTSNYVYVQEDANGYGDETHDAYIYQYNIATKELKVVLELDHRRTQADAAKYNVGKLS
+KFGDWEYGAMIDVSDQLGIPDTFMLSIQPHTWTGEKYKGVDGGTNRPNEQQASQIVVIKG
+LAR
+>tr|A0A1S1J2V9|A0A1S1J2V9_9FLAO
+MRFLLLLLTFVHFSVWSQNGNIKGKVTFENSESAFGATVTIAGTQKFALVGNNGQFEIKN
+VAYGIYTLEITSLEAKTKTVKVTLNSPTAQVNISLEKSNDPKALKEVVVKKNSVKKEIIS
+KGFSVNVIETKDAATRNLQTNELLDRSAGVRIRQNGGLGSSVNYNLNGMSGNAIRIFIDG
+IPLSTYGSSFSLNSIPPALIERIEVYKGVTPAELADDALGGAINVILKKGAKNTLNASVS
+YGSFNTIQSNFNTTYRDKSGFTVKGSGFYNYSDNDYEVWGRFVYNIAPDGRYELTRAKRF
+ENRYRSYGGRFETGFTNVKWADNFLIGINVSEDHNQIQHGQFMTRPYKGRFSEADATVIS
+LNYSKKGFLFKKLDFSTNTVFSNKHEVVNDTVKWNYNWNGEKAIGLYGEPVLSYTGAQQG
+GPTINNISENILSSRSVFTYNLNEYNRFIFSNLYYKLDRNEDDLIKPEFQKDFEATFDLQ
+KTVTSLAYEMQAFESRLRTNIFGKFYEQKVNHRKPELVTQNGQTTVVEKITKSATPLFGY
+GLATSYFITPELMITASAEKAIRLATSDEMFGRPSENVLANPNLKPEQSNNFNVGVQFGP
+YEINTHKISIAASGFSRNAKDRIVRTSGNRVNDAIQTLPFENLGRTQSIGYEASFNYSYK
+DRLFLSMNMSKFNSLFKMQFDGNGGQLSNYNKQIPNEPFFTVNGNVQYNFKELIQKNSQL
+SLYYNFGYVDPFATLWIDVINSKTPAQFVQDLGLSYAFPKKQFVLSFDAKNIFDKQVFDN
+YAVQKPGRAFYLKLNYTLNKF
+>tr|A0A1S1J648|A0A1S1J648_9FLAO
+MKNLRRLKIHRKHQARAYRKTITIPQIILEGKWLGRLGFMAGLMVNVEQRKNKLIITVHK
+E
+>tr|A0A1S1J5V7|A0A1S1J5V7_9FLAO
+MQLLDGKKTAEDIKNEIAAEVQSIKDAGGKVPHLAAVIVGTDGASLTYVGSKVRSCQQIG
+FDSTLVSLPETITETELLAKIKELNEDDNLDGFIVQLPLPKHISEQKILMAIDPDKDVDG
+FHPANFGKMALEMDSFIPATPFGIMQLLERYNIETAGKHTVVIGRSHIVGRPMSLLMSRK
+GNPGDSTVTLTHSRTQNIEEYTRSADIIITALGVPNYLKADMVKDGVVVIDVGITRVEDA
+SHPKGYVITGDVDFDGVSKKSSFITPVPGGVGPMTIAMLLKNTLLARKMRSAKN
+>tr|A0A1S1J1J5|A0A1S1J1J5_9FLAO
+MKLWEKGIPTDKQIEQFTVGNDRELDLVLAKYDALGSIAHAKMLGQIGLLTQEETTSLVD
+ALNEIIADVAVGNFEIENSFEDVHSKIEYLLTVKLGDAGKKIHTARSRNDQVLVDVHLYL
+KDELKAIKEQVKTLFDLLMESAEKHQNVLLPGYTHLQIAMPSSFGMWFSAYAESLIDDIT
+MLNAASKVVDQNPLGSAAGYGSSFPINRTFTTQELGFETLKFNAVAAQMSRGKAEKTVAF
+AMSSVAATLSKFAMDVCLYMSQNFDFISLPSHLTTGSSIMPHKKNPDVFELIRGKCNKIQ
+SLPYEITLITNNLPSGYHRDFQLLKEGLFPAIQNLKACLDIAIFSVKDITVKDNILKDKK
+YDYLFTVDTLNEMVVAGTPFRDAYKEVAEQLEAGTYQSPKETKHTHEGSINNLCLNAIKD
+KMKAAL
+>tr|A0A1S1JBY5|A0A1S1JBY5_9FLAO
+MLIDTLKILFNRDLNKLKVEIESYQNEALIWTIAPDISNSAGNLCLHLMGNINTYIGAEL
+GKTDYVRDRPLEFSLKDIPRSELISKIEHTILVVNNTFDSLTEADLELIYPQIVFEKEMT
+TGFFLVHLSTHLAYHLGQINYHRRLL
+>tr|A0A1S1J2U4|A0A1S1J2U4_9FLAO
+MEQVQHAKEYFKILPKNNAELLYVVDSMNLINAALKSKEYRSKERKILLFIMGVLKPKVL
+RLLNYMLQIDLKDFDCDFYVDTKNKNPCAY
+>tr|A0A1S1J5C6|A0A1S1J5C6_9FLAO
+MVQQESRLKVADNTGAKEVLTIRVLGGTKRRYASVGDKIVVSIKDATPNGNVKKGAVSTA
+VVVRTKKEVRRADGSYIRFDDNACVLLNAAGEMRGTRVFGPVARELREKQFMKIVSLAPE
+VL
+>tr|A0A1S1J872|A0A1S1J872_9FLAO
+MSSHYEAPIRKPLVIGDKSYHDVTVDVAAPVEGPANKQWWIVFSIALIAFLWGLGCIIYT
+VSTGIGTWGLNKTVGWAWDITNFVWWVGIGHAGTLISAVLLLFRQRWRMAINRSAEAMTI
+FSVVQAGLFPIIHMGRPWLAYWVLPIPNQFGSLWVNFNSPLLWDVFAISTYLSVSLVFWW
+TGLLPDFAMLRDRAITPFNKRVYSILSFGWSGRAKDWQRFEEVSLVLAGLATPLVLSVHT
+IVSMDFATSVIPGWHTTIFPPYFVAGAVFSGFAMVNTLLIVMRKVSNLEAYITLQHIELM
+NIIIMITGSIVGVAYITELFVAWYSGVEYEQYAFLNRATGPYWWAYWSMMTCNVFSPQFM
+WFKKLRTSIMFSFIISIVVNIGMWFERFVIIVTSLHRDYLPSSWTMFSPTFVDIGIFIGT
+IGFFFVLFLLYSRTFPVIAQAEVKTILKGTGDNYIRERAANKDSHHE
+>tr|A0A1S1JBL8|A0A1S1JBL8_9FLAO
+MKHFLLLSFLFVFNINFAQEAKIKKEKWHWNNGPKQDTVIGYAQVLKVDNVLYISGAVTT
+ELTPAGITTVYNDLKASLASYGATFANVVKENLYTTDIETMKKYNNVRKKFYNGDFPAAT
+WVQIVQLYVPTAKLEVELVAHLPK
+>tr|A0A1S1JDB2|A0A1S1JDB2_9FLAO
+MRKLCAFLLVLIGPVVLAQKTVSLQDCESQFLKNNLFLLASQYNIDASKALTIQARIWDN
+PSLTAELNAYNPERNQYFDIGKQGQKAFGIEQLIYLGGKKRNEIKLAQTNEQLAELQFND
+LLRTLKLQLRKSFYTVYYNKKSLETTDNQLAHIEDLISSYSIQVEKGNIPLRDLVRLQSL
+YLNFKNERMEVVNENIEEQGNLKLLLNSTENVVPEVTKEEFNKYTKTIPFDLKTFQDEAI
+ANRPDYLAKQKDIEANEINVKWQKALSVPDITVGATYDQRSGAFNREANLTLGIPLPLWN
+KNKGNIKYAKTILEQSKIEKQNFDLQLQTEITTAWNKWEESRKNYVIIKPTVNSDFEAVY
+KGILTNFQKRNISLLEFTDFMESYNQASVQVNELKKKVILSGEELNSTINKDLF
+>tr|A0A1S1J5G1|A0A1S1J5G1_9FLAO
+MKKIIYLLFLFFAFAKVQAQIINPVKWEASIEKKSNSEYQLSFKGTIEKDWHVYSQFTPE
+DGPLPAEFLFHDSKSNYELIGKATESETHRKFNEIFGIDEIFFSDKAMFTQLIKQTNPKK
+EVIQVELSYQVCKENCISETKYFQFNLKTLEAKEIQAADITNEKTKKTTVNPTIEKQTEP
+EKTDSSLYMIFIIAFLSGFAALLTPCVFPMIPMTVSFFTKQSKTKAKGIKNAIIYGISII
+LIYVFLGSVITLIFGADALNALSTNVWFNIIFFILLIVFAASFLGAFEIMLPNSWANKVD
+QQADKGGIIGIIFMALALAIVSFSCTGPIIGTLLVEAASKGGIAPIVGMLGFSSALALPF
+MLFALFPGWLNTLPKSGGWLNTVKVFLGFLELALAFKFLSNADLVLQLHWFEREIFLAIW
+IAIFGTLAFYLFGKITLPHDSPTASISVGRLGVGLIVLTFTIYLIPGLWGAPLKLISGFP
+PPMTYSESPYGVGGAGKNTSSAEKTLPDGAHKGPHNITAFTDYEKGLAYAKSVNKPILLD
+FTGFACVNCRKMEDYVWSDPRILSILNNDVVLISLYVDDKRELPLEEQYVSKETGKKITT
+IGNKWSDFQITRYKANAQPYYILLDTKEQKLSKPAGYTPDITEYEQWLKSGIAKFQK
+>tr|A0A1S1J0L8|A0A1S1J0L8_9FLAO
+MKKKKEEVRASKVEEPAVEYEVQKSKFKGIDQETFDFDAEFAKGLTPEEFKAEMFKRIQA
+YPWKK
+>tr|A0A1S1J1T2|A0A1S1J1T2_9FLAO
+MISTLPYPLEKFGLTSVERVENALRQLRNGKGILLTDDENRENEGDLIFSAQHINVQDMA
+MMIRECSGIVCLCLTNEKADQLELPYMVKENTSSFQTPFTITIEAKEGVTTGVSAADRIT
+TIKTAVAQNAKPTDLAKPGHIFPLRAKNNGVLERNGHTEGSVDLMKLAGLKPEAVLCELM
+NEDGSMAKLDKIISFAVQHNLVVLSIEDIIYYRKYVKDYV
+>tr|A0A1S1J4Y8|A0A1S1J4Y8_9FLAO
+MNRLIIFFCCLFFSTNDKIPKTDSIPITKNMMHKADTAAVDSFSGDRIYNAEVLVPFFLK
+LKSNESQNSQKINMVHVGDSHIQSDLMTNEIRKKLQQKFGNGGRGLVFPYQLAKTNGSYN
+ERFRSNRGWESYRNIHPVKNVPVGLSGIALWRDNGGFAVELNVKDAAYNFNTIKIITPQN
+QNMFDLAISSQTKTIQSTERKVITHKIKKGEAISTIADKYNVSVADIRKDNHLKSNNIRA
+GRTLKIRTNETKPRNITSSEFVPLNLESDSFTHYYNSEKTLSRIFLLPNKEASKYELSGI
+VLEKDTPGLIYSSIGVNGAKFSDYNKYPLFFEQLKALHSDLIVLSLGTNESYDHMEASAY
+IKELRDFIKNVKEHNSKVSIIVMTPPPSLLKARRPNVYIRDYAKSIIEIAKTDGFAVWDL
+YDELGAMEGIRGLKSSGLIGPDWVHYSKKGYEKQGNLFAEAFLKAYDNFKLKN
+>tr|A0A1S1J5W6|A0A1S1J5W6_9FLAO
+MSATNFTTVIIVDESPQKVFDAVTNVRGWWSEEIEGNSAKLNDEFDYHYEDIHLCKVKIT
+EVIPNQKIVWLVEKNYFKFTEDKTEWTGTHPTFEISEKDGKTELRFTHVGLVPEYECFEI
+CRGAWTNYIGNSLLKLITIGKGEPNATGKPQTENEKKLSEKE
+>tr|A0A1S1J6W3|A0A1S1J6W3_9FLAO
+MKKTIFYSIFTFLFFTHIATSQITEDPEIKKMIGEIKAENLEATIHKLVSFGTRHTLSDT
+KSKTKGIGAAQQWIKSEFDKFAQESGGRLTSKIDYFDVKADGKRIAKDSQLGNVMATLKG
+TDPNDNRVLIISGHLDSRVSDVMNVKSDAPGANDDGSGVAAVIELAKVMSKRSFPATIIF
+VAVTGEEQGLYGARHLAELAKAANWNIVAMLNNDMIGNSLSSGTNLRDNTQIRIFSETIP
+FTETEEEAKMRKATNRDNDSPSRLLARYIKTVTEQYVDQLKVKLVYRNDRFLRGGDHTPF
+SQNGFTAVRFCEMNENFNHQHQDLRTENGIQYGDLAEFMDFDYLRKNTCSNLATLANLAW
+SPKAPLNVGIEVKELSNSSTLAWTAPEGQTPFGYQILMRETSSSHWEKTFFVKETKAEIP
+YSKDNYFFAVQSIDALGHASLPVFPVPIR
+>tr|A0A1S1J7B8|A0A1S1J7B8_9FLAO
+MKAFIKKIENEFDIKMIKSDEAIDFENTYTIDKDGNITTLRLQEIPINSLDFLLPISDNL
+EDLFLQDCEINNIKSISVFKQLKKLDLSINPLSNFEGIENLINLQELNLSATDVNSDSKF
+ENIQDLQNLCSLSLDYTKVKSIRGLEHAENLRKLNLRNTKIKGFEDIEELENINHIDLSS
+CFDLDFNRLALDRMKNLEKLNLSSCIVKSFEGLKKMTNLKQLLLHNASEIEKIKHLDYLE
+NLRVLDLSETEISKIEGLEGLISLTMLNLASNKISEIEGIKNLKNLEYIDLRNNKFSAIK
+EDNFIGIEKECVVDIGFNDVTDYNIITRKNIKIVYNHEGAGLDLEPLSFAFGDIENIEKY
+CRELKKEYLNRIKEFGLCSSLSISDFNKRMI
+>tr|A0A1S1J945|A0A1S1J945_9FLAO
+MTLLSSENLLLFSFALIVIAFLYSSVGHGGASGYLALMTIFAFPVAVMKPSALLLNLFVS
+SISFFFYYRMNYFRPKLFYPFAIASIPAAFIGGFVTLDNGIYKVILGVVLVFAALRLFGV
+FNFKEKEAVKINLPFALTIGFAIGLLSGMLGIGGGIILSPILLFLGWASVKESAAISSLF
+IFVNSFAGMLGFFMGGKTIPVESFYLVPIAVVGGVLGGFYGSGYFSNKTLKVVLGTVILM
+ASVKLIFP
+>tr|A0A1S1J140|A0A1S1J140_9FLAO
+MEALFLFIAKSGGLLILFYCAYYFLLRKETFFNSNRWFLLAGLITSVVLPFLVYSKTVWV
+NPTPVTNVNYTTVYQPALIENTAPLINWNLVLLSVYVIVLLGLLLKFAFDFYSLNAVLKG
+KKITQQADFKFIDTNENIAPFSYFDYIVYNSSMYTPSELENIIEHEKVHSEQNHTVDVLL
+SRVFCVLFWFNPIMWLYKKAILQNLEFIADSEAARKISDKKAYQYTLLKITTHENCVAIT
+NHFYQSLIKKRIIMLNKNQSKKRNSWKFGAIVPALAAFVLLFQIEVIAKEKQQTSKVISG
+KTESVDVYKIKKNTTDAELKEIKEKLKSIHNIEFKASEIKRNSDNELISIKIDVKNGKQQ
+AQSVQTSGNDAIKDFGLIVTTDTNGSKKIGIQTADENTNSESHKESKKVKNKKVILKQSK
+DVNTNSGTDEKITGNTRTNTSTTTVITDDNGTTSVSTSNSDGKIIVSTSGKASTKGPKLT
+IVDGVEMPANYNLEDLKPKYIKKMSVFTGSEATAKYGEKGSNGVIEIETHK
+>tr|A0A1S1J3J6|A0A1S1J3J6_9FLAO
+MKAFLPTICLMFLTLFSAQAQTAPAANPFPSISTLTNWASLNSQSQFDIAIRAVGFKFEV
+KEPGEGSTAYTYIRKVTVNEVNYTDRIVYRITNNNSASIISLVTASTDLVSLYTPQLSTF
+KNNNCKTEMSKDKNTTCTCYESANFAIDLCDERVKLTMGDGNKYFVSVAKK
+>tr|A0A1S1J3K3|A0A1S1J3K3_9FLAO
+MSKFRLDEVDHQILDMLIDNTRVPFTDIAKKLLISAGTVHVRVKKMEDAGIIMGSSLALD
+YDKLGYSFIAYVGVFLNNTSQTKFVLERINQIPFVTVASVTTGKFNIFCKIRAKDTKHAK
+EVIFMIDDIDGVYRTETMISLEESINDKKRLMHTIFKNM
+>tr|A0A1S1J756|A0A1S1J756_9FLAO
+MKDILIISNYYPPEKGAAANRIEQLALKLNQNGYEVSVISPLPNYPKGELFPEYKGRFSV
+TEKIQNITLKRLWIYPSNSSNIFKRIVSTLSFSSTLFFYLLFSKTPKKIIVQSPPLLLSF
+VSVFVLWIKGKKILLNVSDLWPTAAIELQVLKKNSISHQILLFIERFIYQKATHIFGQSN
+EIITHIHSIFPEKNCFLYRNYPDHFVEGFLEEKNNSSEPIKLFYAGLLGVAQGVFELIQQ
+LNLENGNIELHIFGDGAEKTQIVNYLNQNPTKKIVSHGMLERNVLHETLKNLDIALVPLK
+TRIYGSVPSKIFEYSALGFPILYYGGGEGENIVEENNLGWVVPVEDFQQLNTTLGTISTL
+GKVEIQKMKKTILLHAKSHFNLDQQMKELIEKNAF
+>tr|A0A1S1J6K3|A0A1S1J6K3_9FLAO
+MSSKPKILLIYTGGTIGMSKDFETGALKAFNFGKLLQKIPEIKQLDCDIETVSFEEPIDS
+SNMNPQEWTKIATIIEENYIAYDGFVVLHGSDTMSYSASALSFMLENLAKPVVFTGSQLP
+IGDLRTDAKENLITAIQIASLQENGKPVITEVCLYFEYKLYRGNRTSKVNAEHFRAFTAP
+NYPELVESGVHLKLNTHLFLPVKTDAKLIVHKEMDNHVAIIKMFPGMSEVVLASILAIKD
+LKGIVLETYGSGNAPTEDWFLDLIEKAIQSGLHIVNVTQCSGGSVNMGQYETSTALKSLG
+VISGKDITTEAAITKLMYLLGQNIPQTEFKAIFETALRGEISL
+>tr|A0A1S1JB41|A0A1S1JB41_9FLAO
+MRNKKHILLTALTITFLSCFTYVISQTKPATEPKITQDTVKTARPNLIAIPTDSVFTDKG
+LKLKPYKKNAHASYYADRFNGKKTANGSRFSNSAYTAAHKKLPFGTRIKVTNEANGKFVI
+VKVTDRGPFVRTRDLDLSKRAFMEITKSKGSGAMKVTIETIVE
+>tr|A0A1S1J310|A0A1S1J310_9FLAO
+MTFFNQEIAFFVHTYLILILAYAILIMSSYLILAYLSAKELRDYLKRNSFIDYDVLLTSG
+LAPKLSLIAPAYNEGFTIEENVKSLLSLNYNQYEVIVVNDGSKDNSMELLIHTYDLVLTE
+LFFHQQIETKKVRGLYTSRNAAFKKLIVVDKENGGKADALNAGLNIAQNPYVVCIDVDCI
+LDKDSLLKLAKPFLESNEQRIIATGGVVRIANQCIIKNGRLIEVNVPDVMLSRIQVLEYL
+RAFLLGRMAWGRLDGLLLISGAFGAFDKEIALLSGGYSTKTVGEDMELVVRMRRYMLENK
+LPYSVRYIPDPLCWTEAPEDFKIFKKQRSRWMRGTIETLSFHKKMFLNPKYKLLGMLSIP
+YWTLFEFLAPGIEFTGLVITIIFFAFGLLNWHFFFLLLLFVYAFAIFFSVIALYSEERTY
+HKYPKQTDFFKLLMAAFIEPFYFHPLAVYAALIGYKEKILGTKGWGEMTRKGFTKKE
+>tr|A0A1S1J9A5|A0A1S1J9A5_9FLAO
+MKNSTIIGLTPFEKPDVNLMSQLFQAGAFPVLSLGHDIEIAQEALHQLDGNSIPSYGVYL
+TSDRLTSLQLPEQVSLAILPFGISVEIYPNVSRIYQVTNLEQAREAEQLGAVGIIVKGNE
+AAGLVGYESTFVLFQRVIQEIKTIPVWVQGGIGLHTAAAVKALGAKGIVLDSQLALYPES
+SVPQELKNLCSKLNGTETKIIAQHRVLVRPNSPVLAENVSIEELGQYFNDLDPEKSYITM
+GQDIALATELYENFKTLKKLIFGFHEALYGHLKQAKASAIIDENNPLAKQLGLRYPIAQG
+PMTRVSDVPAFAKAVAETGALPFIALSLLKGEQARALVIETQKLASDKTWGVGILGFAPQ
+ELREEQTAYILEAKPPVVLIAGGRPAQAKVFEKAGITTFLHVPSPALLDIFLKEGAKNFV
+FEGRECGGHVGPLSSTVLWEKQIERILKEDHPENISVFFAGGIHDAFSTAFVSIMTATLA
+ARGVKVGVLMGTAYLYTQEAVSTGAIQQEFQQQAMKAKDTVLLETAPGHETRCLNTAFAL
+HFDNEKKKLLALGTDKKQIWEELEKLNVGRLRIAAKGIDRQGDALVTIPKNQQLDLGMYM
+IGQVATMHNQVITLESLHHNVAIENQKYIEQAALPEKPSSADKALDIAIIGMECVFPGAK
+NLAEYWRNIILGKDCVTEVPEERWNKDLYYQPDSNGSDVSHSKWGGFIPKIDFDPLEFGI
+PPQSLAAIEPTQLLTLLVAKRAMEDAGYGEKQINRENISVIIGAEGGNDLANSYSFRGYY
+KQVFGELHEEVEKAFPQTTEDSFPGILANVIAGRITNRLDLGGRNFTVDAACASSIAAID
+LACQELILGKSDMVLTGGADLHNGINDYLMFSSTHALSRKGRCATFDSAADGIALGEGVA
+ILVLKRYEDALRDGDRIYSVIKGVGGSSDGKALGLTAPRKIGQERALERAYDQAGISAAT
+VGLVEAHGTGTVVGDKTELTALTNLFLKSGALPSQTHLGSVKTQIGHTKCAAGLAGLIKA
+TMAVYHGVKPPTLHLQQPNAYFDAHTSPFAFHAKTGLWSEKERYAGISAFGFGGTNFHMV
+IENHPQKEEAAILQSWPSELFVFRGDNYDAAKIQLEQVKTLLQINDSLSLKDIAYSLAVG
+SEKPIQLSIVADTAEDLVMKIELLLTGIESKDIFMVNKRVGKTVFLFPGQGSQNIHMARD
+LFVLFPALRKIISQYPDLEKVVFPAATFDTATLKKQKETIKDTRLAQPLLGIVDLALAQL
+LQSFGIVPDMLAGHSYGELPALCFAGVFNEQQLVELSSKRAQSILDAITDGDPGAMVAVN
+IDADRLKTILDQHQDCYPVNYNSPTQCVVAGSTAAIDKFIEALKNERISAKKLEVACAFH
+SPLVSKSKDLYANVLKEIPFQEMQIPVWSNTTATLYPSAVSDIKAQLTDHLVQPVHFVDE
+IQAMYADGARIFIEVGPGKILTGLTKACLNQEELILHVEDNNHNSLTHLLCMLAQYLGTG
+RTFNLNKLFEDRYANLIQIDQPELYQKSPTIWRVNGQAAHPITGTLPAHGALPIVTPIQM
+TNSKIIQTPDTQPAAEHILQEYLNSMKMLIQAQRDVMLSFLGQQQHLTPIPVYAATVENK
+MANQLAATVITNDKPIAKVTLQIPSRDIKSLLLTVVCEKTGYPQEMLGMEMDLEADLSID
+SIKRVEIIGALRNELGILNSDHENEDTVMEQLAAIKTLNGLVIWLTEYTGTVDSVSTKIE
+LPPVAPLTADKTTVTLAELQTAILDIVSEKTGYPKEMLGLDLDLEADLSIDSIKRMEIIS
+DLKNKIGFGDDKEQADDLMEKLATIKTLNGLAAWISEMSTTEPVQSLLTRLRFDLVPTLI
+SEAQNTEILKGKRFAIVPDNGTQTLAIKTILEQYGAITELVHNEQNLTLFDGLIITDIYS
+ATVKHSIIDHVGLIKNMDLEKAQWIYLISDIPAHVEELKDTRALRHYQGYPGLFKSLARE
+FEQTNFRLISLNTAQEVDQIAEITLREILTTDQSVEVIYKNNQRHKVEIIPSPMLTALDQ
+AHIELDKKSVVLVLGGGQGITAELVKHMSATYPCTYVLVGRSTDPRDVITDSKELELMES
+KEEIRSYFIKTGNFSAPSEIEKETLRIFKNNQILRTIRHMEELGNKVVYQSLDVCDEEGL
+TQLIHDIYKQYGQLDGVIHGAGLLEDKLFKQKTTSSFERVFDTKVKPLRVLAEQLRSDCQ
+FVVLFSSIASVYGNKGQTDYAAANSVLDDYAKVLNKRLKGKVISINWGPWKGAGMVSSSL
+ESEYERRGISLIPLEEGKELFLNEIKYGTESQVLIMSGKNW
+>tr|A0A1S1JB15|A0A1S1JB15_9FLAO
+MSEAANSSSPNQERNTENWFTSWFDTPYYHILYKDRNYREAQIFMDNLTHYLNLPEKAKV
+LDLACGKGRHSIYLNQLGFNVLGADLSENSIAEATKNSNETLHFKVHDMREPFEEKFDAI
+FNLFTSFGYFESDDDNLTTLKAIKESLSEYGFAVIDFMNVTQVIETLVPEEVKSVDGIDF
+KIKRYVEDGHIFKEIDFEDQGQNYHFTEKVKALTLKDFEELMAEAGIFLLDIFGDYKLKK
+FHKTESERLIMIFK
+>tr|A0A1S1JAN7|A0A1S1JAN7_9FLAO
+MKKKLEADLISIAHRILKLKNKSDINQLYLETQKLYEKLAVLKFVDENFDTLKPTIGHSE
+IHSEIEAVFEKEEAISTEVQTETPIIVEQIATEETLEPVIAEEITAESPKESDPDPETPE
+EAIGEPSEDINPEPEIFAEIATEIPEETAAEPIVETIAEPVAEITAEPIVEKMEEPISET
+TKEPETIAELSFTTISDSKPIPAFIPAFELDKSEEVQEEKKPKKEEPKAENPSKPEPVHI
+SFEEILGVNYADAHFVKVDSFEAVSPTPTPSINEFKEQKTVETTVLETPAEPKAATLNEK
+LAKGFHIDLNDRIAFTKNLFGNSSEDYSRVLNQLLTFDTYGEAKEFIEDMVKPDYNNWDG
+KDDYAERFLGIVEKKFS
+>tr|A0A1S1J1H8|A0A1S1J1H8_9FLAO
+MRKIKYKKGRKLQHTSLEYTGTHKSHETEMQLFVYNDTDIVEYEKFTVLAINSCFDYTKN
+NWLNIHGLNDIGLIKTIGDHFKVDDFLLADILNTTKRTKLEEQKDILFFNIKSLLPSEYS
+DGLKVEQLSFILKDGILISFQEKRSDFFTHIRERLRTHAGIVRSKKVDYLLYLLLDAVME
+NFYITIEDEEDNIEELIDLTKKGADPVILEKIENHRDNFNFLKRSITPLRDSLYYLKTIK
+DDDENNGLIQKETFNFFIRLHQKSLELLEQIESDMSSLESASNFYFSEQSRKMNEIMKTL
+TIISAIFIPLTFIVGVYGMNFEYMPELKEKNGYFIVMTSMFLLVIALIIYFKKRRWF
+>tr|A0A1S1J0Z5|A0A1S1J0Z5_9FLAO
+MKNTILNTIANLDQLGKKAVRAGIVIVFLWIGGLKFFTYEADGIVPFVANSPFMSFFYNQ
+PTEYKEFVNKEGELVTENHEWQISNNTYGFANGLGILLIGIGVLVAIHQWAPLASLIGSI
+LVFILTIGTLSFLVTTPESWVPHLTDEQYGFPYLSGRGRLVLKDIVILGASLITMSESAA
+LYLKRQS
+>tr|A0A1S1J3M8|A0A1S1J3M8_9FLAO
+MKRFSTLFLVSLLSGATTLGAYKLLFESSNSFFGRGNSVVTLAPNSFGKNVALSAETVDF
+TAAADKTIHTVVHVKNVSRRTVSNPMMEFFYGYGGQQQQEQVGTGSGVIISEDGYIVTNN
+HVIKDATEIEITLNNKKSYKAKLIGTDSKMDIALLKINADEKLPYTAFANSDSVKIGEWV
+LAVGNPYNLTSTVTAGIVSAKARNLDTNGIQSFIQTDAAVNPGNSGGALVNTRGELIGIN
+TMISSMTGSYVGYSFAVPSNIARKIIEDIMEFGNVQRGILGVEGGELNSTASKELGITET
+QGFYISKVSKNSGAEKAGLGKGDIIIKLDDQNIATYADLSGYINTKRPNDVVKVTYIKDG
+KTKTVPVTLSKNEFFSTEFKGIELENIDASDKKKFKIDYGVKIRSITNENLMQYQNELQG
+NIILSIDNVKATNIETVSKLLNNKNDGQSVRLEMISKSGEILRIII
+>tr|A0A1S1J5A1|A0A1S1J5A1_9FLAO
+MADVLIKNEAGTGPLATGRTNDPINADHLHVTDIDPVVRIVLGNEYVVGLDNGTNMVGRM
+CTALAGTNATFTK
+>tr|A0A1S1J6A7|A0A1S1J6A7_9FLAO
+MANSLFDINGKVALITGSTHGLGMAMAKGLGEAGATIVVNGNSSQQKIDDAVAELQKEGI
+HAVGYKFNVTDEMEVIAAVRQIENEVGPIDILINNAGIIKRIPLIEMEVADFKEVIDIDL
+VSPFIVSKHVVRGMIERRRGKIINICSMMSELGRSTVGAYAAAKGGLKMLTKNMATEWAK
+HNVQINGIGPGYFATEQTKPIRVDGHPFNDFIISRTPAAKWGEASDLAGAAIFLSSKASD
+FVNGHILYVDGGILATIGKPSNE
+>tr|A0A1S1J2C9|A0A1S1J2C9_9FLAO
+MKPTNFVLFADCIPVKGSSRSIICDTKNNNFYFIPNGLYDILEAYNGKTIEEIKNDFKHQ
+YDEIIDDYFDFLIANKLIFFSSNPDLFPKMSTHWDSPSLITNIIIDYDDIIHDFNTLVPQ
+FETLKCSYIQLRFYKHVSLACIKSIVETLRKEKSRIVSIDFIVPYSESFDFDEVNRILLD
+NKRIHSIIIFNSPYDKSYNSLNQKMGYLTLVKRNVMNEKHCGIINNEYFYSNIKLFSESQ
+HYNTCLNKKLSIDKEGNIKNCPSMSLSFGNIKDTTLEKVLHHKNFKKYWNITKDQIAICK
+DCEFRHICTDCRAYIEEPDDMYSKPLKCGYDPYNNKWSEWSTNPLKQKGIEFYGMKV
+>tr|A0A1S1J4Y7|A0A1S1J4Y7_9FLAO
+MRYFIQFAYNGTNYHGWQFQPNASSVQETLNKALSILLNTPISVMGAGRTDTGVHAEEMY
+GHFDIQTPLDISNLIHKLNSYLPKDIAIFNILLVHDDAHCRFDATKRTYEYHINTVKSPF
+LQELSWYFNQKLDVDLMNEAAKILLNHTDFQCFSKVNTDVNTFDCTVFEAYWKQENHKLI
+FTISANRFLRNMVRSIVGTLVNIGLHKISLTDFETIIASKSREKAGFSVPAHGLYLTEID
+YDYL
+>tr|A0A1S1J928|A0A1S1J928_9FLAO
+MKRKQLILSVSLVLMILFSIFFQSIHSYEHIVKQLSEKQCHHDYNDPSGEITHQHHNYDL
+CYVCHFAFGSYIVPEEIALQFHDFDNEIPYFFTLSERLFSFLESAYLLRGPPQAIVA
+>tr|A0A1S1JAJ4|A0A1S1JAJ4_9FLAO
+MKGVLLVNLGSPESPEPKDVKPYLDEFLMDKYVIDVPYLLRALLVRGIILRKRPEESAHA
+YAKIWWDEGSPLVVLSERMQKKVQPLVNVPVALAMRYGSMTIEKGLQELHEKGVTEVLLF
+PLYPQYAMASTLTILVKAEEIRKKKFPQMTFTDVPAFYNKPDYIKNLADSIQKHLVGFDY
+DHLLFSYHGIPERHIRKTDVTKSHCKIDGSCCNTPSPAHDFCYRHQCYETTRQVVKLLGL
+PEDRYSLTFQSRLAGDKWLEPYTDVEIDKMPAKGIKNLAVVTPAFVSDCLETLEEIAMRA
+KEDFEANGGEEFLAIPCLNDDDEWCQTVGNWINDWAK
+>tr|A0A1S1J0I2|A0A1S1J0I2_9FLAO
+MQSIQANNYLVHFNQNAYEALNHHLKESKYSNVFIIVDNQTNEYCLPKFLPLLETDLTIE
+IIEFEAGEINKNIETCIEVWKVLTELGADRKSLVINLGGGVVTDLGGFVASTFKRGVDFI
+NIPTTLLSMVDASVGGKTGVDLGNLKNQIGVINVPQMVLIDTQYLETLPQNEMRSGLAEM
+LKHGLIYDSAYWKQFLDLNSIDYADFDELIYRSVEIKNDIVIQDPTEKNIRKALNFGHTL
+GHAIEGYFLESETKTTLLHGEAIAIGMILESYISLHKNLISAAEYAEIKTAIKSIYDDVK
+IEENDIDPILELLIHDKKNEYGLIQFALIEGIGKIKINQSVENKLILDAFQDYKS
+>tr|A0A1S1J301|A0A1S1J301_9FLAO
+MEAFFIFIAKSSGLVILFYCAYYFLLRKETFFNSSRWFLLAGLITSVVLPFLVYTKIIWI
+EPAPIVQAPVMAASKATIAAMDYSKAYIVPAVAEDPFEINWNYVVLAVYGIGFLALVIKF
+MIDFYSLNSVLKGKKVLQQADFKFVDINENIAPFSYFDYIVYNSSMYTASELESILEHEK
+VHSDQNHTMDVLISRVFCVLFWFNPFIWLYKKAILQNLEFIADSEAAKIITDKKAYQYTL
+LKITAHESCVAITNHFYQSLIKKRIVMLNKNQSKKWNYWKYYAIIPALAAFIFLFQIKTI
+AQEKEAKEVRESKGVIKNNDSTDVIKIQKNTTDQELKKITEDLKQKHNVDVVISDVKRNS
+ENELTAIKVDVKRQNGKTQTIHIESNKAIKGCGIVVSTQNNGFKNVALITDDAPSTPRIF
+RNQVAERDEINDTDGAPLAPPTPPTPPTPPSYPIGAMPQMPSLDVPMPPMPPMNPGSKAD
+MAKFKKDMAEYEKKIKSIEPGIAAYEKQINEFLGQKNSIYEKEMQKYEAAMDKFSAEMDK
+FAQDIEGKYGKDSKEYDINMKQYEEDMKQHEQHMLRYEVDMKKHEKEMKRHEKEMKKLEK
+ESRKS
+>tr|A0A1S1JAU1|A0A1S1JAU1_9FLAO
+MNTKLKCLLLDDELPGLTYLKMLCEQIPELEIVKTFNNPEKLLAEIPNLDFDLLISDIEM
+PGIDGLHLAEMLDNKLVIFCTAYKEYAAEAFNIDAVDYITKPVKLERLQKAISKALERFD
+KPDAAKKFIQLNTDKGKTLLYFNQILYIKTAVSDSRDKTVLLTDGSFLNLKNVKFDTLLQ
+ELPEANFCRVNKKEIVAVKAIKFFNHNEIVLHHQEKDGKNSALILSETYRADFLKRVKL
+>tr|A0A1S1J6U0|A0A1S1J6U0_9FLAO
+MYWTLELASYLSDAPWPANKDELIDYAIRAGAPLEVVENLQSIEDEGEIYESMEEIWPDY
+PTDEDYLWNEDEY
+>tr|A0A1S1J294|A0A1S1J294_9FLAO
+MAKIKHNNFIDTVDTVFSNAKEKGLLHLYSEGEYLNGRTIKINGSEMLHFGTTGYLGLEQ
+DKRLKEAAISAVNRYGTQFPLSKTYLSHPLYAELESRIEQMYSIPPVITKNSTLGHMAII
+PTLIRDEDAVIMDHQAHWSVQNACQVLKLRGIRVEMIRHNNLEMLEDKIRMLSGKSGKIW
+YMADGVYSMYGDYAPVQELLNLACKYPQLRLYFDDVHGMSWKGKNGTGFIFDAIGKLEEN
+IVVVSTLSKTFGASGATFFCSDAKLREKIKTFGGPLTFSAQLEPASVAAAIASCIIHLSA
+EINEHQAELAKKIMHFGSLLSKSSLPLVSENDSPVFFLGMGTPATAFNFTKRLFAEGFYL
+NLGIYPAVPIKNTGIRITISAHNKIEDITELARAMDHHFHRAVEETGSSEQKIRQAFRMD
+SKKKLPDAKKQTEKLQMEEKTTIADINKQEWNKYLGAHNILDWEGMQYLECAFSNNQDHA
+NKWDFFYYIIRDQNMQVVLMTYCTLGMWKDDMLATESVSRQLEEIRKTDSMHMTSKVLST
+GSLFTEGLHCYIDKDHPLAEHSMRMLLNKLEESYNSLDADMLVLRDFETGFHLDEMIRNQ
+GYFRIDMPESCVIENKNFPAIENYGSLLSTRSRQHFNREILPYEKFYAVEIKDCLNKEEL
+NRAYQLYCNVKERNLAINTFTYKREVFENMNSCPNWEFIILTFKDAPEKNFVGIMFCYKN
+SGNVYVPELIGMDYISGDGFNLYRQLLYQTIKRAKELEIRRIDLGISASFEKKKLGASII
+PKVAYVQARDNYAMELMQTLQNETNTAR
+>tr|A0A1S1J5H4|A0A1S1J5H4_9FLAO
+MSKTIRVVLADNHVFVRDGIKSLLENEVNIEVVGEATDGIDTLEAVASSEPDLLILDIRM
+PHLTGIEVVEKLRSENNKVKIIILTTHESEEYVLGALKAGAEGYLLKDSSKEEFLKALHT
+VLNGGKYYSGDVSGILIHHFVHCTVSLGRKQALAEEITITKREKEILSLLLSGKGNKEIG
+ETLKISKRTAEVHRFNLMKKLKVKNLMELSNKATEYSLL
+>tr|A0A1S1J9X8|A0A1S1J9X8_9FLAO
+MDLKEKLVSSFMAFEERVDVHSDLHDIRTKALKNFENKGFPTKKEEAWKYTSLNAILKND
+FTVFPKQESAIEFNQVKKYFLHEIDTYKLVFIDSIFSSHLSSTTHDGIDVCLMSSALTKP
+KYKMIIDTYFNQIASKDDSLTSLNTAFASEGAFINIPKKKVADKPIEIMYFSTGNEAALM
+VQPRNLIIVGENSHVQIIERHQSLNENPVLTNSVTEIFAQKRAIVDYYKIQNDNSEANLV
+DNTYVSQQQESHAYVHTFSFGGNLTRNNLNFYHFGERLTSTLNGISILNDKQHVDHYTLV
+NHATPNCESFQDYKGIFSDRSTGVFNGKVLVEKEAQKTNAFQKSNNILLSDKATINAKPQ
+LEIFADDVKCSHGCTVGQLDETAMFYMQSRGIPKKEAKALLMYAFSNAVIESIKIPELKQ
+RITKIIATKLGVNLGFDL
+>tr|A0A1S1J1M3|A0A1S1J1M3_9FLAO
+MKTIDKYLFQALDSYPYSLEETIESLDYAFSYDAKNTMVFCLYGRIQAEQLWNYEEAKWY
+FQEALAINIHALEIYPHYVQTLILNEDFEEAEKLIDFALTVKGINKSEIFVKKAILYEAQ
+QEFGLALKEIKKAKLCTLQFAFECNIREVEKRIEGKMDLLKKKKKSK
+>tr|A0A1S1J1Q9|A0A1S1J1Q9_9FLAO
+MFFIEVVLPLSLAKTFTYRVSEAEFHFIKKGMRVAVPFGKNKIYTALVIELHQNEPGLYE
+AKEIHQILDEKPIATEVQIKHWLWVANYYMCAIGDVYRGAFPSGLLLESETVVSYKTDAE
+VNQDELSDDEYLVYEALQQQSSLRIQEIISMLNKKNILPVLQKMIARNIIVLEEEIKEGY
+KPKLVRYVKLHAKYESENGLGELLEVLKNANKQKELVLAYFQIMASEKKPITVKKLVEVS
+NSTSAAVKALIDKEIFEEYLLQQDRVLFTGRTTDDQLLLSEAQTRAFTAIKESLSEKEVC
+LLHGVTSSGKTEIYIKLIEEYLETGRQVLYLLPEIALTTQLVSRLRLYFGDKVAVFHSKY
+SNNERVEVWKQTLENSEKAQIVIGARSALFLPFDNLGLLIVDEEHEQTFKQTDPAPRYHA
+RDAAIVLANFHKAKVLLGSATPSIETYFNAQADKYGLVSLTERYNNVRMPEILLVDLKDK
+HFRKRMTGHFSDLLIEEIGEALSLGEQIILFQNRRGYSPIIECMTCGHVPHCQQCDVSLT
+FHKHKNQLRCHYCGYSIAKPTHCHSCSSIDLTTKGFGTEQIEQELITLFPKAKTGRMDQD
+TTRGKFGFEKIIDSFKNREIDILVGTQMLAKGLDFDNVSLVGIMNADNMLHHPDFRAFER
+SYQMMTQVAGRAGRSEKQGKVVIQTYNPNHNTIQQVTNHNYIGMYKEQLYDRQIYRYPPY
+FRIIKLTLKHRDFDKLKEGSMWLYQVLSQNLNMPVLGPEEPAISRIRNEYIRTILIKIPQ
+NQHLVNTKKTIQKMLNSFEAVAQYRAIKVIANVDFY
+>tr|A0A1S1J615|A0A1S1J615_9FLAO
+MKRFLIYAAKILIEVILIAVILDGLYTAIFFQSKNRGKVESVFNSEARKYDVVILGSSRA
+NNHFVSQMFEEKGLKTFNYGMSGGHLFEASLMLKLMIERKYEIKNVILEADLNLSNDQES
+DGVSAKFLPYIHNSKLIKDHFSGQKNFNELYYIPFYRYIKFDSKIGFREIYNIAGGKATN
+ALDNLGYYPLVKHKNGNMKNNIVNLNPLLKNKYYEEIKNICKANNINFIAVMTPMCENVV
+GMSYFDKVKKAYPEIHNYENVVVENKYFSSCGHMTDAGARMFTTRILKDFFNR
+>tr|A0A1S1J6F1|A0A1S1J6F1_9FLAO
+MDKIIPRKNRKFRYLTIAIGVFLVLATIVFFSFNTKRSLNVKADELSVQKVEKAFFEDFV
+VFQAKVEPLNVMLVNVTEGGSVKEIFVENGAMVTKGQPLARLFNPNTELNYLTQETAIIE
+QINNLNTGKLNIRNQELNLTKDLVLIEHDYNDAKRLYDMNAKLFEKDVISRNDWNNFKES
+LRFQDERKRTIQQSIQKEKQTNQVQISQINRSIQTMEKSLDILRNNKKNFLITAPESGRL
+TSFQPVLGKTFQAGESIGKIDSKQGYKLAADVDEFYLEKVREGLKGQVEFQGKNLEVLVT
+KVIPEVKSGHFRVELAFISKENITLQDGLSFGVKLILSEKNKTLVVSKGSFNQEAAGKWI
+FVVKGNKAERRNIKLGRENPSYYEVLEGLKEGESVITSSYTDYKDIEELSISSQ
+>tr|A0A1S1J7R8|A0A1S1J7R8_9FLAO
+MKTKVLYSAVIAVSIFFFIGCENENDIQGLGNLVPKTVDQDASIASIFVNGTQLHSEAFG
+NPNNPMLVFLHGGPGSDYRNGLNVKQLADEGYYVIFYDQRGSGLSKRHDKNTYSIQLMID
+DLSEVIKYYRKTPTQKIFLFGHSWGAMLAAAYVNQYPMAINGVILAEPGGLNKKLLDDYG
+EMSRKIKLFSEATSNLLYIDQFLTGKENQHEILDYKLGVSSGFSYAKGNKEGISGPSPFW
+RIGTTVLESLADIAENEGFDFTTNLSQYKTKVLFLYGELNQSYGLSFAQKEAAFFPNTTI
+AEVKGTGHEMIYFKWENVHPFVLNYLNDLK
+>tr|A0A1S1J8A7|A0A1S1J8A7_9FLAO
+MNHSLIKNKKIVIIGGGPVGLTTARILQINGADVTVYERDLNAQARTSGGTLDIHLDSGQ
+KAIEKADLMAEFYKYARPTGEKMADMHGNITSTEMPTEENAYARPEIDRNDLRKIMLENL
+KENTVVWDSHLIHIKKAGAQYHLEFKNGTTASADFVIVANGGRSNARKFVTDLEPQLSGT
+YIIQGEIADPNRDYPEFKPKYGDGNVMAMGEHKMFYTHTLRDGSVHFGVSFKADENWISN
+NGIDFENLTSVRAFLNETFKNWSDDYKKFFNAATDFSGLPLRLFSLEDSWKEHSNITLVG
+DAAHLMPPFAGEGVNMGLFDAYHLTENLTNGKFITLQDAIDDYEQKMFGYALEAQRETTK
+MEILLHSDNTTEDILNSRIG
+>tr|A0A1S1J1K0|A0A1S1J1K0_9FLAO
+MKARTASLFYLKQTLKVKLTAFLIIASICDAQSGNYDRNIKILKKLPLYGLMGKSTDQKK
+VQGVVKDNKGMPLTGVTVSVNGSKQGTVTNFDGKYEIAVNEGDVVSFSFVGFETKTIKIT
+NQVLLNVILEPSTNKLDELVLVGYGKMSRDKITGAVTKLDTKVLKNTQNVSFADALIGVV
+PGLFVQESFMSPDAPPSILLRGIGSISASTDPLIVVDGVQMPRSGLGAFALNAADIQEIS
+VLKDAASTSIYGSKGTNGVIMITTKRGNRNSKLQVTFNTRLGIKTADQSFTNSLMNGSQK
+LDFEESMGYYKANPALLQSRRALGNNVNWADLLLKNEINRENDISFSGGSDKANYYTSVT
+YNNVNNIFGGHYKRYTASTRVDLDLGKKLKVGFSGNFSNVNEQDGRTVGSPFSNSFLLNP
+WLTVRDDKGNPLRLLDIASSSGVSYNPLFIRENTNTNAIRKNIGGSVNLTYTPFKWLILN
+GVLGANYNNSKNSNYENVIVKGGTLSITNGDNNNYTGTLTATIAKKFLKHSFDLVLGNEV
+NEYETNSLNILANTFNSDAIQIVSAAKNVTSVTQQKSQAGSLSYFSRLNYNFDNTYNLSL
+SFRRDGSSRFGANNKYANFWSLGTSWNAHKDLFQDNKTISSLKLRASIGTSGNDFIGDFA
+SQSLYSYSSQNIYAGSTVPYLSRGENPNLTWEKNYNKNFGIDYGLFNNRISGTVDYYIRD
+TRDLLNNKPIPLTSGFKELISNIGNFRNEGVEISLHTVNLKGKDFNWTTDFNIALNKGTV
+LALSDKKDILSNSGSTVFQEGSAIRSFYIADWAGVNPVTGFNQYRTQDGTLVDYNTNKTT
+SNLTAITTMRQVSNKTAMPKYYGGLTNTFRYKQLDLSVLISYAGGHYVLNEGIYNLYNNP
+GYNQSTAVLNAWKSPGDQSNLAVRQVNTANPNALLESDYRYSTQFLENASYIKLKNVALG
+YTLQKSVLEKTGIENLRIYVQGQNLFTKTAVTYIDPEYATAAGGIGLSSSIVRAYSLGLN
+ASF
+>tr|A0A1S1JBL4|A0A1S1JBL4_9FLAO
+MESKKSYMPIKVLFSYIALLGLVVTVGWFLYSENVVYNKLESKIAFEKTKILKVSKLFSN
+VYKTESLARKTIQTNSEADFKSYLIETDSLKCRIDTLKQIVTTQYQKTLLDSVTYLLSEK
+TKNIKQLKTIKNKADDEVSVNTAIDEITKMEFKLRKLELQDFNKNPNQLGSYQRSVLQKY
+VDYLNQNIPDDSTNTLSKQASDSILANSKKLLSNVKLKAEKKKESLNFEENKLLKNEIAI
+SEQLRKVLRIIEREIIINSIKNNSLKEKSLKKVNDIVTASAIIGLILTLFFSILIVSDYS
+KSQVYKKKLEIANFKTKNLLKSREQLISTVSHDLKTPLSTIVGYSELLGNSEVNSKQSYF
+IKNIKNSSEYITQLVQDLLDFSQIEAGKITIEKVPFLLPEIIDGVAKSIQTVYQQKNIDL
+IINVDDKLNTRIVGDPFRLKQILSNIIGNAYKFTEEGFIKISAYTTENDDFFIISIQDSG
+IGIEKGNQKLVFEEFAQANEGIEKKYGGTGLGLSICQKIISILDGNLNLESTFGKGSTFQ
+IQLPLLFDNSQNLVIEEKEPIILNTPKQTFIVLDDDINLLNLTSGVLRQEKHEVFSFNSA
+EKALEAIGNTPFDFIITDIQMPEMDGFMFLEKLKNNGYSTFKNQPVIALTGRTDLDAEIY
+TKAGFTTVIQKPYSPKILLETIHLILENDTLPNIDINKEEETVNSTLYSLDTLKEFLGND
+NDELKEILKSFIENSSENLNALENAFRAKNTAEINSIAHRMAPMFKQIQTQEISEILKTL
+ESTNLDITEAEDILRNLRSKTTILFDALQQEIV
+>tr|A0A1S1IZB4|A0A1S1IZB4_9FLAO
+MEFNNLHQALRSLYDEMLPLSADMAAVAKGLAGLGALFFVALKVWQALSRAEPIDAYPLL
+RPFALGLCIMFFPTIVLGTINAVLSPIVQGTHSILEDQVLDLNDLQAKKDLLEHEAMIRN
+PETAYMVSDAEFDKKLDELGWSPSDIGTMASMYMDRQTYQIEKLIKEWFRNLLEILFQSA
+ALVIDTIRTFFLIVLSILGPIAFSISVWDGFQPTLTQWITRYVSVYLWLPVADLFSSMLA
+KIQSLIIERDIEMLADPAFIPDTSNTVYIIFMIIGIVGYFTIPTVTGWIIQAGSGGNFSR
+NIHQTAMKSGNIAGAGAGSAAGNIAGRLINK
+>tr|A0A1S1J1C4|A0A1S1J1C4_9FLAO
+MEPNNFEKDFREKLNQRKIEPSDKAWDRLDAMLSVAEEKKTIALSSRKAGKKKWMYVAAS
+VVGFLLVGTFFFNHKKNTDVTPKDIIVVKEDAKKDSVVKPTLDTNIAVEEAVVVSEEKTI
+KKSVQQESQQESKSNKIITNKSNAIAESSIIIKNNPEKQSINPQPLKAKNPEKETVDQLL
+GTAEKVIVAENAVKPKSKVKINANDLLQQVDGELELSFREKVITKVNKNYQTVKMALANR
+NQLE
+>tr|A0A1S1J283|A0A1S1J283_9FLAO
+MKKCRWKLKSLFRRFRAMGSSLLMILVSNVIYSQDGVAGINEANQKVRSYFDAGTELMYA
+VGAILGLIGAVKVYQKWNAGDPDTGKVAAAWFGSCVFLVVVATVIKSFFGV
+>tr|A0A1S1JCM8|A0A1S1JCM8_9FLAO
+MKKIFNLLLCFFPFITLNAQINEIGVFLGGSNFVGDVGKTTYIAPEKLAFGVLYKWNKSP
+RHSYRFSYTQSTVTGNDFDSSETGRNRRGYSFKNNVKELSAGLEFNFFDFNLHDYHRKIT
+PYIFSGLNFFMYDKLYRFTSSPTVTQSISSSSFAIPIILGIKSNITPSIVLGAEVGARYT
+FTDAMDSSNPNTKNTNILQFGNLNNNDWYVFSGITLTYTFGEKPCYCAE
+>tr|A0A1S1JE57|A0A1S1JE57_9FLAO
+MKRSNLFLVVLFFCSGFMVAQDSDIDYHKLVKKFIENVKNDKKEAIADAVVYPLERVYPI
+PDIANKADFIKRYSEIFDVTLKNEILKSTPANGWNDMGLRGIMLIHGKIWLDTEGRLTAV
+NYQSKAEIELKNKLIASQKKNLDSSIAFFQDPICILETSKFKIRIDHLGFNNYRYASWSI
+QKEMTEKPDLVINGGVLVVEGIGGNHQYEFKKDGNVYECAIIVLGEKNSPPARLKIYKGK
+KVILSQDAEIIAN
+>tr|A0A1S1JD02|A0A1S1JD02_9FLAO
+MKKILCLFSALALVVSSCSSDDAADASASVKPSKIAFSYSDPKENYFTEVKYEGDKLVSE
+TDDDGYTIKYSYVGDLIAKTEEFGADKVLKTTTEYSYSAGKLASETVKNVGATQFYKTKY
+TQNGDGTVSFEEFNINAATGAEAEGGKVGKYTYKDGNLVKYESSYYGKPNSTYTYEYDSK
+KNPNTNVTGLKLLTGMEESASANNVVKITGTSTGLASVSTFSYLYNNNNFPTEKKHFSDN
+GTLTETAQFTY
+>tr|A0A1S1J0Z1|A0A1S1J0Z1_9FLAO
+MNEIRKLKFDIKLKNHVWFWSCYFTLNFLRWGAYFNDYSYSFKSNLIEFSLHIPLVYFNL
+FVLVPRLVLKQKYIQYTFMMVASLLGVYLIKTGLTYYIISENIWPEANREYHTFDINHVL
+AVCIGELYVVAMASSVYLTLTWLRERERNRSLRENQFKIKLKYLENQIQPHFFFNTLNNL
+YALSLESSNKVPDVILKLSNLMEYVLYDVKGTKSVPLIKEIDYIQNYIEIEKLRFENVEV
+TINLESNIEDIVVPPLIFISLVENAFKHGGVNNNNIKIKINCKVIDNKMLDFEILNNFVI
+SQNLNSKGGIGLANTKKRLKLIYKNDFSLKNTIKLNYYIIRLQIPLNNEN
+>tr|A0A1S1J4D4|A0A1S1J4D4_9FLAO
+MVSRVKKAIKILINYSDKKTTPSPNELLQHNRVQPWFAVNGDQSLRLDYDLNSDSLVFDV
+GGYKGEFAADILCKYGSNIYVFEPIKDFFGIIESKFLKNKKVKSFNFGLAGENANLKISL
+SDNSSSIYLNGERTETIELKSIVEFLKAQDIKEVDLIKINVEGGEYELLESLLSNDFIKV
+FKNIQVQFHDFLIENAKERMNEIQMNLSITHKLTYQYEFVWENWERI
+>tr|A0A1S1J5B4|A0A1S1J5B4_9FLAO
+MNETLAKYIPEHAVRPVFDLIVANQVHLKIVNERQTRHGDYRRGPSGKHEITVNASLNKY
+RFLITLIHEISHLVAFEKFGRNIKPHGNEWKFTFQRMMVPFIRPEIFPSTLLPLLARHFK
+NPSASSDTDTTLSLALKQYDAHNDKNYIFEIPYGSVFRIKNGKTFKKLAVRTKRFECIEI
+SSGKTYLFNPNAEVEIIQ
+>tr|A0A1S1J6P1|A0A1S1J6P1_9FLAO
+MKIKQYRTQFIKDLSPFYDAYEAESFFYLILEDKHQLRQIDLALNHELAFSEDDFLIWDF
+LVLQLKKEVPIQYLLGKTHFYGLDFEVNENVLIPRPETEELVEWIVNDNSGGTKSKKIKI
+LDIGTGSGCIAISLAKNLPHAEVYAIDVSKKAIATAKRNAVRNKVEVTFMLQDILETEEL
+KHNFDVIVSNPPYVRNLEKEEIKKNVLDYEPHLALFVDDNDALIFYRKIAELARENLLQN
+GQLYFEINQYLGKEMIDLLEKMNFNNIELKKDIYDNDRMIKGTV
+>tr|A0A1S1J9F2|A0A1S1J9F2_9FLAO
+MSNSNQAEMNDVQGLILKGYNFPHIRYIILSIKDINGAKKFCAGLASQNSTTGLHITTAE
+PWENMIKPDYCLNIGFTYWGLEKLIGTVNCDEINDDSSAEVFASFKKGAIADATEMGDTN
+ESAPANWWKNGGWIPKQKPKPDGSDLHIQLTLFTLTPKNREKYYTDLLQMIPKAASGGAS
+VIPVYYQDSDPITVDGNSDYVHFGYRDSLSQPRIDDIVWNKPKLKKLMGISSIDDRPKVP
+LDRFVISSDADDYNAHPLLVNGSFAAFRLLYQDEAKFNKFIHSDPKTSPELMAAKMCGRW
+RDGTPLVVSPDKEDKTLGEPSSKNFNFTNFNYLAPSPNQHGDQSSDENGLKCPYAAHIRR
+ANPRDDFNVTGNNNNAETHRIVRRASPYGPVYDPNEKAGIQRGLVGLFIGAVLDFQFRFV
+TKLWLEMGGFRNPDDSPNYSGVDPLFGPQVSDTNPYDSIFAFNKNGTYNEVPGLTRFIRT
+DGSLYLFLPGITGLKYIAEGKIPPAS
+>tr|A0A1S1J5M5|A0A1S1J5M5_9FLAO
+MKLKICGMKYPDNILETGALLPDYMGFIFWEKSARYFDGTIPELIHTIRKTGVFVDETVD
+NVLSTADKYHLQAVQLHGKETVEFCRELRAKIDAKIDVTIEIIKTFSIDESFDFEVLAPF
+EKVCDYFLFDTKGKLPGGNGTTFDWKILENYKSEKPIFLSGGIGIEEIPAIKNLKVPIYA
+IDVNSKFETEPGLKNTTLLRKFQKNLKPATLNPKQLYNEL
+>tr|A0A1S1JB47|A0A1S1JB47_9FLAO
+MFIIDAHLDLSMNAMEWNRDLRNDVPTLRHLEKGMTDKPDRERATVSFPDLRKGNIGIVV
+ATQIARFVKPDSLIPGWNSADQAWAQTQGQLAWYKAMEEAGEITPITDKKSLLQQIDLWN
+DGTPNDKKPIGYILSLEGADSIIDISYLEKAYQYGLRAIGPAHYGPGRYANGTDTTGKMQ
+QNGLDLLKEMERLNIILDATHLCDDAFWQALDHYNGPVWASHNNCRSLVDHNRQYSDEMI
+KALISRGAVIGGALDAWMLVPNWERGVSTPQETNCNLETVFKHMDHICQLAGNANHIGVG
+SDLDGAFGTEQSPHDLNTIADLQKLVLIFKKHGYTDEDLNKIFHQNWINFLLKNWD
+>tr|A0A1S1J1F8|A0A1S1J1F8_9FLAO
+MSTTENQIAKTIFPKGDLASSDYFTGKAWVKMLVPNDPVLNTAVGNVVFEAGARNNWHTH
+PGGQILIVTQGKGFYQEEGKSVQLLQEGDVVNIQPEVKHWHGASPDSEFTHIAISTCTEK
+GIVDWLEPVTDEQYNSFK
+>tr|A0A1S1J215|A0A1S1J215_9FLAO
+MGVLRLQLPTDPRWVNIVEKNIEEILTDHAWCEQKAATNAITIITNNSEHQDLVQDLLAL
+AKEEIDHFEQVHNIIIKRGLKLGRERKDDYVNELYQYMKKSGDGSRVSGLVERLLFSAMI
+EARSCERFKVLSENIQDEELAVFYRELMESEAGHYTTFITYARKYGVGIDVEKRWREWLA
+FEESIITNYGKGETIHG
+>tr|A0A1S1J4A4|A0A1S1J4A4_9FLAO
+MKATDSYLESVKKQFLYYKMLGEKAIAQLEPDQLFVTLNEDTNSIATIVKHVSGNMLSRW
+TDFLTSDGEKEWRNRDSEFENDLKSKEEVLLIWNKGWDCLLNALNSLNPEQLSDIIYIRN
+EGHTVIEAINRQLAHYPYHIGQIVFYAKQLKKGDWDSLSIPKNKSGNYNAEKFAKEKEIK
+NFTDDELKRLK
+>tr|A0A1S1J4D9|A0A1S1J4D9_9FLAO
+MYSFFLKRIIDIVISFFALLVFFPLILIITLFLTIANDGKPFFVQKRPGKNGKIFKIIKF
+KTMNDKKDIHGGLLPDAERLTNVGTFVRTTSLDEIPQLLNVLKGDMSLIGPRPLLPEYLP
+LYNEFQKQRHNARPGITGLAQVNGRNAISWPQKFEYDVWYVNNISLNLDFKILVKTVQKV
+IKSEGINAANVATIEKFNGEC
+>tr|A0A1S1J7Z7|A0A1S1J7Z7_9FLAO
+MKSKTLKSLTFLLLMLVASPALFAHALWIETKATGTKGKAQEISVFFGEFSDNDITASAK
+WFSDLKDFSLVVISPSKKETKLTATALENKYQAFFTPDEDGVYTVVMHHTVKDVYGTMKL
+DYNSSATVTVGNAVKGNDAAANTNIISVFAKEVTAAKQKTVLNINALYEGAAAKKQKIKV
+IAPNGWEKELWSNDKGEISFTPLWSGNYMVEFAYTEKAAGEHNGKNYNEIWKMATYLIAV
+K
+>tr|A0A1S1J9W2|A0A1S1J9W2_9FLAO
+MKIVWSTKAKYTFYTTRNYLIQYRNTEIAQKFVNEVLRSTNLISKNPHLGKFRYDLECNE
+IFITKDISLYYVINEDFIHLIRFYDNRQRPATILDLF
+>tr|A0A1S1JBN3|A0A1S1JBN3_9FLAO
+MKFGIKTAWKFIRFDKTKSIGVVVGIVISTFLIGQQIGTFNFLTGLMSVLVKNTTADIWV
+VDNKTTDANQLSLIDTRKEKEIKSLEGVKEAFPMVVTNGKAKFPNGTSAVVNIIGSEFPY
+FKAGPDSAKVVQGELSDLVQEAAVSADYFDRNNFGGSSNVGTSFEINGKRAVITLQTKGI
+RGWGGYLMYTTIDRARFYSNIPSTAISALLVNVKKGKDVDQVVDQINNSIYGVRAWRASS
+LSVATINSVLASTGLGASTGSLVGFAIIAGFFIIGLTMYSSALDRIKDYGTLKAIGATDA
+YIRKLILTQAALFAIVGFMIAFIFLLGFKNGMYQSGIVIDFSPGILFIILTVTFSISLFG
+AVFAIRRIKNVEPASVFRG
+>tr|A0A1S1JE31|A0A1S1JE31_9FLAO
+MAKENFNRSKPHLNIGTIGHVDHGKTTLTAAITKVLSDAGYCQAKSFDQIDNAPEEKERG
+ITINTSHVEYETANRHYAHVDCPGHADYVKNMVTGAAQMDGAILVVAATDGPMPQTREHI
+LLGRQVGIPRIVVFMNKVDMVDDAELLELVEMEIRDLLSFYEYDGDNGPVVQGSALGGLN
+NDPAWVPKIIELMDAVDAWIEEPVRDVAKPFLMPVEDVFTITGRGTVATGRIETGIANTG
+DPVEIIGMGADKLTSTITGVEMFRKILDRGEAGDNVGLLLRGIDKESIKRGMVIIKPGSV
+KPHATFKAEVYILKKEEGGRHTPFHNNYRPQFYVRTTDVTGVITLPEGVEMVMPGDNLTI
+NVALLSPIAMSVGLRFAIREGGRTVGAGQVTEIVG
+>tr|A0A1S1J9I3|A0A1S1J9I3_9FLAO
+MQNPFRNERIFLWVFPPWRMGFRLNGEIPPLFLTHKRGGKGSKLQLKLEAIQILSLCGYV
+PLPL
+>tr|A0A1S1JBK5|A0A1S1JBK5_9FLAO
+MNTITAAITAVGAYVPDFVLSNKVLETMVDTNDEWITTRTGIKERRILKDADKGTSFLAI
+KAAQDLIAKANIDPLEIDLIIMATATADMPVASTGVFVATEIGATNAFAYDLQAACSSFL
+YGMSTAAAYVQSGRYKKVLLIGADKMSSIVDYTDRATCIIFGDGAGAVLFEPNYEGLGLQ
+DEYLRSDGVGRDFLKISAGGSLTPTTAETVQNKQHNIIQDGKTVFKYAVTNMADASELIL
+QRNNLTNQDVNWLVPHQANRRIIDATANRMNLEDSKVLVNIEKYGNTTSATLPLVLSDFE
+HLLKKGDNIIFAAFGGGFTWGSIYLKWAYDKK
+>tr|A0A1S1J119|A0A1S1J119_9FLAO
+MTVLTFTLIMILGAFLAGFIGSLSGLGGGIIIIPLLTVILGVDIHYAIGAALVSVIATSS
+GSAAAYVREGITNMRLGIFLEIATTIGAVCGALLSTIAPTSFIAVLFGLTLIFSAINSLR
+KKEEHIVLESSPLAKKLKLEGTYPAHDGKVIHYGTKNVIGGFSMMGIAGMMSGLLGIGSG
+AFKVIAMDNIMRVPFKVSTTTSNFMMGVTAMASSVIYIQKGYIEPGICMPVVVGVLFGAM
+AGAKVLVKTNPKKLRIFFACLIFVLAVNMIYNGINGKI
+>tr|A0A1S1JAM3|A0A1S1JAM3_9FLAO
+MAQSALLNASILKKVAMALSGIFLITFLALHVSLNFISIISEDVFNEASHFMGYNPLIQY
+VMQPVLAIGVIFHFVMGFVLTAQNSAARPIAYAKYNGAANASWTSRNMIISGLVILAFLG
+LHFYDFWFPEVTYKYIAGTAPDATRYYGELVHKFHDPIRTGIYCISFVLLGFHLWHGFSS
+SLQSVGMHNKYSRFLSKVGYGFAVVVPALFVIIALFHHFNN
+>tr|A0A1S1JBL0|A0A1S1JBL0_9FLAO
+MENFNMSSSTTFYALGLSYKKADAEIRGKFSLDTQAQSDLLMQARAEGLESLIVTSTCNR
+TEIYGFAHHPYELIKLLCENSNGSVEEFQQAAYIYKNEEAVNHMFRVGTGLDSQILGDFE
+IISQIKIAFNHSKQEGLVNTFLDRLVNTVIQASKKVKTETKISSGATSVSFASVQYIIRN
+VADIENKNILLFGTGKIGRNTCENLVKHTKNSHITLINRTKNKAELLAGKLNIIVKDYDD
+LKEELQQADVLVVATGAQNPTIDKTSLALHKPLLILDLSIPRNVNTNVEEIPGVTLIHLD
+YLSQITDDTLERRKQHIPAAEAIIDDLKLELNTWVNGRKCAPTIHALKAKLNDIVSAEFA
+FQKKKIINFDEVQMDLISSRIIQKLTNHFAVHLKNENNSLDQKIEFIEKVFQIGQFTQKI
+SPSSAEEKYKIKLS
+>tr|A0A1S1J250|A0A1S1J250_9FLAO
+MEKLNFIDPLLHGITPKPASKFSVKNLIFAGVGTLVAGAILKKAGQDKTAAVVGSLAIPL
+LATACYKQVSKTNKAKRDLNVSSGIEYNH
+>tr|A0A1S1J368|A0A1S1J368_9FLAO
+MATKIFINLPVADLQKAMSFYTAIGFTNNPQFTDATAACMVLTEEIYVMLLTHNKFSEFI
+NKEIGNAFEKASVINSLSVESVDEVNEMINSALKAGGKETAEPKDYGFMQQRSFEDLDGH
+LWEVLYMDLAKIPQQ
+>tr|A0A1S1J7X4|A0A1S1J7X4_9FLAO
+MQIEFYKYQGTGNDFVMIDNRSEFFPKDNIKLIERLCDRRFGIGADGLILLENDTETDFR
+MVYYNSDGNQSSMCGNGGRCLVAFANQLGVIDDKTTFIATDGLHHASVGEDAIISLQMID
+VDEVKKYDSYTFLNTGSPHHVQLVEDLEHYNVKENGAAIRYGELYGEKGSNVNFVKKVND
+STFSLRTYERGVEDETLACGTGATAVAIAMNAIGLTDKTSIHLNVEGGKLVVSFEKSDEH
+FTNVFLTGPAKFVFKGTIEI
+>tr|A0A1S1J363|A0A1S1J363_9FLAO
+MEYKYEINQKVVCLGKRCIVRATKKLPQKFTNNPYFREEIRPQKDYLLYIFDKYEDGNEV
+YSGTLDVYENQVEFGNW
+>tr|A0A1S1J8G9|A0A1S1J8G9_9FLAO
+MRNMIKNKLLLFFLLLIVSSCNKKFDTQEEMNSYIQNEDNGYIYKKTVANVDYVLQYRPT
+DLLVKQELGDKPNPAQIEKFRKQYSKYMYFNLSMSKNDQELLNGVAQDKTKFGQMVNELA
+FGMEEKLHVYTPTKDTLALADFIYPRMYGMSNSTSIMIVYPRDEKYLNQDYLNFVIEDLG
+LETGDVKFKLNTKALINEPQLVF
+>tr|A0A1S1J9Q9|A0A1S1J9Q9_9FLAO
+MTENEISAIVVDVCYKIHVKLGPGLLESVYEAILYHELTERGLRIERQKPLPVVWDQMKL
+DIGFRADLIVENKVILEIKSITQISDVHAKQVLTYLKVTKMKLGLLINFNVPIIKYGIKR
+VVSNL
+>tr|A0A1S1JAY6|A0A1S1JAY6_9FLAO
+MACTSCSTSDGGAPKGCKNNGTCGTDSCNKLTVFDWLANMSPSNGEAIFDCVEVRFKNGR
+KEFFRNSEKLTLSIGDIVATVASPGHDIGIVTLTGELVKIQMKKKGVNPESNEVPKIYRK
+ASQKDIDIWSVARDREEPMKVRARELAIQHKLEMKISDIEFQGDGSKATFYYTANDRVDF
+RLLIKDFAKEFSTRVEMKQVGFRQEAARLGGIGSCGRELCCSTWLTDFRSVNTSAARYQQ
+LSLNPQKLAGQCGKLKCCLNYELDTYMDALKDFPDYDTKLATEKGDAICQKQDIFKGLMW
+FAYTNNFANWHVLKIDQVKEIIAENKQKNKVSSLEDFAIEVTSEPEKDFNNAMGQESLTR
+FDQPKRKKKPSRKRKPNAENAVVAAPNKPQQANNNTNKPAGGNPNKSNKPHNKQNQSNKP
+KNSNDKKPAEPRKPIIITKNENKK
+>tr|A0A1S1J254|A0A1S1J254_9FLAO
+MNREKELLLLTENAEDSIILDLYNRAYSNLEKLNEKVDKYSIYLILVILFFFISSNLEID
+TLQIGPVAIKNTSIVTIILPVLYFSFIFTIISMSMYKSELYFGIKKLGKKIYNNDYNCPN
+IYDHQNNFIDRISLPFSYSSFGKQMIVKEGGIASVIFGLAVLSPVILIFLALFGIAFLML
+RDLWLVHYSTTLGKISFWVSIWMILFIIYIIKTWIKLLDGENLNI
+>tr|A0A1S1J2Y0|A0A1S1J2Y0_9FLAO
+MKRSRTLLDKRREYVINYLNRNQAKQMKVVVSELSDTLFLTERTIYTIINEGLSLEASA
+>tr|A0A1S1J3C1|A0A1S1J3C1_9FLAO
+MIKTILTLIVALASYIMNGQEISGQWNGLLKIQGTQLRVVFHIAKTATGYISTMDSPDQG
+AKGIPVTKTSFENAVLKLEIAAIRGSYEGILNSNNVIVGKLTQTGQSVDINLSKEVTQKE
+VSVRPQEPVKPYPYYIEDVKFENKAANVTLAGTLSLPKKEGNFPAVILITGSGPQNRDVE
+GLGHKTFLVLSDYLTQKGIAVLRFDDRGVGESTGDFSSATTFDFAEDVQAGVEYLKTRKE
+INKSKIGLIGHSEGGIIAPIVAGNSRDIDFIVLLAGPGLKGDKLLLLQKELIERQSGMPE
+DEIQKGQEIFRGAYDILLASSAFDDTLKNKITSYFKSKFPGSKNDAMAKYCADFINNIWF
+YNFMKIDPASILEKVKCPVLALNGGKDVQVPAEVNLEVIKKTLLKSGNKKVTTKILPDMN
+HLFQECKTGSPNEYEKIEQTFSPIALDAISSWTLSQVK
+>tr|A0A1S1J5D5|A0A1S1J5D5_9FLAO
+MICKNYIVTGEDVNDLMVMEKTTYNSYTLRLLYRFLFQNGFSRERLNSLQLDLQEGKYAL
+VCYKNLMFTEHFFVEMKYCLINDKINIKSCFFNSKNECCAELSKEVEWFDSIRKEVITAP
+KKILKHFNTSNPVKFRNP
+>tr|A0A1S1J6T3|A0A1S1J6T3_9FLAO
+MGIIRDDRNLHIILKKVDLDIHKLNDQKIKAFIEFLGLKYREDIPKNFLDWENILVVVPN
+REMLNEIKKYKDSISRISFVTNANAKQIHIYDINDWKNATQNKTTLQIRQFLKTNFGGVP
+TTS
+>tr|A0A1S1J6Y7|A0A1S1J6Y7_9FLAO
+MGLFNNLFKKKTENTETTTNQQNDTKHFTSENDFFEKYGALALEKQRNLYTVTGGLSWNV
+DMDKEEITFGDHLTFPMQVLGSFSHSSETWLWIWDNKAGGYNESAMKQALLLKQYGEENN
+IDLLTIGKFDAVSNDLHLIGMIATEMFNGSGYYLGNYGQGTMVVTIKSDLIDKAESEELA
+RILTVFPELISTFEIQNHKNAFTSYLSQKGYKLTSNGNEIKAEKNENIINAVFNEGNLLV
+KLNGNS
+>tr|A0A1S1J9I2|A0A1S1J9I2_9FLAO
+MEKENNAQHFLDLIQKSRKGKFKIYIGMSAGVGKTYRMLQEAHSLLRNGIDVKIGYIETH
+MRKETHELLSGLPVIPRRTIFYKGKELEELDVQAIINLRPEVVIVDELAHTNVEGSKNEK
+RWQDVLEILEAGINVISAVNIQHIESLNEDVKRITSIDVQERIPDNVLRLADEVVNIDLT
+SEDLIARLKEGKIYTADKIQTALSNFFKSEQILQLRELALKEVASQVVRKVENEVPQLHA
+LRHEKLLACISSNDKTAKIVIRKAARLASYYNGSWYVLYVETPKESSTKIALDKQRHLIN
+NFKLAVQLGAEVIKTENQNIADAILMTVEEKHITTVCIGKPHLNLFKVILSTTIFRRLLN
+SLSLSNVDLVILS
+>tr|A0A1S1J908|A0A1S1J908_9FLAO
+MTINSKETYSKFIKAEAKRLGFLSCGISKAGFLEEEAPRLEKWLNNNHHGQMGYMENYFD
+KRLDPTLLVDDAKSVVSLLLNYYPTETQTDESFKISKYAYGQDYHFVIKEKLKEFLHSIQ
+ENIGEVSGRAFVDSAPVLDRAWAAKSGLGWIGKSGNLLTQKVGSFYFIAELILDLDLEYD
+HATTDHCGSCTACIDACPTQAIVAPHVVDGSKCISYYTIELKENIPHEMKGKFDEWMFGC
+DTCQDVCPWNRFSKPHSEPLFNPNPELLSFSKKDWIEITEETFRLVFKNSPIKRTKFDGL
+KRNILFLE
+>tr|A0A1S1JCY2|A0A1S1JCY2_9FLAO
+MAFKSILEFEGNEYQVLFSKVDMLRHTDGKGAVSSEIKGGRLNLRVKSTDNTTVIEQAVN
+SQHKPVSGKVKFFKADSEQVMKELTFENAFIVFFSEQLDALAETPMTTEITFSAEKITLG
+NATLDNNWAKI
+>tr|A0A1S1J0I0|A0A1S1J0I0_9FLAO
+MENPKNNNSSLKAVIAVLAVLLIGSLVYIFKLSSDTDVVKTELTTTMTEKESVMKDLQEL
+KATYDAAIAENTSMSDELIQERDKVVALMDDLNKSKGDVSKYRSQVQAMQGKMKTLVAEN
+DELKKQNGVLTVQRDSTIVVLGESKKYNEVLVGQNEELAKTVEKGAKLSVLNTKTIAYKV
+RSSGKQIETDKASRADVLKVSFTIAENQIAKSGDKTYYVQVIDSKNNVLGEKRTESFGDN
+TLTYSFKTTVKYENKTVNVSEDLIGKDFEKGTYFINVFDNDELVSKTSFTLR
+>tr|A0A1S1J0W9|A0A1S1J0W9_9FLAO
+MKIIAVIPARYASTRFPAKLMQDLGGKTVILRTYEATVATKLFDDVFVVTDSDLIYNEIV
+NQGGKAIMSIKEHESGSDRIAEAVAGLDVDIVVNVQGDEPFTEAGPLEQVLSVFKDDRER
+KIDLASLMREITDETEINNPNNVKVVVDQSQFALYFSRSVIPYPRDKDVGVRYFQHIGIY
+AFRKQALLDFYSLPMKSLEASEKLEQLRYLEFGKRIKMIETTHVGIGIDTAEDLEKARAI
+LKDI
+>tr|A0A1S1J4X0|A0A1S1J4X0_9FLAO
+MLITLFYFFIAIVFIQIFYYLGIFGKFAFGKPQEIAPKKIPVSVIVCAKNEEENVKKFIP
+LLAEQNYPDFEIVLIDDASSDETLEVFEEFEQQYSNIRLVKVQNNEAFWGNKKYALTLGI
+KASKKDYLLFTDADCYPTSTEWITAMTSRFTMNKTIVLGYGGYEKVERSLLNKIIRYETV
+LTAVQYFSWAKLGLPYMGVGRNLAYKKDEFFNVNGFIEHIQIRSGDDDLFINQAATKNNT
+TIAHNPESFTYSKPKETYREWFTQKRRHVSTAEHYKFFDKMQLGLFFTSQLFFFLSAIVL
+LAFQFQWIAVLAILATRYTVSWIVIGFSAGKLKENDLKVWFPVVEIILIFTQINIFITNI
+FSKPVYWK
+>tr|A0A1S1JCF2|A0A1S1JCF2_9FLAO
+MNTTPQYPESSRIPQKYLKNLAAYVTIALLLGIAVGHYYPEKGIQLDFLGSGFLYLIEPL
+IQPIIFLTIIIGVSSIGNLKKVGRVGLKAFVYFEIITTIAMIMGIMAALFIEPGKIEKRL
+IDVTLPKHFTATESLDSGWFNFIVLNRPLVLLLLAVVTGVLLSLSPGRAKYVGILQKIMT
+FLYSVLLYLFLLIPVAAFGGMAYAVSRFGIHSLLPLGKLLATTYITMASFVFIVLGLLLR
+YYNISLWKFLNYIKEELLIVFSTSSSRTVFPLIVAKLEQAGCGKAVVGLSIPLGYSFNLA
+GASIFLPICTLFVAQLFNIPLTFRDIITIGLVIMVTSKVASGIPGSGFVALTITFTTLNK
+FPLEGLALLFSIDKFMNEARTITNFIGNGAAVILLSKYENDFEPNPEIDLSITK
+>tr|A0A1S1J1P6|A0A1S1J1P6_9FLAO
+MPWNPEIYNKFKNIRYQPFYDLASFIQPVKGMKAIDLGCGTGEQTAILSNQVEEAYFLGV
+DSSPEMLEQSKSLETDRLHFRKATTEETIESGEKWDLIFSNAALQWSDNHEILFTRLLQQ
+LNPKGQFAVQMPVQTENKLNKILLELVQEEPFVSFLKGFKRESPVLSIDEYTQILFDGGL
+EDLQVQQKVYPIIAKDHETLFSFISGSALIPYTERLEGEEKVLFIETYKKRIAEGFPKLP
+AIYSFKRLLLYGRKT
+>tr|A0A1S1J1W2|A0A1S1J1W2_9FLAO
+MRIETDLKLGFKDVMIRPKRSTLKSRSEVSLKQDFKFLHSTSCWSGVPIMAANMDTVGTF
+EMARVLAKERLFTAIHKHYSPQEWKVFLKDKTTDFYDHIAISTGTGTDDFEKISRIITEN
+PLLKFICIDVANGYSEHFVQFLKQTRKQYPDKVIIAGNVVTGEMVEELLLAGADIVKVGI
+GGGSVCTTRVKTGVGYPQLSAIIECADAAHGLGGHIISDGGCKTPGDVAKAFGAGSDFVM
+LGGMLAGHTESGGEVIEKKGQKFKQFYGMSSKTAMEKHVGGVAEYRASEGKTVQVPFKGE
+VINTILDILGGLRSTCTYVGASRLKELTKRTTFIRVSEQENQVFTK
+>tr|A0A1S1J958|A0A1S1J958_9FLAO
+MSDSKKNQLQKSLGLSFNIAVLIGGTIGVGILRTPGSIASLLDNYWLIIASWLFGGLYVL
+LGANSYAELSTMLPKAGGSYNYIKRAFGEYAGFLSGWFDFIVNVTPPAFYCIVISEYIII
+LFPVLSNYSTVMAISLLLAFVLIHLSGVKNGSVIQQITSFLKVICFVALVIACFMYTGTE
+VPKIKTDNSFFQIGLIFGFFKSLQLIIGTYNGWNSVCFFAEENDNPNKNIPKSLYSGVFL
+VVAIYVLVNAAFFHVLPIETLAKSNLAAADVAKILFGENGAIIVTVISIFSLISILNAFM
+MIPPRILYGLSRDGFFFKQGTTVNKGGTPIVALLVSSFFSLFLICIGSFEVLFSFAAFIS
+IIVWGLAYLSLLKLRATEPNLPRPYHSFWYPWTTIFAFVASIALLIGFIFSDPKGFAIIV
+ILTLISYPVFLVLRKKK
+>tr|A0A1S1J3J7|A0A1S1J3J7_9FLAO
+MLKIFKVTAILEGISYLVLFTNMLFIKTNNPELYHTLLRPLGMTHGVLFIGYVLLAILLK
+KPQNWDLKTFAIIQIASLIPFGTFYIEKKYLENNA
+>tr|A0A1S1J7K1|A0A1S1J7K1_9FLAO
+MRTKSLKKNKINVITLGCSKNVYDSEVLMGQLRANGKEVQHEAPAKEEGNIIVINTCGFI
+DNAKAESVNMILEYADKKDKGLVDKVFVTGCLSERYRPDLEKEIPNVDQYFGTTELPQLL
+KALGADYKHELLGERLTTTPKNYAYLKIAEGCDRPCSFCAIPLMRGSHVSQPIEKLVKEA
+QGLAKNGVKELILIAQDLTYYGLDLYKKRNLAELLEALANVEGIEWIRLHYAYPTGFPMD
+VLELMKREPKICNYIDIPLQHISDSILKSMRRGTTQAKTTQLLKDFRAAVPGMAIRTTLI
+VGYPGETQEDFEILKDFVQEMKFDRMGCFAYSHEENTHAYLLEDNVPDDVKQARANEIME
+LQSQISWDLNQEKVGQVFKCIIDRKEGAHFVGRTEFDSPDVDNEVLIDASKHYVKTGEFV
+NIRIIEATEFDLYGEPA
+>tr|A0A1S1JBI8|A0A1S1JBI8_9FLAO
+MILVTGGTGLVGAHLLLHLIENGESVRAIYRTQNNTQKTKSVFELYKKVDLFEKIEWLEA
+DILDVPSLETAFSGIDYVYHCAALISFDPKDEELLRKTNIEGTANMVNFSIAKNVKKFCF
+ISSIAALGDLAAHETYITEETDWNPEKPHSDYAISKYGAEMEVWRGLQEGLDVIILNPGV
+ILGPIPKNKTHIQGSAELYAKVANGLSFYTLGSTGFVTITDVIKIADVLMKSEIKNERFT
+LIADNIVFKDILNTIADALKVKRPTIHATPLFMNFLWIADGIFSTLFFQKRRLTKATAKA
+SYSSNLYSNEKIKTALGGTVFQDVHAYIKDVSRL
+>tr|A0A1S1JC63|A0A1S1JC63_9FLAO
+MEELFSKKNKNRVLKAVNGEMSYQKLTAAEWHQFVQNWNYDDGIEPFEWIIKQKTLDKGT
+VLCLYWLLQPDYFSRFKSEDEAREDLYFEQYKLLKEIEGRYTTGFYQDENFSFDPKESFV
+DENSNLEGIPSEMLTKTKGVAFERQDIEFAFLRNPNEKELKTIASRIADAIKIIQLSKTD
+FVYDNTDVAVNAIVESVEYWKNNELGKIKIKNLSYLWMDCMHKKHNWEWIVWDWETGNNL
+GVTNSTKELTCLADTIINHTIDGFQPASIISDLYKEMKGVNNFYDLKRDPYSGIGLLFST
+DHLKFRG
+>tr|A0A1S1J236|A0A1S1J236_9FLAO
+MTINCKGQLIDLSIPKVMGILNVTPNSFFDGGKYKNEDEIIDQVGKMLSEGAAFIDIGAY
+SSKPSAEFVSEQEEIERIVPVIELLLKHFPKALLSIDTFRAEVAKASIESGAAIINDIAA
+GELDDKMFEVIAKYNVPYIMMHMRGNPQTMQSLTQYDDIVKEMLFYFSEKVKRARALGIN
+DLILDPGFGFAKTTDQNYEVMQKMELFNVLELPVLAGISRKSMIYKTLDITPQEALNGTT
+FLNTIALTKGAKILRVHDVKEAVECVTLFNKVNI
+>tr|A0A1S1IXW8|A0A1S1IXW8_9FLAO
+MKKRNVELVIISDVHLGTYGSHAKELNNYLSSIKPKTLVLNGDIIDAWQFRKSYFPKAHL
+RVIQRIIGMASKGTKVYYITGNHDEILRKFSDMNMGNFALVDKLVLELDDKKAWIFHGDV
+FDASVQHSKWIAKLGGLGYDYLILSNRFANWCLAKLGREPYSFSKKIKASVKKAVKFISD
+FETTATDLAIEKKYDYVICGHIHEPKIVTKENKHGSTLYLNSGDWVENLTALEYHKKRWK
+LYSYAESNFTEEENLFEMEDTLSSQLISTIILNK
+>tr|A0A1S1J1R2|A0A1S1J1R2_9FLAO
+MRSVFQSIKNLPQEILDQLDDLITVRKLKKGDFLLREDQVCSEIVLIKKGILRSFFFSHQ
+GNEITNCFAFENEFMGSFSSFITQKVAEENIQALTDTEIEVISKDGIEKLYQSSIYWQEV
+GRKIAEMEYVALQKRMISFQKLSGTQRYEELYQNHKNYIQLIPLQYLASYLGVTPRHLSR
+IRKAIL
+>tr|A0A1S1J2J6|A0A1S1J2J6_9FLAO
+MGMDSIYEKTRTLDVMSQLNSLHLSEWAKPRNEATMLKAVFGSARDTMDYLDLAAKSSNS
+VKDAFASISERTMSFMHQYDGALKTTMLQASIDQIMNGAAFRSSAASASLAALAGQTSIS
+MQWNEASRMAQQANSVSKSLVSLQAEEILRLKDYVARGQLSAAAQDRDALENRDIREVVT
+ESVERYVSNVESAIAEIAEMQDEDLSEVAFDFETAIRQDAAVGAATPLALFVLENVLATY
+NKALELLSGSGHISEDFLQELLKTTNPDSSNFSIISYIFVQLVMTWSLTYGYEFTKDKIT
+DKPALSGSPINARTIGYKTVFAKAHANSRTVCEISEGTEVQLHNVKGKYIYIKFLHDTGL
+KEGYALNNGFERV
+>tr|A0A1S1J5A4|A0A1S1J5A4_9FLAO
+MKLKLLLLVLVTTMTTLQAQTSGTVSGKVTEKSNHTPISYATVSLKDNGKIIVGVNTDDN
+GDFTIKNLALKNYTIEIQYIGFKKYTGSVILSEDQKEASIKIALEEEATQLKGVNVISER
+STIEQKLDRKVITVGKDLTTAGATASEIMNNIPSVNVDQNGKISLRGNDNVRVLIDGRPS
+NIDPAQLLKQIPSTSIKKIELITNPSSKYNPEGMSGIINIVLLKNTNIGFNGSYSGGITF
+GEATKHNQSVNLNYKNGKVNFYGNAGQNLGTYFFDSSLQRFDQDLYQKIDFKSIADSHLY
+KIGMDYFIDAQNTISFYTNQSKSNQDVFVDANINYNNNPEISNILQNSRYFGPQKMETYN
+LAYKHLFKKEGHTLDIEGNFSKYNASQQAHFDTQNSAPDNTVKNVNYTDLNKSHRKLNTV
+NLDYVNPLDEKTTLELGAEARITKSENDYARINPANPTEDQLLYYTYDTDIYSAYVTFGQ
+KFKKFSYQLGARFESYKAAASFNHGQDKFNDDYITLYPSAHFTYNLNEKNTIQLSYSRRV
+DRPSLEQTRPIREFSTPMVTTLGNPELRPQFTNSVEINYTKTLEKGSLNLGIYARGINDQ
+ISRVIDTDYNEAVGNKLIVSYTNFDHNTAYGFEASFNYKITKWWDIAPSIDFSSINQRGI
+VFSLNPITNTGTPIDRKITVSAFTSRISSNFKVNKRMSFLLFGLYNGPSDGLQGNSHQMY
+KMDIGTRYTLLNDKMNISLRFNDVFDTMKYSFDTQYPYPHSGLSTWESQTVYLGLTYNFG
+GAKINGMNRKNREENNIGSSGGVL
+>tr|A0A1S1J5D1|A0A1S1J5D1_9FLAO
+MSGLIGKKIGMTSIFDENGKNIPCTVIEAGPCVVTQVRTKGVDGYEALQLGFDDKNEKHS
+TKAALGHFKKAGTVAKKKVVEFQDFATEQKLGDLIDVSIFSEGEFVDVQGVSKGKGFQGV
+VKRHGFGGVGQATHGQHNRLRAPGSVGASSYPSRVFKGMRMAGRMGGDNVKVQNLRVLKV
+VAEKNLLVIKGCVPGHKNSYVIIQK
+>tr|A0A1S1JBV6|A0A1S1JBV6_9FLAO
+MKVYSAAPEGNQMADLEPARYFNLAIKQILEVEEWLRTADEASQALLVHIDVFVYLSKKY
+PEMANRRVAKLNRNQIKETFYAWFERCGKKIPASFRDGVKESADLLFSELDKI
+>tr|A0A1S1IXY6|A0A1S1IXY6_9FLAO
+MKKNYLLLLLSVFIVNVIQAQDEVPSVEKNQFKINMISPGFVYEHGFTTKNTLYSEISVG
+VGYSYNSFYNESNVYFSPLISEQFRHYYNLEKRAKKGKRTAHNSANFFALNAQYNFRSIS
+TNERYREYVPSTTIAVLWGLQRTYKRKFNMEFNLGPGINIDQYNTEFVPVANFTLGWVIG
+K
+>tr|A0A1S1J0V6|A0A1S1J0V6_9FLAO
+MNVTDYTYLMNKPDAITEKQAEALGSVLNEFPYFQSARALRLKGLYDQNSFKYNYALKVT
+AAHTTDRTVLFDFITSESFTSIQSEYYDKKLRDLMEIKVFDSEIVSFEEVKKAPEVRVNP
+IEQSILDSIKEAATVTFEEPVKAEEKPVNQFIEQSILDSAQEAAAVTFEEPVKTIEKAVE
+SVSEQFIAAEPVEVAPIILEEPAKIEQTETELTEQQPVLPPTKEPTPTFFDEIVEEEIQE
+IKPEVKEVKVNPVEQSILNSIKEATTVVSEQPELIEDPKEAEVPESVKTAEENLEIGQPL
+DFSVNEKHSFQEWLQLARTEPIDRSEETSPEIKEPEKVTESPTVTESIEEEKKKKAELID
+KFIETNPKISPIKQTAITQTVQSDLSKEDNSYLMTETLARVYLEQKKYTKAIQAYEILIL
+KYPEKISFFADRISDIKILQQNNNNI
+>tr|A0A1S1J0V9|A0A1S1J0V9_9FLAO
+MQFLVYIIAYPFLWLISILPFRIFYWFSDFVCFLIYRIVGYRKKVVRENLKLTLPHLNDA
+ERKEIEKKFYSHMCDMFLEMIKTMSISPEEMERRFKTTNIEIVNEYAKKGKSTILVAAHY
+ASYEWLLTMNTKIAFQGIAVYKKVANPYFDKLVRKIRSKYDTELVETRKAIPTMAQNQRN
+GILSMYGLASDQSPKLDRIFHSMKFMGIEVPVHTGAEMLAKKYDLSVIFVKVKKVARGYY
+EATFVPIADNPNDYENFDITEKYLREVEKQIYEAPEFYLWTHKRWKHRIE
+>tr|A0A1S1J2R1|A0A1S1J2R1_9FLAO
+MNYFSFSKDGRALYCLFFAGILLSFSTIYSRNFRNDKMLPYQQHEVQGIISDGSSPLPGV
+TITLKSRKNTTVITDYNGHYSLLASPIDTLIVSFIGFKTKFIPVNERAKIDIKLEYDTTT
+LQEVRVNAGYYSVKESDRTGSIARITSKDIENQPVTNVLATMQGRMAGVNIIQRTGIPGG
+SFDIKIRGQNSIRTDGNSPLYIIDGVPYSSDVISSSLTATAFPSGVNPLNNINPDNIESI
+EVLKDADATSIYGSRGANGVVLITTKTGKKGKTSFNLQTSTGFGTVTKLPKLMNTEQYLK
+MRKQAFINDGLTEYGPYDYDVNGTWDQNRYTDWQKELLGRTSQTSDFQGTVNGGSENTQF
+LISGNFHRETTVFPGDFLYKRGGGHINLNHNSDDNKFKIHFSGSYNVQDNNQPSFDFTNE
+ARYLAPNAPALYTADGQLNWENSTWDNPLRNLESKYKSKTNDLLANTLISYEIWKDFTVK
+SSFGCTSLDTKETRVIPSTMADPAYEATSDDSSLFLNNTKRSSWIIEPQINWSKNLGAGK
+IDILTGMTFQSQKTERINLSGIGFTSNSLIYNIAAAKNIRIYTDDETVYKYQAFFGRFNY
+NYKQRYIVNLTGRRDGSSRFGPGNQFANFGAAGIAWIFSKETFLENNRWLSYGKIRSSYG
+VTGSDQIGDYMYLDTYTTSGKVYNGVTGVQPSRLFNKDFGWETNKKFELALELGFLHDRI
+YVTGAIYKNRSSNQLVGIPLPATTGFTSLQSNLDAVVENTGLELTFRTVNLRGKNFSWST
+NLNLTFARNKLVDFPGLQTSTYSQQYRIGQPLNINLLYNFKGVNPQTGIYEFEDLNNDGR
+VTFPDDRQAVVDLNPKYYGGIQNQISYKNLTLDFLFQFSKQKNRSYPVSGAGQMLNQIDR
+LTDSWTQTGDNSPYQIYTTGYNNDALNADSLYSQSTGAITDASFVRLKNLSLTYDLPLSL
+KGLKCKIMLQGQNLLTFTKYKDGDPEFISYGYLPPLTVINTGIQLTF
+>tr|A0A1S1J8R1|A0A1S1J8R1_9FLAO
+MNILIVEDTKELAAEVYDFLCNAGYICKIVHNCSDALEEVNSNDYDAMLLDLGLPDGDGF
+EVLKTVRKTKSKMAVIVLTARGELDDRVNGLHLGADDYLTKPFALTELSARLFAVIRRMH
+GFTLNNLSIHGFLLQLQDYKMSYNETPINLTKKEFDIFQYLVLNKNRVITRLQLTEHIWG
+DILEVNSDSNFIDVHVRNLRKKLDKHTEIDWFETVRNVGYRINE
+>tr|A0A1S1J0T5|A0A1S1J0T5_9FLAO
+MKTPFLFFFLFVSISIISQNTLRGRITGKDNIPLEGVNVYFDGTTISTISDSNGNYALQY
+EPNSNGILVISFVGYEREYLTSIDASKSLDIKMKISKNELREVVINKNDLFTRKQKLKLF
+KEYFLGTTKNAKSTIIKNEDDIHFKYDKKKLLLIASSDKPLSIVNTSLGYRIDYELVGFE
+ITFNKISIDSKDVVNNFYQGVSRFIEIEHSSEILGRREKAFEGSQLQFFRNFASNNWGSD
+KFLLTNDSNSLDSTKRFKITNENDSVKVEVLRQPKGESKNEENLQNIVASYNLIYNNTET
+SKIVFQTNSFYIYKYGNNSNIDSILFLGKITEKKVADMLPLNYGIESL
+>tr|A0A1S1J4J4|A0A1S1J4J4_9FLAO
+MSQKIRIKLKSYDHMLVDKSAEKIVKTVKTTGAVVTGPIPLPTHKKLFTVLRSPHVNKKA
+REQFEVMSYKRLIDIYSSSSKTIDALMKLELPSGVEVEIKV
+>tr|A0A1S1JBQ1|A0A1S1JBQ1_9FLAO
+MTVEQILNAKGKNVYSVLSTTTVYEALKVMGEKNIGAILVIDGSDLKGILSERDYARKIV
+LKDKSSKETFVHEIMESNIFSVKLSNKIEDCMELMSTKRIRHLPVLEDGIVVGIISISDV
+VKAIIEIQKDTINHLNSYISQ
+>tr|A0A1S1JD18|A0A1S1JD18_9FLAO
+MKVLNFPLSKITIWFSSGILVAYYYPSKFSVVTSVFILGFTAFLLVYTSLQKNNKRSIYF
+GISISFISFLIGIATLLLHTESLQESNYTHCKEVFSSPQTITFVVREKLKSNAYSDRYYV
+QIKKINNRNYSGKILANVEKGSAENPIIIGNIIKVKTILQRTSANKNPNQFDYQKYLSDK
+QIYGQLYLNKTEIAVNKKLQKDIWYYCGRLHSRIYNNLKKTGFRQTEMNVALALILGQRQ
+EISNDLIQDYQFSGATHILSVSGLHVGFIMLFISFILKPVPNTQKGSLLKLISILLSLTL
+FAVISGLSPSVLRSVVMFSFLAVGSHLRRTGSTYHTLLVSLFLILLFEPYFLFDVGFQLS
+HLALFFILWLQPLLNSIWSPKLKISKFFWNALTVSFAAQIGTLPLCLYYFHQFPGLFFVT
+NIVMIPILSFIMIAGILVLLIAIFCPPPMVLAAIFEKSIFLLNYTIHYIASLEWFVIRNI
+SFNFCLLISSYFLIISAKIWGKKKNYNTTFAVLISIIAFQISMIYTKRETATKREMIVFH
+TKSNSIISQKNGGRIKVFSNDTLLLQSPKATLISSYLSSDFSQLSATVSIKNLLYFNGKK
+ILVIDSSGVYKISSQPDIVLLIQSPKINLDRVLQELHPKIIIADASNSYSIQKIWKRSCR
+KKNIPFHATAEKGFYSLN
+>tr|A0A1S1J1D9|A0A1S1J1D9_9FLAO
+MNHTNTIKKVAIVGYNRIPFARANTAYAEVGNQQMMTAALDGLVTQYNLKGKLIGEVAGG
+AVIKHTYDNNLMRECVLKTTLDPATPACDLQQACDTGIESAIYIANKIALGQIECGIAGG
+VDSISDIPMAVSDKFRKILLHVRNAKSITEKIKFFLKIRPGDLAPLVPKNEEVQTGLSMG
+GHTEITAKHYKISREDQDNFALKSHLNMAKAYDDGFFNDMITPFNGLDRDNNLRKDSTLE
+KLAKLKPAFDKINGTLTAGNSTPLTDGASCILLASEEWAKEHDLPILAYITFAEIAAIEY
+VKNQQNLLLAPLFAVSRMLDKADLTLQDFDYYEIHEAFAAQVLATLKIWESPELSAQIGL
+PKTLGAIDREKLNVKGSSLAAAHPFAATGGRIIGVMAKLLNEKGSGRGLISICAAGGQGV
+TMIIEK
+>tr|A0A1S1J7J9|A0A1S1J7J9_9FLAO
+MDYIDYYKVLEITKSATEAEIKKAYRKLARKYHPDLNPNDKEAEKKFKEINEANEVLSNP
+ENRKKYDKYGKDWKHADEFEKAGYDPNQQQYSRQQQGNQGYTDFGGENFSESDFSDFFNS
+MYGSSGRSSRGQAKYRGQDFNAELQLDLASAYTTHKQNLSVNGKNIRITIPAGVENGQII
+KIPNHGAPGANGGPNGDLYITFLIDNDSDFKREGHNLYADVELDLYTAILGGEIFVKTFD
+GKVKIKVPAETQPGTKVKLKGKGFPVYKKENQFGDLYITYTIKIPTQLSAKEKELFEELA
+KLRNHEQ
+>tr|A0A1S1J8Y6|A0A1S1J8Y6_9FLAO
+MQALDEYDKKILQYIQKNNRLTAQELGDLVNLSSSAVQRRLARLRENKIIEADISIIAPS
+TIGLTITCIVDIILADGNSKALEKFKDSMRKCHEVMQCYFVTGTYDFVIIVNTKDMQHYE
+SFAKKWLMDDPNVKHFYTHVIMDKVKVGYDVAI
+>tr|A0A1S1JBC2|A0A1S1JBC2_9FLAO
+MKSLKYFFIAMTFIAVSSLQAQVSVNVNIGTPPAWGPAGYTDVRYYYLPDLEMYYDINAS
+NYIYISNGKWIRARNLPRSYRNYDLYNEYKVVLTDYRGNSPYDNYKTHKVKYGKGYKGKP
+QKTIGQKPGKGNNKEYKEYKDNGHGNGNGHGKGHGHGKH
+>tr|A0A1S1JC15|A0A1S1JC15_9FLAO
+MTNKEDHKLDNPVWYALSENHSAFALDYDGTKFYNPDYCPFGSFIVSESTLTAIKQYELL
+TDSFFIVGEKPEIDDSLTIIKELICLQMVIQDKIQLAIDTEIVKLTENHNAELLQLVNLV
+QPGYFKTQTPLLGNYYGIFKEAQLIAVAGERMKMNDFTEVSAIITHPDHTGKGYAKQLIS
+HVVNSILDESKTPFLHVVENNIGAISLYEKLGFVTRRKISFWNVSKKQ
+>tr|A0A1S1J9V0|A0A1S1J9V0_9FLAO
+MSENKKYKYPNKLSIVRFFLDAEGVRRNPIPYHKRYFEQFGDSFSLQIGRSKHLILSRDN
+EIAQHILQKNQRNYHKSKFQSVYLSKYLGKGLLTVDGDFWLKQRRLIQPAFHKQKMNQLV
+ENMNETIVSELKELEEEKCIDLFPVMSQLAFNVVAKSLFHLSISEEKLNRIKYIIEEVQN
+FLIKEIRLPHKAWWFSVSGQVAKHLELAEENNRIIQEIIDERTTSGESVNDLLQLLLETR
+YEDTGEGMSVKQLIDEIKILFIAGHETSANALTFTLYLLGRNPEIQQKVLDEILEIEAQT
+ENVTEQLQKMTYLNAVINEAMRLYPPAWITDRQNVEDDTIGAYHLKKGTLIGVSFYELHR
+NPKYWENPEEFIPERFLGEQKKHSMQYFYPFGAGPRMCIGAGFAIYEMCLTVAHVVKKYV
+IKSETDIVQFNPLITLKPVGIEVLFSKR
+>tr|A0A1S1J1I6|A0A1S1J1I6_9FLAO
+MKKILSIGLLTLSVLLTACSSDENDKKDNGNSVSATINGTAWNATKINSVTLIKVKSEKQ
+QRFDINIQDNAQMLSLACVSELTTTDAMPIKAYNFDENAEDEDNMNALFINTYLIDGSTF
+TEHFVQTGKLTITSMDPANKTVSGTFSFMSKKVGSLQTKVNTPEIFEVKNGTFTNLSYTV
+ITQP
+>tr|A0A1S1J2R7|A0A1S1J2R7_9FLAO
+MKKKNVLIPLFMSVTVLFAMLFQTLHSYEHVYKQLTSKHCEHTYIEGQKQITHSHTVDNN
+CQICHFTFSTFIPNTFQTYSFLKATVETFSVFFYEKTISVVFKGSLFALRAPPFIR
+>tr|A0A1S1J7Q1|A0A1S1J7Q1_9FLAO
+MKNISNKKLLLIFVVLLVLNIVGLTFQVQKMGAYNLDGTYSEANSAKLILDVLVGIIVIF
+PLLIAFFTAIIVLFIKKEVPYKKRFRRTFLFVLVIFYTIFLIRILMNIL
+>tr|A0A1S1J8P6|A0A1S1J8P6_9FLAO
+MSLTKSDRRQRIRFRIRKSISGTAANPRLSVFRSNKEIYAQLIDDVNGVTLLAASSREKE
+IGKGTNVEVAAAVGKLVAEKALKAGIDTITFDRGGYLYHGRIKSLAEGARAAGLKF
+>tr|A0A1S1J9F3|A0A1S1J9F3_9FLAO
+MSMFNYGIGGNEVKVDASESILEIPSNRTLLIQKLTNEQPVGPEAVYDLQTVEAVFEKYK
+PSVDFEFTTEQGSDLNESMVFQNLGDFGAKSIKENSPFLNKLNTEKEQAYKIVRQLSSNR
+ALIKAIQDPAVKEAVIELLQNAKNEINNNKQ
+>tr|A0A1S1JBR9|A0A1S1JBR9_9FLAO
+MKQIKTLLIAAILVLGASNTMNAQAKVAHVDVSEIMSKMPAMLDAQNQLQKLSGTYDAEY
+KKMVDEYQVKIKKYEGEAATVTDAVNGERSKEVQDMQKRIVDYRDNAQKELQQKETDIVK
+PLMEKVKASIQKVGKAKGFQYILDGSTLLLADGPNITADVKKDLGF
+>tr|A0A1S1J7S0|A0A1S1J7S0_9FLAO
+MDTTDKKIMIIDNDDMTVEILKFILKKEGFKVSIAKDGINAMERLPVIMPDLVITTITVP
+LKSGLEIINEIKQNYKDIRVIALSSLGEEENTVEEAFELGVDDFIAKPFNPNELLLRIKR
+FL
+>tr|A0A1S1J9Q8|A0A1S1J9Q8_9FLAO
+MVISNKPLKFILAALVACSPVMSFANSENDSTHVHAEAAHEEKVISHNAPSEEEHAALDP
+KAKVDAFIDHHLQDSHDFVFFSDEKENKHYGFPLPVILIDGGLKIFSSSKLHHGEAVAEV
+DGNFYKLVHGKIYKTDAAGTITFNDHGHPENEKPLDFSITKNVVSMLFVSVLLFLMFTGL
+AKSYKKGPIPTGFGRVLEPLIIFIRDEIAVPNIGEKKYRKFMGYLLTVFFFVWLLNLLGM
+TPLGINVTGNIAITVCLAAFTFIITQFSANKDYWGHIFWMPGVPVPMKIILAPIEVLGTL
+TKPFALLIRLYANITAGHVVIMSLIAMIFVGKNLAADLPISLGLTLFISVIEVLVAFLQA
+FIFTMLSSLFIGMAVADHDHDHGHGHEDNVII
+>tr|A0A1S1J2B1|A0A1S1J2B1_9FLAO
+MMLIRYLSQVGKYFLMLKEIFNKQTKWPVMRQLIFKEIDDLIIDSLGIVCFISFFVGGVV
+AIQTALNLTNPLIPKYLIGFATRQSVILEFAPTFISVIMAGKMGSFITSSIGTMRVTEQI
+DALEVMGVNSLNYLVFPKIIALLLYPFVIGISMFLGIFGGWLAGVYGGFTSSSDFIIGAQ
+IEFIPFHIVYAFIKTLIFAMLLATIPSFHGYYMKGGALEVGKASTVSFVWTSVSIILFNY
+ILTQLLLGS
+>tr|A0A1S1J463|A0A1S1J463_9FLAO
+MSKVITHSLFTEFDINLFKAGKHYQLYEKLGAHLIEVDGVKGVYFAVWAPTAQSVSVVGD
+FNYWTQGEHALQVRWDSSGIWEGFIPEVSKGTLYKYKIQSNIDGIVTEKADPFALYCEKP
+PHTASVVWDLDYKWKDEKWIQSRQENNALDKPHSVYEVHLGSWKRGEHNRFLTYLELADD
+LVAYVKETGFTHVEFMPVMEYPYDPSWGYQLTGYFAPTSRFGKPQDFMVLVDKLHQAGIG
+VILDWVPSHFPDDAHGLGFFDGSHLYEHPDRRKGYHPDWKSLVFNYGRNEVRAFLISNAV
+FWLKHYHADGLRVDAVASMLYLDYSRKEGEWEPNIYGGRENLDTISFLKEFNEVIYANFD
+GVQTIAEESTSFPMVSRPTFTGGLGFGMKWMMGWMHDTLKYFQKETVYRKYHQNELTFSM
+TYAFTENFMLPFSHDEVVHGKKSIANKMPGDEWQKFANLRLLYGYMFTHPGAKLLFMGSE
+FGQSDEWNFEKSLDWHLLQYDYHFGIKKVITDLNQLYKTRPALYEKQFSGEGFEWINYSD
+HQNAVLSYIRKGNNPKENLIIVGNFTQVVRENYRIGISEKGKLLEIFNSDAVIYGGSGVG
+NPQTLTIESSPYDGRDYSVALNLPPLSITVYSFV
+>tr|A0A1S1J8A5|A0A1S1J8A5_9FLAO
+MKEVTKEVYLKWYEDMLLWRKFEDKLAALYIQQKVRGFLHLYNGQEAVLAGALHAMDLTK
+DKMITAYRNHVQPIGMGVDPRNVMAELLGKATGTSKGMGGSMHIFSKEHRFYGGHGIVGG
+QIPVGAGLAFADKYFNTGGVTMTYFGDGAARQGSLHEAFNMAMLWKLPVVFIVENNGYAM
+GTSVERTANHTDIWKLGLGYEMPCGPVDGMNPVKVAEAMTEAIDRARRGDGPTFLEMKTY
+RYRGHSMSDAQLYRSKEEVEEYKKIDPITQVLDVIMDQKYATEEEIEVIDQRVKDLVEEC
+VKFAEESPYPELQQLYDVVYAQEDYPFTPHKL
+>tr|A0A1S1JDW8|A0A1S1JDW8_9FLAO
+MELINTIEMTKPLHEIILELFYFESKGKPCEFTKKEILWRLKNPSITEYQIEEVLNWMVH
+HKKLNENLGLYSLDRFELIDLEEKFKTERLHKEKKQEPIFFTNYSTINNIHNAAKPKALE
+IFIQYILPTFLLSYIVFIFFLVNKLNDSFAVNNNKIEDVSELTLKEPKTGVIRKKRALSD
+KEVKRLFSNQHQNILYLNKTIDSLQKQVNKINEIHTTATLDLKNQVNSLQPQVNSIVLHI
+TVVLLGFILLFFMKNVTD
+>tr|A0A1S1IZT0|A0A1S1IZT0_9FLAO
+MTTANTSERENECPAEGLLKLLSGKWKPQIFLLAVNGPLRFNGLLRELKGASKQSVATAL
+RELEDFGILDKKVVRLKPLHIEYHLSEKGTSLVPVFKQLEIFSKV
+>tr|A0A1S1J6M6|A0A1S1J6M6_9FLAO
+MSEPLMVLKKPSYPLMPSLLSYLERYERISKVSVFYDDLLRFSGSVNVYDKNETDTLWIR
+VYYSEFERNEIDLNLKKIYSLLHSDGNNEIIQYLNIDAIDYCTFGNSKPFRIKVRNILND
+NYVHFYIKKADASRIYGLELEDILSPDKINFLVFKDTLIEEHIIGIPGDVFMDTLLDSCT
+EMEKSQIAKEFVKFNERCMIRLLGDMRAYNYVIVPIHDFDQVVYKIRPIDFDQQCYEGNF
+KVYRPQFFKENYPMIKLIKEKLEDRSIIQYKDEERAILAKRIHSAETRIKKLLNIMCHDT
+ISTEEHLNQLKMELYRYTNDMKFKNAKSMGHIMFAAFEFITRNFKNTNLL
+>tr|A0A1S1JAS9|A0A1S1JAS9_9FLAO
+MGLVTAKEVAKAINVDKYGVLGTFSGWLLMKVLKISTLNKIYDHNKHLEDVAFLNGILDE
+MEIKFEIPEEDLKRLPKDGAYITISNHPLGGIDGILLLKLMLEREPNFKIIANFLLHRIV
+PLKKYIMPVNPFENHKDAKSSVVGIKETLRHLSDGKPLGIFPAGEVSTYKDGKLVVDKPW
+EEGALKLIRKAKVPVIPIYFHAKNSKLFYWLSKIDDTLRTAKLPSELLTQKDRVIKVRIG
+KPISVNEQNEIESFEEYSEFLRKKTYMLANPFEKDSKLLDTASLKIPKAPKKIATPANES
+KMIDEVCALRNSDCRLLQSKNYEVFFARAKSIPNILHEIGRLREITFREVGEGTNESIDL
+DEYDQYYHHMFLWDDDTKKIAGAYRMGLGSEIYPKHGIEGFYLTDLFRFEPELHDMMHKS
+IEMGRAFIIKEYQQKPMPLFLLWKGIIHTTLRYPEHKYLLGGVSISNQFSDFSKSLMIEF
+MKSNYYDPYIAQYIHPKKAYKVKLKDADKDFIFDEAESDLNKFDKIIDELEPGNLRLPVL
+IKKYIKQNARVVAFNVDPLFNNAVDGLMYIRIADIPESTMKPVIEEFQIELERKLSEKED
+>tr|A0A1S1J4V0|A0A1S1J4V0_9FLAO
+MRALLTTTYESDFVSTEIEKPTPKEGEVLIKIHASGVNPIDNKIRIGVSPYASPVLPAIL
+GTDLAGVVEAVGKNVTDFKVGDEVYGLAGGVLGLQGTLAEYTAVDADLLAVKPKNLSMKE
+AAAVPLVLLTAWEGLIDRAKVKKGDQVLVHAGAGGVGHMVVQLARIFGADVYATVSPQKA
+AIVESYGATPIDYKTAKVEDYVKQFTGGKGFDIIYDTVGGQSLDDSFAAIRHYGQIASCY
+AFGTHALATGSLRSASLHGVFVLHPMISGEGRKHHGDILKEAAKFIEEGKLNPLIDPRNF
+TLDTAMDAHKAVSDSSSVGKIVVDIV
+>tr|A0A1S1J5F7|A0A1S1J5F7_9FLAO
+MPQKDQSNTCDEIIFSTFFKSQVKALRNFLFYKFGNLNQAEDLAQEAFVKLWQNCASVPL
+EKAKSYLYTIANNSSLNAIAHQKVVLRYEKNFTGLDKTNENPEYILEEKQFQAKLLKAIE
+NLNEKQRIAFLMHRIDGKKYSEIAIALDISVKAVEKRIHLALLSLRKEIDL
+>tr|A0A1S1J4C8|A0A1S1J4C8_9FLAO
+MIERIEKLEEELKVIRYAYEQNTLFLENDSKNMEELILFNQTILEFMKETDERIKSLQDA
+FVISTTNTELHFNLIESQGRTIKTILETLQIMQKR
+>tr|A0A1S1J4Z7|A0A1S1J4Z7_9FLAO
+MKEICIVEFPSNLGLKEPQPGKEPGVKNLPDWLWKHHLHKLIHPKNSVRLDPPKYSNKRD
+PETQILNSNSLIDYAREQAYLLNNLLSQNKFPFILGGDCSILLGTAIALKQKGNYGLFYL
+DGHTDFMNISLSETGGVGGMAASIVTGNGADKLTNILNLRPYIKEENLWCVGNREYDDAY
+ENEIRNSSATYVSLDHLRNQGVLKCVQLFLSEIENKNLDGFWLHIDVDVLNDTIMPCVDS
+RTPDGLTYAEFNELTSVLFQSNLLTGLEITILDPDLDPTGQYTKEFVSHFSATFNQHIHL
+GS
+>tr|A0A1S1J5R1|A0A1S1J5R1_9FLAO
+MNFRKATISDLAEMQQLYTETIQSVCKNDYDPKQIEVWISGVQNTERWLDVIQTQFVLLA
+IIETKIVGFGTLKNGNYIDFFYIHKDYQKQGIAHKLLNELLLEAQKQHPETITSDISITA
+RPFFEKNGFVVKVEQVNIRSGVELINYKMEKEIK
+>tr|A0A1S1J6X6|A0A1S1J6X6_9FLAO
+MALDEIDKKILRLLQENAHYTLKDIANKINLSLTPVHDRVKRLEKEGVIEKYVSILNKKK
+LGNNLTVYCQVTLTKQTYDTSEGFNQSILNLPEVVECNYVSGNFDYMLKVVIPDMESFHH
+FHQKKLAVLPEVSLINTVFVISEVKSTTVLPI
+>tr|A0A1S1J7R4|A0A1S1J7R4_9FLAO
+MKKKIVLLCGIKFLFLGCILSPIKINGQTSFSLENLKESNFEPFPYYLDAIKNDGQAKSR
+NKAQHWKDELFIKDGLLFVPRSSNGGQHWQLDGFSVYDLNKKQFGTIEYLDGTNSNASKL
+GALNILRPNFDEDLFFTFRNSKVYKSSYFIDDYSKFEYYNYPRYKNEQWSYYSPDVMCEF
+TKVGTYVDIEENGKIYRFQVTKNTLTEDQSYFFTIDKNRNYAMSSKAVDIQNQNGYVYIQ
+LFNSSKAFINMKMLNVSYIIENSDMPQMINKGNGVVETKVGVKAYTWDIDSMDYLNNGNI
+LLNINLYNQYKVHYPTSLPMASSHKYQLAIILNPKLQLVKYNFIVDADYKLFSKNSNDFF
+EIISDGGKIICYDENLNIKWHKELATENGKSVGQISYFKQINNYLYLMGTATNKYHIGLN
+DPIIWKVDTQNGKLIDEEVIKLNQSPSFCNGFTYYDNKLYLLVNDGSSNSQILKKSNLII
+D
+>tr|A0A1S1J5G2|A0A1S1J5G2_9FLAO
+MKKTLLTLHLLFSTVLFVSAQNKTTTPSSKPNIILILVDDMGYSDLGNYGSEIKTPNLDQ
+LASEGLRLREFYNNSICAPTRASLLTGQYQHKAGMGFFDINLGLPAYQGYLNKESLTLGE
+VFRSGGYSTLLSGKWHVGSEDQSQWPNQRGFDKFYGILKGASSYFDSKPLPFGKTPYPVK
+LLRNNEELHPKDDSYYFTDEIGNNAVTFLDEQNKENKPFFLYLAFTAPHWPLQAKPVDIA
+KYKGKFDEGWDVLREKRIEKLKANGILSANQTVSPRDPEVPEWNKLTYDEKQFWKAKMEV
+YAAMVDNMDQNVGKVLNKLKALKKDKNTLIIFISDNGAQGGFNTYNPLGRGLVRNDGPIG
+TSGSFDYQEQNWAYLSNTPLQQYKNNMHEGGFSSPFIAWFPSKIKGGRIDKGTGHIIDLA
+PTFYELAGIEYPKEYNGAKSNPLPGKSLLPVLFDNASEVNRGAPLFWERAGNRAVRDGKW
+KLVSIYPSYEWELYDIETDRGETNNVAKQNPGIVNKLSAAYFDWADQTGVVEYSKFKLKQ
+EVMPGGAALKK
+>tr|A0A1S1J4N2|A0A1S1J4N2_9FLAO
+MKNIKITLTALMATFLFQACSEDKMDEINKNVNNPTEMASRLIITDVMVNSAFTVTGADA
+SFYGGIYSELSAGNHNQMYNAQIRRADPQLSSTYNNGWNNSYRQLLNLGVIIDNCTTGKE
+KGNFQTLGVAQILKAYNLAILTDLFGDVPYSEAVKPGVIFQPKVDKQEAIYQDIFKNLTE
+GIANLNKTSTYATLGVQDPIYGGNSAKWIKAANGLLARYTMRLSLRKADYQGVINYVNAS
+FADASDELKLVNGGVPNPFARFELNRGAICVAKSFYDTMVANGPADARTASFFTKKAGVV
+LPFDNSKEDVEAQGRYSISALMSEANAIYLLSYHELLFLKAEAQARLGLPEAQTTMNAAI
+KAAYAKKTAVAFTPAQADTYTASIGALTGNALLKKIMVEKHISFFENEGIESYNDIRRLQ
+AMGNGDLIPMVNPKPELFPQRFAYGQSDVASNTNVKELYGDGSYVYKEKVWWAGGTR
+>tr|A0A1S1J9B0|A0A1S1J9B0_9FLAO
+MLTILGFSMIIVFMYLIMTKRLFPLTALILIPILFAIFGGFTADLGSIIMEGVKNIAPTG
+IMLIFGILFFSIMIDAGLFDPLVNLILKFVKGDPVKIALGTAFLTVLVSLDGDGATTYMI
+VVAAMLPLYKKLGMNPLVLSCIIMLGGGVMNILPWGGPTARAMTTLKMDASELFMPMIPV
+MAGGVLWVIFAAFWLGLREKKRIAREGDMNKHLINEEETVIERELKRPGLIWFNLLLTIL
+LLASMMFDVLPLAVSFMIAFCIALIINYPKVDEQQKVLKLHAGNALSVASMIFAAGIFTG
+ILSGTGMMDAMAASMISVVPDTWGNAFPVLTAVSSAPLTFFLSNDAYYFGILPLITETGL
+HLGATKLEIGAASLIGQGVHLLSPLVPSTYLLVGLAGVEFSDHVKFTIKWALGSSLAMLI
+AALLIGLITF
+>tr|A0A1S1JC02|A0A1S1JC02_9FLAO
+MENTNTTLDTVLTLTSAKFLKQEKYWSERIAQIAEKTHLVFTNNTTVSDDFEKEEYVFSI
+DEQISEKIFSLAKGNDLSVYVLLDAVLKIMLYNYLDQDTITTISSVLIENADEETLNDSV
+YISGEIDASNSFKEFVMQLSEIVELSYENQDYPRNVLAEKISGNSNDLSNVWHVFEPIHG
+RAESTGDDIVFTFEKTGNVLQGKIEANPAAVPGIYLKQMGIHFLNVARLVISNPEILIQD
+ISLFSDSEIKYYEDGLNRPVSLAALSADTIHAVFESQADSNPDNLFSIDSQSQLTYRQVN
+ERSNRLAHYLLEKKDTKNAVIGIYLERSNDLIISILAILKAGGTFFMIDPTLPADRIEVM
+LAEVKVPIIISKAPYSNAVADESRTIVDLDHLSLEHYPVGNIKATAGPKDPAYLMFTSGS
+TGSPKAVLILHESFVARMSWLTKQYNFTDRDVTIQKTPLSFDPSICEMFRGVASGAKIYF
+LPNGEEKNPEAILEAVSTYKVTTMDFVPSMLSVFLDYINTFENHTEKLATLRWIFTGAEA
+LSSRVVNSFNDTLFATNGTRLINTWGATEVTVDVTYYDCSAFPSELKKVSVGKPIENARL
+YLLNKHKKFTPMGMIGELYVAGIYVSTGYYNAEELNTEKFVTIENFGTTRFYKTGDFARW
+QPDGNLDFIGRKDNQLKVRGIRIESADIEYQILKLNAVSQAFVTVIQDPKTENDYLACYI
+VPKNNSEPIKAVTIKEELKTKLPEYYMPDYFFFLDSFPLTANEKIDTAKLPKIINAKDSL
+TSEYEAPGTDLERSITLIWQELLNLEKVGVNDLFFDIGGHSLNAVSLISLLHKKLSIKIE
+IKDIFKYSTIRSLASFIEENKLDSAYSEIPKISEKKYYKTTSSQKRLWSLSKFDEASVAY
+NVPVAAELKGQLDIDYLKKACAALIERHEILRTAFVLLDDEIVQNVLPFSPEFSALEYLD
+YSKANNGEVKINNYIEDFIQHKFDLEKGPLIQLSLLKKADDDYLLLICMHHIISDSWSLK
+IIMKDILSYYNAYSAQIPVNLSPLEIQNKDYAEWENSNIDWKERVYWSQKLEGDLLKIDL
+PSFSERPKTQTYNGTYVVYTLPSNSTKNLQALGKEYNATLFMTAMSVFNYIFYKYTGNTD
+IVLGTVIANREKLSLQDQIGFYINTLVIRTQFDRDCKFSDLISLTKNNIIEAFEHKDYPF
+DELVNDINIKRDLGRSPVFDVLIETQNYANTISSDDNLSAESVEVNVIKADNKTAICDLN
+IMLVEQANGEIIFNARYNTDVYESEHIERLFTHFNYLLDQVGIDSDKKLSDYDLLIEEDK
+KRISQFNSTDKFVPQKTIPNYIKEHSQTSPDLCAILYNGVQTSYGELHKESSQIANFLSL
+NTDNKLIGVLMKRSPEIVKTITGVWKAGMTYLPFDPTYPYQRIKKLINDAGLEMLVIDTN
+FVKEALLLQWDCPGLKSIFCVNSENIFLEAESKNASMNRDLWEYVAERSTDDITAGGWLN
+SYTGKPFSREEMNEYRENARFKISQEINTNSKVLEIGCSSGITMFAIAPLVKEYHGVDLS
+ANVLKNNEATIKELELDNIQQHNLFAHEIDQIQTGDFDLIVINSVIQNFHGYNYLLDVLE
+KCFALLGNHGKIFIGDIMDNDKKESLITSLQDYKEANSNERVKLEWDEEFFVERYFFDDL
+KFKYDFISDVLHTDKIGSIENELYSFRYDTLISLDKSQTNKAEGVQKRYQYDKRSLKKEN
+DTYSDWSNLDEAAYIIYTSGSTGEPKGAILHHLGMMNHIYAKIDDLEITADSVVAQNASQ
+GFDISIWQFFAALVQRGSIVIYDDDTITNPENLLYHLTSDQVSILEVVPSYLSLLYNSAE
+NNGFKELEHLKYLLVTGETVHHALISKWFDAFPNIPIVNAYGPTETSDDITHYIMKECPQ
+GPNILIGKTLQNFRIYIIDDSFQQVPIGVRGEIVVSGIGVGYGYLNNPQKTSEVFLEDPF
+QSSKVPMYRTGDIGRYRPDGNIEFFGRRDFQVKINGRRIELGEIENKILQIAEVKEAVVI
+LNKNNDQNYLVAFVIINNAVTNEDIEVETEKIRRRLAQSVPEYMVPSKLFIVQSFPVTSN
+GKIDRNQLLAKSDSKSNSEKAIVLPSNTYEEKILEFWMDTLGRDSLGINDNFFENGGHSI
+SAIQIITKVKKEFQVDIPLKDLFEYPILEDFAKRIDFHKKERLNLVLPNPAKKSRKSRYK
+ISPVQFAEWYLQKFNPNSTFYNIGFILEFNGDLNIDALYQTIVHLYDRHDIFRIALVEDD
+GRPYQLLREHTELNFADFLIDIRQESEQENKVQEIIKKYSNTVFDLSKPPICTVKLIRLA
+DEKYIFTLETHHIVWDQISTFIFHKELTQGYNNLIATGDFGLPELKVNYVDYTEWINALI
+DSGQLESQRQYWLEKYKTIPEPLELPTDFPRPLVHSFNGDFIFKSVDLDFKQEITDFCNQ
+NGVTYQIFLISVLNLLLYRLTNQDDFVVGTPIWNRDKENLEDIIGLFASGIPIRCTVEEN
+WSFRKLMEHSKKSSLDAYENHLYPFNKIIEELNPTTDFSRQKVMSVFFGVQNDDTELTER
+NFDGITINDITGQYDLKINHTSVFDFTLQIDHSQHYMWYSLRYNTDLFKASTAQNFLSRY
+EQLIRQCIADPEQNIGDYDILLNEEKTIISDFTENTDVFTIENYGIHNLIEETAVKYPEN
+VAVVDNEQQLTYAQINAFANKISHYLIEKGIRKKDRVGVLMQRSTEFIATVLGILKAGAI
+YVPLGKDYPVQRIEEIINQAEIEAIVTTTECLSQAFMEASFSKLFINLNITDFSGFSDSA
+PNVQVENQDLAYTIFTSGSTGKPKGINIKHVGIINIIKSTTEAFNFDENEAVLFHTPVVF
+DASIMDFLWPLATGAKIVVMKDDDEKSIKAYESYIEKHKITHVQSVPLLLESIVDGLERN
+EISNLQSLKRIAVGGALLQTSLRNRFFNVLECKLYNCYGPTETTVDSTRFDCSESTIGTD
+QFVPVGKPVANTKIYVLDKKMKICPLGVPGELYISSIGAAADYLNNPEQTKNAFVDNPFQ
+DGFSTRLYKTGDKGIYDEAGNLIVYGRLDNQVKLNGNRIEIDEIESVLLNHNAIFNVAVL
+VNKQAAYEQLIAFIEPEKGINSFVAKDGRAYTWITLHQNEMIREDFQGLSKTVPFEPLFL
+ESFKDFDQILYDYPDLQIRINDETGKTICYVTAVPVFLSDATAASDDSSILLRRTEETEY
+NAIAILNILTPSTFNTLEEDEILKCYAEVCRHFGYSNLISLKVSTEKEGAFLQTDYSYLL
+NEQSASNYLNDNAIRMHLSVYLPQYMIPRKIIVLDKIPLNDNGKVDKNKLNKLKLNSDFL
+SPETKLTATEQIIKSFFTEILEKEIQIHSSFFEYGGHSINMIQLISKIEKEFGIKFPIVE
+VFNRQSIYSIAAYVDKNAKNKEAGIYLHKLSSGKTKNMVCIPSISTTAVDFLELSKHLDH
+YNVYALDFSFLDSYKEMHNSLNDIVDSAIAMIMNSGIEGELDLLGYSAGGLFAYELLKKL
+EDYKVVNKFIVLDIVPPPQTVKINKKATAYEDADVDAYLELDQLNKFTPDERKIIVDRIW
+KYAEITSFVSGNKMINIPTYVFLSENSSIDKHSVWQALIKSKINLIRLEGGHYEILQKEK
+IQKNTQIITNQIEK
+>tr|A0A1S1JC75|A0A1S1JC75_9FLAO
+MMNNRNNKDKNPVKRFNKISIGLASPESILKESRGEVLKPETINYRTHKPERDGLFCERI
+FGPVKDFECACGKYKRIRYKGIICDRCGVEVTEKKVRRDRVGHINLVVPIAHIWYFRSLP
+NKIGYILGLPSKKLDMIIYYERYVVIQAGIAKNADGESLQRLDFLTEEEYLNILDTLPQE
+NQYLDDLDPNKFVAKMGAECIMDLLARIDLDALSYELRHSANNETSKQRKTEALKRLQVV
+ESFRESNENRENRPEWMIMKVVPVIPPELRPLVPLDGGRFATSDLNDLYRRVIIRNNRLK
+RLMEIKAPEVILRNEKRMLQESVDSLFDNTRKASAVKTESNRPLKSLSDSLKGKQGRFRQ
+NLLGKRVDYSARSVIVVGPELKLYECGLPKDMASELYKPFVIRKLIERGIVKTVKSAKKI
+IDKKEPVVWDILENVIKGHPVLLNRAPTLHRLGIQAFQPKLIEGKAIQLHPLVCTAFNAD
+FDGDQMAVHLPLGPEAILEAQLLMLASHNILNPANGAPITVPSQDMVLGLYYMTKERIST
+EDHKIIGQDLTFYSAEEVNIALNEGRLELNARVKIRAKDFNDAGELVYQIIQTTAGRVLF
+NEVVPEAAGYINDVLTKKNLRDIIGHILSVTDVPTTAAFLDNMKDMGYKFAFRGGLSFSL
+GDIRIPEQKTKLIADAREQVEGISTNYNMGLITNNERYNQVIDVWTSANAQLTELAMKNI
+REDQQGFNSVYMMLDSGARGSKEQIRQLTGMRGLMAKPKKSTAGGGEIIENPILSNFKEG
+LSILEYFISTHGARKGLADTALKTADAGYLTRRLHDVSQDVIVNIEDCGTLRGVEVSALK
+KNEEIVESLGERILGRVALQDVINPLTNEVLVQSGHQITEAIMKTIEASPIERVEVRSPL
+TCEALKGICAKCYGRNLATGKMTQRGEAVGVIAAQSIGEPGTQLTLRTFHVGGVAGGISE
+ESSIVTRFAGRLEIEDLKTVKGEDSEGNAVDIVVSRSTELKLVDEKTGIVLNTHNIPYGS
+SIFVKDGEAVAKGTVICKWDPYNGVIVSEFTGKIAYEDLEQGQSYMVEIDEQTGFQEKVI
+SEARNKKLIPTLLVYGKEGELIRSYNLPVGAHLMVENGEKIKAGKVLVKIPRRSSKAGDI
+TGGLPRITELLEARNPSNPAVVSEIDGVVSFGKIKRGNREIVIESKFGEIKKYLVKLSSQ
+ILVQENDFVRAGVPLSDGAITPDDILRIQGPAAVQQYLVNEIQEVYRLQGVKINDKHFEV
+VIRQMMRKVRVQDPGDTLFLEDQLIHTKDFIVQNDKLYGMKVVEDAGDSAVLKPGQIITP
+RELRDENSLLKRNDKNLVVARDVITATATPVLQGITRASLQTKSFISAASFQETTKVLNE
+AAVAGKVDDLEGLKENVIVGHRIPAGTGMREYDNTIVGSKDDYNEMMANKEEYIY
+>tr|A0A1S1JE16|A0A1S1JE16_9FLAO
+MTILLLGSGGREHAFAWKMTQSPLCEKLFVAPGNAGTSAIATNVAMSPTDFDAIKAFVIQ
+ENVKMVVVGPEDPLVKGIYDYFKNDESLQHIPVIGPSKLGAQLEGSKEFAKEFLMKHNIP
+TAAYDSFTAETVENGCAFLETLQPPYVLKADGLAAGKGVLIIQDLEEAKTELRNMLVHEK
+FGAASSKVVIEEFLDGIELSCFVLTDGKSYKILPTAKDYKRIGEGDTGLNTGGMGAVSPV
+PYVDAVLMEKIETRIVKPTIEGFQKDGIEYKGFVFIGLINVKNEPIVIEYNVRMGDPETE
+VVVPRLESDLVELFLSVANQKLDTFELKVDPRSATTIMVVSGGYPEEFEKGKVITGLENI
+EDSIVFHAGTKLENDSIVSNGGRVLTVTSYGDDFQQAIKKSYQNIDKLSFDKMYFRKDIG
+FDLL
+>tr|A0A1S1J3H9|A0A1S1J3H9_9FLAO
+MESSNEKFEQDWIEYRNAVSDNKSKSQDDFEKYINLLASGGIVLSLTFLEKIITVDKTDF
+KPLYIIGLICLVLTLLSNLYSHYKSIIDSDLTIQEIDEKKYNDIFKNIKKRNKIINRLNR
+TSIWSLIIGVVFVLTFVTINLFNMSNKQNPSPPAKPMPATEEKGRTIPLPPQNRPANNPK
+K
+>tr|A0A1S1J8E6|A0A1S1J8E6_9FLAO
+MLIDLNEDTLADLVAKNEKVVVQYSASWCGNCRIMKPKFKKLATENEAITFVLVDAENSP
+ESRKLANVSNLPTFATFVNGQLVGETQTNKQEVLIDLVNAIA
+>tr|A0A1S1J8P4|A0A1S1J8P4_9FLAO
+MPSSNAFLNNLAGNSIDKLVDANGNYIQQTLPYSENFLEPYMDAETLHLHYAFHHGGAVK
+GANKDLQMIKKALEENNLETIDFWTKKLSYHFSSHILHSIFWTNLTNKANAPKGNLLKRI
+EKSFGSFDKLKVLIAATSKNVDGNGWGILAYQPYSDSLVVLHCENHEKLTQWGAVPILVI
+DVWEHAYYLKYKNKRTDFVDALFNIINWDNVALRLNDAEKLIL
+>tr|A0A1S1J9R2|A0A1S1J9R2_9FLAO
+MKRKITLKQIAKELDVSISTVSKSLRDSQEIGEETRAKVQAFAKFYNYKPNNIALSLKNR
+KTKSIGIIIPEIVHHFFSTVINGIEQVANENGYSVVICLSDDSFDKEVLNMEMLANGSID
+GFIMSLSKETQYKGDFHHITEVINQGMPVVMFDRVTNDILCDKVIIDDKAAAYEAVQSLI
+DNGRKKIALVTTVDYVSVGKLRTDGYEKALLDNGLPFNEDLIIKIEDVDTCEITISQLLH
+DRAFDAVFAVNELFAVTIIKTASKMGLKVPEDIAVIAFTDGIISKYSTPSITTVSQSGEK
+MGNKAAKMLIERLEAEHEDDEEENENYTTEVIETHLIKRESTD
+>tr|A0A1S1JD09|A0A1S1JD09_9FLAO
+MKKLLLLFFIFPLFSTAQNINGSIVSQETKLPLENTNVFALSSKVGTITDEEGKFSLKLL
+SKFKDDEIVEFSHIGYVTAQFSLSYLRKQNFKIFLEDEVQNLSGVTIKANPKLNLKLPYS
+KLTSMKHSVYSFGSFLKDDKIYMIGGDASYEMDRLELIRSKRADFTLTTYLEASQQNSVL
+SYFRRDFSIYDIKTNTWEYPELESKLKKRAHHNIHYYDNSIYVLGGKSVKVNQKSNWEYL
+QNENEVLDLNNRTIKVDYTNPHQAADFASFTYKDNIIVMGGSVKMTENGKKDFTNKVHLY
+NITSGYWYELDPMPTAKETSGIVIDNTIYLIGGDDGKPVSKIETFDLNTQAWQTEGDLFF
+GLEKPAIAYHDNIIYIYEDRIMYAYDLKTKQLKEYETELALKYSTMYFADNKLYILGGRT
+ESKYEKAPSSNIFTIDIKDFKNTKPTRTKTLKREMNLAKAN
+>tr|A0A1S1J5V8|A0A1S1J5V8_9FLAO
+MKKQRKKILPAAIVLLSSLKLSAQGNGTAGITEATQMVTSYFDPATQLIYSIGAVVGLIG
+GVKVYNKFSSGDPDTSKTAASWFGACIFLIVAATILRSFFL
+>tr|A0A1S1J927|A0A1S1J927_9FLAO
+MSITIQEAIKKNILILDGAMGTMLQRYNFSEEDFRGERFKDFPHPLKGNNDLLSITQPQA
+IRDVHAAYFEAGADIVETNTFSGTTIGMADYFLEDLVYELNYESAKIAREVADEFTAKNP
+NKPRFVAGSIGPTNRTASMSPDVNDPGYRAVTFDDLRIAYKQQAEALMDGGCDLLLVETI
+FDTLNAKAALFAIEEVKEERNLDIPIMVSGTITDASGRTLSGQTVEAFLISVSHIPLLSV
+GFNCALGADLLKPYLKTLSQHTQFNVSAHPNAGLPNAFGQYDETPEQTQALIKEYLDDNL
+INIIGGCCGTTPDHIRLIAEVAKDYKPRVAPVFV
+>tr|A0A1S1J943|A0A1S1J943_9FLAO
+MGLSSFFKNLFGTAKDSATDLAHQAETTFEQAKEAAAPYIDKAETFAEETFTKAKEASEP
+LIETATDYAHQAKDIVSEYVEKASDSISDVIDSVKEKTSELTGETKAIVSETVTDISEKT
+VTKADDVIDGTTDKE
+>tr|A0A1S1J9Q6|A0A1S1J9Q6_9FLAO
+MNEERYILFDQYLQGEMTVEEKNSFEKQLSEDHELASAFETFKEVQLQLKSKFEHERERE
+AFTANLTEISEKHFNANKPKLVQMRPWYFAAAASIVILFGLFFFDYNQNPDFEDFNHPET
+ASFVERGDADETLKQAEKAFNEKNYELAIPFFEEILKENKTPEIQYFYGVSLLEESDYKE
+AEAVFNELKSGTSAYKEKAKWSLALSKLKQKDYNACREILQTISQDYENYDDVQELLDEL
+D
+>tr|A0A1S1JC77|A0A1S1JC77_9FLAO
+MKKLVSVIMVALVLYTVNSCTKREEDEIADCLTEAIFVKLHNSTDATNPKLMNYSVGYSG
+SGTLIGVKWTFGDGTTGTGKDITHTYPAAGTYEVSAEVTVGINGSECTSIPKRTVTIN
+>tr|A0A1S1J1V2|A0A1S1J1V2_9FLAO
+MEKHKEEKLKKFGLHVKKLRTELDLSQDTVALNSDKLIKATISDIENGKRNLSFTTLLDL
+AKGLGKHPKELLDFDLEK
+>tr|A0A1S1J686|A0A1S1J686_9FLAO
+MAIQALNTIKNWFKTGFKPTQTQFWDTWDSFRHKDEKVPVKDVEGIDELLAEIKPTHIKA
+GNGITINGYGDINDPYIINSGYPTNGITYTDNPFTAYCFIYPDRGFQYFKDKSSGNEGRS
+ARATYSDSSIKYFLQGDAEWPENNNTELELKFPKPTSSYSTYTIPISFNGQFADTKGNIN
+LNRTFLEKQSEKTENTQFYIKETDGTQSMLSIEKAAYEHTYISDADSGNLNAVKYDRNTL
+VPSENSIPSSAAVSKAIQENIVIDSQIEVGTHMSIPNSWNKQTIIFTSSCTITIPATLPT
+NFYFNAITIGQVNVTWSITSPFTFLFDDPGVITEKTYFNFLRRGNTNSIIIGL
+>tr|A0A1S1J1Z3|A0A1S1J1Z3_9FLAO
+MKTKKQNKSSAFEKFATYVSKAAGSTPAFIGAFLIVVVWAISGPFFDYSETWQLVINTGT
+TIITFLMVFLIQKAQNKDSLAIQLKLNELVASNEYSSNSLVDIESMTEEEMIIVQKYYQH
+LSELSKKDESIRISHSIAEAHEQHQRKGKTRTKTRTSNSAKK
+>tr|A0A1S1J6X1|A0A1S1J6X1_9FLAO
+MNRDAQRQVYEHMAPKLYRVCKRYLKKEEEIEEAMADAFYTIFTKLDQLKELLAFEAWTR
+KITVNHCLATIKKNTNFNMYLDDVKLLSQPFTEEVNALEEEDLLNLLNHIPDGCKTVFNL
+FVIEGFGHKEIAAMLNISEGTSKSQLNAAKTKLKELVNKLYYQKAK
+>tr|A0A1S1J9H1|A0A1S1J9H1_9FLAO
+MYLNCHSFHSLRYGTIPLKELISQAVSCGIKAMALTDINTITGIYDFIKACQEKGIKPLV
+GMEFRCRHQFRYIGLAQNAEGLGEMNRFLTHHNFSGEVLPSIAPEFKSVFVIYTLENAPE
+VLRENEFIGIRPEEVSRLLTSEHKNKIDQMVVLQPVTFRTKTEHNLHKILRAIDTNVILS
+KLTESDYCKASEILQSLESLLPFYEKYPEIISNTQKIIDSCNFEYDFGVPKNKKFYTNSR
+QEDLEKLTDLAWKGFKNRYEDENQEAKKRVEKELKVIDELEFSGYFLITWDIIQYSNSQG
+FMHIGRGSGANSIIAYCLGITDICPIELDLYFERFLNLNRKTPPDFDIDWSWQERNIILE
+YIFGKYGKDYVAFCGTNVEFKYRSIYREVGKVFGLPKEELDMLAKNPEELHETNKIVKQV
+QYYGQMLSKYPNQRSMHACGILISEEPITNYTPLEMPPKGFPIVLFDMHIAEEIGFEKFD
+ILSQRGIGHIDDSVKLIEKNRGIKVDIRNTSISKDEALCNIYLAQGRTIGCFYIESPAMR
+GLLRRLNCDNYKILVAASSIIRPGVAQSGMMKEYIFRHNNPNQFQYFHDVFKEQLGETYG
+IMVYQEDVIKIAQHYGGLPAADGDILRRAMSGKGRSLEALQKVKDNFFACCAQKGHPEIL
+SQEIYRQIESFAGYSFCKAHSASYAVESYQSLFLKVYYPVEFMTAVINNQGGFYRTEVYV
+HEARMSGGSIHNPCVNKSEYQTTLYGTDIYLGFMHVQSLESKTAHLIESEREKNGDFLSL
+EDFINRIPIGIENMKILIFIDAFRFTGKTKNQLLVVASLLLNNFKPENRNLRLIQEPVKE
+YKLPTLERSLYEDAFDEIELLSFPVSCTVFDLLQTKYRGDIMARDLTACHKKQVRMLAYL
+ISRKQVPTKKGTMYFGTWIDHEGTYFDTAHFPDSLANYPFQGGGCYLLLGNVEVDYHFPT
+ITITKMAKMPFIPDPRYMDAKDQFKTQRQIKEDVSPTHREPYPQRHEINLPRHRMKF
+>tr|A0A1S1JBX5|A0A1S1JBX5_9FLAO
+MENFDLPIEFQQLVKSEQAYYYRIIPVGKKNEIVLLKTDASDCISLQNELGVLLSFKVEL
+ENDSTDNINRYLSTNYRKIANNSVSEIHYTADFLEKIVLNAKEIGSSDIHFEPYEKNARV
+RFRLDGKLKEQFHISVEEYPVIVNKIKIRAQLDISEKRLPQDGRITMVTDYQDFDVRVSV
+LPTLHGEKVVLRILSKDTSHIDINSLGFTERELRAYLENIKRPNGIVLISGPTGSGKTTT
+LYATLKKLNVPNTNILTVEDPIEYTLEGINQVQLKENIGLDFATTLRTFLRQDPDIIMVG
+EIRDVNTANMAIRAALTGHLVLSTIHTNSAWATVSRLIDMGIPSFLIASTLNISVAQRLV
+RKLCDSCKTEEVISNSIFPSGFEIPKDLKFHHVAVGCEHCYHTGYAGRKAIYEILPIGSE
+LSNLIKNNQLDINEYLEENNIITLKRNALLLIKEGTTSVDEVFSLLL
+>tr|A0A1S1JCV4|A0A1S1JCV4_9FLAO
+MNKFKIFSLALVASATVVKAQDIKEAKKAIDAEQFQKAKSLLKSIIKAKPSDGEANFVLG
+NVYLNQAIIDSAKIYYTNGLQASDKKNLNYIGLGQLDLDAKNAAAAQANFALAAKDMKRK
+DVEEFIYIGRAYMNSSSPDYTNAIAVLKRALVIDPQNATALLAIGDAYYGANNQNDAYKA
+YRDAFTADPTLLRAKMQLGVLLKGAKSYDEAIKSFNEVIALNANYGPVYRELAETYYKWG
+RNKPSTSKVNMQNAITNYEKYLSLTDYSLDSKMRHADFLILVKDYKSLETVANKMIAEDK
+VNPRIFRYLGYAAYENGNVDVAIKSIEDYIKVPSNKVIGRDYLYLGLSKIKKGTAADGTV
+DQASFDAGIADIKKAIELEPLVVEELSDLGKALFGKKQFAQAATVLELGTTNKESKNYLD
+DNIYYGISLYYANANKTNGAADAVALGKADVAFDRILEASPTYNEAYLYKGRINNLLEKD
+DLIIKNYEEYVTRITAKGAEELAKPATVKKVVEAYNSIGASYANTDKAKAIEYFNKSLAL
+DPANAYAAQSVKALK
+>tr|A0A1S1JF46|A0A1S1JF46_9FLAO
+MKSTIAKSLFNSHSYTEYRKIVTDLLLEGKSTGNEQSESLTNYSKLNEARMNRLEKTMKV
+SDEVVSELEKVKHNYIWLVISEGWCGDAAQILPIINKMALASHKKIDLRIVFRDENEPLM
+NQYLTNGGRAIPKVIVICKETGIARADWGPRPKGAAELLVNYKKEFGVIDEKIKTDLQLW
+YLADKGLSTQNELMDIMRALEIRE
+>tr|A0A1S1J0N7|A0A1S1J0N7_9FLAO
+MANHQKDFLFVLIKSLSKSEKRQFKIFASRLETSSNTKFIELFNILDKSETYDEKLILKS
+GIIKKVQLSNLKSYLYKQILVSIRLNIPSQNIRYQLREQIDFAVILYNKGLYKQSLKILD
+KTKQLALENDEKYMAYEIVEFEKLIESQYITRSIQGRADELVIQAKELNYRNTISSKLSN
+LSLQLYGIMLKTGYVKSDEEYKYIDDYFNKHISKLDESKFGFREKYWFYNANLWRSFLVQ
+DFLASYKYAYKWVRLFYDNPNMIYLNPVFFLKGNHYFLESLYMLKYKSNFKKYLTLLEET
+IADPRFPVNDNIASLSFLYVYNNKLNLHILEGTFAESEYLIPEILQKIKLHSEHLDEHHE
+MLFYYKIASIYFGTEKYNESINYLDKIINNKNLSMREDLMCFARLLSLIAHYELGKDYYL
+ENHLKNTYKFLLKMNDLHEVQKEIIKFMKNLNNFYPADIKKEFIKMRARFIELEKNTYEK
+RAFLYLDIISWLESKIDNKKIADIIKEKAKLNSR
+>tr|A0A1S1J178|A0A1S1J178_9FLAO
+MNKFDDQATKGLWERGLLSKNKYEEITSYRGLNIFSLNAELKLALYLSVLLFTSGIGVLI
+YKNIDSIGHIAILSLLLIVIGVCFYFCFKNAKGFQKTETTFEHPVLEYLVLAANILTCIF
+IGYLQFQYQTFGTHYGLATLIPTLVSFFCAYYFDNKSVLTIAITGLAAYVGLSVTPQDLV
+NNSNFYQDPSLSYSAILLAVLLILWTVYSSRIQLKTHFTIIYHTFALHIASIALIHNLTD
+SYTDGIWLLFAIVLAASTYYFYKVSYKLKAISLYVFMIIYAYIGLNIFVFRVFESINFSD
+IWELFILILPLYFIGSIILFIKLIKKFNKETAA
+>tr|A0A1S1J289|A0A1S1J289_9FLAO
+MKRLKNVSIGFLVSFIGSIPLGYLNVVGLEIYSKSGLFNLVFFLFGVIFVESFVIYFTLL
+FARELIDNKKLMKLIDFFAIGFMFVLAFLFYYGFNQATKSTDNLKGYLVYSPFVIGMILN
+CFNFLQLPFWTSWNLYLLNGKYIVVEKKLKYYYIAGTLIGIFFGMLSLIVVLQTIFEKSN
+PLSRYVMPVFIPIFFMVLGSIQVFKVYKKYFKSTAFEV
+>tr|A0A1S1J313|A0A1S1J313_9FLAO
+MIHQIDTTDNIVAFRALAVVTNEDFLSVVIPAVEHLVKQTNEINFLLVLDTDTEASTSGV
+WLQDALLGLKHLGKWNRAAIITDSEEIISFTNGFGSVIPGDFLGFKKESFNKALNWVEGN
+INIH
+>tr|A0A1S1J3X4|A0A1S1J3X4_9FLAO
+MDFTRIIELASYTLPAVVTGFVAYSFFELHIKNFDKKRNFLLNKEAHKESLPIRLQAYER
+MTLYLERINLTKLLIRIAPISNEKHDYENFVIDQIEQEFEHNLTQQIYMSDECWTIITTA
+KNSTIQIIRKTAMSDRVDSADKLREVILNDLLEKQSPSNAALAYIKNEVAELF
+>tr|A0A1S1J434|A0A1S1J434_9FLAO
+MQNFFSLLKREFQLFWKNKVLRILFIGAPILYGVLLGYVYGKGKVTDLPILVVDQDRSEL
+SSKAIQMFEDNEVLSVSSILYDQNNLSKIAIQKDATCVVIIPKDFEKMTLTKKYPEITTI
+VNTSNVLTANYASTAIQICLGTLKAGVQIETLRKQGVPENLLASQYEPFKTTFIKKYNRS
+TNYMYFLWPGVLATVLQQVLLLGLALSFASEFENGTFKDLVKKCPSLLKMLAVKIIPYLI
+MSFGIWIIYWLFTLWFRLPFYENLAPLTFIAGIFVLAASFIGILVSIVVPNQLKATEILM
+VIATPSFILSGFTWPLSQMPQTIQAIANVIPLTHFLKAFRILIIENGTFSQTTASIRNMI
+IIGLVCAVAAYIALYFKKKEALKEI
+>tr|A0A1S1J531|A0A1S1J531_9FLAO
+MSDFNLKHIYNTRNYIEMNYNQIISINSLERISCYSYRNLQRIFYSLFNETIGAYQTRLK
+VENGYKKLIYSNKQISEIALEVGFADVQSFSKTFKKHFDCAPSLARNQKELLLNDTGILQ
+SFTSFLKPEILVIPETAVYYLSSKTHYINPEIENLWDTLLKNEFPETDARFFGVITDDIL
+ITEKINCTYEACIATTAVLKNLPKKQIFGGKYARFFHHGSYNTLEETYNQIFGGWFLTHD
+FELSHLPVIEQYLKTSDNCDNESDYLTAIFIPLI
+>tr|A0A1S1J6I0|A0A1S1J6I0_9FLAO
+MHIHLLPKENCKAAVWSGGLTYEYMIYPKTANYADRDFAFRISSATIEQEPSVFTQFKGY
+HRYLVMLDNGLDIEINQEKKVYEQFEIMEFNSNDAVTSFTKGIDFNWMVSEKISQHQLKI
+TAANQNCNAQIVLFFSLDTTVVQINEKPYDLKPYDLLIIENPEKTDIALRFSNKCLFGVL
+DF
+>tr|A0A1S1J6R9|A0A1S1J6R9_9FLAO
+MKEKIRIHLADDHQVLIDGLSNLLQTVENFEVVGKSYDGNTVYEDITINNPDILILDISM
+PKKDGIEVVKELQQKNVPCKIIILSSYDDLKIIKEVMKLGVKGYLTKKCAGENIIEAVEA
+VYQEQEYYCDAVREKIFNIFSHNNPKLNKNIKVDNPILSAREIEIITLIALEYSGKEISE
+QLFISTNTVETHRKNIMKKLQIKGSIGLVKYALKNNLINS
+>tr|A0A1S1J7W2|A0A1S1J7W2_9FLAO
+MPTNKKELRLHYKNLRKELSENDIEEKSLAIANNLIQLSIWDKTYYHVFLPIEEQREVNT
+EYVLHLLSGKDKEIVVSKSDFETRGMTHFLLTDNTKIRKNEYNIPEPVNGLQVPSETIEV
+VFVPLLAFDVFGNRVGYGKGFYDKFLSECKPETIKIGLSFFEAENQIGDVFESDVKLDYC
+VTPLKTYAF
+>tr|A0A1S1J4Z3|A0A1S1J4Z3_9FLAO
+MSLSQILTPSIQKAIQALFDVTVEKIEFQTTRKEFEGDITMVIFPLLKVIKSNPVELGNK
+IGNYLVENVSEVARFNVVSGFLNIVIADSYYLNFFNVIKDNTKFGYVTPNPEDKAIMVEY
+SSPNTNKPLHLGHVRNNLLGYSVAEIIKASGKKVYKTQIINDRGIHICKSMLAWQKFGNG
+ETPESSNLKGDKLVGKYYVEFDKAYKAEISQLMEAGKTEEEAKKQSPIIIEAQEMLKKWE
+SGDEAVISLWKMMNQWVYDGFAITYKNLGVNFDKYYYESNTYLLGKDVVQVGLDKGVFEK
+DPDGSVWIDLTDEGLDRKIVLRSDGTAVYMTQDIGTAIQRVKDMPDVGGMVYTVGNEQDY
+HFKVLFLILKKLGFDWASSLYHLSYGMVDLPSGKMKSREGTVVDADDLMQDMTDTAKQIS
+EDLGKLDSYSTEEKAKLYQTIGLGALKYYILKVDPKKRILFNPEESVDFAGNTGPFIQYT
+YARIQSIIRKADFEFSVKTNTEELHEKEKELVKQIELFPEVIQNAAHNHSPALIANYTYD
+LVKEYNSFYQSVHILGEVDLTKKVFRVQLSQKVAEVIKAAFSLLGIEVPERM
+>tr|A0A1S1JCD5|A0A1S1JCD5_9FLAO
+MKKNIVLFALFVLPIVAYLFFASGVNSFTTLPVITPKIKDFGDWKSLNGKKVLLDKKITV
+LGFSGSELLSNRGNYFNLNEKIYKRYNGFEDLQFVILCPLGTEADAQKVVDALKPFTDVK
+GWNFVFASPEEIQTFYNQLKLKGKLDQNLGTPNVFIVDKERNLRGRKDAAEYKEGYDTFH
+PSELSNEMLDDFKIILYEYRAALKKNHNATKQL
+>tr|A0A1S1JCL6|A0A1S1JCL6_9FLAO
+MPKKIIENSENYQPGLSIDCVIFGFHDNQLKVLLIKTPFDEKWSLPGGFIPIEEDIDTAA
+VTVLKERTGMQGIFLRQFATFGRVKRNDLHFGNAVLDHYNISKEDGKWLTQRFITIGYYA
+LIDFLKAVPQKENSQEIIEWIDHKEVPELILDHREILDKALNTLRIELNLMPVGYNLLPE
+KFTIPQLQKLYETILDRKLDRRNFLRKITNIGILNKLDEKKSNVAHKAPNLYTFDTDKYK
+EVLKNGLNQGW
+>tr|A0A1S1J1X3|A0A1S1J1X3_9FLAO
+MFTNISWGSYLTAAGIAIIFWYLIILLKFHRSDFKKILSGEKKLQIPFLKKTSKNLQDIK
+SISDSFPKSFDTLEDAENLSQRIKEAVKESAEKRLTKEQFQNYLRMLLDEYPYVKISSLR
+ENINQQMVFESQKHPNLLLTLSEADSLWEGSVF
+>tr|A0A1S1J7F8|A0A1S1J7F8_9FLAO
+MKKHNYSAGPSILPQEVFEKASKAILDFNDSGLSILEISHRSKDFVAVMEEARSLALELL
+GLQGKGYQALFLQGGASTAFLMAPYNLMKENGKAAYLDSGTWATAAIKEAKYFGETVIVG
+SSKEANYNHIPKGYEIPTDADYFHCTSNNTIFGTQMKEFPATNVPVVCDMSSDIFSRELD
+FSKFDIIYAGAQKNMGPAGTTLVVIKEEILGKNGRTIPSMLDYAKHIKAESMYNTPPVFA
+VYVSLLTLQWIKEKGGIAAVEKLNNAKADLLYAEIDRNPLFKGTAAVEDRSKMNVTFLLN
+NADHTATFDALWKEAGISGLPGHRSVGGYRASIYNAMSIESVQVLVDVMKALETKI
+>tr|A0A1S1J266|A0A1S1J266_9FLAO
+MENNNKRILLVEDDLNFGAVLKDYLMLNDFEVTLAKNGMEGFEKFKKDVYDLCILDVMMP
+YKDGYTLAKEIREKNSEVPIIFLTAKSMKEDVLKGYKAGADDYLNKPFDSEVLLMKIKAI
+IQRKSADTKAEQVQFEFNIGKFHLNSKLRFLTFQDEEPIKLSPKENELLKMLILHENDLM
+PRELALTKIWRDDNYFTSRSMDVYIAKLRKYLKADEDVEILNIHGEGFRLVVKSKVTE
+>tr|A0A1S1J521|A0A1S1J521_9FLAO
+MARTPSNMIPLGTIAPDFKLRDTNSNNEYSFDDLRGSKGTLVMFICNHCPFVLHVIKEVV
+MIANDYRVQGIGVIAISSNDVKNYPQDGPELMTDFAFQNKIDFPYLYDESQEVAKAYEAA
+CTPDFYLFDNQDRLFYRGQLDDSRPGNGIPLSGSDLRSAIDALIYNRSLKDPQKPSIGCN
+IKWKTSL
+>tr|A0A1S1J6F8|A0A1S1J6F8_9FLAO
+MAKRLNSESTIGAVLQQIIQVNKLGAGMDQIDVKEAWRQLMGNGVNTYTKNVVLKGSTLY
+VELGSAVLREELSHGKSKIVKMINEELGREVVKEVVLR
+>tr|A0A1S1JCF9|A0A1S1JCF9_9FLAO
+MAKFVFVVPPLTGHINPTLSIGAELLERGHEVAWISLDQTLESKLPAGGQLLLIQYDQTD
+EEKRESEQYLDIISKKVVYGIDSIKFLYEEVLIPLNRHCYNGIVKLLEAYEPNLVIGDHQ
+LFAAAIAAKKVNRPYATSVTAPAAIKIISELPKVHEWEVNQILALQEELGVKENQSLACS
+DLLTLVLTSQYFFGEMDLSSNYQFTGPVVTERRISSTFDWERLKNSPGKKILVSIGTTFD
+HEHKKAFFQKVIDAFQEEDLTVVVVSDPDLFDQWPENFMVYAQIPQLDLLPHLDAVVCHG
+GHNTVSEALSQGLPLVVIPIAYDQSHVAGRVVRTGAGERLNFNRFKANHLKSSVHDILNN
+PQYREAALKVRQSFIDAGGTKTAADLLEHAIISAKRSTESPAKFLVVVPPFFGHISPTLS
+LGASLLARGHEVKWFGITPLAKEHIPTGGTYIYPEEDLLPYQEELQRILKRQDDGPSCSG
+PEVMKLALEETYVPFAKMMMPGLETLLGHWQPDVIINDCITFGGALFAHKHRIPSVTTTP
+VPPDVMGDTEKSAPKIFEWQQNLIKELQKEVGIADEGIFIHSHQLNLVFTSQSFAGYETV
+PSHMKFVGPVKGRPNNSPFDWERLAASTTPKIFVSLGTLLVDIRKDFFGKLIEAFADQPV
+TIIAATPPDIFDKWPSNFIVNGFVPQSTLMPHMDMVICHGGFNTVNDTFTNGLPMLITPI
+AYDHFHTAKLIEQAGCGISIRYKRLRIEDLRKTVFELLENPKYRNAAKEVQTAFLTAGGN
+DKAVALLEDFVKQERLVLASV
+>tr|A0A1S1JDU9|A0A1S1JDU9_9FLAO
+MNKEEIIARINGFLVDEFEVDNDDIEPDANLKNTLGLDSLDYVDLVVSIESNFGVKLVEA
+DFVGIATFQNFYDLIETKLKAKAV
+>tr|A0A1S1JB27|A0A1S1JB27_9FLAO
+MNETDLEKLKYPIGKFKTPTDYTSEYISDSVAIIASFPERLKKETIHLTDEQLDTPYRPD
+GWTIRQVIHHCAESHMNCYIRIKWALTENNPVIKAYDEKLWSELQDNLTMPIQPTLQLLE
+GLHYRLAYIMKNLSPKDLNKSFIHPENNSEFLIKQIIGMYAWHSNHHLAHITNLKNSKNW
+I
+>tr|A0A1S1J1X4|A0A1S1J1X4_9FLAO
+MIVIQLIGGLGNQLFQYAAAKALALQTKQKVSLDISQFESYKLHNYALNHFNIISKNYKK
+PNRYLRKIKSFYQKNVFYKEVDFGYNPDLIHLKGDIIFLEGYFQSEKYFIKYEKEIREDF
+ELRTLLKKETKAAIAKIESVNSVSIHIRRGDYINNPLHNTSKEEYYNKALEIVENKINNP
+VYFVFSDDMDWVKANFSTKHETVFIDFNDALTNFEDLKLMASCKHNIIANSSFSWWGAWL
+NKNPDKIVIAPKRWFNDDSINTNDIIPTNWVKI
+>tr|A0A1S1J4B2|A0A1S1J4B2_9FLAO
+MKKSLFILGLLFTIIACSTASKNTVAANNGSKSAAAVNDTVRIANDSLEYEVIIIDNGFS
+TWLASRALPRNYYSLSYLENKNNLYVTEWNNRVLQPQRYSPNLYEMRIDYQPTIHYGYEV
+NYLIYNYMIYFQNTYKQKLAGYVPIR
+>tr|A0A1S1J6M1|A0A1S1J6M1_9FLAO
+MKNIGIKISLYLNYFVFAILLNSVGIVILKSQKNYGVDEVQASILEAFKDMPIAIVSFFI
+ASFLPRIGYRKSMLIGLGLVTLACISMYFGNSFDNAKILFATVGVSFALIKVSVYSLIGT
+VTETKKEHNALMSSIEGFFMVGIALAYFLFPVFNKEEDPNSWLNVYWFLAGLSLLSFLFL
+FFVKFEETEVAAGADLRDDFMQMFRLMAKLLTVIFVISVFLFVMIEQGILSWLPTFNTKV
+LHLPENISIMMASILAISLAAGRMIAGIVTKKVGWIWVLSFCILSAMLIVVFVLPKTVGL
+EVKSINTLADIPLIGFAFPLIGLFIAPIYPLLNSIVLSALPKNLQSSMTGLIVIFSALGG
+TLGSRITGWLFKNEGPEKAFYFTLIPMSLLLVSFFILKKITAKDEI
+>tr|A0A1S1J7J3|A0A1S1J7J3_9FLAO
+MRKHLASGLLAVVLAAGCATNPITGKQNLNFVSNSELFPSSFQQYNTFISENKVITGTAD
+AKKVELVGGRIKAAAEKYLIYLGQSQYLKDYRWEYKLVDNKEVNAWCMPGGKIVVYSGIL
+PVTQNDSGLATVMGHEVSHALANHGAQRMSAAQLQQIGSVALGAATSGKTQQTQEIFAQA
+YGLGTQVGVMLPFSRSNETEADKIGLTLMAIAGYNPDDAISFWSRMSAKSGGSGTPEFMS
+THPSDASRIANIRALIPEARATALKVGIIK
+>tr|A0A1S1J7U8|A0A1S1J7U8_9FLAO
+MKIVFASNNKNKIQEIQSILPENIKIVSLEEIGCFEDIEETADTIEGNAILKANYVTEKY
+GYDCFADDSGLEVTALNGEPGVYSARYAGKQRNDDDNMNKLLDALKDQPDRSAQFKTVIT
+LNLKGEQHLFTGIVKGSITLEKTGDQGFGYDPIFQPENYTKTFAELPREVKNTIGHRGKA
+TQQLIDFLNSTK
+>tr|A0A1S1J9T3|A0A1S1J9T3_9FLAO
+MNYYTYWSISDLPSNTRSFDVFFWVAIVSLILWILIKKFKSKNNDYEKLILLWSVGAVFS
+LSVIMFFYLKLYTTDTTEKRIQNLLNSPNVFVVEGIITDFKREKQVKKMATITWESFVVD
+SVQFKYNDALLGGFNDFSKANNGVFRDDLPVRITYGKENHEILKIEIAK
+>tr|A0A1S1JAK7|A0A1S1JAK7_9FLAO
+MPSFLKLIIKEVKRETADAVSVLFNVPEELKSDYKFIAGQYINLKLTLDNQEIRRAYSIC
+SAPESNELRIAVKAVKNGLFSQFANTRLKAGDVLEVGHPEGKFTFEPDAERQKNYAAFVA
+GSGITPVLSIIKSVLKSEPKSSFVLVYGNKTPEDTIFYQELHDLQLQYVGRFFIHYVFSQ
+AKAENALFGRIDKSAVNFVLNNKHKELQFDKFFLCGPEEMIDTVSGILKEKNVKESAIKF
+ELFTSSTQENKINTSLEGHTKITVLVDDDEVSFEMSQKQTILDAALKQGIDAPYSCQGGI
+CSSCLARVTSGSAEMTKNSILTDSEIADGLILTCQAHPTSESIYVDYDDV
+>tr|A0A1S1J0U7|A0A1S1J0U7_9FLAO
+MTKYLYFLITFLFCYAASAQNDIVIKGTVVDINTQLPLELATVYFTTVKDSTVIEYATTD
+KNGAFSITTKKYDKPVFLKVNYMGYQPYFEEEKSIQESKDFGKLYLLENVNALKNVVIKS
+EAPPITIKKDTLEFNAASYKVRPDSNVETLLKQLPGFDVGTDGKVTVNGREVNQVLVNGK
+TFFGKDGAIALKNLPAEIIKKVQVSDFKTKKEELSKQESTSDFSSINITIDEKKNKGYFG
+KILGGYGSDDRYESSLILNFFNNKQKISLLASSNNINSTSFAMDEVFDTMGGGRNSKGNT
+SSGSGKGITQSNLIGLNYSDDWSKSWSGMGSYNFSNSVNTNDSKSDQVSFLPTGNIATSA
+DSKTRNENTGNNANFELEYKIDPTTRLVIIPKVNQSRSNNNSSSSSFSEDENGNSLNESS
+AKSYSESTNTSLGNTINFNKAFKKDYRNFNLSFDSNNTSTDSEAQNLSQTIFYQDNKPND
+DRNQKSLNNNKSDVYSLELEYTEPVTDSLRLRFGSNFDWNKEIKDAKTFDFDNATQSYSD
+LNESLTNYTTSKQNSFSPKVGLTWQKRKFTVNLNSRTAIVAFDNHSLYLNNATDLNKRYL
+LPYGDFQVRYKFSRSKNLSFKYDYSNALPTAVQLMPVLNLMNPLNTITGNPDLSPIEKNS
+ANISFRNYDFRTRSGYSLFVRGDYYNNDVVSTSIYDDSGKRTTTYVNISGTYTTSIGGNW
+NQSVKRDAHLFRYGLGLNGSYSFDKGFTNAVLYNAKSTAITPKLNFTYEYGELLIISPSY
+SLSYNETRYENSSRDAISNVVHRINLQTTSYWPENLIFGNDFGYTYNSSISGNFKKDFYL
+WNTSLSYGFFDKKVYAKVKVYDVLNQNQSATTSISATSIRDEENTVLKRYIMFSVSYKIG
+NFAAEKGKKKRQREEF
+>tr|A0A1S1J1F3|A0A1S1J1F3_9FLAO
+MKKSLALFVAFLAFTACSKHQGEKNIAITGIDSTLRPGDDFFKYVNGKWYDSVSIPKSQA
+GVGVYMFMNYPQRMRLQGILDSISKSKNSAGSIAQKVGDFYASGMDTVTIDKRGYTPIKP
+LLAKIEAISDLPSLMNFVVNEVKVGNSSIIAFGVSTDDKNSSMNIAQIYQTGIGLPDRDY
+YFKSDAPTVAIQESYKKYLTTLFQQTGSNADEAKKNADLVYDIDKQLAVAHKTKVELRDV
+QANYNKTAVADLVKIHPNINWTTFLNNLGAKTDFINVGQPAYYDALNKLLKTIPINNWKI
+YLKANSLERYADDLSKPFVDASFEYTKVLSGQAVQKSRGEKMASVLDAYLGDALGELYVK
+KYFSEEAKKRMLILVNNLQKAYAIRIDKLEWMSPVTKQKAKEKLAAMTKKIGYPDKWRDY
+SKVHIARDAYFENMVSASTAAYQFQLAKLGKPVDRSEWYTTVPTVTAYNNPTANEIVFPA
+GILQAPYFDNNADDALNYGGIGMVIGHEITHTFDDQGAQYDKDGNLKNWWTKEDYAQFKS
+RIQQVINLYSTYTVLGDLHVNGAMTVGENTADIAGLAVAYDAFKMTEQGKGNTKIDGFTP
+DQRFFISLAKIWRVKMKDEFLRLWINNNPHSPPIWRVNGTLMNTTPFYEAFNVQPKDKMF
+LPKKDRITIW
+>tr|A0A1S1J7R9|A0A1S1J7R9_9FLAO
+MKTKICIITLIILSILSCRQNDENKNKLSDQKKSAAKTFEQKEKKRLEKRAEIEKQDRID
+NLKLDKVLSEALKIAIQNIGKDKFQKKYTVKTDQDYNIKVEMNMDNHFTKNAPHLIIWRY
+GADKLCIDIYSKNGKKLKKVLSHDEWSMTYRNDTIRDINGDGLKDFVVNWYGSVGCCLKA
+FSNVYLLRKDNKSFSTDFEFINPTFSPKEKIIRGICYGHPAETEMYKYKWNGEAVDTIEF
+VSYEKNIKDQKTGKIIISKNRSYNNKKIIERLNSVPNEYQKIEGYDWFTGNLDNN
+>tr|A0A1S1JAS1|A0A1S1JAS1_9FLAO
+MQNKKSFLGFLLLTTVFSFGQAKTTEIGLITDNDLYTSSKNDMYYTNGLELFYRFLSKNN
+NEKISKKITEFRIGQYIYNPRFINKEAVTINDRPFTGYLFAEAGRSFFYKSESVLKTDFQ
+LGFMGPNALGRETQESFHHLIGYKTVYGWENQLHNAFAIQAHIMYSKKLFPSKHNDFVDL
+HFQSEANVGTIFTGVSTGLLIRIGFKKLLPVYDSNLHDAAVSNTRQYNIREFYFYAMPSV
+NYQFYDATIEGSMFSNTSPLTFDLEPLRFNAEAGLKYRHNNFNMSYSFIYRGRELNDPNT
+NTNAGYFYGSIRFGYLLK
+>tr|A0A1S1J194|A0A1S1J194_9FLAO
+MEPTKSFQFCFDISFEKNLNTYLPTAYIIENTDDIKYLDKKASTDVLESFGVLFENLDSN
+TKKILTACDSLKPDFIFKKFSTKIKSAKTIADLQKDSKIEFAIRQHLKFNLESFYNLIVK
+EQFPFSANMSAEKDFYRWRVDTNPLEFEPQIQFDKHAEGITYTLSLKEGETTFLPMDKSV
+DILLDEPSWLIIDKKLGQLKELNSKKLLPFLKKKSIEIPSKLVDNYFKNFIPEIAKKIDI
+ESTGFEIELRDTIVSCTIQPIFDFFKNCYYLNLFFDYNGYSFDAGKTKKTHSFVDFSVAN
+EPKIIQFKRSADEISYTDKLLSLGLTKIKNELFGLSSDAETSDPYVNIQFIIDHKEPLES
+LGFTIQNLKLESKQIITESNTISIAKETKADWFDIKIIITIGPYKINFSEIIPNIKSKER
+LFMLPDGNYFLIPLEWFSKYGSLAKLAKTENGTVLLRKSNFTALDGISEIANDPDQIHKV
+EFTASDLLKATLRPYQIDGVKWLLGHFNANLGACLADDMGLGKTLQTLAVLVAVQEQLGF
+TTKTTNFDLFSNDTTIEREPLKALIVLPSSLVFNWYNEAGKFTPHFSKMQYVGNDRKLLA
+SRLNSTDLIFTSYSIVHRDISILEKYDFRYLILDESQYIKNKDSKIFKAINKISTGHKIA
+LSGTPIENSLDDLWSQMQFINPDILGSYAFFMENFKNPIEKKQNEEVLNELKNLIQPYIL
+RRTKEQVLKDLPELTEQVYYCNMDAEQEKLYEKEKSKARNFLLKTDGSGPDKISIINTLM
+KLRQLSNHPKMVDQDSEVDSGKYIAVTNYLKNLVKGKQKVIIFSSFVTNLNFYTDWCKEN
+KIEYCEITGETPSQKREQQVKRFQEKENPLLFFISLKAGGVGLNITKASYVLFLDPWWNP
+FAEKQGVGRAHRIGQLNKVNVVRFISKNTVEEKIIKLQENKKLLSDSLLEESHISDEIEA
+NLEYLLGS
+>tr|A0A1S1JB79|A0A1S1JB79_9FLAO
+MAKQEDLFKNVVSHAKEYGFIFPSSEVYDGLSAVYDYAQNGVELKKNIREYWWKSMVQMN
+ENIVGLDAAILMHPTTWKASGHVDAFNDPLIDNKDSKKRYRADVLVEDYAEKLNLKAKKE
+IEKASARFGDAFNEQEFVTTNARVIEYLAKEKEIRERLGRSLGNGDLEDVKALIEELEIA
+DPETGSRNWTDVKQFNLMFGTKLGASAESAMDLYLRPETAQGIFVNFLNVQKSGRMKVPF
+GIAQTGKAFRNEIVARQFIFRMREFEQMEMQFFVRPGEEMKWYEHWKTTRLNWHLSLGLG
+EQNYRFHDHEKLAHYANAAADIEFNFPFGFKELEGIHSRTDFDLKAHEEYSGRKLQYFDP
+ELNENYVPYVVETSVGLDRMFLAVFATSLQEEVLEDGSTRTVLKLPAVLAPTKAAVLPLV
+KKDGLPEISKKIIEDLKWDFNVAYDEKDAVGRRYRRQDALGTPFCITVDHQTIEDETVTI
+RHRDTMKQDRVKISELKDIIENEVSMKNWLMKM
+>tr|A0A1S1JC35|A0A1S1JC35_9FLAO
+MADLKQFAEQLVNLTVKEVNELATILKDEYGIEPAAAAVVVAAGGGEGAAEEAQTEFTVV
+LKEAGASKLAVVKLVKELTGLGLKEAKDVVDGAPSNVKEGVSKEEAEGLKKSLEEAGAVV
+ELK
+>tr|A0A1S1J4N8|A0A1S1J4N8_9FLAO
+MKIKIIGIGSYIPTQEVSNTDFGDHVFLNEDGTPFGYPNEVVIKKFKGITGIENRRYAED
+QHTSSDLAFFASEKALENAKIDRETLDYIIYAHNFGDVKAGTHQTDILPSLATRVKNKLG
+IKNPKCVAYDIIFGCPGWIEGVLQANAFIKSGMAKRVMVIGSETLSRVVDDHDRDSMIYS
+DGAGVSILEASDDEAGLLSYESATFATDEANYLFFGKSYNPELDPDIKYIKMYGRKIYEF
+ALSQVPCAMKSCLDKSGISIDEVKKILIHQANEKMDEAIIARFYKLYEKTPPENIMPMCI
+HDLGNSSVATVPTLYDLLIQGKLENHEINKGDVVIFASVGAGMNVNAFVYRY
+>tr|A0A1S1J9L1|A0A1S1J9L1_9FLAO
+MKNIIKSILLTVAVLGLNSCSEDKILDLVPVNNVPTDVAFSTPTYIETYMNGVYNAAAIG
+TYNSGTSNGGRGYVWGAAFVEQGECMGEDVVNNATFYQLTYTQTYDPTSANNVYYWVDGY
+RLINRCNLMIEGTTEAVAKGIITKAVGDDYIGQAKFLRAITHFELLNYFARPYHFTAGGT
+HPGVPYREVGVNTQAEIDSENAKPRNTVAQCYDKVIADLNDAESLIVSNGFNNGLRVVAK
+ATKSAAIAFKTRVYLQKRDWANVITEGVKLNGLYTLTAKPNDVFVPASNLSNTESIFSIQ
+HSATANPGVNAGLASILNARALVNISPIIWRNTKWLADDKRREEGVMIKTVAGRKYTNKY
+SDVTNLTDAAPVIRYAEVVLNMAEAQARLSNTTVALNLLNSVRNRALANPVATPANPVGQ
+AYTAASFATPADLVAGILVERRIEFLVEGRRWSDIHRLQGDPILSVAINGIPAKLANAAP
+AAALYTLGTPYPGPYGVPALPYTDYKFIWPIPQIEMNTNPGLGQNPDW
+>tr|A0A1S1IZH3|A0A1S1IZH3_9FLAO
+MKNQHQNTDWQKVSEIELIYKTRVKSTERPCITSSRDAYRILLDSWDPGKIEFFEQFKVL
+LLSQSNRVLGIYEVSSGGIAGTVVDMRLLFAAALKAAAVGIIITHNHPSGKTSPSEADRN
+MTRKIREAGKLLDIPLLDHLIVTPETYYSFADEGAL
+>tr|A0A1S1J135|A0A1S1J135_9FLAO
+MKPRIVIPTVAPQAYQALLNLEKYISTTSLTPVHKELIKIRASQINGCAHCINMHTTDAR
+KQGISEQYIYLLSAWRDTDIYTEEEKAILALTEEVTLISHHVSDETYQNAASLFNDQYLA
+EIILTIITINSWNRIAITTGLRVS
+>tr|A0A1S1J4B5|A0A1S1J4B5_9FLAO
+MEYLDFELPIKELEEQLEKCVIIGKESDVDVTPTCKEINKKLEQTKKEIYKNLTAWQRVQ
+LSRHPNRPYTLDYIKALCGDTFLELHGDRSFKDDKAMVGGLGKINGQSFMIVGQQKGFNT
+KTRQYRNFGMANPEGYRKALRLMKMAEKFGIPVLTLVDTPGAYPGLEAEERGQGEAIARN
+IFEMVRLQVPIITIIVGEGASGGALGIGVGDKVYMLENTWYSVISPESCSSILWKSWEYK
+ERAADALKLTSSDMKKQKLVDDVIPEPLGGAHYDRETTFKTVAEYITKGYNELKDLSTHD
+LIAQRMDKYSKMGEYKE
+>tr|A0A1S1J8J8|A0A1S1J8J8_9FLAO
+MLEQNQYTEDNIRSLDWKEHIRMRPGMYIGKLGDGSSPDDGIYILLKEVLDNCIDEFVMG
+SGKTIEVTIRDKTVSVRDYGRGIPLGKVVDVVSKMNTGGKYDSKAFQKSVGLNGVGTKAV
+NALSNYFRVESVRDDKQKAAEFSAGNLVLEEDVIDTTKRKGTKVTFTPDESIFKNYKFRL
+EYVIKMVKNYCYLNNGLTIIFNGEKYYSENGLRDLLEETINEEDLEYPIIHLKEHDIEVA
+LTHSKTQYSEEYHSFVNGQNTTQGGTHLAAYREAIVKTIREFYNKNFEASDVRKSIVSAI
+SIKVMEPVFESQTKTKLGSTDMGSDDGTPPVSVRTFVNDFIKTKLDNYLHKNPTTAEALL
+RKILQAERERKELSGIRKLATDRAKKANLHNKKLRDCRAHLPDTKNPRNLESTLFITEGD
+SASGSITKSRDVNTQAVFSLRGKPLNSYGMSKKIVYENEEFNLLQAALDIEDGLEKLRYN
+NIVIATDADVDGMHIRLLLITFFLQFFPELIKEGHLYILQTPLFRVRNKKETIYCYSEEE
+RKDAIEKLKPKPEITRFKGLGEISPDEFKNFIGDTIRLDPIMMDKNTSIEQLLSFYMGKN
+TPDRQEFIIKNLKVELDAVEAEV
+>tr|A0A1S1JB61|A0A1S1JB61_9FLAO
+MKAKLISLVFIGGVIFSVNAKETAIKTHLFEQKSSQIEISGQVIGQDDGMPIAGATIYAK
+GNTKTATITDETGKFKLNVPENETHIIISYMGYGTLEYKLDKITDVVISLKPAENVLEQV
+LVTALGVKKSTKAISYAVTELKGTEFTKAKETNITSALAGKIAGVNVSGTATGPTGSTRV
+VIRGNGSLNGNNQPMYVVNDLPIDNTQLNLPGTGNAPGSPRINVDRGDGTSVINPDDIKS
+ITVLKGGTAAALYGANAANGVILIQTKRGSAQKGIGAEYNTSFTFETPAIKPDWQYEYGS
+GDAGQKPLTQAKAIEYGRWSWGAKMDGTDVIQFDGVKRPYSPQKDNIKNFYQTGTTFINS
+LALSGGTDKASGRLSFMNMDNQGIVPNTSFNRKSVNIASNVNVTNWLKFDVVAQYNIDKT
+ENRTTVSDAEANPNWATYMIGNTVDIRNLSPGYDANGREIAWNPVAVATNPYFAVNKIKN
+SDTKNRFIGMLNVKVNFTPELFLQGRIGQDYTNYDFYAYIPKTSLNNPVGYGQGSKVKLS
+NLNSEAILNYTKKNIYKDFSLNALLGVNSRTNVRDEVRIDGSNFVLDDFYSLTNLATITY
+AYPYGKTKTNSVYAAADLDYKNVVFLNFTGRQDWFSTLSKDNNKIFYPSVGTSVILSDIV
+KMPEWISFSKVRASWAQVGGATPDPYALNQSYSMIQGGHNGQYLQSTTGSRVPNSTLSPL
+TSTTVEVGTDMGFFNNRLNLDFAWYNRETTNDIVETTISNASGARTALLNLGKMKNTGVE
+LLLSGKIINNDNFSWEASINGSYNKNTVESLTGQLNSLTMATSVNGYVTVNSDVGRPYST
+IKGYKPLKDANGNTVYNVSGNTATVAQGPLEELGQGVHPWSAGISNEFKYKSVSFSFLID
+GKFGGDLYSGTDLYGTRMGLTKMTLEGRENGLPISGVDPKGNPVNMVIAPADLRTYYDGL
+RNISSYFVYDASFIKLRQVIIGYQLPIEKFGFLSKLQGASVSFIARNLFILYKKTPNVDP
+ESVFSAGNAQGIEQFGVPRTRSFGLSLNVKF
+>tr|A0A1S1J4M6|A0A1S1J4M6_9FLAO
+MSLTKKFSPIYNLAIFYFIVSFLLRIVLFFHPITQSSFTIIQSLKIFILGLVSDFFVFVV
+ASVFLWLYLIFISNSKYNKPSGYIILGIFAVLFIYAASGKSIFDEYGGALPMIVMIFIGI
+KMALFALLLFLPKLRDKIRYWLFAFVIFLYVLLILQNGLSEYFFWNEFGVKYNFIAVNYL
+IYTTEVIGNIMESYPVIPLFSALFLVTGIVTYFILKKSRNYIDHIPTISEKIKITAIYLG
+AFAVSLIAIPTLAKTENSKNVFVNELQANGIYKFYLAFENSKLDYFDFYKTLPNEEAFAL
+LKQQFATIKGNSTKRTITGDSLENHKNVVLITIESYSADFMKMYGNEENITPFLDSLAQK
+SLLFTNLYATGNRTVRGLEAVTLCLPPTAGESVVKREDNKNKFSTGAIFKKKGYKVKYLY
+GGDAFFDNMQDFFSGNGYEIVDKSSFAPEEITFSNVWGVCDEDMYNKAIKVMNAEEKEKR
+PFFNHIMTVSNHRPFTYPNNKVDIPGDAKSREGGVKYTDYSLKKFFEMASKQSWFKNTIF
+VIVADHCASSAGKTELPLDKYRIPGFIYDPNGKPQKYNQLMSQIDVMPTLFGLLNFNYES
+KFFGQDVLKPDYKPRAFIATYQDMGLIKDNVLTILSPKQQVKQFNVQINPKPGIAPEFQI
+DYNETPMKTERADLIKETISFYQTASYMLKEKKYQR
+>tr|A0A1S1J6D8|A0A1S1J6D8_9FLAO
+MKTSISFRQNSSHFYLIGLLSFLLASCGSYQNTSYHDNDGIYGGSPRTYAQANTTNNQYK
+DYFRSLQDDNQPTEIFTDVDSYGNYAVNDSTKTVSNYPAWGSATTDVSVNVYSNPSWSLG
+FGFGFSYGYPYYGWGYGGYWDNYWGYPGYWGGGWGYPGWGYPGWGYPGYWGSGHRYGYNN
+YSYNYGRRGSAAYYGGRNYSSGNYITNRGYSTNRTYNSNRDYTTTNRSYNSNRTYSTNRS
+DFSDSRRNASVNGRTYNNSSPTFTNRGNTTQYNSADYSNRRSSSNYNTNRSYNYNNNNSA
+PTRSYSPSPSRSMNSGGGGGGRSYSGGGGGGGGRSYGGGGGGRR
+>tr|A0A1S1JAC7|A0A1S1JAC7_9FLAO
+METKKYSSYAEIERDLEILKLEKDINYQKLVLSFQKTKESITPQNVINGVFSSYKEYFFN
+SYPQILQSILPYIINWFIKKKRGK
+>tr|A0A1S1J1G1|A0A1S1J1G1_9FLAO
+MAKNLVIVESPAKAKTIEKFLGSDFQVESSYGHIADLPSKEIGVDVENGFKPKYEVSSDK
+KALVSKLKTLSKNADMVWLASDEDREGEAISWHLAEELKLDTKKTKRIVFHEITKTAILK
+AIDNPREIDYNLVNAQQARRVLDRLVGYELSPVLWRKIKGGLSAGRVQSVSVRLIVERER
+EIQNFNAVATYSIVAEFVNEAGKAFKAKLPKNFNTKKEAEDFLNKNIGSQYQVADLETKP
+TKKSPTAPFTTSTLQQEAARKLYLPVGITMQLAQRLYEAGLITYMRTDSVNLSAEAMSAA
+EAEIIKSYGKEFSKPRTFANKNKGAQEAHEAIRPTDMSRHTVNIDRDQARLYDLIWKRTL
+ASQMSDAQLERTNVKIEANNHDEIFTASGEVLLFEGFLKVYLEGHDDDEEEQEGMLPALK
+VNEKLANNYITATERYSRPPARYTEASLVKKLEELGIGRPSTYAPTISTIINRNYVEKGT
+LEGQERNYTQLTLQNSKVGEKLLKENTGSDKGKLVPTDIGTIVTDFLVKNFGNILDYNFT
+AKVEQDFDEIAEGNIDWATMMQEFYNKFHPNVKEVEANAERESGERILGKDADGRQVSVR
+LGKFGPMAQIGEADDEDKKFASLMADQNIGSITLEDALNLFLLPKSLGEYKGEEVEVNNG
+RYGPYVRHGSVFISLPRGEDPLSVSKERAQELIDEKALADAPIATYKGEPVQKGVGRFGP
+FIKWNGLFVNVSKKYNFDNLSQADVEELIEDKLQKNIDKVLHNWEEEGILVEKARWGRSV
+ITKGKIKIELSKEVDATKLTLEEVQEMIAKKTPAKKTPAKKAATTKKATTAKKAPAKKPA
+AKKK
+>tr|A0A1S1J7R1|A0A1S1J7R1_9FLAO
+MKVLANDGISKSGILALEKGGFEVITTKVAQEQVANFVNENNVDVVLVRSATKVRKDIID
+ACPGLKIIGRGGVGMDNIDVDYAKSKGIHVINTPASSSESVAELVFGHLFSGVRFLHDSN
+RNMPLEGDSNFDGLKKAYANGTELRGKTLGIVGIGRIGQATAKMALGLGMRVIAADSFIP
+SVDVKVEFFDGQSITTTIVSQSLESLFKEADFITLHVPAQDGYIIGEKELAIMKDGVGIV
+NCARGGVIDEVALLKALDSGKVAFAGLDVFESEPKPEMAILMHTKISLTPHIGAATGEAQ
+DRIGTELASQIISLLS
+>tr|A0A1S1J1A3|A0A1S1J1A3_9FLAO
+MKQVLLKNLDESRSKDIFPSLEIKENLVNAFFPENTLTLTQNLSSVTAGFYGLLLKNIGT
+AFGNDKIDGHSKKLFFELGKLKTMQAFQLYPALEKDTRAFAAVVIYTIYNSSPEYNFRLL
+KYTAENTILELTGVDRYLKILTELGIEEHITIPTFLPFVDGIKEVVNIPCQVDYTFERTN
+QDFAIKSVYSIKRL
+>tr|A0A1S1J7E8|A0A1S1J7E8_9FLAO
+MSLENKTVDGEGINASQKKETVFGNLKYLIVGIFFGIVFVKTEIISWFRIQEMFHLESFH
+MYGVIGSAVAVGVISVFLIKKFNIKTLQGEKIEIQPKTFSKGQIYGGLLFGFGWAITGAC
+PGPLFAQIGTGATVIIVTLISAIFGTWVYGLIKDKLPH
+>tr|A0A1S1J7H7|A0A1S1J7H7_9FLAO
+MAAKKNNQSNSVKDINYYKKKFWRIFAYSLLGVLAFFLFASWGLFGSMPSFEDLENPDSN
+LATEIISSDGVVIGKYFKTNRSQLKYSDLPKNLVDALVATEDARFYEHSGIDGRGTLRAA
+FSLGTNGGASTITQQLAKQLFHRGGSSFLPFRIVQKIKEWIIAIRLERQYTKNEILAMYC
+NVYDFGNYAVGVSSAAQTYFSKDPKDLTIDESAILVGMFNNSSLYNPLRNPVGVKNRRDV
+VLGQMVKAKMITKSEKEKYQALPIALKFKLESHREGTATYFREYLRDYMKKWVAENKKPD
+GSDYDIYKDGLKIYTTIDSRMQLHAEEAVSEHMKNLQQQFFIEMKTNKNAPFVNITQAET
+DRIIMQAMKNSTRWALMKEMDKSDEDIIASFKVKTKMRVFTWKGERDTVMTPLDSIRYFK
+HFLQSGLMAMEPQTGNIKAWVGGINYKYFQYDHVGQGARQVGSTFKPFVYATAIEQLNMS
+PCDSILDGPFMIHKGRHNVTADWEPRNSDNRYRGMVTLKQGLANSINTVSAKLIDRTGPE
+AVVELTHKLGVKTEIPAQPSIALGAVDITVEDMVAAYSTFANQGVYVKPQFLSRIENKSG
+EVIYEPIPESHDVLNKDIAFAVIKLLEGVTETGSGARLRTEGGGSGDNRWTGYPYMFRNP
+IAGKTGTTQNQSDGWFMGMVPNLVTGVWVGCEDRSARFKSLTYGQGATAALPIWGYFMKL
+CYADPGLQVSKSEFERPANLSIKVDCYSRPAVVKDTTQTDQNTDEFEL
+>tr|A0A1S1JBJ4|A0A1S1JBJ4_9FLAO
+MLKGILNNIQKKSLKERFLLVLGILFFLIYLVLGLMIMFWEKLPLNMEQKYRYAFGGLLI
+VYSAIRFLRLINSNAE
+>tr|A0A1S1JCV9|A0A1S1JCV9_9FLAO
+MQNLVKRIIVLGVAVLVIVLAFRYCEFKKDDDSTIDYNTNLIQQQILNVGKLVVTEGHFS
+EVITYKNQQKYLMDMVSFEKKALVVVNANVTVAYDLHKVKYDIDEKNKTITILNIPKEEI
+TINPDIQFYDVEQSKLNPFTGDDYNKINKSVKANLAKKIEKSTLKTNAQNRLISELSKIL
+ILTNSMGWKLQYNGKTIQSEKEFSEDLKL
+>tr|A0A1S1JDR8|A0A1S1JDR8_9FLAO
+MKKTLLFFAFIMITTISSAQYTIWEDDFDDSNVSDWNLLDRDGNGSNWMARKNIQLDAST
+GSVIDGTIDVLGTYNIDFKTGGPLEGLENNLAISPALNISFYSGKISLTIKAQPSIYDSN
+QNIAIYGSTSADPASFKLLHTITLERNTVEEAEFKNYTVDISQFAGKAEVYLALGNNLSG
+PFIGYEIDKISVMAEALLGTADNTLKSSLCYLKQNPVQDNLELEIAEEYKNEETVLKIYN
+TSGVLIKESSYKPEGLSVSDLMQGIYFLSANNNGASKKIKFIKK
+>tr|A0A1S1J1A2|A0A1S1J1A2_9FLAO
+MKKYFLFIIVCGLFSSAYSLESTGINSGSIVNTWIWEKSIGGNSNPYTATPKTIGFNKKV
+VFTPNGRIITYKNNVEIRNSTYTIEKGVGYFDQAEHDLITFEGKTYVIENLDNQNLTIVS
+NNTDASRTIYKR
+>tr|A0A1S1J5Y7|A0A1S1J5Y7_9FLAO
+MDQLNPLTQFFKAIEKDRRISITHIGIFAALLQFRTTAGYINPIKAYRHEIMKIAKISGP
+VTYHRCIRDLNDYGYINYLPKRNKNQKSIIYFTV
+>tr|A0A1S1JBI5|A0A1S1JBI5_9FLAO
+MAKSLNILLIEDDAIEVMKFNRVLKSLELNHRIIEANNGEEAVDLLKRKEIIPDVIILDL
+NMPKLNGIEFLSILKADDVLKYIPAIILTTSNNHRDVMECYKIGIAGYILKPLKYEDYVD
+RIKKILDYWSTNELISQ
+>tr|A0A1S1JC91|A0A1S1JC91_9FLAO
+MINSIQKLKGIKAQKVTDVAQVDYSVWPGQAGFPLVVKPSAVGMQLNDWVAQNRAEFQEK
+VNTYGAILFRGFHINTVEKFENFSKLYADTPLEYNLRSSPRYSVGKNVYHTTTYPKEYSI
+EMHSESSYAPVHPSNIVFCCIDPADKQGETPIADNKKVLEYLSEKTRTKFLEKGVKYVRN
+LNEAYGLSWKEVFQTEDQKEVEKTCNEQGISFEWKSDTNLVLTWTKKAIWEHPATGDSVW
+FNHAYFFNKYALEASFFDLVNSEDQLPNNTFYGDGTEISKEEIEEIREAYQKATVLFPWE
+KGDVLFLDNMLMSHGRSPYEGSRQIIASLF
+>tr|A0A1S1J826|A0A1S1J826_9FLAO
+MNLEKLNIEKIETEKIVKSVWIAKTTIYTPTKTDIEMKGESEINAYEKLISFLKCDQKPK
+EVKTLPNGNKIYHFKKMPDHDKAV
+>tr|A0A1S1J855|A0A1S1J855_9FLAO
+MTTKKITAFLFFFFTILTSFSQEKFTLSGTITDFKNNETLIGVNLYIPALKIGTTTNEYG
+FYSLTVPKGEHQIEISYVGYQTLQKTIALNQNTKNNFAITESGEELKEVIITDNKSKINI
+KSPEMSANKLSIATIKRMPVVLGEVDVIKSILLLPGVTNAGEGASGFNVRGGGADQNLIL
+LDEATIFNSSHVFGFFSVFNPDAIKDLKLYKGGIPARYGGRASSVLDIYQKDGNSKEFHV
+NGGIGLISSRILAEGPLVKDKGSFLIGGRASYAHLFLKLSEDQKNNAAYFYDLNTKLSYK
+LNENNSLYLSGYFGRDVFSLNKSFTNIYGNSTLNLRWNHLYSDKLFANLSLIYSDYYYGL
+DLDFVGFKWDSGIKNYNIKYDFKNYVSDKFKLNYGLNGIYYEFNPGTIKPSNEKSGINPD
+QLDKKYAFEPSVYIEAENQLSKKLTLAYGLRYSLFYRLGTSTINYYNNNEAVTFNNNMQI
+YEKGIPVSTKYFGKNKVIQDYNNFEPRLSVSYQLNDDQAIKASYNRMAQYLQLISNTSSP
+TPLDVWMPSDNYIKPQIADQVALGYFRNINNGAYTVEVETYYKKIQNRLDYIDGADLIAN
+DAIEQIVLNGRMRAYGVEFMLKKNEGKFNGWISYTLSKSQQQTPGRTSEEIGINNGQWYS
+SAYDKTHNLAVTSAYNLNEKWSFGANFALQSGQPVTYPNGQYQYLGITVPSYGLRNDNRL
+PAYHHLDVSATLTPRRNKDRKWKAEWVFSIYNLYNRQNAASINFRQNTDTAANEAVKTSI
+FGIVPAVSYNFKF
+>tr|A0A1S1IXN0|A0A1S1IXN0_9FLAO
+MENTEKYYFKPNVIIGPLVDKWYAWTHLISPATAAMNIVERHLKIMNSYIQAPAIHEAAV
+KNPKMLGGPFMDYETRRVEEVKELKAEILEKQANAIQLSDAIKELDQLLKTKAKGASLEP
+LYKEVPEILKGYVELVYDLNNHPSYRFFESLLYNSPFYSKHSQSISLWETLNDERPFCLS
+TPQLEDPKVLQLDIPFDHKGIDTLSRMKRNPGSIEAVAEELGVREDQMELFKTFFTKKEH
+PAYQKYTGDKARMRYLGHACILIETKDVSILVDPLISYYGYESTVEHFSDIDLPDVIDYV
+LITHNHQDHIVLETLLPLRHKIKNLIVPVTTSGALQDPSIKLAFQSIGFKNVIEIDELEE
+IKFENCTITGLPFTGEHSDLNIRAKSCFHVAINELSFLFVADSRVMEPRLYEHIHRVKGD
+VDVLFLGMECAGAPLSWLYGCLMTEAINREDDQSRRLAGCDSERGLSLVDIFNPKEAYVY
+AMGMEPWLEFISSIKYTEESLAIIESNRLINHCADKGIIAERLFGEKELLYDYELKNELV
+TS
+>tr|A0A1S1JAN9|A0A1S1JAN9_9FLAO
+MAEKTIRIGTRDSELALWQAHTVEKKLNDLGYKTEIIAVKSTGDIILDKPLYELGITGIF
+TKTLDVAMINGDVDIAVHSMKDVPTALPKGIVQAAVLERANVLDILVHKGNPDFANPSTI
+ATGSLRRQAQWFNKYPNHTVVDLRGNVNTRMQKLQDNNWDGAVFAAAGLERINLKPENYI
+DLDWMIPAPAQGAMVVVAMENDNYALEALSQLNDIETEICTYIERQFLRTLEGGCTAPIG
+ALVRYNEEEDTLHFQGVLLSVDGKQKLEINKTVEIGEWKKLGFFAAQEILNNGGTELMQA
+IKESLKK
+>tr|A0A1S1JAJ0|A0A1S1JAJ0_9FLAO
+MNYENILISIEERIATVTINRPTKLNALNKATISDLSKAVKLLGKNDDVRVIIITGSGEK
+AFVAGADISEFANYTIIEGAQLAAEGQETLFDLIENLKKPVIAAVNGFALGGGLELAMSC
+HFRVASDNAKMGLPEVTLGLIPGYGGTQRLPQLVGKGRAMEMIMTAAMIGAEEAKQYGLV
+NHVVPQAELLDFTTGIAQKIIKNAPFAIGKAIKAINANYTDGKNGFDTEIKSFGKCFGTQ
+DFKEGTTAFLEKRKAEFTGK
+>tr|A0A1S1JB16|A0A1S1JB16_9FLAO
+MNFNSKNPFLSNKRFSSNAVSKAEEVHQAQIIDYNQEMTLSGTINKTAILFLILCGSAMV
+TWWMAFNGMNVMLPAIGGAIVGLILVIISAFKPQASPYLAPGYALFEGLFIGGISAIFEA
+KYPGIVINAVGATLVTFLVCLGLYKFRIVKVTEQFKSVVVAATLAIATYYLISWLVSLFT
+SWTPVHYGNSMMSIGISVFVIIIAALNLFLDFDQIEKGVQQRMPKFMEWYGAMGLIITLV
+WLYIEFLRLLSKLSSKD
+>tr|A0A1S1IZN2|A0A1S1IZN2_9FLAO
+MVLEQSKSLVLGNLLQRLNENLRKEAQLFYKSQNIDFEPKWFPVVYVLSQKKAISVVELS
+QEIGYSHPTTISLLKELEKKELIGSTKDAKDERKRLITLTDKANEMIDQLQPLWQIMTEA
+LIELTDTENNLFKAIHEVTQNLKTKNLFDRMTTIKEMKSESAQKSTGNTVKVEKIDDSKL
+IEIAFAIRRQVFVEEQNVSQERESMDDEEAVQYLATVNGLPAGAARYRQLEKGFKIERIA
+VLNTYRGKRIGEAILQKILADLKDEEKIYLYAQVNASRFYIKNGFKQTDIFFLDAGIEHV
+EMDYVKM
+>tr|A0A1S1J2K2|A0A1S1J2K2_9FLAO
+MNCLNCNTEVNSNFCPDCGQPKVLKRINGHYIVHEIEHVLHFERGIFYTIKELITSPGQN
+IRNYLTENRSRLVKPIIFIIVSSLIYSISNHFFHFQDGYINYLDSQKTSTSTISKWVQMN
+LGYSNIMMGIFIALWTKLFFRKRDYNIFEILILLCFVMGIGMLIYAIFGVVYGLTHLNIM
+QFAGIAAFLYATWAIGQFYDRGKASSYVKAFLAYIFGMMTFSLAILLVGTLIDLVIKH
+>tr|A0A1S1J619|A0A1S1J619_9FLAO
+MSKLPSLQNVLNATLKTVIRFPLEILTAILGTVFAIILSEGNYNSPNKEFYEKALMSCSL
+SLVLFLSVSLFFLASKKSNLLRFAISIGLGSLVFLFVNTFHKYTTDVEIQQFMVLNIVFH
+LLVSFAGFLPRAYNQDEFWEFNKQLFLRILTAGLYSIVLYSGLALAILAIDKLFNIDFYD
+RIYMHVFFVIAGIFNTTFFLSGVPDTNNSQTPLVLNYPKGLKNFTQFVLLPLISLYLVIL
+ICYEAKILLTLSLPVGWVSYLVLVFAIFGILSFLLVHPIASETGNLWMRTFNRWFYFLLI
+PLLVLLFWAILYRINLYGFTHERYYVLLMSVWLSLVVGYFLIQKHPKIKFIPISLCLAGL
+FSIAGPQSANSISKYSQLARFESYVQNKTAKKLSFEQQQDLSSIVSFLERNYGVEIMVPY
+AKTKLEALLKKEKDPSDYEIMEALGYEYQSAYAREEKVNDSFYFYYQQNEVLNIHGYDFS
+VDLSSDNPYECHDCVKIENKSYSLTSTVEDYGLNLEINKESIPLKITDFINASPDFRRDH
+DYDKKVTQEVQTSKYKILITYLSANGKIKDNKKTVNRYMINVLVQIKK
+>tr|A0A1S1J7B1|A0A1S1J7B1_9FLAO
+MKAGIVGLPNVGKSTLFNCLSNAKAQSANFPFCTIEPNIGVVNVPDPRINKLEELVKPER
+VQMATVDIVDIAGLVKGASKGEGLGNQFLGNIRECNAIIHVLRCFDNDNIVHVDGNVNPI
+RDKETIDIELQLKDLETIEKRLEKVKRAAKTGNKEAQTEEALLNRIREALLQAKSARTII
+PQSNDEEVLMEGFQLITAKPVLYVCNVDEGSAVNGNKYVDQVRELVKDEEAEVIILSVGA
+EADITELESYEERQVFLEDMGLTEPGASVLIRAAYKLLKQQTYFTAGVKEVRAWTINIGA
+TAPQAAGVIHTDFEKGFIRAEVISYEDYVQYGSEAKAKEAGKFKVEGKEYVVKDGDVMHF
+RFNV
+>tr|A0A1S1JBL5|A0A1S1JBL5_9FLAO
+MALAITDATFDEVVLKSDKPVMVDFWAAWCGPCRMVGPIIDQLSDEYAGKVVVGKVDVDA
+NQEFAAKYGVRNIPTVLVFHNGEVVGKQVGVAPKQTYADSLDALL
+>tr|A0A1S1J0P8|A0A1S1J0P8_9FLAO
+MSDLYLKDESYKIIGICMEVHKILGKGHSEKVYGDALEYEFQKNNIPYNRELRYNIVYKD
+IILPSYYFADFVIFDEIILELKAITALTTSEIKQTLNYLAASQNKLGLLVNFGEDSLKYE
+RIIL
+>tr|A0A1S1J151|A0A1S1J151_9FLAO
+MSKVKLGINGFGRIGRIVFRETFNRDNVEVVAINDLLDVDHLAYLLKYDSVHGRFNGTVE
+VIDGKLFVNGRNIRITAERNPADLKWNEVDVDVVAECTGIFTTIETANEHIKGGAKKVII
+SAPSADAPMFVMGVNHETAKATDLVVSNASCTTNCLAPLAKVIHDNFEIVEGLMTTVHAT
+TSTQMTADGPSRKDWRGGRAASINIIPSSTGAAKAVGKVIPALNGKLTGMSFRVPTADVS
+VVDLTVKVAKETSYEEIMAVLKNASENTMKGILGYTEDAVVSQDFISDKRTSVVDAGAGI
+GLNSTFFKLVSWYDNEYGYSSKLIDLSVHIAGLK
+>tr|A0A1S1J8F5|A0A1S1J8F5_9FLAO
+MEINWNEIKKEILVEIKDIMRTDTDIKINEVLDLFIEVLKFPLEDIELSGIESRIPNAIQ
+KILIEPLSRVDKNTFFTDVAKIEPYLRKILFITNKQLFDQIKLEKKGLGAIISALGLNPN
+RVDYSSTSLTPSQSTHFSIHLIKAYNLRNLEGHNCTEWTNTKLYDELRSVLVIFLYATYR
+KYNELKIAINPFDVTSYLKDEIKKIKILQSRFVHIEGKEEINEIALYAKEMMEDIEENEE
+EENEVTEDIIAREGTIDILRNSINEKKMIILGDVGMGKSTTLLYLHLKDAEAALNDKNKS
+VPIYLELKNLTDKDILVTKIKAKLGLDDDLAVDLLRRGKLNISLDGLNEIENKIKANIFK
+QISNLINDYPNNFYLITSRPQHYNREFDNQIGNFKIPVFLLQKMKDNQIEDFLTRNGKPV
+KSYILNEINNNDRLKKIIQTPLMLIMLIAVVIKEGKIPSEKGKIIRSFMHSLYDREQRQI
+IDFDKELFHLLLCYLGFQSRDLTGSNSGIERDEYILPLLEQRKEQLGIQVNLIDFLRKAI
+DLNILVNDNNLYSFSHELYQEYYAAEYLHQLMKS
+>tr|A0A1S1J6R3|A0A1S1J6R3_9FLAO
+MAVTTGYSQSTDPSSKKIVGTWYADANRNTRWVFTTDGKVFNYDKNTFKVMYRYTISNSC
+QNNSDDTLEFITLMDKDGDEYCFRINAINENKNGVLSMTNMSNMEALLFVNDINIVITN
+>tr|A0A1S1J8C7|A0A1S1J8C7_9FLAO
+MNTQENINYNRIAEAIDYIKANFKAQPNLDEVAEKVHLSPFHFQRLFTEWAGTSPKKFLQ
+YISVEHAKKILQDDHQATLFDAAFDTGLSGTSRLHDLFVNIEGMTPAEYKNGGKNLEINF
+SFAESPFGNIIVASTLKGVCFMAFAENEGMGFENLKHKFPNATFSRKLDLIQQNALFIFQ
+NDWSKLSEIKLHLKGTNFQLKVWETLLKIPLGQLSTYGSIAQQIEKPNASRAVGTAIGSN
+PVAFLIPCHRVIQSTGTFGGYMWGNTRKTAIIGWEGAQINP
+>tr|A0A1S1J2V2|A0A1S1J2V2_9FLAO
+MTHSSNKYILVVVAATLLSACSITKKYERPSAISTDKLYRDQNATDSTTMASMPWQTVFK
+DEKLNALIQKGLDQNLNLKNAIENIVQSRATLRQAKLAYYPTLNFDASATHNKQSKAGLN
+FPPGININTLTTTYKLGLSTSWELDIWGKLSSSKRAALAAYLATDAAKQAIQTQLIADIA
+NNYFLLLAYDKQLEITKATLESRIKNVETIKALKEGAIVTGAAVVQSEANQHAAEVLIPD
+LKRSIRETENALNILLGQAPGTIERGTLGNQTVPENLAVGMPAQLLENRPDVRQAEFNFR
+TAFESTNMAKTYFYPSLTLTASGGFSNLQLTDFFTNSVFYSLIGGLTQPIFNQGLNKARL
+TTAQSKQVQALNDFQQSLLVAGQEVSNALYAYEMAVEKEDSRQKQIEALEKAVDFTQQLL
+EYSSATNYTDVLTSEQNLLAAQLSGITDNLQKLQAVVDLYRALGGGWK
+>tr|A0A1S1J912|A0A1S1J912_9FLAO
+MNGTLNKVMLIGHLGDDVKMHYFEGGNCIGRFQLATNEVYINKTTNEKITSTEWHNLVVR
+NKAAEICEKYLSKGDKIFIEGRIKSRQWQAEDGTTKYTTEIQVTEFTFLNTKKETGNHKP
+NQDSESPKNTNFDAANEGLPINDLPF
+>tr|A0A1S1J9H0|A0A1S1J9H0_9FLAO
+MKYLTKPFLQQIFIFNSKLVFLFVLTCLILPNANGQQKKITEKFKKETILKIDSLIQKEY
+IFPDQAKLIAAHLKKSYKENKFKKYNLLDSFAVALTKEIRLVNNDKHLRVKPKFVPDNKN
+TNAAKDSYEIYLHNLTDNRKLADGFREVKILDGNIGYLNFKYFIHETNPTIDSYMQLLSK
+TDAIIIDLRTNGGGSPKTVQYLCSYFFKEPLLLNTLYFRKDNFTEEFRVTEVNGKKRIDV
+PLFIITGDRSFSGAEEFSYNMQTQKRATLVGEVTGGGANPGEILEINSLLEIFIPTGTAI
+NPITKTNWEGIGVIPEYKTTKELAYDKTIELAKKAAEDYRSKIAAESKKLYLELQSTVDQ
+QTKPLNEADLAKMDQQIQTVIKKLIESDWFTEEDITNLSSDYTPTKPFITESILKSNAEL
+HPKSPIAFLKYGDLLEQNGKKDTATAVLKKAVELATEIKAPYLEGIKNRYEKILK
+>tr|A0A1S1JE80|A0A1S1JE80_9FLAO
+MKLYRVLFLFLIYNLSAQQKPIETIYFEFDKFDLTPKQTEVVNRFIKSIDTSKVESVQIY
+GYCDDRGNDEYNFRLSNNRAATIQNLLVRAGFNQGKIVILEGKGRVVVRPDTIENLHETR
+TRNRRVDLIAVKKNSFGKGIYNSFPNKLKIGDKIFLDNILFDIGSSKLTSNSKKELDKVA
+AILEKQNGLKFEIRGHVCCTPDIYSDGIDRATNERRLSWNRAKTVFYYLSSKKISKNRMT
+YQGCGNKYPLGKGDNLDRRVEFLITKI
+>tr|A0A1S1J812|A0A1S1J812_9FLAO
+MKAMKRINKQCLVCGEVFLPKTVTSVYCSSKCSKKAYKQKMKQLKNEADIKAMIEKIPQD
+RAFLSVSEAGMLFGIAKRTLYRLVEQGKIPSVNLGTRLVRIDRRVMEGMFSPARSLPQAE
+SAPKKKLYSLEREDCYSIGEIAQRFQISEGSVYSHIRKYSIPTRQIGKHVYAPKSEIDNL
+YNGNDFI
+>tr|A0A1S1J0A6|A0A1S1J0A6_9FLAO
+MKSIHNGWYVLYVKCHHERKVFDMLGYLSIKAFLPTIQVQSARTDRKKSIQKLLFPSYVF
+VKINSSLDFYKTLSVNGACMYIRFGMEYAKVSDEEMRKIELLLLNNDVTEVETHVEEFSV
+GDFKTISYGSLKGLECEVLNTNNTNKIVVRIDSLQKNITATIPSYYLQN
+>tr|A0A1S1J127|A0A1S1J127_9FLAO
+MKIKCVLVDDEPLAIKVLQNYFTNFTDFEVIGTFNNSLEALDFINSTTVDAVFLDINMPM
+MTGFELISLIENKTKVIITTAFREFAAESYDLDVLDYLVKPIPLPRFIKCINKITTEYNL
+KNNIKVETVKGDSHIFIKVDKKMMKINIEEILFVEGMKEYIKVVTSDKTYITHKSLTSLS
+EELPADRFLRIHKSYVIALNKVKSIEGNRIQIQSYTIPIGRNYSKEVKNKILE
+>tr|A0A1S1J3A9|A0A1S1J3A9_9FLAO
+MKKRVYLFSLSVLSLFTFCTNHDDSATNDQATNNNIEINSDVTALNKRLDYTNSGVISIT
+GSSASTGKLFNSAQSSATDFPLVQIAEVNPPKDNSGRTLQASHVAVNGNYAYVAYTMSGE
+AYSGAIDVIDVSDPYKPKLITSALIANTDITSLTYSNGSLIIGAAADIDKNSTLKSPAIV
+INMPLSSGMLTDKYTTTNVEGYVTTDVTSNSGSYFAVTGDQGSLFKINAASKAISGKVAV
+EDLRSVAISGDKVVTLSGTKGVNIYNESTLALQKSFTTSTDVKASKRTIDFDGTKLLVSE
+GYKGLGVYDINSGSKLQTIPLAVAGEENVTNALSVNEGYAFVANGAAGLNVYKTGAQLGL
+LGTVDILGSSNYVKSSGNFIYVASGKGGLKIIKMEKPNTTFDGCTGYGTYNQGQNLILNS
+NEVKSYSGATSISSAIINSGAILTHCGSITVQNNLTLNSGGTFNMKGTLSQGKYGQPNPT
+QLIINSNAILQVEGTVVIWGDLLLNSGAKINFIGNNSSITIYGKVTKNSNVTITGNYKDT
+ENKLK
+>tr|A0A1S1J4D8|A0A1S1J4D8_9FLAO
+MEQFVVSARKYRPQTFKDVVGQKAITNTLLNAIDSNHLASALLFTGPRGVGKTTCARILA
+RKINQPGYDDPNEDFAFNVFELDAASNNSVDDIRNLIDQVRIPPQTGQYKVYIIDEVHML
+SSAAFNAFLKTLEEPPKHAIFILATTEKHKIIPTILSRCQIFDFKRITVKDAKEHLADVA
+ASQGINFEDDALHIIAQKADGAMRDALSIFDRVVSYCGTNLTRQAVTENLNVLDYETYIS
+ITDLLLENKIPDLLLAYNDILAKGFDGHHFIAGLASHFRDLLVSKTPATIALLEVGEQAQ
+QMYGVQAQKCSQDFLLKGIDIANDCDLKYKLSQNQRLLVELCLMQLASINFDGEKKKLSN
+S
+>tr|A0A1S1J4J6|A0A1S1J4J6_9FLAO
+MNEKYKKESANDVVFNLEYNSERQRLIIPEYGRHLQKLIDQATAIEDAETRNKAAKYIIQ
+VMGSLNPHLRDVPDFQHKLWDQLFIMSDFKLNVDSPYPIPSRDVLQLKPDALQYPQNFPK
+YRFYGNNIKYMIDVANKWEDGEMKNALVMVIANHMKKSYLSWNKDTVKDDVIFEHLYELS
+GGKINLLQSSEELLNTTDLLRTNKRMSNKITPAGQPKIQNNKNNKGSGKPKPFQKNNNQK
+>tr|A0A1S1J4K8|A0A1S1J4K8_9FLAO
+MDKVTKERIALLHPAVRAEMTKIIDECNKVLTGRAQIRITQGLRTFAEQDDLYAQGRTKP
+GKKVTNAKGGQSIHNYGFAVDGVLIIDGKTASWDFKKDFDGDGVSDWDECVKIFAKYGWS
+WGGNWTSFKDFPHFEKIGFNNWRILQTKPQNNSNYIIL
+>tr|A0A1S1J4T2|A0A1S1J4T2_9FLAO
+MSKQLLITLFIYLTILTLNQIKNLHILTLNPQIHYYSKKKQIILFKPINVTNKIDKVQIK
+SDKIHRKISLSDFFDLQNP
+>tr|A0A1S1J4T7|A0A1S1J4T7_9FLAO
+MNKPLVSIIIPAYNRAHLIGETLDSLIGQTYSNWECIIVDDNSSDKTEETIKLYKEKDNR
+FKLILKSKEDKKGASVSRNIGLKIAKGDYIQFLDSDDILAANKLEEQIQLVSNEDEFVIS
+TCKWRRFDHISEALKLNENNPDYRNFDSAKEYFDLIGLHGGFFPSHSFLMNKKLITFSGY
+WNESLTMNDDGEFFFRVLSNCSKIIFAGNTYVLYRNNVSGENLSLLQTTEKAYSLVNSWK
+IIESLYHTKYGDSDSTFLNKKKQGIYFGIKREFPKVIRENKVFFKQQIKNDTVSLKLVKL
+KKRIFHKLKIIFKK
+>tr|A0A1S1J634|A0A1S1J634_9FLAO
+MAWFKRQEKGITTATEDKMDVPKGLWYKSPTGKIIDADELARNLFVSPEDDFHVRIGSAT
+YFEILFDNNEFVELDKNMTSKDPLHFVDTKKYAERLKDVMEKTHLKDAVRTGVGKSKGKE
+LVICCMDFAFIGGSMGAVVGEKIARGIDHAIKNKLPFVMISKSGGARMMEAAYSLMQLAK
+TSVKLAQLAEAKLPYISLCTDPTTGGTTASYAMLGDINISEPGALIGFAGPRVVRDTTGK
+DLPEGFQTAEFLLEHGFLDFITPRKELKDKINLYIDLIQNNEIR
+>tr|A0A1S1J3N7|A0A1S1J3N7_9FLAO
+MSHSPIRKDKTCLNCRHVVEQKYCPNCGQENTESRKTFHYLFVHFFEDLTHYENTFWRTI
+RYLLFKPSALTSEYLAGKRLSYLAPVRLYIFISFVTFLMIALFPGHSKETPTDFNLDVSR
+KKEVPKNIFTGDLNDLKPGDGFDKFTKEVDSVQKYAPEEKKLDSFSYWMIQKVKYVKEHN
+TKKELISKFTESFVHNIPKVLFIIMPLFAFILWLFHGKKRWYYFDHGIFTLHYFSFLLLV
+TSILFIIRRLVGLFGEESPLSFISSITDFFGGLWMFYYFFPAHHRFYGETRWISFFKSII
+LMFINFTVILFLLVFYIFYTFINLH
+>tr|A0A1S1J4I1|A0A1S1J4I1_9FLAO
+MQIIENYRYKRLLIGLKRNYFQLEKEGLAVDEIIFFKIVIKLIFFTSVSIKILFLPFTKL
+ILNGNLQ
+>tr|A0A1S1J6Y3|A0A1S1J6Y3_9FLAO
+MKKLIFALFIISGAAFAQDMEVVKGNFDFLKDQKEINTEFDYSNFTMMKEKKPEAQYVQE
+HKAELDQKAKGNGNIWEKKWISAKDQIWTPKFLEIANIVLTKEKKDLNFQENLKTPYTLI
+VTAVWIYPGWDAGIMKQPAKVTTNLKFVETANKSNVLLEITSEEAPGDQWGSNFSNETRI
+GEGFAKTAKSMSKLIVKKAYK
+>tr|A0A1S1J7Z2|A0A1S1J7Z2_9FLAO
+MIYDSLDTIPYKTFLKIVDTGNLQLLSPTETDEEVLINTWAAIYEEHENRENATPQGKKL
+FRISKEIESLEYQLKVVLFSCDALKFAYDEDLDQLLTVEYGFILRTTDEVVYYEDIAQIE
+RESNAFKVKIGVLKQHLPKIESGQQYTIDDIMASYCSILGFHIGDFNAITYNAYFGYEKQ
+VNAKIEAIKKQETTKKK
+>tr|A0A1S1J9Z9|A0A1S1J9Z9_9FLAO
+MNQELKESFEADNGNSRGVILKAKRGVRHLLVRIVILAIIAGGPLVLLSLPDLSNRSEFE
+FLLLSIFAPIVWFAYMFAETIALQMKKEEELRNINLILFFMALLIYMLVISSIM
+>tr|A0A1S1JBK7|A0A1S1JBK7_9FLAO
+MNKTVGEKLKMLRKAKNMSQEEVADSLHISPSAYARMERGESTSWAVHFKRICEVFEIAP
+EELVREEIGVKTYESLMNIDELIDYSMLGVYRKIIRKYELEIEDLKSIIKHLNKGQE
+>tr|A0A1S1JF86|A0A1S1JF86_9FLAO
+MSFSDLFDSEFKQRNKGHFSAIVRVALADGIVHPEEKNFLDKLAARLEISETEYEEILND
+PLKYPINPPYLHVQRLERLYDLTRMVHVDHHLEDQQEVMLRKLGIALGFTPSNVNYIISK
+ALSLVDKKVDGDTFVYEMQHMHK
+>tr|A0A1S1J3C7|A0A1S1J3C7_9FLAO
+MENRTFTISVYSENNVGLLNRISGIFLKRHINILSLNVSESEIESVSRFIIVVETTEKWV
+KNIVGQIEKQIEVIKAFYHTDEETIYLENALFKIASSLLFDEKQIQNIIKDSQSTIVTVS
+RDFFVISKSGRRSEIEDLYAKFKPYGIMQFVRSGRISVSKEKMEISTMLEAFQ
+>tr|A0A1S1J3T7|A0A1S1J3T7_9FLAO
+MKKVLFIDRDGTIVLEPENYQLDALEKVEFYPKAFQYLAKIANELDYELVMVTNQDGLGT
+DSFPEETFWPTQNFILKAFENEGIKFDAVFIDRSFPEDNAPTRKPRTGMLTKYIDNPEYD
+LENSFVLGDRLTDVELAKNLGAKAIFINDNDGIGSNEISSKREELDQTIVLQTMNWKTIY
+EFLKLEARSASITRKTNETDIFINLNLDGTGKSKIETGIAFFDHMLDQISRHGQMDLEIL
+VKGDLEVDEHHTIEDTAIALGEVFAKALGNKLGIERYGFCLPMDDCLAQVAIDFGGRNWL
+VWETEFKREMVGKMPTEMFFHFFKSFSDGAKANINIKAEGTNEHHKIEAIFKAFAKAIKV
+AVKRDTEKMILPSTKGML
+>tr|A0A1S1J725|A0A1S1J725_9FLAO
+MKKYIAIAVLSVFMISCKSKAVAVQNNTSEVKEITPKEEKKVIENHYNNKLDFSTLYVKA
+GARYVDDKQSQNVTAEIKIEKDKQILVSVRFLGITMAKALITPTAVSYYEKINGTYYEGD
+FTSLSKWLGTELDYSKVQNLLVGEALDDLRKGKYAQTIVDNLFRLEDEKDSNLKKSFYLD
+PEKYLLQKEEISQPSENRFLQISYADSKVFNQGILPTSIEISAIQPKGKTNISLNYNTIS
+FNEELSFPYSVPSGYKKVIIK
+>tr|A0A1S1J9J6|A0A1S1J9J6_9FLAO
+MILTVDVGNTRIKAAVFEGGTVLEIFTFEKNELEKKIKKILEKFQKCSDLVVASVGNIEK
+QSFLTFEKDLKVHFLTHEDVFPFTNKYATPKTLGIDRMVLAAGATLKFPKQNRLVIDAGT
+CITYDFIDENDNYLGGAISPGLRLRYESLHNFTARLPLLTLESPDSYIGDSTKQAIHSGV
+VNGFVYEIDGFIDEYRANFSNFIIILTGGDADFLAKRLKNTIFANSNFLLESLNQTFQYK
+IDND
+>tr|A0A1S1J526|A0A1S1J526_9FLAO
+MSILNPHNTIPKKVATEDDLDFFYLRKKGIEYIEQLGGKLWTDFNSHDPGITMLEMLCYA
+ITDLGMRTDLPIENLLASDVKEKDIPNQFFKASEVLTTSPVTALDYRKLFIDIDGVKNCW
+PAKHYKTVYVNCKDEQLSYNYQDFNELPSRLKKQFQLKGLYDLYVDFESNKLSDINNVKD
+LIRKKFHANRNLCEDLINIIKVDEYPIKICASIEIDTQADEEMVHALVLTALDGYLSTTV
+NFYSVKQMLDKGYTSLEIFDGPVLEHGFIDTKELIEAELTSEVRLSDIIKLIMNVPGVLT
+IKDISLGNCGDDEAVANQWLLCLKEYQKPVICNKSVFNYNKGVLPLNINKTQVDLYLKEI
+NDVKDKATDYSSKHKELKIPKGTYLNPNSYTTIQNDFPDTYGIGEVGLPSGATVARQSQA
+KQLKAYLLFFDQILASYFKHLGKVNEILSVSGNLTKTFFTQAVKDIKGFSELVEDYPENN
+DDYLTEILFKELDNNIERRNSILDHLLGRFAERFSEYVFINKSIYGSATDEVVLKNKEDF
+LKDYKIVSKNRGSSFNYYRQPNSNLWDTDNVSGVKKRIARLLGIKNYNRRHLSDSFVDLY
+HFIDSDNQLVYRWRIRDDKNKIVLSATTEYYDTSIANREMYFAILQIIQTREYNVEEAFK
+KGITDPQVIDNIQIHRSPSGKYSYDIINPLITDVNNKDRIIAKRYTYYSSLAKVKQSILD
+LIHFMKEVFTEEGLFIVEHMMLRPDVNQTIVDSTTFLPICTDECKSCEPLDPYSYRVSII
+LPGYTLRFANIDFRNYIEKVIKEELPAHVLAKICWIGHRKNEIQNPAENELLRFENSYKD
+YLFAKTLLNQNQPETDLIKLITSLSNLSNLYPTGRLFDCNDENENQFEKIILGKTNLGSL
+>tr|A0A1S1J933|A0A1S1J933_9FLAO
+MLKMENRLKNKENRKVNRSRFVNFLSTKCFYILASILFSLNANAQCAMCRAALGGDSNVK
+KAEAVNNGIVYLMVIPYLLVAVIGVLIYRMYQSKKKKTDN
+>tr|A0A1S1J3U1|A0A1S1J3U1_9FLAO
+MDSIFNLKGKIALITGGAGVLGSNFANVLAEQGVITGIISQSIEKANTTVAAIESNGGKA
+FAIQANVLNKEELEKAKDFIVKKYGRLDILINAAGGNMPGATISPDQAIYDLQTEDLQKV
+IDLNIIGTMLPSQVFSELFAQQKQGNIINISSAAAQRPLTRVVGYAASKAAIDNFTQWMA
+VELATKYGEGIRVNAISPGFFIGEQNRSLLLTPEGKLTPRGEKIIEHTPMGRFGTPEDIN
+GALLYLCSDLSKFVTGTILKVDGGFAAASI
+>tr|A0A1S1J9I4|A0A1S1J9I4_9FLAO
+MQTNFTHHQSAHCENGVASNLLKNNGLNISEPMVFGIGSGLFFVYLPFIKVNHAPAISYR
+TLPGQIFNKLASRLNLKIKRQKFSSVINANKALDENLKNNIPTGLQVGVYHLSYFPDEYR
+FHFNAHNLVVYGKTETDYLVSDPVMETVTTLTHDELDKVRFAKGAFAPRGQMYYPIQIPK
+DVDLKSAIIKGIKNTCRDMLAPMPIVGVRGIKFVSKQIRKWPVKHGTKKANHYLAQMVRM
+QEEIGTGGGGFRFIYAAFLQEASVILNNEELKSLSKEMTQIGDSWRDFAVEASRIYKNRS
+AKEDAYNTIADELLDIANREEIFFKKLKKAIS
+>tr|A0A1S1JA02|A0A1S1JA02_9FLAO
+MYYVFNDLFFPPVSEADEEGILAIGGDLDPERLKLAYQSGIFPWFNEGEPILWWSPDPRM
+VLFLEELIVSKSMRNVLNRKQFTVTFNKNFREVISNCQKIKREGQDGTWISNEMIDAYCK
+LNEQGIAKSVEVWQDENLVGGLYGIDLGHVFCGESMFSKVSNASKVAFIALVNYLKEGNY
+QLLDCQVYNSHLESLGCREIDREAFISILKKE
+>tr|A0A1S1J2B9|A0A1S1J2B9_9FLAO
+MEQKIHQGRNVKRFREMLGIKQEALAYDLGEDWNQKKISMLEQKDVIEDNLLKQISNSLR
+IPVEAFQNFDEEQAINFISNTFNDQSNGYNYYPTFNVNPIEKWLEALEEIKRLNLELLKA
+KDEQIKVLEKLINK
+>tr|A0A1S1J4E8|A0A1S1J4E8_9FLAO
+MKIIFVGGLFPKELRNEIESKSVGVIQYAADALQWAIVDGLDNYVDNLNIVNLASVGSYP
+SRYKDLKMKSLSFSHKSGSKDLNVGYINLTVYKFYSIYRNTKKAFKNIEFNENEIFVIYG
+IRTLVIKAAVDLKKANPTLKICLVVPDLPEFMSDNDSFAYKTLKKLEKKLLDRILKKVDY
+FVLLSDYMHEPLNVGQRPWIRVEGIFNSKDDNIIVEKEHFKTILYTGTLAKRYGILNLLN
+AFALIKDENYRLWICGDGDAKDELDEMARNDKRITSFGQIPREQVLNLQKKATVLVNPRL
+SEGDFTKYSFPSKTMEYLASGTPCIMHNLAGIPKEYFDYCFVSKEETANGLYQTIISVCE
+MDQLELNKFGERAKDFIFENKLPAKQCEKIFNMLATKHTSN
+>tr|A0A1S1J7I7|A0A1S1J7I7_9FLAO
+MKHTLKYIYSFCLLFSIFLGQAQETSDTAAPKEIVKTKPKTQTAKPAVKETKQDSIKTDR
+YGLRVGVDLYKLTRGLYDKNYKGIEVTGDFRLTKKYYLAAELGFEDKTTDDDRLNTTTTG
+TYIKGGFDYNLYQNWLDMENLITIGLRGGFSTFSQQLNTYKIYNPNPYWGEQPAIVSGQK
+YNGLTAGWIEVALGIKAKVFNNVFVGFGAQLKLLAANQKPSGFDNLYIPGFNRTYDGSFG
+IGFNYTVSYFIPLYKKKTIIPETIKKETIRK
+>tr|A0A1S1J270|A0A1S1J270_9FLAO
+MADLLAGAYLAKGTIGNVGTPGAPIASFSLVVVPSQHSVSGTVVITQAIPGPDSHIVVHV
+KGRIYATGFGKITQVVSLSGQYVQSVPPPAIGSFLANFEAHLAIDSSWNGTGGFSYWNHH
+IENVPVKSAKTPKKELA
+>tr|A0A1S1J2M5|A0A1S1J2M5_9FLAO
+MRIVLAEDNDILRKSLSFFLESKGYNVDQFSDGKDALGAIKSNSYDLILTDINMPGISGM
+EITQYVRQTLNLDIPVIILTSSGVEQTELDSFNIGANEFIAKPISPAVLLVRINKLLNVR
+A
+>tr|A0A1S1J2R5|A0A1S1J2R5_9FLAO
+MKKILFLLTASAAIISCSKVKDGEYLITGTATGIENGKTIILQGQDPTTKMAVSLDTVKV
+ENGKFEIKGKVTEPAFHTLIVQGANGPIPFILETGEITVAVDKDSIHKSKISGTYNNDEY
+VKFNEDMTKTQKGLVDFQKKNTQKMQQAQQAQDTATINSLMKQYMTLQTEVQENSKKKYL
+AYAETHPKAFISALIIQSMVNDPSTDIKKAEGLYNSLDESLKNSTPGKEIKTKLGQLKNP
+AVGASAAPVGSPK
+>tr|A0A1S1J4D3|A0A1S1J4D3_9FLAO
+MKTYTLEVVTDELVGKIGTPNRDKFEYDLQLDLIANAIRQTRKERNLTQEDLGKLIGVQK
+AQISKLENNTGNVTIETLIKVFTALKAKVTFEITL
+>tr|A0A1S1J6R8|A0A1S1J6R8_9FLAO
+MFEQIKHNMENISGIEIYPILSLLIFFFFFVGLGFWVFSYKKEKIEEMSAIPLDEGLIII
+SKDK
+>tr|A0A1S1J6S6|A0A1S1J6S6_9FLAO
+MSEQLKSQEEFLANFNWHNFQEGIDAVDEKNLLEFEELVSKTFIATDQEEVVEGVVVRIT
+DRDVIVDINAKSEGVISLNEFRYNPNLKVGDKVEVLIDIREDKTGQLVLSHRKARTIKSW
+DRVIAANETGEIVNGFVKCRTKGGMIVDVFGIEAFLPGSQIDVKPIRDYDVYVNKMMEFK
+VVKINHEFKNVVVSHKALIEADIEVQKKEIIGQLQKGQVLEGVVKNITSYGVFIDLGGVD
+GLIHITDLSWSRINHPSEVLELDQKLNVVILDFDDEKTRIQLGLKQLNAHPWDALDANLT
+IGDKVKGKVVVIADYGAFIEVAEGVEGLIHVSEMSWSTHLRSAQDFVKVGDVVEAVILTL
+DRDDRKMSLGIKQLTQDPWTDITSKYPVGSKHTGIVRNFTNFGIFVELEEGIDGLIYISD
+LSWTKKIKHPSEFVNVGEKLDVVVLELDVEGRKLSLGHKQTTANPWDQYEDSFAVGTIHN
+GEISEIVDKGATVEFGDDIVAFIPTRHLEKEDGKKLKKGDTADFKVIEFNKEFKRVVASH
+TAIFREEEEKNVKAATENTSSASTTNAPAATLGDNNDVLAALKAKMEKTEKK
+>tr|A0A1S1J939|A0A1S1J939_9FLAO
+MKNTKFIVVALFFCGAVWSQEARKTRAAIDAKVSELLSKMTLEEKVGQMTQITVTVFEDA
+QKPGYFDAAKLKKGIQEYHIGSILNVPNPGAPTLQRWQETMTAITNEANKSRLKIPVLYG
+IDAIHGASYTAGATLFPQQIGLAATFNTELVKRGAEISAYETRASSIPWVFSPDLDFPRN
+PAWSRMWESFGEDAYLSSKMAVALVDGFEGSNVGSKYSVASCMKHYIGYGSTTTGKDRTP
+SIIPERILRQYDLTIYQAAIKAGAKSVMVSSGEINGTPVHSSKHLITDILKKELGFEGVV
+VTDWKDIIYLNTRHKIAATKRDAVRIAVMAGIDMSMVPEEFTFYTDLVDLVQKGEVPMSR
+IDDAVTRILRMKFELNLFQNTVANLKDYPKFGSAEHIQEAYKTAAESITLLKNNDAVLPL
+NKEEKILVTGATANSMKNLNGGWSYTWQGENADTYAADKLTILEAFQAKLGKENVLYTAG
+ADIEKEDDAEIQKAVELAQKASKIVLCLGEKNYTETPGDISNLYMSKSQIKLALALSKVN
+KPIILVLNEGRPRLISDFEDKMSAVVQCYLPGNEGGRALVDILYGEVNPSGRLPYNYPRY
+PNSLEKYNRKHTESLADEEQNNDAKYEKSYSPQFEFGTGLSYTTFTYSNLKIDKTEITNT
+DEIKVTVEVTNSGKRAGKESVLLYLSDHYASITPEVKALKRFEKISLEPNETKMVKFTLN
+QKDLQFVNEDLKWISEKGTFTIQIANLKKDFLLQ
+>tr|A0A1S1IYK1|A0A1S1IYK1_9FLAO
+MTVDNWPKHIQKSFILFKSIFFEFLSFFSFRSILPDNKVKLTNSVKYFILAFFLVSFHSQ
+AQVQEITPRIKLLGEKLRNLDNRNQTDSISYLIDKHLTKPDLSVYELQLLHFFKANYYKI
+IGRSSDAIISLNKSIALKGEGRESLKTYYRSLYILSDLLFTKKDYKKAFYYANLCQNEIS
+PADSPSNYIVLHLIIGYYYYINYDHKKSMEEFLLTERVAKKYNPCKLAEVYVKTARVYSR
+QNRIEKAKKAITESIRVADSCNDLENKINALRTLREIMVEQGEFEAAHKTFERLDRLVGI
+EDTKIRNSRIDSFEIANKIKLKEQQNTYLKRINDNKEERLQKQKVALIASLIGITLLIIL
+LYSIVVLTKKQRITNETLKLQKEQIEVKNNDLKRLNLLHQKIFTVISHDFKEPITTLKIL
+LEKEEILKNENEIVSTYMKAIGQQLEQSDAMLTSLLDWAKMELITAQSGYSEIMLHNLIS
+AACKELGHQVKAKNITIELKVAKGTIIIFNSAVLSIVLRNVINNAIKFSYADSTIVIEYD
+HHEIIVTDSGKGIEQKKIDKLFKQKINPGLGTNLESGFGIGLYLCQELMLKNKGTLAVFN
+NESAGCTFKIILPK
+>tr|A0A1S1JCX2|A0A1S1JCX2_9FLAO
+MAKTSSSGKHKNASSLGVKGPQYNRQTGQWENTDKVGAMMQRRSPQGNRVAEDVKAKAIS
+APPKKEKPVHHQFLTTIAVEIYDFAKAKGASSQGALLVLAQASLESGYGASAIKHGDYNL
+FGVMGKPFKRSTSHGTVKDYSNLGGYQAALTDYFNKIDKNWSHFSSIIKNDTITADDIDK
+AFNTGTYYPTAKERHGGKYAYNADMDSSGANHYGEHLLKQIGGVKKRFKNSLDFQIEANK
+ERLKEINTILTGNSLLFTDPVKSTLEEEKRQLVIQNEKFNTVSNEIN
+>tr|A0A1S1IY16|A0A1S1IY16_9FLAO
+MNNTAPTFAKQDNLKFFRTLNSRVNNYFKENNIQKTGNWKLHLKAIILFAVFLTPYFLIL
+TLNMPFWAQLLLNILMGVGMAGIGMNVMHDGNHGSYSSKSWINKIMGGSIYVLAGNVHNW
+QVQHNVLHHTYTNIHGHDEDLDAGRIIRFTQNAEWRRFHKFQHYYSFFLYGLLTFNWALT
+TDFKQMKDYIKRKLSYGAPQSPTKLWTVLVITKIIYILIWIALPMILGVIWWKVVIGFFV
+MHYTAGLILSIVFQLAHVVEETSNPVPNEDGEIENTWAIHQLYTTANFAPKNKVVNWFTG
+GLNHQIEHHIFPNISHIHYGKIAEIVKQTAIECNLPYHEFKTMRGAVLAHYRHLRDLGIK
+PELA
+>tr|A0A1S1J6I7|A0A1S1J6I7_9FLAO
+MQNTIIIKVMETKKQFSSKDFHETFARPTFVMPEKLIHKNVEQAGVHNQFSTERKHPVFF
+VDLPSKNVSMTIGGLLPDQLTNRHRHTYETVIYVIEGHGFTEIEDIKVEWKAGDAVYIPS
+WAWHRHQNLSSEASAKYIACENAPQLQNLGVALREEEGRDL
+>tr|A0A1S1J720|A0A1S1J720_9FLAO
+MTDITQKILNFIDLQKGEENKKSVIENITGAVSFRGSNIWILACAIIIASVGLNVNSTAV
+IIGAMLISPLMGPIVGAGFGLGMYDFELLKKSMKNLLIATVVSLSTSAIYFYISPFKEAQ
+SELLARTSPNIYDILIAFFGGLVGVIAVTRVEKGNPIPGVAIATALMPPLCTAGYGLALG
+NYTYFFGALYLYTINCVFICIATFVIVKFLNYPVTKQLDLQQQKRVKYGITLLISLLIVP
+SIYFAYQLYIQKSYTSRTEIFIQKEFLDKDYPIIYKKIKYNTTPRRIELAFLAKKFNDGE
+IINLNKKLTEYDLPNTKLIIRQDTVNLRKDIMNQINNNQTVVDQKDILINSLRNQLALYQ
+FNTTQINNEAKILFPAVTSLKIGNYNIEEEPNKSKIIPVVLFQSKKKMDSETKQKMKLWL
+KERLAKDSVEVYQQNN
+>tr|A0A1S1J0J2|A0A1S1J0J2_9FLAO
+MENQKASSFVFSIIAIILGVVLYKQFDFEKLTFEKPALAVLYIIVFLFSVFILIKNAKKG
+SAK
+>tr|A0A1S1JBT1|A0A1S1JBT1_9FLAO
+MNNLKKGILFATLFSGLFFISCSNDSSEELIGNWVKKSAFDGPARSSATSFVIGDYAYVA
+TGYTGDVYLKDLWSYNSTGDYWEQKADLPGIGRSSASAFALNQKGYLGLGYDGTNKLKDF
+YQYDPSSNTWAQKTDFAGTGRYAAVGFQAGGKAYFGTGYDGNYLKDFYQYNDQANSWTLV
+NGFSGNKRRNATAFVIADKVYLGTGINNGVYQEDFWEFDPATEAWTRKRDIDKDTEDDSS
+YNDDYAVVRSNASAFAMNGLGYVVGGDNIKTIWEYNPTTDLWSEKTPMEGATRTDAVGFA
+INNRGFYMLGRTGSTYFDDAWEFKPLDAQTSNDN
+>tr|A0A1S1JD46|A0A1S1JD46_9FLAO
+MKVKLLTTISFFTYQLSISQSEKLLHGKVICNYTPLNKVEVINKTAKTSTTTNNLGEFSI
+LVKSKDSLLFFSKDYFFTRLKITQENIDQNNIIVNMVIKPEELNEVVITNIKFDRVKTSQ
+QNIDDIKLAKDAGSLEKYTGVYNGTITNGINFVRIGKGLSNLFSNKEDEPAKNKISKTDF
+KKLVAASIPDDFFIKNLNLKPEEKELFIEFCDADPRSKSLLENSNILITMDFMYAKNEEF
+KTLKTNIKN
+>tr|A0A1S1JFF4|A0A1S1JFF4_9FLAO
+MHDISQYQDFFIHYLKNQSIQKEPKNLYAPIEYILGLGGKRIRPVLTLMAAEVFNTPYTT
+ALPAAMAVEVFHNFSLVHDDIMDDAPLRRGQETVHEKWDLNTGILSGDAMLILAYQYFEQ
+YEPIVFRNLAKLFSKTALEVCEGQQWDVDFEQRNDVTIPEYLKMIEYKTAVLVAAAMKMG
+AIVAKTSEKEGDLIYDFGLNLGLAFQLQDDYLDAFGDPETFGKQVGGDIIENKKTYLYLK
+AREFSSPEKASELEQLFSLQLEDNTAKIATAKNIFNESGASKATQDAIEMYTFKAFETLD
+KMDLNAEKKNILRTFGENLMGRKV
+>tr|A0A1S1J4Q0|A0A1S1J4Q0_9FLAO
+METSVDHENIVKKKALKRMKNNALGLLGIAVLLFVVAVYFKIPMLQAFSEAAMVGGIADW
+FAVVALFRHPLGIPIWHTAIIPTKKNEIGENLGNFVSEEFLNREKLEIKLEEFNFATKAA
+DWLSQEENANKIASVVALNIIPGVLKTIKDEDIKRFIQTQFKEKLEAINFGDWVALALEP
+LQKGNVKEELLTNVLNVMSTELANNKDLIRKKVKASTPFLSFGLADKSITEGVFNGLADF
+LNEAKHPGSAIRIKIDEYVYNFLDKVKHSEEMREKINTVILGFAGKKEVQDYVNGIWDEI
+KRSISADLEKGEESSIKKNISGLIEGFGNGLKEDTVMIDKINNFIKNDLLSMLLNNKKVI
+GDLISSTVKSWDGKEVSEKLELEIGKDLQYIRINGTLVGGLIGLVIYAVEWTYHYLV
+>tr|A0A1S1J9V8|A0A1S1J9V8_9FLAO
+MIVDDFKNHCINNKCDIVVQKCLIEDTSYFFNEIAIGEEFNFKKDIANILNVHIRDIVIV
+GSGKLGFSLKPDNSNTGLYLFKEFDHNFNYSKKGKKSDLDVAIISSHLFDSEIKNLYDHT
+NHYDTDNLWADRNSFAKYVLKGKLAIRFLPIEFPLTKGVLQVQEKYKMNYGREVNLEIYK
+SWHFFETYHQENIKKIQVNLIS
+>tr|A0A1S1J3S7|A0A1S1J3S7_9FLAO
+MAVDKQKVIARLKVLFPKANLSQKRLDAIADKLAKKPADDADDTAIDAVINDFNDVMSIE
+DIAKDDDRTRTLEAEKQKGIEEARKKAGLDPIEKKDEKVELPDNTPDYVKLIMGKLDSVS
+TELEAIKAGKATETKKASASEQFNKSEILKRIPESVKPNWINRIDVNSETSFEDQIKNLE
+TEYGQLVQLSADTNQYAPPAGGGNPSDIKVDDAVVEGMLNI
+>tr|A0A1S1JCV5|A0A1S1JCV5_9FLAO
+MIHAEENNNYRIAVPSAFDTVFSHFYFAENKGNIPVTKTLLPTFQTILVFIFGEGASLKS
+QQNTTLEVQKCVVLGPIKQAFEYTLNPDSEILVANFKEDAFYRFFGNALLTHSLPVDPDT
+LIAENCFSLLWEELNELSDPNERVDHILEFCKPYLREQHAMTSLLTDFREKNIDPIKAVA
+SETNQSERNVQLNQKKFFGYTIKEISRYDRFLKAVEVIQKDILRDSKTDWLAVVEQCGYY
+DQSQLIHDFKHYMNISPTQFLKFQSDICSLKKF
+>tr|A0A1S1IXV7|A0A1S1IXV7_9FLAO
+MEKLIPFTVNDLAKITNHRSGEIKFGEKMIVIPKGVDKIQFLKESEAKYVLFGIPEDIGV
+RANYGRPGAASAWESAMKSIANIQHNRFSKGSQIIVLGQLDVAAEMRDVENLDFNDIDDR
+SKLSQLVEKIDKEVSHIIFTLIKAGKTPIIIGGGHNNAYGNIKGSALAKGKPINAINFDA
+HSDFRILEGRHSGNGFSYAYEEGFLKKYFIFGLHENYTSKSVLDIIKKLEDRVRYNTYDS
+VSIRREKDFDREMALALEFIRTDSFGIEIDLDALPNIASSAMTISGFSVEQVRQFISFFG
+QHKNATYLHICEGAPDLADSPNNNLIGKLIGYLVTDFIKANNEKI
+>tr|A0A1S1J332|A0A1S1J332_9FLAO
+MLRSPFFCFIIFLFLFSCKEEKTNITSKASIQKEAFRLRDKAIENFKEQNFNTSFYEFNK
+SKQLYEILKDSANIGYVLTMIGCIQQVNGDYYGSKETVTEAIVYVKKKSMYAADINNALG
+IADKELSQYNDAIFYYKEAVKDYPTALQKLLPLSNIAPVYIHQKKYPQAIAILEFILSTK
+LLDDKSQEINKARIQDNLGYSYFKNGIDEKGFHLMNEALQTRNEIKDTYGSIESYLHLAD
+YHAKKDIQRSDENALAAYNIATKLNSIDERLEALQILISNDHSPQNHKYVQKYFKLNDSI
+IKVRNNFKNKFAKIKYDAKVEKDENAKLRLEKAETQLSLQKAKYLRIVYIIIFVFLVILI
+LIVVRYYKNKNKAIEFKTSYMTEARIAKKIHDELANDVYNVIAFAESQPLSKENTRENLL
+QKLDDIYGRVRGISRENNKIETGADFTYSIKEMLSTYKTNERNIIVTNLESINWETINDT
+KKITISRILQELMVNMRKHSNASIVGIKFENNEKSIAINYTDNGKGFEKATIAKNGLQNM
+EQRIQAVKGTITFDTAPDKGFKANLSIPK
+>tr|A0A1S1J858|A0A1S1J858_9FLAO
+MKENEITNFDFNPQLRELVKNYCEMKYEENSITDDWHLWQEYQLLLKDNKLNDLFEVEYL
+LNSWENG
+>tr|A0A1S1JBU9|A0A1S1JBU9_9FLAO
+MKKLFLLIFFFGITSTGFCQLKSRTFEEVAALQQTQKRKIIVFIHTDWCQYCQRMKNATF
+KNQEVSEKLNSDFYFIDLNAEEKRAITFNKHTFKYKPSGNNVGVHELALQLGTVNGQLVY
+PVLCVLNEEYEIIAQYNSYLKPVDFNLLLEKLQK
+>tr|A0A1S1J6Z7|A0A1S1J6Z7_9FLAO
+METALLLEKNAVENLLPQKFPFVMVDKMYSFTETSLVAGLKIENDNIFSDNDTFLEAGLI
+EHMAQSVALHTGYQFFLKNETAPTGYIGSIKEIEIKKLPKVNDTIQSTITILQEFAGITL
+VDIVTYLNNEEIANGQMKTVLAK
+>tr|A0A1S1J9E8|A0A1S1J9E8_9FLAO
+MQISRLMLLIAIFFISLQGYSQKDKVNLTGVIVNHLGKTAEGVSVALKGTEYSTLTNNKG
+EYKISAKPGNYVLLVTHVGYKTTETAIFLKLGGKPTQNITMEEDMAALNEVAVTGKSKVQ
+RVREQAYNITAIDLKKTYNTSADLNQVLNKTTGVRIREYGGLGSAFNFSLNGFSGNQVKF
+FLDGVPMDSYGSALTLNNIPVNMAERIDVYKGVVPIELGADALGGAVNIVTNKNVNRYID
+ASYSYGSFNTHRAAINTRFSGRDGFIANINAFANYADNDYKVDVSVVDKNTSKFLPEQKY
+KHFHDAYKSGTIMAEAGFKNKSFADYLLVGFAVAGNKKEIQQGRTMQKVVGQAFTDSQSF
+ITSLKFKKSDLFTKGLSLSINSTYALVNNRSIDTSSRVYDWTGNYIYRQFAGANDKGELG
+NKTIYVYDEANAQVTTNLKYQFNEQHSLAVNYSYLGYKRKETNEYLKVVQLGEPTIDKNI
+LGLSYNFSGLDNRLAVSGFGKMFDLATQMIAHNITQSSSSTNYGYGATSAYHLTDKFQIK
+GSYEHAYRLPSATEMLGDGLTINSNIGLRPESSDNANLGLAFNTQNSKNHFNVETSIIYR
+EAKDFIREKQEGDKTVFENLQNVQITGIDGVFRYGYKDLINFEVNGTYQKSLNKNKYKAG
+TTSPDALYDAQLPNVPIFYGNADLTFNFKNIRHQDDRLSLNVSANYIDAFYLTWPVLGSL
+ETKKAIPEQFTQNAMVAYSFLNGKYNLAFECRNITDIKVYDYFKVQKPGRAFSVKFRYFL
+Q
+>tr|A0A1S1J419|A0A1S1J419_9FLAO
+MQKYIDQLNEAQRQPVLKKDGPMIIIAGAGSGKTRVLTIRIAYLMAQGIDAFNILSLTFT
+NKAAREMKHRISDIVGASEAKNLWMGTFHSIFARILRAESDHLGYPSNFTIYDSQDSARL
+ISSIIKEMQLDRDIYKPKQILGRISNYKNSLITVKAYFNNPELVEADAMAKRPRLGEIYQ
+QYVERCFKAGAMDFDDLLLKTNELLTRFPEVLAKYQNRFRYILVDEYQDTNHSQYLIVRA
+LSDKFQNICVVGDDAQSIYAFRGANINNILNFQKDYEGVIMFRLEQNYRSTRNIVEAANT
+VMEHNKTKLDKVVWTANDFGGKIKVHRSLTDAEEGRFVASTIFEQKMQNQLHNGSFAILY
+RTNAQSRAMEDALRKRDIPYRIYGGLSFYQRKEIKDVLCYLRLVINPKDEEALIRVINYP
+ARGIGDTTVEKLTIAANHYKRSIWEVMVNIDKIDLKLNAGTKNKIRDFVTMIQSFQVIDQ
+NQDAFYVTDHVAKKTGLVQELKKDATPEGMAKIQNIEELLNGLKDFTEGQKEVDGARGAL
+SEFMEDVALATDLDKDTSDEDRVALMTIHLAKGLEFPHVFVVGMEEDLFPSAMSMSTRSE
+LEEERRLFYVALTRAEHQAYLTYAQSRYRWGKLTDSEPSRFIEEIDGQYLEYLTPAETNY
+RYKSPIDGDIFGDIDKSKLRLVKPVGSTPPKHVTANEPKSDLNIRKLKPVTGTSPNNGAA
+NLFDNKLTIGNIVMHERFGKGEIVNMEGVGADKKAEIKFEVGGIKKLLLRFAKLDVVG
+>tr|A0A1S1J5F5|A0A1S1J5F5_9FLAO
+MRIKFLLIAFLTSVIGFSQSVNDYKAVIVPLKYDFLKTENQYRTSTMTKANLNKAGFQAF
+YANEILPEGFGDRCDLLYADVKRENGFLITKLFVEFKDCYGKVIFTSAIGKSKEKEYETA
+YRECLDLAFVSINGLRYKYNGKSANTVKSSIPATPLTTAVVAAKVAEVTPVVDLKDPNLL
+YAQPTENGYQLIDKTPKVVMKLLKTSRPDSFIAIKDGVQGSLNAKDNQWFFEYYKNDQLV
+SEKVSVKF
+>tr|A0A1S1J7E6|A0A1S1J7E6_9FLAO
+MKDEEDDNIIPGDDENNSEENLDNIQEGDDDEIIDVDAKHFEGAHFYENQEQEGEDVITK
+VTGMYKDWFLDYASYVILERAVPAIEDGFKPVQRRIMHSLKELDDGRYNKVANVVGHTMQ
+YHPHGDASIGDAMVQIGQKDLLIDCQGNWGNILTGDGAAASRYIEARLSKFALEVLYSPK
+ITDWGVSYDGRRAEPNNLPVKFPLLLAQGAEGIAVGLSTKVLPHNFNELIDASIKILKGR
+AFTLYPDFMTQGIADVSNYNDGLRGGRVRVRAKIAQLDKNTLVITQIPFSTNTSSLIDSI
+LKANEKGKIKIKKIEDNTAADVEILIHLFPGVSPDKTIDALFAFTACETSVAPLGCVIED
+NKPLFIGVSEMLKISTHRTVDLLRQELEIQLEELKNKWHFSTLEKIFIREEMYIDFKLYS
+DRESLYKYLYDRFEPFKKSFVREINDEDLQRLTQIPMIRITRFDSDKADDFIAKLEDEMK
+EVEYNLENLTDFAIAYFTKLKEKYGKGRERQTELRVFDNVEATKVVLRNTKLFVNREEGF
+VGTSLKKDEYVADCSDIDDVIVFLRDGTMMISKVDAKTFIGKDIIHVAVFDKSDKRTIYN
+MMYRDGKSGPSYIKRFNVTGVTRDKAYDLTNGTNGSQVVYFSHNPNGEAEVVTILLRQIG
+TIKKLKFDIDFAKLAIKGRGSKGNLVTKYPIKKIELKEKGISTLLPRKVWFDDTVKRLNV
+DARGELLGEFKPSDKILIISQAGKLKVIIPELSTHFEEDMIVLEKWKPKKPISAIYYDGE
+KERYFLKRFLVENEGKEESFITDHPNSQLEIVSTDYRPLAQLVFAKVKGVQKEDLHIDVE
+DFIAVKGFKALGNQLTSDKLKQVNLLEPLPYEEPVEEVPERVIADDDDAVETELDDDGQI
+GLVLE
+>tr|A0A1S1J8U2|A0A1S1J8U2_9FLAO
+MLSRQHKLLVMKIVSLFSVVRGYNIPIIVLAQYLSSIFILAPEKRALDILLDFNLFLIVF
+ASAITIASGYIINNFYDSQKDLINRPNKSMLDRLVSQKTKLSVYFTLNFIAALMALIVSW
+RAFLFFSVYIFLIWFYSHKIKKYPIVGNLCAAFLAVVPFFAILLYFYNKISFEEIENHMS
+HFMVISSHAVFLFLLLLIREMIKDLENLKGDLANNYRTIPILYNETVSKQIITVLTILTV
+VPVYILINIYDVGYMDIYFYVCFGILLFFLIYLWKSNSKEQFLLLHNILKFLIVSGVFCI
+VLINPAVLWHGKNLLLKS
+>tr|A0A1S1J2D1|A0A1S1J2D1_9FLAO
+MKRNGSVFSEEEIEKFRSETIGCKNVNHLNNAGAGLMPDVVTRSILEHIKLESEIGGYEA
+AALKTDVIKEFYAQAGKLVNCNPSNIAFTASATDSYTRALSSIPFLRDDVILTDNDDFIS
+NQIQFISCQKRFGIKIVRIKNAEAGGVDLKDLEEKLFSLQPRLLAITHIPTNSGLVQPVK
+SVGEIYNRYRKVHTDKTWYILDACQSAGQMKLDVEELKCDFLSITIRKFLRGPRGTGFLY
+VSDKVLESGLEPLFIDMRGADWIEKDEYKQQPDAKRFEDWEFAYALVLGSKAAIEYCLSI
+GEDRIWRQIQLLSKYMRDELAKISKVRVLDKGPELGGLVTFFVEDSQPKYIVDELLKRKI
+NVVPSFRNFAVIDFDEKGVKWAVRASPHYYNTFDEIDLFIEAVKEIVSI
+>tr|A0A1S1JCU7|A0A1S1JCU7_9FLAO
+MKLENIPNPIIIQEFITESGVSYSSLPLSFTLSGLPLYSAPIVLVNHALTGNAEVTGANG
+WWNDLIGEEKTIDTHKFTVLAFNVPGNGNDSFIIENYQDFTTRDIARIFIKGLELLNIHQ
+LHTIIGGSVGGGIAWEILALEPNITQNLIPIATDWKSTDWMIANCYLQEQILNNSSKPIE
+DARIHAMLCYRSPESFKEKFQRTINTNRPVFNIESWLAHHGEKLQKRYQLASYKLMNQLL
+KTIDITRNREDFETLLSKTDAAIHIIGINSDLFFIPKENRETFQELKKFKDNVSYSEIDS
+VHGHDAFLIEYKQLDHLLADIFKAETIEK
+>tr|A0A1S1J1L6|A0A1S1J1L6_9FLAO
+MTLFLGACSSEESYIYYSYKKTTITRVDRGNRISFYYGKYKKDEPLPQSYIEETYSGFDG
+GMDAFLIVKDDGKVEIVPVGGLFKTINSKDNLFLNEFKSNLDYINWEKSIKGNYLNACRV
+SNVLKVEIRLNRENNSKVKAVYP
+>tr|A0A1S1J2T5|A0A1S1J2T5_9FLAO
+MNKFITAVTLFLFNLLLSQAQSTTLKAGETAPDFKLKNVDGKEVSFASFPKAKGYIVVFT
+CNTCPYAVAYEQRIIELDKKFKAQGYPVIAINPNDPEASKADSFEKMQELAKDKKYPFPY
+LFDAGQKVTDQYGAKRTPHLFIVSKTDKGNVVEYVGAIDSDPEGTKTEKTKYAEEVIAAL
+KSNKKPAVTQTKEIGCTVKRKAKA
+>tr|A0A1S1J6Z0|A0A1S1J6Z0_9FLAO
+MKIGIIGIGSLTLKLAIRSARAGYKITLHNPQGNSLIRESVKTMGATAALGTLEQAAAAD
+IILLFLPKDDLESVLPNLPDMSGKIIVHTSSLIFDPGSLLSGITHGMTYRITVCLIPEAH
+IVKLFTPVSLKPAVKTTAHTNRQELFFISSHKASGNGIRNFLKTLDFLPIDLTGRLKVQN
+TAMNLKSISAPPAGPFADQLN
+>tr|A0A1S1JBN1|A0A1S1JBN1_9FLAO
+MPKPIILFFLFCFSNVFAQSKASINGNLKSSEHENLVGASISLKTAIQQYYTLSDSVGNF
+SQQLSPGPVEIAINQLGYLTKIINLNFEKDTVLSIVLDKDVSHLKEVIVNNDKKSPITTL
+SGGKLVFNLKELTSVPTVLGTTDIIKLLQLTPGVQNSGDANGYLYVRGGDPGHNAILYDG
+TPVYGMSHLLGIFPFYNTDHIKGVEFDKSSSNAKYGGRLSSTTLLIPNKKIPSELGIQGN
+VGILASQLTLTAPVGKNSGLYISARKTYIDEIVAPLLRSGSENNDVQNMKYGFSDGNLTF
+ISQLSKNNLLSVDAFVSGDELKIKDGNLALQTSLKWSNVTISPTLITAVSPNVSMSNALY
+FSQYSNELNMEQATIEFGVSSYVKDFGFNNAFKYQIKNVPVESGIQYVHHNLQPQKVNVE
+NLTDANNTFQNSTINANEAAIFTTVRPRFTDRLSAELGIRVNYYTSGSRDSYLHFQPRVL
+LNYQLNEKYSFYGSYNRQYQYLSLITTSSVGIPTDFWIASSDGIKPQSSDEFSIGSNQNI
+SKNFSTSLGGFYRSMKDLLEYPYGITQFNEVTTFKNDLLTGKGKAYGLEVMLRKSNGKFT
+GWLSYTLSWSDRNFEELNNGKTYFAKYDRRHNLSIVGMYDLNAKWNFGVTQLFGSGNRFT
+MPTSWYFINNNPVKEYSGYNNAQMPNYIRTDLSVNYFFLKTNKKESALNFSIYNTFNIKN
+PIYVVLSVKENKDKNSVIVKQEEKVLYCILPSVSWRFKF
+>tr|A0A1S1IYM2|A0A1S1IYM2_9FLAO
+MKIRCLLVDDEPLAINLLQNHISKLDYFEIVGTCPNALKAAEVLRTTAVDLMFLDIKMPQ
+ITGIDFLKTLKNPPAIIFTTAYREYALESYEHDIVDYLLKPITFDRFFKATDRYLRISGP
+SNTKIITPPLESFIYIRSGTKFHKINTDSVLFIESVKDYIVVHQKEGIKLTSKYKIGDIE
+AELQGKDFLRVHRSFIINLKNITAFTAYDVEIGSIEIPIGASYKEYVFKILKGS
+>tr|A0A1S1IZR0|A0A1S1IZR0_9FLAO
+MKRIGIVLWLFSNIVLAQNHITADTSYTVNSTYTKLIKKYPFIKIAEAKNKANVIQMENI
+IYHKSQNRALHLDAYWNKTENTNPGVILIHGGGWKSGNKNQMQVLGQEISSKGYSCFAIE
+YQLSPEAKYPQAVYDVKNAIKFIKENAKEFHVDPNKIAVLGCSSGGQMAALIGTTNKNSA
+FEDPANKSRSSAKVNAIIDVDGILAFKHPESEEGEMAAFWLNGTYQEKRENWEKASALSH
+TDKNTPPTLFINSSFDRFHAGREDMIAILNQNKIYNEVRTIKDSPHSFWFFQPWFEETAQ
+YTTQFLDRIFKQLQ
+>tr|A0A1S1J8X2|A0A1S1J8X2_9FLAO
+MEYSGQKLDKYYIKKVDADKKSIYCHHDLMGELFVPTHKHDKAQLLYAEGDVVFVTTETK
+TYFLPARHFIWIPSGVEHSIEPKSENVTMRNLYFPVEKDENEFYKNEGIYPVNNLLLQMM
+LFTNRWNGDLEKGTPNFTIAKAIKAILPQICTTNLPLGLPQPKDKRLGKILRHIENNLGE
+TILFADVAHEFGYSERSLYRLFQKDLGMSFIQYYTIRRILKAIELLLERKLSVKEVAEEV
+GYNSVPTFSNTFFKILGQRPSDYLNGEEILEQK
+>tr|A0A1S1J1K4|A0A1S1J1K4_9FLAO
+MKTERKPVFVAFSSQKGGIGKSTFTALAASNLHYRLGYNVAVFDADFPQHSLMKMKTRDL
+SMVMENDFLKKAAFRQFTTINKKAYPIFQHKAEGVLQAAYDFIELSSDRIDYIFFDLPGT
+VNTPGILKALAGMNHIFTPITADRVVMESTLIFTQLMKDVIMKKGETSIKTINLFWNQVD
+GRERTPLYEVYTKLISELGLSLMDSQIMNSTRFRKESEADSRSVFRSTLMPPDERLMSTC
+RLDQFMIEFLRIIQL
+>tr|A0A1S1J2A4|A0A1S1J2A4_9FLAO
+MPVLNLNSKTESSKDFNFSTQLQDKIDSKTKPIGALGTLEILAFQMGTVFETLNPKIINP
+FIVVFAADHGIANHGVSAYPQDVTRQMVTNFLEGGAAINVFCKQNDIQLSIVDAGVNYDF
+PTNANLINAKIAKGTQSFLHIPAMSEAELQLCFEKGKSIVEDIARKGSNCIGFGEMGIGN
+TSTASVLMSLLTGFSIEECVGKGTGVEDEKLLQKQDLLRKAIENYTGPAELKQQLAYFGG
+FEIIQIVSGMLTAFENNMLLLVDGFICSTAFLIASKINPAIHKNAVFCHCSAEKAHQKLL
+DYLNAKPILNLDLRLGEGTGCAIAFPILKSAEVFLNEMASFESAGVSRK
+>tr|A0A1S1J628|A0A1S1J628_9FLAO
+MSKLTHKNVHNYFKLNGYHLNGKDLCRIGYSYIKEGDVYEKAIGEFLLDWFDKKEFIEMT
+TSGTTGLPKLVRLEKQAMIQSALATGDFFGLKPGDKALLCLPVQFIAGKMMLVRSLILGL
+DIDVVSPSTTPLALNRTKYDFVAMVPLQVQNSVEELKNVKKLIIGGAKIDSALEEQLLPL
+KTEIYETYGMTETITHIAAKRVGEKAFSILPNVKIDKDDRDCLVIHLASVSKEPIVTNDL
+VELVNENQFVFLGRIDNVVNSGGVKLIPEQIESKLIGKINSRFFVTGVPDTTLGEKLILV
+IEGEKQEFASDFFDVLGKYEKPKEIVFVPKFKENENGKLLRKPSLV
+>tr|A0A1S1J7G9|A0A1S1J7G9_9FLAO
+MISKKIIAGLLLLNTFFVVAQEVNKSDANGKKEGVWKGTYEVSKRPRYEGTFSHGKETGV
+FKFFDDTKKGDVVATRDFTANDGSSYTIFYDQNKNKVSEGKEIGKSREGEWKYYHKASKA
+IMTLEKYKAGKLEGARIVYYPDSKIAEEMTYKEGLKEGVYKKYGQNGILLEQSTFKNNEY
+NGDAVFYDSDGVVASKGKFTRGKKSGMWQFYFKGKLTKEVNMSDPKSSYQADSKPKTE
+>tr|A0A1S1J7V6|A0A1S1J7V6_9FLAO
+MNIHEKYIKRCIELAQNGFGTTYPNPMVGSVIVYNNQIIGEGWHKKAGEPHAEVNAVRSV
+KDKSLLSKATIYVSLEPCSHFGKTPPCCDLIIEHKIPHVVVGTVDPNEKVAGKGIKKLIE
+AGANVTVGVLEKECYELNKRFFTFHQKKRPYIILKWAESQDGFLSPEKQKNAEREPIWIT
+NSYSRQLVHKWRSEEQAILAGTQTVIDDNPKLNTRDWSGNNPVRVILDQNNRISKDSFVF
+DDSVKTIVFTKSETSLPTENTTFTVIDFERSIVPQITTALYQNQIQSVIIEGGAKTLQSF
+IDQNIWDEARIFIGKTSFKNGTKAPLIPKDNVTKTNILDDELLNIRNHD
+>tr|A0A1S1JAG8|A0A1S1JAG8_9FLAO
+MNPNKTNIQSYCTIENNEIVLNGTSIFKIELTNFSDFSKQAYRNFDIQYPKFFKMDALSK
+LAFLGAELLLSPITSDEKENNIALVLANKSSSLDTDVKYQGSISDKENYFPSPAVFVYTL
+PNICLGEISIRHQLKSENSFFIFDAFNTEFMSNYSAILLNTNKADRVLCGWVEFFNDDYK
+AFLCTISKEESTKYTNETINTLYNK
+>tr|A0A1S1JAH6|A0A1S1JAH6_9FLAO
+MQQLNTSIKHHLIVGALISVWLFVFAFIIRPFDDGTINFKSWLLISLGFSVLAFLCYSIV
+GFVQKSIYKKISKWSVSLEIASIVFFYLIYLFGTYTYYKSPILNGGYTFTAFFSIIFIKV
+ALILTPVIVLVRRYLLKLIPIKEDFLVIKGENKLDVLKIKKADLVCISNAQNYVEIFYLE
+NNQLRAKLIRSSLKKVQEDFDFLLQIHRSHLINPLHFKSWSDQNTIVLTQIELPVSKSFK
+GNLLAL
+>tr|A0A1S1J3L3|A0A1S1J3L3_9FLAO
+MPRYQENDLPKAKLDSNSLQKALRIFKYGKNHKWKFFLGLIFLLLTSATALAFPKLMGML
+VDCVTNKNLNRANEIAVGLMVILTLQAIFSFFRISLFVNFTENSLSNIRFALYENLVKLP
+MSFYSQKRVGELNSRISADISQLQDTFTTTIAEFLRQLILIIGGFVILGNISPKLTLMML
+AIVPVVAVAAVVFGRFIRKYGKKTQDKVAESQVIVEETLQGISNVKAFANEWYEIQRYKN
+KIKEIVKIAIKGGQYRGYFASFIILCLFGCVVAVVWYGITLTIKGEVEGVGDLISFVLYT
+TFIGASFGGIAEMYAQIQKAVGATERVFELLEETPEDINAKTRTTPIEKIKGNLSFKNVA
+FSYPSRKEVEVLKDVNFTAEFGQKIAIVGPSGAGKSTISSLLLRFYDRTSGDIIVDGKSI
+YDYDLEELRGNMSIVPQDVILFGGTIRENIAYGKPDATNEEIIAAAKQANAFNFVEGFPE
+KFETLVGERGVKLSGGQRQRIAIARALLKNPSILILDEATSSLDSESEKLVQEALEVLME
+GRTSIIIAHRLSTIRNADKILVLDHGRITEEGTHQELINLENGTYKNLSNLQFSNS
+>tr|A0A1S1J847|A0A1S1J847_9FLAO
+MNLSKTNVLFMAACTGLIVANLYYCQPLIVLIANEFKIPEASAGTITYLTQAGYAIGLFF
+MVPLGDKIERKKQILITTFASVIALIIAATAKSFFLLQVASLLIGITSIVPQLILPLAAS
+LSAPEQRGKVVGTIMSGLLVGILLSRTLSGFIGQVLGWRSMFYIAAGICLLIFFVIQNKF
+PVNKPQFEGTYGQLIQSLFTLIKTQPVLREATLINVFSFAQFGAFWTTMVLLLSGEPFGF
+NSATIGLFGIVGASGALAAPLVGKMGDKGNSRIAVGYGCLLILISFLVFYFSIESVIGIA
+IGIVFIDIGIQGVHISNQTRVYSLLPEARNRLNTVFMSFSFLGTAAGSAYGLLLWKLGGW
+HAVTIGCVGLSALAFTVYGLTYKSKSKKQKA
+>tr|A0A1S1J3G0|A0A1S1J3G0_9FLAO
+MKNILKHINTSSFAHLAKDALRALRLNKLALALLFATTLTTAQQKISLEKAIELAKSNNI
+DLKIADKEIEKQTVLKKTAFQADPLQVQYQGGQFNSADYDHNVSVQQFFPLGNVTKANRQ
+LQEELAKLAEKRKALSTYEVEKAVTLAYYQYLYGVSIQKLNSELNEIYTKFLKNAELRFK
+TGESGNIEVISAKAKVKEIETQKAQIEFDLAIYQKQLQFFVQTDESIIPDDQTTLQYAIV
+KGDGTSKAETLTTDFYQQQISVYQKEANTHKAMRTPKVGLGYFAQTINTQSLFQGFTAGL
+QIPLFGGVNTAKAKASAISISQSQLALDKNKLTLNLQKQELQNNFEKQQKAMDYFQKEGL
+QYADQIISTAQKSYANGDLSYWSYISFLNQAIDIKKQYTEATHNFNQSAIELQFPTIKNN
+>tr|A0A1S1J5W3|A0A1S1J5W3_9FLAO
+MLKLNAKIKVYETVRLIPSPKFYEFTYVKNIEINSSYKSLTDTATIVMPQKVYTDTKGFD
+QNLFANASGKQKTIHDFFKVENFIEIFLGYDGDYKPAFRGYITGVQSDTNATITCEDLMY
+AFKKIKAVDNTDAQDKNDALNVVATNPTTNVENFNPKTFLEKRIKPLNLPLKIDALDENL
+GNLMINRGQTLAQVFEMLKDKGIYTYFKMEEAQPVLTITNNPQKHTTGELSSFIDRNFIQ
+SPLAGAIVKKLINQGLQLLSSQLNKTIQAASGNFLGKARFRFRYNIIEDKLVVVKESTKN
+TRTRVEKYFKNSNTPIYIELGDPNGQLVKTHVLHSDSEDLPKDAVNFKNTTTKVTSELYQ
+YAALRAMESKPSGFEGSFLTFGEPFVRPTDKVILENAKDKEKNGAFQVEKVVRTYGENGY
+RQRIYIGRRVEV
+>tr|A0A1S1J7B4|A0A1S1J7B4_9FLAO
+MITKASLQDIPALTVLINSAYRGETSKKGWTTEANLLEGKRTDEQEMTEIFLDPKNTILK
+YTEKDHIIGSVLLVEKGHQLYLGMLTVSPELQNSGIGKKMLAEAENHAKALGLSSIIMTV
+ISVREELIAWYKRHGYVDTGEREAFPVSEIHVTISEKPLEFIYLEKVI
+>tr|A0A1S1JCL7|A0A1S1JCL7_9FLAO
+MLIKSVNGKAPLIPEDCYVAENATIVGDVTFGESCSVWFNAVIRGDVNFITIGNKVNIQD
+GAIIHCTYQKHPTIIGNNVSIGHNAIVHGCTIHDNVLIGMGAIVMDNCVVESNSIIAAGA
+VVTQNTVITSGSIYAGVPAKKVKDIDQSDFAGEIERISNNYVMYSGWFKNEETL
+>tr|A0A1S1JE26|A0A1S1JE26_9FLAO
+MNKKVYIVLLNYNSSADSIECLESILKLKYTNYQVIVIDNSEKSQYFEELKLWAQGTHIP
+KHEFFKNHTHPLEKKPLSFLSIDEKDLVSETKQEKILLVKAERNKGFAAGNNLALKYILD
+QKKMDSYVWLLNNDTVIEKNVLTDIISEIEKQDISGKINIYGTALLEYDNPSKVQSLGGL
+YHSGTGLTTHLGEGVLIDEAILNFDKIVQNVSYPVGASMLIKCNDLESIGLLSEDYFLFY
+EEIDWASRAKKKGGGVKILPVFGVYHKQGNSTKSKFNNRKSEFIDLISLDSRIIYAKKYN
+RKNLIIVYLSILTLTIGNRIWQRNFKVIPKILKLLFSKSKKLS
+>tr|A0A1S1JEL9|A0A1S1JEL9_9FLAO
+MKIFITGISTDVGKTVTSAIVVEALEADYWKPVQAGDLDFSDTHKVKSQISNSKSQFFPN
+AYELNTPASPHLAAEIDGLTIDLKKIVEPRTNNHLVVEGAGGIFVPLNETDSIIDLIQTD
+YKVIVVSRHYLGSINHTLLTVEAIQNRGFKVAGIIFSGSENKSTESLILNKTGIKCIGRI
+DEEPYFDQNVIREYADLFRENLLNL
+>tr|A0A1S1J8N6|A0A1S1J8N6_9FLAO
+MDYKKYTEANRIAWNEVNPMHQDFKKRYKSKFTLEDFSTLDENLLEVLNKITFQNKSILQ
+LCCNDGEELISLKKMNAGTCVGIDISDEAIDSARFLNDQLGLDCTFHVYDVYEMDEIIEN
+EKFDIVLMTVGALVWLPDLNQIIKKISKALSPEGFLVIQEQHPFSWLIDEDMKLSEEENY
+FRKEPLKEEGGLDYLGKTEYTGSTNYSFNYTFSDLFNAIADNGLSLYKLFEYANDISNLK
+EDLEKKELSYPLSYICIAKKHKS
+>tr|A0A1S1JAC2|A0A1S1JAC2_9FLAO
+MKKFLLLLLICFVQITFSQTNKESEKTTASSISNDNTVYDLKGIEEKPEYPGGVTEFTAF
+LNRNFIKPAEKPTLTGKIYFTFIIEKDGSVSDIKIIRDLGFKTGDEATRVLKSAAKWKPG
+KHKTKEVRTLNTGAITIS
+>tr|A0A1S1JCE8|A0A1S1JCE8_9FLAO
+MYSILKTQGVLPLVTQINIETAQIVLQSAADAGIKIIEFAARATDAKEVFSQMIHFKKAN
+NLEVKIAVGSILSVQDAETFHQLGADCIVCPHTDPEIGNYCFKNNIYWIPGAATLNEILH
+ANKLGAEIVKLFPADKIGGPGYVKAIRAPFPNLKIMPTGGVTLEESNLKSWFKSGVVCVG
+IGSNLFTKEMMLDLNYEQSLQAFQNLIEVVKKTRN
+>tr|A0A1S1J0S8|A0A1S1J0S8_9FLAO
+MRTLENKKPIAQSSSSAFFGPKIQKKLKTGTVGDQFEVEADRVADKVVNNNSSGGSLLQS
+KENVQQKPIAETISSVQSKEIKQEEPVQKKSDKKEEEKPVQKKSDKKEEEKPVQKKSDKK
+EEEKPVQKKSDKKEEEKPVQKKSDKKEEEKPVQKKCADCENEEKVQSKEQKEEDKAVQKK
+EQNPDAEIENNELEGKLDHSKGSGNDLDKKTKKEMESGFGADFSDVKIHTDTNAVQMSQE
+LGAQAFTNGNDVYFNKGKYNPDSREGKHLLAHELTHTIQQTGAVQKSVEPSATAAEDLES
+PRFKGDYKLEQTHDDLDYLATGCKGEPVQKVQSGLMDLGYQLPKFGADGDFGSETRAAVF
+QFQSDNGLSYDGVVGVQTIGRLDDIYVGKGSGPGKDKKKKPPKKKDKKTCDITNIFHFSS
+DPVHIETLQTDGDCKSFSISLTTTRNKNENPCSSYSVEIIDSTGKSLMKPTSFKIGGTVP
+INFTAPTAGKFSMIIGTPASCGENAFKGVGSKHRH
+>tr|A0A1S1J5N5|A0A1S1J5N5_9FLAO
+MNKNAKIYITGHTGMLGSITLDLFKEKGYSNIITTTHKTLDLINQQDVDTFFEKEKPEYV
+IHIAAKVGGIKANIDNPAVFLYDNLMIQSNVINSAYKHQVKKFVFIASSCIYPAASPQPM
+REEYLLDGKPEPTNEGYAIAKIAGIKLLESYNKQYGFNGISLIPSNLYGPNDSFDLNHAH
+VLSSLVKRFTDAKTKNDPSINLWGTGIARREFLHVEDFSKAILYFFENYNSPNFINIGPG
+TDISIKELAVLISSKVEYSGEILWDDTKPNGMLKKCMDVSNMVKEGFKPAKSLEKGIEEV
+IESYKKLK
+>tr|A0A1S1J9K3|A0A1S1J9K3_9FLAO
+MALLTPLLSGFLAAFIGIIPPGLINMTAAKVNLKEGKKNALWFVAGAVLVIFFQVSLAVF
+FARVIDNRPDVVTLLREVGFVIFSVLTVYFLFIAKEPKAKKSKIKKTSKKSRFFLGMLLS
+GLNFFPIPYYVVVSVTLASYHLFAFENNIIFTFVFGSVLGSFAALYSYIGFFGRIEKKTD
+YLMKNMNTIIGSITGLIAVLTLFNILTYYFS
+>tr|A0A1S1J9D8|A0A1S1J9D8_9FLAO
+MKQYLDLVRHVLDNGCQKGDRTGTGTKSVFGYQMRFDLSEGFPMVTTKKLHLKSIIYELL
+WFLKGDTNVKYLQENGVKIWDAWADSNGDLGPVYGHQWRNWNSEEIDQISELITELKTNP
+NSRRMLVSAWNPSVLPDTKKSFEENVANNKAALPPCHAFFQFYVTSPDTEKGETKGKLSC
+QLYQRSADIFLGVPFNIASYALLTLMIAQVCDLEPGEFIHTFGDAHIYNNHFEQLELQLT
+REPKPLPKMVLNPEIKNIFDFDYNDFTLLDYEPHAGIKGSVAV
+>tr|A0A1S1J107|A0A1S1J107_9FLAO
+MKKIFLLFSTIGLLTITSCSDYLEQQSPDQLTSENFWRNKADAESALAATYGQLECATNE
+WSFAEIKWPVEAYREDINEMGSDALNYQNWVELSTFTYTNGNSQFTSYWKINYRGISNAN
+QVIDKLPKVPASAITDADRKQIEAEARFLRAYYHMKLLLNWDKIYVRDKYVTKESDLNVP
+LSTRPEAWDFITKEFKAVADILPAKQTSDKTGRATSGAANSYLGFAYLTRAYEETAQKQA
+FLNEALTALNKVQGYELIKDYVSMFDGTVKNSKESIFELQFSETTANGAFYRNALHYWMA
+AGELGGWDEILPSPMLVNEFKKEGKIATTGNYDTRFYSTIFFKDPYFNDANNPLVLGTTY
+DEKFEGKDKPVYRRYIPSTQDKMNQEFTAINIPLMRYANVLLMQAEALNELGRTGEAIPY
+INKVRERADMPAMTGTTAAAVKAQIEHERIIEFPLENYRFYDLRRWGKTKAALDAVGRSG
+FDAAKNNFYPIPLMELQTN
+>tr|A0A1S1J5V0|A0A1S1J5V0_9FLAO
+MKKITLVALFLAALACQKKEQTEKNTAVIDEHSYSKPELAVVKHLDLDIKVDFDTQTITG
+KASWQIDNISKGNEIIFDENTLNITKVTLGDEEKETKFKLGTDVEFHGKPLHITIEPNTT
+KVNIYYSTTKDAVALQWLTPEQTADKKKPFLFSQGESVWSRTWIPCQDSPGIRFTYNAKV
+TVPKDLIALMSAVNPQKKNDTGVYTFKQDKAIPSYLMAIAVGDLEFQSIDKRTGVYAEPS
+LLKKATWEFAELGNMVGAAEKLYGPYRWGRYDVLVLPPSFPYGGMENPNLTFLTPGVIAG
+DRSLTSLLAHELGHSWSGNLVTNATWDDIWLNEGFTTYVEHRIGEAIFGKKEFEMQNVIT
+NKELVDNVAEYGDTNPDTRLKVSLTGRNPDDGISMIPYVKGYAFLRVIENAVGREKFDPF
+IKNYFDSHAFQSITTEDFVKYINENLIKGDKALADKIKLDEWIYKPGIPSNILPVSSPDF
+DAIDKIQKTWRETGVTGLSKKITTTAEKQHFIDHLPADITVKEMEAIDKEFNFTKGGNFI
+IKRQWFVQAIEHQYKAANPAIEQFLIGISRTGSVMMLYKEMVKTPEGKVWAKQIFEKAKS
+GYHATTIQAVEGILK
+>tr|A0A1S1J7L0|A0A1S1J7L0_9FLAO
+MRGILNWDADPVIFWITDSFPLKYYGAFFACGLLLGYAIVRNIYKKENLSLDNLDSLLVY
+VIVGTILGARLGHCFFYEPSYFLQHPIEILLPIQKVAGVYKFVGYQGLASHGGSIGVLTA
+MVLYCRKYKVKFLWLLDKMAIGVPVTGAFIRFGNFMNSEIYGKPTDGNWGVVFQRDDLIP
+RHPTQLYEAFAYLLIFVILLTMYKSEKIRKADGLIFGYFLMLLFLARFIIEFFKENQEAF
+ENSMLINMGQILSIPFILIGLGLIVWKSKNNVYI
+>tr|A0A1S1J339|A0A1S1J339_9FLAO
+MKSIFKIALTAALICLISFQSAAQSKYKCMLQMANYMGEGAYIVVSLINPKGEYEKTLYV
+MGDDKKWYKSLKEWNKFQTSKPADISAKTGASVTGGDRSITTIEIEDSKINKGYKLRFES
+AVEDQKYYVSDLEIPLTTQGLADKTEGKGYIRYVRLNKI
+>tr|A0A1S1J470|A0A1S1J470_9FLAO
+MTEENVILVNQQDEQIGLMPKLEAHEKAMLHRAFSVFVLNDKNEIMLQQRAHQKYHSPLL
+WTNTCCSHQREGETNVQAGSRRLFEEMGFKTDLKELFHFIYKAPFDNGLTEHELDHVMIG
+YFNDDPAINTDEVEDWKWMKIEDIKEDIQQQSEIYTVWFKIIFDEFYHYLEDHKL
+>tr|A0A1S1J5N4|A0A1S1J5N4_9FLAO
+MTKILYQLESYQIIGILFDVHRNLGGGFSEIVYKDALEYEFKKANIPFEREKEYLVNYKD
+IILNHKFYADFILFDKIILEVKSSEFLHPKYISQCLNYLKVSKTHLAILANFNSVSLEYK
+RIIL
+>tr|A0A1S1J987|A0A1S1J987_9FLAO
+MEQDIQSEIYKIQKPEPWASDLNDNQLIDYIKESEFSQKQADEGRDYCYFLDKIYYTNDN
+ESSEYACVAYTLNEPANLEKASAVDVVLEESETYVIHRISVLRDGVLVDKIPDTKVKILD
+SENQSSGGVLSSNKKINITIKDLRLYDILIMEDSRIKIFTERDFLRKEFARYVWVGPDSY
+WAYGKYKFTFINDREKAVAYKKSFFRDEDGNVLEPQIAYLQKGEKYVREEENYINFVDSN
+REVSSFIDFTTAADWKELSNYISPIYETIFEKSSLAEFAPELVEKLDKIGSKDDQLQFAI
+EYVQNHINYIYNADEMNGHKPQEPAVTFTNKQGDCKAKSVLLKVILDYIGIDSSIILVNF
+GTDFYIKHYLPSLLTFNHVIVKINYKGESYFVDATLRDEFGLIENRGFIFFLHYLEVKPN
+LELQHKPPHRFPYYALDEKSELVAENNVGKLKLTTVYKGNRANSMRRYFKNTNKREIIDS
+WNNFFFYTLNYTNDRNGTDLRKIFKDAAIEIVSDDKKLNEFKIEYQTTIENPYFSDGKNN
+RFLMYFDSNIVKNRARDFMHKDISFWHNFDNERYEITLVTDQKIDVSEKFTIQESTINNA
+YFDYVSRKKINKNGGTIYIDYKPLINLEIPEEDFEDFREAHNEVADSNFGIGVDIIEDGL
+LNKLKFNFKKLVK
+>tr|A0A1S1JA04|A0A1S1JA04_9FLAO
+MKSITIKGSERESVGKVSTKALRNAGAVPCVLYGGNQAVHFSADAAAFKNLVYTPNAHTV
+VIELGKGKSFTAVLQDIQVHPVSDKILHIDFFQLFDDKEITMEVPVKIVGTSKGVLAGGV
+LRLNQRKLKVKALPKNLPDFVEADITPLEMGNKLYVTKVGKPEYKVMHPDNTVVCQVRIS
+RAAMKAAQEAAKAAKAPAKGKKK
+>tr|A0A1S1JDC1|A0A1S1JDC1_9FLAO
+MKILIVDDQQLVLLSLEKLLSGLGYEVISTDNIIDAIAKYDSEKPNLVIVDINMSNLSNT
+ESLNEHQSGLEVVKHIKQIKKDNTPVMVLSGNTDEEVIIKGFDLGIDDYMKKPLSLSEIG
+ARVKRLIGSTIEKSVTEKPNSKERYIQNKCIGVVIPCYNEETRLSSDEFKSFVHKNLGYH
+LCFVNDGSKDNTLAVLHELTKGKEEYISVYDCKKNGGKAEAVRLGMLHLAKQNQFDYIGF
+LDADLSTNFDDFQDLADTIYNSKYKLVFGSRISRMGADITKQSARAIISKTINYIIRKIL
+GMEINDTQCGAKIMTKEIIEKTFNEKFITKWVFDVEIFMRMKKIYGSTKTQELILEKPLN
+RWIHMDGSKLSFKDSIKIIGQIGQIALHYR
+>tr|A0A1S1IY15|A0A1S1IY15_9FLAO
+MTDSFKIATELLKSNNSMRLILKLVFFIFSVINTYAQQTSVTRSKDLESAYDIQDSVMIK
+TRDGALISAMVVRKKGNLTPQPVIYQHTIYAREKGRDLKSLKAAADKDYIGVMSYSRGKR
+FSPDEITPYENETNDTYDVIDWISKQKWCNGSVGMYGGSYNGFTQWAACKKMHPALKTIV
+PYVASRPGMGLPMENNVFINPNYEWAFYVGNNKYLDTVAGNDRQRFRNMQFKWWETGVAY
+KKMDSIDGTPNQFFQKWIKHPSFDEYWQKMAPYGKEFSQINIPVLAIDGYYNDSQNSGLY
+YLRELEKYNPKADSYLIIGPYGHFGAQVGGDAVLNGYKVDEVALINTYKITYQWFDYILK
+GKPKPAILKDRINYEVMGANEWRSAPSIAKMSNSLLTLYLTNDPVEKGKFYSLNATKPGK
+KSYLPQEVDFADRQTINNDYYPDPIIDNEVDTSNGYVFISEPFTQPIVVNGAFLGEIKAS
+INKKDMDIGVTLFEVTPDGKYFELSYFIGRASYAKDITKRNLLQPNKIESIPFSNTRLVS
+KQLSKGSRLLITLNVNKNAFSELNYGTGKDVSSETMKDAKVPLKIKWYNDSFVQIPIWK
+>tr|A0A1S1J5D4|A0A1S1J5D4_9FLAO
+MRTLTYKIEPIERHFTFSTLLKKQQASLPLKEAVEIPDFSIEKARPVHTFWIKEICEVTL
+ASAIARGTGISGRSPEFLETKIKKGEAVIAFASDGRWAGFSFITSWENGKYVSNSGLIVA
+PEFRHTGLAKRIKTKIFELSREKYPNARIFSLSTGLAVMKMNHELGFEPVTYSELTTDEM
+FWENCKSCVNCPILINKDKKNCLCTAMLYDPKQNTRIVD
+>tr|A0A1S1J6E7|A0A1S1J6E7_9FLAO
+MSTLNRPKNIGRNISRIRELRGMKQGALADAIGTSQQTISNIETSETVEFEKLVQIAKAL
+GVTVEAIENFTEESVFNFFNNFYDNSTSNGQAASGPIFTFNPLDKMVELYERLVLAEKEL
+VQAEKEKVEYLEKLLNK
+>tr|A0A1S1J819|A0A1S1J819_9FLAO
+MKKYIIQLAKYTLGAIVLLSTTNCADDELFRETNTNPESFVTIAPSAQLTGVEASFSGAI
+FEQWRANLIYGEGFIQHLGAAWATATFGSFYASSTEYQGALWNANYGGGLIRNVIDLNER
+TNGKAEFTNLNAVAKTLKVMAFQRLTDLYGDVPYSEAGLGYYKNIFYPKYDSQKDIYTDF
+FKVLDEAYNQIQSGTDPIKGDIFYAGDVSKWKKMISSLRLRCAMRISKVDPALAKEQIQK
+AVANGIFTSNDDNCYMKHDATLPETVGAVNNGNGLSHALKGNELTDRPTTTLFDALGDDP
+RKKIWFLPAPNGNYVAINPNMYGYNFPGGGSNISRLQPYLYENSAPYLHLTYSETQLLLA
+EASFRNLYTGDTKNLYKKGMEAGIRQWVIFKDASIIDNNAITAFLATKNLTPGKELEEIA
+TQQWLTLFLNGMEAYSNHRRTNFPVLVKITNVGSTTNGVMPTRMPYPPEESTSNKENYLA
+AGAKYNNNSWLAKVWWDVD
+>tr|A0A1S1JAF8|A0A1S1JAF8_9FLAO
+MKNVLVIYYTQSGQLGTIARNIAKPFLNSEEINVTFHEIQLQKSFPFPWNKDAFFDAFPE
+SFLQIPTELKPVPEEILNTKYDLVLFHYQVWYLSPSIPINSFLKSAEAKKILNNTPVITI
+SGSRNMWIMAQEKIKVLLKEANAQLVGNVALVDRVGNLISVITIVEWMFSGVKKKYLGIF
+PLPGVSEKDIQESDKFGETILSEFKQNQLQNLQPKLVAIDAVKISPYLVTVDKTANKIFN
+KWSNLIYKNQKNRKTLLKVFNVYLFLAIWLISPIVYILHLITYPFKLNTIKRETQYYQGV
+>tr|A0A1S1J699|A0A1S1J699_9FLAO
+MKKRSTRFLLSLFVALLLVSCREEETIFPSSDKSVAAPRSDGKIEGFYLLNEGNMGMNRA
+SIDVFNYRTGNYTTDIYSERNPTVVKELGDVGNDIKIYGNKVYAVINCSNKVEVIDKWSA
+KRIKKIDIPNCRYVTFYKNKAYVSSYSGPVAIDPNAEIGFVAEIDTTSLEIKRKVTVGYQ
+PEQMLVHNGKLYVANSGGYKVPNYDRTVSVIDLETFTEIKKIDVGINLHSMQVDSRGDIY
+VSSRGDYYNTPSNLFVIDTKTDEKKMQLDIPVSATCLVDDLLYYYSVSWSYLTNSNKVTY
+GILDTKTKKVINDKIITDGTDKHIMIPYGLQVNPETKEIYITDAQNYVVTGYIYCFTPEG
+KLKWKTTAGNIPAHIAFITKK
+>tr|A0A1S1J762|A0A1S1J762_9FLAO
+MSLNTFNFGKTRFPTKLVGSPFQGSAKFAGGCLAPNGNIYFAPYLSSRILEFNPNSYETN
+YVGSVYNVAEGWLGGVLAPNGKIYYAPLLGYQVIEFDPVTKTSHLIGTVFGGGYKWYGGV
+LASNGKIYYAPYNSGEILEIDPEKGTTILINANITSYENYSGCVLAKNDNIYMIPARANR
+ILEFNPITKTSNFVGETLPPTIFKYDGGTLALNGKIYFSPRRQSRILEFDPTTGTTTHIG
+QDFGQTNLNKFSSPTLAPNGLIYFPFSGENRILRLNPSTGLTDLIGKSMMQQGKYSSSKL
+APNGNIYFIMASANKVLELSHVIGPDLLGNDRFIPEDLSLLATSNYNKYYNKH
+>tr|A0A1S1J6R5|A0A1S1J6R5_9FLAO
+MSIKKIITLTAVAVISVLLVYGFILISKIFSANTKFEEKELYVYVPTGAKYTDVKKILEP
+YIKNFEDFEMVANKRSYPENVKSGRFLLKKDMNNIDLVRAMRSNVPVKLAFNNQERLENF
+AGRVGSEIEADSLSLLKAFRDPEFLAANGFNEENVFAMFIPNTYEIYWNTSAEKFRDKMI
+KEYHNFWTAERIEKAKKQGLTPVQVTILASIVHKESVKKDERPRIAGVYLNRLRLEMPLQ
+ADPTVIYALKLRDNNFDQVIKRVFYNDLIMKSPYNTYVNIGLPPGPIAMPDITALDAVLN
+PEKNDYIYFCASVERFGYHEFAATLAEHNVNAKKYSDWIASQGVTR
+>tr|A0A1S1J3B1|A0A1S1J3B1_9FLAO
+MKPIQSLFILFFTLLCFNSVSAQYGNGYNNGYGGGGYGNGYGRGGGMGMDRSMMGGPQPN
+TSKPKEVPVEETVGKIVEQMKPEINLDELQVIAISNVLIDSMREQGILLKNESSSQDQKI
+EQIKALRESTTKKITAFLNPDQVPKYTAFMDNFKEIKKTSKSKKKKDSKDKDSKEVKEDS
+ETIKTQE
+>tr|A0A1S1J306|A0A1S1J306_9FLAO
+MSDNKINRKQFLRMGAAATGAALFSGISNTAMAHSIEEPEYIATSTKEYILTNVRLEEGF
+EYNEKKEVIATKTNLFNVHIADGKIKNITTDKPDGKLKKVDAKGLLMLPGLRDMHIHIDK
+TFYGGKWNAAPRKGFTVKDMITLEQKIIPDLLVDSQYKAEQAIQLMKSQGSYFARCQCNI
+DPVSGLKSLEHLLKALDNNKDSFGWEIVAFPQHGILYSQSEPLLREAAKMGVDFIGGLDP
+TTVDGNMEKSLDTMFQIAIDHNKGIDIHLHESPPSGKSAIEYIIKKTEENKQLQGKTYIS
+HGFALARMDPKDLEGIAEKMGALGIGVISTVPIGKTIMPIPTLKKYGVKLMTGTDSIVDH
+WMPFGTCDMLEKAKLCAQLYGWTDEYNLSRALHIATANEVLPLNDAGVRVWPAAGDDAHF
+ILVKASCSAEAVARLPKREGVFFKGKMIAGQMTGL
+>tr|A0A1S1J7V2|A0A1S1J7V2_9FLAO
+MNYILFDGPVRNALLPFTFTRPVADILIGIMTIRQKWEARLGSTITTITEDYLSQKFPMV
+EMEENVMINAAYLPNDTLAEMVSDLKANQAIFKGDDVIAFFTNENQEEVDFDSYEIIPYN
+DACLTVEHTWDIFSKNDAAIREDFQYLTEDRKSQPIPKSVNVIAPENIFLEEGAKLEFVT
+LNASNGPIYIGKNAEIMEGTVIRGPFALCENAQVKLNAKVYGATTVGPGSRIGGEVKNSV
+LFANSNKGHDGFLGDSVLGEWCNIGADSNNSNLKNNYEEVKLWSYETEGFAKTGLQFCGL
+MMGDHSKCGINTMFNTGTVVGVSANIFGSGFPRNFVPSFSWGGAAGFTTYVTKKAFETAK
+LVMGRRNIEFDETEASILEHIFEETKKWRKD
+>tr|A0A1S1JES0|A0A1S1JES0_9FLAO
+MKRFLLLLSCTIAVGCSNPHTFLLNDKKQNQYFVSESIQQAFEKNIIKKSPLIVINGVPF
+RYHKKQDTIILPLEKTDIISVDFLNENSSRIIYNEKENDGAVIITARIRNK
+>tr|A0A1S1J176|A0A1S1J176_9FLAO
+MNPNDLTKEYSNGEVTIVWQSGKCIHSANCVKNNPDVFHPKEKPWIIPERSTTEKIISTI
+HKCPSGALSFYMNDKS
+>tr|A0A1S1J3C8|A0A1S1J3C8_9FLAO
+MKKENDDLDQLFKKFENQWDVAELTSDHQLDFLNKLNKKQPKKKNHAVWAIAASIVVLLG
+VSIFYNSYQEPKHYKFASKEAKRTDSIFSILIDNELVKLKEKSSPQNEQIINDALKQMKV
+FDTDYAKIMKELQKNGENKQIIYAMISNLETRISFLQTVLKRIEENENFKTNTTHEKTL
+>tr|A0A1S1J4J1|A0A1S1J4J1_9FLAO
+MREFLTISLVFVLSFNKITAQDSIIEHRIQKGETAYFIAQKYKVSVEEIYKLNPESQNGI
+KDDQMIRIPVHSSEKPNSSQQITHVVGAKETLFGLAKQYNISVEALQNANQAILTNGLQI
+GQQLMIPQGSGDLSQTESTISSKVSHQVVAKESLFSIARQYNVSVLDLENGNKNLLQNGL
+QVGQTIAIPNKRKTLDGRVRVINQETVFHVVEPKETKFSIAKKYGISIDQLESQNPEIVN
+GLIVGNKLAINTKGVKPTNESEELMIALAEKQVVVEKTKAKTVELEDLKDRLVVQKEMNQ
+KIIKINDLKINLNDMNGSKENSVEKLRLVLEANKNVQDVLMAKLDSLVRTMNDDLVDLKR
+LDILNVDESKRLEKQSYESIGKTNELSSQLKKELAENRKVYAGLMHKVEKIAVAENQEYK
+KKIRESEKNNNPVSLQQRLSLEEIKQYKIEQEQGDAKNQLLIAKIDSLDNQKKIEVKRHI
+SKASYYSMEARNFDDKVALLKLKKYQDQAIKNQKKNGFIGDSKIISSEEMKQELKENPLK
+RDKTIKVEVFDNLREVSNGYYLVLGIFTDATLRDKLIMKLIDSGDFNASFFFNINSLSYY
+VYSDKYQNMEEVLYQCKKKEEDELYKEVSIAKVEIDLRE
+>tr|A0A1S1J4W7|A0A1S1J4W7_9FLAO
+METVQAIKQRFEIIGNDPKLNRAIEKAIQVAPTDISVMVTGESGVGKENIPRIIHSLSHR
+KHGKYIAVNCGAIPEGTIDSELFGHEKGAFTGATSTREGYFEVADGGTIFLDEVGELPLT
+TQVRLLRVLENGEFIKVGSSQVQKTNVRIVAATNVNLFNAIEKGKFREDLYYRLTTVEIT
+LPPLRERNDDIHLLFRKFVADFAHKYKMPPLKLDDDAVQLLQKFRWNGNIRQLRNVAEQI
+SVLETNRDISSATLQSYLPTEGSSLPSVINDSKKESDFSTERDILYKVLFDMKSDLNDLK
+KLTLELMKNGTKVQDINPNLIQKIYGSQENESEIDFEEEPRTAVMTPTPREDNYQMQDDN
+YLFAETIEEEEVLRLEQKEIEMIKKSLEKNKGKRKAAADELGISERTLYRKIKQFDL
+>tr|A0A1S1J5L5|A0A1S1J5L5_9FLAO
+MKYMRNEDDAKDVFQEAFVIVFQKIGQYKFEGSFEGWLKRIFINKLIETLNKKKKESFFL
+DVFDPDTDFVEEEELDIAPVEQEKLLEYIRDLPDQYRTVFNLYVFEKLKHKEIAELLKIS
+EGTSKSNLNRAKSILQKKIMSIKNFKIA
+>tr|A0A1S1J836|A0A1S1J836_9FLAO
+MFELYKKRQLGDYIIDTFSFFKTFGKHFFKIFFIINGAFLLIVGALVFFFLKSNFQAVFN
+DSLNQPGSDNLAGYFNDNFGLLVGFVALFFIAVIALSLFNSTYPILYLKLVAKKNTTDFK
+TEDIIRIFRQNIWKIIKFCIGLTFLVVPVLLIVIIILFFLCFLIVGIPLLLIAIPALFTW
+VNFSFYAYLTEDKSFFQSLNHAYLLLKEDFWTSIGATFLVLIMIQMIQGSITMVFYFAGI
+FIFLLTAIGSSNYNAEAIGDSPLFLLFLTLIFILIFTLSNIFNNMIMVNQGIMYYSLGAK
+EKISNRDIDLIGTDNE
+>tr|A0A1S1J722|A0A1S1J722_9FLAO
+MSTYFRPTQSNKIQDNKENRASMRLKVLDSVLKLMKTESPYPNDMEIISMKEVDSITRSE
+IAQRSLRQSEGTYKGTTYYVDLRIKPELKRIALDKSIKGYVLYYKMRYRVNDVRVDVQDY
+VVIFDAVKNNIIYHDNYLASHNILVHQLMLGLENHLLKTIK
+>tr|A0A1S1J3M3|A0A1S1J3M3_9FLAO
+MKKIVEYRKLLNVDKTAELKDLKTIYRNAMKESHPDKFQGDDAGLKAAEEKSKAIIEAYH
+FLVSINPETIKLNLPEYTETISTCSITDYKFVEGRLIIDFSNGSVYEYISVPKATYVKMV
+NADSPGRFAKRHILNSFTWRKKTNQE
+>tr|A0A1S1J3U3|A0A1S1J3U3_9FLAO
+MNEIKRKGARSAKDIPTDILAQLNSGEIETSNLMEWLAVDQRLLLENLLAENQRMNYLKP
+VLSKIDQLKKQTVNTINEAIGTGILEQAIKNNDSDFLTTLSLHKADLVRCWAAYTIGKNE
+NLNINETLNQIKPFSTDKHFGVREICWLAVRAKVAQNLTKSIEILSKWTTNQDENIRRFT
+TETTRPRGVWCEHIEELKQNPKLALPILEPLKSDSAKYVQDSVGNWLNDASKTQPDFVKE
+LCKRWEKESGTKQTRYIVKKALRTVN
+>tr|A0A1S1J5J8|A0A1S1J5J8_9FLAO
+MQTNQNKQTDLVKGKVVDDTGASLPGVTVLVISTKKGAVTDIDGNYTIEAKVGDVLQFSY
+VGLQTKTVTVVGPTVNVTLSGGSGESLENVVIIGSRNPTRTVTESAVPIDVIAMKDIATQ
+GAQTNLNQILNMVAPSFTSNTQTVADGTDHLDPAQLRGLGPDQVLVLVNGKRRHTSSLVN
+INGTPGRGSVGTDLNAIPAFALEKIEVLRDGASAQYGSDAIAGVINLNIKKDTKKIDINL
+FSGSNFSRNANDHRGGNDGNNYQMDVNYGTNLGKEKSFINLTGSLQLRDATSRANDATGT
+IYNAYNAIEQRASEDGININSLYGNITNTPNSAQIVSLIKNYAPKVSYFTGAQQTNISNA
+TTISQLQTALNFDATDGELAYRKLERRNFNMRIGQSEFKSVQFFLNAAYPINDKLEVYVF
+GGTSYRNGESAGFFRRPNQSRSYTGLYLNGFLPEIHSTINDLSAATGLRGTIFKDWHFDL
+SNTYGRNSFDYNIENTVNATLREGSPTEFDAGGLRFAQNTTNFDMSKKINTLNVAFGAEY
+RYEQYGINAGVPDSYSQYDINGNVVTGTTPANIRVTDFYGAARPGGAQVFPGYRAENAKT
+EKRNSVALYTDLELDVTEKWLLNGAVRFENYSDFGSTTNFKIATRYKLTDNINLRGAFST
+GFRAPSLHQIYYESTATQFTGGVPFEVGTFSNDSEIAKLLGIPKLKQEESTSVSAGFTAK
+IPSANLTITADAYYIKINDRVVLTDQFTPTPLTQSLYDQAGANAATFFANAIDTESKGID
+VVLTNKMNLNENLTLKNDLSGTFSKTHKIGNIHASPILEAAGQVNTYFSESSRIYLEEAV
+PRVKVNLTNGLTYKKFDFFLRNVYFGEVTDPNVADVNGDGFVGATIVNGKAVENEHPVWG
+GRVITDMSVGFKISPIAKIIIGANNVFDIYPDKNLGPQTARRANGVDANGNITYATTPTA
+IDLSNQNQFVYSRNISQFGQNGRFVFARLSLSF
+>tr|A0A1S1J7D7|A0A1S1J7D7_9FLAO
+METIYTLDSLDRKIQLLEHQQNAEWCAIKDEIDDIKEHLKPLNLIRSTVEEINETVGFKS
+DLAQSAISIGIGYLAKRFVVGKSTSTFKNIFGSVLQLFVTNVVSKSGNS
+>tr|A0A1S1J971|A0A1S1J971_9FLAO
+MQRFDAIRPFYDSEINEALHDVVNHPMMKTMMNFTFPEVADEVWKEQLKKTHSIRDFQCN
+FIYNTIQKVLEKSSEGLTTSGFEKLEKNTSYLFISNHRDILLDTTLLNVCLFEHGLVMTA
+SAIGDNLVKKAFLSTLAKLNRNFLVLRGLSPREMLQSSKLLSEYTGQLLLRENRSVWIAQ
+REGRTKDGNDETNPGVLKMIGMGSDEPNLMDYFKKLKIVPVSISYEYDPTDVLKMPQLMA
+EANNEVYVKDKNEDFMNILSGIMGTKKRIHISVGDVLDTEIDQIVAENDNVNKQVQALAQ
+VIDDSVLKNYQLWPTNFIAYDILNETNKFAHLYKESEKSLFERRLEMRIGSDNPVTRQGF
+LAMYANPVVNKLKYQDVI
+>tr|A0A1S1J2K3|A0A1S1J2K3_9FLAO
+MFKKLFGALTGDNKQENQNYEAQTSNNNYENDYEDNYQETEYDPETLHGTHYSVEDFDNE
+VAARSEAWIADERASGENLDEKDVQNIYFNYRREVYTEWNNCDSDQMIRFEHANSLKYSG
+VQVSGFVKVEDNNPFLEPVHGVDLRTYTAMCLKISAGIDYLEVCKAMGFEPAVWEELNTI
+WPQRMGEDTSFTVTTLFGQYYAENVTVPQLENLKAETSEEGAANLERIRTDRYFYEELAG
+ARQAAYEYGIDGAQWILENFGINLADFQSVAMQWMTEQNQNWNSEDINEFFNYQQEKQKE
+YAAKFAAEQGGNIADDVNF
+>tr|A0A1S1J5R5|A0A1S1J5R5_9FLAO
+MTNSWTERWNDRYSAEEFAYGTAPNNYLKESLEKQDIGTILFPAEGEGRNAVFAAKLGWK
+VSAFDISSEGKNKALKLAESENVILDYQIGELETLHYQPEQFDAIALIYAHFPAEIKSAI
+HKTLDQYLRKGGCIIFEAFSKKHLDYLAINDKVGGPKDIASLFSIEEIKSDFPNYEIITL
+EEKEIELNEGLFHNGKGSVIRFIGKKK
+>tr|A0A1S1J8W4|A0A1S1J8W4_9FLAO
+MIEVKNLEKSFGDSKVLKGVSTVFETGKTNLIIGQSGSGKTVLLKSLLGIHTPDNGTIEF
+DGRVYSELDPDEKRELRTEIGMVFQGSALFDSMTVEENVAFPLKMFTNDNKAKVKERVDF
+VLERVNLIDAHKKLPSEISGGMQKRVAIARAIVNNPKYLFCDEPNSGLDPNTSTLIDNLI
+KEITEEYNITTVINTHDMNSVMEIGENIVFLKKGVKAWQGTKEEIFRTDNEAIVKFVYSS
+NLFKKVREAYLKG
+>tr|A0A1S1JDA2|A0A1S1JDA2_9FLAO
+MKEVDNFYEKQEEPGKGVFLALKEIILRQDKEVTHVLKYGMPFFCYKGKMFCYLWMHKKY
+KKPYIGIVEGKHFDEPFLLQEARSRMKIMLFEPEEDLPVERIEQIIGQALHLYKTGIIKV
+>tr|A0A1S1J0V4|A0A1S1J0V4_9FLAO
+MQIKKYIRDIQGFPKKEILFKDITPLLNDPIARKETVFILAESLKGQKIDKVVGAESRGF
+FFGILLAQELNAGFVPVRKPNKLPYDTISASYELEYGTDSLEMHTDAIKKGDRVLIHDDV
+LATGGTAKAVCELVERLGGEIVQCNFLMELSFLNGREKISRYPIFSALTY
+>tr|A0A1S1IYA9|A0A1S1IYA9_9FLAO
+MKKNILFVVNPISGDLDKSDLIAAVQEFSVAHHFDLEVYETTGQHDQKEIQILYNQYHPE
+RIVVAGGDGTIKMVAEAMEQFDIIIGILPAGSANGLSVDLNLPDTLEENLKIAFLNHYIE
+MDMIAINGKKSIHLSDIGVNANLVKNYEESNLRGLWGYALQAYSALKESEEPFVATISAN
+NETVEHTARMIVIANSQKYGTGVVINPNGAMNDGKFELVILKSLDLLLIGKIITGNMPID
+SDDIVIISTDKAMIKTDYPVNFQIDGEYCGAQTDLEIHILHKQMKIAIP
+>tr|A0A1S1J4Q3|A0A1S1J4Q3_9FLAO
+MATIKYLIQSKNENANIYVRYSLNRESVWKRKTGFVVSPNDWNKDKGQPILKNQELKAIK
+FKLDKLSLFINEAYNNHVDKGIIFTGEWLQYQIDLFNNKVAVVDLDVLTNSIDSYIDSGD
+NLTKGSIKNLENLKKFITNYEVDNLKGKPVIIRDVGLDFIDTFKKYHKAKGRSVNYIGTY
+ISILRAVINKASLNGIVTHPQFKQIKSIKEVKESEEIIILTEAEQELIKNVDLVREAHIN
+ARKWLLLGCLIGQRAGDLLNITDKNIKIIKGSKIIELRQQKTGKLVVIPLIPKALEIIET
+GLPYKINLEHFNHYSKEVCKEAKINTKVKGKMRIDDKRTLTFGVYEKWQVISSHVCRRSF
+ATNFYGNIPTSVLMGITGHGTEQMFLKYIGKTTYDNAFQMLDYFSRLSSDIEQN
+>tr|A0A1S1J626|A0A1S1J626_9FLAO
+MKQINLFALILLCNFTTSTFGQKSKKMDIIAYYTGDDKLINEYEVSKLNQIIFSFCHLKE
+GKLSVDSAKDSTTIKHLVSLKASNPQLKIILSLGGWGGCEPCSAAFSTAEGRLTFAKSVK
+EVSHYFKVDGLDLDWEYPAIEGLPGHLFQPADKPNFTELIKILRSTLGKKYELSFAAGGF
+QKALDESIDWKKVMPLVNRVNIMSYDLVNGYSKVTGHHTPLYSTNPKEESTDRAVEYLLK
+LGIPAEKLVIGGAFYTRTWKNVENINNGLYQSGEHVQGVSFKDYSTFYTEANGWKYFWDE
+KAKAPHWYNEKEKTFATGDNLASIKAKAEYAKAKNLGGIMFWELPLDATRNGMVNTIYDV
+KIAK
+>tr|A0A1S1J769|A0A1S1J769_9FLAO
+MYCINDKEYPCSTSLTMKYIGGKWKSVILIHLIEKKRYNELRKELSMVTERTISLQLKAL
+EEDGLISRTVHTAKPPLIVDYELTEFGKTLIPLLQSIAQWGKETAKTNKRVTII
+>tr|A0A1S1JAL7|A0A1S1JAL7_9FLAO
+MEDQSLLSEETISNKIYYIRNQKVMLDRDLALLYGIETKVLKQAVKRNLLRFPEDFMFEL
+SQSEFNNLRSQIVTSSWGGTRILPFAFTEHGILMLSSVLKSDKAIQTNIQIMRIFTKVRQ
+MLLDTTEIKVDILQIQKKLENHDKNIELVFSYLDELTEKKENGNERVKIGYKK
+>tr|A0A1S1JGH5|A0A1S1JGH5_9FLAO
+MKKVSLILLLFIFNSCASNYYFVNIDEDTPIFTSENGKESVTIIPKGSGAYINRSDKKAR
+KIKWEKFKGWAINPAYSNSSFSSNSDNNNYSGSSYTKSPIRTSSGGSVHVKGYTRKNGTY
+VAPHTRSAPRRR
+>tr|A0A1S1J1L4|A0A1S1J1L4_9FLAO
+MEFKTLRNIENSFRQIRLYAIVFAVLCAAVTGCALWRSYSFAELQRQKIYVLDNGKSLML
+ALAQDASINRPVEAREHVRRFHELFFTLAPDKNAIESNMKRAFNLADKSAFNYYKDLLEK
+GYYNRIISGNVQQRIEMDSVVCSFETYPYAVRSYARQIIIRSSNVTRRSLVTSCLLVNSV
+RSDNNPQGFNIEKFSVVENKDIEVIER
+>tr|A0A1S1J203|A0A1S1J203_9FLAO
+MENYTVDEYALCARFKSKRKKRRLIKEDFEKQLIELRKLEVDLWKKRRNLPLVALEVPYQ
+KGWQRNFKLRDDVARSSEASFYTELLEKINTWQFSPEKSFKRKKKRKRKHVYVENIQTVK
+EFSEWEWKSSKLELTEKEKVHFYKRERWCSNCKRYKIHYVFNEPWRYVLRVSPYMITHTK
+MVDSDLESQIQFIDNYIVNNHLRYKINRLINGSSHKWSYYEKENPKEISPIKNKSLQALY
+QQYVDEII
+>tr|A0A1S1J338|A0A1S1J338_9FLAO
+MKYARLTKEQFDELHAEFASFLATQAIDKAEWDALKINKPEVAEQELDVFSDLIWEGVLS
+RAEFLEHFSKNHIFLFQCFETHVQSIVLKSLVAETDFLSKEGLQWLSDNMFTENIGMKVG
+KKVFTEERNASIFELIQQGAFLSDGQLFTQINTIIES
+>tr|A0A1S1J507|A0A1S1J507_9FLAO
+MLHFKTFLFLFFPCLLFSQNEKWPAAKLKQDLSTFKEIREKANSGVYKYRTKKQIESIYS
+WAFSELKKPKSLLDFYKIILKITDFEGSVHNNTTLPNEFLKKYTSGKVFFPYPVKLLGNK
+IIINFQNSEIPIGSQIHKINGIKIEKIISRFYKYYTTDGYNLSGKSIGISASFGRYFELE
+YGPKEHFLVEYSLPDQTQKQSKKVLAVSNETRKDNFKNRHSLPVDSLYYGKIKNKYTFKI
+STPNTALLSIPTFAIGMNAEDKEHIVYKKYLDSCFQFLTLHPEIKNLIVDVRSNGGGSDP
+NDLVAFSYLTQKTYRENTSAFINFQKVPYPQYFVYEETEPKKQLEELSEFEAELKEEYPE
+LKGKTYLQDPKFNRLLQPDKNNFQGQIYLLISPRIASAGSLFASLVAGHTNAIIIGEETM
+GGYYGHNGHTPVGYELPNTKIKTQFSIVNLEQDAPKKPNQLFGRGVIPDHEIKQSTTDFI
+QNKDTPLEYTFKLIDQM
+>tr|A0A1S1J6Z3|A0A1S1J6Z3_9FLAO
+MNIISIQSNIGLPKYRQIILSVEKAIEEEKLVKGDRLPSVNKVCLAFSLSRDTVLLGYDE
+LKKRGIIYAIPGKGYYVKSVEINIKQKIFLLFDELNSFKEDIYNSFIQNIGKNVQVDIFF
+HHFNVQVFQKLITDSNGNYTKYIIMPTNLTDVAEAIKNLPVGEVIILDQTNPDLKLYPAV
+YQNHEKDIFEGLVKGKSRMDKYKKLILIFPGFREPLGMKTGFIAFCTKYDFKFDIITEFT
+NGEINAGDLYIIPNDRDLVRVIENAQSQSLKLGTDFGIISYNETPLKKIVANGIATISTD
+FEMMGEILADMVLHGHKQQIENKSSLLIRNSL
+>tr|A0A1S1JA33|A0A1S1JA33_9FLAO
+MLNSYSSADKVLLAVDCIIFGFDREGLKILLIKRGFEPEKGKWSLMGGLLKQDEVLDNAA
+IRVLKMYTGLNDVYMEQLYAYSEIDRDPLERTISVSYYALINIEDHNAELIENYHAQWFS
+VADAPSLIFDHNEMVQQAIRILRYKTSIKPIGFELLPEKFTMRQLLELYEAILSKELDKR
+NFITKINTMGILNKLDEKDMQSSRKGSYLYTFNKEKYEEKLRNNFVLNL
+>tr|A0A1S1J6I2|A0A1S1J6I2_9FLAO
+MNTYKLLWLAVIFTLISFKSNAQSPLPIHVGIKAGSNYSELPVSKGSDSKYAAGFFGGAM
+ARFDFKRFFIQNEILYSEKSSKIERTASLPSKNLKWRSLEMPLVIGYKIIDQSMLNVRVF
+GGGVYSYVLDENISSVNQLKTAYGKFNKSNIGYQVGAGIEISKFTLDVTYQGGLNNISKE
+FSSKPNSFNIGVGYFIF
+>tr|A0A1S1J3L1|A0A1S1J3L1_9FLAO
+MKYLFLGLAICAEPGQNQCKSNNPKAVNVVLFKFKSEASLEQEQNFKSEMLKKHSAVSGL
+IDISFGENVTDIAKGFTRAEAARFKDQKSLKVFSKSDPVEELNTSYIKPVLQEILVFNSF
+S
+>tr|A0A1S1J825|A0A1S1J825_9FLAO
+MIAHNSKIIGEGLTYDDVLLVPNYSNVLPREVSIKSKFSRNITLNVPIVSAAMDTVTESS
+MAIAMAQEGGIGVLHKNMTIEQQAAKVRRVKRAESGMIIDPVTLPTNSTVADAKNAMKEF
+GIGGIPIVDENKILKGIVTNRDLRFEKNGARPIAEVMTSTNLVTVAEGTSLEQAEVVLQG
+HKIEKLPVVNANNELVGLITFRDITKLTQKPIANKDVYGRLRVAAAIGVTGDAVQRAEAL
+VAAGVDAIIIDTAHGHTEGVVNVLKEVKSKFPQIDVVVGNIATPEAAKYLVESGADGVKV
+GIGPGSICTTRIVAGVGFPQFSAVLEVAAAIKGSGVPVIADGGIRYTGDIPKAIAAGADC
+VMLGSLLAGTKESPGETIIFEGRKFKSYRGMGSVEAMQGGSKDRYFQDVEDDVKKLVPEG
+IVGRVPYKGELNESMLQFIGGLRAGMGYCGSKDIPTLQESGRFVRITSSGITESHPHNVT
+ITKEAPNYSR
+>tr|A0A1S1JBF0|A0A1S1JBF0_9FLAO
+MENSQFHFDSETFNRFFPFYVLLDQNLLIQDRGRSLIKILPDLKSNDYFLYSFAITKPFL
+EELNSDNFYKITNQLVIIKSLRNEILLRGQFEKYGNGYLFLGSNWLTSDKNFEEKKLSLY
+DFAQHDASLDLFDLMYNRDKSDAALQKSLTIIHHEENELKVDNKEIDDRELFPTQNQDLL
+IRIDFEGHLLKMNPATQNLKRLTYHGINYEIKDFFKFIVHKIDKTKKRWMFEAESNGKCY
+SFVCKSMQEQYYVKIYGRDITEQKRNHEELNKLSMVAKTNKNGILFTYPDGKIFWCNDAY
+LKLTGYEKDEIIGKTPLEVGSDPLSDKEEIRRMISAFYDGNAFEVEILHARKNGSTFWSK
+TVGQPILDPSKKVIQYFAMIEDISEVKQKEEQLLLLSSIADKNISAVIICDKSGKIEWIN
+SSFTKMTGYSKEELIGQSPGHLLQGEATNPDTITYLKNQIKQGLPFTCEILNYTKFKEKY
+WVRVQGQALHNKHGEVIKYFAIEENISQEKEFNQQLIDSENRLTSLITNLQSGILLEDED
+RKVLIANKRFCDLFDFKGEPEEMIGFDSKMATEENKYFFKRPDEFIERVEEILRNKKNVF
+SEEIELADGRVYERSFITISKGNKNDGHLWSFEDITIKKKYKESLEAEKEKYRNIIANMN
+MGLLEVDKDDIIQLANQCFCDMSGFSLIDLLGNKASEILLHPEDKKLVTFKNKERINGKS
+DSYEVASINKKGETRHWLISGAPNYNVNGEVIGSIGIHLDITKQKNLELQKEELLKKLEK
+QNEQLNDYAQIVSHDLKSPLQSIHSLVTWIKEDSDKEFNAQTVKYLNMIEDKVEKMDHLI
+EGILTYSKVDDIEMITESINLNLEISKIIDIIHIPKNIQVLVKNELPTIKAERFRMQQLF
+LNIISNAVNYIDKPLGIIEISWEEEKKYYVFAIKDNGPGIALKNQEKIFKMFQSFSSNKR
+STGIGLSIVKKIVKNYNGKIWIESELTKGTTFFIKLPK
+>tr|A0A1S1J677|A0A1S1J677_9FLAO
+MILSLKNTFTEIGNATLFAKQFFKEVFVPPYEAKEFIKQCYVIGYKSLPLVAITGFIMGL
+VLTLQSRPTLVNFGAESWLPGMVALSLIREIAPVITALICAGKISSGIGAELGSMKVTEQ
+IDAMEVSAINPYNYLVVTRILACTLMVPILVIFADAVGIIGGFVGINIHGDVNFYRYLTQ
+ILQSLEYLDLIPATIKTFFFGFFIGMIGCFKGFNASNGTESVGKAANSAVVTASLTIFIL
+DMIAVQITDLFF
+>tr|A0A1S1J7P5|A0A1S1J7P5_9FLAO
+MNYLSVENISKSFGEKTLFENISFGINKDQKIAFIAKNGSGKTTIMSIINGLDEPDTGQV
+VLRKGIRMAFLSQDNNLQDELTIEESIFASDNETLKIIEAYEKALENPNDEEAYQKAFDG
+MDQHNAWDFETQYKQILFKLKLEDFKLKVKNLSGGQKKRLSLAIILINRPDLLILDEPTN
+HLDLEMIEWLESYFAKENITLFMVTHDRFFLERVCNEIIELDNGKLYQYKGNYSYYLEKK
+EERITSENASVDKAKNLFVKELEWMRRQPKARTTKSKSRQDDFYVIKEKAQSRRKENKVE
+LEINMERMGSKIIELHKLSKKFKDRVILDNFSFDFQRGERIGIIGKNGTGKSTFLNLLTG
+TIPPDSGRVVKGDTIKIGYYTQSGINPKPGQRVIDIIKEYGEYIPLAKGKIISASQLLER
+FLFDAKKQYDYVDKLSGGELKRLYLCTVLIQNPNFLILDEPTNDLDIVTLNVLESFLLDY
+PGCLLVVSHDRYFMDKIVDHLFVFRGQGEIENFPGNYSDFRAYEDSADVAQKEENKAEKK
+DWKQNNPTGNLSFNEQKEYQKLEREIKDLEIEKTKIEQLFSDGKVADADIEKKANELQNI
+INKIDQKEERWFELSAKIEG
+>tr|A0A1S1J8B0|A0A1S1J8B0_9FLAO
+MKIETIVNAEIELLTAMKSADIPTLEKMLHDDLLFNLPDGQTITKEFDLNSYRSGKMQID
+ALEASDQTVNVIDDSAVVAVTILLKGSFNHDPFNGTFRYIRVWKQFDENLKVIAGSCIQL
+Q
+>tr|A0A1S1J8F2|A0A1S1J8F2_9FLAO
+MKTIKKNLVSLFILLLLTLSVNIYAQDPLKAAPNAYKKVLLENERVRIMQVEITPGETIP
+WHHHPDHTIYALTDGKIEITDKGKAPIIMDIKAGDAMYIPAVTHMAKNLGDTTVNLIVTE
+IKTKK
+>tr|A0A1S1J8Y7|A0A1S1J8Y7_9FLAO
+MRKKILTTISLFIIIGILSFFYIYKGHRDIESETADYVVTVNELEREFASNDSLAYIKYQ
+DKTIELSAPVTSIDKAGNGIVMSEKIFVTFKNRLPQNITSGKTLKIKGRFLGYDELLQEF
+KIDQSSVVH
+>tr|A0A1S1J9H7|A0A1S1J9H7_9FLAO
+MKYRIEKDTMGEVQVPADKYWGAQTERSRNNFKIGAAGSMPQEIIEGFAYLKKAAAYANY
+DLGVLPIEKRDAIAAVCDEILEGKLDDQFPLVIWQTGSGTQSNMNVNEVIANRAQVLKGF
+NIGEGEQFIKANDDVNKSQSSNDTFPTGMHIAAYKMIVETTIPGVEKLHATLVKKATEFK
+DVVKIGRTHLMDATPLTLGQEISGYAAQLSFGLKALKNTLAHLSEIALGGTAVGTGLNTP
+KGYDVKVAEYIAKFTNHPFVTAENKFEALAAHDAIVETHGALKQLAVALNKIANDVRMLA
+SGPRSGIGEIHIPENEPGSSIMPGKVNPTQCEALTMVCAQVIGNDMAIAVGGLQGHYELN
+VFKPVMAANFLQSARLLGDACVSFDEHCAQGIEPNYKRIKELVDNSLMLVTALNTKIGYY
+KAAEIAQTAHKNGTTLKEEAVRLGYVSPEDFDAWVKPEEMV
+>tr|A0A1S1J2N8|A0A1S1J2N8_9FLAO
+MKKNQKYAVLLLRIALAAGFLSAVSSRLGLWGTQSSGWENFLTYTEQVNSFVPKNWIPTI
+AIASTLLETLLAILLFIGYQTKFAAVGAAILTFGFALAMTYSFGAKEPLDYSVFTFSMAA
+FLLSTVEKYHWSLDEILSKNKTN
+>tr|A0A1S1IY67|A0A1S1IY67_9FLAO
+MTKYKFILSGGGTGGHIYPAIAIANELKLQFPDAEFLFVGAKDKMEMQKVPQAGYEIKGL
+WIAGLQRKLTLQNLMFPLKLAKSLLESRRIIKQFKPNVVIGTGGFASGPLLKAAGSAGIP
+TVIQEQNSFPGITNKLLSKKANAICVAYDHLERFFPEEKIVLTGNPVRQDLIDIDSKHEE
+AIAFYGLDPNKKTLLVLGGSLGARRINQLIEKELQNFLSQDVQIIWQCGKLYFEEYKKYN
+QQNVKVVDFIERMDFVYAAADVIISRAGASSVSELCIVGKPVIFIPSPNVAEDHQTKNAQ
+AIVDAKGAILLKESELDNEFSIVFEALLKDEGKQKQLSANIKKLAKPKATQDIVAEIVKL
+I
+>tr|A0A1S1JAR3|A0A1S1JAR3_9FLAO
+MKNLVEELKWRGLYHDSMPGTEEQLLKEVTAAYIGFDPTADSLHIGSMVQIILLVHLKNF
+GHQPIALVGGATGMIGDPSGKSDERNLLNEETLAKNVAGIKSVLSRFLDFNSKEANAPVM
+VNNYDWMKEFSFIDFAREVGKRITVNYMMAKDSVKKRFAGDGVGMSFTEFTYQLIQGYDF
+YHLYKNNNCVLQMGGSDQWGNITTGTELVRRMGGESAKAFALTTPLITKADGSKFGKSEG
+GNVWLDTDKTSVYKFYQFWVNSTDVDAEKYIKIFTFLDKDTIEALIEEHRTAPHLRVLQK
+KLAEEITIFVHSEEELEKAIQASNILFGNSTAEDLKKLDEATFLEVFDGVPQAEIAKADL
+ENGLEIITVLNEKTGFFKSNGEARRALTANSISVNREKIKEDFVLTANDLINNQFVLLQS
+GKKNYFVIRVK
+>tr|A0A1S1J0E6|A0A1S1J0E6_9FLAO
+MIYPKIALAQSIIEICSGKGITNIIISPGSRNAPLTIGFAQNPNFNCYSIADERCAAFFA
+LGIAQQTKMPTAVVCTSGSALLNYYPAVAEAFYSQIPLIVISADRPQSKIDIGDGQTIRQ
+ENVFQNHSVYNANLTEEASIENDLKINKAIEAAILQKGPVHINAPFEEPLYETVSELSVA
+PTITHLEEIIGAGTIENEAETVSVWNASKRKLILIGGINEANSVDKEILENFAKDPSIVV
+LTETTSNLHHPSFINSIDTLITPFDDADFKDLEPEVLITFGGMIVSKRIKAFLRKYKPEH
+HWHIDTLRAYDTFNALTKHFVMEPDAFFKALLPKTEFAASDYFSKIDQIYDLRKIRKEEY
+LRKIAFSDFKVFEKVIGSLPKNSQLQISNSSAIRYAQLIEIDPSIEVYCNRGTSGIDGST
+STAVGAAVGNDKQTVFITGDISFLYDSNALWNSYIPENFKIILINNGGGGIFRILPGHEE
+KPVFNTYFETSHHLTAEHLAKMYKMHYFAATDEESLTGGIKSLYATNNAPCILEVFTPTL
+ENDVILKQYFKELV
+>tr|A0A1S1J4D5|A0A1S1J4D5_9FLAO
+MKKTIAIIGSGFSSLAASCYLAQQGNTVTIYEKNETIGGRARQFKKEGFTFDMGPSWYWM
+PDVFERFFQDFNKNSSDYYKLIKLNPAYRVYFGLNDFISIYDNLEEIKNTFEEIETGSGE
+KLQKFINHAKSNYDIAIKDLVYRPGVSPLELITIETAFKLNQFISTVSTDIRKQFKNQKL
+IQILEFPVLFLGAKPTKTPSFYNFMNYADFGLGTWHPKTGMYDVVRGIEKLALELGVTIK
+TNSPIEKIIVKDKKATGLLIDGKTIEADIILSGADYHHTETLLDIEHRAYSEKYWESRTF
+APSSLLFFVGFNKKIANVTHHSLFFDVDFNQHAADIYDDPKWPEQPLFYANFPSKTDSTA
+APEGMESGFFLIPLAPGIQDNEQLHEVYFEKIISRFEQLTNQQIKNSIIFKRSFCKNDFV
+DDYNAYKGNAYGMANTLLQTAFLRPKLKSKKVRNLYFTGQLTVPGPGVPPALISGKLAAE
+LIQKSFSS
+>tr|A0A1S1J5U7|A0A1S1J5U7_9FLAO
+MAKKGNRIQVILECTEHKTSGVAGTSRYITTKNKKNTPDRLEIKKFNPILKRVTVHKEIK
+>tr|A0A1S1JCE6|A0A1S1JCE6_9FLAO
+MQKQYKHLFKRYSEEKSSEKEKKIIDTYFNKIQYNGITEQNIDNVLGDRILLKIEERLER
+KKKTYYYRISASVAAVILLGTLLFTFNSIFKTNHFITVAAQFGEQKNVRLPDSSVVYLNS
+GSSIVYPEHFGEDSREITLKGEAYFEVVHKEKHPFIISSAHFKTQVLGTRFIVTNYEKGL
+ASVTVVSGKVKVTDQHSSKSEIITKNQRVSYDDVSGAFIRSNNIESSNYLAWREGRIFFD
+HAQIDQVLLTLQRKYNVVLKLDSKPYQCNTISGNFSGNDIEKILSSIRFINDMEYSTIKN
+DTIKIKLKPCKN
+>tr|A0A1S1J2T1|A0A1S1J2T1_9FLAO
+MKQTPTFFKILFLVLFISCNNYAQQEDDFSAKIDSLIQTTNPRNFNGAIVIKQNGKIKYA
+KAHGYSDFNKKTELKISDKFSTMSIAKQITATLILQEVEKGTINLETPIRKYLPELKYSW
+ADTITVNQLLNNTSGLSSEDIDKPLKFTPGAAFNYSNIGYYVAGQVLEKQSHKSFEELVT
+ALFKKCGMTNSYYPNETNNTFLTKGHSIKKEGSIKLNEQLNFDIHNYFGSHLIVSVPDLA
+KWNECLHSGQLLKPATYKMMIAYSITNTHPLFGDKPIGYGYGLRINDKTNIMEIGHTGFH
+PSEGFTAVNLYYPKTKTSVIVMENQAFENFSIAYYFEQEIRKIVRKSNLLN
+>tr|A0A1S1J3K9|A0A1S1J3K9_9FLAO
+MIDTIIFDFGDIFINLDKQATISGLQKLGLKEWNTELDQLNLLFETGDISTEDFLTGFQK
+QLPNATTEQILEAWNAILADFPLYRLEFLQLLSQKYRLFLLSNTDSIHIETFESKTGISF
+YSDFYQCFEKVYFSFEIGMRKPNAEVFQYLINKHELSPKRTLFVDDKKENTDSAAALGFH
+VWNLQVGQEDVIDLFDKQIL
+>tr|A0A1S1J771|A0A1S1J771_9FLAO
+MILKDFYNEKKNAIQSEFTSDAPTVQLYSDAIFKTSIETPIVMFKYDNINWETSSEKNYK
+ADVSFCLYIVLPVDTISSTSYANAFNLAQRIDKAVLSKNNSNTHIDTNSTFKIREKQCTN
+EHTYWNKNDYFIWEITYKTTLIENTLKKKYILFNNGLSNEALEDLGYNLTSDIISINPNQ
+VKGAIDLDTTP
+>tr|A0A1S1J7X7|A0A1S1J7X7_9FLAO
+MINRQDSFKMKNRKKLLVIVFVFLIQFIQAQDFELARAKRFFDKTHYAEAITLYEKLAEN
+KPSQEVIRNLADSYFYTNDLIKAQRYYRLLIQNYGNGLDRNYYFRYAQTLKASNSYDDAN
+AALKEYYSKSNDSDAVSNFEKELKTLENVSAIGKRYELKNLAINTPNSEFGAVKYNENLV
+FAGVKLKPGLLDKKFKWDNETYLNLVSIPLKNSNSADSIVHYFAKELKSGMHEANAVFTK
+DGKTIYFTRNNSKNKSKKTNEQKISNLQIFKAELVEGKWKNVTSLPFNSSEYSVEHPALS
+PDEKVLYFASDMPGTLGSFDIYSVNINKGAFDTPRNLGPTINTDKREQFPFVSTDQKLYF
+SSDGHLGYGSLDVFVSDIKGNEYSKPVNVGQPLNSNGDDFSFNIDADTKEGYFASNREGG
+KGSDDIYQIKEIKDLIVEDCKQFITGVITDVDTKLPLENATVILQNSDQKVLNTTITTTD
+GKFSFTVDCESSFIVLSSKEKYTSESRIISSGKTRNASHDASMALRSLEVIKQEELQTAE
+KKRQEEQQLAEKKRQEEEIDTKRRKEREALAAIALKEADKKAKADEIIAKDIRKKEKTAQ
+ILAQEKDVVKDNKGRLIIKTDPIYFDYNLWYIRKESKVVLGRVVELMKKYPDMVIEIGSH
+TDSRGNEKFNANLSQKRANSTRDFIIESGINAKRVTAKGYGESVPIVKCNPDEACSEEEH
+ELNRRSEFVIKDL
+>tr|A0A1S1J5U6|A0A1S1J5U6_9FLAO
+MIQRIQTVYLILTFLITGVLLFFTPLWTLNNGKPFYFMQDKFYTILLGLSTMLTIISIIS
+YKKRQNQFVMGRLNIILNLILLGLFVYRSLNLSGDTTTIVSEKGIGMFLPIVAIVLLVLA
+NKAIKKDEDLVKSVDRLR
+>tr|A0A1S1JC70|A0A1S1JC70_9FLAO
+MKILLNLRAALLLVMIVILSLVSAYYNFSIENDTKDILKANYNTLDYSGNMLLSLDKMNS
+DKENAILVFQNNLTRQMENITEEGEQKVTYDLQVNFDALKRNWNDENLKSKIRQDIFHII
+KLNMAAIKKKSDIVTHTTEKANFWIAILGALCFLIAFNLILKLFSNKQK
+>tr|A0A1S1J9M9|A0A1S1J9M9_9FLAO
+MDRLKQITIITLAMCFQQILFAQKNNAVTELNTIDQNLNESIYISTNANSYITGESLFYK
+IFCINKSTNEISKYSKVAYLQLIDKNKTTILTHKLFLENGTAGSDFFIPTTLETGNYKII
+GYTNWMLNKEVSEYCNIDIYILNPYKDKPVNTISQKEVTLAETITNRDISFNLKSKIYKN
+RDQAELQINTNSDEFTKGNYVLSVRKADGFIAQKKINFEELSAGNTYKSSLSEIKNPNFL
+LPELRGELISGKIRSRNADIKNKKVALSIVGKNYTLKLAKTDNEGNFIFNLEKPNSNSNV
+IVQILEDNKQDYTIEMDKPKNINFSNLSFPEFQFNSDFKQNISERLISTQIENAYYNLKK
+DSILASNDTIPFYNNLSKEFKLDAFTRFATMEETITEVVKGVYFSKDKNNYAIHVYDYDP
+NYESPLPTLIIVDGLIIEDLNELFRYNPKNIHKINVVKGIYNYGAKSFNGLVSFTTKNGD
+YETKLKGSFIIRPELLRPQSKKEYFKPDYTGTKNERIPDYRHQLLWIPKVDLSDTNSKIQ
+FYTSDVSGKFEITLEGFSASGKPVFIKETIEVKEALSN
+>tr|A0A1S1J2X1|A0A1S1J2X1_9FLAO
+MPTNINTILSWFKTGKKPTQKQFSDTWQSFWHKDEQIPQSSIENLAQTLNNKTERTQFED
+HKTDKTAHETLFASKENIANKNMALSSLSTDTDYPSSKAVYDFVNNLIRSENNVNTEKIL
+NLVESNSLIPGNYYLINDFQTIYTINGSNSAPTLFKRRINSFPAKYAALDVGYDLNLTVG
+KTVVITKLPNDYTGPLLVGSTTTVTTVASQGYYFRFANGMQSIIGLEFEYSMPKYSNGIA
+DNLTVNDVNGNPVIRPGGVLNTEVHNGTAYMDMSADENLNVPLESIILKAKSTKEFELEG
+KSVTYPDDIIEYKLPIEGSVAKKGTILRRYNKALNIDLKIDWRVQRYRRWKISADSILKT
+LNQDQPVTSLTGFAGVYQFTATKSTTATPERFYVAYDLDYKSLTIDADTKIVDFTMEVSS
+NIHAKDFTIFKLDQNHQPVNVKMMKVSGLFENTVIQYNLGELNFDTNVDAETLSNTTFVC
+SVVITGNSSQISNSLFLDTLYNINSKIVINNLKSLSQLSIDASSFSQISNSVIGVNLNNY
+SSGSKPSVRWIKIENIQSSSLNKVLLGGALPSYNFNNSIIENSTLYFYNNLRNEASPIYT
+NYSKLIFNNCLIFSMSIFNRSKLGNTIFNGITSSVNYISTSASGRDVYINSVDLDEMKIQ
+MNKFNHKLFYEERDASDTLSIKTYASPLL
+>tr|A0A1S1J5J9|A0A1S1J5J9_9FLAO
+MIPSAYTLRNALPSEFEEIGKLLISVYSQLEGFPKENEQPNYYKMLANIGDFTHQPQTDL
+LVAADENNTILGAVIYFNDMKNYGSGGIATQEQNAAGFRLLGVAQTARGKGIGKLLTQEC
+IQKAANNKRTQLIIHSTLAMKTAWEMYEKLGFKRSEDLDFMQGELAVFGFRLPLNS
+>tr|A0A1S1J6L3|A0A1S1J6L3_9FLAO
+MENVKSLNKWANSHTYLPVDLVRIVLGVFLFMKGVSFVTNVQYLHDLISPIDKFGGGMFL
+LHYIAPAHMIGGIMIVFGLLTRWAIAAQLPILFGAVLINFMGHMHSESLILAIVVLLVCV
+FFLFYGSGKHSADYYFKMQQ
+>tr|A0A1S1J4R3|A0A1S1J4R3_9FLAO
+MNFSESIPMCVFVLTKVFLIVEELLSESYFNAFFTLKKQRYIPESRKSTFSTTKNGFQD
+>tr|A0A1S1J3P1|A0A1S1J3P1_9FLAO
+MNLPAGHQTIMPYLILNGASQFIAFTQKVFDANNSPSDNVLRDDGTVMHAEITITGSTIM
+VTDVVEDWSRQTANLFVYVPNVDETYKKALENGATSIMGVSDKEYGRTCGVTDPFGNVWW
+ITSIIE
+>tr|A0A1S1J7H3|A0A1S1J7H3_9FLAO
+MTIPAQFDAKTIENKWYDYWMKNNYFHSEPDHRTPYTIVIPPPNVTGVLHMGHMLNNTIQ
+DVLIRRARLKGFNACWVPGTDHASIATEAKVVQKLKAEGINKNDLTREEFLAHAWEWTDK
+YGGVILDQLKKLGASCDWERTKFTMDPDMSASVIRSFVDLYNKGLIYRGYRMVNWDPEAK
+TTLSDEEVIYEEQQGKLFFLKYKIEGSEDFLTIATTRPETIFGDTAICINPNDERFAHLK
+GKKAIVPICGRVIPIIEDEYVDVEFGTGCLKVTPAHDMNDKTLGEKHNLEIVDIFNEDAT
+LNSFGLHYQGKDRFVVRTEIAKELEEIGALAKTEIHLNKVGTSERTKAVIEPRLSDQWFL
+KMEELVKPAIKSVLETGDIKLHPKRFENTYAHWLNNIRDWNISRQLWWGQQIPAYYYGDG
+KEDFVVAETIEEALVLAKERTSNNSLTAADLKQDVDALDTWFSSWLWPMSVFGGIMDPES
+ADYKYYYPTNDLVTGPDILFFWVARMIIAGYEYAGEKPFTNVYLTGLVRDKQRRKMSKSL
+GNSPDPLDLIDKFSADGVRVGLLLSASAGNDIMFDEELCNQGKAFSNKIWNAFKLIKGWE
+VSETIPQPESSKVAIEWYEAKLQQTLVDIEDNFEKYRISDSLMAIYKLVWDDFCSWFLEM
+IKPAYQQPIDKGTFDKAIEMLESNLKLLHPFMPFLTEEIWHLLADRTPEEALIVSTWPEL
+KPFNASLISDFESTIEVISGIRTIRKDKNIPFKDAIELKAINSENITTYFDSIVTKLGNI
+SAFEYVIAKVDGALSFRVKSNEYFIPISGNINLEEEIAKLTAELVYTQGFLKSVQAKLSN
+EKFVAGAPEKVLANEKQKEADALAKIATIEQSIAGLK
+>tr|A0A1S1JCR8|A0A1S1JCR8_9FLAO
+MEQMSKEEIIINKIAQDKIDFNIGVQLLLEDAEYNFERLFTTLKNYIFNSIPEKTHYDTE
+TYQHALQTIPLKSTYTPIVLLKSYPTRIAFYKLAELPENENTKVLSSLLWIFKVTDTERR
+NTECKNGCGHFWHE
+>tr|A0A1S1IZW7|A0A1S1IZW7_9FLAO
+MKDLIDKLQGEGILLELIDNKLKVFAEKSTIAPGLIEEIKKNREELTLFLLNSQKLQASK
+PVWPEILKTADLEYYPLSSSQYRMWVLSQMEESSKAYNVPALYTFEGNLNVKTLEHAFQL
+IIERHEILRTRFVNKENTVVQKIIPAAAIQFKVEEINLRNQTTSAEELINKEMSYSFDLE
+KELLLKSIIYQTEDQKWIFFFMIHHIISDGWSMGILINELLENYTALEKGENVAKEPLTI
+QYKEYAVWQQKLWSDDYFAAHKEYWLSQISGEIPKIQLPFSKTRPVLKTYNGDTVYRTIS
+KEISTKFRRVCLDNESTLFMGLLATLKIVLYKYTNQTDLIVGSPIAGRELQVLHNQLGLY
+LNTIALRGVMNPKDNFESFLKNIKESTLKAYNYQSYPFDKLIEEAQLETDLSRNPLFDIF
+LILQNNESTNVKNIGDQLTVQALETENKTSKFDLLFNFVEVDENLELSIVYNTDLYDTFF
+IEQITIHFEHLLNLVSDTPSETIENLSLVTESEKKKLVLDFNATQFSDQVCAPLNVLFEE
+QVEKFANHTALRFKEKEFTFQELNEKVNQLAHYLREEKNIKQGDFVVVKLPRSEQMIVAL
+MAIIKAGGAYIPVEPQYPQERINFIIADSQCKFLIDGETLENISEQLASLPKSNPENHNK
+VTDLAYVLYTSGSTGNPKGCMITHEGVTNRIDWMWNEYHYSSKDVILQKTTFTFDVSVWE
+IFMPLCWGTKMVLCEQEDISEPHRILNLIQNNGVTSLHFVPSMLNTFITSVTNTEQLGNK
+LSSLRAVITSGEALTPLTVKEWYNKVSAAPIYNLYGPTEASIDVTFFNTNVDNEIVPIGK
+PIWNTQLYILSESDAVQPIGVAGEICIAGKGLALGYLNNPELTHQKFVPNPFQPGAKMYR
+TGDLGMWLPDGNVAYLGRKDFQVKIRGFRIELEEIEAVLNQHPQIQTAVVLDHTNENSGD
+KYLTGYIVANGELVKEELNLWLGTKLPVYMIPSNFVVVNEIPLTNSGKADRNKLRQSNGL
+SLKTAIAYVPAQNELEQKLVVIWEGILNQTKIGILEDFFTLGGHSLSATHLANSINREFN
+VKINLRDIFENRNIQSLAKKIAGTTTTVYQEIKKVPESSSYLLSSGQRRLWLLSHLDDAS
+IALNMYKTFTFTGVLDISVFAAAFLAILKRHESLRTVFRLDENGIVKQYIKAFNENLLNL
+TTEDFRPNQYSQEVIDAKINQEIDKPFNLEEDSLLRLKLYQIKDDQWMFSFVMHHIISDG
+LSMNILTKEFVSNYQNLSQGKTITASELKIQYKDYAQWQTEQFQSEEYKNQLQHWLKKFE
+GEVPVLDFPTDKSRAAINVYDGDSVDFTIEKETFSKFKNFCESHSITVFTGLLSLVKTLL
+YKYTHQQDITIGTPIGGRIHTDLEDQIGLYINTVPLRTVFNENHDFISLLHQVEQSVIDA
+QENQMVAFDELVLNLDLQLSRNRHPLFDVWFVLRDNSIEADKQALEIDHLQIAEYDDVTL
+KKCLFDLVFNFIESEGQLEGKIEYKSGLYVRETIVRLISNLKVLLHQVVANSDQSLSGLS
+FLNAEEENLLLHVFNDTTRDYSAQPDTLIGLFQKQVLETPEQTALVFEDKKITYQELDEV
+SNKLGNYLKKKYGIKANEFVGVKLDRSEWNVISLLGILKSGGVYVPIDIAYPEERIDYII
+ENSDCKQVIDSDEIYDFRSMEKLYSSVMEQSNSSADDLAYLIYTSGSTGLPKGVSIKQGA
+ISNTILSQMEIFGNENKEKALQLASFSFDASISEIFTVLASGGELHIITDEVKKDTEELE
+NYIEEHAIHFATISPSYLKLLQLDKIKSLKKLVTAGEAAPTEEVKKYLTYGGTCFNAYGP
+TETSICATIYKVNENQLQELSNVPIGFPIANTKIYILGTNEKLLPLGAIGEIYVSGAGLA
+EGYLNKPELTNQKFIDNPFAEGEKLYKTGDLGKWLPNGTIEYAGRNDDQVKVRGFRIELG
+EIETVIKEHEAIEDAVVVVKEDSLGIKETVAFFVLKADSVSDSDDIKEFLEDKLPEYMIP
+SHFISLKEFPLTLNGKTDKKKLLQNKSLTENVSRNYLAPRDETESKLAALWEEVLEIDKV
+GVLDDFFKIGGHSLKATYLITRIKAEFNAKLDLISIFNNATLGEMAAEIKKAQLVNAEVV
+ITDDFENISL
+>tr|A0A1S1J3N5|A0A1S1J3N5_9FLAO
+MKNKLSTEQSEELLKVLQIRFENNMKRHTGLAWDDVQQKLEANPAKLWSLDEMERTEGEP
+DVVGFDEKTGEFIFFDCSPESPKGRRSLCFDHEALEKRKEHKPAGSAVNMAEEMGIELLD
+EVQYKELQKLGKFDTKTSSWIVTPSEIRKLGGALFSDFRYNTVFVYHNGAESYYAARGFR
+GSLRV
+>tr|A0A1S1J446|A0A1S1J446_9FLAO
+MIFSEATIQDLVKEHYGLTVTVKALNGYDELNFLLSNEKNEKYILKVSNESHPFPFLEAQ
+INIIQHLKKSPVSNCFQHFSINKHGEELTKIVGNSQTYYIRILNFLEGVFWVDEKAKTKE
+LQYDLGSFLGKMDHALQDFSHPAMHRNYTWDISRASEAADNLKYILNHEKRRIAGYFLLQ
+FDTEVLPQLHRLRHAYVHNDANDYNVLVQHNRVSGLIDFGDMVYTALINNLAIACTYAML
+DEEDPLAVAALIVEGYHKSYALTEQELDVLYYLIAGRLCISVTQSAYNASLDSNNEHHFI
+TEKPAWNLLFKLIQINPIKAQDAFRKACGFEGVITTDDYSDLLEVRKKKIGRNLSIGYQD
+KLKIVKGALQYLYDDKGRTFVDCVNNPSHVGHCHPVVVRKMQKQIATLNTNTRYLNDAIT
+AYAEKLTATLPSKLSVCYFVNSGSEANDLAIRMSRHFTKQKDIIVLDHAYHGTSTVAMEM
+SPYKFDSKGGFGQMPWIHKAINPDLYRGPYKYGDTNAGEKYAADVQRIIEDLQKENNAPA
+VFICETLLGVGGQIPLPENYLKTAYDYVRAAGGVCIADEVQVGFGRIGDHFWGFELQNVV
+PDIVVLGKPIGNGHPLAAVIVTEEIADAFNNGMEYFNTFGGNPVSMTTGLAVLDVIQEEE
+MQQHALETGNHLMDGLRKLMAKYPIISDVRGHGLFIGAEMVKDRSTMEPAVPEIDIVVEK
+MKAHGYLLSTDGPLHNVLKIKPPMTFNKQNADEMVRLLDIALSEL
+>tr|A0A1S1J6T4|A0A1S1J6T4_9FLAO
+MRKILLLSFLSLSLNSAFAQSAPYWQQHVDYKMEVSMDVKNYQYKGKQELVYTNNSPDTL
+KKVYYHLFLNAFQPGSEMDARLHSIKDPDGRMVNKVKGADGKETKQSRIETLKPNEIGYL
+KISDFKQDGVSAQTRVSGTILEVTLAKPILPNSKTTFTLDFDGQVPVQVRRTGRNNSEGV
+ELSMSQWYPKLAEFDFEGWHADPYIAREFHGVWGNFDVKITIDKEYTIGGSGYLQDKNQI
+GHGYEDAGITVTYPKKTKTLTWHFIAPNVHDFTWAADKEYTHDIVKGPNDVDLHFFYKNN
+PKTTANWKQLEPLMVKVMDYYNHRVGAYPYKQYSFIQGGDGGMEYAMCTLMLGNGTLEGI
+LGTATHELGHSWFQHILASNESKHPWMDEGFTTYIEDSALNELKGDKKEVNPFKGNYAAY
+YSLVNSGKEQPQTTHGDRYDENRPYSISSYVKGSLFLSQLEYVIGKDNVDATLKRYYNDF
+KFKHPTPNDIKRSAERVSGAELDWYLIDWTGTTNTIDYGIKEVADNAGKTNITLERIGRM
+PMPIDLTVEYTDGTSESFYIPLRMMNFIKPNPNPNVKRTVLDDWAWAQSNYSFTIDKNKT
+AIKKITIDPSGLMADVKAANNVYEVK
+>tr|A0A1S1J7F3|A0A1S1J7F3_9FLAO
+MEMEQFYYDNKIVKKFIYATILFGVVGMLVGLTLAVMYLFPNITDGISWLSYGRLRPLHT
+NAVIFAFVGNAFFAGMYYSLQRLLKARMFSDFLSNLHFWGWQLIIVAAAITLPLGYTSSK
+EYAELEWPIDIAIALIWVVMGINMIGTMLRRRERHLYVAIWFYLATFVTVAVLHIFNNIE
+IPVSAFKSYSVYAGVQDALVQWWYGHNAVAFFLTTPFLGLMYYFVPKVANRPVYSYRLSI
+IHFWSLIFIYIWAGPHHLLYSALPNWAQNLGVAFSVMLIAPSWGGMINGLLTLRGAWDKV
+REEPVLKFFVVAITGYGMATFEGPMLSLKNVNAIAHYTDWIVAHVHVGALAWNGFMSFGI
+IYWLIPRMTKSDLFSKKLANFHFWIGTLGIIIYTIPLYVAGFQQASMWKQFNPDGTLVYG
+NFLETVTAIMPMYWMRAIGGSLYLIGMLTLVYNIIMTVKAGQTIEDELAQAPALQRISSG
+RLNGEKFHTWLERKPIQLTILATIAILIGGVIQIVPTIMVKSNIPTISSVKPYTPLELEG
+RDLYIREGCVGCHSQSVRPFRSEVERYGPQSKAGEFVYDHPFLWGSKRTGPDLLRVGGKY
+NDNWHFNHMWNPQSTSAGSIMPGYKWLFDNEAMDVSLTQKKMKAMVSLGVPYTEEEIANA
+TKTLRAQAMTIEKSLENDPDYVKSYEDSKKKAIAKGEKFIPMNEREIVALIAYIQRLGTD
+IKVKQPSK
+>tr|A0A1S1J7S8|A0A1S1J7S8_9FLAO
+MENFQNIRIAVDAIVFGYKNNSLYVLLIEQKFGSADKYWALPGGLVKQDESLSDAVIREL
+HEETNVQLTFMEQLYTFGDDIHRDSRNRVISVAYYALVDASSLEIKADTDAERVQWFKID
+EIPDLAFDHNLIVKTALARLKAKLTYEPVGFDLLPQEFLFSDLENLYCTILEKEIDRRNF
+RKKILSYGFLDQTDHFSPIKSGRPAKLFKFNDLKYKELIGSGFHFEIKFA
+>tr|A0A1S1J964|A0A1S1J964_9FLAO
+MEKVLKTKKKIRFQDCDPFNHLNNAKYLEYFINTREDQIAEHYDLDIFKYLKETGLSWVV
+ASNQISYMRPAFTMETVLIESQLVQYSDNFLLVEMKMWNENETELKAILWIKFFHYNIQS
+IKRASHSDDLMKLFDSVVVPVEQPIFENRCLEIVQKLKSGVPA
+>tr|A0A1S1J0U2|A0A1S1J0U2_9FLAO
+MWDIDLTYRTEFQSTFDRLYQKRLDLQNSRPLPNIALHKIRESLSLEWTYNSNSIEGNTM
+SLRETQMVIQEGITIKGKSLREHFETHNHDKAIDYLYEIIDDTYKLRSIDILSIHGLVLR
+SIEDDFAGRLRNGGVRISGANFMPPNANKVSDYLDELIDFINTNPLDLNDIELATIYHHK
+LVWIHPFFDGNGRTVRLSMNLLLMRCGFPPAIILKNDRKKYYEALNQANNGNYQKLTLLM
+CQALERTLNIYLNAMPGNDYDYQKISDIVSEPETPYGQEYVSLLARTGKIDAYKEGRNWY
+TTKEAIEEYMLTRKRKR
+>tr|A0A1S1J4H6|A0A1S1J4H6_9FLAO
+MIDAKEKSCKGVGDAKGWGCGVLTKHRVYGLGKMCGCYSNWLLNTEKGKQKLERSIQLGK
+NKFRKEQQKKEVADKAIQKVAILSPDKYRAKHLQPIINEISRLIDFGQSCIASGNFGKMN
+GGHFISVGANRTTALNLHNIHIQSFESNHHKSGDQINYRLGLIERYGKTYFEFIETLQRH
+RPLHLSTDQMIEIASKASRIRLQLKNDPEQKTPFERIELRNKINIELGIYDRNFCEFKH
+>tr|A0A1S1JB68|A0A1S1JB68_9FLAO
+MKTILILFFISNFVFCQEVENIKKSDTVYIAFKKAKNTKKNIYTDNFREYIFSLDSKKNN
+QVEHLIFSKPDRKNSLTDKNNLVIDAKIENKSFLKKHSHNIIGVDFLKKFKEEYIVCELF
+SRSQIFYIVDFSESKKGNTKIYRVFLLNYCPISE
+>tr|A0A1S1JC17|A0A1S1JC17_9FLAO
+MATKDLTIILVHGAWGDGSHWQHVIPGLVKEGYKVRSVQNPLTSLQDDINKTQDLIDAQE
+GKVLLVGHSYGGAVISGAGHHDKVVGLVYIAAFAPDAGDSLGALLGRRPGSGGASIYPDP
+KGFLWIKYDEFHDAFAQDLDHKETLVLSLAQKPIHGQCFGDIAGEPAWKNKPSWYQISNF
+DNMIPPETEKEMAERINPKKIIRLDAGHASLASHPKEVTALILEAAATF
+>tr|A0A1S1JC36|A0A1S1JC36_9FLAO
+MLYLIIVTGSCTFLNRVKLFLYYINMQILTEESNMQIKKNADVFDFYKNSTRSMGRKREG
+WDNAVAESFFKSLKTNCFAAVN
+>tr|A0A1S1J713|A0A1S1J713_9FLAO
+MKHILFFILFFTAVTVSAQKEFGTKFKPIAAPKFGAKPKKTPIPEIKDPQGENLDMPGIK
+TPNVFDNTSITPKSQFQIGAEKSKFTMSTETDFANPGDRYVPKMEKDLDKALRDAGLKEG
+RGTLIKRNISLGDFRTKSQYFIIKLRDFGAIDGDLVKVSSNDAVIASQILLGSNFKEVKI
+NLAAGFNKLDFEALNIGTLGGNTAEIQVYDDKGQLVTNDYWDNLAAGFKASIVVTKE
+>tr|A0A1S1J8L2|A0A1S1J8L2_9FLAO
+MSTFEKFNLPKSVQKAIDELGFVTPTPIQEKSFSVIMSGRDMMGIAQTGTGKTFAYLLPL
+LKLYKFTNTNTPKIVILVPTRELVVQVVEEVEKLTKYMSVKTLGIFGGVNINTQKKAVYE
+GVDILVGTPGRTMDLALDAVVRFDETQKLVIDEFDEMLNLGFRTQLTALLAMMKTKRQNI
+LFSATMTDEVDAVLNDFFDFPEEVTLAASGTPLEKITQITYNVPNFNTKVNLLKHLLETN
+ESMERVLVFVNNKKISDMLHTRIEEDFEGQFGVIHSNKSQNYRLSTMAEFQEGNLRGLIT
+TDIMARGLDISNISHVINFELPEFPELYMHRIGRTGRADATGTAISFITPREEEFKIEVE
+VLMNQELEIADFPEEVEISTKLIEPEKDKQPIKFLMKKPKLEGDGAFHEKSKKNKKVNLG
+GPSKTKKKTHGSVNRNMLKTRDKKRKDKDK
+>tr|A0A1S1JBF2|A0A1S1JBF2_9FLAO
+MPKFLLSLIFICATTFMWAQDSQQEKLEQRKAQIQQEIRDNEKMLQSVKKKEKSAVNVYL
+IQSNKIKLKEKLINTTAKQEKLLSNDMYINQVKVNKLKKELEVLKADYSKMILKSYKSRS
+EQSRAMFILSSESFLQAYKRAQYLKQYTNFRKNQGLEIQSKTAELEDYNARLNGQRIVKK
+KIIAENEKEKQSLETEKKEQQKLVNSIKKDKNKIIADTRSKQQEAKRIDRQIDRLIREAI
+AEANRKAALERAKENPGSTASKTPVSSSKIALTPEGKILAADFKANRGKLPWPVEKGFIS
+LGYGDQPHPLYPSLTVHNSGVEITTEQGASARAVFEGVVSSVIVLSPINRAVMIQHGDYF
+TVYQNLSQVFVEKGDKVNVKQSIGKVRTSGDTGKTIIKFLILQNTSNNNPEGWLQNR
+>tr|A0A1S1J1H1|A0A1S1J1H1_9FLAO
+MKKSKYLFPVITFLLSFGCALFVALKVFPNNPFSHTKTKEENTLQTKIQDGDIIFQTSQS
+PQCEAVRIATNSKFSHCGIIYDINGKWFVFEAVQPVKLTPFNEWVQNGKEAKYLIKRLKN
+SDQVLTPVVLQKMKAYSQQFDGREYDAYFEWSDTRIYCSELIWKIYKNAANIELSKLKQL
+KDFNLTDQRVQKIIKERYGNNIPLDEKVVAPVDLADSDLLKTIIDTY
+>tr|A0A1S1J5G5|A0A1S1J5G5_9FLAO
+MFGICNLAIVPVRAEPSDRSEIVTQLLFGEHIEILERQNQWARIRIQYDDYEGWVDSKQY
+QIISEANFNQLSSEAIILNADLIDYITSSNNLLLPIPLGASLSFLNNSEINISNFDFEGT
+KTSGIKPKSAIISTAFMYLNAPYLWGGKTPFGIDCSGFTQMVYKLNGYKIHRDASQQALD
+GEPLSFIEESEAGDLAFFDNDEGNITHVGIIMDNNYIIHASGKVRIDRLDHLGIYNPETN
+KHTHKLRVIKKII
+>tr|A0A1S1J0M9|A0A1S1J0M9_9FLAO
+MNTIAEHIADFLKEYPPFDNLTFQELSDIATNIRVINLEKHAVLFQNNDLLHDSFYVVAS
+GIVNLTTIADAEETIINKCHEGDIFGLRPFFAKNNYMMTAKAREESIIYAIPIAVFRPFV
+ANNSDVLNFLLESFAVNSRHAKDNVHSNGKLISDTAFYVDQQSEMQYIQSLAYNNSPLTT
+ESNHIIKDVAILMTESLVDNIVICEKNNPIGIVTNADLSSKIATGRYPITETIDKIMSSP
+VVTVIENVSLAEAQLLMLKHNVTHLCVTKDGTSKSAVKGIISEHDLIVAQASNPGVLIKE
+VKRSQLPKDLKQIRDRLSDLIQNSIQKNIPISHVSNIASEINLAIIKRAVELSILDLGSP
+PARFAWLSIGSQGRKEQLLLTDQDSILIFEDVAPDKYREVKDYFLRLAKRTTSILEKVGY
+ELCPNGHMGSNMLWCKSLTDWTKQYNSWMNTPGENSNDLSSIFFDYEIVFGEPKIEEVIE
+NVIFKNAVNNTLFFDFLGNDALKRNSPLSFFKKFIIEEEGPHKTKFDIKTRALMPLIDSA
+RLLILNANIKGIKNTYLRFKQLAITDSKNAEIYLSCAEAFLTLSKFRTVEGLKNDDSGQY
+INLREMSKTDKEKLKNALTPMKDLEELIKSKFQLTQFS
+>tr|A0A1S1J3K8|A0A1S1J3K8_9FLAO
+MKKAGLIICLLLLLGCKSKTIHRDTEDLKIKKVTAAEINSNQQKKAYELGKRVLETCNSS
+KFKPFNETEVTKSVMENTTEERLTKTCQRFRQYYGSFIDLKLDGVYRTKQEVIYRYHALY
+TKKVANKELRIFVNEDNLISAIKSMDWDEKFDSKVTEQ
+>tr|A0A1S1J963|A0A1S1J963_9FLAO
+MIKKLFLVSLVASQLMVSCSSDDSKDEPTKEQTLAEQIENLSKQPYSKLTPAEQKVKLEA
+EANEMLAQLDKSKSSGAIEAIQNLGRLLGLREVDIFNGKSDNAVEDILNVSGVYGIYTWD
+NAAKNWVKTASTTELKFVFPAKASQTANNAIFSAKSTSSDIKVKNIDTYGNWTYDPVKQQ
+YIQNPSVYDYFFLPTSADATLTIDNATAATFTQTAKYSNKKEIPDEFAYKMTLNDGYAWE
+MSGKKALESSSKATFTFNGKTLVDFNAGSTANIDGLLENDELVQYRGKANGVIKLMDNFI
+IVANMDLATEAADDIALDKSIVRPAYLTDNTNPKNDYKAYYTALNAYEKKYSEGLVALFN
+KNIKLILVSKKDGTKIADIIKRSEARGNYTFNLPVWNEKNKYWSWNTAQGESFSQPYMEE
+IYYLKFSDNTEVEMSTYFSEGFTALETKFENFVKAFKR
+>tr|A0A1S1JAU3|A0A1S1JAU3_9FLAO
+MAEDTTFELRSEEVQDILTKVPHWMIRWGTVLIFVIITMLFFVSWFIKYPDVVATQIVIT
+TNIPPEKIVSKSSGRIEAILVKDKSIVSKNSTLAVIENTANYKDVFLLKKIVDEYNINDS
+RKAFPFELLKNTQLGEIESAFAVFQKDYQAEQLNKNLQPFEVENRAQVSEKVQIKDRLEI
+LQQQKVINESELQLQKNEMARFETLFNKGIISAQEMEAKKLGYLQAQKNYKTLLSSISQL
+KSALITNTKLSQNSQISGTKEEVTLGRNMAQSFYQLKKVIKDWELAYALKSSVSGVVTFL
+QVWTENQTINTGDNVFSIIPDTKNGFVGKVKAPALNSGKIKVGQIVNIRLANFPDREFGV
+LRGKIQNISLVPDKDGNLLLDVALPNGLETSYKKQIVFQQEMKGSAEIVTEDLRLIERIL
+YQFKSLFEQV
+>tr|A0A1S1J2A8|A0A1S1J2A8_9FLAO
+MSNISLIIEERAANIGNFMVGRLLPFREKRAVGPFVFIDHMGPAHLNQYQNMDVPPHPHI
+GLSTLTFLFEGSIMHRDSLGTELEIKPGAVNWMTAGKGIVHSERTPEYLRHSDKMLHGLQ
+IWVALPKELEEMDPNFTHVEASDIPSWEEDGVSYKLIAGEAFGKKSPVPVYSPLYFIEIK
+STEARKINIGQDLFGESGLYILEGSIKSGEHVYDPKQILITNDSTLCEFEIAENTTVYIF
+GGQPFPEEHFIFWNFVSSDKNRIEKAKKDWTEQTFPKVPGETEFVPLPDPKMR
+>tr|A0A1S1J8H5|A0A1S1J8H5_9FLAO
+MAYLFTSESVSEGHPDKVADQISDALIDNFLAFDADSKVACETLVTTGQVILAGEVKSNT
+YLDVQQIAREVIRKIGYTKSEYMFEANSCGILSAIHEQSADINQGVDRAKPEEQGAGDQG
+MMFGYATNETENFMPLALDLSHKLLQELAILRRENKEITYLRPDAKSQVTLEYSDDNKPT
+RIDAIVISTQHDDFDEEAAMLAKIKKDIIEILIPRIIAKNPAHAHLFNDKINYHINPTGK
+FVIGGPHGDTGLTGRKIIVDTYGGKGAHGGGAFSGKDPSKVDRSAAYATRHIAKNLVAAG
+IADEILVQVSYAIGVAEPMGIFIDTYGTSKVNLTNGEIAKKVEAIFDMRPYFIEQRLKLR
+NPIYSETAAYGHMGRKPETVTKTFSAPGGNEKTVTVELFTWEKLDFVDQVKAAFGL
+>tr|A0A1S1IYU8|A0A1S1IYU8_9FLAO
+MNINKFTIKSQEAIQLSQQLAQRNGQQQIENEHIFKAIFEVDENVAPFILKKLNVNVPLF
+LQILDSTIASFPKVSGGDILLSRDANKALNEAEIIAQKMNDEYVSIEHLILAIFDSKSKV
+SQILKDQGVTGKGLKAAIEELRKGERVTSASAEETYNSLNKYAKNLNELARTGKLDPVIG
+RDEEIRRVLQILTRRTKNNPMLIGEPGVGKTAIAEGLAHRIVDGDVPENLKDKIVFSLDM
+GALIAGAKFKGEFEERLKAVVKEVTSAEGDIVLFIDEIHTLVGAGGGEGAMDAANILKPA
+LARGELRAIGATTLDEYQKYFEKDKALERRFQKILIDEPDTESAISILRGIKEKYETHHK
+VQIKDEAIIAAVELSQRYITNRFLPDKAIDLMDEAASKLRMEINSKPEELDVLDRKIMQL
+EIEIEAIKREKEESKLKILGMDLANLKEERNEIYARWKSEKDIVDGIQAVKLEIEGFKYE
+AERAERDGDYGKVAEIRYGKIKEAQERQEVLQKQLLEFQSGNSLIKEEVTREDIAEVVAK
+WTGIPVMKMLQTEREKLLHLEDELHKRVVGQEEAIEAVSDAVRRSRAGLQDMKKPVGTFL
+FLGTTGVGKTELAKALAEYLFDDENAMTRIDMSEYQERHSVSRLVGAPPGYVGYDEGGQL
+TEAVRRKPYSVILLDEIEKAHPDTFNILLQVLDEGRLTDNKGRLADFKNTIIIMTSNMGS
+QIIQDKFENLKGSVESATESAKVEVLGLLKQTVRPEFINRIDEIVMFTPLTVDNISKIVG
+LQLKSVTKMLALQGITMDATPEAIAYLSDKGYDPQFGARPVKRVVQREVLNQLSKEILAG
+KITTDSIILLDAFDGQLVFRNQTHKEE
+>tr|A0A1S1IYX5|A0A1S1IYX5_9FLAO
+MYAILDIETTGGQFNEEGITEIAIYKFDGHEVIDQFISLVNPEIPIQPFVVKLTGINNAM
+LRSAPKFFEVAKRIIEITTDCIIVAHNASFDYRILRTEFRRLGYNFEARTLCTVELAKKL
+IPDQPSYSLGKLVRALGIPMADRHRASGDAMATTKLFKMLLEKDLEKTIVKDFIKLEVEK
+GIAPKFLDILAQMPAKTGVYYIYNEGGTLIYIGKSQNIKKRVNQHFTGITTKSKKIQAEV
+FTITYDETGSELIALLKESEEIKINRPKYNRSQRKTIFQYALYAEKDTNGYINLKLEKAD
+GRKKEITSFGTLQEGKNALFRFTSKYHLCQKLTGLYQTKKECFQYKIKECDGACIEEVTP
+EVYNARVQQFIAENSFENKSMILLDRGRNVNERSAILIENGLYKGYAFYDLNYQITNIEI
+LKNILIPMQHNRDVKNIIQSYLRKSKSIKVLHF
+>tr|A0A1S1J0S6|A0A1S1J0S6_9FLAO
+MKINLSPDWETVLKDENQKTYFSELMKTLEIEYQTHTCYPPEELIFSAFNTCTFQNLKVV
+IIGQDPYHGEGEANGLSFSVNDSVKIPPSLRNIYRELNDDLDSIFMPTSGNLEKWAKQGV
+LLLNASLTVRKDSPNSHKHLKWNLFTDAVIQAISDQKENVVFLLWGSFAHKKGAKIDRSK
+HCVLESGHPSPMSANQGKWFGNKHFSKTNDFLKSKAIKEIDWL
+>tr|A0A1S1J262|A0A1S1J262_9FLAO
+MLQPKRTKYRKVQKGKMKGNSQRGHELSNGMFGIKSVHEDGMFLTSRQIEAARIAATRYM
+KREGQLWIKIFPDKPITKKPLEVRMGKGKGAVEYWAAVVKPGRIMFEVGGVPLSVAKEAL
+RLAAQKLPVKTKFVVARDFEA
+>tr|A0A1S1J4B9|A0A1S1J4B9_9FLAO
+MRVGFNPFKDEPQKDSEFIHQIIIPVYIPNQEGYFKDSFAILKLCLESLFVTVHKKTFIT
+IVNNGSDIIIKEYLDFLLKQNKIHELIHTDNIGKLNAILKGLAGNNIELVTISDSDVLFF
+PNWQSETVKVFTHIPNAGVVGIVPQFKMYEQNCGNVIWDNLFSKKLKFIPVKNKKALIRF
+YDSIGWDRNYNQDYLEYNLGLEISSNLKVLIGSGHFVASYKKDIFDEIVSYIGFKMGGTS
+EGYLDKSPLKKNYWRVTTQDNYACHLGNTLEDWMSVPKASNTDIIQGGFNKNIKLNPVLY
+FIKNRLFVKFISVKWMKKIFLRYKKLPQPMIRNY
+>tr|A0A1S1J689|A0A1S1J689_9FLAO
+MKKLENKVAIVTGGNSGIGYAAAADLAANGAKVIVTGRNKEALAKAEAELKVTGIASDQS
+DLKSIDRLVAEVKDKFGKIDILFLNAGIASFAPLESASEGHYDSIMDVNVKGVYFTLQKL
+LPILNDGGSVVFNTSINANVGMENSGVYAASKAALLSLNRVFATELAPRNIRINAISPGP
+IETPIFGKLGLEKAEIEGFGAALSDKILLKRFGKASEIAKTVTFLASDDASFITGTEIVV
+DGGLTVNTVV
+>tr|A0A1S1J820|A0A1S1J820_9FLAO
+MLDRLQYVKQRFDEISDLIIQPDVIADQKRYVQLNQEYKSIKALVEKREEYILVLANIDE
+ANEIIADGSDADMVEMAKMQLDEAKERLPQLEEEIKFMLIPKDPEDAKNVMVEIRAGTGG
+DEASIFAGDLFRMYTKYCESQGWRTSVVDMNEGTSGGFKEVIFEVTGEDVYGTLKFEAGV
+HRVQRVPQTETQGRVHTSAATVMVLPEAEEFDVQIDMNDVRVDFFCSSGPGGQSVNTTKS
+AVRLTHIPTGLVAQCQDQKSQHKNKDKALTVLRSRLYEMELAKKQEEDATKRSSQVSSGD
+RSAKIRTYNYAQGRVTDHRVGLTLYDLGNIMNGDIQKIVAELQLVNNMEKLKEASEVF
+>tr|A0A1S1JA28|A0A1S1JA28_9FLAO
+MKPLSSILLMLFSILAMGQTKVKDTITRRANIVFIQNGNAVTYKPETPPLIPIAGAPKPS
+YSYLWELGDGHYSKEAEPKHVYKNKGTYTTRLAVTNNYDNGKPPATRPKKVAVNDLTDTN
+YKDIASIADQNGFAILKNCDPIPEQEMVVVVSYQNMENYVSSGKLYLFYNEKQFKNNNFE
+LVDYRTYASEREVKEKTVASVDDLDDSKNYVASAENTFKAKKYRNTTSEEDLDASLLDAH
+KTYHNVSVLEFDDANPNETRNVFYTFKTTPEMIKDTSATVTMRGIFVPNRSYKNHKIKNL
+EMEIVTSHDPNKMGSNGRFMNYRLVRFKRVNFKTRFQNNGEGPARMIRLETDIPDMFDKK
+TFQIEDMYPKCPICPKNEVPTTSCLDTIIKKNQIFFTFKNIYLPGSEQKNVHEKDSTKGF
+VKYSMKFGEDFHKVKTRSRTAIIFDKNEPIITNYATTRFLPGISIGAKAGYNLYPDLEKS
+TSYFVGATISPFKSYRFYWQAEWINALNKYESGLTVIDQTVAGANGVKQLQRTTTTTENK
+NVNWEIPVLIRYNLNNYIGVGAGIQANFDISSEQNQIQKIENFEGGTDQFLISTRTQSNS
+VKNGFGNLKTGVLLDLTAGFARIGPSFGARYVINFEQNFNYFQFYGIWRF
+>tr|A0A1S1JC49|A0A1S1JC49_9FLAO
+MKKIIVAITGMLMFSGCSNFDEINTNPNTPTQVSASLLATNIILSIAKYQGTDSKEYISE
+NALPKYVGYANEGQLGTQYNLIANSSFNKMTILPDIDKMLLAAQGSPAENSYKGIGHFIR
+AYTFYILTMKMGDIPYSEANLGLQGNYKPKYDAQKEVFMGILGELEQARLEFSQGLTFDG
+DPTIFKGNPQRWRRACNAFELKVLMTLSAKESDADLKIKEKFASIVNENILLQDDSDYFG
+LEYNTVNLHPLYSTNDMFTGRTILSDIVVDNLKRLNDKRLFYFAEPSADQIAKGLAQNSF
+MAYTGVKTSLDYGLMNANYAGGKYSKINLRYQTKQNSDPRRLLTYAEQELILAEASIKGW
+ITASNAQLYYENGVKAALKNLMSTDASFAHGNPIVQNDIDTYFIGEAAFSADAATQLKQV
+WMQRYLLNFLVDAETAYFEYRRNKYPDFNIDPTTNLNVNSPTSMPIRYLYPSSELNYNSQ
+KLMEALNRQFGGYDEINKTMWLLAN
+>tr|A0A1S1J5B3|A0A1S1J5B3_9FLAO
+MSTTQTNKIEIRKATSSKISGVDFQNLSFGSVFTDHLFECDFKNGEWQNPVIKPYAPILM
+DPSSKVFHYGQAIFEGMKAYKDDNNDVWLFRPDENFKRFNNSAVRMAMPEVPEAVFMDGL
+NELLKIDQEWIQKGNGSSMYIRPFMIATGAGVVANPSDEYKFMILLSPAQSYYGGEVKVI
+IAEHYSRAANGGIGAAKAAGNYAAQFYPTNLANKDGFQQVIWTDDATHTKLEEAGTMNVF
+FRINDTLLTAPTSERILDGITRKSLIAIAEKEGLKVEVRPVIVSELVEAAKNGSLKEIFG
+AGTAAVVSVIKGFSYQDVYYEMAPLENSYASLLKEKLTSLQNKLSEDTFGWTVKVQ
+>tr|A0A1S1J4N6|A0A1S1J4N6_9FLAO
+MSIQWKGVMPAVTTKFTADDKLDFGMFEVNLKAQLEAGVEGIILGGTLGEASTLLEEERR
+ELVKNTVSLVNNQVPVIMNIAEQTTRAAILAANKAEQDGAKGLMMLPPMRYKASDFETVT
+YFSEVAKNTSLPIMIYNNPVDYKIEVTLDMFEELLKFDNIQAVKESTRDISNVTRMINRF
+GDRLKILSGVDTLALESLLMGSDGWVSGLVCAFPKETVAIYKLAKAGRIDEALKIYRWFL
+PLLELDINSFLVQNIKLAEVATGIGTEYVRAPRLPLQGAEREKVLDIIAKSLASRPTLPD
+YKNL
+>tr|A0A1S1J977|A0A1S1J977_9FLAO
+MSGLLAVIGKGKDPQLVKELSARMSHRGPDESDLHIMENGSIICHESLSIIDLKSGKQPI
+QGTNKVWMVHDGEIYNYQELKDTVLKEHSFRTKSDSEVIVHLYEEFGHKFCHMLDGDFAF
+VIVDGDNYIAARDAVGVKPLYYGLDERGRIYFSSEMKSISDQCKSFSTFPPGHYYTGKTG
+FVKYYNPEYEDHSKANQKLDLDLIRNTLIEATRKRLMSEVPVGVLLSGGLDSSLTSAIAA
+RLLKENGEKLHSFSIGLDADAPDNKAARSAAAFLGTEHHEIYFTIEEGIEVLEKVIYHIE
+TYDIISVRSGVPLYLLSKVIADKGIKVILSGEGADEVFGGHLYFRNAPSAEEFQDETIER
+VQKLFTADLLRADKIPMAHGLEARIPFLDKEFLEASIRIKTIEKQPKTYDGIEKYILRKA
+FDTPDDPYLPEEVLWRQKEQFSDGVGYNWVDELIEFCAAQVSDEQLAGASIEFPYNSPTT
+KEAYLYRSIFHKFYPQVSSAQTVRKWIPKWQENQDPSGRANAAHVKAGVESKAGIIA
+>tr|A0A1S1JCH8|A0A1S1JCH8_9FLAO
+MKERIEQIIDILPKDKNVYKVANLLISNSEDLDEAQIQENLNDLLFTLYILNEKETVLQF
+QEYFLGYEITSNKNIWTWIESSLTLMSRINRDFLKIEDSVRVIEKIKTAFNIGSEMAVKI
+NSKARQRRLDGDDLLYDRIEEAIANKNIELEYDYRMVQLKKLLFISELGFSESMPESKVE
+NEIIENMTFLNKNIY
+>tr|A0A1S1JE07|A0A1S1JE07_9FLAO
+MIQVNQLSKKYNGTTVLNINNLEIPKGQSFGLVGNNGAGKTTFFSLLLDLIQPSTGNIIN
+NDIQVNANENWKSFTGSFLDESFLIGYLTPEEYFYFIGDLRHQNKADIDALLQQHEEFFN
+GEILNNKKYLRDLSKGNQKKVGIIATLIGNPEVVILDEPFANLDPTTVSRLKKIIKDLAD
+NPNVTVLVSSHDLQHTVEVCDRIVALNKGEIVKDIQTSKETLQELELFFAV
+>tr|A0A1S1JAQ1|A0A1S1JAQ1_9FLAO
+MNRKKLGLILTVRNAVEKAKLRKDLSIVRVNYKSKELLPHCNTDDADSFHEDADGNGFSK
+GIK
+>tr|A0A1S1JC46|A0A1S1JC46_9FLAO
+MNTELLGVIGIFIITIVLAIPIGKYIAKVYLGDKTLFDPIFNPIEKIIFKISGINSTEEM
+NWKQHLKALLGINMIWFFLCFFILLFQGSLFLNPDNNPSMSPDLAFNTAISFVVNCNLQH
+YSGESGVSYLSQMFLMFLQFVSAGVGLAAAAMVFTAMKERTTEKLGNFYNYFIKSCTRIL
+LPLSAIVAVALLFSGTPMTFEGKDAITTLQGDHVEVSRGPAAAFIAIKHIGTNGGGFFGA
+NSSHPLENPTYFSNAVELWAQLIVPFAMIFALGFYLKKRKLSYVIFGVMTVGFLLLVIPT
+VMSEMNGNPAIEKIGIAQTTGAMEGKEVRLGPAISGFWSIATTVISTGSVNSMHDSSMPV
+SGAMELLAMMVNAFYGGCGVGILNFYIFIILAVFISGLMVGRTPEFLGKKIEAREVKIAA
+FIAILHPLLILSGTALASYFAANDTAMGWWFSGNATGWLNNPGNHGFSEMLYEYTSSAAN
+NGSGFEGLGDNNPFWNITTGIVLLLSRFIPIVGPLAIAGLLAGKKYIPESAGTLKTDTTI
+FGIMVFAVIAIIAALSFFPALALGPLAEYFTM
+>tr|A0A1S1J1L8|A0A1S1J1L8_9FLAO
+MNITGRLTKDAKVSTLSDSRQVVNFSVAINESYKNKKGDRVEQTTFFECAYWISPRVAEW
+LTKGTVVELTGMVSARAWKGNDGEPRAGLNFNTSNIKLHGGGRKSEAVQALKTGQTAGQG
+ENKKAALKEPEDDIPF
+>tr|A0A1S1J304|A0A1S1J304_9FLAO
+MLSFQTNHQEFVPPEELQKSVKCFWYDKIDYGKVQSNFEVIPDGYAEIIFYFGNELRISS
+NGVLKPLTSPFMIGLLHQPAVFNSVNSLEIIGIRCYPWMVFDLLGLSYQKGKEEVQVFEH
+PIAKLQSVLNDLIASHKIEEAIAKVEDYFFAAEAKSDSNSLISKAGIAMTAAGGRISVRE
+VAAASHATIRTLERNFKQSSGYTVKDVSAVMRFEQARNRLWLDPHLSIASLAQELGYTDQ
+SHLSKEFKRYSGTTPGAFARKAKQQLINHDFVAFIQS
+>tr|A0A1S1J622|A0A1S1J622_9FLAO
+MKKQLDAVTEFHTAFKIGHSLEPIADLGETKKLLRYNLMKEENEEYLEAVQNNDLVEIAD
+ALGDMMYILCGTIIEHGLQDKIEAVFDEIQRSNMSKLGEDGKPIYREDGKVMKGPNYFKP
+DFSKLL
+>tr|A0A1S1J9R1|A0A1S1J9R1_9FLAO
+MTRKKFNFRKSLFIKNRLVILNEDTFEEIFSFKLNLMNVFVTFTLGGIFLILITTFIIAF
+TPLREFIPGYSSSELKKNATELAIKSDSLETALKKNEAYINGIQKVLRGELEYAKFNKDS
+ILAETDEPSEVDMKASEEEIKLREEVAKMEKESGEKSRNKKKSDKN
+>tr|A0A1S1JCP0|A0A1S1JCP0_9FLAO
+MNELDYSPSLLSAIKSAKSLAIQDGHSTYGVPHLAYALLYEPTGLTEVLKTLSKDIDYIR
+EWFDVRKEVYTSTQSNDNIIIADAEIENVFTESNFNKIRLGSDSIDAFCVFIAIIKPGLV
+YSDKQIDGLNLSDKELLKHFGLRNTQKSFSLVDNDDKEETVDINYCDTLYRKNIIEEGSA
+IIGRNKEVRLILENIERYENHGILLIGESGIGKTSIIKNLISSLHETDPNFFEETLVLSL
+NVAKLVANCNGENEVSKKLIEIFEKLSKNGKSILFIDDIQVLLNSSSSKSNAVINIINTQ
+LTQGTINIIASIDSDSYRKSIEGTTIDGKFENIFIEELDHALLVECLGIYKNKLEKHYKI
+GIDDEIIEEAIHLSKRFYKEKKLPYGAIDLLDRTASSVIVSNANSLVEIVKIKEQINEAD
+PSDESRMSLLKKEIFNRISCVVTSKISAAENSKKQKDEVITFEEIEKLAADIEAIAKEKI
+IVVKKSEILAVVSNATGIPLGKISAGEKEKLLTIEDKLQERVKGQAHAIKTLSEAIIESR
+SGLSNPKQPIGSFFFLGPTGTGKTELTKTLAELLFDDENAMIRFDMSEFKEEHSAALLYG
+APPGYVGYEEGGMLVNKIRQKPYSVVLFDEIEKAHSSVYDVFLQIMDEGKVHDKLGREGD
+FSNAIIIFTSNIGSQWIQEQIESGHLPTSNQLIDIMSQHFRPEFLGRLTEVVPFAPINIE
+IAKAIFKLHLSRLQEQLRTIKNISFDLSDSALEYLTNKGFSKKYGARPIAGTVRTYLKKT
+ISKLIISEAILENESIVLDIKEDEFIWEKK
+>tr|A0A1S1JDN6|A0A1S1JDN6_9FLAO
+MTKKVGLIVPHDYKLLSIAAILEVFETANKLAKEDEKPFEIMVFQLTEQIKEANLFGYKV
+NPVEDSTTILELILIPAFTTDNMSEMIAKNKNFIPWLKKHHQSGAELASFCTGAFLFAAS
+GLLNEKLATTHVDACSAFTKAFPLVKLKPEETLTADGSLYTSGGSTSTFHLLILLVQKYC
+GNEIAVQIAKIFSIDLNRYKQSYFSTFRPNHLHNDALVAMLQQKIESQYHTIEKLEEITK
+DIPTSTRNMTRRFKQVTGIPPIEYLQNIRVESSKKYLEQTQLSISEIIEKTGYNDPKAFR
+KVFYKMVGMKPIEYREKFRVQ
+>tr|A0A1S1JBE7|A0A1S1JBE7_9FLAO
+MDFNTKPTKETQNNWNRDPNNWIWGIFYYNPLDKRLFPAKKIKQLRWTINFANPNSICTA
+IAIIAVLLIFTRNS
+>tr|A0A1S1J0P6|A0A1S1J0P6_9FLAO
+MAPSTLNLRISRIRTILALFVCLLIGFKSHSQSQIFSKTNSDIILSKIDSIKKLIQTENV
+ENHLLGLKILNKTKAYLKTKKDTANLLFFHRESIKLISYLRSFGTPNAYLLENFQILKKY
+NNKRELALLHESLGDLRYYEGSKALSHEYDLKAQRLIKKYGNYEDNININYNLSVYYKTS
+KDYKKSIDFAMTSLENIKKSNTFEKNNFKIPNLYLFISEDYYHLKENDSVYKYLTLAEET
+KTNTKDGRFPYGAKLNELKAMYYYNIGDLETAAKLYQISVSEYVKLNQYKMRLVQKSNKL
+NNTLKIKNIENKGKINEARLESVSESYKNYLLIFALLIVLILTVLFIIQFRASKYKMKVN
+LILQKKNLELKKINRELNEASKIKDTFLDVVTHELKTPLNTIKGTAYLLKSEKSELLKED
+YIKNLNFSSDYLLGFINNMVDFKNLKRHDTVSLEYKDINLEIILNSIIEMFRINNLNQNR
+IVLDFDDKISHMLKCDEIRFTQVIMELMTNAAKFTKNGEITLKAKLIDSANGKESIKFEV
+SDTGIGISEDVQSKIFEPFIQESTEINSNYGGSGLGLSIIKRTLELFGSQIKVKSKKGDG
+TTFSFVIDFEISKENHHEIVFNNVERQIEQLTDIEILLVEDNKMNQLIAKKILINKGFKC
+DVANNGLEAVEKVKAKNYAIILMDIMMPVMDGFEASAIISNLKPEIPIVALTAICENIGN
+DDFQRAKILEKLDKPVDPDILYETILKYVVQKTL
+>tr|A0A1S1J1Q3|A0A1S1J1Q3_9FLAO
+MKTILKSFITLFLISCSGLSAQNFEAKIDHLITSKFKSENPGAVFLAVKKGKVVYRKAFG
+MANLEMNVQMKPESVFEIGSMTKQFTAVSILILVEQGKLQLDDAITKFIPDYPTKGNVIT
+IHHLLTHTSGIKDFTSMKAIKDIARRDLSPKELVDFFKNEPVDFKPGEQYKYCNSGYVLL
+GYIIEMVSGQTYEEFVTQHIFKKIGMNNTFYASHDKMIKNRASGYRDRNGFSNANYISFS
+IPYASGSIMSNVDDLWKWQNAVKSNALSSPAFTVKAFTNYQLNNKTNIDYGYGWHLEKVK
+NKMVYEHGGSIFGFKSMGIYEPTEQVYVVGLSNCDCNSPTAITKEIASLLID
+>tr|A0A1S1J2G7|A0A1S1J2G7_9FLAO
+MAEQSSIQCPNCGTPIDVNDVLKHQLEDSIRKEFQQKASAQSKELELKNEQFEKAKAEFE
+AKKKQENELFAERLERERKIAEKEISQKLKTKLEEENKDRLLLMEKELSEKSEKLRELNK
+MEGEIAKLQREKLEMKEAIETEAQKQLNATLILERDKIRKQEEEKNELKIKEYQKQSDDQ
+KKLIEEMKRKQEQGSMQLQGEVMELAIEEWLASNFPLDTIDEVKKGANGADCLQVVNTRE
+VQNCGSIYYESKRTKAFQPAWIEKFKNDIRTKKANIGVLVTEVMPAGMDRMGMRDGIWIC
+TYEEFKGLSAVLRQSLIQVSQAVQAQENKGDKMSMLYDFLTSNEFRLQVEGIVEGFTQMQ
+SDLESEKRAMQRIWKQREKQIEKVVHNTLGMYGSIRGIAGNAVQTVRALELDFIEDEEEP
+KTKELE
+>tr|A0A1S1J3D7|A0A1S1J3D7_9FLAO
+MKFDINTITRENVKSLKPYSSARDEFEDFDTAEMIFLDANENPFQTGVNRYPDPQQLSVK
+AILAKNNKVKTSQILLGNGSDEVLDLLFRAFCEPKTDNIISLPPTYGMYGVLANINAVEN
+REVLLSTDFQPQVDQILDTVDDSTKIIFLCSPNNPTGNSFSDESVVKLLQNFKGLVVIDE
+AYIDFSKKESWLTEIDEYPNLIITQTLSKAYGLAGIRLGICYASEAVISVLNKIKPPYNV
+NELTQQRAINRLNNPETIKNEIASIIEQREELIKVLLEVSFVEKVYPTEANFVLVKVDDA
+NKRYDQLIEKGIVIRNRTSQPLCENCLRLTIGIPEENAVLIKELKLLK
+>tr|A0A1S1J4V8|A0A1S1J4V8_9FLAO
+MRVLFLTMVKINSFSDRGIYSDLLRKFYEENHDVFAVCPIERRERRKTFVKKEVEGTILN
+VQTFNLQKTNIVEKGMGVLAIEYQFLKAIKKYFFDIKFDLIIYSTPPITFSKVINFIKQR
+DKAYSYLLLKDIFPQNAVDMKMLKENGVLHNIFLKKEKKLYKLSDMIGCMSEANRKYILS
+HNPSVGSEKVEVNPNSIKPFVLLQNEDEKGKIKVKYNLPIDKKIFVYGGNLGKPQGIDFL
+LETIQSNKNQDAFFLIVGTGTEYNRIKDWFLKLNPDNAMLLSGLPKADYDLLLNACDVGM
+IFLHKDFTIPNFPSRLLSYLEMKMPIISATDESTDIGTVIEKNNCGFSVVSGDILAMNQV
+IEKMLIDENHFNNMKENAWNLLNNEYTVDKSYHLIKQKIDV
+>tr|A0A1S1J0G1|A0A1S1J0G1_9FLAO
+MVEIERKFLVKSADFKEQAFTHNKIAQGYLSAVPERTVRVRIKGERGFITIKGVSQQGGM
+SRFEWENEIPLDEALELLKLCEKGKIEKTRYEIKLGKHIFEVDEFYGENEGLVMAEVELE
+SETEIFEKPDWLGDEVTNDPRYYNAYLSKNPFKEWEK
+>tr|A0A1S1J6B3|A0A1S1J6B3_9FLAO
+MTQNFDIIIVGGGAAGFFTAINIAEKNPKLKIAILERGKEVLSKVRVSGGGRCNVTHACF
+EPNELVKFYPRGEKELRGPFHQFCSGDTIEWFEKHGVELKIEEDGRMFPVSNSSQTIIDC
+FLRATEKLGIKVLTGQSVQSIFKKEDCWKIDTQNENFAAEKLVMATGSNPKIWEMLQTQG
+HAIVSPVPSLFTFNIKDPRIKELSGVAAQVTVTVKDTKLESTGPLLITHWGMSGPAVLKL
+SAWGARILHDKNYQFTIFVNWLNDVDSEDAEKILKDLKQEHAKKAVSKKSPFDFPNRLWE
+SLVLASEIQAETKWADLSKIQLQNLAVQLTKAKFQVNGKSTFKEEFVTAGGIDLKEINFK
+TMESKLHENLYFAGEIVNIDAITGGFNFQNAWTSGFILASSI
+>tr|A0A1S1J6K6|A0A1S1J6K6_9FLAO
+MAINIKPDQFNVPFQHLKNTERIVWRKFLSVAKWNHKKKVWVIPISFREQVYEVGGKCKA
+SIIKIEDNIPEQVDVIPDLPKLNFDLGIVNSINGYKPRPYQEEGIARGLELKRFINGDQP
+GLGKTLQSIGTVYGAEKQGEITFPCIVICPSALKINWQREFEMWTDKKAMILDDKNKDTW
+HRFYEMGMADVFIVNYESLKKFFVNSMPNKKDLKHSNQIIMDERIKIFKSSIIDESHRLK
+DPNSIQAKICIQITKNKKYIILLTGTPVVNKPIDLFSQLAVMFKLRHFGGENGFKARYCE
+GGKGSANLKELNYLMNMSCYFMRKKEDVLKDLPPLSRQTILCTLTNKKEFDVVRDDFANF
+LKNSDLTDSEIKKKVSSETIVKITMLLQISAKGKIEAAQEYIDEIIGSGQKIVVFCKHKI
+IVDLLKVIYPKAVTVTGNDDSIQKQNSVDSFQKNPDTKLIICNHKAAGVGLTLTASSEVL
+FVELPWTQADCEQAEARCHRMGQPSNVRATYLLGEDTLDQWLYDLIQEKKAIANAITGTE
+DVVPTSILSSVFDLFKK
+>tr|A0A1S1J8A6|A0A1S1J8A6_9FLAO
+MKVCIAEKPSVAREIASVLGANTKHDGYFEGNGYAVTYTFGHLCTLKEPNDYKPHWKSWD
+LNNLPMLPEKFETKVVQNSGIEKQFKIVKSLFDKAEVVINCGDAGQEGELIQRWVMNEAN
+YKGEVQRLWISSLTTEAIKEGFENLKPSENYDNLFYAGFSRAIGDWLLGMNATRLYTVKH
+GGYKQVLSIGRVQTPTLAMVVDRFKEIENFKPQPYWELQTLYRETLFSYEEGRFLKKEDG
+ELLANKVKESEFEIVSVEKKNGNEYAPKLFDLTGLQVYCNTKFGFSADETLKIVQTLYEQ
+KVVTYPRVDTTFLPNDIYPKVPGILQKLTKYAELTQPLLEKKIKKSPKVFNDKKVTDHHA
+IIPTGIEAHLQFNQQQVYDIITKRFIAVFYDDCLVANTTVIGKAADVTFRATGKEILKKG
+FRIVFEAPNAKEREADLLPSFVVGEKGPHEPSFLQKETKPPNQFTEATLLRAMETAGKQV
+DDEDLRELMKENGIGRPSTRANIIETLFKRQYIVRNKKQVLPTPTGIQLIDTIQNELIKS
+AELTGSWEKQLKDIEKGTFTAGAFIKNMKRMVEALVTEVRSETRHANISHAATIEKPVVK
+AEKKKTAGILAETCPKCQKATLIKGKSAFGCGNYKSGCDFLLPYTFAEKKISENQYLRLV
+QKGSTVNIKGFKTEEGTVEGLIRFEENYKLKLETKKTTAKAKSVTAASDSLTCPKCQKGT
+ILKGKTAYGCSEYKSGCDFKVTFDHVRTKLKDQKPTKELVYSILQNNV
+>tr|A0A1S1J2R8|A0A1S1J2R8_9FLAO
+MKTKLSILLLLCCFLNVSVFAQDKTKKELRAERDLQQQKETEALIDSKKFDFEAQKLNPQ
+GGRLIILDYNIYFLRFSSDKIICDLPFFGRAFNVAYGGDGGIKFEGAPEDIKVEKKKKSY
+ILRTTVRGKDDVYNLLFTIFNNGSTTLSVNSNNRASISYDGVIRAPKAVENK
+>tr|A0A1S1JB11|A0A1S1JB11_9FLAO
+MTIDPNPQAPQLIRKNILIVDDHPFIIEGYKNAITRYNPNKYEFFILQAHDCKSGYDLIE
+DVQTPEFDVAFLDISMPPYEEKNIFSGEDLAKLLLKKMPKCKIILLTMYTELLKIKTIIR
+TISPNGLIIKNDLTFDELLFAFDKVMKSDKYYSQSVQKILNQSAHNSIEIDEFDKQILFH
+LSKGTSLADMPQYIPISVNEIEKRKAGLKELLKVRSGFDEDLVKEAKCKGLF
+>tr|A0A1S1J3F6|A0A1S1J3F6_9FLAO
+MSIKEFVQKFYKSDALIDSEIMKTYLHPEVKLDWNSTKGLIEMDYDSMMAMANELSRAYV
+RSKVRISHIIAEEDLVSIRYSHFVKTIENPREEMLLAHFATIWQIKDDKLYRGYQMSQFS
+>tr|A0A1S1J486|A0A1S1J486_9FLAO
+MTGSFLLFRSHMKDLYYDNLEDHALTAALFYFKKDEIKEFTNERYHQIEVQYHRINNESI
+RVYDAKTKKLYLKDSIDIELSDHELNTIVKNKIESFTIKNRQFVGLFYKDNQGDFIIVVS
+GINHTGNRQLEILGLMFILFYLAGIPLNYLLGTFLAKQTFRPFKEVIAKVNTITTENLHS
+RLEVQQAQEKDEIKELVTTFNYLLERLETGVMTQKNFLKNASHELKTPLTIIIGDIDVSL
+QQPRTNEQYEEILKSLKKDTLHLKSTLDGLLVLSGLQLSEPQQMETIRIDEILWNVLEKK
+AIEYPESKVSVDLSALADRENLLSVHANKHMLFIALYNILDNAIKFSSPKPVNVLTFSEH
+NKLLIQITDQGSGISEQDKESIFDLFFRSDHTRHIQGQGLGLFITMQILKLHHIHVRVDS
+EVGKGTSVTLIFP
+>tr|A0A1S1J7E5|A0A1S1J7E5_9FLAO
+MNLKLIYIVFLGSFLGCFAQNDSLRNPYFKSYNDKITGSVYYIDTSNSFQIASGPQGSQT
+FLNLTPNRREQIGFNLNYKIIDVSVGFAPKFLSQNKGDSHSKHFNFNTRFYYKKWMQSFT
+FINQKGFYISDDNIMAQLPDMRTTKIGGSTAYVFNPKFSFKTLVSQNEWQTKSSGSFIPT
+FSFYYTNLNLNNTPDSSNADIYVFSIAPSYFYNFVISQRVLIGAGIALGVGINDIDGDSS
+ALYQADFNLKLAYNNDRFFAFASINTVSFAQDDKVNPRLNDNVATLKLSAGYRFDPPKKI
+KEVYDKVNQKIGL
+>tr|A0A1S1J998|A0A1S1J998_9FLAO
+MSILNRFLICFLLISVQAFSQKEQKSSFQVVPLGIKGGIDEKNLSAYLVAPTHTNDFICL
+DAGTVNAGIEKAIENKVFKVSTSEVLRKYIKGYFISHAHLDHVSGLIINSPADSSKTVYA
+TEKCMEMMENHYFNDQTWANFGDKGPGTPLKKYHFQTLNIGEEIPVTNTTMTAKAFPLSH
+VNPFESTAFLIKNAESYVLYLGDTGPDAVEKSDKLKSLWTAVAPLVKSKQLKGIFIEVSF
+PNEQPDQFLFGHLTPNYLMKELHVLEELAGKGTLNGFPIIVTHLKPPVKNIAKLKEQLQK
+QNDLKIKIIYPEQGKRFEL
+>tr|A0A1S1JCT7|A0A1S1JCT7_9FLAO
+MADNNVKKWYVVRAVSGQENKVKAYIETEIARLGMGDYVSQVLVPTEKVVTVKEGKKMSK
+DKVYFPGYVMIEANLVGEIPHIIKSITSVIGFLGEIKGGEPVPLRLSEVNRMLGKVDELA
+VNTDTRAIPFSLGETVKVIDGPFNGFNGSVEKINEEKRKLEVMVKIFGRKTPLELSFMQV
+EKV
+>tr|A0A1S1J2G3|A0A1S1J2G3_9FLAO
+MNKRQILAAIYVCFIPGLTLLVGAFYFFQQKLNFIEKASIVYGTVIESIPLAGNKNGSLY
+YPHVSFITKSGKPIDFTSNVGASLPTYIAGSPVKVLYDPTNPNKAEIDGIYAYIVDPMLL
+GSFGVFFLLMGLGVILNEYQKSRKKD
+>tr|A0A1S1J905|A0A1S1J905_9FLAO
+MKKTAFLLLTICATTLTQVSCSSNDDTKNQSESDVTSVGASLTIDAINDMDIKTGLIVTT
+KNTSSAKSNETTPGICGAITITQQSPTSYPKVFTVDYGTGCTDNLINRKGKLKITLSGPI
+ITTGSKITIERIDYSFNGIKLEGTIEYTNTTTVATVATVPQWSRKVTNGKFTDLEGRVYL
+NSGSWTVKQTAGVDTPYVLEDNTYEMTEGNHTITSSNGAVLTLTVQESLIKKYSCDFISK
+GKLKVQSNLLNGVVDYGNNDCDKKFTFTNQNGTTFNLSM
+>tr|A0A1S1J9M8|A0A1S1J9M8_9FLAO
+MQLKKTYINGIGCISTQKTFDTVFLEEATHNLDENVLKIVPPVYKDYISPAAIRRMAKGV
+KNGIVASAIAMKDAQLENVDAIITGTGLGCIEDSEKFLTNILDNNEQFLTPTSFIQSTHN
+TVGAQIALLQKCNGYNFTYVNGAVSFESALLDAKMQIEEEEVQSVLVGGVDENGDYTTAL
+FKLSGRIKPDGQQPYNLLEATTSGAVYGEGASFFVLENERKETTYAEVLDIAIVNTLEEN
+EIEAAIRSFLKSNQLEISDVDALILGFDGNADFENYYKNLTQKDFAQTPQLYYKHLSGEY
+DTASAFALWMASKILKTQEIPEIIKVNSVERPAYNTILLYNQLNGKNHSFTLLSK
+>tr|A0A1S1J2Q5|A0A1S1J2Q5_9FLAO
+MLELSQKLKLDILKVLLSEKELFGIPNDDSSNIIKFLDDMLNLRGLPSQDSRFSNAYDDA
+YQHLVNNDDWEYNYVLTERFNIVENTEIFINFLNRIIHPNIRSNKDEIMKYYLMINPYLE
+KENLSLKAVQIDASGLTVYKVSPKQEADKIPLGLIENNIPFFIKNNPKGLYNKKSAHQVP
+TKFPSFILELNDGWNDFGIVSEYVLYYHPNSNHFNFIGRLKIIHFEDIKTPNVIPSIFTQ
+LDKMFCSLGQEFKYYENIKNLFGDNFKNILWAIQDTSFFSSIEENYENNSNFKTSLIRED
+SAERLMREVKYRIYGYNSKNLYSFKYKFQPKFAENELEVDFDFDNNSVIPNRIYAIIGKN
+GTGKTQLVTTLPIDISNKKDDVFTPKTPLFSKVIAVSYSSFDRFEIPKKTAEFNYVYCGL
+KDENGKRLEEEELILRFQKSYEKISEQSRIEIFKKTIGEFIEEKIISEFISYKIETGEYT
+IDYGKFKKIINILSSGQSILILIITEIIANIRYDSLLIYDEPETHLHPNAISQLINTIYE
+LSRNFQSYCIIATHSPIIVQELLSKNVYVIERKGNFASIRKPGKETFGESLSTIIEEIFG
+NRGIPKQFKIILSNLIKKGMSYDDIIKEIESDNVPINLNTRLYLKSIIDEES
+>tr|A0A1S1JD94|A0A1S1JD94_9FLAO
+MHIELSKDKRYYSIGEVAKAFNVNASLIRFWDSEFDILKPKKNAKGNRMFTPEDITNLQL
+IYHLVKERGFTLEGAKTHLKEGQKKTLDKFEIIRKLETIKTQLIDIKNEL
+>tr|A0A1S1J0S4|A0A1S1J0S4_9FLAO
+MSYPLSKFHFSVDWGGTKIGFTEVSGLDVETEVIEYRHGASPEYSKIKMPGMQKFSNITL
+KRGTFKSDNEYYAWWNTVKLNTIERRDITIKLLDEEHNPVAIWKVKNAWPTKIQSTDLKA
+DGNEVAIESMELVHEGLSIQND
+>tr|A0A1S1J2Y5|A0A1S1J2Y5_9FLAO
+MTARSMPSTTYINYEEKKGFWIGEFTFEIICAFIVTAFEQITLQDKPDWYLEIFEDFDEI
+RKGHLQRRMVLLLEDYLAFLPEKENKIIEVFELAKKLIQNEGEKILPEKLNKMQDIKDWP
+QTEVEWTGPIYTDDMIHVVDIMILMLKKEWTEQDYTVVFKY
+>tr|A0A1S1JFP8|A0A1S1JFP8_9FLAO
+MKVALVTAFPPSKVTLNEYGYHLVKNFVHNSEIAELILLSDKTLEAKQLDFDQKEKVKVK
+ECWRFNSYTTIFSILNAVRQEQPDVILFNLQFVKFGDKKIPSALGLLLPMILRFFGYKTV
+VLLHNILEQVDLKKAGFTENKSMQKIYNFIGTNITRCILKANRVAVTIHKYVDVLNVKYH
+SQNVILIPHGTFESVKNPNFEIKSGPKQIMAFGKFGTYKKVEILIEAVEIVRKTNPEKLE
+VVIAGTNSPNTAGYLEALQEKYKNVEGIIFTGYVDENDVERIFTDSTIVVFPYTSTTGSS
+GVLHQAGSYGKAVIMPDLGDLALLIKDEGYKGEFFNPESAESLAVAIEKIISNDAYRKEL
+AIANFQAASAHSMDKIIMMYIECFKSIQ
+>tr|A0A1S1JAG1|A0A1S1JAG1_9FLAO
+MYLTKEKKEEIFAQHGGATNTGSAEGQIALFTYRISHLTEHLKKNRHDYNTERSLVLLVG
+KRRALLDYLKKKEINRYREIIKVLNIRK
+>tr|A0A1S1IYK9|A0A1S1IYK9_9FLAO
+MHIDTILDNIFQLPEESKNALKLCISEIKYPKGHILLNAGKVESALYFIKKGIVRAYVDE
+NDNEVTFWFGKEGQTVVSMKSYVEEQKGYETIELLEDCELYELKKTNLQQLFDTDVHIAN
+WGRKFAEQELVKTEERLISRQFRNATDRYLELMKYHPELLQRIQLGHIASYLGITQVSLS
+RIRADLK
+>tr|A0A1S1J1T8|A0A1S1J1T8_9FLAO
+MSRKIKLIWDFRGPASAKTAEHHEIHLKEYIIIEKLPLNITGFKIINDMHAIAFMVVTDE
+NMIPVRDALKPHRGEVFEG
+>tr|A0A1S1J716|A0A1S1J716_9FLAO
+MSKMMFDYTKSILERVSFDPILFCKELEKAIKTLLPYEMEQLQEWLLNFIIEKPELKQSL
+LLIKV
+>tr|A0A1S1J3H5|A0A1S1J3H5_9FLAO
+MKIAIIGATGFVGTAILNELANRNHDLTAIARTPKDSSNATWKSADIFNVEALSEILKGN
+DIVINAYNSGWTNPNIYDDFIAGSKAIQEAVKKSGVKRFITIGGAGSLFVAPGLQAVDTP
+DFPKEYHAGATAARDYLNILKEEKELDWAFFSPAFEMHQGITTGRTGKYRLGLENPVFND
+DQRSILSVEDLAVVIADEAETPKHHQVRFTAAY
+>tr|A0A1S1J695|A0A1S1J695_9FLAO
+MNRITQKLQEDKKILSIYFSAGYPNLNDTVPIIQDLEKNGVDLIEIGLPFSDPLADGPTI
+QASSTQALHNGMTTQILFDQLKNIRESVKIPLIIMGYFNPMLQYGIEEFCKKCAEIGIDG
+LIIPDLPVDVYAAEYKAIFEKYGLINVFLITPQTSEERIRFIDSVSNGFIYMVSSASVTG
+SQAGFGNTQESYFERIAQMDLKNPQIVGFGISNKETFNQATKYAKGAIIGSAFIKHLSEN
+GSRKIAEFVGEIR
+>tr|A0A1S1J990|A0A1S1J990_9FLAO
+MKLKKCTGLFLAFLLLVSNIGFAFDVHYCGGEIASVSLNTTAAAPEKNCCGTSEKKSSCC
+KDKVVHFEKKSDDATLKFFFFQFAFPMAVQEYQPIAFLGIVNFKSNQVISYYSDANAPPL
+FKLYHQYIFYS
+>tr|A0A1S1JBT6|A0A1S1JBT6_9FLAO
+MNDILIQNTTAFFEKSFGSAPQKVVLSPGRINIIGEHIDYNDGYVLPAAIDKIICFAFEK
+NNTNSSKIVAIDLNEAFEIDLTAEILLSEEVWTNYIRGVIKQLQDNGFVFEGFNCVFSSN
+IPVGSGLSSSAALECGMIFGIASLFDLKIKKADIALLGQKAEHWVGINCGIMDQFSSVHG
+LENKVIKLDCNTLDFEYHNADFKDYTLVLFDSNVKHSLFTSEYNTRRQECEQGLAIIKHH
+FPQIKSFRDCTEEQLLTLQNQMSATIFKRAHFVVKEIDRVEKACEALDQGNITLLGQLLF
+EAHYGLSQEYEVSCKELDMLVNTAKTDDFIIGSRLMGGGFGGCTINFIKKGHENEVKNKF
+SNLYLNTFGIELKFYDVTISNGTRLLL
+>tr|A0A1S1JG14|A0A1S1JG14_9FLAO
+MTKITIKETQNPTILKFEFEDFITQNQSFEFKNIDEAQASPLAQQLFYLPFVKTVYISGN
+FIAIERYSIVEWDDVKDAVAEQITSFVDKGGIIIKVEETQAKKQPITVYGETTPNPAALK
+FVVSRMLTRNAVEYKNIDQTASSPLAKELFKFPYVKEVFIDENYISVTKYDINDWQEITL
+EVRTFIKQFIENGGTVLDESLIETATKNDITKDEAFDKLDVTSQQIINILEEYVKPAVAA
+DGGNIAFDSYNEEDKTVKVILQGACSGCPSSTFTLKSGIENMLKSMLNDEAIKVEAVNA
+>tr|A0A1S1J8V0|A0A1S1J8V0_9FLAO
+MPLFETIQFNETTKILVWHITESFEELVSNVVLKEKTQLRLNGMKSVMHQRAFLSVRMLI
+QEMGFTDQDLHYDEFGKPYFNCENHISITHSHDFAAIIISDKTVGIDMELQRDKILRIAD
+KFVETENSYLNTQNTPDYIRELTVIWGAKEAIFKIRNEKGISFKDHISVDAFSLDKNQTE
+ASLHFNDLAVDFDVYYKEIKSNTSGQNFTLVYAFDK
+>tr|A0A1S1J1S7|A0A1S1J1S7_9FLAO
+MKLSLKIWRQSDSSSKGKMTDYEIDAVSEHMSFLEMLDLLNESLIQKKERVIEFDHDCRE
+GICGQCGVMINGRAHGPLKNTTTCQLHMRSFKDGDTIYIEPFRAKAFPVLRDLKIDRSAF
+DTIIASGGFIGTSTGQAPEANSIPISYETAEASFDAAACIGCGACVATCKNASAALFTGA
+KITHLALLPQGQIEAQKRVLSMVSQMDAEGFGNCSDTRACEIECPQGISILSIAKMNAEY
+TKALIFKK
+>tr|A0A1S1J3L6|A0A1S1J3L6_9FLAO
+MKLLGKLYLIPTTMGESDPMDVLPQTVKRSIDFIDHYIVENEKTARKSIKAVSPEKKQSE
+LILFTLNKRTEASEHLDFIKPLLEGKNVGLMSEAGCPGVADPGAVIVKLAHEKGIQVVPL
+VGPSSILLAMMASGMNGQSFTFNGYLPIDKDEKKSAIRHFERLSQDKNQSQLFIETPYRN
+NKLIEDLLQILNPSTHLCIATDITLPTEFIKTMRVSDWKKLKIDIDKRPTIFIIHKM
+>tr|A0A1S1J4D0|A0A1S1J4D0_9FLAO
+MSLQNTNITSKNYKKLSIQVSLTGLSFCCFDTLNNTITSLKEIHFDTFHKTTKVEELFGD
+AFRNHPELTETYDEVLVIHNNNLSTFVPTALFDENYLGSYLQYNTKVFETDFFAYDQISK
+YQMNAVYIPYVNINNFFIDQFGTFDYKHANSILVEKILDASRNNDDKKMVVNFNPGHFEV
+IVVQNQKLLLFNSFEYQTPEDFIYYLLFTAEQLSLNPESFPLELLGTIDQNDAFYAIAYK
+YIRHISFLDVSTLQQRNSFTTTENQKHYILFQS
+>tr|A0A1S1J581|A0A1S1J581_9FLAO
+MSIFDKRINYKPFEYPEVLQFTEAINKAYWVHTEVDFTADTQDFHSHLNAAEKTAIKNSL
+LAIAQIEVAVKSFWGNIYEHFPKPEFNGLGTTFAECEFRHSEAYSRLLEVLGYNDEFEKL
+MAIPVIRKRVDYLSDVLKDTKSQDNKKYVVSLILFSILIENVSLFSQFAILLSFTRFKGY
+MKNVSNIIAWTSIDEQIHANGGIYIVNKIREEFPDYFDEETLNLIHEAVKNSIEVEADIL
+DWIFEEGEIETINKTDLVNFMKFRIDESLVQINIPTIFNVPADDYKAMAWFEEEVFANSL
+DDFFAKRPVEYTKHDKSITANDLF
+>tr|A0A1S1J5F6|A0A1S1J5F6_9FLAO
+MKKLLKKLIYLFIIGVIAIISVNWYVKSSTRDLIYHTVNNLPKNEVGVIFGAGINGDQPS
+KYLKDRLDAGILLYKTHKIDKILLSGDNGRDEYDELTVMKTYCFNHGVDTTKIFIDYAGF
+DTYSTMYRASHIFKIKKATLISQEYHLNRAIYIGQKLGVKSIGFSANKGEYLGYQYVTFR
+EYGSIFKSFFDVLRNREPRFLGNEININGVSNYSKEDKR
+>tr|A0A1S1J6I1|A0A1S1J6I1_9FLAO
+MKKFTNYKQADYKDCGPTCLKIIAKHYGKTINIQELRDISETTREGSNLLFLSDAAEKIG
+FRTLGVKLNLERLEEAPLPCVLHWNKNHYVVLYKIKRNTYYISDPAFGLIEYNKEDFIKF
+WIGNNADESTQEGIALLIEATPKFFQSDFDKEDNHGLGFGLLVQYVLRYRSFLIQLSIGL
+LASSLLQLIFPFLTQSIVDVGIQNQNIHFIYLILFAQLFLFAGRTGLELIRSWILLHLST
+RINISLISDFFIKLMNLPISFFDVRMTGDIMQRINDHRRIERILTTSSLNVLFSVINMFV
+MGGVLAYFNLKIFLVFFAGSLLYFGWITLFLKRREVLDYKRFAEVSSEQNKVMELINGMQ
+EIKLHNAEKQKRWGWEYIQARLFRVSIKGLVLEQTQTIGSSVINELKNIFIIFLSAKLVI
+DGSITLGMMLAISSIVGSLNGPITQLIEFVRELQDAKISLARLSEIHEKEDETQQEVYQT
+SDVPFDSDIDINNLSYRYLGSDIPVLEDLTLKIPANKVTAIVGVSGSGKTTLMKLLLKFY
+EPEKGEITIGNAQLKNISQKAWRSNIGAVMQEGFIFSDTIANNIAIGVDKVDKERLVYAA
+DVANIKEYISGLPLGYNTKIGAEGLGMSSGQKQRLLIARAVYKNPEVLFFDEATSALDAN
+NEKEIMQKLDIFFKDKTVVVIAHRLSTVMNADQIVVLDKGKIIEIGSHSVLVEQKGNYFE
+LVKNQLQLGN
+>tr|A0A1S1J767|A0A1S1J767_9FLAO
+MKFKFLFLFCLAVVNIQAQATKKPVAKAKPKTAATAAKIAPKANPGEGIFATIATTKGDI
+VVSLEYVKTPVTVANFISLAEGTNPNVKVEKLKGKPFYDGLKFHRVINDFMIQGGDPDGN
+GSGGPGYAFKDEFVEDLKFEKGGVLAMANSGPATNGSQFFITHKDTPWLNGKHTIFGHVV
+SGMDNVNKIVQDDIMTKITITRKGAAAKKFDAVKVLAEDAKKQEAKKAESQKVITEKAAY
+FAATKAKATTTASGLKYVVTQKGTGVKGAEGSNIYFHYAGYFEDGNLFDSSISTVAKAYG
+KYDANRDAQKGYKAFPFVVGKKDGMIPGFIEALDMMTDGEKAIFFLPSNLAYGEKGAGGV
+IPPNATLIFEIETYKEQPVK
+>tr|A0A1S1J8G2|A0A1S1J8G2_9FLAO
+MNKIFLFLLSFFIFSGIVQAQDTLATAEPPKITAVKYTEKDIRIDSDTIKIKTFSKNFKK
+KYSGSSFVYEFKAPEKGLWQRFKEWLASVFSDWFDFETPESSINFVSVLIKVLAVLIIIF
+VIYLIVKAIINKEGQWIFGKNAKKKNIIYSEIEKNIHLLDFDKLIKESIQSGEKRAAVRY
+YYLWLLKVMAQNHYIEWDIEKTNSDYLYELQKPTHKEEFTYLSYLYNYIWYGEFEIDEIT
+FRKAENRFKNALKTFSNE
+>tr|A0A1S1JAN6|A0A1S1JAN6_9FLAO
+MESFKTIAVFNYLHETVVLKHLLEQEGIPYFFENEMTLSVVPLYSTALGGIKLKVHPNDF
+EEVQQILDNLNNPLKIV
+>tr|A0A1S1JAS6|A0A1S1JAS6_9FLAO
+MRYILFLFLLFLGFSSCSKNEESSANMMVSAVKLTPKNESAAASDAQYDPAAPDAPQISQ
+KIIKQASLRFETNDLEDTFKQIQTAIVANKATIQNDSEGKEYDNIYRTITIRVPSANFDS
+FINAVSKGVSYFEQKEISAENVTEQYIDLTSRLNTKRKLEARYLEILQKATKISEILEIE
+KQISAIREEIEAKEGQLKYLESRVSESTVTISFYKTIAQKQGVKISYGSKIWTAIQSGFF
+SLSDFLISIISIWPFIIVFCVLVYFIRKRFKRKKI
+>tr|A0A1S1IZS6|A0A1S1IZS6_9FLAO
+MGYDLFTKLKKLKVTVKVINNNLDVKAPKGVLNEELLKEIKSKKEELIDLVNKYAKDQVN
+ESHAIPVAPKSEHYPLSSSQLRLWVLSQIDKANFSYNIPGIQVIDEALDTNAFMLAIRDL
+IHRHEVLRTVFKTVEEEEVRQFIIAPEDFEFPFQQIEVNGDEEKLNEILTGISNTVFDLE
+KGPLFKGALVKVTNDRFVFGYNMHHIISDGWSIGIMINELLKNYDARRKGETVQSHPLQI
+HYKDYAVWQQKQLADEVFNKERKYWLTHLEGDLPILSHFGDFPRPAIMSYNGNVTRKDIP
+AALYQKFKSFCRENSGTLFTGCLSLINVLLHKYTEQEDFIVGSPVSGRTHKDMADQIGFY
+VNTLALRTQFGTTNSFEEVFQKNKRVTLNAIENQNYPFDELVNHLNLKRDLSRSALFDVM
+IDIQNENQSNDQKAGTSYNELLNGGVSKYDLTFTFIEKSDSLTVELEYNTDIFTGETAVG
+FLKDLENIVEAVVQNPVQKIGSLPLNISKRTAHSKLESPEEIVTNEEITYTLPSTPLEKA
+LAGLWEEVLGISHISMEDNFFDLGGHSLKASRLISKIHKEFRVKLQLKDLFIHTSLASQY
+DLITKEQEVDYSEIPVLEKQNGYPLSIMQRRLWILSQHEAANIAYNMSGAYVFEGELDFD
+ALENAFVQLIERHEILRTSFKENDQKEVLQYITPLEDILFTIKNTDLSQANETVLEKHLF
+EDLSAPFDLSSGTLLKASIYKQSQNRWVFSTVIHHIISDAWSIEIIVKELLQLYNSLVTG
+VPSALTQLPIQYKDYSSWQLTELSGFRLELHKNYWLNQFKGDLPTLDLSAGKQRPLIKTY
+NGGLYTKLIPRSLSDKFDELLKTQETTLFMGLLSVVNVLFYHYTQQEDIVIGSPVAGRDH
+ADLENQIGFYVNTLALRTQFSKRDSFNTILSHVKKVVLGAHEHQLYPFDDLVSSLDIPRD
+MSRNPLFDVQVIVQNQQVSNSKGMENLSVNEYQGKLPDSSVFDLVFNFADSENGLATSII
+YNSDVFDSERIEQFGNHLEQLLVALVQNAELPVQELKWLLKEEEQFLLDFNSETLDYDTS
+KNVLDRIREQVEKNPEAIAVSFEGNQLSYSELDKRSNQLAHYLLEEYQIQPNDFVGMMLD
+RSESIFIGILGILKTGAAYVPIDPDYPVSRKEYILKDTNVKALLTQSDYMFDLSYYEGGI
+FAMDVQLDSLANPTTAPEITVLPDHLVYIIYTSGSTGNPKGVMVTHGNLQHSLAPRGNTY
+SPIKCFLLLSSVAFDSSVAGIFSTLTTGGTLCITSSSDIANVNFIAALIVSQKVSHLLTV
+PSYYKLLLNALSDKESSIEQVTVAGETCPISLIEDHFKSKIGQSGCDLFNEYGPTECSVW
+SSVHQYEEGKPVTATIGKPIANTRIYILNETEDLVPLGVIGELHIGGNGVTKGYLNNPDL
+TAQKFVKDPFSEAGLMYKTGDLGRWNSAGEIEFLGRKDNQVKVRGYRIELGEIQYAVEQY
+SLVEAAIVLVKENKTGDNELYAYLLEKEAINTSDLKHHLKDLLPSYAVPAHFITLDAFPL
+TPNGKIDTKALLEIGGSETGRGAAYAAPQTAEEIALVNIWETVLDKKKIGINDRFFDLGG
+DSIKVLKIVNGIYNEMQLEITISDIYTNDCISQLSDFISNNRASLDVKKTAVTETGNQGL
+EAIDFIKNSVLASLNGNDADAVEDVYPMSDIQKGMIYESLKYEGASIYHDQMINHREFKD
+FDVSVFRKAMQLMTEKHEILRTGFNLQDYDQEVQILYKQVEIPVVYEDLSQLQSLKEQEN
+VIAAFLQSELLHPFDVTQAPLFRMAAFNLGNDTIVFVSQCHHAIIDGWSDSLLLTEINNV
+YLKLLETPSFKPAKLQSSHKDYMLHQLQDKRKEETAAFWTNELNDYNRLDLFTEKETDDF
+KLFSFEKEELAKIESLKKAYGIRLKELALSAFVYTLKLYSYSNDITIGLVVNTRPALPDA
+DGMLGCFLNTIPFRLEVNRDLSGEDLLLLVKQKLIEVSNFSDMSLASIASVTNEIKGMKN
+PFFDIIFNYVDFYSYDALEEQSKEKEASYLENRELTLNGKGVTNTYFDFTVNNTNNAALF
+DFAQTRALVNKIELSEIESVYKKVFRYIVEHPESSLKELDHLSDEEKEIYENKKQHDSVT
+ENEDQTVLDLFKRQVLLNPGYPALHHNGINISYAELDQKSNQLGNYLKKQGIGKEDFVAI
+LLDRSIEMLVSIFGIIKAGAAYVPLDEGYPQQRIDFILKDTAAKAIISKPSLLENFSEES
+FPKTILIDTDWDTITQESVAETDHNLTSNTLIYSIYTSGTTGNPKGVFIEHKGVLNLANS
+LIKRYKIQKEEKILAFSNYVFDASVEQIFIALTSGATLVLCDKEDLLDNEKFADLLMEKE
+ITHIDVTPTYLENVIPNKYHLNRVVVGGEECSISLARKWAAHTDFYNSYGPTETTVSSTI
+YAYDKENDKDLNRLPIGKPIDNTTIYILDNALQIAKTGVVGEMYIGGIGVSRGYINQEAL
+TKERFVTNPFAKEETLYRTGDLCCRLADGNIQFFGRADDQVKIRGYRIELGEIENAFLQQ
+KITTSVAVLAKANKLGEKEIVAYLVPDEHYDVKDIRTRLKSILPYFMIPSYFVPVEEIPF
+TKSRKVDRNKLLAIEIHKTDSLRALVPPENETENTILQIWQDILEKRDISVMDNFFEIGG
+YSLKAIKLKAMLRRKLGLDISIKDLYNAPTIRELAQGKKASNAAVIHLHAGDPQNTIYFI
+PPILGNSIMYHPLAKVLGNEFNSIGLQYKGLEPEEELSQSIEQMASYFSAEIRKRQSNQP
+FVVLGYSMGASIAFEVVKELEKQYDAIELVLVDRPTSLNESNDTEHIDQQANWLLDEYQK
+GIDLSKDQKASVLSFMKNNLQIDNQYTLQGKISSTIYVLESAENELKSNMKDWQDYTNGA
+LVHDYLPGTHWEAFNGNNLDKYVEIFKSIIQKTSIETN
+>tr|A0A1S1J2D7|A0A1S1J2D7_9FLAO
+MKFPTLKENEFAVLMAHCETGIVLDVNFNTYQNNVVNQNTYSVFADIQQTKEFINRISEE
+HDKIEFIIYNSKQELYEFVKARFMQ
+>tr|A0A1S1J369|A0A1S1J369_9FLAO
+MELYDLIRKNEKLTFTDASTGVSKTIAEMDQSLEIENIRSVVFIYNDNQLPAIETLLNFY
+QSRFTIALLGMGLLENFKENLEQKYTPYYIYDPTRTEIEGYTAVNASETIVLFKRNVNLI
+YPIHAKIKLLLSTSGTTGSPKFVRLSDENLVHNAKSIMEYMPIRSDDVVPLNVPINFVYG
+LSIFTTNCIKASQIVCTDKDAFQKEFWADFKNYGYSTLGGVPYFYEMLYSIGFFKKDHPS
+LRYLTHTGGMLNHKLIEAISDFSEKFGKQFFAQYGQTEASGRMAYLPPKDLLRKGTSIGL
+PVKNGRFEIDNETEELIYIGPNVYGGYANVRADLQFYEEQERLHTGDKARQDEEGYYYIV
+GRIKRIVKLFGVRLNLDETELLLKDALGGQTFICIGINDKHLAVMYTDENLNKELILKVL
+KAKLNLHASSLKVMHIEDVPLTPNGKVNYPLLKESLELEGAL
+>tr|A0A1S1J4Q7|A0A1S1J4Q7_9FLAO
+MKKILLLLLTLTFSFTSNAQIQKTLDQLSQLSSKINGTGNVDIASGLKEALNKGITKQVS
+KLTAEDGFYKNEAVKILMPEELQRVDATLRKIGLSSLADEGIKAMNRAAEDAVKEATPIF
+VSAVKNMSFTDAKNILLGNESAATNYLQNSTTTALYSKFNPVIKTSFEKVGADVIWTNII
+KKYNTIPLVRKVNPDLTDYTTNQALAGVFKMIAVEEKDIRTNINARTSPLLKKVFAMQDK
+K
+>tr|A0A1S1J6S8|A0A1S1J6S8_9FLAO
+MPRILSIDYGQKRTGIAVTDEMQIIASGLTTIPTNTLIDFLKDYFAKEKVEAVLIGEPKQ
+MNGQPSESASVIKGFVTHFTNIFPDMKVVRVDERFTSKMAFQTMIDSGLSKKQRQNKGLI
+DEISATIMLQDYLSSKRF
+>tr|A0A1S1J6W6|A0A1S1J6W6_9FLAO
+MVKDLFERIQDNKGPLGKWASQAEGYYVFPKLEGELGPRMTFHGKNILNWSLNDYLGLAN
+HPEVRKADTDAAAQYGAAYPMGARMMSGHTTYHEQLENELASFVMKESAYLLNFGYQGMV
+SIIDALVTKNDIIVYDVDSHACIIDGVRLHMGKRFTYKHNDLESMEKNLQRATKMAQETG
+GGILFITEGVFGMRGQQGKLKEIVAMKQKYNFRLLVDDAHGFGTLGKTGAGAGEEQGVQD
+EIDVYFSTFAKSMANIGAFVAADKTVIDYLKYNLRSQMFAKALPMIQTIGSLKRLELLRN
+SSEIKDKLWENVNALQNGLREKGFNIGDTNTCITPVYLEGSIPEAMVMVNDLRENYGIFL
+SIVVYPVIPKGIILLRMIPTASHTLADIDETLTAFEAIREKLVNGTYKEIAERTTVDVS
+>tr|A0A1S1J8S3|A0A1S1J8S3_9FLAO
+MSNTSTKGIWKVISASSMGTMIEWYDFYIFGSLAVVISTKFFPSDNPTAAFLSTLATFAA
+GFVVRPFGALFFGRLGDIIGRKYTFMATLLLMGGSTFLIGCIPSYETIGFLAPLLVLILR
+LLQGLALGGEYGGAATYVAEHAPAGQKGYWTSWIQTTATVGLFISLIVILATKNILSPED
+FDSWGWRVPFWVSIVMIGISYLIRKNMDESPVFAKAKKEGTTSTNPLKESFGNRYNLKFV
+LLALFGATMGQGVVWYTGQFYAMSFMKTVMNINSSQVDELLGIALLFGTPFFIFFGWLSD
+KIGRKHIMMGGMLLAILFYRPIYKKMYNTTDLKHKTEIAEKTTTNTAVFKENQTITTISK
+TYTDGTTYTEKKTNFADQKESQSSVIININSNDEWTLIFLIFIQVLFVTMVYGPIAAFLV
+ELFPTKIRYTSMSLPYHVGNGIFGGLLPAISTYFVTHAKAAGKDDFYLDGLWYPIIIASV
+CFVIGMVYIDNKNKTNHL
+>tr|A0A1S1J8I8|A0A1S1J8I8_9FLAO
+MEKFIKNLKDLGFQLKINGQDLVLLGKEGKLTPSDIKIITERQDITSFIKENKADIIAYL
+KKEDFKLDRKNISSMYGLSPVQEGILFHSTYLYSTGAKENTTYHTQFDVTFSSKLDVVRF
+KKAWQHVINNHTILRTGFIYDKVNIPIQFVNKEVEVPLRLVDLTENTDQEKDITFKKLKD
+EDRFEDFSFTNPPLMRITLAKFGESTYKMIWTKHHVLWDGWSGQVIIQEVIRAYTNLMHG
+AEPEAQEEDRYEDFINYIKAIDAFEEKEFWQTYMQDFNEPSLLPFCKALHERNKGKGKYE
+RITIDFDAELTQKINDFSKAQHVTPNTLTQAVWAILLSKYTGFKDIVYGVTVSGRPAELN
+YDSKVGLYINTIPLRAKIDQNQTITDFLAMLQKTSVTARNFQHTSLNKIQQWNEIKGDCF
+DTLLSFTNYPSKSSDSKQKPVLEIESVNVKENNNYLLSIQPMLKDRLVIDFTFNSSIMEA
+AFVQMITEHFRTALCQMAEEQFTTIGDFNMLGAAEIEVLTKAYNASEVDYPADQNIVEIF
+EEKAAKTPDAVALTIDGKHMTYKVLNEKANQLSRYLQEQGVGPEVMVGMCINRSFEMIIG
+ILGILKAGGAYVPIDPEYPTERISFILNDSKSNIVLVSTKSSETVKLDIPVQLVNLDHAD
+TFLSAYETTNLELDLPLDNLAYVIYTSGTTGVPKGVMIEHGNVVRLFFTEKPLFDFDEKD
+VWCLFHSYSFDFSVWEIFGALLYGGRLVIVPELVAKDTEAFADLLAEQEVTVLNQTPSAF
+NALQEQVIDKKHPLKVRYVIFGGEALTPGVLKPWAAQYPDCALINMYGITETTVHVTFKE
+IGTREINLNVSDIGRPIPTMSCYILDENMELVPMGVAGELFVSGAGVSRGYLNRPELSKE
+RFMTNPFNPGERLYKTGDVAKRLSSGDIEYLGRNDKQIKIRGFRIELGEVEAALNICPYA
+NHAAVIVHEDQFYSKELVAYVVLKDNYTLEDFKGYLLESLPKYMVPTLCIPLDEMPLTSN
+GKVNKKALPKLASQGTDASGYVAPRNTNEEQLVTIWKEILDRERIGVTDNFFEFGGHSLK
+LTRLITRYHKEYGIKLELRDLFVNKTIEEHCPLLFGASAESNEIEKITPVAKQTNYPLSS
+GQYRMWVLSQSGENNTSYNMPAQLTLEGYDIPLLKKAIDAVIERHETLRTIFKEGENAEV
+RQWIIAPSEIDFTIQEEDFRGEANIENAVADYILQDTLQPFNLADGPLLRIALLQVSDQK
+HVFYYNMHHIIGDGVSINILKRDVLAFYNAFKNNTVPSLPVLSIQYKDFAVWQKQQLENN
+AFDQHKKYWLQTLSGDRGVLDFPSQKARPKVMTNNGQTLRTFLSDTVTRKFETYCKTKGG
+TLFTGVVAVWNILFYRYTNQKDISIGSPVMGRDHVDLENQIGLYFNNIVIRNQINPEDNF
+DQIFDKVKEAMFENMKHQMYPFDNLLDDLTIKGDTSRNPLYDIMISYHNTGAAENNKDLL
+LTQEETDQIVVQDQKGSKLDMLINVKEIGNHLYYNINYNTDLYNQSFIEILMNDFKYLLS
+QLLENKAERIDDIDFQKETKQILRSLNANKFKLVKK
+>tr|A0A1S1JCE1|A0A1S1JCE1_9FLAO
+MSTIIDNNQFEQHDYVIRETRGVTNDGTWIHTEGTDYIFYYKLDIWTDEQNRIMGNAFLR
+ALQVPNKIKDAVKATSGQTVVDGLYTLNQDAMVKALNSIRGMSQTNVVQRALIGNGTIQQ
+ANEQLFNDILSGVGGSVNPMRDYLNRAMAATQAAAAGNTTAENFGTTITLLSLVPGLNIP
+TTSVVYAVSKASSAAVLIKHKCSSDSTKFSYNVDYTKVGYSYVEPL
+>tr|A0A1S1J844|A0A1S1J844_9FLAO
+MKKLILSAVIILGGLLTNAEATTLKKSVLNVVKFQDDFKEIKPEALPAEVKATLEKSFPG
+SKLVKAYVNPKKQYKLELNSGADQDKHFVFTNDKGVIAPKY
+>tr|A0A1S1J8C3|A0A1S1J8C3_9FLAO
+MKKHQVIPACSLIFILLFYHESMGVNLAIFGLLLIGLICYFFQDKFTDRSHLILVVTSVL
+SCMAFAWYGDFPSFLALSMSVLFLHFRLQDPELKILQIFPLVFLNAFATLGRVFMFSQWL
+PERQIHNNFAKKLVAYVIIPFIFLVVFFTAYSFGSEHFSSLLTDYTLDLDIFEVLLIGVL
+GFYISFSFWNYWVPEICYEKNGLLDNEFSNVVEIKNQKTFSFLDLDFERKSGEITLVLLN
+FMLLVFIITYNYEQFFEAVETSKLSSATHERVNAVIFSIIMAVGVILFYFKGGFNFDKKA
+ARLKKLAKVWIVLNGVLIVSTIIKNSEYVAFFGLTYKRLGVYAFLILSVIGLIFTFIKIT
+KQKTNAYLFNQMVWYFYGTILLCSFVNWGNLITNYNVSVNKGIEPWFLRSLHFNDESRNA
+YFSTINIVGEGQGYLEENRVEDHKDDPFLSKALYYEFVEKK
+>tr|A0A1S1J329|A0A1S1J329_9FLAO
+MRIIIYVLIFSCFFSCKKKQVIIDTDDIDKLSKAKYEMPSVYGQTNLFILIKNEEIIKTN
+ADFLNYLYELKFKKSFGTFRDFLDAVLNHKIEITKKDFKNIYYEIFMPSNNIKKEYEQGF
+DHFYLKYTKDFNQKKVLNITKLSKDDFFTIQYYFYLNGYQIQEDNYNGYYYLISRDILLK
+>tr|A0A1S1J7K2|A0A1S1J7K2_9FLAO
+MFDRISKFTNSTSFLNASKVTIASVVPVLILNFLGHFEIGFTIALGAFYTYPSDIPSSLS
+HKIKGLIVASFIVSGVNLLVNLAYPYPFLFYPFLGFLLFLCSMISVYGQRATLVSFSALL
+SISLSFGHLHEGWEAFEYSGFIFIGGILYLIVSLVFHFVQPYKYVELQIAEGIKLTAKYL
+KLRGDLWNPEANRKAIIEKQLSVQVELNLIHEDLRKMLIGNQNTSGATSQNRKMLLVFIT
+LVEIQELALYTSFDHDKLHEKFAAHPEVLRTYQNVAYKLASTLKKLSKNVHNISVYVDKN
+DLKNELDALEFAIFDYEKTLGKEEAAEGVLMLTNMLKYAKNQVGKIKTIQRAFSLAMQSY
+KLKDKDKELEKFLTPQYYPLRTLIENLSYSSSIFRHSIRLTTTILIGFVIGKFLPFQNVY
+WILLTIVVIMRPGYGLTKERSYNRIFGTILGGLLAFGIVSLVQNHVVLSIFSIVCMLLGI
+SFTQINYKISATFVTMYVVFIYGILAPNVVEVIQFRILDSLAGAILAFLANQFLWPAWEF
+INTPIHIENSIRANRNYLKEIADFYNKKGEVPTSYRLSRKNAFVEVGNLMTSFQRMMQEP
+KSKQKTLPLVNKLVVLNHSILSALASLSTYIQSHQTTSASESFNYIIKTILSNLDHAIAA
+LRNEKIINDTYFDKEDVTLQFEELKRVNFKRLAADDDLDKETRQAKMQEAQMVIEQLIWM
+SNLAEKILKITKEFKATNPD
+>tr|A0A1S1J9Q0|A0A1S1J9Q0_9FLAO
+MIQKGVIAILFFVLLGNPISVMAQTEPEDIAMATDEYQDAFYESLKQKGIENYDKAVTSL
+QKCIKLKPNDAVAYFELGKNYLSLKDYRSAQDSFEKATQLDPKNKWYWLGIYDVSYETKN
+YPLAIETIQKIMVFDEEYKDDLISLYMITNQFDKALVAINEMNEKYGKSEDRDRYRLQIL
+SQGKYQNAEIDNLIEQIKQHPKEESNYVNLIFLYSKSEETDKALNVAKQLAKEIPTSEWA
+QVSLFKVYLDGNQADKAIKAMNVILGSSKIDSKIKHRTLNEFLIYTNKNPQYAPDLEKAI
+SYFDNDPNVDVAKEIGKFYHSKGQFENAIKYYEKDLKANSETDRETNLLLLEAYAQTKQF
+EPMTKRAMSMIEVYPSQPQFYYYAGLGNNQLKQFKNAKTVLEIGLDYVVEDKTLEANFNI
+QIGEAYNGLGDAKKKEEYFLKANELLKKRK
+>tr|A0A1S1J1E0|A0A1S1J1E0_9FLAO
+MSFQSIITKQVALLTDRLNAIANNAKKIVELPWQSVLRPNSEIHVSDSGTSYKIKIQQIF
+DWFNSVRQNQLVSANVSIIANDIVVATGAQWIIGNVNYATVGNTSFTIEYAETGYTRNDI
+LVANKNNQIIRILGPETEGTSPTPPTPIDTVLVTIINVTDSTIGNTPPIIGGDYEKVVNK
+QNSLTVDGTGKKYPTVDAVNSILVSKEDLLNKATNFTTVNDILYPSVAAVKAYADNLLVG
+VINLRGVWDASGNLFPITGGSGISGAIQKGDLWYVSVAGVLAGKSVNVGDSFFALVNSPN
+QVSTNWNVIESNIGYVPANDANVLHTSGNESFTGVKSSTNTTNSQSSGLDLTNNGGAPGS
+TVFKITNSSTGRGGQVINSGGGSGFYIINNSNGNGLASVNNGIGNAFTSANNSSGTGFAA
+SNTSTGSGIYSVNDSTGIGVVSNGSSGSTGFIFAGQNNGVNTFTINKSGDTVLNSATITT
+VPTTSAGAYDVLTRDSSTGVVEKVLSSSFAADSNVVHKNGNETIAGVKSLSERLQFATDQ
+GFTSGGSMPFIHRSGDHIAVCSTTLAGTARLDTKNITTSSPKTFSFPNKDGTFAMTSDLL
+VILTGAATLDFPNTAPGTSQDLNISVPGAALGDVVSLGVPYASVEPNSQYTAFVSASNVV
+TVRFVNFDTSTARNPVSGDFKVKIIK
+>tr|A0A1S1J328|A0A1S1J328_9FLAO
+MQSLIGTGVALVTPFKKDFSVDIEALQRIVNFSIDGGVEYLVVMGTTAENATLTQAEKEL
+VIKTVIDTNKGRLPLVLGVGGNNTMQIVEELKTGDFSAFDAILSVSPYYNKPTQEGIYQH
+FKAIAEASPIPVILYNVPGRTSSNMSPSTVIRLANDFSNVVAIKEAAGDMAQALQLIKNA
+PEGFLIISGDDMIALPIVLAGGAGVISVIGQGFPKEFTEMIRLGLNKKVTEAFKTQYLLS
+DCIDMIFEQGNPAGIKQVFQALGIAENTVRLPLVAVDDSLAGRLNEFVKNSIK
+>tr|A0A1S1J9S5|A0A1S1J9S5_9FLAO
+MKKEERQKVILEYLSKEHRLTLQELSVYLNVSEDTIRRDVKELSDQGLLKAVRGGAVAPS
+PIPLHFRNREKHDLENKKIIAEKAISYLKDGQVVFIDGGTTSLALVASFPYDLKITVITN
+SFPVAALIEDLPNIELIFAGGRMCKTSFATASIETIDFFRNFRANICILGLCSIHHERGV
+TGVLHDDSQIKRNMIQHSDFVIALGSIEKVGTAESYFVCPIKDIDVLVTNIDPEDETLKP
+YQNAGVTLV
+>tr|A0A1S1J5F3|A0A1S1J5F3_9FLAO
+MQSLKIPKLTIVGAGPGDAELITMKAIKVLEQADVVLYDALVNEELLAYAPNAEIIFVGK
+RLGCHAYTQDQINELIVSMAKRHGHVVRLKGGDPFVFGRGSEEIEFAEQFGIETAIVPGI
+SSALGVPASAGISVTQRKVAESFWVITGTTSDHKLSKDIHLASKSDATVIILMGMHKLEE
+IIAIYQQNRTDNLPIAIIQNGTKKTEQKVIGTIGSIAKLVAEKNITSPAIIVIGEVVKNT
+SSWISYFQEHFDDEFIFQNLNL
+>tr|A0A1S1J796|A0A1S1J796_9FLAO
+MNKNYIYLSLLLLFSTIMFGQKVTLAPTMVNGLSVTSGPINLGGISYSYISLSVKVEIPN
+NVAVGDQGTLKIYFSKLSPQNVNIAIGGDGGQLYFGGGQFATRNFNINLSWGDFLTSGGF
+VYAEYKNPAGAAYKSSNIAVIKNPTLNGGGTVIPPADAPDPTKISNTLCCNQIVRLGDKP
+TPITGSQYSNPYKDQPYGINSSWEANGNGSVRFKNFDNVNQILEIDHITEIGNFNVIRSL
+GYNHTSEKPNKSNSVAITVVPSPIFRNSISANEQVNSEGFIELSSLKKLAISGENSIVNL
+KVLEDPFYVVQMRDPGAKVDSYKWEYTTIDKGMIERWTTITNESSPNLSFSDPSQFSNFE
+DTYYLIRRIAIYKNISQISNQIKVLVRGLRYNNTICCDQILKITSPNSFENLQLITGSTA
+SLDNPYPEGYDFRIYLTNYQWQSQSLEGDYPTTSWSNIPGATSKDYIPSLPLTIITDRRG
+RYSFKSTYKFRRIATMNYVVLVNSQNIYGVVTSHSNETYLDGTASQPYIQLYPNPTSSIL
+NIESTSDMLNSKITISNVMGNVVNSNNFSVSNPKLINIDVANLPTGTYFITIENEHVGTI
+QKTFIKQ
+>tr|A0A1S1J173|A0A1S1J173_9FLAO
+MKTTEDRIQELINDWITNPRWKGVERPYTATEVVTLQGSYHIEHSIAKMGAEKLWRKLKS
+QDYVAGLGALTGNQAIQEVDAGLEAIYLSGWQVAADANLAGEMYPDQSLYPVNSVPMVVK
+KINSALLRADQIQVVNQVEDKKDYLVPIVADAEAGFGGNLNAFELMKSMIEAGASGVHFE
+DQLSSAKKCGHLGGKVLVPTQEAINKLIAARLAADVMGVSTLIVARTDADAANLLTSDAD
+PRDAKFITGEKTNEGFFYVNSGIDQGIARGLSYAPYADLIWMETSNPDLVYAKKFADAMK
+KEFPGKMLAYNCSPSFNWAAKLSVAEMETFREDLAAMGYKFQFITLAGFHALNTSMFELS
+KAYKERGMAGYSELQEREFALQQNGFRAVKHQAFVGTSYFDAVQNTVTIGRSSTTAMKHS
+TEVEQF
+>tr|A0A1S1J248|A0A1S1J248_9FLAO
+MAVEDKHISYRIYLVAVFIFVMAIAIVVKLTNIQWVEGDYYRKLAKQRTVRNFVIPANKG
+NIYSADGSLLATSIPNYEIRFDAKAPKTETFEKYVKALSDSLATVLDRPAGYYQQELRKA
+RANKNRYYLIARNLSYTEYVKIKGFPLFNLGAFKGGIIVEQETVRKHPIGKIAERTIGYD
+RIDPATGIEVGKGIEWAYKSYLNGKDGKILKQKIAKGQWKPIRDLNEVDPVDGYDVISTI
+DVFIQDIAHHALLKQLEDYEADHGCVVVMETETGHVKAISNLGRSEDGSYYETTNYAIAE
+SHEPGSTFKLVDLMAILEDKVADTSTVFDSHGGEMRYYGRAVRDSHRGGYGKISLARGFE
+LSSNTVMVQAVYDNYKSNPSKFVNHINSYGLNKTLGLHFKGEGRPYIPQPGDKHWSGVSL
+PWMAFGYGVSVTPMQTLALYNAVANNGVMVKPQFVSEIKEWNKTINKFEVEVINPKICSQ
+ETIDKVRAVLLNVVKKGTGSKLYSKDFSMAGKTGTAQVNYGGKEGKSGLYYASSFVGYFP
+AEHPKYSCIVVVHKPNTSKNNYYGADVAGPVFKRIAQKIFTDAPSTNRIKKLDSRIPKQD
+DSYNKYTAEANKKINQVPNLKGMPGMDAVALLENLDLKVRVIGVGKVKKQSIQPGQNISK
+NTIIVLELS
+>tr|A0A1S1J3A7|A0A1S1J3A7_9FLAO
+MKTSVKLFVCSAVLFSFIANAQWSNKKLKGNGNVVSETRTTSDYDGIKISGFFDVDLVAG
+KEGKITVKGEQNLLTAIKVEVENNILKVYVEKGVNLSPSLGKKIEVTVPFESISGLTLSG
+SGDVQSKSTIKSDKFLAKLSGSGNFNLALDSNDLELTLSGSGDVNLKGNAANFSTILSGS
+GDIDAANLKTKNTEVTISGSGDVRVNCTESISAKVSGSGDVRYSGNPEKRSVKVSGSGSI
+SKA
+>tr|A0A1S1J5Q3|A0A1S1J5Q3_9FLAO
+MSKNVFVEGPISPEFIAESIAKHQSKHTIGAHNIFLGQVRADVIHDNTVVAIDYSAYTDM
+ANEALHTIRERAFAKFDLTCMHIYHSLGVVKAGEICLFVFVSAPRRKQVYEATEAIVNWI
+KTDVPIFGKEMFENDTFTWKQNS
+>tr|A0A1S1J824|A0A1S1J824_9FLAO
+MKLLYITQRANEEGGVQRVLAVKTNYLIEKFGYEVSIVTQNEGNENLFFEFNKRIDFYDI
+SLKSNKAFNLLQYKKKIEEYIKRIQPDCIIVCDFALKSFSIPLLINTKVPIVFEAHGSRF
+NEYRSNSPFRFISKFKYEYRNYCASQFMLFIALSQESLSEWSVKNSHVISNPLWIERESF
+SDLKAKKVIAVARHSHEKGIDRLLQIWKLIAQKHPDWILEIYGKENEALELRNLARKLKI
+EERVVFCNPVENIQQKYTESSIFVMTSRNEALPMVLIEAMACGLPCVAYDCPVGPKAIIE
+NNKNGFLIEDGNQGSYVEKLSLLIEDKDLRLRMSEKAIKSVEKYNLHSIMKQWNELFDSI
+VKA
+>tr|A0A1S1JBX1|A0A1S1JBX1_9FLAO
+MANTYTQIHIHFVFAVKFRRSLIDKEWKAELYQYITGIIKNNDHKLLAINGVSDHIHILI
+GIRPAQSISDLMKNIKQDSSKWINSNKLSKSHFQWQEGYGAFSYSKSQLSTVIRYIENQE
+AHHKKKTLREEYIHFLQKSEVDYDEKFIFKELI
+>tr|A0A1S1J2S6|A0A1S1J2S6_9FLAO
+MGKFVITKRANGEFQFNLKAGNGQTILTSEGYTTKAACLNGIESVKTNSQDDGRFDRLES
+KSGKPYFNLKASNGQIIGASEMYESTSARDNGIASVKTNAPEASTDDQTT
+>tr|A0A1S1J652|A0A1S1J652_9FLAO
+MKNVKLASLAFSIFLCLVTHAQEKDVSHTKPVNADSQIIICAPSKKSIINPPLVIVDGVI
+INFKDFPKVSPNTIKEMKVLKETEATSVYGNKGINGAIIITTKKNN
+>tr|A0A1S1J9L8|A0A1S1J9L8_9FLAO
+MKTGVDIQNYLPHRAPLLMVDLILDINSSFVETTFLIREDNIFVDNNIFIEAGLIENTAQ
+TCSSIVGKKYFFDDDGTENENVNVIGFISAIKNLKVHALPKVNDTIITKANLVSKFAGDD
+YTLCTMSCESLVDDKLLLECEINLFIQQTISAIS
+>tr|A0A1S1J3X2|A0A1S1J3X2_9FLAO
+MRKALFPGSFDPITLGHEDIIKRGIPLFDEIVIAIGVNAEKKYMFSLEERKRFIEETFKD
+EPKVSVITYEGLTIDLAKKLKANFILRGLRNPADFEFEKAIAHTNRKLSKIETVFLLTAA
+STSFISSSIVRDVLRHGGEYEMLVPDAVRVKK
+>tr|A0A1S1J7G0|A0A1S1J7G0_9FLAO
+MSENLEQSFVTQLQANQNIIHKICRLYTAGEDAHKDLFQEITIQLWKAYPKFRGDSKFST
+WTYRVALNTAITLYRKTKRTVSTVEYESHQHFIKDVDYNYEEEEQIKLMYKAVYQLNDIE
+KALVFMYLEDKDYQEIAETLGISEVNARVKMNRIKGKLKKILNP
+>tr|A0A1S1J7E1|A0A1S1J7E1_9FLAO
+MTSFNSLITFLLKRIVSVLFLLFSLFSNLSFSQNIAKITLQITVYDAESKIPLKGVLLSA
+EGISKYEAHSDDLGSIILNSIQSGRYILKLSHLGYETIEQNLEFKTGQSLSFGLVSSSVQ
+LNEVVITAVESRGMTSTSVIDKKAMQHLQPSSFTDLLELLPGGRSKDPVFNASNHIKLRE
+VGTADSNYDVSSLGTSFVIDGIPINTDANLQYTTGPNMSITPGSGYANTRRNTTSKGVDM
+RSISTDQIERVEIVRGIPSVEYGDLTSGLIKIQRKKGRTNWESRFKADEFSKLYYLGKGF
+ESEEKRLILNVGIDYLNAKSDPRNSFENYKRITSSIRAQKIWENDSHQLQWDSSLDYSGS
+IDNERADPDVGYTKIDRYASSYNRFSWANSFDLKFKMAPFLKAIHSSAAINQQFDKIEQT
+KWVQVSSATAIPNTTEQGESDGIFLTPQYISNLTVDGKPFDAFFKTMGDFEIHLFGITHA
+LKAGSEWTYSKNNGKGQVYDTTHPPSPEMSTRPRSYKDIPASTDLSFFVEDALSIPIGKH
+QLNLTGGLRAMSLLNVPSAYSISGKYYFDPRINTQWVFPSFKMGKHFLKTELTAGFGQYT
+KFPTLAQLYPDFIYNDLVQLNYYHNTPEYRRINLMTYKTSAVNYNLTPAINKKWEVRADF
+SYDNNRFSVTFFNERMDSGFRNNSQYQALSYKKYDNNSIDPLTLTSQPDLADIRFVRDTL
+LTSYNITNNGSKLLKSGVEFQFSSKRFTAINTRFTLNGAWFKTTYTNSSPVYKRGQKDII
+IDGKRLPYLGLYQFDDGSEKQQFNTNLIVDTYVPPLGLEFSGSFQFLWFRSDQSLPMNGT
+PIAYIDPSGKQHPYLEKDLSNPILQWLDIKYNDALFQKKSIPMSMNMNLKVSKDFYKRFR
+ISMFVNRLFSYYQNYEINGQKIERRGLTSPYFGMELNLNF
+>tr|A0A1S1J8S2|A0A1S1J8S2_9FLAO
+MESQNILSKTWYLLRTTILEFNDDNAIKLSAALSYYTIFALPPLLIIIITICGFFFGEEA
+VTGELYGQINRLVGNDAAIQIQDAIKNVQLSDSNVFVTIFGVVMLLIGASGVFAEIQSSI
+NFIWGLRAKPNKGLKKFIQNRIMSFSMIVSVGFLMLVSLMLNAVLDVLNARLKLYLADST
+VYLFYVINLIIVLGSITLLFAIIFRTLPDGLIKWKDAFIGAGCTAILFMIGKFAIGFYLG
+NSTIASVYGAAGSVIIILVWVYYSAIILYFGAEFTKVYAKTYGGKIAPNGYSVEIKKEIF
+EIKEQTEIS
+>tr|A0A1S1J4C6|A0A1S1J4C6_9FLAO
+MGIFKIEGGTPLKGEITPQGAKNEALQILCAVLLTGDKVRINNIPDIIDINKLITLLGNL
+GVKIQRNEPGSITFQADEVNVGYLETEAFKKEGGALRGSIMIVGPLLARFGKGYIPKPGG
+DKIGRRRLDTHFEGFINLGAKFRYNREDHFYGVESPEEGLTGTDMLLDEASVTGTANIVM
+AAVLAKGTTTVYNAACEPYLQQLCKMLNSMGAKITGVGSNLLTIEGVESLGGCEHRILPD
+MIEIGSWIGLAAMTKSEITIKNVSWENLGLIPNTFRKLGITIEKRNDDIYIPAHKDGYEV
+KTDIDGSILTIADAPWPGFTPDLLSIVLVVATQAKGDVLIHQKMFESRLFFVDKLIDMGA
+KIMLCDPHRAVVMGHNFESQLKATTMSSPDIRAGISLLIAALSAKGTSTIQNIEQIDRGY
+ERIDERLRAIGAKIVRA
+>tr|A0A1S1J4A6|A0A1S1J4A6_9FLAO
+MKKPLYFLHRRVFLQRLILLLSIAIAGITLLQSDEFNTPSDSGQKNNSAEILKFSDLADS
+LYDAYKLDSSYYYYNKAKLLCNPKINTIDYVYTLYSMSQIKYDQGDYITSEAHATEALPY
+LKYIKNPRHASILYNQLGINYSNTYNYSDAILYLKKAIHLKSSTWRRYMALNNLATVYMD
+QHRYKEAEQILFILSTQKRTSNYEDIDKDNYARAIDNLGLCYFRLGDPDKALKYVNEALK
+IRLSLSSEYEYSLVGIYRHLCLFYMKTNPKLAKEYALKSHKVATKIKILTDRISSLSLLI
+KTSEGSDLKKYSLSYIELIDSITHARCKTKNQFTNIKYISRIDKTENLLLKAQKAENELE
+LARQKRRNIYLYMIIVLILSLIAFVYFYLKSKGTKQKDDAVFESEIRISQKLKDELTNDV
+YHSLTFAETVDLEKRENKERLLNNLHAIYTKTRNISKENGSVPTNESYSTSLKEMISGFK
+TADLNIILNGFDAISWNELEKSKKIILYRILQELFVNMKKHSQATLVSLTFKNFEKKIVI
+IYSDNGVGAYNRSIILKNGLQNVENRIKTINGNIIFDSNSKTGFKLSFNFPK
+>tr|A0A1S1J5J2|A0A1S1J5J2_9FLAO
+MHNDTLLDQLKSKLKIIITESYKDNKFELEKDLNTFLEISREKLERWLFLFSSGNLTEED
+LEWLLKSQFNLMEFQTLQATGISKIKLNAIKNNILKMIFKVLFDLVIPRG
+>tr|A0A1S1J9A4|A0A1S1J9A4_9FLAO
+MDYKNNIAYRKETLKKLLYNIQKSEDLIVKALYDDFKKPEFEAVLTETNYVISDLKDTIR
+NINKWAKPKRVLPSLLNFPSTDYIFKEPYGNVLVIAPWNYPFQLALCPLISAVAAGNRVV
+LKPSELTPHTSAVIAKIIEKTFHVKHVEVIEGGVEVSNRLLAQRWDYIFFTGSVTVGKIV
+AKAAAENLTPVTLELGGKNPCIIDETANLKLAAKRIVWGKFINAGQTCIAPDYILVQKNM
+KVNFISFLIEEILKAYGKKIDKSPDFARIINTKNWVRLDSMIEREKVIFGGETDAEKNYI
+SPTLIEEPALDSPVMKEEIFGPILPILTYETEADIHNVISRYEKPLAFYVFSENKNFAKK
+LITSHSFGGGCINDTVVHFSNKRLPFGGVGHSGIGAYHGQLSFDIFSHHKAVVKKGNWLD
+LPMRYAPYKDKLISLKRLLNWL
+>tr|A0A1S1JCD0|A0A1S1JCD0_9FLAO
+MKFLGNVIATVIGIFVFIILFFFGVILIGAIFGGDDAVSVKSDSVIELNLKQIQNDYAGK
+YKDPWVTVFSDKKGIGLTDVINAIEAAKTDDNIKGISILNDESSLGLAQYKDLRNALESF
+KKSGKFVWAYANTYSQKEYYLNSVANTIYLNPAGDLDFKGLSSEVMFFKDFQEKSGIHME
+VIRHGKYKSAVEPFLENKMSDANREQVTALLNSIWTTVTTDISKSRNIPLPKLNEIANGL
+LARTPEMAKAQKLVDVIAYEDVYHNAIKKALKVTGDDDYNKISILDYTQNNITTALTNTA
+TDQIAIIYAQGEIQSGEGDVNVIGEGSMRRSLQEARKNEDVKAIVLRIDSPGGSALTSDL
+IWREIEITKKVKPVVVSMGNYAASGGYYIACNANKIFAESNTITGSIGVFGVLPNFTPLA
+HKLGINTEQVKTHENSANYSPFVPVDEKFKAFTLEGVEHIYKTFVTHVAEGRKMTFAQVD
+SIAQGRVWSGSEALKIGLVDQIGGLNDAIAEAAKIAKIKTYSTQNYPEYEKTFNDLLSNL
+PFAQSKEAFIKEEIGEENYMLIEQVKRLQKQKGVQAMLPFGINIK
+>tr|A0A1S1J561|A0A1S1J561_9FLAO
+MKRKLLLLFLSVFLTKTYAQDYFPVNESVHNKNNNYTVFTNATIYVTPTQKIEKGTLLIQ
+DGKVVGVGNNITIPKNSVAIDLAGKTIYPSFIDIYTSFGVEKPKAPAGRGRDRSPLYDTK
+KVGYYWNESVRPEVNTYETFKYDQPKAEELLKAGFGVVGTHIADGVAQGTGILVALNNTE
+NSKQIIANKVTNHFAFTRSALTNQAYPSSLMGMTALLRQMYLDLDWYKKGNSETKDLSLE
+ALADNEKLVQIFATEDKLNSLRAAKIAKEFGLNYVLKGSGNEFERIEEIKGTNAKYIIPI
+SFPEAYDVSNPYLSNQIELADMRFWNQAPTNLKVLSDNGVVFALTTDKLKKTEDFKTNLL
+KAIKYGFDKTKALEALTTVPAAILGKSNEVGSLKTGAFANFIITSGEIFDEKTVLYENWV
+QGTKYVVNDVNAKDIRGNYDLTVGKDTYKWKIEGTVDAPKSEITTADTKKVSSTFAVSKN
+WITLLIKPTDSIKSNFTRLTGLIEKPENLSGKAVLANGTELFWTATRTSPFVAVKDSTKV
+EKLNPIIPTTYPNIAFGDSKRLTAQTLLFKNATVWTNEKEGILTETDVLIKNGKIAAVGK
+NLSDASATVIDAKGKHITSGIIDEHSHIAISKGVNEMGHNSTAEVTIQDVVNSEDINIYR
+DLAGGVTTSQLLHGSANPIGGRSAIVKWKWGAAPDEMLYKNQPKFIKFALGENVKQANWG
+IDNPTRFPQTRMGVEQVFTDYFQRAKEYDESWKKFNAGSKKGKAPRVDLEMQTIAEILNK
+ERFITCHSYVESEILMLMNVTEKFNFKVNTFTHILEGYKVADKMKEHGVGASTFSDWWAY
+KFEVNDAIPFNGPIMHNQGLVVAYNSDDAEMSRRLNQEAAKAVKYGNISEEEAWKFVTLN
+PAKLLHIDDKVGSVKVGKDADVVLWSENPLSIYAKVEKTMIEGVVYFDLEKDAEKQQAIS
+KERSLLIGQMLQEKNKGMSTQPPTKKEKKEYHCDTLEQ
+>tr|A0A1S1J8I5|A0A1S1J8I5_9FLAO
+MKTNNLGYPRIGSNRELKKASELYWAGKISADELIETGKDIRRKNWQLQAEAGVDLIPSN
+DFSFYDQVLDLTLTVGAIPERYHELAKTNTSIDLYFAMARGAQKDGQDVVAMEMTKWFDT
+NYHYIVPEFTKNQKFELFSEKIINEFKEANALQIATKPVLIGPVSYLLLGKEKEEGFHRI
+DLIDKLLPVYFEIFEKLQEEGAEYIQLDEPFLALNLTDKERSTFTKVYHEIHQNFPKIKI
+VLANYFDCFGENLATALALPVDTFHLDLVRCPSQLDDILESGQLAPTANLSLGVIDGRNI
+WKNDFRNSLELIKKATAALGENRILVAPSCSLIHSPCDLDLETNDATLTPEIKQWLAFAK
+QKINEVVLLKQFASNEIDIKNSIDYEQNVIANNNRKTSALIHNDEVKTRVAGITASDDQR
+KSTFAVRRKSQIEALNLPLFPTTTIGSFPQTAEVRSWRAKFKKGELTTEQYNDLIEKETE
+ATIRFQEETGIDVLVHGEFERNDMVEYFGEQLSGFTFTKNGWVQSYGSRCVKPPVIYGDV
+SRPNPMTVKWSQYAQSLTPKWVKGMLTGPVTILQWSFVRNDQPRSVTCTQIALAIRDEVV
+DLEKAGIKIIQIDEPAIREGLPLRKEEWANYLDWAVKAFRISASGVNDDTQIHTHMCYSE
+FNDIIQNIADMDADVITIECSRSQMELLDAFANFKYPNEIGPGVYDIHSPRVPSSTEMVH
+LLEKAAAVIPADQLWVNPDCGLKTRHWDETKKALIEMVNAAQEMRAAVENTATF
+>tr|A0A1S1J204|A0A1S1J204_9FLAO
+MSHVRLKPSKEFKIDFHPSELDSSNVPEESKKYSQEYLSSNKLAEHENFDIMIMLESKVI
+YGYDYIYQNKKLILPEVDPITIFFSNAVMSYGRLQHYKIKLLEESSKAGETGKNLDLNLS
+GDFFQPAINCIINLQASLESFANRVIPEDYLFIDKTGNKIFPTVSYKLYNVIPKIKLIDF
+KQAKNKKHNKSIDKLIQLRNDIIHLKPAEKTNTGYKGTYREILDFDFIRAFNAVQSYINF
+YQENLVSECPCGNDYFFDKFKSE
+>tr|A0A1S1J2Y8|A0A1S1J2Y8_9FLAO
+MIAGKVRMFKSVLMAATTAFTMLSCGKQALAVSESDPWKNKDLIVKSISKTRFLDKTYNV
+NDFGAVADGKTLNTLAFEKAIKACAQNGGGKVLIPAGKYVTGAIHLESNVNLHLEDHAEV
+LFSIDPKEYPMVHTSFEGTELMNYSPLIYAKNKTNIAITGKGTLNGQADATNWWIWSGGK
+DYGWKKGIPSQNDPQNRAVLIDMAENGVPIKERIFGEGRYLRPNFMEFFECSTILVKDVI
+IINAPFWILHPLKSNNIIIDGVTVNSHGPNNDGCDPEYSQNVLIKNCTFNTGDDCIAIKA
+GRDGDGRRVAIPSKNIIVQNCKMIDGHGGVVIGSEISAGVNTIFVEDCVMDSPNLDRAIR
+IKTNSKRGGVIENVFVRNLEVGTVKECVLKLNMFYNVYGSQTGNFIPTIRNISLENINVK
+NGGKYGVWAEGYEQSPVENITLKNVVIQKVDSVHLLKNVKNIQFINTYINEKKVE
+>tr|A0A1S1JA36|A0A1S1JA36_9FLAO
+MEQEIDTNELGESIVKVLKGIYDPEIPVDIYELGLIYDVMVNTDYEVKILMTLTSPNCPV
+AESLPREVEEKVKTIENIKDVDVEITFDPPWSKDLMSEEAKLELGML
+>tr|A0A1S1J3C4|A0A1S1J3C4_9FLAO
+MKIDKNWLVQESQAEKIVKDPTSNFQYQISPKYLIIHYTAGDKASGAITWFKQTPAQGNT
+DRICAHIVVDLDGTITQLAPFNTRCNHAGYSSWDGRTGMNEYAIGIEIVNPGFCEKLTDG
+SFRRRVGENKDGTPSYKTYPASEKDRIVKLKHKHKFWDSKENQYWFKYTDAQIAAVSKLS
+KLLIDTYQLSFVVGHDDISPARKPDPGPAFPWDDFKTNVFGKTDNIGKIFLVNSVSDGVA
+EFRTKPDKTSSSIRTLKNGYEVGLIETFGQWSKVYLVNDIKDIKDWKHSIKIEGWIHSSL
+LKPKS
+>tr|A0A1S1J9E4|A0A1S1J9E4_9FLAO
+MKPTDNSEKNNLHPRNLHRSRYDFELLIANCPELKAQVAVNNHGIETIDFSNPLSVKLLN
+KALLKTYYDIQNWDIPKNYLCPPIPGRTDYIHYLADLLAETNNGTIPQGSSVLGLDVGTG
+SNCIYPILGNAVYGWDFVGTDIDRKAIENCSKIIEANPKLIEAISLQQQTESRFIFKNII
+TPEDRFTFTMCNPPFHASAEEANKSTVRKVSNLNPKDKKKVNPVLNFGGQNAELWCDGGE
+LRFITQMIYESAKYATQCLWFTTLVSKRDNLYSIYKTLNKVNAVDIKTIDMAQGQKTSRI
+VAWTFLSENQQKAWNFENA
+>tr|A0A1S1J7Q7|A0A1S1J7Q7_9FLAO
+MNFQVSSEYSPKGDQPQAIEKLSQGIIDGEKYQTLLGVTGSGKTFTVANVIQEVQRPTLV
+LAHNKTLAAQLYSEFKQFFPNNAVEYFVSYYDYYQPEAFMPVTGVFIEKDLSINEELEKM
+RLSTTSSLLSGRRDVLVVASVSCLYGIGNPVEFQKNVIEIARDQVISRTKLLHSLVQSLY
+SRTEADFTPGNFRIKGDTVEVYPSYADDAYRIHFFGDEIEEIESFDAKTSQVIEKFTRLT
+IYPANMFVTSPDVLQGAIWEIQQDLVKQVDYFKEIGKHLEAKRLEERTNFDLEMIRELGY
+CSGIENYSRYLDGRDAGTRPFCLLDYFPKDYLMVVDESHVTVSQVHAMYGGDRSRKENLV
+EYGFRLPAAMDNRPLKFEEFEAMQNQVIYVSATPADYELQKTDGVYVEQIIRPTGLLDPI
+IEIRPSLNQIDDLIEEIQVRCELDERVLVTTLTKRMAEELAKYLTKVNIRCRYIHSDVDT
+LERIEIMQDLRKGIFDVLIGVNLLREGLDLPEVSLVAILDADKEGFLRNHRSLTQTIGRA
+ARNLNGKAIMYADKITASMQKTIDETSYRRTKQINYNTQNNITPQALNKKIDSAFTKNPL
+VEYKLGHTIPSAAAEPETAYLSKSELEKMIREKRKSMEKAAKELDFLQAAKLRDDIKKLQ
+EQLP
+>tr|A0A1S1JA07|A0A1S1JA07_9FLAO
+MNIIKKIFSKSRSQEDGIFFDTIQKILGFQPVSIDFYKKAFTHRSSNKLDESGHPINYER
+LEFLGDAMLSAVIAAHLFNKAPKGDEGYLTKMRSKIVSREHLNELGKDLNLVRFVESKVP
+IQHFGENIHGNIFESLIGAIYLDKGYSFCEKFIQKRVITPYVDIARLEGKVISYKSLVIE
+WCQKEKRIFHYDIFEDNGIDGQRLFGVKLSIDDKVIARARATSKKKAEEKASQRAYFAFQ
+EKIDKK
+>tr|A0A1S1JEP2|A0A1S1JEP2_9FLAO
+MSFKKIMTNYAAYNLWVNQQFVNWLSAKTDELLHKEVLSSYPSIIKTLNHIWETEEYWFS
+IIAEIPQPERREAVDLNKDEIFEGLLNTSTKLAAFITSLSDEQLLKTIKIENPWFQCEQP
+VSDYLLQVVNHGTYHRGQIVTIGRNVGITDASNTDYNFYNVVKEKH
+>tr|A0A1S1J1W9|A0A1S1J1W9_9FLAO
+MKSTILKAFAMPLAAFALASAGAASTADAEKSKTSAVIQAYIHNPAEDDCEPVTVNCEPG
+NGQLCTSGSFEAYGKINENSDCNVQLRRL
+>tr|A0A1S1J4Q9|A0A1S1J4Q9_9FLAO
+MHRFVCFLILALGQTAWSQAQDETVLNGRISANVNDLEGVYVINARTEGMTTTNSAGAFS
+IGAKAGDELVFSSIQFKESRVVLTDENFSDINFTVKLNVVMHQLQEVIIKNYNNVNAVSL
+GIIPSGQKTYTEAERKLRTATDLNAKANAGGMVGGSVSADPMLNFFSGRTAMLKKEAVVE
+KKEAFMKLLEKMFTLEHFVGQLKIPLEYVKGFEYYVVDNDRFTVILNSKNKTSTEFLLAE
+LAVKYKEIIASENK
+>tr|A0A1S1J4Z2|A0A1S1J4Z2_9FLAO
+MKKIFIINGGQNFAHSGGKFNQTVTDWTIEYLTKSKQFEIKTTDIKQEFDLDEEVEKFVW
+ADVVVYHTPVWWFQLPNLFKKYIDDVFTAGHQKGIYKNDGRTRTNPDINYGTGGLLHGRK
+YMLTTSWNAPATAFTLPGEFFEETTVDEGVMFGFHKMNKFVGMEKLDGFHFHDVEKGATE
+ENIGIFKVNYTNHLEQIFKTL
+>tr|A0A1S1J8Z3|A0A1S1J8Z3_9FLAO
+MRNFTSSSVIITVSFLLFSFGSSAKESDASHKFKEFDNVSASNRYLFKTAVDAAAISQFY
+KKYPNLKKYQNDVLDLYKKKEYKMIWYDDKSVSEFGALLYHKVRLLNEQGIKATMPYMNL
+VDDVFNENVTNDLPQIDTELLLSNMYVFYASNVYSGVDPATLKKIGWFLPAKSISYSKIL
+DSLMVDPGRLNKDEDLLFGQYYKLKSVLKRYRNIEKNNQWTKIDIDSINYKDLKPFDSGV
+AIKQIRQRLFVVGDLAQDSKRDVYDEEMMAGVLKYKKRYGLKLNYTLTRDHINQMNEPIG
+NRIKTIMLNMERCRWIPASLAKASEYIMVNIPSFRLIYVKNGKYELVSDVFVGTRMTETV
+IFSGNMDRIVFSPYWYVPQSIIKNELKLKMAEDKNYLADHNMEWNGGNVRQKPGPKNSLG
+LVKFMFPNPNDIYLHDTPAKSLFDFEKRIFSHGCINVKEAKPLALAILKDNPDWPVDKID
+KAMSGEKETTCMLKTKIPIYIGYFTAWVTDDGEIGFYPDVYDRDKQLDKLLYSDSVVSK
+>tr|A0A1S1JBH3|A0A1S1JBH3_9FLAO
+MEEINSEKKVIAELKGACKEYQTGDTLITALEATTIQFRTRELTLIIGPSGSGKTTLLSL
+LGCVIYPTKGDVFIDGEYVNALSAKELSALRLNKIGFVFQSFNLLAPLNSLENVMMPLQL
+MKVSEPVAKKKAEKALELVGMKDRMKNLPKMLSGGQQQRVSIARALVTNPPIVLCDEPTA
+ALDVKSVGLVMEELKELAQNGKSVIVVTHDMRLKKFADRIIYVDSGIATENESATFIKNQ
+LIKL
+>tr|A0A1S1J542|A0A1S1J542_9FLAO
+MAIFNFQKPDKVIMIDSTDFEGKFEFRPLEPGYGLTVGNALRRVLLSALEGYAITSVRIE
+GVDHEFSTISGVVEDVTEIILNLKQVRFKRQIEDIDNEAVTISVSGKDQLTAGDFQKFIS
+GFQVLNPDLVICNLDSKIKLNFDLTIEKGRGYVPAEENKKQNAAIGTIFTDSIFTPVKNV
+KYAIENFRVEQKTDYEKLVFEIKTDGSINPKDALTEAAKVLIHHFMLFSDERITLEADEI
+AQTESYDEESLHMRQLLKTKLVDMDLSVRALNCLKAAEVDTLGDLVSFNKNDLMKFRNFG
+KKSLTELDELVAVKNLTFGMDLAKYKLDKE
+>tr|A0A1S1J9V2|A0A1S1J9V2_9FLAO
+MKNLIAALLLVMCFASCKKEAKTATETVGSSDSIKKEEPIAEQPVDSAAQMKAWQEYATP
+GAPHKLMADEVGTWNCDMTFWSEPNGKPEKATSTANVKMILGGRYQESNYQGTMMGQAFE
+GKSTLAYNNASKEYTTTFIDNMGTGMLVAMGKYDESTKSMELKGDMVNPVNGKKTPYREI
+YTIVDAKTRKMEMFDVKNGEEFKSMEIIMKKK
+>tr|A0A1S1JCP5|A0A1S1JCP5_9FLAO
+MDAKQLKWAYLLVLSLIWGSSFILIKRGLVGLTAVQVGSFRIIFAALFLLIVGFRSLKKI
+SRRQWKFVAITSFFGTFIPAFLFAIAETEVDSSIVAIMNSLTPLNTLVLGILIFGIQFQK
+RQVLGVFIGLVGCLLLVLSGASSHPGQNYYYVILVVIATLSYAINVNLIKKYLSDLNSLS
+ITTGNFAVLLIPALLILSTTDFPQRMNLEVTQHSIWFVMILGVLGTGIANVLFFKLIQIS
+SPVFATSVTYLIPIVAFFWGLLDNEMLTPIQFFGAFIILIGVYLSAKK
+>tr|A0A1S1J9L7|A0A1S1J9L7_9FLAO
+MATQYVCNGALCICDQGATGGVLDVKSQNNIFIQEKLMATDSDLTFKIPLSGICAINQKN
+CSPVFLTKWENPANNVFEGDKKALVKTSTLACNVGGEISITSSQQTESKIVIFDNYSAPE
+VIKLRQIVSASWMTGDLKNNIKNASYDEKVGLLVKTINYEAGERITIIVDEKEGKDINQG
+SREISLSGIVNENGFAELREIIKIESSKQNTTWI
+>tr|A0A1S1JAN1|A0A1S1JAN1_9FLAO
+MMKLYLLLFLYAISFSSFSQNNVLVFQSDFGLKDGAVSAMKGVAMGVSTDLKIFDLTHEI
+PAFNIWEAAYRLSQTAQYYPAGTVFVSVCDPGVGTARHSVVLLTKSGHYFVTPDNGTLTL
+IAEQLGIQEIREIDEVKNRRQNSNESYTFHGRDVYAFTGARLASKTIAFEEVGSKLPNEV
+VKIDYQKPVLENGVIKGGIPVLDIQYGNVWTNIDKKTAEKLGLKAGDVVKVQVFDGAKKV
+YQGKLKLVNTFGEAEIGTDVCYFNSLLNFSLAVNQGNFSEKYKVYSGAHWSILLSR
+>tr|A0A1S1J9J3|A0A1S1J9J3_9FLAO
+MSTTNLSQETETRLTNFFNSTIDPKEMAKAIRQVNYILALGVLREHETLKNEVNNLEKSF
+YWLNELAEVLNPYFDVE
+>tr|A0A1S1J9Q4|A0A1S1J9Q4_9FLAO
+MKKAIVYGASGLVGSYILENLLNNANYEQVIIVVRRDLNIQHSKLKMLIGDFNTLSKVIE
+GIQVDEVFIALGTTQKKTPDKKLYYQIDHDYPILAAKLAKENGAKAVFLVSALGANAKSS
+IFYTKLKGETEQGIISLNLEHTYIFRPSMILGDRKESRPMEKVFIGIFKWINPIFMGSLS
+KYKGIEAEDIAKAMVKSAERLDQKVKILHWEEMTTLLK
+>tr|A0A1S1JBL6|A0A1S1JBL6_9FLAO
+MKIFTSILVLLALALIVFNITLLDFKNPFQGDSVVAFIGIAASFCAVLILLIFRISKRIE
+EKTNGR
+>tr|A0A1S1JC05|A0A1S1JC05_9FLAO
+MKNILSLLKLTLITVILFAVIYPLAIYGIAQFAPNQGKGETISVNGKVVGYQKIGQKFDK
+SNYFWGRPSAVDYNAAGSAGSNKGPSNAEYLALVQKRVDTFLIVHPYLKKSEIPADMVTA
+SGSGLDPNVSPQGALIQVKRIAKERKLDEAKVKALVASKINTAVVGPSTVNVLELNIALD
+QLK
+>tr|A0A1S1J1C0|A0A1S1J1C0_9FLAO
+MVFDLYGNENCLEVNNFYKKLLAEMPDLLFQFVVDSENRYTFPLVSKSADDIFELSVKEF
+TNDIKLVIYDRIFPQDRDLFFQSLVKARKEAKPWNVEFRAVLPKKGMRWFKVSAKTEQSD
+DGRVSFFGHVSDITELKDKEEKLRISEERFQFALEASTAGIWDWDMVTNRVFYSSLSLKI
+LELDSADIFDDPERWDKIVHPEDLPKYYSDIQEHFDNKIPYYENYHRVMTSSGNYKWILD
+RGKVIERDENGKPLRVIGTHTDVSLQKEKELELLKTMKLYSDQNSRLVNFSHIVSHNLNT
+QAGNIKSILDFIDADVDKQTVNEMLEHLRTVSNDLNDTIANLTQIVKTQSNINIAVAPLK
+LSEYIEKTISTIRGYDKHKKVTIVNNVPRYLTINFNPAYLESVLLNFTTNAIKYAHPDRD
+PVIVFDFSIEPDGYKSLKITDNGLGIDLAVYGDLLFGMYKTFHKNQEARGIGLYITRNQI
+EAMKGSISVESTVGVGTSFKIIFNDI
+>tr|A0A1S1J509|A0A1S1J509_9FLAO
+MKQSEIKDLSAAELQEKLSQTKKIYADLKMAHAISPIENPLQIRSVRRTVARLATELTKR
+ELQ
+>tr|A0A1S1J8T5|A0A1S1J8T5_9FLAO
+MSEIALISARKNRLETAAKKGNNSAKIALDLANSPNKFLSTVQIGITLIGILTGIYSGDK
+ITMDVEVFVSGFTFLKPYAHSVAVGIVVVVLTFFSLVLGELLPKRIGLNYPESIAKMVAL
+PMKTISIITAPFIWLLTSSTDFLLNVFQIKPTADGKVTEEEIKAIIKEGTEGGEVQEIEQ
+DIVERVFHIGDRKVNSLMTHRKSVDMLPFNADKTKIKELVLQDLHTVYPVYRDNYDDIVG
+VVTLKNIFANIESEHFDLAGIMIDAPYLMEQTTAYKALENFKKTGIHYALVSDEYGVFQG
+IITLNDILEALVGDASDFYKDEFQLIEREDGSWLVDGHYSLHDFLTYFELDELTNDYEVN
+TVSGMIMTELSHIPKEGEKLIWQKFVLEVIDMDGVKIDKVLVKALKE
+>tr|A0A1S1JAV0|A0A1S1JAV0_9FLAO
+MNTLQAIVLAIIEGITEFLPVSSTGHMIIASSFFGIAHEDFTKLFTIVIQLGAILSVVVL
+YFKRFFQTLDFYFKLLVAFVPAVVLGLLLSDFIDSLLENPVTVAISLLIGGLILLKVDEW
+FNHPNATESSSEITYLQAFKIGLFQCIAMIPGVSRSGASIVGGMSQKLSRTTAAEFSFFL
+AVPTMLGATVKKCYDYYKAGFELSHDQINILVIGNVVAFIVALLAIKSFIGFLTKNGFKV
+FGYYRIIAGIVLLLIHFFIHPLTII
+>tr|A0A1S1J4K9|A0A1S1J4K9_9FLAO
+MEFLYFLLIGAISGWLAGQIWKGAGFGLLGNIVVGIVGGIIGGWIAGKLGIGGGGLLWQI
+IIAVGGAWVLLFIISLIKKA
+>tr|A0A1S1J9M5|A0A1S1J9M5_9FLAO
+MTFQDLLAYKKSFSLAMKIFEISKSFPKEEIYSLTDQIRRSSRSVPVTIAEAYRKRIYPK
+HFYSKLTDSDGENSETQVWLEFAFACKYISSDLYKELLSESTEIGKLINYMLLNPEKFGV
+KKE
+>tr|A0A1S1JAH1|A0A1S1JAH1_9FLAO
+MKAKIQNAVSGKIEAIGLPILALCWVSFFWGTTWLASKEGVKHMPALQLATIRQFLGGIL
+YVGYFLLKKQPWPKGKQWRTILILSFLNFVCSNGLSTWGVKYMSSGLGAIISALFPIWII
+IINFFNGQKIAKMALIGILISFGGVCVIFMDYISDFLRPDFQFGIILMTASTITWAFGIL
+ETKKKASSFNPYFSLGLQMLISSVFLFGITEAAGVNIPLSEIPLPSLWSIVYLVLIGSVL
+TFIAFIYSLQHLPTEISSIYVYINPIVAMILGSFIFGETLTQAIAIGTIVTLTGLYLVNK
+TIRKTKK
+>tr|A0A1S1J4S9|A0A1S1J4S9_9FLAO
+MDKHYKKEGKYSYYEAGEGTPIVILHGLMGGLSNFDAVAEYFPTKGYKVVIPDLPIYTQS
+ILKTNVKSFAKYVKDFITFKGFDQVILLGNSLGGHIALYHTKLYPEKVAGLVITGSSGLY
+ESAMGDSYPKRGDYEYIKKKAEDVFYDPAIATPELIDEVYATVNDRIKLIKTLTIAKSAI
+RHNMAKDLPKMTTETCIIWGKNDAVTPPNVAEEFDKLLPNSTLYWIDKCGHAAMMEHPQE
+FNKILEEWLVKKNL
+>tr|A0A1S1J887|A0A1S1J887_9FLAO
+MISFLDLKKINKPYETAFHEKLKTVLENGWYILGKEVETFETAFAKYCKADYCIGTGNGL
+DALTLIFKGYIALGKLQKGDEVIVPSNTYIASILAVLQADLVPVLVEPRLETYNLNPDLI
+EEKISPKTKAILAVHLYGQLAEMDQINEIANRNNLLIVEDAAQSHGAINNQQSTINNLST
+ASAYSFYPGKNLGALGDGGAITTNDRELAKVLFSLRNYGSEVKYHNDYIGVNSRLDELQA
+AFLSLKLPHLDTDNERRRKIAKRYLAEIKNEKIVLPFWDFSNNHVFHLFVIRTSDREGLQ
+AYLSQNNIQTVIHYPIPPHQQKALLEWSNLSLPVTEKIHQEVLSLPISPVLTETEVDFIV
+EVLNRY
+>tr|A0A1S1JAD3|A0A1S1JAD3_9FLAO
+MKKTLSILLFLSLILLGCTGKTHVDEDESSPIDSLPTFLSLANDVDLTYDLKQKYNKKAF
+AIIIKQKDDSVNKVNLFKIANRYYNMSDWKSYLQTTELILKRSKETKDSANIAKAYTYLG
+DYYVSKSVSDSAFMNFYHAEKLYLAINDHYNLAKTYLSKASLQYNEGDFFESEIAVFKAL
+RSLKGQKNANDQFYECYNLLGILYNDKEEYGKALSFHNKALLNLNDKSIPLELQLKAASL
+NNIGFVYINMRNYRDAKRFFEKGLKEENLFKENTILYAMLLDNLAYSKFKLEELDGLSDD
+FFRSLKIRDSLGLKSAIVSSKIHLSEYYAFKKDTFKAIQFSRQALLLSRSTNKINNTLQV
+LKQIAVVDPKNASAYSREYIKLNDEMLRAERNMGEKFSRIEYETNEIKDQNSSLQEKNKT
+LIYIFSICTLIGLFFYVYKTQQARNRELLFKQQQQVANEDIYNLMISQQNDIEQTRIKEK
+KKVAQDLHDGVLGRMFGVRISLDSLDKVDEAEAAPKRKKYLTELKHIEEDIREISHDLNR
+EKSELINNFIAILNKLFEDQRNTYDSALITSFDSNIKWELVTNAVKINLYRIVQEALQNC
+NKYAKANTITIDFKSEINHLILSISDDGIGFNTKTTRKGIGLHNIQYRATECKGFVFLKS
+AKGEGTLLIVKIPIDQKINLQHT
+>tr|A0A1S1J252|A0A1S1J252_9FLAO
+MRASLKVVKTTNETADFVATYFPIPDWSEEDRPREKLMLKGKEALSNAELIAILIGSGSR
+NESAVDLSKRILASAGSLNSLGKKSTAQLMEFKGIGEAKAITIIAALELGRRRRAEDVSQ
+LKIITSSKIVFEIMQPIIGELSHEEFWVLFLNNSNKVISKSQVSKGGITGAVVDVRIVFK
+LALEIGATGLILCHNHPSGNLLPSDADKKLTKKIKLAGDSLDVKVLDHLIITEAKYYSFV
+DQGIL
+>tr|A0A1S1J2J2|A0A1S1J2J2_9FLAO
+MKTETTFTNTLTESKQLAQQTVFSILFTISFTHFINDMLQAVIPAVYPILKTKFSLSFTE
+VGLITLTYQLTASILQPFIGFYTDKKPRPYSLAIGMGFTLVGLAAVAVASSFINILLAVS
+LIGIGSSIFHPESSRVAHLASGGKRGLAQSIFQLGGNAGSAIGPLLAAIIVVPYGQFNII
+WFCLAAIVGIVILSGIAKWYQEHLNLKAKNKSAISEEKHHSLSKQKVIISLGILLVLIFS
+KYFYMASMTSYYTFYLIDKFHLSVQESQIYLFAFLGAVAAGTLFGGALGDRFGRKYIIWI
+SILGVAPFTLLLPYVSLFWTGILSVIIGLIISSAFSAILVYATELVPGKVGLIAGLFFGL
+AFGMGGLGSAVLGKLADTTSIEYVFKICAFLPLIGVLTSFLPNIEGKRNKQ
+>tr|A0A1S1J423|A0A1S1J423_9FLAO
+MKKIALALILTTNILFSQSGDSTCEIVNKINAIIQEDHIRPKPVDDSLSIFVFDNLINEL
+DPSRNIFFKTEYDEMAEKYRKNLDDFILSNDCSFLADITSKYKESLLRTKKVLEKIQTAP
+IDYSKTDTIRFYKKSFPFYLKKENLEKVWLKKIRYQILDEIAELSDNLDSIKVNFQSIES
+KSKKLILSNEICRINTLLETNVRQEEKFYNFFCTYFDPHSAYFSDDSKTSFVASLSKEHL
+SLGMTVNLNEKNEIIVAEVDPNGPAYQTGQIKKGDQIISISNQKETLQVSCASLESISTL
+ILSESNKSITLTLKRNSGKSFDVYIEKKVMKDEENSVFSFIVGKESKIGYIKIPSFYADL
+EGNSRKGCADDVAREVIKLERDNIKGLVIDLIDNGGGSMEEAIKLAGMFIDYGPLSIVVD
+RNQGKSIINDPYKGLIYKGPIVILVNSNTASASEFFSSILQDYNRALLLGSTTLGKATMQ
+TILSLDETKNTDFLKITINKFYRVTGKSHQYIGVKPDVILPEFYENVYQRESNFPTAIKN
+DSITPSLKFKPYVKRALIDKLAQNSTTRLADNYFFNNIKEINQKIDKLINTPKAEIPMTI
+DAVFKQKKVVNSLWTEINTFNDENNPLDVYNSTVNQFLLGVYPNDKTINQYQIDNLKTNP
+YLNEAVNVINEFNAWK
+>tr|A0A1S1J457|A0A1S1J457_9FLAO
+MFKFFRVSISIAITALFVLSFVTLSDVFLHDNQLFFHVLTIVTAVIFAIMGLVGIVIYKN
+FRNIWRYALQEEQQHFIRSSVRKLLLVFAFIAVITALFSFILCIGLVDRMQNGMALFG
+>tr|A0A1S1J5I2|A0A1S1J5I2_9FLAO
+MSTLNDVVITKLSGGLGRRTPEQDMVSGLLFDGVSTEKLALDQVKRLASLEDAEALGITA
+DYDVNGQSAYYQIQQFFRMNPSGDLYIMATTAPSYSAIVEKAMNMQEQANGNIRQLAVIF
+SGETAFTETKAAVTKAKTQTALGYKDFMPFEIILEGKGFVVDDANDLTELEAENVSVVIA
+MDVEKALEKKLVRKDTGKPYALAPNERLVFGEGEGNYVVENDLHEPKRENGLAIEFVYKD
+SYKNTAAVGLALGAISKAKVSENIAWIEKFNLTGEGFSKAGFIGDQKIKSLADLRTLNEK
+RYIFTQTHTGLAGIYFNDSHTCTTGTSDYAYIENNRTINKATRLLRAALLPKLASPVLVD
+IDGKLPQSVSKSFEGLCRSALEGMVANQEVSAFDVYVDPKQNILATSELKVKAEITPIGT
+ARKIKVDLGFKNPFGIDKA
+>tr|A0A1S1J5J0|A0A1S1J5J0_9FLAO
+MLKVGVLGAGHLGKIHLRLLQQSDQYELVGFYDENQENAERISKEFGYKNFNTIAKLIHA
+VDVIDIVTPTLSHYKCAKVAIKSGKHIFIEKPIANTVEEAEEIIALAAEHNVKGQVGHVE
+RFNPAFIATKNMIENPMFIETHRLAEFNPRGTDVPVVLDLMIHDIDAILSVVNSKVKNIN
+ASGVSVISETPDIANARIEFENGCVANLTASRISMKNMRKTRFFQKDAYISVDFLEKKCE
+VVRMKDAPEIPGDFDMILQNAEGVKKQIYFTNPDVEQNNAILDELESFANAIKTDTTPVV
+TLEQATDALRVAYQIIDCFDK
+>tr|A0A1S1J5M9|A0A1S1J5M9_9FLAO
+MKKITILICIILTMGMSYGQNRNNAKYIRWNVNTPQGLANLEAMNVAFKKMREAGCEKGI
+SWYYQGAIHSVPKEITGPNKLCPQYQTINDKLWAWADCTHNGTPNAKLHFLLWHRFYIWH
+LEKIIRDLSGKADFALPYWNYGSKAVSQNVMAEPLRVPSGSLYTAARYSILNNGKPILPS
+QVNQIQLALEELKTNPSFTGDAGFSRSLEGAPHGYMHNLIGGGYADPSETYYNEIYQKVT
+SGLMANVESAGFDPVFWLHHSMVDRIWDSWDVSIYGQRPTLEQLKADPWQYQFINPDGSR
+VTYTMEEVYNTVYNLDYKYDDLLYGSKTPVVAANEAAKAKISFQDSKEEVIWEQKVSKVL
+GTSAFTHKVSNTFAKNTNRVFKTANSKIILNLDVVVYKEPKDYYTVYLRYPGKKDQYVGT
+MTFFGVAHDHGTGDSHEIGSDGVKLNYSYYISDDLINSDSSYDIIIKKVGGGDAKVTLEK
+ISVIKAN
+>tr|A0A1S1J692|A0A1S1J692_9FLAO
+MSKKSLYQKEVSLQVDRRRAGVELIKIISDLWYDKSIEMVLFKNQLLDQNVSDIINLHQY
+AGEFVGKPITIFDSVEIARVILSLDLPPAKLDLGKLTYEYRLEDEKYPDARYFVIDKLKE
+AKSSEEIQPKDVVLYGFGRIGRLLARELMSKTGKGNQLRLRAIVTRDKNDASTLEKRASL
+LRYDSIHGDFQGSVTADPKNNALIINGTTVHIITANSPEEIDYTLYGINEALVIDNTGAF
+TTEEALKRHLTSNGASKVLLTAPGKGVPNIVHGVNHNEYNPDEIDIFSAASCTTNAITPV
+LKAVEDTLGVVKGHLETIHAYTNDQNLVDNMHKKYRRGRAAALNMVITETGAGSAVAKAL
+PSLEGKLTSNAIRVPVPNGSLVVLNLEVKKATSIPAINKIMKKYALEGELVEQIKYSLNN
+ELVSSDIVGTSAPSIYDSNATIVSKDGKNIVLYIWYDNEYGYSHQVIRLAKYIAKVRRFT
+YY
+>tr|A0A1S1J6X9|A0A1S1J6X9_9FLAO
+MGLMKVFSGSEVLAIALKERLEEAGVETVKKDNIQSARMGGYGGSDLAVEVFIQETDFAK
+ANPVIEEFRMNIQ
+>tr|A0A1S1JA92|A0A1S1JA92_9FLAO
+MFDKVKKNGTELLGKTNRIVEGTSIVGDIVAKDDFRLDGELIGNFTSQGKLVIGASGVVK
+GEIVCNNADIEGVFQGKIKVLEVLNIKASAQIHGEVAIGKLSIEPGANFTATCTMLTHTK
+DVTLKDGKGTEQKQKEQVASAH
+>tr|A0A1S1J4C3|A0A1S1J4C3_9FLAO
+MKFYFSLLLIFVFPYFCTAQIDTTYIKPFENKASVRTYLSMKFISLQQETGGDMKRFMPN
+TPMSLGFGVSVKNTIIDFSYGYGLSFLKDKEKGRTKALDFQIHNYGRKFIIDLFIQKYHG
+FYTADDADKNIQLYPDLKIQQYGAFGQYVFNNKKFSYKAAFVQNERQLKSAGSFLLGGGV
+YFSKIGSDSSFVHKSKNSLRNFQFGISGGYAYTWAISKRWFTSGSVTLGANVGTERINDF
+GKQKIEIYPTFFPRIALGYNKERWSLGMSYLNNSTFSAFSDNNKNNIGLSSGNFQIGAIW
+RLNTTPFLSKKKPE
+>tr|A0A1S1J198|A0A1S1J198_9FLAO
+MKKMIKHTIGILILTSSLNLFSQEQKQEIKYNETSKVIKPALFADLGETCQTPDGMALDK
+KGNLFLSITNAISFEKYGSKILTFDKNDKPITWFDKLPLHPVTQKVHPMGMEFGPDGNLY
+IMDNQFFAGKENFSRLLRIIVKDGKPVKAEVLAEGFNFGEAVRWFKNRIYITDALFENRR
+ESGIYSFSLEELNKKKIALDSSNKKNYLIATFILKPEVTKSTIGIDGIAFDKKGNLYAGN
+FGDGVITKIEFYSDGKVKSKKVVFDSDKLKCCDGFFYDKKRNSIFIANYENNSVHELNLD
+TNTISLIWENDNADGSDGQLDNPCETIVYKGKLLVVNYDTFEGEKNKGADRFHTISSFKL
+>tr|A0A1S1JBB4|A0A1S1JBB4_9FLAO
+MNPTDHSESILKEIDLKFQAINQKTDVQLEGLLWSKPITYWDYIQTDALLSLQTQRTTLP
+DEMVFIMYHQVNELIFKMILWEIDQISNTQDIQVVFFSERLSRITRYFDMLTNSFSIMEN
+GMEVDQYMKFRNTLTPASGFQSAQYRLIEFASTDVINLTDRRYKSNFDENTPLETSFEHL
+YWQAAGKDYQTGEKSYLLQKFENKYKDQFLRQMSTFKSKNIWQKFTQLPLEDQQNQELID
+AMRHYDKTVNITWVMQHLNTARKYILESGKGNGEATGGSDWQKYMHPKYQRRIFFPKLWT
+EEELSNWGNETTN
+>tr|A0A1S1JC20|A0A1S1JC20_9FLAO
+MFLENTVNHKEQFGWIEVICGSMFSGKTEELIRRLKRAQFAKQRVEIFKPAIDTRYHDEM
+VVSHDANEIRSTPVPAAANISILAQGCDVIGIDEAQFFDDEIVTVCNDLANQGIRVIVAG
+LDMDFKGNPFGPMPGLMATAEYVTKVHAVCTRTGNLANYSFRKTDNDKLVMLGETEEYEP
+LSRAAYFNAMKKIQDK
+>tr|A0A1S1J837|A0A1S1J837_9FLAO
+MINRRDFIKKSSIVGLAGLVVPSAAFASPFVEDARIPAKETNSKWADGSRLVVSVSMQFE
+AGGQPGNAESPFPQNMEKGYQDLPASTWYQYGYKEGIPRMLDNWDKLGIKVTSHMVGTAV
+LKNSALAKEIVDRGHEAAAHGMSWSSQYNLSYDDEMKFIKDGVDAIKKATGFNPVGYNAN
+WLRRGENTLKILQELGFTYHIDDLSRDEPFIIKVNSKDFVIVPYTIRCNDILLIEGKNFS
+TDQFFSQVKAEFDQLYAESEFKKRQLSISFHDRIGGTPQMVQTTRDLIKYVQGHKGVSFK
+RKDEIAQMALNDKTTIRE
+>tr|A0A1S1JBN7|A0A1S1JBN7_9FLAO
+MELISIRDVLSHPEENLNWFYLPPNSGQWNLDTLGIFSLDSRDFAPDSDEYLPEQVKKMG
+WIETLDAASIEDVVENAIEELENPSINQLFDAFIFYYENDAFLEFEN
+>tr|A0A1S1JCM2|A0A1S1JCM2_9FLAO
+MKNHFLLLLFFFTITSNSQTVNQKMVSTDIDNFWKAYDKIVAEKDSIKQYSFLKELYLDK
+ATPGLKSLLEVRNYTAKDYINAINKYPKFWNSLKPNTLNSAGLYPEIDADINKLKQAYPD
+LKPSTIYFSIGVFRTNGTIQGDRVLIGSELSLADETTVIEELPAWRQPFYKEYEPRKNIA
+LLCTHEYVHTQQKELVEDLLLMCLYEGVAEFVSCKVTHKKSSSPAIEFGKSNQQKVIDQF
+IADLYIKSNNYNWIWGENRNFLKVRDLGYYVGYEICERYYNSSKDKAKAIKTLIELDYHN
+EKEVARIVDGTKLFPQNLKKLRQNYEKQRPRVVSVSAFKNGSQKVKSGETEITITFSEPL
+NGRSTGIDFGPLGENFFPRISTERIWSSDMKSWTIKADLKPGQHYQILISDNFRKQNGVR
+LKPFLIDFKTAE
+>tr|A0A1S1J7C1|A0A1S1J7C1_9FLAO
+MIFNKDTAEKTAELLLQINAIKLNPENPFTWASGWKSPIYCDNRLILSFPSIRNYVRDEF
+AKNIEKQFGKPDVIAGVATGAIGVGILVAESLGLPFVYVRPEAKKHGRQNQVEGFLQKGQ
+NVVVVEDLISTGNSSLMAVEALRNEGANIKGMAAIFTYGFNVAEENFKNANIDLYTLSNY
+ENLLDLAVQKQYISEEQQSTLQEWNVSPSTWGQEAE
+>tr|A0A1S1J1N2|A0A1S1J1N2_9FLAO
+MKYLSITILILIVSCAKKNESENLNKKVSTLKIETPIILTDKSVKFLWREDEYDKELKDT
+VNTIFINKEYAKNISEPEKAALGFVASFIGSECDWDGEPNEKRDNLSCKINTALNIGYQC
+SEEHLSFLRKWFKNDKKQLERLADCSAVPFTASSQVTFDYINVVTKGDTIKISFKAVGAS
+MRTQKSSSYKEEDTFVLKKDNLVLLKSNESESE
+>tr|A0A1S1J1Z5|A0A1S1J1Z5_9FLAO
+MSVIKDENKLISTIKRVDQKIDKLNDQKIIAFFEALGLNERADVPKNYLEWETILIVVPD
+RHISHELKYYKYSIARLAFVTNPNAIEIHAFDFNEWKKVTQNKTQFQIREFLKNNFGGVR
+NHADRLN
+>tr|A0A1S1J4M4|A0A1S1J4M4_9FLAO
+MKTNNLTILQEAIAQAYVRTGVGSEAYKEAGYSYTNKSDKSIHECASRVLNNVKVAARVK
+ELQSEVAAIAKEKFQITSEEMLRQLDLFRKARIDEYVEYCEFEYPVTTTTGTGKSKITTT
+TIEKRTELRLKTFDKLTPEQKSCIEGIKQTKYGIEIKLHGKEWSIEKINKHIGFYEKDNE
+QKNPGSDFKTPEEREQRIAELKAKMGL
+>tr|A0A1S1J4P4|A0A1S1J4P4_9FLAO
+MGNREILEQLVRIKKEVTDLGLKHIENQMPVVLSDIGKVLKPFTDIDSSINFALKKLSDE
+FTGSIPKSNSIRS
+>tr|A0A1S1J042|A0A1S1J042_9FLAO
+MKNLILIRHAKSSWEAPLKDFDRPLMKKGILDAHDVSSTILEFLPKTYIMWSSTAARALE
+TALIFAQNISYPLESIIFKDDLYTFDDRQLEKVIKSCDNSFESVILFGHNEAITNFVNKF
+GDVFIENVPTSGFVSLQFDAESWDSIHKGKTHKTIFPKDLK
+>tr|A0A1S1J5J3|A0A1S1J5J3_9FLAO
+MSIKRKRRFHAEVATSSLSDIMFFLLLFFLIISTLANPNVIKMTLPKAKANEKTNKQLIS
+LSVTEDKKFYIDKVPVEFDALETTLMSKIGADKQQTVVVRIPFNLQVQDLVDVLQIGVKN
+NLKFVIATSPK
+>tr|A0A1S1JDE1|A0A1S1JDE1_9FLAO
+MNIETINNSIQPQKDQLLQHSLYNKIQNIDDLHRFLETHVFAVWDFMSLLKALQSKLTCT
+STPWFATKNPETRYLINEIVLAEETDLSIDGKRQSHYEMYIEAMEDCGADTSGINNFLAE
+VNSLHNIFVAIKQSSLHPDTKAFLDFTFRVIEEGKPHQIAAAFTFGREDLIPSMFTAILK
+NFQKNLPETDLSKLLYYFERHIELDADEHGPMAMQMITDLCEDDAQKWKEVEEISILALE
+KRIGLWNAIEEEILMKTEMV
+>tr|A0A1S1J9B3|A0A1S1J9B3_9FLAO
+MKKILHYGFLITILLSIVLGCTTPYSYQTNGFEDALVIEATMTDQYKNHQIKLSRTYKLD
+GKKPTFESKAVVYVTDDLGNKYDFQEKNESYISVNQFQATPGRAYQLHILTKNGRTYVSN
+EEKLPQQTQIEKVEAKTLTKKGELGVEITVNSNDPTNKSRYYRYEYDETYKIVAPKAYPK
+KAVAVFFAPGSNPKGQVVFEDRTTEVRVCYSDKKSNELILTNTNQLSEDRVTDFPIKFIS
+SKDPIIRTRYSILVKQYVQNLAAHTFYETLKEIADIGSILSQTQPGFFYGNINPVDNPGE
+KVIGFFNVSSYSEKRIFFNFTDLFPKEPIPKYQYYCPSPIPENEINDFYFEYCFNPNNEI
+CRGNDILDLLKSGIKTFFPNESPTSYLLYPVECGDCTSFSSNIKPSFWID
+>tr|A0A1S1JA68|A0A1S1JA68_9FLAO
+MNTLIAITGLGIFCLLFEILNLRKAIVPITIIGLLGVLALNFYEFGSTASYYNNMITVSK
+FSVTFSSLFIVLTIFLVALSHNFYENHPTKISDFVAIKVFLLAGGVAMVSFGNLAMFFLG
+IEILSIALYVLAASDRLNLKSNEAGMKYFLMGSFASGIILFGICLIYGAMGTFDVAEIHE
+VSLSAELPIWFPIGMILMIIGMLFKVAAVPFHFWAPDVYEGSPALTTALMSTLAKVVAIA
+TLYKLVSALNFIPSLDNQDLLGTFETIVVIVSIASMTVGNIMALRQVNVKRMLAFSGISH
+AGFMLMTLLTIATSAGVLLYYTAAYALAGIAAFSVVLYVCKNQDNEDITNFHGLGKTNPL
+LAAILTGSLLSMAGIPIFSGFFAKLFLFNQTIQAGYIALVIVAVINSIISVGYYFKLILA
+MYSKEPNQERTGKPFLIYAVAVISIALNIALGLFPSLVLDLLK
+>tr|A0A1S1IZU3|A0A1S1IZU3_9FLAO
+MIVDSLQNAARYYSLHPNFKKAFDYVNQNDISTLEEGAFEIGEGLKVIVIVGEGTTKEES
+IKGFECHDKNIDIQIPIKGPETFAWKPREKCINPNGEYSDERDVRFFYDKPDMFFELQEK
+QFTILFPEDVHSAMISESPLKKIVIKVKV
+>tr|A0A1S1J395|A0A1S1J395_9FLAO
+MNLIEQSEDFVSNLLKDKLSNLYSYHNFNHTLTVVNAVKELCKKEDVTAEQKEALLVAAW
+FHDTGYINGYENHEQESVKIATAFLKEKGLSDEFITQVSGLILATVKEYIPKTHLEKIIK
+DADFAHLMGTEYATTCELLRIELKNTWNLNFSNAEWAKENLNFLMNKHRFYTDYALRKWQ
+PLKEKNLLMVQKKIEKQEKKEAEKIEEENRKRDKIEKPDRGIDTLFRVTLGNHTRLSGIA
+DSKANILLSVNAIIISIALSTIIPKLDSPKNAHLVVPTFIMLISSVVTIIFAILSTRPKV
+TTGVFTREDIEAKKINLLFFGNFYKMPLEEYDWAMNEMMKDKDYLYSTMIKDLYYLGLVL
+QRKYNLLRIAYNLFMIGIIVTVISFVIAFKSI
+>tr|A0A1S1J1M9|A0A1S1J1M9_9FLAO
+MNTNEKIAVEQHLLKVCGFNPASREYKLIQLLFNNDELDFISTNRDDAVELRKELWFLKF
+ECRMQWNKVILTDDAIVKYYENVMGLIAESRELEKSFYDIKRGL
+>tr|A0A1S1IY46|A0A1S1IY46_9FLAO
+MFGIGGGELVFILFIVLMLFGSDKVPEIARTMGKAMAQLKNATNDIKSEIQKGAEANGLD
+SRSLTDITGNINAQINDAKSNLMGDSANLLGDTTTEIDKVKEDIDSISGPVKRQR
+>tr|A0A1S1J3Z5|A0A1S1J3Z5_9FLAO
+MKWFNTLVIKKFTERLSKPVSNDGSLHLEKGRQFYLSNRFQDALLHLNCAINSGFDQGVY
+ALRGTCLQKLDYHYNAIEDFDKAIETDPLEFSIYYNRAVSKRAILDFTGHIEDLHNAIYY
+YKKHSTIENQVLRAFEAHLQAAKMDIEGPIQNRHEIRKAPSLEIKSLIRDSLNLIKKAKV
+RNVTVN
+>tr|A0A1S1JA89|A0A1S1JA89_9FLAO
+MNSILQNDLNDLENILEKAKQHGIAFLDNLENVPTSSKNTIDPTRKLDETGLGSLGALEE
+FKERLAPLMVASPGPRYLGFVTGGSTPASIVGDWLSTVYDQNTQAVKAQGGTSALIEFET
+IHLLRQLLGLPESFLGGFVTGATMSNFTCLGVARQWIGAQSGKDFAKNGVSGAIPILTAT
+PHSSSIKTLSMLGIGSNNYTVLKTAEGNREAIDIDDLQKNIESLNGEPFILISSAGTVNT
+ADFDDFAAIAKLREKYNFWWHIDAAFGGFAAVSEKFKHLTEGWEGADSITIDCHKWLNVP
+YESAFYLIKKEHVGLQIETFQNSNAPYLGNPLENFNYLNVLPENSRRLRALPVWFSLLAY
+GKEGFKDIIEKSTALALHFANALIEDENFELLAPIRLNNVCFTLKGDHNQEHVSTFLTHL
+NDTGKVFMTPTVYQNRKGIRASFVNWRTTENDIKIIIEEIKETLSELDF
+>tr|A0A1S1JB14|A0A1S1JB14_9FLAO
+MKKTVLITGATSGIGKATAQILAKNNFKVILCGRRMDRLNELEKELSEFTAVHSLAFDVR
+DKKDVFEKIASLPASFSDIDILINNAGNAHGLDPIQTGDLDDWDAMIDINVKGLLYVSKA
+VIPKMTAKKSGHIINIGSTAAKEVYPNGNVYCGSKHAVDAITAGMRIDLNPFGIRVGGIH
+PGMVATEFSEVRFKGDTERASNVYKGFDPLQAEDIADIIHFVVSRPYHVNIADLVVMSTA
+QASSTIVKRD
+>tr|A0A1S1J039|A0A1S1J039_9FLAO
+MINIRKFAAIDIGSNAMRLLISNVVEQDGKEPQFNKSSLVRVPIRLGQDAFTVGEISAEN
+IDRMVDAMKAFNLLMKVHKVERYMAFATSAMREAYNAKEVVALIKKKADIKIEVIDGKKE
+AAIIASTDLHHLLKTDETYLFVDVGGGSTEFTLFSDGKMINSRSFKAGTVRLLNNMVHDV
+VWDEIEKWIKTNTADYEEVTLIGSGGNINKLFKMSGKQQEKPLSYIYINSQYAFLNSLSY
+EQRIAELGLNSDRADVIIHATRIYLNAMKWSGARQIYVPKIGLSDGIVKAMYYGKI
+>tr|A0A1S1J0Z8|A0A1S1J0Z8_9FLAO
+MSITNQNIEELITLCKENNQKAQFEVYNRYCKAMYNVAFRIVKDEHFAQDVMQEGFLKAF
+TKINDYKQEVAFGAWLKRIIINYSIDFYKKNNAFQAEDLTKTLYKIEENDSVLSDSIDLN
+SLKVKQVLDTISNLKDNYRMVLTLFYIEGYDQEEISEILNISYANCRTTLSRAKESLRKK
+LEEI
+>tr|A0A1S1J7S2|A0A1S1J7S2_9FLAO
+MELPKFLLGDNTDFPDDIFIIHLDYPRFIINLKDDEVEFMEEAEDLDEAELNAEMEGLIV
+LANEFYDREINRYEE
+>tr|A0A1S1J8U3|A0A1S1J8U3_9FLAO
+MKFIKSLYLNNFFFYVLLGIIGLFVCAFIFPNLYHAVWFVVLILFSFLGLDVLLLYLSKT
+GIVAERTTPEKLSNGDLNPVTITVKNHYTFKISVKIIDEIPFQFQVRDFKIVKTIKASEQ
+KEIGYELRPTERGEYYFGYLNVYVSSPLRLISRRFSFDKDKMVPTYPSYIQLRKYDLLAF
+SNNLYQYGIKKIRRIGHTMEFEQIKEYVQGDDLRTLNWKATAKKNALMVNQFQDEKSQSV
+YMAIDKGRSMQMPFDGLSLLDYAINSALVLSNVILKKQDKAGIFSFSKKVENRVFAEKRA
+SQMQKILETLYNIKTDFFESDYSRLYVDIKKNINQRSLILLYTNFETMDGLNRQLPYLKG
+IAKNHLLVVVFFSNTELNAIINKKTDTIQEIYDKVIAEKFMFEKRLIANELKKYGIHSVL
+TQPENLTLDAINKYLEIKARGIL
+>tr|A0A1S1J1M8|A0A1S1J1M8_9FLAO
+MNLNIRFALLVLASLATGCNSSTKEKELELKEKELLLKEKELSLKEKQADRPKITTNDAV
+RLAEKQFRKYLPKILASHDAALDIQQSYTGDFTGDGIEDVALYFCLVPKDGGNAIVAQGL
+TLYQNSGFDVKVIAGYEPDTMFQFDKITGGQIHVELLEYAENDGHCCPSIRTPHILTISG
+SNAF
+>tr|A0A1S1J7G6|A0A1S1J7G6_9FLAO
+MKKTSLILFFLASFLATAQKTENIIIITTDGFRWQEVFKGMDPAIANDKKFNQGDSTYIY
+KNYASTDSKESRKKIMPFLWSEIVSKGQIYGNRELGSKVDVSNPYWFSYPGYSEIMTGNV
+DVAINSNHYKNNPNVNVLEFLNQQSKLKGKVAAFGAWDAFDRILNEKRSGFPVISAFDNV
+GGDKPTETQKLLNEMRNNSFKPFHQDECLDVFTHYQALNELKTKKPKVLYIAYGETDEWA
+HAGHYRSYLDAANQVDKWIKEIWNFVQNDPQYKNKTTLIITVDHGRGDKTKAQWTDHGAD
+VEGASQIWFAAMGPEIASKGEIKTDSQLYQKQIAQTIAKIMGYTFTAPHPIANEISEVLT
+K
+>tr|A0A1S1JCX3|A0A1S1JCX3_9FLAO
+MLQKNFSGYLLETGTDEAGRGCLAGPVTAAAVILPANFENQILTDSKQLSEKARFLLKPI
+IEEQAISFAVTHLLPDEIDEINILNASMKGMQECVLKLTTLPEFIIVDGNRSLNAKLGLR
+NTVGKQFSTAEIELLKSIPNQSIIKGDAKFLSIAAASVLAKTYRDEYMDQIHEEFPMYNW
+KKNKGYPTTEHREAIKKYGTTKYHRMSFKLLPTQLELF
+>tr|A0A1S1J412|A0A1S1J412_9FLAO
+MDEITKEEQIENWLRIGLSQPQDRLSEIFYFDRRDNQFFSILVADYFHFDKNYNIPKNAV
+SSYPESTLIVLADRMKRIENVDKSIITLSRTKKGEDSTDEYLNRKMEAFLNLNSIVITTA
+TIWEVDEIGSVTINLLEDESEIDIKKQKSWWEFWR
+>tr|A0A1S1J527|A0A1S1J527_9FLAO
+MQHLKTSKEFIKGDEIEWEIVGEGIKRKILAFDERVMLVNVHFEKGGIGVLHEHYHSQVT
+YVSSGKFDVTISGVTQTLKEGDSFYIPPHAIHGVVCLESGLLTDVFSPMREDFIQS
+>tr|A0A1S1J5I9|A0A1S1J5I9_9FLAO
+MNTAVQDYNNAQSSTDQEICNRLAALIDENFTDAENKIWHAHPVWFLEGNPIVGYSKLKN
+DVRLLFWSGQSFDEEQLANEGSFKAAEFRYTSTDQIIPSDVKRWLQKAREIQWDYKNIVK
+RKGVLIRLK
+>tr|A0A1S1J290|A0A1S1J290_9FLAO
+MRNLIFRFFLIIVTIIILFEVKEFAYFDFVIAFLLLIGLVFNYKTTDNMYDIISNYFFWI
+IMFSLITIFKNINFASLLDSFQVLLVLKASILACNYLKYKKVAVPSSYLSKIWIFMFCLY
+QAEIILNSTHGLKNLCFFLGIISAIETFLIILRNKDWKFNVVSFW
+>tr|A0A1S1J0Y1|A0A1S1J0Y1_9FLAO
+MQSEKLIQLLMDHTRDSINQAEKLKNDTIQTLTWRENPASWNILECLEHLNLYGDYYLPE
+IKDKIKNSKTSSETHFNSGFLGGYFAKSMLPKEKLNKMKTFKDKNPLNSELDKSVIDKFI
+NQQFELLALLEQSKKVSLNRIKIPTSLSRLLRLKLGDTFQFFIHHILRHLNQIDTIKESI
+KKTVPVHELS
+>tr|A0A1S1J6B8|A0A1S1J6B8_9FLAO
+MRARDVDKEKLVIEMAIDQIVQEGFQGFSMNKLAKACSISVGTLYIYYKDKDDLIQKIGA
+IIALKFFTSTVKNFSPEMSFEEGLWKQWENRANFTMKYPKEVAFFEIVKHSPHSEIILDS
+IQEFADFRRIMKTFIENGLRNNELIPMTFEAFWSVAYGPLYTLLNLHTEGKSMGGKPFTL
+TKEIMKEAFQATVKGLKP
+>tr|A0A1S1J864|A0A1S1J864_9FLAO
+MRENDMLEKEEIFSKVLRAGRRTYFFDVRATKADDYYITITESKKFTEEDGSFHFKKHKI
+YLYKEDFSAFAEILEEMTSYVLNHKGEEVISERHQKDFKKEYGSDKPEGQRTSFTDIDFD
+DI
+>tr|A0A1S1J5H0|A0A1S1J5H0_9FLAO
+MNSTSRDLGEIPSAPDMSNFKNPFGQQPEGNIIIGNFNITPLNPPQTTESLTEILKREST
+DSSI
+>tr|A0A1S1J9K8|A0A1S1J9K8_9FLAO
+MIKEFVDVLVIGAGPSGCVSASYLHKNNIKIKVVEKTKFPRLVVGESLIPRVMDHFAEAE
+LFESLDAMNFEKKLGARFIRGEEICVFDFSKKFGEGWDWTWQVPRADFDNTMAQEVIRKG
+IDLEFETEVLEVSFEGKNSKTIVKDKDGNLKEIHAKFIIDSSGYGRVLPRLLDLDTPSKL
+DPHSSIFTHVKDINREEGEEGTQISFDILETEVWLWVIPFSNGNTSLGVVGPTDFINSLS
+ENKDNAEALRNAIQKSDYYIKRFKGTEFLFEPVKLENYSRAVKRMYGDGFALTGNSSEFL
+DPVFSSGVAFATESGMLAAKLYLKESQGIEVDWETEFTGYMKRGIAVFTTYVQEWYTGNL
+QTLFFHQPENPDVKEKICSVLAGYVWNEENPFVKKHDHVIKNMAYLLNMQKEQSPE
+>tr|A0A1S1J068|A0A1S1J068_9FLAO
+MKRIACLAILALLFTSCKENNSEKEVKAIKEPVKTSPAVKKEAEKKEDCKDVEVEMGSGR
+ECILKGTDLAQVYQNIIQNKEVEESEYYLSAIPNESKSVPVNKNGLISIDYEIIKDKVLI
+SMNYEGGVTEVTLEKIKDTIKKSIYHYAD
+>tr|A0A1S1J2L3|A0A1S1J2L3_9FLAO
+LEQIKNNSGRFEIADAGINSRYSDYGSSFLDNKLVFASARDTGGVAKVKFKWTNKWFTNL
+YSAELNADGSVGIPKRFENKINSKFNESTPVFTKDGLTMYFTRNNFLNGTKGTDDKKVTL
+LKLYKASYIEGKWTNIVELPFNSDQYSVAHPTLSVDEKKLYFASDMPGTFGQSDLYSVTI
+NTDGSFGKPENLGAAINTEGRETFPFISGDNELYFASDGRPGLGGLDVYVSTIKNDLTFS
+EVQNVGAPINTKVDDFGFIIDSKSRTGFFSSNRDGGHGYDDVYRFSETRKLPCEEILSGT
+VIDAETNLVLENAKVNLLDNQLQIIGEVTTKADGKYSFKVNCNKEYFVRAARQDYDTNEL
+PKAIDKTSLTLPLKKTPQKVVEKTIEKLIVGDDLAKILHIKMIYFDLGKSIVRKEAAIEL
+EKIRQVMIQNPSMKIDVRSHTDSRQTHAYNEKLSDRRAKATVAWLVKKGIAADRITGKGY
+GETQLLNKCADGVKCTTEEHQANRRSEFIIVSM
+>tr|A0A1S1J5R4|A0A1S1J5R4_9FLAO
+MKKFWYLILFVSVLFSCSENSRRDKNPYIPSYAVNLSIDTNLPAYSNLKFVSNGVIIPNY
+GAKGIIIFNTGSGYNAFDAACPNQPITSCTAMTIDGINAVCSCDKTAYSLFTGLGGKDYP
+LKQYRVEFTGTIIHVYN
+>tr|A0A1S1J7Y3|A0A1S1J7Y3_9FLAO
+MKILPNGCSCTEVWVSPENWLTTTSKASLNKQWYVQCTYYDPLFKEKYPKGFPFRKKLNK
+FKTLEDRKAAAKLLIDEIPKLFKDLGYNPITKKYMIDQEPEPATEDKFLTEICPETPFLI
+ALDLAHKSIKVAESTFKDIKYMLAKFIPAAEQLRYHELKISEVKRKHIRFTLDHLEKTEE
+TFSAHKFNKYRGYLSTLFKELLEFEAVENDIVLQIQKRVHETKTRDILSEDERVRVNNHL
+KEHFPDFWRFTILFFHSGGRISELLNLKIEDVKLDQQKYQVFVKKGKQYKWVNRIIKDVA
+LGFWIKSLYGANKSDYVFSVGLKPGPNKIRREQINRRWKTHVKDKLGITADFYALKHLNL
+DETTAILSLEDAARMAGHKTISMVQKHYAVGEEERQFERLKTLQNKFA
+>tr|A0A1S1J931|A0A1S1J931_9FLAO
+MLKLVQKFLQINKYSEIKNEFKDLFLSHPNYPSLFAITDSLDLLSVENAAIRVPKEQIVD
+LPSNFLAYFKEELILVEKAKNFVRINTMKKGSQKMAYEKFLLDWNGVIVAIEPNNVIARE
+RIKVEFSWLKYGLPLLLVVGLSFFYNTYNLFSLVFLTTSILGFIVSVFIVQEKLGFKNSI
+ISKLCNFSSNSSCSSVINNKEGNESKWISFPDLPLMFFGASLIAILVKPLESSIFIGFLS
+LLAIPVIVSSIWIQKFEIQRWCVMCLVVSSLIFVQSAIWFASDLFTLSFSFAEIFPFLFS
+LALLVPIWAVLKTIIKNILGTESSLKEMKKFKRNYSLLNFLSKKVPHINGLDDLRGLHFG
+NRNAAVKLSVIISPSCGHCHKTFQEAFDLVLRFPDKIHLNVLFNVNPENAENPYKVVVER
+LLTINRSTPGKTVEAISDWHIKNMSLKKWLKKWTVDSVSMMITQEINKQYEWCSKNDFNY
+TPVKIVNDKIFPAEYELGELKYFLNDYIEEKEEVVLEKTA
+>tr|A0A1S1J9M6|A0A1S1J9M6_9FLAO
+MEKEPNKNKRNKWLPLINIPVQMGIIIFLFSYFGTWLDENHPSPKLNYNTIFVMIGVGLA
+LYNVIRQVNEINKTK
+>tr|A0A1S1JA45|A0A1S1JA45_9FLAO
+MDIVIKLSQFLLSLSLLIILHELGHFIPAKLFKTRVEKFYLFFDVKYSLLKKKIGETEYG
+IGWLPLGGYVKISGMIDESMDKDQMALPPQPWEFRSKPAWQRLIIMLGGVTVNFILAFII
+YIGMAFAYGDIYVANADLKDGVLVENPVMLKAGFKTGDKFLAVDGQKIENFDNDINMKII
+MAKEILIERNGQQQTVKMPTDFVDQLSKQEKAHLVDMRIPFAVASVTEESGNTALKPKDL
+IVSLNGQDARYYDQVKTILESNKGKTIPAVVLRDLKKVPITVKISTAGKLGVGVGGLNIE
+SLEKLGYYKVSKKSYTFLESIPVGLTKGKDQLVGYGKQLKMIFNPETKAYKQVGGFAAIF
+NIFPSSWSWETFWSITALLSIMLGVMNLLPIPALDGGHVMFLLYEIISGRKPSDKFLENA
+QIVGFVLLIALLLFANGNDIYKAIVK
+>tr|A0A1S1JBA5|A0A1S1JBA5_9FLAO
+MSILILTACIAFLIIQIAWLKINPFIAFIITALLAGLFLGLPINTLSQTVQKGLGEMLGS
+ITLIIVFGTCIGKLTVSSGAANVIAKTVMGWTGKKYVRLGLMITGFIVGIPLFYSVGFVL
+LVPLIFSVAHQFKLSKVYLGIPMLASLSVAHGFLPPHPSPMALSSIFNADLGLVLVYGII
+IAIPTIFIAGLLFSNLLKNIKTESDHEILNVEEVVNEGKLPSFSLSLFSALFPVFGLTVT
+SIAPMISKNETLADICKTIGEPSMIMLISLLICTYTLGVRMNRSITSVMEDYAVAIKDVA
+LIVLIVGGAGGLKEVMIVSGVNETIVTALTQINIHPYLLAWMMAAIIRVCVGSATAAGLM
+TATVLLPLLQTAGLDPNLLVLSVGAGSLMCSHVNDPSFWMFKEYFNISLKDTFKSWTVME
+SLVSVLGIIFVFILNSIIH
+>tr|A0A1S1J344|A0A1S1J344_9FLAO
+MQNSLKNIFPNFSDELIATIEENGIPQDFEAGTILMRTGQYIKNTVLITKGKIKIYREGE
+DGGEFLMYYLQPGQACAISMICTAKSEKSQIMAKVVEDVSVMMIPLQMMDKWMMEHRTWY
+EFVIDTYRSRFEEVLEVVDNIAFRSMDERLEFYLKRHSDACGCSEVNLSHQEIATELNTS
+REVISRLLKKMEQRGLVKLNRNQIELLK
+>tr|A0A1S1J9J0|A0A1S1J9J0_9FLAO
+MQENDQEHFKRELGLLDGTMLVVGSMIGSGIFIVSADIARQVGSAGWLTLIWLLSGLITV
+IAAVSYGELSAMFPKAGGQYVYLKEAYNKLIAFLYGWSFFAVIQTGTIAAVGVAFSKFAA
+YLYEPLSDENILYELGFFKLNAAQLVSIFTIIVLTFINSRGVKNGKILQTVLTIIKILSL
+LGLIVFGLTLGAKASIWDANWTDGWVTRSYNAESGSWLPISGTTLITGISAAMVGSLFSS
+DAWNGVTFIAGEIKNPKRNVGLSLFLGTFIVTIIYVLTNLMYLAVVPFEEIATAKSDRVA
+VVASHYIFGNMGTLIIAIMIMISTFACNNGLIMAGARVYYTMAKDGVFFKKAAVLNESSV
+PGWALWAQCFWASALCLTGKYGDLLDFVIIIVLIFYILTIYGIFILRKKMPNIERPYKAF
+GYPFLPMLYIVIASAICISLLITKFSTCGWGVLIMLTGIPVYYLNKPKEV
+>tr|A0A1S1J076|A0A1S1J076_9FLAO
+MKKIIILFCLHFFLFAQAQEYSSANIHSHNDYAGKLPFYEAYSNEAGVIEADVFLRNNEL
+LVAHTSEGIKTYNTLRSLYLDPLSKKIKNLEGKVYSENKPLILMIDIKSEADATLKGIVQ
+QLKTYPDLISNKNLKVVISGNRPEPSNWNQYPEFICFDGRRNENYSSEQLSRVEMISEDL
+KELTVWNGKGVMTQADLEKVQSVIKKVHAQNKKIRFWSTPDNVNTWMTLMNLKVDYIGTD
+NVPALTQFIQKIKSTFYQNTSFYQAYKPKNTALFSKNSRPKNVILLIGDGMGLTQIYAGY
+TANKGQLNLFNIPTQGLSITKSSDSYITDSAAGATAMATGHKTNNRFISVDENGKGLELI
+TQQLAKKKYKTAIISAGNITDATPAAFYAHQSERTLSELIAADFLANPSDILIGGGTKEF
+NNRKDGRDLSKIITEKGYTFSDQFKSLDTIKNSRFVVVDDASVVSMKEGRGDFLAKSLAK
+TTAVFSKTKNPFFVMAEGAQIDYGGHKNDLEYVVREMLDFDKLVGQAMEFVDQNQETLLI
+VTADHETGGLSLIDGSIEKGYVQGSFSTNDHTAVPVPVFAYGPGAANFMGVYQNTEIYSK
+ILEALLIK
+>tr|A0A1S1J209|A0A1S1J209_9FLAO
+MKTNTLSKEAETRLIDFFNHTIDPTEMAKAIRQANHILALGVIREHEILEKERTSLENSF
+YWLNELAEILNPYLCD
+>tr|A0A1S1J3P2|A0A1S1J3P2_9FLAO
+MRQYFVLFIFGIILAFSSCRTDFDTVASSGDLKFSKDTVYLDTVFKNIGSATYQLKVYNR
+SKNDISIPIIQLKNGLNSKYRMTVDGMSGNNGKIFKDVTLLAKDSLYIFVETTADITDAN
+PTDFLYTDQIQFDSGANLQQVALVTLIQDAVFLYPQQNPDGTKEKIKIEGKDVDGFYLND
+NDPVNGNELLFTKQKPYVIYGFAGVPKNKTVTFEAGARVYFHANSGLFVDDKASLQIKGT
+TSSTPKLENEVVFEGDRLESLYDNIPGQWNSVIFANGSTNHSINHLTLKNAVIGLNFKNP
+NPASTIEIKNTQIYNTVEYGILAQNARISGENIVINYAGLASLSCVYGGDYKFTHCTFNN
+SWSNNSQFAVSLSNSLANAVPETNPLTQATFNNCIIYGSGTNEFNLNKKTTAAFVYQLNN
+CLLKFSSSSTNPDYQFKTDPAHYNQIILNENPKFFNVAKNLFNIDNTSSAFAKGNQAYNI
+PLDIIGKTRTSPPDLGAYQNAAFPK
+>tr|A0A1S1J603|A0A1S1J603_9FLAO
+MNLEKIYSELLSNIGFPANEIRQNWMDLEKAYSKKSRHYHNLTHLRQMIESFEVYRNKLE
+NPNEVLFSIFYHDIVYSSSRKDNELKSAEFALSILPENITLNKQFIFDAICATQQHLHNT
+VEDINWLIDFDLKILAHDWEDYKIYFEQIRKEYRIYPDFLYKPGRAKALKHFLENEFVFQ
+TDEFRNLYEKKARLNIEKEISILERKK
+>tr|A0A1S1J6D3|A0A1S1J6D3_9FLAO
+MKNTKILVLGSNGKTGRRVAERLEQIEGIAVRLGSRNEKLPFDWEKQETWPAVLQGIDTV
+YITFQPDLAIPSAVKTIQNFTGLATQLGVQKMVLLSGRGEKEAQLCEEIVKSTAKNWTII
+RASWFNQNFSESFFLDPILAGIVALPRAEALEPFTDADDIADVVTAALLEDKHNGQTYEL
+TGPRLLTFQQAVNEIAEASGRNITFQGLSLEEYNQLLQEYHVPEDHIWLINYLFEQVLDG
+RNSSITSDIENILGRKAKDFSAYAKETAKTEIWNS
+>tr|A0A1S1J745|A0A1S1J745_9FLAO
+MTIHHLLRLSFIAIFVITALFCIYFIIKKQQNKKGPKLLTKEKYSATMIGKMTEINVSEK
+NTFNIWPYISKLKAAKILSNKIKESQLVHKIYRNSTEDFEHILLSTEKENHFVVIVANKN
+KKKTVGYFLYDLNGLYA
+>tr|A0A1S1J7M9|A0A1S1J7M9_9FLAO
+MEFKVSKDLIQQLEEHIVKKNDKELEILLNDLHHADIAEILDELDFDDATYIFKVLDSDK
+TAEILLELEDDLRENILSRLSPKEIAEELDELETNDAADIIAELSQDIKAEVISELNDVE
+HAKDIVELLRYDENTAGGLMGKELVKVNENWNVLTCVKEMRIQAENVSRVHSIYVVDDEN
+RLKGRLSLKDLLTTSTKTQIGDIYIRKLNFVNVDTEDVEVARIMQKYDLEAIPVVDELGR
+LVGRITIDDIVDVIKDEADKDYQLAAGITQDVESNDSVLELTKARLPWLLIGMVIEIVAS
+FVLKGNEATFQKYSTLIIFVPLLSATAGNIGVQASAIVVQGLANGTLKEFSRGYFSKEIT
+VSMISGTIISLLLLGYHSIMYQQYLVGMAISISMIVVILFAATLGTLVPLFLHKNKIDPA
+IATGPFITTTNDVFGIMLYFGVAKLILGF
+>tr|A0A1S1J921|A0A1S1J921_9FLAO
+MKTSTTILGILGAAAAGAVLGVLFAPDKGSNTRKKISDKSKDYGDNIKTKFDGIVSTIKS
+NGKEIIEEGKAKFSQAKEDFNTLKDEAKAVKSNY
+>tr|A0A1S1JAY0|A0A1S1JAY0_9FLAO
+MINKNGEISQELKNDPLFESMDKAYNKYWEDVLKYPRDNVNQTLEKKFTEDLQLNKFKNF
+KDFAKAKEKTGYVDFGKRVRNLIAFKAAEEKLFQKYPELKVNKKKFYPYFLKNRRSQIGD
+EKMKQLLLERKNIQLKTQ
+>tr|A0A1S1JGE3|A0A1S1JGE3_9FLAO
+MEQDIAVLKQQLNFNLRGEILFYELQNILKKETEVFVRHKGLSKRHNSRDAIDLSSMLYQ
+EDSRFTKEALVLHLAKNSIYHNLPELLFHPLSVSNSTMSNKEIVEAVRENKKAENNALDF
+FMPFDNELFAANSNFAIRSLHLFNDKIDLFLKIVDELVAIDFDLSHTQKKNLFIYLCEAD
+RLKENLPELEKVLETLLGNVVKLKYKKHVFTDSPFLELSEGTLGFNLGLCGAVESEIDDV
+EVALYFEGNIDYKILERKMNLTRKVLEYFIISNRKIDIVFFNNYQLGIKLNENYLGINTI
+L
+>tr|A0A1S1J7G4|A0A1S1J7G4_9FLAO
+MKYSIMKTYRFLLTISFLFSFFGSFAQQNFGKIKGTITTSDGDPAAGVNVILKNSKYGTV
+TNDDGTFDLNRVRTNTYTLQVSLTGYETTEQEVVVTESETTVLNLQLKVSNKELHEVVVN
+GKKSILSKKTDYVARMPLKNLENPQVYNVIPKELLQEQIAIDIRSAAVNAPGVTTKIYPS
+GGLEISFRGFSTGVNARNGMENMTGRSSISIDNAERIEVLKGPSGTLFGSSVSSFGGVVN
+LVTKKPFETKKTEVSYTGGSFGLNRLALDVNTPLTPDNNVLFRLNAAVNTEKSFLDYGFS
+KTFLIAPSLTYKATDKLTLSIDTEIYNVNNTRPTYGRSYASGITNPTDLKVDYRKSLFHD
+DLDAKTSSTKVFVQAEYQLAENWKSTTVFSFIDENVDRSYQYYTQWISPTEVKRSVSRFG
+PIFNQFTNIQENINGQFSTGSIKHKLLLGTNYRFSKGTFNYGATPVLDIIDVTKPFDPIR
+KKQVDAVVSQLTWAVPDEQIFSVYASDVISFTDRLSAMLSLRLDNFVQKKLEDTKGYNQT
+ALSPKLGLVYEVLKNQVSLFGNYMNGFQNSGPVNQPDGSLLVLKPVYANQYEGGVKVEAF
+NKKLSTTLSYYNITIDNATRTTSDGFNVQDGKQVSKGIDFEFIATPVAGLNAMLGYAYND
+NRIVKSSDAAIEGNKASGAPENVVNFWISYKFQNKLKDLGLGFGGNYVDKQYKFEDESFY
+SPSYSVYNATLFYDKPTWRIGVKFNNINNKKYWDSYGMAQAPANLLVNLTLKF
+>tr|A0A1S1J3W7|A0A1S1J3W7_9FLAO
+MSDDKKVIFSMQKLSKTYQGADKPVLKNIYLSFFYGAKIGILGLNGSGKSSLLKIIAGVD
+KNYQGDVVFQPGYTVGYLEQEPILDDSKTVIEIVREGAAETMAVLEEYNQINDLFGLPEN
+YEDQDKMDKLMDRQAALQDKIDALGAWEIDTKLEIAMDALRTPEGDTPIKNLSGGERRRV
+ALCRLLLQQPDVLLLDEPTNHLDAESVLWLEQHLAQYSGTVIAVTHDRYFLDNVAGWILE
+LDRGEGIPWKGNYSSWLDQKSNRMAQEEKVASKRRKTLERELEWVRQGAKGRQTKQKARL
+QNYDKLLNEDQKQLDENLEIYIPNGPRLGTNVIEAKNVAKAFGDKLLYDNLNFTLPQAGI
+VGIIGPNGAGKSTIFKMIMGEQQTDSGEFSVGETVKIAYVDQSHSNIDPNKSIWENFADG
+QELVMMGGKQVNSRAYLSRFNFGGGEQNKKVSMLSGGERNRLHLAMTLKEEGNVLLLDEP
+TNDLDVNTLRALEEGLENFAGCAVIISHDRWFLDRICTHILAFEGDSEVYFFEGSFSDYE
+ENKKKRLGGDLTPKRLKYRKLIR
+>tr|A0A1S1J681|A0A1S1J681_9FLAO
+MSESKRISNLYQSIYNGDPWLEVNLTKTLENVTAAQAYRKINPNLNTIWEITNHLIQWRR
+NILNRMQGEAVITPDHNYFVPVLDPSEAAWEQSLQSLAKSQEAWNTFFQDFDDADLAKIY
+VNNGHTYYEHLHGIIQHDVYHLGQIVILKKLL
+>tr|A0A1S1JA19|A0A1S1JA19_9FLAO
+MEIYQLEYFIKTAEVLHFTKAAELCFVTQSGLSQQIKKLEEELEMPLFKRIGKKVQLTEA
+GAVFLIHAKRVIENVENGKQAIEDLNEMIGGELRIGVTYIFGLLILPVINTFAKQYPNLK
+IVVEYGTTEALEQKLLTNELDLVLVISSHEINIPVEKVPLFTSQMVLVVSKTHSLAALDK
+IAFKKIEEIPLVLPGKGSNSREFVEELFAKNKMRPKISIELNSIHALLQMVQDSDWATIV
+AEKALKGWDDLKAIQITGVPTKRESFMLTLGGYQKKAVKLFMEEFRKSM
+>tr|A0A1S1IXL1|A0A1S1IXL1_9FLAO
+MKLTLPQQDVYFEQLLYPNEPIYNIGAKIKIKGQINHDAFQKAYIALIDQHDSYRSILTS
+KHENVRIKIVEDHNSALGFVDFSSSAEPFEAANVYMQEEFAKPFDLFGEHLLHVFTLVKV
+QENFHYLFSVYHHIITDGWGTSLMFQRLVQNYNEILEHGKIQTVYPFSYKDFAVDDAAYQ
+QSESYHQDKIYWTKKFESLPQNLFDKLEDNIQINESDRKELIIKREVYNQLNSLAVRYRC
+STFNVILAILYAYFGRKHQNNDFAIGLPVLNRSKASYKKTVGLFMGVSPLRISIDFNATF
+ENLIAEIKTTLRHDYRHQRFPLGKLIQELQVFSEKERLFNITLSYEKQNYSNDFLHTHTQ
+VIPLTHKSERVALAIYIREFDEDEDVKIDFDYNLNYFTEAQITQVVHHFENLVHAILDAP
+DQVLKELNYLGEDEKRQVIETFNTTKVDYQKENTILDVFQDQVIKFSTKEALKDNYKSYT
+YAELDQLSGQIAEYLIINYGQEDKSPIAVLLGRSANIVIVLLGILKAGRAYIPLDPSFPG
+DRLNYIIVNSQIKLLINEKDYVLHTDDVVEVLSLETILEKAAGLEGKPSLKVSPNDTAYI
+LYTSGSTGNPKGVEIGHQSLLNFLSSMQQEPGVRPSDVFFSVTTYSFDISILEFFVPLLS
+GAALYIANQEILGDPVVIIQKIEEIQPTIIQATPSFYQMLFNADWNGDKRLKVLCGGDLL
+SEALAEKLISHSLEVWNMYGPTETTIWSSLKKLEHANEASNIGKPIHNTQIYILDSFLSP
+KPIGTPGAIYIAGDGLAKGYYKNTTLTQEKFIKNPFQANGLLYETGDVGRWNDKGEIEFL
+GRNDNQVKIRGYRIELGDIESHLNQISGIKESVVIAKKGNQQEAFLVAYVVKTEERTDTG
+EIVATLKMNLPYYMIPGTIVFLEEFPLTPNQKIDRKNLAQRAIEHHTINDDFKAPESDLE
+KKLAGYWKEILNSKKEISTNDNFFALGGHSLNAVKLAGSIAKNLGYDVNLKTVFDYPTIR
+LMADYLVTLKTNDRQGIPFTTLKTDFAITPSQQELWVACQDRPKSIAYNMVAVFEINGTV
+FPDKINNAMSQLIFENEILRTNFEESKGAVFQKTGKQEDIDFKITQLQIDNEQKEQTIQR
+YIETPFDLEHDVLVRMLLVQTGETTSSLVFCTHHIIMDGVSLEFFTKEFIQKYNHPDSVI
+KNSGIQFKDYTAWLASENDDKTTFDFWQRYLDGYSIKETINRDFNLNGPLQNGAYYDDEF
+TIEDTKALKKFAQEQKSTVYNTIISLLNVLIHKINDHNDIVIGTVNAGRNNADIATMIGM
+FVKTLPLRVRLNEDISFLELLKQVQEDVLLLNTHQDFPSQLKKEALFDVLVSYQNPDFSF
+QETIKMDHAELKYVTSDTNYSRFPLLFNFFESGNALKVSVSYDKNKYEEISIQFLLATFK
+NLWSQIIENPSVKVSEIEYPLVNTAKLQETDFDFNF
+>tr|A0A1S1J193|A0A1S1J193_9FLAO
+MTIQQLKYIVALDEERHFARAAEVCLVSQPGLTIQLKNLEEEIGIKIFDRNKVPLTPTVL
+GTEIINRAKKILREADEIRDFVVNEKNKLEGEVKVGIISTLSPYLIPLFIQAMKKATPKM
+QFIIKEANTGQLMNDVMTGALDVAIMATPTGNPHLIEHPVFKEPFVAYLNTVHPMAAASH
+YELQPSDRAELLLLQNEYCYNAQLLDICDIKSTGKIKEQFSYDISSIETLKNLVRAELGF
+AIIPQLSMINEVETGLFKHFKDPKPVREISLVVSDTFSKKLLLEKMNEAIWNCLPESLQQ
+NFAYRKIRWNDSPYFIKATTR
+>tr|A0A1S1J7E9|A0A1S1J7E9_9FLAO
+MTKSLEEVHQSVATQHKKTGFRKILAFLGPAYLVSVGYMDPGNWATDIAGGSQFGYSLLW
+VLLMSNLMALLLQSLSARLGIVTQRDLAQASRETYSRSINYILYFLAEIAIAACDLAEVL
+GMAIGINLLFDIPLIEGVLITVLDTFLLLFLINKGIRKMEAFIIVLVAIIGFSFIFEMIF
+AEPELDKVIYGLVPSIPSSAALYIAIGIIGATVMPHNLYLHSSLVQTRKFDRTPAGIKQA
+LKYNFIDSTIALNLAFFVNAAILILAAATFYKNGMFEVAEIQDAHQFLEPLLGTKWAPIL
+FAVALIAAGQSSTVTGTLAGQIVMEGYLNLRIQPWVRRILTRLIAIVPAVVVILIYGESV
+TGKLLILSQVILSLQLGFAIIPLIHFVSDKTKMKGFHISRTTQVAAWIIASIIVTLNAKL
+VYDEITSWLQNSDNPTFLWLTVVPLAFGFLALLLYIVFKPFVTRIKSNIENHSPHHLKLV
+YTPKESYGKKNIAITVDFSKADEVALNNAFELGGIDAQYTLIHIVETVGALMYGGNVDDH
+ETTIDEKLLLEYKEMLSLKGFKIETELGFGKPNSVIPEIINFGNFDILVMGTHGHTGLKD
+ILFGTTVDKLRHKISIPLLIVK
+>tr|A0A1S1J349|A0A1S1J349_9FLAO
+MKKTNPIIPLFKQFIKETETGKRLKKNGERIKSDSIDNYKYVLQNLIQFSNETKFELRIC
+DASKLDKRELTFEKSYWKKFYQKFTDFLYKKGPAFRSVQLKSCANVSDFALFFLRLLNY
+>tr|A0A1S1J5N1|A0A1S1J5N1_9FLAO
+MDTFIVDTKTITLLLATLFTGLLAGIFLTWGNAVTPGIGKLDDINYLRAFQNMNRTIQNP
+VFFLVFFGSFLFSFAAAYFNKSNTIVLSLTVGAAIIYFTGVILVTILGNIPLNEMLDKTD
+LVHTSIQEAALLRSKFEAKWNNLHLFRIVASIISFLLLIISCLLKTKP
+>tr|A0A1S1J6W8|A0A1S1J6W8_9FLAO
+MVSITRLFDFPYYQQETYNLQVALATKKNGVWEKTSSQEYIAKANAISRALLRMGVQKDD
+KIALITSNNRTEWNIMDIGILQTGAQNVPIYPTIAEEDYEYILNHSGSIFCFVSDTEVLD
+KVNAIKANVPTLKEVYSFNEIEGCKHWSELLTLGEEDSNQSEVEARKDSIKPEDLATIIY
+TSGTTGRPKGVMLSHHNIVSNVLDSAPRIPFDPGKSSALSFLPICHIFERMILYIYQFYG
+ISVYFGESIDKISDNLKEVRPNVITAVPRLLEKVYDKIYAKGAELTGIKKKLFFWAIDLG
+LRYQPYGANGAWYEFQLKIARKLIFSKWKEGLGGNLDLMVSGSAALQPRLARVFAAAEIP
+VMEGYGLSETSPVIAVNDQRNKGFKIGTVGKPIRNVEVKIAEDGEILCKGPNVMLGYYKD
+PEKTAEALQDGYFHTGDIGEIDSEGFLKITDRKKEMFKTSGGKYIAPQLIENAMKQSRFI
+EQIMVIGEGEKMPAAFIQPNFEFVKEWAKIHKITLGNSDKDISSNAQVIKRIDEEVETIN
+EKFGHWEKIKRFELTPDVWSIDGGQLTPTLKLKRKIIKEIYKDLYAKIYGQN
+>tr|A0A1S1J968|A0A1S1J968_9FLAO
+MINNEDFLDEIGDNHFSSNAKNPLRPDAFDLSDDEKIEKIKKDVENILQTLGMDLTDDSI
+KGTPNRVAKMFVKEIFGGLNPSKQPKASTFDNNYKYGEMLVEKNITVYSTCEHHLLPIIG
+RAHVAYISNGRVIGLSKMNRIVEYYAKRPQVQERLTMQIVQELQKALGTEDVACVIDAKH
+LCVNSRGIKDIESSTVTSEFGGRFKDPQIKRELLDYIKLDTQF
+>tr|A0A1S1J469|A0A1S1J469_9FLAO
+MKIKEILAVLEEMAPLAYAEDFDNVGLLVGDTETESTGVLVCHDALETVIEEAIAKNCNL
+VVCFHPILFSGIKKITGKNYVERAILKAIKNDIAIYAVHTALDNHSQGVNKIFCDALGLI
+NTKVLIPKQSFIQKLVTYTTPDNSEKVRNAMFQAGAGTIGNYDNCSFNTEGFFTFQGNEN
+SNPVIGERGKLHTGTEIKIEVIFEKHLQSKILKALFASHIYEEVAYEIYDLKNSHQNIGL
+GMVGEFETEMDEKDFLYSVKDKMIADGIRHSAFLGKKIKKVAVLGGSGSFAIKNAIQAGA
+DAFLTADLKYHQFYEAENRLLLADIGHFESERYTKNYIVDYLRKKILNFAIILSEENTNP
+VKYL
+>tr|A0A1S1J6J1|A0A1S1J6J1_9FLAO
+MEFFKTTNEDIDAVFDLYNAATSYQKTVNNKSWRGFERTLIETEIAENRHFIIKEGNEVA
+CTFVLTFNDLIIWKEASTDPAIYLHRIATNPKFRGQSYVKKIIEWAKIYAHENNKSYIRL
+DTHSGNERINKYYTSCGFNYKGISTIEWTSELPEHYKEGSFSLFEIKL
+>tr|A0A1S1J9A9|A0A1S1J9A9_9FLAO
+MSTNKIKTILLKTAKYLGITFVVIIGLLFLTPIIFEDQIKEQIKKTANEKLSAELNYSDV
+SVSFFQHFPSLTLTLSDLHLNGSAPYTKEKFITAKEVSFGINVASLIFSKEVKIDQIYLS
+DSFINVKVNEEGEANYNIYKSNSQAETPKDSTETALKLERIEILNSKIVYDDKSTKIHFD
+AFGFDYLGKGDLNKAVFDLYSKAKIEKLNIVYENEPYLMNKKVNADLITKVNVNSLSFYF
+QQNNLKINDLVVDFIGKFDFLKDGYNMDFVIKSDNSDLHDVFTAFPPKYITWLSKTELKG
+NTNLLLTLKGDYIAAQNIAPDLNLDVKIDSGFVNYNKSAFPVSNLNLEIKTKVPSLNPDL
+LIVDAKNLSLNIKQDYLKSKFYVKGINTPDINADFKAKIDLGKLMSALGIPTIVLKGNLA
+GDVKANGKFDLKNKLLPVTNGTIDLVNGYLKTPYYPNPITDITIKSKVENQKGTFSDLKT
+NLKPAQFTFEGKPVFVEADLSNFNDLAYDIKAKGELDVNKIYKVFSQQGLDLDGFVKADL
+VLKGKQSDAEKGNYRKLYNKGTLELRNIGITSEYLPKKFIIKEGIFKINQDKMSFNNFLA
+AYGQSDFRLNGYLQNVFNYATTNTGVLKGSFKSTSRYINVDEFMSSTTTNTAATATTTET
+KPQAQPAQTGVIIIPANLNLQFTANAQKVNFDKLNLLNAVGNLSMNKGKLNMQNTGFNLI
+GCDVSMNANYQAITPKKANFDYAIKASDFDIKKAYNEIEVFRKMASAAEKAQGIVSLDYQ
+LKGRLNSKMEPVYPSLAGGGTLSIKDVKVRGLKMFSAVSKQTNTESIKNPDLSKVDIKTT
+IKNNIMTVERFKFKFAGFRPRIEGTTSLDGKLNLKMRLGLPPLGIFGIPLTITGTQDNPK
+IKVGRKSQNLEETKDTEE
+>tr|A0A1S1JCP8|A0A1S1JCP8_9FLAO
+MKDIKKFAIVIIVLELPMLVTHWLLIKKKEKEKTEKSIAVDKEKVWLEQYQSTVKIDSSF
+SRQHYHWDNSTSEKLLKWNLK
+>tr|A0A1S1J428|A0A1S1J428_9FLAO
+MAQLNSYLTFNGNCRDAMLFYKACLGGELELQTIADSPIGEELPEKMKKCILHATLKSDT
+LTIMGSDMAPENLTKGNAFSMMLTFDSEEETRKVYADLSKDGQATHPLERTFYGALFGNL
+TDKFGHQWMLCYSCQEKKSLSVGYN
+>tr|A0A1S1J2L4|A0A1S1J2L4_9FLAO
+MKSILPKFIFFFFIAFQIQAQELLPFVENYNKSDYQGDNQIWNVVQGNDDAMYFANNHYL
+LRYDGVIWEKYTLPNKTIIRSIMIEGDKIYSGSYKEFGYWYRKEGKMHYVSITKKLRLFD
+EKDNEEIWKIFKFKGSVYFQSFNDVFIYDGKHIKKIKFPFLISYCFVVDNDVYVASVAKG
+LFRMDGSKIANPKGWNILKKTVVHAIEKYKNETFIFTQKKGIFIVEKGGLRPWNNPLNEV
+LKSATINVAKFIKGNKLVVGTGNRGVFIYDFQTDTYKNINRNNVLMNNSVLSIGFDKEND
+LWLGLDNGITHVEINSPISFFYDNSGLLGSVYSVAAIDKGYLIASNHGVFEFVSGKFNML
+PNTQGQAWNISKIGTKYIIGHNDGTFCYENGSLVKINNRSGGWNLTKSSINNTYFQSTYS
+GVVAYNDIAVPTENKVINDLSKPIKYVAQNQKNEIWAADNYRGLYRVLYDDNYKTKKVEN
+ITQQSKIKNDFGVKIFEFRNEILFLINNVWYTYNSISGSLEENELFNSNFKNISDVVSID
+EDHFVVLQNGILYHIYAKGNKFIWNIIQEKYYKGTLINDNLRIFKTQNHYLLNLDDGFIS
+LQLTYENKQNAHVKIEAFNDGNLISNEDKIKYNTEIRINVISGIYGASKPNLFYKINKNG
+DFLPISDGLIVLNNLSSGSHAIVVYKHDGASYEEVADFDFKVAEPWYFSFWMILLYLLVV
+GAVLFFYYKWNKLRYMQKLKLQAEELKHQREILEMELKAENELNVQEYEKHILELELQTK
+SSEVAGKSLSIAKQSEMIDNIQNILNSEKDFNKLKSEIKKAIKINEVNKHEWEIFETNLN
+QIHNEFIINLSKKFPNLTPKDIKLCVYLKMNLSSKEIAPMMNISFRGVELHRYRLRKKLG
+LTQDENLSKFLLSL
+>tr|A0A1S1JD08|A0A1S1JD08_9FLAO
+MAQKATKKGTKKVLFVVTSNDKLGNTGEKTGFWSEEFAAPYYELLDQGVEITIASPLGGQ
+PPIDPKSADPASATEDTKRFDADKTLQEKLKHTHKLSTINQKDYDAVFYPGGHGPLWDLV
+EDKSSIALIESFYTHKKPVAFVCHAPAVLKNVKVKGEFLVKGKKVTGFTNTEEEAVGLTK
+VVPFLLEDALTKNGATFSKAANWQPYAVEDGLLITGQNPASSKLVAGKLLLQLN
+>tr|A0A1S1J0A4|A0A1S1J0A4_9FLAO
+MKVLVTGGLGFIGSHTVVELQNEGFEVVIIDNLSNSTEDVLKGITSITGKTPLFEKLDLR
+EKASVREFFKKHNDVTGVIHFAASKAVGESVENPLLYYENNIASLVYLLQELQQKPEASF
+IFSSSCTVYGQAEKMPITEDAPVQAAISPYGNTKQIGEEIITDTAKVTNISAILLRYFNP
+VGAHATTEIGELPIGVPQNLVPFITQTGVGLRQELSVFGDDYPTPDGTAVRDYIHVVDLA
+KAHVIALQRLLAKKNLQKVETFNLGTGKGSSVLEVIHSFEKVSDKKLPYKIMPRREGDIT
+EAYANTDKANNVLGWKAQLSLDEAMASAWKWEQKVRS
+>tr|A0A1S1J0S1|A0A1S1J0S1_9FLAO
+MPLIEQSEYNLPSIMHRNRHISTIYAALFKKYEVPEYTREKHELSDGDFINIDFLINNSK
+KAVILCHGLEGDSRRTYNNSCAAYFREKGFSVFAWNNRTCGGEMNRLPRLYHHGAIDDLD
+EVVRFVFQKEFEDVYLIGYSMGGVQLLNYLGWTKIDKRIKAAVSISVPTHIATSAAVLKQ
+GFNRVYLKNFTIDIKRKLKYKAAQFPDFINRDQIDKISSFDEVDQYFTAPLHGFASRDDY
+YQRVSPEFSLQNITTPVLIINSLDDPFLGERCYPRAIAQDSAYVYLETPRYGGHCAFPLR
+DSEYSYAEKRAYEFFESCRALT
+>tr|A0A1S1J347|A0A1S1J347_9FLAO
+MTTNQKTARIAGLLYLAVVLTGIFSLAYVPSKLIVWDNLATTYHNIKASELLFRLGIIAG
+LSCYLFFLFLVLQLYKLFEPVDNGCAKVMALLAILSVPIYFLNAQNQFNVLSLLTDNSIG
+ISLEQIKSQVMLNLNQYDNGMRIVHIFSGLWLFPFGYLVYKSRFLPKFFGILLMMGCFGY
+LINFLGNTLIADYSTLGVSKYISMPATFGEIGICLWLLAIGVKEK
+>tr|A0A1S1J574|A0A1S1J574_9FLAO
+MGLFDIFKKKKTELTFPENELEKCLMQAASNFSAQKEFYQKLLENQLYILTNENSISGIG
+NQTLENDVTIQCVIFENGQIPIFTSINRIFDKGIIPKMVPYLSLEGQVLFETLNGVTFIL
+NPYSDFTKELIPEEIENLLNGKIYNKIDELELENKKNQEFNEIFERAGKKQEGLILLGGY
+HKKELKDSDKLKLEESIKDFKKCLEIVPEHWQSMILMSKALQRLERHKEALEQLEFAFKL
+ELENHIIPMEASLEAMHLKDIDKAIFYSEESLKRSPNDFALLGNHAMNLLVAKKDQEAKA
+IIDKAIKLQPNDSINKNIEAIINDVISEKRTRPTFEDAIK
+>tr|A0A1S1J766|A0A1S1J766_9FLAO
+MNKCDQCIVRQLSSLKALNKDEVVKLANSKTTYTIKKGDALFEEGEVTNGVYCVKDGVGK
+LSKLSANGKDQIVKLVKSGELLGQRSMISNEPANLTAKAVADMEVCFIPKAEILHFFNNN
+NQFSMNLMQSVCEDLKESENDKIALVQKTVKQRLAETLLQLHDDFGENADNTLKVQLTRE
+ELAGIIGTATESCIRLLSDFNKLNLIELVGKKIKLQDIKALKRLAE
+>tr|A0A1S1JAY9|A0A1S1JAY9_9FLAO
+MFDVLIIGGGVSGMSCALVLGSAKNKAFVTDKKIGIFTHQKNSSLQEAIFYNAYGITPGK
+LGSDLLVESTQDLAKTYPHITQIENEKVVKVEGSYPDFIVTTNKNSYKTKSIVVGIGSAN
+TFDIEGLMHYIEPHKKALPEKQRIQLKNDDHKVADGIYVIGTLAGWRSQLAIAAGSGAAV
+ATDILTLWNNGVQTHAHDSIR
+>tr|A0A1S1JCP1|A0A1S1JCP1_9FLAO
+MNLDDFMESIDPFFWVEHENSVSVCLNVGEYKTEIFETREEEGFEGNGYDWASLAQVFLQ
+EQKPEFVDVVKFDPEGSMFCAYSSDSEALKSFIISFKEACENKVLILDLFSRAELD
+>tr|A0A1S1J296|A0A1S1J296_9FLAO
+MEYKKRFYWFVGVCLANFSLAANAQNKDLKTGWQYRETKTEKWYPATVPGEIHTDLLNNK
+TIPDPFYRDNEKKLTWIEKKDWEYKTTFQVSPATLAKKHTELVFDGLDTYATVYLNNQVV
+LKADNMFLQWRVDVKKVLKSGNNNLVIVFKSAQNVVDSLAKKDLPFVIPDNPRAYVRKAQ
+YHFGWDWGPKFTTCGIWKTPRLEAYDKKEAEKPYVLDRKIELVQEPDKVGKTFYFKIDGK
+PVYMKGANYIPSDAFLSRVTKKEYEKVIGMAKDANMNMLRVWGGGIYEDDYFYDLCDKNG
+IYVWQDFMFAGTMVPGDDAFFANVKKEVQYQVKRLRHHKSIVLWCGNNEIDEAFKDWGWQ
+KSMKMPKQDSIRLWKDYVRLFQDSIPKWVKEVDDKRPYISSSPSFHWSKAKSLTEGDSHY
+WGTWWGLEDVEAVQNKTGRFVSEYGMQAMPNYSSIERFTKAEDRYLYSDILQAHQKAGKG
+FMKLDSYLNRYFIDSTKIKKMNVEDYTYLTQCLQYYSLKNIIGIHRSKAPYNMGTLVWQL
+NDCWPVASWSVTDYYDRQPKAAWYAMKEAYRDDKTPEIDLTRPINLKLEDPKITWQVKGN
+KLILKASKFAKYVNVSIKGYTGKWSDNYFDLKAGEEKTITFEGAIAKPIIRVYSLYDVLK
+RY
+>tr|A0A1S1J7N6|A0A1S1J7N6_9FLAO
+MKKVYLLIILVLPVLGLAQTTAKLKGKIASETTALEWADVSVFNSEGKIIEGTTSKPDGS
+FELNLKEGFYKIGISLLGFVDYEKQIAIKKDTDLETIVLKENTTQLGEVVIKTKKNTIEQ
+KTDRLVYNLENNVTNVGGDALSAINTAPGVVVQKETISILGKGTSRVMIDGRIVELTGEE
+LNNYLKSISAADIKNIEIISTPPAKYEAEGTGGLINIVLKKGTRNSWKNTSTATYDQNKY
+GALTLRDNFFYNKNKFRFSASINGKKGHKYADEFLDMYFPDGLSEMIINTKFTDEILSGK
+LALDYDFSDRITVGFQVLKDRSNPDFKSDIRINNYNTKNELDNYILNNSFVDKQSGNQTY
+HGHLIAKLDSLGRKLSFDVDYFNYNSKFDRNAIAYNYRPDNSFAGINQSARNISDQDIDN
+WSFKADMEHPLTAFNLSYGTKLSFTNSKSYVLYYNTITGTPELDPNQSNRFRYTENNQAV
+YVNGDKKISEKWNLQLGLRLENTQTSGFSETLNEETKNNYLRLFPTVYVSYKENDRNNFS
+FNYGKRISRPQFDLLNPFRNYINSNSYSEGNPFLRPSFSDNFEFSHSYKGVLRTSVFFNV
+INDGYGVIFTSIPETNTQIVTRENYFRDLKYGVGESYSASFADWWQSENTLYFLGSKTKF
+IAAINATPSNSLEVNFSTNNTFSLGKTSKLQIDFNYNTPSRSGLYKTGYMSSFDIGFKQD
+MLNKSLQIAFLANDIFNTSYLKDLVSVVNGVKQVYSQNFSNRFLRLSVIYNFGNKKINVK
+QRDFGNEEEKNRTGN
+>tr|A0A1S1J9I1|A0A1S1J9I1_9FLAO
+MVFRLIAILFFFSVGAFSQEKFIKHKISQGENLTVIAKKYGVKPKDIATANPNAPKVLKL
+NSVLLIPNRNKTVAKTAAKKPEEIIANATPETTPGSHEVAAKETLWGISKKYNVSVDDLK
+KANPLLESEGLKIGQQINIPSNTATTATTAVAVVPVIENVQEPAMVEVTREVLSKETKYA
+IAKEFGITVKELEKQNPAIKKRLKVGYLLKINVSPEKAAALQEVKPIETTTSTPSIQIAE
+ETVVKKDSTFVRGINNNSELIEQLIVNATENIGTRYRSGGTTKAGFDCSGLMICTFNNFD
+IKLPRSSIEQSRIGVRVDTDAAQKGDLIFFKTNGRRRINHVGMVVEVTEGEIKFVHSSTH
+GGVMISSTKEPYYQRSFSQVNRVLQ
+>tr|A0A1S1IYY8|A0A1S1IYY8_9FLAO
+MKKLYILSLVLSITFGFAQKTNLKKADALFRNFSYLDASKAYEECLQNIENPTAQTIKNA
+ADSYYFISDGRNALRWYKRLYQIQGNNLTDIYYLRYIQCLKSVMDYDEADKITKEYLNKK
+GDQKEINRYVAQKKQLDSLAKTKSLYDTRNLDINTGKSDFGATFFQDRIVFSSARDTTKF
+ADKLYNWNNQPFLNLYVAERNPADGGLFNEKLFIPNVMTKYHEATASFDASGKTIYYTSN
+IVKKNKLVVDQDRINNFQILKGSLVDGKVENPQKIFFDSDDYSVGHPSLSDDGKLLFFAS
+DMPGGYGETDLYVVKIANDGTMSSPQNLGPKINTLGNDLFPFFRNGTLYFSSDGHYGLGD
+LDVYESKMLSDGSFSAPKNLGAPINSNKDDFTFVIDKTGSYGYVSSNRAGGKGDDDIYSF
+TKGQPVCNQNISGKAIDHKSKALLADVTIIAYDPYNEVLAETKTNFDGKYAVTVPCNKAV
+RLVASKFNYSDDEKTVATTKINEAEITDVDFELSNYDDLVVKKQGVEKVDVNPIYFDYDK
+FNITPLAATELDKVVFVMRKFPKIRIKIESHTDSRGKDAYNLKLSDNRAKSTRDYILSQG
+IDTARIESAIGYGESRPINKCKNGVKCTEAEHLLNRRSDFIIIQK
+>tr|A0A1S1J0X1|A0A1S1J0X1_9FLAO
+MEKAIKLKVRKELDGRQQLNIIKLKGSLISKGYTEIIHILDQDDEFHINSFETRSESTNE
+VQEFITAFIHRENLTDTISFYK
+>tr|A0A1S1J2C6|A0A1S1J2C6_9FLAO
+MIDRAPKYSQNNLHFFPQFEDFFDSSPDLLCIAGFDGYFKRINPAMTKLLGYTEEEILSS
+PINDFILEADKLTTTNARKELTQDIGLYNFENRYVTKSGAIVWLLWSSFPVAKDRLVYAV
+AKNITFRKEMEQERNLHLAELTKLNKELRQLTYTTAHDLRSPVNNILAVFDLLDKSTITD
+PETLELISIIEISTQSLKKTLIDHVALLDKKNEEDDQLEVLHFEVVLKEVLDSINSLVHN
+SKAKISIDFSEAETILFNKTSLKSIFLNLITNSIKYSKPGFLPFISFNSLTINGTTQLII
+SDNGIGFDMEKVKDKIFGLHQTFNSNKDSNGIGLYLVYNHVTNLGGHIDVESTPNKGAKF
+TITFKS
+>tr|A0A1S1J6G5|A0A1S1J6G5_9FLAO
+MKKPILLLLFVTFFANAQTSEKDKVNQTIDAWHKAAGEVKFDAYFDLMAEDAIFIGTDAT
+ENWIKKDFKVWAKPYFDKGTAWNFTALERHIFFDKTGKIAWFDELLNTQMKICRGSGVLI
+KIGKEWKIQHYVLSMTVPNEEVNAAIKIKAPIEDVLIAKLQKK
+>tr|A0A1S1J9C7|A0A1S1J9C7_9FLAO
+MFSQNEHLVIGRTTGKLLLKNNVPIRTFGFTNSLSGQVTLPGSQIKAKVGDTVRVDFWSI
+SQGNPVSLFCKEIDFVQWDKNNKLMKKKEAIHHMEHGFYSFIAEKPGTYLYYSPENYPFN
+LQAGMFGIIIIEPKEKDFQTPEPLREILWCSNELDTKWHTDAIMGTEYDPRNKPIVLPPY
+KPNYFLINGKVASDSKGLQSLDRKNETVLFRLVNSGLYLHEIVFPPNAKLKLRFGSETAL
+TESANGCKVALQPGESLEILVSLENVGDTEQLIYHFTDPISKKKVYETAIAVFH
+>tr|A0A1S1J2E8|A0A1S1J2E8_9FLAO
+MKKENLYEPFSVSFETLEEYPDVGDRHNFFELVYVLKGTGLQCINKNVFEYDAGHLFLLT
+PEDCHNFTIETKTNFFFLRFNDIYLKNSSLQNENIQRLEYILQNANHQPGCILKNVADKC
+LVKVMVEAIIREYEDKDVYNKELIQQLVNTLIIVVARNIAKYLPEQVNIGCEAKAMDILQ
+YIQNNIYYPEKIKAESISDFFGISSTYLGRYFKKHANETMQQYISNYKTKLIEHRLQFSD
+KRINEIAYEFGFTDESHFNKFFKKQKGNSPSEFRKTIRISA
+>tr|A0A1S1J7C4|A0A1S1J7C4_9FLAO
+MTKDSIIQNIKALKSHSSINYGIKTKTEDFTEKLFYTLFDSNAALDKSIQELEICFKEIA
+VLACKKSENSCDAMWDRFLEKLPAVLEKLNQDAEYILENDPASNSIDEVYLGYPGFYAIA
+IYRLSHELYRLDLLLFSRLMSEYAHRITGTDIHAGAEIASPFFIDHATGIVIGETTVIKK
+HVKIYQGVTLGALSVSKEMKNAKRHPTVEANVCIYANATILGGETIIGKNSIVGGNAWIT
+KSIPEDSIVLNTTTTEVKIKEKK
+>tr|A0A1S1J2D0|A0A1S1J2D0_9FLAO
+MLENVPLIVLILPLLFQIIAGRKAIGETISLKFGTVCIISIIAQIIVPVISFYIATYNAN
+KYIEQNPNSLRCGMEFVGLFMFTLIFTFVLIVVIIIQYFMKRSYEK
+>tr|A0A1S1J727|A0A1S1J727_9FLAO
+MYKDLRLSIERKIPLTDEEWNFVVEKVKFIKLKKNEFLQIQDSKNSYEGFILKGTFKTYI
+LNDNGTESVIFFSFENEWICDLESFYHQKPTTYNIKAIEESEILVISKKNKALLFEQVPK
+LIQFHILMVERANIAIQQRLIDLLNKTSKQRYLEFIKRYSHKANKINNRNLSSYLGVSHE
+FLSKIKRSC
+>tr|A0A1S1JD70|A0A1S1JD70_9FLAO
+MNQEIQIAFPKGITLTIKREDLIHPFVSGNKFRKLKYNLLQAKAEHQETLLTFGGAFSNH
+IAAVAYAGKEQGFRTIGVIRGEELFDKIEENPTLKFAQENGMQFEFVTREEYRDKNEDSF
+IEKLKDKFGDFYLVPEGGTNELAVKGCEEILTEEDAFFDFVCCAVGTGGTISGLINSALP
+NQKILGFPALKGDFLTDEIRIFAKKDNWDLISDYHFGGYGKVNLELIEFINTFFEETKVP
+LDPIYTGKMVFGVIDLIHKNYFPEHSRILLIHTGGLQGIEGMNIKLKRKKLPILKSNG
+>tr|A0A1S1J791|A0A1S1J791_9FLAO
+MATNINTILSWFKTRSKPTQKQFHATWLSFWHKDEQIPQASISNLTTTLDAKTDQSQFHA
+HITDDNAHLAAFEKKLDKGDYNGTAQHLKNDIDSVEQNLLENYYTIPKIDSKISEKQDVL
+TDVNFGTFQNTLTTVSSISDTDKIHFLAGKLTRIISWTNFKNLFKTINGNSIFGTGDVTL
+GDMSTDTDQSVSGIKTFLNGKFGLRNVANTFSSFFTNINTASRTYTLPDKSGTIALTSDM
+PTNIVNNGIQNFLGKYNNSNGIVPCRINDDGTRIGINNTKPYSKDFEFGNNANFELGVRQ
+SDTYNIGRDLIVSAGRTINFVESSEFIALNQSFRPWYQMAVNSNTGNVYACGYTHGLYKQ
+TAGSGDFHSIAFTGQLLLGVTVNSSNNDVYASIINGDIYKQTGGIGPFEPIGAGNRQWWS
+IAVNSSNNDVYAVVYGGDIYKQTGGTGPFVAVGAGNRIWHSIAINSSNNDVYAVVVGSEI
+LKQTGGSGTFNSLGQPPRTWKAITVNSMTNDVFAADGGGDIYKQTNGTGNFIAQGLTARN
+WNGIAVHSITGDIYASVHTEDIYKQINQATGNPNLDGGILKLKAGTGKGSGESRQEFYTG
+QKTISGTNMQAETLRFYIDENGFFVYLTPPIYTSDAAADEDTNLPSGAYYKITGDRTLFQ
+KP
+>tr|A0A1S1J0U5|A0A1S1J0U5_9FLAO
+MKTTKTLITAVMILLISIGSMAQNKKKEQAENQLTITGITGQSIKESADVNNVGKLIAAI
+SDQIVKEKLAPANTSSLSYMLNSKEFIINGEKQKPEVQLRYKNKYIGDHTKWNICKNFKT
+K
+>tr|A0A1S1J0V2|A0A1S1J0V2_9FLAO
+MRIISGKYKGRRIFPPKNLPVRPTTDMSKEALFNVLNNHFSFDSLKVLDLFSGTGNISFE
+FASRGSAPITSVDGDFGCVKFIKQVSSEYDFDIAATKSDVYKFLENCKTSYDIVFADPPY
+GFDQAAFEKIVVTVFERELLHEDGMMIIEHSKYTKMDHLSNFSFQKSYGGSFFSFFELNS
+TDDDEELPDDSSTKITEEDEG
+>tr|A0A1S1J1S0|A0A1S1J1S0_9FLAO
+MRTNKRQTIRRPDVRSLKIQPKMRFNEYSQKKVPEIKLCGNWMQKLGFEFGERVIVTCMP
+NLLIIRPIEQ
+>tr|A0A1S1J297|A0A1S1J297_9FLAO
+MKDLLQQFENKAPEIVFNWKDSETEAEGWTVINSLRGGAAGGGTRMRKGLDMNEVLSLAK
+TMEVKFSVSGPAIGGAKSGINFDPNDPRKKGVLQRWYKAVSPLLKSYYGTGGDLNVDEIH
+EVIPMTEECGVWHPQEGVFNGHFKPTEADKINRIGQLRQGVIKVIENPKFSPDVTRKYTV
+ADMITGYGVAEAARHFYATYGGDIKGKKAIVQGFGNVGSAAAFYLAEMGAKVIGIIDRDG
+GLIKEEGFSFEEIRTLFLNKDGNKLVADNMIPFDEINTKIWTIGAEIFTPCAASRLVTQA
+QIDNLIANGLEVISCGANVPFADKEIFFGSIMEEVDSKVSLIPDFISNCGMARVFAYFME
+KKVQMTDEDIFNDTSEIIKNAIVKAHTLNPSKTNISATAFEIALKQLV
+>tr|A0A1S1J3V1|A0A1S1J3V1_9FLAO
+MKIRLLPIYLTIAIMALLPSCSKDDDNSNKETALTLTLVNPEDLSSVIFSDVSVSFKERN
+TGKVTQSKALNNNISVSLDEGSYEISIDGKINYTIDGNIIEASVSSYKEAVVITGGSASV
+SLNLFLKTTQSDFVIEEVFFTGTKTPQGKQYSGDKYFKIHNNTDKVLYADGLMIAQSEFM
+TTDKQDYTPNIMAQSFAVSAVAIVPGNGTTYPIAPGEFFVIAEDAIDHKEYNSASLDLRK
+ATFEFYTEDADDVDNPSVPNMESLFSSMVIHNRGFKSFVIARMPINKTKYLTDYTYNYEY
+NLVFGGESYPMGENVYSIPNSWIVDAVNLSVESEFKWIVTAPSLDKGWTYCGKVDSDATR
+YGKSVRRKTLSTTSNGKKILKDTNNSTLDFSPEVKPSLMN
+>tr|A0A1S1J4W1|A0A1S1J4W1_9FLAO
+MKSLLLKTSFSIFFIGIIYVLLSFSAAFGEKLANSNWREIYSKPTSQWPKPTIDDGVQWQ
+EFEALAIDTSYYNTMENPKVILGQLLFFDPKLSGSNQVSCSSCHDPELAWGDAREVSLGN
+DHLQGKRNTPSLYNIGARKSFFWDGRAATLEEQAQGPITAHHEMNMEPKNLAKKLRKIKG
+YPVLFQNAYGDSEITYEKILQSLAVFQKTILSKRSRFDAFMDGDYTQLSDQEIYGLHLFR
+TKARCMNCHSGKYLTDESFHNIGLTYYKREYEDLGLYTVTKKADDVGKFRTPSLRDVMYT
+GPWMHNGLFDNITGIVNMYNSGMHMIDPNETEKIADPLFPKTDVLMQPLNLNDDEIVALV
+SFIKTLSGRQYKMERPQIPR
+>tr|A0A1S1J777|A0A1S1J777_9FLAO
+MKKLIIVAAILLVQMSFGQVTKELGDFDSVKVFDKLSVKLVQSSENKIVIKGARESEVEV
+VNKKGLLKLRMPFPKLLSGNDLDITVYYKRLELIDVNEGASVSSKDVIKATVFKVSAQEG
+GTINVELNVDKLNVSSVSGGSITLSGKADNQDAGLGAGGYLLASKLKTSQTKVSVSAGGK
+ADVNASTLVDAKVSAGGSIYIYGKPKQINQKTVFGGKIEEVK
+>tr|A0A1S1J962|A0A1S1J962_9FLAO
+MKNILVFVILLMTSLCVAQTVRFDGFIQDEKKNPLEMANVMAVNTATKAMDSYGITNDKG
+KFQLTLKPNTSYSIKISYLGMKSKEITISTQTANIAQNIVMDDAGIELEGVEIVREMPVS
+IKGDTIVYNADSFKSGTEKKLEDVLKKLPGVEVNADGEIEVEGKKVSKLMVEGKDFFDGD
+TKLGVKNIPADAIDKIQVLRNYNEVKALKGLENDQDNVAMNIKLKEGKKNFWFGDVTAGI
+GVAELDSRYIINPKLFYYSPEYSINLITNFNNIGELPLTAQDYFKFTGGFKNMMKKGGSN
+FNVSSNDLGISILRNNRAKEIETKFGATNFAYTITKKWNISGFGILSTSKTDLETKSKTT
+ILDSGNEQKRDELTHQKNNLGLFKLSSSYKPNEKFQFDYDILTKLSKQNEDGNLLRESVV
+SNISALETILTNKRQDPTSVNQDLSLYYTQSDKNIFAFEMQHLYQDENPFYNANLRTQPF
+DLAGYTSGQNRNDLNQERFVKTNKVDAKLDYYYMVTPKSNINITLGNTFSYQDFNSHIFQ
+ILDNGTKNDLNDPTNNNQVQYNFNDAFLGFHYKILAGKFTLTPGVSVHTYNMKNTQSGTN
+YSQNFMKVLPDFFALYQIKKSETLTYNFSLSNDFTDINQLASGYVLSDYSSLFRGNRYLE
+NATSQVHSLRYFKYNMFNFENIFANATYTKKVDAIKTKANFEGINQSSSPYNSNLADETF
+TGMGNYGRSFLKNYKASANATFNWSKFNNIQNNILATTESFSQSYTVRASTNYKNFPNIE
+FGYNALINKYSGSTFYTDKPFARLDYYFLKSFSFVSEYEFYHYYNADKTVDNEYDFLSAS
+LIYQKKDSKWEYKIAATNLLNTKYLNDDSFSQFSTRVSQYTVQPRYIIFSMKYNL
+>tr|A0A1S1JB00|A0A1S1JB00_9FLAO
+MRLLFSCLFLVSFFNSFAQEVKPEVKPEVKPVVKIDSLYREDQFYFSVTYNLLTQVPQGL
+KQNKFSVGLSAGFLRDMPINKSRTVAIATGLGLSYQNYNQNLTIAKDADGKLTYEVTDYN
+DIKSNRYKQYMVDLPIEFRWRNSTYESYRFWRIYGGFKLSYVFSNKSLLDTGEESHKISN
+NPDINRLQYSVYMAVGYNTWNLYLNYGLNPLFKNVTTVSGQNINVRTLNAGLIFYIL
+>tr|A0A1S1JC69|A0A1S1JC69_9FLAO
+MDFQNNQFSKIESLESKKTTFIVKFLGAVIFIGTVLGIIYLEVIIIESKLSVEFKICSAI
+LSVILLSFLVYFVVKDTIIHKKNKITKVIVDQNGLHHYKDEIAIESLTFESLCPTPDLKN
+YDIVLSVGEDTAHDICVYYFDNSRNAIMHKAITFNTPFSIRNAKELKRHFIKGVLKFRSD
+LKVSPKVLDFLNLKS
+>tr|A0A1S1JCC9|A0A1S1JCC9_9FLAO
+MKVKEQGLYLPEFEHDNCGAGFICNLNGIKSNDIIHKALDILIKLEHRGAVSSDGRTGDG
+AGILFDIPHDFFKKVCDFEIPETREYAVGMVFLPKSKNQVSFCMNAFESTIKDQNLKILG
+WRDVPVEVENLGQIAAEKEPTVKQVFVSKNGQDLTENEFNAKLFAARKIAEHAIRGSKTS
+ESHMFYFSSLSTTTIIYKGLLMPEDISRYYVDLKDPDLVTRLALVHQRFSTNTFPSWDLA
+QPFRYMCHNGEINTLRGNVSRMRAREELMQSKIFGDDIKKLFPIILEGKSDSASMDMVVE
+LLLMTGRSLPEAMMMVVPEAWEKHQTMSPEKKAFYEFNACIMEPWDGPASIPFTDGNVIG
+ALLDRNGLRPSRYTLTKSGFVIMSSEIGVLDIDPEDVIQHGRLEPGKMFLVDMNEGRIIE
+DDEVKKSIVTKRPYKEWIDANLLPLSKIPYTNNPTPVEKLDFLTRQKLFGYTIEDLKTII
+NPMGGQGAEAISSMGNDTPLAVLSDQPQLLYNYFKQLFAQVTNPPLDGIREEIITDISLA
+IGGDFNIFEIESKQCKKLKIQNPVISNEDLDKIRNIDHVDFKSATISTLYKIEKGVNGLE
+RALERCVEATFKAVSEGCNVIILSDRGVSEELAPIPMLLACSYIHHSLNILQVRSKFGII
+IESAEPREPHHFALLFGYGASAINPYMVNEIIHDQVNQGFIKGVKADYAIVNYNKAIAKG
+IVKIMNKIGISTLHSYRAAQIFEILGLNKTFTSKYFPYTPSRIEGIGLMEVEKEVKKRFQ
+KAFPNSKIANLLSLEIGGIYRWRRGGEKHMFNPTTISKLQQAVRLNSPESYKEYSNMVNE
+QSSNLMTIRGLFEFNNLDPISIDEVESWTEIVKKFKTGAMSYGSISREAHENLAIAMNRI
+GGKSNSGEGGEDPKRFQKEINGDSRNSAIKQVASGRFGVSINYLTNAKEIQIKMAQGAKP
+GEGGQLPGEKVVPWIAETRNSTPYVGLISPPPHHDIYSIEDLSQLIYDLKNANREARVNV
+KLVSEVGVGTIAAGVAKAKADVILISGYDGGTGAAPLTSLQHTGIPWELGLAEAQQTLIL
+NDLRSRVVLECDGQLKTGRDVAIAALLGAEEFGFATAPLVASGCIMMRACHLNTCPVGIA
+TQDPELRKNFKGTPEHVINFMYFIAEELREIMAQLGFRTLKEMVGQSQKLNVNKAIQHYK
+ANGLDLSSILYKPEKAKTVPNHNTTQQDHQLENVLDFDIIKEAIPSIYRKEKTRVTFKIK
+NTDRSVGAILSNEISKIYGAQGLPDDTILVDFEGSAGQSFGAFATNGLSFKIHGNCNDYL
+GKGLSGGKLIVKVPPTATFKPEENIIIGNVALYGAITGEAYINGIAGERFCVRNSGATAV
+VEGIGDHGCEYMTGGTVVVLGKTGRNFAAGMSGGVAYVYDPNQQFDARVCNMEMVAFDPI
+EDEDVRKLRKLIKNHSLYTNSPLAKRILADWENEQQNFVKVMPTDYKKALQRIAEEKKIE
+ELIAG
+>tr|A0A1S1IYP9|A0A1S1IYP9_9FLAO
+MLIAENLTKKYGDHIALNKLNLTIKEGEIFALLGQNGAGKTTTINLFLGFIAPTDGELKI
+NDISVIGNAQETKKYVAYIPETVMLYPNLTGLENLKFFSSLAGFKYSQGELTYFLSKAGL
+QIKAHHQNLGGYSKGMRQKVGIAIAIAKKAKVLLLDEPTSGLDPKASNEFSQILKELSAD
+GTAILMATHDIFRAREVASHIGIMRQGNLVTVIEADKISANELEDLYLQTV
+>tr|A0A1S1J125|A0A1S1J125_9FLAO
+MKKVSILVPESSVLQAIADPQYLFSAVNQFMTASGKKLLFDVQLVGLEKEVKLNNGLYSV
+NTSQLTKDITATDLIVIPALFGDMKAAIAQNQGLLPWISEQYHKGAEIASLCVGAFLLAS
+TGLLNGKKCSTHWGFQNEFREMFPEVEVIDGSIITEEHRLYSSGGAHSYWNLLLHLVEKY
+TDRETAILASKYFAIDIDRDSQASFAMFQGQKNHNDDAIKQVQNFIEDNIQEKITIDELA
+EMVLLGRRSFERRFKTATNNSVLEYINRVKIEYAKKSFETSRKNINEVMYDVGYTDTKAF
+RTIFKKVTGLNPLEYRNKYNKMAVS
+>tr|A0A1S1J2W7|A0A1S1J2W7_9FLAO
+MFTWNEGDLNKEQEDAIYEKNSIILIACPGSGKTRTLTYKIAYELSRLESEKQYIIAITY
+TNAAADEIKERVELLGVNINQLWIGTIHSFCLEWILRPYSLYINELKEGFRILNSHESEE
+IISTLCVPYKKQKITHYQCNYIAKKGQFIPTSCTQAQKTIVNSILNDYFKILRKNKQIDF
+EQILFYSDRLLKEKKIISSILSKIFPFILIDEYQDTKEIQYDIVSSILSANKGNSKVLIV
+GDPNQSIYESLGGFAMSKNDLEDLLNFPLVKYSLSQNYRSSTRIINYFDYYKTFDNQIIP
+SGEDKEYKSVITFNPTIGKENIVNEIVRLILFNINEKGVSPNEICIVAPQWIHLASLSRN
+LMIKLPDYSFDGPGLAPFSRDIDNFWYKLSKIVLTEPSPNLYVRRLRWSKEILENFYNAG
+ADISISNKNFLKLCNSISFDEENGLEYLKLAFAEICSVLKVEIKLFLTLQEHYDSFFNSS
+AKRIERLINDGNEFIGSIENFRKVFKQREGITVSTIHGVKGEEYDTMIGFALLNDYVPHF
+TDENGLINSKKMLYVLASRARKNLHLISERGRDVHDYYSPTGKLPTSHLTEYGFNYD
+>tr|A0A1S1J6K4|A0A1S1J6K4_9FLAO
+MKFKNIFKNKSNMTTENTEFDQELDDVTLENNANGEQLIVEELSVEEQLAQDLAKEKDKF
+LRLFAEFENYKKRTSKERIDLFKTANQDVLLAMLPVLDDFDRAIVEINKSEDETLTKGVE
+LIHEKLKNTLVSKGLEQVELKAGDAFDADFAEAITQIPAPSEKLKGKIVDVIEKGYKLGD
+KIIRFPKVVIGN
+>tr|A0A1S1J2Z0|A0A1S1J2Z0_9FLAO
+MKIVIINYGAGNIQSIMFAVERLGFKAVLSNDPDKIQKADKVIFPGVGEASSAMTKLKES
+GLDRLIPNLKQPVLGICLGMQLMCNATEEGNTEGLGIFDVDVIKFTSNVKVPQMGWNQIY
+NLKSNLFKDIAENEFMYLVHSFYAPNCQYMIATTNYDVEYASALQKDNFYGTQFHPEKSG
+DVGEKILENFLKLND
+>tr|A0A1S1J4T8|A0A1S1J4T8_9FLAO
+MKKVYIFLLLGFLSIKCHSQESNCEKFKTGKFLYTSEGLPDTFITRTETTQIETIKESKD
+EIQGKIIWKSNCNYEFTFTKCQRPYFLGKTIAVEIFEINGNTSKGKALFEGMTLDFKIEK
+LN
+>tr|A0A1S1JAK5|A0A1S1JAK5_9FLAO
+MKTLLYKNTKISYSDSGTGNAIVFLHGFLENKKMWKDYVDFFSEKYRVITIDLLGHGESD
+SLGYVHTMEDNANAVQEVLNHLKIEKTTVVGHSMGGYVGLAFAELFPKNIQKLVLLNSTS
+KEDSPERKLNRTRAIKAVKQNYVTFVSLAIGNLFSENNRIRLTEEIEKVKTQALLTPLQG
+IIASLEGMKVRKDREALLQQNLFPVLLILGKKDPVLDYEDSRTQIDDTTAALISFEDGHM
+SHIENKEELKTVLSQFFS
+>tr|A0A1S1J2C8|A0A1S1J2C8_9FLAO
+MSKVAIIMGSISDMPVMQDAIDILKQFNVEVEVDIVSAHRTPEKLFDFSKNAHTRGISVI
+IAGAGGAAHLPGMVASMSPLPVIGVPVKSSNSIDGWDSVLSILQMPGGVPVATVALNGAK
+NAGILAAQIIGSHDKKVLDTIISYKEELKAAVNKAAEGLKK
+>tr|A0A1S1J666|A0A1S1J666_9FLAO
+MKTIKTTLLLSCIALSLLSCNKEDEVTQPNKEALTVSQDVLDKINSLALNTNDVQVIKNT
+KLDGTTEDAYLVEGDIIITDAQLKQMDLHGGITSEQYRTTNLVGAPRTIKIVGLTGTGTT
+ALSANMQAGLRAAVNRYNSLGLTINFTLTFGSSTTGANIVVRRQSGGAGGVAGFPTGGNP
+YNSVTLYSGLDTYSVNVNAHVAAHEIGHCIGLRHTDYFSRQSCGQNSNEGAAGVGAIHIP
+GTPTGYDSTSYMRACFSSNETGAFNSNDITALNYLY
+>tr|A0A1S1J260|A0A1S1J260_9FLAO
+MIVLKCIAVDDEPLALKLVETFIEQTPFLQLVQSCDNAIEAMSLIREQQPDIIFLDINMP
+NLSGMELARLLQEQQGTLPKIIFTTAYNHYAIEGYRVNAVDYLLKPFSYEEFLRAAGKVL
+QLTEEASGQFQSITADDDDFIFLKVEYQWVRISLKDILYIESLKDYVKVHLENSPKGLMS
+LISLKALEEKLPSLKFMRINRSFIVALDKINSISKNSIFINKTEITVGEQYKETFKTIVD
+KWLK
+>tr|A0A1S1JFL7|A0A1S1JFL7_9FLAO
+MKLKTAKFLNFIILSIVLLGCERDLSNEDKEVKVTAPFKSNSLNLKGLPADIRDYITPDT
+NNNTARSGESGNDLQDAIFATQDIVKTTDSENVTNYSISFIYEDSPENVFYNLVINVLPT
+GEQSQYILKYTCNPADFPNFKSHNFDFNYFRGATEMGVVTQNTGSFTGKSNSGDDPCPKI
+FIPPAGSGSNTGAVGGAVGGGGGTPSTSSGFNTTVAGYNVSASSSGGIYSVSVGTTTYYS
+GGGTTIIGGVTPGANGASGANYFYYFRPLVKAPGTSKKASDCPDQTPPAGYVPVSTASEA
+IAVIKTKIKISKAQMIYLMNTPEALNLVYSLVYNNPSEEDKNFALAMIDALKEGSVVDLK
+YRVILDPTFSDNKCLMGVYTQLGGSATFQNYLKKFDGDFSLANLTLSVGIDPKHPNASAV
+TYQPKNGLIEIKFNPEKLNTPALNIAKNFAHEILHAEMFEKLLALSGKKEIPWSAEFIES
+IRDDEPKIAEYYTMYLYDIPIGGSISDPQHEYMAQLSIKTIKDILKQYDNTQAEDLYTAI
+AWWGLMGKDEPNEITGLPPQPTAAWVNMPKVERLRLIDIYINFKNANTPCQQ
+>tr|A0A1S1J059|A0A1S1J059_9FLAO
+MLLFPLLASAQPAHGKKVVGYYAQWAIYARDFNVPKIDGSKITHLNYSFYGTTFDPARPE
+NTKLKCLDTYADYEHTEGGIPWDAPVKGNFYDLKKLKEKYPHLKILISVGGWTKGQDLSP
+IAASPVARAALAADMANFIVTYPFIDGFDIDWEYPLMGGTDGTEIVNGIPVPPQKYHPDD
+NKNLVLLLKAMRQAMPNKLVTIAAGNNVRNVPKQYLGPNNRATYGMTEDISTYCDYITYF
+GYDFGGNWYDKTCYNAPLYGSGNPNDPLYGATQSESLDELTNIYLNVVGFPANKLIMGLP
+FYGKKFDNVANNGTNPNFPGLFVAAPRYNVAGCTNPQNPTGTWDGPAACEKSGSIEICGL
+VGNPVTNSHAFLDPNTMLVTPTAAAAGWVRYFDNTTKVPYLYNSSLKQFISYEDKQSMDL
+KVQYIKSKNLAGGMIWELSQDTRGSIPNSLLTQVDTSFKSIVEGTVSIGGSVKNGTALVT
+NVTVEIRNASNVVLESVVSPTGNFTFYNLPKNQNYTLTAIKSAYTFTPVSLTNVAADQTG
+VVIQGTQPLYTVSGTIVVGTSTTPVSGVTVTATSGTTVLTAVSGTNGTYSITGLTAGLNF
+TVTAAKTGFPYTPAVTTYNAIDSNKTLNFAQGDPIVYYNVSGTILNGTTPAVGVTVTATS
+AGPTVAAVSTASGYSLSLPSGGNYTITAAAAGKTYTPASTVYSNLIAHKTLNLTEYNVGT
+NKISGTVKNGTVPVAGAKVEIVLPWTDNTHGWKSVLATTDAQGNYSFANSVVDGYTTVSS
+LKLNAWQNNDVNYFPNNLTSFAVPATPTVYNFNTAATARTSSYAMSGKVLNGTTPVSGAV
+VSAVSGTTVLTATTDRNGAYTFAGLTSGSDYKVSVAKTNLTFAPVSAVSTTESGNKTLDF
+TQNLVSANLISGTVKNGTAPVANAKVELIVPWTDNTHPWKSVLATTDAQGNFSYDNTVTA
+GYAQVLSLKLNSWQNGEVSYFPNNLANFAMPTTPTVYNFNRNAVTPPQVTITAPSAATVA
+IAPGTAIQLKATASVDASLTISSVVFNINGQNITAALSGTEYVANWTPVLADFNKNYTLK
+AIVTASSGATAENTKAFALQCSGTNCPNSLPVITWNAPVNTTINQPSFQVVPISVTAVDS
+DGSVSGVTITINGSTFNMTAGTNNTYTYNFTPSAHQAYPVVIKATDNKAAVTTLNNTINI
+TNNARVFIPLPSTNIILGYAHSWENAGAPFLYFSQMVGSKFNVVDYAFVETVNRDGYTPV
+LTTNDARYLTNGVFNKQLLKNDIKSLRDSGVPVIVSIGGQNGHVVLENVTQKNIFVNGLK
+AIIDEYQFDGVDIDFEGGSMNFSAGGLRDISYAGISAYPRLKNVVDAFKELKAHYGPGFL
+LTAAPETQYVQGGYSTYNDTFGSFLPIIQNLRNELDLLAVQLYNTGGENGLDGQYYGSAK
+KANMVTALTDMIIKGYNIGTTGMRFDGLPPSKVLIALPACPSAAGSGFLTPTEGINAMHY
+LRTGTTFSGRTYTMQPGGPYPALRGLMTWSVNWDFSSCGNSAELSKAYAAYFAGQTAARA
+LPEGIETKSTTIAYFKNDALLVTTDSGDIAQVEVFNTIGQPLVSHRNVHQNKEVVLHNYS
+FTTKQLFLVVVTDKAGNKKSFKVMNFLN
+>tr|A0A1S1J245|A0A1S1J245_9FLAO
+MQNQSKDPLHGITLQKIVEALVEYYGFDTLAELIPIKCFISNPSVKSSLTFLRKTDWARK
+KVEDLYVKSLPKLAK
+>tr|A0A1S1J2M9|A0A1S1J2M9_9FLAO
+MPYKQLGAYIRSRIAVSDKDLNIILSHFKPVQRDKNDLLLSAGQTSQNSYFVDKGCLRIY
+YINEEGKDVTRYIAFENQFATALVSFITKMPSTEYIQVIEKSELLYISHEDFNHLMEIVP
+QWREFYCSYLEKAYVNNTNRLMSFTTMAALERYTQLLKINPAIVKRLPNKIVASYINISQ
+ETLSRLKSKVLI
+>tr|A0A1S1J336|A0A1S1J336_9FLAO
+MEDFLIGIGKRLKEIRKKNALTIHEVANRAGVSNGLISRIENGRTIPSLPVLIELIQSLN
+TDVSYFFEGVENTKNAKYIHIKKEDYQKIEKEDRAETTGFNYYHIFSKSINSIGFEAVIL
+DVEPNCKREKVITDAWEFKYIIKGSVTYIIDDAEVVVNEGDSLCFNGRHPHVPQNRTTEN
+CVMLVLYFYSESNS
+>tr|A0A1S1J618|A0A1S1J618_9FLAO
+MKKNLGLLVAVFAITINSFANLKPEDPSLVWFKKTTETIRFQLNKAAQTYKPGKNPRSVN
+PDGTVRLAGLTDWTTGFFPGSLWYGYELTGDKALADEAKKFTLALDSIRNIKNTHDVGFM
+LYCSYGNAYRITGDKTYLPALADGAANLYARFSPTVGAIRSWDFEWLHYPVIIDNMMNLE
+YLYWSANAFNKPEYATAANTHALTTIKNHFRKDFSSYHLVDYDPKTGKVLRKGTHQGVTD
+DSAWARGQAWGLYGYTMCYANTKKPKFLQQAENIAAFIMNHPRMPKDKIPVWDFDVHNAM
+DTAELAPRDASAAAVIASALLDLSTQVKDGKKYANYAEAILKSLSSDAYLAKPGENNYFL
+LKHSVGAFLYNSEIDTPLDYADYYYLEALKRYASLKKIEI
+>tr|A0A1S1J6N2|A0A1S1J6N2_9FLAO
+MKVFRIEREKYLSTTLAGIGASMSEGFRWNSLNTRMVYTAESRALATLEVSVHLDLSEDL
+PLDRFYVEIEIPDEITIQEVRLEDLPEDWNSKPPILITQTIGDDFIDYNEAAILKVPSCI
+VPQEFNYLINPAHPDSKKIKVVSTTRMNFDSRFKTS
+>tr|A0A1S1J7Z8|A0A1S1J7Z8_9FLAO
+MQHIIDRFVSYVTIDTESDPNSKTTPSTEKQWNLANKLVEELKTIGLSDVTIDDKAYIMA
+TLPSNVDHEVPTIGFVSHFDTSPDFSGANVKPQIVENYDGKDIVLNAEKNIVLSPNYFKD
+LLQYKGQTIITTDGTTLLGADDKAGITEIVSAMEYLIQHPEIKHGKIRIGFTPDEEIGRG
+AHHFDVKKFGAAWAYTMDGSQIGELEYENFNAAGAKITFKGKSVHPGYAKGKMINSMLIA
+NDFINELPKGETPQETKGYEGFFHVHHLTGSIEETVLELIIRDHNKKKFEKRKDLIAKIA
+KKINKKFAKKFGEDIVIAEVKDQYYNMKEKVLPVKHIVNIAEKAMKELNIKPIIKPIRGG
+TDGSQLSFMGLPCPNIFAGGHNFHGKYEYVPAESMQKATDVIVKIAELTAIPGIFDVPEK
+TKRKK
+>tr|A0A1S1J839|A0A1S1J839_9FLAO
+MTQNIYLLAFGTFGNPYGFRQTFFKMGNENVAKSIKTFDLNTNAIKLFENSSLYAIRKES
+ANGLNSISYSKYSFAKEKNSDRGGTFIGASILFTNEIAEENVTINKLNEFHKILVSKNIE
+DKTLMVNHSDNFTVDLPQDYDKLSYNLKSFNEPSSFYVSNSNLVVYSKINIDKLQHNFKK
+SLELLNRFDTIFFTDNEEIANFSHSKGLYRTTNEEGFDNEIQIAKEEKKKQLQLILNDYE
+KEISELEENKIISIKKLKESIEQNVRLHQENGRKIEESKKQITATENKYAEFSKKIREAI
+NFIKSNRKIDEVKSFHQENKREFLNFINENTKPQYLNQLNNVQPKTNITTQYASGYDFLQ
+PNDTFQTRRSEKTRKTYKIFKPLSILFFTLWILTLLYFLFSVEILEMLRMN
+>tr|A0A1S1JCM0|A0A1S1JCM0_9FLAO
+MKLTSELKLLIILTFFVFLGCNSKNKENVISINEIKKEQVKFEIDSLEVKDRKGLLYTIK
+YYKDSIYVNQGRHNIIRIAYPNRFDNVFPINGLIANDKSTNVYITNNHILLLPLSEVNNR
+INLIAIDLVNKKEINYQFKQRSDIITTGINSFYFNEKSNIIISANSLNYEGKTTVHYYKI
+GKNLIKHQGTKELNLTPEMLENNETLLKFLNTDNNNIP
+>tr|A0A1S1JFE8|A0A1S1JFE8_9FLAO
+MATINISNDVETRLKDFFKDFIEPKDMARMLRQVNYALSVSSMRGCETMESELPYIDDNF
+YWLNKLAEILDPYLDVE
+>tr|A0A1S1J2B2|A0A1S1J2B2_9FLAO
+MLNKIIQFSVKNKLVIGIFTLLWIIYGVFEVTRLPIDAVPDITNNQVQIITTAPSLGAED
+VERLITFPIEQAISNIPQLKESRSISRFGLSLVTIVFADDTDVYWARQQVAERLQKVEIA
+ENASIPEMAPATTGLGEIYQYVLKPQPGYETKYSLEDLRTIQDWTIRRQLLGTPGIADVA
+TFGGKLKQYEVAVNPSRLKAQNLTIKEVFTALNSNNENTGGAYIEKGPTVLYIRSVGLTR
+NIKDIQNIIVKNTQAGTPILIKDIAEVKMSSAIRYGALTTDDIGESVGGIVMMLKGENAN
+NVIVKVKKRVAEIEKILPKGLKIEPFLDRTKMVDNAIGTVEKNLIEGALIVVLVLVLFLG
+NLRAGFIVASVIPLAMLFAIIMMNTFGVSGNLMSLGALDFGLIVDGAVIIVEAILHHIHS
+SKKYKEIDSISQEEMDKEVTGSAGRMMNAAVFGQIIILIVYLPILSLEGIEGKMFKPMAQ
+TVAFAILGAFILSLTYVPMVSALFISKKINHKPNLSDRIMTNLESYYERVLSRALQVRKG
+IVISAFVLFGIALLLFSRMGGEFIPQLEEGDFAVETRLLLGTNLSTTTATIEKISTALKN
+SYPEVEKVVSRIGSAEIPTDPMPIEGGDMIIVLKDKSEWTSASSFPELADQMTQTVKEVA
+PGVTTGFQFPVQMRFNELMTGAKQDLVCKIYGEDLNKLAQYAEQLGTISTTVEGATDLYV
+EKVTGMPQIVIDYDWAEMAKYGIYVSDINQTVNAAFAGAVAGSIYEGEKKFDMVVRVEAN
+GRKDIEDVRNLLIATRSGMQIPLYQVASVKEVEGPNQIQREDAKRRIIVGFNVRGRDVES
+IVEELQKKVNSQIKFAPGYYITYGGTFENLQQAKSRLGIAVPAALFMILALLYFAFRSFK
+EGIIIFTAIPLSAIGGVFGLALRDMPFSISAGVGFIALFGVAVLNGIVLISEFNRIQKQG
+EITDPLQIIITGTKNRLRPVLMTAAVASLGFLPMALSNGAGAEVQRPLATVVIGGLITAT
+LLTLFVLPAIYLMTYHTKVFSKKNKKHKMDKLTLLVLALFLTASVQAQDASISLEESLSI
+AMQHNRRIKSSQLNERSKEQLEKSAFDIPKTAFTADYGQFNSAVNDTRFGISQTFAFPTV
+YTNQKKVLIEHHNAAKAESQLTVQQVKSNVRNLFYYYIWLNSKKELLTYADSIYRLMEQK
+SELRYKTGEANVLEKTASQSARQFYMNQLAMVNKDIAITLKTFNTVLQDSMVHVPASETV
+KNDFMVSLHQNKDTAELPQVQLSMYEAEAAKWRWRTEQSKILPDITIGYNNLSIIGTQTS
+TVGQEVYYNGSQRFNYVNFGLSVPLFLGSQSARNKAAKVDYEAYKMQAETTKIELKTEIV
+NAVNEIEKYKESLSYYENEGLKNATIIIDTANSQLENGDIDYLQWVLVVNQAITIKNEYL
+DRINDYNKAVINWQTLNNL
+>tr|A0A1S1J2H3|A0A1S1J2H3_9FLAO
+MTPNFFKPFMSTGLHILAWVLLGYMQLFYIPLTWNIVLPHIFWIWQTIVLLFMLAIFYYN
+AKVIVPKTIIKDKIGPFLLWILLIIFIMQLASYFYNLNTDLHNKLAALIRFKRYRNTYFD
+NYIFSLTLLVLAISTSYAMLLHWQRAAQHKQKLEQDKTMTELAMLKAQINPHFFFNSLNS
+IYSLTYTNIEDSRNALHTLSRMMRYLLYSTEGERTTLLKEVAFMKDFIALMKLRANSKLT
+ITGDIPEKIQDYPIVPMLLLPLVENAFKHGVHATDKSEIHFALKQNGTLLEFEVENTFFE
+KTTPTEQGGIGLTNTKRRLHLIYPDKHSLTAGIDPNGKYKVNLQITLEQ
+>tr|A0A1S1J525|A0A1S1J525_9FLAO
+MFSNTKMHFEISERKVLLLLFDVVFILSALYLLSLVFHYNYFVFDKKNFPSILLLLTYVY
+AFGIIFEMYNLQVASNQLQILQSVIFTATTSSLAYLFTPILAPVLPKQRLIIVIFYFTIL
+VTLLLWRLFYVYFLASHRFSQNVVLICDQNQVEELVLGLENVDPHYKIIGFVNSDAISEE
+DSNFHYVKEVKKKDLEEFVVRNQVSEIVIASQKTDGITADLYQQLLHLLESGNIIREYTQ
+VYESKTQRIPVHYIARDFYRFFPFSRNNSNKLYLFFVRFIELLFSITGLLICFLFIPVIL
+VTNLLANKGTLFYTQERVGKNGVVFKIYKFRTMVENSESNGIVFATSNDKRITPFGKMMR
+KSRIDELPQFFNILKGDMAVIGPRPERPFFVDEIARIMPFYETRHVIKPGLTGWAQVNYS
+YGESIEESLIKLQYDLYYIKHRSIFLDLSITFKTITTVLFYRGQ
+>tr|A0A1S1J8M4|A0A1S1J8M4_9FLAO
+MKKYILLCTTVVSVFLSNSFAQQGKIVSGDKKYDNYAYIDAIKTYQRVAEKGYKSEDLFK
+KLGNSFYFNSEFEKAAKWYGELFAQNTEVEPEYYYRYAQSLKSTGDTAKANQMMDLFRQK
+SKNDSRAKLYETDKNYLDKIKANSGRYTIENAGINSKYSDYGTAFYQHKIIFASARDTGN
+FSQRIHKWTGEHFTNLYQSDIDENFNPNAPKKFKSKINTKFHESTPVFTKDGKTVYFTRN
+NYINGKKGKNESKITLVKIYKATFENGEWTNITELPFDSNNYSTAHPALSPDEKTLYFAS
+DMPGSIGQSDLYKVSINSNGEFGIPENLGPGVNTEGKESFPYINDQNEIYFASDGHPGLG
+GLDVFVGKLSNTGVSNVQNLGADINSPKDDFAYIIDTKSKKGFFSSNKDGGKGSDDIYQF
+LERIPLTCVQELYGTITDLATGEVLPQTKLSLYSDSNKVIATTNSDSNGSYTFPVECGAT
+YFLRAEKEKYYTKEESITISNKNGRTNLSIALEKSDCLVTIGDDLGKCFGIKMIYFDLDK
+SNIRTEAALDLEKILDVLNQYPNMKLDIRSHTDSRATFKYNEALSDRRAKSTIQWLIKNG
+IAPQRLTGKGYGETELVNKCSDGVPCTEEEHQMNRRSEFIITAL
+>tr|A0A1S1J9W9|A0A1S1J9W9_9FLAO
+MRKILLLFLILSCFQIKAQCIQSIAAGYNHNIIIKPDGTMWAWGNNGNGQLGDGTTTQKN
+APVKIGTSNDWKTVSAGWGHTVAMKADGTLWAWGYGSLGQIGNGPGTVTGYNAVQQIGSA
+KDWQSISAGGNYTMAIKTNGTLWAWGYNSTGQLGDGTTVNKNTPIQIGTDTDWQTVAAGG
+EHTIALKKDGSLWAWGENSKGALGDGTLISKTIPTKVGTANDWKTISSGYSHSIALKTNG
+TLWAWGENINGGVGDGTSLNKNLPTQIGTSTNWKSISAGWNASYAIQTDNSLWAWGENLF
+GKLGNGTTVGSNTPIQVGTTTKWSLILAGNYHTVAVDKGGDISTWGRNQSGPLGDNTTID
+KKVPTKIDCPSSLTITTSFTAITCTGYANGSASVTAVSGGTMPYSYLWSNGYTTSTITGL
+HPGNYTCTVSDATSSVSKTITITEPIPIAVNATATSVCNAKNDGIITAMATGGTQPYQYA
+MYPAMNFQSSNIFSNLSAGTYSIIAKDAKGCTTNPYTITINSSATAAPTANAQSFKSGAT
+IASLQATGSNLKWYSSAIIQSNLNLSTSLQTGKYYVSQTVNGCESTRTVVDVTVIPALID
+GQVPTNGLIAYFPFNGNANDLSGNGSNGTVTGATLTSDRFGNSNTAYSFDGTNSYIDAVL
+PNIPKNNSSRTISGWFKTNDAFSDPNKYQVSIFNYGTLAKLQRLSLSVYSKGYLEAITGS
+DFSNDDFYVNNFNYSNNDWYFFTVTYDGTQLSIYVNGKFVDQKAVNLNTVGTLFRIGQRI
+SGDNTKEGFKGTIDDIAIWDRVLTPEEISALYTPENAENYTLIPDPNFEQKLIDSGIDNG
+AIDGKVLTSKISNVKILNVTNRNISDLTGIENFVSLTDLYCGQNSLSALNVSKNKALTTL
+DCNNNKITSLDVSNNTALLNLSCYANRLTSLDVKVNTALLKLDSGSNQYTSLDVSTNTAL
+TFLGCNTSQLTSIDVSRNTALTLLDCRENKITNLDVSKLTTLTELYCQSNQLKDLNISKN
+KSLEFLNASKNQITTLDLSINTALVGLYAHTNQLTSLNLKNGNNINFQLPFLNITNNPNL
+SCIQVDDKAYSDTNWAAKKDTIASYNTNCISGFAQIPDQNFEQKLIDLGIDTDGLNGKIS
+VANISTITSLDLSNSTIKDLSGIENFTALTFLDCSNNQLRALDVSRNLALETLNASTNQI
+TTLDFSKNSKLKIVYVANNPLLSLNLQNGNNRNFVLASPTDKKTASLYTSFLGLKTLGCI
+QVDDATYSNANWSRIKEPNTIYSNSCKNLGIEDSVFDKITMYPNPTTGEVNINNIALEKA
+TVYNSLGQLVKTFTLKSSDTNNTINLSDLPKGVYYVYLIHQDAASAKKVILK
+>tr|A0A1S1JBP3|A0A1S1JBP3_9FLAO
+MNFTYPKNERLKSKTTITLLFSEGKSVSKYPLRLVYAPAEENSPEKIKIGVSVSKKYFKK
+AVDRNYFKRVLRETYRLNKHLLLDNISQPYSLMFFYQTKDRLSYDEINTKTIQLFEKFLQ
+QVNKTPDSENKTEL
+>tr|A0A1S1JCX4|A0A1S1JCX4_9FLAO
+MGSKNKLKRFRENETFQNVFQPTREEVVGDLMPLKGKWNSDFFKNDNPLVLELGCGKGEY
+SVGLAERYPNKNFIGIDIKGARFWRGAKTAVENGLHNVAFVRTQIELINHIFADNEVDEI
+WITFPDPQIKYKRTKHRMTNSEFLKLYKRILKKDGVVNLKTDSEFMHGYTLGLLHGEGHE
+VLYANHNVYKNEGSPEEVTAFQTFYEKQYLEINKAITYIRFKIKD
+>tr|A0A1S1J5S9|A0A1S1J5S9_9FLAO
+MSNRRIWLKQIGLGTIGLGLYPFETFANGTTEPIISYTDNSPILLRSNENPYGPSPKARE
+AMAKSINISNRYGWNLSPELITLLAKKNTVSENNILLGAGSTEILDLILQYTALQRGNFI
+IAETTFDYWTAPAEKLGIKKIAVPLTKDKKHDLPAMLNAIDNDTKMVYICNPNNPTGTLS
+QREELISFIKEATQKTLVFVDEAYIDFTDERSLSDLVVTNKNLIITKTFSKMYGLAGARI
+GYALAHAATIEELSILKSSPNLSVSVVSIAAAIASLNDESFIRQVRTSNEEVKKYTITQL
+SLLNLTCIPSYSNFIYFSLENYKKDYFQQLKDHNISGTRIYEENGKWTRITIGTMKEMQR
+FIQALK
+>tr|A0A1S1J7Y8|A0A1S1J7Y8_9FLAO
+MIEIAPNFKIANKWFLYALSEFENNLIPSTIYENYLFNNSDAKINEFIEVHYENLFKDFN
+KFIKNANFKKEEDYFVNFFIKIFKFNIKFNSLKIIISRVLDIGGNIPISIWFDFLNKFSE
+KEELKYLITNHTTYYRSNPRYLTSVLSKNSNKKGLLIIEILNSCNIEVNIIHYNSVLKNS
+QDYSFAINLYKTIKDKTILPDKFTFTHIINLSVTVENFFFIVMEMNNYKINFDEYLINSI
+RKKVNMFDKAYFIEYYKKDVSHVSIRWILDILN
+>tr|A0A1S1J3T2|A0A1S1J3T2_9FLAO
+MDKIVYILLRLGVGISMFGHGLVRLLKLNSFSNWLVIEFKKSVLPEFIVIPFSYALPFAE
+FLVGLLLLMGLFTRTALLTGAIIILLLLFGTSMIENWEAIPSQLIHLAFFCILLQYFEVN
+TLTLNKLFQKSKKYDQ
+>tr|A0A1S1J4U6|A0A1S1J4U6_9FLAO
+MKALTFSSFGNSDVLEYIETPNPSLKDDEILVEMRAIGLNFADVYRRKGNYHLKGTPPFI
+AGYEGAGIVIDPNNHPEYKVGDRVAFADVPFANAELVAVSINHVLPLPDTISFETAAAVL
+LQGLTAHYLATDSHKTEKDETVLIHAVAGGVGQILTQISKLLGAKVIGLTSSSEKAKVAF
+EQGADHVFLYNEDWKSQVFEMTPKGVDVVYDSIGSTLTESFEVTKECGQVVFFGMAGGDP
+AFVDPRMLMDGSKTLTGGDLWSYLNSKEERIKRATQLFQWISDGKIKLSEPTSFKLSEGK
+LAHDYLESRKSTGKIILIP
+>tr|A0A1S1J6T8|A0A1S1J6T8_9FLAO
+MNPILRNTLAVITGLFVGSIVNMAIILMSSSVIPPPHGADVTTMEGLKATMHLFEPKHFL
+FPFLAHAIGTFAGAGTTVLIAISNKTKLGLVIGAFFLLGGIVNVCSLPSPVWFTITDLFF
+AYIPTAYLAIKLFAKKDSKS
+>tr|A0A1S1J755|A0A1S1J755_9FLAO
+MNWIRKAVAFISLLIITFFATQANESVVDKSESKKTDTTFSIDYTDSLAFIQPQTGYHLV
+GNIKTNPSGLIKWFESLLVTVPQHQALNTASNFANQFSTQSKKVLLMLYPFHFFW
+>tr|A0A1S1J8I0|A0A1S1J8I0_9FLAO
+MKKITILFSILFLALSSCGVKTTQSMLSDGNYDGAIDRAVEALRTKKDSKGKQDYVYLLE
+EAFAKAKDRDLRSLELMIKEANPVNAERTYNTYMQLNNRQEKIRPLLPLQLLKQGRTATF
+QFDNYTNQIISSKIALTRYLYENASALLKSNNKLDFRKAYDDFSYLESISPNYKNTKKLM
+EDAQFKGTDFVDVYAKNETNMVIPKPLQDDLLDFKTYGLNDKWTVYHSLRQKGIVYDYSL
+IVNFVQINISPEQIKEKEFIKERQIKDGVKTLLDSRGRPVKDSLGREIKVDNYRMLRANV
+YEFRQFKSCQITAKVDYVDLKTNQLLQSFPVSSEFIFENIYSTYKGDRSACEDNYISYFN
+KRAVPFPNNEQMVFDTGEDLKERLKDIIVRNKFRR
+>tr|A0A1S1JAA4|A0A1S1JAA4_9FLAO
+MITHKNISLFFLFVLLLLLLLNLYTAINGAWFIAIVLIWLSINAVGSAVISSNYHVKAYC
+NNSSETQKKIAITFDDGPSIFTPEVLTLLKKYEVKATFFCIGKNIETHPEIVQQIIAEGH
+LVGNHSYSHSPFFDFYNAKKITTEIQKTDALLEKYTSKKINFFRPPYGVTTPSIRRALKR
+TSHKVIGWNIRSLDGGTTNQSLIFNRIIKRISPGGIVLLHDTGAHSVLVLEQFLQFLQQN
+NYKVISTEELLNLNAYEN
+>tr|A0A1S1JC34|A0A1S1JC34_9FLAO
+MGDHFFDIRTDKLYKRIAFFILFGVLLNLLLFFGTSHLENKITNRSFINSYVIYCTFLGL
+FHCCVYRKFIRNFLTMTIVFFFIGLAFCLFYFVMLTFSFGIEVFAFLAVLIIYLSIQIVT
+LRLCFNLKPTASLSFITILIFIAGFSITYIKKDFDLYYYGFSFICSVWCLNIIVSVSLFS
+DFVFDKNQKNTSKDGSNTGKINTENFQDYLTTTFGSKITFYESFNEFQIYEIDCFPENFE
+HKLAIEFSNENIKFSTVTKEPSVDFSLYDYVIETNKEAEDFIQHILKFGWPIK
+>tr|A0A1S1J0F9|A0A1S1J0F9_9FLAO
+MKKVLYFLTVGLILGLSSCSNDENLLNSESGSAAIKSSGSTSKSAVTDPSIGTTTTLNLT
+SSLLTSGTSTTGGKYWQNTYVASTNLTVDIFKFSHSGTSSGYNYWDGFIVSNVNDITNYG
+SGAGTGGSNGWVANQWGTMAGSGFGTSSTISAGTPGTTGDPYIVAYWSSYTDPKNPQGTT
+FSETSFSNWIKIGNTGLYNVKGLKINMHPWSYYGCLYGDGFAQAFSSGDHFELLIYGVDS
+SGTITAPITQSLADYTGGSLVMPTGWVNVNTTALQGLGDVKYLVFQMASTDSHPVYGMNT
+AAYFCLDKLSVKRIQ
+>tr|A0A1S1J8L3|A0A1S1J8L3_9FLAO
+MKVTFFTNFINHYQSNLADCFYDKLGDDFTFVATEPIDKSFKDYLSTDFADKKYLLQSYL
+NDSNYQKALLLGQESDIVIIGSAPDVFIKNRLELDKIVFRYSERWLKKSDYQILSPRSWW
+NIYNSHIKYRNHKYYMLASSAYTATDVSRFFSYPDKCYKWGYFPNVKEVDINAILESKQG
+KKIKLFWVARWIDWKHPELAVQLVVKLKKKGYDFVLEMAGDGQMKNEIVKLIEENNVSDC
+IKVLGNIKNDDILQKMKESNVFIFTSDRGEGWGVVANEAMSNGCTVVASHEIGSIPFLIK
+NGINGLVFESKKIDSLVGQVEKLINDRALCDDLARNAYHSMINTWNPKNAVNNFIQLAKS
+LISEKEVSIENGPCSVAKPISENAFLKQGL
+>tr|A0A1S1J1E5|A0A1S1J1E5_9FLAO
+MKKITIKDIATEAQVSISTVSFVINGKGEKMGISPAVIKKVQEVAEKLNYRPSMIATSLR
+TGKTRSIGLIVEDISNQFFADLARVIEDEAKSIDYRVFYCSTGGDDERSEELIHSLLQAN
+VDGFIVTPTQNLENSIDLLLKLKKPVVLIDRYFPGQRVSHVVMDNYEASNSAAKFLISKG
+RKNIAVVNNTSEMIQMKLREDGYRDALKEAEMYNPSLVLHMDYHTNEEARIAGIIDFFKK
+NPDIDAVLFLANYMGLAGLQAFRRMGIKIPEDISVISFDDHDSFKLHTPTISVIEQPIED
+IAVKSIQLLMSQMTDMEKFEVEKSLKKGKLIIRESV
+>tr|A0A1S1J442|A0A1S1J442_9FLAO
+MKTIGRYFLIAAMAVVMISCKDQENKPQNQVSDQKELIIKDSTAALEGTPVPNDEVCMVN
+DLHMGKKQIEVPFDGKMYYGCCNMCVERIPNDENVRKATDPHTGAKVDKASAYIVSLNKQ
+GNVAYFESEKSYQNFIQANKELKK
+>tr|A0A1S1J590|A0A1S1J590_9FLAO
+MNYQETTNWMFNQLPMYQLQGASAYKEDLTNIKLLAAHLGNPQDQLKCIHVAGTNGKGST
+SHMLASVLQEAGYKVGLYTSPHLKDFRERIKINGQEISENFVCQFVAKHKNFFEANDMSF
+FEMSVGLAFDYFASEKTDIAIIEVGLGGRLDATNIITPLVSVITNIDLDHTQFLGNTPAA
+IAGEKAGIIKPNVPVVIGEYTFETQPVFLAKAKLNEASIYFASDLITEVFPSDLIGDYQF
+HNKKTVQQTIHILNSQNEFKISDENLKNGLLYVVKNTGLQGRWQQLGENPKIICDTAHNQ
+HGLAVVMKQIQKESFENLHIVLGVVNDKDLDSILPLFPKNAQYYFCSPNSSRGLKTEILN
+QTAKKHHLIGENYDSVEHAFTAARKNASKNDFIYVGGSTFVVAELPLA
+>tr|A0A1S1J646|A0A1S1J646_9FLAO
+MRKVIFFFGALILLMSFKTLNNNGKGIFNTGFTSIQIDTLFQDKISIRAISIDKNKIWYG
+ADNSRFGFYDLDKKEKFEDHIYRDTLNLEFRSIAQNANNIFLLSVGNPALLYQVSKKTQK
+VKLVYKEVNSKVFYDSMQFWNDKEGIAIGDPTEDTFSIIVTRDGGETWTKILSDKLPTNA
+EGEAAFAASNSNIVIKGNDTWLVSGGKKARVFYSPDKGRTWKAVETPIVQGKTMTGIFTA
+DFYDSKHGFIAGGDYEFPEQKKDNKAFTTDGGKTWQLIGQGMGFGYASCVQYVPGGNGKE
+IICVGSEGIQYSQNGGENWTQLSTDTKLFTIRFLNRNTAIAAGHNKVIRIRFK
+>tr|A0A1S1J829|A0A1S1J829_9FLAO
+MDLVKEYNEKSHFKNANDIFEVLADVLMSGTIRSEYKNPHTIENKEEINSLMIKFLEDVL
+SNDLANTKKRKLSVINLLDEFNYRNEILHLMAVKNSSKGNELEKTSERMGRKFMSSVKE
+>tr|A0A1S1J9V3|A0A1S1J9V3_9FLAO
+MNVSLILIILLIGAFATYFVGDKLASKVALFFSLAALGCSIVLLNHFSAGENISLINTWI
+TQPKISFALNADGLGMAMLLLTVALTPIIIFSSFGNEYKNAKGFYALILFMAFAMTGTFL
+AADGLLYYIFWELALIPIYFIALIWGNGDAEERRKAVVKFFIYTLAGSLFMLVAFIYLYQ
+KAGSFLIEDLYKLNLSACEQLWIFLAFFLAYAIKIPIIPFHTWQANVYQKAPTVGTMLLS
+GIMLKMGLYSVIRWQLPLAPLAAKEYMNIFIALGIAGVIYGSIVALRQKDLKKLLAYSSL
+AHVGLIAAGTYTLTIDGLRGAVLQMIAHGFVVVGLFYAAEIIFRRYETREISQLGGIRTQ
+SPKFTSMFLILVLASVALPSTFNFVGEFTVLYSLSQINIWFAVLGGTTIILGAYYMLKMF
+QNVMLGETNSKTFADVSVNEGISLVAIIAVLIFFGFYPKPITDLITPSLETILNVINKN
+>tr|A0A1S1J4L6|A0A1S1J4L6_9FLAO
+MLIKKIEIMVYQECKNKKKAKKNTGAKEQCLEGLTIKTAVHVLGFKFDSIEDAKDKTKWN
+AAVAEKQIIPLYEVEELASANTEDTVFEGRRNQYITSTGKKVTTYNSFLSLCSHSALKTY
+HKADLGLFEFTEDGAIKGVINEDGTVKGQAIVMNVGKRIDPTSDRPASTQVTLNYKDYNE
+FEDDGAIFRPEGWGADDIFGIFDVTLKQVSATTSEIKFTATDGCSGGDEEITSFVGLNFL
+LRDTAGAVVTHSFVPAAPDGIYTLTGTGFTDGFTLTLKGVVTQTGTGTSYESPTPLIIKV
+TP
+>tr|A0A1S1J6E1|A0A1S1J6E1_9FLAO
+MSTNTLSKETELRLTDFFSNSIDPATMAKTIRQVNYALALSVMQEHESLQSEKTNLQNGF
+YWLNQLAEILNPYLDVE
+>tr|A0A1S1J7L8|A0A1S1J7L8_9FLAO
+MRKLRYPSSILLLIVLILISSCKKNETTESKSKVKKTIEYKKPKSISYHFENTKEWLKIN
+ASDSSKLHIAYALNRTDQKNFVKMDSVIIPADFTGDLVYYLPFPLHVAALEEVSKVILFS
+YPSQAFAAYENGELIYTGPTNMGRKKDPTPTGLFFTNWKAEKTTSTFNDEWDLKWNFNIE
+NKLGVGFHQYDLPGYPASHSCLRLQENDAKDLYKWADEWVLKDRENVEIKGTPVIVFGNY
+PFDAPKPWFALVKDPKALDLSESEIETQIRPFLKEILENQKLREAGQTPTP
+>tr|A0A1S1JB31|A0A1S1JB31_9FLAO
+MKYNIDTIAPESKFLFFWGHQPSKDGTITKTCFSQWWLSSFKVNGVTYKTAEHWMMAKKA
+ELFNDNEVLNKIIKANSPAEAKKLGRQVKNYDDAIWLENRFEIVKEGNYHKFSQNPDLKA
+FLLNTDERVIVEASPVDPIWGIGMAGDHKDVLNPAKWKGLNLLGFALMEVRDELK
+>tr|A0A1S1J923|A0A1S1J923_9FLAO
+MKKGVTVTILIFIAIVFFGALYYLYAKNQESPIVFKTEKAEIKTIVKNTIATGNIQPNEE
+VLIKPNISGIIEEVYIKAGEKIKAGDMIAKIRVVANVSNVSSTQNQVQTAKIALDNQEKI
+YQRQKTLFDKDVISANDFDAAQLAYKQAKQNYLAAKQSLDIVKTGTTTSLGNYANTLIRS
+TVNGMVLAVPVKVGNQVIESNNFNEGTTIASVADVGRMIFIGKIDESEVGKIKEKMPIEI
+TVGAIENKKFEAALTDIAPKGVVENGAIQFEIKAALVNRDATFIRAGLSANASIILEKAD
+KVLAIKESLVQFDKKTQKPYVEIETNPQKFQRKDLVLGVSDGIYVQVKSGIKASDKIKIW
+NQGLISEEKK
+>tr|A0A1S1JCZ6|A0A1S1JCZ6_9FLAO
+MKTLNDFDFKNKKAIIRVDFNVPLDENFNVTDATRIEAAKPTIDAILAQGGSVILMSHLG
+RPKGAEDKYSLKHILKTASEILGVQVKFAENCVGEVAKTAATNLQPGEVLLLENLRFHAE
+EEAGDVAFAKELASLGDIYVNDAFGTAHRAHASTTIIAQFFPTEKCFGTLLAKEIESLNK
+VLKNSEKPVTAVLGGSKVSSKITVIENILDKVDHMIIGGGMTFTFVKALGGKIGESICED
+DKQDLALEILRLAKEKGVQVHIPVDVIAADSFSNTANTQVVDVNAIPDGWQGLDAGPKSL
+ENFKKVILESKTILWNGPLGVFEMESFAKGTIALGDYIAEATENGAFSLVGGGDSVAAVK
+QFGFEDKMSYVSTGGGAMLEMLEGKILPGIAAILD
+>tr|A0A1S1J4C2|A0A1S1J4C2_9FLAO
+MKRLYILLFSALSCAGLQAQNKFNLLVGTYTNTCQSNGIYVYDFNADSGDFKLKSSSENV
+VSPSYLSVSADNKFVYAVNENGTHSAVSAFGYDAGSGKLSFLNKNDALGADPCHLINDDK
+NVLVANYSGGNIAVFKKNADGSISEAQQLVQHEGKGINAARQEKAHVHMVAYSPDKKFVL
+SNDLGLDKVFVYKYNPNSKNEILTLKGAVDVKPGSGPRHLTFSKDGKFVYLVQELDGTLT
+TFSFDPNGNLKVIGETSILPKGFKGGTGAAAIKISPDGAFLYVSDRVDANAVSVYKIQKN
+GGIELVEQVSTLGKGPRDFAIDPTGNFLLVGHQYTNDIIIFKRDKTTGKLTDTGKRIGLC
+SPVGLVFTRI
+>tr|A0A1S1J9A0|A0A1S1J9A0_9FLAO
+MNNRNYNIYFHTHTVSGIVISVVLFVIFFAGSFSFFRDEIINWERNESSAISREIQLDYT
+SALKKLDKEYVLHGRNLTFSKPNIERRVAVYMEGTKDTLAPKEQKEGSFFYLDTKTFKTF
+TYEQSYSLGEFLYRLHFLAQIPYPVGYYLSGFTALFFLFAIVTGLLLHWKKIVSNFYIFR
+PKEKLKTLWTDAHTALGMIGLPFQFVYAVTGTFFMIKLLIVAPAVMALYKGDQDKLYKEL
+EYTDPEYKFDNKKLAAPFNIDQLVAKTKSSWKDFEITRVFIQNYGDANMHVLVEGEMLSH
+KKFTGIGKIVYRIADGKEIARKNPITQTSYLDVVKNVLYRIHFGDYGGYALKIVSFVLGI
+ITCFVIISGVMIWLVARQKNNLPEKKKRFNAGVVRIYLAICLSMYPITAFAFIAAKIFHP
+LTQDQLYMVYFIGWLILTVFFILKKNDAFTNKYCLISGSMLGFLIPITNGIVSGNWFWTS
+FMQNRIQVFFVDVFWIFLASITLYVAYSLKPKNEAVSKK
+>tr|A0A1S1IZ79|A0A1S1IZ79_9FLAO
+MKKYIYAMMLIFISIIIAQAQRMIPRQKGFELNAGTLSGNSPWENYYLGLGMTINGKNGS
+YQLWALEYSHQYSRYKALHLPIETYSAEGGHSFFLWGDARRNVALNASLTAVLGYESINR
+GENLLDDGAKIISEDRLVYGAGGRLSFETYLCDHLVLLLQGRIKVLWGTDLEQFRPSAGL
+GLRYNF
+>tr|A0A1S1J9T6|A0A1S1J9T6_9FLAO
+MKETKHISRSRAQESSAAIEKMYITMRHLFNRGFYKPMGVSGDSLRESLLALRPEIYGNI
+GEEKVELNGLLYVIERLPIGIEQCRFINLTSDEGYSKSHFQPIVPPKRRRNCYRIDEEQM
+NVEITRGRSDIYDILTHLTFIFIESHKIKNRVLLDDGGEVSRDWLKLEQAVLQTKKLSQI
+EKEKAISHVANILARTFEEVLDIYDAFGSENAPDRFLHVIYWLGKLAIEEVIDNNKRTIT
+FSPVLRERLGHHIHGEIWATNIKEVLKANNLLKRPIHVISANMHSVMNSIFATPLLKTKF
+KEKSDFYIYEELSKSGAKEIRSHVEELALKNGMISLPDSSGTNIDVQIFDTAKIDWGKTA
+FPKAKLEEEKPVIIVMDYAFGEQAYETIDELLKPYKKDTLLNVKSVSIMGKAGILEGGKG
+DIMIPTAHINEGTADNYFFENELTGAMFEGNDIAVFEGAMVTVLGTSLQNRDLLKFFHES
+TWGVIGLEMEGSYYQKAIQSASKIRKSVPHDIKVRYAYYASDNPLETGSTLASGGLGTTG
+VKPTYLITIKILEQIFNVK
+>tr|A0A1S1IYR8|A0A1S1IYR8_9FLAO
+MESIEIFKALANKSRLQMLEWLKEPEINFPDQLQHSGFEHGVCVGQIQAKAGLTQSTVSE
+YLSILQRAGFIESKRVGQWTYYKRNEGAFEALSKLIQSNL
+>tr|A0A1S1J1W3|A0A1S1J1W3_9FLAO
+MLKRIVALAILICTACQTTKIKNEEYKFSSSIVEIGSIGESKLSYNQNIFETKAFPKLQN
+NIRLEIGVVPYNKKLDKIYKSKAKYNQNQTKVAFIDSLAIKPELVTIKVLDIAGFVHEIN
+SDYNTEILNLLVNTESSKIISSLAVNLSANEITKIRQADAYYLINNLHKKYSIALFKLGK
+KVDTIDINSETIVAYQVSSFCWSVSEKGKWYVADIVGEYSSCKGVTEKRITPKKKNKSLF
+DL
+>tr|A0A1S1J1W5|A0A1S1J1W5_9FLAO
+MKPYLEIAGRRIGQDFPPLVIAEIGINHEGSLQVAKEMVDAAKRAGAEVVKHQTHIVEDE
+MSGAAKKVIPGNADVSIYEIMERCSLNEADELELKNYVESKGMIFISTPFSRAAAERLKK
+FDIPAYKIGSGECNNYPLLEHIASFGKPVILSTGMNTIESITKAVAIFDKHNIPVALLHT
+TNLYPTPIHLVRFGAMTELHEAFPDKVFGLSDHTLNNNACLGAVALGASILERHFTDHMQ
+RTGPDIICSMDEKACQELIISSAEIALMRGGTKKPAEEEQVTIDFAFATVCAIAPIKKGD
+KLSKENIWVKRPGTGKILAEHFNDLIGKTASRDIENDEQLNWEDIN
+>tr|A0A1S1J557|A0A1S1J557_9FLAO
+MSKIKLQQNQADQQEKWNQLFFEYFQNINILGRDAFANSSVVLSPEYNKPMDRLCAVLNK
+ACTAIVLNYFEDSRIRNYYQLENDLEALLKKCSSQSYNQGFYRPDFLYDSNDQPKICEIG
+ARYPLNGWMISYYLHLINNQTNEYKDQIAAGGTDLKNLIDDLSHQFAPHKKVALIHDDEK
+GSDIFNAQRELAKLNIELISAKPQELVIVKDSIEANGVPVSQFILEMDREELKKISPDVL
+DKLIEENCYFNDIRTLILIHDKRVLAVMYDAAIMLDYLSKEEYNFLKEYLIPSFVITDPV
+ECDEFTNTKQNLILKLNSGGRGIGAYVKSDCTDENWNTIVRENWKSYLIQHFVDQKEFDD
+AENNRQIYLVGMLLCKDDKSYGSGMFRGSDESVVNVHQGRALIYPIAQ
+>tr|A0A1S1J5G3|A0A1S1J5G3_9FLAO
+MILKYIPDGSLLIGLFVLFFLDFAFGVTKATLTKTIRKSEGFRKTFTKFIQYGGSIIIGM
+VLLNIKSVSDSKLGNQYSGVFGDFMIGIMIYIEVVSILENMEVIGNNNDFVRYFIRPVRR
+LITFQIKNLFSDSGNIITK
+>tr|A0A1S1J744|A0A1S1J744_9FLAO
+MKKKFTLEIANPCSENFDNMIPNSQGSFCSSCAKNVIDLSRKTNSEVARFIVENKDQNIC
+ARLKTTQLEEEFVHQETSKMNNLKYAAVAASILLASNVTGQEKTPVKTEINESVPKSNIL
+GKIAVSQTVQEEISITIKGKLLDAKTNRPLNGKIYPNLTLSINDSQPPMKIDSKTGDFSI
+TSLVPKKGEALMITISSGDYYLSKTIPFDLKKVKGNVLHQNIKINTEELIKVYIAGGLGI
+NYSEKKVIREN
+>tr|A0A1S1J1L3|A0A1S1J1L3_9FLAO
+MKKLRADIDQWLKGIDKHWEAMPVKRQHQVVLYFFAAYALLSAVVIFNVCHDTAEAKNNI
+AVEHIENPTGKESTAHRQDSLKPILKK
+>tr|A0A1S1J8N3|A0A1S1J8N3_9FLAO
+MQKSILLFVAFLLSVSAFSQEDLQEVKITKKQKGIKKSYTLTSNTTVITSKELLKAACCN
+LAESFETNPSIDVNFSDALTGTKQIKMLGLTSPYLLITEENLPSVRGASQAYGLSFTPGT
+WIESVQITKGAGSVINGYESISGQINTELLKPLNDIPFFLNAYGSTDARFELNTHFNRKL
+SDKWATSLFVHGNARVAKNDMNDDGFLDNPLGKQINVLNRYQYYNPDSGLVSFINFRYMN
+DKKQTGELDFDKDTDRGTKNHWGSEINTERFDVSTKIGYVFKDMPYQSIGFQNAFNTHNQ
+NSYFGLNLYDIRQNSYYSNLIFNSIINNTKHKFSTGLNFAYDQYQEFVNANDYSRIDNSV
+GAFFEYTYDNADNFSLILGGRVDNHNRLGLFVTPRLHMRYNPWKFGVLRVSAGRGKRSAN
+IFAENQQLFASSRTFSILDQGGKIYGLNPEIAWNYGVSFSQKFRVFNKNAEVGFDFYRTD
+FQNQAVVDLMQSPQNVLFYNLKGSSFANSFQLEFNFEFIHNLNLRTAYKYYDIQTDYLRG
+TFQRPLQAKHRFLGNLEYETQVNDGKQWKFDYTFNWSGKQQLPYTASNPVADQFPDFSPS
+YAVMNAQVTRIFSSVFEVYVGGENIGNYKQQKAILGASDPFGPNFDASVAYAPIFGQMYY
+AGLRFKIK
+>tr|A0A1S1J9K5|A0A1S1J9K5_9FLAO
+MIPLIEKNSLEEIKIFQEQKLAELLHYISQNSPFYKRLFAGQNIDLSKIKTLEDLQHLPV
+TTKEDLQEYNDDFLCVPQHQIIDYASTSGTLGDPVTFGLTDSDLDRLAYNEAISFACAGI
+AEGDVVQLMTTIDRKFMAGLAYFLGLRKLKVGVIRVGAGIPELQWDSILKYKPSYLITVP
+SFLLKLIEYAEAHGIDYNNSSIKGAICIGEPLRNQDFSMNTLSNKITEKWNIKLFSTYAS
+TEMSTAFTECEHGVGGHHHPELIIVEVLDENNIPVKEGEIGELTFTTLGIEAMPLLRFKT
+GDIVQLHNAPCACGRNTLRVGPVVGRKKQMIKYKGTTLYPPAMNDVLSGFDNIENHIIEI
+STNDLGTDEILIKIAVKNQTPEFLQEIKDHFRAKLRVTPKIEFAPKEALNPLVFNPMSRK
+PIRFFDYRVTV
+>tr|A0A1S1JAP3|A0A1S1JAP3_9FLAO
+MSISEETFITNLGFHIRQLREKKGLSQQELADYCNIPQNQIGRVERAEINTTVKTLIKIA
+NALDVEPKELLDFPLK
+>tr|A0A1S1JDH0|A0A1S1JDH0_9FLAO
+MKRIVLIFLCTIGLSASAQVTRLTLKDALTYALQNKADAKKAKLQVENSEYKIQEIRSRA
+LPQISANGNLTHNPIIQTTVIDGAGFGAPGTTIQAAFGQKWVSTAGVSLTQAIFDQSVFT
+GLRAARSTREFYQINNQLTEEQVIERVANNYYSVYVQKERLTLLDSNYVNTTKVRDIVKG
+QFDNGLAKKIDLDRIIVKMSNIDTERQQIKNQITLEENALKFYMGMPIETQIDMPKEEFE
+VVPATLTEQPNTANRTEYLLLKKQQELLVFNKKAVEAGYYPTLSLTAGYNYIGQGPQMPW
+FAKPSQGVYWSDFSAIALNLHVPIFTGFGTRAKVRQADVELRSLEEDIKDTKLSLDLDYK
+NAMAQIDNNLVTITNQKENMRLATEILSNTKNNYLQGLASLTDLLDAENASLEAQNNYTR
+AILNYKIAEVALIKSKGELKTLIK
+>tr|A0A1S1JGA0|A0A1S1JGA0_9FLAO
+MNKRKLLLVERIMYVNSATPLNCVFTAKIKGEILQEQIEIALTKIQHKHPLLRAEVDLQD
+KQHPAYAIRENMKPIPLRIVKRQTDTHWLVESEQEWYRQFKGEGSPLAQLVWIKGQKFSE
+LLWVVPHCICDGTSMVTLMQELLALIDNPTLDLKPYPLFQSVNNFLTPQFDLQKKARKAK
+LFLFLGKFFFLLQRKNKKRNLGKNYAIHWKLDPTNSSIIKQKCKDSGISVHAILCTAFMQ
+AFQDLQGKSAKKKVISPIDIRHFIPEIRKDQMFAFAPTVELSLKKEKNQILDQAKHIKKD
+LAQKIEKMDARELLWMGEQMHPLVHRMIALLKSSRGAHDLTLSNMGNLQIRNDYKNFILE
+DIFSPTVAFPWLNSNTLVTTTFNDQMDFTLMSNEDFLSKQEASKIKDKALEILALPL
+>tr|A0A1S1IZW2|A0A1S1IZW2_9FLAO
+MKGFLLFLLLSFKISAQNSPQSEPKIIPPSPTAYELGRYGQTDVGTFTGTPNISVPIYTY
+KTKNISIPITLNYNSNGIQVDQMETNVGLGWNLNTGGIINRVVRGKADEDRSNPISEDMH
+CTDSFFTYLENNQFNDMQPDMYSYNFQGQSGQFVFDNNGKAVIVTQNNLKIERLGINIQS
+GFKITTEDGVEYYFNETESSTWENVEAPQTVVTGWYLTKIIHPEGDVVNFTYKSSTYSFI
+SNISESFGIEISRVNCGERAATAPENYSENHLNVMGKTIEAISSSDPQFGRVHFQLTENP
+NITGNFLISSITVFNAGQNIIEKANFSYLFTPNKRIFLKECTFNDPSKKYGFEYEMPNDL
+VARLSSQRDLWGYYNGKPGTYPDATIHKDLYPKTDRIKNALTNRSSGDKRPYAEYAKKGI
+LKRIVYPTKGYNEFEYESNSVWGTVISPCEPETQNSWFYNPGYSWEQKTETYVFENKTDY
+EAQIQARVFFNDYEFTEGTFPAGELAITVKVENLTQPTVLDQNLIFYAHEHNKPRTQSFT
+FLKNNTYRVTLLFTPEPKTTAQVTYTYCKGGGIESKANIPVAGLRIAKISSFDAPANIVD
+VKHYYYGKKESPLVSTGTEGIKPNILTFNEVRRFCAPPSVQFPFGEVDKTVFMNINVNSI
+YPLYRSMGNNSTTYENVTVSHGGPNFENGGEEFQYYISADIPPYLCLDSHLSSAPWTNLS
+WDNGLLHRKRTFNNRLIDVNTVENQYKLENQYTRKVPGIATDIRYNSLYNFPSPNYRNIE
+HLNISKYTTNSYWFYLESESNTQYDSEGQNPVTTLTKYKYNNPSHLKLSSQTVTNSLNEQ
+LETKFFYPQDPEMANEPFRNELISKNMIGKVLDTQTLKKGVKLSEQKTVYDKSTATGNLL
+LPKLVYANKGLNIIDLNSDKKIIYNQYDTNGNILQYTIESGTPVAIIWGYNKSQPIAKIE
+NATYTELEALPGFGAGFTIVTSLSAAQESTLRNNLPEAMVTTYTYTPLVGITSVTDPKGI
+TSYYTYDTFGRLQYVKDQNLNVLQKYCYNYKGQLADCGKLNEANPVSFKNSTQSKAFTRD
+NCAPGGTPATVLYIVAAGTHSSDVSQADADAKAWQQINANGQAFANNDQNAKCKFWNTAQ
+SRQFTRSNCAAGGIPQSAWYTVAAGTYSSDVSQAMADNEALRIVNANGEAFANDNKNAKC
+IFKSAAIAPQNFQKTDCSIGGAGSYVSYSLPYGAAQSEISQADADSEAWKKFQAEGPINA
+NTHGDCTFRSAAISGSFQKNSCTGGAIGSYENYALPEGAVTLKTSQAHVDSEAGKKLNTE
+GLSNANAKGQCVFYSNYAQRYIRRSYCPPGMNGTEVLYSVPAKKYSSLLSQADADRQAED
+EINNQGQGYADRTGQCNEGAIEEK
+>tr|A0A1S1J1N8|A0A1S1J1N8_9FLAO
+MKFTRNANANWKGTGMEGKGTITTQSTTLNNAQLSFKTRFAEGVGTNPEELVAAAHAGCF
+TMQLSFLLSEAGFVPEDLNTTAKVTFEDGTITLITLELSGSVPGITTDDFEKTAQKAKEI
+CPISKLLNTEIALNVSLLS
+>tr|A0A1S1J1C1|A0A1S1J1C1_9FLAO
+MEKIIEESKQGESLVLENKPENTKKLFIESYGCAMNFSDSEIVASILSENGFNTTQTLED
+ADLVLVNTCSIRDKAEQTIRKRLEKYNAVKRINPKMKVGVLGCMAERLKSQFLEEEKIVD
+LVVGPDAYKDLPNLLAEVDEGRDAINVILSKEETYGDISPVRLMSNGITALVSITRGCDN
+MCTFCVVPFTRGRERSREPQSIMNEIQDLWSKGFKEITLLGQNVDSYLWYGGGLKKDFVN
+ASEMQKATAVDFDQLLEMVAVGFPKMRIRFSTSNPQDMHESVLHVIAKHPNICKHIHLPV
+QSGSNRILKEMNRLHTREEYMTLIDKIRAIIPNASISQDMIAGFPTETEQDHQDTMSLME
+YVKYNFGYMYSYSERPGTLAGRKMEDDVAEETKARRLQEIVDLQQKHAWFRSEEFVGQVV
+EVLVEKVSKKSKEEFSGRNSQSITVVFPKEDYKIGDFVNVKIESCTSGTLKGKAVGYSEM
+N
+>tr|A0A1S1J502|A0A1S1J502_9FLAO
+MDTDKSTKIASILHNSFSPRNLRASINNLSYLPRWIIIAIDIMVLIFSFTFTYMLFEGTA
+LGYIITTHQSFFVSSLIGINIFFFWLFRTYSGIIRHSSYIDAIKLLFSQMSVLVFFLFFN
+LVFELYTGHKAFLNTALFINLVLSFCGLFLYRVIVKQTFELYFSEKTTTKLIRTVIYGTD
+ANAISVANALKFETPSRFKIVGFVDKNNQNASKRMLDLPILILRKKLPALMRSVAAEGVI
+IADKSLSKDEQLIIVDQCLEFNYRVYTVPLISDWENQKEISQKVKNIQIEDLLERKPIVL
+DSKSISKQLKDKTVLITGAAGSIGSEIVRQVLGFNPKMVVILDHAETPLHNLCLETATFG
+SESKIIAVVADVRSKKALEKVFKNYNPHVVFHAAAYKHVPLMEENPAQAIHTNIKGTKNL
+ADLSCKYHVKKFVMVSTDKAVNPSNVMGASKRIAEKYVQSLFLKNQRENGGESVTKFITT
+RFGNVLGSNGSVVPLFTKQIAEGGPVTITHQDIIRYFMTIPEACQLVLEAGAMGNGGEIY
+IFDMGKPVKIIDLAKKMIKLAGFIPEKEIKIKVVGLRPGEKLYEELLNDTSKTLPTYHNK
+IMIAQEIQDEYENLHIEIDELIGIADFYDNEDIVAKMKKIVPEFKSMNSTFEVLDK
+>tr|A0A1S1JB42|A0A1S1JB42_9FLAO
+MKNLIYLTIIGLLFAACGGSDDSGSSEAINVAPTVPALKVPADNKLCVDNTVSFQWDLST
+DANKDAITYQIQVAKENTFAQIVKSSEVTTNNTSIALEKNTAYFWRVKATDSKGLASTYS
+ATFKLYTSGETVVNHMPFSPELVSPVLNATLNATTVSLKWNATDVDTADALTYDVYFGTT
+NPPTEKVSENKSEKTIDVTTVATKEYFWKVVVKDNKGGETVGQIWKFKTN
+>tr|A0A1S1J263|A0A1S1J263_9FLAO
+MEKRYDLDRFLEAQRETYGNALEEIRQGSKQTHWMWFIFPQLRGLGFTDYNIFYGIENLK
+EASLYLNHPILGKRLVEITQPMLEIENKTALEILGRPDERKLKSCMTLFGLLPETPECFR
+QVLVKYYNGEQDEKTLQLIKESGS
+>tr|A0A1S1J7N2|A0A1S1J7N2_9FLAO
+MKKITLLFLVSFCFTGCVTQSQTAKTSTAMTNQQQYPKALVDYDDFKNLVTEVEKARANR
+LVSLDLFLKMSHEENTVILDTRSDFRYNRKHLKGAIHLDFTDFTQENLHQLIPDPNTRIL
+IYCNNNFNGDPIDFASKMALPKSAPESQILANRKPVMLALNIPTHINLYGYGYKNIYELD
+ELVHVNDRRIKFEGTEVK
+>tr|A0A1S1J9P4|A0A1S1J9P4_9FLAO
+MFLKTTNSTNDCFPKILLLFLLVLAFNGIKAQEVHSVSLKEALKLAKENNKKILRSQLEI
+TLSEQNIKERKELRLPDVQLSGMYSRITNITEFKGNGFLNGKEVTKAIPELYEVSSTFKM
+PIYAGNKINNAIKIANQESEIAKIKTEKVENDVELEVVANYLAIYKMMELQKIFEENIKE
+EKSRLKEVQSLRKHGAVTKNEVIRAELQLSDRELNALTNSKNIKIALHDLKTLIQLPENE
+EIAIDTAANLDEMNGLDPYDFYLNKALNNEEMRIASQELNISKTELKLVKGNYLPTVHFF
+GNYGFYYPNYKFFPPNPYLYTLGQVGVEAAFDLSSLYKNKTKMDQANTKIKWQEMQSEIL
+KDEIQDKLFREHTQYQEILEKFVVVDKALDLADENYRIVKLKYMNQLVLITEMVDADNAL
+LQAKYNKVATRLDAILKHYELLRTAGMLP
+>tr|A0A1S1JAK2|A0A1S1JAK2_9FLAO
+MNEDLKHFKQLFNELYQPLCNHAYKYLQDRDESEDVVQELMIKIWETRKDLLSEKSLKYY
+LYIAVKNRCISILRKKIYMFDVDEMSADIAEEIPETKPLTDANQLIEDAFKGISPKCLEI
+FKLSRLEKLSYKQIAEKLEISVKTVENQMGKAIKHIREFVKQHPNLIIFFKIWYFSYYIV
+GVLKEFVFYLKEV
+>tr|A0A1S1J6B5|A0A1S1J6B5_9FLAO
+MLTLNKVHHIAILCSDYQKSKTFYTEVLGLTIIREVYREERQSYKLDLALNGIYVVELFS
+FPNPPKRPSRPEAVGLRHLAFEVINLEETIAFLNTKNIESEPIRIDEFTEKRFTFIADPD
+ELPIEFYER
+>tr|A0A1S1J049|A0A1S1J049_9FLAO
+MTENEAFIYESIFNQVRMGFLSLDEIQENILEEIEDNEFEDEISEEWAFDKIREENQKLL
+SESKQWKSPTDTERLIKAFDELADRNIIALHNAGYTTSDGEYEVVEVERALRENEVESDG
+YCFYHEQDLARGVAVKDSSLFIAFQKVDNGDDATTIEVGKIVAEVLRDNGFTLNWNESAR
+TKIEIPGFKWQHLFDEDARDLQDYSEVVERMIQ
+>tr|A0A1S1J3H3|A0A1S1J3H3_9FLAO
+MQFCQKKTSNTPKPKNTKPEIEQAILTADRFYSQKEFDSAFFYYNKLRSICNPVTDSENY
+ITSLNRMAEIQQDQADYAGSENTIKEILPYLKYVKKQSQIWNTYVILSINYLNTYDYKNA
+IRYNQKALQLQTEEWRKLAAKNNMAVILMEEGKYNEALQIFLSLTTKKEVLNNNEFQGKA
+LDNIGFCYFKIYHSDKALYYFQKSLEIRKKQNDSFGLGKSYLHFAKFYEESNLLLAKKYM
+HLSYEKFTLAHTIDERLSSLKLIIKNSSDRELKKYSIVYVNLIDSIFEVKQKAKNQYAKI
+KYDSTKEKNENLRLKTYKVENEIQIEKQRNRNIFSYIIITLSLSLVTVLYFYLTSKGNKE
+KIEATYNSETRIAKKLHDELANDIYHTMAFTESKNLSIKENKIQLLNNLEAIYSRTRNIS
+KENNQIITSEDFILNLEEMIEGFNTPVIHIFVNDLETIDWNEIEKNKKMTVYRTVQELLV
+NMKKHSAATLVTITFKKTDQNIMITYTDNGIGIDLAAIKFQNGLYNIENKILSIKGEITI
+DSTPEKGFKVFINFPA
+>tr|A0A1S1JAJ2|A0A1S1JAJ2_9FLAO
+MLVKTKAIVISSLKFQEKSLIVKCFTLSHGLKSYFVRDAFSSRKASQKIAYFQPLSVLEI
+EAMHKNKGTLETFKEIKTAVPFQSIHTDLVKSTMVMFLSEMLHYSIQEEEKNEAFFVFLE
+TALSWLDHHDEISNFHLILLLEATKYFGFYPDVSEVEFSYFEMIDGVFTLFHGANTLTEH
+ETNLFKKLIDLKFENDQKVFHVAERQILLKILIDYYGFHLEGFKKPKSLEVLKEIFS
+>tr|A0A1S1J1J0|A0A1S1J1J0_9FLAO
+MIDFTTIDYLKNGNNRQIQAYEILTQYHILSDIAEFEPILAGTIPIAIDIESSDLDIICY
+WKNKTKFIEKLHVAFGSENNYTIRETIIDNRESIIASFRIGPFEFEIFGQNIPTQQQNAY
+LHMLIEHEILQSKDETFRSEIIKLKQKGYKTEPAFAFLLGLNGDPYAELLKYKI
+>tr|A0A1S1J6X0|A0A1S1J6X0_9FLAO
+MKTDRTATAIRINSAEIIRTLIRQKLSEAESDWMESHIWFENNTQFFQTFGLVTRKISPI
+IPKWTLQETILLEELYPGFTTANWDLQQLCRSLLMMHLPEHQNIETIKNLAEMADIKELV
+SLYKGLFFLKNAKEFILTIQEGIRTNMVAVFDAIALGNPFAAKYLPVDAWNQLVLKALFM
+GRPLYQIIDLELRKNEKLALIIHDYIHERWSAGRLVSPEIWRLTAGFVNREIADDLTKAI
+GTGELLTQVAAVKVLKESTFFKENEISEEVLSQSTATWDEIGTQYYSLLKI
+>tr|A0A1S1J6Z2|A0A1S1J6Z2_9FLAO
+MEKIFDNTQVAFSLKSDTELDRAYFLFKMIDSQPLVRIGTAVTNFAIKAHLPVEGLIRAT
+VFDHFCGGVNEDDCITVVDKMFTKGVSSVLDYSVEGKEEEEQFDAALEMTLKTIEFAKER
+LAIPFAVFKPTGFGRFELYEKLGEKQTLSPTEQAEWDRVVARFDHVCAEAHRKDVALLID
+GEESWMQDAADDLVTDMMRKYNKEKAIVFNTLQMYRWDRLDYLKKLHEVAKNEGFFIGMK
+IVRGAYMEKENKRAEEKNYVSPICVSKEATDINYDAAIRYMAEHLESMSIFAGTHNELSS
+YKLMEIMQEKGIAKNDTKIWFGQLYGMSDNISYNLAENGYNVAKYLPFGPVKDVMPYLIR
+RAEENTSVAGQTSRELSMIKAERKRRKGK
+>tr|A0A1S1J8S8|A0A1S1J8S8_9FLAO
+MKILIVDDQQLVLLSLEKLLSSSGYEVISADNIMDAIARYDSEKPNLIIVDINMSNLSNA
+ESLNESGSGLEVVKYIKQIKKDGTPVMVLSGNTDEEVIIKAFDLGIDDYMKKPLSLSEIG
+ARVKRLIGSTIEKSVTEKTNSKERYIQNKCIGVVIPCYNEENRLSSDEFKSFVHKNLGYH
+LCFVNDGSKDNTLAVLNELTKGKEEYISVYDCIKNGGKAEAVRLGMLHLAKQNQFDYIGF
+LDADLSTNFDDFQDLADTIYNSKYKLVFGSRISRMGADITKQSARVLISKTINYIIIKIL
+GMKINDTQCGAKIMTKEIIEKTFSEKFVTKWIFDVEIFMRMKKIYGSAKTQELILEKPLN
+RWIHMDGSKLSFKDSVKIMGQIGQIALHYR
+>tr|A0A1S1JB82|A0A1S1JB82_9FLAO
+MFTGIIETLGRIHEIKKDQNNLHITVDSTITNELKIDQSVSHNGICLTVVAIKDSFYTVT
+AIDETILKTNISDWKEGDIVNLERGMKLGDRLDGHIVQGHVDQTGTCIKIEEAHGSWNYT
+FEYDKNLSNITIEKGSITVNGVSLTVVNSKTNEFSVSIIPYTFENTNFKNFKVGTKINLE
+FDVVGKYISRLYAINK
+>tr|A0A1S1JET0|A0A1S1JET0_9FLAO
+MKNIVYLFLLITQIFFAQNSFEKGNALYQKGQYQQAVDVYESIIKEDKQQSAELYFNLGN
+SYYKLNKVAPSIYNYEKALVLKPHDSETLNNLKFAKKLTIDEIKEVPKVGFAKLIQNFTG
+IFDYNTWAIISIAIAFAFLLTFIGYYFSQLTLSKRIYFIGMFVLLIALLLSVSAGMSEKN
+HFSNDRPAIVFAELSEVRSEPQKAGSSIILLHEGAKVYVLETVGGWKKIELTDGTEGWID
+ASTIREVK
+>tr|A0A1S1IY38|A0A1S1IY38_9FLAO
+MKSIIIASTSTLHEGSYLEYLLPTLQSLFKNCKSILFIPFARPGGISHDDYTAKVSEAFA
+SIDISVKGIHEFENAADAIKNAEGIFTGGGNTFLLVTQLYKYNIMQLLSETVKNGTPYLG
+TSAGSNICGLSMQTTNDMPIIYPPSFQTLGLIPFNLNPHYLDPDLQSKHMGETRETRIKE
+FHAFNTIPVLGLREGSWLEVKGDTITLKGNLQARLFLQNETPTELETGSDLSNLK
+>tr|A0A1S1J180|A0A1S1J180_9FLAO
+MKIIHLHQEETEIIKLAVENNRQAQQQIYSRFSSKMLSVCRQYIKDIQLAEDVMITAFMK
+VFTNLSRFEHKGSFEGWVRRIMVNECISYLRVHKKVKFSEEEIYIEESFNAIDSQFSIDQ
+IQFLIDALPEGYRMVFNLYAIEGYKHNEIAKMLGINEGTSKSQLSHARKMLQTQINSLKK
+QDNGTE
+>tr|A0A1S1J7B2|A0A1S1J7B2_9FLAO
+MKRIITIAILLFSVVSFAQIKVIETVPVEKLGKVNNNYIQKIGDEYTVYYTSIQNDDESS
+SLRKFTFKNVNNDYASLYNIIMNGFTASPLYDIKLELPNNYIWLHYTGSVVPEKATVQFM
+VSSKEAASATSSVSEPFVKDQINKLFQK
+>tr|A0A1S1J980|A0A1S1J980_9FLAO
+MLVYLRLLKESLGFAVNALRNNKLRTLLSLLGVTIGIFSIIAVLAAVDSLDRKISKDLSS
+LDKNTIYLMKFSFGPSEIPQWKRDQFPNVKYDEYVGLKNSLTNTDQVAYQLFVKHESLKY
+DSKTVSDVNIIPSSNEIVNIEGLSFDKGRFYTESESNSGAAVIVLGYEIAEGLFGTSDPI
+GKSIRLYGQRFNVIGVIAKQGAGFFGDSNDTSVYLPANFLRRMYGDSDAMTPVIVVKPVK
+GIDMDAYKAQVAQKIRAIRGMKAGEIDNFFINVLSGFTDFIDGILGQMNVVGWIISGFSL
+LVGGFGIANIMFVSVKERTNLIGIQKSLGAKNRFILFQFLFEAVILSVIGGIIGLVMVWG
+IALVLTKVLDFEFVLSFGNIILGTTLAAFIGLISGILPAISAANLDPVEAIRTGM
+>tr|A0A1S1JBP5|A0A1S1JBP5_9FLAO
+MNKKDNFIQDINNGYSSKGDSIVLGSAILDGEPLGEAHVKIPLKTLNRHGLIAGATGTGK
+TKTIQVFSEQLSNVGVPVLMMDIKGDFSGIAEEGKEEGFITERHAKINIPYNIASFPVEL
+MSLSKQNGVRLRATVSEFGPVLFSRILDLNDTQAGVVAVIFKYCDDNKMPLLDLKDIKKV
+LNYITEEGKDEISANYGKISTATTGTILRKIIELEQQGGDLFFGELSFEIDDLMRIDENG
+KGYVNIIRLTDIQDKPKLFSTFMLSLLAEIYQQMPEKGDVVQPELVIFIDEAHLIFNEAS
+KALLEQIETIVKLIRSKGVGIYFVTQNPMDVPSGVLAQLGLKIQHALRAFTANDRQAIKK
+TADNYPTSPYYKTDELLTSLGIGEALVTALNEKGVPTPLVATMMRAPMSRMDVLTAEEIE
+GINSKSKLVKKYLEEIDRESAYEILNKKIEDATQAAAEQEEETPTKSSKSEPSTASVVGK
+SVLKVVTSATFIRGVFGVLSKIFKK
+>tr|A0A1S1JBZ0|A0A1S1JBZ0_9FLAO
+MERKHYKQEINMTEALMSRINELISHYPEDRRKSALLPVLHEVQDAHDNWLSIELQDKVA
+EILHIKPIEVYEVVTFYTMYNQKPIGKYMFEFCQTSCCCLNGAENLMDYTSEKLGIKMGE
+TTPDGMFTIAGVECLGACGYAPMMQLGDFYKEKLTEEKIDQLIADCREDKIILHDK
+>tr|A0A1S1J4U5|A0A1S1J4U5_9FLAO
+MTKAIKKQALGRGLSALLKDPENDITSVEDKNADKVVGNIIELEISAIEINPFQPRSNFN
+EESLRELATSIKELGVIQPITVRKLDFNKYQLISGERRLRASTLVGLTHVPAYIRIANDN
+ESLVMALVENIQRHDLDPIEIALSYQRLIDEIQLTQEQMSERVGKKRSTIANYLRLLKLD
+PIIQTGIRDGFISMGHGRAIINIEDLDIQTDIYQKIVSQNLSVRETETLVKNYHESLKPK
+AEGKPKAESSFVVRETQKNTFNDYFGSKVDIKVAGTGKGKITIPFDSEADFNRIIKLING
+>tr|A0A1S1J7D0|A0A1S1J7D0_9FLAO
+MEKEENIGALLGIPQEEMAMLLEVKRVQWALFLTGRRGLPPTALLKLSEMLTILKEPDNE
+APDDEAIKEEQAQITKYLEKEIIINLNKQQLALNQLERCRKKYQSAENAMKIADTLIARE
+QQTYTWQKELLPIIKRTAQDILKKNSVLIQEQYTIKLLVLQQEEVVLRERLWSK
+>tr|A0A1S1JBH8|A0A1S1JBH8_9FLAO
+MKNNNKEEHAPKQEFLFDGINYKILLIGIGVIALGFILMSGGGSNDPNVFNEDVFNFRRI
+RLAPTTVLIGFGITIYSIFKKSK
+>tr|A0A1S1J150|A0A1S1J150_9FLAO
+MKKVILGVITLFLTQSLSAQSLNKMQWFNEPEKWEIKNNALIMNVTANSDYWRISHYGFT
+VDDAPFYYATYGGEFEAKVKLTGNYIARFDQMGLMLRIDEKNYIKTGVEFVDGKFNISTV
+VTHDKSDWSVTTLEKAPPFVWIKVVRRLDAVEVFFSYDDKNYILTRNAPLQDNTPVMVGL
+MAASPDGKGFEAKFENFKVTHLPDQRRLEWLKKHQE
+>tr|A0A1S1JAI6|A0A1S1JAI6_9FLAO
+MKLTLKIWRQKNAQDKGGIVEYPIDGIEPDMSFLEMLDVLNEQLINKGDEPVAFDHDCRE
+GICGMCSLFINGEAHGPDRGVTTCQLHMRMFKDGDTIFIEPFRAKAFPVIKDLVVDRSSF
+DRIQHAGGFISVNTSGNTIDANTIPINKDDADKSFDAAACIGCGACVATCKNSSAMLFVS
+AKVSQYALLPQGKVEAVDRVLNMVHQMDAEGFGNCTNTGACEVECPKGISLENIARMNRE
+YLAASLKG
+>tr|A0A1S1J1N5|A0A1S1J1N5_9FLAO
+MNNKTLSSIFTFLSLILFSTTIQAQNLQKTMKDSLALYNKMLSKKELQEDLKILRTINDK
+ANSGLYQYHSKKQVDSIYNSAFKSIQKPMRVIDFYKIMLRLSDYEGSLHNYTIPDLDLIN
+FLNRQKSFFPFPLVYINGQIIFDGQSSDIPPGSRIKSINGINDVALMRSFYKYYTTDGHH
+VTQKLSASVNKSFGLNYLLEYGLCDEFIVEYSAPKSEALQKTVLRAVTLKERTANLKNRF
+SAPVTDLLDYKKQSPYSFRMINPATGLLNLRFFGMAYGSDDPKFKPYVRFLDSIFTQLDK
+NKVANLIIDVRNNPGGSDPNFEQPVMYLTDKPFKENEKAVILFDPNVLPLEKYFWGTSTS
+ERMDSTALKAGKEYLKSLYPVFQNNISIQDQKYNPVYHPKSPLFKGKLYLLINENVASAA
+SHFASLVKAYVDNVTIVGLETVGGYYVHNGHSPLVYELPNSKVKTQFSIVNVVQDAPKKA
+NQPEGHGIMPDYEVWPTLDDFFQQKDTQMEFVLKLIAK
+>tr|A0A1S1J413|A0A1S1J413_9FLAO
+MKTKKGKEDWRIASEIELIYKTKVKASERPQITSSKATYKLALQSWNPNKIEFLEQFKVL
+LLNKANRVLGIYEMSTGGITATTVDLRLLFTAALKAKATAIIMLHNHPSGKALPSPADKV
+MTKKVKDAGIILDIEVVDHLIITPESYYSFADNGIM
+>tr|A0A1S1J892|A0A1S1J892_9FLAO
+MKNILKIFLIIIIALTTYSCSDDYFDVNTPGNVIPDANKNLKDLLGPAIYYTFDAQYSAA
+TRVSLLTQYTSSALNSSVGVDNHYEESLDSYWSSVYVKALGNLKEVADKADETKSSHYKG
+IVQILQAVNFGLLTDLYGDIPFSQASLASQNFKPEYDRQEEVYKGINNLLDQGIANLSAP
+NTSSFTPGKEDLVYGGNVEKWIKAAYSFKARYALHLSKINTTTAASTVVSYLAKGITSNA
+DDFQLIYNKVQTNPWYNNQLGLNTGNASYLITKQFIGFMNGSTFAFKTVTMDPRMPLLID
+LRSYPVTDGVVNPKDPNPNVPGNYIGGEPGQGSKGTPAPNAKIGLYSYYSKVDSPVVILS
+FSEVKLMQAEAQFILNGGNATSTGTNATGYSAYMDAIGANMDKLGVSAPDKNAYLGDASI
+NKGAASLQLKDIMRQKNIVLYLNCETFNDYRRYDFSTNVFPGLALPKAADPANGGKWIRR
+FIYSTNERNANKANYELNFKSMVTPVWWDK
+>tr|A0A1S1JBW5|A0A1S1JBW5_9FLAO
+MLKIKLYLILIISIIVAIPIINSCCSTLTIPKIPLERTLNSQTVNKNIQFSIIETGTVIT
+QKAFAFKGGSLFKNHKIVHMRFG
+>tr|A0A1S1J4Z1|A0A1S1J4Z1_9FLAO
+MNCKLSLLALLFSFTLSAQITNPEVDDLVNRTLKAFDVPGIAVAIVKDGKVVLAKGYGVK
+SIATQQKVDANTLFGIASNSKAFTSGALAMLVDEGKIKWDDRVVKYLPDFKMYNDYVTRE
+FTIRDLLTHRSGLGLGAGDLMIWPDGSDFKAQDIVHNLRYLKPVSDFRTKYDYDNLLYIV
+AGEIVHVVSGKTWAEFVEERIMKPLEMSNSVASVKRLKDTTNVITPHVPVDGKLKTIKRY
+ENQLFDGAAGIYSSVNDLSKWAILQLNNGKYGDNKPLFSEKEHNEMWQLQTIIPTKTRPP
+YNTHFSGYGLGWFLSDVKGYKQVSHTGGLEGNVTQTTLIPELGLGIIVLTNQQSGAAFSA
+ITNTIKDSYLGIKSDDYVTMYSSRMKDSEASADKVTDEVWATVAKNKKDKLKTDFSKITG
+TYKDNWFGEITITGKKGKVYFASKRSPQLAGEVFFYKDGNYVVKWNNAFFHADAHLLFKY
+DESGKVLNLKMLPISELTDFSYDFQDLDFSKE
+>tr|A0A1S1J5G6|A0A1S1J5G6_9FLAO
+MKKTIALAVLFYLILFAVKSQAQVQDRYFRTISVDKGLSQSSVFAIEQDTLGFIWIGTQD
+GLNRYDSKGFKVYRPVKNVKNSLQSYYIRSLFTDHKGQLWVGGNQGISVYNYSTDSFTNY
+KLPRTIGEWYISSITEDPAHRIWATSITGEVFVLNPEEQNFSSIRFNASSHEIKKIAYIG
+VWQKQIILGTDVGLFKLNPNSHQLTKINLGPKKPYINAVYIDGKKLWVATEGAGLICYNE
+ENGQTSSLLHTAGTKSIADNNIRCIGKDTEGNIWLGTFKGLTIFNPKTNSFSNYYHQIAQ
+PYTISQNSVRCFFKDKQNGIWLGTYYGGINYYHKNDIKFNLLSQNSGKPSLNDEVIGAIK
+QDSKGNFWIGSNDKGLNYWNKNANTISYFSNSENNANSLSSNNIKAIEFDANGNVLIGTH
+NGGLNVLNPNTGFAQRFRHDENNPNSIAGDLVYSLLKDSKGRIWVGTRSGLDQFHPETKS
+FTHLHLDKAGKRLASDDITFLFEDSKHRIWIGTTNGVTLFYPDTNLFATIGRGKLSDDII
+NCITEDPKHRIWMGTREGLRLYDETQESFKNSKARKDFVKENIYGILPDDEGNLWISTNG
+GLIKFNPDKGSVQAFDESDGLQNKQFNDYAFCKAKDGMLLFGGIKGLSYFYPTIVKQQPL
+PLKLSFTALEVLNKTVAAGDDTDILEGHIDQTGELEIGPEYKQYSIFFNTFNYISSNRTY
+YYYKLEGIDKDWQRTDELKVSYSNLSAGNYNFQIKAVGPNGEMSAVRNLKVIILPPWYKT
+IWFSLLLLAIIGTAAYIGFKIIKERIKAVQQLKLERIDKERVNYINQVKMDFFTNVSHEL
+RTPLTLILAPLEELLKMPFTDKVSKKKHELMFINAKRLYNLVDQLFEFRKTEMGTRQLKV
+GKGDIVSFTQEIFESFKPLSEKNSIHYTYHSEEPQLSFYFDKDAMEKILFNLLSNAFKYT
+KTGQSIAVTLVQKKDTVQIKVADKGVGISTEDLSKVFDRFYQVNNREMNLGSGVGLAFTK
+RLVELHHGDITAESKMQEGSSFTVTIPISDAVYNNDQHVEESAYDLAILSDNDLENEDAL
+LPEENEIIEKNQPIKLLIVDDNKEILDYLQDYFSKIYEVTVAHNGQMALELLEIQPYDLI
+ISDVMMPELDGLHFCKRVKQNINTSHIPLMLLTARTETSQQIKGLEMGADDYITKPFSTP
+LLAAKITNLLRSRKRLKEYYAVGKEMVPENIAFNTLDEEFLKQAIRIVEDHLANSEFSVD
+QFSREIGMSRSNLYLKLKAITGESAMDFIKRIRFKKAVELMQSKRYTIAQITYMCGFNSP
+SYFSTAFKQHYGCMPSEYLAKIDDTKE
+>tr|A0A1S1J632|A0A1S1J632_9FLAO
+MVAVINTGHSIRGIFMYNENKVSQGAAVCIGEGNYPIDIEKMSESFKLGVFLKQLQLNEN
+VKRCAVHISLNFDRSDKDLSKEKLMQIACCYMEKIGFGAQPYLVYQHHDAGHPHLHIASI
+NVRADGSRINMHNIGRNQSETARKELEISFNLVRADSRRKQSPALINEIDAEKIKYGAIH
+SKTAIGSVLNAVIPHYKYTTLGELNAVLNLYNVKAERGKENSKMFQNKGLVYQILDENKK
+TVGVPIKASSFYSKPTLSRLEINFADSKTSRMINMKRTRNAVDLLLLKYPNITLSQLETR
+LANQGITAVVRKNEQGLIYGMTYIDHNTRCVFNGSSLGPGYAAKGLLQRLGHSSHYEKQY
+TVPDGTAKKHGSFISAGEVQRIIDEVLYAGTPSDYLPRELKNKRKKRRRKGQSDNN
+>tr|A0A1S1J843|A0A1S1J843_9FLAO
+MTLISTDNTRNQEIVKNVFTLYLEQKGHRKTPERYAILQEIYDSEEHFDIENLYIKMKNK
+NYRVSRATLYNTIELLLDCALVRKHQFGQNQAYYEKSYFDKQHDHIIMTDSGEVIEFCDP
+RIQTIKKTIEEIFDIEITNHSLYFYGNKKQKQ
+>tr|A0A1S1J8X5|A0A1S1J8X5_9FLAO
+MATIITMPRLSDTMTEGTVATWLKKVGDKISEGDILAEIETDKATMEFESFNEGTLLHIG
+IPAGETAPVDSLLAIIGNEGEDISALLAGGAAPAAEAPKTEAAPAAETKTETAAPAKAAT
+ELPKGVVVVTMPRLSDTMTEGTVATWLKKVGDAVAEGDILAEIETDKATMEFESFNAGTL
+LYIGIQEGNTAPVDSLLAIIGPAGTDVSGISANYTAGGAVSAPATEETKAAPAAEKATET
+VAETSNGGRILASPLAKKIASDKGISLNQVKGSGENGRIVKSDIENFTPAAQTPAAATAT
+TTSAAKPQEAAPAAPKVFVPAGEVFTEEIKNSQMRKIIAKRLAESLFTAPHYNLVIEVSM
+DEAMGARATINTVPDTKVSFNDMVIKACALALKKHPKINSQWKEDAIIINHHVNIGVAVA
+VEDGLVVPVLKFTDAMSLSQIGASVRDLAGRAKNKKLGPQEMEGSTFTVSNLGMFGITEF
+NSIINQPNSAILSVGAIVEKPVVKNGQIVVGNTMMLSLACDHRTIDGATGAQFLQTLKQY
+IESPVTMLA
+>tr|A0A1S1JBE4|A0A1S1JBE4_9FLAO
+MYGKIKEHLQNELQTIEENGIFKKERIITSAQDAEITISTGEKVLNFCANNYLGLSSHPE
+VVQAAKDAMDSHGFGMSSVRFICGTQDIHKTLEKKIADFYGTEDTILYAAAFDANGGVFE
+PLLGENDAIISDSLNHASIIDGVRLCKAARYRYENSNMEDLEQQLIKANEAGARFKLIVT
+DGVFSMDGLVAPLDKICDLADKYDAMVMVDECHAAGFIGATGKGTLEAKGVMGRVDIITG
+TLGKALGGAMGGYTTAKKEIIELLRQRSRPYLFSNSLAPAIVGASIKVFELLEKDTTLRD
+KLEWNTNYFKEGMKKAGFDIIDGDSAIVPVMLYDAKLSQTMANELLKQGIYVIGFFFPVV
+PKEKARIRVQLSAAHTKEHLDRAIDAFTVVGQMLKVI
+>tr|A0A1S1JAC3|A0A1S1JAC3_9FLAO
+MIKKILFFLVLTCCFNSPVLLAQQETIAQNGNCPVAAGVTICQGGSGSLTASSFCAGIDQ
+TPMTASGSGGTSNSTSYGGGGNRDITITFPSLPDGAVVTATNVTISFTAIAPSLKSELLV
+RVTPPVTVDRVQTNLNPLPATVSENNNPGGAINIPLGTWGTGNPSGDWRFEFRESLNNPE
+VMPDANITDVTITVKYTLPATIDWYTTASGGTKIGSGASFNPVGISGSGLIDTNTGGTTS
+YYVACSGDPTCRTKVDFVIHDDPPAVADVVICQGGSGSLTALSICPATAQIPMTARGSNG
+RSNSISYGGAGNRDITINFPLLPAGAIVTGTDIKISFTAVAPSFKSELLVQVTPPVTVGA
+KQSNLNPLPADVAENNSAGDASNISLGTWGTGNPSGDWLFEFKEALNNPEVMPDANITDI
+TITVNYTLPATIDWYTTASGEDKIGSGTSFNPVGVSGSGLIDTNTPGTTSYYEACSSDPA
+CRRKVNFVINKSPLVATGVTICKGGSGFLTASSACAALAQTATTASGSGGRSNSRLYGGA
+GNTNITITFPSLPDGAVVTATNVKISFTAIAPSLKSELMVKVTPPLAVGAVQTDLNPLPA
+IVAENNSAGDASNIPFGTWGTGNPSGDWVFDFREVFNNPEVNPDANITDVTITVNYTLPA
+TIDWYTVASGGTKIGSGASFNPVGVSGSGLIDTNTAGTTSYYAGCSGDSACRTKANFVVD
+LATPVLGTVTQPTCSVTSGSIALSGLPSGGTLTRSPGAVAVSYTGTKVTDANLAGGTYSY
+TVGNGNCTSAATTQVVINTPPAIATYGMGGWDDTPTIDKKLIFSSDFMSTGDASGCSCEV
+NSGTNVVIGEGHTLTIANDVKVFTGGTMTFKNTASLMQKNNVVNAGDIMYERTTSPIFLK
+DYVYWSTPVSPQTLVNLSPLTPSTMYYGFDGTQWVRTNKTDNMIAGKGYIIRAPSNYSNV
+FKTAYPASFKGVPNNGNIETELLTSGKSYLIGNPYPSAVSADDLIINATNNAVINGTLYF
+WTHNTAAVPTLTNQYTADDYASYNISGGVSAKSDPGYNNNPTLDKGVKPTGKIVAGQAFF
+VTTKAAGKVLFTNAMRLGALDNGQFFRSANPKKGTAIEKNRIWLNMTSTTGAFKQLLVGY
+IEGATNEYDSNYDGLTFDSNPYLDFYSISNGNKYVIQGRALPFTDADIVPLGYRTAVAGD
+FTIAIDEVDGKMLNQKIYVEDKATGVIHDLTQSNYTFKTEVGNFTERLVLRYTSKTLGVG
+DFENLKDRVLVFIKDKVIVIQSSQENIKEVTVYDMLGKMLYNKKKVGNTEVQIQNLPSSN
+QVLLVKVTLANDFTTTRKVIFQ
+>tr|A0A1S1IZ46|A0A1S1IZ46_9FLAO
+MKELVAKINTEIETFKAESDSLIEKGVKAAGARARKSTLEIEKLLKEFRKVSIEESKK
+>tr|A0A1S1J388|A0A1S1J388_9FLAO
+MEKKDFQFKTNLNCGGCVSKVQSDLDNAAGICEWNVDTTNADKMLTVQSNGATAEEIIAI
+VKAKGFKAEPLEN
+>tr|A0A1S1J495|A0A1S1J495_9FLAO
+MTFTKTTEQSSKYEHLEKMSVHELLVNINQEDKTVPDAVEKAIPQIETLVAQVVSKLKLG
+GRLFYIGAGTSGRLGVVDASECPPTFGVPFDLVNGIIAGGDTAIRRAVENAEDNATQAWI
+DLQANHIDQNDVVIGIAASGTTPYVIGGLESCNQNNILTGCITNNAGSPLALTAQFPVEV
+VVGPEFITGSSRMKAGTAQKLVLNMISTAAMIQLGKVKGNKMVDMQLSNIKLVDRGVKMI
+MGEIPVSYEQASELLKKYGSVRNAVDNYNL
+>tr|A0A1S1J8P9|A0A1S1J8P9_9FLAO
+MRILTPSKRVFFTLTMITLAYNIQAQDQNLTLNQDPKFEQLLNDKRKINTSISTNDTYKI
+QIFSGKSEEAKKTLSDFKREYSNIDGTIIFNTPNYKVIVGNFKTRIEAERNLADIKKRHK
+NVFLLKPGK
+>tr|A0A1S1JCC6|A0A1S1JCC6_9FLAO
+MKYKLLIGIVLVSLSVLSCKKEVENPSTNTSFALSESMLKTTTTAEAKTQPVKNVLSFYG
+KITADNNKMIDVYPLVGGNVIKVNVELGDYVRKGQVLATIKSTDIADFEKQSIDAKNDLL
+VAKNHLKVAQELFDGKLNSESDVLQAKSEVNKAQSQLSKVQETYKIYNIKAGSIYEVTAP
+ISGFIIQKSINQDMLLRNDRSENIFDIAEISEVWALANINEIDINKVKLGIDADVTTLSY
+PDKVFKGKVDKIFNVIDPETKAMQARIKLENPGYMLKPDMNANIKLSYSESDSMIAVPSK
+AIVFDKSKNFVMIFKDRNNIETRQVDVYRVVGDVTYISKGLKDNEKVITNNQLFIYRALN
+E
+>tr|A0A1S1IZM3|A0A1S1IZM3_9FLAO
+MIKEKENTALKTKAGSKTPIIEIRDLHKTFGTDNTVLQGVNLTVNKGEDLVILGRSGSGK
+SVTIKCIVGLITPDQGEIKVFNENVLNLKKPELNQIRVRIGFLFQSGALYDSMSVRENLA
+FTLQKHKQNLTPEEVETEVMEALDNVGLADAIDKMPSELSGGMQKRIGLARTLILKPEII
+LYDEPTTGLDTITSREISELILDIKHKRKTTSIIITHDMACAKLTADRIMVLKDGVIHAE
+GTYEELEKNEDEWVRSFFE
+>tr|A0A1S1IZU0|A0A1S1IZU0_9FLAO
+MTFKHFIFLFLSWASFAQSTEFPSTKVDSIVNRIQLPVIPSYQINVIKLGAKGDSITNNK
+PFFDKAMALCKKNKGGTIIVPKGIYKINGPIHFVSNVNLKLEKGAKIKFSDTPTDYLPMV
+LTSWEGTMLYNYSPLIYANECSNIAITGEGTIDGNGGKIWKNFKGKEGAGKNRSREMNHS
+STPFEDRKFGEGYFLRPQMIQFLNCKNILVENIHIENSPFWCLHLLKSQSITVRGVHYKS
+LNHNNDGIDSEYAKDVLIENVTFDNGDDNVAIKAGRDHEGRANSATPSENIVIRNCKFKG
+LHGVVIGSEMSAGVQNVFVENCETAGYLKRGIYLKTNADRGGFIRNVFVRNIKLDEVEDC
+LYITANYHGEGSGFQSEISNISFSNITCNKATASGIVIQGFPDKKVHNISFNAINIKWAK
+NAISSENAKDVLLNEVVIGEKATVPTAAK
+>tr|A0A1S1J2P0|A0A1S1J2P0_9FLAO
+MKKVVFIACSIALLFGTKIQAQTSKEKLSKTDKPMTKETIYQFKVEDLSGDTFDFASLKG
+KKVMIVNTASKCGLTPQYKDLEAIYKEYKDKGFVIVGFPANNFAEQEPGTNKEIETFCQQ
+NYGVTFPMMDKVSVKGSDMCEVYKFLTQKSKNGLKDSEVEWNFQKYLINEKGELVKVIKP
+RTLPTDPEVINWIKG
+>tr|A0A1S1J4K6|A0A1S1J4K6_9FLAO
+MSYYKIENLEQYFKHYNKSIREPRKFWGKIAEENFTWYQQWEKVVDFNMADAEVKWFTEA
+KVNITKNCIDRHLSKRGEKTAIIFEPNDPSESALHITYNELYERVSKMANVLREQGVRKG
+DRVCIYLPMIPELAVAVLACARIGAIHSVVFAGFSASAVSARIIDCECKMVITSDGGYRG
+NKNIDLKGIVDEALETCPSVTKVLVVKRTNNEVKMRDGRDEWLQPLLDKALDNSVAEIMD
+AEDPLFILYTSGSTGKPKGMVHTTAGYMVYTAYTFKNVFNHEENDIFWCTADIGWITGHS
+YILYGPLLNGGTTVIFEGVPSYPDFSRFWDIIEKHKITQFYTAPTAIRSLAKESLDYIQK
+YPLKSLKVIGSVGEPINEEAWHWFNDHVGDKRCPVVDTWWQTETGGIMISPIAFVTPTKP
+TYATLPLPGIQPVLMDEKRNEIEGNQVVGSLCIKFPWPGIARTIWGDHQRYKDTYFSAFP
+GKYFTGDGALRDEVGYYRITGRVDDVVIVSGHNLGTAPIEDAINEHPAVAESAIVGFPHD
+IKGNALYGFVILKETGEVRDRSNLSREINQYISDHIGPIAKLDKIQFVSGLPKTRSGKIM
+RRILRKIAEGDFSNFGDTSTLLNPEIVDEITKGRI
+>tr|A0A1S1JC33|A0A1S1JC33_9FLAO
+MSKVIGKVAQIIGPVVDVVFNGKDVELPKIYDSLEVTKKDGTLLVLEVQSHIGENTVRTI
+SMDSTDGLSRGYEVVGTGNPIQMPIGPDVYGRLFNVVGDAIDGLGELPKTGENGLPIHRQ
+APKFEDLSTSSEVLFTGIKVIDLIEPYAKGGKIGLFGGAGVGKTVLIQELINNIAKGHGG
+LSVFAGVGERTREGNDLLREMLESGIIKYGDDFMHSMENGGWDLSKVDMPGMRESKATFV
+FGQMNEPPGARARVALSGLSIAEYFRDGAGTDQGKDVLFFVDNIFRFTQAGSEVSALLGR
+MPSAVGYQPTLATEMGAMQERITSTNKGSITSVQAVYVPADDLTDPAPATTFAHLDATTV
+LSRKIAELGIYPAVDPLDSTSRILTPQILGNEHYDCAQRVKEILQKYKQLQDIIAILGME
+ELSEEDKLSVSRARRVQRFLSQPFHVAEQFTGIPGVLVDIKDTIKGFNMIIDGELDHLPE
+AAFNLKGSIQDAIEAGEKMLAEA
+>tr|A0A1S1J1I4|A0A1S1J1I4_9FLAO
+MPKRKYKIAVIQLNLNDVAENNLKKCISWVRDAATKGAEVILLPELYSSHYFCQSEDVDN
+FALAEPLYSTSFIAFSALAKELGVVIIVPFFEKRMAGIYHNSAYIIDTDGTEAGLYRKMH
+IPDDPHFYEKFYFTPGDLGFQAIETKKGKIGTLICWDQWYPEAARITALKGAEVLFYPTA
+IGWHPKEKEEYGVNQYGAWMNVMKGHAVANGVFVAAANRIGLEKYIEGTEGIQFWGASFI
+AGPQGEILAQASHDQEEILIAEVDLDLQENVRQNWPFFRDRRIDAFGDITKRAID
+>tr|A0A1S1J4E0|A0A1S1J4E0_9FLAO
+MNSKNSTITLETYFQDFRKNIVGINQEFSSPFGKKQIIYTDWTASGRLYRPIEEKILNEF
+GPFVANTHTETTVSGTAMTKAYHHARSIIKRHTNASNDDVLITDGTGMTGVVNKFQRILG
+LKIPENLKDCTVVPAEKRPVVFISHMEHHSNQTSWLETIADVEIIPSCEKGLFCLDNLKQ
+LLEKYSERTIKIASITSCSNVTGLKTPFHEAAKLMHKHNGVCFVDFACSGPYVEIDMHPQ
+DPEAYLDAIFFSPHKFLGGPGTSGVLIFNKKLYNNMIPDCPGGGTVSWTNPWGEHKYIDN
+IEDREDGGTPGFLQVIKTALAIELKEEMGIENILQREHEIVEYVFNELDTVSNIKILAGQ
+HKNRLGVVSFFIENLHFNLGVKLLNDRFGIQTRGGCSCAGTYGHFLLHVDQETSNKLVNE
+ITIGDLIKKPGWIRMSIHPTTTDKEIAFVCESIKDLAKNHEEWALDYSYNKDTNEFVHKN
+AGSFEDDLVAGWFKS
+>tr|A0A1S1J5H5|A0A1S1J5H5_9FLAO
+MNHTIVNPKGIDKEIQVIQNALFSKLGWPKMDIYGRVHKNLSKDKGYVPEFYMGKNEYKD
+VFTNDLQASNIFFIDDETHTTDNRVFYFSDVKIVFMVDLRKIKPNINHRADMEVEVEALK
+VVKQHRMFQIDGFEKGVEAVFKGFNIDHIRKLNIQPYHVFALTGKLKYKINC
+>tr|A0A1S1J6D1|A0A1S1J6D1_9FLAO
+MEDKSIFKSWVPKWAIIIILFVCLLHSMILLGVYTSNVTYAASFLDIEPEDLQFAMCVTY
+GTLLATILIEARFSSFFPAKNYLMAVYSLIGITIVSSAYITNFSLFLIMRIAEGILMALP
+VITIRQLLIEQFNSKSAIIIGFSFYYGALLLSTPFIMNIAVWFLDHYDWKYMLYVSGGLQ
+VLNVFLILVTFRGHRITKKIPLYQIDWMSYFLVLTAILCGAYFFVYAEKKYWFDSSQMVL
+TLIVALISGGLFIFKELLVKRPTFNFEVFKYANLRIGFLLFFLFYISRATLSLCHSAMYS
+IWNWDPSRVAGVQYINGLGNVIGLVLAAFFLMRSVSTKIIFIIGFSLIALFHFWFTFLFV
+PDVALSDIIIPYVLQGIGVGFLFVPLILFTTSSVPSKMAASSGIVGVSGRFWGSTIGFCV
+MQNATVFLNKKHFLKLSQFVTGDNPEAQQTIAATTQSFIAKGYSADNANVLAMKKIFGTV
+TKQATLLADMEIYTIMGYSLLVLIFLIACNQHLRQTMTLVKSKIWIG
+>tr|A0A1S1J6M9|A0A1S1J6M9_9FLAO
+MSTLFVKNMVCNRCIMVVQNELEKLSLKFTNIKLGEVTLTKELTATERTLLEQELVALGF
+EVIDDKKSRIIEKIKNIIIDLVHHQDNDTKNNLSDILSEKINHDYNYLSNLFSEVEGTTI
+EKYFIAQKIEKIKELLVYDELSLSEIALRLNYSSVAYLSNQFKKVTGLTPSYFKQIRAEK
+RKPLDEV
+>tr|A0A1S1J7N9|A0A1S1J7N9_9FLAO
+MKKIILGILTFSFFACSTEENTKTPPEQVKEEVKQDPVVSVPPKYCESAGIITSEERLDK
+VVFGSINNASTGKGGYEDFTNISGNFALGSSNTISLTPGLYSQYGKDGFGVQFFVYIDYN
+QDGDFTDPGETVWKSKQGTDPVSGTITIPSTASLGSTRMRIEMRSILSLPGTPVTDPPFG
+TGCGTFQYGQVEDYTVNIKAKL
+>tr|A0A1S1JAW5|A0A1S1JAW5_9FLAO
+MIIYNVTTNIHESVQEQWLKWMQEKHIPEILATQKFSSARIVRVMIEEEMGGITYSVQYV
+TDSKETLERYYIEDEPAFHREALELFADKMLSFRTELEVISEH
+>tr|A0A1S1JB78|A0A1S1JB78_9FLAO
+MQNEQIISTEKEKSFVQSYRHREWNDVPDEKWNDWKWQLSNRLNSFEEISEIINLTPTEA
+NALNQNSLFRVDITPYFLSLVDKDDFNCPIRRQVLPTEKEMYDFSGMNEDSLSEDEYSPV
+NGIVHRYPDRVLMLVTTQCASYCRYCTRSRLVGDSSKNYNSTDFDNQIEYISNNPQIRDV
+LLSGGDPLLLPIKRLESILMRLREIPHVEIIRLGTRTPVFNPNIITQEFCDMVEKYHPFW
+LNIHVNHPKEITPELQQACDKLSKAGIPLGNQTVLLKGINDTVEIQRKLCTELVKMRVRP
+YYLYQCDLVKGAGHFRTPISKGIEIMEGLRGHISGYAIPTFVIDAPYGGGKIPLAPNYVL
+SQSPNKVVLRNYEGFITVYTDSDQEPDQEITSGNRKGKDISIMDLIQGNEKFIMPQNFRN
+SKRED
+>tr|A0A1S1JBV5|A0A1S1JBV5_9FLAO
+MKNLLLYILLTFSLAVSAQEKDKTLPEANEEYKQNKFTDAEANYRISESKFPKRTAAPYN
+LGNTIYKQNQVSEAKFAYAKAIKNAKARPDKHKAFHNLGNVFMKEKNYTQAVEAYKEALR
+NDPTDDETRYNYALAKQKLKENPPKNDKNKDKDKDKKNDKKDDQKKDGDNKDKKDGKDDQ
+KKDDKGDKDKDKKDGKNDPKKDDKSDNKGEPKPMPGGISKERVQNLLDAVNNEEKKIQDK
+VNAQKVKGNPKKTEKDW
+>tr|A0A1S1J479|A0A1S1J479_9FLAO
+MITIDSINNWFIQNFGAITPEQVRSWFIYNPEEKLLFNTGLFLGLFLVFYFVYAFLRKTF
+YLRLTYVILFSLFFYYKSSGIYFLLLLLSSVVDYGLSQIIYREAKDSTKKIYLVISVILN
+LGLLGYFKYMNFMIVTFNDMFHGNYELHDIFLPVGISFYTFQSMSYIIEIYREEIKPTKN
+YIEYLFFVSFFPQLVAGPIVRAKDFLPQIYQKLNLTREDVNNALFLIIGGLIKKTVISNY
+ISINFVDRVFDTPMNYTSFENLMASYGYAIQIYCDFSGYSDMAIGIALLLGFKLPANFRT
+PYKSTSITDFWRRWHISLSTWLKDFLYISIGGNREGTFAGFLFPSLFFFGLLLWGISNIN
+ESFIPLGIAIGALVLFCLTFLLSKKKNQTLVTNFNLFTTMLLGGLWHGAGAQFIVWGALH
+GLALAVHKIFMEFFPPKKEGKGSGFLWKFFSIVITFHFVVFCWIFFRARDFETALQVINN
+IGQLTFEPEHWQAIIIGYKNVFLLMLFGYVWHVLPEAITSKMKLVFDKTPLIGKAIILGF
+TYWIVYATAVAGSQPFIYFQF
+>tr|A0A1S1J9E9|A0A1S1J9E9_9FLAO
+MRHNFKNLKIWILAIEITNDIYKLTATFPKSETYSLTSQMNRCSVSIPSNIAEGSNRGNK
+HFQHYLNISLGSSFELQTQLLIACQNDYLTKEKTEKLENKIIEFQKMTTGFINKLDNNLP
+S
+>tr|A0A1S1J4R2|A0A1S1J4R2_9FLAO
+MKDLTSSSKNCVDPIPDSRYPVLETFTGPQPRLPQFWKCTCVLHPFSPLQSNSTTADKES
+PFFEICTATVYYAEGLGLNALLVGASGRRWWYRITPTQTEVSTDGIRYTPINVGWRIPTT
+NWFGNESSRAKCSGTSYLNWMKAQKVDWWKIPVGNSSPAPATWMWFDHKTNFPVRLMFGQ
+GPVARPGLGDVNQLALFQMFSFTYFSTFEKLSSNPLNTPLVPPVVEGFSFGNPDNYELFT
+WNTNFGMTVFMTPVNEAFNPLPTRVLYNWRDNSQYSVSSDRSQSTLMKYTYNPTNPFTAQ
+QALLTGPTPTGMTPPPNSGAGFLINYVGDRITNAIGFGNFPFPQQPPNWVQIPAVQGKIH
+ATIVRNPALCPGNTATVVGVFFPPSGNNYPDSTYLWTWYSPFDRTGRRSRPITFMQSQSG
+VGLGTSLALADYFDYEEFTTPIPACNFAVPPVDFTVQAKPNPSTPDNPNPSYPWLDTGVR
+LNPSRVATIKYKDGLWTANPNINNGHLYNSAGNPTFISAKPGYALPGANEGALVGKIGDT
+VFLIGLGANTPPGLVGKLELCINDDLKGIYGAGLTDNIGQVNVQISVSSPRKEKLEPVIE
+SGTEPTLENEPVSE
+>tr|A0A1S1J5N3|A0A1S1J5N3_9FLAO
+MKKILVPICFFLATIAYSQDDLLSSLDSTQVQENFPTATFKALQLVTLQTTKMPAKKEFY
+FVVSHRFGSVKDGFDSFFGLDNATTKLGGIYGVTDWLSVSLSRHTLNKLYETGAKYRIMR
+QSNSFPVDIVGYSVADINTFLEKHQYPGLEFKHRITFVQQLLLSRKVNEKLSLELVPSFV
+HRNLYNPDLERDNQFSFGGGGRYKITKRLSVNLEYMHNFNKPNFYENPLSVGLDVETGGH
+VFQLIFTNSQAMSESGYLTNAAGNWGKGDFFFGFNLYRVF
+>tr|A0A1S1J8W8|A0A1S1J8W8_9FLAO
+MKGPLFYSKILLFGEYGIIRDSKGLSIPYNFYNGALKKTEEPSAEAMASNASLKRFAAYL
+ETLQTEQPDLVAFDLTALKNDVETGMYFDSSIPQGYGVGSSGALVAAIYDKYATHKITVL
+ENLTREKLLQLKNIFAQMESFFHGKSSGLDPLNSYLSIPILINSKDNIEATGIPTQSFDG
+KGAVFLLDSGIVGETAPMVNIFMESLKDKGFRTMLKNQFVKYTDACVENFLHGDMKSLFT
+NTKKLSKVVLNNFKPMIPEQFHGIWQNGIDTNDYYLKLCGSGGGGYILGFTEDLERAKAS
+LKGYKLEVVYQF
+>tr|A0A1S1JA35|A0A1S1JA35_9FLAO
+MALKYNLSKVYALSDNDPEFVNEILKLFVTEVPEDLKQIKEGIKKKDHKYAYSYAHKIKP
+TLDLMGLNVAFEEILQVEAWTKAEGKKKEIIETFKSIKLQVKEAIKEIKKDFDV
+>tr|A0A1S1J269|A0A1S1J269_9FLAO
+MKKIIILIALTIISCGKKEDGKLTQDDIKILKDKSINQGDKYSYSLLVAHYQNIGSYEML
+PYSFIIAKKHKNPDAFIEIYKDLIKLENNGKFKESLILNLSKEETSYVLSLLQRGAELDD
+IDCKVFLAHHYRDGLGLPKNQKIADSIMNTIDKND
+>tr|A0A1S1J3E5|A0A1S1J3E5_9FLAO
+MEILQKLSHYRFSRYFKLLFVCVDVVLLNLATVLSALTRFGGLDKLLSKEERTVSLLAIL
+IWVALLFQNDSNRSVRVEPIESILVRTVKKLVIHAALISIFVVYLKYNDISRLRLLSFYL
+IFFGLLMISRYLSMKLLKYIRSRGYNFKTFIIVGANESGERIRKILAKDLTYGYKFLGFF
+DEKKDSSIIDPANILGDFNAIHKFVIERKVDEMYVALHIDQIEIINKLTQICEQNMVRIK
+FIPDFQQYTKSSKVEVTFYENTPVLMFRTEPLEFAVNRLIKKVFDVVFSLSVILFVFPWL
+FPVIMLIIKIESPGPVFFKQERSGRDNRSFMCYKFRSMRVNRLAHKKQAEKGDSRVTKFG
+SFIRKTSIDELPQFFNVFLGDMSVVGPRPHMVNLAKEYSDLINNYLVRQYAKPGITGWAQ
+VNGYRGETKELVDMENRVEYDIWYIENWSLMLDIKIIIKTIINIVKGEENAY
+>tr|A0A1S1J1M1|A0A1S1J1M1_9FLAO
+MKIVKTIFFAGAILLSVASCDNLEDLNQDKKAYTTVLPGALMTNAQVNYAFFLTNASVNS
+NNFRGYAQYWSTTTYTDEVNYNMERRNLGSSLSTLLYRDVLQDLVNAQKDIKSKEALGAV
+DTAIKKNKIAVLDVQIVMAYQALVDLFGNVPYSEALDINLYPYPKYDDAKTIYLDLAARL
+DAAVAAMDSSKESFGKADLIYKGDVAKWKTLANSVKLKLGLHLADIEPAKAKAIVESAYN
+SGVMTSEDQTALFQYFSSLVDMNPLYDTLVNESQTIPTEYFVNQLNGKNDPRRDIFFNPN
+SKKQGNYKGAPYAKQVSYGDFSNMGSRLKEKTNPGVIFDYTETCFLLADAANRGFSVGGT
+SEEYYKKGILASMNFWGVASADAQTYLSRTDVDFATAAGTTKEKIAYQLWIAYYNRGFEA
+WTEYRRLDFPVLLAPSTAVDAAKGKVPVRTIYSLFDKTLNKENYEAASAAIGGDLMTTKI
+FWDKF
+>tr|A0A1S1J2I2|A0A1S1J2I2_9FLAO
+MRTLRTKYLSNIPINEDNYKVDFIILEKYQSFSSEILRLSLLGLTIYGFLITNVIFKITD
+VDKKNFIFIKPFSGNKLLLLLGAVILILTALLALSHRYFSTDCMTHFIRGFRLRQKIFEI
+KSAQTDNKKVLNKLKKTLKNEKLSFEKDLNLCKWLLITSCLFLIAGILIITIALASSFKD
+LLI
+>tr|A0A1S1J585|A0A1S1J585_9FLAO
+MFKNKTLLITGGTGSFGNAVLNRFLHTDHFSEIRIFSRDEKKQDDMRNQLKSDKLKFYIG
+DVRDYNSIERAMRGVDYVFHAAALKQVPSCEFFPLEATKTNVFGTQNVIDAAGINKIKKV
+ICLSTDKAAYPINAMGISKALMEKVAVAASRNLNETTVCLTRYGNVMASRGSVIPLFLKQ
+IKEGKTITITDPNMTRFLMSLDEAVELVLFAFEHGNPGDLFVNKAPAGTIGDLAQALKEL
+CNADNEVKIIGTRHGEKLYETLCTREEMVKAEDMGEFYRIPADNRDLNYAQYFSEGEEDV
+SLIEDYHSHNTEQQGVEGMKKLLSTLPLIRKEVFGEDVAQMPG
+>tr|A0A1S1JCR2|A0A1S1JCR2_9FLAO
+MKKAIIFDETYWKKAKFNLLFIISACVIFIGLTKFLLKTPDFNNTDMLNRINDYEKMQKI
+KVDYANKSKLIFKTIDTIKYDINQVQRIDEVKRNISEYKQLYKDNEFHSSYNFCLIGGNL
+LNVFLEINLEESTVKKNDTLVQTSLNECKADFKNEH
+>tr|A0A1S1JAJ3|A0A1S1JAJ3_9FLAO
+MGYIKYTQYVYIIFAIYFIYDGFTKINDGNDTAALSFLIAGMAVFMFFFRRKFVKKFDDR
+NKKQ
+>tr|A0A1S1J7V7|A0A1S1J7V7_9FLAO
+MENKITVPKPCNENWNSMSPNKNGRFCGSCSKTVVDFTKMNTTEIQNYFIENSGKENICG
+YFKSTQIETEKNTKYDHLKNRFNRIRIKPIKKMALFSLSLVFSLTSCMGKAMVNGETAVI
+DNDTINETKVTKPEDTIKPKDSIKTENIRLKEKNTSSR
+>tr|A0A1S1J3E3|A0A1S1J3E3_9FLAO
+MQNLPKKVRSKKLNTKVDLTAMVSISFLLIIFFMITIELAKPKGIDLDLPDYSDTCGGMG
+CIRGNRLYTIILDDNDNIITYSGVLSYPLEAPKEVKFGKNGIRKEVFLKKKEVSDYMVSV
+GKPKNGMVVIIKPSKKSNFKNLVDILDEMKIAGINSYTIINDFMPEETKLLAAK
+>tr|A0A1S1JC19|A0A1S1JC19_9FLAO
+MSIITLTTDYGLKDHFVGSLKGKILSEYPEVTLVDISHDIDPFNTAEASYVIGASYLSFP
+KGTVHLIGVDIERNKENQHIAMQWNDHYFICADNGILSMLTQKIVPQKIVAINIHDRFPS
+EFSDLDIFIKVACHISKGGLLNVIGKEIKEIKQITELQPVVAGDNNSIKGYVIYIDHFGN
+VVTNISKRQFTEVAKGRAYEIVMKPKSIKTILPNYSAIASSDKYPIKTYEGEKLAIFNEA
+GFLEIAIFRSNPSKVGSANSLLGLNYRDVITIKFL
+>tr|A0A1S1J3P4|A0A1S1J3P4_9FLAO
+MKKIILAAVLFIATSATIQAQLVQFGVKAGVNFASQTGDAGLQGVAFDKEGITSYHVGVV
+AELKLLDKFAIQPELLYSTQGATYKNAVNEFKNELGYLSIPVMAKFYLNDTFSLEVGPQA
+SFLLSEKNKFDVKDAQTFEFGLNAGLGVKLTKSIFVQGRYGLGLTEASKNADVKNSTFQI
+SAGFLF
+>tr|A0A1S1J5A5|A0A1S1J5A5_9FLAO
+MARYTGPKTKIARKFGEAIFGDDKSFEKRNYPPGQHGMAKKRGKKSEYAVQLMEKQKAKY
+SYGILEKQFRNLFEKASATKGVTGEVLLQLCEARLDNVVFRMGIAPSRRGARQIVSHRHI
+TVNGEVVNIPSYHLKPGDKVAVREKSKSLEAIERSLSNSSHVYEWITWNNDLKEGTFVSV
+PARLQIPENIKEQLIVELYNK
+>tr|A0A1S1JAB4|A0A1S1JAB4_9FLAO
+MKNRIIFFLSIGFLTMLASCGTSKSMRHQPEIAKYNATKPVVTKLSDSIFISGKNSLLKN
+KQGLWELYAEGDPLEIGLNTGALSDSLLKKQERIFFSKIQDIVPSKFQQKLLRHFLKWYN
+RKLYLNVPEEYQTEIFGVSQYTSPDFNNIAPQYHRSLYLHAAHDIGHALQDLALVGCSSF
+AAWGEKSEDGNLILGRNFDFYVNDAFAENKIVAFINPKEGHKFMMITWPGMIGAVSGMNE
+KGLTVTINAGKSEIPLIAKTPISILTREILQHAKNINEAIAIAKKRAVFVSESIMVGSAE
+DNKAVLIEVTPQKMDVYETPNGNQLFCSNHFQGEDLKNEKRNQFQMANSHSKYRMEKMKE
+LFSENPKIDPEIASKILRNKEGLNNINLGYGNEKALNQLMAHHGVIFKPATKQVWVSTNP
+YQLGEFVCYNLDSIFKERKTDRIVSLQQVNLDIPKDPFLETIAYKNYQKFRVEDHKFDLY
+LKNKETISPEFIPNYQSLNPNYWVVYYKAGLYFYQKKEYRLSQSNFEKALTKEITTVPDK
+TVIEKYLKKIKRKLQ
+>tr|A0A1S1JAQ2|A0A1S1JAQ2_9FLAO
+MKKIHFLTAFFGVIAAYSQQISDTTEPKKLKEVHIITERYSKSTQDMKHISQKEIEFQKS
+QNTADLLANTGSVFVQKSQQGGGSPVLRGFESNKILLLIDGIRMNNLIYRAGHLQNIITV
+DENSLEQIDVLFGPASTIFGSDALGGAINMRTKNPMFLSQTDNKMFSGNAMSRYNSANKG
+STQYFDINFAGKRWSSLSSFSYNNYGDLRMGANTNGKNGSFGERPQYVETTNNVDNLIQN
+ENPLIQKFSGYKQYNAMQKILFQQDEYTQHSLNLQYSSSSDVPRYDRLTDPSGSGLKYAV
+WNYGPQKRFLSAYKFSKQKALFNSDMNLGVSYQNIEESRISRKFNDDKTKSQVEKVNVFA
+FNADFRRKLGKGDFLYGTEFFYDNLNSTATSSNRITGIVSPTDTRYPNGINHTFRADVFA
+TYNEKINETTFYNLGIRTGYSSLKSTIANNSFFRLPYNVIEQSNFTYSGTAGIAKNIQST
+KLVFNLASGYRVPNVDDLGKLFESVPGTLIVPNRNIAPEKSVTADFTVAFGQGKRVQFDN
+TVYYTRLFDAIVTDHFLYNGQSSVIYEGVQSEVFAMQNKGNAYIGGFSSTLKMAITKPLG
+IYGMITFTKGEIMDRAGNTPLDHISPMYGKAGLKYENKVMLLDFYTLFNGKKDISDYSTN
+GEDNQKYAPKEGMPAWQTFNFKTSFMVDKNISLYAGIENILDLQYRVFASGINASGRNIS
+VAAKYRF
+>tr|A0A1S1JD65|A0A1S1JD65_9FLAO
+MKTILKLEELGMFILGIYLFSLLNYQWWWFLVFILAPDFSMIGYAFNSKIGALSYNLFHH
+KGIAIIIYILGCYLKIEYIQLIGIILFSHAAMDRFFGYGMKYQKGFKYTHLGEIGK
+>tr|A0A1S1J4E2|A0A1S1J4E2_9FLAO
+MKTIAIIPARGGSKRLPQKNIKLLGGIPLLAHSIMYAKANSAIIEEIYVSTDDESIKEIA
+LKYGAKVIDRPADISGDHEATASALKHVLQNIDHEVENVVLLQPTNPVRPESLLKETFEI
+YQKEDSDSLFTVSRNYKKFGKITDQKFVPYNYKIGQRSQDMEPLYFENGLLYITKASLIF
+EDIIISEDAFPFKIDHIFANVDIDTQEDFDFAEFLYHKYIKP
+>tr|A0A1S1J6V5|A0A1S1J6V5_9FLAO
+MKESDKNIENLIDKMMSETTLDSPSIDFTSKVMAQIQVTEKSGAKVYKPLISKSTWFMIG
+LALIALMVYAVFFGGTNNNLEIGKSYTDKISMLFSGIHLSKNVLYAILVVPFMVLIQVGV
+LKNYFDKKYQV
+>tr|A0A1S1J316|A0A1S1J316_9FLAO
+MSESIIELLLKGTWETIVMTFVSGFFGFLLGLPTGVLLFLTRKNQILEQPVLNRFLSVLV
+NVFRSIPFIILIVWMIPFTRSLVGTSIGVSAALVPLSIGAAPFIARLVENSLLGLPSGLI
+EAARALGATPLQIVFKVLLPEALPSLINAASITLITLVGYSAMGGAVGAGGLGQVGYQYG
+YIGYDAVTMNSVLALLVVLVFLIQFAGDALSKRFDHR
+>tr|A0A1S1J816|A0A1S1J816_9FLAO
+MILFPTKVYSRKNSIVYDEQGIEVLKFNSYLPDFAKLSVDTINYMNRYYLISPEKFEVLN
+QEEKK
+>tr|A0A1S1JC27|A0A1S1JC27_9FLAO
+MNIKNRTVVILLSCIAVILVIVALLFPYNKRLSNLDFSIVDDNSNHQYELNEELSFKIND
+STLISDKKAVWYFGNGDSIVSKGSVNYTYDKAGKYLVTLKIDDKFDFSKQINIVNGRRLT
+ARDSITKIFCPEFGYVGEEIVFTGYSPSSNNWYWEFGETGTIDSYEKQAIYIFTQPGIYT
+VKLETDKTKYPITKEIEVLQLYEPFKEPEAVDSSGIVLNDIKKRLQTIANLGARDTRTYR
+EQVNYLKNKYICNDLSDVVVVVNEEKYNDFLSYCQGLHYLEGNETIIEDVKLDNIKCFKQ
+INITQKTKNKTK
+>tr|A0A1S1JD06|A0A1S1JD06_9FLAO
+MRIFTLLLLFFGFNQCIYSQDQKISINYNNINRIEVLKKIEASTNYKFYFQKEWIDNNVL
+ISGDYSNKAIQDVLSKIFEDTDLNFFITKNKVILTKNSIIYDKFQNDKVKAGNIPIFFQQ
+YDSVKKNKTDQAAPIALIGKESIDSETDFYTISGYITDLKDGKPLADITVKAKNTTATTV
+TNAQGFYSLKLPVGLATIEIESLLYNNTARKIMIYSDGTLDFPIIEKINQLKEVLVKGKN
+SQNIRTAITGVTTIEAEGVKTVPLVLGERDVLKIALTIPGIKTAGEGSSGFNVRGGKEDQ
+NLMLLDNGTIYNPAHLFGFFSSLNPYTINKVDIYKGGIPSEFGGRLSSVFDITSKNGNTE
+KFSGEGGIGPVTSNLTASIPVVKGKASLLLGGRATYSDWILKTLDDENLKNSQASFYDLF
+AKYSHKINKNNTVEGTAYYSKDKYSITPDSLYQYSNRLISLKWKHAFNEKNNSELNVSNS
+EYKFSIDYESVNPESFIFKYKINETQASLKFNSELNSKHKFTYGISSKLYNVSPGELNPN
+GETSIVTPIKVDNEKGLESALFFSDKFKITEKLLLDVGARYSLYAALGASTQKIYKEDVP
+KTPSTVIEEKTYGNNKVITTYGGFEPRLALRYIFDESLFVKAGFDKNYQYIHLLTNNTTQ
+SPTDTWKLSDLNVKPQSGLQYSLGIFKKLDYKDIELSLEGYYKTSKNILDYKVGANLLLN
+KDLETELLQGNGKAYGVEFLLKKSTGRLNGWLGYTYSRTFIKLDSKFNDEKVNNGAYFPT
+NFDKPHDVSIVMNYKFTHRYSFSSNFVYQTGRPITYPIGKYNYNGAEYTLYSDRNKYRIP
+DYYRLDIGLNIEGNHKIKKLAHSFWNISIYNVLGRNNPYSIFFVTKEGQVKAYQTSIFSV
+PIPTITYNFKF
+>tr|A0A1S1J3D2|A0A1S1J3D2_9FLAO
+MEFDFYNTKKKANVNVFKSKAFDEVHDALFVFTISADNDYEMPFINDATYEMFEVLSNTM
+FTNTVLSIYDRIHQDDKKRVKNSLFDAIKKRRKWSVVFRAELPFNGLSWFKVTSKRIVNK
+DGSTEFYGRITDITELKEQELKLRRTEERFRFMLMTSNEGIWDWDLTSDRIYYSPQALNI
+LELKASDISYTCEGWKKMIHPEDVEDCQKAFNYHFDNRTPFYENFQRVLTSNKKYKWILS
+KGMVTERDLEGKPLKVIGTYSNVSFQKEKELELRREMEVYKEKNNRLLNFSHIVSHNLNS
+HAGNFKVLLDLIDSEEGFDEKVETLKYLRAVSGDLSKTIEDLSQIVNVQNNAEINIEALN
+LNSYLNRVLNIVNAYNNKNNVTIINNVSPEAVVHFNPAYLESVLQNLSSNAIKYADPKKP
+LIVEFNFFIENGRKVFTIKDNGLGIDLKKHGDLIFGMYKTFHKHEKANGLGLYITKNQIE
+SMNGNITVESQVGEGTTFKVFFKD
+>tr|A0A1S1J656|A0A1S1J656_9FLAO
+MKMSLLKKTNIPQILFLLLVLSSCGNDKKTTADTTTTTEDTLPKMKPLGPEKRISQAYIN
+SVAGRINHFYNKNWPNNTMNGSFLVARNGQIIFERYNGFANKNEGTKITAETPVQIASVS
+KVLTATAVLKLVNAGKIDLDQKVNTILKTFPYEDCTIRMLLDHRTGMRNYAYFTDRDKSV
+WDRHNQLTNKDILDILATKNIGLESRTGTRFSYCNTNYAMLALIIEKITGLTYKEAMHQM
+IFKPLGMKHTYVFDDDKDRKKIVPSYKGNGVEIGFDYLDNVYGDKNIFSTVRDLLKFDRA
+RNSPDFLKPALLKQVYTGYSNERKGTKNYGLGIRMINWETGQNFYFHNGWWHGNTSSYIT
+LMKEHVTIIALSNKMTRNTYAVRKLAPIFGDYPFNFKDEE
+>tr|A0A1S1JAA9|A0A1S1JAA9_9FLAO
+MIKKGTLLFVLLPISLLFAQEQTTFSGTIVDSKTLNPLENIVVNIQNSSITQLTDAKGKF
+ELHSAIKGEQLLWIHSQGYKDLLLKIQSNPGQKVELGILPLEDNFSEETPAALITLLDSD
+FLDDNSSSEMTSGLLQSSRDAFMQASAFNWGQARFRVRGLDSENGTMMLNGMVMNKIYDG
+RPQWGNWGGLNNVLRNQEFSVGAAASSYTFGGVLGTQQINTRASLYRKSSQISFSGSNTA
+YNWRAIATYASGMNASGWAYVLSAGKRWSDEGYFDGTNFKAESFFISVEKKLNDNHSLNF
+TGFYTPNSRGKNSANTDEVAQLTNEKYNSYWGFQNGKKRNARVKRVEEPVLMLNHYYKIN
+EKTNLNSSLMYQFGQVGNSTIDYQNAPSPDPVYYQKLPSYYTSIYEKDKGEFSGDFTPDF
+ISAEKAKANFLEDSQINWDELYRANQKSILNSDGIINGFEPAQSHYVLYEDRTADKTLAA
+NSNLNIQLTENIAFDGGITFRNLKSHQFQYLLDLLGGQYFEDIDTFYQGNQSQSDLKNPN
+REVKEGDIYGYNYNLFATTIDAFTQFKFSYNKTDFYLGQSYSVSNYQREGLYQNGIYPTS
+SLGKSNKVNFENFGFKVGLTYKISGKQWLFFNGMHLSRAPSLRNTFLNSRLNNSIVDGIE
+NESISSAEGNYVFRSPNFKIRSTIYYSLIKNTTRTSFFFAEGIFDQGAAYNNTDAFVSQT
+LTHLDKKNIGMEFSLEWQISSTLKVTSSAAYGNYVYSSNPNVSITNDANVSEGGTQTIFD
+FGKSYLKNYKQAGMPQQAYSIGLEYRDPKFWWLGANINYLSEAYIDVSPIARTNRFYVNA
+VNGHLFPEATEERTAALLKQEKFNPVSLLNITGGKSWRIAHKYIGLFWSVNNVLNAVYKT
+GGFEQARNANFRALNQDVSSGTPSFGSKYYYGYGRTYFVNLTMSL
+>tr|A0A1S1J3D0|A0A1S1J3D0_9FLAO
+MIEIGKYNTLTILRDTKVGLFLGNPEKDPEGIHDILLPNKYVPNEFEIGEELIVFVYLDH
+EQRPVATTLEPYILLNEFALLRVNYINNVGAFMDWGMEKDILVPFKEQARPMEKGKRYLV
+YLYMDEKTNRLVASSKTNQFLSNEQLTVEKGEEVELIVSHITEIGINVIINEKHKGLLYK
+DEVYDDAIRTGDRMRGYIKNIRPDHKIDVALQVQGYQSIEPNAEKILDELRANRGFLRLN
+DNSHPEDIKTVLKMSKKTFKKAVGALYKEKLIEIKDDGIYLIKE
+>tr|A0A1S1J158|A0A1S1J158_9FLAO
+MKNFLIPTTLKDDTICAVKSAVGQAKDSDCEIILMMVSETPDAFSSSNFLREMRTGLTAS
+QEEVLDTCRYIIEHTPNCKIKVHNQYGLSSPIFKRIIDVFAIKLVVLTNSYKQETKRIHQ
+YLVQLAGNQKCPILHLGSEQYKEDFNKALYIENGRANMHVKDVQQFLNNNFSFEIVSQTS
+SFEDNYENFAPYLSEAISKYDIDLLVETRKGEKIQFKKNKKESINDKTGLPVLSLYEELV
+>tr|A0A1S1J1X7|A0A1S1J1X7_9FLAO
+MKIEKTTILDLLIIEPIIFGDERGFFFESYSKTKFEELGVNIDFVQDNQSFSKKGTLRGL
+HYQNPPFAQTKLVRVLEGKIIDVAVDLRKDSPTYGKSFSVLLSAENKKQLLVPQGFAHGF
+SVISKTASVMYKCDQFYNKASEGGIKYDDPSLNIDWGMDLDKAIVSEKDQILPCIENCNS
+LF
+>tr|A0A1S1J1S9|A0A1S1J1S9_9FLAO
+MEIQQINDTRRGYFEAVEDGKQAGKMTYTWAGDSKFIIDHTEVNEEFNGRGVGKKLVMAA
+VEYARTNNLKIIPLCPFAKSVFDKVEEIHDVLFS
+>tr|A0A1S1J2R4|A0A1S1J2R4_9FLAO
+MKPLASILKALPPTKIIDSTIDISKYIPLDLSVTNQELADFKPTCTQEFEDFISDYLEKN
+DAEVAFGGYIEGRTLYQRSTIFKNNSIPERNIHIGLDLWTKADTAVLAPLDGKVHSFKNN
+IGLGDYGPTIILEHRIENEKFYTLYGHLSLESIENLSVGTFFSKGQKIGTLGSSSVNGDY
+PPHVHFQIIRNIENYSGDYPGVCNTNDLNFYIENCPDPNLLLKLLK
+>tr|A0A1S1J4L2|A0A1S1J4L2_9FLAO
+MRTKLFFFVIMFVTIASYAQQDAQFTQYMYNTININPAYAGSRGALSVFGLYRTQWVGLD
+GAPETSAFSINSPINNSNLGIGASLVNDKIGPTNENNFSVDLSYTVQTSADFKLSFGIKG
+TANLFNLDVSKLNPESQGDPQFQDLNNKFSPNVGAGVYWHSDKAYIGLSVPNFIETNRYD
+DNDYAIYKDKINYYLIAGYVFDLDRLQYIKFKPALLTKMVEGAPLQVDVSANFMFMDKLV
+VGVAYRWSASLSAMVGFQITDGLYLGYGYDRETTRLNNYNSGSHEIFLRYEFFKNNGKMT
+TPRFF
+>tr|A0A1S1J5K0|A0A1S1J5K0_9FLAO
+MSNKVIYAIYNDDDILMDAVKKTRAAHHHIEEVFTPFPVHGLDKAMGLAPTRLAICAFLY
+GCVGISVATFMMSYIMIHDWPQDIGGKPSFSFIQNMPSFVPIMFEMTVFFAAHLMVITFY
+MRSRLWPFKQAENPDVRTTDDHFLMEVAVNDNEAELVSFFEGTGAVEVKVIEKN
+>tr|A0A1S1J6H5|A0A1S1J6H5_9FLAO
+MKKTNAAILIIDDQEDILFASKVFLKKYFEDIYTLNNPKNIVELLSQKRIDVVLLDMNYR
+IGFEDGREGLYLLKEIKTLSPKTVVILMTAFGKVETAVEGLKSGAFDYILKPWENKKLLE
+SVKQAVDKSRKEQKKTRNAEIENDFFIGTSEIIKKSYSLADKVAKTDANVLILGENGTGK
+FVLAHHIFSQSERKNNPFVAVDLGALNANIFESELFGYAKGAFTDAKTDTPGRFEMAQNG
+TIFLDEIGNVPLHLQSKLLQVIQTKTVTRLGETKPRPLNVRIITATNLNLKQEVTDKNFR
+EDLYYRINTMEIVLPPLRERHGDKIPLAEYLLDKMIAKYDRNTIQFDKKVLEQIEKHAWN
+GNIREMENKIERAVILCEHNKITTSDLDLETITPYEENPDDIQLSSVEKAAVEKALLKNN
+NNISKTAEELGLSRGSLYRRLEKYNININ
+>tr|A0A1S1J975|A0A1S1J975_9FLAO
+MTYQGVLTKMQTEMGAPIQYYLVFEDSFLNMNQLLNKEIEINFVGFECLNCHKKKKIYRQ
+GFCYECFYSSPAVGDWIMRPELSTAHLGIADRDLEYEQKVQLQPHVVYLALASEVKVGVT
+RKTQVPTRWIDQGATQAIAIVEVPNRYLAGITEVALKDHYTDKTNWRKMLQNTGESFDLL
+AEKAKVESLIPAEVQEYFYTQKNDLYELQYPVLNYPTKVTSLNLDKTPSFQGKLTGIKGQ
+YLIFENGTVFNVRGSEGYVVSIAV
+>tr|A0A1S1J7F2|A0A1S1J7F2_9FLAO
+MEYYNYLKSLHLIFVITWFAGLFYIVRLFVYQIEASEKPSPEKEILQAQYKIMAYRLWYI
+ITWPSAILASIFAFWMLLFTDLGNAWLKMPWMHVKLCFVFLLYLYHLKCHQIFKQLQNDE
+VKYSNNFMRLWNEGATIILFAVVFLVVLKSAINWIFGVIGIILFSVLIMLGFRFYKRIRE
+RK
+>tr|A0A1S1JF58|A0A1S1JF58_9FLAO
+MEFEVIYKTYWDRIFRLCMGFVNDYDIAQDLAQETFVIVWQKLDTFRSESGIGTWIFRIA
+SNNCLRQIEKEKRFLKSDLPVNLQEEKQQSLEPQIQFLYQCIAELPETERIIISLELEEV
+KQVEIAKIVGLSEANTRVKIHRIKEKLTQKFKENGPK
+>tr|A0A1S1J4C0|A0A1S1J4C0_9FLAO
+MEAKEYIESGILELYVYGLLTETENLEIAELAKKNPEVDQEIISIEKAIVALSSSFSPFH
+SVANFEKIKARLELKHGKVVDMKPASNWSQYVGWAAAVLLLLGFGYQTLELTKTKEAIAT
+VGTEKNKIEKDYAFLDQQNKQTEKSLTIVRDIKNTGVTLGGQAVSPSSFAKVYWNKDTKT
+TYIDAAGLPKPPKGMVYQVWALKLSPVLTPTSIGLLSDFEGNSQKIFAVNQTDSAEAFGI
+TLEPAGGSLTPTMEQLYTLGKV
+>tr|A0A1S1J5J5|A0A1S1J5J5_9FLAO
+MINEIKFKAKHLFTKEWVYGYFVKYPDGSGSIFLVDQYDSFPVDPNTVCQSTLEYDKNYK
+ELFIGDMINDFGGGISYENEVTGEWEVRGDNTRIGIIVFEEGRTCIKTKEMSYSYNLSNA
+SKLCDMEYIGNIYDE
+>tr|A0A1S1J5L3|A0A1S1J5L3_9FLAO
+MNNMTPVVKQLLIINIIFFIGAQLVPVSEQFFALFFPESDFFKLWQPITHMFMHGGILHI
+AFNMFAMVSFGSALEHFWGGKKFIFFYISCGLGAALLQIGVNYLQFQAALEPVRSLGLSD
+ATLHQILNVNFSDGSGFRSDLFFDQIKPILEGVGKTNLTEEGFKGLFNASIITQVPMVGA
+SGAIYGLLVAFAFMFPNAELALMFIPIPIKAKYFVPGILAIDLFLGFKGDSIFGGGGTGV
+AHFAHIGGAVIGYFMMWYWKKNQFNNNRWN
+>tr|A0A1S1J883|A0A1S1J883_9FLAO
+MKKYIILVIALLFSAVCLNVFAQTKSYPFEVLKTGKGKQAVVFIPGFASSGDVWKETRAN
+LEKDHTCYTLTMAGFAGVKPQPNASFKNWETEIADFIKTNKIEKPIVIGHSMGGGFALAL
+AADYPELVGKIVVVDALPCMAALMDPNFKSKENNDCSSMVNQMTAMTETQFLDMQKKTMP
+RLVQDASKIDMIVDWSVKSDRKTFAEMYCDFSNTDLREKISQVKCPSLILLESYFVNLKP
+AIEGQYKNLKNANFQYAGKGLHFIMYDDAAWYLNQVNNFVK
+>tr|A0A1S1JAK3|A0A1S1JAK3_9FLAO
+MIQNNKYDVIIIGGSYSGLSAAMSLGRSLRQVLVIDSGLPCNRQTPYSHNFITQDGEKPA
+VISAKALIQVDFYDTVHFYNGLAIQALKTKEGFEIKTEFGKVFISKKLLFATGIKDLLPK
+IDGFSECWGISILHCPYCHGYEVKNEKTAIIANGDMGFEYAKLISNWTKDLRILTNGKST
+FTVAQSQILQQHKIKVIEDEITGVKQENGDIQELIFKSQVAIEVKAIYFRAPFEQHCPLP
+EALGCELTEQGLLKVDAFQKTTIPGVFASGDCHIQARSVAMAVSSGSFAGASINRELIDE
+SFLG
+>tr|A0A1S1J6S4|A0A1S1J6S4_9FLAO
+MKKVLLLCALMSVILSCKSVAVKKTNTKETTSQTTSEEDLNVYFKATGNEPFWGLKFGKD
+KIVFTSLIEGMESISFDAVEPIRAMDANVKMYRVKSGKTEATITVQQFECTDSMSGDVSP
+YTVKVEMNGKTLNGCGKYITDYRLHDIWVLEELNGRKLTSSDFQKEMPRIEINAAENTFS
+GFGGCNNIGGKIFFEKGLLRFSDVISTLMACMPANKEGEFVETLQKTTTYSIENLRLTLS
+NPDGKLLVFRKVD
+>tr|A0A1S1J708|A0A1S1J708_9FLAO
+MATKLSPILSPKELVQRSNSPEIILIDARAGVNAEENYRSQHLKGARYIDLNKDLATVAT
+DPSSGGRHPLPSIEKFSQVLSKAGISPESHVVIYDDKNGSNAAARFWWMLRAIGHEKVQV
+LNGGLQEAVKAGYPANAEIETYKTTERYPISKWALKTADIEEVEKARNNNENIVIDVRDK
+NRFDGLTEPLDLIAGHIPGAINVPFSENLDVHGSFQSPPFLQEKYSRIIGDKKPENIIVH
+CGSGVTACHTLLAIDYAGIPIPKLYVGSWSEWSRNDREMATKPIE
+>tr|A0A1S1JB49|A0A1S1JB49_9FLAO
+MKKIIILFLIFIFQTSFSQENRILQLKNHIESITTDAPGLNEKINVNIKEASLSSFLLAV
+SQVHKLNISVAPNLSQINIVNNFSDVTVGDLLIFLCKEYSLTIDFTGNILSIKSYIKPVE
+VPALKVIDVSYDLANNLLSLNLKDDKLYDVFRKIMDESAKNLVFAPGLENQLLTVYIKNM
+PFDAALNKLAFANNLTVTKSRDNFYVFDKTEGNFVAEGTADPNNAIRQNRPQRVRKSNFF
+FTVVDAEKKILDVDFENTAISSIVYDIGRELDIDMFISSPLEGAGNATVKAKNITFDALL
+VKIFQTKTDSNSSNNNNQSFNNNNSGVSISSSSGGSYTFMKNGSIYYFGTKDQLVVRNIK
+SIPLMHRSIEILSDPSKEGRSAGRLNNTNNFSNYSSNSNSNFNSNSFDNRGNSNFQNQNS
+NFNNANNNSSSSSNSGPSESILTIIPDEIKKDLDIKIDKELNSFLVNGPAANIERFESFI
+QYIDKAVPVILIEVMLLEVNRTATVETGIKAGIGDKPVKTSGTVFPGADINLGASTINSI
+IDSFSGFGSLNIGKVVPNFYLSLKAQETNGNLKIRSSPRLSTLNGHKAYLSIGETTYYVV
+TNQNFYGSQIPQASEVKNYQPIDAELSVTIMPLVSGNGQITMDIKVIQSSFNGQKVDKDA
+PPGINSREFTSIIRVKDQDLIVLGGLEESAKNDSGSGVPLLSRIPIIKWIFSSRKREDSK
+KKLSVLIKPTVIY
+>tr|A0A1S1J0N8|A0A1S1J0N8_9FLAO
+MTKKTAILLGFIALKFIQQYLLISPEYDLQRDEYLHLDQAHHLAWGYLSVPPVTSWISYL
+ILLLGNSVFWVKFFPALFGVLTLLMVWKTIEALKGNLYALILGATCITFSTLLRINILYQ
+PNSLDILCWTSFYYVIVQYMTTENKKWFYIGAVVFAFGFLNKYNILFLIIGLLPSLLLSS
+QRKIFTEKKLYWGLLLGLVLILPNILWQYNNHFPIVHHMKELAETQLVNVDRMEFLKKQM
+LFFIGSLFVILSALYALLFYKPFEKYRFFFASMVFTLAVFLYFKAKAYYAIGLYPVYIAF
+GAVFLSQVLQTGWKRYLKPIFIILPLLFFIPMYNLAFPNKSPEYIVKNPEAYKKLGMLRW
+EDGKDHELPQDFADMLGWKELARKTDSVYALIPNPKTTLVLCDNYGQAGAINYYSKKGIK
+AVSFNADYLNWFVLDVPYKNVIRVKNSWERTAELEETSPFFQSSRIAGEITNKYAREYGA
+TIFVFINAKIDINKRLKDEIKEEKNYSK
+>tr|A0A1S1J2W0|A0A1S1J2W0_9FLAO
+MEEKKSGRNRWLHIRLTKEEFDFIDKNFKASACRKRSDFVRRNLLRKPIVMRYRNESLDK
+LLQELIQLRTQLNFMGNNFNQSVKKLHTLFEISDLRVWILSFESDRKKYFSLVEEIKKQI
+ENLAQKWLQS
+>tr|A0A1S1J539|A0A1S1J539_9FLAO
+MKIAFLTPEYPHADTGKSGGLGTSIKSLAIGLLEKGVSVRILVYGQHKDGIFMDDGIIIQ
+QIKNKKLKGLSWFLTRKKIENIINQLFSAKEIDLVETADWTGITSFVQPEKCPVVIRLHG
+SDTYFCHLDNRPVKWINKFHEKRALKKATALLSVSQFTADITNQVFDLNKKFKVIPNLVD
+INLFQPSNNSVPDDKSIFYFGSLIRKKGLLELPLIFNEVIENDPEAKLILVGKDVPDIIS
+GNLSTWQMMQNLFSERAKANVSYLGSVSYSEIKKKIEQATVCVFPSFAEALPVSWLEAMA
+MQKAIVASDIGWAREVVIDGESGFLVDPKNHSLFATKILQLLDNSMLAKVTGEKARSRVE
+QFFSTDKIASDNINFYKKIINPE
+>tr|A0A1S1J8Z5|A0A1S1J8Z5_9FLAO
+MSLTQIFQIELFIKHIYSFKYDYIISRFENENSRGKNYIYTNFLKFFFKDWVITIWKFNF
+WICN
+>tr|A0A1S1JAE5|A0A1S1JAE5_9FLAO
+MSKTALSPIISGTMNWGVWDKNLTLKEMENMIQICIENKITTFDHADIYGAYTTEADFGK
+AFQASKISREKLQLITKCGIQMIAESRKNTIKHYDYSKEYIVWSVEESLKKLKTDYVDVF
+LLHRPSPLMQADEIAEAVEKLKSEGKIIDFGLSNFTSSQTELIRQKTEVSYNQVQFSATN
+FEPMVDGSFDYMQTHGIRPLSWNPLGTVFREDTKKTRRLKKLFSDLVKKYGFGSDTLLLA
+WILKHPAKVIPIAGTVNIARIQSLMKAVELEMDKEDWFAIWTESMGDDVA
+>tr|A0A1S1JA86|A0A1S1JA86_9FLAO
+MKNSIIYIVLFWSAFAFSQNEQLAQYYYDKGDFEKAKISYEELLNSSPSNTQYFLRTIDC
+YQQLQQFETAQKVIQDRYNKYKQGVFLVELGYNFQLQKNDAKAKSYYEQAIEKIKTNPND
+VYGVGNSFEKKVLLEYALRAYQTAMSIQPNYNFNFQIGMLYGQLGQTDQMIDLLLTESYK
+NPQNANLIQTQLSRFMNGETDNTAFKDAMRKALILRTQKDQDVFWNHYLSWFYVQQKEFS
+KAFIQEKAIYKRDPESLSSIVNLGQFALNEEDTDTAEEIFNFILQMTKDRDLLIQTNSSL
+MQIKIDKAQEKDYPLINSELQQLLITYEITPFTLSLQIIQAHFLAFNLKKTEEGKDIIKK
+ALELNLNAYQQADAKMELADILLLEEKFNQALIYYSQIQLDLKNDVMAHEASLKAAKTSY
+YKGDFEWALKQFKELKAANTQLIANDALEYFLLINDNTVADSTQTALKQFAKGDFLMYQN
+KKQEAIAQFQGILKTFKGQEIEAVTMLRLGKIYESLKDYTSALAQYQQIIDHHGDGIYID
+EALFFSAEIYNDELHNAEKAKPLYEKVIFNHQDSIYFVDARKKYRELRGDKNL
+>tr|A0A1S1J040|A0A1S1J040_9FLAO
+MKLIYYILIGIAVASCNSENKKEMKPAAMPMMMMQNFEMVSLKKSNPLVPLKLAGELVSD
+KETAIYAKVNSYVKKLHVDIGSPVTTGQIIMVLEAPEIQAQLAAAKSKWKAQEAIYIATK
+SNYDRMFKANETKGAIAKDALDQITARKLSDQSQLEAAKSAYQEIQAMNDYLIIRAPFNG
+IVAERNVDPGSYVGPMGKGSDKPLLVLQDNKKLRVSLSIPEANTPYLNLGDSIHFKVSSL
+PQKKYKAKISRKSGVLDFKLRSERIEADIMKIHPELKPLMVVEAMLSLQSNEATFFVPKT
+ALVESNMGMYIIQVIAGKTKNIPVAKGRALMDQIEVFGALKEGDNILMKATEEITEGTKI
+KK
+>tr|A0A1S1J1K1|A0A1S1J1K1_9FLAO
+MIKPYDEFLQSKIRIAQKEGFELDISDINPKLKNHNKLMVKWLVEGGRRACFASFGLHKT
+VTQLEAIRCTLLKTGGRGLIIAPLGVRAEFSKDAVNILGWDSGPKFIRRIEEASETGIYI
+TNYETVRDGKLDPRLFQVASLDEASILRGLGGSKTFREFMRLFTGDAGPNGDRRGTECVP
+YRFVATATPSPNDYIELLAYADFLGVMDVSQAKTRFFKRDSTKADKLTLHAHKEEEFWLW
+VSSWALFVSKPSDITGDESDDHGYILPPLDIRWHEIASDHADAGNDKRGQFQMYNEVAIG
+LEGSAKEKRKSLKDRVNKMLELRCEDITAHRILWHDLEDERRLIEKSIPGCKSVFGSQKL
+ELREEIVLNFSNGDLQELAGKPTMLGSGTNLQKYCSWAIYLGIGFKFNDFIQSIHRLLRF
+GQTGTVRIDLIYTEAEREIRKQLERKWKQHNLMVIKMTNIIKEYGLSQSAMAQHLARKIG
+VERIEIKGKNYTAVQNDNIKELPLIESNSVGLILSSIPFANQYEYSPNYADYGHSSNIEE
+FFNQMDYSTPEAFRVLQPGRIAAIHVKDRIIPGGLSGLGFQTVYPFHIDTVNHYRKHGFE
+YMGMKTIVTDVVRENNQTYRLGWSEQCKDGSKMGVGMPEYLLYFRKPPSDNTNAYADIPV
+VKEKREFDKKNGEFNNNGYSRARWQMDAHGYTRSSGDRLLIPDEVAKLEADQIFKLFRSY
+SLNEVWDFEQVVNIAENLEIQGKLPSGFMLLQPQSWSPEVWTDITRMRTLNGSQWSLGKE
+MHICPMQFDIADRVIDQMSNPGDLVLDYFGGLMTVPLRAIKKGRRGYGIELNPTYFLDGA
+NYLKSEELKQNVPTLFDIAV
+>tr|A0A1S1J5P8|A0A1S1J5P8_9FLAO
+MKTKITFILLFFTIFTFAQNTISGKVVDQKGKPVQGANIYIDGTYDGATSAENGSFSFET
+SEKGNKFLVVSFLLFETFKQEIDVANYKDQTVKLRENVNALDAVVITAGTLESGDKARVS
+VLKPLDIVTTAGSAGNIIAALQTLPGTQSVGEDGRLFVRGGEASETQTFVDGLRVAQPYG
+ATTNNLPTRSRFSPFLFSGIAFSTGGYSAEYGEALSSVLLLNTQDEPDQNKTDIALMTVG
+LGVGNTQKWKKSSFSINTNYINLAPYQAVIPQNVDWNNPYQSLGGEAVYRYNFERGIFKF
+YAAFDAEKFDLNQKNVNFANPIRTDLDNNNFYLNASYKGDFGTGWQLTSGVSYGYSKNKI
+KFDINDVDNNENAAQLKLKLRKNISNYFKLSFGADYFITKFNENYTDNIAVKTANGYDSN
+IAAFYTEGDILFSKKLAAKVGFRLSNNSLLNETNIAPRASLAYKISKTSQFSFAYGDFTQ
+TPVVDYIKYSKYHQFESEKARHYILNYQFTKPGQTFRAEAYYKDYSNLVQYNTRDIQYNS
+VFNNNGSGYAKGLDLFWRDSNLHKNLEYWISYSYIDSERQYKNFPAMVTPGFVAHHTLSV
+VTKYFITDWKSQIGFTNSFSSGRPYNDPNQTQFMNGRTKAYNSLSFNWAYLLTTQKILYF
+SVSNVLGTQNVFGYDYAKNPDTNGVYNRQAIIPTADRFFFVGFFWTISQNKNENQLKNL
+>tr|A0A1S1JBG7|A0A1S1JBG7_9FLAO
+MFQLGKTIISEDILEKEFVCNLSACKGACCVDGDAGAPLSEAETKILEEIYPKVKPFLRK
+EGIAAIEAQGTWVKGTDGDLETTLIDNKDCAYVIFDGKTALCGIEQAYNQGIVDWKKPVS
+CHLYPIRVKDFTEFAAVNYDKWDICDDACSLGKELEVPVYKFVKEALIRRFGQDWYLELE
+KVAEELKKS
+>tr|A0A1S1JBJ2|A0A1S1JBJ2_9FLAO
+MAKIKMKKKSTSTDMTAMCDVAFLLLTFFILTATAKVPEALPVDMPSSTVQSKLPDSDLA
+IITIGKGADGKSKVFFDIKGREIRKRTLEGMGAKFGVTFSEDDKTKFALMDDFGVPVANL
+KQIIAMKAADRVKADQPGIPIDSLDNQLKEWLLVSRRAAIDLDDKELQIAIKGDAKEQYP
+QIKKIMDILQDQKINSFNLVTGMRGKDF
+>tr|A0A1S1J1V4|A0A1S1J1V4_9FLAO
+MFFNSLAFAIFLPIVFFLYWFVCNKTKKAQNALLIIASYYFYSCWDWRFLFLLIFSTFLD
+YYTGIQIEKGKSEQSRKFWFWLSISVNLGFLGIFKYYNFFAASFSELLNSGGFKASPILL
+NVILPVGISFYTFHGLSYVIDIYYKRIKAEYNFVDYSLFVSYFPLLVAGPIERATHLLPQ
+VKVKREFNFQIAKEGVYQIIWGLIKKVVIADTCATYANAVFDNYSSMNSLSLILGAIYFA
+FQIYGDFSGYSDIALGVSKLFGLDLLRNFNYPYFSRDIAEFWRRWHISLSSWFRDYLYIP
+LGGSKGGIWMKIRNTFIIFIVSGFWHGANWTYITWGFINAIYFLPLLLSNSNRNNIDEIK
+LSFNTDSVKVIFNILFTFFITCIAWVFFRAKTITDAVSYLKRIIFNGDFYSQYLDNERYN
+YEVLPMIAIFVLVEWNNRTKEEPLSGKRSMLRVILALVAILAFGTYSDYKEFIYFQF
+>tr|A0A1S1J383|A0A1S1J383_9FLAO
+MKKKLNRYIGLCILLISAGIKAQEVKPLIQSKLEGTVIDAVTKEPVIGASINIKGTTHGV
+VTDMDGKFYFQTGQKIPYTLIVSYLGYKKAEVTANENSVVVTLTQEQNALSEVVVTALGI
+TKEKKSLGYTTQAVKGKELSDTKETNFLNSLSGKLAGVRITNSQGDMGSSRIIIRGETSI
+SGNNQPLFVVDGVPVDNSQLGSTGGTTRDFKNAIADLNPQDIESLSVLKGPNAAALYGSR
+AAHGVVLITTKSGKSQKGLGISVNSGITISQVATLPKFQNSYGQGSNGKFSYVDGKGGGI
+NDGVDESWGPKLDGRLIPQFYSNGVAVPFVAHPNNVKDFFNTGITYDNSVSIAKSDEKSD
+FRLGINNQKQLGTVPNSETNKTNFTVNTNYQISKNIKVGVTANYIVTDAPALPGGPQGNR
+AAGVMLQFLWFGRQVDIDQLQNNREVNWNNSYYSNPYWNAYYNTTSQQRNRIIGDIHLDA
+KIIDGLNFKFRTGVDYYNDRRKYTIKYGTNGTPFGSYAEDAYTVNERNTEGIFTYTKKLT
+EDFSVDALAGFNIRNHSDANNYQKAPRLAVPDLYTLTNSRDPLTSSNSLSRLRVYSAYAS
+AQFGYKNYAYLNVTARNDWSSTLPSSNRSYFYPSFNGSFVVSDAFNLKSNTLDFLKLRGG
+WSEVGNDADPYQLSTVYDFQTAFDGNPIQTSAKKKLNENLKPETTRSTELGIESSFWKNR
+LHLDVAYYNTNSFDQILEIKTTASSGYNSQLINAGKINNRGIEVQLDGTPIQTENFKWNV
+GVNYSKNISEVKILDYDKQIQNYTIGTSGGVDVLASVGQAYGALYGTAYQRDANGNIVVG
+ANGLPKADPQKRVLGHYTPDFLAGVTNTLSYKNLEFSFLIDASVGGDIFSGTNRTGTYTG
+VLAETLAGRDAANGGLNYYYPGNSTANPKTLVTSGGAPNGVTVYDDGVLFNGVYADGTPN
+TQVISAQEFHKASYNISEAYIYSSTFVKLREIKLGYNFNKKFARRLGLEGASITAVGRNL
+LFIYKDAPNIDPETAFNTGNAQGLESLSLPTTRNFSLNVNLKF
+>tr|A0A1S1J742|A0A1S1J742_9FLAO
+MKLQIQELTTVEEMLEQIETMRFLYPNLSVEKYTAYLSEMVPHNYIQIGVFEEGVCLGIT
+GCWSATKLWTGKYLEIDNFVVNPDVRSKGIGKLLTDYIEQKALDLDCSSIVLDAFTGNFA
+AHRFYYNQGYAPRGFHFVKILDEKKLTH
+>tr|A0A1S1J8W2|A0A1S1J8W2_9FLAO
+MKINLKSGIDKLLFGMKQNDVTAALGKPDKNYKDEDDNVIFVYNAQKIRLTFYQEEDLKL
+GYLVASSSDLEVFGFKLIGRKIADVKKDLATKGITKYNQETFDTFENYFNEDNWFILQTE
+FDEVVKFEIGAIINDKDEFDWKFPVKKK
+>tr|A0A1S1J8Y9|A0A1S1J8Y9_9FLAO
+MDSHTVFTQSISLKELGIENAKVRYQLSADELHAITLQSGQGVENSTGALAINTGEFTGR
+SPQDRYIVKDSITGDQVWWGNVNISFEPDAFERLYNKVTQYLSNKEVFVRDSYVCSDANY
+RLNVRVVTETAWSNLFCYNMFLRPEESELTNFTPEWTVVCAPGFMADPAVDGTRQSNFAI
+LDFTKKIALIGGTGYTGEMKKGIFSALNFILPVFKNTLPMHCSANVGEKGDTAIFFGLSG
+TGKTTLSADPQRKLIGDDEHGWTAENTVFNFEGGCYAKVINLTEENEPDIFRAIKKGALL
+ENVVFKPGTNEVDYDDVSITQNTRVSYPITHIDNIQPGSIGHNPKNIFFLTADSFGILPP
+ISKLTPGQAAYYFISGYTAKVAGTEAGVTEPQPNFSACFGAPFMPLHPTRYAEMLTKKME
+EANVTVWLINTGWTGGPYGTGSRMKLKYTRAMITAALNGELDNVNFKNHKVFGIAQPETC
+PNVPNEILDPRNTWEDPELYDKKAVELAQKFKANFAKFEEFANAEILAGAPIIE
+>tr|A0A1S1J972|A0A1S1J972_9FLAO
+MKRIILLSLFFVLALVGGVAAQTKVSGIVLDKSNQPIPFANVVFKGSNTGIVSNEDGRFY
+LESPNTYTTLVVSSAGFSDREVTLEKAVNYDFKIVLSEAEALNEVVIFTGKTSKKNNPAL
+DILRKIWERKRKNGLYQFSQYQMQKYEKVEFDMNTIDSAFMKNKLFKGMEFVFQHVDTSE
+VTGKTYLPIFISESLYDVYGDNKLKKTKENLTGNKTSGFNGNQQILSFVKDLYSDYNIYD
+NHLKFFDKSFTSPLSRTGIDVYNYVLKDSAYVDKKWCYNIVFYPRRKNELTFKGDFWVND
+TTFAIKKINMAVTKSANINWVKDIYIEQEFEVENDSVFLLTRDYMMSDFALNKKEKSKGV
+YGKRTTLYKDHKFNLQKPESFYKQEVNFIDNSVYTKSDEFWNENRFEKLNKDEAGIYKML
+DTLQTVKRFKQLYSLVSILGSGYVEFKNFDFGPIFSTFGYNEVEGLRLRAGGRTYFGPND
+PWRIQAYTAYGFDDNKFKYGVSGKWMVDKKNRLIISGGNRRDIEQIGASLTTTNDILGRS
+FASSALFTTGSNGKLTNINLSNVSLEMEPLKNFVVQAGVSYRTLESASPTFSLDYYTTLP
+TAANPAGVIANKVTQSEANIQFEFMPNRKTIGFGVERNIVDSPFSHFFVNFSYGLKGVLN
+SDFAYQKVQLFYKQPIIIGPLGRSNIIIETGKTFGTIPLGLMSVIPGNQTYFTIENTFSN
+LNFYEFVTDQYTTLQWNHDFGGRLFARIPFMRKLNWREFVGIRAVHGTISDANRAINASG
+LPYNAPENVYWEYNAGIGNIFKVFRLDFSWRGNYLNMPDASKFAIKGSFGFYF
+>tr|A0A1S1JG65|A0A1S1JG65_9FLAO
+MKSQHQIVLSIGSNQGNRLTNIETCIDLIHKEVGTVIRVSKLYETPAWGFESDAFYNCAL
+VLHTYLSAQKVLSQVLKVEKKLGRIRSEQQGYQSRIIDIDLITYDDEIIESEKLQIPHPL
+MQNRKFVLLPMQDLGVDWEHPVFQKSITELIAVSPDDSVCEVVQELKNPIREIALENFNY
+IAFEGNIGAGKTTLVQKIAEDFNAKMVLERFADNPFLPKFYKDQNRYAFPLEMSFLADRY
+QQLSDDLAQFDLFKDFIVADYHIFKSLIFAKITLAEDEYRLYRNLFDIIYKEMPKPDLYV
+YLYQNSERLLQNIKKRGRNYEQNIEAGYLDKINNGYLEYIKSQTDLNVLIIDVSDRDFVK
+NHKDYLFILDEIQKKIFN
+>tr|A0A1S1J7N0|A0A1S1J7N0_9FLAO
+MQIQVIKSKIHRVKVTGADLNYIGSITIDETLLEASNIIEGEKVAIVNINNGERFETYAI
+KGEKNSGEITLNGPAARKVQKDDIIIIISYATLEFEEAKTFKPWIIFPNENDNSLT
+>tr|A0A1S1J7P6|A0A1S1J7P6_9FLAO
+MKKLFLPIVLLPLFTSCQEDGMSATPNEPTESIKSEIMYAMPEESAPHEGTWLQWPHQYQ
+YGINYRDDLDATWVAMTKSLSTSEKVHIVAYNTNEKNRITTLLQNAGVSLSAIDFKIYKT
+DDVWVRDNGPIYVKDKNNQLVIQDWGFNGWGEKADFKNCNTIPAQIAADQNTTVVDLNAI
+MINEGGAVEIDGKGTLLATKSSILNSNRNPGMSQAQAEAIFKKYLGVSNFIWLNGKAGKE
+ITDMHIDGFARFGNDNTIVTMSEDDLLYWEVPEGDIPTLYNSKDLKGKKYNFLKLPLTQN
+KVITTYGKKLGYKGSYVNYYIGNTVVLVPNYNDPNDAVANQLIQSLYPNRKVIGIDVRNL
+YANGGMIHCVTQQQPK
+>tr|A0A1S1J1G7|A0A1S1J1G7_9FLAO
+MFKNVKTIVVLLLLSAVGASAQHKIPVYLDDKKSINERVEDALARMTTDEKIAMIHAQSK
+FSSPGVPRLGIPENWMTDGPHGIRTEVLWDEWDQAGWTNDSCIAFPALTALSATWNKELS
+SLYGKSIGEEARYRNKNVLLGPGVNIYRSPLNGRNFEYMGEDPFLTSKMVVPYIKGVQAN
+GVAACVKHFALNNQEIGRNTVNVIVDDRALYEIYLPAFKAAVQEGDAWAIMGAYNKYKGQ
+HCCHNEFLLNDILRGEWGFKGVVVSDWGGVHDTKQAIYNGLDMEFGSWTNGLSWGTSNAY
+DNYFLAKPYSIMIAKGEVGTKELDEKVRRILRLSFLTTMNKNRPFGSFGTEEHAKAGLKI
+AEEGIVLLQNNNNILPINLSKTKKIAVIGENAIKMMTVGGGSSSLKARYEITPLEGLKKR
+IGNQAKITYARGYVGDPTSNYNGVVAKVSLEDKRSPAELTAEAVKVAAAADVVLFIGGTN
+KSDKQDAEGFDRLDLGLSYGQDQLIAELVKVNKNIVFVNISGNAVAMPWVKDVPGIVQGW
+FLGTEAGNALAAVLVGDVNPSGKLSFTFPVKLSDNGAHALGEFPGGDDVTYKESIFVGYR
+WADKQKAKPLFSFGHGLSYTTFQYGKVTADKKQMGAGDQITFSVKVKNTGTREGSEVVQL
+YISDLKSSLPRPVKELKGFEKISLQPGEEKTVTFTIDKTALSFFDDKKHDWVAEPGAFEA
+IIGASSTAIKSKVSFSLQ
+>tr|A0A1S1J3V9|A0A1S1J3V9_9FLAO
+MKNLYKIMLLCVCGATYAQTQNDIAKIRSGSNVSELQSLSQRYQTEADQKKQRISNLAKT
+NGWRTSFSNKNGTTSELVDVSADGKTPIYFATENVNAAKSTRANYLNSGGGLGLNLNGQN
+MTAYVWDGGATLPTHNEFGGRVSINDGVTTIVAGSNNSQHANHVTGTIVAAGTVAASKGM
+AFQGNARTNEWTNDLSEATTAAANGMLISNHSYGWATRNSAGTVLIAPWQFGAYQTTARD
+WDNLMFNAPYYLQVKSAGNDGGDNTANTSPLGGFTAYDKLTGFSTSKNNLVIANANDAVI
+SSTGALTSVTISGSSSQGPTDDLRIKPDLAGNGASVYSTATLTNPVTPLTNSSYGNASGT
+SMAAPNVTGTLLLLQQHYKNLTGNFMRAATLKGLALHTADDAGAVGPDAIFGWGLLNAKF
+AAETITKNGTASIVQESTLANGGTYTLSVTSDGVNPLIASISWTDPAGVAYSGSTPNIGT
+AKLINDLDIRVTNGAGTNFPYRLLTATTNGLGDNTRDPFERIRIVGAAGTYTITVTHKGS
+LVNGSQNFSTVVTGITVPDLYIKDRPFDVGLQPNPDSGPMWISDDIWVRQTIDGGTTHEN
+PEFKLSSPNGVYVKVTNKGTVPSASGKVKLYFAKASSGLTWPTNFVNFYVGTVLHGDYIG
+EVAIPAIAAGGNATVVIPWYPPNPADFTYDVHHFCLAARIESSEDPMFNEQTNVGIGVNT
+KNNNNIAWKNLSVYNLNTTDFVPPTAVFIRGIRSKNINVRFIDRGFNEQLKNNFFDLGGT
+VEATLDPKLFERAQANGSLKGVQILDKNKILITSREASIANLPIDIDETFGITFDFKVAK
+DFPVEEQITLDLVQEDAKSGELEGGERFALVKAKPNTKAGATSLVEAPESRTVAIYPNPT
+NGIFKIAVNSEEQGTLKITSIFNTVVFEEKTNKQKEFSVNISKQLPGIYIVQFISENGKV
+VTRKIIKN
+>tr|A0A1S1J595|A0A1S1J595_9FLAO
+MKKHLFPFLFFLSFHSVQSQIAVSSTLEEAIQKAIEKSTSLKNKDLDIEKLNLQEKGVWN
+KYIPTIEASALYSYFDNKLTVDLPTATIPIVNYPLFDGKTAFKNYGNIFTGSVMAKTVLF
+SGMQIPNGAKAIKEKTKGTVFLKESEKDAITKEVINTFDQLELLKVIDKLIKESENRLDT
+ETKRVTKAIEQGLAIPYDRDKIKLAALELSSKKIELDGKRKLIYKKIQYLTGYSISEIDH
+VQYTLTPYLITDEKLSTQNKQEIKALESFKLAYEYLLKKEKGTYLPTLGAFGGVSYSSLF
+NANATTPIVTGINQALYLGLNELTISQNWIVGAAMKWEVFSGFERKHKVHEAKINIEQVQ
+NQIDDTKEKLELLLEKNLVDYTVLTQKIDITQQQEKVASNNLNLAIKQYKEGLINISERL
+EAENDSYKAAVNKTTTLIEQRLAAIETIIATGDLSKKLSK
+>tr|A0A1S1J617|A0A1S1J617_9FLAO
+MKEKILEKLKEIEKQKDVEILFAVESGSRAWGFASPDSDYDIRFIYKHKPDYYLSLWEKS
+DVIEFMTEDDLDGSGWDLRKSVKLLAKSNTALIEWLFSPVVYFQEDDFVKQMQDLAVECF
+SPIAVLHHYLGTTKNFMEVCEMEEVKLKNYFYALRTALAGKWIIEKNTFPPVPFADLLPI
+APQNIQEKIIELQNIKAGQDEKYLHPKETLITDFLLETVQFNSENASKLGSGNKINEELD
+LFFRRETFKNSLV
+>tr|A0A1S1JA44|A0A1S1JA44_9FLAO
+MIKIILFFFLTLPFAHAQISGCTDPLSKNYNPNVAINDGSCSYKNTPLKPEYSKLLSDSI
+KETSGLIAFNKLLWTHNDDHDTTIYGLDSLGRIQKKVILKQVVNHDWEEISQDSSFIYLG
+DFGNNLSGNRTDLNILKIEKKSFLEGNPAIEKISFQYADQTDFSAKKPNTANFDCEAFIV
+SKDSIYLFTKQWKASKTNIYVLPNQAGSHVARLKHSLNTKGLVTGATYIASKKTIVLCGY
+SKLGKPFLYLLYDFKNTDFLSGNKRRIHLKLPFHQIEGIATHDGLHYYLTNEALVRKPIL
+NVPQQLHYFDLSSLLNSYIHQ
+>tr|A0A1S1J6S2|A0A1S1J6S2_9FLAO
+MKTKLLLLLLLASFSIYAQTNLVANGGFEKWTSKTTLSDWTTQNNVSQNTADYWEGFNSA
+MLSFTNSTLTPKITTQVSLTAGVTYVVKFKYKYLSSNYNTSHPIVLNINKNGSSTLLSSS
+YFATNNNWTAVETTFTPDQNLPYDLSISLNTLDNIGFNATIDHVQIYAKGTEQYTLIPDL
+SFEKNLIALGHDSGPTDGKVLTANISTLTSLNITANSNGVGLVKDLMGIQDFTALTLLNC
+QGQQLTTLDLTKNTALVTLNCQNNLLTNLNISKNSSLTTIICNNNNLTNLDVSEKLALTN
+LQCTSNKLTSLNISKNTALITLLCDKNSLTSLDVAKNTALVTLDCSANLLTSLDASKNIA
+LTSLYCKDNSLTSVNVKNGNNKAFYWNSIYHLSFYGNKDLKCITVDDIVYSNKNWTGNKE
+SGATYALACDGRYTAIPDPIFHLELINLGLDSGNFSGKVLTANISSLKTLDISSKDITDL
+TGIEDFTELTSLDCGKNKLSSIDISKNIALTTLNCSYNYTIDLLDVSKNINLKILSCEGL
+KIRDLNLKNNLKLTQLNCRYNALTNLEIHPDLTYLNCSNNRLPQIDVSKNTNLTYFDCSN
+NKLAILDVSNNGSLTTFYCNSNNLFSLNVKNGNNLRLSKRNFIDNPKLTCIKVDAYSTSS
+WESSKDPKAFYSPDCNGNTPYTLIPDPAFEQKLIDMGIDTDGKNGRVITTNISSLKSLDV
+SSSNITNLTGIEDFTSLTYLDCGSNKISNINLTQNTVLTTLFCPKNDLEGLSLYKNTFLT
+YLDCNTNRLKGLNVYYLPALTYLNVSNNSLSNDVQDLNLFFNTALTNLNCSYNKLTTLDI
+TRNIALTTFNCSNNLLRTLNSNKNSALVTFICNNNKLETLEVTQNLALATFICTNNKLRI
+LDVTKNVMLNKFDCQYNDLRSLNLKNRNNKNFDLTYSNFTNNSLLTCINVDDENYSNANW
+SNKKDAKAVYSSNCNSLGLEESVFNKAVIHPNPTKGEVNIQNASLEKANVYNSLGQLVKS
+FTLNLSTTHNTIDLSGLSKGVYYVYLINGDAASAKKVIVE
+>tr|A0A1S1J231|A0A1S1J231_9FLAO
+MNTKQLLKKKIKYSLVFLFFLNFLLSSAAYAQSTIVEGKITDAAGLSLPGVNIQEKGTKN
+GTSTDFEGSFKINVSNNKVILIVSYLGFQTQEVSIAGKSKVNVSLAEQSNSLNEVVVVGY
+GTAKKTDLTGAVNTLSAAKITERNVTNPMEAIQGGIAGVQVTSNSGRIGDGFNVVIRGTN
+SINKDGSKPLFVVDGVPTDNIDFLNPQDIARMDVLKDASSAAIYGSRGGSGVIIVTTKSG
+TSAKSGVTVTFDSSYGNKEAVRLPKLMSPEKWWYYHQSAFLATTISATNPTYNDIDASEL
+NAAVGQAGTNPVLFQRVANNKSYNWQDAVLKGGMMQNNYLNVSGRADNGLSYNIGLGAQK
+ETGVIDNEGIDKYNFKAGLNHKINDKISFGVNLTISKTSEQLGSPTAMQEAFRQNPYTSP
+WAIDAAGNEIVGTYAQQPGTLRYPNGNLAINKTGSYNPLLEIANSTDEIERFTTLGNIFG
+EYKINSWLSFRSTFSAGKMDAREGRSFGAQTDFGLKNKSLPSGDVTNVNNFNYTWDNQFN
+INYTLNKDHVFSFLGLQSFYSNTTETYFAASRENPFETSFYNLGSGVQSTYSLTPSNGTI
+ALLPSGVFTPYSKNTLESYAARFNYAYQGRYLLTASVRYDGSSVLAENNKWTAFPSVALG
+WNVHEEGFMKKLDFVSNFKLRGSIGYTGNDNVSPYSSLTVLKNPAYYDFNGTIANGFTTS
+SLGNTNLTWEKTKEVNLGLDFGFVHNRISGSVDVYNRLSKDLLFQQALPLEIGVPTITSN
+VGSIRNKGIEVALVTKNIQTKNVTWETSFTFTKNVNKLESIYGQDQVSDVGNNLFIGENV
+HSYYNYVFDGVWQESEAAQALSYGQKPGEAKVKDLNNDGKIDANNDRAILGNYDPKWSGS
+FSTTLKVKQFDLSMSLITNQGMTVFSGFHDNFADVTDRGRQKLDLGDWYIPANGAGIAAQ
+YSNTNPLPRGAGVYYDTNNVAFYKDASFVKIQNIAFGYSFDQDLVSKLKIKSLRLYVNVL
+NPFVFTNYEGYDPEWATAALAVNRVATRTVQMGLSLKF
+>tr|A0A1S1J3C0|A0A1S1J3C0_9FLAO
+MDKKIFSFLFSTRLMAVLFLTFAIAMGVGTFIESKYNTDTARILIYNTWWFEAIMVFFLI
+NFFGNIKRYQLHKKEKWATLLLHLAFIFILLGAFITRYISYEGMMPIREGAAENQVYSDK
+TFLTVFADGEYKGEMKRRVFDKSLLFSPVTNNDFTLSGKFDETPFEVSYVNYIMGAKETI
+KPDPTGTLYLKMVEAGSGGREEHFLKEGEVQNIHNVLFALNKPTAGAININTTGDKYTIQ
+TPFEGEFMRMADQLKGKVSKDNVQPLMMRSLYSIGDIRIVFPDPAVKGVVDYESNNDYKA
+KSHHDALIVKIKADGQEKQVRLLGSKGSVGEPQTVKIGKIEYSLFYGSKAYVLPFKIKLN
+DFIATKYPGTEKSYSSFESKVTVQDSTETFNADIYMNHVLDHKGYRFFQSSFDPDEKGTV
+LSVNHDFWGTNITYLGYFLLYIGLMGIMFTKHSRFGDLKRKLEGVKKKKEKLITILVLMI
+GLSGFAQAPHVHTPGHKHDHNTDPNDHANHVTAPPSQKQLDSLLTIYKAPEAHAAKFGRL
+IIQDAGGRMKPVNTFSSELLRKVSQSDTYNGMNSDQVFLSMTQYAQVWIQIPLIHLRAGN
+DSIRKIIGVEKEAKRAAFVQFFDANGNYKLSPFLDAAYKAANPNQFEKDFIDTDKRVNLM
+ESALSGSILKIFPIPNDPNHKWVSYLERQQGGFKGMDSTYVTQILPMYFSALNNGSISKN
+FTTADQLVESINGFQKKFGAKVRPSEEKIDAEITYNKYDIFKKLPYWYLTVSVLMLMFTI
+VNIFLEKKWLRVTINGFHILVGVLFALHTLGLIARWYISGHAPWSNAYESIIYVAWATMF
+FGLAFDRKSKLTVASSAFVTAMIVMAAYMNWIDPEIANLQPVLNSYWLMIHVAVIVGSYG
+PFALGMILGFVALVLIFFTNEKNKAKMDLNIKEITYINEMSITIGLIMLTIGNFLGGQWA
+NESWGRYWGWDPKETWALISIMVYAFVIHARFVPALRGKWFFNLMSMFAFVSILFTYYGV
+NFHLVGLHSYATGEAHSLSWIWYSLGTISVIGALTYPKYRKYYKSKKK
+>tr|A0A1S1JAG6|A0A1S1JAG6_9FLAO
+MALVSDLTTKVLFETEKGYSYQCDLTNSVIINFVDTVSSYKIHDFLIFQRKVNSVDILNM
+LYDLSDRSDAQLIETTKRNFSRNLTICEIVQLRDLLNGTKFTLTLHSMLCNIVNVELI
+>tr|A0A1S1JBK3|A0A1S1JBK3_9FLAO
+MFKNKSYIGISFIILIFGIYAVPKIVDRVKNGDIVKGNRLDNVGLKTSKSDGKLMKIGPA
+PKFELTNQDNAKVSNDTYKGKVYVLEFFFTTCPSICPKMNLSMLEIEKTFFGNPNFGIVS
+ITIDPKHDTPQVLKEHAKLLGVKSSTWNFLTGDKNTIMELSNKGFNLYAGENEKVSGGFE
+HSGLFALIDKEGNIRCRKDEFGNPNIYYDGLDKKGVRDIQEDIKVLLEE
+>tr|A0A1S1J024|A0A1S1J024_9FLAO
+MEEFIGVVKLFAGNFAPRGWAFCNGQILSIAQNTALFSILGTTYGGNGQTTFALPNLQGA
+TAIGQGTSPGGTYVLGQAAGTPNVSILTSNLPAHVHAGPGKISVSATNASDSTPVAGASI
+AIPGALVSRVFTPTLGFATATPSVDLLSNVTTGATGSNLPISVMQPYVALSYIICLEGIF
+PSRN
+>tr|A0A1S1J219|A0A1S1J219_9FLAO
+MKSLDSFYKDITEGSSVEPGSLLPNDIKKEIGHFNVFNIKEVLDRLQGKAIMPYDRRAYY
+KISLIKGKNRAEYADKIIEIEKQGLLFATPKIPYNYLPQDTNQSGQFCVFTSEFLSKNKS
+GIDLDELPIFASDGYPIFQLTDDEVAEVELIFNKIQKEINSDYVYKYDLIRNYVAELIHF
+GQKLQPITALYSRHNSAARVSSLFAELLERQFPIESPNQRLQLRTAKDFAERLSVHVNHL
+NKVLKENTGKTTTELISSRLTNEAKILLKQTDWNISEIAFSLGFEELAHFSNFFKKQTSF
+TPLAFRS
+>tr|A0A1S1J497|A0A1S1J497_9FLAO
+MPKDTSIKSVLIIGSGPIVIGQACEFDYAGSQSARSIREEGIEVILINSNPATIMTDPSM
+ADHIYLKPLTTKSIIEILKEHPQIDAVLPTMGGQTALNLCLEAEEKGIWQDFGVKLIGVD
+VNAINITEDREQFKQLLERINVPTAPAKTATSYLEGKEIAQEFGFPLVIRPSFTLGGTGA
+AVVYKKEDFDELLTRGLEASPIHEVLIDKALMGWKEYELELLRDKNDNVVIICSIENMDP
+MGIHTGDSITVAPAMTLSDTTFQKLRDYAILMMRSIGNFAGGCNVQFAVSPDEKEDIVAI
+EINPRVSRSSALASKATGYPIAKIASKLALGYNLDELQNQITKSTSALFEPTLDYVIVKI
+PRWNFDKFEGADRTLGLQMKSVGEVMGIGRSFQEALHKATQSLEIKRNGLGADGKGYKNY
+EQIIEKLTFASWDRVFVIYDAIAMGIPLSRIHEITKIDMWFLKQYEELYTLEKEISNYKV
+ETLPKELLLEAKQKGFADRQIAHMMNCLESEVHTLRMDKNINRVFKLVDTCAAEFKAKTP
+YYYSTFEAEIEKANGERYVDNESIVTEKKKIIVLGSGPNRIGQGIEFDYSCVHGVLAAKE
+CGYETIMINCNPETVSTDFDTADKLYFEPVFWEHIYDIIQHEKPEGVIVQLGGQTALKLA
+EKLSKYGVKIIGTSFDALDLAEDRGRFSDLLRELHIPFPQFGIAETADEASALADQLDFP
+LLIRPSYVLGGQGMKIVINKKELEEHVINLLKTIPGNKLLLDHYLAGAIEAEADAICDAD
+GNVYIIGIMEHIEPCGVHSGDSNATLPPFNLGEFVMQQIKDHTKKIARALKTVGLINIQF
+AIKDDTVYIIEANPRASRTVPFIAKAYGEPYVNYATKVMLGHNKVTDFDFNPQLKGYAIK
+QPVFSFSKFHNVNKALGPEMKSTGESILFIDDLKDDQFYELYSRRKMYLSK
+>tr|A0A1S1J7T0|A0A1S1J7T0_9FLAO
+MKIQTRTLFYAILFFLYLTATSPLLQLGEKLGTDPYITLGCGFAILNIIYSFLGLKWKPV
+LNVICSVSIAALSLFLAVQFANLHLLTKYDPYLVKTAIFTNAILSILFWEIVYQVKIRK
+>tr|A0A1S1J8K6|A0A1S1J8K6_9FLAO
+MKQKNFTFSFVLFLLTSGILFAQKITVKGSVTDEMGVSMPGVNILEKGTSNTTTSGLDGD
+FAISVNKGSVLLFSFVGYKMNEATVTGSILNVKMNPDSKELDAVTVTAFGIKNKTKSLGY
+ASQTLKASDIERPGQLNALESLQGGVAGVTISKTSGGVGAGVDIVIRGVSSLDPSNNNQP
+LIIIDGNPVNNSTAIGNVAPSKGSNSVSSGEQFSFSNRAIDINPEDIESYTVLKGAGATA
+LYGILAGNGVIIITTKRGKEGKPKININSSISFSEVNHYPELQSKYREGLNGASYVKSTV
+SDSASGFEWVNPASPGGFWSFGPEYSSSDGAGIKYRNFYKDFFKTGVTQNLGVSVSGGTE
+KINYFVSASTSKDDGIVPNTSYQRKTFKANGGYQISEKFKIGSSFAYTKSGGIRSNNGDK
+SVMSSLAYWSPSIDVNDYLTAAGKEKDYTNGIIDQPRYFTAVSNLKDDVNRIIASADFNY
+QATSWLNFVYRASVDNYSETRNRYVPANLDVGTAVNGFILDENIGFTGLNSSFVITANKK
+FGNFNTTLTLGNQILDTKNTYSNVRGEGIFITDFNNISNATNLFAYNSGEERVRNVGNFF
+EAKADYKEIIYLGVTGRYDQVSTLPVKNNKFDYYSANLSFLFGDLIDQNKSVLSYGKLRT
+SWAQSGKTPPFAIFRKNIKDVNFPFNGVGGVSATSVDANPNLKAEIISTWEIGTDLRFFR
+DRIRLEYTYFNRVSDDQIIQRIVPQSSSITAFWDNGGSLKTTGNELTLGADWFKNPKFSW
+TSTLNFTQYKTKVTALPFENIIFGYDSQATNITSQVRLGDAAGTLYGQSWQRVDGKVVIG
+ANGLPVFNKTSTGAIAIGKIGEAFPDWVATLNNTFKIKNFDIGFLLEYKKGGDAYDTARR
+NGIRNGVLGVTADRSETAVLDGVKSDGAGGYVPNDIPINKSLRNNYYNNTIYNTAADALI
+QDASWFKLRNVSVTYNMTKEALKTIGVSNLSFTVSGSNFLIWTPFDGFDPEGSSYSAGTN
+VYGFTGLTTPLTQSYSFSINLGF
+>tr|A0A1S1J954|A0A1S1J954_9FLAO
+MRRQFLFIFLALIVANTSQAQTRTTRIGYIDMEYILENVSDYKEAKAQLELKAQKWKQEI
+ETKKLDINNLKESLKAERALLTKELIDEKETEIKFLETEMMDYQQKQFGVDGNLMHQKAG
+LAKPIQDQVFTAVQDIAEAKNYDFVFDKSSDLTMLFSNKKFDISDQVIRILNRTDKREQL
+TKKQLKDQEAKEKLENAIDENPAMADRQKALDDKKAARAKLIEDRRLEQEAKKKEYEDRR
+KALAAERDAKKNGTVSEPAKTEPAKTDGTTAKPATTVTPTEGTAPAQPAVNKAEERQKLY
+EQRKKELEDRRKKILEEREAAKKAKEAETQKSNTTNN
+>tr|A0A1S1JAQ6|A0A1S1JAQ6_9FLAO
+MQLYNTLSAEERAIMIDDAGKQRLTLSFYAYAKIEDPKKFRDDLFIAWNKLDALGRIYVA
+NEGINAQMSIPAENLEAFRETLEVYDFMKGIRLNEAVEHDDHSFLKLTIKVRHKIVADGL
+NDETFDVTNIGVHLKAKEFNAILDDPDTIVVDFRNHYESEVGHFKNAITPDVETFRESLP
+IINEQLQNHKEDKNLVMYCTGGIRCEKASAYFKHQGFKNVYQLEGGIINYAKQIEEEGLE
+SKFIGKNFVFDNRLGERITEDIISQCHQCGKPCDNHTNCENDGCHLLFIQCDECKSAMEN
+CCSTECLEIIHLPLVDQVRLRTGKQVGNKVFRKGKSENLKFKHSGDLPNTALAAAEKPVD
+IRQKVKVKKVLLGKAEHYYVKAQVAQFTIENQELNSGDKILISGPTTGNQEMVLERLIVN
+GAETSTAKIGDKVTFEVPFRVRLSDKLYKIIN
+>tr|A0A1S1J7X3|A0A1S1J7X3_9FLAO
+MVENEKKYTVEPNNTNKKINLGRTFLGARNLYKWMLKTFPITNVNSIVLKQSDGGINGAN
+FRSLLGTNQGIYILIPKDASSSGFGASGHAGIYTTPDLTHYYFGATGGVESITLWKLN
+>tr|A0A1S1J2N1|A0A1S1J2N1_9FLAO
+MIHFFENQSKTVFAVQTQNEISAQDISKLNWLFADSNKIEKSALTDFFVGPRATMITPWS
+TNAVEITQNMGITGIIRIEEFHPATADFSDFDPMLLQKFSQLDQEIFTINVQPEPILEID
+DIAAYNTTEGLALSEEEVDYLNNLSTKLGRKLTDSEIFAFSQANSEHCRHKIFNGTFVID
+GEEKETSLFKLIKKTSQENPNDIVSAYKDNVAFVKGPKVQQFAPKTADKPDFYEIKEFDS
+VISLKAETHNFPTTVEPFNGAATGSGGEIRDRLAGGQGSLPLAGTAVYMTSYSRLKSFDS
+AQPFDSAQGDRKWENAVEERKWLYQTPMDILIKASNGASDFGNKFGQPLITGSVLTFEHS
+ENDRKIGYDKVIMQAGGIGYGKLDQSIKKKPQEGDKIVILGGENYRIGMGGAAVSSADTG
+AFGSGIELNAIQRSNPEMQKRAANAIRGLVESDNNPIVSIHDHGAGGHLNCLSELVEETG
+GLIDLDKLPVGDPTLSAKEIIGNESQERMGLVIGQKDIDTLQRIADRERSPMYQVGDVTG
+DHRFTFESKTNGSKPMDYALEDFFGSSPKTVMTDKTIDRKYADVAYNTADFESYLQDVLR
+LEAVASKDWLTNKVDRCVGGKVAKQQNAGPLQLPLNNVGVMALDYLGKEGIATSIGHAPI
+AALIDPVAGSRNAIAESLSNIIWAPIKDQLKGISLSANWMWACKNEGEDARLYAAVEGCS
+EFAIELGINIPTGKDSLSMKQKYPNDEVIAPGTVIISAAGNCTDIRKVVEPVLQRNGDSI
+YYINLSQDDFKLGGSSFAQIRNTIGKETSTIKDASFFKNAFNTIQELIGDNQILAGHDIG
+SGGLITTLLELCFADVNLGAKIDFSAFAEKDLLKILFAENIGIVFQAKSNAAVEAKLKSN
+NIEFFKIGSVQETASLEFGIYNLDIAKYRDIWFETSYLLDQKQSKNGRAQARFENYKNQA
+LNYTFPAHFTGKAPVISSGVERPKAAIIREKGSNSEREMANAMYLAGFDVKDVHMTDLIS
+GRETLEDIQFIGAVGGFSNSDVLGSAKGWAGAFLYNEKAKTALDNFFKREDTLSVGICNG
+CQLFMELEVINPEHEVHGKMLHNESQKHESIFTSVKVQENNSVMLSTLAGSTLGVWVSHG
+EGKFKLPLAEENYNIVSKYAYEGYPANPNGSDYNTAMLCDKTGRHLVMMPHIERSTFQWN
+WAHYPKDRNDEVSPWHEAFVNARKWIEKN
+>tr|A0A1S1J326|A0A1S1J326_9FLAO
+MNIVFSLDQIKEVATQILAANPKKIILFNGEMGVGKTTLIKQLCKNLGVQDATSSPTFSL
+VNEYYTSDNQIVYHFDFYRLNKETEALDMGVDDYLYSGNWCFIEWSEKIASLLPEETSTI
+TIELLADGKRELKLS
+>tr|A0A1S1J7W7|A0A1S1J7W7_9FLAO
+MKRKFLYVLLLLVVQFCFSQNKLSWQGYFSFNEIKDISQSSTTVFVASENALFSKNIALN
+TVKITTTVDGLSGQTISASYHSEEFKKTIIGYENGLMIVVNETDGSILKVIDIINKQLPS
+NLKRINHFMEYKGVVYVSCDFGIVQFNLTSLKFGDTYFIGDNGVEVRVRQTAYFNGFFYA
+ATSNGIKKANSTNANLIDFNQWSLVNGGDWSSIESLDSELIAISSAGFIHRYNSNSFVGF
+LQLPKPSVDMRTVNNNLIITTPDVVYVYNNQMVLMRQITNTQVLDNTLNFTCSSVVGDQI
+YIGTKEKGLFSSTLSGTSAFQNNTPSGPVRNNIFSLDASPNALWAVYGDYDTFYNPYELD
+SYGVSKYSTSGWLNIPYSGVFGAKSMTRVITNPSNEKQVFVSSFFSGLLKIENDIPVLLY
+NEKNSGLESISFAGPNYIDVRINGTVFDKTGNLWVTNSRIKNGLKVLKTDGKWQSYATST
+ILKDAETTNYAGIVIDRNNTKWIATSNDGVIAFNESNNTFKKITSGADLGNLPIEDVRAV
+ALDTKNQLWIGTTKGLRVLSNVGGFQTESQLKANPIIIMEDNLAQELLYEQFITSIAVDG
+ANNKWIGTIDSGIFMVSPNGQETKYHFTINNSPLPSNVINDVKINSATGEVFIATNKGMI
+SFKGIATGANEDLNNVYVYPNPVRPNYAGTVKVAGLIDKANIKITDIEGNLVYETTSSGG
+TIEWDTTAFGKYKVASGVYMVFISAEDGSETKVKKVMIIR
+>tr|A0A1S1JCL8|A0A1S1JCL8_9FLAO
+MKKTILTALIAFGFSNLHAQEESKSPFTFSGYVDVYYSYDFAKPDNHTRPGFIYNYNRSN
+EMNINLGLVKVNYSKGNVRGNFALMAGTYAEYNLAAEQGLLKNVYEANVGVKISSSHNLW
+VDAGVMPSHLGFESAIGKDCQNLTRSILAENSPYYETGVKIGYTSESGEWYLAGMYLNGW
+QRIQKVEGNQTPAFGTQVTYKPTDKVVLNWSTYVGNEQPDIDKKWRYFNNFYGQFKVTDK
+TNITAGFDIGTQQSAKNSNKYDTWFSPILIVQYKPTDKIQLAARGEYYSDEKGVIIATET
+PNGFKTYGFSANFDYLVTDNVMFRLEARNLSSKDEIFTKNNLPTNTNAFVTTSLAISF
+>tr|A0A1S1IXV8|A0A1S1IXV8_9FLAO
+MKFFIDTANLAQIKEAQALGVLDGVTTNPSLMAKEGITGKNNILKHYVDICNLVEGDVSA
+EVNALDFDGMVKEGEELAELHDQIVVKLPMTKEGVMAAKYFSDKGIKTNVTLVFSVGQAI
+LAAKAGATYVSPFVGRLDDVSTDGLNLIEEIRLVYDNYGYETQILAASVRHTMHIVNCAK
+IGADVMTGPLSAIYGLLKHPLTDIGLAQFVADFEKGNK
+>tr|A0A1S1J2P8|A0A1S1J2P8_9FLAO
+MEVLQIVYISCLSITTLKAIVLGWKYTFPAQNYLGIYLIGTLSLEVFGEIKAYLKQFDFA
+VYYNIYAIFCILFFGIYFSKIYIGNFKRIGLFVSFILLSYCFIFIDILSTKFLPQLGILV
+ALFYIFNSILWFYQKLQIPVEGKITDDQNFWISTALLFWSTYIIFRFTPMYLFEKEDLFF
+LEILRKISSIVNFIMYALFYYALIKYERIAKTSTK
+>tr|A0A1S1J3F0|A0A1S1J3F0_9FLAO
+MEFFNFHTHQFKSLANVLELVNQYPQEFDASIPFYSIGIHPWYIKEDQIDAELKIIEEKL
+QSNNCLAIGECGLDKRIEIPLDQQIVVFEKQLALAEKYQKPVVIHCVAAFQEVIALKKKM
+KVSVPMIVHGFSKNGQIAAQLIKEGFYISFGKYLLRNPDLKTVFQTVPNDRFFLETDTIE
+ESIEQVYDLASQYKGLTIKELQKIVLDNFNAVFEESNKN
+>tr|A0A1S1J7E2|A0A1S1J7E2_9FLAO
+MRIEDIKFEQKASQRIYNNYMKRIKKTTASLPKIDQDDIYMEFNSHIFETIQHRNDTNEL
+DALLDSIEKLGSPEEVLKPLIADKKLEQATKTFNPVHVFKALALNITNGISYIFFSILYL
+FLFGFVFLIFAKILNPTQVGLYMQKESFSVFVLGIMSPEDQIKNQAYEALGHWFIPFLLL
+LTLLSYFIITLLLKLKNSINQKTAL
+>tr|A0A1S1JBQ2|A0A1S1JBQ2_9FLAO
+MKDLFGKAMYDFQTNNSPENIITETSISEEDEMSVDYLFRSYNEMPKLEQKALQLAFGKT
+LDVGCGAGSHSLSLQNDRNLELVSIDISKNAIETCKLRGVKNAIVKNILDFEGEKFDTII
+LLMNGVGIFGKLENCNQYLSKLKSLLNPGGQILLDSSDIIYMFDEDEDGGKWIPSDNDYY
+GELVFNISYKGEKEEPFDWLYLDYNTLQNAAAANGLKCELILEGDHYDYLAKLSI
+>tr|A0A1S1JBS6|A0A1S1JBS6_9FLAO
+MTFSEENYLKSIYHLTASNDAEVSTNAIAEMMETKASSVTDMLKKLSEKDLVNYKKYQGV
+SLTENGKLAAKMIVRKHRLWEVFLVEKLNFSWDEVHDIAEQLEHIKSEQLINRLDDFLGN
+PTEDPHGDPIPDANGRIVKIEKQLLSELTEYQTGVCVGVKDTSSEFLKYLDKQGIALGSK
+IDLLSKESFDLSVKIKVDGRELSISNKIASNLFVKLV
+>tr|A0A1S1JC55|A0A1S1JC55_9FLAO
+MKIKALTLLLITCIIVACNSNKKQNDVTDTTDSLVTPPATETNSGPSSTKKFDINSIPIS
+DKSLGAFPYFNLPDNYEDTSKNTIADYDVAYFWVKDHFEKPEGKIFYSRIKAKEGKSYSD
+LEVARNLDELIKSVDGVKISEMKVPADSSHTIPDNNRVKYMNGYGFMANAITTTYLIRRA
+DRNIWIQLTPYDDAVSAGWMVLETKPFKITASLIKADAIKKELDTKGHIALYINFDTDKA
+TIKTESAPIIDEIQKLLTANPNLKIAIEGHTDNSGDAVHNKKLSEQRANAVKAALTSKGI
+NTSRLQTKGWGSDKPIVENTSEENKAKNRRVEIVKL
+>tr|A0A1S1J083|A0A1S1J083_9FLAO
+MIHIYYSYLSEEKHQSLLQNDLPKFPADYQDKIKRYRRWQDAQLSLLGRILLFKGIEETY
+KQKPDAKEIMQTLYNKPYFEDNPVLFNISHSGDIVVCALSDQHEVGIDVEIITDIETADF
+KSQMTEIEWNKIVLSDNKKEAFFEYWTQKEAVLKAQGHGLIVPLKSFEVLDNTTEINGEK
+YYLSEVKIDKNYKCHISLKTDGTKIYLKRIIL
+>tr|A0A1S1J6T0|A0A1S1J6T0_9FLAO
+MYSIFNAIICGAAFLLTFIIFVNQNKINIKANRWFGSFIGCVFLIVLENVIIDGKILRED
+DILNQLINISSFVVAPVFYLSMSYYIEPVRKWKAMDYLHFSFAFLVFILLMSSWVIDDNH
+NPEDISPEIVQKTIAIFNFIFSLYVFIYCFLAYQKIVKHEKTIKLLNSTSENLDLKWLKN
+IIVGVIFITIFWILDIVFQISEGNKTFDILTSLIYFLSILYITYYWQKQKEIFPYSLKEK
+EEIENIIVETSLPESKRKQLLTPQELEEQKSRLLQLMNTEKPFLDFDLSLVKLASSMNVS
+THVLSYVINNGCNENFYQFVNRYRIEEAKKLMANSEMDRLSLLGIGFSVGFNSKTVFNTT
+FKKLTGQTPSEYKKQIGSAL
+>tr|A0A1S1J2T8|A0A1S1J2T8_9FLAO
+MVSIKTFDQATDLEQPRRVLKYVLVYCTSGSTVISVDENEFTLTENAVVTITSGQIHYFK
+NIGNATGFVLEFTYDFFCKDDTDMELIFHNGLFCHFAMNEMIVVDNSPFVIQELETIGKE
+LLQMPYQYLTSIHSRIELILIEINRTKINRGDEIYKPDALFLHFLEAILQNFDKNLSVNE
+IAALIGTTESKLNELSKLHTNKTAQNVIFGLIISEAKRLFTYEKLSVKEVAYALGFNDPF
+YFSNFFKKHTNTSPKAYKENTAHS
+>tr|A0A1S1J4Y2|A0A1S1J4Y2_9FLAO
+MNRKRIAFAIAASLVLISTGLYFYYGFLFKEARNIESEIPEFSITTTKLLDDYNSNTEKA
+DSLYLNKTIEITGKVTKETDSVVILENNIFCLFTKKTKDKLLNNKVTIKGKCIGFDELFQ
+EVKLDQCTIN
+>tr|A0A1S1J0T0|A0A1S1J0T0_9FLAO
+MTGCKTDIINAIIEIVGHDYVLTNAELLYNYSRDCTSDEESIPSAVILPKDEKEISKILK
+ICNETKTSITVRGGGTGVSRGALSHTNGLILSLERLNKIIEINKIDRIVTAESGVITQDL
+RNAVLKEGLNFPQNISSANACFIGGNIAVSSGSPKSLKYGTTKDYVINLEIVLPDGSIIW
+TGKNVTKNATGYNLTQLFTGSEGTLGIITKVVLKLVPPVKELLLMIPFTKIEKLFEGVQQ
+FFVKGYDASSIEFIDQKGVELASKFLDKKQWDSKRIEGILWIELEGTDSEKLMQQAIEIS
+EFISAYTPEEINIADTQNEVKALWEMRSKIGEAVIHHVFFRDIDIVVPRSKIDEMYKSIA
+GIAQKYDFEYTVFGHVGNGNFHVNIFQDKQSSKKQWEDHLAIWVKAIFLKALELGGTISG
+EHGVGKINLPYLEDAMTNHQIHIMNGIRELFDKNRIIN
+>tr|A0A1S1J1R3|A0A1S1J1R3_9FLAO
+MYLNKISLFNYKNFSEINFDFDRKINCFVGKNGIGKTNVLDAIYHLAYGKSYFNPLAVQN
+IKHGEEFFVIDAELEKNDRTEQIVCSLKKGQKKVLKRNGKAYDKFSDHIGFIPLVIISPA
+DRDLIVEGSETRRKFMDSVISQLDSTYLHQLIQYQKVIVQRNALLKYFALNHTFDNDTLS
+IYNEQLNTFGQSIFEKRKNFLEQFIPIFNVHHQAITGSEETVQLVYESNLFEKDLLTLLK
+ENINKDRALQYTSVGIHKDDLSFEIDSHPIKKFGSQGQQKSFLIALKLAQFEFLKKQSGV
+KPLLLFDDIFDKLDETRVAKIIEMVNSETFGQLFISDTHPERTEAIVKSTHQSYKIFKLD
+NYAN
+>tr|A0A1S1J4Q6|A0A1S1J4Q6_9FLAO
+METVTENIPTGKPKWLKVKLPIGQKYTELRGLVDKYSLNTICTSGSCPNMGECWGEGTAT
+FMILGNVCTRSCGFCGVKTGRPETVDWDEPEKVARSIKIMNIKHAVITSVDRDDLKDGGS
+IIWIETVKAIRRMNPNTTLETLIPDFQGIERNIDRIVEANPEVVSHNVETVRRLTREVRI
+QAKYDRSLEVLRYLKEKGINRTKSGIMLGLGETEEEVFQTMTDLRNANVDVVTIGQYLQP
+SKKHLPVKEFITPDQFARYEKFGLELGFRHVESGPLVRSSYKAQKHIL
+>tr|A0A1S1J7E4|A0A1S1J7E4_9FLAO
+MDLNFNKNEDHNKLLLSELKQKFAKVKLGGGEKRIEKLHAEGKMTARERIDYLLDENSKS
+IEIGAFVGEGMYAEHGGCPSGGVVIKIGYIRGKQCIVVANDATVKAGAWFPITGKKNLRA
+QEIAMENRLPIIYLVDSAGVYLPLQDEIFPDKEHFGRIFRNNAQMSSMGITQIAAVMGSC
+VAGGAYLPIMSDEALIVDKTGSIFLAGSYLVKAAIGETIDNETLGGATTHCEISGVTDYK
+AKDDKDALEKIKNIVDKIGDFDKAGYSRIKAEKPALEPKDIYGILPKARNEQYDMMEIIN
+RLVDNSEFEAYKEGYGQSLITGYARIDGWAVGIIANQRKVVKTKKGEMQFGGVIYSDSAD
+KATRFIANCNQKKIPLVFLQDVTGFMVGSKSEHGGIIKDGAKMVNAVSNSVVPKFTVIVG
+NSYGAGNYAMCGKAYDPRLIFAWPSAELAVMGGTQAAKVLAQIEASSLKAKGEIVDEEKE
+TELFNKIKARYDAQTSPYYAASRLWTDAIIDPLDTRTWISMGIEAANHAPIQKPFNLGVI
+QV
+>tr|A0A1S1JC00|A0A1S1JC00_9FLAO
+MRLKLLTLLVLLVAIPIWSQKTSESDFVISLNGNKITTTSNFKQQFKDKKSTAKQSLKTE
+YTLLQFTKIPSVEEQQKLKTQGITLLSYLSNNAYYVEIAPEFYNKSSVSDNIRAVIAVDP
+KYKLDPMIVDNAIPDYAAAGGNGIKVVVSYFKGVDRKRVEQDLAGLFLKNSNNDTAFNEI
+YIQASKEKLEEVAKFNWVQNIELVAPPVESDNKPGVTSHKANVLGSTIPGLGYGLTGKGV
+KIGVWDGNLEPHKDHTGRVINREYESNSSHGDHVSGTIGGAGLLDPKARGMAPEVQMYGW
+NFNTQSNGLSVQQERVKAANEDGIELTSNSYGVNLTSGYNTRRYDTGDRGDDNVTVTFPY
+LLNIYSNGNAQTAYPSGFNTSTKNSKNALHVAANNPDDLISSYSSFGPTIDGRLVPQIAA
+VGTNVYSLDYSNSYQIMSGTSMATPGTTGTVALLYERYKNIYETKPLASLMKALVTGTSK
+DAGNPGPDYKYGFGNLNGLRAVRALDNKTFYSNTVANGQSYEKEIVVPAGLVTLKVLLAY
+TDLQGTPGASSVLVNDLDVKIVKDGVTTLPWVLNATTPNANAVRGVDNLNNIEQITLDNP
+AAGTYKIIVSGTRVPIGTQEFSVVYDLVAPELVLTYPIGGEKFNTDTTEYIRWDYEGEAK
+PFTIEYSVDGGINYQVIAKDVPSAARNFAWKVPAGIVANAKIRVIAGSKVDTSREVFNII
+TEPKNLVIAPSACGVSSYKMDWDPIPGAKYEVLKMNGYKFDVVATVTDPTYTFAVSVGED
+NWFSVRSIDIATGIVSERVRAVNVEPVSKAVVSAATLPFTENFNSRKAANYVFSKGTTGL
+VKYEYINADFVDGAKMAGSGDVSASPWAASTSANAFANNSNFVKKVSFCDIDATSLTGKT
+IGLKFNLIWTTVGASPLPNKNFFRLVVNGNPVNSYENIGVYGGTATSGNTELLYDLSAYA
+GTIFSVAFESVMDNDVQVIANDNVYNSVFIDNVSIFEATATDVELTSLTPNAGITASETV
+KVKVFNHSPVAVSNVPVSYKIDSGAEVIETIPGPINPFTEASYDFVQKADFSTPKLYKVV
+GNVNYTGDTVVDNNTLVGSVRNTGTDVLMGGATPVSTCAATFTDSGSRYANYGDNLSQTI
+TFKPATAGNSIKVTFSAFNVEQDYDYLYVYNGTTTSAPLLGTFTGNTLPPSLTSTATGGE
+LTFRFTSDSNTNELGWVADIECVVKPTVTDVSVVSITTPEVLGKKTNAHNVTIRVSNLGT
+TALTNHPVFYQVNGGAKVTETVPTIGANTTVNFTFATKADLSVVDATYTIKAGADLPDAN
+AANDAVEKVVYNKNELPVHTNTNGYAISRFKWNDVVNNSGTTAYSDFKNIKIPVYAGFTY
+QPEATITKTETPIVNNLSSSATGVFTMIVVDLNGDGNLTDEFYAGNFWVNTTPTSAAPAI
+PSTTSTHYFRNNATLAGGFTIPANTTSGEKLMRVLHMFRSPLEYYNVNLGPTFDGLTSSR
+SDFEVEEYTINVLPFTAADVSIDAISAPIKPGNAPVTVSAVIRNYSTVAINNFPVAYKIN
+GGAEVVQNQTTSIPAGGTAPIAFTTKADLGAPGDYTIQVYTKLSGDTDPLNDSKSISLSH
+AVNHPVNVTGTFDGVNDFIKIDATPALNLTSNYTYELWVNQTKPSVFGRLLDKSTALVFI
+HNNNNLSTYKENSLVISITTATGSYVINTGVNTIKQNTWHHIAYTVSPAFVYTVYIDGVS
+VPYTSTGTAGAASSNTNAPAYIGNNTGLARGLNGNIDEVRIWSGVRNQATIAANSTTKYI
+GNEPGLLAYYSFSEGDKPFVFDSTINDNTAVVTNADTNGLGDGKFWNVPVLLQKIDFVNQ
+LSTSYDAPTKTFTVILNNGSDITNAIANYTLGMKSIAKIGGVTQVNGMTPNDYTNPITLT
+VEGVGFNTGITETYTVKVVTGLSNESKLLSYDFKTVSNPGLPQEIYTDIVGNNATKTVPF
+GYNVSSLVADFTVSPGAELYVDGVKQLNSKVTASDYRNSFLVTVVSENKQSQTNYTVDIN
+AKNTKAGILSYSVANQVGTSVIDPVAKTVKVQVNNNANLSALVPNVQVSDFATLRIGTYI
+QTSGVTTLNYTGPVSYNVLAQSGNIEYWTLTIESAKPTITLLGNAVISIDKGCVYTDPGY
+TAVDNTNADITSSVIVSGTVDVNTPGQYVITYTVKDALQNQATVTRTVNVSSTTCTLGLP
+TNAIEGFVLYPNPVTEGKVHIQSASSSPKNIVISDMTGKKILSVQTEKTELNVLGLPSGV
+YLIRVEQDGNTSIEKLIIR
+>tr|A0A1S1J6X8|A0A1S1J6X8_9FLAO
+MKSKYILPLFLVVQIILLKILPFFPDFVEGLYSNNLYIRISHFSRTLLGKVSFSVGDCIY
+AILILSAISWFWKIRKTWKTDWKDHILTMLGKISIFYFFFHLLWAFNYYREPLFEKMQIT
+KEYSDADLLVFTKKLILKTNEIQLLITKNDSAKIVFPYTQDEAFRMNLNGYENLAKEYHY
+FSYEIPSVKKSLFSLPLTYMGFGGYLNPFTNEAQVNDLLPMYNFPVTTCHEMAHQMGFAS
+ESECNFIGVLASVKNDNLYYKYSGYSFALRYCLGIWQVKNETIFKQLKKQIHPGILKNYQ
+ESQDFWKQYDTFIDKGFHVFYDNFLKINHQKDGLESYSKFVDLMVNYYKTREL
+>tr|A0A1S1J9Q3|A0A1S1J9Q3_9FLAO
+MEKQQLIFYNTVDGKSNVVLLVKDGDVWMNQTQLAELFDTSKQNISLHVVNILKEKELEK
+KSVVKDYLTTASDGKQYNVIFYSLAMILAIGFRVRSKRGTQFRQWANQNLQEYMIKGFVI
+DDERLKNPNGRTDYFDELLERIRDIRTSEKRFYQKVRDLFTLSSDYDTTDKATQMFFADT
+QNKLLYAITGKTAAEIIVSRANADAPNMALTNWKGSIVRKQDIYIAKNYLTVDEIDTLNR
+FVVVFLETAELRAKNRQDITMGFWKTNVDRIIEFNDKEVLNHKGKITHLQMEEKVDAIYE
+TFNKHRRQLEAEEADKQDLEELKQLESKLKNKSN
+>tr|A0A1S1JCU6|A0A1S1JCU6_9FLAO
+MKEDFLHYLWRFKKFETLDLRTTQNEPLIIIKTGDYLELSGPDFFNAQIIIENQKWAGNI
+EIHLKSSDWYVHGHEKDTAYDNVILHVVWEHDTEIFGKNNIEIPVLVLKEYTSKEMITNY
+NALIAPKSWIFCEKSITEVDEFVFKNWQERLFFERLERKAIFIYDLLEEYQQDWEEVLFS
+LFARNFGLNTNGNSFLQMAKSLPFSIVRKESFEVENLEALFFGTIGLLDADKEDVYFTNL
+KIRYYYLLNKYQLKKRHIDPIQFYKHRPDNFPTIRLSQLANLYQKQNLFSKIIAAKSVEE
+VRKLLIVSANPYWQNHYQFDRESSRKPKALSRAFIDLLIINTIIPLQFAYAATRDESIAE
+ELISFMNQVAPESNAIISKFELFGVKAENAFETQALLELKKEYCNQKACLRCALGIELLK
+NN
+>tr|A0A1S1J6L8|A0A1S1J6L8_9FLAO
+MKKVLHILAVMLTSSFAFAQDETEAATSPATTWGGSADAYYKYDFSKQMNGLTSFTNSQD
+SFELGMASVQAGHTFGKAAVFVDLGFGKRAGEFSYNETTDKDINAKFLIKQLFFTYQVTD
+KFKFVAGSFGTHIGYEVLDAVGNKNYSMSYAFSYGPFFNTGLKAQYTSGKFTAMLGVTNP
+TDFKSAMDAGSSQKTYIAQVGYIGETGSAYLNFTSGSTNPVSDENKTQIDFVASKTITDA
+FSLGFNATYAKTNNDIDSALDGDWFALVGYANYAFKPSLSLAYRMEYFDAKKAAASLGTL
+TGSNVFANTVSLNYKVGKLTIIPELRYDAASEDVFLDKDAAPTGGSFYGLVATTYSF
+>tr|A0A1S1IZD4|A0A1S1IZD4_9FLAO
+MMMITREEKKEITRHISKIGGFNEKTKGYHAVENLLILGEWSFHWYEKSFCIQNASWLQH
+IGLDVEVLSDAVKVSDQAIEKYYINVMGLEIEFQPVDNNLSKRDRRLSVGKE
+>tr|A0A1S1IZX3|A0A1S1IZX3_9FLAO
+MYNLKIKTNLFLLFLLFLLFFSFEIYGQDENSSAPKIIPPSPTAYELGRYGQTDVGTFTG
+TPNISVPLYTYKTRNLSIPITLGYNSNGIQVDQMETNIGLGWNLNVGGVINRIVRGKPDE
+ERYYPINEDDCLSNSFISYMEANKFNDTEPDLYSYSFNGHSGQFVFDKNNKAVLVPHNNL
+KIERLKIDLKDYFKVTTDDGVEYYFSDNEYSSWQNTEAATSVLTGWYLSKIIHPAGDTIN
+FTYRDSNYSFTSSISFSFPVKTFEEVCSDRGVNPGEEKNVNILHVLGKTIESISSNEAIF
+GKVVFQHIYNPNLLGTYLIKGYQVDSSKESNLDSVVFDYLFTPNKRIFLKECTFKDVSKK
+YSFEYNDPNGLNSRLSGGKDLWGFYNGKSGVYPDPVIHEDLYSSNQKAMDAIKRSSRGGD
+RRADPTLASKGILKKIIYPTKGYNEFVYEGNSVMGTVVSPIELETINRRLSNPSTNSNLE
+TEIYEFKNVIKYKTDIEALVSYVGMAGDMPVGELFLKITIENLQNALLNDEVVAFRHNFT
+EKDTYTFLENTDYRVTVTFSSEPKTSANFNFSYATGGNVSSIAPINVGGLRIQQITSFDN
+EQNKADIKHYYYGPRKNRDITSGVEGVEMNFISNSIINRVCWVNSGPSPITSIARTYLST
+VHPNSLYQLYRSNGNNSTTYRNVTVSYGGADYENGGEELFYYASSDARPTSCVNNHLNSA
+PWTNTSWDNGLLEKKIIFDKNLTDLNITDYKYKLEDQFTQSVTGIAYDTKFNQIFSFPSP
+DRKNLEHMNINRYSTNSYWFYLESEINIQNDSGGKNPVTTFTKYKYNNPSHLKLSSQTVT
+NSLNEELETRYFYPQDPEMANEPFRNELIARNMFGKVLDTQTIKKGVKLSEQKTVYERSA
+ATANLVLPKFIYANKGLDNIDLNSDKKIVYDKYDEKGNILQYTIESGTPVAIIWGYNKSQ
+PIAKIENVTYAELEALPGFGAGFTILENLSSDQESFLRNNLSEAMVTTYTYNPLVGITSV
+TDPKGIPTYYGYDSFGRLQYVKDQNLYVLQRYCYNYKGQQVDCGTLDNTVPVTYKSKALS
+KLFTRNNCASGGIPESVWFTIQEGAYSSNISQAAADQQALDQFDVKGREFANNDENAKCI
+FKSAAIASQNFQKTNCTIGGTGSYVAYSLDYEAVKSKISQADADNLAWKKFQSEGSANAN
+ANGECIFRSAAISGSFQKSGCTGGAIGSYENYSLAEGAVTLNTSQADVDAKAINRLNTEG
+PANANAKGQCVFYSVYAERVIRRLYCPKGQNGTTVLYTVPSGKYNSIISQADADRQAEDE
+IKNEGQNYADRKGECSKGDIPID
+>tr|A0A1S1J103|A0A1S1J103_9FLAO
+MKIVIIEDEHLASTYLKNILEEQTILPISEITVLKSVKGAVAFFKANTVDLAFMDIHLGD
+GKSLDIFEQALVSCPVIFITAYDSYAVKVFKHFTIDYLLKPYEEEELLEALHKYKNIKET
+FNSNSVVESLVEIENQSNIQHHFLVSHRDKLISVNDTSIPFFFATGKHLFIYTNSGSSYL
+YNNNLKDLINKLDPALFFKINRKYIINRHSVQEIVKHSSQKIEILLNVTVPDTEPIILSK
+KEINNFKNWLDS
+>tr|A0A1S1J5I7|A0A1S1J5I7_9FLAO
+MQAIPQKVKNVNVYPYVEWHGGGVGPVILPVVEKATGTFAVGTLIKSVFYNLDLNTLSEK
+PKLGVHQRYIATGEYEDGTPFTTPWMYCTNAGTQPEFGRTITLGKPESETINAETLPPYI
+TLGELTDITVSQLFPAPAIGQRVLIENGTGNVIATRTGTPHEMGSEVNTGNRLGKLTAGA
+KNIIITGKNNEGRTVTLGNLTCLSPNEPALFLHQFGYSN
+>tr|A0A1S1J6R1|A0A1S1J6R1_9FLAO
+MKNTLYKALAIVALSISLFSCSNDDNNETVSGNGNITLKFDNAYGANDLILNTQGNITSN
+NEVLKINLVKYIVSNVVFTKADGTTFTYPKSKSYFIADESTAAGQQFKLTDVPAGDYVKV
+KFGIGVDEAQWKLGAAGQGDFLAQADAAGMMWSWAAGYKFLAFEGTFTSSTVTTATPFMI
+HTGKTGTDYNYTEVTVDFPTKALVRSNITPAVHIITDLSKIIDGQNKIKLSDNNMGGMGA
+MIMGGAKLPLITQNISTMFRVDHVHND
+>tr|A0A1S1J7T1|A0A1S1J7T1_9FLAO
+MKDALSKKPKNLRLQTVLDKSLKTTLCTLLSVTFQITTAAPSKEIPLNKTSLLAFQKIAK
+GKVVDEKGIPIPGVNVIIKGSKTGVQTDIDGSFAIEIPNANTILVFTFLGMQDQEIPAGN
+GTIKVTMKEAGQQMDEVVVVGYSKVKKESLTGSLQTLDNKKLLDVTTPAVENLLAGKASG
+VFVSTSGGQPGGASKVVIRGRGTVNGSTDPLWVVDGVIVGNSSPPMNPSDIESLTVLKDA
+ASTAVYGSQGANGVIVVTTKSGKAGKATFNFSAKTSLATLDSGNFKIMNGAELYDLYNSY
+PNKQIFQNASWWTPELRNRNFDWWDNATQTGLAEDYNLSISGGGENFKSYVSLGIYDETG
+AVKGYDYKRYNGLMKFEYKPNSWLTIRPQVNLTRQTTFDKQHSVGDMYRNLPWDSPYLSD
+GTLVGNAPNPTWVNTTGSNYLYDLQWNFSESENYNVRSNFDFDVKLTKWLTFASVNNYIF
+GNSNSTSYQDPRSAPALSVKGRVIDYYSTFNRLYTNQLLKLNTSFDKHQINAVAGYEWNE
+YRSKFSNAVATGIPPGIIVTDPAAIPEKVDGNRSEWAVQSLLSNANYSYDNRYLAQLSFR
+RDGASNFGKNAQYGNFFSISGGWNIHNEAFFKAKWVNNLKLRASYGSVGNRPNSLYGHLP
+LYSFSQSYNQNPGALISQLANPDLSWEKTFTTGVGVDVSFFDRVNITLDYYNKNTSDLLY
+AVPLPGVIGVTSIWRNVGEVNNKGFEASISVDIIKTENLKWSVDANIGTNKNKITKLYGD
+RQEIIASDGSGVAGSANKLWKPGYDVDSWYLAEWAGVDPDNGKPQWYTTNTAGERVKTYS
+YADAFKNRKAIGSYTPDFFGGFSTTLNYKNFDFSAIFSYSVGGQIYNYARSEFDSDGAYT
+DRNQMNLHTGWSRWEKPGDIATHPQAIYDNNTNSNKVSSRFLETGTYLKLRSVSLGYNLP
+LKSININSLRLFVTGENLFTISHFSGVTPELSPNYNSATGQYVISGTATQIYPQTRRITL
+GLNLTL
+>tr|A0A1S1J7T5|A0A1S1J7T5_9FLAO
+MKKDITIPEVENVFLAAVQEWSDDFMEKVWYAYLVNDSDFNLDSVMVVSKAFGTIDGEMK
+KTSVLRHAFVEVPAVSVVKIEMVEKSLLVLNNEFMVTFFIGNTLYDKKFTFKANLINEND
+TEEVPILFVEGVMVK
+>tr|A0A1S1J9G0|A0A1S1J9G0_9FLAO
+MSQFSNVKIKTKAAIIFTLCFSIIAALPCLFAFFNNEFIWFGLLFSVIYYIILGIALVYF
+MNTALFQKVGIQNNVLAKVFMFLIIAILSSWIYYLVFNYIAISSYAHISMLNILWLFVPI
+FFQESKNKYLQIPEPFYEYWRVGKERKDFEYWDNIDKFRLMQVSIHIRKKANSEFFSKFD
+VKIAQDVNLGSWFDKFIEDQNYRFPNDAIESSAENEDTGWTFYTAKYFSFPLFIKNLSPY
+RTISESKLKNKQTIFAKRVALNRHENGLDE
+>tr|A0A1S1JAD8|A0A1S1JAD8_9FLAO
+MAHNIKPGVATGDQVQEIFNYAKEKGFALPAVNVTGSSTINGVLETAAKLNAPVIIQFSN
+GGAQFNAGKGLSNAGEKAAIAGGIAGAKHIHTLAEAYGATVILHTDHCAKKLLPWIDGLL
+DASEKHFAETGKPLYSSHMIDLSEEPIEENIEICKEYLARMSKMGMTLEIELGITGGEED
+GVDNSDVDSSKLYTQPEEVAYAYEELSKISPKFTIAAAFGNVHGVYKPGNVKLTPKILKN
+SQDFVQNKFNTGHNPVDFVFHGGSGSTLEEIREAIGYGVIKMNIDTDLQFAYTEGIRDYM
+VKNIDYLKTQIGNPEGADVPNKKYYDPRKWVRESEVTFNTRLEQAFADLNNVNTL
+>tr|A0A1S1J351|A0A1S1J351_9FLAO
+MEEMLFYDRMQFAFTITFHYLFPQLTMGLSLIIVYFKWKYLKTKNEQYNHATHFWMKIFA
+LNFAMGVVTGIPMEFQFGTNWAKFSELTGGIIGQTLAMEGMFSFFLESSFLGLFLFGEKL
+LGHKWHFVTGLLICIGSWASGYLIIATHSWMQNPVGYEILENGKFVLTNFKALFLNPWLW
+PSYLHNQAASLVTSSFVVAGIGSFYILSKKNIVFGKLFLKTGVIFGLIASMIVAVPTGDL
+LAKNVVKYQPVTFAAMEGIFHTEKKGSEIVLIGQPDVKDKKLDNKIAVPNILSFLTYGNW
+EQEIKGLDQFEEDLHPTNISGLYYAYHIMVGLGTVFIGLMSLALFQLIRGKLYETKWILW
+SLLFMMPFPYIANTTGWYTAELGRQPWLVYNLMRTAAGASPTVSSGNTLFTLLGFIGLYL
+LLGMLFLLLIGKIINKGPHTEVITENI
+>tr|A0A1S1J599|A0A1S1J599_9FLAO
+MEFSSKLIEKAVSEMSQLPGIGKRTALRLVLHLLKQPKEQTSFLSQALLNMRENIKFCQN
+CHNISDTKVCEICANSSRNHQTICVVEDIRDVMAIENTGQYKGIYHVLGGKISPIEGVGP
+SQLNISTLVEKVKAGKVVEIIFALSSTMEGDTTNFYIYKQIAESGIIISTIARGISVGDE
+LEYADEITLGRSILHRVPFEKTFKNN
+>tr|A0A1S1IZZ2|A0A1S1IZZ2_9FLAO
+MKKGIKKTIRQIHLWLGLGSGLIVFIAALTGSILVFEKEIDSFLHPQYYQVSSVGTTKKT
+IDYCTDVLQKQYGIKKITRIYTFNDPSRTFQILAKDADKKAQFFSIDPYTGKVLATTPQE
+SRFFVVVLSLHRQLLMGDAGQLIMGSSCIIFVLMLITGMVLWWPKKIKNLKQRLKVKWSG
+SFKRINWDFHSTFGFYSFLALLIISLTGLSFAFDWFQNGLYLLADGTTSKKLSLKVENPT
+KIDPKLNNTAFYQSIYNKTDSIFPYTGNIQIRMPVDTINSITVLKEDLERIIPHQSSSAY
+FDKYTAENIENRPYKSYSNGDKLKRLMYPIHTGSVYGLTTKIIAFLVCLFAATLPITGLI
+IWLGRKKK
+>tr|A0A1S1J5J1|A0A1S1J5J1_9FLAO
+MNENLDPTTKGYNPEELDLEKRLRPLSFDDFAGQDQVLENLKIFVAAANQRGEALDHALF
+HGPPGLGKTTLANILANELEVGIKITSGPVLDKPGDLAGLLTNLDERDVLFIDEIHRLSP
+IVEEYLYSAMEDFKIDIMIESGPNARTVQINLNPFTLIGATTRSGLLTAPMRARFGISSR
+LQYYTTELLTTIVERSSSILKMPISLDAAIEIAGRSRGTPRIANALLRRVRDFAQIKGNG
+TIDIEIARYALKALNVDAHGLDEMDNKILLTIINKFKGGPVGLSTLATAVSESSETIEEV
+YEPFLIQEGFIMRTPRGREVTDKAYKHLGKINTNIQGGLF
+>tr|A0A1S1J5Z8|A0A1S1J5Z8_9FLAO
+MIKTDILIIGAGPTGLFAVFEAGLLKLKCHILDALPQAGGQLSELYPKKPIYDIPGFPEV
+LAGDLIDGLMEQIKQFEPGFTLGERAETIEKQEDGSFIVTSNKGTKFHAPVIAIAGGLGS
+FEPRKPLIEDIEFYEDKGVKYFIKNPEKFRNKKVVIAGGGDSALDWSIFLANVASEVTLI
+HRRNEFRGALDSVEKVQELKTAGKIKLITPAEVIGINGAEHVESLDIEENGAHRKIETDY
+FIPLFGLTPKLGPIGDWGLEIEKNAIKVNNALDYQTNIPGIFAIGDVNTYPGKLKLILCG
+FHEATLMCQAAYQIINPGKKYVLKYTTVSGVDGFDGTRKEAPKAVVKAIV
+>tr|A0A1S1J4X4|A0A1S1J4X4_9FLAO
+MKTRIAINGFGRIGRNLFRLLLNHPEIEVIAINDIADNKTMSHLIKYDSIHGVLPFKVSH
+DEEGIIVDGKHFFFFHEKSIANLDWKSHQIDFVIESTGKFKTHEELNAHIEAGAKKVILS
+APSEVDTIKTVVLGVNEAILDGSENIVSNASCTTNNAAPMIKIIDELCGIEQAYITTIHS
+YTTDQSLHDQPHKDLRRARGASQSIVPTTTGAAKALTKIFPNLHHKIGGCGIRVPVPDGS
+LTDITFNVKRAVTIEEINKAFEEASKTNLKGILDYTEDPIVSVDVIGNTHSCLFDAQLTS
+VIDKMVKVVGWYDNEIGYSSRLIDLILLIRKT
+>tr|A0A1S1JAV7|A0A1S1JAV7_9FLAO
+MYEPIFALFCERVKESIQAGTFAKLTLAKTMGDTEIKNIYFRLVLNEDNTFSISLTTRYK
+TEEIESVHTLDEALLVLGTYIKNPFLTALLFTTDNDLTFKVNKKNAGSIIEQPPTFKNAS
+PVMLEMIEKGIV
+>tr|A0A1S1J1M7|A0A1S1J1M7_9FLAO
+MASDLYLKLKEQNIHIDVKDENLDIKAPAGALTPDIIDEIKRNKADLIRFINQYKYDKAV
+AIPKAAISPDAKYALSSSQLRLWILSQSEKGNVAYNSVGGYIFEGVLDQNTLNESLKEIV
+SRHESLRTVFEEDGNGGANQIVKGIEAIDFSIEHADLQNVSNADEVLKEQVAKEALIPFH
+LSKGPLFKTKLYQLAQNKWAFIYTIHHIIVDALSMNIFIAEILEFYNSKKQNRANALNAL
+RIQYKDYASWENEQLTGKKYEELKNYWLDQFQGELPVLTMPVDKKRPILQTFNGGTVEKR
+IDTKLSENLEKLIRENGATMFMGLTAVINTLLYKFSTQEDIIIGTPVSGREDEDLQNQIG
+YYGNTLAIRMKFKKENTFLELLEYTKKQVVGAYEHQMFPFATLVKELNLKRDPSRNPLFD
+VQVIYGENDNSKKSESLEGLQVWEYEFEEKLKTSRFDMVFSFYKDGNHLVQNIQYNTDVF
+SEKIVHQIADHVSVIMNSIVKNPKEQIYKLEHIGEQQKVALLQLSKGDVLAYDQSKTILD
+LFKEQVQEKPEAIAVAFKNKKITYKALDEESNRLANYLLANHTLKKNDFIGLMIDNSENV
+LVCILGILKTGSAYVPIDPEYPKQRIQHIIEDSGLNVLLTQSDYLFDLDFYTGEFFATDI
+QMDSIAAESTVFEAQVNPADAAYIIYTSGSTGNAKGVVINHENLMFSTIARLETYPDAAA
+FLLLSSISFDSSVAGIFGTITGGAKLVFAPKIRVSDVDTIIDILVEEEVSHLLTVPSYYQ
+LLLNQLGEHPNKLKTVIVAGEECTKQLVDLHQKVTTLKNCKLFNEYGPTECTVWASYYVY
+EPAVEFIPSIGKPIANSSVYILNDNNELSIDGLIGEIHIAGKGLSGGYWNNPELSKEKFV
+DNPFETGTKMYKTGDLAKRFSDGNIEFLGRKDNQIKIRGNRLELGEIENALLNFKGIDGA
+VVTYSEGTLVGHILTDIVINIDNLKKHLKEQLPIYAVPTSYTQSNEFPLLPNGKVDKKAL
+VVLANKHTLKGDSYVPPSNETEAALVHVFQQILQKESIGIEDDFFALGGDSIKAIQIISK
+LKQLGFVLTVQDVMQFTAIQELALHVKLAKQEIDQNAVEGTIPLTPIQKYFFEVTSQHKN
+HFNQSILLKSSKSLSEEGLKQIFQKLTVQHDALRAIFKEEGNEWIQEIKNDGFEFQLYVH
+SNVTASEFETICDGYQSSFDLEKGPLFKAVLFKREDTDYLLLLSHHLVIDGVSWRIILED
+LMTLYGQYEAGAALELPLKTHSLKYWQEKQLEYANSMTMMEEEVYWSSINEATQFSTSEL
+PKDFDYEGNNFYKDFETKVFQLDPSFTEKLLTEAHKAYKTNINDVLIAGLSLAIGKNFDI
+DKVAIQLEGHGREDINSEIDITRTVGWFTTIYPVLITLKKKQDNIGQLIEVKETLHRIPN
+KGIGFGILKYLKDCELNVKADVSFNYLGDFDLGQSNQEDQIFQFADIPKGREIAANTERT
+GTLDVSGILVNGQLQIMLSFNTNYFRNETIENLKEAYKYELELLISSLSEEKETHLTPVD
+FTYKGLDLSSLEELNKML
+>tr|A0A1S1J1R7|A0A1S1J1R7_9FLAO
+MKITISGSLGNIGKPLTQKLIASGHEVTVISSSSDRVKMIEAAGAKAAIGSVSDAAFLQS
+AFEGADAVFAMTPPNMGGVNIITNTTDAGKALAKAIAAAGVKRVVMLSSIGADLPGGNGP
+IAGLHNIEKLYESLENVSVTYLRAGFFYTNLYHDVPMIKGAGIIGANYPSNTTIPFVHPE
+DIATAVSEELLKTIVGKNIRYIVSDVRTPDEVAKTLGLAIGKPDLPWIEFTDVQSLDGMK
+QAGLPEEIAELYTEMGSGFRNGKIAAHFLGDYSSVEGQIKLEDFAKEFAAKF
+>tr|A0A1S1J1X6|A0A1S1J1X6_9FLAO
+MEKLKPLSDFFTAIENDYRISPMHIAIYAALLQFRSVKGFINPIFVFSSEIIVIAKVSSA
+NTYHKCVQELHQYGYIKYRPSFKKNRGSEVYFLFSADADI
+>tr|A0A1S1J3V3|A0A1S1J3V3_9FLAO
+MLISGDNPIAGQWNYDDENRKKMPKNHKPTTPFVFNNNVSEIVQEILKTDIKTMGTIESN
+NFIWPINRKQSLEVLDFFVPECLPLFGTYQDAMAPNEWSLYHSRLSFSLNTKMISPAEVI
+QAAIAAWQKEPEIIAYNQLEGFVRQIIGWREYMRGIYWLKMPEFATLNFFHNKEKLPNWY
+WTVKTKMNCLKDAIKQSLTFAYAHLELIPFLRLSQSFNFLIGNIQYF
+>tr|A0A1S1J5H3|A0A1S1J5H3_9FLAO
+MKTDAFALRHIGPRETDLQHMLQTIGVESIEQLVYETLPDDIRLKAPLNLDPAMTEYEFA
+NHIQELGKKNKVFKSYIGLGYHPTIVPAPIQRNIFENPGWYTAYTPYQAEIAQGRLEAIL
+NFQTTVIELTGMEIANASLLDEGTAAAEAMALLFDVRTRDQKKNNTNKFFVSEEILPQTL
+SVLQTRSTPVGIELVVGNHETFDFSNEFFGAILQYPGKYGQVNDYSTFVAKAKENEIKVA
+FAADILSLAALTSPGEMGAAVVVGTSQRFGVPMGYGGPHAAFFATKEEYKRSMPGRIIGV
+SIDVNGNRALRMALGTREQHIKREKATSNICTAQVLLAVMAGMYAVYHGPKGLQYIANKV
+HASAVTAAEALNKLGVYQTNTAYFDTILVKADAQKVKAVAEKNEVNFFYPDAESISISFN
+ETTSIADINQIIAIFAEALGKETFTVSELSEASQLPASLERTSPFLTHDVFNNHHSESQL
+MRYIKKLERKDLSLNHSMISLGSCTMKLNAASEMLPLSMPNWNSIHPFAPVEQAEGYITM
+LKKLEQQLNVITGFAGTTLQPNSGAQGEYAGLMAIRAYHMSRNDGHRNVCLIPSSAHGTN
+PASAAMAGMKIIVTKTTPEGNIDVEDLREKAIEHKDDLSCLMVTYPSTHGVFESSIIEIT
+KLIHDNGGLVYMDGANMNAQVGLTNPATIGADVCHLNLHKTFAIPHGGGGPGVGPICVNE
+KLVPFLPTNPILKVGGEKAITAISSAPYGSALVCLISYGYITMMGGEGLKSATEHAILNA
+NYMKTRFEGHYPILYTGECGRAAHEMILDCRAFKENGIEVGDIAKRLMDYGFHAPTVSFP
+VAGTLMIEPTESEDLAELDRFCDALISIRKEIEAATADDKNNVLKNAPHTLAMLTADTWD
+FPYSRETAAYPLEYIADNKFWPSVRRVDDAYGDRNLVCSCAPIEAYMEN
+>tr|A0A1S1JDA9|A0A1S1JDA9_9FLAO
+MKKFYALFLLLFCVSVNYAQQTTQTLVVDKAWLNDSEEWSDFKYTGQIVFSTNANEEEGS
+LRIGNYDFLFDICGGKAKFANKATYSVAQFSHPRKVSVTTDKQGVMNSTYEGTLVFQSDK
+DYYSVIAIVTILEKNGNTLGVKMHLKEGSKKEYAFSIKNS
+>tr|A0A1S1JG24|A0A1S1JG24_9FLAO
+MRLLLVIKKENVDLEKPVNKLNNFLVLQKRIQIVFTLLLLGSFSQIKAQERVPFDQGKKY
+ILAKVSVVGKISFNEQTVVTFSGLQKGQEIAVPGEEISGAIKKLGKLGLFDEISFYVNKI
+DNDSIYLDLNIVELPKLNEVKFVGIKKNKIEGLIKDNNLTKNKIVNENLITTTKNYIENK
+YKKEGFYNTKVTITNTPDSTAGNHVNMLVRVDKGDKVKISSIDFIGNKQLSGNQLRAAMK
+DTKQKNVLRILKSSKFIPEKYKTDLEKVVAAYKEKGYRDARIISDSVKYDKKKNMLAIKI
+NVEEGNKYYFGNIKFLGNTVYSDQLLNRYLGIKKGETYNGVLLEKRIADKTKPDAEDITN
+LYQNNGYLFSNINAVEVKTVNDTIDFEIRVTEGPIAYFNKISVVGNDKTNDHVIYRELRT
+KPGEKYSKEQLVRTIREIGQLGFFDPEAIDPKFKNVDAAAGTVDIEYHVVEKGSSQVELQ
+GGYGGGGFIGTLGLSFNNFSARNLFNKESYKPLPMGDGQKVALRLQGSTYFQTYSVSFSE
+PWFGGKKPVQFSSSISYSKQFLNNFATRRVDKSKSFNILTLQVGLAKRLTVPDDYFVLSQ
+SVSYQHYDLNNYNTGLFTFGNGASRNLAYTIGLSRSNKGVNPIFPTYGSDFSISAKITPP
+YSLFNGIDYGDLQNQKEYKTQYTGAPKSGDDGKPLNTGDYTKTEIVNGTPRVVSVGSDYA
+SADVDQGKVDQKRYNWLEYYKIKFKGEWFTKLYGKLVLRTLTEFGFMGAYNQSRGLVPFE
+RFYLGGDGMANYSMDGRETVQLRGYENNSLTPVNANGEQIGATIYNKFSMELRYPITLKA
+SASIYALAFLEAGSSYPTFKAYNPFDLNRSAGVGLRVFMPAFGLLGIDWGYGFDPQPGET
+KAHGKEIHFIIGQQF
+>tr|A0A1S1J9Y3|A0A1S1J9Y3_9FLAO
+MEDKKVIILGSSRKNGNTTRIADEISKETGIEVINLSDYNISYYDYESKNREDDFFPLIK
+GIIEKYDTLIFATPIYWYNMSGIMKVFFDRFSDLIRIEKETGRKLRGKKIGVISNSHDNE
+IEESFYIPFKKSADYLGMEYLGHAHFNANILNETTKIELTFI
+>tr|A0A1S1IXR9|A0A1S1IXR9_9FLAO
+MKRQFLIVIALITFTAKGQNKTTDPIYQLRVYEIFESNKNQFHERFRDHAMRIMKKYNFK
+ITSIWESKSDKKTEFVYFLEWPDETTMKKAWEGFKSDQEWIAIKKEFTAKYGDVVGNIED
+RILTKTDYSPK
+>tr|A0A1S1J362|A0A1S1J362_9FLAO
+MSKEIEERIEKVPVVRSVVRFFKRIKLPWLEGFSLYDLLEMYTIGIIEGAFSYHASAVSF
+SFFMALFPFALFILNLIPFIPIEGFQQDFLQFVQQGVPPNTYEAISKIISDILNNSHSGL
+LSSGFLLSIFLMANGINGILSGFESSKHVFDKRGFLNQYLVALAISLIMTIILFVTVATI
+VVFEVFIQKTIIQDVLSDRIPLIILGRYLFVVLMILITSSLLLRYGTRQYNKVPFISIGS
+VFTTILIVISSFFFGIWVIKFSKYNELYGSIGTLLILMFYIWINCMILLLGFELNATIRK
+LKQKKNK
+>tr|A0A1S1JA95|A0A1S1JA95_9FLAO
+MEKEKVPQDNGNLTKNNLKELLYATDENGDYTTTLSTGWEPKTIALSNSIDDINERIAEA
+KQQVEIGEVSPICYYMELNKMDLTILSSYVGMWKWRVKRHFKPSVFAKLSNTTLQKYADA
+FEISIAELKNIKTA
+>tr|A0A1S1JAX9|A0A1S1JAX9_9FLAO
+MKQILNNLNKLAKDKHIENKKYFDKLKKKQPKNLDYVMQDLHDAEFKKTDCLQCANCCKT
+TGPLFTLADIERISKSFRQKPQQFIEQYLRIDEDKDYVLKSVPCTFLDNENYCMIYDVRP
+KACREFPHTDRKKFHQIADLTLKNVAICPAAYNIVEEMKKKLPL
+>tr|A0A1S1J8I9|A0A1S1J8I9_9FLAO
+MNKEQLNRMQTGKGFIAALDQSGGSTPKALAQYGVQENSYTTEEEMYTLVHEMRTRIIKS
+PAFSSEYILGAILFENTMDRKIDGQWTADYLWEHKNIVPFLKVDKGLAELENGVQLMKPI
+SNLNELLTRAVERNIFGTKMRSVIKEANVTGIREVVEQQFAVGLQIFNKGLVPIIEPEVD
+IYSADKEKSEEILKAEIIRQLNLLDKEVKVMLKLSIPTVNDFYKELMSDPHVVRVVALSG
+GYAQEEANQKLALNHGLIASFSRALSEGLTFGQSDDEFNSKLEKSINGIYEASIL
+>tr|A0A1S1J2Y1|A0A1S1J2Y1_9FLAO
+MIKIKKLSKIFRTEEVETKALSEISLTVNEGDFVSIMGPSGSGKSTLLNIIGLLDSASGG
+SYELVGQEMIGLKENLKSKARKENIGFIFQNFNLIDELSVFDNIELPLIYNKVPSSERKK
+KVQEMATILGISHRLKHYPQQLSGGQQQRVAVARALINDPKIILADEPTGNLDSKNGNEV
+MELLTDLHAGGATILMVTHSDYDASFSQRTIVMKDGAILSEKMNHRNVDVLVNHSTN
+>tr|A0A1S1J4W3|A0A1S1J4W3_9FLAO
+MKRKILFLGESYRADAITWMKGLEEFGDFEICTWELQTPNHSKLSRFRRILEYLFSPLSI
+RKKIKQEKPDMIIAERTTSYGFLAAISGMHPIAIAQQGRTDLWPEGSILLPFKKFIQKHA
+FKKADLIHAWGPVMTISMKAIGVDMSKVLVLPKGIDLSLFTPSISSSTKIEAIVTRSLQP
+EYRHDSILKAFGILHQKGIDFSLTIVGDGTRLQSLKDLAIALQIENKVIFTGRIPNTELP
+KLLQQSNIYISMPITEGVSASLFEGMACNCYPVVSDIPGNQSWIKHRENGQLIEIDNIEM
+LAEELIWSFENSESRNQAVLQNQKFVEENANYSTNMKIISEKYHELLDLKRN
+>tr|A0A1S1J1B0|A0A1S1J1B0_9FLAO
+MNIAPNILNAVNEWLTPTFDSETQAAVKELMTTSPKELEESFYKNLEFGTGGMRGVMGVG
+SNRINKYTLGKNTQGLSDYLHIAFPNQPLKVVIAYDCRHNSNTLAKVVADVFSANGIHVY
+LFSDLRPTPELSFALKYLGCQCGIVLTASHNPPEYNGYKVYWEDGGQIVPPQDTAIIDTI
+ENLGYDKIKFKANESLIEYIDIELDKAFVKSSIENASFNTPAKAKDNLHIVFTSLHGTSI
+KSIPDTLSQAGYKNVHIVPEQAIPDGNFPTVKSPNPEEPEALTMALALADKTNSDIVIGT
+DPDCDRLGVAVRNNEGKLILLNGNQTMVMMTAFLLKQWKKAGKINGKQFIGSTIVSTPMM
+MELATNYGVECKVGLTGFKWIAKMIKDFPQLQFIGGGEESFGFMVGDAVRDKDAVAATLL
+ICEVAAQAKAAGNSVYKELLQLYVENGFYKEHLISLTKKGMQGLEEINQMMISLRNNPLK
+EISGQRVIMMEDYQTSIALNLLTGEESVMDIPKSNVLIYYTEDGSKICARPSGTEPKIKF
+YISVNAQLDSVEDFDAAESYLDEKIQSIIAGMQLK
+>tr|A0A1S1J4S5|A0A1S1J4S5_9FLAO
+MATIFYSWQSDLPNATNRTLIQKCLKAAVLAINNPNLEIEIKVDQDTQGLSGSPDIAQSL
+FEKIDNSEIFVCDISIINFDQGKRKIPNPNVLIELGYAAKALGWENVICIYNTAFGAIED
+LPFDIKQRRILTYSLSEGEDKNSTKKTLENSLKSSINRILDAGEPKLKRELSTIFNDINP
+DIIQLVKTGKKAISINVNFLHTSELHKHIRNKHFKKVIEMTPNRNTLGNNTCYNGGLNDI
+GPGQLDGYDFTFKGEW
+>tr|A0A1S1J9B6|A0A1S1J9B6_9FLAO
+MSKYTEDDLKIELETKEYEYGFYTDIESETFPIGLNEDIVRAISLKKEEPQWMTDWRIEA
+FRAWKEMIEPEWANVHYEKPDFQAISYYSAPKQVDPNKTLDDVDPELLEMYKKLGISVDE
+QKMMNNVAMDIVVDSVSVATTFKKTLAEKGIIFCPISEAIKEHPELVKKYLGTVVPQKDN
+FYAALNSAVFSDGSFCYIPKGVRCPMELSTYFRINQAGTGQFERTLVIADEGSYVSYLEG
+CTAPSRDENQLHAAVVELIALDDAEIKYSTVQNWFPGNKEGKGGVYNFVTKRGLCETNAK
+ISWTQVETGSAVTWKYPSCVLKGDNSVGEFYSIAVTNNYQQADTGTKMIHLGKNTKSTII
+SKGISAGKSQNSYRGLVQISPRAENARNFSQCDSLLMGNNCGAHTFPYIESKNPSAKIEH
+EATTSKIGEDQVFYCNQRGIPTEKAIALIVNGFSKDVLNKLPMEFAVEAQKLLEISLEGS
+VG
+>tr|A0A1S1J9Y2|A0A1S1J9Y2_9FLAO
+MKKKLLLVILTLLFYNFSAKSNNLRNVFYSTEYEGAVTFQAGYVIGDYVEFLRVNPISAG
+ASGYYQISINYTRGNIASAATHIASISHSNPAIWRETGRINNNPYTGSGINFTVDCNTQY
+GNPRFRIRAVNTLGINTPITVYIKVTSFNSNDALTALNVTGNDTSVSKFLPMTADWDLYV
+GNVFTADGATLAIKAIQNGNVGIGTANPASKLTVAGNVAAREVKVTVDAGADFVFENGYN
+LPSLESVGKFIKENKHLPEIASAKEMQKDGINLSEMNIKLLQKIEEMTLYMVEQNKRIKD
+LEKQMEEVKKK
+>tr|A0A1S1JEC6|A0A1S1JEC6_9FLAO
+MQSSQIKHFDYIFTGTGLAALMTVYKMVLSGNFAHKSVLLLDQDVKKTNDRTWCFWEKED
+SVWSPIVLKKWDSALFANENFKRDLNLIPYQYHQIRGLDFYDFVFEELSKHPNITFLNEK
+VTNINELETHVFVGSEENRYTCNYLLNSIYTSSTALSQMKYPVLQQHFVGWYVKTEKEVF
+NPEQATFMDFSVVQKGNTRFMYVLPVSKTEALVEYTLFSEKLLSTAEYENEIQIYLEKRG
+IEQYEIVEKEQGSIPMTCYPFWKKNTKRVLNIGTAGGWTKASTGYTFKSADKKSTDLVEF
+LYSSSSIKMTSFHKRSRFWFYDLLLLDILYRHNELGSGIFSSLFKKGDPQLIFKFLDEET
+SLIEDVKVILKCPKVPFIKALFRVIFLLNKFNLNQ
+>tr|A0A1S1J006|A0A1S1J006_9FLAO
+MITPENTFKDAQHLNADIWNQVNRNLLAKSISELMREDVANPQITTKDEDGLTHFRLETD
+TTSIYYTFSAYPRFLNYWHIVKDSLCKVEHEVKLEHIDVPNFFIELQETFGINSFTLAHY
+IEELLHTLYADAYIQSNRRVPAAELADADFQTIEHSLDGHPWVIVNKGRIGFDSEDYTKY
+NPESDQRTRLIWIAAHKNRANLRLQTDVDDQDFYENEIGKEKLDAFRSKLATLNVDPYDY
+VFIPVHVWQWQNKLVMQFSNDIASKHLIPLELTEDIYSPQQSIRTFFNESAPHKHYVKTS
+MSILNTSHVRGLSPKQLLIAPRLTEYLKNVLKKDEHLQKMGVVLLGEVVSVTYAHPSYSK
+IDNPPYQYNEYLGAMWRESPINSLREGENLMTMAALLYVDNTGKSLVQELIEKSGLSTEQ
+WLKAYMTAYLKPVLQIYYQHSLSIDPHGQNVILILKDYVPTRIALQDFVGDILINEEAKK
+KLPQEFIDNLFNASPNPENAPLTILIAIFDAFFRYLSHVMITNANYTEKEFWNCVYDIIT
+EYQAEHPELQEIFDKYNMFIPEFKRLIFNSRRLYNGYEETAGFPHMKKSGFVPNPLHQLI
+HEEIVTAKEN
+>tr|A0A1S1J2Z4|A0A1S1J2Z4_9FLAO
+MKKILTLVSIAFIGLTAKAQDTNQGLKGTWFATSQFGYQQTKTGDVKNTNLSVLPIVGTF
+VTPSVAVGAGFGIINIKADAKAGTVAKTDLLVIQPLARKYWNVAGSLYFFGQVAAPIITG
+KEKESDLKISQYGLSVSGGFDYFISKNFSVEFSYDLANFTSTTLDPKNGEKTTVTNFGLA
+HVANVDPFYNTALAGSRPNLTSPLSFGFKFLF
+>tr|A0A1S1J4H7|A0A1S1J4H7_9FLAO
+MNLSNLQPAEGSTHNQNKRLGRGEGSGKGGTSARGHKGAKSRSGYSKKIGFEGGQMPLQR
+RVPKFGFTNINRKEYEGVNLDTLQLLVDNGVITDSVSMTDFVANRLATKNEIVKILGRGE
+LKAKLKVTAHKFTATAKAAIEAAGGEAVTI
+>tr|A0A1S1J5T3|A0A1S1J5T3_9FLAO
+MNEITSYWWIILILFAIVFYKFILRVFFGMVMVPENKIGLVTKKFVLFGADKSLPDGRII
+ATKGEAGYQAQTLAPGLYWGMWIWQYSIDMTGFTVIPEGKIGLVLSKDGQEIPTGRILAR
+RVDSDNFQDATSFLNNGGQKGRQTAFITTGSYRINTFLFEIIIADQIKIYENMIGIVTAL
+DGEPIPQGQIAGKFVEGHNNFQDFDQFLDKGGNRGLQPQVMLAGSYYINTWGILIEQNPM
+TDVPIGYVGVVISYIGEDGQDVTGDTFKHGNIVSKGQRGVWMEPFGPGKYALNKYTTKLE
+PVPTTNLVLNWANARSESHDLDKNLSTITVRSKDGFPFNLDVAQIIHVPANEAPKVIARF
+GSMNNLVSQVLEPTIGNYFRNSAQDSEVISFLSTRKERQESAKNHIKLVLDEYNVNAVDT
+LIGDIVPPDSLMKTLTDRKLAEEEQKTYQTQRMAQEQRQGMEKETAIADMQKEIVRASQS
+VEIAQRTADATVKKAEGDATSLKLNVNAEAEATKMRANAEAEATKARAGAQAEATKLNAS
+AEAERISKTGLAEAEKIMAVGKSTAESYQLQVSAMGGDNFTRYKVTEEIGKGNIKVIPDV
+LISGNGGSDGSISGLLGLKLMEMMDTKDLKETKSPKKG
+>tr|A0A1S1J5Z9|A0A1S1J5Z9_9FLAO
+MKTITKVLFFIGVFLFLFSYIIDPYKINEESYIVIDGDTVAFLKMLYIITCLLFGYSFYI
+FLKIFKTKTYTIFSFILFVINLTLLCKMFFYFDSFLE
+>tr|A0A1S1J7R3|A0A1S1J7R3_9FLAO
+MTKQKVSFFWFRRDLRLEDNTGLFHALQSDFPVIPLFIFDDEILENLPKNDARVQFILES
+LQKINEQLKAIDSSILIKKGTTNKVWESLTTEFDIQQVFFNKDYEPFAIKRDAAIQQLLA
+QHHITASSFKDHVIFEEKEITKADGLPYTVYTPYKNKWLEKYHLSGQAPEFDTKIGYENF
+SKNQFTFPELAEIGFEKSAIKVLPPDLSQISNYKETRDFPAEDSTSYLSPHLRFGTVSIR
+KLVNWANRKNQTFLSELIWREFFIQILFSFPNVVNHNFKSAYDGIQWRNNEEDFKRWCSG
+TTGYPMVDAGMRQLNETGYMHNRVRMVVASFLCKHLLINWQWGEAYFAEKLLDFELASNV
+GNWQWAAGTGCDAAPYFRVFNPEIQQKKFDEKGIYIRKWIPEFDLGYNEPMVDHAFARDR
+AIETYKKGILK
+>tr|A0A1S1J7Y2|A0A1S1J7Y2_9FLAO
+MKKKLKIYSFLFLLLLSAGINAQNTTPLIQSKLDGTVVDDITNQPIIGASVVIKGTTHGV
+QTDAEGKFYFQTGQKFPYTLIVTYIGYKKSEIIVEKNPITIHLKEERQELDELVVVGYGS
+QKRKDITGSVASVPKANLSQVTSSADNLLRGAIPGVVVTQSSGRPGASSSVRIRGGNSIT
+AGNEPLYVVDGILIYNDNNNSTAGVANAGATVNVLSTINPGDIESIEVLKDASATAIYGS
+RGANGVVIITTKKGTKGQDNISYQGYIGFQNVSKKLNLMNASQWASLRNDVQASIGQAPS
+FSAAQIEALKTSGGYDWQSAAFRTAAPIQNHQLSFSGGDDRSRYAISAGYFQQDGIVIAS
+DFKRISLRVNYERNYSPNFKFGVNANYSNSVANGIGTNGGSSAGRQPNPLVVALYQPPVV
+PIKNPDGSYNLTNNPYATAVNGIIANPINDLVSTTNETKINRILTSLFGEYKITKKLTAK
+VAVSGDVMNTKQNYYAPATTTTGAGTKGFGSVGDRLVSSVLNENTLNYNTNFGDNHKFSA
+LGGYTLQYTQGEVVNAGAQFFVNDANTYNALQDGVPVKPSTDAFESVLKSWLTRVNYSYK
+GKYNFTLSGRADGSSRFGSKSLWGYFPSAGFSWNITEESFANHIKGLTEAKLRITAGTTG
+NQEIGNYLSLAQMGSVNYAFGGTLQTGLAPTRLANSDLKWEKTNQYNVGLDLSLLDRKIN
+FVFDVYYKKTNDLLINVPVPLISGYATVLQNIGGVENKGIEIGLITENLKTENFSWNSNF
+VFSANKNKVVAIGNGVDQFFPVVPNGSLLQQQPVTVKVGLPLGTFWGYKTNGIFQTQEEV
+NTQPKINSLANTKVGDRRYVDTNGDGVITALDKGNLGSSQPKFVASFSNTISYHDFDLNF
+SFQGSYGGKVFNALNQQLEISTLGTNANVTLDDRWTPTNPSNEVPRATSSPLGIVSERYI
+EDASFLRLKLITLGYTLPKSLSKRLGAKSVKFYVSAENLITWTKYTGYDPEVSSYEQNNL
+YPGIDFGAYPNSKTFISGLNVTF
+>tr|A0A1S1J136|A0A1S1J136_9FLAO
+MQEVTETKKKSFLKGLTGQIIIAMVLGATLGIILHNSISPEAAQSFSNKIKMLATIFIRL
+VQMIISPLVFTTLVVGIAKLGDIKTVGRIGGKALGWFFTASFISLLIGLFYVNILEPGVG
+LKLDHVDMAAASEVTAKTKTLSVENFVEHIVPKSIFEAMATNEILQIVVFSIFFGLAGAS
+LGSTVKPVINALDKTSHIVLKMVNYVMNFAPIGVFGAIAGVFAIRDAEELVITYFKFFGS
+FLVGIGTLWVVLVAVGYLFLKGRMTELLRRITGPLAIAFGTTSSEAVFPKLTEELEDFGV
+KDKIVAFMLPLGYSFNLDGSMMYMTFASIFIAQFYGVHLDLGTQMVMLLVLMLTSKGIAG
+VPRASLVVVAATCGMFDIPVEGIALILPIDHFCDMFRSATNVLGNALATSVVGQWEDDKD
+SEIASENL
+>tr|A0A1S1J4U9|A0A1S1J4U9_9FLAO
+MSKLDLTKTDKVYYTAKTNPEIVYIEKTNYLSITGKGDPSGQEFSENIQALYATAYAIKF
+MQKAVNNDFVVPKLEALWSFDTEKYKGISMDEAPLKIPRSEWDYRIMIRMPNFVTKEQTE
+EAIQNTANKKQIERAKSIEFYEMAEGKVIQVLHIGPFENEPQTLKKIQEFSTVHQLEQNG
+LHHEIYLSDFRKTASEKLRTILREPVK
+>tr|A0A1S1J5H1|A0A1S1J5H1_9FLAO
+MKNSAFLLFATILFSNAINAQLKAVKYTDGSQALSGLFAKSAKKNTQNPGILLIPAWLGI
+DKASKDIAENLSKLGYHVFIADIYGEGNKPANTAEAAKQSSYFKNNFEIYQKRINAALQE
+LIKSGANADNIVAIGYCFGGTGVLEAARGHLNLKGVVSFHGSLARNAARKIEPITTKVLI
+CHGADDPYESKEEITAFQQEMRDSKADWQMIYYANAVHSFTNPEAGNDNSKGAAYNAVAA
+KRSFEHLQLFLNEVLKK
+>tr|A0A1S1JBS5|A0A1S1JBS5_9FLAO
+MSINVKSLIPVLNAEWTGSDSDVFVDHISIDSRSLQNGSKTLFIALSGINNDAHLYIAEL
+IEKGVQNFVVQHIPEDVKGKASFLVVKNTLQALQEFAGYYRDLFHFPIIGLTGSNGKTIV
+KEWLNFLLSPDYNIIRSPKSYNSQVGVPLSVIAINEKHNLGIFEAGISTVNEMVKLERII
+KPNIGVLTSIGSAHDEGFKNLEEKIDEKLLLFKNSTVIIYQNNKLVDECLAKLSLDYFLP
+ERVLFSWSFTDESADVFVVKHINEDETTSIQARYKNEIFDLEIPFSDSASIENAISCLLV
+LLYMKYDAETIQNRFQNLYPVQMRLEVKNGINNCSIIDDSYSSDFQSLKIALDFLESQQK
+KNASKTVILSDIFQSGFSNEELYTKVAQLISDNKINRVIGIGETISSFAAKFSNCITFPN
+TAEFITQIESLNFENEAILIKGARSFQFEEIVSLLEEKTHETILEINLNSISHNLNYYKS
+KLATNVKLMVMVKAFGYGNGGLEIAKLLEHHKVDYLGVAFADEGISLKNGGIKLPIMVLN
+PESTSFPSIIQYHLEPEIYSIKGLKAFLKIAREKNLKDFPIHIKLDTGMHRLGFEENTLE
+ELIETLRGNSTVKVKSVLSHLATSDEVKHFDFVRSQIRLFEKLSLKLITALDINPIRHIL
+NTSGISNFPDAQYNMVRLGIGLYGVSNDPAEQKYLENVGTLKSIISQVRTIPAGDSVGYG
+RRFMADKQTRVATIPIGYADGISRLWGNKVGYVVIKDQKAFILGSVCMDMLMVDVTDIDC
+KEGDSVIVFGESPTVIEMATALKTIPYEIMTSISQRVKRVFFR
+>tr|A0A1S1J5X6|A0A1S1J5X6_9FLAO
+MKTENNHFAKAEMLIRKPVSEVFQAFTDPEITSKFWFTKSSGKLIAGTTTEWTWEMYGFS
+LTVTTHNLEENKKIVIEWGAPNETTIVEWIFSPLNENETFVSITNSGLKGDPDKIIDQVR
+NSTEGFTLVLAGAKAYLEHKIQLNLVLDRFPKGLE
+>tr|A0A1S1J6P9|A0A1S1J6P9_9FLAO
+MTIQDLVGNYSISGSNQDESNQITYKGILSLSLDENNRIIAQWLINNTQQQKGHGFFKDN
+ILVINFSYKGDENKIYKGVAVYICITADVLEDFWSEKHGNPLYLGTEHCLRMKAKNLS
+>tr|A0A1S1JC84|A0A1S1JC84_9FLAO
+MYNSEQISNYATKFINVLIDYSPKLISAFIILFVGIYAIRLISRIITKIMIQRNLDPTLT
+RFLSDILIWALRILLFVTFISKLGIETSSFVAILGAMGLAVGLSLQGSLSNFAGGMLIIV
+FKPFKVGDTIETAGGVIATVVEIQIFVTKMLTANNQTVFVPNGALSNGTIINYSMQGERR
+ADLTFAVSYDSDIKKAKDILLNVLNNNPKVLKKPAPEVFVKNLTASSVEFAVRPWAKNAN
+YGAVFSETLENCKAALDEAGISVQPYTLQK
+>tr|A0A1S1J633|A0A1S1J633_9FLAO
+MSNFIQIFLFLALGLLLQRIKRFPTHLYKVLNKVVLYVCLPAITLYHIPKIKWSNELLFP
+ILSGWIGFLLALVFFHFLGRRLGWSNKLIGCLILTAGLCNSSFLGYPIIEALFGKKGLET
+AILVDQPGTFVVVSTLGVFVAAFYSKGSADALSILKKIILFPPFITFLVACLLNVLQYDL
+DTNVQSVLVKVGSLVTPLALLSVGLQLTFDRKSQHWQFLRLGLFFRLVVVPFVILVLYVF
+ILKQHSEAIKITIMEMAMAPMITGAILASTYGLKPRLSSMMIGFGIPISFITLTIWYWIL
+SLI
+>tr|A0A1S1IY78|A0A1S1IY78_9FLAO
+MYQIENKEEEIVKIYVINHEKENDDQTTVDGLQVYNDTWIQNDLSENRVEIVKLVFSILL
+LLAFFFSFIALLIIKFCN
+>tr|A0A1S1J1R8|A0A1S1J1R8_9FLAO
+MQSRRKFIKNTGIFSAGLLALQTDVFGMQSDVFNFSIKDFVSKRPPLAERKFTSKAIEAA
+IVRIKKQIANPELAWLFENCFPNTLDTTVDFEIIDGKPDTYVITGDIDAMWLRDSTAQIW
+PYIPFVKEDKKLAELVKGVINRQTKCILLDPYANAFYKDFAQVSEWKNDMTKMQPGIHER
+KWEIDSLCYPIRLAHGYWKETGDISLFDSKWKEAMLLVLQTFKEQQRMHDKGPYNFQRVT
+AWATDGVPLSGYGYPVKPCGLIVSTFRPSDDSTLFGYLIPSNMFAIEVLGYLIEIFSLPA
+LKDDNLVSKAKELRGQVQKGLEENGIIEHPKFGKIIAFEVNGYGSFHMMDDANVPSLLSL
+PYLGAIAPDSPLYLNTRKVVLSENNPFFYKGKAGEGIGGPHTGTDTIWPMSIVLRAITSV
+DEQEIKQCISNLIKTNADTGFMHESFHKDDVAKFTRKWFAWANTLFGEMIVHTSIHYPQI
+LKDKNI
+>tr|A0A1S1J3J5|A0A1S1J3J5_9FLAO
+MKATFHKYMLDFKRPSGTSRGVMTEKETWFIVLEENGKKGIGECGILRGLSADDREDYEE
+KLQWTCDNIHLGEKALWDALLEFPSIQFGVEMAFLSLRSEDPFVLFPSHFTNNSASIVIN
+GLVWMGEASFMKEQIEEKLATGFNCIKLKIGAINFEKELELLAFIRSHFSAEQIEIRVDA
+NGAFDLNEALGKLNQLNKYQLHSIEQPIKKGNISAMADLCKTTPFPIALDEELIGIFSLE
+EKEALLQKIQPKYIILKPSFVGGFKGTKEWIDLADKYQIGWWITSALESNIGLNAIAQWT
+FLQNSKMPQGLGTGALYTNNFDCPLEVVEGQLWYSKTKDWDFDFLSSL
+>tr|A0A1S1J4C4|A0A1S1J4C4_9FLAO
+MTTDFLHYIIHCYNVFVIHFSIGYILFYIFLSVLSYWAIVKHLKYQKYLEEEVLIRSNHI
+LGVSIVAPAFNEGVNIVYNVKSLLSLTYPKYEIIIVNDGSSDDTLEKLIAEFDLVKIDFY
+YQEKIVTQPIRGHYKSKNPVYSKLLIVDKINGKSKADAANAGINSSQYPLFLCTDVDCIL
+KRDTILKLAKPFMENETRVIACGAGIRISNSCDIKEGFLFKVHYPKEWYPRFQELEYVRS
+FLFGRMAWSQLNGLLLVSGGLGMFDKDIVIKAGGYWHQSLGEDMELVTRMRKYMHDTKEK
+YLIKYIPESLCWTEVPSTRKIFLRQRIRWARGLVQTLYLHRKMFLNPKYGRTAFLVLPFF
+FSFEFLVPIIEFIGILTLIFSFIFGMIDYQHLLIISLLVYLFYLSITIISILIDEILYKS
+YANYKELMILIGMAALEPFAYHPITIYASLKGYWLFFRRKEQNWGVMVRKGYEGPTKK
+>tr|A0A1S1J4F1|A0A1S1J4F1_9FLAO
+MKYFAVFFFTLLSAVGFAQDTESTVPQRVSGYIINDNSKQPLSNVNIINTNKVRGAKSDA
+KGYFEIDVQLNDTIHFSILGFQSLRVRVTNDWIKNKVTRIQLTEKAIALEEVIIAPFNLT
+GYLEVDSKLIPTKENYRYSISGLTQGYEAGEYSPNAFGKVLGSIFNPADMLYNFFGKNAK
+ELKKLKEMRKDDTVRNLLESKFDRETVSVLLGISKDEIPDILQRCNYSDSFIQTANDLQI
+MDAISGCYEQYKVLKRN
+>tr|A0A1S1J5M1|A0A1S1J5M1_9FLAO
+MKAKATLKQIAKELGVSVSTVSKALNDSPEISEQTKVKIKEYAKLKNYKPNVIGLNLKNR
+KTKTIGVIIPNILNSFFAKVFSGIEKVADKKGYNVITCISNESLEKEVHTLEMLSNGTID
+GFILSVSEEAQKLEDYGHFSAIIADGTPIVMFDRIADGVECDKVIVDDFDSALNSTQHLI
+DLGCKNIALISSVDNLSVGKLRADGYLKALADNNIPVNENIILRTDSEEDMKAKIDAIFE
+HKIDAIFALDENDSVAALRVSLKKGYKVPEDISIIGFADGILASRRLSPSLTTVSQHGVE
+IGEVAARQLIKRLEEESEEETSDYETIVIKTKLKERESTRKI
+>tr|A0A1S1J6S9|A0A1S1J6S9_9FLAO
+MFGLFNKQKDEALPEWYSELQQSQERWFNFLEKLEAKLEEFATAAIPELKEILQSDDDLY
+KRTFHRVYSGVNGQLSNIREKARHTYEEKIIDVYNHYNSQISVLSKHYNLVSNFRNVCSD
+RHNDFEDQYEYWRKQIEKTQERDLEIEYQKILDEFEAIKNKFNCTQCGGNIEIEKIFLIE
+TYIQCPYCNTQNTFAPSTQARNLQNIARGLAEQRTAHLYEAFEIENNKERELYHQRHELS
+LSKIHESDKKVLSQILAKMEELEEQRQFVIKNAPKLHQIYLRAMYDEWNKITPDLKEHNE
+KMYQNQLQYL
+>tr|A0A1S1JAU5|A0A1S1JAU5_9FLAO
+MNAMKNRVQLIGNVGNDPEIKTLENGRKLAHLSIATNEKYTNDKGEKVEQTEWHRITAWG
+KTAEIIEKFVVKGKEIAVEGKLTHRSYDDKNGEKKFITEVVVNEILLLK
+>tr|A0A1S1J162|A0A1S1J162_9FLAO
+MKYLLSLTFFLFSVLTYSQTKILSWNIENLGKSKSESELNFIANTVLAYDIIAIQEVVAG
+YGGSQAVAKLAAILNNKGSKWDYTISNPTSGNSYKTERYAYIWKTSKVKLKGNAWLEKKY
+HSEIDREPYLGTFEINKKSITLVNFHAITKTKQPEKEIKYFKFLPEHYSNLNLVFVGDFN
+CPQSHSVFTPLKKMGYNSTLQNQKTTLKQQCKETVCLASEFDNIFYHKKSVNYINSGIVS
+FYKNFNSLQEARKISDHIPIWIEFSLN
+>tr|A0A1S1J4H5|A0A1S1J4H5_9FLAO
+MKLEFNSKLRNYIVLSVLNQEEILISKRNSIFIYNILTEDIKFILSLPCSYTLNFLSKSG
+LITRVLRLGVRYALTISENKLLVVFDKKFFEVNILEGTYKITFNITRGNRPLNIANVENI
+NNFDDSLYFGEYFANFERVPVNIYQRLKDSSWKIVYTFPEGTIEHIHAIVPDKFRDCLWI
+LTGDFNKASGIWMAKNNFEEVTPILLGQQIFRSCVAFPEEKGIIYATDSQFENNSIRILH
+EKNNEWVSDFICEINGPAIYGCKVKNDLFFSTSVEGDSIAKGKFLKYLDREAGPGIKENF
+SHIVGGNFEKGFNILTKNKKDFFPFILFQFGAITFPTGINETDFLFSYNISLKKNNLNTE
+IFKINN
+>tr|A0A1S1J899|A0A1S1J899_9FLAO
+MKFTKILFLILSVVFISCNEKKSGIIEEITPKDFAEKIKTTENAQILDVRTPEEFESNHI
+DNAVNVNWNGDDFETKVAAYDKSKPVFVYCLSGGRSKKAASKLNELGFTTIYELEGGIMK
+WNAEGFSKPSTAHAGITIDEFNNLLKTDKKVLVDFYAEWCGPCKQMEPYLLKMQKEMADK
+VVIIRIDVDKNETLATQMKIEQLPTMILYENKAEKWKNIGFIKEEDLKKQLQ
+>tr|A0A1S1J8Q6|A0A1S1J8Q6_9FLAO
+MTSLLVIIVLVLLAVALWQLTKIFDLTQVGSASSDDSQVASDNDNNVQGYIMFGFLAFIY
+IFTIYGLLKWGNLALHTPASEHGLLVDNLMNITWVLIFTVQVITQGLLYWFSFKNRGHKD
+KKALFFADSNKLEAIWSIIPSVVLACLILYGLYAWNNIMFVDKDEDVIEIELYAQQFKWT
+ARYAGQDNVLGKANVRLIEGVNTLGVDMSDPNAQDDIVVSELHIPKGKKVHFKMRSQDVL
+HSAYMPHFRAQMNCVPGMVTEFAFIPTYTTSEYRELPFMVEKVAHINKLRAEKSVELVAK
+GGTALDPYTFDYLLLCNKICGASHYNMQMKVVVDTPEDYKKWLSEKTTLAQDIKAAAAAD
+AEKKAGEEAKASTDSTAKDTVKAVIDTVKAVVAKVAMR
+>tr|A0A1S1J2U7|A0A1S1J2U7_9FLAO
+MEIRRDVFQAIADPTRRAILSLVAIQSMTPGVIAENFNSSRQTISKHIQILTECELLEQT
+QNGREIYYVTNARKMKEVADFIEPFRQMWDDRFNKLENIMKNYKPKE
+>tr|A0A1S1J028|A0A1S1J028_9FLAO
+MKRIGILGLGGVGGYFGGLLAKAYFKSDEVEVIFIARGTTQKAIADSGLKIVTDESEMIV
+HPKLVSNNPEEIGELDYLICATKTYDIEESLLSLQSCIVAKTVILPLYNGVDAPERIQKI
+FPKNDILQGCVYIISMITLPGTIRKMGFYEKLFFGSKTVSASKLEELQGIFQQARIESYW
+VENIEETVWEKFIFISALATTTSYLNQNIGEIRDNPEAMSVYVGLVHEIDAVAKAKGLKL
+PDDIVNQTVLKLEKSPREATSSMHRDLLAGKNTEALSLTKFVLNEGIKYDVKTPLYEKIS
+NVLLP
+>tr|A0A1S1J2Q8|A0A1S1J2Q8_9FLAO
+MNIPCILIPALVGLICGILGYLLGKMNSKGDDSLALSLQSDLDACKANTRNLNAKISSLE
+AELAAKAKVNNAPQSFAAATIPAIPFDGALAATAYGKKIKENDLKIVEGIGPKIEALFNA
+AGIKTWHELSEASIEKLQSILDGGGENYAIHNPSTWARQALLAYQGKWQELKDWQDSLKG
+GKE
+>tr|A0A1S1J3C6|A0A1S1J3C6_9FLAO
+MNREKVQIFDTTLRDGEQVPGCKLDTKQKLVIAERLDKMGVDIIEAGFPVSSPGDFLSVS
+EICKIVENATVCGLTRAVKNDIDVAAAALKHAKKPRIHTGIGTSQSHILHKLNTTPEDII
+ARAKFAVAHAKSYVEDVEFYAEDAGRTDNAFLAKVCEEVIKSGATVLNIPDTTGYCLPEE
+YGAKIKYLKENVKGIENVTLSCHCHNDLGMATANSIAGAINGARQIECTINGIGERAGNT
+ALEEVVMIFKQHPYLNLDTNINTRELNEMSRLVSESMGMIVQPNKAIVGANAFAHSSGIH
+QDGVIKNRATYEIMDPLDVGVNESSIILTARSGRAALAYRAKKVGYELTKVQLDIVYVEF
+LKFADIKKEVIDADIHQIIEAAKIQGELIRN
+>tr|A0A1S1J3G1|A0A1S1J3G1_9FLAO
+MRNDNLKSYLNLHLIVFIWGFTAILGALITIDAENLVWFRMLLAGVFLAAFIVYKKQSFV
+ISATSFAKLIFVGLLIALHWIFFFRAIHVSNVSITLSIFSLGAFFASLLEPLFYGRKILF
+YEVFFGLIIIAGLALIMQVEVKYLHGMYYALAAIILGVLFTLMNGKLITEHDPSVITFYE
+FAAGVFFISIYFLVQGKFTADFFTMSLNNWALLLVLASVCTAYAFTASVKVMQKLTPYTV
+MLTTNLEPVYGIMLAYFILGGKEKMSTEFYIGALIIVITVILNGVLKHYKNKKQV
+>tr|A0A1S1J3H8|A0A1S1J3H8_9FLAO
+MNFKQYTKEFSYNLRLAYPIILGMVGHTLIGIVDNIMVGKLGSTELAAVSLGNSLIFIAM
+SLGIGFSTAITPIVAEGDAEKNDSKIRSAFHHGLFLCILLGLLLFGVIVLAKPLMELLEQ
+PADVIALAKPYLDWVAFSLIPLIVYQGYKQFADGLSLTKYSMYAMVMANVLHVGINYMLI
+YGIWIFPKMGIIGAALGTVISRIFLVMFMHIMLSRRNDLKRFFKNFSFNQIKKETLKKII
+SIGFPSAMQMLFEVVLFTASIWLCGNIGKTSQAANQIALSLASMTFMFAMGLSVTSMIRV
+SNQRGLMDYKNLVVVARSIFLLAIIIETFFAILFVAFHDFLPHMFLNMENGGQLLDNNEV
+ISIASKLLLIAAVFQISDGIQVVVLGALRGLQDVKIPMYITFVAYWIVGFPISYYLAEYT
+ELKAQGVWIGLLAGLTTAAIFLYLRFHYLTKKLIKNSVSNT
+>tr|A0A1S1J5P1|A0A1S1J5P1_9FLAO
+MEVTGKVKVVNPEQQVSAAFKKRELVVTTDEQYPQHILIEFTQDKCDLLSSYKQGEAVKV
+SINLRGREWVNPQGETRYFNSIQGWRIERLAPEGPGQTPPMPAAEAFAPATNLNEDEPDD
+LPF
+>tr|A0A1S1J608|A0A1S1J608_9FLAO
+MKIVKFIFTALALLWLFITILITAQVAILILPILFISKKHYTEWILFTFALICSFGVYPI
+SFIYAAIKWKGFLNYLRKLSLSIDISGNMVAGALLNDNFIASNSVHKFGVVQETISDNLG
+ENERDNTLSVFGKRFTNLLGVIDFDHAKKSIVED
+>tr|A0A1S1J7T3|A0A1S1J7T3_9FLAO
+MKKNIIKDKSFDFAIRIVKLYQYLSAEKKEFILSKQLLRSGTSIGAMVREAEHAESKNDF
+IHKFAIAQKEANEAVYWLELLKATNYLNEKEFATINNDAISILKLITSIIKTTKSQIPPK
+QPLL
+>tr|A0A1S1J8C1|A0A1S1J8C1_9FLAO
+MLQVEPILQENKNRFVIFPIKHHDIWEWYKKMEASFWTAEEIDLHQDLTDWNNKLSDDER
+YFIKHILAFFAASDGIVNENLAENFVNEVQYAEAKFFYGFQIMMENIHSETYSLLIDTYV
+KDEAEKAELFNALEVFPAIGKKAEWALKWIESDSFAERLIAFAAVEGIFFSGAFCSIYWL
+KKRGLMPGLTFSNELISRDEGVHCDFAVHLHNHHLVNKVPKDRIKEIIVDALNIEREFVT
+ESLPVSLIGMNATLMTQYLEFVADRLLVELGCERVYGSANPFDFMDMISLQGKTNFFEKR
+VAEYQKSGVMNTDSDAQKISFDADF
+>tr|A0A1S1JBG6|A0A1S1JBG6_9FLAO
+MKKSNLWSLRLGFSGKESDAIEKLGIEKFLKQSYQSKFDTQLPAFLEDDPKTLLELKELK
+ESIKVADSEEKKKALKKEFYSAVELRKWWIGKMRNDEFPLRENMVCFWHNHFVSTSQKVK
+VNYWIYQHNMILREHAFGNFKELTKQIIKSNAMVKYLDNVDNKKGKYNENLSRELLELFT
+IGIGNYTENDIKNGARALAGLNYGDNRAAYRRFAEDDTDKMYFGKTGNWKADDLVDIIFE
+QKNIPYLITRKILEWFIYDNPPEDLVTYYGDYFRKVKFEIQPLLTKIFTEEYKKENSGTK
+IKDPLVYILQLLNELHIDDLDEGMILFFLKQQGMDLYNQVNVKGWEGGNSWLTSQVYLQR
+NNTADLLCSGKSITRKTLNTMTADDEKPKPQFEKVDVKIDFDTNGTNKTIITELSNRLLF
+KVNDSMQKDMENLLKYDFDPKEEHANFAVIRLFNYITKLPEYQLI
+>tr|A0A1S1JB48|A0A1S1JB48_9FLAO
+MSKVKTSFFCQNCGTQYAKWQGQCNACKEWNTIAEEIIQKQEKVAWKSEPTSNGKAPRPL
+KINEIDSAQEIRMNTTDGELNRVLGGGIVPGSLTLLGGEPGIGKSTLLLQISLKLPYKTL
+YVSGEESQKQIKMRAERITPNSDNCYILTETKTQNIFKQIEAIQPEIVIIDSIQTLHTDY
+IESTAGSISQIRETTAELIKFAKETNIPVILIGHITKDGNIAGPKILEHMVDTVLQFEGD
+RNHVYRILRSLKNRFGSTAELGIYEMLGSGLREVSNPSEILISHKDEELSGTAIATTLEG
+MRPLMIEIQSLVSTAVYGTPQRSTTGYNAKRLNMILAVLEKRAGFRLGAKDVFLNVTGGI
+SVDDPAIDLAVVAAILSSNEDIPVTKGFCFAGEVGLSGEIRPVNRVDQRIQEAEKLGFTT
+IFVSKYNKIALKNIGIKIELVAKIEDVASILFG
+>tr|A0A1S1J4V4|A0A1S1J4V4_9FLAO
+MKLRADNLIKTYKGRSVVKGISVEVNQGEIVGLLGPNGAGKTTSFYMIVGLVKPNSGNIY
+LDDLNITDYPMYKRAQQGIGYLAQEASVFRKLSIEDNILSVLQLTKLSKEAQIAKMESLI
+EEFSLEHIRTNRGDLLSGGERRRTEIARALATDPKFILLDEPFAGVDPVAVEDIQRIVAQ
+LKNKNIGILITDHNVQETLAITDKTYLMFEGGILKAGVPEELVEDEMVRRVYLGQNFELR
+KKKLEF
+>tr|A0A1S1J5X4|A0A1S1J5X4_9FLAO
+MAKKHFCYLILAIIITSCSTNPYKNTEKVYDQQLKTLEGQITSKEAQPIPVVPRIVIDTT
+YAQQLGIIKDTLSKTGSTSLLNGIQTEWIGTVNFNLRKPSFIIIHHTAQDSLQQTINTFT
+KTRTQVSAHYIISENGKVVQMLNDYLRAWHAGASTWGKNTDLNSSSIGIELDNNGFKPFT
+EAQISSLVALLTKLKKDYNIPTQNILGHSDIAPGRKQDPSALFPWKTLAEKGFGIWSDEI
+LEEAPFDFKIEQALRIIGYNTKNLSAAIMAFKLHYIQTDVTPTLDRKTIDTIYSIYKKQL
+Q
+>tr|A0A1S1J272|A0A1S1J272_9FLAO
+MRKRAAKKRPLLPDPRFNDQLVTRFVNNLMWDGKKSTAFKVFYDAIDIIESKKQNDEKTS
+LEIWKDALTNVMPHVEVRSRRVGGATFQIPMQIRPDRKISMAMKWLILYSRRRNEKSMAQ
+RLASECLAAAKEEGAAVKKRMDTHKMAEANKAFSHFRF
+>tr|A0A1S1J7W9|A0A1S1J7W9_9FLAO
+MKTDNKPWFWIPFLNFASGLPYAIIISVSVIMYKNLGISNEDIGVYTSLLYLPWVIKPLW
+SPFIELTGTKRKWFLSMQLLISIAFLIVGFTIPTSGFFMMTLAIFWVAAFASASNDIASD
+GFYLLVLPKEQQSFFLGIRSTFYRLSMLAGNGLIVLLAGYLEHKYGDNTKAWSYTMIIVG
+LLMTFITLYNFIFTPKEEINALESTDKTHHQNFATIFISFFQKKQIGIILAFILVFRLGE
+SQLLKMLSPFLLDGRELGGMGLDTEAVGIIYGTLGIFALTVGGILGGIALSKHGLTKWMF
+PMFLTMHLPILGFIGLAHFQPQDIFHLHINLYFFEINSPLNLYTCITVILEQFGYGFGFT
+GFMMYLIHVAEGESKTAHYALATGFMALGMMLPGMLSGFIQKYLGYENFFIWVVIATIPG
+LILSRFLIFPKDFGKKSEEV
+>tr|A0A1S1J380|A0A1S1J380_9FLAO
+MKIYSSIIFVFLYLVSCQSDKKESQSKKVLTPENSIQLSDAQIKNAKLVVGYPEERTVKG
+ILQLQGTVTVPPKSVVTVSIPLGGYIKKTDLMAGMHVRKGQVLAVVEDMQYIQLQQDYLT
+AKEKFQLAQSEFNRQKELNAKKASSDKLFEQTATEMQTQHIYMSSLAQKLGLLGINVKKL
+TASTISKTVVIRSPINGLVAKINVNVGKYISATDMLFELIEMSDIVLTMNVFEKDIQQLS
+VGQTVTAFTNANPSKKYKAKIAYINQSLNDDRAAEVICKVNQYESSLIPGLFINAEAEFN
+NEKAITVPEDAVVRWQGKFFVFSVSTNGIYKMVPVETGSSANGYLQIKSPIIDQSSKIVI
+KNAYTLLMSFMNKGDQ
+>tr|A0A1S1J5N7|A0A1S1J5N7_9FLAO
+MKNLVMLLVAVLGTSVMVSAQTAPAQTAPAKEVKATKHHKNKADKKMKSQKSEAPKAETT
+KMK
+>tr|A0A1S1J6E3|A0A1S1J6E3_9FLAO
+MPNNTFEDYKKAVKKKYEIEKNNDHFVYLNSPTRAKLRNLCWELFQQQNRNQDDLNVFSS
+LLGLTFDVNKKNKFEEQIDKFRPIEKFFKGGSDPAIVDAVNMAAILVDFKARPFNKFRIQ
+ELFEDEVQLEDEDKLEVLNPQMELSSDSGILETFLNRKEREKVSGREEVSGIEVIKPLIN
+SFVNVNVEKSPDSDSNPVPNPVPNPNSKFPTRRQLVIMGIVSFLCLISISTYYAFQDKEC
+MQWSGDHYEMVDCDLKIQGLAKSANIEIIDPTLVNLKKIKVCDTTTYFDKNGVAIIWYAK
+TANGIEFFDAHGRHPENNSPLRPVTHYILNKYIKR
+>tr|A0A1S1J6N4|A0A1S1J6N4_9FLAO
+MNSLQTIIEQAWENRALLQETATTDAIREVIELIDAGKLRCAEPVGDKWQVNEWVKKAVV
+MYFPIQKMETWESGIFEYHDKMLLKKGYAEKGIRVVPNAVARYGAYISSGVILMPSYVNI
+GAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQAAPVIIEDGAFIGSRCIV
+VEGVHVGKEAVLGANVCLTASTKIIDVTGDEPVEMKGFVPARSVVIPGSYTKKFAAGEFQ
+VPCALIIGTRKPSTDLKTSLNNALREYDVAV
+>tr|A0A1S1J893|A0A1S1J893_9FLAO
+MTELGLFFSRKSVNRSDVSRKTGISKTRLSELANSTSTKLRADELYLIALAIDVDPCELL
+KDVCKGLKLVD
+>tr|A0A1S1J8R9|A0A1S1J8R9_9FLAO
+MGVIHKIGRRKTAVARVYVSEGTGKITVNKKEFATYFPTATLQYKVLQPLSMTENASNFD
+VKVNVYGGGSTGQAEAVRMALARVMCEVNIENRAILKPEGLLTRDPRMVERKKFGQKKAR
+KRFQFSKR
+>tr|A0A1S1JBH4|A0A1S1JBH4_9FLAO
+MQNNWWKISSEIRVDTPFLAVYEDRIQTNIERLIESVNGDTQKLRPHIKTHKIGEILDLF
+KTYNINKVKCATIAEAELAAIHEIADVLLAYQPVGNKKERWISLLKKYPATTFSTIVDNY
+ESAKALDIAAHKNNLKLTLYLDLNSGMNRTGISISKNWEALIDEIIKLKNIHFAGIHLYD
+GHLKGDVEHRNSVASNIFFSINEEIEALQKKLGYELKIVAGGSNTFPFYATQKNVECSPG
+TFVFWDSNYQINLPEQNFEPALVIVGTIISKPTNTTFCIDIGYKAVASENPIDKRLVILN
+DDNLIPISHSEEHLVIENRGENNYAIGDTIYAQPYHVCPTCALYDSVQVVNSEQHICDQW
+LITARSRKINI
+>tr|A0A1S1JG46|A0A1S1JG46_9FLAO
+MIGKILMNLAYLYYPKNICPWTQKELYLETMEYERLKALIEYFDSEENQKLRNSIRVEFD
+KDLVLRGFEDFSRLDWEDRCYTFFLNIVEGGELCSITLHLSILVPYYVIETLIHKNQMII
+SKSRIEELEKENLDPRKMKDLVLDIKSIVETKLLYQEFPETLIHGVIEDISFQDIYLGHF
+KMYNAFFNNRR
+>tr|A0A1S1J080|A0A1S1J080_9FLAO
+MKIAIVCYPTFGGSGVVATELGLELARRGHEIHFITYSQPVRLALLNPNVHYHEVNVPEY
+PLFHYQPYELALSSKLVDMVKLYKIEVLHVHYAIPHAYAGYMAKQMLKNEGINLPMITTL
+HGTDITLVGNHPFYKPAVTFSINKSDYVTSVSQSLKDDTLKLFKIKNKIKVIPNFIELDK
+VRKDPQAPCHRYVMAKEDERIITHISNFRKVKRIPDIIKIFYNIQKEIPSKLMMVGDGPE
+KEKAEVLCMELGIYDKVIFFGNSNEIDKILCFTDLFLLPSETESFGLAALEAMSSGVPVI
+SSNSGGLPEVNFDGFSGYLSNVGNVEEMAANAIKILKDDDVLNQFKANALEVARKFDIKT
+ILPKYEALYQKAIDDYKHEKHEKQ
+>tr|A0A1S1J1X5|A0A1S1J1X5_9FLAO
+MSLHKEILIARHLKKAFFKNTAVYIITIFIGILLLYAAFSGWENYSNQNQTSEKYQHESR
+KDWLNNPDKNPHRMAHYGNFAFRKSTPLSVFEFGMEPFFGNAIFLEAHKQNSANFSEAGF
+SNSMLRFGEISIAMVLQLLLPLLIFFLGFNAVAAERENGTLKLILSQGISWKQLLTGKIV
+GVASAILLIFVPTIMVLVFLWLLLQDFTISSDETIKMVLFILFHFIYLMFFCVIAVLVSA
+ASKTSKKALISLIGIWLVLTIILPRTTQAIGAYLYEAPSKIQFNSAIEKDILKQGDSHNP
+NDIHYKAIKDSLLRAYKVDSVQKLPFNYSGFIMTEGEKISSRIYNEHLEELLKVYDQQNS
+FSKVVSFLNPYIAIRNLSMGLSNTDYGSYIDFQKEAEIYRYTMAQKMNALQVKYISNKKP
+GPNDKPLSISKEHWADLEEFHYEPKEVPAILKSEILSVVSIFLWIILLFALLRIAAKNLK
+AL
+>tr|A0A1S1J8E7|A0A1S1J8E7_9FLAO
+MAELNTGDGGGGKGGKVRSKKQNSKVDLTAMVDLAFLLITFFMLTTSLSKPQSMDLSLPD
+KDPDDKTPPVKVDENRTMTVMMGENNKMVYYMGLLATPKVGPKDIAYGKDGIRKELLKQK
+KEVLAYSAALGKPKNGIIVIIKPTKKATYRNLVDMLDEMAITGVDTYAIVPEFSPEETKL
+IDKQ
+>tr|A0A1S1J1E7|A0A1S1J1E7_9FLAO
+MGASKTEHFTDKQNQIATIAKALGHPARIAIIEYLLKVNECICGDIVNELPLAQPTVSQH
+LKELKNAGLIKGNIEGNAICYCINEETFDVLNTYFSGIITVTKNQKCC
+>tr|A0A1S1J588|A0A1S1J588_9FLAO
+MSKRVLITGAAGFLGSHLCDFFIAKGYDVVGMDNLITGDLKNIEHLFPLKNFEFYNHDVS
+NYVHVSGKLDYILHFASPASPIDYLKIPIQTLKVGALGTHNLLGLAKEKKSKFLIASTSE
+VYGDPTVHPQPEEYWGNVNPIGPRSVYDEAKRFQEAITMAYHTFHGIETRIVRIFNTYGP
+RMRLNDGRVLPAFIGQALRGEDLTIFGDGSQTRAFCYVDDLIEGIYRLLMSDYVYPVNIG
+NPNEITIREFAEEIIKLTGTSQKIVYHPLPQDDPKQRQPDITKAKAILDWEPQISREEGL
+KITYNYFKQFSEEELQNNKNNKCFAK
+>tr|A0A1S1J7I9|A0A1S1J7I9_9FLAO
+MTFKQKIHTHYQQMVQDRIDVFRDMISALTEDSKNDAKGSAGDKHETALSMMHIEQEKLT
+NKLKEAMTQKAVLDKIDASKTTENIISGSLVKTNGIFLYVSVALPKINIEGTNVIALSPQ
+SPLGAHLMGNQVGFTFEINGTKYLIQEIS
+>tr|A0A1S1JA31|A0A1S1JA31_9FLAO
+MNKFYPSAILLLFFLSACKKETPPPPKPLEISVLTVLNQDVNVESEYTGQTYGQSDIQIN
+PRVDGIIMSQNFKEGGFVTKGQLLYTIDPLPYKTKMDEAAGALAESQAGLAKTKADLDMI
+APLAKINAVSQRELISAKSAYSASQAKIKASQASLENSKIELGYCRIIAPISGLIGISKV
+RVGDYVRPGAASVLNTISDLGDVRVRFTMSEQEFLRLFREFNKPNSSLKGSGAVVSLKLS
+DGSTYPETGKVSFADRQIDPSTGAITFEAAFSNPDKLLRPGQYVKIGLLTDIRKDAIVIP
+QRAVIEVQGIYQVYVLGKDNKVNMQIVKPGPAVKDGYVIEDGLKPGDKIAMGGTSLLKNG
+SPITPKVIQWQLGQTQAAATK
+>tr|A0A1S1J185|A0A1S1J185_9FLAO
+MKISIVVTQEEHFKFAQEICDTIESSALLRGTGIAKRTPEYIQKKMSNGDAMIALADGKF
+AGFCYIESWEHGKFVAHSGLIVHPDYRSLGLAKKIKSKVFDYSLERYPDAKIFGITTGLA
+VMKINSDLGYKPVPFSELTTDPSFWAGCKTCTNYEILKSKENKMCLCTGMLHDPKDKQKD
+PPKHPFNVAVLSRLKKIKQALFLNKTLFFGFLS
+>tr|A0A1S1J3V8|A0A1S1J3V8_9FLAO
+MLYNPEKPIDIKRAVEKFNYFVKHNKVFELSAKKVPKTYPQLKYVHLIMSWFAWEYGESV
+EYIKLEFFKKLVNPTIFKYEFVNRKSGEIRDEYKSLADLTKDELSIAIDRFRDYSSKEAG
+IYLPEPSDLAFMRELEIQVKNVEHLL
+>tr|A0A1S1J5I5|A0A1S1J5I5_9FLAO
+MISLEEYEKALSIVTGFHEQIRLESIEVKELINRKTEETFRELKDVQPHDEVKCINVHGA
+SSFTKDKKYEVLKVEWTQFQIMNDNGVKKWHRFSNKHFKLI
+>tr|A0A1S1J5S7|A0A1S1J5S7_9FLAO
+MADTIEKNVTRGGQFLVKETKCEDIFTPEDFSEEQLMMRDSVKEFVDKELWAHKDRFEKK
+DYAYTESSMRKAGELGLLGVAVPEEYGGLGMGFVSTMLVCDYISGATGSFSTAFGAHTGI
+GTMPITLYGTEEQKKKYVPKLASGEWFGAYCLTEPGAGSDANSGKTKAVLSEDGKYYSIT
+GQKMWISNAGFCSVFIVFARIGDDKNITGFIVENDPSNGISMNEEEHKLGIRASSTRQVF
+FNDTKVPVENMLSERGNGFKIAMNALNVGRIKLAAACLDAQRRVTTGAVKYANERIQFNT
+PISSFGAIRSKLAEMATNAYAGESASYRAAKDIEDRIAAREAEGTSHQEAELKGVEEYAI
+ECSILKVAVSEDVQSCSDEGIQIFGGMGFSEDTPMESAWRDARIARIYEGTNEINRMLSV
+GMLIKKAMKGHVDLLGPAMKVQEELMGIPSFDTPDFSELFAEEKGIIANLKKVFLMVAGS
+AVQKYGPDLDSHQQLLMAASNILIEIYMAESTILRTEKLAKKEGEAKVQEQIAMAKLYLY
+KAVDIVNLNGKEGIISFAEGDEQRMMLMGLKRFTKYTNNPNVVALREVITSKLVAENEYC
+F
+>tr|A0A1S1J4Q4|A0A1S1J4Q4_9FLAO
+MKTIKIKGINLTNFKGILKLAVSFNHNTNIYGANGTGKSTIYDAFLWLLFNKNAEEKKDF
+SIKNTVDTSLNRQDHEVEGFFEINGDSISLKKVYKEKWQKKKGSEVAEYTGNETVYFWNE
+VPMQQKEFQGKVSSIMDETIFKLITNPYALNIMKWQDRRGIITQMAGEFTDEQIAAGNPE
+YEKLLANLTQDKTLSEYLKQIKASVEKQKKELKEIPTRIDEISKTKPQGFDFQNLKNLLE
+AKQNLLDQKEVLISNKSEALNAVLQSNEGAKRTASNLKSEISQIETETRSKANNLNKVDT
+SVLTGLESSFTTKKGELATAETALITVNGLIASKKSDIEALEIKMSAKRTEWTTENAKEL
+SFEENSFCCPTCQRAFEESDIETKKSEMIIKFQSDKTANLAEINRQGGLLKTQKENLESE
+LEALKTRSSNGEILITNLKSEVEAIEANLNTERAKANSAVPVNIEEVYNKLLLDNAIYTS
+KKTELQNVEATIQEEPKVDDAQLKEEKRVLLQEMEAIKVNLRNEEQINVVAGRIKELKDQ
+ETKLAQEIANVEKTQFLIEQFEKDKMTAIENNVNSKFRIVKFKMFEDQVNGGESPACEIL
+VNGVPFSDANTASKINAGIDIISTLCQFYQVSAPIFIDGAESIHDILSTDSQLIRLVVSE
+PDKSLRVA
+>tr|A0A1S1JC53|A0A1S1JC53_9FLAO
+MSLVGKKFPSIAVDAISEMGDNLKINIFEEAVNNNKKVLLFWYPKDFTFVCPTELHAFQA
+ALPEFEKRNTIVIGASCDTNEVHFAWLNTPKNNGGIEGVTYPILADTNRNLANILGILDI
+EATSYSEETDSVIIEGSNVPYRATYLIDETGKIFHESVNDMPLGRNVNEYLRMVDAYTHI
+QTKGEVCPANWEAGKEAMSADRISTAEYLSAN
+>tr|A0A1S1J156|A0A1S1J156_9FLAO
+MKLLIVEDEPNLLSILRKGFAENNNEVSVALDGRTALEMIHNYNFDVVVLDVMLPDINGI
+EICRRLRASKNFVPVLLLTALGTSENIVTGLNAGADDYLVKPFKFGELDARVNALHRRAH
+QDTEKVDTITIGDLEINGRAKTVKREGESIILTAKEFKLLYYLAKNSGRIVSRDQILDNV
+WDINFDMNTNVVDVYITYLRKKIDKPFETKLIHTMKGLGYVIQP
+>tr|A0A1S1J3X0|A0A1S1J3X0_9FLAO
+MMLLKDKKVAIIGAGPVGLTMAKLLQQNGADVTVYERDLNAQVRISGGTLDLHKGSGQEA
+LKQAGLLEDYFDRALPMGRTVADPQGNVLFSKTTTEEERYDNPEINRNDLRLLLLNSVKS
+DTVVWNSKFTNLKVTKGKWVLEFENETNAIADFVIGANGGMSKARKLITPATIEYTGTLM
+IQGEVLCPEKSCEKFNKLCNGSILMTSGKEGLLVANPKNGKVLSYNVIFKSPMEFLRKEE
+TFESTDGIRKYLLNRFFEWDECYKELLEATSSFFLWPTRKISLNLQWKKERPLPITLIGD
+AAHIMPPFAGQGANIGLLDALILSNNLTNGEFETIEEAISDYEQKMFVYATQAQLETATN
+EAAMLSPDFSFLKFYR
+>tr|A0A1S1J873|A0A1S1J873_9FLAO
+MRKIAMLMVFFLIISCNNQNQSKPMDATKNEQLIKQYFEHFNNHDWKKMSEMYTDTADFK
+DPSLGAGIVKQTRKQIADKYAELNATFPDLHDKVIQVYPSGDKHIIVEFVSSGTAPDNSK
+FELPICTIFTIENGLITKDFTYFDNFEEEEN
+>tr|A0A1S1J117|A0A1S1J117_9FLAO
+MKKLYLLFMLLGLSYASKAQKLFPYLQNATPTSIYVNWKTDSNPESIVEYGTTASSLNVT
+VTGNTNVFTDSGYPGNYFYHSAKLTNLSPNTKYFYRIKTGADVSSVYSFKTLPNPGQAAT
+ANGHIRFLIMGDNQLKAVPRYDSLVSAAKRKIRQKWGKDASPDDNISMTFMVGDQVDVGT
+LDHYENVHFKKNRGLSGNVPIQTTVGNHETYGTLGMNSYYDHFYISELSYKGISSGTENY
+YAQQAGNVLFISLSSEHTGAEQLSWLQKVLTAANADNTVEWIFSLSHRPYQAEQYVGDIS
+TWVRNTAVPLLVTSPKYSMHIGAHHHLYHRGQLKNTPTYNIISGGTAWDQYWGSSTEQDF
+DDVQKTICNWIYQIVDIDVTNGKMDIESYSIGSVDKWKNNQLMDEFHRYKNKAAPAKPSI
+TNTFTATNTLPLTVSGSTYTTTTDEKLNTSQFLISQTPTFDIVKKEVYRDFENLYGKYGT
+KKDSTVNINLGVDITKMDLASNSLPNGKYYVKLRYRDRNLEWSPWSDVQTFTITGSNNVN
+TAIVTDALTYSLNTPIKVDFTDAPASTSTWIGLYKEGQTPGGSSPSQTWKYTDGSASGFI
+TFSSGLATKGRYYAAIFSNGGYTEIAPRKYFYVGPVPTLTTDKTEYSVGTPILINYTNGP
+QLAKDWIGIYRMGVNPGSGVTATSWQYVTTAADAKSFTGLPKGYYYAEYYLQDGFNPIGN
+KVFFKVGAVVTELWINKPVYDLGEQITASWTDAPGIVKDWLGIYHDGDNPNEKPLVSYTY
+FEGLSEGTKNIAATELPTEKGKYFLVMFTNDSYNEVSNRVSFEVIDPHLNNDEFKIDNGL
+RVYPNPTKNDTETFIQSEYPIDEIEIYSMEGKLLYATKNVNNNKFSLINQDLPKGVYILK
+IHSRKLFTAKLIVK
+>tr|A0A1S1J3X9|A0A1S1J3X9_9FLAO
+MNNKLNFLKIAGIVVLSIVVSNCGKSKSNDPHHIKVGVAAGPEYVVAQAAQKVAKDKYGL
+EVELVSFNDYVIPNEALSQGDIDVNAFQHKPYLDEQSKQRGYKLAIIAKTFIYPIAAYSK
+KIKNLSELKKESTIIIPNDPTNGGRSLLLLEKNGLLKLRPNVGLLPKVTDITENPKNLKI
+LELEAPQLPRALDDQNVAIAIINNTFASQAGLVPARDALFVEDKDSPYVNLIVSRADNKK
+EEKIKQFVAAFQSAEVEQAAVREFKGGAVKGW
+>tr|A0A1S1J439|A0A1S1J439_9FLAO
+MSAAIKIALVDDEVLFRKGISFLLQREDNIDIIFEASNGEELLLNLDNSVIKPDIIIMDL
+KMPILNGVEATKIIRKSFPEIKIIALTSYDTKSFIANMIQVGAVAYLIKNTTPKDLIHTI
+NQVAKKGFYYNESVLQTIQETIISSKTSKGNLETGFLSQREIEILQLICQQKTTSEIADH
+LYLSPRTVEGHRNNLLLKTESKNIAGLVVYAIQNEIAVLTL
+>tr|A0A1S1J5P4|A0A1S1J5P4_9FLAO
+MISITAILKSKPENTAQIKNMLNHLVTETRKEEACIRYDLHHSENIFIIWEEWKDQPGLD
+IHNNQQYLQDFIKQSEGLISSPIQVYKTAQIL
+>tr|A0A1S1J4K5|A0A1S1J4K5_9FLAO
+MEKLRIIFMGTPEFAVGILDTILKNNYNVVGVITAADKPAGRGQKIKYSAVKEYALANNL
+TLLQPTNLKDESFLAELKALNANLQIVVAFRMLPKVVWEMPEFGTFNLHASLLPNYRGAA
+PINWAIINGETKTGVTTFFIDDKIDTGAMILNSEIAIEPEENAGQLHDRLMLLGSETVID
+TLKVIESGNVKTTIQEDTAEIKTAYKLNKENCKIDWTKSGAEINNLIRGLSPYPASWCFL
+KDKEEEQTIKIYEAKLLPETHSQEAGSLICSKKEIKVAVKDGYIQILSLQLPGKKRMQVA
+ELLNGITFSESAKVY
+>tr|A0A1S1J302|A0A1S1J302_9FLAO
+MRLISIGILFLLFTCSGFAQEDIVELKNVQDTILITKRTLQVADPFNSVKTMQQLFPGKL
+YSLSDHNTFISWKCSTCKPVAYIDVNGVEGDQLFPYENGVATRVLGTLDYTDSKGNQFKL
+LLFNHSFYDEDGLQTGRFSGGLVGVAKFAKNNQTWQMRSFQPAIAAFGSFAQAPSPKLVE
+IGEDQYAFTLTHVNGGAGGPFEGILYLIAGFDGRYQPILESYNYKLTNVASVEWSGSYTV
+VKDTNKKHFRDIIVKTNGSFSKAAQANDEFEVILPDEIAAMAKTKKKFNFEIERRFSFKG
+KQYKLVDKPVVRFSNVK
+>tr|A0A1S1J8V3|A0A1S1J8V3_9FLAO
+MSGIYIHIPFCKQACHYCDFHFSTSMKKKDEMVLALAKEIILRKNELNLTDSARSDNQIE
+TIYFGGGTPSVLSNDEINFLIETVYKNYNVAENPEITLEANPDDLSPERILELSKSPINR
+LSIGIQSFYEDDLKMMNRAHNSVEAKKCLEEATKYFDNISLDLIYGIPGMTDEMWKQNIE
+TALSFGIPHISSYALTVEPKTALKKLIDTGKIAEPQDEAASNHFMILVDILQKNGFIHYE
+LSNFGKEGYFSKNNSAYWLGKKYIGIGPSAHSFDGHKRGWNIANNALYLKAIQHDELPIE
+TEILTVSDRYNEYIMTGLRTIWGVSLERIENEFGSEYLNYLLKQSQKFLTDDLLSIENNI
+LRPTLKGKFLTDGIASDLFYLNLEE
+>tr|A0A1S1JBH9|A0A1S1JBH9_9FLAO
+MKITLIAGARPNFIKIAPLINAIKDKQNEGFDVSFRLVHTGQHYDKNLSDTFFEELNIPK
+PNVNLEVKSGSQAEQTAAIMIAFEKELIQNPCDLVLVVGDVNSTMACSIVAKKCHTKVAH
+VEAGIRSGDLTMPEEINRMLTDSITDYFFTTSTSASENLLKLGSNPENVHFVGNVMIDTL
+YQNINRISAPDFWEEHQLSEKNYIVLTLHRPGNVDELSSLIALLHGIDDLAQDKKILFPI
+HPRTQAILSESSTQFKNILFVAPQSYLNFMYLIQNSFAVITDSGGISEETTVMGIPCFTM
+RNNTERPETETIGSNTIVGTSLENLQKVYGSFLKNGPKKSGVPDLWDGKASERIVSILLA
+KK
+>tr|A0A1S1JC51|A0A1S1JC51_9FLAO
+MKKYSYIIIDDDVESILKTRTIAEGFSELTFAGSAANYQSGLNLVLEHRPHLILLEIDPK
+DGSSNLSLAFINELHRFLSLIPKIIITTTKKELAFDAIQHGVFDYILKPVLRIDLMKTIL
+KLEKAFPADDSETIEEDSTPLSELFAEPAKSAEQPLVLCVKSYGDYRYINSNDISYFQAD
+NNSTDIYLNSGEMITAFKTLKHFEGVLSHPFIRIHNSYIINQNYIARIHNGNSTCYIRNS
+SKKIPFSKTYKSNVDLIIADFAIGNYLEV
+>tr|A0A1S1J5K4|A0A1S1J5K4_9FLAO
+MFDISALKEMKLSELQEIAKLAKTIKFNGVKKETLISQILAHQEATVAPPVSPVAEAEIV
+DEKPKRARIVPAKKTAANKNAPVLEFDKAEEAPEKAEAPIAVTKTPAIKANPKTNPKIKG
+NAAAKETAEVKSVETTPEVQENIENTESTENTEDAAIEKKGPKIVKFSKSAYEKKVALKK
+EKEATKETAPENEVIAEVAVAEKTEAPVQTKKINPNQNKNQNQNPNQNPNQNPNSNQNGN
+GNNGNQNPNHKNKKSNFRDSDFEFDGIIESEGVLEMMPDGYGFLRSSDYNYLASPDDIYL
+STSQIRLFGLKTGDTVKGVVRPPKEGEKFFPLVRVLKINGHDPQVVRDRVSFEHLTPVFP
+SEKFKLAEKGSSVSTRIIDLFSPIGKGQRGMIVAQPKTGKTMLLKDIANAIAANHPEVYL
+IVLLIDERPEEVTDMQRSVRGEVIASTFDREPQEHVKIANIVLEKAKRLVECGHDVVILL
+DSITRLARAYNTVQPASGKVLSGGVDANALQKPKRFFGAARNVENGGSLSIIATALTETG
+SKMDEVIFEEFKGTGNMELQLDRKIANKRIFPAIDLTSSSTRRDDLLLDEKTLQRMWIMR
+KYLSDMNPVESMDFVNDRFKKTRNNEEFLISMND
+>tr|A0A1S1JCY8|A0A1S1JCY8_9FLAO
+MFYFGMGLSFATWASRIPDIKTALHLTEGDLGSILFALPMGQLLIMPFSGKMVTKFGSHR
+ILILSLIMYVLCLANLGLATTALQLSLGLFLFGLFGNLANIAVNTQGVYTEVLFRKTIMS
+SFHGMWSFAGFTGALVGLGMLALKLSPLHHFLIVAGIVLIMIAFNFKFLIKAKEKIKVKN
+EKKKLFVKPDSALIWLGVIGFCSMASEGVMFDWSGVYFKDIVKAPGPLVILGYTSFMIMM
+ASGRFLGDGLINKFGRERVMQISGVMISAGLFTAVFLPYLIPCTIAFMAVGLGVATIVPT
+VYSMAGKNPTVPPGEALTIVSSVSFLGFLMGPPVIGHIAETFGLQFSFAFIGIFGVLIAF
+MVSKIRIDS
+>tr|A0A1S1J225|A0A1S1J225_9FLAO
+MKKITLALLLLSSFIFLFAQAPQKMSYQSVIRKTDGTLVAGTLVSIKTSILAGSTTGTAS
+YVETQTTTTNSNGLATIEIGGGTPTTGTFSGINWGSGSHFIKTEIDPTGGSNYTISGTSQ
+LLSVPYALYAGNSQSKGKTSVIIAGDITDAQAAAQMAAEFGPETENIYIMNTTNLTTLDL
+SAAKRLVELSIKSNSSLVNVTLGNLAEVYNVLYVEGNAKLASISFPVLKTVLASEIYFSG
+NSALQSVSFPLLAKTKTIYISANPFLSYIDLPVFSAFYSTQYSFQVSRNALPSYHINSLL
+SKLLNVSPASGKFIDLSGQTPPAPPTGQGIIDKATIKTNNSISTD
+>tr|A0A1S1J334|A0A1S1J334_9FLAO
+MDEVVKIVNDIKAGNIKPIYFLMGEEPYYIDKLSEYIEQNVLAEEEKGFNQTVLYGRDVS
+VEDIVATAKRYPMMADRQVVIVKEAQDLSRTIDKIESYVGNPMETTVLVFCYKYKTLDKR
+KKVTKLLAQKGIVYESKKLYENQVGDWIKRVLAGKKYTIDPKANAMLVEFLGTDLSKINN
+ELEKLQIILPQGTVITPQHIEENIGFSKDYNVFELRKAIGERNQLKAYKIAENFAHNPKE
+YPLVMTTGLVFGFFVQLLKYHGLKDKNPKNVAAAIGVNPYFLKEYDLAIKNYPMRKVSQI
+VGALRDVDIKSKGVGANALPQSDLLKEMLYKIFN
+>tr|A0A1S1J3U7|A0A1S1J3U7_9FLAO
+MKTKQQTSVHFFEINPYTQQAIFAFIIVLCLFSIISPPLALLLGVILVNVFGNPFEKFNA
+TAITFLLQFSVVGLGFGMNATAALSAGKEGFLLTVLSIFSTLLLGTFLGKAFKTEKKTSH
+LISCGTAICGGSAIAAIAPVIKSNENQTSIALGVIFILNSVALFVFPFIGHQLDLSQKDF
+GLWCAIAIHDTSSVVGAANKYGTEALQIATTVKLARALWIIPISLLTAVLFKNKNSKIKI
+PYFIGLFILAMLFNTYVPQTAVIAPHIVSIAKIGLTITLFLIGATLSVNTLKSVGAKPLL
+QGVVLWIFIAVLGLVSILFFH
+>tr|A0A1S1J6F4|A0A1S1J6F4_9FLAO
+MKIESEIEKVSSFQHLEMLANQVVEGFISGMHKSPFHGFSAEFAEHKVYNAGESTKHIDW
+KLFAKTDRLYTKRFEEETNLRCHIIVDNSSSMHYPELKSNQPFYEKKIGFSVLASAVLMN
+ILKKQRDAVGLSVFSDSYEYYAPEKGSDRHHRMLLNKLEQLLEQPKSKKSTDTITYLHQI
+AEKMHRRSMIILFTDMFQAEEDEKLFNALQHLKHNKHKVVLFHVVDDQTELKFDFDNTPR
+KFIDLESGEEVSIFADNVKAEYEKRVEGYFKNLALTCAKNHIKYVPVNVGDNFEKILTTY
+LVEKQNFG
+>tr|A0A1S1J7G1|A0A1S1J7G1_9FLAO
+MNKVFSQQGTFLLGTDRSEHFVLNKPAQFSEYTVLFVSEGEGIFHADFASFYFRGPVLLF
+STPQQSIYIKENKPLKYSVLQFHGDFYCIEYHRNEVACNGLLFNNIYLEPSIPLTVDQHQ
+LYAQLMDQITDELKQETPSEIVLRAYIQLFLAKSSSIKMNSIEKQELPKDEKMDQFRLLL
+EEHFLTLHKPSDYASLLAMTSNNFTKQCRKRFDKTPTQMIQERQILEAKKYLHLTRMSIK
+EIAFALKFQDEYYFSRVFKKRTNISPQTFRKTTGISIVADLSS
+>tr|A0A1S1JB24|A0A1S1JB24_9FLAO
+MSNDFLNVFLNEMKTNVNGFIAVAVTEIESGLSFGNLTTDPAFDPELAAAYNLEVVKAKL
+SAVKALNLNQEIEDILITLSNQIHIIDISPNKKFMIYLAADSTKANLGMTRAVLRKHKLE
+LEKNLA
+>tr|A0A1S1J6G7|A0A1S1J6G7_9FLAO
+MKIICIGRNYTNHIEELKNERPTEPVVFMKPDSAVLLKQHPFVIPEFSEEIHHELEVIVK
+ISKVGKYIEPKFAHKYYDEISVGIDFTARDLQEKLKAKGLPWEKAKAFDGSAVIGEFLPK
+SDFVSMENLTFELTKNSETVQKGNTSFMLWKIDELVSYVSQFFTLKIGDIIFTGTPEGVA
+AVKPNDVLEGFLEDKKLFRIQVK
+>tr|A0A1S1J6N3|A0A1S1J6N3_9FLAO
+MQYKMLVLDMDDTLLTDDHKISELNKKVLLEAQSKGVYVVLASGRPTSAMTAYAKELELD
+LNDSYIISFNGAIISTVKDDVILFEQKLTVEQIHELYDYSVKKNTHIITYLDGEIISETD
+SEYIDVEKEITGLPHNKVAGFKEAVTEPAVKCILLAEPSYLKEVEADLKAAMPHLSVAMS
+KPFFLEAAQNGIDKAASLKLLAEKLNIHQSEIIAVGNAGNDLTMIEYAGLGVWVDNVTPE
+LRDRADLIVASNNDDGVAEVVQRYILN
+>tr|A0A1S1IZC4|A0A1S1IZC4_9FLAO
+MSTKEKVRERVREKEATGFNNEIIVYNDDVNTFDHVIDTLMRVCSHTPEQAEQCSLIVHY
+NGKCTVKTGPLEKLKPQCTQLLEAGLSAEIV
+>tr|A0A1S1J2H7|A0A1S1J2H7_9FLAO
+MPLIKSTNLEEVTSKETLVKVLINHINQAPNKVIYRFLENGEEESDRRTFQDLYDNAKRI
+ASHILEYANPGDRVLLLYPSGLDFIDAFVGCLMAGVIAVPAFPPQGKRRVGRLENIAVDC
+KATLILTIESIYVKTISWFDNEIFADVKWLQTNLLTDSLDKEFPVVLPRDTAFLQYTSGS
+TGDPKGVMVTHSNIVHNNKLMENCFHQNFNSVGVSWLPIYHDMGLVGNILQALYVGFEMN
+IMPPTAFIQKPLRWLKIISDYKATFSGGPNFSYDLCVNQIKEEDLKGLDLSSWSVAYNGS
+EPIRPETINNFTTSFSLVGFSSTQLIPCYGMAETTLIVSCSNFNSVPKVLLLDKENFHLG
+KVKLLNKENKNSNTIEFIGNGPVLEELAIKIVNPDTKILCEENEIGEIWISGESVAKGYW
+QREELTKDFFQARIQNSDVNFSADETEYLRTGDMGFLMNEQLFITGRLKEMMIINGVNHF
+PQDIERVVQQSHIDLQNNAGAAFCIEANGKDQLVVVQEIKRTSMRGYDFDFIVKRIIDSV
+FEQHELAIYGIVLVEPGKVEKTSSGKIKRLATKKLYESATIDGVMDQWVRGQSINNEQLQ
+ENEIVKAPTLSNDVETFLREAVATELNVDILEINAHTSFSELGVGSLNIIRLIGIIHKEY
+GVEPPIRKMFEDLTNIDAIRKYITQEKGQTEAISDNQVEANEPFHTNISSGLPTSSNEKI
+HTGADSTTDSTDFITIRDLLVEQNRILEQQNHIILEFLKIFKTSENTNKQGRGVSVAEIS
+ETTNLFDSIKKKIITKEEISQTGSFDGKDFFLEKLPKKQEERQESNISKVNLTLTQQKFN
+LLHQIDPERSLAYNQSFSLQMKGKIDASLLKIAVCNFVDTHNILRTRVSEDGVHLIFDSS
+ITLPIEEIDFSKDGLDQQEKAYKALVDVNMHTVFSFTKGPLVRLQLVRFSSEETALVVTM
+HHIIADGWSCALFIKGIANNYNSLFQGKKLDLLQPVGFNEYTKWLENKLSSDAWKVHEEY
+FINKFSKKSFNIVLPFDNSVSQYGNAGKSVTLRIPAEDILRYKKWSSQQNLTLFMTFLSA
+FELLLCKITEKNELIIGIPTGGRTMPDIQEAIGDFSHFMPFLISHNSKDSLTEYVKDLKN
+RIYETYEHQEYPYASFMELLQKETDIKYDNWVNVVFNFNVSVSNIDMESVDLQVVHNKPV
+YSDFDLMFNAIEESGDLVLSLDYRESFLSSKLAKDILDCYQFILNQIIESDGGSIGNIQL
+LSEDEKEQQLKHFNNTEVLFPKDKTIVDLFEEQVLRMPESIAVVFGKKELTYKALDEKSN
+QIAHYLIGKGLSPEDLVGICVNRSFDMIIAVFGVLKAGGTYVPIDAEYPEERIHYIIEDS
+NTTFFITDHAHEFLAAENKKIQIITTDDNWNSIGKQPLSKVDTIINGDQSVYVIYTSGST
+GRPKGVVINHTSLLNMALCWESSYHLDSDTCLLQMASFSFDVFSGDLCRSLLFGGRMVLC
+PSDARLDPARLYDLILEKGITILEGTPGLVIPLMDYIYEQSLDYTWMKLLILGSDVCNIN
+DFKRVYSRFGHAMRIINSYGTTETTIDSSYFETDNVEILDGLVNVPVGKPLWNNSFYILN
+TSESLVPIGVIGELCIGGAGVARGYLNKEELTREKFVANPFKTGERMYKTGDLARWLPDG
+NLEFIGRKDDQVKIRGYRIELGEIENALSLLPEVTQCCVVAREDVNGAKRLIGYVVAEGA
+LDKEHLQNQLKQSLPEYMIPMIWIALDAMPLTSNGKLDKKGLPNPDSSELSSKEYAEPTT
+DLELQLVNLWQELLGVERVGIHDDFFELGGHSLLATRLVSIIRKELTIEVSIREIFIHTT
+VSKLGTFVSAQSEGVILPTIAVQDRPARIPLSFSQERLWFLDKLQSSTDYHIPVVLYLEG
+PLDISILEKTLQQIVYRHEVLRSVLLSEHGIGYQEIISAENWSLDREIVSDEVLLQSNIA
+DYLKKPFDLSKDYMLRCCLYDCGNEKHVLASVFHHIASDGWSGGVLVNEFMKLYNILQLD
+RTASLPKLSLQYADYAIWQRKYVVDTVLEEQLSYWEEKLQDVSTLALPMDYARPSVHSTN
+GASISSVLDKTLTASLDSLCRSEGVTLFMFLLSAFKVLLSRYSGQSDICVGTPIANRTQL
+ELEDMIGFFVNTIALRSDLSGNPSFSNLLARVKQTTLEGYDHQLAPFEKVVDRVVITRDM
+SMNPLFQVLFVLQNTPDASRELNLENIKISNYKFDNITSQFDLMLNVFEDNNGISLEMSY
+CTALFDKATIESMLLHYQELLQSIVSNIKQPISTLSMLSQAEEHQLLNVFNNTEAAYPSD
+KTIVDLFEEQVKQTPTAIAVVYGDEKLTYKELDQRSNQLGHYLREQGVKPDALVGICLER
+SLEMLIGILGILKSGGAYVPIDPEYPADRIAYMLKDAGIDLVVSSQTSCNVINRGEDISV
+LCLDKDWDLISGYPTTELRTVLTASNLAYVIYTSGSTGTPKGVLITHKNVVRLFKNESLL
+YDFGSGDVWTLFHSFCFDFSVWEMYGALLHGGRLVVVSKPLTKDAVSFKELLIKEGVTVL
+NQTPGSFYVLQEEFLSKNSLHSLRYVIFGGEALNSTYLERWKRSYVDCKLINMYGITETT
+VHVTYKEITETDTQSLISNIGTAIPTLGCYIVDAHLNLVPIGVEGELCISGAGVARGYLN
+REDLTNEKFIANPFSVDKTSRLYRSGDLARWLPDGNIEYIGRKDDQVKIRGYRIELGEIE
+NALSSLAGVNQCCVLVKEDTAGNKRLVGYVVLEGKLNKEQLQNQLKLSLPEYMVPQLWVA
+LDTMPLTGNGKLDKKALPDPDGSELSSKEYVAPRNETETQLAEIWQNLLGVERVGIHDNF
+FELGGHSLLVVQLISRLQALDFNIAVKDIFAGPTIASIGDKLSSISFVYTVPANGILATS
+DCITPLMVPLLDFEQNDLDKIVAMVPGGISNIEDIYPLSPLQEGIYFHHLMSNAVQGDPY
+ILSGLLSFSDSKKRTDFIEALQFVVNRHDILRTSFLSADLPDVVQVVLREAVLPVELLES
+SNLDNSKAILPQLKVLATSGTHWMDTSKAPLLELKLADDPENESYYLVVYYHHLIMDHVG
+LEKIMEEVMVHLSGEGENLSVPFLYRDFIGHTLHAQSVSDGESYFRSLLGAINEPTYPFN
+LSNALGDGTKIEEATVTLSKDLSTALRTTCVHLSISPAVLFHAAFGLVIARCSNKQYAVF
+GSLFSGRLQGSLGAADSLGLFINTLPVALELKGSVMEYLEEVKLRLGELLSYEQTPLSYI
+QDWSGISNQMALFSALLNYRHSSAVEEGNMKNLGITLIGDYERTNYPFNFIVDDFGIDFG
+LTALVDVNIGAGRILQFMEQSLIQLIDGLTFEKEVSINTLNILSNKEKHQLLDVFNDTDA
+VYPVDKTIIDLFVEQVKQTPNAIAIVYKDVELTYKELDKHSNQLAHYLLSNNSIIADSLI
+GVVLERSEWLIISFLAILKTGAAYVPIDSNFPEERKEYIKKDSNCSIVIDDLVLETFKKN
+YSDYSDDLPEINTSPDNLAYIIYTSGSTGKPKGVMIEHRNIVNTILSQISAFSITNKDSC
+LQFASISFDASIWEI
+>tr|A0A1S1J4T3|A0A1S1J4T3_9FLAO
+MSKKSINVTDLFLAILAFLLISVSFYQTWLGLDQIFGPASFIIALVLSLLLLFLVWMIRS
+AKANGKSTSSYVGIYIFIASFCFIANFNALYTRFMKTDIYTTELRDINERFNNLEADIQS
+KLSYKYNRETSQNIEIKKKQMMEQIKDPGNKGIGTRAQTLIRDIEGLTGQNVDLLTPVAN
+DYDDLAERMGRQIDNMISDLSPEEKALKTDVNNAALKWNKRIQDLLLLSKKEKDDISQGL
+IDESLAEYNKLGNRAHTVLGDTKFKFTPEISKTQDVGKIGFAFDHAIKNFGMYQFVVLMG
+CILLDFVIVIIVLLATTSNENSNNSSSVFSGNKRSGKVLIAKN
+>tr|A0A1S1J8Z7|A0A1S1J8Z7_9FLAO
+MKTKIQEIQNNSITKMTKKCIQMAVLLLLSFTSIQAQDKKAKDLLNEVTSKIKSYNNIVI
+DFKYTLNNAKENINQDSKGNVTMKGNQYVLNFMGVTKIFDGQKTYTIVPEDEEVTISKVN
+EKDDTAITPSKMLTFFNSGYKYNMDIVQNVKGRKIQYIKLAPTSSKDQRKEILLGIDVQT
+KHIYNLIETGKNGTKTTLTVNSFKTNQPLSKNQFTFVASKYPKYYINKLD
+>tr|A0A1S1JA10|A0A1S1JA10_9FLAO
+MSKSIQILSTKKLSTEQRQALTTAHLEVIEADFIQTENKPFEIKDLNDNLIFTSQNAVHS
+VLSHPKSEELKSKNVFCVGLKTKILLSENGFNVVAYTGYAADLAEIITLIYRSESYTFFS
+GNLRRETLPKALKDAEIKFNEIQVYNTSLTPQKIKTPVDAILFFSPSGVQSYLKENSIKK
+ETCFCIGETTAEALEKITKNIVIADQPTVEDVIEDVLQEYK
+>tr|A0A1S1JAP7|A0A1S1JAP7_9FLAO
+MNTAFIIILVLAFFILMSSFFTVKQQSSVIIERFGKFLSVRNSGLQLKIPLVDRLAGRVN
+LKIQQLDVIIETKTRDNVFIKMKVSVQFKVIQEKVYDAFYKLEYPHDQITAYVFDVVRAE
+VPKLKLDDVFERKDDIAIAVKRELNEAMTTYGYDIINTLVTDIDPDIQVKNAMNRINAAD
+REKTAAEFEAESSRIRIVAKAKAEAESKRLQGQGIADQRREIARGLVESVEVLNNVGINS
+QEASALIVVTQHYDTLQAIGADANSNLILLPNSPQAGSDMLNNMVASFTASNQVGEMMKK
+TNKKIEKIKPIEPQQSGYEDDIQPEIK
+>tr|A0A1S1JAA3|A0A1S1JAA3_9FLAO
+MFAVNFNNTAMHIFYGKVALIAYLKTIKTANSTIGFVPTMGALHQGHLALMQRSLKENDD
+TVVSIFVNPTQFNNPEDLEKYPRTLEEDVKKMRGLSDKMILYAPSVEDIYEGHTVSEAFD
+FDGLENQMEGKFRPGHFNGVGTIVKRLFEIVTPTNAYFGEKDFQQLQIVKKMVEKNHLPV
+NVVGCPIFREDNQLAMSSRNERLTAEERKEAAIIFKVLTEAKEIFQKDTPEETIQFVENS
+FKDNERFELEYFVIADESTLLPIEDKNKDKNYRAFIAVFVNSIRLIDTISLN
+>tr|A0A1S1J4S1|A0A1S1J4S1_9FLAO
+MRALVISGGGSKGAFAGGVAQYLIEEKNHEYDLFIGTSTGSLLIPHLALGHIKKIHSVYT
+NVTMASIFNICPFVVKNKDGVDIVTINHFNVLRQFFKGKRTFGESKGLKRYIKNNFSISD
+FNKLKKLDSDIVITVTNFTKNEAEYKSVKDCTYEEFCEWSWISSNYVPFMSLVEKNNYEY
+GDGGFASLVPIREAINRGATEIDVIILETEVNMDKTVIGKNPFSLMIDLFRIALDQVEKH
+DITIGKLLANNKNVKLNLYYTPTKLTDNALIFNQEVMKEWWEQGYEYAQNKSEVMSDNR
+>tr|A0A1S1JA46|A0A1S1JA46_9FLAO
+MSKTKLIINKNGSIKIEGDFEIMDSEGAVYGLQGRSALGLCRCGLSANKPFCDGGHRNNF
+EHESKAFDLPPMKTN
+>tr|A0A1S1JDI0|A0A1S1JDI0_9FLAO
+MEMTMTKTETAAEEKLRKAKSAKLILLFAMVSMTMMFAGLTSAFVVSKSRADWLKNFELP
+TAFYYSTAVILACSVTFYLAKKAIQKDNRSATTALLLGTLALGILFVVLQFAGFGQIVES
+GYYFTGEGSSITTTFLYVVTVTHLLHLAGGLISLLIIIYNHFKQKYNSTQTLGIELGAMY
+WHFLDLLWLYLFLFLYFFK
+>tr|A0A1S1J5W0|A0A1S1J5W0_9FLAO
+MNYFKILSLVYFVCLLSLKVNAQNISIDDTRTPEDLAKNILINSACINVTSVNATGNPAN
+TGNSYAYFNSGGGSFPFSGGIVLSTSPSTNASGPFIRSNSIGVTNDKWLGDSDLNQALNN
+NSSKQATVLEFDFIALANSISFNYIFASNEYQTYYPCIYSDGFAFLIKEAGTSDPYKNLA
+VLPNTTTPVASTTVHTKIEPAFVNGTNYPGCDPLNENFFNGYNTINSPINYAGQTVVMNA
+HTDVIPNKKYHLKLVIADDPTGQFNSAVFIEAGSFISRINLGTNKTIADKNPACFGESIV
+LDTRLDSNLYTFKWFKETTTDNYVEISPAETGSAYTVTTFGNYKVEATLIGTTCVATGKI
+KIEFAPEILSTNTSLVQCDDDTDGISVFDLTKIANIVKNNVAETLNKGYYESLADAQTKT
+NPISTPEKYSNKSPNQVIYVRLENQYGCSKIAEVTLQISNTTIAPQNPFATCDGDDKQDG
+FYQFDLNAQVSSQLSTGLPASITFSYFLNANDALAATNTLPNIFKNTTAFTQTIYAKAVN
+GSDCYDILPITLVVNTFDPPNFQDESKYLCKGEQITLDVATGFASYSWNTGAASNSITVN
+TAGDYSVLVKDINGCEKTKKFKVILSESAIISGADIKDFSGDENSVLIQYTGVGNYEFSL
+DGSVFQDAPLFTNVKPGVYNAIARDKNGCGPSNQYQVYIADYPRFFTPNGDGYNDLWLIK
+NSDQLPVYKIFIFDRYGKLLKQMDQNTLGWNGQFNNQQLPADDYWFNLQFVNGRVIKGHF
+SLKR
+>tr|A0A1S1J6D6|A0A1S1J6D6_9FLAO
+MKINVLRIFIVFAFSVSGYSQNVKLLNIDQMNERIKNGKDSTYVVNFWATWCAPCIKELP
+HFEKLKADHKSDKLAVLLVSVDFKSKLNSAVVPFVKRKNLKNEVFLLNESNPQEYIDRID
+KDWSGSIPATLFIKEDKRKFIESEFTYEQLLTEYKKL
+>tr|A0A1S1J6Q6|A0A1S1J6Q6_9FLAO
+MRIIGLIGGISWVSTADYYKLINEGINKELGGLNFSECLIYSFNYADIKKNNDANDWDAT
+FNLLLKGCLFLKQGGAEAIVLCANTMHLIADRLEKAIDLPIIHIATETALAIQKKEVKKV
+GLMGTKFTMELDFFKDKLAEKGIETIIPKNDADRDFMHATIFEELGRGLVTEATKKRYLE
+IADQLIKEGAEGIILGCTEIPLVIKPEDVAVPVFDTTLIHSMAAVQFQLS
+>tr|A0A1S1J9M7|A0A1S1J9M7_9FLAO
+MTTEEQIIEKLKTWLTKTKVISYDERIPLNCWDKELKELRDGIAKEVYIVSFKTKSTNIE
+YNEKGEVVSFFEGMYCFAYFDAETLELLYIMKKAGYIEVDGSY
+>tr|A0A1S1JAG9|A0A1S1JAG9_9FLAO
+MKCLVIDDEPIARNGIVDFVSKIDFLEVAGTCASALEATSYIQEKEVDLLFLDINMPYLT
+GLEFLESLDNPPLVIFTTAYSEYALEGYRLQVVDYLLKPITFQRFYQAALKAKQWHQMLG
+TPKQHQLDPYLYVRQEEGFQKISWLDILYIEGMQNYAKLHFKDKVLVIHQTMISLEETLP
+TEIFFRIHKSFLVNITHIDSVSGGRLFIKGQELPISRTRREALLKEVVYKNLLSR
+>tr|A0A1S1JD53|A0A1S1JD53_9FLAO
+MNTLLDKLYKLKKLIGNTPLYNICAEKNIFIKVEYYQLGGSIKMRSAFKVIEEAILDGSI
+NEDTVVIESTSGNFGIALALICRKLDLKFIPVIDPCISLYKKKKLELLCSHIVQITQKDE
+TGNYLLNRIKFIKNYLEENKNSFQPNQYKNKNCYLAYNAMMEEIKDQIDEIDYIFISVSS
+GATVTGLSQRIKKYFPKIKIIAVDIEGSLIFSTITKERKLPGIGASKTSDFIALADIHDH
+VILSEEEIISGCQKLFHEYGILAGASGGAAFYAALQNIENSEKKQNCLVIIPDSGDDYLE
+LIDYKCFQQTSYEIH
+>tr|A0A1S1J7B9|A0A1S1J7B9_9FLAO
+MAKKLTLDDIFNDDEFGLLESKAKVSNVKSEDERLIDSFQEINVFFEKNKREPKADVFVI
+SERSLGVVLKELRKNNKNLQILKPYDTYNLLGNAVTEINSIDDILNDDEFGLLDTDDTLE
+IFKLKNVPKSSEIAERDFTARRKAMKDKDFEPYEFRFKEVHKELREGKRKLSEFKDVEQN
+LEKGKYYILDGILLFLEDDGIEDRLIKDRIRKDGRTRIIFENGTISNMYYRSLAKSLYNN
+GRIVSDTDSDSENELFKNANIVNENDLETGWIYVLKSKSNNPVISEIKDLHKIGFSKVDV
+RDRIKNAIKEPTYLLADVHVVSTYKCYNVNPHKFEQLLHRFFAEVCLDVDIHDDKGRRIT
+PREWFVAPFPIIDKVIDLILDGTIVNFKYDYENKAIISIK
+>tr|A0A1S1J4B6|A0A1S1J4B6_9FLAO
+MKNVLFKKTLFSLLLLLGFLGYSQNVPLSKEAKISVITCGLGNESYSYFGHTAIRVTDLA
+NNIDVVYNYGNFDFRTPNFVAKFAKGDLQYFVSVRSFPEFINDYTNEKRSVFEQELLISP
+DLKQKLFDNLNAAAFSEERYYTYKFIDKNCTSMVVDVINKSLKANIVTKKGDTTETYRSI
+LFPYFKDHFYEQLGTSIIFGTKVDQAGTKIFLPFELKNSLEKTTFQNQPLVNKSKTLLSF
+EKEIPSSWWNNIYTYLLLLGFVVLAHHKVVDKIYLLILSLIGIFFITVGFYSLHQELAMN
+YNVLLLSPLLLILILFSLLKNKRWTYRFAVLHLLFLIVYTIFMINKAHFFIVLPMIITSG
+FVLVRVAIRNKKRIPIII
+>tr|A0A1S1J549|A0A1S1J549_9FLAO
+MSTLYQSPRIIIREFLPQEQQTFLNLFKDNQVTQYLPDTSPERYVEMFTELLENYEKKNL
+SRWAIFDTTNNNFIGMCVARVFIHNTNQIEIGYVLSREYWGKGIATEVCKAITQYSFANT
+NTKEVVAVTDLHNTGSQNVLQKAGFERLNNLIRNEEELAYFKIGRL
+>tr|A0A1S1J687|A0A1S1J687_9FLAO
+MEKQITRSSEKDWKVLIEEGVKTDGIFSKSLYVDPTTNRPTVFLLKFEAGASYPNHVHPS
+GEEIYVLEGEVRSGKDELKTGDYMYMPPGSSHSVFSKTGCVLLFKVPEEVVILK
+>tr|A0A1S1J889|A0A1S1J889_9FLAO
+MKFNLKFLFITLFICTISIAQNKGTISGVLTDKETNNEALPFANVLLKGTNISANTDIEG
+KYSLNVNPGNYIIIFSFVGYESVEKPVTVKANETITVNQVLSSGSFTLKDVVVKSSAVNK
+QKESALLLEQKNAVAFKAAIGAEEISRKGVNDVANAVAKVSGVSKQDDSGNVFVRGLGDR
+YNVTTLNGLPLPSNNPANKNILLEIFSTNIVDNIGISKTFESQNYADFGGANIDISAKKF
+NGKPFVTFSIGTGANTNVLSQDQFYLQDGPTYTGFKKVGVPNAPLQPYSYATSWDRQANK
+NILNAFYTLSAGKRFTINDESSIGTFVTGSFSAKNKYTEGYSRGGITSDGDIFSDFIRTS
+YKHSTTTTVMGTADYKINNKNSIFFTSLFLNSSDQDYSEYEGTNQNFDGGGDALQQISGF
+IKRGTFERTQLIVNQLTGKNKFNDQWNLNWGVGYSMSNSSIPDRMQNSFVYAPNAKDYTF
+FTNSNINNHRFFQDLKENEIAANIALSYNFNKKSDDTYKGKITVGYSGKFKDVDYNMEQY
+SFFPNRTTISFPKEDIHHVDKYLNQANWGSSYSNRINQVYNGNLDINAAFANVQYSLTDR
+LSVILGARLEQLTQNVFYITTTVPNGDNSNDSKFNILPSLISKYTLTDKQNLKFSASKTY
+TLPQFKEKVPIIYEDVAQAYEGNPRLYASTNYNFDLGWEFFPKSSELISVTAFGKIIQNP
+INEMFLNSSSNDISYANTGDKATVAGVEVEFKKEIFEIEKDNNLKTKLTFDANGSYLYTN
+QDLSNDKVNNENDFGANFTFTKSKLTGASNFLANANLSFLNEYREGKDFSATISYSYFSD
+KLAVIGTSRVGNLVDKAVNKLDFIANASLTKNLKLGLIYNNILNPTFKRVQEQGKVPGKE
+SIGDITAVSYKAGSDFRLTLSYTF
+>tr|A0A1S1J9M3|A0A1S1J9M3_9FLAO
+MYLIFDTETTGLPKRWDAPITDSDNWPRCIQIAWQLHDEMGQLIEHQDYLVKPDGFNIPY
+DAERIHGISTELADADGITLAEVLEKFNIALSKTKFIVGQNLGFDVNIMGAEFHRMGVDS
+PMSSMPVLDTCTEVTASLLKLPGGRGGRFKLPTLTELHEYLFNKPFAEAHNATADVEATT
+RCFLELIRREVFTKEELDVPKDYFKEFQSRNPQEFPLIGLKHINLKAASDKIREQLKALE
+SVGQEPTISHSDREDFKAAKYAHLHNHTQFSVLQSTIGIGNIVSAAAKNGMPSVAMTDTG
+NMMGAFHFVSAVMNHNKAASGKNKALVEAGEEPTETEVKPIVGCEFNICENHLDKSKKDN
+GYQVVLLAKNKAGYHNLAKMASIAYTEGFYYVPRIDRAIVEQYKGDIMVLSGNLYGEIPS
+KILNIGENQAEEALIWWKEQFGEDFYLEVMRHNQEDENRVNKTLIEFSKKHDVKLIATNN
+TYYLNKEDANAHDILLCVKDGEKQATPIGRGRGYRYGLPNQEYYFKSQEEMKKLFADLPE
+AIINIQEIIDKVEGYSLYRDVLLPKFDIPEEFVDPEDEKDNGVRGENAYLRDLTMRGAER
+RYGVITESIQERLDFELLTISNSGYPGYFLIVQDFIAEARKMDVSVGPGRGSAAGSAVAY
+CLGITNIDPIKYDLLFERFLNPDRVSMPDIDIDFDDEGRGRVMDYVINKYGQKQVAQIIT
+YGKMATKSAIRDTARVLDLPLFEADRIAKLIPGMMPSKWNLARFISESEDEVKKALRSDE
+FDNVKELIAIANEDDLAGETIQQAKILEGSMRNTGIHACGVIITPSDITNYVPVTTAKDS
+DLYVTQFDNSVAESAGLLKMDFLGLKTLTLIKDTVKLVKYRTNIDLDPDTFPIDDEETYA
+LFQRGETVGIFQYESPGMQKYMKDLKPTVFGDLIAMNALYRPGPLEYIPSFVRRKNGDEE
+IKYDLDACAEYLSETYGITVYQEQVMLLSQSLAGFTKGEADVLRKAMGKKQKDVLDKMKP
+KFVEQAAQKGHDAKVLEKIWKDWEAFASYAFNKSHSTCYAWIAYQTAYLKAHYPAEYMAA
+VLSNNMNDIKQVSFFMEECKRMGLQVLGPDVNESYYKFTVNDDYAVRFGMGAIKGVGSGA
+VETIVENRKDGRYKSIFDLAKRIDLRAANKKAIENLALAGGFDSFEGTTRAQYFHDEGDG
+ITFYEKAMRYGSKFQENENSSQVSLFGETSEVQIAEPVVPPCEDWSTMEKLAKEKEVVGI
+YISGHPLDDFRFEMKYFCNNKLESLKSMNEFVGKNLNFAGIINNVQHRVAKNGKGWAVFN
+LEGYDESYEFKIFGEEYLKFRHFLIQNNFAFIKILIKDGWVNHDTGKKSDPRMQFVEIRQ
+LQDILEAFAKKLILLLNIKDLQTDFIHRLSHLFSENKGDNSVTFEIMELEKVKRLVEVET
+PKDFEESTFEEENDREDDGIEETKIQEVNEVEEIKVVNKLTMPSRRLKIKISTELLIELE
+KMQVNFKLN
+>tr|A0A1S1J3N6|A0A1S1J3N6_9FLAO
+MYLNNSNIKLPDDPDTIVWKYLDLSKFLDLLMSKKLFMSRSDKFEDQYEGTFSEPTFEEI
+KKLAIDNPDFLNYYKTHREQVAISSWHINEYESFAMWQIFTKNNEGLAIQSTIGRLQNAV
+KPENNFDQYIGEVNYIDYKKEYIPFDDLFFPFLFKRKSFQYEREVRILTDTSKSDIKLND
+GLKINVDLRQLIEKIYIHPKSENWYKKLVIDLTERLGFDLEIEKSDLESDILI
+>tr|A0A1S1J6T1|A0A1S1J6T1_9FLAO
+MNKTIFYLSQLFLFLLTSIAAQSQSKIAGELKVDYVPFSNYVRPMDSTKTSAESNFKRAQ
+IAFEIPLSLEMDQYNRPKLWSLFANGSYAKMENKNYEIQSLPVEFQGGFPNEMLNAQIGV
+KHLRSISPTWSLMIMASVGVYTDMVEINKDDVLLQGGVFFIKHFNPNMAFGMGPVLTNSF
+GVPMVLPGIYFNWESRGAWHFKITFPEGLQFGYRISENFDLKAVVELSGMTAETKVNNRT
+SLLGYQQIIAGIQPEIKLGKHWTLQPTAGSTLLRSFSSTNRKIKDIFKEKDMANPRFTTT
+FYGAVALKWQF
+>tr|A0A1S1J784|A0A1S1J784_9FLAO
+MTNIQFIAKSVPTAAINIQNTVKLLEEDCTVPFISRYRKDTTGNLDEVQIEQIAKLQKEY
+ETIVKRKEAVLKSIEEQKSLTPELKQKIEQSFDLQEIEDFYLPFKKKKKTKADVAREFGL
+EPLAKIIMSENDVDVDFISTQYLNENVINEEAAMQGARDIIAEWINENIYVRKQLRRLYQ
+RKAVIATKVVKKKSEEEGAQKFSQYFEWEEPLTKAPSHRLLAMLRAENEGFVKMKVDVDL
+DEAYDIIDEIIIKKQNSTTAHLQLAIEDSYKRLLNPAIGNETLQEAKAKADANSIQVFAN
+NLGQLLLAPPLGEKRILAIDPGFRSGCKVVCLDEKGDLLYNETIYPHAPQNEETMAIKKI
+RSMVNAYQIDAISIGNGTASRETEFFIKKIAFDKPLQVFIVSEAGASVYSASKIAREEFP
+NYDVTVRGSVSIGRRLSDPLAELVKIDPKAIGVGQYQHDVDQTKLKEELDNTVIRCVNSV
+GININTASKHLLSYVSGIGEKLAENIVQYRSENGPFEDRKQLKKVPRLGDKAYQQGAAFI
+RITNAKNPLDNSAVHPEAYPVVEKMAKDLKLSVNELIANKEKTALIKAENYITPQIGLLT
+LKDIIKELEKPGLDPRKSAKVFEFDANVKSIKDLKTGMILPGIVNNITNFGCFVDIGIKE
+SGLVHISQLKAGFVSDVNEVVKLHQHVDVKVTEVDEDRKRIQLTMIL
+>tr|A0A1S1J9G6|A0A1S1J9G6_9FLAO
+MLKIRFFITIFLLYLPNLHYSQVKPTFTTLNTVIEEETNEFQREIDFKKARSFFVKKEWD
+STLTYSIRALSTTKNKEIINYCHFFRGYCFREKRVFKEAQKEMLLISHDFKLYPFVNIDL
+GKIYLELKIFKKAIHHFNEAEKKPLPHNKDYKISVIYSNLGICYLHLNDFITSEHFFFKS
+LKLKEKEKDLISLNGLYTNIANLYYMQYKDQQAIPYFEKAYALSKHINHFETKKNAAQNM
+SAVEENRGNYKKALEYRKESAQWKDSLNNQNKIWAVADLEKKFAVEQKQKQIKVLEVENK
+LKNAQRNGLFFAAVGLLLILTAGVYLYAQKVKNGKTILRQKNKLDELNATKDQLFSIVSH
+DLRSSVNALKTSNTKLSSTLETKNYDELNHLIIQNSTIANGAYTLLDNLLHWAMLQTKQL
+YFQKESIHLYSIVQQIEHNYKPLLLDKAITFENSVSKNSFIFVDLDSLKIVLRNLLDNAI
+KFSNENSKISFYTQETNPDFCELVIQDNGIGMSESTIQELLADNALLAKKNNTEIIGTGL
+GLQLCKQMIKKNGGTLAIESELHAGTKMILTFPKTKNNG
+>tr|A0A1S1J2B5|A0A1S1J2B5_9FLAO
+MKYFSLFIICLLFSCGKKEDVLLPKSNVTIVKDVEDLSPIYIFFKTEGKDTIADVNRKSS
+IISTNWIFNIDKRLPLKLVIPEVMKLQEKKRADSAHKNENAENYYSYADSIGKNLAFIPF
+TKVYYKMEIANNRSQLYFKKNGMIQYSGRKTYDFPKNDLPKFLDSLNINPKAEIKFSYDK
+NMTFGTYIQCKILVKTIADKKIPFVFINQEEEFVF
+>tr|A0A1S1J4E1|A0A1S1J4E1_9FLAO
+MQIDLSTLDPKHNIIIKGAQVHNLKNVDVAIPRNKLVVITGLSGSGKSSLAFDTLYAEGQ
+RRYVESLSSYARQFLGRLDKPKVEYIKGIAPAIAIEQKVNTTNARSTVGTSTEIYDYMKL
+LYARIGRTYSPISGQEVKKNTVTDVITDVKTLELDSKWLLLAPIHLEEGRQLEDKLKVLL
+QQGFARILVHNEMVRLDDFSPTDLHQLDNKDILLIIDRIVVKEEEEFYNRLADAVQTAFF
+EGKGICYLQELNSDKKFSYSNNFELDGITFLEPNVHLFSFNNPYGACPVCEGYGNIIGID
+ADLVIPNTSLSVFESAIYPWRGESMSWYKDELVKHAYKFDFPIHKPFFELSEEQKDLIWK
+GNQYFQGLNDFFKELEEKNYKIQNRVMLSRYRGKTKCHACRGKRLREEASYVKINGKTVS
+DLVDLPIKHLVTFFKNIDLNVYEQQIAKRLMVEINNRLSFLTEVGLDYLTLNRNSATLSG
+GESQRINLATSLGSSLVGSMYILDEPSIGLHPKDSERLIKVLLSLRDLGNTVIVVEHDED
+IMKAADMIIDIGPEAGTFGGKLVAQGTYKEILKSDSLTAQYLNGDLEISVPKRRRKFKNH
+IDIVGARENNLKNINVTFPLDVLTVITGVSGSGKSTLIKKILFPAMQKKLDSAAEKAGQF
+SELKGSFSQIKHIEYVDQNPIGRSSRSNPVTYIKAYDDIRDLYAKEKLSKVRGYQAKHFS
+FNVDGGRCETCKGEGAINVEMVFMADVSLPCETCGGKRFKKEILEINFDEKNINDILTMT
+IDDAIAFFDKNKQSKITQKLQPLQDVGLGYVQLGQSSSTLSGGEAQRIKLASFLVKGATK
+DKALFVFDEPTTGLHFHDIKKLMTSFDALIEKGHSIIVIEHNLDLIKCADWIIDLGPEGG
+ENGGHLLAAGTPEDIVKVKESVTGVYLKDKL
+>tr|A0A1S1J345|A0A1S1J345_9FLAO
+MSKKALYLLGIVITIILGTFLYLKFCCNCTMKTPAVDTEKVSKVVAPDETTVPFILNGSG
+IDYHTNDNIKFLKSSPTALLPVGDSVSIGIQNLKTFLIANPKQKITITGYATSDETNTTT
+FENLGLARANDIKKYFVSQGLPDTQLTTKGEVIDKWQTKKDTLFGPVKYAFEAPEAAPAV
+TDEWVILKEKINGDPLVLHFNTNKASDKLTAPEKEKVADLVKYMEHVKEAVIVAVGHSDN
+VGNRDSNVALGQKRAEFTKNYLSKNGVDGSRITAESKGPDEPIGENTTAEGRANNRRTVI
+TIK
+>tr|A0A1S1J5V9|A0A1S1J5V9_9FLAO
+MSTNTLSKETELKLIDFFNKSVDPEFMAKTIRKVNYLLALSMMRECETFETDKTSLENGF
+YWLNELAEILNPYLETE
+>tr|A0A1S1J7D4|A0A1S1J7D4_9FLAO
+MAVHGLIDGNIKKPFQENYENYIALYNPKEYLKDAVFVVDTAYIETQATSNQGSSTTFKD
+YTIIRGHLLYSKTKQEITCKYVNSNVLDSYYHQKVEKINVLKNSINGIAFLEDKKYISSE
+KMNAVANLYFNLSLIPLILILLILKIKSK
+>tr|A0A1S1J7J1|A0A1S1J7J1_9FLAO
+METILTIENLHKRYGRIQALKNVSFEIQKGHVYGILGPNGSGKSTTLGIVLNVVNRTSGN
+YTWFGGKVQTHEALKKVGAIIERPNFYPYMTAEENLKLVCKIKSINYSKISEKLDLVGLS
+ERKDSKFSTFSLGMKQRLAIASALLNDPEILILDEPTNGLDPQGIHQIRDIIRKIASQGT
+TILLASHLLDEVEKVCSHVVVLRKGEILYSGTVDGMSANEGFFELQSDDNLALKTILETH
+PAVEKITEEDGKILVYLHSDLSASELNHFLFSKNIALSHLVKRKNSLEAQFLELTKNAII
+QNN
+>tr|A0A1S1J8K7|A0A1S1J8K7_9FLAO
+MSQNNATSSLPKIISASPEAASLGQYGGVPVNLSTGQINYTIPIYTIKSGDFEYPLTLSY
+NYNGFKPEADPTMVGMGWTANFGGVIARQMKGVEDEDPYIGYFVRGSKYENLNTLSLEEK
+VEALKNAADHGYDTRPDKFILNTATINGSFRFKYDKTAVFSEQKNYKVTFNGFINIKDDK
+GILYQFNDLEHTMITDWTPSNNETDYMSSFMLSKITLPNSNKEISFQYDNYNSIHRYTTN
+TKTVQTQLEIEPPANGGGYSSNFSLETTESKIIKRIDFPNGYILFDQNIFYRPAYSALPD
+PASVEGTNQVKLKSVSVYNLKNKLIEKFHFDYYDSGYYYYLKSIKKEDSNGNVIDYYNFD
+YENLQELPTHKIANNMTDLWGFYNGIPFTEYNVKYSLSPSFNKGIIGALNKITYPTKGTT
+KITYEPNQIKRTEGDYESSNPSYNASDSVALSSENNSSDCDQNEKTVTIPFGQTVKIILE
+VDVTAGKSSATSSFVDSNGQELYRLYKNNEVNTGPKYFSEEYFQYLEAGTYKLRTHLCEI
+GVESGNHNAKTTIEYRTTPYVDDPSSSNIEVGGVRISQTKDCPNQDSENCVTKKYNYIDN
+SYPLNKSISSGFLIEPSPRFNSAMIRKDIFAATTILELPNGNILMLNDGSDFSHQVHYET
+TFNLRPITPLSLLGSHIFYSQVNIINNNESIGKTENYYTNYIKQSFQPFLDLYPDIEFKL
+GKILKQNLLENNSPDFITKQTHDYVYNDTEINPSNYVFDCQILRSQIESIAIDQHGSILK
+FSRPSDFAIQSIKHTAREFQLSYNSTTTLEKNGIIENVTSYTYDTQTGYPTEISTLNSEN
+QLVTTKTYYPNNKGSIIGLDTFQDQSINNLIDKNIVSVPIQTETFIRNPDGSKSLKNTKR
+TNFKTWTNTIILPEFNQTAKSTNPLENRIQYHNYYLDGNVKELSTSAGTHIVYIWGYNNE
+HVIAKIENATNTQIATALGVSDLNTINENNLNAIDNLRAVLPNTMITTYTHIPLVGVSTI
+TDPKGDKIIYTYDSFGRLKYVKDKNDKILSENQYNYKP
+>tr|A0A1S1J3R2|A0A1S1J3R2_9FLAO
+MDETDIKVKGIWYYLYRAVDKSGNTVDFLLIKRRQRMSAQSFLIMAINNKYNPILRYYCI
+E
+>tr|A0A1S1J4J3|A0A1S1J4J3_9FLAO
+MKRIILAAMAVMVFGFANAQKTRFGVKGGLNISTVVGGDVEDTKALVGFHVGGFAEIHVV
+QRFFIQPELLFSAQGTKVDGSLNDTDIKLNYLNIPVVAKYYIIDKKFNVEAGPQLGVLLS
+AKVNGNNIKDFTRSVDLGFNLGAGYSFTDNLSVGLRYTIGLSPLSDKDIDNSDDYYDSAK
+NSNLALSLAYKF
+>tr|A0A1S1JCK6|A0A1S1JCK6_9FLAO
+MFNIERWQEIFEAISKNRLRTFLTGVSVASGIFILVILLGAGKGLQNGIEKQFERDAAGI
+IEVWSGTTTKEYKGLNPGRQIQFRNSDYSQSVQKFNDKLDLKAATQNYWGGTFAYGKESG
+SYQYRGVDPDYSGIENLTVVQGRYINSNDLANNEKVACIGMKVKTDLFKDKDPLGKEISI
+NNINFKVVGVFTDPGGEREETRAYLPKTTVQRAYGGGDKISNLFFTLKKTNDYNEALAQS
+EKFTQDLKDLLKSKNVIAPNDDSGVGVYNSVKDAKQFYDLNLYIRLFFWWVGICTIIAGV
+VGVSNIMLIIVKERTKEIGIRKALGASPFSIISMILHESIFITTIAGFTGLLASLALLEF
+VGPMVQSEYFRNPEVDFSVALTTLALLIFAGALAGFFPAYHAAKIRPIVALRDE
+>tr|A0A1S1J6H3|A0A1S1J6H3_9FLAO
+MISGKFAITIHILTLLTKFPNDFLSSEFIAGSINLNPVLVRKEIANLKAHHVVESKEGKN
+GGTRLAVDPSKITLKEIFEMTFETINLGYAKNQPNPDCPVGKKINQNLSSLYAEMNQKVS
+LQLDGVSLEDFSNQF
+>tr|A0A1S1J6V8|A0A1S1J6V8_9FLAO
+MKKNLKIVSLFLMISIGAFAQKEELKVAQSYYAKGKNQEALAVLKKIEYQILNAPDEVKT
+DYFFTKGNVYKDLATKNVDAASNFALASAAYQDVLLYENESRNYKYAFKASSALKEMKSK
+LVDGAYNDYKIGKFKESADKSYEVYLFDKKDTLNLFNAASSSLAGKDYNAAIKYFEELKK
+INYSGKGMVFYATNKKTKQEEVFISMSARESSINEGLYEKPRNFNPPSKKEEILVSLGFS
+YLERNDFRNAEKYYEDGLKVNQDCLTCCLNLAYVKVQFRKEIQDQMSSLGTSANEMKQFD
+KLDAQKDEVVKSAIPYLKKALVIEPKNENAVKSLLGIYRSLNMTKEYNALKGSM
+>tr|A0A1S1J2C4|A0A1S1J2C4_9FLAO
+MKNNIIKSTAILFTALVVLSCEKKKEEAPKAEIEPKVETFLLAKEKLTTELRLPAELTGF
+QQVDLYAKVSSFVKLLKVDIGSKVKKGQLLIVLEAPEISSQLAAAESRLKSMEAIYATSK
+STYNRLYETSKVEGTISKNDLEMASGKKNSDYAQYQAAIAAHKEISIMKGYLEIRAPFDG
+VVAARNVNLGTFVGPAGKGSDLPLLTIQQQDKLRLAVSVPELYTGYLHNGDEMSFNVKSL
+PDTFSAKITRMSGALDLKLRSERVEMDVHNTQTNLLPGMVAEVLLPLNAKDSTFVIPKSA
+LVNSAEGLFVIKVLNHKATRIDVKKGREIDDKVEVFGDLNLKDKLVKIASEETKDGDVIN
+E
+>tr|A0A1S1J392|A0A1S1J392_9FLAO
+MKILIINSGSSSIKYQLMVMPTNEVICTGMIDRIGLETSNVIFKTPSNTIEETLPIANHK
+VGLQKVANMLLDAEKGVIKSTSEIAAVGHRVVHGGSAFSDTVKIDEAVKLKIKELFELAP
+LHNPANLEGINVAEEIFSDAEQIAVFDTAFHQTMPEVAYKFAIPNYLLTEHKVRVYGFHG
+TSHKYVSAKAIDYLEKNSKIITIHLGNGCSMTAVKDGKSIDHTMGFSPSNGLIMGTRSGD
+IDQSVIFYMVKNLGYSADEVNSILLKQSGMLGLTGYSDLRDIEAEAEKGNKDCILALQMN
+AYRIQKTIGSYAAALNGLDAIIFTAGIGENSSYMRKLVCTNMDYFGIELDDEKNQIRSKE
+IREINVPNSKAKILVIPTDEEYEIAHQVYQLLQS
+>tr|A0A1S1J4B0|A0A1S1J4B0_9FLAO
+MSVNKKIVVFILLCFCLQGAYAQVNPPQKDAKTKKDSSEVYQKIRNYSKKNKFTQTLHKL
+FFRGDNTQKKEVLVQNDTTDFSGKIIRNINIITLDPFGHSVTDTTKIPKNWGERTGNRLH
+LKTKKIAIYNLLLFKKNTPYDTYKVQESERLIRSQRYVTAVRITNKITGVASDSVDITIR
+VLDSWSTIPRFAISGNQVSFGIKEKDFFGTGQQLDYKHTNRFKDGRTANEVSYNIPNIKN
+TYIGTTLYYKIDIDNNYTKSINIERLFYSPLTRWAGGLYVGQNYKKDSLQAPDKSYAFQP
+FKNNFHDFWAGHASKVTQDEDGITNLVATARFLNVNYSQTPSELYDPTRFYSDEKLILSG
+IGLNRRKFIKDNYIFRNGQTEDVPIGKIYGITLGYQYKNKQWRPYAGAQFSFGNYYRWGF
+FSTNLEAGTFFHDSKTYQTAFSFESNYFTKLFTIGNWKLRQFVNPFIVIGANRENIIGDQ
+LNINEQNGLAGFNTAIYGTNKVVLSLQTQTYSPYALLGFRINPFFNYGLAVLGAPNDAVG
+RNKAYQKITLGLSINNDYLVFSSFQISLSYYPTIPFQGDNVFKTNTFQTSDFGLQSFELA
+KPRIVEYK
+>tr|A0A1S1J680|A0A1S1J680_9FLAO
+MNKLPLINGQQHSWSSIEVSIAGNIVTGITAVNYSDSVSKENHYGAGDMPVHRGRGKYEA
+KASITLYNYEVEAILAALPKGQRLQDINPFSIIVSYLDDSNEVITHTVRNCEFNSNSRGI
+SQGDTKIAVSFDLICSHIEWN
+>tr|A0A1S1J6L6|A0A1S1J6L6_9FLAO
+MNKTAKIKKNHQFIVFKKLVIVSVLIGFLSAFLGISLKKITEYYEEIFFHEVSVNPVFYI
+IFPVFGLSVIYFLRQYLFKKKENKGIKEVFESTKSSSKNLPSYKIPSHFINGLLTVIFGG
+STGIEVSTVVATATIGSVAQQKKNVFRKYKTELICAGVAAGVTALFSSPIAGILFALEVI
+SRKVTRAFIISNIIAVSIAFGLLTILKEEPLFAVSITTWHLKAIPYFILLGILAGVNSVY
+LTRCVLFFKSQFSRIDTHYYKILIGSVVLSISLFIFPQLYGEGYHAIKGIFSTTSEIPLT
+ITLSLTLIGVLILKPIVTSITLASGGDGGVFAPSLFIGAFLGLLLASVLNTFFHVHVIPV
+NFMIIGMAAVLSASIHAPFTAIFLVCGLTNDYTLFLPILVVCLISKYTAKMIYPYTVYSY
+SPSISK
+>tr|A0A1S1J935|A0A1S1J935_9FLAO
+MLSKKTKYGIKALTYLARRENNEPVQIAEIAKSEHISIKFLESILLLLRNSGFLGAKKGK
+GGGYYLIKDPKDISMAKVYRILEGPIALLPCASHNFYERCDDCDDESTCAARRLMTEVRD
+NTLKILESNSLADIAF
+>tr|A0A1S1J9X7|A0A1S1J9X7_9FLAO
+MRIAVVGATGMVGEVMLKVLAERNFPVTELIPVASEKSVGKEIEYKGTKYKVVGLQTAVD
+MKADIAVFSAGGETSLEWAPKFAAAGTTVIDNSSAWRMDPTKKLVVPEINASTLTKEDKI
+IANPNCSTIQMVLTLAPLHRKYNIKRIIVSTYQSITGTGVKAVRQLENEYAGVQGELAYK
+YPIHRNAIPHCDSFEENGYTKEEMKLVRETQKILGDNTIRVTATAVRVPVVGGHSEAVNV
+EFTNDFDVNEVREILHHTDGVVVQDNLDTFTYPMPLFAEGKNDVFVGRIRRDESQPNTLN
+LWIVADNLRKGAATNTIQIAEYLIAAGLV
+>tr|A0A1S1JB46|A0A1S1JB46_9FLAO
+MNFDNYKIIANYNTHKTDLFVADEEDILACEKTLNILFDEDYKAYVSEFGSGILGGTYVR
+IYLPETIMLTLDEWRNRITEYWFWDDGKDVLTKEEVLSSVRIGDTYDGDEIVLLKNEYFV
+LPRHSEMIYKAGTTLEETITWLCSSGILTEAFSERNFEPFNPGEITE
+>tr|A0A1S1JEA1|A0A1S1JEA1_9FLAO
+MASTYSQLYIHIVFTVKGRQNLISKNWKDELYKYMTGIISNKGQKLIAINGMPDHIHILI
+GLKPDKSISDLVRDIKANSSKFINDRKWVNGKFEWQTGFGAFSYSHSHLTNVIRYIENQE
+EHHKTKTFKKEYIGFLKLFNIDFKNEYLFDDVNE
+>tr|A0A1S1IYV6|A0A1S1IYV6_9FLAO
+MNLFNVYPLYDITPVKAIDCTIVDDKGVEYLDLYSGHGVISIGHTQPDYVAKLKDQLDHL
+GFYSNAIQNPLQVELAQKLGKLSGLEDYELFLCSSGAEANENALKLASFHNGKSRVVAFD
+NSFHGRTSAAVAVTDNKKIVAPINAQQEVTFLPLNQIELVEAELGKGDVTAVIIEGIQGV
+GGLDEGTTEFLQALEKACKKHDVVLILDEVQSGYGRSGKFFAFQHHGINADIISVAKGMG
+NGFPVGAILISPKFEASFGLLGTTFGGSHLSCAAGIAVLDVIEKLDLQKNVNEVSAYFLE
+KIKEVEGIKKVKGKGLMLGVEFDFDVAALRKKLIIEKHIFTGSANNKNLLRILPPLTVKK
+SDIDTFIAALKESLEELKN
+>tr|A0A1S1J3G5|A0A1S1J3G5_9FLAO
+MKKKLVVLTGAGISAESGIKTFRDSDGLWEGHDVMEVATPEGWRKNQELVLDFYNKRRQQ
+LKEVEPNSGHTILAELERDFDVHIITQNVDNLHERAGSSKVLHLHGELIKVRSTQNRNLI
+LDWTEDLYTGDLDQNGHQLRPHIVWFGEDVPALEEAIDITETADYFAVIGTSLQVYPAAG
+LISYTPSVTPVFYIDPNPISIPNLRNKVEVIAEVASKGVAALRDRLESGL
+>tr|A0A1S1J3N9|A0A1S1J3N9_9FLAO
+MTDKSQLRSSIFRHLDGLAVAPVAIALQNHKVLEYILNQKQVQLSQLATTFKANEGYLNV
+GLRILASQGFLEYEVDNRTQEITIITNEKTEIAFSLFHLYQDVVDLLQFSGQFHPRLFDD
+VPFEKLNLIFEKYKKGYGISPSDDPLKRSLQEQVLKHVEGHLIGPTIVRLAMKGMFHKYF
+METSFQPEEFHKSPENFKKILDFFVHLGWFLEKNGNYQFTETGLFYAKRASAYGVTVSYL
+PTFAKIEELIFGDPSVLRMIADGENEIHVDREMNVWGSGGAHDTYFKVVDEIIVSLFNLP
+IEQQPKGILDMGCGNGAFLQHIFEVIDRQTLRGKMLDDYPLFLVGADYNQAALKVTRANL
+IKADIWAKVIWGDIGNPQLLSEDLKENYNIDLKDLLNVRTFLDHNRIWKDPQHINKDRIS
+TSTGAFAYRGKRISNNLVEDNLLEHLQKWSPYVRKFGLLLIELHTINPKLAAANIGKTPA
+TAYDATHGFSDQYIVEIDVFNKVAAEAGLFPDQSIFKRFPDADIATVSINLLKGN
+>tr|A0A1S1J5M2|A0A1S1J5M2_9FLAO
+MKLIVIFNQPSKTKLFMKKIFFVAVLLLTISFSAFAQLKAPSEFIPNYGKQISYYHQVEE
+YFKYLTEQSQSIKKQKYGSTNEQRDLNVYYISTPENLANLEQIRNNNLAAIGLSDKKTSG
+VENKIIVWLSFNVHGNEFAGTESALTVAYELLNPSNEATKQWLKNTIVILDPCINPDGYS
+RYGNWLREISGKKTHPGLYDREHMEVWPGGRYNHYLFDLNRDWAWQTQIESQQRIKLYNQ
+WMPQVHTDVHEMSYNSPYFFPPAAEPLHEFIEQYQKDFYTVLGKNISQKFDKENWMYNTR
+ERFDLFYPSYGDTYPTYNGAVGLTLEKGGIGAGREVTMENGSNVTIKDRLTQHAAAVLTV
+VESAASQKEVLLKGFRDFHINARKKAKGVYNTYVLKNNPKLEQLVELLQKNDVEFSYADA
+SGSASGFHYQTKKNESFKIETNDLIIKADQPRSVLTQVLFEPNQKLNDSLSYDITAWALP
+LAYGVDGYAVKNSVQIKTKNKIESAEKNIPESVYAFYVPWNNRTSAQVVSLLHQAGIKVR
+SAMKKAVFGTVTVEPGGLIISRADNPKITDFEKTVSNIIKVKSDFSFISTGFSTNSKDIG
+GENFTLLKAPKILMLSGKGVVSTEFGATWFYLDETVAYPVSIVETANLNRVKLYNYNTLI
+LSDGSYDLGEDQKKQIDEWVKNGGKVIAMANAISLFQDRDGYALSLFASKEDKEKSEKEE
+KEIELKKRFLDFEGSERREISGSIPGAIIENKLDKTYPMAFGLGNTYFSLKSNERSFSLL
+KKAINVAYIPKDYLSYGFVGNDIRKKLNETVSFAVDKRGDGTVIYMMDNPLFRGFWENGI
+LLFSNALFLVR
+>tr|A0A1S1J7L7|A0A1S1J7L7_9FLAO
+MVKQKTIKNEISLTGVGLHTGKEVTMTFKPAPINNGFTFVRVDLQGQPVIEADANYVVNT
+QRGTNLEKLGVKIQTPEHVLAALVGCDLDNVIIELDASELPIMDGSSKYFVEAIEKAEIE
+EQDAKRNVYVVKEVISFTDETTGSEILVMPSDDYQVTTMVDFGTKVLGTQNATMKSIADF
+KNEIASSRTFSFLHELESLLEHGLIKGGDLNNAIVYVDKEISESTMANLKKAFGKDEISV
+KPNGVLDNLTLHYPNEAARHKLLDVIGDLSLIGVRIQGKIIANKPGHFVNTQFAKKLAKI
+IKIEQRNHVPVYDLNQEPLMDIHKIMAMLPHRPPFLLIDRIIEMSDRHVVGLKNVTMNEN
+FFVGHFPEAPVMPGVLIVEAMAQTGGILVLSTVPDPENYLTYFMKIDNVKFKHKVLPGDT
+LIFKCELISPIRRGICHMQANAYANGKLVTEAELMAQIARKQ
+>tr|A0A1S1J9B5|A0A1S1J9B5_9FLAO
+MILFIKLLLAHLLGDFTAQPNSWVVDKEARKHKSIYLYLHILLHGILAAVLVGEIQFLPY
+AFLIAVSHGVIDLIKLHFQKNTTKRSWFIADQALHLLVLIGVVLLYNGETVHFLWLNNQF
+WILATGFLFITKPTSILIRTIISIWNPESQSSHNENSLSKAGNYIGILERLFVFCFILTG
+HFEAIGFLLAAKSIFRFGDLKEAKDRKLTEYVLIGTLISFGSAITTGLIVQVLLLQLL
+>tr|A0A1S1JC68|A0A1S1JC68_9FLAO
+MKTILLISIFIFSIFIGKTYSQTLNWENLKENQKHILNVNAGWEHSFVYGLAYGYHLKTK
+LPIVVEASFSLPSGETVFDDFKSKIGGQINLYQINHFRFNAAIHGIYRRYENPLVTLQNF
+GADATAIIGYYKPKWFAAGEFGFDKAIATHFKNSAIYKEVYPDVKNGWYEPSTGGNFNYG
+IQAGYSFRRSDLTLRLGKVITQDFKTEPLIPLYFQLGYNLKLE
+>tr|A0A1S1JFX6|A0A1S1JFX6_9FLAO
+MSKSIKIISSEEFPKQFMSDASLDFDFLKSPLQIYDLNTTTEYIQIPTPLFRPDYNFMVH
+VTRGYAKQQVDKEVISINENDVLFVKQGHITAMKEIDQMITGHFILFEESVLNHILSKQE
+LIQIFAANSVLKLPKETSIWLNSLFGLLSQEFRNENSNIEICYSLMQAAFQKILFSNKEL
+NKTIHRNNEITFSFKELVYKYHAENKSVTFYADKLKISVNYLNRCIKQTTGIAPKEWINN
+VSILQSQILLQDLTKDISEIAFALNYEDPSYFGRLFKKITGTTPSQYRNSLKQDLSE
+>tr|A0A1S1J5H2|A0A1S1J5H2_9FLAO
+MSQTVLSLKEVTIYQEGKKILSHINLDVQHGEFIYIIGKTGSGKSSFMKTLYGDLPLTEG
+EGHIVEFDLATLKESEIPYLRRKIGIVFQDFKLLPDRSVKDNMLFVLKATGWSEKEAMEH
+KIDEVLDKVGMKEFLNKMPHQLSGGEQQRVAIARALLNDPEFILADEPTGNLDPQTSSEV
+LEVLKKINANGKTVIMVTHDYALLMKFPSKTLKCEDERIFEVVQRSV
+>tr|A0A1S1J8F3|A0A1S1J8F3_9FLAO
+MDIVMIDFPKIENILGNIAVIEKNTIPFAIKRVYYLYDIPSSSKRGGHSHKKLQQILIAI
+SGSFDVVLKDGETEKTVLLNKPDKGLLITNNIWRELENFSSGAVCLVLASEFFEEDDYIR
+NYDDFLISKK
+>tr|A0A1S1J8R6|A0A1S1J8R6_9FLAO
+MPTIQQLVRTGRTQITKKSKSVALDSCPQRRGVCTRVYTTTPKKPNSAMRKVARVRLTNG
+NEVNAYIPGEGHNLQEHSIVLVRGGRVKDLPGVRYHIVRGALDTSGVAGRTQRRSKYGAK
+RPKEAKK
+>tr|A0A1S1J9X2|A0A1S1J9X2_9FLAO
+MTFGTKLQKLRGEKRMSQKEISTILKVSQTIYGKWESDIFYPTYKNLKKIAALYKISVDR
+LVDVEDKRKAGKILISDNLTADPVSFITIFKLLKRIEKTVLLIERQTEIPEKEGE
+>tr|A0A1S1JAR9|A0A1S1JAR9_9FLAO
+MDDNFSPRVKDVITYSKEEALRLGHDFIGTEHLMLGILRDGNGKAIHILNNLAVDLDHLR
+RKVEILSPANQSVEVNAEKKNLHLTRQAERALKTTFLEAKVFQSSSISTAHLLLCILRNE
+NDPTTKLLNKLKIDYDIAKEQYLNMTPNEEEFLENLPRNESYNDDSGQDDSLKESSFNNP
+ANKSNKKSKTPVLDNFGRDLTEMAEEGKLDPVVGREKEIERVSQILSRRKKNNPLLIGEP
+GVGKSAIAEGLALRIIQKKVSRILFHKRVVTLDLASLVAGTKYRGQFEERMKAVMNELEK
+NDDIILFIDEIHTIVGAGGATGSLDASNMFKPALARGEIQCIGATTLDEYRQYIEKDGAL
+ERRFQKVIVEPTSVEETIAILNNVKDKYEDHHNVTYTQEAIEACVKLTNRYMSERFLPDK
+AIDALDEAGSRVHITNIDVPKQILDLERQLEEVREMKNMVVKKQKYEEAAKLRDDEKRIE
+KDLAVAQEQWEEDSKNNRIEVTEDNVADVVSMMTGIPVNRIAQTESNKLAQLPELIQNKV
+IGQNEAVLKIARSIQRNRAGLKDPNKPIGSFIFLGQTGVGKTQLAKVLAKELFDSEDALI
+RIDMSEYMEKFAISRLVGAPPGYVGYEEGGQLTEKVRRKPYCVVLLDEIEKAHPDVFNMM
+LQVLDDGYLTDSLGRKIDFKNTIIIMTSNVGARQLKDFGQGVGFGTAAKVAQADENSKSI
+IENALKKTFAPEFLNRIDDVIVFNALEKADIDLIIEIELKKLYTRIAELGYTLSLTDKAK
+AFIAEKGFDRQFGARPLKRAIQKYVEDVLAEEIITSKIHSGDEILMDLKDDSQELSVEIH
+KAEEPTNQ
+>tr|A0A1S1JAW7|A0A1S1JAW7_9FLAO
+MYPQEMVKPMEAELTAAGFQDLHSAEAVDNAIKAEGTTLVVVNSVCGCAARNARPGAKMS
+LEGAKKPDHLITVFAGVDKEAVDAARQHMFPFPPSSPSMALFKNGELVHMLERHHIEGRP
+AELIAENLKDAFNEFC
+>tr|A0A1S1J6K7|A0A1S1J6K7_9FLAO
+MIDTLRRRFGLLGRNISYSFSKGYFTEKFSDEVFAGNSYENFDISEINYFTELVKNNPDL
+KGLNVTIPYKEQVIPFLDKLSKKAALIGAVNTIKFTKSGKLKGYNTDYYGFKKSLEPLLE
+LHHKKALILGTGGASKGVAFALDELGILYTFVSREAKDNIIDYNLINATTFDNFQIIINC
+TPVGTIPDTDACPDIPYEFFTDKHIAYDLIYNPAETEFLKRAKEKGAVIKNGYDMLIFQA
+EKAWKIWNK
+>tr|A0A1S1J1A7|A0A1S1J1A7_9FLAO
+MKKIKSKYEIFREKVKIILYGTDTFFGKMFDLVLLGLILLSVILIMMETVQGINQKYHTQ
+LIICEWIITVFFTIEYVLRIISIQKPIRYIFSFYGIIDLMAVLPMYLSIFFPGASVLSII
+RALRFFRLFKILHIPQISHQSIQLREAIEASKEKILVFIYFVLISTIIIGSIMYLVEGKD
+SGFTSIPMSIYWTIVTLTTVGYGDISPQTPLGQFIAAFVMILGYGIIAVPTGIVTAEFAK
+SSLKNSVVSSKKTCKNCKAQVHFDHAQYCFECGTKLPNN
+>tr|A0A1S1J7J4|A0A1S1J7J4_9FLAO
+MKTCLECSEKIVGREDKKFCSDSCRNAYNNKINKDSTNFMRNVNNKLRKNYRILSELNPN
+GKSKATRDKMTNKGFDFDFFTNILQTKTGNTYYFLYDQGYRSLDNDYFMLVKKEI
+>tr|A0A1S1J7Q3|A0A1S1J7Q3_9FLAO
+MQVKRIVTLLLIMICSIQGFAQKDKVILSGVVFANNGKPAEGVSVALKGTPYSTLTNENG
+QYEITAEPGNYILQISYVGFKSKQIKININESNKRLTDVIIEEDTASLDEVKVTVKSKEE
+RAREQAFNVNAIELKKLYNTSADLNQVLNRTSGIRIRETSGLGGDFNFSVNGLSGKQIKF
+FIDGIPMENFGSTMSLNNIPINLAERIEVYKGVVPVSLGADALGGAVNIVTNQNINTFLD
+ASYSYGSFNTHRAALSSRYTSKKSGFTIGVNGFYNFSDNNYIMKNITLSGESTPRNFRRF
+NDGFESTMIQAETGFRNKKWADIFLIGFQYANRYKERQTGADQEIVFGKVHSSGDFILPS
+IKYRKDNFLTNGLSANLYASYAIDKSTNTDTSINKYDWNGEVIDTHPNFGEQGSFQIFKY
+ENKFAIARANFSYKLNDNNVFSFNYNLSNSTRKGINHYNLSNQESNALDVPNKLNKSIAG
+LGWENQAFNNRLSTSVFLKNYRLHTYIREAVFYNSTGYKKEESELTNNYFGYGTALRYKF
+NDNSGIKASFEHTYRIPEVEELLGDGINILANPKLKPESSDNFNLGAYYKFILQNNHSIA
+IEANGFMRKAQDFILLLPGGIFSNYNNVGKVDITGIDTDIKYNYKTFNASFNASYNNSIN
+KDKASSAYLDRLPNQPWLFANGSLGYGKENWLGKDTKIQFDWYSQYIHWFYLTWPSKAFE
+AGKSRIPTQFIQNASISYSLKNGTYNIALDCTNIFNTEAYDNYKLQKAGRGFYIKLRYFI
+K
+>tr|A0A1S1J8U0|A0A1S1J8U0_9FLAO
+MYKPEVPKNEAFRFEALSSYNILDTLPEEEYDSLTKIAAQICDAPIALVTLIDQNRQWFK
+SHHGLDVTETPRDFAFCAHAINTPNELFIIPDASKDQRFHDNPLSINAPNVIFYAGAPLN
+TKDGYSLGTLCVIDSKPREGLTYSQQESLKALANQVISLFELHKKNKFLEDLNDEIMKKN
+IRLSQFAHRLSHDLKVPIRGVNSLLIFIKEDYNTLIKNTEIEAWIDLIYSRNEYMDFLIN
+GILEYTKVSNDQIHFEDFNVESIIQYIVDNGALYVPTYIHYRNCNTIIRHSKIGFVQIIQ
+NLLSNTVKHTDKQECNVWISLTENETSCFFVYEDDGPGIPEEYWEKVFELFETVSSKYEK
+NAGIGLSTIKAIIDRVGGTIYLKNREANKKGACFCFTLPKEYNC
+>tr|A0A1S1JAZ1|A0A1S1JAZ1_9FLAO
+MKTNSTSVTEKVFHFVFVFAASAGLGYALVNQFILDKPNMGLLSVMICLFVASMASWQRK
+KYIKS
+>tr|A0A1S1JBT9|A0A1S1JBT9_9FLAO
+MPIITINNKKVHVQELNKGAEDTVVLIHGMFSNLSIYYFNIAPILAQHFHVVMYDLKSHG
+RSERTLEGYDLENMSSDLIAMMNYLQIKKAQLVGYSFGGLIALQTALIAPERVDQLVVIE
+APDPQDEKARGIIEAYSKEFLEHYIANFTDTTKVKMGKRQFEKNHRLYEFLFHQTSIKAD
+MVKEKDFLYQVLISELRIPTLLLYGSASDCKPTGEWLESQIGTAELKLINGDHNIPIQAP
+IQIAETIVQFLTNPLLQNYG
+>tr|A0A1S1JCV3|A0A1S1JCV3_9FLAO
+MITNQTERLNFASTKNIPDYPDFLDVQVKSFKDFFQLETKSDERGNEGLYNTFMENFPIT
+DTRNNFVLEFLDYFVDPPRYTIQECIERGLTYSVPLKARLKLYCTDPEHEDFETIVQDVY
+LGTIPYMTPSGTFVINGAERVVVSQLHRSPGVFFGQSFHANGTKLYSARVIPFKGSWIEF
+STDINSVMYAYIDRKKKLPVTTLFRAIGFERDKDILEIFDLAEEIKVSKTGIKKYIGRRL
+AARVLNTWHEDFVDEDTGEVVSIERNEIILDRDTIIDKDNVEEIIDSNVKSILLHKEDNN
+QADYAIIHNTLQKDPTNSEKEAVEHIYRQLRNAEPPDEETARGIIDKLFFSDQRYNLGEV
+GRYRMNKKLDLDIPMDKQVLTKEDIITIVKYLIELINSKAEIDDIDHLSNRRVRTVGEQL
+SQQFGVGLARMARTIRERMNVRDNEVFTPIDLINAKTLSSVINSFFGTNQLSQFMDQTNP
+LAEITHKRRLSALGPGGLSRERAGFEVRDVHYTHYGRLCPIETPEGPNIGLISSLGVYAK
+VNGMGFIETPYRKVTNGVVDLESTPIYLSAEEEEGKMIAQANIEMDETGKITASNVIARE
+EGDFPVVEPSVVHYTDVAPNQIASISASLIPFLEHDDANRALMGSNMMRQAVPLIRPEAP
+IVGTGLERQVASDSRVLINAEGDGTVEYVDANIITIKYDRTEDERMVSFDADEKTYNLIK
+FRKTNQGTSINLKPIVRKGDRVVLGQVLSEGYATQNGELALGRNLKVAFMPWKGYNFEDA
+IVISEKVVRDDIFTSIHVDDYSLEVRDTKLGNEELTNDIPNVSEEATKDLDENGMIRIGA
+EVKPGDILIGKITPKGESDPTPEEKLLRAIFGDKAGDVKDASLKASPSLHGVVLDKKLFA
+RAVKDKRKRTQDKDALGALEMEFETKFVELKDRLVEKLFLIVNGKTSQGVMNDLGEEVLP
+KGKKYTQKMLYAVEDFAHLSKGQWVADDATNKMVNDLIHNYKIKLNDLQGSLRREKFTIT
+VGDELPSGILKLAKIYIAKKRKLKVGDKMAGRHGNKGIVARIVRHEDMPFLEDGTPVDIV
+LNPLGVPSRMNIGQIYETVLGWAGMNLGRKFATPIFDGASLDQINALTDEANVPRFGHTY
+LYDGGTGERFAQKATVGVIYMLKLGHMVDDKMHARSIGPYSLITQQPLGGKAQFGGQRFG
+EMEVWALEAYGASSTLREILTVKSDDVIGRAKTYEAIVKGETMPEPGLPESFNVLMHELK
+GLGLDLRLEE
+>tr|A0A1S1JBZ4|A0A1S1JBZ4_9FLAO
+MKLKNIAIGKNAIIGTNVHIGNYTTIENDVIIGDNTWIGNNVNLLDGARIGRNCQIHSNA
+VLSGTPQDLKYKNEYSTLEIGDNNIIREFVTINKGTQSKQKTVIGNHNLIMSNTHIGHDC
+FIGNNCIIGFNVGMAGEVKVGDYANISGLTAIHQFSIIGEHTMISGMSRIVKDIPPYILV
+AREPLSFAGLNTIGLRRRGFKIEKMQELQEIYRIIFQQKRNTSHALDFIEKHMKQTYERD
+KILDFIKNSSRGIVKGNNI
+>tr|A0A1S1IZ58|A0A1S1IZ58_9FLAO
+MARGNFNNQIPLSDYDDEIETLVVLVNMVAEELKESAFHSGFVNPYITHRMITPATFILD
+EKHHIKNVNHGALEILGYNASEVLRRPIQDFLNDDFSGMSDSERKELEEMLLSGEIITLN
+FITIKKLLVTAECSVSRLSDGKFTVLSFVAPFLQVNETASESLQTKSDRHSNFGQTDARM
+LQRVYDYILANLSEPLPSIKELARQFGTNDFKLKDGFRYFFHTSVYKFYTEQRLKRAYLM
+IEQTDIPLKNIAFMNGFNSYPNFSKSFKKQFGFSPKELSRGKAGNLFTLDSLNPS
+>tr|A0A1S1J9L4|A0A1S1J9L4_9FLAO
+MKIVKWGIIGCGNVTEVKSGPAFQKASNSALVAVMRRDAALAEDYAKRHNVPKWYSNAID
+LINDPEVDAVYIATPPSSHKEYTILCAKAGKPVYVEKPMALNFEECNEMISVCKEHNVPL
+FVAYYRRSLPRFLKIKELIEQGKIGTIRHVNCVLYHPFEKRYDDEINLPWTVLPHISGGG
+IFVDLACHTLDFLDFVFGPIKSVRGHASSQLKAYPAEDSVSMSFLFENGIHGTGLWNFAS
+FERYDNTDIVGDKGKISFSTFGNDPIHIQYTNGEKESITIENPLHIQLPLVETVVAEILG
+KDGFSPSKGTSAARTTWVIDEVLKEFRNSR
+>tr|A0A1S1JBA3|A0A1S1JBA3_9FLAO
+MWYLKLILILVFAVVLYQDFKSRLVYWFLYPVVGLLAFAIQLHNVPMIMAAYNLGINLLL
+VSIILGISFLYVRFRKLDFSNSIGIGDLLFFIFISGTFSTVSFIVLFVFALLFSLVLHFI
+LSNKKTDKTVPLAGYMSLFFGGVYAMTFWYNSTFLYAY
+>tr|A0A1S1J2K5|A0A1S1J2K5_9FLAO
+LEQIKNNSGRFEIADAGINSRYSDYGSSFLDNKLVFASARDTGGVAKAKFKWTNKSFTNL
+YSAELNADGSVGIPKRFENKINSKFNESTPVFTKDGLTMYFTRNNFLNGTKGTDDKKVTL
+LKLYKASYIKGKWTNIVELPFNSDQYSVAHPTLSVDEKKLYFASDMPGTFGQSDLYSVTI
+NTDGSFGKPENLGAAINTEGRETFPFISGDNELYFASDGRPGLGGLDVYVSTIKNDLTFS
+EVQNVGAPINTKVDDFGFIIDSKSRTGFFSSNRDGGHGYDDVYRFSETRKLPCEEILSGT
+VIDAETNLVLENAKVNLLDNQLQIIGEVITKADGKYSFKVNCNKEYFVRAARQDYDTNEL
+PKAIDKTSLTLPLKKTPQKVVEKTIEKLIVGDDLAKILHIKMIYFDLGKSIVRKEAAIEL
+EKIRQVMIQNPSMKIDVRSHTDSRQTHAYNEKLSDRRAKATVAWLVKKGIAADRITGKGY
+GETQLLNKCADGVKCTTEEHQANRRSEFIIVSM
+>tr|A0A1S1J318|A0A1S1J318_9FLAO
+MNKLFFRLLVLLMSLSLIGIILVQVYWFNSSFKNNDEQFKYHVTQVIGNVADKLEQQEEY
+SFYDKYNRIKDSTGKTPKKEDLLQVFYIQRNAKTNKTIVYSNTLTSEDYDISGSIFNKKF
+SSERFKNFSSKRVTEVYNNNNNIDNNALGQSIIPDLKIEKSGSLDILNKVQQQIQYKDVA
+SLTPIEGRITKDKLQKLLKKELEEYGVKTKFEYGVLNNGLATKVRSDGFHYDKDASYHVP
+IYTDNEGNSKYELFITFPHKKKFLLSELLSITILSIIFTLIIIVAYTSALNQLLRQKHIS
+EIKTDFINNMTHEFKTPIATINLALDAIKNPKIIEDKEKVYRYLQMIRDENKRMHAQVEN
+VLRISKLEKKELDITKEPTAIHDIIDDAIEHVNLILEDRGGSVAKHFHAARTTCLINEVH
+FTNVLVNILENAIKYSPGTPEIEIFTENVKDMILIKVKDNGLGMSKVAQKRVFEKFYREH
+TGDLHNVKGHGLGLAYVKRIVEDHNGQVYVESEKGKGSTFIIKIPLIN
+>tr|A0A1S1J3U5|A0A1S1J3U5_9FLAO
+MRIIPAIDIIDGKCVRLSKGDYDTKIIYNENPIEVAKSFEAHGIEYLHLVDLDGAKSSKI
+VNYKILEQIATQTSLQIDFGGGLKSDEDLRIAFESGANQITGGSIAVKNKEIFQKWITQY
+GSGKIILGADAKDEKIAVSGWLENSDEDLIPFIQEYQNKGIQYVICTDIAKDGMLEGPSF
+DLYRKILKNCNAKSSGVEIKLIASGGISTFDELPKLAELGCEGTIIGKAIYEGRISLKQL
+ENFIIRK
+>tr|A0A1S1J5Z2|A0A1S1J5Z2_9FLAO
+MDITLQIKEINGNTNFKQVTLKISNTVEGDFFDMSGNYLGSTKRSKKEIYILGRDFIKNP
+YSRTNLPKGFYDKQVSFDGRGNIVNIKVGGQYGTIITDLSMENKLKIAEKIFNHYYTEAG
+FSLNELKYKTITNADDLDRHLDKAEIQRRNSKYTEARRFQLEGTGFAITRIGGYTDYSEY
+LKKFEGEISICYSHLGSNFDTGYDIMSICAHEHKHLEDCIKDLKNNTTINSENRAYTHQT
+LVDKNWPFVSFRFKAGMYFNTPASSNMYKDDFKKAFGKHDDYQEFIEYVPGKNITL
+>tr|A0A1S1J6M0|A0A1S1J6M0_9FLAO
+MEKFTLEILFQIIGIGSASGLFFTDNSLYLVGDNSGFLYEYNMQNQQLNEHPLIDNPTKN
+IAKNLKPDFESLTNHNDTLYVFGSGSTENRNKMIAFDLKKKTILQKNNLVDLYALMQSFG
+EIKPEDFNLEGSIFDGENWYLFNRGNGISNKNTIFTIHAKSLGEEFALVATNYKLPKIKG
+VRSSFTDAILVEDKIYFLSTAEDTKSTYDDGEILGSFIGRIDLKTMKVDFTQKITTTHKF
+EGLTFYKKENNTIEFLLCEDNDTELLETKIFKLSLPVK
+>tr|A0A1S1J827|A0A1S1J827_9FLAO
+MIFLKTIKIETLSDLKNALQTAIELEHSTIPPYLTANFTLFETGNDQISNLIGSVVREEM
+LHLSIACNILNAVGGSPVINKPGFIPLYPGPLPGSVVDGLQVPLKKFSLDLVKDVFMSIE
+EPEDPIDIHNRLMVSNVITIGVFYTRIKEIIVELEAAAKAEGKTIFVGNPNYQMTFEKFY
+DASLLFPIVDEATALRGIDIIIDQGEGTTTDPFVSSADDGNVPELAHYYRFEEIYKGKTI
+QADPEGGYMFGDPLIPFNPELVPNMWPNPKMNDYPKDSQAYINSKFFNYNYTSLLNSLHE
+TFNGEPEKISTAMGVMYSLRLYALKLLAIPDPNHPGFVAGPSFEYVVGE
+>tr|A0A1S1J9H8|A0A1S1J9H8_9FLAO
+MKKAIYYMSLMLVITQMQAQKDFQGMAVYESKTQAPKMGEIRANREITPEMQKNMEERMK
+KMLEKTFVLNFDKSASIYKEEEKLETPGQQGGGMRVMVNSFMGGGGTFYKDVKAKTYTVD
+KEFMGKEFLVIDSLPKLNWKMESETKQIGGYTCYKATAVKEASKTDFRNLRPKNKEEKKD
+DSGKTSGETKTNFADNFEMPKEIIITAWYSPEIPVNQGPENYWGLPGLILEVNDGRTTIL
+CSKIVLNAKDKIEIKPSKKGKVISQKDYDETVIKKMEELREMNRGREGGPGGGPVLIRR
+>tr|A0A1S1JA08|A0A1S1JA08_9FLAO
+MTTIASQFGMNEALEKLGIKSINEGTSTGLENFSSGEILNSFSPVDGKLIASVKMSTPED
+YEKVMQAATEAFKSFRLIPAPQRGEIVRQFGQKLRDNKEALGKLVSYEMGKSLQEGYGEV
+QEMIDICDFAVGLSRQLHGLTMHSERPGHRMYEQYHSLGVVGIISAFNFPVAVWSWNTAL
+AWISGDVCVWKPSEKTPLCGIACQNIIAQVIKENNLPEGISCLINGDYKIGELMTADTRI
+PLVSATGSTRMGKIVAQAVAGRLGKSLLELGGNNAIIVTPDADIKMTVIGAVFGAVGTAG
+QRCTSTRRLIIHESIYDKVKDALVAAYKQLRIGNPLDENNHVGPLIDTHAVEQYAKALNK
+VVAEGGKILVEGGVLSGEGYESGCYVKPAIAEAQNSFEIVQHETFAPVLYLIKYSGEVDN
+AIDFQNGVAQGLSSAIMTNNLREAERFLSVVGSDCGIANVNIGTSGAEIGGAFGGEKETG
+GGRESGSDAWKIYMRRQTNTINYTTSLPLAQGIKFDL
+>tr|A0A1S1JFD6|A0A1S1JFD6_9FLAO
+MRKFIYAFVLSVSFSLVSFSQEAVEKSAPPAGNAVVGDHYGADVSKISESKAITVEKLKN
+DLKTTDKAENISVKGVVTDVCPKKGCWVTVKTEDGSSFFVKMKDYAFFVPTALKGKNVVL
+EGTAEKKITSVDELKHYAKDAKKSKAEIDAINKPKEEIRFMADGIKVVN
+>tr|A0A1S1J2X7|A0A1S1J2X7_9FLAO
+MNPLSIEKRNLVLRAMAQLVKQERNQIILTNQEDLADYNGSDLAMEERLKVDDKKVDEMI
+LSLNQLASQEDPVGVERFHFVHDNGIKVINKTAAFGTILIIYESRPDVTIEAGGIAFKSG
+NKILLKGGKEALKSNLKIVDLWHQALKKNGVSKDWVEYLNYNRTETQAFLEKPTQKVDLI
+VPRGGEKLIEFVKAHASCPVIVSGRGNNFVYVHEKADTDLALKIIINAKTSKISACNAVD
+KVLIDSKLPNFEGFTAILIEELKQYKVEVIVDESLKSFEDTTTLQNEDIWYEEFLDYKIV
+IGSIDSEENAIEKINKYCGGHSAVIITRDNKAAQEFMDAVDTAAVYQNASTRFTDGGQFG
+LGGELAISTDKLHQRGPIGLQHLVTNKWYVYGEGQIR
+>tr|A0A1S1J4N3|A0A1S1J4N3_9FLAO
+MSKMKRFNYYQVHKNKKPKRIKKPQHKVSHIPLIAIILANTAINVAIIQSSPFLDLVSKR
+IKILSNVIESAAAIIDVYDKIKDQNPRKLYYSYERELSSKLFKQVIEKS
+>tr|A0A1S1J5L2|A0A1S1J5L2_9FLAO
+MKLPFIEIIEATTSDPNLLMWKFYDEDKEIKNGAKLTVRESQHVMLLNEGQLADVFSPGL
+YTLSTENIPVLSKLKGWKYGFESPFKVDVYFFNTHQFINNKWGTPAPILLNDPQFGQIRI
+RAFGSFDLKIADVAKFFRQYAGTYSQLTIFELQNQLRDFVAPKFGEVLANENITVTDIAG
+NITQLGKKIEPYLKPYFEQFGIELTQFVITSVTLPEEVTAHYDKITNMNMVTDMDKFTKF
+NTATAIGDKGTALHEATQNALSMGILLNQLQQNKETSKEEIKDDLTSKLQKLKSLFDAGL
+IDEEEFKSKKTELLSQL
+>tr|A0A1S1J5R6|A0A1S1J5R6_9FLAO
+MTIQNLKSQNLILFEVISGSRSFGLNTPTSDTDIKGVYYLPKEKFFGLDYIPQVSNETND
+EVYYEIGRFVELLLKNNPNILEILASPEDCILYKHPLMERLQLGDFLSKLCKDSFAGYAV
+TQIKKARGLNKKIVNPMPKEKKNLLDFCYVLNGYETVSLLAFLKENNWNQEQIGLVNLPN
+SKGMFAMFYDENKTLGYKGIIQKETSNEVSLSSIPKDEKLIGYLSCNQDGYSKYCKEYTE
+YWNWIEKRNEDRYNTNQQHGKNYDSKNMMHTIRLLQTAEQILSSGKLNIRVSNRDELLDI
+KAGNKEYDDLLEMADNLIASIESHYVTSNLPDKPDEEKAVQTLIKIREELYK
+>tr|A0A1S1J693|A0A1S1J693_9FLAO
+MAKATAKKRKVIVESTGEAHISATFNNIIISLTNKKGEVISWSSAGKMGFRGSKKNTPYA
+AQMAAEDCSKVALEAGLKKVKVYVKGPGNGRESAIRSIHNGGIEVTEIIDVTPMPHNGCR
+PPKRRRV
+>tr|A0A1S1J9X5|A0A1S1J9X5_9FLAO
+MGQFRRQMYEEYSHEFSTDESFNLAYKKVKRIKGFYSHLRVYILVNIIIIVSSLNQSYIG
+DHFVIRGFRDWEIYSTAFFWGIALVIHGISVFGPDVFFNRDWEQKKIQKIMKKEAENKNK
+WK
+>tr|A0A1S1J9Y9|A0A1S1J9Y9_9FLAO
+MKKLPVTVLSGFLGAGKTTLLNHILHNKENLKVAVIVNDMSEVNIDAQLVKKEYTLSRTE
+EKLVEMTNGCICCTLREDLMLEVEKLAKENRFDYLLIESTGISEPIPVAQTFSFVNEEEN
+IDLSRFSYIDTMVTVVDSFNFFKDFGSAKTLREQNLSDLENDNRTIVNLLVDQVEFANVI
+ILNKTDLVSIRSLEFLRTSIQKLNPVAKIITSVSGKIDPNEIMNTGLFNYEEAENSAGWI
+RELEGIHTPETEEYGISSFVFRDPRPFHPNRLWNFFTSDFPASIIRSKGLLWMASRPEQA
+INWSQAGGSMKAEGAGVWWASMPLSERMTFNNFVEFQDIIEERWTSNFGDRLNELVFIGQ
+KIKETEILNELEKCLCTPDEIVDYQDGFFPKKDLFPIPRTS
+>tr|A0A1S1JCB7|A0A1S1JCB7_9FLAO
+MKFRIRVLLFFLIVSAYSYSQEGIPVYSDYLSDNYYLIHPSMAGAANCAKIRLTARKQWF
+GQEDAPSLQTLTFNGRIGERSGAGIIIFNDKNGYHSQKGLKLTYAHHILFSRDELDLNQL
+SFGISGGVIQSQLDETKFGTTFDPIVFGSIQKDSYFNLDIGASYNYLDFYAHATVQGVLE
+TRRELYTEYESNNLRKFLLSAGYVFGKRSKITWEPSVMFQVFDKTKEKTIDLNLKAYKNM
+DFGSLWAALSYRKGFNGTQYSSSSGVAAQKLQYITPIVGVNYKNFMFAYTYSQVTGDVKF
+DTGGYHQITLGINLFCKKERYDCNCPAIN
+>tr|A0A1S1IYR0|A0A1S1IYR0_9FLAO
+MKNYLLFLLFIILGSPVYAADSTDSIIDKLNEALKNKAHYVRLREERILNFKKIKSDDLT
+KEQEYDYNQSLYSQYLKFNSDSAILYVRKNLKIASELQNADLLNLANLQLVTLYSSSGKY
+RESEAILKSIPKKELPKKLLPNYYSAYREFLEHYAANSDDVKYIEQINKYRDSLLTVLDP
+STLNFRITRIEKEMSEKKFAAAEKKLLDLLKKAKDDHPQYAMITYLLASIYKETKQLELQ
+KKYYALSATADLKTANKDNASLQELALFFYEANDVDMAYKLTQSAIEDALYCNVQFRTLL
+MSEVYSIINTVYLEKEAKRKTELQLYLLCISLLSAFLVVAVIYVYKQMKKVSRIRTELYN
+TSQKLAELNKDITETNNQLQERNAQLSESNHVKEEYIAHFFSLCSAYINKLENYRITLNK
+KATAKQFDEIYKVLKSTTLVDNELEELYKNFDIIFLNLYPTFVKDFNALLIPEEQIVLKQ
+GELMNTELRIFALIRLGITDSVKIAAFLRYSLSTIYNYRTRARNKAAVSRNDFEEMVTKI
+GLISVKL
+>tr|A0A1S1J1I1|A0A1S1J1I1_9FLAO
+MKKQDQIRFYRRQLESSKEMQALAMQNYNIAAQIESEATSALEVLGASLERTRKGEHKLS
+DKARISLLGSLTK
+>tr|A0A1S1J5Z0|A0A1S1J5Z0_9FLAO
+MNTTKASIIAIGGYVPETVLSNTDLEKRIDTTDEWITSRTGIKERRILDDPTLATSDMAS
+FAIKDLIKNYDINPLDIDCLILATSTPDHILTPAASLVCEKAGLKSAWGFDLNAACSGFL
+YALSVGASFIESGRYKNVIVVGADKMSSIVNYEDRNSCILFGDGAGAVLLQPTTDGRGIH
+QNIFRTDGTGAEFLSVRAGGSLLATTEETIQNKQHFVHQEGRTVFKHAVRNMSGTSKELM
+EKASLTPDMVDWVIPHQANLRIIQAVSEEVGIPIEKFKVNIQRYGNTTAATIPLCLWDFK
+NDFKKGDNLVITAFGAGFSWGSMYIKW
+>tr|A0A1S1JAY1|A0A1S1JAY1_9FLAO
+MKIGLYFGTYNPIHVGHLIIANHMAEFADLDQIWMVVTPHNPLKKKSTLLDDHQRLQMVY
+LATEDYPKIRPSDIEFKLPQPSYTVNTLVHLHEKYPTHDFSLIMGEDNLKTLHKWKNYEV
+LLADYDIYVYPRISEEEENIELKSHPKVHIIDAPIVEISSTFIRNSIKEGKNIQPLLPPK
+VWEYIDHNNFYKK
+>tr|A0A1S1J560|A0A1S1J560_9FLAO
+MGVRKRETADARKEANKSIAFAKLNNCPTSPRKMRLVADLVRGQKVERALNILRFSSKEA
+SRKLEKLLLSAINNWEQKNSEGNLEEAGLFVKEIRVDGGMMLKRLRPAPQGRAHRIRKRS
+NHVTIVLGAINNTQSNS
+>tr|A0A1S1JAT5|A0A1S1JAT5_9FLAO
+MVISRQIHQLLKFKATLWKLTSERKTILIRDSFCDQKQIFQKPIAIRIFSLGIVYNEILK
+LTTF
+>tr|A0A1S1J9U1|A0A1S1J9U1_9FLAO
+MSDSNVNMVAPPEGVTGEGFFATKLNDVVGLARANSLWPLPFATSCCGIEFMATMASHYD
+LARFGSERVSFSPRQADMLLVMGTISKKMAPILRQVYEQMSEPRWVIAVGACASSGGIFD
+TYSVLQGIDKVIPVDVYVPGCPPRPEQIVDGVMKLQELVKSESVRRRSSPEYQELLASYN
+IT
+>tr|A0A1S1J9E5|A0A1S1J9E5_9FLAO
+MSHEVHIYTDGAAKGNPGNGGYGVVMELVGTPHKKEFYEGFRLTTNNRMELLAVIVGLEK
+LKKPNMKVLVVSDSKYVIDSVVKKWVFGWEKKNYAGKKNPDLWKRFLIIYRKHQVDFKWI
+KGHNNHPQNERCDELAVMASMQKKLSVDVYYETIGSKS
+>tr|A0A1S1JBT8|A0A1S1JBT8_9FLAO
+MTKLSVNINKIATLRNARGGNVPDLLKVATDIQNFGSQGITIHPRPDERHIRYQDARDLK
+AIVYTEYNIEGNPQHNFIDLVLECKPTQVTLVPDAIGAITSSAGWDTVANQSYLTEVIQE
+FQRNGIRTSIFVDPVLEVIEGAKKTGTDRIELYTEAFAHQYGLGNKNGIDPYVEAAKLAN
+ELDLGINAGHDLSLDNIQFFKQNIPGLLEVSIGHALISEALYLGLDNVVNMYLNKLK
+>tr|A0A1S1J6D9|A0A1S1J6D9_9FLAO
+MEKPKQKYTLEFKLKVVELSNRYYSIIRAAKEVNTSPENIRRWKVQLQDGILGKKKKQAA
+PNRLLQLKILRKELTKVQMERDILRKAAHILSGDTITKFKFIKQHRDHYPIANTCQILEV
+SKISYYYWDNRKSAKRTLLVLINIVKLVNLF
+>tr|A0A1S1J228|A0A1S1J228_9FLAO
+MKKLSLLLIFPAMLVAQEKTVAPKQQGKYDTNKFSQMYDLLATPNMFRTASGAPGPAYYQ
+QQADYKIDIELDDKKSRIDGSEVITYSNNSPDVLEYLWIQLDQNQARAKTQTSLAESEKI
+SPVLPLDGFSSKYLKKDLERGFNIEQVKDIKGNPMSYTINETMMRINLATPLKPGEKISL
+AIKWWYNVNNYRKEGGGRSGYESFDKDGNKLYVIAQFYPRMAVYNDVEGWQNMQFWGSGE
+FALPFGNFDVNITVPADHIIDATGELTNRAEVFTPEQVKRYEQAQKSFDKPVVIVTQAEA
+EAAEKGFSEKKKTWRFSAKNVRDFGIASSRKFIYDAMAVKIGNRVVMAESVYPKESNPLW
+GETSTMVVAHTLKSYSAHTFDYPYPKAVSVSAEDQGMEYPMICWNYGRPDENGVTSKEVK
+NGMIGVVIHEVGHTFFPMIVNSDERQWSWMDEGLNSFLQYMAEQELDSNFPSRRGPAKNI
+VPYMSGDQKFLEPIMSNSETIHQFGNNAYGKPATGLNILREVVMGRELFDYAFKTYANRW
+KFKHPTPEDFFRTMEDASAVDLDWFFRGWFYSTDFVDIGIKEVKQYYVSETPTADIKDIK
+VKKGRFGFEKGPFVYLVAGDNAEVNASTKKPLKVEEVKLLSDYVSQTFTAEEKASLKSPK
+YFYEVEFSKPGGMIMPILVEITYEDGTKENYQYPAQIWRKNNDTAKKVYATEKAIKSIQI
+DPKLMTADIDVTNNSWPKVEEKSKFD
+>tr|A0A1S1J402|A0A1S1J402_9FLAO
+MTLLIIIIVLALIFDYINGFHDAANAIATVVATKVLTPFQAVLWAAFFNFLAYWVFGFGV
+ADTVAKTAHTMEINLVVILAGVIAAICWNLLTWWLGIPSSSSHTLIGGFAGAAIAHAIAV
+HGFSGYVGEDGTTHYWYEIVSWYKAGKEGAMPSGVLIIIAFIVLAPLLGALASYLISIWL
+LNASRKSIGPKIFTVALMIATIWMVSSLMIPYSEIVEHGKPRFESHFWSVAFDPHNIKWF
+LVAFIILTVSLFCLIFSSLNLHQADAALKKMQLLSSAAFSLGHGGNDSQKVMGIIAAAVA
+VYINTNPGVHMDSWLDVVLPNDDLGVKGVMPGWIPLACYSAIAAGTLSGGWKIVKTMGSK
+ITKVSSFEGVAAETAGALTLYFTEHLKIPVSTTHTITGSIIGVGLTKRVSAVRWGVTVSL
+IWAWILTIPISAILAGLVYFVLSVFIK
+>tr|A0A1S1J4H0|A0A1S1J4H0_9FLAO
+MSKIETAIHIEKRSSIIPMIILTALFFILGFVTWLNGPLIPFFELACELSSSQAYFVTFA
+FYIAYFVMAVPSSWVIEKVGYKNGISLGLLIIAAGAFMFYPAAESRTFLLFLIALFVMGT
+GLAILQTASNPYVVVIGPRESAAARISVLGIANKLAGFVAPLILTALVLSNMQEFTADKI
+AVLDAVSKTNALNSLALQLQRPYLYMGLIIMVLALLVKLSPLPEIDLDEEGNVAHLSIFK
+QIRNAFRRPQLVLGVITLMLYLAAEVLAGDSIGGFGKQLGVYGTEGNFYLKLTSFTMSAM
+VVGYILGITLIPKYLSQVTALKGSGVLGVILVLAIVLISPKIMIQLPGIPNLPVVILLVA
+LLGLANALCWPAIWPMALEDLGGYTKIGSAILIMGIIGGAIFPLFYGMITENINAANTAN
+GTVGVSKSGNQIAYLMLLPSYLMILFYAVKGHKYRKW
+>tr|A0A1S1J5G0|A0A1S1J5G0_9FLAO
+MASGFFVLLDDIAAIMDDVAVMSKVAAKKTAGILGDDLAVNAEKASGFASSRELPVLWAI
+SKGSLLNKVIILPIAFVLSAFLPVAIIIILVLGGLFLAYEGAEKIYEFIFPHQHEESEGI
+TDETFTEEEILEAEKGKIKSAIVTDFILSVEIVIIALGTVIGQPLSQQIIVTSIIALVAT
+VGVYGIVALIVRMDEAGYKLIKFSKKEKSISKFIGNILVKALPLVIKSLTVIGTIALILV
+AGGIFVHYIPFLHHLMEEINVPSIIKEFVTGLVLGFVVLAVISLFKKIFGKKEAA
+>tr|A0A1S1J982|A0A1S1J982_9FLAO
+MKKIVVLLLLVLSTQGYSQFAKSMFSKDPIINLENWQKQRLYFGYYLGFNSFDFKFDYKS
+PGPDVQTKKTTGFNVGVVADLRLQEYINLRFEPGLYYTKRDLYYPNLPLQKDYLREVNST
+YIHFPLLLKFSALRTGNIRPYLVGGMSSTLNLSSNAKSKDDNFEGKFRVKQWTAAYELGF
+GIDIFSEYFIFSPSIRGMFGISDELIRDNPANGPSPWTDNIDSMKSRAILINFTFH
+>tr|A0A1S1J9T2|A0A1S1J9T2_9FLAO
+MNVLNKKHFLTVKDHSVSQEIFDLYYDETLDMLITSPQPALENLGKYYESEDYISHTDNK
+RSLFEKAYHFVKSIALKNKLNLINGEQSQKGRILDIGAGTGDFLLTAKNDGWETVGVEPS
+ERAKNIAIEKGISFVNGIDALENNSFDVITMWHVLEHVPNLELQIQELKRLLKPTGTLIV
+AVPNFKSFDAKYYNEFWAAYDVPIHFWHFSKKAIQSLFGKVDMKLEKVLPMKFDSFYVSL
+LSEKYKTGKMNFIKAFFIGLRSNLKASGTKEYSSHIYVLKNS
+>tr|A0A1S1JBE2|A0A1S1JBE2_9FLAO
+MKRENILTGSPWEDKMGYCRAVRIGNIIEVSGTVAIVDDEKVKANDAYAQTYNILERVEK
+VLEDLNVGMKDVIRTRIFTTDISTFEEVARAHSSFFKDVKPTTGFYEISKLVAPEYLVEI
+EFTAVVQ
+>tr|A0A1S1IYT0|A0A1S1IYT0_9FLAO
+MKRFKLKSVFVVLFLAIGLVSCSNDNDAPSIPESITKVALVTEVKGPATGKVNEELSYDV
+TFLVANACGEFSKISEVTIGGVKGLQVEAKYPTGPCTMQVPDPKKTVYKFKSATKGTFEI
+KFKKSETEFITTKVVIE
+>tr|A0A1S1JBR8|A0A1S1JBR8_9FLAO
+MLRVFLEDINLGDCKSLKQVLCSGEALQVDQVLLFKEKFRNVRLDNLYGPTEAAIEVSSW
+EVPLEDVLSQVLIGKPVANTSLYVLDHQNQLVPIGVIGELCIGGVQVARGYLNKEELTKE
+KFIANLFKEGERIYKTGDLARWLPDGNIEYIGRKDDQVKIRGYRIELGEIENALSSLAGV
+NQCCVLAKEDTAGNKRLVGYVVLEEALDKERLQNQLKLSLPEYMVPQLWVALDTMPLSGS
+GKLDKKSLPDPDFSGLSSKEYVAPRNETEEQLAAIWQNLLGVEQIGIYDNFFELGGHSLL
+ATRLVSMIRKALMIEVSIREVFEHATISDLAAHIAAQSEGVLLPGIVAEEHPARIPLSFS
+QERLWFLDQLQGSTEYHVPIVLRLEGALDVSILEQTLHCIVSRHEVLRSMLLSEEGIGYQ
+QIISAEGWSLDQLAISDVTLLENSLDRYLAQPFNLSKDYKLRSCLYDLGNEQYVLACVLH
+HIASDGWSEGILVNEFIELYNAMTQGRNPNLPTLPIQYTDYAIWQRKYISGEVLETQLSY
+WDDQLQGVLPLLLPTDYVRPSIQSRSGGSMSFHINQEEKVALDSICKSEGVTMFMLLLSA
+FKVLLYKYSGQEDICVGTPIANRTQAELEGVIGFFINNLTIRTRIDSQSSFKDLLVQVKE
+TTLSAYNNQSAPFEKIVDRVMTTRDTSMSPLFQVKFLLDNTPRSTEAFLDQITIDSYERD
+HISSILDISFNAVETEKEILFNIEYCTDLFKSDTIQSMIIHFEEIISSIIKNLNEPISKL
+EMLSIEEKHQILYEFNNTQVAYPKDKTLVDLFEEQVKRTPNNIAVAFEDEVLTYKELNEQ
+SDCLAYYLKNTGQLESEDIVGVMIDRNIWSIVSMLGIMKSGACYLPIDKDYPDTRKSFII
+EDANVKLLIIDSESLFEVMDYNTKIFSIDIEFEKISKEVTEVDSKTSNVKSSDLAYVIYT
+SGSTGNPKGVMIEHGSIVNTIVSQINAFSVTEVDSCLQFASHSFDASISEIFISLLSGSQ
+LYIIEEGNKLDVSYFVDYVAKNQISIATLPPAFLTLLDCNQISGIKTLITAGEQAPLKQA
+KLFAKTGKYINAYGPTEASICATIFSGDMGTTVPIGTPIANTQIYILDDSQNTVPIGVIG
+ELCISGAGIARGYLNRDDLTREKFIKNPFIEGERLYKTGDLAQWLPDGNIEYIGRKDDQV
+KIRGYRIELGEIENVLFSLAGITQCCVLAREGANDSKRLVGYVVSEGDFDKQSIQESLKS
+KLPDYMVPQLWVALDSFPLTTNGKVDKKVLPDPDSSDLSGKEYIAPRNETEAQLAEIWQN
+LLDVERVGVYDNFFELGGHSLLAIRMISMIRKVFEVEMSIYEVFEYQSIFEISVLLLSRD
+KQLLLPTIVAQERGVRIPLSFSQERLWFLDQLQGSTEYHIPIVLSLEGALEISLLEQTLH
+GIVSRHEVLRSMLLSEEGIAYQQIISAEGWSLDTEIISDELVLKNQIADYINQPFDLSKD
+YKLRACLYTLGNQKYVLACVFHHIASDGWSDGILIREFMELYSALQSNSTANLPTLHLQY
+ADYAIWQRNYLEGAVLEDQLSYWESKLSGVSTLSLPTDYPRPSVPSNAGAAVSLVLDQKL
+SASLNAICKEEGVTLFMLLLSAFKILLSRYSGQEDICVGTPIANRTQAELEGMIGFFVNT
+LALRSDLSGDPSFSNLLARVKQTTLEGYDHQLTPFEKVVDRVVTSRDRSMSPLFQVMFVL
+QNEGDNQAQKESELHDIIISEYEFDTVSSKFDLTFSASENNNGISLAVNYCTALFDKATI
+ESMLLHYQELLQSIVGNIKQPISTLSMLSQAEEHQLLNVFNNTEAAYPSDKTIVDLFEEQ
+VKQTPTAVAVVYEDEKLTYEELDQRSNQLAYYLREQGVKPDALVGICLERSLEMLIGILG
+ILKSGGAYVPIDPEYPTDRIAYMLKDAGIDLVVSSQTSCNVINRDEELSVLCLDKDWDLI
+SGYPTTALSTVLTASNLAYVIYTSGSTGTPKGVMNEHSGIVNRLLWTQSHYQLKSDDAIL
+QKTSFSFDVSVWEFLWAISCGARLVFAKPEGHKDVEYLKQIIEKENITTIHFVPSMLRVF
+LEDINLGDCKSLKQVLCSGEALQVDQVLLFKEKFRNVRLDNLYGPTEAAIDVSSWEVPLE
+DVLSQVLIGKPVANTSLYVLDHQNQLVPIGVIGELCIGGAQVARGYLNKEELTKEKFIAN
+PFKEGERIYKTGDLARWLPDGNIEYIGRKDDQVKIRGYRIELGEIENALSSLAGVNQCCV
+LAKEDTAGNKRLVGYVVLEGELNKETLQNQLKLSLPEYMVPQLWVTLEKMPLTSNGKLDK
+KALPDPDGSDLSSTEYVAPRNETETKLAAIWQNLLGVEQIGIYDNFFELGGHSLLATRLV
+SMIRKALMIEVSIREVFEHATIVELASLIEFFEQDFNEDHEDSENYNVTIEI
+>tr|A0A1S1J3W4|A0A1S1J3W4_9FLAO
+MNAQNTVEIISFSTDLKEHIKILNLEWLKKYFKVEEKDELVLSNPQEEIIDKGGLIFYAR
+YNGEIIGTVSLMKVDNTTFELSKMAVSDQAQGLGVGNKLLTHCMAVAKENNIKKLFLYSN
+RILLPALHLYQKFGFTEVPLGDVTYERADIKMEKILL
+>tr|A0A1S1IXQ8|A0A1S1IXQ8_9FLAO
+MNSALFYGVLQKKFPFAPTYKQDIFFQKIAIFLTEPANDTIFVLKGYAGTGKTTVISTIV
+NNLGDINKKFVLLAPTGRAAKVIASYSNTPAFTIHKKIYFPKKSSGGGVAFTKQLNKHKN
+TIFIVDEASMISDNNSDSKLYDNGSLLDDLITYVYSGTNCKMILLGDTAQLPPVNMDISP
+ALDTHTLGIHYGKEVEHIELDEVMRQEESSGILFNATELRELLKESFITEFRFNVRGFKD
+IVRLTDGYDIQDAINMAYSNYSIEDTAFIVRSNKRANQYNEQIRTRILFKESELSAGDFL
+MVVKNNYFWLKETDEAGFIANGDIIEVLELFGIKELYGFNFAKVKIRMVDYPDQKPFETV
+LILDTIKSESPSLTYEESNRLYEEVMKDYESESTKYKKFQKVKENEYFNGLQVKFSYAIT
+CHKSQGGQWNTVFIEQPYLPNGIDRDYIRWLYTAMTRAKNKLYLIGFKDESFEE
+>tr|A0A1S1J165|A0A1S1J165_9FLAO
+MALLKKINKKAQPDINSGFGSNANSYGSRFVNKNGTPNVEKRGMHLLRRISWYHTMIDMP
+NWKFMLILFSFYIGINFIFALAYYAIGIENLNGIKQSEGILIQFGQAYFFSAQTFTTVGY
+GHISPTGFLTSALSAAEALIGLLSFAIATGLFFGRFSKPTAFLKFADHALISPYQDKRGL
+MVRLVPFKNTNFTDATARMTLGLSLEENGQKTNKFYSLDLELERINALSLSWTLVHPITE
+SSPLYNFTEEDFKKLHGEILVFITTFDDMYSNTVAARTSYTFDEVIYGAKFETMYNRSKD
+GSKTILHLDKLNHYQSVNLS
+>tr|A0A1S1J417|A0A1S1J417_9FLAO
+MNRVLLVEDDPRVASFITRGLEEHLYEVKTIAKGFEAIKEVMENEYNIIILDIMLPDITG
+FEVCEVLRSRKIIVPILILSALDTPQEKVKGLQSGADDYLAKPFLFEELLARINAQLRRA
+EFSTGILDFQSYAGIEINMKEQSATRDGKELNLSSRELKLLIFFMKNRETALSRVSIAQA
+VWNIDFDSTSNTVDVYINYLRNKIDKNFPTPLIHTIKGTGYMLKQKG
+>tr|A0A1S1J5T4|A0A1S1J5T4_9FLAO
+MFSKKSIFTFLQAQVAAFLGGITDYGLMILLTEVFQLHFAFSILISGTVGAVINFSINRF
+WVFKNQSGYSSRINGQLFKFALVVLGSISLKSFGTLIFQKVFQIDYRIGRLITDSFVSYG
+FNYPLIKYWVFRANKKQNIAESN
+>tr|A0A1S1J8U4|A0A1S1J8U4_9FLAO
+MATFNTTVSISPEDVKILKAEGYSLYGFKSVAASGDGSPTVWFHLPAEKLLTSTKITWQE
+QFQAYNSTSTVAPQVVIEASNTIDTDLGEKITIEKGSGNIEATSDGYPGTVSFLNEDTQR
+FTVGINQLVNGKSNILCAFPILGAGSARVITPITKIALIFSTEKIETATVITKAMSAGAF
+IDLTGTDSRVVNYNIDEGWSAKGGNWLKNFNAYTDLKKLLIENTSAREKALSERSK
+>tr|A0A1S1J9Q2|A0A1S1J9Q2_9FLAO
+MEIGIIILCLILSAFFSGMEIAFISSNKIYLEIEKKQDNFASQILTKLTGNPSKFIAAML
+IGNNLALVVYAFYMGDLILKWIISSGGHFSNLASLLIQTAISTFVVLVTAEFFPKVFFQI
+YANSLIKIFAIPAYLFYRLFYYFSTFFIWISDFILRKFFKTEGDQVQLYFSKVELGNYIA
+EQMNAVEDDEEVDSEIQIFQNALEFSGVKARDIMTPRTEIVDIDLFDSVTDLKELFVETG
+YSKIIVSQNSLDDIVGYVHSFDLFKKPKTIKSVLMTVEFVPETILIKDVLNLLIKKRKNV
+AVVLDEYGGTSGIITIEDIVEELFGEIEDEHDLDEELMEQELGEGKYLFSTRLDVEYLNE
+TYKLAIPEEDSYGTLGGFIVNSTKEIPQKGEEIRIGNYHFVIEEATNKKIELVKLTIKE
+>tr|A0A1S1J8J1|A0A1S1J8J1_9FLAO
+MKKAFVIIIVLFSIFSCNKTAEKVETKITKPKTKKVEFGFNYADFNVIHDTIKKGDSFGS
+ILQSQNIGDKKVYDVVKQIKDSFNVRTIRYNKPYTILRSKNKTNKLQVFIYQPDPLTYYV
+IDLRDSIAKASKKIKPVTLKRKIIGGVLKSSLSETLGNESVEAALASRITKVFSWSIDFF
+KLKKGDRYGLIFTERFINGKTYDGVEDLEAAFFEYKGKIIYAFPFEKDTTSGKIEYYDDQ
+GKTLKNFFLKTPIKFSRITSRFTANRFHPVQHTWKAHKGTDYAAPTGTPISSTASGIVEA
+TGYTAGNGNFVKVKHNGTYSTQYLHMSRILVRRGQRVTQGQTIGLVGSTGLATGPHVCYR
+FWKNGVQVDALRLNLPTGESLTGNYKTRFFQQIEPLKRELDSIGNL
+>tr|A0A1S1J9Y1|A0A1S1J9Y1_9FLAO
+MNDTKLIDIASALGISVTTVSKALKGYTDISKSTRARVIEMAETMNYMPNSVAVNLRTNE
+TKTIGVIIPATVHHFFSSVLNGILEEAEKRGYLVIILQSNEKYELEKKQLALLIQKRVDG
+VLMSLSNETDDFTHINEAIRKNTPVVLFDKIAKRVDCSKVVINDAKAAFDAVSYLINKGF
+KKIAHFRGSYVPQNSIDRFLGYKRALEAHGIEYDSKLVYVCDNNTDFEDGYENAQKIMTE
+HPDIDAIFAITDLVAIGIIKYFNEAGIKTPEQVAVFGFSNWFMSTVISPKLTTIDQPGFE
+MGHQAVSLLIDEIADLKEHRPVTHQIIELPTRIIERESTVK
+>tr|A0A1S1J6X5|A0A1S1J6X5_9FLAO
+MNRLKKRWGITSNVQAIIILIVFAITGSASAWLSKPFCVLLGITKEDFGGWFTLIRLLII
+FPIYQVLLVGIGTIFGQFRFFWNFEKKMLKNMGLGFLFKSSKPQP
+>tr|A0A1S1J1U4|A0A1S1J1U4_9FLAO
+MKTTYIVLPKIFYLLIIGLVSSCQSFVEVDLPKSQLTTESVFEDYNTAEAALTNIYTSIR
+EKGILTGGQLGISNQLGNYADEITCVDNPSKASYNFYRNSLLPTNTYVTGYWNAAYNQIY
+AANLVIQGTKSSKNLTAQQKDQLEGEALFIRALLHFYLTNIFGDIPYATQTDYKQNSIIS
+KTSVDQVYRLVVTDLQDASVLLSSKDDNPGRLQPSVSAAQALLSRVYLYLKAYPEASNSA
+SAVLNQSSEYKLENISNVFLISSSETIWQLQSELTGQNTADGAFFIFTSVPPPSVSLDSQ
+LIASFNAADLRKTNWIKSVTKGSQTYFHSYKYKEKDFTATSKEYAIVLRLAEQYLIRAEA
+RAYQGDLIGAKEDLNKIRNRAGLNNVAAVTHQEILDAIHLERRWELFTEYGHRFFDLKRS
+GKLDSSLNGIKPGWNSSDALFPLPQNELTANPNLRPQNTGY
+>tr|A0A1S1JDY2|A0A1S1JDY2_9FLAO
+MNFPLYIAKRYIFSRSKNNAINIINRIASMGIIVGTMALFVVLSVFSGLKVFSLSFTNEI
+DPDLKISSTYGKSFFVTPDQETQLKNIEGIASYSKIIEERVLFLFKDKQLVTYLKGVDKN
+YIVVNDIRKKLFNGEWLKPDTYQVVIGYGIARDFSLGILDFENPLQIFAPKPGKGAIENP
+EEAFNKTDVLPVAIYSISEDLDSKYVFADLGLTQELLMYKTNQISGIEFNLKENANETEI
+RSQLEKLFKNKITIKNRAQLNESLYKMLNTENIVVYLIFTLVIIVALFNLVGALIMMILE
+KKHNLKTLFNLGTEITSLRKIFLLQGTLLSVFGGIIGLVLGIILVLLQQEYNLIMLTPTL
+AYPVVFTLENVLIVMATIVSLGFVASLIASSRVSKKLLD
+>tr|A0A1S1J1N6|A0A1S1J1N6_9FLAO
+MIFEVIQIITEQVNNYLDEIGLEKTVVPENIAFLESQNETVSGNLEDKVALTLINLDEEA
+TLKNFPNHIVQGNKTIYKNSVINLNLYLLFSANRTIYINSLNDISKIITFFQGKKLFTQS
+DTIYNRNNVAMANIDNFRFTIELYTPTFEELNYIWGTLGGKQLPSALYKVSMIQIERNIA
+QSEGPLISRIKGITKTRKQS
+>tr|A0A1S1J2Y6|A0A1S1J2Y6_9FLAO
+MKPFKLKHTALLFVLTFTITSCTSIKTAPFDLYSYQKTIAVKVETIKLMEKATTPYTVHK
+VEINAFFLDIEKLTEYEKNKPHNEITFSMWKMLNDKEKNLLAGFFKRWETKGVLSPAFIQ
+ESEKQVLQALDLLIQYEAKKDKESKDALLYLINSNT
+>tr|A0A1S1JAX0|A0A1S1JAX0_9FLAO
+MANVKVKKESTSNGGGMITGIIIVACILVGVFIWKVIMGDAANFEGGNPETGHPINTLGQ
+VYKGGFIVPVLLGMFLMVVVFSIERFIVIGKAAGKANLDTFMKNVQGSIKEGNIEAAIAS
+CDKQQGSVANAIKSALIKYQDVKKEGFNSEEASEVIHKEIEEATSLEMPMLEKNMTIIST
+LVSLGTLGGLLGTVSGMIKAFGALASAGTPDQAALATGISEALINTATGISTSILAIVSY
+NFFTAKIDDLTYSIDEAGTTIVNTYRRFRGSLKQ
+>tr|A0A1S1J2G2|A0A1S1J2G2_9FLAO
+MSTDKTNPLLCDPETGTCEMPIHEKANETAIIPTADKPIKIIYYTDPICSSCWGIEPQLR
+KLKLEYGNYIDIDYRMGGLLPDWSYNSGGISKPSDVAHHWEEASLYYEMPIDGNVWLEDP
+LDSSYPSCIAMKAAQIQSKDKAVKFMRILREKLYLEKKNIAKWENISEAAELSGLDTKKL
+KWDYEGEAKVLFQEDLNYARSLGVRGFPTLFFSDGNQNQLTVYGSKPYASYENAILALFP
+DAKKKKTANEHPLALFEIYPTLAPKEYAVILDISYAEAHTILEQLFEKGELNKKSVKNGV
+LYGKK
+>tr|A0A1S1J4B8|A0A1S1J4B8_9FLAO
+MKLKVISTGSIGNAYILENENEALLIECGVNIMDIKKALNFDFSKVVGCLLSHEHQDHAK
+SFDEVMGLGITTYTGAKTSQFLNPDNFHRSMTIASKENVRIGSFKVMAFDVQHDAAEPLG
+FLIDHPDCGKVLFLTDTNYCKYTFPGLNNIIIEANFSKEIIDRKFGADSGKEFLRNRILR
+SHFSLENCKDMLAANDLSAVNNIVLIHLSDSNSNEKQFVKEVYELTGKNVTAAKKGLEIE
+FNKTPF
+>tr|A0A1S1J506|A0A1S1J506_9FLAO
+MITPFLIIILILGITLYFFLQHPKFGKAPSGERLTLIQKSPQFKNGKFENQNHTPELAEG
+YGYPQVLYDFLLKKIDRKTPSDVIPSIKTNLLELSPEKEVLIWFGHSSYFIQLEGKRFLI
+DPVFSGNASPIPGTTKAFKGTDIYTVDDLPEIDYLLITHDHYDHLDYETILQLKPKTKHV
+ICSLGVGSHFEFWGFPTKNIIEKDWFEKIELDQNLTLYTTPSRHFSGRSFKRCNTLWTSF
+VVETKDFKMYLGGDSGYDTHFKQIGTQFGPFDIALIDNGQYNLAWKYIHNLPEDVIKAMK
+DLNAKRVFPVHSSKFSLAPHSWDEPLNKVTELNNLSENPVPLITPMIGELVELKNEKQQF
+QQWWKGIK
+>tr|A0A1S1JCD8|A0A1S1JCD8_9FLAO
+MKVLIVLGSPNSETGDLGQVALDRLEYCFDIFESKDNCIICTGGFGEHFNTAPLPHADYA
+IKYLKEKGLSAENFLESALSANTVEDAVLSKKIVLGHNLNAVVVITSDYHVERVKLIFDE
+ILGFDQMEYVGVKHDISEEEMVKLLEHEKKAINAILSKGLYY
+>tr|A0A1S1J637|A0A1S1J637_9FLAO
+MENITVIIMLLFGVAFLSLVSKKYNFPIPIVLVLCGVVISIVPGLPVIALSPEVVFIIFL
+PPLLYHAAWYTSWSDFKQTIRPITLAAVGLVLFTTVAVAIAAHLLIDDISWPLAFLLGAI
+VSPPDAVSATSITKGLGLHPRLISILEGESLVNDASGLVAYKYALTAITAGNFVLWQAGL
+NFVVMSVAGIAIGLAVGFIMCYIHKRFVCDEVIEATLTLLTPFASYLIAEHFECSGVLAV
+VATGLYLSARSGTIFTHESRIMAGTIWSVLTNILNGLIFILIGLQLRQIIAGIGDYSGWS
+LFVWGASISVVVILVRFLWVVPATLLPRMLSKRIRLKEEFDYRNMIIFGWSGMRGVVSMA
+AALALPLMMNKTTEFPLRNLIIYLVFCVILSTLVIQGLTLPWLIKKLKVQPYSILAEEYE
+IRNTIVSQTITHIEDNFSLLNDDLLHNIKSKYEVKFNRLQKTELPANFFGKGKVLGGEIF
+NDFTKLQIDLLNIERDKLEWMHKTGSVHEEIFRKIEKELDLEETRLWMEMYEE
+>tr|A0A1S1J8A0|A0A1S1J8A0_9FLAO
+MNPDFIKYQAQTSPYPLGMEVSHAIGSYIYDTSNKKYLDFVAGVSACTLGHQHPRVNQAI
+KDQLDKYSHVMVYGEYSQSPAVEYCKLMASLLPESLNKTYLVNSGTEAIEGALKLAKRAT
+GRSQLISCHNAYHGNTMGSMSVMGFEERKQAFRPLLPDVDFITFNNEEDLQKITTRTAAI
+LLETIQGGAGFIEPHDNFLQKVRKRCDEVGAMMIVDEIQPGFGRTGKLFGFQTYDVIPDI
+VVMGKGMGGGMPVGAFTASAEKMDLLTENPKLGHITTFGGHPVIASACLATLQELTETNL
+MEETLEKEKLFRSLLVHPLIKEVRGKGLMLAAMTETAEITNQVILNCQDKGLILFWLLFE
+GCAIRITPPLTISEEEIKEGCAIILNVMDEILKKEQEV
+>tr|A0A1S1IZY9|A0A1S1IZY9_9FLAO
+MNTILIGIIVANVLISYQGFNNLAFFRKYEFHVGSIRSGEQIRMLSSGFLHADMMHLLFN
+MLTLWFFAPVVLQWLGNFSFLLIYFGSLIFGSLLTMLFHKNDYSYRAVGASGAVTGVLYS
+AILLQPDMMLGIFFVIPMPAYLFGILYLLYSIYGMKAKNDNIGHTAHFGGAIGGYFITLI
+KEPSLFVDHSLMVILLAIPILILFVMAKLGKL
+>tr|A0A1S1JBH2|A0A1S1JBH2_9FLAO
+MKIEIWSDIMCPFCYIGKRQLETALAEFPNDEFEIEWKSFQLDPTIEAQTDKDVYTFLAE
+RKGISVEQSIEMHKGVVEHAKSVGLDYHFDKAIVSNSLSAHRIIQLAKTKNLADEMEEIF
+FRAYFTEGRDLNDPETLIELGVKAGLNADEVKETVENEKLYISDVHTDLIQAQNMGIQGV
+PFFVFDRKYAISGAQPVEAFVNTIKEVQK
+>tr|A0A1S1J8A4|A0A1S1J8A4_9FLAO
+MALSGLFRKKTVQDILKQVAKNDADGHNALGKHLTARDLTAFGIAAIVGAGIFSTIGKAS
+ADGGPAVIFLFLFTAVACSFAAFAYAEFASMVPVSGSAYTYSYVAFGEIIAWVIGWALIM
+EYSVGNITVAISWSDYFTGLLASGGIHLPQWVQMDYLTASNGFNNATALMHSGKAFENLE
+PALQSAYTAWTTSPVLFGSFHFVADLPALLIIILITALIYRGMKESRNASNIMVVVKLCI
+VLLVIAVGIFYVDTANWDPFAPNGVSGVLKGVSAVFFAYIGFDAISTTAEECKNPQRDLP
+RGMMWAIIICTLLYIAIALVLTGMVRYNELNVGDPLAFVFEKLDLKWMSGIIAVSAVVAM
+ASVLLVFQMGQPRIWMSMSRDGLLPKRFSRVHPKFKTPSYATIVTGFVVAVPALFLNLTM
+VTDLCSIGTLFAFVLVCAGVLVLQNKPEIPRGKFKTPYINSKYIMPALLIIGLVFAFGCN
+KKATMSFITNETQVNSPADIITSLDKSDSEKVFNYLKSIDVQNKTSETSDLEHLLSQYQD
+DEAKYVEVVKGLPIKETAKFESGLSLFKHKIPMWIFLLVLVGLTVWAFKQNLSLIPLLGL
+ICCLYMMAELSVWNWIYFTVWLLIGLCIYFGFSRKNSKLNNI
+>tr|A0A1S1JBS4|A0A1S1JBS4_9FLAO
+MKKISLIVLFGMSYLVSNAQSLTPTSHISAPGTADAFKAGYTFSYATAGTPWNGSLISYG
+GFSVNNYDTQISSDYGPNGGNHISFRTKNGDSNIWNPWIELATKARNDFDGDQSVNGLVG
+IGITPVHKLHINGGHGDSRILLHSVGGVDDARQADLMLWASEPGWTYSGVGIGNNVHNFK
+NAVGGLSLLNTARGGSYIRLLDNSMLFNVISSSGLDKQALSISSEGNIGIGVTNPVNKLD
+VNGRIHSKEVKIDLDFPAPDYVFSNDYKLRSLEEVEDYVKKNNHLPEIPSAKEFEKNGVL
+LAEMNMALLKKVEELILYMIEMKKDITILKEENKALKEKK
+>tr|A0A1S1J8C5|A0A1S1J8C5_9FLAO
+MKKILYKLLYLIVLFSCCNSYSQETSKPAVTQRMIEPIEPGCDENEKYPWFYDNDGDGFG
+DSNYSQMACSQPNDKWVSNSDDCNDNNPAITYYTWYYDGDKDGFGTIDLTTTSCTQPAGY
+VDNNLDCNDNNKDIHPNTKWYIDTNGDGIVSELDTNYVISCTKPSGNYIAIGTDSNAHWI
+HNINFDVMGNIVGINRLYFDDLGKSDISLSKNYVTNKIWGTETTYDDFGRPDKTSFVAPS
+PLSTFEKTNFLKSNAEVITGSYPPILSLNNIAANNTYKATQSITVTGTVASGLNVNLTAP
+VITLSNTFSITATSGSSFVLTAAYLQDVSANPSLANYYSDNNTDEPYQATATHPFAQNNY
+DSLNPGNIINVVGGNKINGEWKTGYTYTVPAAQEMYYVYGSDYYDGTISNGKEEVITKFY
+KSVSTDANGNENVAFADGEGKLLATARSGGSTTYPVVSLIGTQGFVDVHIPAGITSGISL
+IGGAGLYKIYDLKTGLITSGLTSGNAYRVEAITPPASDPKTYISGGQPTYDPGSLGITYS
+VNYYDYTVNIYNKTGQLVKTIQPNGYSNNTTVVASPSHMTSANFATTYVYNALGQLTATT
+SPDQGTSKFAYRKDGQIRYSQSALQTDTKVSYTDYDDLGRPKESGVIANNWTTANVNPDG
+ALISGTRTEQTCTIYDDTENNLTSVAIPTNLNLNSVLATAGINSANYTQNNLSGNVAVTF
+TKPETTITAITWYSYDLYGRTEWIVQYNEGLGAKTIHYEYNYKGDVKKVLFQKDKIAELF
+AHQYTYNSNNALIKVQTSTDNTNFTTNADYSYYQTGELKRINIAQGTQGIDYVYTLGGQL
+KSINHPSLEASKDPGSDANDVFGLTLDYYNGDYLRTGRNITSSPSAGADYNGNIKAARWA
+NKGIAGDYSGATANQKGYLYNYDRNNWLTGAVFGNTNSGTAAISPIAGLAEGGLTYDANG
+NIKTLQRTNEAGTVVDNLTYNYTNIGNNQLNSITENAAATSSDPNDIENQGTGNYVYDVI
+GQLKQNVSENLFYFYNTQGLVTEVKKGSNTVVKFFYNDRGQRIKKESYNTTSFALQNTTF
+YQFDLSGNTLAIYSLPSGGSTTQTELPIYGLNRLGIYKRASGIASYEIKDHLGNVRSVIE
+KESGSPVIKSFADYYPFGEQLPSRNALSNYRFAYQGQELDQETGMEAFQLRLWDGRIGRW
+LSTDPYGQYPSPYLGMGNNPISGIDPDGGFWQELKNWVLGSGWISNAGRDKLNSEGITDY
+TSKFSKTPTDSKGFHTVSYSKDGEVFFRSFRNVDDLRFEDAIGFKVTMGAQAGFDISKTI
+SLDVKLFAVKMLEWDVYKGWYNISTSNESSMDFLNFKIAWMGASAEAGFTVAGPKNKGLG
+AQDFSGKVQGGYTSLLQAGYDFNTDDPLNNGFYTQHGVALGGGAIIEVEFYCHSKMHHGL
+QIEKK
+>tr|A0A1S1J1H0|A0A1S1J1H0_9FLAO
+MEFNPVALFLSAIVTLAVGFIWYNPKVFGTIWMRENNLTPEDLQKGNMLKIFGLTYLFSL
+MITVILMSLTIHQTGALGMVGGPPLVASAKPSFAAFMNDYGTAYRTFKHGTLHGFMSALF
+FVFPVIGINGLFERKSWKYIFIHAGYWAVCLTLMGGIICAFA
+>tr|A0A1S1J293|A0A1S1J293_9FLAO
+MNEIVTKEDLRQFGLLLVDKIQALFKDKDSGRKETLEPEWIKSKSVRKLLDISAGSVQNL
+RTSQKVRFKKVLGSYYYNKEDLQKLFDDDKH
+>tr|A0A1S1J2N0|A0A1S1J2N0_9FLAO
+MLKEKLKKYTLILASGSPRRQQFFKDLDLDFEIRLKDIEEIYPPELKAVEITDYLAALKA
+SAFEGELNENEILVTSDTIVWHENKALGKPKNAEEAFTMIKSLSNTTHEVITSVCFKTNN
+SSTLLNDTTKVTFNDLSDEAILYYIENYKPYDKAGAYGIQEWFGFMAVAKIEGSYTNVMG
+LPTAKVYEYLSTLV
+>tr|A0A1S1J830|A0A1S1J830_9FLAO
+MFKKILIANRGEIALRVIRTCKEMGIKTVAVYSTADAESLHVKFADEAVCIGPPPSNLSY
+LKMSNIIAAAEITNADAIHPGYGFLSENAKFSKICQEHGIKFIGAAPEMIDRMGDKASAK
+ATMKAAGVPCVPGSDGLLESFEQTQKLAKEFGYPVMLKATAGGGGKGMRAVWKEDELLKA
+WESARQEAAAAFGNDGMYMEKLIEEPRHIEIQVVGDSYGKACHLSERDCSVQRRHQKLTE
+ETPSPFMTDELRAAMGEAAVKAAEFIKYEGAGTVEFLVDKHRNFYFMEMNTRIQVEHPIT
+EQVIDYDLIREQIMVAAGIPISGKNYLPQLHAIECRINAEDPYNDFRPSPGKITTLHMPG
+GHGVRLDTHVYSGYSIPPNYDSMIAKLITTAQSREEAISKMRRALDEFVIEGIKTTIPFH
+RQLMDDPRYIAGDYTTAFMDTFKMKPIEE
+>tr|A0A1S1JC29|A0A1S1JC29_9FLAO
+MEKSVKILSFATLFISTLSFSQETDSIRKYSLGFQMTSIYQYHPAFHANYSGTNSMSPKE
+EGALSLTSTLYLDVPLWKGATLTFNPEMSGGQGLSQARGLGGFPNGETFRIGDTKPVVYV
+ARMLLEQKFQFKNNHSLQLVFGKFGLSDYFDNNSYSHDPRTQFLNWALMTHGAWDYAANT
+RGYTDGLYANYQFDSWQVRASISALPTYANGPNVEFSFKNSNAINVEIEKQLVFENNDTA
+TLKLLGFRNVAGMGNYDEANSNFITMPDIKSTRQDGRTKYGIGLNMDYTHRDTWGLFARM
+SYNDGKNETWAFTEIDRSAQLGIHLNGKMWNRNKDFAGIAIVANGLSNSHKQYQKLGGDG
+FMIGDGTLNYGIEQIAEVFYSFLVPNTHITLSPDYQFAINPAYNKDRGPVQFFALRFHTE
+F
+>tr|A0A1S1J5Q1|A0A1S1J5Q1_9FLAO
+MEYLGYFASIIIGISLGLIGGGGSILTIPILVYLFKVNPEQATSYSLFIVGLTAMFGSYS
+HYKMGNLKLKSALYFAIPSVISILIIREVIFPQIASTLFSIASYSVSKDFLIMIIFSVLM
+ITAAISMIRKNKPETKATETNYVQLSLIGFLVGIVTGFLGAGGGFLIIPALLFFANLPMK
+QAVGTSLLIITINSSIGFGGDLYIGTPIDYTFLLGVSAMALFGMFIGSQLSKKIDGAKLK
+PIFGWFVLVMGFYIITKEVLF
+>tr|A0A1S1J075|A0A1S1J075_9FLAO
+MPFLIFALIGCKSKQQNDKQNIENAITKNAHQLLEDKRFHSVSIAVFKDGESTIKHFGEL
+SIGKGNKPNDSTLYELASVTKTFTGYVAAKAVLDKKINLDDDVRIYLNEPYPNLEFKGEP
+IKIKHLLTHTSGFPNFPIKGENKTAFLEGLKLIKIETIPGETYYYSNTAPELTAYILEKV
+YQKPYEELVTEFVLKPNKMNQTKFTLNDNERLRLVKGYNDKNELMPNFNRTLWGGISGLH
+STTTDLIKYMKLQLDESNHIVNESHKKLYKEGSDFWEGYHWYILEDDRELIYRHHGGIYG
+MQNWFVIYPKQNIGISILTNTSFNETGEILEKVVHKLYDDINKSI
+>tr|A0A1S1J9U8|A0A1S1J9U8_9FLAO
+MINDILAGLPWGLFLSFMVGPVFFILLETSITKGFRAALVFDLGVVLGDIFFIAIAYLGS
+YRLIQSLKDKPALFIFGGIIMLAYGIISFVRLKKEAKINDEEIDRDIIKRNYGSLFVKGF
+LLNVINIGVLGFWLAVIISVGPKLEMQNSRMFTFFTSVIITYLVVDCLKILLAKQLKSKM
+TPTNILKIKKGISIVLMVFGVVLMIQGWFPKEKEMVKNAFEKIEK
+>tr|A0A1S1J0Q5|A0A1S1J0Q5_9FLAO
+MKTTHKIYCYKSLSANNNDKRIFIQQKKNEEQHMKTNIKLFFSAVIVTFFSSCSNDIINK
+EPLDQLAPETLFQTEGGFRSALDGVYAVMKQDFYGYYFGIYTIPEAISDDLLGSSNSKDF
+SFDNSSGNIYPLAYNSTTGNVEGFWRISYQAINSVNTIIKMARASSLPNKNAFLGEALGI
+RALLYYNLYRFYSPAYSIDKKALSVPYRFETDKLLDVKPRNTTAEVIQFIQADLNEAAAL
+ATNTVNSYRISKTAIYALLARVSHETADYKNAIVYSNLALADARYKLDNTLAALQKEWDK
+DDSGEIIFRIRFENTEMGQNAALFAIPVLSSYPYLVSTDLINLYDKTKDLRFTVYFKNHP
+TIANSYYPKKQAGTRTTNASASDPGNIDLKLMRVPELYLILAESYLRGSDNASALNNLNK
+LRNARGLGDYSGADLGKEVLNERRRELAFEGFRFTDLKRLGLGFKRADGTGLSVNANRFA
+LPIPQTEIDRSGIAQNPGY
+>tr|A0A1S1J148|A0A1S1J148_9FLAO
+MRKIIVSMFVLSQCFNVQGQSIDKIITNKEVSRIEKILSADDMQGRRTFTPGIEKASAFI
+ESEFKKIGLQTFNAAANYRQEFSMTASKAISSKITIDRKEISNNQVVTFSYLPQVSLTEK
+SDVSVVKINKGDNFGEKFNEYYKSPKNLLVLVDSSFDKILPNIQHIDRITANPGSNTILF
+VFGTTDATTFSVEQTNTISKKALNNIVGILPGKTKPNEYVIFSGHYDHIGVGTPEEGAPH
+PATDSIYNGANDDAAGTTAVIMLAKYFKKQNNNERTIIFTTFTAEELGGYGAKYFSKQLA
+PEQVIAMFNIEMIGTESKWGKNSAYITGFEKSNMGQILQTNLTGTSFNFYADPYPDQQLF
+YRSDNATLARLGVPAHTISTSKMDNEPTYHTADDEFETLDIDNMTQIIKSIALSSSSIIS
+GKDTPTRVNTTQLKQSK
+>tr|A0A1S1J6T7|A0A1S1J6T7_9FLAO
+MTQKELKEFLDEKVTQYNNLDFIESDPVQIPHLFSQKEDIEIAGFLSATIAWGNRKMIIK
+NSHQMMELMGNTPYDFVMSHTDEDLERLESFVHRTFNGKDFSGFIKGLQHIYKNHKGLEA
+VFAKNQETDGLQKSISEFKKIFFEIDHLPRTQKHISDPLNNSAAKRINMYLRWMVRQDTK
+GVDLGIWKTISPSLLSCPLDVHSGNVARKLGILTRKQNDGKALTELDLKLRKMDPHDPVK
+YDFALFGLGVFEGF
+>tr|A0A1S1J8E4|A0A1S1J8E4_9FLAO
+MRKITVLSLSCLLVLASFFTSCDSVKNANNTQKGAGIGVVAGGIIGAVLGNNLGKGGNAA
+LGAAIGAAVGGGTGALIGNKMDKQAREIDQALPGANVERVGEGIHLTLNENAVRFDTNKS
+TLTPQAKANLDKLVPVFNEYGDTDIQIFGYTDNTGRPEYNLTLSGQRAASVQAYLVSKGL
+KSSRFKTSGLGIVDPIATNDTPEGRAQNRRVEFSITANDKMVNDAKAQAGK
+>tr|A0A1S1JBZ8|A0A1S1JBZ8_9FLAO
+MKVLIVLVFLIVSNFSFGQIEKLKGDWVSEDNEFISIKDTMTTANYLTNKRLSNDDFYLS
+LKDDTISFQSRYFYSDNLKKMYTDRYDLKILTLNDSTLIVVPSSKNSISFFETEKPIKFI
+KQDYIRDDGFKFERIIFHASYCFGDCPEINLEINAKGEIKMNSVFFKTESSRDNDRSGSF
+KGKLDLQTFEELKKLIIQSKVVTLNLNDEMLCCDGAVKTIIVYFNGKRKFVRAMFTPAIL
+GELISFLYRIDTVVKLEKSSVVFRFDE
+>tr|A0A1S1JC73|A0A1S1JC73_9FLAO
+MEDHSLEKKFSKFIVAVSIVIPLVVAILFGVKLKDLGIEVEPLSFLPPIYATTNGITAVV
+LVWAVLAIKKGKRKLHERLMTLAIGLSVAFLVMYVAYHMTSDSTKFGGEGAIRYIYFFIL
+VTHILLSIAIIPLVLITYVRALAKRFDRHKKIAKITFPLWLYVAVTGVVVYLMISPYYA
+>tr|A0A1S1JDL1|A0A1S1JDL1_9FLAO
+MKVAIYGQYYQNSTGPIIKDIFIFFNSNNVEMVIEEDFLKMLYEKELVKKEYKTFSSSTS
+LDDSYEMLISIGGDGTILRAATLVRNSGIPILGINAGRLGFLATVPRESIDNFLQYIIDK
+NYTISERTLLSLTCDPKNEAIEDDLNFAMNEVTVSRKDTTSMITVETYLNNEYLNSYWAD
+GLIISTPTGSTGYSLSCGGPILTPNVESLVITPIAPHNLNARPLVIPDNTEIKLRVTGRE
+DQYLVSLDSRITSVKNDSVLKIKKTDFKIKMVEIPGETFLKTLRKKLLWGEDKRN
+>tr|A0A1S1JDQ4|A0A1S1JDQ4_9FLAO
+MAFELPQLPYAYDALEPHIDARTMEIHHSKHHNAYTTNLNAAIAGTDLEGKTIENILINL
+DKSNAAVRNNGGGFYNHNLFWTVMSPNGGGLPTGDLLAAIEASFGTFEEFKAKFAKAGAT
+QFGSGWAWLCVQKGGKLDVCGTPNQDNPLMPEVGCDGTPILGMDVWEHAYYLNYQNRRPD
+YIEAFFNVINWTEVARRFALEK
+>tr|A0A1S1J9B2|A0A1S1J9B2_9FLAO
+MENYLHGLLDEENDPIIQQYLKYIDEGIPRTDKPKDVLIIGAGMAGMVAAAMLKEAGHKV
+TIVESNTRVGGRIKTFRNSKDKKYFEDDTVYGEAGAMRIPTIHQMVLKYIDKLGLKTEPF
+YYLSVDKAQAIAYQADPAKPKPEVTRNSLFYVNRKRVVQNEYIPKDASKIVDVNALLDFH
+LGSSENMRADQLMANLINPLKAFIAEDPEKNWPVLIERYGEYSMRRFLKEHSMYSENAIE
+MIGVLQNLESRMAYDFIQSFIEQNIIKDSTRFMEIVGGCDKLPNAFFKAHKLEENTYFDC
+RMTKMMLVNDKVKIEVDIEVQRDPQFYEDAGFKALKTPVSDMEFDEVIVSIPFSALRHVY
+VTPQFKQQKRKAIRELHYDSATKILLEFREKWWQEAPYNIVGGGTITDFSNRFTYYPSND
+LGSNGHGVVLASYCWSDEASRWDSMDDDDRYFYALKNLAIMHSDDVKEQQRIIDLAVISS
+SIKDRKGKPGKLVGAATQSWMRDPYAFGEAAIFNPGQLQLLQRHIISTEWKGKAHFAGEH
+TSLKHAWIEGAIESGIRTALEVNENIGNLNNPI
+>tr|A0A1S1J6U9|A0A1S1J6U9_9FLAO
+MSNLLEVHKVVKQYGDYVALNEVSLNVPKGSIYGLLGPNGAGKTSLIRIINQITLPDGGE
+VILDGEKLQPKHIQHIGYLPEERGLYTSMKVGEQCLYLAQMKGLSKAEAKMQLEYWFDRL
+GIQGWWNKKIQELSKGMAQKIQFVVCVLHKPKLLIFDEPFSGFDPVNANVIKDEILALKE
+QGATIIFSTHRMESVEELCDHIALIHKSNKLIEGKVSDVKRQFRTNSFEVGILTDNVEGL
+MYDITQKFTVSPASFKSLNDDLKLDIQIGNAAPNELLHLLTQRGQVTHFVEKIPSINDIF
+IQTVTENKK
+>tr|A0A1S1J0U4|A0A1S1J0U4_9FLAO
+MRPISESLSIEDNQRLFDLNQYIENARDNFLGYPVSKDFDYSEINHFLKYPINNLGDPFE
+DCTYKVQTHELEREVVGFFAKLFRANPKDYWGYVTNGGSESNLYGLYLARELYPKAMVYY
+SESTHYSVRKNIHLLNIPSIVIRSQENGEIDYEDFENTLKLNRHKPAIVLTTFGTTMKEA
+KDDVSKIKSILKTLAIQDSYIHCDAALSGSYGAFMEPRLPFDFMDGADSISISGHKFIGS
+PIPTGVIITKRSNRDRISKGISYIGSLDTTITGSRNGHSPLFLWFTLKKLGIEGLKKRYL
+HSLEVAEYCEQRLKNMGIAAWRNPNSITVVFPKITEEVKSKWQLATEGDISHIICMPNVT
+KEQIDLFINDVENCIETPEEMAEFSW
+>tr|A0A1S1J8M9|A0A1S1J8M9_9FLAO
+MRIIAKRTLQNFWECFPNAKQQLLSWYQIFDKNNFDNSNAIKAIFGSADFVGHNKVVFNI
+CGNHYRLIVKINYETQIVYILFVGTHTDYDKLDDIKNL
+>tr|A0A1S1IXU9|A0A1S1IXU9_9FLAO
+MKLNNIKKTAICMSFLAAVGCTGNFDEINTNPNGFSNDQLKDDFNDIKKGFAPMFNNIQV
+LGDQLESQYQLQQNLNADIWSGYMATPTPFRGGSNNTTYDLIDGWNNAIWTNAYPTVMFN
+AYDIANKTKGKFDHFYALSLILKVEGMHRVTDIFGPIIYSQYGKNAPIAYDSQEEVYNQM
+FSELDFAVDELTKRADAGEPFVFKDADLSGYEGNYASWVKFANTLRLRLAMRIVKVKPAL
+AKAQAEKAVAQKFGVFTAKKDAFRIVSPTFTNPIATISGSWLDIRMSADMESILKGYNDP
+RMPIYFDKSAQFTGQYKGIRTGIAIGGKGDRERFSGIGEVVRSKTIYLVTTAEAYFLRAE
+GALRGWNMGGDAKSLYEAGIQASFDQREASGIAKYLTDNTSLPVAYVDPVAAVNNSAPVN
+NITIAWDDAATNEVKLQRIITQKWIAGFPEGQEAWSDYRRTGYPKLFPVVVNNSGGKIST
+ALGARRINFTSNEVLNNKEGVATGVAKLGGPDNGGTRLWWDVNAPNF
+>tr|A0A1S1J712|A0A1S1J712_9FLAO
+MQQTVVINVVGLTSSLLQNPDLFLHQWQKKKGNLSIIEPVLPALTCSAQATYLTGKWPSE
+HGIVGNGWYDRNDMEVKMWKQSNKLVQSPKIWDLAREIDPSFTCANLFWWYNMYSDADFT
+VTPRPQYWADGQKKPDCYSKPSDLRDRLQAQLGTFPLFDFWGPKTTIRSSQWIANAAKLV
+YQWHNPTLTLIYLPHLDYCCQKFQPGSPEINEDVKAIDKVCKDLIEYFESKGTEVVVLSE
+YGITEVNNPIHINRFLRTHGYLQIREERGLELLDTGECKAFALADHQIAHLYVKENEDIV
+ELKELIQKIPGIAKVLDSKGKKEHHLDHERSGDLVLVADHNSWFTYYYWMEDNKAPDFAR
+TVEIHKKIGYDPVELFLDPKQRFILPHILFKLIKKKLGFRTLMNVIPLDASLVKGSHGCI
+PDKKEDKPILIAKNKLPNKVESNFICQYILNIVFKSKQDMLTKTTDLEMEELS
+>tr|A0A1S1J8J3|A0A1S1J8J3_9FLAO
+MKKALISDWYYVNGGAEKVIHSINSIWDDFDHFALIDFLNDKDRKFILNGKKARTSFIQR
+LPTVKKNHRKFLQLFPTAIEQFDLSDYDLIISSSSAVAKGVSTRKDQLHICYCHSPMRYA
+WDLQDQYLKDSGLDKGLKGFYAKYVLQKIRKWDVSNSENVDYFIANSNYIAERIKKIYNR
+EATVIYPPVDVEFFSLEEQKDNYYFTASRLVSYKKTQLIVEAFNELPHLKLIVAGDGPEF
+QKLQTIAKNNIEFVGFVEANSLKNYMQKAKAFVFAAEEDFGIIPVEAQACGTPVIALAKG
+GTLETVVENKTGVFFQEQSSESIKQAVIDFEKMKFSSTVIREHAMKFSKERFENEMEAFV
+EKKLKKGF
+>tr|A0A1S1JBR7|A0A1S1JBR7_9FLAO
+MKVTIVGAGNVGATCADVISYRGIASEVVLLDIKEGFAEGKALDIMQCATNTGFNTKVSG
+VTNDYSKTAGSDVVVITSGIPRKPGMTREELIGINAGIVKTVAENVLKYSPDTIIVVVSN
+PMDTMTYLALKSTGVPKNRIIGMGGALDSSRFRTYLSLALDKPANDISAMVIGGHGDTTM
+IPLTRLASYNGIPVTEFLSEEVLQKVAADTMVGGATLTGLLGTSAWYAPGASVAYLVDSI
+LNDQKKMIACSVFVEGEYGQNDICIGVPCIIGKNGVEEILDIQLNDHEKALFAKSADAVR
+SMNDALKSILV
+>tr|A0A1S1IZX5|A0A1S1IZX5_9FLAO
+MKTLIQKKSLAEEVASKIQEQITLGHYKINEKLPIEAELMKSFGVGRSSIREAMKLLANS
+GFLRIQQGVGTFVERLTSTREPMDQRIMRANVQDLDEVRQILEMKIAEKAAINRTDDDIA
+AMKEHLLNRMIAAKEGNLEECVEADIQFHIAIAKASKNEILADLYKSASVHLKKGFLHLY
+GDTKIFQETSAVHQQLLENIIAQDPKKAWNTVAKIIGHINY
+>tr|A0A1S1J3I7|A0A1S1J3I7_9FLAO
+MNGVPILLNNKAFTPFHFYSYFLSSVASFYQQFPKEKITFFLIGENEKESFLHSYYFDPI
+TIPLFLSLADQLTKFHNEPISLELYNTHSTNKVLAFLDRSDFFKVSGNFAKPGKNILKFN
+KEYLGFFNLNEQRPEHKVRFYSLNEVNSSHNMINVSTAEQQRDLLIEYYTYKVKDHFEDI
+LKESHQNNKVVFDYVQILSELITNGVLHSKSDVYALMFTDREKTCFSISDNGIGLFSSLA
+LKEKQIVNDSYKLFDLYNELLNEIPLNVADKIKQSFYAIFEALYYSILKDRKGLFDLMTT
+VVLDSNGYFRLHNNNAQIIISLRMFNEIQSLVNMRNLIYDNHLKYISKLITKDEFMTVFN
+ELTLVVRNEFKKLISNIISNYNQDVKYSSIRLYEVRFKGVHIEVEIPKKY
+>tr|A0A1S1J3R3|A0A1S1J3R3_9FLAO
+MDTYIIILLCLAAFAAGFIDAIVGGGGLIQTPMGLILLPNLPVSTVIGTLKLPAFTGTSF
+AAFQYLKKVVIQWRLLIIMMCLAVPSAFLGSTLLTYVSNDFMKPLLLVVLSLLLIYTYAK
+KNFGQHEAKDHSAGIQILYAVAISIIVGFYDGFIGPGTGSFFVVAFIALLGFDFLHASAN
+AKMVNLATNFGSICLFMIKGKIIWTIAIPMAISNGLGGWLGAKLAINKGNGFIRVFFLVV
+VIGTLIRFSYDVFYK
+>tr|A0A1S1J5E4|A0A1S1J5E4_9FLAO
+MKPKFNGFLVLLLVLFAQLTFAQERAVSGTVTDDAGMPLPGVSVQIKGTKTGTQTDFDGK
+YSIKATTSQILVFSYIGMKTQEIAASSSQVNTKLSGDAQQLEGVVVTTAMGIKREKKSLG
+YASQQISGKDVNGGAGNTNVANLLSGKAAGVEVQRNNNFGGSTNVVIRGNKSLTGNNQAL
+WVIDGVPIDNSNSNVSSQQVGGGGYDYGNNASDINQEDIESINILKGAAATALYGSRAAN
+GVVMVTTKKGKSDNKIGFSFSSGFTNGSVDKSTFPKYQNRYGSGYGIGSSFLGTGTPDTV
+DTSNDASDGDAFDNQPVYQWDAFTPFSPNYGKATPWTAAKNGPVTFFNNAHTFVNSIALE
+KSTDRSSLSLTYVNTNQTGILPNSELKKNQISARFSQKVTDKLTANAYAAVTLQSTVGRN
+STGYNDNIMGNFRQWWQTNTDVQAQKDVYFASGGQNITWNWTDPTDPSGLKPAYWDNPYF
+TRYQNYSSDDRTRLFSYASLNYEIAPWLSALGRVSLDTYKQLQEERRAVGSIASGFGLSP
+VNESSGYQRNDINFQEINYDFMLNFNKKFGEDISLNGVIGTNIRRNKRDNVLSSTIGGLV
+TPGIYALSNSRLDLPFPKEAKVSSGVNGIYAQGSIGYLDTYFVDASIRRDVSSTLPDNNN
+SYVYPAVSGSFLFSNVVKADWLNFGKFRVNYAEVGNDADALQLNNTYTRVPNFQGQPLYT
+NSLLLPFRSINKNPDLKPERTKSFEVGLETSLLNRRLGFDITYYKTNSVDQIVAAAVSSG
+SGFTNALVNGGNIENKGFEIQLNGTPIKTKDFSWEIIVNWSNNRSKVITLPNGLDNLQLG
+AFQGGVTVNAAPGEAYGALKGTDFVYTNGQPTIDQATGKYMITTSSNNTIGNITPDWIGG
+VRNKFTYKNLTFGFLIDTQKGGDIFSLDMYYGLASGLYRETAVGDIRENGLLNPGVAPNG
+TPNTVKTKGGSIANSMGYQAAPNKAFIYDASFVKLREVSITYNFPKSMFENTFINAASAS
+LVGSNLWIIHKNLPYADPESGLSSGNSSRGYSVGSLPTTRDIGFNLTFKF
+>tr|A0A1S1J770|A0A1S1J770_9FLAO
+MMLKTILNFAGVEVLGKEELKEVNGSGGVRCTVPWSPLPYNGPCIMLPPITPAEPICRAT
+IDGVICE
+>tr|A0A1S1J8X0|A0A1S1J8X0_9FLAO
+MRKIGYIITCLCFSLSVFPQQKNQKQQQKFTTTNKKITVYTTAANTQLRLTPTDHLNFTA
+SRQPIETELSVFVEPSKRFQSFLGIGGAITDASAEIFAQLSKEKQTEFLNAYYDTQKGIG
+YSLLRTTIQSSDFSSGSYSYIEEGDKDLKTFSIDHDRKYRLPMIKAVLKTAGGKMITYAT
+PWSPNAFMKSNKNVLKGGTLLPEFYQPWANFYAKFIKAYEKEGIPIWATSVQNEPMATQT
+WESCLYTAEQERDFLKNYLGPTLKKEGLGKVKIIAWDHNRDLMVQRANVIFSDPEASKYV
+WGMGFHWYETWTGAQPMFDNVARVHEAYPDKKLIFTEGCVEKFDAAKYQFWPNAERYGTS
+MINDFNNGTVGWTDWNILLDQFGGPNHVGNFCFAPIHADTTTGELIYTPSYYYIGHFSKF
+IRPNAVRVSTSVSRSYLSSTSFLNTDGKMATVVMNNTDNAITYNFIIATEQTIVKIPAHA
+IQTLVY
+>tr|A0A1S1J9P3|A0A1S1J9P3_9FLAO
+MKPHFKQIVLVILSIFLLSCSSDENTSEISTFPITPLLGSIKYLALGDSYTIGQSVCETC
+GFPEQLKSSLTAIYPLASFSLKIIATTGWTTTNLISAINTQNPDPNYDLVTLLIGVNNQY
+QGKSFSIYEKEFPELVNKAIVLAKGNKKRVIVISIPDYAYTPFGKIQMEGEGERISGEIN
+QYNSFAESYCKLNNVVFVSITDISRKGLDNPDLVAADGLHPSAKAYTLFTERILPLVKVA
+LQN
+>tr|A0A1S1JAC8|A0A1S1JAC8_9FLAO
+MKILVCISHVPDTTSKINFSNGDSEFDTNGVQYVINPNDEFGLTRAIWFQEQQGATVTVV
+NVGGPDTEPTLRKALAIGANEAIRVNANPTDGFFVAKQLAEVIKNGGYDLVIAGKESLDY
+NGGMVPGMIAGILGSNFLNSCTSITVEGSNVKAVREIDGGKETVSTTLPLIIGGQKGLVE
+EKDLRIPNMRGIMTARTKALTILEPVDAPVNTKAVKFEKPAPKSAVKLVSPDNLDELINL
+LHNEAKVI
+>tr|A0A1S1JC04|A0A1S1JC04_9FLAO
+MNVDQFPDRTIEINKEQYLYFGGTAYLGLPTNNPFQELVIQNIRKWGTTYGSSRNANIKL
+TAYENGEAFLARHIQAESAVTVSSGMLAGKLVTEQLTKTTDCFFHFSDLHTAIKTPNSLP
+IFLNNQIHPRLTDSKAEKITILTDGVPSYQTKAVDLSVLKEIPSHKEVTLVIDESHSFGI
+LGKNGCGIYSQINLPIKHKIMVSSLGKAFGLNGGVIASDTSFIDQIKNTDTFISAAGMNP
+AFVQTLADASDIYRVQHQKLMENLHYLDTKLIKSEHIKFDKTYPLIYIEMERITDILRAN
+KIIIANFRYQKNSRDINRIVITANHTKDDLDQVIEILNQSKSV
+>tr|A0A1S1JEI1|A0A1S1JEI1_9FLAO
+MTPTFFSTPEKFRAWLEKNYQKETELLVGFYKVSTKKPCMTWSESVDQALCFGWIDGVRR
+AVDEESYTIRFTPRKKSSIWSAINIKKVEELTKAGLMLPEGLKAFELRSEERSKIYSHER
+EAYQLDPEFEKQFKANKTAWEYFSHQAPSYRKVMIHWIMSAKQEKTKLSRLEKATQISAE
+QKRML
+>tr|A0A1S1JBD7|A0A1S1JBD7_9FLAO
+MSLRNTYTKLQLEELIHSQLENLNAMNDLISIMRHQNDLLKNANKKLKEEITDFKEYQIK
+YATRRKRTS
+>tr|A0A1S1J5Q0|A0A1S1J5Q0_9FLAO
+MRQKLLSIRQEILEAKSNGQKLLAILLDPDKIVWENLDHLLLKINQSPATHIFVGGSIVQ
+ATILEDLISKLKQETNLPVVIFPGDPSQISPQADAILFLSLLSGRNPDYLIEYQVQAAPI
+LKKTNLEVISTGYILIESGNETAVARVSKTKPMERDNFDLVLATAQAGEMLGNQLIYLEA
+GSGAKKTVPLEMIQLIAQNVEIPIIVGGGIVDLHGIQKAYNAGADLVVIGTAFENDSHFF
+ES
+>tr|A0A1S1J114|A0A1S1J114_9FLAO
+MTTKNLSPEIETRLNHFFNDSIAAKDMAKMIREVNYVLSLSVLREYETMGSEIKDIADNF
+YWFNKLAEILDPYLDLK
+>tr|A0A1S1J128|A0A1S1J128_9FLAO
+MNWKICIYKLYKGKLLSQSYPKKMKHYILSLFLLSITSFAQSQTVNKKISDSIPKDSVKV
+KTEHTQLQTVEIIGRSTKKYNSDYSFAATKTAALNKDIPQSISTITKELIADKGAIYLAD
+AVKMASGVIPASYYNQYTIRGISQNEEGQIINGMRTHQHYFLQPLTTNIERVEVIKGPSS
+ATFSSVDPGGSINMVTKKPLAVDRKEISLTAGSFSTLRGTLDFTGPLNESKTLLYRVNGA
+YQEAKSFRDLIRNKSFLISPSFSYIPNEKTAINTELILSNMTGVLDRGQPIFGAVAGVTS
+LNKTPISLNLGAPNDFYKSKEMILMTNFAHKFNSKIGFNASYMKQTWTEDLQEHRTTNAF
+AVDMNNKPVSSLAMMQFVQRQQYWDVDNLTSYFNFDLNTGKIKHKLLAGYDLSSWNKTKG
+GGQNAARGYVLKDGSVAPSFVAANAANYQTITVDGVVLPKPNVNYFNLNNPANTLTNPDD
+YTLNVRTALPPALTTTNAVYIQDQVQWERFTILLGLRQEWFKDITNYKSNNELTVKKSAL
+LPRIGVTYAVNNQINVYTTYLEGYQPQSNTVSLMPQTGSLPAGSLFDPLKNNLKELGLKA
+TFFNNSVSFNAAVYEINQRNILMNANDSVNPDLLVTRGAERSRGFECDIAGFITADWQIN
+ASYSYIDAKITNDRDPSLIGAQKQNTPKNSANLWTRYNFNSDSALKDLGIGFGMQYQSSK
+VPWFTRAFTLPDFTVFDAALYYKPNKSNMQIALNAGNLFNKTYWLGAQNYLRLFPGAPRN
+FSLTVTYKF
+>tr|A0A1S1J731|A0A1S1J731_9FLAO
+MPRLLDKIFNFLYPIFRDWGMSRNIASYVSLVFNIAIMVILAYAIYYFAKFVLVTLTAVF
+AQRTKTKFDDYLIHNKTTKYTAYLIPFFFIYKAVPIILDKYEYWESVFGKIVGVYIVLLG
+LWITRTIFNALRDYLKQKPEYSDKPIDSFVQVIMIVLWIFGVAIIISKLFGIKQGELLTI
+LGTLSAIIILIFRDTILGFVSSVQVAINDMVRIGDWITMDKFGADGDVIEINLTTVKVRN
+FDNTITTIPTYALSSDSFQNWRGMQKSDGRRIKRHVLIKSSSIRFLNDEDLNQMKKVQLI
+SSYIETRQAEIDKYNEIRGVDKTLALNGRNMTNLGLFRKYIMQYLVTHPGLNKDMHMMCR
+QLQSTANGVPLEIYAFSSDKRWANYEYIMSDIFDHVMASVEYFDLEIFELPSKIGRFD
+>tr|A0A1S1J8N5|A0A1S1J8N5_9FLAO
+MEQKKLLIITYYFPPAGGPGVQRWLKFVKYLPEFGIQPIVYVPENPTYPIVDEGLVNEIS
+DKVIVLKNKIWEPYQLASVFSKNKTKKISSGIFPHKKKQTFLDKTFLWVRGNLFIPDARV
+FWVKPSVAYLEKYIKENNIDTIVTSGPPHSLHLIGLELKEKLNVKWFADFRDPWTTIGYH
+KALRLSGYAAKKHKNLEHKVLNSADIIIVTSKTTKVEFEAITNKPISVITNGYDVENVEK
+QTLDAKFTLAHIGSFLSDRNPQFLWECLVELLQEVPEFKSYLEIKLIGAVSQEVLDAITE
+FDLKNYLNLLGYVSHHEAIAHQKKSQVLLLIEINSEDTKSIIPGKLFEYMVSNRPIIAIG
+PQGSDFADIIKQTNTGVFFDYSEKAKLKSVILDFYNQFLEGKLQANGVGLQQYSRKNLTK
+QLAQLIN
+>tr|A0A1S1J027|A0A1S1J027_9FLAO
+MKKHLILPLLLLNLTFIPSAFCQKKSTINNAFTDRIFNGQGYQPASSLKWKFKTDGKIFS
+SPVAKNGIVYIGSEDGFLYAVEENSGKTKWKFKTNGAIHSTPGIFENTIFFGSFDGNYYA
+VNTQNGKLIWKFKTGGEHWFGEKGIFGLKPETQYMEDLWSFYLSSPVVYKKEKQAVVLFG
+SSDGNVYSLDAKTGSLKWKFKTNGPVHGTPVIDQNKIYVGGWDAVLYALNIETGKEIWRF
+ATGTKPGFKGIQSSVAVADGKVFFGAREPFFFALEAETGKLVWKYDAENSWVLSTAVIQN
+NTIYVGTSDTYALLALDTRNGAEKYRFKTNGYIYDSPAIAGSTIYFGDFTGNFFSLDLLS
+NGKKSKTISTENRKQFAASVLKNDLLDSGHAAHYTDLSIYENNKKAMDELYKLGSIVSSP
+FISNNTVYFGSADGYLYAYNLEKES
+>tr|A0A1S1J217|A0A1S1J217_9FLAO
+MTPLKRFYHLLELDKKDIYQIFFYAIFAGLVSLSLPLGIQAIITFIQSGRVSVSWIVLII
+LVVGGVALVGVLSFMQLRITENLQQKIFVRASFEFAARLPKIKSEELYGTYPPELTNRFF
+DTLTIQKGTSKLLTDFSAALLQITFGIILLSLYHPYFIVFGLLLFLLLYFIFKFSYKSGL
+ETSLKESKFKYKVAGWLQEMARNNFSFRNELNYDFALQKNNSIVAGYLNYREKHFSVIKK
+QFTQLIIFKVIITASLLSIGGYLVLSQEMNIGQFVAAEIIILLVITSVEKIILGLESFYD
+VLTSVEKIGQVTDLALEENSESDSLNDHCYNSISLETENLKFKFPDSPTNALDSITLKID
+QGEKIVIEGENGSGKTTLIRLLSGLLRQSSGAFYINDDTFRKINLKQYRSQIGSIIHNET
+PFEGTILENITFNDPMISTEDLKWALDGVQLSPLIKLLPKGLNTHIHPEGKQLSSSNAQK
+ILLARSIIHKPKVLFYEDPTDTMDEKVANEIIDFITSDKNKWTIIVSSKNPYWKTKSTRK
+ITMQNGQIILDQKKQ
+>tr|A0A1S1J3M4|A0A1S1J3M4_9FLAO
+MTQLSFKNRIALNYIITTGLLILAVFSVIYSIVKHTVYSHIDEKIKVEIQNHLQEIKEVK
+GKVILIDEEEWNEREHNTVDVNPVFVEFLDLNKKIIEKAPNLKTQTLKFNDSVEDFELFD
+TKMGDHAIRQIQVPLHLKEKKIGYVIVAMSLADSKMVLNNLFDIMSLSFLGILILLFFIA
+RFFAGRSIKPINEIINTSKIITKDNLKTRIALPRTKDELYTLSKTINNLLNRIEHAIERE
+KEFTSDASHELRTPLTVIKGTLEVLIRKPRDNKEYEDKINYCIKEVDHLNMLVDQLLLMA
+RFENQKKNINTESVYLNAVILDVFRLNSERINNQQIKIKFDTRQDYYIESDNFLVITILR
+NIISNAIKYSHSGGEVTVLLSEEHEKTICRISDNGIGIAKQDLDAIFSPFFRSNSTEHPE
+IKGTGLGLSIVKRVTELLHIKFKMESEIGLGTTVILYFDQNKKALL
+>tr|A0A1S1J719|A0A1S1J719_9FLAO
+MSIERELNKRSGSKCELCGAEENLKVYQVLPTQKGGIDEAIFACNTCIDQIENPDNVDLN
+HWRCLNDSMWNENVAVQVVAWRMLSRMRAAGWPQELLDMMYLDEDTLAWAQATGEGEDDE
+NKIVHRDSNGVILEHGDSVVLIKDLKVKGSSMVAKQGTAVRNIRLDHENAEYIEGKVDGQ
+QIVIITQYVKKI
+>tr|A0A1S1J7P3|A0A1S1J7P3_9FLAO
+MAFQNLKKTLLTIFKWILICVLIGILSGSASAFFLLSLEWVTQFRIHHDWIIWLLPVGGL
+LVGFSYHYWGESVVKGNNLLLEEYENPQKVIPFKMAPLVLLGTLLTHLFGGSAGREGTAV
+QMGGAIADQFTKLFNLDNTERRILIILGISAGFASVFGTPLAGAIFALEVLYFSKINFKS
+ILLSFLVAYAAYFTVEFWPVKHTHYNIPVVPEISLTTLCYVILIGLLSGFAALLFSRSTH
+FWGSLFSKNIKYPPLRPFIGGIVLSIVLAGFGLTKFSGLGVPVIVDSFTNANPWYDFLLK
+ILFTGFTLGAGFKGGEVTPLFFVGATLGSALSLIIPLPIAFLAGLGFVAVFSGATHTPIA
+CTIMGMELFGIQPGLFIAIACVIAYFSSGSIGIYKSQIVKGAKYQLYQRLQRKELENL
+>tr|A0A1S1J6Q7|A0A1S1J6Q7_9FLAO
+MKSYSIQEINEVINGVIYGTTSQSITATEQLEKATTSEISFIGNKKYEKYWSTSNASIAV
+VNEDISIEPGENRAFIKVKNADLAMSQILALFAPPAPIFHTNIHKTATVDETAIIGEGAK
+IGAGCYIGPKVEIGSNTTIYPNVTILDESTVGNNTVIWSGTVVRERCHIGNDCIIHPNAT
+IGADGFGFRPCSEKGLVKIPQIGNVIIGNGVEIGANTCVDRGKFSSTILGDGCKIDNLVQ
+IGHNSKLGKFCIMAGNSGLAGSVTLGNGVIIGGSASIKDHTTIGDGAVVGAGSGVICDVA
+AGKTMLGYPAVEARDALKQWALLKRMVCDIKK
+>tr|A0A1S1J4L1|A0A1S1J4L1_9FLAO
+MKKLLLLSFAFLSLASCSSDDDTKVEIPTVGATLQPTVGGPNQPNQVYLDLSAAEFKAVN
+RESWDFGFSSGDDFRVVLNGSVKMAVKKLATSDITVSQTIDTNVSVGAGENPSSNGYVDN
+PTGVLAGAGAGVGTAIAEVSATDADNKVYLVNLGFKVSTAVPAKGSVSVDGDSRGWKKVR
+ILRSGNGYKIQYADLTSTTFTEKVISKDADFNFTFFSLATGNTVAVEPQKAKWDLNFTVF
+TNYFNMGSGDVTYGFSDFITTNAKSGTQVYQVLVTADVTYAAFAKANVVESNFTLSKTDQ
+RVIGSNWRSGGGPTTLPSIRADRFYVVKDAAGNYYKVKFLAMTNEAGIRGYVTLEYAILK
+>tr|A0A1S1J5D8|A0A1S1J5D8_9FLAO
+MKLKFNGLLVLLLVLVAQLTFAQERAVSGTVSDNTGMPLPGVSVLIKGTKTGTQTDFDGK
+YSIKASSNQVLVFSYIGMKSQEVAATSSAINVKLLDGAAQQLESVVVTAFGIKRNPKKLG
+YSVSEVKAEQITQNSEPDLSRALAGKVAGVNINTSTGVAGAANQITIRGVNSLTGNTDPL
+IIVDGIAYSNVSVTSTSQITGGGGYESALSSLDPNDIASINVLKSTAAAALYGSRAMNGV
+IVVTTKSGASKPNKTQKLNVNVGMGTYFETIANLPDYQNTYGSGANFQYSNANGSWGPRF
+DSLATIPTWPTLLAAFPDQFGPTVPYVAKPNNVKDLFRTGTVLDKTIGFNYAGQDGTFNA
+TISDLRQDGYIPYNSYDRTSMSAGGNFKLSKKFTVGANLAYSKTKQVGGFFGENQFAGSS
+SSFARTLFLARNWDLNLPYVDPVTGGSVTPNGTQFDHPLWSWQHDQIITNTDRIVAGINL
+NYTLNDNISASYRAGINKYSLARSQVRDLASRANNGLGNLLADNYVNQDIESTFLLNFNY
+ELNENFKLATIVGNNVLQNEYSRLVNEGREFIVPNIFTFKNVKSIANLTDERAMKRNVGV
+FADVTLSYRDYLFLNATARNDWSSSLPKERNSYFYPSVSASAVITDAFNIQSDILTFAKL
+RASFAKVGRDVPAEFLKISYNQGQAYNGLPRIGNNTFLGDQDVKPEFSEEFEIGTDLEFF
+RKRIVVDLSLYSKTTKDLITPVTVASSTGFTELNTNAGSIRNRGIELGLTLVPVKSKNFT
+WSLLTNFTKNENEVLTLKEGLDRIQLNANQIAYAIPGQPFGVFYGTRFARDANGNYLINR
+SGGAVIQDPSLGVIGDPNAKFRVSFANTFTYKAWSLRAQIDWKQGGDISSSTIESLLGRG
+VTRDTEDREKTFIIPGYYGNNDGTPILDANGNQIPNSTQLSMNELYFSPAGGSTFGINSV
+DEATIYDGTVFRLREINLTYDVPSKILEKTPFGKISLSFIANNLWYFAPNVPKYTNFDPE
+TTSYGNSTLQGIETSAAPTAKRWGFKINLTF
+>tr|A0A1S1JA75|A0A1S1JA75_9FLAO
+MFITSDLLEKYARKECNAAERVTVEQWLSVIDLEREVITSPQQAGLKEEIWSNIASRTIL
+AKPKSQNRFLYAALTTAACVLFGIVSLHYYNSSTFASQILVNNLNGQEIKKINIGSLSFL
+VEPGSQCNISMDFLGEASDVKFCGAVSVISDSAKVQEFNIGTGTSGCTTVYQDKVKLQKG
+QTYLAMTDADYEVITATRDEIAEGLPRVFSSRLSERFKL
+>tr|A0A1S1JAD7|A0A1S1JAD7_9FLAO
+MHKPSSLDLQILTLPDNPGVYQYYDKDGKILYVGKAKNLKKRVSSYFNKIHDTAKTNVLV
+KKIVTIKHIVVPTETDALLLENNLIKTLQPRYNVLLRDDKSYPWICIRKEPFSRIFHTRK
+MIKDGSEYFGPYTSFKTVHTILDLIKELYPLRTCNFDLSPSNIDSGKFKVCLEYHIGNCK
+GPCEGLESLEDYQRQVDAIREILKGNFKESMKDFKRLMTQYAKDLRFEEAQKIKEKIEVL
+ENYQSRSTIVNPKITNIDVFSIVSDETAAYVNFLQISHGSIIRSHTLEMKKKLEETDEEL
+LELAIIELRERFQLLSKEIIVPFEIDLGENIKTTVPQLGDKKQILELSIRNAKFYRIEQL
+KQLQIVDPDRHTNRIMAQMQKDLRLPVEPRHIECFDNSNIQGTNPVAACVVFKDGKPSKK
+DYRHFNVKTVEGPDDFASMTEIVYRRYKRLLDENEPLPQLIIIDGGKGQLSAALKSIDAL
+ELRGKIAIIGIAKRLEELFYPGDSIPLYLDKKSETLKVIQQLRNEAHRFGITFHRDKRSK
+AALNSSVESIPGIGEKTMLTLIQHFKSVKRLKLATEKEISDVIGVSKAKKIVDFYKTN
+>tr|A0A1S1J2I7|A0A1S1J2I7_9FLAO
+MEISGRITKDAVMVKVSNDREVVNFSIAINDSYRPKGSGELKKIVTYIDCSYWMGSKMAQ
+WLKKGTVVELFGRIGMNVYNNAEGKALGSLTFHTSNIKILVFPKTENTTEVPAVQKKNMD
+QDTPDDLPF
+>tr|A0A1S1J5T0|A0A1S1J5T0_9FLAO
+MAAVQADEDLVEYGYRRVIITITAVLCALLEIVDTTIVNVALTDMRGSLGATLTDVAWVI
+TAYAIANVIVIPMTSWLSQQFGRRNYFVASIIIFTVCSFLCGNATNIWELVAFRFVQGMG
+GGALLVTAQTIITESYPVAKRGMAQAIYGMGVIVGPTLGPPLGGYLVDNYSWPYIFYINI
+PLGIIATILALTFVRSPKYGEKLKANQVDWWGIILLAAFIGSLQFVLEHGQQDDWFNDST
+IITLSVVTVLGLVLFIWRELTYKHPIVNLSVLKDGNLRIGTVMCFILGFGLYGSTLIIPI
+YTQSILGWTATDAGLLLIPGSITTAIMMPFVGNMIQRGVPQGYMVGVGFLVFFFFTFMMQ
+TRMTPDTGVEHMYWPLILRGIGLGLLFVPITTLSLSTLKGKHIGEGAAFTGMMRQLGGSF
+GIAIITTFITRLGQEHRVNLLTNLDPAKYEVQQRIAGMQRAFMSKGYSADVALKKAYQAI
+EYSVMKQSTVMAYMDIFMYLGIMFLCCIPIILLIKKGKNKINPADAMH
+>tr|A0A1S1J8S5|A0A1S1J8S5_9FLAO
+MNDNHFKFTTAVIGLPVFFVLFLWIVYWVQIRFDFDFYQYGVYPRDLSGLQGVLFSPFIH
+ENLSHLYNNSIPLLVLLAALQFFYPKQSFVVIGYGILFSGLITWVIGRENFHIGASGLIY
+VLVSFIFFKGIQTGYYRLVALSLSVILLYGGMIWYVFPEVDKTISWEGHLAGFITGFVMS
+LLYKTPEYVKPIVYEWQKPDFNPDEDAFMKHFDENGNFVNTEIVEEEPEELMTYFNSDVS
+VNYIVTKPETKEDR
+>tr|A0A1S1IY26|A0A1S1IY26_9FLAO
+MVSQITRGIKISVLTSFEGTYFKNYKIHFAFSYVVTIENHSKDSVQLTSRHWEIFDSLND
+LEVVDGEGVIGKKPVLKPGENHTYSSGCLLSSPYGAMKGHFNMINFTTTKTFKVIVPTFR
+MCAPFALN
+>tr|A0A1S1J191|A0A1S1J191_9FLAO
+MKLTRLFLLALSASLFVSCSNDDSDGPKGVYDNGVFILNEGNFTDGGSVSFISDDLNTFT
+KDVYKTVNTSDFVGKYLQNIFFDGDRAYIIAGGSNVINVVDRYSFKLIAKVETGLTAPRY
+GVVKDGKAYVTNANTYWSKTNPAGNTDDFIAVINLSTNKVETTIPLNATGNHIEIFNNKL
+YVTEPYNNDKLLVVNPTTNKLETPVTIGYGADTMEVKDGVLYTIRSSFGERSEIVKVKLS
+DNSITKITFPESLDGVKNLDIYNNKIYYTLNTAVYAIDYTATTASTTPIFQYSSTSEYGK
+MYGFAVKNDRIFIADGGDFASNSKAYIYNLGGTLQKELTVGVGPNGFYFND
+>tr|A0A1S1IXT6|A0A1S1IXT6_9FLAO
+MKELSVDHLLGIKYINENDINLIFETADHFKEVINRPIKKVPSLRDITIANIFFENSTRT
+KLSFELAQKRLSADVISFSAAQSSVKKGETLIDTVNNILSMKVDMVVMRHSNPGAAYFLS
+KNVKASIVNAGDGAHEHPTQALLDSYSIREKLGDVAGKKVVIVGDILHSRVALSNIYALK
+MQGAEVKVCGPKTLIPRYIESLGVTVEPNLRKALEWCDVANMLRVQNERMDVNFFPSTRE
+YAQQYGVDKPLLDSLGKEIVIMHPGPINRGVEITSEVADSDHSVILNQVENGVAIRMAVI
+YLLASKIQQ
+>tr|A0A1S1JCC2|A0A1S1JCC2_9FLAO
+MATAVNPYLIFNGNCEEAFLFYQSVFGGEFPFLGRFSEMPEGEEGCGAPVSEKDANRIMH
+VSLPIGNTILMGSDSSEQSGDVTFGGNFSVSINVDSAAEGDRIFNGLSAGGTVYMPMAKT
+FWGAYFGMFKDKFDVSWMVNFDENQAG
+>tr|A0A1S1JCT9|A0A1S1JCT9_9FLAO
+MKQLQAVGVDDEYLALELIRNYCANTDGVNLLATFSNPQEAITFLQQNEVDLLILDINMP
+GINGIELLQNTPNKPLCIFITAEEQHAAKAFELDVVDYLIKPISIERFEKAITKAKEYHH
+FIKSKDIAEDYIMFKSDYIVNKVKLDDIFWIEGFGEYLKIVSRYKNHMVLERMAKFEEMH
+RHLGFIRIHKSYLVLKSHVKSFNSRMVQLRDGRELPIGRTYKDNLKEI
+>tr|A0A1S1J2F0|A0A1S1J2F0_9FLAO
+MVKISVLLLAFTFLSCNGQESKQTEKETSSAVKLTDDELLAVVQKETFKYFWDYAEPNSG
+LARERYHPDRIYPENDAHIVTTGGSGFGLMAIVSGMSQGYVTKEKGVERLNKIADFLGKA
+DRFHGAWSHWIDGNTGKVKPFGTKDNGGDLVETSFLVAGMITVREYLKDGSEKEKAVAQK
+YDALWKGVDWQWYTNNKNVLYWHWSPTYNWQMNFALEGYNECLITYVMAASSPTHAIDAK
+AYHEGWARSDGIVSSKTKYNIPLILKHNGAEEFGGPLFWAHYSYVGLDPNQLTDKYANYW
+DLNVNQVKIDYQYCIENPGKFKGYGADYWGLTASYSRNPDGSIGYDAHMPSNDKGVISPT
+AAISSIVYTPKESIAVIRNLYENHKKETFGEAGFYDALSLQNNWVAKRYLAIDQGPEVVM
+IENYRTGLLWKLFMNAPEVKQGLVKLGFKSGKYGF
+>tr|A0A1S1J454|A0A1S1J454_9FLAO
+MKICIINGPNLNLLGKREPEVYGSQTFEDYFATLQAKFPNIELSYYQSNIEGELIGKIQE
+CGFTFDGIILNAGAYTHTSIGLGDAMKAVTTPVIEVHISNTYARESFRHQSYLSGNAKGV
+ILGFGLKSYELAIQSFL
+>tr|A0A1S1J7X5|A0A1S1J7X5_9FLAO
+MTDEQKAVKATYFSIVGNTCLAILKGLAGFFGNSYALIADAIESTTDIFSSFLVLFGIKY
+SNKPADENHPYGHGRAEPLITFLVVGFLITSATIIGYESIANIQTPHDLPKSWTLYVLGA
+IIIWKEYSFRLVMKRSKQTNSSSLAADAWHHRSDAITSVAAFTGISIALIMGKGYESADD
+WAALFAAFFILYNSYKIFRPALGEIMDENLNDDLVEEIRVKALTVPGILGTEKCFIRKAG
+MRYHVDLHAIVSAKISVKEGHELSHKLQDTLKEKIPQLGNVLIHIEPDDYH
+>tr|A0A1S1JB60|A0A1S1JB60_9FLAO
+MEENTTTLDIRAINDKIERESAFIDLLTMEMNKVIVGQKHMVERLLIGLLGQGHILLEGV
+PGLAKTLAINTLSQAVQGSFSRIQFTPDLLPADVIGTMIYNIKANEFSIKKGPIFANFVL
+ADEINRAPAKVQSALLEAMQEKQVTIGDTTFKLDRPFLVLATQNPVEQEGTYQLPEAQVD
+RFMLKTVIDYPKIDEERFVIRQNLKGSYEKVNPVVSVEQILRAQEAVREVYMDEKIEKYI
+LDIIFATRYPEKYKLADLKPLISFGASPRGSINLANAAKCYAFIKRRGYVIPEDVRAVVH
+DVLRHRVGITYEAEAENITSVDIINKIVNEIEVP
+>tr|A0A1S1J753|A0A1S1J753_9FLAO
+MSKTKILYLEDDPDLGEITSILLRKKGFEVEWMLDGAEGLEALRDQSFDLIVADIMMPKL
+DGYSLLKQIRKDGNDIPLILLSARVLTEDVLQGFSMGADDYIRKPFSVEELTARINRFLK
+KNFRTAGEYKKKSIIIGDYEYDPENYKLIHEKRVLTLSPRSGEILYRLATNENRTLPRKE
+TLIELWGDDSFFNGRSLDVFISKLRKNLSEDPKISIINIRAQGYRLIID
+>tr|A0A1S1J1S8|A0A1S1J1S8_9FLAO
+MANVKNLKKDINFVLGDIIEAIYLFEMSTTGNPTPETNALVDQAIAAFDTLITKVNAKNV
+ENKKAHFKQINVELEETANQLIAKINEL
+>tr|A0A1S1J2U9|A0A1S1J2U9_9FLAO
+MGKETQVEEYTAIVQRAFSDRKRTNILKKAEQLTIVFLLPKVPEFISPNVLTLIGTLGSG
+LIFLAFVLGAYLTDWYLLLAIVGLIINWLGDSLDGRLAYYRNIPRRWYGFALDIIADWIG
+IVFIGFGYYIYAKNGTQIVAFAFVALYGWSIIISQLRYKITNEYSIDSGFVGPTELRFII
+ALILIIEILFHGSITYLAGLITIILFVINTIDSVRLLKLGDLRDKNQD
+>tr|A0A1S1J366|A0A1S1J366_9FLAO
+MEKLFSYGTLRSKEIQMRLFNKILTGTRDQLHGHKLKSLQIEEEFGMADYVVVVPSATST
+DPIHGVVFEVTNADLAKVDLFESNAYKRVQVTLNSGTVAWIYIENK
+>tr|A0A1S1J3Q3|A0A1S1J3Q3_9FLAO
+MNDLKKFLNEEQDPKAVEKLLTKVNGLLTSGEQVEYIAVQKKPALNLSPDCIALTNKRII
+FCRPKNLGLSMDFQDYAWKDILDCHMKEGIMGATFTMKTTTGKMNMLDYLPKSQARKLYQ
+FAQEKEEEMIVYRRERDLENKRAIAGGGITVNTGTSVPQSTEQKEDPIETLNKLKKLLEG
+EIISQIEFDSKKTEILSKM
+>tr|A0A1S1J705|A0A1S1J705_9FLAO
+MKKILILGVAISFLSSCELDREPFASYTQEKIQQDKEASIEVLLNGCYAQLKDWSDVMHR
+VGEYPGDNIMIRGTSTDSFYSFISYQHLPDNGRLSAFWNNGYKIVSQSSDLIKIIPEGEN
+PAVDQQLGEAYYLRGMIYFYLTRTYGRPYAQSPETNLGVPIVNGVPDNINNIRLPDRSTV
+KTTYDQAISDLKKAEALMTVSKSAAYATKEAAQAMLSRVYLYMSGTYENPNQEYATLAIE
+YAKKVIASGRYNLLSRDNFMKYNTFAPDSGSQTETIFAVKRVATEYSGYDHYYGIGGMYA
+NLQGQGWGEMYASGEYLDLLRKAGYKKDARWAFIDPQYTKDASGNKTESFRFIVDVKDAG
+GTQTGYNYIQQPLKTKADGSYYITISNADYNLTEINAAEKQYAITYQGKTYTGEKDYMML
+LNRVYPMFYITKCSLQDNDSHLHSPIISRLAEMYLNMAEAYAKKGDYGNALTNLNIIRER
+AIVGGGYASLNSTNAVQRIDEERQLELAFEAHRGYDVYRNGQTMTRRYPGPHLPMIDIPA
+SSPRVIQYIPQSEINAYPGTLTQNP
+>tr|A0A1S1J8E5|A0A1S1J8E5_9FLAO
+MKKMLVVLALAMVSFANAQKGTILVGGGIGYTSQTRTLGNNEVKTNEFDFSPKVGYQFHD
+NWTVGGEASFGSSKTEQGVNEVKNNTTKLGAFLRYTMPLNQTFAFFAELGTGFQSAKDKT
+YTGPMTSTAKADGMYIGITPALFIDMKKGFGLNFNIGGLGYNTLNYDNNGPEVKNFNFNF
+GRTFNIGVSKNF
+>tr|A0A1S1J8P3|A0A1S1J8P3_9FLAO
+MKLNYSDKLHKGLNKTLFFFLFVLPAYTFSQNCTVNANADRTICPGGATALPPDQFYLLG
+TANTAPGTNFMDAPKWSQIGGPAVQIDDPNALQTLIKGAVPGNSYTFRLTAKCGDDSTIF
+DDVVVTVSPLTAANAGPDQTYCQGTYPLNGNTVGGTETGTWSIVGNNSAGVTINNPNSPT
+STITVSGNSSGSTTLRWTITNASCTSTDDVVISSLGGRMPVTAGSDITLSNCYSATQTVT
+LNGSFGGNTPGQQQGTWTVVSGPSIPTFTNANQNNTTVTGLLEGTYVFRWTVAGTCANGV
+DEVTVVVPPPTADVTNVSGSTAFFCDGRTSTILQGTIPRYVNESVQWTQTGGPTAVIQNP
+TSPATAVSGMTTLGTYTFLYTLTNSVTNCVTTANYVVVLEDIISISGGPDQVLGCNDSEA
+IIPVTFTGNGQMSWQIVSGPSINPILNPPYPSFPTAPVNFSGNSLTISQLTFSGTYVVRL
+IKAPNQGSQCETVYDNVTLVVSATPTTSSAGTMQIVPCNSTSGTLAGNLVVRGKGKWSQI
+SGPSSVTFSDVNSPTTTVSPLINGAYKFRWTISGGEACEVSQSTSEVLVSSVAPTDANAG
+PDQAVCFGAKVELQGNAIQNSENGTWTVSPSAGVIISDPGDPNTRVSGLAANTTYTFTWT
+IANGCGTSADTVDVVTNGTEGADADAGAAQCFATGTGTITLNGNDPAPGTGLWTQTMGTP
+VTITNPTQYNTTVTGLSDGDYTFKWTVSNVGCADGEDSVGITIAPDITVAQAGPGQRLCA
+NNTTVTGNAPASGESGLWELVSGGDGPVITNPNSPTTTITGLTPGSWVFKWTISRGFCAS
+TSDTVQLNVDEGPSPAIAGPDQTVCNQNSVTLGATPPVIGNGIWSLVSGPNSPVFSDARA
+ANSTLSGLITGEYILEWTTSTGINCPTNQDQMTVKVTEVAAAGSDYATCLEGPLYLTGNP
+NSTGTWSYVSGGAGAPTITTTSNNSASVTNLIPGVYVFRYTIAAQGLCPETSDDIQVTVN
+GQITTPPNAGPNQEFCDVGAGGFQLAASTPDPGTTGKWTVLFGPGTGSFVNDTDPNTMFI
+NPGYGFYVFNWTVSSGTCSESDQIRIENSEPPSPAIAGGDQSICGSVTDLTAIPPLAGVG
+KWAQVSGPTTAVFSSDIMPTTTVSNLTQTGGVYVFSWTVSNGALCPSTTDSVQITVTANL
+TVPNAGPDQTICESDSATLAANVITVGTGQWSKTSGPAGVFSDASSPTSTFTPSASGTYV
+LRWTATNLSCQFFDEMTLTVNPLPSTSNAGTPISICEFQTLTLAANTPIIGTGLWTQISG
+PVTVGFTDATSPTTIVLGTQAGNYVFRWTITSGVCASSSSTVSVTVNALPPLANAGADQT
+ICNTGTATLNGNNPITGTGVWTFVTNPGGTAVITNANAFNTTVTNISVGTTRLKWTISNG
+SCNSYADEVNIVRPSDLALAGLTSDTTICEGGTTTFTASPTGSISPYTYQWQTSANGVTG
+WTDISGQTNASFSTNNALTSGAYYYRVIVSSTCTQVTSNAAKLTIIADPVVTTQPTGSTI
+CSGNTHTMTVAATTTNTAAGTIVYQWQSSVNGTSGWTNVSGGSGANTATYTTAALTSNLY
+FRAQITQSGSGCETFSNPALVNVARITTQPATPAAICVGGIVSMTIAATLDGGAGALSYQ
+WQSNSGAGFVNETNGTATTANFTSDVLNVTTQFRCLITSSTTNCILTSNTVTATVVADPA
+ISVPPTGGIVCSGGAFTLSVTGTGGTPSLNYQWYSSSDNISFAQISGATSSTYTTPVLTQ
+DTYYRVDVSATGNGCGLVSSNSVLVDVIPDPVVNQQPVGNTICSGATHTMTVAASGDPLG
+GALLYQWERSANGTTGWANTTGGSGATTASYTTGALTSTFYYRVRVTQTPNGCEVYSNAV
+PVFVATITTQPATPAAICVGGIVNISISASLNGGTGSLSYQWQSNSGSGFVNETNATAIT
+ANFTSDVLNATTQFRCVVTSSTTNCTLTSNTVTATVVPDPSITVQPTGATICSGGNHTLS
+VTGANGTPALTYQWYSSTNNATFTAIGGATAATYATPALTQTTYYKVDVSASGSGCNTIT
+SNVATVTVLSAITIVTQPVFKTNICSGSNATLNVVVAGGSGNYAYQWKSSAALAGPFTDI
+SGANSASYTTPNLTVTTFYQVAISDPTQGCIPILSSIASVIIPSITTQPVNPNTVCVGGT
+VLMSTAASANNGSASFTYQWQRSPDGVNGWANITGEIRAQNPNYLTGPLSVTTYYRCVIT
+SSNPNCTLTTNVVVATVIPDPTIAVQPVGGNICEGGVFTMTSSAQNGSGNFTYQWQKSLD
+GTTGWANVTDGSGANTTTYTTGFVNADAYYRLRVTDSGVGCGTINSNPAKVDVFDIPIIT
+TQPKDGEACINETHTFTVVATGNISGSPILYQWQSAAALAGPYTDVTAGVGGTTASYTTP
+AYATAGNRYFRVNISQAESGCRTLSNQVTLKVFDLPAAPVGLVTEQPSCTIATGTVNITN
+PDLGTGYEYSSNGTTFQASNVFAGLPSGNVTIYVRRVGLNTCISSGTTFTISNRICAVSE
+NFASISGDTGGNTGAQTILDSDTLNGVILNPSSVNVTINSISSFLTFNPANNTISVGPGT
+PPGDYTLTYTICEIVNPGTPSDPANFKNCSTATESISVTTAGIDARIDIVKYLVNGYTGA
+NNVINALTNDRLASAQATLSNVTLSVVNPAQPINSAITTVPYLDITTGNVNVPPGTVKGL
+YEIEYRICEIGAPTNCDTSSILVPVGNAEIVANDDRVENINGYVGQLNAANALTNDTLNG
+VPITGANFDEITISQNIAAIPLYPGANVPVFSAATGSISIPEGTPADTYYITYTICEKLN
+PTNCANGSIAIVVDAAPIIANDDQVNNINGYEGGVDVINVYTNAAGADTFNGQIININLA
+DVLTPSVLTPAQPKTPGAPVPELDVSTGFVTVPPGTPAGQYQIKYQICEDLNPGNCDDAT
+VIINVVVPIIEAIDDTVLNVNGYEGADDIVNIYDNDLLNGGMLDLPDITTTVISIPAAIN
+GGPVPTLDSVTGLVDVPPGTPAGEYKFVYKICENLNPTNCDQAVVTIMVVPAPIDAVDDA
+NFAPINGFVGDPNALNALNNDTLNGLAVIPSEVTITNIIPATPINGGLVPVLNAITGNVS
+VPPGTAAGIYLIGYQLNEKLNLSNNDFAFITVEVSAPLIVANDDTIANINGYVTTNNAID
+VLLNDTLNGTAANISKVNITVDAAATPINGGPVPVLEPLTGFVSIPAGTPAGNYEIKYHI
+CEKINPLNCDNATVFINVTGAQIDAVNDSAANINGFTGATNVLNALSNDTLNGAAVIPAQ
+VTISNVVPATPINGGAVPVLNPSNGNVNVPAGTAAGTYTIQYRLSENLNPANFDTATITI
+VVIAPTIIANADNAGTINGYTGGTNIINAITNDRLNGSDIQLVNINITSVSTTTPAGYVS
+GNPVPVLNTATGNVDVPAGTSAGIYVIHYRICEKLNPSNCSEADITINVIAPIIDANNDF
+ANAINGYVGANNVVNALTNDSLNGVTAQATLINISVLSTTPPPTSTNGIVPVLNTATGNV
+DVPPGTSAGTYFIQYQICEKLNPTNCDQATIIIIVNAPPIVAEDDTITNANGLSGINNVL
+NAFTNNDTYNGVLLTDVSLINPTIISGATSINGGLVPVLDLATGFVSIPAGTPVGTYQIR
+YRICDKLNPTNCDDAIITIVVAVPTIVANDDAADNINGLTGASNVLNAYANDTLNGTTIL
+QTNINSTLITAANSINGAAVPVLNILTGAVDVPAGTAAGVYSIVYKICDKLNPSNCDEAV
+IKITVAQPSIQLLKQGVFVDSNGDGYAQPGEQIRYSFVITNTGTLDLNNVVVTDPKANIT
+GTPIAVLGVGQSNTTNYKGTYVLTQADINLGYVENQALVKAQPTSGSAIQDLSDSNDLTL
+IGPNDPTITPVPQHKELTLIKGGKLTGNGGVGSIINYSFTVKNTGNVALTNLVVTDPMLT
+ATTIAVSPNVLAPGATGTATASYTVNIADVAKGVVINSALAIGDDPQGNPVTDISDSDDP
+TLTGDDDPTVVNLSLKPSIALIKTATFNDENKNGYAEVGETVTYRFSITNTGNIILVNVV
+VKDPKPGVTITGDPVILKQGETNSNNFVGTYVLTAADLEAGSVVNQAEVSAVSPDGQIAK
+DLSDGNSLLGDNPTVLPIDACKITVHNAFSPNGDGINEVFKIDGVECYPDVYVEIYDRWG
+VLVYDAHGYNNTSVVFTGISEGRATVNKQKGLPVGTYFYVITYKTYLNEPISLMGYLYFS
+R
+>tr|A0A1S1JAM7|A0A1S1JAM7_9FLAO
+MFPLQRNRRLRTNESIRSLVRETSLSPQDFMLPMFVTEGKDVKVAIPSMPGIYRHSLDNT
+IKEVKEAWDLGIKAVNIYVKISDHLKDNKGVEAWNKDGLMQQTIRAIKDAVPEMIVMPDV
+ALDPYSIYGHDGIIENGQLLNDPTVDALTRMSLSHAEAGADFVAPSDMMDGRVLAIRKAL
+EENGHHNVGIMSYSAKYASAFYGPFRDALDSAPVDSQNIPKDKKTYQMDYANRIEGIREA
+LLDVEEGADIVMVKPGIAYLDIVREIKNTVQVPVAVYQVSGEYAMVKAAAERGWLDHDKI
+MLEQLYCIKRAGANIITTYFAKEAAVLLNK
+>tr|A0A1S1JBX3|A0A1S1JBX3_9FLAO
+MLTILFVNAGNYLYNLLLGRILGPSGFADAAILITLLLVLSFIGITFQVTATKYTVLLSV
+TQSHFFLKFIFKYAMLFGVILGCIVAVFSTQLQEIFKTKTSLMFILFGLGLPIYFIMSIN
+RGLYQGKNDLRNLSKTYYFEMLCRLIVTLLLLYFLPQIQSSIIISLGILISFAFGLIPFQ
+KIIYCKNNKTLSNNLDKKSIITFFALTAFYELTQIIINNSDIMLVKHYFDNEKAGLYASL
+ALIGRVVYFVAWMFVMLLLPKVIHLKKKGEDTLPILLKYVLYIVCLSTIIVLGTLLFPEI
+VVQLMFGKKYLPIAFLLWKYALATSIFAIANIFTYYFLSINKYVPVIISAFLGLTQIILI
+VLYHNSIEQIVVMQIIAMTALLLFQLFFFFFNNNKK
+>tr|A0A1S1IYP7|A0A1S1IYP7_9FLAO
+MKEQLEEQGSELGISDLKLKGFKVYEVNGDVSKIPTYNRRDFYKICINTSKSFIHYADRG
+IETDGTILFFGNPHIPYSWEIISPSYEGYACVFTEDFLKVKDRSESLHESPLFKIGGTPI
+FSLSADQKVFIDSLFQKMIQEQETDYVFKDDLIRNYINLILHESMKMQPSENFFKPRNAS
+SRITSLFLELLERQFPIETKNEPLALKTPQDYAQSLAVHVNHLNRSVKEVTGKPTTAHIS
+ERIVGEAKALLQHTDWSISDIGYSLGFEYPSYFNNYFKRITGTIPKSLRV
+>tr|A0A1S1J389|A0A1S1J389_9FLAO
+MFNQKISFTKIVATGLLIANCHSVPVFAQTKKTTATEKKDPQRFFSKPDLMQIGVYYYPE
+QWPREQWERDLKNIKKLGFEFTHFAEFAWTYMEPEEGKYDFKWLDDALAIAEKEGLKVIL
+CTPTPTPPAWMGEKYPEIYLVDASGRRREHGNRANQSVSNEKYRAFVEKIVTELGKRYGK
+NKNIMGWQVDNEPGAPDDFSPSAQKGFQKWLKAKYGTIEKLNAEWLGSFWSIRYNNFEQI
+AIPNAEIYFEDKLSPHAILDFKRFTADSQAEYLNLQAETLRKYVDPRQWITTNYTNVVYG
+ADPRRTDKMDFATYTMYPVSGRNQLGGQNFRMGHPNKISEANDYYRSINGVTGVMEMQPG
+QVNWASINPQLLPGTVHMWISQAFGGGCSFTCTYRYRHPLGSSEMYHDGIVGTDGVTLTT
+GGKEFVQSIEDMKLLRKEYNPKAVLPADLAKRKTGFLWSHENLWDLENQKQTEFWSTWRH
+RNTYTSAVKSTGAPMDFITEEDDFSAYPFIVAPAYQLIDQKLVDKWTKYVENGGNLILSC
+RTGQKDKNGHFFEAKWSAPIVPLIGADVDFFDMLVADVNGTISSGNNTYKWNTWADVLSP
+KPGTEVLATYADQFYKGKAAAITRKLGKGTVTYVGAESKDGDLERQVVRSVYERSKVAIE
+DLPKGVFVEWRDGFYTGVNYTNEPIQLAIPEGSKILVGQNPLQPAQAIIWK
+>tr|A0A1S1J5Y4|A0A1S1J5Y4_9FLAO
+MNLELKKELPIIGIVMIPYVYLAFIWNSLPERVPIHWNMNGQIDDWGSKAFLIVLVFLLP
+VLTYAIMSSAALLDPKKRLSLMGKKFYQLKFFMVLFMSLLALFLLYVTKNQSVSNPNLIY
+VLAGILIMVLGNYFKVIQPNYFIGIRTPWTLESQEVWKATHVFAGKLWFVGGIIIILGGL
+IFSGFVFSKAFVTIGIVLAFVPVAYSFIKFKQLEKKQGKL
+>tr|A0A1S1J798|A0A1S1J798_9FLAO
+MKRTLFLFLLLTTCKVMYGQDIITVKGVVTDAQNMPMPGATVSEKGTKNTTVTAMDGDYQ
+IKVKPNAILVFSFIGTKTKEEPVKNRTLINTKLLDDANNLDEVVVVGYGTKARKDLTGAI
+SSVKGQELAKIPVQNVAQALQGRIAGMQVTMSDGTPGSEPSLRIRGGTSITQSNEPLYVV
+DGVAQTGGLSFLDPMDIESIDVLKDASSTSIYGAQGANGVVLVTTKKAKGGKLTLSYDTY
+AGIKTIAKTIPVMNPYQYTQLLYESATDDARMQKFVSAFGTYDQLEGLYKDRQGINWQDE
+VFGNAVESQYHKLSISGGENDTKYNAFYSVNNDQGIMLGSESVKNIAKLNVTNSISKKVT
+VTAIVNYSNQKVTGLSTNDGGNARLSMLQNLLQYRPTIGKTGSDEDLKTLTVDPLDNQDS
+PTFQSPLITIDSQKREAITRAINMSLQLQYNITPSLIYRGLISYTDNSMKSKYFNDSRGI
+QAIRSGGANGGVTHNIGTRLNYNNVLTYSKTFSKKHKFDASLGQEYIYNYAEGITASATA
+FPDVNLGWDKLQLGTIAGIPTTYAEDDKILSFFGRANYSYKNKYLLTATLRADGSSKFGT
+ENQWGYFPSVSAAWRIIEEPFMDKLPAFSDLKLRLSYGEAGNNRIANYAALGIFNSGSYP
+LNNQMNITAFQNNLPNPFLKWEATKSTNIGFDIGFFKQRIALTTELYENRSKDLLYNTRV
+PASSGFKKQFQNIGATSNRGIEFTLNTVNVKNNSFNWSTTFNIAFNKTKVLSLSEGENSL
+ITNSYTDRNDYILQVGKPVGVMYGYIRDGLYQVNDFDYNTTTSTYTLKPGVVRDNIVAQP
+GFIKFKDISGPNGTPDGVINDLDRTAIGDANPKYTGGLNNTFSYKGIDLSVFLDFTVGND
+IYNANVLNNSRLNLDNLNTVAIYADRWTTINAAGQRVTDPAELTALNAGKTNPAFNGNAT
+GRLYSDIIEDGSFLRINNISLGYTLPKEWLKKSKISNLRIYFTAYNLYVFTKYSGYDPEV
+SVLNNAITRGVDFSAYPRSKSFITGLNISL
+>tr|A0A1S1JCG4|A0A1S1JCG4_9FLAO
+MATEKTDILIIGGGIAGCIAAISLTDTYQVTLVDKLPEPTERIGESLAPASQRILKQLDL
+LEGLENQEDILYRKSVGMQSYWGSDKVHLVDDLRNPDGFVKNLDRQAFEAYLRSVAEARG
+VHCLWGSKLHSSSYENSRWQVQLRASDTSLYTSTISASFVIDASGRQSHFAQSLGIKRQV
+EDKLIACWVTLPNTRTNMMSTISASENGWWYSTVVPHGKRVVVFHTDADLVAKNELKTTD
+SFLELAKKNTVILSLLNEDKNAITFKGSVAANSTKLEQVAGQQWVALGDAALSFDPLSSQ
+GMYNAMASAMQLQTLLLQYGFTETLQKIYTEQTERIWSHYLKHKSIFYQAETRWRTAAFW
+ERRL
+>tr|A0A1S1JFM6|A0A1S1JFM6_9FLAO
+MKVKSLKLVVILLFISHNNIAAPSPPVPQPQSIPPPVGDPVPIDNEISILFLSGIILGAF
+FLIKKRKTSNIQF
+>tr|A0A1S1IYN0|A0A1S1IYN0_9FLAO
+MLFNKIIIPFLAFFFSSFLFAQTHIDQNGVKTSVISGLSAADMQARRYEIASVGYNSYHW
+QAGGLIIIELFQVSYGTGYERYVIENGFHQGANTGSPVVKLVESNGMYHSGRIVLGSPTD
+LSTYLGDYVNKQLPIFFDVRDYATYRIKITYLQERVDVVTDKNQIKINQTPSGVNIPDFS
+ASNELNYNLISSGYLRVSGFGNHYIQNGNVGIGTMSPDEKLTVKGKIHTQEVRVDMAGPL
+VPDYVFANDYKLKSLKEVEDYIKLNNHLPEIPSAQDIEKNGLMLAEMNMSLLKKIEELTL
+YMIEMKKENQEMKKEISSLKLKQNK
+>tr|A0A1S1IZF3|A0A1S1IZF3_9FLAO
+MQTGENEQALRKILDMTRLMSIAVLLIHFYYYCFNSFRHWNLAPDFTCRILENIYRTGLL
+DSFHKSKLFALGLLVISLMGARGRKDEKLHFRTAFYYISLGLMFYFGSYLAFVIFANAEV
+CSVLYISLCSLGYLMTLSGGTLLSRIIRRKLGSADIFNKENETFPQEERLIENEYSVNLP
+ARYHLKDKVRSSWINIINPFRGILVPGTPGSGKSYFVIRHIITQHIAKGFSMFIYDFKFD
+DLTVIAYNAWLKYRHLYAVEPKFYIINFDDLSRTHRCNPLDPAAMTDITDAAESARTILM
+GLNREWIKKQGDFFVESPINFLTAVIWYLRKYNDGEFCTLPHVIEMIQADYESLFTLLRT
+EKEIEVLINPFVSAFLNEAVDQLEGQIASAKISLAKLSSPQLYYVLSGSDFTLDINNPSD
+PKIVSMGNNPQKIQTYGAVLSLFVSRLIKQVNQKGKLKSSLIFDEFPTVYLNNIDSLIAT
+ARSNRVSTCLGIQDFSQLRKDYGREQADVIINIVGNIICGQVSGDTAKQLSERFGKIMQD
+RESLSINSSDTSISRSRQLESAVPPSKISSLSSGEFVGMTADNPDCRIELKTFHCEIIND
+HEKIKKETDNYQEIPIIRTIDNAIIHKNYLQIKIEIQEIIHSEMERIIKNPALSSLVLKK
+EK
+>tr|A0A1S1JBV3|A0A1S1JBV3_9FLAO
+MKPNFIKRISQILFLSVLFSSCSSDLDFDQTKDFKLEPAFVANLAYFNVPAASFVDNGTE
+QQIGFDVQEFDVFKEKYFNDHLVKAEFNFEMENTINRAFTLNVLLLNDNNQILQTITLAV
+PAYAGGTNVIKYPTEVFENQRLDLLKQTRKLGFVVVMAPGPPLNGNSTGSLKLRSSATAY
+MVIQ
+>tr|A0A1S1J4D6|A0A1S1J4D6_9FLAO
+MQISVIMQNFKTIAIWLSIVVIVWFYKDYQFQKKENIRQTENVSQLRKSDSLRFTSQVLT
+HKEIEEHLNYSDPELKKKLDAANIKIARIESIVSQTLKYRDTTKKETDVSGLVDAIKNSI
+PKEQSWSDTTKCMTVAGVASFDGQKLKVIVNERQFKNKSDAVAYWERREWNFLGIKTRFL
+GKKQFTAKTFDECGESRIMKIEKKK
+>tr|A0A1S1J4Y1|A0A1S1J4Y1_9FLAO
+MSIIIKVHARQILDSRGNPTIEVDVVTENGVLGRAAVPSGASTGEHEAVELRDGGKAYLG
+KGVLNAVNNVNTVIAEELVGTSVFEQNTIDQLMIDLDGTPNKSKLGANAILGVSLAAAKA
+AANELGLPLYRYVGGVSANTLPVPMMNIINGGSHSDAPIAFQEFMIFPVKATSFTHAMQM
+GTEIFHSLKKVLHDRGLSTAVGDEGGFAPNLAGGTEDALDTIKLAVEKAGYSFGDEIMIA
+LDCAASEFYVNGKYDYTKFEGETGKIRTSEEQADYLAELAAKYPIISIEDGMYEDDWNGW
+KYLTDKIGDKVQLVGDDLFVTNVARLSTGIEKGIANSILVKVNQIGTLTETIAAVNMAKN
+AGYTSVMSHRSGETEDNTIADLAVALNCGQIKTGSASRSDRMAKYNQLLRIEEELGSTAY
+FPGLNAFKIK
+>tr|A0A1S1J4C7|A0A1S1J4C7_9FLAO
+MTKVAVICNYKLLPERVGGMDYFFWDFDKKCKENNIDIDWFFPNNSNHGNYPNLTIYSSQ
+EQTPENNFLFFCKEYKPEYTHIITHFVELCTSFFYKVKKVSNAEVIAVDHNPRPLNGYSL
+KKKINKKLKGILFSGYIDVFVGVSNYTVKEILNDFGTHIKAKTITIYNGVIIDSILTRAN
+RANNHPVFLVASHLRESKGIQDLIEAVYLLSAEIKNEIKIGVYGEGPYEQHLLEKVKEYK
+VQDCFIFMGSKPNLNEIFSQYDYMLQPTHMECFSLSILESLAANVPVITTNVGGNTEAIT
+SGENGYIFEPKDVKALAGILEDVYSGRKKISVNTRELIANSFSLPKMVENHFALLKQKGV
+KF
+>tr|A0A1S1J5D2|A0A1S1J5D2_9FLAO
+MRLHRNLVYTTIDSLNAIFNEGEYADKVVARALKKDKRWGSSDRKFVAETIYEIVRWKRL
+YAEIAEVKEPYDRDNLWRMFAVWAVLRGYPIPDWRQLEGTPERKIKGRFDELSKIRALKE
+SIPDWMDELGVKELGEKVWAKEIAAQNQPAKVILRTNTLKGTKENLRNTLMDLNIETEYL
+KDQPEALVLKERANVFLTDAFKQGLFEVQDANSQLVAGFLDVKPGMRVVDTCAGAGGKTL
+HIASLMENKGQLIAMDLYESKLKQLKLRAKRNGAFNIEYRIIDTTKVIKKLHEKADRVLI
+DAPCSGLGVLKRNPDSKWKLQPEFIDNIRKVQAEVLESYSKIVKPGGKLVYATCSVLPSE
+NQEQVEKFLKTEIGKQFTFIKDRKILASESGFDGFYMALLERKATN
+>tr|A0A1S1J8A2|A0A1S1J8A2_9FLAO
+MIVITNPSPIKNETHIVHTLFEEGLALLHIRKPDFSENEMARFIQQIKPEYRSHLVLHSH
+HVLAEHFGITKIHFSERERKNNFSIDSDQKAFSTATHSIEDFNSLSSAFNYAFLSPVFKS
+ISKEDYHPKTNLFEALNSRTNHKTKVIALGGIDAKNIKKTLENGFDDVALLGSIWKNENP
+IKQFKLCQQIVQSHFQ
+>tr|A0A1S1J1B7|A0A1S1J1B7_9FLAO
+MIFSLIIPVYNRPDEVDELLESLSKSDYNEAFEIVLVEDGSSIPCKDVVMNYQGKLNISY
+YFKENSGPGDSRNFGMQKARGDYFIIFDSDCIIPSNYLTEVRKALNAGYVDCFGGPDKAL
+DSFSDIQKAINFAMTSFLTTGGIRGGSEKINKFQPRSFNMGISKKAFIASKGFGNIHPGE
+DPDLSIRLWNLGFETRLFPEAYVYHKRRIDWEKFSIQVNKFGIARPILNSWYPEHNKLTF
+FFPTVFIVGLLLAFLLLIFNIDILLQLYFVYFVVIFLTAAIQNKSIKIGYLSVIAVWKQF
+YGYGTGFLKSFLKVIILKKKPQEAFPKMFFKI
+>tr|A0A1S1J091|A0A1S1J091_9FLAO
+MIKTVIFDMDGVIVDTEPVHRYAYYKQFAELNITVTEEMYTSFTGFSTRNTFQTLKELFP
+TIEHEVEDLIQRKRNIFNDAFDTKEDLYLLEGVEDLIKDLYANGIQLILASSASKVTIER
+VFTRFNLHQYFTDIVSGEDFPQSKPNPAIFVHAASLSKAPKENCIIIEDSTNGVKAAKGA
+GVYCVGYNSHHSKLQDLSDADLIINHFAELNAQKISQLDA
+>tr|A0A1S1J112|A0A1S1J112_9FLAO
+MKLTREIKTAILVIASILLFIWGYSFLKGKDLFTDYQTLYAEYDNVEDLSASAPVTINGL
+TIGKVTKITINEVTGKLLVELQLKTDFPISKTSQASLYSPSLIGGKQIKIVPNFADKELA
+VDGQTLASVVEPGLKESLGGKIEPIQVKLEKMLVNIDNLVSGLNNVLDKKGQEDLKKTLA
+ELSQTMEQFHKASGSINTILDTNKGQINGVVSNFNKMSSNFNKISDSLNKADLGKTVRNL
+NQTLAKVDGIMSNLNSGKGTAGKLLNDDALYNNLAKTSKELELLLQDVRLYPTRYVNVSL
+FGKKNKPYVAPTEDANTTTKK
+>tr|A0A1S1J4P7|A0A1S1J4P7_9FLAO
+MPDIVHVKYNQTGKSKKTNEFGMREMQERAFEARTAQYLLIKAPPASGKSRALMFIGLDK
+LIKQGVKKVIVAVPERSIGSSFSRTDLMKDGFFANWEPNDIYNLCTPGGESSKVKAFSKF
+LNSDEKILICTHATLRFACEGIDEKTFDNTVIAIDEFHHVSADGNNRLGEVLRSIMTKSK
+AHIVAMTGSYFRGDSVPVLLPELEAQFTKVTYNYYEQLNGYEYLKSLGIGYHFYQGKYFK
+PQDDTGISAIAEAIKENQKTIIHIPSVNSGESSKDKYEEVNHIIEAIGELEYQDSNTGLL
+HVRSYKSGKLLKIADLVNDNQKERDKIQEYLRVSRNADDVDIIIALGMAKEGFDWPFCEH
+ALTVGYRGSLTEIIQIIGRCTRDSENKTHAQFTNLIAQPDAEDGEVKLSVNNMLKAITAS
+LLMEQVLAPNFKFKPKFPDEDESEDDDETIRIKGFKTPTSQRVKDIVESDINDLKAKILQ
+DDKMIKALPGNVDPEVINTVLIPKIIRETYPDLTEEQVEEVRQYVVVDSVIKNSTIETQG
+DKRFIRMADSFVNIDDINIDLIDQINPFQKAFEILSKSVTASVFKAIQETIDATRIEMTE
+EEAVVLWPKIKNWRAKTGTEPSIQSFDPQEKRMAEAVIYLREQLRKKKANG
+>tr|A0A1S1J6F6|A0A1S1J6F6_9FLAO
+MKKINIKTTATVIAVFAILILGCKKNDILAKVDSDYEYLPQDVQDSCSVSEDEFKTWFKT
+KKITENGLVEPANSVDFPHRNNCDFYKWSEQMFLWITSPVSDGDYKSGGTVIESPVFYNV
+SAEDPVTKKRVLTPHKPNTLLSAVSNISQTGPNRLPIIIDKKGRAFEVEPQSKNEAVKDA
+SNKSVIVGGVIANANGVHSFIDTKGKAISKPKAIIDTKGHRENIVQEFITKDNKTLFLDS
+KGDVIDTEQGQAGSNGALVAVNKSLVYYITMVNDVYAYFLTGVQNKKLNGNQFPTTASAR
+DSILAYAKSSGFAAPPDPDALAIELKTSWVEVKDLPNPESYVTIKAKIPVYDKSDPKLWK
+LTNKTTTATLALVGMHIVGSVAGHPEMIWATFEHQKNAPNEAYSYRDVNGKIKQVKADGG
+KDWLFNVNADDTTKNTQKMTVENNTIKITDPAIDKPNIKRVMAWGVASDTVPNQENRTPA
+DSNSEVIAINNSIRKMLAGNDIRKNYLLIGATWTFGGAGPNGNSYPYGGNNGDAIGTGRL
+ANSTMETFFQSPSSNSVPDGNYKSVTSCFFCHSGGNSVKPDSLSHVFTHIIPLSTKTRDL
+LKRKIN
+>tr|A0A1S1J7Y5|A0A1S1J7Y5_9FLAO
+MDNEKLKILRNEISIPLNQAIRLLKKNNDDIELCEREFHNDNVKTISIKTECDYDVAKEN
+YELCNYDVVKTVERINQKPIIITTGKATDSKIGFVLWPENGKGEFYKTVKRNDAFIPTED
+FDLFLKEFQSVFPLRNPWNDIIEDEFDKTGHNFFDHKTIRLIVEKIKLIENENEKENAFL
+LETINWLNDKLVYAEYIVVYGNL
+>tr|A0A1S1J902|A0A1S1J902_9FLAO
+MKFTRIIALIAIAGLVLVSCKKEEDKNLANIKNIESAPKEHKAIAAENVQTSSFKIEGMT
+CAMGCAKTIEKELSNLDGVEKATVDFEKKTATVVFDKTVQNQQNLTKTVQATGDGKTYKV
+LDIKS
+>tr|A0A1S1J9Y8|A0A1S1J9Y8_9FLAO
+MKKRLLVFGYVFLLPMIYSCNNEIEIPKLECTHPNLVINQKVQKVKDFSGPVPKQYGYDD
+TIEAYVVSSDEGGNFFKILFLQTIATDETPAIGFSIAVDVTNTYIDFRVGNKVYIKLKNQ
+FTDLYFGGLRIGSLSVSNSGDPTIGRISQTDYKTVLNGSCTIMNESKLVQVISVEEALND
+DKLNTLVELSGVQFAEEAIGRHYFEESNNVGGSTNWNLQDKSGNQIIFRTSSYAGFANKL
+VPEGSGKVRGVLTKYGSDYQLMSRSEKDLEMNGKRDIPIFVEDFQSVKNNVNFTLPGWSN
+IVEKASKLWESMLYAGNGYAEFNTTSTTAAENVAWMVTPKINLSGYKNAVLSFRSAQHDL
+KIDSPSNVLEVYVSTNFDGSSVTKAKWTKLTAKFPSLSTPSRVFISSGAIDLSSYSGSIN
+IAFKYLGSGKDKTLNGAFMVDDVRIFAEK
+>tr|A0A1S1JD74|A0A1S1JD74_9FLAO
+MLFGCKSKPINQIVDKKREGTWIDNYKQDSTVYKSFEYYKHDQPIKKWKSYINGKIYKTE
+KYKNGICLVKYYYENGKVQSKGKTKIEVNSVETHWFYFGDWKFYSDKGKLVEVKKYDNGE
+LVSERMVENQENRIKRIE
+>tr|A0A1S1IZE1|A0A1S1IZE1_9FLAO
+MKDSIAETILKASRTSLLSYYLTSRGQNIKQNWQVVKTTLKYHYKIEDYKIWEYYIDLLR
+FFKKDLSTEMLACPENLNEAHDRLVTKKRKVQRKKHLLEIRSEMREAQQIYAKQKKPFFG
+LCFSKENLSISVIETVKDFMDQGDALHNCIFTNV
+>tr|A0A1S1J499|A0A1S1J499_9FLAO
+MSLKIGDIVPNFTAKDNHGEVFESQSVLGRKPLVIYFYPKDNTPGCTTEACSFRDQYEDF
+KDLGAEVIGISSDTVKSHHKFANKHQLPFILLSDQDKKLRHLFGVRNTLFGLLPGRVTYI
+IDKNGVVILIFDSMNAEKHIQKAMETIKELVL
+>tr|A0A1S1J0T8|A0A1S1J0T8_9FLAO
+MKELVNKLKGDRVIWSFVALLALFSFMPVFSASSNLAYIGHGTGNTLGYLVKHLAHVCIG
+FLIIYWVHRVPYHYFRAISKIALPIVWFLLLYTLLKGTVIAGANASRWIQVPFIGITFQT
+STLAASILFIFVARYLSKTKEENEPFQVSLIQLWLPVFITLALILPANFSTTALIFAMVI
+MLTFIGRYPLKYIGFIIGSGIAMFAFFLLVAKAFPDSRFFSRVSTWGSRIENFTTDKPDE
+DDYQIEKAKIAIASGRLGGVGPGKSVQKNFLPQSSSDFIYAIIVEEYGLVGGVAILILYL
+LLLFRFVIASHKANTLFGKLVVVGLGFPMIFQAMINMAVAVELLPVTGQTLPLISSGGSS
+IWMTCFSLGIIISVTKKEEEIAEEQEEKERRREALQRLIDKELAEEDLPADEKIYEEEGM
+YSIEDNSRNPMNAVLNK
+>tr|A0A1S1JCN0|A0A1S1JCN0_9FLAO
+MVIPKIIFGIDGKEISHFTKIDLKQTINAHHEFSISIPHSVIERPRAYTMESAQECLGKV
+LHIRLSGNNNFLGIITNVRYQQELGHVGSQIVISGYSKTILLDYGQKLHSWENLNLKDMV
+HDLIQTAAGEQLQYEIEPEFTSKIEYQTQYLESDFKYIQRLAKQYNEWLFYDGEKLFFGK
+PQQESSPIKLIYNKDLFNLSISVEAKPHQYSGYTYNENIDQLYQAQTDDSIVEGLPKLGK
+DAFEASKKLYSTASYEFGQFSTGDDVYFESILKKKQESIAAEGNYISATSSNPKLRIGSI
+INIESQQILDKSEVLQKGLSTNKTQFESNEIGTYIITEITHKATEIGEYENSFRALPAKI
+KKLPEPQVGMPIAQEQRAVVVANDDPSGNGRVRVELLWQKKQQSRTPWLYVLTPNAGTSD
+VVNRNRGWVTIPEVGDHVMVSFRYNDPNRPYVIGSIFNGKTGEGGKLDNHIKSFFTRCGS
+TITFDDKQKSILIKDPSDNSVYLDGEGNITVNAPKNMTINVGDNLDITVGKNMTVGVGGN
+KKTTIDGNNSLKVGKSSTVDITELYKLITNMYEQKVSGDKTVKINGNLNKTTATTTHKAI
+GGDILIKSSGISKVLGAIDAKVNKG
+>tr|A0A1S1J1B5|A0A1S1J1B5_9FLAO
+MKNKVIYPLIGILFLSLSAFAFHKFYVGVFQVNYAAEKKMIQITSRIFIDDLNNGMEKKY
+HKKTFVGTDKETEADVELLKKYLAENFIIKINGQSKPITFLSKEIEAGDVLVCYSRIKDI
+DKFKTIEISNTILVDWNAEQQNITHVTAFGSKKSVLFTESSRKELLKY
+>tr|A0A1S1J274|A0A1S1J274_9FLAO
+MTLSFWRYAHLALALFSSLFLILASATGIILAVDAMQEKTLPYRAENFDKITLEEALTVL
+KKNYSEITTINVDHNQFVTLQAIDEEGNDVNVYIDPKTGKKLGTPLKKSEFIQWVTGFHR
+SLFLHETGRFFVGVISFLLVLIAISGFALVLNRQRGIRNFFSKVVKEYFAQYYHVVLGRL
+ALIPILIIALTGTYLSLEKFNFFMDKKDQEKVKMVKAAVSKEEKETSVFKHTLLADVKQI
+EFPFTDDPEEYYIIELKDREIEVNQVTGAIVEKKLSPMTAQFSDLSLDLHTGRANGIWAF
+ILAIASINILFFIYSGFAITLKRKSSRIKNKFKSGESEFILLVGSENGSSLRFANAILKQ
+LIDQGKKAFITELNSYTTFPKAEHLIVFSSTHGLGDAPSNGNKFISLLKKYPQQQKITYS
+VVGFGSNAYPDFCGFAFEIDKQLGNQNWAERLLEVQTVNDKSAVEFVNWIRLWSAKMGIP
+LSTTPSLYNHVPKGLQKLMVLDKTLISETEQTFLITLRANMRAKFTSGDLLAIYPANDSR
+ERLYSIGSHSGNIQLVVKLHPHGLGSGFLNALAPGNVIKARIINNKAFHFPKKIPQAAFI
+SNGTGIAPFLGMIEQNKAKTETHLYSGFRMETETVSGYKKFTTEMIQKQKLHSFHLALSR
+ENEHFYVMDLIKRDADFFINLLQKGGVIMICGSLAMQQDVEAILDQLCLERNVKNLSEYK
+KNGQLLSDCY
+>tr|A0A1S1J582|A0A1S1J582_9FLAO
+MSIIKELEQLSASLEGTLLYDDLHKTLYSTDASVYRIKPNAVAIPKTIEDIAKLIKFAGQ
+HQMSITPRTAGTSLAGQAVGDGLVVDVSKHFTKIISYNAEKKTVTVEPGVIRDELNLFLK
+PHGVFFAPITSTSNRAMIGGMVGNNSSGTTSIRYGVTRDKIAEVKALLSDGSEVVFQDLT
+SAEFIEKTKGDTLENKIYKTIYDELSVVATQEEIVKEFPKPEIHRRNTGYAVDILLKSDL
+FGGTEPTINLGKLLCGSEGTLAFTTEVTLKVDDLPPPHSIMVVGHYHTIQESLESVVVAM
+KHHLYTAEMIDDTILDCTKTNREHIKNRFFLVGEPKAIMLFEVASHTLEDAERQADALIA
+DLEKNNFGYARVKIYGNDIDKANELRKAGLGLLGSIVGDNKAADSIEDTAVELSDLPAYI
+AEFSAMMKRHGQEAIYYAHAGAGELHLRPVLNLKKTSDLKLFRTIATDVAVLVKKYRGSL
+SGEHGDGIVRGEFIPYMIGESNYELLKRIKLAFDPNSALNIGKIVNALKMDENHRVVSGR
+VEPDIKTFQDFSDSLGILRAAEKCNGSGDCRKLPSAGGAMCPSYRATKNEKETTRARANA
+LREYLTYSEKENKFDQKELYEVFELCVSCKACASECPSNVDVATLKAEFLYQYQKANGFS
+TRNKIFAHNAKLNKMGSLFPSITNFISNQSLVKKSMGIATERQVPLLAKKTFRKWYENHK
+PQQKNFPNGQVYLFNDEFTNYYDVNIGIDAFELLTKLGYEVLIVDHEESGRTYLSKGFLE
+EAKKIADVNVAIFKDLVSAKAPLIGIEPSAILTFRDEYLRLATNKEAAEKVAKNAFTIEE
+FFKREIVDGKITADSFSAEKKEIKIHGHCHQKSLSSVEATFAMLNLPTNNVVTIYNSGCC
+GMAGSFGYEKEHYQVSMQMGEDTLFPKVRATAQEVKIAAAGTSCRHQIYDGTSREAQHPV
+SILRNCLK
+>tr|A0A1S1J9B8|A0A1S1J9B8_9FLAO
+MELKFSHIDILVNDLQSACDYYVKILGAEISKKFTWERDELHVVYAVVRIGQERFMLVQP
+FSGNLKKLLDTKGEGTIYRHCYSTPNIEAAFDELVNSGVQPEDENGNPLSRESLNTPSGV
+RIIWLPKRFGEFSIEILEEKGLQQFMNEAFSAS
+>tr|A0A1S1J9H9|A0A1S1J9H9_9FLAO
+MSTIPDQHYIDRILRGETNAFAVLVDRYKNMIFTLALQMVKNREEAEEVSQDTFIKIYNS
+LSKFKGDSKFSTWVYKVAYNTCLDRLKKNKKEDLNISIDEFSAHLIKTMDNALSALEDKE
+RKQTIQNCLNLLPAEENFLLTLFYFEDQSLEEIGKVMGITANNVKVKLFRSRQKLAVILK
+KQLEPEIV
+>tr|A0A1S1J1M0|A0A1S1J1M0_9FLAO
+MNKIDQRILRLMDVLLFQKVISTIGNFCDVIGMKQQTISKIKKGVAHFTVSHIETICQKF
+NVNANWIFGREKNVFNIVGSIEITDI
+>tr|A0A1S1JFN8|A0A1S1JFN8_9FLAO
+MKHKHTEGLQCSCCSPLWKMLLPNTNGMAIMTDKNNELEKHPSCKNLIFRTGVKEDSTGS
+KQVGYIQTLEGGKDVMVEAIAISEGKIVATGSYKTVVAQMPPGTSERIIDGGKILLPGFI
+EPHLHIISSAVFKKATDVSPFSGQDLRSSIAETEEGKYSRRWVLEELKKKVTNDKNVWII
+GRNVDPALFEGSDKEFNAKILDLVSTIQPVFILNSSMHLAYINTVAVTLLKSQIPKISTN
+GVLKEVEGIEPVLAVVAKSLHIDPILALEKLAEEVKEIFKEASRRGVTYMFDCGIEPYDN
+SPNREVLNLNQPLFLDFLAHQKSCPVRIGGALVALSLEKFNTVIEGKYKPNKGNNKFNLA
+YIKLIGDGSNQGLTGYQYTPYACDANYKPYDMVCCHSQNNTGVFNFGYPLEFNALVSKAK
+VNNWPVMIHANGDHAIDRTINAFKFAGINKSTINIRRDRIEHASLLTDKNLKDMQELGLS
+PSFLIGHVGYWGWVFQQTIFGKEKVNLLDRCQTALENGMRITLHSDNSVTPLGPLRMMEQ
+SIARVMEGTPKKTDYQVLNEVECITRFQALKAMTYDAAWQCHADQWVGSLEVGKCADFVI
+LSESPLTYFNKEGLNSVAGMRNILVLETWKDGEKVMDIQGDL
+>tr|A0A1S1J2P2|A0A1S1J2P2_9FLAO
+MNSRRSIKNLVIQLVSYLYVLLFVYAAISKLLDFENFHVQLSQSPLLSAFSSWIAVLVPI
+AELLTAILLITSRFRLWGLYFSLILMEMFTVYIFIILHFSSFIPCSCGGVLEKMSWNVHL
+LFNLTFIILAVLTILLSSNGGERKYTFKSYLKPVRLICFCLVFSVVSVTLLFLSSENIMH
+YNNPFIRRYPVHAAEFIYEIDLKFNSYYFAGSDEKKVYLGNYTNPSQVLLIDNKNKQIKR
+VRISFSPNKIPFKNISIAVRDSSFYLFDGSVPKYFQGSLKNWKINNDFDGFPYFTKALPL
+DDFSAVFRSNNAKNAANVLGIYNTSDTSGRIKYKRDLLERQTDGIFDTDGMLLYSPKLKK
+IVYLYYYRNEFIIADKLGNLSYRGHTIDTIKNVKIKTASLNNDKERTISSPVYIVNAHSA
+VYQNLLFVNSKIKGKNEIDKLWERSSIIDLYDIKTNKYLLSFPVYHIGKKRLRSLTITEE
+NLYALIDKTLVVYKFSDIIKKEISSH
+>tr|A0A1S1J2X9|A0A1S1J2X9_9FLAO
+MGNITDLIKDVAGKNQIIETFAAKVIEINNEIESFHNPEDAYTVNIMRADGAILKNVRLK
+ASIQDLEQGIITIPKKDSWVLATIIDGVETRAFISQYSEVDRLMGRIQGTNEPKLLFDYS
+SDGELLQIRYVKTDLITETNETKIIDVAKIEFNKDRNFKVSYFDDDEKPLAITHFTSDSL
+ITTFNAIKDKQVKECLALTLKKNEASLKLNNQEGKKQSTITIDQHKISGLLFNDQEAEKL
+VFELNSENDSIQLRKNDKNLIELKGKTAITLKSEGDINIEAKNINIKSTEKININATGDT
+IISGEKVKIN
+>tr|A0A1S1JAM5|A0A1S1JAM5_9FLAO
+MKKNTIIDYLTYGSGQLINLIAPLLVAPKVISVCGIEHWGKIGVALSVFTLLGLFIDFGS
+NILGVKEISINKDNFSKIQSYLNTSFAIKLIFFFILLFLIIVVSLIFNTINQKLYLLALT
+LLSAQFFNITWVYQGLEKFGIINRLIFFSKAIYVLLVYILIREKEDYYFVLFLLGAANTF
+IYLFYFIKIWKSYKLSLLDVKGDLIKKQFKNEYAILVSNFSIAIYVQSPILIIQYLLGDY
+YAGIYKIGDMILSVFRSYLSVFFNVSFPKFCERYSQNKKEGILFLKKINCINTLLLVLGV
+LVILIGGTISMNYYVINDDINNLLGFYSGFLIVPIITALNIPFYQYLIYKNEQKVLSKIL
+SFGSVMMLISGYLLTLFFKLKGSLISVFFIEGLITTLIILLCFKKYKISLRTFQINK
+>tr|A0A1S1J6S0|A0A1S1J6S0_9FLAO
+MELKLNKPICFFDLETTGIDIGKDRIVEISIFKVFPNGNKESKTWLVNPTIPIPPQTTAV
+HGITDEKVANEPTFAELAPQVYNMIKDSDLGGFNSDRFDIPLLAEELLRAGVDFDMKNKV
+SVDVQTIFHKMEERTLSAALKFYCGKSLENAHSAEADTMATYEILKAQLDRYPELENDMK
+SLSEFTTRKKIADFAGMIAFDKDNEEIFTFGKHKGAKVEKVLESEPGYFSWIQNADFPLY
+TKKVLTAIKLRKLNTK
+>tr|A0A1S1JA42|A0A1S1JA42_9FLAO
+MKCVLVTGGSRGIGSAICKKLAVDANYHILINYHSNKTAAEVTLQEIQKLGATGEILGFD
+VSNFEDVQKTLTQWQEANPEAIVEAIVNNAGITKDGLFMWMSPEDWNGVVNTSLNGFFNV
+TQFFIQKMLRNKYGRIVNMVSVSGVKGTAGQTNYSAAKGAIVAATKALAQEVAKRNITVN
+AVAPGFIKTDMTSELDEKELLKLIPVNRFGEAEEVADLVSFLISKKSSYITGEIININGG
+IYS
+>tr|A0A1S1JA94|A0A1S1JA94_9FLAO
+MENDFKETSNNFNDQIPVFKVDPIMVLLFSFLTCGLYLIYWNIKVSEVFNAVAGKEVISQ
+PVAIFAGCCMPVNIYFYYLAGKEALPKVYQRTGELQKDQSTLLIVLGFFFPMAAAMIVQG
+DINRLYK
+>tr|A0A1S1JBN4|A0A1S1JBN4_9FLAO
+MKNAVQVGFWEKLARIILKNRISILVGVAALTIFLGYQWKNLSMTYTEANLLPKNHIANK
+DYQKFLDKFGEEGNLVVIGFQDKKFFTPKNYAAWNELMTGLKKSKEVDLVVSLNDLKKLE
+KDTVNEKFVLAPFIDQSKAIDPEYLKKIQYDLFHNLPFYEGLLYNKESGSIRSAIYINKA
+LVNTAERKTFILENLVPKIDKFEKTTGIDLRVSGMPYIRTINADNMKGEIGLFIGAALLT
+VSLIFFFFFRSYRATFISICILIVGVIWSFGTLGLFHYKITILTAIIPPLIIVIGITNCI
+FLINKYQQEIKLHNNQAKALQRIISKIGVSTLMTNLTTAIGFATFMITGNDLLFEFGLVT
+SINVISVYLLTLLIVPIIYSFMSVPGEKHLYHLTKTYISTLLDFVENVVKNKRKVIYIIY
+GLLLAFSVIGVTQMKVSGSLIGEMPKSASFFKDIIFYEKEFNGVMPLEIMIDTKKKKGVM
+KASTIRKMDELQNTITEMPELAKPVSIVNLVKYSKQAFYNGNPEYYQLPTSQEQTFILSY
+AKNATKNSKENLMKAYVDSTGQYARITTFMKDIGTDEMAKVEKKLHSKIDEIFPKDRYEV
+TVTGKALVFQKGTSYLVDNLIESLIFAILVIAVLMLYLFRSFKMVFASVITNILPLCITS
+GLMGYFGIPLKPSTILVFSIAFGISVDNAIQFMAKYHHDLLQNNGKVKKSVFSALRETGI
+STFYTSVVLILGFATFTLSSFSGTIALGGLISCTLAFAMFANLLVLPALVLTFEKKKAKK
+EDLENLQG
+>tr|A0A1S1IZS9|A0A1S1IZS9_9FLAO
+MATQKKLIKVHPTDNVAVALVNLSAGEVIDFEGSAVTVESDVKMKHKIAMVPFNTGDRII
+MYGVLVGKASAKIGKGGLLSTANVKHESDKVTGKTETIGWTAPNIEKWKDRTFMGYHRED
+GQVGTENVWLFFPLVFCENRNIEILKDIFEKELMKPKENDYQLLLRSLVKSETGGAGNEA
+ASNEANLFNNIEVKFITHQGGCGGIRQDSHSLAKLLAGYVNNPNVAGATVLSLGCQNLQI
+QIFKDALDAINPNSKKPVLIYDQQQIGTIETMLSSVVKDTFEAIKKANEVQRTPAPLSKL
+KIGLECGGSDGFSGISANPTLGVTSDLLAALGGTTILSEFPELCGVEQELVNRCVEEESG
+ERFLELMKWYEKTVVDAGSGFDMNPSPGNIKDGLITDAMKSAGAAKKGGTSPITGVFDYG
+EYISKPGLTLLCTPGNDVECTTAMVGSGANMVLFTTGLGTPTGNPIAPVVKISSNTDLAK
+KMSDIIDIDTGGIITGEKSIDEMADEMLEFIIDVASGTIKTKAAILNQNDFIPWKRGVSL
+>tr|A0A1S1J244|A0A1S1J244_9FLAO
+MKDNKNNKRNKGGRLPKDDPSIHRHVFRLTDAENARLLSLFETSGMPNKAKFIISLLFSK
+DMKSVKIDKGTVDFYMRLTSFHSQFRSVGVNYNQIVKLLYRHFSEKKAAAFLYKLEKQTT
+EMAVLCQKIIDITNEFEAKFLKKQS
+>tr|A0A1S1J3H0|A0A1S1J3H0_9FLAO
+MKKIILLGYMGCGKSTIAQNMSKITNIPFLDLDKCIEDRTNLSINEIFEKHGEIYFRKLE
+HEMFVELLQSPEKSIIGLGGGTPCYANNHELLKGDDVVSIYLKASIETLYGRLVHNKSKR
+PLIAEMNEEEMKEFIAKHLFDRSFYYNQAQYKVTVDDKTVEETVQDILAILA
+>tr|A0A1S1J8S4|A0A1S1J8S4_9FLAO
+MSTQKRLFLLDAYALIFRGYYAFIKNPRINSKGMDTSAIMGFMNSLLDVIKREKPDHLAV
+AFDKGGSDLRNELFPEYKANRDVTPEAIKIAVPYICELLKAMHIPIIEESGFEADDLIGT
+IAKQAEKQNYKVFMVTPDKDFAQLVSENIFMYKPARMGNGIEIWGVPEVLAKFEIERPEQ
+VIDFLGMMGDAADNIPGLPGVGEVTAKKLLKEFGTMENLLANTDKLKGKMKENIEANKEK
+GLLSKKLATILLDCPVTFDENDYELTRPDIEKTEAIFQELEFRRMAEQFDNLFKTGGENE
+TTSAPVSDAKLYKKPQPKNEDQFDLFGGGSTEEHTEATRTSFYNTLENTAHSYQAIQGDL
+GIKLLLQNLQNQTSVCFDTETTGLDALHAELVGIAFSYEKGKAFYVPFPESQEEAQVLIE
+KFRPFFENENIEKIGQNLKYDLKILSNYDITVKGKLFDTMIAHYLINPDMRHNMDILSET
+YLKYAPKPIEELIGKKGKNQISMRDVALEDIKEYAAEDADITLQLKEIFTTELDKTETKK
+LFDEIEIPLVSVLAAMETEGIRLDVEFLKAMSQEMDVEIKSLEQKIYETAGEKFNLASPK
+QLGDILFDKLKIGGAKQKKTKTGQYATGEEVLTYLANDNPIVKEILDWRQMVKLQSTYIL
+ALPEQVDKKTQRVHTDYMQTVAATGRLSSNNPNLQNIPIRTERGRQIRKAFVARDENYTL
+ISADYSQIELRIIAALSGEENMIAAFKNGEDIHKATAAKVFDVPLDEVSREQRSNAKTVN
+FGIIYGVSAFGLSNQTSLSRSESAALIEAYYKTYPRLKSYISEQIEFAREKGYVQTILGR
+RRYLKDINSANAVVRSAAERNAVNAPIQGSAADVIKIAMINIHKKLKDENWKSKMLLQVH
+DELVFDVHNDELEKIQPMIKHEMENAFTMAVPLEVELGMGKDWLAAH
+>tr|A0A1S1JBG4|A0A1S1JBG4_9FLAO
+MIKSIIVKIDNGVMNEIQIDRIIEMAWEDRTPFDAIKFQFHLSEADVKALMKKELKFSSY
+KLWRIRVENCKTKHAAKRAETIERFKCNRQRAISNNKISKR
+>tr|A0A1S1J325|A0A1S1J325_9FLAO
+MVRSPFFYFLFFLLLLSCQEQTSHTSNASSIRKDAIDYVNKGRVSFQNKNFNTAFYQFNK
+SKIASEAIKDSANVVYNLIQMANIQQINGDYYGSKETLTEALPYLKKKDVYSAAINNLFG
+IADKELSIYNDAIFFYKEALKDCTDDSSRQSPLNNIAVVYIQQKKYNEAINILNTILDKK
+LLDKEPPKKARVLDNLGYAYFKMGETEKGYSLMNEGHKMRTQSEDFYGSIESNLHLADFY
+SKSNSQKSNQYAQAAYQLATHFNSVDERLRALSFLMSNDSGIKNVQYAQKFIFLNDSIIK
+IRNNFKNKFAKIKYDSKKEKDENQKLRLERAENLLSIQEAKYQRAFFIIGIAALCLLLLY
+LRKFYQNRNRIEKLTAAYDTETRIAKDIHDELANDVFNTITFTQTQSLESPNVKENLVHK
+LDQIYNRVRGISRENNEIDTKANYAVNLKEMLSTYNSPSTNVIINNIEKVNWDLVDDIKK
+VAVHRVLQELMVNMKKHSEALVVVLKFENTANKILIEYSDNGKGCEKDKIIKNGLQNMEN
+RILATKGTITFDTEPHKGFKVKITLPK
+>tr|A0A1S1J6F7|A0A1S1J6F7_9FLAO
+MNTKQSSFSALELDRIIEMAWEDRTTFDAIKFQFHLSEADVKALMKKELKFSSYKLWRKR
+VENCRTKHAAKRPSEIDRFKCSRQRVISNNKISKRR
+>tr|A0A1S1JA83|A0A1S1JA83_9FLAO
+MGLYKNLFKQTAIYGLATVLPRMLSFLLVRLYTGILPTAEYGEVSIVLSWMVFFNVVLSY
+GMETAFFRFYSAEDDKKNVIATSTISIFWSSIIFLFAALIFRNTLATLAEVDVQYITYTV
+WILVLDALVLIPFSKLRANQRPMVYAAIKIGNVIINLLLNIFFLMYLPKLAASNPNSVWD
+NLYVENFQIAYIFIANLLASLATFIVLSPNYLSLGRKFDPVLWKKMMKYGLPILVAGLAF
+AVNEHFDKILLGYLLPENLAKSEVGAYSACYKLGLFMVLFATAFRLGIEPFFFSHAKNEN
+APQTYAVITKYFVILGSLILLGVIVFADVLKYLLLDNKSYWEAMKVVPLIILANFFLGIY
+NNLSVWYKLTDKTQIGAYISIVGAIVTLILNYVLIPKYSYYGSAIATISAYGSMMLISYI
+LGNRYYPIPYDMNKIGAYLGISIVFSAISFYGFRENYFVGIPLFLGFVYFVYHNEKQTIK
+GMMNKK
+>tr|A0A1S1JD31|A0A1S1JD31_9FLAO
+MKKPILQLYLIAAITAFFGSCSQNESTEKDSKAQSEQFEIINVTHHDGRPFSTGTSSSSS
+TGKYVDNPGGGVMMQAFYWDVPSGGTWWNTVSSKVTAWSNAGIGSIWLPPASKAQNGAFS
+MGYDPTDYFDFGDYNQNGSVETRFGSKTELVNLITNAHAENLKVYADIVINHNSGGQSEA
+NPFTGTNTWTNFSGVASGKFTRNYNDFYKNSYGNNDEGAFGGFPDLCHANPHVQDWLWLR
+ADGVGKYYKNTMKFDGWRFDYVKGFGAWVVNSWNANVGGFSVGELWDSNVNTLNDWANNA
+NSSVFDFACYYKMNDAFDGNNLALLNDDMMWKRNPYKAVTFVTNHDTDEIWSKLLAYSYI
+LTHEGYPTIFYRDYEEWLDKNKLNNLIWIHNNKATGTTSILYADNDEYVARRNGYNGNPG
+LVVYINNSDTWQERWIQTNWANTQIKDFTGNSTWYPTTQADKWVKIQCPPKGYSIWSINQ
+>tr|A0A1S1J7K7|A0A1S1J7K7_9FLAO
+MKIVAFGGSNSQHSINKQLATYAASLFDNGTVEVLDLNDFAMPLFSVDLEKEIGQHELAK
+TFLQKIENADLLVISLAENNGNYSAAFKNLFDWSSRIMKEIFQQKPMLLMATSPGARGGA
+SVLEIANNALPRYGAQIKATFSLPAFNANFDLEENKISNEELNKELKDIIKSSF
+>tr|A0A1S1J9E3|A0A1S1J9E3_9FLAO
+MKTIYKKLLFLFLLLPFTVLAQSTLTGTVVDLATGQPIPGVNVNVQGAPGGASTDFDGKF
+QLSNVKNGDKILVSFIGYKTSTVAYNGQKTLNVSLEEDTNQLKEVVVQVGYGTVKKKDAT
+GSVSQIAAKDFNKGINVTPESLISGRISGVNVTGGGAPGAKADIRIRGGSSLNASNEPLI
+VLDGLPLSNAVPSGSTSILSTIDPNDIESFTVLKDASAAAIYGSRAANGVIVITTKKGSK
+GGVKVNFSSQVGINTVANTVDVMSADQYRELVKTKGTPAQQALLGNANTNWQDEIFHTAL
+TTNNNISVSGSLFDKLPVRLSVGNIDNPGILRNTSFERTTTSISLNPVLFDNHLKIDISG
+NLAFGKNQFQDEGGVIGSAIGFDPTQPVYKTGSRYGGYFEWLEPNGNLPLLPARNPVARL
+NQDNRRATSTRKWGNVRVDYKLHFFEDLRVVAEAGIDRFDSSGFTEVSTQSILGFQPKAF
+SDPGYVNLGNYSRYTDALQNKNLNAYFNYTKDLGKIKIDATAGYNYQLFQKEKYSSGETR
+QPNPNEDVATDPDVNLQSFFGRLNLGYDSRYLLTLNYRRDGTSRFSKDNRWGNFAGGAFA
+WNVAEEAFLKGNSTVSSLKLRVGYGTTGQQDISAQYDYLQRVTLGTINSQYIFGNTIYPT
+ARPEGYNENIKWEELAESNIGIDYGFFNDRITGSINYFDKKSSDLLADIAVPDGANIRNQ
+GFFNIGSVRTKGVEFSIASDIIKSDNLTWNVAFNTTYIDQNISELGITVPGFQGYLTGDN
+IAGGNGNKILINSVGYAPNSFFVYEQLYDANKRPIAGAYVDSNGDGKIDTADRYRAGKAA
+PDYTFGLFSTLNYKKFDFTMNWRASVGNKIFDNVSSNLGYSDAGLRRQTDLSNVSSDYYN
+TGFTFEDNGTSRYLSDYFVKDASFIKLDNVTLGYTFDKTIIKGASLRFTAGVQNVFILTK
+YNGLDPEKFNGIDNNVYPRARTFLFGVNANF
+>tr|A0A1S1J7C7|A0A1S1J7C7_9FLAO
+MEQKFNVIGISIRTTNENGQSGTDIPALWNRFMSEGILQKIPNKTSNAIYCIYTDYEKDY
+TRPYTTILGCVVENLTLIPEGMVAKTISGVHYQKFTAKGNLADGIVINEWMKIWNSDLDR
+LYTEDFEIYGEQAQNPEDAEVDIYIAIS
+>tr|A0A1S1JAF7|A0A1S1JAF7_9FLAO
+MKYLFLPAAILVTTFGYSQNKIESSGNVGIGTLSPSTALHVNGGDISVTGANQKIGFNTI
+DNFTSGIGTVAHYGMSYVKDALNIPMLSSSGYFGMNFFTSGTERMRIDTNGNVGIGTTNP
+NAKLQINGDISSVGANQKIGFSTADNFASGNGTIAHYGMSISKNVANEPIVSHSGYFGIN
+FFTDGLERIKIRIDGNVGIGSINPDEKLTVKGKIHAEEVRVDLRVPADYVFQKYYTGKSD
+LKSDYVMPTLAEVEKFTKENNHLPSVPSAQEIKEKGLQVGEMSSALLQKIEELTLYIIEQ
+NKRIEILEAKLDKK
+>tr|A0A1S1JBD3|A0A1S1JBD3_9FLAO
+MLKPIILTLFAFLGISTVSTAQSRLAHEVGLIFGPVTFQSDFGERNDLDTNLGNTGFGVG
+LVHFINFSTNSNRERFFSEHFKVRTELSFNSTKLNHFGKWIEKKPETLGVRQLKAMQGKS
+TVISLGSQLEFSPLKIHYYENSVGAFSPYVSLGFLVSYYTTEVSSSLGKLGSPEATFPKY
+QTPSDGRQYGFSSENGIVLSGTAGIGVHYKLNEMSDLMLEGRFQAFSSDWVDGLNPNKKI
+YKENKSNDAQIWFNIGYIQYL
+>tr|A0A1S1J311|A0A1S1J311_9FLAO
+MSINLFDLTGKTALITGGVHGLGMAMAKGLGHAGAKIVVNDHSSQQAVDDAIAEYKSEGI
+EAFGYLFDVTDEAAVIAAISKIEAEVGPIDILINNAGIIKRTPIIEMEVADFEAVVKVDL
+TGPFIVSKNVAKGMITRGGGKIINMCSMMSELGRDSVSAYASAKGGLKMLTKNMATEWAK
+FNIQTNGIGPGYFATSQTAPIRVNGHPFNEFIMGRTPAGRWGDPDDLQGAAIFLSSKASD
+FVNGHIVYVDGGILATIGKPSNED
+>tr|A0A1S1J8Q4|A0A1S1J8Q4_9FLAO
+MNKKDITIGFVIGIFTALLGSFLFVSFFTKFDFFTGIQTIKQQGYLGKVITIGTVLDLAV
+FGIFLKTNRELMARGVVLAVIVLAISTLFI
+>tr|A0A1S1JC24|A0A1S1JC24_9FLAO
+MNTYQDYIKEIEERKGQGLHPKPIDGAELASEIISQIKDVNNPYREDSLKFFIYNTLPGT
+TSAAGEKAEFLKEIILGEAVVSEITPAFAFELLSHMKGGPSIKVLLDLALGNDVAIAKDA
+AKVLKTQVFLYEADTDRLVEAFKNNNEVAKEILESYAQAEFFTKLPEVADEIKVVTFIAG
+EGDISTDLLSPGNQAHSRSDRELHGQCMITPQAQQEIRALQAQHPDKSIMLIAEKGTMGV
+GSSRMSGVNNVALWTGKQSSPYIPFVNIAPIVGGTNGISPIFLTTVDVTGGIGLDLKNWV
+KKVDAAGNVVRNENDEPILEQTYSVATGTVLTINIKERKLYNGDQELIDISKAFTPQKME
+FIKAGGSYAIVFGKKLQTFAAKTLGVTAPVVFAPSKEISHDGQGLTAVEKIFNRNAVGST
+PGKVLHAGSDVRVEVNIVGSQDTTGLMTAQELESMAATVISPIVDGAYQSGCHTASVWDK
+KAQANIPKLMKFMNDFGLITARDPKGVYHSMTDVIHKVLNDITIDEWAIIIGGDSHTRMS
+KGVAFGADSGTVALALATGEASMPIPESVKVTFKGDMKGYMDFRDVVHATQAQMLHQFGG
+ENVFQGRIIEVHIGTLNADQAFTFTDWTAEMKAKASICISEDDTLIESLEIAKGRIQIMI
+DKGMDNDKHVLQGLINKANKRIEEVRTSEKPALTPDSNAKYYAEVIVDLDQIAEPMIADP
+DVNNADVSKRYTHDTIRPLSFYGGEKKVDLGFVGSCMVHKGDMKILAQMLKNVEAQKGKV
+EFKAPLVVAPPTYNIVDELKAEGDWEVLQKYSGFEFNDSAPKGAARTEYENMLYLERPGC
+NLCMGNQEKAAKGDTVMATSTRLFQGRVVEDTEGKKGESLLSSTPVVVLSTILGRTPTLE
+EYTTAVEGINLTKFAPSNKQLVM
+>tr|A0A1S1J7Z0|A0A1S1J7Z0_9FLAO
+MLFVTLGFLMGPTFTYAHGTKKEMSCCKKESAAKDCCSKKDSKDKKHGCDKSCMGNSCTP
+TSNCAFSPMAIFQVENHSLFGFSEKKQTYFYSEIFISSDFRSIWLPPKIS
+>tr|A0A1S1IYI0|A0A1S1IYI0_9FLAO
+MLLAFDTYYFNGKAKTVCIEFNQWNQDKDYKVHSEIIDNIEDYIPGEFYRRELPCILSLL
+EKMDLKNIDAIIVDGYIYLDDDKKYGLGGYLYEKLNQRIPIIGVAKTNFASLNKDKKSLF
+RGDSKKPLFITSIGIDLDDAFTKVESMAGEFRFPTLLKELDRLTKEIQTTL
+>tr|A0A1S1J3Y0|A0A1S1J3Y0_9FLAO
+MEYLNEDLEEMEMPTPCQKCDNWFDLNNGVGSERWYPRTVICSECGEKEQNIIELESDID
+DLQIELDEAEGDIVSANESITSANKVIADNRLKIEELKEKLKNLEDE
+>tr|A0A1S1J5E9|A0A1S1J5E9_9FLAO
+MIAISEATVSDIKQIQKIVHITWPITYGEILTKEQLDYMLDLFYSEEALADQLDKKEQLF
+YMIEDDMTNIGFIGIEHNYKEKAVTKIHKIYLLPETQGKGIGKKVIEEIKRLGAVHNSQA
+LSLNVNRFNTALGFYKKIGFEIVGESDLDIGNGYLMEDYVMEKKF
+>tr|A0A1S1J7H9|A0A1S1J7H9_9FLAO
+MKEYQVVLQDKSQEKEEQNPMVPFWENANCLTDFCSPWKSDPLLKIEFRALWDLENFFFN
+FRVFDTGIYIDQKDDSFDSIGNSDRVELFFRTSESLDPYYCLEMDTAGRLMDFRARPNKE
+FDFDWKWPKTDFEIKTLKDEISFTVEGRISIKSLKELNLIHNNTIEAGVFRAKFLENEKR
+QYEPIWISWVNPNTETPNFHIASSFGKFILME
+>tr|A0A1S1J7J2|A0A1S1J7J2_9FLAO
+MKKVITLLFLVSFGFTQAQEAFKGKGDTRVNVGANIQNGGSGIQGSVDFGLGENFSFGFV
+ANYLLGVDNFNGFYHNNPTPYTDLKPKFSDRFDAKARINANLSSVIGVKQLDVYPGLSLG
+LRNFGGHVGGRYFFTDGFGVFTEIGFPIAKYGNNNDVFDHLNNQATFSLGASFNLQ
+>tr|A0A1S1J9D7|A0A1S1J9D7_9FLAO
+MSKNALYTLYDNLPKNQQIATQLLEQKQIKMHLNGLLGSAVSFVLRAVFKKSELPFLVIL
+DNKEEAAYYLNDLEQMIGEQDVLFYPASFRRPYQIDETDNANVLLRAEVLNRINSRKKPA
+VIVTYPEALFEKVVTRRELDKNTLKVALNDKISIDFINEVLFEYEFKRVDFITEPGEFSV
+RGGIVDVFSFSNDHPYRIEFFGNEVDSIRSFDVETQLSVETHKKITIIPNVENKLFQENR
+ESFLDYIAERTVLFIQNTEGLFTQLDKQFVRAEEAFEKLSKEIKRAEPEKLFLNQSSFIK
+RALDFSIVELASKPVFKTTKTFDFHIHPQPSFNKQFDLLLNNLSDNHFNGYKNYLFCSNE
+TQAKRFHDIFETLDEANSENIRKQYHTVVLPLYQGFIDEESQITAYTDHQIFERYHKFNI
+KNGYSKKQNITLKELTALSVGDYVTHIDHGIGKFGGLQKIQVEGKTQEAIKLVYADNDIV
+YVSIHSLHKISKYNGKDGTPPKIYKLGSNAWKVLKQKTKARVKHIAFNLIQLYAKRRLEK
+GFQFAPDSYLQNELESSFIYEDTPDQTKSTQEVKADMESDRPMDRLVCGDVGFGKTEVAI
+RAAFKAVDNSKQVAVLVPTTILAYQHYRTFSERLKDMPVTIGYMNRFRTAKQKAQTLKDL
+AEGKLDIVIGTHQLVNKNVVFKDLGLLIVDEEQKFGVNVKDKLKTIAANVDTLTLTATPI
+PRTLQFSLMAARDLSVITTPPPNRYPIETNVVGFNEEIIRDAISYEIQRNGQVFFINNRI
+ENIKEVAGMIQRLVPNARVGIGHGQMEGAKLEELMLGFMNGDFDVLVATTIIESGLDVPN
+ANTIFINNANNFGLSDLHQMRGRVGRSNKKAFCYFICPPYSSMTEDARKRIQALEQFSEL
+GSGFNIAMKDLEIRGAGDLLGGEQSGFINEIGFDTYQKIMNEAIEELKENEFKELYPEEN
+DIETKEYVKDLQIDTDFELLFSDEYINNVTERLSLYNELGGVKNEQELVVFQNKLIDRFG
+PMPPRANALMNSIRIKWIATSVGIEKLVMKKGKMIGYFVSDQQSDYYQSKRFHKVIKFVQ
+THSNLCQMKEKQTPNGLRLLLTFDNVKSTKRALELMEMLGE
+>tr|A0A1S1JB69|A0A1S1JB69_9FLAO
+MNTQKISITAFSSISPLGNTTESVWEKYLDRQHCFSKQFLDQQETSVAALDAESKQIVSE
+IRESDPKYKFLDDSVLFALAASRQAVKQAGWSLDDIFGINIGSSRGATDLFEKHYKEYVD
+TGKAQTLASPTTTLGNISSWIAHDLQSVGPEISHSITCSTALHALLNGVAWLKSDMADKF
+LVGGSEAPLTDFTIAQMRALKIYSRIDQETESWPNLAFDFEKTQNTMILGEGAAVCCLET
+GEKENAIAYITGVGYATEILEHNISISAEATCFQKSMKMALKNIAPESVDAIVMHAPGTI
+KGDLTELRAIEKVFGSQLPLLTTNKWKIGHTFGASGILSLELALLMFQHDTFIGVPFGEE
+QKQTKSIKRILINAVGFGGNAVSVLIEKP
+>tr|A0A1S1J1Z0|A0A1S1J1Z0_9FLAO
+MENIVIHKAETRGNANHGWLNAYHSFSFASWYNPERIQFGALRVLNDDTIAGGMGFGTHP
+HDNMEIITIPLEGDLAHKDSMGNTEIIKNGDIQVMSAGTGIQHSEFNPNADQQTKLLQIW
+LFPNQRNVTPRYQQITLDVADRHNKLSQVLSPNADDEGVWIHQDAWFHMGNFDSGIATTY
+KLKKEGNGVYVFILKGNVTINGQELNTRDAMGISDFETLNIKANTEAEFLLMEVPMNY
+>tr|A0A1S1J5E1|A0A1S1J5E1_9FLAO
+METIKPQENQNIFDVSLQEYGSIEKVFDLLDDNDRFNLTEDLSVYEDLKIGREAFKKDIV
+EYYNTRNLKPATAITEEEQYLLDNFSGIDYMIIEDDFIIY
+>tr|A0A1S1J9C4|A0A1S1J9C4_9FLAO
+MDLTWSEFERTDMRVGTIIEVNDFPEARKPAYQLTIDFGPEIGIRKSSAQITVHYKKEDL
+LNRQIISVVNFPKKQIGKFMSECLVLGAIGKEGDVILLAPDFKIENGLRIG
+>tr|A0A1S1JC71|A0A1S1JC71_9FLAO
+MKIIQAYKKKNENWQYLTNKEKLKNPLVLVFANRMQLELPEVIDAIRNEFPYEHLVFGST
+AGEILDANVFDDSIVVSAIEFEKSTFAIKTDNIFNHNKDANALGESLYQQIPKENLKHLF
+VLSEGSFVNGSSLIEGLENGIQNKVPISGGMCGDDAKFEKTLASYKENPKEGEVVLIGFY
+GETLEISFSSFGGWSSFGPERIITRSEANVLYEIDGQPALDLYKKYLGDKANELPQASLL
+YPLNVTPEGKSQAVVRTILNINNEDQSMILAGEVPENAKVQLMMASVDAIAEGASQAAML
+AMQNRINHPQLALLVSCVGRKLVMNQRVEEEIEQVQEIIGNEVAITGFYSYGEMAPFSEN
+TFCELHNQTMTLTLISE
+>tr|A0A1S1J6Q0|A0A1S1J6Q0_9FLAO
+MKKIFITFLLSAGLLVSCTDLEVTPTSFVTEDNYFKTQDDAIASVTAVYASLSLDPGEQS
+LFGRNLYFLTDMASDYAAAGVSATNPQVRALSSLTHDATSDRVQVAWRQIYAGINRANVA
+IDNIPKVAGSDAVKNRLILEAKFIRGLLYFQAVRLWGGVPIVLHEPTSIQLESLKSKRAT
+VAEVYTQIISDLKDAEALPSTYPATDTGRATSGAAKAILTKVYLTRKDYPNAILKAREVI
+NGGYGYALFENFQDIFTKTKKNGKEHIFSVQFEPNQAGNGSSGSTFQATSFTGFTATEPA
+DIISDVALFYDIYAAGDTRRDVSYAKQLPIPGTANVYTFPKPIFKKYLDLTNLATPSNVA
+INFPIIRYADILLSLAEAINEQGAPTPEAYELINQVRRRAFGKPINTPDVTVDLTGLTQT
+SFRAALQEERKKEFVQEGQRWFDLVRWGTLVTEVKKVLAKNSVSERNNLYPIPQSERNID
+PIGLPQNPGY
+>tr|A0A1S1J7U9|A0A1S1J7U9_9FLAO
+MQILFQMYQNKKTPSRNDGVFMLLTNQKTINYEIYINSEGNHPFLICECKDRYKVQKINV
+KK
+>tr|A0A1S1JAL1|A0A1S1JAL1_9FLAO
+MRKTTIILLPLLFFLQLSIAQSQIKKEKLKEFRKSAKWKEMMKDPNANFDETKVAFEEFW
+KGKPNPLELMEGEEEALEELKERSFISRLFKSNRVLKKESLQYAEDFKKFKFWRIQSEGF
+VKSDGRVMTPDEIQEMVQQELQSRQKK
+>tr|A0A1S1JCN1|A0A1S1JCN1_9FLAO
+MNTSIIKNYSKLKFSLYFLPLFCLAALVMFLYYENALSVYNYAQIQKSTFLYINSHLGLY
+PNLQYNLTQLGDASIFLSFLALFILYAPKLWEALLSGLLFSLLFSCPLKAIFGVPRPAVI
+FNNEITCIMGRKLCGFNSLPSGHSIVVFTVLTIILFAFMPQRLKFKVLWSVSIITIGFIL
+AFTRVAVGAHYPLDVITGSILGYISGISGIFISRKYKIGAWINNDKYYPIFIALFIICCI
+CLVGKIIKENLIIYYLSFISLAVSLYKITYVYVKK
+>tr|A0A1S1J169|A0A1S1J169_9FLAO
+MKPILIAFLFLGCTVFGQQPFSKELTYNEFLGYVKKYHPLVKNANLEVSKAQANLMMARG
+GFDPKIEVDFSQKKFKDKEYYSILNSSFKIPTWYGIELKAGFDNNEGVYLNPENTTPNQG
+LTSFGISVPIGQGLFINQRMADVRKAKIQIKLSQAERKLQAVGILYDASLAYFNWKKNFE
+EMKLYEMYNNNAEIRLKGIKSLIEQGDKPAIDSIEAGIIVRNRALSLEDSKLKLTKAKLE
+LSNYMWLENNIPLEISDELVPETALESTLQETLKTNDLLQGDTNLETHPKLNALQNKIDI
+LKVEKDLKQNMLLPKINVGYSYLSDPRYIDNYKFDDYKVGLEFYFPLFLRKERGSLKLAK
+YKLQENEFALALERTQLTNKISAQKVEINSLIRQKKLVKNLVENNAAMLTSEERLFSFGE
+SSLFLINTRENNLVSAKLAAIALDNRFYISNSELFKIMANPD
+>tr|A0A1S1JB10|A0A1S1JB10_9FLAO
+MYSLNDVSLEINQGQIFGLLGPNGAGKTTLISMLCGLIKPTSGHFTIDSLNYTHHSSKIK
+KIIGVVPQEYALYPTLTARENLHYFGSMYGLKGNYLKDKVIETLDLLGLLKFADKRIETF
+SGGMKRRVNLIAGILHNPKVLFLDEPTVGVDVQSKNAIIDYLKFLNQNGTTIIYTSHHLA
+EAEDFCTHIAILDRGRIYAQGTPSSLIASTEEARNLEEVFISLTGKDFRDGI
+>tr|A0A1S1J8L6|A0A1S1J8L6_9FLAO
+MKKVIVISMIMLTVFISCKKATDTDPVQIAPSPPKEAEIVEPAGDQCYAARTRNSVTEMS
+LNVNSHQEVNGKLSYNISGKDKNEGTLIGNMKGDTLIADYTFMSEGVSSVREVVFLKKDG
+AFIEGYGDVVEANGKFSFKDKKQLKFDQKNVLTKVDCKVE
+>tr|A0A1S1J5M3|A0A1S1J5M3_9FLAO
+MTVLNLTTLIKASQKSVFDASRNIDIHQQSASPSKEKAIAGVTSGLIQLNETVTWRGKHF
+GFYLTHKSRITAMKPYTYFVDEMEQGIFKSFKHEHFFEEKDGFTIMKDKLQYETPFGILG
+ELFDILFLEKHLMNFLLERNKTLKIVSEKKL
+>tr|A0A1S1JC43|A0A1S1JC43_9FLAO
+MHAQWNGTTTTANVGIGTSDPKTKLEIDGSSQIGYEIGTFKLKSGTANQFLYMGYDDNYS
+AGYLQGVKPGTSQQNILLAPNGGNIGIGLNNPDRTLTVAGQIGVKNGGVIFNNNNKIWDI
+TSSDNDLSFSETGIRTPLYLKSGGNIGIGTINPTSKLEIEGTSQAGYEIGTFKLKSATAN
+QFLYMGYDDRYSAGYLQSVKPGTSQQNILLAPNGGNIGIGTYSPTHKLDVCGTIRAQEIK
+VESVNGCDFVFKDDYKLMNLNNLEKFIKTNKHLPEVASEKEMAENGVNMKEFQMKLLQKI
+EELTLYTIE
+>tr|A0A1S1J8D9|A0A1S1J8D9_9FLAO
+MKKIYLLLLLLMSFLGYSQAPDPQPAVNGARTITITTPKAITVSAGTLSYTNTTENGRAN
+GTFSVIFEGGTGDYVYFFFKDGQPYTPVSWTSLPAGSYVMYAKDKDRVCRSADVPFIINE
+PGKLVVSTPKPTNILCPGGTGSLTASAVGGYPYSVTPIDRTYNYTWYSCDAAGNNSSKIS
+GPSITPGITGQNAGYYKVIVTDSKNNPASGPVVLLEPNPQIGSAVLSKKDVSCFDGNDGE
+IRVSLSGGSGTLTVLWNDGGTGATRTGLKKGDYSYTVTDVNNCTFSNGVITKITQPPAAL
+AITNITQTQPTSTVATDGTITVTATGGTAPYTYIWTKNGQPFSANTNGAGLTTGLGNGMY
+KVTVIDTKGCDIPSGIVELKALAVVLQDQTNIKCKGVPTGSITVVASGGTLNTTTPNYKF
+QWLLNGTEMPGKESATLSGILKGNYTVKVTDANNSIFSIVYTISEPADVLTITNSTAQRR
+NVSCNGGTDGAVDVTVSGGTGAYSYLWSNGSTASRLSNVPVGTYWVAVTDENGCPARLDN
+IQITQPNPIVVPTPAIKNVAIFNQNTGSILFPADPAGGTLAFQYKWTRAGDPTFPRTTRD
+ITALKAGTYRLEIRDANANAADNAGCIVTKDYTVTESDLLEVQIKETQFIKCNGDSNGKL
+VALAKGGIAPYKYVWKKNGIVLPSETASEITNCGVGQYSVTVTDSANPEPAGPFAKAEQL
+NYKLNEPDELIVKLTKQTDVLCYGAATGAIDITITGGTGPYTQQWTKNGVNYSTADDISN
+LTIGSYTVTVKDQADHGCTATLNVPVVITQPAAPLKIESATLVDLTGFETQNGSITVTVS
+GGKPNYSYEWTKDASPTIIGSASSIGNLAIGTYHLIVRDANGCSLPQVDYKITQPDKFEI
+ISIIQTSNTNVACYGDEPGIFTAVVRGGVKAYTFEWLNTTTGVKHKHTESTKDDLTSSEA
+IELGAGNYVITVKDQQNNILFGTNTFTITQPDKLAFTYTKTEVSCHNGNNGTVQLNIVGG
+TKFADISKPYTIVASGGTVDAQNGIISGLSNGSYTIFISDANGCQTQVQTVGITEPAKSL
+FISSETVIPTTGFGLSTGKIAITVEGGTPGYTYQWKNNSNTVVGTNSPALNNVPAGVYTV
+LITDSKLCTITNSYTIEQPTKPVLTETHLQAKCNGLVGSLEAIATGGATFAQNQIDRIYT
+YKLRNKTTGTVVTIVQNTASFKNIADGDYALTATDVGNVDSNTIDVTFKQPTAVTVNLTS
+KTPVSCFAGQDGAIQIAVTGGTPFIVNGAPVYNYQWKKRNTATNTYENFTPVALNALTEG
+DYAVEVRDANYNSADATHCIGILENIIITQPADFGFDVDKITYINPTALNGNDGALHFEI
+IGGKPNFEYKLYTKDALANITVLKTISNTAAKMVDFTGLVKDHYYVSVQDATGCTKYADF
+DFTDNPLTITIRQTQDMTCFESNNAILEATVAGGFGTKKISWYRNNTLLPNENSIKLINA
+KIGTYYAVVKDSKAIEVTTTPIIITQPDYITFTSVPEPVKCLGDTNGSIAITAAGGNGIF
+RSRYFQNGILVKDWTNFANGAKTIITDLANGEYTIQVQDTQQCTSTEATVKITSPTALII
+SKIVSTPATGKGLSNGSLAITAQGANGTYTYNWFKSDGTALNQTTATAINLAAGNYYVII
+KDAKNCSLTSQLLQVTEPPLLETSVEVQNVVLCNGDKNGSLKPITIGGFLKPGESYTYQW
+FAENNATVLATTTTLTGIGKGSYYTIATDSNGNKATSPIFIVTEPQVLNNNLTADYTLCG
+DFNDWTIDATPSGGTLPYTYSWNTGAQTATIKNVPPGYYFVKITDKHGCTVTKNITIVAP
+VHLAAAETIKIPTCYAGSDATITLTASGGKAPYTYLWNTGETSNVLKNASAGEYKVAVTD
+SKGCIINHTYTIVNPPKDVINIGEDVTLCFDQTLTINATINDDKATYSWTSDKGFKSNKA
+IVTVSEPANYTVVVTNKLGCEATDTIKISSQNTPISAEFAISSQVFKNEKFIIVDISNPD
+ADEIEWVIPANATVISKNKDFAEISFSQAGEYDITLNTKKGNCTAFQTKSILVTEGEYEE
+NNPDDQTFKKFDLKIYPNPSKGAFTVDVLLDKVMPAHVKVYNLNNNLLIDSKTQEGKDNY
+LFNFSLTGLPSGIYFVLFESQQGSKLRKIIIQ
+>tr|A0A1S1J6V0|A0A1S1J6V0_9FLAO
+MTKKNNTNCKGDVAKKQTLLMKYMPLAFLPVLFCFSSVLFSCSHDNLEEKKDPTTENPKP
+DEELPKPDTPNSPGNSEGLKDLISKQQFLELFPYRYGAEQSNNWIVNPSKDFYTYDALMK
+AVDLMADLKVVIERKGWFQKITRIKKSTNETKVIKEDADFSASWNNNAVVRQEVDYADFI
+RIGSLEVRKRELAAFLANISHETTGGWSTAPGGAYSWGLHFREEVGYDENSTTGYREENN
+VNYPPVTKKSYHGRGPIQLSWNYNYGQISEFLYADKNVLLKNPENVAKDAALAFQTAIWF
+WMTPQAPKPSCHAVMVGQWLPTQQDINEGRKPGFGATINIINGALECNKADSDKTQSRRG
+FYQRYLTVLNTSEPNCECQCDKMQPFK
+>tr|A0A1S1J7H5|A0A1S1J7H5_9FLAO
+MSYAGHAQVTITAVASNTSCVGNGSITVTVNNVTVPITYAIAKLPFNEATVITSPDPVFI
+NLATGDYYYGYYNGTTFVRAAASINVGSSFSTVSPTITSVSAKNYTYCGNDPDPLGTVSV
+RISGGNGPYTISLLNASDNSEVQKITTSLTNYNFTNLLPGAYKVQLTDNCGATTTSLNTV
+TLSANVIFKSSDLQIVTKTSLSNSDVDIVYNTTGDVCSGVKSATLVNGFKAVVSHFYINT
+TPDFLVGFNDATSSIRYKLEIQNGTGWDVYDNLTRAQAEQRFVLPSDRSEWGEVRLTGTY
+CGLSRTITQDYGASSIGKPLAFKFDFRIVDDPANTNCSTTGKVRLSGNGMGANWAMTGCL
+PYNLEVTNNATGIKTDYTLTDGRLDIGLVNCLLDIGETYTVKITDNAGTEAPSYFFRNDT
+SSATKKNISDKNNVFIDPVYFSPPTSDLKSQIQILTGPSAQYFGKSALGMNAPIGVTGTV
+GLEGAVTISLESGPSALTVVQILDNSGKKTGNFRLGNDLTPGTYKIRVKDSGCFNEVFDV
+VLDTYFTKIEITKASYEVSPSICDRYIKKATVTVSAVGSAIISSKLEGLYSTPRFYVNTF
+KGPVAGEGNINSVIGVTLAKGVFDFSFQPQISGDYEIGIAKNYITGNNFSQPGDLWGNTT
+TVSLSVKSNFPIFDLSQSGGIVCAGNTTGDLYVKVNNTLDTDTVTYFIKKDTDAAFPANG
+QTSPVFKGLEAGNYVVRAKTACYEVDQALILRAKPDPLIKGKSSYCKGDSLKLDISDVGP
+VTSIIWTLTDGTTSNATQLALDNVTTAQSGSYKVEINTIGGCYFSESINITINDPQTPTT
+SKTTQEFCKTDNKTVADLAVNESGVTWYDAATGGNAVASTTLLENNKVYYGSLKEGTCES
+PTRLAVTVTLSDPKTPTTSKTTQEFCKTDNKTVADLAVNESGVTWYDAATAGNAVASTTL
+LENNKVYYGSLKAGTCESPTRLAVTVTLSDPKTPTTTKTTQEFCKADNKTVADLAVNESG
+VTWYDAATAGNVVASTTTLEDNKVYYGSLKAGTCESPTRLAVTVTLSDPKAPTTSKTTQE
+FCKTDNKTVADLAVNESGVTWYDAANNGNVIAGTILLENNKVYYGSLKAGTCESPTRLAV
+TVTLSDLQTPTTSKTTQEFCKTDNKTVADLAVNESGVTWYDAANNGNAVASTTTLENNKL
+YYGSLKAGTCESPTRLLVTVTLSDPKTPTTSKTTQEFCKADNKTVADLAVNESGVTWYNA
+ATAGSVIASTTVLENNKVYYGSLKAGTCESPTRLAVTVTLSDPQTPTTSKTTQEFCKTDN
+KTVADLAVNESGVTWYDAATGGNAVASTTTLEDNKVYYGSLKAGTCESSTRLVVTVTLSD
+PKTPTTSKTTQEFCKADNKTVADLAVNESGVTWYDAANNGNVIAATTTLEDNKVYYGSLK
+AGICESPIRLAVKTIVKSCTTESPHWDSGACVFDEATYKVASGMSDYNWIVSKEGVIVAG
+GESTDDYVTVIWNSAGKATVKAEYIDVSKFDPLVLIDFPVAVNSCSDVGLKKTVDNPTPG
+IGHQVVFTITAENLGINAVKEVVISEKLPSGYDYVTSQTSSGSYNSIDGIWMLPVLQAQE
+NQTLKITAKVKELGDYLNIAYLKNSNPVDINEMNNRAEASIVIADVIVYNAISINGDGLN
+DYFKITGLHNYPNNTVEIFNRNGVQIFKTHNYGGNNNVFRGISEGRATISKKSGVPTGTY
+FYILRYERAGVFRERVGYLYVSNN
+>tr|A0A1S1IZP8|A0A1S1IZP8_9FLAO
+MMTKYSSRYASSPEAVKKYDTQELRNEFLIDDLMQEDEIVLTYSHYDRYIAGSAVPLKDL
+TLESIDPLKAGYFLERREMGIINVGGKGTVVVEGVSFELAFKDALYIGSGNKEVIFKSDD
+PKNPAKYYINSAPAHRTYPTVKVSLAEANKLELGTMETANHRTVNQMIIGGVVTTCQLQM
+GMTELRPGSVWNTMPAHVHDRRMEVYFYLDIPENQAVCHFMGQPQETRHIWMNNHQAVIS
+PPWSIHSGSGTSNYTFIWGMAGENLDYGDMDVCKITDLR
+>tr|A0A1S1J346|A0A1S1J346_9FLAO
+MDFNISKLRIIFQPVLQILMYTVMYSIIWSFLYNFNIVKKHELWDLTTIYLFGCFAIVSL
+ISGIFLLFLKKINYTIFIFLLLLFCILTINDFRSSPKVISLAWIEAGISILVCNLFFANL
+SKNRNKK
+>tr|A0A1S1J9K0|A0A1S1J9K0_9FLAO
+MKDLILHKKPILAVFAILLLFAINSKILVLNLNNDFLGILGSLCLFIVGGRKTNFRINYF
+LVLSILLLEFISWRLNTKSVHFLSILLFLCLVFHYFTGKFSFIAFICLILFSTLFSAFFA
+HLTSEIKQSLCYIVYLTLKNFIPINKIEGVNFYINNAKITIDTACMGLSMFKTGLLFGAI
+LMTLEERRLKQYYGVFQILSFCLLIIALNITSNYFRIVTLIFFNCTQENFLHHAIGLICF
+TVYQIIPMLFIIKYIKPKIGNNDSNKIKPKILTVLASFTILLATSIKIKNEAETNFHQEV
+SSEYHTKKGSWVNKEVFKIETPEKLTYIKTPSHNPMVCWTGSGYKIIESKKVLTNKEEIW
+FNKMEKDSQNYTSYWWYESNGKKYSSLIEVLLIKLIYGQPIFLINETSKSN
+>tr|A0A1S1JCA3|A0A1S1JCA3_9FLAO
+MNQIERIKRKLILAKNADKSLKVFGADSHKYTIGKTVSADQIIRFETEYDLELPEDYKAF
+LLHIGNGGISYENSAAGPSYGIFPFGKNLEEFVYSNPENCLKQECRIYPKMSDEFWAELT
+QNIEENDDISQEDFDEELGKMFAGILPIVSQGCSYYYGLVLNGEFKGRVVNIDIDRQKPF
+FTFESNFLNWYERWLDGIIPENTMVNDPDLFRYTLGGLSAYILEVYFFAEDGETKEECLN
+GILKKEALDAETFSVLEEQYKISSGEIQKTILQILTKFDYERAKPYLVDFSKQSLLTVFQ
+FVFWYAKGKSADWLGFIKANADTIEDDETFRFCTYLLKETKLDYGAIIIPFTSNKSEEVK
+VSAYYSLGQLKNKSKYLDVFITGLNDSSNRVIHTVLQALDGVEDRKLLKYYKAIAEKFPK
+EKDYILANLNHRLKPYGFNNKSIIKADIDF
+>tr|A0A1S1JD27|A0A1S1JD27_9FLAO
+MIRSFQKTNTTINHKTKSIMKNRFKFLLVLFPVMAIGQTTTQNYIKTTTYKQPFAEANLP
+TVPTTAQASQNVTYFDGLGRPIQQVASQQSGSGKDIITHIEFDDFGRQTQEYLPFKSESS
+SMAFDPAAKANTTSYYGSPNPALNGNPALEATGYPFSQKELEASPLNRILKQAAPGNDWR
+SGSGREIKIDYQTNVAGEVKLFKANTVWNAEAGLYTISFVNSGNYAANELYKTITYDENT
+AATPLEINGSTVEFKNKEDQVVLKRTYDAQVRHDTYYVYDIYGNLTYVIPPKAFDLIENL
+SAVQANVTSTVQTASGNTLNLVASNSITLLPGFHAQAGSTFSAVIDNSTQGILDNLCYQY
+KYDHRNRLVEKKLPGKQWEFILYDKLDRVVATGPANSPFSDITSEGWLITKYDAFNRPVY
+TGWTNATAATADGRTSLQTTQNNPALTTINESKQSNGALNGITAYYSNVVAPTTFKLLTV
+NYYDNYTFPTAGIAIPSSVEGQATLTTNEVKGLATASWTRVLMSSNNLTGETTATFYDGK
+ARPIRSHTQNYLGGYSYTDSSLDPFSGQLQYSVTRHKRTAADTELMIKEVFTYSPQDRLL
+IQTHQINNGPIETIVDNTYDELGQLISKKVGNNTQKIDYTYNIRGWLTGINDVASLVKPN
+DPKDLFAFQLNYNSPTAGGVALFNGNISQTHWKTVNSESVLRNYNYSYDKLNRLTAADFR
+NNTNAAQNSSYFEKLQYDKNGNITFLHRSGDVVTQANLEWMDYMSYSYQGNQLTRVKEEG
+NNYFGFTTPIAQTNTANQYSYDTNGNMTSDTNKSITAITYNHLNLPTKITFATTGNIVYI
+YNANGVKLSKTVNKGTCITTITDYLGEFQYESMANKCKRPGSGYNGVLKFFTTTEGYVEP
+QGSSYNYVYQYKDHLGNIRLSYDKTLAIKEESNYYPFGLKQEGYNIVKTGVENKYKYNGK
+ELQDELGLNMYDYGARNYDPALGRWMNIDPLTEINPIFTPYHYCSDNPINRIDPTGMLDG
+DYYDSSGAHLGSDGIIDDKAYYASSVTKNAEGIVTSAQNKMDLGISNSVLNQLANTVAEE
+SSGHPQESFALASSIVNLANYKDKSISSTLQTEGIYGYGNGGSSTKYNGNAEYSMQAAMN
+AVMGGIDYSNGATRWDGFDLATKGWDHIKSRTVGLGINTSDFNIFKGFWTDEKLAKYSGN
+KNAAFNTDFKMTGSLLTFSPASQGNFKGMVLYNSSAAYGGTIFWKATPTFSIKGTNFNPN
+LNYEKIKGTRNKPL
+>tr|A0A1S1J5U2|A0A1S1J5U2_9FLAO
+MKKVIKLLLVLFPVMVIGQTTTQNYIKTTTYKQGFTEGTVPLNPTPVQAAQNTTYFDGLG
+RPVQKIDGQQSNTGKDIITHIKYDSFGRQTEEYLPFKSANTNMAFDPLAETNVLSYYASP
+NPTVTGNPAMEATTNPYSKKDLEASPLNRVLRQAAPGNDWGLGSGHEIKMGYPTNGVEEV
+KLFKANTSWDAGSGLYVISFFNNNYYAPNQLYKTVSYDENTAAAPVETNGSTVEFKNKEG
+QVVLKRTYGTVGAGSANEKHDTYYVYDSYGNLTYVIPPKAVDLIGTSTGMQTNLTSVAVV
+TPGTSLSLEATNSIQLSAGFHAQTGSTFSAVIDPGTQGILDNLCYQYKYDHRNRLVEKKL
+PGKQWEFIVYDKLDRVVATGPVNSPFSDITSPGWIITKYDVFNRAVYTGWMSATAATAAG
+RATLQAAQNNPALITINESKQSSGTLDGIAAYYTNVVAPVAFKLLTVNYYDNYTFPTGGI
+TIPTTVEGQTTLTTNEVKGLTTASWTRVLTTSTSTAGETTATFYEPKARPVRTYTQNYLG
+GYTYTDSKLDPFSGQLQYSITRHKRAATDAELMTKEVFTYSPQDRLLTQTHQINNGAVEV
+LLDNSYDELGQLIIKKVGGNTQKIDYAYNIRGWLKEINKVGALVQGTDPKDLFAFKINYN
+TPTVGATPLYNGNISETHWTTNSDPAGMIRSYGYKYDNLNRLKEGTYKKATALSNAYNEA
+LLYDKNGNIVKLTRNGNSETLQQIDDLAYTYANNNNSNQLVKVIDISNKTIGFKDNTATT
+DDYSYDPNGNMTADANKNITAITYNHLNLPKKITFATTGNIEYIYNAAGQKLQKIVNETG
+KTAIKTDYLGGYQYDNSVLKFFPTVEGYVEPSAGSYKYIYQYKDHLGNVRLSYDKTLAIK
+EENNYYPFGLKHEGYNNVKTGVENKFKYNSKELQDELGLNLYDYGARNYDPAVGRWMNID
+PLAEKSRRFNPYTYALNNPVYFIDPDGMIATPPDWFVNRETGAVVHVEGQSKLTQATANK
+IGAGDAKKYDRLGADNMFGNNNEKANNIRELGASKVENPEIFMKKQGYEKAEKVNIKERE
+FVSGGAIGEEKITSTITDMAQIGESKVTYAKPEQMNEKKVLAETSGQSSWSSARSTTYTL
+TKPAGQDNAKTAEYYGNKHTDYGTGLKILDTFIQIAQGVIQSMKK
+>tr|A0A1S1J2F4|A0A1S1J2F4_9FLAO
+MKLLDTKPHFYWFLTNLAKTQRREVFVFLALFLLKTHTLAPIAVEILLIFPLKSKRLQRI
+AG
+>tr|A0A1S1J7A8|A0A1S1J7A8_9FLAO
+MKKPTNLRLILLALIFFQSYVVISQNLKSFTPRFDKRLKGDMLLIGNNILNRNTNNRDPE
+DAYNGSGYNSDFSMEYIDIDNDNSTFSSSSATLTVPKPACYKIVYAGLYWGAILQQNDRT
+GIEKVKLKLPTGGYNDITGQIVYDANAAPIGGDNNKAYACYADITSLVTGQANAQGLYTV
+ANVKSSEGSNGGTGLSAGWSIFIVYEDPTLPAKYITSFDGFSGIGGATTLDIPVSGFKTI
+PKGPVRVKFAFAALEGDQPIAGDYLQINGIPISATNAANTAIRASNNFFNSSVTYVDPAT
+DKTEDFLNRNPASTNTLGYDAGILNINNPGTLLKPGGIVIDNNETSANIRLGSTQDVYFY
+YFNAFAVDIIEPHIVLTKIVKNSAGTDIGGQNVVLGQQLNYEIGIRNSGNDDAKSLTIRD
+QLPINIIFNYPADLNPLPTGVTVQSYDPATRSIVFKVDESIVKANTLTEKVISFKVKVVP
+DCNSLSEACSNSIDNSAYATYKGTLNPDFQISDDPSVNTNTGCILTPKATNFLVGVDGCK
+YTANVTLCKDTVDLVAANGYTSYTWYSDEARTKQIGTGQTLTVKDPGTYYVYNLAAAPCR
+SIYQAITVTRFGATNTNPVIPYAKAPYKGEVLICPNNGKELPNLFLCGANDSRLIETHIS
+DGSTLVWEKLDEASCTAPSSPNCANEGTSCSWTQVATGPNYLAKIAGQYRLTLNYAGGCF
+NRFYFNVFTNSLSPTEKHTDIICGKPGTITVGGVPAGYEYSINGTTYQASNVFNVTTAGF
+YTVYIRLAGVTGNTCIFTVPNIQIRQRNFNVVQEVTQPLCYGEKGKIKVAVNDANAQYYY
+KLYNNGTLLSNVGPVPDSEYTFDNLNTDQNYVVEVTTDDGCKDTKYIYVGKVWNEYKATV
+ALVEPLTACSDGKIRITTEGGNSPYNYFINSDTVFQTSNEFVVTAPGLYTIKIVDKNNCT
+IVRTITVPDNAKPAYTIDHTNSNCYDGSSKIEVKLTAGANGYTMGYSINGGVTFQSNPVF
+SNLQPGTYDVVVRYGIGTPIKYCTDPVQKITITGPTSAISASAGVAALAGCTLPDGSGAN
+QGGKLRINNVQGGTPAYQFSFDGGLTWQASNEKDVLPGNFILQVKDALGCIFEIPYQVTL
+DPKPADPTITVADPVFGCNGMASTTVTVTNPSNNYTYEYYINGTPNTPITNNVFTNVPSG
+THTIKVKYKVTTVPTYSNLLTEDFGRGPDTTTPGIHPNYCWEKQDAVEDCGIGGYMPILL
+NDGEYVVTQALLPQHVAGFNWNLPKDNTAVINNTPQIKDGRFLAVNVGGVVPIGGVLYKK
+TINDVIPNQDIQVSLYMLNLLSKNNNLPSPRLTIQLQKNGVLIPGASKDTQSIPRDEKWH
+NTTDLGSGQVLTLNPGNNTSLDFVILSYSQVISGNDLAVDDIWVRQIPEVCGAEKDFPIV
+IGTDKAFKASIVGHKDVTCNGANNGEITLSAQNFDATYGFDYSLDNGATWVNSKTSPVTV
+KNLTSKTYNILIRYDNKAGTCSFPFDQPVGTPAALTITASVTKTATCTTGATITAVAGGG
+TPAYQYELRAANGITVITAFQNSGVFANVPTGTYTVVTRDAYTCSSSASAQVNVVAPTMP
+TASLAATSDYCVTGTKGATLVVTATGTGALTYSLNGAPAQTSNTFTNVGAGTHTITVTDS
+NNCPVTINGIVIAPELKAAASITKTLDCTTPNATIKVDITDGVAAYTYKVKKDAGAYGAS
+VNVTGNTFNYPAPTAGLYTFEITDSKGCKAYIDATISPITNPTVTANPTQITCNGLKNGS
+VQLVGAGGSGGYEYNFNNLGWSTTSLYSGLDPNISYSYQVRDSKGCTSAVGNITLTQPTA
+VSGTIGATIIKCGTPSTVPAVVTVTGSGGTGAYTYSFNGTANFTTTNTYSTTAAGTVTAY
+VRDANNCQFGPLSITIGALEPITDITIVDSGYDCSTVPAGGRVTLTAVKTGSTANVTYQI
+ISGPAGFNPATNTTGNFTSLTPGDYIFQATDTATNCSFTKGHTIKATSDIVTGGSVLTNI
+QCFGSTGTIEFTVNGVKANGYDYVIKNAANTIIQQATGVSAATTTVAVPTAQPVGAYTIT
+ATDRLTKCQSSYTVTLTQSAAAVDVTAVATTVNCNKFTAEITATGAGGTPNYTYAVARQS
+APVPTVYASNNVLTVDTVNGTVLNWVVYIKDANGCLDNVPVKIDVDAKPVITSVVVDNQC
+QTGSVSSFTITATATGLVPLTYSIDGTNFQTSNTFTVSAGSYTVTVKDKNGCTTAAAVPV
+VVYPKVGALAEVTKELDCSATPNATIKVDISGGKTPYTYTVAKGSGTPGGVINVTGTSFT
+ISVASANADKYTFAITDANGCTTATSATVAPIAPPTVTAVKVDASCNGSATGTVQLTGAN
+GSGGYTYSKDNVTFAAASLFENLLAGNYTFYVKDSKGCTGSVNVTIGEPIKLTASATATN
+FTCSVTNTKQSATVTITAADGTAPYTYSFNGSGYTAANTLTVNDNGSDQIISYSVKDAKG
+CTTAVQQITIKKLDPPVIVSISGSAILCSPSTSTTSTVTVTTSNGVGALAYVITAPASAT
+SNVTGATTGVFTGLVADTYTFKVTDANGCFAIQSYTVLPLTPIAVAESKLSDVLCKGGNT
+GSAKFSISGFSATGNYAVVITSTPAGLPYTNVTTGDVITLNGLVAGTYNLEVTDNTTNCK
+ANKSITITEPVNPLGGTLTIVNANCNVPNAQVTVNATGGTPTYSYAFVHNNVAPVSTDYK
+SSNTANLDPAISDWDVWVKDANGCVIKLDAAIIKDAVPDVTASVTNQCTSTGTSFSIKAV
+GTGGIAPLTYSISSGVAPSPADTFTVTSPGTYVITVKDANNCTDTVTVTVNSVLTASAVL
+VKDITCAAPVNATITVNAGGGLAPYTYLVSTDGVTFGTSPDLIGNTFTTNTAGDYYFQVT
+DASGCTKITNKVVVTSPQTVTGTAAKVDPTCNGYTDGSVTLTATAGVSPFTYSIDGGTTF
+VTTKVFGGLASGTYTYVVKDAKGCTSVPATITLVNPAPIVVNIVRNAILCNLNTPGSFDV
+NVTSGGTAPYVYTLYDNAFTQIATYTETSTVNPTPVYKFAGLNFGDYYITVVDANGCEYR
+SGKLRIETPPYLKMSAVADSNNCATGVNVTVTTSGGTPDYKYSIFGQPLTESPAQTSPTY
+TFLGLKHGTTYFLQVKDINDCISILEFTTPPPPSSIKVTGTTVTDVTCNGTSTGILTFTV
+RDFDPSITTVNYEVLNALTLLPVSPAINSTLTGPLGGPVSGTISTLKAGNYVLRVTEAGG
+TLCSTTFSFTVSQPVQPLKTTITKNVNATCNVGAQVTLTTIGGTGPYEYAAGAPGFTPTT
+FGTSNVLVLDYTTRQNWDIVVRDAKGCIDRVNTTIGLDPSPVIALSVVNKCVAEGAYVVR
+VSLTTAGISPYEISVNGGVYEPVTITTVVPYDVTGLNSGLNTIKIKDANGCVDTKSITID
+KPLGVTPVITALPTCANNDGVITLTPIGGAGPFTYSIAPPVGTVVGNVISGVPAGTYTIT
+ITDTNTLCTATAPVELSAPTPVDFDAVVTNATCNGSRNGTITVNLAAGSDNPVYTYSILP
+VPVGMVQTDNVFSNLPADTYTITVFSGRGCSASKPFTVGQPLTLAATAAVTDYACNTSNV
+AQPAVVTVNVTAGTGTAPYKYNFDGSANYFDANTLTVLDNGAVQTIHYYVKDANGCLFDD
+TVTVNPYQKITDLTFTGAAITCNAPATSITVTVAGGYAITKYEIVSPTANAVDNGTVNVF
+NGLLPGTYVFKVTDANGCSFQKSLTIKPVTNITVSGQLIKDVSCNEVAATPNGSVEFTVG
+NFAANYTYSINGVAVAGTHTNPKVTLTNLAVGNYKIDVVDVATGCVATTDVDVNQPATPL
+LLTLVSNVNANCNFGAKVSVVGSGGTPGYTYAYAVSPTAPAAGAYNTSPSAVLDPSKVWI
+AYVKDANGCIAQLPLTIATDPLPSIDPITGVCYDGSPVNVTLVGHGVGPLTYSIGNGFKT
+SPDFVLNAPGTYTFYVRDANNCDAATPYVYQLDQKLLLDAVLQDLTCAAPNMATVTLTAT
+QGSTVYTNYDVSFNGGPFTPTTSPYTTNIAGTYTFRVTDNKNCQSVSKPVVVNPIVMPTI
+ATSEFNVSCNGGNDGSITITAGSGLAPYEYSIDGTTYQASNIFGTLGQGSYTVYVRDAKK
+CVVSKTVSISEPTILNATAAVTPFGCTVTNTPQDAVVTLTATNGTPGYKYSFDNGVTFGD
+ASTLNVSTITAPRTVFYVVIDANGCRVSGNVTVNPYTPPTDMNITATPIYCNTMGGVSTA
+TVNSVTGGVGPYKYEIVSPAAAVTNNTTGIFPGLLPNTYQIKVTDANGCSTTKAIVIKES
+DKIKATTQLLTDVLCNGGSTGTASFVVSGYITPADYIYSLAPVAGTATKTGDVISYTGLA
+AGKYTFTVVDRISGCQDQVVDFEIKEPSILDFTSTATNTNCNNKTAQITITATGGTPAYR
+YAAVVSLSAAPTVFGTNNVITVDTNNGANRNWDIYVQDLNGCPVMKTQTIVEDALPTTPS
+VAPFSQCPDPLNGTYTFTITGVTGVAPIEYSIGGGFQSSPTFTVSTSGTYDVTVKDGNGC
+EVKTTAVVNIFPALALDVKITALPDCNTNNGAITATASGGSTPANYSYSLNGNFGQTSGI
+FTNIGPGNHTITVTDVTTGCTRTVKFEIIPATPIKGFTLAHTDVTCNTFTNGTITATIDE
+TGGNDNPIYYYSITAGPVLRPNQTSNVFTGLPKGQYTVTVTSGRGCKDLEDVEIFEPAPI
+VVSNVVFTQFGCTAGTNTNTNATITVNTVTGGSGKYVLYQFMKNGVEVQNSTSNTYTVFD
+LTGGIYTVNVFDDKGCVGSSTSVIDIKPFISLDDVTVTVDKDITCVNNEDITVKAGVTGG
+TPTPTQIVYTIKGIGGSTFTDTNTTGVFTALPIGNYLITVENSLTGCKIEKAHYVTNPNT
+FEIKATPVVAEICFGTADGSVNLTFVDNQKLPSDDAGIFDYTITGPVNVPLTRSANAGPV
+SITGLRAGQYTVNATLVGKPYCSVSTIFSIGQPTAALVVTTTKSEITCVAGNNDGEISAT
+ATGGWDTNYQYELVLNGAVIANNTDGNFTGLSAGNYTVNVKDGKGCQASATQSLKIPDPI
+VVSATATASVLPCFGDRSGIITVNPPTGGQGSNYMYTLNMLSENPVVSSGPQSNPVFTGL
+PAGTYSITVTDGFTCSATSANVVITEPTEVVPSLVLATTQTCNTQSTLTLSATGGSGPYT
+YSTDQTFTTTTGSFATSVTFAVPVGKYQYYVKDAKGCVAKISNEVKIDPLEPLVIELDVT
+NAVVKCMGEATGVIVANAKGGLGNYIYTLENTAGGVVRPAQPTGRFEDLPIGTYVVKVAS
+GDCPATSGAIEIKQPATAIQATFTPTNVSCFGESNGQIVVAATGGTGVIKYAISPDLDQF
+DVKNTFDKLAPGKYTVIAQDENGCYVIDEIEITQPKPLIVTELPNSMIPEVCKGDKDGAF
+SIEVKGGTAPYSVSLDNKNGTYTQGTATQTIFDFTNLSGGVHTVYVKDAQGCVNEFVENM
+PLPVVLDPTTVTNYDCVNNAQTNMVTVSVDESNTDLTQIDYSLDSDVGPWQAANIFTNIA
+PGTHYIVARHTNGCKVPTASFEIRAYEKLTLAESTGKPEMNIISVTAAGGAPAYEYSFNG
+EPFTSSNKYKIYKTGDYVVVVRDQNGCTATITVHAVYVDVCLDNYFTPNGDGVYDTWGPG
+CTNIYNNLEFSIFDRYGRVIAKYRYGQKWDGRYNGAELPSGDYWYVLKLNDEKDAREFVG
+HFTLYR
+>tr|A0A1S1IYG3|A0A1S1IYG3_9FLAO
+MTSVNAQIYTPNAIIQGTAPNNNVGIGTSTPNVKLSVFLPSGIGNVINWGNVGGGSYGGI
+GFDSNGSYLTNFSGNNALYVKGADGNIGIGTSTPNVKLSVFLPSGIGNVINWGNVGGGSY
+GGIGFDSNGSYLTNFSGNNALYVKGADGNIGIGTTNPTSKLTVAGNINSREIKVTVDAGA
+DFVFENDYSLRSLDSVDKFIKENKHLPEIASADEMKKEGINLSEMNIKLLQKIEELTLYV
+IEQNKHMKELKSENQNFKSILERLSKIEEKLK
+>tr|A0A1S1J535|A0A1S1J535_9FLAO
+MELTENWVRYNNGNSIGKKGSEGGKILNDQEHINGSRITIEANAGNIPFAITFGIYGLMV
+HTEFFSEIEIATEYFKRKKNEIDGILKMFEISEENQDIEWKSKMDEYLEKLIYE
+>tr|A0A1S1JBP4|A0A1S1JBP4_9FLAO
+MFLVVYLYGPALCAQQGKVDISFNTDDNGKKGDGFDNVVRTVSLQSDHKLLVGGDYLNLN
+GTKCQYLTRLNLDGSIDETWDTGTGFNGKIYTSCIQPDGKIIVGGSFTSFNGISCGRLIR
+LNIDGSYDAAFDTTIAVNTGIIYNICLYRDGRIIITGSFTKYNNITVNRVACILSDGSLD
+SSFNTGSGSSANIINANVMSDGRILLTGNFSIFNTIAANRMVCLLPNGKVDTGFNTGSGF
+NEDVNAVVVQSDGKIIVGGKFTSYNGSIANRIVRLNQDGTIDNSFVTGTGFSGDAVQIIK
+NDLSGNIMVGGSFTGFYNGVAVNRICLLNSNGSLQTNFDVDSGPGSGSILTLANDSENFW
+YVGGSFSVFDSQNQGRLVKISKDGEREEAYLSTGVGFDDSVLKVLPSLDKSTVVLGNFQK
+FNGNFSSRIVRVLADGSYDTTFNSGQLGANNVIKSGVLQLDGRIILGGNFTKYNGTAFNR
+IIRVLPDGAIDNTFNVGSGFNGQVYSIAIQPDEKIIVAGNFTSYNGAPVGRIIRLSQSGL
+RDLSFDTGGGADGIIETIIVQSDGKILVGGRFDSFNGKSSHRLIRLNSTGSIDSDFSAGT
+GFDKNVYAIGLQSDQKIIVGGAFLSYNGIPQKRIARLNADGSLDSFFDSGVGFDKGEVRS
+ILIQPDDCILVGGTFSGTYKTNTALRLIRLQKSGEYDISFKSELNNSLFTMGFTVDHKLI
+IGGSFNSISGISKHRIARIKLCLDGTVWDGKSWSNGFPSVAEAVEFRGNYENLTSVNICS
+CFIDEGKQVILLNGNTLGVEFSYTGKGILVLEDSASFYQSDDDVVNTGIVYLKRNSTPIR
+KSDYTYWSSPIDLQKLIDVSPKSHLEKFYSYNYDDRNWKKENPVNYMSVGKGYIIQGPQD
+YSETVPLKFEAVFKGIPNNGKIEIKSGVADTFNLIGNPYPSALDGDAFLLANKSKIKGTL
+YFWTHNTPITKYKYTSDDYAVYNLLGGVGTRKSETSGINETVPDGTIATGQAFFTNSKGS
+ETIEFMNSMRVVGRNARFFKQPDRNTMTVFKNTIERHRIWLNFDNSEGSFKQILIGYIDG
+ATNQYDTDYDAESLNGNPFVNFYSRIENKKLVIQGRALPFIENDSITLGYETAIAGKFNL
+SIDHEDEYFKKENVFLVDKKIKKIHNLKQGAYLFSSDAGTFNERFVLLFTNETLTIKDFS
+EKNPEVLISVEDRIIKVISTQELISQITVFDILGKQMYRKENLEILEFQLPKFNLSHQIL
+IVKVILGNRKIVTRKILL
+>tr|A0A1S1J3C2|A0A1S1J3C2_9FLAO
+MNEKNLEYLKDQLKYTGFGETFDAELRENIMKGDKDFKIMHTGIMNNGLPNKDTLTVELN
+FKRSEQTDMYFFNSYHVNLQKEENKPGLEQTFYINKDSASITMKEAYNLMEGRSVNKDLK
+NKEGESYNCWLKIDFKQSDNGNFKLNQYHQNYGYDLEASLAKHSIKELNTPQYKEDLLNS
+LKKGNLQSATFVVSGVESKMFVEANPQFKTVNVYDENLQRINHRESKEEKKAESQKESVS
+KDQKKNLDSDEGDSGRKDNKVKKRKTPSL
+>tr|A0A1S1JB76|A0A1S1JB76_9FLAO
+MPVSVWTTTLLLFTVLLLNPQKAFSQEQKKDSIKRPKIGLVLSGGGAKGFAHIGVLKVLE
+EAGIKIDFIGGTSMGSIIGGLYASGYNASQIDSIFKKTNFDELINDYIPRSSKNFYGKKN
+DELYAIALPFSNFRIGIPEALSKGMYNYNLLSGLTRNVRHVRDFNQLPTPFLCIGTNIET
+GEEVLLNKGNLVQAMMASSAFPSLFTPVEIDGNLLVDGGVVNNYPIKEVRNLGADIIIGV
+DVQDDLMNRKNLKNATKILVQITNLQSIDKMKNKIKDTDVYIKPDIRDYGVISFDKGEEI
+IRKGEEAAFAVYERIKSLTDEAHFYKKPKLKIASDTLQIKEINSENLENYTKEYIRGKLR
+FKPGSTITYSDLKTGINNLNATQNFSTISYCLQPDEQQDDLDIVLKENPTQTFLKLGLHY
+DGLYKSGILLNLTHKKTFLKNDVTSLDVILGDNFRYDFNYYIENGFNISFGFQSRLNQFN
+RNVTTSINTLTAQNPNVNLINVDFLDITNQAYFQTIFVQKFLMGGGFEYKYLKIDSPTLN
+NTVNTIEKSSYLSLFGYLKYDSFDSKSFPRSGWYFSTDLQTYLASSDYTRQFKPFSIAKA
+EIAFVKTFFRKATFKIDADAGFNIGSDSVPFFDFILGGYGYSKINNFNYFYGYDFLSIAG
+NSFIKTGITLDYEIFKKNHVNLSANFANLGDDIFTKVDWISMPKYTGYAVGYGLETIIGP
+IEIKQSWSPEMSKSYTWFSIGFLF
+>tr|A0A1S1JBZ9|A0A1S1JBZ9_9FLAO
+MKKFILSLVLMAVTTSYSQELNLPVFTQYLADNPFVISPAFAGIGDNLRIRANGLTQWVG
+IKDAPDNQSLYADFRVLDRSGVGVNVYNDKNGYTRQTGAKISFAHHIILDYYSKQYLSFG
+LSYNFNSFRIDIDEFNNTIEHPILDPSVTDNRYTANSNFDVSALYRNKAFYISFNANNVL
+KKNTNKYRGVEPSLLSNYQVYTGFVFKDGENSRIEYEPSLYYQYFASDKRSTTDFNFKYR
+RYNRYEDYYWIGVSYRFLNDQFPKPLSVGPMVGFMKSKFYFGYSYQVMFNNLGNYNTGTH
+SVTIGFDFLQAISNCPCTQSPVHD
+>tr|A0A1S1J520|A0A1S1J520_9FLAO
+MLFSQIVVPSPSKSDFSPTLSFLASDWMEGRGTTQKGAFLASEYIASMMELYQLIPYNTK
+SGYYQNFKIEEHTIKKAALEIKKNSNETFPLSPHTDFQVTPIAQSLQKETEVVFAGYGLN
+LPKENYDDYKNLNTKDKIVVVLKGFPGHLDSTSVSYQKFKKYYPEENNLEEIKLQTAISN
+GASALIIIDCKKWGKFKKETAFHSLENSVITSIPVFELSKSAAEKLFAGSNISLEHFEEK
+AAQKPSFASALLKKTKISFAIELQSQTFPVRNVLGMIPGKDTTKTIIVGAHYDHLGILND
+SVYNGADDNASGVSGMLALAKKWSEAKTKPPCTILFASWTAEEMGLLGSDYFVQHLDSEK
+QKILLAINMDMISRSAPEDKTHRMLSIGTQKENDYLKEIANLSNTKLSKPFTLDLWETNG
+HTGSDYASFTTKGIPIMTFFSGFHDDYHSTRDIASKVDLDKVKDVLFIVNTSLLNFINQL
+H
+>tr|A0A1S1J2D4|A0A1S1J2D4_9FLAO
+MYWKTVNPLLKESLLRLMQAEEFEVFRLVGGTALSLQIGHRLSVDIDLFTDEDYNSVDFD
+VLEGYLRENFPYVDKVFGGITAMGRSFLIGIDRENTVKLDVYYSNDKFIQDAIVIEGVRM
+ATVEEIIAMKVDVVSRGGRKKDFWDLHELLPKYNIGKMLRFHKIRSEYTHDQAQIMKNFT
+DFSSADDDFDPECLKGKYWEFVKEDIEAAVKKVKKA
+>tr|A0A1S1J3Q0|A0A1S1J3Q0_9FLAO
+MNKALLLKIIFFFITSFFMNAQTAADKESDVKYPQFQFKGLLQARYLESTGKNVDVLGVH
+HSTGQVTQSSFDIKRMRVGLNTKLSEATEVVILVNLADFKSDPKSKVLENAYGKYTFSKY
+LALTGGQFRPAFGIEELVPVDIIKSFDFSNQYYEFGKNGWTSFQIGASATGAFDIGKIPV
+NYAISVLNGNGKNQEMDNDNGKLYTTRWGFGLSKEHKINLGLNGGIGKRANQKVFALGID
+ITSDFKLTDRLTFDLQIEYKQGTNHNLYFSLPADARTSNVGDYQMRGIYFLPNLRYLVDY
+KKLTSLELSCRFESFDNNYKVNSNVRQTYTPMLSLEFGKAYTGRIELGFEIDRFDKNIPD
+TSFYNDNLFLLQLQLRL
+>tr|A0A1S1J832|A0A1S1J832_9FLAO
+MIGIVANDTKTKLGNDFYDFFYAQYSKLRINTSKIVTVQEELTFGRTTKITILIDGEIVE
+EFISRPDEDFLKYMAESAASKAFKYFKDIEKQNKIITQY
+>tr|A0A1S1J210|A0A1S1J210_9FLAO
+MEKDIILKAENISKQYRLGQVGTGTLSHDINRWWHKIRGKENPYLKIGDTNDRSTKGNSD
+YVWALQDINFEVERGEVLGIIGKNGAGKSTLLKILSKVTAPTTGSIKSRGRIASLLEVGT
+GFNGEMTGRENIFLNGAILGMTKKEISSKLDEIIEFSGCERYIDTPVKRYSSGMTVRLAF
+AVAAFLEPEILVVDEVLAVGDAEFQKKAIGKMQDISKGEGRTVLFVSHNMAAVKSLCTRG
+IVLENGKIKFNGDIDEALDVYSNNGNSTDHTVVFDSDTKRTGSRNIEFISVEIRDQNQKP
+SHEFSIGDDLIIKFRLQNNTNEAKSEVGIQIRSSDEMPIFHIMGRDSNFELTHVEKQEEY
+VVSIKDIRLFPGMYTISFTSNTTTGHQIFDCIENALSFQIIDGGKYTIRSLPRAAGLFFL
+NPEWKKL
+>tr|A0A1S1JB36|A0A1S1JB36_9FLAO
+MAIFICACNAVKRVPDGKNLLVKNTILVNGKSTNDETAFNQMYQKPNGTLLGYRLRLNLY
+NLANLNPDSTYKAKFKNNPGLYERQSKLLSAKQVDRLGQSFMYKGIHEFLKSTGEAPVII
+DTAKTKKTLLRLKYYYFNSGYFKVATDYSIDSVGRKKAKINYNITTGPAYTLDTIKTKIM
+TPALDSLYKVNPDPSVLKSGKQYKTVDFEEEKNRLTTYFRNHGAYYFQPTYVTFDIDTIG
+KKDKANVTLIVNNNNIQGRDSSRTEPFKLYKISDVNIYTDYSATNAKNKITDSTTYNNFN
+LYSYKKLKYRPRAITDAVFITKGSTFSDTRTTLSSRYLNNLKIFNYPSIQYTVDKRDSTA
+QSLIANVYLTPRKKYSFGATFDVTHSNIQDFGIGASISETIRNVFNRAETLEISTRLNLG
+SSRDMANPNNNFFNVSEYGLDLKLNFPRILLPFGTEKIIPKRMIPSTSVAAGFSKQRNIG
+LDKENFTGGIAYNWSPKRGNTAKFELLNAQFVRNLNPDNYFNVYRTSYRELNNIGTIYNK
+NEDYYNSPDDRNLSIPKGTTGFTNDVLSPNSTLVLPDQAYKDVKSIEERRVRLTENDFIL
+ATSYTFTKTTKKDLADNTFYQFKTKIESAGTLLSAISNIGNFQKNDKGNYEIFNLEYSEY
+IKTEFDYIKHWDFGKEKVLAVRTFFGIAVPFGNSNYIPFSRSYYAGGSNDNRAWQPYSLG
+PGSTNAANDFNEANMKIAMSAELRFKIFGAVKGAIFADAGNIWNVLDNVIDEKAKFSGVN
+DLAEIALGTGFGLRYDLSFFVIRLDMGFKTYNPAHEKGDRWFKEYNFGHSVLNFGINYPF
+>tr|A0A1S1J802|A0A1S1J802_9FLAO
+MTENLILRKAIISDVPFIWEILQDAIEQRRLDGSTQWQDGYPNELTIHTDIENDHGYVLT
+ENDTILSYAAILFDKEPAYEVIEGQWLTDGDYGAVHRVAVSKLAKGKGIATKLFEKIESL
+CLKQNIYSIKVDTNFDNIPMLKILDRLEYTYCGEVFFRGGARKAFEKKLI
+>tr|A0A1S1J4J9|A0A1S1J4J9_9FLAO
+MMSSKNLIHIKQFCVYHEIENTFITELHNYGLVKIILLEEDEYFQPEQLPTVEKMIRLHY
+DLKINLEGLDVIANLLSKIEGLQQDLTATQNKLRLYEQHQIE
+>tr|A0A1S1J4N4|A0A1S1J4N4_9FLAO
+MQNMEPIEKINKVLDDFGMSGVKAAEAMGITYNTFRSKKTGKNERHSFNEKNYQDLISFI
+KTQANKL
+>tr|A0A1S1J8I4|A0A1S1J8I4_9FLAO
+MSFIEKIERMKRIHQLICEEKTGSPVAFAKKMLLSRSQLYNELEIIKGFDAPLKYCKKRE
+SFYYETSFELIVHYSLSIIKDEERKEIFGG
+>tr|A0A1S1JC93|A0A1S1JC93_9FLAO
+MTIFLEGHKQTPLKISFVTWEDLYAGNPLNTGVVLTRVSDKETETVNLNRPKYIRECILY
+GLKKGWNGGNKVAVIDGLEILKSLGYDVSGLCPKDGLVVAHGKEYLK
+>tr|A0A1S1JCB1|A0A1S1JCB1_9FLAO
+MQEASFVNLIKTIMWIVAFYYIFKFLARIFLPVLVKKAVEKAGENFQRQQQYSQGNTWQK
+TRTNNDEIIIDTSNAKKTRETKKVGDYVDYEEID
+>tr|A0A1S1J8T1|A0A1S1J8T1_9FLAO
+MKANLKNKSILSRLLMLCLFVFSISLTAQIKYSDGNDSWNPNLLGNHRVAVSFTGTGNVA
+KATIEWRRRDEKPELKKIIVQDASGKTISNVKTTDINRENGTIFFEPISGKGTYYVYYMP
+YIDEGDANYPKGVYAKPEDKADAQWLAKIKSNLADNCTVTEIQSVNAFNSFYPMEVIATA
+AETKNLIAKNSGSSFLVFPEDRLYSIRMKNDLPQRWIQKGVQNTFSDTALRGEYLAFQLG
+VYALQNLDNVKVTFSNLISSTGAIIESKDINCINTDGTKYDGAIFTNTVSVSKGKVQALW
+CGINVPETAAAGTYSGKATVIADGKSKDIVLQIKVTNEITKNGGIYSPEKMTRLKWLNST
+LAQENTVIAPYTPLTVKDTEISLLGRKLVLGSNGFPTQIQTYFTPEMTTVGSKANDILSA
+PLAFHFLDVSGKESLQWKNAGLKFLKKESGTVSWESTSTSKSLQMDVNASLEFDGFLTYT
+VKITALEDAAFNDINFQMPIQPSSAKYMMGLGQKGGDRPSNFDWKWDVAHKNQDGAWIGN
+VNSGLQFSLRDEKYSRPLNTNFYLQKPLLLPTSWGNENKGGITITPNPKSVLVNAYSGAR
+NMKKGDVLYYNFNLLITPFHTINTDFQWDTKFYHKYSDIDTIAKTGATVINIHHANAINP
+YINYPFIEFKKMKSYIDEAHEKGLKVKIYNTVREVSNKAYETFALRSLGHEIYSPGKGGG
+FSWLQEHVGDDYIAAWFVPEIKDAAIVNSGMNRWHNYYVEGMNWLTQNVGIDGVYLDDVA
+FDRITMKRIKRVLTKDGHPGIIDLHSANQYNKSDGFNNSANLYMEHFPYINKLWFGEYFD
+YEKNNPDFFLTEVSGIPFGLMGEMLQDGGNPWRGMVYGMTNRMPWSHNADPRPIWKLWDT
+FGIKGSEMIGYWSENCPVKTANDKVLATVYKKNGTALISIASWADTDVKVKLNIDWKKLG
+INPAKATITAPEILNFQPAQTFSAKDEIPVSKGKGWLLIVK
+>tr|A0A1S1J903|A0A1S1J903_9FLAO
+MIQLVCLNLIIVILKKVLSFVLVTLFFCFPNKFYAQLITDGAGMSITVHGRTNFKNLSTV
+DLYYGNKFKYNTYDFWLPIPPFKIGKTRILGTVNYRVLDFTFDRDIEISPNYITKINEIK
+PTIVVRHPIGKRWAAFGVLIPTIASDFKNSFSMNDMVFDGIFGVSRKFGEKSNLEIGIGP
+HVMYAFGKFLITPAVSLDYKSNNGKWLAQIYWPRVNVFRNLGNNTQVGLAGSIDWTLHNL
+QNYKNDQGEEIDYAQFSAIHGGLQINQRLFDGFWLQLQGGLGFANKYTLFNSNNDTISNY
+KAKETPYVKVMLSYRFGK
+>tr|A0A1S1J9R0|A0A1S1J9R0_9FLAO
+MNTADREKLSVLIITLNEEQHIKSLLGDIDFADEIIVVDSYSTDRTLSIIESFKNVKVIQ
+NPFVNYTSQRNFAIDQAKNSWILFIDADERLTPELKLEIAATINQKDTASAYFIYRTFMF
+KSRKLHFSGWQTDKIFRLFNKTNCRYNQDRMVHEKLIVNGPISTLKNKIIHFSYTSYTDY
+KAKMYSYGVLKANEKQKKGQKSSLLLMIFHPVYTFLYQFLVRLGFLDGAKGITICYLNAY
+SVFIRYKELARITSSRT
+>tr|A0A1S1J2Q1|A0A1S1J2Q1_9FLAO
+MKKILLLASLFVLQINFAQNTYPTSGSAYYDTSLKIGKQEASAGTIGQINRLSLQPYGHT
+GGPWNFKARDNEYVAFLDIDYGITGSALTITSDKNIGIGTTNPSQKLEVLGNGFFKGVII
+SSVSDVIGGQIQLKNSSKTANGTASSWNIYNMTGPYGNSLQFWAYDNLACVEGGMCSNRF
+TIMDNGNVGIGAGNPTNKLDVNGTIHSKEVKIDMTGWSDFVFKKDYNLPTLKEVEKHIAE
+KGHLENIPSEEEVLKNGINVGEMNAKLLQKIEEMTLYMIEQNKKINTQSEEIESLKSLVL
+RVNKIESDLRQK
+>tr|A0A1S1J602|A0A1S1J602_9FLAO
+MKIMKLLLLLILVSPITTIAQTKATVTVHNNSIIDRKETVVAIPWKSVLSSYPQIDTANF
+VVLNTLTKKQIPFQLEHRGNTAVQNLLVQIDVKAKAILNLSIQKGKPEPFAVKTYARYVP
+ERLDDFAWENDKIAFRTYGKALEKTEGDAYGYDVWVKRTDKLVLNDRYKRNDYHIDHGDG
+LDYYHVGHTLGAGNMAPYVKDTIRYSGNYHQWKILDNGPLRTTFQLTYDLWNAGGIPVKA
+TKIISIDAGSQLNRMENIYTFDDKNPLPVVVGIIRREKAGVLSLNEQQGIMGYWEPTFDK
+EGTTGVGSILTTPANAIWVNKEQLLTKTTVRNNEPLVYYTGAAWDKAGKITSARQWFNYL
+DHFNEELKNPLTISVK
+>tr|A0A1S1J3Q2|A0A1S1J3Q2_9FLAO
+MAIQTNYKTALQHKIFDIISKASRELNVDSYVIGGFVRDLLLNRGSKKDIDVVAVGSGIE
+LALKVSDLLPNKPKVQVFKTYGTAMLRFEDTDIEFVGARKESYSSDSRNPVVENGTLEDD
+QNRRDFTINALALSLNEENFGDLSDPFNGLSDLENKIIKTPLDPDITYSDDPLRMLRAIR
+FATQLNFEIEVNSLNAITKNADRIKIISGERIVDELNKILSTPKPSTGFLLLYKTGLLDL
+ILPELTALNQVEEIEGHTHKNNFYHTLEVVDNICPNTDDVWLRWAALLHDIGKAPTKRFN
+KKQGWTFHGHEFLGGKMTKKIFERLHMPLNHKMKFVQKMVIMSSRPIVLADDIVTDSAVR
+RLVFDAGEDVENLMTLCEADITTKNPSKFKKYHKNFEIVRKKIVEVEERDHVRNFQPPIS
+GEEIMEIFDLKPSREIGILKEAVKEAILEGDIPNEYQAAYDFVIKRAEKLGLKKV
+>tr|A0A1S1J5F1|A0A1S1J5F1_9FLAO
+MAGKIQVGYLVSYDYELLKTSLPTVYNDADAVFVAIDKNRNTWNGGSFTIDDSFFEWIKN
+FDVDKKVVIYEDDFYVPTLTTMECEIRERKMLAEKMGIGNWIVQVDCDEYFVDFKKFVSD
+LRRYDSYLINPEKHPIQICAFWVMLYKYTDQGILYVDKPLKAIFATNYPNYKSGRRIKER
+QIYTNNIVLHESLSRTEADLRFKLDNWGHNVDVDKGFLDKWLVVNENNYKEYKDFYYLQP
+KRWKKLGFFSTKSIPQIKEIIEKEKRLNVPKFNLYFKNFGQWLKYSLKKKKA
+>tr|A0A1S1J8L9|A0A1S1J8L9_9FLAO
+MKKATLLIVLFISIFFTACEEVVDVNLDTAPPKLVIEAAINWQKGTTGKQQTIKLTTTTG
+YFQNVIPIVSGATVFITNSQNIKFNFSEVPKTGRYVCSNFIPVIDELYTLTVISGGITYT
+ATESMKSVAPINRVEQNNQGGLSGKKVETRAYFNDPANADNFYLFKYVYSTKITSTYYVT
+EDKFFQGNEYFSTSDDDDLKVGNEVEMTHYGISKQYYNYMSILVSIAGNNVGGPFQSPPA
+TVRGNIINTADKANFPLGYFSLSETDYKKYKIQ
+>tr|A0A1S1JA58|A0A1S1JA58_9FLAO
+MNRSDGSLNPIVEYFLNRIKIRPYNIGRATGSFLKITNSIGMTSFVATDFNPLIDKTTVI
+>tr|A0A1S1J805|A0A1S1J805_9FLAO
+MIRKGGGKEKGKGRKREGRKGKKKREREGRRRGEKEKGEREKEERKRREKGRRGEGKKGK
+RERREGRGKRGEGKGGEKKKGGKKKRRKEREKREGGGGRKKGGKGREGRGRKGKKKEEGE
+ERKKGGGKEERKRERRKKRGRRKKKKGGKKKEEKKGKEKEGGEGEGEKRGGGGRGGGGKG
+GKKEEEGGEGGEKRGGRGRGGEGEEKRKKRRGGRGERRKEKGRGKRERGGGEEGGGGKRR
+KEEEKGRKRGGEKRKRKRKKGGERREKKRKKEGKRKKKRRGGGGEGERGEGRKKGRGRKR
+GEKGKEEGEEGRGREEEGKRKKKKRKGGGEKKREEKEKGKGEKREEGEEKKRKGEGEKEG
+KEEKRKGRGGGRGKREGGGEGKGRGGKKGKERKGKEGGGRRKGEEKKKKGEERKGEGRER
+KKKNKKDRKIK
+>tr|A0A1S1J2Z2|A0A1S1J2Z2_9FLAO
+MKKNYLLLLMFFSVVFMRGQVVLEGTILNKNKQTAAKNKIAKNTIAVTTFDDIKYWIGTG
+SNRAAFMVQWNDGKNTDALVWGFRWEGTATGEDMLKAILKVDRRFFALLYKGTQTGSSVG
+GLGFDLNGIKTIGLYKGTDYTYPLYPTNGFVNTAAYDFDSYTAIDTNDHWQSGWTNGEWT
+YWGKNPADADFTAVTTGASGRILQNDSWDVWNYAPSKNVLPIAGTFTPVVPYAEATDFTN
+GFFMVNEDWFGHTNGSVNFINKDGSTNYRIYSIANNNETFGVTTCYGTIYGDNFYFISKQ
+AASGGDQNFSPGGRLVVANAKTMKKIAGFANIGADGRSFVGVNENTGYIGTSKGIYLFDI
+ANLKVGSLLAGTGTAGQVGNMIRTSQYVFAVTQSGGMLIIDPATNTLIKTITGKFHSVVQ
+AKDGSVWGIQDQKLININATTFTVIEYAIPTTKYLGSWGAWNAGSFTYSTQENALFWINA
+ISSFTSGTKIVKFDITSKTFNENFATIPGQTDAFKQIPYGAALRIDPVSDELILNTTENG
+FGAHFQKNWVHTFDRTGNLIQTRVLDDYYWFPGTTVFPDNEAPVVSNTLPSEVSVKEPTV
+IDLKNIVSDTDNLSAAIVKSVKSVSDAEVVSAVINMNDELVLTPKTQGTATVVIRFNSNG
+KLVEKSITVNVTTNLGIGEFTKLELAVYPNPVSDVLNIRTEDEVLNVTVYDISGKSINTQ
+FNNNQINVSDFSKGMYIINIVTDKANYVQKFIKK
+>tr|A0A1S1J433|A0A1S1J433_9FLAO
+MYNLKIKSCLFFLLFSFEIFAQNNAQSAPQIIPPSPTAYELGRYGQADVGTFTGTPNISV
+PLYTYKTKNIAIPISLNYNSNGIQVDQMETNVGLGWNLNTGGIINRIVRGKDDDERTASI
+SEDMYCSDNFFAYIENNQFNDTQPDMYSYNFQGQSGQFVFDNNGKAVLVSQNNLKIEKLG
+TSIKSGFKITTEDGVEYQFTSTEYSTWENVEAPQTVATGWYLTKIIHPEGDVVNFTYKDS
+NYSFISNISESFGIKISEGLNCLSHPFQGSSNRSENHLNVMGKTIESISSTESQYGSVSF
+QLKGNPNLIGNFLIEGIQVFDAGKLNVIEKADFKYLFTADKRIFLTECIFKDPSKKYGFE
+YDDPNGLVARLSDQRDLWGYYNGKSGTYPDAVIHKNLYPQTDLVKNALMGRSYGDKRPYV
+DFAKKGILKRVVYPTKGYNDFEYEANSVWGTVISDCEIELKNIPFYNPLYDREQKTGEFV
+FESKADHETEILARVFYNDYEFTEGTFPVGELWLTVKVENLTNPQLSSFPITADEHNKPK
+KLPYTFLKNNSYKISVTFSPDAKTTGQVNFTYCKGGGVESKANIPVAGLRIAKITSFDTA
+SNKADVKHYYYGKKESRFTSTGVEGIPINLISFSEQRAFCDKNTGLPNYWNIETWAKFIN
+INANSIYPLYRSMGNSSTTYEYVTVSHGGPNFENGGEEFQYYISADIPPYLCLDSYLTSA
+PWVNLSWKNGLLHIKKVFNKNLDDLSIVENQYKLEDQYTRKIPGVAIEIKYNALYHFTSP
+NYKNIEHLNISKYTTNSYWFYLESESNTQYDVKGSNPVTTITTYKYNNPSHLKLSSQSTT
+VSKQEVADTKATTEIKYFYPSDSEMVSEPFRNELMAKNMIGKVLDTQVFKQEVKLSEQKT
+VYEKSAATSNLLLPRSVYANKGASSIDLSLDKKITYDQYDDKGNILQYTLESGIPVSIIW
+GYNKTQPIAKIENVVYNLIPSATIASLQTLSNADIDNCLSDNCTEQKLREGLKTLISSLP
+NAFISSYTYNPLVGVTSVTDPKGIPSYYEYDSFGRLKFVKDQDLNILQKYCYNYKGQQTD
+CSDNTSTSDYLYKSVARSGSFTKKNCPVGGVGQSVTYNQAVGASTSTISQADADENGLIK
+FNTEGQAYADNNPSVKCIFKNTAKSAWFTRNNCAAGGTPESILYTVQAGKHSSESSQADA
+DNEAQKDLNDNGYAYANANAKCTFKNTVQSRLIARNNCAPGGTPASVWYTVAAGIYSSTT
+SQADADGQAQREIDNNGQAFANNDANAKCTFKNTVQSRLIARNNCAPGGIPASVWYTVAA
+GIYSSTISQADADAQAQREIDNNGQAFANNDANAKCTFKNTNQNRFITRNNCTAGGTPTT
+VRYTVPAGKYHSESSQADADGQAQREIDLNGEAFANTNGNCIFQSAAIPAQPFEKSDCTL
+AGIGSFVNYSLPLGAVTLNNTSQADVDGKAWTKFQEEGRANANANGYCTFRSRAISGSFQ
+KAPCVSGAIGTYVGYALSEGAVLSNTSQAHADSEALTKLNAEGKANANANGQCLFYNVYT
+QRSIRRSYCPAGMNGTVVIYSVPAQKYSSQYSQADADRQAEEEIDRHGQGYADRNGECNE
+GAIEEQ
+>tr|A0A1S1J6C8|A0A1S1J6C8_9FLAO
+MFKRISVALKRSVFPTAKGESKALCTLEGDFRNFTTTGAQTTTIFIVMVFFGTCWATDKY
+FGFKGMKRG
+>tr|A0A1S1J4W4|A0A1S1J4W4_9FLAO
+METSSEKNTATFTHLSTLSQYIIPFGNYIFPILIWTSYKDKSEFVNHHGKQTLNFQLSLL
+LYTLVLALIAIPIFITVVLQNIPIEALMYDDNYVIRNFNFEGNIGLLTIGATAVVLFGLL
+KFVEFFLVIYASIKASNGELYKYPITIPFIK
+>tr|A0A1S1J0T7|A0A1S1J0T7_9FLAO
+MAGELEKLKIVAYSDPQFNNKIADGKFSTLMNPEKYTYHYKIETDDTQASGTSTVSPKFN
+KKLPENLELDFVFDRSGVISGYKSSSNGIIDDIEKFKKVILDYNGDEHKPNYLMISWGTL
+LFKGALTEMEIEFKLFNPDGTPIRAIAKAKFQGFVEDNLRAARENNKSPDLTHYRIVKEG
+DTLPLMTYHIYGDSKYYLEVAKVNNIINFRKLKTGQKLFFPPLQKQS
+>tr|A0A1S1J1J9|A0A1S1J1J9_9FLAO
+MVNTLRLRNPNLKKINMKLQTIILLFLITFSTKAQKVVRYDLHVRDTIVNFSGKEKRALT
+VNGQIPMPTLTFTEGDIAEIYVHNDLKKENTALHWHGLFLPNKEDGVPYLTQMPIKPGTT
+HKYSFPIIQNGTYWYHSHSGLQEQIGLYGLFIINKKKDDPTIRKGIDDLPTIPVILSEWT
+DLKPENVQRMLHNADDWFAIKKGTTQSYAEAIKQGHFATKVTNEWKRMNAMDVSDIYYEK
+FLINGKNEQQLSQFKAGDKVRLRIANGGASSYFWLTYGGGKITVVASDGNDVEPVEVDRL
+IISVSETYDVVVTIPEDKKSFAFLATAEDRTGSASLFLGAGTKQSVNHLPKLKYFEGMKM
+MNDMMKMNGDMNDMGMQMSLNKMDMNAVMYPEITGGGEPMKMEDHSNHNMEGMNMATDTT
+EVAGITTLNYGMLKSPTITTLPKDAPVKELRFELSGNMNRYVWSLDNKVISETDKILIKK
+GENVRIVLYNGSMMRHPMHLHGHDFRILNEHGDYSPLKNVIDIMPMETDTIEFQANAEGD
+WFFHCHILYHMMAGMGRIFTYENQAPNPLIHDKKMADKMLKMDDRMFHFRAENDFASNGN
+DGEALLSSTRWSIGTEWRLGYNNKNGFETETHIGRYIGKMQWFMPFIGFDWRYRKMGIDE
+QEQNMFGQKNTKDNRSVLSAGIEYTLPMLVKAQVEVFTDGNVRIQFERKDIPLARRLRMN
+LMWNTDKEYMAGLKYIVGRNFGITTHYDSDMGVGFGVNLNY
+>tr|A0A1S1J643|A0A1S1J643_9FLAO
+MIVMRNLKMLCLAAFAFLYANTTFAQDSTIKNYNQGFRLGFGLNGGIPTDNDYKWSLGGD
+VRLQYDLSKKTSLTLTTGFTNLFMKNDAKDLGFIPAKAGFKAFIWEDQFYVLGEVGAGFA
+VTNGYDDTTFLWAPGIGYANKYIDISVRYEDYNKFKTNQVALRLAYGFDL
+>tr|A0A1S1JFF9|A0A1S1JFF9_9FLAO
+MLESTIKTLCKIGIMKKLLYVLFIGIMAQNTSGQDLRPEYQKFVKKFIDNVKNDRKEAVA
+EAIKYPLRRDNPIPSIKNKAELVKRYAEIFDAKLKAEISQSDAAKNWSEVGWRGIMLNQG
+TLWMDTDGKVFSIIYQSKVENDLKNKLIASEKSKLHQSIAKFKEPQIIIETSKFRVRIDD
+LGNDNYRYASWSIKQSMSEKPDLIITNGKWFHDGTGGNNHYDFKKGNYLYQCYITVLGTK
+DSAPANLTIYQNGKEILNQDAKIVPR
+>tr|A0A1S1J166|A0A1S1J166_9FLAO
+MTCQKTSHNFTKIAFKPLHTNLFNIVLLSFFLTLGCGNLYSQEIKNKKKPLPTVKQTDKP
+KSTTTEKPEVTVSDTIKLDTVKAKKNFLDAVTKYKAKDYAKYDKKAKTLTLYNEAELYYK
+DVELKSGIIVLNMEKEEVYAGRIRDSAGVLIQYPNFKQGASEVQPDSIRFNFKTKKALIY
+NSRTEQGEFKIKAAITKKENDSVYFLRGARFTTAKDIDNPEYYFQTNKVKFIPGKKVITG
+LTNMVIADVPTPLALPFAYFPMSQEKSVSGIILPSYNDSNTRGFSLQNGGYYFALSDNYD
+LTVLGDYYTNGSYAMRFESTYAAKYKYRGNLNIRYENLINSERGYPDYSKEKIYNIQWSH
+SKDTKSNPNSTFSASVNMGSSKYFKRSINQANAGSNLNNTLNSSISYSKTFNTIPQARIS
+LTATHSQNTQTEKIDMTLPTLQASVDRVYPFVGKDGVKKGFIKNINLQYNLSGKNSISTT
+DSLFFKPQMFRDAKIGMQHSIPISTNFKLFKYFSAGASTNYQETWVTKTEKREYDATKGQ
+AVTTTVNGFDAYRTYNFSTNLGTTIYGTFNFGDNKKIQSIRHVMRPTMTYSYTPSFDQYY
+DNYTVDATGKINTYSRFDNGIFGAPGNSNSNIVSFALSNTFEAKVRDRDSTKTEPKKIML
+LNNLNFSTSYNFNADGKQTLAWQPVIVSGGTQLLDNKMNLNFGAVLNPYAIDNAGHVMNV
+FNIDNGGSLFRLTSANLTVNYSFSNKGGNAQEKNTQSQRNGGRNDDLFGTNTDLNDSRNS
+QFANEKDDDKDVITEFFRSKLPWDMTLAYSLTYSNAARENKISGNSIMISANMDITPKWK
+GGVSTGYDFVQKGVTFTQFRFERDLLSWRMAFNWTPIGPNSNWNFFIGIKSGMLSDIKWN
+KRSTSNR
+>tr|A0A1S1J8M8|A0A1S1J8M8_9FLAO
+MKKLVLVLLFCSTAGFAQQDAQFTQYMYNTININPAYAGSRGAMSIFGLYRTQWVGLDGA
+PETSSFSLNTPINNNVGLGVSLVNDKIGPTNENNISADFSYSIQTSATAKLSFGIKGSAN
+IFKLDPTKLNPEHQGDTQFQDFQNKFAPNIGAGVYWHTDKAYVGLSVPNFIQTTRYDDND
+YSIYKDRINYYFIAGYVFNLNRYETIKFKPALMTKMVEGSPLQVDASANFMFNDKFVIGV
+AYRWSASFSALAGFQITDSMYLGYSYDRETTRLVNYNSGSHEIFLRFEFLKNYSRITSPR
+FF
+>tr|A0A1S1J5W4|A0A1S1J5W4_9FLAO
+MIFKVKKIHLIVVILLFTTIITRGQFVTQTGVDNLNTFTNDLAIYLPHTLNSPSTYGTVL
+GLRHWGGAGGSDWRTQLAFSTESDFYFRQSTNTAGTVWSEWKKIYNSENLNNNSTDFNAK
+VLTAKELIISQTQTNVLLSATSNSYINSGNFGIGTINPKNKLDVNGTIHSKEVKVDMENW
+SDFVFKENYNLPTLSEVEKHISEKGHLENIPSEKEVLQNGINLGEMNAKLLQKIEELTLY
+IIDLNKKLELQNQELNSVKKKLGN
+>tr|A0A1S1J2E9|A0A1S1J2E9_9FLAO
+MKKIIFICMMAAMFFACKSASSTTASNGAPTLSTKLDRPTQVAIKGNWVLTNVSYPGSEY
+IKVNSFDLADSKCFIGSTWNFISNNNKGSMALTAASCTGFNSPIVWSVNNQGMFVLKILD
+AGIKAKKVRDGYLLKVAGLTDNSFQLIDNINVGGQTKDVVYQFQRAN
+>tr|A0A1S1IZ89|A0A1S1IZ89_9FLAO
+MKAKQQLRKPENWPDFENLCKKLWGEIWRCPEIKKNGRSGQSQHGIDIYGIPFGEDEYYG
+IQCKGKDDYTNATLAEKEIDREIKLALSFQPTLKKMYFATTANKDAKIEEYVRKKNIEHL
+QNKLFEVHLYSWEDIVDLIDENKQTHDYYVRSINFKTEHEVLFTFENDETEYVIEIPFRK
+KITHYKQKIVPAGDNFVGLSEMLFSQFRMDHIKSFSMYSFNHSYARFHFRLHNLGSEPLQ
+EFKVFLDFEGDFQSIETCTKSHYMIPNPNLQYDTFIWNEDRQGKIIPLKTILVQDDTIGF
+DTICLKPYNKNTEVKIHWKLVSLNYKTEGDLKLNIKPTYKLKEETILVEDPLKVRIEEDI
+EDYITDGNDDEK
+>tr|A0A1S1JAF1|A0A1S1JAF1_9FLAO
+MKKISTLFVKDPHDLARVINKVSDENKWVTTGEVIATRKFDGSAAAIIQGELFKRFDAKK
+GRVVPSGAIACQEADSITGHHPHWLKCDRLKPEDKFFFEGFDNLKIKIDGTFELCGPKVQ
+GNPEKLEKHMLMKHGSEVFDFSNFEFDDLKRFLLENDVEGIVFHHVSDGRMCKLRKSDFG
+IKRSKLEMTPTKNANNLIVSNHE
+>tr|A0A1S1J7W3|A0A1S1J7W3_9FLAO
+MLLMKFSLLALLFSPFIFAQTQYPKDYFRPPLDIPMQLSGNFGELRPNHFHAGFDLKTNQ
+REGLKVYAIADGYVSRIKISTFGNGKCIYITHPNGYTSVYGHLQTPVGPILDYVTKTHYK
+EKAYEIEMFPKPNELPVTKGDLIGLSGNTGSSEGPHLHFEIRDTKTEFVINPIFFGFDKN
+LKDTKKPSISSVYVYPMDNATVNQSKQPLLLNVALQKDGTYLAGKVKANGRIGFGISAVD
+YDDVSFNKNGVFNVSTFLNGNQNYNYQFNTYSFDEMRYINAFIDYGKYKKSGQRVQKLFM
+KTPYALSIIKTDSLRGIVSAEPNLTSTYRIEVSDYFGNLSAVTVPIEYDTATPVVKEELI
+TSKYFIKVNKDSNFEKDNMSVFFPAGTFYDDFNLNFDVKNNRIYIHDDTVPVHSNFTITI
+KDSSFPEALRDKLFIGRFNGNSASYNGTVRKGDVFTAKSKTLGQFGLVLDTIAPIIKIVK
+PIQDKWITGVKKIEFTINDASSGIKSYNGYLNGNWILFEYESKSRKITHTFDDTLLAEGA
+NDLKIEVIDNVGNSAIFETHFFRSQQK
+>tr|A0A1S1J8F6|A0A1S1J8F6_9FLAO
+MVNTTDQWKNILFLAIIGLLMYLVYQNEQQDDYGKSFKGETIGLLTRLKSNDEHGYTLQY
+YFYTDKKNRAVVFVKSYDRKDFNKFFKVKYDIDKPEENYIDLKEELRPDSITLVKAGFTK
+IKYYIYDAGVTCKYIEKSKWK
+>tr|A0A1S1J9U2|A0A1S1J9U2_9FLAO
+MTQAQIYIDKDELKEGKPLHQFIMHLLLENGIVGATSFTGHSGFGRHNRLKQPGQQFSFD
+ETPMLLTFIDEDKKIKEVLTELRKQYRGGFIITHSVELW
+>tr|A0A1S1JFQ7|A0A1S1JFQ7_9FLAO
+MVINNKNNYRSILIISFIAINVLVLFGISEILGYLNSGADRSSMLHLEKETSNTYLPKVT
+WETLKNQGRTMEAQTIRKIEEHYLFSYVIKNNALKNNINDGIEDYFTESTRRQLEQVISY
+NKTRKISIRSTTIEHHASLDFYSEDGQQVVFTDKNVVEFQNIYQDNKLIASVRDTANYKV
+LMLLEDGFWRIRHYVRMQKEKSLVAVELNKKIYTVKGNEILKNGVPYIIKGINYYPKNSA
+WDMFGNKFNRDTIAADFEIITKAKLNTIRIFVPYEEFGKAEIPQEKLDKLKIVLDLAEEK
+KLAVIVTLFDFYGDYSPESWTLTHRHAEKIVTIFKDCKNIIAWDIKNEPDLDFQLHGEQN
+VKPWLEQMIVTVKKFDPNHLVTVGYSNIESGEILKDKVDFVSYHYYEDSSLFEDKLAVLE
+KATKKPLVVQEFGLSSNRGLWSWFGNSKNVQANYHKKMQSIFKKKKLAFVSWTLYDFPEV
+PDKVAGKWPWIKNKQKQFGFIDSEGKKKPSFLYINN
+>tr|A0A1S1JFG9|A0A1S1JFG9_9FLAO
+MPAPVVGTVTQPTCTVTFGSIALSGLPSGGTLTRSPGAVAIPYTGTAVTDTNLAAGTYSY
+AVANGPCSSISTTGIVINPIPTATYNGTWSSPATIDKKLIFNSNFISTGDVTGCTCEVNS
+GANVTIGAGHTLKIANDVKVYSGGTMTFKNTAALVQINNVVNTGDITYERTTPPILLKDY
+VYWSTPVSPQTLINLSPSTPSTMYYGFDGTQWVRTNRNDNMVVGKGYIIRAPSGYSNSSK
+TAYPASFKGVPNNGNIETEMLASGKSYLIGNPYPSALSAERFVSEGIEGFIKTNENVING
+TLYFWTHNTPAKPVASNQYTSDDYASFNLTGATAAESGGDKPTGEIAAGQSFFLTAKAAG
+KVLFTNAMRLGATDNGQFFRPANSSRKATIEKNRIWLNMTSTTGAFKQLLLGYIEGATND
+YETLYDGLTLDGNQYLDFYSVSNTNKFVIQGRALPFTDADIVPLGYRTAVAGDFTIAIDE
+VDGKMANQKIYVEDKTTGVIHDLTQSNYTFKTEEGNFTERLVLRYTDKTLGVGDFENVKD
+GILVSIKDKVIAVQSSQENIKEVTIYDVSGKMLYNKKKVGNTELQIQNLPSSNQVLLVKV
+TLANDFTTTRKVIFQ
+>tr|A0A1S1JA93|A0A1S1JA93_9FLAO
+MCYKQFFYLIEMKLKQIERVKKISKADFISQYVKNQIPVVVEELTEDWPAYHKWKLSYIN
+EIAGNIIVPLYDDRPVNHEDGFNEAHTTMKMSDYIHLLESKPTNYRIFLYNLMKEVPLLK
+EDFLWPDIGLNLVKQMPMLFFGGENARVFMHYDIDYSNILHFHFHGEKQCMLFAPDQSKY
+MYKVPHALISREDIDFDNPDYEKFPALKNTQGFITNLKHGEMLYMPEGYWHYMKYLTPGF
+SMSLRAFPKNITNLSKAFYNVFIMRYFDIMMRKFKGQKWIDYKNEKAIRNTNENLQKSP
+>tr|A0A1S1JC57|A0A1S1JC57_9FLAO
+VNIRNNKDFHDALNVESGCSYLSFGKEYGKVSEEEIAYIKLFTQGKDITDVQVESALPKI
+GDKLKIEHGELSGLECEVFRVDNQHRISVRLSSLRQNISAIIPLSYLSNPEENVFAKA
+>tr|A0A1S1J9F0|A0A1S1J9F0_9FLAO
+METNFKWQEGLSCPSGYPIQVYRGWLEGPLVSNGVNEEPNSTTSIYGFGTTTGIGDWGEN
+SSGMSQGEKPIPQRLNCTWYSYVEDVMYHIDTELDYPKMVKLFNEGFQSNVQKKGKVMTT
+YKHITVGFAPGGVVVVWLKGGQKDVEIGRYQGKKAEISAKEIASLDSHERLLFDPADRER
+TLKNPKIIAPEVQEANKNKPIPYGLWDSYRIKYNWRPTAVFVREGKVQDELSFALFNGER
+ETLLEKEFAKNEYQERAIPRSLGIRWWDKNGQGYSGSFIFDEKEIFDAFKELRKKNPEAN
+IDLEVKINPGSDYLGATLKNGTAVIPLKKSKTNVFESSIVTREYKYNWHPVFTFPEGEKM
+PDKIYFLSHTLGQSLAEKKEMNLPLQENAAPSKISFDYSKADGETSYLELIFKDDEVRET
+FRDIEKLKPGAPIEMQVKIGKSYNSCTITLKGNGKELPVKFTTYQN
+>tr|A0A1S1J984|A0A1S1J984_9FLAO
+MQMKKIIVMFLFFTVVCSAQQDAQYTQYMYNTMAINPAYAGSRGALSVFGLYRTQWVGLD
+GAPETSTFAINTPLNNSNLGLGVSLVNDKIGPTNENTLSADLSYSVPTSETFKLSFGIKA
+TANLFNLDVNKLNPENQGDPQFQNLNNRITPNIGAGVYWHSDKAYLGLSIPNFIETNRFN
+DDDTAIFKDKINYYLMAGYVFDLDYYIKFKPALLTKMVQGAPLQVDVSGNFMFNDKFVIG
+LAYRWSASVSAMAGFQITDGLYVGYGYDHETTNLRRYNSGSHEVFLRFEFLNNYNRITSP
+RFF
+>tr|A0A1S1J8T3|A0A1S1J8T3_9FLAO
+MKKILTLFAVAVVGLITFSSCEGPEGPVGPPGPEAEVFELQNVNFSYNATDGYNIYQKLN
+PVIFDSDVILIYRLAGTVNPTTPIWQQIPRTVYTSKGDFDYDFDFSKSDFTIFAGGNYDL
+ALTPEFIKNQTFRIVIVPGAFSSTGKSVNKADYSDYNAVIKKYNIDDSKVKKLN
+>tr|A0A1S1J676|A0A1S1J676_9FLAO
+MKKNQIKGQYIFLLVLFLNAYIIYGQTNNEILVYNWFDKNLGVESLEFENGPAHLNFDKT
+VNNENRYYISEDFRKGSMQYNNQNYSDLLLNYDTYTDELVIKPYGELNTTKINLFTQNIS
+YFKIGNDKFVHLDVPNSTTFRKGYYEEVPVGNNVILYIKHSKEKKKSNKAEVDLIGYTDR
+KEFILLKQNNFYPINDKKEIITLFQENKRKINDFYLMYRNLRKEDAALFMKNLLKYINN
+>tr|A0A1S1J409|A0A1S1J409_9FLAO
+MLAFMQVLFRYAFLKQQNIPLALADWQYGLLVLSTVLLAAAGYVINNIYDVATDSINKPA
+DVVIGKGISETTAYNIYIGLNITGVAIGFLLSNIILRPMFASLFILIASLLYFYATTLKQ
+IMILGNFVVALLLSVSVWIIGIFDLFPATNSENQAQMASFFSILTDYAIFAFMINFIREI
+VKDIEDHNGDYNQGMNTLPIAIGISRTAKIALGLAIIPFISCLLYIKTYFVENNLFIATF
+YAFAFVLAPLLYFIVKIFGAKNQKEFHHLSIVLKLILFFGILSILVITLNIKYNA
+>tr|A0A1S1IYI9|A0A1S1IYI9_9FLAO
+MKTINLKRQLNRLFMSAALILTLLVSATSIAQTAPAKVKNVVLVHGAFADGSGWRNLYDV
+LSKKGYKVTIVQNPLSSLEDDVAATNVVLDNQDGPTILVGHSWGGAVITQAGNHANVVGL
+VYVAAFQPDNGESALQWLQTAGPAPENGVLAPNDKGIVYYDEAKFHAGFCADISKEDAAF
+MYASQGAFYAKGFITPITKAAWKDKPAYAVIATQDKSIDPSIQRAMYKRSKTKATEIKGS
+HCVFISQPEAVANVIIGAAKDLSGK
+>tr|A0A1S1J0F0|A0A1S1J0F0_9FLAO
+MKTKTTLQEVGNFIKCGTYFFPFHKNVQQDTFSKISLKSFLILILGLAMYSSAVVAQEIP
+VRYGNTLPYSKATSKTAKTAASTEAVSALAAVAGSIDVANPSTGYNAYSADQLVRNILTS
+GCLTISNVRFGYYRNNNNNWTWVDHTWSATAGDRQLGYFSKGTSTFPIDEGLLLSTGKIS
+SAMGPNTYTNKSDAMVSAASDQDLTAISGETMHDASILEFNFIPDGNLVEFKFVFASEEY
+LEYVNTDFNDAFGFFLSGFGITGTYTNNAINLAQLPNGDAVTINNIHSAGTNVNNVAFPA
+KNATYYSNNPPGSTTMEYDGSTVVLTATYAVTAGKTYKIKMAIADASDQQWDAGVFLKAK
+SFATNTLVITNPAPVCVNGTADLTLPAVTAGSTSGLTYTYWQDAAATIPYNTPTAAPVGT
+YYIKGQNTQSGCSDTKPVVVSQTNIVITETAASHVDVKCKGGATGSATVTASGGSTPYTY
+SWNTTPVQTSATASNLAAGTYTVTATDSKGCTGTKQIIITEPTAVLTATTSQTNAACNAG
+TTGSATVTPAGGTAPYTYSWNTTPVQTSATASNLAAGTYTVTIKDANLCTITKTFTITEP
+TAITATTSQTNVLCKSGTTGSATVTPTGGTGAYTYSWSPSGGSAATASNLAAGTYTVTIK
+DANLCTITKTFTITEPAAALTATTSQTNVLCKSDATGSATVTPAGGTGAYTYSWSPSGGS
+SATASNLAAGTYTVTIKDANLCTITKTFTITEPTAALTATTSQTNVLCKSDTTGSATVTV
+SGGTGSYTYSWAPSGGSAATASNLAAGTYTVTIKDANLCTITKTFTITEPTAALTATTSQ
+TNVLCKSDATGSATVTVSGGTGAYTYSWAPSGGSAATASNLAAGTYTVTIKDANLCTITK
+TFTITEPAAALTATTSQTNVLCKSDATGSATVTPTGGTGAYTYSWAPSGGSAATASNLAA
+GTYTVTIKDANLCTITKTFTITEPAAALTATTSQTNASCNSGATGSATVTVSGGTGAYTY
+SWAPSGGSAATASNLAAGTYTVTIKDANLCTITKTFTITEPSTITATTSQTNVLCKSDAT
+GSATVTPTGGTGAYTYSWSPSGGSAATATNLAAGTYTVTIKDANLCSITKTFTITEPAAA
+LTATTSQTNVLCKSDTTGSATVTVSGGTGAYTYSWAPSGGSAATASNLAAGTYTVTIKDA
+NLCTITKTFTITEPAAALTATTSQTNVLCKSDTTGSATVTPTGGTGAYTYSWAPSGGSAA
+TASNLAAGTYTVTIKDANLCTITKTVTITEPAAALTATTSQTNASCNSGATGSATVTVSG
+GTGAYTYSWSPSGGSAATASNLAAGTYTVTIKDANLCTITKTFTITEPSTITATTSQTNV
+LCKSDATGSATVTPTGGTGAYTYSWSPSGGSAATASNLTAGTYTVTIKDANLCSITKTVT
+ITEPSAPLTATTSQTNVACNAGTTGSATVTVSGGTGAYTYSWAPSGGSAATASNLAAGTY
+TVTIKDANLCTITKTFTITEPTAITATTSQTNVLCKSNTTGSATVTPTGGTGAYTYSWSP
+SGGSAATASNLAAGTYTVTIKDANLCTITKTVTIIEPAAALTATTSQTNVSCNAGTNGSA
+TVTVSGGTGVYTYSWAPSGGSAATASNLAAGTYTVTIKDANLCSITKTFTITEPTVLTAT
+TSQMNVGCGGDNTGSATVNVSGGTPAYTYLWSPSGGTAATASALTAGTYTVTVTDANSCT
+ISKSVTIIDGDSIKPIIDPLPQTSTINCPATPVFATATATDNNGVISSLTYKDVITPGGC
+AGSYTQTRTWTAVDACGNISLPVSQVIIVQDISAPTWSTAAASLNKTIECSDTAALTAAQ
+ALFPTATDACDTNVSNIVKVSGAFVASQGCANAGTYTNTWTVKDDCGNTSDIFTQVITIQ
+DTSKPTWSTQTASLNKTIECSDTAALTAAQALFPTATDACDTNVSNIVKVSGAFVASQGC
+ANAGTYTNTWTVKDDCGNTSDIFTQVITIQDTSKPTWSTQTASLNKTIECSDTAALTAAQ
+ALFPTATDACDTNVSNIVKVSGAFVASQGCANAGTYTNTWTVKDDCGNTSDIFTQVITIQ
+DTSKPTWSTAAASLNKTIECSDTAALTAAQALFPTATDACDTNVSNIVKVSGAFVASQGC
+ANAGTYTNTWTVKDDCGNTSDTFTQVITIQDTSKPTWSTVAASLNKTIECSDTAALTAAQ
+ALFPTATDACDTNVSNIVKVSGAFVASQGCANAGTYTNTWTVKDDCGNTSDTFTQVITIQ
+DTSKPTWSTQTASLNKTVECSDTAALTAAQALFPTATDACDTNVSNIVKVSGAFLASEGC
+SNAGTYTNTWTVKDDCGNTSDTFTQVITIQDTSKPTFTGVLPADITVSCDAVPQPANMEA
+SDNCSGNLPIVFSETKSNTENQCSTNYTLTRKWTTSDCSGNTISYTQIITVRDTTPPTGT
+APVNVANLQTIADIPVGNPSDITNAVDNCSSTVNITVSDANNGGSGCDGSPYILTRTYTL
+TDCAGNKTLLTQTFTVENKVSVSGVATNVNCSNGRTGSIQVTSSPGSTVIIKNEKNETVG
+NTNLPAGTYTLTATSSVNKGNQACTATATVTITATPNETTTVSSLACNDDSTIINLLSLL
+PENTPTNGIWVDNSNTNSIQGNNFNPLGLAIGNYTFEYKIPDASCPRSIVLNMAINDDCK
+VLACGSIVVHNAFSPNGDGINDVFTIDSIGDTTCYPENDVEIYNRWGVLVFETHNYNNQT
+NAFDGISRGRTTVKQSDGLPTGTYFYIINYKSLDGNNVLQNNKKDGYLYLSK
+>tr|A0A1S1J6W2|A0A1S1J6W2_9FLAO
+MKAVLLLFLIASPIFAQEMNTFDFAVINSTVISPNIDLDKGRSVVAGNKNQYSAYFQYAL
+TMCQDDIIFGAGINKSELDRTYVGYIGKMCDKFRATISVGYVESRSGYDGTFTGFSVSWH
+FAENTFIGGSLSNLHSSSIHNGSDAGFDYYKKLAPKVFASYEIVPNLIVFGQLNSRVNDI
+ALKYQNARFSAGGFYSGHGEEGIFGTINVGRFAVSCSTTFDKVNFGLKFQ
+>tr|A0A1S1J090|A0A1S1J090_9FLAO
+MNILQYEKDVWKTADLLIASGIKQSDFPKYMMPFFALLMVESRLVREAKRLKEDIGDIDI
+EDFIDMFQLEGLGYNDFVIRKNKTLKDICKNDKTFDVDFHAYLKAFDAETKYLLGVDKGT
+EEEKFLDISGISGLLKKKRILFETVQTWSEIDLTPFNNSEITTLEEHIKRKWADISAETA
+GEQYTPDDIISLITDIIASKIEDNEKFLTIYDPTCGGGNLLFGVEDKIKENFKRPTATYG
+EDWNDSLYALAKIESRFRVGSQIEHGNTLTEIKFIEKKFDIIVANPPYGVDWKGYQKDIV
+NDTTERFVALPSISDGQFLFTQHILYQLADDGLAVVVHNGSTLFSGDAGSGESAIRKYFL
+DNDWVEAIVQMPTDEFFNTGIYTYLWIFNKNKPTERKDKVMLINAANLFVPLKKSKGKKR
+KQMSEENRIEIIKTFTEFKDNEYCKIFDKWHFYFNKQSIILTNVDDEGKSVEMPNKADRN
+GDFKEDKSIKIEPKTIAILDSFKENGIKAINEMVITKFENKNYSSLANFYEGYFKSFVND
+FDYKDDAFVLIDKQGNSFHYDNNKATIVVKDKNQKLSFLGNGKIVIKSTYKKKTSTKEEH
+ILVTAEITKDLQKDYEIIPFNPNEQENQKQIVTFMAKYITKPFEYLDNTIGVEINFNKVF
+YIPEKLRDIIKITADLKQLEIDLANLEKELSI
+>tr|A0A1S1JBB2|A0A1S1JBB2_9FLAO
+MGAPGSGYYSTNLTLSPWANNENSGGKNHQLSFNDGGVFYRTAYPMDSQWGNWRQVLITN
+DNGSVTVPGTLTIDGGLNNTLPRPLISAMTLSKGEIRGYSGHGNTSDDGFLRLSAGGGTT
+SSVKSFIDLSGYSIVPDMNRNIVFGTSGAERLRIDVNGNVGIATVAPDAKLTVNGNIHSR
+EVKVDLDFPAPDYVFSNDYKLRSLEEVEDYVNKNSHLPEIPSAKEFEKNGVLLAEMNMAL
+LKKVEELTLYVIEQNKKINDLEKQNKKLSDLDKRFEKLERTLKYKNK
+>tr|A0A1S1J5D7|A0A1S1J5D7_9FLAO
+MNVKGKLSFWEYNPDEAFNSRQIRVDIVNQIINKIAISGRFFFSHQGEIDKILLLNDKVY
+MTESYSKKTFCLQTKDGRSPQYFHMGGTMWALTKDFVDFIQTGKKSNHNNGYGGLYCTHW
+GYPVSEMEEIQELAISLGYL
+>tr|A0A1S1J4J5|A0A1S1J4J5_9FLAO
+MEKLWCWRCKTEVPMLHTEEYQIATKLYRNGFEHGKCNMTRTERFSELLNYYKELTGFKE
+TNPNAIMHHRIDLYGPPCECCSKPYRTPQAKFCAACGHKRTATVTNSNHTFTEEEQKWWQ
+KLLESNTFSQPVLAVSALIAKLDLNL
+>tr|A0A1S1J288|A0A1S1J288_9FLAO
+MELITTFFIKFALGFRIILALSCKSLKKNEFIIKFNFCSTSDLFHKFSSFNIFLFSNPNK
+GFVDETYCCV
+>tr|A0A1S1J2W9|A0A1S1J2W9_9FLAO
+MTSGGIPGASVDLRLVFVTALKANASAGIMIHNHPSGKTLPSPADKLITQKAKHAGALLH
+IKVINHLIVTSESYYSFADKGSL
+>tr|A0A1S1J2H5|A0A1S1J2H5_9FLAO
+MNSQNITCISIKKYIPIVVLLLVTSSGLKAQTFSPDNFVSTAAPKKAVSEANYGTLTKND
+ITQNITYFDGLGRPIQTIAIGQGADGQNIVTPMKYDTFGRQIKEYLPYTVVNLTNNHPKI
+DPDVAISEAALFYNKKEYQYTANPFSEKEFEFSPLNRVQKQAAPGASWKMGNGNEIKIEY
+KANTPADAVKVLKANTNWQAALGLYEISFSTTGNYAQGELYKTITYDENSGANPTESAGS
+TVEFKNKEGQIILKRTHDSGNPHDTYYVYDDYGNLTYVIPPKAADLIGTTTNTTANLTST
+AVVLPGNTLNLTASNSITLLSGFHAQAGSTFSAIISDGTQSVLDQLCYQYKYDNRNRLVE
+KKLPGKQWEFIVYDKLDRPVATGPARSPFSDINSEGWMITKYDAFSRPVYTGWNNQTSTS
+ASRKLLQDAQNVAGVLYEKKQSSGTIDGITVYYSNTVAPTSFKLLTVNYYDAYTYPNAPA
+TPSDVEGQYLLANTKGLATGSWTRVLTTSASTAGETATTFYDPKARPVRTYTQNYLGGYT
+YTDNSLDPFSGQLKYNITRHKRAASDGELTTKEVFTYSPQDRLLTQTHQINNGPVETIVD
+NTYDELGQLITKKVGNNTQKIDYSYNIRGWLTGINDVTSLVKPEVPKDLFAFKINYDNIN
+SGISGVKALYNGNISETSWATNSDNGTVRSYGYKYDNLNRLKEGIFQKAAVTTNAYNETL
+SYDKNGNIMGLSRNGSSESATAIDALVYTYANNNTANQLMKVTDSSRKDLGFIDGTNAGD
+DYAYDLNGNMISDANKNITSITYNHLNLPTKITFATAGNIVYIYNAAGQKLQKIVNRTGT
+TAVATDYLGGYQYESSLLKFIPTAEGYAEPSGSSYQYIYQYKDHLGNIRLSYDKTLAIKE
+ESNYYPFGLKQEGYNIVKMGVENKYKYNNKELQDELGLGMYDFGARNYDPALGRWMNIDL
+LAEASRRWTPYNYAYNNPNYFIDPDGMRANTSNIKEEGKDDGSSMAKYIKEQAEIGKQDN
+NAFKEYLESITNGSDGDPSKKGEKGKSDKGNKLNWFRPKDGSLYDVAEDDETNIENVVII
+YAHAADDFIIGPDGSISTAQGLDKILKQNSPAWKNFRQNGGKLTLVLKACNAGKIGGFAQ
+KMSASFKGLTVIGASNLYITETFAGLKNWEVGVEYGNWNTYYNNKLIKQFKGVQK
+>tr|A0A1S1J1Z9|A0A1S1J1Z9_9FLAO
+MKILFVSMPSIHVLRWIENLKDKGHELYWFDVLDRGPLENLDYVRQFVDWKKRKYPYIKG
+EYFLRKKMPSAYDKIIPYLEVSANEGFEKVIQEIKPDIVHSFELHYCSYPILKAMNKNPG
+IKWIYSCWGSDIFRHQVLKNDIQKIESVLNRVDFLITDCERDYDLAKKYNFNGVFLGALP
+GGGGYNITDIQRSFQDIESRKLILIKGNHNETGRALYTLKAIKKIIDRLDDFHIAVFSAG
+ERVKEFIKSDSKLEGKIKIVEKIEQPELHNYFGKAFLYIGNNFSDGMPNSLLEALLLGTI
+PLQSNPGNATKELIGKKYFGEIINDPENSDEIAEKILSLIHNKDNNVQFAKSNHLKAIED
+YNYERIRDSINNLYSTVAIDE
+>tr|A0A1S1J4T1|A0A1S1J4T1_9FLAO
+MQAQSSKSEEIPFLDFTPVIDGKLDDRLLNLKKKEFNHFFQFDNPAVTPTKVNYLLGYTA
+THLYLYIETKADSITYRDRGFINGDGFKLLLAKPQNDSLTDEYYDIAFSPSKDKKYWARK
+RIWDYNRNQNHGKKLSRETRYEEISYKGKCGFEVLLAWKDVYPYHPWFSNPLGYNLYFAK
+AIPNNAANGYSVVKDEGIWDEEIPKRNFMPIAFEKPKKVNQSIITAQLAKRNIQADEPLQ
+LNLITIAKTALNKTIDVTIQNDSSKIFPDKKIKISFKNKLQHKLVPFDSHNLKSGHYNFL
+IRSASDTIAQYDFVIFPKFNFDSIRSQITRNPYHLQQGTLNTLLFKTNEVQQHFNNLKSY
+ENGKNVLKEYLQFETELNSFLKGSDPYKGIAKPYRRAFQSKYDATFQPYTIKLPQDYNPE
+KKYPLLVFLHGSGQDEQTVLNQARSGGNFIEIAPFARDTYNCYDSESSQNDIIEAIEDVL
+LYFSGDKNKIVIAGFSMGGYGALRTYYQHPEFYKGVAVFAGHPDLANEWLGAGHPNFLED
+KFLVPFLKTSVIVYHGKKDGALPVSVAEELIQKLKSNGIPVIGRIIEDKTHEYPDAETNK
+IYFEWLTKITEK
+>tr|A0A1S1J378|A0A1S1J378_9FLAO
+MIHCFLSGAFAQNTNTYDTYKNVEFKMPKVNEPVIPNNTVNLKDFGAVNGGYVLNTKAFA
+DAIEAVSKKGGGKVIIPPGIWLTGPIILKSNIELHAQTGALIKFSTDKNLYPIIETSFEG
+LNTWRCISPIYGKNLVNVAFTGSGVWDGSGEAWRQVKKNKLTEEQWKKFVASGGVLNEKK
+DSWYPSEQYLKGSKGADQNVRHDLKTKEEFEAIHDFLRPVLVSIQNSKRVLFDGPVFQNS
+PAWNLHPFMIEDLIVRNITVRNPWFSQNGDGLDVESCKNVIIENSSFDVGDDAICIKSGK
+DKDGRDRGVACENIVVKNNIVYHGHGGVTVGSEMSGGVKNLHVSNCTFMGTDVGLRFKST
+RGRGGIVENIYISDIFMTDIPSQAISFDLYYGGKSIAETLAEGGNTVTTKAVPVSEETPQ
+FKNISIKNITIKGAQQAVFLQGLPEMNLKNIEISNLIAKAEKGFSIIDANGIKINHAKLD
+IENPTVFEIYNTKNMSLKNIAFNSTSAKAISISGEACQNIELAASPKTDFSKTTTLGETV
+PKNAVKF
+>tr|A0A1S1JB50|A0A1S1JB50_9FLAO
+MTCPTTKGQKKIDTDSLLTVVLHDMKNARPDYKSNIQRAQLGKKLAPDYLDFYLVLGRNY
+DLTKTKDSARFYYNYVIDKNPAYEDAYLYLINMDLEAKNYDEALVLTNKAIEQFPDNKTF
+RLKRIAIYSLQNDTKNEEKYLQSIRAKYPNDADIEQHLFALYSRTNMDRAGVYYNFTTID
+RDGVGPWHLASADYTHQRTWGSLIGRVSYAERRSSSQVMANGLQFEVESYLSGKKNNYSY
+IDVAYSNDIAFPEWRLGYSYFYNFAKGWEADLGFRYIEMQDNSNLKTLNVGLGKYFGAYW
+VNLRSYIQKDAPSFTLTSRYYYGTKFDYLTLIAGYGTSPDDQTRAAEYENRASLSSYRLS
+AGFYKLIKTHYIFGILITNNQQEYIPKKFQNELDFAFLLQYKF
+>tr|A0A1S1J0Y5|A0A1S1J0Y5_9FLAO
+MYSESKSYQLTAPLRIKQHANHDDLYIINFDLSEEFNWIQIRDISYKIGSLTNLGLFVWK
+NSIENIYEHAAGKRIFTMRLIVDQKLLRPMYVHKLNDKFESKELCFHDLIDSNSRILIDS
+IKNKDVLNQFSSFYLKGVALKLLGNFIQRYSDTVLPSCRIKKTDLTGMEISKKYLLHNLK
+NKFPGIAELSKVANMSTSKYKRLFKEIEGVTPNDFFKKEKIILAHQLLCSGSYDSIVRLA
+YDLNFTRVDYFSKKYFKVFGRNPSEDLIEKCK
+>tr|A0A1S1J4A8|A0A1S1J4A8_9FLAO
+MLIFSFSTESKEQDSRLIGVWKGFEVEKQIEGVEKHWIQQRFENGTYVIMFTTKEDCQIE
+TFTEKGKWWTEKGKFYELSSNAKNPEVYSYEIKNDEVVEFKSIKLSGEKKDTYIFSDYKI
+NF
+>tr|A0A1S1J2C7|A0A1S1J2C7_9FLAO
+MTAQTVETFEAQTINQPSFTSNGKTFNLTNTYVSFQVVTSPGYGYNGSNNYIQVSDGNAS
+QSLGQTGFITAASGSFKMNSLWIYLTGTSGQTPNSTSNGAPGSVTLTGKLGGVTQFSIVK
+NTTGANIGTALPGNGFIPVNFATDGVSNFTNINIDQLEIQLSANYDYFAVDNFVWVDGVS
+LATVTTTTATNVGSTKAIIGGNVTADGGDANVERGIVWATTASPTIANNKFQIGTGTGIF
+SNTVTGLTPGSTIHYRAYAKNTAGTAYGAESTFVTAAALATSSTSKTDVACNGGTTGAAS
+VTVIGGVTPYTYSWSPSGGTGSSATGLSANAYTVTITDAELTQITRNFSITQPTALNGLP
+TTTAVSCFGGSNGTATITPTGGTPGYTYLWSTGATTQTITGRVAGTYSVTITDANGCPRT
+INNIVIGQPATALDGTATTTAASCFGGSNGTATVTPSGGTPAYTYSWSPSGGTAATATGL
+TAGTYSVTITDANACAKTITGIVVGQPAAVLDGTTSTTAVSCFGGSNGTATVVASGGTPG
+YTYSWSPSGGTAATASGLQAGTYSVTITDNNACSKTITGIVVAQPAASLNGSISTTSVSC
+SGAATGSATVSAFGGTPGYTYSWSPSGGTAATASGLTAGTYSVTITDANSCMRTINNITI
+GTATAINGAISTTAVSCFGGANGTATVTPSGGVPGYTYSWSNGATTQTITGLTAGTYSVT
+ITDANACTKIVTGIVVGQPAAALDGTATTTAVSCFGGTNGTATVTPSGGTPAYTYSWSPS
+GGTAATATGLAAGTYSVTITDANACTKIVTGIVVGQPSNVLDGTTTTTAASCFGGANGTA
+TVTATGGTPAYTYSWSPTGGTAATATGLTAGNYSVTITDATGCTRTITGIVVGQPATALD
+GTPSTTAVSCFGGANGTATITASGGTAGYTYLWSTGATTASITGLIAGTYSVTITDANAC
+AKTISNIVVGQPAAALDGTIATTAVSCFGGANGTATVTPNGGTAGYTYAWSNGSTTQSIN
+GLIAGTYSVTITDANSCSKTINNIVVGQPAAALDGTATTTAVSCFGGTNGTATVTPSGGT
+AGYTYSWAPTGGTAATATGLPAGTYSVTITDANACSKTISNIVVGQPAAALDGTATTTAV
+SCFGGVNGTATVTATGGTAGYTYSWAPTGGTAATATGLPAGTYSVTITDANGCSKTVNNI
+AISQPAALNGTATTTVVSCFGQADGTATVTPTGGTANYTYLWSNGATTQTITGLVAGNYN
+VVITDANSCTKTVNNVTVFQPTAITVVPTQTNVSCNGGQNGQASATVSGGGGSYTYSWSP
+SGGTAATATGLAAGTYTLTITDGSGCTKTQVYNILEPAAIATTITGTNVSCNGGSNGSAT
+VNVTGGTGSYTYVWSPTGGNSATASGLPSGNYSVVVTDGNGCTKTANIVINQPAILSAAI
+ATQTNISCNGASNGAITTTITGGTTPYTYLWSNGATTKDISGLTAGTYTLTVTDANGCTA
+PLSVTLTTTPDVTPPVPNVATLPVITGACAVLSAQIPVPTATDNCSGNITATTTNPLTYN
+TPGTYTITWTYTDASGNTSTQNQTITVLPSSIQAVTFSNATVTYNKNPQAIQVANLPAGA
+TVTYTIAPGSTGNSATNAGTYTVTAVVTPSASEPNCSPITLTAQLTIQKAAQLITFPILG
+IKTLGGSNTFNLGATANSGLAVNYTYTYTTALPAATVAPTTGLVTMLRSGEITIVAAQAG
+DANYLPAPDVSQLLVIKNNDITVTQITVGTKVYPNPAKTINYLMACGENNVNVALTNTTN
+ATFTPAANFTINTPKPGIYTQNVTITSQDGSASATYAITVEKPFGFYDIVHQKFNNVLIV
+NNNPQTNGGYEFVAYQWFKNGQVIGTNQYFSAGEAQSNTLDLTADYSVKMTTKDGKVLQT
+CPSKIKTQKSLEVKLYPNPVETGKMLTVDADLPEGDLENMQISLYSVTGKLLTTMKSSTA
+QTQVQLPPSTESNMVLVVIESGNIKKSFKVIVK
+>tr|A0A1S1JAL3|A0A1S1JAL3_9FLAO
+MLSSLANGQCTVETINADFEYPAFAQGLEFINQNQLPASLLGWRTTATDDIIEFWANGNE
+GKYAYSGRQFVELNAYQFSGLYQDYDTSTTTYFNYSFAHMGRRGVDKMALKAGPPGGPYT
+TIMTASTGTAWKLYTGTYQIPKGLTKIRFIFEAISTSTGDPTVGNFLDAVNFTASIAPPS
+ATDQTICNGTATTLTATGIPNAIFSWYDTTGTNLLYEGPIFTTPILTTDTSYKLKVKDTI
+SNCESNFVNVTVKIDNLANPLTLTLTGNDQNEITANASGGKPAYQYSINGGSSGPSNKFT
+IDKSGTYTATVTDANGCSTTVTKYFEYIPKKDIAIPVAPGTTICYKTTATLTATGVPNAT
+FYWYDATGTNLLYEGSVFTTPVLTADTTYKLKQKDSVSNTESDFLNVEVKISNLTNPLTL
+TLTEGEQNEIVAIASGGTSKYEYSLNGSLSGQSNRFIITESGLYTVTVTDENGCTASTSK
+YFEYAIKNDICILNYFTPNGDGINDEWAPGCLGNNKNLTYTIFDRYGRTITTNNYDQKWD
+GRYNGAELPSGDYWYEIILNTPKDNRRLRGHFTLYR
+>tr|A0A1S1J989|A0A1S1J989_9FLAO
+MKKMLLILALTIFSFANAQKGSVLVMGSVYYNSETVSELGSDNKNHYFGFAPKVGYQFHE
+NWTAGIEVGISATKQGNNNSEYKDQTLSTGGFLRYSKPLSEIFSVYADLGAGFQKRKETY
+ENNFTNTVTVNKGDGFYIGVTPALLINIGKGFGLNFNIGGLKYDTLNYDENNGAGDSRKR
+FNFTFGNAFSMGISKNF
+>tr|A0A1S1J6Z4|A0A1S1J6Z4_9FLAO
+MSKSYAIGIDIGGTSLKCGVVNELGEILFSFIVSLKEARTEKEIIRLMVDAITQCTDQLK
+EPIVGIGIGFPGLIENDVIIGGGVNLPGFDQLPLGKILKDLTGHHVVIDNDANLMGLAEL
+IYGAAKDSTDAVFLTIGTGIGGAIMINKGLYSGFKNRGGELGHTVIQQNGIACNCGGRGC
+LETYASVTALIKYYQSQNPAADENIDGKTIIDKYLAGENHAIKTMEHHFDYLAAGIVNFV
+NIFSPQKVIIGGGISEAGQFYIDELTHRVKTFAIPVAFAHTSIVAADLGNKAGLLGACAN
+AFQKFKDLKYSTT
+>tr|A0A1S1J8Z4|A0A1S1J8Z4_9FLAO
+MVINNKNNYRAILIVSFIAINILVLFGMSEILGYLNSGADRSSMLHLEKETLDTYLPKVT
+WETFKNQGRRMENQTIQKIEKHYLFSYVIKNNALKNNVNDGIDDYFTESSRKQLEQIIAY
+NKAKKISIQSTIIEHHASLDFYSEDGQQVVITDKNVVEFQNIYQDNKLITSVRDTANYKV
+LMLLEDGFWRIRHYVRMQKEKSLVAVELNKKIYTVKGNEILKNGAPYIIKGINYYPKNSA
+WDMFGNKFNKDTIAADFDIITKAKLNTIRIFVPYEEFGKAEVSKEKLDKVKIVLDLAEEK
+KLAVIVTLFDFYGDYAPESWTLTHRHAEKIVTTFKDCKNIIAWDIKNEPDLDFESRGEQN
+VKPWLEQMIAAVKKFDANHLVTIGYSNIASAEILKDKVDFVSYHYYEDISLFEDKLAVLE
+KAAKKPLVMQEFGLSSNRGLWSWFGNSKEKQANYHKKMQSIFKKKQLAFVSWTLYDFPKV
+PDKVAGKWPWIKNKQKQFGFIDSEGKNKPSFLYINY
+>tr|A0A1S1J3B6|A0A1S1J3B6_9FLAO
+MRMFCIVSLLFLGLAVNAQQQEVQKSIETFFEGFHQRDTVRMKSVCADRIVLQSISESLV
+KGNKLTEENAGKFYKSIATIPSNIEFSEKILSYNIQIDGTIAHVWAPYQFYVNDKLSHSG
+VNTFTLFKEKDNWKIIYLIDTRRK
+>tr|A0A1S1J3N2|A0A1S1J3N2_9FLAO
+MEKKLKQFFVKSFLVLLFIHLGYFLYGFFTFKGIANINSYFEFYRFKFYDDVSISHFFIS
+GLFLFFFLIFLIRNHSRYPYSLTNLLKTGLVLLLICFLSFSFFISYSFGLNAKLRSELPE
+VDFNRDKTLLNVLNPFLYNYTSYSSEKLFNPVNILYPKPYPVTEVVDSVLISNGYYNTES
+TYYSIDTLKVLTTDLDKVSTVTGKVLDEIGLDQKELSKRIITKKVIKDSTEILFRGVEVQ
+PQYDDSICIFLENKSLFKAVEGIAGEKQQYDAAVQRYKLLYKYRKDSLQLNFQKLDTLLK
+KYKIESNIVPKELAADAFYFREHRDEVLNTIRNSFDRKALMEKFTTFDKLFYEPNYLHPS
+IIGMYFGVIVTVWLILFLVYVLFNRRSRG
+>tr|A0A1S1J3B4|A0A1S1J3B4_9FLAO
+MLSNCIHTVDIFFKVSNVKIRKLCLRMKASHTEYNYFKEILNITILKLLKQLIAILKLNL
+N
+>tr|A0A1S1J8R3|A0A1S1J8R3_9FLAO
+MNIKKEIVLFFCFLLGLSIQAQDMQEGFTNLEKGEFAQAEIFFSKILKTYPDNKTAKLCF
+GRAVGLNSSPEKATVIFSELLKTYPDDFEIQLNYAECMLWNKKFSDAKPYYLGLIAKYPE
+SFPALLGYANTLSNLKEYKEALVYVNKALAVSAKNPNALVSKKYIRMGYANQFVQQEDYD
+SALYLLDENFEDFPKDKETLMNKVNIYLMTKDEKNATKIYQELAVTKKDSLFSLNGLSLV
+AHIAERDSEALSIAEQALKKSQHIEDAKLQNQTKERYVQALIWNKKYKEAAIKIKEYQTG
+NPNENWVFALSATLGMYRSDFKESITDYQNILANDAKSFDGNLGISNAYFANGEPLKAYK
+AVDITLKIFENQKDAVGFLKKINENFTPSVEEKLSYSFDNGKNEAYATNTVFNFPISTKW
+TFLGKYQYRKTENTVTKNSATSNDFELGAQWQFHPKINFYVLLGFSNAQSFVSRYSQLLA
+DVFFKIKPLKLQDLEVGYKRDIQNFNADLVSREITADNFYFNYNIGTNFKLGWFTQYFYS
+TQSDNNKRNLLFTSLYYNFLSKPILKAGFNYQFIAFQKQVPIIYFSPSKFNAYEIFIDFL
+KDERSTESNTIFYTLSAATGFQYIENDAKQSTYRVQAKFGYKFSDRFLVNFYGVKSNIAS
+ATAAGFQYTEVGLRLRWMLTSKPLFKVKKDKE
+>tr|A0A1S1J606|A0A1S1J606_9FLAO
+MRNHYFFKSFIVVSILYLIVLFLEYQNLDLFLKPVLVPLLGFGVYFHGKFPSKNILLGAL
+LFSWLGDVILLFADIGEIYFILGLLFFLIAHLMYCVLFNKQTKRNTTINKVLFAIGSLLI
+AFYLVGMVLFLMPNLGELKIPVIIYAAVISTMLLFAFNGSLTWKKTGSLYVLAGAVSFVT
+SDSILAFNKFHAPIEKSSFFIMLTYLVAQYLIVIGILKLNTKKAD
+>tr|A0A1S1J9E2|A0A1S1J9E2_9FLAO
+MYKMLKIAHRGAKAYEPENTLQAFQKALDLNSDGIELDVHLSADGHLIVIHDETIDRTTN
+GKGFVNTFSIAALKLFLIEEKYQIPTLNEVFDLVDKKCLINIELKGLATPAKVVALIEHY
+ISEKNWNYNHFIVSGFDWNMLQETSDLNPKIPIGVLTEENIDTALAFAKTIKAKAIHPDF
+QLLNTNNVKEIQKKGFLVLPWTVNEEDDIQKIKSYAVDGIISDCPDKI
+>tr|A0A1S1J253|A0A1S1J253_9FLAO
+MSKYKNVELVKPSGLELKDRLVSVNRVTKVTKGGRAFGFSAIVVVGDENGVVGHGLGKSK
+DVSEAIAKAVEDAKKNLVKIPLNGQSVPHEQKGKFGGARVFLIPASHGTGVIAGGAVRSV
+LESVGIHDVLSKSQGSSNPHNVVKATFDALLQMRSAHTVAKQRGVSLEKVFKG
+>tr|A0A1S1IZF5|A0A1S1IZF5_9FLAO
+MKDMKSFRDWGKQHGVHEAVSRKINQKEGYNIPLSTLKIICFYKQITMHNFFNLVEKKYG
+DAEDKFYYIEK
+>tr|A0A1S1J994|A0A1S1J994_9FLAO
+MKKIMKRITVFCGSSFGTDKIYKEQAALLGKTLAQQNIELVYGGANVGLMGAVADGVLNE
+GGKAIGVLPNFLRSKEIAHLSLTELIVVESMHERKTKMNDLCDGVIALPGGFGTLEELFE
+MLTWGQLGLHKKPIGILNINGFYDSLIELTKVMVEKGLLKPVNQEMLLVSDTIEDLLHQM
+RNYVPPTTGKWIDTTQS
+>tr|A0A1S1J1L5|A0A1S1J1L5_9FLAO
+MTAFTKKSAHSQNHAASVNEKGNDAFFGVQAKLSIGKSNDKYEAEADKAADQIVSKTTKN
+NPEPFFSPSPIVQNKSDEVQKKEETAPQKSIAENLSPVVQLKSEKEEKETVVPEKATVEE
+TPQHKTEVPQNETAKTTETISVPKPIVQQKKAEEEVQTKEEEEIQSKEDEKELQMSAGTD
+ASPSDDSNLENNLNRSKGSGSPLSGNTRTEMESGFGADFGKVKVHNDSNAVQMNKELGSQ
+AFANGNDIYFNEGKYNTNSTAGKHLLAHELTHTLQQGASAVQPKMIQKTPTAATPVTTAS
+ASSERISLQTPTFTPPEAIATQIEAAGNRGAEVNVTFGQWASGVIKMKKNTDGTYNTKDN
+RQSINLNISYLSPLTSINITPVLAIQIENNNINGYITVKTGDRLVGNPAGLINAIKDNSE
+TFGWIGIDVTSVPNVQNSIEGGNLTLTANGIPVQLGGFVNATLDFGIQGEAITFRASGSI
+EVPNLSPTQITIERNAEGNITGEIDLAVNMANFNGSIHAAFLNGTFDIRGTVGYQTEKIS
+GQVTLLVTDTATARNAALSQLDPTQIDESARETNGIPEANSGPTPGPRAMAGWGEVDFSF
+TEWMTGRAMVIIDNEGHVTIHGEITPPAEVELFAQRDYIREIFTVEVRTMYGVPLVGNVF
+LFANIGLEALAKIGPAKIYNIRAVGTYSTDPAVFNDFSLSASFNMSMFAGLRLRAEGGLG
+VELLGHDIKVGVGVNALAGIRGYVDATPTIGYRETASPEAGRQGEFYIHGHAEMAAQPFL
+ALGGDLFVELDSPWWSPAPDDKWTWPLGELEYPLPGEFGIGADVDYVLGSDELPEVEFAP
+VDFNSDKFMTDLMNDHVPPAQSTDAEHPAEFQEGATGGEGSATPQVTDSTGNPNAGTTGT
+PPGADAPPNPPTPEVLAHWGDGLQALRALATTSENHPLTQAQVTAELNPIRTRHHFTHLT
+ARRNGENWNIDAEMPNINNHNTPILVKGVRGVGEEENGEVNGETNAVKGEILQIERPFDE
+TDGDRHTLRFRDNHNAIQLMVHSDPKDIFEYLHSDEVDQNDSTVRDAIRLATEIRTMANN
+AANTSGVIPNLNSKMRELSEMMSHIRGNLRRYLPANPVYNYQPQGNKAHKAEVTLLSANR
+SGGTEPGGSFVQGWEAIQTGGLTRGAGHWKRLHLINQGFGGFGVPENLTPGTTSNNSSYD
+NRFDDPVKNLIGSRPNDPTKQGVVKIVAEVDSYYSGPFPANVSAPLGGPLDVKDPTNRVT
+RDNYAQHIKFEAWEYNYVNRSWELGNKFVDAGLDIDLPDWNSVNPPVIGVGTRSEIVRAY
+NSLQPRDKYRVDSQLSSSFESILTDTVMDIIRSRTYSNVTDFRNAITAEVSAPSTPSGRR
+TPETITRLNEVKNIIPIMVNANVLKF
+>tr|A0A1S1J7Q9|A0A1S1J7Q9_9FLAO
+MLFVGVAAFAQGNMSDVDQTGLLNGALVVQVGATNSSDVDQIGIANVAIVGQYGDDNEST
+VGQLGGGNVAIVTQIGDNNDSSITQGIWFGNLAVTTQIGAYNNSDVLQIGNFNTATTNQF
+GLANNALTLQFGYGNTASTDQIGLFNNAATLQLGWDNTSSIQQYGAGNFAATAQFGNDHM
+STVTQTGFLNGSVVIQSN
+>tr|A0A1S1J2U0|A0A1S1J2U0_9FLAO
+MKKVTRLFTLMLFICYASTPLYSQITSEKIDLLMQDALEKFKVAGASIAVVKDGKVIHQK
+GYGVASIETKKAVNESTNFQIASNSKAFTTAALSILEDEGKLKWTDKVKDHLPKFKMYND
+YVTENFNIQDLLTHRSGLGLGVGDLMFFPDGSNFTINDVLTSFQYFKPVSAFRTKFDYDN
+LLYIVAGELISKVSGMAYEDFIQTRIIDPLQMSNSFAQSDRIKDKSNLAVSHSSESGTIK
+RIDGFGVQINGAAGGIISNAADMAKWMTLCLNKGQYGSDLKSTLFSVKNHNEMWRIHTVE
+EVDRDPRYNSHFSGYGLGWGLTDVKGNLKVSHTGGLPGMLSIVTMYPDLNLGIVILTNTE
+NGGGGLFTAVTNTISDSYLGLDDFGWTNKIVEWMKQGRNTGDDVTKNVWEKVKLTKNVKV
+KNEDFIGVYTDNWFGEIEVFEKNKQLWFRSYRSPKLNGPMAFYNANTFAIKWEYQAMNCD
+AFAMFSLDETGKAQSIKMKGISPNIDFSFDFQDLDLKRVNK
+>tr|A0A1S1IZ31|A0A1S1IZ31_9FLAO
+MNTTKALRIALLLTITMAFQSCCVKENAIVAHRGAWKKNNLPENSIAALRHAIDLKLPGS
+EFDVWRTADDSLVINHDAHYNKLLIEETNYADLIKFKLSNGEKLPTLYEYIVEGKRNNKR
+TLLVCEIKPSEISKERGKKTALMAVEAIHKLKAERNTCYISFDYEMLKQIREVDSRASLQ
+YLEGNKSPKEVKADRINGVDYHYSVFKKHPEWIKEAKEYKVILNAWTVNEAADMDWIIDH
+KFNYITTNEPELLEQRIKQKK
+>tr|A0A1S1J0S5|A0A1S1J0S5_9FLAO
+MSNTIKSEIKFNIELDENRVPERLSWTAKDGGVEAEEAKAIMLSIWDSKAKESMRIDLWT
+KDMPVDEMKIFFHQTLVAMADTFKRATDDEKMSDTMKDFCDYFAEKLELTK
+>tr|A0A1S1JDS7|A0A1S1JDS7_9FLAO
+MKLRLLFVLFLASLSSFAQYTQIPDAYFEAELIRQGIDSGTPDGKVLTSKINTLTSLNVR
+GVGLIEDLTGIQDFTALKFLLCDSNRLTALDVSKNTSLTYLSFGNNFLMTINVSKNIALT
+ELRCNHNQLTTLDVSRNTALATLHCYDNQLRVLDFSNNTALTYLDCSANQLIGLNLKNGN
+NSKLSTNSSFRGNPDLSCIVVDNVAYANTNWAAAKNATANYNLACAAVIQYTLIPDVNFE
+KKLMSLGLDSGIIDGKVPTAKISGVTSLNVSKSSITNLTGIQDFASLEVLDCSGNSLTTL
+DLSKNIALKNLVCYSSQLTALDVSKNTALEQLTCYSNQLTTLDVSKNTALTYLSCYSNQL
+AALDVSKSIALKKLDCYSNQLTALDVSQNAALTELNCYSNKLISFDISKSIVLTKLYCYS
+NQLSALDVSKNIALIELYCYSNQLTALDVSKNTALRHINCSSNQLMSLNAMNGRDFSTYN
+FKNNPNLDCIQVDHIYYYDNSYKDTVATYSKDCSRVLIPDVNFEKKLISLGIDSGTVDGQ
+VPGYKINTLTSLDVSNSSIADLTGIQSFVGLNALDCSGNQLTALDVSKNIVLGSLNCSSN
+QLTNLNLKNRNYLNFRTKNFKNNPNLSCIQVDNVVYANTNWLAAKDAAATYKADCADVVR
+YTLIPDVNFEKRLIFLGHDSGAPDGKVPTINISSLTSLYLFGSDITDLTGIEDFVALKSL
+TCAANKITALDFSKNIALSELDCGRNQLTTLNVSKNTALTVFSCDSNQLTALDISKNVSL
+TYVRCYSNKLISLDVSKNTALESLYCYSNLITALDLSKNKVLTEFECNSNKLTSLNVQNG
+NNNNFVTNRTDYRKNPNLECIQVDNVIYSKDNMSWAKDATASYSTSCPASVVALSSAFED
+QLIALGVDTDGKNGSVLLSSIINVTSLNVSNSGLTSLSGIEYFSNLETLNCQGNLLTYID
+MSYNPALKYLDCSKNPLSTLDVSKNTQLTELYCDGIVTSGKKGNAKTSAVNQLKVLDVSK
+NLSLTKLSCSNNEIVSLDFSKNTLLTDLNCSNNKLTSLNLDNGNNSKLVNVNFKTNASLS
+CILVYDVAYANANWSTAKDAAAIYSKTNCTLGLEDVVFNKITVYPNPTKGELYIDNIVLE
+KASVYDSLGKLITVTKFTNGSNTNSINFSGFLKGIYYVYLESEGTTVVRKVMVE
+>tr|A0A1S1J0W7|A0A1S1J0W7_9FLAO
+MEANTKTVVKTTTVLPTEEFTETEMLLQWNKYAQRLGDKGHKIMQSLLLINDPKLNGTVI
+TFELPNEGSKLDFEGQMYGLLGHLKGHLHNHDITIEAHVNETIQIKRSLNDQDRYNRFLE
+INPNIELLRSTFGLDLPS
+>tr|A0A1S1J8K3|A0A1S1J8K3_9FLAO
+MGVPGSGFYSTNLTISPWANNENSGDKNHQLNFNNGGIFYRNAYPLDVQWSEWGKILMSD
+QDGNVDLTGRLAVLRTANRPGKAHILFGNGSALSGQPSAMLSFAGYGIQHSGFTWVPNTS
+MDEGKLFLSFGGAEDGIANPIKVTFQSNGNVGIGTKNPDSKLTVAGNIHAQEVKVTARAG
+EVPDYVFANDYKLKSLEEVERYIKQNSHLPEIPSAKEIEKNGLMLGEMNMNLLKKMEEMT
+LYMIEQNKRIKDLEKQIEEIKRK
+>tr|A0A1S1J534|A0A1S1J534_9FLAO
+MLFCLSDANIIHFHNYITAIPAEIRYLSDFLAFHYEFNTNDVFNLVCENLLFSCYMDIAE
+NKKGALFPEHLFTNCIFFSR
+>tr|A0A1S1J3S4|A0A1S1J3S4_9FLAO
+MSGKLFYLVTLVRPANIVTAVTDILAGIAVSGLLVLNGNNENGIQNVLLLVLSTIGLYGG
+GIVFNDIFDLEADTINRPERVLPRGLVSKDEAILLGSFMLLAGIGFAFTVSVLSGMLAAV
+IGVLALTYDKISKHYSIAGPLNMGLCRGGNLLLGMSINNDAVFTYWYIGIIPILFIAAIT
+LTAKKEASGNNKSAILTALLLDAIVVVLFIFIGYKLEFRFWQLLPFLLFWYGINFFAKYK
+AFLYNQPVAIQKAVKTGVLSLIPLNASYVAGSAGLVYALFVLALLPISILLSKKFAVT
+>tr|A0A1S1JFH9|A0A1S1JFH9_9FLAO
+MKRFFIGFLILFLISCSKNEKPVVAFYYWKTILRLSETEKLALKDNEVTKLYIRYFDIGQ
+HPQTKEPIPLSPIRFQDAVTKFEIVPVVFIQNKVMLSSSLDVEDLAQKTVRLIEEISTKN
+KIKSQEIQIDCDWTLKSKDNYLKFIESVKKLSGKKLSATIRLHQVKYFKKTKIPNVDSGV
+LMYYNMGSIAPDSLNSIYDQKIAERYLKSLKKYPMHLDFALPIYSWGIHIRNQKVIGLRS
+KMNVAELKKDPNFQQLSGIFFKAKKSNYKNGVFYEENDLLKMETITAEDLKQMAEELGEN
+TAQQPKEIIFYDLDEFNLKNYEKNIFEQVISCF
+>tr|A0A1S1J3E4|A0A1S1J3E4_9FLAO
+MKNVIITSFILALVLSSCADKSQAPAAPAAPLLPVAAITSENTTTDAEYPASIQGTVDVE
+IRPQVSGNLERVFVDEGAYVNKGQTLFKINERPFREQLNNALANLHAAEAALINAQLEVD
+KLTPLVQNKVVSDYQLKTAKASQKIAAANIEQAKAMVGSARINLGYTNVTAPVSGYIGRL
+PKKQGSLVSATDVEPLTNLSDVHEVFAYFSLGETDFINFKAQYAGSSLGDKIKKLPPVTL
+ILADNNAYPQTGKIDMVDGQFDKTTGAITLRATFPNAGGTLRSGNTGKIRLGLHHDDALL
+VPQAATVEMQDKVFVFTVNKENKVNKMPITVIGKSGTNYLIKDGIKSGDQIVLSGIDKLQ
+EGQVIQPEKPATKVAQVITKK
+>tr|A0A1S1JAF9|A0A1S1JAF9_9FLAO
+MNPEEAKTYHIDTEYQYKYRTGTSGDYEYNYNVKGIDIKGDSVFGNINVKGKYGAGILTF
+DTIPDLEIKTEWIEHGKLNATDLKGNTYQLVVQ
+>tr|A0A1S1J1S4|A0A1S1J1S4_9FLAO
+MRVEATPNGKAICPGCTQQVVAKCGSKRIHHWAHQSNKNCDKWWEAETEWHRNWKKEFPL
+NWQEIIMRDEITGELHIADVRTDNNIIIEFQHSHIDTKEQASRESFYTNLIWVVDGTRLK
+NDFKRFQKGKYYFSSLMPQVFRTSFSYEIFPSNWIYRPVAVIFDFGRIETPKKSRHTKLY
+CLFPQRLNNEFIVAEISREAFIVSITKGNWLQRFENFINKIKAIEIAEREAFAALELIAS
+RNNR
+>tr|A0A1S1J623|A0A1S1J623_9FLAO
+MKKIIVMFTLLTGLSAFSFTSKDSISAFTFQRMALMEDFDCDACGCSASGGSMGFSSMLN
+NNFVGLRYFRQSYTSRDGIFANSPWIDENFNTVQAWARIPVTEKVQISALIPYHFHERQL
+TAGTESIAGLGDITVMALYTVFETQKDSTIFTHKISLGGGVKIPTGKFTEANNAGSVNQS
+FQLGTGSWDFPLATEYVVKRKNLGLNTTLNYIFKTQNNKNYQYGDQFNYAATFFYLFNTK
+SIQIVPQAGLAGELYQTNKQHNLNLPNTAGDILFGKFGLEAGKDKFSIGVNAMLPITQNL
+SNGNMEANYRWSINLNYTL
+>tr|A0A1S1J390|A0A1S1J390_9FLAO
+MFIVLLCLLSLTGHGQTATNPAAPTGSATQSFCGLTTVASLSATGTAIKWYNAATGGVVL
+SSSTYLTNGTIYYASQTVNGYESTTRLAVIAGITYASKPLANLVQIVCQASSNDKPTLAS
+FSVTGTDLKWYDSETGGSVITSTTAIIESKHYYVSQTINGCESLRQQVGAIIVDNSAPTG
+NASQSFCAASNPTLANLTVTITGWGTVRWYDVTTGGSILASDTPLMNGTTYYASNAGGGS
+CESTRFGVTVTINNNPPQAPTGITSQTFCTSTNATVSNLSATGTAIKWYDAAIGGNVVTS
+STALTNGTIYYASQTVNGCESTTRLAVTATINNPAAPTGTASQEFCKSTNSTVASLQTNE
+SGVTWYDAAIGGNVVSSTTVLTSGTVYYGSLKTGTCESPTRLAVTVTISDPKTPTGTASQ
+EFYKSSNATVASLVTNEIDVTWFDAATAGNVVPSTTILTDGTTYYGSLKTGTCESPTRLA
+VTVKLKEDPKTPTTDNTMQDFLKTKNPTVADLKVNESNVVWYDAPTGGNVVDPKTALVDG
+KTYYGATKDGDVESLTRVAVTVDLKEDPKAPTTTHPTQEFLNSKNPTVADLKVNESNVVW
+YDAPTGGNVVDPKTALVDGKTYYGATKDGDVESPTRVAVTVDLKEDPKAPTTTHPTQEFL
+NSKNPTVADLKVNESNVVWYDAPTGGNVVDPKTALVDGKTYYGATKDGDVESSTRLAVTV
+SIKTLGVKDFEFSNYFVLYPNPVSDVLTIKTKQDAEIQSLEVYDIFGQLVVSVPNAKSVS
+TVDVSNLSTGNYFIKVKSDKGSFKVKFVKK
+>tr|A0A1S1JCB0|A0A1S1JCB0_9FLAO
+MLTILFVNAGNYLYNLLLGRILGPSEFADAAILITLLLVLSFVGMTFQVTAAKYAVLLEG
+TQLHVFLKFIFKYALLFGVILGFTVVVFSHQLQEIFKTKTSLMFVLFGLGLPMYFIMSIN
+RGLYQGKNDLRNLSKTYYFEMLCRLILTLLLLYLLPQIQSSIIIAVGILISFVFGLIPFQ
+KIINSKNKQTLSDNLDTKSIITFFALTAFYELTQIIINNSDIMLVKHYFDNEKAGLYACL
+ALIGRVVYFVAWMFVMLLLPKVIQLKKQGEDTLPILLKYVLYIVCLSTIIVLSALLFPEI
+VVRLMFGEKYLPIAFLLWKYALATSIFAIANIFAYYFLSINKYVPVVISAFLGLTQIILI
+VLYHNSLEQVVVMQIIAMVVLLLFQLFFFFFNNNKK
+>tr|A0A1S1J1X8|A0A1S1J1X8_9FLAO
+MNPNEFRRQLLLLKNQGNFVHPNDLVSDLNTILESEDNNLLITFDDGLKEQFDLALPILD
+ELNISAVFFVNSINSEEKKVTTVHKIHLLRSIISSSEFLDKFNDVPFSQSEKQNAQSIYR
+YDDEKSAVLKYILNFKLDFREQEQIVNSLFDLYFEEATIFESLYMTDQNLKELAHKGYLG
+SHTHSHYPLGLLDRETIKKELEKTKTYLDTLTHSNIKIVSYPYGTPEVCTNLVADLAKET
+GYRIGFTTKRGINTAEENPLLLNRFDCNDLAGGKNYNKI
+>tr|A0A1S1J1G8|A0A1S1J1G8_9FLAO
+MINIVFINATLGQNQIKYKTYNQDDFEKNKVSDEIYNLWIGKSNWFSALKDSISYFVDDR
+NYKGIINYGVSFRSKNYRNFNFVEHLSMCFLKVEVTKCDYNPKDNVLSIEGFVSGNNNWG
+WNVFLKGKKEKKYVDIFLGEKTDTLRNCYLGKIVNKDSIEVKLNNKETNEFTVLDKFPAF
+YFKKYSHYRTILGSRLPFKISGEVTSKTLLVFGSGETYSEIFDLGAMIFDPKKNERRKAI
+KKQELDCRPILSGNKRVADIEKEKAQKQEINYYTYTQNAENYILARQYGKAKEQYNLLAQ
+KYPILFARDIHNAIRCAILSRDYKNAFWWGEKLALKGIELSYFNTKIFNGLRKNPEWTSF
+SVKYDSVSKNAQHKWNLNLKKELTNLLNEDQAEYGLENRKSPKVLYETTEKVTGKLIDLL
+KKEGYPSEEKIGSLVVRDTVLIPFPGFNALIIHATQKKPENLAVLNEILDKSSKALEYDD
+KRNFNNALAYSSCFRIYKGNLYSSKSCGRNDLEVRKISFKFSNPNNFIMDYGNFIIEAHD
+TKYPKEVDDDYEQNYNLIMKLTDDWEFYEK
+>tr|A0A1S1J8V2|A0A1S1J8V2_9FLAO
+MEKTNTMKLAKNHHTAISQNDIFRMSKFVVTENFNHHSNEVFPGHYQKDIDAVYKEEMNF
+LENSKIFAFKNELGDFTGTIRVLKWDFITPLPIQKMFGINPFLCAEGDAINEIWHIGRFA
+IKKGVRDVNLLKKLLVCAIAPVCKHKDNMAFAEIDAKLLRVLTLMGIKAKIVGKSIEYLG
+SETIPVSMSYNGLITFYNENKHLVTPEDFELSSVNYKLPNKVVFNANQLNYTLV
+>tr|A0A1S1J7A9|A0A1S1J7A9_9FLAO
+MVLIVFYAIVGAKFYYQKKYNINGFTLGVLMSGTALFLDVLITVPFVEIPEGRSYESFFT
+SPILWTLAFINAFSVYWYWHRKIKTS
+>tr|A0A1S1J465|A0A1S1J465_9FLAO
+MKKHYKILILLLLLPFLGFSNDDNSYITKQKNIKKTYIVNSNAGIDIDNKYGDITVSTWN
+EDKIDIDITIKVTSKNESWANQRLNSIDVDITALKSMVTAVTNLGNSSVRSKGSADFFEI
+NYVIKIPKNGSVKLNNKYGDITTLSLESSTDITCKYGKITLGKLNGSSNRIEIGYCDNST
+IESIKNGSIEARYSNLKITQAGNLNIDSNYTDLYLLNEGQNIKYDSNYSTFKLQKISSLT
+GSGNYLSVSVGELSGNLNIDTAYSKINVDTLNEKKKNVNVASSYTNVSLGYSADLAFDFD
+INTRYGNIKYDSSLETSVAESKGSAKKISGYNKKKGQSKITVTTSYGNAALIKK
+>tr|A0A1S1J3V5|A0A1S1J3V5_9FLAO
+MAYFKAIAKTIEEKVNGKKTELTYLYKEMLTEELSVDLQWKSLTVNSNIVAADIVALDSA
+LPLKKRDSFGTASGDIPKSGMKLQLTEKQMTDIDVLKARNVETAVLVDKIFQDEVKCTMG
+VHEKMELIFLQGLSTGIGLVEDENNVGTGVRVDYGYVASNKFGASVVWSNANAKPIDDIS
+RIVKVAKSKGDQIKFLMMSDDTFDKFASNQQTREQYAFSQNFVGTAIPVPDLEQVNAMLQ
+RKFKLSIIVVDRTVTTERDGIRTIHTPWAVDNVIFLTSNKVGKLAYGILAEETRKSSKVM
+YEKSGSFILLKKWSTEEPFAEFTSSQALALPVINNVSSIYLLNVEEAVADVQTEGDGNFA
+YKGTNYTKVSVVAAYKMIKPNSTITTSTSDANIMSGINKLSDEQVLIFEANIVAA
+>tr|A0A1S1J1J6|A0A1S1J1J6_9FLAO
+MGQARQMTHATEEDYSRWGTLELKSISEKGKWISFEMRYENAMDTLFLCNTLTNKTYEFP
+KGKNGKFADEKIFAYLDAKSNLHLFNLNSLKTADLKNAANYELPLGGKFFVTSSAEKNKC
+RLLILYNDNGIVLDTVQGITEYVMNSHGDALLYTSKKNNFYQSGIINFGNYHQVIIAEKI
+PYRLVKPTWQDNEHNAAFLSIRDSVSNKTVLHYYRARDSMLFSFNWNDKKPGTDLIINPK
+LPLQISKDGKKVFFTLKREADSKSKNETVEIWNGNDKSLYPGRHKTENAAETPKKMVWYP
+ETDSFLLLNDNGYSNFGITGRQDFAIIFNKNPYGLQDKYYEEADFYLKELTSGSTIPFLK
+KQSIDPAQMKFDPSSNRILYYREKNWWIFNPIEGKHLNLTEKTKISWDNDSEPSIRSQFG
+PYGCAGWSNDGKNILLYDQYDIWMVAADGSYSRRLTKGREKNISFRLNNPSLNNIFSMAE
+DLILQSRNMKDHSTGYHVLSFKSGEKLIISGSRKFEQLLQSQNNIFAYTSQNYNKPPQIE
+LKKNGANPSVLFESNLQVKEYRYGKSEMVYHRDTAGEKVKSALIYPAGFDSSKKYPMIVY
+IYENMSNLVKNYQNPSLQSSIGFNITNYTLNGYFVLLPDIFYKKGNPGISALESVKAAVN
+AVLRKGSIDRNRVGLYGHSFGGYEANFIISQTGLFAAAASGAGISDIIGYYFNISKNGIA
+QSEMWRFESQQYRMGNSLFEEKEKYLKNNPLLNADKVNTPLLLWSGKEDRVVPYTQSVSY
+YLALRRMKKPTVMLIYPKEDHNIKKVDNQADLSRRMMEWFDYFLKDKKTAQWISEGTSGD
+>tr|A0A1S1J2J8|A0A1S1J2J8_9FLAO
+MQHEKFGEKDFQTIIGNLLRYGVWISLSVAFIGGIVYLLHHSTDIEDYSVFHENDRNIFE
+VISAIYQGVIQGNGESLIFFGIILLFLTPVLRVLLSLFSFLLEKDYLYVGITLIVIVIIL
+ISVSFGFSH
+>tr|A0A1S1JGF2|A0A1S1JGF2_9FLAO
+MKLLDTKPHFYWFLTNLAKTQSREVFVFLVLFLLKTHTLAPIVVEILLIFPLKSKRLKRI
+AG
+>tr|A0A1S1J6Q3|A0A1S1J6Q3_9FLAO
+MLKRNFIGVLALLAVLFHAPIAYSQTTSPKTETKSKLFEETTTDSDYLMAIEKAGEVLES
+AHNDTEFDGNSHRLFGEIKGTQSKLDLILASLKGANPNVRNQQMYRIVLKEIELELDEQN
+TAINSRNLALEKIKNRVIDLRKDKTLMGLLKDTLRRKQFKQEFANLKKRYLSTDSLMTKN
+QSILNHNKRLTVERKIAVSNALITVESKLEKSGIRMLKKEYPVLWSTNDSVAKKIVGKNI
+KAKIIIEENVAEYYLSYRAGGLITLLLLMGILGWYISRNLKYLNSNAHAENLSQLNFKYI
+NRGVVIPVAVIGLNIAVVSNLYAPALFIESIQLVLLGLLTVLFKNKWSAVAMRNWLLLLV
+LFFILCFLDLFIPVGFMQRCAFIVINLFGIRYGFVQIKTLKDQLYIKGFFKWATIIFIGL
+NALSIFDNVLGRVSLANMLSLTAFISLTQIVALSVLLKIVLEIILLQIYTTRIKRGIEKI
+FDHESLSDTLKRPFIIVISYMWIVVIAANLNIWESLRTGLGSLLSHPNTIGSITFTLGNI
+VLFFIIIWVAHLLQNYVAYFFGEIDDENEETINKRQHSKLLITRLVVLISGYLLAVAASG
+MPLDKLSILLGALGVGVGLGLQNVVNNFVSGIILIFDKPIQIGDVIDISSESGRVKSMGL
+RTTKINSSNGAEIIIPNGNLLSQNITNWTYTDNFKLVEITAEVTGDVMPEAINAIILESL
+ESMALVNTTKVPQIYYSAISDGKFKLQIKFWCSIYRTEETISNARQVLFSNFKEKGLTLS
+T
+>tr|A0A1S1JAV4|A0A1S1JAV4_9FLAO
+MKKNLLFLFFIFCSASMYAQNDGLWQKVDAVSLSKRGITSEPGRLYYKLNSDFLKAKLTA
+TTAKTAKNTSTEITFPNSGGVLERFSVWESSNFEPELQAKYPEIRAYEGRGLDDKTAKIY
+FSVAPIGVQTMVLRTDKPSEYIEQNQEDKSSYVLFTKNDTASKSRLTCKTTDVPENKSTS
+STAKSAANNKVFKTFRLALSCTGEYTAYFGGTKAGALAGMNATLARVNAVFNKDLAVRVV
+LIANNDAVIYTNGLTDPYSNPDRGTSKDPSDGNDYWSKEVQSTLTSVIGEANYDIGHLFG
+ASGGGGNAGCIGCVCDSPTPSDAMGKGSAYTSPADQKPEGDNFDIDFVAHEMGHQFGGYH
+TFSFDASERTGLNVEPGSGSTIMGYAGVSKGYDVQNHSDDYFAYASILQIQNRLSGKNCP
+VSASIANNLPVVDAGADYTIPISTPFILTGIGSAVAGVTYTWEQFDSASDSSTGNSNSTA
+YPEKPNGPLFRSVRPGSSLVRYMPELNTVLLNKLTTTWESVSSVARTLHFTLTARDNGAS
+AVAQTNTDTMIATVVTNAGPFTVTSQNTDDVSWPIGSNQTITWAVNNTNTLQGSSAVNIK
+LSTDGGLTFPIILASNTPNDGSQTVQIPTSVTASTNCRLKIEPTANIYYALNSKSFAVGY
+TSTTTCDSYSFGNAFAIPPGNSFTSKTVNVPASTGTISDVNVLVNVTHDKLSDFELQIVN
+PQGTVVNLYDRNSCGGINSTLALQFDDAGVALDCSKTTSQIVVPIDLLSVFNGQDPKGTW
+SFRVRDAVTGNFGTINSASLNICNKTFVLGEIDIENVAFTLYPNPNRGNFTIQFSSDSIN
+RVQIYVHDILGRQVYFNSFDKTPYFNQNIQLAGATAGMYLVTVIEGERRTVKKIVLY
+>tr|A0A1S1J494|A0A1S1J494_9FLAO
+MPGILLVVFLLTVLFTACSADENKATDPKTEIPSTGLFYKVIQVKNYQGSTSDANPTAPS
+ATLYYSLEENKAVEGSYKKTRKWDLAFGGLYASFLSGNNGSNSQNNGSLAGGIGGITIVA
+KPFNEVIDIPADSQFKTGIDLIGTDDAGSFGNGTGWYLYDFGGEVVSDGKNPQKAHVAYA
+LGESLKIANGTVIPARTIILKTANGNYAKIKMISVYKDVYSPKDWFKDTPHMYYTFEYVM
+VPAGSTKFEIR
+>tr|A0A1S1JGD0|A0A1S1JGD0_9FLAO
+MKQLLFFIFLLTSAFSFGQAEEVQKAEIEGGTLSKKYIDGKLESFIVEMYAVNYGNIFSF
+TKEKDTITVSNGEKSAAVIKIYFKDQMQISELFCKKKIVGYFETINLNIDHLPKSNSIYS
+FLVNNKIKSSICSFDLNDLDENFDQNLIKLFTSLNHAANAENLDSAFNSIAHFFSKEDAL
+YRIYLRSYAEKFAPPIITYLKTNESGKIESGIVWTGKETGNGKYEIYSKEKVIQSGVQNL
+SNFKKTFREYFNKNGIEN
+>tr|A0A1S1JCV6|A0A1S1JCV6_9FLAO
+MRNFTCSFLMFFCFVFSSFSQTKTVEKGTYFSTNRGQKVKLNLLENGKYEFILYFGDYNV
+KGDSLLFSQNKSVEEGFDLSFITDKKAKKIKIKFVDPSFYPFYVGTQKGSEAIQYKKLSD
+IKIETDPEWKDLDTAFDIDKCDFLYLALEGYDTETKLYKYALPKDVAEVTIKYNSLTEGD
+LKISGLWDKKTNQLRISDKGGKNPLTFVNEKEQKPEAKEVKVTPMESLNIPNWTYPGKDP
+VVDADFEMTVDSAATAVVDSAYVPEIYDFKFKIQDNLKSALAATAADKTKFLVVAVDTKN
+PSAKKDFDTFIQKQESLLGVHMATAYDAENDSFNFYLANANDKKWLKSIKITDDKSLIVL
+NEDGDVLASAKSTLSEKEALFDVYSDFARELRSVDTFSSLGKALKNKKATDGDLISAFRK
+SVVSYDFGGYDVTYAQTNEPNEGDFKYASTKLDIKEATQAWKKLIELHQKDTKPNLYLVE
+TILKEIKNQGFSRQISKVDKVLNDTDFLSIDYLIKHYDAIDAERLVYNEKEGEKHSIGSL
+NQEISSALQQNKNIAANEASAAGNQDKTISIYKKLIAAGKGNFETYQNYLAYLAETAEND
+GSNGAYLKEFNAYFNTNLGDKGNVIERLDQMFGSLGTDSEYGFNGWNWFKEYHSNLCNSA
+AWTVVSKPGNTDFLKSAIGWSEYSLAVTKNNPYYLDTLAQLYYKDGQKNKAIETQILAAK
+YLNSEVEEQTAAEIRETLTKMQNGTY
+>tr|A0A1S1J647|A0A1S1J647_9FLAO
+MKRFFEKKQKHILFVLVAFCFVAGKAFSQEDRRWLINPDGTISWQINNNIPHDDHIEMSG
+KKISAVLRYGVAADGSFHATRSLIWPMLRTIPNNTHASLTRRFAQDGFNLVTVNYKPIVA
+EKVTSLTLDGTLLVKSKVGNTLELTRQFFPSTTLAGYFEIYTLKNISEKTCAVEIPKSNT
+VYTTDPEKGTEGSYTLHVDLANSGSFNLKTNEVVRFSVFYSGVKTNEQVPVVNAEEEKEK
+RTQFINQIWSKLILETPDPVLNTEFAFAKIRASESIFETKGGPMHGPGGESYYAAIWAND
+QAEYIGPFFPFLGYEYGNQASLNAYLQFAKFMNKEYQPIPSSIVAEGTDIWAGAGDRGDG
+AMIAYGAARYALSRGNTNEAKQLWPLIEWCLEYCHRKLNSDGIVTSDSDELEGRLPAGKA
+NLNTSSLYYDALNSAVYLGKALGKNEAQLKTYKAEAEKLKAAIEKYFGAKVEGFETYKYY
+KENDILRAWICTPLAMGIYDRKEGTIEALFSPRLWTKDGLASIAGDKIFWDRSTLYALRG
+VLAAGETDKALDFLHYYSNRRLLGDHVPYPVEAYPEGDQRHLSAESGLYCRIFTEGLFGI
+RPTALNSFDFTPRLPKSWPMMKLRHINAFEHDFDITVERVDKKLKITISEGRKIITKKII
+EDGSTINISLQ
+>tr|A0A1S1IZI6|A0A1S1IZI6_9FLAO
+MHVSIGNYSQRLIQKSFFLVLFFILPLVACPLWGQVVQKKQLVSSDYYGWGKIIIDKVSP
+DEKWVCYKMEYEKGGDTLFIRNHFSHKSYSFPKGRNGFFAGNKFICKIDKGITIVDLKTA
+FRENLSDVDRYSYNQQTEQLIFLLADKEANKKLAIRSFKNSTIREIKDVTDFSLSPSGNH
+LAYFSNNNKTSFVFQINLKSKEGPKLIALNKKGNFMGFTWNKNGNALAFYQQDRNMKINA
+LIYYLSKEDKLYKLDSASAVVFPKNTDIIYENLNGIFISDDAEKVFFSIKNQEEIISKSH
+QSDVEIWNGNDKWTYLQEKNFGNFENGPKTVMWIPKTNYFSAVTSNEFPKVILSGNYKYA
+IISNPKQYEPQFDFNGPRDYYLLDLSTFQKSLLLQRQSYDHKNLIASPKGKSFAYFSENN
+WWVYNFEEKKHINLTASLGVKFTAKLHDLQIESICGSPGWTVDDNELVFYDKYDIWVVST
+SGNEARRLTRGKEEKIRFRIADMPNKNIDNYIYDGLISREIDVQKELILQAEGEDGKTGY
+FIWSPDGSLEPIVYKDSFIDQLNYGTEKKNFYFREQKFDISPKLILKERSKEPITIFKSN
+PQQENFFWGKSQLINYNSDGNFLKAVLYYPAQYDSKKKYPMIVKIYDRQSNQLHKFENPT
+YNNVNGFNTTLFTSENYFVLKPDLLLEAKNPGVSALSCVISAVNKVVETGIVDSSKIGLM
+GHSYGGFESSFIITQTQLFSAAIASGAITDLNSYYHTINSRSGKPDMWRFGIEQWTMLAT
+PYEAPESYWSNSPIAHVKNVNTPTLLWTGKIDSQVNPSQSFEFYLALRRLGKKCIMLQYP
+DENHLLINSLNQKDVTERTMDWFRYFLKNDQSAMWIEKGTK
+>tr|A0A1S1JAA6|A0A1S1JAA6_9FLAO
+MNMQESYLEKEKEYFSIIRKDIISFIGMDKDLTILEIGAGSGVTLLELKNKGIAKKIIGF
+DIVDVAHNKEKFDSFIIGNVENGDFLFESDFFDSIILADVLEHLIEPQRTIQKLIPHLKK
+GGNFYISLPNIRNYEVFYKIFVKGTFEYTNEGIFDKTHVRFFCKKDMLNLINLFPELEVQ
+KIESNLKHISSMKSTLNKLTFGVFEPFLSTQYLIKVIRK
+>tr|A0A1S1J0K1|A0A1S1J0K1_9FLAO
+MLALAIILALPVVQTKIARYVTESLNTDFKTDISVEKVAINIFGGVKLKKVLIRDHHKKT
+LIYSDIITTDILSIKRLLDGDLLFGDIRLTGMIFNLKTYKNEDENNINKFIKLFETGKKT
+PKTNKHFLLTAKNAYISQGAFSVVDENKNTPRFLDFKKLNAYISEFKLYGPDINTNIHRF
+SFLDHRGLYVSNFAGKFSYTKKQIKVENLAIKTKRSSIYGKAILNYKIEDFLHFTDKVKF
+DVALDSASIASNDIRYFYDGLGKNQHFKIKTKIKGTLNDLNLRRLRLSDTNGSRIFGTIN
+FKNLLGSKTQKFSMDGKFEKLVSSYDNLVVLLPGILGKTLPKELRRIGKFNIVGKAKVST
+TALETDFKMITDLGNGQVDLHMNHIDFIDKASYSGNVILENFNIGAVLNRKDIGRTTLNV
+DVDGVGFTEKYLNTIVKGDIAKLDYNKYTYNNIVVNGNFKLPYYKGQVSVNDPNLSLLFD
+GMVDLSKRENRYDFHINVDNADLRKLKFISDSISHFRGDAVVAVTGNSIENLQGTISIKE
+AVYQNPQDTYVFDDLTINSHFDADKLRTITIGSNDVVKGEIVGKFQFAQLDKLVMNSVGS
+LYTNYKPYKLKKGQFLRFNFHVYDKIVEMLYPDIKIDSSTTVRGKIDSDLQEFKFKFNSE
+KIVAAKNTFDNIRITIDNKNTLYNAYVELDSIKTPYYKVRDFNLINVTAKDTLFVRSEFK
+GGDKGEDYYNLDLYHTIDKNKNNIIGIKKSEMKFKDYLWYLNEDAEKDNQIVFDQYFKNF
+TIDNIVLSHENQKIDLNGVIKGKDYKDLVLNFEDVDINKITPFNSKFVFNGNLNGNVNYK
+QSKDVYQPTASIVIDHLNLNKTDLGTLNFDIAGDESFKKFTINSSIQNGFTESFKAEGTF
+AVENKETFLDLSLKLEGFNLATLGTVGGDVLSNVRGSVSGNAAVVGNLKKPEINGRLYVE
+KAGMTIPYLNTDYELSDRTVIDLTDEKFLFRNNQLTDTKYGTKGLLNGSIEHHNFGDWKL
+DLNITSKRLLALDTKDSEDAAYFGTAFINGTASIKGPTEGLFIKVEAKSEKGTQVKIPIN
+NTQSVGESSWIHFVTPQEKYNLANGILEKTKNYNGLELEFDFDITPDAEVEVILDRSSGH
+GMKGKGYGSLLFKINTLGKFNMWGDFQAYEGTYNFKYGGLIDKKFSVKKGGSIIWEGNPM
+KAQLNLEAVYKTTANPAVLLDNTSSFNKKVPVEVVIGLRGDLASPEPNFDIQFPSVSTVL
+KSEIQYKLDDKDIRQTQALYLLSTGSFMSTDGFSQGDFSGTLTETASSLLGGIIKSDNDK
+VNIDLNYISADKRLGQEADGQFVANISSQINERITINGKLGVPVGGVNESAIVGDIEILY
+RVNEDGSMNLRLFNKENDINYIGQGIGYTQGVGISYEVDFDTFSELVNKLFKNHKLERAI
+KNSTNDLQDNNLNPDFVNFSNKKNADKNKKKEEKEKKEEPKVPPPINNEGLIPDNDF
+>tr|A0A1S1J842|A0A1S1J842_9FLAO
+MKYTVRNYHKNDYEIWNAFVAQAKNATFLFYRDFMEYHEDRFKDFSLLVFKDDRLKAILP
+ANKVENSVYSHQGLTYGGLVYSEKTKQVDVIEIFQAVLFFLNENEILKLYYKTLPSIYHL
+KPAEEILYALFLADAKLVRRDSLSVIDLSQGNVVSKIRKRGFQKGVLNQLTIKEETDFYL
+FWDEVLIPNLNKKHKANPVHSAEEMYYLQKHFPQNIHQFNVYLEDKIVAGTTIFETETTV
+HCQYISKNEKGDLGSLDYLYHYLIQERFAQKRFFDFGISNENEGKNLNEGLSYWKESFGA
+GTIVHDFYELETANYKKLNGIFV
+>tr|A0A1S1J5I1|A0A1S1J5I1_9FLAO
+MRENDKEAGNNTVKSDFDQITEVLFDYIEGTAEGQPERLRKAFHPNFNLYTVTNDTLWTR
+SGKQYIANIKTGEKLNRIGRILAIDMEKDAAIAKVEIKVPNWRTFTDYFLILKYEGNWRI
+VHKSYSWRAISKKE
+>tr|A0A1S1J2K6|A0A1S1J2K6_9FLAO
+MQRIDIKTIKKNTIAILGFVLVLFFSSCDDVVKLDLETGETRIVVDAEIIWKKGTSGSEQ
+VIKVSKTAPYYNDKTPKVSGAKVKVTNSKGDVFTFNETGPGLYVCTNFVPVINMDYVLSV
+EAEGQTFTAAEKLISVAPIDRIEQKRVPDVAGDDLYEISFYFKDPADQTNFYLTDYKSDV
+FRLPSYTLLDDELFNGNEIYPRFSDPDLKPGKSLSVINRGISKNFYNYMSLILEIYGGSP
+FSIPPGNIRGNIVNTTNANNFAFGYFRLCEADTFSYTVQENDNIVYPGK
+>tr|A0A1S1J8X8|A0A1S1J8X8_9FLAO
+MNGVCYETVAYVQYLLHPTKISLREMETITGKHWVEKFTTQREWTGETIPAGTAIGFYRI
+NSSGFFHFALGAGGTQIRAVNGLTLGASWTFEVNLPSVLGPRNEDGTYNYDNSKIRVYLM
+YL
+>tr|A0A1S1J8F0|A0A1S1J8F0_9FLAO
+MQLAHDFYKEGELSAAELDEHYNTTQAHIENIEFKNMLSDEGDSLSAVVQITAGAGGTES
+CDWAGMLMRMYMMWGESYGYKIKELNFQEGDVAGIKTVTLEFEGDYSFGYLKGENGVHRL
+VRISPFDSNAKRHTSFVSVYVYPLVDDSIEIDINPADIEITTSRSSGAGGQNVNKVETKV
+QLVHKPTGIQIQCSETRSQQDNRQRAMQMLRSQLYEIELKKQQAQRADIEAGKMKIEWGS
+QIRNYVMQPYKLVKDVRTGYETSDVDGVMNGNIDPFLKAYLMMMGQKEEE
+>tr|A0A1S1JBH5|A0A1S1JBH5_9FLAO
+MKPIKFLSFLIVLLCMFKGTAQEFKLGKVSVAELEQKVHPKDSSAAAAILYRKGTARFEY
+DETQGFVVVTEVETRIKIYKKEGYDWANQKVWYYNENDFKEKVTFSDAVTYNLVGGKIEK
+TKLKSDGVFDEVVNKFRAQKKITMPNVKEGSVLEFRYVLRCPSDRMIREWDFQTSIPVDY
+SEFTTYIPEYYVFNPRQKGYIFPKTTVEKALKTLTFTSKERSGWLNSSTTFSTDKLDYQE
+TKTTYVAKDFPAMKEEAFVNNIDNYTASIQHELSMTKFPRAEFKMYSVDWNSVVKTIYEN
+KDFGAELSKTGYFEEDLKKKLEGKNSIDEKILAVLHHVKENVKWNDYFGYYTDNGVKKAY
+KEKTGNIADINLMLTAMLRYAGLTANPVLVSTRSNGISLFPNRTAFNYVIAAVETPEGNI
+LLDASDKYSTPNVLPLRALNWYGRLIRKDGSSEEVDLMPKKSSNDIVFMNYSVDPDGKIT
+GKARRQCTDYNAVITRHNISSLKEEEYLEKLENQNNKIEISEYSKTNEKDILLPIVESYS
+FTGSNLCEVIGGKIYVSPMLFFANQENPFKQEVREYPVDFGFPFTDKYNITLKIPEGFAV
+ETLPAPAIFNMEENLGTFKFNIAANDNLLQITVQHQINDAIVSTEKYEMLKEYYKGMIAK
+ETEKIVLKRI
+>tr|A0A1S1IYC6|A0A1S1IYC6_9FLAO
+MRKVVVTPLIILINIVFINVALGQNQIKYKTYNQGNFEKNKVFEEVYNLCNYKDYRCFSS
+VKDTLTYFVDDRNYKGIINYGVTFRSKNYRNFNFVEHLSMCFLKVEVTKCDYNPKDNVLS
+IEGFVSGNDDWGWNVLLKGKKEKKYVDIFLGEKTDTINTRYLGKLVNKDSIEVKLNNKET
+NEFTVLDKFPAFYFKKYSHYRTILGNRFPFKISGKVTSKTLLVFGSGETYSEIFDLGAMI
+FDLKKNDLKKNDRRKILKKEELDCRPLIHANKLIADIEREKVQKQEINYYTYTQNAENFI
+LARQYGRAKEQYNLLAQKYPVLFARDIHNAIRCAILSRDYKNAFWWGEKLALKGIEFPYF
+NSKIFAVMRKNPEWKSFSVKYDSVSKNTQHKWNLNLKKELTNLLNEDQAEYGLENRKSAR
+ILHETTERVSGKLIDLLKKEGYPSEEKIGSLVVRDTVLVPFPSFNILIIHALQQKPDNLS
+ILNELLDKSSNALEYDVKRRVKNMLGEGSCLRIYKGNLYNSKSCGGNDLEIRKISFMFSN
+PKGFIMDYGNFVIEAHDSKYPEEVDDYYKQNYNLIMKLTDDWEFYEKY
+>tr|A0A1S1J5Z6|A0A1S1J5Z6_9FLAO
+MKTLKLILLFLAVNLSFTACSNDDNKEIIKPKAENIEIGTANNKKALIGRDFHFNADVLA
+GDKIADVQLKILPIKGETYSKDWKFELSWAEFKGAKNTNVHKHFNIPTDAPEGKFDFLFI
+VTDENGSKLEIKEVVTITDPANLPVDPVIGRDNLSRNDNLIYYMNTWVEPELIFKKNDLL
+TAHAQVSQIMGDGILYSVLIKKSANYNPESIDKLDLKKIIVISKVEHKGLGAASKITTLQ
+KINGVLGGQSITIGAATDFEGTPITGDKAWQSGTYNWVILYKNTTHNISVYKSMPITINF
+>tr|A0A1S1J285|A0A1S1J285_9FLAO
+MNSQNITCIFIKKCIPIVILLLVTSSGLRAQTFSPDNFVSTAAPKKAVTEANYGTLTKEE
+INQTVTYFDGLGRPIQTIAISQGASGQNIVTPMKYDGFGRQNKEYLPYPIANTTNNHPKI
+DPATAISDAAFFYNKKEYQYTANPFSEKEFELSPLNRVQKQAAPGTSWKMGSGNEIKIVS
+TASTVADAVKVYRANTSWQVGLGLYDISISEAGIYVPGALYKTITYDENSGANPSENAGS
+TVEFKNKEGQIILKRTYDSGNPHDTYYVYDDYGNLTYVIPPKAADLIGTTTNTTANLSST
+AVLLPGNTLNLTASNSITLLPGFHAQAGSTFSAVISDGTSGILDQLCYQYKYNNRNRLVE
+KKLPGKQWEFIVYDKLDRPVATGPAHSPFSDINSEGWIITKYDAFSRPVYTGWNNQASTS
+ATRKSLQDAQNAASVLYEKKQNSGTIDGIAVNYTNRVEPLVFKLLTVNYYDTYAYPNAPS
+TPSSIEDQPVLINAKGLATGNWTRALSSSSSTAGETGTTFYDPKARQIRTYIQNHLGGYT
+YSDSKIDFAGKALSTTTRHKRTSGSTELVTREEFTYSAQDRLLIHTHQINNGPVETIASN
+TYDDLGQLSSKEVGNSAQNINYSYNVRGWLTGINDVTSLVKLDTPKDLFAFRINYDNLNY
+GMTGVKALYNGNISETSWATNSDNGIVRSYGYKYDNLNRLKEGIFQKAAVTTNAYNETLS
+YDKNGNIMGLSRNGSNDNATAIDALVYTYANNNTANQLMKVTDSSLKNLGFTDGNNTGDD
+YAYDLNGNMISDANKNITAITYNHLNLPTKITFTTTGNIVYIYNATGQKLQKIVNRSGSA
+TVVTDYMGGYQYEKIGEQPTTLKFFPTAEGYVEPLGSSYKYIYQYKDHLGNIRLSYDKSL
+TIQEENNYYPFGLKQEGYNTAKNSTNDALRYKYNGKELQDELGLNFYNYGARNYDPAIGR
+WMNIDPLAENSRRWTPYNYAYDNPVCFVDPDGRQAVYNWTGKNKGQYTDNGKVVDFNKAL
+ASYGINSESKSPKDIVVTADDGTTLFTLNDGKKEITKMTAKELYKQGTQWFEPLADNYMP
+LKSISKGASSNRLRHFTKGQIESFSNTDRWMSSYRSGGSGDWKASKAGANGFLLVTIEGM
+PYWADAVGQIPFATNKSKDEKADGNNNYNSTVSTIKAGQEYGDGSIFGGVSDFTNSYDNY
+MILRGALYGTENRDITKSITKDEAAKYGF
+>tr|A0A1S1J5N9|A0A1S1J5N9_9FLAO
+MDTLKLQEKVTETTISKNFETFAPVVLKIMPDEDVDSRNEALRELAIDNMIYDFSIDSEN
+FISEIFNSYDNAPIEEKKVLDYFKIYFIQDDNDQFSICFSISSVETEKIGDKDFFFKINT
+QKIEKIEKEAFIKYSNNYKNKLLQSINSKTWIGGLQIKNTEAVSYKLKDLYFFILKHFLI
+NAKPESSYSELFFEMIKFEENAEEPTNQNKLSIVVRAQSVSKGRAQAYDFGRVYP
+>tr|A0A1S1J7T4|A0A1S1J7T4_9FLAO
+MITVVGGTYREIDYDDISIEIYGSGFRATKFLLENDCKAHFETVGNSNIIGYLNENKKVY
+NGFTFECKECDEIITFKYSFSLDQPAIFPHLLTIQKAEQINIKSENLIAFGMLETDFTLS
+GNKVVYDPQTPIKPKKFSEFGKAEELVYIVNKNEASSIAFSEDIEEIKNYFFNSEQAKAF
+IIKNGPFGATLYLKDKEVKIPSYITNNVNKIGSGDIFTASFGYYWMMKGLSLEDSAIYAS
+RSTAIYCDKKVYVETSTLDVFNYPEFNNQAFSEKQVYLASPFFSIAELILIDKIRSAFLS
+FGIKVFSPFHDIGLGEDTIIAKKDLEGIENSDIIFCVLDNLDSGTLIESGYSLAKGKKMI
+GYHRTCDDNKLLMLKPANIHFYQHLTTAIYQTIWNL
+>tr|A0A1S1J620|A0A1S1J620_9FLAO
+MVGDSQNSLVFLRFPTIPENSQKNTMHSQTLEEYKKAIKSKYEIEKEGEYFDYLYNPSRA
+KLRDLCWIIFENNPTQDDLNVFRNLLCLDFDHTRKNKFNEQKDKFRPIETFFKGETDPSN
+IDAINLAAIMVDFQPRPFKKYNEKCRINEVKHMISVVEINAAAEVEIIEESNLEEGNLVE
+SYSEKGNRFYNFKYVLSRKIVKKIYPRKIITATVGAVAFVSSARLYFVRKKDQTE
+>tr|A0A1S1J6L2|A0A1S1J6L2_9FLAO
+MKKLPQKKSEVLKVMLVFVSAAFFISCNNESVEDQNTQLSNTEKQNQSNTQRRLPHYEGV
+IVRDWGAHNVDCSQPEGFCNFIFYLWGTFSFLKPAPDGTPVRVTNEKGNFVMEIQKSALT
+PEHKKVLLRNREVYLIPEGQTIDPELVKSLKFNSNILVPGKYPIQESEETYTLVINVK
+>tr|A0A1S1J0V7|A0A1S1J0V7_9FLAO
+MNKEYAVGLDIGGTHITAAIIDIVDMKVIDFSLHKESFDSNLPVAEVMTIWEKAIRTSIE
+NSKVENTTGLAVCMPGPFDYTNGVCWIKGQSKYEHFYGLNVRDLFQNQLKLSGDFPILFE
+NDAVCFGKGEVFKDAENLSKKVMAITLGTGLGACFIDKGESISTGDLVPKDGEIYDLPYQ
+DGIAEDYVSARGLIAGYFALSGKKINNGLELFNLATAGDAMAVKAFEQLGEDLAAIVAPW
+LEKFDADSFIIGGKIANASEFFLPVFNKKIKEAGSNVSVSVSTDNEIAALLGATSLLYTA
+>tr|A0A1S1J739|A0A1S1J739_9FLAO
+MAIVLLLSGCNSSSKNKTADLSEAKKAIQESNAIYFDSFKNNDPSLFIDRYAEDASILLP
+NAPQIYGKESAAKFFRKAYDEYGLRGGKFITTAVYGDGIEYVTEEGLWQSLNSKGELMDD
+GKFLVLWKKTSKGWKMFRDSFSSNREAK
+>tr|A0A1S1J222|A0A1S1J222_9FLAO
+MRISKMLLAFLATGFAFTSCDSDKTEIDTEYPVIDVSAANAFPIQCSTITRGQKITFRAK
+FSDNAQLGSYSLDIHHNFDHHNHSTEVASCNEDPIKKPVNPMLYINSVTIPSGQKSYEAA
+QEIEIPQNIDAGDYHFLIRLTDKEGWQTIKGLSIKIL
+>tr|A0A1S1J3V7|A0A1S1J3V7_9FLAO
+MDFFAPPRKDWIEGTASYFANAKKTTEPLEVVAAMDIRPGDVAVSAEGRVFATIHPLGSQ
+KMQLVEIVNGKAIPYPSEAYQKYDAKATDAKFDAMLGLIFDKNNQLWVTDMGLELGKSRL
+WAFDISKNKVVQKIELPQTIAPKGTFTQDVAIDEKNGFAYLADIANPGIIVLNLKTKKTR
+RFSGHISLQAEDKDMIIDGKVTYFGGKPARVAIDPITLSNDRETIFFGAMNGTSWYSVPA
+KLFREGKSDAEISKAIKKVGSKPFSDGALTDEAGNHYFTNLQEHAITKLDTAGKLTTIVQ
+DTQKLQWPDNVYKGPDGWMYISVNQLNSSPAFTGANDQGKPPYFIYRFKQ
+>tr|A0A1S1J475|A0A1S1J475_9FLAO
+MMIKIFIVTHKENPVLSNDILVPIQVGTNPSITDTILRDNTQDNIGNKNSNYCELTAAYW
+IWKNEKKADYVGICHYRRYLNFYNDWYNLKPSAQKKITTENFKNTKLFNTSSKKLEKKIA
+SILSEYDVILCRPYKFKKGSLTDNYCEEHRKEDWDLTKQIILEKYPEYKDSITSFLDEGT
+LFHMGNMMVSSKEKFDNYYAWLFSILFELESRVTIPEDAYQARIFGFISERLINLYMYHH
+KFKIKGVPSYKIIDL
+>tr|A0A1S1JG88|A0A1S1JG88_9FLAO
+MYRKYISILFFLMIFSTKAVAQQDNFNMWLQYTMSAKLSEKYSFTALSQYRAYDLVMDSR
+LFLVSTYLERKLDHDLYPAVGYMFLVLQPYTSDTDKKLRYENRPFQQLTIKNKIGRTTLL
+HRYRVEERFLTNPDDFVVRLRYLLSLKIPLGKEGGKNLLYGILKNEIRMNVVKTEQFDSN
+RITAGLGINVGKQSAIELSFVNQVSPDDTSNYVLAGYRNSFDWSSKTENN
+>tr|A0A1S1J9T1|A0A1S1J9T1_9FLAO
+MKLRQENEKDHKSVFDLIEKAFEKEEYSDHKEQFLVERLRKSAAFIPELSIVAEVENEIA
+GHILLTKLEIKNDTESFESLALAPVSVLPKFQGKGIGSKLIVYAHEVAKELGFKSVILLG
+HPDYYPRFGYELCEKYNIEMPFDVPAENCMVIPLTENGLSGVSGKVVYPSAFFE
+>tr|A0A1S1J913|A0A1S1J913_9FLAO
+MNFKTSDLEKMEKQTAVHLINSLGGFKSVALVGTSDVQGNTNLSIFSSFFHIGANPPLIG
+MIFRPSPPERDTMRNILDTGFYTINHINEQIYKQAHQTSARYNKEISEFDAAGLSAEYKN
+NFPAPFVLESNVQLGIKFKEKTAISINNTTMIIGEIVQIFIPEDCLSEDGFLDLEKANTV
+TCSGLDSYHKTMQLDRFSYAKPDKEIKSLLKS
+>tr|A0A1S1J474|A0A1S1J474_9FLAO
+MIEVYKTNVQEVEQSLLIVGKLLEHFPNSNINFDLEDCDRILRVHAPSISNQRIIELLDS
+YGYHCEVLL
+>tr|A0A1S1J082|A0A1S1J082_9FLAO
+MDIVTDLTAEAISYLTLFQDILKSNPQNTFPRALLEKDSWKNLGNENENQYGIYELTPGQ
+IDEITDLVWHSPDKHGDKNLTKIYLDILYDLLGWLADNIDERYMDKPESSELLLFRVPFF
+WRQRIRTALYKENLGKRKELSAALRYMPVQVVQAITGQNKSAYEIRLYQFYAAKDKVYDY
+SEILNVDDAKKHKDWWNENGEQALTYLTDDKQLLEQLLNNKSKRKIRTEFPLPFETLFND
+ELDEIREARKKRSEEWQASTTSDDSVYENLLKIASSESKVCDPMSRAIDMKLTGLAFSGG
+GIRSATFNLGILQKLASLDVLEKIDYISTVSGGGYIGTWYTSWIKRSGSFSKVTDQLCPD
+KSSDPFADEVRPIRWLRMFSNYLSPNVGMMSPDAWTSGMTWLRNTLVNQILLLLVLLTVF
+STILDLYKGWEILGLFFKGLEKKDEIPFFWLNTVMLSIGALTAAFAMRSYYKIKRKRKVA
+RATKIWNILNLDIPFLTKVSSVLPYLLIIWTIICAFLVSTFMFNISIDEICRKHEDLYGW
+FIYNISLPGFIALIFVAILGNYHKRYDLIQLGKANVVTEKSSNEANKEAKNETTRTRFVN
+WFTIILIISSAIAAVVLSILLYLFWKNYESILIPIRNFNPKVCSDKVMLLLGLPIVLEIF
+SLAIITRMAILGKMFPDYRREWWGRTGGYINRFVLFWVIICFAVFIMPDLWDSFKAKDAL
+IMLPITGGWAGVVAWGVKIAFASKGDEDPKKTNSIVNIVVKLVPFIFMIGVLLIGSGIIN
+LIRIGNSDFVNRLTTVGLALVTLFLSWRVGVNEFSLHHFYRNRLIRAFMGATRSREDRIK
+TANAFTGFDTNDDILLSSMKVEDGYFGPYPILNTALNATVVSALDRQDRKAESFVFTPLY
+CGYDFSPTRPSTYDVDHVYEYGYRPTNKFSNEKGGPTIGTAMAISGAAVNPNWGYHSSAP
+MAFLLTIFNVRLGWWIGNTRLKRWKDSDPRGGLLYLIHDLTGKSDINMDYVCLSDGGHFD
+NMGLYELIRRRCNHIILGDGEQDQDVACEGLANAIRRCRIDFGVEIVFEDFKDITKLAEE
+GKKKHVIKGEITYPGIKRKGTLIYIKAALTGDEPIDIREYALANPDFPQQSTADQFFDEA
+QFESYRKLGYHSIEHIQELGLT
+>tr|A0A1S1J471|A0A1S1J471_9FLAO
+MKFICECCGEEHESWPAIAYSSPSAYNKLSEQEKEEIAVIDQDFCVIKHEDHINRFIRAV
+WVQQVNDHCEDLEYGFWVSLSEKSFEDYLENGEDENHEAQYFGWLSNYIPDYEFSSSIPT
+TVVTKPGNERPEIFPHQDFNHPFVKDFYNGITKAEAEKRIYRTLNNKA
+>tr|A0A1S1J8L0|A0A1S1J8L0_9FLAO
+MKKYKYSLDTSSKKFICPMCKMKTLVKFIDTETKSYLSDDLGRCDRESSCGYFNVPSNGI
+IIKKERIIDYVETSFHSLQLVESGFLSKKRNNFIQFLMNNFPEKAVNEVVSKYLISTSNR
+WDCSTVFWQIDNYECAHAGKILAYNKETGKRIKNNDGKALIDWVHSVLKRKGIIHDFNLR
+QCLFGLHLINGVNAKVIGLVESEKTAVLMSLFKPEYIWMATGSKGGLKYELLLPIKQYRI
+IAFPDKSEYNDWLIKAKQLNGFNFDIVVNDWLENTNYEDGIDLADVLLLENKNV
+>tr|A0A1S1JBK1|A0A1S1JBK1_9FLAO
+MRKLVMLAVAVLGTVAMVNAQTTPAKSAPVKEAKAPKKEKKADKKAKKEAAAKPEAAKTQ
+K
+>tr|A0A1S1J9P8|A0A1S1J9P8_9FLAO
+MKNKIVINGRFLTQRGTGVQRVATEISKHLQQHYKEDILFVCPNKTFLNPAAESFNCVKT
+GFFSGYLWEQVELPFFLFRNKVSLLINFCNTAPILFKKNLIVIHDMAVKENKNWFNWKFA
+LVYNLLFHFNLRRALKIITVSHFSKKQILKFYPIIEQSKIEVIYLASFFDFNDEKNQNAD
+YFIAVSSLDPRKNIKVILEAFKLLDFNHYKLKIIGGSFNNVFRKDILEYDSSVEFLNEVS
+DSELEKQIRGAKALINASFYEGFGLSALEAMSLSTPCILSDIPVYRELYDGIATFFNPDV
+PAELAQKIEDLIRSQSYNDLCKKSFEASQKFSWEKASQNYISILDDLKNN
+>tr|A0A1S1JCK8|A0A1S1JCK8_9FLAO
+MYGHRKRISLPSLTHTMIKRIFKEKRTKVFNRKVRKGLRKAHKEKGLKARKAESMVQSTM
+NQNGR
+>tr|A0A1S1J3N3|A0A1S1J3N3_9FLAO
+MYGNRKRISLPSLTQSVIKRIFKENRTKVFNRKVRKGLRKARKEKGLKARKAKSMVQSTM
+YKATANIALKGQKQFSLL
+>tr|A0A1S1JA52|A0A1S1JA52_9FLAO
+MVYKIWMSVVKEFLLLKRDLGGLIILFIMPLVLVITVTLIQDSTFKTVSDNKIQILLVDN
+DKGSVSKTVFDNLEKSQLFSVVTQIDHKPITEEIAREAVYKGKFQLAIVIPEKLSVDLQT
+KIDQNVENIVSKMGLTETDTSAQAKKPIVIKEKEVKLYFDPAVQMSFKNAVMSSIDKMIS
+QIETKSIYTTFQNQLGEGNAEFEQKSFITFKEIIPKINNKEVRPNSVQHNVPAWTLFAIF
+FIVIPLSINIVKEKSQGTFVRLLTNPVSNIVVIIGKTITYSVICMIQFYMMVAVAIFLFP
+HIGLPPLNVEGHLFLMSVVALFSGFAAIGFGILLGTVASTQEQSAPFGATSVIILAAIGG
+IWVPVFAMPGIMQLIAKSSPMNWGLEAFYDVLLRNVSFLEIIPKISLLFLFFIITTSIAL
+FYDKKKRTV
+>tr|A0A1S1J224|A0A1S1J224_9FLAO
+MKKKFTFYDLLMKRRLLGLIFLLLFCNENFAQTFCRPISQTNSRAGVCLGTTEVLNPTFA
+YDANTSTYASLTNALGVLCSVQETVKFSQMAKAGDQIVIVYGSNADLLDVGLLSNATIQP
+SNSVNSTSSTALALNSPLLNVNAISGATTGTIKYTLTADSDQVKVEIGGLLSVLTNIRIY
+DVRLEFAKPTITGGATQSVCLGQSIALTATPAAGTTLAWYSSPTSTTALSSVNTFTTPAL
+TTSTTYYIGITRSAGCESDERFPVTINVLDPVLPTISTVGTSICSSGATQATTLSVINPV
+LGTTYSWYSAPTGGVALSTGSTYTPTVPTGVTNFYVEASIGSCVTPTRTLVTVTSTPVPG
+VATILTQSVSILSGQNATLSASTAEAGVTLDWYDVPTGGTKLLGDSNTFTTPILVATKTY
+YVESRTIAGGCVSATRAPVTVTVLANPLGGCLEANSQQTTQNGLCLLCSSSAQNNSVDGN
+STTSSSITLPVGLVNGWIQQTLQFNNPGKTGDFIDVDLELPGGIADLSLLGAVSLATYNG
+ATYNNDRTFINNALVTLQLLSGDKFRATITAGANFDRVEVRLGGLVSALTTLKIYQATHR
+YKLPSFTGNTTICGGQTTTLTANIVAGETIKWYDALTGGTLLASTAAYTTPALTANTTYY
+VEVTRDGCVNSERNPVTVTVNNPIAPATVVASPLNLCSGTSTTVTIDSPVVGTVYKWYDA
+SSGGNLVFTGTVYNTPNLTATTTYYVEASIASCISATRTPVTVNVNSRPSAPVAVSSPVI
+IQSGQDVTLAVVANPGIKHTWYDVPTGGTFLATNVDSFTPSPALTASKTFYVESVDLTSD
+CTSSTRTAIVVTVITGVNNCLLANSQITTKGGTTNCLTCSSSADGNSVDGNNATAATLSI
+PIGLVTDHIQQDLTFPTTGQAGDIIDVELGIPVGLLDISALSNVSLQSFNSGVPNGDFST
+INNLLNVQILSGNRFKASFAAAGTFTSVRVRLNGLATVLSSLEIYEASYRFANAVITGNA
+TPICAGQTASLTASATGGDTFVWYDAPTGGNIVAVNPTAALSATTTFYLEATRGGTCINT
+VRQAVTVTVLPLPTASDINITSPVTASCAGGIVLTPSSPLAGATFKYYLDANKTQEATGT
+IAGVTYSKDLGTGALTISGLTELNAPYTYYVSVLNGGICENASGFLKEVVVNFPTGTALT
+VTPTLSGCAKVSLKDAITNFDTSGNTTYTFFDAGNNPITEQAASNITANGNYFIQAQLNG
+GNCPSVKLPVAVTVNPLPTLTVLTNSVAVTKGSSVALTATSNGTITWYDQQGNVLPSNNT
+GVLNTVGVFAYTVVASNGTCTVSQTITISVIDPAACDTLQERVYANTQSSGTIITGGVTN
+GPLAADNDPSTYSTITTGLGLLGIGTTWQNLQWPTTIAKGTPVTVKLGLENSLLAVAQSI
+SVVGTKRDGSNNPIDIGTLQSVTGSLLNLLPGQNSFEYTFVPSNASGLQDYDGIRVQLGS
+VLSVAQNINVYDTYYKREVAQITCGQGDIEDVFSGVKDLGVGALTATVGVSNPWNIADKD
+IATYATMFNAVGVLAASELTATFRTPSMVGDSLRIVISKPGTVLNLNLLTGFTIQLYSGN
+IPVGGPIANTSSLLTLKLLSGDTMAMTIVAPQTQPYDKVVITYGGVATVLDQLRVHSVDR
+TTNTEVIGADPDNKITVCPGANLTLVVPPKPCADYAWYDSPTGGNLLASGQTYTLPATLA
+AGTYKYYIQPIRYGCPALERGEVTVTVRATVPAATITNVTINGGSATIICSESGTVTLDA
+VLSATPVLTNPVYHWYSFDGTTSQPIPGQVTSKLIVTGLLPGTYTYYVGVSSDEYCETAP
+ADRKQVTFTILPSSLVTDISINNASICHDTPAVLTPSSTLTNPVFSWYLDANKTQPIFSG
+TIGGVTYAISGSGVLTATGLTPAMSPMIYYVAVSSDFTCQNKNGELRLVTVLINDPGTPT
+STTYNQNFCLINNPTVANLQADQTNVVWYSAATGGVALNPTTALTNGTYYGAIRDVNDCE
+SSVRSVVTVIVNDPGTPVITKTTQDFCLVNAPTFASIDVSPAVAANIVWYTALTGGTLIP
+STTALTTGVYYAAIKDPTTLCESNVRLAITINVTDPGTPVITETTQNFCLVNAPTFASIN
+VSPAVAANIVWYTALTGGVLIPSTTALTTGVYYAAIKDPTTLCESNVRLAITINVTDPGT
+PVITKTTQDFCLVNAPTFASIDVSPAVAANIVWYTALTGGTLIPSTTALTTGVYYAAIKD
+PTTLCESNVRLAITINVTDPGTPTLVTAGTQNFCLVNAPTFASVQFNEANIVWYTALTGG
+TVIPSTTALTSGTYFAVIKDPTTLCESAVRLSVTISVTDPGTPTLVTAGTQNFCLVNAPT
+FASVQFNEANIVWYTALTGGTVIPSTTALTSGTYYAVIKDPVTNCESAVRLAVVISVTDP
+GTPTLVTAGTQNFCLVNAPTFASVQFNEANIVWYTALTGGTVIPSTTALTSGTYYAVIKD
+PVTNCESAVRLAVVISVTDPGTPTLVTAGTQNFCLVNAPTFASVQFNEANIVWYTALTGG
+TVIPSTTTLTSGTYYAVIKDPVTNCESAVRLAVVISVTDPGTPTLVTAGTQNFCLVNAPT
+FASVQFNEANIVWYTALTGGTVIPSTTALTSGTYYAVIKDPVTNCESAVRLAVVISVTDP
+GTPTLVTAGTQNFCLVNAPTFASVQFNEANIVWYTALTGGTVIPSTTALTSGTYYAVIKD
+PVTNCESAVRLAVVISVTDPGTPVITETTQNFCLVNAPTFASINVSPAVAANIVWYTALT
+GGTLIPSTTALTTGVYYAAIKDPVTLCESAVRLAITISVTDPGTPVITETTQNFCLVNAP
+TFASINVSPAVAANIVWYTALTGGTLIPSTTALTTGVYYAAIKDPITNCESNVRLAITIS
+VTDPGTPTLVTAGTQNFCLVNAPTFASVQFNQANIVWYTALTGGTVIPSTTALTSGTYYA
+VIKDPITNCESAVRLAVVISVTDPGTPTLVTAGTQNFCLVNAPTFASVQFNEANIVWYTA
+LTGGTVIPSTTALTSGTYYAVIKDPITNCESAVRLAVTISVTDPGTPTLVTAGTQNFCLV
+NAPTFASVQFNEANIVWYIALTGGTVIPSTTALTSGTYYAVIKDPVTNCESAVRLAVTIS
+VTDPGTPVITKTTQNFCLVNAPTFASIDVSPAVAANVVWYTTLTGGALIPSTTALTTGVY
+YAAIKDPTTLCESAVRLAITINVTDPGTPVITKTTQNFCLFNAPTFASIDVSPAVAANIV
+WYTALTGGILIPSTTALTSGTYYAAIKDPVTLCESNVRLAIIIIVTDPEAPIITKTTQDF
+CLIDAPTFATIDVSPAVAANIVWYTALTGGTIIPSTTALTTGIYYAAVIDPVSGCESTER
+LPITINVTDPGTPTLVTAGTQNFCLANAPTFASVQFNQANIVWYTALTGGTVIASTTALT
+SGTYYAVIKDPVTNCESAVRLAVTINVANPGTPTLVTAGTQTFCTVNAPTFASVQFNQAN
+IVWYTALTGGTVIPSTTALTSGTYYAVIKDPVSGCESAVRLTVNVNVIDPGTPTTAAATQ
+VFCSGNNPTVANIQVNGSNIVWYTTATGGTVVAGTTPLVNGDYYAAIKDPVSGCESSVRL
+KVTVTIGISKDPTTTAATQNFCSTSAPTFASIQVNESNVAWFSSATGGTAIPLTTALTSG
+TYYGELTDPVTGCKSANRLQVVITIVTPMATPTTNAATQNFCSVDAPKVSNIQVNESGVI
+WYSTPTGGTAIPATTALATGTYYGVIASSSGCENPIRLAVAVTVNVPLSVTTPRTTQVFC
+LSAAPTVQDIVVNEANIVWYTTASGGTPLAANTPLVAATYYAAAQGNITNGCGAVPRLAV
+IVTFNNDALVPITTTDDTPCVFQGVTYSIANGKSNYVWSVSNGTITSGGGLNDGSVTISW
+SDIGPGKVEVEYINTCNERTTKSLNVIVATCSDLTITNTVSNPKPNFGDQITFTVTVNNI
+GQGNFINTIVSDLLPSGYNLISASATAGTYSLLSQIWTIPTLNAGQSVVLTIVAEVLPGG
+KYLSVATVETSTPLDVDSSNNSASVSVEPICLTVYNEFTPNNDGANDLFRIDCIETYPNN
+ELKVYNRYGSLVYSKQHYENDWDGTANVSGVINRGDMLPTGTYFYVIAIGDGTVKKGWLS
+IMR
+>tr|A0A1S1JBX9|A0A1S1JBX9_9FLAO
+MGTSLFAANAQTIPDNPLVQKWTGPYGGVPAFNEYKVSQFKPAIEFAIQEKLNQIEAIAN
+NPKAPTFDNTIAAMERSGETMDRISTVYGIYRSNLSSPEFSAIDREMSPKFSEFSDKINQ
+NKKLFTRVETLYNSKESKKLTKEQQRLIWLYYTNFVRQGAKLNEADKEKVAAINKELASL
+FTRFSQNLLAEEQNQYVELKTESDFDGLPEEVKKAAIAEAKDRKLNVMGCIANTRSSIEP
+FLTFSTRRDLREKAFDIFVKRGDNGNANDNNSTLVSILELRTKKAKLLGFPTFAHWSLSN
+KMAKDPQKTLDLMLSVWEPAVEKVREDVAEMQKIVDAEGGKFKIQPWDYRYYAEKVRKAK
+YDLDQNEVKPYLQLEKLREGMFWVAGELFNLNFKQITNVPVYHPDVRVWEVSNKLTGKTV
+GLWYFDPYARAGKRSGAWMNAYRNQERMDGEVLTIVSNNCNFVKGAPNEPILISWEDAST
+LFHEFGHALHGLCSNVTYPSLAGTSVARDYVEFPSQLLEHWLATPEVLNKFALHYKTGEP
+LPKALVDRIERAANFGEGFSTVETISSSLIDMKLHLATTTIDPHKFEKETLDALHMPSEI
+VMRHRIPQFGHIFSGDGYSAGYYSYLWADVINADAWEAFTEGKGAYDKAVAKRLYESVFS
+VGNTIDQEKAYENFRGRAPKSDALMRARNFPIKK
+>tr|A0A1S1J9S0|A0A1S1J9S0_9FLAO
+MRMKYVRYFVVLSLFFVFGCSNTKYLPEGDLLYTGGSVTVKDSILKKKERKALENELNDL
+LRPKPNKQFLGLRPKLWFYNIAGEPKKQKGIRYWLRTKVGEPPVLFSKVDLEYNASVLRN
+FTENRGYFKTRVSADSTVSHKRVTAEYTVVPKKQYIIKSVIFPDDSLAMSRIIGRSSRRS
+LLKVGQPYDLDVIKAERERIDARLKEKGYYYFNPDYLLAQVDSSKGDHEVKIRLVIKADT
+PPKALTAYKINKIVVYPNFTISKDSVKYQPKDIIQYKDFTIIDTADSFKPRVFDRAIHFK
+KGDFYNRKDHNLTLNRFVNLGTFSFVKNEFKPSDSLPNALDSYYYLTLLPKKFIRVEVLG
+KTNSASYTGSEININWNNRNLFRGAELFTVSIFGGADFQLSGANNGKNIYKLGTETSLTW
+PRFIVPFFHIEGSSEYVPRTKATVRYEYQNRTQLYALNSFKTSFGYQWKENIRKEHQLNV
+IDVTYVSPNHVTAEYLADIQEDPSLEKIIEKQLIFGPTYTYTYTNTMQKRRKNTFYFSGD
+LDLAGNVTGLVTGANVKDGNQKNIFDVPFSQYVKMRGDLRHYLKLGKESELASRIILGIG
+LPYGNSRALPTAKQFVVGGTNSIRAFRARSLGPGSYLNTQTTNNFLPDQSGDLKLEFSTE
+YRAKLFSIVRGALFVDAGNVWLLNADPNKPGGEITKDFMKDIAVGAGAGLRFDLSFLVLR
+TDLAFPLRKPYLPQGQRWVIDDINFGSGPWRKENLILNIAIGYPF
+>tr|A0A1S1J8V6|A0A1S1J8V6_9FLAO
+MWFIDHFERDYLYEGGPVYHNIPLSFTIEKEVSTEEIYRAFTQLINRHDVLRTKIVREGD
+QIFQVITTPEETDIKKLLKEQLNLKENQEELRKISFDFENGVLVKAYFERLENHIRILFV
+LHHVVADRYSLKILKEDFLSFVSHPEDSLGFTMQYKDFSEWEQAVDPYETESLVAFWRKQ
+LTDNQVLYLPTDSERVPVHIYQTATSSFSFNKDGLQSFAAVNGTSPQMVTLAAYKMALAQ
+FSGLSDIVIGTLMNMRNHLTESTVGPIENLVVLRSVLDRNGTLEDACTVVANTWQTAYSN
+KEIPFDKLVVEINPKKDMSRTALFDVLYLYDRYDAVTEEEGEPFNYKNQGLGKYDLNLLV
+QERENSFDFILTYNDLYFKAETITSFLESIESILTTATEYEDTLRGIAVF
+>tr|A0A1S1J3D5|A0A1S1J3D5_9FLAO
+MDQNYKFKSFSLLLVAGILLLTACSAPKVNDNLAAKTLPKNFDVTSKKAADSGTTFVPLQ
+TATYFKDEKLEQLLDKAMAQNPDYLIMEQRILIANSHLKAAKLALLPSLDFQADASGTRY
+GKYTMEGVGNFDTNLSQNISDRQRIATGTTPNFFLGGKVSWEADIWGKLSNRKKAARDRY
+FASQQGMQLLKTKLLGDIAELYYELVALDKQALIYKRNLDTQQHALDIVSAQRSVGKATE
+LAVQQFNAQNNNILAEAEQLNLKIDQAEKALLTLLGEYGGKIERNTDFSSGYLKVLNQKI
+SVDSIIHKRPDVSEAYFELRATNADAKAARAAFFPTLNLGGYVGMNSFSLSTFFDSGSFA
+WQLLGGITAPIFNKGQIKQEFFTANRRQEISFLQYQNTITTAYNELSALLHRTEAFENVL
+KYKSKEIEHLEIAVNVSNDLYLSGYANYLEIINAQKNKLQAELDFVEIQLKNANAQILLY
+KALGGGM
+>tr|A0A1S1JBW8|A0A1S1JBW8_9FLAO
+MSVLKRINVVRRSVMHRLTKNIGKPRSEQHIVLVDKTEIRRVLICRPNARLGNLLLITPL
+VQEVNDMFPNCKVDLFVKGALALVIFGNYQNINKVIGLPKKPFKSLLEYLNVWISLKTQK
+YDVAINVDQNSSSGRLAVQFSNAKYKFYGDLNDESQLVKKDYEHIAKYPVYNFRNYLTKL
+GLAKSNKIIAPIDLKLSSAEIANGKKILNDLVPDSKRTICIFTYATGAKCLSEEWWENFY
+RQLKEEYKDYNIIEILPVENVSQIAFQAPTFYSKDIREIGSVIANTDLFIGADSGIMHLA
+SAVQTPTIGLFSVSNLKKYEPYDNCSIGIDINLHTKKDYVKIINSILNNGKLNTIGQAI
+>tr|A0A1S1JCC1|A0A1S1JCC1_9FLAO
+MKETAGTGTSNKDWWPNRLNLNILRQHSSLSDPMEKDFNYAEAFKTLDLNAVKKDLFDLM
+KDSQDWWPADYGHYGPLFIRMAWHSAGTYRISDGRGGASSGNQRFAPLNSWPDNGNLDKA
+RFLLWPIKQKYGNKISWADLMILTGNCALESMGFKTFGFAGGREDVWEPEQDVNWGSEIE
+WLATSDKPFSRYTGDRNLENPLAAVQMGLIYVNPEGPDGNPDPLGSGRDIRETFARMAMD
+DAETVALVAGGHTFGKAHGAGDAALVGAEPEGASIEQMGMGWKSSFGSGIGGDAITSGIE
+GAWKPNPTTWDNGFFETLFKYDWKLTKSPAGAHQWTPTDESAATTVEDAHNPAKRHAPMM
+TTADMALKLDPIYAPISRDYFENFDKFADAFARAWYKLTHRDLGPVSRYLGPEVPSEILI
+WQDPIPAAKGELSYNDIAALKDKILSSGLSISELVNTAWASASTFRGSDKRGGANGARIR
+FEPQISWEVNGGGQVKKVLAALEAIQNDFTNSGKSVSIADLIVLGGSAAIEKAASNAGLS
+VDVPFTQGRGDATLEQTDVHSFEVLEPKADGFRNYKSAKTGAITEELLIDKAQLLTLSVP
+EMTVLVGGLRVLNANYDGSKHGVFTANKETLSNDFFINLLDLRTAWKASDETGEVFEGRN
+RTTGEVKWTATRADLIFGSNSELRALAEVYASSDAKGKFVKDFVSAWTKVMNLDRFDVR
+>tr|A0A1S1J0W4|A0A1S1J0W4_9FLAO
+MQGIKAQDLIEPSHSCRTKEVNELQLKNHPGSLKESKAFNFFSKEYAKKLKTNKSSVNTT
+YTIPVVFHVYGTSFNGKTVTLEKIQTALKHLNEDFQGLNDDFNTVEPFFQARRGTLNIEF
+KLAQIDPNGKCTTGVIFERKKDGYGNGSGYDSQIQADAWDNYKYMNVYIQNDLYADGATN
+NSGVCWYPDSWMSDNKLARCVYNGAYLGENTNKEFASVLTHEFGHFLNLIHTFDGGCTGT
+DEVDDTPKEDGKHSLGCVPGTNCDGDKVNIENYMGYNAAQGCSKMFTQGQVARMLAALQH
+AARKTLWSAQNLIDTGVNSIGSSVTTNVTSFKEDIANNGTVTGNAVITLNGTVFSKSSGA
+LTSGVDFSSNLPAGLSAAIVINSSNQATVTISGTATNHNASNTASGGITLLAPALNGGVS
+GMLCDGLSWNFKFRDPYGIFYVDIPDMTVTPTSTWKYFALEKGDDVKYGAWRFAANHLKV
+ETYGKRLVTNTGTNNITPLGFNAAINASSNFTAPGAYPNQLDLRTSSYKAWDGKTDYLGF
+EYTIDGEKCYGWLKAVVAADGSGYSIVEYAYNTQPGGTIYTGITDKVALSVSPASLSESA
+VNNGSISQISSFKLTTNNGTFVKNSGVLTPGVDYTITGVPAGLTAKLNVISTTEVQLAFT
+GNAAVHLKENSTQVAVTFLNPAITGGVAVLSTSVAAVKINFRDPYAIVHVKDLNYTVDAE
+NTWKFFRITADADQQDYGVFVDKGDLKLETYTKSIVCEGNSLNMSLIGANQLIDGNSNFI
+EGGSYPDLHNLRNAGYKSWDGKTGYIGFKFTIADEPCYGWFKVKVNAKGTAYTLLEYAYN
+TEPLAGILTEDIPADLSVHLATTPDEINENAVTNDGSFETKITIQLTTNGGTFIKSSGNL
+VQGTDFTVTGLPAGLTPVITLLNSTTAELSYTGKATANEASNTVTATVTFLNPAITGGAA
+ILDTDYFTTKFIFKNAYKIIYVDLPTPLTVSVTGSKWNPFNITADADHTSYGLFIDGNDL
+KLENYDKDLVCESGINNISYLGYNVTIGAASNWNGTRVPTLRSSTYTVWDGKTGFIGFKY
+TKNGVPYYGYFETVVSADGQSYTISKYAYNTAPTASITTPLQLGVVKMSNNPTTIAEDKL
+TNNGTFTTTVTVQLTTNGGTFTKSSGNLVQGTDFTITGLPSGLTASVSVVNNTTVQVSYQ
+GKAIANEAANATTATITFLDPAITGGSAVLENKSFTTDFTFTNAYVVVKVDLPTPIVVSA
+ASPSGSFRITAEVDGNDTEFKLQYGEEGVKFLTNNGLVSETGTSSISFIGTNQTIGGSNN
+WNSSGDAMISSPAYNNWNGKTGFIGFTFVKNGIPYYGYFEAAVSTDGKSFAVIRYAYSAG
+PQALITTPATVNPFTFPTLGSVDFESKAAFKAYPNPFNDVINISSDSFSGKKVEVLIYNS
+LGQKMFVKSYDANDDTITVDGSNLTNGFYFLKVKVDGVAQPDKKIIK
+>tr|A0A1S1J4T5|A0A1S1J4T5_9FLAO
+MGFAQSNCKTLKGCERKLCELNIKLIAAKKAGNQSQIKGVEEAISKTKKNCTTKTVNKDL
+NKKVQEKQQKVKERTDDLNKAIKDQESKEKIDKKRKKLAEAKADLNKALAEQKTK
+>tr|A0A1S1J0Z9|A0A1S1J0Z9_9FLAO
+MLLIMELESLKLDKFKDRALKREQLFVLNGDGVKSPAGTICDWHGGKLQKFDYGYDSERG
+GRLTFHDRCNVRPCDPVLTKTGEDFDVLP
+>tr|A0A1S1J6G1|A0A1S1J6G1_9FLAO
+MKRILPIFSYIFHPIFISMYATLFYLFFKHDLFSTQEKYYVLLQILIITILVPILFYLLL
+RSTGRVNSIMIHETSQRKIPLILQCFLYILLVKRSIIISRYPELHFFFLGALFSTILALI
+CSLFKIKASLHMMALSGFTIFVIGLNTHLQLQNPYWSAFLILMTGIVASSRLEMEAHSPN
+ELVIGTFIGILPQLLFLNLWL
+>tr|A0A1S1J5C8|A0A1S1J5C8_9FLAO
+MDTVSVEVIELLIILLIMVINANPDNPETIASKEYPIKGLKGMSLKSLISDILFFIAIF
+>tr|A0A1S1J9P1|A0A1S1J9P1_9FLAO
+MNKKTIHFLKKTLRVLLWCMASVITLLLLLIVLIQVPSVQNFVKDKAITYLHKKIKTKVS
+LDHISIKFPKDIVLEGFYFEDQKKDTLLSGKRLELDVDLFKLINSELEINSVSLQNTAVR
+ISRDKKGAFNFDYIIKAFESKEPKVEDPNSKPFKISVVKINLDSVRFDFKDDFSKNDTRV
+KLTHFDTKFREFDLDKMNFNIPDINLSGLKVVLNQDVVEKIVETSVQTIDTVSKRADFNL
+KLGNIRLAKIDIVYDNKDSKLDSGIQLDQLNVAVNKIDLNRQLLDFEAFELKNLKGNLRL
+GAKDKQLQTPDLDTTAIKQAGWKVKLNVIDIQNIAFKFDDMQSKPISKGVDYSHMDLSKV
+NFKAEKLYYGNDTISGSIKTLTLKDKSGLQLQALKTNFFYGPKNAYLNNLYLKTPQTLFQ
+NSIKVGYPSIASVSKDLGNLTLEANLNQSKIGFKDVLLFAPDLQKTNPFKSNPNAVLKVN
+ARLRGQIKDLNIAQFEMSGIGATKVTVSGKIKGMPDAQKADYDLDIRKLSSTSKDIYSFV
+PSGTVPKNIQLPSQLNLQGKFKGSVANFKTKLAFSSSFGNAKVDALFDQRVKKKEKYDAT
+VYLLDFDLGKLIKNDSIGRITLKAKVKGKGLDPKTAQAEFDGLVQKAVFNKYTYKDLAVK
+GNIEKGSFVLNSGMKDPNLHFDLTASGNTEEKYPSIQLKLNLDIADLEKLNLHAGPMKLR
+GNVDADIANSNPDFLNGKVFLSNIQIAQTVEPIVLDSIRLIAFADQNRNNIKVSSQFLNA
+EVDGKYKLTTLTAALKKSLSKYIDLKSPKVKGETDEQRLAFTIKVDNDPILLKLLPELKG
+LEPITLTGKYNNVTDSLQINGSIPRIVYAANTIADGKINIEAKENGLEYNASFGTIESGS
+LKIPFTSLSGKIENNVLDYALEVKDAKEKQQYFIAGDLKHDGSKSSFRIDAQNFILNYDK
+WNMNPENVVEFGDKRLYVNKFNLENSGNELRVQSLGDQDSAPLQIDFVNFKIETIMNIVK
+KDQLLMQGLINGHALVENVMTKPTFTSDIKVDQFAFKGEPVGDITVKVDNKTNNLLAANV
+TLSGEGNDVNLTGNYKIDDGNLDFNLDLNKLNIKSIQGFSMGNLTEGTGFLAGNFKITGN
+AAAPKVNGALEFKETGFRITKFNSYYITADEKITLQDDIITFDTFTFQDENDNELIVNGT
+IKATDYTKFDFGLTVVADNFRAIHSQEKDNDLFYGDLVLDSKLNIKGTLENPVVGGTIKI
+NKDTKFTVVMPQSDPSIADREGIVEFVDEDNQYLKQTVAMEQKLNQSRLVGMDVSVAIAI
+DKEAELTLVIDKGNGDYLNLKGEAELTGGIDPSGKTTLTGKYEFSDGAYEMNFNMIRRKF
+DIQKGSYIIWNGEPTMANLNITAIYKVNTAPIDLLGNQLPTDNPTERNTYKQKIPFQTLL
+KMNGELLKPEITFDIVLPEGNNDVSANVVSLTKAKLQQLRQEPAELNKQVFALLLLNRFI
+GENPFSSESGGTSAESLARQSVSKILSQQLNDLAGELITGVQLEFDLESTDDYTSGSREN
+RTDLNVGVSKKLLNDRLKVTVGSSFAVEGQERANEQSANIAGDVALDYQLTKDGRYMVRA
+YRKNEYQVAVEGQVVETGVAFIITMSYNKFRELFHRSAAEKEMIREEKLRNEKKKLKEKE
+EKQKKENQIEGNEQKT
+>tr|A0A1S1J3R4|A0A1S1J3R4_9FLAO
+MNPSSSKLSVSFSIDKLQKDLEICENDLWTPHFNTGDYSGNWTSVSLRSQSGLINDITSF
+ANQEYKNTELLDRCHYFKEIMDWFQCEKEAVRLLRLGPQSEIKEHTDNDTSYEEGFFRIH
+VPIITNPEVLFYVDKKLVPMKEGECWYANFQLPHSVANKSSEARIHLTLDCVRNDWSDQL
+FAEMGFDIHYTPKKEQYSDEVKQQIIAELSRNPSAAGAQIIADLQS
+>tr|A0A1S1J6V2|A0A1S1J6V2_9FLAO
+MKLNIAVINAEYTNNMGSKTLRLILGDQLNCNHSWFEKTDDSVTYIMMEIRTETDYVTHH
+IQKIAGFFAAMRQFSSFLESKKHQCIYLKINDQDNLQSLEENLFFIIQRDHYTRFEYQLP
+DEYRVDLILKNITSQLSVAFKVYDTEHFFSNRDELGKFFEGKKTFLMESFYRAM
+>tr|A0A1S1J1R0|A0A1S1J1R0_9FLAO
+MSKSKTAFKKYFIEIVCLLFILLFVYAGVSKLIDFENFRAQIGQSPLLSPFANFVSIGVI
+AVEIIISVLLVFPKSKYLALWLSSALMTMFTAYIIIILNFSSFIPCSCGGILEKMEWGEH
+LVFNVAFMVLAMAAVRMWSGDNYVLFKIVGVAAASAGMVAVLFVFSEDIMAKENPFIRRF
+PKASAAKTNMLDLRNYSYYVAGVHGEKIYLGNWKAPLEILETDSNFKKTVKHAIILEREN
+FSYKAVEVRIHYPYFYVMDGTVPVIYRGLVSDWKASVLTEGKFHFSSIVFLDANQFAFRT
+QKPPAGENIMGYGIGYPAPKIKYSDLVFQKQKDGIFDTDGTLQYSDKLKKIVFTYYYRNQ
+YIIAENNLKVKARPHTIDTTVHAKLKVVKLEKSGDIKLGAPPYTVNRNTSVFGKLLFVNS
+MLRGRYEDGRVWKNATVVDVYDIAKRTYVFSFYVYDQKQNVKMGSFFAADSALYAISGHY
+LLKYGYGKRISSRIQ
+>tr|A0A1S1JBN2|A0A1S1JBN2_9FLAO
+MKKILLFITLFYGFSNTLYSQDKNEDGVVSFSLPIRNSLKFNRYLINPAFSFVRETNAYA
+SFYNKRQWVQFENAPNTYLANYSGRFRENEAFAFGLFQQNYGLMTVFGGIGNFAHNIVLE
+QDSNLTFGLNVGVYQSSLNKGKIISNDPNILMGDYPSNTLLTVNPGVNYGTEFLDFGLAV
+NNLILYNFGGGIVKEDPERAIQLHAMYTGYIDSFGFFDRSKFSGIVKTEVKKGKTVISGL
+AMIAIPKGVWAQAGYNTLYGISAGLGFNISPSIAFEYNYEKGMGNFTNMGGSHEFTIAYK
+FKNKNYYYGDDEEGSLIDPAKPKPVMAKPSSATTAERTDGAEKARLAADAKAKADAEALK
+VRLAAAEKVKADAAAAAKAKLEADNKAKADAEALKIKIAADAKAKADAAAATRAQTATAN
+RAVAAEQKTQAQLAADKVRADAEARRIKLAADNKARVDAAAAARANAANANKPAATPQKT
+QAQLAADKAKADAEAMKLKLAADAKAKADAEAAKAKTAAENKPATAPQKTPAQLAADKAK
+ADAEAAAKAKLAADAKAKADAEALKIKLAADAKAKADAAEAKRKADAKAKAEAADLQSIL
+AADAKAKADSDALQARLAAEAKAAAAAAAKTKASIDAANKAKLAADAKAKAAEEAALKEK
+QAVEAKAKADEEARQARIAADAKAKADAEALKAKLAADAKAKADAEALQAKLAADAKAKA
+DAEALQAKLAADAKAKADAEALQAKLAADAKAKADAEALQAKLAADAKAKADAQALQAKL
+AADAKAKADAEALQAKLAADAKAKADAEALQAKLAADAKAKADAEALQAKLAADAKAKAD
+AEALQAKLAADAKAKADAEALQAKLAADAKAKADMEALQAKLLADAKVKADAEATAKAKA
+DAEAKQLQEAEEARLAKLAADAKAKADAEALQAKLAADTKAKADAKAKADAEALQAKLAA
+DAKAKADAETLQAKLAADAKAKADAEALQAKLAADAKAKADAQALQAKLAADAKAKADAQ
+ALQAKLAADAKAKADAEALQAKLAADAKAKADAQALQAKLAADAKAKADAEALQAKLAAD
+AKAKADAEALQAKLAADAKAKADMEAAQAKLLADQKAKADAEATERLKAEEETRQLQLAE
+EARLAKLAADAKAKADAEALQAKLAADALAKAASAPKDDTAKAIDNLSQSIESASKMQKD
+LLSQFNTTVASKQKDLNDLREENDLSEKGIYKEPKPFKSVAAENSQLEALKSQLAEVNKA
+QKDEIAKLTNLYNERLKKFPNKNDALNKAYLEKINELKAAQLKMEQDSATLLSNLERIKA
+ETEIEKKRRIKRAAYENDQGRYAQDVAALKRIRETTKLSSTPLTASDFDFGEDQSNMQII
+KNIKNADGGYYLIIAVHSSVEKRDQFLAKAVAAGRTDVNFFYNVTTSKYYIYYEKFDGLS
+EATKALEAKGTKPYNGKMAIVKVEN
+>tr|A0A1S1JC87|A0A1S1JC87_9FLAO
+MSIKELNKDKLDDFFQYLNIHLSENGQKGTALFQPLSKQQSTLSNEWKAKFEDGMNEKAG
+WRKVWIAINEEEKIAGHIDIRSQNQPNAEHRVLLGMGVDSNFRNLKIGQNLLAFIIDYCK
+ANRQISWIDLQVLTNNIPATKLYKKMNFEELSTTKDMFRIDNISYDYTSMTLNVEN
+>tr|A0A1S1J7F4|A0A1S1J7F4_9FLAO
+MNLKLKILTFFILFNFIPLLKVSANSKIYEKDKLEALSEKIDYLEEKIEYQNEQINSQAG
+MLDTAFDGVSTELGASSNYISVCSIIIAIFSIGLGIYVTKIEKSIKSMVKDSETLMARNI
+EIKNDIESLSNKITRDSRGLYKIIRNEESNHLIDRLIFVPEDITNLFYNLTSRDLEPNHF
+PKLKEAYLQVKNTPEYGDDYQMLLFQHFVGQSFLDEELKNDIIDNVYDLFENSFKNDAIK
+SSKDFFSTISQLDIENYKLELNKFVTGFCKSKFSTEEAIYFEIINSLKSRELKFKIFKII
+DEVSESLIFRKKYGKLILDYNYENLTNAENLVINKIIDLNK
+>tr|A0A1S1JCE4|A0A1S1JCE4_9FLAO
+MYNFTFSKFNFLKQIFFVLFFGLVSLPAFSQVCGTPGGDGPVTVSSSVNTYFPISGNITL
+NAGTQSIVLGGVPPTDQYSNNFGTTAISVGDLILIIQMQDATIDYTNTTSYGSGTSNSGP
+DALGGTGFTSLGNTGVFEYVIATNNVPLTGGNLTFKGTGANGGTLNSFYNADATTTRGKR
+TFQIVRVPQYSNLTLTSSITTPPFNGVAGGVIAFNVSGTFNFAGFSIDGNARGFRGGYSP
+IAVSNLNNSTTYVGLSSNNTISGKGEGIAGTPRYMWDGFNQVDNGVEGMPGGSAGRGAPA
+NAGGGGNDHNSGGGGGGNGGFGGLGGAGWQGGGGDVLPLTGGGRPGFRSYLTATAFPRLV
+MGGGGGAGDANNASTGVKGGVGGAIILINAGTVQGTGNIYANGGKGAPGAFSGSPDGAGG
+GGAGGTVLLNISNSSTATIRIEAAGGAGGNTENDNNNSHGPGGGGGGGIIRHNLTGTVTL
+TTTVVGGSSGRSNAGAGIRNGAVDGTAGSASTFTAQDVPPNLQVNSNCFPVLETKVKALS
+TASACNSIGEKVSYEIQIKNTGVGNAAGVFLDFLFPTGIEFDSATATYSAEATGPSGVLT
+NTATAGNPVFGGFNIAQNGVVTITLTGKVAASMAAGTYSSSAQALYLDPTRTTANPNRRI
+TAFTNAYGTANKTYEGASQANVPGTNFKGSAETVDDITILALPATPTATVTQGNCLTPTG
+TITVNTPAPGAGISYTLRGTNPVTAPVNNTSGVFSGLVPNSYVLTTTNAQGCTSAPTASM
+TINPVAGAPTTTGVSICQGGSGALTATSTCSNSGTIQWYTSSVSLTPIFTGSSFNPVGVA
+GSGLTNTNTPGTTTYYAACPGLGSCRTATNFVINAIPTITATTPASRCDAGSVTLGATAS
+SGTINWYAAATGGTSLATGTSFITPNLSTTTTYYVDATGNGCTTGTRTAVVATINTRPTI
+DSTTQDSRCGAGTLTLNATASAGATINWYAASTGGTSLKTGASYTTPSLSTTTTYYVEAT
+SPEGCTSASRVAVAAVVNTASTIVFTSGTQNPTICNGTAIPSTIYTFGGSATNAVASNLP
+TGLSASVDSNAKTITISGTPTASGTYTITTVGHTAPCTAATINGIVTITTASNAGTLSGN
+QAICVAGTTTFTSNGNTGGSWSSSATGVATVNSSTGVVTGVSAGTATITYTVTGTGGCAN
+ATATRTVTVTAAPNAGTLSGNQTICVAGTTTFTSNGTTGGSWSSSATGVATVDASGVVTG
+VSAGTATITYTVTGTGGCANATATRTVTVTAAPNAGTLSGNQNICVAGTTTFTSNGNTGG
+SWSSNATGVATVDASGVVTGVSAGTATITYTVTGTGGCANATTTRTVTVTAAPNAGTLSG
+TQTICVAGTTTFTSNGTTGGSWSSSDTAIAIVNNSTGAITGVSAGTATITYTVTGTGGCA
+NATATRTVTVTAAPNAGTLAGNQTICVAGTTTFTSNGIIGGSWSSSDIAIATVNSSTGSI
+TGVSAGTATITYTVTGTGGCANATATRTVTVTAAPNAGTLSGNQTICVAGTTTFTSNGTT
+GGSWSSIDTAIATVNNSTGAITGVSAGTATITYTVTGTGGCANATATRTVTVTAAPNAGT
+LSGNQTICVAGTTTFTSNGTTGGSWSSSATGVATVDASGVITGVSAGTATITYTVTGTGG
+CANATATRTVTVTAAPNAGTLSGNQTICVAGTTTFTSNGTTGGSWSSSDTAIATVNNSTG
+AITGVSAGTATITYTVTGTGGCANATATRTVTVTAAPNAGTLSGNQTICVAGTTTFTSNG
+TTGGSWSSSDTAIATVNNSTGAISGVSAGTATITYTVTGTGGCANATSTRTVTVTAAPNA
+GTLSGTQTICVAGTTTFTSNGTTGGSWSSSAAGVATVDASGVVTGVSAGTATITYTVTGT
+GGCANATSTRTVTVTAAPNAGTISGNQTICVAGTTTFTSNGTTGGSWSSSDTAIATVNNS
+TGVITGVSAGTATITYTVTGTGGCANATATRTVTVTAAPNAGTLSGTQTICVAGTTTFTS
+NGTTGGSWSSSDTAIATVNNSTGVITGVSAGTATITYTVTGTGGCANATATRTVTVTAAP
+NAGTLSGTQTICVAGTTTFTSNGNTGGSWSSSATGVATVDASGVVTGVSAGTATITYTVT
+GTGGCANATATRTVTVTAAPNAGTLSGNQTICVAGTTTFTSNGNTGGSWSSSDTAIATVD
+ASGVVTGKATGTATITYTVTGTGGCANATATRTVTVTAAPNAGTLSGNQTICVAGTTTFT
+SNGTTGGSWSSSDTAIATVNNSTGVVTGVSAGTATITYTVTGTGGCANATSTRTVTVTAA
+PNAGTLSGNQTICVAGTTTFTSNGTTGGSWSSNATGVATVDASGVVTGVSAGTATITYTV
+TGTGGCANATATRTVTVTAAPNAGTLSGNQTICVAGTTTFTSNGNTGGSWSSSDTAIATV
+DASGVVTGKATGTATITYTVTGTGGCANATATRTVTMSDTEKPTITCPSNVTAVADVNSC
+AATGVVLGTPVTSDNCSGTVTVTNNAPSSFPIGITTVTWTATDAAGNTQTCTQTVTVNDT
+QKPTITCPSNVTVVADANSCTATGVVLGTPVTSDNCSGTVTVTNDAPSSFPIGITTVTWT
+ATDAAGNTQTCTQTVTVNDTQKPTITCPANVTAVADANSCVATGVVLGTPTTSDNCSGTV
+TVTNDAPSSFPIGTTTVTWTATDAAGNTQTCTQTVTVNDTQKPTITCPANVTAVADANSC
+AATGVVLGTPTTSDNCSGAVTVTNDAPSSFPIGTTTVTWTATDAAGNTQTCTQTVTVNDT
+QKPTITCPANVTAVADANSCAATGVVLGTPTTSDNCSGTVTVTNDAPSSFPIGITTVTWT
+ATDAAGNTQTCTQTVTVNDTQKPTITCPSNVTAVADANSCTATGVVLGTPTTSDNCSGTV
+TVTNNAPSSFPIGTTTVTWTATDAAGNTQTCTQTVTVNDTQKPTITCPANVTAVADANSC
+TATGVVLGTPVTSDNCSGTVTVTNDAPSSFPIGITTVTWTATDAAGNTQTCTQTVTVNDT
+QKPTITCPANVTAVADANSCTATGVVLGTPVTSDNCSGTVTVTNDAPLSFPIGTTTVTWT
+ATDAAGNTQTCTQTVTVNDTQKPTITCPSNVTAIADANSCTATGVVLGTPTTSDNCSGTV
+TVTNDAPSSFPIGITTVTWTATDAAGNTQTCTQTVTVNDTQKPTITCPANVTAVADANSC
+AATGVVLGTPTTSDNCSGTVTVTNNAP
+>tr|A0A1S1J6T2|A0A1S1J6T2_9FLAO
+MRILSLLLLTFFIGTSCSSQKKADMKATEIEYSAVSRGTYKVIVVQNKTVSVTNGRNAQP
+VESKIDDFKWKQIVAEFSKINLKTIPDLKGPTQKRFHDGAALGNLKVTQNQKIYETQGFD
+DGYPPKEIENLVNLLLDFTKK
+>tr|A0A1S1JC09|A0A1S1JC09_9FLAO
+MNLFFPKVCVGCHTLLLSGETILCTRCRHELPLTQYHLNPKNEAVKKFYGRIDIQHASAF
+LHFNKKGVVQELIHNLKYKGHEEIGTFLGNWYAEDLKELSLKIPFDVIIPVPLHPKKLKK
+RGYNQVTTFGTTLSKNLAIPFDPGLLYRKKYSKTQSKKNLLGRSENIENIFDVKFSNENH
+NKHFLIVDDVLTTGATLEACSRALQKIPGAKISIVCMAMANS
+>tr|A0A1S1JBP2|A0A1S1JBP2_9FLAO
+MLITQQKTFIAGAKIALDFEVNTSNRPQLFLIHSLGKTLLDATVKNDKLTFALPKSYAKK
+SGRIDWFLVVNGENKLQGNFEILPNNDTKTDIENYLGPPSTLVGDGHFVMYVTIPTDGFD
+NPKPENTPVIFRSQFLNTITNQTVKTKNLIAWKIIDAPTKSGIVLVSAQCNATITKEFNA
+VIFPGIATNFIISFTRNHQYADGNQITTLKTAVIKDKFGNVVSDGTMVSFVISTANNMVL
+KSFGTTINGVATAQILHPDHQDVYTAKAYVAGIAESNSIAINYEPINPKIEFEFSKDKRT
+IIVGPLRSFINQLVPDGIKVTLKVYHHNQLIATLQEDSVKGHAVFTISSEYYKEKKYSFE
+ISTLGSIQKVEEKNYDSN
+>tr|A0A1S1JC76|A0A1S1JC76_9FLAO
+MINKPALRNHKMFLVFLFLLFGFIANAQVGIGTITPNSSSILDLTSTTQGLLTPRMTTAQ
+RTAITTPADGLIVYDTDLKVFYYYSADSTSWMPLSSGVQGRINFKRIKSTDNLATILADE
+LAAGGGSKYLLNSSTLYEINGNVTFNFPIDLNNAYLQGVDSNQDVIIRSSGNIFEGANGG
+TIKGLTLLAPTGNVFNLNGAATQNLIFRDCIVANSNSVGSISGFGLVFLSIIQFSGNTNG
+ITYNNITQLLLSNLGWFSNNSGTYEKLTGTFTLVEKQGGFSQVNGTAIGFDVSSNPTILG
+DGVLESVVFTGTNTSGYVKSYTAGTYTGYNFTNSWSVRSAGIPTETDASAVADFTMDYPV
+GSGASTSFNTSNPSNIVKVNGNSTSYNLFRFSLDAPTNNNNRLRYMGKKKRIFQVTGSIS
+FQVSAVGTYIIYIAKNGTALTQNKIYGRGVAINDIIVLPLNASVELLTNDYLEVYAQRFT
+GGITDAIIVPNMTLTIK
+>tr|A0A1S1J5D0|A0A1S1J5D0_9FLAO
+MYGNRKRISLPSLTQSVIKRIFKEKRTKVFNRKARKGLRKAHKEKGLKARKAKSMVRSTM
+YKAK
+>tr|A0A1S1J327|A0A1S1J327_9FLAO
+MKKRIIGIISFLITAIGFSQQLGDGYASGIDNYTIPRTSGAYSGLDAIGGIPDLTHKWSH
+LFLIRHANSNNNHQLQLASSFTQNDRLFFRKIAADLNPSNPSWVELATRGTNTFAGNQFF
+NGSIKIQTANGDYNENLRLLPSTTGDFSSIALGAVPGDSGTGIGQWTMIRYPAISNYMFS
+LRYNTKDYFNILNNGNVGIGITNPNTKLAVVDDLQNQVVSSFIGGKNHQNYKYTAISIGE
+SMSAGNSSNIGYMSHQTDKTSSGLYLTNYGDSEHNSSLFIKVGGNVGIGEINPKNKLDVK
+GTIHSQEVKVDMLGWSDFVFKKEYNLPTLTEVEKHIREKGHLENIPSEKEVLENGINLGE
+MNAKLLQKIEELTLYMIDIKKENDQMKADNLELKKRLINLENK
+>tr|A0A1S1J4N9|A0A1S1J4N9_9FLAO
+MITKENILAIAKKTILSESEAITKLIDFLDENFYEAVQRIYETKGRLIVTGIGKSAIIAQ
+KMVATFNSTGTPSMFLHASEAIHGDLGMIQNEDIIICISKSGNSPEIKVLVPLLKRFGNI
+LIGMTGNVTSFLAKGSDYVLDTTVETEACPINLAPTNSTTAQLVMGDALAVCLMEMRDFK
+PEDFAVYHPGGALGKKLLLRVKDMIEHSLKPMVTPDTSIKKAIFEISEKRLGVTAVIEND
+KIIGIITDGDIRRMLNDVDTIADLTAKDIMSKNPKFVSSETMVVDALNILEDFSITQLIV
+ADNGEYKGVLHLHDILKEGIV
+>tr|A0A1S1J7H1|A0A1S1J7H1_9FLAO
+MTLQAQTEYGLLINTDLEPRTEREQTQGSYDIFFLGNSLNLFPNGTYQPISQTDFFYATP
+DPVTKRIDFSCFSMHQDCYIEKNTFIETNGPQYVTFFSGCFASSSILLLHLTNTSSKTSY
+CVNETINFENGFNWQYSYDGQNWANFPSDFQSYPSISFKISELENYNGKTTIHFRTGYQT
+QFTNIVTYGIIGCSPELAEKKPTTTAVECANTATGSATLKFESLLKKDDQFLFNLFRVNP
+VAPDTGFIKSIKASEEETKNKTYTWNGIAAGTYTIKYQAQSTADNGQQVGLSAIVTDPFT
+IDEKVPLTFKTTAVQPACSTDLKGILITASGGTPPYYYLLDGEPLAQKHLFTNPHTIPIT
+EDGPHTIKIVDKFDCTEQ
+>tr|A0A1S1J7Y6|A0A1S1J7Y6_9FLAO
+MLFQKAENTSVTLNPEIFQFIANCYGLLFMDEKETGNVCFAHSLELRPEFKQSFTAIDVL
+DLSYAILHSSLYSEDLKVGKLKIPIPQDVAVFWKLVQIGEELRGKEKE
+>tr|A0A1S1J6V3|A0A1S1J6V3_9FLAO
+MRKSLFAFLCLILVAKISAQNTDFNNVSIGTDGPAYGVKIKANFPNVTGGWARSFSVVNE
+NDSNNYIVFGSFGGVYNGVSTLTYSFIGKDWDKTYLTFLPNGNVGIGTTTPQNKLDVNGT
+IRSKEVKVTLEGWSDFVFKKEYDLPTLAEVEKHIKEKGHLENIPSEKEVLENGISLGEMN
+AKLLQKIEELTLYSIQQSKEIEVLKEENKSFKTLAERLSKIEQKIK
+>tr|A0A1S1J5E0|A0A1S1J5E0_9FLAO
+VNIRNNKDFHDALNVESGCSYLSFGKEYGKVSEEEIAYIKLFTQGKDMTDVQVESALPKI
+GDKLKIEHGELSGLECEVFRVDNQHRISVRLSSLRQNISAIIPLSYLSNPEENVFAKA
+>tr|A0A1S1J2Y2|A0A1S1J2Y2_9FLAO
+MSTTEFLTRLIIALFAGLIIGFERQWHHKETGLKTNMLVATGAAAFVLLSIKVAATAPNI
+DVTRITAQVVMGVGFLGAGVIFREGSNVHGLNSAATIWCSAAIGCIAASGYFIEALICTF
+LVTIVNTVLEPIERWLRNRK
+>tr|A0A1S1J5C4|A0A1S1J5C4_9FLAO
+MKFNFNVNEILDSKDTEYTGINYNESESKDFIIDKTGGEFNLRVFAPLIFEPLVKNDLNL
+PSLRIDAVTVNLNRSKVIRKEGIEGRDSTIKEHITNGDFSISIEGLIANESGDEYPKEKL
+FLLKQFLNAPYALRATHAILNRFGIYELVIDSYSIPSISGTKNIQKFTASATSDETVELI
+IRDNA
+>tr|A0A1S1J5L0|A0A1S1J5L0_9FLAO
+MSFYWVKTNSFIKKVFSKYCWDIPNNEKKIYLTFDDGPTPEITDWVLSELKKFDAKATFF
+CIGKNIKANLSLFEKLIKEGHSIGNHTMNHVNGWKSHTDDYIKNVQNCAAVLEEEKTCNL
+IFRPPYGKIKKAQSKILRKLGYKIIMWDVLSADFDQSITPEKCLENVTKNVKSGSVIVFH
+DSIKASPNLKFALPKTLHFLKENGYTFDIIH
+>tr|A0A1S1IZV8|A0A1S1IZV8_9FLAO
+MRKFLIFIPIIALGCVNTLQEDRLYLKEIKVKNKVIEWFYYSNVASTSADYILLYDSKND
+RSDTIVNSTNIKDVRLTNDTITLYFYGKPKIYDTSIIIKKKMDEFKIIIDTNAISPGPGP
+SRKSYLKKDL
+>tr|A0A1S1J441|A0A1S1J441_9FLAO
+MKTSKYTKFAVILLVIVFLLLSIISCSVHTQSTPSGKIPPGQAKKISGSKSAKAYAPGQQ
+KKQH
+>tr|A0A1S1J578|A0A1S1J578_9FLAO
+MRVTIYKDISDPEHFKQQLLSWSQQFREVIFLDSNSYPQEYSSFDFVLAVDAFTSLKTDF
+HNAFEDLKQYQQTTKDWLFGYLSYDLKNDTENLTSSNFDGLDFPDLFFFQPKKIFTLKGN
+KLEIQYLLLCDDELEEDYEEVVDSKYDAFETVSSIEVKQRISKEAYVEKVNKMLEHIHVG
+DMYEANFCMEFFAETAEINPLEKFQKLNAISLAPFSVFFKNHKQYLLSASPERYLKKVGE
+TLISQPIKGTSKRSSDSVEDEKLKQFLASDAKERAENIMITDLVRNDLSHTAQKGSVEVT
+ELCKIYSFLQVHQMISTITSKIDPQYSPIDVLRTTFPMGSMTGAPKISVMKIIENVEETK
+RGLYSGAVGYFTPEGDFDFNVVIRSILYNQENKYVSFSVGSAITSQSIPEKEYEECLLKA
+KAMHEVLQ
+>tr|A0A1S1J7W6|A0A1S1J7W6_9FLAO
+MINKNFFVAGLAVVLLFSACKTKDLKMNTSKEKTPKENKIVVYQVFTRLFGNKNTTNKPW
+GTIGENGVGKFNDFTDKALHEIKDLGVTHIWYTGVPHHALVGDYKAYGISDDDPEVVKGR
+AGSPYAVKDYYNVNPDLAVNPANRLQEFEALIGRTHKAGLKLIIDIVPNHIARKYEGKSN
+PAGVRDFGADDDVSMEYKRDNNFYYIPNNHFEIPSGDIPLNGEKNVLVDGVFNENPAKWT
+GNGSRKAKPDQNDWYETVKVNYGIRPDGSKDFKELPAGFDQKTYQEHFAFWQDKDVPDSW
+KKFRSIALYWIDKGVDGFRYDMAEMVPYEFWSYMNSAIKMKNPNAFLLAEVYNPKEYRNY
+IRLGKMDYLYDKVETYDKLKDIIRGKSLPDGLSDIQKGMEDIEHNMLHFLDNHDEQRLAS
+PEFAGTPERGKPLMVVSATISTAPTMVYFGQEVGEAANENAGFGTRSRTSIFDYIGVPNH
+QRWMNEGKFDGGQLSDSEKKLRDFYKKLLNFSLKSPALMGSFQEIQSVNRQNNRGYDDLI
+YSYVRWSEDQKLIIVTNFSSEKTSEFDLKVPSDIISKWNLRDGVYDLKDQLYEKSIVQLK
+VNNAEGVVRVKIMPSESFIFELK
+>tr|A0A1S1J0I8|A0A1S1J0I8_9FLAO
+MYIPFENLPGESRVWIYQSNRKFSEEEFSEIETDLKTFVEGWAAHGISLEASYQLKYNRF
+IILAVNQEVQAATGCSIDSSVEFIQSLEKKYNVDLLDKMNVTFKLGEHIAHKPLIDFKKM
+VKDKSVSENTIVFNNLVNNIEEFNESWEVPAADSWHSRFF
+>tr|A0A1S1J5U0|A0A1S1J5U0_9FLAO
+MKLISFKQSLFAFGVLLTLGSCDTDEKLEVKGDGVVLEDNFYRNETEAYSGLVAAYDKLG
+KFAGAMENAPLLFLNSASDDFYAGGGGSDDQPGLQVASNYSVSPANIPPAIWADYYKGVA
+RCNVMLVKLPNVPMDAAKKARFAAEVKALRAYYYFDLVRMFKNIPLILTPLTKNEIPLVM
+QAKPDEVYAQIEKDLNEAIPDLPMTIPAPELGRFSKGAATALLGKVYLYDNKKPQAAVEL
+AKVNGTPGGTSSFGYKLMDTFASLWDHTKKFNSESIFEITYTDKSNADWGNFERGDDEGN
+VAAQLMGIRDYSRTKYGKAALLPDYINGWGFCVVTADLANTMKSDPRFASTIFDAKTARA
+TGDPDKDPNTLITYKDSYQETGYHFIKYAPVNADIKASNPFLNFGINTYVIRLADTYLLE
+AEALGGTGARAQALLDAVRLRAGLTSVPVSIPAILAERRLELAGEGHRWFDLVRTGQAAA
+KLAFKGFQANKNEAFPIPYSEFNNTKMVQNQGYPQ
+>tr|A0A1S1JG76|A0A1S1JG76_9FLAO
+MQGIDKREHRRMEEVFNKYKNSYSNSVIKQEEDNIKICQNMEELDVLYSSFMILLTELQR
+CARNYEQKKIVTRSILHKNLRKLNSEACRNR
+>tr|A0A1S1J0J5|A0A1S1J0J5_9FLAO
+MANYFNTLPLRLQLEQLGVCEFMEQSEFADGISALAGKKVVIVGCGAQGLNQGLNMRDSG
+LDISYALRADAIAEKRASYKNATENGFKVGTYEELIPTADLVCNLTPDKQHTAVVTAIMP
+LMKNGATLSYSHGFNIVEEGMQIRKDITVIMCAPKCPGSEVREEYKRGFGVPTLIAVHPE
+NDPNGFGLDQAKAYAVATGGHKAGVLKSSFVAEVKSDLMGEQTILCGLLQTGSILCFDKM
+VEKGIDKAYASKLIQYGWETITEALKHGGITNMMDRLSNPAKIEAYEIAEELKDIMRPLF
+QKHQDDIISGEFSRTMMIDWANDDVNLLKWRAATGETNFEKTAPQEAPISEQEYFDNGVL
+MIAMVKAGVELAFETMTEAGIIEESAYYESLHELPLIANTIARKKLFEMNRVISDTAEYG
+CYLFDHACKPLLTEFMKTVETNVIGKPFSTSNGVDNATLIAVNKEVRQHPIEEVGAWLRE
+SMTAMKKIG
+>tr|A0A1S1J3P9|A0A1S1J3P9_9FLAO
+MALACVSCETEYIDKVNTIPADVIKVPGYTHIESFTIKDTENNAISAALTEENIVITWSN
+HITLPETVKPEIILGTEATISPATGAEVAFKDGTVYTVTSKAGTTKKYTLKIDFRQKEPL
+TWTSTQEEPLAKGFMAKMTNRGTSDPAIINDLWMSLKDTRVYFVSAADQKTEYTAEIVYL
+GNGETAAPFLEYGVYYFLPENMPLGLYDLRIKNGAYTLQNASVENRFKIEVTEPDYFKTE
+RFGFPTTKRLGETLEVRGGLLNELTAVEIYNTSNTAVTYPLEIVSLSSYKAILKIPAGVP
+VGAYNRMRFKRGTATSNLSYAVTVQ
+>tr|A0A1S1J6A3|A0A1S1J6A3_9FLAO
+MAKESMKAREVKREKTVAKYAEKRKALLEAGDYEGLQRLPKNASPVRLHNRCKLTGRPRG
+YIRQFGISRVTFREMANNGLIPGVKKASW
+>tr|A0A1S1J1C8|A0A1S1J1C8_9FLAO
+MKASVITSALLVLLTLVSCNSTPSLQKYFVENTDNKDFIALDISSSILNVEKAKLSAEQN
+EALKSFDKMNILAFKETSKNQAQFETERSKLKEILKNPKYQELMKVGSGKDGASISYVGA
+DDNIEEFVVFANKKESGFVVVRVLGKNMNPNNIMTLMSVMKQSNINMDQLKPLQQLMKP
+>tr|A0A1S1J779|A0A1S1J779_9FLAO
+MASTSDIRNGLCIKFNHDIFKIVEFLHVKPGKGPAFVRTKLRSLTSGKVLDNTFSAGHKI
+DVIRVETHNYQFLYAEGDEFHFMNTESFEQISLNKNILDAPGLLKEGTSVMVQVNTETDL
+PLSVDMPSSVILEVTYAEPGVKGNTATNATKSATVETGASVNVPLFINEGDKIKIDTASG
+SYMERVKE
+>tr|A0A1S1J7M2|A0A1S1J7M2_9FLAO
+MTKAIYTILIAILLTGCNKDSSESEPITVPTENMYFPPITGTNWETKSIADLKWNQAAVQ
+PLLDYLELKHSKSFIILVNGRIVLENYFNGHSATTNWYWASAGKTLTSTVTGIAQQENLL
+NINNKVSQYLGEGWTSETLPKENLITCKHLLTMTSGLDDSTDDVNPANLVYRADAGTRWA
+YHNVYVKLQDVVAKASGQSWENYFNTKLRDKIGMNGNWVQTDANSVYTSTSRSMARFGLL
+MLNKGKWESNTILNEAYFNEATTTSQNINLGYGYLWWLNGKSSYHLPQSQLTFQGSIIPS
+GPTDMFMALGKNDQKIYVVPGKKMVVIRMGDAADSVNLALSDFDKTLWEKINALYQ
+>tr|A0A1S1J9G2|A0A1S1J9G2_9FLAO
+MLALIEGKYQIDLSKPIDISIPLTNTDENPIAWYIEKPVIEPVVFGDWIGKVSKGKSSTN
+FNNIFFNPHGHGTHTECLGHITNDFFSINQCLKQFFFTAQLITVEPEKMGDDLVITKEHI
+STSLNGTNTSTSPTRTIEALIIRTLPNQISKKSTKYSNTNPPYLSEEAAIFIRESEIQHL
+LIDLPSVDREHDEGKLLAHKAFWNVKDTHNLNSDARLNATITEMIFVSDEIEDGAYILNL
+QIASFENDASPSKPILFKISNLTT
+>tr|A0A1S1JB06|A0A1S1JB06_9FLAO
+MKNNSTFKSAISDISFPESDKIYGKSIHDPILGLIIKDHPSFSDEDCIAVKELNEYRQRY
+ISNYLSTEIGVLSDLEQSVLSSLKEDKSIVSIAEDEPETRNLGQRVADQVADFGGSWTFI
+ISFLIFIIVWIGANVFILVNKGFDPYPFILLNLILSCIAALQAPVIMMSQNRQEEKDRNR
+AKKDYMINLKSELEIRMIHDKIDHLIMHQQQELIEIQKVQIEMMNDILDKIKK
+>tr|A0A1S1JCK2|A0A1S1JCK2_9FLAO
+MKCVIIDDEPLAVELLEDFVQKVDSLELIHTFNNAIDAISFINQNNVDLIFLDIQMPHFS
+GIDFLNTIEKKPLVIFTTAFSDYAVEGFNLGAVDYLVKPIPFHRFLKSVVRAQQVLNPTT
+TVQAISEHTTAPELEQDFMFVRAEYENVKMNFSDILFIEGLKDYVKIYTIDNKFTLTLIS
+LIKLENLLSNKGFSRIHRSYIINIKHVKSIQKNKVLISDKRIPISESYKTSFFERINL
+>tr|A0A1S1J5J6|A0A1S1J5J6_9FLAO
+MKNIIVTGTSRGIGYELALQFANAGHQVLAISRKTPQALLEHQNISCLSVDLSDEAALQE
+VDQFLSSAWKRVDAVVHNAGALLLKPFAETTQSDFESIYKVNVFAVANLTRICLPYLQSG
+SHVVTISSMGGVRGSLKFAGLAAYSSSKGAVITLTELLAEEYKEKGISFNVLALGSVQTE
+MLNEAFPGYQAPISAEGMATYIYDFTLNGNKYFNGKVLEVSSTNP
+>tr|A0A1S1J6B9|A0A1S1J6B9_9FLAO
+MKKIYLVITLLFLALSGYAQKAIISGKVLDTDDKLPLPGAMIQIVGENKYTVTDYNGHFE
+LLSINAGTYQLQVKYIGYTALTKEITVEQGKNNVIDFALKTSGTELNEVVVGDILKGQAK
+ALNQQKNNKNIGNVISSDQMGRFPDANVGDALKRVPGITMQNDQGEARNIIIRGLAPSLN
+SVTLNGDRIPSAEGDNRNVQMDLIPSDMISTIEVNKTLTSDMDADAIGGSVNLITRATPN
+GERISATLAGGYLPIREHASYTAGLVYGNRFLDNKLGAVFSGSYNNVNYGSDNIENEWVK
+DKFGNEYLQASEIRKYDVQRIRRSGSVALDYKFDENNTIFANAIYNWRDDRENRFRTTYD
+DIQPIYNGGQITAFKGRVKRQTKGGSDNNRNKNSRLEDQRVQNYSIRGEHLIHSKLDLDW
+SANYAKAREYRPEERYIEYRQKGLDLTQNLSDIEFPLIATTGESLDKFKFQTATENTNET
+SESEFGAKINIRFPFTIIPSQKGRLRTGLRLRLKEKERNNNFFAYTPINTDMALLSQIPN
+SLYDGQNFNPGSKYVPGSFASANFLGSLDLNNAALFNKKADPSEFLAVNFNAKENIYAAY
+VRWDQDFNDKLSMVLGFRVENTHIDYTGNRVLDEEKLESQINTTNSYTNLLPSISFQYNA
+TKDLVLRAAATTALARPDYYALAPYVNNIAAEKEITAGNPDLDATYSYNYDFMAENYFKS
+VGLISGGVFYKKLENFIYNYSDNQYTAAKFAADFPNQANPIPAGENWSFLQSRNGDTVDV
+YGFEVAFQRQLDFLPGKFLKGFGIYLNYTYTKSKAKGIADEDGNERNNISLPGTTPHMFN
+GSLSWENKRFSARVSTNFTSDYLDELGSESYKDSYYDKQFFLDANASFKITSKLRLFAEA
+NNLTNQPLRYYQGVKTHTKQAEYYQARYNFGLKLDL
+>tr|A0A1S1J4M0|A0A1S1J4M0_9FLAO
+MKLKVTLLLFLNIGFFAFAQENLTYQKPSKSILDLADYEKAPTVSMDTKKENMLLMYRST
+YKTLDDLNQDELRLGGLRINPVTNISSSVTYTTNLKLRKISSKEEVQVSGLPQNPKISNI
+LWSPNDKKILFSHTTSSGVELWFLDVETAKATKLTEATVNANLGNPFSWFLDNETILVKM
+LPKNRKPLLDPKNDLPTGPIISNTAGTKSQNRTFPDMLKNQSDEINFENITTSELYKVNL
+NGNATLFKEAAMYYGERISPDGNFIMLTTIQKPFSYVVPLYRFPSRTIVYDARGKEIKIV
+NEVPLSEIMPKGFMAVRKGKREMAWRNDKPATLSYVVALDEGDPANKVDFRDEVFLWNAP
+FTSDATSLVKVPQRYADITWGNDNVAFLTDQWYDTRNTKTYLINPANPAQQPKVITDRNQ
+QDVYSDPGVFETRKNEYNKYVLAIEKDNAYRIGDGYTKEGQFPFIDEFNLKTLQSKRIYT
+SPYKDKKEDLLEIEDFKSGKVLVQIQSKSEYPNYYFRNIKKQNSLTPITSFKNPFESIKN
+VSKEVIKYKRKDGLELSGTLYLPAGYDKAKKEKLPLLIWAYPAEYKDRNSAGQSTQNSNE
+FTTPYYGSFVYWVTKGYVVLDDAAFPIIGEGTTEPNDNFMPQLVANAEAAIDAVDALGYI
+NRKKVAIGGHSYGAFMTANLLTHSNLFACGIARSGAYNRTLTPFGFQTEQRNYWEVPEVY
+TKMSPFMNADKMKTPLLLVHGEADNNPGTFTLQTERYYQALKGLGATARMVILPKEAHSY
+VAKENILHLLWEQDQFLEKYLKN
+>tr|A0A1S1J6Y0|A0A1S1J6Y0_9FLAO
+MKMEKYILKFSEIGINDINKAGGKNASLGEMYNNFGPHGIRVPNGFAITTTAYKDFIEYN
+HLSFALNELMQLLDKKDFTNLTEIGSKARKLLLDAKFPLDLQTEISNAYSFLCENKELAV
+AVRSSATAEDLANASFAGQHDSLLNIKGTVYYLCNNGQNR
+>tr|A0A1S1J707|A0A1S1J707_9FLAO
+MKSKYVILASALLISVATFAQKDQIKSAEKALKGGDAHGALAILKDAENLIVNAKDVEQA
+QYYFVKGNAYLDLANKKVEEGKNLSLAAETYQKLIDTEKTSGKVKFSTQAAASITEIKGK
+LINAAIADSQASKHVDGAKKLYDAYLLDKKDTINLYYAASTAVNAQDFDLALPMYEELKK
+LNYSGKGTSFTAVNKISGNEDGFNNAKDRDLAVKLGTHEKPKTEAIPSKRGEVYKNLALI
+LVQKGRSEDAKKAIADARKANPEDSSLILTEANLYLESKDYETYKKLVGEALQKDPNNAD
+LVFNLGVISANAKNTVDAEKYYLKAIEINPKYANAYLNLAALKLEAEKPIIDEMNKLGTT
+AKDMKRYDVLKAQRENVFRGVIPYLKKANELDPKNEDVSKTLLGVYKALEMTAEAKALKA
+TM
+>tr|A0A1S1J874|A0A1S1J874_9FLAO
+MKKQIENREDVEFLVHQFYAKIRADNEIGFYFNSMIKDWDAHLEKLTDFWETNLFAVRKY
+NGNPLAVHNEVDSHFEGRITSNEFGIWLNHWFQTLEEHFEGENAETLKRRARKMGTFLFL
+SMFENRKKTAEPSAE
+>tr|A0A1S1JD11|A0A1S1JD11_9FLAO
+MSLFSDNIRALRVKHKISQEKLAENLSITRGRYVKYEDGTSEAPYDILKKIALYFHTSID
+LLLSVDIRKINIENLIKLEGNRLILPIQVDNFGENYIEIVSQRAKAGYLNGYADPEYIES
+LQQVSLPFLGPGKHRGFPVEGDSMPPHEDGSIIIGRYVERLGEVMDGKTYILITKNEGMV
+YKRLNKNKKNSLVLESDNSFYPNYEVKASDILEIWEYECNIGRSDKKQQLSETESMKELL
+LQVKREVMEIKNNTSNA
+>tr|A0A1S1JEV0|A0A1S1JEV0_9FLAO
+MSLRKAYLLIFLVLIVDQLSKIYVKTNFALGDEVVVFDWFRIHFIENEGMAWGTKIPGEY
+GKLILTVFRIFAVFGIGYWLADSVKKRYSNYLIVAIALIFAGAAGNIIDSVFYGVIFDAS
+HGNLATLFSPEPYGTWFHGLVVDMFYFPIWRGTLPAWFPLWGGEEVSFFNAIFNVADVAI
+STGVGILLVFNKRAFPKTA
+>tr|A0A1S1J4F6|A0A1S1J4F6_9FLAO
+MNISIENGRVFVNGKETVNPELIGYAILDAAESSDTLICSYQEIKDLVSKVIETTFEVND
+TIDQVIKSIGKTNAA
+>tr|A0A1S1J653|A0A1S1J653_9FLAO
+MKKKLCSFIVLLCSFSYSQTFDGNLGTKSLNWSQTQKDFNSAPRAGVEPMSIRLWDNYEG
+AGAPSSWGSLLEINGRGGHLDSQLYFDNTWNGGRILYRSAFFQQNTWESWRYLLDSKSDV
+ESSGNLKIGGSGTSYVLGKLGIGTDQPNSLTLLDVNGKVMVRSNLYVNDIMGGNGGDIKI
+GPNTGGAASTIFMIGGADATEVMRIDYSKNVGIGTKNPDSKLTVAGDIHAREVKVTVNAG
+RFPDYVFANDYKLKSLREVEKYIKLNNHLPEIPSAQEIEKNGLMLAEMNLSLLKKIEELT
+LHAIEQQKNVDYLIKIVEEQNYRLNVLEKK
+>tr|A0A1S1J795|A0A1S1J795_9FLAO
+MLYSAFIFGLISSLHCIGMCGPIAMMLPVDRQNEAKKVTQIITYHLGRLTAYATIGLIFG
+LLGRGFFLAGLQQKMSIFIGLAMIVVVLIPEKAFSKYNFSKPVYKIISRVKSSLGNQFKD
+RSYKSLFTIGLLNGFLPCGMVYVALFGAIAMQSASLGVLYMLLFGLGTVPLMTVVVYVNS
+LIKLPFRNKIQKAIPYVAVIIGVLFILRGLGLGIPYVSPSNMSLFVQSTPNCH
+>tr|A0A1S1J7M8|A0A1S1J7M8_9FLAO
+MKNKTYWIFAILTLSAITIAYGYTKLIVPKQKLTAMNCDEVPNTTEKSLFKPTIENKNKP
+VGKAPEGMVWIPGGEFSMGSNVEDESLCSIKGVTKDAAPIHRVYVDGFYMDKTEVTNDQF
+EAFVKATGYITLAEIKPTHEEYPDAPLENLVAGSAVFTPTPAQVDLNNYMQWWTYVHGAD
+WRHPEGAGSSIKGKGNYPVVQISYDDAAAYAKWAGKRLPTEAEWEFAARGGKSGQLYAWG
+NTLKPKGKFQANIYQGHFPLEKGDTGEDGYIGIAPTAKFAPNPYGLYDIGGNVWEWTNDW
+YTADYYEIISKNRQVVKNPQGPDSSYDPSEPGLPKKVQRGGSFLCTDQYCTRYMVGTRGK
+GDYKSPANHIGFRCVQ
+>tr|A0A1S1J9D1|A0A1S1J9D1_9FLAO
+MGNKFITVVLIFFSISLHSQNLKILKDSVYVDSGFLIIEELKINSSNEKVNHKVYAITQN
+TYEVFDKSFVGKPEDRIRMKKDTLSKRILNNTLRESNSGFEHYEIYYDKNKIVSFSIGIQ
+SYGSPWEAIQYYCFDLNNGKRVGVDLFVDKPGLLKKIRKKLKDQDINLPLKPSDLLNFRI
+IIDKSKSVPDFYFSIFDTKNYRNSGYEEFSVHFQWREIESYIVPVFKKRLLTK
+>tr|A0A1S1J9L3|A0A1S1J9L3_9FLAO
+MDVLIKIKDREGVIHELQAPTDMAMNIMELCKAYELPVEGTCGGMAMCASCQCYVLNDVA
+LPEMGDEEEAMLSEAFYVKSNSRLGCQIPITEELEGLELELAPEY
+>tr|A0A1S1JBK6|A0A1S1JBK6_9FLAO
+MSLEYFIAKRLITAKDFKSSISAPIIKIAISAIAIGMIMMIVSVATGIGLQKKIRDKVSA
+FNGQIIISNYDNNNSDVTLIPISKKQEFYPEFKSVPEVNHIQAVASKAGIIRTENSFEGI
+IFKGVGADYDWKNIEEYLVEGKLPDFSATLNEDVLISKFLADRLHLKVGDNFNTFFIKEE
+QGKMPNSRRFRIAGVFSSGFQDFDATYILGDIRHIQRINKWSPNQIGAFEVFINDFDAIK
+TTGEKIYDQTSSNLDTKTIIEKYSYIFDWLQLFDFNIIVILGVMILVATINMVVALLVLI
+LERTQMIGILKALGANNWMVRKVFLYNAFYLIVRGLFWGNLIGIALLLIQQQFGVIRLNP
+ENYYVNQAPVYFNIWHIILLNLLTVGVCFVVLLIPSYIITKISPVKAIRFE
+>tr|A0A1S1JCL0|A0A1S1JCL0_9FLAO
+MNWILLVIAGLFEVAFASCLGKAKETTGMVSTYWMIGFFVCLSISMFLLYKATQVLPIGT
+AYAVWTGIGAVGTVLVGILIFKEPATFWRIFFLSTLIASIIGLKFVSSH
+>tr|A0A1S1JA73|A0A1S1JA73_9FLAO
+MVKIGNIELPEFPLLLAPMEDVSDPPFRRLCKTHGADLMYSEFISSEGLIRDAIKSRMKL
+DIFDYERPVGIQIFGGDEEAMALSSKIVSAVKPDLVDINFGCPVKKVVCKGAGAGVLKDV
+DLMVRLTKAVIRSTDLPVTVKTRLGWDDSSINIDEVAERLQDIGVQALTIHARTRAQMYK
+GHSDWSHIARVKNNPRITMPIFGNGDIDSPEKALKYKNEYGIDGIMIGRAAIGYPWIFNE
+IKHYFNTGEHLPSPTVIDRVEAARNHLQWSMDWKGERLGIVEMRRHYTNYFKGIHSFKEY
+KQKLVTTDEPENLFAVMKEIEQVYAGYEFV
+>tr|A0A1S1J4W2|A0A1S1J4W2_9FLAO
+MATQNKNLSEYDKNTIPNAKDFRFGIVVSEWNETVTEGLYNGAFDALTDCEVPAHQIIRW
+NVPGSFELVYGAKKMLQTQNVDAVIVIGCVIQGETKHFDFVCEGVTQGIKDLNVQTDIPV
+IFCVLTDNNMQQSIDRSGGIHGNKGTEAAIAAIKMAYIRQQASMSHPFNQPLLSSGALQI
+EDKPRKIENE
+>tr|A0A1S1JBL3|A0A1S1JBL3_9FLAO
+MSFILNIETATKNCSVSIAKNGETIICREIAEEGYSHAEKLHVFIEEVIAEAGVATEDLV
+AVAVSQGPGSYTGLRIGVSAAKGLCFALNIPLIAVDTLQTLASQAKVSEGKIIPMLDARR
+MEVYSEVFTADLKVERTIQAEIITEDSFKGYTETVYFVGDCAEKCKTVLTQSNFVFLEEI
+KYPSAAAMSKISYDKYQKSDTVDVAYFEPYYLKDFMMAPPSKKA
+>tr|A0A1S1JCF4|A0A1S1JCF4_9FLAO
+MSAEAHGHDHGHDHEHEHHHKDTFITKYIFSIDHKMIAKQYLLTGIVMGVIGIAMSLLFR
+MQLAWPEESFKIFNVLLGDKFAPDGVMANDIYLALVTIHGTIMVFFVLTAGLSGTFSNLL
+IPLQIGARDMASGFMNMISYWLFFLSAVVMLCSLFVEAGPASAGWTIYPPLSALPQAIPG
+SGTGMTLWLVSMAIFIASSLMGSLNYIVTVINLRTKGMSMTRLPLTIWTFFVTAIIGVIS
+FPVLLSAALLLIFDRSFGTSFFLSDIYIAGEVLHYQGGSPVLFEHLFWFLGHPEVYIVIL
+PAMGLVSEIMATNSRKPIFGYRAMIMSVLAIAFLSTIVWGHHMFISGMNPFLGSVFTFTT
+LLIAIPSAVKAFNWITTLWKGNLQFNPAMLFSIGMVSTFITGGLTGIILGDSTLDINVHD
+TYFVIAHFHLVMGISALYGMFAGIYHWFPKMYGRMLNKNLGYIHFWVTAVCAYGVFFPMH
+FIGLAGLPRRYYTNTNFPLFDDLQNVNVLITTFALVGGAFQLVFLYNFFVSIFYGKKAVQ
+NPWKSTTLEWTTPVEHIHGNWPGEIPHVYRWPYDYSNPNHDVDFVPQNVPMKEGEEVLHH
+>tr|A0A1S1J565|A0A1S1J565_9FLAO
+MYEKTFPNKRFKLTLEFLQKHVKTSETIFDFGVPNPFSKIMEENGYTVKNTKGEDLDNDQ
+TALQTEEYSVFTAFEIFEHLLNPYTILQNVKCDKLLISIPLRLWFSSAYRSKTDMWDRHY
+HEFEDWQLDWLLEKTGWKITDRQKFTHPVKKFGFRPLLRYFTPRYYIVVAEKIKA
+>tr|A0A1S1J424|A0A1S1J424_9FLAO
+MKNFIITLVLAFVSHTFYAQGAFDKYDGQDDVTSVIVNKKMFDLMSKVKADTSDKETQQY
+INLIKKLDYLKVFTTKNPKIEADMKASADKYVKTAGLEELMRVNDGGKNVRILIKSGSSD
+TQVKELLMYIDGAKGSETVLLSLIGNFDLNEISVLTDKMQLPGGSDLKKASKGKK
+>tr|A0A1S1J914|A0A1S1J914_9FLAO
+MGATVTTANNDEKTWGGGHEIQPLGASYGKMMMWFFIVSDALTFSGFLAAYGFSRFKFIE
+TWPLADEVFTHFPFMHGVAAPMYYVALMTFILIFSSVTMVLAVDAGHQLKKTKVAIYMFL
+TIIGGLIFVGSQAWEWKNFIKGEYGAVETAGGSLLQFVDKDGKRVALADFAVKLPEQREA
+LTRSHSTWFMEDAQAQPTYTVAEIQAGFKAHPEVLIRTEHLTDKKKKTVLSREESEARLA
+SAKYVVEGANLIRNEYGNKLFADFFFFITGFHGFHVFSGVIINIIIFFNVLLGTYEKRRS
+YEMVEKVGLYWHFVDLVWVFVFTVFYLV
+>tr|A0A1S1J9N1|A0A1S1J9N1_9FLAO
+MQNVITDLSRFMQFNEAESMAFKNILRLKKIKKNEHLLVEGEVCNFGVFIAEGCIRYYYS
+LDGVESTGNFFFENDWYSDFESFLYGKPSLLNIEALEDCVLYLAYKHDFEKLVAEYPVFN
+SFLRIMMERTIKGLTGRNMAMSLLSHEERYLRFLKYCPKVVERVSLKYIASYLGIQPESL
+SRIRTRITLNSKS
+>tr|A0A1S1J9P0|A0A1S1J9P0_9FLAO
+MQNYLYLFAGTIVVFFVSRRWLSEGIIRLSQKIYWDIRKDVIKLILKAPYRKLQEYKEEV
+YTTLATDVNHISNASLMIITFFSSIILILACLVYMAFLSLKLFAVSLAVIALGVCIYTLR
+AKTSNRQIKEVRELEKVFIGIFNSILNGAKEININSDKGTQIYDQKVMKIATTGEDKYVT
+ALLKYLNSEIISQLLFYSLITFILVFAGPVFQTPIAIKISFIFVLLYLMGPIVSVMSIIP
+VMNRALVSLKKMEKLKKELTELEKLKEVDDKEEYKDFSNLKIRNYAFSFGENQFSVGPIN
+FDIKRNEIVFVYGGNGEGKTTFINTVLNLYDLDNGEAYIDGELVPLKELEKIKNLFAPVF
+SDFYLFDEFYGITNVDYDKINKYLKLFELEGKVHIKDGYFSTTHLSTGQRKRIALINTLL
+EDRPIIVLDEWAADQDPHFRHKFYTEIIATLVRDEDKTIIAITHDDKYYNTADTLLKMEY
+GKLEKTNISELAEIF
+>tr|A0A1S1J7U6|A0A1S1J7U6_9FLAO
+MKKVFLFIGLSLLFFKSNAQSQNTTDDWSLIQKTLNLYIDGQATGDSVKVGQAFHSSWQL
+KGFREKEFVVVPKSKYLVGYKKRDVKPDNWSGRIVSIDFTNNAASAKVEISTAKLLFVDY
+FNLLKTDQGWFIVDKISTRTPHKMVEAEVKPKG
+>tr|A0A1S1JCI4|A0A1S1JCI4_9FLAO
+MKYSAISVLSLFLFLSVFLFSCSDNDSPAPVYEAGTNEYVNEWMYQQMKKYYRWNSTMPE
+KGRLDLSPKEYFAGLLQKDDRYSYAVHPEQPETAQQSLRRKFGFEVSFFEFESKFYGVIL
+YVLEDSPAKRNGLKRGQLITKIEGTTLNQNNYDALYTKMTASTQLNLQTVSYAVQSGFSN
+VKEISILQGYSFSQPINYTIIEAKSKKVGYVEISHFDAGQAQAYLQTFQELKNKSITELV
+VDLRYNGGGDIAAATALSIILAPNIQSNTLFIKFEGNTNGGNVDQSFKQALESNESKISF
+DALRNAHPSINRVYILCGQHTASASELIINNLKPYMEVITIGNKTFGKDVAGFPLIDDRI
+STKKGWTLYPAIYKLFNSRHEGNYSKGIDPLISLDEIQQPEVFPLGNSSEVLLAKALNSI
+NGNTAKNSLATAKTFPLSANEADADFLMTIH
+>tr|A0A1S1J0Z0|A0A1S1J0Z0_9FLAO
+MQYQVEKSMKEKIENLEQSKNIQEFLLAIKRKSDNLINYFLVAFFIIGLLLAFCFDTWEI
+AIGVGGILLIAYYSSKLALPESDFYQYVLSTVLGIFMCQFIYQMHGMFEMHFTAFVASAI
+LITYQNWKLQIPLTLVVIIHHAVFGYLQYSGVSGIYFTQLDYMTLRTFVIHILLATTIFG
+LCGLWAYQFKNYSEAHINQTFKKREIENQELKTANYELDRFVYSTSHDLRAPLNSMLGLI
+EIAKDDTAEELMIGHLEMLKENAEKLDNFICDILDYSRNSRMEIEKQKINFRELIKEVTQ
+NLKFMGDTNRRVDFKVDIIGNASVYSDKNRLTTILNNLISNSIRYQNFKVSNPFVNIKID
+ISNVETNIVVEDNGIGIQQDLHPKIFDMFYRVSRESVGSGLGLYIVKEAIYKLNGDIKVQ
+SEIGHGTTFTIKIPNK
+>tr|A0A1S1J354|A0A1S1J354_9FLAO
+MIQKLFSYIVPIKIFKKKSQRSKIIEVTWANGELVLDSENTNYSYGSLQRILRYGLRNIG
+YDAILKMDHILLLGVAGGSVVKTLVDEIQYKGRITGVEIDPEMIKIANEYFNLNEIKQLE
+VVIDDAFEFVLKTKNKYNLIIIDIFEDIKMPNFLFERFFSERICSLLQNHGFVLFNTMIL
+DEAHNVRNQKYISEIDPKLFASKMLPRVEAHNELIIIEKVV
+>tr|A0A1S1J6P7|A0A1S1J6P7_9FLAO
+MKTKLCLLLFTVLFISNNSYSQSKKIDINGVWEDINPGVQNAVAIVSEQNGKVIFSHYLE
+WKGQKFVENGIGKRTGNTIVYTVEVTLPIEGWANQGTHTLILSEDGNTLEGTFIDNKKRT
+GPISFKRVR
+>tr|A0A1S1JC12|A0A1S1JC12_9FLAO
+MLQIAFIRENQEKVIKALAKRNIDAKSVVEEVVQLDENRRATQVELDNTLSESNKLSKDI
+GELMKAGEKSKAAILKEKTVSLKEKSKELGEKAEALAAELTNKLYTLPNLPADIVPEGKT
+PDDNLNVFQEGDIPVLHEGAQPHWELVKKYDIIDFELGVKITGAGFPVYKGKGARLQRAL
+INYFLDKNTAAGYNEVQVPHLVNEASGYGTGQLPDKEGQMYHSTVDDLYLIPTAEVPVTN
+LFRDVILNESDLPVLHTAYTPCFRREAGSYGAHVRGLNRLHQFDKVEIVRVEHPDKSYEA
+LDGMVEHIKDILKELKLPYRVLRLCGGDMGFTSSLTYDFEVFSTAQDRWLEISSVSNFET
+FQANRLKLRFKDKDGKNQLAHTLNGSSLALPRVLAGILENYQTPEGIVVPEVLRPYCGFD
+IIN
+>tr|A0A1S1J1S6|A0A1S1J1S6_9FLAO
+MKINFLIVLATFFIFDYSKAQGCSDAGICSIGGAFHENDDKKNNHIEFGTVLGKGDVDVK
+YLSGYIAYTRSFNEKWSGNVKVTSQYANGSFGGRGSVGDAFLTANYTPVTTNLYKWSFTS
+GIKVPFNQSNLKINDHPLPMDYQSSLGTFDFLGSVNLNYKNWDFNSAIQLPVININKNSY
+FSEYSGTDDFVTTNLFERKPDVLLRGTYTINTANRKFSFKPNLLFIYHLGEDTYEDIYGQ
+RQMIKGSDGLTINGNLIAGYHFSSGSSIEASVATPFVVREVRPDGLTRAWTAGVSYKVRF
+>tr|A0A1S1J2W1|A0A1S1J2W1_9FLAO
+MRYLSLIFLFLVSYQIEAQELFVVTEPASNAPAGSIGVRVGQSLMEKKLESGSMYNLTPE
+VTWGINKNLMVRTSAFLSNQDNGLGLKGGGFYAKYRFFSADDLQSHFRMAAFGRYSYNNS
+YFNQEVIDLANGNSGYEAGLVATQLLHKVAISSSVSYVRALNNPDYSFPDMLGKNAINYT
+FSVGKLMHPKKYTSYKQTNINAMLEFTGQTITENGRSYLDVVPSIQFIINSQARIDLAYK
+KELYSSMQRMATDGVFLKLEYTFFNVTK
+>tr|A0A1S1J9H4|A0A1S1J9H4_9FLAO
+MNLETYYEYCLSKKGVSEHFPFDEDTLVFKVGGKMFALSSLSQWEKNEPSVNLKCDPERA
+QELRAEYEEIKPGFHMSKVHWNTIALNGSLPTAFLKELIDHSYELVFKSLTKKIQNEIIE
+LEN
+>tr|A0A1S1JAQ5|A0A1S1JAQ5_9FLAO
+MPDQDLFYLLALLKVDGVGDIMAKKLLNYFGSAEAVFKSKGSQITAIDGVGSVLLRSFKD
+KSVFEKANQEMEFLKSSGVKVSFFKEDDYPEHLKHCIDSPVLIFSSGNINLGNKRIISIV
+GTRQITSYGTEFCRNLIEELAPLDPVIVSGFAYGVDIVAHQRAMDFNLQTIGVLAHGLNQ
+IYPKSHKKFIVPMEENGGFITEFWSTSNPDKENFVRRNRIVAGMTEATIVIESAEKGGSL
+ITANLSNDYNRDVFAVPGRVTDKYSQGCNNLIKTQRANVLTSAADLVYMLNWNVETKAKP
+VQKQLFIQLETEEQKVYDFLLKNGKELLDIIALQCDFPIYKISGILLNMELKGVIRPLPG
+KLFEAV
+>tr|A0A1S1J2F6|A0A1S1J2F6_9FLAO
+MEQLNPLAEFFRSIEKDQRISITHIGIFAALLQFRANKGNINPIKAYRHEIMKIAKITGP
+VTYHRCIKDLNEYGYIDYVPKKNRNQKSIIYFLV
+>tr|A0A1S1J663|A0A1S1J663_9FLAO
+MEKKSLQLLFIAFLFLAQNSFAQELYMPRNIKESYTNGVRSMDGKPGKNYWQNHGKYDMA
+LTVDANTKIVSGTETIVYENNSNDTLRNLRIRFVNNIHKKTSPRAVLNSEGFFTEGLTIT
+NLKIEGEVYKEDAKSWGTVGSVKMKKPLPPHSKITIDIDWNYPLSEVSGREGQIDNTTFF
+VAYSYPRVSVFDDYNKWDNLPHTSGQEFYNDFNDYTYSVKAPKNYVVYGTGDLLNPDEVL
+QPEFAARLKKSYVTDEILHIANEQEMKSGLVTKQSDWNVWKFEAKNITDVCFGLSDHYLW
+DAGSVIVDKKTKRRASIQAAYDVKGTDFENSIKYNQYALDFFSHNWPGVPYPYSKMTAFQ
+GFADMEYPMMCNDSQMGDPVFAQLVQDHEVAHTYFPFYMGINETRYAFMDEGWATTFEYL
+IGIAEHGKEAADKFYKEFRVEQYINDPSTEEDQPIITMSSQLSDSGYGNNSYGKASLSYL
+ALKDLLGDDLFKKALHAYMDNWNGKHPVPWDYFNSINTASGKNLNWFFDNWFFTNNYLDL
+SVKKVAKNVISVANVGGFAIPFDAIVTYADNTTETVHSTPAVWQANQKLAAVTVKSSKPI
+KKVVLDGGIFMDATPADNTWSGK
+>tr|A0A1S1JCS6|A0A1S1JCS6_9FLAO
+MKKLIIAAFLFVGIASFAQEADQTVQPQRERLTPEQRNDRQLKKLTSELNLDANQQTQIK
+QLLADRSANAEKFREDRKNRKDNGTKPTTEEKAAFKKQIMDEKTANDTKMKSILNADQYK
+KWTALQDEKKEKAKEKVREYKKANN
+>tr|A0A1S1J5K1|A0A1S1J5K1_9FLAO
+MKRVPFALLKSTLVLTLLLGFISCGTDREDDSGNQNQGEVLKESYTIDRFKVLNIDLKLN
+SNSKLTWSIKDSVISESLQLDFISPYAKNYPLTLKVETNGVVKTFQSIINVTKETGNYSK
+YISNVLEFRPGVGQFTNELPLYAPGNTESNLINAAKKSLVGSNASMISLGGFGGYVVFGF
+DHTIPNMNGRDFKVLGNAFWANDTNETRSGSCEPGIILVAYDKNKNGKPDEDEWYEIAGS
+EYFKSTTVKNYSVTYFKPDPNKPAVAGPDFWQTDVQYIKWEDSQGNSGYKTKNGFHEQSY
+YPLWISEASYTLKGTRIKDNFYDQNGNGNYWVGTGFDFGYADNAPNSDEGSNIDISWAVD
+KNGKYVKLPGIDFVKIHTAINQEAGWLGEVSTDVAGAYDLYLK
+>tr|A0A1S1J0H0|A0A1S1J0H0_9FLAO
+MLEKIQKLDTELLVYLNGLGSETYDKLWLIITSQLNWTPLFLLFFYLMYKKIGGKQTLYV
+ILFIAVLITFTDQVTNLVKYTVQRLRPCNNPDINTIIRVVQTRKSFSFFSGHAANTMAVA
+TFLYFVLRRRIKFLGFIFLWPLIFAYSRIYLGLHYPGDILTGYFFGALFGSLLYLVYRRL
+KPQYFPG
+>tr|A0A1S1J4F8|A0A1S1J4F8_9FLAO
+MKELDLLKKDWKKNSDSFEQISEKEIYKMIHKKSSSIVKWILIISILEVLFWTISNYFSN
+VDADLKKMNHPEIILVMDILLYFNYIVIFVFIYFFYKNYKTITTTVSTKLLMSSILKTRK
+TVQYYVWYNLGMLVVSSILSFFIGYVYNPDMAIIREKLALNGKAMLFSIGALVLLVLVLF
+GIFWGIYRLLYGTLLRRLYANYKELKKIDF
+>tr|A0A1S1J261|A0A1S1J261_9FLAO
+MKKIALFIVLIISVTSCISTKSTLKNVDDNAPDLVLKKDNTFSITLFSNDKKYGYDPDYP
+VNLFFQNTRNEALNETRFLNALAGPNGEKITYTRLETCCPFPTKRSDMGAGFLNVYELKW
+DGQKKPVKLYLNVYEKGILMVPMGLRLKSN
+>tr|A0A1S1J3P5|A0A1S1J3P5_9FLAO
+MENAILKFEKLLKDNSAYFPSLKSEILEAKNPGKWSKKEVIGHLVDSGIHNLVRFTEINY
+LEKPYYHRPYNQMDLVNLNQYQTMDINDLTQLWFSINRQIVRIMKNVDEKALNYEIILSD
+ASVIDLKFLMTDYVEHLEHHINQIRS
+>tr|A0A1S1J6M5|A0A1S1J6M5_9FLAO
+MRKDLTHIKLDVNREKLDQLAHNSEPVTHNFTTAEGIELKKRYSEKDLEDLEFLDFGAGF
+APNLRGPYATMYVRRPWTIRQYAGFSTAEESNAFYRRNLAAGQKGLSIAFDLPTHRGYDS
+DHERVVGDVGKAGVAIDSVEDMKILFDQIPLDEMSVSMTMNGAVLPIMAFYIVAAEEQGV
+PIGKLSGTIQNDILKEFMVRNTYIYPPTPSMKIIADIFEFTSQKMPKFNSISISGYHMQE
+AGATADIELAYTLADGLEYIRTGLSTGMSIDDFAPRLSFFWAIGMNHFMEIAKMRAGRMI
+WAKLVQQFNPKSDKSLALRTHCQTSGWSLTEQDPFNNVARTCIEATAAAFGGTQSLHTNA
+LDEAIALPTDFSARIARNTQIFLQEETKITKTVDPWGGSYYVESLTDEILKSTWKLIEEV
+EELGGMTKAIEAGIPKLRIEEAAARKQARIDSGQDIIVGVNQYRLEKEDPLHILDVDNQM
+VRKQQVDQLQKIKETRDTEKVNQSLEKLIHCAKTGEGNLLAIAIEAARNRATLGEISDAL
+ESVFGRFKAQIKSFSGVYSAAIKNDENFEKAKQLADAFAKQEGRRPRIMIAKMGQDGHDR
+GAKVVATGYADVGFDVDIGPLFQTPAEAAKQAVENDVHILGVSSLAAGHKTLVPQVIEEL
+KKHGREDIMVIVGGVIPAQDYQFLFDAGAVAVFGPGTKISEAAIKILEILID
+>tr|A0A1S1J7P4|A0A1S1J7P4_9FLAO
+MNLAQKLGYPENTKLLIIHADDAGLSHSENQATIKTLQNGFVNSYSIMVPCPWFFEMANF
+AKDNPQYDCGIHLTLTCEWENYKFGPVLPLSEVSSLTDQNGHFYKNRTDFKNNAKLPEIR
+KELTAQIEKALQFGIQPTHLDSHMCSIGVTPEILEIYKELGKQYNLPVFINKQFVESISL
+SNEKYNFEDTLLADHLLIGYFSDFDKGELRKSYSKALDNALPGLNVFLLHPAFDDFEMQG
+ITLNHPNFGSAWRQIDFDFFTSEECGTKLKENNIQLVTWREIGSIG
+>tr|A0A1S1J909|A0A1S1J909_9FLAO
+MSFSERRNTTRWIIITISFLIISLILWNTYTFFQIFKNEERLKMNLWANAQKTLVNADEN
+TDLDLPLEIINNNTSVPVMLTMYDKVISSVNVPEEVLQNNESTLSYLKNLKNENEPIVIE
+YAPGKHQELYYGNSALINKLKYYPIALLLIIFLFGALIYNFYRSTKMATQNKLWAGMAKE
+TAHQIGTPLSSLIGWVEILKTEDIDSSITFEIEKDIERLQTITDRFSKIGSVPVLEERDI
+VTETLNTYQYLQSRFSKQVTFSYRAPQQSIQAMINPTLHSWTIENLVKNAIDAMKGKGTL
+DLQIEEDAHHVKINVKDSGTGISKKQFKTIFEPGFTTKKRGWGLGLSLTKRIVEEYHGGK
+IKVLQSEIGKGTTFQISLNKKVQ
+>tr|A0A1S1J926|A0A1S1J926_9FLAO
+MKRILVPTDFSEHAEDALKVASQIAKKNNSEIIILHMLELPSQMNDAVLGGASIPETMLF
+MKKANEMLDQVSSRPYLDGIPITEIVKIDKPIHGITQVSKEYEIDLIVMGSHGSSGIEEL
+LIGSNTEKVVRNSEIPVLVIKKDTTNFNASTIVFASDFSEEAKKPFKKFLKFTKAFDSKI
+HLVTICTPNSFKPTHELQKTIDAFVTEFNLTHYSAHIYNDTNIEKGIINFSNSINADIIG
+MCTHGRTGFAHFFNGSISEGLVNHAIRPVLTFKI
+>tr|A0A1S1J966|A0A1S1J966_9FLAO
+MEKEVHEQYEYARRRIRQKKVLYFHFVLFILGSLFLFIANRFFGLGATSGQDWCIWAITI
+WLFIFILHFIKVYITDRFMNKKWEREQIDRLVALQQKRISQLESKVSEDSENKI
+>tr|A0A1S1JCC5|A0A1S1JCC5_9FLAO
+MKHLNKLLVAVMMVMGLSSHAQDSNNPWAISFGVNAVDTRTSSGSGSGFFDQHFSQPFAV
+KDNWNILPSLSYIGVSRYVGDGFSVGLQGSVNKIDKLVTFAPGAAGHDSRGNVVTNPGDL
+MYYGIDATIKYSFQELIKSKVIDPSLSVGGGYTFFGDSSFGTVNPGAGLTFWFTDAIGLE
+LGTRYKWLVSPNEAKTADRSHFQHTAGLVFKFGGKDTDGDGIYDKDDACPDVAGLKQFNG
+CPDTDGDGIVDASDACPDVFGLAALNGCPDTDGDGIADKDDACPDVAGLAALKGCPDTDG
+DGIADKDDKCPTVAGPRENGGCPFLDADKDGVADKDDDCPTVAGPASNRGCPEVTTEALE
+DLKVQARAVYFNSGKATFKTGDKETPARLDAIKEILKNYPNAKFSIEGHTDSTGSAKIND
+KLSQERADAVKNALIERGVNAENLESKGFGSSQPVASNKTAAGKAQNRRTEIKHIGSKYQ
+GKI
+>tr|A0A1S1JEW8|A0A1S1JEW8_9FLAO
+MKNYTKYLLSLFLAFVVIVNDGVLVSPSKSADYYQSSFVILRAELDFSNSRLYKFIPSAS
+RVRTQFSVVLKYLDLRDVFSLQIRGALNLQLFLFQKVSSFIKQSVFVNEMMASGNFRGSL
+DII
+>tr|A0A1S1J050|A0A1S1J050_9FLAO
+MNSYLIKIDTFINSLDQETLAALNNISTTRTLKKGEFLLRQDEICSKSYFIEEGIVRKYY
+LDDGKEITTELYFKDDIAVSFNSYCLQTTSNEFIQAVTDITVSQTDFKGFQNAKKQFPKL
+TELDLMLTEYYAIWLEDRLFQFRTLDATTRYLKLIKEHSHIIKNIQLTHIASYLGISLET
+LSRIRSKI
+>tr|A0A1S1J5K6|A0A1S1J5K6_9FLAO
+MNYQIKKASLEDLNETAELFDLYRVFYRQKSDVEAGKAFLKERLLHNESDIFLAIADGKA
+VGFVQLYKIFSSTKMQRLWLLNDLFVHPDYRGKGFSVALIDRSKKWCEETNACGLMLETE
+KTNDIGNQLYPRCGFEYDGQHNYYYWWK
+>tr|A0A1S1J959|A0A1S1J959_9FLAO
+MEIIIEKLIKGIQSHPIIQNSTLSGVTDWKRAHYIILSEIISDVLEKSEFMQGSKRNELG
+CSISSMTLQRIFTNDSSKTKNSDLRFLKSLDKLAIFIGYPSLNHFLNDEATDAVKTLEFE
+NKMESGVFFEKLISDYCQEEFNSLQKLPVVSMDGLCDFVFKEGPFAKRIKDLFENYSTLK
+YHLNCEDNRSNFELYDFKISSIEENIAILTVKEFWNLEWKNENDVTTIVLNKVNRQTYFI
+KKRNDVWKIWDNYNPDYNEISTKIHSAIESQHIKKVLI
+>tr|A0A1S1J1S2|A0A1S1J1S2_9FLAO
+MVNFTFFITRFFVRRSALKEGFLISFTSLDFDAFIRKSNRFSPDTFIKNLFFTLMHSLQQ
+QELKWRSGCYREINSIAVTNNQNY
+>tr|A0A1S1J8N0|A0A1S1J8N0_9FLAO
+MLVKVYGSAVFGVEATTITVEVHMDNGIGYHLVGLPDNAIKESSYRIAAALKNNGLNFPG
+KKITINMAPADLRKEGSAYDLTLAMGILVASDQVKAPEIEKYIIMGELSLDGSLQPIRGA
+LPIAIKAKEEGYKGFFLPIQNVKEAAIVTGLDVYGVQNLQDVIDFFNGKGTLEPTSIDTR
+AEFYKSLDFPEFDFSDVRGQESIKRCMEIAAAGGHNIILIGPPGAGKTMLAKRVPSILPP
+MTLREALETTKIHSVAGKLKEVGLMNQRPFRSPHHTISNVALVGGGSYPQPGEISMAHNG
+VLFLDELPEFKRDVLEVMRQPLEDREVTISRAKFTVTYPSSFMLVASMNPSPSGFFNDPS
+MPNTSSPHEMQRYMSKISGPLLDRIDIHIEVTPVPFEKLADDRKAESSVEIRKRVTAARE
+IQTRRFETIENVHYNAQMSSKLIREFCILDDPSKELLKTAMERLNLSARAYDRILKVART
+ISDLDHSQNIISSHIAEAIQYRSLDRDGWLG
+>tr|A0A1S1J808|A0A1S1J808_9FLAO
+MKIQDIQAIQLLLATPKKIAIIPHRGPDGDAMGSTLGLYHFLLKNNHQPTVIAPNDFPNF
+LAWLPGSETVKIFEKDTENCTKILEEAELIFTLDFNAFHRTGEMEHTLAKLTAPFIMIDH
+HQKPDDYALYTYSDTSFGSTCEMVYNFISFLGKKEDLDKTIATCIYTGILTDSGSFRFPG
+TTGNTHRIIAELIDLGVENTQIPVLLFDNSSYSRLQLLGRALQNMKVLEEHKTSYTSLTQ
+DELDAFNYVKGDTEGIVNYGLSIKGIVFTAIFIENKDEKIIKISFRSQGGFDVNQFARDH
+FNGGGHSNAAGGKSETSMEETLKKFEDLVNKLEI
+>tr|A0A1S1J6B4|A0A1S1J6B4_9FLAO
+MKNNMFKFVLFLLIIPGFMMANVSLPNIFGDNMVLQRNAEVKIWGWANPQEEIRLVADWS
+NIEYKVKANNLAQWELKIKTPEAGGPYVISIKGYNEILLKNILIGEVWICSGQSNMEMSS
+SWGIDNGEEETKNAANPNIRFFNVPKLTATTQQNNLLGNWTESTPETMKYFSAVGYFFAK
+RLREELKNVPIGLISSNWGGTPAEVWIPEEVVQTDPVLLENARKLNEHEYGPRQPGRAYN
+AMIYPFVGYKIAGTIWYQGESNVGSLVYDKTLSALITSWRKAWSDDFPFYYAQIAPFKTG
+SNNFHNVIIRNSQRKLLKEVSNTGMIVTSDISDVKEIHPKDKKTVGVRLANLALENTYKI
+TVGLVNGPLFKSFKIDKEIVTLSFDYADGLYFKNKLSNQFEVAGADGIFYTAEALIRNDQ
+VVVSSKKVKNPVKVRFAWGNTIQSDLFNEVNLPASCFNTE
+>tr|A0A1S1J7W4|A0A1S1J7W4_9FLAO
+MNNENNKNDQTKTKILNALAWVAAALIALFSAYIFYIMAQRGYESKVWLPIAQKHFPVVV
+GLPMAAITSLFIVLVLEYVSGKIEFEIPGVKFKGAAGQIIFWIICFLTIVSSIKLLWDLE
+>tr|A0A1S1J950|A0A1S1J950_9FLAO
+MNLMNHLYGLIVRAVKDRDRIFKWSGSLKPDTKNSFKILFLGSLLFFNYKSEGKTNNCDF
+LADKYYIFVRQIMVRLFVHK
+>tr|A0A1S1JDF8|A0A1S1JDF8_9FLAO
+MLLRFLHLSILLLFSLPCFSQTTYPKITGYFGILHPLVTLNKDETAVNFRDYYAVGFPTG
+INIWKNEKIGFSFEVVPNIKDDQGTSKVTNLLFHPGVLVALGHGYTFAGRAAFESSGRYG
+ITPVLNKTIIKSTNCSYFAAIPLPIRFGNNHPASFTVGFQFGIAF
+>tr|A0A1S1J4B3|A0A1S1J4B3_9FLAO
+MKTKLFIPGLLIAVALLTFSCTNDDYETPKTQSSQSKKLHEKLDPKANNMVNGTTNSDID
+LLNTEGDPEITRPTRKD
+>tr|A0A1S1J627|A0A1S1J627_9FLAO
+MKKKLFFIVLLICFKNFAQNNPKIAFQKSRYELALDYYEKADYKKAIDLFYIASKIKPDN
+TIGQESIKKVDTLRTVLREHLLKQAIGTWKMVGDKPVWAASQNNAASQKDFEELIEIKDD
+EIFSYEKNKKTQEKKLIKSEKLVYYNKEKSDALFSDIILSDGTVWNCTINGNELHVINVG
+KKGDEGIEKITDNNTERFYIKVE
+>tr|A0A1S1J7Z5|A0A1S1J7Z5_9FLAO
+MLNSIIKFLILNDFYKRLLHVVKKVSVAFDKVFSAILSFRPKGEIFASNSTKIGNILIAA
+ICEDFSLVEMRNYLYKTKKPKQKFRFFYWSLEFLY
+>tr|A0A1S1J8S6|A0A1S1J8S6_9FLAO
+MNAIIKFMKRNYKILIAVLCLSLTLFAFKINADKSVDPDPNRDKTLLELLAFVIEKGHYS
+PAEINDEFSKGIFKDYIEALDPSKRFFLQSDIDEFKQYELQLDDQFLNKDLTFFNLTYTR
+LMKRMEESKKRYKTILAQPFNYDIDETFNADYDKLPYAKNTAEINERWRKQIKLSTLSSL
+VTKQKLEEDKKKTDPNYKEKTFETLEKETRESSLKSLDDNFSLIKDLNKEDWFSVYVNSI
+MTRFDPHTSYFAPEDKDRFDVNISGKLEGIGARLTKKNDFTQIDELISGGPAWKGKQLEA
+GDLILKVAQGNEEPVDVVGMRLDDVVKKIKGHKGTEVKLTVKKVDGTIKIISIIRDVVEI
+EETYAKSSIVERNGLKYGVIYLPKFYIDFENKDGRDAGKDIALEVERLKKEDINGIVLDV
+RDDGGGSLSTVVDIAGLFIEEGPIVQVKSAGKKKEVLYDKDKKVEWDGPLVIMVNSFSAS
+ASEILAAAIQDYKRGVIIGSKQTYGKGTVQNVLDLNQFVRNANYGDLGALKITGQKFYRI
+NGGSTQLEGVHSDVVMPDRYAYLKMGERDIDNAMPWDKIDPADYSTWHSNTNFTKAIESS
+KNRIAQNAQFKLIEDNAKWIDVKNKENTYSLNIKNFKATQEQVETEGKKYKPISDYKNNL
+VFKSLPYEELEMKSDATLKEKREAWHQALSKDVYVEEALNVLDDLQVKGVVRNSATTKIK
+RDKLVKS
+>tr|A0A1S1JA91|A0A1S1JA91_9FLAO
+MKTKLLLLLFLLNFSLYAQTTKIPDLNFEKFLINEKYDSGVPDGQVLTANISSIKTLNLT
+GLNINDLTGIGDFKALTQLICSFNNLTSIDVSGNTSLITLNCFSNKLTSLNISKNTALTN
+LNCATNLITSLDLTANLALSTLNCYDNKLKNLNIAKNLSLKEINCSANDFTNGLVLSNNT
+ALTFINCNFSNLTTLDVSANLYLQSLNCQGNSLKTLDVSKNTNLTFLDCSSNNLTTINLK
+NGNNTRLTTTSTFKRNPNLTCIQVDNASYSNTNWANLKDATPNYAVSCDDQKYTLIPDAD
+FERQLIYLGYDKDGVNGKVLTSAISNVKTLKITYTAINIKDITGIQDFTALESLAYGGNT
+FKLSSIDLSKNVNLKTLDLTSNSLTTLDLSKNVNLENLTLGSNQLTKLDLSDNTKLKTLV
+LNNNLLESLTITNNKDLTLLNCYNNKFTTGIDLSQNTLLTSLDLGFNKITSSNFDNNTLL
+KTLRLSGNKLTSLNLSKNTALESLDCYNNVLTNLDLSANVNLKTVVCRDNQLTNINITKN
+TLLQTLECGSNKLKELNTSENKELTYLSCLSNSLQNYNPSKNLKLTVLDLGYNRLNNLDV
+SQNTLLKNLRCDVNSLNAIDVSKNLNLEALSVSNNSIESIDLTANLNLQSFYIERNKLTS
+LDLSKNKLLTSVNVTNNLLYDLNLKNGNNKNFTQYTKFNNNLSLSCIVVDDVTYANQNWA
+TYKDSWANFSTDCRAYTTIPDANFENKLIALKIDTDGVNGKVLTQSIASVKSLDVSGSSI
+ANLTGIQDFAALETLNCKNNQLTYLDFTKNPNLTSLDCSNNKLVSLDLNNEKNTLLNKST
+SLFNNNPDLKCIQVDDESYSNTNWANLKDATASYNKFCNSFTAIPDANFEGKLIALGIDT
+DGKNGKVLSSSITSVTTLNVSNSNISNLKGIEGFTALKELNISSNLLVEINLTKNLKLTT
+LNCNSNKILSLNLSANTELTQIQSSSNNLYSLNLKNGKNTNLTNMTLGNFTNNPSLTCIE
+VDDINYSATNWANAKDANANYSVTCTSVAFTIIPDANFEKKLIALKIDTDGVNGAVLTSS
+INTLKDLNVSDSNGSPVNPIQDLTGIQDFVALEQLNFSYNYISKVDLSKNTALKTLYCNK
+NRLTELDLSKNTSLRLIYCFENQLTSLDFSNNTAITEIICGNNALRNLNVTKNASLNLLN
+CDHNQLTTLDLSGNKNLSYLQCQVNNLTSLDFSNNLYLVQLTCNNNQLKKLDMSKQVSLQ
+HFICNSNQLTELDLTKNKDLYAFNCQSNQLSSIDISTNSKVGFLNVSDNKLTYLNIKNGN
+NTKLNTTGYSILDFRKNPDLTCIQVDDVTYSNTNWSTLKDDTATYNTSCGAILTLPIDNF
+TVESKSESCLNENNGEINITAKSTQNYTAVINSKNYDFTNNSLKVSGLAPGTYTVSITVA
+GRTFEQNFTITIAKATTVSGKSVVTDKKVNVEIIEGTAPFTVFVNGTEQFQTNDASFSVD
+VTKNALVEVVTAKACEGAFAKNVSVSDFESQILSAYPNPTSGSFEIEIPGAKNEVQVELY
+NFSGQLISTKTLVIESGKIKLNLENQPSGIYAIKVYLDTPEYIKIIKK
+>tr|A0A1S1JB28|A0A1S1JB28_9FLAO
+MREQISICKKAVFALLFLPVVLSGQVNNTNTTDNVTRYYYDDQVVSVQIWYGADKNPDST
+KTYYPNGKLNEVFYFDEKGLKDSDCFQYNQEGEKLVTWNFSHGKLVSRTDHKLPFSKDKE
+ESVKKALKLLTEINTKTNYNPTKVNDLYNRGVLSVSLGNITLALEDLKKVEYSIDKDPKN
+KSIVLADSLEQKKDLFRSKLYDRLAFVYASLEMDSFAIQYYHKAIKSAPDDLRILYNFAS
+LLQRRKIYDLACFYLEKIAAVKPDHAYARWSLAKLYSDTGNYEKAMENVAKAFAAEKTSM
+GRSSAYGGRDLRTIRGLIYHKLGESNKGIADLKAALETDKNNSYAMKNLGIIYFEQHKYK
+KACELFQKAKELNYALIYDETDLSAWLESTCNNTQYENANTKKPYAFPNPATSVISIKDL
+NAENFDYEFFNFELVSVLKGKSTDGKIDVSTLSSGFYVLKVTTADSTASFRVIKE
+>tr|A0A1S1J4A1|A0A1S1J4A1_9FLAO
+MAEWTERAELLFTKEGLQNLQNSNVLVVGLGGVGSFAAEFLARAGVGSMTIVDGDVVDIT
+NINRQLPALHSTVGQSKITIVGDRLMDINPELKLTRVQEFLSPERAFEMVSSEFDYVLDC
+IDSITPKLNLIIAAKRKRVKIISSMGAGGKMLASKVKVTDISKTINCYFSKTIRKRLKAE
+KINKLKVVFSSEIQDEKSLKLTDGKNFKKSFYGTNSYMPGLFGLHVAETVIRHLLKKE
+>tr|A0A1S1J8X3|A0A1S1J8X3_9FLAO
+MITNPLKDINKKIRNKIWTSFGFVSKTYLLEASLKYSEEQERIFNEMIVETESKNKKAKS
+EAYDKALYASYKGIGVMDFINTILK
+>tr|A0A1S1J9Z7|A0A1S1J9Z7_9FLAO
+MESAFIIEKSVVIVVVFAITMIMAMYSTWAERKVAAFLQDRVGPNRAGWGGLLQPLADGM
+KLFSKEEFFPNTPNKFLFIVGPGIAMSTALMTSAVIPWGDKLHVFGRDVYLQATDINIAL
+LYIFGVLSVGVYGIMIGGWASNNKFSLMGAVRAASQMVSYEVAMGLSMIALLMMTGTLSL
+KEISLQQQGMNWNVFYQPLSFLIFLICSFAETNRTPFDLAECENELIGGYHTEYSSMKMG
+FYLFAEYASMFISATIISVLFFGGYNYPGMQWMVDNVGVNAGNILGIVVLFAKICFFIFF
+YMWVRWTIPRFRYDQLMNLGWRILIPLSIINIMITGAVILRHDIAAALGF
+>tr|A0A1S1JC44|A0A1S1JC44_9FLAO
+MKRTLLSKILFFPFNFLLEIKNVFGSSKLYFKAFFTFIFLISINNLNAQCNSGATAGTVS
+SNNNKLCVGVTEGFWSAGGWDSGTWSSSNPSVLEVISTSKGNATVKALAPGVANVIYTLT
+QPNCSTVKTSQKQITVYEALGTTGEITGFTPQCPGNTGQVYSIPPVANATKYDWKLPSGW
+VITAGANTNSITVTTSSTAGNLKVEVSNDCRTNEAKYLYVNITNGKSAKPTITASGPTTF
+CQGGSVVLTSSIEDNYLWSNGETTRSITVTTSGNYSVITKKNDYVCPSNASNSIAVNVQA
+GLTFTSQPQDLIACEGQSGTFSVTASASNATYQWQYSANGSTNWTNTNGVQGVSGHNTAT
+LNLTNLPLSYSDYYVRCVARSSTTCPANTNTNSTTAKLTVNPSLKITSQSTATQTKCLND
+AFTPLTVTATASGTLTYQWFSNTAATTTNGTALGASNGARTSSYTPQSTTSGTLYYYAVV
+TSSCGTATTAISEAMITKQANIAPTVGTITQPTCTTPSGSVVLQNIPSSGKLVESRGTVY
+NYTTSGSTYEISGLAPGTYKFAIDDNCTRVYSSDIVILPGNVWNGTKWSGGTPSLNDPIQ
+FTGNYTAETDLNGCSCTIDNGATVTIKSGATLTIANNIDVNSGSLVFENSSSLIQKSNAK
+NTGSISYIRTSPPIFQKDYLYWSTPVTPQKLVDVSPSTPANFYYGNDGTQWVRTNRESNM
+IVGKGYIIRGPSNYTNTNKQEFTATFKGIPNNGDIEGEPLTAMKSHLIGNPYPSALSADM
+LLKENPMLNGTLYFWTHNTPAKPVASNQYSADDYASYNLSGGVSAKSDKQHNNDPAKDKG
+TKPTGNIAAGQAFFVTTNAAGKVKFNNSMRLGGSNNGQFFRPGNTSKVAALEKHRIWLNM
+TNATGAFKQLLVSYIEGATNDFETNYDGLTFDGNQYLDFYTTDQKNKYVIQGRALPFTDT
+DLVPLGYRTTVAGDFTVAIDEVDGNMSNQAIYIEDKTTGTVHDLTQSNYTFKTEAGTFTE
+RLTLRYKPGKTLGTGDFENIENGIHISTGNKTIQISSSKENIKQVVVFDITGKQLYSKNK
+LNSASFQIENLPSANQVLLVKVTLANDFTVTRKVLLQ
+>tr|A0A1S1J122|A0A1S1J122_9FLAO
+MKKVFLLLLMVSISSFSQEIALLKYSGGGDWYANPTSLPNLIKFCNANINTRIKAKPSTV
+EPSNPDLLSYPFVHMTGHGNVVFSDADVSNLRNYLNGGGFLHIDDNYGMDQYIRKEIKKI
+FPNNNLIEIPANHPIFQKPFPFPNGLPKIHEHDGTRAQAFGIFVENKLVLLYTYECDLGD
+GWEDPEVHNDPAPVRDKALKMGANIINYIFTN
+>tr|A0A1S1J2S4|A0A1S1J2S4_9FLAO
+MEHINFLAFAMPAFFLFLFLEYKLAQRRKRPEIFNYESSVSNISIGIAERLINLFVAASF
+YQLYYLIYDNYRFFDISNSVFVWIALILATDFVWYWYHRLGHEVNFFWAAHIVHHHSEEF
+NFTAAARITTFQAVIRTGFWCVLPLIGFHPSMVITMLIVHGAYSFFTHTQLVGRIKWLEY
+VFVTPSVHGVHHASDEKYLDKNYGDMFTFWDRLFGTFQEEEEKPKYGLTHPLKSYSFLWQ
+HFHYYFEIYELWKRATGFKEKWKAVFGSPAHMDQDIRPTLEKRFLQDKANPHQRLRFKNY
+LYIQLGVSTILLTVFTYCFEGLNVSDKIFVLLLILVTLVNCGALLEQRRWIYYLEYLRIF
+MVTTYFLYEENLLSFFFIPLAIMIFAEQLFSLSKHYQEVVLQLEVSE
+>tr|A0A1S1J7X0|A0A1S1J7X0_9FLAO
+MESDKKLLIKLAHTKMPFGKYEGYFLIDLPEYYVVWYQNKGFPKGELGQQLQLIYELKLN
+GLEELIRNIKKQYPKPIK
+>tr|A0A1S1J8M6|A0A1S1J8M6_9FLAO
+MKILDKYLLKTFLITFTTVFVILFFIFILQTVWLFISELAGKDLDLILVVKFLLFSMPRI
+IPLVLPLSVLLASIMTFGNLAENYEFAAMKSSGISLQRAMRGLIVFIFVLSIVAFWFANN
+VIPYAEYKFINFRKNIAQAKPAMAIAEGQFNDVGFYNIKVNKKSGENGNILTGVTIHEKP
+TNTGENKTVIKARDGELMSNEKSSILKLVLNDGYYYQDVTPKKYEDRAKLPFIKSAFKKQ
+IINIDLSELNKTDDDKENISNTNGMLNINELRYTLDSLNKNLDNEIISFSENINQRVGIT
+KSVVPVKTTIKKKNLPNDLLSRYTNKEKADVIRMASSNVTSNIYSIESTQNDLKEKQRDI
+NQHLTALYEKFVIAFACFLMFFIGAPLGAIIRKGGLGLPIVFAVLIFITFHFINTFGKRL
+SQEGAMNPFLGAWMSSFILLPLAVLLTYRATNDNGLINFDAITTPISQLFQKISERFFPA
+QNQK
+>tr|A0A1S1JCH3|A0A1S1JCH3_9FLAO
+MRKLENSELDRKSIEDFKKSDKTPLILVLDDIRSLHNIGSVFRTADAFLIEKIILCGITA
+TPPNKEIHKTALGATETVAWEHHENVLEVIENLKKENVLTLAIEQVESSIFLQDFKTEKN
+QKYALVFGNEVYGVAQEAVALCDGCIEIPQLGTKHSLNIAVSAGIVVWDLFQKLNWPK
+>tr|A0A1S1JBG2|A0A1S1JBG2_9FLAO
+MDKLINDFSFGLFFWQALILLVLILLLVKFAWKPIMESITAREEGIKDALLSAENAKREM
+ENLQADNQRILNEARAERDAMLKEAREMKEKMIADSKNEAQEAGQKMIEQAKAAIESEKN
+AAMAELKSQVSTLSLSIAEKLLKEELSNKESQTKLVEKMLGDVKLN
+>tr|A0A1S1J102|A0A1S1J102_9FLAO
+MPRIRILLLLLLVCLNCFANSAIVQSETVPEAKINKLVEEAWGDYRKSNFEKSLITSRIA
+LNYATAAKNNNLIAKSYKIIAGNYNELSEFDKAIFFYKKGLFYAGKTNNDSLKYSLHNNL
+GNIYCFEKKQFNRGINYYKKSIAYSLKLNEMGQVYFTNVNIAWAYFDIGKFKEGYPFLKF
+VNSNKSKYGDESTEIVVNMLNGMYYSYHNDYELANVFFLKAIQAGKNSDERSDLSYSHQE
+YSKFLNKIGKYEEAYVNLASYNKITEELYNEEKLKKASIAGFNLELDEYKRQIDKIESEK
+DSQYQSLKKSRIIVILFVLISLILLVLIITLIKNIRFKKKHNAELLEAKEIAEEASLLKS
+QFISTISHELRTPLYGVVGITNMLLEEHKELSRSQHLSSLKFSARYLLSLVNDILQINKI
+EENKVVLENLTFNISDEIMMIKNSLSFLSQKNNDKITVSIDPCIPEYLIGDKLRLAQVLM
+NLVSNALKFTKDGEVEIIVKLNRFEGKMYFLDFWVKDNGVGIAAVDQDKIFEKFVQVGRK
+DEDYQGTGLGLSIVKRLLGLFGSTIDLKSELGFGTSFSFTIPFEFDPQKTKLIIEEIEVD
+LSSNEVFKILIVEDNLINQLVTKKIIEKHNYVCKVVDDGFAALKMLESENFDLILMDINM
+PLMNGFETTRRIRSKGLKTPIIALTAFDKDEITDEAISSGINDIIIKPFEPVRLFKIMNY
+LILETKNAG
+>tr|A0A1S1J3K4|A0A1S1J3K4_9FLAO
+MKMIFVKIITVLIAIVSIALVVAMFTKNKYTIRREIIVHKPKAEVFDFIKLNRNQKLYSK
+WLLLDPATKIEITGTDGTAGSVLTFESKHHKTGKGEWEIKKVENSRIDFELRFLAPYVFT
+ANGHMQTETLAGNQTKLIWIYNSGMNWPKNFMLLFFDMDKIIGADVEESLTNIKTIVEK
+>tr|A0A1S1JBK4|A0A1S1JBK4_9FLAO
+MSKKIRKPIKKEKDFSSKIVKILSQSPNKGFNYKQIAAKLELDDTKSRNQIIKDLKILAA
+SKKIIESEPGKYLVKAESQDYYEGTIDMTSRKTAYFICDEFSEDVFIPTNNLNRALDKDK
+VKVYVYNRRKGKRPEGEVISVIERNKTEFVGVIDIQANFAFVSTANPKMYTDIFIPKDKL
+GEAENGDVVLVGIEDWPKRADSPFGSVLRVLGKPGEHNTEIHAILAEYGLPADFPVEVEV
+YAQKIDTSIQEAEIAKRRDMRDTLTFTIDPKDAKDFDDALSFKKLENGNYEIGIHIADVS
+YYLEEGTILDDEAYQRATSVYLVDRVVPMLPEVLSNFACSLRPNEEKYTFSAIFEVSPTA
+QVINQWFGRTVIYSDQRFAYEEAQYIIETKDNTIPVDISITGESYTVSDEITEATLKLDE
+LAKILRRKRMANGAISFDKVEVKFNLDEEGEPEGVYFKISKDANHLIEEFMLLANRKVAE
+YIGKQKKTFVYRIHDEPNEDKLIAMQTLIAKFGYKIDFRNKGDISKSLNALMEEVNGKKE
+QNLIDTLAIRSMSKAKYSTENIGHYGLAFDYYSHFTSPIRRYPDVMVHRLLQYYLDNGAS
+VDEEAYETKCLHCSNMESLATNAERDSIKYMQVKYMQDHQDEEFLGVISGVTEWGIYVEI
+VSNKCEGMVRIREIKDDYYTFDEKQYALVGATSNSILQLGDEIYVKVKNADLVKKQLDFH
+FLRRAE
+>tr|A0A1S1J2P4|A0A1S1J2P4_9FLAO
+MNKEFHEKDIEIRKELEELIENGKKNISEIEKIIENNDFRINDLNDPNSKSAVNLRIVRN
+FVIGTILFLPITYILLTYVKGFNEVLFYFLLIFYSLLIGLIFWFIRKKYRLLYGLIELSV
+GVTAIFIVLQSVNNSLDIFYWKIEKLMSFVGGVYILVRGIDNISVTNFGKKVDDFLNFK
+>tr|A0A1S1J240|A0A1S1J240_9FLAO
+MKKVVLAYSGGLDTSYCLKYLKNEKGYEVHTVLVDTGGFDEEELSAIEKRAYELGSAQHA
+NLTIVDKYYDKAIKYLIFGNVLKNNTYPLSVSAERVFQAIEAIKYAKKVGASAIAHGSTG
+AGNDQIRFDLIFQTIAPEIEIITPIRDLKLSRQEEVDYLSKNGVHYSWEKAQYSINKGLW
+GTSVGGKETLTSSEPLPSEAYPSQLQKEGEEKVTLHFEQGELVGLNGKKDVPEKNIVKLE
+KLANAYAIGRDIHVGDTIIGIKGRVGFEAAAPLIIIKAHHLLEKHTLGKWQQYWKEQLGN
+WYGMLFHEGQFLDPVMRNIETFLQDTQKTVNGTVTVSLKPYHFSLDGIESKNDLMNTGFG
+QYGEMNNAWTSDDAKGFIKILGNAQNIFSSVNHLDHD
+>tr|A0A1S1J1T0|A0A1S1J1T0_9FLAO
+MKAFYKNNNGLIEIQEWTPNCWISIESPSETEKKYLLEELQIPEAFYNDIEDIDERPRME
+SEDGWTLFIMRVPIKSNDVKLPFQTIPLGLIFKDDVCVTISFYETEIVSDFLQYTRRKNI
+VIKDNFDLVMRLLLSSSVWYLKYLKQINQKIKLAEDNLEKSIKNEELQALLQIEKCLVFF
+ITSLKGNDVLFHRIKNLKAQREHFDPDLLEDVDIELSQAQDTANIYSNILTGMMDAYASV
+ISNNMNNIMKQMTSISIILMIPTLIASLYGMNVPNGLEESKYGIWILLLVSVILSSVGVF
+LFKRRRWF
+>tr|A0A1S1J6P3|A0A1S1J6P3_9FLAO
+MDKNQISIVFKTFFVILAVSFSSSAFAQQKYVIDNSNHFWEKVQFGGGLGLGIGSGYTDI
+SVSPSAIYNLNEIVAVGVGLQFGYLSSKNYYSSFVYGGSVVGLVNPIPEIQLSAELEQVR
+INTDYKSTAYRPSYSDDYWNTALYLGAGYRTGSVTIGARYDVLYDKNTSLYGSGFMPFVR
+VYF
+>tr|A0A1S1JCI2|A0A1S1JCI2_9FLAO
+MTKQIWLNLPVKEVAKSKAFFSEIGFSFNEEHDTPKSTCMVIGEGKFVVMLFEEKLFASF
+SHNQLTDTKTSTEVLISIDAESTAEVDELAKKVKQAGGTVFAPPSESQGWMYGCGFADLD
+GHRWNVLFMDFSKLS
+>tr|A0A1S1J881|A0A1S1J881_9FLAO
+MSKFGELINAQVPVLIDFYTDWNESSVSMHPVIKDVAAALGDKAKVIKIDVDKNQELAEA
+LRIKGLPTLMIYKEGQMIWRQSGELDANTIIGIVQERFNL
+>tr|A0A1S1J8H4|A0A1S1J8H4_9FLAO
+MKLYHNLSQIGFLKKSYAFKFLFVAFIGIHIPLIGILFFVLYYNNHSVSATSILIFSLVM
+TLLATLVTLLVLNHLIKPISIASKALDDYRHNRRLSILPTEYSDEAGLLLCNIQESIYES
+ESFINEKQDLIYMLSHDLKNFAGNPQGLARLIISENPSESVRQLAELICESTNLQFRYIE
+NFIKLLQEQDRVVKGNLEIRMITFPNILPFINEQVEQRLIDKNIKLSLNLELVEAKLRID
+EGLLVQVLVNLISNAVKFSYFDSEVKVRIYTEDSKFIVTVTDNGIGFDKNQIDELFKKFT
+KMSRLGTANESSTGIGLYLCKKIIEKNKGKLTATSEGRNKGAEFRIEFEL
+>tr|A0A1S1JCR7|A0A1S1JCR7_9FLAO
+MKKIILIAMLAVVGITASNAQSNKKGKIAKVEGAGMAFETETIDYGTIAHNADGKREFVF
+VNNGTKPLIITNTTGSCGCTVPTTPKEPIAPGAKGIIGVKYATDRVGAFTKTVTVTSNAE
+GQPTKVLTIKGTVLPDPVKS
+>tr|A0A1S1J013|A0A1S1J013_9FLAO
+MIIKKKNTWFKMLFEWRGSVLPQLLPRLLLLLLFSFIVVYFKPWLLQYNLHINPAIFTLF
+GIALAIFLGFRNSVSYDRFWEGRKLWGALLNDTRSLARQSITLVPDKEYDAKREKFTNLL
+IAFVYSLKHQLRETNSDADMSRLLPKEFAGQLKETRYKPILLLRELGLWVKDAKTENKID
+SVTQLAFEENLNKLSDIVGGCERIAGTPIPYTYSVLLHRTVYIYCFLLSFGFVETMGWIT
+PFIIVFIAYTFVALEAIADELENPFGVQPNDLALDAMSEMIENTLLELNDKKINPVTHHN
+NYFIT
+>tr|A0A1S1J267|A0A1S1J267_9FLAO
+MKKRTPLFDFTQKVNYKNEILAGLTVAMTMIPESLSFAILAGFPPLVGLYAAFIAGLVTS
+VFGGRPGMISGGAGATVIVLIALMKSHGIEYVFAAVALGGIVQICIGLFKLGKFIRLVPQ
+PVMYGFVNGLAVVIFMSQLEQFKIVVNGQTTWLQGSQLYIMLALVALTIGIVLLFSKITK
+AVPASLVAIIVVFAIVLLFNIDTKTVQDIASVKGGFPPFHIPNIPLSFETIKIIFPYSVI
+VAAVGLTEGLLTLNLVDEITGTRGNSNRECIAQGSSNILNGFFFGMGGCPMIAQTLVNLS
+AGSRARLSGIIASLTILLIILFGAPVIGKLPMAALVGVMMMVAITTFEWTSFRIINKMPA
+HDIFVGVLVAVVTILLHNLALAVLIGVIISALVFAWESAKRIRARHYMDEKGIKHYEIYG
+PLFFGSTAAFIEKFDPLNDPNHVIIDFKESRIADMSAIEALNNLTKKYSQLNKVIELKHL
+SKDCIVLLKNAEAVIAVNVIEDPTYKVVS
+>tr|A0A1S1J4F0|A0A1S1J4F0_9FLAO
+MYTLPKIERFNQDVLSKYHIYNSVFITLPFDSIDNTGVLLPLFTDTCETGFKKQETPKEI
+VNFFSNKFLNDASEKDKIDLMFRFIQYIERQIVLFDAIEDAAFPEVNNMEGRGSLRDIKE
+KSDAKEKNEELIEFLENFNVRTVLTAHPTQFYPGPVLGIINDLKDAIRSNDLLKIKQLLA
+QLGKTPFIQNEKPNPYDEAVSLIWYLENVFYATSGEIVHYLQKNILQGSSIQNQLIKLGF
+WPGGDRDGNPFVTTDITLKVAERLRTSILKCYYIEMRSLKRKLTFSGVDTLVSELEHKLY
+RSVFYSKGEIYITLEELLTQLNKIRTIIIEKHQSLYLDELEAFLVKINLFGFHFATLDIR
+QNSKIHNAVFKDVVDFYLNSGSEIFPKNYFDLSEEEKLGVLSKVKGDLNSADFENEITRS
+TLESVQTIKSIQQANGESGANRYIISNNESALNVMETFAMIRLNNWENPTVDIIPLFESV
+DDLQNAHQIMEQLYTNSEYSKHLEARGNKQTIMLGFSDGTKDGGYLMANWSIYQAKISLT
+EISRKYGIQAIFFDGRGGPPARGGGKTHKFYASLGPKIENNEIQITIQGQTISSNFGTLD
+SCRYNIENLLSAGVTNQVFSKEKNELSVEETEILTQLADLGYEKYLSFKNHPKFIPYLEK
+MSTLKYYSKTNIGSRPSKRSKSESLDFADLRAIPFVGSWSQLKQNVPGFFGVGSALKYFE
+ESGQWDKVQNLYHDSLFFKTLLENSMMSLAKSFLPLTAYMKNDPEFGEFWQIIYDEFSET
+KRLLLKIAGHKTLMENYPDGIASIQIRERIVLPLLTIQQYALLRINELNKESVVDEELVK
+VYEKIVTRSLFGNTNASRNSA
+>tr|A0A1S1J5Z1|A0A1S1J5Z1_9FLAO
+MLTKNIEIMKTIKVKVRISGGLAPDSIRVEIKNVDTREEIEYESPTSFNQDFNIESGRYT
+LQLFGMNPIKGKTEIEVVGSFTRGPFHNAKRVTAKPFITELFYFEI
+>tr|A0A1S1J8I2|A0A1S1J8I2_9FLAO
+MVDNKFNIAILSTVINFDLYDKSSPFFPQDVQKYVIDGRNGMHGLKSIFYMMKMLKNKNI
+EWLIMADEDVLFQDSEIVFDIINKMKSEDYTVCGVRDGGMIAHRTYNPYLINTFFSILNF
+KELEKIWNKDEILKNDYSLENEFDDDLTNLKWNFDTKSLYEPYYCFYLWLRRKNKKFLFL
+DTEMNEDQIANSITYNNRVFLHHTWFARAYGKNDEQTKRINVLFDLLNSKDSKTSDPVIF
+KDQTFLLIQKIKKTYRKILMRLKR
+>tr|A0A1S1J9E1|A0A1S1J9E1_9FLAO
+MITSTLFSQVKNSTNVLKKTGETVNTYDNQEQKENKKPELKMVFSDRNENKIYEEPYSAK
+VKNKAAILTPMYVIDEDKNYYEVVVADKKLIGKPKGTFSALRSKDNHFSKAKEVQYLGWI
+KKDNVLEYGRAIQNQVNLKYVKYFVACNTLDNLVNSNNNVKKSTLLLKGDPNLETATKKG
+IKLNDFVYVYNINKTANSAFVSNSDDLMPKDTANFKFGWVPLQYLNPITDNVVVKLNPAD
+TLKFSSGKINFHANELYRNTFFVNENQSSNAARFDNTTKILLPVNVWNHDKNKITNLKGD
+DITIKTIEQIDLQSKTINFFYVFENNGSTKQYLKKTLSALQNLKLTTSSDLYANYNFTYS
+FIAKGKSKSYYLLRASSFSKWFDLIEKSIKTPEEITNENILPNNNINITQFLSAGPNYEN
+NFFILAGLDGSINTVLQDNMSALAKNNAKLLYILFRNENSSDNQDFISQSKAYLSDASNA
+NKKYIQNYYVDPKLVPKNDEFVYNGEADNEYIYNAPLKSNFNGGIVFPKLNGELTPETIN
+KAIDTVISKTIKTNNALLKSLTQYKNEFSFLRSQPSITVKNIIENSPLKDSVSTDVPKKY
+KNETFAINAKDSLDNDLESKVHILLTENEIKQLIENYRELVSKEYTNENIDKVEILNFKD
+RCYTFASIIRRTEPLRNRNSLADLFYFKTRVFVNSSDLHTIRIKDIRKFKRKPAEFRALF
+IGLNAKVEALEKMVRNSAFEVFDEESQLKHYYISKNMLL
+>tr|A0A1S1JBX7|A0A1S1JBX7_9FLAO
+MEEPNLNYIDQLCAEDDEFKQKIITIIKKELPLEITAYYKSIESKNYKLASEVIHKLKHK
+ISILGLEKSYDLAQEYENHLLKNGTFESEGEFARILQLMQSFVNDL
+>tr|A0A1S1JC64|A0A1S1JC64_9FLAO
+MKKLLLLFIFCPLLVIAQNIKGVVVSQKSSLPLEDTNILALSSKTRTITDENGKFSLKLL
+PEFKNEETIEFSHLGYKTIRISLSYLTKQNFTAVLEENVENLSGVTIATNSKLKTKISFN
+SLAPLKYPIFSFGSFLKDDKIYVSGGDAYSEIDQLAKVRAKKADPNFQDFLDEAQNTGKR
+HYKKHLSIYDIKNDTWEVQDIKLLPRAYHNIHFYNNLIYVLGGKKILVNKISSWEYLQDK
+IEVVDLDKKSIKTDKTNPHQAADFASFSYNDNIIVAGGSVKRDENDKKDFTDKMHLYNIT
+SGYWYELPSMLTAKETAGILIDNKIYFIGGNNGKPLSQIETFDLTTEKWGFPGELFTPLE
+RPAIAYNNNIIYFFEDRKIYTYELKTKQLKEFEIELESKRAAMYYYDNKLYIIGGRIDNS
+YSQVPSPKVYSVDINEFETTKPNKTKILSQEVSAAKPIE
+>tr|A0A1S1J8H9|A0A1S1J8H9_9FLAO
+MKEQLANYIKSIITVTEEELVVILSYFKSSTAEKNELLVVHGQTNQRSFFVGSGCLRIYF
+ITEDGQEATRYLAFENNFATALCSFISNEPSLEFIQALEPTELLYISSSDFYYLLEVIPA
+WEKFYRYYLEKAYVNNTNRLMSFLTLDATERYKQLMSINPQIIQRLSNRIVATYLNISQE
+TLSRLKSKRY
+>tr|A0A1S1J111|A0A1S1J111_9FLAO
+MKKKLTLIFLFSLFNLITGYSQKKVDIKVTILKNGFIFDDKFDLKTGSIIIKGNQIADIL
+YTDNFSVYPEATIIDITRKYVMPGLIDTHVHLATAPNLTREKSNKYMEDQLSKMIYAGIT
+TVRDMTGNAIILADYKQVSTLNQLPAPSIFYAAQFAGPDYFNSMRKYTTEKDTPWQRTIT
+DTTNIKMVVAEAKGAGVTGIKIYNDLSARMIRKIVKKAKKQGLQSWSHAAVFPATPTDVA
+AAKVNSMSHAFDIPYGFSSGKMDHSKKIPAIDTTKMDKLLLLMKANNVILDATNYMGNNN
+KLFDGMKITKRAHELGVKVSTGTDWPYLFEKDNIVPLFKEIKILTDSCGFTNKDVLISAT
+KIGAESIGVEDRGVIAVGKRADLYITNSDPVQNIENLKDGFMTVKSGIIYKKE
+>tr|A0A1S1J1V9|A0A1S1J1V9_9FLAO
+MKKYTFAVLSVLTLLFSSCSVSKSVSSGDDLFGTSWELEYISGPRIAFNGLYPNKKPQIT
+FDKKETKVYGNNGCNGYSATYTLNGKSLTFGEAGPTTMMYCDGGGEQVFLKQIKEITSYS
+IDKDGKLNLIQGDIPVMRFEKVAKQ
+>tr|A0A1S1J6E5|A0A1S1J6E5_9FLAO
+MSSELQTKLDYVKAYRENRLNVANEVLENPSLFKELVSICFSPSDKNNHKACWIMEFVSY
+EELIWLQPYLDFFCSNLKVLKDESAIRPIAKVVQLLVKAHYSKIENGISLSETNLQDCIE
+ASFDWLINDVKVATKAYSIRTLYLLGNHYDWIHPELQVILNKDYGDHSAAYKAVAKEVLK
+KIEK
+>tr|A0A1S1J8A9|A0A1S1J8A9_9FLAO
+MTANKQTVTEYMEAFKVSDHKRILDCLTDDVIWEMPGIYQHVGKEAFDKEIENDNFTGSP
+TIQIIKLIEENDIVIAEGAVQGNMKNGNRLDAVFCDVFEMEKGKIKKLTSYLMSKNSSLK
+FE
+>tr|A0A1S1JBB8|A0A1S1JBB8_9FLAO
+MTEEIEFILDSTEESMNGSIAHLEKEFLNIRAGKASPAMLGSVFVDYYGAATPLSQVSKI
+SVPDARTITLQPFEKNMLQVIEKAIMIANIGFNPMNNGDVIIISVPPLTEERRKELAKQA
+KAEAEDAKIGVRNVRKDANTDIKKLEKEGTSEDICKSAEEQVQNLTNTYIKKIDELLAAK
+EAEIMKV
+>tr|A0A1S1IY45|A0A1S1IY45_9FLAO
+MQMEKKDIRALTKDQLRDFFVANNDKAFRGNQVYEWLWSKGAHSFEDMTNVAKTTRTMLE
+ENFVINHIKVDTMQRSSDGTVKNAVRLHDGLVVESVLIPTETRTTACVSSQVGCSLDCNF
+CATSRLKRMRNLEPGEIYDQIIAIDKESRLYHNHPLSNIVFMGMGEPLMNYNNVIKAIDM
+VTSPEGLGMSPKRIMVSTSGIPKMIKKMADDDVKFKLAVSLHSAIDEVRARIMPFSKKFP
+LKDLREALEYWYRKTKSKISYEYVVWKGINDDKASIDALVKFCKYVPCKVNLIEYNPIDD
+GEFQQASEESILAYIKALENIGVVVKVRRSRGKDIDAACGQLANKEG
+>tr|A0A1S1J3H1|A0A1S1J3H1_9FLAO
+MKFVHRFAYYLVGLVMGCFFVALVFSGKDTRCNYFPNARVLNNLRTKPFQYSEKAIQTLN
+EKWVDTADIKSTLTFGDVDFDKSNVPVNKGKLYIIEGKTAKNQEIILKVVNYENKAILEE
+IIKKDTKE
+>tr|A0A1S1J8G8|A0A1S1J8G8_9FLAO
+MKKLNVWIILFVVQIGFAQNTFPFPETGRVGIGTTSPTALLQAQSTIDTFVAHFSGNNLS
+NGVAVGTSAENTGIIQGYSKTFSTTSNIALQPYSGNLGVGVVNPMQKLEVGGSGLFNGRV
+ISTISGDIGGEILINNPLKTANGTAKSWGIFNMTGGYGNSLQFWAYDNLGCAAGGLCTNR
+FIIMDNGNVGIGVLNPNNKLDVKGTIHSQEVKVDMLGWSDFVFKKGYNLPTLEEVEKHIA
+EKGHLENIPSEEEVLKNGIVLGEMNAKLLQKIEELTLYMIEMKKENERVKGENIQMKKNQ
+TELEKRIIKLERKQE
+>tr|A0A1S1JC56|A0A1S1JC56_9FLAO
+MKKQEYAIVDIETTGGNASGSCITEIAIVIHDGKKVMERFETLVNPQKEIPLPIFALTGI
+NNEMVANAPIFDDIAEKVMELLNDRIFVAHNVNFDYSFVRHQLEASGFKWTARKLCTVRA
+ARKIRPGFASYSLGKLCNSLDIPLENRHRAGGDAEATAILFSRLLEWDDEGHIEQMIKNT
+AQDQRLPPNLPPEDFNNLPEKPGVYYFYNEVKKVIYVGKAVNIKKRVASHFSGHNINPQR
+QHFLRDIYSISYEVCGNELMALLLECTEIKHLWPTYNRALKRFEPKFGLYQYEARNGYKY
+LAIGKLNKFQSCIEHFSSLHEATNILRGLAERFEIDYRFCKYSKAEEGELFQNNDITDLP
+DTFLHNEQVDNAIDFLQNNRPTFAIIEKGRTAHERSCIWIENGHFYGMGYIPLDVAITDP
+SEVKNYATPYKSNQYIEQLIFAYAEKNPRKVFFNKNLLTSRI
+>tr|A0A1S1JCW9|A0A1S1JCW9_9FLAO
+MSITIESKNLNWTNNLRVLATISVIVVHVACDILYQYGHISNFTWWTGNVYDGLVRFCVP
+VFLMLTGALMLNKKYELNDFLRKKFSRIILPFLFWSLFYVLLTVRSEFLLESEKAFVDIF
+KRAFTLIIGGSSFHLWYIYMVIGIYLFIPILSKWIQNANEKEILYFLAIWIFALMINQPI
+FSKFRINVDLTYFTGFLGYLVLGYYLSVKSFQYDARRLKRISVLLLSFGAIITIFGTYFL
+SISEDRFNEYFYGYLTFNVMLVSIGLFIFFKNSKISNPTLIRVINFINKYSYGIYLVHIL
+VLRFLVSSGIDYDFINPVLAIPITTLLCLFLSSFIIYAVNKLPYGQYISG
+>tr|A0A1S1J6Y1|A0A1S1J6Y1_9FLAO
+MKNLKPHKECSNTFLDDVLKAKNNSKKDPDYKKRVEILKPDVKNKYSTFETENIANNLAS
+LTAHGYAGQNKIDLLKLYKYDNSVIQKLNEEVTTLEGNRLINTCQNCTINEINSLDHIVP
+KDEFPEFSVNPRNLFPSCSKCNGHKSTVWREKNKSVFLNLYLDNLPEEQYLFCNPTFDGD
+KITLKFTVENRFAIEQNLFDLIYNHYTRLHLPKRFRKNSSDTIYELNKEINKYANKISKD
+ELIKTIKEDVMEEKIYYGFNYWKSIIKETLINNQDYLNLMFK
+>tr|A0A1S1J7I5|A0A1S1J7I5_9FLAO
+MKNKIVCFLALFITLFSSVTFAQKDSSQTSKTTVKEVKTKGYPVKPFKDTLFYVYHKVGS
+FSPENRANAITEKIRKLYEDSFFIADSISVVPSDISQDIVYKNDFVIMSVLDVDAKAENQ
+TADFIAKRNLYLIKRAIVYQNDNYSMLPKRLGYTALLVLIIGFVLYFVGKLFNRVKLYIL
+KNSDRHFKGFKYNNINILSPQKQQFLLMRLYSAIKVITLILIVYLSLPLLFSIFPATEAY
+TTTLLRWILSPAKLAVMGFVGFLPSLVTIVVIIVIFKYSIRVIKFFFDEIKKENIKIDGF
+YSDWAMPTFNIIRFLMLAFMLVVIFPYLPGSDSPIFKGVSVFVGVLFSLGSSNAIANMVA
+GLVITYMRPFKIGDFIKIGDVSGEVIEKTALVTRVRTPKFEDITIPNATVLSSTSTNYSA
+NTKHANNGLLIHTTVTIGYDVPYKDIYKALIEAALKTEMIEQTPSPFVLQTSLDDFYVSY
+QINVYTKEPTKQPRIYSSLHQNIQDSFNAAGIEIMSPHYGALRDGNATTIPANYLNNDYQ
+APPFNVKNKE
+>tr|A0A1S1J7W1|A0A1S1J7W1_9FLAO
+MYELLFWRYLEEVYLNHHEVYEALVEKEEVDGLATLPVEVIINRINSVFSQWERVDENSW
+KNSTGKGAFQVITTPQSIKIDCYGTEGKTMNTLVSLMEEFKCPLYDPQVPERYDEMNE
+>tr|A0A1S1J1J1|A0A1S1J1J1_9FLAO
+MLAVILKILSMKQLDFIIKILPLVSLFIFLCSAIKLFVFYSFFDIQIANYLEVQEYIPLF
+ISNAVGYLIIFSACYTLYFFQRKKINSRIEILESVKHIFSFERKTYISIFFISILLLAFY
+VFIEIKSNFYLYSMLIVLLYSFYSYSTYSKSLFSLFPIILVTGLISFTILDGAREALKII
+NDGNLLEYTFHFKNKKIQTDHNLKYLGRSKNYIFFYQRTNKKSTVLSIDDLIETDITTTN
+SHY
+>tr|A0A1S1J4L4|A0A1S1J4L4_9FLAO
+MIKLKIKSGDIVRVIAGDHKGAEGKVLRVYREKNKAIVEGVNMVSKHTKPSAKNPQGGIV
+KKEASIQISNISLIDPKTKETTRVGIRVEGDKKVRFSKKSNQVL
+>tr|A0A1S1JCD4|A0A1S1JCD4_9FLAO
+MQFRTQIPVSKSSNPIDYHSKIISVGSCFAENMAEKFDYFKLQNETNPFGIIFNPVSIEK
+VIQRVVKQEFFTEKDVFFHNERWHCFEVHSDLSHSDRQELLQTLNEAITKTNKQIKEATH
+LIVTYGTSWIYRNIESNEVVANCHKVPQRQFTKELLTADVIQKSIQNTIRLIYGSNPNIN
+FIFTISPVRHIKDGFVENQLSKSHLFTGLHQNLQSKIDNQQLGYFPSYEIMMDELRDYRF
+YAEDMLHPNVVAIDYIWQRFSENYIAENSISTLLEVGEIQKSLHHRSFNPESEQHQKFLV
+KLRQKIKSVEEKWQHIKF
+>tr|A0A1S1IZY7|A0A1S1IZY7_9FLAO
+MFQTFQTYKLLFLRLILIVLMIEISFYFFKTDLFFTGIFSLFVVFLLVREMYFYTRNFVL
+IYNKTISSILQNDFSSDFSQHQYNKNYNELFLLYDTLKSKQNEQISKDIVYRSILNTIES
+GIIILQKEETEWNIFLMNDHFSSHFNVPKVSKWKYLKDQLPSLCEVIEADDFQEVKTSLE
+IRVKEQNMQTFVLQASRTEIFGKGYFIVLLDSIQNVVEKKEKDAWVNLMKVISHELLNSI
+TPIRSICQNLQDLVEQDTMSAEDLEDVKNSVETMLRRSDHLQKFVEGYRKLAMLPTPKKE
+KADLQLLMHNCLQIMAPLFREKGIEVVNTITSKHWINIDSQQIEQVFINLLTNCIYALKD
+ATEKTVTVSAEFKENRAFLKITDTGNGIEKEIEHKVFLPFFTTRTEGAGIGLTLSKNIIE
+AHGGYITHRNENGKTTFEICLLE
+>tr|A0A1S1J869|A0A1S1J869_9FLAO
+MKVITPFVLLVRFYQSAISPFTPASCRFEPTCSTYMIQALQTHGLFYGGYLGMKRILSCH
+PWGRTGYDPVPEKKCSHKH
+>tr|A0A1S1JB72|A0A1S1JB72_9FLAO
+MKKSIIVSAIFLTFSTLVVNAQERGKHEINLTYSDGATMTVINGLADAFASALTFQKEGS
+KITSFGNLGLGYRNQITERIKVGGDIAFQQVQAKKNDNKRTDLYFMVMPTLSFSYIKTEW
+LDFYGSAAAGVILDKYTETEPNKPAVKDNTIDFAFQVNPAGLRIGKKLGGFVEAGFGHRG
+IISAGLNYRF
+>tr|A0A1S1J0X2|A0A1S1J0X2_9FLAO
+MKNNFYKLIFLFALSATLFSCSNDDDNTPETPKEALTEYKFLRILLSDEKTTEITLVNPV
+EATISSFNAKFAKSTVYTSESKRYAGIIHRASNTVETFDSGFEGHGDHVDVDGIPKFGAL
+IGQSPMPTHFKSKSGELMTFNDGDGTLAVAKESEINTAGAKFKIINAGLLAHHGAMATFT
+NGTYAITEKDNSVAGTLPEKVKIIDNSGKTLFNATVATKGIHGNASDGTYAVFGSASGVL
+VVESTGKQKLIALPADFGTAWFGTILETKAQGKFVGYTAAKGAFLIDVAAETIKPILAST
+AIMQCKVSFNATKLGILLHTGEFKLYNLTSMQLEKEGKVIAETATDAPLKPQIQLTENFG
+YITSPTTGELLQLNLSTMAITKKIKVSSTPYMITILGFENSKGH
+>tr|A0A1S1JCQ4|A0A1S1JCQ4_9FLAO
+MDSSKELLFFFSALGAFNGIILSIYFFFFTKKRFLTNYFLGGLLFALSIRIAKSVFVYFN
+PTLPKMYLQIGLTACFFIGPCLYFFLKSAVDEINVMPKSWKLTFLFWGILSVLAGVIFPY
+EYYPELWSFRFIRIIYLQWFIYIVASGFTIKAILKKIFSRKEKTSPSEMWFGMLFLGILL
+LFVFYFLALIGAPAAIYISGAVVFSFILYLVVSILLYRKRTDDLFLLNGTKGAVKKIDTE
+EAGVLSQKLESVMNEKALYKNPNLSLQDLAKEVNITSHQLSQFLNNNLGKNFTSFVNEFR
+IREAREIIISNDKLTLEAIGYDVGFNSKSTFFATFKKYTGKTPSYYQSADFRNSNQV
+>tr|A0A1S1IXT8|A0A1S1IXT8_9FLAO
+MDQYKETFETWDKIATIYQDKFMDLKLYNETYDFFCDALKNEQLHIFEIGCGPGNITKYL
+LSKKPNLKIRGIDIAPKMIELAQKNNPSAQFEVMDTRDLNKVNQQFDAIICGFCLPYLSE
+EDCFKLINSIDKILCPGGIFYLSFVEGHSTASGFISGSTGDRTYFYYHNLKNIEKQLSIH
+NFKIIKSFEVKYPKSENIEIHTILIAQKK
+>tr|A0A1S1J0V5|A0A1S1J0V5_9FLAO
+MKIKDIYPLTPLQEGIYFHWKLSKSMYFEQSSYKIQAELEINYLKESYDQLIARHDVLRT
+CFRDNVGEDLLQIVQNEVPSNFTFLDITGNTSETIASVKEQDIAKSFDLTVGSQMRLTVV
+KTSANQYELIWSHHHIIMDGWCIGILIGEFFRLYEGLLQGKRNILPKATSYSDYVKWLMK
+NDKEKSLQYWNHYLEDFQGLSTLPFPKQHVEAFSPGEIFYTISGSLREKLAVLCQENSST
+ENVFFQTIWGILLAKYNNTNDVVFGGVVSGRPAEIHDVANIIGLFINTIPVRISFDDKTT
+VKQILLQTQEQAIQSLPYHYQAISDIQRSVNNGQSLFDHIIVFENYVAAEVIAESEKTNI
+KLLEAASYEGENYDFSLAIVPGKDISIRFTFNAKKYDERDITALKNHFEQVVNTIVENFD
+IPVSEIELLQESEKEAVLSLSGHDMLKEAAAEYTLVELFENVVQENQDQIALVYGEEQYS
+FTGLNGIADQFADFLISEYKVQPGDFIAMQLDRNDWLVIALLGILKADAVYVPLHINLPQ
+DRVDYILEDSNSSIIIDEDFINRFKVHPKANTTISKVKISPSDLAYLIYTSGSTGKPKGV
+LVEHRNICALLVNTKNSFVISQKPVLPLLASNSFDIFLFELFHPLLAGGKVVMVSNDEIK
+DMEDLSKILRQTNSFHAVPTLMRAVIDHIKTNNTQQSYPHIESIFIGGDKVPVGILEEIR
+EVFTNAVINVLYGPTEGSIFITSESYLPNVKQFPNAVIGQSNAYNATYVLDDHLKLCPIY
+SIGELCISGNQVTRGYLNQEEITAEKFVVNPFKTDEKLYRTGDMVKRLPNGKIEFVGRKD
+NQVKVRGYRIELEEIENALLSNEYVDFTIAKTITVSGDEKEIVVYLKATKQMDAQELVHF
+LKGILPSFMIPDYYVQLEEIPLTVNGKVDAKKLPNPLDTNAVRKADYVKPVTETEIKLTE
+IWQRILDRKAVGIQDNFFHLGGHSLKMIKLSNQIFVNFGMHLNIKEIYIHPTIEEQAAYI
+DRSLNSYTLTIPQAAIAPSYPLSSSQYRMYNICSIDAQVNKAYNIRIIDIKNEAVNLEFF
+TRAVYDLIERHEILRTAFVTNENGEPGQIIIPIEKTEPLKIQYLDLRNSETLEKDLQKAL
+IETGDVSFNLETPPLMKAALISVKEDKWIISILFHHIIFDGWSTDVFVKELYALYEKYSK
+NSAIALPPLAIQFKDYAAWEQSMIKSEAIEADKKYWLKQFEGNLPIVSELGDQKRPNIKT
+HNGAVRSKVLEGSILKDLNSLCENKEVSRFMVFLAVTNILIYKNTGDQDIITGSPIVNRD
+YPELFDQIGFYANTIPLRTHLNESASFTATLKQVKENVIKAKEHQKFPLDELIKLLDIKY
+DAGRNPLFDIIVTAREENNQASDLESYDAIIDAVGNGISAKFDLTFDFLVTDSTLTLTLE
+YNTDIFSSEKITALLNHLEQILIQVTQNGDQKISAIDCLTAAEKKHLLEELNGHQTEYPK
+DSSIIELFEKQVALTPEKTALVYKKQKYTYHELNNVANQLANYLEENYKVTGELAAIYLP
+KNEWQIISILALLKSGCAYVPISADYPQERISYIIKDANAECLIAVDLIEDFVQSQANYS
+SKFESIYAKTNDLAYVMYTSGSTGEPKGVLIEQQSVVRLVKNNNFIHLSGEEVLLATGAF
+SFDASTFEYWGMLLNGGTLVICDENTLLSVRGMNEVVANEKVTMMWFTAGWLHQLVDENL
+ILFKNLKTVLCGGDVLSPHHITKLKSTYPELVVVNGYGPTENTTFSITHTIDLPIKTSVS
+IGVPISNSTVYIMDKNHQLVPKGVIGEICVGGDGLARGYLNNAELTHSKFITNPYKTEER
+LYKTGDLGRWTHNNTIEFVGRKDNQVKLRGYRIELGEIENILCTHKLIFSSLVVITDGTA
+AEKKLIAYLVTDEDLESNTLKNWLRTQLPKYMIPNHFVFLREFPLNINGKVDRAKLPEIT
+ELETERAAYTEPVTPTEKTLAKIWEAVLEIEKIGLADNFFDLGGHSLKAVKMFHLINNQL
+EVKLTISDLFTNPTIESLANEIDNVIWANNEELEDVESENITI
+>tr|A0A1S1J3H6|A0A1S1J3H6_9FLAO
+MNPKVDLYFENAEKWQKELEELRKIALDCHLTEELKWETACYTLHGNNVVLIHSFKEYCA
+FLFFKGALMKDTDGILIQQSENVQAARQIRFTSLDEIKAQKAILKTYIYQAIEIEKAGLK
+VQLKKTSEFEIAEEFQQKLDEDKALEIAFNTLTPGRQRAYLLYFSSPKQSKTRASRVENM
+TDQILQGKGLKD
+>tr|A0A1S1J4H8|A0A1S1J4H8_9FLAO
+MKKRDKIIYWVATLWLALGMTATGIVQMLKIKEQEGMIQHLGFPVYFLTLIGIWKLLGAA
+AILIPKFPLLKEWAYAGFFFTMTGAVFSHLVVGDHPKELFGPVLLIVLTIVSWYFRPLER
+KAILAN
+>tr|A0A1S1J7K0|A0A1S1J7K0_9FLAO
+MIEKINLNNILFLDIETVPEEENFNSLDEEMQSLWDQKTQYQRKDDFTPEEFYERAGIWA
+EFGKIVCISVGYFTIKGDVRNFRVTSFFGNEKKILRDFNNLLNNHFNKPQHLLCGHNAKE
+FDIPFIARRMIINQIAIPEKLNLFGKKPWEIAHLDTLELWKFGDYKHFTSLKLLTKILGV
+PSPKGDIDGSQVAHVFYVEKDIDRIVTYCEKDTIAVAQIFLRLRREDLLIDDEIIHV
+>tr|A0A1S1J7Z1|A0A1S1J7Z1_9FLAO
+MTSKVTYLGDLRTKSIHVQSGSEIISDAPVDNNGKGEAFSPTDTVANALASCMMTIMGIK
+ARDLNVNLVDSTAEVTKIMNAEPRRIGAIEIAFEMKGDADEKSKTILERAAMTCPVFLSL
+NPEIEKKITFNWK
+>tr|A0A1S1J9I5|A0A1S1J9I5_9FLAO
+MQKYNRISFLQAFFTNKFQLIFNQLDSNILKFDHKIKKEEFTFFLTSKTTNLKVQSLQNL
+>tr|A0A1S1JAI9|A0A1S1JAI9_9FLAO
+MKANKSQSKSISIFEKLKKTDKAGNEYWSAKDLAKLLGYSRYSSFIEVLDKAKASCINAG
+QETASHFKDFSAIKSVGNDLQRNWVNVKLSRYGCYLIIQNADPTLKPVALGQAYFAIQAR
+LQELSQQRKSNNFKMVKNRRYFLRRELAKRNLQLAGAARKAGIVTPADYAFFQNHGYRGL
+YGGLDVKAIRKIRGLDSDENILDHMDSTELAINLFRVTQTAEKLNDENVQDSAEADTIHF
+AVGLKARKAIEDIGNTLPENMPVMESITLQRKLDKKLPSENNRKKKTSAS
+>tr|A0A1S1JB39|A0A1S1JB39_9FLAO
+MKLTKTFKAFFNNEKSGGLLLLFVTIISLCLANSSYQTEYIAFWEKDLNGHSITHWINDG
+LMAIFFLLIGLELEREIYHGELSNIKNASLPIMAALGGMLVPAGIFLILNFGTATQNGAG
+IPMATDIAFAIGILSLLGKKVPSSLKVFLTALAVIDDLGAIIVIAIFYTTSIAFINLAIA
+LGIWVFLFVLNRLKVHNLIPYLIGGVVMWYFMLNSGVHATITGVILAFVIPFGNGDENSV
+SYKLQHFLHKPVAFFILPLFAVANTCIAIQSDWHEGLNHPNTFGIILGLVVGKPLGILLF
+SAIGVSLGLCSLPKNLKWAHILGAGMLGGIGFTMSIFITILAFKDPEIIVFSKIAILIAS
+VLSGLFGLVYLKYTLSRKHV
+>tr|A0A1S1JC31|A0A1S1JC31_9FLAO
+MKEKEHLSKENFFKCTTAKDTIFKNGDYIRFIPVNKSYGIEIKMNRTVDTLDNYSFDCDS
+YNGMIPKVLFKTDYIALGQGSSTNYRYLIICNLNNELGKIDVNKFETEIVENPEKEILFF
+KKNHNAFMLNKKKGKLFFTKLPSKFFNLKVQKFELYKNKVIIIFTQGDSLTYKLNEFDKL
+GNVTD
+>tr|A0A1S1J3Y8|A0A1S1J3Y8_9FLAO
+MNIENTKAQMRKGVLEFCILSVLKEKDAYTSEILDTLKNAKLLVVEGTVYPLLTRLKNDG
+LLNYRWEESTSGPPRKYYGLTEIGQTFLNELSGTWTELSDAVKLITNQNQ
+>tr|A0A1S1JAS4|A0A1S1JAS4_9FLAO
+MKIKLIAILLLITCVSNAQDLSKEEVKKEVVRLLDSINKAKLPDTESEKNDDETNKDRWY
+DKISLRGYAQIRYNGLFSTNDKVSCDQCDRSWGTTSTAPDAKANNGLFIRRARLVFSGQV
+HPNVFFYFQPDFASSPVTGVQNFVQVRDLYFDLSFDKKREYRLRVGQSKIPYGFENMQSS
+GQRLTLDRNDALNSAILNERDLGMFFYWAPAKIRERFEMLVKDGYKGSGDYGVFAFGVYN
+GQIANRLDGNRDLNVVARVTYPFVIGSQIIEPGIQAYAGKWAFSGEISSGVKVNNSQHVK
+DQRVGATFVLYPRPFGIQTEYNIGKGPRYNSVTNAVDETDLDGGYVLLNYKLDIKKQVIY
+PFAKFQYYDGGKKYEKDARSYVVRDYEFGIEWQPLKAFELTAEYVIADRTFQDSALPVNR
+QQGNLLRLQAQFNF
+>tr|A0A1S1J1G2|A0A1S1J1G2_9FLAO
+MNNETKVFMIGAGPTAEEMAIVAKKLSAALGRSLFECRTILENAASEMNQLSEVNIKSLQ
+DLSDSLNKLKKTHEFDKPKSKYINKPQINFRKIGIPQKRNNQRY
+>tr|A0A1S1J478|A0A1S1J478_9FLAO
+MILKNNETDPESLPKDLIIAKEILYDCCDFDLTQPQPEAESNEYDAYRFRLNQKNICYRK
+AKITPTKTGQFVTLWKRNTTGIIEPFDFTDAIDFVIVSVRKNELFGQFVFPKPILLEKGI
+FTTSKKEGKRATRVYPPWDETTSKQAQKTQQWQLNYFYFITPETNLKRFKTLF
+>tr|A0A1S1J4I6|A0A1S1J4I6_9FLAO
+MIQNSELILNPDGSVYHLNLRPEHIAHDIIFVGDQNRVEKITQFFDSIEYSTQKREFKTQ
+TGIYKGKRISVMSTGIGPDNIDIVINELDALVNIDFETRQPKENLTSLNIIRIGTSGSLQ
+TDIPVDSFVMSKYGLGLDNMLRSYLIDEVSNADIEEAFIKHTNWDAKKGKPYAIACSEKL
+EKIIESDQMFKGITATAGGFYGPQGRVLRLNIQDQELNSKMDNFSFDEQRITNLEMETAA
+IYGLSALLGHNALSLNAIIANRASGTFSEDPYKAVDALIAYTLDKLAGN
+>tr|A0A1S1J5Z7|A0A1S1J5Z7_9FLAO
+MKTLQVFLFTLLFSAVKLHSQIHVDRITYKVRDHFITTTIGYPVPGTFLPAGKKEPSTIL
+NPDGTGIIQYEDLSKKKINWGIECTEEGIPVFKEGFNSASYTFWYRTNDSEEWNYTQFSI
+HFTKKKMFLMGERVKEYVDYNVQ
+>tr|A0A1S1J7G7|A0A1S1J7G7_9FLAO
+MNQENQLRTPVTVIDKEVTWDKTQVIMSKTNAFGIIEYANEVFVDVCGYEDYELMGQPHN
+IIRHPDMPKVIFKVLWENLKNGKNFHAIVKNLAKSGRYYWVITDFEIAKDENGVIVNYFG
+RRQAVPQEVIALHIEPLYKKLLQIEAASGMEFSEKYLIGFLEEKKRTYVEYIKELIYEHE
+KSQAKFAQYEVQENDEEEERGFFRRLFNR
+>tr|A0A1S1J8G5|A0A1S1J8G5_9FLAO
+MIKNLLIFSLKNRWLVVGISIALMAVGYICFTQLKIEAYPDIADTNVIVVAQYQGRAAEE
+VEQQVTVPIERALQNTPNVLDRRSRTIFGLSVVQLTFKDGTDDYFARQQVMERLATAELP
+EGVSSELAPLSTAVGEIFRYVVEAPPTLSPMQVRDLQDWVIKPYLLQTAGVADIVTFGGP
+LKQFHILAYPDKLQKYKLTIADVENAIRANNQNTGGNVIERGGQGFAVRGLGAIKNEKDI
+ENIVLKSVNGVPVFVRDVVSVEIAPPPPSGVLGYTIADEKVNVNSGVEGIVLLRRYENPS
+EVLKELKQKIKDLQGQELPEGVKIRTLYDRSFLIDHSLHTVGKTLFEGVSIVIIILIFFL
+GSMRSALVVALTIPFSLLFAFIIMRFTGIPANLLSLGAIDFGIIVDGAVVMAEHLIRKYR
+TATPEEKENGIVHITLLSAQEVGREIFFSVTIIILAYMPILLMTRVEGKLFSPMALTLAF
+AVVGSMLAALTFIPVLISFVYNKAVSAKDESFKEHNNKVLEFVERLYAKFLHKILTNYKK
+SVVIGFGLVLLLIGFGLKLGTEFLPELDEGSIFLRGNFPAGITIQENAKNAPKIRSIISK
+YPQIDFVITQTGRNDDGTDPFPANRNEILVGLKEYHLWSDTISKKELVKDIRLELERELP
+SVKFTSGQPIIDQVMEIVTGSAADLAVSIVGEDLGMMRKKADSIVAIMKSMPGSEGVNIE
+QEGTQEQLAIKINREYAARYGINVSEIQNMIEAAIGGKNISTVYDGTKRYDIVIRYLPQF
+RDNIDEIKKLLVPSANRALIPMEQLAEINFTEGQTNIYRYNNKRMVTVRTNIRGRDQGGF
+VKELQKRIKTDVNIPKGYELVYGGQYENLERAGKQLALTIPLTLIMVFVFLFMLYKNFKH
+TIITTSCVLFALSGGIIALLVRGYYFNVSAGVGFVSIFGISVMAGVLLVSALHRATFKNP
+ISQSLIQQTAKEQLRAILSILVLAILGLIPAAISSGIGSDVQRPLATVIIGGLTSTLIFT
+PILIPPLYMWMNKSSIK
+>tr|A0A1S1J0C6|A0A1S1J0C6_9FLAO
+MQLFDWIVLIVTLLFIVGYGSWKTKGSKNVEDFILGNNETPWYTVGLSVMATQASAITFL
+STPGQAYHDGMGFIQFYFGLPIAMIVICVTFIPLYHKNKVFTAYEFLEKRFDLKTRSLAA
+ILFLVQRGLGTGLTIYAPAIILSALLGWNLTLMNIIIGVLVIIYTFSGGTKAVNVTQKQQ
+MFVIMSGMFITFFLILHYLPNDMTFTSALHIAGANDKMNIVDFSFDPEEKYTFWSGITGG
+FFLALAYFGTDQSQVGRYLSGKSVRESQMGLIMNGILKVPMQFFILLTGVMVFVFFQFNP
+VPLNFNPNNKIVIEKSPYKEEYHALEKKLSTLSEDKKVINLLYIDQLNQDFDNPILRKEL
+VTLSNKEKDLRDRAKEIISKADSNSETNDKDYVFFHFILNYLPKGLIGLLLAVILSAAMS
+STASGLNALASTTAIDIYKRNLKTEKSDKHYLNATKFFTLFWGIVAILFACVGTLFENLI
+QLVNIIGSIFYGTVLGIFLVGFYLRRVKAKAMFYSAIISQLTIFIIYYFMIAIYPSGQEK
+LGYLWLNFIGAILTIVLALFMQLAFFRNEPDAEEIIID
+>tr|A0A1S1IZU9|A0A1S1IZU9_9FLAO
+MSKSIFYHAGCPVCISAEQDILSLINPAEVEVVHLGVDKSRIAEAQKAGLQSVPALVTPN
+GNVLHINFGASIADVIG
+>tr|A0A1S1J1A4|A0A1S1J1A4_9FLAO
+MNKKLIFRTFLAKNTEKSFISIKTVTFEKKQGLLTKAQYPFFYFLKYYEKISFYQLSLFY
+FLVSCPKENTAG
+>tr|A0A1S1J1M4|A0A1S1J1M4_9FLAO
+MANYYPPVGFHFLVEFQGLGTKEKDHQFQSVSGLSVDIETEEIAEGGENRFKHKLPVKTK
+YPNLTLKRGILIDSDVIDWCRKAIENFSFEPVNLTVKLLNQEHQPLVSWNVVHAYPVKWS
+VEDFNAEESKLVVENIELTYNYFTLMKS
+>tr|A0A1S1J255|A0A1S1J255_9FLAO
+MKIAVWDTYVTRKDGTVMHFDILVDERTVDENQIFEYGKRYLKTVAQEGQPLTSKECKFC
+HIDKAPETVQSQILKQGFSIIEMENCN
+>tr|A0A1S1J3T5|A0A1S1J3T5_9FLAO
+MHILIVEDELGIVQFLQQGLQEEGYQITTANDGSKAFELIHSQHFDLILLDWMLPKINGL
+DLCRAIRVKDQKTPIIFLTAKDTVQETIEGLKAGANDYIKKPFSFEELVERIKIHFRNQK
+GSEDLTLGTIKIDLLKHIVLKNNEEVALTQREFELLKYLIQNKGKVCTRNQILKDVWEIN
+FEYDTGVIDVFMNAIRKKLNLKIEEDYIKTIRGIGYIANDL
+>tr|A0A1S1J0X5|A0A1S1J0X5_9FLAO
+MLEKDNTIEVLGARVHNLKNIDISIPREKLVVITGLSGSGKSSLAFDTIYAEGQRRYVET
+FSAYARQFLGGLERPDVDKIDGLSPVIAIEQKTTSKSPRSTVGTITEIYDFLRLLYARGA
+DAYSYNTGEKMVSYSDEQIKDLIIQDFNGKRINILAPVIKARKGHYAELFQQITKQGFLK
+VRVNGEVQDLVSGMKLDRYKTHDIEIVVDRMLIENTEDNQKRLSESINTAMHHGENVLMI
+LDQDTNEVRYFSRNLMCPSTGISYQNPEPNLFSFNSPKGACPHCNGLGTVHEINVKKIIP
+NPKLSIKAGGFAPLGEYKSSWIFKQLEVIGEKYGFKITDPIEKISEEAMNTILHGGKEKF
+TVNSKDLGVTRDYKIDFEGISHFIKNQYDESASTTIKRWAKDFMDEVNCPVCEGSRLKKE
+ALFFKINEKNITDLCDMDISDLTTWFLDLHTHLTDKQLLIASEVVKEIKDRLNFLMNVGL
+NYLALSRSSKSLSGGEAQRIRLATQIGSQLVGVLYILDEPSIGLHQRDNEKLIKSLEQLR
+DIGNSVIVVEHDKDMIETADYVIDIGPKAGKYGGEIISIGTPKETLKSNTITAQYLNGKM
+KLEIPKERRKGNGKSLKLTGATGNNLKNVSIELPLGQLICVTGVSGSGKSTLINETLYPI
+LNAYYFNGVKKPQPYKKIEGLEHIDKVIDIDQSPIGRTPRSNPATYTEVFTEIRNLFTMT
+SESMIRGYKAGRFSFNVKGGRCETCEGSGVRTIEMNFLPDVYVECETCQGKRFNRETLEI
+RYKGKSISDVLNMTVDEAVPFFENIPKIYRKVKTIQDVGLGYITLGQQSTTLSGGEAQRI
+KLAGELSKKDTGNTFYILDEPTTGLHFEDIRVLMDVINKLVDKGNTILVIEHNMDVIKLA
+DYIIDIGPEGGKGGGQLIAKGTPEEVVKNKKSYTAKFLKKELE
+>tr|A0A1S1J4C5|A0A1S1J4C5_9FLAO
+MSKNIILTNQEIEHKIKRIAYQIYETFVDEDEVVIAGIASNGSVFAQKLALSLGSISTLK
+ISLCEVKVDKQNPQLPIHTSLTKEEYENKGLVLVDDVLNSGTTLIYAVRHFLDVPLKKFK
+TAVLVDRNHKKYPVKADFKGISLSTSLLEHVQVVFDDNGDNYAFLS
+>tr|A0A1S1J5V4|A0A1S1J5V4_9FLAO
+MCLISFVKNIIINKMKKMPLYAAGFAVLLSIIAIYFAKSSSELVYVDVNKLITGYSKTKM
+AKSEFDKKASLMKANVDSLISNWQNELKTYEKERASLSPKELKLKQELLSNKQQQINGYQ
+EAIQKKIQEEDKKVTQTVINDINDYIKEYGKKHNYKIIFGASGGGNIMYADESTDLTEEV
+LKGLNAEYDKK
+>tr|A0A1S1J9A2|A0A1S1J9A2_9FLAO
+MRIELNRPSDMKLLSILKKIKNNPWVGVTVSLLFIIPCLYKILDDITVFRIEYLLLAVAF
+PIYIKSLKKIFDDILDTSDDFSD
+>tr|A0A1S1J9I6|A0A1S1J9I6_9FLAO
+MGETQVKTAHPKGLWVLFGTEMWERFNFYGMRALLTLFLVNSLLMKEEEASLIYGGFLGL
+CYLTPMLGGFVADRFLGNRNCIILGGLLMAIGQLLLFTSGSVFEGNRAFATIIMYTALGV
+IVFGNGFFKPNISSMVGSLYPKQEKTKLDSAFTIFYMGINIGAFLGQSICPLLGDVKDAG
+GVRDIHAFRWGFLAASAAMFIGTILFYFLKNKYVVSPEGKPLGGLPSKNDASDFEEGEAQ
+KANFSSKALTIAGIAFVALGFFFHYVVGQNLIYTLIYSSGLSLAGLIISDTSLTKVERDR
+IIVIYIVSFFIIFFWAAFEQAGSSLTFIADNQTDRNFFGWQMPPSMVQIFNGLFVVLLAV
+PFSVLWDTLRAKGKEPISPVKLAVGLVVISVSFFMIATQVSYIGTSGLLLVKWLILLYFL
+NTCAELCLSPIGLSLVGKLSPKRFASLLYGVFFLSNASGYALGGTLGSILPATGDKFAKA
+KELGIDLQAVLDNKVTPTAEQLALLEHHQISAHNHFFAGFEIHNLYEFFMVFVVLTGIAA
+IILFALTPFLKRMMHGVR
+>tr|A0A1S1JDG8|A0A1S1JDG8_9FLAO
+METNEFKNLEQLQKLTARYFHTLKSANDNAENSIAQIKFANYSELGSVITYMLKLCVLAL
+NQNRYENSETGINVGLILEMVLQIFPVDEFEFLSEISQIVATSSLPANE
+>tr|A0A1S1J1N0|A0A1S1J1N0_9FLAO
+MQFKFDINSKYIFIFLADYSGFTKKTIDYKKALCDIINFFFQLFLIVVFSKKITKNSIPV
+TKIIAYEVKLSL
+>tr|A0A1S1J223|A0A1S1J223_9FLAO
+MAYTPRLKEEYKSRVISALKEEFGYTNVMQVPKLEKIVLSRGVGAAVSDKKLIDYAVDEL
+TKITGQKAVSTISKKDVASFKLRKGMPIGAKVTLRGERMYEFLDRLITSALPRVRDFSGI
+KATGFDGRGNYNLGVLEQIIFPEIDIDKVNKISGMDITFVTTAKTDKEAKSLLAELGLPF
+KKN
+>tr|A0A1S1J4P2|A0A1S1J4P2_9FLAO
+MKNIKITLSLLLLIGFSSCDDFLSEVPDNRTQIDTPEKISELLVTAYPSSSYFALAEAMS
+DNVFDSELKQAANVNNDNSYNWEMQNQIGTDTENDFWTGSYEAIAAANQALDAIEKLGSP
+TSLNPQRGEALIARAYSHFMLVSLWANRYNPTTASTDLGVPYITKPETELLVKYKRNTVK
+EVFDFIEQDITEGLKYVTNDYKEPKFHFNRDAARALACRFYLIKGDWDKVLEFSEGLGSK
+PTKIRSYLAFNAVPFSQMPLEYSKAEQETNLLIAYPNSTANRAGAYRFALAGNKSDEILG
+NQTNMWGKPNLIKAQGQYYSGVLVVVPKLYEYFKVTNLTSGIGVPYTATVLLSNDELYLN
+RIEALVMKNRMAEANTELGFFLGTRTSGYNATTDVLNESVVQAKYPVITNEYTPFYTLSP
+LQASYIKAIAEARRKDFLREGLRWFDIKRFNLVVTHNTLEFGKVIRKNVLEKDDNRRALQ
+IPLRASDNGIEKNPR
+>tr|A0A1S1J5E7|A0A1S1J5E7_9FLAO
+MKTHFIAIGGSAMHNLALALHNKGYQVTGSDDAIFEPSKSRLEKKGILPAELGWFPEKIT
+ADIDAIILGMHAKADNPELLKAQELGLKIYSYPEFLYEQSKNKTRVVIGGSHGKTTITSM
+ILHVMHYHNIEVDYMVGAQLEGFDTMVHLTEENDFMVLEGDEYLSSPIDRRPKFHLYQPN
+IALISGIAWDHINVFPTYENYVEQFEIFIGKITNGGILVYNENDPEVKRVAEAATNPIRK
+LAYSTPKYSVNDGVTLLETPEGDMPIEVFGAHNLNNLAGAKWICQNMGVDEADFYEAIAS
+FKGASKRLEKIAEGKGKVAYKDFAHSPSKVAATTKAVKEQYPNRTLVACLELHTYSSLNA
+EFLKEYEGALEYADIAVVFYSPDAVKIKQLEEVTYGQIASSFNREDLIIYTNPDEFKEYL
+FNLNLENSALLLMSSGNYGGLNFDDVKGLIE
+>tr|A0A1S1J7X9|A0A1S1J7X9_9FLAO
+MKNARFLLIVVLLCINAVGYAAKVDTLQVASTAMSKTYKAAVVLPNSYAKSKTAFPVMYL
+LHGAYGHFSDWLKNTPNKKLVQNLSDQYNIIIVMPEGETFSFYLDSPVNKGSQFETFITQ
+EVVQKVDKTYRTISNRNGRVITGLSMGGHGALYLSAKHPDLFCAAGSMSGAVDMGVMLQR
+DASAQVVKLMQPVFGDKSDNSEMYAQYAVLGMLDKLKANKLPLIIDCGVDDFLIEPNREL
+HRRLVYSKVDHDYTERAGAHTWEYWENSLPYHVLFFNKILLKNQQVTKK
+>tr|A0A1S1J946|A0A1S1J946_9FLAO
+MKNKMMLVLIAYGGVVFSQAVKKPLVSAITDKDLKTDMYQMAGDHFNGREAGTLDELKVS
+MWLANKAKEAGMTPAGDDGTYFQFFDLYRHQVTPNTKFKIGQKEYKLWKDVLVAETTNIK
+VDAPLLYLGAATKEAIEKADVKGKAVVLLASKEGIADDISLFDRRYPGLVRNKYYDLVVK
+KGATALIMVADELAEQSWSQVEPQMTRGIYGIEGFRDKIGATMPVFWVHNDQLEYLKNTK
+DLLSTEVISETYKYPSVNVVGKIEGTDPKLKNEYVLFSGHQDHDGVRQKYGQDSIYNGAD
+DNASTCVAMLAIARAYKKQPGKRTSLFVFHGSEERGLLGSRWYASHTTVPEKDIVAVLNG
+DMIGRNNVNQAALLGSSSPHENSSDLVAIAKKANDEGPKFDLDKLWDRPEHPEYFYFRSD
+HLPYARRGIPSVFYTSVLHSQYHTPMDESENIDFVKLHKMTEWMYRTGWILSNDAGRPKT
+LPNVQLER
+>tr|A0A1S1J9A6|A0A1S1J9A6_9FLAO
+MMKNPKIKVTETQLLSDNWYLLNKVTFDYEMKDGKIESHIREVYDRGNGAAILLYNTSKK
+TVILTRQFRLPTYLNSNKSGMMIEVCAGLLDQDHPEQAIIRETEEETGYRLQKVEKVIET
+YMSPGSVTEILYLFVGEYDETMKVNDGGGLDAEQENIEVLEYTFDEAYAMIESGEITDAK
+TILLLQHAKIKGLI
+>tr|A0A1S1J9L0|A0A1S1J9L0_9FLAO
+MAKLTKKQKEAASKIEKNKLYSLKDAAALLKVVASAKFDESVDIAVRLGVDPRKANQMVR
+GVVTLPHGTGKDVKVLALVTPDKEAEAKEAGADYVGLDDYLQKIKDGWTDVDVIITMPAV
+MGKLGPLGRILGPRGLMPNPKTGTVTMDVAKAVAEVKAGKIDFKVDKTGIVHAGIGKVSF
+GAEQIVDNAHEIIQTLIKLKPTAAKGTYIKGIHLTSTMSPAIALDPKAV
+>tr|A0A1S1JBI2|A0A1S1JBI2_9FLAO
+MSIYKKIAIGIISVLFFVILFDMGLNYWIKKQLPLIVHEKNKTAYSIHYEKIEVSLWSRS
+INAQTLLIHPKNQLQNSKTKNGIYAKIESITIRHFNIWDLAFRDIIQAESIIINKPRVIL
+YKKGEKLLNNSRSIQTEIITPFQKILAVSNIYLNEGSVDVVSLNHNQPIFSIKKMILKLE
+GILVTATTLKEKIPMHFEKYVLVCDSLYFKPNAFYRLNIGKISSENQFLRLKNFSYLPEF
+NRKEFVQKLDKEKDIYTLKLDSADIEKMDWGFKKEQFFFKANSLVAHHLNANIYRNKIPK
+DDLSKKYLYNALLRKIKFPLQIDTIRILKSKLVYEEEIDFSKGPGILNFHNFNLQAIHLK
+SGFALKKTADVKIKINCLFMKTSPLHVDWSFNVLDPKDSFHIEGTISRFNVAAMERFTKP
+YINTTFTGKFHKYQFDFYGNDDNVKGNALMDYENLKVKLFKKKHLEKEAKLKTAVANLVL
+KDDSGATSKTADVELDRIPEKSFYNFLWRSIAASFTQILI
+>tr|A0A1S1JBT3|A0A1S1JBT3_9FLAO
+MKKKKLNKYDKAYLRIAKEWSLLSYCKRKQVGAIIVKDRMIISDGYNGTPSGFENCCEDE
+EGLTRWDVLHAEANAILKVARSTQSCEGATLYITLSPCKECSKLIHQSGIKRVVYHDGYR
+DDSGIQFLIKAGVEVEHIPVLEE
+>tr|A0A1S1JA74|A0A1S1JA74_9FLAO
+MYNTSFVKKILLVATVVLLYSCDKDFNAIGDGLIGDDHFGLESEKYEVLAYNQEVTPIQS
+NGSVNYGLGIYDNAVFGSSAASFVTQVSLDTYAPTIGDAPEIVSVVLSVPYFNHVKTANS
+DGSRTFVLDSIYGASNGKIKLGVYESGVQMRSSYFDGGAQFAQLYNTDMDTDTGVADYIN
+FDKSKKPYVATGKPLNDDPNIAQNDEFFFNASEITDVSTDPTTGKETSTKVAPEMRLNLN
+KAFFLDKILKAPAAKLASADVFQEYFRGLYFKVERSGSSPANMALLNFATNGKITIKYKA
+KTAITTDPEDTKEDKTLTIKLTGASASLLKEAKDPAYASAITNPNKTTGDDRLYLKGGQG
+SLAVLELNGFGAKLDEIRTKKWLVNEANLVFSIDSDKMTGSYEPKRIYLYNLDDNVPIVD
+YVSDGTSSSNPLLNKAIYSGIINVDPTTKRGTTYKIRLTNHIRNMIKNATVKNVKLGLVV
+TGDASTIASNKLKLKNNVISEAPRASVISPLGTVLFGGTSSATIPAGKKLQLEVYYTKPN
+>tr|A0A1S1J2V7|A0A1S1J2V7_9FLAO
+MQNIPSVDLRDFLSDDPKRKQKFVNEIGSAFENIGFVALKGHFLDDQLVDELYSEIRKFF
+ALPVETKHNYEIPGIGGQRGYVSFGKEHAKGRKEGDLKEFWHFGQYVDASSKYAAEYPEN
+VNVTELPRFNVVGKEAYQMLEKTGVYVLRALALHLGLDEFYFDQYAKDGNSILRPIHYPP
+ITTEPENAIRAAAHGDINLITLLMGAQGKGLQVQNHDGEWIDAIAEDDQLVINVGDMLSR
+HTNNKLKSTIHQVVNPPRELWGTSRYSIPFFMHPVSDMKLDCLENCIDAENPKKFEDITA
+GDYLYERLVDLGLIKK
+>tr|A0A1S1J7Z9|A0A1S1J7Z9_9FLAO
+MRIEKANTTDSEILTQITKKSKAYWGYSAEQIQKWEVNLTISPDYIKEHDVFKLVKDKVI
+IGYYSYLFEDEKNVKMDNLFILPEYIGKGFGKYLFLDFLNRMKEVEIQTIQLDSEPNAEG
+FYLKMGFVKIGAFETSIKDRFMPIMKMKL
+>tr|A0A1S1JB29|A0A1S1JB29_9FLAO
+MAKVLKFKEVSSDVEHRMKEFEKIRIQLKTQVKKAEAKNAAAGKEGKGLFKSISEFFADP
+PKKSAQSNVRK
+>tr|A0A1S1JB05|A0A1S1JB05_9FLAO
+MSELLLSPEHRYAKIIKDKLNEDGSELSVLNLGPTHPATHGIFQNILLMDGERILEAEPT
+IGYIHRAFEKIAENRPFYQITPLTDRMNYCSSPINNMGWWMTIEKLLGIEVPKRAQYLRV
+IVMELARITDHLICNSILGVDTGAYTGFLYVFQFREKVYEIYEEICGARLTTNMGRIGGF
+ERDWSPEAFRKLDVFLEEFPVAWQEFVNLFERNRIFLDRTVNVGAISAEQAMAYGFTGPN
+LRAAGVDYDVRVAQPYSSYEDFDFVVPVGKSGDTYDRFCVRNAEVWESLSIIRQALAKMP
+AGNEYHAEVPDYYLPPKEDVYTSMESLIYHFKIVMGEVPVPVAEIYHPVEGGNGEVGFYL
+VTDGSRTPYRLHFRRPCFIYYQAYPDMIKGALLSDAIVILSSLNVIAGELDA
+>tr|A0A1S1J7W5|A0A1S1J7W5_9FLAO
+MLIIGLAGGTGSGKTTVVHQIMNELPDTEVGVISQDSYYKETNNLSFDERALINFDHPRA
+IDFELLVKHLKALKAGETIDQPVYSFIQHNRTDDTVSTHPRKVMIVEGILILTNPELRDL
+FDIKIFVHADSDERLIRRLKRDISERGRDIDEVLTRYQNTLKPMHEQFIEPSKAFADIII
+PNDKYNTVAIDVVRAVINQRIL
+>tr|A0A1S1J0Y6|A0A1S1J0Y6_9FLAO
+MNLKEKLNEIGQKPDMILIITDEQRATQHFPPGWEEENLPTLTFLKKNGFSFDRAFCNTC
+MCSPSRSTLFTGLYPAKHGVSQTLTEGGLLSPQEPTLSNALPNIMNTLWADGYDVQYRGK
+WHMSKGVAPNGTKTNYEDLTAADISLFGAMGWISPDAGEDVNPLNFGGGYANHDARYTAE
+AIQYLKEVRAQRAAGNHKPYCLILSLVNPHDVLAYPNTAGTSGYHPDSWLTREIGLPATV
+NENLLENKKPMAQEQILINMALTLGAINSTEDKLNYINFYGYLLSLADKQFGYLIDELYR
+EDEHGKKLADSALVTMTSDHGEMGLAHGGLRQKTFVAYEEALRVPLVISNPILFKDHPVK
+HSMALATLADIFPTFIDMANVSNPPTGLAGTSLLPIMQDNTPVQHSILFTYDDVKAGSNS
+TWTIVRAANRIRCIRTEKWKFDYYFDAATAYFKQYELYDLVNDPLEITNLAYDPAYSEIR
+HELEEQLHQLEVEKLWVNAPKDIYSTTTFN
+>tr|A0A1S1J2D8|A0A1S1J2D8_9FLAO
+MLFAYFLSYRILPRLMTPKNHSMVWLEFIVGCYLISAINRTIIIYVLEPIVRTPPFIQES
+IFEIFTDISKLFRSYFIQSFFLSLFFVFVKQVKNQYLVQKKALLLEKQKAETELKVLKAQ
+LNPHFLFNTLNNIYSLSLVNSPITSPSIAVLSEILDCILYRCSGTYVPVSQEIALLNNYI
+ALEKLRYDERLSVIFNTDIDHNDVIAPLILLSLVENAFKHGAGEDTDSPVIVIDLKLKNS
+HFTFTVKNTIGKSETESENGKIGLNNIIQQLDKIYPENYTFEVTKNDTHFTAHLEIKLQN
+DSNQA
+>tr|A0A1S1J2I5|A0A1S1J2I5_9FLAO
+MDILDEFDISIIKELEKDGRMAFSAIAANLKISNTMVHQRINRMIEQGVIGGIKPIIQEK
+NIGYDWASFTGITLNKDSDSDRIIEELKKIPEITECYYVTGSFTLYIKIIAKNHEHMRRI
+LYEKIDGIPGIAKTDSIIELGCAFKRNISL
+>tr|A0A1S1J660|A0A1S1J660_9FLAO
+MSIISLIIKREFIAKVRNKSFVVMTFLSPLLFVAIAGFIGYLSSMKAETKRIAIHDETGL
+FAQDFLKQNKEEAEFKYLNLSEIDTKALKDSITNESFDGLIVIPKTGKLSDLESKIEFIS
+NNSPSISFIEKTQDVIASKITKINLETAKLDTLAIQKAQSDVNIHLVKASGEESLKGLNE
+IKIGIGGAFGYLIMMFIIIYGNMVMRSVIEEKTNRIIEIIISSVKPFQLMIGKIVGTSLA
+GLLQFMIWAIIGLGLMFAASAFFGVNVGPTARISPELMQSAQHEMSGTAQMYIRELWNLP
+IASIIIGFVIYFIGGYFLYSSFYAAIGAAVDNQTDSQQFLLPIIMPLILSVYVGFFTVVN
+DPHGTIAVVFSMIPLTSPIVMLMRLPFGVPWWQIAISVSLLFATFFLVVWFAAKIYRIGI
+LMYGKKPTWKELYKWLKY
+>tr|A0A1S1IYS1|A0A1S1IYS1_9FLAO
+MKKESQYFLDKEYDTIIYGKEDVNFKDFECCVFNNCNFSACTFLAVTFIDCVFNDCIFSE
+AKINYVAFRTATFNRCEIKDVNFAMCDKLIFEIHFYDCILDFSKFYTLKIKGTTFTNCSL
+IAVDFMATDLTSVLFDNCDLYRSEFDKAIANKADFKTSYNYTIDPSKTKLKKAVFALNEV
+KGLLFKHDIIVS
+>tr|A0A1S1J3E1|A0A1S1J3E1_9FLAO
+MSKKENNPTKSLKIPKFIIASAKICAFFSTKLVTTYAAKLFTTPVKHKVPKRELDMEQKS
+IQRTIYVPVINKSVVTYEYGKNNRKILLVHGWAGRGTQLFKIADELLKNGFSTVSFDAPA
+HGKSEGKSTIMSEFIASILEIEKQFGPFDFAIGHSLGGMSVLNAIKDGLQVKKAIVIGSG
+DIVQDILNDFVAKLELKPEISERLRDHFEEKYQVKMDDFSAYKAAQKVKLPVLVIHDHDD
+PEVSVKAGIHIHKQLESGTLYLTEGLGHRKILGNQNVIKKTIDFIKTS
+>tr|A0A1S1J793|A0A1S1J793_9FLAO
+MSKNLNTVAAIIGAAAAGAAIGILFAPDKGSKTRAKLKEGLDDAAHNLKDSLSASSEVLR
+EKFTHAKENLDGTYGELLSNMSYKTEEVISFLEAKLADLKAQNAKLQK
+>tr|A0A1S1J960|A0A1S1J960_9FLAO
+MYAIVEIAGQQFKVSKDLKVYVHRLANEEGSKVSFDKVLLLDDNGNVTLGAPAIEGASVE
+AKVLQHLKGDKVIVFKKKRRKGYKKRNGHRQYLTQIVIEGITAAGGTKKAAAKKAVVAEE
+VSAEAEAPKAKKAAPKAKKEATKE
+>tr|A0A1S1J6N1|A0A1S1J6N1_9FLAO
+MPANPKYLTQSKWQRFAKITAAILGGYFVSVTFHLALAAWFSRADILMTMAFSGFILWVA
+LMVVAFLAKNGWKIWGIYILITLVFSLLIYLGQTYNPIAK
+>tr|A0A1S1J8P8|A0A1S1J8P8_9FLAO
+MSTATKPNHIGRKISRIRELKDMKQEALAQALGTSQQTVSTIENSETIDDAKLAEVAKAL
+GVSVEAIKNFNEENMISYFNNFYDNSCNGANGMFHANYCNFNPLDKVIELYERMLQAEKE
+KVEYLEKLLKEK
+>tr|A0A1S1J9F5|A0A1S1J9F5_9FLAO
+MTNNDILKKLRVALMLRDDQIVEILELVDFRISKSELGAFFRAEDHPNFMECGDQVLRNF
+LNGLVIHLRGTKENPKNPNDVLAKHKAQIPKKDSTKDRPEFKAAPKDSERARGDQSPSKS
+SSADKRPKKKEFPKGNGKPVVVEKVVYKNGKNKK
+>tr|A0A1S1JBW1|A0A1S1JBW1_9FLAO
+MSQTKPIVSSYNEWDPLEEVIVGTMEGASVPPWHVTLKATMPENHWDFYKKNGGKLFPAE
+QIKAAQLELDNLAHILEQEGVIVRRPDPVDFNRPYSTPDWKSEGGLYSAMPRDVLLVIGE
+NIIEAPMPWRSRHHEVNSFRPLIKEYFNKGAKWSAAPKPQLLDELYDYNYQEGSGNDPIN
+YVINDFEPVFDAADFTKCGKDIFVLKSHVTNDAGIKWLQQHIGDEYTIHKIDCNDRHPMH
+IDTTFVPLAPGKLLIHPDRMNKIPDMFKSWDIMKAPAPVMPDSQVLYMSSKWLTMNTFMI
+DSERILVEKNEKPTIEALKKFGMKPIPCSFYNFNTFGGGFHCATLDIRRTGELKSYF
+>tr|A0A1S1J841|A0A1S1J841_9FLAO
+MDALSYKTVSANKATVTKEWIVVDAEGHNLGRLASKVAMILRGKYKPSYTPHVDCGDNVI
+VINSEKINLTGTKMNDKIYMRHTGYPGGQRTLTAKVLQSKNPALLVEKAVKGMLPKNKLG
+AELFRNLNVVVGAEHTHGAQKPRTVNLNDLK
+>tr|A0A1S1J586|A0A1S1J586_9FLAO
+MEAPLAERIRPQHLEDYISQSHLVGPNGSLTQQISKGIIPSLIFWGPPGTGKTTLAQIIA
+QESKRPFYILSAINSGVKDIRDVIEKAKQSGGLFTAKNPILFIDEIHRFSKSQQDSLLAA
+VEKGWITLVGATTENPSFEVIPALLSRCQVYVLNAFTKADLEALLHRALKTDTYLASKNI
+TLKETEALLRLSGGDGRKLLNIFELVINASAGDEIIITNDRVFELVQQNTVLYDKSGEQH
+YDIVSAFIKSIRGSDPNGAVYWLARMIEGGEDVKFIARRMLILSSEDIGNANPTAFIMAN
+NTFQAVTTIGYPESRIILSQCAIYLATSPKSNASYMAIGNAQQLVKQTGDLPVPIHLRNA
+PTKLMKELGYGDDYKYSHDYANNFAEQEFLPDAIKETVLYNPGRNSRENSNREFLKNRWK
+DKYGY
+>tr|A0A1S1J7F5|A0A1S1J7F5_9FLAO
+MFHLLDIIGTMAFAMSGALTAMHKKLDPFGVFIIAFVTAVGGGTLRDVLIGRTPVGWMLD
+LQYVYVIILGFGFAILFRKKFDRLRTSLFLFDTIGLGVFTLIGLEKGIMIGLHPAICIAL
+GTMTACFGGVIRDILCNEIPTIFRREIYATICIFGGIVFFILKKLNLEDDVLYLVTSVVM
+IVTRLLAVKYKWYLPAFEHK
+>tr|A0A1S1J182|A0A1S1J182_9FLAO
+MHHHFLLFKPYGYLSQFIYELKRKKKLLGELYHFPDGTMAIGRLDEDSEGLLLLTTDGRI
+SELVRSKKVDKEYYVQVDGIITPEAIETLQKGVEIGFDGGKYKTRPCTAFIVTEIPDFGP
+RAKKIRDERHGPTSWASITIREGKFRQVRKMTAAVGFPTLRLVRVRIGNVSLQNLKAGEV
+MEVTDFNLDN
+>tr|A0A1S1J242|A0A1S1J242_9FLAO
+MKLKFNGFLVLFLVLVAQLTFAQERAVSGTVSDNTGIPLPGVSVLVKGTKTATQTDFDGK
+YSIKAAPNQVLVFSYIGMKAQEVSASSTTVNTKLKDDSVELESVVVTALGVKKSSRALGY
+ATQEVKAADITRANNNSLAGALQGKLAGVSITPSSGAPGASSQIIIRGARSFTGNNTPLY
+VIDGMPVASQPDFGTGNGVTGADVANRAVDIDPNEIESINVLKGQAASALYGLRASNGVI
+LITTKSGKNLAQSGKPTITFNTSTSFETISKKPSTQNEYAQGINGKFDPNSSMNWGPKIS
+ELPNDATYGGNVANALNGGTLRPGLYYVPQRAKAGLDPWVAPRAYDNIGDFFKTGFTINN
+TLNIAQSTEKTNYSFGVGNSKQDGIIPETGMSRYTVKALVDTKLNNEWKTGFSFNYVQTK
+INKSSAANDGAIVGVFGGPRSYDLKGIGYANPSNPYDQIYYRPGVFNNPYWAAKNNEFSE
+KTNRVYGNAYIQYSPIISENGSQKLTVKYQAGVDSWTTNYRDIFEFGSKLDLSGQTSSAH
+LYGTTNDVINSLLTVNYNLNITNDFNLNVLVGNEYNHQNTKEYDDLGTAFNFGGFPTITN
+ARIVTASEFRRQIRTVGLFGNAEFSYKNMVFLSGTIRKDVASNMPRGNRDFVYPSASLGF
+VVTELEGLKGGSVVSYAKLRGSIAEVGQAGNYVGNSFTTPSYSGGFWSGNPVQYPLGGIS
+SFIPSNVQYDPNLKPQNTKSYELGVDLKFFNNRVGVDYTFSKQNSTNQIFNVPLSGSTGA
+NSLVTNGGKMRNDVHELSLFVNPVRTADFNWTFNVNYSQIDSYVEALANGVDNIFLGGFT
+TPQLRASVGDRFPVIYGTGYLRDANNNIVVNAQGLPQADGKLKVLGEVAPKFTLGGSTQF
+TYKRVSLGAVVDWKNGGKMYSGSNNLMNFYGVDARTADRTSQFVYPGVKADGTPNDIVRG
+GATDPNGAQQLQAALNGIAESAVFDASFVKLREVTLGYQFPKLLDNAVDIKASVFARNIL
+LWSKMPNLDPEATQGNNNFAGGFEQWSMPQTKSIGFGLNFTF
+>tr|A0A1S1J6J7|A0A1S1J6J7_9FLAO
+MAKKTVNNDVLLANIIKGIEEVKGNDIDILDLREIDTAVCDYFVICNGSSNTQVNAIVNS
+IQKTVSKDLKDKPWHVEGTDNAEWVLMDYVHIVVHVFQKHIREYYNIESLWGDAKITTIE
+NKY
+>tr|A0A1S1J8W5|A0A1S1J8W5_9FLAO
+MNRIVLILMSLSLSVFSQKKQPSKEEKDMIYEMTYNINKEIFKTPNFPFKKVNRKMDEIQ
+KKAIQSLEVINSSIDTIISRGVLKLEKSTYGYDLLFNSRFPSYFKENDETTIVDFHPVTS
+KLFNSKKELIEIQHVGGTSFGIEFLYKYKNGKEVNLNFTTLRKQDQINNAINFKNNNELD
+EIKGSVVYNIKFITDYSQVKLSQKDIGSTFKLNNNEYKLVDVINNVILIEAVDQNSDREN
+KIGLVNYDELGNVLVTYSDKEMAELKKKNKKINDERAGLSDIRGNISKHVFETFKANPTM
+SFEEFKKTFIIDEVINEKRKYIFIQTIAPIKNDFVLYEPVYGIDRSFEMIPNLKEPEPKK
+MRTEDYNAPQLSADWNEKLFGNIKEYTENVYYATKKNGKYVKGKMQNYTTYKKNANGEFV
+EDKIFPKKSDYPENKYNSLKQKIESIGYDDDEKITGRTIYSYGPEKKIVEEKSYFSDNDT
+LRSLVKYKYDKNQVIKTSFSYDYQDGETKVTESEDVLVYDERGNLIEEHSKNNKEDSGYL
+DEMVIYRKYNSDNRRIEESSSDSFLGDGKIKLDTKLEYLKIDNQKNWTEMFFEGGLGSEK
+PEANFVERIFVYE
+>tr|A0A1S1J8S7|A0A1S1J8S7_9FLAO
+MQTSLFNIGDKTLTSRLFLGTGKFGSNLEMENAILASESELVTVALKRIDLETETDAILT
+HLNHPNIHLLPNTSGARNAKEAVFAAQLAREALETNWLKLEIHPDPKYLMPDPIETLKAT
+EELAKLGFFILPYIHADPVLCKHLESAGTTAVMPLGSPIGSNKGLKTIDFLEIIIEQSNV
+PVIVDAGIGSPSDAAKAMEMGADAVLVNTAIAIAGNPKLMAEAFKEAVIAGRKAFEAKIA
+PQQNYAVASSPLTSFLYE
+>tr|A0A1S1J7S5|A0A1S1J7S5_9FLAO
+MKLFIKFDINTICSLFLKHNLDQHNVSFTTLGFGEIELNNNLDAEALEALKEKLSPCGFE
+VVENQKSVLVQKIKDAIIELVFMEDSNNYKSSVFLAEKLNHSYGYLSNVFSEVTYSSIEN
+FIILQKIERAKQLIIINEMSLTEIAFLLNYSSVAHLSTQFKNTTGITPSAFQRIIKKRRE
+NLK
+>tr|A0A1S1JB73|A0A1S1JB73_9FLAO
+MNKLLIVGTVAFDAIETPFGKTDKILGGAATYIGLSASFFNLQSAIVSVVGDDFPQEHLD
+LLTSKNIDISGIEIVKGGKTFFWSGLYHNDLNSRDTLVTELNVLADFQPKVPQNYKDADV
+VMLGNLHPLVQSSVLDQLEKKPKLVVLDTMNFWMDCALPELLDVIKRVDVITINDEEARQ
+LSGEYSLVKAAAKIQELGPKYVVIKKGEHGALLFHNREVFFAPALPLEDVFDPTGAGDTF
+AGGFSGFIAQSENISFGNMKNAIIYGSNLASFCVEKFGTERMESLSKAEVAIRLQQFKSL
+TQFDIEI
+>tr|A0A1S1J1M6|A0A1S1J1M6_9FLAO
+MATTKWSIDPTHSEIGFKVKHMMFTNVSGKFGTYDATINTDGDNFENAAIEFSGDITSID
+TANTDRDNHLRSGDFFDAENHPKLTFKGSSFKKINEGSYELTGDLNIKGTSKSVTFPVEF
+SGTMTDPWGNTKVGLNIEGKINRKDWGLNWNSALETGGVLVGEEVRLNIELQFAKQA
+>tr|A0A1S1J1Q4|A0A1S1J1Q4_9FLAO
+MKQRINLLIAFSVIALIVLSTVQCYLVKTTYDYKVAQFHTEIKNKIAGISNDYSDIDSVI
+VAKKEALFQQLSENYIQGKNNKFEIKKYILENEYSDALTQKIQSKFKRDLPELKIDFAIV
+LNKFVLYQNHAKADTIFSEKPFIQNKLYGNLISLNHAFLVRNYVGTTNGTFENKNYKLLT
+EDSMYVSVIDWEMIILKRMTFVLILSLLSIATLITLFFIAIKALIKQKKANDVKTDFINN
+ITHELKTPLTTLGISTKILERKDIRDNDESFNAIVNTISRQNNRLQNLIDQVMANSLAEN
+GIELQKENIETENFLLTIVNDFKITYPKIDIKTNFQTQKTNLLLDKFYLTTALLNVLENA
+VKYGSNSITLKTKLNQNQFSISVEDDGIGIEKSKQSLLFEKFYRVEQGNLHNTKGLGLGL
+YYVDQIIKAHQGTVSVVSDLGKGTQFTILLKV
+>tr|A0A1S1J9F8|A0A1S1J9F8_9FLAO
+MTIKEIQNEIIDEFSMFDDWMQRYEYIIELGKSLPLIKEEYKTDDNLIKGCQSKVWLQGE
+QKEDSIVFTADSDAILTKGIIAILIRTFSNQKASDILSADVDFIDEIGLKEHLSATRANG
+LVSMIKNIKMYALAFDAKNKN
+>tr|A0A1S1J6V1|A0A1S1J6V1_9FLAO
+MKKKTIAIDMDGVLADIEAQLIKQYNEESGTSLSKESIQGLSEEEAFSDRVLLRKVLNAD
+NFFRNLPVIPDAIESLRRLQENFEIFIVSAATEFPVSLAEKVAWLAEHFPFITWENIILC
+GSKRIINTDYMIDDHRKNLDHCMGKPIMFTAFHNVNLTHHLRVNNWKEAVEILEKDIVSN
+LN
+>tr|A0A1S1JBM1|A0A1S1JBM1_9FLAO
+MKSKIACLSCLILMSLTSFSQSISSSPYSLYGLGSVYDSDFGNIPSIGSSGIALPSASFI
+NNLNPASLGYLPQNHFMFDVGGKSISTTYQSSLRSESRNNFQFSHLAFAFPVTKNSGFSI
+AIRPYSSAAFKISNLKLPIENSQDFYYLTATGSGGLNNLDLSYGYRFGKKWSVGASASVL
+FGNTKDNRSFLIMNSITSIQKKTHYSGLRATLGTQYHVDSTLTVATTFKVPTRIKASKVQ
+TVQTIADDVVTTIESDVASDTDDYYMPLEMGIGISKRFKNNLNMTLDYEKSLWGSTNQSE
+LYGNFVNQDRFALGFTYSGRKNIRKYWDRVQYAAGANFDTGYLEIDGKRIHNAAISIGLN
+LPLENTYSSLNISYSYGQRGRVSDNLIKENYHKISLNLSLDGIWFVKRKFE
+>tr|A0A1S1JCK0|A0A1S1JCK0_9FLAO
+MKTATQSKKTSLKRFLRKRAIYYFLPNVCFNFIIAYASFQELGYTHFFAGPQSLARLTLP
+MAIFLPVILTMDIINRVIVASKQELIEVAIDHKLNKNKFITKLCLLHGIITGLLVLTILL
+LAQQSLTVNHKLDPTLMALLDAVLAGLLSILFTYLPIYRLKKHFHQPLSKVQIEIADH
+>tr|A0A1S1J679|A0A1S1J679_9FLAO
+MLIGSNSHLSYCTNIHAGESWEVVFESVKTYCIPLKKKVSPHKPFGIGLRLSYQAASELI
+AENHLLIFKDWLQKNEMYVFTMNGFPYGNFHNEVIKDKVHLPDWTNPDRLNYTELLFNIL
+SQLLPPDIEGGISTSPLSYKHWYATENSLTEAKRTATSQLITVVAQLVKIQESKGKMMHL
+DIEPEPDGIIESSDEYIAFFEDYLLKEGASLLVKNLLCSLTQAQEYIRNHIQLCYDICHF
+SIGFEESDEVIRKMQKHGLNIGKLQISAALKCTVSENTTVEQLQKCLKTFDEPTYLHQAV
+IKTKEGALLKFKDLKNGIEAISRDDFRELRTHFHVPIFVEDYQLLQSTQNDITTILRSWH
+KNEFTRHLEIETYTWQVLPIHLQTDLDQSIERELKWVLDKF
+>tr|A0A1S1J8W9|A0A1S1J8W9_9FLAO
+MNTEVHCYPQSIILLAVYFKVRFTLSYRDIEEIMKIRAVIVVYARIQHCAYADLNARNSY
+FRTFRDLCFAVEKIKFFYF
+>tr|A0A1S1JEK1|A0A1S1JEK1_9FLAO
+MKYTTLPHTDIKVSKINLGTMTFGQQNTEAEGHQQMDYALERGVNFFDTAEMYSVPAREE
+TYGSTEKIIGTWFKKSGNRDKVVLATKIAGPNPAFTYMREKGDFSPASIKYALENSLRRL
+QTDYIDLYQMHWPERKTNCFGQRAFNGHDDVWEDNFREVLETFDGLIKEGKIKHIGVSNE
+NAWGMMRFLEESKYQNLPRIKTVQNPYSLLNRLFEVGSAEVSKYENVGLLAYSPLAFGVL
+TGKFLTGEAHLNARINLFPQYTRYNSAQSTQATKLYQEIAIKHGLTLTQLAMGFVLQQPF
+LTSAIIGATTMEQLKENIDTIDVVLSEEIIAEINAVQAIIPDPAP
+>tr|A0A1S1J1R9|A0A1S1J1R9_9FLAO
+MKLNCVVVDDSSIQRTIIAKLVNNHPGLHLIGDFSNAIEAKSCISLNNIDLIFLDIEMPV
+INGFDFLDGLKSKPQIIFITSKAEYALKAFDYDATDYLQKPIAVDRFNASVKRAIDMHLL
+KKDIKEEEGEHIFIKSNLKKLKIFTAKIKWIEAFGDYVRVVTEDDSNLVLSTMKSFENDL
+SKDKFIRVHKSYIINIDKVERFNSKFAEIGITKIPLSRNKKEDLVKALSTSS
+>tr|A0A1S1J810|A0A1S1J810_9FLAO
+MKQLQDQLGTLHTFETAPKRIISLVPSQTELLYDLGLEEKIVGITKFCVHPYHFKSTKKM
+VGGTKKIHYEKIKLLQPDIIICNKEENTPEIVAQLSTICPVWVTNIVSIEDNFQMISDFG
+QLFNCRTEAQKWNNKLLFALDDFKKYVQDIPEKKTAYFIWKNPYMVAGNDTYINELLKLN
+HFQNIYGDKGRYPEIELRKMRLEGDPDLVFLSSEPYPFKEEDAFEIGRFTHHAKTIFVDG
+EMFSWHGSRLLKAFPYFKLLHERLRN
+>tr|A0A1S1J894|A0A1S1J894_9FLAO
+MLLKFQNHLAVRFPFLEDKKLFLAVSGGLDSMVLLHLFQQLPFEIAVLHCNFQLRGLESF
+GDQDFIQKYCDENGISIFSTQFDTEAFAKDYKLSTQIAARELRYNWFYELLETENFDYIL
+TAHHADDNLETFIINLTRGTGLDGLTGIPEQNDKIVRPLLPFSRAEILEYAKQNNILWRE
+DSSNASNKYLRNKIRHDLVPILKEINPNFLNAFQKTQEYLQESQEMVEDASIMIYQQVAK
+EEGEDIHFDLNQLKKLPNYKSYLYQWLNEFGFVAWNDIYDLVEGQSGKQVFSADFRLLKN
+RDTLILSPISELEENEVFEISAGEQDVNFPLKLRLCQVDDITIDSNKAIFVDAEKIRFPL
+ILRKWKEGDVFHPFGMNGKSKKLSKLFKDEKLSLIEKEKIWILCSDNQIVWVIGIRQDER
+FKIENTTNEIIKIELL
+>tr|A0A1S1J352|A0A1S1J352_9FLAO
+MKRSEQLSKLENTEHWDVIIIGGGASGLGTALDAASRGYKTILLEAVDFAKGTSSRSTKL
+VHGGVRYLEQGNIHLVIEALKERGLLAKNAGHLVKNQSFIIPNYNFFAGLFYTIGLTVYD
+LLAGRLSLGRSKYLSRKKTIEMLPAVAERNLTNGVIYHDGQFDDSRLAINIAQTAIEKGA
+CLLNYVKVVNLLKNDNNQIIGVEAINHETGKKYEIKGSAIINATGVFTNAIMKLNDTVYK
+KYIVPSQGIHLVFDQSFLPGEHALMIPKTSDGRVLFAVPWHNRIVVGTTDTLIRKHSLEP
+IALESEIEFVLETAQRFLAKKPTRADVLSVFAGLRPLAAPKEEGKSTKEVSRSHKIIVSE
+TGLITITGGKWTTYRKISEDIIDKAIKIGKLPKKTCITEHLPIHGNKATTNSDRTNHLYI
+YGSDLSEILELQKREPELKEKLHPDHEFTMAEVVWAIRYEMARTVDDILARRVRLLFLDA
+RAAIASSEKVARLLAKELGHDETWILREMTNFHGIAKGFLLKEFQ
+>tr|A0A1S1J710|A0A1S1J710_9FLAO
+MLKNKNFFTAALCLLPQLFFAQYTDVINSNRPGETMSAYAVGKSVIQAELGVYGIKEKHN
+LLDYDANGFGTDLTIRYGAFLEKLELIADIQYQMENFDTPYTSYKKNNFRQTVLGAKYLI
+YDPYKNYKKEANIYSYKANRSFNWHELIPAVSLFAGANFVGKDNPYSFSPQSSISPKVML
+ITQNLFGGGKWVFVTNIIADYISTDYPSYGYVLTLTRGFNDKWSGFVENQGYKSDFYSDA
+IVRGGAAYLINPNLQVDASISTNFKNTPSILYGGVGVSWRYDGRYKENQLQTKREDRAKK
+NKDNELEQKEIDYQAKERKRKSKYE
+>tr|A0A1S1J761|A0A1S1J761_9FLAO
+MTAFFEGIQYLFVNILFAPLDFLRRLELVTWFGANTINWIFMIICSCAIVYWIKQLRIFD
+DAGTENQDTTAHSFLK
+>tr|A0A1S1JDJ1|A0A1S1JDJ1_9FLAO
+MFKKDNWDEILQALTANVFRTVLTAFGVFWGIFILVILLAAGNGLENGVKKGFDGIATNT
+MFMWSQTTSKAYKGLPKTRRYDFRNSDVGALKAALPDLLYVSPRNQLGDFNGTNNVVRGT
+KTSAFTIYGDYPELIKQQPMDIIKGRFVNQQDILERRKVAVVGKGVISELYGKEEEAIGT
+YVKINGINFMVVGVYNSKQQGGNAEQEQKNIFIPFTTFQQAFNYGDKVGWMALTAKDETS
+ITDLKPKILEIIKGLHSINPTDERAVGNFDLYEQFNKVQSLFSILKIIAYFVGTLVLISG
+VIGISNIMLIVVKERTKEIGIRRALGATPAAIRGQILAESIFLTIISGMLGIAVATGIIA
+ILNMALASMPPDSNTMFANPSVDLRVVFVALIILVGSGLLAGFIPAQTAINVKPVDALRT
+E
+>tr|A0A1S1J456|A0A1S1J456_9FLAO
+MLKQFVLFLLVTICSVSYGQIGGRHTYQFLNLTTSPRQAALGGETITIYDEDVNQVMSNP
+AALNEDMDNRLALNYGSYYGEASYGTASYAYTYDRHVQTFYAGVSYVNYGSFEGYDENGQ
+ATSNFTGSEGALSLGYAYNVPYTDLHIGASAKLITSTLESYNSIGGAIDLGFLYVIEKND
+VNLGLVIRNIGTQFTTYSGIKENLPFEIVAGVSQELEHVPLRWHLTLENLQQWNISFSNP
+VRGGTGIDGSTNKEKVSFLNNALRHVVLGVELFPKKAFNLRLGYNFRRGEELRVNEQRNF
+SGVSVGFGLKMNRLKFNYSYSRYTLAANTSLFGLILNFQ
+>tr|A0A1S1IZ22|A0A1S1IZ22_9FLAO
+MSNIYLGYHFTIEPKEPGSEILIAELGEKAFETFTETENGISAFVKKDLWDENILDDIYI
+LQSEEFKIEYTIEEIDQVNWNEEWEKNFEAIDVDGKCHVRAPFHEKTNAEFDIVIEPKMS
+FGTGHHETTHMMIQHLLEIDVQDLKTLDMGCGTAILAILAEMKGAQPIDAIDIDNWCYLN
+SIENAERNNCQHISVYEGDAALLAGKKYDLIIANINRNILLNDMQSYVDCLNPKGILLLS
+GFYEEDIPFIDASCTEKGLTYVKKFQRNNWVSLKYVN
+>tr|A0A1S1J0K6|A0A1S1J0K6_9FLAO
+MKTVKIVGVPEHFNLPWQMCIENGEFEAENIDLQWKDIPEGTGKMCQMLRNDEADIAVIL
+TEGILKDIAAGNPSKIVQIYVQSPLIWGIHVAAKSTFETVKDLKDKKAAISRLGSGSQLM
+AYVNAHEQGWKTDNLQFEIINTIDGAVEALTNGTADYFMWERFMTKPLVDKGIFRRVGDC
+PTPWPSFVIAIRDEFLKKNPKIVEQILEIINRTTQDFAQIPNIDKTLASLFNQKQEDIQE
+WLKLTQWSQKQLTEKAFIKIQNQLFDLGIIEKKSTFVETVKAL
+>tr|A0A1S1J2H0|A0A1S1J2H0_9FLAO
+MKTEKNKMHFTDPYLISPTNPITVNLIGAGGTGSKVLTALMEMNHSLTALGHAGLTVRLW
+DDDTVTNANLGRQRFAQSEVGLYKSVALINRANRFAGTNWKAETVKFERDSFGKLPHNAK
+ASIYITCTDSAESRFEIADILKNSSSRHHMDDPKYWMDFGNSQHTGQVILSTVGEIPQPR
+SEKFETVECLAFVTEEFGELLNQSQAQDDSPSCSLAEALDRQDLYINSALAQMGCSLLWD
+LFRSGMTANRGFFLNLKDFQSHPLKVV
+>tr|A0A1S1J2S1|A0A1S1J2S1_9FLAO
+MKTAYIVKAYRTAVGKAPKGVFRFKRPDELAAETIQFMMDELPDFDKKRIDDVMVGNAMP
+EAEQGLNVGRLISLMGLKVEDVPGVTVNRYCASGLETIGMATAKIQSGMADCIIAGGAES
+MSYIPMGGYKPTPDYKVAAAGHEDYYWGMGLTAEAVANQYKISREDQDEFAYNSHMKALK
+AQAEGKFDKQIVPITVEQTFINENGKKETKSYVVNKDEGPRAGTTKEALAGLRPVFAADG
+SVTAGNSSQMSDGAAFVLIMSEEMVKELNLEPIARLVNFASSGVEPRIMGIGPVKAIPKA
+LKQAGLTLNDIELIELNEAFASQALAVTRELNINPEIVNVNGGAISLGHPLGCTGAKLSV
+QLFDEMKRRGNKYGIVSMCVGTGQGSAGIYEVL
+>tr|A0A1S1J597|A0A1S1J597_9FLAO
+MINIVLFGKPGAGKGTQAEFLKEKYKLTHLSTGDIFRFNLKNDTDLGKQARVFMDNGELV
+PCEVTTAMLIDEVKKHPDTAGFLFDGYPRTLDQAEALDQFLPTIGSSVTATVALEADDEI
+LVARLLERGKTSGRADDQDEEKIRVRYQEYNEKTAPLIGYYKEQNKFHAVNGIGTIEEIT
+ERLTSVIDNL
+>tr|A0A1S1J0E2|A0A1S1J0E2_9FLAO
+MKNYLLVIAFAFFSSALQAQTAQDTLDIKRVALAYIEAQHNPNPKLMESALHPRLVKRSV
+FRSKAAQKDYVSEYFAENMVILAETYNAKGDKFPKNPRKEVKLLDVSARTASVKLIADAW
+IDYMHVVKTNGEWKIINVLWQYNDVSQHE
+>tr|A0A1S1J579|A0A1S1J579_9FLAO
+MKKILLTIILTAAVLQGYAQKELGGKYKPIDSKNVELKDVPPPTETPLNPDLPLPKEPTV
+LKINPEDLYKNNSLYKPEANVEGIFYRRNEYLGGFVTNTAVSTVRYRDAAFVDGDKIRVY
+LNDKVIEPEVSLNGDYQGFKITLVKGMNKIDFEALNEGSASPNTAEFQVYDDKGKVIEAS
+QWNVGKGYKATIILYKE
+>tr|A0A1S1J605|A0A1S1J605_9FLAO
+MNIKKHIPNLITLINLFCGCIAVVFVSQENFLMAFCMVSLGIFFDFFDGFFARLFKVSSP
+LGLQLDSLADMVTSGVVPGYVMYSLFLKSADPNNEVALTIVPFLGFIVTLGSCYRLANFN
+IDTRQTDSFIGLPTPANALFILSLPLVIDFSDSLFIFEMLTNHWVLLGITLCSAYILNAE
+IPLFALKIKKFTVKDNVLQIVFLLICLVLVVLLQYMAIPLIIIIYVLLSVVNNIFLKK
+>tr|A0A1S1JC21|A0A1S1JC21_9FLAO
+MKNFILLFFLFPLLSFSQTDLLSGVETPSTKEKVTSAFKALKIVNLESTKLAAKGDLYFV
+VAHRFGSIKDGFEGFYGLDNANTQIKFIYGLTNGLNVSAARSEFAYDFATKYMLLPQIKD
+GFPVTIAGFNSLSINNTLKESLYPKLEFKDRLTYVAQLLISRKFSEKLSLEIVPSFFHQN
+FVDDVDQSNTQYAIGFGGRYKFAKRWSLNMDYAAHLNRAQNSLYKNPLSIGFDLETGGHV
+FQMHFTSSQAIDEAGYLGRTTGDWRKGDIFFGFNLARVF
+>tr|A0A1S1J4A5|A0A1S1J4A5_9FLAO
+MSGSPVYEKEIVAIILYTSCFFMVVAFFLVAFFYFSRKKIIQKEVEKRDLEIQYRKEQLH
+AVIVTQEEERKRIAQDLHDDISSKLNIVSLNSHLLSSPNLTEGETNEITDTIISLTAKAL
+ENSRKIAHNLLPPVFEKFGLNAGVRELCDEFESSKAVKVHYHNGIDFDSNHNDRHLHIFR
+ILQELMNNSLRHGKATEIWIDFKVENEIQTCYYKDNGIGFDSENAENQKGLGMKNMDSRI
+SFLKGTIEIHSEIGNGISVVFTF
+>tr|A0A1S1J7D5|A0A1S1J7D5_9FLAO
+MTQPLNIVWNPSEGIDLGFFMIRYYSLMFVIAFGLGWFLMKKIFERENESIDKLDSLFVW
+TVLATLIGARLGHVLFYDWEYFRNHLLEIFLPVRFEPKFEFTGFQGLASHGAAIAIIAAM
+YYYSKMILKRPLLWILDRVVIPVASGAIFVRLGNFFNSEIIGHETKSAFGIRFLHDQFSK
+NEAVNATQIADPKAAYTAIATDPKFADLLAQVPAKHPTQLYEAISYVFVFAILFFLYWKT
+NARLKSGLLFGLFLVLLFAVRFVVEFVKESQGGFENELGLFSTGQWLSIPFIIIGLFFII
+RAQRNPLAES
+>tr|A0A1S1J728|A0A1S1J728_9FLAO
+MKHYFVFLLLIFSSAVFSQEDAWVYFKNKPNAQASLNAPLTILTQRALDRRANQNIALDF
+TDAPIEDSYINQVRSSSGITIMAKSKWLNALHIRGTQTDITALTALSFVDKVFFANKNLN
+ATSKKVAENKISKVKDKLKSKTDYAYGTSGGQIEMLNGKVLHQQNKTGSGKVIAVLDAGF
+PGVNTALPFKKLIDNNQILGGYDYVNRNANFYSGDSHGTMVLSTMGGYKENALVGTAPDA
+SYYLYITEYDPTENPVEESYWVEAAEEADRVGADIITTSLGYFEFDNPNYTHTYSDMNGT
+TNFISRGAEMAFNKGIIVVASAGNEGATTEPHIGGPADAVSVITVGAVTSSKVRSGFSSI
+GPSSDGRIKPDVMAQGTAAVVSDTGGNITMINGTSFSCPIMAGMIACLWQAFPSKTNKEI
+RQMILQSSDRYTTPNNNYGYGIPNFGAALGVLDFKSLGEVFSVFPNPTKTAISFLFENST
+ASVSVYSVLGQKLIEKQITNQNPILSVEGLKSGLYFYTFDADGLHKTGKIIKQ
+>tr|A0A1S1JCC3|A0A1S1JCC3_9FLAO
+MNKESKRREALLYHSEPTPGKIQVVPTKKYATQRDLSLAYSPGVAEPCLDIAANVEDVYK
+YTAKGNLVAVISNGTAVLGLGDIGPEASKPVMEGKGLLFKIFSDIDVFDIEIGTKDIEEF
+IQTVKNIAPTFGGINLEDIKAPESFEIERRLVEELDIPVMHDDQHGTAIISSAALINALE
+LAGKKAEDVKVVVSGAGSAAIACTDLYVLLGVQVKNIKMFNSKGLLTKDNSSLSELQLKY
+AVDGAKIDLAEAVKGADVFIGLSSGGILSPEMLLTMNENPIVFAMANPNPEIDYNLATET
+RKDIIMATGRSDFPNQVNNVLGFPYIFRGALDVRATKINEAMKMAAVKALAILAKEPVPE
+QVNVAYGATKLGFGQEYIIPKPFDPRLITVVAPAVARAAMESGVAKNPITDWAAYEDVLR
+ERMGNDNKMVRLITNRAKVSPKRIVFAEADQLNVLKAAQIVHEDGIGHPILLGNKEVILE
+LKEELGFDAELEIIDPKTNEEEGRRNRFANSYWETRGRRGVSLLDSQKFMRERNYFAAMM
+VNEGEADALVTGHTRSYPTVVKPMLQLIEKAPGASLVATANMMLTSRGPMFLSDTAININ
+PSTEDLINIAIMTAKTAKMFGVEPVIAMVSYSNFGSSTSPSASKVREAVAYLHKNHPEMI
+VDGEIQADFALNQEMLAEKFPFSKLAGKKVNTLIFPNLDSANITYKLLKELYKVNSIGPI
+MMGMGKPVHIFQLGASVEEMVNMAAIAVIDAQEKESKKIKLAK
+>tr|A0A1S1JDQ9|A0A1S1JDQ9_9FLAO
+MAAKEKVVKETPLMKQYNEIKRKYPDACLLFRVGDFYETFGEDAIRASKILGITLTKRGA
+GSDTETALAGFPHHSVNTYLPKLVKAGLRVAICDQLEDPKMTKTIVKRGVTELVTPGVSL
+NDEVLQSKSNNFLASVYFANKNIGVSFLDVSTGEFLTAQGNAEYIDKLLQNFNPSEVLVP
+KQNKSDFKDAFGDDFHSFYLEDWIYKEDYALETLTKHFQTSSLKGFGVEELREGIIASGA
+ILYYLSETQHNRVQHITAIQRIAEDAYVWMDRFTIRNLELYHSYNPNAVTLLDVIDRTLS
+PMGGRLLKRWLALPLKDSARIKSRHDVVSYLKSNSEVLQSIQYQIKQISDLERLISKIAT
+GKVSPREIVYLKESLDAIIPIKTLALESPQEAVKVIGDSLHACDLLREKIKNTLNQDAPV
+AVAKGNAIAKGISEELDDLRAISTSGKEYLEGIEKRESERTGISSLKISFNNVFGYYIEV
+RNTHKDKVPEEWIRKQTLVNAERYITEELKEYETKILGAEEKIYKIETELFEQLVIWIGT
+YIKPVQMNANLVAQLDCLCSFTQLAIENQYVCPEIDETFELEIKNGRHPVIEKQLPVGTP
+YIANDVYLDRETQQLIMITGPNMSGKSAILRQTALIVLLAQMGSFVPADSVRMGIVDKIF
+TRVGASDNISMGESTFMVEMNETASILNNISDRSLVLLDEIGRGTSTYDGISIAWAIAEF
+LHEHPGRPKTLFATHYHELNEMTESLPRIQNYNVAVKELKDNVLFIRKLVKGGSAHSFGI
+HVAKMAGMPQIVILKAQKMLKKLEKNHSSEALNGVKSENDEMQMSFFNLDDPLLEEIKEE
+ILGLDINAITPVEALMKLNEIKRMLVRK
+>tr|A0A1S1J1K6|A0A1S1J1K6_9FLAO
+MSKKTYSIFGAGAAGLYTAWRLLDGKSKRDKNEKMLVKGDVLELYDWGKYDFSKKNPGTR
+EAGARVCTWHYKDNKDNSYLELGGMRYSYWDGTPQGAGHRVVTKTIEKLDLKKDSVEFNE
+SADPLMSLRTKNMYVSDVNSNQPAPYFTNNYGEDAPPDDGFTTIQSVAITATSGPVTRRE
+WCKFYEEGKINIDMPESSIFQKGDLLKDIGYWNLAYDRLGQEGFGYLADGNGYSSNVVNS
+HSAQSFNVNDEFTPGTEYKTLVKGYSSLFVALFDEVEKLAKQKGITLNYFPNTRLRSILY
+TKAGIRFTTAKRATPDKLAESKICDAAFLAMPRASIELVAQATRYTDDEGQDILNHEEVQ
+LYLESVIMEPSYKIGMFFTTPWWRTTEAGSPTYPAKLTSYFLTQEGIAKLKKEKFPSNYL
+KAIESAKNPVIIATSFNDKASFIAAVENAIQERLTFKEEKQISAIAELDTIGPSITDMPI
+RQVVYFGDNALNQKGEKVYGILASYDDIQYTTFWKALELGPHGTREIPESRDCQTLEGPR
+VATPVMVKMLRSQLAALHFGPQTDYSAVPEPLETRYMDWSLPPFNAGYHAYKSHYNLGDV
+QRKIRKPSQLVPKADCDIFIVGETYSNDQAWVEGAFCTAESVLNDFFGIEPIIDEKYYPF
+ISPE
+>tr|A0A1S1J1Y1|A0A1S1J1Y1_9FLAO
+MGAFVISKRFNDEYKFVFTSRKGKVIFTSLSYELRFECEEDIEKFKVNIEMARFLKFKGA
+GGRYFFKLMLGELHFATSRKYTTELLLQKGIKEIVTYASRAEILDFSSSESIFEDEVVGE
+EVEVED
+>tr|A0A1S1J2T0|A0A1S1J2T0_9FLAO
+MTKKINLFANLKSDFASGLVVFLVALPLCLGIAMASGAPLFSGIIAGVVGGIVVGYLSQS
+HISVSGPAAGLTAIILTAITDLGAFDVFLMSVFIAGLIQLALGFLKAGSISNYFPTNVIE
+GMLAGIGIIIILKQLPHAFGYDADFEGDQAFIQNDGSNSFSFLFDVLNHIHLGAVVVSLV
+SLVILISWEKVPFLKRMKLIPGALVAVITGIILNEFFTSTGSSLAIANEHLVSLPVPKSF
+DEFKSIIILPNFAAVTNPQVWVVAITIAIVASIETLLCIEASDRMDVQKRYTDTNVELRA
+QGIGNVVSSLLGGLPMTSVVVRSSANNNAGAKSKMSAIIHGVLLLISVLSIPALLNKIPL
+ATLATVLILVGYKLAKPATFKHFWEKGKYQFVPFIATLVFVVATDLLKGVALGIVISIIF
+VLRGNLKRAYSFKKEEYEDGDVIHIDLAQEVSFLNKAAIKSTLSEIPENSKVIINAADTE
+YIAHDVLDLIREFKETRAIDENIKVKLKGFKKAYELENSPDINNHVSIEHYYDVAKRTLV
+QKEKVKENFK
+>tr|A0A1S1J3A1|A0A1S1J3A1_9FLAO
+MNRLISIELQKIWKNKASRILTLTYFILLSFIALMASIKFDIGPFKFHLAEMGIFNFPFI
+WHFNTYVAALLKLFLAIVIVSMMANEYSYGTLKQNLIDGLSKKEFVLSKFLTVVLFALAS
+TIFVFVMSVILGLCFSSYTEFDVILMDLDYLLAFFVKLIGFFAFCLFLGILVKRSAFALG
+FLLVWSIIEGIMKGVLIFKIFPESSVGQTIMNFFPLEAMSNLIIEPFSRLSVIRSIGTQI
+GVENTKDYGVHYTSILIVLIWTFLFVYFSYKLLKKRDL
+>tr|A0A1S1J5A0|A0A1S1J5A0_9FLAO
+MNFFKIKTSWSNAEFIGIKLCIASAYVLIGSYFHDFFKNYYFPILVLFAITAIWFVLKWL
+KKMKHEKSKS
+>tr|A0A1S1J7Q8|A0A1S1J7Q8_9FLAO
+MDFNDIQNAWNNDKSDNIVLPDNLEKIQSANTPLDRIKKNLKSELVVQVISVVLIGLTPY
+IFHFEEKYIMPFFLLFSMFTAVSIYYLTKLYFFYKRLNNTALKTKDNLYETYFDIRLNME
+LYKTFGFALTPFLVVFLIVFIYDQTSKAVDFTMLEFSNTEMFSIFSVILFSILFMGLSLE
+WWVRFYYGKYAKEIKKVIDELKEE
+>tr|A0A1S1J8W7|A0A1S1J8W7_9FLAO
+MSEQSCFHCGLTIPKNEVINFDEKKFCCAGCKTVYEIFSLHDLTGYYDFENAPGATPQDI
+TGKYDFLDNEAILSKVLEFQEGNTAIVSLNIPYIHCSSCIWILENLNKIQPGISLSQVNF
+PEKRVRITFNSDTVSLKAIVYMLSSIGYEPYISLENYETGKNNVDRSLTYKLGVAFFCFG
+NIMLLSFPEYFEIKEFWLDNYKPFFRILIFILALPSFLYSASGYYVSAYKSIKSGMLNID
+IPIALGIIVMFVRSTFDIVMNYGSGFFDSLTGLVFFMLLGKMFQIKTYSFLSFERDFKSY
+FPIAVTRINSDTSEESIPVYDVLKGNRLLIRNQELIPVDGILISEKAEIDYSFVTGEAVP
+ITKKSGDKVFAGGKHIGKVIEMEVLHSVSQSYLTQLWSNEIFQKKVLQKHKTITDAISRY
+FTPLLLLIAFAGFGYWIFIDANTAFNVFTAVLIVACPCALALTAPFTFGNILRIMGKQKM
+YLKNALVIEQLAKVDTIVFDKTGTITTNKKSNIVYEGNALSEENYILIKNVLRASNHPLS
+RMLYDFLPDSDRIKINDFQEITGKGIQASTENVTIKIGSAAFVDSPVTELSEIEKTGLHI
+RIDGTYYGKFTFQNKYRDGLEKLFSTLSHEYQIKVLSGDNDGERATLEAILPKNTELIFN
+QKPEQKLEFIKKLQEEGCNVMMVGDGLNDAGALAQSNVGISISENVNVFSPACDAILDAS
+EFSRLNYFLKLSHKSITIIKMSFVLSLLYNVVGLSFAITGNLLPLVAAIIMPLSTITIVS
+FVTIMSNYFSNSNLKSL
+>tr|A0A1S1J9W5|A0A1S1J9W5_9FLAO
+MILAAAQTKPFREDIDSNLLEHYRLIELAVQNGAKLIAFPEMSITGYEREYAQKLAFQKD
+DSRLDHLRKLAVKNNIVIIAGAPIQIGSALFIGEFIIAPDNSVSIYTKQFLHEGEDEFFQ
+SSFDYNPMIEIENQKISFAICADIDHPLHPQNACKREASIYIASIFFSPNGIPNAYRHLQ
+SYAGKHQLNVLMSNFSGESWGSPSAGQSAFWNNKGELIGQMNDTDSGILLVEKLNEDWKS
+KILKK
+>tr|A0A1S1J704|A0A1S1J704_9FLAO
+MKTKLFVITPPFTQLNTPYPATAYIKGFLNTKNIESVQADLGIDVILELFSKKGLIDLFL
+YSENIFKDLSSQAESREDISDNAKRIFALQDEYIKTIDAVIQFLQGKNPTLALQICQEDF
+LPEASRFAQLEELDWAFGTMGTQDKAKHLATLYLEDISDFIVECIDENFGFSRYAERLGR
+SANSFDELYEALQQELTYIDSILISILKEKIEAVQPTFFLISVPFPGNLYSAFRCAQWVK
+QHHPEIKISMGGGFPNTELRSLSDQRVFEFFDFITLDDGEVPIEELIESLSFRAESREEK
+RYKRTFLLENGEVVYKNNSLKHDYKQSQVGTPDYSDLPLDKYISVIEIVNPMHRMWSDGR
+WNKLTMAHGCYWGKCTFCDISLDYIKVYEPVAANLLCDRMEEMMLQTGQNGFHFVDEAAP
+PALMRALALEILRRKLAVTWWTNIRFEKSFSKDLCLLLKASGCIAVSGGLEVASDRLLKL
+IDKGVTVEQVARVTRNFTEAGIMVHAYLMYGYPTQTIQETVDSLEMVRQLFEAGILQSGF
+WHQFAMTAHSPVGLYPEKFGVTKATEAIGTFANNDIDYTDSTGINHDKFSFGLKKSLFNF
+MHGICFDYELQDWFDFKIPKTKIDPDFIFNALEEGNDFNTKPNAKVVWLGGKPFVEYFTK
+SKKGRSWEMMSFTFHDKKESFNIQTNKEEGEWLVQILSKMAISNTKNYTFQEVKNDFETN
+LDDFELFWYSKPVNTLREFGLLVL
+>tr|A0A1S1JCW5|A0A1S1JCW5_9FLAO
+MVKKILALLILATIVGCSSSKPTIATTKKAAAVQRPRVATTKKPTYTKPIGKKYPSTNNT
+TEVIQSTSKTVVTSDLINNYILQYKDIAIGNMQKYGIPASIILAQGILESGAGKGDLALE
+ANNHFGIKCHKDWLGESVRHDDDSAQECFRKYTEAAESYRDHALFLVGKNRYATLFTYEK
+DDYKAWAKGLRAAGYATDPNYPDKLISYIERYNLHQYDCQVTGKSYKPFEKSTPVRSSSV
+SSTAPLSSNSNDPNLYEVQKGDTLYSISKKFNVLVDDLKQKNNLSDNAISIGQKLRVK
+>tr|A0A1S1JD60|A0A1S1JD60_9FLAO
+MNKKIQLQDLGSRDYKSTWEYQEELFKDIVDLKIRNRREELDLETPNYLLFVEHPHVYTL
+GKSGDFENLLLNEKQLEAKGATFYKINRGGDITYHGPGQIVGYPILDLENFFTDIHKYLR
+FLEESIILTLEEYGLKSGRSDGETGVWLDVGTPFARKICALGVRASRWVTMHGFALNVNV
+DLGYFDNIIPCGIRGKGVTSLQVELGVEKVDEEEVKAKIIKHLTHLFEAEFV
+>tr|A0A1S1J1N7|A0A1S1J1N7_9FLAO
+MEYSKNYTAADAHIDIQGIMDGLYYPFYMEECRHDFVREVLGFDFVQQAQNGVFMVLSEY
+SIKFIRSLKKDDNFDVTCAVYTDAQGLPRLHFKQSIIKNGKTMATAVFTGTCIPATGGRP
+YLPEELKSNFVDAPSLQL
+>tr|A0A1S1J398|A0A1S1J398_9FLAO
+MITNHIFKKWPLVLLIIGMNFISCSSTDENPTATLTDGKSTIVSDLAGDTGAAMSSDTKG
+KEKRGFHTFLFRFSDQKQIWLHTKADSLQFMKTNDWDIAFTGPYNSEVFINNTKYQYNPG
+YGGPAKNTAVVLLKEAYKNVNQAPSDTDFNNSEVTKIGWSSSESSAGWFYYSLSSHIMQA
+IPDRTYVLRLPNGKYAKLQLINAYKGNPPAVTDLNWPAPYFTFKYFVQQDGSKNLSTN
+>tr|A0A1S1J3I5|A0A1S1J3I5_9FLAO
+MKKIYGLFFLLALVACQKKDKHQEVNELFQSDITLLIEKVAKLKYSVQSDSAEVQIQRQF
+LEAHQSYKKVEMISEYYSPAVSKAINGPAIPEFEENDKVTVPPEGFQVIEELVFPKYDKE
+HKKELLQELGILSANLARLEKVSKSNQLTDAHVFDAMRLEVYRIVTLGITGFDSPVVLNS
+LPEAVAALETIEKYYKVYVEDKPVSNSNQVLEILKKGQHYLKTNTNFNAFDRAYFIKEIA
+NPLNKGLFKTRSELGIPLMKEQRGLKTTAQTLFDSGAFDPEAFSGFPDYQTTPEKIALGK
+KLFNDPVLSGNNTRSCASCHHADKAFTDGLERAVTLDGKSMLQRNTPTLNHIAFQRVFFD
+DSRVSYLEDQAIAVIKNENEMHGSLEKSALVLQKNPNYVRDFKKAFPKGAINEFEIKNAL
+ASYIRSLSQYDSKFDGYMQNKENFTPDEKAGFNLFAGKAKCATCHFIPLTNGTVPPNFDR
+SESEILGVPNKSKKLDGDLGKFVITQAAIHKHSFKTPTIRNITLTAPYMHNGVYNTLEEV
+IDFYNEGGGVGLGFDVPNQTLPEDKLNLSELEKKQLIAFMRTLTDKKYLK
+>tr|A0A1S1J1Z6|A0A1S1J1Z6_9FLAO
+MKTIAVIGAGTMGNGIAHTFAQSGFVVKLIDVSEKSLDKGMATIAANLDRMLSKGTITQE
+EVTKTITNIITYTDIKDGVVGVDLVVEAATENVELKLNIFKQLNEACSHNTILATNTSSI
+SITQIGAVVAHPERVIGMHFMNPVPIMKLVEIIRGYNTSDEVTKTIMDLSVKLGKVPVEV
+NDYPGFVANRILMPMLNEAIETLYNKVAGVYEIDTVMKLGMGHPMGPLQLADFIGLDVCL
+AILNVMYDGFKNPKYAPCPLLVNMVRAGKLGVKSGEGFYDYSESKKAEKISKQFILS
+>tr|A0A1S1J6M2|A0A1S1J6M2_9FLAO
+MVKNKIHPDQMYIDGIAANNSAVIQSIYKKFVPKVVMFVMNNSGDKEHAQDVVQEVMILL
+FNQAKAKTLQLTCPFDAYFFLLCKRKWLNELKKTANKGVTINEDAVSMNESALELIGQTE
+EFDERQQLFDAMFQKLGDKCQELLKLSFTTKTMEEVAAKLNVTYGYVRKKKSLCVGQLTQ
+WIQEAGNFKSLKNN
+>tr|A0A1S1J919|A0A1S1J919_9FLAO
+MKLNIALLAGDGIGPEVINEAVKVSDAIAKKFNHEIIWTPALTGACAIDAVGVPYPDETH
+EICMKADAVLFGAIGHPKYDNDPSAPVRPEQGLLLMRKKLGLFANVRPTFTFPSLIDNSP
+LKRERIEGTDLVFLRELTGGIYFGEKGRKDNGDTAFDNCVYTRAEVQRLAKKGFELAMTR
+SKKLCCVDKANVLETSRLWRETVQAMEKDYPEVTVSYEFVDAVAMRLVQWPNSYDVLITE
+NLFGDILTDEASVISGSMGLMPSASVGEHTSLYEPIHGSYPQATGLNIANPLATILSAAM
+MFEDAFGLKDEAEAIRAVVNQSLEQGIVTEDLAPKGTKAYKTSEVGDWLVANLF
diff --git a/Exercise11_files/Problem1/Limnohabitans.fasta b/Exercise11_files/Problem1/Limnohabitans.fasta
new file mode 100755
index 0000000..8b19f03
--- /dev/null
+++ b/Exercise11_files/Problem1/Limnohabitans.fasta
@@ -0,0 +1,21882 @@
+>tr|A0A0P0LP59|A0A0P0LP59_9BURK
+MYKHLSREERYQIHSLLKAKQTISEIARSLGRSRSTISRELSRGRGQRGYRAEQACAKAS
+ERAQRSRNARRLDSKVWSDVDFYLGIQWSPEQIAGKVAVSHESVYLYVYANKAAGGDLHT
+HLRSQKPRRKRHLCGRDRRGQIPNRRPISERPSHIEDRKQVGHWEGDTVIGAAHKQAIVT
+LVERKSGFAVLAKVPNKSADLVGRAIEGMLKPLSSRVKTLTVDNGKEFADHQAIDQALGI
+QTYFADPYCSWQRGSNENFNGLLRQYIPKKRRMETVTDEELTMIENRLNHRPRKRLGFKT
+PHEVFHASLNRVAVRT
+>tr|A0A0N7J954|A0A0N7J954_9BURK
+MAKEKFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAAKFGGAAKAYDQIDAAPEEKARG
+ITINTAHVEYETENRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHI
+LLARQVGVPYIIVFLNKCDMVDDAELLELVEMEVRELLSKYDFPGDDTPIVQGSAKLALE
+GDKGPLGEQAIMKLAEALDTYIPTPDRAVDGAFLMPVEDVFSISGRGTVVTGRIERGIVK
+VGEEIEIVGIKDTVKTTCTGVEMFRKLLDQGQAGDNVGILLRGTKREDVERGQVLCKPGS
+IKPHTHFTGEIYVLSKDEGGRHTPFFNNYRPQFYFRTTDVTGAIELPEGKEMVMPGDNVS
+ITVKLINPIAMEEGLRFAIREGGRTVGAGVVAKIIA
+>tr|A0A0N7J8C4|A0A0N7J8C4_9BURK
+MEQTSNLVAYLRTRSGGREVLTPKQLEPILGISAKHQSLLRKENKLKIPYIVVGGKILYS
+IHAVADMLTKPAENEPAPAKPTKVEKATSGKTKAEDKWRSSLKVPSSQPINMSQALLRAF
+VLNNIQAEISSLTALTKELQTLQLADELRDALNKKPDGSGTDSKRKPKPKVKI
+>tr|A0A0P0MA50|A0A0P0MA50_9BURK
+MSNDVIIVGSGIVGLACAWAALQQGKNVRVIDRDPFCVGASIRNFGFVTVTGQGRGDTWR
+RARRSRDVWASLAPQAGIAIEHEGLYVLAQRPQAKVVLQELCKQAEGQDLQWLEGQALQD
+RAPQFVMKHLQGALYSPYELRIEARSAIEKLRLWLATQGVVFKMGQHVQEVISGAVFTGG
+QWLQADRILVCPGPDMRSLFPEAFSQNNTQLCQLQMLRVRPPDGYKLGAGVMSDLSLVRY
+RGYSELPGSQLLLDQLRVEAPQELAHGIHLIVVQSQDGSLVVGDSHHYGQAMRPFASREV
+EDLILYEMQRLLCLGHYQVTERWTGIYPSAQQDSMVREVMPGVQLVSVTSGTGMSTSFGL
+AEDVVGSWSAA
+>tr|A0A0P0M755|A0A0P0M755_9BURK
+MRDNNTFWRRALRHPSFVAGGAMVLLMVLCAVLSLLWSPYPVGDIDIPNKLASPSAAHWF
+GTDSLGRDIGSLLLVGSQNSLLVGFIAVGIGLGVGVPLGLLASARRGWVEELIMRASDFT
+FAFPALLSAIMLTAIYGPGLVVSIVAIGIFNIPVFARISRGAANSVWARDYTLAARAAGQ
+GPLAITLAHVLPNIASVLIVQATIQFAIAILAEAALSYLGLGTQPPQPSWGRMLNEAQSQ
+MFQAPMLAVYPGAAIALAVLGLNLLGDGLRDVLDPRLARQR
+>tr|A0A0P0M8A5|A0A0P0M8A5_9BURK
+MHAYYADHFVLPLPEGHRFPMRKYSRLRDRLTQELPGVLMREAPAASDGELALVHTPTYI
+QGVATGSLEAALQREIGFPWSPAMAERARRSVGATVAAARDALVQGVAGNLAGGTHHAYA
+HKGGGFCVFNDIAVTARLMQAEAWRHRRQTLNVAVIDLDVHQGNGTAHIFASDPSVFTLS
+LHGEKNFPFRKEPSDLDVGLPDGCTDEPYLAALHQALQSLQDRFDPQLVIYLAGADPHEG
+DRLGRLKLSMDGMQARDRVVMDWAWQRRLPVVMCMGGGYGHDIETTVQVQMQTWDVALGY
+WQRWHNLGR
+>tr|A0A0P0MAP2|A0A0P0MAP2_9BURK
+MASSKKIGKGPGMALWLGIALLVLVLDQFTKVLVLGAFQLGDSTPITSFFNLVRVHNHGA
+AFSFLAGAGGWQRWFFTVIGVAAAIFMVWMLRAHPGQKLFSLAISLILGGAIGNVVDRLL
+HGYVVDFLDFYWGAWHFPAFNVADAGISVGAALLILDEILRVRRGR
+>tr|A0A0P0LF50|A0A0P0LF50_9BURK
+MLPAPAPEIPPLDTAAVAVVSGVPAAQDDPTHRWRYTVGLKLKTQDLGDASTSLVLRPVL
+GVRYGRWRLGHATGDEWLAFSGYRKEANLAYQLRDDERLKVDLSLRVQNLQDNSSFDGFS
+SGKNTLRARVGVNYQLNKRWSVGTDVTQDLMGRGDGTTLSVGASYGLPLSERSTLSLSAG
+VNWATADHWATQLRLLPPPPGGWHAGLGSVGLGLSYRYALTPQWAWFGTVGSSRHLGQVD
+TVSPSTLSWSGQIGVLYFSR
+>tr|A0A0P0LUK6|A0A0P0LUK6_9BURK
+MKPLAAKFSNGHWVSTWAASAQGAYPTGSVIAQPDLSRAIPDAPMGLQNQSLRMVVRPSL
+WSSRFRLRISHVYGDRPLALRGIQLALHAGGGACLPDTRVALPDMDIGAGQAVWTQAVDL
+PWLNEQALPWMNGRALAFSACVKGFSGPITWHAKSMSTSYVSQPGDLLAAADDSETRFPH
+TTTSTFFIDAIDAWLPEPCRAVVAFGDSLTDGTATTLNGHDRWTDVMQRHAWAEGHRQVA
+VVNAGIGGNQVAGPLPAVGPWRGGPAAAERIYRDVLSLSGVQAVLWLQGINDFSENGQAD
+VATVVQAMRRAIDQMRSRGLRVIGATIPSALGSHRPGHGGAEQDARRRAFNDEVRKANLF
+EEYADVDAALTDEISGRLREQFNGDSTLGEAGDGVHPNRAGHAAIADRFSKVYFRQALC
+>tr|A0A0P0M9Q8|A0A0P0M9Q8_9BURK
+MSKKPVRVAVTGAAGQIGYALLFRIASGEMLGKDQPVILQLLEVPVEGPQKALKGVMMEL
+EDCAFPLLVGMEAHGDPMTAFKDVDYALLVGSRPRGPGMERAELLAINGAIFTAQGKALN
+AVASRDVKVLVVGNPANTNAYIAMKAAPDLKPGNFTAMLRLDHNRALSQIAAKTGKAVAD
+IEKLCVWGNHSPTMYADYRFATIKGESVKAMINDQEWNANVFLPTVGKRGAAIIEARGLS
+SAASAANAAIDHMRDWALGTNGKWVTMGIPSQGWYGIPKDVMFGFPVTCENGQYKVVEGL
+EIDAFSQGCIDKTLKELTDEQAGVAHLI
+>tr|A0A0P0MBP5|A0A0P0MBP5_9BURK
+MSTHSGEGVRAVERALDILKAFSVNDHELSAAQLLERVPLSRPTLYRLLQTLVQSGFVVS
+SGEPQRFRLGPAVGQLTHAWSSSLNVSAVGQAIMQRVWAATQETVALFVPQGAMRLCVAE
+LPSPQALSFKRGVGYQERIVLGASGQVILAHANTSIEAIERYAEGLNLDPIRYAQELRQI
+KKRGYATSKNALIEGAVAIAAPFFNSHGQVAGSIAVFGPGARLKDAKVRQFGAVLVKEAA
+ALSQVLGHS
+>tr|A0A0P0LLT0|A0A0P0LLT0_9BURK
+MNAAELRQKDVAGVKDEIKALQKAHFGLRMQKATQQLGNTGTLSQTRRAIARAKTILAQK
+QAAK
+>tr|A0A0P0M8W4|A0A0P0M8W4_9BURK
+MSVYDQLKALNIELPPVAVPAAAYVPFVQTGNLVFLSGHIAKKDGKVWAGQLGKNTTTAE
+GQQAARAVAIDLMGTLHAAVGDLNKVKRIVKVMSLVNSTGDFTEQHLVTNGCSELLGQVF
+GPQVGAHARSAFGVAQIPMGACVEIEMIAEIG
+>tr|A0A0P0M7N5|A0A0P0M7N5_9BURK
+MSWAGKILRVNLTAGTVKSEPLNMEWAKAYLGSRGLGSKYLISEIDPKVDPLSADNKIVW
+ATGPLTGTMASTGGRYTVITKSPLTGAIACSNSGGYWGAELKMAGWDMVIFEGASAKPVY
+LHISDDEAELRDASHLWGQSVWKTEEILKSSLQDPLLRVCSIGKAGENGVLYAAVVNDLH
+RAAGRSGVGTVMGSKNLKAIAVRGTKGVGNIQNPKAFMAAAKAAKKVLADNAVTGQGLPA
+YGTQVLMNVINEVGGLPTRNHRDVQFESAKDISAEAMVTPRETDGKKHLVTNQACFGCTI
+ACGRISKIDEGHFSVKNKPEYWGANGGLEYEAAWALGAANGVKDLEALQYANMICNEEGF
+DPISFGATIGAVMELYEMGVLTKEQIGVEAPFGSAQALCEFVDMTAKGIGFGKEIGMGSK
+RLTAKYGHPDLSMSVKGQEFPAYDGRVIQGIGLAYATSNRGACHLRGYTIASEVLGIPVK
+TEPTEHEGKPELVKAFQDATAAFDSAGICVFTSFAWTLADVAPQVQAACGEEFTMEHLNH
+IGERIWNMERDFNNAAGFTKADDNLPKRLMTEAAKTGPGKGMVSKLDEMLPKYYDARGWD
+GEGRPTSATRERLGL
+>tr|A0A0P0M974|A0A0P0M974_9BURK
+MQFPESWLREFCNPPLTTQQLADTLTMAGLEVEELEPVAPPFTKIVVGEIKEAVQHPNAD
+RLRVCQVDVGQGALLNIVCGAPNARVGIRVPCAMVGAELPPGEDGKPFLIKVGKLRGVES
+QGMLCSAKELQIADDHGGLLELPADAPLGQDIRQYLYLDDTLMTLKLTPNLAHCLSVYGI
+AREVSALTGAPLKAPTFPSVTTQIGDKLAVKVHATDLCGRFSGRVVKGVNTQAQTPQWMV
+DRLARCGQRSVSPLVDISNYVMFEFGRPSHIFDLDKIRGGLQVRWGQAGESLKLLNGNTV
+TVDDKVGVIADDSQVESLAGIMGGDATAVSDDTQNIYIEAAFWWPAAIAGRSRRYNFSTD
+AGHRFERGVDPQLTVEHIERITQLVLDICGTPQTQVGPIDDQTLNIPAIQPVTLRVARAV
+KVIGMPLTQQQCADALRGLGLQVTEAAGTVTVTPPSFRFDLQIEEDLIEEVARMVGYNNL
+PTNPPLAPITAKVRPETERSPSAVRRAIAALGYQETINYSFVEEAWEKDLAGNANPIRLL
+NPIASQMSVMRSSLIGSLLQVVKFNADRKADRVRVFELGRVFLRDASVADSDATVQGFDQ
+PMKVSGMAWGPLEPLSWTGKSRLVDFFDVKADVERLLAPAQAEFVVSEHPALHPGRSAQV
+LLNGLVIGHVGELHPRWRQAWDLPHAPVVFELDLEAVIQRSVPVAQPVAKMQAVERDIAV
+IVREQITHAQLMQAIHSAPTQGLLRHAVLFDVYRPKAEASGGLAVGEKSLAVRLSLHSDE
+ATLTDAQIETAMSAVMASLSAQVAARLRA
+>tr|A0A0P0M9Z4|A0A0P0M9Z4_9BURK
+MASDTDISDFLKSVEKKAFKRAFYHVGDEEGALDIVQDSMIKLCTHYADKPAQELPLLFQ
+RILSNTVLDWFRRRKTRNALFSNLDDFDHRDDLGDFDLLEVTTGDADAPASQSAEQWLGR
+VQTLEHIEKAIMTLPARQREAFLLRYWEELDVAETAAVMGCSEGSVKTHCSRAIQSLSKT
+LALQGMNP
+>tr|A0A0N7J8X5|A0A0N7J8X5_9BURK
+MRALISVSDKTGIVDLAKELHALGVGLISTGGTAKLLAEQGLPVTEVAEVTGFPEMLDGR
+VKTLHPKVHGGLLARRDTPEHMAALKAHHIDTIDLLIVNLYPFEATVAKPGCTLADAIEN
+IDIGGPAMVRSAAKNWKDVGIVTDASQYPAVMTELKANGKLSDKLRFALSVAAFNRISQY
+DGAISNYLSSVNFEAEKLSEDYVPERAQFSGQFNEQYVKVQDLRYGENSHQQAAWYRDLA
+PAAGSLATGVQLQGKELSYNNIADADAAWECVKSFEATACVIVKHANPCGVAVGASALEA
+YSKAFQTDPTSAFGGIIAFNRPVDKAAAEAVSKQFVEVLMAPDFSAEALEIFKSKVNVRL
+MKIALPASYGDVRNALETKRVGSGLLLQSADNHELALADMKIVTIKQPTPEELNDLLFAW
+KVAKFVKSNAIVFCKNGMTMGVGAGQMSRLDSARIASIKAEAAKLSLQGTVVASDAFFPF
+RDGLDVVVDAGATCVAQPGGSMRDQEVIDAANEHGVAMVFTGVRHFRH
+>tr|A0A0P0M8A2|A0A0P0M8A2_9BURK
+MHLTRKAIGERIKEIDVVIEMLDARLPGSSANPMLAELIKGKPALKILSKQDLADPVRTA
+QWLAHYNAMPGVRAIGLDTSMSSPAKALIDACQQLAPNRGGMVKPMRVLICGIPNVGKST
+LINTLKGKRAAKTGDEAGVTKQEARIALADDFYLYDTPGVLWPRIIVAQSGYNLAASGAI
+GVNAFDEEEVALELLNYLIPQYPQALADRYKIDDVQSHTDQTLLEAIGRVRGAMQSGGRI
+NTTKAAHIAIHDFRSGALGRVTIETPEQFAQWLAEGKKADAERAVRKEAIEKTKKPARK
+>tr|A0A0P0M7Q4|A0A0P0M7Q4_9BURK
+MTDPSKFDDLHIETLAVRAAVERSQFGENSEALYLTSGYVQPTAAAAAARFAGDEEGYTY
+GRYGNPTVASMEMRLAALEGTEAAMGTASGMSAILMMCMGLLKAGDHVLCSRSMFGSTIK
+LIGSDLAKFGVESSFVSQTDLKEWQAAIRPNTRLFFAETPTNPLTEVCDIQALADMAHNA
+GALFAVDNCFATPALQRPVAMGADIIMHSGTKYLDGQGRVMAGALCASQQMITEKFLPVL
+KSGGMTLAPFNAWVVLKGLETLDLRMRAQTARAQILAEWLEKHPLVARVHYPGLASHPQH
+DLAMRQMSGLGGAVLSFEVKADGPEQSRARAFHVLDSMQMLSLSTNLGDTKTLVAHPAST
+SHGRLTEAQRHAAGIGQGLIRVAVGLEYPQDIQKDLSRGLDTL
+>tr|A0A0P0M753|A0A0P0M753_9BURK
+MALRTILCYPDPRLHKVAQPVQAVDARVHTLIDDMIETMYEAGGIGLAATQIDVHERLVV
+IDTSEERNQPMVLINPEITWMNEERVKGEEGCLSVPGIYDGVERATQVKVTAIDRDGQSR
+TIEAEGMLAICIQHEMDHLVGKVFVEYLSPLKQGRIKTKMVKAQKAGR
+>tr|A0A0N7J906|A0A0N7J906_9BURK
+MNAPLPQVHRAADLQAEDHTPVVIVGAGACGLTAALALHRLGVECVVLERDAFAAGSTAL
+SSGFVPAPCTQAQKAQGITDSVETFAADIQAKAHGQAAPHLVQAYAQYIGPAMDALANHH
+GLPWQVLDNFLYPGHSAHRMHAVPEKTGAGLMSRLQAAADAAGVVVLTQAQVTELWADDA
+QRIHGVGFVRPDGQTERIRCDAVILACNGFGGATAMVKEMLPEMAEATYAGHVGNDGSAI
+AWGQQLGARLADLGAYQGHGSWAVPQGALISWALMMEGGVQINAQGQRFHDETQGYSEAA
+VHVLAQPGGVAWNVFDDALLNFAQDFPDFVAAQGAGAVQHAGDVAALAQLIGCPPDALQA
+SLNAVQPCTDPATGRTFQRALQAPFHAIKVTGALFHTQGGLDIDAKTRVLRQDGTPLPNV
+LAAGGAARGVSGQAVWGYLSGNGLLSAIAGGHIAAHSAQQLLKDSAP
+>tr|A0A0P0LHZ6|A0A0P0LHZ6_9BURK
+MDWSALHVSLTLAVLTTLALLPVGLALARWLAVTAWAGRPVVEALLLLPLLLPPTVIGFY
+FLVAFGQGSALGAWLAASGIRLVFTLEGLLLVSVLVNLPFMVQPIQRAFAAVPHSLREAA
+WVSGLSTWQTFWRIELPLAWPGLLAGMALTVAHTLGEFGVVLMVGGNIEGETRTLSVSLY
+DKVQGMDLQSAHVMALVLVGVSLLALSLVLAFDRVGQRGRALQER
+>tr|A0A0P0M9T3|A0A0P0M9T3_9BURK
+MKLGFIGLGIMGVPMAGHLLAGGHEVFAFSRSGVPAAVLEQGAKACASPAEVAQKADIIF
+TMVPDTPHVEDVLFGEQGVAKGLSAGKTVVDMSSISPIATKAFAAKINALGCDYLDAPVS
+GGEVGAKAASLTIMVGGSEATFNKVQPLFALMGKNITLIGDNGSGQTCKVANQIIVALNI
+EAVGEALLFAAKAGADPAKVRQALMGGLATSRILELHGERMIKRTFNPGFRIELHQKDLN
+LALEGAKAMGLSLPNTANAQQLMNTCVAHGGAAWDHSGIVRALEIAANFQVAGN
+>tr|A0A0P0M8C8|A0A0P0M8C8_9BURK
+MALVEVQVPDIGDFDEVTVIELMVKVGDTVKAEQSLITVESDKASMEIPSSTAGVVKEMR
+VALGDKVKQGSIVLVVEAAGAAAAPAAKAAPAAAVAAPAPVAAPVAVAPVAVASGPMQVF
+VPDIGDFKDVAVIEVMVKPGDTIKVEQSLITVESDKASMEIPSSAAGVLKELKVKVGDTV
+NIGDLLAVLEGTAAAPAAAAVAAAPVAVASAPAAAQTPVAAAAAAVAAPAHAPGGTTVGL
+PHASPSVRKFARELGVPLDEVKGSGLKGRITADDIQAFTKAVMSGAAQTKAQAAKAPAAS
+GGDGAALGLIPWPKVDFAKFGPIERKEMGRIKKISGANLLRNAIMIPAVTNHDDADITDL
+EAFRVSTNKENEKSGVKVTMLAFLIKACVAALKKYPEFNSSLDGDALVYKNYWHIGFAAD
+TPNGLMVPVIRDCDKKGVLQISQEMGELAKKARDGKLSPAEMTGATFTISSLGGIGGKYF
+TPIINAPEVAILGVCKSTMEPVWDGKQFVPRLMLPLSLTWDHRVIDGAAAARFNAFLGQI
+LSDFRRVLL
+>tr|A0A0P0LHM5|A0A0P0LHM5_9BURK
+MAKLIPMPTLGGTSSPNSAQAPTSAQAPTQPKTDAMADPLLMCMTMAAKLLGRPVHYQVM
+RAGFALDNRGRVPLAAYPDMAHKNGLMAAWSRVRLSEIPHYVLPVLMPLIDGRACVLRSI
+QDNEAIVLWADRGMEDQRIPLAELQALARPEVLALKLPPTRHDQTLTPMQGSAFNWFWGT
+LWRFRAFYVESMVATVVANVLTLASIFFTMNVYDRVVPTGAYTSLWTLAIGTTVAIFLEF
+IMRWLKARLVDLGGKKADLAINATLLREIMAIRLEHRPQSVGIFSSSMRDFESLRDFFSS
+ASLVLLADMPFVLMFLALIAMVGGPLVWIPALAVPLLIIIGLVAQRPLMTAMRENMKESG
+DKQSVLVESVLNLELLKAHNAESYLQRRWEMSNLAGADSYKRIRSLTNWIMGFTTSIQQL
+ITVAMVVGGVYLIHSNQLTLGGLIASVILAGRAIAPLASVMSLASRYQQAATSLETLDGL
+MKRPRDRIHGRNYVVPEMIEGGLQADALEFAYPGEHKIPVIKKLSIQIAPAQKVAMLGRV
+GSGKSTLLRLMAGLYSPGAGSVRLDGVDLQQLEPSEVRSRIGYVGQDPQLFMGTVRDNLV
+LADSWISDVKIIEVLKALNIYDIVATHPLGLDMPVTEAGGGLSGGQRQLLSIARMMLRNP
+QLVFMDEPTSNMDQNTEARVIAVLKDWLRGRTLLMATHRPQLLEWVDLIAVIDSGQCVAL
+GPKQEMIDKLSRGIDVNGVKNQGAPT
+>tr|A0A0P0LSP5|A0A0P0LSP5_9BURK
+MTQLKELPLQALQFYATAPYACSYLPDRSARSQVATPSHLIHNEVYADLVEQGFRRSGLF
+TYRPYCDGCQACQPLRVLVHAFKPDRSQRRAWQAHSDLRVRVLDLQYDAEHYALYLRYQN
+TRHPGGGMDHDSVDQYTQFLLQSRVNSRIVEFRNPGFGDELGELKMVSIVDVLNQGLSAV
+YTFYEPDDTASFGTYGVLWQIQQAAQLGLPYVYLGYWIDGSPKMNYKSRFKPCELRVQGQ
+WRPFE
+>tr|A0A0P0MA52|A0A0P0MA52_9BURK
+MQSPLSSVDKNSQMLAVVKRQRLQDVLFHRLTQLFSLLVLVALAGIIVSLFINAWPTFAK
+FGARFIWYVEWDIINEEFGAAIAIVGTIASAGIAMLVAVPLAFGIAVFLTETCPVWLRRP
+LGTAIELLAAVPSIIYGMFGLFVFAPLFADYVQVPLREVLSGMPLIGFLFGGAPNGMGIL
+AAGIVLAFMVLPFVAAVMRDVFEITPPILRESAYGLGCTTWEVVRKIVLPYTQKGVIGGI
+MLGLGRALGETMAVTFVIGNANRMPTSLFSPGTSIASTLANEFGEAADFHMSSLFALGFL
+LFVITFVVLALAKIMINRAEKAKGF
+>tr|A0A0P0MB57|A0A0P0MB57_9BURK
+MSAQATCRDTAFAGLPACELALPQGDHLRVALHGAHVLSWVSGGQERLYLSPKSTMDGQA
+AIRGGVPVCFPQFNQRGPMADRLPKHGFARNVAWLADAPELGAEHARLTLRLNDNAQTRA
+WWPQAFALALHIDLSPGAVQLTLDVHNTDTQALAFSGALHTYLAVPDVTQATLQGLGGQP
+EWDSLTDTHAQAADMIRFAAEFDRVYEAGPQPLTLNDTLHISQSPSWANSVVWNPAQDLC
+KRLADMPDEGWRHMLCIEAAQVYTPINLPAGGRWAGWQRLQVRNP
+>tr|A0A0N7J8A7|A0A0N7J8A7_9BURK
+MNKKSLESWSPWILLVLSILVWEGLCRAFNVSEFVFPSPSRIAQQTIEYRDVIAGHAWRT
+YWVTMVGFGIAIVVGVLLGFIIGSSRLAYAAVYPLMTAFNALPKAAFVPILVVWFGIGIG
+PAILTAFLISFFPIMVNIATGLATLEPELEDVLRVLGAKRWDVLVKVGLPRSMPYFYGSL
+KVAITLAFVGTTVSEMTASNEGIGYLLISAGSAMQMGLAFSGLVVVGAMAMAMYELFSAI
+EKRTTGWAHRGSQGE
+>tr|A0A0N7J8E6|A0A0N7J8E6_9BURK
+MSLRLSILDQSAAASGRGQDATIRQTLALAQKAEAWGYDRFWVSEHHSHPSIVGSAPEVL
+MAAIAARTQRIRIGSAGVMLPHYAPLKVAEQFRVLDALAPGRIDLGVGRAPGSDGRTAQL
+LNPDRSASERFPQQVMEMQAWVSGHNLPPGHPGHNVFAYPLSETTPTVWMLGSSDYGAQL
+AAHLGLPYAFAYFITDGQGADEALQIYRETFRPSAALQKPHAALCVWALAADTDEEALRL
+FESRARWKMDRNLGRIGALLPPEEAARDYSPAEQFALQRLREGALMGSAATVGRKLRQLA
+ARLEVQELVVITWTHDPAAQMHSYELLAQEFGLTANSTF
+>tr|A0A0P0MA37|A0A0P0MA37_9BURK
+MQDDASLLSWVPRLRRYSRALVNNRDDADDLVQDTLERAWAKSNLWGGVADMRAWLFSIM
+HNLHVDGVRRPRLHTVTMDDDTPEVPVAPTQTDRLAVLDLQAALDLLPVEQKEVLLLVTL
+EDMAYADVAQALGIPIGTVMSRLSRGRERLRGLMEGRAEPVRLKVVK
+>tr|A0A0N7J8Y6|A0A0N7J8Y6_9BURK
+MDLQLRNKTALVTGASVGIGRGIAKALAAEGVRVAVSARRVDKLQELSAEIVAAGGHAPV
+IIESDLYAEDAAKRLTDAALAGLGSVDILVNNAGGSRSFKELHVNEEAWQEAITLNFHRP
+RQVADALIDQMIARNWGRIINITGKSEPEHTNGAFCAKAGMHSWAKGLSRMVGKHGVTVN
+CVPPGRIHSEQIFRNYTPEYRQWQCDNEIPMGRYGEPEDMANLVTFLASPLASYITGAVI
+PVDGGLRKYQF
+>tr|A0A0P0LLN4|A0A0P0LLN4_9BURK
+MPIRSLSRHWSRHLYLRIWLAVVGVVTLLMLVVGWAWRATVEHHAAPPAPREWVVLNAQG
+DVLASTTRAGPGAPLVFEVPLPDGQTLPLQVQRSGERSADRPRGPAMHGMPGVGLGPDGR
+LPPHLRKDMPWWAKPSGFFWLLGLIGLAVALGLYPVVRRLTQRLEGLQRGVQRWGEGDLS
+VRVPVQGDDEVADLSERFNAAAERIEGLMASQKSLLANASHELRSPLARIRMGLELMNGP
+ADADALARSRAEILRNMAELDQLIDEILLASRLDAQEADIGTVEAVDLVGLCAEECARLG
+ARFDVPEGLAQLDVPGVPKLLRRLVRNLLENARRYGAGSQDAKQGSGIVLSLQAQGPEVL
+IAVGDRGPGVPVAYRERIFEPFFRLPGASERVGGVGLGLSLVKSIAERHGGRVRCTDRPG
+GGACFVVSLPPNKTANT
+>tr|A0A0P0M780|A0A0P0M780_9BURK
+MLDRIKASLPSLAPAEQRVGKLVLADPRAFANLPVTELADRAHVSKPTVVRFCRSVGYDG
+LSDFKLKLAGSVSEGVPFIHRSVDVDDKTSDIAVKVIDNTVAAFLKYRNDASSFALEHAA
+QALAATQKTNRRIEFYGVGNSGIVAQDAQHKFFRLGVNAIAYSDGHMQVMSASMLKPGDC
+AVIISNSGRTRDLMDACDIAKKQGATTIVITASGSPLASAGHIHLTADHPEGYDKYSPMV
+SRLLHLLIIDILATTVALRIGEELQPVLRDMKKNLSSKRYT
+>tr|A0A0P0MBS4|A0A0P0MBS4_9BURK
+MSMSDPIADLLTRIRNAQMVAKAAVMVPSSKVKVAIAQVLKDEGYIDGFQVKTEDGKATL
+EIALKYYAGRPVIERIERVSRPGLRVYKGRDAIPQVQNGLGVAIVTTPQGVMTDRKARAA
+GVGGEVLCYVA
+>tr|A0A0P0LK11|A0A0P0LK11_9BURK
+MKIVTWNCNGALRNKTDALDALDADVYVVQECENPALSTSKYQTWAGDYLWMGTSKHKGL
+GIFPKKGNKVRATEWHGAFSQPGVSNSSLASQWTTADLKLFCPFILNDEYQVLGVWTKAE
+GSKVFRYIGQLWKYLQIHRKQLCRNKTILLGDFNSNRIWDKPDRWWNHSDVVEELNAIGL
+SSVYHQQTLEEQGQEATPTFFLQRNLEKSYHIDYVFVSEDLMGCSSVEIGNQDQWLSVSD
+HMPLSLSLEAVS
+>tr|A0A0P0M9W9|A0A0P0M9W9_9BURK
+MSALSLAPRALYEEVAELLRQRIFARELEPGSWIDELRIAEALGISRTPLREALKVLAAE
+GLVTMKVRRGAYVTEVSEKDLRDVYHLLALMESDAARVVAQNASVEQMAQIEALHKDLEE
+AVGDRDRFFEINEAFHMLLLELADNRWRDQMVADLRKVMKLNRHSSLFKEGRIEQSLAEH
+RAIVQALTARQPEQAAERMSAHFTNGLQAAQ
+>tr|A0A0P0M7Q1|A0A0P0M7Q1_9BURK
+MSNSDKVWPTGLTEAESEEIHRNLIQGTQIFGMIAAFAHLLAYIYSPWLK
+>tr|A0A0P0MBQ2|A0A0P0MBQ2_9BURK
+MKRVAVSFAVLLSAFAAQAQVTVKDAWVRATVAQQKATGAFMQLQSAQDAKLISAQSPVA
+GVVEVHEMAMDGGVMKMRAVPSLALPAGKAVDLKPGGYHVMLMDLKGQVKDGDTVPVTLV
+VEGKDGKRQNIEIKASARMAAAPAMKHGDGHKHKH
+>tr|A0A0P0M9L5|A0A0P0M9L5_9BURK
+MPEQDADIESTSPTWISFADLMTGLLGAFVLLLVGVMAAQLDMASRLEDEVQKRQIEEQK
+RLSLENALAIPLASGRITLNNGRIGISGKLLFKLNSDQLEPEGRQLLKSLVLPLRSYLQT
+RDEMLMVSGFTDDRQITSRNREFADNWELSAQRALTVTRTLIEEGMPASMLFAAAFGQEQ
+ALVPNTSEQARAQNRRVEMAPVPKANNTARTAP
+>tr|A0A0P0M9U3|A0A0P0M9U3_9BURK
+MTSKSFEFNASNLEAWQKAAVKSAPGGDVNALNWKTPDGIVVKPLYTAEDTANLPYANTL
+PGFEPFLRGPQATMYAVRPWTIRQYAGFSTAEESNAFYRKALAAGGQGVSVAFDLATHRG
+YDSDHPRVTGDVGKAGVAIDSVEDMKILFDQIPLDKVSVSMTMNGAVLPVLAGYVVAAEE
+QGVSQDKLSGTIQNDILKEFMVRNTYIYPPEPSMKIIGDIIEYTAKNMPKFNSISISGYH
+MQEAGANQALEMAFTLADGKEYVKTAIAKGMDVDEFAGRLSFFWAVGMNFYLEIAKMRAA
+RLLWCRIMKGFDAKNPKSLMLRTHSQTSGWSLTEQDPYNNVVRTTIEAMAAVFGGTQSLH
+TNSFDEAIALPTEFSSRIARNTQLIIQEETHITNVIDPWAGSYMMESLTQEMADKAWAII
+EEVEAMGGMTKAVGSGWAKLKIEAAAAEKQARIDSGKDVIVGVNKYKLAKEDPIETLSID
+NVKVRDGQIERLAKIRASRDSAKVQAALDALSAAAESGQGNLLDLSIQAVRLRATVGEVS
+DALEKAFGRHRADTQKVTGVYAAAYDDGENVGDTMEYWNQLKADIAAFADAQGRRPRVMI
+SKLGQDGHDRGAKVVATAFADLGYDVDMGPLFQTPEECARQAIENDVHAVGVSTLAAGHK
+TLVPAIIAELKKQGADDIIVFVGGVIPRQDYDMLYEAGVKGIYGPGTPIPVSAKDVLEQI
+KKALG
+>tr|A0A0P0LDF0|A0A0P0LDF0_9BURK
+MLAYIFKRLLLMVPTLFGVLLMTFVVIQFVPGGPVEQMVAQLQGRDTGGEGAAAAGSGYR
+GRQGVDAARIAEIKTLYGFDKPPAERFWMMLKQFAQFDLGKSFFYPKDVWTLIKEKLPVS
+ISLGLWTFFLSYLVSVPLGIAKAVRAGTRFDTLTSLLVLVGYAIPGFVLGVALLVIFGGQ
+LQWFPLRGLTSSNWEQLSWGAKVVDYLWHIALPVTASVLGSFAVITMLTKNAFLEEIRKQ
+YVLTARAKGLSENRVLYRHVMRNALIPLVTGFPAAFIGAFFTGSLLIETLFSLDGLGLLS
+YEAVIRRDYPVVLGTLYLFTLIGLVTKLISDLCYLWVDPRVKFDK
+>tr|A0A0P0LLU1|A0A0P0LLU1_9BURK
+MPRRREVPKREILPDPKFGNVELSKFMNVIMEGGKKAVAERIIYGALETMEKKTGKDPVE
+LFSIAINNVKPMVEVKSRRVGGANYQVPVEVRPVRRLALSMRWIKEAARKRGEKSMALRL
+ANELLEANEGRGGAMKKRDEVHRMAEANKAFSHFRF
+>tr|A0A0P0MAR7|A0A0P0MAR7_9BURK
+MEPTQTRPAAAGHDDAPVVSYVQQLLEQAVALKASDIHFEPYEHQYRVRMRIDGELREVA
+SPHMALKDRLASRIKVMSRLDIAEKRLPQDGRMKLHLASGRELDLRVSTLPTLFGEKLVI
+RVLDSAQAQLDLGRLGYEPEDLERLLGAIRAPHGLVLVTGPTGSGKTQSLYACLNLLNTP
+EVNIATVEDPCEIQLAGINQVNVQDKPGLSFAVALRAFLRQDPDILMVGEVRDLETANIA
+IQAAQTGHLVLSTLHTNDAPATLVRLRNMGTAPYNIAASVSLITAQRLVRCLCPQCKHRA
+SVPAAIWLKAGWPPHLSHEDKVPVFEPVGCPQCHKGFVGRTGIFQVMPVSAEMQQLVLQE
+AGIQEMARQARNEGVSSLRMAGLRKVLQGITSLDEVLAATREST
+>tr|A0A0P0MAX0|A0A0P0MAX0_9BURK
+MSQHFTPVSSGARLSDQVAEQLSAEIKQGRLAPGDKLPTEARLVEQFAVSRTVVREAVSR
+LKSLGLVDSRQGSGVFVNAQQPFAPLNFEARHAASQEAVVQMVEVRRALEAEVAALAAER
+RSASDLRAIEQAVQALDQAVASGGDGVAEDVNFHRAIAEATRNPFLIQTLSYLSQFLHGA
+TQVTRANEARRGDFAAAVRGEHQAILKAIQAGNPAEARQAAAAHMGNAIARIREADPVFW
+TQEGERLAQPLVKGLRG
+>tr|A0A0N7J926|A0A0N7J926_9BURK
+MNLLDMKGRHAVITGGATGLGFAIAQRMLASGARVTIWDRDAAGMAKAAEQLRQGQLGAV
+VNTVQVDVADHASVVNATAQTTALAGVDVLVNSAGITGPNVKVWDYPVDAWKQVFDVNVH
+GLFHCCRELSAHMKTRNYGRIVNIASVAGKDGNPNASAYSASKAAVIGLTKSLGKELADT
+GVRVNCVTPAAVKTAIFDQMTPEHIQFMLSKIPMARFGEPEEVAAMVTWLSTEECSFSTG
+AVFDLSGGRSTY
+>tr|A0A0P0LQF3|A0A0P0LQF3_9BURK
+MTVRDILKMGDARLLRMAEPVSAFDTPELHALITDMHDTMAAVNGAGLAAPQIGVNLQLV
+IFGSTAVNPRYPGRPLVPRTVLINPVITPLGTAEEDDWEGCLSVPGLRGVVPRWSRIRYT
+GLDEKGTPIDRTVDGFHARVVQHECDHLIGKLYPMRVRDFSRFGFTEVLFPEISAAEDD
+>tr|A0A0P0MAM2|A0A0P0MAM2_9BURK
+MDLAFTPDELAFRDEIRTWVKDNLPADISQKVHAAMRLTREDMQRWAKILGKKGWLGWGW
+PTQFGGPGWTAVQKHLFEEECALAGAPRVVPFGPVMVAPVIMAFGNAEQQQRFLPGIASG
+EVWWSQGYSEPGSGSDLASLKTRAERVGDKYIVNGQKTWTTLGQYGEWIFCLVRTSNEGK
+PQTGISFLLIDMKSPGITVRPIKLLDGECEVNEVWFDNVEVPAENLIGEENKGWNYAKHL
+LAHERTNIADVNRAKRELERLKRIAKAEGVYDDMRFRDEIAKLEVDIVALEMLVLRVLSA
+EKSGKNSLDIAGLLKIKGSEIQQRYTELMMQAAGPFALPFIFEAMDAGWQGNFPGGVVAN
+APLAANYFNMRKTTIYGGSNEVQRNIVAQTVLG
+>tr|A0A0N7J877|A0A0N7J877_9BURK
+MSVLHALQTRAAPFVALRRDLHRHPELGLREFRTSQVLAEQLESWGYTVTRGLATTGLVG
+QLKRGNGGKRLGLRADMDALPIHETNNFEHCSVHAGVMHACGHDGHTAMLMAAAQYIAQE
+VEFSGTLNLIFQPAEEHPGGAQIMIKEGLFERFPCDAIYAAHNMPGVAAGELVFIEGPAM
+ASSDDVTITLTGVGGHGAMPHRTQDPIVAAAAIVMTLQTIVSRNVDPQHTAVITVGSLVA
+GKANNVIPASARLELSVRSLDREVRDLLQERITSLVTAQAQSLGVLAQIDYKRDYPVLVN
+TAAETELARQVGTELLGAERITRQGRPLTGSEDFAFMLEHCPGSYFMIGNGAGEGAGDSA
+AAHACMVHNPGYDFNDNILPVGAAFWSLLTQRYLKD
+>tr|A0A0P0LMW4|A0A0P0LMW4_9BURK
+MSKQTHAFQAEVAQLLHLVTHSLYSNQEIFLRELISNASDACDKLRFEALNNNGLYEDAP
+DLQVRLSFDKTAKTLTITDNGIGMTAQEAIDHLGTIAKSGTKDFMSKLSGDQKSDAQLIG
+QFGVGFYSGFIVAEKITVETRRAGAAAAEGVRWISGGTGDFEVETITRAERGTSVILHLR
+EEALEYANTWKLKEIVGKYSDHISLPILMEKEEWKDGELIDPNDENGGRKPGGMVKTGEW
+ETINKASALWTRPKKDITDEQYADFYKQISRDFEAPLTWTHNRVEGSTEYTQLLYIPGKA
+PHDLWNRDKKAGIKLYVKRVFIMDEAEALMPSYLRFVKGVVDSADLPLNVSRELLQESRD
+VKAIREGCTKRVLSMLEDLAKHDKAPEASADVTDVLSEEDKAKLGQYSKFYAEFGAVLKE
+GLGEDFANKDRLSKLLRFASTTSDTVSVSFADYKARMKEGQDAIYYITADTLAAAKNSPQ
+LEVFKKKGIEVLLMTDRVDEWALNFVHEVDGTPLQSVAKGAFDLGKLQDEEEKKAAEDAA
+ETFKPVLAKLKEALKDKAEDVRVTSRLVDSPACLVVTDDGMSMQLARMLKQAGQSAPEVK
+PVLEVNPEHALVKKLDGSVHFHDLAHILFDQALLAEGGLPEDPAAYVKRVNALLS
+>tr|A0A0P0M8P5|A0A0P0M8P5_9BURK
+MNRIGLWISSLLVVFALLSSTLFVVDQRQFGVVYALGQIKEVITEPGLHFKLPPPLQNVN
+YIDKRLLTLDSPDNEPMLTAEKQRVVIDWYVRWRITDPQAYIRNVGLDEKAGTNQLNRVV
+RNAFQEEINKRTVKELLSLKREELMDDVKAAVLLVVKGSKPWGVDVVDVRITRADYVDTI
+TESVYRRMEAERKRVANELRSTGGAEGEKIRADADRQREVTIANAYRDAQKIKGEGDAQA
+ARLYAESFGRDPQFAQFYRSLEAYKASFNSKGDVMVLDPGSSEFFKGMRGTPSGAPARK
+>tr|A0A0P0M9T9|A0A0P0M9T9_9BURK
+MKLADNKATLSFSNGSPSIDMPVYSGNIGPDVIDIRKLYAQSGMFTYDPGFLSTASCQSA
+ITYIDGDKGELLYRGYPIEQLANKADYLDTCYLLLNGELPVGQQSKDFHKLVNQHTMVNE
+QMQFFLRGFRRDAHPMAVLTGLIGALSAFYHDSTDINNPDHRHIAAIRLIAKMPTLVAMA
+YKYGVGQPYMYPRNDLSYAGNFLRMMFGTPCEDYVVNPVLERAMDRIFTLHADHEQNAST
+STVRLCGSSGTNPFAAIAAGVACLWGPAHGGANEACLTMLEDIQKMGGVSKVGEFMNQVK
+DKNSGVKLMGFGHRVYKNYDPRAKLMQETCDEVLKELGLENDPLFKLAKELEKIALEDEY
+FVSRKLYPNVDFYSGIVQRAIGIPVNLFTGVFALARTVGWIAQLNEMISDPEYKIGRPRQ
+LFTGSVRRDVQR
+>tr|A0A0P0MA79|A0A0P0MA79_9BURK
+MAKQYKVLVNTGKADNSQTLTIEQGAGERGQPVRIKAQVGAKYQLQEMLRNQQVAPDYIK
+VKRVGKHLHILFENETQPSLIIEDYYDVMPQGYNGVIGQAENGRFYEYIPEDPKSAGLVP
+LLGDGAQAASVALGGAEVSGAGAALGVVGVAAFSPLVGLLGLGAVGAAAYLANRDKDNTE
+ATSPGLKTALSIDPIAGDNVITPTEGGITTTAVTGKVTGQFAAGDTVTLLVNGKSFTGTV
+AANGSYSINVPTADLKADTDTQIEGSVSGTGGDRATAAQDYVVETSATATQTALAIDPVT
+ADNLISATESELSQIPVTGKVSGKFSAGDVVTLVVNGKNFTGAVAANGNYSINVPAADLT
+ADENSILEGRVTGSGGTAANAMQSYARENEPSAGRNLDTDSEADNGNGTPTITVTSNQNQ
+LLVGEKATLTFSLSEASGDFTAADVTVIGGTLSNFQGSGKTYTATFTPTASATSAAIVVG
+SDRFSNASGKFNADGADTNNNVSLKVNCPPDTTRSTDADATEADTTRPTITVSSNKTQLS
+DNDTATLTFTLSEASTNFTAADITVIGGTLSNFQGSAAAYTATFTPSANAKSAAVLVASD
+RFSDAAGNTNADGSDTNNTVSLSMGCGTLASNCGCDNTDDRSTTADTTRPTIAISSSKTQ
+LSGTSNDTATISFTLSEASADFTAADVTVIGGTLSNFQGSGKTYTATFTPSANAKNAAVY
+VDSNRFSDAAGNTNNDGADDNNAVHLSLACGCATPPTPVPTVISAALGNASDSGTVGDNK
+TNDATPTLSGTAPAGSSVQVQIKNAAGTVVATIAGTVQSDGTFAITVPSNLADGTYTPVI
+TVTPTTGSPSTVNGTPFTVDTKINVNLTDAGTAGTREPIIGTGEPGAVVVAKDVNGATIG
+SATVDANGQWRITPTANVPAGNVSVLATDAAGNVAGDSDPNTAGERNATVIAAALDDASD
+SGTVGDNKTNDATPTISGTAPAGSTVQVQIKNAAGTVVATLTPTVQPDGTFVITTPSNLA
+DGTYTPVITVTPTTGSPSTTNGTPFTVDTQTNVNLTNPGTAGTREPITGTGEIGAVVVAK
+DVNGATIGSATVDANGQWRITPTANVPAGNVSVLATDAAGNTAGDSDPNTATNTAPVGTN
+GNDSLPGTNNNDTIDGGLGNDTLDGGAGNDSLIGGDGNDSLLGGDGADTLDGGNGNDTLD
+GGAGNDSLNGGAGDDSLRGGEGNDTLDGGLGNDTLDGGAGNDSLIGGDGNDSLLGGDGAD
+TLDGGNGNDTLDGGAGPDSLLGGAGDDSLRGGEGNDTLDGGLGNDTLNGGAGNDVLNGGD
+GNDSIIALDGGNDTVNGGAGTDQLDISRLDQAVLTPGSTPGSGTVTYKDDAGVTNTLNYS
+NIEQIVDNGRAVVDITAMSQDSATAGDFITTDTTLTYSGTVTPKAGTVITPEAQVKLDLF
+SSTGALITSALVPITTANGASTWSWPYETTQAVGNYTLKASVVDQAGVRFTTDPVAVGDD
+PGTDEQAIQIISADTSGNDSLPGTSGADTLDGGAGNDTLDGGAGNDSLNGGAGDDSLRGG
+EGNDTLDGGLGNDTLDGGAGNDSLIGGDGNDSLLGGDGADTLDGGNGNDTLDGGAGPDSL
+LGGAGDDSLRGGEGNDTLDGGLGNDTLNGGAGNDVLNGGDGNDSIIALDGGNDTVNGGAG
+TDQLDISRLDQAVLTPGSTPGSGTVTYKDDAGVTNTLNYSNIEQIVDNGRAVVDITAMSQ
+DSATAGDFITTDTTLTYSGTVTPKAGTVITPEAQVKLDLFSSTGALITSALVPITTANGA
+STWSWPYETTQAVGNYTLKASVVDQAGVRFTTDPVAVGDDPGTDEQAIQVVANDPVDTTA
+PTIAISSNQSSLAAGQTATITFTLSEASSDFAWNGSTGDINVTGGSLSAITQDSTNPLVY
+TATFTPNANSTTNGVISVASTKFTDAAGNPNADGADANNTVTLSVNTVTSTFTAANDTNS
+VTEDSAAITGNVMTNDSLATRITQVAPAGGSNSAVTAGSTSTTGTTLVGSFGTLKLGADG
+SYSYTLDNTKASVQALKAGDKVNEVFSYTATDGSAPASANLVIAITGTNDAPVAVADTAS
+ATEAGGNANAAAGTNPSGNVLTNDTDVDSADTKVVSAIHAGSATGTAGDIAVAAGTATSQ
+VGSFGTLSINANGSYSYAVNQSNTSVQALLPTSTALTDTFTYTVRDAAGATSQQTLTVSI
+QGANDAPTVATVITDKTATAGTAITSFNVASNFADVDTSANGETATYSATLADGSPLPSW
+LILNPSTGAFTGTPPADTPASTLSIKATRTDAGGLSANDTFDLVIAATPQPSSTTALSIN
+PIATDNLLSTSEGNTTNTTVTGQVSGVFAEGDTVTLSVNGKSFTTTVDADGLFSVAVPNA
+DLKADPDTKIEATMVATGATGTPTASQDYALQSGSNPGVALTLDAITADNILNIAESEAP
+ALGLSGTASGNFTAGDVVTLSVNGKSFTGSVDSFGNYSINVPGADLLADPDSKVEASIAA
+TSSLGNATAHAMQDYASDTSVSDGPKFLNAGRLDAPTTPDAAFVVTDNAGPVTGSIANNS
+TTDDTLPTISGQGGNPGDVVSVFDTYVLNGQTITQEIGTATVAEDGTWSVVPTQPLLTGD
+HLLNVGFTDDSGNSSVGDGTSNFTVAGEAAPAVAIERTSAAASTGADLTTNETLLFTLNK
+ASTNFALSDIDVTGGTLSNFAPVPTSGTAGTGYTQYTATFTPTAGSTGTATVGVQATRFT
+DTLGNNNVDTSDSSSANYEANNQVSIAYDTTAPVQDSTAPSVIVSRAGASALATGNTDTI
+SFILSEPSTTFALADIDVTGGTLSNFAPIGASGNATSGYAQYSATFTPTANAQGTATVGV
+ASAKFTDAAANANADTYVVGSTGYEANNLVSLAYNTTAADTTAPTVAVTRTGFGAVTAPE
+TIYFTLSEASTTFTASDIDVTGGTLGALSPVATSGNSTSGYTQYTATFTPAANSTGTASV
+GVLAGKFSDAAGNTNTDTYQSGARFEDNNRITFDYGTKEGAVDIQAPSIAISADKLTLAQ
+GQTATVVFTLSEASTTFDASDVVVTGGTLSGFTGSGTSYSATFTPTANAQGSATIGVASA
+KFQDAAGNTNADTYLAGVAGTSQEVNNQVSLSYNTQPSLTDTTAPTIAITSNKASLAAGQ
+TATLTFTLSEASADFAATDLTVSGGTLSGFAQDSTNPLVYTATFTPNANSTANSVISVAS
+AKFTDAAGNANADGADANNTVTMLTNTLPVDTTAPTVIVSRTNAGTTLASGATETITFTL
+SEASSDFAASDITVTGGTLSNFTALPDSGSAGTGFAQYTATFTPTASSSGTATVGVTSGK
+FSDNAGNLNTDTYLAGNPSSATTQADNQVSLAYNTVPPDTTAPTVALSRTGSGTLTEGGS
+DTITFVLSEASTTFSAADVDVSGGTLSNFAPVTTSGNASSGYTDYTATFTPNANALGTAA
+IGVASGKFTDAAGNANLDTYLTGVAGTSLQANNLINITYNTQLPDTTAPTVVVSRSGAGM
+VNASETVYFTLSEASTTFAQADIDVTGGALSGFAPVASSGNATDGFTQYSATFTPTANAQ
+GTATVGVASAKFTDAAGNTNTDTYVAGNVGGTTTETNNQVSLGYNTLVPDTTAPTIAITR
+AGSGVVTGPETITFTLSEASNNFVLADIDATGGALSALAPVATSGNSTSGYTQYTATFTP
+TAGTLGTATVGVLSGKFTDAASNANTDTYQAGVTGATQEGNNLVSFAFNTDVTAPTVAIA
+RTNSGTVTTSETINFTLSEASSDFTLADIAVTGGTLSNLSGINGSSTNYSATFTPTAGTS
+GTATLGVLAGKFTDAAGNLNKHTFDSADTFAGKVVEANNQVSLAFNTDSTAPTIAVARSG
+SGTLSSTETITFTLSEASTNFEEADIAVSGGTLSGFAPVSGSGNSTSGYTQYTATFTPTA
+NSTGTATIGVASAKFADAAGNLNTDTYLSGVTGATQEANNQVSIAYNTLVADTTAPTAIV
+SRSASGLVNGSEVINITLSEASSDFSDADLTVTGGTLSGFTGSGTSYQVTFTPNANSFGT
+GTVGVRAEQFSDAAGNLNKDTFDSADTAANPVLETNNQVSLPYNTDTTAPTVTVARTGSG
+TVSSSGETITFTLSEASSNFAITDIDATGGSLSAFTQDSTNPLIYTALFTPDANGVGVAS
+VGVASSKFTDAAGNQNLDTYLTGVSGTTVETNNLVTFQYSTDSTAPTIAITRAGSGTVTS
+TETVTFTLSEASSSFDVNDITVSGGALSGFAQDSTNQRVYTATFTPAANATGSATIGVLA
+GKFADAAGNLNKDTFDSADTFAGKVVEANNQITLAYNTDTTAPTIAITRAGTGTVTGTET
+ITFTLSEVSTDFVWNGSVGDIAVTGGTLSAITQNPSNPLVYTATFTPASGAAGTASISVA
+SNKFTDAAGNANADGADANNTLSLPYSTATPTVAITRATSSTLGAAGSTQPTETVTFTLS
+EASTDFAQGDVTLSSGALSNWTAVSSTVYTATFTPDANASGTATIGVAASKFANAAGSQN
+QDTYVAGQGSNTQADNQVSVAYDTVAPTQTVTFGSMTKDSGTSNAATANKDWTTNDSSAG
+RLVSGFISAPLGAGESVQVFSNGTLVGTATVAAGGTTWAITDLAGYGSDASWTYTAKVVD
+AAGNAAPTATRVVSYSAPAVTSVGGETAGNDALSYTSGDLNTLAGDDVITAGTGVQAALA
+AGGHIQGGEGVDTLQLAAGTTLNLEQLTNNQTVKSVEQVEVFQLQGTSTLTMSANDVLSL
+GGSNATTMVTYAFTDTVQTADGSVAATGSTTSTGKVQMVVRGLNTDTLNLDALANDGVTG
+TGGVLGNTGLGGSWAYKGQVLIGTDLYKVYDHSTTGAQVLVDLPVTVQTLSPVTITAIST
+DSGVAGDFITNDQTLVFSGDVPAAILGTERVKVEILDSNNNLATSAAYVTPNGTNWTLDK
+TGTSLPAGNYTIKATIVDSTTLTAVSSYGAMGVATQPMVIDTSVPTIAVARAGSATLVAG
+GTETITFTTSEAVTDFVVGDVTVTGGTLSGFTGSGTSYSATFTPTTGSGTATISVANGKF
+GDTAGNLNADGADANNTVSIAYDTQAPTQTVTFGSMTKDSS
+>tr|A0A0P0M8R8|A0A0P0M8R8_9BURK
+MKNRQIASFSVSAIGLGCMNLSHAYGAPVSAQQGERVLLTALDQGVTFFDTAALYGFGAN
+ETLVGQVMKPHRNRFTLASKCGMQGVEQNDGSKVRVIDGRPETLKKTCEDALRRLQTDVI
+DLYYLHRWDKKVPIEDSVGALSDLVRQGKIQTIGLSEVSASTLRKAHAVHPIAAVQTEYS
+LWTRNPEIAVLQACRDLGVAFVAFSPVARGFLCGAALDVTAFDAKDIRRSMPRFTPENYA
+ANLKLLPAYHALAQEAGCSPSQLALAWLLHQGEDIIPIPGTTSVDHLLDDLAAVDVQLDA
+NLLARLNALINQDTVSGDRYSAQSNSEVDTEVFG
+>tr|A0A0P0MAF8|A0A0P0MAF8_9BURK
+MLNTPASTIRFPRLLLTGAGGNLGQVLRPRLKAYCDVLRVSHRRELEPATAGEEVQLASL
+EDKDQMMALLDGVNAVVHMGGVSIEQPWDPILAGNIVGMVNLYEAARLKGVQRIVFASSN
+HVTGFYRQDEVVNTRMPPKPDGFYGLSKAFGEDLAQLYWDRWGIETVSLRIGSSFTEPKD
+RRMLATYLSYDDLERLVVAALTAPIVGHSIIYGMSDNQTTWWDNTHAKHIGYRPQDSSDV
+FRPAVEARQQTIDKNDPAAIYQGGAFVKATPHG
+>tr|A0A0P0M823|A0A0P0M823_9BURK
+MGQTKRQMPKNHKMKALGALVFSAWVLPAAALDLGRLQILSGIGEPLRAEIEVAQASPEE
+LRSLRAQLASPGAFSQAGMEFNPALNGVTASLQNRPNGTPVITLNGRAPIQENFIDLILE
+AQTSSGKLTKNYALLLNSVSDRLARSSSTPASANSPQLPVVPPLVQPIPPAPALARVVET
+PASANPLNATSVELNARNIPVYRFAPVDNTQTPRPQPSTTETSASTAALRAPAVQARPKG
+NEPSRETGDRSIKVRPGDTASRLAIRYLGGQASLDQMMLAMLKANPDAFIQGNVNLVKAG
+AVLRIPDLGEATQISRDEARKTVIAQTKEFAEYARRLAESPLLVDSKNSRSMSGTVTAEP
+AKPAPGALQQDKLTLSKSSVSANAADAKLASEREAKDTSDQLAALNKNLKDLEALTQNPA
+STNSASASNTPSAAAVSTAPATPSAQTLPTSQAPTSTMTSSSLQDLSENKQLWAWAAGLL
+AAILLVAFWMRRRSAEPESIYAPSYDDIPAPSTEPVMQATPSPMPVPAQMSSIDLNLQPS
+TAPAPMAPTPAYAAPTPVSPPPATTAAEDTEVSKLNLAAQLLAKGDKDLARALILSVISL
+THGDIKARAIQMLGQIR
+>tr|A0A0P0MAV8|A0A0P0MAV8_9BURK
+MMPSSAVAVVGAGNMGGAMLARLCDMGWSVAVHDSDARAQAQAVALGAVPCSSAGQAAQV
+LAPQGVLLVAVVDAAQTDVVLWGEGGAGAHLQPGQCVMLCPTLGPATVELQAKRLALQGV
+DCMDAPMSGGPVRAREGRMSLMVACSDAVWTHHQNLLNALSDQVFHVGTRAGDGARTKLV
+NNLLAAVNLAGAAEAMALAERLGLAPAATLSVIEASSGQSWIGSDRMRRALAGDLVPRAH
+VSLLAKDTGLALAAAEEVAFDPPLGRIARELFAQALQQGWADLDDAALLQLMRQR
+>tr|A0A0P0LHL6|A0A0P0LHL6_9BURK
+MPPFQGAFFIQKAFPMSKQFDVVVIGGGPGGYIAAIRAAQLGFQVACIDEWKNAAGGPAP
+GGTCTNVGCIPSKALLQSSEHFDHANHHFAEHGISATGVKMDVAQMIARKDTVVKQNNDG
+ILYLLKKNKVTFFHGRGRFASKAEGGYEIKVAGKTEESITGKNIIIATGSNARALPGTPF
+DEVNVLSNDGALRLAAVPKKLALIGSGVIGLEMGSVWRRLGAEVTILEGLPTFLGAVDEQ
+IAKEAKKAFDKQGLKIELGVKVGEIVNGKKGVTVNYTNAKGEAVKLDADKLIISIGRVPN
+TIGLNTEAVGLHLDERGAVVVDADCKTNLPGVWAVGDVVRGPMLAHKAEEEGVAVAERIA
+GQHGHVNFNTIPWVIYTSPEIAWVGRTEQQLKADGVAYKAGSFPFLANGRARALGDTTGM
+VKMLADATTDEILGVHIVGPQASELIAEAVVAMEFRASAEDIARICHAHPSLSESTKEAA
+LAVDKRSLNF
+>tr|A0A0P0MAC1|A0A0P0MAC1_9BURK
+MSTVQFTLNGQSVEAPAGQSIFNIAKELGIAIPHLCHKEGLAPDGNCRACVVEVAGERTL
+APSCCRSATPGMQVQTNSERAVKSQKMVLEMLLADLPEQGHKWLDDRAEAPHGELSRWAE
+HHGVTVRPALAAIKRDAVPADLSHPAMAVNLDACIQCNRCQRACRDLQVNDVIGLAFRGA
+HTQVVFDLADPMGGSSCVGCGECVQACPTGALMPKSHMGPQKVDREVDSVCPFCGVGCLV
+TYQVKDEIIVSVKGREGPANQGRLCVKGRFGMDYIHSPDRITRPLIRKAGVAKDVGLIDG
+HTDWREVFREATWEEALDLAAQPLNTLRQQHGPKSLAGFGSAKGSNEEAYLFQKLVRTGF
+GSNNVDHCTRLCHASSVAALLEGVGSGAVSNPVRDVEHADLIIVIGSNPTANHPVAATWM
+KNAAQRGTRIVLADPRITDIGRHAWRTLQFKADTDVALLNAMLHVIVTEHLCDESFLRDR
+ADNVAELKAHVQGYTPESMSAICGIAADTIREVARAYASAKAAMILWGMGVSQHVHGTDN
+VRCLIALASITGQIGRPGTGLHPLRGQNNVQGASDAGLIPMMYPNYQRVSDKSAHDWFEK
+FWDTKLDDQPGYTVVEIMHKALAPDSDPHKVLGMYIMGENPAMSDPDLNHARHALASLQH
+LVVQDIFLTETAWLADVVLPASAWPEKTGTVSNTDRTVQMGRQAVLPPGDAKPDLWIIQQ
+LAQRMGLGWAYAGDHDGVAAVYEEMRQAMAPAIGGIDWARLNAGSITYPCVSAEDPGQPI
+VFHDQFPTQDGRVRLVTAGLISANEQPDAEYPLVLITGRQLEHWHTGSMTRRATVLDALE
+PAATASMHGSEMQRLGLQAGQWVRMASRRGEVVLPLRQDDGTPLGTVFIPFAYQEAAANL
+LTNAALDPFGKIPEFKFCAVRVEAAPLQKA
+>tr|A0A0P0LGH2|A0A0P0LGH2_9BURK
+MNHTDVVIVGSGVMGAATAYWLTRLQPGLRVTLIESDTRYEKASSSLSASSIRQQFTCPV
+NIRLSQFGIAFLREAEQHLGLPDHPVALGLQEPGYLYLAQPGQTSALHTAHQIQKQVGAD
+VALLGPDELRQRYPWLNVDDVALGSLGLSGEGWFDGPALHQAFLKKAMAQGVQRLHDRVV
+GLDHSATHISTVRLASGGSLPCGQVVNAAGPWAGEVAAMAGVQLPIEAARRTVFVLSCPE
+PLPQCPLLIDPSGWWLRPEGRFLISGAEPLHTAPGLPLEPDWSEWNDEQWASLAHRIPAL
+AALRVERAWAGYYEMNTFDHNAVIGPHPELGNLYFINGFSGHGMQHAAGAGLALAEWMLL
+GQAKTIAVDELGFERLAQNRPLRELAVIG
+>tr|A0A0P0LL97|A0A0P0LL97_9BURK
+MSSAETQAREEICRVGRSLFERGYVHATAGNISVRLDDGFLITPTDACLGFLDPDRLAKL
+DLQGQQVSGDKGSKTIALHRQIYAAACESDAATRCVIHTHSTHCVALSLNATSPELLPPI
+TPYFVMKVGHVPLVTYHRPGSPDAAQEAAQLIRQYAAQGAPIRAVMLTRLGPNVWHDTPA
+AAMATLEELEETARLMQLHPHTPPLHASALDELRQAFGARW
+>tr|A0A0P0M7A9|A0A0P0M7A9_9BURK
+MTPGELLIDPGQHALNVGRRACTLVVQNASDRPIQVGSHYHFAETNAGLRFDRAAARGMR
+LNIASGMAVRFEPGQQRTVELVDYAGERKVYGFRGLTQGALDTPQTQGS
+>tr|A0A0P0M9R0|A0A0P0M9R0_9BURK
+MSSVNYGSKRIVTGAGYGFRDWLAQRVTAVLMALFTVVLLAQVIFTSGPIGYEEWAGIFA
+SQWMKVLTFSVIIALLYHVWVGMRDIWMDYIKPLALRLALHVFTLVWLVGCAGWAVQALW
+RL
+>tr|A0A0P0LD62|A0A0P0LD62_9BURK
+MNIILIEDDPRIADFLQRGLKAEGLQVQRAATGPEGLALVQDAARQTAPGHPPTVVVLDL
+MLPGMNGLDICQTLRAQGVPFPILMLTALSALEERVAGLRMGADDYLCKPFEFEELLARL
+EALCRRAQGMATRPSHLQVADIVLDRDSMRATRAGEVLNLTARELALLELLMSAPGRLFS
+RERILSSVWGLNEDPLTNVVDVYIRRLRSKIDEGRDSPLIQTMRGLGYRLEAPAEAG
+>tr|A0A0P0M9Z9|A0A0P0M9Z9_9BURK
+MASDLIKHTTDATFEADVLQSSQPVVVDFWAEWCGPCKMIAPILDEVASAYEGKLQIAKM
+NVDDNRDIPAKFGIRGIPTLMIFKGGQLAATKVGAMSKSQLTAFIDQQLA
+>tr|A0A0P0MB93|A0A0P0MB93_9BURK
+MTSSIHTLHRERLLLERAQLLQRIAQERGGLVSRADMAAEHDVRSFDDRAQAISERNDEF
+AMNEHETAELGEIDAALERYQAGTYGICTECGISIPSARLSAYPTAKRCFSCQSLSEHHR
+>tr|A0A0N7J8G4|A0A0N7J8G4_9BURK
+MKALVYTNPLEVQIQERPEPDLVPGEVVLRIDAVGICGSDMHAYHGHDPRRKPGLVLGHE
+FCGTIVKSDAPGFVTGQRVTGNPLITCGVCDYCVQGRNNLCSRRTMVGMTRPGAFAEFMS
+IPAASLIEMPQDMPAIQAALTEPAATALHAINMSLKAMARPLPENRTLIIGGGAIGMLAA
+LLLKHYGARGTALAEVNPLRRLSAEKHAGVMTYDPRTTTAEENGFDYVIDAVGSKLTRVA
+ALNAVKPGGVVMHIGLQDWASEIDMRKLTLAEITLMGTYTYTTADLRATVKLLHEGAFGD
+LSWVETVPMADGAKAFADLDSGQIASSKLVLLP
+>tr|A0A0P0M840|A0A0P0M840_9BURK
+MTDTPAEATSQRDGAALSTAFQGTLLDQFRAQVAGQDLWVFGYASLLWRPEFEAQEQHIS
+RVWGWHRALKMWSRLNRGSPECPGLVFALLPGGSCQGVAYRVDRGQADEVLVRLWEREMP
+MDVYTPSWLPCNTPQGPVKALAFTLPRSSPSFTGQLPAETYRQIFQQASGRFGTTLDYVR
+QTYESLQAHGIEDRALAALLRHADEKHSPAQA
+>tr|A0A0P0M9N1|A0A0P0M9N1_9BURK
+MSIFNKVTKTFQWGQHTVKMETGEVARQAGGAVLLDMEGTVVLATVVGSKIAKAGQDFFP
+LTVDYIEKTYAAGKIPGSFFKREAKPSEHETLTSRLIDRPIRPLFPEGFYNDVHVVIHTV
+SLNPEVDADIAAMIAVSAALSISGIPFNGPIGAARVGYINGEYVLNPGQTQRKDSVMDLV
+VAGTEAAVLMVESEALQLSEEIMLGGVVYGHEQSAIAINAIHELVREAGKPVWDWQAPAR
+DTAFESKLATLAEEKLRAAYQIRNKQARTHACREAYASVKVALAEEGVAFDPVKLDNLLF
+EIEARIVRSQILAGEPRIDGRDTRTVRPIEIRNSVLPRTHGSALFTRGETQALVITTLGT
+DRDAQRIDALAGEFEDRFMFHYNMPPFATGEVGRMGSTKRREIGHGRLAKRALAAVLPGK
+EEFPYTVRVVSEITESNGSSSMASVCGGCLSMMDAGVPMKAHVAGIAMGLIKEDNRFAVL
+TDILGDEDHLGDMDFKVAGTTNGITALQMDIKIQGITKEIMQVALAQAKEARMHILGKMQ
+EAMSTANTEVSDFAPKLFTMKINPEKIRDVIGKGGATIRALTEETGCQINISEDGTITIA
+ATDGEKAEIAKKRIEQITAEVEIGKVYEGPVTKILDFGALINLLPGKDGLLHISQIAHER
+VEKVTDYLSEGQIVKVKVMETDEKGRIKLSMKALLDRPAQG
+>tr|A0A0P0LHK5|A0A0P0LHK5_9BURK
+MFPTPQPLVPSLQARVHPDEWQARLQLAACYRVFALLGWTEMIYNHITLRLPDSVTGGDK
+HFLINPFGLHYSEVTASNLVKIDVQGRKLDGSPYPVNPAGFTVHAAVHEGLAGAHCVMHT
+HTTAGVAVACLQGGLQQTNFYSAQLHNMVAYHDFEGITIHADEAPRLLQSIGDKQAIILR
+NHGLLAWGHTLPQTFAVLWTLQRACEIQMATLSMGQPIVVPEAIADQCTRDALQFNPNHG
+AGEDVFQALVRQIDRQDSGWRV
+>tr|A0A0P0M7J4|A0A0P0M7J4_9BURK
+MNKMVNPLEFGWFQIIRLGLIQACLGAVVVVTTSTLNRIMVVELALPALLPGFLVAWHYA
+VQMVRPRMGFGADKGRRSTPWMMGGMLVLGVGGVMAAGSTVWMATQPMYGALLAWLSFSL
+IGLGVSACGTSLLALMAKRVPDERRAPAATTVWLMMIVGFAVTAGVVGKLIDPYSPQVLL
+QVSAGLSLLTACITALCLWGLEKDGEPSQATAPSVANERLKKQNFKEAFQEVWAEPAART
+FTVFVFMSMLAYSAQDLILEPFAGAVHGFTPGQTTQLSGWHHMGVLFGMLAVAGAGSRWV
+AGRLGSVQAWMVGGCLVSALATVGLVSSALSAAWPLKANVVFLGVANGAFSIAAIATMMR
+LAGEGGAGREGTRMGLWGAAQAAAFGLGGLLGTAASDLAHALLGEQRTAYAAVFGMQALM
+FAVSAAVATRLRTGPAAQRAPLRFDGPVLLKGGSSS
+>tr|A0A0P0LIF0|A0A0P0LIF0_9BURK
+MQTPRDWLTPEALKMLQTIGQHGSFAAAARALNLVPSALTYRVRQIEDALDVLLFDRSAR
+QAVPTAAGRELLREASRLLDDMDAVANRVRRVATGWEAVFTVAVDSIVSRSVVMDLCASF
+LALGAPTRLRLRYETLSGTLAALTSGQADLALGVVLEPGLKTDIRHAVLGEIAFVFAVAP
+HHLLAQAPEPLGDAALQQHRAVAVADSVSRGTGLTIGLQGGQDVFTVPDMPSKLEAQLRG
+LGGGFLPETLARPYIDSGQLVAKQVHTPRSNTCHLAWRDTPQTPAGQALRWWLGQLERPA
+TREALLRPVHRV
+>tr|A0A0P0MA74|A0A0P0MA74_9BURK
+MASEISARPPQLNTLMIQSIDLQTTPGHLIRRAQQIAVAIFAEQLASADITPVQFAILNA
+LLGSPGIDQVSLAKRVAFDPATSGSVIGRLEAKGWVVREADPSDRRRKLLVVTPQGVQAL
+ANIQSDVARVQEKILSPLSQQEQSQFVHLLSLLVKGHQSS
+>tr|A0A0P0M6K9|A0A0P0M6K9_9BURK
+MFISSAFAQTAPAAAAGGDMQSTLMSMLPLLLMFVVLYFVMIRPQMKKQKEHRAMIDALA
+KGDEVVTAGGFLGKVSKLGDAYVGIELANGVEVQMQRSAVIQVLPKGTMK
+>tr|A0A0P0M8B3|A0A0P0M8B3_9BURK
+MTLKIYGIGPSRAARPIWTALELGVPFDLISTPYAGGATRTPEFLAVNPNGHIPVLIDER
+AEGAITVWESMACALYIARVHGKADGQTIAPASPREEAEALRWSFWTVSELEADALTVLM
+HRMAMPEDQRKPELADKAESRLKVPLAVLEKHLQAQHAKGEAYLAANRFTVADVCVASVA
+SWVRPAAALLAQYPAVSSWLKVCLDRPAQAQARAMK
+>tr|A0A0P0M7Y3|A0A0P0M7Y3_9BURK
+MKKLNKVAMLLASAALASAAGAQTIDNWRNGTGDLVWKNGTNELCWRDANWTPATAAAGC
+DGAIVAKPAAPAAAPAPAPAARPAAPAAAAPAPAPAAPRPAAPPPAAATKVTYAADAFFD
+FDKSVLKAEGKAKLDDLVGKVKGINLEVIIAVGHTDSVGSDAYNQKLSVKRSDAVKAYLV
+SKGIEKNRVYTEGKGEKQPVADNKTSAGRSKNRRVEIEVVGTRPN
+>tr|A0A0P0MA30|A0A0P0MA30_9BURK
+MHLNELKALHVSELLKQADTLEIENTGRMRKQELMFAIIKKRAKAGEQVFADGVLEILPD
+GFGFLRSPDSSYTASTDDIYISPSQVRRFNLHTGDMIEGEVRIPKDGERYFALTKLDKVN
+DDLPENNKHKVMFENLTPLFPKEQMRLERDIKGEENITARVIDIIAPLGRGQRALIVAQP
+KSGKTVMMQQIAHAITANYPDVHLMVLLVDERPEEVTEMQRSVRGEVISSTFDEPASRHV
+HVAEMVIERAKRLVELKKDVVILLDSITRLARAYNNVVPSSGKVLSGGVDANALQRPKRF
+FGAARNVEEGGSLTIIATALVDTGSRMDEVIFEEFKGTGNCEIHLERRLYEKRVFPAINL
+NRSGTRREELLLQPEVLQKTRILRQFMYNMDEIEAMEMVLKSMKATKNNSEFFDMMRRGG
+>tr|A0A0N7J991|A0A0N7J991_9BURK
+MQQPPHSTLYLEAERHADGKKSAFQKTTLRSTLTALHAAQPQSIYLRDGELVLYRRSRSL
+LYQCRYRLADGSWVRQTTGKAALEHAIARACDIYDEARYRQRLGLAHRTHSVAQIAAVCC
+AALRQQIDGKGKKTALNDYLSIIERYFVPYFGERQLETLTHTDVREFELWRDRQMTRKPK
+TSTLNNFTSAWSRLVATAVEQGYISERVPVPKLTSKGEKGKTRPAFSKEEIEQLLEFVET
+WQHKGKFAVEHEIRPLLRDYIEMLLYTGMRHGTEAMGIRWRDLEWHTKDGVRYLRVWVDG
+KTGGRWLIAKHKAVDVLRRLHARQKDIASVPFEDVLTTRVPHLLFRFSDGHQPHSLVGTF
+RKLMRDSGLLVDGAGQTRTLYSLRHTYATLALLEGGADIHTLSKQMGNSAAMIERHYSKL
+TATMAADRLA
+>tr|A0A0P0LRB0|A0A0P0LRB0_9BURK
+MSKIHPTAIISPGAELDSSVSVGPYTVIGPHVRLGAGTTVASHCVIEGHTTIGSDNRIFQ
+FNSLGAVPQDKKYNNEPCELVIGDRNTIREFCTFNIGSPGDRAVTSVGNDNWIMAYVHLA
+HDCQVGNHTIFANNTQLAGHVVVDDWVILGGFTVVHQFCRIGAHSFTAMNSLLFADLPPF
+VMAQGQPAQARSMNFEGLRRRGFSAERISAVKAMHKALYRDGLSLGDAMTRIGALALEKP
+EAQPDVDMMLGFLQAASPQRGIVR
+>tr|A0A0P0MAC2|A0A0P0MAC2_9BURK
+MKFLLSKLALIVATTALSLGSVMAQEAAIRKNLSERLPNLPKIDEVSKTPMNGLFEIRMG
+NEVMYSDATGNFLIQGALIDVKQKRNLTEERMDKLSAIPFDQLPMKTAFTQVRGDGKRKL
+AVFADPNCGYCKRFEKDLQKLDNVTIYHFLYPVLGEDSKNKSKNIWCAKDKAKVWNDWMI
+NGTLPPAANCDASAVDTIVAFGQKNRITGTPLLLFADGSRVPGAVPMAQVEKMLAEIK
+>tr|A0A0P0M9Q6|A0A0P0M9Q6_9BURK
+MKLVQLGQSDLQVTPICLGTMTFGQQVSEADAHAILDRSLEAGINFIDTAEMYAVPASAD
+TCGATETFIGNWFAQNPGAREKLVLATKVAGPSRGMPWIREGSGMTGQDIMNACDASLRR
+LQTDVIDLYQIHWPERHVPVFGMTYFDPAKDKSVTSIHEQLEALAKLVKAGKVRYIGLSN
+ETPYGVHEFVRLAEQHGLPRVATVQNPYCLVSRTYDNGLDETCYRLNVSMLAYSPLGFGL
+LTGKYDNDDLQGPLVPDGGRIARYDSMRKQRWGRPEALVAARRYNQLARDNGMTPTQMAL
+AFCYHRWSVASTIIGVTSLAQLNEDLAAWSTELSPEVLKAIDAIRWEMRDPAL
+>tr|A0A0P0M701|A0A0P0M701_9BURK
+MIAVLQRVSEASVRVDGAVIGQIDAGLLVLLCAEKGDTEALADKMLAKMLKLRIFSDEAG
+KMNRSVQDVRGGLLVVSQFTLAADVAGGNRPSFTQAAAPEDGRRLYEHFVAQARAAHPIV
+QTGQFAADMKVSLVNDGPITIPMRMRA
+>tr|A0A0P0M792|A0A0P0M792_9BURK
+MIDPKTVLRRLYEVAVQRALPLHNTAAHLPAPPKGRTLVLGAGKAGGAMAQAVEALWPQD
+APLSGLVVTRYGHTPPRPAGLPERIEVVEAAHPVPDAAGLQAAERILQLTQGLTADDLVL
+CLISGGGSSLLTLPADGMDLQVKQDINRQLLASGANISEMNCLRKHLSRIKGGRLAAACS
+PAPVVTLTISDVPGDDPSIIASGPTVPDASTCADALAILQRYAITVPDAVVQALQAGTWE
+TPKPGSPVFAGHSVHMIATPQQSLEAAADAARTMGLNAYILSDEIEGESREVGKVHAALA
+RAAAKGLGPFVKPCVILSGGETTVTIKPQPAGSPRGRGGRAGEFCMGLAQALQGQPGVWA
+LAADTDGIDGIEDNAGAQVSPDTLIRALALGHKVDAHLQRNDAYGFFEPLGDLVITGPTH
+TNVNDFRAILIL
+>tr|A0A0P0MBH8|A0A0P0MBH8_9BURK
+MSASFANALAAAHEAAGSQNHPASTLYVVATPIGNLADISLRALHVLARVDVVACEDTRH
+TQQLLRAYGLDRPGSQLLAVHQHNEAEAAHNVLERLGQGQRVAYVSDAGTPAISDPGARL
+VAAVRQAGFRVMPLPGASSVTTALSASGMTGDHGFVFAGFLPSKATERQMAVQHLAQESR
+AVVLLEAPHRIEALAQALAVLGKRPITLGRELTKQFEQIETLPAQDLSAWLAEKPERLRG
+EFVLVLHDAPVDDATGEGLRVLQLLLPELPLKTAVKLAAEISGESKNTLYEQALALKNQG
+>tr|A0A0P0M9Z8|A0A0P0M9Z8_9BURK
+MRPPLETAALPADAIEIGRITDAWGIKGWFKVLPHSASPEALFSAKSWFLLPPDRPMKPQ
+RGQEASASAQQAWREPLLLNILEVKDHSDTVVARAQGIEDRNASEYLRGGRIFVPRSSFP
+AAADGEYYWVDLLGLQVVNREGVDLGQVRDLMSTGPQTVLVIEAAAEAEGGKPVERMIPF
+VAAFVDGVDLPAKRITVDWQPDY
+>tr|A0A0N7J978|A0A0N7J978_9BURK
+MPTTMKTANPATDLGAASAATQILHASLPKAATRLLGLLTRLKIGTLTVHAPDGNFQVFG
+THEAPFAALHIHRWEMCAEVLKSGDIGFAEGYMAGDWTTPDLAALLRLTIANRDHIESAI
+YGHWLGRLFYRIKHLLNRNNRSNSRKNIHAHYDLGNAFYELWLDGTMNYSSAWFEGDHTQ
+DMADAQKAKVRRALRMVNAKPGDRVLEIGCGWGALAEAATTEFGAHITGVTLSTEQLAFA
+NARMQSHGVQQRADLRLQDYRDIHDGPYDAVCSIEMIEAVGQEYWPTYFQTISRMLKPGG
+RACVQSITIDDRFFERYLQSTDFIQQYIFPGGCLPSPSEFRKQAQAAGLQVVDELNFGPD
+YAETLRRWRADFMAQLDTVRTLKFDDRFIRLWEFYLAYCEAAFDEANIDVIQFTLAKPA
+>tr|A0A0P0MAR9|A0A0P0MAR9_9BURK
+MITIHLQPHDPTQDVHTLKAQPGQSLMQAAVDANLPGIQADCGGLLTCATCHVVVHSDWQ
+GKLPPMGSDEDGMLAFTAQAREAGSRLSCQIELTPELDGLRVTLPASQY
+>tr|A0A0P0MBQ6|A0A0P0MBQ6_9BURK
+MTRKLEGQVALVSGSGRGIGREIAIKLASEGARLVINDLDSVPAQSTVDDIIASGGHAVA
+CIGSVTDTDFGDRFVKTALDAFGGIDIIVNNAGYTWDNVLQKMSDEQWEAMLAVHMTAPF
+RILRAASGFIRDAAKKEAEAGLSKHRKVVNISSTSGVYGNAGQANYAAAKAGINGLTKAM
+AKEWGRYKVNVNSVAFGLIMTRLTQPLTAGDASVEIQGRTIAVGVQPDRLKAAESTIPLG
+RGGTPEEAAGAVYMFCIPESNYVSGQVLVCGGGRP
+>tr|A0A0P0M6U1|A0A0P0M6U1_9BURK
+MTQELTLTRPDDWHLHVRDGAALNVVVPHTAAQFGRAIIMPNLKPPVTTAEQALAYKQRI
+LAAVPAGMAFEPLMTLYLTDNLAPAEIARAKAAGVVACKLYPAGATTNSDAGVTDLRKIY
+PVLEAMQREGVLLLVHGEVTSSDIDLFDREAVFIEQHLKPLRRDFPGLKIVMEHITTQEA
+AQHVASGDDLLGATITAHHLLYNRNAIFTGGIRPHYYCLPVLKRETHRLALVKAATSGNP
+RFFLGTDSAPHPAHLKEHATGCAGCYTAHAAIEMYAEAFEQVGALDKLEGFASFFGADFY
+GLPRNTGTITLRRESWTPAESFAFGEAELKPLRSGESLPWRLLAG
+>tr|A0A0P0LHD3|A0A0P0LHD3_9BURK
+MTHIGMIGIGMMGHGIASNLLKHGHSLTVLEHAGNQPLDALLAAGAKTCNTPQALAAQSD
+VVILCVTGTPQVEAVLLGDDGVLKGLRPGTVIIDCSTSVPASTEKVAAMVMAQGGLFLDS
+PMTRTPKEAAEGRLNLLVGGDAALFERCRPILGCFAENIVHTGPIGSGHRMKLLHNYVSL
+GTVTLLAEAAACAQRAGVDANTFVEVLSKGGGWGAALDRLKPTLVSGDTSGLRFSMSNAL
+KDLSYYNQMAIDTHADHTVAQAVKNTLETACREGDPNALVPELIALLAKR
+>tr|A0A0P0M9M7|A0A0P0M9M7_9BURK
+MAMAAKLMVGNWKMNGSLAANASLLSDALSGMDGVSCRAAVCVPAPYLAQAQNLLAGAAL
+ALGAQDVSAHESGAYTGEVSANMLRDFAVRYVIVGHSERRQYHGETDAVVATKTQRALAA
+GITPIVCVGESLAEREAGQTEAVVKRQLAAVIHANGHCISEIVVAYEPVWAIGTGLTATP
+EQAQAVHAVLRAQLQAATAHAERVSILYGGSMNAANAASLLAQPDVDGGLIGGASLNAPD
+FLSMLKAASR
+>tr|A0A0P0LHS1|A0A0P0LHS1_9BURK
+MNLSKDELAFRDEVRAFLAAELTDEIRLGGHRTSGIFSDYEVGIPWQRVLAKRGWAAPHW
+PVEWGGCGWTPRQHDIFASEMAAADAPKVSPLGLVMAAPVLVAFGTQAQKERWLPDIRNG
+VSYWCQGYSEPGSGSDLASLQCRARREGNEWVINGSKIWTTHAHNATHMFCLVRTDSSGK
+PQQGISFLMFELNKPGIQIRPIISISGDHEFNQVFFDEARVPADALIGEENQGWTIAKFL
+LEHERGGSSAPFLRGRLARLHESLQEAFAQGAPGTEHEDIALSLANAQCRIDALHAWEQE
+VLTARIGGGTQPAWMPAAPSMGKVLATELKQHLTELGLDIAGVYGATSLTIEEAAAHALP
+VPEESVFATRAYLNDRAASIYGGTNEVQRNLIARHVLGAEVVEPVLPLDETQAMLVASLQ
+GWLQDKLPFDKRVPMIATPEAIAPLWQGLAHELGLLGAALPEHLGGMGGGLPEQMLICQA
+LGAALVGEPYSSSAVLGANLLQALGDPAADVLLQAMADGQVRLAVAALEPAGRTDLSRLQ
+TRLFNSQGQMHISGRKALVRCATGATHWLVSARDDAGHLRICLLDPAASGVQRRDVRLID
+GVWAAELAFDQTPVQALIGQGDAVAALSQAWDTATLAAGAEAVGVMQALMRDTLNYTSQR
+KQFGQPLAAFQALQHRMADMYMALVQAAAAVGACADVLGDSPERRAERVSSAHVTVLRAA
+RLVGQGAVQLHGGMGMTDELAVGHGFKRLTVIEQQFGGVAQHLRRVAAGRSGLG
+>tr|A0A0P0M6G6|A0A0P0M6G6_9BURK
+MRLIFAGTPEFAQTALAALHAAGHEIVLVLSQPDRPAGRGMKLQASPVKQWALAHQVPVA
+QPRSLRLDGKYPEDAAAARDTLLAAKADAMIVAAYGLILPQWVLDLPPKGCLNIHASLLP
+RWRGAAPIHRAIEAGDTQTGITIMQMDAGLDTGDMLLVLPCAIAPNDTTAVLHDRLADLG
+GETIVQALASLDSLPHQPQPEEGVNYAHKIDKAEAALDWALSAEVLARRIRAFDPFPGMT
+VPLTTEAGSETLKIWQAVAEPLASPAEPGTVLSADASGVRVACGAGLLCLTQLQRPGGKR
+LSAADFLRGCPLQPGQRLVA
+>tr|A0A0P0MBZ5|A0A0P0MBZ5_9BURK
+MLVYRVAPVLGKIVLVFVLTLLVPLTLSMVLDDGATSAYAITMGVCVLVGLALLLLGRRG
+VRADELKSRDGILLVGLVWTLLPLIACLPFLLHFAQTPQPLSFSGAYFEAMSALTTTGST
+VIVGLDHLPPSINLWRCFLQWLGGMGILVLAVAILPMLGVGGSQLFRAEATGPMKDSKLT
+PRITETAKGLWTVYCLLSVACLLAYRWGGMTWLDAWAHMFTTLSLGGLSTHDASFGFFNS
+PTLEWIAIVFMLLASCNFALYFVALVKRQPLKVLRDPEWRASIGLLVGVSLLIAALLWFK
+GHPADLADIIRMSLFNVISIGSTTGYATVDYTQWPVFAPIVMLILSGIATSAGSTGAGIK
+MARLVILIKQARREMRAIIHPRAVQPVTLAGHPVDNRTIFSVLGFMLMYGGTIIVLTLLL
+LLTDMPFETAFSAVVASVNNMGPGLNEVGPSGNYASLSATQLWICTLAMLLGRLEILSFL
+VILTPGFWRK
+>tr|A0A0P0LBJ0|A0A0P0LBJ0_9BURK
+MTQPISILLCALGGEGGGVLADWLVDVARHAGHPAQATSIPGVAQRTGATTYYLEVYPLP
+HSQLQGRLPVLGLNPLPGRLDALVSSELLETARQIGNGLASSDRTLVVSASSRALTTAEK
+MTMGDGRRPEGPLLDVVAAHSQRHHVMDMARLCQESGTMVSAVMLGAIAGSGLLPFDRAH
+YETVLEGPGSSAKASLRGFALAFDVVTRQREQAQYVEHVMKPAVAAPSASTALPADVAAK
+FPAALHPLMGLAHQRLVEYQGPAYAHLYVQRLERLLHAETKSPDSTRPVTAETTRWLALW
+MAFDDIIRVADLKSRASRWDRVTQEVKAKEGDVLKVYDHFKPGVPELAALLPQGLASRLL
+RWDRARVARGLAPWSMPLKVARHALWGMASLRILASLRVLRPLGSRYATEQALIEEWLGG
+IEAATRQSPALGLELARCGQLIKGYGSTNERGKDNLLHILRHVCGPASKVPVAEQAAAVA
+RIRQAALQDEAGQALDQALLQHGAPARPVKEQPVLWMKNPRLQKS
+>tr|A0A0P0LH19|A0A0P0LH19_9BURK
+MELKRILARDSRSANEKAIQLYGPDVLIISTQRVDQQTELIVAVDVCVSPVNEAADGLSL
+TQSDCATGGPSKSVEFTPFSQVFQQANSGQLMSTSPDNEETSPVVDAARVDSTLPPLPPS
+VAMAELVPPVAEAAVLAYEQQRNHEIVDLLRQEMAALRKEFALSRQMQVWQPVSGQHPEI
+QKLTVAMAEAGIPTGMRALLTDGIAHLESLEEAWPVMGSTLMGALQPKAVAVPDQGVHVL
+CGPTGSGKTSMLGRLAYAAAQAHGAEQQVMISFADQRPGAWSQIQLLAAQAGARCFRAAD
+VSVLRTLLDELQGHTIWIDTPGIDFIANALQLLQQKQGIALHAVLPVDATVTNVQKIFQN
+SPIPWSSLMLTKMDEAAHPWPLIQGLCDTKLPVSAVSEGHQTNAAPVSLDPQRLLTLALS
+PVYGMLPLVGHATVPVPEIKPTRKTRTSKTASTESVQPTKARARSRTVKAETTTLAA
+>tr|A0A0P0LLK3|A0A0P0LLK3_9BURK
+MKLATYKDGSRDGQLVVVSRDLSTAHYATGIASKLQQVLDDWNFLAPQLEDLYTTLNQGK
+ARHAFPFDPAQCLAPLPRAYQWADGSAYINHVELVRAARNSEVPSSFYTDPLMYQGGSDD
+FIGPCDPVVCASEAFGIDFEAEIAVVTGDVPMQTSADDAIEGVRLVMLANDVSLRNLIPN
+ELAKGFGFFQSKPATAFSPVAITPDELGDAWQGGRVHLTLQSTWNGRKVGMCEAGPEMTF
+HFGQLIAHICKTRNVRAGSVVGSGTVSNKSVDVNGKPEWPKGYSCIAEKRAIETILDGKP
+STEFMKYGDTIRIEMKGQNGESLFGAIEQEIVPLER
+>tr|A0A0P0LID7|A0A0P0LID7_9BURK
+MNKDMSETLTRVGPGTRMGNLMRRYWVPALKSDEIELADGPQVRIELLGEKLLAFRNTDG
+QACMISEFCSHRGVSLYFGRNEENGIRCAYHGVKFDGLGQCVEVPSNPKACAHMHIKGYP
+CVERGGIVWTYMGPPDKMPEPPELEWCTLPDSHVFVSKRLQYSSYLQAMEGGIDTAHVSY
+VHRYEVDTDPMHQGVKALDYIKADGNVVFEIEKTSYGMSLYGRRMGEPDSYYWRITQWLF
+PWFTMIPPFGHHALGGHAWVPVNDHECWAWSMNWQPKQPLSAEEHEAMAAGKGIHVEYEA
+PGSFVPKANRDNDYLMDRKAQQEKRAYSGVFGFSAQDYSLQESMGPIQDHAAEKLLPTDR
+AIVMARRMLHDAAVALEQGIEPPALDASEQHVRPAGVLLPKGDDPMVWAKAHLANGLDEP
+VFSI
+>tr|A0A0P0M9W7|A0A0P0M9W7_9BURK
+MTDKLIIFDTTLRDGEQSPGASMTRDEKLRIARQLERLRVDVIEAGFAASSNGDFEAVKS
+IADVIKDSTICSLSRANDRDIARAAEALKGANSGRIHTFIATSPLHMEKKLRMTPDQVFE
+QAKQSVRFARNLVGDVEFSPEDGYRSDMDFLCRILEAVIAEGATTINVPDTVGYAVPELY
+GEFIRTLRERIPNSDKAIWSVHCHNDLGMAVANSLAGVKIGGARQVECTINGLGERAGNC
+SLEEVVMAVKTRRDYFGLDIGIDTSHIVAASRMVSQTTGFVVQPNKAVVGANAFAHASGI
+HQDGVLKARDTYEIMRAEDVGWSTNKIVLGKLSGRNAFKQRLQDLGVTLDSETEINNAFA
+KFKELADRKSEIFDEDILALVSDESVTAEKEQYGFVSMSQHSETGERPHASVVFTVAGKE
+VQTQSDGNGPVDASLKAIESHIKSGAEMVLYSVNAISGSTESQGEVTVRLQNSGRVVNGV
+GSDPDIVVASAKAYLSALNKLQSKADRVAAQG
+>tr|A0A0P0MAN1|A0A0P0MAN1_9BURK
+MIEKRPGLTVLSHLVLILGVVIVAFPLYLTFVASTQSAAEIAQSVPMSMWPGSHALETYK
+TALFGGETSAGSRIPAAAPMMGVSLVSALVIALGKIAISLLSAFAIVYFRFPLRNLVFWM
+IFVTLMLPVEVRIGPTYEVVSNLGMLNSYAGLTVPLIASATATFLFRQFFLTVPDELVEA
+ARMDGAGPMRFFIDILLPLTRTSIAALFVIQFIYGWNQYLWPLLVTTNEDMYPVVMGIKR
+LIAGEAYTEWNVVMATAILAMLPPALVVILMQKWFVKGLVDTEK
+>tr|A0A0P0LDM9|A0A0P0LDM9_9BURK
+MNAPLPHPLLEQLRQICGAANVLTHDDPATDLSPWEQDWRKRVRGRALAVVRPGDTTQVA
+AVVKACAAAGTPIVPQGGNTGLVVGGVPNGSGTQIVLSMTRMNAVRAIDPANLTITVEAG
+CVLQNLQAAAEAAGFLFPLSLGAEGSCTIGGNLGTNAGGTQVVRYGNTRELCLGLEVVTA
+QGEVWHGLSGLRKDNTGYDLRNLMIGSEGTLGIITAATMKLYPQPAAQLTAWAAVPSVEA
+AVQLLGLAHQRLGPGLTGFEVMGQFALSLVDKHYPQLRVPLWQETPWCVLLENSDSESES
+HARGQFEALLEAALELGCVTDAVVAENLTQAKGLWHIRESITMAQAAEGLNIKHDISIPV
+SRIPNFVAETDALLAQNVPGVRMVDFGHLGDGNLHYNVQAPEGADGQAFLREFEDKVNTL
+VFDQVKRFGGSISAEHGVGEQKVHKLPHYKDPTALAMMRAVKKALDPQNILNPGRVLS
+>tr|A0A0P0M9T1|A0A0P0M9T1_9BURK
+MVFYNPAMKQKIDAIDRKILDLLQVRSDWPINELAAAVHLTPTPCWRRVQRLKELGILAR
+QVALVDRHQVNLGVTVFVSVRTRQHDVPWLEKFRAAVQGIAEIVEAHRMSGDVDYLLKVV
+VPDIAAYDQVYKRLIEAVPLSDVSSSFAMEELKFTTAVPLGYAA
+>tr|A0A0P0MAQ4|A0A0P0MAQ4_9BURK
+MTQPSTDSSLHQHPIDTTKAQQAAQVVWAHWQSGQVLAALPDTCRPLSALQGYAAQAQLP
+LVSGRQVVGWKIAATSANGQAHINVSGPLAGRLLSGQVLGNGATVPSAGNRMRVAEPEFA
+FAMAQDLPPQAEPYTQQQVMNAVASLHPALEVPDSRMEPFTAAGEAQLLADNACARHFVL
+GPAAPDVWRDLDLSTYPVHAQVEHHNTLQYTRDGTGGNVLGDPRIALTWLANQLSALGIT
+LQKGHVVTTGTCMVPLELQAGDNVSADYGPLGRVHMIFSET
+>tr|A0A0P0M6L1|A0A0P0M6L1_9BURK
+MVNFAAESHVDRSIHGPGEFIQTNIVGTFNLLEAVRGYWSGLPQEGLDPRVKPEDDQHST
+QSSFRFLHVSTDEVYGSLAKGDPAFTETHRYEPNSPYSASKAASDHLVRAWHHTYGLPVL
+TTNCSNNYGPYHFPEKLIPLMIVNALAGKPLPVYGDGMQIRDWLYVKDHCSAIRRVLEAG
+RLGEVYNVGGWNEKPNIEIVQTICKLLDEMRPKADGGTYASQITYVTDRPGHDRRYAIDA
+RKLEAELGWKPAETFETGIRKTVEWYLANPEWVQHVQSGAYREWVSKQYEGCAV
+>tr|A0A0P0M982|A0A0P0M982_9BURK
+MNPQAIKVACSNCNLRELCMPMGLSDHDLNRLDDLVAVRRKIKRGDTLFTNGEKFTSLYA
+IRTGFFKTCLATEDGRDQVTGFQMAGEIIGLDGIVNDQHSCDAVALEDAEVCVMPFDRIE
+EISREVTALQHHVHKIMSREIVREHGVMLLLGSMRAEERLAAFLLNLVQRLHARGFSQSE
+LVLRMTREEIGSYLGLKLETVSRTFSKFVEDGTVEVKQRHVRILDTEGLQRLVNNNQCH
+>tr|A0A0P0LDQ0|A0A0P0LDQ0_9BURK
+MEIKTPSVVALTWTLKDTLGEVLDTLDEPVEFFIGGQDLLPKIEEALQGHEKGAKVDLHL
+EPEDAFGDFNEELLFLEPLALFPEGLEPGLTIEGTALPEGCHPDAPRNVLYTVTEIYPEH
+VVLDGNHPLSGIALRLHLKVESVREPTEAEVGSGSCGTGFFKIEVGDEGSLTIPTLH
+>tr|A0A0P0LGJ9|A0A0P0LGJ9_9BURK
+MDGNRRWAKKRFMPAALGHAAGAQRVRDIVKTCGEIGIPQLSLFAFSTENWKRPEEEVSS
+LMGLFTTYLKKEIRNMNTNGVRLKVLGDTGRFSPSLQALIADAQAETENNTVITLNICAN
+YGGRWDMLQATKAWQKAHPDTPLDSLTEEALGPYLSTADAPEVDLLIRTGGESRVSNFLL
+WQAAYAELFFCDELWPDFTPETLKQALAWFATRDRRFGSSAPL
+>tr|A0A0P0LHJ4|A0A0P0LHJ4_9BURK
+MAKDKSIFTCTECGGTSARWMGKCPSCNAWNTLIEGSSEPAAGKNRFGSVHASLAPTSEV
+LPLSQIEAADFERHPTGIDELDRVLGGGMVEGGVVLIGGDPGIGKSTLLLQAVDALQRSG
+MNTLYVTGEESGAQVAMRSRRLGLPDSQVPVLPEIQLEKILHTLQSRQPHIAIIDSIQTV
+YSDQLTSAPGSVAQVRECAAHLTRTAKSTGTTIVLVGHVTKEGALAGPRVLEHMVDTVLY
+FEGDTHSNFRLIRAIKNRFGAVNEIGVFAMTEKGLKGVSNPSAIFLSQHAEPVPGSCVMV
+TLEGTRPLLVEIQALVDSGGPSPRRLSVGLDRDRLAMLLAVLHRHAGVACMDQDVFVNAV
+GGVRISEPAADLAVMLAITSSLRGKALPKGFIAFGEVGLAGEVRPAPRGQDRLKEAAKLG
+FKVAVVPKANAPKKNDKAFEGLKIYPVDRIEEAMQVVRGLD
+>tr|A0A0P0M7T4|A0A0P0M7T4_9BURK
+MNTFTDSVLTALNLVTSFDPALWVVVTRSLAVSATACLLAYGVGVALGAWLAVSRFRGRG
+AVLVGLNTLLALPSVVVGLVVYLLLSRTGPLGFLGWMFSFKAMVLAQFILVVPVVAALTR
+QVVEDVERQHGEQWASLGAGPWVRSLLLAWDERLALLTIGVTAFGRAISEVGAVMIVGGN
+IDGFTRVMTTAIALETSKGDLPLALGLGMVLLAVVLLLNALVAGLRLWGERRNTRPAPEG
+RTLGVQP
+>tr|A0A0P0MBL2|A0A0P0MBL2_9BURK
+MAKAQSNSAAQRVRKKVRKNIADGIAHVHASFNNTIITITDRQGNALSWASSGGQGFKGS
+RKSTPFAAQVASEVAGRAAQEQGIKNLDVEIKGPGPGRESSVRALGALGIRITSIADVTP
+VPHNGCRPQKRRRI
+>tr|A0A0P0MBA8|A0A0P0MBA8_9BURK
+MALDTLERSAPPIFRQGLSATSKMLLLGLLAVLLMAADHRMQISQPIRSGVALVLSPLQW
+LSLQPVHAFNALTRYFGDLENAQDAALNFQTRTIAQAQRLQQVEQLSQENAHLRQLLDLR
+AQVAGPAKAVQVLYDTSDPYTQRVVVDRGLLAGIVQGSAVIDTAGVVGQVTRVYPLVSEV
+TLLTDRAQTIPVMNARTGSRYVAHGDPQALGGSLDLKFVPAGADMQKGDLLTTSGIDGVY
+PAGLHVGRIARIDRRVDSSFARVHAEPMATERGRHLLVLLPVKDWPEPPKPEEPKAGKAK
+GGTSAVPAAGAKP
+>tr|A0A0P0LHV4|A0A0P0LHV4_9BURK
+MRLQVPEGITVQDVLNQGLALCLQANGSSDSASLSSLQFQQPGIWGKKVSWTQVVQAGDR
+IELYRPLKVDPKVARRQRFKRQGKGRTGLFANRKSGSAAGY
+>tr|A0A0P0M8P7|A0A0P0M8P7_9BURK
+MMSTRFSAKATALSRKRRTVLWLAAGPALFALALLVWPVARLLWQGLWGEPMAGLLLDDS
+VPWWLDAHLQWRVGWTLVQALVTCVLCGVLGLPMAWVLARLEFRGRVAWQRALMLPFVVP
+TLVAALGILALWGPRGVLGAPLALAGWTLEGSPWMLLLGNLFFNLSLVVRAGMDGLAQVS
+AQRVAVARTLGATPWRAFWRVEWPVMAPWLASALCLVFLYCFTGFGLALVLGGQHWATVE
+VEIYTLIAHELALAPAASLAVAMLALTGGMAWAYAWVERRLASPARITPVPRRPVRGLAI
+WSGWALALGAWLLLCGAPLLALLLQAAQAVGFGQGWEVLREDDTWRAVSNTLRFSGLAMA
+LATALGVLHALAGQAMRRWTPAALAWRASAYAPLVVSPVALAFGLLLLYPQWLASWPLLV
+AAYALLAYPFVAKALTAALDALPDQYAQAAASLGAGPVRVLWRVTLPLVAPALRRGMAFA
+AATMLGEFAVSLLLARPEWLTLSTLIYQRLGRPGSANLDAALVLSAGLMALALLAFWLIE
+GRGEPRRAPHQD
+>tr|A0A0P0MBT4|A0A0P0MBT4_9BURK
+MSESLQKQEAELHAAWMQSQQGDQASYQRALSLMSGHVRRFLQKRMQSQLSDVEDLVQET
+LMAIHQKRHTYQSDQPLTAWMYAIARYKWVDHLRAHGRREGLHDDIDDWSETLAVDSEEK
+ASDAHKDLEVVLADLPLRQREAIEHTRLMGLSITETAERTGQSEASVKVNIHRGLKTLMA
+KWGAKS
+>tr|A0A0P0LI44|A0A0P0LI44_9BURK
+MNPALRLQRALQGWVVFGLLGFALLPWYFLQQMSLAEAMPGIWLGTGAGAETASAAVQAM
+HHGRPWLWSGLVGLLLCGLAVLRPWPARQQGGLLLLGSLLGLLGLLGSGFVIGAMGWAFV
+SLESFWGALPTGQYGMGWGAAVVLLSLVVLLGAALARLGAFRGDVFVAAAVVLCSALLAL
+FVVYPVLRSLVAAWVDDTGAYAWGHLFERVATERVWGLGCVQGAGRCGVAWNTLWLAFLT
+ATGTTIMGTMLALWAERGGTRLSKPLNILAMLPIITPPFVVGLGLILLFGRAGLFNQGLE
+WALGIEPGRWFYGVFGIWLAQMFAFTPIAFMIMRGVVQGVSPSMEEAAQTLRASRMKTFW
+TVTLPLLKPGLANAFLVGFIESMADFGNPIIVGGQYAVLSTEIFFAIVGAALDPGMAAAL
+ALVLTAFALAVFFVQRRVLSGSSFTTVSGKGDAGVAMALPPAVLRVCRSVAGPWLLFTVV
+VYLFAFAGGFVQTWGRDFTFTLAHFKTAFDVQMGEFGWVFAGTAWKSLFTTLSLSAMAAP
+ICAGLGLLMAWLLARTEFRGKAAFEFSALLTFAIPGTVLGVSYILAFNVPPVELTGTGLV
+IVLCFVFRNLPVGVRAGTAAFKQLDRSLDEASQMLRASTLTTLRRVVLPLLKPALVAALV
+YSFVRSMTTVSAVIFLVTAQYELATTYIIGRVGNGDYGVALAYCTVLMVLMSLITWGIQK
+LVGQRQLGRRAASTSAA
+>tr|A0A0P0MB06|A0A0P0MB06_9BURK
+MQQVIFRFWQSAPKTGFGLGFVTGGLFMGLVALALLGMGSAQAHDFRQGDVVMDHPYAMP
+SLAGTTTGAVYFKSIRNKGKTPDRLLSARTAVAARVEIHQMHMDGNVMRMRQVPTLELPA
+QTEVSLRHGGAGTHHLMLLDMAQSLKDGDRFDLELVFEKAGTRRVNVWVQTPRAGAPAHK
+H
+>tr|A0A0P0MAB2|A0A0P0MAB2_9BURK
+MDAFYASCELLRYPQLKGLPVVIGGGRRKEDDLLAKLQAAYPDGEWTEETFAERLDRIPV
+DFFPRIEGYTGRGVITTATYAARQFGIGSAMGLMKAAKLCPQAILLPVDFERYRYFSRTF
+KSIITDIAPVMQDRGVDEVYIDFTDVPGGQREGGRVLARLIQKSIFDATGLTCSVGVAPN
+KLIAKMASEFNKPNGISIVHEADLQTHIWPLACRKINGVGPKADEKLKSFGIHTIGDLAA
+RELPWLVENFGKSYGAWLFDAAWGRDDRPVETESEPVSMSRETTFERDLHAVRDREELGA
+VFTRLCQQVAADLQRKGYEGKTIGIKLRYDNFQAVTRDQTLTEYTADAKQIRLIAGQCLK
+RVDLSRRIRLLGVRVGSLVKAGTAPAPGASYSEAIATPPPQANDHGQTQLLFFDD
+>tr|A0A0P0LV96|A0A0P0LV96_9BURK
+MNTTNVTAPKKSFKVQMLAARETAIIQSVNRLLAEKGFDAMTVDEVAAEVGIAKASLYKH
+FTSKEELACAAMVTAMRRAQEVIQSTDPQLAPLEKIKAVTRWTMTLKLQGLMPSLPSQNS
+SLRATLMASKDYMDGLMEVSDALGGWIEEAQAQGQINKALPAVAVLYTLFARACDPVLEF
+LKMGEQHTDDQILDLVMSTCFDGLNAR
+>tr|A0A0P0LPG6|A0A0P0LPG6_9BURK
+MNKSLSRQQFWSLTLTGTVAFFAFWYLARALHFSPPQFLPMPHEVLFKLIELIDKPFAGA
+TLPEHMAASLKRFGMGFGLAALVGIPLGLSMGWFRLLDDVITPIFDGVRFIAPVAWVPFA
+ALWFGTGIGGPTLIIFAGAFPPCLINAYRGARNVEVRFLEAASMLGVGSFKTITEVLFPA
+AVPSIIAGLRIGAGLGWLSLVGAELIVASSGMGNLIVRAQSALATDTVMVGMIAIGAIGV
+VIDILIRRLEKLLLKHRNA
+>tr|A0A0P0M940|A0A0P0M940_9BURK
+MRYLSTRGHADRKQFCEILLEGLAPDGGLYLPESYPQIDAAALTRMRQVWQSQGYAALAF
+EVLSLYIDDIPSDDLLALCRKTYSPEVFGTKEIVPLKPLQADGQAQPEMFLEALSNGPTL
+AFKDMAMQLLGNLFEYELARRGEALNIFGATSGDTGSAAEYAMRGKKGVRVFMTSPNGRM
+SPFQQAQMFSLLDENIHNIAIEGVFDDCQDIVKAVSNDLDFKRKYKIGTVNSINWARLLA
+QVVYYFAGYFQATQSNEQKVSFTVPSGNFGNVCAGHVARMMGLPIDRLVVATNENDVLDE
+FFRTGVYRVRGTADTHETSSPSMDISKASNFERFVFDLLGRDAVQTKAIFGEGLSRQGFF
+DLSGDPRFAQAATTYGFDSGRSTHADRLKTIQDVFATYGVMIDTHTADGVKVAKECLNPR
+VPMIVLETALPIKFAATIVEALGRQPERPSQFEGIEALPKRVQVMKADVDAVKAYIQQHC
+D
+>tr|A0A0P0LD37|A0A0P0LD37_9BURK
+MRVLIVEDDTGIATGLAATLRGSGYAVDVTATLALASAALRVEPFDLVLLDLSLPDGDGL
+DWLRQVRSSGSVMPVLIMTARDALPDRVAGLDEGADDYLVKPFEPEELLARMRVALRRSE
+GRASPVLRHGDLVVDPAAHTVVRNGEPVALRTKEFALLLALLRGSGQVLSRQRLEQALYG
+FDEVLDSNALEVHMHHLRRKLGDGLVKTVRGVGYFVPVPEPQGPA
+>tr|A0A0P0M8Y4|A0A0P0M8Y4_9BURK
+MNLHAKLLQRAAENRPIRIGLIGAGKFGSMYLAQIPRTPGVHLVGIADLSPDNACTNLAR
+VGWEAERLTASSLDDAVKHGKTYVGDDWQSLVRHPAVDVIVECTGSPLHAVDHILEAFAH
+RKHVVNVTVEADAFCGPLLATRAQTAGVVYSLAFGDQPALICDLVDWARTCGFPVVAAGR
+GHKWLPHFSESTPETVWGYYGLTPEQAERGGLNPKMFNSFLDGSKPSIESTAVSNATGLG
+VPSNGLLYPPASVEDIPYVTRPISEGGVLERKGMVEVISSLETDGRKIPYDIRMGVWVTV
+EAETDYIKNCFEEYNAHTDPSGRYFTLYKRWHLIGLEVGVSVASVALRNEPTGVAIGWNA
+DVVATAKRDLKPGDMLDGEGGYTVWGKLLPAATSKGMGGVPLGLAHGVKVIRPVAKGQSL
+TWDDVAMDTTTHAYKIRREMEATSVLG
+>tr|A0A0P0LFT8|A0A0P0LFT8_9BURK
+MATKTYNAGVKEYRSTYWEPHYTPKDTDILACFKITPQAGVDREEVAAAVAAESSTGTWT
+TVWTDLLTDLDYYKGRAYAIEDVPGDDTCFYAFVAYPIDLFEEGSVVNVLTSLVGNVFGF
+KALRALRLEDIRFPIAYIKTCGGPPHGIQVERDIMNKYGRPLLGCTIKPKLGLSGKNYGR
+AVYECLRGGLDFTKDDENVNSQPFMRWRQRFDFVQEAIEKAERETGERKGHYLNVTAPTP
+EEMYKRAEYAKEIGSPIIMHDYLTGGLTANTGLANWCRDNGMLLHIHRAMHAVLDRNPHH
+GIHFRVLTKVLRLSGGDHLHSGTVVGKLEGDRASTLGWIDIMRDEFIKEDRSRGIFFDQD
+FGSMPGVMPVASGGIHVWHMPALVNIFGDDSVLQFGGGTLGHPWGNAAGAAANRVALEAC
+VKARNEGVAVEKEGKAVLSEAAKHSPELKIAMETWKEIKFEFDTVDKLDIAHK
+>tr|A0A0P0M9R5|A0A0P0M9R5_9BURK
+MPSSQFIPSTKAWVRAACLSAVFAASWTSHSAWAQSTDLSACMAELRPASRNGKVSDATW
+ARHTAGLQADFSVIEKLNFQPEFRTAIWDYMSALVDEERVADGQARLTEHRQALERAEQR
+FGVDPATVVAVWGVESNFGQTFGKYPLVQALGTLSCHGRRQSYFRGEFFSALRILQAGHI
+APERFVGSWAGAFGHTQFMPSTFERLAVDFDGDGRADLMDSSVDALGSTANFLARAGWQS
+GLPWGIEVKLPAGMSLAGEGRRTKRPVADWAARGVRRVDGSALPASLGSVGLLTLAGANG
+PAFLVTRNFDALYSYNAAESYGLAIAHLSDRLRGGGPFATPWPTDDAGLSRAERRELQGL
+LVMRGHDIGPIDGMLGDKSREAIRAEQKRLGLEANGRGGQKILKALRGG
+>tr|A0A0N7J961|A0A0N7J961_9BURK
+MIHHRIHRARMLRGLSLEALAHSLGDISKQALNKFEKGDSKPNSTRILQLAKALNVKPEY
+FFRSDAIQLAPLEFRKLSKMSQARQASVREKMHDHLERYEALERCFDAETTVQVLPAQSL
+AVGSVQEAELAAQRLREQLHIGHDAIAHLTELLEDNGIKVALLDGPDDFDGACAATHDNQ
+HVLIALNCQRPGERMRFTAAHELGHWVMALPEDMSEKDKETCCHRFAGAFLYPQSRVLQD
+FGSHQRSRVYSAELLNAKRRYGVSMQVALRRLKDLSLLTDPGYMSAMIEFSRKGWRKVEP
+EILACEHPRRFESLVYRGLAEDLFTPSRAAEFLQCSLDELDPKLDRLPALA
+>tr|A0A0P0MBB8|A0A0P0MBB8_9BURK
+MSAHSRIPPIQCLLTFEALARLRSVTQAAEELCVTPSAVSHRVKQLEQIIGTKLFGRADF
+SLTTEGIEYLAHVREGLVSLQRFPSASNTPGRRKLRLAVTPTFARSVLMPRLKHFLDAYP
+EIDITLQVSIPLLDVVAEDADLTVRFGTGRYSDVEHVCLAKDDVTPLASPAWLRENGPFA
+SAEDLQGVALLRSPLEPWRTWFAAHDLDWPEPMDGSSFNDIGLMCDAAAQGLGVGLIRTK
+LGAPWLESGQLVRLFERSVPSPHAHYLCWRTGTMERWECATFADWLKKALA
+>tr|A0A0N7J8A9|A0A0N7J8A9_9BURK
+MVTEFETKLLGVMMMVIMMGMGASLTWRDFLIAFRKPKGVLVGVLCQYGIMPLLGFAMAM
+LLDLPAALAVGLILMACMPGGTTSNIFTYFSKGVLALSIMMTSVSTLVALVMVPALLEFY
+SQAAGISGDFKIPASNVAQVLMVLLVPTLIGMALRKMSPNIGATIELLGGFLGILVILFL
+VVTWIPRNHQLLATTSLTVYFAAIGLGLFGMALGYGLSRLLRQDANRSRTIALETGIQNG
+PLAVLIVTLSFAGTMQQDILLIPVLYSLFIVISSSLVTLVFRRRSDREALARDKAKAGQL
+VSA
+>tr|A0A0P0M9B2|A0A0P0M9B2_9BURK
+MHPFDEAIDLRASALADAPHEFTGATHPAYANMVGPFGGTTSAQLLQSAMLHPERLGEPV
+ALTVNFAAPVADGDIRFVARPVRTNRSTQHWIIEAHQAEGVVATATAVFAVRRETWSDVE
+AVMPGNVPAPEAVPRMPVRGMPAWPQRYDMRFVEGAFPAAFDEQEQAHSRSTLWVRDEPE
+RALDFASLAAISDSFFPRIYIRRRRRALIGTVSLTTYFHADSALLAQVGTRHLLGVAKAL
+NYRHGYFDQTGELWSPEGQLLASTHQLVYFKD
+>tr|A0A0P0M8N4|A0A0P0M8N4_9BURK
+MAKALDLEEQEQLDQIKHFWKQYGNLISWVLIVILGGYAAWNGYQYWQRDQAAKAAVLFD
+EVERAVVSGDVVRVERSLADMKDKFGGTHYAHQAAMLAAKALQSKDKADAARAALKWVVD
+GAPDPAYRDIARLRLSALLMDAGSHDEALTQLSAPFTPAMAGLAADLRGDVLHAKGQKAE
+AASAYQSAWQQLTDSPDYRRLVQAKLNALGLDPQVATPANASGNTK
+>tr|A0A0P0M6W3|A0A0P0M6W3_9BURK
+MLAFILQRLIQAVVVMVTVAFIAFLLFQYVGDPVVFLLGQDATKEQIDMLRADLGLDQPF
+FVQFGHFLANAVQGEFGLSLRQGAKVSRLIAERLPATLELAMVAASLALVIGIPMGVYAA
+LRRGTWASQFIMTVSLLGVSLPTFLIGILLILVFAVMLGWFPSFGRGEVIQMGWWSSGLM
+TAKGWHHIVLPAVTLAIFQLTLIMRLVRAEMLEVLRTDYIKFARARGLSNRAIHFGHALK
+NTLVPVMTITGLQLGGLIAFAIITETVFQWPGMGLLFIQAVTFADIPVMAAYLCLIALIF
+VVINLIVDLLYFVVDPRLRVGKPGGH
+>tr|A0A0P0MA92|A0A0P0MA92_9BURK
+MSLSTPAPASIRILGIDPGLQTTGFGVIDITGSRLQYVASGVIETTRGEMGNLPARLKII
+YDGVREITARYQPDVAAVEIVFVNVNPQATLLLGQARGCAVTALVSCDLPVAEYTALQMK
+QSVTGHGRAAKSQIQEMVKRLLQLPVLPRQDAADALGMAITHAHASPSMNKLAAQGVLSR
+KTHGMFRSGRSH
+>tr|A0A0P0LQX3|A0A0P0LQX3_9BURK
+MSAIVDIVGREILDSRGNPTVECDVLLESGVMGRAAVPSGASTGSREAIELRDGDKSRYL
+GKGVLKAVEHINTEISEAVLGLDASEQAFLDRTLIDLDGTDNKSRLGANAMLAVSMAVAR
+AAAEESGLPLYRYFGGMNGNQLPVPMMNVINGGAHANNNLDLQEFMIIPVGAPSFREAVR
+WGAEVFHALKKIIHDKGMSIAVGDEGGFAPNVDSHEAAIQMVLDAIAAAGYTAGEQIAIG
+LDCAASEFYKDGQYVLAGEGGISLTSEQWTDMLATWCDKYPIISIEDGMAESDWDGWKIL
+TDRLAKNVQIVGDDLFVTNTKIFKEGIDKGIANSILIKINQIGTLTETFEAIEMAKRAGY
+TAVISHRSGETEDSTIADIAVGLNAGQIKTGSMSRSDRMAKYNQLLRIEEDLGEVAVYPG
+RSAFYNLR
+>tr|A0A0P0MAJ3|A0A0P0MAJ3_9BURK
+MKLANTKIHQGISLRQRLHRFAQVAIWVVSGAATAALAQGSGTQQYLETQQAGVNARIEV
+LGKAFTSPYPIGADQSRIMLYRTEPSRLSGATSVFVDGRYHTSLVPGAWSALCYRSGTSE
+LGARQMQVGSRPKDLADSITAVQLQGGQTHYLRVQEEQGRPVLQPVPAAQAHQEMVQFKE
+QVHTVSRVAQACREGVAPAAVAQPGNAAHRITLPADTLFAFNRSDAAGMTGPGLAAMDNL
+LAMLKADFSRVEGMHVVGHADPLGNAQDNERLALQRARTVANYLQTRSSSMAITTEGRGD
+RDPVISTCSRQITARSIACNQPNRRVVVEVMGTRR
+>tr|A0A0P0M7C5|A0A0P0M7C5_9BURK
+MNDTALLPPALEAIRAHEAEMMDIRHQIHANPELGFEENDTSDLVAARLERWGWEVHRGL
+GGTGVVGTLRAGTSTRRIGLRADMDALPIAETSGKAWSSKVFGKMHACGHDGHTAMLLSA
+ARHLAATRHFDGIVHAVFQPAEEGLGGARKMLEDGFLDLFPCDAMFGMHNGPGIPEGQFM
+AVPGCAMASADTCIITIQGVGGHAAFPHNAVDPILVGSALVMALQSIVSRNVPPLQTGII
+SLGAFLAGDAPNVIPGTAELRLSVRAMQPEIRDLLERRIHEIANAVAQTYGATADVNYMR
+RYPVLMNDPTQTAFCLNLVRDWLGETGVVPHPEPVPASEDFAFFLQKVPGCFINIGNGVG
+SVGGCMVHNAGYDFNDRILSTGATYWVKLVERWLAKV
+>tr|A0A0P0LUZ0|A0A0P0LUZ0_9BURK
+MPISHIGHYINGQVAAGASGRSQPVTNPATGAVTGNVALANSAEVAKAVAAAQAAFPAWS
+DTPPLRRARVMFKFLELLNTHKDELAHMITAEHGKVFTDAQGEVSRGIDIVEFATGIPQL
+LKGDFTDQVSTGIDNWTLRQPLGVVAGITPFNFPVMVPMWMFPVAIAAGNTFILKPSPTD
+PTPSLFIADLLKKAGLPDGVFNVVQGDKEAVDALLEHPDVKAISFVGSTPIANYIYETGA
+HHGKRVQALGGAKNHLVVMPDADIDQTVDALIGAGYGSAGERCMAISVAVLVGDVADKIL
+PKLIERTKTLQVLNGENLAAEMGPIVTDAARQRIKGYIDAGVAEGAKLLVDGREFDGAKA
+GAGCEQGFWLGGTLFDHVTTDMKIYKEEIFGPVLSCVRVPDFATAVQIINDHEFGNGVSC
+FTRDGNVAREFARRIQVGMVGINVPIPVPMAWHGFGGWKRSLFGDMHAYGEEGVRFYTKQ
+KSIMQRWPESIGKGAEFVMPTAK
+>tr|A0A0P0M941|A0A0P0M941_9BURK
+MPKMKTKSSAKKRFRVRPGGTVKRGQAFKRHILTKKTTKNKRHLRGSVSVHETNMGHMAQ
+MLPMAGL
+>tr|A0A0N7J8P4|A0A0N7J8P4_9BURK
+MNKQQCITILGSTGSIGTSTLDVLSRHPEQYRIHALTASSQVDLMLAQCARFKPEVAVMV
+QESAGRQLAERVKAEGLPVQVRWSTAALDDVASAPQVDSVMAAIVGAAGLSPCIAAARAG
+KRLMLANKEALVVGGEVFLRAVREGGALLLPIDSEHSAIFQSLPEDPSSWQRRVQKIILT
+ASGGPFRTRDPRTLRDVTPEQACAHPNWVMGRKISVDSATMMNKALEVIEARYLFGLSPD
+QLEVVIHPQSVIHSMVQYRDHSVVAQLGTPDMRVPIAYGLSWPERIESGAAPLDFHALAA
+MTFEAMDEPAHVQRFPGLRLAWETLRGAPGSCAILNAANEVAVEGFLNKRIRFDQIHELN
+RATLDSLQCSPPDGLDDLLALDARSREEAERHLTRLR
+>tr|A0A0P0M6R1|A0A0P0M6R1_9BURK
+MRAAKHSPVAIHGWTVFAHPLFMTQVEALVEQVEALKKKDPTGYVKKNATKRLAAIARPA
+FDVIPQDPSRAEYRQGGTLGDDRKHWFRAKFFQQYRLFFRYHASAKMIVYAWVNDDDTKR
+AYESSDYAYRVFRKMLESGHPPDDWNQLRSQAELEGHRLQRAFSTLGV
+>tr|A0A0P0M6L9|A0A0P0M6L9_9BURK
+MKHHSQRGGTFLGFIIGLVLGLGIALAVAIYVMKVPTPFSNKNQPRSSAQDTQETEKNKD
+WNPNSVLQPKAPAETPKASDASAPVATPQVSEKTTDKAPAPPRPAVTADPLGDLAKSKSG
+LNSPAAPADASDPFDYVVQVGAYRTSADADAQKAKLALLGLDAKVSERDQAGRVVYRVRL
+GPFNDKNAAERIRTQLESNGIDNTLVRVQR
+>tr|A0A0P0M9E3|A0A0P0M9E3_9BURK
+MHEASQNAIDRFAEALWLEDGLAANTLAAYRLDLSLYATWLFLTHRLALEATQEHHLQAY
+FAERHGKTKATSANRRLTVFKRFFRWALRERLIPTDPTLRMLAAKQALRVPKTLGEAQVD
+ALLSAPDVATHLGLRDRAMLELMYASGLRVSELVSLKTLHVSLNEGVLLIMGKGSKERLV
+PFGEEAREWLQRYMGQARTAMLGQRQTEDLFVTTSGTTPGTAMSRVMFWSLVKRYAIDAG
+ITAPLSPHTLRHAFATHLLNHGADLRAVQMLLGHADISTTTIYTHVARERLKTLHAQHHP
+RG
+>tr|A0A0P0LLA7|A0A0P0LLA7_9BURK
+MRRPLGQATVCILGLGLNLSSAYADGIRMPAKVLPSYTAECAACHTAYPPGMLPAKSWQR
+IMKGLDRHYGSDASIDAKTVAEIGQWLQTHAGTYKRVAEEPPQDRLTKSAWFERKHHKIE
+PAVWQLPSVKSAANCAACHTGTEQGLFDDDHLKRPAGLSVRQSRAWND
+>tr|A0A0P0M8I2|A0A0P0M8I2_9BURK
+MIDNFKGKTAVLTGAGSGFGLECARIGAKLGMNLVLVDVQQDALDKAAAEMSVQGAQVLA
+RKVDVSNAQAMEQLAADVKARFGAPHFVFNNAGVGAGGLVWENSVADWEWVLGVNLWGVV
+HGVRLFTPMMLEAAKADPAYQGHIVNTASMAGLLTPPNMGIYNVSKHAVVSLTETLYQDL
+QLVSDQVSASVLCPYFVPTGISQSHRNRPSELAADKPTASQLIGQAQSDKAVGSGKVSAA
+DVAQKVFDAVAQGQFYIYSHPQALGNVQSRMEAIVQGINPPDPFAARPEVGEGLRRALRT
+S
+>tr|A0A0P0M9A6|A0A0P0M9A6_9BURK
+MSTIPITKRGAEKLKDELHRLKTVDRPGVIQAIAEARAQGDLSENAEYDAAKDRQGFIEG
+RIQEIEGKLSAAQIIDPASVDAGGRVVFGTTVELEDESSGEAVTYQIVGEDEADLKLGLI
+NISSPIARALIGKEEGDVAEVQAPGGVRRYEIVGVSYV
+>tr|A0A0N7J8D5|A0A0N7J8D5_9BURK
+MKLPSLDPSTFSQLLGVVSDVTLVMDPLGVIEDVSTGRDTLAALGCQSWVGRRWIDTVTS
+ESRGKIQEMLSSQGASDPMRWRHVNHLSPMGSEVAIQYVVLPLGGGKLLAMGRDLESLAE
+LQRRLVETQQSMERDYLRLRHIEARYRVLFDTSSEAVLMVDASTQRVLEANVGAQSLLKD
+AGKRLVGRDVRECFEGESQGEVQSLLRTALATGRIEMCAARVAGLPSAWTVSATVFRQEG
+GAQFLVRLVTREAVAATLNDAGSSAALSEAMERFPDGWLLTDTSGLIKSVNEEGMALLGL
+TASSQVVGQSLERWLLRGAVDWGVLNTSLRQQLPVRNFATEVRTLSGMTLPVEVSAVCLA
+RPEPMYAFFVRDMDRRLQGGASVAQSQANPFADLSQLVGRRPIKDIVGETVDTIERMCIE
+AALELTHNNRASAAEMLGLSRQSLYVKLRRFGMVAEAETDAP
+>tr|A0A0P0LL28|A0A0P0LL28_9BURK
+MMVLYSGTTCPFSHRCRFVLFEKGMDFEIRDVDLYNKQEDINVMNPYGQVPILVERDLIL
+YESNIINEYIDERFPHPQLMPGDPVDRARVRLFLLNFEKELFTHVLTLENRALKGNDKAL
+EKARSHIRDRLTQLAPVFLKNKFMLGDNFSMLDVAIAPLLWRLDYYGIELSKNAAPLLKY
+AERIFSRPAYIEALTPSEKVMRK
+>tr|A0A0P0LMI2|A0A0P0LMI2_9BURK
+MSRVGKMPVTIPAGVDVSINATQISVKGTGGQLAISANTLVTVNNEGGKLSFAPVNDSRE
+ANAMSGTMRQLVNNMVTGVTKGFEKKLSLVGVGYKAAASGAKLNLAVGYSHPVNIDMPAG
+ITVATPSATEIVIKGADRQRVGQIAAEIRAVRPPEPYKGKGIRYSDEKITIKETKKK
+>tr|A0A0P0M7V3|A0A0P0M7V3_9BURK
+MDPIVYGIPNCDTVKKARTWLADQGLNAAFHDFKKQGVPEAKLDTWLSAVGWETLLNRKG
+TTWRKLDAAVQAGVKDSASAKQVMLAHASTIKRPVIAWPSGKVTVGFSPEQWPA
+>tr|A0A0P0M873|A0A0P0M873_9BURK
+MNIQGQAALVTGGGSGLGEATARELARLGAKVSVLDLNMDNAERVAKDIGGAAVHCNVSD
+PDSMAKAIETASAAHGPARILMQIAGIGTAKRVVGKDGNAAPLEEFAKVINVNLIGTYNA
+ARLFAAACAKLDPMEDGARGVMVFTASVAAFDGQVGQQAYSASKAGVVGMTLPMARDLAQ
+HGIRVCTIAPGLFKTPLLASLPEPVQQSLAASIPFPARLGKPSEFAELACHIVHNDHLNG
+EVIRLDGALRMAPR
+>tr|A0A0P0M8J9|A0A0P0M8J9_9BURK
+MNSVPCHVLPVLVLAQFAGTSLWFAVNAVMPDLQQAFGWPATAVGSLTSALQWGFIVGTL
+VFALLALADRFRATRVFLCCAMAGAACTIGAWAMVSDFTALLFWRFASGFFMAGIYPVGM
+KIASQWYRQGLGSALGYLLGALVLGSASAHGLRAVADALPWPSIMLGVAALAAAGGLLIL
+TLGEPPHAPVRVSTLQWPAMATMWTDVRVRSSVLGYFGHMWELYTLWVLVPLILSTRLSG
+ADLSWMAFAVLGSGALGCVLGGHAAQRWGSARIAAFFLGGSGLCCLLAPWLLHAPDVFFY
+AWMLVWGISVAGDSPQFSTLTARNAPPQAVGTVLTLTNCIGFSISTLSILLFVTLTDWLP
+LGWLLTGLALGPALGLWALRLLVRERA
+>tr|A0A0P0MB21|A0A0P0MB21_9BURK
+MRILLVEDEPTLRAQLHAGLAEAGHVVEQADNGRDAHFMGESEDFDAVVLDLGLPLMDGL
+TVLQRWREKGRRMPVLILTARDNWHDKVAGIDAGADDYLTKPFHMEELLARLRALNRRAN
+GMASAVLRLGDVALDTRSSRVTVQGQTVPLTSHEYKVLDYLMHRPDAVVSRSDLIAHLYA
+QDFERDSNTIEVFVGRLRKKLPTLTIEAVRGLGYRLRQPKVKAP
+>tr|A0A0P0MB73|A0A0P0MB73_9BURK
+MSVVIPSMSDRDGKIWMDGQMVDWRDAKIHVLSHTLHYGCGAFEGVRAYKTEQGTAIFRL
+AEHTERLFNSAKILRMNIPFTQAQVNEAQRAVVRENNLESGYIRPLTWIGDKKLGVSPKG
+NTIHLMVAAWTWGAYLGEEGMKRGIRVKTSSYTRHHVNITMTQAKAVSNYTNSILANMEV
+TDEGYDEALLLDTSGFVSEGAGENIFVVKNGVIYTPDLSAGALNGITRNTVFHIAKDLGL
+EIVQKRITRDEVYIADEAFFTGTAAEVTPIRELDRIELGKEGYVGNRGPITEKIQSAFFD
+IVNGRNSKYAHWLTLV
+>tr|A0A0N7J8H0|A0A0N7J8H0_9BURK
+MNKIDQMSFFGFEAESAEKPAQPAKASKSVSPPASVVTPAEALAVAPDSLVAVALPAAPV
+AAPLVAQASDPEAMAQALAQHPDFRVLRRLVPRTDYGPVNGQATQRVIVLDTETTGLDSK
+SEKVIELAMLSVLVDSATGLPVGPVTVYESFEDPGRPIPPQITEITGIDDSMVQGQRIDD
+AAVNALVQAADLVVAHNAGFDRPFVEARFPVFAAKAWGCSFQGIDWKKEGSGSAKLEFLA
+SERGWFYDAHRAQVDCHALLQVLSSPLADGQTGLSRLLAGAGQSRYKLRATGAPFESKDK
+LKARGYRWDGEGRVWWCSLASDALLDAECDWLRAEVYGQRSARVQLEAMDSRVQFSSRSG
+PVSERSV
+>tr|A0A0N7J8M0|A0A0N7J8M0_9BURK
+MQALLNAITQMTITADAHRVFHGRGGVYPGCEHWTLDWFAPVWVLTSFKPVSEDELALCH
+QALAQRWETLAPGEPLNWVFQCRAQGEAQTRLMAGSVPEPHVVIEQGAQYLVHVMRGQNH
+GLFLDMANGREWLKAHALHENILNLFAYTCAFSVVALQGGAAQVVNLDMSQGALAVGQQN
+HRLNDLPAKARFLGHDIFKTWGKINKMGPYGVIVIDPPSYQKGSFIATKDYIKLIRRLPD
+LLEPQGHVLLCLNAPELDTAFLHAQVAEAAPTLRFVERLPNPEPFVDIDPEKSLKVLHYQ
+NS
+>tr|A0A0P0LUI9|A0A0P0LUI9_9BURK
+MTSFKQLAAALAFASVAAGSALAAPVTYNVDSSHTFPRFSYSHFGLSTQLSSFSNTTGKV
+VFDAAAKTGSVDITIDMKSVNTGFADFNSHIQGEDFLDTAKFPTANFKSTQVVFEGDKPK
+AIEGNLTIKGVTKPVTLTVTNFLAMPHPMMRKPALGANAFTTIKRTEFNAGKFAPYVGDE
+VRIDIAIEAVAP
+>tr|A0A0P0M8N8|A0A0P0M8N8_9BURK
+MTTLLTSACNRWLAWASLALLSACSSAPDKPQPAPLPAVSGTFKLQKAWTNQVGEVSTPL
+MASVHGQQVAVASTLGQLALIDAGTGRDVWRLNLGSPIQAGVGGDGQRFAVVTRNNELVT
+VESGRVLWRQPLPALSYTPPLVAGARVFVLTGDRSVSAFDGATGQKLWTQQRSGDPLVLR
+QAGLLMPVGDQLLVGWGGRLASLNPTTGGVRWETLVGSTRGTNEVERLVDLVAGASRVGN
+SVCVRAFQASVACVDGSNGRMAWSRAAQGHQGLDGDAQTLWGVESDGKVLAWQRASGTPL
+WTQEALRFRGLSLPLAWGQALVVGDQDGWVHALSPKDGQPLQRMATDGSAITGRPVAVGQ
+TLVVVTRTGGVFGFRPE
+>tr|A0A0P0M9N8|A0A0P0M9N8_9BURK
+MKCPFCSHLETQVVETRLAEDGDFIRRRRQCGACEKRFTTYEKPEVNFPAIVKKDGRRID
+YQRDKLRGSLNLALRKRPVSTEQVDSAIERIEENLLNLGIREVASHRIGELVMRELKKLD
+KVAYVRFASVYRNFEDIDAFKTLVDEVQR
+>tr|A0A0P0M9Q4|A0A0P0M9Q4_9BURK
+MKRRTWILSALGVTGALVVGWGAMPARSRLGSPELMLPTQGDVALNGWIKIAADGAVVLA
+MPRSEMGQGVHTALAMLVAEELDVPLARVRLEQAAADSIYGNVAMLVASLPFHPLDSEGE
+KPAKIKLAEWMVGKIARELGINATGGSSSVADLWEPLRMAAATARASLVQAASSAWKVPA
+NEITVREGVMQHASGQKAHYGQMGAAAAGSTPANITPKARADWKLIGQSAARNDIPAKVM
+GQAQFGMDVRLPGMLFAAVRMNPVLGGAAATMDTQAALALPGVSQVVALDAWGGGTGGLA
+VVASNTWQARQGAQAVKVQWPAAAAGASGAVDTTRIQADLLNALNTESGFTFHEQGLPLK
+AEQTAASRIDALYQAPYLAHATMEPMNCTAQVKYGKVEVWVPTQVPQMARAMAAKVAGVK
+EDQVTVHVTLLGGGFGRRLEVDFVGQAVQVAMACKGAPVQLVWSREEDMTHDFYRPMHLA
+KFQASIDAQGEVSSLRIKSAGDAITPRWMARAAPHLSGPIDMPDKTTSEGLFDLPYGFLN
+QHMSHVATKSGVPVGFWRSVGHSHNAFFSESFIDELAVATKQDPLAFRLNLLKDAPRYAA
+VLQLAAKQAGWGQPLPAGRAQGIALHKSFGSIVAQVAEVSVEQGQIRVHHVVCAIDCGTV
+VNPDTVAQQMQSSVVYALSAALFGQIDIVGGVVQQNNFPSYPMVTLSQAPLVETHIVPST
+RHPAGVGEPAVPPLAPALGNALFALTGKRLRALPLKV
+>tr|A0A0P0MAT8|A0A0P0MAT8_9BURK
+MNPTEPVMDPVTLAVLRGRLEQIADEMDATLYRSAFNPIIAEAHDACHGLYDAITGDTLI
+QGKSGLPVFVGAMAFAVRAAMRVAAERGGMQPGDVWLFNDPYEGGTHANDFKLVKPCFRN
+GQLYCFLASAAHWHDVGGAVPGNYNPAATECWQEAVQIPPVRILRGGVLDDDVLAILRAN
+TRLPDSLWGDLNGQLAALELGARRLDGLLDEYGDAKVAQALVELRTRAVRLMRSHITSLP
+DGRYSFEDVLDNDGVKDELLTIALDMTVAGDRLTLDFSRTSAQCAGPVNISRATAVAACY
+VALKHVFPDVPANAGVLDAVDFVIPDGLVISASRPRPVGGYTETILRMIDVIFSATALAD
+PQRAVAHAYGTINALSIAGHRTDDKRKGQRWVMFSFFGGGHGGHSDGDGLSHGNAPISTA
+TIPPMEILEAAYPVRFMQWALRPGSGGDGQHRGGLGAVYEIELLEDSAEAFIFGERGKSA
+PKGIHGGQPALPNVFEYCQNGEWKTPPMVSKMLGIHLKKGDRVRLQTPGGGGWGLPAERS
+AQDRAKDSALGYTKEQA
+>tr|A0A0P0LC62|A0A0P0LC62_9BURK
+MTHHVILGAGPAGVIAAETLRKHAPNDTITLVGDEPDAPYSRMAIPYLLIGNIEEQGTYL
+RKSATHFDDLRITQVKAKVTRVDAAGKTVHLDNGQSMAFDKLLIATGSHPVRPPIAGIDL
+PGVHPCWTLEDARAIQALAKPGARVLQMGAGFIGCIIMEALAARGVKLSVVEMGDRMVPR
+MMGPVAGGMIRDWCEAKGVQVFTGTKVEAISQGAEKGLLGKLASAVGLGSDDAGGPLQVR
+LSNGQTVEADLVISATGVRPAIGFLKDSGITCLQGVLTDQHLQTNVPGIYAAGDCAEAFD
+MVSGKTIVSAIQPNAAEQARVAALNMVGQKTELKGVTQINVLDTLGLISTSFGNWEGVAG
+GQSTVLTDKAAGRHLSLQFKDDVMIGCNSVGWTEHVGVMRGLVEGQVHLGEWKDRLMHDP
+TKLVDAYLDCAQGQGRWSGAQDARRR
+>tr|A0A0P0LG13|A0A0P0LG13_9BURK
+MSKRQIFVTTALPYANGNFHIGHIMEYIQADIWVRFQRMQGHAVNFVGADDTHGAPIMIA
+AEKAGKTPQQFVADIAAGRKPYLDGFHIQFDNWHSTDAPENHELARQIYRDLRDISAEQG
+GSLIEVRAVEQFFDPQKNMFLPDRFIKGECPKCHAKDQYGDNCEVCGAVYAPTDLINPFS
+ALSGAKPELKTSEHFFFKLSDPRCVEFLSNWTQDGKLQPEVANKVKEWFSVRTNPDGTTS
+EGLGDWDISRDAPYFGIEIPDAPGKYFYVWLDAPVGYLASLKNLLDKRGEDYNAYMANPN
+LEQIHFIGKDIVTFHTLFWPAMLHFSGRKTPNKVNVHGFLTVNNGEKMSKSRGTGLDPLK
+YLSLGMNPEWLRYYLAAKLSARNEDIDFNAEDFMARVNSDLIGKFVNIASRSAGFIAKRF
+GGQLGAVSADGQALLATLQAATPSIAAFYDEREYAKALREIMLLTDKVNSYVDQNKPWDL
+AKQEGQDARLHDVCTTCIEAFRLLTLQLKPVLPALAAQVEAFLNVAPFTFAQSQQLLGAG
+HTINTYQHLMQRVTPEQLDALFEPPAVVEEKLIPGGEEIAPTISIDDFAKVDLRIAQIVN
+CEPVEGSVKLLRLTLDVGEGKTRNVFSGIASMYKPEDLVGKLTVMVANLAPRKMKFGVSE
+GMVLAASHADEKAEPGIYVLHPWPGAKPGMRIH
+>tr|A0A0P0M9L8|A0A0P0M9L8_9BURK
+MALIVHKYGGTSMGSTERIRNVAKRVAKWTRAGHQIVVVPSAMSGETNRLLGLAKELAPA
+KPDTAYNRELDMLASTGEQASSALLAIALQAEGQPSVSYAGWQVAIKTNDAYTKARIESI
+DDERVRADLAAGKVVIITGFQGVDNDGNITTLGRGGSDTSAVAVAAAMKADECLIYTDVD
+GVYTTDPRVVPEARRLHTVSFEEMLEMASLGSKVLQIRSVEFAGKYKVPMRVLSSFTPWD
+IDINEEAASGTLITFEEDEQMEQAVVSGIAFNRDEAKISVLGVPDKPGIAYQILGAVADA
+NIEVDVIIQNLSKDGKTDFSFTVHRNDYAKTIDLLKEKVLPSLGAAEVSGDAKICKVSIV
+GIGMRSHVGVASKMFRSLSEEGINIQMISTSEIKTSVVIDEKYMELAVRALHKAFDLDQA
+>tr|A0A0P0MBR9|A0A0P0MBR9_9BURK
+MQTNLAPEYQNTPDGLEAEAILRKCVHCGFCTATCPTYQLLGDELDGPRGRIYLMKAVLE
+GETPTRKTQMHLDRCLTCRNCESTCPSGVQYGHLVDIGRKLVDAKVERPASEKLVRWALK
+EGLPSPLFAPAMKMGQMVRGLLPESLKAKVPAPQNAGAWPTTQHARKVLMLAGCVQPSMS
+PNINSATARVLDAACIQTVTAPKAGCCGALKFHLNDHDGGKDHMRANIDAWWPLVESGDI
+EAIVMNASGCGVMVKDYGHVLKDDPAYAEKAARIGALTRDLSELLPELVPLLQAKIKPQA
+LQAAGLQAYHPPCTLQHGQQLKGGVEKHLGDLGFKIKVTANESHLCCGSAGTYSVLNPDL
+SKQLRDRKLGHLNALEPQGVISANIGCITHLQSGSGLPVRHWVELLDEALSSAS
+>tr|A0A0P0M7N9|A0A0P0M7N9_9BURK
+MAASPKSLSGLAPFFKPYRVALGVAALFLLLAAGTTLAFPWVLRQLIDQGLASGAPADQL
+SGNFLQLFGVAAALAVFSAGRYYTVSWLGERITADLRNAVYGHVLQQSPAFFETTQSGEV
+LSRLTNDTTLVQTVVGSSFSMGLRNLVMGSGALLMLVWTNPVLMLQVVAVLVAVIFPSVY
+LGRRVRRLSRTNQDRVADSSAIASEVLNAISVVQSYTAEGRETRRFIDSTLRALSSALGR
+IRARAVLVGFIIMASSAVLLWGLYMGTLAVRAGTSTAGQLGETVFYVILLASAFAVLGEV
+YGDLLRAAGATERLMELLHTESNLKVSAQPQQAPWPNGGSSLQLESVRFHYPSRPDTWAL
+DQLTGQIHPGQTVAVVGPSGAGKTTLFDLLMRFHDPQSGRIVLDGVPIEQMDLHALRERM
+AIVPQEPVIFSGTVIENIRYGRPDASLEDVHAAAEAAYAQEFIRELPEGFDTYLGDRGVR
+LSGGQRQRIAIARAILKNAPLLLLDEATSALDAQSEKMVQAALDKAMVGRTTLVIAHRLA
+TVQRADVIWVLERGRLMEQGTHAELQAKGGLYASLAALQFNNTSGH
+>tr|A0A0N7J8M9|A0A0N7J8M9_9BURK
+MMSLGWARGLGVGLLAWCMGVALQLQQAALWPVALYGAVLGMVAACAWGLRVLTLRRLSV
+QRHRPTGLWVIGFLLWFSVAFAVTGLHAWSRLSIMVPALEGQDLDVVGVVQAMPQKQDLG
+WRFRFRIEQAWQVDEAGVSRALQVDADVPAQVYLGWYGQEGTHDSGWSLSPLPQPVKAGE
+RWRLRVRLKAPHGHMNPRGFDHELWLWEQGIRATGYVRNRAKDPPPLRIASTLSHPIEGW
+RQTVRDRLLTQLSTPGGDADAAKRAGVLAALVVGDQAAIDRSDWDVFRATGVAHLMSISG
+LHVTMFAWLASVAVGWGWRRAALWGFDGAMRWPAVHVGAVSGLMLATFYALFSGWGLPAQ
+RTLLMLLVVVVLRLSARQWHGALVWLMACAAVLVWDPWALLQPGFWLSFVAVGVLMASDL
+KGDRGAGLASPTDSSDAPLWRAGARSLSWLHLFGALGWGGWALRLGQGVGALLREQATVT
+LALAPLSLLFFGQVSLVGLLANVLAIPWVTLVVTPLAMLGVLWPLAWDWASWVLRPLSDL
+LGWMSAWPLASLSRATPPWGLAVLAMLGALGLVLRMPLSWKVLCLPLLWPVLFWSPLRPG
+HGQFELLAADVGQGNAVLVRTAQHSLLYDAGPRYSAESDAGHRVLVPLLAQMGERLDVLM
+LSHRDSDHTGGAAAVLAMQEQAELWSSLEDEHPLHRLRPGWTRCQAGQSWVWDGVFFQVL
+HPPAPELAPPSRKPNEVSCVLRIHTPEGSALLAGDIEAPQEQALLRAGLSPVDVLLAPHH
+GSKTSSSLPFLQALAPKMALVQAGYRNRFGHPAREVVWRYQAQGIQMVETTRCGAATWRS
+HAPTLVQCERVERQRYWHQALPP
+>tr|A0A0P0LS44|A0A0P0LS44_9BURK
+MSFEKTPAPARRPIRELPDELISQIAAGEVVERPASVVRELVDNAMDAGARSITLRLMGG
+GTRLISVEDDGGGIAPDELATALKRHATSKIGNLDELESVMTMGFRGEALAAINSVSELT
+LLSRMDGQANAFALDGRTGEIRPAARAVGTTVEVKELFFSTPARRKFLKSDSTELAHCIE
+AVRRHALARPDVGFAIWHEGKLVEQWRVHPGAAGLEQRLADVLGEEFVAQSIAVEYNAGP
+LKVMGRAGLPDAARSRPDHQFAYVNGRFVRDKVVMHGARSAYEDVLHGHKQPAYALFMQI
+DPTLVDVNVHPTKIEVRFRDSRAVHQTVRHALENALAAPRSHNLSDDAANSANELALKNG
+TAPKALPESAAWTQGGMAFDRPGPSSFSAPAYKPADFLRPRADGDRAMADLKALWNPPER
+NEDLSAQERPAPAWPEAARQPTAPAEAPAETRASPTATWPEPARLPEGDWPLGRAIAQLH
+GVYILAENKQGLVVVDMHAAHERIVYERLKNQLNAADGEGPRITSQPLLIPATFAATPTE
+VATAEACAEALEQLGLEISPLSAKTLAVRAVPTSLAQGDAVELARSVLAELAQHDASTVV
+QRAQNEILATMACHGAVRANRRLTLDEMNGLLRQMEETERSDQCNHGRPTWRQMTMRDLD
+ALFLRGR
+>tr|A0A0N7J998|A0A0N7J998_9BURK
+MLDLSHWTCPPQPWLGVFTDIDDTLTTEGAITADALQALTALKQAGLMVIPITGRPMGWS
+RDFAQTWPVDALVAENGAAAWLPQANGQPRAIYQQSEAVRTANWTRMQEVAARIVREVTG
+AALAQDSAGRETDIAIDHSEFTHLPAAAIDEVVRIMRSAGMVATVSSIHINGWFGEHHKL
+SGARWILRELCARQLDQEWQQWVYVGDSTNDQVMFEHFPISVGVANIRRFESQLSHRPRY
+ITPSERGAGFAEFTGHLLKHRV
+>tr|A0A0P0M9B1|A0A0P0M9B1_9BURK
+MADMNIVILDDYQDVVRKLDCAAKLEHYPAKVYTNTVKGIGQLSVRLKDADVIVLIRERT
+GLNRALIEKLPRLKMIAQTGRVGSHIDLAACTERGVAVAEGVGSPIAPAELTWALVMAAM
+RRLPQYISNLKHGAWQQSGLKSSSMPANFGLGTVLKGKTLGIWGYGKIGQLVAGYGQAFG
+MHVQIWGSDESRVRAVKDGHVAATSREAFFQSSDVLSLHLRLNEATTGIVTSDDLGLMKP
+TALLVNTSRAELVETNALIGALNRGRPGMAAVDVFESEPILQGSALLRLENCICTPHIGY
+VEKDSYELYFGSAFDNVINFIKGTPTNIVNPGALQVRR
+>tr|A0A0P0LGQ8|A0A0P0LGQ8_9BURK
+MNVTEAHAPHKRERRKQDRPGELLEAALDLFVEKGFAATRVEEVAARAGVSKGTLFLYFP
+SKEDLFKAVVRENVVAPVTQGAAEVAQFQGSTSALIEWMMLQWWRRYGATKASGISKLVM
+SEASNFPDLADFFRTEVIMPAHALVRSALQRGINQGEFRDLNVELTLHSVMSPLLFLVMW
+KHSMGPCCPSHEQIDPEAFISQHAQLLARGLSVT
+>tr|A0A0P0M7J1|A0A0P0M7J1_9BURK
+MKAAWYSRNGEAQDVMEVGDLPTLSPQPGEVLVRLATSGVNPSDVKSRRARPLSDPLVVP
+HSDGAGVIEAVGDGVPVSRLGERVWVCNGQWQRPMGTCAQFIALAAAQAVTLPEGTDFAA
+GACMGIPGLTAVQAVILAERLGGDLRGQNVLVTGASSAVGHYITQMVTQAGGRVIGTVGS
+EAKAAHAQAAGMQDAVFYKTESVPQRVKALTQGRGADVIIDMDFSTTAGWASEGALAPHG
+QVVCYGSNALEVPLPFRPWLYQSMGVKFFLVYDLTPADRQTAVARLSGMLAAGQLQHSIG
+ARYTLDQVAQAHRTVEAGQTVGNVVIEL
+>tr|A0A0P0M848|A0A0P0M848_9BURK
+MTYSFRLSALACASLASLSFSNAWAQNAVSGFSPEIVITGNPLGRDGTTVPVSTMGRADL
+LERGQSTLGETLNGLPGVSSTYFGPNASRPTIRGLDGDRIRVLNNSASSLDASALSYDHA
+VPLDVLSTDRVEVLRGPAALLYGGSAVGGVVNVIDNRIPRQAVSGVLGKAQLQAGTGNDE
+RSVAGLVEAGNERYALHLDGFDRRTGDVRVPVSLECTKPGSPANARRICNSASTARGGAF
+GASTFWDHGYLGASVNTYQSDYGTVAEDEVTIGMKTTRYALEGQVRQLPGWFDSVKARLS
+HTDYQHTEFEGTQAGTVFANKGQDLRIEARHRPLAGWQGVVGLQTESSRFSAVGDEAFAP
+FSRTRSQALFVHEELLTSWGQFTAGARWESVRVESLGNPELERFDEGIGAKKFTPFSLAA
+GAVLKLSPAWSLTGNAALTQRAPKDYELFANGPHLATHAWEIGNKDLGLEKSKSLDAGVQ
+WKSGPNSANVTAFSSQFDNYIGLMNTQDVEDNLPVQRYQGVKAQFRGLEASGRQRLWQST
+STLDLDWRADTVRATNTSTGEPLPRIAPMRVGATLVQSHGPWSAKLGADWHAAQKRVPEG
+SVATGAYTWVNASVSYRQKLDTTVLNWFARLDNLTDQLAYSASSILTSTAFGKSPLPGRS
+LKLGVQATF
+>tr|A0A0P0MAW1|A0A0P0MAW1_9BURK
+MQNPTTVVACLRQAQATGLARVDAQILLLLSLQRPLHDRAWLLAHDSDTLTPVQAAAWQD
+ALQRRLQGEPVAYITGRKDFFGLTLAVDARVLDPRPDTETLVDWALACLPESVPETRSPR
+ILDLGTGSGAVALALQHARPDATVWAVDASEDALAVARANAARLQLGVQFIASDWLNAVD
+IQRTGRFDLIVSNPPYVAEGDPHLAALTHEPLQALTSGPDGLDDIRQIIAQAPVYLAPGG
+WLLLEHGWDQAAPVQALLREAGLVQVQSRRDLGGIERCTGAAMPK
+>tr|A0A0P0LM88|A0A0P0LM88_9BURK
+MVTKKPKGLGRGLEALLGPKVEEAPDTASYAESGLPSQLKLDQMVAGMYQPRTRMDEGAL
+YELAESIKAQGIMQPILVRQLHDGPNAGKYEIIAGERRFRASRLAGLDAVPVLVRDVPNE
+AAAAMALIENIQREDLNPLEEAQGLQRLIKEFGLTHETAAQAVGRSRSAASNLLRLLNLA
+DPVQSMLMAGDLDMGHARALLSLDRAAQITAANQIAAKKLSVREAESLAKKLGAEFNLVT
+QKPKKEKSRDIRRVEEELSDLLMAEVEVRVKKRVKRLGKMEEMGELSIQFGSLDELNGLI
+DKLRG
+>tr|A0A0P0LGU6|A0A0P0LGU6_9BURK
+MRKSVLLEVSEKIKTIGPLLPRKMGVLWVMLGLFAGSSVGALEAPKGPVVLQVSGLIEAH
+NQGKVAALDMRALQALPQKSFTTQTPWDQKPVSFSGPLLRDVLQLVKAKGQHIRAVALND
+YRVKLPVSDAREHDVVVAVQMNGQAIPVRTKGPLFIVYPFDAKKELQHKTYYERSIWQLK
+AIEVE
+>tr|A0A0P0M9B8|A0A0P0M9B8_9BURK
+MHAWLCENPTGVDALTWKELPTPTPGPGQVLIQIEAASLNFPDLLIVQNKYQMKPELPFV
+PGSEYAGKVEAVGEGVTHLKVGQSVACLSGTGGFGTHTLAPAKLCMPLPAGFPATDGAAF
+IMTYATSHHALVDRAALQAGETVLVLGAAGGVGTAAIQIAKAMGAKVIAAASTDEKCALC
+TSLGADATINYSTQNLREALKSLTEGKGPDVVYDPVGGDLAEPAFRSIAWRGRYLVVGFA
+GGPIPSLPLNLPLLKGASLVGVFWGEFARREPQANAAMMGELAQWYGQGKIKPVLDRTMP
+MNELKAAYTLMGSRSVMGKLVMVN
+>tr|A0A0P0M915|A0A0P0M915_9BURK
+MKVLVVGSGGREHAMAWKLAQSPRVQQVYVAPGNGGTAKDKNLVNVPITDLALLRQWALD
+NGIGLTLVGPEAPLAAGIVDDFRAHGLRIFGPTQAAAQLESSKAFSKAFMQRHGIPTAAF
+ETFTDAAQAHAYVDRQGAPIVVKADGLAAGKGVVVAMTLAEAHEAIDFMLLDNTLGVAHN
+AGGARVVIEEFLQGEEASFMVLCDGKNVAALATSQDHKRLQDGDEGPNTGGMGAYSPAPV
+VTAEVHARAMREVILPTIRGMEKDGITYTGFLYAGLMIDSQGRIKTLEFNCRMGDPETQP
+ILMRLKSDLLEVLLAATSEGLGQLEMEWDRRVALGVVMAAAGYPMNPRKGDVISGLPKDE
+GDAMVFHAGTNEKDGQILTSGGRVLCVTALADSVKQAQQKAYQAASPIAFDGMQMRRDIG
+YRAIKN
+>tr|A0A0P0MB65|A0A0P0MB65_9BURK
+MTSDVSAHTRNFTLSDFDFELPPELIAQHPAAERSGSRLLDGSSAMVVDRIFHELPSLLN
+AGDLLVFNDTKVVKARIFGEKASGGKLELLIERVLPGHQVVAHMKVSKKPLVGGKMFMMG
+GAHQGGFDAVLLGRWPDENGQLFHLQLSDEPHALMEKHGVVPLPPYIERPAGAITHTDSE
+EDAQRYQTVFARAPGAVAAPTAALHFDEGVLAALAARGVHTASVTLHVGAGTFQPVKTEN
+IAEHHMHSEWYEVPEATQQAIAACKARGGQVVAVGTTTVRTLESWAKFGQASGDTEIFIT
+PGFEFQVIDRLITNFHLPKSTLMMLVSAFAGYEHIMGLYRHAIAQQYRFFSYGDSMLLKR
+TAPGSQPS
+>tr|A0A0P0LUN3|A0A0P0LUN3_9BURK
+MIVLKATQDKLLSVLQSVSGIVERRHTLPVLANVLIRKTGHAVQLTTSDLEIQIRTTAEM
+DGDPGDFTTTVGARKLIDILRTMPADQTVSLESSQAKLILKGGKSKFTLQTLPAEDFPLV
+QEAASFGPVFSVPQKTLKQLLGQVSFAMAVHDIRYYLNGILFVAEGNRLSLVATDGHRLA
+FTAATLDVEVPTKQEVILPRKTVLELQRLLSDADGAIEMQFANNQAKFSFDGMEFVTKLV
+EGKFPDYNRVIPKGHRNNLTLGRQALLSCLQRTAILTSDKFKGVRLNLEPGTLRVASTNA
+EQEEAVDELDIDYGGDAIEIGFNVTYIIDVLSNMGQDMVRIDLADGNSSALITIPENDNF
+KYVVMPMRI
+>tr|A0A0P0MAQ3|A0A0P0MAQ3_9BURK
+MISNTELPSTRPYLIRALYDWCSENGFTPYVAVKVDNSVQVPREYVQGGEIVLNVSMDAT
+SSLKLGNDFIEFKARFGGKPREIMVPIHRVMAIYARENGQGMAFPVSDEESAPAALSAVD
+SPALESMDTEDKPETPSPSNPGRPALKRIK
+>tr|A0A0P0M7W2|A0A0P0M7W2_9BURK
+MTYRVVWFKRDLRLQDHAALAHASAQGPVLCLYIVEPGLWQQPDAALQHFEFVRESLLEL
+HEALRVSGGSLQVRTGDAVQVLAALHAQAPFAELVAHEETGNAFTYERDLQVGAWCRSAG
+VGWTEWAQFGVVRRLKSRNTWQARWEAHMAAPQAVLPELHFFQPHTDAGPEAMTPPPGLQ
+HNPAQRQRGGRRLALDTLHSFLDARALGYRGGISSPLSAPTACSRLSAYLAYGCISMREV
+VQATRAALDALPPQAGRHKAGLIGFISRLYWHCHFIQKLESEPEIEWRNMHRGYDGLRED
+GWNDAHFAALTSARTGWPMVDACVVMLHETGWLNFRMRAMLVSVAAYPLWLDWRPVGHWL
+ATQFLDYEPGIHWSQLQMQSGTTGINTTRVYNPIKQAQDHDPKGIFVRRWLPHMRRVPDT
+WLFEPWLMPPEVQRHCGLTVGNGPDDDIPLPVVDLAEATRTSKAALHERRAEPGVKAGKK
+AIVEKHASRKHGSGQQRDVFTRDSDTPKTRRRKSGQSSPANTPPSKQLGFDF
+>tr|A0A0P0M8N2|A0A0P0M8N2_9BURK
+MAQMTTPQVHLGRAQDRSLWRYLWAWALGAVVALWMLLAGLAYSTGYHEAEEISDGLLVS
+AAQLLLSQPLAQPLLVPGTPNTPTVHQAEMPAALSQHPPNAYAPEFHVVIWQGDRLVWDS
+HGVHAQLPPRLALGHQTLGLTLQGVSQDWRVYVAESTEATAVRRVAVFMDPARREALAAD
+ISEHILLPALVFLPLVALMLASAIRRGLLPLQRLSGKIAALDVDAGQTLVPQQPYRELGV
+TVQSINALVLRLQAQIGRERRFAADVAHELRTPLTALVLQARRARNGGGAAEQDQALQAV
+EQGALRAGRILSQLLDLARAQSLTGDVSEQVDLCALALRVVSEHASLAHELGQDIALEAP
+ESLVLPGQSTLLELALRNLVDNALRHNPAGTYVEVCVARDAAGQVALSVSDDGGDLSDAP
+ASGHHTGLGIGLTLVERIAQSQGAQLVRDDGAAPFGKRFALVWPASVELSGKA
+>tr|A0A0P0M9C7|A0A0P0M9C7_9BURK
+MSTLPPCPQCHDEYAYPDGDLLICPSCGHEWHPGETTPSEAAKIWKDANGNVLQDGDTVT
+LVKDLKIKGSSAVVKVGTKVKNIRLIEGDHDIDCKIDGFGPMQLKSGFVKKV
+>tr|A0A0P0LE81|A0A0P0LE81_9BURK
+MSLFNLKGKVAVVTGSSRGIGRSIAHQLAQQGAKVVVSSRKQDACEVVVKEIQAAGGEAM
+AIAASISSKEQLQNLINQTRAAWGPIDILVCNAATNPYYGPTTGMSDEVFDKVMRNNVLS
+NTWLCTMVYPDMKAKKDGAIVIVSSIGGLHGSAIIGAYNISKAADMQLARNLAVEWGPDN
+IRVNCIAPGLIKTDFAKALHEDPVLSAKYNNETPLRRMGEPDDIGGVAVFLASPAGQYVT
+GQTIVADGGMMIR
+>tr|A0A0P0LDH0|A0A0P0LDH0_9BURK
+MQKILAQLATEIRIRPDQVKTAVELLDGGATVPFIARYRKEVTDGLDDIQLRELESRLGY
+LRELEDRRTAVIKSITEQGKMTPELLAAIDAAPTKQELEDLYLPFKPKRRTKGMIAREAG
+LEPLADKLFADPSLDPHAEAQAFVLAAGAIEGADFTTTAAVLDGVRDLLSERWAEDASLV
+QALREWLWNEGLFKSKLADGKDENNADVSKFRDYFDYDEPIGRVPSHRALAVFRGRALEM
+LDAKLVLPVEPEPGKPSIAEGKIAMHLGWSHAARPSDDLIRKCVAWTWRVKLSLSTERDL
+FARLREEAEKVAIKVFSDNLRDLLLAAPAGPRVVMGLDPGIRTGVKVAVVDATGKLVDTA
+TVYPHEPRKDWEGSLFTLAKLCEKHNVNLIAIGNGTASRETDKLAGDLIKQLARLRDGVE
+ITKVVVSEAGASVYSASEFASQEMPDVDVSLRGAASIARRLQDPLSELVKIDPKAIGVGQ
+YQHDVNQSELAKTLDAVVEDCVNSVGVDLNTASVPLLTRVSGLSASVAKSVVRWRDANGV
+FKTRQDLLKVTGLGAKTFEQSAGFLRIRGGDNPLDMTGVHPETYPVVEQIIVKTAKPIQE
+IMGRSDVLKTLKPELFANDKFGAITIKDILGELEKPGRDPRPDFKVARLADGVEDIKDLK
+EGMTLEGTVSNVAQFGAFVDLGVHQDGLVHVSQLANKFVTDAREVVKTGDIVKVKVLEVD
+VARKRISLTMKLDAAPARRDGPRDNKFEGAGRDNRQRGGGGGYTSPPAAGAGSAMASAFA
+KLQGLKK
+>tr|A0A0P0LL81|A0A0P0LL81_9BURK
+MHLSALTLASLPADIHTPIYDRRRHAPGVVHLGLGAFHRAHQAMVFDHLLTTGDTRWGIH
+GVGMTRPDLVNLLRAQDGLYAVRVADGSGVKWQVPGALWRMNVAATERETVVQAIAAPAT
+RWVTLTVTEKGYTPALGQLLLDGLRLRQQSGLPGITVASCDNLQGNGHKLLALVKAAATP
+QDAALLRWLDTHCTFPCSMVDRIVPAATAEVLAAASQALGLRDDASLSTEGFWEWVIEDR
+FADPSDATLLQSAGVRVTGDVHSYEEAKLRMLNGSHTAMALMGAITGRPFIASCIGVPHI
+RTFVHQLMGQEVAPHLSRSDWTDYRDALIARFGNPYLKHSVHQIATDSSQKIPQRWPPSV
+LGQIAHGASFEHHALAAAVFVRYTLAVDESGQAYALNDPQAESLMAMGAAQHTEPEACVR
+ALLGREDLWGSALPHHAAWIARVIHWHQHILQHGVDHAVQQLAGA
+>tr|A0A0P0M827|A0A0P0M827_9BURK
+MSYIAPLKDMLFNIEHLARIDQIAQIPGFEDAGLETAQAVLEECAKLNQDVISPLNWEGD
+KNPSFHNGSGVTTTPGFKEAYQQYAEGGWQGLQHPADFGGQGLPKTIGAACGEMLNSANM
+AFALCPLLTDGAIEALLTAGSDELKATYLEKLISGQWTGTMNLTEPQAGSDLAAVRTRAE
+PQPDGTYKIFGTKIYITYGEHDMAENIVHLVLARVVGAPEGVKGISLFVVPKFMVKADGS
+LGDRNDVHCVSIEHKMGIKASPTAVLQFGDNGGGVGFLVGQENRGLEYMFIMMNAARYAV
+GVQGIAIAERSYQRAVQYARDRVQSRPVDGSLPTAGPIIHHPDVRRMLMTMRAYTEGCRA
+MAATAAAAYDASHHHPDAEVRKQNAAFYEFMVPLVKGYSTEMSLEVTSLGVQVHGGMGFI
+EETGAAQYYRDAKILTIYEGTTAIQANDLVGRKTARDGGQTAKALAAQVVQTESELAASG
+NADAQAVARRLKAAREAFVDVVEFVAGNTKAHPNDVFAGSVPYLMLAGNLMAGWQMGRAL
+LVAITPEAQAQDAAFMAAKVTTARFYADHILSKAPGIRDSIVEGAGSVTAMALDAF
+>tr|A0A0P0M735|A0A0P0M735_9BURK
+MPTNKTIAIIGLGYVGLPLAVEFGKHRTTLGFDINQTRIHELQSGQDHTLECNPEELQSA
+THLRYSANAVDLQAAQIYIVTVPTPVDQANRPDMTPLVKASETVGKVLKAGDIVIYESTV
+YPGATEEVCVPVLEKFSGLQFNQDFFCGYSPERINPGDKEHRLPTIKKVTSGSTPAIAEE
+VDQLYKEIITAGTHKASCIKVAEAAKVIENTQRDVNIALMNELSLIFHKLGIDTLEVLQA
+AGTKWNFLPFRPGLVGGHCIGVDPYYLTHKAQEVGYHPEVILAGRRINDGMASHVADETI
+KLMLCKGLPVLGSKVLVLGLTFKENCPDVRNTKVVDIVKALRGYNTQVDVYDPWIDVAEA
+EHEYGLQCLRQEPTKGQYAAIVLAVGHEQFMAMGEEGLKAYGQPGAVVYDVKSILPLGAA
+DGRL
+>tr|A0A0P0MAZ9|A0A0P0MAZ9_9BURK
+MTSLLPPQPRNPLHGLTLETIVTRLADFYGWDDLGQRIPIRCFTHDPSVSSSLKFLRKTP
+WAREKVESLYLFMLRDQKRQGF
+>tr|A0A0P0M891|A0A0P0M891_9BURK
+MKFQRLALIGCGLMGGSFALALRQAGLVQHITGFSASERTRQRALELKVIDQACNSVAEA
+VQGADLVLLAVPVGAMHSSFAAMRDALAPQALLMDVGSTKCDVIAAAQATLGERLNCLVP
+AHPIAGKEVAGIEHAEANLYQQRRTILTPLPQNSIRQINMASEVWTAIGSHVSHMTPEAH
+DATFAAVSHLPHLLAFAAVNALTAQAQGAAFLEMAGPGFRDFSRIAASDPAVWRDILGAN
+QAEVLMQMAHFRSALDKFENALKQGDTAALQQLIQQASDVRSAWTLQAGNACNKASED
+>tr|A0A0P0M8X7|A0A0P0M8X7_9BURK
+MSADRAQKIAQTLDLRALPRDFLDNPYPVYAALRESEPFKRMPDGSYFLTRHADLVAVYR
+DAKVFSSDKQVEFGPKYNHAPFNQPPFAATGGVAPLFEHHTHSLVFNDAPRHTRVRRLIM
+GALTRRAIEAMEPGLVQLVDSLLDKIEAQGGGDLIEDFASAIPVEIIGNLLDVPHADREP
+LRGWSLAILGALEPSLTPEQEALGNRSVSEFLAYLRELVAQRRQHPGDPEHDVLTRLIQG
+EENGDALSEVELLQNCVFLLNAGHETTTNLIGNALISLQEWPAQREQLQADLKQAATEAE
+GEQIMGLAVDEFLRFESSNQLGNRRALQATQVNGMDLPAGALVTLCIGAANRDPAVYENP
+VQLNLRRTGNKHLAFGFGVHQCAGLSLARLEGRIAIGRFLQRFPDYQLTQSPVRGGRARF
+RGFLHAPFSIE
+>tr|A0A0P0M7B2|A0A0P0M7B2_9BURK
+MTINKVPTTTKSQSESMPAKSPWPAFWIACSATFLVSLDTTMLFAAFEALRQSFAGTSAA
+ELSWVLNGYTVVYAAMLIPAGGLADAYGRRRIFRLGLTLFLVTSVACGAAPSVDWLIAAR
+AFQAIGAALLTPASMSIVLAAFPTEKRAVAVSLWGAVGGLAAAVGPSLGSWVTASAGWPW
+VFYINLPVGLWALWRSASQIEEAVKPTERRSVDIVGLLLLMLAVGAIALAIVESGELRWS
+AQQIAWVGVGGLLAGACFVIWARTRTHALIDLSLFQHRTYRYVNGATLVFGMAFSMMFLG
+FFFYMTGIWHYTLPQAGLAVTPGPLMVMPTAIITGRLASRLGHRPFLVGGSLLYALSSLW
+FFLVPGNEPNYLLHWLPGLLMSGIAVGLVLPSLSAAAVNRLPVAHYAVGSAVNQATRQIG
+SVLGVAFTVALVGDATLQQSDFHAFYLLHAGLALLTGLLCWPVDTKPRGAQS
+>tr|A0A0P0M8H3|A0A0P0M8H3_9BURK
+MLQGKTALVTGSTSGIGLGIAKALAKQGANIVLNGFGDAEGPKAEIAALGVKVAYHGADM
+SKASEIEAMMKFAADTFGRIDILVNNAGIQHVAKIEDFPIERWDAIIAINLSSAFHATRL
+ALPAMKAANWGRIINIASIHGLVGSAEKSAYVAAKHGVVGLTKVTALENATTGVTCNAIC
+PGWVLTPLVQKQVDAKAVAMGLSNEEAKKQLLQEKEPSMQFTTPEELGELAVFFCSAAGN
+NVRGVAWNMDGGWTAQ
+>tr|A0A0P0MB09|A0A0P0MB09_9BURK
+MSTVGLIGLGAMGSGMAASLRRAGHAVQVFDVRREVAEAFTNAGGTAHDTLASLGAACDV
+VVSVVVNAAQTEAVLFGDGTTPGCAASMKPGSVFVMCSTVDPNWSVALEARLEAMGLRYV
+DAPISGGAAKAASGQMTMMTAGKPEAYALAEPFLNAMAAKVYKLGDSAGAGSKVKIINQL
+LAGVHIAAAAEAMALGLREGVDAAALYEVITNSAGNSWMFENRMAHVLAADYTPLSAVDI
+FVKDLGIVLDMARASKFPLPLSSTAHQMFMQASTAGFAKEDDSAVIKIFPGIELPKGKA
+>tr|A0A0P0M7Z4|A0A0P0M7Z4_9BURK
+MHVIKTHPKSSHRKPSQGMASMGLALVVGALTAWAAAITPVHAQTAPGAEPQQAKRPTKP
+KAQPAQTAQAKTPQRKKNAAPKKQAPRPARQAAVTGMPLASTAQTQAWVQDAVQRLQLDP
+IWVQNTLAQAQRLPSVERLVLPPSSPTAKNWAAYRARFIEPIRIQAGLRFWQNNRNALER
+AEREYGVPASVIVGIIGVETLYGQNTGNFRILDALATLAFHFPSAHPRAAARQAFFQSEL
+EQFLLLTSRSGANPLNVRGSYAGAMGLPQFMPSSWAKFAVDFDGDGRIDLFGSPTDAIGS
+VANYFKAFDWRPGMPTHYPVTLTPGQSNMDSLLAPDILPTFSVTSFVSQGAALSGAALQH
+PGPLALIELLNGPDAPSYVAGTENFYAITRYNWSSYYAMAVIELAEAVAREMQGKP
+>tr|A0A0N7J8R0|A0A0N7J8R0_9BURK
+MKLYLDSADARQWAVPAGCPPVQGVTTNPTLVMQAGLPVSLPGYLQLVAQAGQARLPELM
+LQLPRADVSEAAQWLGALLTAAEQAQVRLTFKLPCHPDWFAVLREVQTRGVPTLLTGLSN
+PMQLLWAQAQGASFVAPYVGRLQADGRDVWALVAACVAVQANGPQLLAASIKSADVLSRL
+MAAGAHAVTVRPELATQLATDPMTLAAMAQFDRDVLTSQNNLL
+>tr|A0A0P0LNH3|A0A0P0LNH3_9BURK
+MASNPTMFSLLDLRRRDWLLRVGVSLAATPVWAQSGRDATLPASQSLPDELARALKNKQP
+LIVMVSLDGCVFCRQARQSHLSPMARAGTAIVQVDMRNNQPVLDFAGKLTTHDELTRRWK
+VSITPTLLFFGPGGKEVAERMEGAYQPDFYGPYLEDRMVQGRKVL
+>tr|A0A0P0M741|A0A0P0M741_9BURK
+MSKAFTKESDGDDDEELGLPALPAGARNYMTPEGYARLRAELFTLIDDERPKVVEIVHWA
+ASNGDRSENGDYLYGKKRLREIDRRIRFLTKRLEMAEVVDPAVHHGSDQVYFGATVTYAE
+ASGTERTVTILGIDEADSLQGQVSWVSPIARTLLKSREGDELKLLTPAGVIDIEVLAVSY
+PAAT
+>tr|A0A0P0MBH5|A0A0P0MBH5_9BURK
+MKETPYAWVVVWATFVCLALIFGVSYSFAAFFESFAAEFSAQRADVSWIFGLSGFVYFVL
+GAGGGMLADRFGPRMVCSVGMALIASGLLATSWATSLLAVYVSYGLLVGLGIALVYTPSI
+ASVQPWFTTRRGLAGGIASSGVGAGTLLVPVLVAMAIGPMPWREAMQVLALGVLVLGLLA
+AGLLRRAPAAQAAPGATGAGGSASGLTLRETLRSPTFRWLYLATVLASPVMFIPFAHVSA
+SARDLGLGEAFAVGLVGLIGVGSLVGRFAIGLLADRLGRAQTLVLMQLSMGASYLLWGAA
+GGQAMLVLFALWFGLSYGSIVSLLPAICMDYFGGRSVASVVGTLYSGAAVGNLLGPVLAG
+AVFDHSGHYLGVMVVCGGLSLCATWASRQMKRCGQARY
+>tr|A0A0P0M7T6|A0A0P0M7T6_9BURK
+MFQNVHAVLFDLDGTLIDSAPDLGAAVDKMRVDRGLSSFPLEHYRHMAGAGARGMLGIAF
+GMTPEHPDFEAMKEEFFVNYENCMTERTRIFDGVVDMIERLVALELPWGVVTNKSNRFTD
+PLTSAMPLFATAGTIVSGNTTPHAKPHPEPLFEAARRLSVDPARCVYVGDDERDIVAGLA
+AGMGTVAATYGYLGQQTDISRWNAHLHIDSPIELLKFLQSA
+>tr|A0A0P0LMC3|A0A0P0LMC3_9BURK
+MNVSFRQLRLFLALAETGSVSAAAKVMHVTQPTASIQLKDISESVGLPLYELVGKKLYLT
+EVGQELAKTARAVAHTWDTFEQNVDAAKGLSRGKLRVAVVSTAKYFMPHLIGSFCKQHPA
+IDVSLEILNRDGVVQRLRDNRDDLYIMSMPPKDMDLGDEAFMPNPIVVIAPMSDPLAKRS
+AVPLHELAQRRFIFREKGSGTRMAADQFFKQMKFRPDVRLELGSNEAIKESVAGGLGVGV
+VSRHALHGHQKENGVRVIDVQGFPLPSAWHIVYPAGKKLSPLALAFKQHVLKQISRRK
+>tr|A0A0P0LI92|A0A0P0LI92_9BURK
+MDNKVAMVVGGGSGMGAAAARKLAQDGFQVAVLSSSGKGEALGRELGGIGMTGSNQSPDD
+LQKLTDQVMARWGRIDVLVNSAGHGPKGPVLELTDAQWHLGLDMYFLNVVRAVRVVAPIM
+VQQKAGAIVNISSAWVVQPSAMFPTSAVARAGLAAFTKLFADEHAAHNVRMNNVLPGWID
+SLPAKEERRESVPMQRYGTSEEVAATIAFLASEGAAYITGQNIRVDGGLMRSV
+>tr|A0A0P0LD52|A0A0P0LD52_9BURK
+MPAQKPKKPAQAPAKSKIVAKTAAVKATAPVAKAKAAAKAPAKAPAKVPAPVAAKTPAKS
+AGKVAPKAATPSPKATTAPATSAKPVKKAASVPAKKSEAIEKKPAAKAKAKDAAAEVEVK
+KPTKTAKAAKAAKAAAPVEDSKPAAKKVVTGAKRGPKKKGSIAEPSIDDELAELEDDLQG
+EPVADNVTETGEKVKPLRMKISKAKERALMKEFGLDETVLTEAEMKQRRDRLKALIKLGK
+TRGYLTNGEISDHLPDKLVDAETLEVVIATLNDLGVAVYEQTPDAESLIITDNAPTGSTE
+EEAEEAAEAALSTVDSEFGRTTDPVRMYMREMGTVELLTREGEIEIAKRIEGGLMDMMAA
+ISASPATIAEILRMANEIREGKVVISTVVDGFANLNEADDYVAEEDFDEFDEADDDDGKG
+GSKALTKKLEELKNQALERFDRITEYFEKVHKVYDKEGWGTPAYNKVQSALSEELMTIRF
+TAKTIEKLCDMVRGQVDDVRKKERELRRIIVDKCGYPQDNFIADFSGRDKNGKRVESQLL
+NLKWIEKQAAAGKSWSAVMGRNIPPVQDLQQKLIDLQSQVVVPLDELKDINKRMNAGERS
+SRDAKKEMIEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYA
+TWWIRQAITRSIADQARTIRIPVHMIETINKMNRISRQHLQEFGFEPDASILAEKMEIPE
+DKIRKIMKIAKEPISMETPIGDDDDSHLGDFIEDSTHTAPMDAALQAGLRDVVKDILDSL
+TPREAKVLRMRFGIEMSTDHTLEEVGKQFDVTRERIRQIEAKALRKLKHPSRSDKLRSFI
+DTM
+>tr|A0A0P0M7C2|A0A0P0M7C2_9BURK
+MQVFVVGGAVRDALMGLPVNDRDWVVVGSTPEAMTDQGFMPVGKDFPVFLHPQTREEYAL
+ARTERKTARGYKGFAVQADPCVSLEEDLARRDLTVNAMAVPEALAHAAPSGWTGQIVDPY
+GGGRDLQNKVLRHVTEAFAEDPVRILRLARFAARFANFSVADETMALMRQMVEDGEVDHL
+VPERVWQELARGLMSAKPSRMFEVLRTCGALKVLLPELDRLWGVPQRPEYHPEVDTGVHM
+MLVMDMSARLNMPLPVRVACLMHDLGKGTTPADVLPRHIGHEGRSVKLLQKTCGRLRVPT
+DCKELAEVVAREHGNIHRSAEMGPEALMRLLDRCDAIRQPERFARVLQACECDARGRLGL
+EESAYPQAERLLKAQQAALSIETAPIAQAAAAQGLKGPQIGEQISKARIRAVAASL
+>tr|A0A0P0LMQ8|A0A0P0LMQ8_9BURK
+MKTGTVIGRIVASKRLPELPAGALLEVQLDYPKDVVVCYDPMGCGIGERVMITIGAPAAW
+WFAPAHPRVVADALIIASLDNYDTPTPMR
+>tr|A0A0P0M8Q7|A0A0P0M8Q7_9BURK
+MDPQVIDQKLDSLRRCLVRIESKQPFDADQLADDFDLQDIVSLNLTRAVQMAVDIGAHIA
+ASQNQPGPATMAETFQQLHGMGVITADLAIQLKKSVGFRNIAVHNYSAINWQVVHAITAG
+HLDDFKEFARAVSLWQAGSSVQAKN
+>tr|A0A0P0M7X1|A0A0P0M7X1_9BURK
+MVHYFDEARVQQLLSVPELLQGVHEALVALTLGQVVQPLRMVMPIGEASNDGLLFLKPAQ
+LGDALSTKLITLVPGNAQKGLPTLLSTIVLMNPATGQTLAVMEGNTITAMRTAAASAVAA
+DALVPRTPQVVAMLGSGVLARSHAQMLRAVREVSGIRVWSPNPANAQQCAQDIGGVACTS
+AEQAVRGADIVCTVTNASEPVLQGAWLKPGAFVAAVGAPRPTWRELDDAAMQHWVVADQR
+EAAEKESGDVMLSGARVAAEIGEVLCGRVAPPPAGTTVIFKSLGQAVEDTVAARLVYRAA
+LAESARP
+>tr|A0A0N7J8F8|A0A0N7J8F8_9BURK
+MFSTAFLDLPALQGASGTVTLPGSKSISNRVLLLSALCQGTTVVHDLLDSDDTRVMLAAL
+RQLGCGVQVNGTTVTITGLGGRAWPTEAIEFFMGNAGTAMRPLTAALAVQGGDFTLKGVP
+RMHERPIGDLVDALRELGCAIDYLGNEGYPPLRVRQPSLQLDNPIPVRGDVSSQFLTALL
+MALPLAAQDRAITIEVVGELISKPYIEITLNLLARYGIQVERQGWERFVIPAGSRYQSPG
+TIHVEADASSASYFIALGAIAQGNGIRIQGVGADSIQGDIRFMDAAAQMGAKITSGPNWL
+EIHRGAWPLKGITLDCNHIPDAAMTLAVMALYADGPTTLRNIASWRVKETDRIAAMANES
+RKLGATVEEGPDWITIHPLKPSQWQRASIHTYDDHRVAMCFSLAAFNADQVPVRIEDPKC
+VAKTFPDYFEALFSVAHTAAHNIPVICIDGPTASGKGTLASRVAAALGYHYLDSGALYRV
+TAHAALQVGLTLEAADEAQIADLARHLPVRFEGEQVLLNHVDVTDAIRSEQGGMNASKVS
+VLPSVREALVDLQHSFQRLPGLLADGRDMGTVIFPDAPLKVFLTASAAKRAERRHKQLIS
+KGFSANIDSLRADLEARDARDMSRSVAPLKPAQDALQLDNSSLTIEASVEQVMVWWQSRQ
+VFG
+>tr|A0A0P0M979|A0A0P0M979_9BURK
+MAQNQKTGGLSHEKVETNNFLMIVLILVVLLVGGMVEILPLFFQKSTTEPVPGLKPYTAL
+QVVGRDVYVREGCYNCHSQMIRPFRAETLRYGSYSLAGEFVYDRPFQWGSKRTGPDLARV
+GGRYSDEWHRIHLTNPRDLVPESNMPAYPWLEKTPANAASIQAHMKGLRTLGAPYSDEEI
+AKAPDEVKDKTELDAVIAYLQVLGTHRK
+>tr|A0A0P0LIC4|A0A0P0LIC4_9BURK
+MTIADIKKTTETKMEQSIAAFKNNLTKIRTGRANPALLDTIHVDYYGSMVPLSQVANVSL
+MDSRTISVQPWEKGMGAKIEKAIRESELGLNPASMGDLIRVPMPPMSEERRKEMTKLART
+EGENGKIAIRNLRRDANESVKKLVKDKEASEDDQKRAEADVQKLTDKRMTEIDQLVAAKE
+QEIMAV
+>tr|A0A0P0LJL2|A0A0P0LJL2_9BURK
+MSERVIPLVDQRHPSLPLPTPLAGQELSALPLDGLRRPLTDLRISVTDRCNFRCSYCMPK
+EVFDKDYTYLPHSHLLSFEEITRIATVFVGRGVRKIRLTGGEPLLRKNIEILIEQLAALR
+TPDGQPLDLTLTTNGSLLARKAQSLKAAGLQRVTVSLDGLDDTVFRQMNDVDFPVADVLA
+GIEAAKAAGLGPIKVNMVVKRGTNEHEILPMARHFRGTGIVLRFIEYMDVGATNGWCMDE
+VLPSAEVIRRLQTELPLVQLDPAAPGETAERWGYANAQGEHDPSLGEVGVISSVTQAFCG
+DCNRARLSTEGRLYLCLFASQGYDLRQLLRDPTQSDHTLAQTVDAIWRGRTDQYSVQRSL
+RGPDTASGPGRRVEMSYIGG
+>tr|A0A0P0M8T8|A0A0P0M8T8_9BURK
+MKHFNLSKKIVVFIGFILSSTFSLAGSYEDFFKALQSDNVRVVQGLLQRGFDPNTVNPDG
+IPALMLAVREPSLKVAELLAAHPKTKVEVRNDKDESVLMLAALRGYLALVEKLVENDADV
+NKTGWTPLHYAASRGHVPVIMHLLEHSAYIDAESPNGTTPLMMAAMYGSPESVKALIQAG
+ADPTLKNQLGLSALDFAVRGQRQNSIELMQAGLARWAARQKRSSASQTSGAESAPVAR
+>tr|A0A0P0LDV7|A0A0P0LDV7_9BURK
+MRIDKLTTKFQEALSDVQSLALGKDHAYIEPQHLLVTMLKQDDGPKAILLRAGVQVPALL
+QAAEAAVSRLPQVSGQDQVNVGPDLVKLLQAAEKEAIKRGDAFIAGELFLLALTESKSEA
+GRIAKEHGLNRKNLETAIAAVRGGQSVSNADAEGQREALKKYCIDLTERARIGKLDPVIG
+RDDEIRRAIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIVAGEVPDSLKGKRVLSLDM
+AALLAGAKFRGEFEERLKTVLSELAKDEGQTIVFIDELHTMVGAGKAEGAMDAGNMLKPA
+LARGELHCVGATTLDEYRKYIEKDAALERRFQKILVNEPTVEATIAILRGLQEKYEIHHG
+VDITDPAIVAAAELSHRYITDRFLPDKAIDLIDEAAAKIKIEIDSKPEVMDKLDRRLIQL
+QIEREAVRKESDEASQKRFALIEEEIVKLKKEAADLEEIWRAEKSQAQGGQQVREQIDQI
+KQQIEEFTRKGDFNKVAELQYGKLPALEKTLKEVQAKESAPGEKPVHRLLRTQVGAEEIA
+EVVSRATGIPVSKMMQGEREKLLQMEDKLHQRVVGQDEAIAAVANAIRRSRSGLSDPNRP
+TGSFLFLGPTGVGKTELCKALAGFLFDSEDHLIRMDMSEFMEKHSVARLIGAPPGYVGYE
+EGGYLTEAVRRKPYSVLLLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFKNTVIVMT
+SNLGSHLIQSMVGQPAEDIKDAVWDELKTHFRPEFLNRIDETVVFHGLDAQHIAAIAKIQ
+LQVLQTRLARMDLTLKVSPPALSELAKVGFDPVFGARPLKRAIQQRLENPLSKLLLEGRF
+PPKCTIEVSVDPVRAPGQFDFQVVEHAA
+>tr|A0A0P0LES0|A0A0P0LES0_9BURK
+MTNQLDKKSQAWSALFSEPMSELVKRYTASVFFDKRLWQADIQGSLAHAEMLAAQKIIAA
+SDLADIQRGMSQITQEIESGAFEWKLDLEDVHLNIEARLTQLVGDAGKRLHTGRSRNDQV
+ATDVRLWLRGEMDLIIDLLVDLQKSLVDVAEKNVEVILPGFTHLQVAQPVSFAHHLLAYV
+EMFSRDAERMVDVRRRTNRLPLGSAALAGTTYPLDRERVARTLGMVDEAGNPQVCQNSLD
+GVSDRDFAIEFTAAASLCMVHISRFSEELILWMSQNFGFVKIADRFTTGSSIMPQKKNPD
+VPELARGKTGRVVGHLMGLITLMKGQPLAYNKDNQEDKEPLFDTVDTLKDTLRIFSEMVG
+GQVNPATGQKEGGITVNAAAMEAAVKKGYATATDLADYLVKKGLPFRDAHEVVAHAVKTA
+QGLGVDLSELPLETLQKFDTRIEADVFGPLSLQGSLNARNTLGGTAPAQVRLQIARHRSR
+LG
+>tr|A0A0P0LPN7|A0A0P0LPN7_9BURK
+MRAYSKFAESYGSVQVVTGVATADNIQLIQMLFDGLLESLATATGHIQNNAIEEKSKALA
+RAGRIVVGLQGALDFERGGELAQNLNELYAYMTRRLFHINAHNDLQALQEVKTLVIDISQ
+AWQTLPSLLSDTNRRTHYPN
+>tr|A0A0P0M706|A0A0P0M706_9BURK
+MPAPRFHDLPIARVNPEAAGAVAITLNVPADLRSSFDFQPGQFLTLRADINGADVRRSYS
+ISSARSQLQNNGILEVGIRPVEGGVFSNWAATQLQAGDTLRVMPPDGRFMVQRPRAIHRV
+GFAAGSGITPILSILSSTLEEQPDSKFTLVYGNRRMDSVMFNEALQDLKDRYPSRLTLIH
+VLSRQAQEVPLLEGRIDAAKVQAIIDAFLPVGSMDEVFVCGPEAMIEATEQALLTAGVKA
+ERIRTERFSSPRLDALTPEQRSQAVLGHPATREQGEVQLTVVLDGKPYDMPMNRNEKILD
+IALSLGLDLPYSCKAGVCCTCRCKVMEGTTEMEKNFTLEKPEVEQGFILSCQARPTSERV
+VISFDER
+>tr|A0A0N7J8T8|A0A0N7J8T8_9BURK
+MLNRRHFLGTGLAGASALTFSSVWSQNTPQFGAPELPSVGFRRMKLGTMEVIALNDGAVR
+RPLGQEFVPAVPLDQVKALLASQNLPTDYIDVPYTPFLLINGNQRYLFDTGFADNGPPTT
+GKLLGNLAAAGFKPEDINNVVLSHFHGDHINGLRFKNGNLVYPNARVHVPAPEHAFWTDE
+ARIAAAPAQMQGAFAGVKRALHGLTSDQLVKFEPGTQVAPGIQSVAAFGHTPGHTLFTVR
+SEGQSFAYVADITNVPSLFARNPDWAVLFDMNPEMARQTRRKIFDMLVKEKMVAGGFHFP
+FPAFGSITPSGNGYQFVPMA
+>tr|A0A0N7J940|A0A0N7J940_9BURK
+MNPLRKILSTCLLALAGWALLTGSSTDVFHWDLPAWVPRPVVPADNPMSAAKVELGRHLF
+YDQRLSADSSMSCATCHHQDKAFTDGLAVAKGVTGQAGQRSAMALANVAYLPVLTWANPN
+LTALEVQALIPLFGEHPVEMGMAGREKDLFERLQADARYRDLFVKAFPDEAAKGSEALYS
+LGTLTKALASFQRSLLSFDSPYDRYKYGGQPTAISPAAKRGESLFFGEKMECYHCHGSFT
+FTDNIRHSKLPLAERGFHNTGLHNMDGRGAYPADNPGISEFTGDADDMGKFRTPSLRNIA
+LTAPYMHDGSIATLDQVIRAHYAQAGRAGGTTNGPSPLRSSLIGGFEVSEQEVSDLVAFL
+NTLTDHTFVHNPRHANPWAASR
+>tr|A0A0P0LP01|A0A0P0LP01_9BURK
+MYPLLITAAQLQALQTQGTPCAVLDCSFDLMKPELADGFFASERIAGALPAHLDKDLSTH
+QPDQAVNGGRHPLPKRERVAQWLGSLGIHNGMQIVVYDRNKGHYCGRLWWMLKWLGHEAV
+AVLDGGLQAWKDAGGGLDAGPVAPTAPARFELKTPLRQLVLTDAVSAALGQPAQTVVDAR
+AGARYRGEVEPLDPVAGHIPGALNRPFTENFSEDGRFKSPEQLKAEWTQVLAGRPASSVV
+HHCGSGVTAVPNVIAMELAGFGPTALYAGSWSEWCRTPGLPCAKG
+>tr|A0A0P0LS64|A0A0P0LS64_9BURK
+MNVIEIQSYGAPEVLVPGSRPDPVAGAGELLIRVSASGINRPDVLQRLGNYPVPPGASDI
+PGLEVAGVVVSGDAAAMAEAGFAGGDRVCALVAGGGYAQLCVAPVAQCLPVPKGLTDIEA
+ASLPETFFTVWSNVFDRGRLQAGETLLIQGGTSGIGVTAIQMAKAAGATVIATAGSDAKC
+QACLDLGADHAINYKTTDFVAEAKRLTGGVGVNVILDMVAGDYVAREVEALAEDGRLVII
+AVQGGIKSEFNAGLVLRRRLTITGSTLRPRPVAFKAAIAQSLRTTVWPWIESGRIKPVIY
+SVFAAAEAGGGLPSGAAQAHALMETNQHVGKIVVTW
+>tr|A0A0P0M6W6|A0A0P0M6W6_9BURK
+MSLSHRLWANGSIRFGAVVLGFMVLVSLLAPWLGTVDPAAMDSNFINKPAGLKGDFALVD
+GSTVAHTFWLGTDSFGRDLYSRVVYGAQVSLLVGGFTAALALALGGCLGMLAGYFRQVDA
+VLMRFMDGLMAIPAILLAIALVAALGAQVWTVVVAIAIPEVPRVTRLVRSLVLSLREEPF
+VEAARALATPTPVILWRHILPNALAPLIVQGTFVAASAVLTEAILSFLGLGLPPDIPTWG
+NIMAEGRVQFSQYPGNVLYPALFLVPTVLAVNLLGDGLRDVLDPKFAKRGAR
+>tr|A0A0P0M9G2|A0A0P0M9G2_9BURK
+MYLNLPGLHFNPLKAFAHASLTLMSSIGQGVRGLASKSNTVDNYNGQDECKKSLTEVIET
+QIIPRLVQAHRVSQAELDPSTQGPGISPKQLATFVALSKSSQAIETTQFIDELLHQGITT
+ERIFLELIAPAARQLGQMWEQDLCDFTEVTCGLVRMHEITHRLGFEYQNGPQLGGDVQRI
+MLASAPGSQHFLGMTIVSDFFRKAGWDVVIEISLSEKELVHAVSNEWFDVIGISCATEAQ
+LKTLPGLIRALKAASGNPEPGVLLGGPIFTVQNHDARSLGADGICLDVKEAVALAASFRP
+GNSPVARD
+>tr|A0A0P0LFT9|A0A0P0LFT9_9BURK
+MIKLLDVKTIAAHQLEMTFSDHTQGVFDGARYLADRKGPLLEALRDPAYFSRCFVDAGAL
+CWPNGLELSAARLYELSLAVKAAA
+>tr|A0A0P0LEB7|A0A0P0LEB7_9BURK
+MGWGGGAFYNRRVTAQRTQIDLLELWPQIQIWARELGLSQIGVAGIDLSSAEPGLQAWLA
+AGFHGSMAYMESHGMKRARPAELVPGTVSVITARMDYLPHDSPPDWLAQETARGLQPGEA
+VVSLYARGRDYHKVLRSRLQKLQDRIAEAIGPFGHRVFTDSAPVMEAELATRSGLGWRGK
+HTLVLSREAGSMFFLGELFVDLALPETPATSAHCGQCTACMDLCPTQAIVGPYQLDARRC
+ISYLTIEHAGPIDEALRPLIGNRIYGCDDCQLACPWNKFAQLSPLPDWQAREGLSAGRIS
+ELMAWTESEFLRRTEGSAIRRIGHTRWLRNLALAAGNALASTALGSEERGVLLKALQSHA
+AHSDAVVQEQVAWSLAKA
+>tr|A0A0P0LCE1|A0A0P0LCE1_9BURK
+MTLHAPLILDIAGTTLTEVDRRRLAHPLVGGMILFGRNWQSRAQLTELCAEIKNIRADLL
+IAVDHEGGRVQRFRTDGFTHLPPMRALGELWSQDDKGQPGSGVLKACEAATSAGFVLASE
+LRACGVDFSFTPVLDLDHGESGVIGDRAFARDPRVVSLLARSLMQGLLQAGMGNCGKHFP
+GHGAVKADSHVALPVDKRGLKTILADDAQPYRWLTSVLTAVMPAHVIYSKVDSRPAGFSP
+RWLQDILRAQLGFQGVVCTDDLSMAAARQLEGQTLSYTQAVITALHAGCDLALLCNRSAV
+NGGAELDEVLDQLAEAQLKGHWTPSEISEERRLNLLPRSPARPWDELVRSADYMQALDRL
+P
+>tr|A0A0N7J957|A0A0N7J957_9BURK
+MSLYDFEAQSIDHQTVPLSRYQGQVMLIVNTASACGFTPQFTGLEKLHQKYGNQGLAVLG
+FPCNQFASQDPGDDAQIANFCQQNYGVSFQMMSKVKVNGDGAHPLYQWLTAEAPGILGSK
+GIKWNFTKFLVGRDGRVIKRYAPQDSPEKIAKDIEAALVA
+>tr|A0A0P0MA38|A0A0P0MA38_9BURK
+MTLAIRYIRITPIAFRDPPLLNAAGIHEPWALRSIIEIETACGRVGINETYGDQSMLDVL
+AKAAPALRGLSPWDLNTMETRVAALVAPGQNASEFLGEQISLAPGTHVSKNVAKVISAFE
+VAMLDLQGQLAGAPIVDLLGGAARDTVPFSAYLFFKHAEHIDKPYSADAYGEGLSPEQMV
+AQARHMIAQYGFKSIKLKAGTLPPEREVAALLALAQAFPGAPLRIDPNANWTVATSLKVV
+EQLRGVLEYYEDPAPGLDGMAAIARQCDVPLATNMVVTDYKEFAENVRLGCPVRIVLSDH
+HYWGGLRTTQQLSRLCQTFDMGLSMHSNSHLGISLTAMTHLAASVPHLAYACDTHYPWQD
+DEVVQGGRLKFENGSLRVPRTPGLGVTIDPEALARLHHNYVHCGIRNRDDLGQMRKYDPS
+FTGKQPRF
+>tr|A0A0P0M745|A0A0P0M745_9BURK
+MSMPLINEAAPAFSANTTHGPRSLADYKGKWLILFSHPADFTPVCTTEFIGFAKRAELFK
+SMNCELLGLSIDSIYSHLAWMQSIQNNFGVEIPFPIIDDIKMEVAQAYGMIHPGAADTQA
+VRATFFIDPEGKLRAMVYYPMSNGRSIEEFVRLLQAMQTSDANKIATPEGWTPGCDVIVP
+PPKTPEAIAKRKGEGYAMKDWYFSTKSL
+>tr|A0A0P0M9F7|A0A0P0M9F7_9BURK
+MAMSTPLAAQASLNELAVALRNLRRPWPKGWPGLPLVFQRAWQQLALGSPRKGSRVQALQ
+AFGLGVCEQIERDGAQRHAHGAEPAYHNRLHIADTLVCMTYLLKASVHVQVPGANAPQVL
+ALALAIMASHDFLHPGGSNSEPAEFESRAVQDLQPLMQSAGLSERDRQDVAHCILATEPS
+RVKAFHMDVRSRPFDLRQRDCLAVLVQEADILASTLPQTQQGLTQALSREWAPTQPVAAG
+NLLLPENRLMFLEHAALFSSPAAKCLGLDRVKVRQVSQIKKQLARQV
+>tr|A0A0P0M9B4|A0A0P0M9B4_9BURK
+MTPRRQLLPFAALSASYFAHIGFFNPYLPLWLQDMGLSLLTISVLTAVQATTRLFAPYAW
+GAISDRTGERVKLLRIGAGVAFATACLLFWDWGPVGLGLVLLLMFTHTSAMMPMSEAAMA
+HLVSRDGAFDTKRYGRVRLWGSLGFLVTVFVAGAWFEAFGMKHFPGWTVLSLAAVLLSVW
+WMPDIKETAHQVREHVSVMPVLRQKLVQWFFASTFLHVLSHIGIYVFFSLYLDSLGYSKT
+MIGVFWALSVAVEVVWFFTQSRWLPRVPLTGWLVACSAVMLLRMGMTAAWADVLWVLLLA
+QTLHAITFATHHTVCIALISHHFPGRLRGRGQALYTVVAYGFPGVLGALLGGLLSERWGL
+QSVFVASMVTSALATAAAFKVWHLQHHAPKVSD
+>tr|A0A0P0MAW4|A0A0P0MAW4_9BURK
+MTSLRIDKWLWAARFYKTRSLASDEIGKNRVQVNGQDAKPSKEVKPGDTVCLRQGAVERT
+VVVQGLSGVRGPAPVAQLLYTETPESIAARQKAAEQNRLAREPALSIEQGRPTKRDRRQI
+ERNWNDRWSAGID
+>tr|A0A0P0LR81|A0A0P0LR81_9BURK
+MPKRTVFFVSDGTGITAETFGNAILAQFDMKSRHVRLPFTDTIDKAHQAVRQINHTAETE
+GTKPIVFTTLVNMDVLKVLQEHCQGMLLDMFGTFVNPLEAELGIKSHHRVGRFSDVSKSK
+EYHDRIEAINFSLAHDDGQSNRDLESADVILVGVSRSGKTPTSLYLAMQHGLKAANYPLI
+PEDFDRRQLPPALVPHRTKIFGLSIHPDRLAEIRAERRPNSRYASIENCRMEVSEAEAMM
+RRSGIRWLSTTTKSIEEIATTILQEIKPERLIY
+>tr|A0A0P0MAE4|A0A0P0MAE4_9BURK
+MWVVLYTYQASERMVRQYATESAQAHAVSLTQFRNFYTDEIVPRAMEAGVHVTHDYKNRK
+NALPLPATLTLDLGHYLSKVDGGTQVRLYSEKPFPWRVQERQLDDFQRQALKHLKEKPDE
+PFVREEILNGERVLRYAQADRMTLRCVACHNSYPSSPRTDWKTGDVRGALEVVLPVSQWQ
+ITSTGILNRTFVVLLALLFLGLLLVWLTVRRFREALLTSRELSTERRAAIEQLSEEINER
+KQIERQMRLSESKLHSIFKSVPEAIVVADAHGLIVQCNAATQAIFGYTPEELIGQKVDRL
+MGPKDGQRHDDYMLTYQRTGEKKIINQPRVLHGRRKDGQLFSLRLTISEMRVDDEVHFVG
+VMQDFTAIENAQRMLIEAKEKAEQDNRMRGEFLANMSHEIRTPMNGIVGMTELAMDTQDR
+SAQKEYLTLARDSANHLLHIINQILDFSKIEAQALELELLKVSPAQLIRDTSRSLEQLAR
+VKDIDLQVDISSAVPEWAWMDPVRMRQVLTNLIGNAIKFTEVGAVTVAVQALAGQDDDHC
+VLRISITDTGIGFDPARTAALFSPFTQGDGSVTRSFGGTGLGLAITRRLVHLMGGEISAN
+GQPDLGACFTVTLPVEKTSLEVDDPSTPDGQASDLSLRPVYQKPISVLLVEDHDINRKLA
+EIMLQRMGYRYVSACDGLQALDVLEKDRFDVVLMDVMMPVMDGITALKLLREREAEQGQR
+TRVLMVTAHAMTGDRERFLGAGADGYVSKPMSQAALQKEMERVLNVPHAANSDAAD
+>tr|A0A0P0MBC6|A0A0P0MBC6_9BURK
+MASGKELRTKIKSVENTKKITKAMEMISVSKMRKAQERMRTARPYSEKIRTIASHLGQAN
+PEYVHPFMQRNDGKSVGFIVVTTDKGLCGGLNTNLLRAVTVQLRETQAQGKTPVAVAIGG
+KGLGFLNRVNAKVVAHVTQLGDKPHLDKLIGPVKVLLDAYAAGEVSAVYLCYNKFVSTMA
+QVPTIDMLLPLSAADMQAETKAAGHTHAWDYIYEPDAQSVIDDLLVRYAEALAYQAVAEN
+MASEHAARMVAMKAATDNAGNVIGELKLVYNKTRQAAITKELSEIVSGAAAISG
+>tr|A0A0P0MBH7|A0A0P0MBH7_9BURK
+MKRTPSASSTQHSIQHTIAVYQVVQMLMAIEDEDQRAAVLRRAGILPALLESKLARVTQT
+QFARLMTALVRHHRDEFWGLSTTALPLGSFAMGCRMLVGHRKLGDALRAGLRYYHALLPD
+FVPRLVVSGGVAYLRMSPRHTLNDRQAYAVRVFMFLSYGVMCWLAARRIPVDEVVYQDRD
+VARRSDASKLFQAPIHLMAGEWGYRFDAKWLDLPVVQNTESVEAFLHQAPACLLVKYRDQ
+ASLTERIRRMLRRYLAEEMPSLEEVSDMLATTPQTLRRRLQREGQGYQMIKDALRRDVAV
+EYLTQSDLPLNEVAAKVGFSEASTFHRAFKGWTGLTPGAYRQAHNEPAEDEALAG
+>tr|A0A0P0MB90|A0A0P0MB90_9BURK
+MLPVCWLANSPPDSETSPDLPPNGDRKNPMSNTPTERQVVREAQSVENYDPMAKQKAAAK
+LSRIPVKVEQAEVLKKPEWIRVKAGSPTTRFYEIKDVLRANKLVTVCEEASCPNIGECFG
+KGTATFMIMGDKCTRRCPFCDVGHGRPDPLDVNEPDNLAKTIAQLKLQYVVITSVDRDDL
+RDGGAGHFVECIRKTRELSPTTQIEVLVPDFRGRDDRALEILKAAPPDVMNHNMETVPRL
+YKEARPGSDYQFSLNLLKKFKALFPNVPTKSGLMVGLGETDEEILEVMRDMRAHNIEMLT
+IGQYLAPSNSHLPVRRYVHPDTFKMFEAKAYEMGFSHAAVGAMVRSSYHADQQAHSAHLN
+TPAR
+>tr|A0A0P0LD74|A0A0P0LD74_9BURK
+MAGLTPVSPLPEKAPTPRAPVSPGREAWRRFKRHRLAVVCAFVLGFIILAVLLGPWIWRV
+PINEIDFTARMQGPSWRHPLGTDDLGQDLLARMLYGGRISLAVGLAAMLIAITVGVVVGA
+VAGMSKGPVDVFLMWLTDLFLSLPQLPLLLLIFYLFNDTLKKWVGTEMGVFILVVAVIGG
+LRWMPVARLVRAQFLSLREKEFVEAARALGASPWRQVTVHILPNAMGPVIVAATIDVAAA
+IIAESTLSFLGLGFPPDIPTWGRILFDAKDNMDVAPHWALFPGLLIFITVLTINYIGDGL
+RDAYDPRRVL
+>tr|A0A0P0M6Q4|A0A0P0M6Q4_9BURK
+MTENTLPSILSSTSLHDERWRQTHLGRLLGHAMRRFDERVLHLMAGNEGVPLALANLASR
+DQVSAAHVHITRHLALEGSRLTDLARAAGMSKQAMGDLVDQCAAWGLVQREADPLDARAR
+RVVFTPVGLAWLQAFKEAVAQAEAEFREAVGNDVATVVALGLDAYVN
+>tr|A0A0P0M8G3|A0A0P0M8G3_9BURK
+MIATNEFSHLIVFLNQPKEMTMSSLINTQVQPFKTQAFHNGKFVQVSNETLKGEWSVLIF
+MPAAFTFNCPTEIEDAADNYAAFQAAGAEVYIVTTDTHFSHKVWHETSPAVGKAKFPLVG
+DPTHQLTRAFGVHIEEEGLALRGTFIINPEGMIKTAEVHSNEIARDVSETLRKLKAAQYT
+AANPGQVCPAKWKEGAKTLAPSIDLVGKI
+>tr|A0A0P0LDQ9|A0A0P0LDQ9_9BURK
+MSQDVVFDLGGVVFRWQPLVLLQALFPSQVRHEAQAREWASQIFQTFHPEADWALFDLGR
+IEPEPLAQRIAARTGLAEADLRHLIANIPPHLQPIQGTVDLIHELKAQGHRLYFLSNMPA
+GYAEYLVRVNPFFSQFDDGIFSAHVQQIKPLPDIFATAQKRWPLRGQPVFIDDVQHNIDA
+AERHGWQGIRFETPEQVRLNLLERGGFLK
+>tr|A0A0N7J8Q2|A0A0N7J8Q2_9BURK
+MTVWHPTDDGHADLADHDSYVNGTPHNTFQRLRDEDPMAWCDWSEGKGFWSVTRHADILE
+LNRNHQRLSSAQGIRMEDQTHEEYMARRTFQETDPPEHTRTRMLVAKAFSKPMMALYEDQ
+IRELCVGILDQALGQGEFDATHQIARQLPMRMLGRIAGLPEEDLDWLVDKGDALMANTDS
+DFTSHVVDKMDTEAYRFMPFRSPAGADLFDYAARMMARKRAAGDTSGVLHLITQPDAQGN
+VISDTEFRNFFCLLVAAGNDTTRYSIAAALHALANQPGLMAQLKAVQGEAAWEGVADEFI
+RWASPATHFRRTATEDFEYHGKQVKAGDKVLLWFISGNRDERAFEQPFTVDLNRGVNRHL
+SFGQGGAHACLGMWLARLELRVLLQELIQRVDRIEQTGEHAFLRSNFVCGIKRLPVRMHL
+I
+>tr|A0A0P0M924|A0A0P0M924_9BURK
+MENPSPSSSADPVVKATSSAAEPMDHWDVLVVGGGATGLGVAVQAALQGQRVALLEAGDW
+ACGTSSRSTKLLHGGVRYLAQGHWRLVREALRERATILALAPHLAQPLSFVVPGASWLSW
+AWTGMGLKLYQWLSGRWSLGRTVALSRRQLLARCPGDAVDRVGGGATPAVGGPVPQSIWV
+AGMRYWDAQFEDARLALALAKTARRAGASLHNHSRVTALLPVPQGWRVQWLDERSGQTRE
+GLARCVVNATGVWVDGLRQMALSPHDVTASPIKPLVTPSQGVHLVVARERLPIREAVLIP
+STADGRVLFAVPWLGATVIGTTDTPRTDAPKEPVPMAEELDFLFREAQQSLGVSLSRADV
+LSVWVGLRPLVVQGAADGAGGSTSTMSREHLIQREAPGFVTVTGGKWTTYRSMAEHVLQV
+LAEHGDLATGPGMAPSPVNTALHRLVGAPPAGAVPSSASAAYARIGDAPGLHLWGTEAED
+VLRLPGADRDLGMGLSEAMVRFAARQEWALTVEDMLARRWRALFLDARQASRMAPAVAVL
+LQEETGLDPRLGAFLELCQRYTLAD
+>tr|A0A0P0LIG6|A0A0P0LIG6_9BURK
+MQTNLLKPKAIQVEQLAANRAKVTLEPFERGYGHTLGNALRRVLLSSMVGYSATEVTIAG
+VVHEYSSIDGVQQDVVNILLNLKGVVFKLHNRDEVTLSLRKDGEGPVTAADIQTPHDVEI
+INPEHVIANLSQGGKLDMQIKVEKGRGYVPGSMRRYADEPTKALGRIVLDASFSPVKRVS
+YTVESARVEQRTDLDKLVIEIETNGAITAEDAVRASSKILVEQLAVFAQLEGSELSAFDA
+PAVRGGAGSFDPILLRPVDELELTVRSANCLKAENIYYIGDLIQRTENELLKTPNLGRKS
+LNEIKEVLASRGLTLGMKLEAWPPAGLEKR
+>tr|A0A0P0MBU7|A0A0P0MBU7_9BURK
+MGEFELIERFFKRAARQADVGIGDDCAIWTPSRGHQLAISTDMLVEGRHFLSTVNPRDLG
+HKALAVNLSDLAACGATPHAFLLSLSLPRVDEDWLSGFSEGLFALADAQGCELIGGDTTQ
+GPLNVSITVMGEVPAHQAILRSGAQAGDDVYVSGHLGDARLALEAFRGTVSLPQSVFELA
+RSRMERPQPRTALGVSLRGLASAMADISDGFLGDLGHILKASRVGAAIDVAAMQRLMLTR
+DAWACPQDLLQRCVLSGGDDYELVFTAHPDHQQHILALSEACGTPVTRIGRITADPHLLL
+LSEYGGVLPNTFTSFDHFA
+>tr|A0A0P0M6Q8|A0A0P0M6Q8_9BURK
+MQHLPPFIAPSEHHDADSALAQIQHIYQHSVNHLRQAMHEFVAGADMTDTRVRAFYPFVR
+VQVSSANRQSAGLDSRLSYGFVAEPGRFETTLTRPDLFAFYIRQQLTLLLKNHGVSLQVG
+TSNQPIPIHFSLADDEHMEGSLSPERQALMREVFDLPDLAAMDDGIANGTHEPAASEARP
+LSLFTAPRIDYSLQRLRHYTGTSPRWFQNYVLFTNYQFYIDEFIALGRAEMQNPDSEYVA
+FVEPGNMVTRRVGLAAEDVDALGQTPPRLPQMPGYHLVRKGHSGITMVNIGVGPANAKTI
+TDHIAVLRPHAWLMLGHCAGLRTTQLLGDYVLAHAYVREDHVLDEELPLWVPIPALAEIQ
+VALERAVSEVTGCHGADLKRLMRTGTVASTDNRNWELLPDNKPQRRFSQSRAVALDMESA
+TIAANGFRFRVPYGTLLCVSDKPLHGEIKLPGMANHFYRERVNQHLQIGIRAVTLLRDAG
+PEQLHSRKLRSFAEVAFQ
+>tr|A0A0P0LEY3|A0A0P0LEY3_9BURK
+MKLALFDLDHTLLPLDSDHTWGVFTTKMGWTDPEVFRQRNDEFYAHYQAGTLDIHEYVRF
+ATRAARERGATEAAQAHARYMDEVIRPRITPEALALVRSHQQAGDTVMIVTATNEFVTRP
+IAQAFGVSELIAVDLERDASGWITGEIRGTPSFREGKVTRVAHWLGQKGLDWGDVEMTFY
+SDSMNDLPLLEKAHHPVATNPDARLRQLATERGWRILDLFQE
+>tr|A0A0P0MBY7|A0A0P0MBY7_9BURK
+MWRSLFRPDGFLRQEMLTIYLILVSVTTFLGYLFTPMQAVSQANLVVSVLAVCLFAVVRI
+RAIFSHLVHAVTGLTMLLTVYTAMHTGGINSTAVVWLNVLSVPVLLMLGRGATLVWIAIM
+LLAIWSLTLMTWLGVVSSHVDVSSSVVTWAYLNHVFALLNLMMGVRIYEHLHKVQLRKLN
+QRNDELKATHEALILAQAHKDEFVAAVGHELRTPMNVILGFNGVLRRELAEEPEPLAVVG
+HIRRSTEHLLQVVNDILDFSQLQAGKLRLNRVDFALQTLQDDLQHRHFTKAQSKGLALCF
+ERSAELPDRVHGDPNRLLQILNNLVDNGIKFTHQGSVTVRMMAQGERLRFEVQDSGRGIP
+RERQAHIFRRFEHADVQTNRAYGGTGLGLTLCEKLVTLHGGQIGVDSQEGRGALFWFEIP
+LEAAQSVDPLEDLIDDNLSDEPLSILVVDDNNVNLMVAQLQLQKCWPRAQITTVDSGAKA
+LSLIDQQLFDVALIDMVMPEMDGMQVTRQIRQQFPAIAARMPILALTANTNPVDRERCLA
+AGMNDVLHKPMEMAMLMRTVGHHIALARRGRS
+>tr|A0A0P0MC75|A0A0P0MC75_9BURK
+MSTLPTDRVMPAPSARVDGTPLQYPMAEQLPPVGGAIEVAPGVFWLRMGLPFALNHINLW
+LLRDRLPDPAQPDVLHEGWTAVDCGIDNPATRQAWQDVEAQVLQGLPILRVLVTHMHPDH
+MGLAHWLCERWQAPLWMSTSEYQSALLACSGMSNFGGAPTVAFFKSHGWNQAEELAQVQA
+RVGYYPSMVPQIPGAYVRLMAGMQVRIGDRLWQCISGYGHSPEHMALLDAQQQLLISGDM
+LLPSISTNISVYAMEPDGNPLQWFLDSLDKMAQLPDTTLVLPSHGRPFQGAATRIAQLKA
+HHAERLAELLQACSAKACCAHELLPVLFKRPLDVHQTTFALGEAVAHLNLLWLSGQMRRE
+RGADGVIRFSNNSA
+>tr|A0A0P0M6Z2|A0A0P0M6Z2_9BURK
+MTPRILLVEDTPDIALWLGTALRQGGMQVEFATDGHAAERCLQTGHGFDAVLLDLQLPGQ
+DGLSVLQDLRARGDAVPVLILTARASVPDRVLGLNMGADDYLPKPFDLSELEARLQVLLR
+RHGRAKTNTLRWGPLEMAPETSTVWWHGQVLALTQREAAALRVLLSSPQRTVSKEQLHAD
+VFADEATGLDAVEVLIYRLRKKIEAAAAASGGSSEVVISTFRGMGYMLTSPLGSA
+>tr|A0A0P0M890|A0A0P0M890_9BURK
+MSKPDVLAVAKLHPFYQKALESLYTVHDRTHVTDPTAFAALAPRIVGVAGTGEASVPRSL
+LAQLPNAKVVAVFGVGYDGVDVTAAIEHGIPVTHTPDVLTDDVADLAMGLVLSVGRAIPQ
+ADQFVRAGQWPSGPMALGRKVSGARLGIVGLGRIGKAIAKRANAFGMSIAYTARTAKADS
+GYTFYPSAAELAANVDFLVAITPGGAGTKHLINAEVLKALGPRGFLINVARGSVVDEEAL
+ITALQNGTIAGAGLDVFANEPHVPEALWSLRNVVLTPHMASATTETRQAMADLAFANMKA
+GISGQPLLTPVPECQAALK
+>tr|A0A0P0MC04|A0A0P0MC04_9BURK
+MPTRQDQETPLKGVRSNIVQSIRAYRVSDLQEAAQGLGHHFLYANLAEAQSKQDVLDLIG
+AQFTLPSHFGKNFDALYDCMTDPLHKSGPQPGFIVVLEQIPAHVKFDKEAREQLLDIFRD
+TADYWGDRKIPFRCFYSFL
+>tr|A0A0P0LBQ5|A0A0P0LBQ5_9BURK
+MLAMRSPLFKPRPLSGWVLAALLASPSVQALDLLKTWELARAHDPQMQVVAATRSSVQAY
+EAQAQSLWRPVLMGSATVGAMSADTRTTGAQFAVGGQPPMPGSFATSASAATSTRWSLQA
+KQPLYSPERQAQQAQLHTAAGVAELRADLAQQQFMLLTAQRYFNLLLAERQEQVLKNQYA
+AVSRSLTEVKDRFALGDLPVTDTHEAAARATGLQAQLLAAGSEVQMARSLLTDSTRLLAD
+ALKPLAPKADAAVTAVPALAQVLEQVREANTGVRLQKTQQDMARQELKKHQRSGGVTLDL
+VASAGRDRLSGDGDFGPSANSQSQQMVGLSLNVPLYTGGWRSAKLQEAVDAQAMAEAEVD
+LAVQQAQQQARSVWLALETGPARLTALKASWQASSARLDATRLGRQVGDRTTLALLQAEN
+DAAQAELAWLRAQTELLLTRLQLDALTGSMSVQSLQALNAQLAH
+>tr|A0A0P0M8T6|A0A0P0M8T6_9BURK
+MTCPDCSPTSAPAGHWVCPANPAASPEVPLWQVAALMGKLGASDRHAVAEEILRLLATWV
+PMAQCTIFSFEGAGRPRTLAVGDRARTRALPDISQAYVQRFYRLDGAQLAMQAHHQAALK
+ASPQQPHIVLHRQAAHDVQHPDYRQICYEWPRVAERLAILSLHEGRRWLSVNLYRGLEHG
+LMTEPELATVQALAPLIVQAVRLHYTGQVLSGDLMALLLDRLALRGPALSPRELDVVRAL
+LQGLSTEQLAERLGLTLASAQTYTKRIYRKLGVAGHKALVAWLLAPEGAGSVPKR
+>tr|A0A0P0MAD9|A0A0P0MAD9_9BURK
+MGSGLGSGLLADRVHNPASTMNRLSSILPVAQVLVGVEATSKKRAFEEAGLLFENLHGLS
+RALVTDSLFARERLGSTGLGHGVAIPHGRIKGLKAPMAAVFQLAQPIGFDAPDEQPVNLL
+IFLLVPEAATQKHLEILSEIAELLSDTALRESIKSSTVQSSLHQLIAQWQSAQTA
+>tr|A0A0P0MA06|A0A0P0MA06_9BURK
+MNLNLLAPARLIRPSWVLMLAAVVSGCATSVPTSQTASLPPMERLPDAPPPPNVSLPGSV
+TAPVAPAAPMVTPMNTELPVALKPNATIGLQEQIDIWERIRRGFAMPDLDNDLVRNREQW
+YASRPDYMLRMTERSRPYLFHIVEELERRKMPTELALLPFIESAFNPQAVSSAKAAGMWQ
+FMPATGKYFDLKQNLFRDERRDVLESTRAALDYLQKLYTMFGDWHLALAAYNWGEGSVGR
+ALARNKAQGLPLTYSNLRMPDETRFYVPKLQAVKNIVAQPEAFNTQLPLIQNHPFFKSVA
+IERDIDVAVAAKLANVSLEDFKALNPAMNRPVILAAGTPQILLPWDNATVFEKNLQARPE
+RRLSSWTAWQAPRTMGAEEVAKQVGMSAEQLRSVNGIPARMLVKAGSTLLVQRQGKLDND
+VTEHLADNAQLQLAPEVVLRKIMIKARAGDTLSRLASRHGVSAANVADWNRLKPNAALTN
+GQTLAIYVPAKASRAAGKTSPKRAAVQKGKAPAKAAARGAKPAAKR
+>tr|A0A0P0LI68|A0A0P0LI68_9BURK
+MSFLSFLLGEKKQTASVAKERLQIILAHERSGRNAAEPDYLPDLQRELVAVISKYIKINV
+QDIKVNLERQDNLEVLEVKIELPDSR
+>tr|A0A0P0M8C5|A0A0P0M8C5_9BURK
+MKITQLETIRLGEFPNIIWVRLHTDEGLVGLGETFMGARAVEAYLHEWVAPKLIGEDPLA
+IESRQREITGYLGWRGSGVETRGNSAVDIALWDIFGKAAGMPVYTALGGKSRDEIRVYNT
+CAGYQYIRSNVNQTSSNWGLGNNAGPYEDLQGFLHRADEVAESLLSEGITGMKIWPFDVA
+AEKSHGQYISPQDLNTALEPFRKIRQAVGDKMDIMVEFHSLWRLPMAQKISRALQEFDTF
+WHEDAIRMDSLDLLKQYAGDCKALICASETLSYKWGFKDYLQTGVAGVAMLDLSWCGGLT
+EARKIAAMADAWQLPVAPHDCTGPVVWAASTHLSLHAPNALIQESVRAFYSGWYKELVTE
+LPQVKNGMISLNDKPGLGLELLPDLHKRPDAVVRLS
+>tr|A0A0P0MBS1|A0A0P0MBS1_9BURK
+MATTEANRPMTAEEKKVIFASSLGTVFEWYDFYLYGSLAAIIAKQFFSGLDEGSAFIFAL
+LAFAAGFIVRPFGAIFFGRLGDMIGRKYTFLVTILIMGVSTFIVGVLPNYASIGVAAPVI
+LICLRLLQGLALGGEYGGAATYVAEHAPAGQRGAYTAWIQTTATLGLFLSLMVILGTRTI
+IGEEAFADWGWRVPFLVSVIMLIISVYIRLSMNESPAFVKMKAEGKTSKAPLSESFGQWK
+NLKIVLLALFGLVMGQAVVWYSGQFYALFFLTQALKVDGATANIMVAISLIIGTPFFVIF
+GTLSDKIGRKPLILAGCLLAVVTYFPVFKALTKAANPDLYAAQQSAQVTVTADPAECSFQ
+FNPTGTKKFTSSCDIAKQRLAGASVSYENVAAPAGTPAVIKVGETVVNVKYSAEDIAAAK
+AKAEEKLAALNAAEPKDAKAIEAATKSVKDLSNEKTAGATLLGSNLSAALKAAGYPAKAD
+MAKFDKVTVIIILTYLVLLVTMVYGPIAAMLVEMFPTRIRYTSMSLPYHIGNGWFGGLMP
+TTAFAIVAQTGNMYNGLWYPIIIAGVTVVIGGLFVKETKDNDIYADD
+>tr|A0A0P0MBD2|A0A0P0MBD2_9BURK
+MDTVKKVFITGGTSGIGAAIARAFAATGASVTATGATPAEVEAAQGLSANRLIAFHVLDV
+RQNEHVQTVLGEFGEFDVLVNCAGIIQRNVEHDPEAFAQTVDINLNGTMRVCAAARAGLK
+ARQGCIVNTASMLSFFGGGLTPGYSASKGGVAQLTKSLAIAYATDGIRVNAVAPGWIATP
+LTQALQDDPTRSTQIVGRTPMGRWGQPEDVADPVLFLASDAARFVTGVVLPVDGGYLIQ
+>tr|A0A0P0LGC1|A0A0P0LGC1_9BURK
+MSEKTPDTAPTTAPTAAPNMAPSTTKPSLLLVDGSSYLYRAFHAMPDLRAVPGDPASPAT
+GAIRGMINMMERLRKDVPAMYAACVFDAKGPTFRDELYPEYKANRSPMPDDLRSQIEPIH
+ELVRLMGWTVLDVPGVEADDVIATLAHVAAQQGITVTVSSGDKDLSQLVNEHITIIDTMN
+GKVRDVAGVTAEFGVPPSLMIDYQTLVGDTVDNVPGVAKVGPKTAAKWLMEYGSLDKLME
+NAHDIKGVAGENLRQAVDWLPKGRALVTMKTDCDLNGWVPGLPSLASLHLHAPDKDKLLN
+FYQTYGFKGLVQSLGGAVPAPAAKAKAAKPKDTGMGDLFGAGEAEAAAALPELDRAASAV
+QGELKYDTVLDWAAFDTWLARIEQAPLTAIDTETTSLDAMRAEIVGISLSVTPGEAAYIP
+LAHNGPGAPEQLPLADVLAKLKPWLENPARHKLGQNIKYDRHVFANHGIEVQGYAHDTML
+ESYVLEVHKPHGLSSLAERHVGRRGVTYEDLCGKGAHQIPFAQVDVDKAAHYSCEDSDQC
+LDVHLALWPQIEAHAGLKYVYELEIATSEALYRIERNGVLIDAPTLAAQSQALGERIVQL
+ETEAYEIAGQPFNLSSPKQLGEIFFDKLGLPVIKKTATGARSTDEEVLEKLAEDYPLPAR
+ILEHRSLAKLKGTYTDKLAQLALPRTGRVHTHYAQAVAVTGRLSSNEPNLQNIPVRTAEG
+RKVREAFVAPVGCVIASADYSQIELRIMAHLSDDAALLKAFHEGLDVHKATAAEVFGATP
+YTVSSEQRRYAKTINFGLIYGMSAFGLAKALSIDNTAAKNYITRYFERFAGVKHYMDATR
+EQAKALGYVETVFGRRLMLPEINSPNGPRRAGAERAAINAPMQGTAADLIKLSMVAVQKA
+LDEQSKATKVIMQVHDELVFEVPESEVEWVRTEVPRIMAGVADLKVPLLAEVGFGPNWEQ
+AH
+>tr|A0A0P0MBC9|A0A0P0MBC9_9BURK
+MHTSPDQYQDIRDAVRALCAQFPDEYHRKVDEKRGYPEEFVDALTKAGWMAALIPQQYGG
+SGLSMAEASVIMEEINRSGGNSGACHGQMYVMNAIVRSGSDAQKNFLLPKIATGELRIQS
+MGVTEPTTGSDTTKLKTTAVKKDGRWVINGQKVWISRIQHSDLMILLARTTPADQVTKRS
+EGLSCFLIDLKQAIGNGLTVRPILNMVNHETNELFFDNLEIPEDALLGEEGKGFKTLLDG
+LNAERVLIAAECIGDGYWFIDRATQYAKDRVVFGRPIGQNQGVQFPIADAFIELEAANLM
+RWKACEKIDAMQNAGAEANMAKYLAAKASWEAANVCLQTHGGFGFACEYDIERKFRETRL
+YQVAPVSTNMIFSYVAEHILGLPRSF
+>tr|A0A0P0MAY9|A0A0P0MAY9_9BURK
+MNTHICTLSALAGAALLSACQTVPLKTATPPTSPEVVGEFRKGTGYLNGYIDRKELPDSL
+ALVPPPPAPGSARHAADLQLHQQTRALRNTPRWEYAFKDVNLKFPEAAGVFSCALDMPIS
+QEATPHLNMLLRRSLIDAGFATYKAKDHYQRKRPFAELGETTCSPKEEAHLSKDGSYPSG
+HAALGWGWGLILAGLAPDKANALLQRGHAFGDSRMVCGVHWQSDLEAGRVVGAAAVARLQ
+ADPVFQAQAQLAKAEIDAARARGLKSDRKDCAAEADALKR
+>tr|A0A0P0LTX7|A0A0P0LTX7_9BURK
+MSRSANTAVNAVVTAVYSGTFDPLTLGHEDAIRRAAKMFDQVVIAVARAHHKNTLFSLDE
+RVALVQAALADCPNVKALPFDGLIVEFVRAQNAQVIVRGLRSVTDYDYETQMSGMNRHLA
+PEVDTVFLHTSAPVQHISSTLVREIAKLGGDVSGLVSAPVLNALQGKVATKH
+>tr|A0A0P0MAB0|A0A0P0MAB0_9BURK
+MRLSTKSRFAVTAMIDVALREDRGPVSLAAISTRHQISLSYLEQLFSKLRQQGLVESTRG
+PGGGYSLSRNAEKITMADIVGAVDAPTDEEAAAEGGWMNSELWSSLNEKMLTHLQSITLR
+QLVAEQRTKGVTVEPAPQPAVKRGVFAKPKSPIKITAPNSVFALAGSLMPSRG
+>tr|A0A0P0M748|A0A0P0M748_9BURK
+MAAAQSSPMPQQDTPPDTSQRPPSKPPGLGASAWLVRLALWAMGLLGAGLFCLLMVVGVA
+MVTAYPNLPDISDLADYKPKLPLRVFTADGQLMGEFGEERRNLTPIKEIPQIMKDAVLSI
+EDNRFYDHGGVDYLGILRAGIANIGRLKSQGASTITMQVARNVYLSSEKTYTRKIYEILL
+TYKLEHLLTKDQILEIYMNQIFLGNRAYGFASAAETYFGKSLKNISIAEAAMLAGLPKAP
+SAFNPIANPKRARSRQLYIIERMEENGYITARQAAQAKAEPLALKTAGNKKNLHAEFVAE
+TVRQMVFAQYGQDTYTRGLNVYTTIQSQDQMAAYQALRQGLLDYERRQVYRGPEKFITLP
+NDPKLVEDLIDETLEDHPDNGDLMSAVVLEASPKKVVVVRQNSEQITITGEGLNPVQSGL
+SDKAPAAKRIRKGAVVRIVQLPKGQWELTQSPEVEGAFVALTPQTGAIRALVGGFDFAKN
+KFNHVTQAWRQPGSSFKPFIYSAALEKGLSPATMVNDSPLFFDGGVTGGQPWEPKNYDGK
+FDGPMSLRTGLAKSKNMVSIRVLQSVGTRPAQEWVTRFGFDADKHPPYLTMALGAGSVTV
+MQMATAYSVFANGGYLVSPHLINRITDYKDRLLVDSPPPEINEASQRAIPQRNAFVMTSL
+MQEVTRSGTAARAQATLKRPDIYGKTGTTNDAMDAWFAGYHPRLAAVVWIGYDTPRKLGD
+RETGGGLSLPVWIRYMETALRNLPITEPTPAEGLLQMGGDWVYSEFSGGNGISSLGNKDN
+SSQADAIPPEEERKRILDLFRN
+>tr|A0A0P0MA48|A0A0P0MA48_9BURK
+MKSYQRWIWQLPEWPALAFDAQRIQAALAAARTSQGILLGKAEAIGLEALQPHIRDSLTQ
+EALTTSAIEGEKLDPESVRSSVARRLGLDTSGAPVREGRRNIEGLIDVLQDATLNTDAPL
+TLERLCSWHGALFPTGFSGMQRIDVGALRSVPMEIVSGAVGHSKVHYPAPPAEGLAVQMD
+AFLNWFKQTQPKVGPQPMDGLVRAAVAHLWFETLHPFDDGNGRLGRAILQLALGQDMGQP
+GRIVTLSRQIESCKDQYYLELERAQRAKSMDVTAWVEWMLAQVTLANKFANSTIDSSIQR
+IRFQAQMSSVSLNERQQKTMKKLLDAGPKGYEGGMTTRKHERIAQTTTPTAARDLIDLER
+LGLLTRYGDGRSTRYYPAIEGWAEDDAKLGKASGT
+>tr|A0A0P0M8U7|A0A0P0M8U7_9BURK
+MSTSAASASGPNHNANDPVWQVKVHLAAALRLAVLHDFDEGIDNHFTVAVPGREDQYLIS
+PFGVHWSEARASTMMVFNEAGETLEGEGLVELSAQSIHAPVHRLTGAKVVLHTHQPWALA
+LNMLKANRLLPATQTAAFFDGAIAYDDHYTGLAADLSEGERLSQLMSGGKTVLFMKNHGV
+MTVGDTVAQAYRRLYKLEKACRTQVLAMGTGQALNVLTESVIQRIKTPSPQDRHPRSERE
+RLFFEAMMRVVDRVNPGYAD
+>tr|A0A0P0LFX6|A0A0P0LFX6_9BURK
+MTSGVSLCVTRAPKPSDPLQHSDPALNTSLRILMSRQSIDRLGPAVSVAMGQRSFELIAL
+EDAVAAQRTDGDVAFISREVTGTSTKHEIHPALQQVYTLLRQSPGLQWVHIHSAGADRQI
+YQDLMAKGVRLSTSSGANAQVVATVALAGLLAMARKFPLLWAEQQARQWIPMMGQRMPRD
+LPGQTATIVGWGPIGQKLGSLLMALGLKVVAVRQNVDPSTPWQGGVEQVSFEGLATVLPR
+TDWLILACPLTAKTRQLVNAHVLAALPPGAHLINVARGEVVDQDALVSALQSGHLGGAFL
+DVFAHEPLPTDSPLWAMPQVMVTPHAAGHSDGNEARVSQMFLDNLKCWTLGQALRNVVA
+>tr|A0A0P0M9L3|A0A0P0M9L3_9BURK
+MSDDFLETIWAQYAVETEEHIESIESLLVKADSESLNAEEVSGLFRAFHSLKGLSRVMEL
+GALEAIAHRSEDLLGMVREGTAALDKNTVDLLLRSLDAIKVLCEKAVAERADGEKPMALL
+QELERAFKMVSQGQALTVAPASEVAPAPSPAPTQTPEAAAPAESAAVASSPAPQASAAPA
+AAPATPHAVRTEPTKAADGTTDNRQVVFLRLISNGLPILERLANSIATKEDAPQILAVAN
+DIRKPLSWMLKGSNSLGYAGLDTRIEEIMEALPVSEEITQADGERMVDVIVAFLDDLKTL
+GETTGVDLGGESLAKVLARTLKDNMLLHLGQVEELLQKLENPGDTPDEEIANLLSQRFSR
+IHGYLSSLYPQSRTDVPLLLVDAFARAGRNQMGIYGEVITLCRDALQFIRDLLGTSGRTP
+LKQAPLKAADERLHQSIRDYLWAHDDAGDTPVDTVRQFVASMNIPSELSELLSSDNTREL
+MELIQDGHLAYLIKAHLESSETVATAFLEWIHDKGRVITNRTLIENNLSWYEMLFISKSP
+RSAIEQDIKTIDQGSGHVLLLGELGKDHNKPQAAKAAAPAAVAPAAPKASAPTAPAPAAA
+PAPAASPAPAQAAAPAAAPAAAPVAPAPAASPASAPPAPAAEVAVAKPAAPAKAATPSAA
+NATSNIIRVPGEMLDQFMNQIGEMVLVRGQLAHIIGDQRVRESLHRLRHEGQANDAQTQL
+GDLQKLAENLDDQLRRLQETEALIQGALSRLQDSVMGLRVVPVELVFKRFPRMVRDLALA
+QGKQIRLELIGQEVKIDKAMVESLADPLLHMVRNSADHGVEKPEERRQAGKPEEAVIRIQ
+AEQQGSRIIIRVIDDGKGIDPERVRRKAVERGLAKEEDSLQMSKEDILGFIFRPAFSTAD
+VVTETSGRGVGMDVVRTSVMRLGGTIHLDSEVGRGTTFTMQMPLSAAVQEVLLVNTANQT
+MAIPGRYVAELVEVSADEYQTVKGRTAILLRGSFLPIVRLEEVLGYPPAETQSHRYVVVL
+SDGQRTLGVSVQEFVGRQELFTKDIHPRLAALPGVGGASILGDGRVVLILDAAALYRLAE
+NLQTPHHLPVAA
+>tr|A0A0P0MAM9|A0A0P0MAM9_9BURK
+MSSAAHGSTPYYFVPHESRHPVMSAIGLFFVILGAGQWINGVEWGMYCLFFGLAWWLIVL
+YQWFSEAIHESETGMYGRKIDLSYRWSMTWFIFSEVMFFGAFFTALWWARSHSIPALGSL
+ENALLWPDFKAAWPSMVAGATTSPAGIVEPFQTMGPFWLPTINTALLLTSGVTLTIAHHA
+IQVGDRSKTIKFMWMTVILGLVFLFVQGYEYAHAWGDLNLKLSSGIYGSTFYMLTGFHGF
+HVFVGMLMLLFITLRLQKGHFTKDRHFGFEGAAWYWHFVDVVWLGLYILVYWM
+>tr|A0A0P0M770|A0A0P0M770_9BURK
+MKIQHALTAATLVAMSGLAQAQVDPLHVRSWAASCAACHGTDGRAQPGMESLAGANKDDM
+VKKMLDFKAGRKPATIMHQLAKGYSDDQIVAIAGYFAAQKK
+>tr|A0A0N7J8G2|A0A0N7J8G2_9BURK
+MKTILQSQVAECGLACIAMVASAHGQTLGLADLRQRFPQSLKGNNLKQLISYSSVLGFSA
+RPLRLDLEELGQLTLPCILHWDLNHFVVLHKVGRKHVVVLDPAVGERRLSLSEVSRHFTG
+VALELTPQANFTPQVQAPRLKLSQLTGRVQGLGGAVFQIIAVAVVLELFAIVAPLFNQMV
+VDDVLTSGDQELLSVLVWGFALVLVIQTALSLARSWLVMVLGQTISLQWLGNVFAHLVRL
+PVSWFEQRHLGDISSRFGAVHDIQRTLTNVMIEALLDGVMTLAALVMMFLYSPTLSAVVV
+AAAVLYGLVRWASFVPFRNAAAERLVLAGQEHSHFIETLRAMTPLKLFGREQERRARWQS
+LIVEVMNRDIRTAKMNIGFTVVNTFIFGMENLLVFWLGAKAILASQGPGSGTAVFTVGML
+MAFISYKGQFTGRISALINHGIELKMLGLHSERLADIALTPPEQDSPQGDLPEHDLAHLP
+PSLELRNVSFRYGDGAPWILKDANLKIDAGENVAITGPSGCGKTTLLKVMLGLLQPVEGE
+VLYGGVPVRQLGVANVRRKVGTVMQEDVLLTGSIADNIAFFDMAPDQQRIEACGQLAQLH
+NDIVRMPMGYQTLVGELGSGLSGGQKQRLLLARALYKQPTVLALDEATSHLDIGSEQAVN
+AVLAQMPLTRIVIAHRPETIAHAQRRVEMTAEGLS
+>tr|A0A0N7J8S1|A0A0N7J8S1_9BURK
+MNNDISAINTAKAAVPTAAQVPAPAPAAAAAATAAALPANAAAAEEKQPAPEPKFVPLVS
+KEEQRENLRSAIQRLNDMMKESSRALNFSMDETTDRVVITVKNANTGEVVRQIPDATFLR
+VSHNLENLKGVLLNQST
+>tr|A0A0P0M8L3|A0A0P0M8L3_9BURK
+MATKPPHHVVLEKDFAGVKSGSKLHISSPQEIADELRKIRPGETVSLQQFRQKIAQAQAC
+DATCPVSTSIFLRIVAEYAWEEHNERNVPLADLPPFWRVVEPGTPLSKKLSFDQTWIALQ
+RELEKDFSVAKAGRA
+>tr|A0A0P0LC74|A0A0P0LC74_9BURK
+MPRKNSLSTSATSPIVSSAHLVSPDSAEMSEFEFGLIVAGNAFHRWIIHCMAAAGLKDLT
+PLDVLVLHHVTHRARDKRLADICFIMNIEDTHLVNYALKKLQGLGVVVSQKNGKDVTYAA
+TDEGRAYVQRYREIRESCLIDALKADDGLNRDIGELARLLRVLSGMYDQAARAAASL
+>tr|A0A0P0LRC7|A0A0P0LRC7_9BURK
+MKADLIATRQAIRAGSTTAQAAAQASLAVAQSQACQHVFMQLTPEALQRTAGQPQIGQTP
+LAGLAVSIKDLFDVQGQITQAGSVVLQNQPPARADCLAVARLRATGAGLIGRTNMVEFAF
+SGVGTNPHYGTPAAWDGLYDQVVGAPGHAYAPGGSSSGAAVSVATGAAFIGLGSDTGGSI
+RVPAALNGIVGFKNTARLVPTQGALPLSTTLDTVCAMTRTVRDAVLAHEVLSARRVPQGH
+RPLSDYRLAVVKSLMQDNMDATVTRAFESSLNTLRAAGAHIDEIALSELNELAPMMATGG
+FSPAEGFAWHRELLARDSARYDPRVLQRLMRGSGMKAHEYMDLVQARQQWIHRVEKALTG
+YDAVLSPTTPITGPNISTVAPGEERDQEFFRVNGLLLRNTSAVNTLDGCGISLPCHAPGE
+LPVGLMAWHAAMHDDTILQLALLLEPLLQQH
+>tr|A0A0P0M6N8|A0A0P0M6N8_9BURK
+MADELQGRHALITGAGAGIGAAIALQLAQAGCRLALCGRSQDKLQAQAEALRAQVPDVAI
+LIAPMDVADEHAVQAAVQQAQARFGPVNILVNNAGQAHSAPFAKTDAALWQQMLNVNLTG
+TYHCIQAVLPGMLEAAKAGTPGRIVNIASTAGLKGYAYVSAYVAAKHGVVGLTKALALEL
+ARKGVTVNAICPGYTETDIVREAVQNIVSKTGKSEAEARQALAASNPQQRLVQPHEVAQS
+VLWLCAAGSDAINGQSIAIDGGELVS
+>tr|A0A0P0MBF4|A0A0P0MBF4_9BURK
+MALATIHSRALVGLAAPAVMVEVHLANGLPSFTLVGLADVEVKEARERVRSALQNSGLDF
+PHNQRITVNLAPADLPKDSGRLDLPIALGILAASGQIDASKLAGYEFAGELSLSGELRPV
+RGALAMSLVLRQQRVRTRLVLPPGSAEEAALVPDAEVFRAQHLLDVVQQFLPPSSEPPPA
+PTDGWARMAAHTPSAPPRYADLADVKGQAGIKRVLEIAAAGGHSLLMVGPPGSGKSMLAQ
+RFAGLLPPMSIEDALESAAIASLAGRFELSRWAQRPTGQPHHSASAVALVGGGSPPRPGE
+ISLAHHGVLFLDELPEFPRAALEALREPLETGSITIARAARRAEFPARFQLIAAMNPCPC
+GYLGSSTRACRCSPDQVSRYQGKLSGPLLDRIDLHIEVPSLGAQDLLNAPPGESTEAIAA
+RSGAARERALARQGCANAALQGQAIDTHSRLDDSATALLQKAAAKLGWSGRSVHRSLKVA
+RTIADLAGSDTIASVHVAEALQYRRVLQGQ
+>tr|A0A0P0LML6|A0A0P0LML6_9BURK
+MNDKPSAQKRPEQKVQGAALPAARRKPSTGQPQARDHGMATSVPLSRQLQATAAVVQAVR
+AGRSLTTELASVPLELRPGVQALTFQVMRQLGRAMALRERLASKAPPPAADALLCTALAL
+SWQGEGAPYPVHTLVNQAVEAARQQRQTSAQSGFINACLRRFLREREDLVAATDSDPQAR
+WNHPRWWVARVQDEYPEDWQKLLDMAQQAAPMSLRVDTRHHSVAAYQEQLQALGLGAKAV
+GASGLQLERAVPVQQLPGFELGHVSVQDAAAQVAAPLLLQGLDVDQPWRILDACAAPGGK
+TGHLLACYPQAQVLALDVDATRCQRIEDNLKRLGAQAQARAQVRAADAAQPAQWWDGVAF
+DAILLDAPCTASGIVRRHPDVRWLRRPGDSAQLAQTQAQLLKALWPLLAPGGRLLYCTCS
+VFHSEGEDTVQAFLQRNTHARMLPSPGHLIPGKIPMGLPLKHNALGEHDGFYYALLEKIR
+D
+>tr|A0A0N7J870|A0A0N7J870_9BURK
+MEYLTPTENLSALLKHLDGAYAPNSLRAYRADMLEFIAYCEATGNQALPAMPSTIASFLL
+QCTSLNIKTAIIRRKISSISAIHRLSYLEDPTKHPEVKITMRKVSRQLGTRFDQAFPVTK
+TILDKLLAVCGQDLHGLRNRALLLLAYDSMCRRSEVVSLRVEEMEWLSDEGVSILLRKRK
+TDQQGCGKWVHLSTEATKAVVNWLETAQIKDGFILRGIRSNGKITPSLCDSRLSRIYKSL
+AKRA
+>tr|A0A0N7J8J1|A0A0N7J8J1_9BURK
+MSSVLRFGAVSVHLGEKSGKYPDGNQLIVQGADTRVAFDTPEVANRIGPELETVDLVILG
+HVHEDHMAGLHRLMHAPVQVHEADLAAAQSWDGMCQHYGYPQDVLDAMLAIVQKDFHYQP
+RPDATGYSDGAVWDLGGGVRVRAHHLPGHTAGHCALVVESEGLAFIGDIDLSGFGPYYGD
+ATSSLSDFRQTLKTVAELDARIWATSHHKAVITDRAQFVADLARFASKIDERSAQLLGYL
+QSPHNLDELVDRRLLYPQGYDVPFVPCAERNTIAMHLDELLARGQIQTLEDGRFVVV
+>tr|A0A0P0M6W0|A0A0P0M6W0_9BURK
+MTIFTMDDIDQHLISLLRQNARMNIADLAHKLGVSRGTVNNRLRKLEDQQVIVGYTIKLR
+PEAEPERIKAWMGVLIEGNTTRQVIASLLGEPGVVSLHDTNGRWDLLAEIEASSMKELSE
+VLERIRLVSGIRSTETNIHLATYR
+>tr|A0A0P0LDF6|A0A0P0LDF6_9BURK
+MATTKKTPAAPVFAKIAENKKASFDYFFEERYEAGMVLEGWEVKAIREGKVQLTDGYVVI
+RNGELFIIGCLINPLKTASTHINPEAARTRKLLLNKEEIKRLIGKIEQKGYTLVPINLHW
+KSGKVKCDIALAKGKAEHDKRDTIKDREGKREVERAMKSRHRDR
+>tr|A0A0P0M9P6|A0A0P0M9P6_9BURK
+MTTPHFPIYLDYGATNPCDPRVVDAIVPWLREHFGNPASRSHAWGWEAEAAVETAREQVA
+GLIGADPREIVWTSGATESNNLAIKGAANFYKSRGKHLITVKTEHKAVLDTMRELERQGF
+EVTYLDVQADGLLNMDALKAAIRPDTILISVMFVNNEIGVIQDVTAIGNLCREKSIVFHV
+DAAQATGKVEIDMTQLPIDLMSLASHKTYGPKGIGALYVRRKPRIRLEAQMHGGGHERGM
+RSGTLPTHQCVGMGEAFRIAKLEMAQDNAKARALHDRLINGLSDMEQVFLNGHATQRVPH
+NINMSFNFVEGESLIMGIKGLAVSSGSACTSASLEPSYVLRALGRSDELAHSSLRMTIGR
+WTTEEDIDYAIKTIRENVAKLRDLSPLWEMHKDGIDLSTIQWAAH
+>tr|A0A0P0MAF7|A0A0P0MAF7_9BURK
+MKTPIKTKPPGPSAVASKTTTTAAKAKVVTAQAAAKPAAKPASKAVAKPAPKVAAKPATK
+ATAKPAAKAAAKPAAKPSAKAPVKPVAKVAAKAVAKPVAKPAAKPAAKPAAKPVAKPAAK
+AKPTPKPAVPAKAVKDKSAAASAAASKAAAPSSPPRSSAAPKAATAAPPAQIPKTKNMSL
+TKVESVQVPVESNPVSPAPAAEQLVRATRPSARLAQITVPSLPPAVASTAAKSSFLPSAA
+PAPVAVPFAPIKKDPKLANNWKSKKVEELSDAEIIAMSDDEYMNDKQMAYFRLKLTLLKQ
+DILASAGQTTEHLREDTVVVPDPADRATIEEEHALELRTRDRERKLLKKIEQSIQRIDAG
+DYGFCDETGEAIGVGRLLARPTATLSLEAQQRRELKQKMFGD
+>tr|A0A0P0LCV3|A0A0P0LCV3_9BURK
+MALTLFAFDTPNARKITVALAEMGLTYSVKVVDITQKEQFDLAFLKISPNNKIPALLDTE
+GPDGQTQTVFESGAILIYLAEKTGKFLPGRGAARVATLEWLMFQVGGFGPAPGQVHHYVA
+LSNEADKRYGLERFMAETLRLYGVMDRRLAEHAYFAGDLSIADFAILGWVWRHPRHQVDL
+QQFPHVSRWYQAMMSRPAVQKGFAVSLRRD
+>tr|A0A0P0M872|A0A0P0M872_9BURK
+MPRQPAPPRPLKTSGPEVTASGASVPQAPLEPQPAKARRARAPRAKPNALAVDTVDTSYL
+QTLMGYNARRAALSIIELFLERLAPYGLKPVDFSVMSTIGHNPGVTSRQLCATLNLLPPN
+LVGLIQSLESRGLIERKPHPHDGRAVGLHATPKGQALMAQAERTATELEIEKTAKLTPAQ
+RKTLLALLQKIYL
+>tr|A0A0P0LHX3|A0A0P0LHX3_9BURK
+MRSPVPALTHPHHTRKNSSDKRKTQAIHRGQSSLQKAVQPYVSPHLPILREVFGYDAFRG
+PQQAIIDHVAAGGDALVLMPTGGGKSLCYQIPAIARQRAGHGITVVVSPLIALMHDQVGA
+LHEAGVSAAFLNSSLTSEEASDIERRLLRGEITLLYAAPERVTNARFLAQMDSLLERGLL
+SLFAIDEAHCVSQWGHDFRPEYRGLSVLHERYPSVPRVALTATADALTRADIVERLQLEN
+AELFISSFDRPNIRYTIVEKKDASTQLLRFIEREHPEEAGVVYCQSRKRVEEIAAMLCEA
+GIRALPYHAGLDTAVRQRHQNEFLREDGVVMVATVAFGMGIDKPDVRFVAHLDMPKNIEG
+YYQETGRAGRDGLASDAWMAYGLQDVVNQRRMIDESPAGEEFKQVMRGKLDALLALAEAT
+DCRRVRLLSYFGESYSSQKDSAQGVYMPFCGNCDNCLNPPEVWDGTDAARKLLSTVYRTQ
+QSSGHSFGASHTMDIVRGKKTEKVAQRGHESISTFGLGAEYSEQQLRAVMRQLIAIGALH
+VHTEDGFSTLHLTEASRAVLKGDVPVQLRESTSQRSDKKSRTRSGPAPAAANLGPDAMVR
+FINLKAWRAEVAKEHNLPAYVIFHDATLAAIAEAAPQSLAQLQGISGLGVKKLEAYGPQV
+LRVCNGAA
+>tr|A0A0P0M808|A0A0P0M808_9BURK
+MPFLTSLVLASFVGYAGAWYLGLIEGNFALLLLLATVVTGIYWLAERFVFMPQRLKAVAQ
+LEAETAQRRAELAKMGIDKVDTDIRESREKLLMQPWWLDWTAGLFPVIVVVFVLRSFLFE
+PFKIPSGSMIPTLLIGDLILVNKFHYGIRLPVANTKLTEGTPVQRGDVMVFRYPPKPSVD
+YIKRVVGLPGDEVAYLNKSLTINGKAVPTEVLPDFFDESTMRYHKHRRESLGAKPHQTLQ
+DDDRPAFVPGADQFVGRENCNYTVEGVTCKVPAGHYFMMGDNRDNSLDSRYFGFVPDGNI
+VGKAFFVWMNFGDLKRIGAFD
+>tr|A0A0N7J899|A0A0N7J899_9BURK
+MNAPCVLVLGGSGFVGRQVCEQLARLGWHITVPTRRAVNAARVQSLPGLTVIEANVHQEA
+DLARLIPGHDAVVNLVAVLHGSEERFESVHVNLPGKIASAMKKAGVQRLVHISALGADPQ
+GPSMYQRSKARGETVLHNAGLQLTVLRPSVIFGAEDKFLNLFADLQAVAPFMPLAGSGTR
+FAPVWVGDVARAVVVCLQKLDTVGQTYELCGPDVMTLGELVHRAGQWAGVNEGRGRPVIG
+LPMWVGWLQAAAMELAPGEPLMSRDNLASMKVDNIATGQLPRLPALGISASSAAGVAPGY
+LGHRGPRSKLNRWRAGAGR
+>tr|A0A0P0LK43|A0A0P0LK43_9BURK
+MLQNGILQIDSMQARCTPAEWQARVDLAACYRLVDIYGMSDMMANHISSRVPGEDGAFLI
+NAYGMMYEEITASSLIKIDHDGNILSKPDFGDLNYGINKAGYVIHSAVHAARPEVDCVIH
+THSWASMAVSSLECGLLPLTQTSMRFLKIGYHDYQGVVLDLAEQASLVEDLGQGEALILR
+NHGALTVGRSVGEAFNWMHRLELSCRAQLAAMACQTPFVKVAPDVLEETWNNYQPSTRRP
+YGLMEWPALLRKLDRIDPSYKT
+>tr|A0A0P0M6P1|A0A0P0M6P1_9BURK
+MTVSTAAPSVAPHDQAQILAQAMPYIRKFHGKTLVIKYGGNAMTDPALQQAFAEDVVLLK
+LVGMNPVVVHGGGPQIETALKRLGKTGEFIQGMRVTDAETMEVVEWVLGGEVQQDIVGMI
+NRAGGKAVGLTGRDGGLIRAKKLRLVDSQDPSKEHDVGQVGEIESIDPAILKCLQDDAFI
+PVVSPIGFGEHNESYNINADVVAAKLATVLQAEKLLMLTNIRGVLDKEGNLLTELTPSRI
+DELCADGTISGGMIPKIAGALDAAKSGVNAVHIIDGRVPHAMLLEVLSEQAFGTMIRSR
+>tr|A0A0N7J8F4|A0A0N7J8F4_9BURK
+MSDIEARVKKIIAEQLGVEESQVTNEKAFVADLGADSLDTVELVMALEDEFGIEIPDEDA
+EKITTVQAAIDYAQSKKA
+>tr|A0A0N7J8Y8|A0A0N7J8Y8_9BURK
+MTAATPPVPSGMPWMALLSLLMAVFLGSLDQSVANTALPAIGEALQSTPAESVWVVHAYQ
+LAVVAVLLPLAALGDRWGPRQVFLLGIVLFNLAALASASATQLEWLAFFRAIQGVGAAGV
+MSVNLALIQNIYPPEKLGRGAGMNALIVGLGYSLGPTVASLLLAVLPWPWLFGLQVPLGM
+VGLLLAWRYLPRTATAKSDAPYDRVLALLAAVCFASLVFTLSAVAQQKGWLVVLTALGLM
+LGSGGWLLLRQRGQAAPVLPVDLMRRPLFSLSVFTSFSAFTTQGLAFVALPFFFQQQLNR
+PFVETGVLMSVWALVVALMAPVAGTLSDRYPAAILGGVGLGILSLGMAGLGMSGVDVSFA
+VMALSMALCGVGFGLFQSPNLRAIMASAPAHRTSGASGMVALARLIGQASGAALVALCFN
+LFGPQGAGHAVMLGALTAGLGAALSMARLRAR
+>tr|A0A0N7J8I3|A0A0N7J8I3_9BURK
+MARRCLRDDGLFLLHTIGKNRAGAGIDPWIEKYIFPNGTLPSASEMAFYSEDQFVMEDWH
+NLGEDYDKTLMAWHARFEAAWPALKDRYGEHFYRMWRYYLLCCAGTFRARDNQLWQVVLS
+PSGQAGGYRRPLL
+>tr|A0A0P0LEK2|A0A0P0LEK2_9BURK
+MSAGLNNAQLEAVNYVSGPCLVLAGAGSGKTRVITHKIGRLIEAGLEPKRIAAITFTNKA
+AAEMRERAKDLIGKAAKDVTVCTFHALGVRIMREDGQVLGLKPQFSIMDADDVTSILKDC
+GGTTDAATARQWQWTISLWKNMGLNAEQAAAQAPDDNARVIARIMALYQERLTAYQSVDF
+DDLIGMPLKLLADYPEVRERWQANMGHVLVDEYQDTNATQYEVLKHLVGERARFTAVGDD
+DQSIYGWRGATLDNLKRLPVDFPNLKVIKLEQNYRSTSAILRAANNVIQPNPKLFPKTLF
+SELGEGEPVRVVDAVNEEHEADRAIARIQSIRGGQLNPSKHREFKDFAILYRANHMARPF
+EQALRRANIPYKVSGGQSFFDKAEIKDLCAWFRLWINNDDDPAFLRAITSPKRGIGHQTL
+GQLGTFATQYKLSLFEALFAGSLPSAVNARAVTGLHEFGRYINDLEYRARQTLGKEAALA
+FLLEWLQEIGYESHLYDGEDNEKVASARWTNVLEFCDWMAGRCGGEIEDATGAETTETKN
+LLEVAQTISLISTLSEREKDQNVVTLSTLHASKGLEWPHVTLVGVNEGLLPFKLGDDNTT
+EGASQEGIMLRLQEERRLMYVGITRAQRSLAVSWTKRRKKGRETVAALPSRFIAEMRLDE
+NTTKEDPREKLKALRAEFAQRAAASTAAAAQAKT
+>tr|A0A0P0LPJ5|A0A0P0LPJ5_9BURK
+MSIDFKGRVAIVTGAGGGLGKQHALALAARGAKVLVNDLGGDVHGVGGSVSAAQAVVNEI
+RAAGGEALANGASVTDFEAVKAMVQQAVDAWGRVDILVNNAGILRDKSFAKMELADFKLV
+MDVHVMGAVHCTKAVWPIMQAQNYGRVVMTTSSSGLYGNFGQANYGAAKMALAGLMQTLS
+IEGEKNHIRVNCLAPTAATRMTEGLMPEAVLQALDPSAVVPAMLVMASEDAPNRTIICAG
+AGSFEVAHITLTQGVHLGTGPDTAERLLAAMSQVTDRHGETVPRSGSEQGALEVGKAMKA
+HQG
+>tr|A0A0N7J8D4|A0A0N7J8D4_9BURK
+MKLRVPMPRWFTAYGTRFMPFADAASPELPMARLLRLSLFQVVIGMVTALLVGTLNRVMI
+VELQVPAWWVALAVAIPMVFAPLRTLIGYRSDTHPSALGLRRIPYLWTGTLLLFGGLSIM
+PFALLLLSEPEAANLWVGQVGACLAFVLVGAGIQVTQTAGMALAHDLATDEKRPRVVALL
+YSMLLVGMIASSAVFGLVLIDFSPQKLIQLVQGCAVMVAVMNLASLWKQEARGAKRGRRE
+AGGFASSWQGLMAQPQMRRFLWTLALGTFAFNMQDIVLEPYAAEILKLDVGATSALTALS
+AGGALLAFLLSARWLSGGLHACRLASLGVLLGLPAFAMVIFSGPLEAAWMFRIGVGLIGF
+SGGLFSVGMLVTAMGMAADGSPLGHLGGLVIGTWGAVQATSAGAAMALGGALRDGVSVLA
+MSGALGEVLVTPITAYSFVYHLEMYLLFVVLVALGPMLRASRLAAREEVHNTGTPQPFGL
+AQLPG
+>tr|A0A0P0M7R9|A0A0P0M7R9_9BURK
+MGIKDLPMDARPREKLLTRGPQALSDVELLAILLRTGMAGKNVFQLSEELLGHDGIAGLL
+NATVSSLKMVKGLGPAKQAELLAVFEMARRALSQRLKEREAFHTPGAVKQYLQLQLAHKN
+HEVFAVLFLDHQNRMLAMEELFRGTLSQTSVYPREVVLRALHHQAAAVVLSHNHPSGSVQ
+PSRADEHLTQTLKAALALVDVRVLDHIIVGQGQALSMAEQGLM
+>tr|A0A0P0MC38|A0A0P0MC38_9BURK
+MCGAELHSLPEGVQRVARALQDADHPHVPVMLDGAARTAQEAADALGVELGQIAKSVIFK
+RKEDGVAVLVVASGDRRVDEKKVSALVGKIGRADADFVKAQTGFAIGGVSPVAHLHPPVT
+LLDQDLWRFDEIWAAAGHPHGVFRLRPQDLPDLTGARSVDVVQASPGAQVQTADACRALA
+QDAP
+>tr|A0A0P0LU63|A0A0P0LU63_9BURK
+MHKTARQAPLRSSSVIQKPTVLQRLWRLLEGFDGPLAFAVFLLACLGMLIMYSSGYDHGT
+RFVDHGRNMLIAGFIMLVVAQIPPSKLMAWAVPVYAVGVILLVAVALFGITRKGSTRWLN
+LGIVIQPSEILKIALPLMLAAWFQKREGQLRPFDFAVSLLILGIPVLLIMKQPDLGTSLL
+VLAAGLAVIFFAGLKWRWIVPPFVLGLVGIVVLVIMEPSLCQPDVDWHVLHEYQRQRVCT
+LLDPGRDPLGKGFHIIQGMIAIGSGGFWGKGFMQGTQTHLEFIPERTTDFIFAALGEEFG
+LLGGLVLLTCFFFLIYRALVIAMQAPTLFSRLLAGSMAMIFFTYAFVNMGMVSGILPVVG
+VPLPFISYGGTAMVTLGLALGILMSIAKSKQLVQT
+>tr|A0A0P0M7V8|A0A0P0M7V8_9BURK
+MSRFRNAVLTVALMAVAGLAAAQSQKFPGVGREATPKEVAKWDIDVRPDFKGLPAGSGSV
+AKGQDVWEAKCAHCHGVFGESNEVFSPLIGGTTAEDIKTGRVANLSRTDYPGRTTIMKVA
+TVSTLWDYINRAMPWTNPKTLTTEEVYAVTAFLLNLANVVPDNYVLSDKNIAEVQARMPN
+RNGMTTAHAMWPGNEFGGVKKPDTANKICMKDCTPEAKVASFLPDFARNAHGNLQEQNRI
+VGPQRGADTSKPEPKAGMPVAAAAPAAAAKPENNEAKAAIALLNKHSCTACHGVDKKIVG
+PGFNEIAKKQAGKTDYLVSKIKAGGVGVYGQIPMPPQSLPDADAKQIAEWISKGASK
+>tr|A0A0P0MA80|A0A0P0MA80_9BURK
+MNQQPTSLPRRHLLAGSGAALAAVGLASFGRTAAAAGETAPVAVAGAAKPLPAYVGWKDP
+ASLIVHSSTTIETKRSVFGTSVITPSEQLYIRNNLPAPDASILGNRDAWEINIEGVKNPR
+KLTLGDLKRMGIETTAMVLQCSGNGRGYFPNKPSGTPWQVGAAGCVVWSGVPVRWVVDAL
+GGVEAGMAYLTGTGGEKLPDGLDPKSVIVERSVPAAALADALLAWEMNGVPISLAHGGPL
+RLIVPGYTGVNNIKYVKRLAFTAQETDARIMSHGYRISPPGAKGDPSQPSVQEMTVKSWI
+NGPGTDGAPLKAGDTQIHGVAFGGMNAVAKVEVSLDGGKTWQLARMVGPDLGRFAWRQFV
+FAARLPAGQFTLASRATDTAGNVQPEQRMENAGGYNNTSWADHAVKVSVA
+>tr|A0A0N7J936|A0A0N7J936_9BURK
+MSLIQIRKRSLTIETTYHEGGPVSDQPLKLAAACAVIQNPYAGRYEPDLKPFMAELRSLG
+TLLAQELIDTLGKDNIEVYSKAAIVGVNGEMEHGAVWHEAGGWAMRSLLGDPKAIVPASK
+VVASAGYRLMVPVHYIHACYVRSHFNSMEVGIQDAPRPNEILFALVMGTGGRIHSRLGGL
+TKEAVSVHDGQR
+>tr|A0A0P0M8M0|A0A0P0M8M0_9BURK
+MALNPRQLSLLQAVREHGSVKTETLAEQLGIPLQTVRRDLQRLTEAAMLERFHGGVRVVD
+SSTRNTTYTERQRTQAQAKQDIARQVAQAIPNGASLFMNIGTTVEAVARELLQHKGLRVI
+TNNLHVAHILAANPECDVLVAGGTVRHEDLGVVGEAALAFIRQFKVDIGLIGISGIDADG
+TLRDYDMREVMVARAIVAQSRQVWLVADHSKFDRPAMIEMAPLKAVHTLFTDRAPATAQQ
+RLMADLGVRCVVAQAPVKG
+>tr|A0A0P0M927|A0A0P0M927_9BURK
+MHLMDVMTQATEFAPGLTIQGFNAPLSLSQFKLIAFDMDSTLINIECVDEIADAAGRKSE
+VAAITEAAMRGEIADYKESLRQRVALLQGVTVAHMQEVLTQRLRLNPGAADLVKHCKAAG
+MKVLLVSGGFTYFTDHVRDVLGIDWTRSNVLEVANGVLTGRLVDQVWGDICDGEEKRKTL
+LETCQMMGISPSQSIAMGDGANDLPMMGVAGLSVAYHAKPKVREQAMVAIHEGGLDRLLE
+IFSA
+>tr|A0A0N7J988|A0A0N7J988_9BURK
+MAFDKDAFLTALDSMTVMELNDLVKAIEEKFGVSAAAMAAPAAAGGGAAAAAEEKTDFNV
+MLLEAGANKVSVIKAVREITGLGLKEAKDLVDGAPKAVKEGLPKADAEAAKKKLEEAGAK
+AELK
+>tr|A0A0P0M7S6|A0A0P0M7S6_9BURK
+MIDLSGQRILVTQSQDFMGPALCHELRAFGAEVIADARLLTHPLDAQTAIEAAGPLDALV
+INLALPAPSTPATQIDEAEWRQVFEVMVDPLPRLVRAVVPGMKARGGGKIVVMGSASALR
+GMKRAASYSAARGAQLAYVQAAGVELAPDNIQLNAVAQNFVDNPTYFPPEVQANPRFQER
+LKREVPLGRLVKAEEDARFVAYLCSNAASCFVGQVFPMSGGWAVR
+>tr|A0A0P0M893|A0A0P0M893_9BURK
+MTQRYKHTQNTQPPAKLLPLATMMLAGSLSATPAAMAQTQPEEKTLTTVTVKDKAEADIA
+EGKNSVRTTETRIGKGKQALRDIPQSVTVVTEKLIDDRNLDTFKEALKNTAGISFLAAEG
+GEEDIRLRGFSLQATGDVFVDSVRDPAFYERDTFNLDRLEVLRGSASMLFGRGSTGGAVN
+QVSKTPRLMDENQVDLTLGSHKHVRLVGDFNQQTGESAALRLNVMKTQADNNGSGSSLDK
+EGIAGAYRWGIGEKDEFQVGLYHLNNQNGMNYGMPWIRPSTTSSPLEATILPLDPTAYYG
+MASDYNAGSATHLTASHTHRFSADSELKTQIRKGQYERDQRAGTVRFANAASQPGGQAVS
+LATLGPNTVINRGTNLKIQDMDTLHVQSDFSKKFQALGLKHELLAGFDLATEDKTVYAAR
+TAGAQGGVNLTKPSTTIGTPNDGAWRDESTRVLRVNNQYSSTGWGAYLQDLVQVAPQWKV
+LGGLRYDSLKGDYDQFGNPTNATDNGAKTRYRMKVGEWSQRAGVLFQPSDLQSFHLSYGT
+SFNTSGDTYSLGAANADTPPEQSENWELGAKLDSADKRFTTRLALFRATKKNERNTDPLL
+PVVTLTGSRYASGLEIDVAGRLTPKWEVFGSFTWMPDAKVSKAAPCPATGACSQGAAGER
+VGDRPALTPVHSGSAWTTYQVSSQWRVGGGVTFRGRQTPTRSEFEVRSFVVGDLMAEYTY
+SDALSFKANVSNVTNKLYADQLYPGHYIPGAGRLTQITASYKF
+>tr|A0A0P0MC19|A0A0P0MC19_9BURK
+MKTIHFYIDFISPYAWLGFDALPRALEGISHRVVHKPVLFAAMLKHHGQLGPAEIPSKRD
+WTYRQVLWLARQQGTPLQLPAMHPFNPLGLLRLATACDVDGTPSRYVCEKIFRHVWCHGQ
+DAADPERLAALTAELAPALDPSSAQVKQALQMHAQEAIEQGVFGVPSWVVDGRVFWGQDA
+LPMLRAYLQGDVWFEGPDWQAPALCGVGVKRT
+>tr|A0A0P0M6N0|A0A0P0M6N0_9BURK
+MGFETQPGTLPAMMDVTIQNFEAEVIEASMTTPVLVDFWAPWCGPCKSLGPVLEKVETAY
+EGRFKLVKINSDQEQQLAQAFGIKSIPTCVLLMNGQPVDGFMGALPEGQVKQFLDKHLPA
+AEELQAQAAAEEAQQHLQAGDANSARAAMEHALATDPGNDDARFDLVKMLIGLGELAEAA
+ALLAPAMSRIPVPLRFEAQTQWLNALEFVTTDPRGGWELDQFDALIAQNKRDFEARFAKS
+RLLIAIGQWEAAMDELLEIIMRDKKWDNEAPRKTFVALLELMTPPKSKTQDATGKSAGGI
+ELMGKAALQEDPHMAMISSYRRKLSMALN
+>tr|A0A0P0M7P7|A0A0P0M7P7_9BURK
+MNLSKREFIQVMGAGTMAGLSMGTFAEASAATAANGLYDIPKFGNVSFLHMTDCHAQLKP
+IYFREPSINLGIGSMQNNLPHLVGEHLLQVAKIRPGTAEAHALTFLDFEKAAKRYGKVGG
+FAHLATLVKRMKASRPGALLLDGGDTWQGSGTSLWTNGQDMVDACKLLGVDVMTGHWEFT
+LGMERVKEIVEKDFAGKVDFVAQNIKTSDFGDPVFKPYVIREINGVPCAIIGQAFPYTPI
+ANPRYMVADWEFGIQDENMQKMVDEARGKGAQVVVVISHNGMDVDLKMASRVSGIDAIMG
+GHTHDGMPVASIVSNKGGKTLVTNAGSNGKFLGVLDFEVKDKKVSDFRYKLLPVFSNMLP
+ADKEMDALITKIRAPYESKLAEKLAVTDGLLYRRGNFNGTGDQLLVDALLDVQGADIAFS
+PGFRWGTTLLPGQAITREWLLDMTATTYSYATVTEMTGETIKTVLEDVADNLFNPDPYYQ
+QGGDMVRVGGLTYSCNPVAKAGQRIGDMRLKGQLIEAGKKYKVAGWAPVAEEARNQGNKQ
+VWEVVETWLKAQGGRIKPRQLNAPKIMGALPNKGYVV
+>tr|A0A0P0MAV9|A0A0P0MAV9_9BURK
+MSQIDELKNNGLKATLPRLKILEVFQSGSMRHMTAEDVFRHLLKDNADIGLATVYRVLTQ
+FEQAGILSRNHFESGKAVYELNEGQHHDHMVCLDCGRVEEFYDAEIESRQQAVAQAKGFV
+IADHALSLYAHCTQKPCPHRNAR
+>tr|A0A0N7J952|A0A0N7J952_9BURK
+MKNHLNTPWKLQHVSRRVLNGACTFGLLLALWGCSGERAPESSFVLLDGSTVSTQQLQGK
+VSLVNFWATSCTSCVAEMPELIATYNKFKDRGYETVAVAMSYDPPSYVVNFAQTRQLPFK
+VAIDNTGGVARAWGDVKLTPTTFLLNKRGEVVKRFVGTPDFVELHQLIDKLLAES
+>tr|A0A0N7J995|A0A0N7J995_9BURK
+MPQTSRPLPSPDSHGRAETPMAFVRAIASAYTQRGLDPWPTLSAAQIAPKQFQQTASRIT
+ALQMEWLSATAMRELDDEALGWFRRRLPWGSYGMLVRASLTAPTLGVALSRWCRHHNLLT
+DDIRLNLSTSEGLAHIELHETHDLQDLREFCTVSVLRNALGVACWLTDSRIPLSATALHF
+APPPHAERYGVLFDGPCQFKAPHSRLSFDAGYLQLPLRRDEAALQSMLQRALLLTVRPYR
+RDRLLVEKVRQTLAEHPEHSRNADDLAAWLNLSPRTLHRQLKEEGASLQQLKDSVRREMA
+ADLLLRTQRPIKQIAAEVGFQNEKSFMRAFKGWTGRTPEEFRLAKPT
+>tr|A0A0N7J8T2|A0A0N7J8T2_9BURK
+MAKKDKVSETPATALLRQQGVSFTEHPYEYLEHGGAQHSAQVLGMDPFSVVKTLIMQDQD
+AKPLVVLMHGNRKVSTKNLARQIGLKSVEPCAPEVANRHSGYLVGGTSPFATRKAMPVYI
+EQTILGLPRICINGGRRGYLVGLDPQVCVQLLGAQPVNCALAE
+>tr|A0A0P0M836|A0A0P0M836_9BURK
+MKLRTLPLTLALMAAFAGTAQAQSLATLYEAAKNHDATFKSARSQYEATLARAEQAKALL
+RPTAGLGGSLSETDLDNQTNALGSRAFGTRALTLSASQPLYRPANQASYEQGMKQVALAQ
+AQLKVAEQELIVRLSQAYFDVLTAQESLNFVKAQKSAVAEQLAAAKRNFEVGTATITDTR
+EAQARFDLVTAQEIAADNDLRIKKLALDDTVGQREVSPKPLLAAVNMDGLQSGSIESWVA
+QSGQENGNLAQARIAEELAQLEITKAQAALRPTLDLTGSYGMTRYRNGNPNSQFNTNAAT
+IGLAFNYPLYTGQASQNRIKETVALEDKAKSDLEAAQRNVAQATRTAFLGLQSGLSQVKA
+LQAAETSSQSALDANKLGYQVGVRINIDVLNSQSQLFQTKRDLAKARHDVLLGQLRLLQA
+SGTLKAGDLQNITNLLQK
+>tr|A0A0P0M912|A0A0P0M912_9BURK
+MSSPLLQLTTAPDLVEQVYSRLLDAISEGALPPGERLTQEDLAQRLAVSRQPVLQALRLL
+KKDGFVEDAPGRGVRVTQLDVGWIAQVYQVRGSLDALAVRLAAERRARLDEDVMRQGRLA
+ESGRDVQAMIHADLAFHCAIYQASGNPLIAQSIELHWHHLKRVMGAVLQSSQQRQTVWDE
+HEAIAEAIAAGDAELSVRLVQEHAHEASVQLTARLSEQIQNLKTGAQA
+>tr|A0A0P0MBW0|A0A0P0MBW0_9BURK
+MSSDPTFHNTLAPWAGLGFRRELIPALQQAVPEHIGFFEVAPENWAGMGGRAGRDFRAFT
+ERYPFVCHGLSLSLGGPGPLDEMLLRRTRDFMREHGIGLFTEHLSWCADDSHLYDLLPIP
+QTQEAVRYTAERIARAQDILGMRIGVENASTYIAPPGAEMTEPEFVRAVVERADCLLHLD
+VNNIYVNSCNFGFDPHAYLAQLPLERTCYVHVAGHYVEEDGLVIDTHGSEVIDPVWQLLQ
+DAYQRIGRPVPTCLERDFNMPDLPTLVQEVAHIAHLQHQAFGAQAQSQLVNRQVA
+>tr|A0A0P0LE58|A0A0P0LE58_9BURK
+MAALRTPSPEQALADFSPGLPFAVAFSGGADSTALLVACARRWPGQVRAVHIHHGLQAAA
+DDFEAHCRALCLHLGVPLAVRRVQAGHALGQSPEDAARQARYAALAEAVQTQWPEVRDVA
+LAQHADDQIETLLIALSRGAGLPGLASMPRQWQRQGLNWHRPWLALPGAALREWLQSQGQ
+NWVEDPSNTDEKFTRNRIRARVLPALAEALPAFRETFARSAAHAAQAQEVLHEVAAQDLV
+QVGVPPRIRALQALSRARQALVLRHWLRQHHSTTPSTAQLYELLDQVAACTTRGHCLHLK
+VGQGFVERDGVGLKFLSP
+>tr|A0A0P0MAK0|A0A0P0MAK0_9BURK
+MSLAVQIDQNGGPEVMKLVDVTVGEPGPGEIRIRHKAIGLNFIDVYQRGGLYPLPMPLKL
+GMEGSGVVEAVGEGVTHLKVGDRAAYASQPPGSYCEVRVMPAKCVCKLPDAISFETGAAM
+MLKGLTAQYLLKRTLPQGGLKAGDFVLFHAAAGGVGLIACQWAKALGLRLIGTAGSDAKC
+ALAKANGAEFCINYSTEDFQAKVKEITGGKGVKVVYDSVGKDTWDKSLDCLAPFGLMASF
+GNASGPVAPFAPGILGPKGSIYVTRQTLFSHITTRENTQAMADDLFEAVTSGKVKIHIDQ
+TFPLAQIQDAHIALEARKTTGCTIITL
+>tr|A0A0P0LTC6|A0A0P0LTC6_9BURK
+MNAVPEKPEQGLPVFVADQLKQWIFSGELKPGERLNEAALALRMGTSRGPVREAIRMLTG
+LGLVKAVVNRGVFVRQLSVREMLELYDLRALVFGFAAERATEHIAESHKAGFEELLDGMD
+RACEAENPNLYYELNLQFHALVLQLANNQRAQAAYDDYVKEMHLFRREYFNAPGNMRQSN
+AEHRTLYEAIVKGSKAKAKSTAERHVLKGRERLLSNIDASSPLGH
+>tr|A0A0P0MBX4|A0A0P0MBX4_9BURK
+MTTATTVKVQLVRSPIGTKVSHRATVRGLGLRKLNSVSELQDTPAVRGMINKISYLVKVL
+>tr|A0A0P0M9P2|A0A0P0M9P2_9BURK
+MIASSIKAEVVKANARAANDTGSPEVQVALLTARINELTPHFKTHAKDHHGRRGLLRMVS
+RRRKLLDYLKSRDADRYVALIAKLGLRK
+>tr|A0A0P0LI19|A0A0P0LI19_9BURK
+MSVHFDLVDLRLMVRVAEANSLTKGAEASFISLPAASTRIKNLEESIGAKLLNRHSQGVT
+LTPPGQAFVHRARLVLGQIEHLRGDLQEYASGIKGHLRVYANTTALGEFLPEVLKRYLAT
+HPDVNIDLQEKLSNEIVRAVMDGKTDIGIVAGSVRTETLQTLPYRSDSLVLVVPDGHPVA
+DLPSMPLIDALEFDHVGLHEASALHAFLNRECEQLNKPLKVRIQVSSFESACRMIEAGVG
+VGVLPESAARRHARSMAIRLVPLSDAWAIRSMQICVRNIDELPGFARDLIDLLSEDARLA
+VA
+>tr|A0A0P0M9M4|A0A0P0M9M4_9BURK
+MTTHLYILTGASRGMGLAMAEQLLQPGNTLLCISRHANADLALSAQKAAVPLSQWTHDLA
+DGEGASERLRDWLLAQNPADFVSVSLINNAGVIPPIKPLRQSQAADLAMALRVGLEAPMA
+LSAAFVGATQAWPMPRKVLNISSGLGRFPMASQAGYCAAKAGMDHFTRCLALDEAPLPNG
+ARVCSLAPGVIDTDMQVQLRGAAGEAFPDQAKFLQLKAQGQLSSPAQAAEQVLRFLARPD
+FGREPVADVRG
+>tr|A0A0P0LBU4|A0A0P0LBU4_9BURK
+MNTADFTSEDLQRLHTTVERFAKQAIAPHVATWEESGQFDRSLYTQAAQLGLLGLGYPEH
+LGGTPAPWRARNMLSQTLARYGGSGGVMASLFSLNIGLPPVLAHGSAELQAEVVPPVLRG
+ERIAALAITEPGGGSDVASLRTTARADGADYVINGEKTFITSGLRADWITLAVRTNPASK
+GASGISMVVVPGDTPGITRTRLHKMGWHSSDTAQLHFDGVRVPQRYRLGEEGAGFKMIMG
+NFNGERLAMSAMALGFAQACYDEALAWSRQRQTFGAALIERQVIRHKLMDMQMRILSTQA
+WVDAVTQQADAGQTGAEWVAQVCLLKNHATQTMQFCADAAVQMLGGMGFMRGTVTERVYR
+EVKVMMIGGGAEEIMKELAAKQLGV
+>tr|A0A0P0LIA6|A0A0P0LIA6_9BURK
+MSGAAQSDLATLPSQASAAYGLLGLPLAFVALPVYVHLPNLYAQQYGVTLAALGAVLLLS
+RSIDAVVDPWLGRWGDKLYRHSWRAVWLAAVLLALAVALGFAALFFPPAAALSPTGLLVW
+VACALTLSHLAYSGLGILHQAWAARQGGGGIAQSRWVAWREGFALVGVLLASALPALWGW
+GPTTALLVLMLGLGLFFWRRVARSALASTVPVVSGHAVGSLWQPWQHAGFRRLLMVFMLN
+GLASAVPATLVLFFVQDLLQAPKAMEPLFLGLYFAAGALSFPLWLKVIDRMGLLRTWATG
+MALSVLAFVSVVTLGAGDTTGFLVVCALSGMALGADLTVPGALLNQLIDRCGERGRTDGA
+FMGWWNLATKLNLALAAGLSLPLLGLWGYTPGQQGADAVLALGLAYGLLPCVLKLLAGLA
+LYAGLMRRPDLISGPELAHPSAHPSAHPMA
+>tr|A0A0P0LID4|A0A0P0LID4_9BURK
+MQGANQGQAEELDGQFLHIGIVQARFNEDITNALAKACIEELEALGVTSIDHVMVPGALE
+VPVALQAMAERAEYDALIALGCIIRGETYHFELVANESGAGVSRVALDYNLPIANAILTT
+ENLEQAIARQTDKGRDAARVAVEMACIMDDLSADMAELADDFDDEETTR
+>tr|A0A0P0MAF3|A0A0P0MAF3_9BURK
+MELRQLRYFVRVVELGSISRAALDLNLVQSALSQQITRLEGELSTRLLQRSPQGVTPTEA
+GVAFFREAQLTLRHAEQAMRAAQQARLTGTVSVGLAPTTAAVLGLPLMQAMRERYPDVRL
+HMVESLSGHLSAMLNARQLDLAVLFDLPTGASQSVQAARRWSVLPLIEEDIFLIMARRAV
+KPGVPNTLRMAQLKDQPLILPTGPHGLRSTLDAAFVRAKFTPMVALEVDSLAMLMDAVQA
+GMGATLQPWAAVARQVDAEQSLHMARITDHQIKRSNWLCGLSDEELSPAALAARVVLADC
+VRSLVGSGAWKGAALSLQA
+>tr|A0A0P0M8W5|A0A0P0M8W5_9BURK
+MTDRYAVIGNPIVQSKSPLIHSAFAQVTGQDIDYGKLLGPVGEFAATVDAFRASGGRGMN
+VTAPFKMDAFVYATDLAPSAQMAGAVNAMKFEGDKVYAENFDGVGLVRDLVHNLACPLKG
+RRVLILGAGGATRGALLPVLAEQPAELVIVNRTVAKAQELAALAQQHQTGQVPVQGLGYA
+DLQGQTFDVVLNASSSSLTAELPPLPASVFAPGALAYDLTYGKGLTPFLQLAQQAGVSRV
+ADGVGMLAEQAAEAFAWWRGVRPDTAAVIAQLTVPLV
+>tr|A0A0P0MBZ4|A0A0P0MBZ4_9BURK
+MLYPQEFDVIVVGGGHAGTEAALASARMGCKTLLLSHNIETLGQMSCNPSIGGIGKGHLV
+KEVDALGGAMALATDEGGIQFRILNSSKGPAVRATRAQADRILYKAAIRRMLENQPNLWL
+FQQAVDDLMVEGDRVVGAVTQVGIRFRSRTVVLTAGTFLDGKIHVGLQNYAAGRAGDPPA
+VSLSARLKELKLPQGRLKTGTPPRLDGRTIDFSKCLEQPGDGVPGGMNPEGGVPVFSFMG
+NADMHPQQVPCWITHTNERTHDIIRSGFDRSPMFTGKIEGVGPRYCPSVEDKINRFADKD
+SHQIFLEPEGLTTHEYYPNGISTSLPFDIQYDLVRSMKGLENCHILRPGYAIEYDYFDPR
+SLKNSFETRQINGLFFAGQINGTTGYEEAAAQGLFAGINAALQCRGEAAWTPARDQAYLG
+VLVDDLVTQGVTEPYRMFTSRAEFRLQLREDNADARLTEVGRQMGLVDDARWDVFSRKRD
+AVSRETERLKSTWVNPRNLPAAESERVLGKAIEHEHNLFDLLRRPNVNYPALMTLDGGRM
+ASTDVSRETLGDLSPSVIEQVEIAAKYSGYIDRQKGEVERAAFYEHLRLPESLDYMQVSA
+LSIEARQKLAKHRPETLGQASRISGITPASVSLLLIHLKKGGFKGFMQAAEEGVQA
+>tr|A0A0P0M7Y7|A0A0P0M7Y7_9BURK
+MPNSRPRQFDLIAFDWDGTLFDSTALITRCIQRAVVDVGGQEPTREAASYVIGMSLLPAL
+AHAAPDVPKDKYPALGERYRHHYLQHQNDITLFEGVLELLDDLKARHHWLTVATGKSRQG
+LNEALHAVELRGVFDGSRTADETAGKPNPRMLHELMREFGSEPERTLMIGDTTHDLQMAL
+NAGCASVGVSYGAHEPEAFHVLQPRHVAHSVRDLHDWLLQHA
+>tr|A0A0N7J8W6|A0A0N7J8W6_9BURK
+MKQDHTKNIQGIVLDWAGTIVDFGSLAPMGAFVELFARHQLTISIAEARVPMGLPKIDHI
+AALAQMPAIAEQWQNLKGRPFSHTDAEELLTEFEPMSAQAALDRCTFIPGFMAAYHALKA
+QGLAFATTTGYTRTIMTPLIEIAHAQGFTPALVVCCDDVARSRPDPMGMWACLEAMGLQG
+QAAQVIKVDDTAPGLAEGLAAGAWTVGVAISGNALGWTHEAWLQASPQDQAHARTSAGAL
+LLSAGAHEVIDSVADLPDAIARIEQRIAQGETP
+>tr|A0A0P0LQH6|A0A0P0LQH6_9BURK
+MNAPRTRVQRRPVHGVLLLDKPLGLSSNQALQKAKWLLRAEKGGHTGTLDPLATGVLPLC
+FGAATKFSQQHLDADKTYETTVRLGIKTSTADAEGEVIAVREVSCSAGMVVEVLDRFMGP
+ISQVPPMHSALKKDGKALYEYAREGETVEREARNVVIHDLDLLDMQLQGDAPFLRLRVRC
+SKGTYIRTLGEDIAEALGCGGHLSALRRVVTGPFEEAQCVTLSALENMDESQRIAAMQPV
+DVLLPGYTEVCLDSENAGKFLSGVRRRGPWNDCDQVVVYGEHPRALLGTAHVHGGELIPG
+RLLSPIEIQQILEKSPVNAPLLAEQV
+>tr|A0A0P0LFE8|A0A0P0LFE8_9BURK
+METKWLEDFVSLAETRSFSRSAQLRHVTQPAFSRRIQSLEAWAGADLVDRSSYPTRLTPA
+GETLYAQALEMLQSLQNTRAMLRGHNAAGQDVIQFAVPHTLAFTFFPPWVASLRETFGPM
+KSRLMALNVHDAAMRLVEGGCDVLIAYHHPSQPLQIDPERYDMVVLGHEVIAPYVQSMPD
+GRALFSLPGHASRPLPYLGYAPGAYLGGVTDWILKQAGVPVHLDRVYETDMAEGLKVMAL
+EGHGIAFLPRSAVKKEIQAGTLVEVGLPDGQTLALSMEVRAYREKTGAKPGFNSSAHQLW
+LHLTQSTSAVHSSR
+>tr|A0A0P0MAZ5|A0A0P0MAZ5_9BURK
+MKLLSFVHQGRETWGAVTGPDTVVDLGQAMPQFATLTDYIASGAYLQAKHDAAQQKTSIA
+MGDITFLPVIPKPEKIVCAVRNYMDHHQEVLAAGMHRELSEEPPIFLRVWRSQVAHGQPI
+ICPKVSGSLDWEGELAVIIGKEGRNISEADAFDHVAGYSCYNDGSIREWQFHAKQIASGK
+NFESTGGFGPWMVTADEITPNQELKLITRLNGEVVQSSHTGHMIFPIAKLISYASTIFTL
+VPGDVIATGTPAGVGWSRKPQWFMKPGDVCEVEIEGIGTLVNPIAAQA
+>tr|A0A0P0MAJ9|A0A0P0MAJ9_9BURK
+MVRSMNHSSEMTMASQTRRQLALGLGLGALWPWASALAQAPSEAALEALAPAMPRLGDVL
+KVPSIRLLTGQNFQYERQPLLLYWWSSTCPFCALQSPSMQALWDSQKSRGLRMLALSIDK
+KPEDAQAYLQKRGYTFPSAWASPAWRQQFPKPKGLPITLLMDSQHKVMLAEKGQMFAEDV
+EAISRLL
+>tr|A0A0P0LFK9|A0A0P0LFK9_9BURK
+MDKTQTPFVSAYLRFLQLTKVVQALPDGQEMDANEQALLESVVLRWYENQPMTVREAISL
+AALGSPATLHKRITRLREKDMLSTLNLEGDRRAKFLIPTQRTLDFFQHLGQSMQQANTNQ
+PA
+>tr|A0A0P0LJT7|A0A0P0LJT7_9BURK
+MPKGFAFLILAQFFSGLADNAFLLLGIFFLHEQGYPAWWAPVLKMAFTVSYVVLASLVGP
+VADAFQKRHVMLAMNLLKLLAVVLLWTGAHPMLAFALTGFAASVYAPAKYGLLTETVPVS
+GLVKANAFLEVSVVLSVLWGVVLGGWLMGAGSFGWEGATAVLSLPLNSWLVATQIGMGLG
+VICLLYVLSAVLNLGMYALRSPAHPAWAWSDLRWSAFWNNHLKLWRDPLGGVSLRVTTLS
+WGAGAALQFVVLVWAQSQAGLTLQHGAYLQGLVALGVIGGAAMAALRSRIFRARKQMVWA
+VVLACLMPALALTQSLWLAVPMLLVAGWAGGMLLVPMNALLQHRGLKIMPPGRSIAVQGF
+NENLSVLVVLGIYSVLVAWEWPLLAVMLCLSLPLWLAVWPWRHKSITPDSTLN
+>tr|A0A0P0M6H2|A0A0P0M6H2_9BURK
+MSLTQGPHSLQALQARYGERHRWLLLLSVMLGSMAAVMSSTILNVAIPDMSQHFTLGQSR
+VQWVTSGFMVAMTVSMLTTPWLLSRYGYRRVYEVCMWLLLGGGVVGGLANDFPLVMAARV
+AEGLAAGVVQPIPAIIILRAFASHEQGRASGLFGMGVVLAPAIGPSIGGVLVDVFGWRSI
+FFMVVPLAMVALWLSRRYVPTSAPGGVQADAGSPGLDWVGLALASASTLMLLNGLVQLRG
+DDQTVAVVLLVLAGLGMAVFVAWQRHLLKSGGRMRRASSRRKGQVHQVRRGPLMNLQVFG
+HRHFAMGALVSFTYGIALFGSTYLLPVYMQMGLGLSPSYIGAALLPAGILLAVTIAAVGR
+LSHRMPPAHWVSWGLAMLALSFALMPLVHPAVGLALLWILVILGRIGLGFILPSLNLGAM
+RGLPKDLIPQASSVIGFVRMLGGAAGVSICAIVLEWRLAVYALASSHSGIADLRAFNETF
+VFLATTTALALLAAWKMGDSQAPSKKD
+>tr|A0A0P0M6Z4|A0A0P0M6Z4_9BURK
+MSQNPSPLTHFDAQGQAHMVDVGGKASTRRVAVATGRIEMLPATLALISSGTAKKGDVLG
+IARIAGIQGAKKTSDLIPLCHPIGLTRVAVDFEVHNDKSCVVCTATAEVNGQTGVEMEAL
+TAVQVALLTIYDMCKAVDRGMTITDVKLLEKHGGKSGSFVAAA
+>tr|A0A0P0LD88|A0A0P0LD88_9BURK
+MAIERTLSIIKPDAVAKNVIGQIYARFEAAGLKVVAAKMAHLSRGEAEQFYGVHKERPFF
+KDLVDFMVSGPVMIQALEGENAIAKNRDLMGATDPKKAAAGTIRADFADSIDANAVHGSD
+APETAAAEVAFFFPGMNVYAR
+>tr|A0A0P0LFA6|A0A0P0LFA6_9BURK
+MTATTALPGQPHIAYAGNQLHVEGVALSQLAHEHGTPLFVYSKAAMLSALAAYQRGFAGR
+QAQICYAMKANSSLAILQVFAEAGCGFDIVSGGELARVLAAGGDPAKVIFSGVGKTRHEM
+KQALQVGIGCFNVESVAELDVLSEVAMGMGKIAPVSLRVNPNVDPKTHPYISTGLKGNKF
+GIAHEDTLRAYRHAASLPGLKVVGIDCHIGSQITETTPYLDAMDRVLDLVADIEAAGIPI
+HHIDFGGGLGINYNGDTPPQADALWAQLLAKLDARGYGQRQLMIEPGRSLVGNAGVCLTE
+VLYLKPGEQKNFCIVDAAMNDLPRPAMYQAFHQIVPVKPRSGEAAVYDVVGPVCESGDWI
+GRDRQLQVQAGDVLAVLSAGAYCMSMASNYNTRGRAAEVLVDGTQAHLIRQRESAFDTFA
+LEQLV
+>tr|A0A0P0LL01|A0A0P0LL01_9BURK
+MGNKLYVGNLPYTVRDEDLQQAFGEFGTITSAKVMMERDTGRSKGFGFVEMGSDAEAQAA
+INGMNGQSLGGRSITVNEARPMEARPPRTGGFGGGGGYGGGGRSGGGGYGGGDRSGGGGY
+GGGGDRSGGGGYGGGGRGGY
+>tr|A0A0P0LG39|A0A0P0LG39_9BURK
+MNLTISGHHLEVTPALRQYVTGKLDRITRHFDQVVDVKVLLTVEKQKEKEKRQRAECNIH
+VKGNDLFAESAHEDLYAAVDDLVDKLDRQVVKHKDRITDHHHTAPKRMM
+>tr|A0A0P0M7Y8|A0A0P0M7Y8_9BURK
+MTRSDLVEELAARFAQLTHRDAELAVKTVLDAMSDALVKGHRIEIRGFGSFSINRRPPRV
+GRNPRSGESVQIPEKRVPHFKPGKALREAVDAGTPAPPQSAENARQ
+>tr|A0A0P0LTK1|A0A0P0LTK1_9BURK
+MKLYTAHRAPSPRRVLMFLMEKNITGIEMVNMDLNGGEHRTAEFLAKSPLAKVPALELDD
+GRVITETRAICTLLEGRYPEPNLMGEGDERGFIEMADRQVELYLLGGIANAIRHSHPGLA
+ALENPQFPEFGRSQAEKVRDVARGFDQRLQKQPFIAGERFTIADITAFCALEFARGLMKF
+VPGDEGMPALQAWRDRMNERPSARA
+>tr|A0A0N7J8U2|A0A0N7J8U2_9BURK
+MKRTIQKHALVAALWSLAFTVLPVHAADDAAQLQQGKVLFGQGAVPACALCHALKDAGAE
+GAVGPSLDELKPDAKRVATALRNGIGQMPSYNGKLSDAQIAALAAYVAKASGGSK
+>tr|A0A0N7J8C0|A0A0N7J8C0_9BURK
+MNTPNNTAMVWISFFFATVVHAQPAIYKDADYKLGEKLIAESKCVACHVSKVGGNGSAIY
+KPQGRINNASLLRGMVEQCNTELNLGMFPEDVTSVAAVLNRDHYKFK
+>tr|A0A0N7J8Z1|A0A0N7J8Z1_9BURK
+MARTSQLLYPQREPAPLRPAATVLLLRDGPQGIEVLMTRRSMTASFAPGAYVFPGGGIDA
+ADAQAHGMAQRRPTQSDLHLTQAIAAIRESFEELGVLFARHAEGRWADALDIAAIDRKGP
+FASQCQARGLSLAAEQVFVLAHWITDRDLPRRFDVPFLVARMPEGQTPVADESEQFEPVW
+VRPADALARHEAGDFFMVYPTIRTLERLKAFANVEAVLQACAVNDEPLWTSCPRAGWLAG
+NEARYMEHEAPFGELALVSPDGQIQHHLDWQTDQAVPLLQNVQRLTAPNPGVMTGPGTNS
+YLVGDPNTGYIAIDPGPADNDHLQRIWRAAGGQIKAIVCTHSHPDHSPGAAPLQALCTNK
+PPILGLASRPTARANSRFTPERELADGEKLVLQGTSAQGDITHTLRVVHTPGHAANHLCL
+VLEEDGLLFSGDHVLNGSTTVIDPPDGHMGDYLASLDKLAAACQAGSIEFILPAHGHVLG
+FAHQAITYLKAHRLKREAKIAAAMQALPQGSLQEWVEKAYDDVPPRLWPVAARSLQAHVD
+HIREQALS
+>tr|A0A0N7J930|A0A0N7J930_9BURK
+MKRRTPNTFGACATRRFWAWVGLCALQAMHTAHAADTSPSQQLNHWTAQAGAPAKAERGQ
+ALFNQRQGGEWSCASCHGTPPTAQGKHASTGKAIAPLAPAFNAKAFTDTAKVDKWFKRNC
+KDVFSRECSAQEKADVLAYLIQLKP
+>tr|A0A0N7J9A0|A0A0N7J9A0_9BURK
+MTRPHISVITAAQNASQRLADRHTPFVMNDWYVAAFGEEIKDQLLARTLLGRRLVFYRAS
+DGRVVALEDRCPHRSMPLSAGTLEQDTIVCGYHGLRFNTEGDCIEVPSQSTCPPNMGIRA
+YRTFERGAVVWIWMGEAEQADLTKLPAQDWMTDDQWERSQGHLSLQANYVRLHENLLDLT
+HLSFLHAKSFGTPDYAKASFESVIGDGQFALLRNVVPTTLPPVWGIPTGLTGQGQAARIV
+RSEFRSLGLHEVSVTFYDCHLPEATRPQYRIRTAHMPTPETATSTHYFIVHGRDFAQNDA
+PTTRFMHDQLFVAFQEDVDGLALQEQALASTPAEDLYEFSVAADAPAVAMRRYVLGRQQK
+EAKA
+>tr|A0A0P0LMD5|A0A0P0LMD5_9BURK
+MRMNPHTSGAVALATETADMPMPKVGPQTASPSPQVPARSWLQLNTPMTDWQGRRVWLVG
+ASTGIGLACAQALRSAGAQVVVSARNPQGVLDWAEKDSGVQWRALDVSDASQVQAMTRDL
+LAEGPLDMVVYAAGYYRAQRATAMDMDDLLQHDKVNYQGALQVIHAVLPGMLARGSGHIS
+LLSSVAGWRGLPNGLAYGPTKAALTHLAETLYIDLQDQGLGVSVVNPGFVATPLTAQNEF
+TMPALISPEEAARQMLKGWAAGQFDIHFPKRFTLWLKLLRLLPYRLYFPLVRKFTGL
+>tr|A0A0N7J8U0|A0A0N7J8U0_9BURK
+MGYPDETYPGYAAPLVVKSHRSGRVASGLARFGLVPAWAKDDKISRYTYNARSETAAEKP
+SYRAAWRQRQFGLVLVDDFYEPSYESGKAVRWRIQLDSGDPFGIACLWDRWQEPDTGAWV
+VSFSMLTVNADEHPVMRQFHKPGDEKRTPVIIAPHLHDTWLSADTEQATRLLTWSHMPEL
+VAMPAPLIRPSNQRHDLSRSAGAIP
+>tr|A0A0P0MA27|A0A0P0MA27_9BURK
+MSYTKDKITTRKFDVVIVGAGGSGMRASLQLARAGLNVAVLSKVFPTRSHTVAAQGGIGA
+SLGNMSDDNWHYHFYDTIKGSDWLGDQDAIEFMCREAPKVVYDLEHMGMPFDRNPDGTIY
+QRPFGGHTANYGEKPVQRACAAADRTGHAMLHTLYQQNVAAKTSFFVEWMALDLIRDAEG
+DVVGVTALEMETGDLHVLHAKTVLMATGGAGRIYAASTNAFINTGDGLGMAARAGIPLED
+MEFWQFHPTGVAGAGVLLTEGCRGEGAILLNSNGERFMERYAPTLKDLAPRDFVSRCMDQ
+EIKEGRGCGPNKDYVLLKLDHLGADTIHKRLPSVYEIGVNFANVDITKEPIPVVPTIHYQ
+MGGIPTNINGQVVTQNATDHNAVVNGLYAVGECSCVSVHGANRLGTNSLLDLLVFGRAAG
+NHIVDFASKTKSHKPLPADAADYTLSRLNKLEGRGGEYAQDVANDMRATMQQHAGVFRTQ
+ASMDEGVQKIAAIRERVNAIGLKDTSKVFNTARIEALEVDNLIEAAQSTMVSAAARRECR
+GAHTVSDYERPVDDAVAPLGRDDANWMKHTLWHSADNSLTYKPVKLKPLTVDSVPPKVRT
+F
+>tr|A0A0P0LGP1|A0A0P0LGP1_9BURK
+MSFAERCGLNSRERETACEQLLRQVEASGIELIRLGWCDLHGVVRGKTIVASQLRQALAN
+GIGMVSTLLLKDSSDRTAFKVFEPGIQETLPGFAGASNFTLMPDPASWHVLPWTEKTGWL
+QCQPYFADGRIVPLDSRHVLQQAVQRLTDRGWQMRCGLEVEFHIYRLKDPLHGADLDPDH
+ADWPGPAPEVSLIHPGYNLLTEGWFDRAEEPLRIVQRTAQALGLPLISLEIELGPSQVEA
+VFDVSDVLTAADHMVLFRNATRQALRRAGYHATFMCRPPFEHIMSSGWHLHQSLCETSTG
+RNVFMRDGVAQGDARDARQVLSDVGASWLAGLLSHAPALTALCTSTSNGYGRFRPNAMAP
+QSILWGRDNRGAMLRVIGEPGDKATRIENRLGEPAANPYLYMASQIHAGLDGVDTLLQAP
+PATETPYSPGAATIPTSLADAVQALHKDAAMCQALGQPFVDYYRTIKQAEHQRMAQAEDV
+QEFHRREYFGRI
+>tr|A0A0N7J8L0|A0A0N7J8L0_9BURK
+MPFSLARPAQHELVIKKSRFIACVESVAGRDEAQARVAQLKAEHPDATHVCWALLAGGQS
+AANDDGEPGGTAGRPMLEVLRHQDLQGVMASVVRYFGGVKLGAGGLMRAYTDAVAQALLS
+AEKVPLIVQTTLACSVPYALEGLVRRELELAQAPLLGVSHGSVVTLRFALPQSQAAEWVA
+RLSESGRGQLVWLEGDSAP
+>tr|A0A0P0M9Y1|A0A0P0M9Y1_9BURK
+MRSYLLALSIFLSINAFAGTPKTVTLDVKNMTCELCPVTVKKALEKTPGVAKAQIDFAKK
+TATVTFDPDVATVAALAQATTNAGYPSTAREVK
+>tr|A0A0P0MA16|A0A0P0MA16_9BURK
+MKVFYDKDCDLSVIKGKTVAIIGYGSQGHAHAQNLNDSGVKVVVGLRKGGASWDKVGKAG
+LTVMEVNDAVKAADVVMILLPDEQIADVYNNNVAPHIKQGASLAFAHGFNVHYNQVVPRE
+DLDVWMVAPKAPGHTVRNTYTQGGGVPHLVAIHQDKSGKARALALSYAMANGGGKAGIIE
+TNFKEETETDLFGEQAVLCGGAVELIKMGYETLVEAGYAPEMAYFECLHELKLIVDLIYE
+GGIGNMNYSISNNAEYGEYVTGPEVINAQSREAMRNALKRIQTGEYAKMFILEGRTNYPS
+MTARRRLTSEHSIEVVGAQLRAMMPWIAKNKLVDKTRN
+>tr|A0A0P0LLQ8|A0A0P0LLQ8_9BURK
+MENILGLVALACGLIVGLGAIGASIGIALMGGKFLESSARQPELMNELQTKMFILAGLID
+AAFLIGVAIALLFAFANPFVLK
+>tr|A0A0P0M9M0|A0A0P0M9M0_9BURK
+MSDALRPEDKALILDFGGVISRTLFETHALSEAALGLPAGTLTWQGPFAPETDALWQAMQ
+ADRISERDYWMQRTREVGRLLGEEWTEMQTFVQRARGADVQAVIRPEALAAIHQAKALGY
+KLGILSNELDLFYGADFRERLPWLQQFDVIVDATYTQILKPDPRAYQACLDALGVRAEHA
+VFVDDQPRNVAGAQRCGLPVVHLEVCQPGAGFAKALQMLAAL
+>tr|A0A0P0LGN8|A0A0P0LGN8_9BURK
+MTQFAKETLPISLEEEMRRSYLDYAMSVIVGRALPDARDGLKPVHRRVLFAMHELNNDWN
+RPYKKSARIVGDVIGKYHPHGDQSVYDTIVRMAQDFSMRHMLVDGQGNFGSVDGDNAAAM
+RYTEIRLAKIAHEMLADIDKETVDFGPNYDGSEKEPLVLPSRLPNLLINGSGGIAVGMAT
+NIPPHNLNEVVDACLHLLRNPEASIDELMEIVPAPDFPTGAIIYGMTGVKEGYRTGRGRV
+VMRAKCHFEDIDKGQRQCIVVDELPYQVNKKTLQERMAELVHEKKIEDISHIQDESDKSG
+MRLVIELKRGAVPEVVLNNLFKQTQLQDTFGMNMVALIDGQPKLCNLKDLIQVFLQHRRE
+VVTRRTVFELRKARDRGHVLEGLAVALANIDDFIAIIRGAPTPPVAKAELMTRAWDSQMV
+RTMLTRARDDGSVVNADDYRPEGLEREYGLGQDGLYRLSDTQAQEILQMRLQRLTGLEQD
+KIVAEYKEVMSEIEDLLDILAKPERVSTIIGDELGTVRQEFGQTKIGARRSEIEHSAQDL
+STEDLITPTDMVVTLSHSGYIKSQPLSEYRAQKRGGRGKQAAATKEDDWIDQLFIANTHD
+YLLCFSNRGRLYWLKVWEVPAGSRGSRGRPIVNMFPLQEGEKINVVLALTGEARTFPDNQ
+YVFMATSMGTVKKTSLDEFSNPRKGGIIAVNLDEGDFLIGAALTDGKHDVMLFSDGGKAV
+RFDENDVRPLGRSARGVRGMMIEDHQSVIAMLVSEQEDPAAAADDTVARASVLTATENGY
+GKRTNISEYTRHGRGTKGMIAIQQSERNGKVVAATLVQAEDEIMLITDTGVLVRTRVSEI
+REMGRATQGVTLIGLDEGAKLSGLQRIVENDANVSEGEAGDADAAADDSAPAAE
+>tr|A0A0P0MAP6|A0A0P0MAP6_9BURK
+MSAAVSQTLAQKLIARAAGRSHVAVGEVVTCNVDLAMFHDSSGPRRLKPMLDELGAEIWD
+KNKVVLVLDHYVPAQDADAQQIVQIARDTAKQWKLPHVIDSEGICHVVLPERGHLKPGMF
+CVGGDSHSPTGGAFGCYMFGIGATEMLGVCVTGQIWVQVPRTLRMHWSGRLQHGVSAKDM
+MLHMVGRFGMNGGQYQAVEFAGPAVQALSMAERMTLSNMSAEMGAQAGLIAADETTLNHL
+RGIGVAPEHLAGAEQWFTDTDADYEQQDFDASTLSPQVAAPHSPANTRDVAEFVDVSPSI
+AYIGACTGAKLEDLRAAASVLKGQRVAAGVQLMVAPASAREQAQATQEGVMQTLLDAGAT
+VLPNSCGACAGYGATFPEGSTVISTTARNFKGRMGPASVNVYLASPYTVAASALRGRISD
+AREVFA
+>tr|A0A0N7J8B5|A0A0N7J8B5_9BURK
+MKNIAAWILGMSLSGLAFGQAATIAVGTPLNIIDTQKSVVVQTAKGPVTITRTMTPCAKN
+GGNLQPLVPVPGVHPVGEIEILEALSDRNAIVLDMRDTNDRVKGTIPGSVGIPYTEVAAR
+MNELGCKKNGSQWDCASAKKVYAFCNGPVCPQSPMAIKAMTRDGFPANKIYYYRGGMLDW
+DALGLTSVKDEF
+>tr|A0A0P0M8Q6|A0A0P0M8Q6_9BURK
+MSSHKVLFGFHAVGVRLKIAPQSVVEIHYEVTRRDARMRQFIDKARDSGMRMIESDNERL
+AKLAGGHGHQGVVAVVAPLPQNHSLDDLLDTVEGPPLLLVLDGVTDPHNLGACLRVADGA
+GAHAVIAPKDHAAGINATVAKVASGAAETMPYFMVTNLARTLGELKERSIWVIGTSDDAP
+RSIYQADLKVPTALVLGAEGAGMRQLTRKNCDELVSIPMRGAVESLNVSVASGVCLYEAL
+RQRS
+>tr|A0A0P0M8Q4|A0A0P0M8Q4_9BURK
+MSSTTVAEFANELKKSADVLLDQLRSAGVTKASEGDALTDADKQKLLSYLQASHGTVSAD
+RKKITLVKKSTSEIKQADASGKARTIQVEVRKKRTLIKRDDEPVASAEEPLEPQFDHAEL
+AKREEEARRQAELIRRQEEDLAEKRRLREAQEAAQRAELAAQEAQAATQALALAAEQAQA
+EEPSSAAKTQLSREEREQLARAEAASINAASQTKPAAPVAAESAQSAADAKALTAAQMAS
+AKVEADKAAREATALKAAAESKAKADEDTARAQDLDARRRKALAEAEAIRAMMSAPKKVL
+VAKKEEPKAEAKAPVKGTLHKPAGTPAPGARAAAAQAATPAAPGANKEVKSAKLSSSWAG
+DPAKKKAIPTRGDTSGGVGRNNWRTGPRGRRGNERDRDDGQNQQATTEVRVLEVHVPETI
+TVAELAHKMAIKASEVIKHLMKLGQMATMNQPLDQDTAMIVVEEMGHKAVVAALDDPEAF
+TDEEVSDQHAELLPRAPVVTVMGHVDHGKTSLLDYIRRAKVASGEAGGITQHIGAYHVET
+PRGMISFLDTPGHEAFTAMRARGAQATDIVILVVAGDDGVMPQTKEAIKHAKAAGVPIVV
+AINKMDKPDSNIERVRAELISEEVVPEEFGGESPFVSVSAKTGMGIDDLLEQVLLQAEVL
+ELKAPVQAAAKGLVIEARLDKGRGPVATILVQSGTLNTGDVVLAGQTFGRVRAMLDENGA
+TIKSAGPSIPVEIQGLTEVPQAGDEFMVMGDERRAREIATYRAGKFRNTKLAKQQAAKLE
+NMFTDMSAGEVKMLPIIIKADVQGSQEALGASLLKLSNEEVKVQLVYSGVGGISESDINL
+AIASKAIVIGFNVRADAGARKLAEGNGVDLHYYNIIYDAVDELKAAMSGMLAPEQREEIM
+GMAEIRTVFVASKIGTVAGCMVTSGQVTRSAKFRLLRDNVVIYTGELDSLKRLKDDVREV
+KEGFECGIKLKNYNDIKEGDYLEFFDVKEIARTL
+>tr|A0A0P0LVN9|A0A0P0LVN9_9BURK
+MAKKIVGFIKLQVPAGKANPSPPIGPALGQRGLNIMEFCKAFNAQTQGVEPGLPLPVVIT
+AFADKSFTFIIKTPPAATLIKKSIKIDKASTKPGLEKVGKITRAQLEEIAKTKMKDLTAA
+DLDAAVRTIAGTARSMGVNVEGV
+>tr|A0A0P0M931|A0A0P0M931_9BURK
+MSTAPRAPLMSLDDALQALLARITPLTDAESVATFDADGRVLAEDLVSALQVPAFDNSSM
+DGYAVRRDDLLQPGAKLRVSQRIAAGHTGQALQPGQTARIFTGAPVPEGADAIVMQEQAE
+PVPGEEDVVRFTVVPEPGQWIRRSGEDIRQGQTALHRGQKLGPAELGLAASLGLAHLPVL
+RRPRVALFSTGDELVMPGDVSPQDMPPGSIYNSNRFFLRTLLHRMGCEVSDLGIVPDRRD
+ATVAALKTAADHHDLILTSGGVSVGEEDHVKPAVQSLGELNLWQIAMKPGKPFAYGQVRR
+QTAEGEAHFVGLPGNPVSSFMTFLLLVRPLLRKMQGMSTSAPHTQRLPAHFAWPKADKRR
+EFLRVRRNAQGGLDLFPNQSSGVLTSVVWADGVVDNPGGQTIEPGQLVDFWPFSECLA
+>tr|A0A0P0LAK4|A0A0P0LAK4_9BURK
+MMTIYTTENFDQWFSSLRDKQTARRIQARIDRAEDGNFGDHKSVGEGVFEMRIHHGPGYR
+VYFMLRGLEVVILLIAGDKSTQVKDIQIAQDMARQLKE
+>tr|A0A0P0LBV9|A0A0P0LBV9_9BURK
+MNEAQLIEVFGGQARFKVLQALFTEPGRGFGPRELAAASGIDPGNTARLLKRWSVAGLVQ
+RRQQDGLPRYYASTDPQLAPLVTLMQQDSALVRTLHETLEKLDGIEVALVFGSVARGQAT
+ASSDVDVLILGTASELKANAALRPAGRQLGRKVHATACTIEAFRKQVLDRESFAQEIVQS
+PRIPLIGHFDAAFFSAPGQ
+>tr|A0A0N7J8S7|A0A0N7J8S7_9BURK
+MTNFAIRPEDLQDTLAAALGDRVQNISIALAEVTVHVNAQHYLSVMQTLRDAPGCQFEQL
+VDLAGLDYSAYREVGTDGPRFGVTVHLLSVSLNQRVRVKVLCPDDDLPLVASVNELWNSA
+NWYEREAFDLYGIVFEGHNDLRRILTDYGFIGHPFRKDFPLSGHVEMRYDAERQRVIYEP
+VSIEPREITPRIIREEHYGGLN
+>tr|A0A0N7J996|A0A0N7J996_9BURK
+MSMPSKVQLIDVGPRDGLQNEKQPVPAAVKIELVHRLQAAGLTEIEVTSFVSPKWVPQMA
+DNAVVMAGITRQAGVRYSVLTPNMVGYQAAVASKPDEIVVFGAASQAFSQKNINCSIVES
+MERFAPVVQAALAAGIAVRGAMSCTVGCPYEGEVSPTSVAHLAGLMKQIGVQRVDVADTI
+GTGTPLKVQKAIEATLQHFDIDHICGHFHDTYGQALANTLAALQMGVWNFQSSVAGLGGC
+PYAKGATGNVATEDVVYMLHGMGIATGIDLDKLVDAGAFISDFLGRQPNSNVARAILNKR
+AG
+>tr|A0A0P0MAQ6|A0A0P0MAQ6_9BURK
+MLAQRTLKTLTQAVGVGLHSGQRVELTLRPAAPDTGIVFRRVDLPEPVDIPVRAESVTDT
+RLASTISVGQAKVFTVEHLMSACAGLGIDNLYVDITAEEVPILDGSASSFVFLLQSAGIV
+EQNAPKRFLRVLKTVQVSEGEGNNIKWAKLEPFHGYKLSFEIDFRHPAVDSTGQQVVFDM
+SEGVYSRDIARARTFGFTKDVEMMRANGLALGGGLDNAIVMDDYKVLNADGLRYDDEFVK
+HKILDAMGDLYIVGKPLLAAYSAFRSGHAMNNQLLRALLAQPDAYEIVTFEKSSQAPKGF
+AALQPAW
+>tr|A0A0P0MBT7|A0A0P0MBT7_9BURK
+MRLRQIVLLLLLALAIGAFVALDLGRYLSFEQLKVSQASFDQLYAQQPVMVAAVYFGVYV
+LATALSIPGAVIITLGGGAVFGLWQGLLLVSFASTLGATLAFLASRFVLREWVEARFGQR
+LADINAGVDKEGAFYLFTLRLIPVVPFFLINLLMGLTRMKTWTYYWVSQLGMLAGTAVYV
+NAGTQLAQLDSVRGILSPALLGSFVLLGIFPLLARRVVAAVQKRKVYARWASVRPKTFDR
+NLIVIGGGAAGLVSAYIAAAVKAKVTLIEAHKMGGDCLNYGCVPSKALIKSAKLAHQMRH
+GAQYGLSDTAPSFSFKAVMQRVHDVIKAIEPHDSVARYTSLGVEVLQGYGKLVNPWTVEV
+TLNDGQVQRLTARSIVIAAGARPVVPPLPGLDDVGYVTSDTLWDEFAKLDDIPKRIVVLG
+GGPIGCELSQSFARLGAQVTQVEMGDRIMVREDEEVSALARDALQADGVMVLTGHKALRC
+ERRGEDKILVASTQGQEVEIVFDALVCAVGRVARLQGYGLEDIGVPTHRTVETNEYLQTL
+YPNIYAAGDVAGPYQFTHTAAHQAWYAAVNALFGDFKSFKVDYRVIPWATFIDPEVARVG
+LNEQEAKEKNIPYEVTKYGIDDLDRAIADSEAHGFVKVLTVPGKDRILGVTIVGSHAGDL
+LAEYVLAMKHGLGLNKILGTIHTYPTMAEANKFAAGEWKRAHAPQKLLAWVKKFHDWRRG
+>tr|A0A0P0MC17|A0A0P0MC17_9BURK
+MPMDHSLQTIRALRLHPRGLQVLGCALLLGALASEVQAQSTTVTSPNAAFSRPEVTGLGG
+VVPTAPVRLRVWGFEVYDARLWTPVGFRHSTYTQFPFALELQYLRKLEGTAIASRSIDEM
+RRVGSFSDAQAQSWLTAMRELFPDVRQGERITGLNLPGVGAEFWFNGQRVGVVKDPAFAR
+LFFGIWLDERTSEPKMRAQLLQGLQP
+>tr|A0A0N7J887|A0A0N7J887_9BURK
+MNALKRWLDSDVGYSFRQSPTAMVAAGIAFICLFCSVFAGWVAPTNPFDLATLELSDARL
+PPAWMEGGSTKFLLGTDDQGRDILSALIYGSRISLVVGLASVVLSVAVGVGLGLLAGFKG
+GWIDALLMRMCDVMLSFPAILVALLIAGVGRALFPNANESLAFGVLIISISLTGWVQYAR
+TVRGTTLVERNKEYVQAARVTGVAPLRIMVKHVLPNVMGPVMVLATIQVATAIITEATLS
+FLGVGAPPTSPSLGTLIRVGNDYLFSGEWWITIFPGLMLVVIALSVNLLGDWLRDALNPR
+LR
+>tr|A0A0P0MAG9|A0A0P0MAG9_9BURK
+MAIPQSFIQELLSRVDVVDIVGKYVQLKKGGANFMGLCPFHGEKSPSFSVSPTKQFFHCF
+GCGKNGNAIGFLMEHAGMTFIEAVKDLAQQTGMQVPEEQQSPEDRARAAAAKAKQDSLSD
+VLEKAGEAYRDQLKITPHAIDYLKGRGLSGQIAKRFGLGYAPEGWRSLASIFPKYDDPLL
+AESGLVIVNEEDDKRYDRFRDRIMFPIRNIKGECIGFGGRVIGSGTPKYLNSPETPVFHK
+GRELYGLYEAREALHSAGYVLVTEGYMDVVALAQLGFANAVATLGTACTPDHVQKLFRFT
+DSVVFSFDGDGAGRRAARKALDGALPYATDVRSIKFLFLPAEHDPDSYVREFGQEAFAEQ
+IKQAMPLSRFLIEAASADCDLQTAEGRARLSSQARPLWQLLPDGALKQQLLSELAQLIQL
+ETAGLEKLWGQQAASDQRFAPAARNAAAPAAQSPNSAFSQAASAGHDEYPNFEPNYGEPP
+AWSGANTFAQPNGNSHWKNKNPNWMPGSKFGNGKYKREQPPVYTGPRTVPASRADHAARL
+LLGNMALWETLAGEDHAMLCALPAPHGPLFAWLESEFHEQGALGWSTLREHMQGQPFADD
+ATRWMAQDKLNAVAGSEDATPPDPQEARQELRRLLTLLMVDRLKQLETEALTQASTGQDP
+EAQQRWRSLHERRKALMAAAALLQESS
+>tr|A0A0P0M7D1|A0A0P0M7D1_9BURK
+MSEKRISVTLTQQHDYRFDIRFDDSMPVVTSDEPAPLGTGLGPSPVQLLCAAVGNCLSDS
+LLFALRKFKQAPEPLRCEVQAEVGRNVDGRMRVLEMAANLHLGVSAARLEQLERVLGQFE
+GFCTVTQSVGQGIPIQVRVLDADGVVLKS
+>tr|A0A0P0LQ36|A0A0P0LQ36_9BURK
+MNARYTCFCQISDLFDAEPSLRETRQHLHKFPELSFQEKSTAQWVGDRLEGWGYCVTRNV
+GGHGLVATLQNGAGRGIALRADMDALPIHEESGKPYASAHAGTMHACGHDGHTAMLMGAA
+QQLAKTRQFQGTVHLVFQPAEEAGKNSGAQQMIADGLFERFPCDAIFGMHNHPGAAQGTF
+MFGKGAFMSASDTCRIKVIGRGGHAARPHQAVDPVMIAGSLIMALQTVVSRNIDPTQTAV
+VTIGSVHAGQASNVIPEFATLGLSIRSFSPEVRNRLQERITHLVRDQVSSYGGEVEIEYE
+RGYPVVINSEAETEFARQVAEELVGPEQVVFPFGPVTGSEDFAYYLQHKPGSFLRLGNGL
+DSVMLHNAKYDFNDANLSVGAAYWTRLVERFLNEPATLADVL
+>tr|A0A0P0MAL4|A0A0P0MAL4_9BURK
+MIKLLVGLGNPGNEYEDTRHNAGFWWIDAVARELKVSLVPERSYHGLMARTTVNGQNLWL
+LEPQTYMNLSGKSVSALARFFKIQPQEILVAHDELDIVPGEAKLKLGGSHAGHNGLRDIH
+AQLGTADYWRLRIGVGHPGDKAEVVSWVLKKPMLEHRKAIDDSIFRALTALPLLLAGDME
+KAMVRIHTSKQPRPKPPRPPKAPNAEAPEMGAPKTE
+>tr|A0A0P0M9D2|A0A0P0M9D2_9BURK
+MAAITASMVAELRAKTDAPMMECKKALTEAEGDMAKAEELLRVKLGTKAGKAASRVTAEG
+VVTSFVNGTTGAMIEVNCETDFVTKNDSFLALANAAAKLVAEHNPADIAALGALPYSQDS
+FGPTLEDVRKGLIGKIGENMSFRRFKRAAGAAKIANYLHGTRIGVLVEYEGDETAAKDVA
+MHVAAMKPVSLTSAEVPAELIEKERSVAAAKAAESGKPADIATKMVEGSVQKYLKEVSLF
+NQSFVKNDKQTVEQMLKAAGTTVKAFTLYVVGEGIEKKVDDFAAEVAAQVAAAQNAAA
+>tr|A0A0P0LEG2|A0A0P0LEG2_9BURK
+MTTPIDTEALVIGAGPVGLFQVFQLGLQGIPCHLIDALPHVGGQCAELYGQKPIYDIPGI
+PFCTGLELIERLQQQIAPFQPTLHLGQQVDSVERLPDQRLLVTTSAGQTFRTTTLFIAAG
+VGAFVPRRMALEGLSAFEGTQVFAEHPAPERWAGQHLVVAGDGDSALQTCLDACQGPQAA
+ATVTLLHRRDQFSAAPELIAQMRQACTEGRMRFVASQPTGFTLAQGRLKALELLNPQGET
+EWLSLDLLQTCLGLSPKLGPVAQWGLAMERKQLVVNTENFGTSEPGIFAVGDINTYPGKK
+KLILCGFHEATLAAFGAVALLRPEEKTLLQYTTTSTLLHQRLGIA
+>tr|A0A0P0LQZ7|A0A0P0LQZ7_9BURK
+MGPSVSPTTPDLFGDLFADSPSDSPSAETPASRAQALRRQLHHHAHAYYTLDAPEIPDAE
+YDRLFRELQTLEANHPELLTADSPTQRVGGAVLDAFAQVTHRVPMLSIRTETDTEASGAK
+AFDTRIRKELGLTETDPAVIYVGELKFDGLAMSLRYENGVLVQAATRGDGETGEEVTANI
+RTIGQIPLRLPSDAPAVLEVRGEVYMRRDDFEALNERQRQRIAAGTKGEKTFVNPRNAAA
+GAVRQLDSGIAAERPLSFFAYGLGDITPASIGGPQWTTHHDMLMQLKAWGFPVADQTACV
+QGASGLVAFHQRIAAERDALPYDIDGVVYKVNDLALQTRLGFVTREPRWAVAHKYPAQEE
+MTTVQAIDVQVGRTGKLTPVAKLAPVFVGGVTVTNATLHNELEARRKDVRVGDTVIVRRA
+GDVIPEVVSVVLDRRPPDAAQFTMMTHCPVCGSLAEREEGEADHRCTGGLYCSAQRKQAV
+WHFAHRRAMDVDGLGDKLVDQLVDAGHVNTLADLYHLKLDTLSNMDRMAEKSAVNLLAAL
+EKSKTTTLGRFIFSLGIRHVGEATAKELARHFGQLDAIMVASEDALLQVADVGPVVAHSI
+HTFFAQPHNREVVQALRDAGVTWPEGEALAPTEMPLAGTTVVLTGSLPSMGRDEAKEKLE
+ALGAKVAGSVSKKTHYVVAGADAGSKLDKAQALGVPVLDDAGLALLLAGQRP
+>tr|A0A0P0LF90|A0A0P0LF90_9BURK
+MSLILTAPAAWFDLAVLRKMSTVPEVPVVEIAPDTAKYAEGKFISYPGSPFELYQPYPPA
+GDQPVAIEQLVEGVQDGEVFQTLLGVTGSGKTFTMANVIAQLGRPAIVFAPNKTLAAQLY
+SEFREFFPKNAVEYFVSYYDYYQPEAYVPQRDLFIEKDSAINEHIEQMRLSCTKSIMERR
+DVVIVATVSAIYGIGEPESYHRMIMTLRTGDKLGQRDVIAQLIRMQYQRNDMEFSRGKFR
+VRGDTIDVFPAEHSELAIRIELFDDEIDSLQLFDPLTGRIRQKIPRFTVYPSSHYVTPRD
+KVLAAVETIKLELAQRLKELVGMGKLVEAQRLEQRTRFDLEMLSEVGHCKGIENYTRHLS
+GAAPGDPPSTLTDYMPPDAIMFLDESHQMIGQLNAMYNGDKARKTTLVEYGFRLPSALDN
+RPLKFEEFEKRMRQCIFVSATPADYEKTHSGKVVEQVVRPTGLVDPQVEVRPATHQVDDV
+LQEIRIRVEKHERVLITTLTKRMAEQLTDYLSDNGVKVRYLHSDVDTVERVEILRDLRLG
+AFDVLVGINLLREGLDIPEVSLVAILDADKEGFLRAERSLIQTIGRAARNLNGRAILYAD
+RITESMKKAMGETERRRIKQLAHNEAMGITPKSIVKKVKDLIDGVYSEKSGKEAERLEQA
+AMQKAKVEDMSEKDIARAIKQLEKQMMEHARNLEFEKAAQVRDQLTILKEQAFGATGGDN
+IVPLIRA
+>tr|A0A0N7J8P2|A0A0N7J8P2_9BURK
+MARQYFGTDGIRGTVGQSPITPDFILRLAHAVGRVLKTQEAHPTVLIGKDTRISGYMLES
+ALESGFNSAGVDVVLLGPVPTPAVAYLTRAQRASLGVVISASHNPFADNGIKFFNAQGKK
+LSDAWEEAVEAALLEDPVWVDSAALGKTRRLDDAAGRYIEFCKSTFSNDLTLKGLKIVVD
+AAHGAAYQIAPKVFHELGAEVIAIGCSPDGLNINKGVGATHPEALVQAVKEHRADYGIAL
+DGDADRLQFVDATGRLFNGDELLYLMVADRLARDEAVPGAVGTLMTNLAVEVALKQRGVQ
+FVRAKVGDRYVLEVLHDKGWLLGGEGSGHLLALDKHTTGDGLVSALQVLQACVGSGQTMA
+QLLEGITLFPQTLINVRLKPGFDWQGHQPLWDATRAAEAELADSGRVLIRASGTEPLVRV
+MVEARDANQARACAERIAATLA
+>tr|A0A0P0LH99|A0A0P0LH99_9BURK
+MQRWGWVASIIAVTAGPAPAIFFENTSVKSSVKKNTPATASHAHAHDGFSYSRDHFEELV
+DIALHHAKKLGATNAGAEASEGCGLSVSVRKGELENVERNRDKSLGVTVYVDHRRGNAST
+SDFSKAAIERTVQAAYDIARFTAEDPTAGLPDEADIETNHRDLDLFHPWAINSEEAAKLA
+LQCEAAALKTSRRITNSDGAAVSAQQSHFFSAHTHGFRGGYASSRHSISVAPIAKLPGRN
+AEMQRDAWYTSMRSADEMASPEAVGRYAAERALSRLGARKIATTECPVLFESPVAAGLLG
+GFVQAVSGGALYRKSSFLLDSLGKKVFPKHIDIEEDPHLLRGKGSSPFDDEGVRSVRRQV
+VKGGRVEGYFLSSYSARKLGMKTTGNSGGSHNLTLTSRLTQSTDDLDAMLQKLGTGLFVI
+ELMGQGVNYVTGDYSRGASGFWVENGQIAYPVHEITIAGNLKDMLMGIEAVGADTYNMGA
+KTTGSILVNRMKLAGS
+>tr|A0A0P0MAJ0|A0A0P0MAJ0_9BURK
+MKKLLLISLATVTLSACVQEGSRTLPIQKVESAARPQVGPRVPVSVGKFDNRSSFMRGVF
+SNNEDRMGSQAQTILVTHLQQSQRFSVLDRSVMSEIKQEAALKKQNQNLKGADYVVTGDV
+TEFGRKDVGDRQLFGILGRGKTQVAYAKVNLNIVNTLTSEVVYSSQGAGEYSLSEREVIG
+FGSTASYDATLNGKVLDLAIREAVNNLVSGIESGAWRPAQ
+>tr|A0A0P0M6Q0|A0A0P0M6Q0_9BURK
+MTMNHPHTPHASFSTTPLYLSAPDAVALVRRKGLKNCIAGMAEYIRADFLRWPDFDKSAR
+VANHSQGGVIELMPIADDTTYSFKYVNGHPHNTAIGLSTVMAFGVLADVATGAPTLVSEL
+TLTTALRTAATSALAAKALARPNSRVMALIGNGAQSEFQAIAFQHLVGIDTVRLFDIDPQ
+ATTKLFANLSATGLKLQVCTSVAEAVQGADIVTTITADKACATIVTADMLAPGMHINAVG
+GDCPGKTELAADVLQAAKVFVEYTPQTRVEGDSQQMPADFAVTELWQVLNGTRTGRDNDA
+QITVFDSVGFALEDFSALRFMHEAALALGYGERLHLIPQLSDPKNLFVTLLDAGHKASAL
+PLPCLATAIA
+>tr|A0A0P0LD20|A0A0P0LD20_9BURK
+MPLPMLALIDGNNFYVSCERVFQPWLQGRPVVVLSNNDGCAIARSDEAKALGIKMGAPYF
+QLRELERDAGLIALSANFALYGDMSDRMMSLAAGLGHTQEIYSIDESFVDLSGIPGDLVR
+RARTIRQRIHQWIGIPTCIGIGPTKTLAKLANAIAKSAERKPGSYPAQHAQICHLGACTP
+EELQALLQATEVGEVWGVGRKIGAQLRENGIHTALDLQRMSPAAAKAGWSVVLEKTVREL
+NGVPCIEFEDEPPAKQQIACTRSFGHPVTELIELQEAITEFACRAAEKLRKQNSHTGQIM
+AFIRTSPFRKQDPQYSRSASIPLPSPTSDSAHITQAANAIVKRIYKPGYKYAKAGVMLMD
+LQPATREQLTLDLDETMPENRVRLMDAMDQLNQRYGRGTLKLASGGAPRAMKLWAMKQER
+MTPAYTTDWAKLLMVRTDA
+>tr|A0A0P0MAN5|A0A0P0MAN5_9BURK
+MDFDFSDDQEQLRDAVRKWVDKGYDFDRRRAIVAAGGFDRAAYGEMAELGLTGLYVSEEH
+GGMGMGPTEAMVTMEELGRGIVLEPLTQTLICSATLQTHAPAALQAAWLPRMAAGEAIVV
+LAQQERGARYQLNRCAAQASESGGAWTVSGTKSVVAIGDQADAFMVPATVNGQIALFLVE
+RSASGVSTQAYGTQDGSRAAEVVMQQAPAQLITLNGLTALEEAVDIGIVCTCAEAVGVMD
+KTMAITVDYMNTRKQFGVNIASFQALRHRVADMKMQLELGRSMSYYATLKLHAPADERRR
+ALARAKYQLGVSMRFIGQQAVQLHGGIAVTDEYIASHYFKKLTQLDMTFGDTLHQLGEVS
+ARMQETAGVFA
+>tr|A0A0P0LL14|A0A0P0LL14_9BURK
+MHMNFAIAPSDPTPIYRQIVEQVRRQIAGGVIGPGKELPSVRAVAQEHAINPMTVSKAYS
+LLEAEGLLARRRGMGMVVADHPGQSDNAQRQSLLRPSLQAAAQQARQLGLTAQAALAQFE
+ECLKETHQEERQ
+>tr|A0A0P0M7I1|A0A0P0M7I1_9BURK
+MSDETNVVFEKAAEMFSVLSTPIRLRIISELCQGEKNVGQLLDQIGVAQPNMSQHLNIMY
+RSGILGKRRQGAQMFYRIADETAVVVCRAMCTQVVIDTAVN
+>tr|A0A0P0MBZ1|A0A0P0MBZ1_9BURK
+MSIYINKDTKVITQGITGKTGQFHTEKCQEYANGKNCFVAGVNPKKAGESIFNIPIYASV
+KEAATQTGATVSVIYVPPAGAAAAIWEAVEADLDLAICITEGIPVRDMLEVRNKMKAKEA
+KGGKRTLLLGPNCPGLITPDEIKIGIMPGHIHRKGRIGVVSRSGTLTYEAVAMLTEVGLG
+QSSAVGIGGDPINGLKHIDVMKAFNDDPDTDAVIMIGEIGGPDEAEAAQWCKANMKKPVV
+GFIAGVTAPPGKRMGHAGALISGGADTADAKLAIMEECGFIVTRNPSELGKLLKAQLK
+>tr|A0A0P0LVS0|A0A0P0LVS0_9BURK
+MNPPCTLPPGVRVFERGWLSANNVLLLDADSATLVDSGYVTHQAQTLALVAQGLQGRMLD
+QLVNTHLHSDHCGGNQALQAHYPGLQTWIPPGLSQAVQHWREDELSYQPSGQNCPPFTFS
+GLLQPGSTHRWADMDWQVHAAPGHDPHSVILFAPEHRLLMSADALWQNGFGVVFPALEGL
+EAFDEVSQTLDLIEQLAPATIIPGHGAVFTEVGPALALARSKLEGFAQNPERHARYGAKV
+LLKFKLLEWGHITHADFSAWAMKVPYMRALHHRFGHGHSLSTWLDMMLAELARSGAVQEV
+DGVLHNT
+>tr|A0A0P0M8S4|A0A0P0M8S4_9BURK
+MSSGPKIDYRLAFDLAPIGMVLSRNRTMVDCNQRVCEMFGVPREQLIGQTFQLLYPSADE
+YERTGQRITPILNAKGVYADDRVMKRVDGRFKGETFWCHVTGRALNRDAPHEAGIWTFED
+LSARKPVKAELTAREREVAAHLMDGQTSKEIGRALGISHRTVEIYRVKLMRKYQASGAAD
+LIQKLMRG
+>tr|A0A0P0LE23|A0A0P0LE23_9BURK
+MTPQSHTLTQAPRWALLLLAVGLAVVVLGTAAGSQGWQAWWSVGADAVSRQIVWDIRLPR
+SLGAWLGGALLGLAGAVAQGLFRNPLADPYLLGSASGASLGVGVYLSLWGGSAWAMSGWL
+GLGLTGAAFVGAVLAVVLTLLLARGVQQRLRLLLAGVVVGVVLGAVTSLISLLQPQVLQA
+MQGFMLGSTAFVSWSACATMAVVLALCLALSWVFARVLDALSLGEATAQSLGVPLPLARM
+VLVGVISLATAAAVAHIGLVAFVGLAAPHLLRSLVRCTHAWRLALSALMGGALLVLADVM
+ARVMLAPQELPVGVLTAVLGGGYLLWRVYRDADTGVRS
+>tr|A0A0P0LGA1|A0A0P0LGA1_9BURK
+MISSEEGIRLAKRVAAEQNCSRREAEALIVAGGVQVGGKVVTDPARRVREEQTVLVNRLI
+SMAALAPMTLLLFKPAHRVANLAWLQDTVGLKAPQPGLWGPERLAKMQMPLPLAKPASGL
+CIFTDDVGVLRHLEDRRSPMEQEWMATVSGEVPEGLIKALNGPGIRASINRQTDSLTVLR
+IAGKDIDGLGLGRWLDEKCPLQDLRRQRVGRIGLAPLEPGQWRQTEGHERF
+>tr|A0A0P0MC41|A0A0P0MC41_9BURK
+MATNANQTAKAGKYGDLRRRLVFLLLALVVYRIGAHIPVPGIDPDQLKQLFNGQQGGILN
+LFNMFSGGALSRFTIFALGIMPYISASIVMQLMTYVVPAFEQMKKEGEAGRRKITQYTRF
+GALGLALFQSFGIAVALEASAGLVINPGMGFRMTAVVSLTAGSMFLMWLGEQITERGLGN
+GISILIFAGIAAGLPSALGGLFELVRTGAMNPLISMLIIVVVALVTYFVVFVERGQRKIL
+VNYARRQVGNKVYGGQSSHLPLKLNMAGVIPPIFASSIILLPATLIGWFSSGTSESVVVR
+FFKDVANALAPGQPVYVMFYAAAIIFFCFFYTALVFNSRETAENLKKSGAFIPGIRPGEQ
+TAKYIDKILLRLTAVGAAYITFVCLLPEFLILKYNVPFYFGGTSLLIIVVVTMDFMAQVQ
+NYLMSQQYDSLLKKANFKS
+>tr|A0A0N7J8D3|A0A0N7J8D3_9BURK
+MRVPSHSINVRLLYVSRAVGPQTTTMTTTILAQAQANNPAQGITGVLCQGQGFFFQVIEG
+ERSRVNALYSRISADTRHQDVEILHYEEIHERRFSQWSMALVHLSVDDPMVRLHHPDFDP
+YSASGPQVMQQVLDLLEMGQPIRLPAG
+>tr|A0A0P0LBQ7|A0A0P0LBQ7_9BURK
+MNKKTQLVLASLAAALVAAGCASAPSVAELNALTDKIVKASFRDESHVKVERITATDETN
+RVCSEADVAGQPLDEKTAKRIEEANLKAIKWPSDGKFIGDWKQGEAIAQSGRGLTWTDSA
+TGVNGGNCYNCHQMDKKEISYGTIGPSLYNYGKIRGVSNPDDPASKAIVEYTWGKIWNAK
+AYNACSNMPRAGHMGILNETQVRHIVGLLLDPKSPVNQ
+>tr|A0A0P0LPQ5|A0A0P0LPQ5_9BURK
+MTTLIKQDDLIESVAAALQYISYYHPADFISHLASAYEREQSPAAKDAIAQILTNSKMSA
+IGHRPICQDTGIVNVFLEVGMDVKFDGFTGSLEDAVNEGVRRGYNHPDNMLRASVVSDPH
+FNRKNTKDNTPAVIFTKIVPGHHVHVTVAAKGGGSENKSKLIMLNPGDSIVDWVLKTVPT
+MGAGWCPPGMLGIGIGGTAEKAVLLAKESLMDDLDMYQLLEKSSKGEKLDQVEEMRLELY
+HKVNALGIGAQGLGGLTTVLDIKIKMYPTHAASKPVAMIPNCAATRHAHFVLDGSGPSYL
+EAPSLDLWPNVGWTADTEKSQRVDLNKLTPEQVAAWKPGQTLLLNGKMLTGRDAAHKRIQ
+DMLAKGEKLPVDFTNRVIYYVGPVDPVGNEAVGPAGPTTATRMDGFTEMMLAKTGLIAMI
+GKAERGPVAIEAIKKHKSAYLMAVGGAAYLVSKAIKHAQVVGFADMGMEAIYEFDVVDMP
+VTVAVDAGGTSAHTTGPAEWQKRIATGEFKGIGVNAG
+>tr|A0A0P0M6I7|A0A0P0M6I7_9BURK
+MATSKSSPQKASPAQPTDQAFAPPAQQVWLAGLGAMAKAQEQGSKAMETLLNDGLAFQRK
+SQAEAQQRLQEATERLGHLASDFGQSASGRVDKLEHLFEDRVAKALHRLGMPSLLDIQML
+SERVAQLESQVQALQGQASKASPAAQKPAAKKPAAKASRPAAKPATASRKKSA
+>tr|A0A0P0LI84|A0A0P0LI84_9BURK
+MNELDTLVESARQSFVQALTPADLENAKAQFLGKAGRITELMKGMAALSVEDKKTRGAAI
+NIAKQAIEAALNDRRQALADAELQAQLKAEALDVTLPGRRANVGGLHPVSLTLERVENIF
+GSMGFEVAQGPEIETDWFNFTALNTPEDHPARSMHDTFYVEGGHLLRTHTSPMQIRHAVQ
+HVKRYKKQLDAGQGMPEIRVIAPGRTYRVDSDATHSPMFHQCEGLWIGENVSFKDLKVVV
+TDFCRTFFESDDLVLRFRPSFFPFTEPSAEIDIQFQSGPLAGRWLEVGGSGQVHPNVVRN
+MGLDPEQFIGFAFGMGMDRFTMLRYGVNDLRLFFDGDVRFLSQFQ
+>tr|A0A0P0MB83|A0A0P0MB83_9BURK
+MTDTTADATAYTPPKVWTWNKANGGRFANINRPIAGATHEQDLPRGQHPLQLYSMGTPNG
+VKVTVMLEELLALGHTGAEYDAWLIRIQEGQQFGSGFVSVNPNSKIPALLDCSGEQPVRV
+FESGAILVYLAEKFGALLPTDPAQRAECMSWLFWQMGSAPYLGGGFGHFYAYAPFKIEYA
+IDRFAMEVKREMDVLDRRLAESRFIAGDEYTIADIAIWPWYGALAKGLLYEAGEFLAVHT
+YTHVQRWAEELAQRPAVKRGRMVNRVVGTPESQLHERHDAGDFDTRTQDKIKAA
+>tr|A0A0P0M8E1|A0A0P0M8E1_9BURK
+MDLKQLEYFVRVAELGSFTRAAQALNVAQPALSRQVRLLEVELRQNLLVRNGRGATPTQA
+GLLLLEHGRGILHQVERAREELGRVRTGLTGRVALGLPPSVARVLTVPLTRAFRAKMPEA
+QLSISEGLSSAMQENLQNGRLDIAVLYNPSPMPGIEHTPLVQEELLLVQPRPPGLQEDPP
+PPAIGLQEVAALPLVIPTRPNAIRMHVESEMAAIGYRPLIALEIDGVSAILDLVADGAGY
+AILPRNAVMRSVRPSAFSVRPLKQPALHIQLTTAISAQRPGTLTQQATLALLTEMAVQWL
+SPP
+>tr|A0A0P0LIN2|A0A0P0LIN2_9BURK
+MDEPILTMEEREAINSGRWFSSLSPSLRHDILRCAYVKRHKDGDMLAARGDPPEQWIACA
+KGAVRVSSTSVSGKQITLTYVEPGIWFGDVSIFDGDRRTHDCYAHGETTTLNVAKADFKK
+ILTQHVEFYDAMLRLHARRIRQLYGLVEDLNTLPLRARLAKQLNHLLRSYGVPSLSDAKA
+IRISLQLAQEELAQLLGASRQRVNQELKQMEREQIIRIEPGGLVVLDRDALLLIVNADH
+>tr|A0A0P0MAR1|A0A0P0MAR1_9BURK
+MHITLIGAGAWGTAMALAAARQTGGHAVTLHARDAAQADALRTDKQNARYLPGVDLPDSI
+EISSAPLASLLSTSPNCNLWVIATPMAGLRATLTAMANVIAPVVWLCKGLESGTGLMPHE
+VQAQVAPHLKAGALSGPSFALEVARQQPTALVAASAHAPVRDALVHAFHGPALRVYANSD
+IVGVEVGGAVKNVLAIATGLCDGLHLGLNARAALITRGLAEMTRLGLALGAHSDTFMGLS
+GLGDLVLTATGELSRNRKVGLLLAQGQTLDQAVASLGHVAEGVYSARTVMQRARALGVDM
+PITEAVVALLDARLSPREAVVALMGRDPKGEFA
+>tr|A0A0P0M8K3|A0A0P0M8K3_9BURK
+MPAPVDNPTNFAKTIRQMPSPAPFKVLSLIPPMTQLNTPYPSTAYLTGFLRSRGFDAVQE
+DLALATVLALLNKQGLADLRDAALALPVEERSGPVNFFLDHFNDYAVSIDPVIAFLQGRD
+STLSHRIAGRGFLPEGPRFAALDAYEDDGTGDPIGWAFGALGQTDRARHLATLYLNDLAD
+VLRDAVDEGFEFVRYAERLAASQPSFDALAEALAESPNLIDTTLERLALQAIERHQPTLV
+LLSVPFPGSVYAAFRIAQCIKRAHPHIRIGLGGGFVNTELRDLKDARVFDHVDFVTLDGG
+ERPLLSLIEYLQGQRSMQRLQRTFIRNDTGQVQYINLQEPDIPFEEVGTATWDGLPLHKY
+LSLLDMLNPMNRLWSDGRWNKLTVAHGCYWKKCSFCDVSLDYISRYETAQASTLVDRIEQ
+IVAETGQTGFHFVDEAAPPKALKALAEELLRRGVQISWWGNIRFEKTFTPGLCELLAQSG
+CIAMSGGLEVASDRLLSLMKKGVSVEQVAQVTKGFADAGVLVHAYLMYGFPTQTVQDTVD
+ALEYVRQLFENGCIHSGFFHRFVCTVHSPVGRNPEAYGVTLLPLPEGTFAKNDVGFVDPT
+PMPPGVDHDLLGQGLKKAIYNFMHGVGVENDVRQWFELPKGQCPKTTVPRHKIAKALG
+>tr|A0A0P0MAH6|A0A0P0MAH6_9BURK
+MTPIERRASASLASIFALRMLGLFLVLPVFALEARRYPGGEDPVWLGLAMGIYGLTQGLL
+QLPFGMASDRFGRKRVIVLGLVIFALGSFWAAAATDLMGLLLGRSLQGAGAVSAAVTALL
+ADLTRDEVRTKAMALVGGSIGLMFAFSLVISPLLTAWIGLSGLFWLTGVLALVGVGVVIW
+GAPPAPEPVLGQGPGRLRDVLAHADLMRLNVGVFVLHAVQLAMWVAVPALLVQAGLQTAQ
+HWQVYLPAVVLSFLFLGVVFAMERRGHLKKVFLFSIALMTLVEVGLLVQSAGTTSLSAMA
+LLLLVFFCGFNALEATQPSLASRIAPRAMRGTAMGVYNTLQSLGFFVGGLAGGWLVKSWG
+SPVLFLCCGLALLVWLCVAWPMQTPGRAAPVGQVA
+>tr|A0A0N7J8K2|A0A0N7J8K2_9BURK
+MSNTLTVDVLIAGGGPCGLMLAIELGRRRIRCLLVDAKPGTAFNPQANATQARTMEHFRR
+LGFAHEIRSMGLPPDHPTDIAYLTRFAGTELARLRLPTAAAAPQAIKNMSGSWSAAELPH
+RVSQKFVEVCLHRHAQQQASVEMRYGWQLASFEDTEGGIKAMVQSVNGEEQLNVQAAYLV
+GADGARSMVRRELGIAWGGATGFKRKFMGGKMLAVYLKAPEFYARNPNDRSWMYVVVNPE
+LRAFIMSVDGVSEFAFHIQMADDAATEALTEADARRLFAQAFGQPIDIDILSMATWMAGH
+ALVAESFQKGRVFLGGDAAHLFTPTGGLGYNTAVEDAVNLSWKLASVLKGQAPAALLDSY
+HHERHALAVRNTGYARQFADSIGLFEAVPELEDKSPEGEAARSVASDYLNGHVRREFNIP
+GVTFGGRYDGSHIIVGDGTTAPPDAANSYTPCATPGGRPPHAWLPDGRSLFDTFHTEWTL
+LVLGPEPVDTTAFENAAATMGMDLRAVHHTSPEIFDLYQAPLVLIRPDQIVAWRGQGGEA
+AQPILAKVMGSGDTVQGHTTDPDLPA
+>tr|A0A0P0MAQ7|A0A0P0MAQ7_9BURK
+MSAVLDHHDHAHDDHGHAPAGWRRWVYATNHKDIGTLYLLFSFAMLMVGGVLALGIRAEL
+FQPGLQVVNPELFNQFTTMHGIIMVFGAIMPAFVGFANWMLPLQIGASDMAFARMNNFSF
+WLMIPAALMLVGSFFMPGGAPAAGWTLYAPLTLQMGPSMDAGIFAMHILGASSIMGSINI
+IVTILNMRAPGMTLMKMPMFAWTWLITAYLLIAVMPVLAGAITMTLTDRHFGTSFFNPAG
+GGDPVMYQHIFWFFGHPEVYIMILPAFGIISQIVPAFSRKKLFGYASMVYATSSIAILSF
+IVWAHHMFTTGMPVTGQLFFMYATMLIAVPTAVKIFNWIATMWRGSMTFETPMLFAVGFI
+FVFTMGGFTGLILAMAPIDIQLQDTYYVVAHFHYVLVAGSLFALFAGVYYWIPKWTGVMY
+NETRGKIHFWWSLISFNITFFPMHFLGLAGMPRRYADYPMQFTDFNMIASVGAFFFGFAQ
+VYFFLFIVLPAMMGKGEKAPQKPWEAAEGLEWEVPSPAPFHTFENPPKLDATATRVIG
+>tr|A0A0P0LDI2|A0A0P0LDI2_9BURK
+MTAEYKVHGDVAVITMMNPPVNGLGLSTRIGITDGLEKANNDASVKAIVITGAGKAFSGG
+ADIREFGSPKAIQEPNLLSVIRSCENSAKPVVAAIHSVAMGGGLELALGCHYRIASPGTS
+VALPEVKLGLIPGAGGTQRLPRVIGVEPALNMIVSGEAIKSDMLAMLPGQKLFDAMAKSP
+ESLPEEALALARKVAAAHADGSPLPLVRNLPCKHPQGDAYFQFARNMAKGMAKNLPAPVK
+CVDAVEAATKKKFEDGMVFEREIFMNLMLTPESRALRHIFMADRAASKIADVPEDTPKRE
+IKSVAVIGAGTMGGGISMNFLNAGIPVKMLEMKQDALDRGVATIRKNYEAQVKKGKLKQE
+KYDERMALLSTTLSYDEIGQADLVIEAVFEEMGVKEAVFKKLDEVMKPGAILASNTSTLD
+VNKIASFTKRPQDVVGMHFFSPANVMKLLEVVRGAQTGKDVMATVMAIGKKIKKTSVVSG
+VCDGFIGNRMIEQYSRQAGFLIEEGCTPAQVDKAVEKFGFAMGPFRMGDLAGNDIGWAIR
+KRRYQEKPGMMYSKTADLLCEMGRYGQKTGAGWYDYQAGKRDAIPSPVVVEMIEKHRAAQ
+GITARKISDEEIVQRLVFSLVNEACHILEEGIASKASDIDMVYITGYGFPFWRGGPMNYA
+DTIGLFNVAEAMKRFAKNPLDDAQFWQPAPLLARLVAEGKTFN
+>tr|A0A0P0M7B5|A0A0P0M7B5_9BURK
+MAFDLVFFGGTGDLVWRKLMPALFQAYRHDSLPEGGRIIGVGRDDLSDEQYRQQIQSRFD
+QVDGDKRPNSEEFARFASLLCYVRMDLSKPESYAALSARLAERETDSVVMYLSTAPSLFT
+TVCEQLAANGLNTAKTRIVLEKPLGHDLASNRAINQAVGQVFKEQQIFRIDHYLGKPAVQ
+NLFALRFGNALFEPLWRREHIANIQITMSEELGVEKRGGFYETTGALRDMVQNHALQLLC
+AIAMEPPINAHADAIRDEKLKVLRALKPWTPETLSQHVIRGQYSAGNVFGQAVPGYREEP
+GVNTTSSTETFVALRTEIANWRWAGVPFYIRTGKRMASREAHIEINFRKTPHEIFKSPLG
+QANKLVIHLQPKDGLELHLFAQGQSKRGEGSGGATLSPVHLDLDFDKRFGSQRVGAYERL
+LLDVLDGRLNLFVRSDEQEEAWRWVEPILQHWQNDTMGPRPYAAGTWGPSASSAMIARDG
+FCWSEEI
+>tr|A0A0N7J8H4|A0A0N7J8H4_9BURK
+MPLKNTLLTHMGVATCAVAVLLTGCASSSQEQKGAGTGAVIGAVAGQILGRDSKSTAIGA
+GLGALGGYIWSKQMEDKKRAMEQATAGTGTVVTQTVDNQLKLSIPNDISFDTGRADIKPN
+LRPILDHFAQGLSQQTSMEVRIVGHTDSTGSDAINNPLSVNRAQSARDYLVGRGVNSSRI
+SIDGRGSREPVADNGTAEGRARNRRIDIFLAERGQR
+>tr|A0A0P0M740|A0A0P0M740_9BURK
+MTVSADALHIVCPHCHTTNRVRVADLHNAPDCGQCHTPLFDGRPLELNAASFDKHIGRSH
+VPVLVDFWAPWCGPCRMMAPAYEQAAGLLAPQVRVAKLNTEEAQAIAARFNIRSIPTLAL
+FVGGQEVARQAGAFRSAQDIADWTRSHL
+>tr|A0A0P0M902|A0A0P0M902_9BURK
+MSTAPLYLTAALYIFVDLPDFEALQAPLQACCEDNDVKGTLLLAHEGINGTIAGPEDGIR
+TVLAFLRADPRLASLVHKESWSPKPPFTRMKVKLKKEIVTLRVPELDPNKTVGQYVKPAD
+WNALLADPDVVVIDTRNDYEVAIGTFKGAINPNIKNFVQLPAWLDAQPHLQGEAAKKTKV
+AMFCTGGIRCEKSTALMKMRGFDEVYHLEGGILKYLEEIPPEQSTWEGECFVFDERVSVG
+HGLGLGSHELCRSCRWPLSEQDKQSPHYVLGVSCEHCHDQRTPEQKEKLAERQRQVELAE
+SRGEIHVGAKMPHHDAP
+>tr|A0A0P0LBA9|A0A0P0LBA9_9BURK
+MKFRCILTLLSAIALTGLWGRPAQAQNRGDEVLLEMHQAFRKKDSNRLSALLPQARGHVL
+EPLAAYWDMRARLDTSSSAEIRSFLNTYAGSYYEDRLRNDWLLQLGKRRDWATFTAEYPR
+FRMRDDREVRCYALATEAMNSKADVAEEALRLWYAQREPDDGCAYVAEHLHSGRQIQALD
+LWRKARIAMDANRPRAAQVAVDIEAPRLSEQVNLIHADPAKYLDKRILAITRSRKELAVL
+ALIRLAAKDPDEAADLLSKRWAIQLSPEERNWTWGVIGKQAAQKLQDNAVQHFAKVQKDS
+DLNDDLLAWKVRAALRQGQWPQVLSATLAMSADARKDPTWIYWRARALLSTAQNEAQRQE
+GQSLLRQIASVRGFYEQLALEDLGQAITVPERPTALTPQEKAAALVNPGLQRALYAIQIG
+LRPEGNREWNYSTNLHTPGGMNDRELLAAADLACQRQVWDRCINTSERTKDVIDFDQRYP
+VPLRETVVRRAGDIRLDPAYVYGLIRQESRFVMDARSHVGASGLMQVMPATAKWTAKKIG
+LTHFTPDQITDREVNVAIGTGYLKLVLDDFEGSMPMATAAYNAGPGRPRQWRNGPVLDAA
+IWAENIPFLETRDYVKKVLSNTTNYAAILTRQPQSLKARLGKVGPRNASTTEVNTDLP
+>tr|A0A0P0LI64|A0A0P0LI64_9BURK
+MMDADNDESTRRFGGVQRLYGMAGASRIQQSHVVVVGIGGVGSWTAEALARSGVARLTLV
+DMDHISESNINRQIHALSNTTGQSKVLAMQERIALIHPQCQVDVVDDFVTPENWPELLPC
+KPDALVDACDQVKAKVSLAQWALDEGLGFITVGAAGGKRLAHKVDVDDLSRITHDPLLAQ
+LRYRLRKHHGAAKGGKSIGILGVFSREAVAPPDASCAIEGDGSLNCHGYGSVVSVTATFG
+MCAASEILNFLAVSPRGRKNDAII
+>tr|A0A0P0M7B9|A0A0P0M7B9_9BURK
+MSIFRPYLSAIEAPSLAEVQALPGLTLLEFGTEWCGHCRAAQPLISQALASHTDTEMPFQ
+HLKIEDGPGRALGRHYRVKLWPTLVVLRDGQEVGRLVRPATAQDVLAALSV
+>tr|A0A0P0MAQ5|A0A0P0MAQ5_9BURK
+MKNWWPLLLTLVIQAMVAMALLSLPVVAPVVAQTLQVSPALVGLYVSVTYAGAMVATLMG
+GATVARMGAIRVSQWGLVLCALGLLLCAVPWLPSMVLGAVLIGLGYGPITPASSHLLART
+TPKHQMSLVFSIKQTGVPLGSMLAGAVVPPLALLGNWQLSLVVVAVVCVLCAWVSQSLRA
+ELDSDRQSDSAIRWGSLIEPIRLVLAHRALLIMASCSFMFSMVQLSLTTYLVTFLHDDLS
+YGLVAAGLALSVTQLGGIGGRVVWGYVADRWLGARLMLLLLASMMASGALASAFLTTDTP
+QAVVIVILVGFGASAIGWNGVYLAEVARRAPSGMASMATGGTLAFTFLGVVVGPPMFGAL
+SGLFGTYRAGFVGLMVMASISGTVLYWSQRPR
+>tr|A0A0P0LM51|A0A0P0LM51_9BURK
+MAHSTSSNTAQLAAFAASLRFEDIPEPVVRKIEDLLVDWFGSAVAGHGSRPVESITRFAQ
+AMGPAQGPSEVIINRARTTPYLAAMANAAASHVAEQDDVHNGSVFHPATVVFSPAVAVAQ
+ALGASGQQLLAASVVGYEVGIRVGEFLGRSHYRVFHTTGTAGTLAAAAAVGHLLGLNAQQ
+MQHALGSAGTQSAGLWEFLRTAADSKQLHTAHAAGAGLMSAYLAKDGFTGAAEILEGPQG
+MAVGMSSDADPSRLVDGLGTRWATAETSFKYHASCRHTHPAADALLHVMQTHGLKLDDLA
+QVVTHVHQGAIDVLGPVVRPVTVHQSKFSMGTVLALVAQHGHAGLTEFDRDFLSQATQAL
+RDKVSMVLDAEVDSAYPKRWIGKVTVTTTDGRVLHGRVDEPKGDPGNTLSRKEITDKALR
+LAAFSGGATPEAMRQSVDALWQVASWPTVGPLLP
+>tr|A0A0P0LMJ2|A0A0P0LMJ2_9BURK
+MSNITHVLADKLTALGWMMATAESCTGGLIAAQCTDSPGSSRWFDRGLVTYSNAAKSELL
+GVEPSLIAAHGAVSEEVARAMALGAVYRTQARAAVSVTGIAGPDGGSDAKPVGTVWFAWC
+IDGLVYSECKLFTGTRQDVRQASCVHALQALIQRLPVQT
+>tr|A0A0P0M6V8|A0A0P0M6V8_9BURK
+MRILIAEDDQVLADGLLRTLRSAGAAVDHVASGSEADAALMTNNEFDLLILDLGLPKMHG
+LEVLKRLRSRGSVLPVLILTAADSVEERVKGLDYGADDYMAKPFSLQELEARVRALTRRG
+MGGATSQIKHGPLVYDQSGRVATIDGKMVELSARELGLLEVLLQRAGRLVSKDQLVERLC
+EWGEEVSNNAIEVYIHRLRKKIEKGPIRIATVRGLGYCLEKIPG
+>tr|A0A0P0M898|A0A0P0M898_9BURK
+MNDNNTVAPKRRGLARVWHAFFYSIEGLRAGWHEPAFRQEAMLGVVILPAAWWLGQSWTE
+VVLLVGVVVAVLVVELLNTAIEAAIDRVGPEWHEQSKLAKDTGSAAVLLSLLLCGGVWLS
+ALWRWWSA
+>tr|A0A0P0MBQ0|A0A0P0MBQ0_9BURK
+METRAVLRGVRLSVDKGRLVADLIRGKKVDQALNILTFTQKKAAGIVKKVLESAIANAEH
+NDGADIDELKVKTIYVEQGTTLKRFTARAKGRGNRISKPTCHVYVTVGN
+>tr|A0A0P0LBC4|A0A0P0LBC4_9BURK
+MPLFVLRRLLSFVLTLLATSVVVFAVLEILPGNAAEVILGETATPESIAAMEEKLGLNQS
+AATRYLNWMGGLLQGQTGLSISYDTPTAQLMAERMQVSLPLAVMAMGLTVALALALGIYA
+AAQQNKAGDVGVMTLSQLGLALPNFWLAILLILLFAVHLEWVSAGGFPGWSEDDGGGVGE
+GIKALLLPAMALAAVQTAILTRVTRSAVLDTLREDFVRTARAKGLSRRQVLWGHVLRNAM
+IPVLTVMGLRFGNLITSAIVIENVFVLPGIGRLIFQAIANRDLIVVRDVVMLLSALVILI
+NFCIDVLYAWIDPRLKAGHAG
+>tr|A0A0P0M772|A0A0P0M772_9BURK
+MMIIMSSLPTRKELSHARIVEVASKAIRRAGYRGIGVADIMKEAGLTHGGFYAHFESRDA
+LVVEALARAGQENIESLTEVIERRLAKGGTRYQALVETYLHQAHMERIEDGCVVAALSSE
+MTRQDEVVRVEARRRVDAMIALVQAALPEYADENEASVITATMVGALQLARTLGGKEGRT
+VLTQTRQALLERYQHTTQH
+>tr|A0A0P0M9Z6|A0A0P0M9Z6_9BURK
+MRQIVLDTETTGLSAEGGDRIIELGCVELFARKLTGNNLHFYFNPERDSHEDALKVHGIS
+NEFLRDKPKFAQLTDEILDYLADAELIIHNAAFDIGFLNKELERVGKKPLKAYVSGVIDT
+LAMAKEMFPGKRNSLDALCDRLEVDNSGRTLHGALLDAELLADVYINMTRGQEALLIDAG
+DAPSDTQTMEVQVDLSQYALPVLTANAQELAAHEELLVQLDKSSGGKTVWRQAQAA
+>tr|A0A0P0LJG6|A0A0P0LJG6_9BURK
+MARAIEPDSEIRHRTVPLKDSITRIPGYPRKLVIFKLPASSYWWVRYYAENHVFKRTTKT
+EIKRDAMEAAKRFYDDVNFRMRGGKLEGIPMTENVAKVITFTKVKDMLMQSEAAKLERTQ
+LSKITYDNMQMRYDKHISPFFEQKDIRSINYKLLDEFLQKLSSVEPKLSVSTLSAYMGLT
+RKVLQHAARHSYIDHIPEFPKVGVEDKPRGWFNVGEYKAITKAAKKLAGKKIEWRAHSVE
+GKRSYFCEAGKAIDPKHRVIKRIQMTKDLADLIVFMVNSYVRPTDIRNMQHKHIEVVERH
+GWKYLRLTLPPSKGHSYPIVSMPWAVKVYERIWKRQTKEFGRAPQPDDYVFLPMAASRDF
+AMKLLAKQFEIVLEITKLKLSIINEPRTLYSLRHSCIMYRLLFGSGIDTLTLARNARTSP
+EMIDRFYAAPLQGEMNVEMLQSKRRPRPWELQQG
+>tr|A0A0P0MAL0|A0A0P0MAL0_9BURK
+MLYKRNNPQLNKNGELIHLLSTEGLSKDILTHILDTAQGFVSVSDREVKKVPLLRGKSVF
+NLFFENSTRTRTTFDIAATRLSADVYTLDIARSSASKGESLLDTIANLSAMAADIFVVRH
+SESGAPYLIAQHVAPHVHVVNAGDGRHAHPTQALLDMFTIRHYKKDFANLTVAIVGDVLH
+SRVARSDIHALTTLGCAEVRVVGPKTLVPADMAQMGVRVFNNLEEGIQGCDVVIMLRLQN
+ERMSGALLPSSQEYFESFGLTPEKLQLAKPDAIVMHPGPINRGVEIDSAVVDGQQSVILP
+QVTFGIAVRMAVMSIVAGNVA
+>tr|A0A0P0LB74|A0A0P0LB74_9BURK
+MIGKLTGILSDKNPPEVVVDCHGVGYEVNVPMSTFYNLPATGEKVTLVTHFVVREDAQIL
+YGFATLSEREAFRQLIKISGVGPRTALSVLSGMSVTDLAQAITTQEVGRLVKVPGIGKKT
+AERLLLELKGKLGGDLGGLFAVNTPDAQSDIQQALLALGYSDKEAAAALKSLPADVGVSE
+GIKLALKALNK
+>tr|A0A0N7J896|A0A0N7J896_9BURK
+MTTVFKSTEARPMPGRSTGPVAWLRANLFSSLGNSLMSLALLAVCLWALVSSLDWAVLQA
+VFGSNLQACNDARGAGACWGVISEKGRLIVMGRYPEIEHWRPVIATALMLGVVVISCMPR
+FWNKALPLIWAVMLAVYFVLMKGGFFGLTEVDTDQWGGLPLTVMLTVISMTLAFPLAIFV
+ALGRRSNMPAIRTLCTLYVELVRGVPLITVLFMASFMLPLFMPEGVKIDVLVRVVVGITL
+FSGAYMAEVIRGGLQALPKGQTEAAATLGLSYWQTQRMIVLPQALATVVPSIMNTFIGLF
+KDTSLVTIVSLYELTGALGLALNSDADWRPFKIEAYLFITFIYFAFCFAMSRYSLWIEER
+TAVSKVR
+>tr|A0A0N7J912|A0A0N7J912_9BURK
+MLDLQRFLTFRQWPRLTAPLARTEVLAGLTVALVMIPQAVAYAGLAGMPLVTGLYTCLIP
+ALLAVLFGSANRLSVGPAALTCVLIGASLTGMAEPGSPEWVALAVWLSLLSGVIQLLLGL
+GHYGWLINLVSAPVMTGFTQAASLLIMASQVPGLLGVKAWSWDVQTWSTWLSSWPALFGL
+GSLAVLLLLRRFKPRWPGIMIVMGLASAIAYATDYQDHGAVVGLLPSGLPDFYWPAWPGL
+DRVNQLWVPAMVIALVSFLETASSARIECRRDGKRWDDSTELFSQGLAKIASAFSGSFAT
+STSFSRSALMLYAGARSGWAVIASVGFVLLALLLLMPALQFVPRSVMSAAVIVAVLNLFQ
+PRQFLNLWRVGRIETMTAGITFAMTLLTAPRIYWGVMTGVLVGLSHFLHTRLHPRIIEVG
+LHPDGSLRDRHLWKLPPLAPQLYALRMDAELDFAAASDFDRAITDHLARHPDVLHVCLFA
+QPINRIDVTGVETFGQLHRQLVSRGITLHISGIKLPVESTLRRAGELAEGPYLKLYRTDA
+EALHALAQLTPLPNDIAAAAI
+>tr|A0A0P0M7T1|A0A0P0M7T1_9BURK
+MEASFLAQQFVPLMFVGLFVLLLTGFPVAFALAACGLGFGFIGMEAGLFPASLFQALPLR
+IFGIMQNDTLLAIPFFTFMGIILERSGMAEDLLETVGQVFGPVRGGVAIAVILVGALLAA
+TTGVVAAAVISMGLISLPIMLRYGYSRTIATGTITASGTLAQAIPPSLVLIVLADQLGRS
+VGDMYAGALIPGLLLVGLYILFIVVVALVKPDMVPALPPEARIYREDNGASGHRSLLVLL
+ALCALIGYGWAQIHDQIIGGMIGRTQPAAGDEIIIMSMTVASLTGLALSIVNRVTKMGLL
+SKLAEQVTFVLMPPLILIFLVLGTIFLGVATPTEGGAMGALGAVVLAVVKGKFSMDLSRQ
+ALDSTAKLASFVLFILIGSTVFSFTFNAADGHIWVEHLFTNMPGGAIGFLIVVNILIFIL
+GCFIDFFEIAFIVIPILAPVAEKILPAMVPGMTPDQAMIWFGVIIAMNLQTSFLTPPFGF
+ALFYLRSVAPKNDYKDRVTGALIPSVKTTEIYKGSIAFIILQLIMVVAVIMYPGMVTGGM
+DEGTKLDANEVMMQLESSSNAGDPGADDALKPDESAEDESSQKSDDDALKALMATEPKK
+>tr|A0A0P0M992|A0A0P0M992_9BURK
+MKFANMQATSYNDKVVRQFAIMTVVWGVVGMLVGVIIAAQLTWPELNFGISWLSYGRLRP
+LHTNAVIFAFGGCGLFAAAYYVVQRTCNVRLISDKLAAFTFWGWQLVIVLAAISLPLGFT
+SGKEYAELEWPIDILITLVWVAFAVVFFGTVGTRKVRHIYVANWFFGAFIIAVALLHIVN
+SAALPVGMMKSYSAYAGVQDAMVQWWYGHNAVGFFLTAGFLGMMYYFIPKQAERPVYSYR
+LSIVHFWALIFTYMWAGPHHLHYTALPDWTQSVGMVFSLILLAPSWGGMINGIMTLSGAW
+HKLRDDPILRFLIVSLSFYGMSTFEGPMMSIKTVNALSHYTDWTVGHVHSGALGWVGLVT
+MGSMYYLIPRLFGQKKMYSVKAIEIHFWTATIGIVIYIAAMWIAGVMQGLMWRAINADGT
+LTYTFVESVKATYPFYVLRLLGGVLYLSGMLIMLWNTLKTVSMGRSVEVRIPQLEPAHA
+>tr|A0A0P0LNJ6|A0A0P0LNJ6_9BURK
+MKNLPAKALEQIAAYFQALSEPTRLQILNLLREAEHNVGELAQLSGYSSANVSRHLSYLA
+QHGIVARESRGASVFYKVSDPSIYALCDLVCANIARQYEQTSSDRALFSPG
+>tr|A0A0P0MAI9|A0A0P0MAI9_9BURK
+MDAHLPLPKYHQIYLVLREQLREGRFDDGLPGELALMGQFGVARVTVRRALSQLAEEGLI
+QREPGRGTRPIAARAQEVQMQASTMATGQQARLTGLLENLVTMGMRTKVKVLSVERLRAP
+VDVAAALKLRSTELVQKAERVRSTPEGPLSHITTWVPDSISSGFGKRELAQKPILVLLEE
+SGVKVGRAEQTISARLADVGMAQHLDVSVGSALLAVRRLIYDEDDRPVQWLHGLYRPDRY
+EYQMQLSRVGSIDAKVWVSQELSANFH
+>tr|A0A0P0M8W8|A0A0P0M8W8_9BURK
+MSESLKENTPKVEKTAKAQKLVGVKGMNDILPPDSARWEWLEGQVRALMARYAYRNVRLP
+IVEPTALFVRGLGEVTDIVEKEMYSFEDRLNGEQLTLRPEGTAGLVRSVVEHNLLYEGGK
+RLYYMGPMFRHERPQRGRYRQFHQIGAEVLGFGGAEVDAELILLANDLWKVLGLKDVRLE
+LNSLGQPAERQAHRAALIAHLEKHSDVLDEEAKRRLHSNPLRILDTKNPAMQSVVEAAPR
+LLDFLGEASLAHFNAVKAILDANGVAYSINPRLVRGMDYYNLTVFEFITTSLGSQGTICG
+GGRYDYLIEQVGGKPAPAVGWALGVERVLELIKEQGEALPDLAPDVYAIIPETAALPVAM
+QVLQTLRACGVSAQMHAGSGEGMGSMKSQFKKADGSGARFALVFGAEELAQGHVAVKSLR
+DGEGAQRTEPLNTVAAWAHSLQSAL
+>tr|A0A0P0M9I6|A0A0P0M9I6_9BURK
+MSMDNIFGIAGSALNAQLTRMNSTASNLANAGTVSTTEQDAFRAKRPVFKALVNEQMTNA
+GAPYVGGVKIDRMADDTAPPRRVSDPSNPLADKDGYVYQTNVSEVTEMVEMMAAARSYQN
+NVEVINTARQLMMRTLDITKA
+>tr|A0A0P0LR09|A0A0P0LR09_9BURK
+MSDAQPESQPPTGLAPQPGIVQRLLRLKPYFWRQRSVWAMAMGATLVAALTEPLIPALFQ
+PLLDNGFAENSLPLWSIPLVVIGLFGLRGLAHFVAQYALARVTNDGMEKLRSDLFSKLVR
+ADLSLFNRQSASALSNTVVYEVQVGASQLVSALIGLTRDGFTLLALVGYLMWLNWQLTLV
+VFTVAPGLSWIMKVLSRRLYGLTKESQKATDDLAYVVEENVLAHRMVRLHGAQAQQIGRF
+NALGQRLRRLALKSTVASAAMTPLTQIMAAVALSLVLVIALVQSREAGSGATVGGFVAFI
+TAMLMLIAPIKRLADVANPITRGLAALERGLSLMHDAPEENQGQHQVQRASGALEWQNVG
+VQFNPDGDPALTQIHLRVQPGETVALVGTSGAGKTTLIQLLPRFLNPSSGQVLLDGVPLP
+QWQLDSLRQQLAMVSQDVVMLNDSLAINVSLGDTTDRAKVQECLQAANLWEHVQTLPQGM
+DTLLGHNANQLSGGQRQRLAIARALYKDAPILILDEATSALDNESERLVQDALQKLMQGR
+TTLIVAHRLSTIEHADRVIVMERGRIVEEGPPAQLLAQGGAYSRLHHRGEWSSEAPAQT
+>tr|A0A0P0MBD3|A0A0P0MBD3_9BURK
+MKPFSREAANPPYKLPPPIFDARCRACWFTAALLVLVVASFVSLELDWAAFASMEAARSM
+VRFVAEFFPPDFSPVFVNKVAWAAWETLAMSALGTAIAAVLGLALAVPASRMSAQDPAWL
+RSPTRWVLNALRAIPELVWAALLLISAGLGPMAGTLALALHTSGVLGRLFAEAMENVPTG
+PGDALRTQGVGPLSVFFYATLPQVLPQLMSYTLYRWENNIRAAAVLGVVGAGGLGQLLSF
+HMGLFHMNKTATILAAMLLMVACVDALSFAARRWLTR
+>tr|A0A0P0MAV2|A0A0P0MAV2_9BURK
+MKPERHEHPLIRVATYNIHKGVQGLGPTRRLEIHNLGHAVEQLDADIVCLQEVRREHRRE
+AAHFRHWPSQPQAEYLAPEGYEAIYRTNAVTRHGEHGNAMLSRWPVLSHQHRDISDHRFE
+QRGFLHTRVEVVDRVVHVLVVHLGLVPASRVRQIALLLAHIAQDIPDHEPVLVAGDFNDW
+GTGLGRRMAQAGFREWREQPTPTYPSRLPLNQLDHVYARGLKPVHAMVPSGRIWQRMSDH
+LPLVAEFAWND
+>tr|A0A0P0MBQ3|A0A0P0MBQ3_9BURK
+MIATSKPRMKLAIVGSGISGLAVAQTLKDHADITVFEAGDYFGGHTHTVDITLPTPQGPV
+THGVDTGFLVFNERTYPNLINLFAELKVETAPSDMSFSVKVPGALNGKTLEWSGTDLNSV
+FAQRGNLVNPRFWRMLADVMRFNALCTRIAKEQREKELQQPLSDFLRTHKFSEPFRDWYF
+LPMLGCIWSCPTDQMLQFPVATMIRFCHNHGLIQVTNRPQWFSVVGGARNYVEKILSGVY
+DKRLNTPVRLIERDAQGVRIITDGHAERFDQVVIATHTDQALGLLRQASGEERSLLGAIR
+YQDNRAVLHTDASVLPANPKTWAAWNYERAASSERESSRVCLHYLLNRLQRIPFTQPVVV
+SLNPLHDIDPATIVGEYDYAHPVFDLAAIEAQKRLPLLQGQQHTWYAGAWTGYGFHEDGL
+KSGLQVGRALLKLIHEQASPVQDRLAA
+>tr|A0A0P0M6C5|A0A0P0M6C5_9BURK
+MTSPTTPLAPDVQPADGYAGDISPEQAWAWVQSGEAVLVDVRTDAERAWVGFVPGAHALA
+WKQWPGMAMNPGFDVGIQALGAGGKKLVLLCRSGVRSIAAAQRATELGLLAYNILEGFEG
+DPNEQAHRGLKGGWRYRGLPWQQN
+>tr|A0A0P0M6V7|A0A0P0M6V7_9BURK
+MQHIGFIGASGLMGHGMAKNIRAKGFDLSISVHQRTAPVQDLLTTGARQVGSYADLAACD
+VVLICVTGSPQVEAVVAGPGGLLSKARAGLIVIDTSTSEPESTRRLAALCAAQGVVYVDA
+PLTRTPIEAEAGKLNSMVGATPEVFARIEPVIRAYSENVFHVGEMGAGHVIKLLNNFVAQ
+AICTATAEAFAVGAKAGVDLNQLVQVISAGGVNSGLFQLMAKTLQGDYGAMKFELNNAAK
+DLRYYSHLTEAMKVPSMIGTSVHQALNTAVALGYGSEMVPSLVKAQAQLNQVTIAKA
+>tr|A0A0P0M7Q2|A0A0P0M7Q2_9BURK
+MAFFKFRFPGQVATSPAAAETVAPGSGESIELVRRRARHRLMGAVVLVLLAVVGFPLLFD
+TQPRPVAVDTPILIPDRPSSAPSKVTQALPAEAAPAKPLLPEAKPLPVQEGLDPKEEVVT
+AAKPAAADQPKPTPEPAANTAEAAPKPPVVKAEVKPAAPKTDKPEPVAKPKDDGNKARAL
+LEGKPPAAAGERHVVQVGAFSDSAKVREVRRKLEQAGLSTFTQSVDGKDGKATTRVRVGP
+FSSREEADKAAAKVRKLDLPAAVLRI
+>tr|A0A0P0M8F3|A0A0P0M8F3_9BURK
+MYELGVVYRNITRADRAAADGLGALGSATVHEAMGRVGLMKPYMRPIYPGAQVSGTAVTV
+LLHPGDNWMMHVVAEQIQPGDIVVAAITADCTDGYFGDLLATSFQARGARALIIDAGVRD
+VKELQKMNFPVWSKAISSKGCIKATIGSVNIPVVCAGMIVHPGDVIVADDDGVVCVPQAL
+AAKTLAAAQAREANEGEKRAKLASGVLGLDMYKMREPLAAAGLKYID
+>tr|A0A0P0M9X6|A0A0P0M9X6_9BURK
+MNAPLPMNLIPTNIAAMDTELDIVALARSGGMALAAMVSHAEQLQRDGHAQAASNLYALW
+LAHHEDPRKHLVWFNHGSLLQQLGQSAQAQQAYEQALALSPDFAQARINLGLVLEKQGHT
+AQAIAAWAHLTGQRYAKDPVDTDMLTAALNHIGRVHENNRDYRQALEALEHSLLINPKQA
+GVIQHWVHIRQKACEWPVYKPLPGISKNEMIMATSPLAMLALTDDPLLQLLSAHAFVART
+YGLKEERLCKVKQYHHPKKRIGFASGDLREHAVGFLLPTMLQGIDRELYEVYAYDFTMDD
+GSEHRKKLLGMFDHVRLVHTLTDRQAAERILEDEIDVMVDLHGLSAGARPGIFALHPAPR
+QGTYLGFIGSTGMPWFDFVITDRHALPPEYTEYFMEKPLYVEGSFIPLTPPDEKLPVVTR
+ADVGLPEDAFVMGAFGNVYKITPEMFGVWMKLLKEIPDSVLWLIDDNPTTTENLKNHARL
+ANVDLSKIKFTARTGHSEFNARLKLCDVFLDTFPYNCGSTSNDVIRAKIPLATQYGRTMV
+SRMGLSISKSCGSNNLISVNADEYFEKIVNFKINKIGKFNYSKPAAGFKLSF
+>tr|A0A0P0M831|A0A0P0M831_9BURK
+MIDISRIKAITLDLDDTLWPVWPTIGRAEVVLQTWLSTHAPGAAALSADAELKKAVRAEI
+NARHADRAHDLSFLRRESIRALLHQAGEPVDLAEAAFEVFFAERQRVDLFDDALPALAFW
+SQRMPVVALSNGNADVHRVGIGQHFHASVSAQSLGVAKPDLRIFVAGAAAAGVQPHEVLH
+IGDDAHADCVGALAAGMQVAWLNREGHEWTHGDMRPHLDVRDLHALCASWPDYQP
+>tr|A0A0P0LQC6|A0A0P0LQC6_9BURK
+MSPEEILSTYGPRESMEYDVVVVGGGPGGLSTAIRLKQLAAEKGQDVSVVVLEKGGEPGA
+HILSGAIMDPKALTELFPNWKELGAPLNQPVTDDAWSFLSETGATRTPSIFLPECAQNHG
+NYIISLSNFTRWLGQQAENLGVEIFPGFTAAEVLYNDDGSVKGVATGNLGVGKDGEPTEN
+FQLGMELHAKYTVFAEGARGHLGKQLIAKYKLDEGRDPQTYGIGIKEVWEIDPSRHTPGF
+VMHTAGWPMNNDTYGGAFMYHMEDNKIAIGYVVGLDYANPWLSPFEEFQRWKTHNNIKWY
+FTNDKGEVNAKRIGYGARAITAGGLMSLPKTVFPGGALVGCDAGYLNVSRIKGSHAAIKT
+GMLAAEAAYDALQAGRQHDELTAYPEAFEASWLYTELNKSRNFKTWFKKGLTVATLMNGF
+EQFVLRGHIPWTLRRDKADHTYLKPAAECEKIEYPKPDGKLTFDRLSSVFISNTNHEENQ
+PAHLTLKDASVPVGINLAKFAGPESRYCPAGVYEYVKNADNSDRLQINAQNCVHCKTCDI
+KDPTQNIVWVTPEGGGGPNYTGM
+>tr|A0A0P0LUW0|A0A0P0LUW0_9BURK
+MDIRLLGQVDYLPTYEAMQAFTATRTPETPNELWVCEHPPVFTQGLAGQASHLLMPGDIP
+VVQTNRGGQVTFHGPGQVMAYPLVNLQRAGYYVKEYVFKLEESVIRTLAHFGVTGHRVAG
+APGIYVRLDDPFSHAALVGPAPAGDPFKGLGKISALGIKVSRHCTYHGAALNVAMDLQPF
+ERINPCGYAGLKTVDLFTIGVETTWDDAARVLAGQLATRL
+>tr|A0A0N7J950|A0A0N7J950_9BURK
+MAAENAGAHAPTAGEYIQHHLQHLQMNFSFEGVKQTSIVDFSLFNLDSVFFSLVLGVIGC
+IVLWAAARKATSGVPGRFQAAVEILSEMVENQAKGVIHNAKSRKLISPLALTVFVWIFLM
+NAMDMLPVDLIPATWHAVGPALGFKDYMRVVPTADLSTTLGLSCSVLFICLVYNIKIKGL
+GGWAHELIAAPFGDHWALWPVNFLMQMIEYLAKTVSHGMRLFGNMFAGELVFMLIALMGG
+GWALSATGVGLAIGHVIAGTVWTLFHILVITLQAFIFMMLTLIYTGQAHDAH
+>tr|A0A0P0M966|A0A0P0M966_9BURK
+MALQQIVQETVTGLGYDLVEIDRTAGGLLRITIDWPWQPGAELFINVEDCEKVNRQLQFA
+LEVDGVTYNRLEVSSPGIDRPLRNEQDFERFAGELIDITLKAPMGENAAGMVNPTRKKFR
+GTLERDATGQGWQIVWSDAPAVKPGQKISKKRIPAPLHALGFTLDELRDARLAPVVDFKG
+RKPKQEA
+>tr|A0A0P0LKR6|A0A0P0LKR6_9BURK
+MSMSYKELLQKREALEQEIAQARQNEIASAVAKVRELVAEYGLTAQDVFPGRGAKTSAPK
+SVSKVAAKYRDPATGQTWTGRGKAPKWIEGQDRAPFVIA
+>tr|A0A0P0M775|A0A0P0M775_9BURK
+MTHKMAIIGLGIMGRRMLENALQHPAFEVCGVWDPSPASVAKTQEMAPQVPVAAHAQAAM
+AGADVVYLACPPGPRKTYALQAAAAGQGVFMEKPLGTDNAQSRDLVAQLRQARLPGVVNF
+TQAASRGFEELNRAIAAGETGELLGIDIVVNYPAWPRAWQKDADWLRMREEGGYTREVIS
+HFLFLAGRFLGPLTLQQALPRYPQDPALCELDMLARLTTADGKPVTVMATTGGQQPDRQE
+VTVRGSRMNHQFREFYQLWRSDGGPWVEALDWRNEDPRTSALQRQLTEVDLWLRGQPHRL
+ATAEEALAVQELVEAMLEGKS
+>tr|A0A0P0LFP8|A0A0P0LFP8_9BURK
+MMKPMNYAAADLLAFADQLLQSAGLSPDKAQAVAEVLLEGDLLGHTTHGLALLAPYLAEL
+ESGKMRKEGQPLVVSEHPAAVTWDGQRLPGPWLVRQAIDLAIHRASTQGTCTVVIRRSHH
+IACLAAYHQRVTDLGLMMMLHCSDPNTASIAPFGGLDPVFTPNPMSVGIPTSGLPVLIDV
+STSSTTNGMTNRLYKEGGLLPAEWVMDGHGQPSRDPAVLFNEPKGTILPLGGMDSGHKGY
+GLSWMVEALTGGLAGHGRADSPEGWGATVFLQIIDPRAFSGQSAFNTQMDEVSRQCHASR
+PAQADRWVRTPGERGLKLKAGSASEGVALYPNIMPMLVPWAEKFKIAVPSAV
+>tr|A0A0P0LQ79|A0A0P0LQ79_9BURK
+MKPVLALVGRPNVGKSTLFNRLTKSRDAIVADFAGLTRDRHYGNGKQGRQEFIVIDTGGF
+EPDASAGIYKEMAKQTQQAVAEADIVIFVVDARGGLSAQDHDIAKYLRKIGKPCLLVANK
+AEGMLEGIQLTEFYELGLGEVIAISAAHGQGTRGLVELAFESLNLPDEPEETEEDPSVIK
+LAVAGRPNVGKSTLINTWLGEERLVAFDMPGTTRDAISVPFERQGQKFELIDTAGLRRKG
+KVFEAIEKFSVVKTLQAIESANVVLLLLDAEQGVTDQDAHIAGYALESGRAMVLAVNKWD
+AVDEYQRQLVQRSIENRLPFLSFANVHFISAKKRQGLGPVWNSIVQAHKSAMCKMSTPIL
+TRLLLEAVQFQSPQRGGMFRPKMRYAHQGGMNPPVIVIHGNSLEHVTDSYKRFLEGRFRK
+AFNLSGTPLRIEMKTSTNPFADKESS
+>tr|A0A0P0M9B5|A0A0P0M9B5_9BURK
+MTQVNVLPGLPAASSEKGALVAMPLASSEHNTPQQRLALLDVPEEWAAFSLPEKTDSGCW
+RSSVVFEGMHCAACAITLEDALRAVPGVQSVQISGASHRGQIVWSPELTRPSEWMRSVER
+HGYKALPANDAHAHARRREEARRMVWRWAVAAMCMMQVMMYATPTYLSQPGDISDEAVHL
+LRWASWVLSLPVMFFSCTPFLRQAWRDLCERQISMDLPVALGMVVTFVVSTLGTFEPQGP
+FGAEVFFDSFTMFVFFLLTGRWLELRMRDRTAGALEAVLNRLPDSVRKRQSDGTWVLMSI
+RRLQVGDVIEVLPGEAFAGDGRVMVGQTQVDEALLTGESRPLARGVGDRVIAGSHNLSGT
+LQVQIEQIGAATRYAQIVALMESASVSKPAMAQLVDRWAKPFLVAVMLASLASAIYWWPS
+DPAHAVMVAVAVLIVTCPCALSLATPAAMLATAGALARSGVLVRRLSALQNLSLIDTVIF
+DKTGTLTRDAFEVARIHTREGVSAAQALDWAGSLARHSLHPVSRALWSEARRRAEAAERL
+QALEALAAHNVSELAGQGVQGALTPPGQATQTLRLGSAAFCAAPPRAGHHLQVSLADASG
+WLASFELAEQVRPEAAGVVCALSQMGLNLKVLSGDGPAAVTQVAQAVGIADAQGGCSPQH
+KLQALQALQALGHKVAMVGDGLNDGPVLAGADVSFALGQAVPLAQSKSDFVLMGGQLEVL
+VSTLQRSRQTMRIVRQNLWWSAAYNAACVPLALMGWLPAWAAGLGMALSSLLVVLNALRL
+SQALPESRQPQAMVLQPV
+>tr|A0A0P0MB05|A0A0P0MB05_9BURK
+MNAEQLQAIIAAGLSCTHLSVEGDGRHWSAVVVSETFAGMRPIARHQRVYATLGQKMHTD
+EVHALSMKTYTPAEWAAQAK
+>tr|A0A0P0MBJ4|A0A0P0MBJ4_9BURK
+MAFEIPSLKDSVHPDEWQLRLDLAACYRLVALYGWSDLVFTHISAKLPESVAGQDHQFLI
+NPYGLMFDEITASSLVKVDMQCNKLHDSPFPVNPAGFVIHSAVHEARPDAGCVLHTHTRA
+GVAVSAQAHGVLPISQQSTFVLASLAYHGYEGVAIHDEEKLRLQADLGTANYLMLRNHGL
+LTVGKTIADAFLSMYTFENTCRIQVDALAGQAGPKDLTEVDPQILNGVANAMRVQTGGLG
+GAFVWPSLLRKLQRESHDYTH
+>tr|A0A0P0M9E4|A0A0P0M9E4_9BURK
+MNLSTWLHQHLPQVWTSRGLFAWLLLPLAGLHAALLRVRRLVWHLGWRQAHRLPVPVIVV
+GNVVAGGAGKTPLTMALVQHLQQRGWQVGVVSRGHGRKTHDTRAVMPDSLPADVGDEPLL
+IRQITGAQVWVGTDRAEAGRALLQTNPGVNMLVCDDGLQHWGLARDLEICVMDERGVGNG
+WLLPAGPLREPWPRVVDLLLHTGDNGLPGGFVAQRQLAPVAHDAQGRSQALSGLIGQPVD
+AVAGLARPEAFFAMLRATGLQLHHTTALPDHFDYAHGAPTATDRPLLCTEKDAAKLWQHQ
+PQALAVPLVLTPEAAFWQALDQRLAEKPFC
+>tr|A0A0N7J994|A0A0N7J994_9BURK
+MPTVLLIGASRGIGFELARQFIDHGARVIATARSDEGVARLKALGAQTLRLDVANPASNS
+GLSWQLDGEKIDLAIYVAGAMDRASASTPPTRDSFDAVMHTNVMGAMQVIPQIVPMVQEA
+QGVIACISSIMGSQQETTSGNAALYRVSKAALNMVVRCTQAEQPDITVLAIHPGWVQTDM
+GGAAAPLTPEQSASSLRQTLNHVLEQRDPKYRGAFLNHDGSTLPW
+>tr|A0A0P0MA88|A0A0P0MA88_9BURK
+MTLQISVAQLNFVVGDMPGNARKIIDAAIAAYAQGARLLITPELSICGYAAEDLLLRPAF
+IDACDDALKTVARELAGLKGLHVVVGHPEGGGVRTRSVAVTRRHNRASVLCEGQVVCAYD
+KRELPNYQVFDERRYFTPGNGVGVFEVEGVRVGLLICEDAWFDEPARLARDAGAQVLAVL
+NASPFHAGKGPEREQRMRERVADSGLPLIYAHLVGGQDEVIFEGRSFALNAQGETVARAE
+GFREADLAVQASVGQQGVNLSAAPEALVPMASADAELWDALVLGVRDYLGKNGFNGAILG
+LSGGIDSALVLAIAVDAIGADKIHAVMMPSPYTADISWIDSRDMVKRLNVRYDEISIASL
+FDGFKQALSAQFEGLKEDTTEENIQARIRGTLLMALSNKTGAIVLTTGNKSEMATGYCTL
+YGDMAGGFAVIKDVVKTRVFDLARWRNLHDPYGTGSQPIPERIITRPPSAELRPDQKDQD
+SLPAYEVLDAIIQRYMENDEGVEALMADGFERADVEKVTRLIKLNEYKRRQSPVGIRVTH
+RSFGKDWRYPMTNKFRA
+>tr|A0A0P0LI27|A0A0P0LI27_9BURK
+MTLSMSRASLPVCTRMLTNLSHILAKAELFVEAKKIDPTALTTYRLAPDMFPFTRQVLIA
+CDAAKNGVARLSGVEAPKFEDNETTLAQLQERIQKTLAFIATVPAAALDGTEDKEITFPA
+GPGKTRTLSGQDYLCHWMLPNLYFHITTAYTILRHNGVEVGKIDYLLGAQG
+>tr|A0A0P0LBL7|A0A0P0LBL7_9BURK
+MAKTAAPEDNVLTESEEVFEKAAEVFRVMSAPMRLRIISSLCNGEKNVGELLAEIDTTQP
+NMSQHLNTLYQSGVLGKRREGVQIYYRIINDRVVTLCRAVCVQIASESD
+>tr|A0A0P0M8A4|A0A0P0M8A4_9BURK
+MVSNVSLYQEVGNPQEALIMAHMPMVKRVAVHLKARLPPFMELDELVQVGMVGLIEAARS
+FDPTKGFVFEHFALSRVRGAILDEVRRQSFLPRSAVAFNKNENEAVHVLAAELGRAPTQV
+ELAEFMGKDIEEFHKERGQAKRFETFSMEVVNDEVMSMPGDSAMQPEVMVEEAEFMEAVV
+EAIDQLPERERLVMNLYYVEELNLKEIGEVLGVSESRVSQILSTVVKKLRQNLQLA
+>tr|A0A0P0M8V0|A0A0P0M8V0_9BURK
+MSLRPTVDFLLHDWLKVESLQSRERFADHSRETFDAVLDTCERIAREKYAPFNRLVDTQE
+PHFDGEKVILPQATHDAYKAYAESGMLSAAQDYEIGGMQLPYTVEAAANAFFAMASVSIG
+SGMLTSGNANLLMVHGTDLQKQVFAANEFSGRFSGTMCLSEPQAGSSLSDVTTRATPDGE
+GFEADALGARYRLKGNKMWISSGEHELSENIIHLVLAKIPDANGQLVPGVKGISLFIVPK
+KMVDTHGQLTGERNDVALAGLNHKCGWRGTTNTLLNFGEGKYPVRGDSGAVGYLVGKPGE
+GLRCMFHMMNEARIGVGMAATMLGMAGYYASLDYAKNRPQGRPSGAGGKDASRPQVRIIE
+HADIKRMLLAQKAYSEGALALALYCARLVDEQHTGTAEDADVARLLLEVLTPIVKSFPSE
+WCLEANSLAIQIHGGYGYTRDFPVEQYWRDNRLNMIHEGTHGIQAMDLLGRKVLMENGRG
+LQLLAERMLATAAKAETHWAPEAAALRDALKQVGQATQQAWAGAQPAEALANAVPYLQAF
+GHTVIAWIWLDVANSLGEDNSPAAQGRRAACRYFFRYELPKIGAWLNVVCSRDPTCADLP
+EEAF
+>tr|A0A0P0LGY4|A0A0P0LGY4_9BURK
+MQVSRIRALRGPNLWSRHTAIEAIVSCSPEDCGLSAQHPVEQQLRRIFPEVGPFDGQRPG
+EAASLAHALEKVTLSLQAHAGCPVSFSRTTPTEEPGVFQVVVQYTEEAVGRLALNLAEQL
+CQAATAGAGFDLEGAIAQLHELDEDVRLGPSTGAIVDAAVARGIPIRRLTDGSLVQFGWG
+AKQRRIQAAETDTTSAIAESIAQDKDLTKSLLHAAGVPVPMGRPAKSLDEAWAIAQEVGL
+PVVVKPQDGNQGKGVSVNITARQAFDNAYATAERYGTVLVEKFLPGHDYRLLVVGQQLVA
+AARREPPLVVGDGKHTVRQLVDQVNADPRRGEGHATSLTKIRFDDIAIGRLHAQDLEPES
+VPAKGRRVILRNNANLSTGGTATDVTDEVHPEVKARVIAAAQMVGVDICGVDVVCESLSR
+PLEEQNGGIVELNAAPGLRMHISPSFGKGRDVGNAVIDHMFPDGGNGRIPVIAVTGTNGK
+TTTVRLAAHLLKAQGLRVGMTNTDGVYVNGRQTDSGDCSGPRSARNVLMHPDVDAAVFET
+ARGGLLREGLAFDRCQVAVVTNLGAGDHLGLNYITTLEDLSVLKRVIVLNVEPLGMAVLN
+ANDPAVVAMARHCPGDVTFFALDANHPVLATHRAQGKRVVYVEDGAIVAQKGKQVFRIPL
+SQVPLTRHGQIGFQTENVLAAVGAAWAVDVHWDAIAQGLATFISDIQGVPGRFNLFDYRG
+ATLIADYGHNPDAIAALVQAVDNMPANKRVVVISGAGDRRDQDIRDQTQILGKAFDEVLL
+YQDACQRGREDGEVIGLLREGLQGALRTTHVQDIQGEFNAIDTALSRLSPGDLCLILIDQ
+VEEALAYITEKVKASQTH
+>tr|A0A0P0M8A6|A0A0P0M8A6_9BURK
+MSINPLRAPHADSPDSADAEFDGSSQAVKAQQRLRELILAGQLPGGTRIAELALVERLGM
+SRTPIRAALMRLGEEGLLQTLPGGGYAVRTFSEREVADAIELRGTLEGLAARWAAERGVN
+AALMQEADACLDQIDALLQPGTLDDDHFSGYVRLNARFHRLLVEMAGSALLSREIERASG
+LPFASPSGFVGVQAHSSDARDTLVVAQYQHRQVLQAIAQREAGRAEALMREHSRIARHHL
+GLALQNPQPSVTPGVQLIRPS
+>tr|A0A0P0M7G6|A0A0P0M7G6_9BURK
+MSACLKRFLTAMVIVVGLQGCSPEVALPNVSLEQARVEHEAGKVLMIDIREPQEHATGVA
+QGVVLLPMSQVAQRVAEIPKQADQPVLLICNTQNRSRAVTEALQEQGFTNIRYVKGGMSE
+WAQRGWPMVKPQDLVGPPKS
+>tr|A0A0P0LVD3|A0A0P0LVD3_9BURK
+MTQIKNEPPITYDIGIGGMTCASCVARVEKALKKMPGVLSATVNLATESARIEVATHDVT
+DARLRRVVRDAGYEPRTPEAQAEVGRESPWAGFMPVGVGLLLTTPLVLPMLAELWGRHWM
+LPAWVQFALATPVQFVLGARFYKAGWHALKALTGNMDLLVSLGTTAGWALSVWLWLTAHE
+GHTPHLYFEGSAVVITLVMLGKWLETRAKRQTTEAIRALHALRPDKAHWLGEEGEVDVPV
+DEILVGDRIVVRPGERFPLDGELVEGQTQVDESMLTGEPLPVAKAPGEALTGGSINREGR
+VLMRVTAVGHETVLSHIIRLVEDAQAAKAPIQRLVDKVAEVFVPVVLLIALLTLGAWMAL
+GSDFETALIHAVAVLVIACPCALGLATPVAIMAGTGVAAKHGILIKDVQALELAHRVQTV
+AFDKTGTLTVGQPRLLARVPAPGHDAPTALALAARVQSGSEHPLARAVVSAAQQQGLTGA
+TAQDLQAVPGKGVLAKVDERQLLLGSLRWLQEEGLDIGMWQPDINALQAQGASLSALAER
+TDAGLHALLLMGFGDEPKVGAAQALTMLRDRGLKLVMISGDNQAAAEAMARRLGLRPEAG
+EVLANVLPGDKSAQVQKLRAGGKVVAMVGDGVNDAPALAAADVGMAMGNGTDVAMHAAGI
+TLMRGEVALVGAALDISARTVAKIRQNLFWAFAYNVAGIPMAALGYLNPMMAGAAMALSS
+VSVMANALLLKRWKP
+>tr|A0A0P0M7C7|A0A0P0M7C7_9BURK
+METVAPLWLWATFVAIVLVSLFVDFVVLKKQGAHDIGVKEALNWSIIWIALSFLFNGLFW
+WAIKDTTGSIELANTKSLEFLTGYLIEKSLAVDNIFVFLMIFTYFAVPTQFQKRVLMIGI
+IGAIVLRTVMILVGGWLLAEFHWVLYVFGAFLILTGVKMWWAAGKEPDLEDNPALKLLRK
+VLPVSKNYDGENFWTVENGKKIATPLFMVICLIALTDVIFAVDSIPAIFAITSDPFIVLT
+SNVFAILGLRAMYFLLAAVANKFHLLNYGLAVILVFIGTKMCLIDVFKIPVGISLGVVVG
+ILAVTMLLSVRSAKA
+>tr|A0A0P0MA60|A0A0P0MA60_9BURK
+MRFDIITLFPELFAPLLTSGITRRAYEGGGVDVRLWNPRDHAEGNYRRVDDRSFGGGPGM
+VMLAEPLFKCLTAIRAERQEATPAPLVLFSPIGQALNHTAVAQWSASAGAVLLCGRYEGV
+DQRFIDQYVDQQISLGDFVLSGGEIAAMALLDAVARLQPGVLNDEGSHQLDSFNPALDGL
+LDSPHYTRPEVWQGHAVPPELMSGHHAHIARWRREQSLRLTALHRPELIEEAREAGRLNR
+QDEAFLKLASHGQPGQTQTSSAKKL
+>tr|A0A0P0LUF3|A0A0P0LUF3_9BURK
+MNRVFKALTLCLSLWLSSNLNAMTLERVGNDLFATGPTVDQDFLQFKEAFAKGGIERLIL
+VNGPGGDLWTGMQVARMVQSAKIKTVASGFCMSACSLIFMAGQERAFGTGSLPRTTMVGI
+HGAHDKDSKRVNTTHMPQMYALYKQQMGEKFDAQVINQALYDIKEASGFLRIRELQRTQE
+KDRTPWFCPTGQTPFEQCQQYTGKDAFSLGVVTQADTVPLQLPDSMKVQLGFFGKSLGEP
+ILDMHDRAGTLIEGLCNGQLLCKTIGQRTFTNYLSANHNKALAIGWGKMGYGVRWGVDDP
+GRAMLGALYQCNHAKNNPKLCRLVSVNEHEVLPLYEEAQSQALTLSGQLPAPAPSLSQAE
+RDEPGGSAPSRLRTGNQVTGMTPKSLDGVQRWDTATLAQAMKKSDRPVVIDTAVFGPVIP
+GALNFINSGLAFDDEKLDQAYNERFRHMMLAAAPDLNQAVVFYCASSECWLSVNAAMRAR
+QLGYTQVIWYRGGMAAWMQAGLPTVGRVPVAVIY
+>tr|A0A0P0LMZ0|A0A0P0LMZ0_9BURK
+MDLYAELGVTPQAEPEVIRAAFRALAQRYHPDRQAGASSLWAAKMVRINQAYSVLSQPEQ
+RRAYDASRCTPAPRFVSSQIHLTTNGASVRNMQPFLTTYDARGRLHTFV
+>tr|A0A0P0LUU3|A0A0P0LUU3_9BURK
+MQKTKRRWLARLYTLACVVPSNEEQEHILDNSGMLQYQTIPVTPFQQNCSLVWDDQSRQA
+AVIDPGGDLDLILDAVRRQGLQLEQIWITHGHLDHASGTADLAEQLGGLPIIGPHPADQF
+WIDGLPQAAAAYGFPPARVFKPTRWLADGDTVTLGAHTLQVRHCPGHTPGHVVFYSPEIK
+RAFVGDVLFAGSIGRTDFPQGNHDDLIASITERLWPMGNDTVFIPGHGPESTFGRERQSN
+PYVGGT
+>tr|A0A0P0M749|A0A0P0M749_9BURK
+MTDLEFLDQAERLLAGVEISCDRLNDDTDADVDNQRVGGMITLTFPNRSQIVINLQKPLH
+EVWLAARCGGFHYKFDGTHWQDTKGQGEFWQSLSRYASEQSGQDLTFKP
+>tr|A0A0P0M7A1|A0A0P0M7A1_9BURK
+MSMQDYNSRLSDPASRKFETFSYLPAMTKEEIRKQVEYLVKKGLNPAIEHTEPQYLMDSY
+WYMWKLPMFGETDVDKVLAECEACRQANPDNHIRLIGYNNFTQSQGASMVIFRGKTV
+>tr|A0A0P0M8D4|A0A0P0M8D4_9BURK
+MNIRVGEGWDVHALVPGRQLILGGVEIAHTAGLLGHSDADVLLHAITDAVLGAAGLGDIG
+RHFPDTDAQFKGANSSVLLQEAMRRVRALGWVLVNVDSTIVAQAPKLASHMAAINAGVAQ
+ALGVGLDQVNVKAKTAEKLGPVGMGQSIEARAVALLHKPS
+>tr|A0A0P0M921|A0A0P0M921_9BURK
+MQAQAPLPDLAIQADLAAQRETYKRDKAAVLLGLANSGSSVRGLKQTLKQLAILADGLLI
+DLWQKAGFSPELTLVAVGGFGRAELFPYSDVDVLVLLPSGQTPEGDPELQAQLERFIGNC
+WDTGLEIGSSVRSLDECLAESAKDITVQTSLLEARRVTGNTKLFLEFQKQFQAAMDPQAF
+LVAKTLEMNQRHTKFDNTPYALEPNCKESPGGLRDLQMILWVARAAGLGHSWDELARKGL
+ATPLEARQIKRNEALLGLIRARLHLQAKRREDRLVFDLQTNVAETFGYASDITPEGRLAL
+RASEKLMRQYYWAAKAVTQLNQILLLNIEDRLKTERGESIDHFRPLNARFFEKAGLIEVA
+SDDLYQKHPHAILETFLLYQATPGLKGLSARTLRALYNVRAIMNGRFRADPVNRQTFLKI
+LQQPQGITHAMRLMNETSVLGRYLWVFRRIVGQMQHDLFHAYTVDQHILMVLRNVRRFFM
+AEHTHEYPFCSQLASGWDKPWILYAAALFHDIAKGRGGDHSKLGCAEVRTFCRQHQIDKE
+DGQLIEFLVSEHLTMSHVAQKEDLSDPEVIARFAERVCNERRLTALYLLTVADIRGTSPK
+VWNAWKGKLLEDLYKSTLRVLGGRAPDANAEVEARKREALIELARQAQPHEGHKALWDTL
+DVSYFMRHDASDIAWHARQLSRQVALTAPDQLSTMVRARHSPVGEGLQVLVYTPDQPDLF
+ARICGHFDQAGFSILDAKIHTTRTGWALDTFQIVTAMLPEHYRELMTMVESGLTQTLAQQ
+SPLPLPSRGRVSRRVKSFPVSPRVTLKPDEQGQKWLLSISASDRMGLLYSVARVLALHGI
+HLHLAKISTLGERVEDTFLISGPALQQNRAQIEIETELLKALQPE
+>tr|A0A0P0LAS4|A0A0P0LAS4_9BURK
+MTIKIGINGFGRIGRMVLRAAVQNFQDVQIVGINDLLEPEYLAYMLEYDSVHGRFQGTLS
+VEGSTLIVNGQRIRLTQERDPANLKWNEVGADVVIEATGLFLDKDSAGKHLAAGTKKVVM
+SAPSKDDTPMFVYGVNHASYAGQTIISNASCTTNALAPITKVLNDKWGIKRGLMTTVHAT
+TATQKTVDGPSNKDWRGGRGILENIIPSSTGAAKAVGVVIPEIKGRLTGVAVRVPTSDVS
+LVDLTAELNNPATYAEICAEMKAQSQGALKGVLGYTEAKVVSTDFRGEVCTSVFDAEAGM
+ALDSTFIKVMAWYDNEWGYSNKCLEMARVVGR
+>tr|A0A0P0M7Y6|A0A0P0M7Y6_9BURK
+MIYGIGTDICDIRRIRASLDKHGERFAAKVLSDAEMATWKVRSARWPERGVRYLATRFSA
+KEAFSKAIGLGMRMPMTWRLCEVAKLPSGQPVIVLHGVLKEWFEGKNLSAHITVTDESEY
+AASFCVVETQSPPRP
+>tr|A0A0N7J8R9|A0A0N7J8R9_9BURK
+MSTSKYVAASFSVNIEHLHALGVRDPYSEQSMQLYHSGKLNANERLYFSLWGSSELSTSL
+IRAKTRFARLGEPVSSAYFVIKGSVLGVKGDDIYRLGPGSVIGLAEGVGGLPYSMDAVAV
+DDVQVRVFPIYVISKLVKNMPPGLKGILKSTVMRTLQLSSPPPSLP
+>tr|A0A0P0MBN3|A0A0P0MBN3_9BURK
+MTAPALQRLIPTLKARTLAWWLAVENAMPGGRGRRSLWAALIALVMAVLVTLVWLAGRYE
+ASQLQTELERDTANAVSDLRTQLSRHVQALQGLQSSLPSEAFWSLEAQALLRENRDMLRI
+EWRDTTLNLKQLADSTLRSPVFERVRRTETLSETQQACQRAQRSSGPNYSRSYYLPQTDG
+LGIEVMDMCLPNTQGGVLVGFTVVTYGLQELLGARLGEGFGRRNEISFTEPDGTRLAITG
+TQTRGLRVFTAQQLVDLPGNTLVLRMDGRRGEPDLFPNVLTALVTGMSIALVTVMVLLAK
+DSRRRLKAENDLAEALAFRKAMEDSLVTGLRARDLEGRITYVNPAFCQMVGLTAEQLTGK
+LAPMPYWPPEMVDEYKQRQAIRLAGNAPPREGFESVFMRADGTRFEVLIIEAPLISGQGQ
+QTGWMGAVIDISEQRRIEELSRASQERLQATARLATVGEMASLLSHELNQPLAAIASYAN
+GSLNLLKDPAAVPQTLDDVHMALRRIAEQAGRAGKVINSVHDFVRRRDQAREAVTPVALL
+DAIAPLVNLQARKLQVKVHTRIEPKLPPVLCDRTMVEQVLLNLARNGMQAMDQPGSTERV
+LVLQVRRAASNAEHGWVEFSVSDVGVGIGEDVAGQLFTPFFTTKAEGMGLGLSLCRTVVE
+QHGGHLSFEPLTPRGTVFRFTLPAVLLDKITA
+>tr|A0A0P0M7B7|A0A0P0M7B7_9BURK
+MKTAHDLVLQAKANIREIALQEAEEAIRQADVLMDVREADEFAAGHLPGAVLVPRGLLEF
+KLSGTPALSGRELKVVLYCKTSGRAALAAQTMQSMGYLNVSSIAGGFDAWAAAGKTVVKP
+EQPAFE
+>tr|A0A0P0LFX4|A0A0P0LFX4_9BURK
+MKLIFAAVAVSALMSAPAFANMDMAKKNACMACHAVDKKLVGPSYQDVAKKYGGQKDAAA
+TLAKSIKAGGSGKWGPVPMPAQGALSDADALTLATWILAGAK
+>tr|A0A0P0LQ21|A0A0P0LQ21_9BURK
+MNTRHATPDKDAIALLPPFERLGLDRITLVCTGAQARQAQDQLARASAWGFDTESKPTFK
+VGETSEGPHILQLSTPERAWVFQLHDPDCRSVAAELLAQSGMVKAGFGLGDDRKRIVHKL
+GIEPQGILELNTVFHQRGYRKDMGVKGAVAVLFNQRFMKSKKAATSNWANARLSEAQLVY
+AANDAYAAIRVWQALEL
+>tr|A0A0N7J895|A0A0N7J895_9BURK
+MTAQNQDATSTRFDQLALAPATLQNLEQLGYTQMTPIQAASLPLTLTGQDLIAQASTGSG
+KTAAFGLPLIERLQTAGSPSAAIQAVVLCPTRELADQVTQEIRRLARARQNVKVVTLCGG
+VALRGQTLSLEHGADVVVGTPGRILDHLERGSLSLAGVNTLVLDEADRMLDMGFFDDIAK
+VVRQCAKDRQTLLFSATYPEGIAKLAAQFMRAPQTVKVQAQHSAHKIRQVFYEVNENQRL
+DAVSKLLAHFRPERTLAFCNTKQQCRDLVAVLQAQGYSALALFGELEQRERDQVLVQFAN
+RSCSVLVATDVASRGLDVEGLEAVINVDVTPDPEIHIHRIGRTGRGDAEGLALTLASMDE
+MGAVGKIEVMQGRESHWAPLADLVPAAGGPLKPPMRTLQIVGGRKEKIRAGDVMGALAGE
+CGLTREQVGKINVNEFSTYVAVQAELAKKVESQLSHGKIKGKSVKVRLL
+>tr|A0A0P0LSN6|A0A0P0LSN6_9BURK
+MNPAQLLDGLLHGNAAGQRRAMAKAITLLESTRADHRALADELLTAMLPHTGKSFRLGIS
+GVPGVGKSTFIEALGLYLIGQGHRVAVLAVDPSSTVSGGSILGDKTRMEHLSVHEQAYIR
+PSPSSGTLGGVAEKTRESMLVCEAAGYDVVIVETVGVGQSETAVANMTDMFVLMQLPNAG
+DDLQAIKKGVMEIADLVVINKADIDAIAATRAELQITSALQLLGMHGGSGHTHADTTQWH
+PKVVQLSALLGQGVDSFWAAVSEFRSLQMANGRLGLRRQQQALSWMWERIDAGLKHNFRA
+QPRVQTLLPQLSQQVAGGQLAASTAARQLLSAYQAQSETPSS
+>tr|A0A0P0LF39|A0A0P0LF39_9BURK
+MNAPIEPHLQAMLSAHDIDPEETAEWREALLALIGTQGPARARQILDELATVARQQRTGW
+QPELNTPYMNTIAVDDQPVFPGDLATEERLVAIMRWNALAMVVRANQAYGELGGHIASYA
+SVADLFETGFHHFFHARTAQHQGDLVFFQPHSAPGVYARAFLEGRLSEADLMHYRQEITA
+PGSGARGLSSYPHPWLMPDFWQFPTGSMGLGPISSIYHARFMRYLTHRQLQDCSGRKVWG
+VFGDGEMDEPESMSALTLAAREKLDNLVWVVNCNLQRLDGPVRGNGRIIDELEKLFAGAG
+WNVIKLVWGSDWDGLLARDTSGALLRAFANTVDGQMQTFAAKDGRYNRDNFFGQNEELAR
+LVQGMTDEQIDRLKRGGHDIVKIHAAYAAAAAHRGQPTVILAHTKKGFGMGSAGQGKMTT
+HSQKKFDEQDLIDYRNRFDLPLSDEQAKGLAFYKPADDSAEMRYLREHRARLGGSLPKRE
+TVCDRLPVPALSTYGQFALQADGKEMSTTMAFVRMLGNLLKDTQLGPRIVPIVADEARTF
+GMANLFKQVGIYSSVGQRYAPEDIGSVLSYREATDGQILEEGISEAGAIASWTAAATSYS
+VHGLAMLPFYIYYSMFGFQRVGDAIWAAADQRARGFLLGATSGRTTLGGEGLQHQDGSSH
+LVAATIPNCKAYDPAFAGELAVILDAGMREMVEQQADVFYYVTLMNENYAQPDLPAGVEA
+DVLRGGYRFGAYGPIHAAQRVTLLGSGAILTEVVKAAQQLAAQGVGVEVLSITSWSELAR
+DGMAQADKASHLAQLLSATQGPIIAATDYVRAVPESVRAFVPEGRRYRTLGTDGFGRSDT
+RAALRRFFAVDADSIAQAALQAFAV
+>tr|A0A0P0MBU1|A0A0P0MBU1_9BURK
+MAYSYTERKRIRKSFGSRESVLEVPYLLQMQKDAYTSFLQAGVVPSKRTHEGLQAAFKSA
+FPIVSHNGFVEMKFVEYNLAKPAFDVRECQTRGLTFSSAVRARVQLIIYDRDSSTSQNKV
+VKEVKEQEVYMGEVPLMTDKGSFIINGTERVIVSQLHRSPGVFFEHDKGKTHSSGKLLFS
+ARIIPYRGSWLDFEFDPKDILYFRVDRRRKMPVSILLKAIGLNPESILANFFVNDNFRLM
+DSGAQMEFVAERLRGEVARFDITDKSGKVVVAKDKRITVRHTRELEQSGTTHISVPEDFL
+IGRVVARSIVEADTGEIIAKANEELTEALLKKLRTSGVQDLPCIYTNELDQGAYISQTLR
+IDETVDEFAARVAIYRMMRPGEPPTEDAVQALFQRLFYNPDTYDLSRVGRMKFNARVGRG
+ESTGPMVLTNEDILAVVKILVDLRNGNGEVDDIDHLGNRRVRCVGELAENQYRTGLARIE
+KAVKERLGQAEQEPLMPHDLINSKPISAALKEFFGASQLSQFMDQTNPLAEITHKRRVSA
+LGPGGLTRERAGFEVRDVHVTHYGRVCPIETPEGPNIGLINSLALYARLNEYGFIETPYR
+RVVEGKVTMDIDYLSAIEEGKYVIAQANATLDKDGKLTGDLVSAREKGESILCGAERIQY
+MDVSPAQIVSVAASLVPFLEHDDANRALMGANMSRQAVPVLRPEKPMVGTGIERVAAVDS
+GTVVTATRGGIVDYVDATRIVIRVNDAEALAGEVGVDIYNLIKYQRSNQNTNIHQRPIVK
+RGDKLAKGDVIADGASTDLGEIAIGQNMLIAFMPWNGYNFEDSILISERVVAEDRYTSIH
+IEELVVMARDTKLGAEEISRDIPNLSEQQLGRLDDSGIIYVGAEVQPGDVLVGKVTPKGE
+TTLTPEEKLLRAIFGEKASDVKDTSLRVDQGSQGTVIDVQVFTREGIVRDKRAQQIIDDE
+LKRFRLDLNDQLRIVEADAFDRIEKLLVGRVANGGPQKLAKGTKLDKAYMESVDKFHWFD
+IRPAEDDVAMQLESIKNSLEQTRHSFDLSFEEKRKKLTQGDELPAGVLKMVKVYLAVKRR
+LQPGDKMAGRHGNKGVVSKIVPVEDMPFMADGTPADIVLNPLGVPSRMNVGQVLEVHLGW
+AGKGIGQRIGNMLQAETQRMEKIAELRKLFEQLYNSMGRKEDLSQLSDDEVLDMAGNLKE
+GFPFATPVFDGAAEEEIRAMLHLAYPEDLAKAKGLTATRTQANLFDGRTGDAFDRPTTIG
+YMHFLKLHHLVDDKMHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGASYVLQ
+EMLTVKSDDVQGRTKVYESIVKGEHSIEAGMPESFNVLVKEIRSLGLDIELERS
+>tr|A0A0P0M7T0|A0A0P0M7T0_9BURK
+MTESHITPAGPNRWQFWIDRGGTFTDVVGKRPDGSLVTHKLLSENPEQYRDAAVAGIRHL
+LGLKPGEPVTPELVECVKMGTTVATNALLERKGEATLLVTTQGFGDALRIAYQNRPRLFD
+RQIVLPELLYSAVVEAQERVAVDGEVLLPLDEVHLRTQLVDAHQQGVRSVAIVFMHGWRH
+TAHELAAARLAREMGFTQVSTSHQTSPMMKLVSRGDTTVVDAYLSPILRRYVDQVASEMP
+GVKLMFMQSSGGLTDAQVFAGKDAILSGPAGGIVGMARTAQLAGHDKVIGFDMGGTSTDV
+SHFAGQFEREFETQVAGVRMRAPMMSIHTVAAGGGSLLAFDGARFRVGPQSAGANPGPAS
+YRRGGPLAVTDANVMVGKVQPRFFPSVFGPEANQPLDAEVVRGHFAKLAAQTGRAAEDVA
+HGFIQIAVQQMANAIKKISVARGYDVTRYTLQCFGGAGGQHACLVADALGMSQVLVHPLA
+GVLSAYGMGLADQNVMREESVERRLDAAAMPLMAERLQALGESTRLALLAQMGGDATHVD
+RIELRQRVHLRYEGTDSALVVPWGNQDQLVAGFEAAYRQRFAFLMQGKALVVEAVSVEAV
+LPGDAPEEAVHALNPKREVPRRDTVRVYAANAQGVAAWQEAALVVREDMRPGDVIDGPAI
+IAEKNATTVVEPGWQARLTALDHLLLVRVQARAVQHAAGTQADPVLLEVFNNLFMNIAEQ
+MGLQLQNTAYSVNIKERLDFSCALFSAEGHLIANAPHMPVHLGSMGESIQTVIQENKGRM
+QPGDVFVLNDPYHGGTHLPDITVITPVYLEGHADPVFYVGSRGHHADVGGLTPGSMPPFS
+TRIEEEGVQINNVKLVEAGHLREAEMVALLQSGEYPSRNPAQNMADLKAQIAANEKGVQE
+LRRMVDQFGLDVVQAYMRHVQDNAEESVRRVITRLKDGSFTFPLDNGAQIQVAVRVNAAD
+RTAEIDFTGTSAQLSNNFNAPRAVCMAAVLYVFRSLVDDDIPLNAGCLKPLKVIIPQGSM
+LNPNPPASVVAGNVETSTCITNALFGALGVMAGSQPTMNNFTFGNARVQYYETISGGSGA
+GGRFDAQGALVGGFDGTSVVQTHMTNSRLTDPEVLEFRFPVRLESFAIRQRSGGAGRWRG
+GDGGVRRVRFLEPMTAGILSNGRVRPAFGMAGGQSGLPGINRVVRSDGRVEKLAHIGQVE
+MQEGDVFEIHTPGGGGFGQD
+>tr|A0A0N7J8Z3|A0A0N7J8Z3_9BURK
+MKRCEDAQAPTHHARQRVWVLAMACALLTAGCATPRMSPVDANAYWTGRMAIQVLKDPPE
+SLSAGFELQGSAQTGEMVLLSPIGTTLARLEWTPQGARLAQGQQEVNSPSLQKLGARLTG
+TELPIAALFEWLAGRPAEAPGWQVDLSGHAQGRISAERREPSPGAVLRIALDR
+>tr|A0A0N7J927|A0A0N7J927_9BURK
+MSQRIQAAELRAKVARIIEQAGSAPAEAAQVADNLVMANLSGHDSHGVGMVPRYVDAVLE
+GGLSPNTGVQVLLDTGPLLNLDGQRGYGQITGVQAMQMGIERAKQHGVCTVALSRSHHLG
+RIGHFAEMAVAQGLVSVHFVNVLSRPVVAPFGGGDGRFGTNPCCIGVPMGSREPFVLDFA
+TSRVAQGKMRVAHNKGEQVPLGYLIDEHGHPTTDPGVVVVPQSNGMFGALMTFGDHKGFG
+MAMACELLGGALTGSGTWHREADHQRAVLNGMLTMLIDPVRLGTQALFEQEALAFADWLR
+QSPDAPGSEGVKLAGEPERTARAEREQSGIWIDDTTWAEIEASEKKLTER
+>tr|A0A0P0LCR0|A0A0P0LCR0_9BURK
+MLLTQLPQDAHQALLIGRLWVPGKGPFLVAVTPQDVLDLSGLAITSSHLLELPNAAAQVR
+ACLASGQAKRLASTSEALSNSDETQRQADQHWFMAPCDLQAVKAAGVTFVASMLERVIEE
+QARGDASRAEAVRQAVVAVIGDNLRSVVPGSPESVKLKEVLLAQGMWSQYLEVGIGPDAE
+IFTKAQPMSAVGSGAWVGIHPGSQWNNPEPEIVLAANSRGEVVGATLGNDVNLRDFEGRS
+ALLLGKAKDNNASCAIGPFIRLFDEHFSIHDVRQCELSLKVQGPEGFVMQGSSALGQISR
+DPLDLAGQAMGKYHQYPDGMMLFLGTMFAPTQDRHGPGQGFTHVVGDVVSISTPQLGTLV
+NQVTSSDQAPAWTYGMGALMRDLAKRQGAN
+>tr|A0A0P0LAN1|A0A0P0LAN1_9BURK
+MASSSSRPTPKKANGWATRLGVKPEVVYADLGYRGVDKDNPDIEIKHRGKDKRLTDEERR
+LLKRRQAIEPIIGHLKADHRMDRCHLKGSEGDALHAVLCAAGYNIRWLLRMIVKKGLGLL
+LRLLQASGLAGLFTKLAEIFGRNRVQNSDQRWVLA
+>tr|A0A0P0LRZ4|A0A0P0LRZ4_9BURK
+MSFYTSLTGLNSATAQLAVTSNNIANVGTSGFKRSRADFGDIFSTSPLQKSSSNIGQGVS
+LKQVSQEFSQGNISTSGNSLDLAITGDGFFPLKTPDGLQDIYTRNGSFTLNDQNNVVNST
+GQRLMAASVDSSGKADLTNLNALTIPSKTSGEAVETTKIQLGLNLPADSAVITADFDRSN
+ASTYNKSTALTVYDSGGNGYLATVYYVKTQNATMDSPFSKWQSYFFVGDTQVKPALQQAT
+DTTGSALFVNKYGDVLPKTDSRVIPSSGTTEMYSLDELTDIRPSSPATVVGNFLEVNGDG
+NLIGATPGTQLSFNIKVDDSFDVNNLPEGYTTVLYTLQAGDSDPDVLAKNLEVAFNNVLG
+ELEDDGVDKNARFGITVSFDPDQARFSVSSGTTGDGSSIHIYDANPAATSLMGLDTAYDG
+TTNNQALRGKASEPAVLSGEVMTINTAKSIQVTSSNKDFFVSVDGIAAKIDLPYPTTYTN
+IEGFAKALQDKINSIVDPETGRKVLGVTVAFDPKTKQLNFTTGTTGNNAAIQVSGAADWG
+LANTEMQFGTTTEWKKLTQFTENGAPQFVKNGEQTEDGEGVSDKTEWWPVYLDRGELSFD
+LTGKPVSPLTDMPFETAFLQGGKGALTMSIDFTKSTQYSSAFAVLSQSQDGAPEGELMGL
+NINPDGLVNATYSNGSQVSLGKIVLANFSSPSGLRQVGDASYLASASSGMAKIGEAGSAG
+FGSIRAGATERANVDLTQELVDLITAQRNFQANAKAIETSSTMTSAIINIRS
+>tr|A0A0P0LUD6|A0A0P0LUD6_9BURK
+MDAMTYSTARANLASVMNRVCEDHEPLIITRNGDQSVVMLSLEDYKALEETAYLLRTPAN
+ARRLLAAVGQLHAGQGVERELLK
+>tr|A0A0P0MB98|A0A0P0MB98_9BURK
+MSFIQEFKSFALKGNVMDLAVGVIIGAAFGKIVDSLVADLIMPFVSLVFGGLDFANYYLP
+LAGQATNLPLAEAKKLGAVFAYGSFVTVALNFFILALVIFVMVRQINRLKTAQQPAAAPE
+AAPTTPEDVLLLREIRDSLKNKG
+>tr|A0A0P0LUY3|A0A0P0LUY3_9BURK
+MSTETPSPYFKRHIFFCLNERKNNEACCAQHNAQAAFDHCKSRVKNLGLNGPGEVRVNKA
+GCLDRCAGGPVAVVYPEGVWYTFVDTNDIDEIVDSHLKNGQVVQRLLTPEHLGR
+>tr|A0A0P0M787|A0A0P0M787_9BURK
+MDKAEAKRALRKALVEERLNLPDRLARAEALQRVMRIWLFDRPDTVIGAYWPIKGEFDPL
+PALHRWKEDGELHGEPQRRQIGLPVVNKQHKTLTFHTWYPGCPMEEDAYGIPKPKDTEVI
+VPTLLFVPCVGYGIGGYRLGYGGGFYDRTLATLQPKPFTVGLGYTHGFLDDLEPEDHDEP
+LDAILNDNGVVWPV
+>tr|A0A0P0LHH2|A0A0P0LHH2_9BURK
+MALIDIQVPDIGDFDEVTVIELMVKVGDTVKSDQSLITVESDKASMEIPCSHGGVVKELK
+VKLGDKVKQGSVVLVLEGEGAAAAPATATAAPAVAPAASAPVAAAPAPSASSFGGSADIE
+CDVLVLGGGPGGYSAAFRAADLGLNVVIVERYATLGGVCLNVGCIPSKALLHVAAVMDEV
+SHMTDLGVDFGKPVVNIDKLRGHKEKVIGKLTGGLAAMAKMRKVTTVRGLGQFVGANHLE
+VSETTGTAQEQNGSKKVIAFKRAIIAAGSQAVRLPFMPNDPRVVDSTGALELKEVPKRML
+ILGGGIIGLEMGTVYSTLGARLDVVEMMDGLMQGADRDLVKVWQKMNAKRFDNIMLKTKT
+VSARALPEGIEVTFESAEPGGTAPAPQVYDLVLQAVGRTPNGKKLAAEKAGVSVTDRGFI
+NVDIQMRTNVPHIFAIGDIVGQPMLAHKAVHEAHVAAEVIAGELQGNKELAAAAFNARVI
+PSVAYTDPEVAWVGLTEDQARAQGIKVKKGLFPWTASGRAIANGRDEGVTKLLFDDSPEA
+HGHGKILGGGMVGTHAGDMIGEIALAIEMGADAVDIGKTIHPHPTLGESIGMAAEVAHGS
+CTDLPPSKK
+>tr|A0A0P0M7T8|A0A0P0M7T8_9BURK
+MPDRDTPSPQALTELPLFPLGTVLFPGALLPLQLFELRYLQMIGECERQGTGFGVVTLTQ
+GREVHRPGQAAEQFEAMGTRVQIERIERPQPGLVMVWCRGVEKFRIEAKQQRSDGLWLGR
+VLPLPPEPAVQVPEDLQHLSAQMHQALTQLSEQASVMPHWAEAWRLQDCSWLSNRWGELL
+PLPLQMKYRLFALQEPLMRLELVGDMVAPSDTTPPRPGQKPPTNS
+>tr|A0A0P0MA72|A0A0P0MA72_9BURK
+MADPLYQVELTASFLERLDAIEAFLVEAGAGFAFDDLLAELRATVIPNLRRFPRMGRRYL
+ANAPQSSEALALLAAMPAGAPDALREYLHGDYLMLYLVEDASPKTEATVYMLTIRHHRQL
+SFDFARLWP
+>tr|A0A0P0M730|A0A0P0M730_9BURK
+MNSFQLPTPAPLLGRKAWTAFLLALIAVGFLAPVLNLWVPVGHPLHLSDFAVSLVGKIMC
+FAICALAMDLIWGYTGILSLGHGLFFALGGYVMGMYLMRQIGQDGNYKSDLPDFMVFLDW
+KELPWHWTLSDSFVATLLLVVLVPGLIAFVFGYFAFRSRIKGVYFSIITQAMTYAAMLLF
+FRNETGLGGNNGFTDFKRILDLPIATPGMRMVLFVLTGLTLLGFFLFSRWLVGSKYGRVL
+MAIRDAETRVMFSGYSPLPYKLSIWVISAVMCGIAGAMYVPQVGIINPGEMSAANSIEIA
+VWAAVGGRGTLIGPIVGAFLVNGAKSWLTVTAPEFWLYFLGALFIVVTLYLPHGVIGLWA
+KLRNKKGGAA
+>tr|A0A0P0M8H2|A0A0P0M8H2_9BURK
+MFHYVLRRLLIAVPSLLGISLLLFTVLAMAPGDPFSELVSNPNIPPEVALSLREKFGLDD
+PLMVRYWNWLVAMVQGDWGYSFISRINVETLIMDRIPVTLLVIGSSQLLALCIAIPVGVY
+AATRPYSLFDQIASTLAFIGFSLPTFFTGILLILFFSIHLDWLPFVYRADIPETGWRFFW
+EHFKQMIMPVAVLGLFQAGAWTRYVRSAVLDVIRLDYVTTARSKGLSEKVVITKHVLRNA
+MIPVVTLVALQMPAIFGGAIVTEQIFRVPGIGSLIISSMLANDTPVVMAVTFVFSALVIA
+CNLIADILYGWLDPRISFA
+>tr|A0A0P0MAD5|A0A0P0MAD5_9BURK
+MRIYPMNTPQADPEKRKSRSLTYELVDQLSTEIQNGTLSSGQKLPTEAAIMERFGVSRTV
+VREAISKLQAAGLVETRHGIGTFVLAQSESPSFRINPSQLSTLHDVIALLELRISIETEA
+AALAAVRRTDANLRVMQEAMSAFSSAIEEGRDAIAADFQFHHEIARATQNNHFADMMNSL
+GSQSIPRARLQTSPAIDATRLAYLRRVHQEHESILNAITAQDAESARAAMRTHLSNSRDR
+HKKGASSHH
+>tr|A0A0P0M8B5|A0A0P0M8B5_9BURK
+MSRKPKKGYFVRGQFVAEGSELDLEYKRELKGGLDGPSRTELKRESTELQELGTALLTLR
+RDLLEGLALPDKLVDGLAEAKRITNFEGKRRQMQFIGKQMRLLSPETLQAVREALDIQRL
+GSAKDTQALHLAEAWRDRLIADDAAVGEWIEHHPQTDIQQLRALVRQARKDAVPVTNAAV
+SQGLAPRQGRAYRELFKLVRSVLTGGQSDETPDEEAEDE
+>tr|A0A0P0LI36|A0A0P0LI36_9BURK
+MSTLAGKHIVLGLSGGIAAFKSAELCRALVKAGVTVQVVMTEAAEHFMTAVTMQALSGRP
+VYSSQWDPREANNMAHINLSREADAIVVAPASADFMAKLLHGGADELLSLMCLARPLDKV
+LLIVAPAMNREMWNNPATQRNVAQLKADGIHVLDVGQGDQACGETGDGRMLEADEILEDL
+EAFFTPKVMSGKAVLVTAGPTYEAIDPVRGITNLSSGKMGFAIARAARMAGASVTLVAGP
+VHLPSPRGVQRVDVRSARQMLDAVQLHAHAADVFIATAAVADWRPAHSADQKIKKDGSGD
+TPQLSFVENPDILATIAQSPRGASGELFCVGFAAESHDLLAHATAKRLRKGVPLLVGNIG
+PATFGQDDNALLLVDHAGARELPRASKQALAVQLIDDIARRLK
+>tr|A0A0P0M7M5|A0A0P0M7M5_9BURK
+MNTTTHAYRTEGFGIPTAPAGPELTKPSTMRQRPVAVVIGSGFGGLAAAIRLSVKDYEVK
+VFEKLDAPGGRAYVHHQDGFTFDAGPTIITAPFLLEELWALCGKSFSDDVKLVAMDPFYR
+VRFSDGTWFDYNGDPEHMRAEVARFEPDDLPGYERFLEEAERCKTLGFEGMGDMAFDKVS
+DLMAAIPDFLRMGAWRSLYSLVAKHMRNDKLRIVMSFHPLLIGGNPFAVTCAYALINSLE
+RTWGVHSAMGGTGAIVKGLVGLLQERGVPLRCNAPVTQIRIENGRACGVELQNGEFIPAD
+IVVSNGDTAWTYKNLVAPQHRRVWTDRKIAQGKYSMGLFVWYFGTSKQYKDVPHHMMVLG
+PRYKGLLQDIFNKHKLAEDFSLYLHRPTATDPSLAPEGCDTFYVLSPVPHLDSGTDWPAF
+AETYRAAIAESLEASVLPGLRDCIVTSKVSTPQDFQDNLWSYKGAGFGLEPLLLQSAWFR
+PHNRSEDVPGLFVVGASTHPGAGVPGVLMSAKALETVVPHVNA
+>tr|A0A0N7J8Y9|A0A0N7J8Y9_9BURK
+MKHAIRKIHFIGVGGSGMSGIAEVLLNLGYQISGSDLSDSATLQRLTALGIQTHVGHSAG
+NVQDADAVVTSTAVKADNPEVLGARARHIPIVPRAVMLAELMRMKQGVAIAGTHGKTTTT
+SLVASVLAEAGLDPTFVIGGRLNSAGANAKLGTGDYIVVEADESDASFLNLLPVMAVVTN
+IDADHMETYGHDLAKLKAAFVEFLHRMPFYGTAIVCSDDPGVQSIVDDIARPVTTYGLNE
+GAQVRAVDVQAQNGQMHFTVQRRNGVTLPDMPIVLNLPGVHNVLNALAAISVAVELGVDD
+AAVQRALAQFKGVGRRFQRYGDVPTADGQGRFTVIDDYGHHPVEMAATLAAARGAFPGRR
+LVLAFQPHRYSRTRDCFEDFVKVIGQGCDSVLLSEVYAAGEAPIVAADGRSLARALRVAG
+KVEPVFVDQIADMPQAVMRNARDGDVLICMGAGSIGGTPAQVVALAAKAQEVSA
+>tr|A0A0P0M837|A0A0P0M837_9BURK
+MTETQQPSIVIATRESRLALWQAEHVKSLLEGLGCTVKLLGMTTQGDQILDRSLSKVGGK
+GLFVKELEVALQEGHADIAVHSLKDVPMDMPEGFELACVMEREDPRDAWVSSQYARLEDL
+PPGAVVGTSSLRRTVLLRALRPDLKIEPLRGNLDTRLRKLDEGQYAGIVLAAAGLKRLEM
+SERIRHIFETDQMLPAAGQGALGIEIRSDRADLRALLAQLADAPSWRRVAAERAVSRAMG
+GSCSMPLAAHATIEGGVLKLQAAWGDPEGATTLVTADAQASTDGLQAAEALGLSVAQALR
+DGGAH
+>tr|A0A0P0LF16|A0A0P0LF16_9BURK
+MTVTPILEDASLVGADRLAPLSERSLSKLRWRSRRGLLENDLFIERFFNRHATRLTVGQA
+RGMYVLMDLSDNDLMDLLLRRTELQTEVSTEEVREVLDMLRA
+>tr|A0A0P0LF27|A0A0P0LF27_9BURK
+MTNPPDPSSTVGYYNDHAEQFFSSTLRVDMGPIYERFLNGLAPGASILDAGCGSGRDARA
+FADRGFSVSAFDASVELAKRASEHCGFAVDVRRFEDVDEVAQYDAIWCCASLLHVPLLDM
+PVVLSKLWTALKAGGRIYVSYKLGSGEREHDGRRFTDADEDTVRAWLGAMPELLRMEFWQ
+TQDQRPDRTESWTNALAHRSTGPDKRLVTGGDDHFLPHLSAAFARSNQADLAVSFVKTSG
+LRLLLPDLQGMAEAGDTHRIRVLTSDYLDITDPEALRLLLLLQESGAEVRVFATQNQDSF
+HLKAYVFARFEAGQLASGTAFIGSSNISSKALRDGLEWNYRVVFPQDAGYLEARERFEEL
+FAHPKTMALTDSWIEAYEQRRLPPTRSVAPGSHEQEAPPLPNDIQQEALAALADTRANGY
+RRGLVVLATGLGKTWLAAFDAVRMGVRRILFVAHREEILSQAAATFIRILPGKRVGYYTG
+RSRDGDVDVLCASVQTLGKAAHLERFAPQHFDYIVVDEFHHAAAATYKRLLAHFAPSFLL
+GLTATPDRTDQSDILSLCDDNLVFGCNLFTGITSGLLAPFHYYGVHDESVDYKEVPWRNG
+RFDPEELSNKLATLARARHALAQWRTKAQRRTLAFCVSTRHADFMAEHFTRAGVSAAAVY
+SGSVLGRAQALEKLEDGSLQVLFSVDLFNEGVDLPSIDTVLMLRPTESKILFLQQLGRGL
+RRHEGKQQLVVLDFIGNHQAFLGKPQALFGVGTTYKALADFGRKAEKNALELPNGCYVNY
+DLSIIEFLKSLDGAGTQKDYEALRAVLGRRPTLTEFYHSGSSMQDMRRREGHWFALVQSM
+GDLSADETAVAERFQMVLREVETTAMTKSFKAVTLEAWLELDGLRQHVALGALAAHSRAV
+LDRRRPLLSDLDAKMLTTQGTDAAWARYWLDNPIKAWTGGNLKNPASVPFEVRDGCFGLK
+QTVAESDAATLADMLQELVDYRLAAYEVRRVAVEPASNVIPFPVKLRETVELPFFPNLKI
+ACGHFKTGRADAEEHKALPLAYGTLDPSRHFIARASGNSMNGGKNPVLDGDYLLLELITP
+SRAGSITGNVVAIERQDDSGDNQYLLRVVTKGREGQYILKANNPDYEDLTATDDMRTLAR
+LRNIIDPLDLALGESFMREDIPALFGEAYNPGNWNVGHVVLAQKKAHILLVTLNKQGRAD
+EHKYMDHWIDDTHFHWQSQNATDPTSKRGDEIIRHAALGIDIHLFVRDTKLAVGKAAPFT
+YHGRVCYQSHQGSRPMSIVFGLQSGTD
+>tr|A0A0P0M8P8|A0A0P0M8P8_9BURK
+MTSDQRPIGVFDSGIGGLSVLRALQQELPNERFVYLADNAHAPYGEKSEDFVSQRTHAIA
+QFLQTQHQIKALVVACNTATAAAIQGLRAAYPTLPLVGVEPALKPALALSTTRRIGVIAT
+RGTVGSEKFSRLLASVQDEATFVVQACNGLALAIEQSTLPDPSHAAQAQITHLLQNYTQA
+MGRFGSASGDIDTLVLGCTHYVFVENDLRTLLGPNVQLVSTGAPVARQTYRLLAAAGLLN
+AAQPKGAAPTIRLLTTGDLKGLQAAAQRWLSLPEEACEAVPASL
+>tr|A0A0N7J953|A0A0N7J953_9BURK
+MGQKIHPTGFRLAVSRNWSSRWYASNKDFAGMLAEDIKVREYLKAKLKNAAVSRVLIERP
+AKSARITIFSARPGVVIGKKGEDIELLKKELAARLGVPVAVNIEEVRKPEIDAQLIADSI
+TQQLEKRIMFRRAMKRAMQNAMRLGAQGIKIMSAGRLNGIEIARTEWYREGRVPLHTLRA
+DIDYATSEAKTTYGVIGVKVWVYKGDTLGRNDAPALAEPRAEEERRPRGPRRDARPGERP
+AGDRRGGPRRPAGTNAAPTDGSDKPAGAGGDAKPAVKRVRTVAAPAAAADGQ
+>tr|A0A0P0LBN4|A0A0P0LBN4_9BURK
+MSSAHMHIESFFDPATFTFSHILADLNTRQCALIDSVLDYDPKSGRTNTASADQLVARVK
+ALDLRVQWILETHVHADHLSAAPYLQKQLGGQLAIGSHITTVQNVFGKLFNAGTEFARDG
+SQFDRLLGDGETFQIGALQAQALHTPGHTPACMTYVVTDDSVDPVRQVAFVGDTLFMPDY
+GTARCDFPGGSASVLFQSIQKVLSLPDNTELFMCHDYPPETRQPQCVTTVAEQKKANVHV
+HQGVSEAEFVAMREKRDATLSMPVLILPSVQINMRAGHMPPPEDNGQRYLKIPVDAL
+>tr|A0A0P0LDS4|A0A0P0LDS4_9BURK
+MNFDDFKGHIYLIDDDPSIRRSLAFSLSSLRYSIQSFENPAAFLRDALPISPAVILLDIC
+MPEANGLSLQTELIRQGRSTPIIFISGESQPAEIIEAMKKGAVDFLLKPFGLHVLVQSID
+LALEKDRAGLHLRIKTKNAQERFSSLTDKEREICWWMIKGYGNKEIANLNGSAASTVKLH
+RSRVLEKMGCVSLSELLELAMDGDRRILNIFEPPRA
+>tr|A0A0P0MBB6|A0A0P0MBB6_9BURK
+MKTKLNFSTVAMAASACCAALAQAQTQTIEITADKDRYQPALTQAATRSAVPVEQVPQSI
+VSIPRSVIEDQGSKTVSDALRNVSNVNEIDPRDSNNVGFKIRGFNAAMVVDGVSVPGWFQ
+NQESLVGIQQMDVIKGPAGGLYGSGQAIGNYSTVGGTIAVTTKDPVATASREVGVKLGNF
+GRRNAHFDLNQPINEAWAFRVNGEHDRSDSETQGVFFRKSALNPSLSWSPDAKTKVVIKA
+RMLDSTTVDYSGLPRASASANEPAAGVARSTFITATGLPDTTQKARGLNVQWTQVLNDDW
+TLKALAAHNTAEVDQRGVFPFPYGRTSLFGSGFGSSVNLAGLRLWEKLTSDTLQVSLNTS
+IKSGGALHRISFGLDQDKTRDDGFLAFANSPSFTPVNLLNYVRPAWGEPAVPAAANQQQN
+RSTSTVVYVQDQIQVGSWHLHGSLRHTRTEAKDLYADWGINNQSTNNKVTPRFGAVFDAS
+DVVSFFGGYSQMSRVPFGSLFSVAPKMEEAEQKELGLRIKGWQGLSATAALFDIQRKNAA
+VSDPANPGFSVQTGVQQAKGLDVDVRWQASPSLAWIAAYTHQTAEITHDTNAAWVGKRLF
+NVPEQTMRVAARYDVRQGEWSGLGLGLGASHRSNLAGDTNNTFLMPAVTLWDAQASYKRG
+DIQYSASISNLLNKQYYAPMAYFGGGQVVPGLPRSLVVGISTKF
+>tr|A0A0P0LNQ0|A0A0P0LNQ0_9BURK
+MTTLAEPKRARGRPKKTEGERDDGNRRQALISAAAQLFKRQGYDATSTREIAALVGMQSG
+SPFYHFGNKQDLLLAVMVEGMKQAIARQHAACTNTTADSARERLRQLIRHHFDVLLGPDS
+DFIPVMLYEWRSLAPAQRKAITELKDDYEAAWMPVLQALHETGQLQAPVGLARLMIFGAL
+NWSVQWYEPARKNKVAKRATLAELTETALQLFLKDTP
+>tr|A0A0P0M9V0|A0A0P0M9V0_9BURK
+MTTSTSRREFVVRIASVSAVLATGAGLSACGGDKAQAEFNFGVASGDPLADKVILWTHAK
+FPGIDADVSLRYQVSKDAGFTQVVNEGSAVASLATGFTAKVDASGLQAGTAYFYRFSQGG
+NHSPVGQTRTLPQTAESLKLAVMSCTNFPTGFFNVYAEVAKSDAEFALHLGDYIYEYAAD
+GYASSSAAALGRVSLPGTELRTLADYRARHAQYKSDPDSKNLHALKPMIAVWDDHEIAND
+AFKDGAENHTTATEGAWADRKAAALQAYHEWMPIRTGTDKTKIYRSFNFGNLVSLHMLDT
+RLIGRDAQIEIGELAGAAGPAARNAALSAFSSPTRQMLGTEQMQWLQGQLAASTARWQVL
+GQQVLMGRMEFPVSVLAALNPSDLSPAAQQAGQKAVTDYLTAKATPTGARTPAQAALMDT
+TLNPKLGYNLDAWDGYVVARETLLMTAYQLQKRLVVLAGDTHNAWHSDLTLMGLADPRLA
+GTKVGEEFATSSVSSPGLENYLVTLSPAQIKGIFEGVVDDLNWMDASKRGFLKMSFSAAE
+AKGEWFFVDTISSRAYTSVLGNTRTQQA
+>tr|A0A0P0LFT2|A0A0P0LFT2_9BURK
+MQRRHFLQTGSALGAMGLVSGCATVGGGSGPKVVVIGGGYSGATAAKYLRMWSEHKIQVT
+LVEPNDAFISCPISNLVIGGSKTIADITTPYDNLTKRHGVKVIKDRVNSIDADKRIVKLA
+GGTELAYDRLIVSAGIDFMWETLPGMNKGDAKDKVMHAWKAGAQTVTLRKQLEAMPDGGV
+FAMSIPLAPYRCPPGPYERACQVAEYFSKAKPKSKVLILDANDDVTSKGPLFKKAWAERY
+KGIVEYRGKHRVTDVDATTNTLKFEFNDDIKANVLNVIPNMRAGDIAVNAGLATANKRWC
+EVDFLTFESKAAKNVHVLGDSIQIAPGMPKSGHMANQHGKTCAAAVVALLMGKEVNPMPI
+YNNTCYSFVSSEDVVHVASVHKYDAEKKTMLTVPGSGGVSSAANELEGRYAHAWARNIWA
+DTLA
+>tr|A0A0P0MCG6|A0A0P0MCG6_9BURK
+MTSSLQNLLDNNRQWSARMVRDDPAFFTRLANQQTPKYLWIGCSDSRVPANQITGLEPGE
+VFVHRNVANVVVHSDLNALSVIQYAVDALKVEHIMVVGHYGCGGVLATLRGLRVGLADNW
+LRHVHDVKVRHRRRLDHLPVLAQEDALCEMNVIEQVGNVALTNVVQDAWARGQKLSVHGW
+CYGIKDGLAKDLGVSMSGAHEVVDVFRSAFKRYPRGE
+>tr|A0A0N7J901|A0A0N7J901_9BURK
+MKVQHPMSLMTSLNALAWRRTALALACWASASWAQASLPIQHWTQPSGVRVYLVESHAIP
+MVDVQIDIDAGSRRDPAAQAGLASIMAGQMANGTRAEPQVQGQGPGPYPQAMDENQIGEA
+WADLGASFGASASGDRMSFGLRSLSYPDLLAKAVALAARQMAHPAFPEAMWLRDRERISA
+SIRESLTKPGTVVQHRFSEAVYGVHPYGYRATPDTLSRINVQDLKNLHAQALRACRATVS
+VVGALTRAQADDLVQRLLAQWPRESGCPSLPPVPEVAPLGAAQSLNLPFDSAQAHVLIGQ
+PGYKRTDPDFFALLVGNHILGGGGFVSRLTEQVREKRGLSYSVYSAFAPGLHAGAFMVGL
+QTRPDQAKQAVAVAQEVVQDFVRQGPTEAELTAAKSNLVGGFALRIDSNRKLLDNVANIA
+WNRLPLDYLSNWTRHIERVTVADVQRAMARVLQPERMVTVVVGAAP
+>tr|A0A0P0LG02|A0A0P0LG02_9BURK
+MNWNVQTIFWMDAFLYLMLHAAIWYGLARFRSPVVVLWSASGIFSALGLCVLGSRGWVST
+DVVVVAGQFLMAAGNWGRQLALRSLNGPASPVWMWSSLGVNVAFLALSHGLHFSGAAEST
+LMLVFYAFYTFNALEYYFAGQRLVLTHDKKGANSLKWAGLILSVTLGTKTVAMLAGIGAD
+DLYEASWDHAVVFIGQFTAIMMLCVGFMQIFVDQDHRSQTTMQLQLAREQERAAMALQHS
+EDLGALLTEREEIIRQLTLSNKSAGMGALVASFAHELNQPLTANLLHAELVQSKLEEAQR
+DQSRPDLDVLHKVVVAIVHDTQRGADIIRKLRNLFRMSRGEYTVLQLDELVQDVLDLVQS
+QMKSAGIVCTVKLEANLHLQGDATQLQQVILNLLNNAIDALKASGLRHPELHIRGHAVGQ
+FMVLEVEDNGPGIEPERADDVFSLFKTSKSQGMGVGLWLSRSIVEVHGGRLNFKSEPGRR
+TVFTLRLPLLGETMLG
+>tr|A0A0P0M7M0|A0A0P0M7M0_9BURK
+MNLRHLEHWLALAETGSFSRAAEKLHITQSALSRSIQALEEDLGGPLVDRVGKKNELTPL
+GRSVLERARRIVHEARELKQGATLLQRGGLGTLRVGLGSGPGAMLMTPWLVYMANHHPTV
+QVTVSRGSTELQLTQLRDRQLDALVVDLRRVEAAPDLKIEHVVDMRAGFVCRREHPVLQA
+HPRGVPLDALLSYPIASIQLSQEVARLLVDHYGPQANPAQMTTLQCEDIASLLDVVGQTD
+AVYLGIVGAAREGLAQGRLVELQMRTPLKGQARLGLITLAGRTELPIMSVFRAFIQKHLT
+D
+>tr|A0A0P0M8X0|A0A0P0M8X0_9BURK
+MKFRFPIVIIDEDYRSENTSGLGIRALADAIIAEGFEVLGVTSYGDLSQFAQQQSRASAF
+ILSIDDEEFSPGPDLDPAVINLRAFIDEVRRKNADVPIYIYGETKTSRHLPNDILRELHG
+FIHMFEDTPEFVARHIIREAKSYLEGVQPPFFKALLDYAEDGSYSWHCPGHSGGVAFLKS
+PVGQMYHQFYGENMLRADVCNAVEELGQLLDHNGAIGESERNAARIFNADHCFFVTNGTS
+TSNKIVWHHTVAPGDVVVVDRNCHKSILHAIIMTGAVPVFMKPTRNHFGIIGPIPKSEFE
+PAAIMAKIKANPLLKGVDPKKVKPRVMTLTQSTYDGVLYNTETIKSMLDGYVDNLHFDEA
+WLPHAAFHPFYGPYHAMGKKRARPKESMVYATQSIHKLLAGISQASHVLVQDAQNTKLDR
+PLFNEAYLMHTSTSPQYSIIASCDVAAAMMEPPGGTALVEESIAEALDFRRAMRKIDAEY
+GKDWWFKVWGPEKYAEEGIGRADDWILRNDPRKKASKWHGFGQQLADGFNMLDPIKSTIV
+TPGLDLDGKFDKTGIPASIVSKFLTEHGVVVEKTGLYSFFIMFTIGITKGRWNSLLTALQ
+QFKDEYAKNQPMWKIMPEFCQKHPRYERMGLRDLCQHVHEMYAKYDIARLTTDMYLSDLA
+PAMRPSDAYAHIAHRKTERVEIDNLEGRITVGLVTPYPPGIPLLIPGEVFNRKIVDYLKF
+AREFNEKCPGFETDIHGLVEIKDDDGKKRYFADCVKL
+>tr|A0A0P0M8W9|A0A0P0M8W9_9BURK
+MNIDLKIIDARMSDQLPAYATPGSAGLDLRACLSEPLTLQPNAWQLVPTGIAVHLKDPAY
+AAMLLPRSGLGHKHGIVLGNLVGLIDSDYQGQLMVSAWNRSDVAFTIEPMERIAQMVIVP
+VVQATFNVVAEFDAPSERGEGGYGSTGKK
+>tr|A0A0P0MAZ8|A0A0P0MAZ8_9BURK
+MKLVFAELAWEDYLYWQKQDRKMVDRINKLIEATTRDPYAGVGKPEPLKHALSGFWSRRI
+NEEHRMVYRVEGDQLQIAQLRLHY
+>tr|A0A0P0M7C6|A0A0P0M7C6_9BURK
+MSAPNVNHAQQYAQLDTWIDAHFDEQVKFLQALVQVPTDTPPGNNTPHAERTAELLAPMG
+FEAEKHPVPASEVQAYGLESITNLIVRRKYGEGKTIALNAHGDVVPPGEGWTHPPYGGEI
+HNGAMYGRATAVSKCDFSTFTFATRALESLKAPLKGGVELHFTYDEEFGGEMGPGWLLAK
+GLTKPDLMIAAGFSYQVVTAHNGCLQMEVTVQGEMSHAAIPDSGTDALQGAVHILSALLA
+LNTQYLKVTSKVEGITHPYLNVGLIEGGTNTNVVPGKVSFKLDRRMIPEENPFDVEASIR
+QTIADAAASFKPPRGGHVLKVDVRRMLLANAMKPLAGNQPLVSAIQKHGEQVFGETIPAL
+GTPLYTDVRLYVERGIPGVIYGAGPRTVLESNAKRADEHVELEDLRRATKVVARTLLDLL
+A
+>tr|A0A0N7J8P1|A0A0N7J8P1_9BURK
+MSAVFSPSLNAFPPELSGDSQVANLRVPPHSIEAESSVLGGLLLDNGAWDRVGDLLVDND
+FYRHEHKLIYAAIGALINASKPADVITVNEQLQNQGKADEMGGLGYLNSLAQYVPSASNI
+RRYAEIVRERSILRKLVSASDEIATNAFNPQGKAIDRILDEAEQKIFNIGEEGSRMKQGF
+QSMDTLVVELLDRVQEMADNPNDITGVPTGFYDLDRMTSGLQPGDMVVLAARPSMGKTAF
+AINIAEHVALNEGLPVAVFSMEMGASQLAVRVVGSIGRIDQGHLRTGKLSDDEWPRLTEA
+IEKLRTVSLHIDETPGLTPSELRANARRLARQCGKLGLIVVDYLQLMSGSGGSGGDNRAT
+ELGEISRGLKMLAKELQCPVIALSQLNRSVEQRTDKRPMMSDLRESGAIEQDADIIMFIY
+RDDYYNKDSKDPGVAEIIIGKQRNGPTGTVRLTFLKNLTRFESLASGLSDDY
+>tr|A0A0P0LMP9|A0A0P0LMP9_9BURK
+MTIKLGINGFGRIGRLALRAALKHGYDDIQIVGINDPKPSDYLAYMLKYDSVHGRFDGTV
+DFTEDTLIVNGKKIKLSHERDAHNLRWGEMGVHTVLECTGHYLTEPTSQMHIVAGAKKVV
+ISAPSKDSIPMFVYGVNHKKYAGEAIVSNASCTTNCLAPVVKVLNDKWGIKRGLMTTVHA
+ATASQMTVDGSSRKDWRGGRGILENIIPSSTGAAKAVGVVIPEIKGKITGMAFRVPTSDV
+SVIDLTVELNSDASYADICAEMKAQSEGALKGILGYTDEKVVSTDFRGESCASVFDATAG
+IALDKSFVKIVAWYDNEWGYAKQCLEMVRVVAKKK
+>tr|A0A0P0LFQ8|A0A0P0LFQ8_9BURK
+MNIKDLDLNLLRLFDAVWRTRSVSLAAQQLGMSQPAASQGLARLRAVLGDALFERSGAGV
+RPTPRADRLAQAVQLALGTIEDALNVSQVFDPQRSARVLRVHLSDIGEARFLPELVLALQ
+HHAPGMRLEALPMPHDKIAPALDNGQLDLAIGFLPEVSDTLQEPLLSDRYVVLMRQGHPV
+AQRWAQRQKARTAPDGAQALLAELEFAAVRTHSDTLRILDLMHWQHRLRLTVSHFLSLPG
+IVRSSDLAVLMPRNFAQGFAEAGALALIEPDLPLRDFTVSMHWSARFDKDPCLLWLRGTV
+SGLFGTIPNTLELKP
+>tr|A0A0P0LMH1|A0A0P0LMH1_9BURK
+MGQARLQGQVALITGAGSGIGAATAHVFCQEGAAVFLVDANMQALTRTQQALLLAFPDAQ
+VRCLQADVTDRALAQQAVDDCVAAFAGLDILVNNAAMRNYSPAAEATSQEWQAIVGVNLV
+GITHYCHAALPHLRQSGRGSIVNVSSCYAVKGRKGMALYDATKAAQLALSRSLACEEAVH
+GVRVNAVCPGSTLTDFHVGRAQQAGKSIEQLKTERKDSSLLGRWAAPEEIAWPILWLASA
+EASFITGTTLVVDGGLHIV
+>tr|A0A0P0MBW1|A0A0P0MBW1_9BURK
+MSDPYPARHAEREDKRSFLQKLAEFIHPGPDSADELIETLAEAEDNQIINTESRLMLEGV
+IRMADMTASDVMLAAPRMDLLNIEDPMDELLHQVIDTGHSRFPVFEGERDNIIGILLAKD
+LLKLQRAPELNIRALLRPAVFVPESKGLNDLLRQFRDNRNHLAIVIDEYGRTAGLITIED
+VLEQIVGEIEDEFDIAEDAGDIFGLPDRSFRVSGDTAIERVDEAFGVDLRQARQADDDHD
+FDTLGGLIAHEMGHVPHRGENFELAGLRFVVLHTRAGAVRWFKVSPLPALRSEPLGSEQP
+SNTANSPAPGTAP
+>tr|A0A0P0MA91|A0A0P0MA91_9BURK
+MKIARLLATGLISLSAIGAFAQNISFGIIATDSASAQRERWEPFFRDMEKKTGLKIQSFY
+APDYAGVIEAMRFNKIQVAWYGNKAAMEAVDRANGEVFAQLMYADGTFGYHALLITHKDS
+PYKTLDDVIANGKNINFGIGDPNSTSGFLVPSYYIFAQRNIEARNTFKTVRNASHGANIQ
+ATLAKQVDVATNNTEDMGKLESAKPDLFSQLRVIWKSPLIPSDPFVWRKDMDPAVKTKIK
+DFVLNYAKNDPAEKAVLKNIYNYGGFRESNNDQLIPIRQLELFKDRRKVEGDDKLAAADK
+AKQLAEIDKQLAALKK
+>tr|A0A0N7J8W4|A0A0N7J8W4_9BURK
+MNPISLFSVMDEDVAVKALAALAQSSRIKVFRAIVGTGPEGIQPGQLSAALDIPANTLSF
+HLKELHHAALVSVQREGRFLRYRADLGAMQSLMDFLTAHCCQGVPCGDALNLACEPGRC
+>tr|A0A0P0MC39|A0A0P0MC39_9BURK
+MSIQTVGIIGAGTMGNGIAQVCAVSGIQVVMVDISDAAVAKGVATVASSLDRLVKKEKTS
+EADKAAALARIQGSSHYDDLKGAQLVIEAATENHELKVKILKQLDALLAPNVIIASNTSS
+ISITQLAAATQRADRFIGMHFFNPVPMMALVEIIRGLQTSDATHDAVHDMALALGKTPIT
+VKNAPGFVVNRILVPMINEAFFVLGEGLAEAEAIDAGMKLGCNQPIGPLALADMIGLDVC
+LAVMEVYLKEFGDSKYRPSPLLKEMVAAGRLGRKTGQGVYKY
+>tr|A0A0P0LT07|A0A0P0LT07_9BURK
+MDKHISSQFDAELTGVSSRVLELGGLVESQTRHAVYALAQFSSEVADQVVATEKQVNALE
+VEIDAELASIIARRQPTARDLRLLMAISKITGNLERAGDEAERIARMVKLILEQGSPRNL
+PSSELRVAADLATGLLRKALDAFARLDVNTALVILKEDDLIDAEFNGFVRKLVTYMMEDP
+RTISASLDLLFVAKAIERIGDHAKNIAEFVIYVVKGADVRHTALTEIEKAVQ
+>tr|A0A0P0MBG3|A0A0P0MBG3_9BURK
+MIGILIIAHAPLATALRECALHVFPDCATGVLALDVLPHDAPEDSLARAHEAMTALGTTE
+VLLLSDVFGATPCNVAQQLGDGLHTRLVAGVNLPMLLRSVCYRHESLEALAARAHAGGTQ
+GVMPVGSTAPQNQIGQRHAPSHRDHQQ
+>tr|A0A0P0MAZ3|A0A0P0MAZ3_9BURK
+MTDDHCIFCKIIAGKIPSRKVYEDEHVFAFHDIAPWAPIHFLIIPKLHIPSMMHLAPEHA
+ALMGHMMTLAPKLAAQEGCNPYPDGGFRIVVNNGTEGGQEVHHLHMHVMGGPRPWLRG
+>tr|A0A0P0LBM8|A0A0P0LBM8_9BURK
+MKNATFRQLRVFNEVARHLSFVRAAENLHLTPPAVTMQVKELEGHVGMPLFDRKGKQVSL
+TTTGEYMLVYARKILATVKDAEDAAARLQRAETGVLTIGFVSTAKYFLMRLLAEFRTLHP
+GVDIQISIGNRDQLVGMLQNSEVDIAVMGRPPKELQTRAEPFAAHPHVFVSAVDHPLAHR
+DHLRVEDLRPFDFIVREKGAGTRAAMEKFFEDTHVEPRMKIELHSNEIIKQAVMAGLGLG
+FLSLHTIGLELEHKLICMLDVEGAPVVRSWNVVHTQSKMLSPAAEAFRYFMLEEAESHLA
+QRFGMHWPKAA
+>tr|A0A0P0LG92|A0A0P0LG92_9BURK
+MKSRYQRMLGIGLGLLLVCGALFFVLNAFQSNLVFFFTPTQVAAGEAPKEGHFRVGGLVK
+AGSVQRDGMAVSFVVTDTQRDVPVRYVGLLPDLFKEGKGVVAQGRLDASRLFVASEVLAK
+HDENYMPPEAQHALDEAAKARTGAAVAQ
+>tr|A0A0P0MA61|A0A0P0MA61_9BURK
+MKFTTLGKSPLKVSRLCLGTMMFGDQTPLEDARSIVADAQDKGCNFIDTADVYTLGKSEE
+IVGQLLKGQRHRWVLASKVGNAMSDLPNHQAYSRSWMLRACEDSLRRLATDHLDIYYLHR
+DCNGMDLEEPLRAIEALLRDGKIRYWGVSNFRGWRIAEMVNMARQMNMPGPVVCQPYYNL
+LNRLPEVEILEACGHYGMGVVPYSPIARGVLTGKYAPGQAPAEGSRVARGDKRILETEFR
+EESLQIAQTLRQHCEAKGVSLAHFATAWVLANRHVSAVIAGPRTLAQWQDYAGALEVSIT
+AEDEALVNSLVAPGHPSTPGYNDPSYPLNGR
+>tr|A0A0P0LEM2|A0A0P0LEM2_9BURK
+MSNPAGFVDDYLAYLLARASHLISSEFHAVVEASGLSLMEWRVMASLSGKDSLSINELAS
+IVLAKQPTVTKLVGRMQDAGWVKRCDAAHDKRQSLVSLTAAGRRKVQPLLKQAKAHEAQV
+VSALGSGPAHQLKLMLESLIAAHGST
+>tr|A0A0P0LMH8|A0A0P0LMH8_9BURK
+MFQRKSAFEIRHQLGLSPAVAILGARQIGKTTLAKQIAAEFPDSIYLDLENAQARAKLDQ
+ADVFFEANRHRLVVLDEIQNAPDLFSTMRGEIDADRRPGRFLILGSASFKLLQQSQSLAG
+RLALVDMAPLLLSEVHQSFEDIQTLWVRGGFPGSYTTPQNDASWLWRDAFVRHFLHTDLP
+ALGINVEPELMRRFWRMVAHLHGQLFNASSIAASLGVSSPTVTRYLDHLVQSLMLRRLEP
+YHANLGKRLVKSPKIYVRDSGLLHYLLGMRNVHDLMGHPNTGASWEGFCIEQICNHLPTG
+ASVSFYRTAAGAELDVVVETGRETTGFEIKFSSAPKVSKGFWQACEDIGVHKAYVMAPVQ
+EGWAMAKDVQVVSPLDIPMLLSKA
+>tr|A0A0P0LP71|A0A0P0LP71_9BURK
+MALASDTSVSAAPWRVIVTRPGREAQAWADALLARGVPCDALPLIEIAALPNPNDLEQAW
+RDLPRHMALMFVSANAVRFFMAARPTNQPMPSCRAWSTGPGTRAALLAAGWPEALIDSPG
+EDAPQFDSEALWDLVAHRVQASVASTPTKPSVLIVRGADARGQLAGRDWLAHQLENAGLE
+VLQAVAYVRQAPVLTPAQQSLALQAVADGSAWLFSSSEAAQHLLLACPDLPLTQARALAT
+HPRIAQRLQASGWGRVDLVPAGVDAQAQSIKSLT
+>tr|A0A0P0M7E5|A0A0P0M7E5_9BURK
+MNTRFTPGRWAPAVLLLCAAWLSPSAMAQADEARAKKIVGGSCFVCHGAEGESSSEVFPR
+LAGQHWEYTAKQLENFKSGKRKSTAMADMVAKLTPDEMVALGKFFEKQKAEVEPSKDAGL
+AAVGKYIYHNGNKYSGLASCASCHGADAKGTTALPRLAGQYSGYTETQLKQFNQRERTND
+NAVMHAIASKMSPLEMAAVAEYLSGK
+>tr|A0A0N7J982|A0A0N7J982_9BURK
+MFADKTPRKRTYLWQRPDWPQWRYDAAALAGPLAQLHRAQGELVGRMAHLGLAQRDLATL
+QVLTQEVITTSAIEGETLNLEAVRSSIARKLGVDIGALAPADRHVDGVVDMVLDATQQHA
+QPLTAERLFGWHAALFPTGFSGRLRIQVGTWRNDAAGPMQVVSGPVGREKVHFEAPPAHT
+LPAQTAAFLEWFNAGPLGDALVHAGLAHLWLVTLHPFDDGNGRISRAVGDMALARAEGSA
+QRFYSLSAQIQRERKQYYEQLEATQRGTMDVTPWLQWFLACLLRAVQGADGLLVGVLDKA
+KFWQRWADTPMNARQTLVLNRVLDGMDGKLTNAKWATLGKCSADTALRDINDLLARGVLR
+RLEGGGRNTAYELAS
+>tr|A0A0P0MAH2|A0A0P0MAH2_9BURK
+MMRAFGRWLMLLVLAAVGLQLFFAVRILAMNWIAPESTSFQRSQAWQILKQQGQLPWRQE
+SVEIKAMSASLQRAVIASEDAAFTQHHGIWWQSLEKAWEKNARAKVQAEKRAQRQPDKPV
+EVKIVGGSTITQQLAKNLFLSGERTLVRKGQEMVLALTLETLLSKERILEIYLNSVEWGE
+GVFGAEAAAQHYFRKSAARLNAWEASRLAVMLPRPRYFEKLPQSAYLSRRAETIMARMND
+VVLP
+>tr|A0A0N7J894|A0A0N7J894_9BURK
+MTTTFSAKPAEVVHEWFVIDATDKVLGRVASEVALRLRGKHKAIYTPHVDTGDFIVIINA
+AQLKVTGTKTLDKVYYRHSGYPGGITATNFRDMQAKHPGRALEKAVKGMLPKGPLGYAMI
+KKLKVYGGAEHPHTAQQPKVLDI
+>tr|A0A0N7J875|A0A0N7J875_9BURK
+MEFDYVIVGGGSAGSVLASRLSEDPTVQVALIEAGPPDTSALIHCPAGIALMARTEIVSQ
+SLNTVPQPGLNGRIGFQPRGRTLGGSSSTNAMAYIRGQAVDYDTWAQLGCAGWSWAEVFP
+YFLKAEHNERIHNEWHAQNGPLNVADLQSPNVFSKRFVEAGMQAGLAHTTDFNGPTQEGV
+GLYQVTQKAGERFSAAKAYLTPNRDRPNLHVMTGVTVDRIGLVDGVARQVHTVQGGKTQT
+LTARREIILSAGAFQSPAILMRSGMGPAAHLQSLGIEVLRDLPGVGENLHDHPDAVLVAD
+APGHTDLIGVSPKGAWHTLQAMWEWRQQRKGRLTTNFAEGGAFYKSRPEEAHPDIQLHFV
+VAKLVDHGRQLTLGHGYSLHVCLLQPDSRGRVQLADRNPNSAPLIDPQFLSDPRDLQRLR
+DGVRQAQKILAQPALAAYGKEWAASANARTDEQLDHWIRQNADTVYHPVGTCRMGTDKMA
+VVDAQLRVHGVPGLRVVDASVMPRIVSGNTNAPTIMIAEKAADWIRGY
+>tr|A0A0N7J8K8|A0A0N7J8K8_9BURK
+MNFHLPALRWSLLPAKIRGMFNLNDPRWGRDDDKSSGDSGNKPSGDMPPPSPKPDSWQPP
+PGRAPQQQQSGPPDLDELWRDFNRKLGQIFGGKGGPQRPQGPGGSGGGSGGPEIPAFIKN
+LGIGVILGGALLVWLATGFFIVQEGQQAVITQFGKYHSTVGAGFNWRMPYPVQRHELVFV
+TQIRSVDIGRDNIIKATGLRESAMLTEDENIVEIKFAVQYRLNDARAYLFESRNPTEAVV
+QSAETAVREVVGKMKMDSALAEERDQIAPRVREKMQTILDRYKVGIEVVGINLQQGGVRP
+PEQVQAAFDDVLKAGQERERAKNEAQAYANDVIPRAVGAAARLKEEADAYRERIVAQAEG
+DAQRFKTILPEYQKAPQVMRDRMYTDTMQQIYSNVTKVLVDSKQGSNLLYLPLDKIMQQV
+SQVTPPALDVPPTTANAAGNGTVDTPRSRELERSRSRDPR
+>tr|A0A0P0MAK2|A0A0P0MAK2_9BURK
+MKSLHDVPAPAKLNLFLHITGRRPDGYHELQSVFMLIDWCDTLHFEKRPGGAISREDLTI
+ALPAQDLITRAAHLLQSHTGCTEGVHIAVEKHIPAQAGMGGGSSDAATCLLALNRLWGLN
+LSLPTLEKLGLQLGADVPFFLRGHNAWVEGVGEKITPITLPAAQFWVLKPPQGIETSQIF
+AHPDLQRDTNAATISVFAAETYDFGHNDLQPVAQTLCPGVEQAIQALKHAGLKARMTGSG
+SAVFAHCMDNTTKVSVPDLFLARLCSNMEAHPLQGWASSDS
+>tr|A0A0P0M7H8|A0A0P0M7H8_9BURK
+MSTKTSISGLTDEEAQEFHHYWMQGTVGFTAVAVLAHILVWAWRPWF
+>tr|A0A0P0MBN0|A0A0P0MBN0_9BURK
+MQLNPAEISELIKSRIEGLSASADIRNQGTVVSVTDGIVRVHGLSDVMQGEMLEFPATAE
+GAATYGLALNLERDSVGAVILGEYEHISEGDTVKCTGRILEVPVGPELIGRVVNALGQPI
+DGKGPINAKMTDVIEKVAPGVIARKSVDQPMQTGLKSIDSMVPVGRGQRELIIGDRQTGK
+TAVAIDAIINQKGQNMTCVYVAIGQKASSIKNVVRALEQAGAMEYTIVVAASASESAAMQ
+YVSAYSGCTMGEYFRDRGEDALIVYDDLSKQAVAYRQVSLLLRRPPGREAYPGDVFYLHS
+RLLERAARVNADYVEAFTKGAVTGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFL
+ETSLFNAGIRPAINAGISVSRVGSSAQTKIIKGQSGGIRTDLAQYRELAAFAQFASDLDE
+STRKQLDRGARVTELLKQAQYSPLSISLMGASLFAVNKGYMDDIDVKKVLAFEHGLHAYL
+KDSCAALLAKIESSKALDKEAEAELNTAVAAFKKSFA
+>tr|A0A0P0M747|A0A0P0M747_9BURK
+MRHHGETAAPASSQVPGAKPGAAIPTPTSNDWKTLSRLLPYLWQYKWRVVIALSLMVCAK
+LANVSVPLLLKELVDAMSLKPGDPQAVLVVPVALLVGYGALRLMTSAFTELRELVFAKAT
+QGASRSIALQTFEHLHALSLRFHLARQTGGMTRDIERGVRGIESLISYSLYSVIPTLIEV
+GLVLTILAVKFDAWFAGITLAALALYIVFTVRVTEWRTQFRKQANEFDSAAHTRAVDSLL
+NYETVKYFGNERFEAGRYDESLERLRLSRLKAQTSLSLLNTGQQLIIASALVAMLWRATE
+GVVAGRMTLGDLVMINAFMIQLYIPLNFLGVLYREIKQSLTDLDKMFVLMDREREVADAP
+GAQALALQGAPDVVFDRVSFAYESNRPILKDISFTIPAGKTVAVVGPSGSGKSTLARLMF
+RFYDVQQGKICIAGQDIRQVTQASVRQALGIVPQDTVLFNDTVAYNIAYGRPGASQAEVQ
+GAARSARIHDFIASTPKGYQTSVGERGLKLSGGEKQRVAIARTLLKDPPILVFDEATSAL
+DSANERAIQSELASVAQNKTTLVIAHRLSTVVDAHEILVMEGGQIIERGNHAELLAQQGR
+YASMWAMQQSGE
+>tr|A0A0P0M860|A0A0P0M860_9BURK
+MVGLTQRNNHRRSIVGITTILLLLIIWYLTTTVTGWINPSRFPRPDEVLSAFTFIQTEGY
+GNGKLHQHVLHSLKLVVMGFAVAVSVGVPLGLLMGYSRRAEALVNPAFLLLRPIPPLAWI
+PLAIVWLGLEDGSKILVIFVAAFVPSVINSYTGVRNIETPVMEAASMLGIKGWRMVTEVL
+VPGAMPMIFTGLRLSLQASWTTLVAAELIGALYGLGSILNQAAQDIFPAMILVAMAFVGI
+CGASTTWLLGVLENHAMPWRKGRVAA
+>tr|A0A0P0MB82|A0A0P0MB82_9BURK
+MPLQTVAPQRLYRQIADQIRLLMVSGEFALGSRLPAERDLAAQLGVSRPSVREALIALEV
+EGMIEVRTGSGIYVQRTEQPGKSSAPAAADDNTPADWGPLEVMSARLLVEAEVAALAATH
+AQKSDLKAIKAGLQQMKLEAARDQVPREGDEAFHEAIAQACGNSVLLDTVQRYWQARNGP
+LFERLGDYFEHPESWQAAIGEHQQVLLAIEAHDPSAARKTMQKHLRQAYKRYSASWRRAP
+AR
+>tr|A0A0P0MAQ0|A0A0P0MAQ0_9BURK
+MKPSVISADVLFEDHRQQLKWQWQAGLGASERRFDEVAVRQARSGADLVGYLNYIHPYRV
+QILGPREVAYLTNGTPDDCSRRIARIVTLEPPVLVLADGQTAPEALLAMCERAQIPMFAT
+EQSSAFVIDVLRAYLSKHFADRTTMHGVFMDILGMGVLITGESGLGKSELGLELISRGNG
+LVADDAVDLYRINQTTIEARCPDLLQNLLEVRGIGLLDIRAIFGETAVRRKMRLKLIVHL
+VRRETLERDYERLPSEPLRQDVLGIPVQKVVIQVMAGRNIAVLVEAAVRNTILQMRGIDT
+YQDFIERQRRAMG
+>tr|A0A0P0LGX2|A0A0P0LGX2_9BURK
+MGATGYFTHPSCWKHEMGAGHPECPERLGAIEDRLLISGVDMALQRREASPASLADIELA
+HGRMHVAALRGLGDALREDMAAGGPTHTSLDPDTLINAHTWDAALVAAGAALDATDAVLA
+GELENAFCAVRPPGHHACRDKAMGFCFFNNVAIAAKYALERHGLKRVAVVDFDVHHGNGT
+EDIVAGDERILMVSFFQHPFYPEGGSTSTAANLVNLPVPAYTRGMDIRELVDMMWLPRLE
+AHKPELIFISAGFDAHREDDMGQMGLVEQDYAWITQRIKEVALRHAKGRIVSCLEGGYNL
+SALGRSVEAHLRVLADV
+>tr|A0A0P0LDY1|A0A0P0LDY1_9BURK
+MPQIQLTPAERKVFRADAHHLDPVVMIGGDGLTPAVIKETEAALNAHGLIKIRVLGDDRA
+ARDAMFAQLADQLSAAPIQHIGKLLILWRPQPEKVKEHDDDRKAGPRDFKILKYSSRGGQ
+RPEVKTVRVLGNQRLAAGGQIKRAKPKQKSVKKGRHD
+>tr|A0A0P0LVL0|A0A0P0LVL0_9BURK
+MTTFAHHMAFIGGGNMASAIIGGLIRQGMRPDQFTVVEPFAETAAKLLNDFGITALPAAG
+PALAQSDLVVWAVKPQIFSEAAAPVMPHTRAALHLSVAAGIRTDSIGRWVGSDRVVRCMP
+NTPALVGQGITGLFACPSVTAVDKALVEQVIGTTGQFIWVHKESQLDAVTALSGSGPAYV
+FYFLEAMTEAGVGMGLSAEQAYQLAMATFSGASSLASASTESPEVLRQRVTSKGGTTYAA
+LTAMEAAGIKPAFVKAMQAAEQRARELGDEFGKS
+>tr|A0A0P0LC01|A0A0P0LC01_9BURK
+METGAITQYIDVAQIVLYMFWAFFAGLIYYLLRENHREGYPMDSGRENGPKIEGWPPVPE
+PKTFKTQDGHTYLSPDLARPDGEYSAQPTHGWNGAPLEPVGDPLLAGVGPGAWAMRADIP
+DADPHGHPKIVPLRVATDHSVAKQDVDPRGLPVWGADKVLAGTVVDLWVDRMEMMFRFAE
+VQLANSDKRVLLPMTFARIKKDGTHVQAILGHQFVNVPQTKSNEQITLLEEEKITAYYGA
+GTLYATPERQEPII
+>tr|A0A0P0LKP5|A0A0P0LKP5_9BURK
+MNIQTGSPATALALSNPWAVVPSLGHLDAYISAVNRMPMLTLEEEQEAARQLKANDDLEA
+ARKLVLSHLRLVVSVSRQYLGYGLPHGDLIQEGNVGLMKAVKRFDPDQGVRLVSYALHWI
+KAEIHEYILKNWRMVKVATTKAQRKLFFNLRSMKQGYKADADEGTHRDTLTPDQVDSMAN
+SLNVKREEVCEMEMRMSGGDVLLDPAPSDDGEQAFGPIAYLADVNHEPTAMIEAHQRDVM
+ASDGLASALSVLDDRSRRIVEERWLKVNDNGSGGMTLHDLADEYGVSAERIRQIEVAAMK
+KMKKALVEFA
+>tr|A0A0P0M7E0|A0A0P0M7E0_9BURK
+MTSHSNFQGWRSGLLWFPDPSQPQARHESDGLLVTALEADGIVRIQAIGPYRELASHYAD
+LPVTHWPGLCIAPGFVDLHIHYPQTDVIGSPADGLLPWLEHYTFPHEKQFSDPAYAHEVT
+SFFLDELMCHGVTTALCFATAHPESVDAFMAEAQQRHLRMITGKVLQDRHSPDGLRDTDT
+ALSLRQTEDLIRRWHGVDRLGYAITPRFAPTSTREQLHGAGEIAQQFPDVWIQSHVAENL
+DEIRWVTELFPEARSYLDVYDRAGLLRQRSVYAHCIYLDEADRRRMAEVGATAAVSPTSN
+LFLGSGFFDYLASDAAGLRYGLASDVGGGTSFSPFQTMHAAYTVARQSVGRPGISLAPEH
+LWWQHTAGAAAALDLSGKVGNLLPGCEADFVVLNPKATPLLARRTAQTETLAEWLFAMIV
+LGDERLIAHTVIQGQSLKLTP
+>tr|A0A0P0M8M3|A0A0P0M8M3_9BURK
+MQNDTPKTLRAPSTTGLIHHPYTAPAGFDAPQPGVFKASTVYFPTVADMRQREWKDKSAY
+TYGLHGTPTTYLLEERLSSLEGGLQCVLVPSGLAALALVALAVLKTGDEVLIPDNAYGPN
+KALADGELRHFGITHRFYDPMDPDDLSRQITASTRLVWLEAPGSVSMEFPDLPEMVRRCR
+ERGVLCALDNTWGAGLAFKPFDLLGDGDGLGGEGSLAVDISAHALTKYPSGGGDVLMGSV
+ITRDAALHLQIKLCHMRLGLGVAANDAETVLRSLPSIGLRYAAHDQTARALAAWWQTQPQ
+CAQLMHPAFEGAPGHVHWQALCDRVPGTGLAAGLFSVMIDARFSQAQVDAFCDGLKLFKI
+GYSWGGPVSLVVPYDIASMRQAWPGHLKPGTLVRFSTGLESAKDLILDLHQAVQAHLPMA
+>tr|A0A0P0MAU5|A0A0P0MAU5_9BURK
+MLVRLLYASRAVDTRPETIESILAQSRQFNPTSGITGILCYGGGIFLQAIEGGRNAVSDL
+YGHIQKDARHKDVVLLHYEEISERRFGGWTMGQVDASRVNTNILLKYSERAELDPYNVSG
+KVSLALLEELMATASIIGRA
+>tr|A0A0P0MB63|A0A0P0MB63_9BURK
+MFRSFFLSRRWALWAWGGLVVLVALVFITVQQTVKLNTWYGEFYDLLQKPEQAGGLEKFW
+DFMLQFAWIAFPFMLLRSLETYLASHYAFRWRQAMTELYLPRWQHTDAAVEGASQRIQED
+CMRFARQTENLGLGLVRAVLTLVSFIPILWLLSKGMAIAWLQFEGSLFWVALVTAVGGTV
+LSWFVGIRLPGLEYNNQRTEAALRKDLVYAEDERSRMDLPTVMGLFTGVRLNNFRLFNHY
+AYFHLWSNFYSQTMVIFPYLLMGPSLFTGLITLGAIQQVSNAFGKVNDAFSYLIERWTDI
+TELRSIYKRLSEFEKALA
+>tr|A0A0N7J939|A0A0N7J939_9BURK
+MSQTLAPRKVQAGTTEARWIRRSLIGLALTFMFLFLVLPLAAVFTEALRKGLDAYLEALK
+EPDAWSAIRLTLITAAVAVPLNLVFGVAAAWAIAKYEFKGKSLLTTLVDLPFSVSPVVAG
+LIYVLMFGAQGWFGPWLQANDIKIVFAVPGIILATVFVTFPFIARELIPLMQAQGNDEEQ
+AAIVLGATGWQTFWRVTLPNIKWGLLYGVILCNARAMGEFGAVSVVSGHIRGQTNTMPLH
+VEILYNEYQSVAAFAVASLLALLALVTLAIKSFIEWRHEQELKASANTPPERPTA
+>tr|A0A0P0M7I0|A0A0P0M7I0_9BURK
+MAMLNFEKKYRVRGGTLLGGDLFDFWVGPFYVGFFGVTTLFFSFLGTALILWGASQGPTW
+NIWQISIAPPDLSYGLRFAPLMEGGLWQLITVCAIGAFGSWMMREVEICRKLGMGFHVPV
+AFGVAISAYVTLVVVRPVLMGAWGHGFPYGIYSHLDWVSNVGYQYLHFHYNPAHMIAVSF
+FFASVFALSLHGGLVLSSTNPTPGTVVKTPEHEDTFFRDFIGYSVGTLGIHRVGLFLALA
+AVLFSALCIVLSGPFWSRGWPEWWSWWLNLPIWSQWPV
+>tr|A0A0P0M963|A0A0P0M963_9BURK
+MNNPWFSKIAVWMVIAMVLFTLFKQFDNRGVAGANAIGYSDFLEEVRSNRIKSATISESP
+GGTEILAITNDDRRIKTTATYLDRGLVGDLISSGIKFDVKPREEGSLLMTLLVSWGPMLL
+LIGVWVYFMRQMQGGGKGGAFSFGKSKARMMDENNNNTTFADVAGCDEAKEEVKEVVDFL
+KDPQRFQKLGGRIPRGLLLVGPPGTGKTLLAKSIAGEAKVPFFSISGSDFVEMFVGVGAS
+RVRDMFENAKKNAPCIIFIDEIDAVGRQRGAGLGGGNDEREQTLNQMLVEMDGFETNLGV
+IVVAATNRPDILDAALLRPGRFDRQVYVTLPDIRGREQILNVHMRKVPIGQDVNAAVIAR
+GTPGMSGADLANLCNEAALMAARRNARVVEMVDFEKAKDKILMGPERKSMVMPEEERRNT
+AYHEAGHALIGHLLPKCDPVHKVTIIPRGRALGVTMSLPEKDRYSYDKEFMLNQISMLFG
+GRIAEEVFMNQMTTGASNDFERATSIARDMVMRYGMTDALGPMVYAENEGEVFLGRSVTK
+TTNMSESTMQKVDLEVRRIIDEQYSLARRLIEEHSAQMHAMAKALLEWETIDKEQIADIM
+AGRDPLPPKDWTPRTPPTGGGQGGGTPSVQPEPATTAA
+>tr|A0A0P0M882|A0A0P0M882_9BURK
+MKFKNIVPTQVERILADSELIISKTDTKGKITYGNRPFQDYSGFSENELLGVQHNIVRHP
+DMPRAVFKLLWDEVQAGREVFAFVKNLSKDGSFYWVFANVTPSFDMEKNIVGYFSVRRKP
+KRSALPQIAVLYQKMLHAERQAGSRDAIEASLQILRDALKNAHSTYEEWVLNLQNA
+>tr|A0A0P0M9R8|A0A0P0M9R8_9BURK
+MAAGVSGADLIGSALPTRPPSRQSRMNTEIPFFNGRISPDGGSFDAWKTQSLLDSLEQGG
+LQWPSSCRSGTCRTCIGQLVSGQVHYEMEWPGLTAEEKAEGCVLPCVARPLGDVVLQDPF
+A
+>tr|A0A0P0MA90|A0A0P0MA90_9BURK
+METPFSCGLVWLRRDLRVSDHAALHQALKHCQRVHVAFVFDTEILDALPRADRRVEFIRE
+SLVEVDARLRELAGHPQAGLIVRHGVAKDKIVKLAQHLQAQVVFANHDDEPLALARDIQV
+RGHLADHGIVLHTYKDHVVFERNEVLTQMAKPFSVFTPYKNAWLKKVTPEDLRAFEVAPL
+ATRLAPRPDDLAQPVPSLADMGFETTNLQALKIPTGESGAQALLQDFLTRIDQYEDTRNF
+PAVKGPSYLSVHLRFGTVSIRQLAREAHPRMLAGSVGASVWLSELIWRDFYVQVLHNFAH
+VGRGQSFKPEYDAIEWEHGPHAHKLFNAWCEARTGYPLVDAAMRQINQTGYMHNRLRMVV
+ASFLVKDLGIDWRWGEKYFATHLNDFDLSANNGGWQWASSSGCDAQPYFRIFNPISQSEK
+FDPEGKFIRRYVPELADLPTAALHAPWLAKPMELQAAGVVIGKTYPAPIVDHAEAREITL
+ARYAVVKKKTD
+>tr|A0A0P0LJM5|A0A0P0LJM5_9BURK
+MFNKGQLAGLMKQAQAMQDNLKKAQDELAFVEVEGQAGSGMVKVLMTCKHNVRRVTIDPS
+LLADDKDMLEDLVAAAFNDAVRMAEEVSQQKMGKLTAGLPPGMKLPF
+>tr|A0A0N7J955|A0A0N7J955_9BURK
+MLWIKALHIVFIASWFAGLFYLPRIYVNLAMVPADSTAERERLLLMARKLYRFMTILAVP
+ALALGLWLWLYYGIGMGPGQGWMHAKLLIVLALLGYHHSCGVLLRKFENGQMQRSHVWFR
+WFNEAPVLMMVAAVVLVVVKPF
+>tr|A0A0P0M7I4|A0A0P0M7I4_9BURK
+MLDTSLLPLSESAAPVAAGTVLLHRGDAVDRIVHVMQGRVVLGVMVDGHMAHQLGVVEGP
+FWLEAASGLLALPHAVDAVAETEVQVQYVSVGDFVAEVKVLPEASQTLLMDMARSQRQQT
+EMAVSRLAKDADARCAEWLLRHAQPDEGVGGLAVKLTERKRNIAAQLGIAPETFSRVLRH
+LRERQLISGGGRVLGLPNPQALRELAGA
+>tr|A0A0P0MA18|A0A0P0MA18_9BURK
+MGLYAPTPIQAEAIPSALKLADVWATAPTGSGKTLAFALPLLQHLLAAPRQTNFRRPVRV
+LVLVPTRELAVQVSDVLANLAYKLPQSLKVNTVFGGVSVNPQMMALRGGADIVVATPGRL
+LDLIDQNAVRLADVQHLVLDEADRLLDLGFADELQRVLALLPAKRQTLLFSATFAPEVEA
+LAAKLLRDPVRITVEAFEGHKPDITQRAIAVDEKSRTALLRHLIQKNGWKQVLVFVATRY
+ACEHVANKLYKAGVFATPFHGEMSQGARQEVLSEFKAGRWDVVVTTDLASRGIDIAMLPV
+VVNYDLPRSATDYTHRIGRTGRAGAHGDAVSFVTAAALAHWKLIQKRESLELALEQVPGF
+EQTETPPPPSPGNGGIKGSRLSKKDKLRAAAAAGSNQQP
+>tr|A0A0P0MB86|A0A0P0MB86_9BURK
+MLERLVYRSKATHKLGSLHLFNLLVQCRKRNSELNITGHLLYTEEVFVQCIEGPPASIEA
+LWQSLQRDDRHHSVELLSRNPETARRFAHWSMAFSSYAYFNKYNIPGFFPVDQAGMTHVA
+ERCASSTLELV
+>tr|A0A0P0M9I9|A0A0P0M9I9_9BURK
+MSELLNKLEWRYACKKMDPTKSVPQDKVDRIVEAARLAPTSSGLQPFEIIVVTNPAVREQ
+IKPKAWGQAQITDGSHLLVFAAWDNYTADRINMMFDLTNAQRGGTNEGWENYRQMLLKNY
+PARTPEVNYEHAARQAYIGLGAALIAAAFEEVDATPMEGFDPKAVDEILGLSARGLRSVV
+IVPLGYRAAEGDWLANLKKVRRPTAQFVTEVK
+>tr|A0A0P0LEY6|A0A0P0LEY6_9BURK
+MKADTLRMLAQHAVFVGVVLGLWEWGAHTGFIDPSFLGSPLGIIGFTLENLANARLWGDL
+GYTLLAVFSSFFIGSVAAMATGLAFVTWPKLEAFCEPYVAAMNVLPRIALVPLFILWFGL
+GVGSKIALGVSLTFFIVLSTTVAGIRGVSQDHITLTRSLGASSRQTFFWVTLPGAVPVLF
+SGLRLGLIYALLGVVGAEVIASERGLGQQLAYLGSTFNVNGVWSLLFDLALIGVLIMKLM
+NWVERRLLHWQ
+>tr|A0A0P0M721|A0A0P0M721_9BURK
+MIQLYIANKNYSSWSMRPWVLLRQAGIDFEEVYVRFDSFAPDSNFKAALKDVNPVGKVPV
+LVHDGLAIWDTLAIAEYVAEQFPEKQLWPADRAARARARSICAEMHSGFTGLRSACPMNI
+EAHLPDIGALALRDKPAVRADLNRICSLWSGLLQEHGGPMLFGQFTVADAYFAPVVMRLK
+TYALPVPADVAAYMERVCALPGVKAWIDEALAEQDFIDFEEPFRVAR
+>tr|A0A0P0MC91|A0A0P0MC91_9BURK
+MTNTTVLYAQRRARLAAQLGAGGIAIIPTAPERQRNRDSDYLYRHDSYFYYLTGFTEPHA
+SLVITADGECTLFCQPKDLEREIWDGIRLGPEAAPAALGVSRALPISEMAAHMPKLLENR
+STVWYPFAIHTGLESLVNVWLQSVRARVRYGALCPEQQRDLCSLLDEMRLVKDAHEQDIM
+RRASTISARAHIRAMQRSAAMLRAGQEVREYHLDAELLHEFRQSGSQYPAYGSIVAGGAN
+ACVLHYRADTALIQNGDLVLIDAGCELDGYASDITRTFPANGTFTGPQRALYDLVLASQD
+AAVAATKAGARFVDPHESTVAVLAQGLLDVGLLDKNKVGNAQDVIANRSYFQFYMHRTGH
+WLGMDVHDCGSYVEPSQVGHVSERKDPLSGELIKDRPSRILQPGMVLTIEPGLYVRPAHG
+VPEPFHNIGIRIEDDAIVTATGCELITRGVPVKADEIEALMRG
+>tr|A0A0P0LH06|A0A0P0LH06_9BURK
+MNFAAFSPRHLVNGLLGSCVVLSWSCAAWSADTAAASALKVLLGPQAAFQQMGGLPPTSA
+HSAEGAMHTRDSATSTAIASSAMVGGTITVKRGETLDRVIRRALPDVPLHPDFLRKAFVS
+MNPQVFPSGSPHQMRSGASLKVPSLPALRQMMMTQYPGAAPLLTESEGQMGHKAAADPND
+QRRWVRYP
+>tr|A0A0P0LJ05|A0A0P0LJ05_9BURK
+MNTGMITMPSGGDNTPATVGGNSTAVATTATGNPGGNGAGNGAATGTGLSPWSTKGLSES
+FSTMVNQPSVRRVLPLIVMLIVLVIFGLTYSWMNVTPYRPVMPGLQEADQQKAYETLKTA
+NFNPKIDPATGQLTVPSPRFHEARILLASQGLPKAGATGLDGLKEQSSMTTSQFMEQVKV
+NAAMEQELARSIMQIGSVQSARVHLATPKQSVFVRDRTPPKASVVLAPYPGRAVSASQVQ
+AIVHLVSSSVPYLAPDHVTVVDNVGKLMTESATEQKLGLTSAQEQHKQHLEEVYRGRIMQ
+ILSPMVGEANVRSQVNLSLDFTQIESTTEDFDNKDKGPRTRSEVLAEDRAANRAAEGIPG
+ALANSPPADPTTSNNTQVDANKGQGESGSKLSSRSTRNFELDRTVRHVRNASGGVMKVSV
+AVVVNERPAPPPAKDAPAVPNAPTSVPYTPQELDQMLQVVRGVVGFDPQRGDNVSVVPAK
+FEPIANMETIPWYLEDAVQTAIKSGLVAISFIVFMLIVVRPIMRNIYESNAATQEQAKAA
+LSDGELSEDDMRMIQIGEGDSLQEIKAKLKPKKSSISMDMLDTANTYDDKVALIRMLVAE
+DSGRVANVLKGMIKVN
+>tr|A0A0N7J8M8|A0A0N7J8M8_9BURK
+MQSPLSKSSWPAHLSLWWQELTVFPWRQMASLLTERFREARLGVSASSLTFTTVLALVPL
+FALGLAVFSAFPVFGKFQDTIQRWLIESLVPESIARQVLSYLTQFSRKASRLGSVGLVAV
+LMSAVFLMVTIERTLGQIWGLQRQRPLAQRVLLYWSSITLGPLFLGASLAITSYVATASR
+DVVDVLPGSIRWLLDSFEFLLLTACVSGLYFYVPFTRVRWRHAITAGFFVAGALELAKKG
+MALYLLEVPTYSLIYGAFAALPILLVWIYVTWLLVLLGAVLAASLPELGRQELRKPEGAG
+WTFRLALEVLGELNTAKATDRRGLSTDELAMRLRVETSELRQVLEVLRSLDWVGRLTEQN
+DQGQARQVLLVDPALATVAPLADRLLVLRGSAADPIWQQTGLDQIRLVQLLPM
+>tr|A0A0N7J918|A0A0N7J918_9BURK
+MYAVIKTGGKQYRVVAGEKIKVEQIAADVGQEIVIDQVLAVGNGADLKIGTPLVSGATVK
+ATVVAHGKHDKVHIFKMRRRKHYQKRQGHRQQFTELQIGAIAA
+>tr|A0A0N7J8M3|A0A0N7J8M3_9BURK
+MSDLILHHYPNSPFAEKIRLILGYKQLPWKSVFIPMIMPKPDLTALTGGYRKTPVLQIGA
+DIYCDTALICDVLEQLAPMPTLYPGATTGAAQIVAQWADSALFPVAMAYNFQPAGVAQVF
+ASTPAEGVQAFVADRAAMRGGAPRMSSTDAAATYKSYLRRLANMLEGQNFLFGAQPCVAD
+FAAYHPLWFTQERTPALATIFDDTPEINAWMARMHAIGHGSHSPMRGEDAVQVAHTDTPA
+ALQGEVFQDEHGIALGSPVVIAADNFGLEPTEGELVAATHSRYTLRRTGDRSGTVHVHFP
+RVGFTLKKVSP
+>tr|A0A0P0M8D1|A0A0P0M8D1_9BURK
+MQLPSLISGKRFTLPRPAGSADAVLLAQLAQREKKAGKLTAIVTSDAADAQRLMDELVFF
+APDLRCVMFPDWETLPYDTFSPHQDLISERLATLWRIKQRNHAESADVVLVPATTALYRL
+APPSFLAGYTFEFKVKQKLDEAQLKAQLTLAGYSHVSQVVSPGEYAVRGGLIDLFPMGSL
+VPYRVDLFDDEIDSIRTFDPDSQRSLYPVPEVRLLPGREFPMDDAARARFRSRWRELLEG
+DPTKSRIYKDMGNGVATAGIEYYLPLFFEETATVFDYLGAGQADDATVVLHGDLEPAFQR
+FWQDTKDRYRLVQGDPERPVLPPDALFLSAEQFYTLTNGHAQLALRPGTQDVPDNTLAQP
+LPELTVVRGAEDPLSRLQAHIRSSASRVLILAESDGRRESLLDFVRSSGLTPPVFDSLQA
+FLASDEKVGMATAGLVSGFHWFEHNIDLVTETELFAAGSVTRRRKKQEQVSDVEALIKDL
+SELNVGDPVVHSAHGIGRYRGLVNMDMGQKNEDGTPALQEFLHLEYADKATLYVPVSQLQ
+LIGRYTGVSADEAPLHKLGSGQWEKAKRRAAEQVRDAAAELLNIYARRAAREGHPFRYSP
+QDYETFANDFGFEETADQKAAIHCVIQDMISPRPMDRLVCGDVGFGKTEVALRAAFVAVT
+GGKQVAILAPTTLLAEQHYQTLKDRFAKWPVKVAEVSRFRSGKEVTAALKGIADGTVDIV
+VGTHKLLSESTKFHDLGLLIIDEEHRFGVRHKEAMKGLRAEVDVLTLTATPIPRTMGMAL
+EGLRDLSVIATAPQRRLAIKTFVRNEGTGVIREAVLRELKRGGQCYFLHNEVETIENRKQ
+KLEEILPEARIAVAHGQMPERELEQVMRDFVAQRYNILLCSTIIETGIDVPTANTIVISR
+ADKFGLAQLHQLRGRVGRSHHQAYAYLMVPEIEGLTKQAAQRLDAIQQMEELGSGFYLAM
+HDLEIRGAGEVLGENQSGNMLEVGFQLYNEMLSEAVRCLKAGKEPDLLSPLSVTTDINLH
+APALLPNDYCGDVHLRLSFYKKLATAKTSDQIDALLEELVDRFGKLPPQAQTLVDVHRLR
+VLTQPYGVIKVDAAPGVIQITFKPNPPVDPMAIIGLIQKNKHIKLAGNDKIRIERELPDP
+KARAQMVRDVLRSLGTPKVEVAA
+>tr|A0A0P0M793|A0A0P0M793_9BURK
+MQIENSTVLITGANRGIGLAFAKAFLVRGAKKVYAGSRDPSKMNLAGVTPIKLEVNSSAD
+VQAAAQLAQDVTIVVNNAGIANFGSFMAEDAEAMLRNHLETNVLGPLRISRAFAPVLAQN
+GGGALINVASIASWITSPKLANYAVSKSALWSLSNGLRNDLRGQGTQVLTLHMGFVDTDL
+TKGIDMPKSTPEAIVERTLQALEAGAHEVLADEMTQQVKASLSAEQAVYLAAR
+>tr|A0A0P0M8L2|A0A0P0M8L2_9BURK
+MSEATPHQDPKPLSDEELAAAAAMPTTDPLADAQAELANLKAQNADLADQYLRAQADVQN
+ARRRADDEIAKARKFAVEGFADSLLPVLDSLEAGLAIPNVTLEQIREGSEATLRQLKSAL
+ERNKVVEIAPAAGTKFDPHHHQAISVVPAAQEPNTVVTVLQKGYSIADRVLRPALVTVTA
+PK
+>tr|A0A0P0MBD4|A0A0P0MBD4_9BURK
+MSALKLGCIADDFTGATDLANNLVRSGMRVVQTIGVPTGPLAADVHAVVVALKSRTIPAA
+EAIAQSLDALKWLQAQGAQQIYFKYCSTFDSTPEGNIGPVTEALMDALGTDFTIATPAFP
+DNGRTVFKGYLFAGNVLLNESGMQNHPLTPMTDANLVRVMQAQTMRKVGLIDYKTVAQGE
+AAIRERIAALRTEGVGVAVVDATSNDDLHRLGPALQGMPLVTAGSGVAIGLPANFGLQPS
+LQASQLPSAKGLQAVVSGSCSVATNAQVTHFKRAGRPAMAINPAALMHGQSDAVVQQVLA
+WAAPLLKDGPVLVYSTAEPEAVKAVQAQLGVSEAGALVEHALAAVARGLVGLGVQQLVVA
+GGETSGACVQALGIAQLQIGPQIDPGVPWCHAPSFTGGVHITLKSGNFGTEDFFTKAFTV
+LA
+>tr|A0A0P0LDT9|A0A0P0LDT9_9BURK
+MTENAAKKDIQKLQRAIVDALEDVKAQEIQVFDTEHLSSLFERVIIASGTSNRQTKALAA
+SVRDKVRHAGFGKPRIEGEDNGEWIIVDCGPAVVHIMQPTIRTYYNLEEIWGGTPVRLKF
+GAPKPAATAETKGHIKNSVAKKAPVKATAKSATAKTPAAKKSAAKSAAPSAAKAKPALKA
+PAKAAKPAAKPAVKAPVKTAAKTAAKSAPKASSPTNKPTVKTVGKPTAKPAVKAAAKSSA
+KPAAKKAPARKAVQAATRRKAD
+>tr|A0A0P0LK77|A0A0P0LK77_9BURK
+MANATYIGLDQVRQQLRQPRSQLKGRQVSDEARAEVRTLIGLPPQDGHHRDLLIEHLHVL
+NDHFYGLFERHIVALAAEMRLPVVEVFEVASFYHHFDILKDAEAAPRITVRVCDSLSCSL
+AGSDSLLRQLHNDLLDVKVLPVPCLGRCEQAPAAQVGQQAVAHATVEMVAQCVAQDQTAP
+NALPDAIRLDAYLQTGGYQLAQQVTSGQRDAESVIQVLESSGLRGLGGAGFPAGRKWRIV
+RSQPGPRLMAVNIDEGEPGTFKDRTCLEADPHRFLEGVLIAASVVGCEAVYIYLRDEYHE
+ARVMLTQELAALQANPPCALPRIELRRGAGAYICGEESAMIQSIEGKRGEPRMRPPYIAE
+VGLFGRPTLEHNFETLFWVRELIEQGADSFSSHGRHDRKGLRRFSVSGRVKQPGVKLAPA
+GITLRELVDEYCGGMADGHTLYAYLPGGASGGILPERLADVPLDFDTLQPHGCFIGSAAV
+MVLSQHDSAREAALNVMRFFAHESCGQCTPCRVGTDKAAQLMTAKVWDADTLLDLAQVMG
+DASICGLGQAAPNPIRCVLQYFPHEVGAA
+>tr|A0A0P0MAX8|A0A0P0MAX8_9BURK
+MKFVDEAYIDIAAGDGGNGCVSFRHEKYKEFGGPNGGDGGRGGHVFAYADINLNTLVDYR
+YSRRHEAKRGQHGMGSDMFGAAGDDVTLKMPVGTIITDAETGEVLYELLVPGETIMIAKG
+GDGGFGNMRFKSAINRAPRQKTPGWLGEKKELKLELKVLADVGLLGMPNAGKSTFIAAVS
+NARPKIADYPFTTLHPNLGVVRVGPEQSFVVADVPGLIEGASEGAGLGHLFLRHLQRTRL
+LLHVVDFAPFDENVDPVQQAKAIVAELKKYDPGLHNKPRWLVLNKLDMVPADEREARVKD
+FIKRMRYKGPVFQISALTREGCEPLIKEIYKHIRAQQIIEQGVVDIDPRFKEQDKPQEPD
+ADDPRFKPLPSDAD
+>tr|A0A0P0M9I3|A0A0P0M9I3_9BURK
+MNTPHIAIIGVGMAGVTCARTLRQAGHNVTLFEKSRGLGGRMSTRASVFGSFDHGAQYFT
+VRDPRFELALATAPGVCKPWSANAVRVLDPNGRVIEAGLPGGERHWVATPGMNGLVKAWA
+TPLVEDGNVQLQTRVTHISPDPLMKNGWQLHTESDDGGQHIYAGFDKVILAIPPAQAQAL
+LEASGQSALAEPLKAVRVDPCWTLMLAYPQAVQPGLITIGPQWNAARSTHHRIAWMARES
+SKPGRERIERWTVQASAPWSAEHVNDSPDRVKGKLIKAFAEITGIRVTPDHAEVHRWLYA
+KTAKPLGQSFMWSKAQGIGLCGDWCLGHRVEDAFVSGLELALAVLQKR
+>tr|A0A0N7J910|A0A0N7J910_9BURK
+MHIHILGICGTFMGGLAALAREAGHRVTGCDAGVYPPMSDQLRALDIELIEGFDADQMAL
+KPDMYVVGNVVSRARLADGNPKFPLMEAILEAGAPYTSGPQWLSEHVLQGRHVLAVAGTH
+GKTTTTSMLAWVLEQAGLQPGFLVGGVPLNFGVSARLGAGKYFVIEADEYDTAFFDKRSK
+FVHYRPRTAILNNLEFDHADIFDDLAAIERQFHHLVRTVPGSGRVVVNGLEESLTRVLAQ
+GCWSEVRTFGAAVSDFVAEGEPSQFQVLQAGQPVAEVQWAIGGVHNQLNALASIAAAEHV
+GVSPAVAAQALATFENVKRRMEVRGTVQREGGGITVYDDFAHHPTAIRTTINGLRRQVGP
+ARILAIFEPRSNTMKLGTMKAQLPWSLEEADLAFCHSGGLGWDAVAALEPMGSKAQVGTN
+IDEVIAQVLAQVQPGDHLLCMSNGGFGGIHTKLLAALNK
+>tr|A0A0P0MBF2|A0A0P0MBF2_9BURK
+MSDTPVDSSKRTWLIASTCAGAVGAGFVATPFVSSFQPSERAKAAGAAVEVDISALNPGE
+KLTVEWRGKPVWIMKRSPEQLESLKKTESQLADPGSDRTAYPTPEYAKNSHRSIKPEIMV
+AVGICTHLGCSPADKFAAGPQPSLPDDWNGGFLCACHGSTFDLAGRVFKNKPAPDNLEVP
+PHMYLSDTKLLIGEDKKA
+>tr|A0A0P0MA47|A0A0P0MA47_9BURK
+MNSKNEISILNLEPEVQIRRIIKVRDVEFEEEFLSELLSNYFSRKINGEFPKLSDALNIY
+LNESHSSGTYKFQIDAINAFNNFVNLNGNLYLYELRHIHICNLRDHLLQQDLKPVTVRKQ
+TAILNAMLNLAFKHLDINRLSPFRGLRIAGEGRERRPMRTITPELIQEVKKKLLFKPKQP
+YKLIGLMQLNTGMRLSEPVFAKREDCVLDHPIPHIWIRRNELSDRKTKSSIRAIPLIGIS
+LWAAGRLVELAKEQGSEWLTPSYAHLGGNSSCSAIMNKYLAELEFRSHMFRHALIDRMKA
+QNNISIPLAESITGHASRFASEFQTYGTIGYTLEQKLDVLKRIEI
+>tr|A0A0N7J958|A0A0N7J958_9BURK
+MKKLLATLALGLSLGLGMFGTASVATAQTAAPAAVTAPAADAKPADAAPAPAAPAAAAAA
+TEAAPALVPNKGDIAWMMVSTILVILMVIPGLALFYGGLVRSKNMLSVLMQVVVTFSMIT
+VLWFIYGYSLAFTEGNAFIGGFDRLFMKGIWDNAAGTFANAATFSKGVVIPEITFAAFQA
+TFAGITCALIVGAFAERIKFSAVLAFMVLWFTFSYLPVAHMVWFWMGPDAYTAKEVADEM
+TSKAGLIWQWGALDFAGGTVVHINAAVAGLVGAFMVGKRVGYGREAMAPHSLTLTMVGAS
+LLWVGWFGFNAGSALEANGFAALAFINTLVATAGAVLAWCVGEALMRGKASMLGAASGAV
+AGLVAITPAAGNVGIGGGLVIGIVAGFACLWGVNGLKKMLGADDSLDVFGVHGVGGIVGA
+LLTGVFNSPALGGPSAVGDWVTVAMIAPDAYSIAAQVWTQAKAVLLTIVWSGVVSVVAFK
+IVDLTIGLRVTEEEEREGLDIASHGESAYHG
+>tr|A0A0P0LJP5|A0A0P0LJP5_9BURK
+MKIFHNTRHAEHAGRQEMFRGRLVDCHEVPQRLQHVLDELNKRPVGTLVQPAADLPLDAA
+LRRVHSADYLEFLAHAWHDWVALDPANAERDALPSVWPLAARHGFRTDAPPLNFAARLGQ
+FAFDSGTPLMAGSWAAASEGAACALAAAQAVLGGERFAMALTRPPGHHAGPNYMGGYCFI
+NNAAVAAQALRDGGLQRVAVLDVDYHHGNGTQTIFYERSDVFTASIHGDPRTEYPFFLGH
+ADERGHGAGEGFNLNLPLPRGTGFEVWWTTLQTAMQAVADFALQALVVPLGLDTFEGDPI
+SGFKLRSANYLQLGRAIAQLELPTVLTFEGGYAVAEVGVNTVNVLEGLGR
+>tr|A0A0P0M6R3|A0A0P0M6R3_9BURK
+MNVIRFSDLCAKGQAAGQRVFIRADLNVPQADDGSITEDTRIRASVPCIQMALDAGAAVM
+VTSHLGRPTEGEFKPEDSLAPVAKRLGELLGREVPLVANWVDGVSVAPGQVVLLENCRVN
+KGEKKNNEALARQMAQLCDIYVNDAFGTAHRAEGTTYGIAQFAPIACAGPLLAAEIDAIG
+KALANPKRPLAAIVAGSKVSTKLTILKSLSQNVDQLIVGGGIANTFMLAAGLKIGKSMAE
+ADLVDEAKAVIEAMKARGAEVPIPTDVVVAKTFAADAVATVKKATEVADDDMILDIGPET
+AAKLAAQLKQAGTIVWNGPVGVFEFAAFENGTKVIAQAIAESSAFSIAGGGDTLAAIAKY
+GIEQQVGYISTGGGAFLEILEGKTLPAFEILMKRAAV
+>tr|A0A0N7J884|A0A0N7J884_9BURK
+MPASLEGQLVVAISSRALFDFEEENQVFEQGDDRAYMKLQLDRLEAPAKPGVAFSLVRKL
+LAFNNADAQRVEVVILSRNDPVSGMRVFRSAQHYGLPIQRGSFTRGQPPWRYLRPLNANL
+FLSTHLSDVRAALDAGVPAAQVYPHSALASEAHPHEVRIAFDGDAVLFSDEAERVFQAEG
+LSAFQKHERDKAGQPLLAGPFKPVLQALHQLQQAGTPAMRIRTALVTARSAPAHERAIRT
+LMDWNIEVDEAMFLGGLPKGEFLREFEPDFFFDDQTGHIESAARHVPSGHVASGVSNPD
+>tr|A0A0P0MBW6|A0A0P0MBW6_9BURK
+MTNKVLAEEKRAQLRKAALEYHQFPTPGKVAIAATKQLVNQHDLALAYSPGVAAPCEEIV
+KDPANAFKYTSRGNLVGVVTNGTAVLGLGDIGPLASKPVMEGKGVLFKKFSGIDVFDIEI
+NEKDPDKLVEIIASLEPTFGGINLEDIKAPDCFYIERKLRERMKIPVFHDDQHGTAIVVG
+AAILNGLKVVGKDPKKIKLVTSGAGAAALACLGLLVKLGIPRENIWVTDLAGVVYEGRTE
+LMDEDKIQFVQKTDQRTLREVIAGADVFLGLSAGGVLKQDMVQSMAAKPLIFALANPNPE
+INPEDVKAVRDDAIMATGRTDYPNQVNNVLCFPYIFRGALDCGATTITLEMEIAAVHAIA
+ELAQAEQSEVVAAAYVGEPLAFGPEYLIPKPFDPRLMMKIAPAVAQAAAESGVASRPIAD
+MDAYRERLQGFVYASGTMMKPIFTAAKRALKKRIAYSEGEEERVLRAAQIVVDEGIARPT
+LIGRPAVIAERIEKFGLRLKEELDYDIVNVEDDHRYRDFWQTYHRMTERKGITQQIAKIE
+MRRRLSLIGAMLLHKGDVDGMICGTWGTNPMHLNYIDQVVGKRKGVNTFACMNGLMLPGR
+QVFMVDTHVNYDPTAQQLAEFTIMAAEEMRRFGIEPKAALLSHSNFGSSDQPSALKMRDV
+LDLLRQNAPWLEVDGEMHGDVALDAAARQALMPNSTLVGDANLLVLPNIDAANIAYNLLK
+TAAGGNIAVGPVLLGAAKPVHILTPSTTVRRIVNMTALTVADANAAR
+>tr|A0A0P0M9L6|A0A0P0M9L6_9BURK
+MLPMEQVDAVVIGAGVVGLAVGRALALSGREVLVLESENAIGTGTSSRNSEVIHAGIYYP
+AGSLKARLCVQGKQMLYVYCAERGVAHKQLGKLIVATTPEQVLALDGIMAKAAANGVHDL
+QKLSAAQAHALEPALSCEAALLSPSTGVIDSHGYMLALQGDMENAGGLLALVSPVQHIGL
+KHGTATHPIRVTTQDGTELACKVLVNAAGLSAVAMAERMDGLDKSLLPQAHYAKGNYFTL
+AGKAPFSRLIYPVPEKAGLGVHLTLDLGDQAKFGPDVQWVDDPADLQVDPRRGDAFYAEV
+RKYWPALQDGALQAGYAGMRPKINAPHEAAADFMIQGPAEHGVPGLVNLLGIESPGLTSS
+LAIADEVCARLA
+>tr|A0A0P0M7R2|A0A0P0M7R2_9BURK
+MTEIALPVLYSFRRCPYAMRARLALHVSGLAFEHREVVLKNKPTHMLSLSPKGTVPVLWL
+RSAAGDQVLEQSVDIMLWALRQNDPLGWLPKAEAATSDATALIAHNDGPFKRQLDRYKYP
+NRSGLASGTADRDEAALWLHTLDARLRAQPFLTGEQFGLADAALAPFVRQYAHTDPAWFA
+AQPWGPLAAWLAAFEGSALFEAIMQKHAPWLPV
+>tr|A0A0P0M710|A0A0P0M710_9BURK
+MECTVTWTGAAGTRSGMGFVAETGSGHIVNMDGAPDPAKPENGGQNLAPRPMEMLLAGTG
+GCTAYDVVLILKRGRHDVRGCSVKISSERAEVDPKVFTRINMHFTVTAKGVPASAVERAI
+AMSHDKYCSASIMLGKTAEITTSFEVVEAS
+>tr|A0A0P0M764|A0A0P0M764_9BURK
+MKIIDSILTDAASIAAIRKDIHAHPELCFQEVRTADVVAQQLTDWGIPIHRGMGTTGVVG
+IVHGRDGGACGRGIGLRADIDALPMQEFNTFAHASKHQGKMHACGHDGHTAMLLAAAKHL
+AKHRDFDGTVYLIFQPAEEGGGGAREMIKDGLFDKFPMQAVFGMHNWPGAPVGTFAVSAG
+PVMASSNEFKITVRGKGSHAALPHNGIDPVPIACQMVQGFQTIITRNKKPVDAGVISVTM
+IHAGEATNVVPDSCELQGTVRTFSIEVLDLIEKRMKQVAESICAAFDAQCEFEFHRNYPP
+TINSPAEADFARQVMGAIVGAEQVMPQEPTMGAEDFSYMLQAKPGAYVFISNGDGAHREM
+GHGGGPCTLHNPSYDFNDDLIPLGGTYWVELATQWLAQPTQTA
+>tr|A0A0P0MAP3|A0A0P0MAP3_9BURK
+MRTHYCGLVTEALIGQTVSLCGWVNRRRDHGGVIFIDLRDREGQCQVVCDPDRPDMFKVA
+EEVRNEYCVQIKGIVRARPDGTTNEGLKSGKIEVLCHELIVLNESVTPPFQIDEDNLSET
+TRLTHRVLDLRRPYMQNNLMLRYKVAMEVRKYLDENGFVDIETPMLTKSTPEGARDYLVP
+SRVHDGQFFALPQSPQLFKQLLMVAGYDRYYQITKCFRDEDLRADRQPEFTQIDIETSFL
+TEEEIRDMFQGMIKRVFQKTIGVDLGEFPVMTYQDAMHLYGSDKPDLRVKMQFTEVTDVM
+ADVDFKVFSGAANMKGGRVVALRVPGGSVEGGGISRGEIDAYTEFVKIYGAKGLAYIRVN
+DFSKGRDGLQSPIVKNIHDAALNAVLERSGAQNGDLIFFGADKEKIVNDAIGALRIKIGH
+SAFGKANGLFEDRWAPMWVVDFPMFEYDDESQRYTAVHHPFTAPKDGHEDWMVTAPQKCI
+SKGYDMVLNGWEMGGGSVRIHRADVQQKVFDALKITPEEAQLKFGFLLDALQYGAPPHGG
+LAFGLDRIVTLMTGAESIRDVIAFPKTQRAQCLLTQAPSPVDEKQLRELHIRLRNVDAVK
+SA
+>tr|A0A0P0LMK2|A0A0P0LMK2_9BURK
+MTAYEQLRHQLPKAPKTWLVTGVAGFIGSNLLETLLKLDQRVVGLDNFATGHQRNLDEVQ
+SLVTPAQWANFDFIQGDIRKLADCQRAMKYRHCEERSDAAIQSPIPVNYVLHQAALGSVP
+RSLADPIATNATNITGFLNMLVAARDAKVQSFTYAASSSTYGDHPALPKVEENIGNPLSP
+YAVTKYVNELYADVFARSYGFETIGLRYFNVFGPRQDPNGAYAAVIPKWTDALIKGETIY
+INGDGETSRDFCFVANAVQANLLAATAASRVIASEARQSSAPAPSPLNQVYNVAVGDRTT
+LNQLFGLLRDNLQTVVPSEKRQSISASRPIYRDFRAGDVRHSQADIGKAQRLLGYAPTIS
+IGKGIGEAMPWYWMQKTIP
+>tr|A0A0P0MAB5|A0A0P0MAB5_9BURK
+MAAPEESMQVEKNASDADSKRSPFLESLGERVRTLRSRKGMTRRAVALAADVSERHLANL
+EYGTGNVSVLVLLQVAQALQCSLAELLGDVTATSPEWLLIRELLSKRSEADLRRARVQLS
+DMFGEGGNAQERKNRIALIGLRGAGKTALGQRLANDLGFPFIELSREIEQFAGCQISEIH
+NLYGANAYRRYERRALEEAIQIYPEVVIATPGGLVSDSANFNVLLSHCTTVWLQADAADH
+MGRVAAQGDMRPMAASREAMEDLKRILEGRSAFYSKADLAINTSGRTEDQAFEALRSSVR
+QHLSLAT
+>tr|A0A0P0M9H2|A0A0P0M9H2_9BURK
+MTYRSPRVRRLALALSTPALSLLSLASGAALAQTKATEVVVTASRTEQILTDALPHTTVL
+GRDAIEQSQVSDLPTLLSREAGFQFTQTGGRGGQATAFLRGAASLQVLVLVDGVPLTKQD
+TTGAVSLEHIMLDQVERIEIVRGNVSAIHGSGAVGGVIQVFTRRGQGQPMVYANAERGGQ
+GTQRWSAGTHGSAGPLAYAVSVGRFRTEGINAANLSQTTNANPDADGYRNNNHALDLSYT
+LSPEHKFGVRSTHFKGQFDYDVSGSFAEPTDVHLARTQLDSHTLYWSGRLGPLWSSRLNY
+SVSQERNDTATIGGYSFTTQALTRTRMLSWTHQWDLPSMVLTAGLDHQTQGIDMATDGVS
+GLSRERDAHALYGGVVVKRAAHNLQFNLRHDAVEGQSAKDSVYLGYGYDLSPQWKLIASH
+ATAFNMPPLGYLFDPYSGNPNLRPETANTQELGVQWAHGSHRLRSTWFSTLTQDLLLYDM
+ERFQFSNISRAKNQGLETSYSGRLGRTDVRASLSLQDPVNQSTGQQLVRRAKTLASVSVS
+QSLGLLSLGGSVRYTSARPDIESQPGLPSNTLLDLTARYSLSREWTLYGRVENATDSRYQ
+TAYGYNQLPRTTTLGLTWKMKR
+>tr|A0A0P0LKG0|A0A0P0LKG0_9BURK
+MKRSPSVQLTSSPLLASKTPVWRSKLIVAAMALGFLGLVGRAAHVQVIDNDFFLRQGEVR
+FARTLELPANRGRVLDRNGVLLASSVPAPSIWANPEDLERDPVKLRQLARLLEMTPAELD
+NKLKNEEKTFVWLRRQMDETVVKEIRALGIKGVYDIKEYKRLYPEGEAAAHIVGFTNVED
+KGQEGVELIFQKQLAGQPGSRRVIKDRLGRVVEAVGETVHPVDGKDLQLSIDSKVQFYAY
+QTLREAVKEHKAKAGSVVVLDSQTGEILALANYPSYSPSRRVNLSGEQLRNRALTDSFEP
+GSTMKPFTVALALEQGLVKPETMIQTAPGRINITGSTITDVHPYGMLSVNEVIQKSSNVG
+TVKMAMQLEPREMWEMFTELGFGQKPTLPFPGVVSGRLRPYKSWRPVEQATMSYGYGVSG
+SLFQMARAYTVFARDGEIVPATMMKADHQAQGTRVISAANAKAMRKMLQMAAGPGGTGQK
+AQTIGYSVGGKSGTARKQEGKGYASKKYRGFFVGIAPVEQPRIVVAVMIDEPSNGVYYGG
+AVAAPVFSQTVQQTLRLMGVQPDMAVKPQIVAKAVEESF
+>tr|A0A0P0LEM6|A0A0P0LEM6_9BURK
+MKPTAASTPLALWLDPETPLSPEHSQALHNSGWALMPIHTLDMLLSQAADAAIVVLHLGV
+DMTRLKAVQQLLQEAGLSLPVVARVDRHELELAVEASRCGAMAVLASDDVRPASWLRLHN
+HLSPNPARPTVQPMRSVVFVDPASQHLLALAKKVAQAEVTALLVGPTGSGKEVLARVLHE
+ASGRARGPFVALNCAAMPDNLIEDMLFGHEKGAFTGAHREQKGLFEQAQGGTLFLDEIGE
+MPMHLQSKLLRVLQERQLTRLGGQATIQLNVRIVAATNKDLKKAIVEREFREDLYYRIAT
+FRMRLLPLCERPGDIIPLAMQCLLQHDNKPWQLHPHAQAQLMQYPWPGNVRELENVMRRA
+MVLCTDHVVTPAHLMFDDWLTSAVVIPATSHSTPHEAFVASRTVDMEDMSHNACATRSDG
+EHPSVGTPENAPADEAPAWTAMANRSTNATWTVPTPVAAPSATDLQSAARMNEHQVIMAT
+LAATPSKTEAAKRLGISPRTLRYKLAQLREHGLSMANAY
+>tr|A0A0P0LFI5|A0A0P0LFI5_9BURK
+MRSLQPHPNLHPLTHSLLLAGVVLYWLPVWAWAQSPAPAASSATPSATADLGQVEIRSNR
+NNDTEVRRESSASKIVIGREEIEKQGDSTLGEVLKRLPGVTVQGAPGRGGAIRMRGLGGG
+YTQILLDGERVPPGFSIDTLTPEQVEKIEILRAPTAETGARAIAGTINIVLREGQKANPD
+DLKITRSQEHGEGSSMLSWVHNLKTQPLSGTVTLSLMDQYRPDESTSVITSEPGDDRIRF
+NESVGRRKALHGNARLQWKGEQGRTLTLTPFVVYSDYTSPGQVQIRETEGGLRTDSAQTL
+NQSIFAMARLNGQWAQRLSADDRLEVRFGLGQSKYDFRLDQTGAADVLLFNSFETQNFVD
+RTGSLNGKWTRAMDNGHQIVSGLELETVRRVEEANAAVDEDGGDIRARTLRWAAYTQDEF
+KINANWSAYTGLRYESILTEGTSELGLKSNTSSVWTPLLHALWKPDPAKRDQVRMSLTRS
+YKTPTLYNLVARPVPSREANSPTRPDRVGNPDLKPEMATGIDMAFERYLSGGGVLSANVF
+HRQISDLIRYTVAQQNSPSWAPGQDRWVSSPINLGDATTQGIELEAKFRLDQVRAGALPV
+DIRSNLSLFSSRVKQVPGPDNRLDQQPGMTANLGADYRVRSIPLTVGGNVNWNPDYDTRR
+SEQQWAYQGTKRVLDVYGQWRFSAATALRLTVSNLTPRDYLTASTYSGNGVSETSRNTTP
+NWRNVQLRLEMKI
+>tr|A0A0P0M9M6|A0A0P0M9M6_9BURK
+MPQVHWIMSNGDRVSDDVNDGTNLMDAAQMNGIPGVAGECGGCLSCATCHVYVDEAWLVA
+CPPMDEVENAMLDIVIAPRQSGSRLSCQLVASAALDGIVLHVPD
+>tr|A0A0P0MAL9|A0A0P0MAL9_9BURK
+MRNIVILISGSGSNMAAIVRAAEQGRWDQRLNARVAAVLSNRADAQGLAFARDHGIATQV
+LDHKTFASREAFDAALMTEIDRYTPDLVVLAGFMRILTPGFVAHYAGRLLNIHPSLLPAF
+AGLNTHQRAIDAGCRFAGATVHQVTAELDHGAILAQAVVPVLPHDTAKSLAARVLTQEHL
+IYPQAVAEYLAQSPMRSNRG
+>tr|A0A0P0MBP2|A0A0P0MBP2_9BURK
+MNNLPGLNFQLGEDIDALRDAVRDFAQAEIAPRAAEIDRNDQFPMDLWRKMGDLGVLGIT
+VGEEYGGANMGYLAHMIAMEEISRASASVGLSYGAHSNLCVNQIKRNGTPEQRAKYLPKL
+ISGEHVGALAMSEPGAGSDVLSMKLKAEDKGGYYLLNGSKMWITNGPDADTLVVYAKSEP
+ELGARGVTAFLIEKGMKGFSIAQKLDKLGMRGSHTGELVFNNVEVPAENILGGLNNGAKV
+LMSGLDYERAVLTGGPLGIMQAVMDNVIPYIHDRKQFGQSIGEFQLIQGKVADMYTVLQA
+GRSFAYTVAKNLDLLGAEHVRQVRKDCASVILWTAEKATWMAGEGVQIFGGNGYINEYPL
+GRLWRDAKLYEIGAGTSEIRRMLIGRELFAETC
+>tr|A0A0P0MA53|A0A0P0MA53_9BURK
+MQTHSLYAAIDLGSNSFRLEIGQMDAGQLRRVEYIKETVRQGNGLDSERNLSEDAMVRGW
+ECLARFGERIADFQPHQVRAVATQTLREARNRDVFLAKAKQILGFPIEVIAGREEARLIY
+LGVSHLLPQSDERRLVVDIGGRSTEMILGQHETASTLESYRVGSVAWSMKYFPDGMWTPQ
+AFKAAEIGALAVLDEAHSLFNRQHWDKCYGSSGTVGAVSDILTQAGWPEGRVTRDGLNWL
+KERLFKAQKLDNLRLDGVKEDRKPVIGGGLAVLQAVFDLLQIDEMHAAQGALRHGALYDL
+IDRETPQDVRASMVSWLAQRFGTDAQQADRVSRTAQGLLQAMIASDRTDVPQSEQQRHLQ
+KLHWACQLHEVGMRISHSDYHKHGAYILDNTDLPGFTLDELHRLSQLVLGHRGKLRKLEA
+ELQNTRFVQQLMALRLAVILCHARRDPDLSGLHIQCDAGRRNASLQMDSDWVELWPQSAH
+LLREEKNAWQKTEWVFQVAVN
+>tr|A0A0P0LHB1|A0A0P0LHB1_9BURK
+MEAFLVSTGIVALAEMGDKTQLLSLVLAARFRKPWPIVLGILVATLANHGLAGAVGSWVT
+TVMGPDVLRWVLGASFIAMAVWMLIPDKLDDEEGDSAPRMGVFLTTVVAFFLAEMGDKTQ
+IATVMLAAQYNAWFAVVAGTTLGMMLANAPVVWLGDAITKRVPLRLVHLISAGIFAVLGV
+IALSGWGS
+>tr|A0A0P0M8D7|A0A0P0M8D7_9BURK
+MPALLAPSCTLVGAGPGDPELLTLKAVKAIANATVLLVDDLVNDAVLAHASPTARIIHVG
+KRGGCQSTPQAFIDKLMITAFKEGERVVRLKGGDPFIFGRGGEEVEHLREAGIDVAVVNG
+ITSGLAGMSSLGAPLTHREHAHGVVFVTGHAKPGDSGTDWVQLATTAHQAKLTLVIYMGV
+SSLNHICQGLLQGLPAHTPVAVVQHASLPSQREALTTLAGLVNTVHREQLQSPSIIVVGD
+VVQGARAWQQAEQQTKAQRVA
+>tr|A0A0P0MAB4|A0A0P0MAB4_9BURK
+MGFSASDVVPFTQARSHLSELADQAKAGAEKIITKNGESYVALIDSDRLDYYHRLERERI
+HLLLIDDAKRGLADIAAGRTFEADAALAQLQQRRKTATKRPAKQRG
+>tr|A0A0P0LDB1|A0A0P0LDB1_9BURK
+MTTLKIDFVSDIACPWCAVGLGALEQALVRLDGEVQADLHFQPFELNPHMPPGGQDLGEH
+LTQKYGSTAEQQAQIRQTIAARGAEVGFEFHPGGRGRVYNTFNAHRLLHWAEGQGHGAQH
+ALKKAFLQAYQGRAECVEDPEVLLAGVAGAGLDVAAAREVLNSDAHTAEVRERQQFYAQA
+GIRSVPAVIINDRHLISGGQPVEVFEQALRRIASGDVN
+>tr|A0A0P0LVB8|A0A0P0LVB8_9BURK
+MGNRLTQIATRTGDNGTTGLGNNQRVSKNSLRVHAMGEVDELNSNIGVLLCEDMAADVRE
+VLVEVQHQLFNLGGELSIPGFELLKEEAVAALDEALEKYNAQLPKLEEFILPAGTRGASQ
+AHVCRTVARRAERACVALGNEEAINETPRQYLNRLSDLMFVLARVLNRMNGGDDVYWKSQ
+RMNKDKA
+>tr|A0A0P0LK17|A0A0P0LK17_9BURK
+MENKVSREIPRAGQVAQAQVAKSALDFTYFSAELKHLGVPSGLNFLQMSHSETPGVNTLD
+LTRSAVLSRVKNFSSIDLTGTINNTIKLNWAAVAILSDAFDAAAKGVDSARMLVVSGNPG
+DAMQLVNLKSWAVAEVQSAETLSATYGHEHQFLAGHAYKAFSLYGATVFVDEVMQVNDAA
+VTVDAQLKSQVFSIEALFGSPAPVAESGDKAETPEPGATSASFKGVAIVFAGTGGANGDI
+ATTGHYELSKDGGASWMSVGGDLSDATAVYADKSALLRYVGAEDAERLQPQRLMVRLIDD
+SGLNGSADYDSAATGSTIDVSVHGLSTAFGADALTLLARSSKPPMPIAPEQSAVGQASDG
+WVPEGEVGSPVSSLVGGSDGQRDKGIAITGVDNTQGTLYYSTNGGSSWTEVTRPLSESNS
+LFMRSDGDNRVFFKPSANLMVRSGNALTIRSWDQSEATETIFFNTTDDGLTIPEANAAWG
+SQVALADVSSVQDNPTDELAPAAPLNARVNPPASLDDAAVEVTPEVLAAAIATSVNSSMA
+KVYAMRQGDSLDLTALLSQVQAEGAAAALGALDNPAPVLHLTMADVLSLPAQNGVHQLVL
+SGTVNDKLMLSKDEWTDTGAVVNQDGHTYAVFAGSTDASAQLLIDQHMLQNLMSS
+>tr|A0A0N7J8I2|A0A0N7J8I2_9BURK
+MSKPTPPTKSNLSPLSSFIFASRWLQLPLYIGLIAAQAVYVFHFWVELVHLLEAAFGSQP
+ALQALITSIGYKTDAPITSLNETVIMLVVLALIDVVMISNLLIMVIVGGYETFVSRLNLE
+GHPDQPEWLDHVNASVLKVKLGTAIIGISSIHLLKTFINAANYDEKVLMWQTIIHMAFLL
+SAIAIAYADRLMSHHDKAH
+>tr|A0A0P0LLL3|A0A0P0LLL3_9BURK
+MPNTPFIHRNLPRLLLQARESVMGHTRPSLRSHGLSDQQWRVLRVLGEHAHDSAGVETGR
+VAKEAFLLGPSLTGVLTRMARDGLIERHRCPQDARRTVVRATALGLAKVQALSQSIEAHY
+AWMEGQLGKTALQDLYALLDQVIALEGDGPAPAPESTRKKKAAP
+>tr|A0A0P0M839|A0A0P0M839_9BURK
+MSSFTAAAEHLIDSAYAARRLLVTLALMTLGGSSMYVVAVVLPAVQAEFGVSRADASLPY
+TLMMIGFGVGGLFMGRWADRAGVHVPLFLGGVGTGLGFIAASLSGNIWWFALAHGLLLGL
+IGSSTTFAPLVADTSLWWRKRRGIAVAVCASGNYVAGAIWPPLAQYGVESVGWRSTYVAL
+GLFCGIGMVLLSLLMRQRPPLLQTPVVGSAQALQSQRPFGLSPNNAQFLLCVAGVACCVA
+MAMPQVHIVAYCTDLGFGAARGAEMLSLMLASGIASRLISGAICDRIGGLRTLVLGSVLQ
+GVALLLFLPFDGLVSLYIISALFGLFQGGIVPAYAIIVREYFPAKEAGSRVGAVIMATLL
+GMALGGWMSGKVFDLTGSYHAAFINGVLWNALNLSIALWLLWRVKRAAAQPA
+>tr|A0A0P0M997|A0A0P0M997_9BURK
+MSPFTPESPWVQVLDTQDMDQHALAQQGWALQYEQLSPGQFKGRIHQVQLPGVTLLREDT
+SIALRQRGRLDDSVYGFAMALQDSPDLFFNGQRVPAHAIMCGKGDEVDLTTPTHFTLIAL
+VVERSLLNPLWERMYQKPLAHWLEKQLVLPTTDIKAQNLRDLQLTVLDQASALAHRPHDL
+QALRQLRDEILMEWLEALPAQVDTSELPNLERRKKLVDRACELMMGHADEPLSILEVCSR
+VGTSRRKLNYCFQDVLGTTPIKYLRSLRLNSVRRALRQAAPGETIQDIASHWGFWHLSQF
+AQDYKKLFGELPSATLKVFENRKKPLPSSSVATGQSQ
+>tr|A0A0P0LBP4|A0A0P0LBP4_9BURK
+MISNKTINAMDVCVIIAAHQNLGRVSTTELSQRLQLSVSNLESILKPLKDQHIVSARKGP
+GGGYEIRGDLALISMWDIAAVFEPTLAQQGSEDQPIEASDYEWGLERVIIDTLSQSTLSD
+FVTPQALPQMVETPVVNRFKFKPLAAPMVPKAPNSVFQLHMAL
+>tr|A0A0P0M8L4|A0A0P0M8L4_9BURK
+MSAWVLPDHVADVLPSEARHIEELRRELLDTARGYGYELVMPPLLEHLESLLTGTGEALD
+LQTFKLVDQLSGRTLGLRADTTPQVARIDAHLLGRTALTRLCYCGPVLHTRPARPHATRE
+PLQLGAEIYGHAGPEADLEILQLALDCLAAGRATGLQVDLADARIVNRLLQGQPLSEAQR
+HDIHAALATKDASALARLSVGLQPAARDGLLALVDLYGDISVLDRAASRLPDHPEITQAL
+AQLRWLAEQIPGVAVSFDLGDSRGYAYYSGMRFAIYAKGASDALARGGRYDGVGAVFGHR
+IDRDRPAVGFSLDLKELVAAVQPLALRAAIRAPWGQSASLRAAIAALRSRGETVVCVLPG
+HESEVDEFHCDRELIEAAGQWLVQAL
+>tr|A0A0P0MC16|A0A0P0MC16_9BURK
+MINRMNFEAILFDCDGVLVDSEAITCGVLRDMFEEQGWCMTLVECMQRFVGHTVKSQRST
+IEAHTGQPLTDAWLEQFYARRNERLTQSITAIDGVHDAVAHLHDHCQGRIAVASGADRFK
+VEMMLKQVGLIHFFEGRIFSGHEMPRSKPHPDVYLAAAAHLQVDPARCLVVEDTTVGITA
+GVAAGATVWAYAAPPAQHAPLLQAGAQRVFTGMHDLRLA
+>tr|A0A0N7J8F3|A0A0N7J8F3_9BURK
+MNTPKTPPGRLFLVPTPLDFGCTEQAPITEVLPSTTLATAAGIQHWVCENAKSTRAFLKR
+VGQTHPLIVPLAEQSITELPRHVHKKGDHQSGFDGKPLLAAALQGHDVGLVSEAGMPAVA
+DPGSSVVRAAHDLGIGVVPLVGPVSLLLALAASGLNGQNFAFVGYLPQDAGERAARLKQL
+ESLALKTGQTQLWIETPYRNAAMLGGLLQSLNANTRLAIASGLTLPSANIQSHTVAQWKK
+GLTGPDSQTPAVYAIGP
+>tr|A0A0P0M9I2|A0A0P0M9I2_9BURK
+MTDPISSYRRAAQLDSSSRQAAAKAQERSADAAPEGLSKVLAPQTDEVKLSAVAQKATQE
+PAFDRAKVDAIKTAIQQGQYPLDSRRIAESFMAIEKMISE
+>tr|A0A0P0MB23|A0A0P0MB23_9BURK
+MKHWQPAGTVYGCLLNFQREWDLWAPRMAQDPYKGPPRAPVLYVKSANTFNPGGSLLLQD
+GVQEVDIGATLGLVMGAEGMPDSVVLLNDWSVPHESYYRPPVKFRCRDGYLGCGSPPVPW
+TSLDLPSLSIMVQLNGQKVQTVHLSELVRPVERLLTDVGEFMSLQAGDVLMLGTDVLAQG
+QRPRARAGDTVCLTVPGFAPWVQTVQGEAV
+>tr|A0A0P0MB50|A0A0P0MB50_9BURK
+MGNKLYVGNLPYSVRDGDLEQAFGEFGAVTSAKVMMERDTGRSKGFGFVEMGSDDEAQAA
+INGMNGQPLGGRNVVVNEARPMEARPPRTGGGGFGGGRREGGGGGYGGGGGGGFGGGGYG
+GGREGGGGGYGGGREGGGGYGGGREGGGGYGGGRDGGGRGEGGGGGFRSPYGAGPRGGGG
+RREGGREGGGGGYGGGY
+>tr|A0A0P0MCA8|A0A0P0MCA8_9BURK
+MEKSWKAAIKRVLMESDAPLHYTEISEQILSRGYYETDGATPAATVNAQLSSSVKHDGDK
+SPFIRVGKGIFSLRGETASTTLPGNKTKNQLPAVALEDVSSDSIIQSFGMYWQRDLVVWR
+NDLKMYGKQQALSKPVDFGKQKGIYILYDHHTVVYVGRAIDRPLGKRLYEHTVDRLGSRW
+NRFSWFGLLDVTQEGKLREIPFNSTLAALVATLEALLIEALEPPQNRKRGDDFSAIEYIQ
+DIDPELKEREIQNTLRSIEQKMRGGA
+>tr|A0A0P0M7B1|A0A0P0M7B1_9BURK
+MIPIKIDSAWKGTSDCRNCGIRDMVLFADLNEQDFGEIHTPIDDMVFAPDTALYTEGQSA
+VGVFTLRKGMVKLVRATADGRERIVRVLRPGDVIGLEALATARYDSEAIALVEAQVCRIP
+LSVLHHLSSNSPRLHKRLMQKWQGALKDADDWLADLNFGSARQRVAALALKMRDPDQPDF
+TSFFARDDMGAMLDIKLETVSREISSLVRDGALKPCDKQGRRYEITNEVLLQRQ
+>tr|A0A0P0MC83|A0A0P0MC83_9BURK
+MTRHLILVLGDQLGWDNPALADFDPAQDRLLMIEADSEADEVWNHQARIAIFLSGMRHFA
+NEAHRLRWPSTYMKVDDTELPPDFAGRLALALATHQPKALVVMEAGAWRMERLVEDAAAQ
+AQTLLRWVGDTHFLCSRAEFAKWAGDKKELRMEFFYREMRKKHGVLMEGKEPIGGQWNYD
+AENRKGFGAKGPGTVPPPARFAPDRVTQDVIALVQTRFAQHPGTLEHFAWPVTREDALVA
+LQHFIDQRLENFGAWQDAMWTTLPFGWHALVGSSLNLHLLNPREVIVAAEQAYHARGLPL
+ASVEGFIRQVLGWREFIRGVYWIDMPHMAEANHYGHTRDLPPWYWSGNTQMACMQATIGQ
+SLQHGYAHHIQRLMVTGQFAVLAGLSPQQVSAWYRAMYVDAVEWVETPNTLGMALHANGG
+RFTSKPYVASGQYVSRMSNYCKGCRYQPEVRTGPNACPMTTLYWDFLIRHEQDFAGNPRT
+ALMVKHVCKMSADDKAQINLQANATRAGLDLL
+>tr|A0A0P0LB54|A0A0P0LB54_9BURK
+MPVYNPPLRDMQFVLHELLNVSAELKALPQHADTDADTINAVLEEGGKFAAEVIFPINIS
+GDTQGCSLNRDTHEVKAPDGFKEAYAQYVAGGWPALSCDPEFGGQGLPFVVNQCFYEMLN
+SSNQAWTMYPGLSHGAYECLHAHGTPEQKALYLPKLTSGEWTGTMCLTEPHCGTDLGMLR
+TKAEPQIDGTYKLSGQKIFISAGEHDLAPNIVHLVLARLPDAPPGSKGISLFIVPKFHVA
+ADGSIGERNGIYCGGLEHKMGIHGNATCQMVLDGAVGTLVGQPNKGLAAMFVMMNAARLG
+VGNQSLGLTEVAYQNALAYAKDRVQMRSLTGVKAPGKPADPIIVHPDVRRMLMTAKAYAE
+GGRALACYCALLLDKEINHPDEAVRAEAAEVVALLTPIVKAFTTDNAWEATSACQQVFGG
+HGYIKEWGMEQYVRDARINMIYEGTNTIQSLDLLGRKVLGNQGATLKKFGKLVEQLVKAE
+MANEAMGEFIQPLADLGQKLTQLTGEVGMKALSNADEVGAAAVDYLRVVGHLVLGYFWAR
+SAQIALAKLAEAEEEAQRPDPFYQAKLQTARFYFTRLMPETSTLMRRIRAGSDVLMDTDA
+ALA
+>tr|A0A0P0M7H7|A0A0P0M7H7_9BURK
+MSEHRVVIVGAGMGGLCSAIALAHQGLDVTVVEASDTPGGKVHSREVNGAHIDSGPTVFT
+MRWVFDDLLRSVGTSVEAEMRITPLQVLARHFWPDGSQLDLSADARESEAAIATWSGGDE
+ARRFRDFCKTTRQLYATLEGPMIRAQRPSMGGFMGDLGFKGLGVLAQLGPMRSLWQQLGH
+QFTDPRLRQLFARYATYCGSSPWQSPATLMLIAQVEMDGVWSVEGGMVGMAEALARVARR
+RGAVFRYHSSCQRIEQRQGRVCGVHLQSGEFLPADRVIFNGDAAALRQGLLGDEVRRAVP
+IEAPPRSLSALTWSIHTPADGVALDRHNVFFQSTYASEFEDIFERQRLPAQPTVYVCAQD
+RPAALPHGQAERLFCLVNAPACGDGSAITEEALEQCQTHTFQHLSQLGLHLQPTVSNSLR
+TTPQDFHRRFPASGGALYGQATHGWTSIFSRPGSTTPLQGLYLAGGSVHPGPGVPMAALS
+GQRAAEAVMASLASTSTFPTGVTFGGMSTP
+>tr|A0A0P0MBG0|A0A0P0MBG0_9BURK
+MEAQLNSLIDAVRQAAADGRTLRLRGGGSKDFWGQSLTGEVLSTRDYRGIVSYEPSELVV
+TVRCGTALAELEAALAEKGQSLAFEPPHFGPDATVGGMVAAGLSGPARATVGAVRDYVLG
+ARFINGLGEHLTFGGQVMKNVAGYDVSRLMAGSWGTLGLITEVSLKVLPVAPAEATLMIA
+GLAQGPALDLLHRWGGQPLPLNASAWVRDTMAQPVADYLFVRLRGAVAAVQSAVVKMSAD
+AVALGARVQAMDNAEAAQDWRASNEQTLPFFDAPSADACLWRLSVPQTAPVLDLPYAQYM
+EWQGAQRWLWAPASAAATVREMAQKVGGHATLFRASAKHAEADKAAGVNTPLDAVQQRIQ
+QQLQKQFDPKGIFATGRLHPF
+>tr|A0A0P0LRU9|A0A0P0LRU9_9BURK
+MKKIGLIGGMSWESTALYYQHINREVSRRRGGLHSAPLHLVSLDFQEIADLQKQGDWARM
+TEILQTAARQLANSGAEAVLICTNTMHRIAPQVQAATDLPLLHIADATADAVLAAGLSQV
+ALLGTRFTMEQAFMRDHLAARGIQCLVPDEPGRAEVHRIIFEELCRGQVLDASRQSLIAQ
+VQQLAARGAQGVILGCTELTMSLQPGDGGLPGFDTTALHAMAAVDFCLS
+>tr|A0A0P0MAP0|A0A0P0MAP0_9BURK
+MAVYWVGDIQGCDAALAHLMDEVAFSPSRDHLIVLGDLVNRGPDSAGVLRRLMALQGSVQ
+CLLGNHDLHALAVLWGFSPTKRMDTLDDLMQAPDRAALINWLRQQHLALWSHGVLSVHAG
+VLPSWTLEQTLDLANEVQTVLRGPDLPHFLAHMYGNEPAAWHDDLTGLNRWRVVVNALTR
+LRFCSADGTMEFATKDSAAQAPQGFMPWFDVPGRRTADITVAFGHWSTLGWLGRPDVWSL
+DTGCVWGGCLSAMRLGDDGQHTRVQVACTQAQLPG
+>tr|A0A0P0LQ70|A0A0P0LQ70_9BURK
+MQSFRLSMVPVGLVLATGLFLSGCANTTKDVTAGWTPEKIYSEARDEAKAGAWDKAIGYY
+EKLEGRAAGTALAQQAQIDKAFAQYKTGDKIQAVATLDRFIRLHPTSPAIDYALYLKGLV
+NFNDNLGLFSFITRQDLSERDQKAAKDSYEAFRELSTRFPESKYSADARQRMTHIVNSLA
+AYEVHVARYYASRGAHVAAINRAQQAIADYQGVPALEEALAILISSYKAMGMTALSNDAR
+RVLETNFPKSAFLLTDGAEVKRSGGWRLW
+>tr|A0A0P0M7P3|A0A0P0M7P3_9BURK
+MAQFNLETAQSPPMAEGARHALPEALRQGVPVGPRLVGGTSFTGKSALDLAQIQILAQAC
+LQGLDAARQVVFGWQRQGQSLEDIYVQGITPCARLLGDWWCADRLDFAMTTIASAHLQQL
+LHDFSSEFLQETPTQHQPWSLLLLTEPGAQHSLGLFMLSEFFKRAGWVVTVGVPQDVSEF
+KRLFQSDWFDAVGISVSSDRHLDTLAALLPKLRESSDNLGLQVFVGGPMAFIAPERLQGL
+AAEVLAEDAPATVSRITQAMAGAAARAN
+>tr|A0A0P0LIB5|A0A0P0LIB5_9BURK
+MPKRTDLKSILIIGAGPIIIGQACEFDYSGVQACKALREEGYKVILINSNPATIMTDPAT
+ADVTYIEPITWQTVEKIIAKERPDAILPTMGGQTALNCALDLWHHGVLEKYKVELIGATP
+EAIDKAEDRLKFKDAMTKIGLGSARSGIAHSMEEAWDVQKTLGFPTVIRPSFTLGGTGGG
+IAYNPEEFEVICKRGLEASPTTELLIEESLLGWKEYEMEVVRDKADNCIIVCSIENLDPM
+GVHTGDSITVAPAQTLTDKEYQILRNASLAVLREIGVDTGGSNVQFSINPKDGRMVVIEM
+NPRVSRSSALASKATGFPIAKVAAKLAVGYTLDELRNDITGGATPASFEPSIDYVVTKIP
+RFAFEKFPTADSRLTTQMKSVGEVMAMGRTFQESFQKALRGLEVGVDGMNEKTQDREVLE
+KELGEPGPERIWYVGDAFAMGLSVDEVFALTKIDPWFLVQIEEIVKIELELETTTLEAIT
+ADELRALKKKGFSDRRLAKLLKTTEHVVRERRHALNIRPVYKRVDTCAAEFSTDTAYMYS
+CYEGHGNGECEAEPTTNKKIMVLGGGPNRIGQGIEFDYCCVHAALAMREDGYETIMVNCN
+PETVSTDYDTSDRLYFEPVTLEDVLEIVDKEKPTGVIVQYGGQTPLKLALGLEAAGVPII
+GTSPDMIDAAEDRERFQKLLQDLGLRQPPNATARTEAEALEKAAALGYPLVVRPSYVLGG
+RAMEIVHEQRDLERYMREAVKVSHDSPVLLDRFLNDAIECDVDCLRDPEGKTFIGGVMEH
+IEQAGVHSGDSACSLPPYSLSSATVDELKRQSAAMAGALNVVGLMNVQFAIQHVDGRDVI
+YVLEVNPRASRTVPYVSKATGIQLAKVAARCMAGQTLASQGITKEVTPPYFSVKEAVFPF
+VKFPGVDTILGPEMKSTGEVMGVGKTFGEAFVKSQMGAGTKLPRPTKADGTPSGKVFISV
+KNNDKARAIEVARQLVAQGFELVATKGTAAAIEAAGVACATVNKVTEGRPHIVDMIKNNE
+VVLVINTVEERRNAIADSRHIRTSALLNRVTTFTTIAGAEAAVEGMKYMDQLDVISVQEM
+HAQLLA
+>tr|A0A0N7J970|A0A0N7J970_9BURK
+MRIPLSFKGQSVFVAGGSSGINLGIATAFAQAGAKVAIASRNAERVAQAVDQLRQHGTQI
+EGYSADVRDAVGIAAALQQARDAIGPFDVLVSGAAGNFLAPALGMSANGFKTVVDIDLNG
+TFHVLRAGYEHLRRPGASVINISAPQAFNPTKLQAHVCAAKAGVDMLTRVLAMEWGPEGV
+RVNSIVPGPIGDTEGIRRLAPTPEALQRMTQSVPLQRMGRVEEIADMALFLASPHAAFVT
+GAIMAVDGGSSLAGGRDYSGSLS
+>tr|A0A0P0M933|A0A0P0M933_9BURK
+MEILQQVGVSHRVTQNGLPWRFGNSFYRGERVFRMEAPHDDNDRFGPMINLQQQFLEQYL
+VEACEANPLIDLRWGNRVTAVVQHTDHAQLQVDTPEGPYTLSTEWLVASDGARSGIRSML
+DLKLEGASYEGRFVIADIRIDLPLPTERLAFFDPEWNRGNTVLLHREPLGIWRVDYQLPE
+GETPEQALSPESLKTRINAQLAMIGHADKPWEMDWSSVYSARTLTLPDYLVGRTLFMGDA
+AHLLPIFGVRGANTGFQDAQALAWRLGLVCRGQASSALLANYSAERVGAAWEIIEEAGKS
+TRFMTPPTRGFRLLRDAVLSLSLTEAFVRPLYHWRTSRPHEYSHSSLNCRLDDNAQFAAG
+PAHGAPPLNVRLAPDQFLLDHLGGGFDLLWFGAVDTLPADVLASAAQWRAKGLPLKITCI
+TQEGDTDAGLQASPADAPWQQVLSDPQGRAYSRYGVTAPGAAYLLRPDQHICARWLRLDA
+QRLDAALVQATSGEAP
+>tr|A0A0P0M8H8|A0A0P0M8H8_9BURK
+MPAMTLMALDKIDRTPLPQQRERNRLGSASPGVWLWLACFGLTVVWDASGADLSVMRWLG
+DAQGFALRDHWWLSTVGHDGAKRLAVLVFVGIVWMVFRPMGIWRQMPRTQRLEIVVGITL
+SLLVVTAIKRVSMTSCPWELEAFGGIANHVSHWAWGVTDGGSGHCFPGGHASSALAFLAL
+SLPWLASTEHHHRRTGQKLMVAILVLGLVLGAIQTLRGAHYPSHTAWTALICAAVAWVNH
+RLFASYRSWSTRPS
+>tr|A0A0N7J984|A0A0N7J984_9BURK
+MAKVALIERELKREKLAAKFAKKYAELKAVANDAKRSDEERAAARLGLQKLPRNANPTRQ
+RNRCEITGRPRGTFRQFGLGRAKIREMAFAGHIPGVTKASW
+>tr|A0A0N7J856|A0A0N7J856_9BURK
+MNLPRLSIWQIVQMNIGFLGLQFSFGLQQSNMSPIYSYLGADEAVLPLLALAGPVTGLLV
+QPIVGAMSDRTTSRWGRRTPYFFIGAVLCSLCLLVMPYSSALWMAASLLWILDAANNITM
+EPYRAYVSDRLPKDQHAMGYLTQSAFTGLAQTLSYLAPSIMVWMGMNKDAVGGNHIPQIT
+QVAFIIGALLSVSTMVWSIWKVPELPVSPEAMAAMKAKQKGWLSTLKEISDAIKEMPQAM
+RQLAWMKLFQWYAMMCYWQYVTYAIARNLFDTSDPTSTGFRDAVLVNGQIGGFYNAVAFV
+AALAMVPFTRKWGAGKMHALCLVAAGLGMMAIPQIQSQAMLFIPMIGIGLGWASIMGNPY
+VMLARSIPAERTGVYMGIFNMFIVIPMMIQGLTLPLIYRPLLGGDPRNVLVLAGCLLIVA
+ALATLRVKVPEPEASRPA
+>tr|A0A0P0LEH8|A0A0P0LEH8_9BURK
+MSLSPSLSASSTPNGTMDALLAHAPVDAARLAELLAQEFEVLKARDMAGFEALQEERIQI
+LQRLSQVAQWAAGLDPVPAQWQNLQPDLLQCKQDHLRNMQLLQRQLQAVQGALQALQGES
+AATVDLYDRLGQVSRRHKSTPFFDA
+>tr|A0A0P0LCH3|A0A0P0LCH3_9BURK
+MSSTLSALRIDSPLGPITLAASAQGLCGLWFEGQKHGPSQDQRQQWASDASNPVLQRAAD
+QVLAYLGGKTLKWEGPLDLSAGTPFQQSVWQALLRIPSGQSQTYGELARQLARPQAVRAV
+GAAVGRNPVSIIVPCHRVLGAGGQLTGYAGGLWRKQALLQLEGHPGI
+>tr|A0A0P0LBZ2|A0A0P0LBZ2_9BURK
+MIYSKMWCVVKPSVGIPVFIAAVAISSFSVHLALTTNTTWVKSFLNGGTKVVAAAPSADA
+AVKK
+>tr|A0A0P0M9E0|A0A0P0M9E0_9BURK
+MYQYTEFDKQFVRARAAQHRDQLERFEAGQLSADEFKPLRLQNGWYVQRYAPMLRVAVPY
+GEISAPQLQVLAQIARDYDTPDPALLAHAQATQDQIAGPAPKLTTNYGHFTTRQNVQFNW
+IPLSQSADVMDLLASVNLHGIQTSGNCIRNTTTDELAGVAVDEVVDPRPYAELIRQWSTL
+HPEFAFLPRKFKIAITGAAEDRAAIGWHDVGLQMVKNGAGEIGFKVLVGGGMGRTPTVGT
+VIREFLPWNQIMNYLEAVIRVYNRWGRRDNIYKARIKILVKAEGQRYFDEVEAEYQDILV
+KDGGLHTIPQTEFERVAACFAAPALNLPTSTSEWVVQAEADVAIEAAKTPAFARWLAQNV
+KPHQNPALRAVTLSFKRPGQAPGDATADQLDAAAALVTQFSAGEARVTHSQNLVLPWVRL
+DQLHALWLQAKALGLAQPNIGLLTDMIACPGGDYCALANARSLPLAAAITERYQDLDELN
+DLGHIDFHISGCINSCGHHHSGHIGILGVDKDGKEWYQVTLGGSDGKALSGPTGPGKVVG
+PSFSSVEVPDVIEAVLDTYKALRQPMQDRDEHFIETLRRVGHDPFKAAANAARHPVEEST
+T
+>tr|A0A0P0LB35|A0A0P0LB35_9BURK
+MIIRSSSSGFLHPVPSDITSQVAYQSRRDLMRQLAAGSAGLALAGWAMRDAQAQMARPGQ
+LPALASVPSKLSGAMVLDKPTPYKDATTYNNFYEFGTDKGDPVKRAHTLKTDPWSVEIEG
+LVNKPARVNLEDLMKWGAMEERIYRLRCVEGWSMVIPWVGYSMADLIRRVEPLPGAKFVE
+FVTQADPKTMPGLRSSVLDWPYVEALRMDEAMHPLTLLAFGMYGEVMPKQNGAPLRLVVP
+WKYGFKSGKSLVKIRFTDKQPVTSWEKSAPQEYGFYSNVNPNVDHPRWSQATERRIGEDG
+LLAKKRKTLMFNGYEAQVGQMYAGMDLKKFF
+>tr|A0A0P0LG88|A0A0P0LG88_9BURK
+MKVPVSMQLNLSLALSWLSQARSVNVQGVVADRVHTDSRSLQAGDLFVALRGERFDGNQF
+IAQAQAQGAVAVVCEASGEAQAAAHGLPALVVPDARIALGELAAGWRAQFNLPLIAVTGS
+NGKTTVTQMVASILRAHAGDDALSTQGNLNNDIGVPLTLFNLRTHHRMAVVELGMNHPGE
+IAYLSQLAQPTVALVNNAQREHQEFMGTVEAVAHENGAVLQALPPEGVAVFPADEDFTAV
+WRELSGQRAQRCFAMASAADADVRAAVVVWQSGAWQFTLKTPEGTAPVHLHIAGRHNVKN
+ALAATACALAAGVPLAAVVQGLVAFEPVKGRSRALVLPMGAEEITLVDDTYNANPDSVRA
+AIDVLAELPAPRLLVLGDMGEVGNQGPEFHAEVGAYAAERGIEALFTLGDLCVHSAQAFG
+AARHFADMGSLLSATTESLGEFRSVVVKGSRFMKMERVVQALQSHSNDKNSQNKDKKGEP
+HAA
+>tr|A0A0P0LGK7|A0A0P0LGK7_9BURK
+MAPMVPLCNSADLVNGGRAVPFDIVYAGQTCRAFAIRYQGQVHAYLNRCTHVAMEMDYQP
+DRFFDNTGRWLMCATHGATYQPDTGACSGGPCRGGLVKIDLSEQGGVVHWHTAYNLKPLE
+F
+>tr|A0A0P0MB80|A0A0P0MB80_9BURK
+MSDLHNLSVKALATLLQTKEVSAVEVATRFLARMGGNPHNAFLDIDSEVTLAQAQASDAK
+LADGTAGPLEGVPVAHKDVFVTRDFATTAGSKILSGYRSPFDATVVQRLRSAGMVTLGKL
+NCDEFAMGSANENSAYGPVQNPWDTARVPGGSSGGSAAAVAAGLAPAATGTDTGGSIRQP
+ASFCGITGIKPTYGRASRYGMIAYASSLDQAGPMARSAEDCALLLSAMCGGDIDRDSTSL
+DMPTEDFAAALNNSLEGLRIGIPKEFFGEGLAADVRAAVDSALREYEKLGAKLVPISLPR
+TELSIPVYYIIAPAEASSNLSRFDGVKFGHRAKDYTDLVDMYKKTRAEGFGNEVKRRIMT
+GAYVLSHGYYDAYYLQAQKIRRMIADDFQNAFKECDVIAGPVAPTVAWKFGENANDPVAD
+YLADIFTLPASLAGLPGMSVPAGFGAGGMPVGLQLIGNYFKEAQLLNAAHRLQQATDFHL
+QKPAGV
+>tr|A0A0P0MCA0|A0A0P0MCA0_9BURK
+MPITKGFQALVDEAMAQVTTHSVAEVQARLADPTVQIVDIRDPRELEREGTLPGALLAPR
+GMLEFWVDPASPYFKPVFADESKQFILFCGAGWRSALATKTLQDMGMINVAHIDGGFAAW
+KKAAAPIVTMEQHKAESAARKGA
+>tr|A0A0N7J8B4|A0A0N7J8B4_9BURK
+MKKHLLLISGLLACTLSWAEVKVVYHLSEGIPQASRAIGNIRNHLNADPTAKIVVVTHGL
+GIDFLINGATNQMDQPFAGGVADLVNKGVEFRVCNNTLVSRKISPDKLLMEAKVVPSGVS
+EVAKLQANEKFVYLRP
+>tr|A0A0P0MAB1|A0A0P0MAB1_9BURK
+MQTLEALTQDARALARGEMTAPEAEVARQMQICNGCRYCEGFCAVFPAMTRRLEFGKADI
+HYMANLCHNCGACLHACQYAPPHDFAINVPKAMAQVRGQTYADYAWPPALGSLYQRNGLT
+LSVALAAGLALFLALAMLRQGTLWSTPVAGGFYAVFPHNLMVSLFAPIFLFAVLALALGV
+RRFWRDVTPATSGADLSPPAAAEAAHAALKLKYLDGGHGEGCHNEDDAWTHARRRYHHLT
+FYGFMLCFAATSVATLYHYVLGWPAPYDLTTLPKLLGVIGGVSLAVGTAGLWRLNLRRHP
+DHGDAAQKPMDRGFIALLFLVSVTGLLLWLVGQTAAMPLMLALHLGAVMALFLTLPYGKF
+AHGVFRTAALLRFAIEKRQPNRLGLGGE
+>tr|A0A0P0MB33|A0A0P0MB33_9BURK
+MKHARIAWAGAIQLAIESDGQLLITQGPHQGHRVDFDEVVWLPPLVPVPQPRTVIALGLN
+YADHAKELAFKAPEEPLAFMKGEASLIGHKALTKRPADVAYMHYECELAVVIGRTARRVK
+KADAYDFVGGYTVANDYAIRDYLENWYRPNLRVKNRDTCTPIGPWLVDAADVPNPMALKL
+QTTVNGQVTQSGNTADMVFDVPTLIEYFSSFMTLKPGDLILTGTPDGIVNVNPGDVVVTE
+IDSIGALTNTLVKA
+>tr|A0A0P0M8G4|A0A0P0M8G4_9BURK
+MNLLNGYGMDTITLAGTLEAKLAAMKDAGFSQVMLMARDLVTHPGGVQAAVATVQASGMR
+PTGFQVLRDFEGLSGHLHSYKLDIAKAMLEMCAATGSKVLLVCSSTSRHATQDLDLIAAD
+LKKLAMLAVPLGIQIAYEALSWGRTVNEFTTSWDVVCRADCPNLGIGIDSFHIFAAKTSL
+DAIEELDPSKIFLVQLSDFMWQETPTFEERMTTARTFRVFPGEGVHSEQLADLVLRLDRI
+GYRGDYSFEVFNDDYQQLPLATVAERARRSATWLHQDVLHKSAPLPGWVRRA
+>tr|A0A0P0M9W6|A0A0P0M9W6_9BURK
+MAIAKADYIEGLAKGLAVLEAFDTERQRLNATLAAQRTGITRAAARRHLLTLADLGYLDT
+DGSHYWLSARVLRLAGSYMATSRLPRTLQPTLNRLAAQTQAAFSAVVRDGDECVIVARSA
+GVAEPVRHLAYGLHLGARLPAHATSTGRVLLASLPKAEFAAWLKGRELARITPQTEVNAT
+RFKALIEQVRQADHCLARDGHELGIHALAVPLRNMQGRTLAALNVVGTAEQLSDAAVQRQ
+WLPLLLEAARELRPLL
+>tr|A0A0P0MAY6|A0A0P0MAY6_9BURK
+MKITAARVIVCSPGRNFVTLKIETDQGVYGVGDATLNGRELAVVSYLEDHVVPCLIGRDP
+QQIEDIWQYLYRGAYWRRGPVTMSAIAAVDTALWDIKAKMANMPLYQLLGGRSRTGVMVY
+GHANGRDTAETVDEVLRHQEEGYLAIRAQSGVPGLNKVYGVSGTKRLYEPADGNLPSEHD
+WSTEKYLRHTPGLFEAVREAVGPDIHLLHDVHHRLTPIEAGQLGKALEPMRLFWMEDPTP
+AENQDAFLWIRHHTTTPIAVGEIFNSIWDCKTLIEKQLIDYIRTTVVHAGGITHLRRIAD
+LASLYQVRTGCHGATDLSPVCMGAALHFDTWVPNFGVQEFMPHSEEMLSVFPHDYRFERG
+MMHCGESPGHGVDIDEKLAARYPYQRAYLPVNRLQHDGTLWNW
+>tr|A0A0P0MB81|A0A0P0MB81_9BURK
+MSKLVQGYEVVIGFETHAQLSTKSKIFSRASVAFGAEPNTQACAVDMALPGTLPVMNMGA
+VERAIEFGLGVNAHIAERSIFARKNYFYPDLPKGYQISQFEIPVVQGGEVSFFLEEGKET
+VRKTVRLERAHLEEDAGKSLHEDFIGQSGIDLNRAGTPLLEIVTQPDIRSSEEAVAYAKE
+LHKIVTWIGICDGNMQEGSFRCDANVSVRKPGGPLGTRREIKNLNSFKFMQQAIDYEVRW
+QIDQIEDGIAIQQATVLFDPDTGETRAMRTKEDAADYRYFPDPDLPPLVIGRDWVERVRS
+EMAELPRVMAERFVKDYALPEYDATQLTQSKAVAAYFEATAKACGQAKLASNWIMGEVSR
+RLNASELSIEQSPVSAAQLAALIGRISDNTISNNAARQVFEGLWNGEGEVDAIIEAKGLK
+QMNDTGELEKIIDEVLAANPKNVEEFKAGNAKALNGLVGPIMKASKGKANPGQVNALLMK
+KLG
+>tr|A0A0P0LQN4|A0A0P0LQN4_9BURK
+MARTVQQLFDLTGQVALVTGGSRGLGLQMAHALGEAGAKIMLSSRKAADLEEAAAELQAA
+GIDARWIAADCGKEEDIRRLAAETMERMGPIDILVNNAGATWGAPAEDHPVEAWDKVMNL
+NVRGYFILSQEVAKHSFIPRGKGRILNVASIAGLAGNPSEMKTIAYNTSKGAVINFTRAL
+AGEWGEHGITVNAICPGFFPSKMTYGLLEKLGADKMAAGAPLRRLGDDEDLKGLAVLFAS
+DAGKHITGQWLAVDGGVSAIIGG
+>tr|A0A0P0MA78|A0A0P0MA78_9BURK
+MTTPALSLDQIAERLQGYDPQALSASQVNAFLAQLVQPVREQETVPLMQAHGRILAQDVV
+SPISVPPHDNSAMDGFALRGAELLAGQASNLKVVGTAFAGAAWQGSVQAGECVRIMTGAI
+MPAGLDTVAPQELVKLDGDTVHIPQGLLQAGDNRRLLGEDLMAGQPALRAGTRLAPAACG
+LLASLGLPTVSVWRRPKVAYFSTGDEILSLGEAPREGAVYDSNRYTVAGLVQALGCELID
+MGVVRDEPAALEQAFRLAAAQADAVITSGGVSVGEADHTKAMMKKLGDVAFWRIAMRPGR
+PMAVGRITQGERSAVLFGLPGNPVAVMVTFAAFVRPALQQLMGWQAPALPLLKAKSTEAL
+RKKPGRTEYQRGIVSTNAAGQLQVSITGNQGSGVLSSMVQANGLIVLGHAQGNVAVGDEV
+DVMMFDGHL
+>tr|A0A0P0LD28|A0A0P0LD28_9BURK
+MSALTPEDERQHLKLLGLAGFASMASMRICDPMLVVLGQEFQVTTGDASAVVSVFAVVYG
+VLQLFYGPLGERFGKLRVVSLAVLTCALFSAITALSTNLPMLVIMRGFMGAAAAGIIPLS
+MAWVGDQVPYERRQETLAKLMSATVLGMMSGLWFGGFAADTVGWRGAFVVLAAMFGVAAV
+LLRRLRLQNKSQMQPVAAPGLWAAFRLTGQLLGTPRVRWVLGVTAAEGALVFGALAFMPT
+HLHQQFGLSVVASGSVMMVYGVGGLLYSQMARRWLAWLGERGLVRTGAALVAVGLLVLAW
+GSGVWLGMLSCLMTGLGFYMLHNTLQVQATQMAPAARGSAVTLFACSLFFGQSTGVLIMA
+QSVDMGWLAYAFTAAAVGVTGLGVLVYRLVGRH
+>tr|A0A0P0LMK5|A0A0P0LMK5_9BURK
+MTGQQSLGFEEAPAVPDQALSWPADLQGLDAGWRPLVDAFLSSETGLALSKRLTDALQAG
+HTIYPPEPFRALSLTPLSEVRVVILGQDPYHGPGQAEGLAFSVAPGVRLPPSLRNIFKEL
+QKSLGVSIAADGSLVRWAKQGVLLLNTCFTVEAGQAASHARWGWEVLSDQLIQVVAQSSK
+PVVFMLWGAQAQAKKALIEAAGRSGRHLVLMANHPSPLSALRAPVPFMGCGHFSQANIFL
+AQSGEKTIVW
+>tr|A0A0P0LQ89|A0A0P0LQ89_9BURK
+MSLHLIPASEAMAQLDQFDAILDARSEGEHAEDHLPGALSWPSLNNEERIKVGTLYKQVS
+PFEAQKIGAALVAKNIARHIETQVMDKPRNWQPLVYCWRGGKRSNSLALILGQIGFKVHL
+IEGGYKAFRKEVMEDTPRQAQRLHFKVLCGPTGSGKTRLLQALAEEGAQVLDLEAIACHR
+SSVLGLIPGTPQPTQKAFDTQVWNALRGFSADRPVFVEAESKKVGNLAVPDALMAAMRAS
+TCLRVDLSLENRVNLLLEDYAFFTQDRALFGDRLERLTALRGKAVVQGWQERIERGEMRE
+VVTELLSGHYDPGYETSTGNNFVHYSQAPHVTPASHSMADMLALAKDLAQAP
+>tr|A0A0P0LQB8|A0A0P0LQB8_9BURK
+MLSATTPSIDPTLSTSGFGFLRPWWRQPMDNEREWLFFSFLLILTIGYAAFALVSWGVQF
+HDGLLANALGILAMVILGGLRMAGVRLSRLITALQVLTLSQAFAITWLTGGIYSATISWL
+ALASLPAVLATKPRARLAGLAAGWLLIVGLYVYALLGGEMALQIMPQDLIHWHLMMAIVI
+FGMQLALLFRLNNVRNERLQRTQQQRRQLRQLTKKLQQTQQQKDLFVASVSHELRTPMNA
+ILGLADLIQHDKKLDAEVRTKMEDIQKSGEHLLTIINDLLDHAQMESGRLQVVQEPFNLH
+DTLNTAFQLLKRRAESKPLRYTLHIDPNVPTWVKGDSHRLTQILVNLLGNAIKFTAQGEV
+DLHCSVLAEDGEPQGTVPLRLAVRDTGIGIAPDLQHRVYQSFSQVDDSIARRFGGNGLGL
+SITKGLVEAMGGSIGLHSELGVGTTFHVLLPCPLSQAPSHTLPAPEEDSSSDQVIRILIA
+DDNPLNRQIVSLQLRRHLPRARITEVEDGLQAYEAVRDGEGFDVILMDLLMPEMDGQTAT
+RKIRTELPEPQRSTPIIALTANGDKDELERCLASGMNESMLKPFNRNLLIKRVLSYVA
+>tr|A0A0P0MBK5|A0A0P0MBK5_9BURK
+MQKPRFLTRRPLRVGFLMAAIVGMLAACSVAPVVQTPPTSSPSPMPLPVPSMEDTRPLPP
+ALVREQSRWVPVRWAELPGVDTDAVNEAWPAWLQSCQRPTPDWRALCPEIAQLANASANE
+QRRWMRDKLQPYRIEALDQRGEGLLTGLLTGYYEPALTGSRRAQGAFQVPLYAPPAQLGQ
+RKPWFSRQEMETLPAARAALRGKELLYLADPVDAMVLHIQGSGLVNVTEPDGRQRWVRMA
+YAATNDQPYKSIGRWLLDRKLITDASWPGIKAWIDRNPSRVNELLWQNPRVVFFREEALP
+VGTTPPGPKGAQGVPLTAERSIAVDRRSIPYGTPVWMKSTGPQTNLDRLVLAQDTGTAIV
+GAVRADYYAGSGPVAGELAGRLKQPLQLWALWPR
+>tr|A0A0N7J8J3|A0A0N7J8J3_9BURK
+MSQTKPLIIDVHGHYTTAPKALEDWRNKQIAGIKDPASMPKVADLKISDDELRETIETNQ
+LAKMKERGSDITIFSPRASFMAHHIGDFNVSSTWAAICNELCYRVAQLFPDHFVPAAMLP
+QSPGVDPATCIPELVKCVEQYGNVGINLNPDPSGGHWTSPPLSDKAWYPIYEKMVEYDIP
+AMIHVSTSCNSCFHTTGAHYLNADTTAFMQCLTSDLFKDFPTLKFLIPHGGGAVPYHWGR
+FRGLAQELKKPLLTEHLLNNIFFDTCVYHQPGIDLLTKVIPVRNILFASEMIGAVRGIDP
+ETGHYFDDTKRYVQATANLNDQERYMVYEGNARRVFKRLDDQLTAKGL
+>tr|A0A0P0MA11|A0A0P0MA11_9BURK
+MKKDPALTTAPTIQVIERMFTLIDVLASREEAISLKEISQKTGLHPSTAHRILNDLATGR
+FVDRPEAGSYRLGMRLLELGNMVKGRLNVRDAALAPMRDLHKLIQQPVNLSMRQGDEIVY
+IERAYSERSGMQVVRAIGGRAPLHLTSVGKLFLAADDPLRVRSYATRTGLAGQTRNSITQ
+LQVLERELSRVNQSGFARDNEELELGVRCIAAGIYDDQGKLLAGLSISAPADRLDESWLP
+KLQETARTISSTLGHHEGR
+>tr|A0A0N7J8G5|A0A0N7J8G5_9BURK
+MLVPMKHRITIEEVARLAGVSTATVSRVLSRPDVVRTKTQEQVMSAIRQLDYQPDAAARA
+LASGRTHTVGCVIPTLDHAIFARSTQAMQTTLAQAGYQLLVASHEYDPVTEFELVRALQQ
+RGVDSLVLVGTDHAPRLWKALSAWRKPTLLTWSCDPRLPSLGFDNEGAAQMAAAHLLELG
+HRRMGVISGFTTHNDRARSRVHGVRKSLALAGLTLPSTWVTEQAFNLEGGRLGLRQLMSG
+RQKPTAIFCGNDLLAVGALLEAQRMGLNIPEDLSICGIDNLEIAQAINPGLTTVSLPTQD
+LGRMAAKSMLSAIAGEVIAAQSLLPFELVIRGSTAAPRKSPTMSQRRT
+>tr|A0A0N7J8N9|A0A0N7J8N9_9BURK
+MVQITLPDGSLREFPGPVTVAEVASSIGAGLAKAALGGKVNGQLVDTSFSMTSNAQLAIV
+TAKDPEGLELIRHSTAHLLAYAVKDLFPEAQVTIGPVIDNGFYYDFSYSRPFTPEDLVTI
+EKRMTELSNKDEAVVRRVLPRDEAVTYFKGLGEHYKAEIIASIPADQDVSLYREGNFEDL
+CRGPHVPSTGKLKHFKLMKVAGAYWRGDSKNEMLQRVYGTAWASKDDLQQYLTRLEEAEK
+RDHRKLGRELDLFHIDEHAPGLVFWHPKGWTVWQTIEQYMRQVYRDNGYQEVKGPQIIDK
+SLWEKTGHWDKYRDNMFTTESEKRDYALKPMNCPGHILIFKQGIKSYRDLPLRYGEFGQC
+HRNEPSGGLHGIMRVRGFTQDDGHIFCTEDQILPECDTFTKVLKKVYADFGFTNILYKVS
+TRPAARIGSDDLWDKAEKALMDSLTASGCEYVISEGDGAFYGPKIEYTLKDAIGREWQCG
+TIQVDFNLSERLDAEYTAEDGSRQRPVILHRAIVGSMERFIGILVEQHAGALPTWLAPLQ
+VSVLNITDAQADYCREIAAKLQKSVSNQGLRVDLDLRNEKITYKIREHSLQKLPYILVAG
+DKEKAAGTVAVRARGNKDLGVMSIDAFIELIAADIASKA
+>tr|A0A0P0M736|A0A0P0M736_9BURK
+MRITGTYVTSTTLGESVRAFVPHALPPAEPELDVACYAELNRTAELALARLAGVAGLVPS
+IDWLLYSAIRKEALLTSQIEGTQATLVDLFDKEAGLVVSNTDDVEEVTDYLRAFRWTEQT
+LRDPNGLPMSVRLMRQAHRLLMDGARGSGRQPGELRQSQNWIGGTRPGNAVFVPPPPTQV
+PALLADLERFIHDTRPTLPPLVRIGLVHVQFETIHPFLDGNGRIGRLLIAALMEQWGLLS
+EPLVYVSAYLKQHQAEYYRRLSAVRTDGDWEGWVAFFLEGVARAADTAERGIVALASLIN
+TDRRRLLQEPRITPASLRLFELLPLMPIFSIDQVCEKLGTTFPTANAAVKTLEKLGIVVE
+QTGQKKNRHYSYQAYVELLSD
+>tr|A0A0P0M9Q7|A0A0P0M9Q7_9BURK
+MTTERATLMKPIWIVDDDQSIRFVLEKALLREGLPTRSFTNPREVMKALEAEGESDGPQV
+LVSDIRMPGGSGLDLLAAIKQRMPGLPVIIMTAFSDLDSAVSAFSSGAFEYLPKPFDLPK
+AVELIRRAVGESQREDVAEEKMDDAPEMLGQAPAMQDVFRGIGRLAQSHVTVLITGESGS
+GKELVAHALHKHSPRAKQPFVAINTAAIPKDLLESELFGHERGAFTGAQASRRGRFEQAD
+GGTLFLDEIGDMPFDLQTRLLRVLSDGHFYRVGGHSAVKANVRVIAATHQDLEQRVKEGA
+FREDLFHRLNVIRLRLPALRERHEDVPVLARYFLQRSAQQLGVEPKRMADAALERLGQFQ
+FPGNVRQLENICHWLTVMAPTQLIEVKDLPPEVQGLSGVAAPVVAGTSLGDAPLGLSDAS
+HLADPDRAAHAHNLASPMDNPVVRPAAMPWEADLEQEALALLKSGRTDVWDALTRRFETS
+LIQAALATTRGRRIEAAQKLGIGRNTITRKIQELGLEEG
+>tr|A0A0P0M8E4|A0A0P0M8E4_9BURK
+MTKAFLSHGWCDATVVAKIAEALESQGINVFLDKWDISHGKLIWATIDRAIDEASKLVVF
+LSRDALDGKGFK
+>tr|A0A0P0M7R0|A0A0P0M7R0_9BURK
+MSTDKKNAPSESATERTLQEQTMRRPVQIAGVTIQPRDASEDAALPPVAATAAPVPVDGQ
+RCGLVAIVGKPNVGKSTLLNALVGQKISITSRKAQTTRHRITGIRTQGAAQYVFVDTPGF
+QTIHGTALNKSLNKTVVGAVSDVDLVLFVVEAGSFTTADAKVLALLKPGIPVLLVANKLD
+NVHRRGDIAPWLQSMQERHAFTEFVPMSAKQPKDIERLLGICEKYLPEQPWWHAEDELTD
+RSEKFLASEMVREKLFRLTGDELPYTSTVVIDKFEEEAGRTAKRMLRIAATIVVEREGHK
+AMVIGDKGEKLKRIGTETRVELEKLLDAKVFIELWVKVRSGWADDEARVRSFGYE
+>tr|A0A0N7J972|A0A0N7J972_9BURK
+MNAPTAAAHLAPEVAQRAVPEAFLTALKARFGNNCSTAMIVREQHGRDESAFTHVPPPAA
+VVFAENTQDVADAVKLCAEHKVPVIPFGVGSSLEGHLLAVQGGISIDLTRMNKILAINAE
+DLTVTVQPGVTRKQLNEEIKSTGLFFPIDPGADATIGGMSATRASGTNAVRYGTMRENVL
+AMEVVTSSGEVIRTGTRAKKSSAGYDLTRLMVGSEGTLGVITEVTVRLYPLPEAISAAIC
+SFPSIEAAVHTVIQTIQLGVPIARVELIDHNTVRMVNAYAKLGLREEPMLLMEFHGSPAG
+VKEQAETVQEIASEFGGNAFEWATTPEERTRLWTARHNAYFAAIQSKPGCRAISTDTCVP
+ISRLADCLLDSITETDASGLPYFLVGHVGDGNFHFGYLIDPNNPQECETAEALNQQLVSR
+ALRLGGTCTGEHGIGLHKMDFLRTETGEGAVDMMRTIKRALDPHNIMNPGKIFSM
+>tr|A0A0P0M7Z8|A0A0P0M7Z8_9BURK
+MNTSATPSSQGVALSVNVNKVALLRNSRHLGIPSVVRAAELCLQAGANGITIHPRPDERH
+IRASDVPELHALMQAWPEREFNIEGNPFHNLMDHVRAVRPHQVTFVPDSEGQFTSDHGWA
+FPQDAERLKPLIAECKALGVRVSLFMDPIPEQMAAARAVGADRVELYTEPYAAAFGTPEQ
+AMQLQRYADAAVAATQAGLGLNAGHDLNRDNLPAFVAAVKGLQEVSIGHAFMADALEMGY
+TATVQAYLACLNP
+>tr|A0A0N7J8R4|A0A0N7J8R4_9BURK
+MSSPPDKRQALVIGAGLSGSAVAHSLAVRGWSVTVLDQASGVGAGASGLPAGLAAPHVSP
+DDNVLSRITRAGVQATLQRAQALLHNGTDWALSGVLEHNLAGKRRLPANASDHHSTPANE
+AQVAAAGLPPDSPALWHAQAGWIRPRQLVAAQLQTLGVQVRWGQQVQGIERRGEHWAVTD
+AQGQTLGEAPLLVVASAFDSLALLRPLPGFAVPLNPLRGQVSFGHLTDLSESQRQLLPPF
+PVNGHGSFISSVPTPEGLPGWFIGSTFERNCEQAPVREEDHAANQVRLATLLPALGEAMA
+GQFAPDRVQGWAGLRCTLPNRLPAVGPIDRQRLPGLCLSAGMGARGISLAVLCGELLAAW
+LNHEPLPLPEALAKHLAAERFVVP
+>tr|A0A0P0LCC1|A0A0P0LCC1_9BURK
+MNHIIGSKSAVATPAVKWLLVDEESAGQRLDNFLMRHLKGVPKTHVYRIIRSGEVRINKG
+RASAETRVENGDEVRLPPVRISDKVAEKAAQPAPSREFPLLLEDDSLMAIDKPSGVAVHG
+GSGVSFGVIEQLRQSRPQAKLLELVHRLDRDTSGILLVAKKRSALKHLQDQFRERETGKT
+YLALVKGDWPAKLKVIDQPLHKFLLPGKDGQEGERRVRVTTPEDPDGMRSITLVKVAQRL
+PGASLLEVTIKTGRTHQIRVHLSAQGHPIAGDDKYGDFDWNRQLLKPSSGPGLKRMFLHA
+WRLQFNHPVSAERVALQADLPPELKAYVDHAQLKTSPI
+>tr|A0A0P0LUM3|A0A0P0LUM3_9BURK
+MKAIQVHVPGGPENLLEVNLPEPVAGRGQVRVKASTIGVGRPDVLLRKGTYKWMPPLPAI
+PGAELAGVVDAVGEGVTSWQVGDRVLVSARELPQRGGCYAEAIVVPEDAPYRLPDTVSFD
+DAVSLPNLQLALALLQIAGPTNADPSYVLITGASGGVAGMLCQVAKLQGFVTIGTSRSRD
+KAEFALAHGFDHVICTDEETSKDRLEHITHGKGLNLVFDHLGGQSLINGLKSLAPFGTLV
+SYNIVQGPPTEDTFQVMRQLLEKSLAIRCFSMHTFDADRDTRRGLMKEAIAFLAQRRVSF
+SPPQIFKLSEVQKTHVLLDQGLVSGKLVMHP
+>tr|A0A0P0M6V1|A0A0P0M6V1_9BURK
+MSAETGHPHAHPHDHAHDHAHSTLGEMDLRVRALETLLTQKGYLDPAAVDRIIETYEVHV
+GPHNGAKVVARAWADPAFRDWLLQDATAAIASMDYTGRQGEHMVAVPNTPETHNMVVCTL
+CSCYPWPVLGLPPVWYKSAAYRSRAVIEPRAVLADFGVTLPPGQNIRVWDSTAEVRYLVL
+PERPAGTEGWSEEQLAQLVTRDAMIGTGLPLNPQVAA
+>tr|A0A0P0LUV1|A0A0P0LUV1_9BURK
+MNTIHVDVVSAEESIWSGEARFVALPGESGELGIYPRHTPLITRIKAGSVRIEKADGGEE
+FVFVAGGILEVQPDCVTVMSDTAIRGKDLDEEKANAAKQVAEEALRNAKSEIDLAVAQSE
+LAVLAAQMSALRKYRKK
+>tr|A0A0P0LP90|A0A0P0LP90_9BURK
+MATSPVLSELQVRLGYAFRQQALLQQAVTHRSFSADHNERLEFLGDSVLNLSVAHLLYTQ
+LANLPEGDLSRVRANLVKQDTLHQLAKTLDLPAVMRLGEGEMRSGGQNRPSILADALEAI
+IGAVYLDGGYKDAQALVERLFAQVDIKPDMQAVGKDPKTELQEWLQGRKLALPKYTVVGT
+SGAAHRQQFEVSCEVTELRQTQQGSGASRRAAEQAAAAAMLLTLKSESAA
+>tr|A0A0N7J8N6|A0A0N7J8N6_9BURK
+MKKQFWSLMMVSVVLAGCASGVKLDDVPVEDKSATSSGVGVGVQGIGAGQGGAQTSVASV
+TAAPSSTGQGPVGTAHVVFFDYDSFVIRPEARPVIASHAQFLQANKQRKANLEGHTDDRG
+GREYNLALGQKRADAVRQALSLLGVPESQLEAVSFGKEKPLATGGSEVDQAQNRRVEIRY
+>tr|A0A0P0M8Q0|A0A0P0M8Q0_9BURK
+MHQPANTPRRSIYYDYSVHQPWLPTEHPAQALQRVVIAGGGPVGLTAALELARYGVPCVL
+LESEQQVC
+>tr|A0A0P0MBB9|A0A0P0MBB9_9BURK
+MTSSILVLGAGMVGTCTALHLQQRGFEVTLVDRRAPGQETSFGNAGLIQQEAVEPYAFPR
+EPGFLLNVALGRGAQVHWHARGLWQMAGSLLRYLHHSHPKRHAQATEAYSRLIAHATDEH
+DLLITAAGAQDLVTREGFRFVFRSAKALDEASQRAEDLRVRFGVRSEAENTAQLAQAEPA
+LRASLAGAVHWLDPWAVNNPGALVQRYADLFVARGGRVMTGDAASLQVQGKGWSVLTAEG
+RVDAEQAVLALGPWADGLIRTLGYHFPLFIKRGYHQHYRSTAQLRQPVLDAERGYVLAPM
+QRGLRLTTGAEFAPIDAPPTPVQLAKAEVLARELVELGEALPEPPWLGARPCTADMLPVM
+GPAPRHTGLWFNFGHAHQGFTLGPVAGRLLAEMVSGGPTGVDPMPYRPSRFG
+>tr|A0A0P0M801|A0A0P0M801_9BURK
+MLKNTWTKTAASACMATAMLAGWVMVPATGALAQSPSAAVRGLPDFTDLVEQVGPSVVNI
+RTLEKARPNTPSAGGPDEEMQELFRRFFGVPMPNAPRQGPRQNRPEQEAQPRGVGSGFIL
+SSDGFIMTNAHVVEGADEVMVTLPDKREFKARIVGADKRTDVAVVKIQATGLPAVKVGDV
+NRLRVGEWVMAIGSPFGLENTVTAGIVSAKQRDTGDYLPFIQTDVAINPGNSGGPLINMR
+GEVVGINSQIYSRSGGFMGISFAIPMDEAMRVSEQLRASGRVSRGRIGVQIAPVTKEVAE
+SIGLGKAQGVLVRGVEEGSPAEKAGIEAGDIITRFDGKSIEKPADLPRAVGNTKPGSQVA
+LTVFRRGATKDLKVTVAEIEPEKVAAAAPEKKAPAAKIAHLGLSLSDLSEAQKKEARVRS
+GVRVDAAVDAAARAGIREGDLILAVANTEVSSVQVFESLMARIDKSRPVSVLIRRGDGAQ
+YVLIRPAP
+>tr|A0A0P0MAG1|A0A0P0MAG1_9BURK
+MKWMSPGQVVFCGVLACCCALVQAQIGPAPVNLMQVQALSDVPDLQCGLPAPASKPPRAV
+DPDPVEWPDQTEVDEQVKAFSKPESRRSEPSALAGPAAASLWSRANASVLRVGIWSDSHL
+AAGFFTQELQRLSRLAPDQVRAQFMPASLGRAGVRLPLRKTCVSPDWQYEPAHAQSAGAA
+HPGPGLVNMISRQDGAWLSMDLRNAAGLAERSRVRLLYQQTERPIVLALRVDAGPEQIIN
+LQGPQGAAVLELAAQEAMSTLALRVVQGPFRLQGLESPLAPSVRLQMDVFGYPGATVGGW
+RHVRTESLTPWWPERPYDLVVLAFGTNEGNVQPFSAQSYRQMLEASVSQWRAVFPQTACL
+LIAPGDRGVLLRRSQKGGKSSPQAKKKVASDVLRFTRVHDEIGRIQKQVAQSHGCHAWSM
+FEAMGGAGSAYRWARQTPPLMARDLIHFTVPGYQRLAQLMAKDLGWGPALFEDSAAPAAN
+R
+>tr|A0A0N7J864|A0A0N7J864_9BURK
+MFQFVLRRLLAVLPVLLVVSLVVFLILRLAPGDPAAVIAGNSATNEDINRIREQLGLDRS
+ILSQYFIWIGRVFQGDLGYSYYLSKPVTELIAQRIEPTLSLAAGTLVLAVAVAIPLGTIA
+AWRMGGWLDKILSGFSVAGFSVPVFVIGYLLIYLFAIRLDWLPVQGYKALFGPRSVGVWD
+WMRQLILPWMTLAMIYVALIARVTRASVSEVLTEDYIRTARAKGLTERVVLLRHALSNAA
+VPIVTVIGIGVALLIGGVVVTETVYAIPGLGMLTVDAVLNRDFPVIQGLVLLFSCAYVFI
+NLMVDLSYLFLDPRIRY
+>tr|A0A0P0MB32|A0A0P0MB32_9BURK
+MQSLQALTPALHYPPELLLQAQGIRVAFFDIDGVLTDGGLYFSENGETLKRFNTLDGQGL
+KLLQKAGITPVVITGRDSAPLRLRLKALGITHARFGTEDKRPAAEAFLSELNLSWSQAAA
+IGDDWPDLPVMQRAAFACAPANAHAQAKALAHHTTAERGGEGAARAFCDLLLVAGGHYAA
+LLAQVGVNDHPGASA
+>tr|A0A0P0M7U5|A0A0P0M7U5_9BURK
+MESDKTGRQSPPMKTLQEWLDWCEQLHPVAIDMGLDRVKTVADRMNLRFDCPVITVAGTN
+GKGSTCAMLEAVLLQAGYRTGVYTSPHLVHFEERCRLHGESASAEAFAQAFAAVEAVRGE
+VSLTYFEFSTLAILHLMARANLDVAILEVGLGGRLDAVNIIDADCAVITSIDIDHTAILG
+KDRESIGFEKAGIMRVERPVIVSDPVPPQSVVDHAAAVGADLWLFGRDFNFSGDKQQWAW
+AGRDRRYSGMAYPALRGANQLINASGVLAALDALRQRIPVTAQAVRNGLAMVELPGRFQI
+VPGQPVLVMDVAHNPHSVAALAANLDAMGFYPTTHAVLGVMADKDLLPMLQKVNPMVDKW
+YFTDLPLPRAAKAADLQRAWQAQNTRTDTASSVHANPMLALQAAIDAADPADRIVVFGSF
+YTVGGVLKDGIPRLQAKHLSP
+>tr|A0A0P0M8G2|A0A0P0M8G2_9BURK
+MSQTPQPIYLSIERAMEFIGDANGVLSLLKTLQQTLSDDLPRLQELLDKGEVYAANRILH
+QLKGFTPVFCVDSLVELVVQVEGMSKHAEASELRTAYAQLSPQLEALRQEVLDHLSRHSA
+A
+>tr|A0A0N7J8Y4|A0A0N7J8Y4_9BURK
+MTPHLTPRRERWLLFTLAGIQFTHILDFMIMMPLGPQFTALFGISNAQFGLLVSAYTLSA
+GFSGLMAATYIDRFGRKQLLLGMYSLFGLATLACALAPDYVWLMVARVAAGLFGGVLSAL
+SQTIVADVIPFERRGRAMSVVMTSFSVSTVAGVPMGLFLAAHFNWHAPFVGIAVLVGLLS
+LAAWQTLPRLDAHLHHPERVSVWRGIGQVLAEPNHLKAFAVSGLMMFAAFTVIPYITIYL
+QSNAGMKTEEVPWIYLCGGLATLLSARYFGRLTDRVGKVQMFQRLALAVTVPLMATTLSQ
+GLPLWGLLAISTLFFTVMSGRMIPGMAMISSAALPRLRGTFMTLNSAVQSASMGLAALVA
+GLIIGRDAQGQLTGYWVAGLLGVVASLLSVWLAGHLRLHGVPQKAVG
+>tr|A0A0P0M965|A0A0P0M965_9BURK
+MAIVLNKPLPEFEANATSGLKVSNVSHIGQTVVLFFYPKDNTPGCTTEAMQFRDKYKDFV
+KAGALVLGVSRDNMKSHDDFKAKLELPFELIADTEEKMCHMFGVVKNKIMYGKKVKGIER
+STFLIGPDGTLKQEWRGLKVPGHVEEVLQAVKDLKKAAAVA
+>tr|A0A0P0M842|A0A0P0M842_9BURK
+MEFRHLRYFLMLAEELHFGRAAQRLSISQPPLSLNIQQLEASVGAQLFTRNSRGVQLTAA
+GQAFVPAARALLAQASAAAREARDVAEGQSGQLHIGFAGTMLYCGLPQILSRFQASHPRL
+RLVLRELSSSEQLSELLRDRLDVGFVHTPRVPPGFEQILVASQPLVACLPASHPLAGAAS
+VGLDELAGQDLVVVSRTVSPDYHERILVLCEQAGWMPQVVHELRHWLSVVSLVSQDLGVA
+LVPQALQQSALAGAVFVPLHAVDARYDTRCLWRSDRDQTALGDFVQAVQSGLLPHG
+>tr|A0A0P0M8K8|A0A0P0M8K8_9BURK
+MALDKPYTDVPGTIIFDAEQSRKGYWLNQFCMSLMKAENRERFRRDERAYLDEWQMTEEQ
+KQAVLARDLNWCMRTGGNIYFLAKIGATDGKSFQQMAGSMTGMTEEEYRNMMIGGGRSVE
+GNRYIGEDGTAQAQNQPQGAAGQALRAAGQKA
+>tr|A0A0P0LFL6|A0A0P0LFL6_9BURK
+MNAAERHYGIVTAAYWGFTLTDGALRMLVLLHFYKLGYSPFTLAFLFLLYEGAGVLANLI
+GGWLATRFGIARMLTVGLVTQIIGFGLLSALQPEWTAAMSVAWVVLAQGVCGVAKDLTKT
+ASKSAIKITQAQAKDQGNGQLFKWVAWFTGSKNAMKGFGFFLGGLLLETLGFQGSLWAMS
+GLLALVLIGVVTSLPPMMGKSKPSGSAKELFAKNTGINALAAARVALFGARDVWFVVGVP
+VFLYSVGWTFTMVGGFLAAWTIGYGLVQALAPQIVRRSADGLSREVPAARWWSAVLTLIP
+LGIAAAMYWQAPHLQWWVVGGLSLFGFAFAINSSVHSYLVLAYAGSEKAAEDVGFYYAAN
+ALGRFMGTLLSGMLYQWGGLLYALLGSALMLLLCWLATLRLPVGLLTETPVSKDTP
+>tr|A0A0P0M8F4|A0A0P0M8F4_9BURK
+MASISPRRRRDDFEESRVYEYPQHLRDAIEDAPTGAGVYIFHGQEGDLPLYIGKSINIRA
+RLLSHLRTPDEARMLRQTQRISHIRTAGEIGALLLEAQMIKAQHPLFNQKLRRNQQLCSL
+QLTGEVPQVVYARDIDFAKQPELYGLYASRHAALAALRAVADQHKLCYGPLGLEKLPPGK
+ACFRAAIRQCAGVCRGDESAEAHRERLFSSLLALRVECWPYPGAVGLVERDGDFTQIHVV
+KHWCYLGSAPSAEAAHQLSQTASQVAAHFDADGYKILCRPVLTGSVEILVL
+>tr|A0A0P0MB77|A0A0P0MB77_9BURK
+MALMAVWTLGLNHTTAPLDLRGRFAFAVDKLVPTLQGLRRDLSQRISQEPEAAILSTCNR
+TEIYCAADQAATNDTLRWLAQTGGVSASELHAHTYLLEGNEAARHAFRVASGLDSMVLGE
+AQILGQLKDAVRAAEQAGALGSTLNQLFQRSFAVAKEVRSSTEIGAHSISMAAASVRLAS
+QLFENLQDIRILFVGAGEMNELVATHFAAKQPKGMVIANRSLDRAELLAHRFGADVMPLA
+DLPERLHEFDAVISCTASTLPLIGLGAVERALKKRKHRPMFMVDLAVPRDIEPEVKSLED
+VYLYTVDDLASVVQTGQAHRQAAVAEAEVIIDAGVQSFMHWMGQRGTVPLIQQLQNQADA
+WREAELARARKLLARGDDPIAVMEALSKGLTQKMLHGALAELRGAAPEHREQTMQTVQRV
+FLRKER
+>tr|A0A0P0LKH0|A0A0P0LKH0_9BURK
+MKAHSILDTIGHTPHVRIQRLFGTGAHVWIKSERSNPGGSIKDRIALAMAEAAEKSGALK
+PGGTIVEPTSGNTGIGLAMVAAVKGYKLVLVMPDSMSIERRRLMLAYGASFDLTPRADGM
+KGAIARAQALVASTPGAWMPQQFENPANIEVHMRTTAQEILADFPEGIDALITGVGTGGH
+LTGTARVLKARFPQMKVFAVEPAASPVISGGAPAPHPIQGIGAGFIPKNLDTGLLDGVIQ
+VDAEAAREYARRSAREEGMLVGISSGATLAAIAQKLPELPAGATVLGFNYDTGERYLSVE
+GFLPQG
+>tr|A0A0P0M6T7|A0A0P0M6T7_9BURK
+MDKLKAFETFVSVATKGSLTAAARAEGVAPAIIGRRLDALEESLGVKLLVRTTRRITLTH
+EGSAFLEDCQRLLSDVANAEASVSAGGVKASGHLRITAPAGFGRRHVAPLVPRFRELHPD
+VTISLNLSDRVVDLAAEGFDCAVRVGDLPDSSLVSVRMADNRRLCVATPGYLARRGTPLQ
+PSDLLQHDCLTLSSDASQTRGWAFRNPAQGQDVVHLRPGGPLDCSDGQVLHDWCLAGYGI
+AWRSTWEVEGEISSGQLVAVLEDFAAPPNGIFVVFSQRKHLPLRVRLWIDHLKHHYAQPG
+YWQTAKG
+>tr|A0A0P0M8H1|A0A0P0M8H1_9BURK
+MTTYIFSPPEVPSLPIRGRAERFPVNRIFCVGRNYHAHAIEMGRPVDKTVEQAFYFTKSP
+QTLVESGVNHVAVVAYPPRTNNYHFEMELVLAIGKAGFRVSEAQAHELVYGYAAGLDMTR
+RDLQLVARDKGRPWDTGKDIEQGSVCSEIVPMPGVVIENGAIALEVNGQTKQSSNVDKLI
+WNIREIIVDLSTYYHLQPGDLIYTGTPEGVGAVVSGDKITGRVEGVAEITLTIGAAE
+>tr|A0A0P0M8I0|A0A0P0M8I0_9BURK
+MNQPRLDQLRVKQLRFISLLATRGSLSATAEQLSMTQSAASMMLKDIESLFDVKLFRRQG
+RGMALTDEGRALLPRCQTVLGEVGAMGSTLQGTQQPIVRIGAFPHTAVTVLPDIIKKLIN
+GPTVWRPLIIDGRADQLLQMLLQGEIDILLGRMPSHVADAPYFDELSQRVLYEAPLSMVS
+SIKHPLARQKKLDFSDLADCKWILPNMQSTTRVSLMEAFLRRGLAPPNPAVESPSFFYSL
+AVVAQTDLLTCCAQSAALHSSHATSILPLIVSQEPMPVSLVWRKSSVQAQRLADYLI
+>tr|A0A0P0M8B0|A0A0P0M8B0_9BURK
+MSATITFLGGADTVTGSKYLIEHNQKRLLVDCGLFQGYKQLRLRNWSPLPANPANIDAVV
+LTHAHLDHSGYLPLLVKNGFRCRVHATAATCDLASILLPDSGHIQEEDAFFANRHGFSKH
+APALPLYTKQEAIQSLKQLHAEHQGQWFEPIRGWKCRFQPAGHILGAASLLLDVGGRRVL
+FSGDLGRPDDPLMNPPEPPPQADTVLIESTYGDRQHPKAKLFEELGPLLKKLAARGGVAV
+VPVFAVGRAQAVLHTIAQLKAAGEIPHSLPIFLDSPMAIHTTALFERHPGEHRLSTLEVR
+HMDHVAAMLETPEQSKSLARRHGPMVILAASGMATGGRVLHHLAQYAGDHRNMIILTGYQ
+APGTRGAALASGRSTIRIHAQDVAVRAEVAQIESASAHADANQLLSWLHKMPSAPGQVYV
+VHGEREASDMLRQRIEHEIKWRALVPEQGSVWPL
+>tr|A0A0P0M8M5|A0A0P0M8M5_9BURK
+MAIVEVKVPQLSESVAEATMLQWKKKVGDTVAADEILIEIETDKVVLEVPAPSAGVLSEI
+IQGDGATVAAEQLIARIDTDGKVAAAAPAAAAPVAAPATVAAAPAAATGGNMAGVAMPAA
+AKLMADNSLAAGSVAGSGKDGRVTKGDVLAAVAGGVKSTAAVIPTGVPTKALPQVSAPAV
+NLGDRPEQRVPMTRLRARVAERLLQSQSTNAILTTFNEINMAPVMEMRKRMQERFEKEHG
+VKLGFMSFFVKAAVHALKKFPVLNASVDGNDIVYHGYFDIGIAVGSPRGLVVPILRNADQ
+MSFADIEKKIAEFGQKAKDGKLGIEEMTGGTFSISNGGTFGSMMSTPIINPPQSAILGVH
+ATKDRAMVENGQVVVRPMNYFAMSYDHRIIDGREAVLGLVAMKEALEDPARLLFDI
+>tr|A0A0P0M744|A0A0P0M744_9BURK
+MRPYSQHQSKLFATQLTLRQPANSIDKLSHAIASARVDLNPHQVDAALFAVRSPLSKGVI
+LADEVGLGKTIEAGIVISQKWAERKRKLLIIAPATLRKQWQQELMDKFNIPSTILENGIY
+KQLKKESKLLSGHSLLICSYNFAAAKADVLEDVAWDLVVVDEAHRLRNVYKVGNKMASAI
+AGVLADVPKLLLTATPLQNSLLELYGLVSIIDPHVFGDITSFKEQYVRGVNENLRNARLK
+ERIKPFCQRTLRKQVLEYIKFTQRVAMTEEFVPSDDEHRLYEQVSAYLQRENLNALPRSQ
+RTLMTLVLRKLLASSSYAIAATLQKLVERLEHTQARQSVLELLDGEIEGLEELTEEIGAD
+AVEEASGKLTAEELQDLRLELAELRDYAKLASGIRENAKGAALQKVLATAFEKLQGIGAA
+KKAVIFTESTRTQRYLAELLSQSGFENEICMMNGTNTDPQSKAIYAEWAKKHAGSDKLSG
+SKTADMKAAIVEHFRDTATILIATESAAEGVNLQFCSLVVNFDLPWNPQRVEQRIGRCHR
+YGQKFDVVVVNFLNKRNAADQRVYQLLAEKFKLFDGVFGASDEVLGVIENGVDIEKRIAG
+VYQTCRTADEIQHAFDEIQQELDEQIKAALETTRLKLLENFDEEVNARLKVSHDQTKAIL
+NKRSSLLLMLAKTELADIAEFEASGTVFDLSSSPANSNAAVGTYNFDWRAADSKDQHFFA
+ETSPLASWIVSNALGRDLDSSVTLELDYNAYPFKVSALEPYIGKSGWVAAEKITVSSVED
+EDFLAITAITDSGEVLDPELAERLMAIHCSTVTASQSPMPMVQLEKAIAKQRDAVARQLD
+ERNAVYFDEETGKLDSWADDLKFGLETEIKQLDKDIKEAKKAASVSMSLASKLEHQKRLR
+ELEQSRNAKRRSLYEAQDSIDEQRDTLIKKVEKQLQCTVNKTKLFFVQWSLK
+>tr|A0A0N7J8C1|A0A0N7J8C1_9BURK
+MNKASSLAMAAVLALGTMPALAQKTASQGIDEYRAMLQDGNPAELFEAKGEDLWKKARGP
+KNASLEKCDLGKGPGVVKGAFVALPKYFADTQRMQDLESRLVTCMETLQGFNAADISKTA
+FGRGEMANVTALATWIAAESKGLKFNLSQEHSQEKTFYEVGKRLFFQRGGPHDFSCASCH
+GEEGKRIRLQDLPILTKNPGDGLGFAAWPAYRVSNGQMWSMQLRLNDCYRQQRFPYPGFA
+SDATIALSTYLGVNAKGAASIAPAIKR
+>tr|A0A0P0LHW4|A0A0P0LHW4_9BURK
+MAVLKGLMKWMVGLLLVALGLLGGAFWWVQQPLDNRQTPLDLSIEPGTSAQGIAQAVADA
+GAQTSPTLLYAWFRLSGQSRQMRAGSYEIAPGTTPERLLRMLVRGEESLRTVTVVEGWNW
+RQVRQALGKAENLKPDSRALSDEALMAQLGRPGVAPEGRFYPDTYSYAKGTSDLAVLQRA
+MKAMDKHLQQAWEARQPGSALQSPEQALILASIVEKETGKAEDRGQISGVFNNRLRIGMR
+LQTDPTVIYGLGEAFDGNLRRVHLTTDNPWNTYTRAGLPPTPIAMPGKASLLAAVQPAKT
+SAIYFVAKGDGSSHFSATLDEHNRAVNRYQRSQK
+>tr|A0A0P0M8A1|A0A0P0M8A1_9BURK
+MDTAMVIDLGRQALWISMLVCAPLLVVALAVGLIIGIIQAATSINESTLSFIPKLLVMGL
+ALLTFGSWQLVTLVDFTRSIFQRIPTLFT
+>tr|A0A0P0M944|A0A0P0M944_9BURK
+MKLLIVAVGLRVPDWAQTAWDDYAKRFPPELKVELKAVKTEPRGSKTLPNLYAAERQRIE
+AAIPRGTRIVVLDERGTNLTTQALATRLTHWQLGGDDVALVIGGPDGLEPEFRRAAHERI
+RLSDMTLPHAMARVLLIEQLYRAWSINANHPYHRE
+>tr|A0A0P0M959|A0A0P0M959_9BURK
+MNAPAQLTPVAISPVEDIVAEMKAGRIVILVDEEDRENEGDLVLASDHVTPEAINFMARF
+GRGLICLTLTRERCEFLKLPPMAARNGTVYSTAFTVSIEAAEGVTTGISAADRARTVQVA
+VAKASQPTDLVQPGHIFPLQAVDGGVLMRAGHTEAGCDLAAMAGCSPSSVICEIMKDDGT
+MARLPDLQLFAAEHGLKIGTIADLIEYRSRNESLVERIGSRSLQTAHGEFTAHAFRDQPS
+QTVHLALVKGQWSADSEVAVRVHEPLSVLDALEVNRAMHSWSLDASLSYINAQGCGVAVL
+LNCGESADQLLAQFEGRARSAQAPERGKMDLRTYGVGAQILRECGVHKMRLMGQPRRMPS
+MTGYGLEITAYIPKE
+>tr|A0A0P0LFP0|A0A0P0LFP0_9BURK
+MNAPTPIKNLLPASDVQQGKELVHESAHLHVTGSATYIDDIPEHAGTLYAALILSPVAHG
+ELIGDGIDRAAILKEHGVVAVYTAKDIPGENNCGPIIHDDPFLAAGKVEFVGQAVAVVVA
+REMLYAREAAKKAKVLVKELTPILTIEEAMAASSFIMPPKGITRGDAAAAIANAPHKIKG
+STNTGQQEQFYLEGQITYAVPKEDGQLTLYVSTQHPDGNQREAAHALNLHTNDVEVICRR
+MGGGFGGKEGNASIFSQSAALAAHKLQKPVKLRVNRDDDMTITGKRHDFRIDYEVGFDDN
+GRVLGANITLMSRCGYSTDYSGPVNDRACLHIDNTYHLPALKLVSHRCKTNTQSATAFRG
+FGGPQGMFGIETVMDEIAMTLGKDPLQVRKLNLYKDPAISGTPDTMTTQYNQLIEDWVGD
+KVIDQVERESNYAERRAQVQAFNAKSKTRKRGMALVPLKFGISFTATHLNQGGALLVVYM
+DGSVSCNHGGTEMGQGLNTKMAQVCADGLGISVDHVRITATDSQKVPNASATSASSGADI
+NGAAIMNATAQMRERLKPVAARMLGCAAEEVNFANNEVHGGGKSVKWADVTKQAYMERVG
+LSVTGFYMTPEIKYDFATLNGRAFYYYCYGAAVSEVEIDTRTGEWWLKAVDIVHDVGRSI
+NPALDKGQIEGAYVQGMGWLTMEECIWDKKGKLLTHGPSTYKIPVAGDIPEHFNVTLFDN
+ANLKPTPFNSKATGEPPLMLGLSAFFALRDAVAASADHKAVVYMDAPATPERILMACEKA
+KATAGL
+>tr|A0A0P0M8L1|A0A0P0M8L1_9BURK
+MVKTFHDLDLKEACIQAAREVIAEQGIEGLSLRDVARKLGVSHQAPYRHYPSRDHLLAAI
+MQRCFEDFANHLDQASQAHTSDALLGMGEAYMRYAAQHPLEYRLMFGTPWPEPAAHPELV
+RHAVHAFDLLRNHLLRHLQQRASAPQSDMLALLAQAELQALFIWSALHGMASIQQSNVMQ
+HLVLTPGVPAQAEPYLMGMMHTALTQGPTPAKAQASPAPSAPTPKMHEN
+>tr|A0A0P0MAZ7|A0A0P0MAZ7_9BURK
+MARQPRLTVAAYPHHVIQRGNDRQLIVRDDADRERLLALWQEHAQAFKVAIHAYVIMDNH
+FHLLLTPETDEGLPQMMQAVGRAYVRYFNLRHQRTGTLWEGRYRSNLIESERYLLACMVY
+IDLNPVRAGMVAQAADFKWSSHRHCIGQVSDKLVKPHALFWGLGNTPFAREAAYAELVQT
+GLAQREKDQLTQSALSGWALGSADFVGGLQQATQRRLVPGKAGRPAKKTLD
+>tr|A0A0P0MA73|A0A0P0MA73_9BURK
+MTSTNHLPITVAGASGRMGHMLIEAILATQDCRLAGALDIAASPALGQDAGASLGRVTGV
+SVTADLKAGLQGASCLIDFTRPEGTLAHLKVCRELGVKAVIGTTGFTDEQKAEIAEIARD
+IAIVMAPNMSVGVNVTLKLLQMAAQAMSTGYDIEIIEAHHRHKVDAPSGTALKMGEVIAE
+AIGRDLKECAVYERYGHTGERDPSTIGFSTIRGGDIVGDHTVLFAGIGERIEVTHKSSSR
+ATYAQGSLRAVRYLASQPRGLFDMFDVLNLR
+>tr|A0A0P0MB62|A0A0P0MB62_9BURK
+MNAPTTLQHLMQADADAPRLREIPYNYTSFSDREIVVRLLGVSAWDLLNQLRQERGTGRS
+ARMLYEVLGDIWVVERNPYLQDDLLDNPARRKLLVEALQHRLGEVQKRRTPQADAARDAL
+VGQLLAMATQAVTQFSERFIRMAKLRSQVQKTLGRLTAKDNIKFDGLSRVSHVTDATDWR
+VEYPFVVLTPDSETEMAGLVKGCIDLGLTIVPRGGGTGYTGGAIPLTWKSAVINTEKLEA
+MTEVEMVDLPGIAHKIPTIYTEAGVVTQRVADAAERGGFVFAVDPTSAEASCVGGNIAMN
+AGGKKAVLWGTALDNLASWRMVTPDAEWLDVVRMDHNMGKIHDAEVATFELRYFKADGKT
+PIRTETLVIPGKTFRKEGLGKDVTDKFLSGLPGVQKEGCDGLITSARWVVHRMPTHTRTV
+CMEFFGHAREAVPSIVEIKDFMFAEQKRTGTVMAGLEHLDDRYLRAVGYSTKSKRGGFPK
+MVLIGDIAGDNADDVAKATSEIVRIANSRSGEGFIAISPEARKKFWLDRKKTAAISRHTN
+AFKVNEDVVIPLPRMAEYTDGIERINIELSLRNKLKLCREIEAFLERGNLPLGKQDDASD
+IPSAELLEDRVAQALAVVREVRAQWQGWLNDVDALFPQLQEHSLRASWKTQIRPAFQNIF
+SGSAFLPILNEVNAIHQRVLKGRVWVALHMHAGDGNVHTNIPVNSDNYEMLQTAHEAVAR
+IMVLARSLDGVISGEHGIGITKLEFLTDAELANFTAYKAKVDPEGRFNKGKLLRGAALTG
+LGDDVHAADLTHAYTPSFGLMGHESLIMQQSDIGAIAASVKDCLRCGKCKPVCATHVPRA
+NLLYSPRNKILATSLLVEAFLYEEQTRRGISIKHWQEFEDVADHCTVCHKCLTPCPVNID
+FGDVSMNMRNLLRKMGQKSFRPGNAAAMFMLNATNPETIKLARAAMVGVGMRAQRFVAGL
+LKGVARKQTSAPPASVGTAPIKEQVIHFINKKMPGNLPKKTARALLDIEDNDYVPIIRNP
+KATTSESEAVFYFPGCGSERLFSQVGLATQAMLWHVGVQTVLPPGYLCCGYPQKGSGQFD
+KAEKIITDNRVLFHRVANTLNYLDIKTVVVSCGTCYDQLQGYQFDKIFPGCRIIDIHEFL
+LEKGMKLGEGGAYLYHDPCHSPMKQQEPMKTVKALMGDNVLESKRCCGESGTLGVTRPDI
+STQVRFRKEEELLKGEAALRSSGALAPQANVKILTSCPSCLQGLSRFGDDLQNGLLEADY
+IVVEMAKHILGEEWMPEYVNAANAGGIERVLV
+>tr|A0A0P0M8Z4|A0A0P0M8Z4_9BURK
+MKLQPDKSNAPTINAYDRAWIEVNGVRHEQSLFVSSLPDVPPAAWATGHFEALSASDFSP
+WAQSGAELILFGSGHKLRFAKPQWLQDLITRGVGVETMDTAAACRTYNILASEGRKVVAL
+LLIES
+>tr|A0A0N7J874|A0A0N7J874_9BURK
+MSATRAKRLFLSTLTHATAAPRAAGFAWAIAVGCILAWPAFAQNRSESAEAQTLTNQART
+TLPRHVLQTLEKAQVPPSALSVLIAPLPQGPTSNSAQPRHLSHQAQASVNPASVMKLFTT
+YAGLILLGPDHVWRNRVYTDGPVRDGVLQGNLVVRGSGDPKLVVERLQELLTQVRSAGVR
+DVRGDIVLDRSVFDVRERSEPFDDEPLRPYNVGPDGLLLNFKAVVYKFTPDAASGQVQVR
+FEPPLAGFSAPTQLPLSQTPCSDWRRQLQADFSQPQQVRFAGRYPASCGEREWPVAYPEP
+EAYAPRVMQALWQQAGGQLTGQVRYGSRPASAKLLLEAPSLPLSDIIQDINKFSNNVMAQ
+QLYLTLSSELGAPGRFEASRLRLSQWWRQGFAVHDEPVLDNGSGLSRTERSTAQALTALL
+QAAHSSPHARHFVNSLAIAGVDGTAARLKDRSPQSPVIGNAWLKTGSLRDVASVAGYVQG
+QSGQRYTLVAVLHHPNAHQARAALDQLLEWTVRDTTSPRAKAPQTP
+>tr|A0A0N7J8B7|A0A0N7J8B7_9BURK
+MLQALIFDVDGTLADTEMAHLAAFNHAFAEMGLDWRWDVPLYTRLLAVSGGKERIKAYWQ
+TLETQPKDITGAGMQETIDHLHEIKTAAYEQAVQDGAVQMRPGVLALLSAASAAGLQLAI
+ATTTSPVNIAALLRQAIGPDWQLHFAVIEDASTAPRKKPDPMVYQQTLSRLGLAPEHCLA
+FEDSENGLRAAMAAGLPTVITPNDFTAEHDFKGALRIVPSLHGVGLAQLREWHQSAFKAT
+A
+>tr|A0A0P0LPA3|A0A0P0LPA3_9BURK
+MFDYQQPDLKGHFGIYGGSFVSETLTHAINELKAAYAQYQHDPAFIAEFKSELAHFVGRP
+SPVYHAARMSREMGGAQIFLKREDLNHTGAHKINNTIGQAMLAKRMGKPRIIAETGAGQH
+GVATATICARYGLECVVYMGAEDVKRQSPNVYRMKLLGATVVPVESGSKTLKDALNEAMR
+DWVANVDNTFYIIGTVAGPHPYPMMVRDFQSVIGEECLTQMPEMFKTLQMAEQQPDAVIA
+CVGGGSNAMGIFYPYIPHDKTRLIGVEAAGEGLDTGKHSASLQLGTPGVLHGNRTYILQD
+ENGQITETHSVSAGLDYPGVGPEHAYLKDIGRAEYVGITDKEALEAFHYLCRTEGIIPAL
+ESSHAVAYAMNLAKTMRPDQSILVNLSGRGDKDIGTVADLSNADFYCRPSCQGQSVKGGE
+QPVNFVK
+>tr|A0A0P0MAK6|A0A0P0MAK6_9BURK
+MNLKNAKLGMVIVDLQNDFLAPDGAYARGNTLSAEAVKLPERMAPVARAIKAHGGLVTAS
+LFTLWPNAQGEPMISAHLKERRPFLRQGDFAPGSRGQANVDVLAPLVDVSVFKVAYSAFF
+NTQLDWVLKKSDIDTLVVCGIVTNGGVASTVRDAHVRDYHAIVLSDGCAAFSEAAHQAAL
+ADMGSVADVMDSATFLKQLG
+>tr|A0A0N7J8A5|A0A0N7J8A5_9BURK
+MILCSKLMPQGRGLARVLVQRASTITLDWDTRQKSRFDATDSAGRQLGVFLPRGAVVRGG
+DVLVAEDGSLVRVQAAPQDVLRITTCTEHGSPFDLTRAAYHLGNRHVPIELQPDHLKIEP
+DHVLADMLRAMHMTVVAVSEPFEPESGAYGDHGGYSHGGHAHDHDHAHSHDNKAAVAEPH
+VHGPDCTHAHAAPPAAKRIAIPIRSDPVAPHVHGPGCNHDH
+>tr|A0A0P0LS24|A0A0P0LS24_9BURK
+MVSSISSYSASQIRQIDIPTFATADVAALSASQIRELTTSQISQMSSAQIGAIETADFVQ
+LTGKQISAFDPSNFRDGLLTYDKNKLQAITGSQLANLTTAQLAAFTTDHAAALDARDMGT
+LSANQLNALSTTVVASLSSGQLQGLKAEQIGGLSSTQLNAMSSSQIQSLSNAQLKGLTSS
+QLGSLSTSNLQSLTTGQFQGLIAAQLNGLSSTQVQSLESADLVAIKGTTMGALGTTQIKA
+LSSVQVQNLTAQQLKGLSADQIKAIDTVDIAALSTGQITQFKQDQIGQLTTDQVKALGTQ
+QIQALEAAQVRGLTTSQMSVLSTDQLSALTTAQAKTLSATQVNALSSTQIASIQTADIAA
+LAGTTTSGLSTASVKGLSSTQVASLNASQLRSLSATQLNALDTVDLANMSTSQLVQLTAD
+QVAGLSTGQLDAMTTAQFSALDARQVSGMTTAQVASLSTGKLASLTTTQVKQMSAEQLNA
+ISTANIGAIQTADIAAISGAAASKLSTTFVQALTSDQVKALDKTQLAGMTSVQLQALETG
+DLAKMSSAQLGNLRADQLGQITTAQLNNLTTSQLQSINAKQLGGLTTAQMGSLTTANLAA
+LSGDQFKAFSATQLNALTSVQVAGLTSTAVSSINEGAFSKLSTATLQALTTGQVSHLTNK
+QIQSMSSSQLNGLATDDLVKLGTSQIAALSASQIKSLSTTQLNSLTTTQFASLSAIQVGG
+LSTTQMASLSTDLVKALTTGQAAGLTATQLNGLTTAQIGSMDTADVAALNASALSKLSTA
+NVGALSSDQVKALGNQQLQSLSTAQLVAMGDDVTELNTTQLSGLKASQISGLTTAQLDGL
+DTAQLRSLTGSQVAAITTAQFAALGSDDLNSLTTSQFSSITADQLNARSSIASLTTEDLV
+ALNADTVAGLKTAAIQALTTSQVTQLSATQIKALTTDQLNAMKQADIEKLTTSQVAALKA
+DQVGGLSTTQLSRLNTAQVNALSGAHISRLSTDSVKSLSSDQVRAINVTALRSLTADQIN
+ALDTADLAVMGTAQVAGLRSDQLQGMTTTQLNVLTTTQVRALSDSQLGSLTTAQVSSLKT
+DAIATLNSEQVSGLKVEQLGALSTDQISKISSTAIAGLSGGQIGSLSTDKLAALTTGQAQ
+SLTNTQIRALTTGQMAGLSTASLAALTTTQIGSLNADQLNALSTTQLVSLESADIAALDA
+RIISTLSTGNVAALTSGQVKALDSTQIKALTTAQLNALDTADVAAMGTSQIQALSSSQVA
+SLSTDRVTALTSGQIQALTSTQVAGLTTGQVASLTTSQVEALTTSQIQALGSSQIAAMSS
+SQISAIQTADLASLTTGQITGLTTNVIQSLTTSQVAGLSTAQFSALTNTQLNALSSTQVQ
+AIETADVASLTSAQVSGLTTSSVAALTSVQVNALGSSQLQALSSAQLNALDTADVAVMGT
+SQIQALTSSQVAGLSTDRITALTSGQIQALSSSQIAGLTTGQVASLTTSQIEALTTAQIQ
+ALGTNQIASMSSTQIAAIQTADLASLTTGQISGLTTGVIQSLSSAQVAALGTAQVSTLGT
+TQLNALSSAQVQAIETADVAALTSAQVSGLSTSGVAALTSSQVNALSSVQLQALSSAQLN
+ALDTADVAAMGTSQIQALTTTQLSQVQTDKIAALTTSQVAALTTGQVASLTTSQVAAMDS
+AQVKTLSTAQVQTLSSAQLNALSAANVQALDTVDIAALTTAQLSKLSTSNVAALTSAQVK
+ALSSDQLQSLSSAQINALDAADVTAMGTDQIAALSTAQISKLSNANVEALGTAQVAALTS
+NQVSVLTTSQLAVVSDAQFTAMGTSQLAGLTSGQFAALSESQVQAMSSAEVAALSTAQVA
+SMGSGAVSLMSTAQIQALSTAQVTSLTTAQLNALSEEQIQALDTADVAALTTSQLAGLSN
+TKMTDLSSAQVKALTTSQLPVLGTAQINALDANDISAMSTSQIASLSTLQVSKLSNASLE
+ALTTSQVAGMTTSQVAALGSAQIAVLTPDQVGALGTSQLQSLQSAQFAAMNEDQITAIGT
+DVSALTTAQVSTLATAPLQLLSTGQIQALTSTQVKALSTDQLNALTQDQISALQTADLTS
+LTTGQISGLSSTQLQALSSGQIQSLTDTQLQALSTAQLNNLEPEDFAQLTTGQISKLTTL
+QVSKLSDTMLQSLTTAQVSNLDDDQVAVLTTAQIATLSVEQVGAMTSTQVKAMGTAQLNA
+MNADQVAALGTEDVAAISASNLSALSTAVIQSLTSSQVVNLTNTQLKALSADQLTALDVG
+DVEGLSTTQINQLSVTQISTLSTAFLDALTTDQFGALTATQFTALGSAQVSSLTDTKVAA
+MTSSQIRVLAADELNAMSSVQIAAIETADLVALSGTQITGLDTNFVQALTSDQVSSLTVS
+QLKGLSADQLNALDTADLAAIATDKITSLSATQIGGLNTTQLNALSTSQVEVLTASQVKG
+LTTAQMASLNTDALVALNTTQVDALLASQLSALDSSQIAALETGDIASIDVYQVASLTTG
+FIDGLSTGQVEALSAAQVGKLTSAQFATLGTDDLAALTTAQMATVTATQINGLSSDQIQA
+LETADLQSLRASQISTLTTDAINALSTAQTQALTTAQIAKITATQLDNLVGTKATADIAA
+LFTSAQVGTTDAPAVLSATQLSQLTTDQIAALRTDA
+>tr|A0A0P0MAI6|A0A0P0MAI6_9BURK
+MSLDVLVIGGGNAALCAALMAREAGCSVMLLESAPREWRGGNSGHTRNLRCMHDAPQDVL
+VDAYPEEEFWQDLLKVTGGLTDEHLARLAIRHSATCRPWMVKHGVRFQPSLSGALHTART
+NAFFMGGGKALVNAYYRSAEKLGVQIHYNAEVDTVELDEGRFVAASVMHKLPDGSVRRER
+ITARTCVLAAGGFESNREWLREAWGQNERGEYPADQFLIRGTRFNQGVLLKHMLAQGADR
+IGDPTQAHMVAIDARAPLYDGGICTRIDCVSLGVVVNCEARRFYDEGEDFWPKRYAIWGR
+LVAQQPGQVAYSIIDAKAVGRFMPPVFEGTKADSLPELARKLGLDEVTFMQTLNDYNAAC
+REGTFDHTALDDCHTEGVSPAKTHWARPLDTAPFYAYAVRPGVTFTYLGLKTDDTTAVRF
+NDQPSPNLFVAGEMMAGNVLGKGYTAGVGMTIGTAFGRIAGEQAAKAVHAQRQGASHANA
+>tr|A0A0P0MA81|A0A0P0MA81_9BURK
+MRWFTALCMSENLSASFRRLAWSNLLAQSAEQLSLAAVPIVAVLLLQAGPGEIGLLASIQ
+SLPFLLLSMPLGLLADRTSRTRLMALAETLRGLALLLLLALIVTGNVSIAALAIIGFMAA
+VGTVAFSVAAPSLVPALVQVEGLAQANGRLELARSAAFAAGPALAGALIAWTGASAAFVL
+SGMLSVAAVLCLRGITEPARATMPARHPLLELQDGAKWVWQSDLLRPMMFCSIAWNISWF
+MLQAAYVPYAIHDLGLDASGVGVTLALYGVGMIVGALLAPRLVRALPFGQAILLGPYFSV
+LAAVTMALTLFWPQGWLAALSYFFFGAGPIIWTITSTTLRQTVTPRAMIGRVTSINIVVS
+TGARPLGAALGGVVGVSFPVSVSLWCVVLGFGLQAIIISASKIRTLKRLPDPLPD
+>tr|A0A0N7J938|A0A0N7J938_9BURK
+MTMTSWTDVAAEADLFEGAGIAVAPEGQDIALFSVEGEVFAINNLCTHGNAKLCDGFVEG
+DHIECPFHQAQFSLRDGSVACGPATEPAKTWPVKIEGGRVFLQLG
+>tr|A0A0P0LF80|A0A0P0LF80_9BURK
+MRLDHGHSGRAVASLRRRLLSWILLPLTGLIGVNAWVGYGNAVEAANEAYDRSLYLAART
+LAEELSWQDGRLQLDVMKAAGYLFENHTGSRLFYKVTTPAGQWLAGVAALPDAPVRTQSA
+VKYFALVQFDDGVYLNQPVRLAQLTHVMEDASLSEPLIKITVAETMEARQQLIQHILWDT
+LGSQGLLLLAAALLVVCGVQRGIRPLESFRRQLANKADDDFLPIQPPDLPRELRPLIDTL
+NSYLERLGRLIDIRKRFLDNAAHQLRTPLTALKTQLALAQRNAEPEQAQALLSAARQTTD
+DAVRLTEQLLAMTRVEHAREMHSPHTVDLVDLARRVTQEHLMRAHQLGDDLGLEVQVAQC
+EVQGVDLLLHEALSNLIDNAIHHGPVGTHITVRVGESWLEVQDDGPGIALEHQAHVFERF
+YRAAPSGVNGSGLGLAIVKEIANQHGAVMSLISPLENGRGTRIRMAWPKR
+>tr|A0A0P0LJX7|A0A0P0LJX7_9BURK
+MSTMSTAIASPDLEKLQQLASQKKSQGLSYLVWLVAAGVLAWAWQGAEIRPLDLIRDSAN
+MRTFAADFFPPDFKDWRMYLREMVITLHIALWGTVLAIVAAVPMGLLSAANVAPAWVYQP
+VRRLMDACRATNEMVFAMLFIVAVGLGPFAGVLALFVHTTGTLSKLFSEAVEAIDPRPVE
+GIRATGAHKLAEIAYGVIPQVMPLWLSYSLYRFESNVRSASVVGMVGAGGIGVILFEVIR
+SFEYAQTCAVLLMLIVTVSLIDMVSSWLRQRFI
+>tr|A0A0P0M6K7|A0A0P0M6K7_9BURK
+MAAFANTPIGTQLFKQSKVLLSALVLTFIIELAALGPIIYMLNTYDRVVSSRSLVTLLSL
+TAVLVLVYLFAGILEWIRSQILVRLSLKLDWELAPDVFDAAYRQQIRSKDVNIHQLLGDL
+ISFKQFVSSGPALALMELPMALIAVLVGLMMHPVLAVFTAAAIVILLLTTYLQQKLTSST
+LMDANNQYALSNRKAMMLLRNVETSYAMGMESVARKHWYEEHKKHLELQSTASELAGGVG
+GFIGLLNKLLPSFALGLGAYLAINDLITASMVFAASMLINKAIAPIQKILGNWKSIIEAR
+QAYSRLNELLQDYRAKTKSMALPAPKGHFVIKGLSIKPGASKDPVLEGLNFEVQPGTMLA
+VVGPMGSGKSTLAKAMVGIWAPSEGSVRLDGVEISQWDRDEVGPHIGFVAQESGFFDGSV
+AQNIARLGDVNPELVVQAATRVGMHEIILKMPMGYNTPIGEGSPYVLSGGQKQRLSIARA
+IYNSPKVLVLDEPNSALDDEGEKILASLIDEFKKMGHTIVAVTHRPALVGLADQLLVLQA
+GRMVAMGAPQEVVNKFQQQNVQPNAAHANSANAHSETRKPGGALSQGDAP
+>tr|A0A0P0MAX2|A0A0P0MAX2_9BURK
+MDTPDRPSTMTDAKTLGQAFDALLQPEKFRDYGPNGLQVEGDRQVRLLVSGVTASRALIE
+AAIEVQADAIVVHHGLFWRGQDGRVMGWMRERLRLLLAHGIHLFAYHLPLDAHPELGNNA
+QLARVLGLQADGRFGDQDLGFVGTGTQAWARPEALAEHVAAVLGRPVTCVGGSDRPVRRV
+AWCTGGAQGYFESAIAQGVDAFITGEISEPQAHLARETGVAFLACGHHATERYGAPALAA
+HVAQALGIEHRFIEIDNPA
+>tr|A0A0P0LJ59|A0A0P0LJ59_9BURK
+MAKTVADVMNMVKENEVKFVDFRFTDTRGKWQHITAPVSQFDESKFEDGQAFDGSSIAGW
+KGIEASDMLLIPDPNSAIIDPFFEEVTLVLICDVIEPTDGKAYERDPRSIAKRAETYLKQ
+SGLGDTAYFGPEPEFFLFDEVRWSTEPNNTFYAIDEAEAPWNSGTKMDGGNKGHRNRVKG
+GYFPVPPVDSTHDMRSEMSLILESVGIPVEVHHHEVAGAGQCEIGTRFSTLVERADWTLL
+QKYVIHNVANAYGKTATFMPKPYAGDNGSGMHVHQSIWKDGKNLFAGNGYAGLSEFALFY
+IGGIIKHARALNAITNPGTNSYKRLVPHYEAPVKLAYSAKNRSASIRIPNVASDKGRRVE
+ARFPDPLCNPYLGFAALLMAGLDGVENKIHPGEAATKDLYHLPPEEDKLVPTVCSSLDQA
+LDALNADRAFLTKGGVFTDSWIDAYIDLKMQEVNRSRVEVSPVEYDMYYSL
+>tr|A0A0P0M6S2|A0A0P0M6S2_9BURK
+MSNWYLIHTKIRQEHMALDHLERQGFECFLPLIRAEKLRRGALQVVQEPLFPRYLFIRLG
+TGLESQSWAPIRSTTGVSRLVSFGQVPAKIDDELVGELRAQSESSEVVLRHFEPGEQVVV
+TDGPFIGVEAIYQMPDAEGRVIVLLNILSKQVKMTVLPASIRKFN
+>tr|A0A0P0MAI3|A0A0P0MAI3_9BURK
+MKPNTSMAQMGKVAVLMGGRSAEREVSLMSGRGVLQALLAAGVDAHAFDPAERHLSELQK
+DGFQRCFIALHGRFGEDGTVQGALELMGIPYTGSGVMASSIAMDKVMTKRVWQAEGLPVP
+RQVLVQPAQIDSLSADELIQALGLPLIVKPAREGSSIGVSKVLRAEDVHTALHAAAACDH
+DILCEQCIVGDEVTCPVLGAGDEARALPVIRIVAPEGNYDYQNKYFTDDTQYLVPCGLPA
+QEEADIQALVRRAYQTLGCRGWGRIDVMIDGKTRQPYLLEINTSPGMTGHSLVPMSAASE
+GMSYEALCCHLLASAQLDYQGVAA
+>tr|A0A0P0LNE9|A0A0P0LNE9_9BURK
+MKTNAPTASTHRFHESATAQVQGRASYIDDLPLVEGTLHAAPLMSPLANAQLIGMDLEAV
+LAAPGVVGTVTAQDIPGDPLLATFVHDEPIFAGPQLMHVGQVMGLVVGESHTQARQAARH
+LRLQTTQQPPLLHAREAMQAGSFVLPQVTVQRGDAAQALAQAPHRLQGTLEIGGQEHFYL
+ESQIAYAIPQDNGHWLIHSGTQHPGEVQHWVAHALHIPLSQVRVVCRRMGGGFGGKETQA
+GHLAVWTALAAHQFGRPVKMRLDRGDDILITGKRHPFSHDWQVGFDARGRVLGLDSVQLV
+HCGHSADLSGPVADRAIFHTDNAYFLSDLHITSHRCKTHTQSHTAFRGFGGPQGVLLIET
+VMGDIARNLGLDALDVRLANLYGVGERDTTPYGMKVEDNILHPLMTQLAEQCDYRARRRA
+ISDWNAENTVIKKGLALTPVKFGISFTATQFNQAGAVVSVYTDGSVRVNHGGTEMGQGLH
+TKVCGLVARVLGLPAAQVQASASDTDQVANASATAASSGTDLNGRAAENAALQVRQNIAD
+CIAKADACNADAVRFENGQVITPLRQRSFTEAVQHAYGQRVQLWSDGFYATPKIHYDRST
+LTGRPFYYFAYGAACSEVAIDTLTGEYRVLRTDILHDVGHSLHPEIDIGQIEGGFAQGLG
+WLTTEELVWNAKGELLTKGASTYKIPTAADMPAQLNIELWHEANVEDNVGGSKAVGEPPF
+MLAISVFEALRDAIAATRPGRTPIHLDTPATPERVLNAILAP
+>tr|A0A0P0M6M7|A0A0P0M6M7_9BURK
+MVNPDTSAIDLSRAIHLKQVSCQEVMQSTLERIARLNPVSNAIVSLQEPELLLAQARERD
+AQLARGESMGWMHGMPQAIKDLSNAQGLRTTLGSPLMKDFVASEDGLMASRMRASGAIVI
+GKTNSPEFGLGSHTFNEVFGPTRNAWDPGKSAGGSSGGAAVALAQRLLPVADGSDFMGSL
+RNPAGWNHVFGLRPSQGRVPMSPAQDVFIAQLATEGPMARHVADLAMLLSVQAGAHPSSP
+LSLNDDPAQFAGSLESDPQGQRIGWLGDLQGYLPMEGGILDICQSALNSLAGMGCQVDEA
+RLGMPPEQIWQAWLVWRQALVGPRIAPFLINPTNRDQIKPEALWEHDQSLTLTGAQLMSA
+SASRTRFYLSMLALFEKFDVLAIPVAQVWPFDVSLRWPDNVAGRAMDTYHRWMEVVIYAT
+FAGLPSISVPAGFGENGLPMGLALIGKPQGDWDLLKLAHAYEMANETLIAQRPPGV
+>tr|A0A0P0M7E2|A0A0P0M7E2_9BURK
+MNLRHATLHQLRIFQAVAEHNSFARAAEALHLSPPTLSLQVKQLAETVGQPLFEQLGKKI
+FLTAAGKILAEACQDIARRMDLLSDDLAALQGVERGSLKIAILTTVKYTVPKLLGGFCAA
+HPGIDVAMVVGNRENLLQRLSQNQDDLYIMGQPPEHMDVFCEAFADNPLVIVGPPTHALA
+GKRRIRPERLRHEPFIMREPGSGTRLTMERFFSEHGVTPINRLELGSNEAIKKTVSGGLG
+LAVLSASTLDAELALGELVQLDVMGFPLIRRWHLVYPRGKRQSPAALAFKAWLFEHRP
+>tr|A0A0P0MBH6|A0A0P0MBH6_9BURK
+MKRISALVLALSATAFSVPAFAAQPLLSPVELQAKLSDANVRVIDIRDPKSYAANHIPGA
+VNAPYGTWRGPASNPGELPALPKLTTLVQSLGLTPSTHAVIVSSGADATDFGASARVYWT
+LKVLGLKELSVLNGGVKGWSTAGLPQNNQAVKVAASSFQPQIDKSLVATKEELVARVKAG
+DAALIDARPAEFFNGDTRHVAASVPGTLQGAVNVEHDKWFAPGTSTFVNTEQAQKVAAAS
+PIDPAKETVSFCNTGHWAATNWFAMSEVLGQKNVRLYAGSMVEWSKDASGLPMANVPSRP
+KQLLIDAKFWAEKTFK
+>tr|A0A0P0LPR3|A0A0P0LPR3_9BURK
+MLDDTLKAQLQQYLALLRQPIRLIASLDDSETGGDMKNLLETIVGLSDKVTLDTTGDDAR
+KPSFVVAREGQSTGVRFAGLPLGHEFTSLVLALLWTGGHPPKVEQDVIDSIKALDGDFNF
+EVYMSLSCHNCPDVVQALSLMAIVNPNVKTVVIEGGAFQAEVEARQIMAVPMVFLNGQVF
+GSGRMSVEEIVAKIDTNAGERDAAKLTAKDPFDVLIVGGGPAGAAAAVYAARKGIRVGVA
+AERFGGQTNDTMAIENYISVLETDGPKFAAALEAQVRHYEVDIMNLQRADKIIPASQPGG
+LIEVQMANGASLKARSVILSTGARWRNVNVPGEAEYKNKGVAYCPHCDGPLFKGKRTAVI
+GGGNSGIEAAIDLAGIVAHVTVFEFADQLKADAVLVSKLKSLPNVTIHTNAQTTEITGAD
+GKVNGIRYKDRITGDDHWVELEGVFVQIGLVPNTEFLKGTLELSKFGEIVVDAKGHTNVP
+GVFAAGDCTTVPYKQIVIAAGEGAKAALSAFDHLIRLPALPVNDTTTTAHAEAV
+>tr|A0A0P0M6N7|A0A0P0M6N7_9BURK
+MKPGLSLRMSQHLALTPQLQQSIRLLQLSTLELSQEVDQMLDENPFLERAEEEAPAEAFG
+LDQADTHVSLGDRVSESASTTSSSDDGPSETRDEAVTDVAESWDGDGSVDMRPDDSEWGG
+DAAPRQNNGEETADAIDLARSSGSLTDFLHRQALSLRLSEVDSAALRFLIESLNDDGYLT
+DTLPELATSLAGSDDYEQIDELVHRFTVALGLLQSLEPVGVGARDLAECLRIQIKAWLQD
+DPDDEVAQAALAMCAQPLEMLAKRDFKRLAVACGLNEAVVKTAIAFIARLEPKPGRPFVQ
+AEQNIIIPDVLVVNTSKTATPKFRIQLNPDVMPKLRVHDIYANALRGGKGDNHAGLQQRL
+QEARWFIKNIQQRFDTILRVSTAIVERQKNFLTHGELAMRPLVLREIADELGMHESTISR
+VTTAKYMATPQGTFELKYFFGSGLGTDSGSAASSTAVRALIKQFVAAEKPAKPLSDNQIS
+EMLKEQGIDCARRTVAKYREALKIAPANLRKTL
+>tr|A0A0P0M7B8|A0A0P0M7B8_9BURK
+METSTTHHIVESLTRAIVEHRLLPGSKLAEQKLADHFGVSRTLVRQALFQLSQNRLIRLE
+PARGAFVAAPSVEEAQQVFAVRRMLEAEMTRAFAQQVTPEQIVALKEHIQQEREAVTQGD
+ITGRTELLGDFHVRMAELMNNDVLAQVLGELISRCALITLMYQSRNEAEHSTDEHVALVA
+ALEAQDADLAVRLMHEHLLHVEASLTFDRKVPTHDISLALA
+>tr|A0A0P0M9M9|A0A0P0M9M9_9BURK
+MLFQSAESRYNQWVREHYRFLLRSAWALTGSRAIAEDVVQDCFANAWKHREQLRDAALAR
+AWLFQIMRRAAFRQAAPSMQSLDDEEQPEQAAPDAGLDDKLDVVKALARLAPIHREVLVL
+FYFDDMPTAQMAETLEIAPGTVLSRLARARDALKLAMGVPATPKADVNVTPFRRTKT
+>tr|A0A0N7J8Z5|A0A0N7J8Z5_9BURK
+MIYPTIEDAIGKTPLVALQRLGAADMAARNNVILGKLEGNNPAGSVKDRPALSMIRRAEE
+RGEIKPGDTLIEATSGNTGIALAMAAAIKGYRMVLIMPEDLSIERAQTMKAFGAELILTP
+KSGGMEYARDLADNMAAQGKGRILDQFANADNPRIHYETTGPEIWEQTGGKVTHFVSAMG
+TTGTITGVSRFLKEKNPAIRIIGAQPSEGSRIPGIRKWPEEYLPKIYDPSQVDELIYVSQ
+NDAEETCRQMARSEGIFAGISAAGACWVAQQVAKTAQNATIVFIVCDRGDRYLSTGVFPA
+>tr|A0A0P0LMC2|A0A0P0LMC2_9BURK
+MTIRKIATPTQVAAAAALAIFQLSVAHAQSNNDTLKLDEVVVTGTATGASKMKQSSSIST
+VASEQILQGQPTNASDILRSIPGIRAESSGGGGNANVTVRGLPISAGGSRYVQFQEDGLP
+VMLFGDVAFSTPDMFLRADNSVESLEVVRGGSASTLATNAPGGIINFISKTGDEPGGSIG
+ITTGLNYNEKRLDFDYSGKLSDKTRFFVGGYTHNGEGPRNATGNSKQGGQIKANITQELD
+NGFVRLNFKSLDDQSPLYMPVPVRIANGKVSELPGIDPRVASMYSPYWVKDRTLTKDNTF
+TNTDVNDGLRVKQNSFGVEAELKLANGWKMSEKFRHSNMSGRFIGLFPADDVAPAAAGTT
+YATGPKAGQSYTGNAFTNTVFNTSMDDMGSTTNDVKLSKSFAQADGAKINTTFGLFLNVQ
+KVGLTWNFNQYLMQATDNNPALLANSSTNSYGATALGSDVWGGCCTRAIDATYNTTSPYA
+VVGWEKGPWALDGSVRQDSQVATGSYNQAVNNEFRPGNAKTINYKKNNTSYSFGANYQLN
+KDMAVFARISEGVAFNADRIMFGSAAVPMAGGAGVVPINTVQQYEGGVKMRQGNLSTFIT
+VFKAKTDESNFDATTQKSTANKYDASGIELEAGYKMGSFRINGGVTVTDAKIVSSGLTPN
+RQAKVVYQLSPTYSSGAVTVGAAIVGSSSAKDAQGTPFEATLPAYTVVNAFANYTISKDL
+IASLGVYNLTNTLGYTEINDGRMAARSINGRSAKVGLKYQF
+>tr|A0A0P0M7S7|A0A0P0M7S7_9BURK
+MPSFDTVCEPNMVEVRNAVDTSAKEIGTRFDFKGTSANIELKDKEITMFGDAEFQLTQVE
+DILRNKLTKRNVDVRFLDIGKVEKIGGDKVKQVIKVKNGIETEDAKKITKVIKESKLKVQ
+ASIQGDAVRVTGAKRDDLQAAMALLRKDMTELPLSFDNFRD
+>tr|A0A0N7J8R2|A0A0N7J8R2_9BURK
+MRHPFVMALCASLLSCSLAWAQATGQPANPAQDPPQAAPKALPPEPLQRVLQSVVTVQSR
+SDAQANTSRTLGQRREGSGVVIGPDLVLTIGYLLLEAETVDLIDHRGRRIPGQVRAVDNL
+SGLGLIRALVPLRLQAVPLGDSDTLPTPGQLWTLGQNETAPTALELVSRKVFAGSWEYLL
+DAPLMTLPAVNNWSGSGLFDAQGQLVGIGSLLVQDVFGDQVPLPGNLFVPVNLLKDPLPD
+LLRSGKRTGPATPWLGISSQRLPSGGLGVLRVSPDSPAALAGIKVADTLLALQGQTLQDL
+PDFYRRLRALGPAGTRLSLTVRSEGQIREVELLSTDRAAALKRPSGI
+>tr|A0A0P0MAC8|A0A0P0MAC8_9BURK
+MPSNQTPLGARPARFRRQRVLIVGCGDVGLRTAGQLGAPQGQRVRLMALTSSPERVRLLR
+ACGITPLSGNLDDAASLKRLAGIAHRVIHLAPPPTDRQGGSDRDPRSLALVRALRLRTAP
+QALVYGSTTGVYGDCAGQRVDETRTVNPHTSRAQRRVDAENWMRFLGRSGVRVSVLRIPG
+IYAPDREGGTPRERLLKGTPVLVAKEDVYTNHIHANDLARACAAALWRGKPQRVVNVTDD
+TDLKMGDYFDLAAGLYGLAKPPRISRHDANTALPLMLLSFMSESRRLDNTRMKKELKVRL
+HYPHVRDGLSPQGALFLGTR
+>tr|A0A0P0LQU7|A0A0P0LQU7_9BURK
+MSIQVALHHVTHYTYDRPVQLGPQVIRLRPAPHSRSRSLSYSLKVEPSEHFINWQQDTFA
+NYQARLVFPKKTTAFKVTVDVVTEMAVFNPFDFFLEPTAEEVPFKYADTVREELQSYLVK
+DHKTPLFKKYLASLDRKRQRTIDFLVQVNQRLHQDIRYTIRMEPGVQTAEETLTLKSGSC
+RDTAWLLVQLFRHMNIAARFVSGYLIQLAPDVKSLDGPSGTEVDFTDLHAWCEVYLPGAG
+WIGLDPTSGLLAGEGHIPLACTPQPSAAAPIEGLMDEAEVEFHHEMSVTRIHESPRVTKP
+YTEDQWTDVLALGDQVDAKLLAQDVRLTMGGEPTFVSTQDRDGAEWNTDALGPTKRGLAT
+ELVHKLRQQYGQGGFLHFGQGKWYPGEQLPRWALSIYWRADGTPCWQNPAVFADEREPSQ
+YTSADAQRFMHEMSQQLGLPTDTVLPGYEDTWYYLWRERRLPVNVDPFDAKLDDEMERNR
+LRRIFSQGLDHPVGYVLPLQAVDTGNPAVSAWETGRWFLREERMYLMPGDSPMGWRLPLD
+SLPWSAPTDRLHMIEQDPFSPRGPLPTTPTLFQKRPLGMPAHANASASSRSAALPAQPVS
+RFESDPSVVRTALCVEVRDPTRANGPKAEAAEDKKGNKSGVLYVFMPPLARLEDYLALVS
+AVETTALKLDMKVVMEGYPPPRDPRLKLLQVTPDPGVIEVNIHPAHNWTELVQHTEFLYQ
+AAFETRLSAEKFMTDGRHTGTGGGNHMVMGGATPADSPFLRRPELLASLVLYWHNHPSLS
+YLFSGMFIGPTSQAPRVDEARNDQVYELEIALREIVRHCQKHGQDMPPWTVDRTLRNILI
+DVTGNTHRSEFCIDKMYSPDSSTGRLGLLELRAFEMPPHARMSIVQQLLLRALVARFWDA
+PYSAPVTRWGTELHDRFMLPHWIHKDFDDVLTELGDAGFHFDPSWFAPHFEFRFPVVGQV
+QIDGAVLTLRNALEPWHVMGEESGAGGTARYVDSSLERIEVHVTGMNPSRHTVTVNGTPL
+PLQPTGVVGEYVASVRYKAWNPPSSLHPSIGVHAPLTVDLVDTWMKRSLGGCQYHVVHPG
+GRNYDGFPVNAYEAESRRMARFFRMGHTPGAMKHLPTLLPNAQLHASPEFPHTLDLRRQS
+LNE
+>tr|A0A0P0M807|A0A0P0M807_9BURK
+MKSVVCHSAKDLRIENTELPALGENQLRVNVAYGGICGSDLHYYQHGGFGTVRIKQPIAL
+GHEISGVVDGVGSGVNGVPKGQRIAISPSRPCGHCRFCQAGQHNHCLNMRFYGSAMPFPH
+IQGGFSEQLIIEGYQAHPIADHLSLSEAALAEPLSVGLHAIQRAGSVLGKQVLVTGCGPI
+GSLLIGALRRAGAARIVAADIADLPLKCAKEMGADETINLKTEPQALEAYKVDKGQFDVV
+FEASGSEAALRVGLDTIVPRGVLITVGMGGDISLPMTQVVAKEVDLRGTFRFHAEFATAV
+RFLNEGLVNGKPVITSVLPLNRAIEAFDLAADKSQSLKVQISFQNA
+>tr|A0A0P0M733|A0A0P0M733_9BURK
+MNQLDALKQFTTVVADTGDFKQLAQFQPQDATTNPSLILKAVQKPEYAPLLAEAVATHRG
+QPLDVVMDHLLVRFGCEILKTIPGRVSTEVDARLSFDTAATVARARRIMALYEAQGMARE
+RVLIKIASTWEGIQAAAELEREGIRCNLTLLFAFCQAVACGQAKVQLISPFVGRIYDWYK
+KSAGAAWDEAAMSGANDPGVQSVRAIFNHYKKHGIVTEVMGASFRNIGQITALAGCDLLT
+ISPELLAQLAASDAPLDKSLDAQAAQTMDLPAVAYEEASFRLALNEDAMATEKLAEGIRA
+FCADAVKLEVLMQKG
+>tr|A0A0P0MAX5|A0A0P0MAX5_9BURK
+MDKLKIRGGHRLQGTLDVSGAKNAALPELCAALLSAEPVTLANVPRLQDVSTMLKLIRNM
+GVTAEHHEDGRVTLNAGALNNPEAPYELVKTMRASVLALGPLLARFGHAKVSLPGGCAIG
+SRPVDQHIKGLQAMGAVITVDHGYMLASLPQGRTRLKGAHITTDMVTVTGTENFMMAAAL
+AEGETVLENAAQEPEIPDLAEMLIKMGAKIEGHGTRRIRIQGVDRLHGCEHQVVADRIEA
+GTFLCAVAATGGDVVLRHGRADHLEVVIEKLRDAGATIEAGNDFIRVKADGRLKAQSFRT
+TEYPGFPTDMQAQFMALNCISQGASKVTETIFENRFMHVNELVRLGAHIQIDGKVSVIEG
+VEKLSGATVMATDLRASASLVIAGLVAEGETIVDRIYHLDRGYDRMELKLRGLGADIERV
+K
+>tr|A0A0N7J869|A0A0N7J869_9BURK
+MQLKKLSEHLLALPRPAKRALALGFDTVLCVVSVWIAFNLRFGFWVGWTPAHSTLLMLCL
+STALPLFTVLGFYRAIFRYAGLPALMTVLKAAAILGVFFVLVFSVVSVPGVPRAIGVLLP
+LVLMVLVMLSRLLVRYWLGGMYQSAALRLSLPKVLIYGAGSSGRQLAAALKTSPEVVVAG
+YLDDDERLHGHVLDGHKIFDPEMLVAVAKKLRITQVYLAIPSVTRERRNEVLELVKAAHV
+QVRTLPGLLDLAEGRVQVSDLKELDIEDLLGRDPVPPNPLMLAKNITGKVVLVTGAGGSI
+GSELCRQIVRAQPATLLLVELTEFALYAIELELQGFVQDKSPVDVRLVPLLANVRDAARM
+DEILRTWRPDTVYHAAAYKHVPLVEHNPAEGIKNNVLGTLTTARLAAEHGVRDFVLISTD
+KAVRPTNVMGASKRLAEMVLQALASVGRGSTGASGLTTFSMVRFGNVLGSSGSVVPLFRQ
+QIKDGGPITLTDERITRYFMTIPEAAQLVIQAGAMANGGDVFVLDMGEPVKIIDLAKRML
+ELSGLALKDEANPNGDIAIAVTGLRPGEKLYEELLIGDNPLTTSHSRIMKAHEEFLPLPE
+LESQLAALTLALDANNVPLIRQHLKALVPGYQPDGEVVDWVWLENPKAA
+>tr|A0A0P0M7I3|A0A0P0M7I3_9BURK
+MKVLRFADVAKSGFAENRRVFIRADLNVPQADDGSITEDTRIRASVPCIQMALDAGAAVM
+VTSHLGRPTEGEFKPEDSLAPVAKRLGELLGREVPLVANWVDGVSVAPGQVVLLENCRVN
+KGEKKNNEALARQMAQLCDIYVNDAFGTAHRAEGTTYGIAQFAPIACAGPLLAAEIDAIG
+KALANPKRPLAAIVAGSKVSTKLTILKSLSQNVDKLIVGGGIANTFMLAAGLKIGKSLAE
+ADLVGEAKAVIEAMKARGAEVPIPTDVVVAKTFAADAVATVKKATEVADDDMILDIGPET
+AAKLAAQLKQAGTIVWNGPVGVFEFAAFENGTKVIAQAIAASSAFSIAGGGDTLAAIAKY
+GIEQQVGYISTGGGAFLEILEGKTLPAIEILSRRAAAE
+>tr|A0A0P0LAN5|A0A0P0LAN5_9BURK
+MVNTPEELGAWLRLVLTPGVGPESTRRLLAAFGEPQAIFGQTETALCQVVSTKQAQALQL
+MPDGCAELTQDTLDWLQAAKGPSRCVITLGDADYPAPLLDIPDPPLMLYALGQTTQLATL
+QTQHALAMVGSRNPTPQGAENARAFACSLAASGLTVVSGLALGVDGAAHEGALQGSLQSG
+FQVGASGPLATIAVVGTGLDRVYPRQHRDLAHRIAQHGLILSEYPLGTPPLAPNFPRRNR
+LISGLSQATLVVEAALQSGSLITAKQALEQGRDVMAIPGSIHSTQAKGCHALIKQGAKLV
+ESAQDVLEELRLPAPDAQQALDLQAPTQEDAPTSQDPERALLRALGHDPVGLDALQARCG
+WPTAQLQAQLLELELMGQVGRLPGGLFQRLGSA
+>tr|A0A0P0MAJ4|A0A0P0MAJ4_9BURK
+MSFVFSPMPVVSVPVLGQPERFPVHRIYCVGRNYEEHAKEMGFTGREPPFFFLKPADSLV
+VVDAGQTGAMPYPSLTQNLHHEIELVVAIGLGGRNIKAADAAKHIYGYAVGLDMTRRDLQ
+NEMKKQGRPWCIGKAFDHSAPIGPITPIAQAGDVNNADISLQVNGADRQRSSVAKLIWNV
+AETIEHLSAAWELQPGDLIYTGTPEGVAAVVAGDTLVGQVAGLGSLEIKIA
+>tr|A0A0P0M9H8|A0A0P0M9H8_9BURK
+MIDKAISPASIQSMLQTLRSHQAQASGPMQGLPSTADAIGGAGGAGKTGFSELVSGALGQ
+VNQLQVQSSEMRNAFDRGEDIALTDVVLGMQKSSLAFEATLQVRNKVLKAYEDILNMPV
+>tr|A0A0P0M7L6|A0A0P0M7L6_9BURK
+MNSKTRTRVLTGITTTGTPHLGNYVGAIRPTVQASRDTSTDGFYFLADYHALIKCDEPAR
+IQRSTLEIAASWIASGLDPEKVTFYRQSDIPEIPELTWLLTCVTGKGVLNRAHAYKAAVD
+KNNAAGHDTDADVTAGLFMYPVLMGADILMFKAHKVPVGRDQIQHIEMARDMASSFNHLY
+GEHFVLPEAVIEESVALLPGLDGRKMSKSYDNTIPLFAPAAQMRKQIAAIVTDSKAPGEP
+KATEGSALFQIYQAFASAEETAAMAHAYAEGIGWGDAKQMLFERIDREIAPMREHYQALI
+DNPAEMDRILLAGADKARQLATPFIRELRHAVGLRALSSGNAAPAAKEAKTALPSFKQYR
+EKDGQFYFKLVDAKGQVLLQSLGFASPKEAGQTIARLQTEGTDAMDTLKPVLALNLETEK
+ALKEVLSLLKAHTEANSK
+>tr|A0A0P0LMI9|A0A0P0LMI9_9BURK
+MFGKKKSTHTPLVMSQEKFDTLIGRHAEIHGCLRLQESVRIDGKVVGNIEAPRDQPISVV
+IGPNGEVQGDVLASRIIVAGKVAGNIHAFERVELMASALVQGDIKYASMAVEHGAKLLGL
+LLQVDSSDTPTRSDRDAQDAIRKAQNAGLSS
+>tr|A0A0P0LFE0|A0A0P0LFE0_9BURK
+MSALAENIQTEMPEPIVFTDSAAAKVADLIAEEGNPDLKLRVFVQGGGCSGFQYGFTFDE
+ITNEDDTTMSKNGVSLLIDAMSYQYLIGAEIDYKEDLQGAQFVIKNPNATSTCGCGSSFS
+T
+>tr|A0A0P0M929|A0A0P0M929_9BURK
+MLLMLMNLFRSPVRRLGTLLVGLWLSLAVSVAQAQFRVEVTGVGLTQLPVLVAPFKGESQ
+AGQNLSQIVQADLTRSGQFKPLSAASLTLDEMSRPDWTALRPLSAEALVAGSVTRLANGR
+YDVRARLWDAVKGLEKSDFKDNVTAADLRLSAHRVSDWVYQQLTGTPGVFTSRISYVTKS
+SGRYNLWIADSDGEGARSALNSPEPIISPSWSPNGTQLAYVSFESRKPVVYVHELATGNR
+RVVANFKGSNSAPAWAPDGRSLVATLSRDGGSQLYRVSLQGGEPQRLTSGNINTEPAFSP
+DGNTLYFVSDRGGNPQIYKMPAQGGPAERVTFSGNYNISPAISPDGRWLAYVSRLTGGFR
+LHLMELATGQVTALTDTNADERPSFAANSRLLVYATQQGGEALMTTTLDGRIKARLAGQG
+GDIREPHWGPVRP
+>tr|A0A0P0M9E6|A0A0P0M9E6_9BURK
+MIRLLISDDSAFMRIAIRKMVESQPDIEVVGEAKTGQMCVELAKELRPDVITMDVEMPVM
+DGLEATRQIMAATPCPIIMLSSLTERNSVTTIRALELGAVDFIAKKSSFVQLDIVQIGAD
+LVEKLRYWAKKKTRLSTMRGLGTASALPATGSATSRPPLRTVPNQQAAGLVVLGISTGGP
+ATLPHVLKSMGRLGCPMVVAQHMPPMFTSGFAAHLRSETGLDVVESTEQMELKPGMIVIA
+KGGTDVIVREPFPGKLMLYQKTDPNANIHPNADVLFRSAAATSCPVVAVVMTGMGSDGML
+GAKDLVARKNGHVLAQDPDSCIVDGMPASTINAGLATAVLSPKDIGLRLSRLCASRTIPS
+FKTSV
+>tr|A0A0P0MB17|A0A0P0MB17_9BURK
+MKLVRYGQPGKEKPGLIDAEGRLRDLSGVVKDISPDQLNDKALAKLAKVKTDKLPLVRGK
+KRFGTPISYTSKFIAIGLNYADHAAESNMPIPAEPIVFTKAISCIQGANDDVMLPKGSKK
+SDWEVELGIVIGTRARYVTQKDALNHVAGYCVVNDVSEREYQLERGATWDKGKGCDTFGP
+VGPWLVTRDEVPNPQALGMWLDVNGVRFQTGNTKTMIFGVAKLVSYVSQFMTLEPGDIIT
+TGTPPGVGMGVKVDGKPAPVFLKRGDVMRLGIDGLGEQTQKVVAFKL
+>tr|A0A0P0LW14|A0A0P0LW14_9BURK
+MARLSIDLSTASHTFAMTAHTMNSYVKSSVSLAQVHHDEDTSRAGVTTEIKDARVLKQVK
+SLHLQRNLLNANKSSQMFIGVQSTETEDPNGCVLRKLRIQQGLDPSVVASHACISVWQLY
+ELETGKDTLFYTPGLRTRAAERVARFLKSDWTDICEGRVSVKTLQEAPAQLHLIGSRRHE
+PRIIRPLTAQNTPEPIQTVEVAEGPLSLTQLLRVADASSRPTSA
+>tr|A0A0P0MAL2|A0A0P0MAL2_9BURK
+MSLSPSQRLASIDDLLLYRLGRLSSTAGALVVRLCEGGYGITRREWAVVAQLYENGGLPP
+SVLAERMHRDRARTSRILTALVKKQLVLRTVTPGDRRGARVELTPAGRQLYDDLMPSIQA
+INGQILSALQADEVVQFDDVLARLQARAQSLVVELSPHWPRANRRRGPLSRSPG
+>tr|A0A0P0MBN6|A0A0P0MBN6_9BURK
+METLDKFDWAILNELQKDGRLTNAELAQRVGLSAAPCWRRVRALEESGVIQGYRAEINRQ
+KVGLDVLAFVRLDAERNRGDITRQLEEAILKIPEVVSCHYISGTGTFELQVVSKDLNTFS
+QFARDVLINLPNVKDLHTSFSLGEVKAAGALPLKS
+>tr|A0A0P0M9J2|A0A0P0M9J2_9BURK
+MNVEQILSQFQATGVETCFHDRHINPQIYAGLNGRNWGIKDYEARGGYAALRKILGKDGG
+EGLTQDQVIATVKESGLRGRGGAGFPTGLKWSFMPRQFPGQKYLVCNSDEGEPGTCKDRD
+IMEYNPHTVIEGMIIAAYAMGISVGYNYIHGEIFHTYERFEAALEEARAAGYLGNSILGS
+TFSFQLHASHGFGAYICGEETALLESLEGKKGQPRFKPPFPASFGLYGKPTTINNTETFA
+AVPWIIRNGGQAYLECGKPNNGGTKIFSVSGDVERPGNYEVPMGTPFAKLLELAGGVRGG
+RKLKAVIPGGSSSPVIPADLMMKLTMDYDSIAKEGGSMLGSGAVIVMDETRCMVKALARL
+SYFYSHESCGQCTPCREGTGWLWRMVDRIEHGQGRASDIDMLDSVAGNIMGRTICALGDA
+AAMPVRGMLKHFRHEFVHLIEHKTSMVGADATAVKTHG
+>tr|A0A0P0M970|A0A0P0M970_9BURK
+MSKQIRNIAIIAHVDHGKTTMVDQLLRQSGTFAEHEKIVDTVMDNNAIERERGITILAKN
+CAVSWEGTHINIVDTPGHADFGGEVERALSMVDGVVLLIDAQEGPMPQTRFVTKKALALG
+LKPIVVVNKVDKPGANPDKVVNAAFDLFDKLGANDEQLDFPVVYASGINGWTSLEEGAPG
+EQWGPDMSALFNTVLKHVKPNSGDPAAPLQLQISALDFSTFVGRIGVGRISQGTIKPNMD
+VVVMEGPDGSTIKGRVNQVLTFQGLDRVQVTEAGPGDIVLINGIADLNIGVTVTDPINPT
+PLPMLKVDEPTLTMNFCVNTSPLAGREGKYVTSRQIWDRLQKELQHNVALRVKETDEDGI
+FEVAGRGELHLTILLENMRREGYELAVSKPRVLYRDVNGERHEPIELVTADIEENHQGGV
+MQALGERKGELVNMEPDGRGRVRLEYRIPARGLIGFTNEFLNLTRGSGLISNIFDGYEPH
+KGEIGGRKNGVLISMDDGEIFTYALGKLDDRGRMFVKANDPVYEGMIVGIHSRDNDLVVN
+ATRTKQLTNFRVSGKEDAIKITPPIDLTLEYGVEFIEDDELVEITPKSVRLRKRFLKESD
+RKRNK
+>tr|A0A0P0M9Y2|A0A0P0M9Y2_9BURK
+MTRMHNPPHPGEVLREYLGDITITEAAYKLGVNRVTLSRVVSGASGVSADMAYRLAQAFG
+TSAEMWAGMQMQYDLYQAGKVKRPKIERLAA
+>tr|A0A0P0M937|A0A0P0M937_9BURK
+MVARLHRPHTPLRWQTTRFDLDLSRPKIMGIVNLTPDSFSDGGQCFDTTAALRHAEQLLH
+DGADILDVGAESTRPGAEVVPLAQELSRLAPFLHEVVRWQVPISVDTYKPEVMQAVLDGG
+VDIINDVWALRQPGAEQVVAAHPGCGVCLMHMHRDPQTMQTEPMTGDVLSAVETFLRERL
+DTLLSLGVSSSRLVVDPGIGFGKTVAQNFQLLAFQADLLGLGCPVLAGWSRKSALGAVLA
+RDGQGPAPAQRQVASVAAALLALERGASVVRVHDVKATAEAIQIWLAMHQHAGAR
+>tr|A0A0P0M9I7|A0A0P0M9I7_9BURK
+MFKNFSVSVRLLMLVICISLVSVVVGFMGLRGMTQAIASFNFVNTDHLVHLRDLKIISDQ
+YSLNIVDATHKVRSGQLSWADAQKKLAQARSTVKEKWAAHPTDDFVGEELKLVTSIEEAF
+AKLEEPLNKLQKLFEKEDQEALTEFVEKELYADIDTVVEQLSLFIDAQLIEANSEFEAAE
+ATFEFNRNLTIGIVLAGLLGGLWLALSIIRSITQPLAQVQKVVGDIEKTGNFSLRIDVQQ
+SDEVGRTAKAINRMIDSQQSAVTEVNLVVTALAAGNFGPRIQADLKGDLANMKDAVNNSA
+DAIQGTTRNLVELMAALENGHFSTRVNAHAQGEYQAAMTQAANAMHTLDNMLGDVTSVLQ
+QVAKGNLTRRVQAQGNGELAQLKDNINQSLESLSRAMRAINSNTQQVAAAANQTSQAIGQ
+ISDGAQNQTHAIAQLASAVRQTNDAVGDVSRNTTVASQKSQESMSIMQDGMKQMEQMVEV
+VSSIAANSEKINKITEVIEKIANKTNLLSLNAAIEAARAGEHGKGFSVVAEEVGKLAANS
+AESSQEIARLVQEAVAETQRAVETVKHVNRGMHQIEQGSRETDTMLQRISSALEEQSAAV
+EQINSNISSLDAIARSNSAASEEITATVMELSKIADSTRHEVSKFEVN
+>tr|A0A0P0LNG1|A0A0P0LNG1_9BURK
+MTINTAVAADHNAPPITAQLAQFVAEHPSQGWSETVEHEAHRTFLNWLGCAIGAAKHEAV
+ESALAAVNMLSPAPQATLAGRSERVDMASAALINGISSHTFDFDDTHLKTIIHPAGPVAS
+AVMALAETQNSSGRQVMDALVLGIDVACRMGNLVYPQHYDRGWHITGSTGTLGAAAACAR
+LLGLNAQQTAMALGIAASQPVGLREQFGTMTKPFHPGGAARAGLMSALMAKHGFTSSARA
+LEAPRGWAQVLSTKYDWREAQDELGQRFEISFNAYKPFACGIVIHPSIDACAQLRAQGVK
+AEEVKSIELRVHPLVLELTGKKTPQDGLQGKFSVYHGCAVGLIFGRAGEEEFSDHIVRRE
+DVVSLRDKVQAVVDTSVREESVYVTAHLNDGRSVKVHVEHAIGSLQKPMTDADLESKFRD
+LSDPILGAARVNDILKTCWSLGKAPNLQSLLALLKP
+>tr|A0A0P0MBI4|A0A0P0MBI4_9BURK
+MDSILTFPRSVFREDHEMLRTTVRRFLERECKPRQAQWDKDGKVDRETWLKAGREGLLCA
+TMDPQWGGGGGDFGHAAVIVEEIGRSGVSGLGFGLHSDVVAPYIERLGTPAQKAQWLPRC
+ATGEVILAIAMSEPGAGSDLKAIRTTARREGDEYVINGAKTFISNGLNCDLVVVVAKTEP
+ELGAKGVSLILVEADRAGFRKGRKLDKMGQEAADTAELFFEDVRVPVSNILGEENKGFAY
+LMQELAQERFVIALGAAAKMEAMFDETVRYTKERVVFGKPLLDFQNTRFKLAEIKVRTTA
+VRMMVDQYLGEHLRRKLTVQEGAMAKLFATEELGKALDELLQLYGGYGYMMEYPITRAFV
+DSRVTRIYGGTSEVMKELISRSL
+>tr|A0A0P0MAM0|A0A0P0MAM0_9BURK
+MKVLVLGSGVIGTTTAYFLARAGAEVTVIDRQSGPALETSFANAGQVSPGYSTPWAAPGI
+PLKALKWLFQKHAPLSLRPDGSAFQWRWLLSMLAQCNAADYAVNKERMMRLSSYSRDVLR
+QLRADTGLSYEERQGGTLQLFRTHAQLDAAQKDIDVLRDCGVPFELLGREQLTGVEPGLA
+DALPRLAGGLRLPDDETGDCHLFTTRLAAMAEAAGVRFEWGQNIASLDVQGGRVHGAWVQ
+AGDQPLRHVAADRVVLALGVQSRDLLLPWGMDLPVYPVKGYSLTLPLVDASRAPESTVLD
+ETYKVAITRFDQRIRVGGMAGLVGHDLSLDERRRQTLEMVVQDLFPGGDLSQAKFWTGLR
+PMTPDSTPVVGACPVQGLFLNTGHGTLGWTMACGSAQLTADVITGRQPAIRHDDLAWQRY
+AGATRLPMGRRPRAQPKAA
+>tr|A0A0N7J8L1|A0A0N7J8L1_9BURK
+MNILVLHGINLNMFGKRDPAQYGTTTLDEINAQLTALGQTLGAQVECFQTNFEGEMAERI
+HRAHGEGVKAVVINAGAWTHYSYGVRDALAILKCPIIEVHMSNIHAREAFRHHSVIADIA
+KGQIAGFGVDSYLLGLRAAVSAAQG
+>tr|A0A0N7J8N0|A0A0N7J8N0_9BURK
+MTTDLLTPEPTAAPDGDHLGAYAQRAYLEYALSVVKGRALPDVCDGQKPVQRRILYSMDR
+MGLSYSGPNNNTAAKPVKSARVVGDVLGRYHPHGDTAAYDALVRMAQDFSQRYPLIDGQG
+NFGSRDGDGAAAMRYTEARLSRITSLLLDEIDMGTVDFIPNYDGSTEEPRQLPARLPFSL
+LNGASGIAVGLATEIPSHNLREVADACVALIRNDKLSDSELMAIIPGPDYPGGGQIISPA
+SDIADAYRTGRGSLKVRARWKIEELARGQWQLVVTELPQGVSSQRVLEEIEELTNPKVKA
+GKKALSTDQLQLKASMLAVLDVVRDESSKDAAVRLVFEPKTSRIEQQELITALLAHTSLE
+TSAPINMTSVGIDGKPIQKSLRQMLVEWISFRQTTITRRSQHRLNKVLDRIHILEGRQLV
+LLNIDEVIRIIRHSDEPKPALIEAFKLSDRQAEDILEIRLRQLARLEAIKIEQELSELRE
+EQGKLEEILGSPAALRRLMIKEIEGDAKTFADPRRTLIQEEKKAVAEVKVVDEPVTVVVS
+EKGWVRARTGHGHDATSFAFKAGDGLYGTFECRTVDTLLIFGTAKNGTGRIYSVPVATLP
+GARGDGQPITTLIDLETGTQPAHYFAGPAHATLLLSGSGGYGFKATVENMISRNKAGKAF
+ISLGEGETVCAPSHVSGSSATVPADKQPMPAATSVCCASTGGRVLTFEISELKTMEKGGR
+GLMLIDLEAKDTLAGAAAYTRSVKIEGIGRGGKEREETLEIRSLNNAKTARAKKGKVADL
+GFKPNRVTRVE
+>tr|A0A0P0MB45|A0A0P0MB45_9BURK
+MSNKNKAVSVAALRRHAPEELITFRVSVLSQLLARVVESSVSQELGLSSRQWRLLVILNR
+LGPSTSGQVAAATHLDHSQVSRASYELTEKGLIAMATDSGDRRRQLLSATEAGIALLRQG
+IVGSMARQDRLRSTLSDADYEAFGRVLAVLSDEAHAMLEEGRKPK
+>tr|A0A0P0LPU8|A0A0P0LPU8_9BURK
+MKTWDVVIVGAGAAGLFCAGVAGQRGLKVLVIDHSDKIAEKIRISGGGRCNFTNRLLDAS
+APQKHFISQNPHFCRSALSRYTPQDFIDLVQKHGIAFHEKHKGQLFCDHSAEDIIRMLLA
+ECATGGVDIRTGCSVKTVQAPTEDVTAYTLETSQGTVHTTSLVVATGGLSIPKIGASDWG
+YRIASQFGLRLVERRPGLVPLTFDGEAWAPYAQLAGLALPVGIETGEKKSRMHFDEDLLF
+THRGLSGPGVLQISSYWQEGTPIRLNLAPEVNLPERLQETKLRSKKLLGNELASLVPSRL
+AEAWVSQDPALQRTAAEVPDKALTKLAEALSNWRLTPTGSEGYKKAEVTLGGVDTRDVSS
+QTMESKQPGLYFIGEVIDVTGWLGGYNFQWAWASAHACAHALPGALKN
+>tr|A0A0P0M7Y1|A0A0P0M7Y1_9BURK
+MSTVFNFTFVPWFRSVAPYIHMHRGKTFVVGIAGEAIAAGKLHNLAQDLALIQSMGVKIV
+LVHGFRPQVNEQLAAKGHTPKYSQGIRITDSVALDCAQEAAGQLRYEIEAAFSQGLPNTP
+MAGSTVRVISGNFITARPVGIVDGVDFIHSGLVRKVDVDGIMRTLDMGAMVLLSPFGFSP
+TGEAFNLAMEEVATSVAAELQADKLIFVTEIPGIRMQPGEPASDDNPIDTELPLAAAKQL
+LASLPPPTEPTDIGFYLQHCVKACEEGVERSHILPFAVDGSLLLEVYVHDGIGTMVVDEK
+LEELREATADDVGGILQLIEPFEKDGTLVKRDRTEIERDIDHYTIIDHDGVIFACAALYP
+YPEAKTAEMAALTVSPQSQGQGDGEKVLKRIEQRARAMGLKSIFVLTTRTMHWFIKRGFA
+QVDPDWLPEARKRKYNWDRKSQVLVKKL
+>tr|A0A0P0MAP8|A0A0P0MAP8_9BURK
+MAEFKEISPNAPAGEKLLNWVDNRFPASKLYKEHLSEYYASKNLNFWYVFGALSLLVLVI
+QIVTGIFLVMHYKPDAALAFASVEYIMRDVPWGWLIRYMHSTGASAFFVVVYLHMFRGLM
+YGSYRKPRELVWIFGCAIFLVLMAEAFMGYLLPWGQMSYWGAQVIVNLFSAVPVIGPDLA
+LLIRGDFVVGDATLNRFFSFHVIAVPLVLLGLVVAHIIALHEVGSNNPDGVEIKAANAPK
+DAKGNPLDGIPFHPYYTVHDIFSVSVFLMAFSAVVFFAPEFGGYFLEYNNFIPADPLTTP
+LHIAPVWYFTPFYSMLRAITTEMMYVLVLCVVVGAFLAVAKGKLPSLLKGGLVGATVVIC
+ALLLTIDAKFWGVVVMGAAVIILFFLPWLDYSPVKSIRYRPDWHKYVYAVFVINFLILGY
+LGVKPPSPIGERVSQVGTLFYFGFFLLMPWWSKLGTFKQVPDRVTFTPH
+>tr|A0A0P0LUP2|A0A0P0LUP2_9BURK
+MTALSLAASAPKRTPVKVLPGFNLTLGFTIFYLSLIVLIPLSALVFKTFTLTWDQFWAAV
+TGPRVMASYRLTFGASLIAALVNVFFGMLVAWVLVRYDFFGKKIVDALVDLPFALPTAVA
+GISLTALLAGNGWIGQYLEPLGIQLAFNPNGVVIALIFIGLPFVVRTVQPVLEDAEKELE
+EAATCLGATRWQTFSKVIFPTIAPALLTGFAMAFARAIGEYGSVIFIAGNMPMVSEITPL
+IIIGKLEQYDYAGATAVALVMLVVSFILLLIINGLQTWQRRRSGATS
+>tr|A0A0P0M8B6|A0A0P0M8B6_9BURK
+MATTKNTFSWEDPFNLSAQLTDDERQVQEAARAYCQERLLPRVKDAFLNETTDVAIFREM
+GELGLLGATIPEQYGGAGLNYVCYGLVAREVERVDSGYRSMMSVQSSLVMLPINDFGSEA
+QKQKYLPKLARGEWIGCFGLTEPNHGSDPGSMITRAKKVDGGYSISGAKMWITNSPIADV
+FVVWAKDDGGQIRGFILEKGWKGLSAPAVHGKVGLRASITGEIVMDEVFCPEENAFPEVR
+GLKGPFTCLNSARYGIAWGALGAAEDCYARARQYVMDRQQFGRPLAANQLIQKKLADMLT
+EISLGLQGCLRLGRMKDEGTASVDLTSILKRNSCGKALDIARMARDMMGGNGISAEYGVA
+RHLVNLEVVNTYEGTHDVHALILGRAITGIPAFSN
+>tr|A0A0P0MBU8|A0A0P0MBU8_9BURK
+MATMNTSSTWHAHFSGQARYHVWATHRLLEAVSRVSDAEYRRDVGLFFKSIHGTLNHMLV
+AEHLLWYPRFAKGTSPVLALDTEVEPHRERLAQALKGGSANWTPLIASWSAERFDGQLDY
+RTSKGDPLSLPFTPTLAHVFNHATHHRGQITAALTAMGQPCPELDMVYFLLAEQAPKA
+>tr|A0A0P0M9R9|A0A0P0M9R9_9BURK
+MTQTPLSYKDAGVDIVAGDALVERIKPLAKKTMREGVLAGIGGFGALFEVPKRYKEPVLV
+SGTDGVGTKLKLAFEWNMHDTVGIDLVAMSVNDVLVQGAEPLFFLDYFACGKLDVDTAAA
+VVGGIAKGCELSGCALIGGETAEMPGMYPAGEYDLAGFAVGAVEKSKILTGQNVKAGDVV
+LGLASSGVHSNGFSLVRKCIERAGSNAPATLDGKPFKQALMEPTRLYVLNVLAALAKHPS
+TPETSGIKALAHITGGGLLENIPRVLPDGLAAHLQKGSWPQTELFAWLQKTAGIDDIEMN
+RTFNNGIGMVVVVDAAEAQACAATLREAGETVYTIGRIAPQGDGAQVVVA
+>tr|A0A0P0M7P1|A0A0P0M7P1_9BURK
+MNTTKNRSNWGMALASWGPRFLPFADAASDDLPLSRLLRLSLFQISVGMAMVMLVGTLNR
+VMIVELKVSATLVSFMVALPLLIAPLRALIGFRSDNHRSQLGWRRVPYIWMGSLLQFGGF
+SIMPFALLVLAGAGQASQAPAWVGQLGAAGAFLLVGLGMHTVQTAGLALATDLAPPERQP
+QVVGLMYVMQLIGMIGSALVLGYLLHDYSPGQLIRVVQAVAVTTLVLNVVALWKQEPRSR
+LRKPGTPIEHTFAQAWQLFCQGPNTLRRLLAVGLGTMAFTMEDVLLEPYGGEILHMSVST
+TTLLSATLALGGLLGFAWASRVLGRGGDAYRMSGWGAWVGLPAFACVIASGPLAMPALFV
+LGIFLIGLGGGLFAHGTLTATMQLAPPGQIGLAMGAWGAVQATAAGIGMAAGGLVRDGVG
+LISSPVMGYSAVYVLEILLLGMTLWAMGPLLRSAPAAVRPPGISA
+>tr|A0A0P0MBK4|A0A0P0MBK4_9BURK
+MKVCIYGAGAIGGWIGAHLAQHGCSLSAVARGATLEALQQNGLVLLQGDQEIHASLVARE
+NPADLGVQDLVIVAVKAPAMADVARRIGPLIGPNTVVLTAMNGVPWWFLQGFGGVLAGTH
+LDSVDAGGVIAQHIPAPHIVGGVVHASCSVDVPGVIRHHFGNGLILGEPSGADTPRVQAL
+VALLVQAGFNATVSPQIQKDVWYKLWGNMTINPISAFTGATTDVILDDPLVRDFVSHIML
+EAKAIGERIGIPIAQTPEDRHAVTRKLGAFRTSMLQDVDAGKPVELDGLVSAVRELGRLT
+GVATPFTDALLGLSRLHARGLGLYP
+>tr|A0A0N7J983|A0A0N7J983_9BURK
+MQKIKLYSSLFIALLVALGAGSVTQAQTSVTTNQAGVNARIDVLGGVFEPLSNIGPSQSR
+IVVYRTTSTQQLPGATGVFIQGQYHTSLVPGGYSQLCLPPGQFEIGARQFRVGQNARDSF
+DTVTALALPPAQTQYLTVVESSGRPVMKPVSAAQAQQELGTTRLQIHTISRVAQAQNCVE
+AAAPVAQPEQFILSSDALFAFGRSDLNGLTAAGRESLDLLTARLRKDYVRIDRIHVIGHA
+DPLGSPEFNERLSVNRANTVRQYLQTSGQISAPMTSEGRGARQLVETRCARQTTNAAILC
+NQANRRVVTEVTGQRR
+>tr|A0A0P0LIR6|A0A0P0LIR6_9BURK
+MRIDQLLVERGLAASRSQAQRLIAGGVQWQRPDGTWRAIVKNRDEVPESAALQLLDDAES
+RYVSRGGLKLEGALKATGVKVDGLRCLDVGQSTGGFTDCLLQHGAAEVVGIDVGHAQVHP
+RISQDERVVCIEGVNARELEPGDKRIPDALEGFDLMVGDVSFISLTLVLPGVVHLLKPTG
+QLLMLVKPQFELQPGQVGKGGIVKDDTHFPFIENRVRTALTELGMQVTAWLESPIAGGDG
+NREFFVQACWPDPAAVMPAREATRVAHEADLAAKAYAKANDY
+>tr|A0A0P0LD12|A0A0P0LD12_9BURK
+MTRSVYCKYKQYFDLSIATPAATALLMHAPDSPQALPPGNWWLQALPASIAAGFPSPAED
+HQVERIDLMQQLVKHPQATFYIRVRGESMRDAGILDGSVVLVDRAITPADGQIVLAVIDG
+DFTCKTLRLGGEGLRLQAAHPDYPDIVPKDGQSVDIWGVVVATIHQHAT
+>tr|A0A0N7J8V2|A0A0N7J8V2_9BURK
+MTHVEIHTDGACKGNPGPGGWGVRLQSGQHVQELFGGELNTTNNRMEMTAVIEGLLALKR
+PCQVTLYLDSEYVRKGITEWIHGWKARGWRTAAKQPVKNADLWQKLDSVVSSSGHQIDWR
+WVKGHNGDPGNERADALANQGVEKALGR
+>tr|A0A0N7J931|A0A0N7J931_9BURK
+MDKLDAMQTFVRVAEAGSFTAVAEQLQVARSVVTRQIAALEKRLRVKLITRSTRSLTLTP
+AGAAYLEKCRVILNMVDAAESSLDEEKAVPRGRIRLGLPLSFGLQRLMPALLEFAKAQPH
+IELLMDFSDQRANLIEEGIDLSIRITADLQPGDIVRTLGHCRLLTLASPAYLSEHGALRH
+PDELRHHECLVYSMSPKGASWPYRVQGQLQAFAVRGRIQANNGLALVQAAAQGMGITLQP
+DFIAEPFLQNGEVVEILQDFEASRLGIYAVLPSNRYIPHRVNVLIEHLSAFLAGS
+>tr|A0A0P0MBM9|A0A0P0MBM9_9BURK
+MNQPPLEWLATYINGSATISAQPNKAMHIKTSSLLSVLLAVAAGVLLPSSATFAAKQAEG
+KNTASKVSAAKKAVTSKKAVPNKKAAPGKKAALAANALPPLAAQVALADNAPALPAKAWL
+LMDYDSGQVLASANADEALPPASLTKMMTSYIVEQALRTGKLKPTDLVTVSENAWCRGTS
+AESCMYLPLNSQATVIDLLRGIIVQSGNDASKAIAEHMAGSEAGFAKLMNAEAQRLGMTN
+TNFVNPTGLPDPAHKSSAKDLAILARAIIRDGSEYYPIYAEREFKYNGIKQGNRNALLYT
+DPSVDGLKTGHTAEAGFCLVTSAKRNEMRLISVILNTYSAQARADLTRELLGWGYSQFEK
+VTPIQPNAVVANAKVSFGKTDTVAAVLGAPWMLTVPRGQQVQTQFELKPGLEATIAKGAV
+IGKVVATANGKPVGETLLVAQAEVERSGWLLLAWQKVTHLFGK
+>tr|A0A0N7J8F0|A0A0N7J8F0_9BURK
+MFIKNTWYVACALTELEALGDKPLGRTICNEKMAFFKGPDGQVAAVEDFCPHRGAPLSLG
+KVCKGHLQCGYHGLEMGVDGKTVQMPGQRVRGFPAIKSYAVVERYGFVWVWPGDPTKADV
+AKMPVFEFFDNPAWAYGGGLYHVKADYRLMIDNLMDLTHETYVHANSIGQPEIDETPCET
+KVDGDQVILQRHMQGVQAPPFWQMAMSANGLDPQAKVDRWQICRFTPPSHIMIDVGVALA
+GQGGFDAAPEHKAYSVVVDFITPETETSHWYHWGMARQFKPEDAALTDKIRAGQGGIFNE
+DMEMLQLQQANISQWPERKLLMLNIDSGGVQSRRIIDRLLAQENSSEITA
+>tr|A0A0P0M9I0|A0A0P0M9I0_9BURK
+MTHVVSESCIQCKYTDCVDVCPVDCFREGPNFLTIDPDECIDCAVCIPECPVNAIFAEED
+LPADQQHMTKLNAELALLPGWKSITKRKTPMPNADDWKDKTGKLSELIR
+>tr|A0A0P0M8B7|A0A0P0M8B7_9BURK
+MSILDIGPQVSTRVNDPASVDAAILSRFSARAYLPKAVERSVLQEVLSVAARSPSGTNTQ
+PWKVYVLQGAKRDELVAKTCAAHDAISANPALATEYAEAYDYYPEKWVSPYIDRRRECGF
+GLYGVLGIGKGDKAMMHAQHQKNFRFFDAPVGLIFTIDKVMGRGSLLDYGMFLQSIMVAA
+RSRGLHTCPQAAWNGFSKIILPLVGAGDNEMVVCGMSLGYADESALVNTFQTTRVPAQDF
+THWVD
+>tr|A0A0P0M7D0|A0A0P0M7D0_9BURK
+MALTLDQLNHASAAEAAQMLDGLYEHSPWIAEQALAQRPFTSLAHLKHAMCEVLAHAGRD
+AQLGLIRAHPELAGKAMVSKSLTAESTNEQTKAGLTDCTPEEFAKIQKLNADYNAKFGWP
+FILAVRGPRGVGLNKKQIIDAFERRLFGHPDFELAECLRNIHRIVEIRLNDKFAVEPTLG
+HQVWDWQEKLAQHSDPDFAEQGQLTVTYLTDAHRACAQRITQNMRDCGFDEVYTDAVGNV
+VGRYHPATAGGKYLMTGSHYDTVRNGGKYDGRLGIFVPMACVQQLHQQGRRLPFGIEVVA
+FAEEEGQRYKATFLGSGALIGQFNPAWLDQQDADGITMRAAMQHAGLCVDDIPKIQRDPA
+QYLGFIEVHIEQGPVLNEVNIPLGVVTSINGSVRYLCEVIGTASHAGTTPMDRRRDAACA
+VAELALYMEQRAAKDGDSVATIGQLQVPNGSINVVPGRCTFSLDMRAPTDAQRDSLVADV
+MAHLDQIAERRGVRVKAELTMSAAAAPSAPEWQARWERAVSALGVPLFKLPSGAGHDAMK
+LHEVMPQAMLFVRGENGGISHNPRESTTSDDMQLCVDAFTHVLNQLSQELS
+>tr|A0A0P0LJB5|A0A0P0LJB5_9BURK
+MLKAYREHAAERAALGIPPLPLDAKQVAELIELIKNPPAGEDAFLMDLLTHRVPPGVDDA
+AKVKASFLAAVAHGEISVGLVSKAKATELLGTMVGGYNVHPLIELLDNAEVAAVAAEGLK
+KTLLMFDFFNDVAEKAKAGNAKAKEVMQSWADAEWFTTRPEVEKKITITVFKVPGETNTD
+DLSPAPDAWSRPDIPLHYLAMLKNTREGAPFKPEEDGKRGPMAMIEELKKKGHLVSYVGD
+VVGTGSSRKSATNSIIWGFGEDIPFVPNKRFGGVTLGGKIAPIFFNTQEDSGALPIEVDV
+SGLNMGDVVDVLPYEGKIVKNGETVTTFQLKSDVLFDEVRAGGRINLIIGRSLTAKAREF
+LGLPASTVFRLPTVPTSTKAGFTLAQKMVGRAVGLPEGQGVRPGTYCEPKMTTVGSQDTT
+GPMTRDELKDLACLGFSADMVMQSFCHTAAYPKAVDVKTHRELPAFISNRGGVSLRPGDG
+VIHSWLNRLLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFGAATGVMPLDMPESILVRFK
+GEMQPGVTLRDLVHAIPLYAIKKGLLTVAKSGKINEFSGRILEIEGLPNLKVEQAFELSD
+ASAERSAAGCTIKLNKEPVEEYLKSNIVLMQNMIANGYEDKRTLQRRIEKVQAWLDAPNL
+LEADKDAEYAHVIEIDMNEIKEPILCCPNDPDDAKFLSDVAGTKIDEAFIGSCMTNIGHF
+RAAAKLLGGSRDIPVKLWVAPPTKMDESELIKEGHYANFGAAGARTEMPGCSLCMGNQAQ
+VREGATVVSTSTRNFPNRLGKNTNVFLASAELAAIASKLGHIPTVAEYHEAMGIVNKDGA
+AIYKYLNFNQIEEYVENAKGVAA
+>tr|A0A0P0M6W2|A0A0P0M6W2_9BURK
+MLDDRAKLLLKALVERYIADGQPVGSRTLSKASGLDLSPATIRNVMSDLEELGLIASPHT
+SAGRIPTSRGYRLFVDTMLTVQRDGLDTPALTPDQPQKVIASAANLLSNLSHFVGVVMTP
+RRASVFRHIEFLRLSERRLLVIIVSPEGDVQNRILFTETDYTQSQLIETSNFLNTHYAGM
+AIEQVRSRVQQELVSLQSEIATLMQAAVQVSTEALAEDQNEVVIAGERNLLSVSDFSSDM
+GHLRRAFDLFEQKTQLMRLLDVSSQAEGVRIYIGGESQIVPMQELSVVSSPYEVDGQVVG
+TLGVIGPTRMPYDRMIQIVNITSRLVSNALSQSK
+>tr|A0A0P0M7S9|A0A0P0M7S9_9BURK
+MSTILVTGGAGYIGSHTVVELLNAGHQVIIVDNLCNSSIAVLERIHKLAKPNFRFVQADV
+RDGAALDRLFAEQPIDGVIHFAGLKAVGESVSQPLRYFDNNVGSTLALLQAMDRAGVRRI
+VFSSSATVYGDPQQVPITEDSRLQVTNPYGRTKLMCEDILRDLQVSDPRWQVAILRYFNP
+VGAHISGLIGEHPNGIPNNLMPFITQVAVGQREFLSIFGRDYPTPDGTGVRDYIHVVDLA
+QGHLAALHYLQTQQTSITVNLGTGQGVSVQELADTFARVTGVPVPYRFVDRRPGDVAACY
+ADTTRAREALGWQAHLGVERMCQDAWRWQSQNPKGY
+>tr|A0A0P0LH79|A0A0P0LH79_9BURK
+MIITSLLDTDLYKFTMMQVVLHQFPGAQVEYKFKCRNPGVPLAPFVKEIREEIRSLCSLT
+FKEGELQYLRSLRFIKSDFVDFLGLFKLNEKSVVVTAQPSGEIDITIQGPWLHTILFEIP
+VLAIVNEVYFRNTQKVPDLMEGRRRLDTKIGQLQAPGLETLKIADYGTRRRFSRAWHEEV
+LRVLSARLGTGPTGQFAGTSNVYYAYLLGLTPLGTMAHEYLQACQALGPRLRDSQVFAFE
+SWAKEYRGDLGIALSDVYGFNAFLRDFDLYFCKLFDGARHDSGDPFSWGERMIAHYQHNR
+VDPKTKTLIFSDGLTIPRTIELYQQFHDRCQLAFGVGTNLTNDLGYEPLQIVIKMTRCNG
+QPVAKLSDSPGKGMCDDEKYLAYLRQVFEVAPGN
+>tr|A0A0P0M9F0|A0A0P0M9F0_9BURK
+MTDTLNTVQDDLSPAQITSIPAVSNLATEIMVAAAAEITPEPAAEVTAEAAEEIEAIADV
+PNGFIELGLAPELVQAVADLGYTQPTAVQLRAIPLALPTSGGSKDGKSNGYTDLMVSSQT
+GSGKTAAFLLPVLHTLIQQMAEQEAAERAEFEKACADAAAKGEPAPKRAKRKDPTNPRNF
+KAPTPGALILCPTRELAQQVAQDAIELVKHTRGLRVANVVGGMPYQLQIAKLQNANLVVA
+TPGRLLDLQRSMQIKLDQVQFLVVDEADRMLDLGFSDDLADINDMTSQRRQTMMFSATFA
+PRIQQLAMRVMHDGGSSVQKIQIDNPQEKHNNIKQVLFWADNAQHKRQMLDHWLRDATID
+QAIVFSSTQIECDGLAADLQQDGFSAVALHGALSQGMRNRRLMALRNGQVQILVATDVAA
+RGIDVPTITHVFNFGLPMKAEDYTHRIGRTGRAGRDGLAVTFAEMRDRRKIGDIESYTRQ
+PFKAEVIPGLEPKMRMPEARKPMGRGGDRFGGERNYANAGGGFRGGRPAPGGRDFGGNRD
+RDGGGFDNRAPRGHFRDEQPRFEQRSEPRFDARKDGGRFDAPRGDHRGGDRFEQRGAPAH
+PWDKGDSRPVPRQDARQDGPRQGGRWEDRGGDNRNAARPAPRGAAGDKFARGPKQFGAGN
+FKPHGAGEGPAKRGGTRVLKITRG
+>tr|A0A0N7J959|A0A0N7J959_9BURK
+MLDARQLEALAAVVEHGSFGAAAQALSLTLAAVSLRIKALEDTLGQRLLVRGKQVRATPA
+GQSLLAHVKQVRMMEADLLGGLQGTSVRKAQRWQSLSVAVNADSVASWFLPGVAPLLLKH
+HLLLEILIDDQDHTHDALKSGDVIGCVSTLAEPMRGCVAEPLGTMRYCCVATPAVVKRCQ
+TPSGAVSLHKMLAQPAVIFNRKDALQDTFLAQHFGLLQPHYPRHFAPAVEAFETAIELGL
+GWGMVPEQHLAQRAALQADPAQTLQDLLPGATVDVALYWQHWAREAPSAQRLTEAVKATA
+RLHLRQAQG
+>tr|A0A0P0M9R1|A0A0P0M9R1_9BURK
+MSQSSSTPVVTRMQVIPVAGHDGMLLNLSGAHGPFFTRNIVILTDSSGHTGLGEVPGGEK
+IRQTLEDARPLIEGLPIGNYKQVLNAMRQQFADRDSGGRGNQTFDLRTTIHAVTAVESAL
+LDLLGQHLNVPVCALLGDGQQRSRVQMLGYLFYVGDRQQTDLAYRSEPDQADDWLRLRHE
+KAMTAEAVVRLAEAAQERYGFQDFKLKGGVLRGEEEVEAIVALHERFPKARITLDPNGGW
+LLKDAIRLLRDHRSTMAYAEDPCGAEGVFSGREVMAEFRRATGLLTATNMVATDWREMAH
+SIQLQSVDIPLADPHFWTLQGSVRVAQLCQMYDLTWGSHSNNHFDISLAMFTQCAAAAPG
+KVTAIDTHWIWQDGQFLTKDPLQIKDGYVDVPAKPGLGIEVDMDAVMQANQLYQQHGLGA
+RDDAIAMQYLIPGWKFNNKMPCMVR
+>tr|A0A0N7J8F9|A0A0N7J8F9_9BURK
+MTLAMTWQEWVQHDAVALAECVRRGDVSPAELAQQAATGVALINPAVQAVVEVFDDVVAD
+PLKDGLNPEGPFAGVPFFMKDLGPTLKGRLQEMGAQMMRGNRATADTFITGQMRRAGLNI
+IGRTTTPEFGVCSSAENPAVYVTRNPWDPEYTSYGSSAGTAVALAAGVLPLSHATDGGGS
+IRIPAGANGNIGLKPSRGVFSIAPAASDLTGLVSTQGCQSRTVRDTAAFVDHCRGGAPGE
+FMPYWMPAEPYSTLIQRDPPRLRIALSHEWGDFRAVPHFVAELERVGRFLEGLGHQVDWA
+LPEVDFRAAFDAQTTCYISNFAQTISNLLAPRGLTRPPADLVEPINIKIWEMGLNTSFTE
+RARMQAVFNTTSRAFGQFFEDWDIILTPITALPTPKMGTVEYLTTSDNPSVLDWFNHLWC
+NFAYTPLTNLCGMPGISMPMAWQENGLPLGIHAQARQANDGLLLQLAAQIERALDGQWHA
+GRVPEVHVTKDSQA
+>tr|A0A0N7J980|A0A0N7J980_9BURK
+MILHNDAHLIPQGEPVSVVASSIVSVPPMKLSGLEPVSIGTGSLFVNVGERTNVTGSKAF
+ARMILNGQYEEALAVARQQVENGAQVIDVNMDEAMLDSQAAMVRFLNLMAGEPDIARVPV
+MVDSSKWTVIEAGLRCIQGKGIVNSISMKEGLHEFKRQAKLVKRYGAAAVVMAFDEKGQA
+DTYERKIEICERAYRVLVDEVDFPPEDIIFDPNIFAIATGIEEHNNYAVDFIEATRWIKQ
+NLPGAKVSGGVSNVSFSFRGNDPVREAIHTVFLYHAIQAGMDMGIVNAGMVGVYDDLEPT
+LRERVEDVVLNRRPDAGERLVEVADSAKGAAKDETTKLAWRGTPDAPVNVAQRLSHSLVH
+GITDFISDDTEEAYREILAKGGRPLHVIEGPLMDGMNVVGDLFGQGKMFLPQVVKSARVM
+KQAVAHLLPYIEAEKLAQEAAGEDVKAKGKIVIATVKGDVHDIGKNIVTVVLQCNNFEVV
+NMGVMVPCHEILAKAKEENADIIGLSGLITPSLEEMQYVAAEMEKDPYFRERQMPLLIGG
+ATCSRVHTAVKIAPNYSGPVVYVPDASRSVGVAQGLLSEQAAKFIADLNTDYDKVREQHA
+NKKQTPMWTLAQARANKTPIDWSQGVPAAPKFIGRRVFKNYDLAEIAQYIDWGPFFQTWD
+LAGPFPAILDDEVVGEQARKVYADGQAMLQKIIDGRWVTANAVLGLYPANSVNDDDIALY
+TDASRQQVAMTWRGLRQQTEKHMIDGVMRPSRCLADFVAPQGTAPDHVGVFAVTAGIGAD
+KRAAAFEAAHDDYSAIMLKSLADRLAEALAECLHKKVRTDLWGYAAAEALSNEELIAEKY
+QGIRPAPGYPACPDHSAKKAMFDLLQCEDIGMGLTESLAMTPAASVSGFYIAHPEAQYFN
+VGKLGDDQVQDLAQRSGVAMKDLQRLLAPNL
+>tr|A0A0P0LIT4|A0A0P0LIT4_9BURK
+MSNFAAQLKTEISRIAKKESRTQSAVLKKAQATHRAEIADLKRRIASLEAVVRRLAKTPT
+RTITPVKEETEPQSLRFRADGFASLRKKFGLSAVQMAQLLGVSNQSVYHWEAGKSKPRAA
+QLQAIAAVRKLGKKEVTARLAQMSTPNQVP
+>tr|A0A0P0MA25|A0A0P0MA25_9BURK
+MSLTPPVPVRHYLQFTDLTADEYAHLFARAAEIKRKFKAYEKYHPLADRTLAMIFEKAST
+RTRVSFEAGMYQLGGSVVHLTTGDSQLGRSEPIEDSARVISRMTDLVMIRTYGQDKIERF
+ASHSRVPVINGLTNEFHPCQILADIFTYIEHRGAIQGKTVAWVGDGNNMANTWLQAAELL
+GFTVHLSTPSGYEVDQAVAGLRSPDSYKIFKDPEDACRGADLVTTDVWTSMGYEAENEAR
+KKAFADWCVDEAMMKVAKPDALFMHCLPAHRGEEVSAEVIDGPQSVVWDEAENRMHVQKA
+LMEFLLLGRVQA
+>tr|A0A0P0MBM0|A0A0P0MBM0_9BURK
+MHNDLHALRRILKTCPTIAVVGLSAEWHRPSYFAAKYMQSHGFKIVPVNPRYAGSQVLGE
+TCYASLNDIPFKVDMVDVFRRSEDVLPMAEQAVQIGAKCLWQQLGVANHEADALARQAGM
+DSVTNRCVKIEHARLFGGLNWVGVNTGIISARRLV
+>tr|A0A0P0LST0|A0A0P0LST0_9BURK
+MSDAISWVRVSACTLPLATPISDAKVLTGRQKPMTEIAILFVEIKTKDGAEGVGFSYSKR
+AGGPGQFAHAKEIAPVLIGEDPNDIAKLWDKLCWAGASVGRSGLSVQAIGAFDVALWDLK
+AKRAGLSLAKLLGTHRDSVRCYNTSGGFLHTPLDQLLVNASASVAKGIGGIKLKVGQPDC
+DKDIERVSAVRQHLGDRFPIMVDANQQWDRPTAQRMCRRLEPMNLVWIEEPLDAYDHEGH
+AALAVQFDTPIATGEMLTSVQEHWDLIRHRAADFLMADGPRVGGITPFLKIAQLAEHAGV
+MLAPHFAMELHIHLAAAYKTEPWVEHFEWLEPLFNERIQIKDGRMLVPTLPGLGVSLSEK
+ARRWTQSSVEFS
+>tr|A0A0P0LEX4|A0A0P0LEX4_9BURK
+MNPSLTLTLTLVVALLAHVALKFWLNARQVRHVARHRDAVPQAYADTMTLADHQKAADYT
+LAKARLSQIDIALDATVLLGWTMLGGLDALNQVLLDMMGPGMAQQIALVLGFTLVGGLIG
+LPLSLMQTFGVEQRFGFNKITPTLWLADMVKGLALGLVLGLPLLWVVLWLMQAGGQWWWL
+WAWGVLVGWQLFLMAIAPNVIMPLFNKFTPLEDESLKTRVQGLMQRAGFTAKGFFVMDGS
+RRSAHSNAFFTGFGASKRVVFFDTLLKQLSPAEMEAVLAHELGHFKHKHIVKMMVTSFAM
+TLAGLALLGWLAQQVWFYTGLGVMPNLSGSNDALALVLFMLVTPVFTLFFAPVSSWRSRQ
+QEFEADAYAVSQTPGKDLSSALLKLYQDNASTLTPDPWYVKFYYSHPPASERLLRMKTA
+>tr|A0A0N7J8A4|A0A0N7J8A4_9BURK
+MSDMMDPVHAMRPGVLQLNALPPLSLYVHLPWCIKKCPYCDFNSHEFREGADPVSTQDAY
+INALFADLEASLPLIWGRSIQTVFLGGGTPSLFSPEAIDRLISGIRARVRLAPDAEITME
+ANPGTFEKDRFKAFHQAGITRLSIGVQSFDNAHLKALGRVHDRDQALAAVTEAAQVFDTF
+NLDLMYALPGQKLEGLTQDIQTALGFAPPHISIYHLTIEPNTVFAKFPPTLPEDDLAYEM
+MDRITELTASAGLDRYEVSAYAKPGHQCAHNLNYWQFGDYLGIGAGAHSKLSFAHRVMRQ
+VRYREPALYMQQAIKGEPVTQSTEVSRQDLPFEFMLNALRLRGGFDLADYVDRTGLAMTS
+IQKGLQEAERLGLIGRDLHRVWPTEKGFDFLSDLQALFLSEAP
+>tr|A0A0P0MBJ6|A0A0P0MBJ6_9BURK
+MPRFAANLSMMYPDLPFLDRFEAAAQDGFKAVEYLFPYAFPAQELAARLKANGLQQVLFN
+MPPGGTDTEGFAKAWETGQRGTASVPGREADFRIGFTQALIYAEALNCPRIHAMVGLRSD
+GVSADAADATLVSNLQWAAAEAAKAGRDVLVEPINTRSVPGFHLNRQDHAHRIVQAVGAA
+NVKVQMDLFHCQIVEGDLSAKIAQYLPTGRVGHFQIAEVPNRHEPGTGEVNWTHIFHTID
+KVSAECGWDGWIGCEYNPADASAGGTSRGLNWARPYL
+>tr|A0A0P0MBI7|A0A0P0MBI7_9BURK
+MSWNLTSLSELRDTRAEILRFQNRVQVMQWVVLFCFLLLASRLIYLQVVRHDDLLAQAEN
+NRTAILPTVPPRGTILDRNGVVLASNYSAYTLEITPSKVKDLEATINELAELVDIQTKDR
+RRFKRLREESKSFDSLPIRNRLTDEEVARFSAQSYRFPGVEIKARLFRQYPYSELASHVI
+GYIGRINQRDKERLEEEEDAAANYRGTEYIGKLGVEQRYERELHGITGVNEVETSAGGRA
+TRSLSSRPAIPGQNVVLSIDIQLQKMVEDLFGNRRGALVALDPNNGEVLAFVSKPTFDPN
+LFVDGIDVENWQMLNESIDKPLLNRALRGTYPPGSTYKPFMAMAALSTGKRSASTIINDA
+GSWTYGGHTFRSHGDAGLGPVDMVRSIVLSSNVYYYSLANEMGVDAIHDFMKPLGFGQIT
+GIDLPGEVRGILPSTEWKRNYYKKPEQKKWYGGETISLGIGQGYNTFTMLQLASATATLA
+SGGMQFKPRVVTATQDALTHAQTQVGAQQPQHLGYKPEHMEVVRNGLVGVVTSGTSARVF
+AGAGYTSAGKTGTAQAVTIGQKDKYDAAKLSEYQRDHALYMAYAPAENPKIALAVVVENA
+GFGAASAAPIARRVFDYWLLGQYPSEEDIAATQKGQTAAPIGKPRSKSEVPLIAPKALTA
+GKTERP
+>tr|A0A0P0LGV2|A0A0P0LGV2_9BURK
+MNVLNSFDLSGRRALITGSSAGIGLALAEALAQAGAHVVLNGRTASKVDAAAQTLKAQGL
+SVSTSVFDVTDAGSVRAAIDHIEAEGPIDILVNNAGMQIRGPLHEYQDADWHTIMRTNLD
+SVYFVGQAVAKKMIPRGRGKIINICSVQSELGRPGIAPYTATKGAVKMLTKGMAIDWGQF
+GINVNGIGPGYFKTELNQKLVDDPAFSSWLVGRTPSRRWGDVQDLGGAAVFLASDASRFV
+NGHILYVDGGVTATL
+>tr|A0A0P0MAW6|A0A0P0MAW6_9BURK
+MGHKLKIVGWLSVGALAGALTTVSLQTVARGNMAPLPLEELQQLAAVFGMVKSDYVEPVD
+EKKLITEAISGMVSSLDPHSQYFDKKSFKEFSEGTSGRFVGVGIEISQEDGLVKIVTPIE
+GSPADRAGLKTNDLITKVDDTPLKGLSLSEAVKRMRGEPKTKVVLTVFRKDENRTFPVTI
+IREEIKTQSVKSKLIEPGYGWIRVSQFQERTVEDFARKIEDMYKQDPQLKGLVLDLRNDP
+GGLLDAAVALSAAFLPENVTVVTTNGQLAESKFTYKASPQFWRRNSSNDPITRMTQATGG
+ALKKVPLVVLVNEGSASASEIVAGALQDYKRATLMGSQTFGKGSVQTVRQLGPDTALKIT
+TARYYTPSGRAIQAKGIVPDVMLDETENGNVFAALRTREADLQKHLSNGKEAEEKKDPAR
+EQAREDAMKKLEEEAKKPVSERRLPEFGSDKDFQLAQALKQLKGQPVKASTTLAERKVEK
+KD
+>tr|A0A0P0LMD3|A0A0P0LMD3_9BURK
+MKVSVFSRGWATVKSWGLVLAGLGLSAILWAPLPGQAQTGTLFSNKSAPASTSGTDALLG
+GDPHVINTEQVRAELRVHAPEGIRAGQTFWLGLQIEHQPDWHTYWQNPGDSGLPTRLQWQ
+LPAGLQAGDIHWPLPKKFPIGTLANYGYEGRLLLPVPVSVGADFRFPDNGPMTLGLQAEW
+LVCRQECIPQEGRFSLKLASAAPPKTHAAGFEAAQKLSPKPMAQLQQGGTWITGGQATLS
+ADTKQINLRVHGLPVGWRGQTLSAFPVTPNVVHNAAVQGKDWTQSWQGAVWSAQIPVSEE
+RGDSPKSMRWVIAVGPESAPKAPAFDIETPVQGVWPALTQAAPAEISPALAKALAENASA
+AQKPAASSTTALGLTLAVLGALVGGFLLNLMPCVFPVLAIKVIGFAQTDSSQTQHRAAGM
+AYTVGVVLSFMLLGGLMLALRAAGEQLGWGFQLQSPPVVAGLALLFTLLGLNLAGVFEFG
+QMLPSSLATLQSRHPTVNAGLSGVLAVAVASPCTAPFMGASLGLAIALPVWQALLVFAAM
+GVGMAAPYLAASWWPGIARALPRPGAWMETFRQAMAFPMFATVIWLIWVLGQQTGIDGAS
+SLLAGLLTVAWLVWALGLSGRTRWVLSGLALAALLWMGSSWLPQALREAPTDAIASTRQT
+APDTLSSDNAATWQAWSEAAVQAQLAADRPVFVDFTAAWCVTCQYNKKTTLADTRVLADF
+AARQVVLMRADWTRRDPAITQALTALGRSGVPVYALYAPGRAPVLLSELPSVAEVQSALQ
+GLPAR
+>tr|A0A0P0LPP6|A0A0P0LPP6_9BURK
+MSGHTPLPPTLIELPMLPLRDVVVFPHMVIPLFVGRPKSIKALESAMAAERRIMLVAQKT
+AAKDEPSVEDMFDVGCVSTILQMLKLPDGTVKVLVEGQQRALVKSIVDGEAHFVAAVTPV
+DPVSEQSDDSSEIEALRRAVMQQFDQYVKLNKKIPPEILTSISSIDDPGRLADTIAAHLP
+LKLENKQQVLDLANIKSRLENLYAQLEHEVDILNVDKRIRGRVKRQMEKNQRDFYLNEQV
+KAIQKELGDGEEGADIEEIEKKIKAAKMSAEARKKAEGELKKLKLMSPMSAEASVVRNYL
+DVLIGLPWGKKTKLKHDLANAEDVLNQDHFGLDKVKDRILEYLAVQQRVDKVKAPILCLV
+GPPGVGKTSLGQSIAKATGRKYVRMALGGMRDEAEIRGHRRTYIGALPGKVLQNLNKVGT
+KNPLFLLDEIDKLGTDFRGDPSSALLEVLDPEQNHTFGDHYVEVDFDLSDVMFVATSNSM
+NIPSALLDRMEVIRLSGYTEDEKTSIAMKYLLPKQMTNNGVKDAELRVTEEAVRDVVRYY
+TREAGVRSLERELGKICRKVVKALLLKQMTPQVVVNEDNLNDFLGVRKYTYGRAEQKNQV
+GQVVGLAWTEVGGDLLTIEAALMPGKGVITRTGSLGDVMKESVEAARTVVRSRSRFLGIK
+DEIFEKKDLHIHVPDGATPKDGPSAGAAMTTAMVSAMTGIPVRADVAMTGEITLRGEVTA
+IGGLKEKLLAALRGGIKTVLIPEDNVKDLQDIPGNVKNGLEIVPVKWIDQVLEVALEAKP
+TPLSDEEVAAAALTAVPATAKAEAVKH
+>tr|A0A0P0MAS3|A0A0P0MAS3_9BURK
+MNFEIPPDIAALRDRTRQFIAEEVIPLEGDPRHGHHGPSEDLRQELVGRARAAGLLTPHA
+SKEMGGLGLNHIAKAVVFEEAGYSNLGPTALNIHAPDEGNIHLMEEVATPAQKERWLRPQ
+VAGLTRSCFAMTEPDPGAGADPSMLQTTAVRDGDDYVINGLKWFITGADGADYIIVMARM
+EDGTATMFLTDMDKAGITLERSMDAMDNCFTGGHGVLRFDNLRVPASDVLGEVGQGFRYA
+QIRLAPARLTHCMRWLGQARRAHDIALAYASRRQAFGKPLAEHEGVGFMLADNDIDLHTA
+RLHIWHTAWLLDQGHKGGFESSRAKVACSEAEWRVVDRCVQILGGQGVTAETPVMRIFMD
+MRAFRIYDGPSEVHRWSMARKLVYKSQQAAKAAQG
+>tr|A0A0N7J8D6|A0A0N7J8D6_9BURK
+MARDNTQPSDPLERWNDALTALQLLQLDPLGFGGVCLRAPHGPVRERWLHALAGLGIGLV
+KVPGSVDIERLLGGIDLAHTLQTGQLHSQAGLLQQADQGLVCLPMAERLSPTLLAPLVQA
+LEQGQVPPTRHSAAPTPTRFGVVALDESLPDEPGVGAALAERLGVWLDLNELSPSDIHAA
+WQDNSESDGLQIRLSPGALARAREQLPQVQASDEHMQALCTAALDLGIGSLRVPSLALRV
+ACSHAALNGRSTLDADDLGFAARCVLAPRATQWPAEPSAQESEPAPPEDATPPSEPPEPP
+ENADQAPENDAEKDEGLDPPPEQNAEPSAEDLQEMMVAAALASLPPHMLDALMTRQGAAS
+HNTSGRSGQTRAGSQRGRPLPPRPGRPGGQARLHVLATLRAAAPKQRLRQAHSTGRVAIR
+AEDFHIQRYQQRASSCLILALDASGSAALQRLAEAKGAVELLLQQSYARRDSVCIVAFRG
+AQAQLLLPMTRSLVRAKRAMTGLPGGGGTPLALALKMAYEQAAQLQRQGVTPILVVLSDG
+RANVTLQGLGGRAQAQLDAQSWGQQWRASGHRALWIDTSMHPDAQAQQLASTMGASYLPM
+PQVQSQRMAHAIERVRSSQA
+>tr|A0A0P0MBW3|A0A0P0MBW3_9BURK
+MNITICFDKLDPAPWVQGLQQAFPEASVTAWSPGAPAADHAIVWAPPQQFIDEQAGLQTL
+FNIGAGVDALLQLKLPPALKVVRLDDAGMSVQMAEYVCHAVIRHFREFDGYDTDTQLGKW
+SYRKPRSRADFAVGVMGLGVLGERVAKALQVFEFPVNGYSRSPKDLPGIRCFSGAQSLPE
+FLQATRVLVNLMPLTTETENILNQDTLSQLQKGGYVINVARGKHLVEDDLIALIDQGHLA
+GATLDVFRTEPLPVGHPFWQHPKITVTPHTSARTLREESIAQIVGKMQALQRGEAINGVV
+DHQRGY
+>tr|A0A0P0M8G1|A0A0P0M8G1_9BURK
+MNREMLMLVEAISREKNVERDVVFGAVEAALAQATKKLYEGEVDIRVAVDRDNGNYESFR
+RWHVVPDEAGLQLPEQEILLFEAKEQIPDIEVDEYIEEAIESVPIGRIGAMAAKQVILQK
+IRDAEREMLLNDFMSRGEKIFVGTVKRMDKGDIICESGRIEGRLKRSEMIPKENLRSGDR
+VRAMIMEVDLTLRGAPILLSRSAPEFMIELFRQEVPEIEQGLLEIKTCARDPGSRAKIAV
+LSHDKRVDPIGTCVGVRGTRVNAVTNELAGERVDIVLWSEDPAQFVIGALAPANVQSIVV
+DEEKHAMDVVVDEENLAIAIGRGGQNVRLASDLTGWKINIMDAAESAQKQAEETTGIRQL
+FMEKLDVDQEIADILIGEGFTSLEEVAYVPIQEMLEIESFDEDTINELRSRAKDALLTLE
+IAREESVEDVSQDLRDLPGLTPELISKLVEAGIHTRDDLADLATDELTDITAQTAEEATA
+LIMKAREHWFAGQA
+>tr|A0A0N7J9A2|A0A0N7J9A2_9BURK
+MPKEKSVYQRRRAPTEAELEMIPWLHLLQAHERQEIVPQLVVSDPQVGDYVCRVGRPVTY
+WFGVVSGLLKMSTDNESGQTITFTGVPPGGWFGEGTALKREVYRYNIQPLRPSVVAGLPL
+ETFHWLIDHSLGFNRFIMQQLNERLGQFIAARELDRMTNPELRLARHLATLFNPVLFSGV
+GEVLRITQQELAYLVGLSRQRVNEALRVLEARRLIRVEYGGLRILDLQGLRTASF
+>tr|A0A0P0LI97|A0A0P0LI97_9BURK
+MTPRVSIQTNDFDVSTELAALQGQDLRVGAVCSFVGTVRDTRALTGQASDEVQAMELEHY
+PGMTEKSIEAMIDEAHQRFDFYAARVVHRVGRLLPADQIVLVAVTSAHRGESFKACEFLM
+DYLKTQAPFWKKEQTPQGAQWVDARVSDDVALARWGIQAHNA
+>tr|A0A0P0M908|A0A0P0M908_9BURK
+MATAKKTPAKKAAAPAKKAAPATKAAPAKKAAAPAKKVAAKAPAKKAAPAKKRTPNPAFM
+KALTPSAALAAVVGAAPLPRTEVVSKMWVYIKKHKLQDSVNRRAINADDKLKAVFGKAQV
+TMFEMAGLIGKHLK
+>tr|A0A0P0MAQ2|A0A0P0MAQ2_9BURK
+MILEIHAMFSFFKKKSPPAEVPSAPAAASPAVSPTVSAPLAAQAPAPASTPTSAALSAAE
+ATASAPATRQGWLDRLKAGLRKTGASITTVFTGTRIDDELYEELETALLVADTGVKATEH
+LLQDLKRRVKDSKATDPSQVKTLLADAITDLLQPLQKPLSIGDHHPTVIMVAGVNGAGKT
+TSIGKLTKHLADEGLSVLLAAADTFRAAAKEQLAVWATRNTVEIISQQGGDPAAVSFDAV
+SAGRARGRDVVLVDTAGRLPTQTHLMEELKKIKRVVQKADGTAPHEVLLVIDGNTGQNAL
+AQVKAFDDTLGLTGLIVTKLDGTAKGGVLCAIAREKPIPVYFIGVGEKLEDLETFNAREF
+AQALLN
+>tr|A0A0P0MAT6|A0A0P0MAT6_9BURK
+MMRWGRFGRGAFIVFIVLRYGLDELVLSSFQKPWIRLLARVLSVGRDLRSPRAVRLREAL
+ERLGPIFVKFGQVLSTRRDLLPFDIAEELAKLQDRVPPFSSAIAVASIERAFNRKVDDIF
+ETFEREPVASASIAQVHFATLRGKSGHVREVAVKVLRPGMLPVIDKDLSLMRMMAGWVEN
+LSADGKRLKPREVVAEFDKYLHDELDLVREAANAAQLRRNMQGLDLVLIPEMLWDFCHPE
+VIVMERMHGVPISQVDRLREAGVDIPKLARDGVTLFFTQVFRDGFFHADMHPGNIQVSLA
+PETFGRYISLDFGIVGTLTEYDKEYLAQNFTAFFRRDYKRVAELHIESGWVPPETRVDEL
+ESAIRAVCEPYFDRPLKEISLGMVLMRLFQTSRRFQVEIQPQLVLLQKTLLNIEGLGRDL
+DPELDLWSTAKPFLETWMLEQIGPKKLWEELKSQAPHYAKLLPQLPRLLHDYLQQPRQSD
+ARQMEQLLAEQRRTNKLLQTLIYAGLGFVVSLLVLQVGMHLQLIY
+>tr|A0A0P0LCJ0|A0A0P0LCJ0_9BURK
+MTQTLVLGGGCFWCTEAVYVKVRGVTDVESGYCNGQTVNPSYDDVCTGRTGHNEVVKLEY
+DPAQVSTRELLEVFFVIHDPTTLNRQGNDVGTQYRSGIYFTTPEQAEEARALIAELAAAR
+AFGQPIVTEVLALDNYSAAEDYHQDFFERNPYQGYCMAVAAPKVSKFKKTFSRLVRE
+>tr|A0A0P0M8K0|A0A0P0M8K0_9BURK
+MFRRQLSGVLLVLAACIVLQGVGAVFALREAERQVVRGRLASDIHQGFVQLLATKQRLRS
+WVTQHKIGAGGNPEERDELLQQMQQGLGELALLAQKAAAMGLDGRASEEHTARTDAVEVL
+GHNVHDLGQALMQVKTLPADMPARLGWDTLTEVFEKSEGRDLRELIAQSITRESAAMQRE
+RLAADATLDRIRWLWIGMALTLALLALGATLYFARALRRPIDELVQGAHKLRQGLLQHRV
+PLNEQDEFSDVARSMNAMAAALEKHQQQETEHRQRLETEVRERTSALHEANQSLQQTDTR
+RRQLLADISHELRTPTTAIRGEAEITLRGGERPAVQYREALQRIVATSRQLGSVIDDLLA
+MARSDMETLSMVHQRVDLSEPLGDALAQAQALAGERHIQINAQAMPSGAVLVMGDAQRLC
+QLMLLMLDNAVRYSHPAGSVSLLWWCSDDASPTLVLEVVDQGIGIPAEELHQVFDRHFRG
+RMARLHRAAGSGLGLPIAKALAQAHGGTLTLESPADEATGTGTRVQLRLPLLHWEPLSTV
+SDPPAS
+>tr|A0A0P0LLH5|A0A0P0LLH5_9BURK
+MLQFDLLKTDPSSHARRGTLTLNHGVVQTPIFMPVGTYGTVKGVMPRSLHEMGAQIILGN
+TFHLWMRPGLDIMKGFGGLHQFEKWDKPILTDSGGFQVWSLGDMRKITEEGVTFASPVNG
+DKLFMSPEVSMQIQTILNSDIVMQLDECTPYETKGHLTTEAEARKSMEMSRRWAVRSKDE
+FARLENPNALFGIVQGGMFENLRQESLDALVEMDFPGYAIGGVSVGEPKDLMLQIMAHTP
+HRLPAHKPRYLMGVGTPEDLVQGVADGVDMFDCVMPTRNARNGTVFTRFGDLKLRNARHK
+NDPQPLDTSCTCHACAGTSGVSWDNGGRDGFSRAYMHHLDRCGEMLGPMLTTIHNLHYYL
+NLMREVRESLDVGQFAQFRAQFKSDRARGV
+>tr|A0A0P0MA59|A0A0P0MA59_9BURK
+MNETAYKILFVCMGNICRSPTAEAVFFKRLTEQNLLHKVQVDSAGTHNFHPDAPPDERSQ
+KHALKRGYELAHLRARPVVDSDFETFDLLLTMDWDNRALLEERCPAEHQHKIRGLAEFLL
+TTQAPVIPDPYYGGDQGFEHVLDLIEEASEGLVKFVTHKVPR
+>tr|A0A0P0MB19|A0A0P0MB19_9BURK
+MSETTPPPKTAPVQTVAISLDDRSYDIQIGQGLLSRPDTWAGLPKATTAMIVTNNTIAPL
+YEAALRSAITPHYKQVHTVVLPDGEAHKDWQTLNLIFDALLGQGCDRKTVLFALGGGVIG
+DMTGFAAASYMRGVPFVQVPTTLLSQVDSSVGGKTAINHPLGKNMIGAFYQPVRVVCDLN
+TLATLPLRELSAGLAEVIKYGPIADMAFLGWIEANIDALMAQDPSALAHAVKRSCEIKAW
+VVGQDEREAGLRAILNFGHTFGHAIEAGLGFGVWLHGEAVGCGMVMAAELSHRLGKVDAA
+FVARLRALIARAGLPVRGPVIDATDNAGHYIEHMRLDKKAIGGDIQFVVIDGPGQATVCG
+APDAMVREVINACCA
+>tr|A0A0P0M734|A0A0P0M734_9BURK
+MTEFLDFNFSSAEEISLALAQRLKRLRIQKEIAQAEMAERMGVSRSTLNTLENTGKASVI
+AWIKLVQCLGQEGQLQPLFKPVITSIAEMEQQQIPARQRVSRTRHLPKDKP
+>tr|A0A0N7J859|A0A0N7J859_9BURK
+MSARQDTDMEVRAHADHHASLRLWLRLLSATTRIEDTIRQRLREQFDITLPRFDLMAQLE
+REPQGLSMSELSRRMMVTGGNVTSIVDQLEKEQLVQRQMQASDRRSYTVSLTEAGRSAFA
+AMALAHEGWVVELLSPLAEREQTQLHQLLGTLKSGTPSQSKETK
+>tr|A0A0N7J8E0|A0A0N7J8E0_9BURK
+MNAPTDAFLHHKLQALQAQADEFIAVRRDIHKHPEMGYKEYRTSDLVAEQLAAWGYQVTR
+GLGGTGVVGQLKKGTGSKSIGIRADMDALPIDEATGLPYASCNVGIMHACGHDGHTAMLL
+AAAKHIAHKAEFSGTVNLIFQPAEEGLGGAKKMMEDGLFTQFPCDAVFGMHNMPGHPQGQ
+LVFRDGPAMASSDNVTIVIEGTGGHGAVPHRAADPVVAGSAIVMGLQSIVARNVDPQEMA
+IITVGAFNAGVANNVIPQQATLKLSVRSLNREVRILLEQRITELVHAQAISYGVKAHIDY
+KRGYPVLVNHLVETDFARDVGEELVGAANVTRQGRALTGSEDFAFMLEEVPGCYLLIGNG
+DGTGDGHGACMVHNPGYDFNDHNVAVGSAYWSLLVERFLPAQG
+>tr|A0A0N7J908|A0A0N7J908_9BURK
+MTQLLFIYGTLMPGLRLEAEMKGARFVGAAQVPGRLVDVGRYPGFLVGDGLVTGEVYEVD
+AAHLARLDGVEDMVPGDRAASQYWREEVTVASGPLQGQRVQTYVYNRPVDGCTPITHGDY
+RRYIREVGRES
+>tr|A0A0N7J8T7|A0A0N7J8T7_9BURK
+MSSCPFHTPNTDTAGGDSAGERIVHEEKAQLDFDGRMSYGDYLQLDAILNAQKPLSPDHN
+EMLFIVQHQTSELWMKLMLHELQAAMAGIAQDQLPDAFKKLARVSRIMEQLVHAWDVLAT
+MTPPEYSAIRPYLAQSSGFQSWQYRCIEFAMGNKNAAMLQPHAHRPDLSAIVQAAYEAPS
+LYDQCLRLLQRRGLEVPDTHTQRDWRQPYPASAEVENAWLVVYRNPQQHWDLYQLGEELT
+DLEDAFRLWRFRHVTTVERVIGFKRGTGGTGGVSYLRKMLDTVLFPEIWTLRTQL
+>tr|A0A0N7J8R6|A0A0N7J8R6_9BURK
+MSTSPRWKHRPPGSNWGDFGPDDQYGRINLLTPEKVLQGMQEVRTGQTFNLSLPLDFPGG
+NVLNPRRQPPVLRPTLRGDKPNMNYQLLCDDPACTDVVCDDLVIMHLQYSTQWDSLAHVG
+SMFDANGDGVTEPVYYNGFRAGTDVVGPSSGSGAGIFGFPEIARESTSSAKALGIEKMSE
+RCVQGRAVMIDLHAHLGRERVRVGYDLLMDIMRKDSVVVEPGDMVCLHTGFAQMLLEMNK
+QPDPHAVENSCAVLEGRDERLLQWITDSGLVALIADNYAVEGLPATPRPGSCAALPLHEH
+CLFKLGVHLGEIWHLTPLANWLREQGRHRFLLTAPPLRLPGAIGSPATPIATV
+>tr|A0A0P0M835|A0A0P0M835_9BURK
+MLYRQVKRQLINDIQSGIAAPGAALPNEKDLALRFQVSVGTVRRAVDELVAEHVLLRQQG
+RGTFVGKLDRERFMFQFFKIVPRDRPSEFPEVRLHKFSKSRATQLEAQALGLHGNQWVFR
+IENVLHLQGQPVIHDRIAIAAAMFPGLNQASFTARTTTIYGHYQAAFGVTIVEADERVRA
+ELVLPDSAHLLNLDLATPVLRIDRVAHTFDRQPAEFRTSIVDTRNFDYVSRMREMT
+>tr|A0A0P0M6T5|A0A0P0M6T5_9BURK
+MTTELWQMSATDLAGRIARRETTARAATESVLGRIAEVNPKFNALASVTPDKALQAADAA
+DAAQARGETLGPLHGVPVTIKVNIDVQGEATDEGVHAFKDNIASSDSPLVQSMREAGAIV
+VGRNNAPAFSLRWFTDNALHGRTLNPFDAGVTPGGSSGGAAAATALGMGAIAHGNDYGGS
+IRYPAWACGVVGLRTTVGRVPSYKASAPNRIISNQQMSVQGPLTRTVADARLALRVMSQG
+TPLDPQWVPALLEFADARQPTRVAVFRSWSHSPVDPTASAAVDQAARWLEAAGYTVEEAE
+PPHFAEVSAMQMHMVMNDMRRAGEAFMHQNGDDALRKALGYYMAVSPVWDRDQYLEATTR
+RFNIARDWAVFFERYPVLLMPNSWERQFPIDEDQQSAERIAQIFLAQAPMLGTATLGLPG
+LSVPTGVVNGLPVGVQIVSTKFREDRMLAAGEVIERAAQFSALDHLLHQG
+>tr|A0A0P0M9G5|A0A0P0M9G5_9BURK
+MAFFSPFSRRSSGRFAFRASHIASAVAMLTLGSAHAQSQNEITVTDTAPSQVSGFGDAPL
+SKAPFSAVSIDRQTLQDIGAQRVSDALRLDASVADSYNSPAYWDVLSVRGYTLDNRYNYR
+REGLPISAETMIGMDNKERIELFKGTSGIQAGTSAPGGLVNYVVKRPPSAQNSTVRDVSA
+SFGPGHSSSMALDLGGRFGQDQALGYRFNAAYENLDPYIRNTEGHRHLLALAMDWRLTPD
+SRLEWEFERSERQQMGVNAYSLLGNTLPSPVDGQNNLTRQPWSVPGLFAGQTGSIRFKQN
+LQGGWLWTTQYGAQRLRTDDRLSYAYGCSAQELWDRFCSDGGFDLYDYRSDKERRSSDAL
+QTDLSGALELAGLRHHLGLSLMRSRLLDRPSAMQAYNWAGTGNIDGTFNSPEAQPTPGEL
+NTERSEYSTEIALRDRIELTSQTALWLGLRHTRLSRASERTDGSRAVQDERSFNTPWLAL
+THQITPAYLVYGSYGEGIETDVAPNRSRYTNAGQALPALRSQQLEVGVKGQWARTRWQAS
+WFDITRPVAGDEGACDEANTCTRKIDGQARHRGLELSAGLTQAQWQWDIATAWTDAKRQQ
+ANIDPSVNGQRALNVPRMSLRAMAQYRYSAIPGLRSSLRLNHEGTRWVTEDGAIELPAWT
+TLDLATHYDTRIQGMRTQWTLAIDNLADRRYWRESPKQYGHYYLYPGAPRTLRLALKTSF
+>tr|A0A0P0LET1|A0A0P0LET1_9BURK
+MNLPNRFQAFDLLATPVAVMQGQGRVRFVNAALEDALGLSRRTLYDSHLPDYFVDPQPLI
+LALSGAQSNEFAALRYEAQLRRLHHDEPLPVHVIVAMTDLPDEVIVELLPVEQQTRQERE
+ERLLDQAQANKELIRNLAHEIKNPLGGIRGSAQLLEMELNDKELTEYTQVIIHEADRLQT
+LVDRLLAPHRRPHVVGDVNIHEVCERVRALILAEFPRGLRVVRDYDISIPEFRGDREQLI
+QAVLNIAHNAAQALQERVAQGDAQITLKTRILRQVTFGKQRYRLALELHVMDNGPGVPDS
+IKDRIFFPLISGREGGSGLGLTLAQTFVQQHHGLIECESEPGRTDFKILIPLP
+>tr|A0A0N7J8M7|A0A0N7J8M7_9BURK
+MTEQDSASSMMLDRNLAVVLSRLAGLLGQAVPAHRFGMMSRTTEGLMVDHLSREERLKAW
+WLGRFPTAHIHAMDPKNLKPSDFPLLWVGSEGEQVLLVRGGSGRHRLTCQDPEGNPCVLP
+MADARQGRLLRLSIMPARPGESGHRTLSATDWFATSIRRYRSVFLEAVVATCVISMVGLV
+AALYSMQVYDRVIPTKGYSTLWVLTIGVVIAIVMELVLKQVRAFMVDRACKAIDQELSAV
+FFGKALDIRMDARPNTVGTFASLIRHFESVRNFLTSSSLFILADLPFAVLFVGVIAIIAG
+PVALVPVLAVPLAVLAGMAFRGSIEKYTGLHMKESNEKNGLLIEAIDGIESVKAANAEWK
+MLDRWRSMTTTMADSELKMRQLSTLSTNLTQTIQQLSYAGMIAAGAYAINGGHLTMGGLI
+ACSIISGRALTPVAQLPGLIVQWQHAKLALHSLNGIMAMPSEREYSERLVVPELCRGEIR
+LSKALFAYAKDLPGLEVPQLIIAPGERIAILGSVGSGKSTLIKLLSGLFKPNSGQVYLDQ
+VDMVHLAPEFVREHVGYLPQDVRLFNGSLRHNLTLGLPLPSDSQIFKAAAMTGLDQVIQN
+HPQGLELSIAEGGRGLSGGQRQLVGLTRMLLAMPKVLLLDEPTASMDAKLENRVMQHLFE
+NMPKESSIVVVTHKPSVLAYVSRILVVDKGRVVLDGPRDEVLNRLRQPSATPQASTPSAA
+PSAKPAAAVGALA
+>tr|A0A0P0M9A5|A0A0P0M9A5_9BURK
+MSNRQIDVQIMGQSYILGCPEGGEERLMGAVRKVDEAMCKIRDAGKIKARDRIAVLAALN
+LAFEQADAPPASDKNSASAQTAADVPADAQARLVHLLSRLDRVIEQDGQLL
+>tr|A0A0N7J904|A0A0N7J904_9BURK
+MGVLLNSEIVEIDQTGLSRWYLAYTKPKQESVALFNLEQQGFEAYLPLFKKFKKTEQGPV
+ALFEPMFPRYILFRPRRTEQSISAVRSTKGVSNLVRFGFEPALLHDDVVQRIRQMEQLRD
+QATIEELNQLKVGQKVRLKHTALGAIEGLVQNVSSKRVAVLLEILGRPTVVQVDHHQVEA
+SA
+>tr|A0A0P0LDB9|A0A0P0LDB9_9BURK
+MKKHMVIIGGGITGVTSAYALAQQGIQVTLIEKNRYPGMETSYANGGQLSASNAEVWTHP
+STIIKGLKWMFKNDAPLLMNPTPTWHKLSWMAEFMAAMPKYRENTIATAQLAIESREHHF
+AWAKAEGIEFDHKREGILHFYRDKKGFDHAGQVSKLLAQGGLPRRAVTPEEIKAIEPTLH
+GNYYGGYFTESDSTGDIHKFTYGLAKACERLGVNILNEHEVLSVAANGQSAFVQVKHAGD
+TDSLTFDGIVICAGVHGRRLAAQLGDRLNIYPVKGYSITVNLPDGASQAAAPQVSLLDDE
+TKLVTSRLGDDRFRVAGTAEFNGINLDIRADRIQPLIQWVNQCFPGIDTRKVVPWAGLRP
+MMPNMLPRVGAGKKANVFYNTGHGHLGWTLSAITAHQLAGHVMAAMQDNVHSFMTPAAA
+>tr|A0A0P0MC11|A0A0P0MC11_9BURK
+MSGLNLPISLEFFPPKTPEGAEKLRGVREKLYSLKPEFCSVTYGAGGSTQEGTFATVGAI
+QAEGVAAASHFSCIGATKASVREELSTLKAMGVKRLVALRGDLPSGYGAGGEFHYASDLV
+AFIRAETGDDFHIEVAAYPEIHPQAKSPEADLQAFATKVKAGANSAITQYFYNSDAYFRF
+VDDAYKLGVDVPVVPGIMPITSSSQLLRFSDACGAEIPRWIRLRLQAYGDDVESIKAFGL
+DVVSDLCEQLINGGVPAIHFYTMNQSAPTLAIVQRLNSLTD
+>tr|A0A0P0MAD0|A0A0P0MAD0_9BURK
+MHTWHSAQDAAVWLRSRVTGELRTDSRLVQAGDGFIAWPGAATDGRHYLAQALAQGASAC
+LMEELGHGTWLSALQSPNPAALACMPSLKAQTAWVADAYYEQPSRALQVLAVTGTNGKTS
+TAWWLAQALSSPVLQQACGLVGTLGVGQLPDLVSTGMTTPDPVLLQRQFRQFADDGVTHC
+AIEASSIGLAEHRLDGTHIRVAVFTNFTQDHLDYHGDMARYWSAKAALFTWPGLQSAVIN
+IDDAQGALLAQQLQGGPLDVWTCSRRGAARLQARALPSAQGLAFEVIEGQTVQTLHTGLI
+GDYNIDNLLGVIGSLRALGFDLTQAVQACAQLTAVPGRMERVSLALPGVQAQLPQPLVVV
+DYAHTPDAITQALAALRSQAALRGGRLWCVLGCGGDRDASKRPLMAAAAEAAADQVLLTS
+DNPRSESPEAIVAAMVQGLRQPQSVQIQLDRALAIGEAVVQAAEQDVVLVAGKGHESEQE
+IMGVRHPFSDVVQARRALQQRAAQHQGVPA
+>tr|A0A0P0MA42|A0A0P0MA42_9BURK
+MSTPEVRALKPTEVIMALAQVPGWGLSGDGEQVAIEKSFDFEQHSHALLFVNSVGWLSEK
+LNHHPELVLTYKRCVVRWNTHDVRGLSRLDFEAATQTDALLPA
+>tr|A0A0N7J8S8|A0A0N7J8S8_9BURK
+MKKSTYLRLVLSSALVALGLWSIPAAQAQACTREYAPVCGQVAGQMPQTFANRCTLDNAK
+ARPIAQGECPHTATPTTQPMLGGDSDNKGCKASAGYSWHAELASCIRPWMTSAITLEVAA
+HRQKCPRQTDTKCLMVREVQDGQKKPRWAPFDGEIAGYQHSTGKRQLLRVRKDKLENVPA
+DAPSITYTFLKKLR
+>tr|A0A0N7J8Z2|A0A0N7J8Z2_9BURK
+MNFYFIKIKNMEPIELDTIDLQLLDSLQRDASLSNVALAEKVNVSPPTCLRRVKRLVDGG
+WIERQVAVLSTDRLAATLGHGLTALVEVSLDKQGSEHMDAFEARAVAHDAVQQCWRVSPG
+PDFMLVVQARDMPHYLAISQALFTQDTNVRNVKAFFATKRAKFTTTWPVLNLPTA
+>tr|A0A0P0MAU2|A0A0P0MAU2_9BURK
+MTAVKMYTTAVCPYCVRAKQILKSKGVEQIEEIRIDTDPAQRDHMMQITGRRTVPQIFIG
+QTHVGGCDDLMALDAKGGLLPLLQAA
+>tr|A0A0P0M7K5|A0A0P0M7K5_9BURK
+MNLLIALRPGLPILIGAALMLSVSMGLRQSLGVFMPALTQDIGISVSQFTLAIAVQNLAW
+GFLQPFAGALAVRIGYRPLMMTGAVLYLGGMTMLCLAQGLLGVILGAGLAIGAAMACNGS
+AIAMAVASRPVSPALRSTVLGIVSAAGSLGALMAAPIGQLLSQAHGWRVGVGGFVIMALI
+ILPAAWYAGRVDALPVPPSPLGEKDKAVDMARWALKHPPFAVMTVAYFVCGMQLVFLTTH
+LPSYLDLCGMDPMLSAQALGMIGGFNVLGSLFFGWAGGRYNKLLLLGGIYVLRSFGLAWY
+FLSVPTPENTLVFAAIMGFLWLGVAPLVTGYIGETFGLRWQAMLGGIAFMSHQLGSFMGA
+LGGGLVFDAMGSYNRAVQVGVLVGLLAGMLQMAFALRAELPPGQPRPA
+>tr|A0A0P0M855|A0A0P0M855_9BURK
+MRILITGGAGFLGARLAREILKKGQLSGQTVTELVIADLFPAPADLLADPRVKGHAGPML
+EQGDLFKSGFDGVFHLASAVSGECELDFDLGLRSNVDSSRLLLDSIRASGKASRLVFASS
+VAVFGPDAANPMPALVADTTLPTPQTSYGTHKLMIEYMVADYTRKGYIDGRAARLMTVAV
+RPGKPNGAASSFFSGIIREPLAGTATTCPVDAHVSHPISSPGNTVHGLITVFEASREAFG
+GRMALNLPGLNVKVSDMLAALEKVAGPAVRARVTFEKDERIAAIVDNWAKGCTFERAHAL
+GLRADASYEAIIAQYIEDCKTRPGYPAEALNGLK
+>tr|A0A0P0LQ53|A0A0P0LQ53_9BURK
+MFPTPTTHPLQAWQVMLGGICGLVLTIGLARFAYTPLLPALQAQTGLNDAVAGGLAAINY
+AGYIVGALVTAWMDDVRWRHRFYSAGLWMALLTTAAMALSSWLPAWGLWRFLGGLCGATG
+MLLGSGLVLGWLMRQGRRPELGVLFIGLGLGIVVSALGAWVLSDIWALWSDQWLAFAALG
+VVFFVPAWLWRPPVPPMPTAASTAHAQPQVSRRWMATMALSYFAAGWGFVISATFTVAIV
+EREPALAGQGALAWALVGLAAMPAVFLWDRVARKLGDIPALLLAFGLQTVSIVLPALSGS
+LTAALAGAVGYGATFIGIVSLTLALVGRRAPQNPGKAMARLTLSYGAAQMIAPVVAGAMA
+QATGSFKGALWLTAAVMLVGMVLLLALPKED
+>tr|A0A0P0M752|A0A0P0M752_9BURK
+MSHFSMIEARPLPGKKSRSISWRSREGRSVIYQIVAILSALALVALLVRNTLTNMRLRGI
+QSGYDFLFQPFGFDISETVIEYAHNSSYFVAFAIGMLNTLKVAVIGIVLATVLGVLVGVG
+RFSANFLVRKICYAYVEFFRNVPVYLQLLIWYLVFTEMLPDLDQAWQAGHFFLSKNGVSF
+PWPVWQLGQTLALIGVVLGLVFAMVYRRMARAHFDRTGHTRPVWAVSLAVTLALAVLGWL
+VGGAPNEWDLPKKGDFQIEDGGAFSPEFMALLCGLVFYTASFIAEVVRSGIASVSLGQHE
+ASASLGLSKSQSMRLVVLPQALRVIIPPLTSQYLNLTKNSSLAVAIGYPELVSIANTTLN
+QTGRAIEALSIVMLVYLTLSLLTSALMNWFNASAAIQER
+>tr|A0A0P0LFY3|A0A0P0LFY3_9BURK
+MKRRQLLWASAAIGGTALWPEARLLAQQAQDFIEGPPVTDIPAQQLSPHVWMIYSPDGFP
+TPENRGMMANVIFVVTSAGVVVIDSGASLQIGQMAIRMIRKVTDKPVVAVFNSHYHGDHW
+LGNHAFVKTYGDKLPIYALPSTIEKLKGAEGNLWRSLMERWTNQSTLGTQVVLPNTPVQH
+GQVLQFGDVSLRLHHYGTAHTPSDLCVEVVQDKVTALGDIAMTNRIANMDEGSYPGTFKY
+YKALQAATGDQLWVPGHGQARKDLLKTYGEFMAGIWEPCLQAVKDGKSEVEAKAAVLKDP
+RVASRAKAMQGYEGNIGKYISLAYLEAEKEAF
+>tr|A0A0P0M7G0|A0A0P0M7G0_9BURK
+MSTSPASTYQSVFTPGLLVGQVIMITGGGSGIGRCTAHELASLGAHVVMVGRNPKKLANT
+AQEIVGDGGQASWHSCDIRREDDVKAMVAQVVQQHGRIHGLVNNAGGQYISPLAKTSAKG
+WQAVIDTNLTGGFLVARECFNQSMQQHGGAVVNIVADMWGSMPGMGHSGAARAGMVSFTE
+TAALEWAAQGVRVNAVAPGYIASSGMDHYPPEAGPMLREMRNTVPQGRFGTEAETSAAIV
+FLLSPAASFISGTVLRVDGARPQMRMGWQQGVAKPDVQTRDAVKAFDGFHRAVTPKVFQ
+>tr|A0A0P0MBA7|A0A0P0MBA7_9BURK
+MNPLATYILTLSCPDRTGIVHAVSGFLLERGGNIEEAAQYNDHDTGLFFMRVQFACDQLG
+GDALNAQWGAFATTFNMSWDLHATAQPMRTVLMVSKEGHCLNDLLFRWKSGLLPLDIRAI
+VSNHREFYQLAASYNVPFHHIPVTTDTKQQAEAKQYEIIQAEGAELVVLARYMQILSDDL
+CRKLAGRAINIHHSFLPSFKGAKPYYQAHDRGVKLIGATAHYVTADLDEGPIIEQDVARV
+DHSKTVEDLTAQGRDTESQVLARAVKWHSEHRVLINGHKTVIFK
+>tr|A0A0P0M9E8|A0A0P0M9E8_9BURK
+MNTIRQKISMAVLAAAACVAGLAQAQDFKMGFVNTERIFREAATAKQAQAKLEQEFSRRE
+KELVDTGNSLKQASEKFEREAPTLAESQRTARQKQLIDQDREFQRKRREFQEDLNARKNE
+EQQIVVERANRAVKQVAESEKYDVIFQEAVYINPKHDITEKVIKVLNASVAK
+>tr|A0A0P0MA17|A0A0P0MA17_9BURK
+MSTHNILFICTGNSSRSIMAEAIMNHLGPNRFVAYSAGSRPAGHVNAHALHCLERNQLST
+VGLRSKSWSEFAAPDAPTMGFVITVCDNAAGEVCPVWPGQPMTAHWGVEDPGHIGTTDAE
+KAKAFWDAFMKLHRRISILLSLPIDKLERLALKKELDQIGRS
+>tr|A0A0P0M9E7|A0A0P0M9E7_9BURK
+MAPEVRVSGPENEPMGILSLAEALRLAGEMDVDLVEIAATAIPPVCRLMDYGKFKYQEQK
+RAAEAKAKQTVIDIKEVKFRPGTDDGDYNIKMRNIRRFLADGDKCKITLRFRGREITHQE
+LGLDLLNRIRDELADSIIVEQFPKLEGRQMIMMIAPGRKKPVAGGKASDASVPAESA
+>tr|A0A0N7J8U8|A0A0N7J8U8_9BURK
+MQFPEPQRWRLSVAPMMDWTDRHCRFLHRLLTRHTLLYTEMVTTGALRHGSVQRHLRFNA
+EEHPVALQLGGSDAADLAHAAKLGQEWGYDEINLNCGCPSDRVQRGAFGACLMNEPRTVA
+DGVKAMLDVVDVPVTVKHRIGIDRIESYDFVRDFVGTVSDAGCKVFIVHARNAWLDGLSP
+KENREIPPLRYELAYQLKKDFPGLLIAVNGGIKTNEEIAQHLQHADGVMIGREAYYNPWL
+LGSWDAAFYGDAHEVPSREAVEEAMVAYMERAFAEDGCPWYAIARHMLGLYHGQRGGRLW
+RQVWSDHKLKPLPPREVWALARAALARGAVVTD
+>tr|A0A0P0LKH8|A0A0P0LKH8_9BURK
+MQPKPFFAPEPMPELPEVEVTRRSFADRIASAQILALHMGKPLRWPLGVPAQSLVGRQIW
+GVRRRGKYLLLDLDQGLLLVHLGMSGSLNFAPTQPESGPHDHMDLVTDRGVLRLHDPRRF
+GAVVWAPGEDSPQAQKLLGRLGVEPLSAQFDAAAFAQALKKRQSPIKQVLLAGDEVVGVG
+NIYASEALFMAGIRPTSKASRLSKPRVARLHAAIVQVLTRAVEQGGSSLRDFVSAEGRTG
+YFQLEAAVYGRAGEPCRVCATPIQSMLQGQRTTFYCPTCQKS
+>tr|A0A0P0M7C9|A0A0P0M7C9_9BURK
+MESYFLEWANLLLRWVHVITAIAWIGSSFYFVFLDNNLQKPSSPDLLEKGVGGAMWAVHG
+GGFYNPQKYMVAPKKIHTKLHWFYWESYSTWLSGFALFTVLYLYNAGTFLIDKSLMDWTP
+VMAGSAAVGMLVAFWLVYDIICRVFGFRKNGELIVAGLMIVVVAFCSWLANELFAGRAAF
+LLVGAMIATAMSANVFFWIIPGQRKVVAAMTSGETYDANALAIHGKRGKQRSVHNTYFTL
+PVIFAMLSNHYSFLYTHEQRWVLLFVMMLAGALIRQFFVQRHGYHLGRAANPWPFAAVGV
+VMILGVIVALRPAPPKASAAPAMPVSFAQVQSLVGTHCLSCHGAQVQMKNVRLDSPELIK
+QNAQNMYQQVVVTKQMPMGNATGLTEEDRALFGRWFQAGARLD
+>tr|A0A0P0M8C2|A0A0P0M8C2_9BURK
+MNTAQAKRVLETALLTAGQPLSLRDMRVLFDDALGADTLRLMLQELELEWAGKGLELTHV
+ASGWRFQSRPELRMYLDRLHPEKPPKYTRAVLETLAIIAYRQPVTRGDMEDIRGVTIGSQ
+IIKQLEDRGWVEVIGHRETVGRPSLFATTRQFLDDLGLSSLDQLPLLSQVDSPMSALAGM
+LEESPAQASLSLEEALAESVELADADPANTGLGQENTPT
+>tr|A0A0P0M969|A0A0P0M969_9BURK
+MKVLAQRVTRTVLTVYVLVAAANSALAQSSDSRVNIDAFGELFTTALAAPANQTRVFVFR
+NNQAPNSKPVNIYLNGQYHASLLRGGFSEFCAAPGFVNIKAALDDASRLHTSKLDAGQRL
+ELKAGQTIFLKVDESTSPAIGLLSGTAAQAKADIEGTRRQIHTISRAKAALTCGQPAAVA
+AVAPPAAPKPPVPREYALETDALFEFGKAEIRASGYNAIESLVQRLLQDFSSVERIRVVG
+YTDPIGSAAFNKKLSQQRADVVARQIASRNIPIERGIEAEGRGSIELVKTGCGNSPTPEN
+KLCHAPNRRVMVVITGARR
+>tr|A0A0P0LP20|A0A0P0LP20_9BURK
+MLTVIAICIGASVGALSRWQLGLWLNPASAGLMPWGTLAANLIGGYLVGVCVGVFQQLPD
+LDPVWRLTLVTGFLGALTTFSSFSAEVVAMLQQGRFALAAGTACLHLLGSLALTMLGLKT
+VGLLWVR
+>tr|A0A0P0M7T3|A0A0P0M7T3_9BURK
+MARSACTVCPEVDEIQGGGAVQVLGVRQLLSQVWVEGAVEVLHGVRTSYNRQMLSEFSPN
+ASASPLLAQLNDEQHRAVALPTEHALILAGAGSGKTRVLTTRIAWLLQTSQVSPGGILAV
+TFTNKAAKEMKLRLQSMLPVNVNAMWIGTFHGLCNRFLRAHHQLAGLPQTFQILDTQDQL
+SAVKRLCKQFNVDEDRFPPKQVQYFISGCKEDGQRPGDVPVRDDETRRKVELYQLYEEQC
+QREGVVDFGELMLRSYELLRDNAHVREHYRRRFRHILVDEFQDTNKLQYAWLKQLAGLPG
+EGGECAILAVGDDDQSIYAFRGARVGNMADFVREFQVKHQIKLEQNYRSFSNILDSANHL
+ISHNKTRLGKTLRTDQGAGEPVRVVESPSDFAEAQWLIEELRQLVKQDGFERKEVALLYR
+SNAQSRVLETALFNAGFPYRVYGGLRFFERAEIKHALAYLRLMENPNDDTSFLRVVNFPP
+RGIGARSIEQLQDAARAAGCSLHDAVSATTGKAGANLAAFVAMVDVLREQTEGMTLREII
+DLVLDKTGLVNHYRAEKEGADRVENLEELVNAAESFVTQEGFGRSAVALPQGTSGLGQSP
+ASQGLSRSTDADLGTVDEFSEDGVIMSPLAAFLTHASLEAGDNQAQAGEDAVQLMTVHAS
+KGLEFDAVFITGLEEGLFPHENAMNDFDGLEEERRLMYVAITRARKRLYLSHSQTRMLHG
+QTRYNLKSRFLDELPEECLKWVTPKNSGFSNLGQPASGGGSAPGGGWPQTPAFNRHARPA
+WGQSSLSTETYKSPPVPVQKAAPEHGISAGKTVFHTKFGEGKVLAVEGVGADARAQVNFP
+RHGVKWLALSVAKLTVV
+>tr|A0A0N7J951|A0A0N7J951_9BURK
+MTFSIHGLAVARGIAIGRAVLVASSRVDVAHYFVQPEQVNSEIQRLRVARDAVVDELQRL
+QKDMPKDAPHELAALLDVHLMLLQDEELTSGVVHWIKTRLYNAEWALTSQLDIIVRQFEE
+MEDPYLRERKADMEQVGERVLHCLKGTGAMVAQAKRPQRPQQELQLGDTDVPLVLVAHDL
+SPADMLQFKQSVFTGFVTDVGGKTSHTAIVARSLDIPAVVGARTASQLVKQDDWVIIDGD
+AGVIIVDPSPIIMADYGFKQRQGDLERERLARLRHTPSVTLDGQKIELLANIEMPEDTHA
+AIAAGAVGVGLFRSEFLFMGRQGHLPDEEEQYQAYRRAVDGMNGLPVTIRTVDVGADKPL
+DESRHEASHLNPALGLRAIRWCLADPSMFLTQLRAILRAAAHGQVNLLIPMLAHGSEIRQ
+TLALVDQARHELDRRGQVHGPVRLGAMIEIPAAALSLRLFLKHFDFLSIGTNDLIQYTLA
+IDRADESVAHLYDPLHPAVLRLIADTIAECQRQGKGVSVCGEMAGDVAMTRLLLGLGLRS
+FSMHPSQILSVKHQVLRSDTTKLAPWAEQVLDSEDPAACMNP
+>tr|A0A0N7J8H3|A0A0N7J8H3_9BURK
+MSSVLSSASWRSVVPDEWQAEVQSRLQPDENASAWVLVDLNTALKFHKIALILTDRRILT
+ATLSEKNWQSWPLAQGQSLRQSDHAGVGQLELSDAQGRLAVWRFTLGLQEAVFRWVAQFE
+AQQSHRAQIQGGVPAELQGRPMQSAHVVVCPVCQAGMSEDDDECPVCSREDLNPPSTWTL
+LKIWRFARPYKRSLLVGFLLTLASTAATLVPPYLTMPLMDEVLIPYQNGADIDPGLVSLY
+LLGLFASGLLAWGLGWAKTYILALVSERIGSDLRTTTYEHLLKLSLEYFGGRRTGDLIAR
+IGSETDRINVFLSLHLLDFATDVLMILMTAIILFYINPTLALVTLLPLPFIGWLIHVVRE
+RLRTGFEKIDRVWAEVTNVLTDTIPGIRVVKAFAQEDREAQRFKDANLHNLQVNDRLNRV
+WSLFSPTVTLMTEIGLLVVWGFGIWLVSDDQITVGVLTAFLAYIGRFYSRLDGMSRIVSN
+TQKAAAGAKRIFDILDHVSSVPEPLNPVALPPQVKGHITVRDADFRYGNRAVIRQLNLDI
+QPGQMIGLVGHSGSGKSTLVNLICRFYDLSEGAIELDGNDIRQLKVADYRRQIGLVLQEP
+FLFFGTIADNIAYGKPDATREEIVAAARAAHAHEFILRMPQGYDSLVGERGQGLSGGERQ
+RISIARALLINPRILILDEATSAVDTETEKEIQKALDNLVRGRTTIAIAHRLSTLRKADR
+LVVMDKGVVVEEGTHDALMASQGAYWRLYEAQQRQAEAEAVLGGSDEDKKVSA
+>tr|A0A0N7J8Q7|A0A0N7J8Q7_9BURK
+MSPQVMKSPRAWTVSALCRAVADSLDAQFNPVSVRGEISGFSRAASGHCYFSIKDDTGQI
+RCAMFRRAAGLMDFAPRDGELVEVRGRLGVYEARGDLQLIVESMERAGQGALFEQFLRLK
+AKLEGEGLFDPAHKRALPAQPRAIGVVTSLGAAAWHDVVTALQRRVPHIPVLMAPALVQG
+AGAAATLAQALQNIYALTAEDNPLCPPVDVILLVRGGGSMEDLWSFNDENLARLIAQSPV
+PLICGVGHETDFTIADFVADVRAPTPTAAAEMAATDRGVGLEALSVLEQRLSRGLIRQQD
+RQAQRLDAVAARWGVGLVRQQERQSQRLSAVAARLGRPQAVLGQHSQWLDRLASRLLTGV
+RTQLVGQGHQLERLNDRLAFNRAQQVPQRAQRLERAALRLSSVDPRQVLERGYAWLSDDR
+GQALTHADQFQPGQAVRATLADGDVPLKVVS
+>tr|A0A0P0LMP8|A0A0P0LMP8_9BURK
+MNTHLKLVILDRDGTINRASDEFVKSPEEWHPLPGSLEAISRLSHAGFHVVLATNQSGIG
+RGLFDMAALNAVHARMLKSLSAVGGRIDAIFYCPHAPDEGCACRKPEPGLLFQIQERYGV
+SLTGVPYVGDSLRDMQAAESVGCVPHLVRTGRHPDATALTLPPAFPAGTQVHADLAAFVD
+HLLGEAAAVRALS
+>tr|A0A0P0LHQ4|A0A0P0LHQ4_9BURK
+MIKVGDTLPAATLMEYVEVEGNGCSIGPNPVDVAKATAGKTIALFALPGAFTPTCSAKHV
+PGYVENHDALKAAGVDEIWCVSVNDAFVMGAWARDQKTGAKVRMLGDGSGDFSKATGLTL
+DLTTRGMGVRSNRYSMLVKDGKVATLNVEGPGKFEVSDAATLLAQAKG
+>tr|A0A0P0MBS9|A0A0P0MBS9_9BURK
+MTQPPAFKRAPRPEGKGDTAAPSGTSRLNKRMAELRMCSRREADAWIEQGWVMVNGLPAT
+MGQQVTLSDRITIDKAAEQQQDRQVTILLHKPMGYVSGQAEDGHEPAITLINPRSHWGGD
+PSKLRFTPPHLRNLAPAGRLDIDSTGLLVLTQDGRVARQLIGEDSEMEKEYLVRVAYTGH
+ENTAAAAAASATYGGKANQLTTIGDFDRVSANVQAVFPKAQLERLRHGLSLDGKPLKPAK
+VDWQNPEQLRFVLTEGKKRQIRRMCEQVGLKVVGLKRIRMGNVQLGQMPAGTWRYLGPNE
+SF
+>tr|A0A0P0M7N3|A0A0P0M7N3_9BURK
+MIQKKTVKALDIAVFITSRAVVKPVTTEEIAHGLNLSSSYTESILKELREAGLIRAHRGP
+GGGYQMRGNPEDISLWDVVQHFEEMHSFDALYPEGDHPMKALESDIQSNMQSLLQAQTLS
+DVAVPFMPRDARVSSMLGQFRLKPLPPPVMPRAPNSVFQLSMMM
+>tr|A0A0P0LLB6|A0A0P0LLB6_9BURK
+MHPHNICRCVIASILSITASSWAQTSVGLGRADSKDNCASCHGASGRGDGPVHSFLVKSP
+SDLTTITQRHGGKFPQELMWEVIDGRWSGETGPHGSREMPVWGKEFKARAMTVPGDSATT
+AEWSARNRIVSLLKYLETIQRP
+>tr|A0A0P0LDX0|A0A0P0LDX0_9BURK
+MQIILLEKVVNLGNLGDIVKVKDGYARNFLIPQGRARRATEANKAEFEARRVELEKAAAA
+KLADAQTQGQKLAGLVVKLSQKAGVDGRLFGSVTNHDICEELNKQGYKLVKSQIRMPHGP
+IKVVSDSTVSVALHTDVVVDVTVTVYGETA
+>tr|A0A0P0M9J6|A0A0P0M9J6_9BURK
+MNPSLKGQIAWITGGGSGIGLAGAMALAQAGAHVVISGRNAATNTSTLAALQTVGSAQAL
+LLDVADKHAVKAAVQQILDQHGRIDILVTSAGTNATQRNFDVVTPEAWDDVVAINLSGLF
+YCVHAVLPAMRQQQGGLIINVSSWAGLYASKLTGPAYNATKRAVLALTESINMEECTNGI
+RATSLLPGEVATPILDKRPVPPSAEQRELMVQAEDMGQAILFVAQMPARTCINELIISPT
+FNRFYTGGLESPPKR
+>tr|A0A0P0M9E9|A0A0P0M9E9_9BURK
+MRLILLGAPGAGKGTQATFICQKYNIPQISTGDMLRAAVKAGTALGLQAKAVMESGGLVS
+DDLIINLVKERIAQADCAHGFLFDGFPRTIPQADAMKAAGVKLDYVLEIDVPFDAIIERM
+SGRRSHPASGRTYHVKFNPSKVAGMDDVTGEPLVQRADDQEETVKKRLDVYSAQTRPLVD
+YYANWAKADPAAAPKYRAISGTGSVEDITARAFAALAQ
+>tr|A0A0P0M886|A0A0P0M886_9BURK
+MTVTVETLEKLERKITLTVPVTAIQTEVDARLKKMARTVKMDGFRPGKVPMNVVAQRYGY
+SVQYEVLNDKVGEAFAVAANEAQVRVAGQPRISEKEGAPEGELNFEAIFEVYPEVKLGNL
+ADTEVEKLTAEVSDAAIDKTVDILRKQRRTFAQRAQDAAAQDGDRATIDFEGKIDGEVFS
+GGKAEDFQFILGDGQMLKEFEDAVRGMKSGESKTFPLAFPADYHGQDVAGKTADFLVTVK
+KIEAAHLPEVNEALAKSLGIADATVEGLRADIRKNLEREVKFRLLARNKQAAMDALVAKA
+ELDLPQSIVQNEIERLKEGARADLKQRGIKDADKAPIPDDIFRPQAEQRVRLGLVVAEVV
+RGNTLHAKAEQIQAHIQELAASYERPDDVVRWYNSDNQRMAEVEAVVIESNVSEFVLAQA
+KVVEKAISFEELMGQQA
+>tr|A0A0P0MAF9|A0A0P0MAF9_9BURK
+MNWMQATHFFRPRLLDSLHGYSRERFSQDVGAGITVGVVALPLAMAFAIASGLKPEAGLF
+TAIIAGFLISALGGSRVQIGGPAGAFIVIVYGIVERYGLANLILATAMSGVLLFVMGLFR
+LGTLIRFIPVAVVIGFTNGIAVLIMLSQIKDFLGLKVAAMPADFFGILNALWLSLHTANL
+AALLLALASLSLVVGWLRMSRRLTGTRYHWVSMVPGSIVALVFATLVTWLLNLPVETIGS
+KFGGIPSSMPGLVWPEFSWDSARFLLMPTLTLTLLGAIESLLCARIADGMIGDRHNPNQE
+LMAQGVANFVTPFFGGMPATGTIARTVTNIKSGGTTPISGMVHALTLLAVVMVAAPLAGQ
+IPLATLAALLMFVAWNMGEWREFMHLRQYRLPYRITLLAVFFLTVVFDLTVAVEVGLVAA
+CLTFIYRISSLSRCEGVTRLEHPGLAGFEHRVQAWRLYGALFFGAVKLIEAIEDKISTPT
+LVLDLKNVIYIDSSGADALMNLIETCRKKQVQLIVCGLNHQPLDMAQRSGLMAHLKAHLQ
+PDLSSSLTLAVSLSTDPAR
+>tr|A0A0P0M812|A0A0P0M812_9BURK
+MSSKIYVGNLPYTIDDASLRQNFSEFGGVMSAKVMMDRDTGRSKGFAFVEMSSAEEAQAA
+ITGLNGMSVSGRSIVVNISKPKEPSTGYGSGYRDTRN
+>tr|A0A0P0LGB4|A0A0P0LGB4_9BURK
+MSKASTKAPVKAFASQADLTEKKITFEQLSKHCWAYTAEGDPNSGVIIGDRFIMVSDATA
+TPAMAQDLIKKIRTVSDLPIKYVLLTHYHAVRVLGAYAYAAEGATEIIASEGTLDLIKER
+GAQDMKSEMERFPRLFRGADSIPGLTWPTMVVGGGNPTKGEVSGKLSINLGGVVVQIWHP
+GPGHTRGDTIAWVEEEKVLFSGDLVEYEAGVYTGDAQLEEWPATLEALRALNAEFIVPGR
+GEAMKGNANVNKALDYTQRWVTTLFQAGKEAVAAKMDLKAAMAHTRKSMDPVFGHVFIYE
+HCLPFDVTRAYDEASGIKNPRIWTAERDMEMWKALQS
+>tr|A0A0P0LPH8|A0A0P0LPH8_9BURK
+MSNNFHKNSLDLLGHAILSGRYAVGASLPPEPILCEELGVSRTVVREAIKSLVAKGLLST
+GPKVGTRVMPDAHWNWFDPDVVAWQARCGLTPEFLKDLQELRRVVEPAAVRLAAERATPE
+DIAHIEAAYAGMKQAVEEGGDYVTHDLRFHEGLLQASHNRMLVQMSKALNALLRTSFEIS
+TRIQDGTKTSLPLHRAVLNAVIARNPAKAERAVMVLIEGARQDIELVLASRRKLPVVSGA
+ATPIKLKSRPKHRVIKEAA
+>tr|A0A0P0M8C4|A0A0P0M8C4_9BURK
+MDIQGKVFIVTGGASGLGEGTARMLAANGGKVVIADMQAEKGEAIAKELGGAFLKCDVSN
+EADGQAVVAQAVSMGKLMGLVNCAGIAPAEKTVGKNGAHSLAVYTKTIMVNLVGTFNMIR
+LASEAMCKNEPEATGERGVLISTASVAAYDGQIGQAAYAASKGGVVGMTLPIARDLARNG
+IRNMTIAPGIFGTPMLFGMPQEVQDALAAGVPFPSRLGTPQDYAKLAKHIIENDMLNGEV
+IRLDGAIRLAPK
+>tr|A0A0P0MAY1|A0A0P0MAY1_9BURK
+MSSVSAHRAAWLVVLAGGVAALQVGKLPPALPALQAELGLTLVQSGFLLSMVQLAGMSLA
+VFMGLWADGMGLKRSMVRGLCLLALASGLGAFATSTAALLALRAIEGLGFLLVALPAPAL
+IRRLVPPAQLSGMLGVWGAYMPTGTALALMAGPLFIPAWGWGAWWGLFAGVSLAMAAWVW
+RSVPTDPVAHSDSAGQGAWLRLRRTLSARGPLLVALTFGMYSGQWLAVVGFLPSIYAAAG
+VGGALLGVLTALTAAVNIVGNMASGRLLQRGWAPRSTLWLGFGAMALGSTVAFAPFTESL
+PWLRFAGVLLFSGMGGLVPGTLFSLAVRLAPGEQQVATTVGWVQQLSALGQFIGPPVVAA
+VAARAGGWQFTPLVTVGCCGVGAVLAWLAGRLLPQAQSRP
+>tr|A0A0P0MBZ0|A0A0P0MBZ0_9BURK
+MLLTPDQEMIRDAVRDFAQRELWPHAAEWDKKHHFPKEAHKGLAELGAYGICVPEELGGA
+GLDYVTLALVLEEIAAGDGGVSTTISVTNCPVNAILMMYGNAAQKAQWLTPLAQGQMLGA
+FCLTEPHVGSDASALRTTAVKDGDEYVINGVKQFITSGQHGDVAVVIAVTDKGAGKKGLS
+AFLVPTSTPGYVVARLEDKLGQHSSDTAQINFDNCRIPAENLIGQEGEGYKIALSSLEGG
+RIGIAAQSLGMARSALDVAIDYAKQRESFGTSIFNHQAVGFRLADCATQLEAARQLIWHA
+ASLRDAGRPCLKEAAMAKLFASEAAEKVCSAAIQTLGGYGYVSDFPVERIYRDVRVCQIY
+EGTSDVQKIIIQRGL
+>tr|A0A0P0MAU4|A0A0P0MAU4_9BURK
+MVRFKVNGEAVSVDATPETPLLWVIREKLNLTGTKFGCGIAQCGACTVHLNGDPVRSCAL
+PVSAVEGKNITTVEGLMKTPTGQALQAGWVKAQAPQCGYCQSGQLMTAAKVISVVKKNLS
+RTEILEAMSGNICRCGTYNQIASAVSHAQKTLQGGKA
+>tr|A0A0P0LUJ9|A0A0P0LUJ9_9BURK
+MDLHLSDKHILITGGSKGIGLACARGFLAEGARVSLVSRDSANLDAARAQLQAAFPAERI
+HTVAANLRDASAALVALSEAEAAFGPVDVLVNSAGAAKRTPASELTPEAFADAMQAKYFT
+TIHMLTPCIQRMAARGQGAVVNVVGNGGKVASPIHLPGGAANAALMLVSAGMAAAYGGQG
+IRVNAVNPGLTLTDRLNEGLAAESRLQGISPEQVKAQSVAKIPLGRMAEPEEIANAVLFL
+ASSKASYVTGICMSMDGALTPIVV
+>tr|A0A0P0MA09|A0A0P0MA09_9BURK
+MKLIALPAFADNYIWLLHTDRHALVVDPGDSAPVLAWMQAHPDLQLDKILVTHHHADHTG
+GLAELVAHTGARVMAPVLEPMPVPSQGLQQGDCLDWHGLTFQVHDVPGHTLGHIAYWAQP
+TGQDPLLFCGDTLFSGGCGRLFEGTPAQMLDSLDRLSALPGATRVCCAHEYTLSNLKFAR
+AVEPDNVELQAYWAQCTQLRSQALPTLPVALHTERAINPFLRSRLPSVATPVRQHDRLAV
+DDVTTFAALRQWKNDFR
+>tr|A0A0P0M8U4|A0A0P0M8U4_9BURK
+MPSQDPSSQIERVPLHEEVTNRLRDMIVSLRLRPGERIQELEVAQLLGVSRTPVREAIKV
+LTAEGLVELLPLRGAIVKAFSAKDARDMLEVIALVESYAGERACQADQAQIDAILAMHEQ
+MKVFFESRERLAYFALNQRIHEALIALADNDTLSMTHATLSKRMRSLRYSGNSTPENWNA
+AMAEHEQMMVALAARDAAALSRIMGEHIRNTWPRIKDVVN
+>tr|A0A0P0M6B2|A0A0P0M6B2_9BURK
+MFNVLQPEGWAPAKGYANGIEARGRMVFVAGMIGWNGQAQFETDDFVAQCRQALQNIVDT
+LACAGAGPQHMARMTWYVKDKKEYLARGRELGKVYQEVIGKNYPAMTLVQVADLVEDRAQ
+VEIEVTAVVPE
+>tr|A0A0P0M794|A0A0P0M794_9BURK
+MLTPISPETPTDHSPVVRGLLNIAHALDHLFLLIFAAAVSTIALDMGLAQWQDLMPYGAG
+AFFMFGLGSLPAGRLGDLWGRRSMMLVFFFGIGAASILTAFAQTPWQLAACLTLIGVFAS
+IYHPVGIPMLLERSSNPGATIGFNGLAGNLGVAVAALLTGFLIQWQGWRAAFVVPGLVAL
+ACGWLFARACPQEGSKPSQRKGGAKVSLPAPLLMRAMVVMTAAAVTSSVLFNFTTNGNGP
+LLAERFAGVMEDPAALGLLLALVYAVASVAQVVVGHLINRFPLKRFFMCMVMAQIPMLLL
+ASQAQGWWLFAALIGVMVFIFGAIPFTDFMIARYVDDRLRSRVSGMRLGVSFAVSSLSVW
+ALGPVVKAMGFGSSLMLLAGFSVVTTLILTLLPSASHEQQTPA
+>tr|A0A0P0M8D0|A0A0P0M8D0_9BURK
+MSEGSDQDKTEEPTARKLGKAREDGQVARSIELPAAVMVIGAFVILMMSGGWLVQRLSVI
+FSKGFVFDRATIEKPLLLPSQFADQLISAMVVVMPIIAFTFVAAIIASGATGGYLFSLQA
+VSPKASKLSLVSGLQRIFGVNALIELGKALLKFALVATVLWWSLMNNMDSLVKIGQMGLE
+PALSAAGSMILQSALWVALSLAVIAMIDVPYQKYAFTKKMRMTKQEVKDEYKQMEGSPDV
+KAQIRRRQREMANSRMMQRVKDADVVITNPEHFAVALEYDPTGDGAPIMVAKGSDHMAKL
+IREEAKAHGVHLFEAPPLARAIYFTTEVEQQVPEDLYHAVAQVIAYVFSLEAASPMQPAQ
+AKPRVKVPKTMLFNPDGSRLKEEGAAA
+>tr|A0A0P0M8I8|A0A0P0M8I8_9BURK
+MTAHLIDGNALSKQLRTEVAARAQALKAQGVTPGLAVVLVGDNPASQVYVRNKVKACEDS
+GLHSVLEKYAADMSEADLLARVEALNKDPAIHGILVQLPLPPHIDAQKVIEAISPAKDVD
+GFHIASAGALMTGMPGFWPCTPYGCMKMLESIGYDLRGKHAVVIGRSNIVGKPMALMLLQ
+KDATVTVAHSRTQNLKALTLQADVIVAAVGKRNVLTADMVKPGAVVLDVGMNRNDEGKLC
+GDVDFNGVKEVASHITPVPGGVGPMTITMLLVNTLEAAERATK
+>tr|A0A0P0M829|A0A0P0M829_9BURK
+MKLFHYAAPQYFYPLAGRLWPWLALLATGLALAGLWVGFMVAPSDAQQGQAYRIIYIHVP
+VSWMAMVIYLAMAFWSVLGLVFHTRLSGLMTRALAPTGALLAFLSLWTGALWGKPMWGTY
+WVWDARLTSMLILLFLYLGYIALTSAIEDPRRSDRAGALVAVVGAVNVPIIYFSVKWWNT
+LHQGASVSLTQSPSMASIMLTGMLLMSLAVWLYAAAIALWRVRSLILERDSHAAWVQQLP
+EVLVHRAHRDWRGAA
+>tr|A0A0P0M9U4|A0A0P0M9U4_9BURK
+MILNMQNLNAQWIQPDWPIHPRARSLMTTRQGGVSAAPWDSLNLGDHVGDRVADVHSNRE
+RLAAHIGQRAVFLQQVHGVASVQLGSDTPNGLAADACWSLEPGVACTIMVADCLPVLLAD
+ADGRWVAAAHAGWRGLAGPSGPAASKGRGVLESLWADLERAGADVSCVMAWLGPCIGPQA
+FEVGPEVQAAFDDGSPEVQALFQPTADGKFMADLAGLARVRLKALGVQAVFGNDSSPPWC
+TVSESTLFFSHRRDSRSLGQSGRMAACIWLER
+>tr|A0A0P0MCC6|A0A0P0MCC6_9BURK
+MRHGHGLRKLNRTSSHRLAMLQNMMNSLIEHEVIKTTVPKAKELRRVIEPMITLAKVDNL
+SNRRLAFNRLRDRDSVTKLFNVLGPRSASRPGGYTRILKMGFRVGDNAPMALVELVDRAE
+TPAGTAAE
+>tr|A0A0P0LD55|A0A0P0LD55_9BURK
+MTAATPQQPGRDLDSQETREWMDALSAVIDKEGPERAHFLLEQLLEEARQHSIDLPFSAT
+TGYVNSIEPNEEARCPGNIEIEERLRAYMRWNAMAMVVKANRHNPADGGDLGGHIGSFAS
+LAHMFGAGFNHFWHAENENHGGDCLYIQGHVSPGVYARAYLEGRLTEEQLLNFRQEVDGN
+GLSSYPHPKLMPEFWQFPTVSMGLGPLMAIYQARFLKYLHARGIANTENRKVWVFCGDGE
+MDEVESLGAIGLAARENLDNLIFVVNCNLQRLDGPVRGNGKIIQELEGEFRGSGWNVIKL
+LWGSEWDSLLARDKDGALRKLMMDTLDGDYQAFKANDGAYVRKHFFGRDPRTLEMVAHLS
+DNDIWNLKRGGHDPQKVYAAYHKAVNHKGQPTVLLIKTVKGFGMGKAGEGKNTVHQTKKL
+TDDDIKYMRDRFNIPIPDSELAKIPFYKPAEDTPEMRYLHERRQALGGYLPKRRAKAEES
+FTVPSLDTFKAVLEPTAEGREISTTQAYVRFLTQLLRDQALGPRVVPILVDEARTFGMEG
+LFRQVGIYNPAGQQYTPVDKDQVMYYKEDKAGQILQEGINEAGGMSSWIAAATSYSTSNR
+IMVPFYVYYSMFGFQRIGDLAWAAGDMQARGFLLGGTSGRTTLNGEGLQHEDGHSHIMAN
+TIPNCVSYDPTFAHEVGVILHHGLKRMVEKQDNVFYYLTLLNENYAMPGLTPGTEEQIIK
+GMYLCKPGAVLPKGTSDAGDKRVQLLGSGTILRESIAAQTLLATDWGIQADVWSCPSFNE
+LTRDGQDAERHNMLHPMETPRVSFVGQQLAQHNGPVVASTDYMKAYAEQIRPFIPKDRTY
+KVLGTDGFGRSDFRSKLREHFEVNRHYIVVAALKALSEEGKVPVAQVAEAIQKYGIKTDK
+INPLYA
+>tr|A0A0P0MAI4|A0A0P0MAI4_9BURK
+MSYFVYILASQRNGTLYVGVTNNLVRRVHEHREKLVKGFTAEHGVTHLVWFDQTDSIEEA
+IAHEKRLKRWRREWKLALIEKSNPQWLDLYDGIL
+>tr|A0A0P0M8S1|A0A0P0M8S1_9BURK
+MPINHRIVLDNRPQGEATVNNFKMVEVSLPELQDGQVLVCHHYMSLDPYMRGRMNESKSY
+AVPQPLGEVMIGGTVGEVVDSRHPKSKSGDKVVGMGGWQEYSVVDANVIGALRKVDTTHV
+PLSHYLGAVGMPGVTAWYGLVKIINPKAGETVTVSAASGAVGSAYGALAKARGCRVVGIA
+GGKDKCDYVVNELGFDACIDYKEHKDYLSLSKALREACPNGIDGHFENVGGMVLDAVMLR
+TNAFARIAVCGMIAGYDGAPLPMASPALILVNRMKIEGFIVSEHMEVWPEALEELGTLVG
+TGKLRPRESVAQGLAAAPEAFLGLLKGKNFGKQLVKLI
+>tr|A0A0P0MAV6|A0A0P0MAV6_9BURK
+MILYEYPFNERIRTYLRLQQLFSRLEQLIGRDQAVDHHFALTTLFEILEVGARSELKSEV
+LKDLERQKQIYSAYRGNPAISEKALDGLIAQLDHLFEALNQVSGKMGQSLSEHDFLTTLK
+SRMAIPGGTCEFDLPAYHAWQHQDAASRAQDLAQWTLPLAPWAQAIAQLLQMLRESGSGQ
+KVMATAGQLQQNLPQGRTFQLLRLKIDPVLGITPEISCNRLLVVIRMMRQHSDGKLVATT
+DDVPFEMTLCA
+>tr|A0A0N7J977|A0A0N7J977_9BURK
+MQNLIDPAILFFIFGVLAGTVKSNLEIPPAISRFLSLYLLMALGLKGGFALSQSGMTATV
+GISLAAAVFLAIVIPLIGYAVLRRFVSGFDAAAVAATYGSVSAVTFVTAVQTLENQGVPY
+GGHMAAAMALMESPAIILAVVLANSLRQKQASSGVVPAGGGAALGGPAAPHGASVGKILH
+ESFTDGAQLLLLGAMVIGLVTGEAGKEAMAPFSVDLFKGMLAFFLLDMGLMAARNLPQVK
+GQSPVLIAYAVIGPLVHAGLALGLAMLLKLSPGDGALLMVLAASASYIAVPAVLRTALPE
+AKPALYFGLSLGLTFPLNIVLGIPVYLAVAQALLA
+>tr|A0A0P0LIS4|A0A0P0LIS4_9BURK
+MLHAAQSLQAFWRTRAQSVAVEHFSGEQRLALLSHINQGIAKLGLEQAMQKPLPPYLPKQ
+IAIVTHAEQLPDSDVQMLQDLTRHLPGLCWRWVLLRMETPDDQRSAAFDSIVPTQQPQAQ
+WPAEPAPATPAEPLEHSAPLAPLASFAPGEKVEPFLEPVEPLASAEPVTPAQAVVPAETA
+ALDQTPTVSATHQIPPLPPAAETPPSAGKPSHRWAWLGLAALVGLGAWGAWLRFGTPQPA
+PSGTAERAGISESTAASTAAASSPASAMAPASAPEVLAASSPETPLPSASASQPIDPEAA
+STPPSQSTAAVPAAASAQPSARTPASAPADPSAEVPDVALRGVRWLAQQSPEFYVLEHGA
+FKTAAQAQSLIKTRTELANARVLMLKTAAAGGRFLVITGPFRSQERAQNFKVRENLPPQI
+PVRQVSEVLQESVRAAPSRP
+>tr|A0A0P0M6M4|A0A0P0M6M4_9BURK
+MKRRLFSTAMLSVTTWMGTASAWAQQAFRSGKDYITLERPVATEAGSGKIEVLEFFWYSC
+PHCNQFEPAFEQWAKNAPKDVVVRRVPVAFRDDFVPQQRLYYTLEAMNLVEKMHIRVFTA
+IHGEKLMLNSDASVLAWAEKQGIDKAKFAETYKSFGVATKAKRAVQLQNDFKIEGVPSLG
+VAGRFYIDGTLAGSMPRALQVADALIAQTRQGR
+>tr|A0A0P0MBY4|A0A0P0MBY4_9BURK
+MSSSPSFSDRLAVLPQYLIPKQALTVFAGWVAGSQWGGATTSIINWFVKRYNVNMAEAAN
+PDTASYKSFNEFFTRPLRGDARPLAAAALLSPVDGAISQCGPIAGDQVFQAKGHGYSTRA
+LVGGDAALAAQFQDGEFATLYLSPRDYHRIHMPCAGRLTRMIYVPGDLFSVNPTTARGVP
+GLFARNERVVCVFEGEHGPFVMVLVGATIVGSMATVWHGVVNPPRPGTVREWTYEMGNIS
+LAQGEEMGRFLLGSTVVMLFPRGVMQFNPDWTPTRPIVMGEAMGAWR
+>tr|A0A0N7J8Q0|A0A0N7J8Q0_9BURK
+MSDFISNFWHLYVAGITLVSIIACLLLLWFSGKAKAMTANDNTTGHVWDGDLREMNNPLP
+RWWVGLFIITIIFAFVYLAMYPGAGNFAGKFGWSSAGQYEAEVAKGNAEVAPLYAKFQGM
+PPEQVSKDPQALAIGDRLFMNNCAQCHGSDARGSKGFPNLADADWLYGGTPDAIKTTLVQ
+GRAGNMPPMAAAVGTPEDVRNVAHYVLSLSQSPHDSLRAQLGKSKFGACAACHGMDGKGN
+HAMGAPNLTDDIWLHGWGENAIVNIINNGKVNQMPAQAAKLTEGQIHVLASYVWGLSNNA
+VASAAASPAK
+>tr|A0A0P0LJC4|A0A0P0LJC4_9BURK
+MKPHQTFEAILSLRADLALALRAAAAQGLSEGVCNHFSVAVPGQEDWFLLNPRGLHWSEV
+QAADIVMCNAQGEQLAGRHEVEPTAMFIHAAVHRIARKSVVLHTHMPYATALTLTAARAL
+DTTLSQTAMRFHGRLAVDPHYNGLALDMTEGERIAHAMHGADVVFLGNHGVIVCGERVDY
+AYDDLYYLERACQAQVLAASTGGPLMPVDAALAARVAEQTHGERLQSELFFASLRRTIGS
+EPS
+>tr|A0A0P0MAM6|A0A0P0MAM6_9BURK
+MISREPTIERLATARSLLLEPFGLDETHLSRALAAIKAHAVDDADLYFQYTRSEGWSLEE
+GIVKTGSFSIDQGVGVRAVSGEKTAFAYSDDISEASLMDAAMTVRTIAQATLNKRIKVPA
+RKVSASRSLYPSLDPMSTLDSTAKVNLLGRVEKIARAKDPRVVQVMAGLATEYDVVMVAR
+ADGTLAADVRPLIRLSVTVIAEQNGRREVGSSGGGGRFGLAYFDDAMVESYVQEAVSAAL
+INLEARPAPAGEMTVVLGNGWPGVLLHEAVGHGLEGDFNRKGSSAFSGRIGQRVAAKGVT
+VLDDGTIADRRGSLNVDDEGHASQKNVLIEDGILRGYIQDAMNARLMGVKPTGNGRRESY
+AHVPMPRMTNTYMLGGDKSAEEIVASIKKGLYATNFAGGQVDITSGKFVFSASQAYWVEN
+GKIQYPVKGATLIGSGPESLKKISMIGNDMKLDSGVGTCGKEGQSVPVGVGQPTLRIDGL
+TVGGTA
+>tr|A0A0P0MBF8|A0A0P0MBF8_9BURK
+MFKLTSLNLNGIRSATTKGVEAWLAQEKPDCICVQEVKAQAPDVAGKFEELAGLKGHFHF
+AEKKGYSGVGVYTRHEPCDVVVGFDGGEFDAEGRYVETRFDTPSRKLSIISVYFPSGSSG
+PERQEAKFRFLDKMYPHLMALKAERDFIVCSDVNIAHQQADLKNWKGNLKNSGFLPEERQ
+WMTQLTTEGGVVDVYRRLKPEATDDCYTWWSNRGQAYAKNVGWRLDYHLATPAVAEKART
+EHIYKGEKFSDHAPITIGYDFSI
+>tr|A0A0P0M939|A0A0P0M939_9BURK
+MRHYEIILLIHPDQSEQVPAMLERYKGMITAGGGSIHRVEDWGRRQLAYQINKLGKAHYL
+CVNIEADQAVMAELEHAFKFNDAVLRHLTVLKKKAETGPSSMMKTVEREEARKSQQAEFA
+A
+>tr|A0A0P0M7U9|A0A0P0M7U9_9BURK
+MRTTLFWFRNDLRLHDQRALQQAIAHAQTHQQALLLVYVHEPAQDEDTAWGFGRMGVHRR
+RFVADTLQDLQASLQALGQQLVLLHGPLAEVLTACARQVGADTVFCEDIAAPEEEAQVQA
+LINARLKVKTLWQSSLIEPDTLPFAAEDMPQVFTEFRQRIESARLQPLAPLPAPTQLPAP
+PNEPLSTLPGWTQDPFTLLQAHTEGDAHLRSNFPYTQAAYRGGEASALAHLKNYLTPPWP
+DRYKQTRNALQGEHTSSHWSPWLATGAVSARRIWAELQAYEQQHSSNDGTYWLWFELLWR
+DNFRMLHLQHGPQLYAARGLSNLPRPSHFPKDFARWCSGQTGEPIVDAGMRELAATGFTS
+NRMRQIVASFLVHDLSCDWRAGAAWFESQLVDFDVCSNQGNWLYVSGRGTDPRVGRRFNP
+TKQTQDHDAQGRYRNAWLAQ
+>tr|A0A0N7J920|A0A0N7J920_9BURK
+MKNLKKLALGLVMALGLVAGAHAAGGGIAWDKAPKKTNDLAALQNGAKLFANYCLNCHSA
+AFMRYNRLKDIGLTDQQIKDNLMFATDRVGDTMKAAIDPLQAKEWFGKNPPDLTLMARSR
+SGPGGTGADYLYTYLRTYYRDETKPTGWNNLAMPNVGMPNPLWELQGEREPVYTEKEDHG
+HKVQIFSGWKQVKPGTMTPLQYDQAIGDLVGYMQWMAEPAQNTRVRIGVWVLIFLSVFTF
+IAWRLNAAYWKDVK
+>tr|A0A0P0MC53|A0A0P0MC53_9BURK
+MLRHPAHAIALGFGSGLAPKAPGTVGSLWGWASWLLIQNSFSLTTQAALILVSLVIGWWA
+CTLTARHMGVSDPGAIVWDEIVAMWLILFLLMPAGFITQLSAFLLFRFFDAVKPGPVAWA
+DRLFKGFGWRGGWGILFDDLVAALCTLMVLALWRWF
+>tr|A0A0P0M9N9|A0A0P0M9N9_9BURK
+MKQQPSPHQETALTDSPKLTARQQEILELIQNTIANTGAPPTRAEIASVLGFKSANAAEE
+HLKALARKGAIELVSGTSRGIRLKGSSRSNPRAPSDLFSLSLPGLGQLCLPLVGRVAAGS
+PILAQEHVDRSYQVESSLFAQQPDYLLKVRGMSMRDAGIMDGDLLAVKSTKDVRNGQIVV
+ARLGDEVTVKRLHKTASGIELLPENPDYPTIVVHPGEPFDIEGLAVGLIRNTFVM
+>tr|A0A0P0M7E6|A0A0P0M7E6_9BURK
+MKQPHLFDKIDLQLIRTLHTLLIERSVSKTAMRLGQQQPAVSVALKRLRELTGDPILVRS
+GTGMVPTDVGLRMLGPVTQILQSAENLFSPARAFDPAHAQETFRIAASDTLDPLFLPSVM
+ARIKSLAPGCRVEVHALSAQAQYAHDLGQGLIDVVIGNWAQPSEELHRAQLFEDDIMCLV
+SSKHPAVRRGWTQDDWLACEHIAPMPAYPGWRGVIDEHLDSMGLERLIAARCAHFGLMPR
+MVASSLLVLTTGRHYCQRFLEGDVPSGLALLPCPVPFPKMVYYQLWHERSHNAEAARWLR
+EQVKISALQLSPPTAA
+>tr|A0A0P0MAP9|A0A0P0MAP9_9BURK
+MKKEVWFGLTIMALVVLSAFVLLPTPSEMTNGHLGLLMLALVVVAIMLGFPTAFTLMGMG
+MIFAWIAYKSQNPDLAVQQTLDLMVQRAYSVMSNDVLISIPLFVFMGYLIERANLIEKLF
+KSMHLAMARLPGSLAVATIVTCAIFATATGIVGAVVTLMGLLALPAMLRAGYSVQLSAGA
+ITAGGCLGILIPPSVMLIVYGATAGVSVVKLYAGAFFPGIMLATLYVLYVVIIAKWKPHM
+APPMSAEDRIVPLPAFAQVVSKDISNTVLPGLIGAIKGKRNAAVPMRELLNHLVIALLPL
+LAVAAIMGTIYFKVTAPLPVETVEGVVAMGGELSDSVETAEEGESISGLSEPEADGLQLP
+PGTEAVSAASEAVSTAQAPKEATPAPAAAAVTADAESAAAERQDAPLSFWIGLASCAVAL
+AIFYAYFSFARLEIFKMLLGSFFPLALMILAVLGTIVFGLATPTEAAAMGSLGGLLLAAA
+YRRLNYVVLRESVYLTAKTSAMVCWLFVGSSIFSAAFALLGGQEIINSWVLGMDLTPVQF
+MILAQVVIFLLGWPLEWTEIIVIFMPIFIPLLPHFGIDPLFFGLLVALNLQTAFLSPPVA
+MAAFYLKGVSPPHVTLNQIFAGMLPFMAIQVFAIVLLYMFPAIGMWLPEVLYK
+>tr|A0A0P0LN29|A0A0P0LN29_9BURK
+MKRFDAWMTPTRMLWASVVVALVTIALKTGAWWLTDSVGLLSDAMESLVNLASAVFGLMM
+VTVAARPADDDHPYGHHKAEYFSSGFEGILILVAALGIIWVAAHRLFDPQPIEQVGWGLA
+LSVGSSALNGFLAWLMFRAARQHRSLALEADARHLVTDVWTSAGVVVGIALVSITGWLWL
+DAVVAIGVALNILKEGWSLVWRSSQGLMDEALEPEVLSDVQRVLDGFAHQRGETEIIRFD
+HLNTRKAGQRRFVDVHMHMPASWTLGRAAALRASVEQALMSEVPGLRATIQLLPSDVEAH
+FDDARDLK
+>tr|A0A0P0M879|A0A0P0M879_9BURK
+MKPAPTAPDEVTAKPSDGPLVKLSLFWRTFILLALLIFFSSVAWLQMFKTQEYEPRILRN
+AHQIATVVNLTKTALKNSDEIARLSLIEMLADEEDVRIQLREPTDRIVAFTDSGMDSRLV
+NEMVKRLGPGTLIASSVNDEDGLWIGFPIERDSYWLQMDPSRLKPLGGSAWLIWLSFTTA
+LSLGGAAFMAGLINRPLKRLSYAASRVREGHFHEAPLDEGAATSEIREVNIGFNRMAERL
+AKIEAERALMLAGISHDLRTPLARLRLETELSVNDAQTRELMVADIEQLDDIIDKFLDYA
+RPEPTDLGPVLLSGVISRCITPWRHNPRLQISVDVGEDLQVQAETVELGRVLSNLLENAR
+RYGQSPADGITRVEIVARVHDGWVLLRVRDQGPGVSEETLKNLTQPFFRGDAARTAATGS
+GLGLAIVERSVQRMGGTFSVFNNSAGGLMALMKFRQAESD
+>tr|A0A0P0M7J9|A0A0P0M7J9_9BURK
+MRTTFNYKHLYYFWVVAKEGGITRAADKLDMAVQTVSAQVRELERSLGYALLKPAGRGLV
+LTDAGLAAMQQADQIFQLGENLPAMVRDAVSSPTVRLAAGISDGLPKLVVRRLMQPVMGE
+PHLRLLCHEGEFDELLGDLALHRLDVVLSDRPAPGNANIKLYNHALGTSPVSWYGTAALV
+KSAKKKFPASLADVPVLLPTGHTAVRARLDNWFEQHGIRPRIVGEFEDSALLKTFGESGM
+GVFPAAEWVHDELLAHYDVQRLGPCEGVKENFFAIGTEKKVQHPLVQRLLQASDTST
+>tr|A0A0P0M9Q1|A0A0P0M9Q1_9BURK
+MNTDIQRLHVAARYSEAAVFNGVVYLAGMVPECEATDIRSQTADVLQQIERRLAEAGSDK
+TRILRTQIYLQDITDIAAMNEVWDAWVVAGSAPPRATVQAALANPAYLIEVVVTAAVKG
+>tr|A0A0P0MBG2|A0A0P0MBG2_9BURK
+MKPLLKPAAAPYVLISPFLLLFLVFGLFPIVFSFVLMFHVWDPVKGLNSMEFVGLENLQF
+AMEDPLVWTSLGNTLWMALASGLPQHLVAIPLAYLINEKLGRWRNAAMGAYFLPYITSTV
+AIAIMFSTLFSTDYGMVNAALSELAQWPLLNAVLPDKNIDWLGSPEAVKPVVSAVVFWRY
+LGFNVILYVAAMQSIPRELYEAARMDGAKSWQQFWFITLPQLKPIMFFGVTLTVIGGLQL
+FEEPFILTGGKGGPEYAGMTTAMYMYRTAFDFNDFGLASAISWMLFVIILVMTVLTNKAF
+KSKEGQT
+>tr|A0A0P0LRL2|A0A0P0LRL2_9BURK
+MKILISNDDGFRADGIVALHAALQAIADVEVVAPEHNNSAKSNALTLHTPLYVNRAENGF
+RYVNGTPADCVHIALTGLLGYRPDLVISGINNGANMGDDTLYSGTVGAAMEGYLFGIPAI
+AVSQIDKGWAHLDAAANTVARMVQQMMDQSLIGTLPWLLNVNIPNLPLDQIKPPKVCRLG
+RRHAAEPVITQVDPRGQTMYWIGAAGAAMDDSAGTDFHAADLGHVVVTPLKVDLTEHDHL
+QAWSQTCARLWQQDGA
+>tr|A0A0P0M9W4|A0A0P0M9W4_9BURK
+MTTTATLTTAPTLMPWTDSLYTGDARMDETHQEFVDMINQILATPEDQQLPVYKAFLDHT
+VEHFAQEERWMLATGFSADNCHAEHHATILETMRVVEAHYLDSDPTIITRMAEALAEWFP
+GHANSMDAGLAAHLKSVGFDSVTETLADPSAIQNVTMSGCGSVSCS
+>tr|A0A0P0M957|A0A0P0M957_9BURK
+MTRGLFISFEGIDGAGKSTHIARVAELFRQAGRAVVLTREPGGTPLSEKLRELVLHAAMD
+PLTEALLMFAARREHLVQVIEPALARGEVVLCDRFTDATFAYQGGGRGFEWQVLGELERM
+VQALPDGSLRQPDLTVWFDLDPVIAAERLASARVPDKFESQPADFFAAVRAGYARRQAEM
+PSRFARIDAAQTMEAVGDDVSRTVRFWLQRNDG
+>tr|A0A0P0M8Z5|A0A0P0M8Z5_9BURK
+MATQSTVKTSNEYSEGSIRVLKGLEPVKQRPGMYTRTDNPLHIIQEVLDNAADEALAGYG
+KKIKVILHADGSVSIEDDGRGIPFGLHPEENAPVIELVFTRLHAGGKFDKGKGGAYSFSG
+GLHGVGVSVTNALSKRLEATSYREGQVATLVFSGGDVTEPLVKRATGEGDRKQGTTVRAW
+PDAKYFESSALPMNELTHLLRSKAVLMPGVTVTLVNEKTKETQQWQYKAGLRDYLTQTLN
+GDPVIPLFEGEGFADANHDSFAEGEGASWAVAFTEDGAPVRESYVNLIPTSAGGTHDSGL
+RDGLFTAVKSFIELHGLLPKGVKLMPEDVFARASYVLSAKVLDPQFQGQIKERLNSRDAV
+RLVSSFVRPALELWLNEHVDYGKKLAELAIKAAQTRQKASQKVEKRKSSGVAVLPGKLTD
+CESKDIADNEVFLVEGDSAGGSAKMGRNKECQAILPLRGKVLNTWEVDRDRLFANNEIHD
+ISVAIGVDPHGPNDNPDMSNLRYGKVCILSDADVDGSHIQVLLLTLFFRHFPKLIEAGHL
+YVARPPLFRVDAPARGKKPASKAYALDEGELTGIIDKLRKDGVKEGGWSISRFKGLGEMS
+AEQLWDTTLNPDTRRLLPIELGPLDNAGTENLMTQLMGKGEAAARRELMELHGDSIEIDV
+>tr|A0A0P0M8S5|A0A0P0M8S5_9BURK
+MNLHQFRFVQEAARRNLNLTETAKALHTSQPGVSKAIIELEEELGIEIFARHGKRLKRIT
+EPGQHVLHSIEQILREVGNLKKIGEQYSAQDSGTLSIATTHTQARYVLPVPVAKLREKYP
+KVNISLHQGAPDQVAKMLLDDTAEIGIATESLSAYEDLVTLPCYEWQHVLVLPLDHPLAC
+KSHLSLEDIANEPLITYHPSFTGRSRIDQAFAAKKITPRIALEAIDSDVIKTYVRLGLGI
+GIVAEMAVQDDPVKDLAVRPLGQLLGMNVARVAFKRGAYLRQFVYQFAELLSDRLTAPLI
+ARAMTGHVNDYEL
+>tr|A0A0P0MBL5|A0A0P0MBL5_9BURK
+MKTPVYTRAQALPEILNTRIAILDGAMGTMIQRFKLTEADYRGERFKDFPKDVKGNNELL
+SLTRPDVIRDIHEGYLAAGADMIETNTFGATSIAQADYDMQHLTREMNLQSAKLARAACD
+KFSTPDKPRYVVGALGPTPKTASISPDVNDAGARNVTFEELRAAYYEQVEALVEGGSDIL
+LVETIFDTLNAKAALFAIEEFFEASGERLPLIISGTVTDASGRILSGQTVTAFWHSVRHA
+QPLAIGLNCALGATLMRPYIQELNKVAGDTFISCYPNAGLPNPMSDTGFDETPEVTSRLL
+HEFAAEGLVNIVGGCCGTTPDHIGAIGRAVAPLAPRNVHGGFFYKEAA
+>tr|A0A0P0M8E7|A0A0P0M8E7_9BURK
+MINAPTQQALLAIMVHAAMADGEKSQAERDFVRDLSLQLDEQGGAKQLAQAVQAALLGRL
+SAQQAAAQLQDPMHRQLAYEWATAVCHADGLCSPAEAAFLQQLKTHLQLGSAEPEATAHS
+QALAQAAYAEEAAAPLHAPAAVEALPTATAALPSAPAAAPAPAADNAAIDRSILNYAILN
+GALELLPQSWASMAIIPLQIKMVYRVGQAHGVSLDQGHIKEFIAAAGVGLTSQYIEEFGR
+KLLGGLLGKAGGKLLGGLGSQATGMAFSFASTYALGHLAKRYYAGGRVMSTDLLRQTYQG
+LLSSGKTLQQQHLGDIQARASTLDAGEVMRMVRG
+>tr|A0A0P0MAP4|A0A0P0MAP4_9BURK
+MMQRRDWMRIALALGLAGAVWGLSGCGQDKPAFRAVDITGADYAQGWELSDQNGQVRTLK
+DFAGKAVVVFFGFTQCPDVCPTALQEMAQAKQLLGADGAKLQGVFITVDPERDTPELLKA
+YMANFGPDFVALRPTAEQLPKVTKDFKIYYKKVEGKTPTSYTMDHSAGSFTFDPQGRIRL
+YNRHASGAEALAADVKILLSGK
+>tr|A0A0P0MB15|A0A0P0MB15_9BURK
+MAVVRILVTGFEPFDGQSLNPSWEVARALHGLQLQGEQGAQVTAVQLPCVFATALPTLQQ
+ALAQHRPDIVLALGQAEGRCDFSVERVAINVQDARIPDNAGAQPIDVPVIAGGPAAYFST
+LPIKSLVAGLKAAGYPASVSQTAGTFVCNQVFYALQHTLAGLGVHSGFMHLPLLPEQAAQ
+WKGPTLPSWPAPFQIAGVTQALALLVAQRQQKRGDAAITGGTLN
+>tr|A0A0P0MB27|A0A0P0MB27_9BURK
+MANESTMNTPPEGDKERAGIQSVEVGFALLDVLAQAPGPLMLRDLASAAGMSAAKAHRYL
+VSFQRLNLVVQDANTRYELGPATLRLGLATLSRLDAVKLARERLPALMDQTGHTLALAVW
+GNRGPTLVHWQETPLAMPVSLRLGDVMPLLSSATGRCFASFIGHGGAADKARPMMDAELA
+LARKLGRSDLPSTPAQVQALLSETRAQGLGRVVNVLLPGISGLCAPVFDAGGHLALGVVS
+LGSSATFDANWQGPMAQALRTFAQQLSADLGWRSA
+>tr|A0A0P0M9Y6|A0A0P0M9Y6_9BURK
+MSTQYECLKSPDLYAEAFGIAPPAALLGKEVWPRQPGFFIRKALVAAEAALPATPEMGAD
+AEAATAPVQAPASPLVMALAQGQFGLVPTWVKSASDAKLRSTKLAVTRYETMSTATATRE
+TWLKGQRCIIPMQAFFEDDWRSRKAVPTRIARVDGQPMGVAGLWECWTQGDEEIVSFTLL
+TVNANSHALMNRYGQNGNEKRMPAILNEGAYGAWLNAPLDKAREFMRAYPANLLLANPVQ
+KK
+>tr|A0A0P0MAT7|A0A0P0MAT7_9BURK
+MAGFQGKPLLLNFWATWCPPCIDELPMIEAFWRENTAKGHQVVALAIDQPSAVRRFLDRQ
+PLGFPIGMAGLAGTELAKSLGNAAGGLPFTVFFKADGSIWRQKMGQLTPDDLFQWRSATL
+>tr|A0A0P0MAZ4|A0A0P0MAZ4_9BURK
+MKRYWLLFSQWVTVLLAIWFVVATLQPTWLRGAQRSVDGMTLLQAAPAASGNRPVGSLSA
+PAQKASPAVVSINTRQGKSQNPHGQDPWFRFFYGEQEEQNPGGLGSGVIVSPEGHILTNN
+HVIEDADNIEVVLSDGRKTQAKVIGTDPDTDLALLQIPLDKLPVIVLGQLQDLQVGDVVL
+AIGNPFGVGQTVTSGIVSALGRSQLGINTFENFIQTDAAINPGNSGGALVDVNGHLMGIN
+TAIYSRSGGSMGIGFAIPISTAKQVMQDLLQNGKVVRGWIGVEPQDLSPELAESFQLPPL
+KADQSRQGVVITGVLQNGPAAKAGVRPGDVILQVAKQPVSSVSDLLNQVASLKPGEPAEL
+LIWRQQASLSLRLTPAERPSPKRQAP
+>tr|A0A0N7J8V0|A0A0N7J8V0_9BURK
+MEINKAEMASAASVASSGQELRGAEILVKALQAENVEFVWGYPGGAVLHIYDAFYKQETI
+QHVLVRHEQAAVHAADGYARATGEVGVALVTSGPGLTNAVTGIATAYMDSIPMVIISGQV
+PTAAIGLDAFQECDTVGITRPIVKHNFLVKDAGDMAEVMKKAFHIARTGRPGPVVVDVPK
+DVSFNKTLYTGYPDKVEMRSYNPVRKGHGGQIRKAMQLLMSAKRPYIYTGGGVLLSNASP
+ELRALVDMLNFPVTNTLMGLGAFPATDRRFLGMLGMHGTLEANNAMQNCDVLLAVGARFD
+DRVIGNPKHFAQNERKIIHIDIDPSSISKRVKVDVPIVGDVKDVLTELMGMIRESGLKPD
+SQALAQWWETVEGWRKRDCMKYDHQNSLVIKPQKVIETLWDMTKDADAYITSDVGQHQMW
+AAQYYKFNEPRRWINSGGLGTMGVGIPYAMGIKLAKPDSEVYCVTGEGSVQMCIQELSTC
+LQYNTPIKIVALNNGYLGMVRQWQEIDYSGRYSHSYMDALPNFVKLAEAYGHVGILVEKP
+EDVEPALREARRLKDRTVFLDIRTDPTENVFPMVQAGKGITEMLMGAEDL
+>tr|A0A0P0MB91|A0A0P0MB91_9BURK
+MSDPAPSVNPVNNPPPATVRTWREALRLYLQPASLRMLALGFAAGLPLLLVLGTLSFRLR
+EAGIDRSTIGYLSWVGLAYGVKWMWAPLVDRLPIPWLTRQLGRRRSWLLVSQLVIALGLV
+GMALNDPSQLLGPLVACALAVAIASATQDIALDAYRIESAEVNAQAALAASYQTGYRLAM
+IWAGAGVLWVAAWAQGDQATGYSQAAWQAAYLVMALSMLPGMWVVLASPEPVPAPFAPAR
+NLAEWLKGAVVEPFADFWLRYRWQAVLLLALIAVYRISDVVMGIMANPFYVDMGFTKSEV
+ASVTKVYGVIMTLVGAFVGGLLAARMGVMRVLMLGALLSALTNLLFVWLSGVGHDVQALV
+WVISADNLASGIASAAFIAYLSSLTNISYSATQYALLSSMMLLLPKFIAGFSGEFVDAHG
+YASFFTATAWLGVPVLLLVALASRVHAHAPEHGSLPSSR
+>tr|A0A0P0LK24|A0A0P0LK24_9BURK
+MFLELRQLDIQYPGSTTPAVQRVNLGLRSGDIGVLIGPSGCGKTTLLRAVAGLEPVSGGQ
+ILLSNRVVSEKGHTEPAERRRIGMVFQDYALFPHMDVGRNVGFGLEHLPKAERLARVAEV
+LELVGLAGSDQRFPHELSGGQQQRVALARALAPKPDLLLLDEPFSNLDIDLRERLAHEVR
+NILKAAKATALLVTHDQLEAFAIGDVIGVMNEGQLHQWDDAYSLYHRPATRFVADFIGHG
+VFTPATLREVDGHILVSTPVGELRDVAECPLPCDFEGGQCDVLLRADDIVHDDDAPVKAQ
+IIRKAFRGSEFLYTLRLASGDLLMAHVPSHHDHKLGEWIGIRAEVDHVVTFNRTCPVSDR
+ELCQMPCAKAEACEHTDPKYQSIKYT
+>tr|A0A0P0MAN6|A0A0P0MAN6_9BURK
+MAVIGIMSAMHEELAAVLSAMPDEQRLQVAGRDFWVGHWQGHSVVAVLSRIGKVAAATTA
+TVLLERFGVDTLVFTGVAGGLGSGVRVGDVVVADGLVQHDMDASPLFPRHEVPLYGRARF
+EADAKLAVQLAQASEQVLADAALHLGPSTLAEFQLNTPRVHRGLILSGDRFVSTSAESHA
+LRQALPEALAVEMEGAAVAQVCHDYGVPFAAVRTISDRADDTAHTDFQRFIREVASSYSL
+AIVSQWLRQRALD
+>tr|A0A0N7J8J0|A0A0N7J8J0_9BURK
+MTLPTLALFTGDPAGIGPELVEKMLQNPAWQTHARVILIGQKGSIQVPHDVVWHEWSGFN
+APAFERGVANAQNGRYMIDALAAGVDLVMAGQADAFCFAPLNKSALRQGGMTQEDELRWF
+AEHMHYTGVCGELNVLKNLWTARVTSHVPLSEVSSLLNPEKVADAIRMISQALRASGIDQ
+PRVAVCGLNPHNGDNGNYGDEEGRIIAPGVQLAADMGFAADGPFPADTAFVRAIRSPGGY
+DGVVTMYHDQGQIAMKLMGFEQGVTVHGGLPCPITTPAHGTAYDIAGRGAANPQAMTNAF
+ELAARMAHSRRSSQPQPEETLS
+>tr|A0A0P0MB54|A0A0P0MB54_9BURK
+MSDNSHDQHEAHTGPVKTPKQMLLLSLASFVIPVFIIIGLVFYVTSANKPAAGAVDTEKA
+TAMRIQKIGAVEVRDANRPLKAGAEVYKAQCAACHDAGAAGAPKFADAGAWRARLGQGLE
+GLVNSALKGKGAMGAQGGGDFNDTEIARAVVHLANSGGGKFDEPKAPEAAK
+>tr|A0A0P0M8Q1|A0A0P0M8Q1_9BURK
+MAYEIDLSGRVALVTGASGGLGAQFARTLAAAGAGVVLASRRMDKLKDLRAEIEAAGGDA
+HVVEMDVTDRHSIAAAVAHAETEMGSIDILVNNSGVSTTQRIQDVTEEDYDFIMNTNVRG
+AFFVAQEVGKRMLARAKGAAPGSFTGGRIINIASMAGLKVLPQIGVYCMSKAAVIQMTKA
+FAVEWGKFGINVNAICPGYIDTEINHHHWQTEQGQKLISMLPRKRVGQPQDLDALLMLLA
+SDQSHFINGAVVSADDGFAV
+>tr|A0A0P0M7U2|A0A0P0M7U2_9BURK
+MSDTSLQIEFPEGLPVSARRDEIMAAMDQHQVIIVCGETGSGKTTQLPKIALMLGRGKLN
+AKPGERARMIGHTQPRRIAASSVARRIAEELKTPLGEVVGFKVRFQDRLSKNASVKLMTD
+GILLAETQTDPLLQAYDTIIIDEAHERSLNIDFLLGYLRQILPRRPDLKIVVTSATIDAD
+RFAKHFASRNGPAPVIMVSGRTFPVEQRYRPFEESRDYGLNEAMADAVDELWQGGAGGDI
+LIFLPGEREIREAADHLRKHLAHQPLTRGAEVLPLFARLSQAEQDQIFEASNGRRIVLAT
+NVAETSLTVPGIRYVIDAGTARVKRYSLRSKVEQLLVEPISQAAANQRAGRCGRVANGIC
+IRLYDEKDFAGRPRFTDPEILRSSLAGVILRMKSLHLGVVEDFPFIEAPSKRAITDGYQL
+LAELGAVDDDNELTPIGQELARLPLDPRVGRMILEARGRNALDEVLVIASAMSVQDVRDR
+PMDAQAQADQQHAKFDDDKSEFTGYLKLWKWIHDARGGPSKSIGVRSQLNAPAQEASQHK
+LSNRQYEQLLRQNFINIRRVREWRDTHTQLLTVVSEHKWRINTQPASYEQLHLSMLAGLL
+GNVGYKLEDEEAYLGARGIKFHKHPGAHLSKKPGRWIVVAELVETTRLFGRGIAAIEPQW
+LEQVGAHLLRKQVLDPHWEKKSAEVVALERATLYGLVVYSGRRTAYSRVDLHGARDIFIR
+EALVGNQWETKLPFLAANHKMIAKVEELEHKSRRQDVLVDDELIYAFYDQQIPAEVCSGR
+LLEDWYRHESVKQPRLLLLSREELMRHEAAGITTQAFPKHIRLGGTDCQATYLHEPGDAR
+DGVTVTVPLFVLNQVSEDRCEWLVPGLLKDKIQALLKSLPQRPRSRFVPLPESATRLAAE
+LSVPELFGSGSLTDVLLKKARDETSLDIKRTDFKHEMLSPHLFMNLLVVDEHGRQLGMGR
+NLGALKGELGAKARGAFQALAQLKVAAPPTPIPVQASANAPANTTGANRNNTAPAKAAAA
+PKPLAPQRYTAWTFGELPELMEISKGGQTLIGFPALVDMQDAVTIEVFDEPDVAASKNRA
+GLRRLFALQIKDALKYLEKNIPDLQKMAVAFMPLGTADELKAQIIDVALDRAFLLDPLPN
+DEITFKRRIEEGRGRLTLIANEVARLAGTILLEFGAATRKIKDTKNAPDATADCTQQLQR
+LMPKNFMAATPWPQLQHCARYLKAVTLRLDKYRADPARDAQRLAELKPQEQRYWRLVAER
+KGAQDARMLEFRWVLEELRVSFFAQELRTPQPVSIKRLEKAWGQLNH
+>tr|A0A0P0M9X8|A0A0P0M9X8_9BURK
+MPVIKILPHPEYCPQGAEITAPAGTSICEALLDNKINIEHACDMSAACTTCHVVVREGFK
+TLNEMEETEEDLLDRAWGLEPNSRLSCQAFVAKSDLVIEIPRYTINHAKELH
+>tr|A0A0P0M8J5|A0A0P0M8J5_9BURK
+MNTAPLNIVFHGQNAANFRQGFEALISPQHRISDVSDGLDQPGEQSLYENADVVIGIQLH
+SAMPQPRKARLFHAPAAGTDAISTALLPAHCTLANCFGHENAIAEYVMAALLTRHVPLVR
+ADKDLRQGQWTFWAGRQAALRTEMGAQTLGLLGFGHIAQAIAHRAKAFGMRVHVANRSPI
+QHPLVDHSWTLDNLHTFMASADAVVVSLPLTDNTKGLVNAAALAAMRPDAVLLNVGRGAV
+IDESALYETLKSRQIGGAVIDTWYQYPTPTDSECAPSKFDFAGLDNVLMTPHMSGWTTGT
+VRRRQETLAENIGRLSRGEPLIHVLHGPGSTG
+>tr|A0A0P0LI56|A0A0P0LI56_9BURK
+MALIGAALARMVTHLPKRYQQGKMPYVFFFVVVVIAVLLTYAVFSPYSYANVIFTSFAAC
+LFALLVMVNRGFSLDWATHLATGLGALVLFYAAWSAGGVYSPRLAWMLILPLTPFYVISR
+RAGIFWLLAVLLLQFLMVVSNHQGWIQSFETGMAHVPSSLLTYTLVTCVLIVVPLMYDHM
+YRQALEESRKHQRELEARREELEHTSAMREHFIATVSHELRTPMNAILGFNALLLARVQG
+KPEALKVLNHTRQSADHLMTVINDILDYSQLQSGQLVIQPETFELRHIAQHAFELFKPRV
+ESMNLDYRLVLDPALPVWVHTDRHRLMQVLVNLLGNALKFTHQGSVVLQVRWTDPGVEFS
+VQDTGIGIAKERQEQIFKRFAQAENDTQTLYGGNGLGLAISQKLAQLLGGAIGFESEPGQ
+GSRFWLQLPLTAASAPLKSAEQLLQPLQSADRAWTFLVADDHPVNRLLLKQVLQNAWPHS
+VVLEAVDGQKALDVLREQPVDLVFMDMVMPIMDGIDATRLIRQDALDRIHQVPVLGLTAN
+VNPLDLECFKSAGLNGVMLKPFEPATLCHRAETLLLPTGDAA
+>tr|A0A0P0MAV4|A0A0P0MAV4_9BURK
+MKASQFLISTLKEAPADAEVVSHKLMTRAGLIKKLGAGIYNYMPMGLRVIRKVEAIVREE
+MNRAGAIEMTMPVVQPAELWQETGRFDKMGPELLRIKDRHGRDFVIQPTSEEVVTDVVRQ
+EVRSYKQLPKNFYQIQTKFRDERRPRFGLMRGREFTMKDAYSFDRDMVSAKASYQVMAGA
+YRKIFDRFGLTYRAVAADSGAIGGDLSEEFQVIAATGEDAIVYCPTSSYAANIEKAEALA
+PSQPRGAASQALTKTPTPGKSTCEEVAALLNVPLSTTVKSLVLATDTLNEQGEIVKSQVW
+LLLLRGDHDMNEVKVGKLPGMEGGFRFATLSEIEDHFGCKPGYLGPLNLKKPVHLVADRD
+VAVMADWICGANEPDFHITGVNWGRDLPEPALVADIRNVVAGDKSPDGQGELAIERGIEV
+GHVFYLGTKYSKAMNATFLDETGKPQFLEMGCYGIGVTRLPAAAIEQNHDERGIIWPDAI
+APFTVVVCPIGMDRSEAVKAEAERIYVALLAEGVDVILDDRGERPGAMFADWELIGVPHR
+VTIGDKGLKDGQVEYQHRRDTESSKVAVADILSHLKGRLSH
+>tr|A0A0P0LSF7|A0A0P0LSF7_9BURK
+MTEVVRKRPEFRNINALKDLPSYRLPAAGIVSILHRISGFLMFLLMPLFIWMFDNSITSE
+ISFAKLSAAFGIGIGFVPGWFFKLLALALIWAYLHHFIAGVRHIYMDAFHAVTKEFGKSS
+AVATLVLSLGLTAVLAAKLFGLY
+>tr|A0A0P0LTH8|A0A0P0LTH8_9BURK
+MQTGDHAPKPQRIGVPREIFPGEKRVASVPDAVTKLVKLGFAVVVEQGAGELADLSDASY
+VEAGATIAPNAAALWSGSDIVFKVRAPTPDEVALMHEGQTLIGFLWPAQNPDLMQQLAAK
+KVTALSIDALPRTLSRAQKMDALTSMAGVSGYRAVVESANAFGRFFNGQITAAGKVPPAK
+VFIAGAGVAGLAAIGAAASLGAIVRANDTRAEVADQVVSLGGEFVKVDYEEEGSGGGGYA
+KVMSEGFQAAQREMYAKQAKECDIIITTALIPGKPAPKLITAEMVQSMKPGSVIVDMAAE
+QGGNCELTEPGKAVVKHGVTIVGYTDLASRMARQSSTLYGTNLFRLTEELCKTKDGVINV
+NMEDDAIRGLTVIKNGEITWPAPPLVVAPKPAAKPAAAPAAKKGHGHGEPSGPMPVGQLL
+IVSAVAAVLLVLVGAYAPAAFLSHFTVFVLACFVGYMVVWNVKPALHTPLMSVTNAISSI
+IAIGALVQISPLAAAGRPNTLIAILASLALVLTAINMFGGFAVTQRMLAMFRK
+>tr|A0A0P0LFH4|A0A0P0LFH4_9BURK
+MARPKSATHDIKRDAILDIAAQCFAQRSYPAASMNEIASACGTSKARLYHYYDSKEAILF
+DLLDRHTQRLLAVIAQTEANAQRKDLNDRATLHELVRAFLQEYETSATRHAALLNDTQFL
+SDVPDLALGAGPVSPRELILNRQRDIVAAMTRFMKRAYPERLTPTNQTALTMMLLGMINW
+TFTWLRPDGPISYAAFAGEVIGMLEKGLGQSAV
+>tr|A0A0N7J902|A0A0N7J902_9BURK
+MSGSKLSNPAAKNDLPDSPLAMTVHDMPSPATVVQADAQRTRMGRWKMIAMLLICASPVI
+ASYLTYYVIRPEGRRVYGELIQPQKDMPQTSAKNLQGQEVPLASLKGQWLLVTVASGQCE
+ERCQQNLYFQRQLREILGREKDRLDRVWLVSDDAPVAPGLLPALNMAHVLRLDATTVQSW
+ITPAPGQQLQDHLYVIDPMGNFMMRFPANMDVSGASKAKRDLDRLLKASSSWDQAGR
+>tr|A0A0P0MAR8|A0A0P0MAR8_9BURK
+MTDTAVTPSPEAQAPVFQIQRVYLKEASLEQPNSPAILLDQQQPSVDIQLGVEATPVAEG
+VFEVCVTATVHTKIADKTVFLVECKQGGIFEIRNLPEDQMGPVMGIACPQIVYPYLRGNV
+ADLITRAGFPPVHLAEINFQAMYEQQQVQQAEQAAAITQ
+>tr|A0A0N7J8C5|A0A0N7J8C5_9BURK
+MNKLLTSMFALAVASVTAFSAHAQEIKGDAKAGEQKIAMCIGCHGIQGYQASFPEVYRVP
+MISGQNAKYIVSSLNAYKKGERKHPTMRGIADTLTEQDMADLGAYYEQHAKVEPVTKAPK
+APDAKVATLLQKGACISCHGDNFNKPVDPSYPKLAGQHKDYLFVALKSYKVENQSTWGRN
+NGVMGGIAKQFSNAELKAISAYIASLDGEMKVVPQSRLR
+>tr|A0A0P0M8R0|A0A0P0M8R0_9BURK
+MMQSLPEGYRALVIGASGAIGSALLQQLQHDPRCAAVIGVSRQSSPGLDLLSEASIASCT
+KALAGQGPFHLVVDATGALTVNGRGPEKRLDELDATHLLDALQLNAVGPGLLLKHMAPLL
+ASGQRVIWGKLSARVGSIEDNRKGGWYGYRAAKAALNMLLQTAAIELARRRPLAVVAALQ
+PGTVQSALSQPFVGNDALRPEESAHRLLAVLDALQPTGRAQFVDHQGLSIPW
+>tr|A0A0P0MB14|A0A0P0MB14_9BURK
+MQFLNQIPVGEPISVSRGQSLLVAGGVGPVWRVTQGVFKLERQGQDGPILVQLAQAGDLI
+GVESLCAEPYAFTAVALVAAQALPLAASQDLDRYTTMTQGFMQQQRQTCDMHRLRTGTIV
+QRLAYLLTVLGKQADGRVLPVQRKELPTLKEMARVVDSTFETVCRELNTLLPERKQPRLR
+VPSVWAVGQPFAMAA
+>tr|A0A0P0M7M2|A0A0P0M7M2_9BURK
+MADYQNLFTTVQAVGPVHHGVELGHGNSPRTGQPVINYWIGKLGNAQLGPIYLGGLGLAS
+LVCGLIAFTLIGMNMLASVNYDPIQFVRQLFWLSLEPPPPSYGLSLPPLNQGGWFLIVGL
+FLTASIMFWWARTYRRAVELGMGLHIAWAFAAAIWLFLVLGLFRPILMGSWGEAVPYGIF
+SHLDWTAAFSLRYGNLFYNPFHALSIVFLYGSALLFAMHGATILAVTRYGGEREIEQITD
+RGTASERAALFWRWTMGFNATMESIHRWAWWFAVLCPITGGIGILLTGTVVDNWYLWAIK
+HGVAPPYPEIFPAMADPALSTGVKP
+>tr|A0A0P0LFY6|A0A0P0LFY6_9BURK
+MALPPDICIRGAGIVGRTLALLLARERLNVALVDVPAPTATPDVRAYSLNGAAKALLQDL
+RCWPEAPAVTPVHQMQVWGDDGGQLHFGAGDHGVGELNWMVDVPVLQDRLAQAVQFQPQI
+QVVQAPVAAPLTVVCEGRASQTRAELGVGFDITHYEQHALATRLLCERAHEGIARQWFGW
+SHAPGLSQPQAEVLALLPLGGEGGREVALVWSVHPLRAQELMGLSAEDFAAALAGACGHA
+LGGMQLSAERAVWPLQLARAERWIGPMPGQNKQAFALAGDAAHALHPLAGQGLNVGLGDA
+AELVRVIRAKEFWRPLYDPKLLRRYERARQADVQAMGLVTDGLQRLFAQPGPVWQNLRNW
+GMRGFDRSGPLKHWMTQRAMGQSAPAASTKATR
+>tr|A0A0P0M8E2|A0A0P0M8E2_9BURK
+MARTLYDKIWDEHVVHTEEDGTSVLYIDRHLVHEVTSPQAFEGIRQAGRKVWRVSSIVAT
+ADHNTPTTGWELGYDGITDPISKEQITTLDANMKEYGSAAFFPFLSKRQGIVHVIGPENG
+ATLPGMTVVCGDSHTSTHGAFGALAHGIGTSEVEHVMATQTLLAKKAKNMLIKVEGNLAK
+GVTGKDIVLAIIGKIGTAGGTGYTIEFAGSAIRSLSMEGRMTVCNMAIEGGARAGLVAVD
+EKTIDYVKGRLLSPTGVEWDHAVAYWKTLQSDPGAHFDAVVELDASTIVPQVTWGTSPEM
+VLGIDGHTPDPDKEKDDVKRDAIERALTYMGLQPGKALADITIDKVFIGSCTNSRIEDMR
+EAAAVVKKLGQKVAKNVKLAMVVPGSGLVKEQAEREGLHEIFKAAGFEWREPGCSMCLAM
+NADRLEPGERCASTSNRNFEGRQGAGGRTHLVSPAMAAAAAVHGHFVDIRKFA
+>tr|A0A0P0MB28|A0A0P0MB28_9BURK
+MKAEQNELITRIGPGTPCGAVMRHYWQPVALVDEFNPALDPRMAIRPVKAVRLLGQDLVL
+FRNALGDYGLLDRDCPHRGADLAYGRNEGDGLRCPFHGWKFDVTGQCIETPAEPTGSTLC
+KRVRQRSYPIIERSGILFGWFGPEGQTPPPLPGIDAFSAPATHTFAFKGLWHCNWLQAFE
+VGIDPAHASYLHRFFNDESLEGSYGRQFRGASAGDVQGERWPMTRVMRELDQPEISFEPT
+DAGMRLTALRQINEALTHVRVTNALFPHTFVIPLSESMTITQMHVPVDDTHTYWYSVFTS
+FDGPVDKEAMRNQRLPSVTLPDYIPKAGKHNNWGFNPEEQVSRTYLGMGEDDINVHDQWA
+CESMGAIQDRTREHLGTSDKVIMANRRILLKAIETVQAGGLPPGFAQAAVASQRMGPDTV
+DGIAPSGQWPQWWREACDAKRSGAPWDASLPGHAPTPADTSAA
+>tr|A0A0N7J8U5|A0A0N7J8U5_9BURK
+MSVTEQVQQTKTQSACECGTTCASTPVTFEHPSAAGLTNDDQRFRIANMDCASEESEIRQ
+ALVAIQGIRSLRFDLTARELTIAADPQVVAESIDAIRRVGFKPEPLIDERDKANAKGVAS
+HRFWDLWGKLIFALILSLAAEGLAFALPDDLTSKGLGMALAACAIALAGFSVYGKGLSAL
+VRGRLNMNALMTVAVTGAFLIGQWPEAAMVMALYAIAEAIEARAVDRARNAIKSLLALAP
+EQAEVLQADGQWVQCPVKTIEVGATVRVRPGERIALDGVVTSGTSAVNQAPVTGESLPVD
+KSAGDEVYAGTINQSGSLEIRVTALASDSTLTRIIHAVEQAQASRAPTQRFVDKFATVYT
+PAVFVLAVAVAVLMPWLADWTWIQALYKALVLLVIACPCALVISTPVTVVSGLTAGARRG
+ILIKGGIYLEEARSIKVVALDKTGTITQGKPKLVAFEPIDTSVDVATIQSIAKSLAARSD
+HPVSKAIAEGLTAALKDVTEFQAVAGRGVQGVIEAHPYALANHRWIEERQQCSAELESRL
+KVHEEAGRTVTILTNANRVMALCAVADTIKPSSTQAVAELKSMGVTPVMLTGDNIATAHT
+VAAQAGIDEVRGNLLPEDKLDAMNELQQRFGVTAMTGDGINDAPALAKANIGFAMGGAGT
+HIAMEAADVVVMNDDLRRLPETIRLSKRTHAVLWQNISLALGIKAVFLALAIFGDATMWM
+AVFADMGASLMVVFNGLRLLKAQH
+>tr|A0A0P0M7P8|A0A0P0M7P8_9BURK
+MTQVTNTVRFVLDGRIVEAQGERRTTTVLDYLREELHRTGTKEGCAEGDCGACVVMVGEL
+NAAGTGVDYVATNACIQLLPSLDGKSVKTVESLKKADGTLHPVQEEMIKCHGSQCGFCTP
+GIVMSLVNLVQVLPMPNRQQITDSLSGNLCRCTGYKPIIESATKACAKPEALKLDDSADV
+PLLKEIQRAKVPTLSLDGDIIVQPVVRTRKGNEFVSPATLAEVADYLVKNPTTTLLAGST
+EIGLQVNKQFSRPDHIMYLGNVKELRQVTETASAWRIGAAVSLTQVEMLVSQAYPDFTEV
+LRRFGSPPIRSTATLAGNIANGSPIGDTMPCLMTLGASLVLRRGDKTRKVLLDNFYTGMK
+KNVMEPGEFIEAVELPKPVAGQVFRAHKVSKRFEQDISATCAAINYTLKDGKLSGVKLAY
+NGLAPSPCRAPKLEAVLEGKSPSDVKASDLDAAIAASFTARDGLRATWAYRALVARNLVL
+EFIEEQKEVA
+>tr|A0A0P0MAQ9|A0A0P0MAQ9_9BURK
+MQDKYNHLEVEPAAQSRWTARDAYRVTEDASKKKFYACSMLPYPSGKLHMGHVRNYTIND
+MLTRSLRMKGHNVLMPMGWDAFGLPAENAALKNGVPPAKWTYENIAYMKKQMQAMGLAID
+WSREVATCDPTYYKWNQWLFLKMLEKGIAYRKTQVVNWDPVDQTVLANEQVIDGKGWRTG
+APVEKREIPGYYLNITAYAQELLDHVQIGNDKATLNGWPDKVRLMQENWIGKSEGVRFAF
+PHDIKGADGQLIGDGKMYVFTTRADTIMGVTFCAVAAEHPLALHAAASNPALAAFLEECK
+SGGTTEAEMATQEKKGMATGLSVTHPLTGAQVEVWVGNYVLMSYGDGAVMGVPAHDERDF
+AFALKYALPIQQVVSVKDQAFDATAWQDWYDDKQSCVCINSGELDGLTQKAAVSKVAELL
+AAKGLGEKKTTWRLRDWGVSRQRYWGTPIPIIHCDEHGAVPVPEKDLPVVLPQDCIPDGS
+GNPLHKHEGFHAGVTCPVCGKAARRETDTMDTFVDSSWYFMRYCDPTNTEKMVAEGADYW
+MRDQNNATGGSGMDQYIGGIEHAILHLLYARFWTKVMRDLGLVKVDEPFSKLLTQGMVLN
+HIYSRRTAKGGKDYFWPHDVEHVLDETGKVIGAKLKNEADSGDGRLPVGTPIDYEGVGTM
+SKSKNNGVDPQDLIERYGADTARLYTMFTAPPEVTLEWNDSAVEGSYRFLRRVWNFAFKH
+HELLRSATGQDLSQAALGDSAKALRREMHLVLKQVGYDYERMQYNTVVSGCMKLLNALED
+FKPDGSTGDTAALCEGVSILARMLYPACPHITDEIWQQLGYAKAVGELLDAPWPLVDESA
+LERDQIELMLQINGKLRGSIWVAAAADKAQIETSALAHEAVVKQAAGAAPKKVIVVPGRL
+VNVVL
+>tr|A0A0P0LLV3|A0A0P0LLV3_9BURK
+MNKVLLVTGGSRGIGAATALLAAQNGWSVAVNYTANSLAADEVVRQIRAAGGQAMSVQAD
+VADEAQVLRMFSHIDAKFGRLTGLVNNAGVVDVTARVDQMSVARWKRMFDINVIGSLICA
+REAVRRMSTKHGGEGGSIVNVSSAAARLGAPGQYVDYAAAKGAIDAFTIGLAKEVAAEGI
+RVNAVRPGLIETEIHASGGLPNRVKDLQHLVPAQRGGTAEEVAEGIVWLLSDKASYTTMS
+FLDISGGR
+>tr|A0A0P0LVD6|A0A0P0LVD6_9BURK
+MKKTLSPIQLKTIVLCLGAACAKSPAWAQTSNPAPKTYPPVEVVDKPLEYRQFEKVEITG
+SSIVRKEQTQALPVQIITRDDIRRSGASSMVDVLHNLPAMSMWVNSTAMSTTIGGYTTAS
+LRGLPAGTLLLLNGKRLAPYGRQTIIGVDRPSVDINTVPLSAIEKIEILSDGASSLYGSD
+AIAGVINIITRTEQKGVEIMAEKLGTSQGGGQGHQISLNAGKGNLNKDGYSLRLTAELFH
+RDALQASDRPQYAQGRYEVERDGQRYAIDGSRVTSYATPGTFFESANAATGSPRKVFSLL
+HQDGQCPSGYVPFLGQPSCQYNTYSALTLYPQQDSRKLLLSGEKWLGGTTTAYAEILHSR
+LEDSEMAAQGWRQLIYTLGKSPDSVGYQEALRAGMDPARTQFLWSPSLMHGLLRAYEQNN
+WRVATGLKGEWQGWDYKAELYKAQAHVVRRLEVTDFAGQGLVSGRVLTDPNMLRPLTPDN
+PLTATLNGLRNVWNTWDDSKTHTTVGHVRASRPLMEIQGKDVMLGAGLEWRREGTNYQYV
+SNTEQQPSFQAERDIQAAYLELQLPVTPQWDVTASTRWDRYSDLGTTHNNKLASRYDFEN
+GWSARASWGTGFRAPSVAQLQNLTKLYAIGSTTFLNECGPDILTVLSNLNARQNRNVACE
+RSLLQIYGTGNPDLKPELSTQKSLGLAYRPTRNFSVTADWWSVHMHDVISTLAGDIVYAD
+PIKYSQFYLLDNNNKLAMQLPNYNIGQREKSGIDFDMRWRAPVDMGQLNLFVQGAYNLKS
+KDQSVPGEAYTSDLARYNSITDTITPRMRLRWIAGLTTATWSLHGVVNYTSGYDDRDRSG
+VNLTTLQSTPLTGFYVKSFTTLDLTATYQVNTNVSLRATMGNVLNRQAPQAFSATAAQVF
+GYNTRDHSLWGRTLGLALLAKF
+>tr|A0A0N7J878|A0A0N7J878_9BURK
+MKTLVIAEKPSVAQDIVKALTPVAGKFEKHDDHFENDRYVVTSAVGHLVEIQAPEQYDVK
+RGKWSFANLPVIPPHFDLKPVDKTKSRLTAVVRQAKRKDVDALINACDAGREGELIFRLI
+EQYAGGTKPLNKPVQRLWLQSMTPQAIRDGFDSLRSNTQMQGLADAARSRSEADWLVGIN
+GTRAMTAFNSRDGGFFLTTVGRVQTPTLAVVVEREEQIRKFISRDYWEIHAEFAAAAGTY
+PGKWFDPAWKKDEDAEKKADRKWTAAEAQAIVDAVRGQKASVSEEATPTTQASPGLFDLT
+SLQREANGKFGFSAKTTLALAQSLYERHKALTYPRTDSRHLPEDYVPVAKQTFEMLADSG
+MRHLAPHALTALNNNYVRKIPRVFDNKKVSDHFAIIPTLQAPSGLSEAEQKLYDLVVRRF
+MAVFFPSAEYQVTTRISVAAGHSFKTVGKVLVKPGWLAIYGKEAAAEVEDAKDGDKGQNL
+VPVQAGEQVGVESVEAKGLKTRPPARYSEATLLGAMEGAGKLVDDDELREAMQEKGLGTP
+ATRAAIIEGLLNEKYMLREGREIIPTAKAFQLMTLLRGLQVEELSRPELTGEWEYKLAQM
+EQGKLSRATFMAEIAAMTEHIVKKAKEYDRDTVPGDYATLSTPCPTCGGVVKENYRRYTC
+TGADGASDGCGFSFGKSPAGRTFEQVEVEQFMRDKKIGPLEGFRSKAGWPFVAEMALKYN
+EEEKNWKLEFDFGDDKKNEESGEIVELTDEALGACPKCGSPVHEHGSNYVCSKAVPTNEQ
+PTPSCDFKTGKLILQQPVEREQIVKLLNSGKTDVLDKFVSNRTRRPFKAMLAWNPEEGKV
+TFEFEQREGGKKYPPRKTAATKTPFGKAAAKKTTAKTASKTAKAPAAKKAAKPAAEKAPR
+KAAVGTLQPSPALMAVIGDGTYARTEVVKKIWDYIKANNLQDPADKRSIKADGKLQAVFG
+KESATMFELAGIIGKHLS
+>tr|A0A0P0M6K1|A0A0P0M6K1_9BURK
+MSNHPATHPPELDWPFFDNSHRDFKVRLDVWCNEHLVHAHHDESRDAVDAECIRLVRLLG
+SGGWLKHAVSGTAYGAASDVIDTRQLCLLRETLAFHNGLSDFAFAMQGLGTGAISLMGTA
+DQKQRYLARVASGQALSAFALSEPDAGSDVAAMQCSATATADGYVLNGRKTWISNGGIAD
+FYVVFARTGEAPGARGITAFIVDADTPGLSIEERIDVVAPHPLATLKFENCKVAANQRIG
+EAGQGFKVAMATLDVFRTSVAAAALGFGRRALHESISWARSRKMFGQTLGDFQITQTKIA
+QMATMLDAATLLTYRAAWLRDQGGRITREAAMAKMTATENAQQIIDMAVQMHGGMGVKKG
+VMVESLYREIRALRIYEGATEVQQLIIGKDLLKG
+>tr|A0A0P0MBL8|A0A0P0MBL8_9BURK
+MGAYVNPIYPYKSSTEWMTTPPQRKPLIVIGAGPVGLAAAIDARLQGLEVLVLDDDKTVS
+VGSRAVCYAKRSLEILDRLGIANEACGLGVSWNIGRTFLEEDEVYQFNLVPDAGHKRPGM
+INLQQYHVEEMLIARALELGADIRWQHKVTAVTPSADHATLTVETPEGTFDIEADWLVVA
+DGARSPIRRHLGLDIEGRVFQDRFLIADVIMKADYPAERWFWFDPPFHPNQSVLLHKQSN
+NVWRIDFQLGWDADPEEEKKPEKVIPRLKAMLGDERPFELEWVSIYTFQCRRMTDFRHGR
+VLFAGDAAHQVSPFGARGANSGFQDADDLMWKLGLVIKGQASEKLLDTYAMDRQFAADEN
+IMNSTRSTDFITPKSRTSKTFRNQVLALAKHHPFARKLVNSGRLSVPSFLTGSVLNTPDT
+DVFEGNMVPGAPMDDAPVQVNGQDAWLLDQVGRGFAALLFVDVAPDAQTLATLQALKQNA
+VPVDSLIVAHQALQVPGFKVLVDIQGWMAKRYDAQPGTTYLLRPDQHVLARWRSLDSARL
+QAAMARALGQVGTQA
+>tr|A0A0P0M8S8|A0A0P0M8S8_9BURK
+MNSPAVFSPELQSHLNGSCPLPHWGVIQAHGEDAANFLHNQLSNDVLLLPVGQSRLAAFC
+SAKGRMQASFIVIKTAPDTILLVLSLDLLAQTLKRLSMFVVRAKVKMSDATGQWQLRGLM
+GDSARAAVGQAAPWQTTAQDGVHTVALYPAVLGESHIPRALWIAPAGHALPAGADAPTDL
+WQWAEVMSGLTLVSQPVFEAFVPQMLNYESVGGVNFKKGCYPGQEVVARSQFRGTLKRRT
+ALVHSPVALAAGQDIFTPADPEQPCATVVLCAARPDGQGFDALVSGTTESLQTGWRVGSS
+EGESLALLPLPYPLLADI
+>tr|A0A0P0MB41|A0A0P0MB41_9BURK
+MSDPLIMQAISRLVPQGARVLDLGCGDGALLAHLQQHRGCTGYGVELDDANVHACVQRGV
+NVIQLNLDEGLSLFADQSFDVVLQIDTLQHLRNAETMLRETVRVGREGIVAFPNFAHWFN
+RLSVLQGRMPVTKRLPYQWYDTPNIRVGTYADFGDLARKNQLRIMDAFGLQQGQEVRLWP
+NLMAGTAVYKLQRS
+>tr|A0A0P0M6X2|A0A0P0M6X2_9BURK
+MKHATALPPTRPFKFKQVTVRQPAYKALDADVFTKVWAENSALTERSAKALHSVGVLRQW
+TEGQVVLSRGQSTSTALLLVKGRLRVSVTTPEGEEQLLRWMLPGEISGLSSVFAETTYPA
+DLVAVGPTQVLHIERTRLVDLIARDPVVAVDLLRILGLRINQLFDTLADQGIHSLEQRVW
+ATLERIAKFNSVAVPDGVMLRVSQSDLAQAASASRQRVNQQLRHFQDQGLIRLGYRNIVL
+LRR
+>tr|A0A0P0M7R5|A0A0P0M7R5_9BURK
+MSRFTSLSSTRRVFMMQVATAATAVLAVSEASAQAMVDEKDPQAVGLAYKADGTKVDKAK
+NPKFAAGSNCANCALFQAKAGAAAGGCPLFAGKQVAAKGWCSAWAKKA
+>tr|A0A0P0M7A6|A0A0P0M7A6_9BURK
+MNTTSSYVRTGRNADALRPVRITRGYTVHAEGSVLIEFGQTRVLCTASVEEKVPGHKKGS
+GEGWVTAEYGMLPRATHTRGDREAARGKQSGRTQEIQRLIGRSLRAVFDLKKMGERTIHL
+DCDVLQADGGTRTASITGAFVAAQDAVNWLMKTGKLTESPIIDRVAAISVGLKNGTALLD
+LDYPEDSACDTDMNVVMTGAGNFVEVQGTAEGVAFTRVEMDRMLALAEKGIAQLVQLQKQ
+AHDEPQTLTFSA
+>tr|A0A0P0LMS6|A0A0P0LMS6_9BURK
+MDQRSSLNKPGFQPSLKGRALRLLSQREHSRAELERKLAPHEEVPGELAKALDELQARDF
+INDGRAVDSLVNRRAGKLGSARIQQELALKGLSGEAVAEALENLKDTEFSRAQAVWQKKF
+SDLPQDPHERAKHMRFLMTRGFSAEVVRRVVKGDGLDEEPLD
+>tr|A0A0P0LPM9|A0A0P0LPM9_9BURK
+MKRIPIGLILTLLLGLLPVLAQAAPDMPAVTATNTGKGTQYSLTLQLLALMTTLSVLPSL
+LLMMTAFVRIVIVMSILRQALGTGQTPPNMVIVGLSLFLTLFVMTPVLNEVYQTALLPYM
+NQGLSFDKALAAAEKPIRAFMLLQTREDDIAMFMEIARNKGITSAQDVPFMTLVPAFLTS
+ELKSAFTIGFLIYIPFVVIDLIVASVLMSMGMMMLSPMMISMPFKLMLFVLVDGWSLIMG
+SLAGSFAMP
+>tr|A0A0P0M9Z0|A0A0P0M9Z0_9BURK
+MFLSRQNFTAPRPPASQGQATHPSLRQTSSGFFKGLVWAALALCAGAASAQTPARFADDM
+AERTRACTACHGDQGRAGPDGYYPRLAGKPAGYLHNQLRNFAQGRRHYDLMARLVDPLTD
+AYLGEMALYFSKLQLPYPAPTANNAITPERLAKGQQLVTQGDATRGLPACTQCHGVRLTG
+VQPNVPGLLGLPLDYLNAQLGAWQTAQRRAHAPDCMAEIVKRMPAQDLIAVSSWLARQPL
+PADTRAAETAPAGPALPEALRCGSAPELSATRQATAPAKAGGQP
+>tr|A0A0P0LJ69|A0A0P0LJ69_9BURK
+MKNAVLKMNPVQRLGWVTLASVLLLALGVVWDNWGDLLRPQNDNTALTAPATEAQIEQGR
+YLALAGNCMACHTTRGGTPFAGGRRIDTPFGGVYSNNLTPDPETGLGRWTPQDFWQAMHR
+GRSKDGRLLAPAFPYNHTSVITRSDSDAIFAWLNTLPPVVQAQPTHTLVWPVGTQPALAV
+WRSLFFEPSPFQAAPTHSAEWNRGAYLVQGLGHCAACHSPRNALGASGAVNDLSGGLMPV
+VNWYAPDLTRDTESGLASTPLPEIVRLLRTGASSTAQTSGPMGEVVQHSLQHLTEADLNA
+MAVYLQSRAQNTPQPTTAKTPTARISLQVATQGTKVYERQCLQCHGEQGAGVTTASGEVA
+YPALAGNRAVLLSDPTNLVQLVLYGGYGPATQGHPRPFGMPPAVLELDDRDIAAVLTHLR
+TRWGNQASEVTPLQVNRIRAAQGH
+>tr|A0A0P0MB44|A0A0P0MB44_9BURK
+MPEGITPEFQMDAGQSLWQTCVEELARELPEQQFNTWIKPLSAQVSDDQQSVTLFVANRF
+KLDWVRAQYASRLAALLENLQGHPVKIELAITPREGGIKPAKASTPSSMEASAEPIPVPD
+EAVANTFRNRLNSALNFDNLVEGTANRMARAAAMHVSGSPGQLYNPLFIYGGVGLGKTHL
+MHAIGNKLLADRPDAKVLYIHAEQFVSDVVKAYQRKTFDEFKHHYHSLDLLLIDDVQFFA
+NKDRTQEEFFNAFEALLAKKSHIVMTSDTYPKGLADIHERLVSRFDSGLTVAMEPPELEM
+RVAILINKAISEGSEMPEDVAFFVAKNVRSNVRELEGALRKILAYSRFNQKDISIQLARD
+ALRDLLSIQNRQISVENIQKTVADYYKIKVADMYSKKRPASIARPRQIAMYLAKEMTQKS
+LPEIGELFGGRDHTTVLHAVRKISAERQQLTELNQQLHVLEQSLKG
+>tr|A0A0P0M6X8|A0A0P0M6X8_9BURK
+MKLHQLQALVAAVEHGSIRAAARELHLTQAALTKSLRQLEEEAGVSVLVRKSRGVGLTEA
+GVRLHARALLVMRQLALAQDELQQAQGDNAGTVRVALTPYLMLTVLGEAFLWFRKRYPRI
+ELRLIEGLVARVLPGLRDGTVDFAIVADSGDVTPQEFQCTRLQKDQQKLVVRAGHPVLRQ
+PTAAKLAALEWVMPGPFSQGLDEGLLAMFAQAGVPPPQQITRCDAMAAMALIRQTDAISI
+MPSPLLAQPEGHGLVELSLRSMRPPEIELVLLSPPDVPLTPAAAYLARCLTDAINARGKT
+>tr|A0A0P0M8U6|A0A0P0M8U6_9BURK
+MTAANPTAFPQQLSPSVRAWQRFRRNRLGFGSLVIFVTLFVLSLGAEFLSNDKPLVVRFE
+GQWYFPVVQTLPEKVFGGDFDTPADYLDPFIQQQLHKGGNWALQAPNPYHHSTLDYFAPL
+PNPAPPTAHNWLGTDDRGRDVLARLLYGFRVSVLFALALTLFGVVLGVLTGAVQGFFVGK
+TDLVFQRFIEVWSAMPELYLLIIFSAVFEPSVGLLLLLLGLFGWMGLSDYVRAEFLRNRQ
+LDYVKSARALGLGHWQIMWRHVLPNSMTPVVTFLPFRMSGAILALTSLDFLGLGVPPGTP
+SLGELLAQGKNNIDAWWISMSTFVVLVVTLLLLTFMGDALRDALDPRKVDA
+>tr|A0A0P0LEA4|A0A0P0LEA4_9BURK
+MTLAFQQVAIIGAGAMGRGIAQIAAQAGSQVWLYDTQPEAIAKAREAVFQQWDKLQEKGR
+LTAEAVAGHKSRLLGATQLQDLAGCDLVVEAIVEKLDIKKSLFADLEKVLPPTAVLVTNT
+SSLSVTAIAAALQRPAQFAGYHFFNPVPLMKVVEVIAGLKTDPAVCQRLTDYARQMGHTP
+VQALDTPGFIVNHAGRGYGTEALRIVSEGVADFATIDRILRDQVGFKLGPFELFDLTALD
+VSHHVIEAIYHQYYEEPRYRPNVITAQRLAGGVVGKKVGEGFYKYVDGAAQVPAEPPVPV
+VENIPPVWVSPRATRRMELLQLLKDLGAKIETSASPSPEALTIVAPLGFDITTVAVVERL
+DPARTVGIDMLFVDASTKRRVLATNPATRADMRDAAHALFARDGKAVSVIRDSGGFVTQR
+VVATIVNIASDICQQRICSPQDLETAVTLGLAYPMGPLAMGNRLGPDSILEVLFNLQTVY
+GDPRYRPSPWLRRRGAIGLSLMHTEE
+>tr|A0A0P0MBD6|A0A0P0MBD6_9BURK
+MSANTPAETQQLTATERAERQRAVVQALGRVLPADAILYTPEDTTPYECDGLTAYRERPL
+VVALPETEAQVQAVLKACHALAVPVVARGAGTGLSGGAMPHRMGVTLSMARFNQIKTVNP
+VSRTAVVQCGVRNLAISEAAAPYGLYYAPDPSSQIACTIGGNVAENSGGVHCLKYGLTVH
+NVLKVRGFTVEGDPIEFGSDALDTSGYDLLAVLVGSEGMLAVTTEVTVKLVPKPQLARCI
+MASFDDVRKAGDAVAAVIAAGIIPAGLEMMDGPMTIAVEDFVHAGYDLSAAAILLCESDG
+TPEEVEEEIGRMSAVLRDCGATAISVSRDEAQRMKFWSGRKNAFPASGRISPDYMCMDST
+IPRKRLADILQAISEMETKYALRCLNVFHAGDGNLHPLILFDANDADQLRRCELFGADIL
+ETSVAMGGTVTGEHGVGIEKVNSMCVQFSAEENEQMFAVKRAFDPQGLLNPGKVIPTLNR
+CAEYGRMLVRAGAIKHPELERF
+>tr|A0A0P0M9R3|A0A0P0M9R3_9BURK
+MTLRTFQIYRYDPDKDAKPYMQTIQVELDGNERMLLDALMKLKAVDPSISFRRSCREGVC
+GSDAMNINGKNGLACLTNMNTLPGTIVLKPLPGLPVIRDVIVDMTQFFKQYHSIKPYLIN
+STIPPETERLQSPEERDELNGLYECILCASCSTSCPSFWWNPDKFVGPAGLLQAYRFIAD
+SRDEATAERLDNLEDPYRLFRCHTIMNCVDVCPKGLNPTKAIGKIKEMMIRRAV
+>tr|A0A0P0MBZ7|A0A0P0MBZ7_9BURK
+MSIASENPHNPCFEIKSADLSLVALLLKTTDVAEVSRALKHQLAESPGFFDQDPVVIDIS
+ALTLKEDETIDFKALIAALQEHAFVPLAIKGASARLLDLAKGHGLVDASDARIRRSMPIA
+EAAPIQAPVAEPVAPALTHLSAMRIDKPLRSGQQIYAKGRDLIVMGMVNAGAEVIADGHI
+HVYGTLRGKAIAGARGNTQAQIFAQVMEPELISIAGVYRTSENPLPKDVLGQPAQVSLQS
+GPDGDKLLITPLKN
+>tr|A0A0P0LGX0|A0A0P0LGX0_9BURK
+MSDTQQRIDELVKGNEITLFMKGSASFPMCGFSGRAIQILKAVGVDPKTVKTVNVLDDAE
+IRQGIKEYSNWPTIPQLYVKGEFIGGSDIMMEMYESGELQQVINGQA
+>tr|A0A0P0M7Y0|A0A0P0M7Y0_9BURK
+MHRLTEVLGPVPKTTDLCDACDAALACALPFQSYGLRRAFTGPIRTLRCHEDIGLMRDTV
+TQPGHGHVLVIDGGGSLSRALFGDVMAAAASRHGWAGLVIHGVIRDADEINGMDMGVKAL
+GTVPKRGERTGAGELDVPVSFGGMTFLPGHHVVADADGVIMLPQGLTAADISVADVVAAT
+ALYAKGPGTA
+>tr|A0A0P0MAH4|A0A0P0MAH4_9BURK
+MRRHLSARQLSWLLPGIALLVCVSWLTSLEKYLGARYHFSLEAALPSAVAEALFAPSRWL
+DDRIRTGGSRPLFRLNWPSSSDVQEVQAPTKRTPEPPQLKDLPPPLPPGEFLATLAQQKL
+APGPQRILMAGDSMMQGIAPLFMRDIMRLHPDWQVQDLSRQSTGLTVRRHFDWPVRMVDE
+MDAQNLTLLVIFLGPNDPWDMLADGRRHVFPSPGWSLNYALRVDEVLSAAVQRQVRVIWV
+GLPVMKEGRIRDGAVLQNHIFHERAAQWGTDYLATEPLIGALSTPYQKFKLKEDGQRVNL
+RADDGIHMAPSGLRMINQALLDHIAKALQP
+>tr|A0A0P0LDZ9|A0A0P0LDZ9_9BURK
+MDALVYPEPAKTTGLTSPCSFLLPIAPIHPLYLRKYKSMFTGIITGVGRIVAIHDLGRSL
+HHGKRLTIEAPAGYLDDVGLGDSIALNGACMTVTTFNPESRQFTIDISAESLDKTSGLDQ
+QGTVNLEKALRAHDRLGGHIVSGHVDGVGQISHFKQIGESWELRVLAPHALAKYLAYKGS
+ITVNGVSLTVNRVTDLADGCEISINLIPHTVDNTALGSLKAGSRVNLEIDTVARYVERML
+SAGLIQKDSA
+>tr|A0A0P0LL62|A0A0P0LL62_9BURK
+MNTPSTPPLVELRDLTFGYGDRVILKNLSFNVPRGQVTALMGVSGGGKTTVLRLIGGQIR
+ASAGQLLFDGQDITPMRQPDLYAARRRMGMLFQFGALFTDMSVFDNVAFPLREHTRLSED
+LIRDIVLMKLDAVGLRGARDLKPSEISGGMSRRVALARAIALDPDLIMYDEPFAGLDPIS
+LGTAARLIRRLNDSLGITSVVVSHDVNETFEIADHVVILANGGVAAQGTPAELRASTDPL
+IHQFVHALSDGPVPFHYPAPTAAQDYDRRSA
+>tr|A0A0P0M6Z6|A0A0P0M6Z6_9BURK
+MTLTELKYIVAVAREKHFGKAAEACFVSQPTLSLAIKKLEEELEVKLFERSASEVSVTPL
+GEEIVRQAQSVLEQAAEIKEIAKRGKDPLAGTMRLGVIYTIGPYLLPDLVRQIITDVPQM
+PLMLQENFTVRLLEMLRTGELDCAILAEPFPESGLAIAPLYDETFMAALPLNHPLAKEAF
+ITPEQLKNETMLLLGTGHCFRDHVLEVCPEFARYASQTEGIRKTFEGSSLETIKHMVAAG
+MGVTLVPRMSVPDLKPVRKRSGGPHDSPVRYLPIVDPAGGKPPTRRVVLAWRRSYTRYEA
+IAAMRNAIYACPLPGVTRLS
+>tr|A0A0P0LER4|A0A0P0LER4_9BURK
+MKILLLGKNGQVGWELQRSLAPLGEVLALDRQSTDFCGDLSQPERLAQTVLAFQPDVIVN
+AAAHTAVDKAESEPELARCLNATAPAALAQAAAQIGALLVHYSTDYVFNGQGQSPWQEGS
+ATGPLSVYGQTKLEGEQAIVASGCAHLIFRTSWVYAARGGNFAKTMLRLAADRERLTVID
+DQHGAPTGADLIADVTAHAIRATLLQPALGGLYHLVASGQTTWHGYASHVIAQARLTQPG
+LALKVGEIAAVPTSAFPTPAQRPLNSRLATHKLQEAFGLVLPPWQQGVNRMLAEILG
+>tr|A0A0P0MAL1|A0A0P0MAL1_9BURK
+MPDAAAPDPLVVRYLEHVRFEKRLAERTCTLYQLDLIRLADMASASGVPLLQVQSGHVRR
+WVAQMHSAGRSGRGIALILSGWRGFYTWLGREGLIPLNPVADVRAPRVAKPLPKALGVDE
+AIQLAEHEEDNDDPWLEARDAAMVELLYGCGLRMAELTGLDVVASTEAARAGRGWVDLQN
+AEVQVQGKGSKRRSVPLGRAAIEALTHWLAVRPQLPGMLTQPTPGASPVALALFPGRHGT
+RLTPRGVAQRLKRRSLLAGLATPVHPHMLRHSFASHVLQSSGDLRAVQELLGHANISTTQ
+VYTRLDFQHLAKTYDAAHPRAKRK
+>tr|A0A0P0MC13|A0A0P0MC13_9BURK
+MNARMPFTVNADCVIADIGLADWGRKEIKIAETEMPGLMAIRDEFAKAQPLKGARITGSL
+HMTIQTAVLIETLQALGADVRWASCNIFSTQDHAAAAIAAKGTPVFAIKGETLADYWDYT
+HRIFDFGPAGTEGEGPNMILDDGGDATLLMHLGKRAEKDASLIANPTSEEETCLFNAIKA
+KLAVDPTWYSRKGAQIIGVTEETTTGVLRLNEMAAKGSLMFRAINVNDSVTKSKFDNLYG
+CRESLVDSIKRATDVMIAGKVAVVAGYGDVGKGSAQALRALSAQVWVTEIDPINALQAAM
+EGFKVVTMEYAADKCDIFVSATGNKNVIRYEHMAAMKDEAIVCNIGHFDNEIDVASLEKL
+QWDEIKPQVDHVIFPDGKKITLLAKGRLVNLGCATGHPSFVMSSSFANQTIAQIELFTKQ
+DQYENGKVYVLPKHLDEKVARLHLKKVGAMLSELSEEQAAYIGVSKNGPYKADTYRY
+>tr|A0A0P0LTM3|A0A0P0LTM3_9BURK
+MALIPTTILTGFLGSGKTTLLKRVLTEAHGQKIAVIENEFGEENIDNDILVSDTEEQIIQ
+MSNGCICCTIREDLRVTLQLLAAKRRKGLLSFDRIVIETTGLADPGPVAQTFFMDDEIAE
+TFLLDSILTLVDAKHAAQQLNDRQEARRQVGFADQIFISKADLVSPQELDALQHRLKHMN
+PRAPQKVVHFGEVALSEVFDLKGFNLNAKLDIDPDFLKEDGHDHAHDEHCDHPSHQHGHA
+HDHEHGEHCDHPSHAHEQGHHHHHDDDVKSFVFRSDKAFDPAKLEDFLGAIVNIYGPRML
+RYKGVLNMRGTERKVIFQGVHQLMGSDLGPMWADGETKMSKMVFIGIDLPKDILLQGLEQ
+CLV
+>tr|A0A0P0LUG1|A0A0P0LUG1_9BURK
+MTPVTIERVSLRQVNLPPKVLRTDAIQSFVTQETILLTLHCSDGIAATGYAYTIGTGGSS
+VMALLKDHLAPRLIGRNPVLVEAIWKDLFFHTHATAVGAMTSLALACVDTALWDWRAQSQ
+SLPLWQLLGGAQARVPLYTTEGGWLHLSPQALVDQTLEAQAQGFKGAKIKIGRPHVSEDV
+ARLSAVRDAVGPGFDLMTDANQGFNRAEAVRRARAFDGLGLAWMEEPLPAEDVSGHRQLR
+EHTTVPVAVGESMYHPMQFREYLEQGACSIVQPDVSRIGGITPWIKTAHLAETFDVAVCP
+HFLMELHVSLCAAVPNATWVEYIPQLDDITTSRMQVQDGFAIPPDAPGLGITWDWAAITE
+RQITHLEIQTP
+>tr|A0A0P0MBC4|A0A0P0MBC4_9BURK
+MGRTVDYYFAPQSPWAYLGHQRLADLVQRTGAAVRVMPIDLGGKVFPISGGLPLGQRAPQ
+RQAYRLVELQRFSQHLKVPLTLKPRYFPVGGDDAARLIIAADLAQGAQAAMKIAGAILAA
+CWAQERNMADDKVLAELLGEQDLPASLMKASHSQAVQERYESYTQAAIDAGVFGAPSYVV
+DGEIFWGQDRLDFVERALVG
+>tr|A0A0P0MBV1|A0A0P0MBV1_9BURK
+MPITPQEALQRTIEHREIFHDEMLHLMRMIMNGELSPVMTAALVTGLRVKKETIGEITAA
+AQVMREFSTKVHVADATHLVDIVGTGGDGAHTFNISTCAMFVAAAAGAKTAKHGGRSVSS
+KSGSADVVEALGGNIHLSPEQIARSIEEVGIGFMFAPNHHPAMKNVAPVRKELGVRTMFN
+ILGPLTNPASAPNILMGVFHSDLVGIQVRALQRLGAEHAVVVYGRDGMDEISLGAATLVG
+ELKNGQITEYEIHPEDFGLTMASNRALKVDTPEQSMAMLRSVLDNEPGAARDIVMINAGA
+ALYAANVASSIADGLARARVAIESGAAKAKLAQFVAFGQKAA
+>tr|A0A0P0M7L9|A0A0P0M7L9_9BURK
+MSQPLDLAALQAHTAPTFKDAWQARLERWYAHPGLYRWSLGNPLTRWLTRRRTRQLFDLM
+AGFVHSQVLLGCVRLDLFRALHQAPASLTDLARRTGLAPAVLQRLLLSAVALGLLEHRSQ
+GRFGLGPLGVPLAQHEGIAQMIEHNHLLYQDMQDPVQFLNNAWSGGMAEYWPYAHEKPAV
+TMPVEQVDRFTRYSQLMAASQGFVVQEILSSYFFDEHRCVLDVGAGKGRFVSELAAHAPH
+LQFKMFDLPPVLALAREGLQAKGLTERVSLHPGSFLDDPLPEGADLITLVRVAHDHPDTV
+VKQILQKAHAALPVGGVMLLAEPMAQPDEEAGQPEASVDAYFHFYLLAMGAGRLRTPQEL
+QTMMEEAGFTHVELVPNAMPIHARILVGRKSQCLPSVSGKSVN
+>tr|A0A0P0MC95|A0A0P0MC95_9BURK
+MNKTMNDNTFDYIIVGGGTAGCLLANRLSADASKRVLLIEAGKKDDYHWIHIPVGYLYCI
+GNPRTDWMYQTEATDGLNGRSLRYPRGKVLGGCSSINGMIYMRGQSRDYDQWAQITGHDA
+WRWEQTLPYFKLHEDHYNGANEFHGAKGAKSELLAPNDLPKGSYLHTLRGRNTGGEWRIE
+KQRLRWDVLDAFSQAAQQAGIPATDDFNRGNNEGVSYFDVNQRSGWRWNTAKAFLRPTCY
+SRPNFELWNKAQVSQLLIETQPNGEKRCTGAQVWTGLEMVEVKATQEVILSAGSIGSAQI
+LQLSGIGPAALLQGVGVEVKHDLPGVGANLQDHLQIRSVYKVKGAKTLNTLANSLWGKAM
+IGMEYAMKRTGPMSMAPSQLGAFTKSDPSQPHANIQYHVQPLSLDAFGEPLHSFPAITAS
+VCNLNPTSRGTVNITSPRFEDAPAIAPNYLATAEDRKVAADSLRVTRRIMSQDAMKPFQP
+EEFKPGVQYQTDEELAKLAGDIASTIFHPVGTTRMGREDDPMAVVNGRLQVRGITGLRVV
+DAGVMPTITSGNTNSPTLMIAEKAAQWIGEAFVRN
+>tr|A0A0P0MAK4|A0A0P0MAK4_9BURK
+MARVCDVTGKGPMTGNNVSHANNKTKRRFLPNLQYRRFWVETENRWVRLRVSSAALRLID
+KNGIDAVLADLRARGQA
+>tr|A0A0P0LGD3|A0A0P0LGD3_9BURK
+MSFQISVQPSGRSFTADDNETLLAAGIRQGIGLPYGCKDGACGSCKCKKISGTVVHGPHQ
+DKALSADEEAQGLVLTCCATAQSDVVLESKQVTAEGGLPVKKMPVRVVSLEKKSHDVIVL
+KLQLPANDVMKFHAGQYIEFLLRDGSRRSYSMANAPHTLEVAPPTVELHIRHMPGGKFTD
+PVFTTMKEKDILRAEGPYGSFYLREDSNKPMVLLASGTGFAPIKALIEHMQHRGITRPAT
+LYWGGRRPADLYMADWVEARLAEMPNLRYVPVISNAEAEDNWTGRTGFVHQAVLQDFPDL
+SGHQVYACGAPIVVDSAKRDYAALGHLPEEEFYADSFTSEADKAKA
+>tr|A0A0P0MB30|A0A0P0MB30_9BURK
+MTTASGSPGPAAHSPWLIANVLAQISFGLLAMTLCLPSMQEWGTIFSTHQADVQLTFSGY
+VVAYGALQLVYGPLSDRHGRKPILMLGLVVAGLASVMAALATDITQLTAARLLQGAGSAA
+SMVVSRSMVQDLFTGPQRTRVMAYIGMALGMCPPLATLIGGQVHVRFGWQTNFVMLAVLA
+AWLGLPRSSKPAPSKGHWLRAMLSAYARLLREPRFLLYVAILAATTATFYAFLAGAPIVL
+KGYGIGPDGIGWFIMAVPVSYILGNFMTSRLIAQAGESRVMAWGQALTLGGLVVMLALGL
+GGVQAALAVALPLLLLGLGHGLLNPPALAGTVGVVPALAGSAAAVAGLMQQLTGATGGYL
+VGLVPHEGAVNLGWMMLAFALTGAMAQFFLRRR
+>tr|A0A0P0MAM8|A0A0P0MAM8_9BURK
+MTELDRIDLKILDALQAQGRLSMTELAERVGLSASPCTERVRRMEREGVITGYHAHLHPQ
+ALGRTLLVFVEIRLSSKSDEVFEKVRAAMQALPEVMECHLVSGSFDYLIKARLKGMSDYR
+SLLGKLLKNIPVPAESHSYVVMEEVKESMQLALSRA
+>tr|A0A0P0M8S9|A0A0P0M8S9_9BURK
+MTRIEFHFNTHERLLHTCRLVRKARAQDLRIAVVGAPSTLKQLDAELWRFQDVSFVAHCT
+PQDSPDIQRASPVALGPDPNAWGIDDVLLNLGDEVPPGFERFARLIEIVASDDHGRAQAR
+LRWKHYKSLGYELLQHDLSKAAET
+>tr|A0A0P0M9J9|A0A0P0M9J9_9BURK
+MSPKLIVLLLALLLGLQPVTTDLYLPALPAITEGFGASMGQAQLTLTALLLAFGLSQLVW
+GPLSDRFGRKPILLWGMGAYVLASIACAFAPNMTWLVAGRALQGVAMGAGVMAARAVVRD
+LYAPAQGATVMSQALTGLGIIACTCAPIGGILTDALGWRVALLMLAVFGSITFGLLLWRF
+EETLARPNPHALHLRSLLRANWFILRHPTFRAWNALSTGSYMGLFTFLACSAFVFTRSMD
+YSKTAYGFFMLSMSLSYIVGTFWCRWMLRRTSVHRAVAVAAILTLSGGISMAALAYAGQG
+QDWYGAASVMGPVYLFMLGHGVHQSCGQSGAVAPFPEKAGTASALNGFLMMLGAFFMGSW
+LGTQMHEPVFALAHGLLLWSVVIALVAWTLVQRHGRAAPLPARA
+>tr|A0A0P0MBF7|A0A0P0MBF7_9BURK
+MTDKRMNTFLKFLLGACLSATFWGAQAQMPQAPEIAAKAYLLMDVTANQVLAAKDPDMAV
+EPASLTKLMTAYLVFDALKNRKIDIKQTLPVSERAWKMPGSRMFIDPKMKVPVEDLIKGM
+IVQSGNDATVALAEGVAGSVERFVQLMNDQAVFLGMHNTQYKNPEGLTAPGHSTTARDLA
+LLATRLMRDFPDYVPYYAIKKYRYEGTPAANDTNRNLLLFRDASVDGLKTGHTQAAGYCL
+VASAKRELPNVGTRRLLSVVLGADSENARANESQKLLNWGYSAFDAVKLFDANQAVVTPP
+VWKGKQPVLKLGSVRPLVVAVPAGSAAQLKTQVVRPDPLVAPFTKGQAVGSLKVMQGDKA
+LFEVPLLVLEPVEQSGVLGRAWDAVRLWIK
+>tr|A0A0P0MAS0|A0A0P0MAS0_9BURK
+MQIGPYPLTNNLFVAPMAGVTDRPFRQLCRQFGAGYAVSEMVTSRPDLWASLKTSRRANH
+DGEPGPIAVQIAGTEAQMMADAARYNIDRGAQIIDINMGCPAKKVCNKWAGSALMQDEPL
+ALEIISAVVEAALPHGVPVTLKMRTGWCDAEKNALSLARAAESAGVQMVTVHGRTREQGY
+KGLAEYDTVAAVKAALRIPVVANGDIDSPEKARDVLRITGANAVMIGRAAQGSPWIFREI
+AHFLATGEHLAPPLVGEVRRALLEHLQDHYGLYGEYTGVRSARKHIGWYVRTLPGGDAFR
+EHMNTLETADGQLTAVAAYLDGLAEQMERLPQRQSLHPEVCPDLETTP
+>tr|A0A0P0M754|A0A0P0M754_9BURK
+MSAKKETTHIITEGELVLYRRERSSIWQCRYKVGGVWQRASTKERKLKDAKEVAKELRIT
+AEIRKRDNLPVITRKFRDVAKLAVQRMEQKLANGDGKVSYKDYIRIINEYLIPILGNRLI
+TNIDSTALDYLDAERIRMMGRTPSNSTMLSQNAALNLVFDEAVLRNFLTDLNRPKLEAKG
+KKSTRHPAFTLKEIQAVINNFEAWIERARNAHSKEMRQIMRDYSVMLIDTGARPGKELMN
+LKWKQIKFTMNPKQTHTGEFVVGDDGEKEEIVLTDLNRGVELIVTGKTGTREIVGRQPTV
+KVLERIARRVYGVKNNIIDPFKDVVTPNNDDLVLRTKEKKQDVSSAFQHMFERYLDEHNL
+LYDPKTEQNRVFYSFRHTYATLALTHDKVPIHTLAKQMGTSVLMIERHYSHLKVIEATEQ
+LRGQETRRRIASTSTVEEIYQSAQAKKKAESLARKTAVKKSTKKGK
+>tr|A0A0P0M6X3|A0A0P0M6X3_9BURK
+MRHPLPYAFARTSRLLLEDDGQRLCLLWSDGSDRQAMSEVTRKYAAPGHAHAFQMRHCSA
+TDLAQRLHEAYSGGQAHGASTAAAVVNEVESEADLSRMMQELPAVEDLLEASDDAPIIRM
+LNALLTQATRDGASDIHIEPYERHSSVRFRIDGTLREVVQPNRALHAALISRLKIMAELD
+IAEKRLPQDGRISLRLGARAVDVRVSTLPSAHGERAVLRLLDKSEARLTLEAVGMQGQVL
+QQVDQLVHQPHGILLVTGPTGSGKTTSLYAALQRLDATRHNIMTVEDPIEYELPGVGQTQ
+VNAKIDLTFAKALRAILRQDPDVIMIGEIRDFETAQIAIQASLTGHLVLATLHTNDAASA
+VNRLIDMGVEPFLLSSSLLGVLAQRLVRKRCTACHGAGCEVCGQTGYAGRTGIFELLVAT
+DEIRAQIHHRAAEAELRTTALAQGMVLMRDDGQRLVDAGITSAEELLRVTRD
+>tr|A0A0P0MAQ8|A0A0P0MAQ8_9BURK
+MLKFFFNAAPNPMKIALLLEELELPFEAVPVDTRKGEQFAPAFLAVNPNAKVPAITDGDV
+TVFDSNAILLYLADREQKFMPSIAQGKERGAALSWLLFIASGIGPFSGQSVHFRHAAPEP
+KEYALNRYDFEAHRHWTVLEKHLAHNTYMLGEHYSIVDMALWGWARMLPYVLGTGEATWT
+QYPHIKRVLDQVNARPAAQRAEAFKAKYTFKAEMDADAKKFMFPQNERLNKA
+>tr|A0A0P0LTS1|A0A0P0LTS1_9BURK
+MHIDKEIDTSGLNCPLPILKAKKALNEMSSGQVLKVTATDPGAWRDFEAFARQTGNDLLM
+QEKTETAFVFALKRR
+>tr|A0A0P0LDD2|A0A0P0LDD2_9BURK
+MNAPLPIDVSQSLPEHAYNKVAHTSNEVAGLLAKRLRSDTRGEVLFSAADRGRYATDASI
+YQQMPVGVFVPRDASDVRVALDICRDLGVPIVPRGGGTSQCGQTVGAGLVIDHSKHMRKI
+TAVDAEQRTATVEPGLVLDHLNAALKQHGLWYPVDVSTSAQATLGGMAGNNSCGSRSIAY
+GNMVHNVLGAEAWLADGSLLEFGAYEQARGRVRQIGDFVRDLAQQHASEMDAHWPKVLRR
+VAGYNLDIFRNQNERPYTADGSVNLAHLLIGSEGTLALTRSLTLRLAELPRVKVLGVVNF
+PSFYQAMDAAQHIVKLGQGMPVGHLSAVELVDRTMIELSLQNPAFAPTIRTALSPHINGG
+MPEAVLLVEFSGPSKADIAHKIKELVELMGDLGLPGSVVEMVEDAPQKNLWEVRKAGLNI
+MMSLRGDGKPVSFIEDCAVPLESLAEYTDALTGVFRKYGSRGTWYAHASVGTLHVRPILD
+MRRDGAAKMRAIAEEASELVRRYKGAFSGEHGDGLCRGEWIGWQFGPRISEAFAKIKQEM
+DPGQMLCPQRIVNPPKMDDTTLMRFPPSYKVVPIRTALDWSAWNVQNDPVTEQTSAPGTG
+GDPAQGLAKAVEMCNNNGHCRKFDAGTMCPSYRVTRDEKHLTRGRANTLRLALSGQLEGL
+AGEDALSSEAVREAMDLCVSCKGCKRDCPTGVDMAKMKVEFLQHYKAKHGHTLLDKLVAH
+LPDYARWAARLAPVLNLRNRMPLLAALTEKLLGLSAKRSLPEWQRRHFFNTPPSAAQATA
+SREEVLAAARGVVLFVDTFNGYLESANAHAAVKVLQAAGYTVHVATKLQDDGQHLCCGRT
+YLATGMVDRAREKASEVVQSLLPFAEKGLSIVGLEPSCLLTLRDEMLVMGLGEGAQRIAG
+QALLFEEFLAREGQSGQLDGLKAQIAPVDRPVLLHGHCHQKAFDAVSPVMEVLRWIPGAK
+PQLIESSCCGIAGSFGYEASHYEVSMQMAELSLLPAVRAQADAIVVADGTSCRHQIHDGA
+QREAVHLSQLLSGLLPG
+>tr|A0A0P0LHH0|A0A0P0LHH0_9BURK
+MLKLCGFAGSNYHNKVKLALLEKGVPFEEELAWVGETDPAASPLGKVPYFKTEDGAMCES
+AVMLEYIEQKYPQNPLLPADPFAAAKVRELALFLDLHLELVARNLYPQAFFGGKVSDSVK
+EKVGAQLEKNIAAFAKLAKFSPFVAGDTLTLADCAAVTHFPLVSGATKLVYGKDFLADLP
+VRDYLKMMGERPHMQKVNADRKANMELMMARMKAKS
+>tr|A0A0P0LF87|A0A0P0LF87_9BURK
+MKLRPLGDRVIVKRIESETKTASGIVIPDSAAEKPDQGEVLAVGPGKTNDKGETKALSVK
+VGDRVLFGKYSGQTVKVGGDELLVMKEEDLFAVVE
+>tr|A0A0P0LHR5|A0A0P0LHR5_9BURK
+MSSKQKIRIRLKAFDYKLIDQSAAEIVDTAKRTGAIVKGPVPLPTRMKRFDILRSPHVNK
+TSRDQLEIRTHQRLMDIVDPTDKTVDALMKLDLPAGVDVEIKLQ
+>tr|A0A0P0M866|A0A0P0M866_9BURK
+MNIADLRKSYEKAELNENASHADPLQQFAQWLQEAIAAEVPEPNAMTLATVASNLRPSTR
+VVLIKGYDERGIVWYTNYDSRKGQELAGNPFAALQFHWVELERVVRIEGRVEKVSDEESD
+TYFHSRPLDSRIGAWASPQSQVIDGRTVLVTNAAKYAAQFMLNPPRPPHWGGYRLVPDNW
+QFWQGRKSRLHDRLRYTQEGSGWLRERLAP
+>tr|A0A0P0LC38|A0A0P0LC38_9BURK
+MTVYVIDDHPLMRDALTMLLHRVKPGLKIIPIHKLNVVEATVEKNGPAELFCLDLQLPDT
+LGMSGVQVLKAKFPDVPLAVVTSSSASEFETRCLEAGADAFIEKSNSPTQIIAALRSLLV
+TEEQAAIEDAAPPAGPTKLSKRQKQLILMLDQGLSNRDIAEKLDISEHTVKVHFWRLFRR
+LGVNSRTQALHFARTNGWLGI
+>tr|A0A0P0MAH9|A0A0P0MAH9_9BURK
+MSNAPATPVTQPGLESLSKSFEPAALEAHWGPEWEKRGYGVAGFRGTQAPKDGAPAFAIQ
+LPPPNVTGTLHMGHAFNQTIMDSLTRYHRMLGHNTAWIPGTDHAGIATQIVVERQLQAKG
+ISRHDMGPTPAEARKNFVSKVWEWKEESGNTITSQMRRMGDSVDWSREYFTMDPKLSKTV
+TETFVQLYEQGLIYRGKRLVNWDPVLQSAVSDLEVESAEEDGSMWHIRYDLVDGSGSVTV
+ATTRPETLLGDVAVMVHPEDERYKHLIGQQVNLPLCGRTIPVIGDDYVDKDFGTGVVKVT
+PAHDTNDYAVGQRHKLEMICVLNLDATINHNAPEKYRGLDRFVARKAVVADLEAAGALVE
+VKKHKLMVPRCARTGQVIEPMLTDQWFVAMNQVGRGDATGKSIAQKAIDAVQSGQVSFVP
+ENWVNTYNQWMNNITDWCISRQLWWGHQIPAWYDEDGKVYVARNEAEAQAQAPGKTLKRD
+EDVLDTWYSSALVPFSTMGWPHHNAAVGSGAAGSGDLASAASMSTTGGATADSGTDYDLY
+LPSSVLVTGYDIIFFWVARMIMMTTHFTGKVPFKHVYIHGLVLDAQGKKMSKSEGNVLDP
+VDLIDGITLEPLLDKRTQGLRKPETAPKVRKQTEKEFPEGIPAYGADALRFTFASLATLG
+RSINFDSKRCEGYRNFCNKLWNATRFVLMNCEAQDCGLKEHTKAECAVGGPAHGYLAFSQ
+ADRWISSQLQRVEAEVAKGFAEYRLDNVANTIYDFVWNEFCDWYLEIAKVQINIGNEAQQ
+RATRRTLIRTLETIMRLAHPIIPFITEELWQKVSVVAGRPGESVSIAAYPVSQPERIDLD
+AEAHVAKLKTLVDACRNLRGEMNVSPSTRMPLYVLGDTSFMQSAAPVLQSLAKLSEVKVF
+ETEAEWIAAAQAAPVAVVGEARLCLFIEVDAAAEKIRLSKEVARLEGEITKANAKLGNEA
+FVAKAPQAVLDETKKRVADFGATLDKIRQQLQRLG
+>tr|A0A0P0M932|A0A0P0M932_9BURK
+MQHKPLSLTQVLICGAAIVTLSMGIRHGFGLWLQPITQAQGWGRQEFGFAMAIQNLAWGF
+MGIFAGMLADKFGAFRVITAGALLYALGLVGMAQAQTPWMFALFTGVIIGTAQAGTTYAV
+IYGVIGRNVPAERRSWAMGIAAAAGSFGQFLMVPVEGMLISQAGWQNALMILAAATVLII
+PLAWGLREPALNAPGQVKREQTILQSLQEAFKYPSFQLLMAGYFVCGFQVVFIGVHMPSY
+LKDHGMAPQVASYALALIGLFNVVGTYIAGTMGPQIPKKHILATIYISRSVAITLFLLVP
+LSPTSVYIFSAVMGLLWLSTVPPTNAAVAHIFGVAHLSMLSGFIFFGHQIGSFMGVWLGG
+YLYDKTGSYDIVWYLAIALGVLAALVNLPVRESPIARPTPQAT
+>tr|A0A0P0MAE1|A0A0P0MAE1_9BURK
+MKVGINGMGRIGRLALRAAMGAAERQQDDPRAGNRLEVVHLNELKGGAAATAHLLAFDSV
+QGKWRERIEAEGDSQIRIGDRTLGFSSHANPADIPWGDMGVDLVLECTGKFLTPETIQGH
+LDRGAKRVIVAAPVKVGDVLNIVVGINHTLYNPAKDRIVTAASCTTNCLAPVVKVVHEAI
+GIKHGQITTIHDPTNTNLVVDAPHKDLRRARSAMVNLAPTTTGSATAIALIYPELKGKLN
+GHAVRAPVLNASLTDCVFEMKRETSAEEVNALFAAAAQGPLAGILGYEERPLVSADYARD
+TRSSIVDALSTMVTDGTLLKIYAWYDNEMGYACRMVDLACHMNDVGI
+>tr|A0A0P0LVG9|A0A0P0LVG9_9BURK
+MAKIFIDGEAGTTGLQIRERLALMPQVEVLSIDPARRKDPEAKRELMAAADLVVLCLHDD
+AAIESVAMIDSLSGRKPRIVDASTAHRCHPDWVFGFPELAADQLAAVRQAQRVANPGCYA
+TGAIAILRPLIDAGLLPRDFPVCLPSVSGYSGGGRTMIEDYEAGRAPLFEAYALTLKHKH
+IPEIMRYTGLTCRPLFVPAVGNFRQGMLVQLPLHLDTLPGKPTGADVHAALTAHYAASQA
+AGGWVSVESATADSKLNATALNDTNKLELRVFTNEEARHAVVIARLDNLGKGASGAAVQN
+IELMLGL
+>tr|A0A0P0LCG4|A0A0P0LCG4_9BURK
+MSQQPIQSDALGALRVQIDALDKQLLSLLNQRAHVAEQVGEIKRAEGSPFFRPDRVAQVI
+DKITSANPGPLKNEHVASIWREIMSACLALEAPQRVAVLGPQGTFCEQAAIEFFGSAANL
+IYCANFDEVFHATAAGTAQYGVVGMENSTEGVVARSLDLFLRSPVHVVGEVSLQVRFNLL
+RQLNSDAGIEVVMAHPQALAQCQGWLSKHLPHVERRAVSSNAEGARLAATNPAWAALASE
+RAASQFGLHIVHHAIQDEAFNRTRFAVITLPQTLATPPASGKDCTSLVVSVTNRPGAVHD
+LLVPLKNNGVSMTRFESRPAKSGQWEYYFYIDLQGHISEPHVAAALQELQGLCAFYKVLG
+SYPVPE
+>tr|A0A0P0MBC3|A0A0P0MBC3_9BURK
+MQAQGKIVQCIGAVVDVEFPRNQMPKVYDALKMEGSALTLEVQQQLGDGIVRTIALGSSD
+GLRRGLMVSNTGNPITVPVGKATLGRIMDVLGSPIDERGPVSQELTSSIHRKAPAYDELS
+PSQELLETGIKVIDLVCPFAKGGKVGLFGGAGVGKTVNMMELINNIAKAHSGLSVFAGVG
+ERTREGNDFYHEMADSGVVNLENLPDSKVAMVYGQMNEPPGNRLRVALTGLTIAESFRDE
+GKDVLFFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGRLQERITSTKVGSITSI
+QAVYVPADDLTDPSPATTFAHLDSTVVLSRDIASLGIYPAVDPLDSTSRQLDPLVVGQDH
+YETARAVQGTLQRYRELRDIIAIMGMDDLAPEDKLAVARARKIQRFLSQPFHVAEVFTGS
+PGKYVTLAETIRGFKMIVAGECDHLPEQAFYMVGTIDEAFEKAKKAA
+>tr|A0A0P0M6Q1|A0A0P0M6Q1_9BURK
+MSDPTRFDLDDRQRAMLAEMGVRVWWPQRSDAEPHAVVEVVPARATDTAVPAPGEYVAAS
+PSLPAAPRASVPVQAPATRPATREPLALAPAPVQAKDPVLAPLPEGLPSMGWLELQTAVQ
+SCQSCGLGAARQTPILGSGQGTAPWMVVGDLPSDTDEPSGQPFTGPEGVLLDNMLKAVGV
+RRQGSAHNANADANALADLPEACLTHAVKCRPQNGRNPETSELATCAAYLSRQVTLVQPR
+VILAMGRFAIQSLLGSTEPMGKLRGRLHDFQGVPVVVTYPPSSLLRNPADKAKAWADLVL
+ALSVTQG
+>tr|A0A0P0M7K6|A0A0P0M7K6_9BURK
+MIERTLFSADHEAFRDSFRRFMDKEIAPHHDAWEEQGFVDRAVWDKAGENGFLCMTLPEA
+YGGSDADKLYSVVQMEELARAGFSGIGYGLHSEIVAPYILHYGTEAQKQKYLPKLASGEM
+VGAIAMSEPAAGSDLQGVKTTALLQPDGTYLINGSKTFITNGWHADLVILVAKTDPAAGA
+KGTSLFLIERGMPGFEKGKRLKKLGLKAQDTSELFFDNVKVSADQLLGGAAMQGKGFICL
+MEQLPWERLQIAIGGIAAAQAAIDWTVQYVKDRKVFGQAVGNYQNTRYTLAELQTEVQVA
+RVFVDKCSELLLQDKLDTATASMAKYWCSDLQCKVMDECVQLHGGYGYMWEYPITRAYAD
+ARVQRIYGGTNEIMKEVISRSMGLAGR
+>tr|A0A0P0MC30|A0A0P0MC30_9BURK
+MNDVVVNAPMAGSSTNPDLKWYVVHAYSGMEKAVERNIIERITRSGMESKFGRILVPTEE
+VVEIKNGQKRTTERKFFPGYVLVEMVMDDETWHLVKHTNKVTGFVGGAKNRPAPISEADV
+AKIVNQMQEGTDKPRHKVEFEVGEYIRVKEGPFTDFNGTVEEVNYERNKMRVSVTIFGRA
+TPVELEFSQVEKT
+>tr|A0A0P0MBJ9|A0A0P0MBJ9_9BURK
+MPITPRLSPTWSRRDWHRAALAAALAPWVTPGVRAQSAPPRWRVNPFSLGVASGQPQPGS
+VVLWTRLRIDEADAAHQASGASVVCELFADEALRQPLRQWRLSTDARRGHSLHVLADGLQ
+PGRHYWFRFSSGSAVSPVGRTRTSPALNEAVRRLRLGLASCQHYEQGHFSAHRDMAAQDL
+DLVLFVGDYIYESSNKQYKIRAHEGGMPTTLDAYRARHAHYKSDPDLQACHAVHPWLMTW
+DDHEVVNDYANDLDKNFTDSVVFLQRRAAAYQAYFEHMPLRLGPDPQQPSQMRIHDRMAW
+GTLADLWTLDCRQHRDHQACPDLMRGGGRVVMGCDALADPARSMLGQAQEQWLTAGLTQS
+QRRWKLLAQSTLMASSGVQTPLGRSAFTDGWDGYPQARARLLQTVADARLSDVVMLGGDI
+HANVAAHLRVQAGDERSPVVASELVTTSVSTRGMSTKLMAQIQRENPDIRHARSDERGYT
+LIDIRPERLDAQFLTTPHPAQPEARLGLQGRWTVQQGVAGVLAGS
+>tr|A0A0P0LEX5|A0A0P0LEX5_9BURK
+MSPSPERRWLAFDTSTDVLFLAVARGEQVWTQTLPGGAQASSGLIPAVLALLAEADMPLA
+SLDAIVFGRGPGSFTGLRTACAVAQGLAFGADVPVLPVDTLLAVAEEARWSQVQAGAIAP
+DAALTVLALLDARMDEVYSAAYRWEPVPGASHGRWQAAMPLQVGAPEKLQMPDGPMVLQA
+GNAFAAYGERLPQVVSEGWRCEALPTAAALLRLAPALWAQGLAVPAEQAMPLYIRDKVAN
+TTAEREAMKAQIALDKATAHP
+>tr|A0A0P0LEZ6|A0A0P0LEZ6_9BURK
+MNKLWDKLWDISPPVGAQSPVFPGDTPYSQQWAATLSDTCPVNVSAITLSPHVGAHADAP
+LHYDPQGAAVGALDLLPFLGRCRVIHAIDAAHLITIAHLQHALNDVPERLLVRTYRQFPS
+QHFDTQLTAFDPACVQHLADLGVLLIGTDSASIDPADSKQLPSHQVIRQRGLRVLENLLL
+DEVPEGDYELIALPLKLMSADASPVRAVLREL
+>tr|A0A0P0LSL6|A0A0P0LSL6_9BURK
+MAISLSAAAARHVTRYLAKRGSGVGVRLGVKTTGCSGLAYKLEYVDEIAPEDVVFEGHGV
+KVLVDPKSLAYIDGTELDFVREGLNEGFRFNNPNERDRCGCGESFRV
+>tr|A0A0P0M7U3|A0A0P0M7U3_9BURK
+MNFEELNLAPAIMQAVRELGYETPTPIQAQAIPAVLAGQDLLAGAQTGTGKTAAFTLPML
+HKLSLTEPGKNRFGGKAIRALVLTPTRELAAQVEESVRDYGKYLQLDSTVIFGGVGMNPQ
+INKVKKGVDILVATPGRLLDLQGQGFLDLSTVEMLVLDEADRMLDMGFIHDVKKVLALVP
+KDKQSLLFSATFSDEIRELAGNLLKNPQSIQVTPSNTTVQRITQVIHPVGRSKKKDVLLH
+IIQKHDWSQVLVFTRTKFGANNVADFLTKNGVKAMALHGNKSQTARTQALAGFKSGEIRA
+LVATDIAARGIDIEDLPHVVNFEIPNVSEDYVHRIGRTGRAGASGEAVSLVCLDEEGFMM
+DIERFTKQEIPVQLLEGFGPEPGEVAEPIAMGRQTLWGGAGKPPSRDVMAAAAKAARQDM
+MQRIRDNKVAVGGGGGGGQRQPRAEGQGQPRPSRNAPPPSRRNGPQGAPRFEGQVDGRRE
+GGRDGNREGGRGQGQRGDPRFDNRADGQGRPAPRGPRPEGRGPARGGQGGQGGGQDRRRD
+DGDELPRHIDPLKTTQFARLDLPNRKPVRTSGQPDPTRTSIDSLASSGRRHGGGGFGGGN
+RGGNGGGGRGGFGR
+>tr|A0A0N7J985|A0A0N7J985_9BURK
+MARIAGINIPPHKHAEIGLTAIFGIGRTRARQICEASGIAYSKKIKDLTDADLEKIRDQI
+AAFTIEGDLRRETTMNIKRLMDIGCYRGFRHRRGLPMRGQRTRTNARTRKGPRKGAAALK
+K
+>tr|A0A0P0MB51|A0A0P0MB51_9BURK
+MRTGDTLPGMNANLILLTLCQGLFFTNNVTFIAINGLVGLSMAPLGWMATLPVMGYVVGG
+ALSTGLVAKSQSRWGRKVSFQLGLGVALFSALLAAYAAWSHNFWLLVSATVIAGYYSANG
+QLYRFAAAELAADGFKEKAVSLVLAGGLIGAIVGPNLASRTRTLYEVPFLGAYMALGIVA
+ILAMVCMNFIRFPAVPAKKPGDSAGRPLSEIMRQPVFMVAAAAAALSYGVMNLLMAATPL
+AMQVCGFSFDDAALVLEWHVIGMFAPGFFTGHLIKKFGTLQIMAVGVLINFACIAIALSG
+VELHQFLISLFLLGLGWNFLFTGSTTLAMKAWTPAEKDRGQAAINFFVFATMALTSFASG
+ALVTTQGWTWLNIGSILPVALTGMALVWMVLKQRAEQKNAPAASA
+>tr|A0A0P0MA99|A0A0P0MA99_9BURK
+MISLQANDFELFDVPARFEQDRAQLDARWKALQREAHPDRFAAEGAAAQRVAMQWSVRIN
+EAYQRLKDPLKRAAYLCELLGAPVQAENNTAMPAAFLMQQMEWREHLDDTESAQGLEALA
+DQVASEQRRVQKELARLLDQAQDPAQAVGQVRALMFIERFTQEVNAKLDRLT
+>tr|A0A0N7J8S3|A0A0N7J8S3_9BURK
+MNFDAEVGQLVANLHAPTPQRSGTLARLVGMRLETRGLMAPLGACCEVVGQFGHRVEAEV
+VGFNDSTLYLLPFTEPQGIGPGARVSVLSHTSQVALGPELLGRILDGRGLPLDGKPAPQC
+SDVLSLQGRPINPMERGPIKEVLDVGVKAINGMLTIGRGQRLGLVAGSGVGKSVLLGMMT
+RFTEADVVVIGLIGERGREVQAFIEESLGPVGLAKSVLIAAPANESPVLRLKATHMTHVI
+AEYFRDQGKNVLMLVDSLTRVAHAQREIGLAVGEPPTAKGYPPSVFALLPNLIERAGVGR
+HGVGSITAIYTVLAEGDDANDPIVDIARASLDGQVMLSRKLADAAHYPAIDLNGSISRVM
+QNLLSPEDHKLANRFRRLWSLYQQNQDLIQVGAYEAGTNHELDQAIRLRPAMESFLQQDM
+HTSLDAQTTRHEVQALMAQ
+>tr|A0A0P0M9S5|A0A0P0M9S5_9BURK
+MREGQPTAIHREAYAAPAFWIDTVDLTFDLDPAKTRVLNKMRLRRNPDVAAQPLRLDGED
+LNLARVLVNGGGTSFKMDGAQLVLENLPDGHEPFDLEIFTTCNPEKNTQLMGLYVSNDSF
+FTQCEAEGFRRITYFLDRPDVMASYTVTLRADKAKYPVLLSNGNLVEQGALEDGRHFAKW
+VDPHKKPCYLFALVAGQLVAREQRILSRSGTEHLLQVFVRPGDLDKTEHAMNSLMASVAW
+DEARFGLPLDLERFMIVATSDFNMGAMENKGLNIFNTKFVLANPNTATDLDFGNIESVVG
+HEYFHNWTGNRITCRDWFQLSLKEGLTVFRDQEFSQDMAGVASARAVKRIEDVRVLRTVQ
+FAEDAGPMAHPVRPDSYVEINNFYTVTIYEKGSEVVRMMQTLVASPADLQGRDGFAKGMK
+LYFERHDGQAVTCDDFAQAIADANPGSALTQNLTAFKHWYSQAGTPRLQASGVYSANERS
+YTLTLRQSCPATPDQADKKPFVIPVTLGLLSRDGTALPLQLADAHHSALQQTLVLTEESA
+SFSFVNIDSEPVPSLLRGFSAPVVLEDGLSAADLLILLAHDSDPFNQWEAGQRLMLQSAT
+DAIQQNKDLTGQPVLSDALIGALRNVLRHPELDAAFKDLALTLPSENYIADQLDVVDPQR
+VHALRESMRLTLATALQADWQWAWDAHKHNGAYTPDTKSSGRRALAGLSMTMLCVAAVHN
+GDAVTPGRVYQQFKDAGNMTDRFNALSALVVSGHALAQDALALFHKMFQHEALVIDKWFA
+LQAGAPDRAGDVLPRVRQLMQHPDFSLRNPNRARSLIFSYCSANPAGFHRADAAGYVYWS
+EQVLALDSINPQVAARLARAMDRWSRLAEPYRSAARVAIERVAAKADLSNDVREVVSRAL
+SAA
+>tr|A0A0P0M8R9|A0A0P0M8R9_9BURK
+MMSKPAILVARAIFPEVLQSLAQVFDVENNQADEVWSAAELTRRMQGKVGALTTGSERID
+AALLQANPQLRIVANMAVGFNNFDVSAMTAAGVQASNTPDVLTETTADFGFALLMATARR
+VTESEHFLRAGLWKKWSYDMFAGAEVHGSTIGIIGMGRIGQGIARRAAHGFGMNVIYHNR
+SRLSAELEAECKATYVSKPELLQTADHVMLVVPYSAESHHTIGAAELAQMKPSATLVNIA
+RGGIVDDAALAQALASGQIAAAGLDVFEGEPSVHPDLLKVSNVVLTPHIASSTVKTRKAM
+AQLAADNLVAYLTRGQALTPLNTVPGKAL
+>tr|A0A0P0LUB5|A0A0P0LUB5_9BURK
+MTSAAVSKLLRDARRIVVKVGSSLVTNEGRGLDEGAIGEWCRQMALLSGQGKEVVMVSSG
+AIAEGMKRLGWTTRPSEVPALQAAAAVGQMGLAQMYETKLRENGMGSAQVLLTHADLADR
+ERYLNARSTLLTLLQHRVLPVINENDTVVNDEIKFGDNDTLGALVANLIEADLLVILTDQ
+KGLYTADPRKDPSATFVHEAHAGDPALEAMAGGAGSSIGRGGMITKILAAKRAAGSGAST
+VIAWGREPDALLRLSQGDNMGTLLVAQTAKQQARKQWMADHLQLRGSVTVDAGAAHKVLT
+EGKSLLPIGMTGVAGDFSRGDVIAIRDEQGAEIARGLANYASAEARLLCRKPSHEYEALL
+GYTAEPEMVHRDNLILSR
+>tr|A0A0P0LHE4|A0A0P0LHE4_9BURK
+MREQPIHWETDGTSRVPFAVYTDEDRHKKELERFFYKSHWSYVGLEAEIPNPGDFKRTVV
+GERSVIMTRATDGQIHVVENVCAHRGMQFCRERHGNKKEFVCPYHQWSYSLKGDLQGVPF
+RRGVRQDGKVNGGMPADFDPKDHGLTALKVATRGGVVFASFDHAVESLEDFMGPTILKYF
+DRLFNGRKLVVLGYNRQRIPGNWKLMQENIKDPYHPGLLHTWFVTFGLWRADNKSELRMD
+AHHRHAAMISTRGSAGQATGQASQVTQVSSFKESMQLNDPSFLDIVPEGWWQMEEQMPTA
+VMMTLFPSVIFQQQVNSVSTRHIQPDGHGAFDFVWTHFGFEDDTPEMIERRLRQSNLFGP
+AGFVSADDGEVIEFSQQAFETKPEHRMLVELGGRDVGETDHMVTETLIRGMYEYWRKVME
+A
+>tr|A0A0P0M6Q6|A0A0P0M6Q6_9BURK
+MKIVCIGGGPSGLYFALLMKKLGPHHDITVVERNKPYDTFGWGVVFSDQTLENMRQWDIE
+TAAEVEQAFNHWDDIELHFKDRVIRSGGHGFVGIGRKKLLNILQDRCEQVGVKLMFEQDV
+NSDLDFPDADLIIASDGVNSRVRSRTPEVFKPDIVTRPNRFIWLGTNRQYDAFTFLFEKT
+EHGWFQAHVYKFDNQTSTFIVECPEHVWLAHGLDKADQDASIAFCEKLFAKNLQGEKLMT
+NARHLRGSAWLNFQRVKCANWSTFNGNSHVVLMGDAVHTAHFAIGSGTKLALEDAIELVR
+QFKALGDTADRIPEVLKHYQAVREIDVIRLQNAAWNAMEWFEVCGERYCDQLEPEQFMYS
+MLTRSQRISHENLRLRDKAWLEGYEAWFAGRTATPGIRPPMFTPYTQRSVTLKNRVVVSP
+MAQYMAVEGRVGDDHLVHLGARAVGGAGLVMVEMTAPSADGRITHGCPGLWNEQQTNDFG
+RIVDWVHAKSDAKIGLQIGHAGPKGSTCRPWQGPGMDQPVPADDAEGNWPLLAASAQPYL
+PHGDVPRAMTRADMDRVTADFVASTQRAAQAGFDWLELHCAHGYLLSSFISPLTNQRNDE
+YGGSLENRLRYPLEVFAAVRDAWPKDLPMSVRISAHDWVEGGITPTDAVEIARAFKAAGA
+DMIDCSSGQVSAQQKPTYGRMYQTPFADRIRQEAGIATIAVGAISEADHVNSILAAGRAD
+LCAVARPHLANPAWTLTEAARIGFKDIAWPRAYVSGKPQLEAGFARERAQQAATKGD
+>tr|A0A0P0M7A3|A0A0P0M7A3_9BURK
+MNQSLVTKYPVNDRVLNALDVTLRGCEELIPQEDWLQKLAKSEATGVPLRIKLGLDPTAP
+DIHIGHTVVLNKMRQLQDLGHQVIFLIGDFTSLIGDPSGRNSTRPPLTPEQIKANAETYY
+KQASLVLDPSKTEIRYNSEWSLPLGSMGMIQLAAKYTVARMMERNDFHDRFKAGTPISVH
+EFLYPLMQGYDSVALKSDLELGGTDQKFNLLMGRHLQAEYGQEPQCILTMPLLEGLDGVD
+KMSKSKNNYIGISEEPNTMFAKVLSISDTLMWRWYTLLSFKSMAEIEALKKEVEGGRNPK
+DAKVMLAKEITARFHSAAAADAAEQDFINRSKGGVPDDIPEVSLSGAPMGIGALLKSAGL
+APSTTEAGRLVDGGGVRVDSSVVSDKGLKLEAGTYVVQVGKRKFAKVTLS
+>tr|A0A0P0MBK8|A0A0P0MBK8_9BURK
+MARYLGPKAKLSRREGTDLFLKSARRSIADKSKFDSKPGQHGRTSGQRTSDYGLQLREKQ
+KVKRMYGVLEKQFRRYFAEADRRKGNTGSNLLALLECRLDNVVYRMGFGSTRAEARQMVS
+HKAITVNGQSVNIPSYLVKAGDVVAVREKSKKQNRVVEALQLAAQVGMPAWVEVNADKAE
+GTFKKVPDRDEFGADINESLIVELYSR
+>tr|A0A0P0M724|A0A0P0M724_9BURK
+MDKDTTRSRPITDNCTFPSPCGISLKHVLITGGALRLGATLCRGFAQAGWQVWCHYQRSA
+PAALALQASLHATGATVRLVQADLAESAEVKRMMAHITQTTGPLDCVVNNASLFEPDEGC
+DMDLAGARQQIEVNLIAPMLLASLMAQQAAPEAQPGQRSVVHILDQKVFNLNPDYFSYTV
+SKLALERAVALQAQALAPLRVCGVAPGLMFLSGPQTQENFDRASRVNLLREPIDPAQVAA
+TCLFLAQNPCITGTTVCVDNGQHLVPLARDVMFLGEPKDPA
+>tr|A0A0P0M9L4|A0A0P0M9L4_9BURK
+MIPIHEDEHLLVLEKPSGLLSVPGRGPEKQDCLSKRVQDRYPEALIVHRLDQDTSGLLLM
+ARGIEAQRRLSKLFETRQVKKRYVAVVAGQPEQTQAAELPDEDGWRTIDGPILLDWERRP
+LHIIHPDGKASRSRWRALQSSHSYSFSASLIELEPVTGRTHQLRVHMQSIGHPMLGDSLY
+APPGIKALSPRLLLHAQELAFVHPFTEQALAFKAPVDWSALSPYLAVQHPQP
+>tr|A0A0P0M8S3|A0A0P0M8S3_9BURK
+MKPAQIESFFATLQAANPMPVTELEYTSVFELLAAVLLSAQATDVGVNKATRRLFPVAGT
+PQKILDLGLAGLESYIKTIGLYRSKAKHLMETCRILVEQHGGQVPRTREALEALPGVGRK
+TANVVLNSAFGEPTMAVDTHIFRMGNRTGLAPGKTPLEVELKLLKRIPAQYLVDAHHWLI
+LHGRYVCQARKPLCAQCSVVAFCDFKPKTV
+>tr|A0A0P0M6Z5|A0A0P0M6Z5_9BURK
+MTRILIAGYQHETNTFAPSLANWAAFQSGEAFPAYVRGQAMIDQMTGVNIPAGGFIDAAR
+REGWHLVPSAWAGATPSSYVTKDAFERICAAIVEDVRAALVQGLDGVYLDLHGAAVAENA
+DDSEGELIARIRAVVGPKLPIVASLDLHANVTERMLQLSDGLVAYRTYPHIDMADTGERA
+ALLMREHLRAGAKRPMQARRLPFLIPLNAQSTWMAPAKDLYDEMIALESQTGCMLSFCMG
+FPASDFAECGPVVWGHGPQADMAVQRLFERVAEPGQWRPDVLPAREAVTQALATAEVSAA
+PVVMADTQDNPGAGGDSNTTGMLHALLQQGAGKRWPGQVAVGLLYDPAAARMAHEAGIGA
+SLQLALGKAVPTFTGEASDPPVQGRFTVRALGPDDCELKGPMMTGMKVHIGPCACLEIDG
+VLIAVASGKCQMLDRELFRAVGIHPEQMKLLVVKSSNHFRADFTPIASRVLVAKAAGPMA
+ADPGDLPWKKLSPNTRTRP
+>tr|A0A0P0M7P2|A0A0P0M7P2_9BURK
+MSALSAKATSRRMPRWVFVPLALFLAMVVFLGVGLTRNPQEIPSPLIGRPAPAFELPLVG
+GPGVFNAAQFKGQLTLVNLWATWCAGCKEEHPILMALARQPGLNMVGINYKELQASELSG
+QEPLSAESVQKATARSQAWLQKNGQAFGVNLLDMDGRVGMDFGVYGLPETYLIDREGVVR
+FKHAGALTPDVVQQKLLPLLRGVY
+>tr|A0A0P0MBZ3|A0A0P0MBZ3_9BURK
+MAWLKATRAPLTERPSRTSRWLMLVGAVSVAAIGIGLLVLMTQATGNRERYNQNYEWLVL
+INAVVASGLLITILWGMVRLLRSLYKGQFGSRLLVKLAGIFALVGVIPGLLIYVVSYQFV
+SRSIESWFDVKVEAALVAGLNLGRATLDTLSEDLNKQGRAAAANWAEASELNPALAAEKI
+RTQLGASDVAIWSLGGQMVASAGPSRFQLRADRPTPQQLREARQNGSLAWVEGLDEAIPG
+GDKGRIKVLVLFPQWSLALNEDRRLLMVTQELPPTLVNNALEVQSAYREYQERALARDGL
+RRMYIGTLTLSLFLAVLGAILLAVLLGNQLARPLLLLAHGMRQVAAGDLRPKLALQGKDE
+LGGLTRSFADMTQQLADARANGERSLNQLDQARSKLQTILDNLTAGVMVLDAQGTIASAN
+PGATRILRVPVSAHEGQGLQGLPGLQAFAQEVDAQFKALHAGNDARELDHWQKSFDIHAA
+GQGLSQTGVTLLARGAVLPDGMRLLVFDDISEIVSAERAQAWGEVARRLAHEIKNPLTPI
+QLSAERLERRLIGKLEAQDDAVLAKSVKTIVDQVEAMKRLVNEFRDYARLPSAELKPLQL
+NALVSDVLALYASEPHDSVARATVVAELDAACPLILGDEQQLRQVIHNLLQNAQDACEAR
+GQGLTTARVQVRTEWRAQRQRVRLTVTDTGPGFAPHILQRAFEPYVTTKAKGTGLGLAVV
+KKIADEHGARIDMTNVQEGDNIQGAQVSLSFAVAQTAQGLEQPPS
+>tr|A0A0P0LNY2|A0A0P0LNY2_9BURK
+MTSEVLLAEPRGFCAGVDRAIDIVEHALTKFGRPIYVRHEIVHNTYVVNDLKEKGAIFIE
+ELADVPPGATLIFSAHGVSRAIQEEAERRGFRIFDATCPLVSKVHVELAKLHKEGYEFIM
+IGHKGHPEVEGTMGQLDSGIHLVEDVEDVAKVQPAQTDLLAVVTQTTLSVDDAAEIVAAV
+KARFPQVREPKQQDICYATQNRQDAVKLMSPLVDVVIVVGSPTSSNSNRLRELADRLGTP
+AYMVDSAADLQEAWFEGSQKVGLTAGASAPDVLVQEVIARLRAMGAVSVRTLDGIQETIK
+FPLPKGLKLDAAENP
+>tr|A0A0P0LHZ4|A0A0P0LHZ4_9BURK
+MKSTNTAQWFPPSQLSFYFDQGAWSRGTTLYLQDQVLCSQLTPDGDGWRLQGQVQGNDAH
+PYTVNAELRVSAGGNLSEWRSGCTCPVGRYCKHGAALGILASMQGLALLDEWGPDGPSAE
+VLERRSQMEKERALSHAEYQVRDWLNRLENANGPSAYALPGSTHDQFVYSLSVVQTAYKP
+VFHLAVKRAAQKRNGEWGKTKKLSSEPSAHDPIWQTSSPLDRDIFDLLKACPPASSFSSY
+GFQAEVKLHGMPGKLLLQLCSQTGRLVSDDGIPLRWQDAPEALVGTWREVKSEDHQPDGW
+QLSMQPQRPGVVFGLNQPPFFMDTAQGLCGPLDTQGLSANELQVLTNSPVMPESVAFKFQ
+NQLLERLGPVPLPPVIQKMPEIRDVKPRAVLDIAPAHPADRGLQGLFLAELTFDYDGHRG
+FWPGTQNRVLVGQGLQARMLLRDLPSERKACEAIAALGLITFDANMLVLPPEQSQQRWLE
+WVENDFAPLRQAGLDVNFISGGTSWLRQADDVHIDLSGDAEAPETSPWFDLSLGMDIDGE
+RVNILPWVPTILTTLAKISHATAEGDKAALPPYLYLPDLQGEGFVKLPTAKIAPWLSTLM
+ELVSERGRDWGGDEMRLSRLDALRTAASLGEGVTWAGAQSLMNLVQQMRGLDSLPEVPVP
+ASLKATLRPYQQQGLNWLQFLRTHHLAGILADDMGLGKTLQTLAHILTEKEAGRLTQPAL
+IVAPVSLLGNWQREAARFCPSLRNHIHHGLSRHETAQDLSGFDIVLTPYSLLHRDRELWI
+AIDWHLLVLDEAQNIKNANTHAAQTVGDIPAKHRLCLSGTPMENHLGELWSLFHFLMPGF
+LGSQKRFVELFRNPIERQGNSEKMDQLRKRITPFMLRRTKDVVASELPPKIETLMPVPLQ
+GQQADLYETIRLGMEKTVRDALNAQGLAKSQITILDALLKLRQVCCDPRLLKLGAASQVQ
+QSAKLEQLLDMLPEMVAEGRKILLFSQFTHMLSLIEQELPRLGIPWVKLTGQSKNRDAII
+DQFTSGQVPLFLISLKAGGVGLNLPQADTVIHYDPWWNPAVENQATDRAHRIGQTQSVWV
+LKLVAQGTIEERMLALQERKAQLAQDMYAGAVQRKEPLFGESDLNELFKPLG
+>tr|A0A0P0MBK1|A0A0P0MBK1_9BURK
+MKNLSLKLQLSLSAMAMAMALLLSQFVLQFHVMRTDIVQRIEKHEFRQLSELASHLDEKL
+KDSVNMLDKVASHVPAASMGQQDSLEKLLQDEKALLTVFDDLYIFDAKGVLLVDWPVKPG
+RRTLDMSTRDYIQGVIKTGKPVISAPILGRATQQPIVVIAAPIMDANQQLVGIMGGVLNL
+YKPNLLGSIASRKNGETGYYYLVSQDRLRIAHPDPALIFKTVPPGSGNLPFENAMKGFEG
+TQEGVNTRGVKGLFTFKKLSSTGWIVASVVPSAEAFAPVENLYRKMLALSGLLLLVMAPL
+LWLFVARVVRPLDVLAQAMHQTAARMRDGQVVAPIAQMGGREIKMVTHAFNEFVEARLHA
+EKDLAMARDAAQAANASKSDFLANMSHEIRTPMNGILGMTELCLQTRLTAEQRSYLDMVS
+TSAHSLLAVINDILDFSKIEARKLSLDPHPFSLHSLIRQATRTLSLRASEKELELVCDVD
+CKVPDEVIGDPLRLQQVITNLLGNAIKFTAQGEILLFVKPMISPPSRDGVWLEFAVKDTG
+IGIAPDKQALIFDVFTQADSSTVRRFGGTGLGLAISRSLVRMMGGDISVNSQLGHGSTFS
+FYVRLHTLVDAPVCAQNLAPAWAGQTLLLVDDNASSRKVLSHQLQNLELHTAAVDGAAQA
+LHSPQLRQARCALIDVNMPDIDGFALAAQLRQMFSAEQMPIIMMGALSEQISQELLDPQG
+IQGFLVKPIDVNELVSVLNGLTRTMASSAPVPVTMPEPAFKSQRILLVEDTPINQTLETI
+LLQRMGYEVSIANNGIEAIEAFSTREFDLILMDIHMPEMGGVEAAEIIRTLEKNQQLKRT
+PIIAVTANALKGDKERYLAAGMDGYVSKPISVDALRHEIKGLLSEESPRKLAA
+>tr|A0A0P0M9L2|A0A0P0M9L2_9BURK
+MKAKPLKPMRLEDILFSQGFGTRRVCAGLVQQGHVQVQGQTVTDAGEFFDLEDLQFTVQG
+TAWPYLDKAYVLLHKPAGTECSQKPSTWPSIYTLLPAPLRQRPQKAAVQGVQAVGRLDQD
+TTGLLLLTDDGQFIHKMSSPKHHVPKVYEVTTKHPITPDMVDKLLAGVVLDDDPQPVKAA
+ACEAVSELHLKLTLTEGKYHQVKRMVAAVGNRVEALHRSQIGGLVLGDLAPGQWRFLTLS
+DLAVLKP
+>tr|A0A0P0MBX2|A0A0P0MBX2_9BURK
+MLQPARRKFRKEQKGRNTGVATRGNTVAFGDFGLKSTDRGRLTARQIEAARRAISRHVKR
+GGRIWIRVFPDKPISTKPAEVRMGNGKGNPEYYVAEIQPGKVLYEIVGVPEELAREAFKL
+AAAKLPLRTTFVARMIGQ
+>tr|A0A0P0LHD6|A0A0P0LHD6_9BURK
+MLARHQEPIVAIATAPGRGAVGIVRVSGRQLSSLILALCGRPLKPREATYLPFADADGSP
+IDHGLALHFVAPHSFTGEDVLELQAHGGTVVLQLLVARCLQAAAETDPTTGQPRLAGLRV
+AQPGEFSERAFLNDKIDLAQAEAIADLIDASTEAAARSASRSLAGDFSKEIQVLRDALIH
+LRMLVEATLDFPEEEIDFLQKADAQGQLTRLQAALMTVLGKARQGALLREGIKVVIAGQP
+NAGKSSLLNALAGAELAIVTPIAGTTRDVVQQTIQIEGVPLHVIDTAGLREGEGVDEVEQ
+IGIARAWGQIEDADAVLFLHDLTRVGLPDYDTADADISAALQSRLPTSVAVINVWNKADA
+AHALQERRGLTLSAKTGEGLQALRQQLLQQAGWQQASEGLFIARERHVQALHRVREHLEV
+ADAHLAAQAQNLDLLAEELRLGQNALNEITGEFSADDLLGVIFSSFCIGK
+>tr|A0A0P0LF05|A0A0P0LF05_9BURK
+MKEFDIVVHGATGFTGRLVIEYLLKQSTGLRWAMGGRSASKLAAVRDEVGAPADTPLVVI
+DSEDPASLQALMTRTRLVLTTVGPYQMYGSGLVKACAEAGVDYVDLCGEPAWMRQMIDAH
+HAAAQASGARIVFSCGFDSIPFDLGVLMLQGEMQQGFGSPASRVRGRVRKMKGTFSGGTA
+ASFKATMAAAASQPGVLDLLKNPFSLTPGFTGPKQPTAHKPMIDEVLEVWVAPFVMATIN
+TRNVHRSNFLLNQAWGADFVYDEMVITGPGDKGQAMAEAIAADKSMSGADVLKPGEGPSR
+AERDAGSYDVLFIGHNTAGQTCRVSVQGDRDPGYGSTSKMISEAAICLLQDATQTPGGIW
+TPASSMGKKLIDRLQAHAGLTFRVE
+>tr|A0A0P0M8G8|A0A0P0M8G8_9BURK
+MSKTIKVALAGAGAFGIKHLDGINNIDGVEVVSLIGREFAKTKEVADKYGIGHVTTDLNE
+SLALKEVDAVILCTPTQMHASQTLACLKAGKHVQVEIPLCDVYKEGQEVLRVQKETGLVA
+MVGHTRRFNPSHQWVNHKIKSGEFNIQQMDVQTYFFRRTNMNALGQARSWTDHLLWHHAA
+HTVDLFAYQCGSPIVKANAVQGPIHPTLGIAMDMSIQLKAANGAICTLSLSFNNDGPLGT
+YFRYIGDTGTYLARYDDLFTGKEEKIDVSQVAVSMNGIELQDREFFAAIREGREPNSSIA
+QVLPCYQVLHDLEQQLA
+>tr|A0A0P0M8Q3|A0A0P0M8Q3_9BURK
+MTAAADLLTTPLNALHIELGARMVPFAGYSMPVQYPAGLVAEHHHTRNAAGLFDVSHMGQ
+LCLSGPDAAAAFESLMPVDVIGLGVHKQRYGLLLNDEGGIIDDLMFVNRDVANGGDIFVI
+VNGACKHGDLAHIQQRIGGRCTITTQFDRALLALQGPQAVTALQRLLPGVEKLVFMTGAA
+FEVDGADLYVTRSGYTGEDGFEISLPAHAAEAFALRLLAQPEVKPIGLGARNSLRLEAGL
+CLYGNDIDTTTTPVEANLNWAMQKVRRTGGARAGGFPGANKVLAQLDGTAPAQRLRVGLV
+GLERVPVREHVELHNDAGQKVGEVTSGLLAPTANQPVALAYVQAEYAASGTRLNAMVRGK
+PVPMQINSLPFVPNRYHRG
+>tr|A0A0N7J8T0|A0A0N7J8T0_9BURK
+MTPNFGLIIIGDEIMSGKRQDKHMPKVIEFMNARGLSLSWAEYVGDTPERITATLQRAFE
+SNDVVFCCGGIGATPDDHTRQCAAKALGLPLALHPEAKRLIQERIQDTAKEQGLAYEPER
+ADNLHRLNMGTFPQGATIIPNPYNKIPGFSCSGPGGSAVHFVPGFPVMAWPMIESVLDTH
+YSAHFRQDAYVEKSVIVLGAMEATLTPLMESIEAAHPGVKVFSLPSVDHPQWGRHIELGV
+KGQPADADAAYVALRQGLQAFSVEYGPELVR
+>tr|A0A0P0M7T9|A0A0P0M7T9_9BURK
+MSDLSLQLQQAASQLPVSTYFDEALFQRELNTLFRQGPRYVGHQLAVPHPGDYYALPHEA
+EGRALVRNAQGGIELISNVCRHRQAVMLNGRGNLQTQQKGSAGGNIVCPLHRWTYSPSGQ
+LLGAPHFAHDPCLNLNNYKLQEWNGLLFEDNGRDIAADLAGMGPRSQLNFDGYALDRVEL
+HECNYNWKTFIEVYLEDYHVGPFHPGLGQFVTCDDLSWEFKEHYSVQTVGVSGGFGKPGS
+DTYKKWHEVLLKYRNGQLPERGAIWLTYYPHIMVEWYPHVLTVSTLHPISPSKTLNMVEF
+YYPEEIVAFEREFVEAQQAAYMETCLEDDEIAERMDAGRKALLARGDNEVGPYQSPMEDG
+MQHFHEWYRNQMNTL
+>tr|A0A0P0M8W1|A0A0P0M8W1_9BURK
+MSTQTLPLSAQIHARLTERLQPTALRVIDESAQHAGHVGANDSGEGTHMRVCIASPLFAG
+IGRVQRHRLVYDALQDFIDQGLHALAIELI
+>tr|A0A0P0MA22|A0A0P0MA22_9BURK
+MFFWLLEMLFWVGLAGTPGWFLGGPFGAVLGALIAVFIYAATLLWKLDRLERWLSAPVLR
+QDPPWHGVWREISVRVQRMLRQQEKLAAVHQKQLQDFLQAIQASPNGVILLDEQARIEWC
+NDTAAAHLGLDAQRDRLQHVVHLVRDPVFARYFAQDEHTSEAVIEGRASSVVNRQKLSVQ
+LHAYGEGRSLLLTRDITALAQADAMRRDFVANVSHEIRTPLTVLSGFVETLQSIPLGAEE
+TQQYLHLMSAQSDRMQSLVADLLMLSQLEGSQLPSTQEKVSLAALMLQVTTEAQAFSDWM
+ANKGQGPVHQLEFAPVPDVYVMGTRSELLSAVSNLVSNAIRYTPLGGRIQIHWSSSPEGL
+MFIVKDSGPGIAAEHLPRLAERFYRVDRSRSRETGGTGLGLAITKHVMQRHGGELRIESV
+VGQGSTFRLVFPQSRVVGESTPAA
+>tr|A0A0P0MA32|A0A0P0MA32_9BURK
+MRTIPRILIVEDEPAIAELIAVNLRHNGFQPVWAIDAETAQRELDEILPDVILLDWMLPG
+ESGLALARKWRATARTKTVPILMLTARGDEADRVAGLDAGADDYIVKPFSPRELLARIRA
+VLRRRVPEASGGVVKMGELQLDADTHRVNLADKPLKVGPTEFKLLHYLMRHPERVHSRGA
+LLDKVWGDHVYIEERTVDVHVKRLRESLGEAGNMIETVRGAGYRFTPTPSV
+>tr|A0A0P0M913|A0A0P0M913_9BURK
+MNDSGELPEDVEPLLESSQEEVRVAAVPVALHGQRLDRVLAQLVPEFSRSYLQQLIEQGE
+ALIDGRVTTKVSAKVRLGHLLQITLRATPQSQAFVPEAMPIEVVYEDEHLRVIHKPPGLV
+VHPAPGNWRGTLLNGLLALDPKASEVPRAGIVHRLDKDTSGLMVVARTRQAMDALVSQIA
+ARQVHRQYLALAHKNWTGASPRTLEAAIGRDPANRLRMAVVDLSHQSGKTASTTFDLLAQ
+GERCCLVQCTLHTGRTHQIRVHMAHLGHPLLGDAVYGGVPLGGMSRQALHAWRLAFEHPI
+TGECIDLTSDWPEDMAQALQNLGLSYNLSP
+>tr|A0A0P0LG75|A0A0P0LG75_9BURK
+MIETTSIPVNSIQRVRGADGEGSVQFQMDPTVKIGTAKVFAVYGKGGIGKSTTSSNLSVA
+FSKLGKRVLQIGCDPKHDSTFTLTKKLMPTVIDALETVDFHAEELRLDDFVFKGYNGVMC
+VEAGGPPAGTGCGGYVVGQTVKLLKEHHLLEDTDVVIFDVLGDVVCGGFAAPLQHADRAL
+IVTANDFDSIFAMNRIVQAIGAKAKNYNVRLGGVIANRSDATDQIDKYNAVTGLKTMAHF
+PMLDEIRKSRLQKCTLFELEPTPAVKAVQDEYMRLAEALWLGADPLPSIPMKDRDIFDLL
+GFD
+>tr|A0A0P0M7T5|A0A0P0M7T5_9BURK
+MWRIWRLYDPLRAMVLQGIFLFGLAAMIHLILLSTNKFNWLDGAKKPVAASAQNSPLPTS
+VASLPAPKS
+>tr|A0A0P0LKE9|A0A0P0LKE9_9BURK
+MTIEMIQTEEFNQGTQIKVIGVGGGGGNAVEHMIERQVQGVEFICANTDAQALARSAAHR
+FVQLGQTGLGAGSKPDKGREAAEAAEADIRAAIEGAHMLFITAGMGGGTGTGAAPVIAKI
+AKDMGILTVGVVTKPFDFEGKRRMDNADEGMKELEANVDSLIVVLNEKLLELPGGDDMTQ
+DEAFSHANDVLKNAVGGIAEIINVPGHVNVDFEDVRTVMGEPGKAMMGTAAASGPDRARI
+AAEQAVACPLLEGVDLKGARGVLVLISAAKGSLKLSESKQAMNTIRDCASEDAHVIYGTA
+YDESLGDQIRVTVVATGLTKAGARRTAPPLQVLRTGTDNAPFLMGGQEAAASPMGATAAL
+GAAGMNTPAIWRSNRTHAAARVDGMANAGMDDIEIPAFLRKQAD
+>tr|A0A0P0MBG9|A0A0P0MBG9_9BURK
+MGAFAAIFVHNFKIMQEIASSTTVSEQAFQALRLDVLSGRHVPESKLKVDALQQQYGFSS
+SPLREALNRLVQEGLVKADERKGFRVAAISPDDLADITKMRLMLDVTALHESIQHGDDAW
+EANIVASFHRLEKIESRLPQGPVVLDAEWSQRHRDFHMSLIAACPSERQLAWSMSLFDQA
+ERYRHFAARNRTVLKKKDAEHRALMKAVVRRDAATAAQMLSEHIAGTQTNVLAAFALMQK
+NRN
+>tr|A0A0N7J8Z8|A0A0N7J8Z8_9BURK
+MTDKDQNPDTRINMMDTPFPMRGDLPKREPGWVSEWNDGGLYKKLRAARQGAPLFVLHDG
+PPYANGKLHIGHALNKVLKDMIVKSKQLAGFDAQYIPGWDCHGLPIENAIEKLHGRNLSR
+DDMQAKSRAFATEQIGQQREDFKRLGVLGDWERPYRTMDFANEAGEIRAFKRVIERGFVY
+RGLKPVYWCFDCGSSLAEFEIEYADKKSDTLDVAFEADHNAALAAAFGLPKLPGEGSKKA
+FAVIWTTTAWTIPANQALNAHPELEYALVDTPRGVLLLAASLVEKCLERYKLEGNVIATA
+VGEKLRGLVFRHPLYDTVAEGEGGEYCYRRKSPLYLAEYVTATDGTGIVHSSPAYGVDDF
+NSCVANGLKYDDILNPVQGNGVYAQELPFFGGQHIWKACARVIEVLGQSDRLMATVEITH
+SYPHCWRHKTPVIYRAAAQWFVRMDEGEGVFTKDKAPKTLRQLALDAIEQTQFYPENGKS
+RLRDMIANRPDWCISRQRSWGVPVPFFLHKDSGELHPNTMAILDQAADIVEKGGIEAWSR
+VTVEEILGAVDAPSYTKSTDILEVWFDSGSTFQHVLRTSHKDAYGVAPFHDQGPEADLYL
+EGHDQHRGWFHSSLLLGCALYDRAPYRGLLTHGFATDGQGRKMSKSLGNTVDPQTITSKM
+GAEIVRLWVASTDYSGDLNIDDKILARVVDAYRRVRNTLRFLLANVSDFDPATDTVPDDQ
+LLEIDRFALARAAELQADIRAHFDKYEFHPVVSKLQIYCSEDLGAFYLDVLKDRLYTTAP
+KSLARRSAQTALYRITHGMLRWMAPFLSFTAEEAWKTFGTSESIFLETFSDFGAADTDLL
+AKWARIRDIRDLVNKDIENLRTAGQVGASLQAEITLTAPAADHALLASLGADIKFVFITS
+KVTLLAGDALVVEVAASQATKCERCWHYVDNVGHDADHPTICGRCVSNLHGAGETRLVA
+>tr|A0A0P0LTP1|A0A0P0LTP1_9BURK
+MCGIVGAVSSRNIVPILVQGLQRLEYRGYDSCGVAVHAASLGGTGGLQRARSTSRVAELM
+DQVSADHIEGGTGIAHTRWATHGAPAVHNAHPHFSHGTGAADGKPGRVALVHNGIIENHE
+ELRAALQAKGYVFLSQTDTEVISHLVDSVYNGDIFEAVKTAIRQLHGAYAIAVFHKDEPQ
+RVIGARAGSPLILGVGQGETFLASDAMALAGVTDQIVYLEEGDVVDIQLGKYWVVDRDHK
+AVTRVVKTVHAHSGAAELGPYRHYMQKEIFEQPRAIADTLEGVEGITPELFGDGAYSTFK
+AIDNVLILACGTSYYSGCVAKYWIEAIAKVPCQVEIASEYRYRESVPNPNTLIVTITQSG
+ETADTLAALRHAQSLGMMHTLTICNVSTSAMVRECKHAYVTRAGAEIGVASTKAFTTQLA
+GLFLLTLALAQTKGRLSGVEEAEHIKAMRHLPAALQAVLALEPQIIAWAEEFASKENALF
+LGRGTHYPIALEGALKLKEITYIHAEAYAAGELKHGPLALVTSAMPVVTVAPNDQLLEKL
+KSNMQEVRARGGVLYVLADGDTKIESSEGVNVIRMPEHYGVLSPILHVVPLQLLSYHTAC
+ARGTDVDKPRNLAKSVTVE
+>tr|A0A0P0M9M2|A0A0P0M9M2_9BURK
+MELVLFDIQDNRFALRASAVSQVLESLAITPLPYAPPEVEGLVNVAGTVLLKIDLALRLG
+MAARSADTNGNLLVVMTGHENIAVQVDRVHNKINLDESQLTPYIDPAQRNLVCGEFTLNE
+RMVLLLDHESLDMRDMDPTGVPEGGGGLIGFDLNDDQRAEKTSQASLDMATVTVEDSEET
+YALHMAHVQEIVEIGPLTQLPGATPEVQGLMQLRGQALLVVSLGGLLGRPQITTPRFVLV
+VKVQGLQLGVSVSTILGIERYARDAVQSVAGAHDAQLEGYLNGVATREGHMTGLLSMTGL
+LSPQAISHYQRFLTQQTTFMLHNNHLVPSAVRRMLSFRLGSERCALPLALVDRVEEYSPS
+VDLPEGDKSLSGVIQIKGEIAPVIDLRNMLGVQAIETSSYVVVRVDNEPWALIVDRIERV
+IDIEERNITPVRNQQNDYLNEVGKLDGGLISLITLAPLTLAAKRQLK
+>tr|A0A0P0MBN5|A0A0P0MBN5_9BURK
+MNQIFTVEGMTCGHCEKAVTKALLSLDTQAKVVIDRTHNSVQVDSEKSREALAQAIADEG
+YRVTA
+>tr|A0A0P0LER0|A0A0P0LER0_9BURK
+MISESTKARFAREVAKFPADQKQSAVMACLSIVQQEQGWVSPESEQVVAEVLGMPVMAVH
+EVTTFYNMYNQKPVGKFKLNVCTNLPCQLRGGAQALAHLEQKLGVNVGGTTADGMFTLQP
+SECQGACADAPVLLVNDRHMCSFMSHEKLDQLVDSLKKAEAA
+>tr|A0A0P0M9S0|A0A0P0M9S0_9BURK
+MGQPWFECKELAEEHGILALSSNYALYADMSNRVMSILSDYSPRHEVYSIDECFVDLTGM
+PRLRDVSYAMRDRVIKWTGIPVCVGIGPTKTLAKLANHVAKKHPRSKGVFNYNDLTENQK
+VRLLSKLDVSEVWGVGRRLSARLAEHGINTVQDLRVAHTSTLRAEFGVVMEKTQRELQGV
+SCIDFQEITPNKKQIVSSRSFGQMVKDVAVVKDAMSTFVANACVKLRAQGSHASLIQVSL
+HTNRFRRDLPQYNPCFTLPLPQPTNDSLVVNRWADYLVERLFKPEYEYKKAGIMLGEISP
+VGQYQSDWLEPAQATDTKLMEALDGLNKKFGRGTVKVSTQGAHKGWQMRQERKSPSYTTD
+WESVPRI
+>tr|A0A0P0LGS2|A0A0P0LGS2_9BURK
+MSSSLVSFDLSGRTALVTGGSSGLGEAMAHALGMAGANLVLMARRQDLLQQSADKLTSMG
+ISVQTLVCDLSSPEAAHEGALQALNLGPIDILVNAAGVNLREPFADVSVTSWMAQINIHL
+SAPFFLTQALAPAMKERGWGRIINIASLQSHRAFANSAPYGAGKGGIVQLTRAMALEWGP
+HGITCNAIGPGFFPTALTAPVFGNPELVARHAAQTCLGRNGELSDIHGLTVFLASEASSY
+ITGQTIMIDGGYTAK
+>tr|A0A0N7J941|A0A0N7J941_9BURK
+MKTVSLTPFSRSSMNPIHGARLAPVAWAISLMCVTGAQAQSVNDSAAVADAGALSPVVVS
+AERAGGGVWRGAASVDVVSGDELREGQAQVNLSESLGRVPGLVIRNRQNYAQDLQISVRG
+YGARATFGVRGVRLFVDGIPASAPDGSGQAANFPLGSADRVEVVRGPMAALYGASSGGAL
+LLYTEDGQRPAQWRTGVVAGSDGLWRASTQATGQTGTPQAPGWSYALDVSGFATDGTRPQ
+SAADRSTANMKLSRSHEGGRTVLVFNRHSSSALDPQGLSRAEFDANLDQTNAGALSFNTR
+KTVSQTQLGLAFEQALGGGHKLELMGYGGQRQVVQYQSITTGAQVPAGSSGGVIDLDRDY
+WGWNARWRHDREWQGGRLSLSAGVASDLQSDTRKGYENFIGATLGVQGKLRRDEVNRAQT
+LDPYVQAEWRTQDLTLMGGLRQTRTEYESTDRYIVGSNGNDSGNKDYTATLPVVGVRWQW
+SPSAQAFASIGKGYEIPTLNEVAYRSGGVSGFNTQLNAARSTSAELGLRGRAELLRWSAT
+AFDIRTDDEIVVQNNTGGRTTFQNAGRTLRQGLELAGEWRSGPVTFTTAYTWMRANYQDA
+FLTCTTSGCPNATPQVQVPQGNQIPGLPKQQLFAQAAWDTGWAGSRVTLDARHVGRVMVN
+DLNTDAAAAHTLFNLGIQFKQERGDWTLKEFVRLDNLTDQKHAGSVIVNDGNGRFFEPGA
+GRKLLLGLEAQRRF
+>tr|A0A0P0LMN9|A0A0P0LMN9_9BURK
+MTQALIGVVMGSSSDWDTMQHAVQILQQFGIPHDARVVSAHRMPDDMFAYAQSAAERGLK
+AIIAGAGGAAHLPGMIAAKTVVPVLGVPVQTKALSGVDSLHSIVQMPKGVPVATFAIGAA
+GAANAALFAVAMLANNDPALRQKLEAFRVEQTAMARAMTLPPVSPAGAA
+>tr|A0A0P0LVF0|A0A0P0LVF0_9BURK
+MDIQVQMNHSWLKQWGPSLLLALVAAVLGFGLEAAQASPQKGGSAGACPAILNHTFERLQ
+DEKPQSLCQYAGKVVLVVNTASFCGFTSQYKGLEALNTQYKNQGLVVLGFPSNDFSQEKG
+SNKDIAAFCESTFGVKFPMFTKTQVTGEGAAPLFKELTAQTGQKPRWNFHKYLIGRDGKV
+IDQYNSMIGPDSKTLLSAIDKALKAQP
+>tr|A0A0P0M7K3|A0A0P0M7K3_9BURK
+MENQENRSAALSRRQWLLGSAGAAVLTSAAPAAQAAKTKTQAHIVILGGGLGGIAVANRL
+HALLDGAKITLIDRKEEHNYQPGYTLVATGVWPVSKVRDRNADFHPPQLNWIKDMVGELD
+PASNMVVTASGQRVPYDYLVVAMGTHQDWSLIEGMDVNAIGQKGLTSVYPSPEAAQATWA
+SMDAFRRKGGNAVLTLPATPLKCAGAPLKMTFMLRDRLAQSGTLGQSKVTFYSALGNVFG
+VKVVNDNVLSRWNDLGIVVETTQKLQGIDIGAQRVRFVSPEGASTEVPYDFIHVVPPMRA
+PDAVKNSDLAWKEGPFAAGGWLEVDKDTLQHRRYPNVFGVGDVNGTPRGKTAATVKKSAP
+IVAEHVVDVIAGRTPGQKFDGYTSCPLIVKEGSAMLIEFDYAGNLTPSLPMIEPLQAGYF
+AWLMKYRMLKPAYMATLKGRV
+>tr|A0A0P0M9F3|A0A0P0M9F3_9BURK
+MDFEYTPKVKDMQARLLAFMDEHIYPNEARFFEEIAENRAKGNAWVPTKIVEELKPKARA
+AGLWNLFLPKSTRAPQGLSNLEYAPLCEIMGRVPFAAEIFNCSAPDTGNMETLERYASEA
+IKDRWMEPLLRGEIRSAFLMTEPDVASSDATNIECEIRRDGNDYVINGRKWWSSGAGDPR
+CAVYIVMGKTNPDAGRHEQQSMIVVPANSPGITVVRALSVFGYDDAPHGHMEVVLKNVRV
+PAENILLGEGRGFEIAQGRLGPGRIHHCMRTIGIAERALELMCKRLNERVAFGREVARQT
+VWQERIAESRCMIEQARLLTLKAAYMMDTVGNKVAKAEIAMIKIVAPNMACQIIDWAIQA
+HGGGGVSQDFPLAYAYAHQRTLRLADGPDEVHRNSLAKLELAKQLALPGDLGMPITRGS
+>tr|A0A0P0M9T4|A0A0P0M9T4_9BURK
+MASAKPKKKNPRLASGRKRVRQDVKINAANSSLRSKYRTAVKNVEKAVLAGDKTKATELF
+AKMQTVVDTIADKGIFHKNKAARDKSRLSAKVKTLALAAD
+>tr|A0A0P0M967|A0A0P0M967_9BURK
+MTATASLPTSQPAPKVGFVSLGCPKALTDSELILTQLSAEGYQTSKTFEGADLVIVNTCG
+FIDEAIQESLDTIAEALNENGKVIVTGCLGAKTGEGGGNMVREMHPSVLAVTGPHATQEV
+MDAVHTHLPKPHDPFLDLVPGGFGEAGLKLTPRHYAYLKISEGCNHRCTFCIIPSMRGDL
+VSRPIGDVLKEAKALFEGGVKELLVISQDTSAYGVDVKYRTGFWDGKPVKTRMLELVQTL
+GEMAREHGAWVRLHYVYPYPSVDDIIPLMAQGLVLPYLDVPFQHSHPDVLRRMKRPASGE
+KNLERIQRWRELCPELVIRSTFIAGFPGETEEEFEHLLGFLREAQIDRAGCFAYSPVKGA
+TANDLPGMLPEALREERRTRFMAVAEEVSIARLRQRLGATMQVLVDSAPAMGRRGGVGRS
+FGDAPEIDGVVRLLPPEKLSKTLKVGEFTRARIVSVEGHDLVGVPV
+>tr|A0A0P0M9I8|A0A0P0M9I8_9BURK
+MVFAVLSGIPSAAENVWLLWVASLLVLLGAGAWWRFDRENLGADPAQLAHVTHLLAAREL
+SQAKTLLNSGGQGVWGDLATVVTNLQEGQLDQEQRAWRDEGLALIHQTVRHDHTPTALSN
+LVSETLTRFMGLSACAVYVLDFDPSAKRLHAECKLQRQTDDPSQTQFLPELIGCSFASLQ
+ALAASQTILRNDEIPLSMLKNMPNKNQGDTVLVPLVIEAQVRGVLLMTSSKTLPAELEAL
+MEPVSAAIAVAMQSAAARETLQASLVRANELTRELQHQQEKLQTSEIALKKQMTYVNDIL
+GTMHSGLVVVDRAGRIQDCNPALLKLTGFDRDLLVGQPSSLLFEEDETRMLSIFKGYGHM
+LTRLGVQNPQTYWQVLTENLLGACLIDADGQVIQANPRLAQLLGCGVDQLKGRSFWTLLQ
+DVPEEDLQDLQTQLSSDDSYYRSGSGQPMAIRFHAGQAPSSVEISLINHRLVGERVTLVL
+LRGERDLPWGVANSTTLQKLIPGDEEAMIAKLRNRSGTHIPVRVSSSFLADATGMPQQTV
+INLHDVSNLVNKSEEIRAQHQLLEMSMDAMQDGVLRLDRNGRVISANPMALDLLGSDKAS
+TSLQPVHKLLPGQQKGHDLAYWLPLQTAWLLRRLVEDLAQDPSLVQSLPIPLLYANRMGR
+LKWATPTACALLGLTVAPQSTPESQLLAEQTSRELLALRDQTDVDTVDQEPLVIEVAWRA
+GNAPVMRLPTLLVPQPSSANEDMMVWLIPDLDALSAFMIRRMHNIEWMVLHSQLETLLPV
+VLTASPLVDPYNRLTGAVVTIKDMREIKEKEAENLRMVHKVEQSQRLDALGQLAAGVAHD
+FNNLLGVIQNHAELVEMKLGSETKAAKNLSAILQATTRARDIVLKLNALGRERKRLEEDG
+SVHDEQEVLVPFELLPVIEETQGLLQATLKGIDILVDATALDSGVILRGQSGTLQQVIVN
+LCVNGSHAIGDRRDGLIKIKLDRPDASHVSIAVSDNGSGIPPEIMSRIFEPFFTTKEVGK
+GTGLGLAMVRSIITQMGGTIDCQSEPGQGTTFTISLPCGQA
+>tr|A0A0N7J8I8|A0A0N7J8I8_9BURK
+MSITPDAPRFHALVPCAGTGSRAGTPQPKQYQTVAGQPMVMHTLQALARVPQLASGWVIL
+SPDDDFDWPQAAWPAHFRREACGGATRAASVFNGLSAMLQAGLPAQDWVLVHDAARCLIT
+PEAVSGLVEACRDDVVGGLLALPLPDTLKSHTLDGQAARVASTVPREDKWLAQTPQMFRL
+GALHAALAAAATSAFEGITDESSAMERLGHSPRLVPGSAQNMKVTYPADFAFAEAVLKGR
+T
+>tr|A0A0P0LFC1|A0A0P0LFC1_9BURK
+MSLNKVTPGSKVPDAFNVIIEIPMNSDPVKYEVDKESGALFVDRFMGTAMHYPTNYGYVP
+QTIAGDGDPVDVLVMTPFPLPPGVVVSCRAIGILLMEDEGGMDGKILAVPTEKILPIYAN
+IKALSDVHELQLKQIAHFFEHYKDLEKGKWVKVKGWEGVESAAKELMDGIANYNKA
+>tr|A0A0P0LH38|A0A0P0LH38_9BURK
+MLISYGAVLVAGIMPVVCAGIAKSGFKGYDNSDPRAWLARQTGFRARANAAQANCFEAFP
+FFAVGVILALLTGVDPATVDALASFFVAARVAYVFFYVTDKAKWRTMVWSAAYLTVVALF
+ALAMLNLQVN
+>tr|A0A0P0LJA5|A0A0P0LJA5_9BURK
+MQLNINGQSHTATSDPSTPLLWVLRDELNLTGTKFGCGIAACGACTVHVDGQPVRSCVTP
+TSAVANRPIKTIESLGTAEKPHPLQAAWIAEQVPQCGYCQSGMLMAAAALLDKNPRPSDA
+DIDAAMTNLCRCGTYQRVRAAIHRAAAAMKKGGAA
+>tr|A0A0P0M7N6|A0A0P0M7N6_9BURK
+MELDLTWILLGLPTAFALGWIASRLDLRQMRIANRQAPRAYFKGLNHLLNEQQDQAIDAF
+IEAVQNDPDTSELHFALGNLFRRRGEYDRAVRVHEHLLSRADISQADRQRAQHGLALDYL
+KAGLLDRAEEALRKLEGTSYEGQARLARMAIYERSREWPEAAAVARLLEKSGEADFGTRL
+AHYQCEQAREEVQKGDSAKALDLLAQALQDHPRAARPRLLMGQLQLSQGQARAAYENLSV
+FFEHNDMAAPLAAASYAQAALACGLATQAGDLLKAHYQRQPCIDVLDAITTLEAHNTPSA
+TTSEANALQRYLDHLQNHPSMMAASRWLNGARNEVGVLPAPVQKTLENATKPLARYRCAA
+CGFEAKEHFWHCPGCQSWDSYPPRRVEEL
+>tr|A0A0P0MAG4|A0A0P0MAG4_9BURK
+MEIAILFALICLNGVFAMSEIALVTARKARLQKLIDEGDSGAAAAVKLGEDPTRFLSTIQ
+IGITSIGVLNGIVGEAALAAPMAMWMVSLGVPDAYASFAATGIVVLTITYFSIVVGELVP
+KRIGQSYPETFARLVARPINFLALATKPFVILLSASTRALLRLMGVKETKGTPVTEEEIH
+AMLVEGTSAGVIESHEHTMVRNVFRLDDRQIGSLMVPRADIVCLDVDDSFEDNLRHIEES
+DHARFPVVQGGIENILGVINARQWLARALKDKSQSLREQALQAPLYVPETITGMELLDNF
+RLSDVHMAFVIDEYGEVQGIITLQDLIEAITGEFQPRDPETSWAVQRDDGSWLLDGHIPV
+PELKDRLGLEEVPEEERGRYHTLSGMIMLLTGTLPKVADSVVWEGWKLEIVDMDGRAIDK
+VLAVRLPPALADSGDESTAGN
+>tr|A0A0P0MBA4|A0A0P0MBA4_9BURK
+MSPLKLPATLLHDQADACLALWASQLAQSTTALPHEVALDASELTEFDSSALAVLLGLRR
+LLGHKGSALRVEGMTPRLRELASLYGVMDLLQPV
+>tr|A0A0P0M910|A0A0P0M910_9BURK
+MNSEGLGPLTGLPTDGQSILSLAARSLFDVFANASEGMLLVDRSGRVVWINDHYRRYLPA
+LGFEKEEDFVGRPVVEVVQNTQMGQVMETGKPILIDLLTNRAGTFLVSRFPLRDDAGVVI
+GALGVVLFEQPETNLKPLMAKFALMQRELDEARNALAAQRRTGPALRQARHSFASFVGAS
+SVVADLKRQARRAAQTHSPVLLLGETGTGKELLAHAIHASSPRARGPLVSINIAAVPETL
+LEAEFFGVAPGAFTGADRKGREGKFKLADGGTLFLDEIGDMPLGLQAKLLRALQEGEVEP
+LGSNQLMPFDVRVIAATSRDLTQLVREGLFREDLYYRLNVLPLRVPALRDRASDIPHLIE
+VLSEELALRNAVPQPEFQSEAVALLSAQPFRGNVRELRNVIEQLLLRCETGLVDAAAVEA
+VLRESGLSQIVPAHKELAGSRPMGFALTDHTLSAEQWALAPRMRALEVQAVQEALRQTRG
+NKAAAAHLLGISRAKLYQCLS
+>tr|A0A0N7J8B6|A0A0N7J8B6_9BURK
+MSVQLQDHAEWVEQLDPSSVDLLTHTWPEATKVFSARGLDNYVKGAAALRGLGRGHELVN
+AWIDGAPQVAKEIGEDVVGELATTALVLASKTSGAVIELVLATASTAAKRLADAALFMQY
+LQFLNTLVAQAPRGLRPMLGQLDALFGQLTLGGLRRWATWGAQAHRTEYEEQIAYFGLQS
+KESLAMLQQERKGTLLVDVQRRINMYLRALWGRDFFMRPTAGDFENREGLRPFIEDYFIH
+LPDALDAVQGNDGLVDATQLYRAACAHAAAHVVFTRQAISAESLNPWQMAMVALAEDARV
+EALAVARFPGMRPLWAQLHTTPATQQATAGDWLARMARAWIDPTYEDNHPWIAQGRALMA
+EAMPRLLAQPHDNSESWAMGVQLAHSYRELTQGPAFAPRTDGQAAVYRDDNRYFWAFDGY
+DFERSVAAGYEPPQQVRKQVNLMEFVNELEVEGAGDDAQEVWVLGTELFPYEDLGVSFNE
+SEGREPVLPPVHYGEWDHMIQLERPAWATVQERRPKAGDPTLIDGILSEHRRLIGRMKFI
+LDAMQPQGVQRIRKLEDGDEIDLNAALASVIEMRMGRQPDPRIMMRSVRKTRDISVLVLL
+DLSHSTNDKVAGQEHTVLDLTRSACALLADAIQKVGDPFAIHGFCSDGRHDVNYWRFKDF
+DQPYDELAKARLAGMQGQLSTRMGAAIRHARAALKAQRSSKKLLLVITDGEPADVDVRDP
+QYLRHDTKKAVEAAARNGVTTYCMSLDPRADQYVSRIFGERHYLVVDKVERLPEKLPVLY
+AGLTR
+>tr|A0A0P0M8S6|A0A0P0M8S6_9BURK
+MTPLPETRPDAATSLSALMVQSSTQAPLTRAQQRFNDLLAQIERLSGQIQRLEAWSHKHR
+YAHIQSLRESVQLAQTHRKSLLLFVHERLQTADLTDRQQRMARGMVRGLIDHLAPMADPQ
+VQALADVYVSEEDTQEAAEEQAEAAQRLRERIEEALGQPIEKPDQYQTPEEMMQAGMRQW
+QRQQEADEQRKAAKRAARKAQKQAQKKSATADKGELPPAMLREADAKSAIRTVFRQLASA
+LHPDREPDEQERLRKTALMSEVNAAYEKNDLSTLLRLQLQVTQVKPGGAARMADAQLMAM
+AFLLKEQVAALEDDLDQLQSRLSRELCLTVRADADEASMSQGLQRIQADQRHSADSLQAD
+LRRIQNDAEFKRWLKEQWQLAKATSA
+>tr|A0A0P0M6L3|A0A0P0M6L3_9BURK
+MNATKPAPLAIHGWTVFAHPLFMSQVEALVEQVEALKKKDPTGYVKKNAAKRLAAIAHLA
+FDAIPQDPTRAEYRQGGTLGDDRKHWFRAKFFQQYRLFFRYHAAAKMIVYAWVNDDDTKR
+AYESSDDVYRVFRKMLESGHPPDDWNQLQSQAELEGHRLQRAFSTLGE
+>tr|A0A0P0M7Y4|A0A0P0M7Y4_9BURK
+MNDITNDTEFTPEMGDKGQIHADVLQNIPVTLSIEVGRAVIKIRDLMRLTQGSVVELDRI
+AGEPLNLLVNNTVVAQGEVVLVNDRYGIRLTRVVPASERLENL
+>tr|A0A0N7J8J2|A0A0N7J8J2_9BURK
+MAVEEPRYTVLVSDPPFEVRRYAAFTVAQTQIQGDFDAASRSGFRRIASYIFGDNLQADL
+GAQRKISMTAPVTVVPEDQGWRVHFVMPSAESVQTLPQPLNPQIQLRPVPEHETVAVRFS
+GFTTQASIQEQTERLRAWAQARQLKLSPTAQIARYDDPFTLPWNRRNEILIDLMP
+>tr|A0A0P0LLX6|A0A0P0LLX6_9BURK
+MSNTSAHALRATQLGPFSVWLSLPQLITWGSVFYTFSLLMMPLEAELGMGRAESSLAFSL
+ALLAEGLMAYWVGRWIDAGHERQVMTLGSVWVGLGLLGHSFVTSVAGFYAAWIWLGLGMA
+ATLYTPAFAVVTRRFAQDFRRAIITLTFLGGLASTVFIPLFAWWMELWGWRQALWALAAL
+QLLVCAPLHGWLLHGAPRPEARHTDRTQAKQGAPADMLHPTVPVTVPVREHLRHAPFWLL
+ALFMVLTMSVTSALPAHMIALLQESGLSPAWVLAIPAAIGVIQVLGRLVLFVFERYWDVH
+AANRWIPTLIPAGIVALLIGGLSPVASLVFVLLYGLGNGMNTIVKGTAMAQYVSRTHVGQ
+LNGLLGLPIALARAAAPLILGLLWSPQHGYTLALWWLLTASLLGTGALWAAQRSALKPVR
+>tr|A0A0P0M9G0|A0A0P0M9G0_9BURK
+MSTAHALNAHSFPLRGSHLIEASAGTGKTWTIAALYVRLVLGHGDACTAPVRPMLPQDVL
+VMTFTRAATRELSDRIRARLTEAAQVFRGIAPTDDAFLNQLQSEYPEGEPREQAAYRLAL
+AAQAMDDAAVYTIDAWCQRMLREHAFESGSLFEENLVGDEAALRLEAVQDYWRQQLYPMA
+TPLVAQVQRVWRDVPALDQDMRALMAVPLAEAAPGTLAEVFGAVLTERDAQLAALKQGWV
+EKADNLLGWIEGQLVVKKHGWNGSILQVGRSKKWMDALKGWSQSSGDAKALKDAMGTGWD
+RLTPNGLLECRKEGDVVEMPPESQAFADLQAALLALPDPAQAARLHARTHVLQRMAELKR
+RSGLFGFADMLQRLDVALADPESGERLAQRLREQFPVAMIDEFQDTSPLQFRIFDRIYRT
+AENRQDAALLLIGDPKQSIYGFRGADIHGYLAARRATEGRHHVLGTNYRSTQAVVDVVNR
+WFEIPKDAFGYQRGDEDPLPFQAVEAKGRSEVFTTRDGGVKAMTLVHDATLRSQRDAQTH
+LSALCAEQIVAWLSDPQARFVDPNKGDQPLQPKDVAVLVRTGKEAAAVRDALRVRGVASV
+YLSDRDSVFASDEAQDLCLWLRGVAEPQDMRRVRSALGTRTVGLSLAELYELATQDELLD
+QRAEQMRDLRGVWQGQGVLAMLRQSLHVFQLAGRWRDQSDGERRLTNVLHLAELLQTASS
+QLDGEQALIRWLAQQIEEVKAGGAGDSEEQTVRLESDEDLVKVITIHASKGLEYPVVCLP
+FAHSHRMMEAHKTPVLQRDDGQGERHWTLDFDKDDTKLADHDRLREDLRLWYVALTRARH
+ALWVGWSPVTRGSGKSCVNHNSAAGHLLGGGDAIDEAGWLPKLQALEKDADEQRLSVQLV
+SASAKVPLTLWERPAHTTELRDALSCTARIDKSWTIASFSRLTRDLSSQPLAQMSLHMTT
+PRPADDEPPEDAQVLPTPATPVGSLAPWHGFAKGPTAGNFLHDQLEWLAADGFVLDSPKA
+ERLKKRCENAGYLAQANDVVQWLTRVVAQPLSGPGRPLNALGTLLPEMEFWLPAERLHAR
+EVDALCQQHLLPGVSRPQLPDAQLHGMLMGFADLVFEHEGRYWVLDYKSNHLGADDAAYT
+AQALDAAMAHHRYEVQAVLYMLALHRLLRARLGGAYNPAQQLGGAVYLFLRGIDGPVGGC
+CTLPAPIELLDGLDAMLHAEVKA
+>tr|A0A0P0LBG7|A0A0P0LBG7_9BURK
+MGLSTHVLDTMHGCPAAGMQVALYTTQGDQATLVKNFTLNHDGRNPDGMLYDHASLRQGT
+YRLVFNVSDYFKAKGVELPEPNFLNRVSLDFGVAHEDQHYHVPLLASPWSYSTYRGS
+>tr|A0A0P0M9A2|A0A0P0M9A2_9BURK
+MRLAITHDTRYRYSPSVQTAQHVAHLQATDTPCQTVLRHTMAISPEASVQHSIDAFLNHR
+AYWALTHPHEGLSVQAYTEVETRAIPAITPSSAQQSWETVREHFRYRGGQAGDVHAGLVF
+GSHHAPVHTAFADYAQSCFTPGRPLMQAAQALTARMHRDFHYETASTDINTPALEALHNK
+RGVCQDFAHILVACLRSLGLPARYVSGYLLTQPPPGQPRLVGSDASHAWASVYLPELASH
+ACLGWFDLDPTNDRCGMASPGEDYVRLAVGRDFADVSPLRGVLQGGGSHTLEVAVTVAPL
+DL
+>tr|A0A0P0MAJ8|A0A0P0MAJ8_9BURK
+MTYSLNTLTRDGAAPAPAAPPTLWSRFAQEILLLLGAGLLLFVTVALWSYHPQDSAWSTS
+GSGELVRNGAGRWGALISDLAYFLMGFSAWWCVAAGLRVWLVSFARWLRGAGPQDTVDEP
+FWQRSLWVFWLGLAVLLMASCGLEWTRLYRLESALPGHSGGVLGYLVGTAAVRGLGFNGS
+ALLCIVLALVGVAMVFRFSWGQLAEKIGGRLDALIQSRHEKREIEEDLALGQQALRERQQ
+ALTPQAIEPEWDLAQPVHDSPDGQLDLPPVPVTKPVSRVIEPPVMEVPRSDRVVKERQKP
+LFNELPDSKLPQVDLLDSLSIRQETVSPETLEMTSRLIEKKLSDFGVKVRVVAAAPGPVI
+TRYEIEPDTGVKGSQVVNLARDLARSLSLVSIRVIETIPGKNYMALELPNAKRQSIKLSE
+ILGSQVYHEAKSMLTMGLGKDIIGNPVVADLAKMPHVLVAGTTGSGKSVGINAMILSLLY
+KAEARDVRLLMIDPKMLEMSVYEGIPHLLAPVVTDMRQAAHGLNWCVAEMEKRYKLMSKM
+GVRNLAGYNQKIDEATAREEFIYNPFSLTPDDPEPLKRLPHIVVVIDELADLMMVVGKKI
+EELIARLAQKARAAGIHLILATQRPSVDVITGLIKANIPTRIAFQVSSKIDSRTILDQMG
+AEALLGMGDMLYMPSGTGFPIRVHGAFVSDEEVHRVVSYLKSQGEPDYIEGVLEGGTTDD
+DGGMLGEGDNGEKDPMYDQAVEVVLKNRKASISLVQRHLKIGYNRAARLVEDMEKAGLVS
+AMSGSGQREILVPARAE
+>tr|A0A0P0M7I7|A0A0P0M7I7_9BURK
+MRKSFTWMKWAVLTSSIWLTGCGTISTLGKLESGAGAEASRMWDRWVEGEGDIAVATTWE
+RKVKKGVTAQEVEQVLKQVATERNMRDVGTLPLSKELEARSGKKEKLLTVYSFCSPTTAR
+KMVDFSPHMAAYLPCRISMVEKEDGLWLYTLNMDMMVKMGRKLPSPLKEEAKAVRDTIWE
+MMERGHKGEF
+>tr|A0A0P0M9D6|A0A0P0M9D6_9BURK
+MSSLQLSLAAIGALTVGAVVVYNYWTSRKNAPRQADPHREPLHEPSSPAIDPVLDNDPVS
+PVQGDGPIEPVLKDTFTHLSQPDRKTQLDALIDVLAPIEVDQPISGDAALAALPTTRRVG
+TKLFSVEGCVQDTGHWESLVAGRRYTAFQAGVQLANRVGALNNIEFSEFVVKTQAFADAL
+GGSASFSDMLEEVARARELDQFASVHDAQLSFTLCARSAAWSPGYIHQHAARLGFVPGVI
+PGRMVMPAAVQGLPPVLSLTFDTHAAMAEDPDLSAIRSFVLSLDVPQTAREEKPYERLRE
+ASVALASQMDGVVTDGEGQVLSEATLDQIGVDLQQLYDALDARELSAGSPQARRLFS
+>tr|A0A0P0M9W8|A0A0P0M9W8_9BURK
+MINLADSPILVSGAFFAAAVETLKEFNHLGQSVLAKHNIDSIDRTLFYPNQLRVDLFEAV
+YERFGDAGLTWIGLESPGQFFSLQELERSPLRLRLNEPEFQFDERLHSNPVELDRYFQNF
+LNAYCEEVSKILVASTLKADYPVGQFLRPHPSGFPLHYLIQLNSKLAKTYSLWSRGTVQY
+NLRLHLPDGWDFQLTLNKELTHELVSHSEYFFDLVIMPMAPDQNRAYCVLKDRLECREAL
+LKAALDQTFKQEQALKRVHDKTMESIRYAAAVQLNQLPKVSPKHGFKDFAVLWEPKDIIG
+GDTWWLSPEDSPGPVTLAVVDCTGHGVPGAMTAMLVSNTLSRLFAEDPFCTLEAAAAGIG
+QALAQSFGSFDQNSDVANGCDLVLIQQVPQSHQLRLGLAGIDVMHYRNAQKKLDWIESPR
+NGISAKPSADLPMAIRHIDYSAGDRLLITTDGLTDQVGGGERLRSFGYGRTNALFESSQE
+KSVNEVVESLMNAMDTWRGIHERRDDVTLVCIDL
+>tr|A0A0P0LIU5|A0A0P0LIU5_9BURK
+MSNLLPPLPSLPALSPSAPSGSGALLPATGRAGAFGQLLADATPRSGVVQAQEGDTLIGL
+VKAHYRQNQQPISEHQAMRLAHQVAARNQIDNPNLILTGQKIDFSSLQMPALARGEAPGP
+LELNAAKTQAVSQLTTSAALTANALASRPTAWVGKSAANGQHPVLDKTLDRAVAKGFVPA
+KEIPAVKDKILALADRYNFKPDDFARLSLMESGGLNPQASNGHCHGIIQFCDGPNRGAAS
+VGFKDNPRAILGMGLLQQLDLVERYFSQAGLRVNGPPIGLDDLYLTVLTPAARQETRPDA
+PLPIAGPQARYLHVGQDTRGPITRNSILAGLHTLTNAMLPPTARAAVAPVAEAVGKAGMT
+RLYEEVAGTLPTALPSALPTALR
+>tr|A0A0P0M8X2|A0A0P0M8X2_9BURK
+MSLHITTFEGASALSDFRIAQLLPRLAEISPHIQGINARFVHLVATTAPLQDAQKHTLAA
+LLTYGEPYAGPGDGPVIVVSPRIGTVSPWASKATDIAHNCGFDVRRVERLTEYRLTLKSG
+LLSTAKLTAEQLGQVAAVLHDRMTESAMPSRGDAAALFTALEPAPMDHVDVLGGGRAALE
+EANKTWGLALADDEIDYLVKAFTGLNRNPTDVELMMFAQANSEHCRHKIFNAEFTIDGVA
+QPKSLFGMIRNTHQLSPQHTVVAYSDNASVMEGHTVERFVARTSGQGAAYQSEQALHHVL
+MKVETHNHPTAISPFPGASTGAGGEIRDEGATGRGSKPKAGLSGFTVSKLWGGMSDQAGG
+KPEHIASPLQIMTEGPLGGAAFNNEFGRPNLLGYFREYEQTVDGVVRGYHKPIMIAGGLG
+QIDAEQTQKIEFPAGSLLIQLGGPGMRIGMGGSAASSMATGTNAANLDFDSVQRGNPEIE
+RRAQEVINHCWAQGANNPILAIHDVGAGGLSNAFPELTNDAGRGARFDLRAVKLEESGLS
+PKEIWSNESQERYVMAIAPESLAQFTAFCERERCPFAVIGVATEERQLVLEDKGQESPVD
+MPMDVLLGKPPKMHRDVTTVVRQSPAMDLTGVSLQKAVIDVLSHPTVASKRFLITIGDRA
+VGGLTHRDQMVGPWQVPVADVAVTLADYAGFTGEAMSMGERTPLASLNAAASGRMAVAEA
+ITNLLAAPIELPRVKMSANWMAACGEPGEDAALYETVKAVGMELCPALGVSIPVGKDSLS
+MRTQWTDQGETHKVTSPVSLIITAFASLSDVRGTLTPQLDAKTDDTSLLLIDLGQGRNRM
+GGSVLGQVLGQFGNSVPDLEDPQALVNLVKAINTLRAKGQILAYHDRSDGGLLAAVAEMA
+FAGHVGVALNVDMLVTEGDGISDSRADHGDAKNWAGQVSARRDELTLKALFNEELGVVIQ
+VRTADRNAVLQTLREHGLSKHTHVIGKTRPVQSTIQKGVGELSIWRDTKEVFTAKLEDLH
+QVWDSVSWKICQQRDNPACADAEHAATGEASDPGMHVALSFDPTDNVAAPFLNLSRPKVA
+ILREQGVNSHVEMAYAFHKAGFESHDVHMTDLQSGCANLADFKGLVACGGFSYGDTLGAG
+IGWARSITFNPALAEQFKGFFGRNDTFGLGVCNGCQMFAELADIIPGAEAWPRFTTNQSE
+RFEARLSMVEVLESPSLFLQGMAGSRLPIAVAHGEGFANFKHRGNPAQAIGAMRFVDNHG
+QATEAYPFNPNGSAGGLTAVTTLDGRFTAMMPHPERVFRNVQMSWTSGDISSASPWLRVW
+QNARKWVG
+>tr|A0A0P0M998|A0A0P0M998_9BURK
+MKPIKVGLLGIGTVGSGTFNVLQRNQQEIQRRAGRGIEIAMVADLDVARAKAVVGEGVQV
+VADARAVIANPEIDIVVELIGGYGIAKALVMEAIAAGKHVVTANKALLAVHGTEIFAAAQ
+AKGVMVAFEAAVAGGIPIIKALREGLTANSIQWVAGIINGTTNFILSEMRDKGLDFGVVL
+KEAQRLGYAEADPTFDIEGVDAAHKVTLMSAIAFGIPVQFDKAYVEGITKLGAADIKYAE
+QLGYRIKLLGITKRTAQGIELRVHPSLVPTQRLIANVEGAMNAVMVQGDAVGTTLYYGKG
+AGSEPTASAVIADLVDITRLHTADPLNRVPHLAFQPGSMSNLTVLPMSEVVTSYYLRLRV
+ADQAGVLAKLTGLLAEANISIDAVLQREADQVSQAGENQTDVIILTHDTREGTLNDVLAQ
+MQALPTVMAPIVRIRKEELN
+>tr|A0A0P0MAN2|A0A0P0MAN2_9BURK
+MEKRVRFQSRWLPWLLVAPQMAIVLVFFFWPAGQALYQSVLSQDAFGTSTEFVGLENFER
+LFADSTYLESFKTTAVFSLLVAFFGLSISLLLAVMADRVLKGAAIYKTLLIWPYAVAPVV
+AGVLWLFMFASPMGVIAFYLRSVGIEWNHLLDSGHAMTLIVVAAVWKQISYNFLFFLAGL
+QSIPKSLLEAAAIDGASPWHRFWTIVFPLLSPTTFFLLVINVVYAFFDTFGIVDATTQGG
+PGKDTAILVYKVYYDGFKALDMGGSAAQSVILMLIVVALTVVQFRFVEKKVQY
+>tr|A0A0P0M8I6|A0A0P0M8I6_9BURK
+MLIDADESQLVLVDFQARLKPAMLDADAVWANAARLATLAQALDVPTWGTEQNPSRLGEM
+PPEIRSYCRQVLAKMQFSAVEEGLGEWLQPEPVQALRGNARSLPRHLQKPQPGADPRKTI
+VLAGCEAHICLMQTALDLLEDEFEVWVVTDACSSRTERNRDAAYDRLAGAGAELVTAEMV
+AFEWIRSAEHPDFKLLQSLFK
+>tr|A0A0P0MBI6|A0A0P0MBI6_9BURK
+MKPSAQPVLRDLVLVGGGHSHVGVLRMFAMKPEPGLRITVICTDIDTPYSGMLPGYISGH
+YSFDEVHIDLGRLCAFAGARLYHDAVVGIDRQNQKIICQNRPPVAYDLLSINIGSTPQVR
+HVEGAQSLAVPVKPIAQFNQRWLALMDKARQWPVHRGRMTIAVVGAGAGGIELVLSMQYR
+LRHELKALGRSPEDLKFVLLTSGDTILPTHNPGVRKRFAQVLQERNVEVHTSAEVIQVSP
+GCLHTRDGRTFDADETMWVTQAGGPAWLQSTGLALDKQGCILVHPQLQTLNDPLVFAAGD
+IASFVERPLEKAGVFAVRMAKPLAENLRRSLRGQKLLAYDPQRHWLALISTGNRFAVASR
+GSLGFAGAWVWRWKDRIDREFMRRFTEFPSMPGAGSPGQAGAQVREAVQAMGQLLKDIQA
+QGKGHTTQLNLTSEESLQAISAIAMRCGGCGAKVGASILSRALGQLQPVERPDVLIGLHS
+PDDAAVVRVPAGMAVVQTVDFFRAFIDDPYVFGKVAANHALGDIFAMGGEPQTATAVVTV
+PPGLESKVEDLLTQMMGGAIEVLNAAGCALVGGHTGEGAELALGFAINGLIDEKMHSVMR
+KGGMQPGDVLLLTKPIGTGTLFAAHARYAAKGRWIDAALKSMVLSNQSGAEILRTHGATA
+CTDLTGFGLLGHLVEMTRPSGVDAELTMSTLPLLDGAVDCVQAGIVSSLQPANVRLRRAL
+RNADEFLGDPRYPLLFDPQTAGGLLASVPAAQAGACVQALKAAGYVHTAIIGRITAQSQA
+IEPVLLKT
+>tr|A0A0P0LMQ9|A0A0P0LMQ9_9BURK
+MNIIILGAGRVGESVAESLVSEQNDITVIDQDPERLRLLQERLDLRGVVGNGIQPSVLHE
+AGAQDADMLIACAPADEANLVVCKIAHDVFNVPTTIARLRSPEFNEGDALLGKSGFAVDH
+VICPEESVTRYIEQLIQYPEALQVLEFAEGRVSLIVVRAAADSLLVNHTIAEFRGRLPDA
+EMRVVALYRQDALVDALPETRILPGDEVFVLADTRQIPIVLGGIHKTDKPVQRLMLAGGG
+KVGLRLARILADQYDVKLIERDKKRCEYLASQLPSSMLILNGDGADEDLLQEENVGEMDL
+FLALTSDDEDNIMSAMLAKRMGARRVMALINRRAYADMMQGSTIDIAISPAQTVIGELLA
+HLRRGDVAAVHSLRRGAAEALEGIARGDHKTSKLVGRRVEEIKLPQGVSMGAIVRGEGKK
+SEVLMPHHDTLIEANDHIVLFIPNKRDVRAVEKLFQVGATFFG
+>tr|A0A0P0M834|A0A0P0M834_9BURK
+MLAMGGTKGALLALVVELLVTSLTGAHFGAEADTFFKPEGNQPRLGQVFIVIDPQALGGQ
+TVYNERVEALISAMLSDEGVRLPGQRRIQLVEAAKKTGLDIPQSAIDAIRAFC
+>tr|A0A0P0MAP5|A0A0P0MAP5_9BURK
+MDLGIAGKWALVGGASKGLGWGCARALALEGVNVVMVARGAEVLNKAVDDLRAETGGKVQ
+LIAVAVDITTEAGREAIWNVAGGPGKDYDIVVTNAGGPPPGDFRDWGREAWLKAIDGNML
+TPIELIKATVDRMAARGFGRIVNITSSAVKAPIDVLGLSNGARSGLTGFVAGASRSGIAA
+KGVTINNLLPGKFDTDRIRATLPAMAQKQGKTVEELRVIQQAQIPAGRYGNPQEFGAICA
+FLCSQHAAYMTGQNVLADGGAYAGTF
+>tr|A0A0P0MBT5|A0A0P0MBT5_9BURK
+MNFTDTPTVFIVDDDASVREGMAWLLRTRRLLSESFDSAEAFLAMVQGHSAGDGAAWQPD
+PALLQQSACILLDVRMPGMSGLALFEQLLAKGIAQAWPVIFLTGHADVPTAVDSVKRGAF
+DFCEKPFSDNALVDRVEQALALSQEGLVARQTQQRLQSRLLELTERERDVMGLVVEGLPN
+KLIADQLDISVRTVEVHRARVFDKMEVKSAVELANLMRQLA
+>tr|A0A0P0LLR8|A0A0P0LLR8_9BURK
+MSATPLSDPALANPEHLPRRMAVVVFLAFALAYFFSALVRAITATLSPTLTTEFSLSAQD
+LGLLAGGYFLGFSLTQLPLGRWLDQHGPKKVILAFLTFAVLGCLAFSWAESFHGLLAARV
+LCGMGVSACLMAPLTGYRRWFDASTQLRTNSWMLMTGSLGMLAATLPVQWLMPIWGWRAL
+FVMLGVMIAIAMLLITLLVPAWQKATPAADSPQTPYDDDGSYREIWRSAYFWRMTPIGFF
+SYGGMVAIQTLWAGPWMTQVAGWTAAEAASGLFLINLAMLMTFWAWGMITPGLARRGIPV
+ERLIAWGLPLSFGVIGALVWMGPSVGAGAAVGMALLCVTSTFVALAQPAVGMAFPSHLAG
+RALSAYNLVIFAGIFVVQWGIGLLVDAGRGLGLANAQAYQVALACFGLSSVASWAFFMLK
+KPAQRR
+>tr|A0A0P0LMG7|A0A0P0LMG7_9BURK
+MLSAKQHLLAALAAELEKLQTGAGARAAFESPKVAAHGDLACTAAMQLAKALKQNPRQLS
+ETLRSALLTTPAFERWVDAIEIAGPGFINIRLKDTAKQAVVHEVLQAAECFGEQPAQPNK
+VLVEFVSANPTGPLHVGHGRQAALGDAICNLLSTQGQQVYREFYYNDAGVQIGTLAKSTH
+MRAQGIQPGDATWPTDPDNPESKAFYNGDYIQDIANDFLAGKTVQSDDRSCTASGDVNDV
+DGMREFAVAYLRREQDLDLKAFDVRFDNYYLESSLYTSGKVDTAVQKLKDAGKTYEQDGA
+LWLKSTDYGDDKDRVMRKGDGTYTYFVPDVAYHIAKWERGFTRVVNIQGTDHHGTIARVR
+AGLQAANVGIPEGYPDYVLHTMVRVMRGGEEVKISKRAGSYVTLRDLIEWTSKDAVRFFL
+LSRKPDTEYIFDIDLALAQNNDNPVYYVQYAHARICSVLAAWKEKDGGDVASLAHVDLSP
+LQSPQAHALMLALAKYPEMLTSAANDFAPHDVTFYLRDLASLYHSYYDAERILVDDETVK
+QARLALVAATAQVLRNGLKVLGVSAPQKM
+>tr|A0A0N7J8L7|A0A0N7J8L7_9BURK
+MTQKTGVILFAHGSRDPLWRLPIDAVAQRMRGQQASTPVSVAFLELTEPDLPSTVEALMK
+QDVTHVRIVPMFLGVGRHAREDLPELVHGLRQAYPQMSFELLPAIGEHPAMTALMADIAA
+GRDQTDI
+>tr|A0A0P0MB01|A0A0P0MB01_9BURK
+MRLKGKIALVTAAGQGIGQAAALAMAAEGATVYATDVNAELLKSYEGVANVHTAVLNVLD
+KAAIAAQVARLPRIDIVFNCAGFVHNGNIELATDEDWDFAFNLNVRSQFWMIQAVIPKMV
+AQFAQTGHGGSIINMASVCSSVKGLPNRFIYGTSKAAVIGLTKSVAADYVRQGVRCNCIC
+PGTVDTPSLQDRINSYADPVQARKDFINRQPMGRLAQAAEIAPIVTFLASDESIFATGNA
+YMVDGGMTI
+>tr|A0A0P0LCF2|A0A0P0LCF2_9BURK
+MSKLVGLVGWRGMVGSVLMDRMIQEKDFDLIEPLFFSTSNAGGKAPSMAKNETTLQDAFN
+LEQLKRCEIIITAQGGDYTSEVFPKLRAAGWNGHWIDAASTLRMEKDAVIILDPVNMPVI
+KNALAHGGKNWVGGNCTVSCMLMGVGALYKAGLVEWMSTQTYQAASGGGAQHMRELLTQY
+GTLNAEVKALLDDPKSAILEIDRMVVAKQRALTASETANFGVPLGGSLIPWIDKDLGNGM
+SKEEWKGMAETNKILGMGEAFGSSAIPVDGFCVRVGAMRCHSQALTFKLKKDVPVADLEA
+MIAADNDWVKVIPNTREATIKDLTPVAVTGTMTIPVGRVRKLAMGPEYIGAFTIGDQLLW
+GAAEPLRRMLRILLDA
+>tr|A0A0P0M961|A0A0P0M961_9BURK
+MLLSLQGTFPPAILALADGTVFIGNSIGATGSTVGEVVFNTSLTGYQEILTDPSYCQQIV
+TLTYPHIGNYGVNVEDIESDKVHAAGLIIKDLPLVASNFRSSQTLSSYLVDAGTVAIANI
+DTRQLTRILRTQGAQNGAIVGLAKGQAVTQAVIDQAIAAAKAAPNMAGLDLAQKVTVAQP
+YDWTQSEWQLGAGYGTQTAPKFHVVAYDFGVKKNILRMLAERGCKVTVVPAKTPAAEVLK
+HKPDGIFLSNGPGDPQPCDYAIVAAAELIETGIPTFGICLGHQIMALASGAKTFKMKFGH
+HGANHPVKDLDSGRVSITSQNHGFAVDEKSLPANLRATHVSLFDGTLQGLARTDKPAFCF
+QGHPEASPGPHDIAYLFDRFIKLMEKK
+>tr|A0A0P0LG18|A0A0P0LG18_9BURK
+MQYTHEHREIQNTLKRFIEAEINPHVDEWEAAEIFPAHEVFKKMGDLGLLGLTKPEAFGG
+AGLDYSYGMAMAEALGHIDCGGIPMAIGVQTDMATPALARFGSDELRAQFLAPAIAGDMV
+GCIGVSEPGAGSDVAGIKTVARKDGDDYVISGQKMWITNSLQADWMCMLVNTGEGPIHKN
+KSLVMVPMRENGKLLPGIEVGKKIKKIGMNSSDTGLIYFDEVRVPQRYRIGAEGQGFIYQ
+MQQFQEERLWCAASTLQSLTNCIQWTVEWAQERKLFGSTLADQQWVQFKLAELKADVECL
+RALTYQACEHYIAGEDVTEWATMAKLKAGRLNRTVPDTCLQFWGGMGFTWENKVSRMYRD
+GRLASIGGGADEVMLGILSKMMGIAKRPQK
+>tr|A0A0P0M7D4|A0A0P0M7D4_9BURK
+MSSALQRWFPILDWGRRYNRSLLTADGVAAAVVTLMLIPQSLAYALLAGLPAQAGLYASM
+APLVLYALMGSSGTLAVGPAAVTSLMTAASVGAVAAQGSVAYTEAALMLALLSGAIMLVM
+GAARLGFLANFLSHPVISGFVSASGLLIAASQLKHLLGVPLHGENLLQLLPQLWQNLSSL
+HVPTSVMGLGALGLLLLVRRQLKPWLKRLGVSAGAADLAAKTAPVAVLLLSIALSAVWQL
+AEQGVRVVGTVPQGLPPLTLPGVSSGASATGGWADPWALAQALWVPALLISLVGFVESVS
+VGQSLAAKRRERIDPDAELRALGLSNLGAGLSGGFPVTGGFSRSVVNFDAGARTPAAGIY
+TAVGLALAALFLTPWLFHLPQATLAATIMVAVLTLVDVGVFARTWHYAKADFIALLLTFG
+LTLTVGVEAGLIAGVSASVLLLLYRTSRPHIAVVGQVPGTEHYRNVLRHTVLEQPGILGL
+RVDESLYFANARFLEDTIAVQVAVRPGVRHVVLQCSAVNYIDASALESLETINARLQASG
+VQLHLSEVKGPVHDRLKRSHFLAELSGQVFLTHHQAVQALTPGV
+>tr|A0A0P0MBH1|A0A0P0MBH1_9BURK
+MKYTTSCASALLMLAMGLPAQAQFAKPEDAIKYRKASFTVMAAHFGRLGAMANGRAPYDA
+KAAADNADVVATLAKLPWAAFGEGTDKGDTRAKPEIWKESAKYKEAADKMQAEIVKLNTA
+AKAGNIDALKAAFGPAAASCKACHDNFRKD
+>tr|A0A0N7J8H8|A0A0N7J8H8_9BURK
+MSDSQNLLSPEELAALSASFNDGSMEVDTGYNLDVQVRKHDLAAEDSSLGVNVASLDMIN
+ERFIRMFRLGMLEVLRTSPRVNPTRAQIVRFGDYIKELKAPLSVNIIRMAPLRGYAMVVI
+DPTVVFSSLDSFFGGFGRGVGQLPPGRLFTPTEARIIKIILQVFFRSFKEAWAPVTPIEF
+EHVSSEINPQFAQIADENDLVVLSRFESDANSQGQGFIDMVIPYVALKPVRDVLRSRVQT
+GDGNEESDKVWRSQLADAVRDAELEIQILLGKLSLSLHQLQTMQPGDVLPFKKADSARAM
+IQDMPVYEVEVGAMGSQVAVKITHAISPTVQE
+>tr|A0A0N7J8W8|A0A0N7J8W8_9BURK
+MPNDTSPASSPADYAGHTPMMAQYLGIKAEFPDTLVFYRMGDFYELFFGDAEKAAGLLDI
+TLTRRGQSAGQPVLMAGVPFHSVETYLARLIKLGESVAICEQVGDVATAKGPVERKVVRV
+VTPGTLTDTELLSDKSEAILLAVHQAGKNRCGLAWLSVTQGVVHLAECGQDELADWVDRI
+SPSELLASAGMTPNFEQKLRGLKTAGRGNWSLALRPDFQFDAGLGQRKLLEQLQAATLAA
+WSADTLSDAHAAAAALLTYAEHTQGRSLPHVQRVQVQRSDALIDLPASTRRNLELTQTLR
+GESSADSPTLFALLDTCMTGMGSRLLKSWLLSPPRDRQVAQQRLQAQALLRGDSGSGAWS
+SLREQLKGASDVERITARTALRQVRPRELVALRHALARAASLSTQLKALNPEPGTLLGGM
+VRWLTPPTHCAELLQMALLEEPAALVRDGGVIADGLDAKLDELRNIQTHCDDFLLDLETR
+EKERTGIANLRVQFNKVHGFYIEVTQGQLDKVPDDYRRRQTLKNAERFITPELKTFEDKA
+LSAQERALAREKWLYEGLLDQLQPFVPALTELAQAMASLDVLCALTERSLTLNWCAPEFT
+KEPCIEIRQGRHPVVEARLAQMSGASFIANDTVLGPKQRLQIITGPNMGGKSTYMRQVAL
+IVLLASIGSHVPASRCRMGPIDAIHTRIGAADDLANAQSTFMLEMTEAAQILHSATPHSL
+VLMDEIGRGTSTFDGLALASGIATHLHNKTQAFALFATHYFELTEFPASHTAAVNMHVSA
+AESGASIVFLHELQPGPASKSYGVQVARLAGMPAAVLNHARHALSALEAGATESRQQVDL
+FAAPPESEATGPSPIEVALAQINPDALSPREALDALYALQRLLPKN
+>tr|A0A0N7J8C8|A0A0N7J8C8_9BURK
+MILKTLRYELADGLATITFDEQGSPVNTMCLQWQDDLAQAAEQVAKDKAALKGVILASAK
+STFFAGADLKGVMRSKASDGPRVFADIEGIKKAFRTIETLGVPVVSCLNGSALGGGWEVA
+LIGHHRIATANPKTQFGLPEVTLGLIPGGGGITKMTRQLGLLAAQPYVLESKLFGPEEAQ
+KLGLVHEIVASDDQLRPRALAHIAASQGQPEAAQHPWDRKDYKMPGGTPSNPKIAGMLSV
+APAVLKQKTRGLYPAPEAALAAMVEGAMVDFDTAMRIESRYLAGLMTSQVARNMINTFFF
+NMNSIKGGQSRPKAAPRYKPQKVGILGAGMMGSGIAHSQASRGIATVLKDVSLEAAEKGK
+AYSHKLTQKRVDKGRMTADKQAALLSLIQPTASAADLKGCDLIIEAVFENRELKARVTQE
+AEPMLAEGGFFASNTSTLPISGLATASANANKFVGIHFFSPVDKMQLVEIIRGAQTDDET
+IARAYDYVQALGKLPIVVNDSRGFYTSRTFGTFVMEGAAMLGEGIPAPVIENLAMQVGMP
+VGPLAVLDETALSLSVHVLDQTREDFSKEGKTYTATPGELLVERMVKELKRPGRAAGGGF
+YDYPAGQKKVLWPELKTRFEKADVAYSQQDIKDRLLYRQAVETARCLQEGVLTSVHDGNI
+GSIFGIGFPAWTGGALQFIYGQGVDAFAKRCAELAALYGAGFALTAEVIASLKQHQPVY
+>tr|A0A0P0M700|A0A0P0M700_9BURK
+MPLLHLPTAYFIAGILYLAMPLFVWAILRNQNERINTLWCLGGVSFGLSLVLLGMRGKVP
+DVLTYGIAVWLLVVGPLLRAGALRIQLQKPLYLMGILSLSFMFFAVYALFDLVLNNDTLP
+FIWSNLGAGAAVGWLAFGAHNVYRLDRSISARWMFLAYLTLSVLLGLRVLSLLLGSAQPQ
+AMAADPLSVMLIVWAVVTSIVGNVGFLGIFTERMNRKALELAKVQARQEEAARLIEQVAQ
+LDRRRSVGEIAASLAHELSQPLTNIYLIADRMEMSLQERQDESLNKYFEDLNRNTQKAGD
+ILGRIRSFIQSRAKALERIELSQVITDAKALIHNLAHNESVDIQISLHPQELAVRADPVQ
+LSQIFMNVLRNAIQATQGQASRQLQIRVWREEQMAHITFTDNGPGLSAEVLRQVGTSFFS
+TKSEGLGVGLSISKSIAQQHGGNLTIGNSPLGGAVVELQLPVMD
+>tr|A0A0P0M705|A0A0P0M705_9BURK
+MSAIAPDMKTPDLQPADYLIKILNAKVYDVATESALEPAKNLSRRLGNQVLLKREDQQPV
+HSFKLRGAYNKMAHLSPEQLKKGVICASAGNHAQGVALSASRLGTRAVIVMPTTTPQVKI
+DAVKGLGGEVVLFGDSYSDAYNHSLSLQKKQSLSFVHPFDDPDVIAGQGTIAMEMLRQHQ
+GPLDAVFVAIGGGGLISGVANYIKAVRPGVRVIGVQMNDSNAMIQSVNAQQRVTLPDVGL
+FSDGTAVKLVGEETFRVASNLVDEYMTVDTDAVCAAIKDVFVDTRSIVEPAGALAVAAIK
+QYVAAHKCKGQTFAAILCGANMNFDRLRFVAERADVGEEKEALFAVTIPEERGSFKRFLE
+LIGSLPGGPRNVTEFNYRMSDSDKAHVFLGLSTHGKGESAKIAAKFNKQQFKAIDLTHDE
+LAKEHIRHMVGGHSALSQDERLLRFEFPERPGALLKFLSLMRPGWNISLFHYRNQGADYG
+RILVGLQVPPKDDKAFDKFLKTLGYPYAEETHNPVYRLFLRA
+>tr|A0A0P0MBT2|A0A0P0MBT2_9BURK
+MNSSTTPIRAIVFDAYGTLFDVYSIGALAETLYPGQGAALSVLWRDKQIEYTRLISLSDP
+NPEGSRHYQSFWDITRASLRYALARLGLVHTSANEDALMAQYAELTAFPENLGVLQALRQ
+RGVATAILSNGSPEMLQSAVHSAGMSELLGAVLSVDSVRQFKTTPTSYQIVTDHFGLAPA
+EVLFVSSNAWDALGATWFGFTTLWVNRQGLPPEAIGPAPHHTGRDLSEVLKVLG
+>tr|A0A0P0LCZ8|A0A0P0LCZ8_9BURK
+MSETQFDPVKIGIVSISDRASTGVYEDKGLPALQDWLTRALHNPITFEPRLIPDEKDRIS
+ATLIELVDAGCSLVLTTGGTGPALRDVTPEATLAVADKEMPGFGEQMRQISLKFVPTAIL
+SRQVAVIRGQSLIINLPGQPKSIAETLEGLKDADGKAVVHGIFAAVPYCVDLIGGPYMET
+QDEVCKAFRPKTAIRPAR
+>tr|A0A0P0LFV0|A0A0P0LFV0_9BURK
+MSKKFKIVVNTGNADNNQSVDVTQGQGGRGQPVRLKAKAGAKYQLLDLEKAKAVGPDYVK
+VKRVGKNLHILFEGSTEADVIIEDYYDVMPEGYNGVVGQAENGNFYEYIPEDPDAKGLIP
+QLADGGQAVSVALGGAEVVGSGAALAVLAFNPLLAGLGLLGAGAAAAAVAGGAGGTTASE
+DVTITAVADNVGNTDNASVNLSAGGLTNDNTPTLTGLAPAGSVVTIRDGEAVLGTTTADA
+NGVWSFTPATLAEGNHSFTATAEVAGSPATSAAFAIVIDTVTPTVAVSVPKTSLATGESV
+TVTFTLSEASADFVLGDITAVGGTLSNLQGSGTSYTATFTPNAGITSAMVFVDSDKFRDA
+AGNLNKDGAEANNTVSFNVGTGSATNNALAITSVTDNAANTPEGAAINIAAGGLTNDSTP
+TVNGTAPAGSVVTLRDGATVLGTTTANAQGVWSFTPSALPEGARSLSASTTVNGATTNAG
+PFAFTVDTNAPTIAVSVDKTILANGETATLSFTLSEPSADFQASDITSPSGAITNLQGVP
+GTGNASTGFTQYTATFTPNAGVTSAAIVVSSDRFSDAAGNLNKDGAEINNAVSLAINNAN
+TLVSIDNATDNVGNPNNALQNLTNGASTNDTTPTLNGKAPPGTPVTIRDGNTVLGTATAD
+ANGNWSFTTPTLTQGSRSLVASFVANGVTNTSNPYTLVIDTTAPTIQVSADQTRLLNAGD
+TATVFFDLSEPSTDLTNADITLSGGTLSTLQGVPGTGNATTGFTRYTATFTKTTGSTTSV
+AVASARFSDAAGNVNADGADANNTWTFSATPATATSIGSVTDNAGNSNNAVESLNNGGKT
+NDNTPTLNGRGTPGEQVTIRDGNTILGTTTVNPDGSWSFTPSPALSEGPHSFTATTPSGG
+TSAPFNVDIDTIAPTAPGIGDLTDNVGAATGSIANNTSTDDTTPTLSGTAEAGSTVRIFD
+TINGVTTQIGTATADANGAWSFTPVTALANGAHSLTAKAVDAAGNEGPASPARNFTVAAD
+ASPTAPAAPAITSVTDNVGSVTGNIAKGTTSDDNTPTVNGTGTPGTVVTVFNGTTPVGTA
+TVGTNGQWSVTTSALTGPAISLSATTTDAAGNTSAPTGAYPYTLDTAAPAKPSFAATDNV
+GPTTGAIAGGSTTDDTTPTFSGTTEPGAVVVIRDGETVLGTTTARPDGTWSITPTEPLSN
+GPHNITQTVTDPAGNSSTSDPLSFTVDASAVIVSITKAVDNVAANTGDVADNGVTNDTTP
+TLVGKATANAVVTLREGTTVLGTTTADANGNWSFTTPVQSSGERNFSASATNAAGTSGTA
+NFKLTIDASAPSVPSGLSVNDDVGTVQGSVPNGGTTDDTTPTISGSAEAGSVVTIRDGET
+VLGTTTVRPDGTWSFTPTQALAAGPHSITSTATDPAGNTGPASTAQTFTIDTTAPSTRVD
+ITGITNDTGVSSTDFITSDNNGLTVSATLSAPLATGEKLFYSRDNGATWIDITASVNGTA
+VSAVDSQLTSTATIRMQVRDAAGNAGPTDSQLVTIDASGSNNSNSNGSTSTDPNTAATVS
+ITAISTDTGTSTSDFITSDQTLSYSGTVSGFTANGAAVQLVLTDASGIEVGRTFVTPAAN
+GSWTWDNTGVTRASGNYTLTATVVDAAGNRTNTAAAGQDTQLVTVDTTAPSQETTDPLNP
+SAAAGKASITLDPVTADNIVNATESAQANVAITGTARGEFTAGDVVTLTVNGKTFTGSVN
+AQGAFSINVPGADLLADSDKTVAASLAAKDAAGNTGTVTDTQVYTTDTTSPFTTVDITRI
+SLDTGASNSDFTTSDNNGLTIGATLSTALATGEKLFYSKDNGSTWTDITGSVNGTAVSHV
+DSTLTSTTTIRMQVRDAAGNAGATDSQLVTIDTSAPTQENTTPLTPDAAAGKASVTLAPI
+TADNIVNSVEGAQASVAITGTARGDFTAGDVVTLAVNGKTFTGSVNAQGAFSINVPGTDL
+RDAGTKTVTASLAATDLAGNTGTITDTQDYTVDTTAPTTTVNITAITNDTGVSGSDFITN
+DNDGLTISATLSAALATGEKLFYSRDNGATWIDITTSVSGTIVSARDDQLTSTATILMQV
+RDAAGNPGISDSQLVTIDTTAPTEEGATPLTPTAGKTSLILDDVTADNTVSGVEGAQTNV
+AITGTARGDFTAGDVVTLTINGKTFTGEVATNGRFSINVRGADLLADGDKTITATLDAHD
+AAGNFAPISATKTYLTDTIAPNDGAAPTVSITTDSNNDGLVSRSEIGQSNTFTVRASFDK
+TKVEAGDKVIFNDGSMTETVTLSATDIINGFASITFGKPAEGGTLTVTAQLQDKVGNNGA
+VSASDSARLDTTGPAPVVSPESIINPPAGKASLSIDNVTADNIVNLAESALTNVAITGTA
+RGEFKAGDTVTLTVNGRNFSGTVNASGQYSINVSGADLKADGDKTIDATLTATDAAGNTG
+AITANKLYTLDDNTPNGGAAPTVEITTDANNDGLVSSNELGSSQNFAVKGSFDKTKVVAG
+DLLVFSNGTTTNTINLTQADIDAGFATTTFAKPAEGAALTVTAVVRDIAGNTSASSTADS
+ATLDTTGPAQESTNPTSPAAGKTSLVLNDVTADNILSAAESGTTIAITGTARGEFKAGDT
+VTLTINSKTFTGTLVTGGTFSINVPGADLAADSDTVIDASLLATDAAGNTGTITATKDYS
+ANTSAPNGGDAPTLTIDTDANNDGLVSFGEIGNSSGTPNTTLTVSAKFDSAKVAVGDTVT
+FTDTGTGTVKTVTLTQAMKDAGKASTTFTSPGDGATFNVKASLTDGVLGNTGPEATDSAK
+LDLSNLDPVSPSTKQGVGIRITTDTDDNGILNTTEINGATTASVTVTLPTDAKAGDVLVI
+TGTGNDSKTITLSAAQISAGNLTASFTLPANGSQLEVSARVADTAGNTSNLATDAATVNT
+TPVGAPTVEITTDSNNDGFINRTELGGATTVSIKTTLPSGAVVGDTITVTDGSTTKTHTL
+VQADLDAGFVTDSFSAPANDATLNISATRTNSAGNVSSAGTDKAIVDTSSFADPTDATKT
+GLKVTLGTDTNNDGFISGSELTSQFKATIALPAQAAAGDTITLKASGNNPRSITLTAAHI
+TAGKVEVTDLTATGDGTTFTVSASITDRAGNTSPTPDASDSANIQSAAPNGGVAPTVTIT
+TDDDNNGFVNATEIGTATTFTVKGSFDNTKVMAGDQIVFSDGSNTQTITLSAADIGNGFA
+TTTFAKPAEGGTLTVNAKLQDSLGNSTASSANDSAKLDTSAPNGEAAPVVSITTDANNDG
+FVSAAELGSATTFTARATFDKTKVVAGDILVFTNGAIVKMVTLTATDISNGFGTTTFDKP
+AEGATLQVSATVMDTAGNVASESNVDSAQLDTTGPAQETANPGNPAVGKASLTLDKVTAD
+NVLNAAESAQSAIAITGKVRGEFTTGDTVTLRVNNTDFTGQVAADGTFSINVSGANLLAD
+SDLTVAASLVANDKAGNPGTITANQAYTLDSIAPNGSAAPTVTITTDANNDGLVNASEIG
+TANTFAVRANFDKTKVTVGDKVLFSDGTTTNTVTLAQADLDAGFATTTYAKPSEGATLSV
+TAKLQDPEGNNSATSTADSAKLDTTGPLPVVNPEDPLNPPSGKTSLVLDSVTADNIVNTV
+EGAQASIAITGTVRGEFTTGDVVTLTINGKTFTGAVAANGRFSINTTGADLLADNDTTVA
+ASLAAKDAAGNTGTITDDQVYSTDATAPTTTVDITGITDDTGVSNSDFITSDNNGLTIRA
+TLSAALATGEKLFYSKHNGTTWIDITTSVSGTNVSAVDTSLTSTATIQMQVRDESGNAGV
+SDSQLVTIDTSGSNNSNSNGGDSADPNASSSTSVSIDAISTDSGTSTIDFITNDPTLTYS
+GTVSNFTANGDAVKLVLKDASGTEVGSTFVTPASNGTWSWDNTGVTRASGNYTLSATIVD
+KAGNTVTGAGTDSQIVTIDTDGGKNTDNSNGSATPQTDANKDATVSITGISLDSGTSASD
+FVTNDQTLVYNGTVGSFTANGDVVQLELKNAAGTVVGSTFVTPASNGTWSWSDTGVTRDS
+GNYTLIATIVDKAGNRTNTAAAGTDSQIVTVDNSATQGTDNSNGSNTPATDANTNASIAI
+ASIVDSTLASSDTGTSANDFITQDRSLAIKGTVTDFVSTGNATGAAVRVQILKADNTVAA
+EGLVTPDSSGNWTFNNTVNDLIDGAYTVKASIVDLAGNAVKAATDKTLIIDNSASTNPAN
+NPATDGNSGSTVSVSVTAIDDGNSATGNANGSKDNGTSATDFVTNDNTLVIKGTTANFSS
+TGGASGDRVRVQLLKADGTLQAEAFVQPDTNGAWSWDRTGIQQADGKYTLKADIVDAAGN
+VVKAGNSQALVIDTDAANNPNNGTGAAGSDSNATSTLTLAITSIVDSGANDSKDTGVSAT
+DFITNDQTLVIKGTAAGFSNTGAQAGDQLRVQIVKADGSLAASQFVTVDGSGNWALDNHA
+NTLAEGTYTLKADVVDLAGNVVKSTTKTLKVDTTNAEQVDALNINKDTPSSAGTSNTDWK
+IFSDGTTKGQTIFGTVGTGEALSKVEISTDGGTTWAAGDLSGDLVKFYLDTPLSTGTKTF
+QFRTTDLAGNVSSGSTQQLVVEALATTSTSGITLVADGATQVLPSTSTGISFAGAGAPGS
+GSGGAQTFELSASAIANYLVNATPSANWVNAGAGIDTLKVTGTGTTLDLNNLTDFYTTTK
+LQGFEIIDLESDSGAQNVIGDATAFASFGTASWLTNINLLSNYQLVVRGNTGDKLVLSAG
+DGYDTTGWVKGAKDLPFATDPANSNASVSDGRTYTRWSNASLKIDLLVDNDIETSNKFVS
+FNSISTDTGSSASDLITTDTTLSLSGATSGLATGEVVKVTVLNSSNVKVVDNVTATVTNG
+VWTLDNQANALALGNYTVKTNIVSSGGATLATGQDRIVQVIAANDTPVNNGLTAQSTNED
+TALAITGLSMTDATNNGDNYTVTLGVTNGVLNVSGGTATITGSGTNTVTLTGTKAAINAT
+LATTVSFAPTANFSGSAQLTMTTNDGSLGDAKTDTDTITITVNSVNDAPVVVTSATARSY
+TENAAGVAANDTLTLSDADSANLTGATVQITSGRTTGDVLSFTNANGITGSFDAASGKLT
+LSGTATVAQYQAALQSVTYSSTSDNPTATSGSRTLSWQVNDGQSANNASNVGTSTINLTA
+VNDAPAISASISYRGLEDAAAPVNGTTTGTLISSLTAGKDADNTNVGIAITGPLQTTTNG
+TAFYSLDGGATWLDLTAKCASCSATNAFLLDGNARLWFSGKADFSGQLSKANIRLWDGTD
+GSTTGTFKDISALTGAGDAYSTASTFNLNFDITDINDAPTLVVTTQGGSQSIGSSTAVTA
+FSAATATLGNRDTVQTIKALKFTVSGLQDGADEKITLDGSTFSLTNGTSGTTTTNGIAFS
+VSVTNGTATVDLSSSAGLSTANTEILVKSIQYINTNATASLGGRVLTISSLQDTGGTANG
+GVDTATLSLASTITVVAANAAPVLADVSLSMNSLPSSATPANPTGAVGTLVSDFVGAVTD
+ANSTNGKGIAINAIDTSKGSLFFSTNGGTTWTAVDTSTALSDSRAFLLKSDTDNRVYFKP
+NANFTGSISSAFTFRAWDQTSGTEGAFVNISATNAKGGTTAYSLATDTVNQTVTTSVVTL
+TNGIVGVASATTGYNTGSSVSYLGDVNGDGYDDFVIGQHPNFSPSDARAFVVFGSSTPIT
+SLELSSITAGGSSNGFVIRTDRGSSKLGINVSAAGDMNGDGLADILVADTNAQATNGGNT
+SAVFVVYGKTNSNTVTVDTFRATATSEGYAILGRQSSIVNTAGDLNGDGLNDILSAGSTS
+SVLFGTEPNASTGINASYDLGSPPTGAFDYGFNTSNVGYASNAGDVNGDGFGDFVFGNNL
+ADINGQTRAGSARVSFGGTSTAASTTGFDIVGFTANQNVGQSVSGVGDVNGDGLADVVVH
+DIIASGQGGNSYVVFGKTDTATVNLTSLTAANASGGFMIKGTTGTGNTSTEFLSGLSASY
+AGDINGDGLADMLLASGLSGPNGRVFVVYGKTSTTALNFSDIAQGSGGFVINGASADDQL
+GGIAFNDGSAVSYGGDINGDGFDDLLVGAPSAEPSSGSITNVGRTYVIYGGTQFATGMVA
+NGTGGAGSEQVIGTTGNDTLTGGGGVDRFNAGRGNDVIVLTASDVTNLANNTSAAVKAMV
+DGGQGFDTIRLMNGGTLDLTTIRNVSASAYDGASRINSIERINMGQDVAANTLIIASRDV
+NDMAGFNSIHTGTPSDDGKTWTNVTGTALSATTRFHQFLVDGTNVDAVSLKSGTGTWTNA
+GTVKDGATEYVVWQNTATKSQVIVNKLVTVTANVAPVLLDLNRDGTIGYASTVMDVNSDG
+TLDATHWAAPQDGVLVWDKYADGMVHDHSQFAFAQNGGTDLQGLAEVFDTNHDGQLNEAD
+AKFAEFKVWQDANGNGVSDAGEVRSLADLGITSIDLTSDGTTRTPVAGVTEAGRSTAQLA
+DGSSVLVADAAFEYRSASAAEAASHAVGQGDNVFKLFGGLSLDLSAVTDAAKLTEVNASA
+DAAANTIKLTLTDMLGASGVDAVSGDMHQLMLTGDANDTALLSANEWLSTDSTVTQNGRT
+YAVYNAANDTTAQLLLDQQMAVTHNG
+>tr|A0A0P0M8J1|A0A0P0M8J1_9BURK
+MADKKGSSTEKNLFCSFCGKSQHEVKKLIAGPSVFICDECIDLCNDIVRDELASTTTVGE
+GAKAGLPTPLDIKTNLDNYVIGQEKAKRSLAVAVYNHYKRLKHKETSKKDEVELAKSNIL
+LIGPTGSGKTLLAQTMARMLDVPFVMADATTLTEAGYVGEDVENIVAKLLQTCNYDVERA
+QRGIVYIDEIDKITRKSDNPSITRDVSGEGVQQALLKLVEGTMASVPPQGGRKHPNQDFL
+QIDTTNILFICGGAFAGLEKVIENRTESGGIGFAATVKSKKQRSLTDVFNEVEPEDLIKF
+GLIPELVGRLPVVATLAELSEEALVQILTEPKNAVVKQFTKLLAMEGVELEVRPNALTAM
+ARKALARKTGARGLRSIMEQALIDTMFELPNQANVEKVVVDESVIDDNKPPLLVYRESAK
+QA
+>tr|A0A0N7J879|A0A0N7J879_9BURK
+MSDDNSEKSKALQAALAQIEKQFGKGTIMRLGEGEAIADIQVVSTGSLGLDIALGVGGLP
+RGRVIEIYGPESSGKTTLTLQVISEMQRLGGTCAFVDAEHALDVQYAQNLGVNLQELLVS
+QPDTGEQALEIVDSLVRSGAVDLVVIDSVAALTPKAEIEGDMGDSLPGLQARLMSQALRK
+LTATIKKTNCTVIFINQIRMKIGVMFGSPETTTGGNALKFYASVRLDIRRTGTIKKGDDA
+IGNETKVKVVKNKVAPPFKTAEFDILFGEGISREGEVIDMGVTAKIVDKSGAWYAYQGEK
+IGQGRDNAREFLRENPALAREIENKVRESLGIRLLESAIAEPKGE
+>tr|A0A0P0LH88|A0A0P0LH88_9BURK
+MSHNHDEALLAQVAALPALPGVYRYFDAQEQLLYVGKALNLKRRVSSYFQKDHGGTRIGH
+MVSKITRMETTVVRSEAEALLLENNLIKTLHPRFNILFRDDKSYPYLKLTGNGRVALPAM
+VKTPEAQHYPRVAYYRGAVEKKHRYFGPFPSAWAVKESIQLIQKVFRLRTCEDTVFANRT
+RPCLLFQIKRCSGPCVNLISPEDYKADVQHAEQFLRGETQALMHEMEARMMAHADKLEFE
+LAAEVRNQLTALSRVLHQQSVDTAVDTDADILVAKVQGGRACVNLAMVRGGRHLGDRPYF
+PVHVQDAQDLLGLEESEDEGEGQGEGEPKRPVEVQVLEAFLAQHYIGVPVPPLLILSAAV
+DKSLIAALSAQSGVKISTVTNPREHRRVWLEMAEKNAELQLARLLAEEGSQQARTRALAE
+ALDLAPDDLDQLHIECFDISHTAGENTQASCVVFRQHKMQSGDYRRYNIEGITPGDDYAA
+MRQVLMRRYGKLAEALRSGEGTARLPDLVLIDGGKGQVSMAREVFTDLGLDLSRIVGVEK
+GEGRKVGLEELVFADGREKVYLGKDSAALMLVAQIRDEAHRFAITGMRAQRAKVRMGGSK
+IEEIPGIGPRKRAKLLQRFGGVRGVESASVEDLLGVEGISRELAETIYNALH
+>tr|A0A0P0M7A4|A0A0P0M7A4_9BURK
+MLPWITSDTTDRIKTMRETSLAKLVREDLLEHILKGQLVPGDRINEPDVAKRLQVSRVPV
+REALRELESSGLVVSRKHAGVFVRAIEAQEVRDLYEIRGLLDGFAGAKAAALPTPDRQAL
+TQALNASITTMREANAQHKLSAYYSENLHFHWLIVVAAHNDQLSHTYQEVVQKLHLARLQ
+SLAQVSGMATSIAEHQRISQAIELGDIRRAQSLLADHVTQAHQRLSRSLTGTEMISTTPE
+ETP
+>tr|A0A0P0M7F9|A0A0P0M7F9_9BURK
+MRFRTLALAAATAGSLLLAPAAHADNKAIATDEMEAYLEFVDYGGGVIFAEQIPKDEWPK
+MVVIDARDPAQFSKGHIPGAVNMDWRQVLAKRNTIPKNKPVLIYCNTGSLSAQAGFALRV
+AGWENVRILQGGMTEWQAKGGFDAAAKAAGPAKH
+>tr|A0A0P0M726|A0A0P0M726_9BURK
+MPRRATKIVATLGPASSDPALLEAMIRAGVNVVRLNFSHGKAQDHVDRARLVREASHRAG
+REVAIMADLQGPKIRVGKFAEGKVMLEPGAPFVLDASRTEPGDINGVGLDYKELPRDVKA
+GDVLLLNDGLIVLTVNAVKGEQVHTTVKLGGELSNNKGINKQGGGLTAAALTAKDMDDIR
+TAMSFNADYVAVSFPKNATDMEMARQLCNVACTNGHRPGLIAKIERAEAIPELDRILAVS
+DGIMVARGDLAVEVGNAAVPGLQKHMIKRARELDKLVITATQMMESMIVNPVPTRAEVSD
+VANAVLDGTDAVMLSAETAAGKYPLETVEMMAAVCLEAEKTDHDPLDDDFVGAHFNRIDH
+AIAMGALFTAHHLKAKAIVALTDSGSTALWMSRHSVRMPIYALTPKVATQRKMALMRNVS
+PLLMDTSADRDTALADAEAHLKKRGIVQPGDVYAITVGEPMGTPGGTNTLKICRAA
+>tr|A0A0P0LML4|A0A0P0LML4_9BURK
+MTIIVTGGAGFIGANFVLDWLAASNEPIINLDKLTYAGNPETLASLQGDARHQLV
+>tr|A0A0P0M9H4|A0A0P0M9H4_9BURK
+MPSKKSFLAEQSALHFPVSGLTAGVDEAGRGPLAGPVVAAAVILDELNPIQGLNDSKKLT
+AKRREALFDEIRARALCFAIAEASVQEIDQINILQATLLAMKRAVEALRLPPKLVLVDGN
+RLPTLSIRAEAIVQGDALVPAISAASILAKVHRDRLCDAMHHQYPLYGFDQHKGYGTAQH
+LAALQAHGPADCHRMTFAPVARSVR
+>tr|A0A0P0MA95|A0A0P0MA95_9BURK
+MKSYWMNISEGQGQMELREVDRAVPGAGQVLVKLHAAALNRGELIIGHGLHGKGGSKPAG
+MEGAGQIVQLGSETGAWQVGDRVMGRCPGAFSEYALMDVREIMRVPDNLTLEQAASIPLT
+FLVTYDLLVLQGHLKADQWLLINGVSSGVGVASLQMAKVLGAKVIGTSGSQAKLDQLKPL
+GLDVGLCTRAADFHQAVLQATEQKGANLVVNTVGGSVFAESMRCMAFQGRLGFVGYVDNT
+LNATIDLEALHAKRLCLYGVSNKNRTPAQRADGIAQFAAQILPAFADGRIQPLLDRVFDF
+DQLDQAKAHMESNQHTGKIVLRIAKPD
+>tr|A0A0P0M7W9|A0A0P0M7W9_9BURK
+MQITPSIFKAYDIRGVVPTTLNELLAEGLGKAFGTHAMAQGQSTVAVGRDGRLSGPSLSA
+ALIRGLVAAGIRVIDIGLATTPMLYFAASTACQSGIQVTGSHNPKDYNGFKMVLGGRAIY
+GDEIQGLRQMMEAETWQLQGGGSVMQLDVLSDYTQRIVGDIRLARPMKIVVDSGNGIAGA
+SAPGIFRALGCEVIELFSEVDGNFPNHHPDPSKPENLQDLINALKTTGAELGLAFDGDGD
+RLGIVTKDGNNIYPDRQMQLFAQDVLSRVPGGTILFDVKCSQRLAPAIEAAGGKALMYKT
+GHSLIKAQMRAIEAAGGQAPLGGEMSGHIFFKERWYGFDDGTYAGCRLLEIVSKAPDANA
+VLNALPTSFSTPELNVACAEGEPHSVTRALQAQAASAFSAPAQVCDIDGLRVDWPDGFGL
+IRASNTTPVLVLRFEGQTEAALHRIEGEMLALLRSVKPDAKIQAAAH
+>tr|A0A0P0LC10|A0A0P0LC10_9BURK
+MNQTDYDFVVVGGGPSGATAAHDLVRQGWRVLLLDRQGRTKPCGGAIPPRLIQDFDIPDH
+LLVAKVRCARMISPTDNKVDIPIDNGFVGMVDRDEFDEYLRDRAAQSGAVRCQAIFDKLQ
+HDDSGQLWVHYTPVTPKEHAAQEHAQPTKVSTRMVVGADGARSEVARQAIPNAHKTKYVF
+AYHEIIESPIGQPGYDAARCDVYYQGEVSPDFYGWVFPHGKTMSVGMGSADKGYSLRSAT
+ARLRAIAGLTDAPTLRREGAPIPLKPLPQWDNGRDVVLIGDAAGVVAPSSGEGIYYAMDC
+ARRVAQAAHQALKTGNSACLKQGRKSFMKQHGRVFWILAVMQYFWYQSDKRREKFVKICE
+DRDVQRLTFESYMNKELARKDPMAHVRIFFKDMAHLLGLART
+>tr|A0A0P0MCK7|A0A0P0MCK7_9BURK
+MANAQIKAPERAALCMACHGPQGVSPTPNIPSLAAQPKTYLENKLVLIREGLREIPAMKG
+TLDGVPDTELTALAQYFSAQVAPPVATAKPDAQSFQRGQALAKSALCGTCHLPDHRGRDQ
+VPRLASQHETYLRNVMQEYRDNPGPGRDTVMAAALYGITDAQLKDLAHFFARSP
+>tr|A0A0P0MB48|A0A0P0MB48_9BURK
+MDLARLDLNLLLVFHHLLREKRVSAVATVLGMSQPAVSSALGRLRSSLGDELFLRTQRGM
+EPTAYALQLAEPVATALDGLQQALNVRASFDPATSERSFTLAMTDVGEMYFLPVLMDALA
+GAAPAVTLNVVAVTSASLKDDMASGRTDLALGLLPQLQAGFFQQALFRQPYVCLMREAHS
+LAAAASLSFSDFADASHVRVVAAGTGHGRIDAAISETLEQQGLKRRIRLTVPNYVALGDV
+LGHSDLIATVPERFAQRVSGPFALTTRALPLAVDGSAIHQFWHARLHKDPGHQWLRELVA
+QCFGDGTL
+>tr|A0A0P0M8Z3|A0A0P0M8Z3_9BURK
+MKLISYTQNNATRYGVLLGQTVVDIRHCMDQAPESINDFFAQASGNPALMASIAQRAAKA
+SATPLDQVSLLPCVPRPSKILCLGVNYHDHAAEGGNKVADYPTIFFRGPSSLLAHGGTIP
+IPPISTSLDYEAELALVIGKTTRNVSEAEALDSVFAYACFNDATFRDYQRKTTQWTVGKN
+FDQTGGFGPHLVTADELPPGCVGLHIESRLNGQVMQSASTTDMVFHVAPTIAMMSACMTL
+EPGDVIVMGTPAGVGYARKPPVWMQPGDTIEIDIEGVGVLRNQVGLLAL
+>tr|A0A0P0MB96|A0A0P0MB96_9BURK
+MSSGPQGLMGSLRFRLLAATLLGVSLAMVLAGVVLNGLFHEHVMRQFEKGLAQQLDQVTA
+RLSADAQGQPLIDAQALSDPRWQRPYSGLYWQLDDVTSATTQLGVLRSRSLWDTQLALPA
+DVLRDGEIHAHELSGPGDSRLRVLERTVRPHEQVRWRLSVAADLNDTNEAVAGFQRMLAT
+SLASLLLLLLAAAWAQVAVGLRPLMALQQGLNTLREGRTTRLAGDYPSEVQALVDNFNSV
+LDRNDEVVGRARTQAGNLAHALKTPLTVLDQASRQTNTTSLAPLVREQVQRARRHIDWHL
+ARARMAATTGLPGQRVPVVHTLQGLVRVMQRVHAERDLAITLEEGDERVQFAGEAQDLQE
+MLGNVLDNACQWAHSAVHIRVWSEQAVSSSASLGRCRVEIEDDGPGMPAEQMPRVLQRGV
+RLDESVPGSGLGLAIVQDLVAVYGGELQLQTPAKGRGLCVTLRLPAASA
+>tr|A0A0P0M712|A0A0P0M712_9BURK
+MTVPKPPSKVEGSPAPEAGRRVLIKGQQTKAVIIDAALGLASQIGLEGLSIGAVAEVTGM
+SKSGVFAHFGSREELQISVIREYHDRFEAEVFYAAMQKPRGLPRLQALFDNWMVQTSAEI
+DSGCIYISGAVEFDDRTGPVRDALASSVSTWQTALRRAVELAQAEGQLSRVSDAHQIAFE
+IHGLILALHYEARFLRNPNAADRARQGFQHILSRYADTNTLPASTSVGAAKPPKLLAEPK
+SRRKLDKA
+>tr|A0A0N7J8B2|A0A0N7J8B2_9BURK
+MSKTLVSPLKSVPQQTSPLRFWHRGEMMNLGNVPPDRTLLDLLREDLRLTATKEGCAAGD
+CGACTVVVAEAVNGRLQYRAVNSCIKPAQSIDGLALWTAADLARPDGTLHPVQQAMVACH
+GSQCGFCTPGFVMSLFALYQRTVAKGQTVDSHTAHEALSGNLCRCTGYRPIVQAACSLNA
+EPSQTVDERPIVAALQKMATTEMTDGNYLRPSNLSALLQARAQHPQAQLIAGATDAGLWI
+TQGLRRMPQIIDLTRVAELRRVEHYPQHIAIGAAVNLQDAFEALAADRPVIAPFGERFAG
+WPVRQSGTLGGNVANGSPIGDSMPLLIALGAQVVLMAHRKGRTVHRHVPLDQFYTGYRQS
+LLAADEVLAWVVVPRPEPGEWLGAYKVSKRQEDDISAVCLAVQLHVQDDHITAARIGAGG
+VAATPARAVKTEAALIGQPWNEATLHAAQTAMADEFSPLSDLRASADYRRTLLGQLLRRA
+WLESNGQGTVRLEDLA
+>tr|A0A0P0LB05|A0A0P0LB05_9BURK
+MGASFQSVLGRGAAFARIAQFHPELTAFRRDLHAHPELGFEEVYTSARVAEMLKVCGVDS
+IHTGIGKTGVVALVHGQGRSASNPGRMIGLRADMDALPLTEHNECTWKSGTPGLMHGCGH
+DGHTAMLMGAARYLAETRRFDGTAVLIFQPGEEGYAGARAMMQDGLFERFPCEQVYAQHN
+SPETPLGVIGITPGPMQAAVDRIEIRIIGKGGHGARPHQAVDPVLVAGHIITAAQSVVSR
+NLSAFDQAVISICSMQAGHPGAMSVIPGEAVLVGTVRTYSERVQDQIEDRLRALCNGVAQ
+GFGASAELTYERVYPATVNTVPEARFACDVAAALVGEDKVWRDMLPSMGGEDFSFMLQAK
+PGAYIRIGQGLPHGPGPHPLHNSRYDFNDDILPLGAAMHASLIEQALPLSPASSSS
+>tr|A0A0P0M7C3|A0A0P0M7C3_9BURK
+MSTKIGINGFGRIGRMVFRAAVQNFDDVEIVAINDLLEPEYLAYMLQYDSVHGRFEGTVV
+VEGSTLIVNGRPIRLTQERDPANLKWNEVGAEVVIEATGLFLDKEGAGKHLAAGAQKVVI
+SAPSKDDTPMFVFGVNHASYAGQAIISNASCTTNALAPLAKVLNDKWGIRRGLMTTVHAA
+TATQKTVDGPSNKDWRGGRGILENIIPSSTGAAKAVGVVIPEIKGKLTGVSVRVPTSDVS
+LVDLTVELATPATYAEICAEMKAQSQGALKRVLGYTEAKVVSTDFRGEVCTSVFDAEAGM
+ALDSTFVKLMAWYDNEWGYSNKCLEMARVVSGQAGGAR
+>tr|A0A0P0MBM1|A0A0P0MBM1_9BURK
+MSKARLVEDKVVVVTGAGGGIGRDIALAMAREGAKVVVNDIGASVSGEGHDAGPAQKVVD
+EIQAMGGQAAANTDSVSDAAGAARIIQTAIDSFGRIDVVVNNAGILRDRFFHKMSMDEWD
+AVLKVHLYGAFYVSRAAAPHFKEQESGNYIHMTSTSGLVGNFGQANYSAAKLGVTALSKS
+IALDMQKFNVRSNCISPFAWSRMIGSIPTETPEEQARVERIKQMTPAKIAPMAVALASDD
+SAHVNGQVFAVRNNEIFLMSQPRPIRSVHRSEGWTPQSVLDQAMPALKSSFFDLDRSGDV
+FSWDPI
+>tr|A0A0P0MB88|A0A0P0MB88_9BURK
+MLKVDLIDMAIPFLTKIFGSRNDRLLKQYRKTVERINALEAGLESLSDDELKAKTQNFRD
+RAAAGESLDALLPEAFAVVREGSKRVMKMRHFDVQLAGGIALHNGKIAEMRTGEGKTLTS
+TLPAYLNAIAGKGVHVVTVNDYLASRDATWMGKLYNFLGLTVGINLPQLPREEKQAAYNA
+DITYGTNNEYGFDYLRDNMVYEAHDRVQRPLNYAIVDEVDSILIDEARTPLIISGQAEDH
+TATYLAMNQVVPLLTRQEGEADPRTGEGIITPGDFTVDEKSHQVFLTEDGHEKAEGVLSQ
+MGLIPEGTSLYDPANITLMHHLNAALRAQHLYHRDQHYVVQDGEIIIVDEFTGRLMTGRR
+WSDGLHQAVEAKEGVQIQAENQTLASITFQNYFRLYNKIGGMTGTADTEAYEFQEIYGLE
+TVVIPPHRKSQRDDQLDRVYKTSQERYNAAIADIRECHERGQPVLVGTTSIENSELIAQL
+LTQQKLPHQVLNAKQHAREADIVAQAGRPGMITIATNMAGRGTDIVLGGNIEKDVQAIEA
+DESLSEAARQDKVAQLREQWKVVHEQVKALGGLRIIATERHESRRIDNQLRGRSGRQGDP
+GSSRFYLSLDDPLMRIFAGDRVRSIMDRLKMPEGEAIEAGIVTRSIESAQRKVEARNFDI
+RKQLLEYDDVSNDQRKVIYQQRNDILDAQDMHAQITALREGCFTDLVRQFVPVESVEEQW
+DLPGLEKVLSEEWGMTLDLQGKVQASTAITDEDLLEMVVAAAHAQFQSKLEQVGAENFVS
+FERMILLQSIDTHWREHLSALDYLRQGIHLRGYAQKQPKQEYKREAFELFGQLLDAVKNE
+VTKTLMMVRIDSGDQMQQAAQAIEERAEQISNVTYSAPDETGQPQTVAADLAGLQQAFGP
+VGRNEPCPCGSGKKFKQCHGKLA
+>tr|A0A0P0M8R2|A0A0P0M8R2_9BURK
+MINGHTEIIAHIGYPTHTFKSPMIYNPYFNEAGINAVVVPMGCKAEHYPVFLRSVFSLEN
+IRGALITMPHKVSTVGLIDEVTAAVRVAGACNAVKRLADGRLVGDMFDGAGFVRGVQRKG
+FDLTGKRVLVVGTGGVGCAIAASLAGAGIAAISLFDVNAACCEALAQRLKDNHPHIEVRT
+GSNDPLGHDLVVNATPLGMNEGDPLPLDVTRLSPETFVGEVVMRAETTAFLAAAQARGCP
+TQVGTDMLYEQIPAYLEFFGLPTTTADVLRRGARLSY
+>tr|A0A0P0MAC3|A0A0P0MAC3_9BURK
+MTDSFSNLSLAPTLARAVAEMGYESMTPIQAQAIPVVLTGQDVMGAAQTGTGKTAAFSLP
+LLQRLLKHENPSTSPARHPVRALVLLPTRELADQVAQQIKMYAKYTQLRSAVVFGGMDMK
+PQTLELKKGVEVLVATPGRLLDHIEAKNAVLNQVEYVVLDEADRMLDIGFLPDLQRILSF
+LPKQRTTLLFSATFSPEIKRLAGSYLQNPITIEVARPNETASTVEQRFYAALDDDKRRVI
+RKVLDDRGIKQAFIFVNSKLGCGRLARSLEREGLRTAALHGDKSQDERLKALEAFKKGEV
+DLLVCTDVAARGLDIKDVPAVFNFDVPFNAEDYVHRIGRTGRAGASGLAVTLVSPSDARL
+VGDIEKLIKKKLDVETLQLDTAPTGPAPEKWGTRAEDRPRARASEGRRREEFDPRDALDA
+PRERRGGFRPAPVNRDPFFSKPYEAPSADVSPSWDAVPKAPRSSISANIKPKRKVAALFK
+SEG
+>tr|A0A0P0M782|A0A0P0M782_9BURK
+MKSISSLLITALSAAFVAGSALAAGPAPQAAKPDLAKGEAIYSAACVACHAADGNSGTPV
+NPKLAQQHPEYLLKQLQEFKSGKRANAVMSGMVAGLSNEDMRNISYWLASKTAKPGFAKE
+KDTVAWGERIYRGGIPDRQIAACASCHSPNGAGMPSQYPRLSGQHADYTAAQLIQFREGV
+RKNNLQMTQVAAKMNDREIKAVSDYIAGLR
+>tr|A0A0P0M8Y9|A0A0P0M8Y9_9BURK
+MNAKTCHNTLRLAEQLISRPSVTPEDAGCLDLISEALNPLGFVCEFMDSGPDTFRVRNLW
+AKRAGTSGQTLAFAGHTDVVPTGPLAQWDSDPFTPTHKNGKLFGRGASDMKTSLAAMVVA
+VQEFLASNPSPALGIAFLLTSDEEGPALDGTVVVCEKLQARGDAPQFCIVGEPTSVQQTG
+DMIKNGRRGTLSGKLTVKGVQGHIAYPHLADNPIHRLAPALADLVAIRWDEGNAFFPPTS
+WQVSNIHAGTGASNVIPGDCVVDFNFRFCTESTPESLQQRLQAVLDQHGLKYELKWTLGG
+RPFLTTPGTLVKAIEQAITDETGLKTELSTTGGTSDGRFIAQICPQVIEFGPPNATIHKV
+NEHVALADIAPLKNIYRRTLEQLNAGLKA
+>tr|A0A0P0LC96|A0A0P0LC96_9BURK
+MTRPVLAESAIHPAIRQRIAEHHLAVIQRVQSAVAQHAVVVVGLSGNPFVGKARKALAAA
+GVAHEYIEFGSYFSQWRLRNTLKMWTGWPTFPMVFVRGTLVGGADDLRRLIDSGELQKLL
+QA
+>tr|A0A0P0LNK5|A0A0P0LNK5_9BURK
+MKEDNINSGRVQKAPENFLTQSGIKEVFAEGKKGRRDFIRNAFAAAAAGAAAPMAVAQGN
+PVPVEGGDPNILNLPEHAVGLGQGVAVEGYGKPSKFEANLQRRQSPGLTQTTQASVSFAP
+LQSLFGIVTPSGLHFERHHQGWWDIDPSKHRFMINGMVKKNMVFTMDEIMRLPSVSRFHF
+IECGANTAVDWGNVAVPTVQYTHGMLSCSEFTGVPLITLLELAGADLKNGKFVLAEGGDG
+SSMTRTIPMSLITSGEVIVAYGQNGEMLRPENGYPLRLVVPGVQGVSWVKYLRRIEVGDK
+PYAAKDEAIHYIDLQPGGMHRQYTNIQEVKSVVTTPSGGQVLLDKGFYNITGLAWSGKGK
+IKRVDVSTDGGRNWRQARLETPVLSKALTRFNLDWVWDGKPAIIQSRAQDETGHVQPTYQ
+QLRSVRGTRSIYHNNAIQSWLVQENGEVKNVQVS
+>tr|A0A0P0M6S4|A0A0P0M6S4_9BURK
+MKILFVADPLESFKIYKDTTFAMMREAQKRGHQVVACQMTDVRWQRGEAVSAQVRHITLT
+GQPDTWFTETSSSRANLKDFDAVIMRTDPPFDSEYFYATHLLSQAEREGTKVFNSPAALR
+NHPEKLAILEFPQFIAPTLVTRSEADIRAFHAEHGTIILKPLDGMGGTGIFKVGADGLNL
+GVIIETLNRGGAQTVMVQKFLPGIAQGDKRVLLIGGKPVPFCLARIPQGGEVRGNLAAGG
+KGVAQPISARDREIAEALGPILFARGLMLVGLDIIGESLTEINVTSPTCFQEITDQMGCD
+VAALFWDAVESSL
+>tr|A0A0P0M9Y4|A0A0P0M9Y4_9BURK
+MSQKVAYVTGGMGGIGTAICQRLHQEGFKVIAGCGPTRDYTKWLDEQKALGFTFYASVGN
+VGDWDSTVEAFTKAKAEHGPIDVLVNNAGITKDRMFLKMTREDWQAVMNTNLDSMFNVTK
+QVVADMVEKGWGRIINISSVNGEKGQAGQTNYSAAKAGMHGFSMALAQELATKGVTVNTV
+SPGYIGTDMVNAIRPDVLEKIVATVPVKRLGKPSEIASIIAWMASEDGGYTTGADFAVNG
+GLHMG
+>tr|A0A0P0M9V4|A0A0P0M9V4_9BURK
+MNSGTSRPHDEAVVEMLKADPEFANEYLAVALEQADQPGGQQALLAALRHIAEAQGMSAV
+AERAGMPRESLYRALSPRGNPTLKTWLAVLNATGLHLSVVRPH
+>tr|A0A0P0MA77|A0A0P0MA77_9BURK
+MSMNMNQALYRRRRMANAWGMVTSMLAMGLGLTVLMWILVVLFTNGFAALDWNILTKDTP
+APGTDGGGLRNAIVGSLMMVGLSVLVATPVGILAGIYLTEYGDQSKTAELTRFVTDIMLS
+APSIVIGLFVYAIAVATLGGFSGYAGSLALALIAVPVVMRTTENMLRLVPGSLREAAFAL
+GAPRWKVSLSVTLRAAKSGVITGVLLAIARISGETAPLLFTALSNQFYNDDMSKPMANLP
+VVIFQFAMSPYDNWIRLAWGGALLITMTVLVLNILARVFFRDKQSA
+>tr|A0A0P0M903|A0A0P0M903_9BURK
+MKIATWNVNSLSVRLPQVLDWLAANPTDVLALQELKLTDDKFPAAALAEVGYQAQWFGQK
+TYNGVALISKVGGADVVKNIPGFEDDMSRVIAATYPDGAGGTVRVIGAYFPNGQAPDSDK
+FVYKMRWLDALREWVGSEMQKHPNLVLLGDYNITFDELDMWDPVALAGTIHCTDAEREKL
+QGLIGLGLTDSFRLFEQPEKSYSWWDYREFAFRRNRGLRIDHILISQALKARARACMIDR
+APRKNERPSDHAPVVLTLA
+>tr|A0A0P0MBR1|A0A0P0MBR1_9BURK
+MTPNTSRRNFFKNTTAVSAAAMLSGAGLTACGGSNSASPLSESAQLELTATQVLAAYKAG
+TLTATAYVTHLINRAKSLSELNAMISIDEAGALAAAKQVDADRAAGKTMGALAGLPIVVK
+DNINTQGMKTTGGTSSLRNFTPKTNAPSVQKLVDAGAIILGKSNLHEWAFGITTTNFTLG
+IDPITKEANRPCKNPYDTTRIPGGSSGGTAVAIAARFAPAGLGTDTGGSTRVPASFCGIA
+GFRPSVGEGAGNGRRYPDTANDALPISTTRDTVGPMGRTVADLALLDAVITGGSMPTAKA
+LKGLKVGIPAAFWSDLDDSVKTVADAAKKKLADAGVVFVDADLTGIMALNDAISFPIALH
+EPVAAIPAYLTANSAPVTTVAQVQTGLASPDVVGAFGAIAGDVFAAAYAAAMVPATGGRA
+QLQKLYKDYFAAQGVECVLFPTTLLAAPKIDAATGSSSGKLPYTVGGVAKQTARDTFGTC
+IFHTDPCTNAGIPSLSIPAGLTAGGLPVGMEIDGPLGSDTNLLAIGMAMESVWGSVKAPA
+I
+>tr|A0A0P0LF97|A0A0P0LF97_9BURK
+MEVAAILVIIAILFIVKTVKVVPQQEAWVVERLGKFHASLAPGLNFVVPFVDNVIQKHSL
+KEIPLDVPSQICITRDNTQLQVDGILYFQVTDPKLASYGSSNYIVAVTQLAQTSLRSVIG
+KLELDKTFEERDIINAQVVAAIDEAALNWGVKVLRYEIKDLTPPKEILLAMQSQITAERE
+KRALIAASEGRRQEQINIATGEREAFIARSEGEKQAAINKAQGDAAAITEMANATAQAIE
+RIATAIRQPGGEQAVQLKVAEQAVQAYAKVAQDAKTTLIVPGNMSEVSGLIASAMQMVST
+GKQAG
+>tr|A0A0P0M8K2|A0A0P0M8K2_9BURK
+MLRRRHFNWTLLALAGWGFAASAQASSAQRILVLGDSLSAEYGLTRGTGWVALLQKQLDK
+EKPGVEVINASISGETTSGGRSRLPALLKRHQPSHVVIELGGNDALRGLPMNMTQGNLLA
+MTQQAQAAGAQVLLLGMQMPPNYGPDMARQFEAAYAQVAKNQKAALVPFFLKGVGDDPDP
+LKWFQADRIHPNEAAQPRMLANVWPTLKRQLK
+>tr|A0A0P0MAP7|A0A0P0MAP7_9BURK
+MKINALQDLKKVRQKLAEAHALAQAQAAAQALAARQREAESNLFVRAVGAVQRLPVHDQV
+NLDGPSPAPIAHQRHKDNEAVLRDCLSDEFDASTLLDTDDALSFRRPGIGRDVIHKLRKG
+DWSIQREIDLHGLRSDEARVALAEFIRLAHRQGVRCLRVVHGKGLGSPGKTPVLKSKVHS
+WLVQKDQVMAFVQAKPAEGGAGALVVLLKPGG
+>tr|A0A0P0M962|A0A0P0M962_9BURK
+MSSAKPAYKRILLKLSGEALMGDDAFGINRATIVRMAEEIAEINRLGVQVAVVIGGGNIF
+RGVAGGSVGMDRATADYMGMLATVMNSLALADALDKAGLTARVMSAIGIDQVVEPYVRPK
+ALQYLEEGKVVVFAAGTGNPFFTTDTAAALRGAEIGAEMVLKATKVDGVYTADPKKDPSA
+TRYSEISFDEAISRNLGIMDATAFALCRDQKLPIKVFSIIKNGALKRVVLGEDEGTLVYA
+>tr|A0A0P0M7U1|A0A0P0M7U1_9BURK
+MKFFYGWRMVGAACGIQFLLAAFLTQALGLYIAVLSDDMGWSKTTLSGAAALQSVEAAII
+GPVLGWMMDRVGPQKMIRWGMVLFSAGLLLLSQVDSVATFYASAILMAIGASLGGYFPLS
+VALVQWFEKFRARALSIMSLGLAMGGLVVPLMAWSIQVWGWRATAAGSGLLVLLTGLPMA
+SIIRRRPEDHGEHVDGIDPAQAAANLAQGHPAPPVQIEFTVAQALRTRAFWMLAIGHGLA
+LLVVSAVNVHAITHMKEGLGYSFTTASWVILIMTLGQLAGVLMGATLGDWFEKRKVAALC
+MLAHGIGMLCLTYASHMAMLVAFGVFHGIAWGLRGPFMQAIRADYFGRNAIGLILGLSAA
+IIALGQIAGPMIAGVLADLTGDYQLGFSLLALLAALGSLSFMLATKPVLPQVN
+>tr|A0A0P0MB69|A0A0P0MB69_9BURK
+MSQIAAKTYEATPAKKVAFLGLGVMGYPMAGHLARAGHHVAVYNRSAAKAAAWAAECPGN
+ATAPTPREAAAGVDIVFACVGNDADLRSVVLGPDGAFAGMKPGAIFVDHTTASAEVAREL
+YAEAQKLGLHFVDAPVSGGQAGAQNGMLTVMCGGDAAAFDAVKPAAMAFSRAFTLLGASG
+AGQLAKMVNQICIAGLVQGLSEAIAFGQQAGLDMHQVLDVIGKGAAQSWQLDNRGKTMAD
+DKFEFGFAVDWMRKDLGLVLDEAKRNGARLPVTALVDQFYADVQKMGGGRWDTSSLIRRL
+R
+>tr|A0A0P0M8T7|A0A0P0M8T7_9BURK
+MTTSAKPIRSQYEDFMRHVYTTGVQKGDRTGTGTRSVFGHQMRFDLNEGFPLVTTKKVFL
+RAIIVELLWFLRGDSNVKWLQERGCTIWDEWAREDGSLGPVYGVQWRSWPTPGGGHIDQM
+QQVMDTLKNNPDSRRIIVSAWNVAELDQMALMPCHAFFQFYVSPPQKAGDKPRLSCQLYQ
+RSADIFLGVPFNIASYALLTHMVAQQCDMDVGDFIWTGGDCHIYSNHHEQVELQLSRTPM
+AYPTLNIKRKPASIFDYEFEDFEVVGYECHPAIKAPVAV
+>tr|A0A0P0LAT4|A0A0P0LAT4_9BURK
+MTAPPFWPAENIWEQVYPLLPNFTVEVLPEIDSSNSELMRRARAGQHEPTLLVAERQTAG
+RGRMGRVWQSQPGDSLTFSLSLPLAPKDWSGLSLAVGLSLAESLHPDVGLKWPNDLWFQD
+RKLGGILVEAASMGGRSQVVVGVGLNIRPRAADGLNTPPAALSELLPELTAPNALVRVAW
+PLIQTLMAFESSGFAPLQNRFALRDVLQGRAVHTSDGQQGVALGVGPGGALRLQTELGVQ
+DIHSAEISVRPLT
+>tr|A0A0P0LF04|A0A0P0LF04_9BURK
+MSLKLYFAPGACSFVPHVLLEMSGAEFEPTMVKLHKGEQNSADYQAINPRGQVPVLVNDG
+QPITQIVAIVLYLDHVFPQMGFLPSEPMARAQALSTLAWMNNTVHPTFTHIFMPQKFSDQ
+PEVQAALKPYNTQLFRGMLGELQGLVQRAAAQGQPWLSGERFGPLDAYCLTFTRWGTLAG
+IPPEAHPALWDFVQKVAAEPAVARVIARERLQLNMGAPA
+>tr|A0A0P0MAA4|A0A0P0MAA4_9BURK
+MIKTFRHKGPQRFFETGSKAGIQAAHSARLRLQLAALDQAVKPEDLSAPAWGLHHLKGDL
+KGHWAITVNGNWRMVFMFDGTDAVLVDYLDYH
+>tr|A0A0N7J8L8|A0A0N7J8L8_9BURK
+MTTKTGFLSGKKLLITGVLSNRSIAYGIAKACHAQGAELAFSYVGERFKDRITEFAADFD
+SKLIFDCDVGSDEQIEKLFTDLSATWPKFDGFVHAIGYAPREAIAGDFLDGLSREGFKIA
+HDISAYSFPAMAKAALPYLNDKSAVLTLTYLGAIRTVPNYNTMGLAKASLEASVRYLAES
+LGSQNRGLRANGISAGPIKTLAASGIKGFGKILSVVAEASPIRRNVTIEDVGNVAAFMLS
+DLAAGVTAEITYVDGGFSQVVGGIAEPAAAA
+>tr|A0A0P0M821|A0A0P0M821_9BURK
+MAGMRMATPLLALKQGYSAMAVGALLALFALTQVFLALPAGRFADRHGLKKPLRISVLVA
+CVGASLSVIWPVFPVMCLSALATGGATGMAVIALQRHVGRMAHNPAELRVAFSWLSIGPA
+ISNFLGPVLAGLLIDFAGPEAAHIHGFQWAFLLMALLPLGTWFWVRLAKELHAPKVLDNA
+APRRALDLLAEPMMRRLLGVNWLLSSCWDVHTFVVPVLGHERGYSASVVGTILGAFAIAA
+TFIRVCLPFISRHVKEHQIITGAMVCTALLFGAYPFMPSPWAMGACSVLLGLVLGTVQPM
+IMSTLHQITPQHRQGEALGLRLMTINASSVLMPMLFGTAGAVAGVGPVFWVVGAAVGLGA
+RAAWRLRSS
+>tr|A0A0P0M725|A0A0P0M725_9BURK
+MAAKDVIFGGEARARMVEGVNILANAVKVTLGPKGRNVVLERSFGAPTVTKDGVSVAKEI
+ELKDKLQNMGAQMVKEVASKTSDNAGDGTTTATVLAQAIVREGMKYVAAGMNPMDLKRGI
+DKAVTALIEELKKATKATTTSKEIAQVGSISANSDTSIGEIIANAMDKVGKEGVITVEDG
+KSLNNELDVVEGMQFDRGYLSPYFINNPEKQAALLDNPFVLLFDKKISNIRDLLPTLEAV
+AKAGRPLLIIAEEVEGEALATLVVNTIRGILKVVAVKAPGFGDRRKAMLEDIAILTGGKV
+IAEEVGLTLEKVTLADLGQAKRIEVGKENTIIIDGAGAAGDIEARVKQVRVQIEEATSDY
+DREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGIVAGGGVALL
+RARQAAGVIKGDNADQDAGIKLVLKAIEAPLREIVYNAGGEPSVVVNAVLAGKGNYGFNA
+ANDTYGDMIEMGILDPTKVTRTALQNAASVASLMLTTECMVSEAPKDESGAGGGGMPDMG
+GMGGMGGMGM
+>tr|A0A0P0MAB9|A0A0P0MAB9_9BURK
+MRLTTKGRFAVTAMIDLALRQDAGPVTLAAISQRQQISLSYLEQLFGKLRRHNLVESTRG
+PGGGYTLGRKSTDITVADIILSVDEPIDATHCGGKENCNGGDGRCMTHDLWASLNSKMVE
+FLDSVSLQKLVDDQLAKGLVVELKPTLKRAIAPMPVSKPIRLTGPNSVFDLGNVFAKS
+>tr|A0A0P0LR25|A0A0P0LR25_9BURK
+MIAQELEVSLHMAFVEARQQRHEFITVEHLLLALLDNPSAAEVLRACAANIDDLRKALSN
+FIKDNTPQVAGTEEVDTQPTLGFQRVIQRAIMHVQSTGNGKKEVTGANVLVAIFGEKDSH
+AVYYLHQQGITRLDVVNFIAHGIRKSDPPEAAKSDAPSSSEAEEANGGERNEKASPLEQF
+TNNLNQAAKEGKIDPLIGREYEVERTIQILCRRRKNNPLLVGEAGVGKTAIAEGLAWRIT
+QGTVPDILAEATVYSLDMGALLAGTKYRGDFEQRLKGVLKSLKDKPNGILFIDEIHTLIG
+AGAASGGTLDASNLLKPALSSGQLKCIGATTFTEYRGIFEKDAALSRRFQKVDVVEPTVS
+ETVDILKGLKSRFEDHHSVKYTVAALQAAAELSAKFINDRQLPDKAIDVIDEAGAAQRIQ
+VASKRKKTIGKSEIEDIVAKIARIPPANVSNDDRSKLQTIERDLKSVVFGQDKALEVLAS
+AVKMARSGLGKTDKPIGSFLFSGPTGVGKTEAAKQLAYIMGIELIRFDMSEYMERHAVSR
+LIGAPPGYVGFDQGGLLTEAVTKKPHCVLLLDEIEKAHPDIFNVLLQVMDHGTLTDNNGR
+KADFRNVIIIMTTNAGAETMNKATIGFTNPRAAGDEMGDIKRLFTPEFRNRLDAIVSFKP
+LDEQIILRVVDKFLLQLETQLGEKKVEVTFTDALRKFLGKKGFDPLMGARPMQRLIQDTI
+RKALADELLFGRLTDGGRLTVDIDDKDEVLLDITANPKKESRASRSEPAEPEEATAG
+>tr|A0A0P0MB70|A0A0P0MB70_9BURK
+MTDDINPSEEAFTTAQPKIDANQAGASEGYGEGSIQILEGLEAVRKRPGMYIGDTSDGTG
+LHHLVFEVVDNSIDEALAGHCDDIVVTIHSDNSISVTDNGRGIPTGVKMDDKHEPKRSAS
+EIALTELHAGGKFNQNSYKVSGGLHGVGVSCVNALSKWLRLTVRREGKVHQIDFAKGFVQ
+NRLLETVDGVEVSPMRVTGATDKRGTEVHFLPDVEIFTQNTDFHYEILAKRLRELSFLNN
+GVRIRLKDERSGKEDDFSGAGGVKGFVDFINANKKVLHPNAFHANGERPADSYGGIPGTS
+IGVEVAMQWNDGYNENVLCFTNNIPQRDGGTHLTGLRAAMTRVIAKYIEKNEIAKKQKVE
+VSGDDMREGLCCVLSVKVPEPKFSSQTKDKLVSSEVRAPVEDIVAKALTDFLEERPNDAK
+IICGKIVEAARAREAARKAREMTRRKGVLDGMGLPGKLADCQEKDPSLCEIYIVEGDSAG
+GSAKQGRDRKFQAILPLRGKILNVEKARYEKLLTSNEIVTLITALGTGIGKASAESGKSG
+TDDFNVDKLRYHRIIIMTDADVDGAHIRTLLLTFFYRQMPDLVERGHIYIAQPPLYKVKA
+GKEELYLKDGPALDGFLLRIALKDASISTGGAAPQVLTGETLEALARKHQVAEHVIARLS
+NFMDAEALRAMADGVSLNLDTLEQAAACAPALQAKLRELNTTGIPAEVSAEFDVRTDKPI
+LRISRRHHGNIKSSIITQDFVHGADYGALAEAAETFRGLLGEGAKASRGEGERQKEEKVG
+DFRQAMHWLISEAERTTSRQRYKGLGEMNPAQLWETTMDPTVRRLLRVQIDDAIEADRVF
+TMLMGDEVEPRRNFIEANALRAGNIDI
+>tr|A0A0P0LVM0|A0A0P0LVM0_9BURK
+MELNSIKPAEGSKHAARRVGRGIGSGLGKTAGRGHKGQKSRSGGYHKVGFEGGQMPLQRR
+LPKRGFKSQTLKYNAEITLTTLSRLDMAEVDVLSLKQAGLVAHMAKVVKVINTGELTKAV
+KLTGIGATAGAKAAIEAAGGSVA
+>tr|A0A0P0MBZ8|A0A0P0MBZ8_9BURK
+MKSSKNSLTIEQRITENQPDQFPAPQSNIFHLKLVGGRSSDSDRLHHMRDGCVVLYKRTQ
+STVWQVRFKLFDQKWHHYTTKHKDLEYARRVASTIYDRARFAEEMGLPLQTKTFGVVAQA
+CYKQLELEIEQGIKPRTCADYQRVIRKYLIPFFGKYNLTNIDIATVRKYELWRNEQMGTV
+PKASTLMTHASAYSRIIDLAIERGWLSANTPVPRLSRRGKKSVARPGFTAEEVQRLLEFL
+KTWADGDAHRHTGRQIKLLLRDYVEVLLATGMRTGRESLNMLWQHIEWHQVGDQRYLRIW
+VSGKTGGRWLIAKHRAAEALARLAMRQESVSMTLDEAIAAKLPHKVFAFDDGAQPYGFQG
+TFKRMLAAAGLSRDMSSGQERTLYSLRHTYATMELLAGTDIHTLARQMGTSILMLEKHYS
+KLTATMAAGKLAD
+>tr|A0A0P0LIC5|A0A0P0LIC5_9BURK
+MSFLPAFLLALIAALPMGWALWAAASQALDVSAWQALWTDPQTLRAWGMTLWTGLASTLL
+VWWTVARLLAHGFIRQQLARWLTHVPALLATPHAAMAIGLVLWLSPSGWALRLVSPGLSG
+FDAPPPWLTTQDPWGLGLILALWLKEVPFLLWVAATQLQREDLRRRWQAEFALAQTLGHT
+PATAFAQVVWPQLAPRLRWPLLAVLAYGLTVVDMALIIGPATPPTLAVLAWQWLGDADAA
+MQAQGAAAAGWLTGTLLLAGVLTVMALRVVAAMRKFASRGSLPQKMLPWVGRFCGRLPLQ
+PNGHSSKHAHSAAGLLRGRISGLALAIGGAYLAVWFALTVGSVSGVWPFPQLWPSLWTGD
+AWAQVIASAPTVWTTLGVAAASASVCLVWSVAWLELTPRRWQQALRPWCLLPLVLPSVLW
+VVGLYSVALQWRLEGQWLGLLLAHAVMVLPYVLLALEPAYMAVDPRQSAVVASLGQGRWT
+DLLRIKWPLLQRAIASAWAVGFAVSVAQYLPTLYVGAGRFATVTTEAVTLASGSQRSLMS
+AYAALQMLLPVLAFALAAYLGRPRQFEKIGPMKDNT
+>tr|A0A0P0MBQ8|A0A0P0MBQ8_9BURK
+MKLIGSITSPYVRKVRVVMAEKKLDYQFLTEDVWSAQTQIYVSNPLGKVPCLVMEGGEAV
+FDSRVIVEYLDTLSPVGKLIPTAGRERAEVKTWEALADGLLDAALLARMEAVWTGREDSQ
+RSQAWIDRQLDKIQHALRAMSTGLGDKAFCSGIHLSLSDISVGCALAYLDFRFPQIDWRT
+PYPNLHKLHEKLAQRPSFAETVPV
+>tr|A0A0P0M6Q3|A0A0P0M6Q3_9BURK
+MSTTPQDLTQSPAHELLALYRSGQASPVEVTRAVLSRIERVNPQINAFCLVDEKAAMASA
+QASEARWQAHRQQGTPVGALDGVPTSIKDLILTQGWPTLRGSRTIDPNQPWDVDAPATAR
+LREAGAVLLGKTTTPEFGCKGETNSPATGITRNPWNLNHTPGGSSGGTAAAVAAGLGPIG
+VGTDGAGSVRIPAAFCGNVGLKPSFGRVPAYPLSPFGTVAHLGPHTMSVRDAALMTNVLK
+QPDARDWTSLPPDASDYTIGLEDGIRGLKIAYSPTLGYAQNVDPEIAAAVHAAVQQLQAL
+GAHVEQVDPGFEDPLEITTGLWFLGAYTVWKGLSAEQQAVADPDFKAEAEFGAQLSALQI
+QQLNQRRGVLGSHMRQFMQRYDLLVTPAVAIPAFEARAAGTVAMNPVSMLGWTPFSYPFN
+LTQQPAITVPCGQTRSGLPMGLQIVGPMFGDALVLRAARAYESAMPVARPNL
+>tr|A0A0P0LKY4|A0A0P0LKY4_9BURK
+MDDTQLLRYSRHILLNELGIDGQEKLLASHALIIGAGGLGSPVSLYLGSAGVGHITVVDH
+DEVDATNLQRQIAHTLDRVGQSKAESVRTAIAQINPDVRVTPITQRADAALLDTLVAQAD
+VVIDCCDNFETRQAVNNACVVHHKPLVSGAAIRMDGQVSVFDSTQADAPCYACIFPPEQL
+PEETRCATMGVFAPLVGIIGTVQAAEALKILSGMGSHMAGRLLMLDGRELTWTDIRMQRN
+TDCAVCAAHRA
+>tr|A0A0P0MB92|A0A0P0MB92_9BURK
+MAHRLDQQVAIVTGASRGIGRAIAEAYAAEGASLCLIATDTARLQEVKDSLGLPAERIMT
+LGLNVTERDACFAAVAQVEERFGRVDVLVNNAGVYRAKPFLDYAPQDFQDMLDVNLFGAL
+HFMQACLPGMQARRHGRIVNIASTAGKWGSRNQSAYNVSKHAVVGLTRCVALEASPHAVT
+VNAICPGFVQTDMVETLKAQVAQSSGISGDDMVKAALARVPLGRVLNPDEIAALAVYLGS
+HESRGMTGQSILLDGGMVLV
+>tr|A0A0P0MAA8|A0A0P0MAA8_9BURK
+MIRISELKLPLSALPIESRRAADAPSETDEDRLPTPHPIEALRQLAAQALGISAADIATL
+HVFKRSFDARKADLLAVYIVDLSLHDAPTEHRLLQQFEKNPHIQPTPDMTWHPPCQAPAS
+FGAQEGERPVVVGFGPCGMFAALALAQMGFKPIVLERGKPVRERTKDTWGLWRKKVLNPE
+SNVQFGEGGAGTFSDGKLYSQIKDPRHLGRKVMDEFVKAGAPADILYAAHPHIGTFKLVK
+VVEHIREQIIALGGEIRFEQRVSDVLLAPTASGQQLTGLLVQDLRTGQSQALHTRHAVIA
+LGHSSRDTFVMLHRRGVAMQAKAFSIGVRIEHPQSVIDQARWGRHAGHPLLGAADYKLVH
+HAQNGRAVYSFCMCPGGTVVAATSEPGRVVTNGMSQYSRNERNANAGMVVAIDPPDYPQD
+TASWQAAFGEQDGTHLAQEAAALAAQQPPQAHPLAGIVLQRQLETRAFEVGGSNYEAPGQ
+LVGDFLAKRPSTTWGSVLPSYKPGVKLVDLAEVLPGYAIEAMREALPVFGRKIKGYDMAD
+AVMTGVETRTSSPLRIPRGDDHQSTNTQGLYPAGEGASYAGGILSAGVDGIKVAESLARS
+LCSFTQNPCTEHQKNL
+>tr|A0A0P0MBL6|A0A0P0MBL6_9BURK
+MIRDPETFEALLDSVRRFVRERLVPAENEVADTDEIPEAIVQEMREMGLFGLTIPESYGG
+LELTMEEESRLLFELCKTSPAFRSVIGTTVGIGSQGILMDGTEEQKAYYLPKLATGELSS
+SFALTEPDAGSDAASLRTTAILDGDHYVVNGTKRYITNAPHSKIFTLMARTNPADKGAGG
+VSAFIVDAQSPGISLGKNDKKMGQKGAHTCDVMFDNVRVPAANLIGGQEGQGFKTAMKVL
+EKGRIHLAAVCVGVAQRILDDALRYAIDRKQFGQSIAEFQLVQAMLADSKAELYAAECMV
+IDAARKRDEGRSVSTEASCCKMFASEMCGRVADRAVQILGGAGYLAEYGIERFYRDVRLF
+RLYEGTTQIQQIIIGRNMVREARA
+>tr|A0A0N7J8C9|A0A0N7J8C9_9BURK
+MEIKVNFLDKLRLEAKFDDFTVLADQPIRYKGDGSAPGPFDYFLASSALCAAYFVKLYCE
+TRGISTEHIRLSQNNIVDPDNRYLQTIKIQVELPADMSDKDRLGILRSIDRCTVKKAIQA
+GPTFIVEAVDNLDADAQALLSLNPDALAQTRIAGKDLPLEQTIANMTAVLANLGIKIEIA
+SWRNLVPNVWSLHIRDAHSPMCFTNGKGSSKESALASALGEYIERLNNNHFYAGVFFGED
+LAQADFVHDPRERWFPQGKRDALPKGLLDEHCLAIYNPDGELKASHLFDTNSGNTARGIC
+ALPYVRQSDGEVVYFPSNLVENLFVSNGMSAGNTLVEAQVQCLSEIFERAVKREILEGEM
+ALPDVPKDVLAKYPGIVAGIEALEAQGFPVLVKDASLGGVYPVMCVTLMNPRTGGVFASF
+GAHPRLEVALERSLTELLQGRSFEGLNDLPAPTFISNAVTEPNNFVEHFIDSSGIVSWRF
+FSAQADHEFVEWDFAGQGEDATAQEAATLFGILQAMGKEAYVTVHDQLGATACRILVPGY
+SEVYPVDDLIWDNTNKALLFRADVLNLHRLDDEALEALLDRLENNELDDYLDVATLIGIE
+FDDNTVWGQLTVMELKLLIHLALQQLEEAHELVGAFLQYNDNTVERRLFYQALNVVLEVT
+LGEDLALEDYEVNFRRMFGQERMDAAIGSVDGSVRFYGLTPTSLQLEGLERHQRLLDSYK
+KLHTARSRASAKQGSSA
+>tr|A0A0P0M8C0|A0A0P0M8C0_9BURK
+MTAQGIRSALNPGVRVREVFGWAMYDFANSGYSTVVITAVFAAYFVGGVADGADWATLAW
+TSGLSVSYLIVMLTMPGLGAWADRVAGKKRMLMWVTAGCVVSTAALSLVGPGQVALGLFI
+LVLSNTFFSYGESLTASFLPELAKPEAMGRVSGWGWSLGYIGGMLTLGICLAYVLAAQAR
+GETGGQFVPVTMWITAAVYGAAAWVTFALLREHSPPQPNAPVVTVAQSLRGLRQILREAL
+PYKDFTRLLACAVAYQGGVAVAITLAAIYAEQVIGFQPQETMVLIFVLNLAAFAGAFLLG
+HVQDRIGHKLTLALTLVGWVATCFIAALSTDKGMFWWAAAIAGFCMGSSQSSGRAMAGLM
+VPPQRLGEFFGLWTFAIRLASILGPLTYGLITWLSDGNQRLAIGSTSLLFVLGLVLLMPV
+DVDRGRRAAQSPT
+>tr|A0A0N7J8W0|A0A0N7J8W0_9BURK
+MEVAIVGGGPAGLMAAEVLSQAGVSVHLFDAMPSVGRKFLLAGKGGLNLTHAEPSAQFNT
+RFGPRETEVSQWLSGLDAQGVRDWAQSLGVSTFVGTSGRVFPAEMKAAPLLRAWLHRLRH
+PASGVPVQFHMRHRWLGWQGDHLVFGRRDDAPPLRVKAGATVLALGGASWPHLGSDGAWQ
+VHLQQEGVEVAPLKPANCGFDVLGREGQGWTAHFRAKFSGYPLKSVVLTVPAPDAQGAAL
+QPARFERKGEFVITETGLEGSLVYAASAWLRDGLAEHGQARLLLDLLPDKTPEQVLKEVA
+WPRGSRSLSSHLKSRLGLDGVKMGLLFELCSPDALAQPDVLAKRIKALPVPLKCARPVAE
+AISTAGGVALQSMGPDLMLAARPGVFCAGEMLDWEAPTGGYLLTACLASGHRAAHGVLQG
+LKAKPHTI
+>tr|A0A0P0M9P3|A0A0P0M9P3_9BURK
+MRDPVTAYVALGANLGDARAAVLQAFEALDSWPEVQVTSRSALYRTAPHEAQGPDFINAV
+ARIETRLSAPDVLDALQAIEHSAGRLRSYVNAPRSLDLDLLFYGDACMHSPRLTLPHPRW
+RERAFVLVPLADVWPQRVGPEDLARVAGQAIARDVAVGE
+>tr|A0A0P0LEE8|A0A0P0LEE8_9BURK
+MARTVQCIKLGKEAEGLDFPPYPGELGKRIWEGVSKQAWADWLKHQTMLVNENRLNLADL
+RARQYLARQMENHFFGDGADAAQGYVPPAAG
+>tr|A0A0P0M6P0|A0A0P0M6P0_9BURK
+MPDQEPHEPMADEAPAPTRKRPKPGERRLQILQTLAAMLEQPGAERVTTAGLAAKIGVSE
+AALYRHFASKAQMFEGLIDFVDQSTMGLIRQVTDREPPGPQQAARIVALLFQFAEKNPGM
+SRVMIGDALVLEHERLQERINLMFDKIEAQLRQTLKTSDSTTPTADAQVTASLLVAFMQG
+RLQRFARTGFKRLPSEHLQAALARVL
+>tr|A0A0P0LRM7|A0A0P0LRM7_9BURK
+MSADPRTTAPSLGRLTAPAAWQTVDLISDLHLQAAEPATFEAWRNFMASTTADAVLILGD
+LFEVWVGDDAAEADPFLQSCAQVLRQTAQRLHLAFMPGNRDFLVGPAFLSECGVHAMRDP
+CLLEWGAQRILLSHGDALCLDDKAYQVFRQQVRHADWQTEFLAKPLHERLALARAMRAQS
+ESQKHSGAVYADADPLMALNWLDAAGADRLVHGHTHQAADHPLGAGVRHVLSDWSLDHAP
+NRAQVLRLQREVGFTRIDKVAAPPAGQG
+>tr|A0A0P0M909|A0A0P0M909_9BURK
+MVTDTLSPPLSITRPVLHEQVAQRLRQMLVEGLIPPGGKLNERALCEALNISRTPLREAI
+KMLAAEGLVELLPNRGSVAVQLSAADVGHTFEVMAGLEGLSGELAAQRVTEAELNEIKAL
+HYEMLAAFTRRDLSAYYQVNAAIHRSINAAAKNPVLTATYNQVNARLQALRFRSNQDGDK
+WQRAVDEHIAMVQALEARDPAALRQVLMQHLDNKRNVVIEQLRTSRQTIASLPEGSSLSD
+APLQTEGHAP
+>tr|A0A0P0LDL8|A0A0P0LDL8_9BURK
+MDSMSGNTFGNLFSVTNFGESHGPAIGCVIDGCPPGMPLSEADIQPDLDRRRPGTSKFVT
+QRNEPDAVQILSGVYQGLTTGTPICLLINNTDQRSKDYGDILQTFRPGHADYTYWRKYGL
+RDPRGGGRSSARLTAPMVAAGAVAKKWLKEQFGTMFLGCMTQIGDVPIGFESWDHVPNNP
+FFAPVADVSALEDYMGALRKSGDSCGARLRVVARGVPVGLGQPLFDKIDADIAYAMMGIN
+AVKGVEIGAGFGCVTQKGSTAGDSLTPEGFVGNNAGGVLGGISTGQDIEVSIAIKPTSSI
+LIARDSIDSAGQPTEVITKGRHDPCVGIRATPIAEAMLALVVMEHALQHRAQCGDVAHDQ
+LPIAAVKP
+>tr|A0A0P0LUC7|A0A0P0LUC7_9BURK
+MNLHELTRPIAITPGDPCGIGPEIIARAWSTTPELTRGCFVAGDVGLMRRAMALVGQAVR
+YPVCEIETAEQALHVPPRCLPVLQVVSEAPEIPWGQVDGHAGQLAGEAVLWATRAALRGE
+VAALVTAPLHKEALHAAGAPYDQYPGHTELLQAEAARHAGVTLAQMPVRMMLANDELRTV
+LVSIHVSMREALDAITVDRVLETLRITHTALTALLGRKPRIAVAGVNPHAGEGGLFGREE
+IEVVKPAIWQACQEGLDVHGPYAPDTVFMRARQKPGIQREFDVVVAMYHDQGLIPVKYLG
+VEQGVNVTLGLPLIRTSPDHGTAMDVAGQGVADASSMVQAIRMARQLLAGAVTGMA
+>tr|A0A0P0M8H6|A0A0P0M8H6_9BURK
+MFFFIGLAVVFGAVFGGYILAGGKMAPIIKAAPFEFIIIGGSAIGASLIANSFPVFKAAM
+GGIGQCIKGPKWHQADYLALMLLIGKLQTVMKKEGVVALESHVENPDSSPIFGEFPKLAK
+DHSIVQMICDPLRLMVISQGNLDADALDDLMKKAIKVHHHEALLAPAALAGIAGGLPALG
+IVACVLGVVKTMGAIDQPPPVLGGLIGAALVGTLMGVFLAYGMFEPFAGRLTQIINEDAQ
+AFDVIREMIVCNLKGHPQPLVIESARACIAHHSQPSFSEVFDGMRGS
+>tr|A0A0N7J934|A0A0N7J934_9BURK
+MEALKQGADALFILLGGIMVLAMHAGFAFLELGTVRKKNQVNALVKILVDFSVSTVVYFV
+VGYSVAYGTTFFVGAEQLAAKNGYDLVKFFFLLTFAAAIPAIISGGIAERAKFWPQLIAT
+AVIVGFVYPFFEGVVWNQHFGVQAWIKAVTGDEFHDFAGSVVVHAMGGWIALPAVILLGA
+RYNRYRKDGVVSAHPPSSIPFLALGSWILIVGWFGFNVMSAQTLDKISGLVAVNSLMAMV
+GGTLAALVLGKNDPGFVHNGPLAGLVAVCAGSDLMHPFGALVVGAVAGALFVVMFTLTQN
+KWKIDDVLGVWPLHGICGAWGGIAAGIFGASSLGGLGGVNLTAQLIGTAMGVAWALLGGL
+VIYGLLKVTLGLKLSQEEEYDGADLSIHKISATPDREVSW
+>tr|A0A0P0M942|A0A0P0M942_9BURK
+MATFKKFNKDKRPKRNTQSLLFKRKRFCRFTVTGVEEIDYKDVDTLRDFIAENGKIIPAR
+LTGTRAIFQRQLNTAIKRARILALLPYTDQHKV
+>tr|A0A0P0M6U0|A0A0P0M6U0_9BURK
+MVLDNVDLKILNELQRDGSLSNVTLAKRIGLSPSPCLARVKALESGGVIQRYVALASAAA
+LGLGLTVFISISLKTQSKETLADFEAHIARHDEVMECYLMTGDSDYLLRVAVRDMAALER
+FILEQLSPIPGVEKIRSSFALKQVRYKTALPLGLG
+>tr|A0A0P0LUS8|A0A0P0LUS8_9BURK
+MTVNPLVIWAPVFAMMALVLVVAYLTFRERVRQFKALRVHPQKVSTRSEFAAALKDTRCA
+DNFSNLFETPVMFYVACTGLYVTQTVSIGALVLACLYVLLRVGHSVVHCGRNVVFTRFKL
+FAASMLVLLGLWLVWGLTLLHVI
+>tr|A0A0N7J8T1|A0A0N7J8T1_9BURK
+MHIMLAPMEGLLDHTLRDVLTRVGGVHECVSEFIRVTNTVLPRRAFIRVAPELLNQSRTP
+AGVPVKVQLLGSDPVCLADNAAALAELQPHGIDLNFGCPAKTVNQHRGGAVLLDEPELVG
+QIVATVRRAVPAHIPVSAKMRLGYNDDSRAEECALAIEAAGASELVVHARTKAHGYRPPA
+YWDRIADLRQHVRLPIVANGEIWTVGDALRCREVTGCDRLMIGRGMVTDPGLALAIAHQL
+ATGQARAPGQGVAWSRLVALMQVFWLGVSARVATRHRAGRLKQWLNYMRRVYPEAQQAFD
+ELRLVHDAGHIERWLAQHTASAPELAHAI
+>tr|A0A0P0M8D6|A0A0P0M8D6_9BURK
+MNLLAADIVERFYTFLWPMLRISALMIAAPIFSLSAFNLRLRILMALVLTWLVYPLHTWP
+VLDPSSAQGLVEVFNQIMIGAVMGLILQIVVAAMVVGGQSISAAMGLSMANMIDPNMGNV
+PVISQLMIVMSTLIFVGFGGHAIMLGLIAESFNSLPIGTSILNQNVYGRVLQWSSMVFLG
+AVLMALPVMVSLLFINVGLGVVTRAAPSLNIFAVGFPAMIIAGFLILIISMESIGSRIEW
+LWVQGFTVVRDVMGVPNV
+>tr|A0A0N7J911|A0A0N7J911_9BURK
+MNFLIDNWMLLAMALASGLALLLPVLTKGGGLDPQAMVQLMNRDKAVVIDVCEPDEFARG
+HVIGAKNLPLGQLEDKLAQVVKNKSTPVIMVCQVGARSARAAATARKLGFENVQSLSGGL
+RAWTAASMPTEKS
+>tr|A0A0P0M843|A0A0P0M843_9BURK
+MQQIYPAQIAEWASQQAQRPVLLDVREGWEVQTASAKPEGLDLLHMPMQTIPARLNELDK
+TRPIACLCHHGGRSMQVASFLMQHGFEVVNVAGGIHAWSAQVDPSIPVY
+>tr|A0A0P0M8K1|A0A0P0M8K1_9BURK
+MNDSSSNAQGQRPGVYAARKSGAATVIQTTATPYKAIDLADVVSGQFDDEEAAEAVAQDL
+GKRVLAPQTDSPKLHKVLAQAGMGSRLEMEKLITEGRIAVNNEPAHVGQRVQYGDQIKVD
+GKPIRIRIDPPPARVIAYHKPAGEIVSHDDPQNRPSVFRKLPRLQNGKWQSVGRLDLNTE
+GLLLFTSSGELANQLMHPRFGLEREYAVRVLGALSKDEKQKLLDGVMLDDGPAQFGSIED
+GGGEGSNCWYRVTISEGRNREVRRMMEAVGHAVSRLIRIRYGAMVLPHGLRRGAWLELDE
+SDIRSLMRAAGTSERPRPVTEHPVRTNRNDRRPRTGGQGRVGSAVPRAKPAAKPNQAPGG
+SGLHAKSDAPKSEPKYIGAESFNRLKNTPGGPGRGGRGGSGRSR
+>tr|A0A0P0M769|A0A0P0M769_9BURK
+MSIRTDDFAPQPEPRVISAAPVSHQEEAIERALRPKLLDEYVGQVKVREQLEIFISAAKM
+REEPLDHVLLFGPPGLGKTTLSHIIAAELGVNLRQTSGPVLEKPKDLAALLTNLERNDVL
+FIDEIHRLSPVVEEILYPALEDYQIDIMIGEGPAARSIKLDLQPFTLVGATTRAGMLTNP
+LRDRFGIVSRLEFYTPEELTRIVTRSSGLLKAPIDPEGSFEIARRSRGTPRIANRLLRRV
+RDFADVKGDGTIHKGIAQQALTMLDVDPEGFDLMDRKLLEAVIHRFDGGPVGLDNIAASI
+GEERDTIEDVIEPYLIQQGFLQRTPRGRMATLAAFRHLGVTPPKSFGDRF
+>tr|A0A0N7J8T9|A0A0N7J8T9_9BURK
+MNHPVPPTDALAAESPAATPAFSPLYQQIKGLILQSLQASEWKPGESIPSEMELAARYRV
+SQGTVRKAIDELASGHLLIRKQGKGTFVATHAEHQVQYRFLKLVPDQGDLNTEGPAQREI
+VDCKRLRASAEIARALALRSGDTVLQVRRVLSFANTPTILEDLWLPGTPFKGMTAERLAD
+YHGPMYALFETEFGVRMVRAEEKIRAVLPDKAQRELLKLPPHTPLLSVERIAYTYNDTPM
+ELRRGFYRTDTHHYRNDLN
+>tr|A0A0P0LHS6|A0A0P0LHS6_9BURK
+MGTMIELQSADGTAVPAYEARPAGTPKGAVVVIQEIFGVNSHIRAVADGYAADGYLAVAP
+AAFHRVKPGVELGYTDADMGEGFGYKTAVEALPATGVLQDIQAAIDHAAKVSGGKVGMVG
+YCWGGLLTWRAACTLSGLSAAAPYYGGGVTTEAEIARQPRVPVMAHFADEDKWIPLDTVE
+AFKKAHPSVQVFTYAAHHGFNCDQRGSWHAPSAQLARERTLAFFKQHLG
+>tr|A0A0P0M7Z7|A0A0P0M7Z7_9BURK
+MQVYLAQDWKTPRMKTYILNLPSALERRNFQTKQAQRLGLEALFIDAQTPADIPEAFFQA
+HAFSWERPIKITEVACFMSHHLVWQKIAGSKEPALVLEDDAILAHNTPKLLACLAQWEDV
+DHVSLETRQRQKLLGRRFKAMDSLNAHLHPLLQDRTGAAAYVLWPSGARALLAKFEQQGM
+GLADAFISSTYQLNSWQTVPAFAIQADVASAYGVSCPIAPQSLIAREKVPSPPTRSSLHD
+LQFKWRRLNAQLRLAARYLTCLWRARRQFVGIDPAQF
+>tr|A0A0P0M877|A0A0P0M877_9BURK
+MSALDITNLGMVPMVIEQSGRGERAYDIYSRLLKERVIFLVGEVNDHMANLIVAQLLFLE
+SENPEKDISLYINSPGGSVSAGMAIYDTMNFIKPDVSTLCNGMAASMGAFLLSSGAKGKR
+FSLPNSKVMIHQPLGGARGQATEIEIAAREIVKTRAQLNRILSENTGQPLEKIEFDTERD
+YYLSATESKDYGLIDEVISKRA
+>tr|A0A0P0M8E8|A0A0P0M8E8_9BURK
+MGNKIVTEADRKFTPPLPALPGVTLRTGGRGQRVSLERGVATRSKKNPGKRSKKGG
+>tr|A0A0P0MBP0|A0A0P0MBP0_9BURK
+MGNMSASTRPRKDNLDALAVGTLLVCCMFWGFQQVLVKATVAELPPVFVSAVRGLGATLL
+LWLWCQWRGVKLFERDGSLWAGLLVGCLFAAEFAFIYIGLQHTTASRLTVFLYTSPFWVA
+ALLPLFIRTEGLKPLQWVGMACAFAAVVFALREGFGGGGATGDLMGLAAGALWGLTTVAI
+RACNLTRISAEKLLFYQLAVSTAVLVGVSHGMGEPWGGSWSGFAIGSVAVQTVVGAFASY
+LAWMWMLGHYPATKISAFVFLTPLFALLFGLLWLGEAVTLTLVLSLALVAVGIVLVNRK
+>tr|A0A0P0MBK6|A0A0P0MBK6_9BURK
+MNLPSVLPINGQQPLFWLYLGLKDMCHTPWLSLAHGLVMALGGGLITWLAHDRFWLLASA
+VSGFLVVAPVLATSLYAMSRAIERNETVNLQLLFKTWTQWQTLQNNEPVSYWCLVRFGLL
+LALAGTGWVLTSSALITLMAPVPIHTPMDFIRHVVLSRENYLFELWLMLGGLLAAPVFAS
+SVVAMPLLLDRKLNTLQAVLTSWKVVLTHPLPMALWAFLIMGLSMMGILSLFIGLIVIVP
+MLGHASWHAYRDLVNTHDVPERMPRQEAV
+>tr|A0A0P0M8W7|A0A0P0M8W7_9BURK
+MAFWRWGDASSRRVVVCVHGLTRQGRDFDRLAQALLAQSPEPMQVICPDVAGRGRSEWLS
+DPALYQIPQYAGDMLAMLGQIQQQLGADKPLQSLDWVGTSMGGLIGMVLAGQPGLPLPCP
+IRRLVLNDVGPAITWSSVQRMQTYVGQYGQYRDLDEAAAALWALSQGFGPVLPEVWREMS
+AHMTRSTADGQLTLHYDPAIGVPVRALTPEAAAAGEAMLWSLYDLIQAKTLLIRGQDSDL
+LTPETATQMTQRGPRAQLDTWPGCGHAPTLTGDDQVAVLTHFLLGD
+>tr|A0A0N7J873|A0A0N7J873_9BURK
+MSRAEPLITPEELQCLLGGATVPSNTSWRSQLAQLTSVHFGAALWLVKGVFLYAVLTSPG
+AAPLVDSSAYLWMRSSLELVCLAVFWGASLHPRGRMAANASLLVAGTTCLLDAMTLLAFA
+H
+>tr|A0A0N7J921|A0A0N7J921_9BURK
+MALIGVVALIVIGPEKLPKVARTLGTLLGKAQRYVSDVKAEVNRSMDLEELKKMKETMET
+AARDVEQTVQTTASDFEKDWSETTAGLTSDLPTIEPPPPYYKRPEKNWRLKRGAVPQWYK
+ARSGVRTKALSGAARVARYRPKPLNSV
+>tr|A0A0P0LFK0|A0A0P0LFK0_9BURK
+MNDRSNAKPLLQVSDLRVSLPTARGWAQALRGVSWRMERGQTVGLIGESGSGKSLTALAL
+MGLLPERARVSGSIVLQGQELVGLSEPQLCQLRGARMAMIFQEPMTALNPLHPIWKQIAE
+PLRLHQHMSASDAKARALQLLERVQLPRAPERLDAYPHELSGGQRQRVMISIALACSPDL
+LIADEPTTALDVTVQKEVLALIQQLVREDGMGLLLISHDLGLMQDQVDRVMVMYGGAVVE
+SAATSELFAHRAHPYTRGLFAARPRLGLARGTRLTTIPGSVPELMDFPAGCAFADRCSLA
+IEDCRQTPPPAQTIDNPGAGETPHVVSCPRWRLP
+>tr|A0A0P0MBR0|A0A0P0MBR0_9BURK
+MWKLVVGFVIFAALALYVISKGGDSLDMSGEKHGADAVHVEPAKADASAPAAPAAAPASD
+ASAAK
+>tr|A0A0P0M864|A0A0P0M864_9BURK
+MNTTAMTALPSPAHTLAQALAQLPLIAILRGLTPAEAPTIGEALVRSGFAIIEVPLNSPE
+PMQSIAALTQQFPQTLIGAGTVLNVQQVKQVHAAGGRLVVAPNFNPAVVAQALALNMVVL
+PGVATPTEAFAALDAGAHGLKLFPAEMITPATVKALRAVLPKTAVLMPVGGIKPDNMAAY
+LAAGASGFGLGSALYAPGKSAPAVQQQAEAFARALKG
+>tr|A0A0P0LAF1|A0A0P0LAF1_9BURK
+MGMNVGTSSSDEPEVMIDMNTTPLIDVMLVLLIMLIITIPAQLHSVNLDMPVPTNAPKKA
+DPVVIKIDVDAASVINWNGTPVTRSELEAKLAEASAQQPQPELHIRSHAKAKYEAAAAVM
+ANAQRMGLTKLGIVGSEQFAN
+>tr|A0A0P0M994|A0A0P0M994_9BURK
+MSQTLNASTLLAIPLAPLVGSLLAGIWGTQFGGNWIGRRLSHSFTILGVLVAFILSAMTL
+SKVIAGASFNESIYTWMVVGGLKMEVGFMIDSLTAMMMCVVTFVSLMVHIYTIGYMEEDE
+GYNRFFAYISLFTFAMLMLVMSNNLLQLFFGWEAVGLVSYLLIGFWYNKPTAIFANMKAF
+LVNRVGDFGFIIGIGLIAAYTGTLNYTELFAKAGELAKIDFPWYIFGMDAMLITVICICL
+FIGAMGKSAQFPLHVWLPDSMEGPTPISALIHAATMVTAGIFMVARMSPLFELSDSALNF
+MMVIGSITALFMGFLGIIQNDIKRVVAYSTLSQLGYMTVALGASAYSVAVFHLMTHAFFK
+ALLFLGAGSVIMGMHHNQDIRYMGGVRKYMPITWITSLLGSLALIGTPLFSGFYSKDSII
+EAVHLSTLPAAGFANFAVLAGVFVTAFYSFRMYFLVFHGPERYDQNPDAHHGHDDHHGHD
+DHGHDKPHESPWVVTVPLVLLAIPSVVIGFMTIQPMLYGEFFKDVIFIDAAKHPAMQQLG
+QLFHGPVAMAVHGLSTAPFWLALAGVVTAWYMYLVNPKVPAFFARVLRPLIVVLEQKYFM
+DWINENILAKGARGLGRGLWKVGDGTIIDGFFVNGSWKVVGLVSGVVRWFQSGFLYHYAL
+VMILGVFVLMTYFVWLA
+>tr|A0A0P0M892|A0A0P0M892_9BURK
+MKRQSARMDAVDSPIIPTIAKLVREHPGTISLGQGVVNYGPPAQAVAELPNLMADAQLNK
+YQAVGGIAPLVDRFRQKLADDNHIHCGTESIVMVTAGSNMAFLNSVLAVADPGDEFILPM
+PFYFNQEMAIRMCGCVPVPVPTHSDWSLDVDALAAAITSRTRAIVTVSPNNPTGAVYSEE
+CLRAVNALCARAGIYHFSDEAYEYFTYDGARHFSPASIPGAQNHTLSFYSMSKNFGMASW
+RVGYVVFPADLFGAMNKVQDTNLICAPVASQLLALQALQLGREWVQPKVQALAQVRAQVN
+QALQGLGDLVDFPKTQGAFYVLMKLPGVSDPMAFNRAMVEKHRVATLPGFAFGLSDTASA
+NYQRLSYGSLDAATVAEGVARYVAAVKDWYTA
+>tr|A0A0P0M8N1|A0A0P0M8N1_9BURK
+MNTHLPLSLTLLALLSGCTTQPPANNWRYSVPDLAIQPEAASGNTAKPGWAFTRQAVAAA
+NPLATDAGHQVLRAGGSALDAAIAVQMVLGLVEPQSSGIGGGAFLLHFDGQKVTAHDGRE
+TAPAGARADMFMDQGKPLPFPEAVQSGHSVGVPGAVRMLEAAHRQHGSLPWAQLLQPAIT
+LAEQGFRVSPRLHALLNADALLKKDPLALRFFYQADGQAWPVGHVLRNPEYAHVLRLIAA
+QGSRALHEGPVAQAMVARTAQAPRPGTLSLQDLASYQPRMREALCFDHTASARAYRLCGF
+PPPSSGHIAIGQILGMLGNTAAEGPELTAGLPSPDFLHRYTEASRLAFADRAQFVADPDF
+VQAPAGNWRSLLALGYLRERSQLIGAQAMKSAPAGQPGGQTTSFAPMPTQTEYGTSHISV
+VDAQGRAVAMTTTIEAAFGSRRMVTTDPSRPGGFLLNNELTDFSLAPADAQGRSIANRVE
+PGKRPRSSMSPTLVFDKTTGQLLMSGGSPGGAAIIHYTAKLLTGTLHWGLNAQQAIDLPN
+FGSLGGPTMLEAQRFNSSTVDALKARGHEVRDMEMTSGLQAIERTPNGWFGGADPRREGV
+VKGD
+>tr|A0A0N7J8G7|A0A0N7J8G7_9BURK
+MSTNQRPLIAIDWGTTSLRGARLGASGQVLESRDFPRGILSVAPGQFEAVLNELFGDWLQ
+VPSALCLISGMAGSRQGWQEAPYCPCPAGFAELGQHLLWLQPGRIALVPGLSCIGTDPLN
+TPDVMRGEEVQIFGALQMTGRDSATLVLPGTHSKWVQVHSGRVKQFQTFMTGEVFALMSQ
+HSILGKTMDLQGAFDEAVFLQGVDQSQHSGSVLHQLFAVRTLGLFERLSAAQLPSYLSGL
+LIGEELRQQAVLPHPDPVLVIGSPALCLRYTLALQHLHIPCQSLGAEATWAGLWALASSC
+DPS
+>tr|A0A0P0LJD5|A0A0P0LJD5_9BURK
+MNDMTIGRAANAAGVKIDTIRYYQRIGLIAEPLLPQGGQRKYGEAVVRRVKFIKRAQTLG
+FTLDETSSLLSFEEAKNCCETKELAEHKIKEIDARIADLRRMKKTLTDLSKRCENGVESG
+PCPIIDTLAGT
+>tr|A0A0P0LSV8|A0A0P0LSV8_9BURK
+MSLPKAAFLDTSVFAGQQYNYKSAALTSFIPVAQTAQLKILLPDPTLREIKRQIKERSAD
+ALKALDDARRKAPFLSKWKHFPPKQTSLAEWELGQISQTEWSQFLSQFQVEKLGYDGVSI
+PKVMTWYDAVRAPFGEGKKRKEFPDAFAIEIVSLYAEKHGICVAVVSEDADIKKACEHYP
+SLLYFQSLAKLTELLLVGEMKLVELREILSGNLELLEEVVNEQINEFSTYIYDDDYEEDE
+RSIGSPQITDTRIVGLGNNECTVLFKIEFDSEHKLKWEKVIDPSEGYTETYSDWVYQSNT
+VNGTAKLIIDPIAKTVASVGMVEVDGSEIELRRLPRR
+>tr|A0A0P0M9V3|A0A0P0M9V3_9BURK
+MDEFLGATGAATIVLLKLKDKEKPPSIKSLKLNLEVENIKYYKGDGWYRNGIRMLEQLLR
+ILNSPTDPVSYWLNLSCTDFLQLDPDVNQHPFYQVLYTDITIAGFNLTNQCMSDLEKLLS
+IRDDLCSMRESVKSFLNRIEYNIEFVKVNSIDDVSMLDPKLEVLKKMFANYGDDALESIN
+SRLAEWHQKYKWKGRDFEEIAVTDELDSAEIN
+>tr|A0A0P0MBV5|A0A0P0MBV5_9BURK
+MTALRATTPDTGRLHHLWLVLLLAWPWVQPFSNSPLPHVWPWLTSWACLALALLTWQRMS
+LATVVQGWVLAALLSSAMGLVQFFGQAELLAPFLHVPAYLGDAMGNLRQRNQLATLLAMG
+VLAVLIWRALGLSIAHSIWMLALLAMGMAATASRTGLLQLVFIGLWMLLHRAAPKGRDAL
+LLTALTLGLYALASWLLPQLLQHLSGQATDSAMARMGALGGCGSRQALWANVLHLVAQHP
+LGGWGWDQLRYAHYITEYPSLRFCDMLGNAHNLPLHIAFVWGIPVAVLASLGVLVWVVRA
+KPWLHQGAGPQLAWGVLGVLALHSLLEYPLWYGPFQVALLLCLWLLRGRIWQFLQAQGRA
+TGLALVLGGILGFVAYDHAQVRQIYLPPAQRYGFWRDPAMQVVQRAWLFRGTAVFAQVTT
+TPVHPGNARAMLEASLEALHTSPEPRVIEKLLGSAQLLGEDALYENHKKHFQRVYPQAYL
+AWVHHQQR
+>tr|A0A0P0LNS2|A0A0P0LNS2_9BURK
+MSLLTRAEHALSSHFEQAAGVGAPSRLVAAMRHAVFSGGARIRPQLCMAVATACGDDAPE
+LTNAAAVALELMHCASLVHDDMPAFDNADTRRGRPTVHKAFSEPLALLAGDGLIVMAYRV
+LLQAGAQRPDRLIALMDNMTTGVGLPNGIVAGQAWECETSADLGQYQRAKTGALFVSATC
+AGALSCGYEPEPWAPLGAYLGEAYQVADDIRDVIADAATLGKPAGQDALHARPSSAQALG
+LDGAIAHFDHLIEQAASSIPACSCRDMLRQLVQLEAERLVPKALCDGYFKTHPAVAPARI
+GAAH
+>tr|A0A0P0M8P3|A0A0P0M8P3_9BURK
+MFNRVTCSVWRGGLLWGAGALIAGFSGLAFAQVGDKVALGNWSIDRTEVTIGQFERYVRA
+TGTVTRAEKEGGGFEYVGGWVRRPGWSWRQPDGVQASANLPAVHLDFAEAQAYCRWAGGR
+LPTGAEWQKAGFTELRDNPPAPWVKGKTYPWSTGDSPQGANTSDPDPWPRAAPAGATRQG
+VNGLYDMGANVWEWTTDEQGGQRRTVGGSWWYGAFNMKADVQAFKAADVYVVYLGFRCAY
+DLPLQNPNASKTPS
+>tr|A0A0P0LJH6|A0A0P0LJH6_9BURK
+MPAMSSQAPETQALFLALNNALPQTQCTRCGYPDCASYAQAMAEGQAPINQCPPGGQAGI
+ERLAALSGQPVLPLNPEHGIEGPRHVAIIDEAWCIGCTLCIKACPTDAILGANKLMHTVI
+EPWCTGCELCIPVCPVDCIALENVTGTNTGWAAWSAEQADTARGRYTSRQQRLVREEAAH
+QKQLQAKAEHKLADLAAHTKGTDQAPELDRKRAIIEAALAKAKARQTGV
+>tr|A0A0P0M9B3|A0A0P0M9B3_9BURK
+MLQTHNLTVRFGGHVAVNAVSCRFEPGTLTAIVGPNGAGKTTYFNLISGQLPASEGTVHL
+NGRELTGLSTSARTRAGLGRAFQLTNLFPNLSVLENVRLAVQATKEGAHRRGLNLWSIWS
+DHAALTNRALEILQSVSMTAQQDAPVASLPHGDQRKLEVALLMALEPSVYMFDEPTAGMS
+HDEAPVILDLIRQLKKDKTKTILLVEHKMDVVRELADRIIVLHNGSLVADGEPNEVIASP
+IVQEAYLGKARVAA
+>tr|A0A0P0LLM4|A0A0P0LLM4_9BURK
+MNEAAKPSLSSAAFGTLLLIAFMMGANHVAARTAFNHGVDVVTAVTVRSVVTALVVALIL
+WQHKVAFQVPPQQRKYMGVIGVLIAVQSLCLYSAVARLPVALALLAFNTYPLMTALWARV
+LYGHRPERAVLWAMPMMMAGLALALDVLGSASGLGAANHWGHIGAGVAFALFASATFGLA
+LVLTQHETVGVDGRWRSFTSMSTVGVLAGLVAWSQGGLNWPTASMGWWGLGLLTFLYGTA
+FTIMFTVLPKLGVVGNSAIMNVEPIFALVLAWALLGQAIAPMQLMGAAVVVGTVMWLGLR
+KP
+>tr|A0A0P0M8J8|A0A0P0M8J8_9BURK
+MNAAPSFLPNTGPLAGLKVLELGQLIAGPFAAKTLGDFGADVVKIEPPGAGDPLRQWRLM
+KDGTSVWWQVQSRNKQSLALDLKQPAAQDIVRQLAAESDVLIENFRPGAMENWGLGPEDL
+LALNPRLIMLRVSGYGQTGPYRDRPGFGVVGEAMGGIRHLTAEPGRVPVRVGISLGDTLA
+ALHGVIGILMALHERKNSGRGQVIDVALYEAMFNCMESLLPEYSAFGAVRGPAGSALPGI
+APSNAYLCKDGGYALIAGNGDSIFKRLMAEIGRDDLAQDPALKDNTGRVARVAEIDGVIG
+QWTAQLTVDEVLAALDRASVPAGRIYTVADIVQDPHYLARDMLQTVRMHDGSDLMVPGIV
+PKLSRTPGGHRRNAPGVGQDSDAVLSGMGLTATQIQALREQGIVA
+>tr|A0A0P0MBR3|A0A0P0MBR3_9BURK
+MTEAPTPETSAAARPALPDRLAIDARSPHHVRAVFEHDIGIRFNGKDRNDVEEYCISEGW
+VRVPAGKTLDRKGQPLLIKLKGKVEAFYR
+>tr|A0A0N7J8N1|A0A0N7J8N1_9BURK
+MNTEQPLALLGGLSPSQFMKRHWQKKPLLVRNAIPGFVPCVGRADLVALAGEEGVESRLI
+VDSPKGWKMKHGPFPKRGLPPFSQKKWTFLVQGVDLHHDGVHALMQQFRFVPDARLDDVM
+ISYATDGGGVGPHFDSYDVFLLQAHGQRRWRIGRNKDLSLQPGVPLKILQNFEAEEEFVL
+NPGDMLYLPPKYAHDGVAEGECMTWSIGFRAPQEGELARELLLGLADEAFDGVGDAIYRD
+PKQGAMSSPAAIPQPLAGFARQVVDKALQNPDLLDSLLGEYLTEPKANVWFEDAEVAPDL
+SVGLRLDRRSKMMYDDKHVFINGEGFKVGGRDALVLRQLADERVITVQKIKVLSADAKEA
+LLDWASAGWLRSL
+>tr|A0A0N7J8Q6|A0A0N7J8Q6_9BURK
+MPCLRGLAYPCHDLLHPTFAVTPPNPTPQATPHADPAKSLALSLARQALWLTSPNPRVGC
+VITAADGTVLGQGHTQRAGGPHAEIMALRDAAERGHSVQGATAWVTLEPCAHQGRTGPCC
+DALAAAGIGRVVAALTDPNPQVAGQGMARLAAAGVRTETLNPQDEMAQQARELNIGFFSR
+MERGLPWVRMKVAASLDGQTALLNGQSQWITGPEARADGHAWRARACAILTGIGTVLEDD
+PQLNVRGLNVPRQPHLVVLDSRLELPLNAQLLNTQGTGDQARQIWVYTAVDPANAEQAEK
+RSALSARGVTVIDMPGPGGKVDLAAMLRDLARREINELHVEAGHKLNGSFIREGLVDEYL
+IYLAPQLLGPGQGMANLPALTALGDAVQLGFHAVERIGPDLRLLLRRA
+>tr|A0A0P0LCY9|A0A0P0LCY9_9BURK
+MHLHGFPPVTGSAKQIVPSTWGSSVPPQAFCLVAQASISYLVNIVTATLATGFGSRSNAR
+VLLYKQLRYSQSSASSSWGFIALKLSSPLVTSRAKQPLLQAVPRLSLWLAIVFSSTGGPS
+TRMFMSYFQILKPANPSFNRTCFGVAEPGIISFLPGSATLAHAG
+>tr|A0A0P0LV09|A0A0P0LV09_9BURK
+MVLSFPTFTAGMVLSISLIMAIGPQNAHVLRMGLQRQHLWLTVAVCAVADIALIGLGVLG
+LAQLGGLSDKLHGALVGAGMLFLAVYGWQAFQRFLRPQALTLDLPSADGPSESNSATSGS
+QPQPVAVSRRQAILSAMAFSWLNPHAWLDTAVLIGTASLAYGQGSTVFGLGAAAGSMLWF
+LVLGTAAFWLGRRLHSLHIWRALDGAVALMMWGTALWLGFSLL
+>tr|A0A0P0M7V6|A0A0P0M7V6_9BURK
+MSQHPEHGLLRSTLGRRHKASVRTLLLAFVLSYATAGIGAALTELGPWYFALKHPPWKPP
+DAAFGVIWSTIFTLCAISAWLAWQAADTAALRRRVAVLFGVNAVLNILWSWLYFKLQRPD
+WALFEVVFLWMSILALIMGLWRLSRWASLLLITYWVWVSIAAVLNLQTVMLNGPFGAQP
+>tr|A0A0P0LUL6|A0A0P0LUL6_9BURK
+MDDLNVNDYLKSHIRTVPDWPAPGVQFRDITPLLQDPRVFRVLIDAFVHRYMHPALRPDV
+VAGLDARGFILGSVVAYELGLGFVPIRKKGKLPFTTVEETYELEYGSATVELHTDAVKPG
+QRVLLIDDLIATGGTMMAGKKLLEKLGATVIEGAAIVDLPELGGSERIRATGLKLFTLVS
+FEGH
+>tr|A0A0P0M9Q0|A0A0P0M9Q0_9BURK
+MALIEALVASAVLGIGLLAATRMTLYTLNTASDTRQHTVALTLALDAMDCHQSGRTGCPL
+QTSATVQGTTYSLQSQVQTRPGLALEDLQVRVQWPAVGPAWGAVGGGLGAGSPGQAQAHM
+GELVLHSSRDAVPAWLGVSLP
+>tr|A0A0P0LEU5|A0A0P0LEU5_9BURK
+MSDIQVRFATLQDAPAVAALHVSACRAAYEGQVPDAHWDATPMPKRVSFWKEAIEYGEPQ
+VMVAVEGKDIVGFVGFDRSRDPKSKNTTGEIWAIYAAPDRIGQGIGLALWDAAREGLEDE
+DCTDVTVWLPLLHERTLRFHDLAGFKREMNTARTVPLGGVKVEEVRLKRKLG
+>tr|A0A0P0M7K7|A0A0P0M7K7_9BURK
+MNNPSWRAEDGQLLRSLREEAGIDALVFARNNTVSLAQLKELELGGNNSFYNPAIKRSTG
+VKLLKKLGHELVMPEPVHVVVEPTEPHEDEQTFDMATAMAQAPVSHPKAPSNDRSRRLVQ
+QAFWGSLGLLGLVALTAMKPWGMGDASATHVHAAVSVMQDPLPMVPSKPEAKPSAPIKQS
+QAPSAPPANAIGLTPVSGEPPLAAIKVSASTPASACDWQHRDHSKTHTPSQPLKPGNYVH
+LEAQADTELCVLDSQNQKTLLQLKAGMTKSVYGSAPFLVHSQELHTLKLFFQGRRVHEAL
+DDMQYLLLNSQPL
+>tr|A0A0P0M8A8|A0A0P0M8A8_9BURK
+MTYIDPSPLKSADTHPAMLGSLLPPSGVLPLNFSPGPASLAAEVQAAIKALFDSERMCSM
+YLSHRSPEFLDILTSAVKHCRLAMNIPEDYEILFMHGGGHGQFAAVPLNLCPNGDEKATY
+LVNGTWSKRALSDASKYCRPFVVSSENQDGTFTRNPSFEHLDPESKYVHLCSNETVNGIE
+LHQLPKLGIKAPLVVDASSDFSTKPIDWVGCNVGILYACASKNIGHPGLTLCVVRKDLMG
+SPSKFCPGVLCYTTNAREGNLWNTIATFNVEVVNIFMQWMIAQGGVHEMERRAIAKSDLL
+YSVIDKSEGFYATPIADPSIRSRMNIPFDVAGGDEETTRNFLIQGWERGIVGLRTLTPFG
+VGKYLRASLYNGVSMNQVEVLAAFMTEFLKTCRTQQ
+>tr|A0A0P0M6L4|A0A0P0M6L4_9BURK
+MNNTPQHRENLGLWLGLLGVFIFGLTLPMTRLATGTVDAPQMSPWFVTWARAALAGGLSL
+IYLLAVRAPRPTPEQRGPLLLSLMGNVIGYPLLLGWALRHVTASHAAVITSLLPLATAAA
+AAWLMHQRARLGFWVFAALGSALVAVYSLLRASQIGHGFGLTWADTLLVGAVMAASLGYV
+AGAKVTASLGAEKVISWVCVMALPITLPGAWLTWPDQTIAPLSWLALLYVGVFSMWAGFF
+AWFRGLSLGGPLRVSQLQLLQPFISILAAVPLLGESLDAMTLGFALLVVATVFMGRRMAN
+TPKSN
+>tr|A0A0P0M6M9|A0A0P0M6M9_9BURK
+MLKKIHPSDLILRCFALRRDGYWVAMCIDLDLVVQADSARDVKRLLHEQIVSYVGEAYGE
+DERFAVQLLGRRAPLRYFAMYYVIKWFNRARRYFSYETAMPLPFAHA
+>tr|A0A0P0M715|A0A0P0M715_9BURK
+MRPRKSWSPLRQWSLTHHRGRRAFAAWPVAVRGMVWMVLGGLLFSFLNTIARELTLHLDV
+YQSQFLRYLFGLLVILPWVWREGWRAYMPVNMAGQFWRGGVHTLGLVLWFTALPKIPLAD
+MTAIGFTGPIFIMLGAAWFLGEPMRKDRWIAAIIGFAGVLVVVLPKMSGEGGWFNLVMLA
+SSPVFAASFLITKALTRYEKAGVIVLWQALTVTVLSLPMALPNWQAPTLMQWLGFAATGV
+LGTLAHYCLTRAFALADISATQSLRFLDLVWASLLGWLVFGDVPSQWTWAGALVILGATV
+WIARRESRRKPVVSD
+>tr|A0A0P0M6R8|A0A0P0M6R8_9BURK
+MACSRGAASPNAHTQRRLFAASAGYCQNPSCSNELFVDAAGVSIHIAEMAHVFAATDGGP
+RTKPALSKEERGAFGNLVMLCANCHTMVDKAPSAYPDQMMLGWKREHANKLQGLFGAVKF
+GERSGARAVVEPLLAENHAIFIQYGPHIDAARNPESGAAEQWKRKMLTRILPNDRRILAI
+LDANRHLLGDYEKTTLEQFRQHIDDLEAFHIEGNREDASRFPNELPKILKD
+>tr|A0A0P0M948|A0A0P0M948_9BURK
+MSAQPTWFLLGAAALGLTFWLYGQSDVVIMLSEQLWSCF
+>tr|A0A0P0MAS9|A0A0P0MAS9_9BURK
+MNTLLNVQGLKSGYGVVEVLRGVDLQVMPGELVALLGSNGAGKTTLNLTLSGLVATRGGQ
+VGFDGQDITGLHSRQVVMQGLIQVPEGRKVFPNLSVHENLELGAFTRGRERKQQNLDKVY
+ETFPRLKERVAQLAGTLSGGEQQMLAIGRGLMAEPRLLILDEPSLGLSPLLVEEMFGLIS
+QLRSSGLAILLVEQNVGQSLDIADRAYVMENGQIRFSGTPADLLASDTLRQAYLGM
+>tr|A0A0P0LHC1|A0A0P0LHC1_9BURK
+MAESKEFLRISNLQSWYGESHILHGVDMTVNEGEVVTLLGRNGAGRTTTIKSILGLVGRR
+TGSITIKGQETVNWAPHQIAKLGIGYCPEERGIFSALTCEENLLLPPVIAPNGMSVEEIY
+EMFPNLLERRNSPGTRLSGGEQQMLAVGRILRTGARFLLLDEISEGLAPVIVQALARMIT
+ALKAKGFTIIMVEQNFRFAAPLADRFYVMEHGQMVESFTSQELSSKMGMLNEYLGV
+>tr|A0A0P0M9K0|A0A0P0M9K0_9BURK
+MPHTKATILLVEDEELLRAGVQEVLEIQGYKVITAPDGEQALACLGAQTIDLIITDLVMP
+KMDGVDFVKQLRKIKPDLPVIVVSGSTRNIMQRYGIDSIQVPGANASLPKPFKSVDLIEQ
+VRQLLASRP
+>tr|A0A0P0MB43|A0A0P0MB43_9BURK
+MIKYKASRSGFGVNTVEDDERRASQTLVWATGLTLVLALVWAALFELDEITRGQGKVIPT
+SREQVIQSLDSGVLSELFVREGSVVEKDQVLLRIDDARSGAVFREAQEKYLSLTALAARL
+KAEAYGTALVFPPELNAQPDLMQQELQAFNARKRSLTQSLQALDTSLAAVNRELVITEPM
+VRQGVMSEVELLRLKRQQSELMGQRAERQNRYLTDANNELTRVASELSQTKENASAREDA
+FLRTTIRSPMKGVVKNVQITTVGGVVQAGQPILEIVPTEDEMLVEAYVKPSEVAFLKVGQ
+AAVVKLTAYDFNKYGGLEGVLEHLSPDTLRDEKQKKPGNPVELEEGFYRIIVRVKEPTDL
+RNGLRLVPSPGMTASVEIRTGSKTVLEYIFRPLQNVTQALRER
+>tr|A0A0P0LG32|A0A0P0LG32_9BURK
+MKPMDRIQSINPARIAWCCADHGITPEALAAEVGISADRMSAVMHDGEGLTFNQLRSVAD
+FFGRGVLFFLEAEPVEAPQVHTPQFRTLASQNPELSPRLKNLIERVEKQRQIFLSLQDEL
+DSDAWTSFEAPDLPSRDVATAARRVRQWLGLGDKNDFESYRTAVEAKGILVFRTNGYNGK
+WQIAKESPIAGFALYDEQCPVIVVKKMASEATQSFTLMHELAHVLLHKTSWIDEESDLRS
+TQGREREANQFAGLVLVPDAFLKQIDDMSRPAEAAMLDEWLRPHHLKWGASTEVILRRLM
+DVGRLPLAVYMAYRELVSDRTYNNEDQGGSRAYRYREPRHMFGDRYVRTVLDSLSAQHIT
+LSKASGYLDGLKIADVHALERFCAHP
+>tr|A0A0P0M878|A0A0P0M878_9BURK
+MTRTRSLTAALLTTLALAGCQSVPLNLMGQDKTVMPTPPTSMISPLVEKRETLVATGYAV
+ISVQNHKNPAQQRLLAIRASKLDAYRSLTEQVYGQQLDASTTVADMTVMSDTFRAKVEGV
+IYGATMVSITPVGEDTYETTLSLDQHVVRDLRALYLGQMASRRR
+>tr|A0A0P0M926|A0A0P0M926_9BURK
+MGIQFKQVTKRYGSADSPLVVQGVDFVVPKGSLTTILGPSGCGKTTTLRMIAGLEAPTGG
+QILIDGVDVTHLGPSERNVSMVFQSYALFPHMNVIGNVRYGLDVSGVHKTEALERAQKSL
+ALVGLAGYEERLPSELSGGQQQRVALARALVLEPSVLLFDEPLSNLDARLRRSMRDEIRH
+LQQRLGLTVAYVTHDQSEALAVSDQIIVMEAGRIAQAGTPQDLYERPASAFVAGFMGEAV
+LFDGQSLDDGSVQVGPLRLLPRHAVAPGAARAAVRPEAWLVGRELSGGERLSGSLSAQLQ
+QWSYLGSFVELTFATELGPVFVVSPEVERDWRIGQVLALSLPGRGVSVVSV
+>tr|A0A0P0M9R7|A0A0P0M9R7_9BURK
+MSVSRNQDRRDPITPDRYAAIHQGFGWKVPKRFNMAQACCGQWAAQPATARRVAIREHVA
+GHGLGQSWTFAQLQTAANRLSRVLQAQGVVRGDRVAIVLPQRFETAVAYMAVLQMGAVAM
+PLSMLFGPEALSFRINDSQARVAVCDESTVLALQQARPDCPGLQTLIGVGEAGAQADLDY
+AKAVASEATSFKAVSTLAEDPAVLIYTSGTTGNPKGALIPHRALIGNLTGFVCSQNWFGF
+DPFDASRPSKAVFWSPADWAWTGGLMDALLPSLYFGRPIVAFNGRFSPEMAFEILQTHAV
+THTFLFPTALKAMMKAVPNVKARYRLKLQAMMSAGEAVGDAVFAYVQQQMGVTVNEMFGQ
+TEINYVVGNCARLWPAKPGSMGKGYPGHQVAVIDEAGQLCPPGTPGEVAVNRLDVHGQPD
+PVFFLGYWNNDKATQAKYTGNWCRTGDMAVADKDGYLWYQGRTDDMFKAAGYRIGPGEIE
+NCLVKHPAVQNAAVVPKPDADRGAVVKAYVVLSPDWLARRPTGPGQASFDDEVRRELQAH
+VKGLLAPYEYPKEIEFIDQLPMTTTGKVQRRVLRLQEEARATALKGPAL
+>tr|A0A0P0M6V0|A0A0P0M6V0_9BURK
+MHLTVPSPVQSLADIHRIEATPLTQAIPWASTYALIRASAQVHAEQPALTFLHTGQPGGP
+YTTWTYRSLLQGIHQTANLLHQLGVGPQDAVAVLLPGGLAYHLALWGGEAAGIVQPLNPL
+LSDEKLLSLLQASQAKVLIAHGAEDDSQLRAKALRLQTQLPSLKTVLLVNPEGGLLQDGD
+SLPAGAQDFHALRALQEAEHLVSQRVFQREDIAAYFHTGGTTGAPKLARHSHGAQVFTAW
+ANATMQGFRASDVTINGYPLFHVAGVLPGALCSLAVGMHVIIPTLSLFRSREVVQNYWRL
+ADHHGCTLMSGVPTVLAALAGVPLNGANISRIRSVRTGAAPLPPELAQRFEQTFGLQINE
+SLGMTETAGLSTVAPPGLSAPAGCVGWPLPHAQVRIAALNSEDQATGQVLPVGEKGMVLY
+RGPNLFSGYLDAAETARSFTPNGWLITGDVGFIDEQGRLHLSGRAKDLIIRGGHNIDPKV
+IEDALGAHPAVDLCAAVGAPDAYAGELPVAFATLKPGAQVSEAELLAFTAERVDEAPAKP
+KRITLLERMPVTNVGKIYKPELRTLATGAVVQGLIDQVLTPLQIPTSQWPQVHALGDAQV
+TVDARATPAAAWAAIKPLLNALPVKLVLHAP
+>tr|A0A0P0M797|A0A0P0M797_9BURK
+MNAMHTMTAPSRSNTQAASSARSPWSMALLGALLGWVLALAVWAPARWLAWGVAQASQGQ
+VQWLNPRGTVWQGSAQLLLSGGAGSRQPQALPGRLHWTLSPALTGLGLSWRADCCMAQAA
+SVQVALGWNTLHMQVSDHGSNWPAALLTGLGAPWNTLQAEGQLQLRTEALQLHWAQGRLQ
+MQGLLALNLQEMSSRLSPVKPMGSYRVALTGTPEGTPTPGLELSTLQGPLLLSGQGQWVG
+QRLRFTGEARAAEGHEAAFDNLLNILGRRQGARSLLSLG
+>tr|A0A0N7J8X6|A0A0N7J8X6_9BURK
+MSEVVYTSPTERVNTWLDGSTLFIQFNNVARHNALSVDMWEAVPVLLNQAEHDPRVRLVV
+FTGAGEKAFVSGADISQFEDMRAAREAVTRYEHMAETALMGIYNFPKPTLACIRGFCIGG
+GINVAISCDMRIAASDAVFSVPAARLGLGYRYSAMKNLVDLIGPGAAKDLFFTARKINAQ
+EAQSLGLVTRVCAPEALPELLAEYTSALAANAPLTIQAAKAITREILKPSPELDLDLCTQ
+LIRGCFDSADYAEGRKAFMEKRKPVFKGE
+>tr|A0A0P0LQQ2|A0A0P0LQQ2_9BURK
+MLSAPSETSARSPQALPVLDWTHRLTQLGTRFFTPLQPTPVAAPRWAARNDPLRTELGWP
+AELFDDDHLQAFAGNALMVGSQPLATVYSGHQFGQWAGQLGDGRAIWLGEAASAQGTQEI
+QLKGAGRTPYSRGGDGRAVLRSSIREYLCSEAMHGLGIATTRALCLVASPEPVRRETMES
+AAIVTRVAPSFLRFGHFEHFSAQGDTDSLRILADHAISHHLPECNERAVLWQGNVYAALL
+DVVQERTARLLAQWQAVGFCHGVMNTDNMSLLGLTIDYGPFQFMDGFDPGHICNHSDHQG
+RYAYGRQPNVAYWNLYCLAQALAPLIDDHDMTLQVLEGYKSQFPRFLGDAMRAKLGLSGA
+LAPESERENDWTLVEDVMQLMAAEKVDFTLFWRQLSLAVVHQSQAPSLTNTGWSAVTDLV
+LDRPRLLEWLARYTTRAGQAHFSSMGEVMLRTNPKFVLRNHLAEIAIRKAQTGDFSEIDT
+LHNLLKSPFDEHPGFEAYAALPPDWADQLEISCSS
+>tr|A0A0P0M6E4|A0A0P0M6E4_9BURK
+MRVSHIAWNLAGLSVPLLVAAVTVPALLDTLDKEKFGLLALAWGLIGYAGALDLGLGRAL
+TQMVASLRGERRLVEIPDTLATASRITFVIGLIAGTLIALFALLGGASMIRTESTPEAEI
+QFAIFLLAIALPAQAMSATYKGLNEAFMNFKGISYLRAVLGIINFAGPYAVSFFTTQLHW
+LVSSLVISRIISLVIYKHLAAHCLQREPETQQPASYSPRIAKNLFTFGGWVTVSSVISPI
+MVQSDRFFIAAMISAAAVTTYVLPYEVVVQSLVLVGAISTVMFPGLSKLMQEKPDQWRAY
+FRKWLLRVAAIMMFVCVFLALFLPIIFKLWLGENMDYESLIIGRILCIGVFLNSIGSMYY
+SAVQAKGRADLTAKIHIFELPVYSLALIMLAVHYGLKGVACAWSGRMLVDLILLYYCNRK
+IDK
+>tr|A0A0P0MAL6|A0A0P0MAL6_9BURK
+MNLLTRDVPPRSAWALEQAGVHPLLARLYAARGVLSKDELDDALNLLLPPAGMLGTQEAA
+KLLADAMAHNKRLCIVADYDCDGATACAVGVRGLRMLGANNVSYLVPDRVVDGYGLTPPI
+AERVHAQGADVLITVDNGIASVAGVQAAQALGLQVLVTDHHLPGSELPSAEVIVNPNQPG
+CSFTSKSIAGVGVMFYVLLALRAELRQRGVFDASNQPRLDALLPLVALGTVADVVKLDPN
+NRRLVAQGLRRVRAGAMPPGMAALMRAASRETAKATTFDFGFALGPRINAAGRLADMTLG
+IECLLTDDTGRADELARQLDAINRERRVIEGDMREMAMEMAESLFDEGDEPPPAICVFDP
+DFHEGVVGIVASRIKDKLHRPTFVFAASSAPGKEHELKGSGRSIAGFHLRDALDLVAKRT
+PGVLLRFGGHAMAAGCTIAEEHLDVFEETLNQVALEWLDAATLQRRLETDGPLPAEYRRV
+DLVEMLHHEVWGQGFAPPVFCEEIEIVSQRLVGEKHLSLKMKHQGQPVEGIWFGRTEPLP
+SRVKLAYRLDADEWQGQKRVRFLVEGAEL
+>tr|A0A0P0M9S4|A0A0P0M9S4_9BURK
+MPLTFSAPTPLGYFASLVQSDEHFPLLEAAASLGQDEEPTLDVQQVLDDVARLLKRVTAR
+MPDEADDLTRLAILTQVFYKDLGFGVNANDYYAPENSYIFEVLRTRRGIPISLAVIWLEL
+ARALELNAQGISFPGHFLVKVALEGGLVVLDPLTGESLGLESLSERLSPFRDPADQSAAP
+DLDDGETPLGLYLQACPPRDMLARMLRNLKEIFRSQEDWPRMLQVQDRLVILLPEVWSER
+RDRGLVHAELGHVHEALQDLRHYLEAVPTGPDTVALRNRVSELSAL
+>tr|A0A0P0MB04|A0A0P0MB04_9BURK
+MNRTAAVTRKTAETNIRVALNLDGTGQAKLASGIGFLDHMLDQIARHGLIDLDIACEGDL
+HIDGHHTVEDIGITLGQAFAQAIGDKKGIRRYGHAYVPLDEALTRVVVDFSGRPGLHMDV
+NFTSGSLGTLDTQLVYEFFQGFVNHALCTLHIDNLKGVNAHHQCETIFKAFARAVRAALE
+LDPRSVGVIPSTKGSL
+>tr|A0A0P0LU50|A0A0P0LU50_9BURK
+MLSWDDQVKPALQPAMPTFTGADPSAATAAPSSNAAASAAPRRMNAADKRIINGQTDVNQ
+LVPFKYKWAWEKYLATCANHWMPQEVNMNRDIALWKDPNGLTEDERRIVKRNLGFFVTAD
+SLAANNITLGTYRHITAPECRQFLLRQAFEEAIHTHAYQYIVESLGLDESEIFNAYNEVK
+SIRDKDEFLIPFINVIMDPNFKTGTLETDQTLLKSLIVFACLMEGLFFYVGFTQILALGR
+QNKMTGAAEQYQYILRDESMHCNFGIDLINTVKYENPQLWTNEFKAEIKDLFLKAVELEY
+QYAEDTMPRGVLGMNASMFKGYLRYIANRRATQIGLEALFPNEENPFPWMSEMIDLKKER
+NFFETRVIEYQTGGALSWD
+>tr|A0A0N7J966|A0A0N7J966_9BURK
+MFTPSKGLKLAGAAGAIAVLVACGGGGDAAGPISSAQTLSLPASYVLKWSDEFSQSGPLG
+PAWDYDLGATLLGGTVWGNSEKQFYTNDAANVFSRDGLLTIQAVTRDPSIAPTGLGLLAT
+SARIKTDTTAYYSALNGTPYGFYEIRAKVPCVRGAWPAIWMMGKTGNWPDRGEVDIMEWF
+GAYFADQPNQVQSAVHTKNNSGSTALYGKQNVSSMCSDFQRFQLHWTANEIVMGVNGTPT
+FSYKKPLNASVADWPFDQPAFLLLNVAVGGNLGGTVNVNDLPSMKLQVDYVKVWQAP
+>tr|A0A0P0M7V4|A0A0P0M7V4_9BURK
+MVYRIGEGFSPSLTDVQAALEPVQFVECGASQDKSIGWVPPRGEAHGPLVESVAGQWILK
+LMIESKAVPGIVVRRKVDERIAEIEAATGRKPGKKEKRELMDDVLLSLLPQAFARQSTVL
+VWMDLENRRLVLNAGSQGKADEVMSALMNVMGGLSVSLIQTVTSPQAAMTQWLLAPTPDE
+WPSDLTVERETVLKSSGEDAASVRFTRHHLANDDVRKHVMEGKLPTQLALSWDGRVAFVL
+TDTLQLKKVQYLDGVMDESGTDKKEDRFDADVALSTGLLGPLIDSLIEALGGEMELGAAA
+ADPVPSTTRTVLSSTVNTGAGAADEEDPPF
+>tr|A0A0P0MBS8|A0A0P0MBS8_9BURK
+MKITLRLALSALALACTAAHAQNFPTRPITLVVPFAAGGPTDVVARMMAIPMGKSLGQSV
+VVENVNGAGGTVGATKVARSAPNGYTIFLHHMGMATSPALYKKLSFDPLADFEYIGQVLD
+VPMTLIARKDIPANNLQELIAYIKANEKKVSLADAGLGAVSNLCGLMFKSAIGVNINTIP
+YKGTGPAMNDLLGGQVDVLCDQTTQTVPMIKDGRVKVFGVTTLKRLAALPNVPTLDEQGL
+KGFEVKVWHGMYAPKGTPAPVLTQINTAMRAAMAEPSIVQRLGELSSEIPTADKMTPKGL
+EDHLKAEINKWGPVIRKAGVSAD
+>tr|A0A0P0M7X7|A0A0P0M7X7_9BURK
+MTLISPAPQQRTRIKMCGFTREADVLAACAMGADAIGFVLYPPSPRSVSIERAAELARLL
+PAFVTPVLLFVNETPERIEAACTAVPGALLQFHGDESADFCEDMSRRTGRPHLKAARIPL
+SEVHDFDLLEFAHLHHAAQALLLDAHVDGYGGGGKTFHWSLLPPNVNAHLVLSGGLTPAN
+VGDGIRALRTHGLSLAVDVSSGIEAGKGLKDADKMRQFVQAVRTADNPSPL
+>tr|A0A0P0M9C4|A0A0P0M9C4_9BURK
+MKSITRQEWYGAFVAVLVLGVVLSLASPYFLTTGNLSNILVQASVIALLAGGQTFVILTG
+GVDLAVGALTALAGAVAGYMMVKLGVNPYLAMAVALAIGAAVGVFNGYLVAFVGIPAFIV
+TLGGLTLWRGLAFDLTGGFDNAGLPAPFPFIGYGDVLGIPMPTLITGVFFVVMAFVLSST
+KIGRYVYAMGSNEMGARQVGINIRWYKLGVYVISGLACAMAAIVLMARMDSSSGKMAQMF
+ELDAIAAVILGGTSLFGGRGSIWGSLLGAVLITMIRNGMNLMEVSQFKQMMAIGAVVIVA
+VWIDVVRRKHLLKK
+>tr|A0A0N7J8H5|A0A0N7J8H5_9BURK
+MSAKGFFNAFADVWMHEGVRTPMVDYCGALGHISPTDLGIKAAREALKRAGIAATEIGSV
+ITGNMAPGDFDQFVLPRHIGLYAGVPQEVPAIMVQRICGTGFELFRQAGEQIEAGVCEAA
+LVVGTESMTRNPIAAFDHRTGFKLGAPVGFKDFMWEALKDPAAGINMIQTAENLAKKYSI
+TREEVDQFACDSFAKAVAAQAAGFHAGEIVPVVTEKFELEGYIARGIKLQGKVTEVNADT
+HPRISPADVLGKLRPVYEGGVQTGGNSSALVDAAAACVVTSGTYAKANGKKPLARVVAAA
+AVGVPPEIMGIGPAPAIRLLLERTGLKLSDIGRFEINEAQGAQTLAVGRELGLDLSKLNV
+NGGAIALGHPLAATGVRLTITLARELQRSGLRYGISSACVGGGQGIALLIENPEAV
+>tr|A0A0N7J8N2|A0A0N7J8N2_9BURK
+MGNRLVPIVLFALLAIVQAQLWFGPGSLPHVSELRQELAQQKQANEDARRRMEQLSAEVN
+DLKEGLNMVEERARHELGMVKSNEIFVQIAK
+>tr|A0A0P0LK56|A0A0P0LK56_9BURK
+MTAIHYTIEAADLHAHLFRVTITVAQPAAQQTVSLPVWIPGSYLVREFSKNLQNLSAKQG
+RRSLPTQQQDKCSWTIACKSDQPLVLSYEVYAFDNSVRTAWLDSQRGFFNGTSLCLRVHG
+QEQAPHQLQLPPVKSQPTWQAATGLTPIKTNKKGFGLYQAAHYDELVDCPVELGPFWSGS
+FNACGVPHRFVVAGALPSFDGERLLADTQKICEAAIHFWHGPGKAAGKKAPHKNYLFMLN
+AVHDGYGGLEHRNSTALICKRDDLPRHNSLSASPRKSEGYTTLLGLISHEYFHTWNVKQL
+RPDAFARYDYSQENYTQLLWFFEGFTSYYDDILLRRAGLIDDATYIELVGKTIAQVQQTP
+GRHVQSVAQASFDAWVKYYRQDENTANATVSYYTKGSLVALCLDLTLRREFKTEGHTLDT
+VMRGLWKRCKAGPMREQDLLDELRAVTGRSWAGEIQRWAHSTQELPLRELLTAHGITVEA
+ETSAMAQRLGLRVSEAVGSVQVKVVLRGSAAEAAGLAAGDEWLGLDVGAKGRGGSWRLGK
+LDELPALLGKERQLTALVSRDKRLLRLPLTVPAQASHWLLRVPKERAAHQWPAA
+>tr|A0A0P0LMB4|A0A0P0LMB4_9BURK
+MTKKIGDVILDVNNISLRFGGVKALTDISFNVREHEVRAIIGPNGAGKSSMLNCINGVYT
+PQEGSITFRGQKFDHMNSRQVAEMGIARTFQNLALFKGMSVIDNIMTGRNLHIKSNLFMQ
+ALRIGPAQREEETHREFVEHIIDFLEIQAFRKTPVGQLPYGLQKRVDLGRALAMEPKVLL
+LDEPMAGMNMEEKQDMCRFILDVNDEFGTTIVLIEHDMGVVMDISDRVVVLDYGKKIGDG
+TPEEVRSNEDVISAYLGTSH
+>tr|A0A0P0M766|A0A0P0M766_9BURK
+MTDLTLNCRRLFLRNHTVDVRIGAHDFEKLGPQRIIFNVELFVPYSASTPTQDDLAEVVD
+YDFIREVIARRVAQGHIVLQETLCDDLMRALIAHPQVQAVRLSSCKPDVYPDCEAVGVEI
+FQTKSPT
+>tr|A0A0P0M824|A0A0P0M824_9BURK
+MRLLHTMLRVGNLQRSIDFYTQVLGMTLQRTSENPEYKYSLAFVGYGTNPEHAEIELTYN
+WGVESYDMGTAYGHIALGVPDVYAACDKIKAAGGNVTREAGPVKGGSTVIAFVTDPDGYK
+IELIQRPQYANL
+>tr|A0A0P0M9W1|A0A0P0M9W1_9BURK
+MLLDLMPDNVSQGEFDFGAPETRDRGRLMAAMDAINDRFGRGAIHVGSAVGVGAHRDWSM
+RQERLTPQYTTKFSDMPVARA
+>tr|A0A0P0MAE5|A0A0P0MAE5_9BURK
+MMCDFIIAADNAKFGQPEIKIGIIPGAGGTQRLPRAMGKSKAMDLVLTGRMMDAAEAERG
+GLVSRVVPLDKLMEETLGAALMICGYGQLATMAAKESVNRAFESGLSDGVMFERRLFHGL
+FATADQKEGMDAFLNKRAPKFING
+>tr|A0A0P0LH67|A0A0P0LH67_9BURK
+MIRFLPELLTADTVRQARNLLLALPESDWADGRESAGKQARTVKDNLQLPHQHPVAAQIR
+QWVLGGLDQSSTFFSAALPLKVFTPRINRYTPEFPHYGWHIDNAIRLRADGERVRCDLSC
+TVFLNDPDDYEGGELSAQDQSTVHRVKLPAGHAVLYPGNTLHEVTPVTRGQRLACFFWVE
+SMVRSDEQRRILFDLDMNLLKLREQHGETPETTALTGVYHQLLRQWANT
+>tr|A0A0P0MA49|A0A0P0MA49_9BURK
+MLLNIAATDRTPEIILSSQPAKLSIKGESYPEDVSAFYGQVIQAVNSLVESPAGELTVEI
+QLIYINSSSIKAIFRIFEGFDEYRKKGQNVSIQWLADEDDDIMQELGEDFIDRFPNLTIK
+TLST
+>tr|A0A0P0MA84|A0A0P0MA84_9BURK
+MTDRNQTLFDRAAQVIPGGVNSPVRAFRAVGGTPRFVQRAQGAYFWDANGQKYIDYIGSW
+GPMILGHGHPAVLEAVQKAALDGFSFGAPTEREIELAEEILKHVPSMEMVRLVSSGTEAG
+MSALRLARGATGRSKFIKFEGCYHGHADALLVKAGSGLATFGNPTSAGVPPEVVRDTLVL
+EYNNIQQLEEAFALHGKELACVMIEPIAGNMNFVRASVPFMTRCRELCTQHGALLVFDEV
+MSGFRVALGSAQSVYAKAIPGFKPDMTVLGKVIGGGMPLAAFGGPREIMSKLAPTGPVYQ
+AGTLSGNPVATACGLTTLREIAKPGFFDALGARTQSLVDGLTGAAAAAGVPFVGDCQGGM
+FGFFLLPELPQNYAKVMTSDSPKFNKLFHGLLDGGVYIAPALYEAGFVSAAHTDADIAET
+VRVAADVFKSL
+>tr|A0A0P0LFG7|A0A0P0LFG7_9BURK
+MEITLIRTEKDHRAALRVVSSLVDQDPSSDSPEGVRLDVLSSLIEAYEQKHHAIDSPDKG
+GVDVKSLKDVKAQLLANPAVRQAYDAQAPEFELARELIGKPIQE
+>tr|A0A0P0M6L7|A0A0P0M6L7_9BURK
+MLEILRVTFPFFALVLCGYVAARLRLLPLEAIPGLNGFVLFFALPCMLFRFGADTPIAQL
+LDAGVFFTYLFCALVIVAFSIAISLNASIRWNDASLGALVAAFPNTGFMGVPLLVALLGA
+QAVGPAIVTIVVDLVITSSLCVALSRMDAAGQHGAAVAARKALAGVLRNPMPWAISLGAA
+FSFWSLELIGPVNKTVSLLADAASPVALFTIGAVLARSQMLAHERPDGPLRSADYLPIAL
+IKLVLHPVLVLLVGLTAIQWGVPIEPFALQVMVLVAALPSASNVSLLAERLGADNGRIAR
+IILVTTAAAFLTFSGAVAFFKM
+>tr|A0A0P0M9D7|A0A0P0M9D7_9BURK
+MDTKLLELLVCPVTKGPLDFDRETQELLSRSARLAYPVRKGIPILLENEARTLSDEEIDK
+LAALRPPL
+>tr|A0A0N7J8K4|A0A0N7J8K4_9BURK
+MSQALLKVQDLQVHFDTDDGVLHAVDGVSFHIDRSETLGVVGESGCGKSVTAMTIMKLLA
+MPPGRIAHGQIWFEGQDLVQADSAAMQKIRAREIAMVFQEPMTSLNPVLTVGEQIAESLR
+LHEGLSAKQAKARAIEMLGLVNIPKPDQRVHDYPHQFSGGMRQRVMIAMALSCKPKLLIA
+DEPTTALDVTIQAQILDLMDRLKSQMGMSILLITHAMGVVAETCQRVVVMYAGRVVEEAS
+VEDLFGAPAHPYTQGLIRSIPRLDLDSAHKQRLHAIPGSVPKLILPPPGCRFAPRCPLAN
+ARCASEMPELRELTPGHRVACHFAT
+>tr|A0A0N7J8R8|A0A0N7J8R8_9BURK
+MTPLTTFTTRLLGPTLLALGLVGCASAPEPLAHSPQFAPVMPVVVDKPRQATGAIYNGRH
+SDNFFGRSRNYRVGDLITVVLDESTRAGREQKGSVSRDAENNVVPSGLVSKVQNLALPTK
+VLGTTLGGVLNGINLNESSIKSSGVGTAGQSASLTGAVSVTVVEVLANGNLMVRGEKQLA
+LTEGAEVIQVSGIIRPDDVSPNNMVQSRRLANAQIAYRGTGDMAAVAKTGWGTKALLKLW
+PF
+>tr|A0A0P0LJI5|A0A0P0LJI5_9BURK
+MEDIVIVAAARTAVGKFGGSLAKTPATELGSIVIKGLLERSGLPVDAIGEVIMGQVLAAG
+VGQNPARQAMMKAGVAKETPALTINAVCGSGLKAVMLAAQAVAWGDSEIVIAGGQENMSA
+SPHVLNGSRDGQRMGDWKMTDTMIVDGLWDVYNQYHMGITAENVAKAHGITREMQDALAA
+GSQRKAAAAQEAGKFKDEIVDVLIPQRKGDALVFNSDEFINKKTSEEVLAGLRPAFDKAG
+SVTAGNASGINDGAAAVMVMTAKKAAALGLKPLARIAAFGTSGLDPATMGMGPVPASQKA
+LARAGWKAQDVDLFELNEAFAAQACAVNQALDIDPAKVNVNGGAIAIGHPIGASGCRILV
+TLLHEMQRTQAKKGLAALCIGGGMGVSLAIERV
+>tr|A0A0P0MBQ5|A0A0P0MBQ5_9BURK
+MANTYTISDLAQEFDLTTRAIRFYEDMGLLEPERSGPGGRNRVYSARDRTRLKLTLRAKR
+LGLSLNEAKDLIDMYDSPRDTVPQLKKFLVVLAEHRQQLESQLADLEATLDEVKTHEKET
+RSLLTKANKVGAGA
+>tr|A0A0N7J8P6|A0A0N7J8P6_9BURK
+MNSSNKPSIFEHPIRIYWEDTDAGGIVFYANYLKFFERARTEWLRALGFGQQVLRDESGG
+MFVVSETAVKYHSPARLDDTLIVTAELQHGGKASLTIAQRAYLRAEGQTDRLLAEGTIRL
+GWVDSHTLKPGRIPAPVLEALK
+>tr|A0A0P0LVJ4|A0A0P0LVJ4_9BURK
+MTDTPKLTSSDKRDLIIQAGMQLVPYVGGSLTSLYFGAKQEKRFKRLESFYQEIASEIEK
+MKGSISSVDKQDPIALEAIIESLHEKIEVEPTLEKREFFKNYFKNTLKFPVAGNFDERKY
+FLDALYEMTLLECELLAFIDSQPNSIQVGNIQKPGTNKYAVVGAIGRLKSRGFLTATQGS
+FAVGGGADNSLQEIVSVSSFGKSFITFCLHA
+>tr|A0A0P0M727|A0A0P0M727_9BURK
+MTDLSKRSIVKMVALTAVAAAALVGCGKKEEAPKAEAPAAAKPEPLKIAFAYVGPVGDGG
+WTFAHDNGRKEIEKAFGDKVVTTFVEKVPESADAERVIRDMAAQGNKLIFGTTFGYMEPM
+LKVAADNKGVKFEHATGYKTAENMRTYDSRTYEGAYMAGVIAGKMTKTNTLGVVASIPIP
+EVVRNINSFTMGAQSVNPKIKTKVVWVNEWFNPPKETEAATSLINGGADVLMQNTDSSAV
+LQTAEKMGKRAFGWDSDMTAYGPKAHLGSAVINWGPYYVKAVGEALEGKWTTGQSWWGVK
+EGAIDMVNVAADVPEDTKKKIDEIKSGLKAGTFSIWKGPIVDQAGKEVLAKDAVADDKFL
+GGVMFYVKGVEGKIPGK
+>tr|A0A0P0M9I4|A0A0P0M9I4_9BURK
+MNLIQTLEQEEIARLGKVIPEFAPGDTVIVSVNVVEGARKRVQAYEGVVIAKRNRGLNSG
+FTVRKVSSGEGVERTFQTYSPVIASIEVKRRGDVRRAKLYYLRDRSGKSARIKEKLPQRK
+AAPAAKA
+>tr|A0A0P0MAI8|A0A0P0MAI8_9BURK
+MVLAGAAIGVAITFSLGLWQLGRASEKTALQDARTQQAAKEALDGKTLRRGSEDVAQRSE
+LMHRRVVVTGRWLPQFTVYLDNRQMNAKPGFFVLTPIQIEETGEVLVVQRGWAQRSFTDR
+TALPPVETSPDVVEVQGHLAPWPSRLYDFGGAETGSIRQNLDLTTYRQETGLKVLEVTLL
+QSGGPSEGLLREWPVVASGVEKHHGYAFQWFGLSGLIALLYVWFQIVQPRRQKRPA
+>tr|A0A0P0M7F1|A0A0P0M7F1_9BURK
+MSDNATSAPLLEVKHLGRRFALPRAGLFQPAGALQALSDVSFTLQSGKSLGIVGESGSGK
+STLARLVMALDTPTEGQVVFQGVDVHKTHGQALRQLRSGFQMVFQDPYGSLDPRQKVLAI
+VTKPIRTLQHASGGRSEWHERAAQAMSEVGLRTVDLDKYPHEFSGGQRQRIAIARALITR
+PTLIVADEPVSALDVSVQAQVLNLMMDLQDRYGLSYLFVSHDLAVVNLMCDDVLVLQSGR
+VVENGPAQQIFQHAEHPYTRKLLAAIPGQPTSFFQQESP
+>tr|A0A0P0MAW7|A0A0P0MAW7_9BURK
+MKNNKTLQYVLIGLGLLILPLILQTFGNAWVRIADMALLYILLAIGLNIVVGYAGLLDLG
+YVAFFAVGAYMYGLLSSPHLTQTFAWIAAAYPTGMHMPIWLILPVAAALAGIFGMLLGAP
+TLKLRGDYLAIVTLGFGEIIRVFMNNLDHPVNITNGPKGLSQIDPISIFGVNMGQKLMIG
+DVEIASVSLYYYLFLSLVLVTILISHRLEVSRIGRAWMAIREDEIAAKAMGLNTRNLKLL
+AFGMGATFGGVSGAMFAGFQGFISPESFSLMESVMIVAMVVLGGLGYLPGVILGAILLSA
+LPEVLRYVAGPLQEMTGGRLDAAILRQLLVALAMIVIMLMRPRGLWPSPEHGKSLTTK
+>tr|A0A0P0MBP3|A0A0P0MBP3_9BURK
+MKVHMFTVRIWDLPTRLFHWALALCVMGLVITGNVGGNAMVWHFRLGYVVLTLVLFRLAW
+GFAGGHWSRWSSLPLHPRHVLAYLRSRATDRTQAGHNPLGSWSILAMLFFLAFQVSTGLI
+SDDEIANAGPLTALVSSSWVSWASAWHKNWGKLIIILLVLLHLVALLWHRFKKHPPLLPA
+MLHGDKSLPEPVPASHDQLRHRLVALLVLGFAALVVYGLLSMGG
+>tr|A0A0N7J8Q8|A0A0N7J8Q8_9BURK
+MGIALLALSGLFKNLPSFTTRTPSQALPKRHAVRVHPEWAVRSVPCATPSHSQALPTKRQ
+PSLRVVHVHESGQSAAGSGRMVISGRMADVCAELDRLVAMEARCRPH
+>tr|A0A0P0MA14|A0A0P0MA14_9BURK
+MADTHALATLVQALKGLPGVGIKSAQRMAFQLLQNDRATARQLAAALDNAVQKIRHCACC
+HTFTEAELCDTCLDASRDRTQLCVIETPADQSAIERTGTYRGLYFVLMGKLSPLDGIGPH
+DIGLAKLKQRVGDGVLTEVILATNFTAEGEATAHVISEMIRQQGLRVTRLARGVPAGSEL
+EYVDLGTIAHALVDRR
+>tr|A0A0P0MC78|A0A0P0MC78_9BURK
+MPQAKTLTPVEIEKVLLYIASKPNAQRNRLMFLLTVWAGFRVSEVAGLRISDVRNVDGSV
+RAEVYLSAERVKHGHEGVVYLNERLQAELVKFIESRNWHAADQALFCTQANPRKGFSANT
+MTQHFHYLYKRTGIAGGSSHSGRRTFITTLANKGVSVRLLASLVRHANIATTQRYIDVND
+DMKGGFKYELQHGLTRRETPRGVS
+>tr|A0A0P0LEZ5|A0A0P0LEZ5_9BURK
+MKMIKTLGLLLGAALAVQAPVQAQNFPNKPINLMVPYPAGGLSDIIARKINVPLATELKQ
+PVIIENLGGAGGAIAAQKVLNAPADGYYLFQGSPNELILAPLAMKAVKHTPDDFRLIQRM
+AMAPMAIVASKNFPGNTPQEMVAEIIKRSKSGKPVNYASVGIGSFYHLLGEEMAKKLGAE
+MLHVPYKGGGPITQDLMGGQIDLFITPYGAPHVHMAKEGKIKFIAALSPQPQRLIPDVPS
+IDAAKELKGFHYTIGSGYYVKKGTPEPIVEALHRALTKVMFDADFRNTMTAMGQEVGEPL
+RLDQTQQVYADEVKLYQGIAKSIKLEAQ
+>tr|A0A0P0M714|A0A0P0M714_9BURK
+MHPVVLLIRFLAPWPLGALRALGWVLGHVLWALARSRRRIVQVNLALCFPHLTPRERGHL
+ARRHFVGVVQSLLDRSWLWHGSPAQLRRRLQLQGDLSPLLGPEPVVMLAPHFVGLDAGGS
+ALTQLHGVHMASIYVRQRNAALDEWVRQGRNRSGQVSLYFRHQGVKQILSGLRQGVKLYL
+LPDMDFGRKESVFVPFYGVQAATVPSLSRFARLGRARVMTVATRMTAQGYRLELGPLWAD
+FPSEDAEADTARMNRELQTLIDTMPEQYYWVHKRFKTRPEGEPGVY
+>tr|A0A0N7J948|A0A0N7J948_9BURK
+MVTGQVSGADTQVLAQEFVQFAVDSGVLRFGQFKTKAGRMSPYFFNAGLFDDGAKLGRLA
+QFYAQALLASGIEFDMIFGPAYKGIPLGAAVAIELARLGKNVPFAYNRKEAKDHGEGGSL
+VGAPLKGRVLIVDDVMSAGTAARESIALIQAAGATPHAIAIALDRQEMATEKQDDGSVKD
+VPHSAVQYVRHTLGMQVCTIAQLSDLLAFLARQSQPELLAHLAHVQAYRDRYGV
+>tr|A0A0N7J997|A0A0N7J997_9BURK
+MLLAIVIAKSLIELSLMFIVGRFLLGLLAGSNRDNNVFWQLLDVASKPALWLTRKISPKL
+ILDQHIPLATSSWLLIAWVVVVQLKIELCLEMGIAACQ
+>tr|A0A0P0MBU0|A0A0P0MBU0_9BURK
+MSAVLTAQEPSAKYLANLQPPLVQHFDLIAQAPGGVTRLRELILTLAVQGKLVPQEPSDE
+PASELLKKIRAEKDRLIAEGKIKRDKPLAEIGDEEKPFQIPDSWRWVRLADVVNVLNGRA
+YGKQGLLSEGTPVLRVGNLFTSNHWYYSNLHLEPEKYCETGDLLYAWSASFGPFIWSGPK
+VIYHYHIWKLAPHAKAHFDVGYFHTYLQEKTAEIKAAGHGVSMVHMTKEKMEKIVVPYPP
+LAEQSRIVTRVEELMQLCDALEASGQLEAKQHAQLVSTLLGTLTQSETPEALADNWQRIA
+THFDLLLDRPEAVDALEQTILQLAVRGLLVPQDPTDEPASVLLQKIRTEKDHLIALGKIK
+RDKPLSPITDEEKPFGLPQGWEWVRMGEVLDGGSGTTPLRARVDYFTDGTEMWVKTTDLN
+NGLVTTCEELVTKSAVAENRLKYFPVGTVCVAMYGGAGTIGKSGVLGVPSTINQSVFALP
+PTDGIDIDYLHSFVITVRSQWMSFAAGLRKDPNINGQIIKKMVMPLPPLTEQSRIVARVN
+ELRSLCADLRRQVINVRAVMENLSKSLVAEV
+>tr|A0A0P0M6R5|A0A0P0M6R5_9BURK
+MPNALHTSALTSLPLLARGKVRDNYAVGDDRILMVASDRISAFDVIMGEPIPGKGVLLTQ
+MALFWFDKLGPKGLNICPIHLTGEAPESVVSDEEVPQVQGRSMLVKRLKPIPVEAVVRGY
+LAGSGWKEYQDNQAVCGVKLPAGLKNASRLPEPIYTPAAKAAVGEHDENITFERTVEMIG
+ADLATRIRDISIQLYKAARDIAATKGIIIADTKFEFGLDADGTLVLMDEVLTPDSSRYWP
+TDSYEQSYVEGSNPPSYDKQFLRDWLETATVNGKPWDKTPPAPRLPREVIENTAAKYEEA
+MNKLMA
+>tr|A0A0N7J8V7|A0A0N7J8V7_9BURK
+MIKFLVDTNILGYFARNSSAALQTRMLAALKKQEIAISAITRAETRFGQALLQPEDKRRR
+TIDLLLNELPVLPWTLEAADRYGEIAAHLQQTGQPIGDMDTQIAAHALALGLPLVTHNTR
+HFKRVPGLKIEDWMT
+>tr|A0A0P0M9Q5|A0A0P0M9Q5_9BURK
+MAKGEQRSNKMAKKPKKDTSPPKTFTSDRPMAPSTFVAPRGKVKDK
+>tr|A0A0P0M6U6|A0A0P0M6U6_9BURK
+MLNTPFSHWPSFTPEEADAVHRVVMSNKVNYWTGTETREFEKEFAAWCGTAHAVALANGT
+LALDVALKALGVGLGDEVVVTPRTFIASISCVVNAGAVPVFADVEADSGNVSARTIAAVL
+SPRTKAVVCVHLAGWPCDMDPIMALAAEHGLKVIEDCAQAHGARYKGRPVGSIGHVGAWS
+FCQDKIMTTGGEGGMVTTNDEALWRAMWSFKDHGKSYEAVYERQHAPGFRWLHESFGTNW
+RMLEMQAVLGRIQLRRMKDWSAARARNAQAIWAACAGFAALRVPQVRCASCSGGCAAAGV
+ACEHAHYKCYAYVQPERLAPGWTRDRIIEAINAEGVPCYQGSCSEVYLEKAFDGTGWRPA
+QPLPVARALGETSIMFLVHPTLTQAEVDKTCEVLRRVMGQANA
+>tr|A0A0P0M6Y9|A0A0P0M6Y9_9BURK
+MIVRHTFTPHNNTRLSHLCGPMDAHLRTIEAGLQVSIAHRHEQFKVDGPKAVALRAMEIL
+QAIYERADRPIAPDMVQLMLVGDSGGEEADLPALQTRRADLKARTPVQAAYLESIATHDI
+TFGIGPAGTGKTYLAVACAVDALERASVQRIVLTRPAVEAGERLGFLPGDLSQKVDPYLR
+PLYDALYDLMGYDKVQKAFERNAIEIAPLAFMRGRTLNNAFVILDEAQNTSTEQMKMFLT
+RIGFGAKAVVTGDVSQIDLPKGQLSGLIDAERVLKRIKGIAFTRFSSADVVRHPLVARIV
+DAYDAQGSAAMRAGITTRRKPLPTDD
+>tr|A0A0P0MBB0|A0A0P0MBB0_9BURK
+MNPVAPFPANRPRRLRRDEFTRNLVREHRVTAHDLIYPVFVLDGQNQRQAVGSMPGVERL
+SLDLLLPVAEDCVKLGIPVMALFPVIDASLKDPTGSEAMNPNGLVPRVVRELKKRFPELG
+VMTDVALDPFTSHGQDGLLDETGYILNDETTAVLVQQALTQAEAGVDMVAPSDMMDGRIG
+AIRQALEARGLVHTRIMAYSAKYASAFYGPFRDAVGSAGNLGKSNKKVYQMDPGNTDEAL
+REVAMDLAEGADMVMVKPGMPYLDIVRRVKDEFKVPTFAYQVSGEYAMLKAAAQNGWLDH
+DLVMMESLLAFKRAGADGVLTYFARDAARWIAAH
+>tr|A0A0P0LFK8|A0A0P0LFK8_9BURK
+MKVTDMKQLLTRRLLIATVASALMLSACGGTSNAAPEAAFTLQLLHISDADGSDSTALNS
+VANLSGLINKFRAQYPQQTLTVSSGDNYIPGPRFNAANDTSLSAALGVAEVGRADIAFLN
+AMGVQASAIGNHELDLGTKQFADMIKPSGAWSGARFPYLAYNVDFAADSEVAALKLANGG
+KAQEQSGKLTGWTVVDVGGQKIGVIGASSPVFANITSPGKLQFTPVLTSSEVDVAGLAAT
+IQKGVDEMTAAGINKVVLLAHMQTLAIEKALAQRLKNVDIIVAGGSNTLLSDANDVLRTG
+DKSAGDYPYETKDAAGQPTVVVNVDADYKYLGRFMAPFDDKGVLIPQRFDSKLSGAWMTS
+ESDDSAGGVTVSGLVTQVRDAIKAVLKSKDGNVFGKTSEFLEGRRAAVRNEETNFGNLTA
+DANLWYARLLDPTVQISLKNGGGIRSEIGEVLAMPGATAAAVLTAPKANAEANRQSGEIS
+QLAVETALKFNNKLWTFDVTAAQLKSLLEHGVAVLGSQGRFPQVGGMSFSYDPSRTAQAL
+DANFAVTTAGERIRSLKVGSDVVVQNGVLVGNAQRTFRLVTLNFLAEGTSTAAGGGDGYP
+FPATADFVNLTKLDAAMTATTGGGVASTSTALLGSEQDAFMKFMKSQFGSSAFGVKDTPA
+AQDLRIQNLSQRSDTVLN
+>tr|A0A0P0M9I1|A0A0P0M9I1_9BURK
+MAQYLHIRVEDVDLLLPALQVHEVIGLTPEDRQTEGHAMWRDHVIAARDLGQVLHRCSAP
+VSREFGVVYSPDDSDALPVLMAIDSVLGLRNPRREQLHRLPGMKTSAHDMFDAIWIDTQL
+GLKAYCVKTQLPDDWLS
+>tr|A0A0P0MA56|A0A0P0MA56_9BURK
+MSSAPENTVPANHQSFLAFDYGLKRTGVAVGNRLMKSATPQGTIAAEGDARFEHIAKRIK
+EWQPDALVIGVPTHPDGGEHVNTVRARKFGRQLRGRFGLAVYEVDERYSTTEAHSYGAKD
+ADAAAAAIILDQFLRSLP
+>tr|A0A0N7J8E3|A0A0N7J8E3_9BURK
+MQHINLSYSWTPHQAQTEQRDQTSPLRNPLMDMLQAVRATGSIAGAARVLQLSYRHVWGE
+LKRWEQVLAQPLILWEKGQAGRLTEFADKLLWAERQAQARLAPQISTLQAELEKTFAVAF
+DPDSHLLTVYASHDDALVKLREHSASQSLHLDMRFCGSVDAIRALNEGRCTVAGFHAPLQ
+PDASTLTARTYKPLLKTGQHKLIGFATREQGWMVAPGNPLNITGWNDLRRPELRLVNRTL
+GTGTRLLLDQWLENQTPSANRPTGYEHEEPSHSAVATRIASGHADLGLGIASAAHAQKLD
+FVPLTQEHYWLVCLKSALNNPAVIALRQVLQSADWQHLLSQQTGYRLHEEAGQIQSLKQC
+LPWWPHR
+>tr|A0A0P0LUI0|A0A0P0LUI0_9BURK
+MRLFSYRDRPVHLGPYPMERLRRTHAKPDDSALPTMQTLRFEHEDPESLAHAMARYMAMF
+DLVRDGAVNPQMGEIPAEPDERARHLKAAGYYFDASMMGICALPASAWLAEPIRNPAVPA
+LGEELAQSQPASFAAGMDMILADVLESARTVHGPIAHHSHAIVILVEFARDPQPGEPGCD
+WLAGTQEPRAAVLAAQTAVLLSSYLRMLGYEARAHSASCSDVDLARLALAAGLTLPDGGN
+PYVGQRYALAAVSTTLALAPDQALDPQQNRWQSHGPAWWLGQGTFKGAFHRDAYARREFR
+QGAHPFETLKRQDTPTTFIDHDRVPRFPKRADFFARALFGDLGKSVQDDAKNAHYVMKSP
+IGACARRALGALLLLQFGPARGPVAASTLDPQRNADKLKAASYYLGVDAVGLCAVPEWAY
+YSHDAGGNPMPAYHANALNLLIDQGHETMEGASGDDWISVAQSMRAYLRFSLMGGILAEQ
+IRRLGYSARVHSVLDGDVLQPPLLLLSGLGEVSRIGEVILNPFLGPRLKSGSVTTDMPMA
+PDRPIDFGLQSFCESCNKCARECPSGAITAGPKLMYNGYEIWKSDAEKCARYRITNAAGG
+MCGRCMKTCPWNLEGLLADSLWRQVAMKLPAAAPALARLDDLLDRGSINPVKKWWWDIEL
+DKRTGRYVQAAQTHQRTLQKDLDLRYEDQTLAVYPADKMPPPYPVTYPVNREEGIARYQA
+LLTPAQYQARLAAGQTEGLAPGPQPLPAEPPVFPVVLHKREEMAEGLARYEFKAPDGREL
+PPFTAGGHIDVVIAPEYQRPYSLAGDPADRSRYVLGVLREPPESGGRGGSALMHRAFREG
+RRVFVSRPVNHFALHEDATHSWLMAGGIGVTPMIAMAHRLYALGKPFDFHYSAASRKTAG
+FLKDLAQAPWGHQVQYHFKDEGQRADLMQLLPNYAPGQHVYTCGAPRFMDGVFEAATVHG
+WPEDALHREYFSVPEADAWVNQPFELLLQKSGRRLQVPAERSATEVLAEAGVGVSVKCSD
+GLCGVCALPYDAQASDAVEHRDFVLSQKERQQKIILCCSRAQHAGGVITLNL
+>tr|A0A0P0M6Y2|A0A0P0M6Y2_9BURK
+MLLSNWVRRSNRQATQLLLAASCCAAALTPAWAQTPTDPAKARVQTMAQSQTPALLDTLK
+TLVSIESGSRDLEGLEKISQLIGQRLQQMGMEVKTIPTKAPDFHPQLKGAKLGSVVMGTK
+KGKGQKKVLMIAHMDTVYLKGMVEKQPFRIDGNRAYGLAIADDKGGVALILHTVKMLQDL
+GFDDYAELAVAINGDEEVGSAGSSALLVQLGEEYDAVMSFEGGGVDKDMVRLATSSIAIV
+EMKVTGKASHAGANPEGGRNAVYELAHQMLKTRNFGDPAKGLKINWTVARGGDVRNVIPA
+SASAIADVRSLSNKDLDLMEASLKEAIKDKLIPDTQIDLSFYRSRPAFEATQASRVMAQH
+ALGIFQEIGQNLVVQERATGGGTDAAFAGLRPKGGVLESFGLRGFGAHSNDNEYIFIDSI
+APRLYLSTRMVMDVGSGKVKW
+>tr|A0A0P0M6Q5|A0A0P0M6Q5_9BURK
+MTILVTGGAGFIGANFVLDWLAASDEPVVNLDKLTYAGNPETLAILQGDARHQLVQGDIG
+DSALVSRLLAEHRPRAVVNFAAESHVDRSIHGPGEFIQTNIVGTFNLLEAVRGFWGDLPA
+TEKSAFRFLHVSTDEVYGSLAKGDPAFTETHRYEPNSPYSASKAASDHLVRAWHHTYGLP
+VLTTNCSNNYGPYHFPEKLIPLMIVNALAGKPLPVYGDGMQIRDWLYVKDHCSAIRRVLE
+AGRLGEVYNVGGWNEKPNIEIVQTICQLLDEMRPKADGGSYASQITYVTDRPGHDRRYAI
+DARKLEAELGWKPAETFETGIRKTVEWYLANPEWVQHVQSGAYREWVNKQYA
+>tr|A0A0P0LNT1|A0A0P0LNT1_9BURK
+MNPNTTHPSRWMGRMAKGLGLALVGLVLAGCERPIPESVQSGYRGTGMAQVYNARLLEVK
+TEKNQPPVAIPSAGSDGPKASQVYKNVKVLGDLSVGDFNRLMVSMTSWVAPNEGCAYCHA
+LPNFEDDSKYTKVVARRMVEMTQHINADWQPHVAQTGVTCYTCHRGEPVPSAIWFKSNPQ
+PYGSNFMGDKAGQNEPSPVVNLSSLPNDPFTPFLLDKQNIRVNGPTALPSGNRQSIKQAE
+WTYGLMTHMSTSLGVNCTYCHNTQSFQNWENSPPQRVTAWHGIRMARDLNLTFMEPLTEV
+FPAHRKGPMGDVAKLNCATCHQGAYKPLNGAPMAKDFPELLKPALAASKVAAK
+>tr|A0A0P0LEV4|A0A0P0LEV4_9BURK
+MIEIEKGSTNVYEDLGLPDAAEMQVKATLAAKIGEIIKHRHLTQIQAAEILGMPQPKLSG
+MLRGQFRGISEAKMLECMNRLGRDVQIVVRKPSRSRTTGRTSVVFA
+>tr|A0A0N7J903|A0A0N7J903_9BURK
+MPCGQPDLSGVALGVSSTESWKLVRNMKNISNQLASLLSRAGIFAGAWLATAAHAVNDLP
+GGPAVNQLNFAPPATKIAEEQHWLHWFMLIICTVIFIAVFAVMFYSIWKHRKSVGHKPAT
+FTESITVEVIWTAVPFIIVILMALPATKVLVAQKDTTNADLTVKVTGYQWKWGYDYIKGE
+GEGLSYISTLDSGQRAMSDAGKPEGDNYLLKVDNPLVVPVGQKVRVITTANDVIHAFAVP
+AFGIKQDAIPGFVRDTWFRAEKTGDFYGQCQELCGKEHAYMPIHVKVLSATDYAAWVDTE
+KKKQAAKADDPAKVWALDDLSKRGEKVYAANCAACHQATGKGAGAIKALDGSALVLDADK
+SKQIAVMLNGQNNGAMPAWKQLSDTEIAAVITYTKNNWSNKTGQIVQPAEVLAARK
+>tr|A0A0P0MBI9|A0A0P0MBI9_9BURK
+MEEQKINALWTHLHWLSVLAQQGSYTAAAARLGVSKAAMSQRIAELERAAKVTLVQRTTR
+SLRLTEAGQRLVDETRASFEQIAQSFAQVRDLAEQPSGLLRVTAPVALARQQLVPLFAAY
+LKDFPDVRIELDLSDRLSALATEGYDLAIRHTARPPDTHVAWALCATESVLVATRAYIRQ
+YGEPQSPADLQAHNCLHYPRSQDTPAWTFEPRQPSGGGERITVPVSGRFAANNSEALREA
+ALTGAGIALMPDFSAQAELRKGQLVRVLPAWKPVGAFAETIYAIRPYAPHVPRAVAALVG
+HLKKGLEVGFGV
+>tr|A0A0P0M7X0|A0A0P0M7X0_9BURK
+MNLEKNVPLQPYNTFGIAAKAHALVRVRSEADLLAVLADPQLASSPRQVLGGGSNIVLTG
+DVKALVLKMEVPGMGLVGETDKHWLIEAGAGVDWHALVAWTLDNGYPGLENMALIPGTVG
+ASPVQNIGAYGVELQDRFDSLDAMDMFTGELFSLNAAQCGFSYRDSVFKHASGGPDGLGL
+AGRAVILRVRFALPKRWKPELGYADLERKMAETGIHSPDARQIFDWVVAIRRAKLPDPQV
+IGNAGSFFKNPTVTADQCADIIAREPKVVHYPMPDGSIKLAAGWLIDACGWKGKTVGHAG
+VYEKQALVLVNRGGRENPCTGGEVMTLAKAIQTSVYERFGIRLEPEPVVI
+>tr|A0A0P0M9A0|A0A0P0M9A0_9BURK
+MKKTEHTSPVVVVTGGARGIGLEICNTFLKRDYRVAALDIDKATLAKTEASFNNPSFLAI
+ACDVSKPAQVSRAMDRVEKKFGRIDALVNNAGVAIFKPILEVTWQDWRTIMDTNLDGAFW
+CTQACAKVMLKNGGGSVVNIASISGLRASTLRVAYGTSKAALIHLTKQQAAELGDVGIRV
+NCVAPGPVATEMAKLVHSKAIIKDYHDTIPMNRYGSTEEIANAVAFLCSREASYINGQTI
+AVDGGFDAAGVGLPTLRKSRTVASTRTSAK
+>tr|A0A0P0M7G3|A0A0P0M7G3_9BURK
+MSIKSDKWIRRMAEEHGMIEPFEPGQIRKDASGQKIVSYGTSSYGYDIRCAPEFKVFTNI
+YSTVVDPKNFDERSFVDIESDVCIIPPNSFALARTVEYFRIPRNVLTICLGKSTYARCGI
+IVNVTPFEPEWEGYVTLEFSNTTPLPAKIYAGEGCAQVLFFESDKDDVCETSYKDRGGKY
+QGQVGVTLPKT
+>tr|A0A0P0LIX3|A0A0P0LIX3_9BURK
+MARQHIQANQQERVMRDDDFIVSKADLKGRITYSNKVFAEYSGFSESEFMGKQHNIVRHP
+DMPRCVFKLLWQHIESGQEIFAYVKNLCKDGSFYWVLANVTPSLDDQGRVVGYYSVRRKP
+NAKALSVVVPLYKQLLQIEQNAGSREAIPASLTYLQNLLKEKGVSYERFILDLQAL
+>tr|A0A0P0MA01|A0A0P0MA01_9BURK
+MVTRRGAEAAVLVPVQEWRRMQSAARPSLKQLLLSDQARTDLIVLPRGQAKRRPVEPML
+>tr|A0A0P0M9S8|A0A0P0M9S8_9BURK
+MNSASPTSAMRGSNHVGMRQFNERIVLQAIRHHGAIPKADLARLTQLSTQTVAIIVGRLL
+DDGLLVKQDRVRGKIGQPSVPLSLNPQGAFSVGIQVGRRNLELLVADFNGQPVERVEVLY
+DYPDPDQLFASMAEGLQTLQNRMGDLWARTVGVGLTAPLSLHKWADLMGGQAAAALARWE
+DIDLPARVQALTDFPVVFAKDTTAACVAELLQGHGRSVRSFLYVFVGTFIGGGLVLSGHI
+MNGERGNAGAIGSLPVGLASSVNPKMGMPPQLLQKASGWQLEQALLAAGHNPLLIHQDGI
+LHADYAEFTGTWIAQASQALAMTVASSAALLDLDAVVMDGSLGAPLMSTLMAATQEALAQ
+YRFDGMHQPQLLAGQVGAHARALGGALLPLHSQFFPDKDIFLKQDAA
+>tr|A0A0P0LT28|A0A0P0LT28_9BURK
+MSPILSQNTSAGPDSKFLDRDLSILAFNERVLDWAHRPEVPVLERLRYLCIVSSNLDEFF
+EVRAEPHVMGSLQEIKSGQYTHNSLEAIADKTNAMVARQYALYNDDLLPTLQRHGYRLLS
+HGERNAEQRRWVRSYFQREVQPLLVPVGLDPAHPFPQVANKSLNFIVQLSGKDAFGRANE
+IAIVKVPRVLPRVIPLPDRVCEGSKAFVLLSSVIRAHLAELFPGREVGQFSQFRVTRHSD
+LAVDEDEIANLRMALRQGLQHRNYGQAVRLEVSSNCAPRLAEFLRKEFRLPEAAVFRVNG
+PVNLVRLMQLIDLVAAPDLLFPPFKASFPVQLPQHGSVFNRLKEGDVLIHQPFESFDGVL
+AFLREAVMDPNVLAIKQTIYRAGSDTTMMDLLREAVRRGKEVTAVVELKARFDEEANINW
+AEQLESIGAQVVYGIVGLKTHAKMLLVTRREGRVLRRYGHLSTGNYNRRTAALYTDLSYL
+TSNAEITADMDQLFGHLASQSRLPKMKRVLVAPFTLHAQMQTLIEAVGDAAARGATGRIV
+IKMNALTDEPLMEALLAAGQKGAKIDLIVRGACMLPAGVAGLSDNIRVRSVIGRFLEHSR
+VFYFCADQDESLYLSSADWMSRNMTRRIELAWPVTDPLLRQRIIDECLIAYLHDGRDAWD
+LAPDGQYHRVGLTAPGPGAQQALMQRYDASPVRK
+>tr|A0A0P0M8F1|A0A0P0M8F1_9BURK
+MSTLLTDHTPGQSRYGKLAQALRDRILQGEWAPGEVIPAESTLAQNYGVALGTIRQALSL
+LVEDGVLQRRHGKGTFVTKGVDGASMMRFFRFRGLDDGASITPHSHILSSRLRAASVREA
+QVFSMTQGAQVLQLERLRSLDTEPCLLETIVLPLPLFGALADSDSHGWDDLLYPMYQERC
+GVVIQKTQDTLSFSQLNATQAKRLKLAVSHPCVLVERQAFDIAGRCVELRTTRGDAYSFK
+YTAQVQ
+>tr|A0A0P0LT15|A0A0P0LT15_9BURK
+MRTAVSIGLLVGLLTACGGGDSQALLTAPAVPTEVPGPDPLLSQQWHLFNTGQGGGLPGI
+DLGLQGVAETGRGVLIAFVDGAVQISHPDLVANLHTVKGFLTTPNPSTPFAPADAPYNDR
+AGEWDDAHGTAVVGIAVARADNSIGGRGVAPQAKFLALDGLSNGRVGQALVSALDQGADI
+VNNSWGFLDPQAGQGRSYQRADPLWREALGRALSQGRQGRGAVVVFAAGNGGADDDSNRD
+GYANQPGVLAVGAVDHTGRPPTYAEPGANVLVSAPSMSLLRRAEGGADIWTTDLAGPRGL
+SGGTQAESADYAAFAGGTSASAPMVSGVVALMLQANPALSWRDVRWLLARTARAASLGAE
+AAEPSVMNSHGYHPMVGFGRVHAGDSIAAARVFRGLPAERRCDSGLLSIQQNIGDAPDAG
+LSLGHRFSVCNLSVLESVEVTVQAEHAYGADLQIELNSPTGHRSVLARPHFCSKDFTGGC
+GDFSQGWTFHSVRHMGENAAGNWRLRVQDLQEGDTGRLLQWRLVLTGH
+>tr|A0A0P0MAS7|A0A0P0MAS7_9BURK
+MKTVIRAFFRTLRLVLGPVMLLKERLTQPAGVQRAASEQAKVDQQCQSLALYQFSTCPFC
+IKVRQEMRRLSLPIEKRDAQHHADHRNELLQGSGATKVPCLKITEADGQTRWLQDSTEIV
+AYLRGRFA
+>tr|A0A0P0MAJ5|A0A0P0MAJ5_9BURK
+MQLQGQHVLILGLGASGLAMARWCALAGADVTVADTRDAPPQLATLQAEWPAVRFISGPF
+AASLVEGTSVRAVFRSPGLAPEVVAPVVDAARSMGLWQGGELSLFAAGLGDLKTRFGYAP
+QVLAITGTNGKTTVTSLTGQLVARAGKTVKVAGNIGPTLLDTLTEAIAQAQLQVEQEAAE
+RAAAELENPDLVSEQSSATTVTETFTHAQDEPASEAADTTDTDEALDSLDEEVAAELPLP
+VAPAVHDPMAQALPQVWVLELSSFQLDSCEGFEPTAATVLNISQDHLDWHGSMAAYAAAK
+ARIFGAQALMVLNREDAQVMAMRPEPVRVKLQKPVERAAVLFGGDMPQRPGDFGIEVTHG
+MTWLVRALEADETRRRRKDEAEELHIQRLMPADALRIRGRHNAVNALAALALASSAGCAL
+GPMLYGLREYRGEPHRVEPVAIIQEVEFFDDSKGTNVGATVAALQGLGADRRVVVILGGD
+GKGQDFSPLADPVQRFARGVVLIGRDAHVIREALQGTDVPLHDAADMQAAVAQAAAIARS
+GDAVLMSPACASFDMFDNYGHRAEVFVQAVASLAEAAGVAMEGGL
+>tr|A0A0P0M859|A0A0P0M859_9BURK
+MNQPVHSSEQSLSASSGAGRTNDPARTMAEILTVATHEFADKGLSGARIDEIAAATRTSK
+RMIYYYFGSKDGLYLAVLEEAYRRMRAIESDLHLDDLPPVDALQKLVEFTYDHHRNNEDF
+IRLVMNENIQRGEYLRQSQSIQALNTNAIASVKAVYDRGVAQGVFRPGLDPVDIHSAISA
+FTFFNVSNRHTFGLIFQDRASQDKADTLKRVHVVELILRFVCHSLAA
+>tr|A0A0P0MAW3|A0A0P0MAW3_9BURK
+MTEPDPFGRGTIRTQQDRDGTFRVSGFLNCWMEASVKVLKLSAQGLPQSWITLEQAVTHY
+AADEVRWEAGQQVAVFHGGHNALTGQQSIITVNSIIGTQGVPRINPFDLVSGLTNPKLFV
+RDRNVCAYCGGHFHESVLTREHIVPVSQKGPDHWMNVVTACRSCNHRKSSRTPEQANMPL
+LYAPYVPSLWEDFILRNRRILSDQMAFLMAHVPKSSRLMA
+>tr|A0A0P0LNI7|A0A0P0LNI7_9BURK
+MSTPQAYFFDLDGTLVETAPEIADAVNDTLRYFDWPEVSQQQVNDWIGHGTKELLIQALA
+SVTQTPVAAVRQGTDLKQALPIFDRYYQDRCGTRSNLYPQVREVLAALRARGCKLAVVTN
+KEGRYTDTVLRVHGLHEAFDVVVSGDTFPVKKPDPTSVVDCLKRWNLKATQALFVGDSSI
+DAATARNAGVPVWLLPYGYNMGESVHACAPDRVIEDFSALL
+>tr|A0A0P0LQS0|A0A0P0LQS0_9BURK
+MTISIKNADDIAAMRVAGRLASEVLDFITPYVKPGVTTNELDKLCHDYIVDVQKAIPAPL
+NYAPGGYKPYPKSICTSVNHQVCHGIPNDKPLKKGDSVNIDITVIKDGWHGDTSRMFHVG
+EASIAAKRLANLTYDAMWKGIEQVKPGAHLGDIGHAIQRFAEGHGFSVVREFCGHGIGRV
+FHEEPQVLHYGKPGTLTELVAGMVFTIEPMINAGKRDIKEMGDGWTIVTKDHSLSAQWEH
+TVLVTETGYEVLTVSKGSPAVPAFVTAPATA
+>tr|A0A0P0M9H7|A0A0P0M9H7_9BURK
+MTEATSTPVTTDAGQKPAAGTRKSSAKPARSRSREFALQALYQHLVGRNEAADIDVFTRD
+LSGFHKADSAHYDALLYGCVEQAQALDALIAPKLDRSFAEISPVERAIMWIGVYEMQHCL
+DVPWRVVLNECIELAKDFGGTDGHKYVNAVLNGLAPELRSAEVQADRQSGRAK
+>tr|A0A0P0MAA1|A0A0P0MAA1_9BURK
+MLTTLARRLSGLPSLLFALLALALALPVLAVLGSWLQWSGESASILREMAATVLPDYALT
+TLGLCLMVAVGVTVLGLATAALVTLFDFPGRGVFEWLLLLPLAMPAYVVAYAYTDFLQFS
+GPLQVALREALGLQGRLWPDVRSVWGAALVFTLSLYPYVYLLARTALVERASGLMEAARL
+LGAPLSRRIREIALPLARPAVAAGVALALMETLADFGVSSYFGIQTFTAGIYKAWLSMDN
+RIAAAQLATVLLAVVVVLLQLEQRAQKRMRFNQGRGSRQGSAEAQPVQLHGMRRVLAWAV
+CSLPVLLGFVLPVLIMLRAFMGETTEMPWERFGQWAWTSLRLGAITAVLAVGVALALAFS
+VRTRADRISQGAIQLVGLGYAIPGAVVVVGLLLPVGWIQQTWPASSAGAWITATSLGLVW
+AYLVRFCAVALQSVQSGYARIPASLDDSARMLGVTGWGLMRRVHAPLLQRTTIAAALLVF
+VDVMKELPATMVLRPFNSDTLAVVTYQLARDERLGEAALPSLALVLVGLIPVILLSRTLR
+QRA
+>tr|A0A0P0MBE3|A0A0P0MBE3_9BURK
+MNQLLMIEDDVRLAGMVADYLGQNGFAVAHAPDARSGLERLQTPGVELVILDLMLPDMDG
+LQVCQRIRALPGSMGQVPVLMLTAKGDPMDRIIGLEMGADDYLPKPFEPRELLARIKAIL
+RRKHHVSDTPSQLMQFGSLEIDRDARRVSVKGQDCELTSYQYDLLVALAERAGRVLTRDQ
+IMEAVRGRELEAFDRSIDVHMGRIRAAIEADPKVPQRILTVRGVGYVFARQQD
+>tr|A0A0P0M6X1|A0A0P0M6X1_9BURK
+MQAMDIGLVGLGVMGENLALNLERNGFSVSGFDLDAHKRDNFAQRTQGLKAQASASLAEL
+VGSLSVPRRVWLMVPAGAAVDQVLAQLTPLMSPGDVLIDGGNTLFTDTQRRIDALRASGI
+LYVGSGVSGGEEGALRGPALMPGGSPEAWPRVKPLLQAIAAKAEDGQPCCEWMGPGGAGH
+FVKMVHNAIEYADMQMICEAYAFMQKLGMSATEMGEVFATWNEGELGSYLIDITAQILQR
+TDPETGAPLVDMILDTAEQKGTGKWASQVALDLGVPAPTIAEAVFARTLSAIKTERVAAA
+QVLRGPETTTWPERSALLAQLRGALMAAKVCAYAQGFALMRAADREQQWQLPMAQVAQVW
+RAGCIIRAHLLEDIRRAYSGQADLPNLLVDPHFARVMADNQQDLREVVVQAALHGVPMPA
+FMSALSYYDAYRSARLPANLLQAQRDFFGAHTYQRTDRAGKFHTRWGD
+>tr|A0A0P0M7Z5|A0A0P0M7Z5_9BURK
+MRAVLRWVLACLGLCCACAMAQAPGGLAMGAPVATQANAPMSTAVQARWDHIAAELRCLV
+CQNESLASSNAELALDLRRELRGLIEQGQSDADIRRFLVSRYGDFVLYKPEVKPVTWLLW
+FGPFVLLLGALVLALRLMRRTPAESAPLTDSERARVRQLLES
+>tr|A0A0P0M8Q9|A0A0P0M8Q9_9BURK
+MELNKAASVVTKVGPWAWWLSWWRSQSPNRQDRFANLAPVAAVVLFLAAIASAFWYLRVE
+EIEREQEAIKRDVEYAQQRLRLRLLERQEQVMRLARDVSNKEIRTDQFLSRAEALVQQYP
+EFLSLTWIDDRRRIIANQSISSIAPSQQLRAGTVLKIGETESHFSLARDLMQPIYGQLDA
+EADRDTQMSVLQLHTPLTNDQGRFSGVILAEYSIEGLLRYGIPTEVLAKYAVALQNGSSR
+LLAGQVIPERISLWRLLPGIDRRNNDYEVPVSPVGNDLVLRAQAWRTSQGLVGSGLFWLV
+SVLSAMTAWMLIGNWRHTRRRLQAQKALVAETNFRRAMENSMLTGMRALDLRGRITYVNP
+AFCQMTGWSEIDLVGAVAPFPYWPDQDRELLMKRLEEEISGQHSAGGFQVRVKRKNGQLF
+DARMYVSPLVDATGKQTGWMTSMTDITEPNRIREQLANSHERFTIVLEALDASVSVAPLG
+SQELLFANKLYRLWFGQNTEGHLRLVQQAGAYSGEKASDDVDDMAGLPTESLTVASSENA
+EIFVPELGKWLEVRSRYINWADGRLAQMVIASDITPRRQAEELADQQAERAQTASRLITM
+GEMASSVAHELNQPLTAISNYCSGMISRIQSKQVNEEELLSALDKTARQAQRAGQIILRI
+RSFVKRSEPNRTLSDVSAMVSESLELAEIEMRRRNVRLTHHVAARLPQLMVDPILIEQVL
+INLMKNAAESIDNAQRPAGQRQVELRIVPKQIDQQAVVEFSVTDTGQGLPEQDTERVFEA
+FFSTKVEGMGIGLNLCRSIIESHRGRITSENLYNSGEVTGCRFSFWIPVESH
+>tr|A0A0P0M9A8|A0A0P0M9A8_9BURK
+MSPNTQQYQMSAFLEERVLSVHHWTDRLFSFTTTRDQALRFSNGHFTMIGLRGDNGKPLL
+RAYSIASANYEEHLEFLSIKVPDGPLTSKLQHIQVGDTIIVGRKPTGTLLCDYLLPGKNL
+YLMGTGTGLAPFMSIIRDPETYERFEKVILVHGVRQVNELAYHDYITQDLPAHEFLGEMV
+SQQLLYYPTVTREPYKNQGRVTDLIENGKLFADLGLPPLNPETDRVMICGSPEMLKDLKR
+ICEERGLKEGNTSTPGAFVIERAFAES
+>tr|A0A0P0MBP8|A0A0P0MBP8_9BURK
+MYLSAKQTVLLGQIMQTLAEPHEEQEIRELVGDLVMQLLGAQFYASFVWQPEQLRFGKAL
+QINMDSENLRSYERYYQFNDPITPHMQRFQVAVRATDVLAHEELVKTEFFNDFLQKDGLY
+WGVNLYAWHQGRNLGDMRIWRDRRRDNFSDDELRLLDMLQPAFVTALARAQSGHDVQALK
+LNTLAERLTPREQDIARLVMLGRSDKEISRELQIASTTVRTHLENTFRKVGVGNRSTLIH
+KLRT
+>tr|A0A0P0M9K4|A0A0P0M9K4_9BURK
+MNLLNQALGVHEQALQVKSRRLEVLAQNIANADTPNYKARDIDFKAVLGAAQQQDTAMTA
+TASGHFGAGQELSPDGMRFRTPFNTSFDGNTVEMSVEQAQYGKAAADYQATLSFLENRVS
+SVRKALRGD
+>tr|A0A0P0M917|A0A0P0M917_9BURK
+MSDLFSETALVVPFELLRMTDVESVGGKNASLGEMISQLPSGVRVPTGFATTAHAFRQFL
+AFGGLTERINARLDALDTEDVRALAAAGAEIRAMVEAQPFPADLEQAIREAFVRLQGSNP
+EASFAVRSSATAEDLPDASFAGQQETFLNVVGIEDVLHKMKEVFASLYNDRAISYRVHKG
+FAHADVALSAGVQRMVRSDLGAAGVMFTIDTESGFEDVVFITSSYGLGETVVQGAVNPDE
+FYVHKPMLAAGKRSVIRRNLGSKLIEMVFATPEEKAASGKLVKTTDVPTELRNRYSLTDD
+EVEQLARYAVVIEQHYGRPMDIEWGKDGTDGLLYILQARPETVKSQAKGTPELRYKLKGK
+STILAEGRAIGQKIGTGPVRLVHNISEMDKVQPGDVLVTDMTDPNWEPVMKRASAIVTNR
+GGRTCHAAIIARELGIPAVVGCGNATEQLTEGTLVTVSCAEGDTGHIYDGLLETEISEIQ
+RGVLPEIKTKIMMNVGNPQLAFDFAQLPNAGVGLARLEFIINNNIGVHPKAILDYPAIDA
+DLKKAVESVARGHASPRAFYVDKVAEGVASIAAAFWPKPVIVRLSDFKSNEYRKLIGGSR
+YEPEEENPMLGFRGAARYISADFGEAFAMECEALKRVRGEMGLTNVQIMVPFVRTLGQAK
+KVTQLLASQGLRRGEAGLKVIMMCEVPSNAILAEQFLEFFDGFSIGSNDLTQLTLGLDRD
+SGMELLAADFDERDPAVTALISQAIQACLAQGKYIGICGQGPSDHPDFAHWLMDQGISSI
+SLNPDTVIETWTNLGR
+>tr|A0A0P0MAV0|A0A0P0MAV0_9BURK
+MSTPTQHAQVLILGSGPAGYTAAVYAARANLKPLLITGMAQGGQLMTTTEVDNWPADVHG
+VQGPDLMQRFQEHAERFNTQIIFDHIHTVKLEQRPFTLIGDSGTYTCDSLIIATGASAKY
+LGLPSETAFMGRGVSGCATCDGFFYRDQVCCVVGGGNTAVEEALYLSNIASKVYLVHRRD
+KFKAEPILVDKLMDKVAAGKIELKTFQTLEEVLGDASGVTGIRLKSTKDGSLHDVELKGC
+FIAIGHAPNTDIFQGQLALENGYIVTQSGLKGFATQTSVPGVFAAGDVQDHVYRQAITSA
+GTGCMAALDAQRFLEQHNG
+>tr|A0A0P0M6G8|A0A0P0M6G8_9BURK
+MNTTADLEAEDFDTLDNILDDLRERFEETPQWEFCEGFMAALVCCRRAIPDSEWLPMLLG
+VDEGEDGGSFADDAQRHQFLALWQRRFDEIKLALDTPVEALDDDKAYAPEVMDVRGAIAS
+LPPEEREEIEDSEIPSFAQVWALGFMFAVENWPEEWATPKDKDAAKWYDLSLEAIVALTE
+DDDAVPTLSALSEDGPPSVSEERLNAYGEALWAVYDLREIWRNIGPRVAQVIKEATPGRN
+DACSCGSGKKYKKCCGA
+>tr|A0A0P0LI09|A0A0P0LI09_9BURK
+MSAPTSDHKSSLGPLGWLFIVTGALLMLGPFYFMFVFATQPRTEIFSVPPPLFFGDHFLE
+NMQILMGKIPFWKNLGWSLYVGLMSTGLTLLFCSMAGFAFAVYEFRYKKALFALVMGTML
+VPSFLGMIPTFLIMDALNWIDQPRALYLPGAAPAMGIFLMRQYITSAIPKELIEAARMDN
+CGEFRIYWSVVVPLLGPAFGTLGLIAFIASWNNFIGPLVVMRSPEMYTFPLALRSVQSPV
+DTEWGALMAGSAIAVIPLLIIFIFSSRRLIEGLTAGAVRG
+>tr|A0A0P0M6V5|A0A0P0M6V5_9BURK
+MPANPPSPAAKTLSAPQKALIKLGLKRDIDLALHLPLRYEDETRIVKLRDAREGDTAQIE
+ATVTACEVTMRPRRQLLVTVDDGSDTCVMRFFSFYPSHQKALAVGNRIRARGEVKGGFMG
+LTMMHPTFKAAGGHLAEALTPVYPTVAGLAQAYLRRAVITGLNHADLSETLPAGIAWPDP
+RGAWSLRDALQFLHHPTPDVSLAALEDRSHPAWIRLKCEELLAQQLSQLTAKRERDLLRA
+PALKMKRGGSHDQLLAALPFGLTNAQQRVGREIAQDLARNVPMHRLLQGDVGAGKTVVAA
+LAAMVAIDAGWQCALMAPTEILATQHFAKLVGWLEPLGVKVAWLIGSQKKKERAEMLALI
+ESGEAALVVGTHAVIQEHVKFKNLALAIIDEQHRFGVAQRLALRGKMQAPGMEPHMLMMT
+ATPIPRTLAMSYYADLDVSVIDELPPGRTPIVTRVVSDHRRHEVVERIGAQIQQGRQVYW
+VCPLIEESEALDLTNATETHADLSEALPGVMVGLLHSRMPVAEKKAVMELFTSGVMGVLV
+STTVIEVGVDVPNASLMVIEHAERFGLSQLHQLRGRVGRGAAASACVLLYGTPEGGRLSE
+TARERLRAMVETNDGFEIARRDLEIRGPGEFLGARQSGAPLLRFADLETDSHLLDWARAL
+APQMLDRHAGLAERHIGRWLGGKSEYLKA
+>tr|A0A0P0M7V2|A0A0P0M7V2_9BURK
+MKTAVSLADARAQLQHAPAGEAIDLIVLDLGLPDGDGQSLLTDLRRSSNTPVIVISARQA
+EGQKIQLLDQGADDYLVKPFGIGELLARIRVALRHRGHSAEPALLHYRHGPLQVNLKTRR
+VQLAEIEVRLTPTEYALLARLVRQAGQVVTHRQLLLDVWGAEHTDQTHYLRLYMGQLRAK
+LEVDSTDPQHLLTEPGVGYRLAEPDADA
+>tr|A0A0P0M6W9|A0A0P0M6W9_9BURK
+MTLLVHSPEAANDLEELVDFLLASRPEHAVETVDLVLDALSVLERHPLMGRPVAQGMREL
+VISRGRSGYLALYAFDAAADVVFVLAIKHQREQDYH
+>tr|A0A0P0LH68|A0A0P0LH68_9BURK
+MKTMNTPLTPSVSRRSFILGSGGLALGLSFGLTQTELALAQAPGAGGFAPNSWINIGLDG
+VVTLMSPASEMGQGTMTAMPMLLAEEMDLDWSQVRVVQSPSDPKRFGNPRFGGGMTTGAS
+RTVQGYYEPLRLAGAQARLVMVNAAAQAMGVPAGELRTEASRVIHSGGRSMSYADIAKVA
+TVPAELPKVDKSMLKPMAQFRLIGKDIPRVDVPSKSSGQALYGIDQRLPGMLWASVLRAP
+VQGETPESVDDSAARAVAGVKNVVRLPYGVAVVADSFYTAKVARDKLKVVWSQKSKARVQ
+YTDQMRVEYTKRAEDLNDKGVAFIAHGDAAKQLAGATRTFSATYTSEMVSHICLEPMNCT
+ARVDGDKIEVWAPAQSASFVTGTVAGAAGFKPENIKVNITLLGGGFGRRVEADYSADAAL
+VAKAMPGTPIQVIWTREDDIVHDKYRPMTGQHLVAGVDAQGKLVGLLHRVVSEGIYSRVV
+PPAFKAAGGKDAPVMEGTEITYDIPDHSVQFMIEERGIQAGFWRAVGPGYTKFAIETLID
+EVARGVKADPLAYRMDLLKKHPRGQAVLKAVADMSQWGKAKLPKGHALGLAFSDAWNTYC
+GMVVQVSIANGRPKVHKVWTAVDCGHALQPQNIQAQIEGSVIFGLSAALHEHMDFRAGEP
+QQTNLNKYQVLRANETPEVMVKVMPTDNHPGGIGEVGLPPLAPAIANAIATLNGKRLRAL
+PFPMV
+>tr|A0A0P0MAS2|A0A0P0MAS2_9BURK
+MSDHPNASTSLWDKGWYAPAQRLDSPNFGPRPPDTCIDLLVIHSISLPPGQYGGQEVQAL
+FTNQLDWDAHPYFSQIRGLQVSSHFYIRRDGSLWQFVSADDRAWHAGQSEYRGRPQCNDD
+SIGIELEGLEGDVFEDAQYERLRRLCLDLHRHYPIAHIAGHEHIAPGRKHDPGAGFDWMR
+LKASVKLPNRYFPLCL
+>tr|A0A0P0LKL1|A0A0P0LKL1_9BURK
+MSEPLPPMIETPKGLYRHYKGGQYRVLGTVRHSEDLQPMTLYQALYGEQGLWVRPAAMFA
+DVAEFNGKVQPRFERIGD
+>tr|A0A0P0LTU7|A0A0P0LTU7_9BURK
+MAGAVWAWAMPAQADSVDVLAQFMKQARSGRADFTQAVTSPSRPGQTPRVKTSSGRFEFQ
+RPGKFRFDYRKPFVQTLVADGQTLWMHDVDLNQVTARAQSQVLGSTPAALLTAASDLQAL
+KSDFKFSPEPDQGGLQWVRATPQSPDGQIRAVMVGLRASASGPELAVLDVQDSLGQRSVL
+TFSGFELNPVLPANTFVFKAPAGADVIRP
+>tr|A0A0P0MB08|A0A0P0MB08_9BURK
+MESAMNAPISPAALAPAATAVKATDLAALPLIEKWIAFATVSRDSNLALLDWTEAYLNDL
+GITCSRTYDDSGQKANLWATLPAHDGETKVGGLVLSGHTDVVPVDGQPWDTDPFKVVIQG
+DKMFGRGVTDMKSFGAICLMMVPELLKRKLKRPIHLAFSYDEEVGCIGVRRMIADMRAQG
+FKPAGCIVGEPTGMQVVIAHKGKHSYKTTVHGFEAHSSLTPLGVNAVEIACEFVANLKSM
+HRELEQSGPFDPIYDVPHTTIHTGVIAGGTALNIIPRQCEVTWEIRHHHMNTPEDLFARA
+QAFGESLVPAMQAVAPDTGITHELKSVLPGFATAADSEIAQLCFDCAEVDPASGAGKVSF
+GTEAALFHQAGVPTIVCGPGHIAQAHQPNEWVTLEQLAWCERFMRRLADRVCVA
+>tr|A0A0N7J8K3|A0A0N7J8K3_9BURK
+MNTASHSQGPLPPKREFAEQHMHTILARLAGPGAVPRADQVDAVHAVLQPASRVLVVQAT
+GWGKSAVYWAATHAIRSTGAGPTLVVSPLLALMRDQVSAAERAGLKAATVNSTNIDDWDK
+VFQRLDEDAIDVLLVSPERLGNPRFAARLGALLARVGLIVIDEAHCISDWGFDFRPDYQR
+LARALLSTPTASVLATTATANERVTLDIGKQLGDSTVTFRGTLARTSLTLSVVPGLSPLQ
+RYAWIADALEQLPGSGIVYVLTVAEAERLTAFLRSCGHAVDAYSGQTDADTRLQVEERLR
+HNQVKAVVATSALGMGYDKPDLGFCVHVGSPSTPVAYYQQVGRAGRAVAHAEGVLLPSDA
+DERIWDYFATASIPDAATAAKVLQSLGSDGRSLLEIEADTGVRRGRLEALLKILAVEGVV
+DKDGSAWQATGVPYEHDTAKWTALAQVRQQEAGIMRQYAHGQGCLMAYLQTALDDPAPAP
+CGRCSVCTGHLPFPGLSPSADKLIAARDFLRGMDVDIEQRKRWPGGVGRKGSIRGFDAGR
+AVAFADDPGWVAELQALRLATSGAGHGEVPPELLSGAVATLGRWAKNWPARPVCVLPLPT
+PNMAANRQLATHIAQKGRLPLHDVFSWQGGPAPDDSASTPVVAHLESAIRLAADAALPAG
+PVLLVATQVRTRWAATVAAALLRERGAAQVLVLALHLQP
+>tr|A0A0P0LAX2|A0A0P0LAX2_9BURK
+MSPIAIIDFETTGISPNMGDRATEVAIVMLEGGQVVDRYQSLMNAGVRVNSFITQLTGIT
+NEMVQAAPAAEQVMREAARFVGGRPMVAHNAAIDKKFWEAELARCGEDASHPFACTVLLS
+RRLYPQAPNHKLGTLAALHHLPSSGRAHRALADAEMAAHLLAQMQHDLKTRYGCTQADHA
+LLMGLQRTSRHMVGPYLKQRAQG
+>tr|A0A0P0LHF6|A0A0P0LHF6_9BURK
+MKLYSFFRSGTSHRLRIALNLKGVATDYVAVDLRVDEQQGDAFKSVNPQQMVPALDTGKQ
+VLIQSPAIIEWLEEKHPTPALLPAGAEDRARVRALAAMVGCDIHPLNNRRVLQTLRKQFG
+ANEDAINAWCANWISSGFDAYEALISADTQRGRFSFGDSPTLADVYLIPQVESARRFNVD
+LTQWPHIMAVEKACMALEAFQKAAPGQQPDAG
+>tr|A0A0P0LJ40|A0A0P0LJ40_9BURK
+MIEGVMKEGFITTSYDSVVNWAKTGSLWPMTFGLACCAVEMMHSATARYDLARFGAEVFR
+ASPRQADLMIVAGTLCNKMAPALRKVYDQMSEPRWVISMGSCANGGGYYHYSYSVVRGCD
+RIVPVDVYVPGCPPTAEALIYGIIQLQQKIRRTHTIARA
+>tr|A0A0P0M9X9|A0A0P0M9X9_9BURK
+MNHHTPGITGLILAGGRGSRMGGTDKGLQNFHGLPLALQTLMRLQIQSLPLQEVMINANR
+NLAAYESLGVAVWPDSIDGFAGPLAGFLTGLERCETPLLLTVPCDSPLFPLDLVERLAQG
+LHDQDADLAMAAAPEADGTVRPQPVFCLLKLDLLESLVKFTQSGGRKIDAWTAQHRCAIV
+PFDLPGDSPHAFSNANTLAELQQLESL
+>tr|A0A0P0M850|A0A0P0M850_9BURK
+MKIAQDTVVTMQYKVTNAQGQLLDKAQEPTSYLHGGYDNTFPKIEAALEGQEVGFATTLK
+LTPADAFGERDESLVQTIPKSEFPPGVKVGGQLRGRTPDGREQVFNVLKIKGNQVILDGN
+HPWAGQHLTLSLKVTEVRTASAEEVTHRHAHGAHGHHH
+>tr|A0A0P0M7W0|A0A0P0M7W0_9BURK
+MSPQHLKSTGFASTIWAIAWAAMTLLEHKLDLANLAMLLVLASALSSLWLAGWTSMLVSA
+GAVLAFNWFFVPPKFTFTVDIYQNALLLLALLLVNWIIAGLVIRQRHLTQAARTLADQEA
+RLRQWGDTLRDASDPAAHAAALRMALEEATGTPVAVSVLRSLDEQTDKTAALQLGETTHE
+QRSGLSLCVREGHAMGPGSGRYEQLPDVYLPLRGRRVTLGAALITGLGGHANGPQLRPHL
+QALCDQMGGALQRSLITAQEQQAREQAQLQAVRNTLLAAISHDYRTPLATIMGAASSLLE
+QGERMDADQRRRLAAGIVEESERLARLTDNTLQLARLDAPAVILRCDWESTEELVGAVLQ
+RIRRRPDGSRVQVWVEPNLPLLWCDALLVSQLLDNLLDNGLKYSPADTLVELHAKCDSEF
+LVLTVSDRGPGIATSWQEKVFEVFQRGENTPPHSDAGPDRGAGVGLAVCRAIARAHHGEL
+QLRARGEGGSLFECRLPFAGGGLTPPTAQVPEAQQ
+>tr|A0A0N7J905|A0A0N7J905_9BURK
+MTKPRLALIGTGGTIAGAASAASVSTDYKPASLSLAAVVDTVPELRQRYNIDVSQPMQLA
+SYDVRPDHWLDLHAAVMHAVHNPDVVGIVVTHGTDTLEETATFLHLSVDNDKPIVVVGAM
+RPATAYSADGPANLLDACSVAACPTAHGRGTLVVMNGRIHSGLWVGKRHVSSVEAFDSPL
+AGAVGEVADQAVQWFRAAGRAPTVAWQTPSTWKTPATWPRVDIAVAYAGVDETAMRAFVA
+AGAQGIVHAGLGNANTPTAYRAFIQSLPDQGVLVARCARFITGSVTRASVYADAEHGILT
+AGPLPPHKVRIILLLGLAHGMNGPAIQDWIDRILLAA
+>tr|A0A0P0MBJ3|A0A0P0MBJ3_9BURK
+MSTVFLSPAAFQDLVRLETFLYESEDPLAGELLDFILDALQVLTHQPGIGRPVEDGLREL
+IISRRRSGYLARYAWDDVLDRVMVARIRHQREAGYQDEEV
+>tr|A0A0P0LTQ3|A0A0P0LTQ3_9BURK
+MKFVAFERAKQGTGASRRLRNSGRTPGIVYGSTSAPQLIELDHNALWHALKKEAFHASIL
+DMELNGQSSKVLLRDYQMHPYKQLVQHIDFQRVDANTTLHMKVPLHFSGEEESEAVKTDK
+CTVTHVVTELEVACLPANLPEFIAVDLKGLTMGKSLHLNDITLPAGCKAVTHGKKNPVLV
+SVVAPVEEVVAAPVAAAPADAKKGKGKK
+>tr|A0A0P0LCM3|A0A0P0LCM3_9BURK
+MSKIALVTGASSGIGKACALALLQEGWQVVLVGRRADALASAVAEADANAGNAHAIPTDL
+SKEPEVKALFDQIRSRFGRLDLVFNNAGISLPYTLPGDLSGDEWRRAVDINLNGAFYTLS
+YAFKLMQEQSPQGGRIINNGSISAHVPRPGSIAYTATKHAISGLTRAASLDGRPYSIAVG
+QIDIGNVASDMTLKMAQGVHQADLSIKAEPRMDMSAVVETFMTMARLPLSANILFTTVMA
+TNMPFVGRG
+>tr|A0A0P0MBK9|A0A0P0MBK9_9BURK
+MSASVSPLPVSRPRPMAPLRDPAFAARVFWLSLALVLLWPLGVATEFRPWVLWEPENRKV
+TADFVRSFWPLVHHAEFMQMVVRETWRTVAMATAGVTLALVLAVPLSLLATRVLSLSALS
+GRMDRWPAVLRWCVRATLIVLRSIPELIWALVFVRVVGLGPTAGVLAIALTYGGMLGKVY
+AEILESGESHATQTLMRNGSGRLQAFVYALLPSHAAELASYTVYRWECAIRSSVVLGFVG
+AGGLGQQLDNSMKMFNGGEVATLLLVFIALVALADRVSAWLRKALA
+>tr|A0A0P0MBY3|A0A0P0MBY3_9BURK
+MGALVVGVVLALCLFWSVGAHNRLVRLRSEVVRQWSSVDAVWLRLLVRLQGGLAARQSLV
+SEAEAQELQAVQTASEQMLEALTQARLQPLDEAVQKQVISQHLQLVSEIRVLQQQAHEAI
+RPDLEIALNRMRQTLPAAMIPYHVAVGAYNDALSMRPASWLARRLNFKPAVRMDLTMASS
+>tr|A0A0N7J986|A0A0N7J986_9BURK
+MTAYTVQIDVLPHYVADQSNPLQDVFAFAYTVTVTNTGRVPVQLISRHWVIQDERGHSEE
+VKGLGVVGQQPLLRPGESFQYTSGCRLRAASGTMHGSYFFVAEDGHRFDAPIDTFVLDAS
+NAIPGGRTLH
+>tr|A0A0P0LRJ7|A0A0P0LRJ7_9BURK
+MSNVQERLRVLFCDHLAIARGKYVTLQPGQGGGARFCRGTFGVTYEKELIPVPGAMVMEG
+LPDMEAAYTAEDIRPGWQPFTKVAIGDLKANDGTPLPMCGRSALKRAVADWQAIGYDPMV
+GIELEAFAFQIEPDGSLKPYDTPAAHVYATGPFADPRGFTDALWEKATAAGFRIDSMNTE
+YDAPQFEFTLKYDRAVKAVDDIFLFRLLAREVAFQHGIVLTFMPKPILTVGGSGVHINFS
+LRDGQGQNAISGGHDASQFNALTLGCTAGLMHHHQALAGLLAPCANSYQRLQPASLSGFW
+KNWAVDHRGVTVRLSAESGPGARIEHRMGDAAANPYTHTAAVLQAARLGVVNAYKLQPAE
+TGDCLENKDATHSVPGTLAGALDALEADTALTQALGEGLVANHVGIKRHEIERTADLEGD
+ALRDYYIRFI
+>tr|A0A0P0MAW8|A0A0P0MAW8_9BURK
+MTTLLKSLLALSAATIAWQVQAAPYQSIVPAKSSITFNYKQMGVSADGRFKKFTAQVNFD
+PVKAEQGKASFEVELASVDTGSGEADQEVVSKSWFNTAAFPKAQFVSKQIKPTAPNQYEV
+LGTLSIKGQSREVKFPMKHTVQGKEGLLTGGFAMKRGDFGIGEGMWAKFDVVANDIQVSF
+SITASQSK
+>tr|A0A0P0M709|A0A0P0M709_9BURK
+MTDLSAEFKALAEYRPTNKVRFVTAASLFDGHDAAINIMRRILQSMGAEVIHLGHNRSVD
+EVVTAALQEDAQGIAISSYQGGHNEYFSYMVDLLKARGGEHIQVFGGGGGVIVPAEIRAL
+AEKGVRIFSPEDGQKMGLAGMIGEMVMRCDQDVSPLAPKTVDAIQGHGEMNWRALAQLIT
+ALENDKADATVVKTVREQAAQKKVPVLGITGTGGAGKSSLTDELIRRLRLDQDDALRVAV
+ISIDPSRRKSGGALLGDRIRMNAISSWSQGPRVFMRSLATRDFGSEISAALPDVVAACKV
+AGFDVIVVETSGIGQGDAAIVPHVDVPMYVMTPEFGAASQLEKIDMLDFAEFVAINKFDR
+KGASDALRDVAKQVQRNKEAWTTPTEQMPVFGTMAARFNDDGVTALYQALKSRLAELGMK
+TTEGRLPVVNVRYSTHQNPVVPSSRTRYLAEISDTVRGYKKRAIDQARLAREIQQLRAAA
+RMLEVGKSGRAKAAEAAIDLAVSREQTQDPTARKLLAQWPDMQKAYAGDEYVVKIRDKEI
+RTALTTKSLSGTTIRKVALPQYEDDGEVLKWLMLDNVPGSYPYTAGTFAFKREGEDPTRM
+FAGEGDPFRTNRRFKLVSEGLPAKRLSTAFDSVTLYGNDPDLRPDIYGKIGNSGVNVATL
+DDMKVLYSGFDLCNPTTSVSMTINGPAPSILAMFMNTAIDQNLDKFKADNGREPTETEAA
+KIREWVLANVRGTVQADILKEDQGQNTCIFSTEFSLKVMGDIAQYFVHHDVRNFYSVSIS
+GYHIAEAGANPISQLAFTLSNGFTFVEAYLARGMHIDDFAPNLSFFFSNGMDPEYTVLGR
+VARRIWAVAMKEKYGANERSQKLKYHIQTSGRSLHAQEIQFNDIRTTLQALIAIYDNCNS
+LHTNAFDEAITTPTEDSVRRAMAIQLIINREWGLAKNENPNQGAFIIDELTELVEEMVLA
+EFEKIAERGGVLGAMETGYQRGKIQDESMHYEMLKHTGELPIIGVNTFRNPKGDEVLESL
+ELARSTEEEKQSQLKRLQDFHTRHAAQAPAMLKRLQQAVIDNGNVFEVLMDAVRVCSLGQ
+ITNALFEVGGQYRRNM
+>tr|A0A0P0M980|A0A0P0M980_9BURK
+MEHTLPALPYAIDALAPHYSQETLEFHHGKHHNAYVVNLNNLQKGTEFESMSLEEIIKKS
+SGGVYNNSAQIWNHTFFWNCMKPNGGGEPTGALATAINAKFGSYAAFKEAFVKSAVGNFG
+SGWTWLVKKADGSVDIVNMGAAGTPLTTGDTALLTVDVWEHAYYIDYRNMRPKFVETFLD
+KLVNWSFAEKNFG
+>tr|A0A0P0LCD1|A0A0P0LCD1_9BURK
+MSEAQKQIALVTGASRGIGAAIALHLAQQGYVVIGTATSDEGAAKISQALSAFPGSRGAN
+LNVNDAAAGEALIDAIVKEHGGLQVLVNNAGITRDTLAMRMKDDDWDAVLDTNLKAVFRM
+SRAVIRPMMKQRYGRIISITSVVGASGNPGQANYAAAKAGVAGMTRALARELGSRNITVN
+CVAPGFIATDMTASLPEEQHKALLGQIPLGHLGQPDDIAHAVAYLAGPGAGYVTGQELHV
+NGGMFMA
+>tr|A0A0P0LPK9|A0A0P0LPK9_9BURK
+MATKRDFYEVLGVAKNASDDDIKKAYRKMAMKYHPDRNQGEDAKAKEAEAKFKEVKEAYE
+MLSDPQKRAAYDQHGHAGVDPNMRGGAEGFGGFGDAFGDIFGDIFGGQGRGGRGGGRQVF
+RGSDLSYAMEITLEEAANGKDSQLRIPSWDECDTCHGTGAKPGTSAKTCSTCHGQGQVQM
+RQGFFSVQQTCPHCRGTGKIIPEPCGTCQGQGKVKKQKTLEVKIPAGIDDGMRIRSAGNG
+EPGTNGGPPGDLFIEIRLKKHDIFERDGDDLHCAVPISFSKAALGGEIEVPTLGGKAAID
+IPEGTQTGKQFRLRGKGIKGVRGSYPGDLYCHITVETPVKLTEHQKKLLKEFEESLSKGG
+GKHQPSGESWTDKLKGFFGA
+>tr|A0A0P0M761|A0A0P0M761_9BURK
+MELTPREKDKLLIFTAALLAERRKARGLKLNYPEAIALISAAVMEGARDGKTVAQLMSEG
+RTVLTRADVMDGIAEMIPDIQIEATFPDGTKLVTVHQPIV
+>tr|A0A0P0M9U2|A0A0P0M9U2_9BURK
+MSDNPQYGLEQARAQLPLIASEAVAGYSSVITRHGKPVAVVVPVEQWREEQARSLKQVGV
+LALRGSGRGLWSECAATAVAQLRDEWA
+>tr|A0A0P0MBP7|A0A0P0MBP7_9BURK
+MIQTESRLDVADNTGAKSVLCIKVLGGSKRRYASVGDIIKVSIKEAAPRGRVKKGEIYSA
+VVVRTAKGIRRGDGSLIKFDGNAAVLLNAKLEPIGTRIFGPVTRELRTEKFMKIVSLAPE
+VL
+>tr|A0A0N7J881|A0A0N7J881_9BURK
+MFDPFGDFETRGYLQNFEGLKRMDEVKVLEHTFFEANLEDAFHFLGAVKGPLTYKHFLKV
+HHVLFSDFYPWAGQDRLQLGVGQFVEKGNFQFEEASLAQRAIEWGLQLGNDPAVLTKKPG
+VVMGQFAWGHPFLDGNGRTMLIVHTELCSRANFSIDWSSSKKMDYLQALTQELTTPDRGL
+LDGYFKPLIQKLPARNVWMDHIKALPGLDGANSTDDNTAYAADDVQAKQRYEEASQRRKR
+SQQG
+>tr|A0A0P0M8L0|A0A0P0M8L0_9BURK
+MNTLTLSAIRQNLSKFDFAGLGLPALVLMIMAMLVVPLPPLLLDILFTFNIMIGLVVIMI
+AIGTRKPLEFSSFPSVLLFATMLRLALNVASTRVVLVNGHEGPEAAGKVIAAFGEFVIAG
+NYVVGFIIFVILMIVNFFVVTKGAGRVSEVNARFTLDAMPGKQMSIDADLNAGVIDQETA
+KKRREELAQESDFFGSMDGASKFVSGDAIAGLLILIINIVGGLAIGIGQHNLPFAEAAKI
+YVLLTIGDGLVAQIPSLFLSLATAIIVTRVTTSESMTEQASTQLSNVPALFITAGILTII
+GLVPGMPHLVFLTLAAATAGLAFMILRKQMLLEQSSAAPALPANDGPKELDWDDVEQVDL
+IGLEIGYGLIPLVNVESGGQLMTRIKGVRKKLSAELGFLVQPVRIRDALNLEPDTYHIVL
+NGVVRGRGEVKVGRELAINPGKVYGRVEGQPTKEPAFGLEAVWIEPAWRDQARALGYTVV
+DPSTAIATHVNKVLRDNASELLSHDEAQKLLDKLAAKSPKLVEELVPGKLSLGVVTRTLQ
+NLLQESVPIRDMRTVVEALTEVCGRTQDPEQLTQLVRPKLGRMIVQSLLENKDTLSVLTL
+DPQLEQLLHNVLQQNTNAAGMVLEPSLAESLFAALRESARSTEEQGLPAVLVVSPSIRPW
+MSRAVRYRVNDLTVLSYSEIPDDQAVKVINTVQADPRNNPSVNKA
+>tr|A0A0P0M857|A0A0P0M857_9BURK
+MNTTDLTQTPIHADGSFEVHLQKSGQTLKVGKEQSILNALQDAGHEVPFSCSQGVCGTCL
+TQVVAGTPDHWDMYLTPEEQEANNQMLICCSRSQTARLVLDL
+>tr|A0A0P0LKW2|A0A0P0LKW2_9BURK
+MASALTDKLSRLVKTLSGQARITESNVADMLREVRMALLEADVALPVVRDFIARVKDKAL
+GQEVMGSLKPGQALVGVVNRELAATMGEGVSDINLAAQPPAVILMAGLQGAGKTTTTAKL
+AKHLIEKRKKKVLTVSGDVYRPAAIEQLKTVTAQAGAEWFPSSPDQKPIDIARAAIDYAR
+KHFFDVLLVDTAGRLAIDEALMAEIKALHVELKPVETLFVVDAMQGQDAANTAKAFSDAL
+PLTGIVLTKLDGDSRGGAALSVRQITGVPIKFAGTSEKIDGLEVFDAERHAGRVLGMGDI
+VALVEQVTAGVDMEAAQKLASKVKSGGSFDLNDFLSQIQQMKQMGGLSSLMDKLPSQLTA
+KAGSMDMDKVEKDIGRKQGIIHSMTPQERKKPELIKATRKRRIAAGAGVQVQDVNRMLKE
+FEQMQDMMKKMSGGGMMKMMKRMGAMKGMMGGGGGFPGMPR
+>tr|A0A0N7J8S5|A0A0N7J8S5_9BURK
+MNTPASTPASAQPNRPVDAIALVGPTASGKTAAALALAQQLQSQGGAEIISIDSALVYRG
+MDIGTAKPSREELAAVPHHLIDTLDPLQSYSAAEFSKDATRLIHDIRARGKTPLLVGGTM
+LYLKALLEGLNDIPAANPEIRAQIQEEAERIGWPALHARLAQVDPQTAARLAPGDSQRIG
+RALEVWTATGQTLTSFHQSAKAQAPDWHIPVINLEPTDRAWLHQRIALRFEQMMAAGFMD
+EVKALRARGDLHPDLPSMRCVGYRQAWEGLDSHWPEADILERGIFATRQLAKRQITWLRS
+MPDRVVVAADAPDALQQVLQAAATHWR
+>tr|A0A0P0MAJ2|A0A0P0MAJ2_9BURK
+MASVNKVIIVGNLGADPETRYLPSGDAVTSIRVATTDRYKDKATGEMREATEWHSISFFA
+KLAEIAGQYLRKGSQVYVEGSLRTRKYTDKNGVEKYATDIRADSMQMLGSRQGMGGPSED
+GGASGGGYAPRQSAPARPAAAPASRPAPAAKPAASNFDDMDDDIPF
+>tr|A0A0P0LGH8|A0A0P0LGH8_9BURK
+MATALLASSLSASAQAPQGQAAPQTSGQAPVASVAQVHTFTLANGMGVWVKPDRRAPTAV
+HMVWLRVGSMDEVDGTSGVAHVLEHMLFKGTPTLAPGEFSRRVAALGGRENAFTAKDYTG
+YFQQIPSNQLEVVMRLESDRFANNQWPDAEFAKELEVVKEERRLRTEDNPRAQLHEMLSA
+TALSASPYRRPIVGWMSDLEAMTAQDARDFYRKWYSPANAVVVVAGDVDPLQVKALAEKY
+YGVIPARAVPERKPREEPAQQGLRRFEFKAPAEQSYVALAFKVPRLASLAASPEHDDALA
+LTVLAAVLDGYSGARLDRALTQGENRLADSAGAYNGLMGRGPQFFYLEGVPAKGQTPEAL
+EAALRAQVQRVATEGVNEAELQRVKTQWVASEIYKLDSVFNQARELGVAWTLGLPPDYGA
+QLIARLRQVTPAQVQAVAQKYFGDDSLTVAILRPQPLSGQPRARRALPGARH
+>tr|A0A0P0MC52|A0A0P0MC52_9BURK
+MPSQRRRLHRLIQQGLVYSLVLTMTILGLGGVGFWVIDPQINSLSDGLWLAFTTAATVGF
+GDLVPSTPASRVFAVVVVLLGLAVLSLVTASLSAIFVEQEVEAEDRQIEKDLLREIARLR
+EDVAQIHRDIQYIKGQTPDERPPGNGH
+>tr|A0A0P0LME8|A0A0P0LME8_9BURK
+MKKRLGHIFLVDDNHDMRFYLSDMLVLQGYTVDTFENATAFLEKSMDISPAVVLLDMRMP
+GLNGLELQARLEALGRKTPIVFISGESDKDEIIEAFRLGAVDFLLKPFNREKLCQVVDKA
+LDMDRQRNQEFINTDALRRSFITLSAREQEIFMLIVQGLTNKGIAEITGIQPGTAKKHRA
+TIYQKFEVNTSAELIGQCKGVDLSKLMPTEDVKVQ
+>tr|A0A0P0M6S1|A0A0P0M6S1_9BURK
+MKSKGWNLRVFKREQRSLFGEILDWMLTPLLLLWPISLALTWLVAQGLANKPFDRALVYN
+VQALAQQVRLGPDKLVQFSLPQPASELLRADETDLVYHQVTGSLGEHLSGDRELPLPKAN
+EPKGGSYEVQIRDDEMRGLEVRVAYTWIRLDAEGKRPALVQVAETREKRSVLAAEIIKGV
+MLPQFALLPLAVLLVWLALVRGIKPLSQLEERIRERKPDDLSPLDDKAVPMEVAPLVVSV
+NDLLERLKDSIVTQKRFLADAAHQLKTPLAGLRMQADLAQRSGSSEEDLKKSLQQIGRAS
+VQATHTVNQLLSLARAEGGGAHLTLQSCDMVKLASEVLQDSLPHAMDKGLDLGYEGVDAG
+TPGVQVQGNPTLLKEMLRNLVENAIHYTPSTPERQGVITLRALVDPYSRALVIQVEDNGP
+GIPLPERELVFQPFYRALGTNVDGSGLGLPIVKEIAVQHGASVTVDAAHPSQTPPGACFT
+LRFGVN
+>tr|A0A0P0MBT3|A0A0P0MBT3_9BURK
+MVIVENKPMPSAIPHSFRTLDLNLLRVFDEVMAERSLTRAAHNLALTQPAVSNALRRLRE
+ALGDELVRRHGHGIEPTPRALALWPSVREALRQLQAAIVPSAFEPQQANSTFVLAMADAT
+AAELMGGLARELELQAPGVSLRVLPLTTRDPRKLLSEDSADIALGYFPAVLADLTARAQS
+GEAIPFEHQRLYSGEYVCVMRKGHPLAKRPISLQDYCAARHLLVSFSGRAYGFVDEALAA
+IGQQRRIVLTVNQFFTAGRVVVNSDLLTVLPRHFVPTTGMSHELVLHDLPFDVPPVQVHA
+IWHRKRQQDSPHQWLRAQLQQVARQAFGNPLPTSDIPT
+>tr|A0A0N7J968|A0A0N7J968_9BURK
+MTYQALQIHKDDAGYRCTLQTLDDSALPEGDVTVQVDYSTLNYKDGLAITGKSPVVRKFP
+LTPGIDLSGTVTESQHPLFKAGDQVVLNGWGVGESHSGGLAQKARLKGDWLVKLPAAFTP
+RQAMAIGTAGYTAMLCVMALQKHGVTPGSGDILVTGAGGGVGSVAIALLAKLGYRVVAST
+GRLQEADYLRQLGAADVMDRAELSAPGKPLAKERWAGVVDTVGSHTLANACASTKYGGVV
+TACGLAQGMDFPSSVAPFILRGVTLAGIDSVMAPRAVREAAWARLAQDLDTAQLERMTRE
+VGLADAIGLGAEILAGQVRGRVVVNVNA
+>tr|A0A0P0LHP4|A0A0P0LHP4_9BURK
+MPQATVTISNKLGLHARASAKLTKLAGSFPCDVWMSKGERRINAKSIMGVMMLAAGLGSE
+VMLDTQGERDEEALTALLALINDKFGEGE
+>tr|A0A0N7J8N5|A0A0N7J8N5_9BURK
+MRLNSIKLSGFKSFAEPTNFLLPGQLVGVVGPNGCGKSNIMDAVRWVLGESKASELRGES
+MQDVIFNGTTTRKPASRASVELVFDNADHRAGGQWGQFAEIAVKRVLTRDGNSSYYINNQ
+PVRRRDVQDVFLGTGLGPRAYAIIGQGTISRIIESRPEELRLFLEEAAGVSKYKERRRET
+ENRLSDTRENLTRVDDILRELNANLEKLEKQAEVAHRYNTLQADSTLKQHQLWFLKRRDA
+EADQGRMKSDVDQAVNALESRMADLRHVEADLETIRQAHYAAGDQVNQAQGALYEASAEV
+GRLEAEIRFVVEGRQRAEQRLQQLVEQTAQWGTRSQDAQAELETLAEQAAMAEDQSLTLA
+AQVEDQAMALPDLEEALRIAQNDATAQRATVVQVQQQIGVLAAEQRNVEEQSRQLDTRRE
+RLLTDRNALAAPDEARLSQLQEQLAEAEALSAEAEARLLDLQEQVPRLDEDRRTRQSAVN
+QESAKLAELSARIEALKALQEKVRTDGKLKPWLAKHGMDGLEGLWSRIHIEPGWENALES
+ALRERLSALEVSRLDMVRSFANDEPPAKLSFFTPPLAAKAAPRSGLPAGCKPLAELLRVH
+DAGLSALLADWLQGCYTAPNLEDALAWRSQLHAGETLLVQAGHAVDLNSVVFYAPDSEQA
+GLLARAQEIENLEKQLRAQTLISEESRSALVRAEAAYADASQRLITVRREASESQSRTHE
+LQVETLRLSQLVAQTRARSEQINNDLAEIEALLDELQERRVTAEARFEELDMQLADTQER
+HAQLDERVIEAERKLAECREQQRSLERRAQEAQFSQRSLDARRAELNRTIETAQQQVTSI
+DAEMQRARDELSRLTDAAAQAGLQNVLAVKLEREQALGACRSAYDDLTAKLRASDERRVS
+FERELDPLRQRITDLQLKEQAARLGLEQYTQLLADAQADLEAVAASIEAGQVRVTGLQGE
+IDRIHREITALGPVNLAALEELTTSRERKVFLDSQCADLTDAMNTLEDAIRKIDAETREL
+LGGTFKIVNEHFSRMFPELFGGGNARLVMTGDEILDAGVQVLAQPPGKKNQTIHLLSGGE
+KALTAIALVFAIFQLNPAPFCLLDEVDAPLDDANTERYAKLVAGMGKETQFLFISHNKIA
+MEMAEQLIGVTMQEQGVSRIVAVDMESAVSMADLA
+>tr|A0A0N7J8T4|A0A0N7J8T4_9BURK
+MQQARISDNPRMSDVNTTPQEAAELPKSDQNLVWIDCEMTGLDPEKERLLEIAVIVTGPH
+LTPRIEGPVLVIHQTDELLNQMDKWNKGTHGKSGLIDKVKASTTSEAEAEEQILAFLKKY
+LPKSASPLCGNTISQDRRFLVKFMPKLEAFFHYRNLDVSTLKELSRRWKPEVYANFKKQQ
+KHTALADVHESIDELAHYREHFIRL
+>tr|A0A0P0MBH3|A0A0P0MBH3_9BURK
+MGKITGFMEFERIEEGYKPVTERLKNYSEFVIGLTPEQSKTQAARCMDCGTPFCNNGCPV
+NNIIPDFNDLVYQGDWKNAIEVLHSTNNFPEFTGRICPAPCEAACVVNFNDDAVGIKSIE
+HAIIDRAWAEGWVTPRPAKVKTGKTVAIIGAGPAGLAAAQQLARAGHDVTLFEKNDRVGG
+LLRYGIPDFKMEKTHIDRRVEQLQAEGVTIRTSVLVGEWPKDSKVTNWAKETISAEQLKK
+DFDAVLLTGGSEQSRDLPVPGRELDGIHFAMEFLPQQNKVNAGDKLKGQLRADGKNVIVI
+GGGDTGSDCVGTSTRHGAVSVTQFEVMPEPPEKENKALVWPYWPMKLRTSSSHDESAEKG
+LLQREFAISTKAFTGEKGKVTGLTTVHVEFKDGKMVEVPGTEKEYKADMVLLAMGFTNPV
+ATVLDAFGIDKDARGNAKASTDFTGGYATNVNKVFAAGDMRRGQSLVVWAIREGRQAARA
+VDEFLMGKSDLPR
+>tr|A0A0P0MBA6|A0A0P0MBA6_9BURK
+MSVFTEDQIQQLAHELNQSEKSRTQIEHFSKRFAGMTIEDGYRINRAWMQIKFAEGRTMI
+GHKIGLTSRAMQVSSQIDEPDYGTLLDDMLYTCSPGQVLDIPFTDFIAPRVEVELAFILK
+KELRGPNVTVQQVLEATDYVTPAIEIIDSRIEQFDRHTKVMRKVYDTISDNAANAGIVLG
+AKRVDPLTTDLPWCGAVLRQNGVVEETGLAAGVQGHPAVGIAWLANKLAPWGEHLQAGEI
+VLAGSFTKPALAKVGDVFDVDYGPLGKLEFRFV
+>tr|A0A0P0MAZ2|A0A0P0MAZ2_9BURK
+MSALELTLLYLLAAVLGVVGCRMLKLPPMLGYLAVGVVIGPNALALAQNSEGVKHLAEFG
+VVFLMFVIGLEFNLPKLRSMRKHVFGLGLLQVLLTLVIVTVFSLFVANLAPTLWKMEWQT
+ALALSSAMAMSSTAIVIKLVADRLELESEHGKRVVGVLLFQDLAVVPLIVMIPALSAPAD
+QMLTALMMAALKATVLITLLMTGGQRVMRWWLTLVARRKSEELFVLNLLLVTLGLAWITE
+LAGLSLALGAFIAGMLISETEYKHQVELDIRPFHDVLLGLFFITIGMMLDWHIVVERWPL
+VLILTTLPVLFKLVLVTALAKLTGASNGVSLRTGLYLAQAGEFGFVLLTLGAQSNIIPPA
+LLNPVLASMVLSMMATPFIIMHSERIVLKVVASEWLQQSLQMTTIARKSINTSKHVIICG
+YGRCGQNLARMLEKENIPYMALDLDPDRVRQAAAAGDSVVFGDAARLQSLMAAGLARASA
+VVITYLDVPAAMKVLDHTHSHAPQVPVIVRTTDDLDLEKLQLAGATEVVPEALEGSLMLA
+SHALALVGVPMRRVIRIVQDQRDARYNLLRGYFHGADDDTLEEIDHERLTTVGLPMASPW
+LGKQIQDLTFHAMGVRVVNLRRVNGQPETVGDDTVLHPGDTLVLSGKSQTLAVAEEKLLR
+G
+>tr|A0A0P0LEJ1|A0A0P0LEJ1_9BURK
+MKPSVLDRTLLDEEPRGEPLIAIEKLRYMLDYSKSSTIATVLAPLLCIPLYWDDVAPLPF
+SAWFAAMALAVMTRYALLRSIRTLPNPPQDGRILNLAIGLVTLMWGLGWFVFVQPADMVS
+YLLYQIISLTVLFVGMVGYCVNWKTFFAFVLPLKVPELIFITLNFSEVVWPIALGSMVAV
+YLAFKMAFIFSKSWEKSFALRLKNDALIAQLTEEKNASLAANLAKSEFIATASHDLRQPM
+QSINIFIDMIDTRQLSEIDGSIFKRMRKSITVLNRMFNTLLDISKLDANMAVRERALHLV
+EVVHSLEDSFSDLCAEKKIKLSFKGMNHQVHGDFHLIEQILRNLLANAIQYTDHGHIEVA
+FDTRSDLLSFSVKDTGCGIPEADLPLIFTEFFRSDHSRSHYDGLGLGLSIVSRIVKKING
+HCHVQSEVGQGSLFTVQTRFAVIAAQPTTHLQATQSSEETEGRRHASRQGNTSKGHLGIL
+ENDEALLYAYLQYFTQAGYTVHIVPYEEIAFQECLASLPPLDFIVSDYRLGTKDGLYFIQ
+RLREEFNQDIPACIVTADTSPQHLDLFSQHNIDVMYKPIDIQTIDKFIATHI
+>tr|A0A0N7J942|A0A0N7J942_9BURK
+MSLTPQDIARIANLARLELKPNESERMLTQINGFFGIVQAMQAVDTTGITPMAHPVAAIQ
+DITLRLRPDVASEPNQRDLNQQSAPAVERGLFLVPKVIE
+>tr|A0A0P0M810|A0A0P0M810_9BURK
+MHSVQDIRDHLRTLGANALHEQRVLRLWTQAKPQDSGRRPLESFMPTAVREALPALSQTL
+SGLVTLREQHQGQDGSARLLVGLQDGQTVESVLLPRDGLCVSSQVGCAVGCVFCMTGREG
+LIRQVGSAEIVAQVALARTLRPVKKVVFMGMGEPAHNLDAVMEAIDLLGTVGNIGHKNLV
+FSTVGDARVFERLPQWRVKPALALSLHTTRADLRAQLLPRAPRFDPQDLVEAGEVYARAT
+GYPIQYQWTLIEGVNDSAEEIDGIVRLLKGKYALMNMIPYNAVPDLPYARPSWERAAEIA
+RTLHQRGVLTKLRQSAGQDVDGGCGQLRARDVVQREQRVHIHPRITAPAA
+>tr|A0A0P0LTE4|A0A0P0LTE4_9BURK
+MSQDLNLSASSHALDEETARAELYGLLSQLLYAAPSVDLLGQLQVAVTEAPDAGGFLEEP
+WRELVASARSLNHAQVAAEYNRLFGGVGKPEVYLYGSHYLSGFLNEKPLVKLRDDLATLG
+LGKGEGMSDTEDHVAYVFEVMRYLIAGDDVTVSNLTQQMAFFSQHVQPWVTRMCQAIQAH
+PQAAFYARVADFTAAFMGVEAQGFDLVN
+>tr|A0A0P0MAV7|A0A0P0MAV7_9BURK
+MQTLDAMPDSEGSQHLTPSRFFWGLALVAVLVISALVVATTVQWRQAQALEAAARLQEDS
+LTAITTNLERELWRFDAAMTRTDLAQVDMTQPELAKARSLRFDILVSRVDLLLNSPSVAR
+VHHREEYTALAPRLLNWVARAAPLVDRQDWASAAWPELMKELQQLGPEVQALNSASDKVM
+GEWIQNQVATVREQSQWIAWLTVAQILGLVMGAVGLYVHERQQKQSQRAQQRLHAQLMQA
+KEQAESANQGKSRFLANMSHELRTPFNGILGMLALLEKTQNGSEQADLIQTAKSSASHLL
+AVLNDVLEVSALEVGKIQVHPEPTDMGDFMQEVHRFMRVQAQTKGLQLHLTGDLHKPCVV
+MLDPLRLRQILFNVVGNAIKYTDQGQVDIRVRRTSNFEGVQWQIDITDTGIGMSEATQQG
+LFERFHWGDASLTRKQTGSGLGLEISRSLARLMGGELTASSQLGQGSVFTLSIKTPWSAL
+SAGAATDSRSGASRGPDPIDAASASQALHVLVAEDHPVNRKVVGLLLQSMGHQVSFAEDG
+QQALTQASQTDFDLVLMDIHMPVMDGLSSARHIRALPGARGQVPIVALTADVMNDAAEQA
+MAAGMNAFLSKPLQKTQLQAVMPHKRRQA
+>tr|A0A0P0LHG6|A0A0P0LHG6_9BURK
+MSSSQRLDKIVIVDDDARIRDLLRRFLSQEGFDVLLAEDGRALDRILQRETIDMLVLDLM
+LPGEDGLSICKRLRASGVKTPVIMLTAKGEDVDRINGLEIGADDYLGKPFNPRELLARIH
+AVLRRRPVSELPGSPSSDEEVITFGHFKLDLGDRSLSKNGVDMPLTTGEFAMLKALARHP
+RQSLTRDKLAQLARGREFEPFDRSLDVQISRLRKMIEVDPASPKIIQTVWGVGYVFVPDG
+QP
+>tr|A0A0P0M985|A0A0P0M985_9BURK
+MHTLSRSHAWPALGPSQVRQLEPALQTLSATPLMQSAGLACARLALAVAPHARRVWVAAG
+PGNNGGDGLEAALLLHQWGKEVVVSLVNSTGPGPADARAALQRAQEAGVRIQPDVPTEWL
+AQLDAQDLCIDALLGIGATRPLSADLRACVQAMQNGQAPVLAIDVPTGLNPQSGQWLGGD
+SGDAMAVHADHTLSLIAVQAGLLMGHGRDASGQIWLEDLGYRPSQHTVPALAWLNAPYTS
+APKPHAIHKGSHGDVAVIGGEGMATNGMGMSGAAILAATAALNAGAGRVILSLLSGQAND
+YAPPDVMQREFKRLALEQLHVVCGCGGGTAVNALLPEVLQRSSGLVLDADGLNAVAQDSS
+MQNALRQRAAHSATQATVITPHPLEAARLLGCNTAQVQNDRLKAAQELAERFQCCVVLKG
+SGTVIAAPDQTPRINITGNGRLAIGGTGDVLAGLVGARMAQGPNTPEAAFDAACQAVAQH
+GQVADGWPPGQALTASRLAKRLA
+>tr|A0A0P0M7E1|A0A0P0M7E1_9BURK
+MTAQTGSPLNTYTVPSVSIKTAHTGATNKANALGMRTMQERAYAKRGEQYLLIKSPPASG
+KSRALMFIALDKLNNQGVKQAIIVVPERSIGSSFADEPLTQFGFYWDWTVAPQWNLCNAP
+GADEPKVAKSKVESVKKFLASADKVLVCTHATFRFAVEELGIQAFDERLLAIDEFHHVSS
+NPDSILGSQLTALIARDKVHVVAMTGSYFRGDSEAVLSPDDEAKFETVTYTYYEQLNGYT
+WLKSLDIGYFFYTGPYVEAIHKVLNPDLKTIVHIPNVNARESLKDKGREVDEILHGLGQW
+NGADPNTGFNLVLTPSGRTLKVADLVDDSDAARRTKVLTALKDPAQKNNRDHVDIILALG
+MAKEGFDWIWCEHALTVGYRSSLTEIVQIIGRATRDAQGKSSARFTNLIAEPTADQKEVT
+EAVNDMLKAISASLLMEQVLAPRYEFTPKDAGPKEGFDYGPEGYQEGKTNLGVNEATGQY
+HVEIKGLAMPQSPEASRICKEDLNEVLTDFLQDKTALEQGLFDKENIVPQDLTQVRMGKI
+VRERYPELSEQDREAIRQHAIAAMNLTQQAKLELSKASAGDDETAQANTALLDGVRKFVN
+VRDLDIELIDQINPFEAAYSVLAKSMDEKLLRQVQTAIEAKKATISEEEALDLAKRALQF
+KMERGRLPDVESADPWEKRMALGVKALANYRSAAKAKANNV
+>tr|A0A0P0M7P6|A0A0P0M7P6_9BURK
+MSTVIPIRAETPGCTDVVPLVERGQREVFCGLTGIIWLHRKIQDAFFLVVGSRTCAHLIQ
+SAAGVMIFAEPRFGTAIIDERDLAGLADVHEELDRVVGQLLARRPDIRLLFLVGSCPSEV
+IKLDLSRAAERQNQIHHPKVRVLNYSGSGIETTFTQGEDACLAAMVPGLPASTDTAPALM
+VVGTLADVVEDQMRSLFDRMGLQVSFFPPRNSQAMPVVGPNTRYLLAQPFLADTARALQS
+RGAQHLAAPFPLGVEGTTAWLQAAATEFGVAPEVFEQATAAPRQRAEKALAVQRQMLQGQ
+RIFFFPDSQLEIPLARFVHRELGMDLVEVGTPYLHRQHMAAELALIPAGTRISEGQDVDL
+QLDRCIADAPDLVVCGLGLANPLEAQGITTKWAIELVFTPIQGYEQAADLAGLFSRPLKR
+RLKLAA
+>tr|A0A0P0M7W3|A0A0P0M7W3_9BURK
+MNTTPSGLQYEDTVVGEGAVATAGQDVTVHYTGWLYKDGQQGAKFDSSRDRRDPFVFGLG
+AGMVIKGWDEGVAGMKVGGQRTLIIPAELGYGARGAGGVIPPNATLKFDVELLSLD
+>tr|A0A0P0M9Q2|A0A0P0M9Q2_9BURK
+MSSRLISSRNAPAKATALHAQASPDFAAKLAETQALLRRAAAEFAPVAQASSLGAEDVVI
+THLINSLQLDIPIFVLETGALHTETLALLERTQAHSRAPINVFRPVQESVIRFVRERGQD
+AMYKSIELRKACCGVRKMEPLARALKGQKAWITGLRQEQSTARAKVPLLDESEVASKSLY
+KFNPLAKWTWGDVWHYIATNQVDYNPLHDQFFPSIGCAPCTRAISLGEEFRAGRWWWEDE
+AAKECGLHVKA
+>tr|A0A0N7J8E1|A0A0N7J8E1_9BURK
+MNLQIVPARAGLKWVRQGMSTFWRQPLALSGLFFLLMATVSIVSIVPFIGSALALIVLPA
+LTLGMMAATQTATEGKFPMPSVLFAAFKAGPHRQAMFHLGGLYAVIFLVVMGVSALVDGG
+TFAKVYFGGQAMTPEVVTTDSFQTALWVSMLFYVPLSMMFWHAPALVHWYGLPAVKSLFF
+SFVACWRNLKAFGVYVLSWGVIFMLAGILALLISGLLGNPGLMTATFMPLALMVAAMFFT
+SMLFSVRDCFSTDVYDEPPASADRPD
+>tr|A0A0P0M7F0|A0A0P0M7F0_9BURK
+MQDSQSPLIPRRDYLKWMGAAGLAATGVSGHAQSAWPNKPIRWIIPFAPGGTSSIVARGI
+AAQLTKQLGASFVIDNKGGGGGVPAMQELHRAPADGYTIIMSHIGLMAVNPLIYPDSGYD
+VNKDFVPVTLLSRVPSLFVVHKDVPVTDMKSLIAYVKARPGQLNYASAGNASAGHLAMEA
+LKLATGMFVTHIPYRGTGPALNDVLAGRIQLFSAGTPALLPHIKSGAVRCIAVGTTERIP
+VLPDVPTVQELGFKDFETVQWYGIHARAGTPPEIITKLQQECAKAVKSPEVVAQNAAESA
+IPGGGTPAEYAAFVAREQARWKEVVIKGQIRPG
+>tr|A0A0P0MB22|A0A0P0MB22_9BURK
+MAVYELRTYSVIVGKMSEVISLYKNEGWPALAKHPQKLVGYFTGDVGAINELIHVWKFDD
+DADRRAFWAQVFADPEFMAFAAKIRPLMREQNNKLMLSAPWGPQP
+>tr|A0A0P0M7Y2|A0A0P0M7Y2_9BURK
+MGQGLSWAERLTLWAYGLVMRALQPLLRRKFRRRGQQEPGYLDHMPQRFGFYEGVAPEPG
+RIWVHAVSLGETRAAAILIEALRHVRPGMRLLLTHSTATGWAQGQALLRPGDAQAWLPWD
+TPEATRRFLQHHRPQLGILMETEVWPALVQSCVQAQVPLALANARLNDKSLRSALRWSWL
+SGPAYRRLTAVLAQSPDDGARLEQLGATVQAVLGNLKFDVPAQPDAQALAQVWRQRWQHQ
+GTPRPVVMLASSREGEEALWLQALMANTDRLTALKAAGVVWLLVPRHPQRFDDIHAWLTS
+QGLAVVRRSSWDMGPPLQVPSEQVTVCLGDSLGEMPVYFQSADMALLGGSFMPLGGQNLI
+EAAAFGCPVIMGPHTFNFAEAAQNAQQVGAAMRVSDMDSALDQVWAWLRQPAELTSASQK
+GLDLVAQSRGAAQRYAQALASLV
+>tr|A0A0N7J974|A0A0N7J974_9BURK
+MTKIVVVTSGKGGVGKTTTSASFATGLALKGFKTAVIDFDVGLRNLDLIMGCERRVVYDL
+INVIQGEANLNQALIKDKQCDNLFVLAASQTRDKDALSQDGVEKVLDDLRAMGFDYIVCD
+SPAGIETGALMAMHFADEALVVTNPEVSSVRDSDRILGMLGSKTKRAIEGLEPIKEHLLI
+TRYNPARVEEGQMLSLQDIQDILRIKLLGVIPESESVLQASNQGTPAIHMNSSDVSEAYK
+DVIARFLGEEKPMRFTEAEKAGFFKRLFGGK
+>tr|A0A0P0M9L9|A0A0P0M9L9_9BURK
+MRKCEVYRTGVFPMDAEHINQIGTTLTDLSARTQELRGYL
+>tr|A0A0P0M8H5|A0A0P0M8H5_9BURK
+MLTVEGLNAWYGQAQALFDVNVSVGEGELVVIQGLNGAGKSTLLQSLIGIGPRVQGRIIW
+QNEPIQTWPAHRRAQAGLGFVAEDRRLFTALSVQENLWIAAPSGSIARATTAQRFERVMA
+LFPQLQTMLHRPASQMSGGEQQMLALARTLMTGPRLLLLDEPCEGIAPVLVAAMRDALLQ
+LAREGVAMLVAEQNNILAQHAQRVLVLTSGRMDLAA
+>tr|A0A0P0MB29|A0A0P0MB29_9BURK
+MTYAHETRRRRTFAIISHPDAGKTTLTEKLLLFSGAIQIAGSVKARKASRHATSDWMEIE
+KQRGISVASSVMQMLYREHVINLLDTPGHKDFSEDTYRVLTAVDSALMVIDAANGVEAQT
+RRLIEVCRQRDTPIITFVNKMDREVRDPLDILDEVERELGMPCVPMTWPVGQGKSFGGIV
+NLRTQAMTVFDSGSERLPQDFETIPLTEQAQLAERFGLEWQTAMDSMELATGASPAFDEA
+AFLAGKQTPVFFGSGVNNFGVMEVLDALVDLAPAPKPRTSNLLVNKQPVVKEIQPEDSAF
+SGVVFKVQANMDANHRDRIAFVRMASGKYTPGMKLKVQRTAKELRPTSVVTFLSQRREAV
+DEAYAGDIIGFTTHGGVQLGDTITDGANLQFTGLPFFAPELFMTVILKNPLRTKQLQTGL
+DQLGEEGAIQVFKPEIGGPMLLGAVGQLQFEVVQHRLKAEYDCDVRLEGCQYTGARWITA
+DTPAELREFTNAYPQRMSLDAAGTLAYLCTSPYDVRLAQERFPKIHFHPLREHAGLALGS
+AG
+>tr|A0A0P0M8R3|A0A0P0M8R3_9BURK
+MRESGHPIQLPMRNGVSASVVSVPHGAPQLLDFLAQRMPGISRSEWAERLAHGLVLHEDG
+QAALPDQSCQPGQRLYYYRHLDDEPVLPFQAQVLFEDDHLLVVDKPHFMPVTPSGRYVQQ
+SLLVQLKRQTGCADLVPLHRIDRETAGLVLFGKRMQDRDAYHALFRDHLIHKTYHAVAAH
+APHLKLPLVHTSRLVPGEPFFRTQEVPGPANSETRIALLYNDGQRALYALEPISGKRHQL
+RVHMNAMGIPIEGDQFYPSVLRGPDAPEDFSKPLQLLAQSVRFTDPITGQTRTWTTRLRL
+TLSPP
+>tr|A0A0P0LGZ5|A0A0P0LGZ5_9BURK
+MNAYQPRTDDMQFLLSRVLNAPTQLQALPVFAEVDAELMQQVLDEAGKFVGEVVAPLNRD
+GDEIGAQWKDGAVTMPPGFKDAYQSFWQAGWPALAASAEDGGQGLPTVLEAMLYEMLSAA
+NHGWTMAPGLLHGAYECIKHHASDELKALYLDKVATGEWLATMCLTEPHAGSDLGLARTK
+AVPLPDGQYAVSGTKIFISGGEHDLTDNIVHLVLARLPDAPPGPKGLSLFLVPKFYPDGS
+RSRVHCDRIEEKMGLHGSPTCVMRFDEAVCQMVGEPGKGLNAMFVMMNAARLHVALQGIG
+LLDAAWQKADAYAQERRQMRAPGRGKSAGEADLIGEHPAMRRILDTQRAWVDAGRVLAYR
+TAMELDLIKHSPDPDTQAAAQRWCALVTPVMKSVFTHQAFHGGSDCLQVFGGHGYVREWG
+IEQIVRDARVAMIYEGTNEIQAIDLLVRKVLADGGTGMNALLDTIAADLPAGAKASKAHT
+PAQARVQTLRAITQQIVQAAPKDAALAYRVADDYLRAVALVLMDWAWLRIEAGVDASTPH
+ADARWRAPAQALRSWVLPEFQMRTFIIVQQCVAA
+>tr|A0A0P0M6J3|A0A0P0M6J3_9BURK
+MNDSATCQPALLIIDDHPVYREALGEALAKDFAPLGVDVKTASNASEGMTLVDESKQPWI
+VVLDMLMPGLSGLAGIKVFRSKANVAHVVSISGLDADLWEPRTVAAGAALFLSKNNTSSV
+IFKRLKALYNGTPWHHPQGALNESSEYRLTQRQLEVLTLISMGHPNKIIADLLEIKEQTV
+KIHINQIFKELRVFNRTQAVLKAQKLLLPTVSTQA
+>tr|A0A0P0M8J4|A0A0P0M8J4_9BURK
+MSLIPKKGTVYVVDDDEAVRDSLQWLLEGKDYRVRCFDSAESFISRYDPREVACLIADIR
+MGGMTGLELQDRLIERKSPLPIVFITGHGDVPMAVNTMKKGAMDFIQKPFKEEELLSLVE
+RMLDEARDSFSDYQQAASRDALLSKLTGREAQVLERIVAGRLNKQIADDLGISIKTVEAH
+RANIMEKLNANTVADLLKIALGQNAPKA
+>tr|A0A0P0M8M6|A0A0P0M8M6_9BURK
+MSTASSQLPVIVAGGGIGGLAAALALVRQGFAVTVLEQAPEIGEIGAGIQIGPNGFHAFD
+ALGVGEKARGRAVYTDFMVMHDAIDEYQVGKIPTDEKFRQRFGNPYAVIHRADVHLSLLE
+GAQETGQVQFHTSTRVVRIEQDDYSVTVWDQNGNAFKGCALIGADGVKSVVREQFVGDPA
+RVTGHVVYRAVVDKKDFPQDLQWNAAAIWVGPNCHLVHYPLRGGEQYNVVVTFHSRQQEE
+WGVTEGSKEEVQSYFQGICPKARQLIDLPKTWKRWATADREPIGQWTYGRVTLLGDAAHP
+TTQYMAQGACMAMEDAVTLGEALRTHHNDWPKALDMYQRARVARTARIVLSSREMGRIYH
+AKGVERLVRNDLWRGRSPERFYDAMEWLYGWNVGNCLDTAQHKA
+>tr|A0A0P0M9V9|A0A0P0M9V9_9BURK
+MAHQQVLIAGGGIGGLAAAVACTQQGAPVQLLERAAQLSEVGAGIQIGPNVTRILQAWGL
+GEALAQVAAFPKQLQARDAQTGQVLGTLPLGERAQALYGAPYATIHRADLQGLLHRAAQA
+AGVDMRLGQTVHDWCETADGVQVNTADGPGVQAGALIGADGVWSAVRQQLLGDAPARFTG
+HLAYRALVAQADLPAHLRSDQVTVWMGPRLHVVHYPVRSGQWLNLVAIVHGAKPEPSQDW
+DQVGHTQALMQAMGAVGHDLHERLASVPAWRQWALHDREPLNGANQMAQGRVALLGDAAH
+PMRPYLAQGAGMAIEDAQVLAQCLCIDKATVTEQLKAYAQARWARNARVQARAIRNGRIF
+HAQGAVALGRNLSMRLMGERVMDVPWLYGGGPIGH
+>tr|A0A0P0M7I9|A0A0P0M7I9_9BURK
+MSTTARRPVSRNIAMVLACLLGMSLACAEPDEEALGKNAGYPISPGQGVSQMQYRVGSWS
+ALDKVPGILTHKVAKGDAPTPLPKASASIDIRYRHRNLGYTLDEYLDRRRITGLLILKNG
+EIVAERYRYGRTEQNRFLSFSMAKSVTSLLVGSALSRGVIKSIDDPAALYAKDLEGSPYG
+QTSIRHLLRMSSGLTFTERYDGQDDVAKLSRSVATGNPSVVSVLRSITDRHSHAGEKFVY
+ASAETEVLGRVLTAASGRTMADLTSEWLWRPLGAEQDAFWCTGKDRQESAYFCFNATLRD
+WGRLGHMLARDGKVGDVQVIPQAYLLDGTDPARQPAAFRPYRATPGVGYGYQFWLLPQKE
+RSFGMQGIHGQTVFVQPATGIVMVQTAVYAGASGAIDPDAYAERASFWQGVLQSLGGDTN
+RY
+>tr|A0A0P0M7H5|A0A0P0M7H5_9BURK
+MSLTPDPTSAVRPWQAVYPQVGIAPVLPAPEHQSLAHLIHDHCVRWARDSQAKAAFTCVV
+PNGMNGSLSFAQVDALSDAFAGYLRGTLGLARGDRVAVQLPNSLPYPVVAFGVLKAGCVL
+VNTNPLYTVSEMVHQFNNSQAKALVVVDMFADKLPEVLAKTGVKHIVLAGVPEFFPAIPR
+GIIRGVQKVWSKVLPPVTVPHVRLQAALAQGRATLAQQPARGYWQDLQPHDLALLQYTGG
+TTGVSKGAMISHGNLLRNVQQMLAMGSTHMTPGQECVLTALPLYHIFAFTANLLGFLAIG
+AHNILVPSPRPVQNLQRAVENYPLTWMTGVNTLFNGLLNEEWFLAYPPKHLKASIAGGTA
+LHSAVAQRWREVTGTPIAEGYGLTETSPVVSFNPLSGEPRVGSIGIPAPGTDVRLVSEAG
+QDVPVGEPGEIWVRGPQVMQGYWQNEAETAKAMQDGWFATGDIGVMDAEGFFRIVDRKKD
+MVLVSGFNVYPNEVEDVIAQMDAVLEVAVVGTPDERTGEAVRAYVVPNPDHAGQLRTEDV
+LAHCKQHLAAYKRPSSVVLRDELPKSPIGKVLRKDLKAEVKNEFKRA
+>tr|A0A0P0LNX2|A0A0P0LNX2_9BURK
+MSFVPPWLGLLWVLMALGLLAAGVLQRGLKKQVQVVGLERQSQTNRRIAQAHLADLDRAL
+AEGRLTALQHEVARDELLRHLLDDAAQSDEAPVAAVPARWLWWVGALVVLSGLSYLQLGA
+SHAWWPKPLSQRVQISATTPEQWAEQTRVWQEATQKRPEDAEAWLTLARLHAAQNAHAPA
+EQALARVLALSPEPDLWIERAQMKALSAGGVYTGEPWQWIQDVLRTQPQHLNALVLAGSA
+ALSEKRHAAAQDYWQRALALVPADSEAGQGLQRALAKVAERVAELAAAPAAVGEARAGAL
+SAATPVGDVKPLIQGEVRISPEVQSQIAAGATLFVYAMAEEGSRRPVAIWRGTPTSWPVR
+FALNDSMGMGAPPVLSSLAQVRLVARISKTGSAQKQEGDLQVELPGVKTGVQGVVLQISG
+R
+>tr|A0A0P0LU37|A0A0P0LU37_9BURK
+MTATMTTTIHPAVRRQTIADALRRTAIRLPTKTGIVCGATTWTYAEFDALVTRLAAGLAR
+IGVAEGDKVAVLARNSHGFAALRFALARRGAVMVPINFMLKAEEVAYILRHAGAQTLATD
+SGLAELAQAASQLDTKVGQFIWLPSEDPSQPVAGMHNFDVLAACTDVLPDVPLGSYDVAQ
+IVYTSGTESSPKGAQLTHDAVMWQYVSCVIDAEIAEQDVALHALPLYHCAQLDVFFGPAI
+YMGSTNVITSKPTPDNLLPMLEKFGITSFFAPPTVWIALLRSPLMDAGKLARLAKGYYGA
+SIMPVEVLKELAARLPQVRLWNLYGQTEIAPLATLLGPEDQLRKLGSCGKAVRNVETRVV
+NDAMQDVAVGEVGEIVHRSPHLMLGYFHDDERTRASFEGDWFHSGDLGLIDDEGYITVVD
+RKKDMIKSGGENVASREVEEMIYRLPQVSEVAVIGLPDPKWVEAVTAVIVVKAGQTLDEA
+AVVAHCAQHMAGFKCPKRVVFTDTLPKNPSGKLLKRDLRVRYA
+>tr|A0A0P0M981|A0A0P0M981_9BURK
+MPEHGRSWLQTVALLGAMWVGVPSAQAITVLDDRQQKVQINQAPQRIVSLLPSLSETVCA
+LNQCHKLVGLDRYSNWPESVQSVPRVGGGLDPNIESIVALKPDLVLAAGSTRGADRLQAL
+GLNVLRLEPRNHADAQRVWRTVAQALHVPATDSDRVWQGIQAGVQAAVQSLSPTAQRQRV
+YFEVSPAPYGASESSFLGETLTRMGVTNILPASMGPFPQVNPEWVVQARPDVIMAGDSSR
+ASMLQRPGWSRLRAMQGPRLCVFKQSDSDMLVRAGPRMAEGAQLMADCLNRAAAQADTGV
+QR
+>tr|A0A0P0LGS8|A0A0P0LGS8_9BURK
+MSSITIRQAVLADLDAVAILFDGYRQFYGQARDEVAAKTFLQARFEHGQSVVLLAESQGQ
+AVGFTQLYPSFSSVSMARVFVLNDLSVAPTARRLGVGEALLAAAADHSRQLGAVRLSLNT
+DVQNLPAQALYASLGWVRDEKFYAYHLALG
+>tr|A0A0P0MBF5|A0A0P0MBF5_9BURK
+MARFDVYANPGNHAATTPYLLDVQSDLLNGLDSRMVIPLRSLKHFPKVKLSTQLTPIFTI
+EGEKYLLETPKMGAIPLRVLKSHVTSLAQAQDQITAAMDFLFQGY
+>tr|A0A0P0LH08|A0A0P0LH08_9BURK
+MNIPIPTGQPAVSDFVFRAADRMRIEGCANAIAREGLNLALFCPFEALLDHYTGLLLQRL
+RQQAPEHSIEVYFPANTDSLLGRFNEVLAKQSVQQATKVPAAAEHTQIWVVHDAQKLPES
+EIQLLARLIQNFPGANIRAILLMSGHEASKIPLPAFGRKILRWDIEAPTDEQAQAALEQA
+QHSGHFTAVHQLLQRIQRKPLAAAAFSASAVSPNAAAAANTPLAPKAPAPSTAVQRLHTF
+QQHGANSLKNLRTRLQSLGKSPNWVRQHAKLSLAIVAALIASTLFMLWLQPEAFGLMSLQ
+KPPPPPKAQALPLPPVALPSPAASAPTAPENNAPKADALSPAAPPAPQAQTRTEPSIEAP
+DAAMQAQAWVRAMDPNSFLIQYGTSTTYEKGLDILRKFPELKNSRIVAAYRPGEKLAHFV
+IVSGPYSPVTQAYDAAKRPGLPQGTWVRSTRNLLDQLKAPTSNQDTPR
+>tr|A0A0P0LKC7|A0A0P0LKC7_9BURK
+MSHLARVVVGLSGGVDSAVTAHLLKQQGHEVIGIFMKNWEDDDDSEYCSSNVDFVDAAAV
+ADVLGIEIEHVNFAADYKDRVFSEFVREYQAGRTPNPDILCNAEIKFKSFLDHAMRVGAE
+KIATGHYARVRQNTVSGLFELLKGLDPSKDQSYFLHRLNQAQLSKTLFPVGELHKTEVRR
+IAEEIGLPNAKKKDSTGICFIGERPFREFLNRYISKEPGPIKDSTGRTIGRHVGLSFYTL
+GQRQGLGIGGIKAKGAEMKALQAQGLRGAGEHTPWFVARKDIPNNTLWVVQGHDHPWLLS
+PQLQATDVSWCAGQAPTPGAYAAKTRYRQADASCSFQPQTMSDGQPGFSLDFAEDQWAVT
+PGQSAVLYDGEVCLGGGVIHSAITRTD
+>tr|A0A0P0MB85|A0A0P0MB85_9BURK
+MPHSAPLHRHDQRALLMALVLVVIWGGNFTLQKYLFDLITPGGFLWARYLLMPACALLLM
+RWRFGFWLPPLPRQDWMHMAWLGFIGHSLHVGLVTYGIHWSTAFSSSVILACGPIFTLLI
+LYKQGQERLSWPQIVGVSLAFCGVLMFLSDKLLGGNWRAGGGDLVLLVAASFFSYYTVAV
+KPVMQKHGPVLTMGYATLLGGLPVMLLSVPAGMAANWAALDFWAWVGLFWSILVSAFIGW
+LAWGWINNVRGVARTAPLMYLMPPMAGLFAWALSGEHYTWIKIAGAGVTLVGVALAQYAG
+QIKWRWR
+>tr|A0A0P0LIK2|A0A0P0LIK2_9BURK
+MSLRIFNTLSRAVSDFSPAEPGHVRMYVCGMTVYDLCHLGHARSMIAFDVVQRWLKASGY
+QVTYVRNVTDIDDKIIKRALENGETIRGLTDRMIDALHQDADALGIERPQHEPRATDYVP
+QMLSMIGTLEQKGLAYRAGNGDVNYSVRKFAGYGKLSGKSLDELNAGERVAVETDKQDPL
+DFVLWKSAKPTEPEDVKWASPFGTGRPGWHIECSAMACELLGQTFDIHGGGADLQFPHHE
+NEIAQSEGANGQPLARFWMHNGFINVDNEKMSKSLGNFFTIRDVLKEFDAETVRFFIVRS
+HYRSSLNYSDVHLNDAKGALKRLYTALQAVPPAQVKIDWTDPLAARFKAAMDEDFGTPEA
+VAVLFELAGEANRSGSAERSGLLKALGGLLGLLQTDPTVYLQAGAGLDEAAIQAQIQARA
+DAKKAKNFAEADRIRNDLLAQGIVLKDSSAGTTWEAAP
+>tr|A0A0P0LS76|A0A0P0LS76_9BURK
+MLFSPFESRRLALLRHARCLAKLTLSVGLIGVTSATWAQTPAAAEEAIKKALQAGQLTQA
+RQLVQKERQNAPQAVQWRFMEGVVQAQQGQIDKAIETFKQITQTHPDHSEAYNNLGVLYA
+SKGELEASKTYLEKALQTHPSYAAAHRNLSDVHSQLAKQSYAKALQVDPKAMASAPQLTL
+LGSMGNQQRVQPPATHVASLARPAEPAASPAPAAVPAPAAPPTVAAASAPAATTVAKATT
+SAPAAAPTASAAAAATAPAKAAAPAKPSTTVAAAAPAAAPAAPPAEKPAADTRQADRAAI
+DKAVRDWAKAWSNKDMPRYYAAYASNFTPANRASRSQWESDRRIRIVSKKSISVEVREMK
+VSFTGETASVRFQQLYTSDNLKGSSRKTLEMVRQGNRWLIVRESVN
+>tr|A0A0P0LVX4|A0A0P0LVX4_9BURK
+MSVHTKILAQRAAQVLAEAVPNVPSPCISVCVMDPQAEVCVGCWRSLQEIGAWSRMPDEA
+KRQVWQRIQQRLTGLGGA
+>tr|A0A0P0M9D4|A0A0P0M9D4_9BURK
+MYQRILVATDGSTLSKKAVASAIELAATCGAELIAIKVVPRYPQAYFEGSIPLSSEEIAR
+VEAQWTESARVQLATVEKSAKAKAVSTKVITVKSDVVSDAIIAAAKKHKADLIVMASHGR
+KGIKRLLLGSETQQVLTHSHIPVLVLR
+>tr|A0A0P0M9S3|A0A0P0M9S3_9BURK
+MTSFDEIRLEEGQVLFKAGEPADKLYFIQSGSIRMADKNTGAVFATLKEGDSFGEQAMLQ
+GGIRGATALAGDGTVLLEITAEGLRGMLKTASPILTAVFEAMMLQQNMQNALRTKV
+>tr|A0A0P0M895|A0A0P0M895_9BURK
+MDEAKAWQARPLEALYPIVYQDCTHVKTRDSGAVRAKAVYLALGINMAGEKEILGLWIAQ
+TEGAKFWLQVVTELKNRGVVDIFIACVDGLKGFPKAIEAVYPQTAVQLCGVHMVRHSLNC
+VSWKMRKAVAADLKTVYSAATADEAVLRLEEFADQWGQDYPTIVKSWRSNWPRIVPFFEY
+PP
+>tr|A0A0P0LAE3|A0A0P0LAE3_9BURK
+MSQHFDALETRAPEVREAALMAALPAQVAHAKAKAPAFADLLKGVDAAAVYSRAELAQLP
+VIRKYELLERQKAARAAGDNVFGGFSTLGFGPGMTRVFASPGTIYEPEGTRSDYWRMART
+MFAAGFRPGELIHNCFSYHFTPAGSMMETGAHALGCTVFPGGIGQTEQQVGAMAELQPAG
+YIGTPSFLKIILEKAAEMGVALPSVRKALVSGEAFPPSLRDWMTAHGVDAYQCYATADVG
+LIAYETAAREGLVIDEGVIVEIVRPGTGDPVPEGEVGELVITTLNPDYPLIRFGTGDLSA
+ILPGTCPTGRTGQRIRGWMGRADQTTKIRGMFVHPAQVAEIVKRFPEVSKARLVVTGEMA
+NDQMALHVETAALSDDALRARVSEAVRDVTKLRGEVHLVATGSLANDGKVIEDARSYQ
+>tr|A0A0P0M9R4|A0A0P0M9R4_9BURK
+MKRRSLVSAAGLAVTVLASGSAWAQAYPNKTIRLQVPFAPGGTTDIVARVIAEPLGKALG
+QSVIVENKAGGGGVVGATETARAAPDGYNLGMATVSTTAANPAINPKIPYNVLTDFTPII
+NIAATPNVIAVHPSFPAKDYAGFVAELKKNPGKYSYASSGTGGIGHLQTELWKSLTGVFI
+THIPYRGAGPALNDTVAGQVPIIFDNLPSALPFIQSGRLVPIVVAAPQRLAQLPNTPTFK
+DVGLEPVNRMAYYGILGPKNLPKEVVDKISAGVKKALQEPGVTKRINDTGSLVVANTPEE
+FTAQIKAEFEVYKKVVDQQKLKLD
+>tr|A0A0P0MAE2|A0A0P0MAE2_9BURK
+MSPPLFLKPLQHLGFAWFAMVMGLCGLSLAWHRASAFWGDAAVLVSAMWGVVAASALSAL
+MLATALRLWWFPEMVRADLKHPVSHVFVAALPASWVLMASVGAVHWGFSTWADILWMLGS
+AGLLGVSGVVVLSWFRSDRSQDRFWLGMTPALFIPVVGNVLPALAGVGLGHPVWAAVQFG
+LAALLWPVAWGLIGWRILRLGMWPQRLLPLTFITVAPPSVLALSGLNLGLPQALVLGLWC
+LALLFFLGSAGVARGILKQAFGMPFWGMSFPLAAFAALSLALSLGDARAQHWALSGLFLV
+TVLIAWLLLATLVGVWQGRLLVPEPSVP
+>tr|A0A0P0MBD8|A0A0P0MBD8_9BURK
+MPTINQLVRQGREVETIKSKSPAMQNSPQRRGVCTRVYTTTPKKPNSALRKVAKVRLTNG
+FEVISYIGGEGHNLQEHSVVLVRGGRVKDLPGVRYHIVRGSLDLQGVKDRKQSRSKYGAK
+KPKAK
+>tr|A0A0P0LCP9|A0A0P0LCP9_9BURK
+MSKLPSVLANLPFPAIASPLFIISNPKLVIEQCKAGIVGSMPALNARPAAQLEEWLIEIT
+ETLTAYNKANPDKPAAPFAINQIVHKSNDRLEHDMAMCVKYKVPIIITSLGAREEINAAA
+HSYGGVVLHDIINNKHAHKAIEKGADGLIAVAAGAGGHAGVKSPFALIQEIRQWFDGPVA
+LSGSIATGDAILAAQAMGADFAYIGSAFIATHEARAAEEYKQAIVDSNSDDIVYSNLFTG
+VHGNYLAPSIRAAGLDPENLPESDPSKMNFGGDAKKAWKDIWGCGQGIGAIQSVQSTADL
+VAQFKAQYQAARARLAL
+>tr|A0A0P0LEQ7|A0A0P0LEQ7_9BURK
+MSTSTPQPVLSIRQLSVALPAGGDRAHAVHQVSLSILPGQTLCVVGESGSGKSVMATTVM
+GLLAKELRPSGGEVVLQGESLLGASAARLRDLRGRSMGMVFQEPMTALNPVMTCGDQVDE
+LLSTHTDWPRDQRRAEILRIFERVRLPDPERMLRSYPHQLSGGQRQRIVIAMAVVLKPAL
+IICDEPTTALDVTTQKEILRLIADLQREQGSAVLFITHDMGVVAEIADEVLVMNQGEAVE
+GGPCEQVLRRPKAEYTRQLLAAVPGMTPPVAKPAFSGPALLSGQGVGKTYSSRDWMGRNR
+ATAALQNAHVAVHAGETVGIVGESGSGKSTFARCLIRLIDPTEGRILWGEDEVATLPESR
+LRPLRNRVQVVFQDPNRSLNPRRTVGQSMVEGAMNFGQSRAEAEALAAELMTQVRLPVEA
+LQRYPSQFSGGQRQRLAIARALACRPQVLVADEAVSALDVSVQAQILNLLREIQGRLGLG
+VLFITHDLRVAAQLCDRVIVMHQGHIVEEGPTAELYANPQQDYTRRLLHAAPAALPPMDV
+AV
+>tr|A0A0P0MBK2|A0A0P0MBK2_9BURK
+MKKTPAKGRPAKPSGMLSKLLGQVAVPASRPSAGTTPAACQALLEEAVSDYQKGEWAQAE
+SRTDALLAQSGVPQAYRLSALNLKATLAACTHRLALAVELYQDLLREQPGHVEALANLGL
+SLQKLQRYEEAVVHLRQAIALRPGHANAHLNLGLTYQSLGRTQEAKASYLATLALEPGHL
+QAHFNLAKWWQDAFDFEEASRAYQATLALAPHHADALANLIFVQHYRYPPDEAAHQALLR
+RCAPLYPAAPEWPRRPAQAPTLRVGLVSADFHQHPVGYFLRDVLLALASTAVASGQLRLL
+AYANDTTSDELTACIRPVFEAWHTVDLWTDERLAAQIRSDGVDILVDLSGRTAGNRLPVF
+AAKPAPLQVSWLGYFASTGLPQMDAILADPVCVPEGEESLYVEQVVRLPHTRLCMSPPVA
+APEPSAPPVLRNGFITFGCYQTLPKINAGVLAAWAHILAACPQARLRLQAPQFSDAGQLS
+RFGERLLAAGIDPARVDLLPPVSRAQYLDSYSQVDILLDTFPYPGGTTTAEALWMGVPTL
+TLAMPGMLGRQGQAMLSNLGLHDWVAHSEAEYMAQAVAWGQGGGLVAERLLSLRQQVRSQ
+AASSPLFDAPRFAHDWWAAMQGLWRQKMSA
+>tr|A0A0P0LHL5|A0A0P0LHL5_9BURK
+MNFTRILTLTGIAVLTVGAWQAFGWPGIALAVGGIVMWVLLHFTRMVTILKKAADRPIGH
+VASAVMLNAKLKKGVTLMHVIAMTRSLGLLQSEKDTQPEVFAWTDTSESVVNCTFVSGKL
+TEWTLVRPEVRPEVRPDLPSEVGTPERPEGPNP
+>tr|A0A0P0MBE2|A0A0P0MBE2_9BURK
+MNSTLPKNAAGRGAGLSASNRMAAAWLTLVVMVCAATGPVQAEPAPLQTVPSVDVPRYMG
+TWHEIAKYPNWFQKKCVSSTQATYTLQADGRVQVLNRCKTDKGEWSEALGAARQIGGPNS
+PRLKVRFAPEWLSFIPMVWGDYWIIDLDPNYQWVVVSEPDRDYLWILSRTPQMPAATYQE
+LLGRLHDRGFDLQRIEPSRP
+>tr|A0A0P0MC03|A0A0P0MC03_9BURK
+MRGMPPRERGWQAVWPALAGAAQAASIAWPGSGQAQGWLQVLSLTLLAAGLARMARSGLT
+QDRGGPLLKRAAWFGGVFATAWLAGCFWWLYVSMHHVGGLPAPLAVLAVLALAAALALYY
+AAASAVWVSLARGLVSRRPGLASVLFAALWTLAELMRGRWLTGFPWGAGGYAHVDSALVA
+LAPWVGVYGMGAVAAWLAMRLALVGWHLRALKSLLGVGIVTWALQAFGPVFTTSAGLGQV
+QLLQANISQTDKFQAASGVRDALQWYDEQLRASQQPLVVAPETAIPLLPRHLPQGYWSGL
+QAHFSEPGRPMALVGLPLGSLDQGYSNSVVALGPQGIAPYRYDKSHLVPFGEFIPPGFAW
+FIRMMKIPLGDFKSGAWDQPSLAWQGQRLAPNVCYEDLFGEELALRFKDPSTAPTALVNV
+SNIAWFGDTLAVDQHLNISRLRAIELGRPMLRATNTGATAIIDHQGRVTHQLPRFTRGSL
+TGSFEGRHGLTPFARWASAWGLAPLWALCCVVVAWAFWQRQRP
+>tr|A0A0N7J8N7|A0A0N7J8N7_9BURK
+MTTPFELGTVKNYLLGLQSRITGALTDLDGTPFLTDAWQKDPGEKLQGNGITQILEGGPI
+FERAGCGFSHVTGPQLPPSATQHRPELAGSAFEAMGVSLVFHPRNPYVPTVHMNVRMIAA
+KPEGRAPVAWFGGGMDLTPYYGFDEDAVHFHQTCKDALSPFGEALHPRFKTWCDDYFCNK
+HRHEQRGVGGIFFDDFSELGMDQSFAMLQSVADSLLTAYMPIVMRRKDTPYGERERDFQL
+YRRGRYVEFNLVWDRGTHFGLQSGGRTESILLSMPPEVRWSYQRVDEAGSPEARLLSHFL
+VPKDWV
+>tr|A0A0P0MA69|A0A0P0MA69_9BURK
+MRVTVIGSGYVGLVTGACLSDLGFKVVCLDKDEEKIRALQEGEVPIYEPGLKELLNRNRA
+DGRIRFTTDACEAVEHGDILFIAVGTPPAEDGSADLGHVLSVAATIGRHLKGFKLVVNKS
+TVPVGTADKVRAAISHELVHRGMSPDLFDVVSNPEFLKEGAAIDDFMRPDRIVVGVDEGP
+HHARSRRMMGDLYASFNRHHARTVWMDVRSAELTKYAANAMLAARISFMNEMANLADVLG
+ADVDHIRRGIGADSRIGHSFLYAGCGYGGSCFPKDTQALVNTAKAHGHSMAVVSATELVN
+ERQKMILVDRLTQHMGQDLTGRKIAVWGLAFKPNTDDMREAPSRVVIRQLLLRGAHVSAF
+DPVAGPQALEALHLDMSQEAHLLGRFELAASDMQALEGADALMVLTEWKNFHNPDFEAMK
+AVMRKPFILDGRNLYNPEALSELGMAYQGVGRRNDLAQLMDFGAPVGAATASEWMNA
+>tr|A0A0P0MBB3|A0A0P0MBB3_9BURK
+MTSASAKEHFQSTGLYDPANEHDACGVGFVAHIKGHKTHAIVTQALKILENLDHRGAVGA
+DALMGDGAGILIQLPDALYRDEMAKQGVALPPFGEYGVGMVFLPKEHASRMACEQELERA
+VKAEGQVVLGWRDVPVNRDMPMSPTVREKEPIMRQIFIGRGADVIVQDALERKLYVIRKT
+ASAAIQNLRLTHSNEYYIPSMSSRTAVYKGLLLADQVGTYYLDLQDERCVSALGLVHQRF
+STNTFPEWPLAHPYRYVAHNGEINTVKGNYNWMKAREGVMSSPVLANDLQKLYPISFAGQ
+SDTATFDNCLELLTMAGYPISQAVMMMIPEPWEQHTTMDERRKAFYEYHAAMLEPWDGPA
+SIVFTDGRQIGATLDRNGLRPSRYIITDDDMVIMGSETGVLPIPESKIVRKWRLQPGKMF
+LIDLEQGRMINDEELKAGLASAKPYKQWIENLRVKLDDVAEAPVQAAASAVPLLDLQQAF
+GTTQEDIKFLLAPMASAGEEAIGSMGNDSPLAVLSDKNKPLYNYFKQLFAQVTNPPIDPI
+REAIVMSLVSFIGPKPNLLDINQVNPPMRLEVSQPILDFADMAKLRNIEQATKGKFKSAT
+LDITYPALWGREGVEAKLASLCAEAVDAIKGGHNILIISDRGVNATQVAVPALLALSAIH
+QHLVTAGLRTTAGLVVETGTAREVHHFAVLAGYGAEAVHPYLAMETLAALHKELPGDLSA
+EKAIYNYVKAIGKGLSKIMSKMGVSTYMSYCGAQLFEAIGINTETINKYFTGTSSRVGGI
+GVFEIAEEAFRMHTAAFGDDPLLATMLDAGGEYAWRARGEEHMWTPDAIAKLQHSTRANN
+FSTYKEYAQIINDQSKRHMTLRGLFEFKIDPSKAIPLEQVEPAAEIVKRFATGAMSLGSI
+STEAHATLAVAMNRIGGKSNTGEGGEDANRYRNELKGIPIKLGDSLKSVIGEENVEVDMP
+LAAGDSLRSRIKQVASGRFGVTAEYLSSADQIQIKMAQGAKPGEGGQLPGGKVSDYIGKL
+RHSVPGVGLISPPPHHDIYSIEDLAQLIHDLKNVAPHSDISVKLVSEIGVGTIAAGVAKC
+KADHVVIAGHDGGTGASPWSSVKHAGSPWEIGLAETQQTLVLNGLRGRIRVQADGQMKTG
+RDVAIGALLGADEFGFATAPLVVEGCIMMRKCHLNTCPVGVATQDPTLRKKFTGKPEHVV
+NYFFFIAEEVRQIMAQLGIAKFDDLVGRADLLDMKSGVEHWKAKGLDFGRLLAVPQVEST
+VAVRHVDTQDHGLEKALDNVLIAKSRAAIDKGEKVQFMEVARNVNRSVGAMLSGAVTKVH
+PEGLPDDTLRIQLEGTGGQSFGAFLAKGITLYLIGEANDYTGKGLSGGRVVVRPSLEFRG
+VASQNIIVGNTVMYGATTGEAFFAGVAGERFAVRLSGATAVVEGTGDHGCEYMTGGTVAV
+LGKTGRNFGAGMSGGIAYVYDEDGEFASRCNTAMVSMEKVLSVAEQETQVDRKVWHRDQA
+DEAQLKKLLEDHHKWTGSQRARELLDNWATARAKFVKVFPNEYKRALGEINARKAAKAAQ
+PVTA
+>tr|A0A0P0M814|A0A0P0M814_9BURK
+MCGIVGVVSSAPVNQLIYDALLLLQHRGQDAAGIVTQLDRKFFMHKAKGMVRDVFRTRNM
+RSLPGNCGLGQVRYPTAGNAFSEEEAQPFYVNAPFGLVLVHNGNLTNAHALKAELFSNDH
+RHINTESDSEVLLNVLAHELEKTTRGLPLKPMDVFEAVRGVNRRVKGSYAVIALIAGHGL
+VAFRDPHGIRPLCVGRSEDGTIMLASESVALDGTGHQFERDVAPGEAIFVDLEGQMHSQA
+CSDKAQLSPCIFEYVYLARPDSTMDGISVYQARLNLGETLAKRVISTVPPNDIDVVIPIP
+ESSRPSATQLAHLLGIPYREGFVKNRYVGRTFIMPGQAVRKKSVRQKLNTIVSEFKGRNV
+LLVDDSIVRGTTSREIVQMARDAGARKVYMASAAPPVRYPNVYGIDMPTKEELVAHGRSI
+EEIREIIGCDALIYQDVDAMKTAVAQARVNAAGALSDFDASCFDGVYVTGDISIDDITRL
+NETRLQVEEGDDDNSRLALPNASV
+>tr|A0A0P0M774|A0A0P0M774_9BURK
+MASQMIVNSPPQSLLGSVVDVPGLLVGHFTLSERLTGCSVVLSPQGAVGAVDVRGAAPGT
+RETDLLDPANLVDKVHAVVLSGGSAFGLDAATGVVRWLDEQGIGFETGYGRVPIVPAAVL
+FDLPVVRAGDDPQARPGAEAGYAACQAATTTPPAAGNVGAGAGACVGKLFGLDRCMKGGI
+GNASVRVGPWVVGALVACNAVGDVIDPNTGQVLAGARTVDGKDLLNTHRALLAGERGSRP
+LPGTNTTIGVVATNATLTKAQAKRLAMSAHDGLARSIRPAHTTLDGDTLFALATGTEAGQ
+VDLMLLTVMAAEATAMATVDAIRQARGVTTQTGRIPNADDLTNTA
+>tr|A0A0P0M8R7|A0A0P0M8R7_9BURK
+MPADITQQLSREQQIAALEKDWANNPRWKGVKRGYSAADVVRLRGSMPIEHTLAKRGAEK
+LWEKINGGAKKGYVNAFGAISAGQAMQQAKAGLEAVYLSGWQVAADGNTSETMYPDQSLY
+AYDSVPTMVRRINNTFKRADEIQWGRGINPGDKEFIDYFLPIVADAEAGFGGVLNAFELM
+KNMIASGAAGVHFEDQLAAVKKCGHMGGKVLVPTQEACEKLISARFAADVMGVSTIVLAR
+TDAEAANLITSDHDANDKPFLTGERTQEGFYRVKNGLEQAISRGVAYAPYADLVWCETGV
+PDIGFAREFAQAVHAACPGKLLSYNCSPSFNWKKNLNDSQIASFQDDLSALGYKYQFITL
+AGIHINWFNTFQFAHAYARGEGMKHYTEMVQEPEFAARDRGYTFVSHQQEVGAGYFDDVT
+TVIQGGSSSVKALTGSTEEEQFH
+>tr|A0A0P0M906|A0A0P0M906_9BURK
+MKFLQDIDTRPLLLVPVLALLAWPLIGSGSTWLTLTVAGLAMGMIIFIMASGLTLVFGLM
+DVLNFGHGLFIALGAFVATSVLGAMGDWTGSGEWWRNMLAVLPAMVVAMAVAAAVGLAFE
+RFIVRPVYGQHLKQILITMGGMIIGEELIKVIWGPLQIALPLPEAMRGSVLWGDAAIEKY
+RLLAVAVGLAVFAAQMWVLGRTKIGLLIRAGVQDREMVESLGYRIRRLFVGVFVVGSALA
+GLGGVMWGLYQQNVVPQMGAQVNVLIFIVIIIGGLGSTGGALIGALLVGLMANYTGFLAP
+KVALFSNIALMAAILLWRPQGVYPVANR
+>tr|A0A0P0MBJ7|A0A0P0MBJ7_9BURK
+MAAPLAGPWLAHAQSSTRVKIAAASNLKFVLADLATQYKLQTGVQVDVNLGASGNLARQI
+LQGLPVEQFISADEAWVAELAKSGRTVDAGQRYATGRLALIVPKNSALPLAQGLAAVVRA
+MKAGDKFAIANPALAPYGVAAVEALMRAGVGPLPAGQKVLGDNIGQATQFVATGAAQAGI
+TALALAQAPEIASSLQVLPLPADLHAPLHQRMVLLKGAGAAAADWHRFLLSPPAQAVFVR
+HGYAIPQ
+>tr|A0A0P0MBN4|A0A0P0MBN4_9BURK
+MTDRLKLYLDLIRWNRPAGWLLLLWPTLSALWLAAEGFPGWHLVAVFTLGTILMRSAGCC
+VNDVADREFDKHVKRTALRPVTSGRLGVKEALGLGGVLALLAFMLVLSTNRVTVSWSFAA
+LAVTLVYPYAKRWVAMPQAVLGVAFSFGIPMAFAAVQSEVPPLAWGLLLGNLFWVLAYDT
+EYAMVDRDDDLKIGMKTSAITLGQWDVAAITGFYAAFLTIWALLLNAPERGAWLWLGLAG
+AALQALWHLWLIKDRSREGCFKAFRLNHWVGLSVFAGLVLSYT
+>tr|A0A0P0MBP1|A0A0P0MBP1_9BURK
+MNTAHKLQAVFWLTLSAFLAWDFQASDPVDLRNEPPLIAAGSGQATSGGHCSMAK
+>tr|A0A0N7J8C6|A0A0N7J8C6_9BURK
+MSAANPILNAAAEPLADNVMLKLLNVESAYGPIKAIRGVSLQVRQGEIATVLGSNGAGKT
+TILKTISGIIDPRKGSIEFKGQSITAQDPAFIVQRGLMHVPEGREVFPLLSIRDNLLMGA
+FTRKDRDGVARDMEAVYNYFPILRERAAQDAGLLSGGQQQMLAISRALMANPDLILLDEP
+SLGLSPKLTKEIFEIVVRINRERGTTILLVEQNANMALNASDYGYVLENGRIVMEDSCAR
+LREKDDIKEFYLGMKEEGVRADRRWKKKKTWR
+>tr|A0A0N7J981|A0A0N7J981_9BURK
+MHSTPVAISHPSLGLNRRQAFAATAALVAPAWAQAQKADWADTERAARGQTVYFNAWAGS
+ERINAYLQWAAAELQRDFGVKLQHVKISDAADVVKRIRAEKQAGRKDTEGTVDLVWINGE
+NFAAMKRDGLLSAPFAQALPNFQWVDTVGKPTTLVDFSVPTDGLESPWGMAQLTFFADAQ
+RLPKPPQNMAELLALARSQPGRITYPRPPNFHGTTFVKQALIEHAPDVKALAQTVTPAAL
+AAQAAPLWRFLDALHPHLWRGGKQFPQNSAAVRQMMADGELVMALTFNPNEAANEIAAKR
+LPATVQSWQFAKGTIGNTHFVAIPYNAPSKAGAQLVANFLLSPAAQARKVDIDVWGDPTV
+LDVARLPAAERARFQSASRPGQVAATAPVLPEPHASWVDALEKEWTRRYGV
+>tr|A0A0P0MC14|A0A0P0MC14_9BURK
+MPKPSGFKGNKQDLPQKPCAVCGRAMSWRKSWAKNWDNVLYCSDRCRADKAKAPRS
+>tr|A0A0P0M9H0|A0A0P0M9H0_9BURK
+MITVHFVHGARSYLPELAAYQAHIQSLGHAVQMHTQAHTVPGDAQAVWWICGRVPANQAR
+RFKGAVQVHEYASASVAPLAWLKDRIKQWQHPVPDFRVFQSEWVRQRMGWGDAVREPVPY
+ALRDMGVPASFLTAQALQPPEFDLVYLGEMRRLLHFVPLLQTLGQAGLKLLLVGDVPPAL
+QERLATLGHIQSTGRVPQDQVPSQLLRARAGLNLMPDVLPLSEQTSTKMLEYLALGLPVL
+SNPYAWAQRTARAHAGRVQLLAVQASAAQWQAAMQALPQRQTDRQHLVSLSWSHQLQALP
+VWAALLGDGL
+>tr|A0A0P0M9M1|A0A0P0M9M1_9BURK
+MKHALHIDDAEVELSAIRAQGPGGQNVNKVSSAIQLRFDVAGSALPDDVKQRWLQSGDSR
+LTLEGVFILKAQKHRTQEANRVDAWARLYETLDLYAKPPKPRKATKPTYGSVQRRLEGKA
+MQAKIKSGRRKDTGD
+>tr|A0A0N7J8P5|A0A0N7J8P5_9BURK
+MYIKKVAPPSGLLEEIEGSVQGHRDGHGFLIRDNSESDIYLSPNEMRAVLHKDRVKVRIV
+RQDRKGRPEGRIVEIVERPEHPIIGRLLHEGGLWLVAPEDKRYGQDVMIPKGATGTAKPG
+QVVVVELTEPPALFGQPVGRVKEVLGEIDDPGMEIEIAVRKYSVPHEFSAGCLEQAKGLP
+DKVLAKDRKDRVDLRDVPLVTIDGEDARDFDDAVYCEPAKVGRGKGWRLLVAIADVSHYV
+QTGSAIDIDAYDRATSVYFPRRVIPMLPEKLSNGLCSLNPDVDRLCMVCDMLVNAKGDVH
+AYQFYPAVMHSHARFTYTEVAAILANTRGPEAAKRKERVTDLMNLQDVYRALLASRAVRG
+AVDFETTETQIVCDESGRIEKIVPRVRNEAHRLIEEAMLAANVCSADFIQQGKHPGLFRV
+HEGPTAEKKDILRNYLKALGLGMSISDEPHTSEFQKIALATKDRPDAQQIHTMLLRSMQQ
+AIYTPVNSGHFGLAYEAYTHFTSPIRRYPDLLVHRVIKAILLERKYTLPSLPVPGEAHAK
+LSKRLEKSRAAKGDAPESSAPRVRMSAADQRAWEAAGLHCSANERRADEASRDVEAWLKC
+KYMREHLGEEYSGVVSAATSFGIFVTLDTLYVEGLVHITELGGEYFRFDELRQELRGERT
+GIRYAIGSRVQVQVSRVDLDGRKIDFRLVTAGDDLVPRAMRDKGLSAPTEGVRNKKRGAQ
+DRRLADAERNRSPIQALKASVKKAAAKKKGARTTKPRR
+>tr|A0A0P0LTB8|A0A0P0LTB8_9BURK
+MKKNFPLQAEGKHPDRVLEAVKHEIRKYFKRERNRDVPKGVDFWDFDCKVGLSADIAEVV
+RVSAVIEAVDAAAKTGATSVYVEILSKHGVRVIKAPSQQADEDHLDGLKNA
+>tr|A0A0P0M7S8|A0A0P0M7S8_9BURK
+MQSYYPERFERDMGTSETEWLTALPRALGEHAFELGTGQARVQIDDGHLQLQWRILPPRV
+IALLRLQRLAVSFVFEGVQEDGRQRFMKRFDLTMQRGGG
+>tr|A0A0P0M896|A0A0P0M896_9BURK
+MIKPPPFQPARTRPGLSAAQRQLLRHVSRSFDLSIRLLPQALQAPVAIGYLLARATDTVA
+DTTALPLDERQVLLDLMSEAIAAPSTSVPKSHELSRLTQAFAAQQTDPHERALMQALPQC
+LPLLFSLSQADQASVRQVLGHITQGQQLDMTRFGPGLHALQTEAELAEYTWLVAGCVGEF
+WTELCGRHLPGYSLLPQEEMMRIGRSYGMGLQRLNIIRDAGADLAAGRCYWPVEILAQAG
+LTPALLAQATKTPHTDTLHALAPLYTQWLENTQAQLADGMRYALALKPLRLRLASALPAL
+IGARTVALLRQAGPAALNQRVKMPRHEVHALLWRIALGLGSADVLQKEYRKLSGKPLP
+>tr|A0A0P0MB11|A0A0P0MB11_9BURK
+MPALRPVLFVPHGSPMFALHPGAAGAAMTQVAAQLGTPRAIVVVSPHWETAVPTVGFATR
+PETIHDFGGFDPRLYEMQYPATGCPEVAAQVVNALQTAGLPVAQDAQRGLDHGAWIPLRQ
+MFPDADVPVVPLSVQSHLGPEHAYRVGQALAGLAQQGILVLASGNITHNLRDFMVVRMQG
+GATPAYVQTFADWIHTHMAARDVPGLLAYRQQAAGQRAHPSDEHLLPLFTALGAAGADAQ
+AEAFFRGISDHVIAMDGYAFH
+>tr|A0A0P0LGM2|A0A0P0LGM2_9BURK
+MSDTTAPAAPAQDENQLIAERREKLKAMRQAQAEGKGVAFPNDFKPEHHAANLHEAHGSK
+EAEALNGEGVAKTMAKVAGRMMLKRVMGKASFATLQDATGRIQVYVTRDDVGEDLYALFK
+HWDLGDIVGVEGHLFKTRTGELSIHATGIRMLTKSLRPMPDKFHGVADQEVKYRQRYVDL
+MTDEAARKRFAARSKAVSGIREFMVQHGFLEVETPMLHPIPGGANAKPFVTHHNALDQEM
+FLRIAPELYLKRLLVGGFERVFEINRNFRNEGISVRHNPEFTMMEFYAAYWNYQDLMGFT
+ESLIRDAAMTAVGTLDLTYNGKPVDLNKPFARMTIREAIVKHTEAGDNVDNAEWLINALK
+KLGMSEAKDKLSTRSLASLQVFYFEETVEDKLWEPTFIMEHPTEISPLARANDTRPEVTE
+RFELYITGREFGNGFSELNDAEDQAARFQAQVAAKDDGDDEAMYYDHDFVRALEYGMPPA
+GGCGIGIDRLMMLLTDSASIRDVILFPALRHVQE
+>tr|A0A0N7J876|A0A0N7J876_9BURK
+MSTLRSYIFLDRLQPQLMCLLGSTARGFLPRHNDAAMVIEVAPGMDIEWLTDIALKHDDV
+KPGNLVVERQFGYLEFHGQSSSSVKSAGAAVLDAMGVSEKSVLKPEILASKVIDRVDGYH
+AFLINRSKAGSMLLPGESLYIMEMTTSSYALLVANEAEKAANVKLIDCRFMGPAGRLYLS
+GTASDVRTAAAVAEAVICDAGGAA
+>tr|A0A0N7J8S0|A0A0N7J8S0_9BURK
+MSASSSTSKPFELSPMLLLGLAGLLGLIAGAVALWQAPDNYPLMILLVSMALLWIAGVRS
+YLNEKELLQNINRVLDEASGGQLEARITGIPAQGRLVDAAWGVNDVLDQIEAVFRESMTV
+VTRMGEGDFSRQPQAAGLRGLYPQVLTQIATVQQNMATTVQMLNQSMRAMANGAFDLRVS
+TEGQSGEFLSILNDASKTIQVLDTLISDVVRVMDAVSRGDLSHRVHADGNGALGKLKDDI
+NQSLQSLATSMRQIGENAQQVAGAANDTSTAIGQLADGAQSQTQFIGHMVSAIRQTAAAV
+NDISSNTEYASRQAQESTSIVRDGQHKMVQMVDVVNGIALSSEKINKITDVIEKIANKTN
+LLSLNAAIEAARAGEHGKGFAVVADEVGKLAASSAESTKEITQLIQQASQQAKEAVVAVK
+EVSSDMERIVKASTQTDGMLQRISASVEEQTRMIQEINSSVENLEHIARSNSSASEELAA
+AMIELSKVADSTRREITKFST
+>tr|A0A0P0M8K5|A0A0P0M8K5_9BURK
+MTHSSFDLPKPLLARFEQEANVKLQLIQGGDAGEMLNKLILSQAAPVADVVYGIDNTLLP
+RAVAGGILAPFPQAAGSVAHRPALAHMADTAGPDGVVAGLVPINYGYVNLNIDKAWFAQK
+GLALPKSLQELSSPAYRGLLVVPNPATSSPGQAFMLATVAGLGEQAAFDWWARMRANGLK
+VVKGWSEAYYTEFSRNGGSRPIVVSYATSPAAEVFYSKQKISASPTANVFLPGAVFRQVE
+GAALLKGANPAAQAAGVKFIEFLRSPAVQQALQTRLWMYPAEPGVAPDAVFQHAQEPTQF
+EAVSLQALTAQAGSWQRRWTQVVLK
+>tr|A0A0P0LU27|A0A0P0LU27_9BURK
+MSESAVNQPHWVVGVDVGGTFTDLFVLDEKTGQARIVKVPSTRGEEARGFMNGIAKVTGN
+TGADGAKEIATIVHGTTVGTNALLERKIARTGIITTRGFRDVLEMRRRDRPQTWGLRGSY
+TPVVPRTWRLEVDERVLADGQLHTPVDLDQVREQARALLAEGCEAVCVFFVHAYANPGNE
+QAAVTAVREIWPNSYVTAASEVLPEIREFERCSTATLNAALQPVVGSYLQRLDGDLRAQG
+FGGELLIVQSNGGVMSRQTACDVPVRTALSGPAAGVMACAEIARASGFENVITGDIGGTS
+FDVSLVAGGEAALAAQTSIEFGLVVRSPMIQIETIGAGGGSIASVDAGGMLQVGPESAGS
+IPGPACYGRGNTRPTVTDANVLLGRIAADRPLGGGLLQKLDSGLSEQAITQHVAEPLGLT
+ALAAAEAILTVANARMAGAIRVVSIERGHDPRQFAYMPFGGGGGLHVCAMMREVGVTTGI
+VPRYPGVTSALGCVMADMRHDAVQTLNVALVDVAWPELLQRVDSLAAACQVRLDSAAVNF
+VRVDEVISFDMLYMGQTHTLQVPLKREALNAAGLLAAFEAAYQHAFGRVLQGPVIRVMNL
+RYARIGRRPKFDLAVLAPQGEGRTAPVGEQQVYHQGQWWTAQRYERLSLPVGTVVQGPAI
+LEQPDTTVWLEPGFEGRVDKLGNLLVERSEG
+>tr|A0A0P0M8D3|A0A0P0M8D3_9BURK
+MPTPPTLSNNLSFGLQGRVVIVTGAANGIGEACARRFAAEAAHVVLADVNSERGAAVAAE
+LRSAGHSAGFMACDVSRKADVDALVDHVLQAFGRVDVLVNNAGIFKAADFLDVTEEDFDA
+VINVNIKGSFLMGQAAARAMKSTGGGSIVNMSSVNAVLAIPNIASYNVSKGGINQLTRAM
+SLALADFGIRVNAVAPGTIATELARQAVLTSEAAEKKIMMRTPMKRLGEPDEVAKVVAFL
+ASDAASYITGEIVTVDGGRMALNYTVPV
+>tr|A0A0P0LPM3|A0A0P0LPM3_9BURK
+MAETDKAAPAATDEAAAAAEAAAAAAAAEAMRPIIRKIIVEDGHAGAHGGAWKIALADMM
+TAMMAFFLLMWLLGASTEDKRKSVADYFRPASHSQIAFGELAGSNGMFGGQSIIDPDGFP
+FTAKQNALLERMTPQAQGGPAESFGSSKEENNKDGPSEQDPGKESGTGTPEQKQDKENFE
+KLEKDIKQKLSESKQFEKIKDQVSITREKEGLRIEVIDKADFAMFSSGTSNMGGNAAALM
+TEVAKSLKPLPNKLAIRGHTDSMGFAPDSMRNNWTLSTERADATRQLMQGAGLASNRFAK
+IEGVADTAPFVPNNPADPRNRRVSVTVLNQ
+>tr|A0A0P0M7J2|A0A0P0M7J2_9BURK
+MAAFLRRVGRSGQISWQAKVRLNGVYRSKTFVKKSDAAAWATSVENTINEGKPVQQRKQL
+QKTLADIFDDYLDSGLVTDKKERLLRRLAVEIGALKLEDLNTKRLALYLQLKSEQAIPVQ
+ARKKVEHPLYEGGKKIVGGEVVAKTYKPASIRHYYYALRTALLWHAKVNDYHFNDKPFRD
+NPPPPAWKEPRERRLEDGELERLLNACDKMYVNQQHLKDIIEFQIYSCMRAGETLMMRWK
+DLIFDEKKPTSSYIYVPKEHQKIRNKRGAEDREVSMRRELFALVKDRLLPRKAEPEDRVF
+PFWSDSNVLGHRFKVICKNAKSVDLKIHDLRHEGISWLFENTNLTDIQISKMTGHLELDT
+LKRYAKLRPSSIGERLWAQT
+>tr|A0A0P0M845|A0A0P0M845_9BURK
+MSAHPTPHQIQFLRMTHLRGPNIWTYRPVIEALIDIGDLEDCPSNTLPGFAQRLVAWLPG
+LVEHRCSVGERGGFLKRLEEGTWPGHILEHVALELQTRAGMQTGFGKAREAGPRGVYKVV
+IRTRHEAVSRQALLSARDLILAAMADQTFDVASHIAQLTQMVDSLCIGPSTASIIDAAAD
+RGIPNIRLNDGNLVQLGYGQRQRRIWTAETDRTSAIAEGISKDKDLTKQLLGMCGVPVPE
+GQIVDSPQAAWSAAQDIGLPACVKPTDGNHARGVSLELSRQEDIEAAYDIALAEGSEVIV
+ERFILGEEHRLLVVGDQVVAANKGETASVVGDGVHTVQELIELQINSDPRRGEEEDFPLD
+TIRLDEHTTSVLELKRQGLSADSVPEAGRSVLIMRTGNMSMDVTDLVHPDVAAQAVLAAR
+VVGLDIAGVDLVAQDISKPLGPQGGAVVEVNAGPGLLMHLKPATGQPRPVGQAIANHLFK
+PEDNGRIPVVGLMGDGDTTKPAQLVAWLLHLKGLHTGLSCANGLFLNQRQLPTQDGMDWA
+QAQRLLINRGVQAAVFESDARHLLAQGLPYDRCQIGIVTRMPRATGLDDLFPGGDEKMPG
+YIRTQIDVVLPEGTAVLNAAEAEVAALAEHCDGDVLLYADDEHNARLQAHRSAGHRVGFW
+REGQLVLAQGAKEHLVLSSQRPAVARLLKTGSLNTSDMLVAACAAWALDIGTDLIRAGIK
+SYGSLPTA
+>tr|A0A0P0M990|A0A0P0M990_9BURK
+MKVKTKSKKVNKAWLNDHVNDTYVKLALKEGYRARAAYKLKEIDETLGLIRPGHLVVDLG
+SAPGAWSQYLRRRLSPDGAAVGELNGCIIALDILPMEPVEGVQFIQGDFRENEVAALLEA
+ALQGRQADVVVSDMAPNLSGIESSDAARVQHLIELAVEFAQNHMKPQGALVVKVFHGSGY
+SQIVKMFKETFKVVKPIKPKSSRDKSSETFLVGVGLIHGA
+>tr|A0A0P0LJJ7|A0A0P0LJJ7_9BURK
+MKHIIAVLIENEAGALSRVVGLFSARGYNIESLTVAPTEDPSLSRMTIQTAGSDDVIEQI
+TKHLNRLIEVVKVVDLTEGAYTERELMLVKVRAVGKEREEMKRMADIFRGRVIDVTDKSY
+TIELTGDQSKNDAFLEAIDRSAILETVRTGACGIGRGERILRV
+>tr|A0A0P0M6P5|A0A0P0M6P5_9BURK
+MRIDLARTVVVFDLDDTLYQEADYVNSGVRYVCRQINSLYGIDCYEAIQAQRLQDTKLDW
+LTLACELAHLNPSVKESLLWMYRLHLPDIKLSENCSVSLEKIKSTALAVAVLTDGRTVTQ
+KFKLASLGLSHYPVYVSEDYGSAKPAPDRFLAIQKDFPAEKYVYIADNVLKDFIGCNSLG
+WLGIGMRGNDCNIYSQSTLGLPESALPTYWVNNWDELTKLLLNS
+>tr|A0A0P0M7D2|A0A0P0M7D2_9BURK
+MKARLQAADLGFFSALAMAGSLSAAAREMRITTAAVSKRLSLMESRLGVPLINRTTRRMS
+LTVEGETMLRHARSILAEMADLEQQLGASRSTPSGLLRINATLGFGRSHIGPLMSRFVRQ
+YPQVDAQLQLSVDPPALSDDAFDVCIRFGPPPDTRVIARKIASNQRLLCASPAYIAQHGE
+PKTPADLARHNFISIRQGGEAYGVIKLSRGRAGKTETIKTRGNLTTNDGSIAVQWALDGH
+GLLLRAEWDIRQHLASGQLVQVLPQHHTPDADIYAVYPAQLKSAARVRAFVDFVAEAFRP
+SQP
+>tr|A0A0P0LPW0|A0A0P0LPW0_9BURK
+MTGRIRKKLIQAQLEALPAPRTDAVICPLCERPIPPSQQDAHHLVPKSHGGVQTVVLHRI
+CHRQIHALFTETELARTYATVEALKQPEEMARFIRWVQTKPDAFFEKSRKSQRLKSRR
+>tr|A0A0P0M6N2|A0A0P0M6N2_9BURK
+MTDVQAPSQADVMPICGDDYPLTEKQQKLMALARQLGREKFAPRAAQLDRDAQFPFANYN
+DMRDSGLLALCVPEAHGGQGADYATYAMVSAEIGRYCGATALTFNMHVCTMLWSGLLSED
+LEMTPEQRAIHRTHQATHFARVVKDGAIYAQPFSEGGAAAAGAQPFGTLAVKVDGGWKIN
+GKKIFASLSDAADYFGVLCTEKKEGADLSRRDTLYLAVPRTAPGLTVEGDWDPLGMRATV
+SRNLIFKDVFVPDDAALMPQGLYFQAASRWPHMFMTLSPTYMGIAQAAYDFTVAYLRGEI
+AGTGPVKRRQFATKQIAVAEMFIKLEQTRNLFLRAIEDAKVDPSKSTRLRAYAAQYTIME
+NAQDIARLAIRTCGGQSMLKSLPLERLYRDARCGSLMLPWTAELCMDRIGREALYEPGEK
+DE
+>tr|A0A0P0LN91|A0A0P0LN91_9BURK
+MARITVEDCLEQIPNRFQLVLAATYRARMLSQGHTPRIESKNKPGVTALREIAAGKVGIE
+MLKRVS
+>tr|A0A0P0M9G7|A0A0P0M9G7_9BURK
+MSTTRTQVAIVGAGPSGLLLGQLLFKAGIDAIIVERQSPDYVLSRIRAGVLEQVTMDLLD
+EAGVGQRMHKEGLVHTGFDLLFKGARHRIDMDHLTGGKKVIVYGQTEVTRDLMDTRQAEG
+LPTVYEAGNVQVHDFDSQKPRVTYEKNGQLHTIECDFIAGCDGFHGVCRASAPKNAIKEY
+EKVYPFGWLGVLSDTPPVHHELIYANSTRGFALCSQRSATRSRYYLQVPTTDKVEQWSDD
+AFWAELRNRLDPEAREHLVTGPSIEKSIAPLRSFVTEPMRFGRMFLAGDAAHIVPPTGAK
+GLNLAATDVKYLSTAFIEFYADQTEAGIDAYSERCLRRVWRAERFSWWFTSLMHHFPENG
+DIGQKFQDAELDYLIHSEAGSRTMAENYVGLPLNFGE
+>tr|A0A0P0LVN1|A0A0P0LVN1_9BURK
+MPTLQDLTQIEAVIFDLDGTLVHTLGDFQVALHRTMADLDLPPVSDALIEQTIGKGSEHL
+IRSLLAHQIARPEVKGVGQACAALTVDALFDRAWQRYQHHYLAINGQFADVYPGVLEVLQ
+HLAGQGVPMACLTNKPLAFAQALLKNKALTPFFGPVFGGDSFERKKPDPLPILKTCEALG
+SAVARTLMVGDSSNDAQAAQAAGCPVVLVTYGYNHGQPVQDTPAAAWLDSLADLPARMKS
+>tr|A0A0P0M716|A0A0P0M716_9BURK
+MKIRPLLASVCASLDDFLGQPMAIVEGSGASAVAILDANQPVFYVVSPEFWKKISQQDSP
+GRPPRRTVDLDDRDDTEDEEPEPAPAPRSPRVKTARAQMAESVLTQGAMRFNRFDVLADQ
+LIEIENQRVKRGELSAASVGILKNRLDAHVLPYFKYIPPSQVTPMMMDAFVRRLTDSRLS
+STTVSQYLVVVRKLLKLAIRHGFLREVPELPAIKVANRPRSMLSLKEYAAVVHTAHRLAR
+TGDKAPEIKASTGYRERFWVHPRHLSLPPDMAWAIRFMVNSFVRPGDLRQLKHKHVQVVR
+GSSVYLRMTLPQTKRHDAPMVTLRPAVQVYEAALAKARRDGHGEPDDYVFLPAEKDRTYA
+LAVLGFWFKWVMREAGVAPADSLGRLRTLYCLRHTSIMFRLLYGQGIDMLTLARNARTSV
+QMIERFYASALDGEMNVAMLQSRRTSKS
+>tr|A0A0P0M7Q7|A0A0P0M7Q7_9BURK
+MPKAAPTDPADALAAPLPATYEAALAELESLVGQLESGQMPLDQLLTGYQRGAALLAFCR
+DKLKVVEDQIQVLDGGQLKPWSGA
+>tr|A0A0P0M9D0|A0A0P0M9D0_9BURK
+MMFREVSRFWLASLALMVVAGCTSSPRAPAPVETRGSSPKVSAPAAVPAAEAVKVMPGAE
+NAGKPGYYTVQRGDTLTRIALDHGQTWRDLVSWNSLANANLIEVGQVLRVAPPGASVEAG
+GVVVQPIGGTAPVATPTKPAPAPPTAPVAHDEGLGFAWPASGSVIAGFDEAKNKGLDIAG
+NAGDPVLAAADGQVVYAGAGLRGYGNLIILKHNNTFLTAYAHNQALLVKEDQKVRKGQKI
+AEMGKTDADRVKLHFEIRRQGKPVDPAKYLSAR
+>tr|A0A0P0M9W0|A0A0P0M9W0_9BURK
+MVEIELDGQKVEVAEGSMVMHAAEKAGTYIPHFCYHKKLSIAANCRMCLVEVEKAPKPMP
+ACATPVTQGMIVRTKSDRAIAAQKSVMEFLLINHPLDCPICDQGGECQLQDLAVGYGGST
+SRYEEEKRVVFHKEVGPLISMEEMSRCIHCTRCVRFGQEVAGAMELGMSHRGEHAEIETF
+LGQTIDSELSGNMIDICPVGALTSKPFRYHARTWELSRRKSVAAHDSSGANLIVQVKNNQ
+VMRVVPLENEDVNECWIADRDRFSYEALNSAERLTQPMLKQGGEWKTVDWQTALEYVANG
+LRNIQRDHGANSIGALVSPHSTVEELYLAGALMRGLGSDNIDYRLRNAEFGAAEGVRTLG
+TSIASLSTLQRVLVVGSNLRKDHPLFALRVRQAVRYGAQLNVITSPAAFSHADAWAMPVA
+NAVVTDAFAWAQTLADLAVAIAAEKGVPAPCAGTASAAVQAMAKSLLGGERKALLLGNAA
+AHHGNASTLLALANWIGEHTGASVGYLTEAANTVGAQWVGAQPQTGGKHAGQMLAGGLKA
+AVLLNTEPEFDSAAGAAAAKALGQAEMVVTLSPFKANMAFSDVLLPIAPFTETSGSFVNA
+EGRLQSFHAVVKPLAETRPAWKVLRVLANLLDIPGVSFETSQDVLARATAQPLVASSATR
+SAINLSGTTTPAPSVASIYQLDGIVRRAPSLQLTADARQEVTP
+>tr|A0A0P0LT71|A0A0P0LT71_9BURK
+MTINRLPDYLGHMRQAIADAQAFTEGMAQPDFEQDKRTQQAVVMSLIVLGEAATKVMDQH
+PEFAAEHAEIPWRSMRGMRNRIAHGYFDIDLAVVWDTLQTALPTLKVQLDSIFPE
+>tr|A0A0P0M6P9|A0A0P0M6P9_9BURK
+MAVLKLKKWDSAQHLQTEEDMALYLEACLQEAGDDAAFVAKALGTIAKAKGMSQLSRDTG
+LGRESLYKALSGEGNPSFATILKVTTALGIQLHALPVQAH
+>tr|A0A0P0M7M7|A0A0P0M7M7_9BURK
+MKSQAVVFNSPRRLSLQALDLPELQAGQLDVAVEFSGISTGTERMLWDGSMPPFPGMGYP
+LVPGYETVGRVVRAASDTGMQAGQRVFVPGANCFTGVKSLFGGAASRLVVTEQKVVPVAE
+HLGAQSVLLALAATAYHAVSGGGQQDPFDAPELIVGHGVMGRLLARLTVAAGLPAPTVWE
+TQAERSTGAEGYTVVQPQDDPRRDYRTIYDVSGDGSLLNGLIQRLRPGGELVLAGFYKQD
+LSFAYAPAFMREARMRIAAEWKRPDLLAVNELVNTGRLSLDGLITHTQPSTQAGSAYETA
+FGDASCLKMILDWSATA
+>tr|A0A0P0MB07|A0A0P0MB07_9BURK
+MPVNLPPLDPAQLQPIAGVRIGIAEAGVRKANRKDLTVFLLDEGASVAGVFTRNRFCAAP
+VQMCRDHLRAGRAVRALVINTGNANAGTGGPGLAHARQTCEALAGLLQCTPAQVLPFSTG
+VIMEPLPVDRIVAGLPAALADAQAAHWAKAAEGIMTTDTVPKAASVQVQVGGKTVSITGI
+SKGAGMIRPNMATMLGFVATDACIDPALLPALAKQLADGSFNRITIDGDTSTNDSFMLIA
+THKAGNTPITSLDSGEGQALLNGLMQVARQLAHAIVRDGEGATKFITVQVEGGRTGEECR
+QVAYAIAHSPLVKTAFFASDPNLGRILAAVGYAGIEDLDQGLIELHLDDVHVVSQGGRRA
+EYREEDGQRVMKGSEITVRVGLGRGTASDTVWTCDLSHDYVTINADYRS
+>tr|A0A0P0MBU6|A0A0P0MBU6_9BURK
+MDKRQATQKLATFFETLSPQSVTQLHTVYDAQATFKDPFNEVQGLPEIERIFRHMYVALD
+QPHFVVTGQVVDGSQAFLTWEFRFRFKRFDTTTLQAVRGASHVVFNEQGLVTMHRDYWDA
+AEELYEKLPVLGGVMRWLKKRANT
+>tr|A0A0P0MBY5|A0A0P0MBY5_9BURK
+MTVLHSQLNPRSADFQHNAAAMRGLVDDLRAHLERVAQGGGEAARAKHTARGKLLPRDRV
+QMLLDPGTPFLEVAPLAALNMYNNDAPSSGVIVGIGRVSGVDCMIVCNDATVKGGTYYPM
+TVKKHLRAQEIAQQNHLPCIYLVDSGGANLPNQDEVFPDRDHFGRIFFNQANMSAQGIAQ
+IAVVMGSCTAGGAYVPAMSDETIIVKNQGTIFLGGPPLVKAATGEVVSAEDLGGGDVHTR
+LSGVADHLAQNDVHALALARQAVKNLNAQKAPNITTHAPVPPKFDAQELYGVIPTDTRKP
+FDVREIIARIVDGSEFDEFKSRFGTTLICGFARIEGMPVGIIANNGILFSESALKGAHFI
+ELCCQRKIPLVFLQNITGFMVGRKYENEGIARNGAKMVTAVATAAVPKFTIIIGGSFGAG
+NYGMCGRAYSPRFLWMWPNARISVMGGEQAASVLATVKRDGIEGKGGQWSMEEEEAFKAP
+IKQQYEDQGHPYYATARIWDDGIIDPADTRRVLALGLSASLNAPIPETKFGLFRM
+>tr|A0A0P0MAF0|A0A0P0MAF0_9BURK
+MVCMMNADLHCHSVISDGTLTPEVLAERAKANGVELWALTDHDEVGGQDRALAAARAQGL
+PYLTGTEISVTFAHQTVHIVGLGFDPHNANLVAGLRRTRGGRSERAQEMSDGLAKVGIKN
+AYEGALLYVGNPELISRTHFARHLVETGVCSDTSEVFRKYLTEGKPGYVPHRWARLQEAV
+QWITEAGGIAVIAHPARYGFTPNEEYALFSEFKTHGGRGVEVITGSHSSQEAVRYAETAL
+EFDLVASRGSDFHSPEESRIDLGTLPYLPGQLTPVWELLADRVQ
+>tr|A0A0P0MBE8|A0A0P0MBE8_9BURK
+MKIDRIHHVAYRCKDAKATVEWYVKNLNMDFVLAIAEDLVPSTKAPDPYMHVFLDAGGGN
+VLAFFELPNSPEMGRDTNTPEWVQHIAFKVDSLQALEDAKARLQANGIDVLGPTNHTIFK
+SIYFFDPNGHRLELAADVGTPEMYAKLDACKWDMLNEWAQTKRAPKHAAWMHETELHS
+>tr|A0A0P0MB47|A0A0P0MB47_9BURK
+MKTRTHIALAITLALSGITATAQTLLNASYDVAREFYKDYNAAFVAHYKKTTGKDIKIDQ
+AHGGSSAQARAVNDGLDADVVTMNTTTDVDFLASTGVVAKDWSKRFAHNASPTTSTMLFL
+TRNGNPKGIKDWDDLIKPGIKVIVVNPKTGGNGRMAYMAAWGYVKKKGGSDADASEFVSK
+LYKNVPVLAKGGRDATTIFLQRNIGDVLITFESEVISVDREFGTGKVDAIHPSISIVAEN
+PVAVVERTVAKKGTGELAKAYLDHLYSDEAQEIAAKHALRPRNPAILRKHANTFKPLQLF
+TVNEVFGSFADAQRVHFNDGGLFDKIYTVK
+>tr|A0A0P0MB35|A0A0P0MB35_9BURK
+MTTLTSTRPEPSAAKGPAVTPAPPATPVAPQGPGRLVTDAPMRMFHWLFALSFVGAYISA
+DSEHWRMVHVVLGYTTAGLLAFRIVYGLVGPRPIRWSTMWRKVSGAKAWLKTLQTAWRPG
+GAWQAVAWRQAPILGMAISLLALLAVVLPLTLTGYGTFHEWGGDLGGEVFESLHEFFGNT
+ALSLVLLHLTLLAGQSFWRQKNLALPMLTGRLEGRGPDLIAHNRVWLAVVLLLCVLVYIA
+WEIYSAAL
+>tr|A0A0P0LV73|A0A0P0LV73_9BURK
+MTHLIRFLTFTLSGFMFSGIAWAQSSLSVGAGQVLLTPRSADNAPPQAIGLADRMKGQAV
+ATNQWYSGLIFSRQPEVLFAQPYSVRAAATGFEMSLPTRQVIPTERRDTEIHYPHRLPLV
+ISPVTFNATQGKLAKASDWSIDISMGTPTDRFDLTVAHGSPYVFGRISQGPVAFQTSNSS
+HRTHIGNDDRVLTLSSNGQTFAIFGPSGVRWEQAGAKWLAHLPPGKGYFSAAVLPDNRPE
+TLALFTRHAYAFVTQTQVKWQFDQTNSTVKTDYVVTTEVMEGKESKTLQGLYPHHWHQNP
+SVADQLLGQYETIRGAIRLLANNQFSTQLTYRGFVPFWPAVKQHPRLGELADVMKADVRN
+ARRNMLQIGNGPYWQGKGLQRITKVMDVAEQQGDTEAAKRLQSLIKSRIEQWFSGKDRNT
+YFHLDKTLGTVLAYPEEYFAVEQMNDHHFHYGYWIRTMADLALRDPDWASDAQWGAMTNL
+LIRDIATDERGRADFPFLRTFDIYEGHSWASGVGLGDLGNNQESSSEAINAWAALILWAE
+IRGDKALRDLGIYLYTTEIEAIRHYWFDVHNLVFAPEYKNKEVSMLFGGAYKHNTWWTDE
+PRQIKGINLLPISTSSTYLGLDPEHTRRSLATLPEDTRIYESRGKRANPTDMWQDLFAKY
+MGLTDPSAGLKMWDRWGAVELGDTRTHALHFLMSLENMGPPDFSVTADHALHAVFKRKDG
+QRTYLAFNAGIKQRTVKFSDGQVLEVPAGRLAQTTRQVIP
+>tr|A0A0P0MBA3|A0A0P0MBA3_9BURK
+MRIHSSALVASLFGALTLSACSPAQNWRDVAFEGSALKAQLPCKPDRTTRNVPLGGVPVE
+LQVVGCESGAAMVAVMTASLPAGADASAVMAAWQKATLDNARVTQPLAAGQQQIWQRPGQ
+LPLATSVRVQAPGQRANGEPVNMDAVWGALPEGERVRLVHAVVYDLKIAADLANTLFDGI
+KP
+>tr|A0A0P0M7Q0|A0A0P0M7Q0_9BURK
+MSERHPIIAITGSSGAGTSTVTRTFSNIFRREGVKAAIIEGDSFHRYDRKEMKQRGAEAE
+KDGNKHFSHFSAENNLFGDIENLFRTYGATGQGKSRKYLHNAEEAAPYQQDPGTFTPWED
+LPNDTDMLFYEGLHGAVVTPEHNIAQHPDLRVGVVPVINLEWIQKLWRDKHQRGYSTEAV
+TDTILRRMPDYVNYIVPQFEHTHVNFQRVPLVDTSNPFISRDIPSADESVVVIRFANPKG
+IDFPYLLNMINDSWMSRANTIVVPGGKMEIAMQLIFTPFVWRMMERRKRALGQA
+>tr|A0A0N7J890|A0A0N7J890_9BURK
+MKTPPNNQTYVSTSQAAKMLGLSVGTVQRMVQNGVFKAFVTHGGHRRILSTSLRDYCVQQ
+GLSPATPLPASEEALICILHDSTFHAPALDTLVHWPQVTVMTHPLDLMDLDAETNALFID
+ARIPWLHTTPLHLDSARLHNTHLVVYNSQHLPAGSPLAPSPQLSLFEGDISTDLVYGYLL
+CTRHAQEGLAAHH
+>tr|A0A0N7J8I0|A0A0N7J8I0_9BURK
+MSSTDNTRFNLSRWALEHPALTRYLMVVLMVLGMASYFQLGQDEDPPFTFRAMVVRAYWP
+GATAEQVAEQVTDKIERTLQEVPFADKIRSYSKPGEAQIIFQIKDNSKPGDVPQIWYTVR
+KKIGDMRGNLPPGVIGPFFNDDFGDVYGVIYALGGEGFTPAEVKAQADSLRQQLLRVPDV
+AKVELFGVQDEKVFVEVSQKRLSQMGLDMATVLAHLNQQNAVESAGSIQSPADVVQVRVG
+GQFQSLEDLKALPIRGASGAQIRLSDIATVTRGYADPASVKVRHEGHEVIALGVSMAKGG
+DIIALGKSLRVAIAATQASLPAGMSLTQVQDQPSAVSSSVNEFIKVLIEAVVIVLAVSFL
+ALGLHKRPGQHPLWRRWTLDIRPGLVVGITIPLVLAVTFLAMYYFGIGLHKISLGSLIIA
+LGLLVDDAIIAVEMMVRKMEEGYDKVRSATFAYELTAMPMLTGTLITAAGFLPIGMAKSM
+TGEYTFAIFAVTVVALLVSWVASVYFVPYLGAWLLKPPAHAVSAEHLDSAEMYDTPFYRH
+FRAWVTWCVTHRWKTIGITIALFALGMVGMGKVQQQFFPDSSRPEIMVDLWLPEGSPVQA
+SEDITRRVEQRLAQEAGVKSVTSWVGSGVPRFYLPLDQVFPQTNVSQLIVQPSDLKTREV
+LRAKLPALLAQEFPEVRGRVKLLPNGPPVPYPVQFRVVGPDPKVLRLKADEIKAQMRLNP
+NTRGVNDNWNESVKSVRLEVDQAKARALGVSSQSIAQASRTLLTGSAVGQFREGDKLIEI
+VLRQPLAERDALSDLGQAYVPTASGRFIPLLQIATPVLAWEPGVMWREGRQFAVTVQADI
+AEGLQGATVTTQLLPELKKTEATWQGQGLIGYRIEVAGAVEESAKGSASIAAGVPVMLFI
+TFTLLMLQLQSFSRAMLVFLTGPLGMAGVAGALLVLDRPFGFVALLGVIALMGMIQRNSV
+ILIDQIEQDRAAGMAPWQAIVESAVRRLRPIVLTAAAAVLAMIPLSRSIFWGPMAVAIMG
+GLIVATALTLLALPAMYAAWFRIERPNQARA
+>tr|A0A0N7J8L3|A0A0N7J8L3_9BURK
+MSVVMLCTMVLCFALTISVAVSIGLSAIVGIQIGNANMLISVKEMFNSINKFPLAAIPFF
+ILAGNIMETGGISRRLVEFAKSIVGGVQGGLPMTCVLTCMIFAAVSGSSVATTFAIGTIL
+IPALIKHGYPTTYAAALQATSAELGVIIPPSIPMILYGVSAEVSIGELFIAGFGPGLFIG
+FALMLWVWIYCKYKGWGKNDGEGRLSFGKASWQAGWALMMPVIILGGIYGGVFTPTEASA
+VAVFYALIVGTVIYGEIKLKDLAIIMRKSVLSSAVIMFIIANAGLFAFLITRAGVPEAIG
+HWLQDVLKSPAYFLLGVNAALFLIGMFIETSAAIIVLAPILAPVAMHFGIDPVHFGLVMV
+VNLALGMITPPFGVNLFAACTVARISLDRIIKDLIPFVLVILVCLMVVTYVPALSLTLRD
+LVYAK
+>tr|A0A0N7J929|A0A0N7J929_9BURK
+MPPITRLWPLVALLFLQACSSLPPETYTPKLGQMGKDVMWLPTRDELVTQMLTAARVTPE
+DEVVDLGAGDGKIPIAAARQFGARAWGIEYNKDLAALAQRNAQRAGVADRVRIVHGDIFK
+EDFSKATVVTLYLLEELNAQLRPTILKMKPGTRVVSNTFSMGDWEPDQVIRVGTNTGYFW
+TVPAVVAGQWTVQGLDRRGTARMQLTQHHQRVGGTLAWGSQVQPLLGARMDGAQLHFSFV
+NAEGLLQAAKLQVQGQNLNGELVGPYGMVEVQPEVVKVLGQRVGH
+>tr|A0A0P0LFZ6|A0A0P0LFZ6_9BURK
+MKAAIILSSLFLLAACGETRQDKAGVGSDKPAVAGTGVAVFTDPGWKAGDQAGWANHLKA
+RAQYGQNDHARAPK
+>tr|A0A0P0LRU6|A0A0P0LRU6_9BURK
+MTTDARATTTQPPICSTMMQMPLSLNHLLERAGTLFANNEIVSRLPDKSLRRHSYGAFYQ
+RTRQLAQALQNLGLQKGERVATLCWNHHAHLECYFGIPASGGVMHTLNLRLSPEEIAWIA
+NDAQDKVLIIDDVLLPLYQQFAHLYRFERVIVFPFSGAAVPAPFTDYEQLLASTDTQGFQ
+YAPHAEDDAVSMCYTSGTTGRPKGVVYSHRSTILHTLVGCLGDFWGLKGSDVILPVTPMF
+HANSWGIPYGAVMMGVKLVFPGPHLHPEDLLDLMTAEPPTLSLGVPTIWMGLIQAYEAAQ
+TTQPGRWKLPKGMRSLVGGAAVPEALIRAFDQHGIWILQGWGMTETSPLCTVSYPKSELK
+DAPMDERYRRAAMAGVPVPLTELRIRGEDGQDAPWDGQHVGEIQVRGPFITGSYHQVPVS
+DDKFSADGWLRTGDVASVDTLGFVRITDRTKDLIKSGGEWISSVDLENALMAHPDVAEAA
+VIAIPDPKWSERPLACIVLKPGRVPQPEAFAAHLLQHGFAKWQVPDRYEFIDAVPRTSTG
+KFYKLKLRERFPA
+>tr|A0A0P0M6N6|A0A0P0M6N6_9BURK
+MPYGSARAPRRGDVAKRSASEPLRGALTLPAHSDHFFLATTRTISKHCLA
+>tr|A0A0P0M750|A0A0P0M750_9BURK
+MIGEWNNGTGRRKSSVARVFLKKGTGKITVNGKDIQAYFGRETSIMIAKQPLMLTNHAET
+FDIMINVHGGGESGQAGASRHGITRALIDYDASLKPVLSQAGFVTRDAREVERKKVGLHS
+ARRRKQFSKR
+>tr|A0A0P0MBM5|A0A0P0MBM5_9BURK
+MVDSQTDLCGENFIFNVVGNSSAMIHSECQKCILQSAPKDGLFLRFLATSKIASSILTLS
+LLPAVLHAQSLSQVVNQALQTYPAVLSASARSAAARTDITRARSAHYPQIGVSAAANSYA
+SGTLPTGAERTSLSPTAKVNLWSGGRIEAEAQRAEALTLASEFQQANTLDEVALLAAEAY
+LNWAKTADLYSLAVRNVNAHRETLNDIQKIAQADTGRRVDYEQALVRMENATLALQQRKS
+DFAQAIQRLRRFWKGDMDARPMNLDSAVAESGVLGRIPPSLAQAMELVSEDLPPIAQARA
+QVQAAQASVRQAKGQFWPTVDLAVSRQINATTGRQDVLTQLQLNAPLYNGGGTSALVESA
+VNQVKSAEFALEEARLLAREKAAFAWQEWASARARSDTGSAQSLVGDKLVDAYRQQFRVA
+RRSLLDLLNIQADTFNYRSSANAAFHDERIARARLLAATGELAKRFSTEPGLVLPSAR
+>tr|A0A0P0LGJ6|A0A0P0LGJ6_9BURK
+MKLNRLPEIQRREFLRRSTQLGLVGMAAPWALNLAAIGEAAAADARGGYKALVCVFLNGG
+NDNGRTLLPVDAAGHAFLASLRGGTTDLGGLVAPRASLAATTLTPRVPLTGPGVNGTQLA
+MAAELLPLKSLFDTGKLGWLLNVGTLMEPTTKAQYLARSVPLPPKLFSHNDQQSFWQSSG
+VEGSTKGWGGAIGDLFLSSNATSTFTCINASGNAVFLMGDQAVQYQISNSGAVPVNGVVS
+NLFGSASCSKALNNLITAPRTHWMEAELNRVASRSITAQATVKAALGNANALPFTATFDT
+TQSLGRQLQMVARLIAGRSTLGAQRQIFFVSIGGFDNHDFLLTQHPGLLGQLANGLSAFQ
+SAMNELGLADQVTTFTASDFGRTLTSNGDGSDHGWGSHHLIMGGAVRGQRFWGKMPLLAN
+NGPNDVGQGRLIPTSSVDQLAATLAKWMGVSATEIKTLFPNISRYDQSDLGFFSL
+>tr|A0A0P0LHT8|A0A0P0LHT8_9BURK
+MKTVRQLLYGEIIRAVVFVAFGFLALFLFFDLVDELQALSRHAAQGYQLQHALLFIALKT
+PDHIYELLPISVLIGSIFVMARLAQSSEFTILRTGGLEPWMALSSLLKLGLVFVAITFFF
+GDYAAPWAERQAQQIKAPFQGQLTTGQTGAWLREKQGQQQYAVNVRRFDGISKMQDVRIH
+AFNEKGQLLTITTARQAQIQAGQWELLEVEEKSILLPSATNPAQFSVTQLDRQSWSTGIS
+TDMVAAALLSPDRMSTWELFRYMRHLSANNQNAQRYEIEFWRKVFYPLSCLVMLVLALPF
+AYLHFRSGQIAGHVFAGVLAGISFSLLNNVFSFIGNLQNWQPLLTSAAPALIYSAVSLAA
+FWWMVLRR
+>tr|A0A0P0M7Y9|A0A0P0M7Y9_9BURK
+MNWIAKIFMALLGLAFLVALLFGVACYTVYATLRWLLTGRKPQVVLVWQQFSAMRQNFKQ
+GGFRAGPSQGFEGPRGRHSAHDDQVVDVEVREVVEDAPRLPPRKPH
+>tr|A0A0P0M8R5|A0A0P0M8R5_9BURK
+MTRGFISASCGLALGLLAGCSFQAPIVQEPSVPWVAPSGSATTTSTPPETRPSSQGPASQ
+QDDLPEAITRQRQTLAAHRSAIAQAEAAQQAVCWQKFAVNACLSEARRTRRQALEPLRQQ
+ELALNAQERLWRTEQRERRLQGKQTVGRDIP
+>tr|A0A0N7J8L4|A0A0N7J8L4_9BURK
+MSTPPTTRYPAPEIKDLPDDIQAKVLEVQEKAGFVPNVFLAFARRPAEWRAFFAYHDALM
+VPESVGRESGLSKGDREMIVTTTSAANNCLYCVVAHGAILRIYEKKPLVADQVAINHRKA
+DISPRQRAMLDFALKVCNQSHEVEEADFAALHAHGFNDEDIWDIAAITAFFGLSNRMASF
+SGMMPNPEFYLMGRAPKAKPAA
+>tr|A0A0P0M8T4|A0A0P0M8T4_9BURK
+MILELQLSMGDWLALFNHFLSLSLLAVGGAIILAPDIHRFLVDENQWLTEQQFSSSIALA
+QSAPGPNVLFVGLMGWNVGLNAGAGLGGGWISVALSALGMLISLLGIMLPSSILTYTTTR
+WAHKHRDNRGVRAFKLGMAPVVIALLVSTGWLLTASHNDPMHDWPLWVLTLVAMGLVWRT
+RIHLLWLIGAGALLGALGWV
+>tr|A0A0P0MA46|A0A0P0MA46_9BURK
+MSELRTIARHAGTVLVGQLAVMAFGVADTVIAGRYSPHALAVLSLASSIYISIYVALNGM
+LQALLPVWAELHGGNRHAEIGRSVRQALYISAGAAALGITGLWFPDPWLSWTQVPTELWP
+DVRAYLRVLALALVPSLLFRMYSTLNQSLGYPRLVTWLQAGALLVKIPLSVLLTFGAGDV
+PGMGVVGCAWATLAVNSLMLLTGLWLLRTQDIYRPYRLWRLPERPQWSVLQHFLRLGVPA
+GLSIMVEVTSFTLMALFIARLGAVASASHQIAASLAAVLYMVPLALGIASSARTGYWLGA
+GQPHRARQAAGLGISLAIGAAVLCAAALLLGREAIAHAFTNDPMVAQTAMVWLAWVAVYH
+LADAVQAVCAFLLRCYRITIAPLLIYTAFLWGFGLYGGYLWAYEDSVLSGWLQWTGRPAV
+DTFWISSSLALAAVSVLFAALVWQVSRPVNLTSAVD
+>tr|A0A0P0MAR4|A0A0P0MAR4_9BURK
+MNRITRCPSCTTVYQLGDAHLQAAKGWLRCGACNHVFDSTGLVLRWSPTLAEPVRSPDFV
+PLPDAPDAGALSTTQALQEAPDAVADSAERIALDDFLKKKEDHHKPVQTRHAQAELAAFE
+SALSSFKSEPWVMEPSEQTEKVTAPAASKTWLAAWGLLSLGLLLVLHLAYLQRDAIVAAW
+PASEPAVRQVCQSLGCEISPLRDAEGVVIDSSSLVQRSEDHVLTWSVRNTTRSVLGMTAL
+ELSLMDPQGKLVLRTVLLPAQTGAPPTLSPGQSWSGSLKVQVSPELVFTDYRLLSFYP
+>tr|A0A0P0M809|A0A0P0M809_9BURK
+MNNDLINDAQALLGGRVDSTGTTRRTALKAALGVGYAAAAAPIMAQTAIKTPSTGLVSGE
+VTIDVNGFKMPAYRCAPAGKTGLPVVLVISEIFGVHEYIADVARRLAQAGYLAIAPELFV
+RQGDPNEYGELAKLQSEIIAKVPDVQVMGDLDACVAWAAANGGNTDKLAITGFCWGGRIT
+WLYAAHQPKLKAGVAWYGRLVGNTTAQTPAHPLALVGQLKAPVLGLYGAADTGIPLDTVD
+KMKAELAQGPAAAKASEFVVYPEAPHAFHADYRSSYRKGPAEDGWQRLLAWLKRNGVA
+>tr|A0A0P0M9U8|A0A0P0M9U8_9BURK
+MRQARACWPVLVKKANDEVIQLQTELGQALARVDQLQASHQRLCNMYDEYRLKEQHTQTE
+ALGMQASVNQRQFMVQLLNLQQRVALDLSKAQSTVAELRKKRILADIELQKMQALEEQDQ
+LAVRRDQQKHEQRQLDELGVRQFNLRLQS
+>tr|A0A0P0M7R4|A0A0P0M7R4_9BURK
+MLQLLIGLALFLGIHSLQSLAPQVRENSMARWGALGFKAVYAAVAVLGLYLLVQGYGQAR
+LEPVLLWTPPRGMQHATILLMWVAMVLLVATYVPGNQIKAKLRHPMTLSVKVWALGHLLS
+NGNLADVLLFGGFLVWSVLVFRAARQRDRHNLHSAPEGKLLGTLLAVGVGTGVWAAFLMG
+GLHVWLVGVMPLTRAV
+>tr|A0A0P0MAU6|A0A0P0MAU6_9BURK
+MTHPLPASPATFKIPESVLVVIHTPEHDVLLIRRADWGTWQSVTGSKDHPAEDWQETAIR
+EVQEETGIDARHPSCRLQDWQLENVYDIYPAWRWRYAPGVSRNTERVFGLCVPQRMPVVL
+SPREHTEAQWLPWQAAADQCFSPSNAEAILMLPRFVPTHSA
+>tr|A0A0P0M720|A0A0P0M720_9BURK
+MSPAAAPASTPTLHIEGGVATITLNRPAQRNRLENADLKALLVHFDTVNRDAAVRVLVLT
+ANTAGQPRPVFCAGYDIGGFDEPGHGATFFEEIPDALAALRPVSICALNGSVYGGATDVV
+LACDLRIGLLGIEWRMPATALGLHYYPSGLQRYVSRFGLAATKRAFLTARPFTDRQLEAL
+GLFEALVGPEDWASTQEALVRDILALAPLAVQETKQSIREIETGHGDVSRMREREQRTSQ
+SADFAEGRAAFAQRRTPVFSGR
+>tr|A0A0P0MC34|A0A0P0MC34_9BURK
+MSAHNDSHTSDDPVENVVKHIPVIIPAAGAVLIFLLAFIAVFMA
+>tr|A0A0P0LHY4|A0A0P0LHY4_9BURK
+MAAVYKFKPYNVGRWVIWSLFALVLLASPLVFTSNLSVTMLAQMGIAIIACLSYNILLGQ
+GGMLSFGHAVYTGLGSYMAIHALNAVSGGKLNIPVSLLPIVGGVAGMGFAILLGWVTTRK
+SGTPFAMITLGVAELVFAMSLMFSEFFGGEAGVSGNRVAGQPFFGITYGPQIQVYYLIAV
+YTFVCVALMYAFTQTPLGRILNAVRDNPERVEFIGYNTQRVRYSAFIISGFFAGIAGGLG
+ALNFEIVTAEVVGAGRSGAYLLFTFLGGATFFFGPIIGAVLMIIAFVLLSELTKAWLLYL
+GLVFLFMVMYAPGGIASLIMMNLRVAKFGKLRQIWTSYLGLGVTAIVMLAGAGAMIEMVY
+HLQLNSALGDTVKFMGATLNAKSLDSWFGSAFVMLTGLGLFELARRQFARDWGEIQTDIE
+KEIKRRETAL
+>tr|A0A0P0M9M3|A0A0P0M9M3_9BURK
+MTSRRSVLTQGAALLGATSSGLLVPQSALAQSGKIRVGLMLPYTGTFAQLGVAIENGVRM
+AINEQGGKLGGREIEWFKVDDESEPSKAIENANKLVQRDKVDVLIGTVHSGVQMGIHRVA
+RESGVINLIPNAGVHIATRAQCAPNVFRTSFSNSQPTMALGEAMVKRGHKKAVWITWKYA
+AGDEAFEGFKESYTKAGGTIIKELGLPFPNVEFQALLTEIAALKPDAVACFFAGGGAAKF
+LRDYAAAGLKGKIPLYGSGFLTEGVLDAAGPAADGVLTTLHYGDGIETKRNKEFRLNYAK
+TFKMQPDVYAVQGYDTGLLLVQGANAVKGDVSQKAAMIKAMEVAVIDSPRGKWTMSKSHN
+PVQDIYLREVSNKENKVIGVAAKALADSGAGCRM
+>tr|A0A0P0M6Y0|A0A0P0M6Y0_9BURK
+MRSWQYFPVMREAGVHVEVQALIDDATLLDRYKVGSYRLVSVLKRYALRVAALFGCHRYD
+LLWIEKEALPWLPLWFELILLRRVPYVLDFDDAVFHNYDQHLIALVRRLYGLRLDRLMAK
+AALVMCGNQYLADRAKSAGAQRVEVLPTVIDLVRYPAPVWPNSLPKHDVSTIVWIGSPST
+ARYLQILQKPLQLLAQRMKFVLRIIGAEFHMPGVQVECVPWAEATEVASIAACHVGVMPL
+QDSAWERGKCGYKLIQYMACGLPVVASPVGVNTQIVEPGVNGFLANSDGEWVTALEQLLT
+QAQLRQRMGMAGRAKVEAQYCIQKTGPKMAELLKEAAKGA
+>tr|A0A0N7J8F1|A0A0N7J8F1_9BURK
+MTRKINTANLPDFDMAEHLKTDEDVANYLTWVMVENDPAELTQALGTIARARGMTEVARA
+SGLTREALYKALRPTSHPRFVTIARVCTALGVKLVAQPMQA
+>tr|A0A0N7J919|A0A0N7J919_9BURK
+MSDPNQSPDFSPRQVRCPACAGTSLYSPQNPYRPFCSARCKGVDLGAWASEEFKLPDDTP
+PDEPFGDPRLQ
+>tr|A0A0P0LHW6|A0A0P0LHW6_9BURK
+MTQQVYISDTNIWIDFRNAGLLDALFSLPFKLCCTDFVLNELKDFDTKHLLARGLVVETL
+DAAATATLFDLMQAHNNSSLADVSCYQLAHQTKHPLLTGDRRLRKQAKTDGLKVHGALWL
+LDQLIAHQTIKTKEAAKGLQSMLTSGARLPEADCQKRLTLWAA
+>tr|A0A0P0LMW6|A0A0P0LMW6_9BURK
+MSLYTWTTPLRQSLKAAWAGRSPRERVLLAIGVWVLGLAALWMLALAPALRTWQEAPARQ
+AQLDTQSQRMRQLQAQAQGLQKPRAIARTDAALWLEKNLTELGPNARISLQGESATLSLQ
+AAPAAALARWLSLARDNAQALPTQAQLQQVSPTKTDSPEVTWRGSLVLRLP
+>tr|A0A0P0LN00|A0A0P0LN00_9BURK
+MSSRPHVRVPASPAKAPQATPAAALAAPNTPAAVTPMGWMHTARFLTTAAQLHHLPAMDT
+PEIAFVGRSNAGKSTCINTLTQKKQLAFASKKPGRTQHINLFALGKQGITDAVLADLPGY
+GYAAVAKMDKLRWQQVMANYLVSRDNLTGIVMMCDPRHGLTELDDILLEVIRPRVEEGLK
+FLIILTKADKLTRAEQAKALSIARLQAGGGEVKLFSALKKQGVDEVAQLLWDWTHPAGGA
+AVPAPSTEPPEEEPEALDE
+>tr|A0A0P0LW04|A0A0P0LW04_9BURK
+MMAESIEEGEKMPTDKLVDVSPLALRMSSPFNAGYWLAAA
+>tr|A0A0P0MBH9|A0A0P0MBH9_9BURK
+MAEFKYYWEDFAPGEVRDLGTITPTREEIIAFATQFDPQPFHLNDEAAKASVFGALSASG
+WHTCSMAMRLMVTNFLCETSSLGSPGLENIKWLKPVYPGDTLRLQSTMLETKPMGKRPDV
+GMTRNLWEMFNQHGDKVLHMEGWGMFRRRHPAA
+>tr|A0A0P0MA39|A0A0P0MA39_9BURK
+MTYCVAVKTRAGLVFLSDSRTNAGLDQISTFRKMIVYEKAGDRFMTLLSAGNLSISQSVR
+EVLQIEKLVEPGQDEPLTIWNAKSMFDATRVLGAAVRRVYERDAAALRASGVEFNVSMIF
+GGQIGNEGMRLFQVYSPGNFIEATDETPYFQIGESKYGKPVLDRVITPNTPLDEAAKCAL
+VSMDSTLKSNLSVGLPLDMVVYQAGSLQTDRIMCIDEHNPYFKMLRSSWGDKLRQMFDSI
+EDPMWNGGATDIPLMVSAQRNALLKKITTPEEKLI
+>tr|A0A0P0MAD6|A0A0P0MAD6_9BURK
+MKQITAVIKPFKLEEVREALAECGVTGLTVTEVKGFGRQKGHTELYRGAEYVVDFLPKVK
+VEVVVKNDDVDSCVDAIIKAARTGKIGDGKIFVTSVERVVRIRTGEQDETAI
+>tr|A0A0N7J935|A0A0N7J935_9BURK
+MTTVSTPTLKTQSFTHQWVAFAIMVLVLVIAPIWVYPIFLMKVMCFALFACAFNLLIGFG
+GLLSFGHAMFLGTAGYAAAHAAKVWGWNPELAVLFATACSGLLALVTGMLAIRRQGIYFA
+MITLAFSQMVFFFYLQTPFTGGEDGIQSVPRGKLFGVFDLSDNSAMYAFVLAIFLAGFAL
+IWRIIYSPFGQILKAIRENQDRAISLGYDTDMFKLIAFVISGALAGTAGATKSLVFQLAS
+LTDVHWSMSGEVVLMTLLGGLGTLFGPVVGAAVIVSMQNYLAQFGAWVTIIQGVIFVICV
+LAFRRGIIGEIAHWLKKPL
+>tr|A0A0P0LC21|A0A0P0LC21_9BURK
+MNTPAMTVPVSALAAQPALPSPWQAMLGLLRRDLRLALRRKAEWMGAVFFFVLVAALFPL
+AIGPEPATLRLIGPGVLWVAALLASMLSLGRLFDADHQDGSLEQLALSVAPLPWLVSAKL
+LAHWLISGLPLVLLSPLLGLQFGLGSEALGMLALTLLIGTPVLSLLGAIGAALTLGVRGG
+GVLQSLLLLPLYVPVLVFGTGAVDAQMRGLGAEAHVSILLALLLASAALSPWACAAALRL
+ALE
+>tr|A0A0P0M6S5|A0A0P0M6S5_9BURK
+MTFLAIDVGNTRLKWALYDHPSPQGQLLAHGAEFLENIDRLSEGPWSTLAKPDQMLGCVV
+AGDAIKRRVQEQMELWDFTPQWVVPSAQEAGLTNGYDHPSRLGSDRWVAMIGARHRMLAT
+GQSRPLVVVMVGTAVTVEAIDAQGRFLGGLILPGHGIMLRALESGTAGLHVPTGDVRPFP
+TNTSDALTSGGTYAIAGACERMVQHLREHTGQEPICIMTGGAGWKMAPSMSVRFELVDNL
+IFDGLLALAAQRFA
+>tr|A0A0P0LSS4|A0A0P0LSS4_9BURK
+MAYKKKYAVLALVGISVAAGAAWWWQNKAPVGGAAPSSATSPTSGGPAAAPAGAASGASG
+AGPAGAGGRPTAVEIAKVESMTLVDETQAVGSLRSRQGVMLRPEIGGRVKQILFSDGQRV
+RKGQLMVQFEDQLQQAQLAQARAELSIAEANHKRNQELVAQNFISQRSLDESAAALEVSR
+AKLSLAQATLQRLQVLAPFDGITGLKQINVGDYLKDGADMVNVEDIDAVLLDFRLPERFQ
+AKIRAGQKAQLTVDALPGRPFSAIVQAVDPLIEANGRSVGVRGCIDNRQQQLRPGMFARV
+NAVFGSRDNALVIPEEAIIPQGGRTFVVKVVAGDKPDALISQRVPVKVGLRQPGKVEIVE
+GLSAGDTVVTAGHQRLQKDGTSVRVVDLAQPGGGRPAGGSPSAGGPGAGGPGAGAPGAGP
+AAAAAQGPGAAGPRQGAAAGKPGAAAAKNAAMAGPNPCLRGADATR
+>tr|A0A0P0M762|A0A0P0M762_9BURK
+MATSKKAAASAQAPAKPPAKPAAELRVYLTLTDLQPQFSSWMSSPLGARGYVAMQGTNAL
+LVEIAPGLSIQRVIDLALKAEPTLEPGILAVERQFGVLELHSNDSAALQRAGQVILQWMG
+AKAEDQLRPHLLYSDILENVTDQHAVLMNRTRQASMVLPGQNMLLMEVAPALFGAHMANE
+AEKVAPDLTLVECSMIGASGRMYLTGSLASLEKAKAHVEKLLAEIPGRG
+>tr|A0A0N7J8A0|A0A0N7J8A0_9BURK
+MDIILITGMSGSGKSVALHALEDAGYYCVDNLPPELLIPFVKLEEQHKEQRLAIAIDVRS
+ANSLHLMPEQMNLLRDMGMSVKSVFLDANLDTLQRRYSETRRKHPLSGGSKPQSDKALLE
+TIQLERDLLCDLRERAHVIDTSLLRSAQLQTYIKTLVSTPSAQLTLVFESFGFKRGIPTD
+ADYVFDVRMLPNPHYESTLRPLTGRDEPVQAYLRQSEEFVQMQQQIEGFLKQWIPAIERD
+HRSYVTVAIGCTGGQHRSVFMVELLAQNFSERWLTLKRHRELDAL
+>tr|A0A0N7J909|A0A0N7J909_9BURK
+MQTDLSIPPTTSGLMSLPTDRADAAALNPLNHYQIIRRNGAVVPFEPNKIAVAMMKAFLA
+VHGTQGAASASVREVVEELTQNVVRALMRSRPGGGTFHIEDVQDQVELGLMRSSNHEVAR
+AYVLYRERRTQERSQQSQAVSPVAQEPALQVMDQGQRVALDLKYLKTLMVNACAGLGKDV
+SPEPIMAETMRNLYDGVPMEEVYKASILASRTLIEKDPDYTYVTARLLMHTIAKEILGKE
+VTQDQMAEEYINYFPQFIKKGIDNDLLDAKLAQFDLKKLAEALKPERDLQFDYLGLQTLY
+DRYFLHVRKQRIEMPQAFFMRVAMGLSVNEIDREARAIEFYEVLSSFDFMSSTPTLFNSG
+TLRPQLSSCYLTTVPDDLDGIYESIKENALLSKFAGGLGNDWTRVRAMGSHIKGTNGESQ
+GVVPFLKVVNDTAVAVNQGGKRKGAVCTYLETWHLDIEEFLELRKNTGDDRRRTHDMNTA
+NWIPDLFMRRVMEKGDWTLFSPSDCPDLHDKFGADFEKAYTAYEAKAERGEIKPSKKVPA
+TDLWRKMLSMLFETGHPWITFKDACNVRSPQQHAGVVHSSNLCTEITLNTSDTETAVCNL
+GSVNLARHLKDSSSGKVLDHDKLKKTISTAMRMLDNVIDINYYAVKKARDSNIRHRPVGL
+GLMAFQDALYEMRISYASQAAVEFADQSMEAICYYAYWASTELSKERGQYSSYKGSLWDQ
+GILPLDTIDLLARERGGYVEVDRSATLDWNALRQKIKADGMRNSNCVAIAPTATISNIIG
+VDASIEPCFGNLSVKSNLSGEFTVINSYLVRDLKRLGLWDDVMVMDLKHFDGSLRPIDRV
+PQDIKALYATAFEVETTWLVEAAARRQKWIDQAQSLNIYMAGASGKKLDDTYKLAWLRGL
+KTTYYLRTSSATQVEKSTVNAGSHNAVSASGAPSAGMGAIEAAAAAAQAQMAAVPATDIK
+FCAIDDPGCEACQ
+>tr|A0A0P0M851|A0A0P0M851_9BURK
+MSDNNGSPPRKKPEDLRSQQWFGRQDRDGFAYRSWVKGKGVPHDQFDGRPVIGICNTFSE
+LTPCNSHFRTLAEQVKIGVYEAGGFPLEFPVMSLGETLLRPTAMLYRNLASMDVEESIRG
+NPIDGVVLLMGCDKTTPSLLMGASSVGLPTIGISGGPMLNGKWRGQELGSGTGVWSMSEQ
+VRAGTLKLADFFDAESCMHRSHGHCMTMGTASTMACMVEALGIGLPGNATFPAVDGRRNV
+LARDSGRRIVEMVHTDQTISKVLTREAFENAIRTLAAIGGSTNAVIHLIAIAGRLGLKLT
+LDDFERLGSEMSCILNMQPSGEHLMEDFCYAGGLPVVMKEIESLLHNNIITVSGKTVREN
+NEAAVNYDPRVIKKYDAPFKEKAGIAILRGNLAPRGAVIKPSAATPALMVHTGRAVVFED
+SDDFHKRIDDESLDVDESCILVLKNCGPKGYPGMAEVGNMPLPPKVLRKGITDMVRISDA
+RMSGTAYGTVVLHTSPEAAAGGPLAVVQNGDMISLNVPERKLQLMISDEELARRLNLWEK
+PAPAMNSGYWKLYIDHVLQADEGADMDFLVGQRGAAVPKDNH
+>tr|A0A0P0M8T5|A0A0P0M8T5_9BURK
+MLKAPAGALSFAMVAGEASGDLLAGLLIQGMQMHWPQAQGVGIGGPRMQAQGFDAWWPHE
+KLAVRGYVEVLRHYRGIVAIRDQLRQRLLAQPPDLFIGVDAPDFNLDLEARLKAEGIPTV
+HFVCPSIWAWRPERMEKIRRSVDHMLCIFPFEPALLAKAGVQATYVGHPSAQTIPMHPDR
+TAARQTLGLDGQRPVVALLPGSRLSEIEHLTPRFVQAAQLMQRQNPALQFVLPAIPSLLP
+RIQALVDAQGGLPGLYLIQGQSHRALAACDVTLIASGTATLEAALFKRPMVIGYHMNWLS
+WQIMKRQQLQPWVGLPNILSEDFVVPEFLQDRCTPEALAKACLDWLSAPDRVDALQSRFE
+QLHLTLQCDTAKLATHALEKVLSR
+>tr|A0A0P0MBP4|A0A0P0MBP4_9BURK
+MNAPLPESIRQALETVTLDDKYSLDMGRAFMSGVQALVKLPMLQRQRDALQGKNTAGFIS
+GYRGSPLGSYDQSLWKAKDHLKAQHIVFQPGVNEELAATALWGTQQLGFAPPGTNKFDGV
+FGIWYGKGPGVDRCSDVFKHANMAGTTPWGGVLAVAGDDHVAKSSTAAHQSDHIFKACGL
+PVFFPASVQDILDQGLHALALSRFAGIWSGMKTIQEIVESSATAQIDPERVQIVLPEFVM
+PPGGVHIRWPDTALEQEARLFDYKWYAALAYIRANKLNHNVIQGPNDRFGLIASGKAYND
+TRQALLDLGLDDATCQRLGIRLHKVGVVWPLEAQTTREFATGLREILVVEEKRQVIEYQL
+KEELYNWRDDVRPTIVGKFDETEGDTAGGEWSTPNPTQRTLLRANADLTPTLIARAIAKR
+LKKLGVDADTTARIDAHLAVLDAKEKSLQTLTLGAAAERTPWFCSGCPHNTSTKVPEGSR
+AMAGIGCHFMSLWMDRSTTGFTQMGGEGVPWTGQQPFCTDQHIFANIGDGTYFHSGILAV
+RQSVASGVNITYKILYNDAVAMTGGQPVGERSEGHSVVQIAMSMKAEGAQRIVVVTDEPE
+KYEGVALVDGVRVFHRDELDRIQREMREIKGTTVIIYDQTCATEKRRRRKRGTMVDPAVR
+VMINEEVCEGCGDCGVQSNCLSVEPLETPLGRKRTINQSTCNKDTSCLKGFCPSFVTVEG
+GTFKKKATASTTSINPASLGTLPEPALPTIHEPWGMVVAGVGGTGVITIGQVLGMAAHME
+GKGIVTQDSAGLAQKGGATWSHILLANHQDEIRTTRVSMAAADLIIGCDPIVSASKETTL
+RMRAGRTHVALNSNSTPTAAFVKNSNWQNPAEQCVAEITAQVGVEGVGAFDADALAKQLM
+GDTIYVNPMILGYAWQKGWVPLHRESLVRAIELNDVQVKNNLAAFEWGRYAAHQLDALMK
+AIQPSQVIQFKKRESLEDLITDRMTRLTDYQDQAYALLYQGIVDKVRATEAPLGKTLLSE
+TVARQLYRLMAYKDEYEVARLHTQTGFMERIQNSFEGDFKVHYHLAPPIWSKRNSQGELV
+KKKFGPIMLTGFKVLAKLKGLRGTKLDYFGKTEERQTERALIREYMQHIDRVLGSLSSET
+HAHAVAVAQVPENIKGYGHVKERNIRAARSLWASLSAA
+>tr|A0A0N7J8U3|A0A0N7J8U3_9BURK
+MKHLSTLAALLITAASFAAPLTGAMAADAPAKLANGALVDAKGMTLYTFDKDVAGSGKST
+CNGGCAALWPPAMAAASDQPAGAYTIVMRDDGARQWAYKGKPVYTYQADQKPGDRAGDNF
+KDVWHIIKE
+>tr|A0A0N7J8V8|A0A0N7J8V8_9BURK
+MEAKFAERLASLSEGDISAIIQMAWEDRTAFETIQERMGWSEPDVIRLMRHELQPSSFRM
+WRKRMKGRTTKHRALRSPDMKFDDQSIADHRRANC
+>tr|A0A0P0M7P5|A0A0P0M7P5_9BURK
+MDKVSEAFAQCWQAAGLHLQEQGQGSLKWLRAHLNPPFLEHLSFRIGNQLFFVRIEDTHE
+QVVGPASLEGLLAIADGCQGHACVMPMMKHGNEWRSAVPGWGLLDAKTEKIINPVALVTN
+EKIEMTDWELQDFAVQVVRDELEKGGKKLMSWQGNPAVDPSLWFVGDNGPEWVVVRAARW
+PERDVAIPSNIRQIALDCATTGKTGHFAVVRAANSNDPFDPQAKESGNYIPLVRGEGLNV
+GYKGLQPLPVFDTAPIQVPADIGRQLATELIGWFEKLLETQTVLPKVFTGVNVQGRQFIV
+MMGDLGLENREHLDFMRYVLHKEQAVAFAYKMRNAVEVCTEPQIIQEQHTFFSGQVGKYI
+AVDITSQAPDSWSDGIKIIRRSSSEEPEIFFQDLLTNPYVPSELDQKYKALWLDIRDKVQ
+WRDRQWRPTEEKRPIDFAQEVLANILPFPFQDQHLHSRELGERLELQDSASAAKFQVVCM
+CFTLFLIKRSLREALAMKFGAAFTDVLDFNRTALAADDLADSMIAQQLKRASFPDYFNLE
+YFERWNRRYHEAARDSATKNLRQPTLNTALLQATFSYESEDAVDATDALMLVEFSRIYDA
+YVQELRNILGDQCLH
+>tr|A0A0P0M9B6|A0A0P0M9B6_9BURK
+MKPRPSFPAKLPPSGGRSAATSNPQPLQANPRPAAGQVAHKAPPSAAPGRLAAVPAMPVS
+SGLGLDSSAVRARMVAKLAEQGVQDPWVLQAMGQVERHRFVESALVGQAYEDTSLPIGLG
+QTISKPNVVARMIELLRQDAPGKLGRVLEIGTGCGYQAAVLSCVATEVYSIERLRGLHEK
+AKKNLLPFRLPNVHLMLGDGMLGFPKGAPYAGIISAAGGEDVPSVWLEQLAVGARLVAPT
+VTATGQQALVVIRKTATGFDRQVLEAVHFVPLKSGIA
+>tr|A0A0P0LII0|A0A0P0LII0_9BURK
+MKSPVILIVGTVDTKSDEIGFMREQVQAAGGQALIMDVGVLAKGRLVPDIANTDVAAAAG
+LTLQQVMDSGDENSAMALMAQGASRLASELQRTGRMDGLLVLGGTMGTDLALDVASSLPL
+GVPKVVLSTVAFSPLLPPERMPPDLMMVLWAGGLYGLNSLCQSALAQAAGAVVGACRVAR
+VPRFERPVVGMTSLGSSCLKYMVQLQPELDKRGFDLAVFHTTGMGGRAFESLAAQGQFAC
+VMDLSLQEMVNQMGGSVVSAGPDRLMGAGLKGVPMIVAPGATDLVDYPAWGQMPERFAGR
+PSHDHNRLIASVGIDANMRREFARELASRLRQAQGPVHLVLPLRGIQEWDRAGAPLHDPE
+GLAAMMDEMAQCDWGAAEVSRIDAHINDAAFVQHVLAVLDDWLAKGLVVPAAGMKAPHV
+>tr|A0A0P0LUC0|A0A0P0LUC0_9BURK
+MSAGLLVADGEREREDLSAGQAERSVVDVAVGVLLQADGHFLLTSRPEGKVYAGYWEFPG
+GKLEAGESVEQALRRELQEELGITIGAAQIWKTQMVDYPHALVRLHFCKVWDWQGELQMR
+EAQSHAWQSLPVAVTPVLPGTIPVLTWLAQERQFTDATHA
+>tr|A0A0P0M800|A0A0P0M800_9BURK
+MQDPQDSTSAHASAPASPGTAPAPAPVTNPVDENWARKTLVDLAYANLQEQQSQRRWKLG
+MRLAWLLFLGFVVWQLFSLNSPATHTSFPHTALVTVQGEIGPDTEASAENVMTSMRTALE
+DPGSKALVLLINSPGGSPVQAGLINDEITRLRALHNKPIYAVVEESCASAAYYIAAAADQ
+IYVDKASLVGSIGVLMDGFGFTGLMDKLGVERRLMTAGENKGFLDPFSPQTEPQRQHAQA
+MLNQIHTQFIDVVKKGRGDRLKESPELFSGLFWSGQQAVDLGLADSLGSIDGVARDVVKA
+PDVIDYTQRENVAERLVKRFGVAVGEGSVRAMRMAGAGLR
+>tr|A0A0P0LD69|A0A0P0LD69_9BURK
+MLKGDCAGRILAYDLTVAVIYADVVAWREREGLPLAMADAQMAATCLAYGARLATRNVRH
+FEGLGVPWVNPWQS
+>tr|A0A0P0M870|A0A0P0M870_9BURK
+MSENTFTPDAPVENTAVDPDDSTAPTLEAPAAEQTAKATAPNSAPSTPAHTGMSVDQRAY
+QQYQSLAQIVLDSADLATKSAESAASASSHLRKTTTEFKELTEDGHKKARLLLIISGSVM
+ILCLIFFLIMGVRLVSRINQLDTMMLAVGKRVVELNVGMESLEGVNQTVKELAAQQMALT
+KSQGEIEGRIEASLKQSESLVQKVPGETAKQVAASSDSVMKQVQGINAKLQSQANAVQSL
+GNEVKSLKSSVGNVDGLKRDVEALVTLQKERYLETLQKNNASTNRERAVQFPRVAPPKPA
+EGNASTSQGNAITPAPAPAAKP
+>tr|A0A0P0MAB7|A0A0P0MAB7_9BURK
+MSLKCGIVGLPNVGKSTLFNALTKAGIAAENYPFCTIEPNTGVVEVPDPRLQQLSEIVEP
+ERIVPAIVEFVDIAGLVAGASTGEGLGNKFLAHIRETDAIVNVVRCFEDDNVIHVANKVD
+PIADIEVIQTELCLADLAAVEKAIHRVSKIARSGDKEAVKQMAILEKCQAALNDTQPVRT
+IDFSKEERIELKQFFFITAKPAMFVANVSEDGFENNPFLDRLKAFAAKQNAPVVAICAKI
+EAELSEMDDADRLEFLKEIGQDEPGLNRLIRSAYSLLGLQTYFTAGVKEVRAWTIRVGDT
+GPQAAGVIHTDFEKGYIRAQTIAFDDFIAFKGEQGAKDAGKMRAEGKDYVVKDGDVMNFL
+FSS
+>tr|A0A0P0MBX0|A0A0P0MBX0_9BURK
+MDIQVVVANLVKQPDAQAVINSANANLRLGSGVAGAIHTAAGDELEDYCEQFAPLALGMA
+VITPGFKLPNQYVIHARAGHYLFEEEAEAYLESAFRSALSIAVAHNIESVAMPAMGIGVF
+KFPVELAAEITAKVLRSPEWDDTSLNWVRLCVTDEALKAAYIAALG
+>tr|A0A0P0M718|A0A0P0M718_9BURK
+MFKYWLALLLVLHALVLAWHWDAFAPWGHGPDLQREPERLKQQVHPEALKFEVLPPSAST
+TAPTAEAAVSDTSAVARSAASAPDVSSPAPALPSSAAVAPRAKP
+>tr|A0A0P0LS03|A0A0P0LS03_9BURK
+MNQLSVNIRLFLLVGLLSLVSVIVGLMGLRGMSETVGGLRTVYEDRVVPLRDLKVIADLY
+AVNIVDMTHKVRNGNIEWAEARKNLQDARQGIDKTWTAYKATFLVEEEKKLVATIEPMLA
+EAEGTIKELHTILENEDMKAITRFTIDTLYPVIDPISTKFSELIEVQLNVAKAEYTSSSA
+QYEQSRLISITLLAVGILAGVLLALWIVGSVVKPLRMVQEAAQKVSQNFDYSTRMQINQR
+DEVGETANAFNTLLQAQQTAIAQVNRVIQHLAEGDLSQRIEGNLQGDLGQMKTAINNSLD
+SVQRTMTGFNGLSQALLHGQFDHHIDHSHSQGEFRESLEKASMALQSLHRMIGNVDGVMG
+AVAQGDLTQRVQIEATGDLLRLKNNINDSLEALGQALGAVHNSTRQVAAAANQTSTAIGQ
+ISDGAQNQTHAIGQVALAIKHTAESVTDVSRNTAIASQKSRESMAIMQTGMGKMSQMVQV
+VNNISVHSDKINKITEVIEKIANKTNLLSLNAAIEAARAGEHGKGFSVVAEEVGKLAASS
+AESSQEIARLVQQAVQETAQAVQVVQEVSRDMSMIEQGSQETDQMLQRISSALEQQSAAV
+EEINSNLGSLDRIAISNASASEEITATVIELSKLAEQTRQDLGRFSV
+>tr|A0A0P0M9T8|A0A0P0M9T8_9BURK
+MSFFAILLALLLEQARPLKTHNQVFVLVEHWTAWVVRTFDAGTRPQAWVTWGIAVLSPAL
+LAVLLHWLFEWTLGWWVAVLWNVALLYVTLGFRQFSHHFTGIREALENGDEDKARELLAQ
+WQQVQVGQIPRSEIVRHVIEYSVIAAHRHVFGVFFWYAALSIIGLGPVGAVIYRLTEWAQ
+RRWQEPSADGSLPSEVLRSVSARAWQALDWLPSRMTALGFAIVGSFEDAMDGWRHHAQNF
+PQDNDGVILAATSGAINIRLGGAALQPAAEGLPTTETPDSSSTPGRVAAVAHFAQVVGLV
+WRTVIMWLLLLALLTMANLVG
+>tr|A0A0P0M862|A0A0P0M862_9BURK
+MLFQMVSLVLDVVAGLVAGTCLLRFLMQWQRISFHQPLGQFVFAVTDWLVLPLRRVIPPW
+SAWDLSSLVGAFLIKLVQYSLLWLVAGGQGALALLPLVSLVGMAQLVVSALSALVLVLAV
+MSWVNPGSPMYSLAARLSQPFLKPFQRVVPLIGGVDLSPIALLVVLQLIGMVLASLQMGW
+MH
+>tr|A0A0N7J8N4|A0A0N7J8N4_9BURK
+MIERPDSAEWLTMTRRNFLTVPLALCASARTLPSLAQTPELEGGVLRVGVLTHYKPFSFV
+EGQLQGFDVDVLRRLAAILKVELKIQTEGMATLQKKLSSGEISVIANQLLTTPENRRQFD
+FVRGYAANQLVCVQHEDDSRDFLSLDDLLGKKLGVLANTGVEDQARGALGKSVLSFASID
+LAFKQLAEKKLDAVLEESLIADFYIERDALPIKVTSPFAPPLSAGWAVRKGNRALAQRLS
+EAVQTLLSDGSFKAISTRWFGYDVSRPNVSHTSLPR
+>tr|A0A0N7J8P9|A0A0N7J8P9_9BURK
+MIIEPLLLAELAVLGLCTGFLAGLLGIGGGMIMVPFLTYLLGARGVSPDLAVKMAIATSM
+ATIIFTSVSSVRAHHKKKAVRWDLVKGLAPGIVIGSLIGSLGIFAFAKGTYLALFFALFV
+SFSATQMFLDKKPAPSRQVPGFQGLLGAGSLIGLLSGLVGAGGGFISVPFMAWCNVAIHN
+AVATSAALGFPIALANVAGYIVSGQNVQDLPAYSFGYLWLPALVVIAVCSVLMAPIGAST
+AHKLPVKQLKRVFASVLYLLAAYMLYKGLVA
+>tr|A0A0P0LEV9|A0A0P0LEV9_9BURK
+MTPIAMPFSIRQPLRGPLGVLALMLSLACAPALAQKPDRYCPSFLAVEGAPEPTHRGEIS
+FSPFTHHWSRSPEHKHVVLVSLDEQLPGDRLCGVSLFSNSFGQPSAYVYAGQQFNGVLGV
+PQLFVKVTAGILYGYVKPYEDKVPLNHNGFSPAIIPVIGYQFSQNDSVQVKVLGNAGLMF
+SYGRRF
+>tr|A0A0P0M6R9|A0A0P0M6R9_9BURK
+MPYTVTKTAIPDVLILEPKVFGDARGFFYESFNAKDFAKSTVLDVSFVQDNHSKSAKGVL
+RGLHYQIQHAQGKLVRVVQGEVFDVAVDLRRASPTFGQSVGVHLSADNHRQLWVPPGFAH
+GFVVLSDSAEFLYKTTDYWYPEHERSLLWNDPDIGIDWPMDGQPLLAPKDAAGKLLVDAE
+CFD
+>tr|A0A0P0MAI1|A0A0P0MAI1_9BURK
+MGSSSQGLPVNLGEYGMAGRINGRPARMQSVDQALVWVVVALLLWGMVMVYSASIAMPDN
+PRFSRYSNTHFLTRHVISMGVGCIMALLVFQVRMETWEKVARPLFVFSLILLALVLIPFI
+GKGVNGARRWISFGVMNFQPSELAKLATIIYAADYMVRKMDVKEKFFKAVLPMGAAVGLA
+GVFLLAEPDMGAFMVIATIAMGILFLGGVNARMFFLILGILVLAFVIMIAESPWRRERIF
+AYLDPFSAEHALGKGYQLTHSLIAIGRGEVWGVGLGGSVEKLHWLPEAHTDFLLAVIGEE
+FGLVGVTLVIGLFLWLSRRIMVIGRQSIALEKVFSGLVAQGVGIWIGFQAFINMGVNLGA
+LPTKGLTLPLMSYGGSAIMMNLVAIAIVLRIDAENKQMMRGGRA
+>tr|A0A0P0LG00|A0A0P0LG00_9BURK
+MNHPSKHPTDQDATAQTVDSTVHPPRDAPSPVPSPAWSLLQRVAKGLGALSAVSLSALLG
+PLVLVAALGGLWVWTGTPGSLGTALNMVHWALPSGQQLRSADVHGNLQQGGRIGQISWQS
+GGLQVQAQNTQLVLDWSQLWRQAWPVQSIRIQSLRVQDQRPPKPVTPLTELRLPLPLQLA
+LQVDQLVWQGSTAVTLSDVRAQYAFDGQDHRLNVDSLALAQGRYTVQARLQGAAPMALHV
+AAQGQVQTPASGRTPALQLQVLSTVQGQLSGPQAQLSVQAELAPTPGQGALGRAQDKVHL
+SMQAQIQPWQAQAVVQAEGQWQALDLAPLWPGAPQTRLQGQARLLPDGAAWQLDAQVDNR
+LPGAWDQQRLPLAQLKLKARHAQGLWQIQQVQARLAAGQLQGQGQQTPQGWTGQLEIQNL
+QPALLHSAWVGPAVQGRLKAEVTGADTIALSADLQAPKAQATNAAGPAALQWEQLQLTGQ
+WHPERWDIDSLRLQAARAVLEAQFKWQPTQKAVQGRMTLELPGMQASAQGNLAPTSGQGR
+LEVQMQDAASSQAWLQGLPDWGASLKKFKASGPARLIAQWQGGFDQADAPLTLNLQWPRV
+EWTQPSPKSAPTSPSIYRPANWFMAPGQLKMQGTPLAVQAELQARLGQGSHSAQLQSTWH
+AKRSDVHSANWQGRIEQLSLSTPNTPTPSAAPWRLVLQSTLAWQARVDPMALTWEPSNWL
+LQGPSPGRPRLQAEAGAWTAPSAGQALQTHGALNWSDLPASWAQAWLGSELLNDITLQGQ
+AQWRVDQDLNLSVTAERSRGDLRIKTDSTSGQITAAGLRQAKVLVRMQNEELTAELNWDS
+AQMGQAKAQLQSQLSRTSNGWQWAEQAPVSGSVQASLPQIGAWSVLAPPGWRVQGTLDAN
+LTLSGTRNQPQWQGRLQADQLAARSAVQGIEFSQGQMHARLQGQRLVLERLSLRGAGAQG
+GELQGRGQVQFNTDSTVPNSPSTNPLRSANLDLQIHAQNLRVSNRADRRLSVSGDVTARM
+SQGQLQLRGGVQADQALFVLPDNSTPSLGDDVVVFRPGMGELNLSALTAPVEPNGLSNSW
+LGVPDVRVMLDLGSDFQLQGQGLNTRLTGRVELLSNTSTRGQPRLSGQVRTEGGRYKAYG
+QQLSIDTGVLRFNGPYDNPNLDIIALRPNLPQKVGVQITGTALLPRIRLYADPDLPDADK
+LAWLVLGRSAANGGAESAVLQQAAVALLSGNGKSLSGELATSLGLDEISLGSGSRSDATA
+TGAAVTLGKRLSKDFYLAYETSLSGAFGSLYIFYDLSRRLTLRAQAGEQSALDLIFTVRR
+D
+>tr|A0A0P0M7J0|A0A0P0M7J0_9BURK
+MKKINTLRATVVAAVLASGSAAWATDGYFPHGFGMKSKGMGGASVAVTDNAFAGINNPAA
+SVWAGNRADLGVDIFMPKRSAARSAPGFGGMLEGDVKSDGSAFAIPEFAYNTKIDDRRSW
+GVTVYGNGGMNTEFQGGNVMCMNPSNGQPYQGNLLCGQGKLGVDLMQLIIAPTFAYKLDA
+QHSVGVSPLLVVQQFSATGLDAFAGFSMAPDKVSNTGTDRSTGAGVRLGYLGQLSDTMKF
+GATYSPKIKMSKFDEYAGLFAGAGSFDIPENYALGVNVQVTPAVSVAADYARINYSGVLS
+IGNPMSNLMAGNPMGSPNGPGFGWSDVSVIKLGVQWQATPTMVLRAGYNQSTNPVKPENV
+TFNILAPGVIKQHYTVGGTYALSKDAEFTWAYMYAPKNTVTGPSMYNGMLPGASGITETL
+RMSQQSLGVQYSWKF
+>tr|A0A0P0M8M4|A0A0P0M8M4_9BURK
+MTLHVLPVDYQNPTHRQALVMLLDAYAQDPMGGGEPLAQDVKARLCDDLAARTDAASFIA
+WLDKAPVGLVNCIEGYSTFKARPLMNIHDIAVLPGHRGTGVGQALLAAAEQHAKSRGCCK
+LTLEVLTGNSRALKSYLGFGFEPYALDPAAGQASFMQKWL
+>tr|A0A0P0LUS0|A0A0P0LUS0_9BURK
+MNPAHIPMDNQWLPFTPNRTFKQDPRVFVGAEGMHFTTHDGKKVIDGISSLWCVGAGHNR
+RPINEAIKNQLDTLDYATAFQASNDKAFKAAQMIADMAPGDLNKVLFCNSGSEAADTALK
+VALAYHRARGEGHRNVFIGREKGYHGVNFGGMSVGGLPANRKVYGAQLLPRVDHMRFIHD
+PVNHAYIHHEEPVWAEDPLLELENRILVLHDPSNIAAVIVEPIAGSAGWYIPPKGYVKRL
+REICDKHGILLIFDEVITGFGRLGVNFGADYYGVVPDMLNFAKAVTNGVIPLGGVICRDF
+IYDAMMNANSPAHAIEFFHGYTYSGHPVACAAAIATLDLMKEENLFARAGQQGRVLGDAM
+HSALKGLPNVIGIRTLGLAGAVELASIPGTPGKRAYDIFMDCFHHGVWVRPAGENIVICP
+PYIVEDAHIDQIVQTVADSIRRHA
+>tr|A0A0P0M7S3|A0A0P0M7S3_9BURK
+MLRLEPRPQASRLWTYASPVLALVLTVLLGVALFMALGKDPLRGLQMFFWEPVKSGYALG
+ELMVKATPLLVIALGLSVCFRSNVWNIGAEGQFVIGAVCAGGVALLADKDTGRWIVLLVL
+LAGVLGGMVWAGITALLRDRFNASEILVSLMLVYVADMVLSYLVYGPWKDPAGFNFPQSK
+TFEAVTQIPRLMDGSRVSVGLLLALVGAGLLWVFLFRTRAGFAQQVGGLAPDAARYAGFS
+SRKALWVALMVSGGAAGLAGALEVAGPIGQLTPYVPAGYGFAAIIVAFVGRLHPAGMVLS
+AVLMSMFYIGGELAQSRLGLPKSITGVFQGLLLFCLLACDTLVAYRLRWVAAKKGGV
+>tr|A0A0P0LEN2|A0A0P0LEN2_9BURK
+MSQPDVSSRLEARHLKKAYGSRKVVHDVSVQVDKGEVVGLLGPNGAGKTTSFYMIVGLVR
+ADGGQILIDGEDVTRMPIHKRSRMGLSYLPQEASIFRKLSVADNVRAILELQTDTQGRAL
+SPAEVEKRLSELLADLRVDHLRDSPSVALSGGERRRVEIARALATDPRFILLDEPFAGID
+PIAVIEIQRIIAFLKQRGIGVLITDHNVRETLGICDHAYIISEGRVLAEGTPDEIVANAD
+VRRVYLGEHFRM
+>tr|A0A0P0M9N2|A0A0P0M9N2_9BURK
+MPLIRPSRDEDVTAITAIYRHHVLTGTGTFEIDPPSEADMASRRADVLSKGLPYLVVEDE
+GRVIGFAYCNWFKPRPAYRFSAEDSIYMAPDAHRKGMGRALLAELCTQAERAGVRKFLAV
+IGDSGNAGSIGVHTAVGFNHVGVLKSCGWKFDRWLDVVMMEKPLGAADSTAPQ
+>tr|A0A0P0MAX4|A0A0P0MAX4_9BURK
+MSNQDILDRLAAVVESRKPANGGDPEKSYVARLLHKGPDAFLKKIGEEATETVMAAKDVD
+HGGDKTKLVGEVADLWFHSMIALAHYGLKPADVVNELARREGLSGLEEKALRKVQERERL
+GE
+>tr|A0A0P0LEK8|A0A0P0LEK8_9BURK
+MSVINTNVKSLVAQNALAVNSRNLSKTMEQLSTGKRINSAADDAAGLAISNKMTSQVKGL
+NQAVRNANDGISMLQTAEGATQEITNMLQRMRELAVQAANDTYDADDRTAIADEVGQLEE
+EITRIATNTKWNGMSVLSSDQTKNLQVGMENDTDSTIEINLQDMTASGLDVSGLDLSSHT
+ASQAVLDKVDTAIASVDSFRSDLGSKMNRLNYAADNMSNVSLNTAASRSRIQDTDYAQAT
+TELARSQIIQQAATAMLAQANQQPSAVLSLLQ
+>tr|A0A0P0LJY7|A0A0P0LJY7_9BURK
+MIKSISAVLTSLLAATAMAQTAAPAPAPAPAPTSAPAVTANPAVTPTPAPAATPKAEASA
+KKKAAKKTAKKSKKSKKKAKA
+>tr|A0A0P0LTG8|A0A0P0LTG8_9BURK
+MTASLTFRLTGQGLAACLLFASLAGCGSLSGSVSRDTFKPYVPEVVQGNFVSNEQRQALR
+PGMPRAQVREILGTPLIASLFHANRWDYAFSIQRQGVPAQNFKLTVYFKGDVLEQVDSDV
+LPSESEFAGRLVRAQAVGKLPPLQASEEELKKFTPALTPSARTDVPVPAPTPAAVPSSYP
+PLEPPTR
+>tr|A0A0P0M9P5|A0A0P0M9P5_9BURK
+MKRDYFSHDTRSERRFGEHRGGTCMALIDGRFLIWLAQQGAMGATGESVNRQGLLSLLSQ
+ALSQAALDVDLRRIYWYSDRSDGLVIDDQIVRLVQAHDADGGASLLRSLGHDLKQLAEHH
+ACDHVLVASDDERFLATIDEAQLSGVSVHLLADESARNMPQMVRTDPGWARLLAQADRRV
+VVNSQALADMLQGKLPTGMGLAVEDVEELRKSMHEVISAWWADEPEDLREDLRDALQISR
+GIPQEVDRQLLLRMRQRLARALSLPEKKMLREILRQVVTESAAPATVVEGGLPPDLTD
+>tr|A0A0P0M7U7|A0A0P0M7U7_9BURK
+MSYLNDGHSDNCGREIYPFDPSQALTVLAMHGPKTTGLNA
+>tr|A0A0P0LJ87|A0A0P0LJ87_9BURK
+MNFLGVSQDFNIPQGLALTGKAFFSWLDGWHTRCESPIKKPPWAQTRAVFSYG
+>tr|A0A0P0LNP0|A0A0P0LNP0_9BURK
+MKIKLSLVAAAMALTAGAAMAQTQGVSKTEITLGSIQDLSGPLAGFGKQVRLGMMLRVDE
+ANEQGGINGRKFKLLVEDSAYDPRRAVLAAQKLVNQDKIFAMIGHIGTAQNMAAMPVQFQ
+KNVINFFPVTAAREMYEPFHKLKYSFAATYYDQMRLGVPILVKEKNAKQICAMHQDDEFG
+LEVFRGAEEGLKSMGMQFAEVTTYKRGATDFASQMQKLASSKCDFVVMGTIIRETIGGIA
+TARRLGFNPTFLGSSAAYTDLIHKLGGPAMNGFYATMSTQHPYLDEASQPIRFWANKYKT
+KFNEDPTVFSVYGYNAIDSFLRAVEKSGANVTTESIIKAMDTMVIPPDIFGTGEMSFSPT
+KRLGSNASRMSQITDGRWKVTSAYFSDKK
+>tr|A0A0P0LTF3|A0A0P0LTF3_9BURK
+MRPEIQPKPDSVVRPGAGRSKPSPHRGLIWALGLSVAVHAGLVAFRFAAPEAYNRVFQDT
+PLEVILVNARSRENPQGAQALAQVRLAGGGEVPEVRISSSPLSPVMNADPGMDISAAQKK
+IEVLKMQQMRLLTQLKDELAVLTRENAGDKTDSPDRESKVQRQQQLARQLAQIEQRVDQT
+QGAARKRYISPATKEVVYAMYYDKMRRTIEYQGTLNFPEAAGDKLYGQLTMVITVDHQGQ
+LISTEVARSSGKPLLDERAVAIVRNAAPFGNFNRKMRAQADQIVVVTRFNFSRDDTLATR
+MLASEPGKP
+>tr|A0A0P0MBX9|A0A0P0MBX9_9BURK
+MIDLRSDTVTQPTAAMREAMLAAPVGDDVFGDDPTVNALQERIAEITGKEAALFMPSGTQ
+SNLCALMAHCERGDEYIVGQNAHTYRYEGGGAAVLGSIQPQPLAQNSVGEMALADIAAAI
+KPMDCHFARTRLLALENTWNGHPMSQAYLAQATALGRQHGLAVHLDGARLFNAAVAQAEG
+GPVTASVRRIVDHFDSVSVCFSKGLGAPVGSALCGSRELIAKALRWRKVLGGGLRQSGIL
+AAAALHALDHHVDRLADDHALAQRLAQGLQGVTGLSVRSAQTNIVFVDVADGRGPALLDD
+LKAHGVLATGLIGLRFVTHLNVEAAGIDHAIACIRRFMANASVQTNHAAGRTGIY
+>tr|A0A0P0M8R6|A0A0P0M8R6_9BURK
+MEFFIISMLNGLSYGLLLFMLSSGLTLIFSMMGVLNFAHASFYMVGAYFGYTISEWIGFW
+PALVIAPLLVGACGALFERLTLRKVHPFGHVPELLVTFGLSYVVLELVQLVWGRTAVEFP
+PPEILRSSAFTLINHSANGLSVVWGAAPAEMCSAADAAVRVVCSPFPATRGFMMLVALLM
+LVSLWLLLTRTRIGLVIQAALTHPEMVESLGHNVPRVFMLVFGAGTGLAGLAGVIGGSTF
+VTEPAMAATVGSVIFVVVVVGGMGSLSGAFLASILIGVIQTFAVAIDYSFLSLAKDMGWV
+LSAATQENSFAKLTLSQVAPILPYLFLVLILIFRPKGLLGTREG
+>tr|A0A0P0M791|A0A0P0M791_9BURK
+MDRRDFMGGALALASSSLSGNAWSADKWGADQGYPTGWGGQFSRLPEYRVGNYSGGFEKM
+FPHHIIEKSTRPTAFDVNLIKDFKYKWGFFNKSPDEYLDSWSTTGLLICRDSSIFYESYR
+RGRTAQMRLTSWSMAKSVTSLLLGICLDKKLIESYDDTAEKYLPELKGTLHGGITLRNLS
+NMSSGADILHDRDNRQIYPAAFTSGSANIAQTVANWDRRKEDQGRTYNYNELCPLTIGMV
+IRKVTGMSMAAFAERVLWQPMGAENAATWTTDSQKNEFNCIGFAATLRDWARLGTLVANL
+GRVDKTQVVSQAWIQECTSWGDKDQQVRVGVASSRFGYKAHMWHNKPDGSRLYFNGHHGQ
+RVVIDLPTRTVMVHTAVDHDGNWQAELFEMFEAATRI
+>tr|A0A0P0MA05|A0A0P0MA05_9BURK
+MIESMYQVLRESQSHWVPLRGCRYHVRQWGTATPGATPLVLAHGWMDVAASYQFMVDAFS
+EAFVSQRPIIAMDWRGYGLTETPPTDSYWFPDYLADLDALLDALYPGQAIDLVGHSMGGN
+VVMMYAGTRPERIRRLVNLEGFGMATTQPAQAPTRMAQWLDELKAQRAGDNTLKAYPDAA
+GVAARLMKTNTRLGQDKADWLAQHWAQAGTDGQWRILGDSAHKVINPYLFHLEEALAMYR
+RISAPVLVVEASDDSLSQWWKGKYTLAEFHERLKSVPQLEQAQVQDAGHMLHHDQPQALA
+SLLENFLR
+>tr|A0A0P0LGI3|A0A0P0LGI3_9BURK
+MAELLKVHNLSAGYGEAVVLNDIGFSLGEGETLALLGRNGTGKTTLINTLVGATQQHGGQ
+IFLGGQSLHTLPSHERAAAGIGWVPQERNIFKSLTVHENLTAVARPGRASRAWTPERVYE
+MFPRLAERKTNLGTQLSGGEQQMLAVGRALVLNPRLLLLDEPLEGLAPIIVEELLRAIAR
+ITREEGLSAIIVEQHPQAILRISHRAVVLDHGKVVHTSDAATLQQDPELLDRLLGVARKL
+>tr|A0A0P0M846|A0A0P0M846_9BURK
+MKIINAFFKLLEFLVVACLVAMVIMVFGNVVLRYGFNSGISISDEMSRYCFIWLTYLGAM
+VAMREKGHLGVDTLVRRLSLGGKKLCFFLSEVLMLGCNVLFFWGTWKMHDLQVTNISVVV
+GISMIWIYGIGYVTASVMAVMNLNQLRLLLTGKLKEEDLVMVVESEDTVVLDELTPNAAS
+SKPSHSEVRGRA
+>tr|A0A0P0M914|A0A0P0M914_9BURK
+MMDIHKILKQLPHRYPILLVDRVLELEKGVRIKALKNVSINEPHFQGHFPHRPVMPGVLM
+LEALAQAAALLAFDTLGETPDDQTVYYFAGIDGARFKRPVEPGDQLILEVELDRMKAGIF
+KFKARAKVGDEIATEAELMCTMRKIPQA
+>tr|A0A0P0M7G7|A0A0P0M7G7_9BURK
+MTWLARLDLDYTLEAERSVARYLHQGPLRILQSLYPEGDAVCHNVLVHPPSGLVGGDTLD
+MHVSVGAGAHGLVTTPGATRFYRSEAGLATQQVHARVESGARLEWLPLEAIAYNGCDGLN
+RAVFDLAPGAEMMTWDITALGLPAADMPFVQGTFRQHLEIPGVWLERGTLDASDSRLMNS
+PLGLAGQRCMATLVFAAGSTMADERIERALACARELLEASELRLTAGATSPHKQVIVLRV
+LSPVTEPAIELLRKVWAAWRQEMWALPGAVPRLWNM
+>tr|A0A0P0M9N4|A0A0P0M9N4_9BURK
+MLKGIDPLLTPELLMHLCAMGHGEWVAVVDANFTANFLSQGKPVVRIPGHSLERVSRAVL
+SVLPLAVDVPQPAAFMRVCQSPEGHRTAAQQSVVDLVVAEGFQPEQVEAVERYAFYEKIK
+GASLIVQSGEGTAYGNALFCKGVILL
+>tr|A0A0N7J8B1|A0A0N7J8B1_9BURK
+MQKTKFFSRRAIGTALLAIAAGPALCLSAAAQSWPTKPIKIVVNFPPGGAADQIARAIGV
+PLGESLGQPVVVENRGGANGNLGGDMVAKSPADGYTLLMSSGGMVSVNPHIYARMPFDPA
+KDLVPVASAARVLVFLVAKPNFPANNIQEFLAHVKANPGRLSYGSAGNGSSPHLAGEMMK
+SQAGLFAVHVPYRGAAPALQDVLAGQLDFYFDPGIGLGQVRAGKLKLLAVGSMKRSPLFP
+NVPTLDEAGLKGFDADSVFGFYAPAGTPADVVNRVNREINRILGTQALKDRIQNLGGEAL
+PLTPAEFGARAADDSKRFGAIIRERKISGD
+>tr|A0A0N7J8I6|A0A0N7J8I6_9BURK
+MSEWVWLALGGLNLLGLLALLFRAKAAPLAQEDKLDEQAAWLQQQFAALQAQTERLEREL
+RTEISQSGVQGRQESMQTLTLFQQSLLQQSAEATRTQNQQIDALAQQLALLQKSLTDSLA
+QQVNALSEANARRLTEMRGTMETQLSQLQQSNAAKLDEMRQTVDEKLQATLQARLGESFK
+QVAERLEQVHKGLGEMHNLAQGVGDLKHLLTNVKTRGMFGEAQLASLLEQVLTPEQYAVQ
+VATRPGDKNRVDFAIRLPGRSDSGQPVWLPIDAKFPNEDYERLLEAQGRADPVQAELCAK
+ALETRIKLEAKSIAEKYLEPPHTTDFAVMFLPTEGLYAEVLRRPGLMETLQREHRVTLAG
+PTNLMAMLNALQMGFRTLALEKRSSEVWQVLGAVKTEFGKFGDVLDKVRNQTQTVLNTLD
+QAQTRSNVMNRALRQVDALPESQAQALLPGGDA
+>tr|A0A0P0LC45|A0A0P0LC45_9BURK
+MAVFTEVTEAQANDLMQALNLGRLTALRGIEGGIENTNYFATTDQGEYVLTLFERLTHEQ
+LPFYLFLMKHLAGRGIPVPDPSANRDGDVLHTLNGKPAAVVNKLAGKSQLQPQAVHCAAV
+GDMLARMHLAGADYNRSQPNLRGLPWWNETVPVVLPYLDLPQAALVRSELAYQNHIAEGA
+AYAALPRGPVHADLFRDNVMFDGEQLTGFFDFYFAGVDTWLFDLAVCLNDWCIDLPTGAH
+DSTRAQALVQAYNRVRPLSAAERALLPALLRAGALRFWISRLWDYHLPREAAMLTPHDPT
+HFERVLRGRVQQPISLPDLV
+>tr|A0A0P0MBP9|A0A0P0MBP9_9BURK
+MSVTPEPSRLAQARSFLFVPGNRPERFAKALASGVDAVIIDLEDAVPLDAKDTARAALMD
+AWKDFDAAERARLLVRVNPAGTPWHEADLAAVAILTGLGALMLPKAENPQQVEQAFRTSS
+KRVLPLIESAEGVGQMDAIARAAGTLRLGLGHIDLQADLGLRCGPDEAELAPVRLAMVVA
+SRRAGLPAPVDGVTTATQDAEVLAADAQRSRRFGFGAKLCIHPAQVAGVHQALVPTDAER
+DWARRVLAAEVAAGGGAFSVDGKMVDPPVLLLARSLLRER
+>tr|A0A0P0MAM3|A0A0P0MAM3_9BURK
+MAEFRFCPMCASPLAWLSQMEDGGETMRLRCTACDFTHWNNPTPVLAGIVQVGDQILLAR
+NAAWPGRRFALITGFMEAGETPEEGITREIAEETNLKVSALKLIGVYDFQRMNQVIIAYH
+AVAEGEVRLSPELAEYKMFDFKDLICWPAGTGYALGDWLRTIGIEPKFMSWEERAAQSQE
+ANQDT
+>tr|A0A0N7J8J5|A0A0N7J8J5_9BURK
+MSLNKLDREDVPDMPNRLGIAGIEFIEYATSRPQALGQVLENMGFRPVARHRSREVTLYR
+QGTMNLVVNASPDDARVSSTVDGQPAISAVAFRVQDALKAHTRCLDLGAWNVDSHAQAME
+LHIPAIHGPGGSRFYFVDRWQEFSIYDIDFKPIPTVNPNPPALAGMSYFGVVQYIGAARS
+ADWQTYYEHMFDFSSIPDEERFGILPKGKLMKSPCGSFLWQLVEPEPWMDGDDSPESLQR
+IGFGVPDVGQAVAALKAQGVEFVESTQLHPEDRGALTRAALGSVAFELVHQ
+>tr|A0A0P0MBS7|A0A0P0MBS7_9BURK
+MQSSAQKTGNLYRIVSFDRAAEIITGKKLNFASPSSWDDPFERALKNSAAQAIFAQCWCR
+KAVSDAMWRIYSPHCLGVRIATTRQRLQQAIVAAGNTRKLSYSILDVDYLKQEELTRRLE
+TIRQEFKKQFSPPTAMNRYL
+>tr|A0A0P0LH33|A0A0P0LH33_9BURK
+MPSLKPLAARRVFSLCALATFVTTLVACSKVEAPLEPLRSVKLITVAGSDLNLGGEYAAE
+VRARVESRLGFRVGGKLVQRPAEPGQRVAAGQLLALVDAQDFQLAAQAAQAQVSAAQSQR
+DLAAAEFKRFEALKEQNFISGAELERREASLKAAEAALNQAKAQAQAQGNQTGYARLTAS
+HAGVITAVEAEVGQVVSAGQPVVRLAHDGPRDAVFAVSESAIMAIRLGQSMQATVLSTGQ
+MVRGTVREMAASADPVTRTYAVKLALAPGVGGALPLGATLNVRAPGLSSAVASAIKLPTS
+ALRQEGQGTAVWVLDEASMTVNSQAVQLGPVDGNEVVVSSGLKPGQKVVSAGVHVLSPGQ
+KVTVYGAPPSPAPAPAPAPAASASAPR
+>tr|A0A0P0LTZ0|A0A0P0LTZ0_9BURK
+MTEVDLYNLEPILELMAVGLAVAALPLGWWLWQQRRASPSGRLKALTLITLFLTFDLVLF
+GAFTRLTDSGLGCPDWPGCYGSATPIGAKAEIKAAETAMPTGPVTKSKAWIEMVHRYLAT
+GVGVLILTLAALTWWLRSQSREVSPWLPTLTLVWVCMQGAFGALTVTMKLFPAIVTLHLM
+GGIGLLVLLMAQAVRYDGAGSRPLPSVLRLGLWAGFVLLCLQIALGGWVSTNYAVLACPD
+FPTCHGQWVPEMNWQGFSIWRELGHTPNGELLPFASLVSIHFVHRSAAWLVLAVLLWLGW
+RLRQQPGLAVAGRWLLGLCALQFATGLSNVVLGWPLLAAVMHTGGAAAMALTLTWALSVS
+RADNSGPSPLSEKLAA
+>tr|A0A0P0LTL2|A0A0P0LTL2_9BURK
+MTQKCALVMAGGTGGHIFPGLAVAEALREAGWRVHWLGAPNSMESQLVPPRGFTFEAVDF
+GGVRGKGLATLAFLPLKLLRAFWQSLQVVRRVQPDVVLGLGGYITFPGGMMASLWGKPLV
+LHEQNSVAGLANKVLAQLADRVFTAFPGVFKTGQWVGNPLRQAFTQQAAPAERFAGRSGP
+LRVLVVGGSLGAKALNDIVPQALALMPLASRPTVIHQSGAKQIDALRANYEAAGVQAELT
+PFIDDTASAFAQADLVICRAGASTVTELAAVGVAALFVPFPFAVDDHQTTNAQFLVASGG
+GWLVPQAELTAQNLAERLTALSRDTLQDVAQKAHAQKKTNATREVVMACEELAA
+>tr|A0A0N7J8W9|A0A0N7J8W9_9BURK
+MQLTHTIAVHMTLALSATVLGPWALWTRMGRITRPRLHRALGYAWVTCMLGAALSGLFIR
+DFNLPNIWGYTPIHLLIPLSLVSLYRAFRYLADGNIAGHRKTMQWLYGMACVVTGAFTLL
+PGRLLGQWLWSGAAG
+>tr|A0A0P0M7D9|A0A0P0M7D9_9BURK
+MANTASRTTLFDNGDFSLHAQLSPVPSPVGGYALTITSKRLESRNPNEEQVRFFACLDQT
+GLRNLLSLIEAEVAQ
+>tr|A0A0P0M972|A0A0P0M972_9BURK
+MAQIMQVECQLNELLSIQFEEKRHFFDDLSLSGGKKLPPPGSVCSGFADTQGAGEQVFPQ
+PLKFAKLLSIRQISTS
+>tr|A0A0P0MBF1|A0A0P0MBF1_9BURK
+MANFLLVHGAWHGAWCWQRVVPGLIGAGHRVHAVTLTGVGERAHLLQADIDLETHITDVM
+AAMDAEELNDVVLVVHSYAGMLGTAVADRRPDRLRHLVYLDAVLPKPGECWSSTHASATR
+TARIAAAQADPLYAFPAPDPSVFGLSDADHAWVQRRQTPHPGGPYTQVLDFDPRRVASVP
+RTFINCTTPPLGTIDVSRLRMVDPKFWDGAWLPGSQVLEMHTGHDPMVSDPQGLVKHLLS
+LL
+>tr|A0A0P0MAC0|A0A0P0MAC0_9BURK
+MKNSQTSATATTADMDLWGQTLAAQLNVPAQNVGHDIGERLRVARQTALKSRPMPQRLMR
+HSLAVQANGTLNGLPDEGLNLWRILVSALPLLALVLGLMLIQSLQRDLAESDIATLDSAL
+LLDELPPVAYTDPGFVQFMKIQLHHDARND
+>tr|A0A0P0MAE9|A0A0P0MAE9_9BURK
+MSHHDHDPIHNTSNNPHFQDVLNQSLQNPMRRGLLRGGLGLAGLAMLPGCATLTSGMAAA
+PKALGFPSVEKSLLDNVMLPPGYQYSVLHATGDALDSALAAYSNKGTEADDWSRRVGDHH
+DGMDIYYIDANGRYTENETGRAVLCVNHESSADAHFMHPNGQTSNGVVGKKFTQFGDWDL
+GTRPELEVLKEINHHGVSVVEIVKTPQGWRIKQDSPLNRRITAQTPVRISGPRAHIDAIR
+SFMVTRWDTAGAMARGTLNNCGHGKTPWGTYLGCEENWAYYFQTTANGAALPAKEVAARK
+RYGVPSSAPAAGATRAPSQGWHTVSATDDRFARWNLAATGANAERDFRNEANTFGYNVEI
+DPLAPNSTPVKRVAMGRFAHEAAVCSVPVAGQPLAFYMGCDSRNEYIYKFVSTAVWDPRD
+VGGGLVAGDKYLSEGKLYVARFDSTGQGEWLELTIADPRIANHSTYKFANQGDVFINARF
+AADAVGATKMDRPEWGAVNYRNGEVYFALTNNNAANRTPTKVDAANPRAYMDLDGKKGTG
+NPHGHIIRFKEPGHQASAKTFAWDIFLFGAEEDSGDANLSGLTAKNSFSSPDGLWFSKAT
+GICWIQTDDGAFTDETNCMMLAAIPGQVGDGGKVTVKNKMMVGGVEQNGTQESFLGAALG
+EAKLRRFLVAPQGAEVTGITETADGRTLFVNIQHPGELSKPLASGSAPQSMWPGNAGYGP
+QGRPRSATIVITRTDGGVIGL
+>tr|A0A0P0M703|A0A0P0M703_9BURK
+MLSDLYSSVMTALHTPNVDQPIPLDQPLPHRKTLREWLIPLSERSTVRAFVLLALDYALF
+FALITATILLESVWAKLLCGSVAGFVIGRLFVIGHDACHQSLTPHRELNKVLGRIAFLPS
+LTPYSLWDTGHNVVHHGYTNLKGVDFVWTPLTAEEFANLNPVQRLLQRAYRSGWAPGLYY
+MIEIWWKREFFPNKTHMPTRRPIFFKDSLLVSVFGAVWVAVVAAAALYTEQSVLLSLLMG
+VLIPFFFWNTMIGFVVYVHHTHVKVSWHDNKAAWTKAAPFVSTTVHLTFPFQIGAMMHHI
+MEHTAHHVDMSIPLYRLKQAQTKLEEMLPGRIIVQPFSWKWYFETAQNCKLYDFGRECWT
+DFKGTMTSPVRGNLPPAAQA
+>tr|A0A0P0LKM0|A0A0P0LKM0_9BURK
+MPGLLPHIDPDGLLEFSVVYTDRALNHMSKRFGGVMTDISRMLKTVYGAHSVALVPGSGT
+FGMESVARQFATNQHVMVIRNGWFSYRWTQIFDMGQIPKSHTVIKARRVSESSQAAWAPA
+PIAEVTAAIAAEKPALVFAPHVETSAGMILPDDYLKALADAVHAVGGLLVLDCIASGAMW
+VDMKATGVDVLISAPQKGWSSSPACAMVMLSERARQAIDDTTSTTFAMDLKKWLQVMETY
+ESGGHMYHTTLPTDALLRLQDAMLETEAYGFAKVREEQITLGRRVRALLLEHGFPSVAAP
+GFEAPGVVVSYTTDPEIQSSKKFLALGLQTAAGVPLQCDEPADFRTFRMGLFGLDKWHNV
+DRTLQQLSGALETLAPKAKLAA
+>tr|A0A0P0MBJ0|A0A0P0MBJ0_9BURK
+MIVPVNSHIRSVDMLLIEELFDMGSGYVLDFSDRTFAIFFTEELNVDIDDPAYAVDGRSK
+AKRLRCFLRVVDKPLLIRTLQALWEYREAVRQRRGQSEAVPNAEGRFLGLINKLAGQTVS
+TQSAHQPTPATDRPKFQLLKAELLQIASLPPHARGFAFEAFLKKLFDAFGLSAREPFSLH
+GEQIDGSFQLEGHTYLMEAKWHAQKIGVAELHTFHGKVEQKAAWTRGLFVSDSGFSDEGL
+IAFGRGKRVLCMDGRDIADCLERELPLNHVLSVKARRMAETGQAFARVSDLFSSKR
+>tr|A0A0P0M8Y5|A0A0P0M8Y5_9BURK
+MRQFDEMYSRLPAAGDSGEVRAHYAAYARWLKSQDPQLMAARREEAEVIFRRVGITFAVY
+GDKDEDANSDEGGTERLIPFDLIPRVIAAQEWKSMEAGLVQRVTALNRFIHDVYHDQDIL
+KAGIIPREQIENNAQFRPEMVGVHVPNNIYSHISGIDIVRAPDSAGQGEYYVLEDNLRVP
+SGVSYMLEDRKMMMRLFPDLFSQHRVAPVAHYPDLLLETLRASSPATTAEPTVVVLTPGM
+YNSAYFEHAFLAQQMGVELVEGQDLFVKDQFVYMRTTRGPKRVDVIYRRVDDDFLDPKVF
+RPSSTLGCAGLMDAYKAGHVAICNAVGTGVADDKSIYPYVPDMIKFYLGEEPILKNVPTF
+QCRKPDDLKYTLANLKDLVVKEVHGAGGYGMLVGPASTQAEIERFRSALLANPEGYIAQP
+TLSLSTCPTYVDSGIAPRHIDLRPFVLSGRTVQMVPGGLTRVALKEGSLVVNSSQGGGTK
+DTWILQD
+>tr|A0A0P0MAX1|A0A0P0MAX1_9BURK
+MGLHPKPLQLNTADAGFEAAFAARLHWSADTDAAIERRVADILADVQKRGDDAVLEYTQR
+FDGLQAPDVKALEITQAELKAALDSLPAAQREALQAAAARVRTYHEAQKKASGESWSYRD
+EDGTLLGQKVTPLDRVGIYVPGGKAAYPSSVLMNAIPAHVAGVQDIIMVVPTPVRGSVAT
+GGSGEATASSRGERNELVLAAAYVAGVTRAFTVGGAQAVAALAYGTATIPKVDKITGPGN
+AYVASAKKRVFGTVGIDMIAGPSEILVLADGSTPADWVAMDLFSQAEHDELAQSILLCPD
+AAYIAEVQAAIDRLLPTMPRREIIAKSLNDRGALILTRSMEEACAISNRIAPEHLEVSSR
+DPHRWEPLLRHAGAIFMGAFTSESLGDYCAGPNHVLPTSGTARFSSPLGVYDFQKRSSLI
+EVSEAGAQPLGRIAAELAYGEGLQAHARAAELRLNPVPPMREPT
+>tr|A0A0P0MBI8|A0A0P0MBI8_9BURK
+MLSLLALLGGQSLAPNVPLLTLWLWALGGLVSLGLVFLAGAWLTLTFNQWVLRKGGTDTQ
+WLWFASDPPGLKRPKKSPTH
+>tr|A0A0P0MBG1|A0A0P0MBG1_9BURK
+MTTDTQPSLSPEQDAYLRERSDWMGAYLVLHAWGVIALAMAVFIAWPNPLSFVVAVVVIG
+GRQLGLAILMHDAAHRALFKNTRLNDTLGAFLCGWPVGASLTLYRPYHLSHHRHTQQAED
+PDLILSAPFPITKQSFWRKMRRDILGITGYQRRLEFFRMEMGDSPSRWQRVKKLWAAEKY
+FFLSNLAILAVTTAAGVWWAYFLLWLLPLLTWYQVISRVRNIAEHAVVGNNDDRLRNTRT
+TLTNWGMRMVLAPYWVNYHLEHHLFVFTPCWKLPAAHRMLMAQGFGPRMELAQGYLAVLR
+QAVSKPHDGPKHGKTGDPRKHAALI
+>tr|A0A0P0MB03|A0A0P0MB03_9BURK
+MSEPSAFGFGQFVPGFDFLQNLSKNAAQAQPAAAAGMPGMASWVAPTLSIEDIDKRIQEL
+KSVLFWLEQNTTALKATIQAMEVQKMTLTTLQSMNVNMADLAKAFTVKAPAPAPSPAPEP
+QAAAPQSVTPRAAPEPKPVPADDAVKDAPEESTTGPASAKPAVDPMQWWGALTQQFQNIA
+AAAVKDVAAEAMKTGMTAKGASTSAAGKKPSPAKKAVAKKSAAVKTKPVAKSAPRKAAAK
+RKAP
+>tr|A0A0N7J923|A0A0N7J923_9BURK
+MITLALSKGRIFDETLPLLKAAGIEVLEDPEKSRKLILPTNQANVRVVLVRASDVPTYVE
+YGGADLGVTGLDTLIEHGGQGLYQPLDLNIAKCRMSVAVRADDDYAALVRTGARLKVATK
+YTTIARDFFATKGVHVDLIKLYGSMELAPLTGLADAIVDLVSTGNTLKANHLVEVERIMD
+ISSRLVVNQAALKLKQAPIRAIIDAFAGAVKKD
+>tr|A0A0P0M946|A0A0P0M946_9BURK
+MLTTNFHPTGRHFLQIPGPSPVPDRILRAISSATIDHRGPEFGALGLKVLADVQKIFKTR
+HPVMIYPASGTGAWEAALSNVLQAGDHVLMYETGHFAFLWNKLANQLGLKSEVISLPGLE
+GWRHGVQTDLIEQRLKADTGHSIKAVCVVHNETSTGVTSDIAAVRHAIDAAKHPALLLVD
+SISGLAAADYRHDEWGVDVTISGSQKGLMLPPGISFNALSPRAIEASQKGGMARSYWAWG
+EMIEMNKNGYWPSTPNTNLLYGLSEACDMLLAEGLDKVYARHQRWAAGVRAAVNAWGMPI
+QCADPAVYSPILTGVMTPAGVDADAVRKVIHERFDCSLGTGLGKVKGRMFRIGHLGDSND
+LTLIATVAGCEMGLKLSGVALQGSGVQAIMDHFSVHPAA
+>tr|A0A0N7J871|A0A0N7J871_9BURK
+MFVLSKLMSAITQPMFWLALWWALALLMLQRWRRLAAVMLWSGLVVLGLLGFEAGPHALL
+RHLENRYPVPTAEAVGRHVGVIVLGGATEHSDIYQAHGQVPLGQAAERMSVPVGLMRQHP
+NLQLVFSGGEGRLLATGVSEAELAKAFYQQQGVDMSRVVLEGGSRTTRENAIQVAALLGE
+RCKQPWLLVTSAWHMPRSVPEFEAVGCQVTPYPVDFRTGAATAWTEYSLARSLLLWQTAL
+HEWLGLWVYGVTR
+>tr|A0A0P0MBP6|A0A0P0MBP6_9BURK
+MQLELLNDQGQAASKVDAPETVFGREYNEALIHQIVVAYQANARQGTRAQKDREQVHHST
+KKPFKQKGTGRARAGMTSSPLWRGGGRIFPNMPDENFTQKINKKMYRAGMASIFSQLARE
+GRLAVVDSFKVETPKTKQLAAKFKAMSLDNVLVIADEVDENLYLASRNLINILIVEPRYA
+DPVSLVNFKKVLVTKGAMDKLKEMFA
+>tr|A0A0N7J8H9|A0A0N7J8H9_9BURK
+MDALVNALIAVGLLLILVMVIYLIDKVNAIEKETRKMMITLGEKPATTVPTVPTDPFMGL
+SGKKLWDAMTGRSAEGLDPDGRANLRNIYQVVLTKHMEALYQDGFKDAIRGLPGEPKNSR
+FITTAKGQVESWIPSAQANALYQCGFKAAETPQSEWGPIRASMDEAGLYLLGKTDLDTSS
+PLSDWLMPLSASDSAMSSAEGGYDTPIGLPDATKSTPKLNRL
+>tr|A0A0N7J8V3|A0A0N7J8V3_9BURK
+MDSVTQVLLGASIGVAFMGRRTALWKSALWGGVAGLLPDLDVLLDHGDPILNMIRHRAES
+HALLLLTLFAFPMAWAVSRLHRQPQLYGRWWWALMLALVTHPLLDLMTIYGTQVFQPFSD
+EAYGLGSMFIIDPVYSLPLLAGVVAALRVKTVGRALAINGWALAFSTAYLAWSALAQWGV
+TQHARQSLQAQGLPSQQLLVTPAPLSTLVWRVVALDGERFHEGFYALMDGGRAIRFVAHE
+RGGTLAMQNADHPQLQRLARFTDGFFKVQGNSDKLVVTDLRMGQEPDYVFSFDIGPPLQA
+GASHPVAEQRSRRMDVGEGLKWLGQRMLGHDVPPPERR
+>tr|A0A0P0LH80|A0A0P0LH80_9BURK
+MMQRREILTATLGTALLSVVGLAQAQSTKTVRIVVPFAAGGVQDTLARALSQEMAAALGQ
+TVIVENRAGAGGTVGTGYVARAEADGTVMVAAAASHNIAGSLYTKLAYDPQKDFTPLAHI
+GSASYVLMVHPDVPAKNAAEFIRYAKANPGKMNYASAGVGSATHLAMAYFTGLSGTDVVH
+IPLKATGEAINEVLSGRAQAVIAASIGALSFAKDSRVRLLGVTSPQRSKYLPDLPTIAES
+GLPGYQFDSWFGFLGPAGVPAAEANRINAAVSKLLKDPAVLARLDKQGIEPRDMSNADFS
+KLLAADYVRMAQVVKASGAKID
+>tr|A0A0P0M9Y3|A0A0P0M9Y3_9BURK
+MMKKRQLLTAIGLAGLGLLSQGQALAQADYPNKPIKLIVAFPPGGTSDVMGRLMAEELTK
+VLKQPVVVENIGGAGGIVGTDRAVKMPADGYTIIQTGVGQNAVAHGLDPNIKYNSVTDFI
+HLTQVHSGPNVLLVHPSLPFKTVKELVEHAKKNPGKLDYGYTHAASGHMAMELFKQTAGI
+FLTGIPYRGGGPMLNDLLAGTVPMVFLNQDVALPHVKAGKLRALAVTSKERNALYPDVPT
+VAESGYKGFEALSWSGLSVAKGTPQPIVDKLEAAMAQAMQSANFKQRLTSTGFVIPAQGS
+KPYTEFVKSELDQWTRVIKTAGIKPQ
+>tr|A0A0P0M7F2|A0A0P0M7F2_9BURK
+MSMAQWVETYGQGTVLAAGGVLIGLSFGFWAQRSRFCLRAAVIEFWHRRFGEKLSVWLLA
+FASAVIGVQLMVLMGWLDTGSARQISAKGSISGALIGGMLFGVGMVMTRGCASRLLVLSA
+NGNLRALLSGLIFAVTAQAALGGALSPLRTHISSWWTVEGGAPRDLLAIAGVDHWAGLAM
+GGLWLAAALFFALRSPQRSVWMWLGGMGTGLSVAAAWGFSQWVAAESFDPVQIQGLTFSG
+PSAEWLMRVMHWPAPPIGFDFGLMPGVFVGSLIGALVGRDWKLEGFSDGYSMRRYIGGAI
+LMGFGSMLAGGCAVGAGVTGGAIFALTAWLSLVGMWVGAGLTDRWLDGGAADKPTSLPAE
+GFKRP
+>tr|A0A0P0M8J6|A0A0P0M8J6_9BURK
+MDKKKFPQVIGVASGKGGAGKTTVSINLAVALAMQGHQVMLLDADLGMANAQIALGAHAP
+FNISHVLNGSKTLQEVMITTAQGVRLVPGASGLRDIAALDTQQIATMIHAFDTLDEPVDY
+LVVDVAAGIAPAVLEFMSACQRRFVVVCDQPASIADAYGLIKVMSTEQSLDEIYLVPNMV
+NSAQEGRQLYRRLNDVCTRFLGISIRFLHSIEADELVLQSLRKYKSVLEYAPGSSAARDF
+RGLAHALDQLPPIEHASGRMQFFMERMLRVPTDR
+>tr|A0A0P0M9X3|A0A0P0M9X3_9BURK
+MKSTLFALVLLLGLNANAWADRIKDLANVAAGRTNQLIGYGLVVGLQGTGDGADVSFTAQ
+SMKSMLSRMGVSLDGPLSDFEQGTSAGKIDIKNVAAVMVTAELPPFAKPGQKIDVNVSAI
+GKATNLRGGNLLLTSLRGVDGEVYGIAQGALNATGIDANAAGSKVSIGVPTSSRIPNGAT
+VERMVETPFESSDHVVLNVRESDFTTTTAIVNAVNKNFGEGTARAIDGMSLAIRAPADMS
+QRVAFMSLVENLDVVPGEPPARVVVNSRTGTVVISRNVRVTAAAVAHGTISVAIAATNEV
+SQPNPLSQGQTAPVQNAEIAVTEPKNPMFLFQPGVDLRQVVDAVNQVGATPSALIAILEA
+LKSTGSLRAELIII
+>tr|A0A0N7J8V4|A0A0N7J8V4_9BURK
+MFTKFCATVSKICLVLAVIGLIAVILCVQWQVIGRYVLNDTPTWAEALAMLIVLFVTAFG
+LAVGVRDAGHIGLESLVVLLPEKWQHRIEVLIHASVGLFGFLMVQGGWLWASAKWGEKKP
+MLPVPDGIDYVPVIIAGALILLFSIEHIVALVQGKVVKPVWD
+>tr|A0A0P0LLD8|A0A0P0LLD8_9BURK
+MNLLTRVRRTLDRLTIYLPLFLFAILALGSWWLVRSVPELAPPGLDPQLRQDPDFRLDQF
+TVKSFDASGRLTREISGQSATHFPATQSLHIEGVRILAENEVGTRLTAQAQKGISREAEQ
+QVTLSGEATAVRQADKQGPRVELRGETLTAWLQEERLVSDQPVRITRGGDVFSAQTMNFD
+VRSGQYELQGQVRAVLPPRQTP
+>tr|A0A0P0M6S6|A0A0P0M6S6_9BURK
+MTARKGIILAGGSGTRLYPVTQAVSKQLMPVYDKPMVYYPLTTLMLAGIRDVLLISTPQD
+TPRFTELLGDGSQWGMNIQYAVQPSPDGLAQAFIIGKNFVGNDPSALVLGDNIYYGHDMV
+KLLASANVRDAGASVFAYHVHDPERYGVVEFDGAFKALSIKEKPKQTKSNYAVTGLYFYD
+QQVCDIAADIMPSHRGELEITDVNKRYLELGQLNVEIMGRGYAWLDTGTHDSLLEAAGFI
+STLQKRQGLMVACPEEIAFAQKWISAADVQKLAQPLAKNGYGQYLLNLIK
+>tr|A0A0P0M9N7|A0A0P0M9N7_9BURK
+MDILLQLIDFILHVDRYLEAFVAQHGAWVYALLFLIIFVETGVVVMPFLPGDSLLFIVGA
+MCGAGLMNLPLVMGLLLAAAILGDQTNYTIGRYFGPRVFQWEESRFFSRRGFDQAHAFYE
+KYGGITIILARFMPFIRTFVPFVAGVAEMTRSKFTLFNVVGGFIWVVGLTLVGYLFGNLP
+IVQQHLSKIIWALIIVPGLIAMFGAWKARQAA
+>tr|A0A0P0M8C1|A0A0P0M8C1_9BURK
+MNPFDLQRDAFGCWVLVLADGTRHSPVTALRAYPVSAPHQGVALMDADGHELLWVPDLSA
+LPPNLQTTLREALDEREFLPQILRLDTVSSLVTPSTWSVQTDRGATQFMLKGEEDIRRLT
+GTVLLINDANGVQYMIRDLAAMDKHSRKLLDRFL
+>tr|A0A0P0M9Y9|A0A0P0M9Y9_9BURK
+MADATMWWVLAGVLVALELLTGTFYLLMLSLGAVAAALVAMAGHGLNTQLVAAALVGGLG
+AVLLGQWRKRQTTTPQEAQDQHLDLGATVQVDAWDAQGTAQVKHRGAAWTAVLAPGQTAD
+PGVYRIQAMAGNRLVLEKN
+>tr|A0A0N7J8B9|A0A0N7J8B9_9BURK
+MSRIVNAEKKKNLCARLARIEGQLRGLQKLIEADADCEKIAQQMAAARKALDKSFFSMVG
+CMIEQGDQSPEHVAEMLTKFA
+>tr|A0A0P0MA71|A0A0P0MA71_9BURK
+MKLALITDAWHPQVNGVVTTLYELVEALGPLGVEVCVFHPGQFNNRPCPGYAGIDIAVRP
+YKHLAEMLDKLSPDAVHIATEGPLGWAARKHCLKRGWRFTTAFHTKFPEILKAALRVPLF
+LGYALFRHFHKPSSGVMVPTQGVLQMLKARGFQNLKPWTHGVDLSLFSYQPQPLDLPELQ
+PLARPWALYVGRVSYEKNIDAFLDMPWKGTRIVCGEGPLADSLKARYPGVVWMGVLPRPQ
+LAQVYAAADVFVFPSRNETFGLVMLEAMACGTPVAAYPVDGPLQVMGADQGQTTGGVLGE
+DLAEATFQALKLPRQEARIRSEVFAWPHAVALFRSFLTPIKVEGKP
+>tr|A0A0N7J8W5|A0A0N7J8W5_9BURK
+MTTVAEAAPAAGLFKTAYAGLDDSLVQTFPGLVPPLSQGPEDPDEDPTPAGRPRLRAIFI
+SDLHIGTPGFQAEALLDFLKHHPSDVLYLVGDIVDGWQLRRRWFWPQSHNDVVQKLLRRA
+RKGCRVIYVPGNHDEFARHFVGHAFGGVEVLHDTSHTTAQGLKLWVVHGDHFDGVIQCAK
+WLAYVGDWLYELTLRLNRHLNSFRARIGLEYWSLSAYLKLKVKKAVNFISDFEVAVAQEA
+KRRGFDGVVCGHIHHAEIRDVNGTLYCNDGDWVESRTALVEHADGRLEIIHWAGQAVVVN
+TLPAQVVTA
+>tr|A0A0P0LGP8|A0A0P0LGP8_9BURK
+MTTSRLDHVTVVVVTHHSAHCLAGLHDLLQSCPHVIISDNASNDGTPDQAQALWPHAQVL
+PHPSNLGFGAANNRALERVSTPFAFLLNPDCEITTQALLALMDVAHEMPEAALLAPQLVG
+ARGQAEVNYRWPHTWWTSRGPAAEGPACVGFVCGAAMLFRMDRFDAVGFFDENFFLYYED
+DDLSLRLFNARLPMVVVPSIQAVHRSRGSVKGHAPWKSEYVRGFHHAQSKLIFEQKHGTL
+AQARMHRRRLLWSTALALPFRALLFSPKRFCRMWGRWMGLIRWTPHGSN
+>tr|A0A0P0M729|A0A0P0M729_9BURK
+MASVGGLSPNRAGLRCASATNLGVADIDWDAPWLADWRAVGEPIARQVAAGVPQPEALNA
+AGRAPLRFVPQADLPEGQAYEDFIFATGQVPTREGLHDFFNALCWMQFPLAKKRLNHLQA
+REIARAGVGQVRGPVRDAATVFDENAVLIQTSDAVWTALNEHRWFDAFVGLRGEWAHTRL
+WTFGHAALEKAVQPYKSITVHLWRVPQSVVKTELDAWLAQDLTPEKLARKPFSPLPLLGV
+PGWWLANEDPAFYADASVFRPRRSSRLSEKPYANAEITPMA
+>tr|A0A0P0M7R1|A0A0P0M7R1_9BURK
+MSHYHLYAIGNALVDTEYEVSDELLSAMGVSKRHMTLIDTPQRAELLKHVQSLHARRTGG
+GSAGNTVVALAQLGGQAFYSCRVADDELGAYYTQDLQTNGVATNLTHTRPTEGQTGSCMV
+LVTPDAERSMCTFLGATSQLDVSALHPQDIAKSKIYYMEGYLAASPTGLEAAVKGRQMAV
+EHQVQTALTLSDVSMINFCKAGLEAMLGDGLDYLFANEEEAQTWCGTKDLDAILAQLSPL
+AKTVCLTRGPQGCIVLQGQSRTDVPAVPAQAVDTNGAGDMFAGTFLYGITHGHTPAQSAA
+LANRTAAAVVSQHGNRLTQAQMQGIYTDFCNAQG
+>tr|A0A0P0M6J8|A0A0P0M6J8_9BURK
+MPNMQNPSRFWADWTTLDFQALAPSRAIDRVIAILPVAATEQHGPHLPLSVDTELVNGVV
+AACLPHLPAELPALFLPTQTVGLSPEHARFAGTLTLKAETVIRLWTDIGESVAASGVKKL
+VLLNAHGGQVSVMDIVARDLRARQGMLVYSVSWFNLPLRDAQGDDVNALFPPEEHRFGVH
+AGDTETSMMLALRPERVRMNLAQNFRSTSQDRAERFEILGNGKSAKLGWQMQDYNRQGAA
+GNAAAATADKGQALLDVSGRALAQLLVEIDQLPPDTLTDQVG
+>tr|A0A0P0M6T8|A0A0P0M6T8_9BURK
+MIDAQHIDLSFDGTQWVLQGVDLQVKAGEFVALAGPSGCGKTTLLNLCAGLVDLPPGQRL
+QVAGQAPELGSHEVAYMLARDSLFPWLNALDNAAFGLKVRGMPIAEARERAAQMLKQVGL
+GGSEYRLPKALSHGMRQRVALARTFAMPSPLLLMDEPFGALDAQTKLQLQDLLLQLCQDG
+HRTVLFVTHDLSEAVALADRVVVMSSRPGRIVADVKVPLARPRSIRELQTNEDFHRTYAQ
+VWKHLEEGWVHHEG
+>tr|A0A0P0LH36|A0A0P0LH36_9BURK
+MTDMNTPEIADTVRWIERAVIGLNLCPFAKAPHVKGQIHYVLSEAKGLEGLRDELIEQLL
+ALAAMPAEERETVLLIVPQMLQDFLEFNDFLDEADAVLEELDMEGVFQVASFHPQFQFAD
+TEPDDIGNFTNRSPYPTLHLLREESIDRAVEAFPEAEMIYETNIETMDKLGAEGWKKLDV
+GPSP
+>tr|A0A0P0M863|A0A0P0M863_9BURK
+MSAPTLKLPHAVSRLRTERMARSAKPFMARGGIKGERCPGCRLVPSHCICALHPEVPTLV
+GMCLLMADIEPLKPSNTGWLIADVVPDTFAFGWARTEVDPALLALLADPQWQAFVVFPGE
+FVAPERLVGDVPTLLDNLPAGQRPLFILLDATWPEARKMFRKSPYLNRLPVLSLAPEQVS
+RYQLRRSKRDDHFCTSEVASLCLELAGEPLAADTLQAYLDVYTHHYLQAKHQLPPDLQGP
+AHERWQGLKKS
+>tr|A0A0P0M9N0|A0A0P0M9N0_9BURK
+MTDRQVLLSARGLTKRFGGLAAVNDVSLDLWLGQIHAVIGPNGAGKSTLANLISGDLPPT
+SGSITLGEHPITGWTPEKISRHGLGRSYQKTNIFTTFTVWDNVRLAAQSRVQPSPFNPLG
+WLQAAARMQAVNARAERAMELAGLQDRRHAQAGATSHGEQRQLEIAMTLATEPRVLLLDE
+PLAGMGQAEAERMVQLLLRLKKEHAILLVEHDMDAVFTLADHLTVMVNGQVIASDTPAAV
+RADTGVQAAYLGEEH
+>tr|A0A0P0LUH1|A0A0P0LUH1_9BURK
+MNLITRPSLPRPSLSALQGEAGQLAVYDWALPVSRPLGTVLLVHGLGEHAGRYGEVAAHL
+YQWGFAVRAYDHQGHGQSEGPRGDLLRPGSLQADLCRVIDDTRQRPALKDLPLILLGHSM
+GGLVVARTLAEQLRSVDAAVLSSPALGAFPSFFQKILLATLPRVVPHLRVDNGLKTEFVS
+RDPDVVKAYKADALVHRRISVGLAAWILENGEKTLHDASKWQVPTLLLYAGQDKLVNPQA
+TADVANAAPQDVVQAQCFEAMYHEIFNDLYRAQVFAALKRWLLARFSAQPSV
+>tr|A0A0P0MBV4|A0A0P0MBV4_9BURK
+MAKFTAKPQNDGPEDGLREKMIAVNRVTKVVKGGRILGFAALTVVGDGDGKVGMGKGKSK
+EVPAAVQKAMEEARRNLSKVHLKNGTIHHAVNGHHGAARVMMAPAPKGTGIIAGGPMRAV
+FEVVGITDIVAKSHGSSNPYNMVRATLDALSNCTTASNVAAKRGKSVEELFG
+>tr|A0A0P0M738|A0A0P0M738_9BURK
+MPSWSRFWQRVAHRPVRQAWGLACDGAGWALVGLSWHKAVGVRVDTTEKIATANDPPGSG
+FGWGLSQVGGRSRQRVSVGLAEDELIAGVLVLPAQLPRDDWASEVQLEVAQLLCLAPDEV
+NFDFQPDPVSDGLLSRVHWVGCDQARIRAIRDGVRMAGWRLDSVEPASHAAHRAVCHLKG
+GLDSLLTQAPQDWQFDLTPHLGVGHNLPSGAFDAAADPVLRQALQSTAGPRLVASGLALK
+AWL
+>tr|A0A0P0M7M1|A0A0P0M7M1_9BURK
+MNRRSILAAAMAFAGLTSAPVWANAEAAAVKSVAAQAGVAGAQEVSLDAVVEAVRQATLS
+AQVPGAIVSLNVKAGDRVRAGQELLRIDASAAQQNVAGSTAQLEAAQANLRVASKELDRQ
+KQLFQKQYISQGALERAQAQYDAAQAQVQAQQAQTRAAQTQTGFFSVRAPFHGVVSDVPV
+TLGDMAMPGRPLVTLHDPSALRVSAAVPQSMIEGVRKQLKSVRYEIAGHTSVAAASVQML
+PAVDPVTHTAQLRVALPAGIEGMVPGMFARVWVPGSLASVATQNGTQDAVSSGRVFLPLS
+AIVRRAEMTGVYVMDAQGKPRLRQVRLGRTTGQTVEVLSGVSAGEQVVTEPASLGKKL
+>tr|A0A0P0M7V1|A0A0P0M7V1_9BURK
+MSTILQNLPKGQKVGIAFSGGLDTSAALLWMKQKGALPYAYTANLGQPDESDYNEIPRKA
+MEYGAEKARLVDCRTQLAHEGIAAIQCGAFHISTGGITYFNTTPLGRAVTGTMLVAAMKE
+DDVNIWGDGSTFKGNDIERFYRYGLLTNPSLKIYKPWLDQLFIDELGGRAEMSAFMTANG
+FGYKMSAEKAYSTDSNMLGATHEAKDLESLQSGMKIVNPIMGVAFWKPEVEVRAEEVSVR
+FEEGMPVALNGVEYADPVELFLKANEIGGRHGLGMSDQIENRIIEAKSRGIYEAPGMALL
+HIAYERLVTGIHNEDTIEQYRINGLRLGRLLYQGRWFDPQSIMLRETAQRWVARAVTGTV
+TLELRRGNDYCILNTESANLTYAPERLSMEKVEDAPFSPLDRIGQLTMRNLDIVDTRAKL
+GIYAHAGLLSVGEGPHIYKLDGSGKK
+>tr|A0A0P0M7X3|A0A0P0M7X3_9BURK
+MTATVVHTINTAEDANKKAVHDDMISPRFYTTDFAAMDRISVEPVRAEWDKMMAEYEGDN
+NHDHFQRDEAFAGEVASGMASLSPEMRQEFMDFLVSSLTSEFSGCVLYNEIRKNVTNPDI
+KQLMTYLARDESRHAGFINLSLRDFNLGIDLGNLKRTKKYTFFKPKYIYYATYLSEKIGY
+ARYITIFRQLEKHPEKRFHPIFRWFELWCNDEFRHGESFALIMRANPKLLSGGNKLWIRF
+FLLAVYATMYVRDHTRPMLHEAMGLDSSEYDYQVFRITTEITKQVFPLALDTDNPDFRRG
+LERLFTLSQGIAKAKARGGVVGKLQQGVYAVKAAATFARLYFMPVIAQDLSPQVRMEPAW
+>tr|A0A0P0MB56|A0A0P0MB56_9BURK
+MKAGMRRVSGLTTESPSAPNTSGRWRRTPETLVWMWLVLFIITLLWAMVSHSAPAEFVFV
+LCALSSLAAVCVTHAGLRDAHTWVRRVVPVHRVHQRIHDMAHGWWVSGLLMGLATLMGAW
+VSFGTTFVNQLPVVGAVLLLALVWHTVWVCALHAWWGVAHPVHLAVPLLGGLLPVFWPDS
+VWSAWYQASWGVWLLAAAYGLGAAVWMFRRLLKDTRSGLTWRPGPGGRLDAWLRRLLAHA
+GFIEQGDLAGRPWGAILGMGVTFALLPIQQIGSIRLLEPWGSELTYYELLRIGFLCLFLL
+PVLRSSQWHWRYGLSPGGQMRRQLGLNLITSTLRFVALWFCPGWALFYGAKQFFFSDQSG
+LQILTHLALYVPAMAVDFWVATALAVCLMGAFRTWGRLLFTCVLIFSPVVLIGVTQVDSR
+WAWLLHWGYRQGVWLLVMTLIALVLTFLAQRIWRKADLAEVWREYEAKTQTLQG
+>tr|A0A0P0MB36|A0A0P0MB36_9BURK
+MWIDTHCHLDAAEFDADRDALREAARAAGVTHCVIPAVHAAHWTQVAQLAEQHGDAYALG
+IHPLYVPQAQETDVQALDRALTERRDDPRLVAVGEIGLDFFVPELCTPSMRERQWWFYTA
+QLKLAQKQGLPVILHVRRSADLLLKGLRQCPVVSGIAHAFNGSHQQAQAFVDMGFVLGFG
+GTLTYERSLQLRRLACELPLSALVLETDAPDIPPQWLYQTAEQRALGAKQGRNSPAELPR
+IAQVLASLRGLPLTDLAATSTANACRVLPQLAALYHHAP
+>tr|A0A0N7J8Z6|A0A0N7J8Z6_9BURK
+MDVFLQQVINGLVMGSMYALVALGYTMVYGIINLINFAHGEVLMVGALTSWSAIGMMQGA
+MPDAPGWVILILATLIACVVAVVLNFSIEKIAYRPLRNSPKLAPLITAIGMSILLQTLAM
+IIWKPNYKAYPTLLSSTPINMGGVVITPTQIMILGVTAVSLAILMWLVNYTRLGRAMRAT
+SENPRVAALMGVKPDMVISATFVIGAILAAIAGVMYASNYGTAQHAMGFLPGLKAFTAAV
+FGGIGNLAGAVIGGILLGLIEAIGSGYIGYLTGGVLGSHYTDIFAFIVLIIVLTLRPSGL
+LGERVADRA
+>tr|A0A0P0LAZ0|A0A0P0LAZ0_9BURK
+MPTSAAGSKRPPALPTGFTLLELLVVVALIAVATAGVSLSLRDSAHSALQRDAERLAVLL
+ETGRAQARANGLPVVWRTQDNTPNAVQSFVFEGLPPPGLPQNWLAPSTRATPGSAITLGP
+EPLIEPQAVALSAPQSPGQTLWVVTDGLRPFKVQNTSEQVRP
+>tr|A0A0P0M928|A0A0P0M928_9BURK
+MLSWMTRLLSVSRSRYGVWGCAALVGLFLSGCETTTMRPPQVDTVRFTPMPESNRVIAQP
+KIKYLVRQDGYEYCARITGIPVTPTSRPMACAFWNVRRKECTVVTPLVTGYNYVGHELRH
+CFEGAFHD
+>tr|A0A0P0MA35|A0A0P0MA35_9BURK
+MSSLIRDDDGVSNTSANDHLHDLIEREIARNPSRRNMLKSGAALGLLGIFGSALTACGGS
+SAPAAGSIGFKAVATSSGDAIVVPEGYTADVMYRWGDPITATASAFKGDASETWREQEVQ
+SGDNHDGINFFPFPGTDGNSRGILAMNHEYINPEYFHNVANFNKPEIPDNTKKQVAGHGV
+SVIEVQRNAAGKWEYVKNSTYNRRITGYTPMTLTGPAAGHDLLKTAADATGTEVLGTLNN
+CGAGQTPWGTFITCEENFNGYFGTDAAGWTPDTLQNRYGLAAAGFGYGWHKGDPRFDLAV
+NPNEPNRFGWVVEIDPYSPTSKPKKRTALGRFKHENAECVLSKTNKAVVYTGCDERNEYL
+YKFVSTGTYDAANKASGANLLDAGILYVARFDAGTVVGDNQGTGAWLPLVHGQNGLTAEN
+GFANQAEVLIKARQAADRVGATMMDRPEWVAANRTKPGEVFLACTNNNRRGSAATPSSNN
+VNGSTTAGSARPALDEANPRAVNNWGHVIRINEMGADAAALTFNWDIFVIAGNPALEGTK
+KGSSNIDASNTFNSPDGIQVDPEGRLWIQTDGQYSNTGDYVNQGNNQMLVADTTTKKITR
+FLVGPAGCEVTGVCWTPDGRTMFINIQHPGEVGSHPNAPAAYKSATDKDAWINANPTAFS
+KWPDGSSAGRPRSGTVVIRKNDGGVIGT
+>tr|A0A0P0MBB5|A0A0P0MBB5_9BURK
+MNTPTNLFKQALQNQHSQIGLWMGLASAYTAEICALAGFDWLVIDGEHAPNDLRSIQAQL
+QTLAAYPNSHPVCRVPLGETALIKQYLDLGAQNILVPMVDTAAQAVQLVQAMRYPQDDGL
+GGVRGMAGARASRWGHYPDYFKRANQEVCLLVQVESREALKNLDAIAATPGVDGVFIGPA
+DLSASMGHVGNAAHPEVQAAISDAIARILKAGKAPGILSPDRQLAAQYLQMGALFVAVGL
+DTQILMRHTTDLAAHFKAEVKTIAPQKGATY
+>tr|A0A0P0LRY3|A0A0P0LRY3_9BURK
+MTAPQAVTQVHKSHTQSPTVSWREALKFWCWLGCMSFGGPAGQIALMHEELVVRRRWMSE
+KRYLHALNYCMLLPGPEAQQLATYMGWLMHGTRGGIAAGALFVLPSLVLLIVLSWAYTAW
+GQHPWGQALLWGLKPAVTALVLQAAHRLALRTLKARWLWVLAVLALLGMLWGLPAAVIIL
+GAAVTGYVVSRQALSPPAPDAKPASPTPASNSAPAWLDDDTPPPPHTHYSHPRLVRALAI
+GVGLWALSLGLIVLVFGLGHTLTQMGGFFTQAAFLTFGGAYAVLPMVTQAAVVHYGWLNA
+AQMMDGLALGESTPGPLIMVVAFVGFLGGHSQALFGHPVLGGVVAACVVTWFTFLPSFVF
+ILAGGPLVESTRHMPSLTGPLQGIMAAVIGMIVYLAGVFARQTWLPGGWHMLPDLGAMAL
+TVLATWLLIRKQLSVFKLLGLCTVLGLVWQLWV
+>tr|A0A0P0MBY2|A0A0P0MBY2_9BURK
+MYKHIILAYDGSNSGQKAMLELKELAHWGQPRLTLVAVAPNPLDVGSMEMGYYTSADNGP
+VEETLREQLAQGVQTLQTMGYTVQGEVLKGEVIRELSDFAERAGADLIVVGHKHEPNLLR
+RWWSGSTAKSLVEESPCNVLIVVDRSAVAAT
+>tr|A0A0P0MAA0|A0A0P0MAA0_9BURK
+MNKRNLISAFVLACMAMGVQAQGAAYPNKPIRLVVGFAPGGAADYVARAISDAMGKSLGQ
+TVVVENRAGAGSSIAAENVAKSAPDGYSVLLASPSSISVNPALNPKLNYTPKDLVPITKV
+TTSPLVITVNPNIGINSVQDLIARAKQSPGKINYATSGNGSAPHLGAALFTQLTGVDMVH
+IPFRGGAPAIQSVIAGDTQVTFGTPPSVLPMIQAGRLKGLAVSTKTSTPLVPGLPGMQEA
+KLPEYAIEFWYGLFVPVGTPPAVLKRIFDAAQSAMAQPSVKVALAREGTDVSVSTNPDQF
+AAFLTEDAKFWVNLVKSAGVKLD
+>tr|A0A0P0LHT0|A0A0P0LHT0_9BURK
+MTENALIDSPKPSGIPADVPFLRTIKSYVLRAGRTTIGQAKAYELYGPANLLTYAPETLT
+ASAAFGRSAPLILEIGFGMGEATAHIARVRPDDNFLCCEVHEAGVGALLKRIGEQDLHNI
+RILRHDAVEVIDHMLSPGSLDGVHIFFPDPWHKTKHHKRRLIQPALVNKLAQRLKPGGYL
+HCATDWQPYAEQMMEVIGGEPLLANTSDAADGFAAKPDYRPLTKFENRGLKLGHGVWDLV
+FRRV
+>tr|A0A0P0MA98|A0A0P0MA98_9BURK
+MISNTYSGEESASTHEVGARGGFFNFRQVVLNPTPHSVQNPAARNLAPWEQRDQPEADTA
+KAQVMPLSDQPAWLKKRHLLFFLLALVLMHLSHLMAKNDDLRGNWTPPIEPPGSVIVTSL
+SETSSGQLQVRSAAQAPAPQATPAAVVAAVAAPAQPTAPVQASGTEQELRQALQQWSQAW
+SGQAMTPYLGMYASDFEPPKGLSRSAWEQQRTQRITSKKSIRHDMQNMTLRIDANQATVH
+FTQIYQDERLQSSDQKTMVWVWRNGQWQITREFTA
+>tr|A0A0N7J8X3|A0A0N7J8X3_9BURK
+MTVLSAIWKFLRGLWHVLVGMWTIYVRFPQLTPEQREMRVQAWALQFLALWGIHLRVIGQ
+PVASGPALMVANHISWLDILVIHAARHCRFVSKSDIREWPLVGMLATGAGTLYIERTSRK
+DALRMVLDMASAMRNGDVVAVFPEGTTSDGRELLPFHANLIQAAIQAEAPVQPMSLKFID
+AQTGELSLAPCYIGDDTLIGSMWRTLKARRIEAVVHFGEPQMANGRDRRAWAQDLRQDIL
+ALRDAA
+>tr|A0A0P0MC50|A0A0P0MC50_9BURK
+MTALTGLKLTAAQKPTQMSPVQQRRNKLAKRLWEQAELAKAQQTGGTFAPKKFRSITDAN
+TGERKQVEQSKKIKQWWFVADSGKLVLSVRYGTKVLELAKGKWAVEVGSEKDLVPTLELL
+KGAVLGGELDAQIEAASNKLREGFGG
+>tr|A0A0P0MBK3|A0A0P0MBK3_9BURK
+MAVASWGPERVSKVTVALALQGNNDHTDTKPPMNHPALPLFPGFTHHQIEVDKGLHISAM
+VGGQGPGLLLLHGHPQTLAIWHKVAPTLAQHFTVVAADLRGYGDSSKPEGGPDHAAYAKR
+SLAQDQISLMHHLGFDRFHVLAHDRGARVAHRLGMDHPQAVRQMVLLDIAPTLAMYEQTS
+EAFARAYWHWFFLIQPQPLPERLIEANPAAYVTDVMGNRSAGLAPFDARALTEYQRCLAL
+PGAAHGLCEDYRASAGIDLEHDRDDIAQGRRLQMPIQVLWGEQGVVQRCFKPLKEWQKVA
+EQVSGQALPCGHYIAEEAPHALLAQVLPFFDRSPA
+>tr|A0A0P0M885|A0A0P0M885_9BURK
+MKIHLQTPQEIRLKIWKELSRASLDRHHDWRTPVLASVDADGLPDARTVVLRQADALAGQ
+LTFYTDSRSPKVAQLQTQASAMLVFWSARLSWQLRVRVVCTVITAGPEVEALWQGVKQSA
+AAGDYLSPLAPGAVLPPDRGTADAADASVPAPTHSFAVLHAQVLQMDWLELSREGHRRAQ
+LDATTWAWLTP
+>tr|A0A0P0LG26|A0A0P0LG26_9BURK
+MDLFICENVSMTEFQTAEHMQALGQKAKIASALMAKASAATKNAALRHLAALLRENTEAL
+QLDNAKDLERARAAGLAEPMVDRLKLTPKVLETCAQGCEQLAAMPDVIGEIIGMKQVPSG
+IRVGQMRVPIGVFGMIFESRPNVTIEAASLSIKSGNACILRGGSEAIESNKALARLVQQA
+LTDSGLPVDAVQLVQTTDRAAVGQLITMPQFVDVVIPRGGKGLIERISAEAKVPVIKHLD
+GNCHTYVDDPCDIDMAVKVADNAKTQKYSPCNASESLLVARGVAAEFLPKIGAIYAAKGV
+EMRCCPKAKAILSQVAKATLKDATEQDWFEEYLAPIISIKVVEGVDEAIAHINHYSSHHT
+DAILTRDHMHAQRFLREVDSASVMVNASTRFADGFEYGLGAEIGISTDKFHARGPVGIEG
+LTSLKYVVLGEGEVRG
+>tr|A0A0P0M9Z1|A0A0P0M9Z1_9BURK
+MLTNQSSNVTSASSCIDQLMSISDITSFLSAIPQCALKRFLISKLLGVDVQITQQECRIG
+LLPALPYKFRVIL
+>tr|A0A0P0MAV5|A0A0P0MAV5_9BURK
+MKPFLIQQLERYAVRLTELDFLLSREDIMADMTQFLKLSREHAEVSAVASRFARFQQRTA
+DLASAQALLADEDLREMAEEEAASASAELQSLEAELQRMLLPKDPDDARPAFVEIRAGTG
+GDESALFAGDLLRMYTRYAESQGWRCEIVSESVSELGGYKEVVVRIGGSTSGDGVYGALK
+FESGGHRVQRVPATETQGRIHTSACTVAVLAEPDEAEAIKINPSDLRIDTYRASGAGGQH
+INKTDSAVRITHLPTGIVAECQDGRSQHSNKAQALKVLTARIQEKDRAERAAKDAAERKS
+LIGSGDRSDRIRTYNFPQGRLTDHRINLTLYKLLTIMEGDLQDVVHALQSYEAAEQLAAL
+EIGAAA
+>tr|A0A0P0MBW4|A0A0P0MBW4_9BURK
+MLTKKEQRLRRARQTRIRIAQQGVARLTVSRTNLHIYASVISGCGTKVLASASTAEAEVR
+TALGAAGKGGNAAAATVIGKRIAEKAKAAGVEKVAFDRAGFAYHGRVKALAEAAREAGLQ
+F
+>tr|A0A0P0LB98|A0A0P0LB98_9BURK
+MRNRVQGASQSYVWTCLLCLSLSLSGMTAAAQVRSGSDKPAAIAEKQNEEAGHWLMTQMA
+LLEGLRQIPEQIDMGLQQAQAQGMPLELAKVVQRSGREVYDLKQLEPQALALLLKSLRSE
+HLQAWTVFYKTPLGQKIAVADIQGASAQTMGFVMENAPKIMAELAADTSRMALIQSVVDA
+SQSVDRAVSMNMAMSLAMEWALVSAMPDQPGKPTFRQLQDHVEQQRFVMRSQMSQWVLAH
+AAHVYKNLSISELQQILAQANSPAGQALFRGFGPTFADWINQYAQRLGQSVRQGLQKQGV
+>tr|A0A0P0LIM9|A0A0P0LIM9_9BURK
+MSHDPIVIVSAARTPMGSFQGDFSALAAHDLGGAAIKAAIERAGISPELVTEVLFGNCLM
+AGQGQAPARQAGFKGGLPKSAGAVTLSKMCGSGMRAAMFAHDMLVAGTHDVLVAGGMESM
+TNAPYLMLKGRSGYRMGHDRIFDHMMLDGLEDAYEPGRSMGTFGEDCAAKYSFTRAEQDH
+FATTSVQRAKAATESGAFATEITPVTVKDRSGERVVSIDEGPGKVKLDKITSLKPAFKKD
+GTITAASSSSINDGAAAMVLMRESTAAKLGCKPLARIVSHATHAQEPEWFATAPVGATQK
+ALAKAGWKVEDVDLWEVNEAFAVVPMALMKELNVPHDKVNVNGGACALGHPIGASGARIM
+VTLIHALKARGLKKGLATLCIGGGEGTAVALELV
+>tr|A0A0P0LKV1|A0A0P0LKV1_9BURK
+MKDFRNIALFVVLVGAVPLFTDSGVMLNFVMTSLYACLLSQAWNVLGGFGGQFSFGHALF
+FGTGAYVQAIAQMQWGLSPWVALPLAMVFAAGVGAFVGAASFRYGLKGSYFALVTLAFAE
+VFRILATSVPFTGAGVGLMLPLKESAANMQFGSRAGFIWLMLGLVTLALCITAWLRHSRF
+GAYLQAVRDNEDAARAIGVNPFSVKLIATILSGGLMGAAGAFYVQVFQYIDPGIAFGAHT
+SVEALVGAIVGGMGTLWGPLLGAVSLHILADLTRNLFGQLPGINMVIYGVVLIVIVMFLP
+RGIAGLGTTRPLQWLRGSKSDGDKS
+>tr|A0A0P0M7V7|A0A0P0M7V7_9BURK
+MKRMLINATQAEERRLAIVDGQKLLDYEIEIEGREQRKGNIYKAVVTRVEPSLEACFVDY
+GEDRHGFLPFKEISRQYFAEGVSVSQARIQDVIKEGQSLLVQVEKEERGNKGAALTTFVS
+LAGRYVVLMPNNPRGGGVSRRIEGDDRAELKEAMDQLEYPKGMSIIARTAGIGRSAPELQ
+WDLNYLLKLWTAIDGATQGKGAFLIYQESSLVIRAIRDYFNNDIGDILIDTDDIYDQAQQ
+FMSHVMPEFAPRVKRYRDDAPLFSRFQIEHQIESAYARTVQLPSGGAIVIDHTEALVSVD
+VNSARAIKGGDIEETATRTNLEAADEVARQMRLRDLGGLIVIDFIDMEEAKNRREVENRL
+RDALRQDRARVQFGSISKFGLLEMSRQRLKPALSEGASIPCPRCGGAGHIRDTESSALQI
+LRIIQEESMKDNSAAVHAQVPVEVASFLLNEKRSEIAKIELQQRINVLLVPNKSLETPHY
+KLERLKHDDPRLDRIEASYKMAEEIEDATTVTRRSQEPTNKQTPVIKGVLPDAPAPAAPA
+KPEAPVAAKPVAKAAAAAPVAAPAAAASGGFFGWLKNLFGGTAAEPVAAPAAKPEEKARE
+GRREGGRDGGRESGRDGRRGGRDGRRGERSEGAAGEVRAPREGGRRGEGRIEGREGEARP
+PRGERAERGERTERGERGERSERASGDRPAREGRRDGRSSVRGENLAEGQRTDSLSEGRT
+DAPTELNAEGKEVRPERAPREAREGRRERGERGGEGRRERGERSERRPGEVNEASASEAA
+LGSEQTADANATTEGTGAAENGERRERRSRDRYGRDRRERAGDTRPDAAADQASGDDTAE
+PARQNAEAQAEDRPAPRSYFERAQQAAAPQANQETAPVNAQPAAPAADAVTTPVSQQAPV
+APVAPVAPVAPVAAAPAPAPAPAPAPAPAPVPAPAASPAPAAAASTAQTAPTSAPAASTA
+LPVVASYTLPIDSLQQVAQNSGLVWVNSDSAKVAAVQAAIAAEPPAVRVPRERPPAVVVN
+EGPLVLVETRKDLNTLQVPF
+>tr|A0A0P0M6W1|A0A0P0M6W1_9BURK
+MPATLEAESTLTDRYQTTVPETVRRALRLRKRDKIQYVIRPSGEVVLTRASDAEVEDPVL
+GQFLGFLAHDIATHPERLQSVSSTFVQRVQSLVGEVNVDLDAPLSADDE
+>tr|A0A0P0M783|A0A0P0M783_9BURK
+MFNRSRRSLVASAVAGLTFLAAAVPAVAQNYPVRPITMIVPWGAGGGTDAVARIVASLLE
+KDLGQPVTVVNRTGGSGVVGHAAIASAPADGYTIGLATVEIGMMHWQGLTQLTGASYTPI
+GLVNADPAGIQVRADSPYKNVNDLLAAIKANPGKFKASGTGQGGIWHLAIAGLLLDQKID
+PAALPWVPSNGAAPGLQDMVAGGVEVAPVSLPEARSLIDAGKVRSLAIMDAKPSTLYPNV
+PTLKSATGSNWTMAAWRGVLAPKGLPAPIQTKLAEAVRKAVASKEYNDFMTSRGLGVIYG
+GPEDMAKFMAKSDAEMGVTMKAVGLVK
+>tr|A0A0P0M6R6|A0A0P0M6R6_9BURK
+MNCSTAWLALQTLEGGIELSRTPADQADRWGAQLSADLREWGLESAVQTLSVPLEDGTVA
+LKASLRPEFQQTHMPGHNSLNLRRSLGAVNPSAENEAWALEREIWVALLGSPHRFVFHDL
+ASLKSHVRVRRNMALAARLTALAFKTEAAERPEADWHYEEEPGFILHHGRPLINALIAAT
+QPEATGKLYDFSCYRATEYVILLGIAQELQAHHPALLDELQQLNERHAVRSGQFHEVFLI
+EYGSMEVPLPARFYVPGDRLWFRNPDERSSDVTGYEGSWVMYMGGGLFSNFWKREAPFTL
+ESKAIEIFHWKDGVYTDAHGELQMDESVVERLVAQTQANPEARARVLERMLRMRDPKGVY
+AEGGCIDTTREYPKNVSREHCDLVLPRF
+>tr|A0A0P0LS86|A0A0P0LS86_9BURK
+MLAKQPAPVFVLNSLDGNVSVIDPVTWTEKKRIPTGKEPHHLYLTPDEKSLIVANAMSDS
+LTFIDPRTAQVQRTVTGILDPYHLRFSPDMKWFVTAANRLNHVDIYRWDGQNAHLSKRIA
+TGKTPSHLWIDSRSQTVWATMQDSNEIVSIDLNTQTLTTRTPVGAVPADVYGTPDDKYLM
+VGLTGGDGVEVYDISGPKPRLFKTIPTGKGAHAFRALGDKRHVFVSNRVANSISQIDFID
+WKVVAQLPGPSGPDCMDITADGQLILVASRWSRKLSVIDIASRKLIRQVPVGKSPHGVWT
+LDHAPRN
+>tr|A0A0P0M849|A0A0P0M849_9BURK
+MNTAAMNAPVVLKAQGLVKQFGGITATDNVNLELRLGARHALIGPNGAGKTTLINLFTGV
+LPPTSGRIELLGQDISQLASHLRVRRGLVRTFQINQLFASMTPLQTLAMVVSQQRGLGGR
+WWSKLGQDTAVVARCEALLELFRLTEVMHQRTEHLAYGKRRLLEMAIALACEPKVLLLDE
+PVAGVPAGEREELLQTVAALPAEVSVLLIEHDMDLVFEFADRITVLVNGAVLTEGTPEAI
+AADPQVKAVYLGHGEEVAHG
+>tr|A0A0P0M918|A0A0P0M918_9BURK
+MRMTHGLAVWTMIGCTALWSMAGVVTRHLEEARSFEVTFWRSFFTVVSLLIILPLWQGRG
+VWSRLPWRNRYFWLSGLCWSVMFTAFMVALTLTAVANVLITMAVGPLFTALFTRVFLRHP
+LPLRTWVAIVLAGIGIGWMYGTQLSLGDPNFLLGSLVALCVPIAGAVQWTLAQKSQSDGH
+NLDLVPSVLLGAVFSTLLTLPLAMPFQASTHDVGLLAILGLFQLAIPCVLSVVCVRVLKA
+PEASLLCLLEIVFGIALAWWGANEAPQMSVLLGGSLVLGALLMNQWLGWKQNNV
+>tr|A0A0P0M988|A0A0P0M988_9BURK
+MSIPFGAHIPFVEHLGFSLETFEGGESELHFAPRPEHLNSFDVTHGGAVMTFLDVIMATA
+ARSVDPVMGVVTIEMKTTFMRPAQVPAGQHLVGKGHLKHRTRSMAFTEGSVFDAQGQLCA
+HATGTFKYVSRREKPSISTD
+>tr|A0A0P0M9Z5|A0A0P0M9Z5_9BURK
+MLIVGLNGFVALGVKPLQNSPSALSTSKEGSHLDLKPIKLQLYGAARK
+>tr|A0A0P0M9F2|A0A0P0M9F2_9BURK
+MTSSKPFDIASLDPLTAGIFNAPTSGERSARLREWLLTEPSEDLMTEVYRELSGRDKGVA
+KLLKEKLDELKRLHGQEALATEWVQKAEQLLNAPRLNMADALAWQRDAAKAGAPLSREPL
+AGLKQRLTEVVKGVEDLQHQVMVQREAAVLLAQRIEVLSTKSLVEALGGQTGLLADVAQW
+QNQAQALTHNSVWPSVDVKYPPQLDAAGKQLQAVWDGFSAAAAVAAVAQNDGAAPLPPVP
+VWADEIRRLRGELPQHAAVAAESVKPAKPVKTEQAEKPAKPKIDPAQRQALREQAMAAVT
+EVLELLEKQLNEAQETPPAESVAALRNALKTHGKNLDTSLDERLHKALTSGGDAEGWQRW
+LADQVRTDLVNQAEALLDANKAPTVGGRKMQDKLRQLRDSWKQIDQGGLPNHALWKRFDA
+ACNEAYKTVLAWLEQMKKDSADQRAQRVALMDEVKAWTAENAQSEDWRAQLRALHQFADR
+WRNAGHLSEKAFGEMQGQWKGIFKAAAARLEAAQKASVDRRQALINEAREVGAAPALRVD
+AVKALQQRWQVEAQSVPLDRKTEQKLWEVFRAPLDEAFQRKGTDRPQAAGPLSAHDRAVI
+DASKALDAANASGDAAKIRAAMAALDAALRGQALQAQAAQSAASAAATPVAAPTPEAVVE
+APVDEAAATAVAAEDPASEPAESDASTTGPESDCASPEPAAAPVVAPKPAKPVVAVRGDD
+RPGQKRAEAPAGRDGRRDGRPGERGARPGGDRGPGAGRFGDRGAERGGDRFGDRGPREDR
+GPRLGDAAFRAQREALERAEMSLRKLAAQAHGETLGRVMSAWQARQAEALPTVQELGKGV
+NATTRQAWAQAVSAEPKAPSATALLRLEMAADVPTPADKLSDRRALQLQLLTQRNQPGPS
+ETWAQDVAKVLSAAHDEATARRLQNVLKNLLRT
+>tr|A0A0P0M8E6|A0A0P0M8E6_9BURK
+MTSLVIAEHDNASIKGATLNTITAAAACGGDVHVLVAGHNAAAAAQAAAQIAGVSKVIHA
+DSEALAHGLAENVAAQVLAIAANYSHILFPATAAGKNVAPRVAAKLDVGQISDVTQVISA
+DTFERPIYAGNAMATVQSTDGTKVITVRTTGFDAAAASGGSAAVESAAAQADSGKSSFTR
+SEIAKNDRPELTAAKIIVSGGRALGSSEKFNEVMTPLADKLGAAIGASRAAVDAGYAAND
+LQVGQTGKIVAPQLYVACGISGAIQHLAGMKDSKVIVAINKDPEAPIFSVADFGLEADLF
+AAVPELTNAL
+>tr|A0A0P0MBH2|A0A0P0MBH2_9BURK
+MARTTPIERYRNIGISAHIDAGKTTTTERILFYTGVNHKIGEVHDGAATMDWMEQEQERG
+ITITSAATTCFWKGMDSSFDEHRINIIDTPGHVDFTIEVERSMRVLDGACMVYCAVGGVQ
+PQSETVWRQANKYKVPRLAFVNKMDRTGANFFKVVEQMKLRLKANPVPVVIPIGAEENFT
+GVVDLRKMKAIIWDEASQGMKFTFEEIPAELLETAKEWREKMVEAAAEASEDLMNKYLEE
+GDLSEEEITHGLRVRTIAGEIQPMLCGTAFKNKGVQRMLDAVIELMPSPLDVKAIKGFDE
+EEKEITRKADDDEKFAALAFKLMTDPFVGQLTFVRVYSGVLKKGDTVYNAVRGKKERIGR
+IVQMHANNREEVDEIRAGDIAACVGLKDVTTGETLCDPNSVITLERMVFPDSVIRQAVEP
+KSKADQEKMGMALSRLAAEDPSFRVQTDEESGQTIIGGQGELHLEIIVDRMKREFGVEAN
+VGKPQVAYRETIRKTVDEAEGKFVRQSGGKGQYGHVVLKVEPQEPGKGFEFVDAIKGGVV
+PREYIPAVEKGVIEALGQGVLAGYPVVDVKVTLHFGSYHDVDSNEMAFKMAAIFGFKEGC
+RKAQPVILEPMMAVEVETPEDYAGNVMGDLSSRRGMVQGMDDMVGGGKAIKAEVPLSEMF
+GYSTTLRSMSQGRATYTMEFKHYSEAPRNVAEAIVAARAK
+>tr|A0A0P0LEP9|A0A0P0LEP9_9BURK
+MSDDHLIEHRVNQEELLRGRFLHAFRDTVRLPNQNLATREYVVHPGAVMVIPMLDTPDGL
+RLVMERQFRYPVGLVMTEFPAGKLDPGEDPWLCAQRELLEETGYTARQWARAGVLHPVIA
+YSTEVIEIWFAKDLSLGERQLDTDEFLDVFTASPAELMAACQQGLLTDAKTLTGLLWLQN
+VQSGQWPLHWQTLCTPTP
+>tr|A0A0P0MB60|A0A0P0MB60_9BURK
+MKPSSESPVIALRSPAHAADWLATRTIFSEYAASLAVDLCFQNFDQELADLPGEYAEPRG
+ALLLAWVDGAVAGCCALRPFDACDYANAAEMKRLYVRPAYRGLGLGRLLTEGILDAARAA
+AYHCVLLDTLDDMEAARALYEDLGFVEIPPYYHNPHAGAHYLKVDIV
+>tr|A0A0P0M759|A0A0P0M759_9BURK
+MNAPVDYLLHLADNALILGQRNAEWCGHGPILEEDIALSNNSLDLVGQARMLYQHAAELQ
+GGGATEDTLAYFRDVPDFKNYTLCELPHMPLMSATAQGDRDFAMTMARNFLYSSLMVLVW
+DQLQNSKDAQLAAIAAKSLKEVRYHLRHSRDWLVRLGDGTNESHAKAQAAVDQLLPYTQE
+FWASSPHEAAALANGTGVDLAALQNDWNQIVDEALQEATLQRPADGGFVPTGKQGLHSEH
+LGFVLAEMQSLARAHPQATW
+>tr|A0A0P0LCT6|A0A0P0LCT6_9BURK
+MTITPIDLNPRADNPAKIDTLEIKNDPSTGPIGPGFGQVMNQLRQAQQDTGVSSTLQDAT
+ASDEGTLSSGQEMAAGVQDMSLLFNVHNPEMDSWSLKAVNLGPTLNVITPAQAAPDAQSL
+EAFARSQGLDENAVQWLLGKPGDTLTPSVLQPSGDLGIPASSAAGLSAIQGAGLNFKTAG
+PIVPSGSPKAVETQLGPALGEPAPLPPAGSMATLPPANSAFTTGAALWALALNEDAKPVA
+PATRPVNDTESAEAAAIQIQLMRQPTPAAVWMLRSAMPLEVKSDRANAMPSISESELDLG
+AEFNPELVDGLMAGLETTSAPGPMASTAHPGAMSGSRPEAPLTLAAGPNNTETAQSAGSD
+AAERSENIQNLAEKMGQAVGKRMLTEMEKGQWHLKLQLRPATLGHIEVEMRMLSGQLDAV
+FNAPQALTRELLQEGMTRLKETLNQMGMDVASMQVKDGQTRQNGGKSTPNQASKSTDLVN
+NDSKSTNSPIITVARHKMGEDGWDVLV
+>tr|A0A0P0MBQ4|A0A0P0MBQ4_9BURK
+MINFWTACGHQHLTRNERGWMSPTPDYWRLWLQRPEMALVPESCKAEKRLHAALTETPQM
+QVTPADYKHFKDDDVRENYKLFLRFRDEVEAAGSLESAYMAWQQSGNIQLPPLFIDLVVQ
+AIVCNVLADVQDAWVWRAAELLFRRQRITIEGGRVLSGDSETLDSLKSTGGLGEMGRILM
+EGGATLKAVDVKVLHQDNAERYFAQREGLGRYAFLLDMTHELQNELPHGLILSMVNARSG
+LKALSVVLARWVQHFLGVAVSIEPVQKVDDPAWRWHVGLDVTATALLNDLYQGVELDNKR
+QQQLITLFKLRFDNPQDMRADVQGKPVYLGLAMNEQGLLKLKPQNLLLNLPLAAEV
+>tr|A0A0P0MAG5|A0A0P0MAG5_9BURK
+MKKAIPLPTDVRLMNMATALLVLVFVLLALGSGAWWLIRHPNFALQTITVQGEVHRNNAF
+AFRTHVLPKLEGNFFTIDLAQARQTFESVPWVRVAVVHRDFPNRLRAVLLEHKPMAMWGA
+EDAGTMINEQGQVFEASLDDADAERLPRMKGPVAESQAVAGMYMALNPRFQALDMEIEWL
+ELTPRGSWRVQTQHGAQIELGRGSRAEILARLDVFLTTLKQVTSRYERGASALAGADLRH
+KDGYALRLHGVSTVDADNKKKP
+>tr|A0A0P0MB00|A0A0P0MB00_9BURK
+MSQPHTLAQRLQQDQALLAPGVYDALTALVAQQAGFEAVYLSGASIAYTRLGRSDIGLTT
+ATEVAQTLAHITDRVNIPVIVDADTGFGNALNTQRTVRDFERAGAAMIQIEDQTFPKRCG
+HLDGKGVVPVAEMQGKLRAALDARHDQNTLILARTDAVAVEGLDAALERAERYLECGVDA
+IFIEALRSDEQMNRACVQFAQRVPLLANMVEGGKTPVQSAAELGHRGFKIVIFPGGTARA
+VLYTLQGYYASLHTHQTTRPWQDQMLDFDGLNAVIETPELLALGQRY
+>tr|A0A0P0M760|A0A0P0M760_9BURK
+MKKMTPAAVLPSVLTASLVLAGVMTAGLVQAKPFKWTSASDIPTLDIHSQNNALGNGVHA
+AIFDSLVYYNSKTFKIEPRLATSWKEMSPTQYRFNLRKGVKFSDGSALTADDVVFSLDRA
+RAKTSNFNVYTQGMSRIVKVDANTVDIILSGPNPVILNQMTELRIMSKAWAEKNKSVEPK
+DAKTKDENFAHRNAMGSGPYMVKDWQPDQRLVLVKNPAWWGWADAATNVTEIIYTPIKNE
+ATRAAALLSGEIDFVLDPSPQDLGRMRNNANLKVVDGIENRTIFLGMDQHRAELPGSNVK
+GKNPLKDVKVRKALYQAIDIDTIHRVTMRGLSQNTGALVAPQVNGWTKAVDTRFPYSLDA
+AKKLLTEAGYPNGFEVDFACPNNRYINDEEICQAITAMWAKVGVKAKLRTMPLVTYFPMI
+QRYEASIYMLGWGVPTFDALYSLQSLTRTVGTGGDGNYNVGRYSNPRMDYIVDRVKTETD
+LPVRDRLLTEGLQLQNDTVAHIPLHNQVIPWAMKKNVEVVHRPDNRLDWTLIKVN
+>tr|A0A0P0M751|A0A0P0M751_9BURK
+MTTLLIHRARCIATMDDANTELNDASLLIRNGRIKRIIPASENTDELLTHVDEVIDARRH
+VVVPGLINTHHHMYQSLTRAIPSVQNAELFSWLKGLYPIWVGLTPEMVRVSGQVAMAELL
+LSGCTTSSDHLYIYPNGVRLDDSIEAAHTIGMRFTATRGSMSVGESQGGLPPDRVVEQEP
+AILKETLRLIERWHDASFGSMTHVAVAPCSPFSVSQDLMRESAKLARAHGVRLHTHLAEN
+DHDIAYTREKFNCTPAQYAEDLGWVGHDVWHAHGVKLDEEGTYLFAKTRTGIAHCPCSNM
+RLASGILPLRKMLDAGVPIGLGVDGSASNDAAHLLNEARQAMLLARVGRALEPFGCDHGP
+ADMTPRDALRLATRGGAEVLGRAHELGQIKEGYCADIAMFRTDTLSMAGGAVHDPVGALL
+LCASDNADYTIVNGRVVVRQGEITTVDMGPLIERHNQLAMQLALGSR
+>tr|A0A0N7J8Z7|A0A0N7J8Z7_9BURK
+MGQCSPMHPKALLDACADLVRLVLQFEHPADAVVSRYFREHRSLGPRERATLAETAFAVL
+RKKLLFEQLARSGSGAKERKLAILGFFGPRDFLASALNDTEKKWLATCDAIPPDALMAPH
+RHNLPEWMAQALQSQLGEDFWDLAEHLQQPGTLDLRVNMLNAKRSDIQKELAQAGIASEA
+TPYSPWGLRLQGKPALQKTEAFTRGAIEVQDEGSQLLALLVDAHRGEMVVDFCAGAGGKT
+LALGAAMRSTGRLYAFDVSGHRLDALKPRMARSGLSNVHPAAIAHERDDRVKRLSGKIDR
+VLVDAPCSGLGTLRRNPDLKWRQKPQAVQELTEKQQAILQSASRMVKSGGRLVYATCSVL
+PEENELIAQAFSAANPDFVPLNVAQELDRLKVPHAASLCSPAPSGDARPDAPPAGTFLRL
+WPHRHATDGFFAAAWVKK
+>tr|A0A0P0LGE7|A0A0P0LGE7_9BURK
+MATKGGREKIKLESTAGTGHFYTTSKNKKTMPEKMSIMKFDPKARKHVEYKEIKLK
+>tr|A0A0P0M991|A0A0P0M991_9BURK
+MNLPRRNVWLAAVSTLLLSACASILPTAGSDTPPVVFVHGNGDTAALWQSTLWRFESNGW
+PRDRLHAIDVPYPLARDADNKPQAGRTSTAEHMAFLRDEVQAVLKRTGASQVVLVGNSRG
+GNAIRNFICNGGGQNLVSPAVLGGTPNHGVQAIPGVNEANEFSGTGPFLSQLNAPKNAQG
+DEVCGTVRWMTIRSDNNDKFAQPDGLWIGLKGKSTHVTFAGPELKGATNVVIPRIDHRET
+SYSAAAFEATYRFITGRTPDFGIKTESIMVLNGKVVGLGLNPLDAQSGNFVNNLPLAGAN
+LDVYEVDPLTGQRKGTAVHQKTVGADGLWGPFKGQSTAVYEFVISAKGYATTHIYRSAFP
+RSSDIVHIKPERMAEADRAAQSVVTFVRPRGYFDPQRDQMRLDGQATLPGVPPGAGVASS
+KLRLNDKTQRTVAGQFNGENVVGLTWPLAEGRTTVLELTY
+>tr|A0A0P0M777|A0A0P0M777_9BURK
+MRAQQRKERALEVSFHEEIKALRMGAGEVFHGEGILAITKGLLQSGVSYVGGYQGAPVSH
+LLDVMVQAKPYMDELGVHVEACSNEASAAAMLGASIHYPIRGAVTWKSIVGTNVAADALS
+NLSSPGVTGGVLIVVGEDYGEGASVIQERTHAYALKSGMCLLDPRPELGQMVNMVEHGFR
+LSEASNMPVMMELRIRACHVRGQFVAKDNQAPKLSKKHLINEPAGFNYMRLAHPPVTFAQ
+EKRKVEHRLPAARQYIAEQRLNEHFEGTTHRHLGLIVQGGLYNTLIRALQQFDLADAFGV
+TSLSVLVLNVTYPLVPDELVNFCKDKLAVLLLEEGQPEYIEQELALMLRRLDLQTPLHGK
+DMLPSGGEYTAEVMAQGLLKFLERHQANVVPESTRQWLATNGERRQQVQTLLGSPVPARP
+PGMCIGCPERPVFSALKLAQQDVGPVHIAGDIGCHALATFEPFSFGHSILGYGMSLASRA
+GVSPLMKRRVLSVMGDGGFWHNGLLTGVQSALFNGDDAVLLIFKNGYTSATGTQDIINTP
+TDIAKELAGDKRQSMVHTNQTIESTLKGLGVQWLRTVHTYEVSHMQATLTEAFTTEFQGL
+KVIVAEGECQLERQRRIKPWLASLLSKGKRVERVKYGVDEDVCNGDHACIRLSGCPTLTL
+KDNPDPLKVDPVATVIDGCVGCGLCGENAHAATLCPSFYRAEVVQNPKLHERLWARWQSL
+ATRWLQPA
+>tr|A0A0P0M9N5|A0A0P0M9N5_9BURK
+MSHCTTCGACCVSFRVDFSVYEYEEGGGDVPAGLASPITEHTCRMRGTDHSPPRCAALYG
+KTGEKAICGIYEWRPSPCREFEEGSPACEQARRRHGLPPLNP
+>tr|A0A0N7J964|A0A0N7J964_9BURK
+MSQHNRRGIVTMTGAMVFFVVNDALVKWVSADLSTPQLIFVRGVMTTALLLALAGWMGQL
+QQWRTTLTRSVPARAVLDSLASFTYLTAVFHIPLGNATAINLAGPLFLTLMAVFFLHERV
+TLGRWALILLGFAGVLLVVQPRMGDFNAYAVLCLFAAVLHAGRDFLTRLVPAQVPSLLIT
+LSTAIMVTVLAGVWSLFEPWKPMATQHLWQLFGASLCLAAGYHLLTLSMRWGDMSVIGPF
+RYSGLLVALVLGYLMWGDVPNTLAWCGIALVVTAGLGLLQSERRRRQAQLAQDA
+>tr|A0A0P0LH13|A0A0P0LH13_9BURK
+MSVNRVAVVDYGMGNLRSVAQAVMHAASSVDHAEVTVTSDPQVVRNAHRVVLPGQGAMPD
+CMRELCESGLMEAVLEAAATKPLFGVCVGMQMLLDHSDEGDTPGLGLIPGRVVKFDLAGR
+IQPDGTRFKVPQMGWNQVWQDQPAHALWQSVEDGSWYYFVHSFYAQVANPAHSAAQTDYG
+GRFACAIARDNIFATQFHPEKSAAQGLALFRNFLHWQP
+>tr|A0A0P0M8L9|A0A0P0M8L9_9BURK
+MIDHLDHLVLTTCDEAACIDFYTRVLGMQLESFVGGTPPVQRQAFKFGQQKINLHVRGRE
+FEPKAHLPVPGALDLCFIASVPLDEVMARVAQADWPIVEGPVLRTGATQKIRSIYLRDPD
+LNLIEISELV
+>tr|A0A0P0MA24|A0A0P0MA24_9BURK
+MNTRRQFSKLLAVASLCAPLALMAQAFPSKPINLVVPVPPGGLVDTSARLIAEPLGRLIG
+QSIVVENKGGASGNLAYQQVARAPKDGHTLLVSYSGYHVANPILMSKLPWELKDLTPVGL
+ITVATNVVAVHPSVPVNNMKEFIAYVKQNPGKLNYASQGNGSVSHIGTEIFKQQTGVSLV
+HVPYKGSGQAIADVLAGQVQVFMTTPPSVMQHIQAGKLKALAVTGKKRHAGMPQVPTMAE
+AGYPNFDLESWVALYAPSGTPAAAVNQLADAVKRSLDLPESKQRADQAGIEVRFVAPTEM
+TKLLDRDIADWTQAIKAANIKLD
+>tr|A0A0P0LCU5|A0A0P0LCU5_9BURK
+MSPQDYVQQKAAASGSSFYYAFLFLPPERRAAITAFYAFCREVDDVVDEISDPSVAAAKL
+GWWQKEVQQAYAGQPTHPVMHALMPHTQPFGIESRHLMAVIEGCQMDLNQTRYLDFAGLS
+KYCHLVAGVVGEVAARIFGQTAEATTQYAHKLGLAFQMTNIIRDVGEDAMRGRIYLPLDE
+QQRFGVKAQDLMQRTYSDNFTALMKFQTERAHALYDEALALLPKADRRAQKPGLMMASIY
+RTLLREIEASGFQVLHQRIALTPLRKLWLAWKMQALGQF
+>tr|A0A0P0LDP1|A0A0P0LDP1_9BURK
+MPIELNKEDRAQAIASIERYFEANFEQKIGNISAGALLGFILEEIGPSIYNRAVSDAKER
+MLMRVEDLEYEVRADEFQYWQKFKPRKP
+>tr|A0A0P0MA00|A0A0P0MA00_9BURK
+MLESDNASYLVENIVPANAPLRIAVVTETWPPEVNGVALTLSRLIQELSQRQHTIQLIRP
+RQDRHETESHREGWSELLLKGMPIPRYPQLKLGFPSKKSLIQAWTQQRPDLVHIATEGPL
+GWSALQAARVLRLPVTSDFRTNFQSYSKHYGVGWLQKPIVAYLRKFHNRTLCTMVPTQAM
+HDQLKLLGFNNLQVVARGVDTQLFTPNKRSPSLRSQWQVDDKTVVILSVGRLAAEKNLDL
+TVNTYQVLKQNKRPVRLVFCGDGPYRAKLQADCPDAIFMGMATHSQLAVAYASADLFVFP
+SLTETFGNVTLEALASGTPVLAFDCAAAKEVIKDEHNGWLVPGEDAQRFVLRALAITQNA
+STLRAAQQNAASSIQKWEWSSIATQVENMFRRVLSTESVER
+>tr|A0A0P0M6V2|A0A0P0M6V2_9BURK
+MLHPHICVGALALLTSWNALGQTCAEANISPQLGTETSRWEELSRSGKRLVLETGHLHSK
+GLTFSVRCNVADGSLAWSDSRGTRTYLGATNTGQAATSFSDIAHQKISGSVHFHADANWS
+LGGRWVHNTIHRSIQSNSQAEGYPEHFQFNDVSLGVRYKQALSQHLKGQVDYWQGRILPG
+QSNVTLPNFAPTRLQLGSGRSREIGISIGNKLGENDPAWTWSAAIHIRQDRIEEGSPQAL
+YKGSRLVASAVQPAIGLRTSQFIAKLNYAF
+>tr|A0A0P0M7Z6|A0A0P0M7Z6_9BURK
+MQKVLHINPDKCTGCLQCEMACSFENYGTYATSKSRIKVFDFHHTGKKVPYTCTQCDEAW
+CLHACPVEAITVDKATGAKVVNESTCVGCKVCTIACPFGTINYVQETGKVQKCDLCGGDP
+ACADACPTGAITFVDANWTGIDKMKQWADKLGNQPSAS
+>tr|A0A0P0M8P0|A0A0P0M8P0_9BURK
+MNRLDQQVADVLSTHGVLAQKVPGFQPRQGQSDMAMAVSRTVQDGGQLVVEAGTGTGKTY
+AYLVPVLLSGQRVLVSTATKALQDQLFSRDIPRLVEVLGLPIRVALLKGRSNYLCLHRME
+QARHSPESAQPGAQKALAKIETWAQSTRTGDMAELTGLDERSSLWPLVTSTRDNCLGSTC
+PRYRACHVNLARKEAMASDVVVINHHLFFADLSVRESGVAELLPTVRVTVFDEAHQLNEI
+GVNFLGKQLSTVQLHELVRDVLATGLQLARGLVDWQALSAGLEKAARDWRLAAGMHRGSV
+RLRWSDQHPEGVEPSEWDAALQAVTQALAHLQNGLDMVSELAPDFQRLGDRTRELLQRAA
+LFADTPNPEGVRWAEVSAQLRLIESPLDIAQAFSALTRPVSAAPPGDAESGAALSLGVDP
+DSLEALMAGDPRNAGGEAMAGPAGGVGQRAWIFTSATLGDEPSLRWFTEPCGLSSAEVMQ
+VDSPFDYAQQAALYVPPHLPRPGDPAHARQVAALVLEALAILGGRTLVLTTTLNAMRSIG
+EQLQAQCEGRVEVLVQGQSPKRRLMERFREGGGLGDAHGRTGCVLVASASFWEGFDVPGD
+ALQLVVIDKLPFPPPGDPLFEARSQRVTQQGKSAFADHALPEAAVSLKQGAGRLIRSETD
+RGILVVCDNRLSTMAYGRRLVRGLPAMRRLEDHAAFLDALRQLTTDASHPSA
+>tr|A0A0P0M9M5|A0A0P0M9M5_9BURK
+MSSIATNINASRAENAMTNASQLVDKSTKELATGRRINTAADDTAGMAIGSKLTAESISL
+QRAMRNANEGVSMLQTADHAAGSMSQALVRMREIALQAANDTNSESDRSALDNEFTQLRE
+HLNTAIDSTQWNGKKMLDGSMSSVNLQIGASSGDGHSVDLADFRSLSALNTAGIGSRSDA
+LSALDAIDSSLASIDETRVKWGANMNRLVHAGDVSSNVSLNLDDSRSKIVDADYAKATAD
+LAKAQILQMAGKAMLSQANQAPISVLQLLR
+>tr|A0A0P0M711|A0A0P0M711_9BURK
+MRTLIIQLPPGLPSPSLVYAHARLEAEPGSRPLALQWAAAPLLPAADRQSETVVLVPAAA
+LSWHRVELPAGLHKQAQRVQAALQGLLEDRLLDDPEHLHLALQADGAKHPRPWVAVCDLA
+WLSAHLNALEQAGLPVHRIVPEFAPGEASSPVQITGLGDADTGWLWVSHPERGVWGQPWT
+ALRQAGLAAHEQLGLTESERATASLQAEPAAVAVASELLGSGVRLMPPAQHWLAAVAGDW
+DLAQFELRANARSRQLKSWQRTASHLRHSPAWRPARWGLWLFLAAQLVGINAWAWKTRAD
+WQAQQNSWAQMLRETFPQTSLVVDAPLQMAQQVERLRQNSGQLGAGDLETMLAALGQALP
+PGLTAPRQWSYQTGQMRVQDFRPDAAQQQALQQSLSALGYTWRAQGDGWLMIAPAEAKP
+>tr|A0A0P0MBG8|A0A0P0MBG8_9BURK
+MNQRWAKPKIIANFREPGKLTVFSTIRVSPEFNRIDVVYDRPPDPHRHVDKLLIKFPTLP
+FQIPTVHNKK
+>tr|A0A0P0LFW3|A0A0P0LFW3_9BURK
+MVREMRSDHAGETGAVYIYKGITAVARWRQDAQLLAFAKEHGDTEAEHLRLLEAWLPAYQ
+PSRLLVPWCIAGWLTGALPALFGRRAVYGTIAAVETFVDVHYQQQIDHLQVHGGPEGLLP
+LLQRCQADEQHHRDEAAALAGPKKSWLLRLWCAVVGSGSAAAVVLARRV
+>tr|A0A0P0M7W5|A0A0P0M7W5_9BURK
+MRIYSRILSTGSYLPARRLGNADLAAELAQQGVETSDDWIVERTGIRARHFAADEQGCSD
+LATEAARQALLASGLVSADIDLIIVATSTPDMVFPSVATMVQHKLGAAGCPAFDVQAVCS
+GFIYALTIADSMIQSGTAKRALVIGSEIFSRILDFKDRTTCVLFGDGAGAVVLEASNQPG
+ILATDLHADGKYKDILCVPGHVNRGAILGDPVLKMDGQAVFKLAVGVLEDTARASLAKAN
+LTDADIDWLIPHQANIRIMQSTAKKLKLGADKVVVTVDQHGNTSAASIPLALDTAVRDGR
+IQRGQTLMLEGVGGGFTWGSVLLRY
+>tr|A0A0P0M8D5|A0A0P0M8D5_9BURK
+MTTIRVKENEPFDVALRRFKRTIEKLGLLTDLRAREFYEKPTTERKRKKSAAVKRHYKRV
+RSMQLPKKMY
+>tr|A0A0N7J8R1|A0A0N7J8R1_9BURK
+MNTRHWISALASVGLGLCWLTMPAASQAADNFTAVTAADKPAKAQKPKQAKAPKAPGNTG
+SGESKAERDKRLLRECRGKANAGACEGYAS
+>tr|A0A0P0M6U4|A0A0P0M6U4_9BURK
+MLVERIENRWLAAFTRTFTLCKVQPGEVVAILAETQSRRVNVDLARLALEGMGARVFEVT
+LTTPALTAPAPVRSTGASDAIGQLGPVVAALARADMVVDCTVEGLLHAPELPTIMKGVDG
+HMPRLLMVSNEHPEILERTVPDPALEGVVRAAMKKLRGTQQMHVTSAAGTDLRVNLKHGD
+KQAVVGGVWGFCPKPGMVSHWPAGLALAFPAAGSVNGTLVMAPGDVNLTFKSYLRDTIRL
+TIENDSVVAIEGQGVDVDMMRGYWKAWEDAEGHRAAYAVSHVGFGLNPAARWDAMAFYDK
+RDCNGTELRAFAGNFLYSTGANEVAGRHTLGHFDLPMRGCTIRLDDTVVVDAGQVVSAAL
+A
+>tr|A0A0P0LQA5|A0A0P0LQA5_9BURK
+MNPNTGLDIAGLETTYDQLAMAIDAAGPEKSELFLVKLALLAAQALGDAPTFVDLIARAQ
+KDL
+>tr|A0A0P0LVY8|A0A0P0LVY8_9BURK
+MSQGLIRIRGARQHNLKNLDLDIRTGELTVVTGPSGSGKSSLVFDTLYAEGQRRYVETFS
+AYARQFLDRMDKPAVDKVEGVPPAIAIDQTNPVRSSRSTVGTMTELNDHLKLLFARLGQL
+FDKDTAQPVRHDNPDTIYAELAQRAAQAGDPRLYLTFPVELPANTSAAQVEQWLSASGFT
+KVQAEREVATPTGPRKVLDVIADRFRIGTAEKARVVEAIEVALKRGGRLNVYVETSGADP
+NSSSVPAFDIWRFSTGLHCPDSDQRYTDPIPSMFSFNSAVGACETCRGFGRVIGVDYGLV
+IPNPKLTLRAGAIKTLQTPAWQENQDDLMRHAEAAGIPRDTAWDKLTQAQQDWVINGSPE
+WKGRWNHQWYGVKRFFEYLESKAYKMHIRVLLSKYRSYTECPTCQGARLKTESLLWRIGS
+HSDADGVLPVEKRFMPAGVKWSRAQLEALPGLSLHDMMIMPLDRLRLFFDRLSTSGLASV
+ASGEASAGDGLGSSYGGGTPKSSPSPSPAEAVMGSAQAAAQARAATATEKAQDDRSTTRS
+ASERGAGNDFGVPPPHEESAPRSDADRTSAETTKATNQGLSAEQKALQLLLEEITTRLKY
+LCDVGIGYLTLDRQSRTLSGGEVQRINLTTALGTSLVNTLFVLDEPSIGLHPRDMHRITL
+AMHRLRDAGNTLVVVEHDPAVMLAADRMIDMGPGPGERGGQIVFDGTTADLRKANTLTGA
+YLGGRKQVGLGFKRMVSDSTPRLILEGAREHNLQNISVDFPLQRLVTITGVSGSGKSSLI
+QDVLAPALMRHFGKATETPGAHDRLLGADHLSDVVFVDQSPIGKTARSNPVSYVGAWDAI
+REIFATAPLSRQRGYTASKFSFNGGDGRCPTCGGSGFEHVEMQFLSDVYLRCPDCDGKRY
+RPEILEITVERQALGQTQPRHLNVADVLDLTVSEAAALFAQDRDVIRALQPIVDVGLEYV
+KLGQPVPTLSGGEAQRLKLAGFLAEAAKSASKSRQSLARKGTLFLFDEPTTGLHFDDIAK
+LMRALRKLLEAGHSLIVIEHNLDVIRASDWLIDLGPEGGYAGGLIVAEGTPDDVRQHATS
+HTGLALREYAASMGEVYGVAERSSSDVYLGGGEAAVSAGSSYGGGTPKSSPSDTAASLAS
+VRGGAAASSMAPAARRKPVLNNNIQIVNAKEHNLKNLSVDIPRGSFNVVTGVSGSGKSTL
+AFDILFNEGQRRYLESLNAYARSIVQPAGRPEVDAVYGIPPTVAIEQRLSRGGRKSTVGT
+TTEVWHFLRLLYVKLGIQHCVHDNTPVQPQTPDSIVAQLMTQFRGQHIGLLAPLVNNRKG
+VYTELADWARPRGYTHLRVDGDFLPTQGFPRIDRFKEHNIELPVASLDVLPSNETALRQA
+LSKTLEHGKGVVHVLSDLDGLREAMFSGESTARIGQHRVFSTLRACPACDTSYAELDPRL
+FSYNSKHGWCSDCVGTGVKLSKDERSVFDDSVQDDKQKGREQTFAEPEVEDLANVACPSC
+EGTRLNATARAVRLGSAPGQGWRITDIASLSVTDVRHWVDKLQLNGRDADIARDLVPEIK
+SRLEFLEEVGLGYLTLDRGAPTLSGGEAQRIRLAAQLGSNLQGVCYVLDEPTIGLHARDN
+QILLNALHKLGEKGNTLVVVEHDEDTIRRADHIIDIGPSAGKRGGRLVAQGSVADITASV
+DSQTGRYLLHAMKHPMQARRAVSVGRASLAGLAPTNTSAPVGASPAGDLTWLTLTGANLH
+NLRQVDVQVPLKRLVAVTGVSGSGKSTLARDVLLANVQALVSQRSTLAGRTAQDAGQRVA
+LTACSDVQGFETIDRVLEVDQTPIGKTPRSCPATYIGFWDTIRKLFAETLEAKARGYAAG
+RFSFNTGEGRCPSCEGQGMRTIEMSFLPDVKVPCETCRGARFNPETLAVTWRGKSIGDVL
+QMEVDEAVDFFASMPSIAHPLQLLKDVGLGYLTLGQPSPTLSGGEAQRIKLVTELTKVRD
+EVGKRGNKAPHTLYVLDEPTVGLHMADVDKLISVLHRLVNAGHSVIVIEHDLDVIAEADW
+VIDLGPEGGNAGGRIVAAMTPEALVRLGTHTGVALGPVLARV
+>tr|A0A0P0MBD5|A0A0P0MBD5_9BURK
+MCFICNLKTPSGHAHSDAVDASSPRWNARRAFILAAGAGAAGSALAQVDVGSSSGLRKLV
+PAETLENSARQQYAQVLAEARAQNALAPDGHPQLQRLHTIAQKLIPHTLPWNKRARDWKW
+QVNLIGSKQINAWCMPGGKIAFYTGILEQLRLNDDEVAMIMGHEMAHALREHARERLAKT
+QATGIGLSIASQLLGLGSLGDAAANLGTQLLTLKYSRDDETESDLVGLEIAARGGYRPEA
+SVTLWQKMQAASGNGGPSFLSTHPSGSNRIEELQANLPKVQHLYEQARKG
+>tr|A0A0P0MBE5|A0A0P0MBE5_9BURK
+MSAVKFDEGRLMSVLVAPIVSEKATMVAEKSNAVTFKVLQDATKPEIKAAVELMFKVEVK
+GVSVVNTKGKTKRFGKTIGRRDNVRKAYVTLQPGQELNLSGEAA
+>tr|A0A0N7J933|A0A0N7J933_9BURK
+MFKQFGRFFGALALVCSGATSAWSDTYPSKPITLVVTQGPGSGSDVTGRLLAGYLGPILG
+QNVVVENRVGASGIIGHQSVVRAAPDGYTLLFTSTAGLFVVPVMNANAKYSLSDFVPVAP
+VMRAPFAVLVANTPTAPKTMAELLQAVRSKPQSFASAGIGTMTHLGSELVMRKAGVQATH
+VPYKGSGAALTDLMGGQVLFATDSLTASMALIRSGKLRALATTDLAREGSLPDVPTLSEA
+GIPGVQVAAIGGLFAPKGTPKEVVDKIAAAAAKVLANPDVAQRFAAVETDPLKVSMPAFN
+DLLRKEAETWSPLVRQLDLKQE
+>tr|A0A0P0M9S7|A0A0P0M9S7_9BURK
+MPSGNFGDVKPVGEGVWEARIDWGPGYRIYYAQAGQRLILLLVGGDKRKQQTDIEQAHRY
+WLDWQHRRKLK
+>tr|A0A0P0MAN9|A0A0P0MAN9_9BURK
+MSNDTAPSLQLAEDTLNAAMPAVVDQVALARLYGEPLFAMPSDLYIPPDALEVFLEAFEG
+PLDLLLYLIRKQNFNILDIPMAGVTRQYLSYVEEIRQRNLELAAEYLLMAAMLIEIKSRM
+LLPPKKVAEGEEAEDPRAELVRRLLEYEQMKMASMQLNVIPQYGRDFLQAQVFIEQSLQP
+RFPDVSMDELQMAWRDILKRANLVQHHKISREELSVREHMSIVLKHLQGRKFVEFEHLFD
+PSLGVPVLVVTFIALLELAKETLIEITQAEAFAPIYVRLAYTPN
+>tr|A0A0P0MBI0|A0A0P0MBI0_9BURK
+MHTSALVLFSGGQDSTTCLAHALSRYERVETLAFDYGQRHKVELDARLNVLAALKSRFPA
+WAPKLGEDHLLDAGILGQISETSLTRDTAIEMESSGLPNTFVPGRNLLFLTLAAALAYRR
+GLQVIVTGVCETDFSGYPDCRDDTMKAMQVALSLGMDRKLLIETPLMWIDKAQTWQLAHD
+LGQKADVGGGGQALVDLIVEHSHTCYLGDRTHRHDWGYGCGQCPACELRAAGFDRFQKA
+>tr|A0A0P0LSW8|A0A0P0LSW8_9BURK
+MKAEYDLSKLKARKNPYASKLKKPVTMRLSEDVVVYFKSMADDAGVPYQSLINLYLRDCL
+ANNRKVQINWPKLA
+>tr|A0A0P0M6L8|A0A0P0M6L8_9BURK
+MAFFLEALLGGLMAGMLYALVALGFVLIFKASGVFNFAQGAMVLFAALAMARFAEWVPEW
+LGINDKFLGNLIAFVLAGAIMFVLAWLIERLVLRHLVNQEGVTLLMATLGITYFLDGLGQ
+TIFGSDIYKIDVGMPKDPVFLFDSVFPGGVLVNLEDVYAACIAALLVVVLSLFFQKTGTG
+RALRAVADDHQAAQSIGIPLNRIWVIVWFVAGITALVAGIIWGSKMGVQFSLTTVALRAL
+PVIILGGLTSVPGAIIGGLIIGVGEKLSEVYLGPYVGGGIEIWFAYVLALVFLLFRPQGL
+FGEKIIDRV
+>tr|A0A0P0M8U1|A0A0P0M8U1_9BURK
+MKISGSRSLTVVSVAVAAVVLAACGKKEVASTELVVKIGHVGPVSGAIAHLGKDNENGAR
+MAIEELNAAGLKIGDKTAKFELLAEDDAADPKQGTAAAQKLVDAKVNGVIGHLNSGTTIP
+ASQLYNGAGIPQISPSATNPKYTRQGYAGAFRVVADDVHLGGTLGKYAVETLKGKSIAVI
+DDRTAYGQGVAEEFKKAVAAAGGNVVGHEFTTDKASDFNAILTTLKAKKPDVVFFGGMDA
+VAGPMLRQMKSLGINAKFMGGDGICTAELAKLAGDAMKDEGVICAEAGGVEGEQKVGMDK
+FRADFKAKYNADVQVYAPYVYDAVKVMATAMVNAGSADPAKYLPALKSINYKGVTGDIAF
+DEKGDIKNGALTLFTYKGGERSQIAVVR
+>tr|A0A0P0LDG3|A0A0P0LDG3_9BURK
+MSAVLNAPWIARQATDLLAQRGHAWLLQGPSGLGQYELALALSSAWLCEKPTAQGACGDC
+PSCHAVAVHTHADLAVLMPETVMIELGWPLSEKAQDEIDKKTRKPSKEIRVDAMRDAVEF
+SQRTDARGRGKAVLVFPAERMNTITANALLKTLEEPPGDVRFVLATEASHMLLPTIRSRC
+LAHTMKWPEADEALPWLTNQGVPAAVAQDLLRSAGGRPADVLRQVESGLSPDWWTHLPKA
+MRQGDARHLADLSPAQAIDALQKLCHDLVLRQSGAVPRFFEASQLPPSTASVAVLTDWFK
+RLMQSARTAEHPFNAGLMLEALTADAHQTLMSKG
+>tr|A0A0N7J8C3|A0A0N7J8C3_9BURK
+MNHELRKAFDETHYIVHLEPPITLHIGQTCPELDSLLQTGGYIGAAFITAWNPYSQPLSQ
+VENASRQSALLTDLQALGLTSLPGIGQHPANVWPGEESVLVLGIDLEAAKALATKYGQWA
+FVWAPAMGAPSLVPCCS
+>tr|A0A0P0MB58|A0A0P0MB58_9BURK
+MIMPAGRPLLLPANPKFIALSFLLALLLHMLLGLLGWHWLPDVLAIVMVFWTVHQPRRVG
+LVLAFLLGLALDVHESALLGQNALSYVVLSGLATVAQRRMLWFPLREQALQILPLFVVAA
+VVEWLTRLVAHDAWPAWSQLPGPLLQAALWPLVGALLLAPQHRAFERDDIRPL
+>tr|A0A0P0MBT0|A0A0P0MBT0_9BURK
+MTRSQSSDDRFDPSAAIVLPPGVPGPQDLPVELTLYSRFVQRLHRRYADELPLLPPGPPT
+RDTLSAAYAALQAKGLDTSAALRVLRQLTLERLAQLDCSRQADLSAVTHGMTWLAEVTLD
+IAWQQVMADLDALHGAPTKPDGQRAEMWIVGMGKLGARELNVSSDIDLIYVYDEDGQTLG
+NSEGRNKVSCQEYFTRAVKRMYALIGDTTEHGFVFRVDLALRPNGNSGPSVVSLDALEEY
+LLVQGREWERFAWMKSRVVAPRSAVLNGSAQALRGVVLPFVFRRYLDYNVFESLRTLHQQ
+IRDHASKRSAGHPERANDVKLSRGGIREIEFTVQLLQVVRGGQFPELRTRPTLDALQRVA
+KAGLMPQATADALGAAYVFLRQVEHRIQYLDDQQTHVLPTRDDDLNWIAQTLGHANACAF
+LSELDAHREVVAQEFDTLLGGDRECKTCNGKNGKNNREHAELDAVLVDFSGPVRERLAQW
+ADNPRVQSLRDDARGRLMRLLQRTAQWLDAGRVSEEAVLRMVDWIEPLLRRESYLALMLE
+RPSVHERLLRLLGAAKWPARYLLQHPGVIDELAGGNLFDSRFDAAEFEGELQARLVALQR
+TGEDDEESLLNLLRRAHHAEQFRTLARDVEGVLTVEQVADDLSALADAVLRVTARWCWSR
+LKTRHREVPAIAIVGYGKLGGKELGYGSDLDIVFVYEDEDERAQEIYAAYVRKLINWMMV
+KTADGDLYEIDTALRPNGNSGLLVTRFEAFADYQQQRGSNTAWTWEHQAMTRARFVMGLP
+SLAPRFDGVRLAVISAPRDAASLKAEIVAMRDKVRLGHPVKADRFDVKHSPGGMVDAEFA
+VQYLVLLHTAAHPELADNVGNIALLIRVEAVGLLPPGMGQAAANAYRELRRVQHRARLNE
+EPTDVPLALLASEREAVLALWRVVMG
+>tr|A0A0P0M7X5|A0A0P0M7X5_9BURK
+MEHDFVLNSACKGFPLAAEPCAVSQLGARGWRLLDDALAYPVAVLRRPALAHNLAWMQAF
+VQRKGVALAPHGKTTMSPELFRMQLQAGAWGLTFANVHQLRVGLAAGAQRAIIANQLVSD
+ADLDGLDLLLNQYPQARVWFLVDSLAQLRTLADWGARRGQPRCWDVLLELGIAGYRTGCR
+THEQALALAQAMAESGVVRLGGVECYEGGLGQCDSAHDIEAVSALVRSVQALVQQIDEQH
+LWGGDEVLLSAGGSAVFDLVIPMLKTQVKSRPVQGVLRSGCYVTHDHWNYARYLKLVEAR
+EGLSASLQPALEVWAKVQSVPEPGLAILNAGRRDLSFDQCMPMPVRWAARGHSGAGAMQA
+MPESWKVKALSDQHAHMVFDAQGVWPQVGDRVALGISHPCTTFDKWRWMAIIEDDGRISG
+AISTHF
+>tr|A0A0P0M952|A0A0P0M952_9BURK
+MPLPPAPTHRASRLTHKAFESSEEHSDAPAMVQIETKRSLTSETPEAPMAKRPARARKNE
+AQPLAPTNTVAIQVTAGKPQHESSPSSAGAAREVSKSAPARTKRRSGPSKLFVLDTNVLM
+HDPMSLFRFEEHDVFLPMIVLEELDGHKKGMTEVARNARQASRSLDTLASAQGADLGKGS
+PLSATGHTDAMGQLFFQTQALDLSLPLALPQGKADNQILGVVKALGLLHAPRDVVLVSKD
+INMRVKARALGLQAEDYQNDKTLEDGDLLYPGSMALPQDFWTKHGKTVESWQQGAHTFYR
+ISGPIVPSLFMNQFVYFEAPGEPSLYARVTEIRGKTAVLRTLKDFTHQKNAVWGVTTRNR
+EQNFAMNLLTDPDVDFVTLAGTAGTGKTLMALAAGLTQVLDDRRYTEIIMTRATVSVGED
+IGFLPGTEEEKMGPWMGALDDNLEFLAKGDGGNAGEWGRAATNELIKSRIKIKSMNFMRG
+RTFMNKYVIIDEAQNLTPKQMKTLITRAGPGTKIICMGNLAQIDTPYLTEGSSGLTYAVD
+RFKGWAHGGHITLARGERSRLADFASEAL
+>tr|A0A0P0M6L0|A0A0P0M6L0_9BURK
+MDDYASRQRKPTKHLIGFGLVVVLHLLFFWAISSGLARTVVKKIQGPVEAVLLEDTKPDI
+PPPPPPPPPPKNAPPPPPPAYVPPVDVQVTNAAPSANAIAAVSAVPPPAPVAPTPAPAPV
+APAPAPAPVVKAEPVRVAAVVNSANCEKPDYPSASRRLEEAGTVTLRFLVGVDGKVIQAE
+VEKSSGFKRLDEAARAGLSRCAFKPATVDGKPEQGWATMKYTWRLE
+>tr|A0A0N7J8Z9|A0A0N7J8Z9_9BURK
+MVPSPTPHLTAGLLLAAAGSMAFSGKAIIVKLAYRHGVDAVTLVMWRMLLALPLFVLMAW
+WAGRGKAPLTRQDWLGVLGLGFCGYYLSSFLDFWGLEFISASLERLILYLNPTLVLLLGW
+VLFKKRITQRQGVAMAISYSGVLLVFGHELGLAGPHAAWGALLVFLSAGTYALYMTYSGQ
+LVQRLGSLRLAGLATSVACGFCLLQFVLLRPLATAVVPEPVMWLSLLNATACTVLPVLLV
+MMAIERIGPGLTAQTGMIGPMFTLLMGVWILDEPFNMWIIAGTVLVLSGVFWVTRPVGRT
+T
+>tr|A0A0P0LG50|A0A0P0LG50_9BURK
+MQNTTHLNEAHSRADESPAYWSIFLIGFGCLFVVVVLAKLVGVHWRDLLPGAEDAKSMSQ
+GVKAAVYTFMSHII
+>tr|A0A0P0LIZ2|A0A0P0LIZ2_9BURK
+MPNINKSQVHGFVISYTAEIYDNVQAPFTPLDNRDNPRPDWQEYWPIRKFLLNENLIEDD
+YYGFFSPRFQEKTGLNAEQVVDYVSKQDSDTDVILFSPQPDMGAFFLNIFEQNELFDPGF
+KESSQAFCKFSELDYDISQIVMDSTNIIFSNYFIAKPRFLRRWMSLCEILFNACENFPTI
+AQIHGWLHQTNYKNGIQRKVFLLERIASLILSCESEWRSHAHSPFLFAYSGSKLNKFPEE
+AIKCDALKIAFNQTENRTFLKVFHNTIRSLDI
+>tr|A0A0P0LMB0|A0A0P0LMB0_9BURK
+MNTTGQPNLRRSCLLSGLGAALLLAGCSSPPAKHPAPPSGVPANPAASRRGPPDPYNSVR
+NDVAMVALSLLDTPYAWGGRGPATGFDCSGLVAHVMREGGGLRVKGSAADLGRLSRPIDR
+ADLQPGDLVFFNTLGARHSHVGVYVGDGRFVHASNPRTGVRIDALSSTYYAQRFEGAHTL
+LD
+>tr|A0A0P0MAP1|A0A0P0MAP1_9BURK
+MNKRSFDNARVWRLGADVDTDALAPGAYMKHGLEVIGWHCLEAVRTDFASGVREGDVIVA
+GANFGIGSSREQAAGVLRHLGLAAVIAPSYSGLYFRNAFNLGLLLLTCPDAVKIEEGERV
+GVSFEGDIPVVIRANGQRLACAPIPEFLMDMVDAGGLLPLLKQRKPA
+>tr|A0A0P0LAW0|A0A0P0LAW0_9BURK
+MCSPSQLTNALNQLLKEGLLVRISSGVYAKAQAGANDAALSSAEVEQLTNEAFKKLGRTI
+QSTRAHSDQNQDMLLVDGGRHRLSRQFTWGHATVVYAAPNKARTMPSRPISLPEDLNALP
+LKNVSAFVQRFAMSRDVHFKRSGLDQWAEAVTRASGDDVTLDETGKLLVALKKKHLINGR
+QMARLMSNHLSEHRGV
+>tr|A0A0P0LSH6|A0A0P0LSH6_9BURK
+MDLNQAIGLRNQLRTHKVIMAYNGAISDELMLTLADLLKTRMLAQDDPKRSKTIFSVFME
+GVQNLIWHGGDDSDTSGMILITQDQGQVTIMCGNRIAQKDTLDLRDRLSQIVNADKETIR
+QLYREGMSSSNEHEGPGAGLGLLEIARRSSQPISYAFVDVDKDTVDFILAATI
+>tr|A0A0P0M707|A0A0P0M707_9BURK
+MSDDPRCCGTGTCIINAEGLCWCGQRWDGEKMCFMSEPKDGRSAGQGQADQVAVHVPPDT
+AQ
+>tr|A0A0P0MAH3|A0A0P0MAH3_9BURK
+MVPHLVTALTGPINELEQRILDSMPAIERWFRLEWMEHTPPFYTSVDIRNAGFKLAPVDT
+NLYPGGWNNLTPEMLPLAVQAAQAAIEKICPEAKNLLIIPENHTRNTFYLTNVAQLQRIF
+HMAGLNVRLGSINPEIKEATTIELPNGESVTLEPVVRSKHRLGLKDFDPCTILLNNDLSA
+GAPGILEELHEQFLLPPLHAGWSVRRKTKHFQSYEEVAKRFGKLLGIDPWLINPMFSQCG
+DVNFAEGTGMECLRSNVDALLTKIKRKYKEYGINEKPFVVVKADNGTYGMGIMTVRDVSD
+LDQLNRKTRNKMNIIKDGQTVNDVIIQEGVLTNERINDAVAEPVVYMMDRYVVGGFYRVH
+AERGVDENLNAPGASFVPLAFADTPHLPQPGVKPGASVPNRFYMYGVIGRLAMLAASYEL
+EATDPEAEVYD
+>tr|A0A0P0MAA3|A0A0P0MAA3_9BURK
+MRRFLLTIGLALAAWGVAAQTQAPAAAPAPAETSLGVKSANIFQIAPGADADPKYKDQTN
+AERGQVQPGNNAPMWRSVGQGATGFTSLPKSQAPEAGNLIQPFVQYPGSRLASAGESWRQ
+VRNNIIIPYGAALLLIAVGAMALFYFSKGTIELHGQETGRKIERFTPFERSAHWANAIAF
+CALAISGIVIAYGKYFLLPILGDNLFGWLTFALKNIHNFAGPLFAVSLVIVFITFVKDNL
+PSKDDMVWILKGGGLFSGTEVPSHRFNAGEKVVFWAGVLFLGVIVVASGLVLNMLIPGLI
+YERSTMQIANMIHGVASLFMMAMFIGHIYMGTLGMRGAYKAMRTGYVDETWAKEHHELWY
+DDVKAGKIPAHRSAASNTPANSNASTASA
+>tr|A0A0P0MBM4|A0A0P0MBM4_9BURK
+MEEFLTPHFWFAVGQIIMIDILLGGDNAVVIALACRQLPDHQRTKGIMWGTAGAIVLRVI
+LIFFALTLLAIPFLKFVGALLLIWIGVKLLTPDEDDDHSNIQGSDKLWGAVKTVIIADLV
+MSVDNVIAIAGAAQTSGNADHQMPLVIFGLLVSIPIIVWGSQLVLKLMDRFPMIITAGGM
+LLGWIAGTMIQTDPGLVAYLPQDKAWGYGLGIAGALLVLALGKIIMARRSNSQEAV
+>tr|A0A0P0MC36|A0A0P0MC36_9BURK
+MNKHLFPVRALCAACASVCLAAAWLPLTVSAQSPATAASRPAAIRAADFIVAVVNVEPIT
+NQEVQNLSNRLQREAQAQGRPLDAPEAKRLALEQLINDKAQIQQARDAGISIDEEALDQA
+EANVASSNQLTREALRQRLQQDGVALATFRDQLRNQLLLTRVREREVEARIRISDIEVEQ
+FLQEQIKAQAARVPVALNLAMVLIAVPENSTEAQIKPLEAQAREVARRARSGESFAELAK
+TFSQTADRGANGGALGLRPADRYPELFVQAVAALPVGGVSEVLRSGAGFHVLKVLERQQA
+PATLMVTQTRARHILLRLSPQLTQAQALAQLSALRQDIVSGKADFAEAAKRLSQDGSAAQ
+GGDLGWANPGMFVPEFEQTMNRLRPGQVAEPLVSRFGVHLIEVTDRRDAPMSDAEQRALA
+RNVLREKKLDEAYVAWAEDVRGRAYVEMREPVQ
+>tr|A0A0P0M784|A0A0P0M784_9BURK
+MSADNEYPIIDPYASQRASVRRGIAQFRERLQAAGHDFREPPPEPTSCCGRGCNGCVWES
+YDDALMYWYEDAGALLAG
+>tr|A0A0P0M9U1|A0A0P0M9U1_9BURK
+MKLRTSNSDICNEQSENENTTDFKGSDLTELGLSNSYLGGWFRCLQLSKQYTQNCRTGLF
+PTDGAYQTYRLFGSVEDRKLNDWWEEQGRVSFSSGFASLKVQMLVRHKQTSGFQISLDVP
+DDLDVNIASEEFCLLIKQIQTLNSTDGLLSSAPMAWSFYKSKITCAHMQQLLDVLEAYEK
+LIKVSNRGNLWQIGEQLRVNPKAMSKTSDSHNERIEKHIAMGKRVSAMLSNARSLVQNAC
+DGIYPRFKVSK
+>tr|A0A0P0MAD1|A0A0P0MAD1_9BURK
+MPSKTSSLSRRTLFSGAATVGAVAAATAVLPGVVKPAAPVAKALPKPTRGGGYTLSEHVQ
+QYYKTTRV
+>tr|A0A0P0MB59|A0A0P0MB59_9BURK
+MGTLAAAWLAAELCVWLGTPIPWMLGPLLITALASMAGAPTHSANLLRNSGQWVIGTALG
+LYFTPQVSALVLAQWWAIVLAVLWALALGALFGLWLQRRHGAELGHLPPRALLATTYFSG
+SIGGASEMTLLAERYGARTDLVAAAHSMRLVMVVIAVPFGMQWAQHQWGLTVDASLLPGP
+RLAQWPGLLWLGLVTAAGGWVMLKLGRTNPWFMGSLLASMAVTLAGWQWSAVPNALSNAA
+QLVIGVSLGIRFRREFVKTAPGWLASVAWGSLWMMGASVVFGMALAWGTGLHPATMILGT
+APGGITEMAITAKVLQLGVPVVTAFQVCRLVAVLLIVGPLFTWVARKTAKA
+>tr|A0A0P0M7Q8|A0A0P0M7Q8_9BURK
+MNFKTLLGSLVVAASAFGPAMAQNYPVKTINLIVPYPAGGPSDFFARKLQPEAAAKLGQT
+MIIENIGGAGGAIGMAKLVNAPADGYTLSLGSPMELVLAPMAIQGVKYKSEDFKLVAQFA
+TTTTILAVRNSLNVKTVDDLLALARKNADKPLSYGSVGPGSLYHLVGEKFSQLTKVQMLH
+VPYKGIAPLLTDLMGGQIDMAFLPMAGSIPQTLIDGKIQGLAVTAKTPHALFKQFPAMAA
+MKGLESMEFDIWAGVQVHKNTPDAIVTTLNKAFYSAVEVPETRKALEASGNVVLPSRTPA
+ELARIYLGDIERYRAIAKSINLQAQ
+>tr|A0A0N7J945|A0A0N7J945_9BURK
+MPHLVILYTGQLDDEVNMTTLCRQMADAMLTVKDESGKQVFPTGGTRVLAYPAQHYAVAD
+GGAAGRDAGGTGDYAFVYLNLRMGRGRTEATQQSAGQTLLEVAKAFFAPVMAQRHIGITL
+QIDVGPEVFDAKHSNLHPLFNKV
+>tr|A0A0N7J8L9|A0A0N7J8L9_9BURK
+MVRRKQSSVPNRGFRVADQIQRDLAELIARELKDPRVGMVTINAIEVTPDYAHAKVFFSV
+LTGNPEEATEGLNAAAGFLRNGLFKRLHIHTVPTLHFLFDRTTERASDMNALIAKAVSSR
+AQED
+>tr|A0A0P0M8U9|A0A0P0M8U9_9BURK
+MSDDPHDSPLLQEARLWQDENWTAQVIKNEDDDGWAVAMFKTGESEPALVGPWTMGRDKK
+NPKPLDGTAFITLVKTASEFVRRSEQQLHAQLNQSVTVNGKYSRVTVLLRIVPDEDNPYA
+VLSAQDEGGDELAEVKVDAGFKFNRQTAQAWVDADFAKPGQSGTGRR
+>tr|A0A0P0MC56|A0A0P0MC56_9BURK
+MITELEFKSLASQGYNRIPLMIEAFADLETPLSLYLKLAHTKDNGQYSFLLESVVGGERF
+GRYSFIGLPARTLLRASGFGAEARTEVVRDGVVIETATGNPLDFIEQYQKRFKVALRPGL
+PRFCGGLAGYFGYDAVRYIEKKLEKSCPPDTLGTPDILLLQCEELAVIDNLSGKLYLIVY
+ADPATPEAYVGAKKRLRDLKEQLKYSVSAPVVKPTQSYPAERDFAKADYIAAVEKAKELI
+AGGDFMQVQVGQRIKKRYTESPLSLYRALRSLNPSPYMYFYNFGDFHVVGASPEILVRQE
+QTEEGAKVIIRPLAGTRPRGATPEKDKAAEQELINDPKERAEHVMLIDLARNDIGRIAQI
+GSVKVTEAFVVERYSHVMHIVSNVEGLLNQGMSNMDVLKATFPAGTLTGAPKVHAMELID
+QFEPVKRGIYGGACGYISYAGDMDVAIAIRTAVIKDQTLYVQAAAGVVADSVPEMEWRET
+EHKARALLRASELVEEGLE
+>tr|A0A0P0LB18|A0A0P0LB18_9BURK
+MSISKRDFLALGAAAGASFTLPAWAQAKPLIASINMFVPAAPGGGWDGTARAMERAAKAA
+GLVGTMQFENVGGAGGMVGLPRFVNQRKGQGNTLMVGGSVMIGAGIANKSPVTIKDVTPI
+ARLTEEAGVIVVPANGKIKTWKELEAALKANPKAVSVAGGSAGGTDHLILGMLIKALGKN
+PREAAYVAFAGGGPANAAILGGQVSAGISGYSEFEEQIKAGRMIPLAVSGKRRIPGVNVP
+TLSELGINVTESNWRGVFAPPGITAAQREAMIDFVTKLNASAPWKQELETRKWTDAFMTE
+RPFERDLGKDIEEKIVLMKELGLA
+>tr|A0A0P0LGG3|A0A0P0LGG3_9BURK
+MMKTWMTTLLLASAGLTQAQEVGQVISRTAVYQQVAVPRQTCTATPVAVQNTTSGAGALM
+GAIAGAAVGNQVGGGSGRALATMAGVMGGAILGDRIENPGSQIQNQTTCTTQTAYENRLS
+GYNVVYEYAGKQYSVQLPQDPGPTIQLQVTPVGMPQSAAPADTVVTTSTVLPPVITESRV
+VYVPAPVYRFAPPPVYSHIQLGWGWSQGPVHSRRHGHWR
+>tr|A0A0P0MBC1|A0A0P0MBC1_9BURK
+MKRLPLAALLAAFFIFLALSVSIRQAVLMLVGVGMGAALAAARFGFTTGWRQLIEQRNPQ
+GVTGQVLLLALASLAALPLLGQFSELHAALGPPSVSLLVGAFVFGLTMQIADGCGSGSLY
+KAGLGVPLNMGILPLFALGSFLGSVHLDSWLSLGQTAPVSFSAEYGTGGALALTLALLAA
+VLVAVRLWVGAGQSWFDKRWVWGAVALAALATLNLLLAGQPWGVVYGFGLWAAKISVALG
+AFDPTANAFWGQAGNAQRLTQTVFMDVTTITNIGILGGALWVSAKSPASSKPLTTQQWVI
+GLVAGFVMGYSSRLAFGCNIGAMLSGISTGSLHGWLWVPLAFAGTLIGVRVRRHYQF
+>tr|A0A0P0M7V5|A0A0P0M7V5_9BURK
+MTDLATQARDFAKVLALEAAQMIQQTGAQPPEVEFKSAGDWCSALDRSIEEHLKTRIAER
+YPDHGFLGEESAKTQVSGGLLWVIDPIDGSMNFLRGYPQYSVSIALLSDGEPIAACIVDP
+CRQEVFSAALNHGATLNGKPLHVAGTDHLQLAVAATVFPKPRAASLPEYLIQFARTVATV
+SGVRRAGSMALELAYLAAGRVDVFWSHDMGSWDAAAGVLLIREAGGHILTLDGLVWHESR
+RIAAAAPQLANMWFQLLVSESP
+>tr|A0A0N7J8A6|A0A0N7J8A6_9BURK
+MTPDLLQKGAERVARLNQERLESTESGGRNAGYGRVVQDANEVDVTHGRILYLEDVSVSF
+DGFKAINKLSLDIAPGELRCIIGPNGAGKTTMMDIITGKTRPDEGTVFFGSTIDLLRHTE
+PEIAQLGIGRKFQKPTVFEHLTVFENLELALKTNKGVKASMFFKLDSQQSDRLAEVLHTI
+HLADSVSKQAGLLSHGQKQWLEIGMLLMQEPKLLLLDEPVAGMTDHETERTAELFLTLKG
+KHSLMVVEHDMGFIRTISDIVTVLCDGAVLAQGTLDQVQANERVIEVYLGR
+>tr|A0A0P0M8A7|A0A0P0M8A7_9BURK
+MPSPSPARTSFPVAQIWPLSARWFLVLGALSACASVVFSAAFAHLPVLAGGVPTAVQTAL
+SQQQFHSLGLLFTGLAIRVCGPSRWLQAAGWLMLVGLLLFSFNLYARHVLAWDALRALVP
+WGGAAWILAWLALAVGLVQGSGRFNRQP
+>tr|A0A0P0M8T3|A0A0P0M8T3_9BURK
+MSDVIAQIEGRIGCITLNRPKALNALSLDMVRALTRALLDWQANPQVLAVAVRGTGKEAP
+FGAFCAGGDIRFFHQAATAGDASLGDFFTEEYRLNHLIHTYSKPYIAFMDGIVMGGGMGI
+SQGASVRVVTERTKMAMPETNIGLFPDVGGGYFLSRCPGRLGEYLGLTGLMLSGPQAVAA
+KLADIALPSGMLEPIWQTLISSPFENAESVERWVMAQAGAITPEKLTPQPQIDEVFALPS
+IADMLHKLESATDEWSQKTAHTLRHRSPLMLHVVLEQIRRARQMSLADDLRMERDMVHHC
+FHLRSVADCETVEGIRALAVDKDHSPNWKPARVEEVDLSEAARFFASPWPSDHHPLRDLS
+>tr|A0A0N7J8K9|A0A0N7J8K9_9BURK
+MATPNYGFEKRQKELAKKRKKEDKLKAKSDRKSGLLPEDGSEVDGDEGDANTAAPGATES
+STPAA
+>tr|A0A0P0LN40|A0A0P0LN40_9BURK
+MSPSPHTYLWQSQEQRTCANQGQNETQQV
+>tr|A0A0P0M955|A0A0P0M955_9BURK
+MDRLVFTSNATIKEQATARQVLVNDLANVSTVGFKSSYDVALQSIKVEGAGFDTRYQAQT
+VARDLIRMEPGPVMATGRPLDVALAGTAVLTVQAPNGDQAFTRRGDLKVNIQGQLENGSG
+HLVLGEAGPIAIPPGLLVRINPDGSIYARDPAQVGAAADVLVGQLRLRDTTGVSLARRDD
+GLFKVSEKPDGTDIALTNVLPKVIPQALEGSNVRAIEAMTRLIDQSRSFETQIRIIKEMK
+GLDESGSSMMKAA
+>tr|A0A0P0M844|A0A0P0M844_9BURK
+MAQYVFSMNRVGKIVPPKRHILKDISLSFFPGAKIGVLGTNGSGKSTLLKIMAGIDKEIE
+GEAIPMAGLKIGYLPQEPVMDPEQTVREAVESGMGEVKAAQARLEEVYAAYAEEDADFDA
+LAAEQAKLEAIISTAGDASEHQLEIAADALRLPPWDAIIGKLSGGEKRRVALCRLLLSRP
+DMLLLDEPTNHLDAESVDWLELFLQRFSGTVVAITHDRYFLDNAAEWILELDRGSGIPYK
+GNYSSWLEQKEARLATEQRTEDARSKAMKKELEWARANPKGRQAKSKARLARFEELSDHE
+YQKRNETQEIFIPVAERLGNEVFEFKNVSKSFGDRLLIDNLSFKVPAGAIVGIIGPNGAG
+KSTLFKLIAGKEQPDSGEVTIGQTVKMAFVDQNRDDLDNNKTVWEDVSGGLDIINVGKFQ
+MASRAYCGRFNFNGGDQQKKVGMLSGGERGRLHLAKTLIEGGNVLLLDEPSNDLDVETLR
+ALEDALLEFAGSVMVISHDRWFLDRIATHILAAEGDSQWVFFDGNYQEYEADKKKRLGEE
+GAKPKRVRFKALK
+>tr|A0A0P0M8I3|A0A0P0M8I3_9BURK
+MTTLRLISSMATKPLLADLVALYEAQAPHVQVQVESVGGVDAAKRVQAGEAFDGVVLASD
+AIDKLVASGHVRAGSRADLVRSGVAVAVPAGQPVPDISTEAALKAAILAAPTLGYSTGPS
+GVQLAKQFEAWGIAETLLPRIVQAKPGVPVGSLVAQGEVALGFQQLSEMLGVAGITIVGG
+LPPEVEIITTFSGSVAATSEQTEAMQALLAFWTSAACTPLKLQHGMQTA
+>tr|A0A0P0LV18|A0A0P0LV18_9BURK
+MNSPSASSLAPLLAPHGVLRVAINLGNPVLAGLDAAGEPSGISADLSRLLAAQLGVGIEW
+RIFKKADDSVQCVRSDEADIGFFAIDPVRGEGLHFSPPYVQIEGAYMVRTDSPLQNNDEV
+DQASNRVTVGAGSAYDLFLTRHLKHAAIVRAPSSPAVVEVFMDQQLEVAAGVKQQLEADA
+QRLPGVRLLPGRFMVIHQAMGMPAQRGAQAREYLNGLVEDAKQSGWVAEAFVRHQIQGAA
+VAPPGYPAQD
+>tr|A0A0P0M816|A0A0P0M816_9BURK
+MKNIVFFLAAMSLSWGGLAQHSKKEVEQDIARHRAMAEAHEAAAKCLESGKKPDQCTKEL
+QAACKGLALGKYCGMKHVH
+>tr|A0A0P0M9N3|A0A0P0M9N3_9BURK
+MKPRRGLPPHASPGRPEASPDTAPVPKPQAWRLKWLGILGVLMMVVACLWWWADSEDTRL
+QNVWHRVSLSMGWASSPAKQWRLDFTPQPGNSQLANTTDPEHLVRQIYAHLGDGERAQAL
+ATASVLVERFPTFQLGQLLYADLLNISSAKPVAWPDNEELNAPSLRKRLDELILESKRRL
+QRDSAQSLQGKIPTALTYLSPQQTYVAAVDASKSRLYWFENRSGPDGRLQLHLVKETYIS
+VGINGVGKHKEGDGKTPLGVYFILRNLPGEGLPDLFGVGALTLNYPNAVDLTRKKTGSGI
+WLHGTPSAQYARAPESTDGCVVLSNPEMQRLLQMPELRMTPVVIAEQLEWVNADQAKQSW
+DAFKPTLDKWLQARNGRDPQALKTHYSPRYEQDGQGLEQVWPRLAQTTLGYSQSQPLELV
+SVLNWKDQEHNMVVTLRDPNQTHPQGASYLRMYWQKENGQWRLVFQGPT
+>tr|A0A0P0M6P7|A0A0P0M6P7_9BURK
+MPIIFPNALRSYSVPIFLLVGVFSAIVSYKSIGKVPITIYVTMALTTVIFLLVGTSAAYA
+DALLWILFVYIVSPLLWMFFWNRVLERSEIYQVVNILKIYTLLACLSIFIFMYVFINYGS
+EYVGMLIDEPNVEFSQGRIGVAMHVLGSLIFLGTGFLAVPNLINKWLRIPLIIILTAAAL
+SSGRSALILAAGIGIFINFARMSVIEKARFAMGSIFVISLIGIFLTVLSSFSEDEIPIDV
+FEILLNFLNKVIQGGGDERVMQLSSLIDGIIESNFLGVGHGVSALVVRNEINPWKYELLW
+VSTVFHVGLIGFFIYAIPVLLVGLTFINLKRLKKHNDYDVFVMAGFVSILLASNTNPYLQ
+SFDFQWMFVFPCVYFYKRYRAELR
+>tr|A0A0P0LIL3|A0A0P0LIL3_9BURK
+MRNMKRAMQLQPARPKKQGGETLVGMLVGLGVGMVVLAAGSQMLAQHLRGHRLALQDSHV
+HHDLRSALDTIERELRQAQSLGQAWRGRVSAQCADAFCTGEADLLVLGQRISFGLDRNQS
+GLLDNNECSGFRLKDHELQIRTACTPEVWTDLTDAGSLKMTGLQWQVQCEKRGRWVARWV
+TVQLSAQWPRDTTRALSLSRTVSLRNDVPASPWPAVCGAAP
+>tr|A0A0P0LMM6|A0A0P0LMM6_9BURK
+MFAPVFNAEVLSDMKRFQLWVRLSVTQTTHTIVFAVNAIDAKLLGEAQFGKGNVLNYTEV
+LD
+>tr|A0A0P0MB87|A0A0P0MB87_9BURK
+MKLAYFLGIFRLLTSPFHPMPRPIQATIHTAALRRNLSQARQAAPDAQAWAVVKANAYGH
+GIERVFEGLRGADGFALLDLSEAERVRALGWRGPILLLEGAFEARDLELCSRLHLWHTVH
+CDEQIDMLALHKTHEPHRVFLKMNSGMNRLGFAPQRFRSAWTRLNALPQVDEISLMTHFS
+DADGPKGIAEQMARFEEATRDLPGERSVSNSAATLRHAQDAAVKADWIRPGIAVYGSSPD
+FPEHNAAHWGLQPAMSLNAQIIAVQHLQAGDSVGYGSSFVADSPMRIGVVACGYADGYPR
+ICPTGTPVLVDGERGRTVGRVSMDMLTVDLSPFPEVGVGSTVTLWGQSAQGAVLGIDEVA
+QAAGTVGYELMCALAQRVPVLVQD
+>tr|A0A0P0M8Y8|A0A0P0M8Y8_9BURK
+MNPFFGVSSLVPRRTALARLGAGLIAPLLASESGLVFAQTAQSASRAQLLAAWRQGGVLL
+IRHAATESGLGDPPGFVIGQCRTQRNLSDEGRQASRAFGAWLQSQNFKPDAVRSSQWCRC
+QDTARLAFGAYEDWPALNSTFAGQGDPAAQQQALRERLSALPAVRTEVWVTHQVNMTGLT
+GAYPEMGEGFLVDAQGRLKARGRVAA
+>tr|A0A0P0MBV8|A0A0P0MBV8_9BURK
+MSGLQVQLRSSSPIRLEAEFDCGAGELVALVGPSGSGKTSMLRAIAGLWTPADLQGRIRV
+AGQAWLDTAAGVQLTPQQRRAGLVFQHYALFPHMTAQANVALAAGPGWSSEEVQTLLARL
+GLAELRERRPSQLSGGQQQRVALARALVRVMPRPSVAQADAPQVLPGVLLLDEPFSAVDA
+PTRQTLYRELAALRQKVSVPMVLVTHDLAEARRLADRVVIVDAGQTLQTGEPARVFASPR
+NARVAELVGIQNHFEGRFVKGEDGWGRLCWTDPAQPEAELALAVLDKNKIDNGTRVTWVL
+NGEQVDVLADGELPGHLAPGHTRLRCQLLEVLSLGEISLCTLRPEALPSQTITLNLTSRL
+LRRLDVGAGGWVQLQIAPGALHIMPVRTK
+>tr|A0A0P0M8P9|A0A0P0M8P9_9BURK
+MNPLLAKLQPYPFERLKQLFASVTPNPALRHISLGIGEPKHATPAFIQEALKASVANGLS
+AYPATAGEPSLRKACAAWLQTRYNLTLDPLTQVLPVNGSREALFALTQTVIDPTRPGATV
+VSPNPFYQIYEGAALLSGAEPYYVPSDPARNFANDWDSVPAEVWARTQLLFVCSPGNPTG
+AVMPLSEWEKLFALSDQHGFVIASDECYSEIYFREEAPLGGLEAAHQLGRTDFKRLIAFT
+SLSKRSNVPGLRSGFVAGDAAIIQQFLLYRTYHGSAMSPVVQAASVAAWGDEAHVVDNRN
+QYRTKFAQVTPVLAQVLDVKLPDASFYLWAGVPAGWQGDDAAFAQALYQSEHVTVLPGSY
+LARDFKGSNPGQGRIRMALVAETAECLEAAERIARFVRAHPNKV
+>tr|A0A0P0LP38|A0A0P0LP38_9BURK
+MALALTDWILLAVLLASMLVGLWRGLVYEVLSLAGWLAAFILAQWLAADAVAFLPFLKEA
+AAQVQYAVAFALVFVIALFAAGLVSWLVKKLVETVGLRPADRALGGIFGLARGVVLLLAL
+TVVLQLLGLSQEDWWRKAVGPAWLDLALKGLKPLLPQAFVDYLP
+>tr|A0A0P0M7I5|A0A0P0M7I5_9BURK
+MWIATVCGKLETRYRYSNTLGWNTFPLPVLTEQNKVDLTNCAQAILLAREAHFPATIADL
+YDPETMPENLRMAHERNDEVIERIYIGRRFKNDTERLEKLFEMYTKMTADTGVNKKGKKA
+>tr|A0A0P0M8Y6|A0A0P0M8Y6_9BURK
+MPDFLPPELALNLAGAERLETTCQSAQMVWHAWGDVSAPSLVLLHGGSGSWTHWLRCIGP
+LRDAGWRVLVPDLPGFGDSDLPQGCTDVDNLPPHLHAGLQQLQAAGRCGTAVNVVGFSFG
+GMAGALWLAEHPQDAEQLVLVGAPGMGLKVAERVPLKGWRHLPEPDAQEAVHRHNLMALM
+LHAPEALDDLALQLHTANVHRDRMPRRRLSSTDIVARVLPQVSARVSAIFGEHDALYLGR
+LSELAQAMPSMARSWGRWAVVPGAGHWVQYEAAAPFNATLLAMLPIGGASTRAAML
+>tr|A0A0P0MAH7|A0A0P0MAH7_9BURK
+MYPFRFGLLCAAVAGSLVLGACGGSDSSRSASLPSQCALPLKHADGFNGGYRIDAVAQAT
+SRQFSACAMEQPLAASVSLCIDHRQISELTAQLILPNQSTLDMDLLTAAQGGTCLISGRL
+YTASLPANRLQGFSGLRGDWTVRVRDNNLVSSTPMGFLVGWSMQAEGLQ
+>tr|A0A0P0MBM8|A0A0P0MBM8_9BURK
+MKFREEIRNFKNERVNRIKTNVIVGAGFLALVLGAAMFYLSYVYGIRGFISVGSILIFIV
+FPVSLVYPIVRFFMGGKDSVVGVVISVVIEEHLKGKIKEKIRKIEK
+>tr|A0A0P0M8F2|A0A0P0M8F2_9BURK
+MSWSQDQMAARAAHELEDGFYVNLGIGIPTLVANFVPADKEVWLQSENGMLGIGPFPTED
+EVDADLINAGKQTVTTIKGSSIFGSEQSFAMIRGGKINLSILGAMQVTDKGDLANWMIPG
+KMVKGMGGAMDLVAGVKRVIILMEHVAKKKDGTEDMKILPECTLPLTGKGVVDRIITDLA
+VMDVTDAGLKVVELAPGVTPEFLQSKTGVPLVF
+>tr|A0A0P0M7U0|A0A0P0M7U0_9BURK
+MTNAIRIGSGLGFYGDNWEPVVASIERGQVQFIASDHLAELTLAILQKDRQRDPALSYAR
+DVVPMLLRLWPLMQPRGVRFVCNAGGLNPMGAAQAVQKTLAAAGWHPRIAVVSGDDVLTQ
+LQAPGERFDHMMNGADVASVRERLVFGNAYLGAQPIVDALDQGADIVITGRVADAALFLG
+PLVHALGWKLADAATPEDFHRLAQGLTVGHLLECSGQGSGGNFGSQGSWQNIPDLAHIGY
+PIAEVWPDGTTFITKAPDTGGLVNFDTVRQQLLYEVHNPHAYFSPDVVLDMGQIQLHDEG
+QHRVRLTGAKGSAPTNQLKVVAGFQDGFKAEISWGFSWPDAWDKVQAAESMIRSQLKQRQ
+LPFDELFVEYPGLNSAHGPLAPLPPAAELNERAEIWVRMVLRTRSKAVADGFGRLFPWMA
+LSGPAYTCGFQGLNASSALLGIWPTLIPRDRVQARVEMLEPGA
+>tr|A0A0P0M9H6|A0A0P0M9H6_9BURK
+MAFALQRSRAYTVLAAMLFVTTAYAQSDCRPATAGVAQLLEIRPGFHRVRGPLAEFDPCH
+RSVQLSMPGLFADKLADKPPLMIIAHGGNGPGSAEQEMVRRMNARGVATLLFDAYEMNGF
+QYRGTSLFLTGTTNESRQRMIFKATLGAYHWIRQNARIDTTRLYIHGLSNGGSVALNMAA
+VVDPAHVRMVFSEGAPSAGIGMPDQIRVPLKMVFGKIDNYGGRTAEDWMHLRTDPCVVNQ
+PAEGAAPGTAQRCSLQVNPTAQGLSPFQWGEQLKAEGQPVEFWFYDEAAHGLLAGPVDRG
+MRTYGSGPTASQRFGWIGASSSAANRFVADLMKAIKASYP
+>tr|A0A0P0MAI5|A0A0P0MAI5_9BURK
+MGELNVRSGSPGSGFSIILDAARKTRDPALFQRAVDLALQSRSGESALQAAQAWKSAVPE
+NTEANRYILQILLALNRVDEAGKALSVSIRELPAAEQNAAIASVPRVFARVQDKKTAADT
+VEKALAAALKQSSTAAAAWTTVGRMRREAGQLALAVEATRQGRAADASAPGPLILALSLA
+NAAPTEMTPLLAQAMKGAVQPELRLGYARHLIGLPQQAEAMQQLARLNAEHPSFADGWLV
+HGLLLQETGKLAEAEQKLRQHVTLAQASQDKEAQTGLAEALMALAQMAQRQGQLSQAEQW
+LAQVPADADPIKLASRRADLLTQQGRLEEARQVLAQIKTNNTEQATRKTLVQSMWLRENK
+RLDEAYTLLKQAMTEQPQNTDLMSEMAMVNEKLKRFDEMESVLRELMKRKPEDPHAFNAL
+GYSLADRNTRLDEARQLITQALKLAPDDAYIQDSLGWVAFRQGQYAEALQLLQTAFKARP
+DAEIAAHLGEVLWVMGQRQEAGAVWREGLLLKADNDTLVETMKRFQFKP
+>tr|A0A0P0MB68|A0A0P0MB68_9BURK
+MTEAKTSLKRTLIGKVVSDKRAKTVTVLVERRVKHALYGKIVAKSSKYHAHDETGEFHLG
+DTIEITESRPISKTKNWVATRLVQKAAAV
+>tr|A0A0N7J8L6|A0A0N7J8L6_9BURK
+MATVSETGSETLTEMRGERCIEVHGTEVWLQGEGDEVILMLHGWPDTRALWDGTVAALQD
+RATCARLTLPGFETGPSATSLDDMCQLLRQIVDCISPGQPVTLMLHDWGCIFGYQFAMRH
+AERVARVVAVDVGDHNSGALLRSWGPKEKLAVMGYQVWLAIAWKIGGLLSEKMGTRMTRA
+MARWLRCPSEPAHITHKMNYPYAMQWFGTVGGFKGASPIRLPMPLLFVYGERKPFMFHSP
+QWLAHVASAPGSAVQGLPCGHWVMISRPDPFYAQVRSWLWGDA
+>tr|A0A0P0LN18|A0A0P0LN18_9BURK
+MPTLTSQPSPADVARAWTLLDGLTDPEIPVVTLRELGILRDVRAGDAGLEVVITPTYSGC
+PAMGAIEDDVKALLQAHGLQGRVVTQLAPAWTTDWMSEAAKDKLRAYGIAPPHACASPSS
+GGASVVQFAARGTKSEVVNCPQCGSANTTETSHFGSTACKALYRCLACMEPFDYFKPY
+>tr|A0A0P0M8Z6|A0A0P0M8Z6_9BURK
+MKAFKLLPMLALVATSAQAQNREVNIICSAQAAWCSMIAVTFEKSQGIKVNMTAKGSGEA
+IAQLAAEKANPKTDVWFGGTGDPHLQAAEQNLSLEYKSPTLPKLHDWAQKQAAQSGYKTV
+GIYSGPLGFGYNTELLAKKKLPVPKTWGDLLKPEYKGEIQSANPASSGTAYTMIATLVQL
+MGEEKAFEYLKGLHKNIGTYTRSGTGPIKAVARGETAVSISFVHDGPGEKAQGFPIETIT
+PADGTGAEIGSMSIVRGSRNLEAAKKFYEWALTPAAQELAAATLQFQLPSHKEAKVDPRV
+PDFRRIKMINYDYAKYGQTAERRRLIQRWEKEVNSLPR
+>tr|A0A0P0M9X4|A0A0P0M9X4_9BURK
+MFKWLLENSLANRLLVIIASVVLMTYGAFTLTKTPVDVFPDLNKPTVTIMTESGGMAPEE
+VEQLITFPLETAMNGLPSVESVRSISSAGLSFLYVTFKWDTDIFRARQLVSERLSAMEDG
+MPAGVMPRMGPISSIMGEIMQIAIPVDSQKISAMAVREYADWVLRPRLLSVSGVAQVIPI
+GGEVRQFQVQPNTARMAELGISHDQMEAALKGFSANTSGGFLELNGREYLIRNLGRTSRL
+DDLKNLALTTKNGQPILLRQIADVTFAAALKRGDAGFEGKPAVILGIQKQPTADTIALTR
+AIEDALVGLKSSLPAGMDAPRVTFRQASFIEASINTLQGKLIGASVFVAVILFFFLGTVR
+PTIIALTAIPVSIFITSLVFKYFGLSINTMTLGGLAIAIGGLVDDAVVDVENILRRLKED
+RIKHPQHRLHPLEVVAKASMEVRSAILYATVIIVLVFIPLFALPGLEGKLFVPLGISFIV
+STLASLLVSVTITPVLSYYLLPTMKNLDHGDTKVLIWLKTRYASSLQSVLQKPKIALVAS
+GFAVLTAIAAVPFFPTTFLPPFSEGTLLIGLRLNPGVTLSETTALARQAEVLVKQVPEVT
+HVGRRSGRAELDEHAEGVHVSELDVGLKPTGELMRSMDEIKADIRSRLVNLPAALEIGQP
+ISHRIDHMLSGVRSQIAIKIFGDDLDGLRGQADSLRARLATIPGIADLQIEKQVLAPQIK
+VRIDYAAAAQYGIPAPQVLSTLQSLVEGEKITQIVEGGRRFALVVRLPESARSVEGLNQI
+LIETPNGRVPLSKLATIEDGDGPNQISRDDGKRRIVLSANASGRALSEIVADIRAVVADT
+KLPEGYFITLGGQFQAQEEASRLVGLLSIVSLVLMFVVLYSRYKSTRLSALIMVNIPLAL
+VGAVLGLWLSGQPLSVAALVGFITLAGISVRNGILKVSHYINLMRFEGENFDHKMIIRGS
+LERLSPVLMTALVTAFALAPLLFEAERPGTEVLHPVAVVIFSGLISSTLLDTFLTPVMFW
+LFGRRDAERLTEDKDAEAF
+>tr|A0A0P0MB78|A0A0P0MB78_9BURK
+MSSNHTPPAASDDRVPYAKLQPWGMAPDMVVHDVQTEDERLWAPVAPGIWSRPLHLNVTG
+GFYVHLLKVKRSGLLQRHRHSGMVHAHVLRGKWLYLEHDWVAKEGSYVFEPPGETHTLVV
+PDDCQDMVTMFTVHGALMYVDTQGNATGYDDVFTRIEKYRAHFEAVGLGADYVKTFMR
+>tr|A0A0P0LJF6|A0A0P0LJF6_9BURK
+MAQAKTLTKEEMTRVLDYINTRRFAQRNRAMMLLTHLAGLRIGEVACLRWSDVTNSDGKI
+KDEIRLLPDMTKGRHARTVFINSKLKIELQTYADQAKCIDRCYPFFATQKSIKSGFSANS
+LSQTIALLYEGAGLEGASSHSGRRTFLTNLANKGTSIHLLKSLAGHRSIQTTALYLYSSP
+IQLKAVVELV
+>tr|A0A0P0M9H9|A0A0P0M9H9_9BURK
+MCQLMGMSCNKPAATTFSFTGFSARGGLTSDHTDGWGIAFYDGKGCRVFQDDQPASHSAL
+ADYVRQHPIKSKVVVAHVRKATQGDVQSANCHPFQREWLGRTWVFAHNGDLRDFQPPHGC
+QDMPVGSTDSERAFCALMSQLRSHFKDRQQPPEWPELAPVLARIAADLAEHGNFNMLLSD
+GHALYAHCSTKLHLLTRHHPFPHARLVDRDMSLDLGPLNAEGDIMSLLATEPLTLDEPWQ
+ALRTGEFVVVVGGQVVWQAVHAGTRAFPVALPISAARMSSHA
+>tr|A0A0P0MBE9|A0A0P0MBE9_9BURK
+MTSTPSGTLGIDFGTSNSAVAWLGAQGSARLIPLEGDALAMPTAVFYNVEDSSTHFGRDA
+IGHYLEGTEGRLMRSLKSLLGSPLLLETTQIGPQQISFQDIITTFLATLRERATQSLGSA
+PRRVVIGRPVHFVDEDPERDAQAQASLQRAVEAVGFEEVSFQLEPIAAALDYEQRLTQES
+TVLVVDLGGGTSDFTVVRLGPARMPRADRSTDILATTGVHIGGTDYDRQLNLAQVMPLLG
+YKHLGPDQREVPNRVFFDLATWHLIHWQYQAKAIAHAQTLRSNYSEPRLHERLMRVLLER
+HGHHMAHEVEQAKIRCSLGQAETGIDLSVIERGLSAQLGVRDMQAHLHDLLARTVACARE
+CVQSAGLTDASLDAIYLTGGSSALSTFQATLQAEFKGVPLVEGDLFGGVALGLAYSR
+>tr|A0A0P0MAG7|A0A0P0MAG7_9BURK
+MKVFRGFHHPDLAPACALTIGNFDGVHRGHQAMLALLRSEAAHRGVPSCVMTFEPHPRDY
+FAKALNKPDLAPARIATLRDKLQELERCGVDQVVVVPFDARLASQSPQDFIQQVLVKGLG
+VRYVLVGDDFRFGAQRAGDYAMLDAAGQNLGFDVARMNSYEVRGLRVSSSAVREALAKGD
+MAAVQALLGRPYSISGHVVHGRKLGRELAATAEGAGDGFRTLNLRFSHWKPAASGIFVVQ
+VHGLAEQPLRGVANLGIRPSLDPNDVNGGRVLLETHAFDWPAQLGAEGGYGKIIRVDLLH
+KLHDELKYDGLDALTKGIAKDCDDAQAWFASRHGETSRQTTRDRI
+>tr|A0A0P0M8W0|A0A0P0M8W0_9BURK
+MYLPQQFNHPQHAATIMREHPFASLVSTDGDGFPFVTHLPLKLIEEGGQPVALLGHCARA
+NPHAGFLQARPQALVTFMGPQAYMSPAVYPDLLRVPTWTYLAVHARVEARMLGGDDAKDA
+MLKQMIADHEPAYAAQWRALPESYAHGMLNGIVAFELKILDLQTKVKINQHRPESHAAMH
+AAYTQGGEQEQALAQWMQRLGMVA
+>tr|A0A0P0LNA0|A0A0P0LNA0_9BURK
+MNTSSALHHIPNRSKKLPPLRVGIGGPVGSGKTTLLEMLCKNMRERWDLIAITNDIYTKE
+DQRLLTVSGALPAERIMGVETGGCPHTAIREDASINLEAIDRMLEKFPNADVVFIESGGD
+NLAATFSPELSDLTIYVIDVAAGEKIPRKGGPGITKSDLFVINKTDLAPHVGADLQVMRD
+DTQRMRPNPETRPWVMTNLKTLDGLAEVVAFIEKRGMLGQA
+>tr|A0A0P0M9H5|A0A0P0M9H5_9BURK
+MTETPPCPSDALALLQPSQAAEAAQLDPVGWHYILVLAKRTRNQTGPAQALLQAKLNTAV
+AQLQLRLAKPQTPSTLPSSQAPSPLSALLQDMAAPSAQRPWSPSGHGRLDNPRVEQFRQQ
+LGKISVQKQVTQAIAQAPQNAGPINSHMLVLRSLGLMRDLSPDYLNRFMAYVDTLLILDA
+PQSVKAQPKKAVPASKSGH
+>tr|A0A0N7J8S2|A0A0N7J8S2_9BURK
+MSSAALQSPTSYGLPEFPLNLELDPPSPVKVREWVAELFEQNHLSLAIALAEAGLALYPD
+SEDVLVIAALVSEVQQDWAHSRELLEHLIKVQAGNTPPQVWHHLARVLRCEGNTQRALSV
+AQQALRQHPSSMDLQQFVAEMLPSSLHLKKTGTAGA
+>tr|A0A0P0M6Y3|A0A0P0M6Y3_9BURK
+MSNPTALLHPTWQDKRWWWLLSPAIPLAFTGSLLAFVWTGQWWCMLLAPVIIHVLLPVLD
+RVLGEDFSNPPESAVAQLEQDVFYRTLVWAYVPLLMLGTVVGAWIATAQPLTWWGYAALV
+FTVGAINGIGIGTAHELGHKKETLDRWLSKIALAPSAYGHFFVEHNRGHHKRVATPEDPA
+SARMGESFWAFLPRSVWGSLQSAWALEQERLNKQGLRVWHGQNHNLQAWALSLLLFGALV
+AWLGWMALPFLLLQAVYAISMLEVVNYVEHYGLLRQRDASGRYVRCEPEHSWNSNHLVGN
+LLLYQLQRHSDHHAHPSRRYQALRHFESAPQLPAGYATMITVAYLPPLWFVWMDRRVMAH
+YRGDLGLVNVQASAQRRLMQRWG
+>tr|A0A0P0MBU4|A0A0P0MBU4_9BURK
+MRDDRSQALGAFQSGIPGAKGSVLRHEKLIDFIHRNYEADAQGRWFFQNGPQRVYIELEA
+TPHIWRIGDDFAVNSHTGTGAQVNKSLVDENGKVYLHTNWGLGLVHTLDVPRAAQALEMA
+RWTLEEAVSNELAALYGYVMSPQAAHQSSLQA
+>tr|A0A0P0M7N0|A0A0P0M7N0_9BURK
+MSTSEAPGCGLSGSSDLASEASDEADRSGQYPGRNKTTNPELQITTGSGSSRIPKRSYTL
+V
+>tr|A0A0N7J8N3|A0A0N7J8N3_9BURK
+MSFTSQYLSCAGLEIHYTDWGKAEKGTVIAWHGLARTGRDMDELAAHLSARGWRVICPDT
+VGRGLSQWSDDPQNEYCLAFYARLARELMDGLQLRAVHWVGTSMGGAIGTVCAAGLAEPS
+LKHRILSLTLNDNAPELSSVAIERIKNYAGSPPSFTTVTELEAFFRQVYQPFGWLSDAQW
+RRLTETSVRRLPNGRITPHYDPAMALQLTVHPDDYLIWPHYDALNLPVLLLRGAMSDLVL
+PETAAEMHRRGPGGRGLLKHIEVPGCGHAPALNVLQQLEWVTDFIESV
+>tr|A0A0P0LPT8|A0A0P0LPT8_9BURK
+MRLTDPQGLVLITTGIHCLNKFHQHVHVVDTDHSPNVGPSGNNTQRFFVNKTELIEHIAK
+HADLSKAAAGRALEATMGAVRTTLKKGGTVSLVGFGTFAVGKRAARTGRNPRTGAAIKIK
+KANVPKFRPGKGLKDALN
+>tr|A0A0P0M8A9|A0A0P0M8A9_9BURK
+MFQRMSYQRIALAATLWWSCQATSIAQPAVFTPNATVLKDRISYVVQADGRYTKEVVEEI
+QINTDQGVKERSQLRMPFSTTLQALEVLQAYTITKDGKRIDVKPEEIREQQSPASAGAPM
+FDDHKVKVVIFPAVEVGARLGVHTRMTQKTPLFKGHFYDLEAAWPQVEFKSFEITVKAPK
+SMKLQVAANKMNGGEVPSEDPAQQVWKWSQENVKASPPEMAATSPHERIPHVAMTSFASY
+ADAAKAYLERAQSKSAVTPSIQKLADDITQGMTDRRQQAQVLYQWVNHNIRYVAIFLGFG
+GVVPHEAQAIADARYGDCKDKTTLLQALLAAKGIASSTALINATDVYWLPSIPMPTTAFN
+HAITYIPEFNLFLDATPGKAMFGTLSPQLQGKHALVIQNAKGEPEIMKVPLGESGANAVQ
+IDTVLELNSQGQITGRSKIQPTGYLDLLARQIMSSLPPGVEPQVVSQLLVMSGQSGSGNL
+IHKNEADTSKPYSYEATFVLPNAVQLPGPGAMAIPQGIKGFSSIANTFAVIAPELRTQPL
+IFGNGKIIENMLLKLPQNISVSRLPAPVSMETPFGRYISKYELKGRELRVQRQLVIELSD
+IIVQPKEYPQLRSMGNAVMRDLRSQVVY
+>tr|A0A0P0M6P4|A0A0P0M6P4_9BURK
+MTDTPQPPEAEDEISLLDLLQTIVDNLRLLIIGPLVVGLAALGISFAVTPTFTAQVAFLP
+PQQQQGMAASMLASLGALGGLAGAATGLKNPADQYVAFLKSNSIENALIDRFKLMDRYEE
+EFKQDARKTLEGKVKIASGKDGIITVDVDDHEPQFAADMANAHVEELTKLMGRLAVTEAQ
+QRRQFFEKQLEQSKNKLTQAELALRATGVSSSVLKSNPASAVAAVAGLQAQITAQEVKLG
+AMRGYLAETAPDFKQALTELANLRAQLAKQSQQDKADPAEQGDYVAAFREFKYQETLFEL
+FAKQFEMAKVDEAREGATIQVIDAATPPERKSKPKKALIAILATLASGFALLLFVFVRQA
+MRNASQDQESAQKLQALKTSWRKALGRS
+>tr|A0A0P0MAC6|A0A0P0MAC6_9BURK
+MSITRRQFAARSLALSAPAWAPAWAQGKPIRIIVPYAPGGPIDVTARALAERVKDSLGTV
+IIENRPGAGGNLGADLVAKAAPDGLTIGIAATATHAINPWLFAKMPYDASRDFAPITQML
+RVPNVLVMNAETAQRLKINTLADLVAYAKANPAKLNFGSGGNGSAGHLAGEMFKRAAGIF
+AVHIPYNGGNPAQLALLSGQVDFNFDNLATAAANIKAGRLKALAVTTGQRSSALPDIPSM
+SETLKDFEIDTWWGLVAPAATPRDVVERLNKAFVAALQTPETKTRFGQLLAEPVGNTPEQ
+FGAFMKKELTRYESVVKASGARVD
+>tr|A0A0P0MAI2|A0A0P0MAI2_9BURK
+MSKVITTLPEGFAHRMVDWQRLHGRQSLPWQNTRDPYRVWLSEIMLQQTQVSTVLDYFPR
+FLGRFPDVAALAAAPQDDVLALWSGLGYYSRARNLHKCAQEVMGRFGGTFPRRAEDLQTL
+PGIGRSTAAAIAAFCFDERAAILDGNVKRVLTRVLGYGEDLAVAKNEKALWALAQDLLPE
+PATNMPRYTQALMDLGATVCLPRKAQCQACPVSTVCQAQAQGEPLAYPVKTRKLKRSSAT
+LWLLWAVNAQGQVWLQKRPDTGIWAGLFSLPVFETEAQLLAAWSQGAQPEFITPWKHVLT
+HRDLHLHPVRMTGSAPSAPSCEGQWVDAQAWPTLGLPAPIRTLLAS
+>tr|A0A0P0LJQ8|A0A0P0LJQ8_9BURK
+MKKKIVYTDEPMGDVEVVADFLPSPAELAFKEDGVKVTLALSKSSVDESQQDQASMATSF
+AVRKPPTPFT
+>tr|A0A0P0MA26|A0A0P0MA26_9BURK
+MQARHTPLKLTSASLEELVGLHARPCLSLYMGTHRSHPNNQQDPVRFRHLVGALKTSLHH
+QAPDALRALIAPFEALENDHAFWEHTLNGLVVMGATDFFPHLRVAQTGGRLGGGGRQLSH
+PTFAAIFAIG
+>tr|A0A0P0MAS5|A0A0P0MAS5_9BURK
+MFKTDTAIFLSRRHVLAASLAASLLGVSGQAMAADEAPEAFIQRVTNDTLNTIKADKALR
+NGDINKIMQLVDTQLMPHVNFRRMTALATGPAWRKATPEQQKRLQEEFKVLLVRTYSGAL
+SQITDQVVVVKPLRAGQDDKNLVVNTEVRGKGDPIQLDYRLEKTPGQGSGWMIFDLNVLG
+VWLIENYRNQFTKEINAGGIDALIASLAARNKSNAKAS
+>tr|A0A0P0MAW9|A0A0P0MAW9_9BURK
+MLDREGFRPNVGIILLNQKNQVFWGKRIRTHSWQFPQGGIDRGESPEQAMFRELHEEVGL
+QPEHVRIVARTRDWLRYEVPDRFIRRDARGFYKGQKQIWFLLQMVTHDHHLNLRATDHPE
+FDAWRWNDYWVPLDVVVEFKRGVYEMALTELARFLPRQERQNRYLRGGSRPQRDQAMDHD
+HGHGEMQPPVHMELPPGASFDPNPQG
+>tr|A0A0N7J872|A0A0N7J872_9BURK
+MNGTDLWTLAVIVGLAVVTVVARSFFFISSQSWQLPDWAQRGLQYAPIAALSAVVIPEII
+TVQGELVSTWQDARLYAAVVGVAAYFWRRDVLITILAGMAVYLPLRLGLGW
+>tr|A0A0P0M9P8|A0A0P0M9P8_9BURK
+MKVLDLQCALGHSFEGWFGSQADYDTQRAQGLVTCPVCNDSDITKKLSAPRLNLGYGAAP
+DPTPAQGAPATGAGAGAGVGGLGGTPSARAVEVPSSAPTLPDVAPDTLQQLQAAMVKMVR
+HVMANTEDVGTQFAEEARKIHYGEREERNIRGQATREETEALIDEGIDVMPLPVPENLKG
+PLQ
+>tr|A0A0P0M8V2|A0A0P0M8V2_9BURK
+MKVSDILRVKGSTLFTVKPDEPLSSALNAMAEKDIGSLVVMSHGQLAGMLTFREVIQQVV
+KNGGQVGQTTVLEAMDAQPMTCSSDTDLDEVRRLMLERHARYMPIMDGTTLMGVISFYDV
+AKAVVESQDFENKMLKAYIRDWPDQESPTAQS
+>tr|A0A0P0MBZ9|A0A0P0MBZ9_9BURK
+MPKLDGTHILERLKKRIEQLEAGDEIADKEIRSLLNDAQRAELDGAWEQQQQLRKNKRAR
+TEQEQQALGWKSKRQVRIEVLKAALKTAWDGIEAEFDRLKDQAEIRGAKIFFDTLTQALK
+DGKDKQVAEKLANNAMTRAGLRRMDGQQVGQQGLTKRDREIRAMEDALLEKAVSEMDDYE
+REQYELGQEHEKALRERSKKLGR
+>tr|A0A0P0M9U7|A0A0P0M9U7_9BURK
+MFYFQSALAETAIPANDYALIEMLWADWSPGFKSKDDLENFKKCISSPSHLKAALGYYRA
+SLGNGKKTDTYNAIETKGLEPLKQPTLYLHGKKDGCIGVELAEEARSTCPWLEVRVLDQV
+GHFM
+>tr|A0A0P0M7G4|A0A0P0M7G4_9BURK
+MTEALDAYRVAKEPYYRPVADEVELFEAAYSVRMPMMLKGPTGCGKTRFVEHMAWKLNKP
+LITVACNEDMTASDLVGRFLLDANGTRWQDGPLAVAARHGAICYLDEVVEARQDTTVVIH
+PLTDNRRVLPLEKKGELVQAHPDFQIVISYNPGYQSLMKDLKQSTKQRFGALDFNYPEHD
+IETEIVAHETGVSTDVAAKLVGIAERARNLKGHGLDEGISTRMLIYAGSLIAQGVAAQAA
+CRVALVRPITDDPDMRDALDAAVATFF
+>tr|A0A0P0M996|A0A0P0M996_9BURK
+MMISVKNVMASAFRRGLVLASTGVLMLLTGCASVQGPTLPVSELESFVPMPHHARVMNDV
+KVRWEVRENVAEFCGRAAKLSTTQAWMTPPLACAMWNVASKECVIITGKKVSHVELGHEL
+RHCFEGNFHR
+>tr|A0A0P0M9T2|A0A0P0M9T2_9BURK
+MLNEKSLSTKDELQQKKRLQKDTFHKIPSLLCLNRAREFPSKLTGFTWIGCPTRKSENKF
+VLLIYKMESKMSALSKLKFISMERRENSNPLLVKRQKLANKISEQIQLAKATQSGKKFKA
+VKVRKITDLESGEQREIEVPKRLKPWWWSNEQGKICINVRYGARVLEVIEGKNSIEVENL
+AAVITALEVLRAAVEQGELDERINVISKLVNAGFGRDLS
+>tr|A0A0P0MC15|A0A0P0MC15_9BURK
+MINKFVSSVAEALAGTADGATVMIGGFGTAGIPDELIEGLLAQGARDLTLVNNNAGNAEH
+GLAALLKVGRVRKVICSFPRQTDSYVFDGLYRSGQVELELVPQGNLAERIRAAGAGIGGF
+FTPTGFGTELAKHADGTPKETREIDGRMYVYETPIHADLALIKAERGDRWGNLTYRKAAR
+NFGPIMAMAARKTVATVHEQVALGELDPETVVTPGIFVQAVVKIDRVATQAGGIKA
+>tr|A0A0N7J8B8|A0A0N7J8B8_9BURK
+MALVSLRQVLDHAAEFGYGIPAFNVNNLEQVQAIMEAAQATGSPVILQASAGARKYAGEA
+YLRHMVLAAIETHPDIPVVLHQDHGATPAQCQQSIRSGFSSVMMDGSLMADAKTPASYEY
+NVSVTQKVCEMAHAVGVSVEGELGCLGSLETGEAGEEDGVGAEGKLSHDQMLTDPVQAKD
+FVAQTGVDALAIAIGTSHGAYKFTRPPTGDILAMDRIAAIHAAIPNTHLVMHGSSSVPQE
+WLQIIRQYGGDIKETYGVPVEEIVRGIQSGVRKVNIDTDIRLAMTGAMRQVFAQQPSEFD
+PRKALAAAKKAAAGIVKARFEAFGCAGQAQKIRPVSLDAMAARYTN
+>tr|A0A0P0M8J0|A0A0P0M8J0_9BURK
+MNDLGRIEDLPADYVQDLRKVNLVPLWPSLRGVLPPKVPTRQTQPTCWAYQDIKPLLLKA
+GELTPIEKAERRVLVLANPGHGLDKMQASAAMYLGMQLLMPGEWAPSHRHTPNAVRMVVE
+GEGAWTTVDGEKCPMSRGDLILTPTGLWHEHGHDGTEPVIWLDVLDLPLVYYMEASYHIN
+GDRQTVVPGQGDKQYARGGVVPSHVFERSKKAYPMLRYAWKDAKAALESLASDDANLEQV
+QVTYTNPETGGDAENILGFYALMLRPSQRLRLPARSPAQVFHVIEGAVQAQIVASTFTLL
+EADTCCAPGYEAVTLTNLLADKPAFVFIADESPLHRKLGVYENRG
+>tr|A0A0P0MAF6|A0A0P0MAF6_9BURK
+MTFLDMLRAAERQNGSMLCVGLDPEPTKFPDAYKGDANKIYDFCARIVDATADLVSSFKP
+QIAYFAAHRAEGQLERLMEHMRRVAPHVPIILDAKRGDIGSTAEQYAKEAFERYGADAVT
+LSPFMGWDSVAPYLKYHGKGAFLLCRTSNPGGDDLQNQRLASVEGQPLLYEHVARLAQGP
+WNLNGQLGLVVGATYPAEIERVRELAPTVPLLIPGVGAQGGDAVATVKAGWRANADGSSA
+GSIIVNSSRAVLYASSGDDFEQAARQVALQTRDTLEAAKA
+>tr|A0A0P0LFR8|A0A0P0LFR8_9BURK
+MFKHLESPAAAAPTLQQIRAHFGTTYAANALIGFIFAATGPVAVILSVGTRGSLSPEELA
+SWVFGVFFVNGLVSLLMSWRYITPLAFGWTIPGTVLVGPALQHLSFAEVIGAFYATSALI
+LVLGLSGWVKRVMAALPMPIVMGMVAGVFLRFGLDIVRALQSDVAIAAPMVAVFLLLSAN
+ADWGKRLPPVIGALLVGALAVAVAGRLDAAAVGQLALAQPVIQAPVWSFAAMLELVVPLA
+ITVLVVQNGQGVAVLKNAGHEPPVNMIAVACGVGAAVSAVFGAVSTCLTGPTNGLLTSSG
+EKSRHYTGALMFGVLALLFGLMAPTFTGWMLAAPKEFIMVLGGLAMLRVLQGAFVASFGA
+GKFSLGALVSLLVTVADIGLFNIGAAFWGLVAGFAVSWWMERGDFQKT
+>tr|A0A0P0LII7|A0A0P0LII7_9BURK
+MKSLLDLFKQFTPDDHFDAIRIGLASPEKIRSWSFGEVKKPETINYRTFKPERDGLFCAK
+IFGPIKDYECLCGKYKRLKHRGVICEKCGVEVTQTKVRRERMGHIDLAAPCAHIWFLKSL
+PSRLGLVLDMTLRDIERVLYFEAYVVTDPGMTPLKKFGIMSEDDYDAKVKEYGDEFVAKM
+GAEGIKELLQGIDIESEIERLRGDLTGSELKVKKNSKRLKVLEAFKKSGIKPEWMVLEVL
+PVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNSRLRRLLELKAPEIIARNEKRMLQEA
+VDSLLDNGRRGKAMTGANKRALKSLADMIKGKSGRFRQNLLGKRVDYSGRSVITVGPTLK
+LHQCGLPKLMAIELFKPFIFARLEAMGIATTIKAAKKEVEAGTPVVWDILEEVIKEHPVM
+LNRAPTLHRLGIQAFEPLLIEGKAIQLHPLVCAAFNADFDGDQMAVHVPLSVEAQMEART
+LMLASNNILFPASGEPSIVPSQDVVLGLYYATRDRINAKGEGLIFSDIGEVQRALDAGAV
+ELTAKINVRMTEWTKDKATGEFNSSVSMVETTVGRALLSEILPKGLPFSNLNKALKKKEI
+SKLINTSFRKCGLKETVVFADKLLQNGFRLATRAGISIGIDDMLVPPEKPAIIEAAEKEV
+KDIEQQYVSGLVTAGERYNKVVDIWGKAGDVVSKVMMDQLRKERTIDRHGNEVDQESFNS
+IYMMADSGARGSAAQIRQLAGMRGLMAKPDGSIIETPITANFREGLNVLQYFISTHGARK
+GLADTALKTANSGYLTRRLVDVTQDLVVTELDCGTADGSLMRAIVEGGEVIESLRDRILG
+RTAAEDVLHPETRAVLASAGTMLEEDLIDELEAAGVDEVKVRTALTCETRFGLCAKCYGR
+DLGRGGLVNNGEAVGVIAAQSIGEPGTQLTMRTFHIGGAASRAAVASSVEAKSNGAIGFN
+ATMRYVTNSKGELVVISRSGEIIISEHGRERERHKVPYGAILSVKADQAIKAGTILANWD
+PLTRPIITEYAGTVKFENVEEGLTVAKQLDEVTGLSTLVVIDPKRRGAAKVVRPQVKLID
+AQGKEVKIPGTDHSVTIGFQIGSLIQVRDGMDVGPGEVLARIPVEGQKTRDITGGLPRVA
+ELFEARTPKDKGMLAEITGTVSFGKETKGKVRLQITDPEGKVWDELIPKEKNILVHEGQV
+VNKGESIVDGPADPQDILRLLGIEELARYIVDEVQDVYRLQGVKINDKHIEVIVRQMLRR
+VVVENIGDSNYISGEQVERSEMLNTNDALQRDGKIPATFSNLLLGITKASLSTDSFISAA
+SFQETTRVLTEAAIMGKRDELRGLKENVIVGRLIPAGTGLAYHQARKVKDAMDDAERRAI
+ADAEAADMAGDTAEDTVTDAGEAA
+>tr|A0A0P0LKD7|A0A0P0LKD7_9BURK
+MSPLDMLKKINAMAEFNNWCGIEVTVAEPGFVEIQMPWRPEVGQYSGFLHAGLIGTLIDT
+ACGFAAGTVAGPNLLAANFSVNCLRPAVGQKFIARARVVKPGKAQVFTSCDLFAVDAEGE
+KLVANGQTLLTVVQAA
+>tr|A0A0P0MB94|A0A0P0MB94_9BURK
+MVHSIQLPHVYESFVAKPFTPNIGATLHGLDLSQPLSDLAQTELKDALARFEVIFFRDQV
+LTPAQQVAFTRSFGQVNEVKAFFPRVESQPEIEIVESTAERPAANNNWHSDITWQANPPI
+GTSLYAQVIPASGGDTVWASMTTAYEALPADFKAYLETLSAMHTWEVTGWTEYLLRQDAT
+GEQLQAARAKYPPVTHPVVRVHPVTGKKILYVNPTFTTHIHGLPRTQSDALLAQLFGLIT
+APEVQARFCWQPHSLAVWDNRSTQHYAVADFYPQHRKLHRVTFTADQAF
+>tr|A0A0P0LEW5|A0A0P0LEW5_9BURK
+MKTLATLLSFCATLAACGGGGGGAPSSNTNSKSVALSAQNYDVAATEVMASSVAVSASSG
+ITESFIGADVQTPLPFTHFVQSHLTQLIKNWRSSPTVLVGAELTESIPCSSGTLSITYND
+LLGNEVPDAGDYLTLSANNCSLYGSKLNGEMTITFNRYTETSFTDFEAFVTAKSSQFVSE
+TNGVATSSNGSFDMNLSAKMVLNSNGSNQLLTDLKMDIASMTYNITSAGSTKVYEYKNYV
+LRNTTYNNQVSQSINGSINIPTLGANTATIETIKNFVSPAISSPGSRLPYPTDGIALVTF
+KQGGTIRATANGTSSALVELDQDGDGKFETSKPVPWSDIL
+>tr|A0A0P0M7K8|A0A0P0M7K8_9BURK
+MRSKFRHVALFGKYHTTAHGGALESSRRALDDVAQFLTRQGCDVVLDQETASHTGLNRYP
+ALEMTDIGKQCDLGLVIGGDGTMLGIGRQMARHGLPLMGINQGRLGFITDIPLQSYQDVL
+QPMLQGHYQAEDRSLLQAQVMRDQRCVFSALAMNDVVVNRGGTSGMVELRVEVDGHFVSN
+QRADGLIIATPTGSTAYSLSVGGPLMHPGIGGWVMAPIAPHTLSNRPIVLPESSEISIEI
+VAGRYVSANFDMQSLADLILGDRIVVNRSEHTVRFLHPSGWNYFDTLRKKMHWNGGD
+>tr|A0A0P0M9Y5|A0A0P0M9Y5_9BURK
+MNVGMTRARRKLLVGDSSTLCRHSFFGELLAYVKGVGGFRTANEVAIEA
+>tr|A0A0P0LCP1|A0A0P0LCP1_9BURK
+MNPLNPKKLLLTKWTAVKPVAKQKHFLVSRVIQPVEPTNPIEQVEIEAVFSKATKIVAWR
+DLQDDSVWRQGWV
+>tr|A0A0P0M6L2|A0A0P0M6L2_9BURK
+MTLTEPLWIEIALQTPAHSQVGGLLSYRSQQALQPGQLVRVPLGRRDLLGVVWSVSSAAP
+DLPPSSVRDVSSVLQDLPPLGDAWRQLVQFSAQYYQRSLGEVALSALPPQLRDLTSEQLA
+RRLKKQNTERAVQTTPGPALSPEQSAVLDQMASGSGPFLLFGSTGSGKTEVYLQAVERML
+ATDPQAQALIMVPEINLTPQLEERVRARFGSEAVVSMHSGMTPAQRLKAWLAAHAGHARI
+VLGTRMAIFASMPHLKLIVVDEEHDPSYKQQEGARYSARDLAVYRGRLQNAQVLLASATP
+SLESWHHSRPAHAEDPGGRYQRLLMPSRIGTGLLPKVRRVDMNKQPRRTILSAPLVAAIQ
+ERVERGEQCMLLLNRRGYAPVLHCADCGWKSECKHCSAFRVFHKIDRTLRCHHCGLTERV
+PRACPECGNADIAPIGRGTEQLEEHLGELLAHVLRPDGTPVRIARIDADTTRLKGALESQ
+LAQVHSGEVDVLVGTQMIAKGHDFRRITLVAAVNPDTALFSSDFRAPERLFALLMQAAGR
+AGRDAAQSATSEMWVQTFHPTHALFEALKQHDYPAFAASELAERTAADLPPISHQALLRA
+DARSQEAAQALLNAARETLEAQLSADPETADLVLQVSVYPAVPMSMQRVADVERAQMLLE
+SPNRMALQKMLWHLHGVLHQMRSQPEHKGVIRWLVDVDPQAI
+>tr|A0A0N7J883|A0A0N7J883_9BURK
+MEFISLLFILATGIHWLNTLGQRKRTALLAEQLRPFHIEKNMAQLTGAYMRALGESDPER
+QQHILQLQAAAEQQLASEFQHLAREFAKLPAPVSRGFKLALPYIDQLSPKATFDMRRLLE
+VHAQGIERTVRNTQGLAPKARSFRMMGEMFLMQHSCHWFCRSKTIASARMVAQHQTRYEQ
+ALDAVSPETRQAYLDVVQG
+>tr|A0A0P0M951|A0A0P0M951_9BURK
+MNKIFSSAAEALKGIVADGQLIGVGGFGLCGIPEALIAALRDSGVQNLTAISNNAGVDDF
+GLGLLLQTRQIKKMISSYVGENKEFERQYLAGELALEFTPQGTLAEKLRAGGAGIPAFFT
+KTGVGTLVAEGKELREFDGETYVMERSLVPDVSLVKAHRADKSGNLQFRYTSRNFNPAVA
+MAGKMCVVEVEEIVETGEMHPDSVHLPGIYVHRIVLNKHPEKRIEKRTITEKAGV
+>tr|A0A0P0MBR2|A0A0P0MBR2_9BURK
+MELLIVSLASLLAGLIDSIVGGGGLILLPALFATFPGAAPATLFGTNKSASIWGTAFATV
+QYSRKVVMPWRSLLPAAGAGLVGSIIGAWVVTQVDPALFRKALPFLLAILLVYTLAKKDM
+GRQHAPRFAGPKEAWIASGIGLTIGFYDGFFGPGTGSFLVFAYVRLLGYDFLNASASAKL
+INVATNFSALMLFAYQGHVWWHLALAMAVANIIGSLIGTRLALKHGAGFVRQVFIFVVLA
+LICKTAYDTWLR
+>tr|A0A0P0M8Z1|A0A0P0M8Z1_9BURK
+MFNRLISNDLPRSRLLAAVLLMILLGLAFAPFLFPGVKALSVAAKVLIFVVLVVGFDLLL
+GYTGIVSFAHTMFFGIGAYGIAIASNTWGPTWGSIGLGFVLSMGLTLVFSLAIGLFSLRV
+RAIFFAMITLAVAAAFQTLASQLSDFTGGEDGLSFKLPELLSPSTEFSDEPFFGVSLDGR
+LLSYYLLFVLALGMLLAMLRIVNSPFGRVLQAIRENEFRAEAIGYRVVVYRTLSSVLSAL
+FACVAGAMLAVWLRYNGPDTSLSFEIMMDVLLIVVIGGMGTVYGAAIGSVLFLLAQSYLQ
+DLLRLASESAAAWPLLSALLSPDRWLLWLGVLFVLSVYYFPTGVVGRLRARTALKRSAPK
+SGLEESV
+>tr|A0A0P0MBW7|A0A0P0MBW7_9BURK
+MNRIDEIISVLDADNSLELGQSPWHKEIDHDRYEIRQVDWGRLFPNSKPQDRSPDNDWEI
+YGDDWEIDSETPYEIFEEGSDQDASKPEEWDVCAWYQPIHFHGYDWGIFIKEECLKRLAK
+KIYIETGIVGASLNSSQRTIFTKGLLRTAFSVFYHHELYHHKTECLGLRLHAVQRRSSYL
+PYFNNVYKVAAGTDLQLEEALANAFMYRDVGESLWVSDSLKKAAQSYLQKSFPRNPPGYR
+LAPQYLTKKNFENGQHQLFSKVLEGLQNPTHHQLYWNMAPRINHAFLNINSDIWTIVPRS
+KRSVVPVTATPLRTCSSDEIIKVCGKHGYNVTPGGKGSHIKLKKSGSPTLIVPGNRDNVS
+PGVTKNILASLGYKINQLPDLL
+>tr|A0A0P0LIB7|A0A0P0LIB7_9BURK
+MQKRQQGLTLIELMIVIAIIGILGALALPAYQDYSIRARVSEMLLAASGCKTAVNEAITT
+ASQADVSATLPQVCENQTSKFVSRLSADANGVITVVGNHEALRGNTSASANSISLTPIQT
+GSTAVNGSTDGGKPIASWRCGPAATNALPLKYLPASCKAS
+>tr|A0A0P0M7Z1|A0A0P0M7Z1_9BURK
+MRCRCGRRLWGCSGICIFIKATKYFKHLIIMADIHINSFKSAKLDIFSQTNVYLSSATGY
+FIKHNERFYLVSNLHVVSGKNPQTGKNIRTDCAIPGFIEAYIQATTNKTESTIELIEKKI
+SIPLYKKLPDDSQEYDIHSPLWLSENKKKFDIALMADSSTRCNKDKPGDGWLRMSRHHGH
+SNRQVQVARCTSTSAEKNDTKFTAS
+>tr|A0A0P0M9S6|A0A0P0M9S6_9BURK
+MDIKVKSSMVAAALAAVGASACCAGPLILLSLGIGGAWIGNLTALEPYRPIFVALVAVFM
+VMAWRRLYREPTCAPGDVCAIPEVAARQRTIFWVVLAMVCLMAASPWLLPFIF
+>tr|A0A0P0MB79|A0A0P0MB79_9BURK
+MKRTYQPSKTRRARTHGFLVRMKTRGGRAVINARRAKGRKRLAV
+>tr|A0A0P0M7T7|A0A0P0M7T7_9BURK
+MVVLFGTLLMWLEWLTKPCSAVTPCARLFVLDTGGSPRQWTMFYTPFDSPHPRAMIPIPV
+LTRS
+>tr|A0A0P0MCE6|A0A0P0MCE6_9BURK
+MSLFDLSTLTEFTGTERYYRISRRHLLTDGTKYLAEQAQCFWMMDAIASHLMEIGTADWF
+VVVKTMVKNAAAVMVYEDGNGHEHARQEIPYTDFPLAEITLYACWDGEHWVIMLPSEY
+>tr|A0A0P0MBG5|A0A0P0MBG5_9BURK
+MNDWPLRRQQILQLKTLSSSGRLRIVCTRATTFVAHALQTHVSALGFAVRIEQEMPVDFH
+DDLYLVICPQMFSRLPPRERRIVFQMEQSVHPRWFTPDYLNILYNSMAVFDYSVQNIQFL
+IQQGIPSYMIFHVPLSPVHNYPGADFSRALSVAEHADACDVLFYGDWKNKRRQAFLKVLS
+EHFDVRAERSLYGHDLWHAMAHAKVVVNIHYYENALLESTRICECLSLGARVVSETATDQ
+GQHPDWEDRVVFTQINDAQAMVKAIHQCLQQTHVAASNLQERPYRMGPSIKTAFEALNLL
+TDR
+>tr|A0A0P0MBJ5|A0A0P0MBJ5_9BURK
+MKLVTAIIKPFKLDEVREALSGIGVQGITVTEVKGFGRQKGHTELYRGAEYVVDFLPKVK
+IEAAVSDELVERVIEAIEAGARTGKIGDGKIFVYDLEQVVRIRTGETGAEAL
+>tr|A0A0N7J8S6|A0A0N7J8S6_9BURK
+MMTLTLGHFLSLGAMLFALAVIGIFLNRKNLIVLLMAIELMLLAVNMNFVAFSHYLGDMH
+GQVFVFFILTVAAAESAIGLAILVLLFRNQNNINVDELNSLKG
+>tr|A0A0P0M858|A0A0P0M858_9BURK
+MFQTAQRPSGRSFLIDAIKAAACLLIVMHHLAFYGPMSDVVAAAWPGVVNWLFDHGRLAV
+QFFLVCAGFLTAGSMAQYESLALPDALKLIWQRYLRLAIPLLAALSFTVLVTEWVRPGFE
+HTSLSAPPDWGQALAHVVLVQHLLDLEALSAGIWYVAIDLQLYAMALGCLVVLRSWPSRG
+HAVHPSDPVVDAQAGGDARRWVLWLGLVCASLWWWNRDADLDDLGVYFWGSYGLGLLAWE
+ARRQAFWVKGNALARLWVPALVLLLVGCVAWWLEPRPRIAVAWGVAVLLVLVPESWFAGE
+AVGRSRWRPALQWLSGVSYSVFLIHFGVCLAVNAAVTAQWPAALWANALGMLAALLLSLL
+LGDWLHRLVERHPPTVWRWWFWVGTFKASVALALLMNPMV
+>tr|A0A0P0MAR6|A0A0P0MAR6_9BURK
+MKILVAIAFLAILVSLGSALMYMMRGSAPPAEGQSPKKGNMATALAFRVGFSIVLFICVL
+LAWKMGWIQPTGIPPGA
+>tr|A0A0P0LTD2|A0A0P0LTD2_9BURK
+MSYENIEVRTEAGQVGIITLNRPKALNALNGALMDELGLALKAFDADEAIGCIVITGSEK
+AFAAGADISAMAKFNFHEVYKNDFITRNWETIRSIRKPVIAAVSGFALGGAASWP
+>tr|A0A0P0LMN1|A0A0P0LMN1_9BURK
+MFFRPTLYRRAEFWQGFRDLAPQAPGVAAWGLMTGVAMVKSGMSVFEAVAMTMLVFAGSS
+QLASIPLLVAGAPAWVILATGFCVNLRFVVFSLHLRPYLMHLPRWQRMCHGYFTADISYV
+LFTRRYPAPGVSDAERTGQEAYLAGNYFLNWGSWIVASLLGVGLANLIPPEWGLGFAGIL
+CLLGIQCSLASSRMRMLSAAVAGVAAVVAYSLPLKLNIVVAIAVAVILCLTVEKIRPAPK
+AAA
+>tr|A0A0P0LFA8|A0A0P0LFA8_9BURK
+MNKANNTAEDAEGPAPVRKPSKGIYMLPNMITLAALFAGFYAIVMAINGRFDLATVGIFS
+AMVLDSLDGRVARMTNTQSAFGEQMDSLSDMVSFGAAPALIAYVWTLKELGRWGWIAAFV
+YCACAALRLARFNVNTGVVDKRYFQGLPSPAAAALVMGFVWIMFENAVPAKAVSWGMFAV
+CLFAGLTMVTNVPFYSFKDMHMKKSVPFATLVLVALGIAAVNIDPPTVLFGMFVAYGLSG
+YVVYVWRKAKGQPTSMISTSTDEPDERGLHQ
+>tr|A0A0P0M6F7|A0A0P0M6F7_9BURK
+MKTRAFQQVDVFTDTAFLGNPLAVVLDGEGLSDAQMQAFARWTQLSETTFVLPPTPEGAA
+GRADYRVRIFTPGAELPFAGHPTLGTAHAWLKAGGQPRQSGQLVQECGVGLVSLTSVDGR
+WAFAAPPLQRQTPAPALLAEVLAALGLHADEVLAAQDLNNGPHWMGILIDSVDSLLALEP
+DHAALKRLNTKVGVAAKRRGSADGLIRRANREARAFASSTRITNDPTDLEVRAFAAPVGI
+AEDPVTGSLNASLAQWLMAEGHMPTRYSARQGTALGRAGQVFLSQDESGQVWVGGDVVGC
+IKGTVTL
+>tr|A0A0P0MAY8|A0A0P0MAY8_9BURK
+MKKRHLLRGLCAATLAVASLGLAQAQSYPSKAVRLIVPFPAGGATDLFARTLSQKISEKL
+GQPLVVENRPGAGGTLGSDLAAKATPDGYTLLLSTSSTHSIGPNLNPRMPYDAVRDFTPI
+AHLGNAPSIMLVPNNSPAKTVKEWVDYAKKNPGRLNYASSGNGTIVQLSAELFKAQADVF
+VVHIPYKGTALAIPDLISGKVDVLFDSLPTGMPHVRDGRLRALGVTTLKPTALAPGIPAI
+ADVLPGYESNTWFGFFGPKNLPAEVVTRINSAANQVLKDPEVMDKLLRFGIEPVGGTPAQ
+FTTMLASESAKWKKIITERKITLD
+>tr|A0A0P0MB39|A0A0P0MB39_9BURK
+MQRRNWIAAVAALLAVSPFGASNAFAQTWPTRPIKLVVPFPPGGLIDNMARLVAPKLALE
+LGQPIVIDNKPGAGGNLGAAEAARAAADGYTLLMASPPLTISPALYTKLPYKPEQIAPVA
+LLGRVPNVLMVNPASGINTVAELTALAKSKPGQLNYASNGQGTSLHLSAELYKSQSGAFV
+THIPYRGAAAGLTGLMAGEVNMMFDNLPSALGLINGGKLKALAVTTPQRSSALPNVPTME
+EAGMKGYQVFAWFGVAAPAGLPAPIAQKLEQALERVASQPEVKAAMLKAGAEPAWANAQG
+LASFMQADMAQWKKVAAFAKITLD
+>tr|A0A0P0LEJ8|A0A0P0LEJ8_9BURK
+MTTILLVDDEDLLREGVREILEFSDYSVIEARDGMEALELFAVNNVDLVISDIVMPNMDG
+VDFVSRLRESFPAVPILTISGGSRVVSARFGLDSALLSGANDSLTKPFTAVQLLEKVKAL
+LEVN
+>tr|A0A0P0M6Q7|A0A0P0M6Q7_9BURK
+MMDRLFNAYIASDLTPRDLTPPSAGKIGLGSVTAWVVLIFFAGFLSWSVLAPIDEGVAVE
+GSVTSLGNRKSVQHHLGGVVSKILVTEGQTVEQGELLLLLNPLSSQANLAGAQLQLINLL
+ASESRLRSERQDLAQIEWLRELSKLGADPSALEAKNVQTKMFEARKAEYETSLRTKREQV
+ALLKSDAQNAIKLANEGLMPKMEANNMMREALRNESELSQLVNARLSKIGQDLSEILAQK
+EAFQAKVSSLSFDRNQYDIRSPVSGVISNLRVNTVGGVVTPAQTLMEIVPGEQNLVIEVR
+VPTHLIGKIKQGMEANLRFVAFAERNTPIVMGEVILIGADKVASDKIGDPTHVEAGRADY
+YLVRIAIRDDLNQKLPNKTLQPGMPVDVVFKGGERTFMTYLFKPLTDQLSKSFLN
+>tr|A0A0P0M930|A0A0P0M930_9BURK
+MAGHSKWANIQHRKGRQDEKRQRIWTRVVREIMVAARTGGGDVSANPRLRLAIEKAKAAN
+MPADTIKRNVDKATGNLEGVSYEEIRYEGYGIGGAAIIVDTMTDNRVRTVAEMRHALSKH
+GGNLGTEGSVAFQFKHCGQLIFAPGTSEDRVMEVALEAGAEDVLTDAEGAIEVLTTPAAF
+EAVKNALEAAGLVAEMAEVTWRAENSVSLAGDEAAKMQKLLDILEDLDDVQNVFHNAEFE
+D
+>tr|A0A0P0M8F6|A0A0P0M8F6_9BURK
+MFDTIRNNSKILMGLLVLLIIPSFVLFGVDGYSNMNDRGAVVAKVGDLEITQQEWDAMHQ
+QEVDRIRAATPNLDAKLLGSEEARYASLERMVNDRLIAVAAEKQLLVTSNQRLANYLQQD
+PSIASLRGPDGKLDMERYRQLAASQGMTPEMFEARVRRDLSNQQVLSSLQASAVASQRQT
+DTALQAYLQRREIQIQRFEPAAFAAKVQVTDADLEKFYQTQSERFRSPESADVEYLVLDA
+AALAKTIQLPEQDVKTYYEQNLQRLSGQEQRRARHILINAAKDAPAADREKARAKAEALL
+ADVRKDPKAFAELARKNSDDPGSAANGGDLDFFAKGAMVKSFEDAAFALKKGDISAVVET
+EFGFHIIQLTDIKAPATPSLEAMRPKLEADLREQQAKRQFAELAETFSNSVYEQADTFKP
+VAEKLKLTIQQAQGLSRAPTPATAGVMASPKVLEALFSEESISKRRNTAAIELGNNTLVS
+ARIVNYRAAAVRPFAEVKESVRTQFMLEQAQALAKAEGQARLNAWKAQPAQAQVGNAVVV
+SRDQTQGQPQAVIDAALRADPSAMPALVGVDLGAQGYAVVRVNKLVPREEPNSQQQAQSR
+EQFARLLGNAEAGAYLAHLRSQFKVEIKVNKPKGRAAS
+>tr|A0A0P0M7S2|A0A0P0M7S2_9BURK
+MNQAYICDAIRTPFGRYGGALSSVRTDDLGAVPLRALMTRNPNVDWAAVTDVLYGCANQA
+GEDNRNVAHMSSLLAGLPIDVPGATINRLCGSGLDAIGTAARAIKAGEAGLMIAGGVESM
+SRAPFVMPKAESAFSRANAVYDTTIGWRFINKLMKAQYGVDSMPETAENVATDYKIEREA
+QDLMAYNSQLRAVAAIKAGHLAREIVGVSIPQKKGDAIIVDTDEHPRETSLEALAKLKGV
+VRPDGTVTAGNASGVNDGACALLLADEASAAKNGLTPKARIVGMATAGVAPRVMGIGPAP
+ATLKVLAQTGLTIDHMDVIELNEAFAAQGLAVLRMLGLKDDDARVNAWGGAIALGHPLGA
+SGARLATTAINRLQQTAGRYALCTMCIGVGQGIALIIERV
+>tr|A0A0P0MAI0|A0A0P0MAI0_9BURK
+MSMNSPEQSQLGKSSAYVDQYDASLLFPIPRATKRAEIGVTGQPVFFGADLWTAFELSWL
+NTKGKPQVALAHITVPAESTHIVESKSFKLYLNSFNNTRLESADVVRDMIRRDISAAIWH
+GGNMQASVGVKLLLQEQFDAEPVHELDGLNLDRMDIECSRYQPAPDLLIANQDEQPVSET
+LVSHLLKSNCLVTGQPDWGSVQITYSGPQIDQAGLLQYIVSFRNHNEFHEQCVERIFMDI
+WTRCKPTKLTVYARYTRRGGLDINPWRTSAPGALPPNVRTARQ
+>tr|A0A0N7J880|A0A0N7J880_9BURK
+MNRYPVWKYVILVVALLLGVVYTLPNFFGEAPAVQVSSAKATIKVDTTTLQKVEDALKSA
+GATPQSVVLEGTSVRARFQTTDQQLKAKDAIQKALIPDTADPQFVVALNLVSRSPDWLTA
+LHASPMYLGLDLRGGVHFMLQVDMQAALTQRIESLTGDLRSMMREKDIRHGGIARNGQSI
+EIRLRDAQQQDVAKRLITDQFADLQSREVNNGPDFSLVVSIKPEAARKVQEQALKQNITT
+LHNRINELGVAEPVIQQQGLDRIVVQLPGVQDTAKAKDILGRTATLEVRMVDESTEARAA
+EQAGGLVPFGTERYLERDGRPLIVKKQVVLTGDNLTDAQPGFDSQTQEPVVNLTLDAKGA
+RIFKDVTRDNVGKRMAIILFEKGKGEVVTAPVIRAEIGGGRVQISGRMSTMEANDTALLL
+RAGSLAAPMEIIEERTIGPSLGAENIAKGFNSVTWGFLVIVAFMVIYYAMFGLFSGIALG
+VNLLFLVAILSMLQATLTLPGMAAMALALGMAIDSNVLINERVREELRNGVSPQAAIHAG
+YDRAWATIFDSNITTLIAGVALLAFGSGPVRGFAVVHCIGILTSMFSAVFFSRGLVNLWY
+GGKKKLKSVSIGTVWRPEAGTAVKAD
+>tr|A0A0P0LF14|A0A0P0LF14_9BURK
+MELFKIRKDIPFMRHALVLNAVSFVTFALAVFFLFSRGLHLSVEFTGGTLMEVSYSQPAD
+LQKVRGTVATLGFGEVQVQNFGSARDVMIRLPAQKGVNSAQQSEKVLSALKANDPDVTLR
+RTEFVGPQVGDELAEDGLKALAFVVIGIMIYLAIRFEWKFAVSAIIANLHDVIIILGFFA
+FFQWEFSLAVLAAVLAVLGYSVNESVVIFDRIRENFRRYRKMNTVEVIDNAITSTISRTI
+ITHGSTQIMVLSMLLFGGETLHYFAMALTIGICFGIYSSVFVAAAIAMWLGIQREDLIKP
+IKKDNDPNDENSGAVV
+>tr|A0A0P0LHE8|A0A0P0LHE8_9BURK
+MTPNSADRSPSDAPARRPWHPLSLLLVLALWLSTAGNLPLWRALWALTDNHGLRTSLGLL
+GFGLIVMAATTVLLSLLVWPRWRKPVGVVLLLVAVANSYFMHTYGVVIDPTMMANTVQTD
+VREVRDLLSWSLLAVLALGVVLPGWWWWRQPVQQLPTRRLLGRQLGLAGLALLLMLVVIW
+ASFQDLASTMRNHKSLRYMLNPFNTIYASTRLVVGQTAQVRLPLQPIGQDAALARTSGAG
+EAPPLIVLVVGETVRAANFGLGGYERDTTPQLRQLQGSGELAYFSNVSSCGTNTQVSVPC
+MFSHLGREANAKNDIPYENLLDVLQRAGMQVLWLDNQSGCKGVCDRIPNASTRELKDPVL
+CPDGECFDEIMLRVLPERLAQLEKAGASGSGSAGTVVVLHQMGNHGPAYYKRTPPDMKVY
+QPECRTNVLQNCPPQEIVNAYDNAVRYTDHLLSQTVRWLKSQPRPTAMLYVSDHGESLGE
+KGLYLHGMPFVMAPKEQTHVPMALWLSKPMQSQLGWDGACWKKQVAEAVSHDHYFHSVLT
+LARVKTRMHKPELDVFSACASRPA
+>tr|A0A0P0MA58|A0A0P0MA58_9BURK
+MDLIIWRHAEAHEAEPLEDDMQRALTPRGRKQAERMATWLDAQLPQGTRVLSSPAVRAEQ
+TVRALGRKYKVRDALSPGASVTDVLETSGWPEARYPVLLVGHQPALGGLVAQLMGMPEAA
+CAIRKGAVWWLRHRIREGQSQTVLMAVTCPERI
+>tr|A0A0P0MBM6|A0A0P0MBM6_9BURK
+MDPSLEQARQAFLAGIEQFERHDFEAAAALFEQALQLAPGRPSVLMNLGVSCVHLGRFER
+ADVCLRQALAADDSQVDAWKAWGVTHMALGDWTQALHCHDKARALGADGADFCLRWGQCL
+AHQRLLPQALLAFEQALTHAPELAEAWSQMAHVQRDMGQTAEAITGYQRAMQLGADPELH
+RYYLAALSPQQPMVNAPAAYVEKLFDQYADDFEAHLVGQLGYQGHRVLLQNLPTDSAARF
+ERVWDLGCGTGLCGSLIRPRADHLVGVDLSSAMVAKAKALGLYDSLHALELVDFLKQGTE
+QADLVLAADVFIYVGHLKAVFEALSPRVRSGGWLAFTVEEADPGMAVQLHRSLRYAHALP
+YLEALAAQHGWHWARVHRAPLRLDQAQPLMGAYVYLQKT
+>tr|A0A0P0LEU4|A0A0P0LEU4_9BURK
+MPATLEAESTLTDRYQTTVPETVRRALRLLKRDKIQYVIRPSGEVVLTRVSDAEADDPVL
+GQFLGFLAHDIATHPERLHSVSSPFVQRVQSLVGEVEVDLDAPLSADDE
+>tr|A0A0P0LGL6|A0A0P0LGL6_9BURK
+MTERLAQIRYDELAPEVRPLADDILKVSSAALGGPYNALLRSPDMARRAFDFLDYLRFKT
+SVNKRLNEFAILIQARISNAQYEWWAHETIARKAGFSDAVMRDLQQCQRPSSMQEDERLV
+YDFCIQLSLNHRVPDGLWQEAVASMGEQAVVDLTVLSGTYVMVSMLLNATQVGIPGGGAE
+PLQVLSPLEIRQRLLA
+>tr|A0A0P0MAF2|A0A0P0MAF2_9BURK
+MSASLATVAYIGATILFILSLGGLSNQETARRGNLYGMIGMSLAVLATIFGPQVTAEGIP
+MIVGSVLVGALIGLYAARKVQMTQMPELVALMHSMVGMAAALVGYATYVDPEASKNLEGA
+AHAIHAGEIYIGIFIGAVTFSGSVAAFGKLSGRIGGSPLLLPARHWLNLVGLIAVIYFGR
+EFMNAQTVEEGMVPLFIMTAIALLFGIHMVMAIGGADMPVVVSMLNSYSGWAAAATGFML
+SNDLLIVIGALVGSSGAILSYIMCNAMNRSFISVIAGGFGTTAAAPKPTGEAAEPQGEVS
+PILAAETAEMLRDAKNVIIVPGYGMAVAQAQHTVFEITKTLRDKGVNVRFGIHPVAGRMP
+GHMNVLLAEAKVPYDIVFEMDELNDDFPDTDVAIVIGANDIVNPAAQDDPTSPIAGMPVL
+EVWKARTSIVMKRSMASGYAGVDNPLFYKDNNRMLFGDAKKMLDEVLMVLKA
+>tr|A0A0P0M6E7|A0A0P0M6E7_9BURK
+MAKAEPEKRKIQMADIARLAGVSTATVSRALNGSSLINEETRLRIIELARSLNYTINLGA
+QNLRKGDNTTIGVVIPYDSANRQSISDPFFLGMLGSLADALTDRQYDMLLSRVDADHLDR
+VSALYDSGRVGGIIVIGQWGHHDQLNELARQRLPFVAWGAQLPNQLYCSVGGDNASGGQL
+AAEHLLGLGRQRIAFMGERSLPEPEKRYAGYQKALRKAGMKMDPALYIPSSFAPLAAQDA
+LRMHLDRHGLNFDALVAASDLIAISALGVLRERGYRVPEDVSVVGYDDVEPAAHSFPPLT
+TVRQPLDLAGVHLVDSLLRIMAGEKPESDLLPTKLVVRESTKAV
+>tr|A0A0P0LN10|A0A0P0LN10_9BURK
+MMVFNLLQYPALVSQRRSIHRRWTSWAGLLAGSLVAVGVVLQVQEKQERLSQERALLDSR
+LQLAQNQLASDKALQAQRNTWQQQDAHLQLLIAQQRRWEALFQALLQETGPDTVQLQRLQ
+FDAQTLELHGQAKDAQRMALARARLSLPGLAPSPEVAWMLVSMVNASVTDKELAPAALEF
+VWRTDWPQVGSAALSAPPVQNPQSDRLKERP
+>tr|A0A0P0MBQ9|A0A0P0MBQ9_9BURK
+MTRHSALQTIRDEHASLAAMLQSMRLMVQKGPGDNRRQFFDVLRGMLFYIDEFPERLHHP
+KESNLLFPKVVKLAPKVMGAVDKLERDHMRSEKAARDLQHLLLAWDLLGPSRRTEFEEAI
+GQYIDAYLEHMNLEENVILPEAERCFSDDDWRLLNEAFAENADPLTGHYRPAEAYERLFS
+LIVTRAPAPIGLG
+>tr|A0A0P0LAH5|A0A0P0LAH5_9BURK
+MPCAAGVEGFLADEVHAITGLTGHDLLTGRGGVMARASWRDAMRINLHSRLTQRVLVQLS
+VTDYRNENDLYNAASDVAWEIWFTPKQTFKIDITAQHSPLTSLNFAALKIKDAVADRFRA
+KRGERPNVDTSWPDVRIYAHLTPETATLYIDTSGEPLFKRGWRTDKGDAPLKETLAAAMI
+AASGWDGTTPLYDPCCGSGTIPIEAAQIACGIAPGLQRRFGFEKLLPFQNHVWQGLIEEA
+RDLEHEPTAPVFGSDVAFRMVDFSERNAERAGVSGVIEFRGGDALQRMPPSETPGVMLLN
+PPYGERIAAAGVAGRGRDNFQPGALASSRAATPSHHRETAQTDDGGDFFAQLASHWKKNY
+SGWSAWMLTPDLKLPSKMRLKESRRVPMWNGPIECRLFRFDMIKGSLKRVSGEGTSSPAG
+TTGTDTSGTSAP
+>tr|A0A0P0M8U2|A0A0P0M8U2_9BURK
+MKNIHKSVLIWYSPEEMFRLVTDVARYPEFLPWCDRASVLETDPQGMVAEVGISLGGIQQ
+TFTTRNTHEEGRSVGMSLVKGPFSNLSGMWRFTPVGDGTQRACKVELDLQYGFSSKTLAA
+LVGPVFDKIAASLVDAFVKRAEAVYG
+>tr|A0A0P0MBF6|A0A0P0MBF6_9BURK
+MNSLDGIRVLDLSRVLAGPWCTQTLADLGADVIKIERPGTGDDTRTWGPPFLKDAQGQDT
+AEAAYYLGANRNKRSVTCDIAQPAGQALIRELVRHCDVFVENFKVGDMARYGLDYASLSA
+LNPKLVYCSVTGFGQTGPYRERAGYDYAVQGIGGLMSVTGERDDLGGGPQKVGVAVADLF
+TGMYATVAILAALRHAERSGEGQMVDMALLDTQVAMLANLGSNYLVSGKTPGRAGNAHQN
+IVPYQVFEVMAPTGAAPGTRDHLILAVGNDGQFVKFCAVAGCPELAQDPRFAQNTQRVRH
+RDILVPLLEGILKTRTKADWLAALEAAKVPCGAINTLSEVFVDPQIQARGMVQDWQHPVK
+PNLKLVASPIKMSRTPVRQDLPPPMLGQHTAEVLAEVLGWDAEQLGPLRGKGVI
+>tr|A0A0N7J8F5|A0A0N7J8F5_9BURK
+MASKRIADEPAYVLHRYDWSETSLILEVFTRHHGRVALVAKGAKRPTSSFRPVLLPLQPL
+SLAFGSDGDIRTLKSAEWVGGHVMPTGEALLSGYYLNELLMRLTARDDPHPQLFEVYAAA
+VRLLASGDPDALQWALRGFELLLLKEMGLLPALNLQTLTLKPLSPTDSYALVPEAGLQWV
+SDDPRHALRGEQWLALHAALSSSSPFAALLRECADLLVQLQRPLRLLLNYHCGVGALRTR
+QMMLDLQTL
+>tr|A0A0P0M6X4|A0A0P0M6X4_9BURK
+MPTFSVKLDEQSRAKVQAAASQRGVTPHAFMVQAIELAVTRSEEEDALVQRALQARQNLL
+QTGVVLDGSAMAEYLKDKVRGGTRKRPAAQGLEKLLAPRS
+>tr|A0A0P0M973|A0A0P0M973_9BURK
+MPVKPQAESTKPAASGSAAEHQSVRTIKKYPNRRLYDTQSSTYVTLAEIKKLVMAASPMV
+VVDAKTGEDLTRSILLQIILEEESAGVPMFSEAVLSNIIRFYGHAMQGHMGSYLESHVQS
+FMDWQSKLSESSPALSPEVWAQFMQWQTPMMHNMFSGLANPSQNVMTQMQEQMQKQIQKN
+TEQLLGVMGLRT
+>tr|A0A0P0MBE7|A0A0P0MBE7_9BURK
+MFFGISDYGAFVAAIVVFLAIPGPGNLALITSTSKGGMAGGLMATLGVIAGDQMLMWLAV
+AGVAAVLTTYPAAFVAIQWLGAVYLAWLGWKMLVAKPGDAPVLNIRPRQYFQQALAITLL
+NPKAIVFYMAFFPLFVDPQTHLGLISFAVMAATIAALTFLYGLGMTLLTHHLAERMRANP
+KVGRVLEKVAGIFLVGFGIKLAISK
+>tr|A0A0P0LHF7|A0A0P0LHF7_9BURK
+MNRRYFSRLLSWPSVVLGYLAMQTSQASAKPAAVQAPSKQAADEHHLATMDRYAPLIGGP
+KITIGMLVYPGMFLQDLVGPLTVFEALMNKEIHLLWKDLEPVGNESPGPAALIPVKPTTT
+FAQCPEQLDVLFVPGGVPGTFTMMEDPEVLAFLKAKGQTARYVTSVCTGSLILGAAGLLK
+GYKATSYWDTRDVLKELGAIPTRGRIVVDRNRITGGGVTAGIDFGLKLVALLKSRVYAEA
+VQLYLEYDPQPPFNAGSPEKAQPLARQFLKDMFAGMRANAFATAKRAMQRLLSGPT
+>tr|A0A0P0LQI8|A0A0P0LQI8_9BURK
+MGLALEQARQAAAAGEVPVGAVVVKNGQVIATGRNAPIASHDPTAHAEVVALREAARIMG
+NYRLDGCTLYVTLEPCAMCSGAMLHARVDRVVFGAPDPRTGVAGSVLNLFGHPQLNHQTQ
+VTGGVLAEECGQLLKDFFRPKRMNPQPLREDALRTPDEAFTDLPDYPWQPHYVNDLPSIA
+GLRMHYLDEGDANAPLTWLCLHGNPAWSYLYRKMIPVWLAAGHRVVAPDLIGFGKSDKPK
+KDSFHQFETHRQSLLDLIERLDLQRVVLVVQDWGGILGLTLPMAATERFKGLLVMNTTLA
+TGEQPLSAGFLAWRDWCQSQPQFDVGKLFARGNRSMTPQETDAYNAPFPDKGFRAALRAF
+PPMVPEFADSPGAGISRQARDFWRNEWQGQSFMAIGQQDPVLGEPVMRHLQSRILGCPEP
+MLLPDAGHFVQEQGRAIAEAAVRHFKP
+>tr|A0A0P0M8B1|A0A0P0M8B1_9BURK
+MKTAQEIRVGNVIMHGKDPMVVLRTEYQRGGRGSSTVRMKLKSLIANFGTEVVFRADDKM
+DQVILDKKECTYSYFADPMYVCMDTDFNQYEVEATNMGDALNYLEDGMELEVVFYNEKAI
+SVELPTSVVREITWTEPAVKGDTSGKVLKPAKIATGMEVPVPLFVSQGDKIEIDTRTGEY
+RKRV
+>tr|A0A0P0LRH8|A0A0P0LRH8_9BURK
+MQSSLAITALMMGVLGGPHCVAMCGAACAGLGQAAGERRAQALLAFQLGRLGGYALLGAV
+AAASVQGLGWLTTQSAAIRPVWTLLHLTALVLGLLLMLQARQPLWLDAAARRLWARVRAF
+NSRWGRAAPWIVGGLWAFMPCGLLYSALMVAALTSQPVEGAATMALFALGSSLSLWAGPW
+LFLRMQTLGDGAWGMRVAGLALASVSAWALWMGLVHDQAPWCVTP
+>tr|A0A0P0M9R2|A0A0P0M9R2_9BURK
+MRSQNRLLTALLGTALLCLSLVATAQKTIDLQGHRGARGLLAENTLPSFALALQMGVTTL
+ELDVVVTQDDVLVISHDPTLNPDITRDAQGRFLSNKGPDIRQLTFEQLQSYDVGRINPAS
+RYAQTFSAQKGQDGVRIPRLKDLFELVKAQGHSQVKFAIETKITPQRPDQTPDPERFVQL
+LLQEIREHGMSERVQILSFDWRTLQVVQKLAPGIPTVYVTAQLPALDNLGIKSGQPSAWT
+AGFQHAQHGSVPHMIKAAGGSHWSSFWRELDAQKVREAQSLGIKVLAWTVNDRQSMGQML
+DLGVDGLVTDRPDIAADLLKERGIRH
+>tr|A0A0P0LGW3|A0A0P0LGW3_9BURK
+MTQPSKTPRRHFLRASTALAASLSGMVFVGQAQAQAAPWPAKPIKIVVAFPPGGLTDAYA
+RNYGDYLSTRLGVPVVIENKPGAGAIIGIDAVAKSPPDGYTFVMSTSGTFWQNRVLYAKL
+PYNLDKDLTPVTVFPSGPLVVGINDKIPAKNMAEFVAWAKKNPTSMGTYAPGSYPHMLAD
+QTNRQQSTKIQSVHYRGEAPMWLDVASGQLQIAVGSYQAFNAVATRGVRAIGVTGSYRSP
+KLPDVPTLTEQGNTEKLVTLEGGLPLVAPAGTPEAILKRMADEAVAWSNTERAAKLRETF
+AIPNKPKNLAGTRKDWEAEVPVWIKLAVDLGIKLD
+>tr|A0A0P0MAK8|A0A0P0MAK8_9BURK
+MSVTELTLVQSILNTWLPSHEVRMFGSRARGKPKPYSDLDLVIMGDTPLPLSTLGQLQDA
+FANSDLPWRVDVVDWASTSPEFQSHIADHSVHISDW
+>tr|A0A0P0M7K4|A0A0P0M7K4_9BURK
+MIIPRRKQKSGQAGNWDTHPFLRSERVVLRVSPEELLMLEKHRKTHHFDNLAQYLRAQGL
+KPTPSATERKTYTALVGCTYELNKIGVNVNQIARHLNQGSPLDDEVRLVLAQIQEVAHEL
+LAQAKTGGAK
+>tr|A0A0P0M8D9|A0A0P0M8D9_9BURK
+MAFQQEPSFQHGQAARTAVLYCNLGTPSAPTAPALRKYLAEFLGDSRVVEIPKPIWWLIL
+HGIILRVRPAKSAAKYASIWTEQGSPLKAFTEQQAQSLGTALQERGHHVAVRYAMRYGQP
+SVPEQLSALKAEGVQRVLIVPAYPQYSGTTTASVFDAVYRWGLKTRLIPEMRFVNHYHDD
+PRYIAALAQTVREHWATHGRAEQLVMSFHGVPERTLQLGDPYHCECMKTGRLLAEALGLT
+KDQYKLTFQSRFGKAKWLEPYTEPTLVAMAGQGVKKVDVICPGFTSDCLETLEEIQQEAQ
+EAFLHAGGESFSYIPCLNNNAQWIAALADISMDHMQAWDLSAPDANALAASRARALAHGA
+KN
+>tr|A0A0N7J8A3|A0A0N7J8A3_9BURK
+MKNVSSLTRRTLALSSAAVLVASLVAAPLQAQAQSRKDTITLGMILEPTSLDPTMAPAAA
+IGEVVHYNILEGLTKINVDGSISPLLAESWKMDADGKAYTFKLRKGVKFSDGAPFDSAAV
+KFSFERAKDAKSTNKAKGAVFNNITHISTPDAHTVVLVLTNPDGNFLFRMGENTAVILHP
+DSAANAATRPVGTGPYKLDNWAKGSAITLSKWDGFRDANAIKVKKVTFRFINDSAAQVAA
+LLAGDIDGMPRFQSPQSLQQFQKDKRFVVEMGSTAGKGIMTINNRKKPFDDVRVRRALSH
+AVDKKAFIDGVFEGLAKPIGSHMAPTDAGYVELSNTYAYDPEKAKALLKEAGVQTPLNVT
+LTLPPPPYARKGGEILAAQLAKVGIVAKIENVEWAQWLGGTFKGNFDLTVINHVEPLDYM
+AYANPQYYWGYDSKAFRDLAAKHAATTTAKERTQLFGDMQRMIAKDAVNVFLFNATNTAV
+YRKGLKGLWSSSPIFANDMSAVSWQ
+>tr|A0A0P0M987|A0A0P0M987_9BURK
+MWPNESATQAFATQLAQGLNQWPGGRDARIELRGNLGAGKTTFVRHLLRAAGVTGRIKSP
+TYAVVEPHQAGSGDSTWPIWHFDFYRFNDPQEWEDAGFRDIFAGPGLKLMEWPDKVAGQL
+PPPDWVITLEAIDEDQRRVQISAGTHRGQQWLKAWTAAGAPEHAP
+>tr|A0A0P0LGU1|A0A0P0LGU1_9BURK
+MKNPSKTLDIVALGEAMIEFNQQLGQAPNEPPMYLQGFGGDTSNAAIAAARAGARVAYLS
+RLGTDRWGERLMDLWQNENVNTTRVLRDAQAPTGMYFVSHDAQGHHFSYARAGSAASHMQ
+PQDLTHWHDAIVSSQWLHLSGISLAISASACDTALAAMAHAQSHGTRVALDSNLRLSLWP
+LARAQACIRQAVGLCDLFLPSLEDMTALTGLTQAADIIDWSHAQGAAQVVLKLGADGAVA
+SDGHHQQKVPGHLVTAVDATGAGDCFAGNLLARLSVGDSLWDATAYANAAAALSVQGYGA
+VAPLPRQEDVLRHLNTLSKGSPT
+>tr|A0A0N7J971|A0A0N7J971_9BURK
+MNSPALNSQPNRPPLQGVRVLDLTRLLPGPMCTLHLADLGADVIKIEDLGAGDYASPAVR
+EMLNRNKRGMRLDLKQPEGVQLLLKLCETADVLVEGFRPGVMARLGLGYDVVRARNPRLV
+YCSISGYGQTGPLSQKAGHDLNYCGYAGVADQVGTPAGELALSNLPMGDLLGGTMPAVMG
+ILAALFDAQCTGRGRHVDVAIADGVLAHAVIPLAGLHSRGRVPAPGGDKLTGALPCYGLY
+PTQDGRYLAVGAFEHKFWDTFCALLGRPDLAEHHIPKTQALNDWVRREVAQAVQAHPLAH
+WAQVLAGADCCVTPVLKLDEAQQLPHFQDRGMWVQVQTAQGETMTQMAMPVQMSGYRFEV
+QRPAPLQGQHTRELLTAAGLDDAEIDVLCQRKVVG
+>tr|A0A0P0LI32|A0A0P0LI32_9BURK
+MASENKNSGVFAQHQAALAEGRFLIQLCGDCGQHIYFPREVCPHCGSNALALVAPTGLGT
+VYSVTTVRRKPDAGGDYNVCLIDLDEGVRLMSRVEMAPVDAVQVGQRVQARVVVDKGQGV
+VVFDPVDAVATAKPVPRGPAASAAVHSSSALKALRGSAAIAGVATFGCGEATGFTEMEVL
+ARAAHAAVADAGLKMSDIDGLCTASVLSTMWPMPVTEYLGINPRYINGTMLGGSSFVAHL
+LPAMMALQSGQCNAVLVCYGSTQRTSTFGRAEIAQARRVMDPQPYETPYAPMQPLSAYAL
+ATRRHMHEYGTTRRQLAEVAVAARAWAQRNPEAFMRDPLSIDEVLKARMVSDPLSVRDCC
+LVTDGGGAFVLVRADRARDLPKKPVYVLGNATANWNRQVSSMHDLTVTSASQSGRVAFAM
+AGLTPADMNVVQLYDAFTINTLLFLEDLGFCKKGEGGAFVEGGAIAPGGRLAVNTNGGGL
+SCTHPGMYGIFTVIEAVRQLRGEGGERQVQGAQTALAHGNGGTLSSQSTAILGTFETL
+>tr|A0A0P0MA07|A0A0P0MA07_9BURK
+MQLEQQEDQAQFKLKNASASIKERRRRGLTWYPVTITQEDIGFGGKVLLELERPAHRQDL
+HLFQVGAAAALFSGAPGYSGPDRPVVSGVVTRVRRNKLLLATTKEALPDWVRDGSSLDGS
+TLGIDLTFDEVSYREMNQALSAVMAAHGNRLAELRDVLLGARQATFREPQADDLLYPSAL
+NDSQLAAVRHVVTAQDVAIIHGPPGTGKTTTLVQAILETIRRERRVLVCAPSNTAVDLLT
+EKLAERGVNVIRLGNPSRVSDLLLKHTLDAGVMAHASYAKMHAMRQTAEQHRVAASERVR
+NFGFEERERRQWLREEARTLRQAADDLERFMTEDVLESVQVITCTLVGASHRHIRHLGFE
+TVFIDEAAQALEPGCWIPIAKGQRLVLAGDHHQLPPTVKSEKAAREGLRETLFEKCIQRQ
+PGTARMLKVQYRMHAHIMGFSSEKFYGGQLVAHPSVRDADLAAYDPRFDDPRFSHDLPVE
+FIDTAGCGYQELAIPESRSTANPEEAHLLLERLAQLLVLGEPTAADQRPLTIGVIAPYRA
+QINYLKDAIEDSAMLNDLLLQRRLSVGTVDSFQGQERDIIAITLTRSNAQGEIGFLSDIR
+RMNVGMTRARRKLLLVGDSSTLGRHPFFGELLAYVKGVGGYRKALGV
+>tr|A0A0P0LS14|A0A0P0LS14_9BURK
+MTKKRILIVDDSFVMRALLRGIVTSDPDLEVAGEATNGLEALQQVKEMAPDLVLLDIEMP
+HMDGIECLKRLRLMSKVPVIIVSSVAQAGSPQAIEARKFGAAEVIAKPSGAMSLDLNAKK
+GHEIVTASRRVLGLS
+>tr|A0A0P0M7E4|A0A0P0M7E4_9BURK
+MWPEAGHMALIMAAWVAVLQSVLSLWGSLSARRAGWQALARPLAVLQLVLIVLAFGALWH
+AFYVHDFSVKYVAQHSNTLLPTPYRLSAIWAGHEGSLLLWVLMLALWSVAVASFSKRLPQ
+ALVAQVLGVMGAVSVGFLAFILTLSNPFARQFPAPAEGRDLTPLLQDPGLVIHPPMLYMG
+YVGLSVAFAFAMAALLSGRLDAAWARWARPWTVAAWGFLTLGIALGSWWAYYELGWGGWW
+FWDPVENASLMPWLVATALIHSLMVTDKRGQFKAWTVLLAIGAFSLSLLGTFLVRSGVLT
+SVHAFATDPSRGIFILMFLAVVVGVSLALFAWRAPQWANASQPVAGSRESFLLLNSVLLV
+VAMAAVLLGTLYPLIIDALNLGKLSVGPPYFDRVFVPLMVPLLLAMVPGTVVPWHVARWA
+AVRSVVVPGALALLLASAWATWGGAPQTAEAVTTASGWLTVMGGTLGGWIVLSGAWQIVQ
+RLRLRLPGSPGLAWWGMQVAHLGVAVLVLGITGVKSFQVERDVRLGLGDSVTVAGVRYQL
+MSVDQHLGPNYLALRAQLKLFEGQLGDERQVGTLQPEKRRYVSSAMPMTEAAIDRNLWRD
+RYVSLGEPLAGEPPQWSFRVYHKPFVSWIWLGAVFMVLGGGLAAFDRRYRQATSATRALG
+AQADVGMGASGVRVAGPVPVVRGAVS
+>tr|A0A0P0M8N6|A0A0P0M8N6_9BURK
+MNKITWQQMRQQLEQQQERMRQQQELKRQQLGQQLELVQVQEQQLLFCRKRTKQQQRR
+>tr|A0A0P0M986|A0A0P0M986_9BURK
+MPRVKRGVTARARHKKVLALAKGFRGRRGNVFRIAKQAVMKAGQYAYRDRRTKKRVFRQL
+WIARINAAARECGLTYSQFANGLKKAAIEIDRKMLADIAVHDKAAFAGIVNQVKAKLAAA
+>tr|A0A0P0LIH7|A0A0P0LIH7_9BURK
+MHQFRQTTPLAGQAFTEAMLDAQQVLMFMLAGVLLNLTPGPDVLYIVNQSLRGGVQQGLL
+AAWGITAGCFVHVAAAALGLGAVLATSVDAFNLVKWIGAAYLLWMGGRLLWRTCQAAGKE
+VAAQPVAVAGQASDSPSQEARSLWAVFFGAFATNALNPKVALFFLAFVPQFIPAQATDPA
+WSFVFLGCLFNLNSWLVCMGWAVAASWLARRGQWLQRGMRHLDRLTGVLFVGFGLKLALT
+DAPSH
+>tr|A0A0P0M8U0|A0A0P0M8U0_9BURK
+MKWLGRLSVLAVVAVLFVGGVLAVQMLRSLPQLDGTLQLPGLAQPVSIGRDAADVTHIQA
+DSPLDAWRAMGFVHAQERGWQLEFNRRVMHGELSEILGPATLDTDKLMRTLGIIPMAREQ
+LKNLSPLAQAALQAYSEGIQVAWRSGAVRPSPEFQILGTAAGGHSGVAWSPEDSVGWALM
+MALDLGGNWGQEFARLTSSKVLNNAQLWQLMPPYPGEQAATSVDLPALYAQLGVYDASHT
+HPQAALELPRNMFSQGNLLAEWSNEWVRDMGILDGKGSNNWVVPGSHTESGHPLLANDPH
+LALSAPAIWYFARLQAPATVWQGQSLPALDVMGATLPGLPFVVLGRTRGVAWGFTNTGPD
+VQDLYLEQLDASRPGQYRTPEGWADFETRQETIRVKGQGDVSLTVRSTRHGPVISDVQPQ
+YTGLLNTAAYAISLRWSALTPDNFTLDAGMQANWSQNVTQLTQAFAGHHSPMQSVVMADT
+QGEVAFKAIGKVPVRGPANDIRGVAPAPGWLAHYDWQGWIPYAENPTLNSAQIKAKGWHA
+TANQNILPAGYPHFVGADWTTPERFDRIEQLMAATPKHSLKSMQAVQNDVLSLGAKALLP
+QALKAQPAHALGDRAMKLLADFDGQMHTDSAAALILNVWADEMTRAVLVPRLGAERFQGL
+YGKRHFRSALQGILSRDDKFWCGDGGCAPVANAAMDRSVTRISAKLGRDPSTWRWGSWHP
+AISSHKPFGKVPGLNKWFDVRVESAGDLFTVNVGQYWANDKTEPFANRHAASLRAVYDLS
+PVGDSRFIYQTGQSGHVFSPRSRDMSQAWSQGQYRALHWPSSPYQNELRLSP
+>tr|A0A0P0M717|A0A0P0M717_9BURK
+MKQRGFTLIEVLVALGITAVALMAGLQATGSLSRNAERQTVSMLGQICADNQLIALRLRR
+QLPDTGNTSVECTQAGRLLQVEVSVRPTPNPNFRRVDARVLDQGAYVLQVSTVMGRN
+>tr|A0A0P0M7M4|A0A0P0M7M4_9BURK
+MSQLWDTSGIAPQKNVVMAGETIPAIFWNAVAARGPNVWMRQKDLGIWRSWTWNETAQAV
+REIGHGLMALGFEARHTASILANTNIEWVLCDLAVLSAGGVSNGIYPTDAAEQVHYLCED
+SGTRVLFVEDDEQLDKALAVRETLPLLQKIVVFDMDGLRDFHDPMVISLKQLQALGREHA
+QQHPELLMQRTAACKPEDLAILVYTSGTTGKPKGGMHSHHGLVYTVRGYNTLIARDERDE
+CMCFLPLCHIAERMGGEFFSMYTGAKLNFVENPETVPENVREIAPTVFTAVPRVWEKFYS
+GVMIALKEAGGLQQAVYGWAIGVGHQVADLVLAQKPVPGSLKLQFHVARLLALNNVRKMI
+GIHRARFLVTGAAPISPDLVRWYLALGLPMLEVWGMTETCGAATGVPADRIKPGSIGPAA
+EYNEMRLDPVTSEILVRGPNVFMGYLNLPEKTAETIDADGWLHTGDVGVVDEEGFFRITD
+RMKDIIITAGGKNITPSELENELKFSPYVTDAVVIGDKRPYLTVIIMIDQENVEKYAQDN
+DVPFSNYASLTHSAEVQGLIQAELDRVNKKFARVEQIKKFWLLDTQLSAEDEELTPTMKL
+KRKLVEKKYAPQIEAMYR
+>tr|A0A0P0LB29|A0A0P0LB29_9BURK
+MNNSTFKALPRRQWLAAAAVLALTGFERTALAQATTVQVWKDPNCGCCQLWVEHLQASGF
+KVEVRDVGNTAARKRLGMPEVLGSCHTATVGGYVVEGHVPAVDIHRLLKERPVALGLSVP
+GMPMGSPGMDGPEYKGRKDAYDVLLVQKDGSSKSFQHYPGLRRMAQRDGLQRVSGDTTTL
+PWATAEVRRIDKAAGKVALKHGEIKNLDMPPMSMVFQVKEPAQLDTLQVGQKVRFQAVQD
+KGAYWVVKIEAAAL
+>tr|A0A0P0M9P0|A0A0P0M9P0_9BURK
+MSTSTQIGLLILLALVAANMPFFNQRILLLGPQRVSKPLVWRLMELVVLYFVVGGVGLAM
+ENHGGQVAPQGWEFYAVTGTMFVTLAFPGFVYRYLMHRKH
+>tr|A0A0P0MAL3|A0A0P0MAL3_9BURK
+MNTLTFPLSAVTEVPRDKASGQDPYASEAQTNALLRFGAQYRLQRIQAADMITTDEAAAL
+SGTTRVTMNAWIKSGRCIGVSHLRRGYKLPRWQFEPFIFPVIAPMAAALGSTDGWQLLAF
+LESPHPALDGQSPRTALEQGTPAQRVIDLATAEGH
+>tr|A0A0P0LCL0|A0A0P0LCL0_9BURK
+MSTPQDDNQPVVWTVLVAVIVLAVGLAVGFGIAKSKKAAPAAAPVATAPAVEASAPAADA
+SAPVADASTPAAAASAPK
+>tr|A0A0P0M7J5|A0A0P0M7J5_9BURK
+MAHIDKRAYAETFGPTVGDRVRLADTALVIEVEKDFTLQAGGYGEEVKFGGGKTIRDGMA
+QSQRTNAEGAMDCVLTNALIIDHWGIVKADIGLRGNRIAAIGKAGNPDTQPGVDIVIGPG
+TEIISCEGLIVTAGGIDCHIHFICPQQIDEALTSGVTTMMGGGTGPATGTFATTCTPGPH
+NIKRMLQAADAFPMNLGFFGKGNASLPAALHEQINSGVIGLKLHEDWGSTPSAISNCLDV
+ADETDIQVALHSDTLNESGYVENTIAAARGRGLCAFHTEGAGGGHAPDILKVVGQANFLP
+SSTNPTMPYTHNTLDEHVDMLMVCHHLDPAIAEDLAFAESRIRKETIAAEDILHDLGAIS
+MMSSDSQAMGRVGEVIIRTWQTAHKMKQQRGSLPGDTERHDNARVKRYIAKYTINPAIAH
+GISHDVGSIEVGKWADLVIWKPAFFGVKPSLVLKGGFIALAAMGDPNASIPTPQPVHYRP
+MFGSYGGALTRSALTFVSKAGAQAGIGERFGLQKPLSVAHNIRGVRKQHMVHNAYLPHME
+VDPQTYAVRADGQLLVCEAATSLPMTQRYFLF
+>tr|A0A0P0M8U3|A0A0P0M8U3_9BURK
+MPKLIVALMLAALLLPTAFAQRMYDGSGRQLGRVDAERFYSASGQPIGRVDGDRIYDASG
+RQLGRIDGERVYSASGSPIGRIDGERLYSASGSLMGRMDGERLYDASGRQIGRADGLRRM
+QMIVFFYFFM
+>tr|A0A0N7J891|A0A0N7J891_9BURK
+MLNPALIEVVDDDADIRRMLQLVLEARGFKVRTHEGAQAYLSAPPVTERRVMLLDVRMPK
+ITGVELQAWMVKTGDPTPVIFMSGESLPQDTLAAQKSDAVTFLWKPFRTEDLLNAVAQGL
+TLYDQQFH
+>tr|A0A0N7J8M2|A0A0N7J8M2_9BURK
+MSDFVPFVQELLEDWAPVSARRMFGGHGLYHEGLMFAIVVDQRLYLKTDEVNRPEFEALG
+LLPFTYAMKGKDVALSYWAAPDAIFDAPEDAMRWAKSSWHAALRGHLAKAQARARSKAKL
+ADKKAARSRQV
+>tr|A0A0P0M6I0|A0A0P0M6I0_9BURK
+MKLRQLVLATTVAAAGLASALVSTVATAQTKEQFFPVLVYRTGAYAPNGVPFANGYVDYL
+KLVNARGGINGVKVSFEECETGYATDRGVECYERLKGKNGGATVFQPLSTGITFALTEKA
+PGDKIPLITAGYGRSESADGGVFKWNFPLAGTYWVAGDVIVQDIGKRAGGMDKLKGKHIA
+LVYHDSPFGKEAIPILQERAAMHGFKLSLLPVTHPGVEQKSTWLQIRRDRPDYVVNWGWG
+VMNSTLLKEAQATGYPRENIWGVWWAGAEPDVKDIGMGAKGYNAITMQHGTEKGSAIVKE
+VLEKLHAKGQGTGPKDEVGEVLYMRGLFSAMFAVEGVRQAQEKYGKGKVMTGEQARWGYE
+NLNLTQPKLDALGFKGVLRPISTSCADHMGANWARIHTWDGTKWQFTSDWMQADEQIIKP
+MVKAAADKYAAEKKITRRTPADCQS
+>tr|A0A0P0MA89|A0A0P0MA89_9BURK
+MTPHPALPHAHPKDVGLCPERTQRLMDVLRREVASGRLPGAVAMIARRGQIGLLEALGQQ
+DPAMGTPMQINSIFRIYSMTKPVVSVAVMMLVERGQLLLSDPVSRWLPEFTHPKVATAQG
+LEPVKQEATVQDLLRHTAGLTYEFLGSSPVQQQYAQAKIASRERTNAEFSQALAAMPLQF
+QPGSVWAYSRATDVLGRLVEVVSGQGFGAFLQAEIFGPLGMVDTGFAVPPEHHHRIAEPF
+AHDPDGGVPMKVLDPRQVPAMEGGGGGLMSTTLDYARFLQFLRNRGELNGVRLLGPHTVD
+YMTSDHLGGIPADGTLLPPGHGFGLGFAVRTNLGLSPVPGSVGLYYWGGIAGTTFFVDPA
+LDMYAMLMVQAPNQRDYYRPLFRDLVYAALL
+>tr|A0A0N7J967|A0A0N7J967_9BURK
+MKKTAVFVICALSLNWAMAQKTTLTVAAFPAVDDIVKAALQEWQKKNPDVDVKVVGREYA
+DHHTAMTTALATSTGLPDVMTLEYGYLGRFAQSGGLEDLNQAPYSFGQHASKMVAYALAQ
+GRSAQYGQVAIPTDIGPGAMFYRHDLLVKAKVNEAELTQSWDSFIQGGQKIKQSTGAYLV
+AHARDVKDIVIRTGIPEGQGVYFDAQGKSVIDSSPRFRRGFEVAQKIRAQGLDAKINAWS
+NEWGESLKRGTVSVQMMGAWLGGHLQNWLAPNTSGLWRSTALPERVATSWGGTFYAIPKK
+AVNKDKAWDLIQHLTLNTRQQQLAFEKYNAFPALIAAQSGDFFSQPVAFLGGQKARLDWK
+ATAMQIKPTQVFKNDSVAEEIVNAELDLVLNKNKPIDQALKDAHRLVQRRASR
+>tr|A0A0P0MAB8|A0A0P0MAB8_9BURK
+MKLLIQNGRVIDPASGFDQTGDVAIAAGRIVAMGQAPADFIPNRVIDAQGCIVAPGLVDL
+AARLREPGQEHAGMLESEMAAAVAGGVTSLVCPPDTEPVLDEPGLVEMLRYRAEKLHQAR
+VLPLGALTVGLKGDVLTEMGQLTAAGCVGFSQAEVPIQSTQVLQRALQYASTFGYAVWLR
+PQDLHLGKGVAASGALATRMGLSGVSVAAETIALHTIFELVRSTQARVHLCRISSAQGVD
+LIRKAKAEGLPVTADVSINSLHLTDADMGYFDSRARLTPVLRQQRDRDALRAGLADGTLD
+VLVSDHTPVDADAKALPFAEAEPGATGMELLWSLALKWGADAGLPVAQVLSRITADPARV
+LGSTLGGLQDSVGHLAVGGVADVCVLSTEGHWLVGDASLRSQGKSTPFSGYELPGRVLAT
+VVGGQVAFEAA
+>tr|A0A0P0M6Z9|A0A0P0M6Z9_9BURK
+MQMSLAIDFNKKINKVNDLKMQYMPIYLQLLQRETRQSVPLCSPNTMLMGLLPWCDW
+>tr|A0A0P0M805|A0A0P0M805_9BURK
+MHVSPAKGWLADFLILAAIWGSSFLFMRLAAVELGPMPTAAIRVAIAATFLLPIMLAKGH
+WGELRQHWKPVLFVGALNSGIPFALYSFAVLHITTGFSSILNATVPLFGAVVAWLWLGDK
+PTVSRTVGLAIGFGGVVLLAGGQASFKPNDSGIAPAWAVAACLAATTCYALAASFTKKHI
+PSLPPLVTATGSQIGATLVLVLPALWYRPDHWPSTSVWWSLLVVGVLCTGVAYILYFKLI
+ENSGPARALTVTFLVPVFAIAYGVLFLGESVTAWMLLCGAVILTGTALSCGLVKLPGR
+>tr|A0A0N7J8W1|A0A0N7J8W1_9BURK
+MLSLNLNKKKFCCHKEIAVNPTWISLGVLAALAPSLHRRIQLSRAKHRSLAGHSRMAKRL
+ARWLPGYSFDEAEFFGCDGAPSDIQAQRRAAFFTLANTLQTRHRLSIEATAAARENISDM
+QFVSAYRVPFQFSPVVREHLKVGSFWQSAQGVHVTDLDGQKFYDLTGSYGVNVFGADFYK
+RTMAEGMARTQALGPVLGSYHPVVADNANRLKAISGLDEVSFHMSGTEAVMQAVRLARYH
+TRRKNIVRFCGAYHGWWEDVQPGPGNPMPPRETYTLSDMSERSLQVLRSRKDIACVLINP
+LQALHTNTNAPGDSTLVDSSRRAAYDRAAYTAWLQALRQVCTERGIALIFDEVFLGFRLA
+AGGAQAYFGVQADLVTYGKTLGGGFPVGVVCGKREWMRRFDEKRPADICFARGTFNAHPA
+VMGAMSAFLEQLETPEVQAIYQGLDERWNARAALFNSTMQAHELPLQAANMSSVWTLFYT
+QPSRYNWMLQYYLRLHGLALSWVGTGRLIFSLNYSDADFESVLQKFVLAAQQMRQDGWWW
+HAPEITNKSIRRRILKETLFR
+>tr|A0A0N7J956|A0A0N7J956_9BURK
+MSTMNISLPETLKTFVDLQVSERGYGTSSEYVRELIRKDQDRLQLREKLLAGASSSPAAS
+INETYFDGLRDRVHQATRNTSLR
+>tr|A0A0P0MA19|A0A0P0MA19_9BURK
+MQRVHSVAMQKMMNTLLALYEQGGDLVYSGESVTQLMHAWQCGRLAEKSGAPAALQLASW
+LHDVGHLWVNLEGTPTLRGQDDVHERIGSEVLLPVFGPAVSEPVRLHVQAKRYLVSTRET
+YARKLSPDSVRSLQLQGGLMTADECAAFEAEPFFSDAVKLRVWDDLGKKSGWFEETRHEA
+LDHLMQLMRRVAQDHVT
+>tr|A0A0P0MAG3|A0A0P0MAG3_9BURK
+MAKEYKDLVVGLDIGTSKVMAVVAEVMPDGQLKIAGLGIAPGNGLKRGVVVNIDATVQSI
+QQALKEAELMADCKITRVNVGITGSHIRGINSSGMVAIKDKEVTQADLARVMETARAINI
+SSDQRLLLVAPQEFVIDSQEVKEPIGMSGMRLEAKVHIVTGAQSAAENIIKCVRRCGLEV
+DQLLLNPQSSSLAVLSEDERELGVVCVDIGAGTTDVAIFANGSIRHTAVIPIAGDLITSD
+IAMALRTPTKDAEDIKVESGYAKQLLADPDAQVEVPGLGDRGPRMLSRQALAGVIEPRIE
+EIFSLVHQVIRESGYEEVLSSGIVLTGGSAVMPGMIELGEDIFLKPVRRGLPKYSGGLAD
+MVSQPRAATVMGLLEEARLARLRGYKVTQKKSSVNNAFGRFKDFIVGNF
+>tr|A0A0P0M9Z2|A0A0P0M9Z2_9BURK
+MAHLGQPVASGLLAWEQAQADALLADVFGYHAVQLGWPELQALRCNRMPHRWQAGTEFEW
+PQMHKALCAPDTRDLSPSPHLNAEISAPNGPDVWLDSRAWPWQADSLDLVVLPHTLERSA
+DPHACLREVERVLIPEGQLLITGLNPMSLWGLQSQPGGSRRIGEASAQNLIAYRRLRDWL
+RLLGFEVQVSRFWGWTPAISSERWLQRLDWMARAGERWWPILGGVYLLMATKRVPGGHWL
+PARQWRKVRSPAAAPAPVARSDTFMGHPPAEKDAFDPR
+>tr|A0A0P0MAT4|A0A0P0MAT4_9BURK
+MILIPAIDLKDGHCVRLKQGDMDQATTFGEDPAAMARTWLEKGARRLHLVDLNGAFAGKP
+QNFSAIKSILKAVGDDIPVQLGGGIRDLDTIEKYIDSGLRYVIIGTAAVKNPGFLKDACT
+AFGGHIIVGLDAKDGKVATDGWSKLTGHEVVDLAKKFEDWGVESIIYTDIGRDGMLSGIN
+IDATVKLAQALTIPVIASGGLSNMADIEQLCAVEDEGVEGVICGRAVYSGDLDFALAQQR
+ADELNG
+>tr|A0A0P0LKI6|A0A0P0LKI6_9BURK
+MAKEGNLEAPTRHALGWESPDFYNEEKCFDELERIFDICHGCRRCVSLCNSFPTLFDLVD
+ESSTMEVDGVDKKDYWKVVDQCFMCDLCYMTKCPYTPPHEWNLDFPHTMLRAKAIKFKKG
+EVGAAEKFLASTDTHGSFAGIPIVVQAINAINKTEAARSVMESVAGVDKNAWLPSLATQK
+FRSSAPDAKASKVVDGEKTPGKVAIYSTCYINYNEPGIGHDLLKILDHNDIPYVLVEKEK
+CCGMPKLELGDLDSVKDSKEANIPVLAKYAKDGFAIMAAVPSCALMFKQEIPLMFPDCTD
+TQLVKEAMWDPFEYFMARKRDGLLKTEFPQKLGNVSYQIPCHGRVQNIGKKTEEMLKMIP
+DTEINTIERCSGHAGTYGVKKGSHEMAMKIGKPVFKAMATMKDGSKPDFISSDCPLGGHH
+IAQGFEVNGLGAPELNHPLTLVRKAYGLK
+>tr|A0A0P0LSZ9|A0A0P0LSZ9_9BURK
+MNLPTPAIVAQSAVRRLPRLALLLLCVSYVLAGFWGRAPWKSQDLESLGYMLQLAQPALG
+ETANWFRPSLLGQYDPQLALLPYWLGAGFIAWAPQGWEDVFARLPFVGMLGLTLAATWYA
+VYALARHPAAQPVAFAFGGEAKPSDYARALADGSLLALLACLGLARLAHEATPALSQLCF
+ASLIFVGLSTLPRWRVKSGLAVGLGMLGLTLSGAPSVALWLGVGGSLIRAVAPVDPAQGR
+MRMLDLGLLALLCLLCVTTAGALDLWRWRVVPHEMVDVHILGKLMLWFTWPAWPLALWSL
+WRWRAQLSRAWRYPHLALPLWFVAVTVGATWLTGLSDRALLLALPGIAALAAFALPTLRR
+SLGALIDWFTLLFFSFCSLAIWVVWVAMQTGFPAKPAANVAKLAPGFLPEFSALAFGLGL
+LATLAWAWLVKWRIGSHRAALWKSMILPASGAVLCWLLLMSLWLPLLNFARSYGPTVQKV
+QVVTGTASCLQYAGISQAQGAALLFHAQVRLQAATTPSAECPWLVMDEKNLPLLEDRLQD
+LGWTLEATAARLGERSDRLMIFRPAQPIQDTPALPEPAKN
+>tr|A0A0P0M7B0|A0A0P0M7B0_9BURK
+MKAYKTQGTALKHVKAGENFKNKVFRHFWTDKEVCKEALAREPNLFRFIVEENYNQNIEW
+DSEFIASAFLRMLETKPSSLNLARIGPFLPPEITESKEIASRTAQIDLGEWRRYFSPDLS
+SDQNIRNAHRPFGYTQNCDLSEELQALLYQRTDFLVELVKASPGLIRSLPGHLGAVRGVK
+VIACVQAENFLQATGGLHDDEEFVLEVLKELDNKSNRAFPTCSYRIRKAVGYQDPVQYLE
+AVVQAKKLDALLSHKTSNLEPIKQKSLKI
+>tr|A0A0P0MAU7|A0A0P0MAU7_9BURK
+MHIRFTKMQGAGNDFVVLDETQGRLGLSTAQYRFLADRHFGVGADQILSVRPSPATGLDF
+EYVIHNADGGEVEHCGNGARCFVRYVRDKGLTDKSTVRVKVQQGEIELRMNPDGRVTVDM
+GAPVFDWALVPFNPIGLISDQVNGWPVFDLALGEWGIARVGVVSMGNPHAVQRVDNVDTF
+PVLAQGPLIENHPAFPNRVNAGFMQIVSRSQIKLRVFERGAGETLACGTGACAAVVAGIR
+QGWLDARVDVQALGGMLTIEWAGQADSPVLMTGPATSVFEGSIDVPDSL
+>tr|A0A0P0M9T5|A0A0P0M9T5_9BURK
+MFKTFAFAATALTLASGSAFAAPSDDARTHFQAIASGDTQIVMRAYADQAQLNWVGGPLD
+GTYATTDAIRGTWEKFGKAVGPLKLTVGQIEESANPKGATVSANVVFEGKMPIKVRYVLT
+FREGKIVSETWQIDPKLAVAAAY
+>tr|A0A0P0MB61|A0A0P0MB61_9BURK
+MNTHYTAVAKSLHWLMALLILGMLALGFYMTDLPLSPDKLQYYSWHKWAGVSVFILVGLR
+LAWRLMFPPPALPAGMTRAMKLAAHAGHWVLYALMVVIPLTGWLMSSAKGFQTVWFGVLP
+LPDLLAKDKALGDQLAQLHWALNVGLLLLIAGHAGASLWHHIVHKDDTLRRMLPAR
+>tr|A0A0N7J868|A0A0N7J868_9BURK
+MIEVDCIVVNWNSGEILTDCLKSLENFNGTCSLNVVVIDNASVDESEQVSSFFSDVRLVC
+AGENLGFGKACNLGATLTGSNYILFLNPDAELLPDSLEKALDFMQEPKNATVGICGVQLL
+DESGHVSRSCARFPTPIGFIAHSIGLDRFLPKLGHFMAEWSHDSTQVVDHVIGAFYLVRR
+ELFEAIGGFDEQFFVYLEDLDFSYRAHKAGWQSVYLADVQAFHAGGGTSNQVKAKRLFYS
+LRSRLLYAFKHFHLFGAVLVFMTTLFIEPISRSALAIGRRSWSSLAETWEGYGVLWRWLP
+QWIFKGVTR
+>tr|A0A0P0MAM1|A0A0P0MAM1_9BURK
+MHLIIPYAASQAFSGPEVWAGWQLPYLQALLSLLQRQQVLQDAGPTALHLPHERLQAQAL
+GWPLDAPTLPWAAWHQAQQGQQSAAPQAWMTPCHWQVGMDQVVMADPAHLRLSDDESQQL
+LQAMQPFLQEDGLQVTWHSALRWHAQGAMLADLPTASLDRVIGQNVKDWMPQHPAARPLQ
+RLQSEMQMLLYNHPVNDARDARRQHTVNAFWLHGAGSLPAAAAPMNGTMTVPDALRSSAL
+HGDVPAWRQAWQQLDATAVADLVQHVKATGQGQLSLCSEHTAHTYTAAPAAWHQRIHRLF
+KQPSTEAALQALITSCPP
+>tr|A0A0N7J882|A0A0N7J882_9BURK
+MNPQAFQSNDKQDKSPKMRTHSPLTPKIQRLMFEFRGYSFQPMQHRHPGPLLFCGDPHGQ
+WQHILDAALQTHARAVILLGDLEPARPLHIELEAIWERVWFIHGNHDTDHADNFANVWHD
+EVSERNLHGRVVTLPCGTRIAGLGGVFRGAVWYPKDAQAPKFRNREAHARVTPRQDRWQG
+SVHLKHWSSIYPDEVEQLATQQADILITHEAPGYHEHGFKELDTLARRMGVRMTVHGHQH
+DNLDSSAQWDTQGFQSFGVGLRGVMAFDAVNFS
+>tr|A0A0N7J8V5|A0A0N7J8V5_9BURK
+MPVITNIEDLRVLAEKRVPRMFYDYADSGSWTEGTYRANETDFHKIKLRQRVAVNMENRT
+TATKMVGIDTKMPVCIAPVGLTGMQHADGEMHAAMAAKKFGIPFTLSTMSICSIEDIAAH
+TQAPFWFQLYMMRDREAMARMIDRCKAANVSAMVLTLDLQVIGQRHKDLKNGLTAPPRPT
+IANIINLMTKPRWCLGMAGTKRHTFGNLVGHVKAVTNMKSLASWTNEQFDPTLNWEDIAW
+VKKQWGGKLILKGIMDVEDAKLAVASGADAIVVSNHGGRQLDGAPSSIEALPAIVAAVGD
+QIEVWMDGGIRSGQDVLKAWALGAKGVMIGRAMVYGLGAMGEEGVTKALQIIHKELDVTM
+AFCGHTNIQNVNTNILLPGTFPKA
+>tr|A0A0P0LRT6|A0A0P0LRT6_9BURK
+MITKRTFGRLAIAAAAATLFTSAMAADVTVAYITNGNTNEGWTLINGGAKKAGQAKGVKF
+IELAAEKGELSKQLAIVEDMITRKVNAIAIAPVDSAGIAPAINKALKAGIKVVAVDTGIT
+GAAITSYVATDNIKAANVQGKWAAEQIKDGDTVIYVTGDQGQSTGQERKKGFVDGLNAVR
+KNVKIVEVPTTWDQTMAQNGVESALRANPNAKVIACAWDGGALGAKAALMAAGKKPGDVK
+IAGFDGSPGGLDMMKQGWQQANAAQMLAKIGQVGVETAIAAAQGKKVDARIDTGSFLVLP
+SNVDKFAADSGVGQFMKVKSK
+>tr|A0A0P0M925|A0A0P0M925_9BURK
+MQKPQTAVQRLGVFGGAFDPPHLAHLALVEAAVAQLQLDHVHVLPTGHAWHKPRLLSDAA
+HRVAMTRLAFAHVPQVVVDEREILRTGPSYTVDTLHELQSEYPQAQLYLLLGDDQRRSLS
+SWHQIGEIERIAIICAAGRDMAVRAWNKESGPAPTHPPLSDTLQARIRTLDMPLMPHSAT
+DIRVLAATEQALTGLVSPAVERYIHEHHLYRPH
+>tr|A0A0P0M8Z8|A0A0P0M8Z8_9BURK
+MNAEAKSLEAVQESDLPTMATPYVPPPPVGPRAHMRPLGFTDPFRWLARGLQDMRHHPGI
+ALFYGLCFWGMAQVLAMVFKHKPEYTLSLVSGCLLVGPFMAMGLYEVSRKRERGELPEMA
+SSLMCWDQHIRSMAMLVLVLMVLELLWGRASLVVFAVFFNTGMPSTTGVIEAVFNPQNLE
+FLMVYLAVGGVFAALVYGLSVVSIPMILDRDTDAISAVITSMRVVFSHPGVMLLWGLLLS
+VLVLVALWPWALGIIVIGPWLGHASWHAYRGSVEWEEGPE
+>tr|A0A0N7J8L2|A0A0N7J8L2_9BURK
+MGLQTWWLFVLMTFVVSATPGPNMLLVMSHGARFGLRPAIWTMSGCMTALIGMVSISAAG
+VGALLHSFPAVFDALRYLGAAYLAYLGYNLWCAGVPTGDAPTSAAVTEEGQRSAGSFYRQ
+GLAVAASNPKAIVFAAAFFPQFIQADRPAGLQFAVLLITFTVIEVSWYLIYALSGHKLSR
+FLHQGHVMKNFNRVTGGVFVGFAALMAASR
+>tr|A0A0P0MA41|A0A0P0MA41_9BURK
+MQNLLLFIDKVSTWIGQFFSWLIVALTLLISWEVFSRYVMDNPHPWAFDVMSMMYGTLFM
+MAGAYTLSKNGHVRGDVLYGFFPPRLQAWLDLILYIVFFIPGVVALAYAGYGFAAESWAI
+NEHSNITANGPPVYPFKTILPLAGAFLLAQGLVEIVRCIVCIKQGEWPKRGDDVDEVDVE
+KLKEMVNVKDEDIAKLGELATVKGTQK
+>tr|A0A0P0MAY3|A0A0P0MAY3_9BURK
+MNWLDQIKWDDKGLVPVIAQEKDTGDVLMFAWMNREALQKTAELKRAVYFSRSRNKLWFK
+GEESGHVQTVHDIRIDCDNDVVLLKITQLGHEPGIACHTGRHSCFFQSLQAEEWQAADPV
+LKDPETIYK
+>tr|A0A0N7J867|A0A0N7J867_9BURK
+MRLELYQQETERLASDLQAMLDAVSQRLHQQQMLSALEQAGVLHALQVLTENAIGKAKVW
+IKQRQLPVPVSAYDAFAQLHREKIIDDEALRNWTAAIGLRNRIVHDYLNMDMSIIESLVK
+ERKYQLQVQFLLKIISP
+>tr|A0A0N7J8D9|A0A0N7J8D9_9BURK
+MSIVEPGSFLTLHYRLAGPQGDIINTFNEKPATLSLGSGTLSPAVEQRLLGLAEGTRVVM
+EIPAGEAFGDHIADMQQWVARKLLNELGDPTEKYAAGDVVQFPTPDGLGSYAGTVLQVNE
+EGAVLFDFNHPLAGQPVTFEVELIGVL
+>tr|A0A0P0LHX5|A0A0P0LHX5_9BURK
+MTALVLSLCACQGASRHQVSSLEFLPFNAMSSNYRIMNQVRINWEVREDVAHFCTQAKSM
+GRQQSYLTPPMACAIWDILKAECTIVTGPVTSHVALGHELRHCFEGHFHR
+>tr|A0A0P0LIG0|A0A0P0LIG0_9BURK
+MQDLLPQRIVCLTEETTEWLYLLGQEQRIVGISGYTVRPRRAREEKPKVSAFLSAKIDKI
+LALQPDCVFGFSDLQAEIASLLIKAGVQVTVFNQRSVDEIFSMLYQVAAMVGEAEQGLVR
+LQGMRAELEAIEHKAASFKRRPKVFFEEWDEPHISGIRWVSELMGIAGGDDVFPELAVQS
+LGKDRIIADGQNIVDRAPDIIIGSWCGKKFRPEKVAARPGWQDVPAVRTGQIFEIKSADI
+LQPGPAALTDGVAQMHRIFSQWEALHA
+>tr|A0A0P0LVB2|A0A0P0LVB2_9BURK
+MTLPSFDALQVGDAIPALELPPVSRLTLALYCGASGDHNPIHVDTDFAHIAGLPDVIAHG
+MLSMGWLARLLTNWVPQTAIRDYSVRFAAMTRVHEKITCTGQVIDKFEVDGERRVRLSLT
+TTNAEGQVKLTGDAVVALA
+>tr|A0A0P0M778|A0A0P0M778_9BURK
+MALTHITLRDFVIVHELELDLSKGFSVLTGETGAGKSILIDALQLALGARAESGVVREGA
+SRCEVCAEFEPTPAIAAWLDDAGFEASTDLLLRRTVDTTGKSRAWINGSPATATQLRELG
+EQLLDIHGQHAWQSLTRPDAVRGLLDAYAGIDTRPLKSAWQSWRQAQQSLADAQQAQSTL
+ANERERLAWQIGELEKLNPQADEWQELSTQHSRLANAQALIDGANQGTLLLEGDEDGGAL
+RQLSRAIQTLQSLGRFEPEFNALADVLVSAQAQAEDVAHSLHAYLRKTDLDPAQLAQLDE
+RMGLWLSLARRYKKMPDDLPFTLQTWRQELAQLDAAADLDALRKAAQAAQNACTQAAKAV
+SRQRQQAAKPLAQAVSSAMQQLGMQGGRFEVQLQTLDAPAQHGLEEVSFLVAGHAGSTPR
+PVGKVASGGELSRIALAIAVTTSELGEAGTLIFDEVDSGVGGAVAETVGRLMKQLGQHRQ
+VLAVTHLPQVAACADQHLLVSKAAAQSQVSSQVRGVSGEERVSEIARMLGGEKLSATTLA
+HAREMLGAPTPKPHTHPAGRKAAQS
+>tr|A0A0P0M8X8|A0A0P0M8X8_9BURK
+MNERPSQPIGTPQATTLTGLALEHEAAPAGHWDELHGEVSNPNADTARAISAPWQRFLAP
+LDKVSHAREADLNTRMGNLRRQVRDNGITYNVYASADQPQRPWSLDLFPLMLGHSDWQQI
+EAGVMQRMQLLEHIMADAYGPQQLVLQGQLPAALVQGHPAYLPAMHGVAPVGGRYLSLAA
+FDLARGPDGCWWLLSQRTQAPSGLGYLIENRQIVSRLFPQAFEAFPVQRLAHTYRPLIDG
+IKARSPAGASAHIALLTPGPYNETYFEHAYLARYLGLSLVQGNDLTVRDQKLYLKTLQGL
+QPVHGLLKRVDDDWLDPLELRADSTLGVPGLLQAVRSGNVLVANTPGSGFLESNALLGFM
+PGLARELLGQELRLPAIPSWWCGEAAALQDVLPRIAGCVIKPTYPHHTDRHSFEPVLGHR
+LSRQEQAEWAQRIVRDPDAHTLQSWLPLSHQPTWQTGPDGAASIASRPVVLRVFAVVDAQ
+GGWQVLPGGLARLGTREGIASMQRGGSSADVWVQTPTTPTPTSSTPPAPPSATTSIPAAS
+DAVAQRQRLVTSRAAENLFWMGRYTERTENTLRLVRLSLEILGSENQNLPCLLNFISRMA
+THHGLVRAGVPAAAQAHRVFERSLIAGLWDKELTTSVGFNLRSVRLAAASVRERLSPEHW
+RLLEQAESRFFQWVKTPALPEPSLDSLPDTVAVQRLLADTSQMLAALTGAQTDRMSRDDG
+WRLLSMGRHIERLEFLSHALSDAVQLGLIEEQAGFDAVLDLFDSTISFHAQYQQSRTPQA
+LMDLLVTDPDNPRSLGWVAHTLRSRLKRMGHLADGATLPLAERLPALIELRPEALWPLDT
+SRGASSSTADPLVSQPQPLLATLGQCQSTAREVSDQLCSLFFTHSGEARYSVGAGSSRHK
+A
+>tr|A0A0P0MBQ1|A0A0P0MBQ1_9BURK
+MKILLAVDGSEYTKKMLAYLTTHDELFSTNNSYTLLTVNPQLPPRARAAVGKDMVDAYHR
+EEAEKVLSPVTKFLLRHGIDAKTVAKVGHAGETISKTADSGKFDLVVMGSHGHGTLGNVI
+MGSVATQVLAHCKVPVLLVR
+>tr|A0A0P0M757|A0A0P0M757_9BURK
+MKNIHPIDRWCRLALAIVLAQGGYFWLTGAWQWAAYVGAVVLVVTAGVQFCPLYRLLRVG
+TAQLAGGKVSPIWRWLGWLALVALFVGGSYGSAFLSRKLFLEEFNAMNHFYKQTLFLTGK
+NERDSAVENWKKMVSGYAVFQRKYSAYQPYALRGDRQLVSDLQQVAVIMGAVEPLVRDGD
+LHQAHLDLEKIRPVFQDIFKRNGFSMLAVALVDFHDAMELILDAANAKDAEKVKQLHPML
+SDKFKPVELEANDAEIQAIRKNLDGLLALAQAGNLGAMPAQADQLKSSFVKVYLKRG
+>tr|A0A0P0M7D5|A0A0P0M7D5_9BURK
+MDKYADLQKELVRALTERLLDIEYDLAKRNCFLFDVEIDHHIFDLLSDHLWHKTAFAETI
+SELMKSVADSDVFDRRVRECAYDDLYKALGGIA
+>tr|A0A0P0M9X5|A0A0P0M9X5_9BURK
+MQPCTLQKISIQGIGLETLSIAAPAGAEAPTLVFLHEGLGSVRMWRDWPALLCAQLGCAG
+LVYSRQGYGQSDPVPDVRGPSGQKDGQRHGRLLPDYMHREAWEVLPALLQALGIARPVLL
+GHSDGGTIALLHASRFHVRGCIVMAPHVMVEPVSLQAITQARQAFEQGPLRQRLAPYHAD
+VDCAFWQWNEVWLSAAFARFDIRGELSGIRAPLLAIQGVDDPYGTLAQIEDIAKAVTHTT
+LLTLPGCGHSPHRDQADAVLGAVKTFMAQLPKNQS
+>tr|A0A0P0M8W3|A0A0P0M8W3_9BURK
+MSKITKTDQEWRELLAAKGAEPVAYAVTRQAATERPFTGKYEGHWSSGIYRCICCDAELF
+KSGTKFDAGCGWPSFSQPASEGAIEERVDTSHGMRRVETVCAQCGAHLGHVFEDGPAPTG
+LRYCMNSASLDFEPS
+>tr|A0A0N7J932|A0A0N7J932_9BURK
+MNSKTSALRARLNQPGLVVAPGVFDMVSLRLADSFGFDALYMTGYGTVASHMGLPDAGLA
+TYSDMVGRVTAMAGMARTPLIADADTGYGGLLNMRHTIRGYEAAGACAIQLEDQEFPKKC
+GHTPGRRVIPMADMVRKIQVAVDSRESKDFLIIARTDARTTLGLDEALRRAEAYAKAGAD
+ILFVESPESEEEMRRIGQSFDVPLVANMVEKGRTPVLTKPELEALGYKIAIFPVTALLAG
+VQAMTQVYQQFKDTGSSAKGATPLYDFADLTKLMGFEDVWAFEKRYAETD
+>tr|A0A0P0LUA7|A0A0P0LUA7_9BURK
+MTFWQLVLHLLNFALPALAMAMLMPLAGRTVMGVGRISLRRRMGVHALSGLLVLLGGLLL
+HGQDGKMSTYIALVLVAATTEWLLQRGWAAK
+>tr|A0A0P0LEN6|A0A0P0LEN6_9BURK
+MDFVNFLIQLLNSVQYGLLLFMLAAGLTLIFGIMGVVNLAHGSFYMLGAYLAWSLAAQLG
+SFTLAIIVGTALSVAFGLLIERLLFRHFYHRDHLDQVLLTFGLIYVFEELRSMIWGDDVH
+GLPVPELLAASIPLTENLSYPVYRLFMSGVCLVLALGLYLLISKTRLGMKIRAGAFNREM
+TESLGVNIKLIHSVVFALGIGLASIAGMIAAPVSSVYPNMGSQVLIMCFVVVVIGGIGSV
+RGALIAALLVGLVDTFGKVLLPQASGMLVYVLMALVLLYKPEGLFKQ
+>tr|A0A0N7J8M1|A0A0N7J8M1_9BURK
+MYTDSHCHLNFPELMIELDNIQQAMVAAQVTRALVICTTLEKFDEVHGLAMANSNMWATV
+GVHPDNEGVLEPSLQDLLDGAARPKVVAIGETGLDYYQMDERKGGRTVADMEWQRERFRT
+HIQAGRQTQLPLVIHTRQASDDTIAILKEEGETGGEGCAGGVFHCFTESQQVARAALDLG
+FYISFSGILTFKTAADLREVAKFVPDDRLLIETDSPYLAPVPYRGKTNNPSYVPYVAKLL
+AELRGSTSEAVGELTTRNFLQLFSRTGA
+>tr|A0A0P0M6M2|A0A0P0M6M2_9BURK
+MSKARKVIITCAPTGAIHTPSMSPHLPVTTDEIADAAIAAAEAGAAILHLHARDPADGRP
+TQDPAFFVPFLQKIKAKTNAVINLTTGGSPHMTVHERMQPALTFKPEVASLNMGSMNFGL
+FPMLDRFKNFEHEWEREHLEKSRDLVFKNTYKDIETILRLGTENGTRFEFECYDISHLYN
+LAHFRDRGLVTGPLFVQSVFGILGGIGPHPEDLMHMRRTADRLFGNDYQWSILGAGKGQI
+ALASIGAAMGSNVRVGLEDSLWIGPGKLAESSAQQVQRIRTVLEALNLEIATPDEARSML
+ALKGRDRVNF
+>tr|A0A0P0MAZ6|A0A0P0MAZ6_9BURK
+MLAKRIIPCLDVTGGRVVKGVNFVELRDAGDPVEIAARYNEQGADELTFLDITATSDGRD
+VILHIIEAVASQVFIPLTVGGGVRTVEDVRRLLNAGADKTSFNSAAIANPQVIREASAKY
+GAQCIVVAIDAKRRSAEDEQRIGTNGLPMGPGWDVYSHGGRKNVGLDAVAWATQMAEYGA
+GEILLTSMDRDGTKSGFDLQLTRAVSDAVSVPVIASGGVGNLDHLADGVSIGGADAVLAA
+SIFHYGEYTVQQAKERMRERGIPVRL
+>tr|A0A0P0M9P4|A0A0P0M9P4_9BURK
+MKQMALDIGLASTPTLDNFFAGPNAAALSHLRLWTASASRSPVPSYLWGESGSGKTHLLH
+AVHQALQEQGAQVGWLDAHSMDPPDFNDDWAAVLMDDVHLYNAEQQHTAFNWFVNALTPR
+TGTPRWVLAAGTLPPADLKLRDDLRSRLGWGHIDALQVLGETERRAVLRQEADARGLFLS
+DEVMSYMLKRFSRDLGSLMQLLDHLDHYALQTQRALTIPLVRAMLENE
+>tr|A0A0P0M871|A0A0P0M871_9BURK
+MSKHRIAVIPGDGIGKEVMPEGLRVMDAAARKFGIDLHFDHFDFSSWDYFEKHGQMLPDN
+WKDQIGGHDALYFGAVGWPEKIADHVSLWGSLLLFRREFDQYINLRPARLMPGIIAPVVR
+RDGSPRQPGEIDMYIVRENTEGEYSAVGGRMFPGTEREIVMQETIMSRIGVDRVLKFAFE
+LAQSRPKKHLTSATKSNGIAITMPYWDERVAEMAKGYPGINVDKFHIDILTAHFVQRPDF
+FDVVVASNLFGDILSDLGPACTGTIGIAPSANLNPDRKFPSLFEPVHGSAPDIAGKGIAN
+PIGQIWCGAMMLEFLGYKDAHDAVLGAIEKVLAAGADAPRTPDLGGKASTADVGRAIAQA
+L
+>tr|A0A0N7J863|A0A0N7J863_9BURK
+MALVLLNPHAQGGRAARRIPALRAWLAAHAPDAQLAAPEALSDSVALLQSLPEGSRVVVV
+GGDGTLNRWLPMLLARRLTVGLVPMGSGNDSARAWGVDGLPWTQALTLALQGPAQAIDTG
+LARWRDLQGQTHESPFLSSLTAGFDSAVGLRALNGPSWLRGLPRYLWATLHELIHLRHWD
+LTLHSDGHFKHQGACLFASSLNTPTFGSGMPAVPHAQLADGQLNALLAGTFGRSGALLML
+PRLLIGQHLGHPRIGCWPYRQLDIACTQGVPLAADGEYLGEAQHVRIHCQAASLLVVRR
+>tr|A0A0P0LGR1|A0A0P0LGR1_9BURK
+MTDSLLCFHPILCPLLWPDIPMYKLVLIRHGESTWNLENRFTGWTDVDLTPTGVSQAMSA
+GKLLKAEGWDFDLCYTSVLKRAIHTLWYTLDEMDRTWLPVVKDYRLNERHYGALQGLNKA
+DMAKKFGDEQVLVWRRSYDTPPPALEATDPRCERSDRRYPDSAVVPLTECLKDTVARVLP
+AWKDSIAPSILAGQRVLIAAHGNSIRALIKYLDGISETDIVHLNIPNGIPLVYELDKDLR
+PLRHYYLGDAEAAAKAAAAVAGQGKA
+>tr|A0A0N7J8K5|A0A0N7J8K5_9BURK
+MRWILFLSVLAALNLPAWSSPTEDTPAAGLTERGLVSQIGSQLSVVKDKAGDQAAGMVEQ
+AMGLLGVPYRRGGNTESTGFDCSGFVRHLYEKSVGQILPRRAVDQARATEVIERDELKPG
+DLVFFNTMRRTFSHVGIYVGDGKFIHAPRAGKAVNIDDMRSAYWQKRFNGARRVPVNSDN
+AKP
+>tr|A0A0N7J8P7|A0A0N7J8P7_9BURK
+MLTLRKSKERGYADHGWLKSYHSFSFANYFDPAHMGFGNLRVINEDRIDPGTGFGTHGHR
+DMEIISYVLSGNLAHQDSMGNVKGIPPGDVQRMSAGTGVQHSEFNHAQGEPTHFLQIWIE
+PNVRGIPPSYEQKSVPESAKRGQLALVAAPASDAHAAAHTVEIHADARMYSGLFHGSEKA
+VLPLNPSRKAYVFLVRGALQVNGQALMAGDAAMLQAESSLALSDGQDAEVLVFDLAA
+>tr|A0A0N7J8D1|A0A0N7J8D1_9BURK
+MTRTIPIHPSTDASNPAGLQGDGMGCHAGTEAMVAAAKEAGKSEVLDQYARDYPRQPDAG
+PHDQPQSMCPAFGSLRVGLRMKRTATILSGSACCVYGLTFTSHFYGARRSVGYVPFNSES
+LVTGKLFEDIREAVHAEADPSQVDTVIIINLCVPTASGVPLQLLPKEINGVRIIGIDVPG
+FGVPTHAEAKDVLAGAMLKYAREEIMSGPVAAPRAGRGDKPTVALLGEMFPADPVIIGQM
+LAPMGLAAGPVVPTREWRELYAALDCSVAAAIHPFYTASVREFKAAGRPVVGSAPVGLEG
+TQDWLQNIGQSAGIAQAQIDVARNQALTQMRGLLMQKPINGRITLSGYEGSELLVGRLLV
+ECGADLRYVGSACPATEWNAQDIAWLQAKGVQVQMRASLEQDLNAMYEYRPQLAIGTTPV
+VQIAKQNSVPSLYFTNLISARPLMGVAGAGSLVQVVQAAMGNQARFDAMKDFFGDVGAGH
+AAGVWESVPKDRPEFKAETRRQIEKLLKKRKAEEMGS
+>tr|A0A0P0MBR8|A0A0P0MBR8_9BURK
+MSKKIKLLMVDNYDSFTFNIVQYFGELGAEVEVFRNDEITLEGIAARQPDRLVISPGPCS
+PAEAGISVSAIQHFAGKLPILGVCLGHQSIGAAFGGKIVRAQELMHGKTSVITTTQEGVF
+AGLPEQFTVNRYHSLAIERGTCPPCLKVTGWTDDGEIMGVRHTELDIEGVQFHPESILTE
+HGHAMLKNFLERP
+>tr|A0A0P0M978|A0A0P0M978_9BURK
+MQQDILVNWSPQETRVAVVEFGAVQELHVERTLERGLVGNVYLGKVARVLPGMQSAFIDI
+GLDKAAFLHVADVWQKHAEGDAAAARTGQPLVPIEKQVFEGRAIMVQVIKDPMGTKGARL
+STQISIAGRHLVFLPQDDHIGVSQKIPADQRDALRQRLQALVGPAGGGFILRTNAEDSSD
+EELSDDIAYLRKTWARIKEASLRLPPASLLHQDLTLLQRVLRDLVGEATQSIRIDSQEQF
+AQLQAFGQEFMPKAAERLQHYKGERPIFDLYSIDEEIAKALGRRVELKSGGYLIIDQTEA
+LTTVDVNTGGYVGARNFEDTIFKTNLEAAQAIARQLRLRNLGGIIIADFIDMARPEHQDA
+VLAEFRKQLARDRVKTMAGGFSSLGLLEMTRKRTRESLAHMLCEPCPSCQGKGIVKTPRS
+VVYDILREILREARQFNPREFRIVATTAVIDLLLDEESQHLAGLSDFIAKPISLQVEASL
+GPEQYDIVLL
+>tr|A0A0N7J862|A0A0N7J862_9BURK
+MRHILSIAALGFALVSGTTFAADPAKPAAAATAAAPVPAPAASAPAAEKSAQQNKMATCN
+KEAEGKKGDERKAFMKDCLSANKQEKQQNKMKTCNKEAEGKKGDERKAFMSECLKK
+>tr|A0A0P0LHR3|A0A0P0LHR3_9BURK
+MIKYTEDHEWLQIDGDTAVVGITHHAQDALGDVVFVDLPEVGKTFAAKEVAGVVESVKAA
+ADVYMPVDGEVTEVNEELRGDPSLANTDPLGKGWFFKVKLSNPAQVDALLDETAYKQFSA
+S
+>tr|A0A0P0LSI6|A0A0P0LSI6_9BURK
+MYRDTRDTKVKLKQQTLAMAADQGDGYEQYRKLTKRDTFLATMEQIVPWQELCSVIEPHY
+PKAGNGRPPIGLERMLRMYFVQHWFNLADEACEEALLDSTALRRFVGIDLGRERVPDGTT
+LLKFRRLLEKHKLGEALFAKVGEVLQARGMKVGTGTIVDATIIGAPSSTKNADKQRDPEM
+HQTRKGQQWYFGMKMHIGVDSRTGLAHSAVVTAANVHDKHPLPELLHGNEQRVYGDSAYA
+SQRALIESKAPQAKDFTNQRVRRDGEIDEVERSKNHNKSKVRARVEHVFAVVKRLWGFAK
+VRYRGLAKNATRSFVVLGLANIYLARQRLAA
+>tr|A0A0P0M785|A0A0P0M785_9BURK
+MPEIKINVTVGNEYQSISLTASEWQAVQGGAFLVKSVEGVYEGQSFTYEWHFNDPHYSQS
+TLVVTYDEGEGFIGSISDAWVD
+>tr|A0A0P0M9K6|A0A0P0M9K6_9BURK
+MKNLSKILLPLILFTFAQNGLAQERATKEQAVAMVAKGIAALKANGPKAYADMTAPSKTF
+VEKDLYLVVYDMNGKPLAHGQNPSQVGKNLIGLKDPDGKEFVKERVELAKSKGKFWQDYK
+FTDPLTKTVQPKQMYCEKYEEVVVCGGIYK
+>tr|A0A0P0MAU8|A0A0P0MAU8_9BURK
+MLDFNILFPSVLNGITTGAVYALIALGLTLIYGVLHIINFAHGASLMVALYGVYMLKQHF
+GVDPYMALPIMVPAMFVLGYALQRGVINRASHGKDENILLVTLGLSIVLENLALLFFKSD
+TRTIETAYTLTTVQIGPAFIALPKLVSFAGALVVSAVLLLIVQKTDLGRAIRAVSKEKQG
+ARLMGIDVDHVYAMCFGLGLASLGAAACFLMPAYYVNPQVGNGFVLVAFTIVVLGGMGSF
+AGALLGGLLIGVVESLGGLLLGESLGQVGIFVIFIAVLLLRPQGFFGAKA
+>tr|A0A0P0MBU9|A0A0P0MBU9_9BURK
+MSTFQTTGARATGLATIAADGTVLDTWFPAPELAADVAASGSTRLTQAEAVAALGADVAQ
+ALVACSVRNATVVAVRTEIKSLADAPADTHDAYLRLHLLSHRLVLPHGANVTGIFGLLPN
+VAWTNFGPCALADVPAARLKARGTGRVLEIKGLDKFPQMTDYVIPSGVRIANADRVRLGA
+HLASGTTVMHEGFCNFNAGTLGASMVEGRISAGVVVDDASDIGGGASIMGTLSGGGKEVI
+KVGKRCLLGANAGIGISLGDDCIVEAGCYITGGSRVQMPDGSVMKAKELSGKNGILFRRD
+SQSGALHAIPRNKSWGELNAELHKN
+>tr|A0A0P0M7G2|A0A0P0M7G2_9BURK
+MSDSPADRTVRLHRVLKTSPEKIYRAFLDAEAMAKWLPPYGFTCKVHHMTPKVGGTFRMS
+FCNFSSGQSHSFGGEYLELVPNALIRYTDQFDDPNLPGVLEVAVHLKPVLCGTELSIVQS
+GIPEVITLEMCYFGWQESLAQLALLVEPETAG
+>tr|A0A0P0MAN4|A0A0P0MAN4_9BURK
+MSVHVVSEMAVLMRREAVLGAMARWQSHRWVLADVVPQEVGFGQAPRCLRQTDDEVLWLY
+PGWPLELFSDDAEGYWLNLTSPTPSFFVMWRLQEGRDGQEELAVPQALSLSYHDAGRWLD
+AQETVENVPASPEVVARLQAFTDAFYVPEVKRRQRPQSFQGLTDRFGQPASVSTTEKRKG
+GRQGP
+>tr|A0A0P0M7F7|A0A0P0M7F7_9BURK
+MRTATRQLKRWFSVAVAALALSFLTGCASVRLIDSDVVSVAAAPPGMSLQGAKYRFERLP
+SQVHNPEAGLAEQQAQAAMTAVGLVRDDANASLSVMVGFSGTQYLADPWGRPLGSGWTPY
+GSIAIGSGFGRNLGSHVGLGVGMRFPPPTHYRREVSVVMRDLKSGQVVYETRASHAGPWS
+DSVPIFATLFQAALANFPNPPAGPRRVNIEVPR
+>tr|A0A0P0M828|A0A0P0M828_9BURK
+MTTSHTNVDPAELAKFSELAHRWWDPESEFRPLHQINPLRLEWINGLVPLTGLKVVDIGC
+GGGILADAMARKGAQVLGVDLATKSLKVAQLHALEAGTQGVQYREVSAEALAAEQAQQFD
+VVTCMEMLEHVPDPAAVVKACAQLVKPGGWVFFSTLNRNPKSFLFAIVGAEYILKLLPKG
+THEFARLIKPSELTSWAREAGLDAQGFKGMEYNPFTKRYWLSQDTSVNYLLACRKA
+>tr|A0A0N7J8M4|A0A0N7J8M4_9BURK
+MLNIDNLHAYYGKSHVLHGVNFAVGEGEIVALLGRNGSGRSTTAKAIMGLVECEGRIDWK
+GQPIQGKKAYEIAHLGVGYVPENREIFPKLTVSQNLQLGQKRSGQNGRWSFEDMFAMFPR
+LKEREHTEAGVLSGGEQQMLTLCRTLMGDPDLIIIDEPTEGLAPKIVELVGQYLQSLKAR
+GVSVLLIEQKLTIAMSISDRALVMGHGSIVFEGTPDELRANTYIRKEWLEV
+>tr|A0A0P0LEC5|A0A0P0LEC5_9BURK
+MSFKKPSRTMSVPTTQMDWLNDLPAEGLSAAQTLQWLQLWTEQGLLRHIDSALAAQLLRL
+NGQASPGLLVAAALLAQMEGRGYTCLPLADLCAPPVAMLGWSAVAVDGPQGLRALWAHLP
+ATLADWQTALQSNTSRACSRLSDAPDQGQPLVLGGTAPAPLLYLRRYAGYEQRVGQGLLQ
+RAREPLAVPDSAARQWLDRFFVPSTEAPTDTDWQKVACAVALRARLSVITGGPGTGKTYT
+AARLLALLLALHEGDSPLRVALAAPTGKAAARLKQSIDNALTSLQDQVPEGSGLDLNTLI
+ARMGPARTLHSLLGARPDTRQFRHHAANPLDVDVLIVDEASMVHLEMMDALLQALPSTSR
+LVLLGDKDQLASVEAGAVLGDLCRNAAEGRYSAGTAQFVQAVAGQTLPAEYRSAGATPVL
+SQQTVMLRHSRRFKGAIGQLALAVNRGDAAAARAAFDPAVSAVPTPGSVSALLALQPTSP
+QAVCDLALGAHGQPSYADYLRLMQRQPEGQGTDKHTAWVRSVLQAFERFRILCAVHQGDW
+GTQGLNAAVQKALTDADLLKVTGEWFAGRPVMVTRNDAQLGVFNGDVGVVLPNHEGKLKV
+WFLDGEALRSVSVMRLAQVETAFVMTVHKSQGSEFEHTALVLPPGGAEVLSRELAYTGIT
+RAREQFTLLEAEAGLLEAAMARPSVRASGLAQGWSQDGSSD
+>tr|A0A0P0M7L2|A0A0P0M7L2_9BURK
+MRFIFKTEYNQDITLAKHGGHVFWYSLLAIFLVVAPWAVPEYWLAQLTFVLIYAVVGLGL
+MLLAGFTGLFSLGHAAFLGVGAYTQAVMVNAGVPFPLALVCAGVFSAIAGVIVGLPALRV
+KGIYLGMATLAFGFIVEEGMARWESVTGGNAGLMVTYPKLGGWTLDSTDEFYFLCLLVTV
+GATLAIVNLLRSSTGRAFVAIRDSEISAQSMGIHLARYKTLSFALSAALAGIGGALYAHK
+IQFLSPEQFSIIQSIDLLLMVVIGGLGSIHGAFLGAIFLIVMPQLIALGKDFLPAAIGGA
+AGLQGTVYGLVLIAFVLFEPMGLYGRWLKVRTWFQLFPFYRRGLFKRQKSFQKSDRLK
+>tr|A0A0P0MAX7|A0A0P0MAX7_9BURK
+MAQKKGGGSTRNGRDSKPKMLGVKAFGGELISAGSIIVRQRGTKFHAGNNVGIGKDHTLF
+ALVDGHVSFSTKGELSKHMVNVTPAV
+>tr|A0A0P0M960|A0A0P0M960_9BURK
+MNQDMSIVSLLLEASFVVQLVVLTLLGISVSSWAAIVRKIMAIKRIKSLNEEFERVFWSG
+TSLNELFNAASQNAKLSGPMERIFASGMREYQKLRERRISDPGTLLDGARRAMRASFQRE
+MDVAESQLAFLASVGSISPYVGLFGTVWGIMHAFTGLASLQQVTLAVVAPGIAEALVATA
+IGLFAAIPAVLGYNRFSHDVDRIAIKLETFIEEFSNILQRSLGSAGTSGSASGH
+>tr|A0A0P0M900|A0A0P0M900_9BURK
+MRLLGKALTFDDVLLVPAYSQVLPKDTSLATQFTRNIRLNLPLVSAAMDTVTEARLAIAI
+AQEGGIGIVHKNLTAQEQAAQVAKVKRYESGVLRDPVVITPDTTVRQVMALSDELGVSGF
+PVCDGGKVVGIVTGRDLRFETRYDQKVSEIMTPRERLITVPEGTTPEQAKHLLNKHKLER
+LLVVNDAFELKGLITVKDITKQLNFPNAARDGAGQLRVGAAVGVGEGTEERVEALARAGV
+DAIVVDTAHGHSKGVIDRVRWVKQNYPHIEVIGGNIATGAAALALVEAGADAVKVGIGPG
+SICTTRIVAGVGVPQIMAVDSVATALKGTGVPLIADGGIRYSGDIAKAIAAGAGTVMMGG
+MFAGTEEAPGEIVLFQGRSYKSYRGMGSIGAMQQGSADRYFQESSTGNPNADKLVPEGIE
+GRVPYKGSVVSIIYQMAGGLRASMGYCGCATIEAMHNESQFVEITAAGIRESHVHDVQIT
+KEAPNYRAE
+>tr|A0A0P0LT59|A0A0P0LT59_9BURK
+MPTPSIHKTARLGAFAIAAVWLAVAGVLYLVFDQIEQKRQASLKPYALSSGDLVIPRQRD
+GHFHVEGEVNRQPVRFLVDTGASHVSVSQALATQAGLPEGQSITLHTANGQRPGQLVRSV
+PVRAGHLVLNDASVTVGLSGLRPEQALLGQDFLKHFDVEIRRDEMVLRQRP
+>tr|A0A0P0M796|A0A0P0M796_9BURK
+MTVTFRHLAEQVALALTSAVLFVSFFVFNEWIFSSFQYSDGINWIFLPAGFRVILVLTMG
+LPGAIGLMLGSWYIDSATMTSTAWFFPFINGVVSGLTPWLVMKYLIRQGWLAPQLGQITA
+SRLLQVTLIFSAASALSDQLVWWSLEKPDANIWVDVWPMFVGNALGALMMLYSMKFVIDR
+LHQRQKSTH
+>tr|A0A0P0MA13|A0A0P0MA13_9BURK
+MKLNKSLMALAAALALSAQATEFRSADIHNADDYPTVVAVKHMSTVLEKLSGGKHKIKVF
+NKGALGSEKETIDQVKIGALDLVRVNVAPMNGVCPMTMVPTMPFLFRSVDHMRKSLDGPV
+GAEILKSCESVGFVGLAFYDSGARSIYAKKPIKTVADTKGMKIRVQQSDLWVALVSAMGA
+NATPMPYGEVYTGLKTGLIDAAENNIPSFDTAKHVEAVKVYSKTEHSMAPEILVMSKVVW
+DKLPANEQAMIRQAAKESVAVQRKAWDEAEGKSLANVKAAGAEIVEVDKRSFQAVMGPVY
+DKFMTTPDMKRAIKTIQDIK
+>tr|A0A0P0LPF5|A0A0P0LPF5_9BURK
+MRAAVTQFKTHVPGFLICTVIALSATFLSEHYGGPQLLYALLIGLSLHFLSKQAGNFVGI
+NFCARTVLRFGVALLGIRITLEQVTHLGASVGLVLVFAVGVTIASGLLLAQLLRRPASEG
+LLSGGAVGICGASAALAISSVLPATRENERFTLMTVVGVTVLSTLAMVVYPLFLNWLSIS
+PVQSGIFLGGTIHDVAQVVAAGMMMGQESGNAATVVKLFRVVLLLPVVMLIAFGYRKWGA
+VHDADDLSQNKPPLVPGFLIGFMALVILASTGWVPPEVTAMANGVSRWCLVIAIAAAGVK
+TSLGELAKLGWQPVVLLVAETMVIACFVLSAILFMNLGQN
+>tr|A0A0P0MBJ8|A0A0P0MBJ8_9BURK
+MAAIELKGVTKHFGDTVVIPSLDLQVQDGEFMVFVGPSGCGKSTMLRMIAGLETMTQGDI
+WIGGENVSAKGPSERGAAMVFQSYALYPHMTVSENMGFGLRMSGTSKADTAKLVNETAER
+LQLTPLLQRYPKQLSGGQRQRVAIGRAIVRRPKVFLFDEPLSNLDASLRVQMRIELAKLH
+ADLKTTMIYVTHDQTEAMTLGNRIAVFNQGRIEQVGAPMDLYRAPVNTFVAQFLGSPKIN
+LLPYSVDKENQRMVFDEHTSFACEQLGIKLDWLRKGRQIGVRPEALRIFPMNSGGFKGVI
+EFTEQLGDACIVYVRLPWYSGLLTVKLGQQQMGFRIGDPIELKLEQDQFILFDGQANRVA
+LN
+>tr|A0A0N7J8X4|A0A0N7J8X4_9BURK
+MTDPKSAITDIDPRPDDEESASLACVLSFNANDPSGAGGLSSDAVAMASVGAHCMPVCTG
+TYVRDTSSITDFYPLDDEAVHDQARAVAEDVPVQVIKVGFVGTPENLAVIAELSDDYDGV
+PVVAYMPNLSWWEEDKIDAYLDAFRELLLPQTSVLVGHHSTLRRWLLPDWSGERNPGPRD
+IAKAAAELGVPYTLVTGLPLPEQHIDNVLASPETVLAHEKFERIEAVFAGAGDTLTAALA
+ALLATGMDLPEATSEALHYLDRCLDEGFRPGMGQVIPDRLFWALPEGEETDDDGPEVHPG
+SDYFEVPFNETKH
+>tr|A0A0N7J8I5|A0A0N7J8I5_9BURK
+MNTPVSPITKPQADARSSYKAFRPISTRWMDNDVYGHVNNVVYYSWFDTAVNATLIEQGV
+LDIHAGSTIGLVVETQCFYFAPLAFPQTIDAGIRVAKLGTSSVRYEVGLFAQGEDLSAAR
+GHFVHVYVDRETRRPVPLPTALKAFLETLT
+>tr|A0A0N7J8X0|A0A0N7J8X0_9BURK
+MPSIPDKFDADSKIKLFESQHIRSEWDAEAEKWWFSVLDVVAVLTDQPDYKKVRNYWKWL
+KNKLIAEGSQLVSATNQLKLTAADGKKYLTDVADTEQILRLIQSIPSKRAEPFKLWLAEV
+GSQRLDQLQDPELSIEQAMRDYKRLGYTDNWINQRLKSIEIRKELTDEWKKHGLQEGPQF
+AFLTDVIYKTWADKTAKEYKQHKGLKKENLRDNMTNKELIMSMLAELSTKEISEAVQPQT
+LDEHESVAKRGGGVARQARLKLEAETGKKLVSPQNAKQLRALAQNPSKKAGDKT
+>tr|A0A0P0M8X4|A0A0P0M8X4_9BURK
+MLSRTADHLFWMSRYMERAENTARMLNVSYETSLLPQSAAAVEAGWEGILSISELLPSYL
+SQYKTITPRDVMAFMVKNDNNPSSILSCLRAARENARAVRGTLTTEVWETQNQTWLEVNR
+MLKSGEFERDPGQFFEWVKFRSHLSRGVTVGTMLMDESLYFMRMGTFLERADNTARLVDV
+KFHAMQNDFFGAPNFGAAQRQGGPSAEIAEAMHEYDFYHWSAILRSVSGFEVYRKVYRDV
+IRPERVAELLILRPDMPRSLHASLNEVVANLKLVSHDAGSDTLRQAGRLRSELAFGRIDE
+ILATGLHAYLTQFLERVNVLGVRISREFLMPQAA
+>tr|A0A0P0MBD9|A0A0P0MBD9_9BURK
+MSASITPPAGIDPRKDTLIEYPSVFPIKVMGAMVDGFAEAMCQVALQFDPGFDPTTIELR
+PSKGGNYLGVTLSITATSREQLDDLYRALTSHPMVKIVL
+>tr|A0A0P0MBE0|A0A0P0MBE0_9BURK
+MTRSLKKGPFVDHHLLAKVEKAVATKDKKPVKTWSRRSMVLPDFIGLTIAVHNGKQHVPV
+YVTDQMVGHKLGEFALTRTFKGHPADKKVQKK
+>tr|A0A0P0M7C8|A0A0P0M7C8_9BURK
+MSTPDRTPNAVSLQELDFDSQDLQACVAMMQGGSKTFFAASRLLPPRVRTAAIALYAFCR
+VADDLVDEAAAGDTPLDVLQERLDAIYAGTPHDHVEDHALSLVVQQYKLPRHLLDALIEG
+FAWDAGGRTYDSIEDLHAYGARVAGSVGAMMSWIMGPQSMDTLARACELGVAMQLTNIAR
+DVGHDASIGRLYLPRRWLIEAGVQPEAWMAEPSFTPAIASVVARLLDEADRLYKQAHSGI
+AALPPDCRAAICAASMIYAEIGHQLRREGLDSVNKRTVVSTTRKLMLLASAWTQVHWIRV
+ADHSPAPLAAIVGLVQGCRDAAQQTGNKAYFPNRAMPQRVAWMLNLFERRETERLDRNAL
+RQNP
+>tr|A0A0N7J889|A0A0N7J889_9BURK
+MRCDQTQAWTALLAHAAQFKDFDLHTAFAADAQRAEGLSQSAPHVFADLSKNHTDTATEA
+LLIELARQTGLAAHRDAMFRGEPINNTEGRAVMHWLLRQPEGSLTGNLTAPLQQVHDTLK
+PMLAFAEQVRGDTHITDVVNIGIGGSDLGPQMAVLALQDFVIPGKRFHFVSNVDGHELAG
+VLKGLKAENTLFLIASKTFTTIETMTNARSALAWFQAQGGTDVARHFAALTTNVAAAGQM
+GITTTFGFWDWVGGRYSLWSAIGLPVAIAIGAKGFRELLAGAHAMDQHFQAAPLEENLPV
+RLGLLDVWYRNFLNCTSRSIAPYHSALRRLPAYLQQLEMESNGKRVDRIGHALPYGTSPV
+LWGEPGTNGQHAYFQMLHQGTDVVPLEFMAVKKPTHSLKDHHELLLANVIAQAQALMLGQ
+ADEGGHKHFPGNRPSTFLLLDELTPASLGALIALQEHRVFVSGSVWGINSFDQWGVELGK
+VLAKDIHARILSGQTEGLDASSAALLQRVRQG
+>tr|A0A0P0M8L8|A0A0P0M8L8_9BURK
+MAFKKSSITLPSMTPGTQRNISVLRFGKAGARPKVYMQAAIHANEMPGTMALHHLMPLLT
+EANQKGLIQGEIILVPTVNPIGQAQLVGNSHAGRYNLLSYENFNRNWIDLSDAVAARVGN
+KLGADADTNVRTIRKAAQDSLKALKPLNELGTLRVEVQKLSCDADFVLDLHCDIYAALHL
+FGAKNDVATGTLTSLAADLGVEATMYNDPYPKALTFSGVNSVLWARLAEQFPQANIPQAC
+MSVTVEMRSQHDVSDALGQSDAQNLYRWLVRQGVVGGKAAPLKKLKTAPAPMSGMDVGYS
+TCTGFLVFHVKPGAKVKKGQAICDVIDPANPHGAKGRTTFTSQTDGVLFSRRLDGYLSWP
+GQVMYRICGPQPLPHRIGATGLDD
+>tr|A0A0P0MBR7|A0A0P0MBR7_9BURK
+MTPIWRDVSASSLVAGFVAVLVGFTSSAAIVFSAAQALGANPAQTVSWMWALGLGMGLSS
+LGLSLWYRQPVLTAWSTPGAAVLAVSQGVTLPEATGAFMVCALLIMLAGYSGWFERLMSK
+IPMALASALLAGVLARFALDAVGAVAHAPVLVIAMTMAYLLGRRWWPRWSVPVVLMVGMG
+VAAAQGQLHLSSVDGSWGVPVWVSPTWSWAAMVSVALPLFVVTMASQNLPGVAAQRASGY
+NTPVSPVVGATGLASFLLAPFGGYALNLAAITAAICMGKEAHPDPARRYTASVFAGLLYM
+ALGLAAGTIVSLMAAFPRALVLAVAGLALLGTMTAGLTAAVKDEQHREAAVLTFLVTLSG
+VTLAGVGSAFWGVVVGGLAQWLWTRRH
+>tr|A0A0P0M8J2|A0A0P0M8J2_9BURK
+MSGSRSSDGWLAAIPVVFVLIWSTGFIVARYGMPHAPPLSFLALRYTLSIACFLAWISWS
+KVAWPQTRSQWLHLSVTGVLMHAGYLGGVWVAVKAGMGSGLSSLIVGFQPVLTAIWLAYS
+LRGSDQPGVSRRQWLGLLLGFLGLLMVVWRKLTLGTPLDHVTPVNMAFALAALLSITVGT
+LYQKRFVQACDVRSANTVQLLAALVVTLPFALMETETMRWNGELVGAMTWSVLGLTLGGS
+SLLYILIQRGAAASVTSLLFLVPPTTAMMAWLLFGEAITWATLLGTALTAVGVSWVVRPS
+RR
+>tr|A0A0P0MCC2|A0A0P0MCC2_9BURK
+MSHLTPPPNSAPQPAVSDSVSWTDPARHAVFDHWMSGVAASQDLLPGSLRVASADASFRR
+YLRVDRRQGGTLIVMDAPPDKENSEPFVRIAALMKAAGLNAPEVLDWHEAHGFMLLSDLG
+DATMMSAIDPERPQANHGLYMQAVDTLVQWQLASRPGVLPPYDEALLNRELSLFPDWYLA
+QHRGVQLQGAQREVFDKAFALIVQRNLAAPSVYVHRDFMPRNLMMPFGGSVQLGVLDFQD
+AVYGPITYDIASLMRDAFLTWDEDFVLDITIRYWEKARKAGLMDFEDWHSDFGAFYRAVE
+WMGLQRHLKVAGIFARLTLRDGKPKYLADAPRFIHYIRKACDRYRDLGPLLKLIDEIEGT
+TPQVGFAYGRM
+>tr|A0A0P0LDA4|A0A0P0LDA4_9BURK
+MTKNTSRIALILAVGAASLLAACTQEQQNKISRGIQNWTGTNGVMEVYAGEKLVRRFIKV
+DKVSTALGTDDGKPRAYRYGYGVLDENFNFEVDPGEKKVYFEVSDYSNTVFFESPR
+>tr|A0A0P0MAE3|A0A0P0MAE3_9BURK
+MNANPIWLKSYPEGVPADINPNAYSSLVGLLEDSFSKYSERIAYSFMGKDFSFAQTDQDS
+LAMAAYLQSLGLSKGDRVAIMMPNVPQYPVAVAAVLRAGLVVVNVNPLYTARELEHQLKD
+SGAKAIVTIENFAATLEKCIAQTPVQHVVLASMGDRLGLLKGSLVNYVVRNVKKMVPAFN
+LPQGVRFNEALSKGRQQAFRKPELSADDIAVLQYTGGTTGVSKGAVLLHRNVIANVLQSE
+AWNEPAMKRMPEGQQPTSVCALPLYHIFAFTVNMMLGLRMGGKTILIPNPRDLPAVLKEL
+SKHTFHSFPAVNTLFNGLANHPDFGTVNWSNLLVSLGGGTAVTPNVAKLWLEKTGCPICE
+GYGLSETSPSASCNPTTSTEFTGTIGVPIPGTWMKLLDDDGNEITTPGTPGEIAIKGPQV
+MAGYWQRPDETAKVMTADGYFKSGDVGIVDARGYFKIVDRKKDMILVSGFNVYPNEVEEV
+ASGCPGVLECAAIGVPDEKTGETVKLVVVRKDPALTEAQIIAYCRDNMTAYKQPRVIEFR
+DELPKTPVGKILRRELRAKA
+>tr|A0A0P0LFE3|A0A0P0LFE3_9BURK
+MELTVLALSFTLLLILGVPVAFAIGLSSVATIMAADLPVAMVFQKMVGGMQVFSFLAIPF
+FVFAGELMLYGGIADRIVRFANSLVGHVRGGLGMSNVIGCTIFGGVAGSPLADVSAMGSV
+MIPLMKKEGYDADYAVNVTTHASLVGAIMPTSHNMIIFTLAASGLASVSVLGLILAGLVP
+AIILTLCNLGAAYWVAVRRGYPVHGNFPGWFEVIKAFGAALPGLFVVVIILGGILSGAFT
+ATESASIAVAWALFVTVIVYRTLTFQNFLKACAKACKTTGVVLLLIGISNAFGYFMALYE
+VPQMTGALMQKISTEPWVIFLMINLLLFILGTFLDMAATILICTPIFMPIAMHFGMDPMQ
+FGIMLLINCALGLNTPPVGSVQFVGCAIGGISVGQVMRTIAPFYGALTVAVLLVTYVPAF
+TLWLPSFLK
+>tr|A0A0P0M6X6|A0A0P0M6X6_9BURK
+MLSTRQTARGFTLIEVLVAISVMALMSLMAWRGLDGMLRSQSSLQNRSDEIRSLQAGLAQ
+WQTDLDQLAELSGTPSWDWDGQVLRLTRRTTDAPLPSNTPSTSLGTTNGPSSRVPASVRV
+VAWTWRSDPGRPGGGDWQRWQSPPLSQRQDWQNAWALAAQWGQTANESTRAGQIQIHPLS
+GWQLFVHRGGSWTNPLSSDVVSAGTPGTNNGTPISAANTAPIATTPDGVRLVLSLPPGPA
+GAGSLTLDWVRPTLSGAPS
+>tr|A0A0P0M7A8|A0A0P0M7A8_9BURK
+MFEQTFKNIDDILHKDAGCTSELDYTEQSSWLLFLKYLDALEADKATEAVLEGRDYQFIL
+SEPYRWAAWAAPKGADGKSDHNAAMTGDDLKGFVNGKLFPYLAGFKQRASGPQTIEYKIG
+EVFGEITNKIQSGYNLRDVIDRIDELRFGSQAQKHELSHLYEAKIKNMGNAGRNGGESTH
+PAH
+>tr|A0A0P0M8K4|A0A0P0M8K4_9BURK
+MSRQAAIDRAQRHFDEGHFQQTLARRVAAPTESQNPERAQQLEAYLTQEMQPAFEAMGFA
+CRLLHHPKAKAPFLWAERIEDPALPTALGYGHGDVIRGLDKEWKSGLSPWSLTEQAGRWY
+GRGIADNKGQHSVNLQAMACVLAERGRLGFNAKYLIEMGEETGSPGLRDVCAEHRELMQA
+DLLIASDGPRLRADRPTIFLGSRGCINFELSIEARAGAHHSGNWGGLISNPGIQMAHALA
+SLVSATGEILVPEWRPAELPASVRRVLADCEVDGGADGPVIEPEWGQPGLSPAERVFGWS
+SFEVLAFKTGNPDTPVNAIPARAWACGQLRFVVGIDPDDILPALRRHLDRHGFGMVKVKA
+ARDELFKATRIDPDDDWVRWAVDSLASTTGKKPAVLPNLGGSLPNDIFTDVLDLKTIWVP
+HSYPGCSQHAPNEHLPAELLREALTVMTGLYWDLGSGAVPALSR
+>tr|A0A0P0MAM7|A0A0P0MAM7_9BURK
+MSDPQALARLVGETMFAVDVASKDTMGMELLACEPGRALMRMTVKALHLNGHQICHGGFI
+FTLADSTFAFACNSYNKNAVAAGCSIEFLKPGKLGDVLTCEGLEQTLSGRHGIYDMRVTN
+QNGEVIAMFRGKSAQIAGTVVPE
+>tr|A0A0P0M6W8|A0A0P0M6W8_9BURK
+MSDKNIVLNVNGIEVIYNHVILVLKGVSLQVPEQGIVSLLGGNGAGKTTTLRAISNLLKG
+ERGDVTKGSIELRGERIENLTPADLVNRGVVQVMEGRHCFAHLTIEENLMTGSYTRTDKG
+EIAANLDKVYTYFPRLKTRRTSQAAYTSGGEQQMCAIGRALMTNPSVMLLDEPSMGLAPQ
+IVEEVFNIVKDLNDKEKVTFLIAEQNTNMALKYSDYGYIMESGRIVMDGEAEDLRTNEDV
+KEFYLGVGGGERKSFKDVKSYKRRKRWLA
+>tr|A0A0P0MC23|A0A0P0MC23_9BURK
+MLAFQKFQHQMAAHLRDPHHTRRPPGVPGRRMRVYSELLFNNVCGFLDSCFPVSRQLLGE
+ARWRRLCRTFYRDWPSHTPWFREIPREFVRYLSEHHIAQPLPVWLADLARYEWAELAVDV
+MDVAPPAHDPQGDMMLSSVCLNPARVDVVSAWPVHRIGPDWQPRQAEPTFLVVFRNAQLD
+VQFAEINAVTAHVLGLLDQGLSGQQALAQLATDMKHPDPQALQGFGQELLTSLHEQGVLL
+GTRT
+>tr|A0A0P0MAH5|A0A0P0MAH5_9BURK
+MMKLKSFVAAIGLSAVAAVSFAADITGAGATFPFPVYAKWAEAYKAATGTGMNYQSIGSS
+GGIRQIRAKTVTFGATDAPVSGADLDKDGMVQFPAIIGGTVPVINLDGFKPGELRVTGPV
+LAEMFMGKISKWNDPKFAALNPGKNLPNEIITVVHRADGSGTTFNWTDYLTAISKEWADT
+VGKGAAVKWPAPTSVGGKGNEGVAANVNRVKGSIGYVEYAYVKKNNMNFMQVQNANGKYV
+SPDDLTFAAAAAGADWFSVPGMGVSMVNAKGDNSWPISTASFILMYKNPADKAASAEALK
+FFDWSFKNGKKMAADLDYVALPDSLTNEIRAKVWSQIQK
+>tr|A0A0N7J965|A0A0N7J965_9BURK
+MSTTTESLQQALSDLFAPWVQALNLKVERFDADSVTLRLPQSDQLSRVGGMLCGQAMMAA
+ADTAMVLALIAHFGQFRPCSTVQLSSSFMKPLSGQDALVTARVLRAGKAMAFGEIDLTGA
+DDGKSVFRASTTYALM
+>tr|A0A0P0MAE7|A0A0P0MAE7_9BURK
+MDLFDNLALGFGVAFTFQNLIYAFVGCLLGTLIGVLPGVGPVATIAMLLPATYALPPVAA
+LIMLAGIYYGAQYGGSTTAILVNLPGEASSVVTMIDGYQMARKGRAGPALAAAGLGSFFA
+GCVGTLVLAAFAVPLTEVAFKFGPAEYFSLMVLGLIGAVVLASGSLIKAVGMIVLGLLMG
+LIGTDVNSGVARFSFDIPELTDGVGFIVIAMGVFGYGEIISNLSKPEEDREVFTAKVTGL
+MPTAQDFKRMVPAVLRGTALGSALGILPGGGALLAAFATYTIEKKTKLQPGEVPFGQGNI
+RGVAAPESANNAASQTSFIPLLTLGIPPNAVMALMVGAMTIHNIQPGPQVMTSNPELFWG
+LIASMWIGNAMLIILNLPLIGIWIKLLSVPYRWLFPAIVLFCAIGVYSTNNNTWDIWMVA
+MFGVIGYMFIKLGMEPAPLLLGFILGPMMEENLRRAMLLSRGDWSVFVTRPLSASLLAMA
+LLLLIIVALPSIKSKRQEAFVEE
+>tr|A0A0P0M8N9|A0A0P0M8N9_9BURK
+MDMKTSPLALLNDPTLLKTDALINGQWVASNQRFEVTDPATGQHLANVANLGAAEAEAAI
+AAANAAWGPWKTKTAKERSIILRKWFDLLVANTEDLARLMTAENGKPIAESRGEVAYGAS
+FVEWFAEEAKRVNGETLPQFDNNRRLLVLKQSIGVCAAITPWNFPLAMITRKVAPALAAG
+CPVVIKPAEQTPLTALAAAELAIRAGIPAGVLNIITADGPQSIAIGKVLCASDVVRHISF
+TGSTEVGRILMAQSAPTVKKMSLELGGNAPFIVFEDADIDSAVEGAFASKYRNAGQTCVC
+SNRFYVQESVYEEFATKFAAKVKTAKVGNGFADGVNQGPLIEPSALDKVERHVKDAIAKG
+GRVLTGGNRLDGQFFEPTVIADARADMVCAKEETFGPFAPIFKFKTEQEAIDAANNTEFG
+LASYFYSRDVGRIFRVSEALEYGMVGINVGILATEHVPFGGVKQSGLGREGSHHGMDDYV
+EIKYLCVGDILK
+>tr|A0A0P0M6P8|A0A0P0M6P8_9BURK
+MTPLRVAFLLAALCGVAAWQVTVIPESMMQMTVGPVLAPGVIVAALSAFAVLYGVSAWRG
+HQTDESQAPDQSPLPGANARVLSLLGGGVAFIVLVIPLGFVIPGTLCGMGVARAFDAPLG
+LKSALICAAIASTFWFVFAQLLGVGLGPALPWLI
+>tr|A0A0P0M8W2|A0A0P0M8W2_9BURK
+MSSHHSNPRDLLNAATRSLIERVHRAGRPPMAAMTPAQARAFYDIGGPMLDLQPAPKVNR
+VEDILIPARDGHAMPARLYAPRSDVALPVLMYIHGGGFSVGSLTTHDVLCRQLSRLGHCV
+VVSLDYRLAPEHRFPTAVHDSWDALHWLHHNGQTLGLDTTRLAVGGDSAGGTLAAVCALM
+ARDAGLPLRLQLLFYPGCIARQDTASHHTFAEGFMLDKGTVDWFFDNYIDQADRDDWRFA
+PMNANDHTGLAPAWIGLAECDPLVDEGVQYADTLRMAGVAVDLEIYKGVVHGFITMGRAI
+PDALQAHADAGRALKHAFES
+>tr|A0A0P0MBI5|A0A0P0MBI5_9BURK
+MNAGLQIDIQRLGTAAQTLVQDLHLKVPAGEILTLMGPSGCGKSSVLAATAGTLASVSEG
+LQPLQFDGRVQLNGRDLTTLPTHLRGVGLVFQDALLFAHMTVAENLLFAVPRALPLAQRQ
+ARVQQALQEAELSGLAERDPSTLSGGQRARVALMRALLAEPQALLLDEPFSKLDAALRAQ
+LRPWVFAHVRERRIPVVLVTHDEQDVADPQRVVHLRATEESSSHV
+>tr|A0A0P0M768|A0A0P0M768_9BURK
+MSKLKHAALVLVAASLMTAQAQASEPPATQLQAQSVAAFSDAEIAAMFDPSGPSMQLAML
+SSVEMKETEGAWGFWGAAIGGLGGFSGFAINNRISGHNWSWANAGAATFRGAMSGATAGP
+VGVIWGFNRNIAFGTAQGVFNRLR
+>tr|A0A0P0MC35|A0A0P0MC35_9BURK
+MSVKTHLSAPHLNTSNRGRCFWLRLQAKVLLVLGLRNQAHAVFHEILQINPEDVLALNSV
+GFKELNDKRWVQALGFFERALALTPTNANAHFNVGFVREELGLSQDAEQAFRAAIQIDEK
+MDRAWYGLGLVLVRQRRFEESLLAFKRNTELQSMSPYAWYQMARVHMEMHAPDKALEVMR
+HLKGFEPKVAAQLERETGLSLDRPV
+>tr|A0A0P0M8Q2|A0A0P0M8Q2_9BURK
+MLELRHITHHWLGPQGQRQTLLQDVNLRIEAGQTVALLGASGSGKSTLLKIVAGLETPES
+GSVWLDGQDISDWPPEKRRLALMFQDFALFPHLRVQDNVAFGLVEQGLGRNAARGQAQAL
+LQRFGLEGRGGERVDTLSGGEQQRVALARALITQPRALLLDEPFSALDAELRVSLREEFA
+RHIAEHGMRALLVTHDEAEARAMASAAWRLQGGSLVSLW
+>tr|A0A0P0MA15|A0A0P0MA15_9BURK
+MIDALYNGGLNLVAASWWATLVWPVLWILLKIVAILAPLMGAVAYLTLWERKLLGFMQVR
+HGPNRVGPMGLLQPIADALKLLTKELINPTAASMGLFRLGPIMAIMPALAAWVVIPFGPE
+VALTNINAGLMLVMAITSIEVYGVIIAGWASNSKYAFLGALRASAQMVSYEIAMGFCFLV
+VLMVSGSMNLTEIVLAQGKGAAADMGLSFLSWNWLPLLPIFLVYLISGVAETNRHPFDVV
+EGEAEIVAGHMVEYSGMGFAIFFLAEYASMWLVSILAVIMFLGGWLSPIDHALFNAIPGW
+IWLGLKTFLVVSMFIWIRATFPRFRYDQIMRLGWKIFIPVTLVWLLVVGVWLHSPWNIWL
+>tr|A0A0N7J8V1|A0A0N7J8V1_9BURK
+MLENLSLNYVTRVQDDLSGITPEAWDGLLAQQDAPSPFMRHAYLSAMHASGSAVPETGWT
+LQVISLWRDTPTGHTLAAACPLYLKTHSRGEYVFDHAWADAYERHGLNYYPKALVASPFT
+PVPGSRLLAESDASRQALLAALLDICQTNNIPSLHILFGSPQDLQACETAGLLQRSQVQF
+HWQNQGWRDFDDFLDSLNQEKRKKIRQERRKVAEAGVSFRAVRGPDMTGDDWALLLRCYQ
+QTYWEHGNAPYLKPEFFEAMRRDMAANWLLFVAEHEAQPIGISLIGLHLNAAGQPEVAYG
+RYWGALARVDCLHFEACYYQPIAWCIANGVKRFEGGAQGEHKMARALLPTPTHSAHWLAH
+PSFSEAVARYLEREKAGIDNYMDALQQHSPLKKPQ
+>tr|A0A0P0MA34|A0A0P0MA34_9BURK
+MVADSFHTQPLRQFLQSVERYQVLALSLNKVQLFEGNRDSLEALSLASEVPRSSSDTSSD
+RQQTAHSSVSSYGGLGAGHSAMHHGQGGKKDGMDSEVERFFRAVDRAVQAHHSDVSGLPL
+MLAALPEHHHLFQAISHNPRLMKQGLHINPESLSPTELQQRAWAVAAPAQQAQQSAWCDD
+YTAAKAKGLGSDDLADVAHAATAGRVSTLLIEAGRLVAGRIDGTTGRIDYSELGYPRVDD
+VLDDLGTLVEKLGGQVHVLAAERMPTTTGVAASYRH
+>tr|A0A0P0LGB1|A0A0P0LGB1_9BURK
+MSELIQTVLIYALPVIFAITLHEAAHGYAALRLGDNTASMLGRVTLNPLPHIDLLGTIVL
+PLLLYFSTSGAFLFGYAKPVPVRFDRLRHPKRDMVWVALAGPGSNLVQALLWGVLFYVLA
+GSGVTERFFIEMCKAGMLTNVVMFAFNLFPLPPLDGGRILVGLLPWRQAVLVSRVEPWGF
+FIVMALVLTGLISAWWMQPLMGLTFDFLKLSLSPLASLLR
+>tr|A0A0P0LVI1|A0A0P0LVI1_9BURK
+MNKQHLITIALGSAFAAATLLPAHAAGNPFAAKTLDAGYQVAQADTKAKDGKCGEGKCGG
+DKKATKAKDGKCGEGKCGGDKKATKAKDGKCGEGKCGGDKKK
+>tr|A0A0P0MBF0|A0A0P0MBF0_9BURK
+MTKIASSLKTGMPSDTPDAADEGLEPEFKPLSAEQARAWRQHNPQASPWRVLFLQVGVGA
+LMALVTGLFTGEWKLAASSAWGSVAVVVPAVVFVRALSRQMRRTQPGSALMGLMVWELVK
+IVLTVALLLVAPKVISDLNWFALVAGFVVTMKVYWLAMALGWMQRKSKPTLF
+>tr|A0A0N7J900|A0A0N7J900_9BURK
+MAFFKNIPYELVLGWRYTRAGRATRRNGFISFISGVSMMGIGLGVAALIIVLSVMNGFQK
+EVRDRMLGVVSHIEVYAVDAAAVTDMPGLLSRLKAHPQVLGAAPFITAQALLARGEDMKG
+VLVRGIDPALEPEVSDLSNETQAGVLQRLQPGEFSLVLGRDLANNLGLQSGDPVTLVSPS
+GQVTPAGVVPRMKQMGVVGTFSSGHYEYDSALALMHVEDAARMFRLEGPSGVRLKLRDLH
+QAREVARDLQLDLGPAFFVRDWTQQNKTWFAAVQVEKRMMFIILTLIVAVAAFNLVSTLV
+MTVTDKRADIAILRTLGASPRSIMGIFVVQGATVGVIGTMSGLLLGLLVAFNIDVIVPAL
+ETLFNASFLPRDIYLISRMPSEPLASDILPVAIISLVLAFVATLYPSWRASQVNPAEALR
+YE
+>tr|A0A0P0MAT5|A0A0P0MAT5_9BURK
+MTTQGFVVTHAKDAQFEKGLRSFFEYRDLGMKAATGGRVTASVIRAAGGQDFSSQPHFHK
+TQFQLVYVLKGWIEFEYEGQGVVRLEAGSCVHQPPEIRHRELGHSHDVELLEVVLPADFD
+TVTVDNVNPKEG
+>tr|A0A0P0MBG7|A0A0P0MBG7_9BURK
+MDFKPLITLLAIVNPLAIVPFFIHYTQGFSAAQRKKTIWVSSFSAFVVIAASALLGLQIL
+EFFGISLASFQVGGGMLLLTAALSMLNAQPAEARANADEVHDAEAKAAIGASIAVVPLTI
+PLLTGPATMSTVVIYAEKAKNFAQLGTLVGYGVVIALATALCFSLATPIARILGKTGINV
+MTRLMGLILAALAVEVMADGLHKLFPVLARGL
+>tr|A0A0P0MB34|A0A0P0MB34_9BURK
+MPALSFQSVSKIYPAKQAGAATFKALNQVSFDVEEGEFFGLLGPNGAGKTTLISTLAGLS
+RPTTGRVLVHGHDVQSDYAAARRLLGVVPQELVFDPFFTVRESLRIQSGYFGVKKNEAWI
+DELLESLGLADKAGSNMRQLSGGMKRRVLVAQALVHKPRVIVLDEPTAGVDVELRQTLWA
+FIAKLNKQGHTVLLTTHYLEEAEALCGRIAMLKRGQLLALERTSDLLRSATSQVLRFKLD
+GDLPPAVAAIARVTGRIVQLPVHNAVEIEKHLATIRTAGLVAEDVEIRQADLEDVFLEVM
+NRKQTAAGALA
+>tr|A0A0P0MBE4|A0A0P0MBE4_9BURK
+MTSLSSASIALQGASNFRDVGGYLNTQGRRVRRGQVFRSDHLAGLKGEDVVRLQSLGIGH
+SLDFRGVNECAATPYAIPGVERVALTIEPTVIARMQALVAQGVVPTTEETVDLMRETYRD
+FVNHNAATFGRFLKHLLEKPTPQVFHCTAGKDRTGFAAALLLSALEVDRATIEHDYLLTN
+QLYKRDARLEGQGHPHVMKVLWQVQPEFLHAAFDTVDAQHGGMREYLHGAIGLSPQELAE
+LQRLLLEA
+>tr|A0A0P0M7S1|A0A0P0M7S1_9BURK
+MSAVQIGLDAVSVQLGAQAALTGVSLRIEAGERVALVGANGSGKSTLLRTLHGLVPPTQG
+RVQQAPGVRQAMLFQRPHLLRLSAQNNVALGLWLDRTRGLSWAAAKALALQALERVGLLS
+VGQQNGRQLSGGQQQRLALARAWARQPDVLLLDEPTASLDPHAKREVEALMAEFAGAQDR
+PLTLVWASHNLGQVKRLATRVIYLEFGQVMADLPVADFFNPELLAERSPAAHAFVQGELS
+>tr|A0A0N7J8W3|A0A0N7J8W3_9BURK
+MRIASFVGQKGGVGKSTLARVLAVAAARAQHKVLIGDFDLEQLTCVEWGALRLRNGIEPE
+IEARAFKSLKKLRKTVEGYDLVVVDTRGLADELTEDVSRESDVVFLPTGTSMDDLRPTLA
+LARKLAKTRSVGNKIVIVLSKTGRSERLLEQAEATIAEAGFDMLNAVWPERDGFQADLDV
+GRAGSESSNPHLKQAAQDVERALLTLAMT
+>tr|A0A0P0M7L7|A0A0P0M7L7_9BURK
+MNSTTAYEQRRSQIEHYFDRTAADAWARLTSNEPVGRIRATVRAGRDTMRETLLSWLPQD
+LRGLRVLDAGCGTGALALQAALRGAEVVAIDLSPTLVKLAAERMAAEHPTLPGSVEFMSG
+DMLSPDLGHFDHVVCMDSLIHYDSDQIAEALAGLAQRTRGSMAFTFAPRTPLLALMHSAG
+RLFPRSDRSPSLSPVAHADLLQRMQNHVDLQGWQGARMQRVASGFYTSQAWEWTRS
+>tr|A0A0N7J8G6|A0A0N7J8G6_9BURK
+MSKPTDTRDSLLDTWLAEEKEVRQRLDAGAGPGVARPDQVAGKTGLQVMQGLLSGELPYA
+SIAKTLDFTLIEVSEGQAIFQGAPGLNHMNPLGTVHGGWFATLLDSALGCAVHTMMPPGR
+GYTTADLSVKLVKALTPKVQRVRAIGQVVHCGRQLATAEARLVGPDGTLYAHASTACLVF
+DMPSPTGNKP
+>tr|A0A0P0LFD0|A0A0P0LFD0_9BURK
+MHSAHASRRSLLLAAVGSLAATQARAAPSLDAGRTLPRVRLALAASQSLYHLPLNLAERL
+GFFRQAGVQLEWLPQESGARAVSLALSGQADVVAGAYEHLFGLHLKGLYYKSFVQMSRTP
+QVSLGGSTRGGMVWRTGADIRGMRLGISALDSSTHWTACQWLMRQGLTAEDVVLVPVGSS
+QGVMEALRSGSIDALCNPDPVMHGLEQKNEIRLLGDARTLQGTRQLMGGSVPGSSLFAHA
+DFLQQHPDRVKALSDGVVQALKWLQTAGLTDILRTVPASHWMGDRAIYLGAFEKLRESYA
+VDGLVRSEDVSHAWRVHAKLFGANGPKPVVLERTFTNAFVQRSTQRRLS
+>tr|A0A0P0M7S5|A0A0P0M7S5_9BURK
+MRAALWLMTLFALAAAGAWLAGNNQGAVTLFLFPHRIDLSLNLAVLAVFSVVLLVILAQR
+ALAAFLALPKRAQRWRLQQKERASHAALLDSMGHLMAGRYLRARKAAEQTLAKEALLQSS
+GVTLDHALSLRTLAHIMAAEASHALQDKVRRQHHLDQALVQVQASPGSERQSLLEGTQLR
+AARWSLDDRDAKASLERLRALPPAVGRRMAAMRLQLKAARLAGQPAQALETASLLAKHRA
+FSAQAAESLVTRLILELLGQTHDMDSLQRVWKRLSSSQRLLPDVAAEAALRCLQLGGPAA
+TARLWLQDLWIPMQANPVIWSDAQLLRVVQAFDACLPGAEADDAFAWLTRLESAHQSQPR
+AAHLLYLAGQLCMRQRLWGKAQSLLGLAVKNLQVPSLQRKAWMALAELAEQRQDPVQAAA
+AWKQAAKVSSD
+>tr|A0A0P0MAK3|A0A0P0MAK3_9BURK
+MPHQPASAALSRFRVIDLTQVRAGPTACRQLADWGADVVQVQMPEHMRGDDTLGGQEGSD
+YQYTHRNKRSITLNLKEPEGIALLKQLIAKADVVVENFRPDVKFRLGIDYESLKKDNSGL
+VYASISGFGQTGPLAARPGFDQIAQGMGGLMSVTGLAEQGPMRVGIPIADLCAGIFAAQG
+ILVALLEREKSGQGQWLHTSLLESMVYMMDFQTSRWLIDEEVATQAGNFHPTSIPTGVYK
+ARDGYMNIAVFGSKIWERFCDILEAPQWVTDPRYHDKPSRSVNRDALNAEINERLAKQDR
+AYWIERLNDGGVACGLINSMDEVFNEPQVQHLKMVKDVVSVHQGPQRLVGQPVQLERTPS
+TIARAAPRRGEHSVEILGELGLDDQTLAALKSKGVF
+>tr|A0A0P0MA83|A0A0P0MA83_9BURK
+MMSAVFKGVSMIKGLVAVVCAVLMLPSWAQSQGQASSKTRANAKAPEASAQAKARAAADL
+TALLQARAIAQALAQAAAVAQASRPMSAQAPAEAAPTINVPAYVAVPQPTEFRASSPMQP
+LPAWTDVQTTRSDAPIATTSAVVPALVKAPALAAVQLQVPVVPGLAATAPVVASDPVSQD
+LAIAQQIHQGLMPCEMGASVRVEADAAAPGFFHVQGKGFRYRMYPVRTSTGALRLEDKKA
+GAVWLQLANKSMLMDQKKGRRVADECAHPEQVAYGQDMKTNPPPSLFDKTGMGRSND
+>tr|A0A0P0LP81|A0A0P0LP81_9BURK
+MAVQQNKKSPSKRGMHRSHNALNVPGIAVEPTTGETHLRHHISPNGFYRGRQVLKNKSEA
+>tr|A0A0P0LRP4|A0A0P0LRP4_9BURK
+MSLIPYALARPFLFKMDPEAAHDLTIEGLARTQNTPLDCAYRQPFVAQPITLAGLHFPNR
+VGMAAGLDKNARCIDGLGAMGFGFVEVGTVTPKAQPGNPKPRMFRLPEAQALINRLGFNN
+DGLDAFIANVKRSKFRQQGRLLGLNIGKNAATPIENATDDYLIALSGVYPHADYVTVNIS
+SPNTKNLRALQSDEALDGLLGALVARREELAAEHGRRVPMFLKIAPDLDKTQVGVIAATL
+QKHGMDGVIATNTTLARDAVSGLAHAEEMGGLSGAPVLASSNRVIQQLRAALGKDFPIIG
+VGGILSGHDAIAKIEAGADVVQIYTGLIYKGPELVTEVASALQQMKR
+>tr|A0A0P0M8B8|A0A0P0M8B8_9BURK
+MNAPKFRPLKFGVTRVQLRDGEPGTRYLQADQALQAFPDRLTDRLQHWAHTKPHQTFMAR
+RVKNTDGTLGDWRHITYAQAWQTARSIAQSVLDRGLNAERPVVILSENSLEHALLALGCL
+IAGVPYVPTSPPYSLVSVDYDKLKHVLRTVTPGLVFASDARYAKAIAATVGEDMEVVMCE
+GDVPGRTVTAFDSLCATTATPAVDAAMAATGPDTIAKFLFTSGSTKLPKAVINTNRLWCA
+NQQQMAQSMPVLAEQELVLVDWLPWNHTFGGNHNFGMTVFHGGTLYIDDGKPTPALMHET
+LRNLREIAPTVYFNVPTGFEAIAHAMQNDDQLRKTLLSRVQMFFYAGAALAQPIWDSLYA
+SQEREVGERIVMGTGLGMTESGPFGIFVTNPFVQAGDLGVPTPGLELKLVDTDGKTEVRY
+RGPNITPGYWRNAQETTGAFDEEGFFKTGDAVKWIDESDVHLGLKFDGRIAEDFKLATGT
+FVSVGPLRAKIIAAGAPYIQDAVLTGINLKEVGAMIFPTPAVRALSGLPAEAPLADVLAS
+APVLAKFQDVVNTLALSATGSANRIARLCLLSEPPTIDKGEITDKGSINQRSVLAHRATT
+VAALHEGTLPHILQPQ
+>tr|A0A0N7J915|A0A0N7J915_9BURK
+MVNRLAANFQPPAWVVDESINRLVLFLNHVLMSEPEAMARLARQKGQRIELVWERMQLQL
+SPTPAGLLERGHFEGFDLRLTVTEESPVSLASALARGDKPKVRIEGDVQLAAEVNWLIDH
+VRWDAEEDLARLIGDAPAHTLAQVARQAMTALRGFVAQRPGTGLRTGSAA
+>tr|A0A0P0LAL3|A0A0P0LAL3_9BURK
+MPNNSPIFVRQTLCALLVAGLALVGGQALAQNLPSGILPNGVAPADTAAAGFAPPAALPT
+QPPFGLVTPPVLPQRPDLGAADVQRTALGQIRPAKPQSPSQFQRFVQASTGKLLPHFGSN
+LFENPLAYAADSAAPAPADYVLGPGDEVRIQIWGGVDHAGNQTLDRSGQINLPKIGTIGL
+NGVRVKDLEDTLRKRIATVFNSVQVNATLGKLRGITVFVVGQAQQPGTYNLSGLSTLVNA
+VFASGGPGVNGSMRAIELKRNGQTVTTLDLYDFIARGDKSKDVTLQPGDVIMIPPAGPRV
+AMTGAWDHAAIYEIKPGNTVQDVLKLGGGMPTLAAPQKALLERVAPGQNTPRQVKELVLD
+TQGLQATLQDGDVFTLFGISPEFSNAVTLRGNVEAPLRYSYTAGMRISDLIPEPKALIQK
+DYFVRKNGLVQLNAGQNVSGDRVINDVKNLLEEINWDYAAIERLDAKEVKTVLIPFNLGK
+AIKDKDPQHNLRLMPGDVVTVFGVKDLPVPMEKRTQFVRIGGEVKVPGIYQISPGETLPQ
+LLERAGGLSRNAFAYGTVFSRESTRQEQQRNLEKAKRRLEQDINSQVASQLQNVTDSEKG
+SAVQAQIAGQKILLSRLQGLSASGRIALELDSKNPQLPALELEDGDSIIVPHKPSFVGVF
+GAVMAETSFIYKSGNDVAHYVEKAGPTREADLDAALLIRADGTVQSNKAGRSWLGLGNAN
+FMTSVLNPGDTVFIPEVLDRRSAYTQFIQGAKDWTTLLYQFGLGAAALKTIRN
+>tr|A0A0P0M920|A0A0P0M920_9BURK
+MSYALELQDVRKNFGKTEIIRGVNLAVNAGERVAVIGPNGAGKSTLFNLISGRFGPTSGE
+ILLNGQAIQNKTPYEINRMGLSRSFQITNIFPKLSVFENLRCAVLWSLGYKYSFWKFLSG
+LKDANERTDELLDMIHLDKKRDVLAVNLTYAEQRALEIGVTIAGGSDVILLDEPTAGMSK
+SETSRFIQLIKEVTVGKTLLTVEHDMGVVFGLADKIAVVVYGEVIAFDTPEAVRANAKVQ
+EAYLGSPVADSQAGGH
+>tr|A0A0N7J8Y3|A0A0N7J8Y3_9BURK
+MSEINVTPLVDVMLVLLVIFILTAPLMTSAIRLDLPQSEGGEPGAAPQAVVLVVNAHGQW
+FLNDQPMAENALREQLAQAARRNPLTELELRADASVPYGRVVEAMGLAQKAGLSRIGFVA
+EVVSP
+>tr|A0A0P0M7J7|A0A0P0M7J7_9BURK
+MQKRRFLSAIACATLAMSASAAMAQDKFKIGLILPMTGPFASTGKQIEAAARLYMAQNGD
+MVAGKKVELIVKDDTSAADVTKRLAQEMVINEKVSVLAGFGLTPLAFATAPIATQSKTPM
+VVMAAATSSITQASPFIVRTSFTLPQAAVAIADWAPNNGIKKVVTLVSDYGPGIDAEKFF
+KDRLLFNGGQVLDSLRVPMRNPDFAPFLQKVRDLKPDAVYVFVPSGAGAALMKQFAERGM
+DKAGIKLIGTGDITDDDILNSMGEVANGVVTSHHYSASHNSALNKKFVAAFEKANNGLRP
+NFMAVGGYDGMRVIYEAAKATKGAGGEALLNAMKGQVFESPRGPMFIDAQTRDVVHNIYI
+RKVEKVGGQLYNQEFATIKDVKDPGKTK
+>tr|A0A0P0M7S0|A0A0P0M7S0_9BURK
+MNLDLPLAIRAFEVLLGWSLLLQSAEFLRLRPLDRVSDWHIQRAEVPKAWVRHALDMFYR
+PLPYGGMLWLRGALALALMLGHAGPGSAVLLFLMALLILLRWRGAFNGGSDFMTLVGLTG
+LLLAHVLGLFTDAANAWRVALWYVAVQSLSSYFVSGWVKLMRPEWRSGRALTVFLDNAVY
+GPLPADSIYRQPQLAMLCSWGFIVWEGLFPLALLDVRLAVMFCAVAAVFHFLVFWFFGLN
+RFFWAWLSTFPAILYCASA
+>tr|A0A0P0LE69|A0A0P0LE69_9BURK
+MRNRGFTLLEVLVVLALLAVLLSLAAPSLIGLRQKHQMQSQAEQLQASLLLARSEALRRQ
+QRVTLCVRESSDGAGLGCASAGTWAQGWVVFVDGNDNGRREATEAVLQLHQALPGFLTLQ
+GNAMVDRYISYGPQGRSQSTSGAFQAGTLTLCGAGQTHVWRVVINAVGKPRLEKAEHQDS
+ANC
+>tr|A0A0P0LMU8|A0A0P0LMU8_9BURK
+MNPATDPSTTPVYGVRPSKPGLYLGLFHGRDTPNQAMHGWGFDGPAIGPLRYFHTTYACS
+VNVEFVSPTDAQLFTGSHDTLMDLAINGDLLCFDGKLYGDWTVYMVTPEECFRPPDTFRQ
+NTRPNDLRRQAKPIPWDEDS
+>tr|A0A0P0M954|A0A0P0M954_9BURK
+MKQEQIDTLRHQPIPDQGLLIDGQWAAAASGQMLLVVSPIDGQTLCTIAAAGQADVDRAV
+KAARRSFESGVWSRMAPAERKKVLHRIADRIEAHHAELAVLGVRDNGTEIAMAWKAEPGN
+AAGTFRYYAECVDKINGEIAPTPEGTLGLVHKEPVGVVGAIVPWNFPLMIGAWKIAPALA
+AGNSVVLKPSEDASLSLLRLAQLCLDAGLPPGVLNVVTGTGAEAGEAIARHMDVDILTFT
+GSGPVGRMLLKASAESNLKRVYLELGGKSPNVVFDDAPDLAQAAKVSAMGIFRNSGQVCV
+AGSRLLVQRSVHDEFVERLHKIAASLRVGDPLDVSTEIGAVSSARQLAKNLAAVQTAQQQ
+GARLRVGGQALQPVVGGSYMAPALFDDVTPDMTLAREEVFGPVLAVMPFDDEAEAVRLAN
+DSTYGLAAGVWTSSLSRAHRMVRAIKAGVVHVNTYGGPDITVPLGGVRQSGNGHDKSMHA
+LDKYLDLKTAWIQL
+>tr|A0A0P0MA04|A0A0P0MA04_9BURK
+MDKLNCFSLTTEGYVAHLVMNRPEAMNTMHPTFWRELHEVLTDIHKAGTARALVISSTGK
+HFSAGMDLQTFGSAIQMDDTSAEGRSAVYDLLTDMQHTFTLLEELRIPVIAAIHGGCIGG
+AVDMVTACCMRYASADAFFCIQEINIGMVADVGTLQRLPKLLPMALVKELAYTGRRLSAD
+KALAHGLVNEVLPTHEATVAAALQAAKEIASKPPVAIWGTKQVLHYARDHSTEDSLRHMG
+WLQGAIWSNANVREAISAMQQKREANFAPLPALKGFREFG
+>tr|A0A0P0MAE8|A0A0P0MAE8_9BURK
+MKIRQHFQKWILQEDLNFLLTNRIPRITLTRFMGWWSQIKHPWVVKSSMAVWGWFSDLDL
+SDAKLKKFDSLHACFTRELLPGARVVNPDPAFMTSPCDAIVGACGTITQGQVFQAKGFPY
+QLQTLLGTSERCHHWPAALEGGTYITLRLTSSMYHRFHAPHDVQLQHVTYISGDTWNVNP
+VALKRVQELFCKNERAVLHMQTQEGVPFLIVPVAAVLVASMRFHAVDVLLNLRYQGPNEM
+PCDAVYAKGQEMGWFEHGSTILVFVPKGFALADGIAPGVQIRMGQALLKIT
+>tr|A0A0N7J8E9|A0A0N7J8E9_9BURK
+MTRSPGGACLAVDMAGGGLPKGLCNNEKMIIRQIAGALGAELHGVDLTQALTPDLQQAIR
+SALLQHQVIFFRDQDLSPEQFMRFSHTLGQPVEYPFVKGLEGFPCVIEVKKLEHEKVNFG
+GIWHSDTTYLERPPKGSMLLAKEVPPYGGDTLFANQYLAWESLSDTMKSLLEGLVGISSS
+AKADVSKTREDRIKSDGKDSAPKEYLAHHPLVRTHPETGRKALYVNVAHTSGIVGMTDAE
+STPILNFLFQHQVKPEFTCRFVWQPHSLAVWDNRCTQHNPVNDYHGFRRVMHRITLAGDQ
+PV
+>tr|A0A0P0MB52|A0A0P0MB52_9BURK
+MNPRIQEFLVRIQQLEAAIEQEAKTRRQQWQADFEAHKVRFEKEVLAQQKRFKAGLLGYV
+LTADWRHVLCVPFIYPVLVPMLLLDAFITLYQWVCFPLCGIPRVKRSDFFVYDRTHLAYL
+NWLEKINCAYCSYGNGLMAYGREVVAVTEKYWCPIKHARRMVQAHAHYHGFADYGDAEHY
+RTELARLREEVRKMSASESPPPA
+>tr|A0A0P0LGF1|A0A0P0LGF1_9BURK
+MWKKIAGVLLTIGFAGLTWAQQIDLNKASEVELDALKGVGPVLTKELMGERKKAPFKDWE
+DVTSRVKGMGPQKALSLSDQGVRVQGSAYTAKSAGTAAEKKPAKAADPAKDAAKDSGKAA
+PKSADATAGKSQPAKN
+>tr|A0A0P0LKB5|A0A0P0LKB5_9BURK
+MLNIFTLANGRLFQEEIESLEELSRFQPIWVDLESPTLEEKRWIKQYYGLLIPEDAMDED
+IEESARFYEEDNGELHIRSDFLIADEDEPRTVRCAFILNQHNADLKSQGVLFSIHDEDVP
+VFRLLRMRARRAPGLIEDAKEVLLKLFDADAEYSADTLEGIYDKLETAGKKVLSGDVTDA
+MAGEVLGAIARQEDLNGRIRRNVMDTRRAVSFMMRSKMLNSEQFEEARQILRDIDSLDSH
+TAFLFDKINFLMDATVGFININQNKIIKIFSVASVALLPPTLIASLYGMNFQYMPELSQK
+WGYPYALALMAASAVVPMWYFRRRGWLK
+>tr|A0A0P0LHI1|A0A0P0LHI1_9BURK
+MPATQSAHRVRTGVSGKRAINLSLSNDVLEAAKHLAINISQVCDSHLREVVRREQERKWR
+EDHADFISAYNATIEAEGLPLDEWRSF
+>tr|A0A0P0MAU3|A0A0P0MAU3_9BURK
+MSDIEVLTSRVHGKGVFATRHLTAGERVIEYVGEVITMAEALARHPHDAANPDHTFYFHL
+DDGRVIDALHGGNDSKWINHSCRPNCVPDEDRGRIFILTRRPVFKGEELTFDYGLVSDEP
+MSEALKARYACRCGVKKCRGTLLAT
+>tr|A0A0P0M7B3|A0A0P0M7B3_9BURK
+MKRIFLFVVTNLAVVLVLGIVANLLGVNRFLTSNGLNLGALLGFALIMGFGGAIISLLMS
+KWIAKMSSGVKLIDQPANADEAWIVDTVRKLSDKAGIGMPEVGIFEGDPNAFATGAFRDS
+ALVAVSTGLLQNMNHEEIEAVLAHEVAHIANGDMVTMALIQGVMNTFVVFISRVVGYAVD
+SFLRKNDEESTGPGIGYYVTTIVMDILLGVLAAIIVAWFSRQREFRADASAAQLMGRKQP
+MINALARLGGVHTAELPKSMAAMGIAGGIGQLFSTHPPIEQRIAALQNSAL
+>tr|A0A0P0M7Z9|A0A0P0M7Z9_9BURK
+MNTSSNATASSSAFAPLQNDTFLRACLRQATDHTPVWLMRQAGRYLPEYCATRAKAGSFM
+GLATNVDYATEVTLQPLDRYPLDASILFSDILTVPDAMGLGLSFAQGEGPRFAKNVRDEA
+AVAELAVPDMNKLRYVFDAVTSIRKALNGRVPLIGFSGSPWTLACYMVEGAGSDDYRHVK
+TLMYSRPDLMHRILEINADAVALYLNTQIEAGAQAAMIFDSWGGVLADGAFQQFSMAYTA
+RVLSQLKTEHNGQRIPRIVFTKGGGLWLPEMAGLNCDVLGLDWTMNLGRARALVGGQVGG
+PGKALQGNIDPNILFAPPAQIATEVHRVLDSFGTPHTDRSTTGPTHIFNLGHGISQYTPP
+EHVTALVEAVHSHSRKLRQG
+>tr|A0A0P0M6T2|A0A0P0M6T2_9BURK
+MKTMKYGLSILGVALLAACGGGDAPHGSLLDSPVLLHTLSKAQLDGGPLAPLSGKAKCDV
+KVISLNYVTPGAKGEQSNASGVLLLPSGADCTAAAPLVAYAKGTDVQKTRTLANPADGET
+FLLAAMYAGQGYAVVATDYLGFAKSNYSYHPYLHADSEATSVIDSIRAARNAVSSQGGKL
+NGKVMLTGYSQGGHASMAAHRAIEKSLSSEINVVAGAHLAGPYNMSGSMKIPDAIAGYQF
+FVPYLVTAWQKIYGNLYSNVSDAFKAPYADGIESLLPSATLNYTTLVTSGKLPGINGETP
+NQARDALFQTSFSSDILTNPNNPTFLAAKKNDLLDWSPKSQTMLCSGSGDPTVPAAVHQS
+VMKAAFDAKGLTNVTSVDVHPYIEATYGPITMANIANYHGTYAPPFCHAQAKGLFDLVK
+>tr|A0A0P0M826|A0A0P0M826_9BURK
+MKKINDLFFKLAEFTLVIMLSAMVIMVFGNVVLRYGFNDGIISSEELSRFLFIWITFLGA
+IVTMRENGHLGLDSIVRKLSLRGKKMAFALSNVLMLGCCALMFYGTLKQHGINASTRSAV
+TEIPMSWVYGVGYITSVAMGLMIMGKLVQLAKGNFNESDLIQVQDSEEVVTAHTQEAAK
+>tr|A0A0P0M9J3|A0A0P0M9J3_9BURK
+MSQLFSDSARHRRIGIALVTVTTLMFAVLDASAKWLVVTLPVMQVVWMRFLTHSLFSVAV
+FAPSVKGDLLRWRHPRLQLLRGLMLASMTALNFWALQYLQLAETGAMQFSVPILIALLSA
+WWLGERLDAKRWLAIAVGFAGVLVIIRPGSQGFHPAILLSALNAILYALFNMMTRYLASS
+ENPATTQMTSAVVATLALTPLALWQWQQPATLLEWFVMALAGLCGGIGHYFVAVAHRYAS
+AAVLGPFLYQQILYMTVLGWLVFGQVPDMAVVLGALVVVGSGLYLLWREFQGQIEA
+>tr|A0A0P0M7P9|A0A0P0M7P9_9BURK
+MRSECTVGSFEQKQQAFMAFMLDQYVTQGVDQLNTDKLTPLLKLRYNALNDAMAELRDAV
+QVRQAFVGMQRNLYLY
+>tr|A0A0P0MBS3|A0A0P0MBS3_9BURK
+MNMKIDHLINGKSVAGSDYFETVNPATQEVLAEVASGGEAEVNAAVAAAKAAFPKWAATP
+ATERAKIMRKLGDLITKHVPDIAEIETRDCGQTISQTGKQLVPRAADNFHYFAEMCTRVD
+GHTYPTPTHLNYTLFHPVGVCALISPWNVPFMTATWKVAPCLAFGNTAVLKMSELSPMTA
+ARLGELALEAGVPAGVLNLVHGYGKEAGEPLVSHRDVRAISFTGSTVTGNRIVQSAGLKK
+FSMELGGKSPFVIFEDADLDRALDAAIFMIFSNNGERCTAGSRILVQQSIYADFAAKFAE
+RAKRITVGDPLDEKTIVGPMISKAHLAKVRSYIELGPKEGATLLCGGLDQPGYAADLPAH
+VKHGNFVWPTVFADVDNRMRIAQEEIFGPVACLITFKDEQDAIEKANDIEYGLSSYVWTE
+NLGKAHRVAAAVEAGMCFVNSQNVRDLRQPFGGTKASGTGREGGTWSYEVFCEPKNVAVS
+LGGHHIPHWGV
+>tr|A0A0P0M8Z2|A0A0P0M8Z2_9BURK
+MSGYIIANVQVTNPTQYEEYKKWSTAAMETAGAEVCVRGGQVQVLEGDWTPERIVVLKFP
+SFDAAKAFYELPEYMKAREARSGAAIMRMVAVEGV
+>tr|A0A0P0LSC1|A0A0P0LSC1_9BURK
+MVVIRLNRGGSKARPFFNIVVADKRVRRDGRFLERIGFYNPTAKGGEEGLRIAQDRLTYW
+KSVGAQASPTVERLIRQAGKAAA
+>tr|A0A0P0M8Q8|A0A0P0M8Q8_9BURK
+MSELEHFLASRDALLTHRTDYEAAVSAFQWPVLSHFNWGLDYFDSIARDNPAPALHIVEA
+SGEQFRLSYAELSQRSNQVANWLVALGARKGDRILLMMGNEVPLWETMLAAIKLGVVLIP
+ATTLLSGDDLQDRLERGRVKCIITNAVGMAKVMDLPSTVTHGLTLVSVSGAASGLPEGWL
+DYALSHQASSAFTPPEPTRVTDPLLEYFTSGTTAKPKLVQHTQQSYPVGHLSTLYWLGLQ
+KGDVHWTISSPGWAKHAWSCFFAPLNAQACVFIYNYARFNGPDILGTLVQHRVNTLCAPP
+TVWRMLIQEDLKAWPVQLRELISAGEPLNPEVIEQVRAAWQITIRDGYGQTETTAQIGNP
+PGAPLKAGSMGRPLPGYRMVLLNADGEPANEGEICIDLAHRPTALMNGYADDADKTAEAM
+RDGYYHTGDVGQRDELGYITYVGRADDVFKSSGYRISPFELESALIEHPAVAEAAVVPAP
+DAVRGLVPKAYVILAPGHAPDAATAGAIFKFMRERVSAYKLVRRIEFSDLPKTISGKIRR
+VDLRDQENTRARQVDRFEGEFREDNA
+>tr|A0A0P0MAA2|A0A0P0MAA2_9BURK
+MTTQRRDILKYTLAAAAASALPAAHAQAPSGASAGAAATGIDPRDRVFITNEDSNTLVVI
+DPKTNTVESTINLTSFDEDPRPPFRYVTAGVAPTHAAMIHKPLYHGCIDAHGAVPSPDGR
+LLATSGRGSSNIYLIDAEQRRVIGNTPNPASGPTTNPERLSSGLLLGREPHEPTFTRNGR
+ELWVTLRGEDRIAIVGVDRAVRQLKGADSPGSSAVRQYLPTLSGPAQVWFNREGTLAFVA
+SQKVSKIDVFRVNPGADGHSQPQRLTTLDISAQDKPGFTPFMKTTPDGAEVWFSHKLADA
+VSCRSTQGGFDLIDTVPLGMGARPNHVEFVRNARGSVVYASLARIDDGGPGGVASSPIAI
+IDRSAPGGQRKVVGTFSSRGRESHGLWTNPENTLLYVAHEQDELPGTPNAGQTVCSAFDV
+SDPLRPTFIAQIPLGNLTLPSGALRNKKSINLVYVRVGEKGQTA
+>tr|A0A0N7J8K7|A0A0N7J8K7_9BURK
+MTPSLKSESASETSLAPTPASAATAGQLLREARLKAGVHLAVLSVTLKVPVRQLEALEAD
+ELDPGKGAVFYRGLASSVCRHLHTDAAPILALLPQTSAHLQPLVSSIQPLESEGSVRINS
+VPWGRMLSSKVVWVAALLLFMTGAFLWMPGPGQWAWLDDVKSLMADEVVSQEVTEPVVPP
+PATVTEILPVPVVPTASADASSPAPSAASVVSPASPALAPAAPMSQPVQSAPPAKPAVSA
+SAEPEWVFSASGDSWLEVRNAQKAVVWSGVVKAGESTRIQSPLPVSVVVGRAQVVTATLR
+GQPFDLKPHTQVTVARFEVKE
+>tr|A0A0P0LGL1|A0A0P0LGL1_9BURK
+MHNAPPVVYPVGRFFWGRWLFVALCVLSAAGLIAWHMMSQATGPKLWAAWFFWTACVLSA
+ALWAPRQTLTGGRLGWSGESWFWQANADSGEHVQSVSVSVGLDSKAGILLWVQPLDEQGQ
+AQGRLLCAWLQAGAMPSKWHGFRCAVYSRPMAAARSHKVPQARL
+>tr|A0A0P0M7K9|A0A0P0M7K9_9BURK
+MRRPARFAGLQRMAIAVLLATLGSAALAPISALAQDTAAPAPHTTAPSPTSPSAFGLEVH
+SSAEEIRDFLLQHLDLQRYRSLSDLDETELTRLLRDADVQARELLGTLGFFKPTLRWSQD
+KIVNTGSLGRVLLEVDSGPAARISEVQWQWLGAVGSDAEGQAQLKAIEQEWALPVGETFS
+QNAWSRAKNQALRQLLAERYPWGRILHSLALVDEPTNQVRLWLTLDSGPAVKLGALQISG
+TDKYGTTQVERLARLPIGQVYRQNDLLEAQQRLVTSGFYDSVFVSLDVEGQAAQAPVKIE
+LKESLRQKWVLGLGVRSDSGARVSAEHTHHSVPGLHWRSVSKLSLDKDLQSASLDLLAPP
+DVKLWRWNTSVKFDREKIFDVPLQSQRWRVGRSQLGERRDRSYFAQYDSARLQGDLLRQR
+EAISANYGWTWRSFDSLPFPNRGLGVGIELGSGVTLGDSREPYVRWRLKGLGLVPLGSGM
+GRLAVHAEMGSVVSRDTSNLPATQLFWTGGDNSVRGYAPNSIGVTDANGTMVPGRYLASG
+SLEWQRPIRHKGQATDWESAVFVDAGSVANNMAKLKPQMGYGIGARWRSPVGPVRMDLAY
+GQALQKLRLHLSVGFTF
+>tr|A0A0P0MA02|A0A0P0MA02_9BURK
+MIRFEWHPSKASANLKKHQVSFEEAQTVFYDEFAVQFFDEDHSVDEERFLMLGMSVHSKL
+LIVCHCEREGGEIIRIISARKATKRESAFYRGI
+>tr|A0A0P0M976|A0A0P0M976_9BURK
+MKLCGFDVGLNQPFFLIAGTCSIEGLEMSLEVAGRLKEACTSLGIPFIYKGSFDKANRSS
+GSTKRGVGIDAGLKILDEVRRKIGVPILTDVHDESQVKTVASVVDVLQTPAFLCRQTDFI
+RAVAQSGKPVNIKKGQFLAPWDMKNVIDKARDAAREVGLPEDNFLACERGVSFGYNNLVA
+DMTSLAEMRKTGAPVVFDVTHSVQKPGGQGTSSGGAREMVPVLARAGVAAGVAGLFMETH
+PKPAEAWSDGPNAVPLGRMKALLETLVQLDSVTKKNPFLEDDFS
+>tr|A0A0P0M9Q3|A0A0P0M9Q3_9BURK
+MKRLIATGLLSAAATTVLAQTPIKIGEINSYSAIPQFTQPYKQGWQLAVEEINAKGGLLG
+RKVEVIARDDAGKPDEALRHAIELSSKEKVDILAGGFLSNVGLALADHAAKNKRLFIASE
+PLTDAIVWEKGNRYTFRLRASTYMQAAMLVEEAAKMPAKRWATIAPNYEYGQSAVANFKA
+LLLAKRPDVEFVSEQWPAQGKIDAGSTLTATMAAKPDAIFNVTFGADLARLVREGNQRHV
+FPKTPVVSMLSGEPEYLEVLKDETPKGWIVTGYPWDQIDTPEHASFAANYYKKFNENPKL
+GSVVGYATMQSIFAGIKKAGSVDNEKLVVAMRGLKFSTPFGPAEYRAIDQQSTMGAYVGK
+LDQRGGKGTMVQWRYADGKNYLPTDAYVKARRSSDAMK
+>tr|A0A0P0M984|A0A0P0M984_9BURK
+MGRAWAVAGAAHLVLFLALGLATAWKTQPQTLQAEAELWSAVPQAAAPRLQEPPPPPPEP
+EPEPEPRREPPAKPSKPAPEPAPDNSLRDAQIALEKKKQEELKKKEAAERQRKAQEKKKK
+EAEEKAAKDKAEKEKAAKEKALKEKAEQDKKEQDKKKAAEKAKADEKKRQQEQAQKAKQD
+KADEARAEALRQENLQRMQGMAGASGGPNATGTALKSSGPSASYAGRLVGRIKPNITYPG
+DVVGNPRAEVEVRVAPDGTITSRRIVQSSGNKAWDDAVLRAIDKTEILPKDTDGRVPPLI
+VLGFRPSD
+>tr|A0A0N7J8E8|A0A0N7J8E8_9BURK
+MTTPSRTRTRFAPSPTGFIHLGNIRSALYPWAFARATGGDFILRIEDTDLDRSTQASVDV
+IIEGMAWLELNHDEGPFYQMQRMDRYKAVLADLIAAGHVYPCYMSMEELDALRERQMANK
+EKPRYNGTWRPAEGKTLPAIPEGVKPVLRFKNPIGGVVAWDDKVKGRIEISNDELDDLVI
+ARPDGTPTYNFCVVVDDIDMQITHVIRGDDHVNNTPRQINIFKALGKEPPVYAHLPTVLN
+EQGEKMSKRNGAKAVTAYRDEGYLPDAMVNYLARLGWSHGDDEIFSRAQFLEWFNLDHLG
+RSAAQFDEAKLKWVNAQHLKAMDDGSLAQHVQPFLAKLGVVADERLSSICGLFKDRCDTL
+VVLAQWISAFYLDVVPNAEEKAQHVTEAVKPALAVLAGKLAVCAWDKASIAAAIKETLAE
+TGFKMPQIAMPVRVLVMGTAQTPSLDAVLSLSQREKILQRLKNA
+>tr|A0A0P0M7M8|A0A0P0M7M8_9BURK
+MHTLDASSILHAWDNYPFTQFPGLWDWLAGQIQAQRLSIPTVALEEVGHKSPDCATWLKS
+QNIRRLPMGNAVLQAAKQIKDEVGIQNDKYHPKGVDENDILIIASAQYHGTTLVTDEKRQ
+FGKQNEPTKRKIPAVCDLPGVQVAHLNFLDYLRQSQQVF
+>tr|A0A0P0LMU4|A0A0P0LMU4_9BURK
+MPRFYCPAPLATGLSLSLPAGAARHVQVLRLQPGDVITLFNGEGGEFDATVTRMGRSDVE
+VEVGAHHAVEREAARAVHLLAGITANERMDWLVEKATELGVASITPLVAERSVLKLKGER
+AEKKLAHWQGVAVAAAEQCGRNRVPTVHPAVTLAEWVKKAPPGERWVLSLSEGTQSLAQM
+QGPAAGLPMAPVTVLSGPEGGLSPTEEAAALAAGFAPVTLGPRVLRAETAPLAVLACCA
+>tr|A0A0P0MBT8|A0A0P0MBT8_9BURK
+MINVSSWSIRNPIPAVMLFVLLTVAGFIAFASMKVQNFPDLDVPTISVTASLPGVAPSQL
+ETDVARKLENALAPLQGLKHITTKVQDGVVSITAEFRMEKPTQEAVDDVRSAIQGVRADL
+PGDLRDPVVQKLNLAGSPVLAYTVRSSRMDDEALSWLVDKDITRKLLSLRGVGAVNRVGG
+VTREVRVALDVNRLQSLGITAAEVSRQLKQVQQEGSGGRMDLGTGEQPVRTLGTVKTAQE
+VGQIELATSRGGSVRLDQVATVSDTLADARSAATLDGVPVVGFEVVRSKGESEVAVGRLV
+RQALAEYRLQNPDIEITESFDFVTPVEEEYDGSLVLLYEGAILAVLVVWLFLRDWRATFV
+SAVALPLSVIPAFIGMAYLGFSINVVTLLALSLVIGVLVDDAIVEVENIVRHLRMGKSPY
+QAAMEAADEIGLAVIATTFTLIAVFLPTAFMSGIPGKFFKQFGWTASLAVFASLVVARVL
+TPMMAAYILKPIVTAAHEPGWLKRYMVWATWCMKHRLVTMVLATLFFIGSIMLVPLLPKG
+FIPPDDNSQTQVYVELPPGSTLAQTQASAEHARKLLMTVNDVKSVYTTIGGGSAGSDPFA
+GGGAAEVRKATLTIQLSERGTRPRKQAIENDIRTALQQLPGVRSKVGLGGSGEKYVLVLT
+GEDPQALQTAAMAVERDLRTIQGLGSIASTASLVRPEIAVRPDFAKAADLGVTSAAISDT
+LRVATLGDYDAALPKLNLSERQVPIVVKLGDESRHDLSTLERLMVPGSRGPVMLGQVASI
+EVAGGPAVIDRYDRQRNINFEIELSGMPLGDVTAAVQKLPALQSLPPGVKVVEVGDAEVM
+GELFASFGLAMMIGVLCIYIVLVLLFKGFLHPITILAALPLSLGGAFVGLLIAQKSFSMP
+SLIGLIMLMGIATKNSILLVEYAIEARRGKPAQGDQPAVPPMSRWDAMLDACHKRARPIV
+MTTIAMGAGMLPIAVGWGAADASFRSPMAIAVIGGLLTSTVLSLLVVPVVFTYLDDLGQW
+TGRMFKKVTRGA
+>tr|A0A0P0M9D3|A0A0P0M9D3_9BURK
+MSVINTNIKSLISQNALTRNGRDVANAMQQLSTGKRINSAADDAAGLAISNKMTSQIRGL
+NQAVRNANDGISMLQTAEGATQEITNMLQRMRELAVQAANDTYSDTDRDALDKERVELEE
+EITRIAKNTKWNNMAFLDNAGVTKSFQVGIANNEDSTIAVQFVDLTASGLDVVGLDVSSH
+VASQSALDKIDTAIADVDDFRANVGAKINRLNFAIDNLTNISINTSASRSRIEDADFAKA
+SSELARTQIIQQAATAVLAQANTDQQSVLKLLQG
+>tr|A0A0N7J8T5|A0A0N7J8T5_9BURK
+MKNKTLATWLAFWTGPLGLHRFYLYGLTDMMGWLLPIPTALGFYGLERVQQFGQDDTLSW
+MLIPLLGFTMAGCALNAIIYGLMPIEKWNARFNPTADALSPAGRTNWGTIIGTVIALLLG
+TTVMMSSLVFSFQRYFEYQIEAARLISQ
+>tr|A0A0P0M880|A0A0P0M880_9BURK
+MTRRRVVVTGLGCVSPVGNTVADAWSNLLAGQSGIGPITRFDASAMSCRIVGEVKNFDLE
+SYITAKEARTMDRFIHYGIAAAAQAIQDAGLPAGDALGEEEACRIGVVIGSGIGGLPLIE
+ETHIEYTARGARRISPFFVPASIINMISGHVSMRHGFKGPNLAVVTACTTGLHSIGEAGR
+LIEYGDADVMIAGGSEGTVSPLGVGGFAAMRALSTRNDDPTAASRPWDKDRDGFVLGEGA
+GVMVLEEYEHAKARGAKIYAELGGYGMSADAGHMTAPSMDGPRRAMLGAMRNAGVNADQI
+DYLNAHGTSTPLGDINETNAIKAALGDHAYKTVVSSTKSMTGHLLGGAGGIESVFTVLAL
+HHQKVPPTINLVNPDPECDLDYCANTARDLKIDVALKNNFGFGGTNGSLVFKRI
+>tr|A0A0P0LT84|A0A0P0LT84_9BURK
+MNHLCYKTIFSKRLGALVAVGEHACSQSKGQGARAAVGCWAADAGARFVGHLAVGFLWVG
+LAWSQTLPQGAQVVQGSVGVSQSGNQMSITQGSAKAVVNWQSFDIGQNAKVTVLQPSSQS
+VLLNRVLSDNPTQILGQLQANGQVVLVNPKGIVVGSDGSVSASGFTASTLNIDDADFMAG
+ASRFVRNGATGAVVNKGLISVAPGGYVALLGATVQNEGRIVAPMGAVVMGAADAAVLPEA
+LTSSLHVPVGRTGKIKLELTPATVNAWVKNDKSGVIVTEGGQVYMQAAAVHGAVASVFQS
+GRIDTSAAQAGDVHLLADRGRIVVDGQITANSTDAQRQGGDIVIGRDLETGVLAASTDVS
+AAQLESQRGFVETSGYHLVVDGVQVKAGQWLLDPTDITITTAEAGMSSSGTNPITQTPNT
+SGTTASTVSATTLASSLSAGTSVVVKTTNASGTGNGDITVASNIAVTGSSDATLTLQAER
+DIVVNTGVNIGRTGTNKLNVVLNSDLDGNGTGTIQLTSGSAIKSNGGNITLGGGSAGNGS
+GKARGYSVTGRAEGILINSATVNAGGGNIAINGQGSSVSPGGTFRSRGVSLTGASSISTT
+GAGNITLDGQGGVGNDTNVGVGLQGSSTLTGSTTGAVTISGTGGNGGHYNFGVWLDGSKV
+TTTGGSVTVNGVGAGSGGSFNNDGVMIQNSASLGATGAGTVTVTGTGGGASNGGTNHGVE
+VFNGGIITSGTGAISVTGTNTATTLPGYGIAMSNSGKIISTGNASITLTTDSFNSASTGD
+TINAGTGQVTIQNKTAGISINVGGADVWTSGSQSLGISDAELDRVTGKLTIGQTGANAAS
+LLTVSDNLSPANASSLSLLSGGDVIVAASKAITMATNGHVVLNSDSDGSGAGAIVMNTGS
+AINSNGGNITLGGGSTGDGSGNARGNGTNVKGIQLSGATLSASGGNLALKGQGFAGAGKG
+DGISMSDSVVNTTGAGTLNITGVGAGTDTGTTGVDLLGATTITGGSTGAVVIAGSNTSTG
+TSGNQFGVRLKTGDSTKVATVTSLGGSVTVIGSGGGAGAGNLNHGVRLEEGLITAGAMGT
+VSVTGTGGTTTGTGNHGVVLSGSQSTYGIRSSGGTITVTGVADGSSGGSTGINVYGSAQA
+SITSGSNADVILVTDSLALDGGAVSAGSGTVTVKNRTAGTLINVGGTSTDTLSGTLKLDV
+SSAELARITASTTVIGRNDATGSGALTAGLVDMGTMGNPSGNLTLLSGANILVSDNINKS
+AGTDANLSLKANGDITVAANKSILSTSNKLNVLLNSDSDASGAGGIILNSSSGITSNGGS
+ITMGGGAAGDGSGFAMGNPSGSGFFGAGVQMFGANVNSGAGNILINGKGNLSNTGIYNYG
+VFINSSNDTSSGTGSQVKTTGGNITINGTGGGAGASYANVGIQVDNNSAVSTQGSGVINL
+TGTGGSTSTGGLNNGLYIARGASMSTVNGDLNIVGTGAPSTAALNQAEGIYLVNNVSLTS
+TGTGNINITGTGGQGGNNNNGVRIDTGTANSISAASGNVAITATAGAGGGSYGLTSTGST
+NAIKSTTGNVTVTSDSMNWDASTSLTATAGTVTLQNKTAGTLINVGGSDVLSGTPLTLGL
+SSTEYGRISAANTVIGRNDAAGTGTLTVSSAVSMNTMGNLTLLSSASIAVNESINKTAGA
+DANLTLKANDNITMASGKTLSSTSNKLNVVLNSDADASNSGAIRLNTSSSISSNGGSITL
+GGGSDASGYAVGSSTVADAIPGSAGSSPTYADGILLNGANLLSAGGNISLKGKSSAGTNN
+DGDYASAGVRLRDTAQTVDINSGAGKIAIDGISQSTFTGGNSHGVHIGGYGVRTTIQSSS
+SEATAIDIKGIGAANSSNVSGIFINGTASVIATGAGGIALTGEERRPTADGNNSETGGVF
+IKNGNVLSTTGQIAITGISNLNHGIDLNWSGGTVGSKTGTAVPSSSANIVLTSNNMWLGN
+TSKSSITTSGNVTAKTITAATSISLGGADVTGASGTLGLDQNELDVIAASNLIVGSSLAS
+NIATSTNITTATTSGNVTFLTSGNIAVNNTLSIGGATATKTLTMNAMGATSTVTDGPAGA
+IKATNLELLGATAAYTLDSATNAISTLAGNTGSVTLVDSLGLTVASVKTINSTNSSTGTV
+GLTTTGNINLSSTSAVSGVHGILLSNAVTATGSGSISLSGSTSNALGVNLASNVSANTGA
+ISITGTSATNVGLYVGKQVSSKGAIALNGTGANIGVNIDSSASVVSLANGSDFAGSNAIS
+ITGTATNASPYAGVLIRNQVSNNSSNGATSIQSTSGNILWDQAGGTITNASTAGAINIAA
+GNGTSTSSAGISAVAGARIVQNANADVLLTTDGTGNLTSPKIVKNSTGAGDIVLAAGKLL
+AAGVATGGQVKPVSGNSVTNSGTGSLFVYSGSPTSANTAALSLLDSSLADLYLTNIDTQV
+QNTDANVAYATSGVRNTIAGGPKAQVLFREKVNVGTINGATVSKTYGDANTGSTETASLW
+NDMATALRTANATSGVSNVNSTSTTAGTLKITNSAIVESFAAPVLQSTSYSTTQKLKAKT
+TGSYVYATPSSNKYTTGLKSGQSATVTVGLKALTPSANASNKVYDANTTATVSVSSADIL
+SGDLVTVATTGGAFDTKNVGTSKTVTASGISISGTDAANYSLQSTTATTTARVTAKAATV
+NGTATSTTYNGQTQTQTAATSSGFISGDDIIISGASTGKNAGTYTSNLSVGGSDAANYSA
+TITNADMTIAKADLTVAMSAQTKTYDGTTSATLASGAITATGVTVNGVTETASVSQTVGT
+FNNKNVTSASSVSATLASGDFTAASGTDLANYNLPTTVSGAGTITAKSITATAQANDKVY
+DATNTATLSALGSTGVVSGDTVTFSQTGASFADRHVAKDGSGNVIGKTVTVSGITIAGTH
+ASNYALDSTSATTTAKITPKALTLAAVSSTKTYDGITSSTGSVTATGLVDLDTVSASQSF
+ASKDVLGANGSTLQVNSGFTVNDGNSGNNYSVSTTTATGTITKANLTVTANADAKFVTQA
+DATGYNGASYSGLVNGEDSTVLGGTLSITRTNGNTNVAAGTYAGSLVASGLTSGNYNISY
+STGDYKIIPAGQLLIRTTNVSTVYGTAPTYSTTAQYLDGSNVIHTLSQSGTGNNRTFSDG
+VGGSVSTVLQPFTETAGVMTAAGQSSAGQTRVGNYSILDTNPSITGSNFTGAPVYVGNLT
+VTPKALTATMTASNKVYDGGVTAQVVGSSGDILTGDKISFANTSATFNNKNVGTGKAVAI
+SGITIGDADAANYTLQNSSASASANISKKDVTLDALTATNKTYDGSTTASITAGTLGGTV
+GNETLSVTGSGSFDTKDAGTGKTVTVSNVTALTLVNGDNGGDWSNYNLTTTGSKTTTAEI
+MKKDVTLQSITAASKTYDGTTDASITAGAISGTVGTETLAISGTGSFDTKNAGTGKTVTV
+SDVTTLTKANGSGNWANYNLTTTGSKTTSADMARANLTLSGSRVYDASTTYAGQHLTASG
+VNGETFALTGAGDASNLSTKNVQTHQVLNSVSGLALGASNNGGLSGNYTPLSTTGSSVSV
+TPKALTAVYTANDQVYNGNTAATVTAASSDIVSGDTVTLSHASATFDNKNVGTGKTVSIS
+GIGISGTDAANYNLQSTTASATANITPKGVTLDSLTAASKTYDGSAAASITAGAISGTVT
+GETLAVSGSGSFDTKNAGTGKTVTVSDVTTLTKINGTGNWANYTLTTTGSKTTTADIARK
+DVTLGSITASNKTYDGTTAASITAGVINGTVGAETLSVTGSGSFDTKNAGSGKTVTVTNV
+ASLSKVNGSNGGEWSNYNLTTTGSQTTTANIAKKDATINGVANQVTYNASTQTQDAALLS
+GFIASDVTAGTVAATGLAAGRNAGRYTSNLSAIGTDAGNYNVTVNNADLVIGQKSLVLAA
+ESDHKTYDGTTVTKGKVTALNLAGSDTVTASQSFVSKDALGANGSTLQVDSGYTIHDGNN
+GNNYSVRTTTATGTIDKANLTVTANADARFVTQADTPGYNGASYSGWVNGETSTVLGGTL
+SINRTNASTNTAAGTYAGTLVASGLTSGNYNISFVAGDYTIVPARQLLIRTQNVTTVYGT
+APTYSTTAQYLDGSNVIQTLSQSGTGNSMSFVDGAGGSVSTVLKPYTGAATAAQSTSGHT
+VVGNYAIQDGNPVITGSNFEGSPVYVGTLTVTPKQVVATANGVSKVYDGTTRMGQANLSL
+SGKIAGDILTVTGSGAFSQKDVGQNLSYAFSNMTLQGADRANYVLQGGTSISGNNGQITP
+APLTFSGTKVSDKTYDGNTTAQVVAGSVVGLVGDETLTIDSLNGQFETPTVGKDKPVNVV
+YGLSNGSGGGLASNYTWSPVTVQANIVAPLVGTVPAPAPIRLAANYSRLTYQGFGGLANT
+AAATGLTHPAASSYVWATCSPQKLESCICEESKDGTFDICYPEETKPQQAQQR
+>tr|A0A0P0MBN9|A0A0P0MBN9_9BURK
+MTTLKFKLSACAISTAALLAACGGGGTTPDTTAPTLTITDNISVASLNTAADVTFTFTFN
+EAVTGFTTEDIVVTGGTKGTFNMASNGLSGSLIVSPTANTAGTINVSVASSKFTDASGNL
+NTVASSASQDYNLAPVAAVSFASGYTAIDASTVGYAYQGLSTEGGAFNWTVADGGSYGWG
+GADFWWSGVAPTDATPNFYWGGKGKSDQAYMESWVNAPANGTVSLSGQTKLRIAVWGNDE
+LVGSARFTPIVQLAPTNGCYPRAEASPLTPTSSGAQVYNIPLNEFTITENCGIEMTTTAF
+FANPVGSIRVRIYKANYYNPDNNYGSPNGINLGPISFQP
+>tr|A0A0P0LP11|A0A0P0LP11_9BURK
+MTYLSSMTRRVWVCAVLATTSVWAQAQSIVMSSTTSTEQSGLFAHLLPAFKKASGLDVKV
+VALGTGQALDMARRGDADVVFVHDQVAEEKFVADGFGIKRLPVMYNDFVLIGPKADPAGV
+KGKDIVAALSKLSAGNAAFFSRGDKSGTHAAELRFWKMANLSEKKGSGYKECGCGMGPAL
+NIAASSGAYVLADRATWLNFKNRADLAILVEGDQRLFNQYGVMVVNPAKHAHVKQADAQK
+FVDWITSAAGQAVVADYKIGGEQLFFPNAGK
+>tr|A0A0P0LPY5|A0A0P0LPY5_9BURK
+MSESGKRPHIVLILADNLGWGELGCYGGGALRGAPTPRIDALSEEGMKFLNFNVESDCVP
+TRSALMTGRHPIRTGALQSVPAGLPQGIHPWENTLPQLLQEAGYVTGMFGKWHLGDRDGR
+YPHQRGFDEWYGIPRTTNETLFTQSPGFDESVVDIPQVMEGFAGQAARNVAEYDLAKRRV
+IDSELTEKSIDFMRRKTQGNAPFFLYVPLTHLHFPTLAHPDFSGKSGVGEFADSMMEMDH
+RVGELVDAVHELGIAEDTLFIFASDNGPEFRRPWRGTAGPWSGTYHTAMEGGLRVPLIVR
+WPGRIDKARVSDEIVHVTDLFTTLLDAAGAKLPQDRPIDGVSQLDWWTGSTEKSAREGFL
+FYIKTELRAVKWRHWKLHFVFENEPNSGTRHLETPWLFNIKRDPKEETDVAMDDGWVRGP
+MRKMIMAFEKTLKDHPPIAPGAPDEFKPFSNETKLP
+>tr|A0A0P0M8H9|A0A0P0M8H9_9BURK
+MTLPTSTASRIELKDFHLATRIGTYAPGDTVPDYHALDLTLWIDPDLVLIAQDGMAHVFD
+YDPLVVEIERLAADGLYATQERLMTRIVQACAAYPVIEALEIGLRKFPVRAGSGSLGVRL
+LVDRAQLQRMRGNEG
+>tr|A0A0P0MBU2|A0A0P0MBU2_9BURK
+MQQCVGTKYLMNKYLVTVRVGGQLVKTAVFADSTIHAKLLCQYKYGMNSIAVSPVRVDEA
+EDDSTLLDSTIKPKPPATPAQARINSLKQGVERSREQLHAERERQRQQREAERRRKQQQQ
+RF
+>tr|A0A0P0MBX1|A0A0P0MBX1_9BURK
+MPIDKLIIANFKGIADRQEFEIRPITIFCGPNSSGKSSCIHALAAMAQTVKLSASQVPVV
+LDDEYAQVHLGRFKDVVHSQSITDAFSLGIGLNKPSYMFTRTKEETETEPSLQIEIEFKA
+KSAAQEIYINSASMQLGKAHYTFAKKQGSKTELTVTRNGEKLPFSAASNGRLGLRTQIAF
+ENNKDPSKDALDAYIMSESVSQSLNRELRRTLYLGPFRQGPLRRYPTRGSQPTEVGAAGE
+AAVPMLANEFSKSKTKHPNLKGGFKYELQHGLTRRETPRGVS
+>tr|A0A0N7J8Q4|A0A0N7J8Q4_9BURK
+MAKKTFLDFEQPVAELEAKIEELRYVQTESAVDITLEIEQLSKKSQQLTKDIYSDLSPWQ
+VTKISRHPERPYTLDYINGIFTDFVEMHGDRHFADDLSIVGGLARFNGQACMVLGQQKGR
+DTKERTLRNFGMSKPEGYRKALRLMKTAEKFKLPVFTFVDTPGAYPGIDAEERGQSEAIG
+RNIFEMAQLEVPIITTIIGEGGSGGALAISVADQVLMLQYSVYSVISPEGCASILWKTSE
+KAEVAADALGITAHRLKALGLVDKIVNEPVGGAHRDTDQMVSFLKRALGDAWRQVADLKP
+KELLERRYERLNSYGRFTDTKAGK
+>tr|A0A0P0M9L1|A0A0P0M9L1_9BURK
+MSVLWLMNANVHNTPLEHPKQNGPGIAPGAVSFDSESHTQAATPFAFSTYSSIWLKFRYL
+>tr|A0A0P0MB84|A0A0P0MB84_9BURK
+MKLHRLFRHLTAFAALFFSAGCVLAQTSVSLLNVSYDPTRELYVEFNKAFAAHWKAKTGQ
+DVSFKQSHGGSGKQARSIIDGLDADVATLALAGDTDALHKNGNLIPKDWQKRLPHNSSPY
+TSTIVLVVRAGNPKAIRDWDDLVKPGVSVITPNPKTSGGARWNYLAAWEFAKRKYGNEAK
+AKDFVAALYKNVPVLDTGARGSSITFAQRAQGDVFISWENEAYLLEKEFGNKVDFVYPSL
+SILAEPAVTVVDKNVDKKGTRQVAEAYLQFLYTEEAQDLIGKHFYRPISPKAQAKYAKQL
+PKIKLFKIEEAFGGWEQAAKTHFADGAFFDQIYTKR
+>tr|A0A0N7J8E7|A0A0N7J8E7_9BURK
+MTTQKIDGVSVKTQANVYFDGKCVSHSLTRADGTSVSVGVILPATLTFNTGAPEIMECVG
+GSCEYKLDGSTEWVKSSAGEKFNVPGNSKFEIRVTETYHYICHFG
+>tr|A0A0P0LHI9|A0A0P0LHI9_9BURK
+MRNFSLPQAALLAATLTMGLASQAQTALQVVAQQPPGSGSDAMTRAWAECTSRQTGQPSV
+VQNKPGANGILAINYLKGQPADGQNVMTIGMSQMTITPFVHKQMPYDPIKDFDGVAVIGT
+SPLVLVVPAGSGVTKLADLGKVSASQAGGLNFGSPGKGSPAHLLTTALTESMKWPATHVP
+FVGEAAGLTALMGQQIQAMTLVIGTAAAQVKAGKLIPLAVFAAERSSLMPDVPTISEAGG
+PQALARPAWIAIVAKKGTPADVVAKLNEATNKCRNDSAYVTRMNAMNVTLTTSKPTDVAL
+WAERDIAVWKPLIDKLGLASE
+>tr|A0A0P0LBK4|A0A0P0LBK4_9BURK
+MESYALLIAATLNAGTVLAIAALGLLINEKAGVVNLGAEGMMLCAAIAGFAAVVHTGNDW
+LGFAAGMGAGAVLAAIFGVLVIWLGTNQYATGLALSLFGVGFSAFVGIGYVKEKLPDRPH
+FAVPYLADIPLVGSALFKQHPLVYGAMALVLALIWFLYKSRTGLVLRAVGESPASAHALG
+YPVRRIRLAAVVAGGALCGLAGAYISVIYTPLWVEGMVAGKGWIALALTTFATWRPARVL
+LGAYLFGGVTMLQFHLQGVGVQVPSQLLTALPYIATIVVLALISRNPTWIRVNMPASLGK
+PFYPGS
+>tr|A0A0P0MBL4|A0A0P0MBL4_9BURK
+MLCGAETFIKMTYPTPSRQHFPDDFIWGVATSSFQIEGAHLADGKGPSVWDTFCEVKGKI
+ADGSNGHVACEHYQRWPEDVQLIADLGVNAYRFSMSWPRVQPDGQGAWNEAGFAFYDRLI
+DALSARGIALHLTLNHWDLPQALQDQGGWANRETCAHFTRYATEVARRFGSRLASICTHN
+EPWVIAILGYEQGIFAPGIQSRSQAMQAVHHLLLSHGMACQAMRGLGLTTPMGIVLNLSP
+IYPASQSPEDLAKAKLDDGLILRLYMDALYRGSYPQDVISHLAEDAPQVKSGDMATIAQP
+LDFLGVNYYTRNFSSSGNPWDVASTGNQVTDMGWEVYPQGLTELLCRLHQDYQPKLLLVT
+ENGAAFKDEYKDGVINDTQRLDYVRDHIAATHAAHQQGVPVGGYFAWSLMDNFEWASGYA
+KRFGLVHVNFETQQRTLKNSALWYQQFLSEK
+>tr|A0A0P0MA21|A0A0P0MA21_9BURK
+MRKSLQLQADMTQEFGTCVFDVTLDCEDGAPVGGEAEHAALVTELALATKAARADARIAV
+RVHPVDHPSFEADISHIAGRAGHVLTHIMVPKVESVADVNRAEAALIAAGAKHLPVHVLI
+ESPAAVHRAFDIAAHPRVQSISFGLMDFVSAHAGAIPAEGMGIQGQFTHPLVLRAKLEIA
+SACHAHGKVPSHCVVTEFKNTDAIRSAAQKAARELGYTRMWSIHPDQIRPILEAMAPSEA
+QIDQASQIILAAQAASWAPISHAGQLHDRASYRFFWQLIERAHQTGRHLPAPMQALFDVA
+PASVEISLS
+>tr|A0A0P0MBX5|A0A0P0MBX5_9BURK
+MAPSRVVVQAVVWAVLWGAPGVTLVGVPLGAQAQTLTPLQGVPTAPVQGLVLRSSPMLEE
+AISQRQEQEGAVYLQGQRLRVRPDLDLVVEGEASIRKPGVSIQAGRLSFDQSQDVVEATG
+QVRLNRPGSVLTGPKLTLQIDSFQGTLTQPTFELYKSGAYGQAAQIDFVDDQRAIVREAS
+YTTCRRTPGPEWLPAWVLKATRLNLDEEESTVRAEGVQLRFQDVPVLGIPAVTFPMTSER
+KSGLLPPVVGITTNNGLELAQPYYFDIAPNRDATVTTHLMSKRGVAVDTEFRYLERDYSG
+QARLNLMPTDSLRDQARWGWSSQHNGTVDTGLDSVGRVGLGLNLNRVSDDDYWRDFPRSG
+LALTQRLLPSTGVLSWGRGNLSMTAQVQRWQTLQDITAPITPPYDRAPQIGLRYGQWQAD
+GLDWSVQADTTRFEASYDRIPLASTAERPVPRNGERSFVLAQVSRPWIRPWGFVTPKLQL
+HATRYQLDQPLDSGERSANRVLPTFSLDSGLVYERETQWFGRGVTQTLEPRAFYARTPFR
+DQSLLPVYDSGATDFNLSTIYSENAYVGHDRLVDNDALTLGVTSRFFDANNGAEMLRVGM
+AQRIRFSDQKVVLPDQSAAQAGLSDLLLGAGVRWDDRWALDATVQVNSQTDRVSRSTLQG
+RYSPSPYRVLNAAYRLNQGVSEQVDLGWQWPLSDLLGRRDAATETAWTRTPGQGLGPDRW
+YSVGRLNFSLTEGRMVDSLLGLEYDGGCWIGRIAFERIQSTVSTATSRLLFQLEFIGLAR
+VGASPLNALRTNIPRYQNLRDSTVEPSRFQHYE
+>tr|A0A0P0LT40|A0A0P0LT40_9BURK
+MILELADIRIQPGQQAAFEQAIELGLNTVASRAKGFRGAKVNRCIETPERFVLQIFWDTL
+EDHTVGFRQSPLFTEWRAIVGPFFAAPPHVEHFELTYTSA
+>tr|A0A0P0M832|A0A0P0M832_9BURK
+MFSHVMVGVKDLEVSKKFYDAVLGTLGYGPGVANNNRYFYRSPTGTFGITTPINGEPACH
+GNGSTIGFAVKSPEQGEAFHAAGVANGGVTCENPPGFREGPAGKLYLAYLRDPDGNKICA
+LHRPA
+>tr|A0A0P0M9D1|A0A0P0M9D1_9BURK
+MSNKQHFSAKSSESNTQTALRFITCGSVDDGKSTLIGRLLVDTKAVLQDHLAGVQRSGET
+DLALLTDGLSAEREQGITIDVAYRYFNTEARKFIIGDAPGHEQYTRNMVTAASSADAAVV
+LVDAIKLDWANPNLQLLPQTRRHSLLVNLLRVPSVVFAINKLDAVADATVAYNNIAGALN
+KFAQEAGITVTAMVPVSALKGWNVVTTENNDQTNWCGYTGPSLLSILEDLPVTPAETDAA
+FSFPVQWVEKFHDSGVTTQGRRVFWGRVATGSIEPGQTIQVFPSGQTAVVSQVLSATRQP
+QNKAAGQSAGIVLDREVDVSRGDWLLAQHGSPAGQRQLSTTIAWMDDEPLVAGRVYWALH
+GHRWVKAKVQRVEHRMNINTLAEEEATELPPNAMGHVTLALQEPLTTLPFAQSRVLGALV
+LVDTASHKTSGAVLVN
+>tr|A0A0P0M7N2|A0A0P0M7N2_9BURK
+MPLTAHHSDRLQRIEQARDLVFQGQSEAHASGVSPWIAQSWQRCLSMGLQPGQAVGFDAI
+SAQHMGRVQEASRPLVLAAQPVLAELARAIADIRYFAILTNAQGIVVDVHGPVDRQDRRA
+EVIARVGVDLSEKSVGTTAISAALTELQPVWLHRGEHFFQDTGVYSCAGAPVFGPDGLCA
+GMLDLTGIETTERPALKHLVRRSARSIENSWLLSTDHALVLRLNWPGNQPGDDSDGLITL
+DHNGQIVGANPTARQMLSMSSGIEGQTLHASEVFASPWENLFDAASRQASAQELPLWSGL
+RLQTQALRPGTRPEAAHSAKTTERVPVAKPLKDVQTDMIREAVQQARGNVAEAARKLGIS
+RATVYRKLGLPKS
+>tr|A0A0P0MAY4|A0A0P0MAY4_9BURK
+MNLPASSALDQLLAKVSQLVDRIESVLPQPLSAPNWSQAIAWRYRKRSSGHGVLEPVRHV
+AAMTLDDLKEIDDQKEKLQCNTEQFVHGRPANNVLLTGARGTGKSSLIKACLNTYAPQGL
+RLIEVDKEDLTDLPDIIEVVAGRPEKFVVYCDDLSFEDGEPGYKALKSILDGTVAASTPN
+VLVYATSNRRHLLPEYMSENLTYKHTDDGEVHPGEGVEEKISLSERFGLWISFYPFSQDE
+YLTIAGQWLSALGATPAQIASARPDALLWALERGSRSGRVAYQFARDMMGRQPTSP
+>tr|A0A0P0M6S3|A0A0P0M6S3_9BURK
+MNFNAEQFTATQQANLNVAAGLSQSAFAGFERLVELNMAAGKAAVGESFANMQALMGAKS
+PQELMAVQAALVQPAFEKSVSYGRHLTDIANSTGAEFTKAVEGKMAESEQAVKSLIETSL
+KNAPAGSDAAVAVIKTAFEASQSAAETLKKVAKQAADSAEASVKAATAQAEASVKAAMSK
+AKAKA
+>tr|A0A0P0M7M6|A0A0P0M7M6_9BURK
+MATQTLAGANIARQVGLIRLQDIVDAHFVSYFLRSPDGIAGLGKFTGGSVQQVINLSDLR
+QVPVPLPPLDEQRRIVTILDEAFADIATAKANAEKNLQNARELFTRISGSVLAHYANTSQ
+EITLEELVEPDCSLSYGIVQPGDEMANGLHIVRPVDMTTDVVMLDGLKRIDPSLANSYAR
+TTLKGNDILLCVRGTTGTVALAHSELAGANVTRGIVPIRFDPAKLSQRFGYYLLRSEPAQ
+LQIQAKTYGTALQQINIRDLRQLTLPVPAPQDQEVIVQRLSALEEETKQLTAAYENKLTA
+LDDLKKFLLHQAFSGQL
+>tr|A0A0N7J8P3|A0A0N7J8P3_9BURK
+MKPISSRDNPQLKAWRRLAQDSTAYRKAGQFWLEGDHLCRAALQRGVRPQQVVLTESFQA
+EQGEEWQGLTDQTFVVPDALFASLSGLESPARMGFVVAWQAAHEVLPDAATVVLDRLQDA
+GNVGAILRCASAFGYRQVLAIKGTAALWSPKVLRSGMGAHFGLHLVEALSETDVTALRVP
+LLTTSSHEGPFLHALLQAGDLPQKCAWVFGHEGQGVSASLMAQARHQVRIAQPGGEESLN
+VATAAAICLHASATAGP
+>tr|A0A0P0LMT9|A0A0P0LMT9_9BURK
+MTTLNDLAQACGVGFPMPPTANNGAVFEEPWQAHAFAMTLQLHEKGVFSWPQWAEALTRE
+IRAGQTRGEADDGSLYYTHWLNALEQLVIDRQLGTPDEIHELEHAWVDAAERTPHGQPIV
+LNAE
+>tr|A0A0P0LVQ2|A0A0P0LVQ2_9BURK
+MEIIFRPMAYDTRMNPINRMFGYVRSLESDTVSVTANPMPGSPLSIVVDQLNLDRARIHK
+AAVKSNRHSKIAVLESMTPRIFLIPKTTGDKEASAIIDALIENAAECESEVLNFTHYGLI
+RGNVPEAEVTSIFERFAEKSNESKIKVIVWDVDARHVQTFRSLHQKHFLGRRQ
+>tr|A0A0P0M6Z0|A0A0P0M6Z0_9BURK
+MLLRALLTCLLITASVSGRADLPLTVENLITDKSKFKLDLSVTYANLDRQGVFTGEPITV
+QTGATSFVSLPTLIGESRGNSDSVVGTLGLRYGLTGKAEIFARSTYLASSSRTSNASGTS
+QSNDNHFADAWAGINYQFKKDDDTPALLGFAEIALREKHTQGNSSFKSGLVGLTTYKAID
+PVVFVLTTAYRFNQSREDGAKSYKPGNLLLINPSIAFAVNDRVTLTTGMLWTNRQADQWD
+GQAQGFRRTSSDLLLGVGYGISKGSTLNTTFKLNASGQAGAELRTNWLHSF
+>tr|A0A0N7J8V6|A0A0N7J8V6_9BURK
+MGLNWNEIKSRALLFSKTWADACNEDSQAKPFWIDFFEIFGITNKRVATFELNVKKLGGA
+QGFVDLFWPGVLLVEHKSRGKNLDDAVDQAIGYLHNLSERDLPQLVVVCDFARFRVRRLA
+SGETVEFELKHLHKHVKLFGLLAGYKVQDIRSEDPVNIKAAERMGRLHDALKASGYSGHA
+LEVLLVRLLFCLFADDTGIFQPAQSFRDFVEERTAPDGSDLGPRLGQLFQVLNTHESQRS
+KNIDEQLGQFAYINGRLFEETLPMADFSTAMREALLDACALDWSAISPAIFGSLFQSIMD
+EKARRNLGAHYTSEANILKLIKPLFLDELHAEFERVKGHRNKLFEFHKKLRQLTFFDPAC
+GCGNFLVISYRELRELELKVLRADHELSAHKGQLTVDVHGLIGVNVDQFFGIEIEEFPAQ
+IAQVALWLVDHQMNLRVSVEFGLYFARIPLKSTPQIRHANALRLDWNEVLPAERCSYVLG
+NPPFVGAKFMDDAQREDTRLVFEGIDNAGLLDFVAAWYVKSARYMHGAPACRSAFVSTNS
+ITQGEQVGVLWGWMLSQRIRIQFAHRTFNWSNEARGKAAVHCVIVGFGLKDNSDKTIFEY
+EDIKGTPLAVPAKNINPYLVDAPDIVLPRRSKPICAVPEIRFGNQPIDGGNFILSSQEAT
+QLKSDHPDIIPFIRTYIGAEEFINGGERFCLWLTGCPPKLLREIPFLRSRLDAVRKFRLE
+SSRAATRDLAETPTEFAFISHTGGSYLIVPSVSSERRTYVPIGFDNGETIASNLCLVIYD
+AGLFHFGIMTSAMHNAFMRSTCGRLESRFRYSNTIVYNNFPWPGFAGEPLSDKHRTAIEQ
+AAQCVLDARAQFASSSLADLYDPLTMPPALLKTHQKLDTAVDAAYQPSGGKKTYASDAER
+VAFLFDLYQRITSLLPAAKPGKAKRQTMATA
+>tr|A0A0P0MBL0|A0A0P0MBL0_9BURK
+MSLFQTAESRTRVALWLMWVTPALWSVNYIVARSAPGVVEPHMLALGRWALAGFILAVIA
+RSELWRERRSTLEHGWRYLILGALGMLICGAWVYEGAQTTSAMNIALIYSASPVLIALGA
+VVWLGERFSWRQGLGVVVAMAGVFHVVVKGQWLSLGQVQWVAGDGWIVMAMVSWAAFALL
+QKKWSTPLGSTARLAAICMSGVLVLLPFSIWEYGQADRPAWSVQATVLVVAAGLLPGIGA
+YWAYGFCQKVLGASRVAASLYLGPLYGGLAAWLVLGEAMGWHHVMGAALILPGIYMASRR
+>tr|A0A0P0LF56|A0A0P0LF56_9BURK
+MIKITVDQSVEDALEQSFPTPYGAAYRALKKYINVVESMINAALLRGLTPEEKKFGFYSI
+STSDLANKGGQIGSQKIRVHKWLRENKLEIVETVVAGSKFTGRIQVRTATRFNEA
+>tr|A0A0P0LLC6|A0A0P0LLC6_9BURK
+MALNIYIYLFLLFGAVFGLATFSYQHIFSEGPHQVETPEGGATLGARLLWALVCTFLWPI
+MVMTGLNSARILAKRKRQAAAAND
+>tr|A0A0P0LPE6|A0A0P0LPE6_9BURK
+MHAVRPQHDDMTDLTRMLSDACGHVSMSLSALPNARLLWINARAARQDPSFDKFSGDVFA
+YGQYLVAQCAYALPQAPVAESERVTAFADRYGGMGIGSNGGSGRAASVNGYYVKGIGPTP
+LIGKTTNPAHSTGHCTLEECVREAVLSECVDAEFPWGAVPVLAIIGIGVSVPMAPEPGIG
+LDNPAGMMELGLLIRPNFLRPAHFDRALGFLSDMPKQGFQDSLRVKAMIESGRRIWGDQG
+LLNMFMQLHARWADQLAYGYAHRFCHGAPSPSNVTLDGRLLDFGAATLPTWAKVHTALGG
+PVTGQELPFMLRTLQSMLRQIQHQCPELGITNENMSSLAQVAVQRYGQTLAVELLRVLGL
+HRLPAIHVLRQDHDRTVQIGLNRLLMHYATEYFNTYESTPEPRIAWQLTDFWKGALDRVA
+PGLREVLISKMQTDIASDIKLDWTTIYARNAKYAETRPLLFRENLRQAILDALRHMQETK
+NLGPNALDAFIEAMVRSHVLPKDED
+>tr|A0A0P0M8L5|A0A0P0M8L5_9BURK
+MKIFWFFGPSDPDHQREDLSGVLRGSRWALWSLLLTSVVFFTWAYFAEIDQITRAPGSVI
+SSARSQIIQSQDGGVIEELLVREGDVVQRDQVLVKIDGTRQQSSYLETRAKAAGLAITVA
+RLQAEVLGREPRFPPEAKAYPEFRDTQTMLFKKRLSAIKDELQSYENIKAIVQKELNMTR
+PLLKTGDVSATEVLRLERQIADTQSQITNRKNKYFQDTQAELSKALEDLAGVQQIMAQRK
+DQLTQTELRAPLHGIVKNVRVTTRGGVIRPGEEVMQIVPLEEDLVIEAKVSPADIAFIKT
+GMKATVKIDAYDYTIYGDLSGTLSYISADTLTENLNVQQGEQPYYRVQVKTDGRKFSGRP
+DQKLDIQPGMTSMVEIKTGSNTVLKYLSKPVIKTLNQSLGER
+>tr|A0A0P0M7Z0|A0A0P0M7Z0_9BURK
+MAITYLKKADKTPETETATAQKVVNTMLAEIQQNGEAAVRKYAKDLDQWTGEVIVTPAQI
+EANAREVPEQVKADIDFAIKQVFDFAQAQRRSLSEFQVELHPGVIAGQRVLPINVAGCYA
+PAGRYAHIASAYMGVATAKAAGVKTIIACSGPFRGGPMHPYLLYAFNKAGADIIMTLGGV
+QAIATMANGLFTGKPADVIVGPGNKFVAEAKRTLFGKVGIDVFAGPSEIGIIADETADPA
+IVASDLVGQAEHGHESPAWLFTTSKSLAEEVMRQVPKLIELLPPTARDAAGSAWRDYGEV
+MLCDTRDEVVEISDRYASEHLEVHAKDLDWWLKTLTCYGSLFLGEETTVAYGDKASGPNH
+VLPTKGAARYSGGLSVHKFLKTFTWQKMTRDAARDIGLATARISRLEGMEAHARTADDRL
+AKYFPGQQFELGEQVKV
+>tr|A0A0P0MA20|A0A0P0MA20_9BURK
+MPKKDAVWHDSMYNNRALVPDFANHFAHWQNASALARAELKPLLDVPYGDGLGETLDIFP
+AKQPNAPVVIFIHGGYWRSLDKSDHSFVAPALHDMGACVVVVNYALCPGTPEQAVTIPDI
+ALQMVKATAWVGRNIAEHGGDRGNITVIGHSAGGHLAAMLLGCDWKKLGRDVPAGLVRKA
+LSISGLFDLEPMRKTPFVQGDLRLTPAHVRMCSPAKWQRPRHGVLYTVAGGDESPEFLRH
+NRLIHQAWGPKTVPVCEDLAGLNHFSIVTDLTRPGTRLHALAQQLIAA
+>tr|A0A0P0M8Y3|A0A0P0M8Y3_9BURK
+MKTTHRLIAAAALAACSLGAYAQKGETVKIAWIDPLSGLMAPVGSNQLKSFQFFAEKFSK
+TNPAGVKFEVIGIDNKLSPAESLNALKAAMDQGVRYITQGNGSSVAGALIEAVNKHNERN
+PGKEIIFLNHSAVDPDFTNSKCSYWHFRFDADTSMKIEAMTTFMKDDTAIKNVYLFNQNY
+SHGHQVAKFAKENLARKRPDIKIVGEDLHPLAQVRDFSPYIAKIKASGADTVITGNWGSD
+LALLVKAANEGGYNGKFYTYYTGVTGTPTALGQTGAGRVYQIAYNHYNMGGDMGKWMAEF
+KQKFNDDFYTGSVVTIYSALGEAMAKAKSTDPVKVAAALSGLKFKSYHGDVEMRKTDHQM
+QQPLWMTVWQKADKKFPYSPENTGMTLAPVKEFPSYVSSTPTSCQMKRPG
+>tr|A0A0P0MBA1|A0A0P0MBA1_9BURK
+MSIEIRNIDKQFGDFTALNNVSLDIESGELVALLGPSGCGKTTLLRIIAGLETADRGTIA
+FSGEDTTHVHVRERQVGFVFQHYALFRHMTVFENVAFGLRVKPRNQRPSESEIKRKVHEL
+LGLVQLDWLADRYPSQLSGGQRQRIALARALAVEPKVLLLDEPFGALDAKVRKELRRWLR
+RLHDELNVTSIFVTHDQEEALEVADRVVLMNKGNIEQIGSPQQVWDQPASPFVYGFLGDV
+NLFHGRAHEGEMLIGADQHAIRLDTPEHGQVQDAKAFAYVRPHDLDVTRYTPGAANTGIV
+AKLTRAIVVGPVARLELEPVEAGMFGKDAVIEAQLSASQYRQQDFKEGETLVLTPRKARV
+FVEG
+>tr|A0A0N7J8I1|A0A0N7J8I1_9BURK
+MNRVLAHTGARYPILQAPMGWIARSPLAMAVSRAGGLGIIETSSGETANCQREIAAMLAS
+GLPFGVNLPIRFLKDDAMLRYVCDSGIRFVTTSAGSPAKFVAPLKAAGIAVYHAVPTLEA
+ALKCAEAGVDGLVVEGSEGGGFKNPEEVSTLVLLQAIREKTDLPLIAAGGIVDGRGMAAA
+FALGAEAVQMGTRFVACAESPVHGHYKQAIVDAPTTGTYMLNTKSSPCIRALKAPFTQSL
+HEAGLMGPDAFQGIQDVYFGGNMNAAPALAGQSAGLVHEVLTAGQIIDQTVAEFHRIGAR
+MGQLAQTASFG
+>tr|A0A0P0LFH6|A0A0P0LFH6_9BURK
+MKRGEIWLVNLDPTVGSEIKKSRPCVVLSPAELNDHLRTVMVAPMTSKGFAAPFRVPVTH
+AGTKGLIVLDQLRTVDKLRLVKRLGAVSAKTLTAALTTLQEVFAE
+>tr|A0A0P0M964|A0A0P0M964_9BURK
+MSDLRTLNSADWGHVDLAARNRVLRNTYWLLALSMLPTVLGAWVGVSTGITQSLTGFMGL
+VVFLGGAFGFMFAIEKTKNSAAGVPVLLAFTFFMGLMLSRMIAMVLGFKNGADLVMTAFA
+GTAGVFFVMASLASVIKRDLSGMGKWLFVGAMVLMVGGIINVFVGSTAGMLVLSTLAIGI
+FSAFLLYDLKRILDGGETNYISATLALYLSVFNIFQSLLALLGIMGGERD
+>tr|A0A0P0MB72|A0A0P0MB72_9BURK
+MSDTPSQPEDELKGSEQPFVAHLIELRDRLIWAVAAVALAAAALAIYPGPGELYDILAAP
+LVVHLPKGATLIATSVISPFMVPLKILLMSAFLIALPVVLYQVWAFVAPGLYSHEKKLVM
+PLVVSSTLLFFIGVAFCYFFVFGQVFSFIQSFAPKSITAAPDIEAYLSFVLSMFLAFGLA
+FEVPVAVVVLARMGVVSIQKLKDFRGYFVVLAFVIAAVVTPPDVVSQLALAIPMCLLYEM
+GIWAAQIFIKHTQAPDAPADAV
+>tr|A0A0P0MAA6|A0A0P0MAA6_9BURK
+MSYLVLARKYRPRNFTEMVGQEHVVQALTNALVQQRLHHAYLFTGTRGVGKTTVSRILAK
+SLNCQGVDGLGGITAEPCGVCQACRDIDAGRFVDYTELDAASNRGVDEVQSLLEQAVYKP
+VQGRFKVFMIDEVHMLTNTAFNAMLKTLEEPPEYLKFVLATTDPQKVPVTVLSRCLQFNL
+RPMAPETVFEHLTQVLAAEQLSAEPLALRLLARAARGSMRDALSLTDQAIAFGNGQLQEA
+GVRQMLGSVDRSHVLQLIRALAEGDGATVVNQVNALRLQGVSAAATLEDMAMLLQRMAVM
+QMVPSMAHDGEDPDTQGLADLAQAMPAEETQLLYSLCLHGRTELGLAPDEYAALTMVLLR
+LLAFKPPAGTAEKKSPLSSPSSPPSASASPRAEVFAAPQPAPESAPLNKPLTAPVTAPAS
+APLTVPKAAPVVLDSPPPVAAAPQVTPISPPPAAQPAPLASDEPPPWEDWPDTTDYADQG
+GLTSAPAVVAPTPAALRALPVREAPEPSSRLDMPRAAAPAAVQPTPEGDVWMAVVQGLLD
+QETITALVRELALQSQLLGRDGAQWQLRVERETLNHAASRERLQAALLAAGHGDVKLHIE
+IGPVSDSPARRLAVKAAEKMLAAQELIQNDPLVQAMVRDFGAKIVPGSIQLI
+>tr|A0A0P0M8B2|A0A0P0M8B2_9BURK
+MSLKEQITEDMKTAMRAKDAERLGTIRLLLSAMKQKEVDERIELDDVAVVAIVDKLIKQR
+KDSIAAFEQAARQDLADKEKAEMAVLLAYLPARMSAEEVTAAVQTIVAELGEEMGKKVGP
+GDMGKVMGAVKAQLAGKADMGQVSAAVKAALAG
+>tr|A0A0P0LMR7|A0A0P0LMR7_9BURK
+MHTLEQLRSGALAGIRRLDLSCGLSELPEEIFALADTLEVLNLSGNRLRELPHQLTRLHK
+LQVLFASDNDFEVLPEVLGDCPALHMVGFKANRIADVPAAALPPALRWLTLTDNVIGHLP
+AELGQRPALQKLMLAGNRLQALPDSLQQAHRLELLRISANRLTEVPGWLTELPRLSWLAL
+AGNAMGWLVPAGSELPGMAWSDLTHGPLLGEGASGHIYQVQARGWPQPLALKLFKGEVTS
+DGLPEDELTACLAAGQHPALTTPVARLTGHPAQAQGLLMPLIPSAHVNLAGPPSLDSCTR
+DVYPSGFKLSAVLALRIASDVAGAVAHLHQRGVMHGDVYAHNIQIDPLQGQARLGDFGAA
+TRLPIDRPELRQNLLALEVRALGCLLQELALAAQAQAHHPAVQALQNLAQVCLSEQPRQR
+PSVVEAAQALQAIEGLDGFQGLKPWRS
+>tr|A0A0P0M7X8|A0A0P0M7X8_9BURK
+MSPWITPTSLLGQHVRLAPLSNDHHDDLVMAVQDGELWNHWYTAIPRPEAMAGEITRRLN
+LQNQGSMCPFAVIHPSTGQAVGMTTYMNIDAANRRVEIGSTWYRQSVQRTPLNTEAKRLL
+LAHAFEHLQCIAVEFRTHFFNHQSRRAIERLGAKLDGVLRSHQINPHPLAVGALRDTCVY
+SIIASEWPNVRTHLDFQLSRTRTEEHRSC
+>tr|A0A0N7J888|A0A0N7J888_9BURK
+MEAFNALMGGFAIALQPTTLMWGFVGCFVGTLVGVLPGIGPALTIALLLPLTYHVPATSM
+FVMFAGIYYGAAYGGSTTSILLNTPGESAAVVTALEGNKMARRGRAGQALATAAIGSFVA
+GTIGTLALTFVAPWVVEAALAFGPAEYFSLMVLSVVAVSAVLGNSMLRGLVALGLGLLLG
+MVGVDLQTGQPRFTFGRPELLDGIEVTVAAVGLFAVGEALYLAWQGRESKGGEVMKLTGS
+LWMSKSDWARSWKAWFRGAFFGFPIGAMPAGGAELPTLLSYYTEKKLSKHPEEFGHGAIE
+GVAGPEAANNAAAAGVLMPLLTLGIPTSATAAIMLSAFEGYGIQTGPQLFSQQSGLVWTL
+IASLYIGNVILLVLNLPLVSLWVKLLKIPPPWLYAGIIVISTAGVYGAGNSVFNVGLLFV
+FGLLGYIMRRFDFPAAPLIVGLILAPLGEQSMRQALTISQGDWSTFFTRPLSGSLMAVAV
+LLLIVPTLWRQFRRGAKS
+>tr|A0A0P0M6U5|A0A0P0M6U5_9BURK
+MRLTPARIDTIQSTVHAVLGSASGLAFAVLVGSRAEGTARQDSDWDIAIQWSKRILPMDR
+LGTTEELRQSLCCALLVADSQIDLIDLSDARLTMRALVAEEGVPLWIGDDLAWVRFLQNT
+WAQLEDNQWRRQHAA
+>tr|A0A0P0M9T6|A0A0P0M9T6_9BURK
+MCVPARTAWLARDSTLQALVEAEHAHAKGQLAVPWFAFGFVAVVLLNSLQWLPASVVAVT
+IEIDTALLAMAMAALGLATHIGAIRKAGAKPLLLALILFGWLIVGGALINRWVPALLG
+>tr|A0A0P0M9X0|A0A0P0M9X0_9BURK
+MNLEQYLPILLFILVGVAVGIIPQVLGYILGPNRPDAEKNSPYECGFEAFEDARMKFDVR
+YYLVAILFILFDLEIAFLFPWAVALKEVGMAGFVAVVIFLAILVVGFVYEWKKGALDWE
+>tr|A0A0P0LL71|A0A0P0LL71_9BURK
+MLADSLDLPVDSSQPLASLSALACDPAQSRGRRFAEPPAPTRNAFQRDRDRIVHSTAFRR
+LVYKTQVFLNHEGDLFRTRLTHSLEVAQLGRSIARALGLNEDLVEAVALAHDLGHTPFGH
+AGQDTLNECMAEHGGFEHNLQSLRVVDQLEERYPAFDGLNLSFETREGVLKHCSRANAEH
+LERTEPGGVGRRFIDRTQPSLEAQLCNLADAIAYNAHDIDDGVRSGLISIEQLLQVELFA
+HYHQQTLAEHPGLSEKPRRVLYETIRRMLSDQVYDVINTTRQAVAQAGVCTPAEARLAGP
+LVAFSPGMKARSVELKKFLFAQLYRHPQVMHTTGQAQQVVRELFAAYVDQPAEMPTVFAA
+SADLHRSVADYIAGMTDRFALREHERLTGRKLL
+>tr|A0A0P0LJT0|A0A0P0LJT0_9BURK
+MSPEASQEYQCAVEEAANAFMKVMSLRGFQVRDYPQNFVAQMAQTTRLAFEASRQGAHSR
+ADALVSDMLNAAAALSTPTAKVPHKKSAFPSLRRRLA
+>tr|A0A0P0M6Z3|A0A0P0M6Z3_9BURK
+MIPFLNRAARLGAVGAVLLASAWPAAWSQTRGASAPTFAHVHGTQPGNPSTAAPSAKPGP
+SSPTWQDANRAVGQFPRGHLDLLRWEQKNLQPMPDASAHPDAVQLTLARAARLALQDEAL
+WLKPGMSALETATVRQQIAAVRLDVQRLWVNAVVARQSMVHSRDVLDVAQAGAELGQRMA
+QVGNWSRVRQIEQELVLWDASARADKAQLQADRALQALWQRIGAGMTAQALAQQLPLHLP
+LELPALSPFDVQTEPSPEALAGLQAQALQAHLRWPLEDLHARRLAAGLGLGAQDLQAAQK
+ALQALAGQEPPVWDPRTMPWGHAFENAWQARLQADRLARQVRADVQMALNGLQVANQTAQ
+QTHAQVLRLHTELSQETLLRYNGMLKSTWDLLASVRTRIDSVDAALQAQRQRWLAHADLM
+AVLAGLPYTDSASKSESTSPSNTRTPGH
+>tr|A0A0N7J949|A0A0N7J949_9BURK
+MKRTKMQAAVVGGTPEDIEQAFYEALHNADIEQLMACWAEEDDIVCVHPGGGRMIGAGAI
+RATFEAMFNNGSVQAFPERMHKIQSLTSAVHHLVERVEVITPQGARQAYVIATNVYHQTP
+QGWRMVAHHASPGTPKDAADVGVKPTVLH
+>tr|A0A0P0M6N1|A0A0P0M6N1_9BURK
+MPLKTTSPFRLFFWSLLALCASGLALPSHAEKADREQPMQIEADSMRHDEARQLTQFLGK
+VQATKGTLVLRASRMEVQQDAKGRQVARLWAAPSERVFFRQKREGVNEFTEGEAEQVTYD
+NQADIITLSQRAEVRILRGNQVADQLNGHTIVFNNTSEVMTVDGQAANGQGQRVRAILTP
+RNASAPTPPNPPAAPSLRTSPSLAPAQKP
+>tr|A0A0P0LHA2|A0A0P0LHA2_9BURK
+MPTDAPTALNTAPNFHEAGRRFFRDFSPGDEFYEHLIDAHNGLSDEQSEALNARLILLLA
+NHIGDLRVLREALQAARQTD
+>tr|A0A0P0M911|A0A0P0M911_9BURK
+MQNVRSGGWRLAAMALTLGLTGLSGPVQASLFGGDDEARRAILDLRQRLEQSQNATRALI
+EQNTQSQNQAQTQAIDQLRGALLDLQGQIDRLKSELSQSLGAQERLARDLTELQLRQKDV
+ISSVDDRLRRFEPVQVTIDGREVMVDPSEKSDFDKAMAFFRQADFPAAQTALSAFLLRHV
+SSAYAPSALFWLGNAQYANKAYKESMANFQKLLSMAPNHPRAAEAMLAISNVQIELKDMR
+AARKTLEELIATYPQAETASTARERLGRLR
+>tr|A0A0N7J8Q1|A0A0N7J8Q1_9BURK
+MTHNNLFSALRAAFPADLTATAVETDEGLRYSWQDLDRATAMMANLLQSLDLPEGSRVAA
+QVEKSVEALMLYLATLRAGYVFLPLNTAYQSAEIEYFIGNAEPAVVVCSGANFGWVSKIA
+FKSGTQHVFTLNDDRTGSLLERAAHHSDQHQTVARQADDLAAILYTSGTTGRSKGAMLTH
+GNMLSNALTLKDYWGWKKGDVLIHALPIFHVHGLFVAIHGALINGSKMIWMAKFDPKRVI
+ARMKEATVFMGVPTLYVRMLAEPALDKAAVNNMRLFIAGSAPLLIETFTEWQERTGHTIL
+ERYGMSETAMLTSNPYAADKRYAKQTERRGGTVGFPLPGVRLRVRGDDGQEMPVGEIGGI
+QVQGPNVFKGYWRMPEKTAEEFTADGYFKTGDVGKVDERGYVTIVGRSKDLIISGGYNVY
+PAEIEGYINEMKGVAESAVVGVPHPDFGEVGVAVVIAKSGAVVQPEGVLAELKAKLANFK
+IPKRCFVVAELPRNTMGKVQKNLLRDQHKNLFSV
+>tr|A0A0N7J937|A0A0N7J937_9BURK
+MIIQRLLMGVVRGYRLLLSPWLGSSCRFEPTCSAYALQALGQHGAAKGGYLTVHRLVRCG
+PWCSGGHDPVPSRAPRLFSDLFSPTSSKKTP
+>tr|A0A0P0M853|A0A0P0M853_9BURK
+MSLRKVTKNRGSFSSDEALLKLFYLALNNISRKWTIPLRDWKAALTRFTIQFEGRMPKD
+>tr|A0A0P0MBA9|A0A0P0MBA9_9BURK
+MSLSNSLGLLGRKVGMMRLFTDDGDSVPVTVLDVSNNRVSQVKTQENDGYVALQVTFGAR
+KASRVTKPIAGHLAKAGVEAGEIIQEFRVTADTAAQYAAGATVPVAAVFAVGQKVDVQGT
+SIGKGFTGTIKRHNFKSQRASHGNSRSHNVPGSISMAQDPGRVFPGKKMSGHLGDVTCTT
+QNLAVIRVDEARGLLMIKGAIPGSKGGFVTVRPAVKVKGAN
+>tr|A0A0P0M9A1|A0A0P0M9A1_9BURK
+MTLLSADDFQWMVYQVWGASFAISLLVGVLIHRGHFCTLGAISDWMLMRDATRLRQWALA
+VAVAMAGFGLMAWLGWISPLNTIYASSQLPWLSSLFGGGLFGIGMVLASGCSSKSLVRMA
+AGNLKSLVVLLAMAVAALAAMRGLTAVWRVHGLDPVAIDLPHGPFLGQWLSSVTGWDMRA
+GLGISAALVSLLLVGWVLKDRRFHTLFNWTTGAGLGVLVVALWWVSGVMGFVPEHPDTLE
+PVFVTTQSGRMEALSFTAPVGYWLDAFMYFSDGSKRLTWGMVTVAGVVLGACGSALQQGS
+FRWEGFTHRADLVRHLVGGALMGTGGVLAMGCTFGQGLTGLSTLSLGSMLSVLGIFAGTW
+GALQWQIRHA
+>tr|A0A0P0M6V6|A0A0P0M6V6_9BURK
+MKNVLNTVILSMGLLAQPLAQAHAPSAHKNHHASSTAPAEQKDWGMAGDPKKVQRTIEIR
+MTDNMRFAPNQIQVKLGETVRLVAVNAGKVLHEIVIGTPQELKAHAEMMKKHPGMEHDEP
+YMAHVDPGKKGTIVWTFNRAGSFEFACLIPGHFEAGMIGRITVQ
+>tr|A0A0P0M8H7|A0A0P0M8H7_9BURK
+MTLHPTVAAVTARITERSRPTRQAYLAQVDAAAHKDPGAQRLGCANVAHAFAAMPEGDKN
+RATALDKIKVVAPRAPNIGIVNAYNDLLSAHAPLQHYPDLIKDEARKLGGTAQVAGGVPA
+MCDGVTQGTPGMELSLFSRDVIAMATAVSLSHDVFDAALMLGVCDKIVPGLLIGALHFGH
+LPTVFVPAGPMTSGLSNNEKSKVREQAALGLVGRPELLEAESKAYHGEGTCTFYGTANSN
+QMLLEAMGLHVPGTAFINPGEGMRQELTREAARTVLALVKDKHFTPIGRLVDERCIVNAM
+VALLATGGSTNHLIHWVAVARAAGIVIDWDDFSALSDVVPLLTRVYPNGSADVNQFQAAG
+GPGYVIRELLDAGLMHADVLTVRPGGLREFTRIPSAPNGQLVWQDAGVSQDDTVVRPATS
+PFSATGGLKLLQGNLGRSVIKISAVPEAFHVIEAPARVFNSQDELQQAFKAGELDHDVVC
+VVRWQGPQANGMPELHKLTPPLAVLQGKGFKVALVTDGRMSGASGKVPAAIHVSPEAAAG
+GPLAKVQDGDVIRLDGVAGTLQVLVSEADWAARPLAQMPAELRAANGVGMGRELFANLRR
+NALKAEEGACTWL
+>tr|A0A0P0M889|A0A0P0M889_9BURK
+MSESFAALFEESLQRTEMRPGEVITAEVVRIEHNFVVVNAGLKSESYVPLEEFKNDQGEV
+EVQVGDFVSVAIGSIENGYGDTILSRDTAKRLASWMSLEKALESGEFVTGVTSGKVKGGL
+TVLVNGIRAFLPGSLVDTRPTKDLSPYENKTLEFKVIKLDRKRNNVVLSRRAVVEASMGE
+ERAKLMETLREGSIVHGVVKNITEYGAFVDLGGIDGLLHITDMAWRRVRHPSEVVTAGQE
+ITAKILKFDTEKNRVSLGLKQMGDDPWMGVNRRYPQGTRMFGKITNIADYGAFVELEPGI
+EGLVHVSEMDWTNKNVAPSKIVALGDEVEVMVLEIDEDKRRISLGMKQCRANPWQEFAQN
+TKRGDRVKGPIKSITDFGVFVGLAAGIDGLVHLSDLSWNETGENAVREFKKGQEVEALVL
+AVDVDRERISLGIKQLDSDPFTTFTSINDKGQIVTGKVKTVDAKGAEIDLGEDIIGYLRV
+SEISRDRVEDASHVLKVGDEVTAVVVNVDRKTRNIQLSIKAKDQADQQEAMASLSQQSKT
+ENAGTTSLGALLRAKLDNN
+>tr|A0A0P0MBQ7|A0A0P0MBQ7_9BURK
+MATSEVQTVSTAGDKMRLALVAALVIAGLVAYYMLSAQGVWAQWGGLLVGLVAAVVVFFT
+AETGRQLVAFGRDAVRETKKVVWPERKEALQITLYVFAFVVVMALFLWLTDKTLEWVFYD
+LILGWKK
+>tr|A0A0P0LNH9|A0A0P0LNH9_9BURK
+MSRDKNFIALLLTLGLHAGVLLLASGYPLHHVSPAKVPQTAEKIVFLELIPPPRQPLPEP
+PSAPPTRPITVPPPNPALAAPAPAPAPSPDRPLASMAAPPPPTAEEWAFAANYTNKNSKG
+YRYSWGQQVRSMMGTAVEGPDQGVVRFRIEIAPDGSLTQLQTLWTTSAKAEQLARQAIQN
+MPPLPPTPTGKPLIFDKTISFSPFANDGPPIYRDDCLPEPPVFRNPFAWDGKSPQVVTAP
+TPTAPLEPQALADCLRQLPKDSVEAETARDQRLMDQWGSSKTGR
+>tr|A0A0P0MAJ1|A0A0P0MAJ1_9BURK
+MAALKGSRTEQCLKDAFAGESQANRRYLYFANKADVEGQNDVAALFRSTAEGETGHAHGH
+LEFLEQSGDPATGMPIGSTRDNLASAVAGETHEYTDMYPGMAKTAREEGFDEIADWFETL
+AKAERSHANRYQKALNELVD
+>tr|A0A0P0LE13|A0A0P0LE13_9BURK
+MKIISMLPWADWLALFSFFALWVGYAWFARIRGKRDQSLIATTNQYRQKWMLQTTARDPR
+MLDGLITQNLSQTPAFFSSTSIIIIGGLFALLGTTNKAAELVGEIPFAQPTPLLVFELKI
+LVLVGIFVYAFFRFSWSMRQYTFVALIIGGMPPPESFASGESDRQHYAQRAGNLVSAAAE
+TFNDGLRAYYFSFAAMAWFFSPLALVLATALVVLILYGREFRSEVLQVLRD
+>tr|A0A0P0LG80|A0A0P0LG80_9BURK
+MHKLSPRQWTLLVLLTLVWGINWPVMKLGVTGFPPLTFRMMCLWLGVPILGMALVVMKVP
+FRIPRAHWRELLVLAVFNMFIWHALIIVAVQSLSSGRAAILGYTMPMFSALLGAFVFGDQ
+LAKRSWAGVAAASLGVVLLLWHELSNLSGRPVGVLLALMAASTWALGTQLLRRTRMPVPT
+LAISFWMTLMTAVVITVLAVGLERAQWVSPSPSNWFAIVFNAVLVFGFAHAAWFYLARSL
+PPVASTLSVMLIPVLGVFSGALWLNEVLHWQDWAAVGLMSASIAFVLWPASKKAT
+>tr|A0A0P0M938|A0A0P0M938_9BURK
+MLFHSSLRKDLARNFGATLVILVTIVMTIILIRTLGQASRGSVNPSEVMLVMGFSVLGQM
+TTIITLSLFIACVATLSRMYGESEMVIWFSSGQGLGQFIQPLFRFAWPILLVIALLSLFV
+WPWSHQQIQDLRQRFEKRNDVERIAPGQFQESAGGNRVFFIDKDSPGERTGNNVFVSSRD
+GQLESVTTASRGRVEFVGTDRFLFLENGQQWLTHLGTGETRLTQFDRYQLLIDANFVPPN
+SVRNSRQSTTWQLIEQPTPANQAELAWRIGLLFTAINMILLALALSAVNPRVGRSYHLGL
+ALFVFVAYYNLLTVGQNWISAGRIGALPFMVLLHGSVLALALVWLGLRHMNWSWRHLLPA
+VPSTKEATA
+>tr|A0A0P0MAG2|A0A0P0MAG2_9BURK
+MDTRWKPNVTVAAIIERDGRYLLIEEHTQEGLRLNNPAGHLDPGESPAQACAREALEETA
+QPFTPTALVGIYLSRFQRPATGEDITYVRMAFCGDVGELQPHLSLDEGIVRTLWMTPEEV
+RASAERHRSPLVLRCIEDHLAGQRFPLEVIHTDPAVANLPPLST
+>tr|A0A0P0LPV3|A0A0P0LPV3_9BURK
+MFPCIDTLGAASAYERGQIYGREAQDRIQHSVVTYARLFAACGIDWTQACERAMRFEKVI
+TQVDADLMAELRGMAEGSGQTLGSLMALNCRTEILPPTFLADAPHLKDAAQAALAANRAA
+GLPDWLEQAAWDQALHDGECTAMGVTAAASRTGQAWLAQNWDWMGRQRQALVVLHTQGPS
+GQSITTLTEAGMLAKIGINQSGFALGLNILRSVRDGSRLGVPVHVLLRHLLDCDSVAHAR
+QRLKVLQSDLGLGFGAASNVPCADAQGQAACFEVSPAGWAEVAPTDGVVVHTNHFVCESL
+LAEQAPMGPGLSSQSRLGTAHQHTLHKPIGQAELEHFLRDESDGFLSICRSPDPSVPPES
+RVESVAGIVMHTQPPAMWVASDVPSRVAFESVPLAAASSQLNERLDPATVS
+>tr|A0A0P0LHQ3|A0A0P0LHQ3_9BURK
+MNATTLPLLTVYFDGSCPLCRAEIAIYRRLPESQAMDWVDVSAGQDLGGLTCQEAMARFH
+VRDRQGRMFSGAAAFSQMWRLFAGWRWLGWLSAWPPLSWCFEGGYRLFLKVRPQMQKWVR
+RWSQGERV
+>tr|A0A0P0M6N5|A0A0P0M6N5_9BURK
+MLEVREQCPQLTHIYYDDPRGLRKYTEDGLGSLEELIAAGGVFAKQHSQFFSDEVDKANW
+TDVAAMFFTSGTTGNPKGVVHTHSSLIDRAEAGAEFDKLTHAEDVLAYMPPAWIGQNIFS
+YAQWLVCGYVVNCPESSATVTIDLKEIGPTYYFAPPRVFEGMLTSVMIRMEDAGSFKRKL
+FHHFMGVAKKVGPALMDGQSVGLMDRVLYGLGNLMVYGPLRNNMGFSRVRVAYTAGEAIG
+PDLFTFFRSIGVNIKQLYGSTETAVFVCLQPDNQARADTVGVPCKGVEIKVADNGEIMVK
+SPGLLKGYYKNQKATDEVLTADGWYHTSDAGFIDSHGHLKIIDRVKDVGRIQGGANDGAM
+FAPKYVENKLKFFPHIKEVVAYGDQREKVCVMINIDFDAVGNWAERRNLPYAGYTDLAQK
+PEVYQLIQECVEKVNADLAEDALLAGSQVSRFLILHKELDADDGELTRTNKVRRGFIADK
+YKPLVDGLYEGKTEQFIETVVKFEDGRTGSVSATLKISDAKTFTPVKAAA
+>tr|A0A0P0M8F5|A0A0P0M8F5_9BURK
+MPPPKIYNWNADKNQLLLKERGISFERIVFEISLGNELDVVLHPNQEKYPGQMISMVEVD
+GYICAVPFVETDSEIFLKTIIPSRKATKTYRSKS
+>tr|A0A0P0M7J3|A0A0P0M7J3_9BURK
+MTATQWQNILVLCTILGFATMEYVSRRYQNTVTATGNDTKLELFMFLSVLAVTQPLAIFV
+TSKLGHAWFPDYKNALADWPWWGMVGVLLLADDMTQYWWHRLSHSPLLWPLHRAHHSAEY
+MSIRVTFRNNFFYYLMMPGLWAAGALLYLGFGGMVYALYIVVKLLVILGAHCAWRWDEPL
+YRVRALHPLMWVLERTISTPATHWAHHAITNEDGVGHYKGNFGNLLFLWDIIFGSAHITR
+QYPQRVGLIDDQLFGQERWYHQMLYPVLQSRREHSALRLGGSIFEGPETPLKP
+>tr|A0A0P0M8V3|A0A0P0M8V3_9BURK
+MKRQDFRFSHRMRVRWVEVDMQKIVFNGHYLMYFDTAVTDYWRQLAMPYAETMHQLGGDL
+FVKKASVEYHASAEMDDFLDVCMRCDRVGNSSMTFAGAIFRGDELLITSELVYVYADPVA
+KKNQPIAAPLRDMLEGFERGEDMVQVHVGSWHDFQKLASPLRHEVFVQEQKVPVELELDH
+EDETALHAVALNRMGFCLATGRLIQHAPGVARIGRMAVKKQMRGSDLGRRVLHALMDAAQ
+HRGDKEVILHAQCCAEGFYKRSGFTPHGAIFEDAGIAHIEMVRQL
+>tr|A0A0P0LPK1|A0A0P0LPK1_9BURK
+MGDKLKKILEILCGSLSGLALFTIMVLTFLDVSGRKMLSHSITGSLELTELLMVVVIFGA
+LPLVSLKGEHVVFDSLDAVLPNWVKKIQQGLVHLACAALLFGLAYLMWQTGVEFAVTGET
+TAQLKITKAPFIQGMGVLCGLTGLVHLVKVFWSGDETASEGGTL
+>tr|A0A0N7J924|A0A0N7J924_9BURK
+MQRSKNDVWVGLFVMLGAVAVLFLALKAANLLTWSFNQDYEVTAKFDNIGGLKPGAAVKS
+AGVVVGRVKKIEFDGESFQAKVTLGMQPQHAFPQDSSLKILTSGLLGEQYLDVAPGADEK
+NLAAGDRIGSTQSAVILENLISQFLFSQAEKSAPESQKP
+>tr|A0A0N7J8P0|A0A0N7J8P0_9BURK
+MKVQVRYFASVRESIGLSNESVETQAADVAALRSELMARGEHYSACLAPERSVRMALNQL
+MVQGNAALTEGCEVGFFPPVTGG
+>tr|A0A0P0M9F6|A0A0P0M9F6_9BURK
+MNTMLEILGITVPIYLTIALGYVCTRMGLFAKAEMQVFGRFTLQLALPALLFNALSQRSV
+AEILNLNYLLAYALGSLVVLGLGLWWARRVLGQSLSYSSMMAMGMSCPNSGFVGYPIILL
+SFGPVAGVALALNMVVENFLLLPLLLAIADAQGRPGQWKSVLLQTGKNVLRNPMIWGVVL
+GFLFSWSGLQMPAPVGRTIHLFAQSSAVLALFVIGSSLVGLQARGLQATVLPIALGKLVL
+HPLAMWAVLVFLFPIEDPALRAAALLTGAMPMLGIFTILNQRHGHGTVSAAALLVTTVMS
+FFTLSGLLWLLQLHPV
+>tr|A0A0P0M9W5|A0A0P0M9W5_9BURK
+MKIQKIAIALSLLISTGGIAAGESHSHGKAKPMHGGVVTEVKDIEYELVAKSEFLQLYLR
+DHGNPIDVSKSSAKLTLLTGVDKQEVELKPSGNKLEVNGAFKITPNTKVVAIVMTGEKKI
+IARFVLK
+>tr|A0A0P0MB76|A0A0P0MB76_9BURK
+MSSNFILETRELVKEFKGFVAVNGVSLNVQRGHIHALIGPNGAGKTTVFNLLTKFLIPTR
+GQILFNGHDITPEKPSQVARRGIVRSFQISATFPNLTVMENVRIGLQRATGTSMHFWRSE
+RSLNQLNDKAMALLDQVDLGNMADLTAVELPYGRKRALEIATTLAMDPELMLLDEPTQGM
+GHEDVDRVTQLIKKVGANRTILMVEHNMNVVSKIADTISVLQRGQVIAEGPYAVVSQNPQ
+VLEAYMGTTDNQLEGAHG
+>tr|A0A0N7J892|A0A0N7J892_9BURK
+MMRWRSWTWSGSWTAWVPAWQLSWPKLWRDRWRWLARRWGFALAGFAAGLLGVGSWQHKD
+LEALWESQAQVDDLQKKLQEHLQQAQSKQTLVAAPALTPQTGPPLVKAGWPVQGTQAAVW
+LQLERLVVQHGLRWMSLQLESPSTMGHWPSQTAALRLQGRFEDWVRVWAAMNARGPLWGM
+ERLRITPQEGGVAVDAVLRLWLSPGPVQANVSTELMQVDGPVVLRVGAGAPVFVPTASLP
+ASASVVSAGLNDEVLGSVSAGISTRSGTLAPDSQAAASTMGSLSPDPADWPLAQVRLAGV
+WQSGPSAQPILQAGPHWVPARVGQRIGPHGHVVHSIHAEDVHLRTAQGAVWVIGLEKAKP
+>tr|A0A0P0LAF6|A0A0P0LAF6_9BURK
+MNWKLAQRAEKMNPSVIREILKVTEKPGIISFAGGLPSPQTFPIDAMREASERVLRDDGK
+AALQYAASEGYAPLREWVAQDLLKQGMNVSPDQVLITTGSQQGLDLVAKILIDAGSRILV
+ETPTYLGALQAFTPMEPVAVGVNSDDHGVDADDLRAKVGTGADKARFVYLLPNFQNPTGR
+TMTEERRAAVAQVAVESGLPIIEDNPYGDLWFDAPPAPSLSSRHPEGSVYLGSFSKILAP
+GLRLGYLVAPTALYPKLLQAKQAADLHTPSFNQRVVAEVLKDGFIDRHVPTIRALYKQQC
+EAMLAALDREMAGLGLSWNRPVGGMFLWVQLPKGLKAIPLLDKAVEKGVAFVPGSAFYAE
+GADESTLRLSFVTATVDQINIGMSALAAAIRESL
+>tr|A0A0P0M7U4|A0A0P0M7U4_9BURK
+MDSLLPAIPAKRYFTIGEVGELCGVKPHVLRYWEQEFTQLRPVKRRGNRRYYQRHEVMMI
+RRIRGLLYDQGFTISGARNKLMELTQSDRQLMRSGAFLDEMLEDNSAEMDASGDLSQEDE
+ASDLESPRTSLTGLGSDLTVYQELLQIRALLTV
+>tr|A0A0P0LIT5|A0A0P0LIT5_9BURK
+MTSHPAPTPHLLGDIGGTNARFALLQPATRLITHTITLPTGQFPDLASAAQAYFQQVGQA
+AVQHACIAIANPIDGDTLKMTNNHWHFSIEATRLALGLERLLMLNDWEAMAMAAPALQGG
+DLQQIGPGEPVPDAPKGLIGPGTGLGVSSLVRSRRGDWVPIAGEGGHVSLSPTCEREADI
+LRILWRTHPHVSVERVVSGMGLENLYRAICALNGTEAENLVAAQVTERALAACDVACEEA
+LERMCCLLGNAAANLALTLGARGGIYIGGGVIGRLGDFFAQSGFRAAFEAKGRFAPYMQR
+IPTYVIRADQPALIGCAMGLGLEPARS
+>tr|A0A0P0LDE0|A0A0P0LDE0_9BURK
+MNTSSPALISKAPHMGTTIFTVMSALAAEKKAVNLGQGFPDFPCDPRLTELVGDAMREGL
+NQYPPMPGVAPLREAVAAKIEALYGRRYNPATEITVTAGATQAILSIILAIVHPDDEVIV
+LEPCYDSYVPNIELAGGRVVRVPLTPGSFRPDFDRIRAAINPRTRAILINTPHNPSGMVW
+TREEMLTLQEILAPTNVLLISDEVYEHMVYAPLQHWSAAQFDGLAARAFIVSSFGKTYHV
+TGWKVGTVAAPADYTAELRKVHQFMVFTVNTPMQHALARYMADPAPYLELPAFYQRKRDL
+FRHGLAQTHFKLLPGEGTYFQCADISGLQVPEKNLSEAEFCQWLTSEIGVAAIPLSAFYG
+NGFDQKVIRFCFAKTDETLHAALDKLKGL
+>tr|A0A0P0M8N5|A0A0P0M8N5_9BURK
+MLTEDGKHLYVSYDEYHNLIEKLAIKIHQSGWKFDNILCLARGGMRPGDILSRIFDKPLA
+IMSTSSYRAEAGTVQGHLDIARYITTPKGEIAGKVLLVDDLADTGHTLRAVVDQLKNNYK
+PVTELRTAVIWTKGVSTFKPDYSIEDLPTNPWIHQPFEPYDNMRPEKLMEKWRV
+>tr|A0A0P0M6K8|A0A0P0M6K8_9BURK
+MSLDQEIAEARKEIVADGYDMSVGEIMNLYKDEEIFINPSFQRLFRWTDSQKTRFIESLL
+LGIPIPPIFVVQGENGIWELIDGLQRLSTVLEFAGFLRGENGMIAPASSLGGTAFLPSLA
+GKRWEPSSEGADDGIGKEQQLQIKRARLRVEILKKESDPKAKFELFQRLNSGGANLTPQE
+VRNSVAVMLNPGFFDWLVLRSNDANFKLTTAQTEIALEQQAGVELALRFFVFRNVPYSSG
+LDVHEYLDLGLEAIASNKTFPLQSEEEVFTKTFQWLGEALGDRTFKKWNAQQNQFMGKFL
+MSSFEVIAVGVAANAKALAGMPAASRNEFLLDRAQALWSDAVFNTHSGAGVRGTTRLANL
+LTMGQAFFAP
+>tr|A0A0N7J8H6|A0A0N7J8H6_9BURK
+MKASAKTQIIGQSRATHFLRELIQTLAASSSTALVTGESGTGKELVAQALHAQGPRASGP
+FVPINCGAIPRELIESELFGHRKGTFTGAVADRLGRFELAHGGTLFLDEIGDLPMDMQVK
+LLRVLQERCILPVGAAREVPVDVRVVAATHKNLEAEVAAGRFREDLYYRINVLPISTTAL
+RDRPDDIASLLQFYADKHTLPGNRALKFAPDMLQLLQDYAWPGNVRELSNLVDRFSTLFP
+SQTLQVHTVPACMMPSGLAALQAMRLSQMPTPAPQQTFLSAATAPLEVGALVEPSWNASA
+PAPTDSPWGESDPLSHLFANSDPASPSVSASRPAFTPMPLSASNDEMSSVEEVILLAQGI
+QTLPPDGISLKQHLIDIERNLIEQALSRTQGNVSQTAKLLQLQRTTLIEKINKYELRGAA
+>tr|A0A0P0MAD2|A0A0P0MAD2_9BURK
+MSLLFTPFTFDAPSGPLTLPNRIVVAPMCQYSADNGQATDWHLTHWTNMLNSGAGLFTIE
+ATAVSAVGRISPGCLGLWDDATQAALGDKLDRARRLAPHMPVCIQISHAGRKASSAAPWD
+GGMLIAPENGGWQTVAPSALPHLPQEAAPTELSLADIAQIKADFVNTARRSLALGIEAVE
+LHAAHGYLLHQFLSPISNQRNDAYGGSFENRIRFPLEVFKAVREAFGGTLGMRISGTDWV
+DGGWTVEETAALSAQLKQAGAQFVHISSGGVSPLQKIALGPEYQVHLAKAVKDASALTTI
+AVGLITEPAQAEAVLQRGDADLVALARSFLYKPRWGWEAAVALGGTVDSQHQYWRSLPRE
+AKNIFNDAKIGMR
+>tr|A0A0P0LKX2|A0A0P0LKX2_9BURK
+MNDLALEIAATAARLVVEEGLAFGPAKHRALKDLGLPTRTALPTNDVVEAEVRDYIALFC
+ADTQPGELLALRELARVWMQRLAEFRPHLGGAVWQGWATRLCDVDLALFCDDPKSAEIAL
+INQNQRYETQTVRGLHGDDVEVLSLHSFCEALNEDVGVHLRIYDLDDLRGALLPDAQGRS
+PRGDLLALERLMAA
+>tr|A0A0P0LBT5|A0A0P0LBT5_9BURK
+MTATLLKIPLARIAHARSGDKADWVDFGLFAWNEAGYRLLEREVTAAKVQAHFAPWLPGQ
+VDAWPLPNILAMKFVLHGALQGGGARNLRLDNLGKAMGAALLRLEIDVTAEELEQAQKSP
+RRGWWPEMSTRT
+>tr|A0A0P0M8V4|A0A0P0M8V4_9BURK
+MNTHPAAPTELTVRRLSVDLSQGFSRHWNGGDAFLTAYANALSMSFPVGEQSFIDAVKNG
+AKNLPDTPENAELKQIAKGFVGQEATHRHLHALYNAHLEKQGFVNHWGPRAEQRLKKGRE
+EFFSKSDKGYLHELAITAAFEHYTSIFGDLTLDRMDQPGDWFAGAEEPLKTLWRWHAAEE
+SEHKCVAFDLYQRLGGNHQWRMRWFWYVTIQFSTDVFRQTVNNLWHDKTLFKPSTWWSAS
+KFLFGRHGMVWRVAKPVWEYTRKDFHPMQVGSETLSKEWLQSHSDQWRAVGAPAQSAA
+>tr|A0A0P0MBF9|A0A0P0MBF9_9BURK
+MNLNNTLTTDPSSAVQSDGRGRDTAVDQDLTVLLLPGWQGSGPDHWQMRWAKVHGFSVVE
+QNDWMRPRRGDWLARLDEVVIDAPGPVVLVAHSLGCILVSAWAAFSRHTAKVRAALLVAP
+GDVEAPAMQEMLPGWLPIEQQPLPFRSMVVGSDNDPYCSAERAQQLARDWSARWHSLGAA
+GHINADSSLGDWPGGHALLHTLLKD
+>tr|A0A0P0LM19|A0A0P0LM19_9BURK
+MGAQWKAKGKAQAADARGKLFGRLAKDIMIAARNGADPAANSRLRLVVEQARKVSMPKET
+LERAIKKGAGLLGDAVSFDRVIYEGFAPHQVPVMIEVLTDNVNRSASEMRVLFRKGQQGT
+SGSVSWDFDHVGFIEAEPAQAGADAELAAIEAGAQDFEPADEDGMTVFITEATDLDLVSR
+ALPEHGFTVVSAKLGYKPKNPVDPANLSAEQLEEVEAFLGAIDNNDDVQNVFVGLAD
+>tr|A0A0P0M847|A0A0P0M847_9BURK
+MSMNNSDQGKRNLPHRSAQTILGHDIPKARLTGAGWFWGAVYLGLPVILLGNLLDFLFQW
+TLGWCIGFWCIV
+>tr|A0A0P0M8X6|A0A0P0M8X6_9BURK
+MNNDQLKADNAQYLWHPMAHPGAMKKSTPDIIAKGEGCWIWDVDGHKMLDGVGGLWACNL
+GHSNKPVRDAIVAQMDELPFYNVFRGTTHVRAIELSKRLVQMMQPEDVATVMFSNGGSDA
+VEGALKVARQYWKLKGQADRFKFISLRQGYHGVHFGGMSVNGNTNFRRAYEPLLPGCFHI
+DTPWAYHNPYTDDPIRLGEICAELLEREIVFQGPDTVAAFIAEPVQGAGGVIVPPPNYWP
+LVRQICDKYGVLLIADEVVTGFGRSGEMFGTRLWGVNADMWCLAKGISSGYIPLGATAIN
+RRIADVFDADTTGTASVSHGYTYSAHPIAAAAALATLDQIEALDIPGNAARMGAHLQTRL
+RKLVDTCSFVGDVRGVGLMLGIEMVNDKAKRTPMTRSSDIPARVAKAAYKAGLMVRISGP
+NLILSPPLVITREEVDFMCDVLEAAFAAVQEGRA
+>tr|A0A0P0M7M9|A0A0P0M7M9_9BURK
+MPRHLILNTCWALASLFIPFSGAQAQDFPPKKTINMVVGFVPGGAADIGARIIAKKLGEN
+LGIAVTVENKAGAGGNIAHQYTATGPTDGSVLLFGSVGPLTIAPNMMKLPYDPVKDLAPL
+TMAVNFPNVLVVHPGTGIKTFAEFIAAAKKNPGKLDFASTGPGSASHLAGELLNDMAKID
+TLHVPYKGGAAALQDLLGGRVAAWYATFATAAPHIEAGKVIPLASTGTQRLGGLPNIPTI
+AESGYPGFSATNWYAFVASSKVPTPVLDRWNVELVKVLSAPDVVDQLNKHGLVPMPGSRD
+DLARYMAKETTTWGRIIRERKITAQ
+>tr|A0A0P0LCI1|A0A0P0LCI1_9BURK
+MWFTRVSLQNPVFATMVMLALVVLGIFSFQRLKVDQFPNIDFPVVVISTEYPGASPEIVE
+SEVSKKIEEGVNSIAGISALTSRSYENQSVVIMEFQLQIDGRKAAEDVREKVASLRPLLR
+TEVKEPRVLRFDPSSRAVWSLAVIPKGNQLNAVELTNWSEQVLKKRLENVRGVGSVTLVG
+GSKREINLYLQPAHMEALGVTAEQVVAAVRNENQDLPVGAIRSLQQERIVQISSRMERPE
+DFGRIIVARKNGTPIRLSQVATVQDGAQELENLALYNGQRTLLMSVQKSQDENTIQVVDG
+LVKAVAELQSQLPPGIQLEPITDNSRPIRVSVNNVRQTLIEGAILTVLIVFLFLNSWRST
+VITGLTLPISLIGTFMFMQMFGFTINMITLMALSLCVGLLIDDAIVVRENIVRHVQMGKS
+AYRASLEGTQEIGLAVLATTLSIVAVFLPIGFMEGIIGKFFHEFGITIVAAVMISMFVSF
+TLDPMLSSIWHDPAIDTHGKNQAPVSGYDKTIGRVTGWFDRGTERLADGYQSILRWALVH
+KKSTVFLALGIFVASVFMVRLLGTEFVPKADFSETSLKFETPVGTSLEATEAKTRQVEAI
+LRDFPEVRYTLSTINTANAQGKNNVNLYIRLVDRKNRNRNADQMSAVLRERLKQVPGIAV
+THAGLLDAIGGNKQVEFSLQGPDQKELERLALLALAKVRDIPGLVDLDSSVKPNKPVIGV
+EVMRDAASDLGLGTAQLAGPLRTLVAGQTVGNWRAPDDQTYDVNVRLSPEARNSPQDLER
+LPFMVAPAADGSPRIVRLGQVARVTETTGSNQINRRDLMREVAINANVFGRSAGEVSADV
+RKAMDSLNLPPGYRYSFGGSTKNMAESFGYALSALAMAVIFIYMILASQFKSFLQPLALM
+TSLPLTLIGVVLALLAFRSTLSMFSIIGVIMLMGLVTKNAILLVDFAIRAREDGLERSEA
+LLLAAKVRLRPILMTTLAMIFGMVPLAFALTEGAEQRAPMGQAVIGGVITSSLLTLVVVP
+VVYCYMDDLAQWLRAKAGLAPARQGQDTSAP
+>tr|A0A0P0LHT7|A0A0P0LHT7_9BURK
+MEVFEFLMPIFTEYGYLAVFVMLLICGFGVPVPEDVTLVTGGVIAGLGHADVHTMFAVGM
+AGVMVGDGLMFTLGRLYGERISKLPGFRKILTPERFASAQDAFQKYGKWVMFVARFLPGL
+RTPVFFSAGMSRRVSFSTWFFMDGFAALISVPIWVYLGYFGAQNWDWMFGVLRQFQHGIF
+ALLGIGIVWLGWRWWRKRQATAAAKASGDAS
+>tr|A0A0P0MAZ0|A0A0P0MAZ0_9BURK
+MNIEEKPPFETPFAWIGGEAVVRALADRFYDLMDMEPGYKALRDAHGSSLDGARDKLFWF
+LCGWLGGPEHYTERFGHPRLRMRHMPFSIGVLERDQWLACMDQAMTELGVDPVLRERLNA
+SFFKTADWMRNRGV
+>tr|A0A0N7J8S9|A0A0N7J8S9_9BURK
+MHTPPNATPSPAPAPTAWAGPGIVFAVLAMASLSFSDATSKWVMVSVTPVMVLWFRYAVQ
+AVGTALVLAPVRGRAMWRTHSLRWQLLRGLLMVSCSLLAFYCLQRMPVAEFTATVMLTPL
+VLTALARFVMKEQVSPLRWLMVVGGLIGAMLVIRPGGQVDSSVGWMALTVVLTYAVFQAV
+TSHMTRTEDPAVMQLYTGWVGWAVSTLLVFNAWVTPQSLTEWALLLLVGLAATLGQYLLI
+VAFSKAPASVVSPFLYTGVAFSTVMGWWLFDHIPDALAFTGMGLVVLCGVMAGRIKGAAQ
+A
+>tr|A0A0P0M6S0|A0A0P0M6S0_9BURK
+MQETSLSIIFVGLPGSGKTTIGRQLARRLGLPFVDSDHVIEHRLGCSIREFFAREGEDSF
+RDLEQEVIDELTQTHHGVIATGGGAVLRESNRRHMHERGQVIYLRSTPEDVFRRVRHDNA
+RPLLQVDDPLGRLRTLFEARDPLYREAAHFVIETGRPSVAMLVNMICMQLELAGHLPMRN
+SAGHSART
+>tr|A0A0P0M876|A0A0P0M876_9BURK
+MQQAWAYGEALKAMDVVIHRAMVWEGERLVAVAQFMCRRVLGYLSVASCTRGPVWASDVG
+TDERQQVYVLLRRSLPIARLKVVLFSPDLALDEAQELKGLVRVMSGYSTVLLDLTKPLPT
+LKAALDGKWRNRLVKVLGHEKIRFHVQPSRKKCDWLLGKEVDQREAKKFHGLPVEFVSHY
+IHATADPAQAFAVAYAELGKNTIAAMLFLVHGRVASYHMGWADAEGRQLNAHNALLWQAM
+AYFQDHQIEVLDLGGVNTHDLPGISRFKLGTGGEVLTLAGTYF
+>tr|A0A0P0M9F4|A0A0P0M9F4_9BURK
+MSQPVDVAMSSAYRWRLHRNVLIYVGFLLSLIVAMAWAERSGLSRNLIGPIFLFSTVMIY
+ALIGIAARTTDEDEYYVAGRRIPAMYNGMATAADWMSAASFISLAGALYLQGFSGSGNQP
+GGLAYVMGWTGGFCLVALLIAPQLRAMRLYTLPDYFDQRYGGRWPRVIAALASVLCSFTY
+VVAQIYGIGLIASRLTGVQFEIGILLGLGGVLLCSFLGGMRAITWTQVAQYIMLLLAFLI
+PVSWLAYKQLGNPVAPLAYGAQLSAIASIEKRLMDDPAELEVRREYAQRAKIYASRLQDV
+DAAMVDLRQELEEKIRLLKAQGADFATIAQVRRELLAVPHEASAARELWTRAMHDNLERA
+RPLGGMPPHAQAFTGEPDGGLAQEKLFNESRLNFMALVFCLMIGTAGLPHLLTRFYTSPS
+VAETRSSVAWSLFFIGLIYLSVPALAVLVKFEVLNTLVGSRFAELPSWMAQWARLDSALL
+EFSDINGDGILQLGELKLGADMIMLATPELGGMPFVVSGLVAAGGLAAALSTADGLLLTI
+SNALVRDMRPNGVKGPKSSEGRVILSKFALLAVAMLAAVVAAFKPAEILALVSASFSLAA
+SAFFPGMVLGMAWSRVHRPAVVLGMLAGLGVTIYYMVVNAPGFRHFWELDPYGGLWWGIQ
+PLSAGVFGVPVGFAAMVLATWLIPQRLISQNQRAQTSAAGPSNSYPGL
+>tr|A0A0P0LHJ9|A0A0P0LHJ9_9BURK
+MQAPVTLLVHGGAGTLTRVDLSAAQEREYRDALGQALRAGQSLLLQGGTALDAAVAAVCV
+LEDCPLFNAGKGSVFTHEGRNEMDAAVMDGATGQAGAVAGVVAVRNPILAAQAVMQRSGH
+VFLLGQGAEAFARAQGLALEGPGYFHTEHRWQQLQAALAQNQVMLDHDGQHHQALPGADP
+LDRKFGTVGAVALDAHGHLAAATSTGGMTNKMFGRVGDSPLIGAGTYACDDTAAVSATGA
+GEFFIRGVVAHDIAARMAYGRLSLAKATQATMRDKLDATGGRGGVIALDRHGHYKLAFNT
+EGMYRGVVQGHAQPQVAIYRA
+>tr|A0A0P0LQ16|A0A0P0LQ16_9BURK
+MPHTLIPHVHPATDRSVLDFANRQWRVRRPRPFVLVIEGEVGQEDTEPSDYLHEQLLLPE
+WREAFYKLVDATGLVVCLNVQTQHPTYRDVRGRSSKGRLSQGEYYHHDGCTGPVKPRFVE
+IRCPIQPQARGVATAVAPHRDVVKAMVQVLPAELAATPALTEMDMSQDAIGQMDDEALDH
+LQGLITRTVRKKLNAEGARSYFRQVDAAAHAYFEPWALGESRFIANANSGATMQHRRAYQ
+APHTGGVANGHLVKRWPNEELLLKGEVVDHALLAALCSEEDDEPTDRPAGEVCALAQSLK
+PALGPTNAKPTSPALAPTPSL
+>tr|A0A0P0M8E5|A0A0P0M8E5_9BURK
+MSIVKYFNHGFQRDIGKLNFVDVPQVLKDILNDKDLIQFGGKNWSRAPDDLDNIDVELRP
+MFVLCLFALVATDQCMQTYFKPYYADWRERTAYPKFGWTRFGLYNENPLKLLSVPEQAGL
+IDSEQTCALMREFVGFYRTLVADYCHLHAPKLSADLFFTRLLQDDIFTLGEGRVVAAFKQ
+AAPGLIQGRTLDASPSEGYLLAV
+>tr|A0A0P0M919|A0A0P0M919_9BURK
+MCVLRYPSRVNFAQLLFPDFSLILCGYLICRFTALNRPVWQQVESLVYFFLFPVLLFHSI
+VKSPLDLTAASSLIGAGLSLAFGAIALSYSLPHWPIWGRYLDRRDHAAAAQVGFRFNSFI
+GLALAERLAGPEGLLMIAVLIGFCVPLFNIGAVWPMARQAQSGFLRELVRNPLIIATASG
+LTANLLGFRLPEVLEPSVSRIGAASLALGLMAAGAGMQLGSLRQGKLLSASVLLIKHLLM
+PLMALGLSRLFGLNPTQTTVLLAFSALPTASTCYVLAARMGYNGPYVAGLVTLSTLAGMF
+SLPFALGVLRG
+>tr|A0A0P0LGQ0|A0A0P0LGQ0_9BURK
+MDLRKLKTLIDLVSDSNVSELEITEAEGKVRIVKSMGVAQPVVLQQAAPVVAAPAPVAPA
+APAVEAPPVVASAPAGHAVKSPMVGTFYRSSSPGSAPFIQIGSVVKEGDTLCIIEAMKIL
+NEIESDKAGTVTQILCENGQAVEYGQPLFIVE
+>tr|A0A0P0LN54|A0A0P0LN54_9BURK
+MTDIQTGFSKSYAEARQKFLNAAQAAGLTVDSNIHPLKGRDGEELAMDVVLDGAPDAKQL
+LIISSACHGVEGYCGSGVQIHALQNTAWREAAKARGVAVLYIHALNPHGFSHVRRVTHEN
+VDINRNFQDFSKPLPENAPYKEVQPLLLPEVWPPDNANLAAVQKYIAERGMDALQAAVSK
+GQHDFPEGLFYGGKAPTWSNLTVRQVLQKYGQKCQKLAWIDLHTGLGPNGLGERIFACAD
+DAAAYARAKAWWGQGITSIYDGSSTSAFLTGLMWMSAYQECPQAEYTGIAMEYGTQPQLQ
+VMNALRGDHWLHLHPEAPEPLRQKIKQDLMDAFYTDTDTWRTQIVDQAMDAMHQAVTGLS
+AA
+>tr|A0A0P0M7J6|A0A0P0M7J6_9BURK
+MNHQVSRLLIANRGEIARRVIRTAKRMGISTVAVYSDADQGALHVHEADTAVALGGTLSS
+ESYLRIDKLLQAARDTGADAVHPGYGFLSENAEFAQAVIDAGLTWVGPPPEAIRALGSKS
+AAKALAQKHGVPCLPGYFGADQSDATFMAQAQQLGLPLMVKAVAGGGGRGMRLVTDMAQL
+LPALHSARSEALAGFGNGDLLMERALLRPRHIEVQVMADSHGHCIHLGERDCSVQRRHQK
+IIEESPSPAVTPALRAQLGQAAIALAQSAGYVGAGTVEFLLDEAQSDKPFYLMEMNTRLQ
+VEHPVTEMLTGLDLVEWQLRIARGEALPLTQADIQLQGHAIEVRLCAEDEHFTPQTGTVL
+AFAEPAGLRFDHALHAEAVVTPHYDSMLGKLIAHAPTRLEAIERLSAGLQHTTLLGLPTN
+RAFLAACLQHPVFRAGDALIPFLAEQADTVRERLQTSADANTVAALAVLYAQHPPAQHMA
+SPFARPVRMGFAGQANAWQAVVHELGQGQVRVHQGDDTHTVQIQHAPTTDQSGAAHHALR
+ITLNSVHWQVQAAHTGGTAAQWHVQVQGPHHAELWLSDQSHSAPASGPNAQTATLLRAPF
+NGKLIALHVREGDSVKQGDALLVIESMKLEHTLTAARDAVVHSVPVSAGQQVGPGQVLVQ
+WQEAT
+>tr|A0A0P0LIR3|A0A0P0LIR3_9BURK
+MRVWQLWQALPRATAPAALGSLVSLAAQGFLALVLFRLFSPEEVGVFSATSQLAFFWASL
+ALAQSPLSLLAERHQEPRAAARRAWRQSAWRLLWLAPLAALGALWSGLGHAAQVWAWAAA
+LGLAQLSWLLAQSLTLRVGSRWSMGLVRMVPPVLAAAAAVLGAVLFPERGEGLALPVLLV
+SACLGYLAGAVWMRLAFQPATHADAAAAAQAGSDRPRDVDEAPQSSDPRSAQLKMLHTLS
+DGLAATALALSWPAHYGAQEAGWLLALLRVLSFIPALVHTAWAQVVLSSDTPVRLRPLQV
+AWAASALVLGVGALAQLALTGGWLDARWQGLSAYVWPLVLWQMAACFVAAHAHLPFQKGV
+AIQHAWLCVGMNLGFMALCVLLPWASPLGASTHMAWLSAYMLLSLAGLTLWMAKR
+>tr|A0A0P0M830|A0A0P0M830_9BURK
+MQTHPTPDTPEDYCGTTYAAKLLGLSVGTIQTLVEKNELQAWKTQGGHRRISMPSIRDYQ
+KKHNMLMSPSETREYRLRVLLVEDDPVTRDMVRDFCNRCEMPVDCTAMSSGLEALIDMAS
+IQPDVLIADLNMPGVDGFELLRTLKHSAQFQRMTCLVISALSQEEIAARGGLPEGTIFMA
+KPVNMQWFNGFFTALIAGRKLEQQST
+>tr|A0A0P0M9J7|A0A0P0M9J7_9BURK
+MSLTLASLVDRLGGRLCGDPDWVIAGLAPLQSAGHDQISFLSHPKYQSQLEASQAGCVIV
+APAFEALASQGRSAIVTDDPYLYFARLTRLWKQIHQPQAGPRIHPSAVIDPLAWVAEDAV
+IGPLCVLERGTKVGSGTVLKSRVTLSEGCVVGERCILHSGVVVGADGFGFAQHKGQWEKI
+EQLGAVRIGDDVEIGANTCIDRGALEDTVIQNGVKLDNLIQIGHNVHIGAHTAMAGCVGV
+AGSARIGAHCTVGGGAVVLGHLTLADHVHISAASVVTRSILQPGQYTGMFPLDSNASWEK
+NAASLKQLSRLRDRLKALEAHIQNNKEI
+>tr|A0A0P0MBS5|A0A0P0MBS5_9BURK
+MATAKSLTPAELDRVLTYTATQPYAQRNRAMLMMTVAAGLRVSEVAGLTLGDVLDSTGCV
+RGEVFLAAHRVKHNHARTIYINSRLQQELADYIATRTNKDPALPLFPTHRGPRCSFSPNT
+LAQHFYWLYRKAGVSNASSHSGRKTFLSSLASQGISVFVLAKLAGHRDIKTTMRYVTTAD
+DVLRKAVELV
+>tr|A0A0P0M958|A0A0P0M958_9BURK
+MVMDAAWNVLQMNRGAQWLAHTLMPWAAQIPQDQPFNMLDAMLHPEGMTHKMSNIEEVAL
+VMLAHLRDDAALVPALLPRVELLAVQLQQRIGQHLAPHPSKMVARAMAPVLTTRFSTEHG
+ELSFFSMFTTFGTPQDITLSSLRVEHLFAADAATREVFDAKVV
+>tr|A0A0P0M6F6|A0A0P0M6F6_9BURK
+MALLTLLNASLAFGHVALLDHADFSLETSERIGLIGRNGTGKSSLLKILAGMERPDDGNL
+HLQQGVRIAYVAQEPLLIAEHTIFEAVREGLAEVVQWIDDYTHSRGDLDTLQSQIESRDG
+WGWEQRLDETLQRLQLDPNAIVQSLSGGMRKRVALAQALVTRPDVLLLDEPTNHLDLNAI
+TWLEDLLIDFKGSVIAITHDRAFLDRIATRIVELDRGKLRLYPGNYAAYQVQKEEQLAQE
+AVIQAKADKLLAQEEVWIRKGVEARRTRSQSRITRLQNLRSERAARREKVGNVKMEVASG
+VPSGKLVAELTDVSKSFTQPDGSVRTIIQKFTGTLLRGDKIGLLGPNGAGKTTLLKLILG
+ELEADSGEVRRGTKMEVAYFDQMRDALDLNATLEDFISPGSEWIEIGNKRQHVKSYLGDF
+LFSPARATSPVRSLSGGERNRLLLARLFARPANVLVLDEPTNDLDIETLELLEELLQTYE
+GTVFLVSHDRAFMDNVVTGIIACESAPDQPGLWREYEGSVQDWLVQSQRSQAIRAQAAQR
+SGSAPAAAAAPVTAAAPTAAARSKLSYKEQRELAELPAKIEALEKEQAEARAQLADGSIY
+QRDPGLAQKLFKRDTEIDDVLLAAMERWEILSAR
+>tr|A0A0P0M763|A0A0P0M763_9BURK
+MHPPIQDHHTMNDFAHMRPLNRAHWPHSALAVACLAAMGCFSPGVHAQSADKAAANPAAN
+PIANPPALKASRREPVTLNFVNAEIEAVARTLATLSGANVVVDPRVKGTMSLSSNVPVPP
+AQALRLFAAQLRTQGFALVESAGLYTVVPEAEAKLQSSAVSAGAVPGGTGQIVTQIFKLN
+HENVNNLVPVLRPLISPNNTINVNPGTNALVITDYSDNLQRLGRIIAALDVSNATGVEVL
+RLRHAIAGDLAPMVMRLIESGAAAAPAAQGQTDNAFKTTVIPEVRTNALIVRAANPARLA
+LVRSLVDQLDQPSATGAGAASGNIHVVYLKNADATKLATTLRAAIAGESRSGAVSTSATP
+GSPAAAGASTASLSASAQPSTGGQIQADPATNALIITAPEPQYRQLRSVIDMLDQRRAQV
+FVESLIAEVNADKAAEFGVQWMSGTGNNGSAVGVLGTNFNVGGTNVFNLAAGVAAGNPVL
+STGFNLALGQRRNGVLALGALARFLQADGDSNVLSTPNLLTLDNEEAKIVIGQNVPFVTG
+QYTANNSNSGAVNPFQTIERKDVGLTLRVKPQISENGTVKMQIFQEVSSIDTRSSSSSGL
+ITNKRSIESSVLVDDGAIVVLGGLLQDDTSNSQEKVPGLSNVPFFGNLFKSEARSRKKTN
+LMVFLRPVVVRDGAAAEALSMGRYEQMRLQQQGFQPLPSGPLPVAGSAVLPPVDPAAPPA
+PGAASPVAPATRQP
+>tr|A0A0P0LP29|A0A0P0LP29_9BURK
+MPQQTLPPPLTSPDLLNATLADHGFAVLGAASVCALAGVKIEALQALQSSWQDLPPDQYL
+KDGGRYRRRRHASFEVTPGQVQAVPHRAHWQPLSYNALHGGMQRWFEPMATAVVQQDAWQ
+KLLCWLAKVASAAQGDQTWFTEAHQFRIDTTDGIGRPTPEGAHRDGVNWVAVFLVGRHGI
+KGGETRVFDMDSPRGQRFTLSEPWSLLLLDDSRVIHETTPIQPEQEGGWRDTLVVTLRAG
+GFLDEPTR
+>tr|A0A0P0MAU1|A0A0P0MAU1_9BURK
+MSGPPPPRSARLNVTTLAQPTTEPALRVGGLVLAAGAGSRMGNRPKCLLQLNGMSLLERQ
+LQALSLAGVRPVGVVLGHHVERILQEGVLSRWAAQQVRNPRPDDGHVSSLRIGLKAMPAE
+LDMVVVALADQPLIDVQAVQALLAAFAQRPAGTQMLQPSVQGLPGNPVVFSGAVMAQILA
+GDEHMGARQWQQAHPEAVYHWETPHGHYRLDVDNETDCQAVAQLTGQSLHWPHDLDP
+>tr|A0A0P0LEI6|A0A0P0LEI6_9BURK
+MNDISSSGSYLDFNALTQLKGDAARDPSKAVRKTAEQFEAYFIQQMMKSMRDTIEKSDLV
+EGGNMEMYQDLMDKEVSLSIAKRGGMGLADMMERQMNQAQAMSTQDALRLQNPATNTPPV
+AMPLVPVQEGMSLKPNAIQAYEIQRQNGFKIGDKP
+>tr|A0A0P0LNN3|A0A0P0LNN3_9BURK
+MSSPNPFMEGISDAVGFVGGALAGYWAGQWLGLNIFSAGYDNASIGGILLVGLGGGAGLH
+LARYWRSKQKAKDTDTPS
+>tr|A0A0P0M950|A0A0P0M950_9BURK
+MLKQRVITALALLALLLPALFAAHPWPFMALTLVLIAAGAWEWGRLNGVGPVQAWVGSLV
+CVAACALSTLAGWLQSTPPQLWLVAGAMWVLLGAWMIRRGVSGWALWSRSSRWWAGLFLL
+ALAWLALAQAHQRGVNFLLSVLVLVWAADVFAYFFGRGLGGRIFPVKLAPAISPGKSWEG
+VLGGMLGVFLVSWLWTVFDQTQGPSAASFYTLLWERGAGVAVPALLLMSAMSVVGDLVES
+LVKRSAGMKDSSGLLPGHGGVLDRVDALLPTLPLAMMLVAWI
+>tr|A0A0N7J8I9|A0A0N7J8I9_9BURK
+MVAPAPAPSVVLVLAGGGAKGFAHLAVLRQLEQDRIPIARIVGTSMGAVIGGLYASGMST
+ADIERTLSQLDPSRVALDQIDRRELPSRTRAYQEKYPVDLEFGIKNGGVSFARGVSDGQR
+FLALLQSLTQHLPPEVNFDDLKIPFRAVATRYRDGEMKVFDRGALHLAIRASMAAPAVFA
+PVEVDGETYVDGGLVANMPIEVALAEGADVIVASFLGAGADEGKTESASHALVVANRMLD
+ILIRQNEKRNLALLRPQDVLVLPSVQDIGFSDFNRAPEVVQRGREALVPVQARLAALRQS
+FAAQTTPQAPARLSFDQREKRIVAIESQGHKDVSESFIQSMLAPMLSQEFSAQRVERYLD
+ELYTSGYFDLVSYSLVQQQGDAYKLLVTVREKPYSPHFFKTTMGFSSEVDGVTQFTAGVG
+YRRPWLTPSGLELSIDARMGTQSELGLRFHQPLSRGWSVETGASLERNVLPLYRSSFNEE
+NFNNQKLAYYKQTVQSLDTTLVYDFERLANVKLGMVSSRIRRAFDTTVVWGNDNLEPTQE
+IRYNALRMKWQMDQLDSLSFPTRGYFLGGHMERGISGAIYSGGSLSAKWAHSEGPHIVNL
+GIQLAQERVTLDCDRCRAPSNLILGGFQNMGAYRMGQLVGDQLVHVQSTYMYRLTQGGLL
+NQKTYVGTVLEAGDAWAKGTAHRWRYSATAFVAVDSKIGDIYLGAARGSSDTYNLFLQLG
+RRFSF
+>tr|A0A0P0M6T3|A0A0P0M6T3_9BURK
+MNQSPEQLALQHHMALCQSHAEALQDALQDMRNRALNVDDYTHLNKADRRLLDQFAYRYT
+RLQDDMGAKLIPAVLKALGEDIAPLSALDRFARLEQLGWLASADEWQTLRQIRNQFAHDY
+SDNPTERFERQQAAVHAAVQLMSVLTRFQSKSTPAVPPSSRT
+>tr|A0A0P0M806|A0A0P0M806_9BURK
+MATIQFTDVSRVFERDGKDFLILDKINLTVQDEEFVAIVGPSGCGKTTCMRMAAGLEFPS
+SGSVKVNDVQVTGPGPDRAVVFQQFALFPWKTVHDNIDFGLRSKGLGKEERDSLIAHYIG
+LMNLKGYESAYPHQLSGGMQQRVAIARAYALNPQVLLMDEPFGALDAQTRVVMQEELVKL
+ARKNPRTVLFITHAVEEAVYLADRVVVMTSRPGKVKEILDVKSVREAEQWDRHSKIEDVM
+DLESFVHLRTRIWKSLREEHAGTDH
+>tr|A0A0P0M6Z8|A0A0P0M6Z8_9BURK
+MHPDIQTWQQTLPHGITLSCRACGEPGRPVLLFLHGFPEGAWVWDPLLRHFSRPENGRYR
+CVAPNLRGYERSSAPEDVKAYRAKHLAQDIVALIDSECGPLPGGRPLAALIAHDWGGAVA
+WSLANQNPHRMRQLVVLNSPHPGPFLRALQHDPAQQAASAYMNFLVQPDAAAQLAAKDFE
+RMFGFLTGQDTSLQSLTAPTADTQAHWLTPAVKAQYREVWQHGLQGGLNYYRASPLRPAT
+ATDPGASAVQIPPEALRIEVPTLLLWALGDVALLPCLTEGLDAHIPDLKLVPIAQATHWV
+VHEQPARVIQEIANFLPPSDIKPAQ
+>tr|A0A0P0M8F7|A0A0P0M8F7_9BURK
+MNSLPSPATLAPTALIDSDHPDVIALARKHAQGATDRERAVSLYLAVRDQFRYDPYRIDL
+SPQGMRASSVIAQGSGWCVPKAALMAAACRAAGLHARLGYADVRNHLSTERLRQTMQTDV
+FIWHGYADIWLDGQWVKATPAFNIELCDKFGLLPLEFDGLSDSIYHPFDKSGNRHMEYVN
+QRGTFDDMPLPQIVADFKTVYSGWMAESDPLQNASFAQDVDKETR
+>tr|A0A0P0MBD0|A0A0P0MBD0_9BURK
+MNPSIADNIARVRAQIEAACQAAGREPSSVHLLAVSKTWGADAVRQAHAAGQTAFGENYI
+QEAVDKITTLRDLPLEWHCIGPIQSNKTRLVAEHFDWVHSVDRLKIAQRLSEQRPAELPP
+LQVCIQVNVDGGDNKSGVSPQELPALAQAVNALPRMRLRGIMTIPEPAETDAQMRTVHAQ
+AKALYEALRQQGLPLDTLSMGMSADMAAAIAEGSTLVRVGTAIFGQR
+>tr|A0A0P0MBS2|A0A0P0MBS2_9BURK
+MKSIRTTLIATALMAGLTGLALAQNTTASADNTRAGRMEKMREHKSEHKGERHTQRLAEL
+KTKLNLQAGQEPAWNTFTQSMQHPDRTARPERASMEKMTTPERLDMMQAMKAQRDAHMQQ
+RAEATKTFYASLSTEQKQVFDQETARMMKGSGMHATKHEGGHGRH
+>tr|A0A0P0M9C8|A0A0P0M9C8_9BURK
+MKLLIDSFWRSALYCLYPRVIGLSVLPLVLIVALSGLLGYLYWDTAVTFVRGWLDASDWL
+DTIWRWFEGVGLGNLKTVVAPLLVIFAFTPLVVVASLLAVSFLMTPALTRMVAERRFAGL
+QRKHGGSLLRSLGWTFFSLLLALGALVLTLPMWLVPPLALVLPALIWGWLTYRVMAFDVL
+AEFASADERHTLMARHRMSFLGIGVVTGLMGAAPSLVWASGALFAAAFVILVPVAIWIYT
+LVFAFSSLWFAHFGLAALQALRDEPQPVTEDNVLSATPAAVSTSPHSAARLGTDAQDPSG
+GITDVVPRPKL
+>tr|A0A0P0M9V5|A0A0P0M9V5_9BURK
+MFTKILIANRGEIACRVISTAHKMGIKTVAVYSEADKEARHVQLADEAVLLGPAPSRESY
+LVADKIIAAAKATGAQAIHPGYGFLSENAEFSKRCEDEGIAFIGPRHFSIAAMGDKIESK
+KLAGAAGVNCIPGVNDAIETAEKAVEIAKGIGYPVMIKASAGGGGKGLRVAFNDKEALEG
+FTSCRNEARNSFGDDRVFIEKFVEEPRHIEIQVLGDSHGNVVYLNERECSIQRRHQKVIE
+EAPSPFISEATRKAMGEQAVQLAKAVKYQSAGTVEFVVGKDQSFYFLEMNTRLQVEHPVT
+EAITGLDLVEMMIRVAAGEKLPIEQKDVQRNGWSIECRINAEDPFRNFLPSTGRLVRFQT
+PKQTMFQGNTTDLYGVRVDTGVQDGGEIPMFYDSMIAKLIVHGKDRNEAIAKMREALNGF
+VIRGISSNIPFQAALLAHPRFVSGDFNTGFIAEQYSKGFRAEDVPHDDHDFLAALAAFVR
+RKSRQRAANLSGQLPGYDVKVGQDYAVVELGQGGNNRYVPVHVDEFVGKPGVAQITVDGK
+SYAIESNSRLNDIRIEGTCNGKPFTAQVERGTLKNPLALQVQHNGTRIEALVMSPRMAEL
+HKLMPFKAPPDLSRYVLSPMPGLLVDVAVQPGQKVQAGERVAVIEAMKMENVLFAAQDGV
+VKKVVASKGESLTVDQMIVEFE
+>tr|A0A0P0MAS6|A0A0P0MAS6_9BURK
+MIRPLLAVAALLLLQGCSAIKLGYQQLPTLSYWWLDNTVSFSGAQTPAAKEAIDKLYQWH
+RRDELPGYAALLQRTAELSAGPVQSAQLCRVLDEVQARLDTLMRQAVAQAAPVAMALGPR
+QLSHMARHWEQQNEEWEKEWLQGDADARMERRLEKAISRYNSFYGELNATQIALIKTQLA
+QSPWTAEWGRRDRQRRQQDLLSSLQRITQNNMTQAQAEAQLWGVWQRWLQPPDAGQRAVV
+QTLSQRACENLAQLHNTTTPEQRQRVARRLRAYERDLLDLNRP
+>tr|A0A0N7J8X8|A0A0N7J8X8_9BURK
+MKKYLLVLSALAISFGAAAKLPPLSEEAKAKAAEAAAKTAHGNKVADFQLCKSREKVAAH
+YYKTNGKGKAAPTATPACVDPGAYKPAETAAAPAAAPAAAGAKPAAAPAKKG
+>tr|A0A0P0MAS8|A0A0P0MAS8_9BURK
+MFKKILVANRGEIALRIQRACRELGVKAVMVYSEADKEAKYVKLAEEAVCIGPAASPLSY
+LNMPAIISAAEVTDAEAIHPGYGFLSENADFAERVEKSGFQFIGPTPESIRIMGDKVSAK
+QAMIRAGVPCVPGSEGELPDDPVQIRRIAKSVGYPVIIKAAGGGGGRGMRVVHTEAALVN
+AVQMTKAEAGAAFGNPAVYMEKFLQNPRHVEIQILADKHRNAVYLGERDCSMQRRHQKVI
+EEAPAPGIPRKLIDKIGERCVAACKKINYRGAGTFEFLYENGEFYFIEMNTRVQVEHPVT
+EWVTGVDIVKTQIMVAAGEKLPFTQKQIQIRGHAIECRINAEDPFKFTPSPGRVTSWHMP
+GGPGVRVDSHVYNNYFVPPNYDSMIGKLIVHGDTREQALARMQTALNETVIEGISTNIPL
+HRELMVDAKFMQGGTNIHYLEHWLSQHKR
+>tr|A0A0P0MB26|A0A0P0MB26_9BURK
+MKRKLLSLAAVAACAFAGSAQAQISDGIVKIGVMNDMSGLYSDITGPGSVTAARMAVEDY
+IKATKSTLKVEIVSADHQNKPDVGSNVARQWFDTDKVDMIADVPTSSVGLAVAKIASDKG
+KLHVNSGSATADLSGKACNANTIHWAYDTWMLANGTGKAIVKSGGNTWFFLTADYAFGHA
+LERDTEAVVTKNGGRVVGKVRTPFPTQDFSSFLLQAQASKAKIIGLANAGGDTTNSIKQA
+AEFGITKGGQNLAGLLVFLPDVHSLGLNIAQGLMLTETFYWDLNDNTRAFSKRFAAAQGG
+KMPSMVQAGVYSSVIHYLKAVDAAKTDDGTKVAAKMKELPTDDPIFGKGSVRPDGRKIHP
+AYLFEVKKPAESKGPYDYYKLVATIPANEAFRPLAESECPLVKK
+>tr|A0A0P0M6T4|A0A0P0M6T4_9BURK
+MSTDALREQIRMQVRKALSAASSPAPAADASVAALMRRFEAGYETVNAEAIVACFASDVV
+WVLPDSRVLKGREACLAFLKERFASPTGPKFSDSHMNVLGQTVVQNYKVSLPLPGGQIGI
+YDGTDVYQIRDGLIARKDAYWKQVGMPKPVAPAQPTPSPAGVVVPLRVGTAAHAAALTDL
+FKRLAASPALLQAAQSGLLRFDMRVDEAAVKAVAAAGGVSGASAMAATTAIDPAACCSSC
+KEGKACECQGDSCGLHDHAAQDVPELKGVIGEKLLKTLPPSVKTVRLHPKAVMTPLGKEA
+LRKRGITIERGTKP
+>tr|A0A0P0MBV3|A0A0P0MBV3_9BURK
+MKKHKLMVAIVAVGCVSGVLAQTSGDSPWMVRVRSVHLDSSNKDSTPLGLSINNKTFGEV
+DVTYFLSPNLAAELVLTNPQKQTVYANGSEIGSFKHLPPSVLLQYHFTDQQGIKPYVGAG
+INYTHFSDVALPEGVSLDSHSWGLAFQAGLDIPLDRNWSINLDVKKAYIRSDVYAAGSSI
+GRLKVDPVLYAVGLGYRF
+>tr|A0A0P0M7S4|A0A0P0M7S4_9BURK
+MKNIKKITALSFVFFLTSTASLAAGKLDWKACEKEVKEFKCSGDDKAVWACLEKHDEKLS
+KACQVTHEKGDKLFKK
+>tr|A0A0P0MAX9|A0A0P0MAX9_9BURK
+MSASGLMMKRPLLISGILEHAAAQFGEQEIVSRETHGPLHRSTFAQAAKRSRQLANALAQ
+MGLRAGSAVGSIAWNNHRHLEAYYAVSGSGMVMHTCNPRLHPQQLIYVINHAEDEVVLFD
+ATFAPLVKGIAAHCPKVRAWVCLADATNTPVIEGVANVMNYEGLISGHSDSFDWPELDDQ
+TGAALCYTSGTTGNPKGVLYTHRAIVLNATMACLPDVLSLSTQETILPVVPMFHINAWCI
+PYAALVAGTKLVLPGPKLDGPSLFELMDSEQVTISAGVPTIWMGLIQHVEQNNLRFAHMK
+RTAVGGSAMPLALIAKFMDTYGIEVRHGWGMTETTAVATMSLLTRTDRQKTAADQHAIVA
+KQGRAVSGIEIKIVDENGATLPRDGTSQGELMVRGQWIVERYFKAEKTALVDGWFPTGDI
+ATIDAQGTMQIRDRTKDVIKTGGEWISSIDLENAAIGHPAVAMAAVIGVKHPKWDERPLL
+FIVRKPGQSLETQEILDFLTTKVAKWWVPDDVVFLESLPVGGTGKVQKNDLRKDYGGVFS
+>tr|A0A0P0M9A9|A0A0P0M9A9_9BURK
+MNPSPSFFQRFFQRVETSLLRHGSEPKTIFWLAVLSVFDGFLPMLPAEMFVLALCVLQPQ
+KGQVIVVVFALASALGAFLLALGMGTLTESAESLSQKLMGSQGPQVLAMLRDSGPISMVF
+FSVFPDSPRSAIALFALSGVSPESIGTMVFIGKLMLYTVLLLMIHHLPSRVGRWRGAGPF
+WVKWLQRRASRFVAYCRRIRRRARRLSQGN
+>tr|A0A0P0MBH0|A0A0P0MBH0_9BURK
+MRALFDVNMLIALHDRDHVHHVRAAQWFEEHIQEGWATCALTQNGCLRIMGQPGYSSPQP
+IAVLVGMLQNSTRTAHHAFWSDEVSLLDPQQFQHGHIHSARQLTDLYLLALAVKNQGRLV
+TLDQRIPISAVRGATPAHLVVL
+>tr|A0A0N7J8X1|A0A0N7J8X1_9BURK
+MNANAPPKKPTVVVIAGPNGAGKSTSAPFLLKGALGVLEFVNADQIAVGLSAYAPETVSF
+EAGRIMLRRLHGLAMSGSSFAFESTLSSRTFAKFLRDCKATGYQVVLFYVTLPTSNLAVQ
+RVALRVKQGGHNIPTDDIHRRFQRSLNNLFELYLPLSDRWSVLDNAGGRIETIASGTPRR
+TSVKDPEKWLLLQSIAS
+>tr|A0A0N7J8X9|A0A0N7J8X9_9BURK
+MIAKAQTGPISMRWQSTWPAKDIFHEYALDYAKKVNDMTGGDLKIEVLPAGAVVPAFGLL
+EAVSKGTLDGGHGVLGYHYGKQNALALWNSGPAFGMDANMILAWHKYGGGAELLAKLYAS
+IGGNVQSFLYGPMSTQPLGWFKKPITKSSDFKGLKFRTNGLAIDLFTAMGAAVNALPGGE
+IVPAMDRGLLDGAEFNNATSDRILGFPDVSKVCMLQSYHQSAETFEIMFNKTKYDALPAK
+MKSVIAIATEAASADMSWKAIDRYSKDYIELQTKDKVKFYKTPDAILQDQLKIWTEIVEK
+KSAENPLFKEIVASQRAFAQRAVKWDQDTNISRRMAVNHFFGAKKA
+>tr|A0A0P0LI14|A0A0P0LI14_9BURK
+MKLHLIYARARNGVIGKDNQMPWHLPEDLAHFKRVTLGQPVIMGRKTWDSLPARFRPLPG
+RTNIVITRQPDWHADGASRAASIEEAMQLCGDVPDAWIMGGAEIYRQAEPLASTAVVTEI
+DADFEGDAYAPLLGADWREVKRESHTSNQDMGFAFVTYQHSRNP
+>tr|A0A0P0M897|A0A0P0M897_9BURK
+MYYEPGVTPHGLPHDPFKSCVIPRPIGWISTVDAQGRHNLAPYSQFQNVTFDPPIVMFSA
+NQTTQGERKDSVRNAEQTGEFVWNMATYALREAVNISAEEVPHGVDEFDRAGLTKLPSRL
+VKPMRVKGSPIQFECVYLNSLRFPGKPPMGSADVVFGRVVAIHIDDEIINGQGLIDVLKI
+QPLARMGYYDYTFVENQFQMVIPGNSKALLAGLEGSADKAAKSLSASPR
+>tr|A0A0P0M798|A0A0P0M798_9BURK
+MYEIWLAMNIAFEIAWDLWPALLPLALVWATVMLINRKKLALVSASSLAALAVLVALAAV
+LALPSLSKSTLADMGYWVDWAALLGMAAGVGVAAAVLLWPVLVLRKR
+>tr|A0A0P0M8X9|A0A0P0M8X9_9BURK
+MPLQFADRLNNVETSAIRELFKLLGKPGIISFAGGFPDSAMFDVDGIREASNAALSQDPG
+AALQYGATEGFGPLREQLAHFMAQKGAKDVAADQLIVTTGSQQGLDLIGKTMISPGDKVI
+VEGPTFLATIQCFRLYGAELISAPVDGHGVKTDELEKLIAEHKPKFVYLIPTFGNPSGAL
+MNAERRKQVLEMAVKHQTLIVEDDPYGDLYFGETPPPSLLALSSTVPGSRELLVHCGSLS
+KVLSPGLRVGWMVAPAELLGKATMCKQFSDAHTSTFAQATAAQYLLAGRMPVTLDKVRAV
+YAQRAQTMGDALRRELGDAVEFVQPQGGLFVWARLTGAGGKVNDGNAFAKRAIDNGVAFV
+PGTPFFCANPDHATFRLSFATVGEDKILEGVSRLAKAL
+>tr|A0A0P0M838|A0A0P0M838_9BURK
+MTVLVFIVSLLAAMALGMPLAFSLIVSGVALMLHLDNFDTQIVSQNLINGADNFPLMAVP
+FFMLAGELMNAGGMSRRIVNSAMVWVGHFRGGLGYVAVFAAIVMASLSGSAVADTAALAA
+VLLPMMRKAGYRMDRSAGLIAAGGIIAPVIPPSIGFILFGVIGGVSISKLFMAGIFPGLM
+MGFALIVTWWIVARKDKVEVAEKVPFKERISVTINAFWSYLLAITIIGGMKMGVFTPTEA
+AVVAVVYSLFVGLFIYREIKVKDLYRIILAAAKTSSVVMFLVAAALVSAWLITVANIPAQ
+IVEILRPFIDNKTLLMVMLMLLVMIVGTALDFAPTVLILTPVLMPLVREAGIDPVYFGVL
+FIMNNAIGLLTPPVGTVLNVVCGVGRIPMHDVIRGVMPFLISQVVVMGSLIAFPSLVMVP
+LKWLLMR
+>tr|A0A0P0M6Y7|A0A0P0M6Y7_9BURK
+MSVIDIEPLRFAWTRGGPDTLVLGRLQVDRGQTVFLHGPSGCGKSTLLGLLSGVLSPRQG
+RVSLLGQDWAALKPGQRDTFRADHVGVMFQQFNLLPYLSVLDNVTLPCRFSKLRRERCQA
+AGGPVATAQSWLQRMGLPEVMWSRRADALSVGQQQRVAAARALMGQPELILADEPTSALD
+AALRQDFMDLLLQSARDAGSTLVCVSHDEQQAVRFDVQWSLPALQQAEVSA
+>tr|A0A0P0M8R4|A0A0P0M8R4_9BURK
+MSVREVYEEELQKRGYQSDPAQLRAIEALERCAKEWAAYKSKRSGLLGKFLSRPEIPKGV
+YMFGGVGRGKSFLMDCFFAAVPIERKTRLHFHEFMREVHRELSVIQGTVNPLDELGKRMA
+KRYQLICFDEFHVADITDAMILHRLLVALFDNGVGFVTTSNFEPDGLYPDGLHRDRILPA
+IALLNQRMQVLNVDNGTDYRRRTLEMVKLYHSPLGEQADAEMNDAFNRLATGPDEDPVLH
+IEAREINAKRRAGDVVWFDFRAICGGPRSQNDYLEIATQYHTVLLSNVPHMPVSMASEAR
+RFTWLIDVLYDRRVKLIMSAAVPPEGLYTAGPMSHEFPRTVSRLHEMQSSEFLALEHRTV
+DTHLT
+>tr|A0A0P0M7K2|A0A0P0M7K2_9BURK
+MLIDFFYTLRAAKLPVSVREYLTLLEALQAHVVGPASDACSIDDFYHLARTVMVKDEKHF
+DKFDKAFGAYFKGVEMLTDFTKEVPLEWLEKILQKELTPEQKAAIEKMGWDELMETLKKR
+LEEQKERHEGGNKWIGTGGTSPFGNGGYNPQGIRIGGKGGNKSAVKVWDQRAYKDYDDSQ
+ELGTRNIKVALRRLRRFAREGSQDELDLDGTIRKTAANAGYLDILMRPERHNNVKVLLLM
+DVGGTMDEHIARVEEMFSAVKAEFKHLDFYYFHNCVYDFMWKNNKRRYAEKFPTWDILRK
+YNKDYKLIFIGDATMSPYEILQKGGSVEYNNEEAGAEWLQRLTHTFPKFAWINPEPQGVW
+QYRQSISIIQQLMSNRMFPLTLKGLEDAMRLLSK
+>tr|A0A0P0M7L8|A0A0P0M7L8_9BURK
+MSLSPRTTPTLTQYLIEERRRFPDASGDFNALILDVAMACKAIAKSVAYGALADMYGNHA
+ADAGGSINVQGETQKKLDVVSNELFIRMNEWGGHLAGMASEEMDLPYDIPPQHPRGKYLL
+VFDPLDGSSNIDVNVSVGSIFSVLRAPDATAEGGPLTEADFFQPGTRQIAAGYALYGPTT
+MLVLSVGNGVAGFTLDPVMGEFMLTHPELRVPEDTQEFAINASNSRFWEAPVKRYVDECL
+AGKTGPRGKDFNMRWIASMVAEAHRILMRGGVFMYPRDTKDPSKPGRLRLLYEANPVGFI
+MEQAGGRASTGQVPMLSVQPTSLHQRIGLVFGSKNEVERIERYHAEPPKQDSFAPLFGER
+SLFRD
+>tr|A0A0P0M7X6|A0A0P0M7X6_9BURK
+MPVVSITLLPGYDPDTQHRMVNHVANAVRSVIATPEAGTTVFINEVSTYRRDGKVFSGGR
+AAHPVASEVVKSFLQAMQERDMPLAQSFLHPEFVMCFPGGVQMRTLPELIAWAQQRYSTI
+GKNYAQFEESWQGDATVVFCHGTLHGTWLNGEAFEGIRFIDRMEVRDGLITRQDVWNDLA
+EHRKA
+>tr|A0A0P0M7X2|A0A0P0M7X2_9BURK
+MRASNEMPTFDALFEPLLAALRALGGSGSIEEIYAKTVEVAGISEDVASQMHDPDKSNMT
+EVGYRLAWARTYLRKYGLLENSSRGVWSLTAKGNSADKINTAEIVKAVRNMDRPEPTKRS
+KKAESIELDFGKDLPEEDRWKDKLNAVLTQQLSPQGFERLVQRILRESGFVAVEVTGRTG
+DGGIDGKGIARINGFMSFHVLFQCKRYKGSVGSSEIRDFRGAMVGRADKGLFITTGTFTT
+GAIKEATRDGAPPIDLVDGDELAEKLKELSLGVTTELVPRVVVNPEWFVGLSNAK
+>tr|A0A0P0M9F8|A0A0P0M9F8_9BURK
+MTVSWIKRTACLTGALLAVGLPMGTWAQAWPTKQPIKLVAVFPPGGSVDQVARILSGPLS
+QQLGQSVVVENKGGASGVIGTASVLSAPADGYTFAVVFDTHGVNQSLMPNMPYDSKKDLT
+PLVLVGTSAMMLTTHVNTEYKTFGDVVAAAKAKKNVAYGSIGNGSLAHLAMSLLGKSGGM
+EFNHVPFKGGGPLMNDAIAGHIPLSMATVFLNKPHIDSKRLRPLAVTSAKRVAEFPDVPT
+IAEAGFAGFEAPAWWALLASSKTPPDIIRRMNEELNKALANPDVSKRLVAQGIEISGGSV
+EKAKTFIDGQIDTWAKVVRENGIKPD
+>tr|A0A0P0LGN2|A0A0P0LGN2_9BURK
+MKIAVLPGDGIGTEIVAEAVKVLNTLDLKFEMETALVGGAAYDAFGHPLPEATLKLAMDS
+DAVLFGAVGDWKYDKLDRPLRPEQAILGLRKNMGLFANFRPAICYEQLVGASSLKPELIS
+GLDILIIRELTGDIYFGQPRGRRIATDGHFPGAEEAFDTMRYSKPEIERIAHVAFQAARK
+RKAAGTEGRVTSVDKANVLETFQFWKDVVTEVGKEYPDIALDHMYVDNAAMQLVKEPKRF
+DVVVTGNMFGDILSDEASMLTGSIGMLPSASLNTKNQGLYEPSHGSAPDIAGKGVANPLA
+TILSAAMMLRFSLNQPEAAQRIEAAVQKVLAQGLRTGDIYSEGTTKVGTAQMGDAVVKAL
+G
+>tr|A0A0P0M7M3|A0A0P0M7M3_9BURK
+MNEAETRAEHIDPALAAAGWGQVDGSRILREHNITAGRLQGAGKRARADIADYVLVYRNT
+KLAVVEAKAWAKPLTEGVGQAKSYAAKLAIRRAFATNGQGIYSIDMHTGAEGEVACYPTP
+DELWELAFGESEAQAAAWRKHFAAVPLEDKGGTWTGRYYQEAAINRVLESVAQGNDRVLL
+TLATGTGKTFIAFQLAWKLFHSRWNLKDWKDGTEPSRRPRILFLADRNILADQAFTAFSP
+FPEDAVVRIDPGDIKKKGRVPKNGSVFFTIFQTFMSGPGDTPYFGEYPPDFFDFIIIDEC
+HRGGANDEGSWRAILEYFSPAVQLGLTATPKRTINADTYGYFGDPVYTYSLKDGINDGFL
+TPFRVKQIVTTLDDYVYTADDMVLDGEVQQGKRYEEKDFNRSIEIKEREAYRVKLFMDSI
+DQREKTIVFCATQQHALLVRDLINQIKTSPAPDYCVRVTADDGKLGEQHLSQFQDNEKTL
+PTILTTSQKLSTGVDARNVRNIVLMRPVNSMIEFKQIIGRGTRLYDGKDYFTIYDFVKAH
+HLFSDPEWDGEPVEPEPPTEKPLPPSWQPQDPTDPPKVSMPGEERPAKLVVKLADGKTRT
+IQHITSTSYWGPDGKPLSPAQFLESLFGALPEFFKNEDELRTLWADPTTRKALLGGLADK
+GFGRDPLREMQRIIEAEKSDLFDVLAYVAFALPTETRATRAERAKAHNAVTYGQKQQAFL
+AFVLDQYVTQGVDQLDADKLTPLLKLRYNALNDAMAELGDAVQVRQAFVGMQRYLYQDKH
+L
+>tr|A0A0P0M8D8|A0A0P0M8D8_9BURK
+MRLLIAMMMHETNTFSPVPTDLQRFALGPGEAPPRGDAAIAAFRGTGTATGAFIDLAEQA
+GAEFELALGAHAAPSGLVFDAAYEAMSEAILQAVDRGGFDGILLDLHGAMVSESHEDGEG
+ELLRRIRAIDPKTPIGVAYDMHANVYADMVELAQTVAGYQTYPHVDMYGTGVRAGTALLK
+LLQGQAQPTTAWGRLPMIPHIMRQSSLDEPNRSIQARAQQMEKEGALCASVFTGFPHADI
+ENAGLSVVVVTDNDLPLAQRLRDELMQMAWDSRAQWVYEVEPLATSVARAQTLTDYPVML
+LDHYDNAASGGTMDTTAVLAEVLRQGLRNVAVFAIFDPQAVQEAITAGIGTQVRLQVGGK
+MAMPLMPHRSAPIELSGVVKLISNGKYRNKGPMSRGARQNMGQAVVIDTGNVEVALISRH
+VEPFDVNALLCLGIDPTQKDFVVLKSRVHWRAGLGHLARATVECAGAGACTSDYNELHFK
+KLRRPIYPLDPGVSWSAADR
+>tr|A0A0N7J8R5|A0A0N7J8R5_9BURK
+MNAMTQTELHTLSNSHLDALEEETIFILREVAAAFERPTLLFSGGKDSLVMLKCAEKAFG
+AGRIPYPLLMIDTGHNFTEVTDFRDSRAKELGAELIVRSVEDSMKRGTVRLAHPGESRNV
+HQSVTLLEAIEEFRFDALIGGARRDEEKARAKERIFSHRDSFGQWQPKAQRPELWTLFNH
+KLQPGEHFRVFPISNWTELDVWQYIARERIALPSIYYTHQREVVDRRGLLVPVTALTPPK
+DGEEVVVRDVRFRTVGDITCTCPVESTAATPEQIVIETLAADVSERGATRMDDKTSEASM
+EKRKKDGYF
+>tr|A0A0P0LPZ4|A0A0P0LPZ4_9BURK
+MSQVLQSFIGGQWIGQQGAQNLRSAINGATVFQTHAEAIDFGDAVNYARTVGLPNLLKLD
+FQERAQRLKALAKYLGEHKEQLYAISAHTGATRADSWVDIEGGAGTLFAYSSMGSNELPS
+GNLIHEGPAFPLGKKGGFAGTHILVPRGGIAVHINAFNFPIWGLLEKFAPSFLAGMPCIG
+KPASSTSYLTEAMVRLVEQSGILPAGALQLVIGSTGDLLDRLNGQDVVTFTGSADTAAML
+RVHPNVVKHSIPFNAEADSLNCAILAPDVSPDDEEFDLFVKEVAREMTVKAGQKCTAIRR
+AIVPRQHLDAVAEKLKARLAKVVVGDPSVEGVKMGALASHAQQADVAERVALLRQSAELV
+FGGGADFKPVGQGVEGGAFFQPTLLLCQKPLYTDSVHDVEAFGPVSTLMPYDGIDEALQL
+AARGQGSLVGTLVTKDPQIAARMIPVAAALHGRLHILDREAAVESTGHGSPLPSLKHGGP
+GRAGGGEELGGIRAVKHLMQRTALQGSPTMIAAVTGEYMRGAKLIETEVHPFRRYFEELQ
+IGESLLTHRRTVGEADIVAFGGLSGDYFYMHFDEIAAKDSPFGKRIAHGYFVLSAAAGLF
+VSPAPGPVLANYGLDTLRFVKPVGIGDTIQARLTAKRKIDRNKKDANGVGQGVVAWDVEV
+TNQLGEVVASYDILTLVAKKG
+>tr|A0A0P0LBD2|A0A0P0LBD2_9BURK
+MKIVLASNNAGKLAELQTLFAPLGMTLVRQSELNIPEAAEPFKTFVENALAKARHAAQLS
+GMPALADDAGLCVDAFGGQPGVDTAYYATRFGYPKGDDTNVSALLEQMQGITNRRAAMVS
+TLVAVRSADDPEPLIAVGRVVVQITPERRGTNGFGFDPVMYLPEFGKTFAELPPEVKNAH
+SHRGRAAQAMLASMRERWLDGAAA
+>tr|A0A0P0MB42|A0A0P0MB42_9BURK
+MNTVSLIGCDFSSSPSKRKPIVLALGQARQGRVQLQALQTFETLNAFGDWLAQPADWVGG
+FDLPFGLPRELVETLGWPTDWAACMDHYCALDRPQIREQFAAFCNARPVGGKFAHRAADQ
+PAGSSPSMKWVNPPVAYMLHAGVPLLRQAGVHVPGLQAGDVRRVALEAYPGLLAREVLGN
+TSYKSDDKAKQTPERLLARRELLSALERGQTRLGLRLVASNALLGRLADDASGDALDATL
+CLMQAAWAQQQHESGHPQYGLPPCDPLEGWIVTA
+>tr|A0A0P0LCX3|A0A0P0LCX3_9BURK
+MPESFGLAHIWTQGDAVTRLILITLIGMSVTSWVVIVLKALDVWKHKQSALSSEQFWHTT
+SLAEGLAVLSHRPDNMFHTLAQVGQEATEHHQAAQKQLHDRLDVSDWVTRSLRNCIDDHT
+SRLQNGLAILASMGSTAPFVGLFGTVWGIYHALVAIGATGNASIDAVAGPIGETLIMTAL
+GLAVAIPAVLGYNALVRGNKFIIARMNRFAHDLHAYYVTGARVSPSAQAHLPPHLAAAHV
+GH
+>tr|A0A0P0MBJ1|A0A0P0MBJ1_9BURK
+MNNTLQLARRGIHVLDLLGLWIGLLSLRLILAWEFGEAGFEKLHGSNWFADIQDQFPWPF
+KLIPADLNWALATGFEIVGAIALVIGLGTRFFSASLIVLTVVAMLSVHWPESWSSLSELL
+KGYALTNDGFGNFKLPVIYIAMLLPLVFMGPGRLSMDALIHRRVVKSSH
+>tr|A0A0P0M9T7|A0A0P0M9T7_9BURK
+MSAFIEAASPHTMNTYGRLPIALSHGQGCRVWDVNGKPYLDALAGIAVNTLGHNHPDLVP
+ALQDQLAKMIHSCNYFHVPNAEVLAAKLVELSGMTNVFFCCTGLEANEAAIKLARKYGHD
+KGIDKPEIVVYEKAFHGRSIATLSATANEKLKKGFGPMLEGFVRVPVNDIEALKKATEGN
+PNVVAVFMETIQGEGGINPMRIEYLQQVRALCDQKDWLMMIDEVQCGMGRTGKWFAHQWA
+GIVPDVMPLAKGLGSGVPIGAVVAGPKAAHIFQPGNHGTTFGGNPLAMRAGVETIRIMEK
+DGLMANAAKVGAHLRSALEKALAGVQGVKEVRGQGLMLGIELDRPCGPIWSRAAEAGLLL
+SVTADSVIRLVPPLIMTEGEADEVVAILVPLIKTFLAEPA
+>tr|A0A0P0LPB3|A0A0P0LPB3_9BURK
+MKRLLWLLQWLLKATVFFTLFAFALNNQQETRVNFFFSTYWSAPTVLVVLSAFSLGVVVG
+VLGMVPRWWRERQAVKKNTPPPPTTPPAPTSEVTDGA
+>tr|A0A0P0LPW9|A0A0P0LPW9_9BURK
+MSKPTTGDFTKTAGWMDWYTGPTKPTFQLPAGAVDAHCHVFGPGARFPYAPERKYTPCDA
+SKHQLYALRDHLGFARNVIVQATCHGADNRAMVDACLSSGGKARGVATVKRSVTDQEIQA
+MHDAGVRGVRFNFVKRLVDFTPKDELMEIAGRIQKWGWHVVIYFEAVDLPELWDFFTALP
+TTVVVDHMGRPDVSLPVDGPQFALFQKFMREHSNVWSKVSCPERLSVTGPKALNGEQNAY
+QDVIPFAKRIVEEFPDRVLWGTDWPHPNLKDHMPDDGLLVDFIPHIAPTAELQKKLLVDN
+PMRLYWPEEVK
+>tr|A0A0P0MC01|A0A0P0MC01_9BURK
+MSQIQNNIWAAPRLSMRWWPVFQRNWLVWKKLAIPSLVGNIAEPLMWLVAFGYGLGALVG
+QIELGGEKVPYILFLASGSICMSAMNAATFEALYSAFSRMHVQKTWDGIMNAPVRLDDVV
+LAEMLWAAFKALFSVTAILLVMMALGISHSCKLLVAWPVLLGVGITFSCMALIFNALAKG
+YDFFTYYFTLFLTPMMFLSGIFFPREQLPSFVRIVADWLPLSVAVDLVRPLFLDRWPDQP
+LRNVLVLAGFAVVSFWIALALTRKRFRS
+>tr|A0A0P0M9H3|A0A0P0M9H3_9BURK
+MHFYEPHLGHGLKHDPFNAIVGPRPIGWVSSRSNSGVLNLAPYSFFNAFNYVPPLIGFSS
+IGRKDSLNNIEANGEFVWNLVTRPLAEAMNQTCEGVPPEVDEFALAGLTPTPSRLVSVPR
+VLESPVSFECRCTQILQMQNLQGNKVDTWMVFGQVVGVHIDERLIPNGVYDTANAGHILR
+GGGPADYFTIGPEQLFKMYRPASGARDLPK
+>tr|A0A0N7J8F2|A0A0N7J8F2_9BURK
+MTSPIDTAVDTQPKALPVTESPKALPSAWPPRWLVAVLGAVAVIALGVSLLMWQKLSRIQ
+EQLARQSADTGLQALEAKTWAKQSQEIVQDSAARVALMEARLSEVALQRTQLEELMQSLS
+RSRDETLVVDIESALRIAQQQAQMTGSTEPLLAALQSAQKRVQRAAQPRLTPVARALEKD
+LERLKSLPAFDIPGLMNKLDEGVALVEGLALANGARASQSQIREQAEASGEQTPPTWWMN
+GLTRMLDEVKGLVRVSRIDAPEAALLSPEQAFFLRENLKLKLLNARLGLLARQKEGVRND
+LGAAAVLVRRYAEPQSRRTTQLLQLLEQTSEQVRTAELPRIEASLTALNTAAAGR
+>tr|A0A0P0LLZ8|A0A0P0LLZ8_9BURK
+MKKKQKQVEIYKCLGYSMLGTAILVAPLLGDLETALFVI
+>tr|A0A0P0M7K0|A0A0P0M7K0_9BURK
+MLARGLRRMKRPGLVLALTALTLLSLWLWTPDLPRATLEARYLVSSADLRRVGPWQLHVR
+DSGPPSSAPRKSDAQTDAPAVVLLHGFGSSLQTWDAWAEGLAATHRVVRIDLPGSGLSPP
+DPAQDYRDERSVQMLVALLNDLGLKRVSLVGHSMGGRIAWTFAAKFPERIDKLVLVAPDG
+YASFGFEYGQAMEVPATLGLMRHVLPKPLLRMNLKAAYAQPESLSDAVTTRYHDLILAPG
+ARQAMLDRLAQTVLQEPGPLLRQIRVPTLLVWGEADAMIPVSNARDYLQDLPDSRLVSWP
+AVGHLPQEEAAQLSLQAVVDFLR
+>tr|A0A0P0M9P1|A0A0P0M9P1_9BURK
+MTETGWTFGLHCRADQLVTPPGQPQPRRTLGVLLQGVLSLILVMPVWAQTPPPPSALAPS
+DTPTSLPSLSEAASAHPVTQADSAFSATPALGPSLQPPSAASGASGSDTSAWPSLSKRQQ
+QALAPLAEKWQEMTAQQRQKWLALSRNFFQLSDEEQQTLHSRMREWAALSPRQRSQARFH
+FNTMQSLSAQDKRAQWEAYQALSEQEKSKLSSGPKPPAKSVARSFAPPSTRLVSPPLLPV
+NATRAVQRVAPSKPIHPKTLLPQPS
+>tr|A0A0P0M916|A0A0P0M916_9BURK
+MPSGTVKWFNDAKGFGFIQPDGGGADAFAHFSAIQMEGFKSLKEGQRVDFELTQGAKGLM
+AANILAAAETPAVSKPSVPQDSHLTRHDPNEDGASTSTRSPDTPAA
+>tr|A0A0P0M743|A0A0P0M743_9BURK
+MNGVHDMGGQQGYGRVQIEANEPLFHGEWERRALGVTVAMGASGLWNIDLARSARESLPP
+LDYVQGPYYAIWTKALQNMLIERGLITAEELAQGQAITPPVAGVRVLQAAQVDAALAKGS
+PADRPSTQAPRFAVGQRVRALNINPQGHTRLPRYVRGHVGTVVLHHGSHVLPDQHVNKML
+PPFDGTAEHLYTVVFDGTELWGPQAEAGHQVSVDAWESYLEALPA
+>tr|A0A0P0M739|A0A0P0M739_9BURK
+MPPFYFIGLMSGTSLDGADGVLAQLDETGHLTVLAHDFVAFEAAFRSELLSLNSSGPDEL
+HRSALAGNQIARHYAEVVAALLQKTGLQASQIKAIGAHGQTVRHRPLEFDADEARHRAAV
+GYTLQLINPALLAELTHIDVVADFRNRDLAAGGQGAPLVPAFHQGVFAQPGRCVAVLNIG
+GIANLSVLKADGSVLGWDCGPGNALMDFWCARHTGQAFDRDGNWAMTGQLQPALLRSLAS
+DPFLHKPPPKSTGRDLFNPAWLQEHLALLDDLQPADVQATLCTFTALACSKDLLRHAPEA
+SELVVCGGGALNGELMRQLAAHLPGISVLNSEALGLPPLQVEAAAFAWLAFKNVRRETSS
+LPSVTGAQGARILGAIYPR
+>tr|A0A0P0M9L7|A0A0P0M9L7_9BURK
+MSAALESLDRMNTALARSQNGELPQSEMIRLWRSESASLALPARFDEVLHPLLDRIEASV
+LFSEESCSFSQKDLLASLQMWADKARLRLSSQNGAQT
+>tr|A0A0P0LJ48|A0A0P0LJ48_9BURK
+MLIRFNKPYGVLSQFTPEGRWTGLIDHIDLPGVYVAGRLDADSEGLLLLTDDGKEQARIA
+DPRFKMEKTYLVQVEGIVTDQALIALCRGVTLNDGPTLPARARAVAPPADLWPRNPPIRE
+RKNIPTSWLELSIREGRNRQVRRMTAAVGLPTLRLIRTAIGPYTLDALPTGTWQQV
+>tr|A0A0P0M7F4|A0A0P0M7F4_9BURK
+MSTFDHPGLMQDINECLVPFRKSQPDAMKGFGQLAQAAMAEGALSTKHKELMALAIGVTQ
+RCSGCIGFHVKALIKLGATRAELEEMLAVCVYMGGGPALMYAAEAVKAWDDLQAAQA
+>tr|A0A0N7J8Q5|A0A0N7J8Q5_9BURK
+MTATLTWTHLKRAVSTLACDVHEGFVEITRHSLAVIGLAVVAISLTLVARPGLQEVASET
+LMSWLELRQVEQTAVLETSTLSPASRSTAAPMQNLSNDQLAVTRWLSNKYKVSPEPLAAL
+VSEAWALGERSQIAPTLILAVMAIESRFNPFASGHLGGLGLMQIEPEAHIGALTPFGGRL
+AAFDPLTNLRVGTRQLQALIQDASTLEDALRLYSLASGQLNNDTYVDRVLAEQKLLDNLS
+QGAKTASSDKKDTTLTKSHPTHM
+>tr|A0A0P0M868|A0A0P0M868_9BURK
+MRRLLNVIYDSTAALAALCMCGLLFMVLLSVLSRQLHVHVPGTDAYAGYLMAGAGFLALA
+HTLKRGEHIRVTLVLGLFKGAARRGMEVFSLSLASLLACLFAFYSCRLVWQSIEFHDIST
+GNDATPLWIPQLVMALGTVIFAVAFVDELVLEILGQRTALDSGEMLRNE
+>tr|A0A0P0LAG5|A0A0P0LAG5_9BURK
+MRRLKTQNQLQDFLDAELSWRVKEISTLKAAVKSSAFISEQTLVRASVALLYAHWEGFIK
+SAATGYITYVNNQGLNYSQLKTCFVVLGFKKALHDVQQSKQSHVNSTLIDFLREGLAEKS
+NLKIDTAINTESNLSASVFENILHAVGFETSPYEAKAHLIDESLLKRRNTIAHGEYIDVA
+KDDWAKLADEVLQMLRQFKTDIENAMALSAFKRPVAT
+>tr|A0A0P0LHV6|A0A0P0LHV6_9BURK
+MNHAFISKFLSSVCAGLLAFSAISSAQAQTTLRVTTIPEEAATEQVRKFTPLANYLEKQL
+GMKVQFTPVTDYPAAVESLVNKKVDVVWFGGFTFVQASIRSGGKIVPIAQREEDTRFQSV
+FIAKTDSGIKTLADMKGKQVSFGSQSSTSGHLMPRSFLLQAKIEPEKDFKRIAYSGAHDA
+TIASVVSGKVDAAALDITVWKKFVAENKVDTQAVNVFYTTPPYFNYNWSVHADMPADLRE
+KIKAALLALNPANPEHAEILKLNRSTRYISTTPENYKGLESAARSAGLL
+>tr|A0A0N7J922|A0A0N7J922_9BURK
+MAVAIKLSYELVEAAKPYAAAEHRSVPRQIEHWARIGKAVTDNPDMTPRLIQDTVLSREE
+IKVGLASSYDFD
+>tr|A0A0P0LMS0|A0A0P0LMS0_9BURK
+MTTALKISTQGGVHTITLSRPDVRNAFNDEVIAELKNAFLAVAQDSAVRCVVLAAEGPAF
+CAGADLNWMRRMADYTRDENLADAGELAAMLRAIYECPQPTIARVQGDVYAGGMGLVAAC
+DMAVSVNTANYCLSEVKLGLIPATISPYVIRAMGARAAHRYFLTAERFGAAEAHCIGLVH
+EVVTADALDAKVAELTQALVSASPNAVRACKKLVQDVAEREINDALVAQTVAGIADIRAS
+SEGKEGVQSFLQKRKPNWLV
+>tr|A0A0P0M7I2|A0A0P0M7I2_9BURK
+MQRRALHLSLLAGLLAVSGFVSAQTKWDLPAAYPATNFHTVNMTQFAADVDKASGGKLKI
+TVHANASLFKAPEIKRAVQGGQAQLGEILLVNFQNEWQPFGADGLPFLADSYDESMKLYK
+AQKPLLEKKLAEQGMMLLYSVAWPPQGIYSKKPINSAADLKGIKWRAYSPTTAKIAELIG
+AQPVTVQAAEFSQALATGVVESTMTSGATGVDSKLYEHLKYYYDVQAWLPKNAVIANKKA
+FDALDKPTQEAVLKAAAAAETRGWTESRKVNTTTLETLKANGMTVAPPSAQLKADMKKVG
+DVIMKEWLEKSGAEGKAIVDAFNR
+>tr|A0A0P0LRF7|A0A0P0LRF7_9BURK
+MKRFSFSIAFGLGALALIWVAAAVASSHFLVLVMTLLIGAVYGFGAWELRQYRATTTALD
+QGLTQVPADLVHLSDWVLTLPLALQNPVRQRVQGERVALPGPVFTPYLVGLLVMLGMLGT
+FLGMVVTLNGAVFALEGTNTLAGVRAAFSEPIKGLGLAFGTSVAGVASSAMLGLMSSLAR
+RERALSSQHLDTLAHTQLQRFSLAHQRQESYLALQQQAQALPQVLQQLQALMAQMASNTE
+LTHTQLLTSQHSFQEKVQQEVHKAYTGLAQSVDQSLRTSLSQSLQLATDSIRPVVQATMT
+QLTEQAKALNDRLLHNTQLQLGEVHTQLTATATTLAQTSAQTLSQHEQTNQRMSERVGQT
+LEAFSQNFERSAQALVVQVGSAQAAQHAQQSSADQQRLESWQTALNSMADGLQQQWQTSG
+TQTLAQQQAICDTLARTAQDISTHSQTQATQTLADITRLLASSEALVQTRIAAEAQWTAQ
+HSQRAEELSALLRQELTALRQAEDERGQAAVARLAELQSTVTAHLSTLGTALEAPITRLI
+ETASEAPKAAAEVIGQLRQEISVSVARDNALLEERTRILGTLSTLLDAINHASTEQRGVI
+DALLVSSQASLMQTSEQFQQHVAKETDKLGGIAAQVTASAVDVASLGESLGFAVRAFGQT
+NEQLMAQLQRIEQALDKSMTRSDEQLAYYVAQAREIIDLSIGSQKDVLDALQRRTDLVSE
+GAI
+>tr|A0A0P0M6V9|A0A0P0M6V9_9BURK
+MRDQSLYMPKLLSALASGALASASLGVQAQQISPSGYTGAINTPTAFTLKPASMGMSLTN
+SIPEFYEQFPGVGSMLSLNLGFGLAPGLEAVGRLTNNGDLHCDLYYSSCKSSTRDLSVGG
+KYQLPLHWLFGNDLLNHQYFKPALAFGITDYGGAATLYRQKYAVGSVTSGPVTLSAGRAA
+SIYTDHGGGLIQGNFGSVIYQLTPQLSAIAETDSRERRLGVSWTHRLTGNTDLVLAASKK
+LTNSTYQQASQATLALVYHFGRGDKESAAKPVDTRDWGRPTAAAIHSQEAASPSSAPKAV
+VKTESAEPVIQAPKEALASPAATVKWPEASDQDKAQALADRFAQNGFSDIDVAQTPSGWL
+VRAEPRLWRQNRLDAYGAALSSYLLAAQDIDLSQVQHLNVALTFMGQVVGGLSVEDAASA
+IQCMRQYLGGADMCSGGKAFKLHYEQETLPEFKQAQWLLLQEKNRRFMPQFELSPAASYT
+AGTEFGLFDYSIGATLGWEVPLAKGLFWQGFYAQLLTESDEFKDPTSYFRRVGMGEATRA
+GSNLLVYQTRLLPQWSSRLWGQLSVGDLGYQTSGHQINAYWATEDGRYRATWVKGQWRNE
+SMWQVRNPHILNLSVRPLSSDFQITYSTGQFHNNDKGHRLGLSFSFADNGVQFFWRKTGP
+SNILPNNNAFMGFSITMPLGPKQALEAGPASFRLRDRWEMGVETKVGQKDNYIEPFYGAF
+PGIRHSLDTDVFDFNRNDIPLAELNSYRIRVTAREVYLANTKR
+>tr|A0A0P0M865|A0A0P0M865_9BURK
+MLDAWGDHPVVLETLKEASDALGEDVAKLIHEGPKEALAMTTNTQPVMLVSAVAAYRAWL
+AEGGAKPSVVAGHSLGEYSALVASGVLTLSQAAPLVRLRAAAMQEAVPVGVGAMAAILGL
+ASDKVIEGCQAAQATFAAGSTEVVEAVNFNDAAQTVIAGSKAAVDKACEVLKGMGAKRAL
+LLPVSAPFHSSLMKPAAEKLREKMASLTLGAPQIPVLNNIDVAIETDADRIRDALYRQAF
+GPVRWVECVQAIKARGVSTLVECGPGKVLAGMTKRIDAELNGVALFDPATLAEVKGLLS
+>tr|A0A0P0MB24|A0A0P0MB24_9BURK
+MEIFGIPSQALFGQLLIGLINGSFYALLSLGLAVIFGLLNIINFTHGAQYMLGAFVAYLG
+LTKLGINYWVALVVTPVVVGATGMLIERTMLKQLYKLDHLYGLLLTFGLALIIQGLFRHE
+FGSSGMPYPVPEVFKGAYNTGFMFLPKYRAWVIVASLVVCLTTWYVIERTKLGAYLRAAT
+ENPSLVQAFGINVPRMITLTYGFGVGLAAFAGVMAAPIYQVNPTMGADIIIVVFAVVVIG
+GMGSIMGAILTGFGLGLIEGLTKVFYPEASSTVIFIIMTIVLLIKPAGLFGTQK
+>tr|A0A0P0LMX6|A0A0P0LMX6_9BURK
+MLSRRRVMYSALLSSGLPKIAWAQATFPSKPLRIVVPFGAGGVADLTARAVAQQLSINMG
+QAVVIDNRPGAGGIVAAELVAKAEPDGQTLLLMSNGTAVSAGLFKALPFNPRTDFAPVSL
+LGLFDIAIVVPESSPHKSLADLIGFGRANPGQLNIGTINIGSTQHLAAELLRAQANLIAQ
+IIPYNGTPAVINALRGGQVDAVVEILGPLKPQINAKAVRLLGVMGANRPKDQHQVPVVRE
+LPGLSNFNVSSWNALAAPGKTPPAIVQRLNAEVVKVLADPAMVQRLGGFNVQAQSSTPAQ
+LAQLLDTEIQRWSAVIQKAGIAQQ
+>tr|A0A0P0M9P9|A0A0P0M9P9_9BURK
+MSREVVVVSGVRTAIGTFGGSLKDIAPTELAAQVVREALSRAGTSGQDVGHVVFGHVVNT
+EPKDMYLSRVAAINGGCAEGTPAFNVNRLCGSGLQAIVSASQAIMLGDCDIAIGGGAENM
+SRAPYASLATRFGARMGDTKMIDMMIGALHDPFHNIHMGVTAENVAAKYGITREMQDALA
+LESHNRAERATAEGRFKDQIMPVMLKSKKGDVAYTTDEHFRPDCKLEDMAKLKPVFVKEN
+GTVTAGNASGINDAAAAVVLMEAGAAKARGAKPMARLVGYAHTGLDPKIMGVGPISATHA
+VLKKTGLTVNDLDVIEANEAFAAQACAVTRELGLDPAKVNPNGSGISLGHPIGATGALIT
+VKALYELQRVNGRYALVTMCIGGGQGIAAIFERM
+>tr|A0A0P0M6Q2|A0A0P0M6Q2_9BURK
+MAWFEGFERQTLTVAGLPVCFRQSADWAAQAHLPVLVLLHGFPQTHVMWHRVAQNLRGRY
+RLVMPDLRGYGDSSHAVGDAEHAHYSKRAMAKEVVDLVDALGVGDFFLCGHDRGGRVAHR
+LALDHAQRVKKLCVIDIAPTFDMYSGLWSTSPSKAPEVSGPVVDPYFAFAQAYYHWFHLT
+QPAPLPEFMIGGNPKAYLHAKLGGWGSQGLGYIEPVALAEYERAFCNPALNDKGWSAAIH
+SAAEDYRASAGIDLQHDRQGRERGDKIACDTLVLWGSRGVVNRMFKPVELWQAQCAGHVA
+GQVMASGHFIPEELPQETSDALAKWMV
+>tr|A0A0P0M7E8|A0A0P0M7E8_9BURK
+MGIWLELGIFGLVFVFAFWQMHDVRKAQEQTRQQRAREKAAQEAMDQAESAKSAADKTDL
+KS
+>tr|A0A0P0LNC2|A0A0P0LNC2_9BURK
+MSVPQLETLRQRVQACTTDQDVADYLRDGAVCIRNLFTPEEVALLRDGIEANLAHPSPRG
+MVASRPDDPGRFFEDFCNWQDIQQYKRFIFDTPLAALAQRLMQSQTVRLYHDHLLVKEPG
+TRQRTPWHQDQPYYNVDGLQNISFWIPVDPVSRPSTLEFVAGSHRGSWLMPRTFMTNQAK
+WFPEGSLAELPNIDKHREDFPILGWDLQPGDLVCFHMLSLHASAGVDGTQRRRVYSVRFL
+GDDMTHAPRPWVTSPPFPGLDQELPAGVPMDHALFPLMPGL
+>tr|A0A0P0M7G8|A0A0P0M7G8_9BURK
+MKSWQIVRLVAGTFVLFSLALGVQGSPIFVSQWWLAFTAFVGANLLQSALTQWCLMETIL
+RKFGVECGC
+>tr|A0A0P0LN57|A0A0P0LN57_9BURK
+MSFIVKAPIKFDPPLWAEYEERHKVAALTPLFNKAADVNRFQARYRLARAFRGLLLEGYS
+DTTKAGYDALTKVSLYWSAFEQMMYALHIPDPRYFLGTYKFVLNLKKIEDIDSERRFFGF
+VKDKIDRKDLKSKLKTYIDSGSGNVFLLAKCVRHIYLHGHLTANVRGLSPQDIASICDFL
+CEALLKVMDAEFEARVLDLKKVYE
+>tr|A0A0P0MAN0|A0A0P0MAN0_9BURK
+MSHNVIRKAVFPVAGLGTRFLPATKAAPKEMLPVVDKPLIQYAVEEAYAAGVRHMIFVTG
+RSKRAIEDHFDTAYELESELEAAHKDELLALVRSVQPDDMVCAYVRQNRMLGLGHAVLCA
+EPLVGNEPFAVLLADDLMVNSGPSILSQMVEAYTKQGRSVLAVQEVPLEQVKRYGIVAGE
+PAGKQLIRVEQIVEKPSPDKAPSRMGVAGRYILTPGIFDEIRNQPTGVGGEIQLTDAIAR
+LMQREAVYAFQYQGKRYDCGSKEGFLEATVELALQHPQVGASFRDYLKGLSL
+>tr|A0A0P0M833|A0A0P0M833_9BURK
+MKILVPVKRVVDYNVKVRVKSDGSGVDIANVKMSMNPFDEIAVEEAVRLKEKGLATEVIA
+VSCGVAQCQETLRTAMAIGADRGILVETPADLDLQPLAVAKLLKALVDKEQPGLIILGKQ
+AIDDDCNQTGQMLAALADLPQATFASKVEIVDGKAQVTREIDGGLEVLSISLPAVVTTDL
+RLNEPRYVTLPNIMKAKKKQIDTFKPEDLGVDVAPRIKTLKVAEPAKRSAGIKVPDVATL
+VDKLKNVAKVI
+>tr|A0A0P0M8T9|A0A0P0M8T9_9BURK
+MSNKGQLLQDPFLNALRREHVPVSIYLVNGIKLQGQIESFDQYVVLLRNTVTQMVYKHAI
+STIVPGRSVTFSTPETGEITA
+>tr|A0A0N7J8D7|A0A0N7J8D7_9BURK
+MIWQSASEFWAMGGYGLYVWGSMGVSAALMALEVWLVRVGRRQALDAVCDAMDTEALDAE
+PPVASQAFSAGAASPVHFTQGAAS
+>tr|A0A0P0M728|A0A0P0M728_9BURK
+MKKVQVRYEGWGENWHLGTLAEDGQHLLFEYSAQALTEGLDLSPRHLPLQKQAMGDFPRH
+FWRLPGLFADSLPDGWGKLLMDRLFSQKELRPQQCSPLDRLSFIGHRGLGALTYEPDTHG
+DVVPDAVDLLALANETTLVLQGEDTQTLQKLAMLGGSPQGARPKVLVYYDPVMARISTTP
+MAVGSGWLVKFQALGEHKEVCAIEAFYAQLASACGLDVPATRVFDLSPQHAALGIERFDL
+SQGRRVPIHSLAGFLHADFRVPSAVNYTTFLRATRMITRDEREVQKAFERAVFNVLFHNR
+DDHAKNLAYRMDAQRHWKLAPCFDLTYSEGPGGEHQMDICGEGLNITRSHLTKLAQQGGL
+DARWAGHRLDAMLAVVDQWAALVESFDIRRVTRQKMHHDLIRQREALMR
+>tr|A0A0P0M8Z9|A0A0P0M8Z9_9BURK
+MTTDQRPIRGSIPALITPMLNDGQVDYPTLRKLIDWHVTEGTDGLVIVGTSGESPTVNVD
+EHREILRVSVEQAAKRIPIIAGCGANSTAEAISLAKYAESIGADAQLQVVPYYNKPTQEG
+LFQHFKAIAEATPKLPVILYNVPGRTVADLQHDTVLRLAQVPGIIGIKEATSNIERAQWL
+IRDVPKAFAVFSGDDATAVALMLCGGAGNISVTANVAPRQMHELCMAALRGDVKEAMRIQ
+FQLLPVHKNLFVEANPIPVKWAMQRMGLCGPTLRLPMTELSESQRPVVEAALKASGLI
+>tr|A0A0P0LGM6|A0A0P0LGM6_9BURK
+MTTTYPSNRSWATRRALLWSAAWACAATSGWVQAQTQPPIKILVGAPAGGTTDTMARTLA
+TVLGTQLGRTVVVENKPGAGGNLAADAVAKAAPDGNTLLMSFTSHAINASLYPSLPFDPV
+KDFTPLTMVSTSPSILVAHPKVSANNAAELVKLAKAKPGQLNFAIGALGSSLHMAGDAFK
+MQAGVFIVNIPYRGTAPAVQDVLAGQVDLMFAAVGNVQSHIKAGKLKALGVTSAKRLAAF
+PDVPAIAESLPGYESSAWFGLFGPGRMSPDVAKKLADAARAAVQSPEVKRRIENEGATPV
+GNSPEEFARFIDSEIVRWRKVVQYAGAKPE
+>tr|A0A0P0LDC6|A0A0P0LDC6_9BURK
+MPAVQPPAKTKAPSSLRRQPSQARAQKTMQTLFKAAAQILDKEGEAGLTTNKVAAAAGFS
+IGTLYQYFPSKEVLVQAMAAKGQGMVLQELGRYLSELENLPDVRELDGRELLGKAIRILV
+RGFATGKGLSQSLIHLCWTLEKPEETASAVRQVADRLAVFFERIDHPALQTPSMAQMFVL
+TRSVIGTLRSASLEKSPLLGSPAFEQALTQMAWALLAKPEAHQAAGLALGARPIK
+>tr|A0A0P0M9Z7|A0A0P0M9Z7_9BURK
+MKFKDLHPPILELAPGQTFHRVQLTRARKTSVRINGLLLAPTGLQSGRFCLPSEPTAYLA
+DSEHTALYESIFRRDVHSRCLDELARKSLVTFTTKGRLRLADVRALAEPYPVLQAQRVAI
+TQAFAQECRAQQLDGIVYASTQHPLHSCIALFASGMAQVRKVSLLPLVKPSTRQLLTCVT
+DAARRSGVPLLDFPDTV
+>tr|A0A0N7J973|A0A0N7J973_9BURK
+MAKIFCVANQKGGVGKTTTTVNLAAGLAKLGQRVLLVDLDPQGNATMGSGIDKRQLELSV
+YDVLLESATVNEAAVLAEKCGYRVLSANRELAGAEVELVQLEHRDQRLKNALAAVDADYD
+FVLIDCPPSLSMLTLNGLCSAHGVIVPMQCEYFALEGLTDLVNTIKQVHANLNKDLKIIG
+LLRVMFDPRITLQMQVSEQLKSHFGDKVFDTVIPRNVRLAEAPSYGLPGVVFDPHAKGSQ
+AYVDFAAEMIKRAPTL
+>tr|A0A0N7J8Z4|A0A0N7J8Z4_9BURK
+MAQFFSVHPDNPQARLLKQAVALLNQGKVLAVPTDSSYALVCHLDDKNAADQLRRIRGVD
+DKHHLTLLCRDLSELANYARVDNRQFRAIKQATPGPFTFILEATKEVPRRLSHPQRKTIG
+LRVPEHKVLQELLSLHGAPLLAATLIMPTEGDPLNDPQEIRERLELQLGAVIDAGACSLQ
+ATTVIDMTDEPAQVLRLGQGDPALLGL
+>tr|A0A0P0M7C4|A0A0P0M7C4_9BURK
+MNSLLSMARSSAWNRRSTLVWVVVSLALATALLWTLERLRHDIRHSFSQSVSGVDLIVGA
+RSSPVQLMLFSVFHIGSVPQSMSMDSVHKLSQHRSVSWVVPLSLGDSHRGFPVLGTTPAF
+FQHFAYGDKQPLVLQQGAAFSDTLDGLYEAVIGAEVARKMGYGLGQSITLGHGMHDHGHD
+HGDEENKEDEHADKPFKVVGILAPTGTPVDRSVQVSLKALEAIHLDWVAGTPMPGGQIPA
+DQARKFNLEPEEVTAALVGLKSRAAVFNVQRFVNFYEDEALMGVMPGVALGELWSVLGLG
+ENALLAVSALVALVSVVSLVAVVLAGLNERRRELAVLRAVGAAPRHVLGLLTLEGVWVTC
+AGVVLGVLLAHAGMALATPWLQQSLGIRLQLAAPLPTQLALAGAVLLAGLLASLGPAWRA
+YRLSLADGLSPRV
+>tr|A0A0P0MAK1|A0A0P0MAK1_9BURK
+MTTPEPMSPITEDDIADYLVNTPDFFERHASLLATVQLTHPQSHRAVGLQERQAQMLRDK
+IKGLEHRIMDMIRHGNENMILTDKLHRWSCELLVTPQDQLAASAVENIRELFQVPQVALR
+LWSLQAEHAQAAYAQGVTEAVQTLATSLDRPYVGPNSGYEAVQWLDEPNQAASLALLALR
+AAPGQPSFGLLVLASPDAQRFNSQMGTDLLERLAELAGAALSVLQAQQA
+>tr|A0A0N7J999|A0A0N7J999_9BURK
+MKHIARKRFGQHFLTDGGIIDAIVDAIAPVAGQPMVEIGPGLAALTQPLVERLGHLSVIE
+LDRDLAVRLREHPQLSVVESDVLKVDFRALAQQMLAKATAAPLHKIRVVGNLPYNISTPI
+LFYLLAQVDVIEDQHFMLQKEVIDRMVAQPATSDYSRLSVMLQWRYDMANVLFVPPESFD
+PPPRVDSAVVRMVPLAQPPDVDVKTLETLVQVAFSQRRKILRNTLGKWLDEKGFGGTFDL
+QRRAEEVPVAEFVALAQAV
+>tr|A0A0P0MBB1|A0A0P0MBB1_9BURK
+MQSALRFFRHTPLVQGLPQATLICALGCALAWVTPVEAQTGWRTVSSSPAAPAVVVTPIP
+EVLAPATPVQTEAPVDGGLQMFGVTLSTATRAEMRQAIRNEGLKPQREDDAFQEDIYEAL
+NWMPGLLQMKFSYAPQGQRLARVEYLFMTFSDNAHVEDVKLRIEGRFGRPQRVTGREQSG
+PYQAVWRLPDQMEIFVAREWPQKTTQLRFTNLSVWGQMRTDSAREDGQTVRRERNQNNQA
+LPMWVSR
+>tr|A0A0P0MBR5|A0A0P0MBR5_9BURK
+MIPATALIGWGQVRHTRHRPAHHAFAYPTAFLMLPMRSLRAGVCRTDLAINRSAWFAFHD
+ADHGDGRPAETGGALAWLDALLQREGIEDATGEVWLQAFPRVMGHAFKPVSFWYAHRADG
+SLAAIVAEVNNTFGERHCYLLPEPQYGQTMLADKVFHVSPFCDVQGEYRFRFMRTQHQGQ
+DRIVARVDHGDADGPLIDTSWSGVLEPATAAALRRVMWRFPLLTFGVVARIHWHALLLWL
+KKVPFWRKPEPPRDFVTR
+>tr|A0A0P0LG41|A0A0P0LG41_9BURK
+MTRSGLNVLGGELIPCSYDPLTGFFRDGCCNTSDEDAGTHVICAKVTQAFLDFSLSRGND
+LVTPRPEHRFAGLKAGDRWCLCALRWLEAFQAGVAPHVVLESTHQKALAYVTLEQLREFA
+WAPH
+>tr|A0A0P0M713|A0A0P0M713_9BURK
+MTAFYSLNEKSKRSVNAISSRLSLRQPQRDSLEILAHILEINPPVKGGDLIAELANVQEA
+YPNVASFDREFVSLCFALATGVGKTRLMGAFMALLYTQYGVRNFFVLAPNLTIYNKLITD
+FSPASPKYVLNGLQEFANNPPLVITGDNYDSGIDVGSGRLNQDEVTINVFNVAKISSEVR
+GGKAPRIKRLSEYIGQSYFEYLAGLDDLVMIMDESHRYRASAGFKAINELKPMLGLELTA
+TPQIESGTTPERFKNVIYDYPLANAIADGFVKEPAVATREDFNADNFGEEELEDLKIRDG
+VVVHEDTKIELATFARNHNLPIVKPFMLVVAKDTTHADNIVERIKRDDFFGGRYKDKVIT
+VHSNQKGTESDETIARLLAVEDPNEPTEIVVHVDKLKEGWDVRNLYTIVPLRAANSSTLV
+EQSIGRGLRLPYGKRMGVAAVDRLTIVAHDKFDAIINEANKPNSIIRSVIRIGKDINLVG
+KKAVTVTNTAIEQLIGRPTVQPIPSQQFELGVQGKPVLTTREEQMVVNLIVEAIKENERR
+VVDVPNLEALIKPDVQERIAKKVTEAYETTYQPAQAEFAETSTKPDIAAIVKDSLKRYLD
+LNIGIPRISVRPKGTVRTGFKDFELDTSAINQQPVDQNILIQHLRTSDRERIHADLAYAT
+EDHFENYIVRNLVDFDDISYDEHADILYKLSGQVVARLCSYLSSDEEVLNVIQFNQRQFA
+TYIHSQMQDHWWQEADDGYEVVVSRGYQTFTDTSYSADGNEKLRNVHVPLATGERDRISG
+MLFGGFERCSYPVQKFSSDSERIFASMLEKDLDAKKWFKPTRDQFSISYRDTSGSTATYE
+PDFVVETATHKYIVEPKQASLMNDANVLAKKVAAVTWCQNATEHELKNGGKAWAYVLVPH
+TAILPSATLIGLIQQFGGV
+>tr|A0A0P0M9H1|A0A0P0M9H1_9BURK
+MTSKIAGHLLVECLLAQGVTHAFGVPGESYLAVLDGFHLYRDQLTFVTCRQEGGAAFMAE
+AQGKLTGRPGICFVTRGPGATNASIGVHTAFQDSTPMILFVGDVASDTRDREAFQEMDYT
+HFFGPSTKGMAKRVERVDDPERLPEYVARAFATAMNGRPGPVVLVLPEDMLTRPVKAQAL
+GRVEAVQAWSDPGALRTLREMLLAAQKPLVIAGGGGWTPQAAQALQRFAENWRLPVTNAF
+RFQDTFDNHHPMYAGDVGIGIGPALAQRVRDADLIVAIGPRLGEMTTGGYTLLQAPKTRQ
+KLVHIHASAEELNRVYQADLAIHATMNAAARSLEVLSAPTELPWAEWTQASHTDYLNNLK
+PQTLPGDIDMPAIVAALQKHLPEDAVLTNGAGNFASWMHRFYKHHGLVKGHKTQLAPTVG
+AMGYGVPAGIAANLLTGRVAFTIAGDGDFLMNGQELATAVQHGGKSIIVLLNNGMYGTIR
+MHQEREYPDHVAGSKLQNPDFAALASAYGYVGVRIDQTQAFEPALLEALARPQGTLIEVM
+LDPEVITTRGTLSAITQAALARQDAH
+>tr|A0A0N7J8X2|A0A0N7J8X2_9BURK
+MTETNSTQVLAAQAFNTANATFKNGEVQAALQGCDAALQLDATLLPAALLKARCLVRLGE
+WMAAREAFAQTLRLDASHFSAWLEAGHLCKQMGELGQASAAYQRAIDAAPTRYEGYLAMA
+RVMAQQGQSDLANHAYNEAVQAASAKGVDALRLVHWLMGQYVLEMGHAQEALGCFNDALK
+ATRADTPEALANLAAEVQMDAAKAWLRVGEREKAMKLLTLASGASDEATLSRLAALSFRN
+NFWQEAIEISRRCVALYPQSAWAHWNLAHLLAECWQMAEAEQVLQQAEALAPMPGARSLR
+AAVAGKVGDADQALALYAELALEEGQGSSYASSAAMSSLYSDMQSAQQVADLHRSLFASW
+GEGARSQDSFVRKPLEGRRLRVGIVSADFHHQHPVNIFMQPVLRELDRTRFELFMYFVGD
+SHDEQTALARSRTEHWAEVGSLNTTQLAKRIDADEIDVLLDMAGHTSQHRMPLFAQRAAP
+VQMTYLGYPGSTGVPNIDFILGDAIVTPEGCESLYTEQVLRLPGTVFCFAPEEDYAFPKF
+KAADAMRTLTFGSFNNVPKLTPRTLKLWARVLEAVPDSRLVLKAPSFSDEGAKRIFGERL
+QALGVDLARVEFRGPVGLTDMMAEYADIDIALDPVPYNGGTTSLQAMWMGVPVLTQMGAH
+FVSRMGASFMTAAGLPEWVAKDDDDYVAVAQRMASDRKTLLALKKGLRDRLQKTPAWDVV
+AHTRALEQLIQDHSRLAKS
+>tr|A0A0P0LAU9|A0A0P0LAU9_9BURK
+MAGIHITDIEAAINHWRAKSPSPDGVSLTPPLRALAEVYGLMVYYKQDLADEFSLPLAAA
+EAWQDWYATTPDTPCIAICSTSQGDETCKGCGRSFEEVQLWIEMSPGEKRSIWHRITMEG
+NSWRFNRYAERAAEDRHWAKAAAEAQVPLDLQP
+>tr|A0A0P0LNW1|A0A0P0LNW1_9BURK
+MQATGTPSAPTVAANASTPVRKLCTDCGLSRTDDPKRCGQACQFIQPDYPGLEQRVHGRQ
+RQQGSATHPAQADELFFGPYQQILSARLDPPTQGAQWTGITTRLAEVLLEQGLVDAVIAM
+AADPHDRWRPRPLLVTRAEDMAQCRGMRMGYAPLLSLVEPALAQGHKRLAVIGIPCQIYA
+LRAIQPQLEREQGLDQLYVIGTPCSDNTTTENFHQFLGLISDRPQDISYVEFRADYKVEV
+RTDQGDKRLIPFLNLPLSNLPPDFFPLTCRTCVDYTNVLADITVGYMGGHGEQWVLVRNA
+RGQAVLDGIQSQLVTSAPISRGKRDGPVRGFMANTERAAGGLPLRRMPAWIKPLVNWLMP
+RLGPRGLEFARARVEMKAIESILHLRREAPARIKNMLPQHVWDLAARYGLKPETRPESDT
+VATSPRKT
+>tr|A0A0P0M765|A0A0P0M765_9BURK
+MQNRRETLKQSAVVAGLLATAGFPQFAHAAFNKAAFDAKSVQDSAKAAGATSMAESKDVT
+ITGPDIAENGAVVPLGASTALPGVKHLLIMVEKNPSALVAMFHVTDAVEANFSTRAKMGQ
+SSDVYAVAIMNDGKALWAKKEVKVTLGGCGG
+>tr|A0A0P0LHA4|A0A0P0LHA4_9BURK
+MKLKKILLTALLATPLLGLAQSYPNKPVRIMVGANAGGGTDIIARMLAEKMGEAFKGSFV
+VENKPGASNTIAADLTAKAPADGHTLLVATNTGQAIAPHLIKLSFDPIKDLTPVGLIVTV
+PNVLVVGANVPANNVAELVSLMKAKPNEFKYASSGVGSTQHIAGEGFNLAAGVKSIHVPY
+RGSSQAHLDIIGGNVQIMFDTTSSAMGQIKAGKFKPLALTTATRSAELPQVPTLAEAGVS
+GFEMSTWYGMFVTTGTPPEVTQRLQTELAKILKMPDIQAKLKGLGGEPGNITPDQFAQMN
+RQEFTRFGDLIKKANIKLE
+>tr|A0A0P0LKN1|A0A0P0LKN1_9BURK
+MNDTKNHVVLQAQGLTKRFSEGRLDVTVLQGVDLAVHAGETLAIVGASGSGKSTLLHLLG
+GLDAPSQGSVQLKGQLLSALSATAQGQWRNRYLGFVYQFHHLLPEFSALDNVAMPLWIRR
+QDRAEAAAVASGWLQRVGLGDRLHHRPSELSGGERQRVALARALVNDPACVLADEPTGNL
+DRETADGVFALMLQLARERGTAFVVVTHDQALAARCDRQLHLVKGVLQAPV
+>tr|A0A0N7J8R3|A0A0N7J8R3_9BURK
+MHSPRHILLLTEESGVGGVQTTLHWLESGLAKRGWHVTRLSVRRGRPSLWACWQAARRAQ
+VLVASNNFWPAYVAVALAGLARRPSVVWVHGPLHEVLQQAGASRLKTAWLRAIYQRASHL
+VCASQTSGDSLMRVMTDAGAKAGRAVETRMRVIRNPAVLPGAARMDEPMPSLASAVVSLG
+FVGRLSPEKQPLHLLPMLRLLPDAYQLHVVGDGELMGAMRSAGQDLLAQGRLHLHGQQTV
+TAQTYRAWQATVLCSRYEGYPMTALESLACGVPCVSTPIPAMQEMLGTQAPLWLAHDDSP
+AALAQAVQRCLAQPAPDRQTAIDHLQDQHRLEAFVQAWDQLLAGGRL
+>tr|A0A0P0M6X0|A0A0P0M6X0_9BURK
+MNTTTNTAALKEWPLWEVFVRSKQGLEHKHCGSLHASDSEHALQMARDVYTRRQEGVSIW
+VVPSASISASEPNDKPEFFDPASDKVYRHPTFYVIPDEVGHM
+>tr|A0A0P0M6V3|A0A0P0M6V3_9BURK
+MRNEVQLITYVDRFGGQTLTELQELLAGPLLGAFGGVHLLPFFYKIDGADAGFDPIDHTR
+VDDRLGDWSDIRKLSSNIAVMADVIVNHMSSESPQFLDYSQKGSASEYNGLFLTMEAVFP
+EGATEKDLLAVYRPRPGMPFTVTTLANGERRLLWTTFTPQQIDIDVQTPAGQAYLESILQ
+KLSQSGVTMVRLDAVGYAIKKAGTNCFMMPETFEFIKAFAQRGRELGLEVLVEIHSYYKR
+QMEIAQQVDWVYDFALPPLVLHALEFGRSGPLMNWIAQRPNNAVTVLDTHDGIGIIDIGA
+DATDRVNNPGLVPPQELDELVERIHRNSQGQSRQATGAAASNLDLYQVNCTFFDALGRNG
+SAYLVARAIQFFVPGIPQVYYVGLLAGENDMDLLAQSKVGRDINRHYYSREEVLADMNKP
+VVQRLIDLMRFRNSHLAFGGSFTSAAPAPHLLTLSWRHQAAYARLEVDLLTKSGRILASA
+VSGGPEWVFELK
+>tr|A0A0N7J858|A0A0N7J858_9BURK
+MGCAQSQPMGTLYLVRHGQASFGADDYDQLSPLGRQQAVRLGEYLRPKLQGQPIEAVMMG
+SLKRHRQTWEGIAEGAGLPHIPAVWPGLNEYDSHALIESIHPEPLAKPDTPELYRHHFRL
+LRDALQAWMAGRTQPRDMPSYADFVGGIEAALDHVRQNHRGDVMIVSSGGPISTAVGRVL
+GTPPETTIELNLRIRNTALTEFVFTPKRHMLLTYNTLPHLDSDAHKDWVTFA
+>tr|A0A0P0LHM6|A0A0P0LHM6_9BURK
+MSSADLPLSPEPIAIARPAVRRSRQSQVVWGSRVVTVGGGAPVRVQSMTNTDTVDVIGTA
+IQVKELAIAGSEMVRITVNTPEAAEAVPHIRDQLDKMGIDVPLIGDFHYNGHRLLTDYPA
+CAEALSKYRINPGNVGKGDKRDVQFGQMIEAAMRWNKAIRIGVNWGSLDQELLADLMDTN
+SQRANPWEARQVMYEALISSAISSAQRAEAMGLNGDQIALSCKVSGVQDLISVYRELGRR
+TDYALHLGLTEAGMGTKGTVASAAALSVLLQEGIGDTIRVSLTPQPGEARTQEVVIASEI
+LQSLGLRIFVPSVTACPGCGRTTSSTFQELAKQIDDFLRAQMPVWRARYPGVENLKVAVM
+GCIVNGPGESKHADIGISLPGTGEAPAAPVFIDGEKRLTLRGEGIAQEFQGLVENYIENR
+FGSGSAEKK
+>tr|A0A0N7J8U1|A0A0N7J8U1_9BURK
+MNMTHYMELLATNQPWNLLIFMAVPVILAETLAITELYVLFTRRNEGWVHSLNRAAGITV
+GLYFIGVIIYLMNTAVLPITKAGEWRTIIDVIAVGSYLIGGLPLIYIALQELDLVNSKAS
+DEDKRKVHAVCVALFLVFGHIAMIAGMLDPALLGFGADTATDMPMMHNH
+>tr|A0A0N7J8G1|A0A0N7J8G1_9BURK
+MDLNQARFNMIEQQIRPWEVLDPQVLALLSTVRREDFVPLAHKALAFVDMDIPLGAAPNQ
+VMLAPRVQARLLQDLAVQKTDKVLDIGTGSGFMAALLAHQAASVLSLEIDPALAAQAQTN
+LQKAGVSNAVVRCADGSAGAAAEGTFDAIVISGSVAEVPAVLLQQLSVGGRLVTIVGDEP
+MMRATLITRTGTNSWTTTEPWDCNAPRLSGFAEPSRFKF
+>tr|A0A0P0M788|A0A0P0M788_9BURK
+MRNHFFAIHPLIGTKTKPAAEHLQQRSPYYWWWAYLKRNQDYLACCAQGGRGSLEGLYAD
+FGDVRNEDFRTWWGAPSDKGVYLFAEQPLNLSVQRIDPLQVPLPLVRDGVLFVAVNMELG
+KRRLQQKFAQLLALSHEGKRGRRSLKTASSSARYPLHRNFTAHNLKVMLGVYDAVEQNNS
+MPKTDRLTLWQIGESLKLVPTAMPHKWDNAYDTRKKHATMTMTVSRYYKEASAIIANTSK
+GQFPNSEG
+>tr|A0A0P0LM28|A0A0P0LM28_9BURK
+MNSPAMQGLNLNTPAYVKNAKLIAWVAEMAALCKPANIYWCDGSQEEYDRLCAELVTAGT
+FKKLNPAKRANSYLAWSDPSDVARVEDRTYICSAKKEDAGPTNNWMEPAQMRATLNPLFD
+GCMAGRTMYVVPFSMGPLGSHISHIGIELSDSAYVAVNQKIMTRMGKAVFDVLGTDGDFV
+PCMHTVGAPLAAGEKDKTSWPCNPTTKYIVHFPETREIWSYGSGYGGNALLGKKCFALRI
+ASNMGRDQGWLAEHMLILGVTNPEGKKYHVAAAFPSACGKTNFSMLVPPKAFEGWKVTTI
+GDDIAWVKPHTDGKMYAINPEAGYFGVAPGTNMKTNPNCMLSLHKDVIFTNVALTDDGDV
+WWEGMEKDTGKLPDHLIDWQGKDWTPQIAKETGAKAAHPNARFTVAATNNPALDPAWDDA
+AGVPIDAFMFGGRRSTTVPLVTEARSWTEGVYMAATMGSETTAAAFGAQGVVRRDPFAML
+PFCGYNMSDYFQHWLDTGAKAQAAGHKLPAMYCVNWFRKGEDGAFVWPGYGDNMRVLKWM
+IDRLEGKAQGEETMFGIAPTYAEINWNGIEFSAEQFKSVTSIDKAAWQAEFKLHDEHFSQ
+LSYHLPQALLDTKAALEKRLA
+>tr|A0A0P0M8M8|A0A0P0M8M8_9BURK
+MTSETDSLSPAAHASGAASQAPDLLQVKGLTKYFPIKGGLLSREVGRVHAVDGVSLSIAA
+GETLGMVGESGCGKSTTGRCILRLIEPSAGEVRFNGQDVTAMNPQALREVRRDMQIIFQD
+PFASLNPRMSVEAIIGEALTIHKLTKSPSEYQARVVDLLETVGLNADHMRRFPHEFSGGQ
+RQRIGIARALAVSPKLIVCDEPVSALDVSIQAQVINLLEDLQAKMGLTYLFIAHDLSVVE
+HISNRVAVMYLGRVVEIAPSRDLYTRPKHPYTVALLSAVPIPDPKAKKQRIVLTGDVPNP
+VNRPSGCHFHPRCPKATERCKVEEPVLKAVGTQHQAACHLND
+>tr|A0A0P0M9C9|A0A0P0M9C9_9BURK
+MTKFVFVTGGVVSSLGKGIASASLAALLESRGLSVTLIKLDPYLNVDPGTMSPIQHGEVF
+VTDDGAETDLDLGHYERFINTRMKKANNFTTGQIYKSVLEKERRGDYLGKTVQVIPHVTN
+EIQDFVKRGAGFGTPEAVDVAIVEIGGTVGDIESLPFLEAVRQLSLRLGPNNTAFVHLTY
+LPWIATAGELKTKPTQHTVQKLREIGIQPDALLCRADRFIPDDERDKISLFTNVQSWGVI
+SMPDVDTIYKVPRVLHEQGLDGLICDKLRLNTPPASLKRWDDLVYETANPKGEVTIAMVG
+KYVELSDSYKSVNEALRHAGMRNHVRVKIEHIDSETITPETVASLAHYDGVLVPGGFGKR
+GVEGKIETAQFARTHKVPYLGICLGMQVATIEYARHMAGMKDANSTEFEPETPFPVIALI
+NEWKDADGSIQKRDANSDLGGTMRLGAQSSDVAKGTLAHQIYGDVVTERHRHRYEANVNY
+LDQLRKAGLVISALTQREQLTEIVELPQTVHPWYVGVQFHPEFKSTPWDGHPLFNAFVKA
+AIEHQAAA
+>tr|A0A0P0LIM3|A0A0P0LIM3_9BURK
+MLSIIQAAGWPIWPLILCSVLALALIIERLVQLRAHKVMPPKTLEQAVEISRRGVPSEET
+VLKLENKGVLGPILASGLRCLQKNPEASDEDIRAHMEMAGRLAGRQLERYLTALGTIASA
+APLLGLLGTVIGMIEIFAAQTAGTSQPAQLAYGISIALYNTAFGLIVAIPALMFWRYFRS
+LVDNMLLTMEVASEQFARHLSHLRT
+>tr|A0A0P0LK35|A0A0P0LK35_9BURK
+MKRLACLLCVSSAALTAHAEFDASRLWVNAGFYSAHFDSHKGLRNANPGIGVEYRIDDTW
+SATAGRFRNSNNANSNYVGAYYQPWTWAGVKLGVVAGAFNGYPNAFEGGWFPALIPTASL
+EGQHWGLNIALVPPLKDRLYGAVSFQLKYRFR
+>tr|A0A0P0LR68|A0A0P0LR68_9BURK
+MKTIQKSAKLANVCYDIRGPIMDRARQMEEDGHKIIKLNIGNLAVFGFDAPEEIQQDMIR
+NLPNSAGYSDSKGIFAARKAVMHETQKQGILGVTLDDIYLGNGASELIVMATNGLLDDGD
+ELLLPSPDYPLWTAAASLSGGTPVHYRCEESNGWMPDLDDIRAKVTPRTKGIVVINPNNP
+TGALYSDALLEGIVAIAREHGLVIFADEVYDKVLYDGVKHTPLASLSQDVLTLTFNSLSK
+SYRSCGYRAGWMVISGDKKAARDYIEGLNMLSNMRLCANVPGQWAIQTALGGHQSINELV
+GEGGRLRKQRDLAHQLITAIPGVSCVKPRAALYMFPKLDPKIYPVQDDQDFFLQLLEETK
+VMLVQGTGFNWPDPDHFRIVFLPHEDDLREAIGRVARFLESTRKRLGTDKLVA
+>tr|A0A0P0MB64|A0A0P0MB64_9BURK
+MSAGQHLPKQALQAQATGPLQGVRVVDLSRLVAGNMLTLQLGDFGADVIKVESAGAGDTL
+REWREPLADHPDGYDGWWRTYARNKRSLALNLRDGQAMHWLKRLIATTQVLVESFKPGTL
+ENMGLSPEQLHADNPGLVIVRLSGWGQTGPYRELPGFGSLIEGFSGYAHKHRSDGGAPQL
+PNMALADMVTGLTGAFATLTALREVEVRGGQGQVIDLSLLEPMLAIMGPDVSNFAATGIN
+PEPGQKIASPRGSYRCKDGLWVSMSGSTDTMAKRVLEAIGQSALFEDPRFASNAARLEND
+AELDAMVAEFMSERTQDECLKHFRQHGVTVGPIYAPPQLIHDAHVVQRGVYVQCEASDGS
+VSTVMHQVTPRLQGTPGSIRRAAPLRGQHTEELLSELGASAAECLSLKAQGAIECR
+>tr|A0A0P0M8F8|A0A0P0M8F8_9BURK
+MQIKTKLTLLATACLSLTSIQSQAQNVSIYGRAVMSVNQVETGNANKVSELRDNASRLGF
+RGVEDLGGGMSALFGLEMGISADTGTFTTPVFRNSYVGLRGNWGTMAMGRLDSANPTGSP
+IYSQITSLSHFAPNDAGATASSTTMQNARNRTSNSIGYASPKLGPVVVRARVYLRGADTA
+AQPEDSMKSTDLGLDYQSGALKAAISFAKDTKRGGLSNNEFNDKVQVGVNYQVEKNWDIY
+FIGGLDTYKNTSTTREDVNYTLLGTSYTTGPHKLVLNIMQRDVQTSLTGVRKKNQLSYQY
+FLTKNTDLQAFIDNDTVDSSRSNVKVRAIGLGIRQNF
+>tr|A0A0P0M9V2|A0A0P0M9V2_9BURK
+MATTNVTSSSLLKNVSRYEDVKDAAKKTNEDMGKQEFLTLFTAQLQNQNPLEPVKNEAFV
+AQLAQFSQLEALTNMQGSLDSFVKSMSGERMLGSAALIGKKVSVTDTPTQLTTGGTIEGS
+IDLPTGASSVQLSVFDSQGRLVQELTAGPQLPGTAPIAWNGMDASGKPAPSGMYLLSATA
+VVNGKSSPIPVNTLSTVRAISSNPTDGSVSVEVDGGTTMLLTDVKRVGS
+>tr|A0A0P0M7Q3|A0A0P0M7Q3_9BURK
+MRATHEHEWEAAPGLPSALPKGERVLWQGAPDWKSLAIHAFHVRKVALYFAVMLAVQAIN
+LTAPDSGVGWKPMTEVDWKPLVMAAGLYTLALALLVGAAWLSASSTLYTLTNKRVVMRIG
+IVLTLTFNLPFKRIAGASLKSQSAGTGDIALALHHEDRIGWFHLWPHQRAWHITRPQPTL
+RCVSDSQEVGQLLLSLWRAEHAGQSLHLGDSPSAAQVSSPNAPNHGMLA
+>tr|A0A0P0M790|A0A0P0M790_9BURK
+MPELTIEREHTLGLAGARVVAERWREQAEQEWGMSCESEPGEAVDLMRFARSGVSGELKV
+TETRFDLQLKLGFLLGAYSAKIEQKIKANLDELLGPA
+>tr|A0A0N7J8X7|A0A0N7J8X7_9BURK
+MTIPQNLPMTEDPTWRLIRRLGYAGLIPFVFLALCLWLVGPELHPYVALSMQSYGAVIVS
+FLGGIHWGVGFRNALISPNAPRIHFTWGVAPSLLAWVGVMMPAFAGLPLLGFVLIGCYVM
+DRRTWPAAGLAPWLPMRLQLTTVASLSCFLAAGAT
+>tr|A0A0P0LQ11|A0A0P0LQ11_9BURK
+MTNPLLDTSGLPLFDRIAPEHVAPAMDELLAAAEKALETVTAADFPSDWKAIAQNLDVIT
+EKLGMAWGAVSHLNSVADTPELRAAYNAALPRVTEFWTRLGSDERLYAKYKAIDAASLNA
+EQTQARKNALRGFVLGGAELQGAAKERYAAIQERLAEITQKFSENTLDATDKFALYVSED
+ELKGVPADVVQATRDAAQKEGKEGHRLSLKMPVYLPVMQFADSGALREQLYKAYVTRASD
+QAPEDFRHFDNTPLMQEILALRQEEARLLGFDNYAQVSVVPKMAESPEKVTTFLRDLAAK
+ARPFAEKDLADLREFAAQELGLSGPLNAWDVPYLSEKLKEARYSFSEQEVKQYFTAPKVL
+AGLFKIIETLFEVNIRADQAPVWHPAVGFYRIERNGQLVGQFYLDPPARAGKRGGAWMDD
+VRGRWQRPDTGVLQTPVAHLVCNFAEGVNGQPALLTHDDVITLFHEFGHGLHHMLTQVNE
+RDVSGISGVEWDAVELPSQFMENFCWEWSVLRHMTAHVETGEPLPRALFDKMLAAKNFQS
+GLQTLRQIEFSLFDMLVHSEHDPAQDFMPLLQQVRDEVSVMRPPAFNRMAHTFSHIFAGG
+YAAGYYSYKWAEVLSADAYAAFEETAAADGTPSVETGRLYRQAILEAGGSRPALESFKAF
+RGREPSLDALLRHQGMVAA
+>tr|A0A0P0M8I7|A0A0P0M8I7_9BURK
+MNSTSIAPVRADHPLQGMAWMVAGVFLLAVLDALSKHAVSQLSIPVLIAARSAMVLVLLG
+PWVLRSGGWSALRTRRPWAHGVRGLFSVCSMLAFFESLRLLPLATVIAISFAAPLFMTLL
+SVPLLKERVGVHRWGALLAGFLGVSLIVGPQALDGDLGWGAWLALLASLLYAASMACVRW
+LSPTESDLSMLVWQNLTMGLAGAVGLLFVPLEAPAGMWPIIALMAILVLLGQLCTFRALR
+LAPVGVVAPLHYSELLWAALLGWVFWREWPGAHVWWGALLVVGAGLYTLWRERARTHGGG
+>tr|A0A0P0M8X5|A0A0P0M8X5_9BURK
+MARFWILCCLAFGLGWAGNAWAAHAYAQFGDIRYPAGFSHFAYVNPAAPKGGEISLVPPT
+RQSNFDKYNPFTLKGSAPPSLLGMMFDTLLVGNMDEPSTAYGLLASDVAVASDRMSVTFQ
+IHPQARFHNGDPVMAADVRHSFERLTSKQAAPQYRTYFGEVKKATVLSERSIRFDFVRPN
+SELPLIVGSLPVFSQKWGVKGGTHQPLDQIVMDIPIASGPYRIGRVQFGKDITYERDPNY
+WARDLNVRKGQFNFDRITYKIYKDPTAQLEAFKAGEFDYMQSFIAREWARAFTGRAFDRG
+DLIKAELPHGNAGDFQGFLFNTRRDKFQDVRVRQAIALAMDFEWLNRQLFYNAYSRVRGY
+FVASDFEAKGKPGPDELALLTPLRAKLPAAVFDQDVPQPPQTALDPTSGHTLRDHLRQAR
+DLLQAAGWTYRDGALRNAKGQAFTIEFLDSSGSMGRVVTPFSKNLEKLGIKVHYKVIDFA
+LLQKRMDVFDFDIISNRTVGSEAPGTELLERYGSRSADVEGSGNVIGLKDPAVDALLDKV
+VSATSRPELVTSLRALDRVLRHGHYVVPHWYGAVHRVSWRAKAFARPADLPRFYQPEKLV
+TTVWWSPNASSSVAPPTSPKAP
+>tr|A0A0P0MAJ6|A0A0P0MAJ6_9BURK
+MKAASPSPHAPLAERLRPRHLGEVIGQQHLLGEGMALRLAFESGQPHSCILWGPPGVGKT
+TIARLMADAFDAQFLSISAVLGGVKDIREAVEKAEAARTGLHPQRTIMFVDEVHRFNKSQ
+QDAFLPHVESGLFTFIGATTENPSFEVNSALLSRAAVYVLQPLTEDDLQSIVQRAQAIDA
+IPAIEPEALTRLLAYADGDARRLLNTLETLAMAAKQESIDPVTDTWLMRVLGERMRRYDK
+GGEQFYDTISALHKSVRGSDPDAALYWFVRMLDGGADPRYMARRLIRMASEDIGLADPRA
+LRMALDAAEVYERLGSPEGELTLAQCVIYLAVAPKSNAAYKAFNQAKAWVKKDGTRPVPM
+HLRNAPTQLMKQLDYGKGYRYAHDEEDGFAAGEHYLPDGMPEPGFYQPVRRGLEIKIADK
+LEELRKKNAAKG
+>tr|A0A0P0MB18|A0A0P0MB18_9BURK
+MPQALRPPSLDPVAAARWQSLPAREAHSPWLHEEVAKRMQERLDFIKLQPQQWVHWSPLR
+GGLLAQLALEQRYPKAQVWLTGEPPAHAQVTRQALHSAWWQAQHWRSPKRHEGLPPDHTA
+QMLWANMHLHASAEPQALLQTWHQALAVDGFLMFSCLGPDTLRDVRQVYARAGWPEPAHA
+FTDMHDWGDMLVEAGFAEPVMDMERITLTYASPDTLLAELRSLGRNLHVQRFQGLRSRLW
+RDRLSEALLALARPEEGGRLSLGFEIVYGHALKPRPRMKMAAKTEIGLDQMRLMLQPGGG
+IQDKV
+>tr|A0A0P0M776|A0A0P0M776_9BURK
+MGLFFGFFQASQGLRYIDDMSAVLPKTPQASPSRPKAPDPAAANAAAASFAVLEAQLGYL
+SEAEKDMVLKAYKYADEAHLGQMRKSGEPYITHPIAVAGLCTEWKLDAQALAAALLHDAM
+EDCGITKMELIERFGSPVAELVDGLTKLDKLEFNTREENQAESFRKMLLAMARDVRVILI
+KLADRTHNMRTMSDMPRSKWGRIASETLEIYAPIAHRLGLNQIYRELQDLAFKHLMPWRY
+AVLTKAVSRARNRRRDLISKVQADVEAVFAQAKMDVRISGREKTLYSIYKKMDEKHLSFA
+QVTDIYGLRVIVPSVIDCYTALGLLHQIYKPLPGKFKDHIAIAKVNGYQSLHTTLVGPSG
+VNVEFQMRTEPMHLVAESGVAAHWLYKEHESASAQSERLGTQWLQSLLDIQTETRDAAEF
+WDHVKVDLFPDAVYVFTPKSQIMALPRGATVVDFAYAIHSRVGDHAMAARINGDQVPLRT
+ELKNGDVVEVITAPVSAPNPAWLGFVRTGRARSKIRHHLKTMAQTESVGLGEKLLAQALR
+AEGINQLPANDEAHHALWEKLLRFTGNRNQADLLMDIGLGKRIATIVAKRLTALLSEMGQ
+KPDALLMTRERFTAHESISQGAITLDGSENASVVYSRCCRPLPGDDIVGYLGRGEGLAVH
+TRDCATARKLEHKDSERFIGVEWSDELSRSFETAITVTVINGKGVLARVAGALASGETDI
+VHVDMGQETPQDTAELKFVVAVRDAAHLEQVLRHLKRTPSVIKAERQTNKGHLPS
+>tr|A0A0P0M8Y2|A0A0P0M8Y2_9BURK
+METSLYISECHAELQDAVAALGGDGSSAQLAGMADLIIQSMTGPWRSFHTPEHIFEVGDG
+GSPVEVIAALFHDLVYVQVDSGIHVNLARYVSPYVREGDKGLVIDPMKTGADQDLDLVMD
+LFGFQRGQVMSPFAGQNEFLSALLAVKLLNGILPLSALAQVAACIEATIPFRADLPDGRS
+CSDVLLQRLTKASLDHGLALTDAQCRETVVMGVKVANRDVGNFASEHPSDFLNNTWNLIP
+ETNHELLNADTYTVKGYRVSLQKMEGFLGFLQPGAVFRQFDGEPSSEEHTQRLHLAQRNL
+EVARLYLRMKLVAIALLEAMSWRLGQEVSLASIMGKLPGNSDMPFQLENQLPVVAQPYIG
+QNECEITVMHLLEDGRSGESSHDSKHSPVASYLVRSIGVPKALTLLERARLFFANQLSAD
+DFLASLDKPVMQGLQHAVIHVLDQRVQALRNL
+>tr|A0A0P0MBR6|A0A0P0MBR6_9BURK
+MPQFTSPEVVVQRQLDAYNAKDVDAWLSTYAPDAKQIELGGPLLADGHAQIRARALARFH
+EPHLHAQLIRRETFGNVVIDHEDVTRTFPEGPGRVELVCVYLVEKGLIQSASFAIGPQTL
+FMA
+>tr|A0A0N7J8Y1|A0A0N7J8Y1_9BURK
+MMNSTGLILSGGGARAAYQVGVLSAIARMRREAGASPGNLFPVISGTSAGAINAAFLACN
+ADNFDGAIEELVEVWRDFQVEQVYRSDVLGMIRSGARWLSLLSLGWLITQKRFRPKSLLD
+NTPLSTLLQDRLALTRLPALLEQGHLQALAITASSYSTGEHVTFYESCHAVTPWVRNQRL
+SQHGRLTHEHLLASSAIPFIFPAMRLQGPQGCAYFGDGSMRQTAPISPAIHLGASKILVI
+GAGRMLEPKNRLDDEPSYPSLAHIAGHALSSIFLDSLAVDVERMQRINQTLQLIPEEKRQ
+STHLRPVDLLLIAPSKRLDVIAAKHAQALPQTVKSLLRTLGASTTSFQGQGNALVSYLLF
+ESAYTRELIALGEADALNQREDIHRFFGWSAKT
+>tr|A0A0N7J8T6|A0A0N7J8T6_9BURK
+MPALQSLTEPWHGGHARKWPLHSNPVSLLRSASVVSIFTLASRVTGLVRELLIASMFGAS
+ALTDAFNVAFRIPNLFRRLFAEGAFSQAFVPVLAASRAQHGDQATQEVIDSVATALAWSV
+LALSILGVLVSPWLVWLMASGLQQDARGYVAAVNMTRWMFPYIAFMSMVALSAGILNTWK
+RFAVPAATPVLLNVSVIAATWFLSPWLAKQGVEAIYALPVGVMVGGALQLAVQIPALSRL
+GLLPRLGVGPRAVQKAWTNPATLNILRLMGPALLGVGVAQISLLINTQIASHLAPGSVSW
+LTYADRLMEFPTAILGVALGVVLMPQLAAAKATGDSERYAAMLDWGLRLVLLLALPCAAA
+LLVFSQPMVSVLYHYGAFTDRDVQQTTLALTGYGVGLLGLVAIKVLAPGYYASQDIRTPV
+RIAVIVLVLTQFFNVLLVPYLAHAGLALSIGLGALVNALWLLVGLLRRGSYKPQPGWWRF
+GLQVLLATALLTGLLWFAANHLPWVAMRQEAWLRIGWMVTVLATSALLYFGVLWATGLRL
+KAFLKR
+>tr|A0A0P0MBV7|A0A0P0MBV7_9BURK
+MTTTYRIAPSILSADFARLGEEVKSVIDAGADWIHFDVMDNHYVPNLTFGPMICQALKPH
+AKTAAGVAVPIDVHLMISPVDALAASFAEAGADLISFHPDASAHVHRSIQAIKSKGVKAG
+LVFNPAEPLDVLEWTIDEIDLILIMSVNPGFGGQSFIDSALRKVELARQWIARSGRDIRL
+EVDGGIKADNIRRVADAGADTFVAGSAIFGKPDYKAVIDQMRVALG
+>tr|A0A0N7J8A8|A0A0N7J8A8_9BURK
+MSTYDSTLPYPRDLKGYGRHVPHAQWLGGARVAVQFVLNYEEGGENSVLHGDAGSEQFLS
+EMFNPASFPERHISMEGIYEYGSRAGVWRLLREFEKRGLPLTVFGVATALQKHDDVTAAF
+KELGYDIACHGLKWIHYQNVDEATERAHMAEAMDILQKLTGERPLGWYTGRDSPNTRRLV
+ADFGGFEYDSDYYGDDLPFWMKVRKSDGTDAPQLIVPYTLDCNDMRFALPQGYSHADPFF
+QYMKDTFDALYAEGDPSGDNAPKMMSIGMHCRLLGRPGRITALQRFLDHIQSHDKVWVAR
+RIDIARHWKATHPYKD
+>tr|A0A0P0M7P4|A0A0P0M7P4_9BURK
+MSDDGQHGITLIAFVGSVFSPYYAWARGRGTAHADNHCALNVAIYSKGQGRWAMTERGQR
+HCARSARQFTIGPSQLSWDGDCLTIDIDEVCVPIPRRVRGRIKLWPQQLFGYSTPLDVNA
+QHRWGPLAPSSRIEVDLNAPDLKWQGHAYLDSNEGDEPVDRGFHTWDWSRARTRDGSTVV
+FYDMQAPGTEDRVLSLRFTPHGTVEPIATPPAQRLSKTGWRIDRRMRSSQPVRVHEQLED
+TPFYQRALLQFDHAGEPLLAFHETLSVPRLVSPVVQAMLPWRMPRRA
+>tr|A0A0P0M9X7|A0A0P0M9X7_9BURK
+MKKFLQQTALAAGLMAVGFGVHAQTITLKVHHFLGPQTIQHTTMLGDWCKNIARDSKDRL
+KCEIFPAMQLGGTPVQLYEQARDGVVDVAWTLQAFTPKLAKLEVFELPFMMTNAEATSRA
+AWDYAQKYVQDDFKDVKMLAVHVHGPGNIYTKNKAITTMADLKGLKVRAPTRQVNKMVAV
+MGATPVAMPVPQVPEALSKGVIDGAVIPYEVAPGLKVNELTNFTAETDRSYNALYTTVFV
+VPMNKAKYDSLPADLKAVIDKNSGREFSAFLGKTQAGHDAVGKKVFEASANQKITIIPKA
+ELEKWKKATDALDDAWVAEMTGKGMDGKGMLQTATDLIKQYTK
+>tr|A0A0P0M905|A0A0P0M905_9BURK
+MRFPKVKAVASAPIAQTGLTLSELLVSLALMAVLAAVALPAFQTQQRQARRSDAQSALQQ
+LQLSQARWRGTQSSHASDLASLGWVGDLSPGGHYRLTIEDASSEGYSLIATPIGTQARDS
+ACTPMRLKLRHMATVELSSGADLVGDPARCWRQ
+>tr|A0A0P0MAY0|A0A0P0MAY0_9BURK
+MTVATARLPLNAWQQYYALTKPRVVQLIVFCALIGMVLAVPGVPSWAELKLGLWACIGIW
+LVAGAAAAFNCLVEKTIDAKMKRTAWRPTAKGELSDQQALLFSAVLCALGSAVLYVLVNP
+LTMWLTFATFVGYAIIYTVILKPLTPQNIVIGGASGAMPPVLGWAAMTGQVGPEALILFL
+IIFLWTPPHFWALALYRVEDYRKSGLPMLPVTHGNEFTRLQILLYTFVLMASCLMPFVYG
+MSSWLYLAAAVVLSIGFIGYAVALYREYSDELARKTFRFSLIHLSALFAALLLDHYIF
+>tr|A0A0P0MC60|A0A0P0MC60_9BURK
+MANILVVDDELGIRDLLSEILFDEGHQVELAENAAQAREARQNMRPDLVLLDIWMPDTDG
+VSLLKEWAASGLLNMPVIMMSGHATIDTAVDAVKIGAHAFLEKPITLQKLLKAVEQGLAR
+DQVQQAMLAASPPPPPSVLSMATVVVTENNVAPDVQQSFELDRPLREARDAFEKAYFEFH
+LAHEGGSMTRVAEKTGLERTHLYRKLKQLGVDLTRSKRSP
+>tr|A0A0P0MAI7|A0A0P0MAI7_9BURK
+MIGRLNTSTTRIPLALPPPSPRKLSHTRTVVYQGFDREDGLWDIEAQLTDVKTFDFEVSN
+ERPFPANEPIHNLKIRVTLDNKMVIQDIATSMDDIPHPECVGAPHGMHKLIGCTMGPGWR
+KVINQHVGGTEGCTHLREMLFNMATAAYQTLPAGQWQRRELAGQPHPEMTQAPYFLGQCH
+SWAYDSPTVQRAYPMFFKPKATETPGN
+>tr|A0A0P0LBH8|A0A0P0LBH8_9BURK
+MKINDAFWGVLLMALGAAVLWAVRGYPNIPGQPVGPALFPGLIAIGLCAGGALLVWQGWH
+NRANGPWFEWEDWVRSPRHTKALVALLGSVVFYIWLSDELGFFITAFLMLVTLFRSLQVA
+WGRSAFWAVVATVVVHFAFYKLLRVPLPWGVLTPLAW
+>tr|A0A0P0M8U5|A0A0P0M8U5_9BURK
+MGGAWAPADAFSPEVQEAARFAVQTFAVQNKARVLYKDVTQARQQVVAGLNFELQLQVTL
+DGTSRSVSATVWRQPDGSYRLRAWEWLD
+>tr|A0A0P0MBD7|A0A0P0MBD7_9BURK
+MNLFPCGHATHPQWRMAAGLVLAQLRAQMGLPDYASQPRLGLLYITDHYAPEAQALLDHL
+RQALPEVPDWAGTVGIGVAVNNAEYFDEPAMALMLCDLSPEQYRVFSGVSPLPSGWADAA
+LVHADPNTPDLAELIKEMAERTQQGYLFGGLSASRTRSVQFAVRAEDAGGPEVHGGVLQG
+GLSGVAFSPEVRLLSRVTQGCQPVAPEREITEAEGHVVLKLAGEPALDVMLADLDISLSE
+PQKAIAVVRSTLVGLSAPGQSGVGRAGNLGNDVRVRHIIGLDPLRQGVAIAEHLEPGMRL
+TFCRRDVQAARADLVRVCAEIREALEPEMLSIEAINAMSDDPVPTVPQAGQRIAGAVYVS
+CTGRGGPHFGGPSAEMQIIRHALGDVPLVGFFAAGEIARQQLYGYTGVLTVFTTD
+>tr|A0A0P0M9W3|A0A0P0M9W3_9BURK
+MQLAEVSIRRPVLAVVMSMLIVLIGAVSFKSLSLREYPKIDEPTVTVTTRYVGASAEVIE
+SQVTKPLEDSIAGIDAVDVITSISRAEQSQITVRFRLEKDADTAAAEVRDRTSRVRNRLP
+QAIEEPVIAKVEADAFPVIWLAFSSDTLNALQINDLVNRVVKPRLQTVTGVADVRIFGER
+KYAMLVSLDHARLSSYKLTPQDVEDAIRRSNLELPAGRIESTNREFSVSSQTDLTRPGQF
+GEIVIRSVNGFPVKLRDVAQIKEDAANDRSVVRLNGRPAISAGVIRQATANPLELSKGVR
+EMIPRLKADLPGDMSIDVANDNSVFIDRSIKNVFQTIVEAVVLVALVIFVFLRTLRASII
+PIITIPVSLIGAFAMMALAGFTINTLTLLALVLAIGLVVDDAIVVLENIYRHIEEGLDPF
+SAAIKGVREISFAVIAMTLTLAAVFAPLAFTPGRTGKLFGEFALALAGAVIVSGFVALTL
+APMLSAKLLRHNPNPSWFDRFMERRLTALSNGYESLLTLILTRARWVVVMVMVGSGAGIA
+FIYPTMKQELAPLEDRGTILATVNAPDGSTLEYTDRYARSLEKFGQAYPEFDRIFANMGN
+PTVGQGSVVYRAVDWDERKRTTLEIARELGAKFNSLPGVNAFPITPPSLGQGFRERPLNF
+VIQTSDSYQNLNQLTRQMMDEVAKNPGILSPDVDLRLNKPELRIEVDRVKAAELGVSIDV
+VARTIETMLGGRVVTRYKRDAEQYDVIVQTLASARNTPDDIDVIQVRGRNDTMVPLSSLV
+KVRESVSPRELNHFGQRRSVSITANLAPDYSLGEAIKFMDETAAKVLKPGYTTELNGTSR
+EFKNSQGALVIVFVLALLFIFLVLSAQFESFIDPFVIMLSVPLSMIGALLALKFTGGSLN
+VYSQIGLITLVGLITKHGILIVEFTNQLREEGMAMQEALIKASAQRLRPILMTTGAMVLG
+AVPLALATGAGAESRTQIGWVIVGGMSLGTVLAVFVVPTMYSLLARKSVPGPNKAVAHDD
+PPANAAH
+>tr|A0A0P0MA31|A0A0P0MA31_9BURK
+MKKPFLLAALAAVLMTPTVPAWAQASYPTKPIKIVVPFPAGGTSDVLARIVGQKMTESWG
+QPVVIENRPGSSGNLGADLVAKSPADGHTLVLMDVGNLVISPALFKLPFNVEKDFAPVAM
+VAYSPHLLAVSTKVPANTPAELVAYAKAQKGKLNYAVAAGMGSASHLAGVMYAQRNGIEW
+GYVPYKGGAQAITDLIGGQVDVMFNGMVATYPHVKAGKIKLIAISSNQRNAQMPGTPTVA
+ESLPGFLTGSFQGLLAPAGTPKAVVDKLNAEVQRIAALPEIKERLTALGAEPSGMTPDQF
+GQWMRAEIPAMAKIVKDEKITVE
+>tr|A0A0P0M9U5|A0A0P0M9U5_9BURK
+MNAIGINLIELNLLFHVSILLRCQRQQIGINP
+>tr|A0A0P0LAJ5|A0A0P0LAJ5_9BURK
+MKRRVLFAATGLLGLSMLAPVVAQAQAQDNKVFRFVPHANLAVLDPIWTTAYVTRNHAYM
+IYDTLFSEDAQGNIKPQMVDTYTNSPDRKTWTFKLRSGLEFHDGKPVTSEDVVASLKRWA
+SRDAMGGILNTFIDRYETPDASTFRMILKEPSGIVIDALGKASSNVPFIMPARIAATPGS
+EQIKEHIGSGPFIFKADEFKPGALAVYTRNAKYKPRAEAPSGMAGGRPVNFDRVEWVIIR
+DPQTQFNAIKAGEVDMVEQPSFEQYETLKKTEGLKVDDFSPAGLQFIMRFNHLHKPFDNP
+KIRQAAMVAMGQQAYINTQIGVPELGKLCRSMFPCGTVYADENTGYFTGVANPAKAREML
+KEAGYDNTPVLLMRPTDLASIAKIPLVAKQQLEAAGFKVDFQQMDWASLLARRAKKDAPA
+AGGWNAFLTAWTAGDISNPLAMAMLNAKGDTGWFGWQNEPRIETLKASFARAATTEEKKK
+IASQIQAVAFETATHAPLGQYRSPTVIRSNVSGILQTPGIPVMWNIKKN
+>tr|A0A0P0MBK0|A0A0P0MBK0_9BURK
+MATPQFIQLYQHNAAAVAQELLQGLSAPQAFTSPKYLYDALGSRLFEAITELPEYDLTRT
+EAQLMRLHSADMAQHLPTGACWIDLGAGNCEKSGRLLGPLQAGRYVAVDISVDFVRQALD
+SLQRQHPDLPMTGLGTDFSGGLDLPDALGLDAAQPRVLFYPGSSIGNFTPDQALGFLQSL
+HRACGTAQGSGLLVGVDLLKDAAELEAAYDDALGVTAAFDLNLLLHINRLVDSNFVVRDW
+RHVSRFNAEQSRVEMHLQARHAVTVQWPGGKRLFAEGETIHTENACKWTVPNFEALLHAA
+GFVQTRAWTDPAQRFTVLWATA
+>tr|A0A0N7J8I4|A0A0N7J8I4_9BURK
+MQAAHLEVPMHRPHHTHPSRTWRVTGVVMLGHVGVACMLGSGLLTSVVPAGARDKVIMAS
+MVMDAPAPVAPKPEPAKPQIQAKAKTKPDPEQQPQAKPISPPLQPTPVLSPAAPSDAAPI
+VPSGAPAPATPAAPQAGNQRPANNATAAAVVLPSTDANYLNNPAPPYPRQSKRLGEQGTV
+IIRVLITPDGRAEKAEIRTSSGYLRLDETALSTVQRWHFVPGQRNGAPEAMWFNVPIRFV
+LD
+>tr|A0A0P0MB16|A0A0P0MB16_9BURK
+MKTTLRIGTGAGYSGDRIAPALELAEKGQLGYLVFECLAERTIALAQLERSKDPTAGFDP
+MLVARMRAVLPACIRQGTRIISNMGAANPLQAGHAVLAVARELGLPQVKVAVVLGDDVLS
+TLTQTGRALPVLESTQTLADLQAQLISANAYLGAEALLPALQTDAQVIITGRVADPALFL
+APLMHHFGWAADDWTRLGKGVLVGHLLECAAQITGGYFADPGYKDVPNMARLGFPLAEVS
+ASGDAVITKVAGSGGCVTVPTCTEQLLYEIENPTRYLQPDVVADFSQVQLTQVGPDRVQV
+TGGSGHPRTETLKVTLGYRDGFIGEGQMSYAGPGAQARGQLALDLVRQRLADAGYAEFEA
+RYDLIGVNAIFGPSSPARPEPAEVRARVALRVPTLQHAQHVAHEVEALYTNGPAGGGGAT
+RAVREVIAAAAVLMPRSAVHTTTVLLNAEGH
+>tr|A0A0P0LU13|A0A0P0LU13_9BURK
+MNNQSWMHGLKLGARQLWRDLRAGELRLLMVSVALAVAALTAVGFLADRMQSGLWRDARQ
+LLGGDAVVVSDQRTPDAFAQKAREAGLQSNTNVSFPTMARATAPAGAELASNAAASASGI
+GTPIPPATRLVALKAVEPGYPLRGRLEISGQSAASIPPLGEVWVDAALLEALNVQVGQML
+GLGERSLRIGATITREPDRGAGFMGFAPRVMMNMADLASTGLVQPASRVSWRMAVAGSDA
+AVGQFLPWAQAEADKADVRGVKVESLDSGRPEMRQTLDRASQFLNLVALLAALLCAVAVA
+LAARSFAERQLDACALLRVLGQSQRTLTLSYGLEFLGAGLVASVLGVLAGYGVHLGFVQL
+LAGLVDANLPAATPKPALMGLAMGLTLLVAFGLPPVLQLAKVPPLRVIRRDLGSVQVRSG
+LVLVMGLLGFAVTLLMVSRNLTLGLITVGGFAVALLVFAALAAVALLLLRLVVPDESAPR
+WLRLATRQVAARPVFAVVQVSALSVGLLALALLVLLRTDLIASWRQATPVNAPDRFVINV
+QPEQAQDFLAHLKTAGVQSPDWFPMIRGRLVAINGRVIGPDDLIADRGKRLLDREINLSH
+SAVLPGHNPLVAGRWMAEEADGVSVEEGIAEALGLKLGDRLGFDIAGQPHEARVTSLRKV
+DWASMRANFFMLFPVSQMPDLPMTYMAAFRSPEGAPGFENAMVNAFPNITSVDMRSTLAQ
+VQRVMDQVIRAVEFLFAFTLAAGLMVLLAAVGASRQAREREYAIMRALGAGRSLLVQVQR
+TELLGIGWLAGFMASAMALVVGWALARYAFEFAWQPPLWAPLAGGLAGALLAWGAGSLSL
+AGVLRQPVVQTLRQAAQ
+>tr|A0A0P0MBM7|A0A0P0MBM7_9BURK
+MPFFVSANLASPSRARRLTFVAALLAVCASSTALAQAWPQRPIKVVIPFPPGGPSDLVMR
+TAAEKILANLKQPIVIENQPGAGGNIGAANVARAAPDGYTFLFATDTLLTVNPHVYKSMP
+FKLDDLKPISVLSSFSQTLVCNPSLGVKTVSELIAKAKTTSLSYASGGAGVPGHLSTELL
+LSMTGMQMTHIPYKGPAPAMQDVLANQVPCGLLAGPTVLPHVRSGKLTALAVSGQTRSPS
+LPEVPTMDEAGVKGYEADFSLILIAPKQVPDDIVAKFRQAVVDALRTPEATERLKASDQI
+VIGSTPEQAVAKVAKDFAKWGAVSRKIGLSLD
+>tr|A0A0P0M8S7|A0A0P0M8S7_9BURK
+MVSPTSSHAASPMSTSGRLHAPHLPPVVLATAQGSEQTETLAKARAFAEPLIAGETLDTG
+ENILAHADAVAEILAGIGGSVAMQASSYLVYTCPHLNKPEEVMAKAFGPELAQLAMQTNQ
+LVHVQRLSRAAESSTHGPDNTPLSPRIQTENVRKMLLAFSRDLRVVMLRLASRLQTLRHY
+AATKLPVPPVLASESLQVFAPLANRLGIWQIKWEMEDLSFRFLEPATYKDIARLLDEKRT
+ERERYMVDLRGRLQQALSEQGIAASVDGRPKHIYSIVRKMRGKSLPFERVFDIRALRVVV
+PGVADCYQALSWVHEHFVPIAEEFDDYIAKPKANGYQSLHTVVRDADGGPIEVQIRTQAM
+HDHAENGVAAHWAYKEAGTKGYAGVSATSEYDTKIAVLRQLLAWERDLSGAAQASAPGSG
+LFDDRIYVLTPDAAVVELPQGATPIDFAYTVHTNLGHRCRGAKVDGAMVPLNTQLANGQT
+VEITAIKEGGPSRDWLNAELGFLASPRARAKVRAWFNAQVMAETVARGREAVEKSLQRLG
+RTAIRLEDLASQLGFKSADGLFEVVGKDEYSLRNIEVLLNPPEPEPQDNDYLPKKFKGTA
+ARKSPSGVLVVGVDSLLTQLSRCCKPAPPDAISGFVTRGKGVSIHRQDCSNFRELVSRHG
+ERVIEVRWGENKGADASVYPVDVAVEAFDRQGLLRDISEVFAKEKMNVIGVQTQSVKGTA
+WMTFTVEIGDAVSLSKVLGTVRGVKGVRAARRR
+>tr|A0A0P0M9V7|A0A0P0M9V7_9BURK
+MARPFKVLGVQQIAIGGPDKGRLQKLWVDMFGLEVTGTFKSERENVDEDICAIGSGPFMV
+EVDLMQPLDPDKKPAVHTTPLNHIGLWIDDLPVAVEWLTAQGVRFAPGGIRKGAAGFDIT
+FLHPKANDEFPIGGEGVLIELVQAPPEVVQAFTALATNEH
+>tr|A0A0P0M899|A0A0P0M899_9BURK
+MFNLFNRNNPADEMKRAVAAYEKVTSIESDSREARSLRMRMGMLCRAHLDKTFIAGAEQT
+AAWQELVSLSLKAGKPMPEAPTPSKFQKIRTGDSDVYAYLPEDYVIEAFGLGARYQKAEL
+PAPKAIEAMQALANQISRYDLRLDEPFQALTFLREELAEQAAAEAAEHNEGQNAGDPSSE
+AP
+>tr|A0A0N7J8Y0|A0A0N7J8Y0_9BURK
+MSTEATLIKQHLIDPEICIRCNTCEAICPVGAITHDSLNYVVKADVCNGCMDCISPCPTG
+SIDNWRMVPKAKAYSIEEQLKWYDLPAELSAEELAAAGGGDAGDAQEQALAAVQAAASSS
+SAVSTAAASGFNSAQYGATIPPWSAAHAYTNLYGPKAQDKTITATVTGNLRVTEVGQQAG
+QQDYDTHHIVLDFGHLPFPVLEGQSIGIIPPGVDANGKPHHARQYSIASPRNGERPGHNN
+LSLTIKRVLEDHDGKPVRGVASNFMCDLNVGEKVQVIGPFGASFLMPNHPKSNIVMICTG
+TGSAPMRAMTEWRRRLRASGKFEGGKLMLFFGARTPAELPYFGPLNNLPKDFIDTEFAFS
+REVGKPKRYVQDAMRDRAADIAVQLKDPNTCFYVCGLKSMEEGVVMALRDIAQNAGLDWD
+AVGAALKKEGRLHLETY
+>tr|A0A0N7J987|A0A0N7J987_9BURK
+MSDILDKIVAVKREEVAAAMKQKSLAMVRADAESRVLTRDFEGAMRAKIAKGQAAVIAEI
+KKASPSKGVLRADFIPADIAQSYAEFGAACLSVLTDKQFFQGSVDFLKQARASCDLPVLR
+KDFMIDAYQVYEARAMGADAILLIAACLDDAHMAEMEAVARSLDMAVLVEVHDKAELDRA
+LKLKTRLVGINNRNLKTFEVSLQTTLDMLPDVPADRLLVTESGIQTPEDVRRMRDAKVNA
+FLVGEAFMRANEPGEALAKLFAG
+>tr|A0A0N7J897|A0A0N7J897_9BURK
+MNTDKEADNAWVQAQAESEAAKAVKIERETHKLEKRLCRQMGQAISDFNLIEAGDRIMVC
+MSGGKDSYGMLDILLKMKARAPVDFELVAVNLDQKQPGFPDHILPAYLKELGVEYHIETQ
+DTYSIVKDKIPEGKTMCSLCSRLRRGILYRVARELKCNKLALGHHRDDILQTFFLNMFFG
+GKLKGMPPKLVSDNGEFMVIRPLAYVAESDLIRWAEHRQFPIIPCTLCGSQENLQRLQVG
+NMLREWQKKYPGRIENMFAALQNVVPSHLMDAKLHGFKDLKITGVESDDGDKAFDEEEFK
+EPSLPGIQVISM
+>tr|A0A0P0MB46|A0A0P0MB46_9BURK
+MRIYSNRLGSTELPSRIFHLSASENSTAAVLELVAPDMAQVDHVIAQRLDSGVPLVAEVA
+RYIISAGGKRLRPVLLLLTCGALGYTGSQRYNLAAVVEFIHTATLLHDDVVDESTLRRGR
+PTANESFGNPASVLVGDFLYSRAFQMMVDAGSMRVMQTLADATNVIAEGEVLQLMNMHDA
+SLDEEGYLRVIRSKTAKLFEASARLGPILAGSTPEIEAACAHYGQALGTAFQVIDDVLDY
+DGNSAEMGKNLGDDLREGKATLPLILAMQRGNPEQSRTVREAIETGNVDRLNEIVAIVRD
+TGALAATRSAAAAEAQRAIDAAMQLPDNPYRTAMVALASQLLDRRT
+>tr|A0A0P0LEP7|A0A0P0LEP7_9BURK
+MCQLLGMNCNTPTDVTFSFSGFAQRGGITDHHGDGWGIAFFEGQGVRHFVDHQSASTSPI
+ADLIRRYPIQSQNVIAHIRKATQGEVSLENCHPFVRELWGRYWVFAHNGNLVDYAPRLHG
+SFKPVGQTDSERAFCWLMQELAKSHASVPSVQELSLTLRELVPQIARFGTFNFLLSNGQA
+LWAHASTNLHYVLRKHPFNRATLSDEDLSVNFAEHTRETDRVAVVVTAPLTTDEAWVAFE
+PGRLYTFEGGDLTP
+>tr|A0A0P0LIV4|A0A0P0LIV4_9BURK
+MKISTSFLFDRATDRMSTIQNKLATTQAQLSVSKQILKPSDAPDQAAAIQRLKGEVERQN
+SHVRTLEVAMRRYGSEETVLKASNDLLIRMKELGLQAANGTMGQSDRDAVAIEMKALRNQ
+LLSLGNTRDDSGNYLFSGTRVNTPAFAENANGQVVYMGDQTQTRIPAGVERTVQFTRAGT
+DVFSRVVRDGQDQAVGFFDALDQMIEGVETSDTTRIQQGLADVTQMHNNITLTQAQNGSD
+QKVVQSQMDILDETALRMKSTLSEIEDLDYAEAVTRMNKEMMALEAAMGSFAKISGLSLF
+DYIRG
+>tr|A0A0P0MAD4|A0A0P0MAD4_9BURK
+MNPARRQLSTLLGASLLSLGAAPLAWAQTASTTVPLKLIVPFTPGTGIDLIARTLGPKLS
+QRLNRPVVVENRVGASGNIGTEAVVRAAPDGATLLVSVNTLVMNRALYPGLSFDAVKDLS
+AVSQTSWGQLLLVTHPKTGYKTAGELVQAARQQPGRFNYASPGVGTPHHLSMELFKNTAR
+VFLTHIPYRGTGPAVTDLLGGQVDAMFLPIHVALPHIRSGRLVALGIGSDKRHALLPDLP
+TLAEAKAGNVNVDMWYGIFAPKGTPADIVALYNREINQLLSGEDVQKAFVSQGMDPSGST
+PQAFGQLVERDAERWARLIKDQGIKAD
+>tr|A0A0P0LI05|A0A0P0LI05_9BURK
+MTHRKVWQASVVLAALLGGSPSMSAASPLRLADALSLASTRHPSVKAKQAEVQAAQADLE
+TAKWSRYPTVSTEATASSGRPQAALLVQQPLWAGGKIDAQNRLAQAQLTLAEAGLQETRT
+SLMQQAGQQYFEVLRWQQRLNVARQTEDEHRKLLELIQRRVVAEISPLTDQVLASARFQQ
+AVSERIQFDRALQTAQLALQQLVGEPHTGLKAPSRIALPKLEEGLAIEASKAHSAELLRW
+RTQQEVAQAQIDMAQAGLYPTVALAHRQNLGANDTATLPNRTYISLQFSPGPGFSARSAA
+AAARSRLENSLQNTVVFERQLEQQVRTALTELEALAQQVEPARLLVTATEDVVASYLRQY
+QIGKKNWLDVLNALRESAQAQNSAVDVASSTQSLQLRLMLLTSSMNTPALTQIHD
+>tr|A0A0P0LNV2|A0A0P0LNV2_9BURK
+MSASSPQVLYTPAQRARRDATAWTLVQGILAPVQFLIFGISLYLVINSLHTGEHTDWALA
+SVVLKTAVLYAIMVTGAIWEKVVFGQYLFAPAFYWEDVVSMGVMALHTAYVWAWWQGAWS
+ANDLLLLALAAYGSYAINAAQYIRKLRMARLQKTTSPDPTSLPTSGAQAST
+>tr|A0A0P0M7N4|A0A0P0M7N4_9BURK
+MDTPPLAHAPHNQALAPPLSRPALRTVAEFLKPITWFPPMWAFACGAVASGQDLGANWAL
+LLLGLVLTGPLVCASSQAVNDWFDRHVDAINEPNRPIPSGRMPGRWGLGIAIAWTALSLV
+WATLMGPWGFVACGLAIALSWAYSAPPVRLKNNGWWGNAACALSYEGLAWLTGTAVMLGG
+AWPGPHSIALALLYSVGAHGIMTLNDFKAIEGDRRMGVASLPVQLGAHGAARMACVFMLV
+PQVVVAALLLNWQLPWHAAAVLALAVSQGPLMRQFLRQPVERALHVSAFGVPLFVSGMMV
+SAFGLRQLSLFSNTLGVA
+>tr|A0A0P0M874|A0A0P0M874_9BURK
+MGRIIGIDLGTTNSCVAIMEGNTTKVIENAEGARTTPSIIAYQEDGEILVGASAKRQAVT
+NPKNTLYAVKRLIGRKFSEKEVQKDIDLMPYTIAKADNGDAWVEVRGNKLAPPQISAEIL
+RKMKKTAEDYLGEEVTEAVITVPAYFNDAQRQATKDAGRIAGLDVKRIINEPTAAALAFG
+LDKQEKGDRKIAVYDLGGGTFDVSIIEIADVDGEKQFEVLSTNGDTFLGGEDFDQRIIDH
+IITEFKKESGVDLAKDVLALQRLKEAAEKAKIELSSSASTDVNLPYITADATGPKHLNIK
+LTRAKLEQLVEELIERTIAPCRMAIKDAGVSVGEIDDIILVGGMSRMPKVQEKVKEFFGK
+EPRKDVNPDEAVAVGAAIQGQVLSGDRTDVLLLDVTPLSLGIETMGGVMTKMITKNTTIP
+TKFAQTFSTAEDNQPAVTIKVFQGERDIASGNKLLGEFNLEGIPPAARGTPQIEVSFDID
+ANGILHVGAKDKGTGKENKITIKANSGLSEAEIQQMVKDAELNAAEDKKKLELVQARNAG
+EAAVHSVKKSLTEHGDKIEASEKEAIETATKALEDVLKGEDKDAIEAKTEALMTASQKLG
+EKVYADMQAQQAAAGAGAAGADAKPQDDNVVDAEVKEVKKG
+>tr|A0A0P0MCI4|A0A0P0MCI4_9BURK
+MGDELTMHWRNSAAALAVLSGALYSPLAWAQANPAAAQKNMEQLGAQLRERVLPKPVVYV
+DTLGLEANTSVAHLVAVQVHSAVLSRTIDRYWQGRIGRAVSVDELRAFHGWFYERAAQEG
+YMAYAKTEVVQVNGGQQLNIQVLQPKINSVRVLAPGSAQASPYLERVQNRVGQVFKAGQS
+LDTLALDQVLDSASYDLPIELEATLRAVGPELLDLVITLTPAIAMPGQTSSGVVQVNNHG
+LRQYGRTQLLTGLTVGMPAVKSQLSLLAQASEGVAYARADYEGLLPAWGSRWSMFGTHSR
+SQSVLGGLAAAEGEAKELGLGLNRIVGAHRDLVFKGHVELASRESDSYRRNGGERLSEVH
+DHQLRLRWSADNERLSPNPVRAELGVLRGYYPQAVNNNQDPAGHYTRVNFAFKGQTPLNS
+SGGLRLVGRVRGQWASRNLESYNQFTLGGVNGVRAYTSVDGVGDHGVLASLELTQSLSPV
+LSLTAFYDGGQVQKYANPSTAVTLNRYSLEGAGLQLQGRYFQLHYTLTWAKGLGGYADWQ
+MSNIESKPDNSRVNLSVSYLF
+>tr|A0A0N7J916|A0A0N7J916_9BURK
+MAAITLSHILKTYGQGAKANTVIHDLSAEIAHGEFVVIVGPSGCGKSTLLRMVAGLEDIS
+GGTISIGDRVVNDLEPAERDIAMVFQNYALYPHMSVFDNMAYGLKIAKVPVDEIKARVDK
+AAGILELSHLLQRKPRELSGGQRQRVAMGRAIVRQPQVFLFDEPLSNLDAKLRAQTRLEI
+QKLHRELGITSLFVTHDQVEAMTLAQRMIVMNGGHMEQFGTPEEVYNRPASTFVASFIGS
+PPMNLLQQAPNTPAGRILGIRPEHMDITPTGWPLQVETVELLGAERLVHARLGTESLTLR
+LDASLPAPTAGESFCITPRADKLHWFDAKTGQRITSE
+>tr|A0A0P0M771|A0A0P0M771_9BURK
+MVNTHSGVLQVPVKNWKTLRDAQVVKQDLDYSCGAASLATLLNYFYGQDLTEEALLKAMD
+KGDGRASFEDMAKALPKFGFRAQGFAASWEQLTRLKMPVIVYVKHRKNDHFSVLRGINQD
+TVWLADPSLGNRTYSRQQFLAMWQTRQASENADLSGKFLAILPMQADAKQPDIFFTKTPE
+RQTGLALQMLAHQRKSN
+>tr|A0A0P0M8I1|A0A0P0M8I1_9BURK
+MSNLAHGLRLQLPTGWIEGVSSAAAGDTGSPALRIFKGIPYAAAPVGERRWQAPQPVSPW
+VGVRPCDRFGPVAAQAGLPGSADHAGDLDCLSLNVWCPPAGDGPWPVMVWIPGGGFMRGG
+ASDALYDGSAMARQGIVFVSINYRIGVDGFMHFDDAAPNRGLQDQLAALHWVQEHIAMFG
+GDPRRVTVAGVSAGAGAITHLMGLSSSEALFERVILQSPSMQSHSLDDAQRIRHALAGVL
+GVAPTRQALAAVPLASLTRALASFMGNEVLKKQWGLRPRNYFPVRPVVDGQLIEMAPLPA
+IEKRLLSGGAKRAVLLGSNAEEMRFYLVPNGEIDRIDESRVWTFVEDIGWSAQTLAQTLD
+GYRAERPQISMGDALSRIQTDYFYGKPTLALAQLLHQAHCPTFLYRFEWPSPLYGGRLGA
+AHAMEIPFVLGNTPSSRAQEFIGAVAPPDLAHDMHTRWAMFVRGEAMSDWADADERWRVF
+KVG
+>tr|A0A0P0LMV4|A0A0P0LMV4_9BURK
+MVLAAGRGERMRPLTDQTPKPLLPVRGQPLMLWPMQALARGGFVHQLINTAWLGEQIPTL
+LGDQAHWPELPEVHIRYSHEGQDFGRALETAGGIVRALPQLDEVFWVVAGDVFAPDMVFT
+QPAVARFAASAALAHLWLVPNPTHNPGGDFGLSEAGQVLNLPKGSPDCAYTFSTVALYKK
+AFFADCGLPAGNPEGVALALAPLLRAAMDRGQVTGEVYAGDWTDVGTPQRLAQLNRSSA
+>tr|A0A0P0M7H9|A0A0P0M7H9_9BURK
+MSIPHENFTAAVYVTTHDKLEDRIFDSEYWVDLTLIEDEQEFIETCLDLHSDEVDPCLII
+NNSSGIPEELLNPSGWPDERIWWWLRLPKEQREFALQFWRNINPEASLEAVLRQLTQ
+>tr|A0A0P0M943|A0A0P0M943_9BURK
+MNSITENTHPGVDFTRWLAVGSLLGLILLGLLWELWLAPLRPGGSWWVIKVLPLCIPLAG
+LLKNRMYTYRWVSMLVWLYFTEGVMRAWGDAWPSNGLAGLQILLCTTLFVACALHVRIRF
+KAAKATGNFVPVPRD
+>tr|A0A0P0MBV9|A0A0P0MBV9_9BURK
+MVAERAGVSPSTVSRILNGTAQVSEDKQALVKAVIEELGFRPDPAARSLAGGRTMSIGVL
+TQFIDSPYYGEALRGIEDELHKANYVPLFVSGHWNEAEEKNRLFMLQERKVDGIIVLTGK
+LADETLVDMAANIPVVVTGRRLNAPNLFSIDFDNTEGACLAVRHLHALGHRRVAFISGPL
+DHPDATQRLQGYREEAQRKDMALDDSLVVYSDYQESGGFRAMNELLSASVQFTAVIAAND
+QMAYGARLALHRAGLRVPEDVSLLGFDDLPHSAFTLPPLTSVRQSVYEIGTSAAKAMFDL
+LNKRNPPSRLVEAELVVRESTRIFRR
+>tr|A0A0P0MA62|A0A0P0MA62_9BURK
+MSLFSAVEMAPRDPILGLNEQYNADTNPNKVNLGVGVYFDDNGKLPLLQCVQAAEKTMMA
+TPTARGYLPIDGIVAYDNAVKALVFGAESDVVKSGRVSTVQAIGGTGGLKIGADFLKKVS
+PNAKVLISDPSWENHRAIFINAGFEVGSYAYYDAAKRGVNFEGMLADLNAAAAGTIVVLH
+ACCHNPTGYDITDAQWDQVIAVVKAKGLTAFLDMAYQGFGHGITEDGAVIGKFVAAGLNI
+FVSTSFSKSFSLYGERVGALSVVASDKEEASRVLSQLKIAIRTNYSNPPIHGGAVVAAVL
+NNPELRAQWESELAEMRVRIKAMRQKLVDSLKAAGVKQDMSFITTQIGMFSYSGLTKDQM
+VRLRSEFGVYGTDTGRMCVAALNSKNIDYVCASIAKVV
+>tr|A0A0P0LNE0|A0A0P0LNE0_9BURK
+MKTYRIATIPGDGIGKEVIPAGQEVMQALAKACGTFAFEFENFGWGGDYYREHGVMMPAD
+GLDALRGKDAILFGSAGDPHIPDHITLWGLRLKICQGFDQYANVRPTRILPGIDAPLKRC
+TPQDLDWVIVRENSEGEYSGVGGRVHQGHPIEAATDVSIMTRAGVERILRYAFKLAQSRP
+RKLLTVVTKSNAQRHAMVMWDEIAVQISKEFPDVKWDKELVDAATARMVNRPATLDTIVA
+TNLHADILSDLAAALAGSLGIAPTGNIDPERRYPSMFEPIHGSAFDIMGKGLANPVGTFW
+SVVMLLEHIGEPAAAQRLMAVIESVTANPALHTGDLGGKALTVDVTQAVCKDLA
+>tr|A0A0P0LIP3|A0A0P0LIP3_9BURK
+MRPDRRRLIKAGFLVLSLGAAQLARGANMLAVRVWPAPDYSRVTLESDAPIQSTQTFITS
+PPRLAVDIEGMQLNAALRELVGKVQASDPNIAGIRVGQYSANVVRLVIDLKHPISPQVFS
+LQPVAPYAHRLVLDLYPSQAIDPLEQLIQERTAAKPPSAVDKLPGASATVNDPLGDLIAR
+QTQAGAAPLPQALPAPTTRSPDMAPSEGPFMDKPSRPGSAPAQPRTDRLIVVALDPGHGG
+EDPGAIGPGGTREKDVVLKIAKMLRERINASSVGGSPMRAFLTRDADFFVPLHVRVQKAQ
+RVQADLLVSIHADAFYTPRPQGASVFALSQGGATSAAARWMAQKENKADVIGGVNLGVQD
+SQVQRALLDMSTAAQIKDSLSLGNSLLREIGSVGKLHKPRVEQAGFAVLKAPDIPSVLVE
+TAFISNPEEEEKLRSEAYQKQLTDALLRGILQYFSRNPPLARNRGI
+>tr|A0A0P0M7W6|A0A0P0M7W6_9BURK
+MFSSVISAEVAISDRPKKPVTATFERISEYLLKYDQGAQVLTVKP
+>tr|A0A0P0M947|A0A0P0M947_9BURK
+MRISERAERIEPFYVMEVAKAASQKAREVAHTDRPVVFLNIGEPDFTAPPRVQAAAQAVV
+ASGQTQYTPALGLDALRQAISGWYTQRFGLQVPASRIVVTAGASAALQLACLALIDRGDE
+ILMPDPSYPCNRHFVSAAEGTAVLLPTTAEERFQLSAAKVASAWGPQTRGVLLASPSNPT
+GTSIDPTELARIIDVVRSHGGITLIDEIYLGLSHDDQFGQSALTLGDDVISINSFSKYFN
+MTGWRLGWLVVPEQLTPVLERLAQNLFICASSVAQHAALACFEPESLAEYERRRAEFKAR
+RDYFIPALNDLGLTVPVAPDGAFYAWADCTAACQKLGLKDSWDFAFAALENAHVAITPGR
+DFGTDQTARFVRFSTANSMAELQTAIARLKAWLQP
+>tr|A0A0P0M9J8|A0A0P0M9J8_9BURK
+MSDKIIPITPINSRSANITEGKSRAPNRSMYYAMGYEQSDFVKPMVGVANGHSTITPCNS
+GLQKLADAAIEGIEAAGGNAQVFGTPTISDGMAMGTEGMKYSLVSREVIADCVETCVQGQ
+WMDGVLVVGGCDKNMPGGLMGMLRANVPAIYVYGGTILPGRYQGKDLNIVSVFEAVGENA
+AGKLSDEDLLEIEKRAIPGTGSCGGMYTANTMSSAFEALGISLPYSSTMANVHDEKVESA
+KESARVLVEAIRKGIKPRDIVTRKAIENAVAVIMATGGSTNAVLHFLAIAHCAGVEWSID
+DFERIRQRTPVLCDLKPSGKALAVDLHKAGGIPQVMKLLLNAGLLHGDCITITGQTIAEV
+LKDVPDAPPEQSVIHTIENAMYKQGHLAILKGNLSPEGAVAKITGLKNPVITGPARVFDD
+EQSALEAILAGKIQAGDVMVLRYLGPKGGPGMPEMLAPTGALIGAGLGESVGLITDGRFS
+GGTWGMVVGHVAPEAAAGGTIAFVKEGDSITIDAHQLILELNVPEAELAKRREGWKAPEP
+RYTRGVQAKFAFNASSASKGAVLDLY
+>tr|A0A0P0M6I9|A0A0P0M6I9_9BURK
+MSSSNPIDLADHDLAALQEARDLLGRAQQAAATLALWTPEEAKRVAKEVAAALLPRAEFY
+AEWAVRESRIGKVADKIAKNQIACTLTPTAWDNVALGGVRRNDALRIVEIGRPAGVVVGL
+SNSTSPVATIIFKTILCLMTRNALVISPHPVALGCCTAVTQELQAAIEKAGGPAHALQIL
+TRPTVEATGALMRDARTDVILATGGTPMVRAAYGSGNPAIGVGSGNAPVYVDASADLEAA
+AKTVVVDKNFDHGSPCSAPSVLMLHAGIAAQMQQALARQGAHVCTEEEAQKIQHHAFPGG
+KFNGKVVGRPAFEIAQAAGVQVPRDCQALICPIANPQPGHVLLKEKLSPILGCVVVPGID
+QAIDVARLMLQHSGAGHTSGIHSASAEQAVVWGAALDYYRVVVNGSTVHDSTGANTGLPY
+TFTIGTGYAGKSSVDCNVGPELLVNWKRVAFPLPGGWAGAMASGASLPASSGSLSTLTPE
+LQATVLRIVQEELEHLR
+>tr|A0A0P0LAY3|A0A0P0LAY3_9BURK
+MKQFTRAWHTGLLMAVLGASAAQAQSVRETVRETVPQVQPALSADAPPPGASVPGQTRTI
+GWEQLIPAGWDPYKDLKALNLDTLKDNDPKAEEALKKMRKMWDNAPINPLILGQSVRLPG
+YVVPLEDLAAGIKEFLLVPYFGACVHSPPPPANQIVHVLLDKPAKNLRLMDVVWVNGPLS
+ATKTDSHMGVASYRIDAKAVTPYQEKKR
+>tr|A0A0P0LQY2|A0A0P0LQY2_9BURK
+MSQADMNTNLLILDGVHTHIGAYHILHGVDLVVPRGELTMLLGRNGAGKTTTLRTIMGLW
+QASQGCISFGGEDITALNTPAIAQKNIAYVPENMGIFSDLTVKENMLLAARSAQHAAQMD
+EARLQWIFKLFPAVEKFWNHPAGKLSGGQKQMLAVSRAIVEPRDLLIIDEPSKGLAPAII
+QNMIEAFQQLKASGVTILLVEQNIHFAQQLGDTVAVMDNGRVVHSGRMQALAEDTALQQS
+LLGLAL
+>tr|A0A0P0M7F3|A0A0P0M7F3_9BURK
+MADPMRIRAQASGDKATVRVLMSHEMESGQRKDASGKTVPAWFIQEVTAKLNGKDVFSAE
+WGPAVSKNPFLQFTVKGAKAGDKIAVTWKDNKGDTRTDEATVS
+>tr|A0A0P0MAE6|A0A0P0MAE6_9BURK
+MQLALPQLGAHLQKGLRSLYILHGDEPLMQQEAADAIRASARAQGYTERSVHTVSGAHFD
+WSEVLAAGGSLSLFADKQIVEVRIPSGKPGKEGSAAIQQLVASAQGNDSTLTLVLLPRLD
+AATRKGAWFGALENGGVSIQIDPVDRNALPQWIAQRLQTQGQSVAAGEEGQRTLQFFADR
+VEGNLLAAHQEIQKLGLLYPAGELSQAQVEAAVVNVARYDVFKLSELVLSGQVARVQRML
+DGLQAEGEAAVLVHYTLAEDIRAMKRVKDAMTAGKPLPMALREQRVWGPRERLFERVLPR
+MSEARLNGLLQAAHQVDGIVKGLKVPDWPTDPWQALQRLAVRFSRFCNVR
+>tr|A0A0P0LUR1|A0A0P0LUR1_9BURK
+MFSSFRRYFSSDLAIDLGTANTLIFVRDKGIVLDEPSVVAIRHEGGPQGKKTLQAVGHEA
+KAMLGKVPGNIEAIRPMKDGVIADFTVTEQMLKQFIRMVHPRSTFRPSPRIIICVPCGST
+QVERRAIRESALGAGASEVYLIEEPMAAAIGAGLPVSEASGSMVVDIGGGTTEVGVISLG
+GMVYKGSVRVGGDKFDEAIISYIRRNYGMLIGEPTAEAIKKNIGSAFPGSEVKEMEVKGR
+NLSEGVPRSFTISSNEILEALTDPLNQIVSAVKTALEHTPPELGADIAERGMMLTGGGAL
+LRDLDRLLAEETGLPVLVAEDPLTCVARGCGMALERMDQLGSIFTSE
+>tr|A0A0P0M869|A0A0P0M869_9BURK
+MTSPTLESFTAQSLDEGFDEIIVREWTADLKLDTHTHPFDVSAYVARGEYWLTLGEEVKH
+LQAGDFFRLARDVPHAELYGSEGATVWVARAN
+>tr|A0A0P0MBX8|A0A0P0MBX8_9BURK
+MSKTTNAAKINTITACFSGSGVQAYAYFVDDNFMRKYEIKISDSGSDLTTPFETSEILDD
+ATAICKFICHGMHEDPSIAIKFNGKAIQVESLEIDDPFEDETHDVESALLMRYAENQDHD
+FMVPEGMHLLVEVVEYDDGELITELQTTDKMVELKDFLLEVRDLDTSSDLSEATYMTGLL
+NGAEYDILNLQYKGEPASFELNFSGICGGGLYLVKPDSQGIWRDYYEIKTSEDE
+>tr|A0A0P0MB66|A0A0P0MB66_9BURK
+MSTIPMVNFEIHMALSRLYADYALAVDSGQWDLWPEFFTEQCVYKLIPRENHERGFPLCT
+LSFTSKGMLKDRVYGIQETLYHDPYYQRHVVGAPVVRSVEGDRIHAEANYAVFRTKLDKA
+STVFNVGRYIDTIVLTPEGLKFAERLCVYDSEMIPNAIIYPI
+>tr|A0A0P0M746|A0A0P0M746_9BURK
+MYTQSFSVPDGTEDAKSASLKAVPKALNAQDAALQAAFDARIDADGRIEPREWMPEAYRK
+TLVRQISQHAHSEIVGMLPEGNWISRAPSLKRKAILIAKVQDEGGHGLYLYSAAETLGTS
+RDQMLDALHSGKAKYSSIFNYPTLNWADVGVVGWLVDGAAIMNQVPLCRCSYGPYARAMV
+RVCKEESFHQRQGYEALLVMMQGTAEQKEMVQDAVNRWWWKCLAMFGPPDADSPNSAQGM
+RWGIKRISNDDLRQKFVDATVPQAKVLGVTLPDPDLKWNEERQAHDYGQIDWDEFWATVN
+GNGPCNKERLGARVKAWNDGAWVREAALAHARKQQARQLKEAA
+>tr|A0A0P0M7R8|A0A0P0M7R8_9BURK
+MMFESTWNPHSPVAQQRRQAALARLAQWQALQDRAAQASAQSKPVFDKRGQLLPRERVAL
+LLDPGAPFLPLCALAGFMQDTPDPAKSVPGGGMIAGIGFINGVRCMVVASDSGIEAGAIQ
+ARGLEKILRVQELALENKLPFVHLVESAGANLMQYKVEGFVLGGSLFRNLARLSAAGLPV
+LTVQHGSGTAGGAYMPGLSDTVIMVRGRSRAFLAGPPLLKAATGEVATEEELGGAEMHTS
+VSGLGEYLCEDDRHALGTARDVVARWDWAAHSTQRQAKPPRWDAEELLGLMPAHHREPID
+MREVILRLVDDSDFLEFKPLFGAATVCAQARIGGHAVGIISNNGPIDVAGANKATHFIQW
+MCQLGHPIIYLQNTTGYMVGKDSEQGGMIKHGSKMIQAVTSATVPQITIQCGASFGAGNY
+GMCGRGYAPRFLFSWPGAKTAVMGGEQAARTMQIVAEAGMTRKGITPDPEKMQAQFDKIV
+ALFEAQADAFYTSGLVLDDGVIDPRDTRSVLSFCLDTCAESAARQPRASTFGVARM
+>tr|A0A0P0MC66|A0A0P0MC66_9BURK
+MFKKILIANRGEIACRVAATARRMGIQTVAVYSDADAGAKHVQACDEAVHVGGSAPKDSY
+LRWERILQAAKDKGAEAVHPGYGFLSENEDFAKACAAAGLVFIGPPASAILAMGLKAESK
+RLMEAAGVPLVPGYHGADQDPALLQREADRIGYPALIKASAGGGGKGMRVVEKSEDFAAA
+LASCQREAINSFGSDAVLIEKYVQRPRHIEIQVFGDTQGNCVYLFERDCSVQRRHQKVLE
+EAPAPGMTEALRAQMGAAAVAAAKAVNYVGAGTVEFIVEQTAYDQPESMKFFFMEMNTRL
+QVEHPVTEAITGLDLVEWQLRVASGEPLPLRQDQLRIQGHAIEARICAENPDNNFLPATG
+TLQVYRKPQASSFERSMVRIDDGVREGDTISPFYDSMVAKLIVHGDTREQALARLDTALA
+QTHIVGLNTNVQFLRHVVRSEAFATAKLDTALIQREAAVLFKQETVGLAAAVAAVVAHTL
+HAEKALQGADPFSRRDGWQSHGLAQRRFEFVWQDQPRSARLNYLHDGAVSLSLEGDDASA
+GVLTFTAHGAGLWVQWGSAPRCFTQLDWQGEIAHLFMPQGATRITVLDPLAHAGESAQEG
+GRLTAPMPGKVVSFAVKVGDKVKAGQPLAVMEAMKMEHTISAPKDGTVVELLYAPGDQVA
+DGAELLKLG
+>tr|A0A0P0MC59|A0A0P0MC59_9BURK
+MNTPLLSVEHLVKRYGDTTVVNDLSFHINPGECLGVIGPNGAGKTTTLRMCLGLSQPDSG
+SMAYFDGLQMPRDALAIKARLGVVAQMDTLDPDFTAEENLLVFGRYFGLPDAVIHERIPQ
+LLEFGALSHKAKAKPGELSGGMKRRLSLSRALINHPQLLMLDEPTTGLDPQARHLMWERL
+QLLLQEGKSILLTTHFMDEAERLCSRLLVLDQGRKIAEGKPRDLIAEHLEPEVIEVFGQG
+AVALAQEPTLKALAGRVEVSGETVFFYTQDSRALMQALQAWPALRTLHRPSNLEDLFLKL
+TGRQIREEG
+>tr|A0A0P0LUX4|A0A0P0LUX4_9BURK
+MAVIKIKPTSPGRRGVVKVTRDHLHKGEGYAPLLEPQHQKSGRNNNGHITTRHKGGGHKH
+HYRVVDFKRNKDAIPAKVERIEYDPNRTAHIALLCYADGERRYIIAPRGIEAGATLMSGA
+EAPIRAGNTLPIRNIPVGSTIHCIELKPGAGAQIARSAGASATLLAREGIYAQVRMRSGE
+VRKIHIECRATIGEVANEEHSLRQLGKAGVKRWMGIRPTVRGVAMNPVDHPHGGGEGRTG
+EGRHAVDPWGNLTKGYRTRNNKRTQVMIVSRRKK
+>tr|A0A0P0LBS7|A0A0P0LBS7_9BURK
+MNAVEIEAALSDLALEAFDAAEFPFQFLAAFGNKEVALKKLRTGHSNSSDLTSGVLLRNN
+IHLATCEAGAVGQTLQALKASPATTKAKAKFILATDGQSLEAEELITGETISTDFVDFPN
+HFGFFLPLAGISTIKEIKDNPIDVRATGRLNKLYVELLRENPDWAKDQRRADMNHFMARL
+IFCFFAEDTGIFNSTGLFSKTVEQMSERDGSNTHDVLETIFRAMNIKANDRDSAQPRLPN
+WANAFPYVNGGLFSGSTEVPKFTRIARTYLSHAGNLNWKEINPDIFGSMIQAVADDEERG
+ELGMHYTSVPNILKVLNPLFLDDLRAQLESAGDNRVKLLNLRKRMARIRVFDSACGSGNF
+LVIAYKQMRAIEAEINRRRGEEHLGSEIPLTNFRGIELRDFPAEIARLALIIAEFQCDVL
+YRGQQDALAEFLPLDTQNWIVCDNALRLDWLSICHPTEKKVRIVGDDLFATTTQNEIDFE
+NEGGEIYLCGNPPYQGSVGQTVSQKEDMARIFAPLLKAYKDLDYVSAFMLKAAQFNNRAG
+SSSAFVTTNSITQGEQVAMLWPLVFEQKNSIHFAHTSFLWSNLASKKATVTCVILGLTAK
+QQTAKKIFDSEVVRTVSNISPYLVSTENLIVSKRSAPISLLPSMQSGNKPSDGGHLMLSD
+DEKKILLSKFPSASKFIKRYSGSHEIINGGSRWCIWVEDEDIREAESIPELRMRFSLVAQ
+KRASGGKQAADNAGTPHRFVFAPHNSHLAIAIPNVSSERREYLPCDLTNYSTVVSNAASV
+IYDAPLWCLSLIGRIQVRGATKINPVMGG
+>tr|A0A0P0LGE0|A0A0P0LGE0_9BURK
+MAVPLIETDRLILRAHRHDDFPALAGIWGDPAVTRFISGKPATQEECWARLLRYAGHWAL
+LGFGYWAVQMKDGDQLIGDVGFANWERNISPSLEGLPEGGWVLSTEAHGRGLATEAVNAA
+LAWMDATFGAQTTACIIGPENAASIRVAQKAGYQEHCRSEFKGSEVIQFRRQGAS
+>tr|A0A0P0MBD1|A0A0P0MBD1_9BURK
+MNPAAKLSRAAWPYPRWIAHRGAGKLAPENTLAAFRLGAAHGYRMFECDAKLSADGMVFL
+MHDATLERTTNGQGIGGALPWHALSQLDAGSWHSRAFAGEALPTLEALARFCLANGHLLN
+IEIKPTPGTESATGEAVARLAARLWTGAAVPPLLTSFKPDALAAAQVAAPLLPRGLLVDT
+FWSGWLEKALALDCVAVVANYALWDQATVAQVHGAGMRCLSYTVNDDWAAQHLMALGTDG
+IITDRVDLFSPI
+>tr|A0A0N7J8P8|A0A0N7J8P8_9BURK
+MGLIMKQAITGPAAWKGADLVGDSAWLIHLSAPVLAALEAALAHVQAQGLTFPNFGKEDF
+PIGDWAQDLQAYSDELENGRGFLVLRGLPVERYSEEQIQILYYGIGLHMGVPVRQNPKGD
+LLGLVMNVGDVTKKTTRVYETNLYLPYHSDPSDVVGLLCIRKAKQGGLSSLVSVAAIYNE
+ILKKHPEYLGLYYRTWFFSHLCEDLPSLSPIFSHHQGKLSCRYLRQYIELGHEIRNLPLS
+QVEIEALDLFDEIMHREDFRLSMMLEPGDLQFANNYAVLHSRNEFEDHGVHELNRKMLRL
+WVKMPNARTLAPEFPGRNGFPAPAALV
+>tr|A0A0P0LBX0|A0A0P0LBX0_9BURK
+MKRHVAAFVVVLTSLLVIDSHVDWVRLDGRQLLEINGQRWDLRGWTAERLRLVRRDCAPV
+TTWPADSPTTRAVLSVVQQHSLPDSLSARWLQLLQSGDWGVAEVDFDTLKPALVVLRLQG
+GHWRVQDQAVWSGSTAPWHSGDFVRRYLRQQAPDLPQALLDCISVDPARYGAGPGGLGPV
+PPSEGRP
+>tr|A0A0P0M9B9|A0A0P0M9B9_9BURK
+MYNRNTLIEQTDPELFAAIQAENARQEHHIELIASENYASPAVMAAQGSQLTNKYAEGYP
+GKRYYGGCEHVDVAEQLAIDRIKQIFGAEAANVQPHCGASANEAVFLAFLKPGDTIMGMS
+LAEGGHLTHGMPLNMSGKWFNVVSYGLDANEAIDYEAMEAKARETKPKLIIAGASAYSLH
+IDFARFAKVAKEVGAIFLVDMAHYAGLIAAGVYPNPVPHADVVTSTTHKSLRGPRGGIIL
+MKAEHEKAINSAIFPGLQGGPLMHVIAAKAVAFKEALQPEFKAYQAQVIKNAQIIAKTLT
+ARGLRIVSGGTQSHVMLVDLRAKGITGKAAEAALGAAHMTINKNAIPNDPEKPFVTSGVR
+IGTPAMTTRGFKDEEARATAHLIADVLDNPLDEANLAAVRAKVHALTSRFPVYG
+>tr|A0A0P0MAD3|A0A0P0MAD3_9BURK
+MTHHVNAPSTEFNFAQHLIASHVGRADKIALIDDAGQLSYGELTEQIRRFAGGLQAMGLK
+REERVLLLMHDCSDWVVAFLGSLYAGVVPVAVNTLLTADDYAFMLRNSRAQAALVSAALL
+PTLQSALDLGKTEVRQVVVSRPTGALAQGQFSMADLVAQNNPVLPAQTLADEPAFWLYSS
+GSTGQPKGTVHSQGNLYWTAELYGKGVLNLQESDIVFSAAKLFFAYGLGNALTFPLSVGA
+TVVLMAERPTPQATFKRLVDHQPTVFYGAPTGYGGMLASPELPAKSQVALRLCSSAGEAL
+PRDIAERWTAHFGCEIIDGIGSTEMLHVFLSNRPGDVRYGTTGKAVPGYEVQLRNEDGSV
+VTGPNEIGDLYIQGPSSALMYWNNREKTRDTFQGVWTKSGDKYTRDPDGYYTYAGRNDDM
+LKVSGIYVSPFEVESTLVQHPAILEAAVIGKEDTDGLTKTKAFIVLKAGQSLTQDEVKAF
+VKERLAPYKYPRFIDFVAELPKTATGKIQRFRLRDLEKSAP
+>tr|A0A0P0MBI1|A0A0P0MBI1_9BURK
+MKNLFTLTAVVLAVSACNTLPSPPTSQAVELKFAAQINGQPFACGQRYEGVGTTRSTITP
+SDFRMYVSEVKLVRQDGSTVPVQLAQDGVWQQQSVALLDFENGAGPCRNGTEATNTSVRG
+QAPAGEYTGVELTVGVPFAQNHQDPTVAPAPLNSTAMFWNWQGGYKFIKFDTASSGISTD
+QPAAANAMGPVTRYSVHLGSTACAGESKTQAPSACQNPNRMTVRLDGFDLRKNTVVADMG
+AVLAQANVDVNAKGTSPGCMSFPKDGDCPPVMQALGLAYDGVAAAGPQRLLSKR
+>tr|A0A0P0M7A2|A0A0P0M7A2_9BURK
+MRALSVRKESVIAGVHHVSYQPERSSSPQIHPWLLNTETAVIRGQAAAEMVQRQAAQGWT
+PDVVLGHTGWGEMLFMRQVLPHARLLGFNEMYYRDQGGDVGFDPEFPTPPLSAQRLQVRN
+MHLASSLLACDVGITPTQWQADGFPSALRERLRVIHDGIRTDLLTPDPSAWVSLNRAGLV
+LRQGDEVVTFVNRNLEPMRGYHQFMRALPDIMRRRPQARVVIVGGDEVSYGAAPPGSKNF
+KQLFLEEVKDHLDMSRVHFVSRVPYNTLMALLRVSSAHVYLTVPFVLSWSLLEAMSLGAL
+VIGSDTAPVREVITDGQNGLLVDFFKPAQLADRVCDVLADRGAFKHMRQLARQTIIDRYD
+FQSVTWPAYQKLLTA
+>tr|A0A0P0LVT6|A0A0P0LVT6_9BURK
+MSSTGCDVSTAPSSDPSTLAAGAAQDRAAHERVALSLARQGMMNHLGVRLLSATVGQVEL
+AVPYSDKVTQQQGGFHGGAIGALADIAAGYAALTVSPEGMEVTTVEYKINFLSNFQGGEI
+HATGRVTKAGKRIIVTSAEVVHINDSGQRSDCAVMQSTLVPVPKTY
+>tr|A0A0P0M7H6|A0A0P0M7H6_9BURK
+MLTIEYVPSVLSALETAFPTPPNRAKQQLDKYLALLERQLRLSLLNRSVFARRFDAYDIP
+LTKLINGSPTVNNKQWRVHEWLGKHGHALVENINKSANNITKEIAVLKPTANLIVKNDNL
+LKYLQSVTAPELDAYLDTLTQDWQDLIDDYQSHYNSLSVKDRRSQFFTSPVDIPALKRYM
+TSIVQGATVLNKYQQENSIVHAEYVLRIAQVTNGLLHQKIDKKAFGRTYYEGVSVLSTRK
+ELRMAFLGTSWEYDCKSCSTAWKMSFAVQWHAQKKSRKLDVRQSFTAMTLYLEDKDAFFD
+AVILEVYNSQPTPEYKATIKEAMTALGFGAKLSMGTWRSDTGEESQSSLFEVFDRDTAVL
+KRFVKCDLVHKFNAEQQTLNKFIVANFSGDAQWQAEMKAEQQRKKVKQFSSAQKIVWLYQ
+HAETIMMDMVRAEVKKSGNTVLANVHDAVVVRNQIPAKLLAKIELKVQQRTGVGYFKLGE
+TGY
+>tr|A0A0P0LGR4|A0A0P0LGR4_9BURK
+MPFVPIFVVQLHCMRKSMRVMVPSGGRDRMPSPLLNAMLKSVSNAVQLPPKRSPQQGRHQ
+QGVQPNRQA
+>tr|A0A0P0LPD6|A0A0P0LPD6_9BURK
+MLNPNPDVIVFNIKQRYTGVSATINALVPLQMAQWRLGYCGTTMSNGVVGMTAGQAIALS
+RQPPPGRAFRIWHVRRDPEMMLGIFARDVLRLPIKLVFTSAAQHLHGRFPRWLISKMDAV
+ISTTPLAASFVPNTTAVVPHGIDLSRFAPPPDKLKAWADSGLPGEYGIGVFGRVRPDKGS
+DVFVDAMIEVLPHLPGATAVIAGLAQPQHQAYQQALIDKIAQAGLSERIVFLGEVPAGEV
+HRWYQRCLLCVACPRYEPFGLTPFEAAATGCALVCSRTGAFEQLVQPGVNGELVETGDAP
+GLATAVRQVLADLPAAVQRGLAAQARVSQSFSLSKEAEGIGRVYQQLFDQGAPR
+>tr|A0A0P0M9S9|A0A0P0M9S9_9BURK
+MDLQLLDFDCSEDTEGVVCWDALAQPLPRHNHALLQEVAKVLAWAHGFDAQGPGPLEDGA
+HWDFDLQATLRPEGPDPQAARLMLDPQTGQITLSAADLAHPLALSLSLSGTPGFAQAFRE
+HWGAP
+>tr|A0A0P0MB53|A0A0P0MB53_9BURK
+MARPLFFQSPLLAQLQTQIEAQIKDQLGQRVRAMTGATGDTRDFLQPVGDPGLFGPDSAA
+WQVHAHFVAMMTGGLSSLMLQALHPRALAAVWDHSSFRTQLQARLGRTALFVATTTYGGT
+AAALLTIERVNRIHAHIRGTLPDGTPYVANDPELIRWVHLGETTSFLRAYQDLSLQPLPT
+NRQDLYFAEMAQVGQRLGAIDLPMTRHQALTQLQAYRPELRVDERTRETIALIEHYPCAP
+LDRPLVSLIVRAAFQMLPDWALEMLGREPSCPLEQAAVRTALQGMGASLAWAFADTGVAA
+RARQRMDPAMTSQAFKAAGSSLGT
+>tr|A0A0P0MC18|A0A0P0MC18_9BURK
+MNTPSEPRTKRLTLVLRQLWQSVFGVADVGLSSSGGVARKSANWVPIRSLSPRHKPRIAR
+HLRALPAQDRYLRFGYAATDEQIDRYVAGLNFTRDEIFGVFNRRLELVAMAHLAYSVDPQ
+WATCAEFGVSVSPHQRGKGLGAQLFGHAVMHARNQGVSLLFIHALSENVAMLKIARHAGA
+AVQRDGSESEAYLSLPQATLDSQLSGLVQEQMAELDYQLKMQANQFRQWLATVQEIRQGV
+RDARHTSRGP
+>tr|A0A0P0LAI6|A0A0P0LAI6_9BURK
+MRWIDRIPMLWLVGIAVYLAGAPFVPEPHLVEKWRMLLQGSLSKPIDIFDFFLHTMPMVV
+LAIRLWRDAKRRRQGKD
+>tr|A0A0P0LCA2|A0A0P0LCA2_9BURK
+MKKFLNAPLDARTQLLSTVRMRGWEPLIWLLAFALPLLVPGHALIVNEVAIVALFAVSLD
+LVLGYTGIVSLGHAAFLGLGAYASALFAKHVMPDPLVGLLFGMGCATLLGALCSLTILRG
+TDLTRLMVTLGMALILMELANKLDWLTGGSDGLQGVMMGPLLGRFEFDLYGQTAAWYSLT
+VLLVLFVLARRWVNSPWGATLMAVRDNPLRAMAIGIPVHNRLAVVYTVAAALAGAAGALM
+AQTTGFASLDVFALERSADVMLMLVIGGVGWLYGGVVGAVVFKLMHDVIAGITPQYWTFW
+IGLFLVVLVMVGRERLIRPWLWFGRSADHKGGAQ
+>tr|A0A0P0LRQ5|A0A0P0LRQ5_9BURK
+MRQAPNSNDFIVLIPARMASSRLPNKPLADIAGLPMVVRVAQRAMLSQARQVVVAADDDR
+IVAACSAHGVQALLTRQDHVSGSDRLAEACQLLGLSDEAVVVNVQGDEPLMEPSLIDQVA
+QLLSERPEASMSTAAHPISQLADFCNPNVVKVVTDARQMALYFSRAPIAWWRDGQSAADP
+GGAQFTELPSPAPLRHVGIYAYRAGFLAQFPQLPPAPIEQLESLEQLRALWHGHRIAVHT
+TEHAPGPGVDTPEDLQRVRALLGA
+>tr|A0A0P0MA10|A0A0P0MA10_9BURK
+MALSECKFDEPIIAIDAHIAGLLFLSGSHLQKGLSADRLRCDGGVFLRRGFRSSDTVCVS
+GAQIGGNLDCSGGQFASETGYALSADGAVIKGYVFLHKGFKATGEVWLLGTQIGGNLECS
+GGQFEQKDGHSLCFDRSVINGNVHLNKQFRATGTVRLLGTQIGGNLDCSGGQFSAHGLII
+QSATIQSNLFLRDIADPVSIDANSARIGVLEDAPTAWAKGSILNGLVYKSLAGIAHTDAA
+HRIAWLKKQRHEDLGEDKKKQGFRPQPWKQLQKVLCEMGHEADARLVGIAFEDQLRLADR
+IGQITDISKAQNIIPIVRRQCLRGLHWLFGTLAGYGYRPMRLFMSVVVVWLFCAAVYWCL
+SLPPYNAIGPTDPVVYQHAKYATCTDKEKGNWMLCEALPAEYSTLSPLAYSLDILLPLVD
+LGQEKSWGPLVPTPERHFCVELFTFSPAHWVRLLNWFEILYGWVASLLFVAIVSGMSRRS
+EMDK
+>tr|A0A0P0MBN2|A0A0P0MBN2_9BURK
+MLQVTKPTPSHFGIYVWDVDKMVNFYTSVFGMVVNDRGVGKTFKAPLVFLSSTPDQHHQL
+VIAGGRPPEATFSTVMQLSFAVPSIQSLRDLRDKAMALGATKVMPMNHGNALSVYFADPE
+GNTVETYIDMPFYISQPHGDPLDLSQDDATILRETEAICRSDPSFMPIDQWQAQFLQKI
+>tr|A0A0N7J8Y2|A0A0N7J8Y2_9BURK
+MYVFFEDAGKFMAGRIMSEAEASAQVELDSGKRVKVKSAHMLLKFEKPAPAVLLSDATAL
+SQTIELELAYECAPEEEFGFGDLAKDYFSASASTTEQVAALLCLHDAPHYFRRGGAKGRF
+RKAPAEIVQQALLAIEKKKQVQAQIEAWSADLIAGICPEPIREQLYKILFRPDQNTPEYK
+AVVEASKSSQTAPLDLLQNAGAIASAWDFHWQRFLFDLFPKGTGFPPLQAPAITDDLPLA
+SVQAFSIDDSHTTEIDDALSLQGLGTGMVTVGIHIAAPGLALQPGSPIDQLGRARLSTVY
+MPGYKITMLPDSVVQAYTLIEGRDCPAVSLYVTFSEDTLEVQSSVTRLERVPILVNLRHD
+QLDDRITREWLEGVDQSDHADVPVSRHTLAFFWRLAQTLKARREVVRGKPENFNRPDYSF
+KLERDHNDTPPTGDETVVIGTRKRGAPLDLMVAEAMILANSTWGQWMAQLGVPGIYRSQA
+SLAPGVKVRMGTKALPHAGIGVPSYAWSTSPLRRYTDLVNQWQIIACAQHGATAALAAPF
+KPKDAELFSIISGFDAAYSAYNGVQSSMERYWTLRHVQQQGIEELDASLVKEMGAGTWLV
+RADTLPLMFSVLGANNLPRGARVRVKLSDVDLMALDVRGTVIAHLDAEGQADSDEAEQDG
+EDDDNLPAGPVTIAVDLNDNTPSNAP
+>tr|A0A0P0M7R7|A0A0P0M7R7_9BURK
+MASSPKPNSKPECWRTEVGDAVAVLNIPGALKRARTFDIDVSLLVRVPEDNAEAWHALTL
+EIDGKQQWHRSIASHCPGQTDGLDYHCRVVLEAGPALRIRAVAGTRGSVVQRLQIEARED
+L
+>tr|A0A0P0MAE0|A0A0P0MAE0_9BURK
+MATLEQLLQALQSVIDPNTGKDFVSTKTLKNLQVEGGDVSFDVELGYPAKSQIPGIRQAL
+IAAAKGVAGVSNVSANVTSKITAHAAQRGVALLPQVKNIVAVASGKGGVGKSTTAVNLAL
+ALAAEGAKVGLLDADIYGPSQPMMMGIEGRPESEDGQTMEPMENYGVQVMSIGFLVNQDE
+AMIWRGPMATQALEQLLRQTNWKELDYLIVDMPPGTGDIQLTLSQRVPMTGAVIVTTPQD
+IALLDAKKGVKMFEKVGVPILGLVENMAVHVCTNCGHVEHIFGADGGKKMAAEYGMDYLG
+ALPLDMQIRLQADSGKPTVVYDPDGEVAQIYKAVARQVAVKIAAKAKDFSSKFPTIKVSK
+DT
+>tr|A0A0N7J8Y5|A0A0N7J8Y5_9BURK
+MSPDLPTEALWLLTGAAAFAAGVLNAIAGGGSFLTFPALVFAGVPPLAANATSAMAVSPG
+YLGSVLGFRSELQTLPRALLHREVAIAAVGGLIGAGLLLVTPARVFSGLVPWLLLLATAL
+FAAGPWLARRNSGQGHPAWRLPGLMGVAIYGGYFNGGLGILLMALYTLTGESRLNTVNAL
+KNLNSFVLSLLSVAAFAVAGAIVWPQALWMMALATAGGWAGARLAKRLPVHWVRWLVIGT
+GLMMSVVFFTRTG
+>tr|A0A0P0MA76|A0A0P0MA76_9BURK
+MNADWFTADASAGRLVSGSISAPLTAGEVVKVYANGTLIGNAVVNGQQWEITDLNGYNAG
+WTYTAKVVDSAGNAGATKTQVVNGDFTEAAPVITSVTDAGSVAVVNNGTTTKTLSSVSGT
+GNAGDTIYLYDNSGTNLVGTATVSGSGSWTVSPLAGVYTGSNTFSAKQVDTLGNESVLSN
+LWTVTAQGNNQLVNGDFSNGLTGWDTGDVTVNNATTSGQNFYGGPDQAGIFPASYIGGTI
+TNRGTGQLNKTATSASGTMTVTGPVDTNYAGNPDGRFQGNVFGWNDQVTSGFTKFLSQKV
+SVETGKTYTFTFDAQGWQLADARVYLGETFVNYAFDTVSGSQSWYYLGKITGTFVAATTG
+LIDFAFSTENQGDLVLDNLTFSTSATAPNSLVAGGTAPATPGNDTALAYTSGTLSSQAGN
+DVITAGTDIQTKLAAGGFINGGAGVDTLKLAAGTDLNLETLTGNQTVKPIQEIEVVTLQG
+ASTLTLSANDVLSLGGTNTGTTVGTSTSASPMAPYGFASTTGGTASTSSAGKVQFVVNGT
+TTDALVLDPLLQDGFTTNGAQGNTGLSGQWDYMGTASVNSVTYKVYNHSTTNAQVLTQMD
+ATIHSNEIAFSSMTKDSGPAGETADWLTADASAGRLVSGTVATPLAAGDVVNVYANGTLI
+SNATVNAAGTAWEITDPNGYNANWVYSANIVSGGVTSATAYQPVRTDLTEAAPVITAVTD
+SANASIANAGTTTKTLSSVSGTGNAGDTIYLYDNSIGNLVGTAVVGANGTWTVADLVTGA
+GANTFSAKQVDALGNPSVLSNLWTVTAAAAESIVNGDFANAAGFTTGLGTSTTGTNYNLT
+TSNYAVQNPTSWSTVVTTNATTGTLPYDFGTWQSTYVLHNTSNTSRLAAVTGNALVGSAV
+GAGTTWSATVDVVKGQAYEFNFDYSVQYATDANTISSTALAVYIDGVRIDVAGSVSQVGH
+FKATYIATETGSINLSTWTDNTRRASPDWHGDYIYDNFSFKPTGVANNNTLVAGTAASAS
+SGDDASLVYNDSPTHGLAGNDTITAGTDIQSKLSAGGFIGGGAGVDTLKLAAGTDLNLKT
+LTSNQTVKSIQEVEVFQMQGGGTLTLSANDVLSLGATNLAGYSFSTTTGGSASTSSTGKV
+QFVVKGTSTDALVLDTLQLDDVTTNGVQGNTGLSGQWDYMGTASVNSVTYKVYNHSTTNA
+QVLTQMDATIHSNEIAFSSMTKDSGPAGETADWLTADASAGRLVSGTVATPLAAGDVVNV
+YANGTLLGTATVNAAGTAWEITDPNGYNANWVYSANIVSGGVTSATAYQPVRTDLTEAAP
+AINSVLDSASVSVSHTGSTANAIATVSGTGAPGDVLFLFDNSSNNMIASTVVSANGTWSV
+SGAGVGSGSNTLAAKQVDSLGNQSVLSNLWTFNSQGVNLVPNGDFDTTANFSTDVPFSTN
+LPNFSDFVYTVAAGASVWGTPTVTAPALTRSTTSTGVSSGGSTMSWFTDNYSSPRTPMAS
+DFNATRAAVFGGDKVMVGSVNGTQGLVTLYKSAAFNVVKGQTYEFSFNYYTDDWSTQTIK
+ATIDGIGMTLPSRVGAGETVLNVGTLTATYTATETKSIDIHMTANNIGNGASGGDFTLDD
+ISFKLLTPTVDNSLAAGGSSPASIGSDTVTFSGSLVSTLAGDDTITATSTALQTVLAAGG
+FIDGGAGVDTLKLAAGTTLDLTAITSNQTVKTIQEVEVLQMQGNSALTLNANDVLSLGGS
+NASTMSAYTFASTTGGSASASSTGKVQMVINGTSSDALTLKALAQDGVTTNGAQGNTGLA
+GEWTDMGTTVISGTTYRVYNHSTTEAQVLSTVNASLPNNVIAFSSMTKDSGPAGATADWL
+TADASAGRLVSGTVATPLAAGDVVKVYANGTLIGNATVNAAGTAWEITDTNGYNTSWSYR
+ADVVSSSNVVLSSTTQAVATDFTEAAPVITAVTDSANAAVGATGANASNLNPTSNVLSSV
+SGLGNAGDVIYLYDNSRSNLVGSTVVASNGTWKVTGLTGTFTGANSFSAKQIDASGNESV
+LSNLWTVNAAGNNLLVNGDLSDGNTGFTSTATAVTAVNFYSTSSVYSVVTSDSLNVVKTL
+GNTNTTLSNQATSANYLTWGKTFLTDAAYTANPDNAIKGKYIVGNAANAATLWEQSVSVA
+AGQTYTFKFDYALNKFLTTKMNATIDGVNIVFITGANTESGHFVATYVAPTTKTIVLNVK
+GDNTAGGSGYGDYWLDNFSFSKAGTGNTLTEAATEPATPGNDTDLPYTSGPLNALAGNDT
+ITASSASVQNVLNAGGAINGGAGLDTLKLAASTTLNLVTLTSNQTVKSLQQIESFELQGS
+STLTLSANNVLSLGATDAFTGTAGKVQLLIKGTATDNVSLQNLLSDGAGGNSGLAGMWAK
+EASTATVGGLTYNVYSHSTTGAQVLISAAIPDSNVSLAASPLALDLNGDGVQTLNIDEGV
+LFDLMNTGTAQKVGWLDRNDGWLVMDLNQDGLVNSGAELLGTSTKLADGSLARDGWQALA
+QYDLNTDGVIDAQDAAFADLKVWVDADSDGQTDAGELRALYELQIQSIQLNYNDEQTAQN
+GNVLDGFSTFTTSDGQTHEMVDAWVQTATASANADSGVVTAENGEVLQLNQLLSTEASAD
+TWSQAPTALPASTANDTLQAMLDLHTQHTTM
+>tr|A0A0P0MA87|A0A0P0MA87_9BURK
+MRISELSAKTQVSVHRLRRYEAAGLIVSQRLPNGYRDYDEKTVRLVVFIAMSREMGFSLP
+FIAEYVPKFQSGQLTPQDMIEAIQQRVADIDQVIAEHQALRKKLIDHIGWFKNKQRKSK
+>tr|A0A0P0M9B0|A0A0P0M9B0_9BURK
+MLKIAGICLATTGLVLFSSPTWAQGSPAKGCFVAHFKSLALKTHNPQQRAELAEKWLKQN
+TPSCTQVQLSSMQANSPNWLGTALTHDISSILEGAIEASIAGNPELMGRLYESVGKEGQS
+GSVTMTDPVARAPVVQPMVNNGVIAGSANYGTMSGNTNVNPTTNNLSNTNSNSNTAASST
+VNDSPNTTVVQGAAATAAATGRPSAPR
+>tr|A0A0P0M9W2|A0A0P0M9W2_9BURK
+MSLKPVSNFLSPKSWLRIAVLAFSVGLVTIVSGQLSLAYAQNAKQTPSNAQKSKKNSAKS
+AGPHKVQNAKNSGPSKNKLAKSADRKPTTAKATLNTRNFKATDNARPIRASFGQMAGLHA
+TSDALGLHSSVALVVDQQTQEVLYSKNNHAVLPIASLTKLMTGLVIAEANLPMDERIRIT
+QDDVDTEKGSTSRLAVGTELSRGELMHLSLMSSENRAAHALGRTFPGGMDTFVNRMNQRA
+RALGMKDTRYVEPTGLSSQNQSSASDLAVLAAKAYDEPILRELSTSHGREIAVGRKTLQY
+NNTNGLVKSPQWDIGLQKTGYISEAGRCLVMQAQVAGRNLIMVFLDSAGKFSRIGDAERV
+RKWLEQKSSMDNRSLETMTQMPG
+>tr|A0A0P0M9Y8|A0A0P0M9Y8_9BURK
+MSPIQLALMIFGLMLLLMVVRVPIAGAMFMAGSVGFVVQAGVPPFLNFLNNLAFARLANY
+DLSVIPLFILMGHFATQGGISKALFQFAAAVMGRFKGGLAMGAVLACGAFGAICGSSVAT
+AATITGVALPEMKRHGYSGRLATGTLAAGGTLGILIPPSVPLVIYAILTEQNIAKLFAAA
+MMPGIIAMVGYMIAIAIYVRLVPGQAPDQEERERLTFESLKGILPIATIFVIVFGGIYAG
+FFTPTEGAAVGAASTFLAALLKQELTWKKFIQCFHSTAISSGMIFLIFMGADVMNAALAR
+TQVPAQLAEMVVAMNFAPLMVVAGILLLYVVLGAVMDELSMLLLTIPIFFPIIMKLDFGM
+TPEYTAIWFGIMVLMTVGFGMLAPPVGLNVYVVNGMAKDVPLSESYKGIMPFLISDTIRT
+LLLLFFPGISLFLIKYLT
+>tr|A0A0P0MAA9|A0A0P0MAA9_9BURK
+MSAVLNVPEAASALPKPHLTRARAPLTRSVTVTNEFGEVSETQIPAERALTIYLDKKELV
+TLMTLGAEPEWLVLGFLRNQRLIDSVDQIESITVDWTIGEGEVGVPGVAAVKTRANAQVV
+IERSAERVVTTGCGQGSVFGDLMAHIDEIELPPAQITQSQLYGLVNAIRLQETTYKSSGS
+VHGCALFQGEEMLKFVEDVGRHNAVDTIAGWMWMHDVSAQDKVFYTTGRLTSEMVIKSAQ
+MGVPVVVSRSGITQMGLDVAKRLGLCAIGRATNKRFLCFSAPERLVWQPELLTPPG
+>tr|A0A0P0MB13|A0A0P0MB13_9BURK
+MNPTANKDTVLNVSGISKRFGGLQALSDVGITIQRGQVYGLIGPNGAGKTTFFNVITGLY
+TPDSGTFELAGKPYQPTAVHEVAKAGIARTFQNIRLFAEMTALENVMVGRHVRTHSGLLG
+AIFRTPSFKAEEAAIAQRAQELLDYVGIGKYADYKARTLSYGDQRRLEIARALATDPQLI
+ALDEPAAGMNATEKVQLRELIDQIRKDNRTILLIEHDVKLVMGLCDRVTVLDYGKQIAEG
+TPADVQKNEKVIEAYLGTGGH
+>tr|A0A0P0LFJ7|A0A0P0LFJ7_9BURK
+MIFTHSTSEVLVKDFLKALEVQRWDDHRYYHHCRINQSLHLLSASAFVVAYGMLWIDPAM
+AALLAWMVSMTSRQAGHFFFEPLGYDHVNEATNDFKEEIKVGYNLRRKVVLLSVWAVLPL
+AIFMNPGFMGLLPVHETWFEFLRAVGYAWLYLGVAALLFRTVHLFFLQDVQTGLVWMTKI
+ITDPFHDIYLYHKAPWQLLRGERFADSKLHAGR
+>tr|A0A0P0LJ96|A0A0P0LJ96_9BURK
+MQAPLPFFMTRLAAWLGVALVAVLVFWLLAPVLAPFVIAAVMAYVLHPLVLRLEGLAGRR
+LPRALAVVLVEALALLALLGLFLLLVPILVREWPLLQQQLPLLFDRLSDAVNPLLAQSGL
+NVSLDLADLKQQLVTYLSANREDWWAPLMSSLKLGGSVALALAGYAVLVPVALFYMLYDW
+TRLVSSVIELVPPAWRERFDGFMRDCDEVLGEYLRGQMLVMLALAVFYSVGLSLFGLDLA
+LPIGVFTGLAVFVPYLGFGLGLVLALLAGLLQLAPSQALLMVAVVYGLGQLIESFVLTPR
+LVGERIGLHPLAVILALMAFGQVLGFVGVLIALPASAVLLVGLRRLRAQYLQSDLYRKSG
+SGAVEQGPDQP
+>tr|A0A0P0M9K8|A0A0P0M9K8_9BURK
+MFKQFSSLGIALKIMVAPAIISCLLLIFGLYSHWNMSVTQSQIEELNQATQAERSAQELQ
+SIIHQTHASVYRSFSMIAMKQPDQAKELMTQRLQAVDEMIRMYDADEELKKDIQIEPVKT
+YFTNAAEAFDAALSDPNLGAMMMQSADDSYDKTITMLQGVTSVSRIKANNANDQFLQNLE
+FMKRTQSLVLLVAVALGLFVAYLAGKRIAKPLLLMKEKLVEIANTGRFEQRIAVMSRDEV
+GQTAEAANALMGNLQSSFQSVNSALKGLAAGEFEAKIDTRLQGDLGDMMLAVQSTVESVR
+NTMNGLDQMMSAMSHGNFSGDMDIQAQGAYKRTANQAQTTIVALRDMLGDVGRVLDKMAS
+GDLTARVTAQGEGDLAKLKTNINSTLESLSKAFGLIHHNARQVAAAASQSSQAIGQISDG
+AQNQTHAISQVSAAVRQTAESVSDVSQNTEIASQKSRQSVTVLRDGLAKIEKMVEVVNNI
+ASNSEKINKITDVIEKIANKTNLLSLNAAIEAARAGEHGKGFAVVADEVGKLAVSSAESS
+KEIAALVQQAVLDTVKAVSAVKEVSHDMSQIELGTQETDQMLMRISQALEEQNNAVREIN
+QNLTNLDGISRSNSAASEEITATVMELSKLADATRHQAERFTV
+>tr|A0A0P0MBX6|A0A0P0MBX6_9BURK
+MTKTFTRRMALATLSSLALMGTAQAQTAYPSQPIKFIVPYPAGGATDVLARMVAQKMQDN
+WQQNVVVDNKPGAGGTIGANLVAKGPADGHTVLFSIVALLQQISLMKLPYDPIKDFTPIS
+RVAISPSVFAASTSLPVNNLADLIKLVKASPGKYSFGTYGPGTSAHLQGELLNMQTGMDL
+LHIPYQGAAPLVTAMLGGQLSTAFMDAGSSRQHFPKFKLLGVTGTERLSWLPNVPTLKEQ
+GLNSFEPLGWFGLFLPAATPKPVVDKFSVEIQRILKLPDVREKIEAMGLIPGGDTQENFA
+KVIKSDAEIYARIIRDAKITLN
+>tr|A0A0N7J907|A0A0N7J907_9BURK
+MSTLLQIEGVGKSFGGLKAVQNVSLSVTEGRLSALIGPNGAGKTTLFALMSGFLTPDTGR
+VVFAGQDITGQPPHLNARMGLTRTFQIVQPFAAQTVRENIAVGAHLHLPRRAQALEFAES
+VAQQVGLSPQLDKLASDLTVAGRKRLELARALATRPRLLLLDEVLAGLNPQEIAEMIPVV
+QGIAQSGVTVLMIEHVMQAVMSLAQEVWVLAQGQLIAQGTPSEVTNNKAVVEAYLGHGTA
+ERLQKNVAQAQTAQEAQA
+>tr|A0A0P0LV39|A0A0P0LV39_9BURK
+MTAQERDQLQQFLAALRQQRSHPKDTLAEGLIRDALAQQPDAPYWLVQRSMALQLALNAT
+QDRLAQLQAQCDEQAARWQALASDASPTVAQANKPADGGAQVVPLTQSQPSPWGRGLLAQ
+VSGTALGVSAGVVAGGLLLQGLDGLFGPAAAPSGVAQGSASNLSSTDPDAGDGLWDLGDD
+WA
+>tr|A0A0P0M922|A0A0P0M922_9BURK
+MRSLYLSIEKWTTAFSMLVACLMLALAACLGMLQIFTRFVLEVPVEWTEVIIRFSLIWMV
+FMGIPMAFRQGAMVSVDVLYRWSGPRMKKVLDTAVALAALTLVCIIIWWGWDYANRGKVQ
+TMIGLEDVSMFWAYMALPVGACFSVISIIGNWLDPQRLELETAQ
+>tr|A0A0P0MAG8|A0A0P0MAG8_9BURK
+MFQGASSLSLDAKGRLSVPTRHRDVLSATALGQLTITKHPHGCLMVFPRPEWEKFRDRIA
+ELPMSAQWWKRIFLGNAMDVEMDGTGRVLISPELRQAAGISKDTMLLGMGNHFELWDKTT
+YDAQEAQAMQGDMPDVFKDFSF
+>tr|A0A0P0MC00|A0A0P0MC00_9BURK
+MSLNRSEKEAVISEVTDLAAKAQTLVMAEYRGITVADMTNLRVKARSLGVSLSVLKNTLA
+RRAVTGTQFEVVADQMTGPLIYGFSEDAVAAAKVVADFAKTNDKLVIRAGAFAGKALDVN
+GVKQLASIPSKEVLLAQLCGLLMSPMSRTAVVLGALAAKKGEGEAVAA
+>tr|A0A0P0M6Z7|A0A0P0M6Z7_9BURK
+MNPASSEEGAQPSEATRNRVTLAPMSQDDLDAVIAIEQTAYSHPWTRGNFRDSLNPLFEA
+QCLWLDGELLGYFLAMHGVEEMHLLNITVAPARQGQGWGHMMLDALSLMSRHAGAQWLWL
+EVRQSNLRALKVYERYGFKQVSIRKDYYPAGRLQREHAVVMSLKL
+>tr|A0A0P0M804|A0A0P0M804_9BURK
+MRKYFELKKSLGYFEVIGVILNNHEKINQFLQNFHIFSSFVYYIDVLVEKDDLLIIHDKY
+GKLIGMACIKKDELNKDVGRLIFFWAEVGSGKFFLQLMGDKFNHKHKNIYYFRVKNGKRI
+RKLLGCEDVTSFMRSRQLPSGEDAIPFLQTSAARDFYLPTYNSQLAFAQCVGEMALLMAH
+TPVAAASPYRPVMERIQTCAQLEQRRIYASTDGTKTGLLTWAWLSSSRLLLDTFDTNALQ
+AFEWSEGPHLAVVDVVVSPETESMVWADLAGQLYPDEDIWVLCQAEGKTYFKKWSKNQRS
+ELLENSQARTSIAFGTWKNISMEPSCTQ
+>tr|A0A0P0MAS4|A0A0P0MAS4_9BURK
+MSNQSYQFAQVSGPSVQWRLKRNCSVTPVQLGWMYLSLCTVSLGIGVFFWMQGATLVLAF
+AGLEVAVVGLAFLAYARHAADGEMISLQGSNLVVELETAGRLERAEFSRQWVRVEPKSGD
+QSLIELSGQGQTIEVGRFVRPELRQVLAREIRKALRSA
+>tr|A0A0P0LF60|A0A0P0LF60_9BURK
+MLQISPSSRTDKLWPGAWAALLGCAAAASVVFWVLKFPSGSAVLNAPVVQSPSQTTAAAT
+VQPSIHMARALGVQAPVPEVSIAQSSRFQLWGVVAGASGQGSALIAVDGQPPRAFRVGQT
+VTEGVVLQGLGPKQAQLGATVQGAPLFSLNLPGADKQP
+>tr|A0A0P0M8N3|A0A0P0M8N3_9BURK
+MSSAWTLADWLQYLLSFGLVIGLLLALLWTLRKLQNGAVLRKSFQRMQLVETLSVGPRQK
+IVLIQVDGREVLVGITAQNMTALPLEPVNGSSDESPAKNTTP
+>tr|A0A0P0MBT6|A0A0P0MBT6_9BURK
+METTRIELFEMVWETPMIHLAKKLNLSDVGLRKICKKQGIPLPRSGHWTRKQLGKEDARP
+ELPYPNHNPTINLPDEVQAEQNRSRGAIVKAAKKPPEQPQLRTIEQLHDLRCIKTAEGIK
+AHIKAIEKKISQSFESAMHQPAKWPPTTLFEFSYFHSRQEQIPIVATAKNAIRALCIADE
+IIERLEKQGIEVILEPRRNYFRYAMYAQKEGVKYELADSSTRCNKDKPGDGWLRMSRHHG
+HSNRQVQVARCTSTSAEKNDTKFTAS
+>tr|A0A0P0M6U3|A0A0P0M6U3_9BURK
+MSEKKSQALVVAHDLAKTFDVSAPWLNRVIERKPRQLLNAVDGVSFEIERGKTLALVGES
+GCGKSTVARLLVGLYEPTRGGLTFDGQDAHAAFKSSNAKAMRQRIQMIFQDPYASLNPRW
+TVDNIIGEPLKEHGLISDAEELKARVAELLKSVGLSPLDMVKYPHQFSGGQRQRISIARA
+LATAPEFLVCDEPTSALDVSVQAQVLNIMKDLQRERGLTYLFISHNLAVVRHVSDQVGVM
+YLGRLVELADKHTLFGNPQHPYTKMLLDAIPKMHDTGRARTPVQGEVPNPLNPPSGCTFH
+PRCPQATDICRAERPALRDFKGIKIACHAVV
+>tr|A0A0P0M8F9|A0A0P0M8F9_9BURK
+MTSNNLFRPEVMQARQAAWLGGIRVGHKPKFSAVAGVALLLAGCLVTFAVWGQVARKSRI
+PGVLMPLQGTVQLSANAPGVLTEQWVQEGEQVTAGQALFVLGTDRPTAEGSAAVLLAAHL
+AQRRSTLEAERSARVQQTRQRDSALQDRIRALDHEITQAQQEAVLASSRVALAKKTLSRY
+QQMAQEGFVSDIQAQKKQEELIDLQARVENTQRNAATLQREQQSLQAERQANQRQLDIDL
+SQLDRALAGLAQEGTENQSRQTIVITAPQSGVVSSIHLPKGASVQAGQSVATLVPLDASS
+QGKTELQAHLYAPSRTAGFIQPGQIVWMRYGAYPYQKFGLAQGRVQYISTTPTAPQDLPN
+GQGAALQTAAQTQEPLYRIHVQLQEQSITAYGDNLPLKPGMTLEADVVQEKRAVWEWVFE
+PLLAARQKVKVL
+>tr|A0A0P0MA67|A0A0P0MA67_9BURK
+MVKKIKKVVPPFPFEAYSHVLSPIAAEDGGGFMFTMPDIPGVVADGETMDQAMSDGREAF
+EATVSTLLDLGREVPHPTLRSEDFTPIAASGKFVSRVPRSMHVQLVARAKREGVSLNTLV
+LTLIAEGLGRGSAHAV
+>tr|A0A0P0MA55|A0A0P0MA55_9BURK
+MLNVAIKAARAAGAIINRAALDVEAVRISQKQVNDFVTEVDHASEKVIIETLLTAYPDHG
+ILAEESGREFGNPLADHIWIIDPLDGTTNFIHGFPVYCVSIALQVRGKIEQAVIYDPTRN
+DLFTATKGRGAFMNDRRLRVTKRIRLQECIISTGFPFRKGDNFNQYLRMMGDVMQRTAGL
+RRPGSAALDLAYVAAGFTDGFFETGLSPWDVAAGSLLVTEAGGLIGNFTGESDFLEQKEC
+LAGAPRIYGQLVTILGKYSKFASAGDKANVRTAVDALSRERTGDTHNPDAEGADAAHSES
+TETANDERKDAPF
+>tr|A0A0P0LR47|A0A0P0LR47_9BURK
+MTDARSKIIYTLTDEAPLLATAAFLPVIRTFTQAAGIDVETSDISVAARILGEFSDLLPP
+EQRVTNNLAELGKLTLNPKANIIKLPNISASVGQLTAAIKELQGKGYALPDYPDAPKNDE
+EKAIKARYSKCIGSAVNPVLREGNSDRRAPRAVKEFARKNPHSMAEWSQASRSHVSHMHA
+GDFYHGEKSMTLDRPRDVKMELITKSGKTIILKPKVSLLDREVIDSMFMSKKALLEFYEK
+EIEDAHNTGVMFSLHVKATMMKVSHPIVFGHCVKIFYKDAFAKHGDLFKELGVNVNNGMA
+DLYNKIATLPQSKQDEIKRDLHACHEGRPELAMVDSAKGITNFHSPNDVIVDASMPAMIR
+NGGKMWGADGRLKDVKAVMPESTFARIYQEMINFCKWHGAFDPKTMGTVPNVGLMAQQAE
+EYGSHDKTFEIPEDGVANITDLNTGEVLLSQNVEEGDIWRMCQVKDAAIRDWVKLAVTRA
+RNSGMPVVFWLDQYRPHEAQLITKVKMYLHEHNTAGLEIQIMSQVRAMRYTLERVIRGLD
+TISATGNILRDYLTDLFPIMELGTSAKMLSIVPLMAGGGMYETGAGGSAPKHVQQLVEEN
+HLRWDSLGEFLALAVSLEDLGIKTSNNQSKILAKTLDAATGKLLDNNKNPSPKTGQLDNR
+GSQFYLAMYWAQELAAQTEDLALQAKFTPLAKLLTDKEKTIVAELNAVQGHPVDIGGYYY
+PSPEKLKAIMCPSATFNAALASAA
+>tr|A0A0P0LS33|A0A0P0LS33_9BURK
+MKISTPFRAASLMALTVCLFNLPAQAGRPLAVDDANVNDKGAGHVEIWVARDSDKINTWN
+VAPAFAPVEGVEIGVSYAKARKSGTAEQAIQAKWRITPSQENGCNVASTLGTVHEKGVGN
+SPYLVGILTCNSAAGAIHVNVTRHNPKDENSFNSWGVAFERQMGSITPHIEMFGDQGQKA
+SVQMGAKTEIAQGLQLDATIGRDRQNRANVFSLGVKQAF
+>tr|A0A0P0M6K3|A0A0P0M6K3_9BURK
+MRSFAPLQNDTFLRACLRQATDHTPVWLMRQAGRYLPEYCATRAKAGSFMGLATNVDYAT
+EVTLQPLDRYPLDASILFSDILTVPDAMGLGLSFAQGEGPRFAKNVRDEAAVADLAVPDM
+NKLRYVFDAVTSIRKALNGRVPLIGFSGSPWTLACYMVEGAGSDDYRHVKTLMYSRPDLM
+HRILEINADAVALYLNTQIEAGAQAAMIFDSWGGVLADGAFQQFSMAYTARVLSQLKTEH
+NGQRIPSIVFTKGGGLWLPEMAGLNCDVLGLDWTMNLGRARALVGGQVGGTGKALQGNID
+PNILFAPPAQIATEVHRVLDSFGTPHTDRSTTGPTHIFNLGHGISQYTPPEHVTALVEAV
+HSHSRKLRQGV
+>tr|A0A0P0MA33|A0A0P0MA33_9BURK
+MEIAIRNIGNSKGVVLPKPFLAQVGLDRQATAIIEVENGTIVLRKPAKTVRAGWAEAAAA
+VSAKGEDALLMGEFGNLEDEELGW
+>tr|A0A0P0MBB4|A0A0P0MBB4_9BURK
+MSSLLGEGLNTPVVGPGTLPDKMPTMLAHSDHTLQLARETLDIEAAALLRLKDRLDERFV
+QAVNMVLAVQGRVVVTGMGKSGHIGRKIAATLASTGTPAMFVHPGEASHGDLGMIKTVDV
+VLAISNSGESDELIAILPVLKRQGVPLIALTGGLQSSLARHADVVLDCSVDKEACPLNLA
+PTASTTAQLAMGDALAVALLDARGFKPEDFARSHPGGSLGRKLLTHVADVMRKGDEVPQV
+GPDAEFTALMREMSNKGLGATSVTDSDGRVLGVFTDGDLRRLIEKGVDLRSLCAREVMHP
+NPRTIRHDALAVEAAEMMELYRITSILVVDAQGLLCGAINSNDLMRAKVI
+>tr|A0A0P0LE38|A0A0P0LE38_9BURK
+MTEMNPWGQRRDFLKAMAAVTGSLPLWAQAQSSWPSKPVTMVVPFPAGGGTDAFARPMSA
+AFAKLTGKQLIIDNRGGAGGTLGAGIAAKSTPDGYNYFMGAVHHTIAPSMYPRLDYDLER
+DLIPLIQVASVPQVLVVNPKKVQAADFKAFLDFLKKNPARLNYGSAGGGTSHHLAGELFK
+LQTKTFITHIPYRGAGPALQDLIAGNVDMMFDGLGSSAAHIKGGRIKALMVSGAKRNAAF
+PDVPCSAELGLPDYTVSTWYGVWAPKGTPADAQARAIEEFRRACLTDEAKAVWANQGAEF
+PNLTGGQFDAFIKKELTKWSQVVKASGAKLD
+>tr|A0A0P0LRW7|A0A0P0LRW7_9BURK
+MKIISAQEHHVLESPTHITLANDVDPRTLDLSGVTRIDLQFPKFTDGRAYSQAFLLRRRL
+RFAGELRATGDVLIDQLVQMQRTGFDVAVLKDGVDASAAQRQLDRFAGFYQGSAVQTQPH
+FAKAA
+>tr|A0A0P0M708|A0A0P0M708_9BURK
+MTDTFLAPQTVRGACPHDCPDTCALLTTVENGRATKVQGNPAHAPTDGVLCTKVSRYTER
+TYHPERLLQPLRRVGPKGSGQFEPVGWDEALDAIAARLKTIAARDPLAILPYSYAGTMGL
+VQSESIAARFFHQLGASLLDRTICASAGAEALTQTLGNKVGMKNEFFAESKLIVIWGSNS
+VGSNLHFWRIAQAAKRQGAKLVCIDPRRSETAEKCHEHIALRPGTDAALALALMHELIVH
+GWLDQDYIDRYTLGWDALKARALQWTPERAAQVCGVPVEQIRQLARDWGTTQPAAIRLNY
+GMQRVRGGGNAVRAIACLPALTGAWRHRAGGVLLSSSGHFPVRRAALQRPDLLGERRPRT
+INMSTIGDDLLRPASPAFGPQIEALIVYNSNPVAVAPESGKVVQGFGREDLFTVVLEHFQ
+TDTADYADFILPATTQLEHWDIHTSYGHTDVLLNRPAIAPVGGARTNTDIFRALAQRMGF
+DDACFAESDESLCRSAIGDAQDFEQLLEHGFASLPVPDAPFAQGGFPTPSGRCEFFSQRL
+ADQGLDGLPDHLPNYELAAPGGRYPLAMISPPARNFLNSTFVNVQSLRDIESEPVLEMHP
+EDAAQRGIHDGAVVRVFNDRGTYHCKARVNQRARPGVVHGLGIWWRKLGLNGTNVNELTS
+QHLTDLGRAPVFYDCLVEVALDATFAPQPTLKAPHA
+>tr|A0A0P0M9G4|A0A0P0M9G4_9BURK
+MLVRLTDAWQDILARRAANSETGAYPAPVRQLLGEMAAAGVLMQGNIKFNGALVLQIFGD
+GPVKLGVVEVQPDLSLRATCTQVGEVADNATLSQMVNVNNEGRCAITLDPQDRLPGHQPY
+QGVVPLFGDRGEKLENISEVLEHYMLQSEQLDTVLVLAADDKVAAGLLIQRLPIEGEGNL
+AGKTDSLMRESVLGQSEDFSRISILTKSLKREELLGLDAETILHRLYWEEPIARFEPFIG
+ETGPRFACRCNRERVGHMIRSLGTEEVEGIIAEQGQVEVGCDFCGAQYRFDPVDAAGLFT
+GLPPDLPAGSVH
+>tr|A0A0P0M856|A0A0P0M856_9BURK
+MTLTDVARAAGVSPSTVSRALRGERAVDPALIERVTAVSDMLGYVPDPAARALASQRSDH
+VGILIPLLSNALFVDLLDAAQTRFRAAGYQTLMGVTHYNPSEEEQLLREQLLHRPAGLLV
+TGLDHNPATRQLMARSQVPCVHLMDLPASDGEAVYCVGFRQTDAGVAMTRHLLAKGRRRI
+AFAAAQLDPRVMQRLYGWRHALQEAGVFDPTLEFLNPAPSSLALGGLMFEQIMQQRPAVD
+AIFFCNDDLAQGALMAALRMGVSVPDQVAIAGFNDLTGSDQMLPPLTTVRTPRARIGEAA
+ADMLLSLMRGEEPEQPQLDLGFEIVQRQSS
+>tr|A0A0P0LHB5|A0A0P0LHB5_9BURK
+MLRGALHPFMKPVARLASLCLLALPVWAVGASLANSDAQDDDLAALHEQRTQEVLRDMAA
+SGSAATAAPPRPLTPTSTEPARPGAGLDHRSFRIREVTPSTKPLTFKETQAGPGGLPLGK
+SGAIYLPEDWLVGDGQPWHYRSAPRAGVAPVAVRSPRVEEAKVIEQAQALMGRVESRAMV
+LIADGAIVEAISTGGIQFNTRLLSASMGKTVAALAAGKAVCAGHLKMDQRVDSLLPGLVG
+KDLGAATLRDVLMMASGTTEPSQGDYVGTLPQEVRHYLEGPGNLEQLLETPRQSTAQRGV
+FSKLKPGERFSYKSRDPHVVAMMIERAVGMPATRWVDEQLLRAFNAEHPVILGTDRSGYF
+HGAAGVVRMTLIDWIRFAIYVDQQRRGDTCFGRFIRDMGTTQIRAPGLMNSIGGYGYLTW
+TDNTLAPNSFWAAGYGGQRIAWSTDPNNQRVFVLFSNSADRHVDQIYPVARAWLALGGK
+>tr|A0A0P0MBG4|A0A0P0MBG4_9BURK
+MSRNTGAFKRIQKNSNKVILTLGVMTASSAMAVDFGPFTLTGFAKAEVSRASNQCSDCQF
+NQGEARHRPWADALADGKKFGTSNGDVTLFQPYLATKDFDLGRGFKIKGLVSQRWRDGKE
+DIPGIWYEKNATLSHEDYGSVQVGAFPTRSWSVADYPYGTNVGIADSWASSGAGYGLLQR
+AVRVGLPLMDVANGDFHVELTYDAGDANYKVRKPEFFELYAKYVKGPLMIDAIAQTGTNG
+QALAWGHAPFVAATTQTPFVGQDQRPLLVDGNKQSILMMMARYQFNAKTDLYGGIRHNRW
+SGTKAVVTGYVAPNALWNDMFNVDGVDAVANKAYSASSTDISLGAVYRFAPKWNVNTGMV
+YLGKASTKNPVERGQSNTMLLNTVGVGYEIQPGFSVYGFAGMVNFGKKGLAPLSMPGHAA
+FTGVDSRVAKSGNWMGAGLVYTF
+>tr|A0A0P0LGT2|A0A0P0LGT2_9BURK
+MAVIPTPMLTALQVMQDAPVIPVIVLNDVAHAVPMARALLAGGIRMLEITLRTPQALACM
+EAIANEVEGAVVGAGTVRSPQDAAAAVKAGARFAVSPGYTPAVGQACKDLGLPLLPGVAT
+GSEIMMAQENGYTELKFFPAMQAGGPGMLKAWSGPFFDVKFCPTGGVTQQNANDLLSLPN
+VACVGGSWLVPADALAKGDWARIEALAREASQLPR
+>tr|A0A0P0M7A7|A0A0P0M7A7_9BURK
+MPVYSMTGYASVQHSPQAADGETPANAAPTARLGLEIRSVNSRFLDLSFRLPEELRQLEP
+GLRELITRQIKRGKVEVRASQDAGDGATLQAPNHQALQKIAALQDKIQDWLPDARPLSVA
+DVLRMSAGSSGQAAPDEAAWMQLAAQAVDALREARAREGARLTEMLQGHIEQLRGLAEQA
+VPLVPQLVEQQRQRFLERWKDAMALADGSHLPEAAKDRALTEATAFAIRIDVAEELTRLR
+SHLDELSRLLTQGGDIGKRLDFLIQELHREANTLGSKSAVLEMTRISVDMKVLIEQMREQ
+VQNIE
+>tr|A0A0P0LS98|A0A0P0LS98_9BURK
+MDALIPVAVVLASYLLGSLSFAVIVSRLMGLNDPRSYGSKNPGATNVLRSGSKKAAILTL
+LLDAFKGWLPVAMVLAWGPEYGLGPEIAALAGLAAFLGHLYPVFFGFVGGKGVATAVGVV
+IGVHGTLALATVLSFAIVLYFSRYVSLASMVAAVFAPVFYLFGDGVAWQATAAEVLSLSA
+MALLLVWRHRENIHRLLDGTESKFGGKKP
+>tr|A0A0P0M9J1|A0A0P0M9J1_9BURK
+MPHVVLVITKGEAGGAQTHVLELCRALQGRVRFTVVIGGDDTRSVLGQALNQLGITVLVL
+PTLQNSLNPLKVLASVRALLAHLRVLQPEVIHAHSAVAGVIARLAGKLRQFPVVYTVHGF
+GFKPQAPWLIRTNAWLAEAVLAAWTTRMVCVSAYEKELAARLPMPPERVSVVHNALADVP
+WRSDMAAQPPRLVMVARMAAPKRPDVLIEALALLAHRGLQPDTHILGGGPDLARHQAAAA
+PMPHIRLEGDVNDVAERLAQHQIFVLLSDHEGLPISILEAMRSGMAIVATRLPGIEEMLT
+HEQSAWLVPNTPQAVAQALQTLLADGPLRQRLGQAARDRYEAQFQPEAMAEPVLSLYQQA
+PLMHTARWPMTRPRRQTQQLASQQANRQSAHLVWSLLGLAMIGLAYAISQALMARGLATV
+DFGRTVLASLVPYALAAHLLYRGAHMPAAERGPLLLVTTGLPFWLTPLAFALLQQPYSRG
+ALLLTYVLCTFWFWLADQWFLRHRPWRLVYQDPRVPGLLAPWLPVPQGQGLPRIRLLPWP
+AQGMPPGAALACDGAVVLPAAANTGTSSASANSAPSSAERHHFLTALKLQHIRLYSPESL
+QQSLTGRMAAETLQNELWQTDGNPAYDLAKRLIDVGVVLALLPLWLPLALLVACGVKIDS
+PGPALFSQRRTGMHGQSFRIWKFRSMRHEAQDTPQFAQTNDPRITRFGHWIRRTRLDEIP
+QLFNVLMGHMSLIGPRPEQDGFVQQFAEQMPSYPYRHLVRPGLTGWAQVQQGYAASADET
+AIKLSYDLYYITHYSLAMDLLIVFKTIQTVLTGRGAR
+>tr|A0A0N7J8G0|A0A0N7J8G0_9BURK
+MVRIDMGSLTPRERLYNGLVFACLSWVLVMPGGPKLLVLCLAGMGLWSIKDLRVDLDRVW
+DRPESRIMALGFAVFVGVGIFLGLWYGYKPGYYEAFIPFLLAPLMLHGVLKARLQPVVLW
+LGAATAAVLAGAAASYESLVLLSGRAMGAMSHPIIFGDLSVVLACIALFGLLYFEQAKNQ
+LWMRVYLSFGAAMGVWGSLLSGSKGGWLSIIMVLLVFVWRVTAGHPVIWRFLGVVLISVL
+VAKGVWLAPEDLVRGRLEGVWGKAHLWFETGQVTDWSVSIRLELWSYALQLFAERPILGW
+SGEGALTLLAEHLKPFNVPTGIAPVFENDLLHYAAVSGLVGVLSVLALYGGVFVGFWRFQ
+KLGAKTFAYALLGMLLVALYFEFGLSVNTLGRNAFRYFFCAMSTMLLGLILLATKDNKGS
+AWN
+>tr|A0A0P0LHI0|A0A0P0LHI0_9BURK
+MKSLSLMAASLALLGLSGAAQATTVVNQAITEAEVRNAQAAWCKALVDISTTGATQGQAA
+AKALAEKVIDAAYGYQMGAVLFKPTLTVAPQTFRTTRAGALAYFVGGDSNFPKDTGFALK
+GWTKCESKNAAVFIAGDSASSMGNVMITDRAGKVTTVDKTWKYVKDDAGQLRIVLHHSSL
+PYSGT
+>tr|A0A0P0M786|A0A0P0M786_9BURK
+MKFQGTENYVATQDLMLAVNAAITLKRPLLVKGEPGTGKTMLAEEVSQALGLPLLQWHIK
+STTKAQQGLYEYDAVSRLRDSQLGEEKVKDIENYIIKGVLWQAFTSETPVAILIDEIDKA
+DIEFPNDLLREIDRMEFYCYETRQLIKAKTRPLVFITSNNEKELPDAFLRRCFFHYIKFP
+EADTMRQIVDVHFPTLKKDLLALALKTFYDVRGLPGLKKKPSTSELLDWLKLLVAEDIPL
+EALQSADQKVSVPPLVGALLKNEQDVTLFEKLVFMNQRNR
+>tr|A0A0P0M8T1|A0A0P0M8T1_9BURK
+MTFIRPRQRRAQHLISAWSLMLLAGCSAPTPSTHSPSVADKIVPAQVIPAAPMQFEVPGG
+DSLAARVWSTPKPRHIVLGVHGFNDYSKAFEPTAQHLVGELGATVYAYDQRGFGANPQAG
+IWRGEDTLLSDLRHIVSQLRERHPGVPLTVVGESMGGALVWVAAAESPGLMADHLVLKAP
+AVWGAQSMPWYQRLSLQFMNAVAPDMVFTGRGVQSLGITPTNDPEVSRDLGRDPLFIKAT
+RVSSLAGVTSLMGRAQNLNTLPPQRSLVLYGLRDRIIPPSPVCDWLTHLNAAGKAGTALD
+WVVYPEGWHLLTRQLQTREVLQDLQHWLQQNPVTRRQSPQQAQEVVCAKHS
+>tr|A0A0P0M9U6|A0A0P0M9U6_9BURK
+MRTAVDSARAATAATPAPTFSKQPAPAMPALAKTTETNQSRALLLLINELMSGVETRFGI
+KPGTLVERKLVRIFKDMPMETLRDWVESMNNCSPDHSEWQSLVENLTVHETYFCRDPDLM
+SMLADDILPHLLNLRKTQKQLQIWSAASSTGEEVYDLTFSALRAMQKAGYARLFDGKLVP
+ESGWGLFVFGTDISNQALRTAKGAMYGDLGMGSFRNLPDEWKGMFEDVKIAPANAMPGVK
+YFKIREWIRQCTRFERFNLMNNRPPVMGMDLVFCRNVLIYFEDPIKKAVQTMLARAMSPG
+GVLVLGASVQMLTPEYFESRLGKGGPWYVRNDTRV
+>tr|A0A0P0MB99|A0A0P0MB99_9BURK
+MSYTRRSKDELAARVAQDIPEGATVNLGIGQPTLVANHIPASREVLLHSENGILGMGPAP
+AKGLEDYDLINAGKQPVTLLPGGAFFHHADSFAMMRGGHLDICVLGAFQVSATGDLANWH
+TGEPGAIPAVGGAMDLAIGAKQTWVMMDLLTKQGQSKLVQTCSYPLTGIGCVKRVYTDLA
+TLACTPQGLVVIDTVDGLGLEALSALIGLPLKAA
+>tr|A0A0P0M936|A0A0P0M936_9BURK
+MIRHIVMWNLKGHAEGADKSINLEKAKKLLLSCAQVVPGIRAFEVATATPGMDCTNDLVL
+HMLLDDAQVLAAYQNHPDHLAIKPFMKAVVQERHCMDFIVE
+>tr|A0A0P0M6K6|A0A0P0M6K6_9BURK
+MVHFSKSFTRRPVLGMVAAVVLSTTSAAWAQTAWPNKPVKIVVPFAPGGTTDILARAIAP
+DLSKAFGQQFVIENKGGAGGNLGAEQVAKSAGDGYTLLMGTVGTHGINRALYAKLPYDPF
+KDFAPITLVAGVPNVMVVNAEKAAANKINTVNDFIRYAKANPGKLNMASSGNGTSIHLAG
+ELFKSQTGTFMAHIPYRGSGPALLDLSGGNMDVMFDNLPSAIPLIKGGKLKALAVTSAQR
+SAAMPELPTIEEAAGLKGFEASSWFGLLAPAGTPADVVSRIQQEVAKSLATPAMKERLAT
+LGAIPSGNTPAQFAEHIDREHKKWAEVVKASGAKVD
+>tr|A0A0P0MBC5|A0A0P0MBC5_9BURK
+MERRANRQRLNAPFGLTKADFHKHRRPRGPDSAKIELMNTPTTLDADQVAHLRSWEGRNE
+TLADEIVAAPLRGQSALLDRDDPRQAAGSEVPPLWHWLYFLPQAPQSQIGPDGHPLRGGF
+LPPVPLPRRMWAGGRLHWQVDNPLRVGDAAQKHSRIASVKHKSGRTGDLLFVEVEHAFSN
+AQGLCLTETHDIVYRAAAVPGAPEVPPTAAEADAPWQREFVPDPVSLFRYSALTFNGHRI
+HYDRSYVTQEEGYPGLIVHGPLIATLLVDLVRRQVPGVRLASFQFRAVRPTFDLHPFRLN
+GRPSADGKTVELWACDHEGWLTMQAQATLA
+>tr|A0A0P0M8G7|A0A0P0M8G7_9BURK
+MKTILSQRLRQAAEVHRAGGGGPDLKLSLQDLVRLHGESSLAVLLMLLAVVSVLPVAGAG
+TLMSLGIWAIAWSWVRERETLSLPQRLGNLSLNERWSGRCLQGLAWLYESSQRLMRPRWA
+WLSHAGTRAWWGAWIALMGFVIFVPLPFGNVLPGVSLVLLSLGWMFRDGLALLLSTAVGL
+VGVAYGLSVGHLAVQAFDRMMDLLPK
+>tr|A0A0P0M9D8|A0A0P0M9D8_9BURK
+MTAQLLSTSEGQTLVLTLSNPEFRNALGPEMYAAGVEALSVAESSADVRSVVITGANGIF
+SAGGNLQRLQNNRQLPPEHQAQSIEGLHNWIEAIRTFPKPVIAAVEGPAAGAGFSLALAC
+DMIVAARNSVFVMAYSSIALSPDGGGSWSLSRAVPRQLATELLLCGERIGAERLQQLGVV
+NRLADAGQALQQALELCEQLNARAPNALASIKELLSDADGSSLNAQLARERNAFVKNLHH
+PNAGIGIGAFLNKQKPEYE
+>tr|A0A0N7J8R7|A0A0N7J8R7_9BURK
+MTVNTSTLMKPSMQMLCRLLDQVTIRGLWFGVVFCLSSWSAVAAVPATPAAALQKSVIEW
+VVQTQSVAPEAVVLAPLDPRLQIQPCSKPLNMDLPFASPDTIRVRCAQPAWQLFVRVTVA
+GRVAVQPGQAKAESAPVEKRQVLVAAVPLQRGMILTEAHVRLATVDTPGMPVNVLEQMSQ
+ILHSEVLRDVRPDTPLRSQDIRPTVLVKRGQMVLMSVGQAQGFQISARVEAQQDGRYGEQ
+IKLKNRDSGRMLTGLVKGPNQVQGL
+>tr|A0A0P0MC21|A0A0P0MC21_9BURK
+MSVFGGEGQTQSQFQKSLNKVFLFYGGGFAAFVILLAILEQMGMPKEYIGYAFLAATVLL
+YGGIGVMSRTNDAAEYYVAGRRVPAVYNGMATGSDWMSAASFIGMAGTLYLTGYGGLAFI
+LGWTGGYCLVALFLAPYLRKFGQFTIPDFLGARYGGNMARLIGVFAAILVSFVYVVAQIF
+GVGLITARLTGLSFDVGVYVGLAGILVCSFLGGMRAVTWTQVAQYLILIVAYMIPVVWLS
+VKHTSNPVPQVAYGYLLEKVTAKEEQLLKDPKELEVRGIFKARADAAAEKLKDVPAAMAA
+DKEAATKKLEELKAANAPAADIKAAEAALAALPKDEAAAKAAYTAARTTNTTRAAPPLRH
+AEPFPGKDDAARDVARKNFLALVFCLMIGTAALPHILMRFYTVPSVREARESVAWSLFFI
+SLLYFTAPALAVLVKFDIYTLLVGTPFDQLPGWIARWNVVDPTLMAVSDINKDGILQLAE
+IRLGGDIVVLATPEIGGLPFVISGLVAAGGLAAALSTADGLLLTVANALSHDVYYKIVDP
+NASANRRVAISKVILVFVALAAAYVASLRMADILFLVSAAFSFAAAAFFPALTLGIFWKR
+ANKWGASLGMVSGLAISFYYMVKTHPWMYGLFHEGSLTPEILKANTWWDIAPISAGIFGV
+PVGFAVIIIVSLLTKAPDQEVQDMVENVRFPSFDGTTSQGSAAH
+>tr|A0A0P0M6S8|A0A0P0M6S8_9BURK
+MRFSSKTVGLASAVITVLIWTGFIVIARASASRGLLPLDIALARILGASSILLPWAWWLM
+RSARQAGEKVGSLGGLSPLPLAPTVQAGVLGGLLYAVLAYTGFFFAPASHASVLLPGSLP
+LWTTLLAWLVLREQVSSARALGLGFIVLGDVLVGGASLLMAFDGGEVWKGDLLFMTAACC
+WAGYSITVRRHGLDAVRATMAITAFAFVSFVPVYLTLIGLGLLPTHLMQVPWTEILFQAV
+FQGVGSVVISGITFTQMVRHYGPVRSTMITALVPGLSALGAVWFLGEPMHWNLLAGLALV
+TSGILFGVRQAKKPAAAPAPLSTGSQP
+>tr|A0A0P0LCK0|A0A0P0LCK0_9BURK
+MIHCVLHEEKDSVAVVVVEGIEAGQEMNALILDDNRTITIKANAAIPIGHKVAVKAMALG
+DTVMKYGTDIGKVVAAIAIGDHAHVHNIKTKRW
+>tr|A0A0P0LGX7|A0A0P0LGX7_9BURK
+MNLFKTSTMALIACAALSAVPSMANPKWEAVVLNDQGMFYIDANSIATEPGRKVVWSAID
+YKKPQTTTEGQTYLSAQTQLLINCKAQMARVMHQTYFSGAMLTGKVVTRQGMLHDWLDID
+PTSAVKKIARRVC
+>tr|A0A0P0LHY3|A0A0P0LHY3_9BURK
+MTDRQFHPETLAIHAGQIPDVATGARALPIYQTSSYVFDSAEHAASLFNLQTFGNVYSRL
+SNPTVAVLEERVAALEGGRAAVASASGMAAETMALMTILQTGDHVVAAGALYGGSVTLLA
+VSLAKFGIETTFVDATKPEAFAAAMRPNTRAVYAESLGNPSMVVLDIAAVADVAHAHGVP
+LIIDNTVPSPLLCNPLALGADIVVHSATKYLAGHGTTLGGLVVEGGKFPWDNGKFPGMTE
+PSQGYHGVKFYETFGDFGFAMRCRMESLRVFGASLSPMSAWQILQGVETLPLRMQKHCDN
+ALGVAKFLQADARVAWVNYPGLPDHPQHDLMQRQMRGASGLLSFGVKGGLAQGVKFIESA
+QFMSHLVNIGDTRTLISHPASTTHRQLDEAQQLAAGVPPDMVRISVGLENLDDILWDIDQ
+ALDKASR
+>tr|A0A0P0M9Q9|A0A0P0M9Q9_9BURK
+MSKDSFDLYDREKALISEGSTLLESEDLKTLKPFAQRLFDGFVSLFNENQNLLRHSDRQE
+QRLVKLNQNLKAQTQELELKRQTQELLSQQLAKYLPPQIMSALLSGTYQSKVATQRKKLT
+VFFSDIRDFTATSDLLQPEALTEYLNEYFSEMTEIAMGHGATIDKYIGDAMMVFFGDPES
+KGHQEDARACVLMAMAMQARMKELAVRWKNKGFENPFVIRIGINTGYCNVGNFGSDQRLS
+YTIIGGEVNLTQRLESHSDPGGILMSYETYCYVQDLVEVEERQPVKMKGIARDVKTFAVL
+GPKKTQPHRNVALNHEAGINIDLDVSTLTPSERQQLAEKLRAVANQIS
+>tr|A0A0P0M884|A0A0P0M884_9BURK
+MLTAVNISRPAQLGFAWRRISAAVLTAALASTAGAQSARPADLAARALASAPVQALLSAQ
+AQSAKATQKNPQKEYDAQLAAIRQAILDATVDRPTRVISSAWVDDKGALHESAHFHSEGQ
+VRGVRVLSYVQGDEPVTQVSAEVLPWGWKPVGADQSCKAPPRPWRLPLGVQVVMPEGFNG
+PQLFASQSLLDLAQQAWGQNMQVSQRWRTHSVAQAAPQSDNAYMRALTGQTEERSGWMAE
+ISLQPHAPAVERSWTERVGQRLNLIESAPPWRWTLSVRLGQKLSPTSRLVPQWQIEQIVS
+VDPIALSHNPTAWAQRMQGLLQERIRQWVAQLDKQTECEPVQFHVRRQGASSLELQAGFD
+SGLRPGDRVLLMDPAHVPARMLEPGLAQHLALAQVVKVGPHRTELQQLAGPALAPQGAWM
+ALPL
+>tr|A0A0P0LHN5|A0A0P0LHN5_9BURK
+MAELATIARPYAEALFKAQASDLAGTAAWLDELAAVANNAQLQQFIDSPKVSDEQAFDLI
+SGVVRTALPEAGKNFLRLVIENRRLSALPVVAQQYRALMNAQGGTADAVVYSAFPIDASA
+LADLSSTLEKRFARKLNVSVELDAALIGGIRVVVGDEVLDTSVKARLEQMKSALTA
+>tr|A0A0P0MCB7|A0A0P0MCB7_9BURK
+MAYKCSAQRWSNQHMTSFQHPIALRLRLNKLLAPLTLAVALTGCSNVHTGAGINVNVPIL
+PGVSVGVNVGTGGVSAGVNAQSGPVGVGVGVNGAGQVTGRAGVGTSTSGPVNVGAGAGVG
+GVLYDPKK
+>tr|A0A0P0LFF7|A0A0P0LFF7_9BURK
+MTQRYLLDTNVVSELRKPRPHGSVVAWLESLDDAQLYLSAVTLGEIQAGIELTREQDPAK
+AQQIEDWLALVAGAYNVLPMDAAAFTAWAKLMHRKSDTLYEDAMIAATAKVHGLTVATRN
+VADFQALGFEVFNPFAPV
+>tr|A0A0P0M7V9|A0A0P0M7V9_9BURK
+MRLALGVCYSGTAYQGWQSQATGLTIQDKLEKALAQFGDVPRISTLCAGRTDAGVHGLMQ
+VVHFDTHLERDTHSWVRGTNRYLPSDIAVQWAQVVPETFHCRASATGRRYIYVVLDSIVR
+PSLEAGRVGWVYRPLAEAPMREASQHLLGEHDFSSFRASSCQALSPVKTLRHIGITRHGA
+YWRFEFEGNAFLHHMIRNIMGCLVTIGQGNQSPDWMREVLRAQSRDAAAPTFSPDGLYFA
+GPIYSPEWGLPDTTPAFDWLP
+>tr|A0A0P0M8C3|A0A0P0M8C3_9BURK
+MFFTIPTIMTWTRIVAIPLIIGVYYLDTLTIETKNWIATVLFVLFAFTDWLDGFLARKLN
+QTSAFGAFLDPVADKFLVCAALLMLVQMDRVNVLVALIIIGREIAISSLREWMAQIGAGK
+SVAVHMVGKLKTTVQMVAIPFLLYNGTLFGVIDTRDWGAVLIVVAAVLTVWSMVYYMQKA
+LPEIRARVK
+>tr|A0A0P0MAY2|A0A0P0MAY2_9BURK
+MSSTHFGFKTVDESEKAKHVRGVFDSVASKYDVMNDLMSMGLHRVWKAYTVQVANLKEGD
+QVLDIAGGTGDLSMAFAKKVGATGRVVHTDINEAMLSTGRDRLVDHGLALPTLVCDAEKL
+PFPDAHFNVVSVAFGLRNMTHKDVALKEMCRVLKPGGKLLVLEFSKVAKPLEKAYDWYSF
+KILPQLGKLVAGDADSYRYLAESIRMHPGQEELKTLMKNAGFGHVDFHNLSAGVVALHMG
+IKC
+>tr|A0A0P0MAD8|A0A0P0MAD8_9BURK
+MPIESLTPTPPTSPAAPPRPAQPHPVLGLVLMGGGARTAYQAGALQAIGQLLSRTAGPAP
+AFPFQVLAGTSAGALNATFLASKAMEGLAGLNDLAHFWTRIRTEAVYCLPQTPLDKFSRW
+ATAVGLLRSARTHAAAMDSLALVNTLHRAIALEKIDTALQSGVLQALAVTASSYSSGVHW
+TFCQTRDGQPITWSRPGRRAEQQPITIEHLMASSAIPFIFPSTPLWVDGGMEFFGDGSMR
+QISPLSSAVHLGADRILAIGVSQPQRASLGAPTRAAGRPSLGTIAGHAMASVFHDTLEAD
+VEQITRINQALDSLPEAMRAELPLRTVRVLTLQPSASLDALAQEHAHTLPRPIRRVLEGL
+GALRGSGAALASYLLFEPEFISALMALGQADVQARADEILAFLAPTGSHPVR
+>tr|A0A0P0M7G1|A0A0P0M7G1_9BURK
+MPHTPSAQSPLYRIGAVSKATDIPVSTLRIWQTRYGAFTPVKTEGNQRLFAEHDVSKALL
+LKQLSGAGHGIGSIARLDLPQLRQLCHPDHQTPTAQALAQPVCLAVVGLGLANRIESRQF
+AAVLSQHRIQVTDVLDDLAAARHAPLSDKPQVLLIKVNSLQDSVFESIQALMQRQPFAQT
+IVLYHFAPDKVVQDMKRAGLTVRRDPISDSELAELLQSILFVDRDRAQAYGHQGAVIAGR
+KYSDDTLRRVAGISTNVLCECPKHVAELIAQLASFEAYSQECLNKNTEDAHLHSYLRAIS
+GSARSLFENALEKIAQHEGIDLRESAPLNAPSQHNRSR
+>tr|A0A0P0MBC8|A0A0P0MBC8_9BURK
+MNLLYESETFAVMHMLANAPTETAATSSAPQLERHGFEIVDKRSGKEVYLDGSWAEMFQQ
+QIQAWQQHTPTQEEVEDTLEGYTGLAQQPVLVH
+>tr|A0A0P0MA94|A0A0P0MA94_9BURK
+MMEAWLNESLQWLALPQHGLSTVFVVAFVSATLLPMGSEPAVFGLVKLNPELFWPAILVA
+TAGNTLGGMVSWWMGWGTHHAVNKWRDSSTHIRALAWLEKLGPKACLLSWLPGVGDPLCA
+VAGWLKMPFWPCTFYMAIGKFFRYLLMTGGLIWLFPSA
+>tr|A0A0P0M9C5|A0A0P0M9C5_9BURK
+MNIHQLSVHHDERQDRLLLRLNTQDQQEFRFWLTRRMTLRLLPAIEKTAVRLESAQPGVA
+ATDAPAQHLLTELKRDAFFKEADFATPFDNHAKQWPLGADPLLITDAHLTIKPGGALEMA
+FEDKSDAAQVKSCQLHLQVSLVHGMLHLIRQASEKAEWGSLGIPAIATEASPVSTSEPPR
+YAH
+>tr|A0A0P0M9D9|A0A0P0M9D9_9BURK
+MADPMLIAQNAQAQCHLLPGLANRHGLITGATGTGKTVTLQTLAESFSRIGVPVFMADVK
+GDLTGVSQTGKIGEKLAAILKDRGLALPEPLACPTTVWDVFGEQGHPVRATISDMGPLLL
+TRMLGLNDTQAGVLNLVFKIADDNGLLLLDMKDLRAMLQYVGDNAKQFTTEYGNISAASI
+GAIQRGLVQIETQGGDQFFGEPMLNIEDFMQTDAQGQGVVNILAADKLMNSPRLYATFLL
+WMLSELFEVLPEIGDPVKPKLVFFFDEAHLLFKDAPAVLVERIELVVRLVRSKGVGVYFV
+TQNPLDIPDSVLGQLGNRVQHALRAYTPRDQKAVKSTAQTMRPKAGLDIEAAITELAVGE
+ALVSFLDAKGRPCETERVFVLPPGSQLGPITPEQRQALVQGSLVAGVYEQAQDRESAYER
+IKGQTAVSGQANATPLPGQAPAAPEAASGGLMGGLSDMLFGSTGPRGGQRDGVAQLVVKS
+AVRTVGSAIGREIVRGVLGGLLGGGGRRR
+>tr|A0A0P0MA40|A0A0P0MA40_9BURK
+MHDHHTPNHQPKRTAAKIALLALALSLGGCANKATPPLYGWHGFEQNLDTYFRQDRESPD
+TQAKRMEDDLQKIRAAGQAMPPGFMAHLGLLYGKQGDMARFQQHLEAEKQQFPESQNFMD
+FLLRKFKSK
+>tr|A0A0P0M6U7|A0A0P0M6U7_9BURK
+MSRAILPGSMVNGQMATLGVMGGGQLGRMFVHAAQAMGYFTAVLDPDAASPAGLVSHHHI
+QTDYLDEQGLAQLMQRCAAITTEFENVPAPALLTLGAHRPVAPASESVAIAQDRAAEKAH
+FVRCGVPVAPHAVIETAAQLAAVGDDLLPGILKTSRMGYDGKGQIRVKTREELAAAWDEL
+KGVPCVLEKMLPLQAECSVIVARGADGQVVNFPVQLNLHRDGILAVTSVYEGAVPADVAA
+QAVAATRAIAEGLHYVGVLCVEFFMLEGGQLVVNEMAPRPHNSGHYTMNACDQSQFDLQV
+RTLAGLPLTQPRQHSPAIMLNLLGDLWPEVTPTGKGPTSPAWAQVLALPGTHLHLYGKLS
+ARPGRKMGHLNITGPTPEAVRATALQAAALLGIEAF
+>tr|A0A0P0M7E7|A0A0P0M7E7_9BURK
+MKRRTLIQAAPMLMAMPGLASAQAAFPNRPIKYIVPVAAGGGSDMIGRQLCDRLGKVLGQ
+SMVVENHGGGGGVIASQMAAKAAPDGYTLMQGYVATHGTAPATRKLSYDPIKDYTPIGMI
+GSTPNVLVVNTNVPAKDVKAFIDYVKKNPGKISYGSAGAGSLTHLTAELFKAVTGAFMVH
+IPYRGIAPATTDVIAGQTQAMFPGLAAALPHIRSGRVRALAVTGTQRHPALKDVPTMEEA
+GLKGFDAQQWYGVVGPAGMPANLVKQLNDAIAQVLAQPDFREKLSAEAVELTPMTPAQFL
+DYMKKDLARWTDLARERKINLDA
+>tr|A0A0P0M9A3|A0A0P0M9A3_9BURK
+MRQLIGLLREHFEFAPGGEYSVEVDPRTVDENRLAVLAELGFNRLSFGVQDFDPAVQKAV
+HRIQPAEQVFALVEASRRLGFESVNVDLIYGLPLQTPESFDRTLEQVKSLRPDRIALYAY
+AHLPERFKPQRRIHAQELPAGAAKVAMLSRSLDALTDAGYVYIGMDHFALPGDALAVAKR
+QGRLHRNFQGYSTQADCDLIALGVSSIGRIGTIYSQNAKTLEEYADLLDQGHFPVVRGLA
+LTRDDLIRRSVIMALMCQGQLHYESINLAWLVDFKTLFAPELRQLEDMQAQGLVQLSETG
+IQVTAMGWFFVRGVAMVFDRYLQADRHRTRFSKII
+>tr|A0A0P0LE48|A0A0P0LE48_9BURK
+MLIHPQIDPVALQLGPLAIHWYGLTYLAAFGLFFWLGVRRLGHAPFKHLPEWQNRDVEDI
+LFLGVLGVILGGRVGYCLFYKPAYYLSNPLEIFAIWQGGMSFHGGLLGVMLAMVWFARTR
+QRPFLQVMDFVAPCVPTGLAAGRVGNFLNGELWGRVADPTLPWGMVFRGAGDLPRHPSQL
+YQIALEGLLLFVLLWWFARKDRPTGQVSGAFLLGYGFFRFVAEFFREPDAHLGLLSLGMS
+MGQWLCVPMMLGGVALWALSSRKTS
+>tr|A0A0N7J8H1|A0A0N7J8H1_9BURK
+MTTRRQLMQGAAASMLGLAHLPNFAQTRLENLRIIVGFPPGGTTDAFARRISEKLRGTYA
+NNVIVDNKPGAGGQIGVTTLKSAAADGAHILYSPASMLTIYPHSYSRLSYAQSDVAPLGI
+GHSTDHAFVVGPAVPDSVKNIKDFVEWAKANPGKASIGNPAAGSMPHLLAGRLAMLGGFQ
+ITNVPFAGSGPAIPQVMGGQLAGMSSPLGDWVQHHKSGRIRILATSGPDRAVFTPDVPTY
+REQGFGELLVREWFGFFAPAGVSEAVKQNLNAALRLAMNQQDVRDFVTPLAANLEASTTA
+EHTRRLTEDSEMARRLVTALGFKADS
+>tr|A0A0P0LBE7|A0A0P0LBE7_9BURK
+MTQKIQTLIKLSTCALMAAAPTWALAHTGHDHSALTGLAEGFLHPLTGLDHLAAMLAVGV
+WSAIAVRPIWLAPLAFVLMLALGALLGFSGVHVPAVEPMIAASLLVMGLLLAWRRGMPWA
+AAAAVASVFAVFHGAAHGSEMAGTPTWSALAGMLMGSALLHGAGVLIGQRMAGRVWLQRS
+AGGALALMGSSLLVGLV
+>tr|A0A0P0LD94|A0A0P0LD94_9BURK
+MDWRLIAWPQARNQTTTRPINTMSMPKNRICPSWSWSICSKRPRQRRGEIMGNKPSRMSI
+RPKASRRVSSKIYFRAGAPLGVPRMPLKNSELPGSSTITSPLLLKLAL
+>tr|A0A0P0LMV8|A0A0P0LMV8_9BURK
+MRTRVGWAGLLWLCAAPWVWAGQYVLQAGQTQTVPVAVRVLNGETRCNVRISVPGQADVE
+RVVQAPFFDTAVAITPQDEEFVTVRWQGQARRINDQVVNGCPTQGEARFKVVSNNALTRA
+MWAGMQAQLPVAKADCVRTAFALEQVRPEWFDFTDPQPSGEDAKIERAFARCDAFLAQPK
+AWGTQNPQGHACTVAGLKTRCEGFFTARVDGKVQTISREAAVQRQLQNLPWSTGVREIAS
+VRASRIQQEKDRVAREAAEEAAVLQAIKDARVKAERQAQEAKAAEERALQEKIAALKAQI
+AEEKAQAAQEKNWVFRQIDKIKGVPTPEAKTQEAAKPATPAIPTAPATPAAPATPAAPAT
+PAAPTAPTAAVTPTAPAAPAAAKAPPLPPPVAAPPAAAAPAPNPASKSLPPLPTN
+>tr|A0A0P0MAZ1|A0A0P0MAZ1_9BURK
+MSNLFIRLHPSDDVVIARSQLMSGSTVDGVAVRGLIPPGHKVATRAIAAGEPVRRYNQII
+GFAHQAIAPGEHVHTHNLNMGADKGNFERDYAIGQDVKPEPERKQATFMGYKRSDGRVAT
+RNYIGVLSSVNCSATAARAIADHFSRRNNPAALANFPNVDGVVALTHGTGCGMDTEGLGI
+QLLERTLAGYATHANFWGVVVVGLGCEANQLSTWLAHSSLRVGETLKVFNIQDSGGTRLT
+VEKGIALIEEMLPRANAITREPCSAEHITVGLQCGGSDGYSGISANPALGAAVDLLVQHG
+GTAILSETPEIYGAEHLLTRRAVKPEVAHKLIERIKWWENYTAINGGEMNNNPSPGNKAG
+GLTTILEKSLGAVAKGGTSNLQAVYEYAEPVTAKGFVYMDTPGYDPVSATGQVAGGANLI
+CFTTGRGSAYGCAPSPSLKFSTNTALWKKQEEDMDLNCGEIVDGGVSIAEMGQRIFEMIL
+AAASGEPTKSERHGYGQNEFVPWQVGAVM
+>tr|A0A0N7J8V9|A0A0N7J8V9_9BURK
+MFLLSPAKSLDYETPAAGVPHTLPQFVPQSQALIEVLRQKSPQQIAELMDLSDALSALNV
+ARYEAWAPKFTAKNSKQAVLAFNGDVYEGLDAKTLSAQDLDWAQTHVGILSGLYGVLRPL
+DWMQPYRLEMGTTLQTDKGSNLYKFWGPQIADYLNAQLAKDKTPVIVNLASQEYFKSVDR
+KTLKARVIECVFEDFKGGKYKIISFNAKRARGLMARFAIQNKITHPEGLLGFDLEGYAYD
+PKVSEPDRLVFRRKVQA
+>tr|A0A0P0M8M7|A0A0P0M8M7_9BURK
+MPESIIAVRGVSKSVQDASGQLDILRDIDFSLNAGETAAIVGASGSGKSTLLAILAGLDT
+PSTGQVVLAGQSLFDLSEDQRAAVRAQHVGFVFQSFQLMPNLTALENVMLPLELADRPDA
+RSTATAMLQRVGLGERLKHLPKVLSGGEQQRVALARAFVVQPDLLLADEPTGSLDHATGE
+AIMDLMFALNLEQGTTLVLVTHDRQLAARCERSLVIQAGRLSESFTTPV
+>tr|A0A0P0M9C0|A0A0P0M9C0_9BURK
+MSTSQPVLEISQLTKHYGGVKALTDAHFRLLPGEHAAIVGDNGAGKSTFVRLITGVEQPN
+TGDILLDGQKVRFESPLDAREQGIETVYQTLALAEDLDVPANIFLGREITRLNLGPLSIL
+NHKAMREKSAAMLATTGVKIQDMSESLRGMSGGQRQCVAIARAAGFAKKLIILDEPTAAL
+GVQETARVEEIIKGLKQQGIPLIIISHNLRQVFELVDRIWVFRQGRIICSRLTRESNPEE
+IVGLITGAIDPANLRSEEAATC
+>tr|A0A0P0MBT1|A0A0P0MBT1_9BURK
+MGTCVLLTTDANVPTWGGNYNRRMNFTPISALSPLDGRYASKLNALRPLMSEQGYMHRRV
+QVEIAWFIALSDAGFPEFKSLTPGARTYLTGLVKNFSEADALAIKEFEKTTNHDVKAVEY
+WIKSKFKDRPELEKAAEFVHFACTSEDINNTSHALQLKGARAQVILPGLDGLIAKLREMA
+HQFAEVPMLSRTHGQTASPTTVGKEMANVVMRLKGCREKIAAVQLMGKMNGAVGNYNAHL
+AAWPEFDWEAFAQKVVETPELGETQASHWGLGLTFQPYSIQIEPHDYMAELFDAVARTNT
+ILIDLSRDIWGYVSLGYFKQRLKAGEIGSSTMPHKVNPIDFENAEGNLGLANAVLKHLSE
+KLPISRWQRDLTDSTVLRNMGVGLGYTALAYASLMTGLNKLELNEEALAADLDAAWEVLA
+EPIQTVMRRYGVQGAYEKLKEVTRGKSVSAADLHGLIQGLDIPQADKDRLLVMTPGSYVG
+KAAELARRV
+>tr|A0A0P0LQM4|A0A0P0LQM4_9BURK
+MSFINYVTQIQIDFGAVKLLQAECERVGIRKPLIVTDAGVKAAGVLQKALDALPDLPVTV
+FDQTPSNPTESAVRAAAAMYKQHGCDGLIAVGGGSAIDCAKGVAIAVSHEGPLKTYATIE
+GGSLKITDRVAPIIAVPTTSGTGSEVARGAILILDDGRKVGFHSWFIVPKAAICDPELTF
+GLPPILTAATGMDAVAHCMETFMAAPFNPPADGIALDGLARGWAHIERATVNGQDRDARL
+NMMSASMQGAMAFQKGLGCVHSLSHSLGGVNPRLHHGTLNAMFLPAVVKFNAAAESVQKE
+NRLNRMAQAMGLQSGSDIPDAIRDMCARLGLPTGLGAMGVTEGLFDQVITGALADHCHKT
+NPRIASADEYRDMLLTSM
+>tr|A0A0P0M811|A0A0P0M811_9BURK
+MTPSTHPILERAAANGVALEMQGAVAVVRLCRPAKRNALNDALIEALRDVFQNLPAEARA
+AVIHGEGDHFCAGLDLSELKERDAGEGIHHSRGWHVALNAVEQGSVPVVCALHGAVVGGG
+LELASASHIRVADDSTFYALPEGTRGIFVGGGGSVRVPKLIGTARMVDMMLTGRVYDAQE
+GERVGFAQYRVPAGTALTKAIELATRIATNAPLTNFALTHAMPRIAEQPADHGLFTEALM
+ASIAQAAPEAKARVRAFLEGKAAKVQKS
+>tr|A0A0P0M7C1|A0A0P0M7C1_9BURK
+MNTWIVKGACIASVLWGLTAAHALTVDEALGIAVGDSDARIEALSKAVVQGDEKTAAYLQ
+ALADDVVKTANGQVLVVRDGQGTDPVTGQAVTVPPDAEEVMLNNRLRGEIDTALAALKLF
+SPDVKVRRQAALSLLKEPDASRAPLLEKALAAEKDPAVQSLVRQARAAAQLGSEVPNERL
+LAARELADSRQPETLLLLNQQLAQEQDPSVQQQIQKSLAAVQDSLRWGERLGTLFTGASL
+GSILLLVALGLAITYGLMGVINMAHGELMMIGAYATYVVQALFREHLPGAFDAYLAVAIP
+VAFLTSALVGAVMERTVIQHLYGRPLETLLATWGISLVLMQAVRSLFGAQNVGVENPSWM
+SGSLQLLPNLQLPWNRVLIIVFAAAVLMGVALLISKTRLGLFVRGVTQNRPMASCMGVNT
+ARIDTYAFALGSGIAGLAGCALSQVGNVGPDLGQSYIVDSFMVVVLGGVGQLAGTVYAAL
+GLGLANKLLEGWTGAVLAKIAVLVFIIVFIQKRPQGIFAMKGRSAEA
+>tr|A0A0N7J960|A0A0N7J960_9BURK
+MQKLRVVIVSPALADANNGNWQTARRWQQVLSAHSARIVRQWPDSQADDDEVMLALHARR
+SADAVQAWHNRQGPRGLGVVLTGTDLYRDIAHDPQAQRSLALAHSLVVLQGLGVKSLPPE
+HQAKARVIFQSTGTRKTLPKTARHLRVVMVGHLREEKDPLTLMATARRLPPDAGVFIDHI
+GAALDPALGQAAQATQAQCPHYRWLGAVPHAQTLQRIQRAHLLVHCSRMEGGAHVLMEAI
+CSGTPVLASRIDGNVGLLGEDYAGYFEPGDAQVLAHLLQACRSPQNGPSLMAHLRHQCAL
+RAPLFEPQAECAALHRFVQDLWTM
+>tr|A0A0P0MAG0|A0A0P0MAG0_9BURK
+MTPSLASTVEFIQSCETPWSRDTSPPWGIHEADPPPYNRLYGPVHGRGPVSGVLYHQHQL
+LAQWGEPHKADLTFSVAKTYLALLAGLAFDQGLIPNVHTPVAEQCPGIGFEGERLSRITW
+HHLLQQTSEWEGTCLGIPEQVDRYRWLPYQTGQADGQKGDARPLGEPGTRFEYNDVRINQ
+LSLALLHLFKRPLPEVFEEFFRKPLGCSDAFQWVGYEQGWTDVNGQRMMSVPGGSHWGGG
+VSISAMDQARIGLMLMGQGQYQGQQILSKQWLEMMQQPCDIAPYYGYLIWLNKDGALFKD
+APRSSWFAIGAGSSITWVDPELELVCIMRWIDADKTNDCIARVMQSLTRSG
+>tr|A0A0P0LCY2|A0A0P0LCY2_9BURK
+MDRFVPRDDDANVIASEARQSKGLRMSLQTVLQVRGLAKFFGGVRALDGVDFDVSAGQCV
+ALIGPNGAGKSTCFACLAGQQVPTAGEVLWQGQSLLGKPPAERQRLGVARTFQVAQTFEA
+LTVLQNIQLVLRGAVPLAWWDRLDSRQPERAMRLADQAGLQAQAHVTVADLPYGAKKRLE
+LAMALAGLPNAVTAAGADPSAQSAPSLLLLDEPAAGLALAERAEMMALVRQVASQGVTVL
+YTEHNMDAVFGVADRVLVLMQGRLVADGLPDLVAQDPQVRERYLGMDFDPNANLKPDAKG
+QRDAHR
+>tr|A0A0P0M7L4|A0A0P0M7L4_9BURK
+MNTDTTTTQPIKFVEVLRREADVEPDTVSTSEVTKETQIIAIYGKGGIGKSFTLANLSYM
+MAQQGKKVLLIGCDPKSDTTSLLFGGKACPTIIETSSRLKLSGQAVSIGDVCFKRDGVFA
+MELGGPEVGRGCGGRGIIHGFETLEKLGFHDWGFDYVLLDFLGDVVCGGFGLPIARDMCQ
+KVIVVASNDLQSLYVANNVCSAVEYFRKLGGNVGVAGMVINKDDGTGEAQAFADNAGIPV
+LAAIPANEDIRRKSASYEIIGRPDGEWGPLFAELAKNVAEAPPQRPKPQTQDQLLGLFSA
+DVVGRNVVLEPATVFDMVGKHEDIKPSLEVVYDAA
+>tr|A0A0P0M7E3|A0A0P0M7E3_9BURK
+MWTAIGQAFSMVFEPYTLMVMVLASLYGLFVGAVPGLTATMATALLVPVTFFMPPIPAVA
+AMVTATAMAIFSGDIPGCLLRIPGTPASAAYTDEAFAMTRKGQAEKALGAGLVFSAVGGL
+FGTVVLIVAAPALADFALNFSSFEYFWLVLLGLTCAVFISTGSAVKGLMMLFLGLLVACV
+GLGNPAGFPRFTFGNTEMSGGIGMIAMMIGMFAISEIIRYVVDTSPPAELVVEEVGGVLK
+GQWALAKKYPKQILRGSVLGTAVGALPGAGADIAAWMSYAMSKKFSKEPEKFGTGHVEGI
+VESGSANNSALAGAWIPALVFGIPGDSITAIVIGVLYMKNMNPGPTLFTTNPQNIYAVFL
+LFIVANLIMIPLGILCIKVAKRILKVPREILMPMILLFCVVGTFAINNSVFQIGVMLVAG
+ILAYLLEANKFPTAPAILGVVLGGMLEENFITSMIKSNGDLTAFVARPIALSLAILTALV
+WFAPLVLRMLRKPAPAS
+>tr|A0A0N7J8D0|A0A0N7J8D0_9BURK
+MNFPLITDPFFYVIAVPAVLLLGLSKSGFGAGFGSLAVPMMALAVTVPQAAAILMPVLLV
+MDLLGMAAFRNDVDKALLRFMVPFAMVGIVLGALLFKLLDAQLVAAIVGAFTLLFLAQQM
+LFKPDPHGPPPPRWLGGLLLITSGFTSFIAHAGGPPVNAYVMRLRLKPILFTGTLAYLFF
+FINMAKWLPYAWLGLLDWRNLATSLVLLPLAPIGVWMGVRLARRIRPDLFYRLIRLGMFL
+TGCKLLWDGVR
+>tr|A0A0N7J913|A0A0N7J913_9BURK
+MPLSALALVVLAGFIHACWNIAAKKAGGDVRFVAFTSVVLMLFWAPVGLWVGWQQVPLWG
+GLEWALVLASALLHVGYFIVLLRGYRQADLTVVYPLARGSGPLLSSMVAIFFLGEQISSL
+GLVGILGVVVGVFLIAGGPGLWQAAQDPQQQARVRTGIFYGGVTGLFIACYTVVDGYAVK
+VALMSPILVDYFGNLVRLVFLTPTLLRDRPTVWALWLQQRRYALVVGIFSPVSYVLVLYA
+LQVAPLSHVAPAREVSMLFAALLGGHLLGEKDRGPRIAGAVLIAAGVMALGW
+>tr|A0A0P0LQW0|A0A0P0LQW0_9BURK
+MHGTENPSAWLQRWSHLIAPGSTVLDVACGAGRHMRYLALLGHQVTGVDRNPDAVAMAKS
+SGEVVCADIENGPWPFDGETFGCVVVTHYLWRPLLPKVVASVAPGGLLIYETFAAGNETV
+GKPSRPDFLLQPGELIKAAEGLRTVAYEDGFEASPDRFVQRIVAVRDESPKTLQRWPLRP
+A
+>tr|A0A0P0LKZ5|A0A0P0LKZ5_9BURK
+MTTLEKPKGPASYFPSIEKKYGQPIAHWLTLLKSCDGMKHMEMVAWLKTEHGMGHGHANA
+IVAHWMASHK
+>tr|A0A0P0M8V6|A0A0P0M8V6_9BURK
+MAEVYTGRFAPSPTGLLHAGSLVAALASWLDARDHGGRWLVRMEDVDTPRCVPGADQAIL
+HQLARCGLTPDGPVLWQSQRGAAYEQALQHLVHQGWAYPCGCSRKDIESAQTVARHRAAV
+YPGTCREGLQGKPARAWRLNVQAVQKDLGLPAVTPWHDRRLGPQQQNVAEEVGDFVLRRA
+DGLWAYQLAVVVDDAEQGITHVVRGQDLADNTARQMVLQRALGLPTPQYLHTPLVLGADG
+DKLSKQNGAGALDLSDPWATLAQAAQVLGLPAQAPLDQLLTQAQSDWRRFFFSRTD
+>tr|A0A0P0MA96|A0A0P0MA96_9BURK
+MDLMLLLKAAVMGVVEGLTEFLPISSTGHLILAGALLGFDDDKAKVFDIAIQTGAILAVI
+IVYWQKISSTVRALPSSADAQRFALNVFIAFVPAVILGLLFGKAIKANLFTPEVVATSFI
+IGGFIILWAERRQASAVRIGEVEDMRWQDALKVGLVQCLAMIPGTSRSGATIIGGMLLGM
+SRKAATDFSFYLAIPTLIGAGAYSLYKDRALLSMADAPMFAVGLVFSFLSAWVCVRWLLK
+FISTNSFEVFAWYRIVFGLVVLGTSYFGLVSWAA
+>tr|A0A0P0M9K9|A0A0P0M9K9_9BURK
+MSVMLTLILVVQMLSALAMIGLILIQHGKGADMGAAFGSGGSGSLFGATGSANFMSRTTA
+VLAAVFFVCTLLLAYFGKLAPTSSGSVLEGAAVTAPAPVNNSPAAQIPGNAPAAQTDNSV
+PPAPAK
+>tr|A0A0P0MC37|A0A0P0MC37_9BURK
+MNRLLEPIPALLALSMACATASATAQSLSPLVPADGAAASTWRFVGFPKSKADIPATRFE
+LADVQGERALKVSTRASYGTWVHDLPKTEPGRLQWRWRLDQPLTGGKVVPDIQTKAGDDA
+ALKVCVMFDHPLERVPFVERTLLRIARSVSGEDLPAATLCYVWDSVHPAGLQGPNPYTQR
+VRFITLQGKGAPLAQWQTETRDVAADFAKLFADELPAGAAVPKVRAVLIGADSDNTGAES
+VGWVRDIQWRP
+>tr|A0A0N7J979|A0A0N7J979_9BURK
+MALKSTIYKANLSIADIDHSYYEDHQLTLARHPSETDERMMIRLLALAINAYKLQAVCNG
+DGKLAFGAGLSDPDDPDVSLRDFTGQTRMWIEVGQPEDKPIMKACQKADEVLLYCFNHAA
+EVWWKGIETKLTRLDKLQVWRVPTEGSQELAKLAERSMQLQATVQEGSVTFSSDRGSVHI
+ELSRWK
+>tr|A0A0P0MB25|A0A0P0MB25_9BURK
+MTSRRTFMGQSAAAASALAFPLVGGAQPKPVKVGVLHPVTGALAYSGQQCRMGALMAIED
+INKAGGIKSLGGAKIEAMLGDAQSSPQAGTAEIEKMNEAGVSAVVGAFASAICLATTQAA
+AKYNLPHVVDVGVADQIVERGLKNTFRFGPGYKKCAEVAVSSLHVLNTAAGKPARTVMIV
+HEESLFGTGTANLLAKELPGYGYEVKEIIKHANPTRDFNNIALRIKQVNPDILIPANYYN
+EYALLVRTLQQQKITPKAIYSVLGGAASSYKFVKEFPEAANGIIDCNHWFNPKDKRSAEL
+RKRVEAQGQFFSYEVFMTYTAMMLLADAIERAKSPDRAAIIDALASSKFANHIMPYGPTN
+FVNGQNMGAQPLMTQVHKGDIKVIVPRDYREIEPIFPLKG
+>tr|A0A0P0M8P2|A0A0P0M8P2_9BURK
+MTQRPLVLLDSIALVNATHAGSVIVSGSHGGLSASHFVTAQTLKPFAVAFNDAGGGKDDA
+GRVALHELQAVGVLAILYAHTSARIGEAQDGLDNGVVNGLNALALAQGLQLGMRVSEAMQ
+HLIESSRG
+>tr|A0A0P0M881|A0A0P0M881_9BURK
+MELIFLCPAIKKAIGGVKVIYRQAELIHKLGQSHGFSAAVMHPNTFFFRVRWFDSQVPVK
+RAFFKLRWMGKPSLSNVSGVFDAQRQMVVIPELWARKYGAQLADMGVSYAIYVQNGYYIT
+KGRPEDLDRAYQSARCILTISEDASRCVALAFPGVESRILRVHCAVDVKRFKPDKAKENI
+ITYMPRKLADHSSKVVFFLRHHLPAHWTIVPIDGMTEVQVADLLERSKIFMAFSHFEGLA
+LPPLEAALSGNQVIGYTGQAAKEYWRPEIFEEIASGDVVGFAQRVLAKVKAIDQAQQFDV
+PLHTIGNLADTYSEVQERKDMLEFLKVMGLNTKGLPA
+>tr|A0A0N7J8B0|A0A0N7J8B0_9BURK
+MHRTIFDTPIVNTVLRTGSLAFLKWTGWKVEGSLPPGAEKCVLIAAPHTSNWDLPYTLMV
+AFALRLQIYWMGKSSIFSFPFGPVMRWLGGIAVNRSQASNLVDSCAQELVKAEGAVHLVV
+PPEGTRSKTRYWKTGFYYIALQAQVPIVMAYMDYSRKVSGLGPLFYPSGDIDKDMIAIKA
+FYAPFKGKNADQFETPPEN
+>tr|A0A0P0LPY0|A0A0P0LPY0_9BURK
+MKRVFIKSLIATVALAAMGVASAQDRTIKFANQNAAGHPIVQGMEKFKEIVEKQSGGKLK
+VNLFPGGALGSDQANVSAIQGGTLEMASMNSGIFASQVKDFAVFDFPFLFASGQEADVVV
+DGAFGKKMHAKLEEKGLVGLGYYELGFRNLTNGRRAINKVADIEGLKLRVIPNPINVDWV
+KALGANPTPLPFPELYAALEQKAVDGQENPVATINGAKLYEVQKHLTLTGHQYNPQSIVI
+SKKFWDTLSAADKKILSDAAAESSKFQRAQARAQEASLLENLKKGGMQVTTLPAAEVAIL
+REKMKPVIAKHGEPIAATVAELQAELAKLRK
+>tr|A0A0P0M7A0|A0A0P0M7A0_9BURK
+MSSTIHPVDEHLPNGKLAALGLQHVLVMYAGAVAVPLIVGRALKLSPEQVAMLISADLFC
+CGLVTLIQSLGATQWFGIKLPVMMGVTFASVAPMVAMANNNPGVQGAGLIFGAIIGAGVI
+SILIAPIVSRMLRFFPPVVTGTIIAVIGISLMRVGINWIFGNPFGPTAPSIPNPEHLAWL
+DAAKQAASTGAVPPVPAGMNIVGSVPNPKYAQLSHIGIAAIVLVSILLIAKYARGFLSNI
+SVLLGIVVGGVVATAAGLMNFDKVSKAGWFDLVLPFEIAAPVFDPILILTMTLVMIVVMI
+ESTGMFLALGDLTGKKVDQKMLTAGLRTDGLGTLIGGIFNTFPYTSFSQNVGLVGVTGVK
+SRFVCVAGGVILIVLGLLPKMAALVESLPTFVLGGAGLVMFGMVAATGIRILASVDYKGN
+RNNLFIVAISIGFGMIPLIAPRYLQWMPHSIHPLIESGILLASISAVLLNLYFNGSKGDS
+SEAIEAAKQADSH
+>tr|A0A0P0MC69|A0A0P0MC69_9BURK
+MFGISDYGAFAAAFVLLLFLPGPGNLALISSASKGGMAGGLASVLGLLLGDQILLWLTVA
+GVDAVLKSNPPLFITLQWAGAAYLVWLGGKMLLSKPGQGPGLQITPGYYFRETLLITLLN
+PKAIMFYLAFFPQFIDPVHHQGWVTFGVMAGTIVVLGFAYCFGVVWVTHHMAERIRANPK
+WTSWLQKLAGVCLIGFGLRMVVAK
+>tr|A0A0P0MA86|A0A0P0MA86_9BURK
+MRPSHALSQHREAVCQAAARYRVANPRVFGSALHGDDIDGSDLDLLVDPLPGTTLFDLGG
+LQDELQTLLGVSVDVLTPKDLPPKFRDAVVQEARPL
+>tr|A0A0P0M993|A0A0P0M993_9BURK
+MRTWLSWTVLFTLWTCSLGVRADVYTDVNALVQNGQWAQAQALADARLKTAPTDPQMRLL
+LSRIQAGLGQNQAAMATLLALTQSFPELPEPHNNLAALLVRDNRLDEALAALQAAIRARP
+DYALALENLGDLHLAMAAQAYARARLVTPAPTRLQSKQLATEQVMRTP
+>tr|A0A0N7J886|A0A0N7J886_9BURK
+MINALILAADSALRTLIAEPRASRPYPATGVTELQLNETERRQAGALMRINHVGEVCAQA
+LYTGQALACQSPALRAQLAEASREETDHLAWTQQRLNDLNDRPSLLNPIWYAGAFAIGFA
+AGKLGGDQVSLGFVVETERQVEAHLQSHMDLLPAADTASRAIVSQMKADEMAHAQMAMKA
+GAVELPAPVKSVMKMAAKVMTTVAHRV
+>tr|A0A0P0M854|A0A0P0M854_9BURK
+MLKHLSIGIAIGLLVMSGIWGLTLLMASDTSVPAEIANEKNNLPGNNQGVMDLICELELD
+LDGQLALGIKENEPSRITMAQIDFEKKSGWYQGVISISESRAGTLQLMGTRLKVYRPAMF
+QRFGVMITGEEFVIDRKTGSFVQSLSLKDGRNVKLIKGTCAKVDKPPF
+>tr|A0A0P0M841|A0A0P0M841_9BURK
+MSAHAAVWPARLPAKITAPATSLWMNLAISAMRYPDKAALVFMGRVWTYRELMASAELLA
+GQLKALGVQAGDRVVLDMQNCPQLVITHFAILRIDAVVVPVNPMNRAEELKHYITDPDTQ
+VAVTTADLAPELAQASAALPPEQRLKHLVVTQFTDVFDPEAVGPEDMPEAWRPWLLPVRD
+LPSINSGHVHAWADLMASPAVDLPPPQAKTDNLAILPYTSGTTGLPKGCMHTHGTIMHNA
+MSSGLWGNGTPENVTLCVVPMFHITGMVSVMHTSILLGASLVLMPRWDRDVAGHLISKWA
+VTHWTNIPTMVIDLLGSPNMDRYDLSSLVYIGGGGAAMPEAVAQRLLDQFGLRYVEGYGL
+TETAAPSHTNPPDAPKKQCLGIPFMSVESRIVDPETLAELPTGESGEIVISGPQVFKGYW
+KRPEATADAFFERDGFLFFRSGDMGRVDEAGYFFMTDRLKRMINASGFKVWPAEVEALMF
+RHPAIQEACIIATRDAYRGESVKAVVVLRQDHKGKVSEQDIIDWCRENMAVYKMPRAVSF
+VDALPKSGSGKVMWRALQEAEMAALGAPAKA
+>tr|A0A0P0LF68|A0A0P0LF68_9BURK
+MSLLQVKNLVVEFPSRHGTLRALDDISFDIAPGEILGVVGESGAGKSLTGAAIIGLLEPP
+GRVASGQIVLEGQRIDHLNNDEMRHIRGRKIGAIFQDPLTSLNPLYSIGRQLTETILAHL
+PVTPQEARQRAIQLLKDTGISAAEERIDHYPHQFSGGMRQRVVIALALAAEPQLIVADEP
+TTALDVSIQAQIISLLKKVCKDRGAAVMLITHDMGVIAETCDRVAVLYAGRVAEIGPVHQ
+VINHPAHPYTAGLMASIPDMDSDRERLNQIDGAMPRLNAIPQGCAFNPRCPKAFDRCRQE
+RPELVNTGVNQAACWLHDGSAA
+>tr|A0A0P0LD05|A0A0P0LD05_9BURK
+MPSLPIFSRRTLLACAAALCSVVAHAQSPAPIRLALIEGLSGPFANTGEAVVRNIAWAVE
+RVNARGGVPTAQGLRPMVLTRHDSKGQSEEALSALKSAIDDGAQVVLQGNSSANAAALID
+AINKHNEREPARRVLFLNYSAVDPALTNERCSFWHFRFDAHADMRMAALMQVLREDPSVK
+SAYLIGQDYSFGQAVLREARRQLGVLRPDVQIVGDELHPLGRVKDFLPYAAKIKASGAQA
+VITGNWGNDLTLLVKAAREAGYEGKFYTFYGNALGAPAAIGEAGVGRVIAVADWLPNVPG
+QASAEFYKSFRQRFPKPSEDYVHVRMQLMIEALAQAVAKAGGTDPVAVALQLEKARVSMA
+GQTGSMRAQDHQFQQPLVVGVMARQGTPGVPFDVEGSGYGFKVVRQITAEQARLPSTCQM
+ERPAS
+>tr|A0A0P0M6J1|A0A0P0M6J1_9BURK
+MLRLIAMKKRYSPVDACAAIRGCIHAGLCAMFLGLATHTLANDFVKTLELAYQNDRSFQT
+AKSERDLGVQESDRAALVYLPSLSFERGRSPFEAKDRTTTQITQPLLDIDRYATYQEMTD
+KRNYALATFAVKELDLARKVFKVISNLVHLKEMQVLALSEAKDLERQAQRAMRRLELGNG
+TSMDVTTAQVQHAQALARYQSLQAEMGQAEQKYFSLTAQTTVLIRVRPDYESASGFTMPS
+FEAAQEFQNNPLVLQARAQLEFAKLGLIRSKSAFMPVVNAVIRNTYSNAGRDNYMGMHIS
+TPMGISAYSLSAKQKAELEVQKAQAMLDEVLEQSRLEEVSSGFAVKAYAREMAYRNTAVR
+VSQATVATTEKAYAAGLVRANDVVAAILASFDVQRQRLNLIMNLADLTLNHQIIRSVPPQ
+QAISLVQTFFVADTSRSP
+>tr|A0A0P0M7R3|A0A0P0M7R3_9BURK
+MASWVLTAMDLACQKAQRTLFEGVSFSVPAGSWLHIEGGNGCGKTSLLRILCGLSPAARG
+QVLWPSSSPSSSSSQTSLSRPDRSVLHYIGHALGLKPDLTACENLCADAQVSGLALGREQ
+AVQALAAQGLQSRAHLPVRVLSQGQRQGVALARLRTSPARLWVLDEPLVGLDTQATATAR
+ALLQSHVDAGGAVVMTSHHDVGLQGPGARLHLGREVGRA
+>tr|A0A0P0MBV6|A0A0P0MBV6_9BURK
+MAVPCPCGRTGPKGQVQALDDCCGPLHGGQAAPDAERLMRSRYSAFALGNVSYLLSTWHS
+SQRPAELTLETGGKWLGLEIKHHRVTGADTAEVEFVARFRIGGKAVRQHERSRFVCEGGR
+WFYVDGDVL
+>tr|A0A0N7J866|A0A0N7J866_9BURK
+MAYVGCGFAQTPASVPYTPSWTARHYLHWLIDHEGMNLTVSQWPLPAAAVEQALDELRSD
+DSTPGVMTARNFVKKELEALKSSSILSVHARSDSEGLNGYGDNHTPGSSARLSSPEIRRS
+WGSVSVAGKLGFRADEVPNQLRGLDGTKPHRWSLDGSAAVLNVSGWQLQAFSHRHWWGPG
+WQSSLINGLNQPGWTGMGIQRGETKPSQNALTSWLGPWNLDVFVAKAQDPLVVENQPQGF
+LFSGILLTVKPKPWLEIGLSRSLQTAGKGRPGGAGNFVKAFWGQEVNKNPDDTFIDSSAQ
+LAGYDVRLSCPRSWAELLGTCAAYTQWIGEDAAGKLPLPFKFMSLWGVESSYGQGRYRVF
+AEWSDTNAYSLPWDTQPTFPGYLNGVYVQGYTQGTRWVGSAQGGGSRVFSMGWMDAAKQR
+LVKLHMGQIHTALGAYNPSVKAPNGQFKGLSASQTIVWKNFSVMPELAVIRFAQGDTDLD
+SKRQHIRLGLDVVMAF
+>tr|A0A0N7J8E4|A0A0N7J8E4_9BURK
+MNITFKLFATLTDYLPAEARRSNQVTLDVAQDASISQIIEPFGMPPKLVHLVLVNGKYIK
+PEDRGTTTLVDGDVLAIWPPVAGG
+>tr|A0A0P0M7W1|A0A0P0M7W1_9BURK
+MNHIRNFSIIAHIDHGKSTLADRLIQRCGGLEARDMEAQVLDSMDIEKERGITIKAQTAA
+LQYKAKDGQVYNLNLIDTPGHVDFSYEVSRSLSACEGALLVVDASQGVEAQTVANCYTAL
+DLGVEVVPVLNKMDLPNADPDNARAEVEDVIGIDATDAIPCSAKTGMGIEEILEAVVARI
+PPPKGNPDAPLRAMIIDSWFDTYVGVVMLVRVVDGQLHKNERIRMMASNAVYEAGSLGVF
+TPANQPRESLKAGEVGYIIAGIKELQAAKVGDTVTLEKKLPNNLGPATEALPGFKEIQPQ
+VFAGLYPTEANQYDALRDALEKLKLNDASLHYEPEVSQALGFGFRCGFLGLLHMEIVQER
+LEREFDQDLITTAPSVVYQVVKPDGEVLMVENPSKMPDQGKLQEIREPIVTVHLYMPQDY
+VGPVMTLANQKRGVQMNMAYHGRQVMLTYEMPLGEIVLDFFDKLKSVSRGYASMDYEFKE
+YRASDVVKVDIMLNGEKVDALSIIVHRSQSQYRGRAVAAKMREIISRQMFDVAIQAAIGA
+NIIARETIKALRKNVLAKCYGGDITRKRKLLEKQKAGKKRMKQIGSVEVPQEAFLAILQV
+ED
+>tr|A0A0P0LKU1|A0A0P0LKU1_9BURK
+MNLTGGWHWHWRAWRSQERWAPAAAQISDWLLAQTMPRRQLVLIGASAGWMLPTDWLTQF
+EEVHAWDIDPLAAPLFRWRHGAGFKREGTRLNLHTGDGLAPLSELIQTMPKAFFWFDNVL
+GQLRFTDPSTDAVVQRLTNLQRQLKRVAWGSVHDRMSGPHTPGTSFPMAHRSGAGLAMET
+PEGQAWLRKMGAISPWLDHLTEGVLPQGTPVQYTAWAFKAGYAHWLEMGWTEPS
+>tr|A0A0P0M945|A0A0P0M945_9BURK
+MLFKFKSQVTSDLIMLEADARRLLHIMLGHDPDKGIILVKDLPAAIAKLESAVAQDEAAR
+LQRSQAAQKALMPADTAQDTTGEALDPVRLAQRASPMLKLLKHCVADPSDMVWGV
+>tr|A0A0P0MAG6|A0A0P0MAG6_9BURK
+MKELPNPTFALSPVQLPRGSLHPESPGTGLEFLPRRVQSTIAVSWATHLDEVREAQRLRH
+QVFATELGARLPKTVPGHDIDLFDDYCEHLLVRDSASGQVIGTYRVLTPVQAKRAGSTYS
+DTEFDLTRLRDMRGRMVELGRSCVHPDHRHGGVIMALWGALFEFMDRNRLDTMIGCASIP
+MLHNGLVTGNAAASIWHQLRQSHLADIQFHVRPRLPLPVEELDATLPIEPPALIKGYLRL
+GAKVLGAPAWDPDFNTADLPMMMRTADLPQRYRKHFSMGAL
+>tr|A0A0N7J8M5|A0A0N7J8M5_9BURK
+MTDPGGASVRSLSPFSMKLLLDFFPILLFFGAYKMADIYTATAVLMGATVLQTAIIYKMD
+GKLQTMHKITLVLVLGFGALTLSLHDERFIKWKPTLLYSGLAIALAVAHWFLKKNFLHML
+LGTQLQLPHAVWNRLNLSWMLYCVFMAAINAYVAHYFSTEDWVNFKLWGYVFPLVFILGQ
+GLYISRYLPKDEGDQK
+>tr|A0A0P0M7H1|A0A0P0M7H1_9BURK
+MKFNPLSWLVPRGPVWRSVLYLGCLCMVTDSGAQTPQSPKPEGSIEAPSSKSAWVRHPVD
+DHRPISLNFQNVEISTLLQVFAEFTGLNLVATDSVKGQVTVRLTDVPWPQALNIVLQSKG
+LASRQDGRVLWVAPQHEWAQREKMQLDAQAALEAVSPVQTMSMRLQYARATDVAQRLQGA
+GLGGGGRWLSGRGSVLAEPRTNQLFISDLPQRLAEVQKLVAQLDIPVRQVLIEARIVEAD
+DQFGQSLGVRLGAGLAVPLRVNQRANTLAVGAGNAETGAGVVTGNQVKLPAGSAGQTLNT
+PASFAVSLFNAAADRFINVEISALEADGRGKVVSRPRVVTADQTKALIEQGTELPYQTAS
+ASGATSITFRKANLKLEVTPQITPDGSVVLEVDVNRDSVGQVTPAGFAINTKHVKTQVRV
+EDGGTVVLGGIYEETDRNNEAKVPGLGDVPGLGWLFKNRDQTRRKSELLIFLTPRVMADG
+PVAVPP
+>tr|A0A0P0LQT2|A0A0P0LQT2_9BURK
+MHIPLPTHTLYAYTGGKPFNPAQPTAVFIHGVLNDHSVWILQTRYMAHHGWNVLAIDLPG
+HCKSEGTPPQSVEEAADTVIALLDALKIEKAALIGHSFGSLIALEATARDAVSHPGRVSH
+LVMVGTAYPMRVSPALLDLSVSAPFKAIDMVNSFSHSTLAPPPSALGPGTWLYGGSKALM
+RRVLASNTQVNVFHTGFKACDNYRGAEAAMPQVSCPTLFVLGSADQMTPPKAAQSLIDLN
+KQAKVVKLPAGHSLMTEAPEGVLQALKDFLKQ
+>tr|A0A0P0M6Y6|A0A0P0M6Y6_9BURK
+MSGDVTDWAMGKLIEQRLEIIDRTPENFLVVRSEGEYTFNVAVLGVKNVVELTDVEHLFS
+GATTPQLAVNIPSKTLWSGAAIDRIHAAYAAFGTLGDVSRAASTKNAGTYRDKDMGFFIN
+AMKQHTNVSGVSYIYDRVFKVDQRIGTGLIVSVIDTYNMSAEDVRNAKSQFGHFDVIVKS
+SSYGAITDQAETAAKSIGAQALTFRQLLGRLSK
+>tr|A0A0P0MBN1|A0A0P0MBN1_9BURK
+MLDQTPAWLPGGHAQTIWPALYAKRRWGPRKPLLRERWATPDGDFLDVDKQAASRVDRPL
+LVLFHGLEGSSDSHYAQAFADWAAEQDVHFALPHFRGCSGELNRAPRAYHSGDHEEIHWL
+LDRFRQEHQSSGGQKMIAAGVSLGGNALMRWAAEHGHQACKQVDAVASVCSPLDLMQSGL
+AIGRGLNRHIYTPMFLRSMKPKAMAKWAQHPGLFDKDALLAAKDLYAFDNVFTAPVHGFK
+DTADYWTRASAKAKMGDIRLPALALNALNDPFIPTDSLPRSSDVSPSVTLWQPKNGGHVG
+FAQGRWPGHVRAMPDAVGGWLLQAAGQSEKTGVSSYG
+>tr|A0A0N7J8K0|A0A0N7J8K0_9BURK
+MKLLLYALITFATITLGVYLYGHTLAPVRSGTATNACTAPAHVLLATILDVESQPRWRTS
+IASIQRTGEASSWVEKKSQREEITFKLLDTSQDFVSMSFVSNQGYYGKWRAEFKEHNATG
+TMITATEEVTVQSPLGRVLSQLFFNPEEFAASYLKELCFEAERRAVNSNK
+>tr|A0A0P0M6X7|A0A0P0M6X7_9BURK
+MHCFRKKSTKGLKIAMSVNDVPVIRGQLQELVSGYQPSGEVVDWVHMAQEREALALGQ
+>tr|A0A0P0M9S2|A0A0P0M9S2_9BURK
+MPQAHDLEPGLVVATYGRHCLVETPEGRRLICHPRGKKNQVVVGDQVLWQIAGDEGSIEK
+LQERRNLFYRQDEIRTKSFAANLDRVLILIAADPEYSESQLSRALVAAEAERITPIIALN
+KSDLAQPFAQAWERLAPYRAMGYSVMPISLSPRSPVADDGVAALCAHLQGLTTLVLGPSG
+SGKSTLINRLVPDAQVETGEISLALNSGKHTTTSTRWYWVPALDASTQTGDENGAANDAA
+RTALIDSPGFQEFGLHHIEPTRLADCMPDLRQHLGGCKFYNCTHLHEPGCAVLAQVETAE
+HPGTISVRRHRIYAQLFEELGQQRW
+>tr|A0A0P0M7X9|A0A0P0M7X9_9BURK
+MNTLPQHDWQPGRQTPQTQGLNRPMAWIGVMLLAMLVAVGLARWSGLDPRTPDAAVQWQR
+DLQFRDLPSGDIAVLDHRTGQQVALFSGEQGFLRSTLRALARERQRESLGKEAPFLLIGR
+TDGRLTLQDPSTGQRIDLESFGPSNAAVFASLRLAGPTAP
+>tr|A0A0P0LSJ6|A0A0P0LSJ6_9BURK
+MKLIKAHITNYKSVLDTGEFTLAGVTCLVGKNESGKTTVLQALERINPVDKSKKIFDKDL
+EYPRGYLAEYEDRHGDKEARVITTTWILDAEDVGAVEAELGENCLKSHEIEVAKDYGQDT
+RSWTISLDEAQIVSSLLTRYGVKAVEKKQLNVTSIKDFVAKVAALADASAEAKAAVAQVE
+KFRSGSVTFKAVDILIGRMPEFLYFSSYDRMDGRVQLEALEAARAGNVLNSGQQIFLDFL
+DFAGTSAQELQSATTFEKLKAKVEAASISISKQVFSYWSQNKNLKVEFTLEAGRSGDPSP
+FNNGYVMHTRIRNKLHDMTVPFDDRSAGFTWFFSFLVKFSQVQKRQGNVIILLDEPGLNL
+HAKAQSDLLRYFKEKLEPKHQVIYTTHSPFMVPTENIMSVRTVEDVVVYRQGEEPAVLGT
+KVGDEALSTDRDTLFPLQGALGYELSQSLFVGEHTLIVEGPSDVLYVQAFSNALKALGRK
+HLDPRWTLCPAGGVDKVWAFVSLFGGNKLHVAALIDYANGQKNNVEKLRKSQLLRDGHVI
+LATDFCGQAEADTEDLLGDDLFLELVNAAYDIADEKKLVSATLPAGPGANLRIVPKVEAA
+MKLVASAREFDHFHQASWLIQNPTVLDATRHATAFHRFEVLFEELNKLLA
+>tr|A0A0P0M8A0|A0A0P0M8A0_9BURK
+MKTSHPLSTATLSLLLLAASPAQAQNTVTAAAAQEPGAQVTASGMVYRSLKDGTGASPKA
+ADTVRVHYRGTLPDGKEFDSSYKRNESIEFPLSRVIPCWTEGVQLMKVGGKAKLTCPPAT
+AYGDRGAGGVIPPKATLLFEVELLAINGK
+>tr|A0A0P0MAW0|A0A0P0MAW0_9BURK
+MNKKLMTLMLAGVMALGSLNAEAARRMGGGKSIGQQSNQVTKRDAAPQTPAAPAQNAAPT
+NAAKPAAAPAAAAPKKPWGAMLGGLAAGLGLAWLASSLGMGEAFGNILMALLIGVAVLAV
+IGMIMRARRGNAGQTGGLAYQGAGASAENPATFKQYSPQNVGNDASARPWEGQNTRFDSS
+AASATTGSMIGSGIGSGLNASTSDSLSGSQTWGIPAGFDVDSFVTAAKRNFVTLQDAWDR
+SDISALRSMMTDAMVVEIRNQLSEREAQFPGQPNKTEVVMLDAQLLGIEEQADAYLASVE
+FNGMIREDAASGPSPFREVWNMSKSKQGGGWLVAGVQALQ
+>tr|A0A0P0MC10|A0A0P0MC10_9BURK
+MDYILSIDQGTTSSRAVVFDRAGQVVAMAQREFTQHFPRPGWVEHDATEIWTTQLAVLRE
+ALLHAGITARQVRALGITNQRETTVLWDRRTGEPVAPAIVWQDRRTAGLCADLRAAGHAP
+EIASKTGLVIDAYFSGTKLAWLLDHVPGARARAQRGELAFGTVDSWLLWQLTGGRVHATE
+PSNASRTLLFNLKTGAWDQDMLALLNIPAAVLPRILPSCGQLAETDAHLLGASVPIAGWA
+GDQQAALFGQACFAPGMAKNTYGTGCFMLMNTGDQPVASHHQLLSTVAWQGPDAAQRPMA
+YALEGSVFMAGATVQWLRDGLQIIDSAARVEALAASVQDTGDVFLVPAFAGLGTPDWDGQ
+ARGTLVGMTRGTGRAHIARAALEAIALQTADVFRAMSADSGLALTELRVDGGASQNDLLM
+QIQADVLGVPVVRSRISETTALGAAYLAGLATGYWSGAKELEAQWQEERRFLPQWQETQR
+TSHVARWREAVSRSRAWAEN
+>tr|A0A0P0LFZ1|A0A0P0LFZ1_9BURK
+MSKKTLKSKHTQHANNRLEKRLHDTLTAYRSLVDIASSNKLLTESECTDRVNQFVALSEE
+SRHIVMCCTYHFGAKTMPNVYAERWTAKAFSTSKNTGYPGILKSDYQISLWNPKGMDVDD
+QKIGSTLGKIVAKLWLGEKRQFGWANDIAWATYDQGQNFVLFCLPKDEWVSALEAGDGCG
+SNFYTKEEFV
+>tr|A0A0P0MAC5|A0A0P0MAC5_9BURK
+MTADSASIDLKHHFLIAMPGLEDETFARSVIYMCEHSARGAMGLIINKPADISMRHLFDK
+VELPLRREDLMESPVGHGGPVQTERGFVLHEPLLLDKPAQDGPVYASTLTIPGGLEMTTS
+RDVLEALSSGVGPRRVLVTLGYSSWGEGQLESELGENTWLTVPASANVIFEVPMADRYDR
+ALDLLGLKSWMLSPDAGHA
+>tr|A0A0P0MB97|A0A0P0MB97_9BURK
+MQNILSPLQAQLVQWLVAPGATVAAGDVLVILEAMKMEHEIRAQQPGCVGELFFQAGEAV
+AEGELLGVLMPVTNAAAQPEVADPTPQTPPPLDKRSDLHKLQTRLAFTHDAARPEAVAKR
+HAQGLRTARENIAALCDPDSFVEYGALAVAAQSRRRSADDLMRNTPADGMVTGIGCVNGQ
+RVVVMAYDFTVLAGTQGMRNHQKTDRMLGVALQNKLPVVLFAEGGGGRPGDVDVAIVAGL
+NLATFASFARLNGRVPVLGVVAGRCFAGNAALLGCCDVIIATKGSNIGMGGPAMVEGGGL
+GVFKPEQIGPSEVQHGNGVIDVLVDNEAQAAAAARQYLSFFQGTPAPWQAPPAEALRHVV
+PENRLRVYDTRTAMQGIADEGSLLHLRTGFGVGIHTALARIAGRPVGLMANNPLHLGGAI
+DADAADKAARFMQLCNAHGLPIVSLVDTPGFMVGPDTEATAQVRHVSRLFVAAAHLRVPL
+LSVVLRKGYGLGAMAMTGGGFHETLATVAWPTGEFGGMGLEGAVRLGYRKELEALPEGPE
+REALFEQLLAQQYDNGSAINMAATLEIDAVIDPAETRNWLVAGLASGQTRPFDGTLAIDT
+W
+>tr|A0A0P0MA29|A0A0P0MA29_9BURK
+MSEPQSIEHCIRANLEIYFRDLDGTDPNGLYDMLVKLVEKPLLDVVMTQSGQNQSRAAEW
+LGLNRNTLRKKLLEHDLLK
+>tr|A0A0P0LGV8|A0A0P0LGV8_9BURK
+MAGLKKDMPRPESLTLHGQTRVLEIGFSDGAQFRIPFELMRVYSPSAEVQGHGPGQEVLQ
+TGKREVGIVEIEPVGNYAVKPTFTDGHESGLFTWEYLYFLGDQQEALWKQYEDRLLAAGM
+SRDAPMVEASAGGSCGHKH
+>tr|A0A0P0M9F9|A0A0P0M9F9_9BURK
+MATSSIVNTLGAGSGIDVKALAQGLVDAEKIPRKERIDAKIAKTEAKITGFSAIKYALSE
+LKTAFAKINDASEFASIKPSNTQASAFGVTANSSAQAGSYGIEVLQTAQAQRTASGSFAN
+RSTPLNGGSAFTLNLTLGGVSQDPIAVTTATPAGMVSAINGADLGVTAQLINTGSGFNVV
+LTGETGATQSFTLSSDDGSGNAVANVSFTNHLQTASDANFKVNGLNVTRSTNSISDVIDG
+VTLDLYTNTTGAARLDLNRETTGIKDNLKGLVTAYNDFEATLKILGDAGSEVEEFGGALA
+GESLLQTVRTQVRDFIINNSSSPGTNIKAARDVGISFDRNGKLTLDETKLDTALQNHFGE
+VSTMFTAGANNQSIYSVASGGLAGDAVKRIEKMLLSTGLIDTQSKSATNQITKYKAELTV
+LEDRMEKLMTRYMNQFSVMESIVGSSTSMRESLKGSFEGMMNAYNN
+>tr|A0A0P0M6U8|A0A0P0M6U8_9BURK
+MAKTPESTPRRSAPSTSGKRIQVRRSGVHGKGVFALQDIAEGETIIEYVGEIISWDEAQD
+RHPHDPNDPNHTFYFHVNEDRVIDALYGGNSSRWINHSCGPNCEADEENDRIFIKALRNI
+KAGEELNYDYGLIIDEPYTKKLKAEYPCWCGSAHCRGTLLSPKDRKDTPKTPSQKKAKGQ
+TKDKTPSQVKVKAKEKAKTKAKAAEKSKAQTKPKSNSKSKSGSSSKASKA
+>tr|A0A0P0M953|A0A0P0M953_9BURK
+MSKSYKIKVNQGGGEAKFVDIPQVSAGGQPLAVKAVPGGKYQLVDASTGYGPENIRASRS
+GQNLKVFFEGRTQPDLVIEDYYKETPEGFNGLIGEAETGRFYEYIPETAAGTSAVPLLAD
+GSNQVGMALGGAEINASGAAVGALVAAAGLNPLLLAPLALLGAAGGGGGGGGTPDTTPPV
+IKSAKLHVDDDTGAKDNVTSDKTPRITGETEPNANVSVEVNGKTYTGTANGSGVFVIQVP
+DADALKDGPYTPKVTATDAANNKSAVFDGTPFKVDTSPEKNEPDNDPNATSVIDIVSITV
+DSGQNKTDFYTNDNQLLFNGTLKNFTDNGDWVKLELRDPTSKLIDTAYVKPVANGSTWDW
+TWDRSAQDKLVDGQYSLTAVVVDGADNIVGSGNTRVSDVQAITIDTVGPQGNRGLAIVSM
+SMDSGVGGVTDPSRTDFKTNDNTPSFTGKLSEGLQSGENIFIQLMKGNDVVDSGFATVSG
+TGWTWAPSTTLLDSTYKLNAQVVDAAGNPAVTAGSTTVIPPSSQDVVIDTKGSSDGDDGN
+KGLKTTGISLSTDTAGEQKTNSDFVTSDGANKDSVTGNDDDKLTFTGTLSSGFTKNGGKV
+WVQIIDANGVAKSNAYVEPETVNSNTWKYENLVPLAEGQYVAKSILMDHVGNIISASDQS
+FAVDITISDWTRSQSTTSGQNITTFDNFSFSMNESGTYRFGPNGELKNYNGGSLIFDAAN
+KEFSTGQFVLDFWDQAGNLRKITNEGGTWIFGTAAPAVAPQPTDATYLASKDFSGLKAVG
+TVGKIDVSSNFDMASLYDGIDSVADKTAANHVVLSNTSDVILNVSMGDVLALGVTNSFSI
+AVGANSLHKGQTQMRIDGQSGDQVNLDGLVNGEKWVWTGGENSTNSPLGIGSDTYDVYTN
+TALGVALFIDQDVKVNIL
+>tr|A0A0P0MAR2|A0A0P0MAR2_9BURK
+MPIRFIRTGLALLLAATAFQASAQDFPNRAITMVMPYAAGGPGDTITRLFAGAMQKHLGQ
+QIVVDNTAGASGSIGTAKVARAKADGYTLLMIHVSHATNVAMYKSLPYHPVDDFEPIGRA
+TSGPMVIVARNEFPAKNLNEFVAYVKANGPKVSLAHAGVGSASHLCGLMMMNALNVKLNE
+IPYKGTGPALTDLMGGQVDILCDQTSGTVPSVKGGKIKAYASAGKARLPQLPEVPAITDA
+GVEGFDINISFGLYAPKGTPKPVLDQLTSALQKSVADPEVRQRLEAMGIAAVSVDQARPE
+ALRAHLKNEIDTLGSLLVKAGVKAN
+>tr|A0A0P0M9I5|A0A0P0M9I5_9BURK
+MSLPNLHIAVLLTNNDTSAFAAHFPNDGQKVVQLLQPLLSNWVFEVLPVKDGVLPSDPQA
+FDGYVITGSPASVNDDSLPWVGSLLDFIRAVDAARQPLIGLCFGHQAVARALGGQVALNA
+AGWGLGTAATHWQRTRPWMQPAQSTTTLMAAHNEQVTRMPEGAECLGGSDFCPIGSMQIG
+QHIWTTQYHPEMPLVFMQALLGFLADKLDTNTLARAHASLQQAADVPLFGQWMAQFIEHA
+RNTRP
+>tr|A0A0P0LH48|A0A0P0LH48_9BURK
+MSLMETVQSLAQSAMGWPELSAAQKTLCVYGLVMVALLLPIYALSWFDLRTLREVGIWAK
+PMKFMAGTALFALTTVWLSTWVPGQVGHDPSFPWIATLIIVTSLFEVVYITVQAAKGEGS
+HYNTTDPLRAMMFGLMALAAVGLVASQAWLAWVIWKALGSAVLTPTTLAVLCGLVLTFAL
+STVSGFMLGGKQPPAGVGWPVVGWHTWQDLRPAHFLAVHAQQFIPLAGLLAERLMGQAAI
+PGVIAFTLSYLAAWVALSVMGMAG
+>tr|A0A0P0LSU8|A0A0P0LSU8_9BURK
+MDMPINHFKHAIQSGQKQIGLWSHLCSNISTEILAHCNFDWLLLDMEHSPNDLTEIVAQL
+QAMKGSPTTPIVRPPWNDMVTFKRLLDVGVQTLLVPYIQTEEEAQQAVSYTRYPPHGVRG
+YAGAPRASHYGRVKGYAQHSSEEICVLLQVETVQGLQNIEAIANVDGVDGVFIGPGDLSA
+ALGHLGNPKHPDVLKVIDESIARIKACGKAAGILTGDETLAKHYVDQGCLFVAVGADQNV
+LRDSATALAGRFKS
+>tr|A0A0P0M6S7|A0A0P0M6S7_9BURK
+MNKYLQPLALLVSALGLYVGAAVAQGTLRNEVIKPLAAAQEAIKNNQNDQALGLLRDALA
+VPQLTAAEKNMISRTQAVAALRTQKWTIAIEALESLVTSADVPQADKRPLLESLINASLQ
+TKDDARVVKWARQFMQDGGANPAVHLAMLQSLTASGQHAEVVRVMLTKIRQDASAQQKTS
+ESELRTLAFSYRQLKDDAGYMNTLKQLLSNYPSKAYWAEVIGRMSQQAGLNARLELDLYR
+LLEQTDNMEDAAEYVEMATLALKAGLPSEAVRVMTKGFAVGILGQGAEAAAQTKLLTDAQ
+KKVQEDDALFAQLEKSAKDGVSWAAVGDVYFSRQNWKAAHAAYTQAMALGGLRREYEVRL
+HDGISLAQAGQKVAARQQLSLVSGDVTAVELAALWTILSR
+>tr|A0A0P0M7X4|A0A0P0M7X4_9BURK
+MFNRGWKFLALSVGLCLVQGAAQAQEFLSKPVRIVVPQTPGGASDALARIVGQKLSEKWG
+QAVVIENRAGAGGNVGMEHVAQAAADGHTLLMSYAGSHAINAALYKKLPFDPEKDFEPVA
+TLATLPFVLVVRPDSTVKSIKDLAEQGQRTPLTFGSAGNGSVNHLLGVMFNAAANTKLEH
+IPYRGAAPAMQDLMGGQINMVFTSLPSVSGAIKSGTLRPVAVTSAVRSGNFPNIPTIAEG
+GFKEFDVSPWFGLFAPAKTPAAVVRRINQDVQDVLKNKEVIERFNGQGADVLITQPAEFA
+GMLKRDLAKWAVVVKASGAQID
+>tr|A0A0P0MAN3|A0A0P0MAN3_9BURK
+MRTSLDFPDALFKHLKTRAAQEGRTLRDLVIELVERGLTAREVVDPQKRFLARPPVIPSQ
+GPMALPVSHMTNADLYALINEEDDERTIKLLGRG
+>tr|A0A0P0M7Z2|A0A0P0M7Z2_9BURK
+MTLIDKNTTFWGYRRENGRVGVRNHVIILPLDDLSNSAAEAVAHAVKGTMAIPHPYGRLQ
+FGADLELHFRTLIGAGSNPNVAAVVVIGIEDSWTKTVVDGIAATGKPVVGFGIEGHGDHD
+TIMRASKAAKKMVQHATSLHRVECPISDLWISTKCGESDTTSGCGANPTVGNAFDKLYGL
+GTTLVFGETSELTGGEHLVAARCRTEQVRTDFMKMFNNYQDMIKRHATTDLSDSQPTKGN
+IAGGLTTIEEKALGNIQKIGKQCMVDGVLDKAETPTGPGLWFMDSSSAAAEMVTLCAASG
+FAVHFFPTGQGNVIGNAIVPVIKICANPRTVRLMSEHIDVDCSGLLQQEQTMDAAGDLLL
+DMMMQTINGRFTSAEALGHREFVMTRLFESA
+>tr|A0A0P0M7V0|A0A0P0M7V0_9BURK
+MSVDLKTWMQPHLDRVEQALSAGIAAESPAALGQAMRYAVLDGGKRLRPLLVLATAEAVG
+HEASSAAAINAACAIELIHAYSLVHDDMPCMDNDVLRRGKPTVHVQFGEAQALLAGDALQ
+TLAFEFLTPPHGGVPAAVQAACVGLLARASGYQGMAGGQAIDLASVGHKLTEDQLRQMHR
+LKTGALLLCSVQMGAACVPGVSAPVQAALQRFGEALGLAFQVVDDVLDVTADSATLGKTA
+GKDEAADKPTYVALMGLDAAKAYADALAAQAMQALADTGLPDDRLAALRALTAMVVERNN
+>tr|A0A0P0M8Q5|A0A0P0M8Q5_9BURK
+MQHSKILILDFGSQVTQLIARRVREAHVFCEVHPCDVSSDWVREYAKDGNLKGVILSGSH
+ASVYEVDDRAPDAVFELGIPVLGICYGMQTMAQQLGGKVEAGTTREFGYAEVRAHGHTEL
+LKGIEDFATAEGHGMLKVWMSHGDKVTAMPPGFKVMASTPACPIAGMADETRHFYAVQFH
+PEVTHTVQGQALLNRFVLDICQARQDWIMGDYIEEAVAKIRAQVGDEEVILGLSGGVDSS
+VAAALIHRAIGDKLTCVFVDHGLLRLNEGDMVMDMFVGKLHAKVIRVDASDLFLGKLAGV
+SEPEAKRKIIGGLFVDVFKEQAAKLKAGDGGHKGATFLAQGTIYPDVIESGGAKSKKAVT
+IKSHHNVGGLPEQLGLKLLEPLRELFKDEVRELGVALGLPREMVYRHPFPGPGLGVRILG
+EVKKEYADLLRRADAIFIEELRNFTDESGKTWYDLTSQAFTVFLPVKSVGVMGDGRTYDY
+VVALRAVQTSDFMTADWAELPYALLKKVSGRIINEVRGINRVTYDVSSKPPATIEWE
+>tr|A0A0P0LI52|A0A0P0LI52_9BURK
+MKASFSKVVGFWFTLMSITPTQADGLLDFTLFSPPEVSQRRLPEPEVSWLVRPNASNFCQ
+QAQPKDGFVSRPEGCVYWQIQASRCTIVTTGQTTHSQLGHLFVHCLQAR
+>tr|A0A0P0M8V1|A0A0P0M8V1_9BURK
+MTIAIFVFSLLGAMAIGIPIAFSLLICGVALMWHLDMFDAQILAQNLLEGSNSFPLLAVP
+FFMLAGEIMNAGGLSRRIVNFAMACVGHIKGGLGYVTIMAAVIMAALSGSAVADAAALSA
+LLLPMMVAAGHDRARSAGLIASAGIIAPVIPPSIGFVIFGVAGNVSISKLFMAGIVPGIM
+LGASLWITWWWLARREVVQVPPRKNMREIGVAMREATWALVMPLIVVFGLKFGVFTPTEA
+AVVAAVYALFISTFVYRELGLKDLYPLFVSSAKTSAVVMFLVAAAMVSAWLITVANLPAQ
+LIEILQPMLDSPRLLMFTIMVIIILIGTALDMTPTILLLTPVLMPVVKAAGIDPVYFGVL
+FIINCAIGLITPPVGTVLNAVAGVGKISMDEVTRGVMPFMMAQFVILFAMVAFPALVMVP
+ARWFY
+>tr|A0A0P0MBH4|A0A0P0MBH4_9BURK
+MNMTQHRFYEGRPVAFLTQHGKQDLVREPLEAALGCQLVHTDAYDTDQLGTFTRELTRAG
+SQLDTARKKATLGMALTGASVGMASEGSFGPDPFGAFMPWNTEVVLWVDPLQEIEITGFA
+HGPAQSLHRMVKSLQELERFATEAGFPEHHLVLRPENPDHPDMDKGLRDRDALVNAFVLA
+QAKSANGVVFVENDLRAFCNPTRQKTIVKATGDLIQKLLSVCPSCESPGYWLSQQVPGLP
+CRDCGSLTRLPKAEIWGCKKCGHEEQKTTNAQPWADPARCDFCNP
+>tr|A0A0P0MA51|A0A0P0MA51_9BURK
+MPLQAQALGQALGEDLTLHTTLCRREAGQFQKAVKTGETVVVACTQEKRLFSELAEQTEG
+AISPIRFVNIRETGGWGREAAHATPKMAALLAAARLPEPEPVATVTYKSEGRVLIIGAID
+AAERAASFLADAMQVTIFAQGPGNAGGSQERRFPVLAGRLQGFKGWLGAFDVSWDASNPI
+DLDLCTRCNACVAACPEQAIGLDYQVDLSRCTSHRDCVKVCEAAGAIDFSRDARPQTERF
+DVVLDLRGDQASPTFTSHALPQGYFRWDGQDLSTLLKVRELVGEFEKPRFFAYKQKLCAH
+SRNEQVGCSACIDICSAEAVRSDKSRQQIVVNPNLCVGCGACTTACPTGALTYAYPRPAE
+QGAKIRALLSAYQAAGGRDAALLLHSQEKGQALIDELGRGAQLGVMQGVPARVIPVALWH
+TASVGMELWLSAVAYGARQVMVLLTQEEAPQYRAALMEQMAVAQSLLNGLGYTGAHFQLI
+EAKTASALDGDLQRLCARSLKVASLPTGPAVAARHAVQAEKRSNLELVIDHLMAQSTVMA
+MDEATRPKALDLPAAGSPLGSITVDGSKCTLCMSCVGACPSSALQDNPLQPELKFVEKNC
+VQCGLCAKTCPETAITLQPRLSLMPERAQPRVVHSSPPYACIRCAKPFGTLKAIETMLGR
+LTGHSMFQGPALERLKMCGDCRVIDMFTDENQVRITDGPLPPKTR
+>tr|A0A0P0MB02|A0A0P0MB02_9BURK
+MKKQKANDNAASQLPPEVRPGQSVELLKELHILTRDGKLNQDSRRKLKQVYHLFQFIEKL
+LKELPASDKGPTLADHGAGKSYLGFIIYDLFFKALGQGTIYGIETRSELVESSKALAQKL
+GFDRMRFLNVSVAESTQSDELPAQIDVVTALHACDTATDDAIAFGLQKKARYMVLVPCCQ
+AELARALNQNKALDLQRTPLAELWRHPLHTREVGSQLTNVLRCLYLESQGYQVTVTELVG
+WEHSMKNELILAKYTGQKKRACGERLLALLQEFGVEALMGSRYPLVTRPEAV
+>tr|A0A0N7J962|A0A0N7J962_9BURK
+MDKKQLSESDICDKFIRPAMEQAGWHGFDQIYREFPLRAGRVSVRGNKAHRDLSTVLRAD
+YALFFKANIPIAVVEAKDNNKPMGSGMAQAINYAELLGVPFCFSSNGDGFVFRDATLADG
+VLEKNLTLDEFPSPQDLWERYCAWKGWTPAVRQVAEFDYAPSKTPRYYQINAINRTVEAI
+AQGQNRAMLVMATGTGKTYTAFQIIWRLWKSGAKKRILFLADRNILIDQTMVNDFRPFKG
+AMAKLSPNAKGVERVDAQGQVTLENVDLAVNKTTKLVDKSYEIYLSLYQAVTGTEEERNI
+YKQFSPDFFDLIVVDECHRGSANEDSAWREILTYFGNAAQVGLTATPKETQDTSNSDYFG
+EPIYTYSLKQGIEDGFLSPYKVVRVDLDKDTFGWRPTQGMTDKHGHLIEDRIYNATDMNR
+KLVLEKRDEVVAAKITEYLKATDRYAKTIVFCEDIDHAARMRQALANANADICKDHPKYV
+VQITGDNAEGKLELDNFIDPEKTYPVIATTSKLMSTGVDAQTCKLIVLDQNIKSMTLFKQ
+IIGWGTRLREDLGKTWFTILDFKRATELFADPKFDGEPVQIYQPKGDEPVTPPDELTGTP
+GMGDPLTTGQPDPLADPFGAQAGGYTAPGAGGDAEPKKYVLGGMVTVAVARERVQYLSAD
+GKLITESLRDYTRINLAKQYDSLDKFLQAWNDADRKAALVEELEKQGVLIEALAEEIGKD
+LDPFDLLLHVAYNQPPLTRRERANRVKKRNAFTQYGPVARKVIDALIDKYADEGIATIES
+NDVFKVQPFTQMGSASELVKSFGGRPQYLGALQTLERELYAPQVTVMPANAGIHPPDSRA
+>tr|A0A0P0LME5|A0A0P0LME5_9BURK
+MTQRYLPGQPHQLPRHNQPMAGYQPEHFLLSVKDGVATVSLNRPERKNPLSFDSYAELRD
+FFRALPYAPDIHAVVITGEGGNFCSGGDVHEIIGPLTKLDMPGLLAFTRMTGDLVKAMRA
+CPQPIIAAIDGVCAGAGAILAMASDLRYGTERSKTYFLFNKVGLAGCDMGACALLPRIIG
+QGRASELLFTGRGLGALEAERWGFYNRVCEPGTVLAEAQAIAAQLVAGPTFANGITKKML
+QQEWNMGVDEAIEAEAQAQAICMATNDFHRAYHAFVAKQTPVFEGD
+>tr|A0A0P0M818|A0A0P0M818_9BURK
+MTLLAILVGTLVAGIGSVWVAAWLSFGILSRYTQHMLSLAAGALMATSFLHLLPEAFESE
+AGAHELFLTLLVGLLFFFLLDKAELWHHGHEHGHGHGHDHGHGHDHAHEHGHGAQPADPV
+HSAHADKESPRGQWAVLAGDSVHCFGDGILIASAFIADMRLGVIAALAVLAHEIPHHMGD
+LAVLRQGSSSRQAAILKVSMAGAITALGGAVGFVLVDALHQWLPYFLVVASSSFVYVALA
+DLIPQLQKRLSARETAAQILWLSVGIGMVVLVSALAGHQH
+>tr|A0A0P0MAY5|A0A0P0MAY5_9BURK
+MIRRQLLATLTLTALTLPGVALAQAYPDRPIKIMQGFAPGGNADNIARTVGMEMSKGLGQ
+NIVVEAQAGAGGTIAATTVAKSRPDGYTLLLATGGHAVAGALYNNLAYRTVQDFEMVSTI
+TYFPFLVVVPANSKYPNLTALLAAARANPTELSYGTAGIGSTHHLAGELLASMSKTKLLH
+VPFRGDSASLTALLGGEIPMIIAPPTAVLANIKAGKLKAIATTGPQRWQGLPDVPTAAEQ
+GVAGYDVQSWAGLMAPVGTPRPVVDRLNAELQKALLVPAVKARLEEMGGEVRGSTSDEMR
+TMVANQTQKWIQVVNEAKIPKN
+>tr|A0A0P0LBB5|A0A0P0LBB5_9BURK
+MENTNHSISNYKHLLADIQKKAANHCKKNGRYDENLFNIGVELGRLLQSNNIEEHRLQVF
+ADFELAEIEFKKLDKRIKNIKNIIGFFIIHALAEQVIENGSFSFDGDGDLSSCEKLDELI
+SNKFSVQISSVSQNQHGGNFEVGVELNGQIAEILNRYEISRFVTFEIDNTTGGDYEVFNN
+PNDISQIYYIGMSLDAKYTELTESQLIDLEKSLKEVQLFLLLSLDKVYSYNF
+>tr|A0A0P0MA44|A0A0P0MA44_9BURK
+MNAMPPQVLECLSQNDGSWVNRLLASLVLAGSLAACGGGGSGLGHSGAGVHSGMPNELPS
+PNPVAVVLAKPVLSFTDTGLSVSDGVTRIGAWQVSSLVGWEYSFDMGVTWTRGEGDFFDV
+RGDGAKSIWVRARDDLGRTSEIVMVSCVLDTTPPAPVQAEVATQELTRLVRVSGIEPQGS
+WEYSMDDQRTWWPGTGNRLAVLGNALPVMWLRQVDLAGNPSPFERVNLMEPGSPTWHEAS
+GNPIQPSMLSLQQARTVVLHGSVVRGDADYIRWEIPVGQRLQALRLVHYVSPDPIAFFAL
+QRAPVFDAGIDVNRMLVYGHMGPQDLKRNVLKDVAAGQLTAGPMTLWFQQTGPQATEYAI
+ELVFAPVE
+>tr|A0A0P0M7H0|A0A0P0M7H0_9BURK
+MSMIHSRQQTYAGIDHEEHHGMSMTGRIVRDAWVFGLLPEGDGFAGKHAGELQNLFEAVH
+AAWEPYGQLPSRLPPELAAKHARIHDEAMKRAKGMGWDAELGDDD
+>tr|A0A0P0M9J4|A0A0P0M9J4_9BURK
+MNKVLNVSKEGQPWWRFGLVWMVIGGPAVVVVAGFITFYIAATNPDPVLNVTPRTAMQER
+QGITHVPAMQGRNHAATGELPAALQKPAAEPTKP
+>tr|A0A0N7J990|A0A0N7J990_9BURK
+MATATLAGLKLTAAQKSTSINPVQLRRNKMSKRLWEQIQLAKAQTSGSQFSASKFRTIID
+SETGVRKQVEVPKRVKAWWFIAENGKTAITVRYGARVLELAKGKFAIEISSPNELVSTLE
+VIKSAIEVGELDTQLETTAGNVRSSFQR
+>tr|A0A0P0MBL1|A0A0P0MBL1_9BURK
+MGQLALAAKITHVPSMYLSEIPGPRFGTRQSAIDGHKEISRRCRALGVDTLVVFDTHWLV
+NANYHINCAPHFKGSYTSNELPHFINHMAFESPGNPELGHLLAKVANAHGVETLAHDNTT
+LDPEYGTLVPLRYMNEDQHFKVVSVSALCMVHYLSDSARLGWAMREAVEKHYDGKVAFLA
+SGSLSHRFAQNGLAPEFAHKIWSPFLEQLDKQVLQMWGNREWKAFCEMLPEYASKGHGEG
+FMHDTAMLMGALGWTGYDGGVDMVTPYFGASGTGQLNAIFDVTPQDGSQVPAAVASRAEG
+YTAISTRL
+>tr|A0A0P0LKA0|A0A0P0LKA0_9BURK
+MNTSRRRCCQLLSAGPLLAGLSACGFQLRNAGDYPFKTLFANFATTSPLGVELRRNLLGT
+GRITLLTEPAQMATADAVLDILSEERQQAVVGVNASGQVRELQLRLRVRFRLRTPQGQVL
+IEPVELSQQRDLSFTETAALSKEIEQATMYRDMQTDIVQQIMRRLSAVKPRAAATAQP
+>tr|A0A0N7J8U4|A0A0N7J8U4_9BURK
+MTNIRNSIIGFCVAAASMGSFAQNADEHKDHHPAGTTAPAATAKKSPTNPVSADKMALMD
+KHMKEMLVMHEKMAAAKTPDERQALMAEHMKVMQDGMGMMKQMGGAAGKGSTQGDKGMNA
+TMLDRQQMLEKRMEMMESMIQMMIDRTLPATGK
+>tr|A0A0P0M7N8|A0A0P0M7N8_9BURK
+MFDSFYPGMAWADHQARPDMWPHAQHSRLVQAGGIQWHVQQMGQGPCMLLLHGTGSGHFS
+WRGLMPTLAQHFTVVVPDLPGHAFTSRGPEGALSLPGMAEGLRALMLQLNLTPQVIVGHS
+AGAAIAAHMALHFDSASRSTLIGLNPAWLPLPGVASWLFGPAAKLAALNPLSAWATAKMA
+AKQGAVAEWIARTGSTLDAQGIDLYSRVLSDSSHVHGVLSMMAAWRLKPLAARLHEVRNP
+VFMHIGAHDQTVPPALADEACQRLPHAQLHVQTGLGHLAHEQDPMGTAQQIMRWCGAEP
+>tr|A0A0N7J963|A0A0N7J963_9BURK
+MNLSAGKLPLEGLRVVEFTHMVMGPTCGMVLADMGAEVIKVEPIEGDRTRHLLGSGAGFF
+PMFNRNKKSIQINLQSPDGAEVARRLCATADVVAENFKPGTMAKYGLDYASLSAKHPKLI
+YASLKGFLPGPYDHRTALDEVVQMMGGLAYMTGRPGDPLRAGTSVNDIMGGMFGAIGVLG
+ALIQRGITGRGQEIQSALFENNVFLVGQHMLQYAITGKAAEPMPNRISAWAVYDVFTVKN
+GEQIFLAAVSDAQWATFCEVLGFGDLRADPRYFDNNARVSLRAELMPDLRRRLAAFTAAE
+LSVIFEKAGLPFAPIVKPEELFDDPHLQATGGLADVRLSDGPKAGQTARAALFPFTMDGQ
+RLGVRRQPPVQGENTNELLQDMGLSAADITHLRSIQAVA
+>tr|A0A0N7J8H2|A0A0N7J8H2_9BURK
+MKKTLISLAAAALASFSGLAQSQTVLTVSSWVPPTHGLSMSQKEWCDDLAAKTSNRVRCN
+ILPRAVTPAPGTFDAVKNGLVDVSFTVHGYTPGRFILSQMAEFPFLGDRAEPLSVAFNRI
+ASKYPEFAAEHQGVKVLGYFTHGPGIVFNTKKPITRVEDLTGLKFRVGGGMVNEISKTLD
+MNVTLKPAPESFELLSSGVMDGTLFPAESTDSFKIDKIIKHATQFPGGLYNTSFVFMMNP
+AKYNSLSADDKKVVDELSGEAVARRFGKAWDRVDDQALTNMQKNGVKVIKADNSFVSGVT
+VRISKLERDWAQAAKAKGLKDPSGTLSEFRAEIAKLQKQK
+>tr|A0A0P0LES5|A0A0P0LES5_9BURK
+MRLTPAQIDTTRQAATAAFGQGTSVWLFGSRVDDTKKGGDIDLLVCPKTLTSEAGTSSTN
+LDDTAKPALSFMQKIKMLNLLEQQLGERKIDIVVEHPQDLRPIVEVAHTTGIRLQ
+>tr|A0A0P0LGI9|A0A0P0LGI9_9BURK
+MSVPKPTVSKASWLRTIQAVLWSFVGLRKNSEYQQDIEKLNPFHIIGVAIGAALLFVLGL
+MALVNWVVVQPTGL
+>tr|A0A0P0LJN4|A0A0P0LJN4_9BURK
+MNAYQTIADTADRVGESPVWDVRAQRLWWVDIEGGYVRSTVPGQAEAVQSWRMPERVGCI
+ALTPVQGQLIAAMETGIARVTLHPDGQVSTVWLAHIQHPAPGMRFNDGRCDASGRLWVGT
+MVMDMSLASDLGGLYCLDERGLTGPHVTGLLTPNGLGLSPDGGTLYLSDSHPKVQKIWAF
+DLDAASGNLSNRRLFVDMNDWPGRPDGAAVDAQGLYWICANDAGQIHAFDAQGQWQQSLT
+VPMPKPSMCAFGGADLDQMLVTSIIPAQTKDATRGQSGAVIALQPGVRGMPEPVFSRFPA
+SV
+>tr|A0A0P0M9G8|A0A0P0M9G8_9BURK
+MDSLIDAFSFLQQSLFEAVVQPLVFAVGQAHLLDKAFEGTGWLVVGLLQIAVLLLVVGPM
+QRRWPAEPLHDPRAVRVDVVYTLIQRLGLFKLAMFFSFDWLFEQAWGSLRGLGAPTWHLD
+QVWPGVTDVAWVSFLIYLLVFDFVNYWIHRGQHQLPRWWALHSLHHSQRQMTMWSDNRNH
+LLDDVLTSLALSVVAVLVGVGPGQFVALVALGQLSENFQHANLRIWFGRVGERLWVSPRF
+HRRHHSIGIGHEREHQGELRLGGCNYGVLLPWWDMLFGTADFTRRYDPTGIRDQVEKGRD
+YGQGFWSQQWLGLLRLFGRA
+>tr|A0A0P0MAC9|A0A0P0MAC9_9BURK
+MLATAKVFTNGHSQAIRLPKAFRVDVDEMWIARNEVTGEITLKPKDTETLRQRRLDALMA
+AIADNPLPNDFLSDASRKNKPPKNPFADWDMPTAPKASAKASAKSAAKTKVRK
+>tr|A0A0N7J917|A0A0N7J917_9BURK
+MNEPIISAHRVHHVYQRKAVLSQLSLDVPEGAVLGLVGRNGAGKSTLLRSLVGLTVPDKG
+FCKLGGCLSTDLSDSVRERLGYVAQTPDLLDWMTGDAHFERIGRLYAHWDQDRACALAAQ
+LSLPLFTKAKDLSLGDQQKLSVVLALGHDPDILILDEPVASLDPMTRRAFMRALFEQRGS
+ERPRTVIISSHLLSDLERVVTHVAFMREGRIQLMDEWDALTEHLRLVQVHGAEAPRGAIF
+QSRHPEQGLWLVDTRLPGALADGRALNLDDLFLELNS
+>tr|A0A0P0LEL4|A0A0P0LEL4_9BURK
+MTSSELSALLVLATVSSFTPGPNTTLSTAMAANHGLRRAMRFVCAVPVGWGILFVLCATG
+LGGLVVAFPPLRWGIVTLGTGYLLWLASRLWQSGSLQQADSAKLQVGFVQGVGLQFLNIK
+AWMLALAIVAGWVAGREDATARTLVLLPIMVAYGFFSNLTYAVAGSMLRHWLAHGRRLLM
+FNRCMSVALVATAFWILNGLRQSAG
+>tr|A0A0P0LK89|A0A0P0LK89_9BURK
+MARFRFWKASGAAKTLLFLSLYRLPAMSFFRRPDYSSDTSQFIDQLKAQRPELEAEQRQG
+RGLLWDKPIDRDIQAEFKQGRVAQKPYVYQTKA
+>tr|A0A0P0M7W8|A0A0P0M7W8_9BURK
+MISVHPLDPHALPALGAEGGNEAPTEALATSPDTAASLPLASHALKRMPLAAGGLLLASC
+GGGGSSGGGIGFDAVLTDTEAARFLCQSGFSASTESMAAVRNLGLSDWLDSQLAMPLQGI
+SRYEWMVSNGYAIEANRTNFTGADNAIWLKLMSSPDPVRQRMTLALSEIFVVSMQGLPIE
+WRGLCIAHYADLLERHAFGTYRQLLQEVTLSVGMGSYLNMLGNRKEDTRTGRVPDENYAR
+EVMQLFSIGLVQLNADGTPRLSNGQPMDSYSAQDISQLARVFTGWERDRADAMDYAHVTR
+PMKHNAANFQSGDKTVLGTTIPGSWGGPEALSLALDTLANHPNVGPFMGRQLIQRFTMSH
+PSPAYVGRVAAVFNNNGSGVRGDLKATLRAVLLDPEARASPTGNASGRLREPVQRFVQWG
+RTFGITSISGRWPIGDTSDPASRLGQSPWRSPSVFNFFRPGYVPPGNELAANQITAPEFQ
+LLNESTVAGYLNFMQSVISNGLSSGDVIANYAAELSLATDPPALLAHLNLRLAAGAIHPV
+TLSELSTAVATIAASNAAGQLNRVRAAILLVMAAPEYLIQK
+>tr|A0A0P0M9G9|A0A0P0M9G9_9BURK
+MKKNDRLSTAKHADMILQPQRAAADRIMLSMMVFLLAVTFGIGWFTNTTSLSMLVGLPAL
+LVPWAIYKMTPGSLASRLAIACALMVFSALSIQQTQGMVESHFGIFTLLAFLLYYRDWRP
+IVAAAGLIAVHHLGFGYLQTLNSGITLLPGQAHLTIILVHAAYVVFEAAVLIFMATILKR
+EALESALVAELSGQISEGDFSARGPSVDAQELPLLFKVAQMQKSLQSTLQDIIGVMTAVA
+QGHLDRRVTVEAKGDLGALKENINQSIHVQQSVFQDITQVMQGVAEGNFAMRVTAQAHGE
+LNTLKQNINQSMAAQQTVFQDIRQVMQALAQGNLQHRVTAQALGDLNELKDNINQSLDAL
+REAMTTIHLNARQVAAASGEASNAIGQISDGARHQTDAISQVANAVRQTVTSVSEVSENT
+EIASQKSRQSFTLVRGSMVKMEEMVKVVSNIATNSEKINKITEVIEKIANKTNLLSLNAA
+IEAARAGEHGKGFAVVADEVGKLALNSAESSQEIAALVKQAVEEARSAVTAVMEVSEDMS
+GIERETQATDQMLQRIATALVEQSSAVEQINVNLNNLDQIARSNAAASEEIAATVIELSK
+IADATRHEVQRFET
+>tr|A0A0P0MAF4|A0A0P0MAF4_9BURK
+MARMKFICDAERCIECNGCVTACKNEHEVPWGVNRRRVVTLNDGVPGEKSISVACMHCSD
+APCMAVCPVNCFYKTDEGVVLHDKDICIGCGYCSYACPFGAPQFPSSGAFGLRGKMDKCT
+FCAGGPEEHGSQAEFEKYGRNRLAEGKLPACAEMCSTKALLAGDGDVVADILRGRVVQRG
+KGAEVWGWGTAYGNQAKGA
+>tr|A0A0P0MA03|A0A0P0MA03_9BURK
+MGLLSLAIWMPIAFGVVLLAFGRDSQAGAVRWLALVGAIASFLVTLPLISGFQLGSSAMQ
+FVEKAMWFERFNVHYHLGVDGISLWLVPLTAFINVVVVIAGWEVITRKVNQYMAAFLILS
+GLMIGVFSALDGILFYVFFEATLIPMYLIIGIWGGPNKIYAAFKFFLYTLLGSLLMLIAL
+IYLYVTSGGSFDILTWHKLPLSGSVQTLLFFAFFAAFAVKVPMWPVHTWLPDVHVEAPTG
+GSAVLAAIMLKLGAYGFLRFSMPIAPDAAREWGMLIIVLSLVAVIYVGLVAMVQQDMKKL
+VAYSSVAHMGFVTLGFFIFNPLGVSGAIVQMIAHGFVSAAMFLCIGVLYDRVHSREIASY
+GGVVNTMPKFAAFALLFAMANAGLPGTAGFVGEWMVILGAVKANFWIGLLAASALIFGAA
+YTLWMFKRVYLGPVTNEDVKGLVDINAREFLMLSLLAVAVLYMGIYPKPFTDVMDASVMD
+LLKHVAVSKLP
+>tr|A0A0P0LG84|A0A0P0LG84_9BURK
+MPPSLMATIFLLMTGLCGAAYWWLDHRMQRLSDTLRDTYKLGLMIIYGLQMVLLLMFAI
+>tr|A0A0P0MBA2|A0A0P0MBA2_9BURK
+MNPTTRTLNLQGQAGEIEALLDEPIDGAAQGTAVIAHPHPLFGGTMQNKVVQTLARAFVQ
+SGWRAVRFNFRGVGASEGTYDEGRGEAIDMQQVITQVAPTGPLALAGFSFGAFVTSQVVQ
+ALGHERPPHQLVLVGTAASRFEVAPVAPELHERCLVLHGEQDDTVPLASVMDWARPQSLP
+ITVIPGCEHFFHGQLPLLKSLVVRHLRT
+>tr|A0A0P0LW22|A0A0P0LW22_9BURK
+MFKKIAVCAAVLTLGIGQTMAQTAAPAAPPPAWKQGMPAEMANSTLAPLAGKLTVTPAAD
+IPLNKIKLPPGFKVEIWSTGTPGIRAMSRGESGKIYAGTRGLGRVYEISDNGKERTSRVL
+VDKLNQPAVTMHKGSLYVMGIDKVLRYDGIEANPNAQPVDMTAAFQLPPLQHHNWKYLSF
+GPDGKLYVPFGAPCNICEPGAEYAQIRRYNADGSGMEVVAKGVRNTVGFDWHPVTKELWF
+SDHGRDWMGDDGPEDELNRMPKTGLNFGFPYCHANGVADRDIKKDKPCDGVTLPVTTMGP
+HAAVMGVHFYTGNMFPAEYKNALFVARKGSWNRTKKFGFDVAMVKTDSEGKAAQVTSFMS
+GFKDDSDNSFWGRPTYMLQMPDGALLVSDEQLGAIYRISYAK
+>tr|A0A0P0LH25|A0A0P0LH25_9BURK
+MIAWTKRMASLAMLASLLVLQGCATVQTADARDPWESMNRSVYQFNEVVDTVAIKPAAQL
+YVKALPSFVRTGVSNFLGNLGDVWSMANSALQLKGQATVETFMRIHVNTFLGLGGLLDVA
+TEMRLEKRKEDFGQTLGHWGVKPGPYVVLPLLGPSTLRDSLALPLDMQGDASQRFSDEAT
+RNALTATRILDIRSGLLQTVDVVKAASLDPYSFVRDGYLQKRRNDIYDGNPPSSFDYGDG
+VSDPK
+>tr|A0A0P0LLE9|A0A0P0LLE9_9BURK
+MNIALWLARSAERYPQQAAIAYGTQVWCNYAQFAQRAARTAHWLQAQGVQPGDRVMLFLY
+NSPDYLPLMWGIWWAGAVAVPVNAKLHEREAAWIAQHGEARIAFCDSKRENDFTQALREI
+GVNTGVAASTAFMLQEDAPQLPLQVRSDDDPVWLFYTSGTTGRPKGVVLCARQLRSCTLA
+YFGSVQSVERGDTMLHPAPLSHGGGMYHLPYVLNAGLNVVPRSDGFDPHEALALAAHWQR
+ASFFAAPTMVRRLVDAARTLPERPQGLATIVYGGGPMYLADIEEALQVIGPHFAQIYGQG
+ECPMTISVLPKSDVLDTRHPRWRERLASVGHVQAMVEVRICDKAGAELPVGEVGEICVRS
+ELVMAGYWRDPEATAKAIRNGWLQTGDVGRLDADGYLSLLDRSKDMVISGGTNIYPREVE
+EALLTHPQVAEVSVIGRPDPEWGEVVVAFVVCRTVLSVAELDAHCLSQVARFKRPKHYHL
+VQSLPKNNYGKVLKTELRTLDAQHLQTKA
+>tr|A0A0P0M758|A0A0P0M758_9BURK
+MNKRFLLKATAALAAAASFGLAQAQSTPIKFQLDWRFEGPSAFFLLPAAKGYFKDAKLDV
+TVDSGNGSGGAVTRVASGTYDLGFADLAALMEFHANNPDAPNKPVAIMMVYNNTPASVMA
+LKKSGIKTPADLAGKKLGAPVFDAGRRAFPIFQKANGIGNVAWTAMDPPLRETMLVRGDV
+DAITGFTFTSLLNIEARGVKAEDVVVMQYPDFGVKLYGNAIIASPKILKENPAAVKAFLA
+AFTKGAKDVMADPAKAIESVKARDGIINVALETRRLQLAIDTVINSPSARAEGFGQINGP
+RMTLMASQVSDAFNTKTRVKSEDIWNGSFLPTAKELDILPKGKK
+>tr|A0A0P0MAT3|A0A0P0MAT3_9BURK
+MKASATPPEDEGVPVSVKIRERIQAARKRFHANDNISEFIEPGELEKLLDEVTGKMAGVL
+DSLVIDTVNDHNTGDTARRVAKMYLKEVFKGRYVEGPEITEFPNAEHLNELMIVGPITVR
+SACSHHFCPVIGKIWIGVLPNEHTNVIGLSKYARLAEWIMGRPQIQEEAVVQLADLIQRK
+TQPDGLAIVMEASHYCMGWRGVKDMDSKMINSVMRGAFLKDPNLRREFLSLIPKKD
+>tr|A0A0P0MBS6|A0A0P0MBS6_9BURK
+MSKLTKKQKALAGKVDSLKLYALSDALTIVKECATAKFDESIDVAVQLGIDAKKSDQVVR
+GAVVLPNGTGKTARVAVFAQGAKAEEARAAGADVVGMDDLAARVKAGDMPFDVVIAAPDA
+MRVVGTLGQILGPRGLMPNPKVGTVTPDVATAVKNAKAGQVQFRVDKAGIVHGTIGRRSF
+DTDKLQGNLAALVEALVKAKPATSKGVYLRKVAVSSTMGVGVRVDTQSISA
+>tr|A0A0P0LFB9|A0A0P0LFB9_9BURK
+MSDILTHTDAGVMTITFNRLDKKNSITSSMYAAMADAVAQAAADPAVRVVVFQGHESIFS
+AGNDIGDFLNQPPSTSESPVFRFLRGIATFEKPLLAAVAGPAVGIGTTMLFHCDLVYAGD
+NAAFSMPFVNLGLCPEAASSFLAPRMFGYHRAAEALLMGEPFFAEAAQEVGLVNRVVPPT
+EVNGYAQAQARKLAAKPLTSLIATKRLMKGGDQQAVLQKMDEEGRDFGRMLREPAAKEAF
+GAFMEKRKPDFSKL
+>tr|A0A0P0LUT7|A0A0P0LUT7_9BURK
+MKRQIQSVVYGAALLASLLSLSACAPLIVGSAVVTGVMATDRRTTGTLVEDESIEIKVAS
+AVRKEMGDRIHLNVTSFNRQVLLSGEVRTAADKERAEKLAQSQENVNAVVNDLAVMPVSS
+LTQRSKDTVITGQVKAAFVDAKDMQVNAIKVVTERGIVYLMGRVTSREAKRATDIARGIG
+GVTKVVRVFEEISEQELQRLSRPTK
+>tr|A0A0P0MA65|A0A0P0MA65_9BURK
+MRRGSRHPLKSDAMTTPTAPDNNADHKVSNFLRQIIEKDLEQGTYASRRWAGSPGDAAHH
+AAGQPDPAKIRTRFPPEPNGYLHVGHAKSICINFGLAQEYGGVCHLRFDDTNPEKEDTEY
+VNSIIDAVKWLGFDWAQLGQAAGSAAPYQASDYFDFMYRAAEALIEAGHAYVDEQSAEDM
+RINRGDFGKPGVDSPFRTRTVAENLARFREMRDGKLDDGAAVLRAKIDMASPNINLRDPA
+IYRIRRATHHHTGDTWCIYPMYTFAHPIEDALEQITHSICTLEFEDQRPFYDWLMERLCE
+CGLLAAPSPKQYEFARLNLTYVITSKRKLAQLVNEGKVSGWDDPRMPTIVGLRRRGYTPE
+SLRLFADRIGVTKSDSWIDYSTLEGCLREDLENKAHRGMAVLDPVKLVLTNWAEAFGSDG
+YTEDCSQPALPHSAIAEGQTPPADRVFKIGKAVWIEREDFEEVPPKGYKRLFPGNVVRLK
+GGYVIECTGCARDAAGQVTEVHAKVIPGTKSGTPGADSVKAKAAITWVSVADGVQAEVRL
+YDRLFAEAHPDAGGKDFLQSLNPDSLKVVTAYVEPSLARAQSDQKFQFERFGYFVADRLD
+HAAGAKPVFNRVTGLKDSWGK
+>tr|A0A0P0LGD1|A0A0P0LGD1_9BURK
+MGSLLMCSRWIDALNLKVGKFTGWLILLTTVISAGNAIVRKMFDMSSNSLLEIQWYLFAG
+VFLLGAGYGLLRNSHVRIDFISSRLTDRARNWIDFWGFALVLTPFCLLSIYLSWPLFVQA
+LVSGEMSQNAGGLVRWPAYALIPLGFFLLQLQGLSEMVKRWAFLQGQGPDVLSTEEALSD
+DQKRAAELEKMTQAQGDR
+>tr|A0A0P0LJR9|A0A0P0LJR9_9BURK
+MKHKASIKKSTNDMSAFRSSELDLNPLCTSPTPQAESLALSVKGVGDVSAALAFLSRQGG
+QAPDEHDVLTSETRAC
+>tr|A0A0P0LM99|A0A0P0LM99_9BURK
+MLNFTEEQFAWFGLTIGVAAFMLYMLFIVVQLAWESKAGKFGTFVIFLGLAFGMLGFVAK
+GVIQWLLGT
+>tr|A0A0P0M9G6|A0A0P0M9G6_9BURK
+MATAKPDDKDAKNDKDAAAAPAGNVPVPMTEELARELAELTGTQRAAVLMLLLGEQQASE
+IIRFMNPKEVQSLGAAMVSVSDLSQEAVNIVLDEFVTLLKKQTSLGLGTGDYVEKVLKRA
+LGDDKAASVLSRIMPGQGSKGLEILKWMDARSIAEMIRGEHPQVVAIILSVLEYTVAADV
+LNFLPGESRPEIIQRIASLETVQPSAMEELEQIMMKQFATNSSSKSSSFGGVKAAAQIMN
+SVKVELEGSIMAGLSQIDADLMQRIQDNMFTFENLVSVDNRGIQAIMRTAEPDLLMVALK
+GAPDYVKDKFLDNMSARARVMFVDDMEAKGPLRITEVEEAQKNVMRLARKLSDAGELVLA
+GGGDGFV
+>tr|A0A0P0M6X9|A0A0P0M6X9_9BURK
+MINPSIASVRWALCAALSSGVLLLTGCAHRVTQENKPPQVLRQLPLQFSAQDKSQWQAMP
+LPGKLLTAYRVAPQGPRDALLAEAASSASMLRQALHIHPEQLGALQFDWRVDQLIPGADM
+RQRDAEDSPVRLILVFDGDRQGFSAKNNMLSELTLSLTGEPLPYATLMYVWCNDCPAESV
+IVNPRTDRIRKLAVESGAGRVGQWLHYRRDIRADFKKAFGEEPGALLGLAIMTDTDNTRS
+TTRAWYGTVRLD
+>tr|A0A0N7J8E5|A0A0N7J8E5_9BURK
+MNDMMITGLLVLTLFLILGSGVWIGLTLSGVAWVGMQLFSARPAGDAMAMTIWGSASSWT
+LTALPLFIWMGEILFRTRLSQDMFKGLAPWMQALPGRLLHTNVVGCAIFAAVSGSSAATC
+ATIGKMTLPELQKRGYPEDMVIGTLSGSGTLGLLIPPSIIMIVYGVAADVSIAQLFIAGV
+LPGILLAGLFSGYIIYWSLRHPDQIPPRDAPMSFMQKLESSSSLIPVVLLIAAVLGSIYT
+GFATATEAAAVGVVGALALSTLQGSMSWAVFKDALMGATRLYCMIALILAGAAFLTLSMG
+YIGLPRHLAEWIGGLGLSPFALIMALMVFFIILGCFLDGISMVVLTMGVLMPTVQKAGID
+PIWFGIFIVFVVEMAQITPPVGFNLFVLQGMTGKQLPYIARVSMPMFFLMVGAVMLIYFV
+PGIVTWLPTQMKL
+>tr|A0A0P0M9T0|A0A0P0M9T0_9BURK
+MYRTKKWNFKWRLSAVAAISVCSVFHVFAQNTNQPRPVQSVKDIFDATWARQPEAQALET
+RQQALQAQKRAATAWTPEPAAVELNSKSDQWGRNLGEREQQIAIAVPMWLPGQRSKSSAL
+AEAEANALDHQIKANQLRVAGQIREDWWNFHRARIEKDVTTDQLNNAKRLAEDVSKRVKA
+GDLAQSDQHQAEGAVAVAESAYAMAQANLELAIQMIKASIGATSFSTLTLSDSPELLPSA
+EYPRNHAALMELQARSDVAERAMALAATRTRANPEFTIAKSRDRGNLADPYSSKITIGIR
+LPFGGGPRYEAVVAHAQAEATQAQAQLTLERDRTQSLWHFAQAKVNAAQAQLKAAERRAK
+LALESRTFFEKSFQLGESDLPTRLRIEVEAVEAQRQAALSRIEFFASISALRQAAGLLPQ
+>tr|A0A0P0MAV1|A0A0P0MAV1_9BURK
+MTQRTWRIGLTGGIGSGKSTVAGFLARRCAAIIDADAISRSLTAPGGRAMEAIAHTFGAA
+MIGPDGAMDRQAMRERVFQDPQAKRQLEHIIHPLVSQITAEQAQAAVQAGRRVLVFDVPL
+LVESGERWRKQVDRVIVVDCDISTQQQRVMARSGLAADEIERIIQLQASRAQRLACADIV
+LVNQGISFDELEAQVLQVAADFGL
+>tr|A0A0P0M8G5|A0A0P0M8G5_9BURK
+MHINRRFFNAILIVGALLISGCAHFQPPADPKVREALAPTGTLRVGVYQGSPTSLVVDAK
+TGQRAGVALDIGPLLAQQLGVPVQVVEFPRLALVLDALKSGQVDFTVTNATEARARDMDF
+TRPLVQLELGYLVMKDSSVQQIEHIDRAGVKVGVSQGSTSQGVLTRQFKNASVVPAASLK
+QAQDMLRQKRIDAFATNKGILFEMTDELKDSRVMEGRWGLENLAIAIPKGRDAGRVFVNA
+FAEQVRENGQLQKSVSRAGLRGTTSAP
+>tr|A0A0P0MBB2|A0A0P0MBB2_9BURK
+MTLPPPALEHVCDLAVTIAPPVEVGHTPAGLRRMIPITGGTVSGPRLSGKVMAGGADFQL
+ILGGGTQAHLDARYVIELDDGSRVFVQNTALRVASLENSQRIMNGQPVNPDEIYFRCQPK
+LEATAPQWAWLSESQFIGSGRRAPDGVYLSFYRVL
+>tr|A0A0N7J989|A0A0N7J989_9BURK
+MSVIQSHKAFWGPIAELIERARIVSKGMGLNSEKMTDRLIRYYAAQGVLDKPDRLGRDAA
+YNYRHLLQLLTARRLSEKGVSLEIIGRHNLSTTTELLEKGLIKPVEMEVFVTPPKSEANV
+MVPKTLNGSPLAMVDVLSEVRALKDQFNKDHEELRRVREAVGEFASQLKEFHAGLDGIKV
+ELEAVVRLVKTGLDKMYQTEDKFGYMLEKNLSAHNEKFNYLVEGIERVERTLLKIEINSG
+QAK
+>tr|A0A0P0M7T2|A0A0P0M7T2_9BURK
+MQEWLYPIGVVLLGYTVLGLTGFGSALVVVPLLAWQWPLPAVVALTLLMDVPASAFHSGL
+NWRQVQWRELRRLLPGLVLGTLVGLWLVQHMNSRWPLLLLGVYVAGVGLHALRPKASQLP
+SAAPVWAWPVGAAIGLVEMLFGTAGPVVVAWLSRRLPDVQQMRASTPMIISVAAATVLVG
+MAWEGRLSSSWIWQRWTVLIGVALLGVWLGHRLAHRVPVARLRQIICALLVVSGSLLALG
+ALR
+>tr|A0A0P0M9F1|A0A0P0M9F1_9BURK
+MINLKNVTLRRGTKVLLDQTSVTLNPGEKVGLVGRNGAGKSTLFALFNGTLNEDGGDFEM
+PKAWRMGQVAQNMPETDQPASEFVLEGDTRLAELRQRLVAAEASGDGMELAHVYTDLADA
+GDHDALPRAEALILGLGFRVDELNNPVNSFSGGWRMRLQLARALMCPSDILLLDEPTNHL
+DLDALVWLEAWLQRYAGTMIVISHDREFLDAVTNVTLHIDHAKLTRYGSNYSGFEILRAQ
+QMELQQASFAKQQDKIAHLQKFINRFKAQASKAKQAQSRVKALERMEKVAPLLADAEFTF
+GFKEPNNLPNPMLAISEASFGYLVDGEPKTIVQGVSKSVLAGQRIGILGANGQGKSTLVK
+TIARTMPQLTGTLTEGKGLNIGYFAQQELDVLHPQDNPLEHMIRLAKELGPNSGEPSREQ
+DLRNYLGTFNFTGDMVKQAVGTMSGGEKARLVLAMIVWQRPNLLLLDEPTNHLDLATREA
+LSMALNEFEGTVMLVSHDRALLRAVCEEFWMVGRGKVEPFDGDLDDYQKYLLEESKRLRE
+AAKNSARDALATAVAETPPANIAAVPSSPAIVAPAANASTAAPTSTSATQPGTGLSSAEQ
+RKLEAQKRQQLAAQTRPLKRELEQNEQRMASIEAEKTRLEALLTTPVSPAEMADAGRRLK
+ALADEVTALEERWLELTSLLEEAISATV
+>tr|A0A0P0MAU9|A0A0P0MAU9_9BURK
+MALMITDECINCDVCEPECPNEAIYLGEEIYEINPSKCTECVGHFEEPQCVQVCPVACIP
+VNPQHVENQESLWAKYRRLQAQ
+>tr|A0A0N7J8L5|A0A0N7J8L5_9BURK
+MSQPVISVADIRKTFLDFFESKGHTVVASSPLVPGNDPTLMFTNSGMVQFKDVFLGSDKR
+SYVRAASVQACLRAGGKHNDLENVGYTARHHTFFEMLGNWSFGDYFKRESLEWAWELLTQ
+VYKLPADKLYATVYMEDDEAHGIWEGIFVKAGWTPERIKSENRIIRIGDNKGGRYKSDNF
+WMMADTGPCGPCSEIFYDHGAHIPGGPPGSPDEDGDRFIEIWNNVFMQFNMDETGAVTPL
+PAPCVDTGMGLERLAAILQHVHSNYEIDIFDALIKAAARETGCTDLNNKSLRVIADHIRA
+TAFLVSDGVVPSNEGRGYVQRRIVRRAIRHGYLLGQKTPFFHKLVPDLVKLMGAAYPNMA
+DQADRIADVLRVEEERFFETLQSGMQILDAALEGGVKVLPGEVAFKLHDTYGFPLDLSAD
+VCRERGLSVDEAGFANAMEKQKAQARAAGKFKMDKALDYSGEGNDFVGYDDLTANAKVLA
+LYADGNAVTELKAGQSGVVVLDTTPFYAESGGQVGDQGMIHNAGGQFNVLDTLKIKADVF
+GHHGEIKSGSLKVGDVVQAHVDMAVRAATVRNHSATHLMHKALREVLGSHVQQKGSLVNA
+ERTRFDFAHNAPVTDAEIRQIEAQVNAEILANAAAQARVMDIESAQKTGAMMLFGEKYGE
+TVRVLDIGSSRELCGGTHVKATGDIGLFKIVGEGGVAAGVRRIEAVTGENALAYLQSLED
+TVTQAAGSLKAQPAELNNRIAQVLDQVKALEKELAAAKGKLASAQGDELMKQAVDVKGVK
+LLVAQLEGADAKTLRDTVDKLKDKLKTAVVLLTAVDGDKVQIAAGVTADTTGKVKAGELA
+SFVAGQVGGKGGGKPDMAMAGGSTPAALPAALASVQAWVSERV
+>tr|A0A0P0M6W4|A0A0P0M6W4_9BURK
+MRAALRHPAAWWALLVLGCMPWAWLLAQTLLDQLGPNPAEALIRATGDWTLRSLCVVLAV
+SPLRTWLGWPELMRFRRMLGLLVFGYASLHLLCYAWFDMGFDLADTLQDITKRPFIWLGF
+SAFVILWALAATSFNRAVRWLGGKRWQVLHRGVYAVAVLAVLHFWWMRAGKQDFAEVLVY
+AGILAALLGWRWLRRSARRP
+>tr|A0A0P0M6N4|A0A0P0M6N4_9BURK
+MAMNVGEADDEIIGTINTTPLVDVMLVLLIIFLITIPVVTTSVKVDLPKEKNVVRETKPE
+NVIISVDKAGTIYLYDTKIKNSNDLIERMKKFSVMKPQPEVQIRGDGQSDFESVGRVMYA
+VQRAGITKVGFITEPGN
+>tr|A0A0N7J8Q3|A0A0N7J8Q3_9BURK
+MSDPDISLSQAHADEPSHSSADLPEGWLRVGSLDMDAQGIARRPDGKVVFIEGALPFELV
+SVNVHRKKNNWEQGTVTQIHHESSQRVRPGCPHFGLHAGACGGCKMQHLEASAQVAIKQR
+VLEDNLWHLGKVKAETLLRPIEGPTWGYRYRARLSVRYVIKKGEVLIGFHERKSRYIADM
+KVCPVLPPHVSRMLLPLRALIGQMEARETLPQLELACGDEVTALVLRHLEPLSEGDKALL
+RAFAAEHQVQWWLQPKGPDTVHLLDEGGAQLSYGLPDFGITMPFRPTDFTQVNPFINRVL
+VARALRLLQAQKTERVIDWFCGLGNFTLPIATQAGQVLGIEGAETLVARSRDNYARNQAT
+RPEGQSLAPTQFVARNLFEMTPAMLVADGTADKWLVDPPREGAFALSKALAELHENQDLR
+QGWTPPKRIVYVSCNPATLARDAGILVHRAGYRCVAAGVINMFAHTAHVESMAVFELA
+>tr|A0A0N7J8Z0|A0A0N7J8Z0_9BURK
+MTRVSLLLLVATVVSALWLVHSHYESRRMFMELESTRKEAKRIEVDHDRMEVERRAQATP
+LRVEQIARQQLNMRTASPAITQYVNAQGANAGAATPTAAGGRQ
+>tr|A0A0P0M8P1|A0A0P0M8P1_9BURK
+MNFYDQHVLPYLIDFACGLPMVQAQRRQLVPHAQGRVLEIGMGTGRNLAFYDRSRVTRLV
+GVDPAMQMHRLAQKRSQKAGIAVELMGLSAEQLPTADASFDTVVCTYTLCSIPDALQALR
+EMRRVLVPGGQLLFCEHGRAPDAGVRRWQERLQPLWGPLAGGCQLGRDIPALLLEAGFQA
+DTQSAYLAGPRPMTFHYWGQAQSA
+>tr|A0A0N7J861|A0A0N7J861_9BURK
+MSLVVGAALKEGPGADLAQAPVRRVLDTNIVLDLWVFDEPKAEALRTSVERGSTQWLATA
+AMREELARVLAYPQIVKRLTHRELPASAVLGHFDRWAHLLPDAPKAPYACKDADDQKFID
+LAVAHTATLHSKDAQVLCMKKRLERCGVALNPLMDVLETA
+>tr|A0A0P0MAA5|A0A0P0MAA5_9BURK
+MKPFLQFLAPAMAVLVLSGCATKPPVPFDYTQLKASDPKSILVLPPVNKTPEIRATYSML
+SQVTFPLAESGYYVLPVSLVDETLKENGITQANDAHELPTAKLHEIFGADAALYITMTRY
+GTVYKVLDSQTTVSAEARLVDLKTNAVLWTGKASASSAEQQNQNQGGLAVMLVSALVKQI
+VGTVTDQSHPMAGLTSQRLLRAGRPQGLLYGPRSPLYKQEDAAKPR
+>tr|A0A0P0MAK7|A0A0P0MAK7_9BURK
+MLLPDWAFLDAVVHWMGHGLFDFSWWQMVLITLGLTHITIASVTIFLHRHQAHRALDLHA
+IPSHFFRFWLWLTTGQVTKEWAAIHRKHHAKCEQAEDPHSPHVHGIKTVLFTGAELYRKE
+SKNLETMKRFGHGTPDDWIERNLYTRFSWQGVALMLIIDVALFGFIGLTVWAVQMAWIPI
+TAAGIINGAAHYWGYRNFEAHDASTNISPWGILIGGEELHNNHHTYPTSAKLSVKPYEFD
+IGWLYIRMLETVGLATVKKTPPRLAYGDIRPVADEKTLEALIANRYEVMAGYARNVKAVM
+QQEAGKLKLDASVLQAAQRWLHRDAAKVPAAAQAQLKQARDASPVLDKMVQMREELSQIW
+LNTSHSREQLAADLQAWCRRAEESGIAALRDFSVKLRAVRQTA
+>tr|A0A0P0MAW5|A0A0P0MAW5_9BURK
+MTRPVLPSRRACLLSLCGAVLPSGLAHAGRQIEEPLSHAVRSALSAAVAAAPPPEPLLPT
+SYDQQSYTQWQTACSQRLSRYKKHPIERQEFLQTLWYEARRAGLPLSLVLGVVQVESSFR
+KYAISSAGARGYMQVMPFWARLIGDGDDSRLFHMQTNLRFGCVILRHLLDRERGDLFMGL
+GRYNGSRGQAAYPQAVLAAQRLWVHPVD
+>tr|A0A0N7J8J9|A0A0N7J8J9_9BURK
+MLTIKQFLALALAAGVLVSHAADTSPAEPTTSWLTQAQKEIKANDYSGAIKTLEGANQTN
+SADWNNLLGYAQRKKTPPDLAAAERYYQSALKLDPKHKGALEYFGELLLMKNDLAGAEQM
+LARLDKVCVFSCEEFRDLKEAITRFKSKK
+>tr|A0A0P0MAD7|A0A0P0MAD7_9BURK
+MSQKAFPLEPIEKASIDEMRSLQLKRLQQTLQHAYANSPVYRAKFDAAGVHPDDCKTLAD
+IAKFPFTTKSDLRDSYPFGMFAVPREQCARIHASSGTTGKPTVVGYTLKDIDTWSTVVAR
+SIRAGGAKPGDMVHISYGYGLFTGGMGAHYGAEKLGLTVVPFGGGQTERQVQLIQDFKSN
+IIMVTPSYMLAIADEFERQGIDPKTSSLRIGIFGAEPWTNDMRSAIEKRMNIDAVDIYGL
+SEVMGPGVASECIDTKDGPTIWEDHFYPEIIHPETGESVADGEMGELVFTSLTKEALPII
+RYRTRDLTRLLPGTARPSMRRMEKVTGRSDDMMIIRGVNVFPSQIEELILKRAELAPHYQ
+CVLTREGPMDDLKVLIETKPGVSPESLEARAAAKQLQHEIKVYIGSSVAIELKPEGGVER
+SQGKAKRVVDLRGK
+>tr|A0A0P0LM39|A0A0P0LM39_9BURK
+MKAIKKIKLNNIGKNPMIRHMVLLFWIAKENKTESREHKMNTTAKSVLGTLPAMPAVNTA
+PRSSSKTLANLLLAAGVAALVVGVDQMIDSWAESHVVAAWLALWAVAVLAIVVLRGLTRH
+LAQNLMTGLDAWSAHVARSRADERLWSMAQTDPRLMSDLQVAMDRASQSQSPVRDLETLM
+TRRAARLVRDRLYYI
+>tr|A0A0P0M8C6|A0A0P0M8C6_9BURK
+MKLLGTRWTAWLALPALLAMSGGAWAADFDGAQLSVLWGVPFAGILLSIALMPLLVPHFW
+HHHYGKVAAAWGLAFLVPFALMFGPAAAGANMVHALFAEYIPFIILLTALFTVSGGIYIR
+GNLHGSPGLNTAILAIGAFLASFMGTTGASMLLIRPLIRANDNRKHVAHVVVFFIFIVSN
+AGGSLTPLGDPPLFLGFLKGVDFFWTIKTIFPETLFLVGSLLAIFFVMDSWFYRREALLP
+QDPTPDSKSIGFDGAINFWLLAAVVGLVLMSGLWKSPVSFNIYGTDVGLPGVVRDLGLIA
+VTFLSLKITPSKVHEDNQFGWAPMAEVAKLFAGIFLTIIPVIAMLKAGVNGPFGAVVQAV
+TQPDGSPDVMMYFWITGALSSFLDNAPTYLVFFNTAGGDPQVLMTTLAPTLAAISAGAVF
+MGANTYIGNAPNLMVKAIAEDRGVKMPSFFGYMLWSGCILVPLFVVMSLIWFR
+>tr|A0A0P0M8H4|A0A0P0M8H4_9BURK
+MGFEALALQLLNGLSHATTLFLMASGLTLIFGVTRIVNFAHGSFFMLGALWSAHAVTNWW
+PAMADTGWGYGALILMGACVAALLGAFTEVLLLQRMRHAPQLYQLVATFGLTLALHDAMR
+WFFGPEEVFAPRFPGLKGAVQLGESFFPTWQLFTLALGPLVWLGLHLLLTRTLWGQRVKA
+ATQDREMLDALGVNPAPFMLGVVMLGCGLAGLAGALQLPREPAHLQMDVNVVVETFVVVV
+TGGLGSIGGAFVAAVLIGVIHALGLSFFPQATLVLVFLTMAVVLVWRPQGLAGTAAHAEQ
+RESVPVFALWPVAGWGRALFVAVFVGLTLLAWGQGDYGRSLAEDVMVMMLFGLSLQWMMA
+LGGLVSFGHAAFFALGAYGAALSHLHWGAGLPAALAAGMALAMAVAVAFGALVVRSSGVY
+LAMLSLALAQMIWAGATQWVALTGGDNGLIGLRLIPSESRVLWDAALGVFMLLAVAGMAR
+VARSSRGAALQAVRDAPLRAAASGLPVQALRYQVFVGSATLAGLAGGLWAAFKGAVFPSV
+ASVAMSVDALLVILLGGVHQLWGAAVGSALLVWGGAELGQGLDYWRGVLGLVIMLVMVLA
+PSGVLGGVQSLLTAWRLGSKGALA
+>tr|A0A0P0MB55|A0A0P0MB55_9BURK
+MHVENAPFEEDHPYVCKFRDINEDFLSLLPQLEIYIPTVAQLNDPLEGVLTEGYLWDCNP
+PPVKSDVESYLQRVGVYSVSIHGKNWHASNFLPMWASYANDHKGVCMVLKRKPLRDERFK
+WVNVDYVTHRDNDRGAQARRIRPPTFTHDLFGNAQAKLSKKYDYWQHERELRLIAQPGST
+GRRAMDQFFELHAMVFGFSAKQADILKALNQPPEETKEKLMNAHDMGIYQVINPQPVMAH
+AHPSISPLKDLRPLLELKPKPSFEWGAA
+>tr|A0A0P0M819|A0A0P0M819_9BURK
+MTSQQLILSLVLATMVFSVSLELRVEDFRRVAQAPRAVLCGLIPQFILLPVGTWLATLVL
+DLPANVEAAMILVAACPGGSLSNVITHLGRGNTALSVSISAVASLIALFATPFNFSWMIA
+ANPETASWLRELSIDPSGIWLSLLMVLGIPLALGLLFSHQLPALTQRIRKPLGNFAVGAL
+ILFIVAGLIKERQLLTLGLLPTFLIVVLHNASGLFLGWATAKSMGMTERDRRAIMIEGGM
+QNSGLALGIIALQFGSDLGMVTLASLWGIWHIVSGLGLAFYWKRKDARLLD
+>tr|A0A0N7J8E2|A0A0N7J8E2_9BURK
+MQASWMILASLFFSMMGVCIKYASAHFHTFELVFFRGLIGVVFMATLCRMQGVPLRTPIP
+MMHVWRSVVGVTSLAAWFYAIGHLPLATAMTLNYMSGVWVAVFLVGGTLVMGKLQDATRQ
+GPIVLTVIAGFGGVILLLRPTIEQDQLFAGIVGLLSGLIAALAYMQVAALGRLNEPEART
+VFYFSVGTTVVGAVLMLVTGMSPWLWPSVLWLLPIGVLAALGQLCMTNAYSRGSTLVVAN
+LQYSGIVFGALFGLFLFGDQIPLMGWLGMALIMASGIASTILRNRALPRAPAEDH
+>tr|A0A0P0LCR9|A0A0P0LCR9_9BURK
+MKPPLREAIALEYGKRKTPIISAKGEDELAQRIIDEAKRHGVYVAEDPQLLALLSRIDLD
+KEIPPELYTAVAVILSWVYWLKGMRPGDEKNL
+>tr|A0A0P0M8N7|A0A0P0M8N7_9BURK
+MQAELLAALAALSWAVGSLFSAAASSQMGAFAFTRWRLFFALTLLWALALFTGQWRSLDS
+ANVALLALSGFIGIFIGDTALFACMNRLGPRRSGVLFATHAIFSTLLAWLFLGETLWGWT
+LVGGGLLVSGVMVAIVWGRRESETHAWENTQGSLMTGVLLGLLAAVCQSVATLMIKPLMA
+SGVDAVAASAVRTSASFLAHLALLWAGAKVAQVQNPLSAKTLFNTWASAAVAMALGMTLI
+LQALHTGQANLVGIFSSLTPILLLPLLWAVYRRRPAWGAWGGAVMAVAGAALILQA
+>tr|A0A0P0M820|A0A0P0M820_9BURK
+MGRAFNFSAGPAVMPEAVLQQAASEMLDWHSSGMSVMEMSHRGKEFISIYEQAEADLREL
+LAVPAHFKILFMQGGGLAENAIVPLNLSQGGAMDFVLTGSWSQKSLKEAGKYGQARVAAS
+AQDGGFTTLPAPSTWQIGAESRYVHICGNETIHGVEFHELPDLKALGCDAPLVVDFSSHV
+ASRPVDWSRVGLAFGGAQKNLGPAGLTLVIVREDLIGHALPHCPSAFDYKLVADNQSMYN
+TPPTYSIYIAGLVFQWLKKNGGIAAMEQRNIAKAQLLYDFLDSSSLYVNRVAKDCRSRMN
+VPFFLRDESRNEAFLAGAKAANLLQLKGHKSVGGMRASIYNAMPIEGVQALVAYMREFEK
+TQA
+>tr|A0A0P0M975|A0A0P0M975_9BURK
+MTRLWALGLTGRPSWAHPRQGGAISLLVAIGLVLLASLASFYSARSVLVDRLASQNQSQS
+AQARLAAEAALAWGRAELQRQHVSSPSPAVWSPGTATAPCPSGYSTARWQCVALQPPAHT
+GVPEVVAQVLAVRDLISAPHVALLLASASLKDGTSRAQVQAQVFVPTLAPAPHPPNPAAV
+VLNGCASAADPAASIGNTPTATRGCPGGLNSACTASAWASVLGDTTPEQIRAWSAAQERN
+GLSALSQPARSVYWVDSPSTWTLSVGTPEAPVLLVFSGQACSQRCPDMAVGVRVVGTVVL
+QTQCQDDMARGWFAGHIVGQLVVESGLPDLHSGSRIEASALASAPYRLPWPAGMDTRQVQ
+RVTGSWREGVP
+>tr|A0A0P0M956|A0A0P0M956_9BURK
+MQIRPYQTSDEAAVVALWQSCDLTRPWNDPYKDIARKLQVRPDLFLVGEVQGRLMASAMF
+GYEGHRGWVNYLAVSPEHQRQGHAKAMMQHGEALLLASGCPKINLQVRASNAQVLAFYES
+LGYRDDQVVSMGKRLIPDL
+>tr|A0A0P0LKK1|A0A0P0LKK1_9BURK
+MANVLLKVKDLQVGYGGIQAVKGVSLEVREGELVSLIGSNGAGKTTTMKAITGTLPLQTG
+DIEYLGKSIQGQGPWDLVKQGLAMVPEGRGVFTRMTITENLQMGAYIRSDASGIADDIEK
+MFTIFPRLRERKDQLAGTMSGGEQQMLAMGRALMSRPKVLLLDEPSMGLSPIMVDKIFEV
+VRDVYAQGVTVLLVEQNASRALAIADRGYVMDSGLITMTGVGKEMLEDPKVRAAYLGE
+>tr|A0A0P0M8I9|A0A0P0M8I9_9BURK
+MRSPIAVVDVDRCETWTRYKNGLCDTCAANCCTMPVEVKLADLVRLELVDPFEAEHEDPK
+QIAKRLTKAGLIEHFNFKNSIFSLARRASGDCQFLDAKTRRCTVYDKRPNTCRLHPQVGP
+RPNHCPYGNKAQSR
+>tr|A0A0P0M8G9|A0A0P0M8G9_9BURK
+MSNRREFIQSTLGAAILGSTAFQQAWAQSGLPIEQVKVLYGFPPGSSGDICARRVAEKFG
+GTPYSKNAGIIDSKPGAGGQIALNLLKSAPADGSVLAMTPFSAISLYPHIYKNLQYKPFD
+DFTPVGTASMIHHGFAVGPMVPASVKNVKDFIAWAKANPAQASYGSPAAGSTPHFIGALL
+GLNQSFEFKHVPYRGSVPGVTDVVGGQIACMFTPHGDFIANHKAGKMRILATSGKTRSPF
+VPEVATFAEQGFPELTVEEWFGFYAPAKTPANVVQAANTAVNAALKDKGVQDALSVVGLI
+PFGGSAAEQLKSSQVELERWGPLIKRIGFSVDS
+>tr|A0A0P0MC47|A0A0P0MC47_9BURK
+MRVAQQALARRWWFAMLMGFILLACTILVQARTPQEVQSQATLLVTDMPREGQITYEKIR
+KGGPFPYEKDGTVFGNRERLLPREARGFYREYTVRTPGVRHRGARRIVCGGMVPTEPKAC
+YYTEDHYASFRLIVDRP
+>tr|A0A0P0M7I8|A0A0P0M7I8_9BURK
+MTSNATPLIEFKGVNKWYASNGYHVLRDVNLQFAKGEKVVICGPSGSGKSTLIRCINALE
+EYQEGTLTVDGTVLGDDLKGIDKVRREVGMVFQQFNLFPHLTVMENLILSPTWVAKMPRK
+EAIDKAMVQLERVRIAEHANKYPLQLSGGQQQRVAIARALCLTPKIMLFDEPTSALDPEM
+IKEVLDVMIELTSQGMTMLCVTHEMGFAKAVADRVIFMDQGQVVEQAPPQQFFDAPQTDR
+AQDFLSKILGH
+>tr|A0A0P0LF75|A0A0P0LF75_9BURK
+MNTGTMQTPNADASVGTENQLLKSSAVDDLAFGLLMNRTLGGSDSRRPSDKSANELDVEI
+ILSQGKNLTKMNDQYVETYVVRGTKELYALLGAIYSYALQINESPLRDHILQRMREILQD
+VHEIKTQANTPWLTTVLRFIIPTDRQTAYNYSKVLQVAQEENLAAAELPNYIKERGGIAK
+ITSTKDDAAEKKAVKKHKEDKTLMLRKILLANAKGSETVLQVPEKYVLNTVEGDKKAGTF
+EYAICVKTADNERRVVRFVQVPEALEKQLLTVVAESTVSDDLADTKAKLDILRQHMGITS
+GWGMEPGDVGYQPPGMPALNPPPSSSTNATTAIV
+>tr|A0A0P0M999|A0A0P0M999_9BURK
+MTPRFKRPDVRQSNPSLTSTIRGKLWGLRMLGLAMLVVGTVQAQVLTIESWRKDDQIFWD
+KVLIPAFQRQHPGIKVQFKPEEPLAYDARLEARLSTRRAGDLIFCRPFDASVRMQAKGYL
+LPLKEEALKNFNPQARRAWTTDDGQTTYCLPVAYVMHGLFYNKKILRDLKLEPPSTWDQF
+YQLLSQVAASKTVTPLALGTADMWESTQVVFTGLGPNFWEGEKARLGLMEGTVKFTDPGF
+VKAWRMMAQLKPYMHPQQNSLSNGDIQLLFATGNAAVYPSGSWDIDFLRSTSFAYKKSID
+LGVFKPPVEHEGQPCHISVHPDFGIGVNKNSPNQAAALQFIAWLGTADFAQLLTDTLTGY
+FPLADHPVKINDPLGQDMMGWRRSCQDTIRLNAQKLNRVWPSMEEELWFANVKVLNQDIS
+PEQAAQHIQRVHEKNAYLK
+>tr|A0A0N7J8M6|A0A0N7J8M6_9BURK
+MRLTPEQLEQFDREGYLFFPGLFTPEETKNLNDAVPELYSRREAYNVREKGKDAVRTNFA
+AHMYSEPFAKLARHPRMIEPVQDLFGEELYMHQFKINGKMAFEGDVWQWHQDYGTWLNDD
+MMPTERAMNVAIFLDDVNPFNGPLMFIPGSHKKGVVEAKHDLSTTSYPLWTVDNDLITQL
+VERAGGKEGGIVSPTGPAGSMILFHSCLVHASASNLSPWNRVSVYLSLCAVSNHIRRHKR
+PEYIAHRDFTPISCLPDDCLVNSYPVDLPWKGGMPESALKTSLDVLKEAA
+>tr|A0A0P0LPR9|A0A0P0LPR9_9BURK
+MMTPEQIVASQKANVETLFGLTAKAFEGVEKMVELNLSVAKAALDESANNTQAAMSVKDA
+QELLAMQANLFQPLAEKTAAYSRHLYDIASGTGSEFTKAFEAQTAAAQKQFASLVDSAAQ
+NAPAGSEQAVAMMKGAMTAANTAFESVQKAVKQATDMAETNLAAVTQTAAPKAGKKK
+>tr|A0A0P0LUQ1|A0A0P0LUQ1_9BURK
+MTWTSAQLRRLSLWLICAMLLAALAPTASRARAWSQGSAVPWMVVCTSDGRLQTVLNQQG
+NTQSDEGSVPGVAMLDHCALCVLASDRMAPPPTLLSWQALPQAPPLLAQLDPHISQAVPR
+WTVHSRAPPAHA
+>tr|A0A0P0M7Y5|A0A0P0M7Y5_9BURK
+MTFTPSAPTSRSVVLGSTSRYRRELLERLRIPFTVSAPGVDETPLPGEAPQALARRLALA
+KARAVAALHPDAVVIGSDQVADLAGQPLGKPGEHARAVQQLRQMRGQTLVFQTALAVVCL
+ASGYEQVDLAEVRVVFRDLSDDEIEAYLQAEQPYDCAGSAKSEGLGIALLESIDNDDPTA
+LIGLPLIRTARMLRQAGVKLL
+>tr|A0A0P0M888|A0A0P0M888_9BURK
+MHQVQGISRGLGGKSAEPSRLVGGFQRAVQWLGLIMIGVVLTACGSLQPTKPQEPELPPT
+AERRELRLGLALGGGAARGFAHVGVIQVLEEAGLRPAHLAGTSAGSLVAALYASGKTPAE
+LVRVAESMQEAEITDWMLPILNRGALRGEALAKYVNTQVGGKTLEQMQIPLGIVATDLGS
+GQAITFRRGNTGAAVRASSAVPAVFQPVRLGDREYVDGGLVSPVPVRQTREMGANFVIAV
+DISSDPEGNPYGDAFQVLMQTFAIMGKSINTLALKEADVVIRPALSGVKSADFSARMRAI
+EAGRVAMRAALPALKARMAQFEEGR
+>tr|A0A0P0LF25|A0A0P0LF25_9BURK
+MQWLFTKYLISAGVVVVISEVAKRSGKLGGLMAALPLITLLSMVWMYIEQAPEAKIAEQA
+FFTFWYVIPTLPMFLVFPFLLARFGFWLSMGIGAALTITCFFVFSLVLRQFGIELL
+>tr|A0A0P0LFW6|A0A0P0LFW6_9BURK
+MEHKTWMCLICGWIYDEAEGDPEHGIAPGTKWEDVPMNWTCPECAARKEDFEMVAI
+>tr|A0A0P0LG10|A0A0P0LG10_9BURK
+MQLLQLLISGVAQGCIYGLIALGFVLIYKATETVSFAQGDLMMVGAFSGLAAMTLLGFPF
+WIAVPAAIVAMGIFGVLVERLVIRPILGQPAFSIVMLTIGVGYVLRGLITMIPDVGTDTH
+TMPVPYAGEVLRLGGLVIAAEQMVVIGATGILCLGLFAMFKYSKLGIAMQAASQNQLAAY
+YMGIPVKRINGLVWGLAAGVAAVAGLLLAPITFVHANMGFIGLKAFPAAVVGGFGSLPGA
+IVGGLVIGIVESLSGFYLPEGFKDIAPYIVVLLMLVLKPNGLFGEQLRKKV
+>tr|A0A0P0M8X1|A0A0P0M8X1_9BURK
+MKTQIDHLVVMAASLDEGVQWCEDTLGITPGPGGEHEKYGTHNRLFKIASPQFPLAYFEI
+IAINPLAVIPKRAQVPRWFDMDNPTLQKAVAQGPRLVHFVSSTEDVKAARHVLRTQGIER
+GQVVHASRKSSKGTLNWQITVRDDGERLFNGCLPTLIQWGKPEATDPLRLHPRNSLPRSG
+VTLQSLTVSHPSGAKLQAAFDAIGLAHIAIETGPANLVASLQTPKGLVQLQSLGI
+>tr|A0A0P0M9S1|A0A0P0M9S1_9BURK
+MSDLLGIGSSGVGAYQRALATVSNNIANVSTDGYTRQDVSLTANQPRLMGGSYLGTGARF
+DNVQRQYDAFVESNLRNSNSELASQKPLLSYVNRLIDVMGDESVGLTTAVNLFFESARDL
+ASDPASIVSRSTFLRDADGLAARFRQLAGQFELLDNETRQSVETDVEQVNSLTQQLGLLN
+KQMVKHSSASNQPSELLDQRDRLLRDLSGLISVKTKFEPNGAVLVSVGDTLDQGILVAQS
+TVRAISVSQSRIDSNKLEFVIDAYANPETMTGISTGKIGGVMSFRDTVLTPSVNALDNLA
+TTMVNEINKVHRGGVDAEGLLGADLFAFSADKPQQAVGMTMIVQDANRVAAAGQFRVIDN
+PLNSGTAQARIAYTQPEFAGPTGLLGDLALAKTPQISSVNVSMSVSQPFASLGLIPVGAK
+EMSLTLNNPAAGQSFQVLSRDGRHILGQTLTANEQALLMKTGNGMEENATYSASGINATY
+SASNSPTYLDMDIFMGAKAEVGVQLQFNATTGDVIEPKKLPAQLIGGTFVPFNGPIAANT
+FTLNGHALPALATNSSLSLNDVVSWLNSESASTGVTASAVNNQLVLARPVNDLTRDIRLG
+MGSAGTPADLKKLGFDTRIAIKGGTLDDLLVFVTDRSGAASTAQVTAQFADIQGDMKQAL
+RRSPMTVTFTSNTDYTIVDTQTNTVLAARTLIVDPNAPTPSLSYRGLSLAFSTAPKTGDV
+FSIDGNSDGIGNNEAMLQLVALEDAEIMPGGLTLSEAYIERVNQVGNVARQASIAEQALS
+VVYQQAQEARDGISGVSLDEEASALVRFQQAYQANAKVMQTAMDLFQSILQVR
+>tr|A0A0P0LC84|A0A0P0LC84_9BURK
+MTPEQLVRKVTAITGYTHAAGVEVVSAEPGQVTLSLAKKPELLQFNGFFHGGVVSGLADH
+AAGAAATTALPAGKIAVTVDLHVNFLAPAKGQTLLAKARTLQVGGTICVVAVELVTHPAE
+GQGPCAVAHVTLRVVDMPPLK
+>tr|A0A0P0MA28|A0A0P0MA28_9BURK
+MGTVDLFQGQECDIIAITLTRSNPQGEIGFLSDIRRMNVAMTRARRKLLLVGDSSTLCRH
+PFFGELLAYVKAVGGYRTADEVDSLT
+>tr|A0A0P0LCN2|A0A0P0LCN2_9BURK
+MQALKKVILFTDTDGRARFRDEEVPLTEGTPQSRLSALMAASACQLRQSPVGFRSTFHCT
+GNPQWLFVLGGQMEIFLQDGSSRTFGPGEFFYSADTLPEGATFDATVHGHWSRQVGPDPL
+VTLFVRD
+>tr|A0A0P0LQG9|A0A0P0LQG9_9BURK
+MTHAPTPPAAPPFGADAIPSLSQDMVLGDVPVGVSLALDARDAEKAALMALSEDLVKKLR
+PEIERMTSDMVQRALQSEWDKRSRIDQE
+>tr|A0A0P0MC28|A0A0P0MC28_9BURK
+MRTNIEIDDDLMAAAMAAGGFKTKKEAVEEGLRLVRRRQIYNGLLALRGKLQWDDSDVAW
+AQARTPEASAMAVQEPQGAYKVKPKPADKTERSAKAKKQAAAKRSKAP
+>tr|A0A0P0M8M9|A0A0P0M8M9_9BURK
+MREGCVVKPEDLVKLVTTPMPYGKHKGMLIADLPGNYLNWFAREGFPKGEVGQLLQLMQE
+IDHNGLSDLLKPLRQPR
+>tr|A0A0P0MAL7|A0A0P0MAL7_9BURK
+MTETKVSIFDQDLPQTPANHAPISPLSFIERTAEVYPTRLAIVHGDLRQDWATTYRRTRQ
+LASALARAGIGKNDTVAVMLPNTPPMVEAHFGIPIVGAVLNALNTRLDPETVAFMLDHGE
+AKAVIVDPEFAGVMKKALALRQSTRPLLVIDVEDALYTGPTEKLGTVTYEAFVASGAADF
+AWSLPANEWDAIALNYTSGTTGNPKGVVYHHRGAATNAISNILEWDMPKHAVYMWTLPMF
+HCNGWCFPWTVAARAGVNVCLRKVDAQAMFDAMRSHGVTHYCGAPIVHGLLVNAPAAMKA
+GVPAGIKAMVAGAAPPASMIEGMEQLGFDLTHVYGLTEVYGPATVCPKHSEWDALDIGER
+ARLNARQGVRYHLQRDVRVLNPETMQPVPQDGETMGEIMFKGNITMKGYLKNPKATQEAF
+AGGWFHSGDLAVQYPDGYFKIKDRSKDIIISGGENISSIEVEDVLYRHPAVLAAAVVAKP
+DARWGETPCAFVELKVDAQVTVEQIVAHCKQHLAGFKVPRAVVFGELPKTSTGKIQKFEL
+RKQAGSAAAIDV
+>tr|A0A0P0MB74|A0A0P0MB74_9BURK
+MSKKVFIKTFGCQMNEYDSDKMADVLGAAQGYEPTQDVDEADLILFNTCSVREKAQEKVF
+SDLGRVQHLKAKGVLIGVGGCVASQEGAEIIKRAPYVDVVFGPQTLHRLPEMLAERERKQ
+RPQVDISFPEIEKFDHLPPAKVDGATAFVSIMEGCSKYCSYCVVPYTRGEEVSRPFDDVL
+VEVAGLAAQGVKEITLLGQNVNAYRGKMGGTADIADFALLLEYVADMPGIERIRYVTSHP
+NEFTQRLIDAYEKIPKLVSHLHLPVQHGSDRILMAMKRGYTAMEYKSTIRKLRAIRPDMS
+LSSDFIVGFPGETEDDFNKMMKLITDVGFDTSFSFIFSPRPGTPAANLHDDTPHEVKLRR
+LHHLQATIEENVQRIGESRVGTVQRILVERPSRKDATELAGRTECNRVVNFPGGPNMDRL
+IGQMADVRITQGLSHSLRGELVIKD
+>tr|A0A0P0MB75|A0A0P0MB75_9BURK
+MAWLDFLKNGNELSELLIEGNNPYGAQLLKQADVDQMRNHIQPDERVLGYVLGRVVLSGR
+GLWLLTDRQLLVSENDTGTLVHHFALKDITQAECVKGKYGYTLRVTAAGQQRSVYGASSH
+LAAVFYRALGQKVSCSPVYKPTALDADDVAEVVHHFSDAALRLQPVALVNADARALIAQL
+AQDAANQGWLQASEASQVRQAEAAH
+>tr|A0A0P0LAQ4|A0A0P0LAQ4_9BURK
+MNLIDWVGSLAAFLTTASFIPQAWQTFRTRDVSGISLGMYSLFTVGVALWLVYGILMVAW
+PIIIANTITTSLALMILVMKLRYR
+>tr|A0A0P0M813|A0A0P0M813_9BURK
+MKKLAAAAIGISLVLGLSSTANAQALTPIKISYQPSLYWALPFHIATEKGWWKDVGLAPE
+FSTFPAGVPQIAASAAGSWDVGGTGSVPAVLGHVRFGIKTIGITNDESAANGLVGSGKAA
+ADFAKDPAAALRGKTITLTQNSTADFAVQACLKKYGLKKSDVVMKNMGQAEIISALSSNN
+SDLAGMWAPNTYTVEEKAGAKMLCSGKDSGAIVPGALIARGDYAKQNPQNVAKFLAVYLR
+AWSWMGVNRPEAIRMMKDFYAKGGVSISDAAMNKEFDTRPTFTLAQQLKNMERTGGAANS
+KMDGWFTELSGFMRETGAVQQVPAVADFVTDEYLKLVQADAKLRDMANSTR
+>tr|A0A0P0M9U0|A0A0P0M9U0_9BURK
+MTQAETNKLQWKSDPLLMGKKHKAAFAQTSWDQSKERKFGSWTPESNAKHGEELFQSDLP
+QSAPTDPSAQSGDQAQTSDTNSGDSSATESVHHSHSPNGSALPPSPVSSAPVVLTELNEQ
+QIRIARQQGYVQGLKDGMAKTLHDLETERAKERELIQTITSELAALQNDATRQFEPLRKL
+SLHIAEQLVRGELSTSGEAVERLVKACVADLNGQENGINVSLNPSDLERVQPLLKNNEPP
+LHLQPDMSLRPGSVRVRCNDTVIEDLIDHRLEGLARQLLSEPDPWLKNASRLTGSQVESV
+PSSFAERKKTAIDPEIDDVMEKAPISTAQDIEEVQTPVPTPLPTEEAAAPETTAQEAPAA
+MEEPAPIAPAATEPAPANPEGDQAYL
+>tr|A0A0P0LGZ1|A0A0P0LGZ1_9BURK
+MQRRHQAIPLQQAAQESPTFSLLMGRVRESSERLQAIRSLLPAPLRAGIQPGPIEDGAWC
+LLVSSNAVAAKLRQLLPTLQAHLNSKGLGVASIRIKVQNR
+>tr|A0A0P0LI43|A0A0P0LI43_9BURK
+MYLTAGLHRSMQRHPDKIATVTGTRRQTYRQLVDRVARTASALRSLGLQPGERLSVLALN
+SDRMIELLLAGAWAGLVINPINTRWTAAEVAYALGDCGASALAVDDSLMATAQAITQTLS
+ALRQRLYIGETQAPAGYLPLEAQLAAALPMEDVRSAPDTLAAIVYTGGTTGFPKGVMLSH
+GNLWASLVGRMAEVPNPPHYVTLLTSPMFHVAGLGRMLGQTVVGGTCVTVPAFQPQPVVE
+IMAREGVNDLVIVPSMLQMLLDTPGFDPHGLPKLERILWGAAPITLPLLRRALQAFPDVN
+FIHVYGMTETSAAVSALPILRDAAFLDSERIRSAGQAGVSAEIRIADEQGRELPPGTPGE
+ILVRGPAVMQGYWGREEDTRKALAGGWLHTGDGGVMDAHGYLYVIDRIKDMVITGGENVY
+PAEVESTLTSHPAVSMCAVIGVPHEKWGEAVHAVIVLKPGAQANAEELSAHCHALISGYK
+CPKSYEFRDKLPLTAAGKVQKTELRKSVAQGSAA
+>tr|A0A0P0LLW3|A0A0P0LLW3_9BURK
+MAIPWLMALKVIPWGDVIEHAPSVLKAARKLMDRQPPEPPGQAGAPATTTPVSAVPSLGE
+LKNALIAAQGQIDRQAQTQRELTETLAELAEQNARLVSAVEMLRLRTRVLVWGGAAVLLW
+LAVLTWRA
+>tr|A0A0P0MBW5|A0A0P0MBW5_9BURK
+MTSPRPLDGITVVSLEHAIAAPFCTRQLADLGARVIKIERPGAGDFARAYDTRVRGQSSH
+FVWTNRSKESLTLDLKNPDAMAVLNSLLQSADVLVQNLAPGAAARMGLSFEALSPTHPKL
+IVCDISGYGEDGPYRDKKAYDLLIQSEAGMLSITGTPEDPSKTGNSIADIAAGMYAYTNI
+LSALLLRGKTGQGSHIDVSMLEALAEWMGYPLYYAHDGATPPPRSAASHASIYPYGPFAA
+GDGGTVMLGLQNEREWKVFCDVVLGDAALANDPRFCTNALRSENRAQLKQLIVGMFARMS
+TSDVEARLDQAQIANARMNDMAGVWAHPQLKARERWQQVRSPAGHIPALLPPGRNNRYDY
+RMDAVPAVGEHTEAILRELGLDDVAVQALRTNKAI
+>tr|A0A0P0LMJ6|A0A0P0LMJ6_9BURK
+MKIVNSANENNVSEVKEAGQKRGFKSSKSLLRAIGGAALLASVFEVLAKAKEQDWDTHAL
+QALALGNPEGQEQPTQASVDQAIELLNAIYEQVPSAAAWVDSEAQNLDGKLEKGQDVAVS
+ALLQTMGLDVALLKASYEGVILAQAAAPAASDAGAAAAPAAKSAGASEGLLAELSTAQIL
+GLGLLGVAVASMNSGSTTDTTAPAAPVISTASTSTTNTKPTIAGTAEAGSTVSIYAGTAL
+VGTTVANASGNFSLTLTSPLTDAAHTITAKATDAAGNVSAASSAITITVDTTAPSKPLIA
+LGNGVGVNGADTTEATQNSGVITVNAELGSTVTVTFTDEQNNVVTKTFTGTGAANGVSLS
+LSDLGSGQNQLDDGQITVNAVAVDALGNSSEAGTASFTLDAEAAVSSTVVDGYVQGATVF
+ADLDADGVKDSNEPSAITNNNGVFSFNTREVLTGKQIVSLGGIDSDTKAEVPMLKALHGN
+AVITPLTTLYTTVYVANGESAAATLLSNLGVTTADLATDHVAALSSASNAATAGNALKLQ
+ALSQNVLVVVQAATKLAVGLGATDSAASIAASAFSNVASLTAANLTKLTSTSATDAASVL
+STVFTSVVSSKVSSDANVLTAVNSLITAAASSVSAVTANVSQTTAAQVAAVTAGTATVAS
+IKEAASNVLDVTQVGMNGLASTVLASAASLASTITDYKAATGTAATNLLTTLTNTAATQA
+TTLNTTYSTSTITTLASDTTAPTVTVTSDVANLGAGMTANLTFSFSEVPLGFSASDVVVT
+GGTLSNLAVSNTNSKVYTAVLTPTTVGSINVALSGAYYDAAGNLGSTGTATLTYTNSPVV
+NITASKTALLSGETALLTFTFDQTPVGFDSSDVKVTGGTLSDFASVSDKVYTAVFTPTAG
+TDQFSPSLSIDKGSYTNSASGEGVGASLTLSADTLAPVTPTVSLTTDSGTSTSDLITNNG
+ALTVSVAASDVTRSYTINNGSASGAYKAPTTDGAYTVVVTDTDAAGNASSATLTFTLDTT
+APTTPTVSLTTDSGSNTSDTLTNDGALTLSNTATDVTRSFAINNGTASGTYTAPTTDGAY
+TVVVTDTDAAGNTATATATFTLDKTIAKPTLALKTDSGTSDSDKVTNNAEINFSTPANDV
+TRTYTVDGGTASSSYDAPTVDGSHTVVVTDTDQAGNTDTASLTFTLDKTLGVPALSVSLQ
+YDTGTSTTDLITNNAAISVSTPADGVTRTYAVNGAQATDSYVPPSTDGAYSLVVTDTDTA
+GNTSSETLTFTLDKSVPTLTVSGVNISADTGTSATDFTTKTASQTITGTLSAALATGDIL
+YGSVDNGSTWTNVTSKVSGTAISWDGATLSGSSTIVFKVTDAAGNDSSNTGSQAYVLDTT
+APTLTVSGVNISADTGTSATDFTTKTASQTITGTLSAALATGDILYGSVDNGSTWTNVTS
+KVSGTAISWDGATLSGSSTIVFKVTDAAGNDGSNTGSQAYVLDTTAPTTPTVSLTTDSGS
+SQTDKITNDPSLTFNSPENGVTRIYSSDENDVEPYSSEVYEEVDSDGIQTVVVTDIDAAG
+NSSTARITFTLDRTAPTIFINAIATDDIVNSTEDNSALVVSGSTTGVEDGQKVTVALGAY
+NAQAEVTNNSWSLSVAANIFQLVTEGTAQVTANVQDVAGNSATQATRSVTYDKTAPTISI
+TTDKTSLAFSSSSVETSTLTFTFSEAPESFSADNVTVAGGSLSNLAVSQSNSKVYTATFT
+PSGSAAISVSVATGDVSDVAGNASTTASNETTMGLDYHVIDTGVIDGSASFDSLGLDYSE
+LQSIFNNVQAADGSGVSTVEVSLGDSTWFVNQPLNANNQSTVSVPTKFEDSLLTTLLVTD
+ADSPTGSWSNLTQQQTQNLVWFLDQLGDSGVDRLSMTQDTQYAIESSLSNYGYANLEEQL
+KWGATDAVIWLIGLDSGSGSGSGSGSGTGSGSGSGSGSGSGSGGF
+>tr|A0A0P0MC48|A0A0P0MC48_9BURK
+MKTRVTEALGIRYPIIQGGMQWVGKAELVSAVSNAGGLGVLTALTQPTPQALALEIARTR
+TLTDQPFGVNLTILPSINPPPYAEYLQAIIDSGVKIVETAGNSPKEFIGRMKDAGITIVH
+KCTSVRHALSAERNGVDMISIDGFECAGHPGEDDVPGLVLIPLACQALRVPVIASGGIAD
+GRGMAAAMALGAEGVNMGTRFLVTQEAPVHDNIKQALVGATERDTKLMFRTMRNTTRAWS
+NAVSQEVVATENREGGCSFEDIRHLVAGQRGNQALQSGDIDGGVVAAGQVIGLINDIPHC
+ADLIERMVADCRATLARAQNWALPP
+>tr|A0A0P0M7G5|A0A0P0M7G5_9BURK
+MQLTLWTYEGPPHVGAMRVATAMTDVHYVLHAPQGDTYADLLFTMIERLPRRPPVTYTTF
+QARDLGGDTAELFKDAARQAMARFNPAAMLVGSSCTAELIQDDPGGLAQALQLSIPVVAL
+ELPSYQRKENWGASETFYQLCRHLVHKPATEKPVKARPTCNILGPSALGFRHRDDVKEIT
+QLLNQLGVDVAVVAPLSASVTDVQKLAEADFNVVLYPEIGLAAAQWLQRQFDQPYTKTVP
+LGSHATRDFIAEVCTLTGLPQPAQDPSNAHAHWYAKSVDSTYLTGKRVYIFGDATHVVAA
+ARIASQEMDFEVVGMGTYSREFAREVRDCAKRYGVEALITDDYLEVEDQIQTLQPELILG
+TQMERHIAKRQGIPCAVISAPVHVQDFPARYAPQMGFEGANVLFDTWVHPLMMGLEEHLI
+GMFREDFEFHAGAAPSHLGSTRPAAENVAPIVAAPLSTPRSAPVATTSPMPVAAPARTDT
+LTTDTVQKVAVPAQAASNQATWSPEAEKELGKIPFFVRGKARRNTERFAQDQGVATITVE
+TLYDAKAHFSR
+>tr|A0A0N7J8B3|A0A0N7J8B3_9BURK
+MSSPLLKPLNEGVCALHDPSGLHVGNFKWIQGQWKFKAIGYGPGAQVVPGGGPLTDRHNC
+CLAQLDEALIRAQFFEE
+>tr|A0A0P0LL43|A0A0P0LL43_9BURK
+MNTPPLEDSTHTISWVSYILHLIVAVSAVIPGAQMGPALLVVALIIDLVKKGDAPGWEAT
+HFSYRIRTVIRAAVLYLVTAPLWLFFFFPGWPGWPFPSGFCTASCWAWCA
+>tr|A0A0P0M8E9|A0A0P0M8E9_9BURK
+MVQKFIDGFCKALNVVMAVCLAVMVVLVFGNVVMRYGFNSGITLSEELSRWLFVWMTFMG
+AIVALKERGHLGTDMLVGKLGAAGKKFCLALSYVAMLFICWLLFKGAYQQTVINLGSTSA
+VMEVSMAWVYAPGVVFAVLGGLILMTELVRLLTGQVRPEDLVMVQESEESPHSSNKS
+>tr|A0A0P0M7Q9|A0A0P0M7Q9_9BURK
+MPKPTSAGKQATTSAPRMSVVLLTMDSHLASAAESAAERLARDLPGLHLQTHSASAWRDS
+DTALAACLAAVAQADLVIVTMLFMEDHFLPVLDALQARRDHCDAMVCIMSAPQVTQLTRM
+GKLVMGRESSGLMALLKKLRPSAKNKDTGSETGAPSSAGAKQMAMLRRLPKLLRFIPGTA
+QDLRLFFLTMRYWLAGSEHNIEHLVKTLVHRYAQGPREPLRALAQPEDPIEYPEVGLYHP
+QMKNRIGEQLSDLPGHGRKDQPAVGLLLLRSYLLAGNTAHYDAVIASLQARGLRVIPAFA
+SGLDARPAMDRFFKQGTGSKIQSLVSLTGFSLVGGPAYNDASAAEVALSELDVPYIAAHP
+LEFQSIEQWGDSTRGLLPVENTIMVAIPELDGSILPMVYGGRPGPAGQTCHGCDKRCTFP
+SGPRSQDMFTCSERTEMLTARVERLVRLRDKPRADRKLAIVLFNFPPNAGSVGTAAYLSV
+FQSLFNTLQRLSLEGYQVSLPDSVDDLRNRLLHGNASQYGTQANVLHAIDTGHHVQNERW
+LNEIEAQWGPAPGKHLTNGQSIFVLGADFGQVVVTVQPGFGYEGDPMRLLFETGCAPTHA
+FSAFYRYLRDDYAADAVLHFGTHGALEFMPGKQTGLSAQCWPDRLIGALPNIYLYAANNP
+SEGALAKRRGAATLVSYLTPSLTHSGLYKELVSLQQSIERWQQMGPDQAQDRDSLTTLIR
+EQAQSIDLAVPAHQAGDPTAWIEQLQSQLLELEYALIPEGLHVMGQAPTREQRLGTLKVM
+ADAMGLTGAQNANLMEALVDGASEAQLNAQFSNELNASDKAQAETLRQLVRSNRLLGEDH
+EMQGLMRALDGRYLQPAPGGDLIRNANVLPTGRNLHGLDPFRMPSAFAVRDGMRQADKLL
+ARYQQDHQALPETVAMVLWGTDNLKTEGSPMAQALALMGAAPRFDSYGRLAGAQLIPLAE
+LGRPRIDVVITLSGIFRDLLPMQIRLLAEAAFLAASANEPVHQNFVRQHALAYLAEHEGS
+NLECAALRVFGNTEGAYGANVNHLIDSSCWENENELGDAFTQRKGFAYGREGRPVRNTSV
+LQSALASVSLTYQNLDSVELGVTSIDTYFDTLGGISRAVLQAKHQRDGNAAEAPPVFIGD
+QTQGDGVVRSLTEQVALETRSRMLNPKWHESMLQHGYEGVRQIEAHLTNTMGWSATTGQV
+QPWVYQQLAQTFVLDPAMRERMAQLNPTASAKVANRLLEATRRQYWQPDAETMSALLRAG
+EELEDRLEGIQEGLPA
+>tr|A0A0N7J8H7|A0A0N7J8H7_9BURK
+MKKGTILRNEAPHAVQMPEGSKVAARKVKKEAASVPVPVEVPPPPVAQKSVSPKVKTTQD
+KPAPAKVAVKPRAKAKAPAPAPAPARARAKARAKPKTPDTIAPAQGVASIAPVTAPRVLP
+MPIDEAAIWEKDSPIKTRMSQLKARNALLEEQLQRLQSPFQARGRKP
+>tr|A0A0P0M9E2|A0A0P0M9E2_9BURK
+MNGRQFTQLVLLSAVWGGSFPLIRVAAPAFGPVAMACLRCALAALVLGAIMRWTRQAWPA
+RQHWRSLTGLGILTLVVPFVLYNWAGLVLPAGYSAVLNATSPMFGVLAGVMLAQERFTPS
+KGVGCVVGLLGVSLLLGLGPVNPDWDVVLAALACVVAAACYGFGAIFMKRATLAHHALPA
+SAVVHLTSALVLLPAAAVTAPSQPVGLPAVLALLVLGAVTSGFTYWISMRLMRDIPASAA
+TSSAFLIPLFGVTWGAMFLGEPLTVGLLPGVVLILFASALLTGFNPFRAFLRGGR
+>tr|A0A0N7J943|A0A0N7J943_9BURK
+MSTVAPTHSKPPPAAPLTGRPSTRSLLRWGALVGVLHLFFLMSLAGTLDLQLSGPQTLRT
+GPMQTRTLANSAHGPTVSELNLTPARTRVALVKKPRPAPIPKPTAPPTAAAPNVPHPQAA
+PSDTALPDAGSPTPQQALDRDPALPATLATATHEPAQELEPQTHTAPSAEPTPAANALTQ
+VPGTVIAKADGTETGQSPDKSVSTSEGTAQFATPSPERIASATMALPAVALGSLPPSALL
+SYKLSGQEKGIQYQASGELRWQHNASAYAMSLSVKAFLLGSRHWRSAGQINATGLAPTRF
+SDSWRSERAAHFDRPNQRIVFSNNAPTTPLQPGAQDQVSLYAQLAAAMTQSGKRMQPGTR
+LQIQTATVRDALPWLLTLEKVETLQMDGKSVETIKWVCQPRNRFDAQVEFWVSAAHDWLP
+TRIRITQVSGSFIDLQLTGREALADLPPAQ
+>tr|A0A0P0M7Q5|A0A0P0M7Q5_9BURK
+MLDIVLLRKDLDAVVARLQTRKTPQLFLNVDAFRALEGERKTLQTRTEELQSQRNSLSKQ
+IGMLKGKGQHAEADAVMAQVGAIKDELDASAQRLEVIQAELQNLLLAVPNLPHESVPVGG
+GEEGNIEVRRWGTVPTFDFELKDHVDIGAPLGLDFETGTKLTGSRFTFMRGPVARLHRAL
+AQFMLDVQTSEHGYTECYTPYIVNADTLRGTGQLPKFEADLFAANKGGQEGEESQALYLI
+PTSEVTLTNVVRDEVLAESDLPIKLTAHTPCFRSEAGSGGRDVRGLIRQHQFDKVEMVQI
+VHPDQSYEALEAMTGHAEAILQKLGLPYRVMSLCTGDMGFGASKTYDLEVWVPAQNTYRE
+ISSVSNCEAFQARRLQARFKNAQGKNELVHTLNGSGLAVGRALVAVLENYQNADGSVTVP
+EVLRPYLGGLETLRA
+>tr|A0A0P0MAX6|A0A0P0MAX6_9BURK
+MPSSKTSRTTRASGSARSAPAKKPAPRSPKGQPSHEVRIIGGQWRRTRLKVLDKPGLRPT
+PDRVRETLFNWLGQDLSGWRCVDAFAGTGVLGLEAASRGAAHVLLVEQDAVLVQLLQDNV
+TRLKADAVSVQRGDAVSALGRLPAGSVDLVFIDPPFDGPWFEPALKAATRAVPVGGWIYL
+EAPVAWPAEALGVLGLQCERHLKAGAVHAHLLQRTSLEPVPTPTVIPTEGDTP
+>tr|A0A0P0MC82|A0A0P0MC82_9BURK
+MMRIAELLENITSYGSMSPAEYSAVTQQRDAAAKQKRQVAQQARQQQQKLKQQQIWAKSR
+AVKPKPIKLKAARRRRVKSNLRFS
+>tr|A0A0P0M9L0|A0A0P0M9L0_9BURK
+MNEDKKVTVIINNRDLLDWPRKMVERLEGMLGVYEIILLDNGSTYKPLLNWYKNIKHKVI
+FLDNLGHRAPWISGVIDKIETDYYVISDPDLDLSGVPDDAIFGLIKILDSNPELGKVGLG
+LETEGIPEDSPYYQHVLNYEKFVQDKNTDHQGLISMPVDTTFAVYDRRVLNEYKICGVRT
+AKPYLAKHEPWYIVHPSGDFAYYLDHAEGDSSSYRGFVKYVVSDSVRGLYEAYKLSTNNK
+VSTKWDSYLDVYEELLFNFKRKSINLLEIGVQNGGSLEIWSQYFKNAEKIIGCDINPRCQ
+GLKYEDSRVEVHVGNANELNVFNSIRGSSSHFDVIIDDGSHTSHDVISSFINYFPLLNDG
+GVYIVEDMHCAFWENYGGGVLNERSSASFFRKLFDAVNMDHFKEIDAGSLFQAFFGREFM
+NNFLKDNQILSVSAYDSIFVVKKSSSSRPRGLGKEVIVGDVAIADDRVLSKKLIN
+>tr|A0A0P0MBV2|A0A0P0MBV2_9BURK
+MKTNDLIALLASDTLQPQIPVRQQLLRQLLLGAVVCGVLLFTLFGLNPQMDQMAVHPAFI
+TKMMWLTALMGFSLYGLFRLARPGVGAGHTLWGIGLALLAMFSLGLLQLLQTDSGAQTAQ
+WMGGSWQVCSVSITALSLPVLGALLWALRQLAPTRPVLTGAVAGVLAGSLAASIYSLHCT
+ETSLTFFAVWYVAGMALATGLGALLGTRWLRW
+>tr|A0A0P0M8N0|A0A0P0M8N0_9BURK
+MKLSKLMLGLSLAIGVMTTASAQITMRNSISVGQNSHQGEAIDTLSKEVERRTNGRIKIQ
+NFYSGSLGGERESIESVQLGTQELATTSTGPVPNFVPEARILDVPFLFRDKAHARAVLDG
+PIGQELLTKFESKGFKALAWGENGVRHMTNSKRPVNLPDDLKGLKMRTMENPVHVAAYKS
+LGIVTTPMAFPEVFTALQQGTVDGQENPLSVIMAANFDQVQKHLTLTGHVYSPAVILMNK
+ASFDKLSAADKQIFLDSAKEAVKANRARVDKDDANGVAELRKKGMNIIENVDKTKFIATM
+APAIAEFEKQFGKANLDRIRNTK
+>tr|A0A0P0M8S2|A0A0P0M8S2_9BURK
+MDEKAVRGLIEQVRENVISRKDFIRNMLGYGLTVPMAAQMLLTSGLAQAQTASAYKPTKR
+GGGGPLKLLWWQGPTLLQPHFASGTKDQEGSRIFYEPLGAWDSDGNMIPILAAEVPSSAN
+GGVSRDGKTITWKLKRNVQWHDGRPFTADDVVFTYEYALDPATAAYTAGTYKDIKVTKVD
+SHTVRVEYQKASPFWADPFCSAAGMIIPKHVFGAFKGATSRDAPANLKPVGTGPYKFLDF
+KPGDMLRGVINTNYHEANRPYFDTIEMKGGGDAVSAARAVLQTGEYDYAWNLQVEDELLL
+RLEQGGKGKTYITLGGNIEFIQLNLADPWTEIDGERAHPSSKHPILSELAVRQALNMLVD
+RAGIQKFIYGRTGIATANFLNNPQRFASKNTKFEFNIDKAIQVLETAGWKKGSDGIREKG
+GKKLKFVFQTSINGPRQKTQQIIKQAAQRAGIDLELKSVPASVYFSSDPANPDTYTKFFC
+DIQMFTTTMPQPDPEVFMNQYLSNQFATKANKWLGRNSTRYSNPEYDKAYLEAQSEMDPV
+KRAALFIKMNDMPINDVAIIPVVYRPRTAGAVNNLVAPLSGWDNDLWMLKDWYRNV
+>tr|A0A0P0MBE6|A0A0P0MBE6_9BURK
+MPLKPLRSLLFLPATADHLLAKATERGADALVIDLEDAIPPERKAAARPMAQAAVRQLAE
+RGATVVLRVNSDPALWQEDLRGMPVEALSAIMLPKVESLDQVEALAKALIQMRAEKAPPI
+AALIETPRGVLAAATIASHSALCALGFGSEDYAGALGVPAEPAALTWPAQQVLTCAHAHG
+LQCWGLAASIAEVDDMVGFARAVDAGRAMGFTGSVCIHPRQVPVVNRGFSPSEQELAWAE
+RVLAADQAAREQGLGAILLDGRMLDKPIVDRARRWLGLGV
+>tr|A0A0P0LMF5|A0A0P0LMF5_9BURK
+MQAPETSPLAARFAQLAQDCGTLPAMTFRGDERKAIQTGDSTFAYDFAKFWRRVARVTAH
+LQSTWGVQPGDRVAWLGFNHELQLVALVACARLGAVFLPLNFRLAVPELQQVMQDAQPRL
+LVHDTHHADTARALQGADLQHTHHDTLIATASPRALPMPAVHCELPLLLVYTSGTTGVPK
+GAVHTQAALLANARASAWAHDFVPGDKVLSTLPMFHVGGLCIQTLPALLAGVEVVLHPRF
+DPTAWLDEMHTSRPTLSLLVPATMRAVFEHPRWADTSLAGLRGIMTGSSTVPVAYLETLH
+ARGVPVGQVYGTTETGPVSIVLRLPEAMARVGASGWPHPEAQVKLINAQGQEVGSGETGE
+VCIRAANLMRGYWRADGEPNTGLQDGWFHSGDLGQRAEDGCITIVGRSKDMIISGGENIY
+PAEIENQLVTLPGVAECAVVGLNDERWGEVPVAVLVRSSDAAGQHLTREAVLQHLQSRIA
+RFKLPRRVVFMASLPKSALGKVQKPALQAQLAGANPSHLTGINP
+>tr|A0A0P0LTE6|A0A0P0LTE6_9BURK
+MTTALLPNFFAGRWQTGTGAGTPLFDPVLGTELARVSSSGIDLAEGFAFAREQGGAALRT
+LSYGQRAALLSQITEVLQANRVAYYEIATANSGTVAKDSGVDIDGAIFTLGYYAKQGAAL
+GDATLLLDGQRIRMAKDPAFQTQHIQVPTRGVALFINAFNFPSWGLWEKAAPALLSGVPV
+IIKPATATAWLTQRMVKDVVDAGVLPVGALSVICGSSAGLMDQLQAFDVVSFTGSAETGQ
+IIRSHRAVTELSVRCNIEADSLNSALLSPAATTDSEAFKLLVAEVAREMTVKSGQKCTAI
+RRIFVPRALYQAAAEAIGARLAKTTVGNPRSESVRMGALVSQEQKASVLAGLAQLKTEAT
+VLFDGSAAGLVDADASSACVAPVLLGTESPMTAQVLHGVEVFGPVSTLMPYDSIGEAYTM
+IRRGEGSLVCSVYSEDPAFTAQASVELASSHGRVHAISPDVAALHSGHGNVMPMSLHGGP
+GRAGGGEELGGLRALNFYHRRTAVQGSSLALDQLAAPGATLSL
+>tr|A0A0P0M6Y5|A0A0P0M6Y5_9BURK
+MLDPQAQALMTLLSEKGIPPVYTQTPTEARASYRARRSFTQPDAPEVGRVQDLQFSHAGV
+SIAVRVYHPAGAGQALPALVYLHGGGWTIGDLDTHDVLCRSLCQQAGGVVVSVDYRLGPE
+HKFPAGYEDAVAAWQWVAAQAAALGIDPTRIAIGGDSAGGNLAAAACLGLRDLGHKPVLQ
+LLIYPSTLMAPDTASYQTNGQGYMLTRDSMAWYANNYLRGPQDTLDWRASPQLAKSHANL
+PPALVLTAGFDPLRDEGLLYADALSRAGVSAQYICFERQIHGFITMGRVLQEANTAVALC
+AQALRTAWKQG
+>tr|A0A0P0LN75|A0A0P0LN75_9BURK
+MNEKISNYESIIEHWISDFVETMKYENPDVGDRTGDQPFGVKIMFDGYGFNEKTNQNDDT
+DVLSFAVFIHIDCMEGKRFPEHETTPWGIAHRPDQEICIFAYYDKRTRLAEVVPFEDGNN
+TKLSNQLIYELISGVNNRKYKK
+>tr|A0A0P0LPC5|A0A0P0LPC5_9BURK
+MSSNFLFTSESVSEGHPDKVADQISDAILDAIFEQDPRSRVAAETLTNTGLVVLAGEITT
+NAHVDYIQVARDTIKRIGYDNTDYGIDYKGCAVMVCYDKQSNDIAQGVDHASDDHLNIGA
+GDQGLMFGYACSETPELMPAPIYYAHRLVERQAQLRKDGRLPFLRPDAKSQVTMRYVDGK
+PHSIDTVVLSTQHSPDQSETSTKMKASFTEAIIEEIIKPVLPKEWLQDTKYLINPTGRFV
+IGGPQGDCGLTGRKIIVDTYGGACPHGGGAFSGKDPSKVDRSAAYAARYVAKNIVAAGLA
+TKCQIQVAYAIGVARPMNITVNTEGTGVISDDKLAALVAEHFDLRPKGIIQMLDLLRPIY
+SKTAAYGHFGRDEPDFTWERTDRAAALKAAAGL
+>tr|A0A0P0LRR7|A0A0P0LRR7_9BURK
+MHTLRSAALIPWAQTDPNLKAQATLALDLSLPVGAIDRLSAPTVGPGRAERPVLVPHTQL
+KAKSMATPEGRAMLVHSIAHIELNAIDLALDVVWRFGGMPEAFYTDWVRIAQEEAKHFRL
+LRQHLLDLGFDYGDFPAHNTLWDMAERTKDDILARIGIVPRTMEARGLDASPGVKNKLVS
+VGDHRAGEILDIILEEEIGHVAAGNRWYRYLCEQRGLEPVRTYAELIAQYDAPKLRPPFN
+MAARRLAGFEDAELAALS
+>tr|A0A0P0M9K7|A0A0P0M9K7_9BURK
+MAYSEKVVDHYENPRNVGSFDKGDDSVGTGMVGAPACGDVMKLQIKVNPTTGVIEDARFK
+TYGCGSAIASSSLVTEWVKGKTLDEAAALKNSQIAEELALPPVKIHCSILAEDAIKAAVD
+DYKKKHLN
+>tr|A0A0P0MAR3|A0A0P0MAR3_9BURK
+MKPNIALRGLKVGDIGWVAHRQGLLYAQEYGWDGTFEALVAEIAAQYVKNLDPEKENAWI
+AECEGRVVGSVFVVKVSDTQAKLRLLYVEPEMRGTGLGRRLTQECIAFAKARGYQQLTLW
+TNDILHAARHIYQTAGFVLLSEEKHHSFGHDLVGQYWALDLRN
+>tr|A0A0P0MBL3|A0A0P0MBL3_9BURK
+MKIHEYQGKEILRQFGVPVPRGIPAFTVQEAVEAAQKLGGPVWVVKAQIHAGGRGKGGGV
+KVAKTIDDVKRIAGEILGMQLKTHQTGPEGQKVRRLYIEDGADINKEYYVSVVTDRATQK
+IAFIASSEGGMDIEEVAHSTPEKIITEFIDPLTGLGDEQAKKISDAIGMPADSTAQAVDI
+FKKLYQCYMETDASLVEINPLNRDSKGNVMALDAKFNFDSNALFRHPEIVAYRDLDEEDP
+AEVEASKFDLAYISLDGNIGCLVNGAGLAMATMDTIKLFGGEPANFLDVGGGATAEKVTE
+AFKIMLANKNVKGILVNIFGGIMKCDTIATGVITACKAVNLSVPLVVRMKGTNDELGKKM
+LAESGLPIISADTMAEAATAIVAAVK
+>tr|A0A0P0MAW2|A0A0P0MAW2_9BURK
+MTPKTPTPRRQWLKAALSTGLMAAACGGLTLSASTAAAQAAYPAKPIRLVVPFAPGGVTD
+TSGRLIAEQLSKRLGQQVIVDNKPGASGNIGTQMVATAEPDGYTLLLGFDGTMVINPHVF
+PKVGFDTAKDFAPIGKIGDAILILVSNPGVKAKTLQEVIALSKTQSGGLSYGTSGTGGTP
+HIAGELLKQRTGANLTHIPYKGGGQAMIDVMGGSIPLVYTAVAGAISHVKSGKLHAVAVS
+SAQRAPSMPDVPTFIEAGISDFDINSWVGLLAPAKTPRAIVDKLNTELNAVLNDPAVRDR
+LNTLGITASPGGPERFGRDMARDLSRYAAVVKAANIKAE
+>tr|A0A0P0MBE1|A0A0P0MBE1_9BURK
+MADLFDNPMGLCGFEFVEFASPTPNTLEPLFEQMGFSLVAKHRSKDVVLYRQGDINFIVN
+REPKSLAGYFAAEHGPCACALAFRVKDSHKAYARALELGAQPVDVPTGPMELRLPAIKGI
+GGAPLYLIDRFEDGKSIYDIDFEFIEGVDRHPPGHGLKLIDHMTHNVYKGRMAYWSGFYE
+KLFNFQEIRYFDIKGEYTGLTSQAMMAPDGKIRIPLNEESGKTGGQIEEFLMQFNGEGIQ
+HIALLTDDILKSVDALQMAGIPLMSAPNDIYYEMLEERLPGHGEPVAELQARGILMDGST
+ANGEKRLLLQIFSQTLLGPVFFEFIQRKADEGFGEGNFKALFESLERDQIRRGAIQVE
+>tr|A0A0P0MA68|A0A0P0MA68_9BURK
+MTFKTTLSTLTVVMAAVTALSPVTSTWAGEGHDHGGASATPNMNGPQRLPDGSVFLPKPA
+QRQLAIRTIKVEVTDLPRSIELNGKVSMDPNAGGKVQAINAGRIEAGPKGLPNLGTAVRK
+GDVLAYLVSSLAPIEQSNQFAQLAELKAAKSLAEKRLARFKELSDTVPRKDIEAAESELQ
+SLTGRVSAVSTGLNHREPLVAPVSGVIASANVVAGQVIDARELVFEIVDPARLRIEALAF
+DTALIASVDKAFMAVNGQQISLQFLGAARSLREQALPMNFKAQGEELSALALGEPVRVVI
+QTKDKVKGMAVPVSALMKNPANQPIVWVKTAAERFTPRTITFEPLDGTRVAITSGLEMGD
+LIATQGATLINQVR
+>tr|A0A0P0M8V5|A0A0P0M8V5_9BURK
+MSQTPIEKARDAHLDDAAFQAGLKTRTQVMGPSYVDRALGAATDYSMPMQEFITANAWGN
+VWQRPGLDLKTRSLITVAMLAAQGKQQELKAHVRGAINNGATPEELREVMLHATVYCGFP
+TAIDAFRSVTEVVETLG
+>tr|A0A0P0LIS6|A0A0P0LIS6_9BURK
+MPPSSPPGLSGTLLAFQTGRVRPLMVGGRKLVSAIGKTTVSGPIQVGILGLAGDEQADLS
+VHGGLSKAVYALPSEHLAWWQAQRQSRGATMFEEALAPGYLGENLSLQGLLEHELFIGDR
+LDFGEVVLRVTQPREPCGKFNAVMGYAQAAKDMVQSGRSGFYLAVEQAGFLQAGARCQVL
+PGSRSTRVSEALQLKAWKHLR
+>tr|A0A0P0MBI3|A0A0P0MBI3_9BURK
+MLTTQKFHPNILNLLASKFSYLDMELSISHGFIGQKARLRFGGLITTKLSIIVIGIFSAQ
+LLKIV
+>tr|A0A0P0M7D7|A0A0P0M7D7_9BURK
+MPHRSPAPVVLEPEYIEGFRQIYEEKIVFNKTLGLKLVKVSPEGVEARIDMRPELVGHFA
+YNRIHGGVISAVLDAIGSAAVMAALAAKHMDEAPAKRLERFAKLGTIDLRVDYLRPGIGE
+HFTITANALRVGSRVGSSRMEFCGPDGTLMSTGAAAYIVS
+>tr|A0A0P0M8G0|A0A0P0M8G0_9BURK
+MNHDNAPLEIHVHGDVPIKPGTDIKAIQEALKPLWHYAGARSLHEGAVSLYEEEPGIRFD
+ATTQRLNLCWTVRGDEDFRMVMDDLCMNLNDLSAAGTQIEVTFYDTEFDDEDEARGGESR
+DDFVMLFVGPDPGAIMQAQRDLLVHDVVNMMERHFDGAELSGVVTEIDKLFSQRFDSLVS
+SLDIGKPPRGPGGGNGHGGGGRRPRHLH
+>tr|A0A0P0LIA4|A0A0P0LIA4_9BURK
+MRKVQLKLRALAIGSLAERLGQQAVGSVWTFRGFLATPRQGKSVVLHIQEFQQD
+>tr|A0A0P0LMN8|A0A0P0LMN8_9BURK
+MATAAKTTKQIIQAYKAVRQVEALTQAKLDALLETNTLYKLFEPDTRHPYYVLADAGKNT
+LAAFESAIAGVLDWKIGSSTIGEELDKVKARQIVNEEAEDADLDALRLIQPVAMTEEQVA
+DKLITAYYAACSVWIKAKDSVVNAELSDLFGKKNAERHKETPAVKLTKEANAAIRNIMKS
+TQQMRDYGNGTNTLRRELEKKQVMRGLSGQGIDAAIKLMLKP
+>tr|A0A0P0MAT0|A0A0P0MAT0_9BURK
+MLLSLAQWLQSLSPDWGFLRVFQYITFRAVMAAMTALLIGLAAGPWVIRRLTSLKIGQPI
+RGYGMESHLSKSGTPTMGGVLILLSIAISTLLWFDLSNRFVWIVLIVTLGFGAIGWVDDW
+RKVVNKDPEGMRSREKYFWQSVIGLLAALYLVFSISEVSNLRVLDLFGQWVMSGFDVSLP
+PKAGLQVPFFKEVNYPLGVLGFVVLTYLVIVGSSNAVNLTDGLDGLAIMPVVMVGSALGV
+FAYVTGSAVYSKYLFFPYIPGSGELLIFCAAMAGAGLAFLWFNTHPAQVFMGDVGALALG
+AALGTIAVIVRAEIVLAIMGGIFVVEALSVMAQVTYFKYTKKKYGEGRRILKMAPLHHHF
+EKSGWKETQVVVRFWIITMLLCLVGLSTLKLR
+>tr|A0A0N7J947|A0A0N7J947_9BURK
+MSTQAVELLATDLNPQGGVFCPSPKADMKIWNSHPKVYLDVAKTGQAKCPYCGTVYQLKA
+GEVVGHHH
+>tr|A0A0P0MAC7|A0A0P0MAC7_9BURK
+MSTTHLLYLHGFRSSPQSAKAQIMARLVQSRHLGVTWWCPQLPASPAQAMALLLKGTAAW
+PRGQMSVMGSSLGGFYAAWLSAHWDVPAVLINPAVHPSRDLARYIGEHPVWQDPAQSIFF
+EPTYVQELMQLESQPLPTRPATLALIAKGDEVLDWREMLARHQSGQVRLIEGSDHALSDF
+EDHLPQILDFLQLA
+>tr|A0A0P0M7B4|A0A0P0M7B4_9BURK
+MRSPLLPVSFACALLLSANVFAQDYPSSSKPITFVLPYAAGGPTDKAARDLAQAMSKAMG
+GHSIVIDNSAGASGSIGANKVAKASADGYTLLFTHIAQATLPTFFRNLPYNVEKDFEYIG
+LVSENPMNLIGRPSLPANNMVELVSWINANKGKINIANAGPGSASHLCGMLFQSTIKVDM
+TSVPYKGTAPAMTDLIGGQVDLMCDQTTTTIPQIEGKKVKSFAVTTPTRLSSPVLKDNPT
+MQEAGLKDFSVTIWQGLYAPRGTPAPVLKKLNDALKVAVKDPDFIRKQDAGGATVINDAR
+NDPAGHKAFVMAEIAKWAPVIRAAGVYAD
+>tr|A0A0P0M9K3|A0A0P0M9K3_9BURK
+MQTTVGKPASSSDNRGNSAELDIGAKVSSDFQKAKVLLVDDSRLIRMGLRKSLVEIGLSD
+ITEASDGREAIETLVREPFDLMLLDMEMPEMNGMEVLAVLRDTPHQPWPPVIVISGGTSL
+EDAVRCIELGAEDYLSKPFNPVLLRARVKTSVERKRLRDQEALRMRQLKRQHEALASEQA
+KTEQLLLNILPRKIAQRLKAGEEHIADAFPNVSVLFADMVGFTAMSRTMTASALVEVLGD
+LFSRFDLITEKHGLEKIKTIGDCYMLAGGVPEPFDDHAHAVIDAALEFCTALEDMRERTG
+GALRMRIGVHSGPIVAGVIGLRKFTYDLWGDTVNVASRMESTGEPGRIHVSVNTAELVRN
+DFHLESRGSIEVKSLGQVETFFVNGRK
+>tr|A0A0P0LH46|A0A0P0LH46_9BURK
+MLKIIFLFLMSGGIPVAIAMAGASLIYLLFAESSPPFVVIHRMVSGIDSFPLLAVPFFIL
+AGNLMNNAGITNRIYNYALALVGWLKGGLGHVNVVGSVVFAGMSGTAIADAAGLGTIEIK
+AMKDHGYSTEFAVGVTAASATLGPIIPPSLPFVIYGMMANVSVGALFLAGILPGIFMALL
+MMLTVAYFAHKNGWGADVKFEWPKVIKALAETAVVVGWPLAIWWLVTAMGTPPQLTVFVA
+LIVLFAADKFFNFQAVLPIMTPVILIGGMTTGVFTPTEGAIAACVWAIALGFFWYRTLNF
+KMFVKICLDTVETTATVLFIVAAASIFGWMLTATGVTTAISAWVLGFTQEPWVFLLLANA
+LMLFVGCFLEPTAAITILVPILVPICQQLGIDLVHFGLIMVLNLMIGLLHPPMGMVLFVL
+ARVAKLSVERTTMAILPWLFPLLGSLAVITYMPSLVLWLPKQFY
+>tr|A0A0P0M9C1|A0A0P0M9C1_9BURK
+MDASMWIAKTGLDAQQTRMSVISNNLANVNTTGFKRDRASFEDMLYQNLRQPGAQVGADA
+QAPTGLMLGTGVRIVSTEKNHSQGSLVNTKNALDLAVQGEGFFQIAQADGTVAYTRDGSF
+KLSATGQLVTANGAALQPAITIPPNVSSISIGQDGTVSVEAAGGGGAQVLGQIQLARFAN
+PAGLQSMGQNLMKETTASGAPVVGQAGQAGAGQLMQGALEASNVNVVEEMVNMIETQRAY
+EINSKAISAVDGMLRFLNNNM
+>tr|A0A0P0LJ77|A0A0P0LJ77_9BURK
+MVTITNLTSELADNLELFEMSKEEGDDDGLKTIEAETAKLARLVEELEFRRMFRHEADPL
+NCFVDIQAGAGGTEACDWASMLLRQYIKYAERKGFKATVEDETPGDTAGIKGATIKIEGE
+YAFGLLRTETGVHRLVRKSPFDSSGGRHTSFASLFVYPEIDDSIEININPSDVRTDTFRA
+SGAGGQHINKTDSAVRLTHIPTGIVVQCQDGRSQHSNRDVAWQRLRSRLYDFEMRKRLEE
+QQKLEDTKTDVGWGHQIRSYVLDNSRIKDLRTNVEISATQKVLDGDLDAFIEASLKQGL
+>tr|A0A0P0MAV3|A0A0P0MAV3_9BURK
+MSKRLTLKTLATVGAFAVGAMTVLGSTAVQAQQKLKWAHVYETSEPYHTESVWAAEEIKK
+RSNGKFDIQVFPASTLGKETDINQGLTLGTVDMIISGPSFAARTYPRFGIAYYPFIFRDG
+DHLIAYSKSPVFQEMVSEFRAKTGIQVTAYTYYGARHTTAQKAFTNCAGMKGIKIRVPDV
+PAYRATPEACGANPTPIAFAEVYLALQNGTVEAQENPLTTIEAKKFFEVQKAIMLTGHIV
+DGLTTQIAPHVWNKLSDAEKKMFTEVTQEAAVRATAKIKAREAELVDEFKKKGLQIVQVD
+RKSFQDAVLKNKPLTSMGFTQSDFDKIQAAK
+>tr|A0A0P0M887|A0A0P0M887_9BURK
+MITGAETAHLAPKIPTIYLEGRLPLVVERTAAELGLRDGQVIHATVEARQDRFRLTLQDP
+SQAGRFIDLPKELPAGLRLASGDTALFRVQLQSDGSIWLRPLQATPAASTAAAAPLAQMP
+NRMQQLGFRPPDMGALALLLRPGGLDSLLRSLNPAAPELAGLQQWQRLRPSMAQLTPEKL
+QQLMQRSGLMTESLLAHGQGGGPVDLKSGLRQLLRLLQNTSHEATGRIQEAIDDIESHQL
+TAAETLTGREWVFSMMLPFADAEPVEMRFVRGRRKRGEEKAPLVIHLHTRNRDLGEVWLQ
+TRISGETEVDMVMWALREDVVHRARDLTPNLAEELDSAGLNMTRLQVIHGPGPSEPMPWN
+PSETGSLLDVQT
+>tr|A0A0P0M8K6|A0A0P0M8K6_9BURK
+MNLRTKNLLVLGLTSLAIFYGGAALAQNNKGQIESDQFWADFSKGLEWLPTSKSISAAPT
+PSTLEVAPDSLNSSLTPVVDQAFDPDVHRIVILSHKRSIIHRKYNEKWVNDKSRPSSASM
+AKSLTALAVGKAICSGAIGHVDENASVYASRLRGTSWGNARIRHLLAMSSGSNKPVFSPT
+GSPTPQVQAETLAKSYQGKMTHDFISLMTKADEKYSASGQQGLYNNLDTQALAILVEDAT
+RQKFIEFFEREIWHAIGASQGGSWSHNSLGQVAAFSGFTAHPYDWIRLGHYVLEERAKDT
+CFGKFLKEATIRQSQVLLPNGSAAYGFQTWLGCGGVDTFCFLGHGGQRLQMSPSTGLVMY
+VHATSLSASQPLVAMYRNVASRYPK
+>tr|A0A0P0MBC2|A0A0P0MBC2_9BURK
+MDFMHAPALLTPTWTALTTEPDGLGESPFWHPHEQRLYWVDIPGRRIARVAVQGLQAQGP
+VDHWPLTQEPGCIAPLQGGGLVMALRDGIYLAREWGGPLQLLAAAPYDTSKQRFNDGKCD
+AQGRFWAGSLFEPKDRKLGVLYMLDGQGLHAMLGGDKDGVVTANGLAWSPDCHTAYWADT
+AAHQVRAFDFDAASGQLSNARVFFQAVPKPAGWAWGSAAPYGGRPDGAAVDSEGCYWSAQ
+YEGGRLLRFSPQGEVLAEVPTPALCPTMPCFGGPDLKTLLVTTARHGRSDAELAKYPGAG
+CVWAMRVEVAGNPTESHRIAT
+>tr|A0A0P0LG63|A0A0P0LG63_9BURK
+MEIKHILIIMFVVFGLFMLANWFNRPKRPRK
+>tr|A0A0P0M8F0|A0A0P0M8F0_9BURK
+MELNTTILTAPPLDAATVVMLRDGPGGLQVLLMRRHQASNVLGGAYVFPGGKLDLEDQNP
+AWLQRLSQDSATLNQRLNEPDIPGERAAGLFVAAMREAYEECRVLLGCTPHAQTQAQALL
+QALRSGQSWHEAFAAQALALHTEPLLPWCRWITPRQASVTNKRFDTRFFVTQVPDDQLAE
+HDNFEATEALWIQPREALLRYWDREIELAPPQIMSLVHLSRHPHAQSVLAEAQNRRPPVI
+EPEPFDQDGIRTICYPGDPRHSVRQAAFPGPSRLMFKNKRFEPETGLAGLLD
+>tr|A0A0P0LJW9|A0A0P0LJW9_9BURK
+MGFFERFLSIWVALGIAAGVGLGLLVPGVFQTVAELEFAHVNLVVAVFIWVMIFPMMVQI
+DWNAVKDVSQKPQGLWLTLVVNWLIKPFTMAALGVLFFQYLFTPWVDPQSAQEYIAGMIL
+LGVAPCTAMVFVWSQLVKGDANYTLVQVSVNDLIMVVAFAPIAGFLLGVTDVTVPWETLL
+LSTVLYVVLPLAAGMLCRRLWLARGTEHLQRRMAQLKPWSVSGLITTVVLLFGFQAQTII
+DKPFVIAMIAAPLVLQTYGIFFLSWWGARWLKLPHNVAGPACLIGTSNFFELAVAVAISL
+FGLNSGAALATVVGVLVEVPVMLTLVALVNRWAVHKDDQIYK
+>tr|A0A0P0M9E1|A0A0P0M9E1_9BURK
+MSAFDHFVGTRPVTGTHAFDIPALEAWLSARLPGFVGPLSVEMFKGGQSNPTYKLITPSR
+QYVMRAKPGPVAKLLPSAHAIEREFAVMQGLHGTDVPVAEMHVLCDDESVIGRAFYVMEF
+VQGRVLWDQSLPGMTPAERGAIYDEMNRVLAALHKVDVAKQGLASYGKPGNYIERQIGRW
+SKQYAASVTQPIPEMDQLIEWLPKNIPDSAKDESLVGIVHGDYRLDNLMFHPTEARVLAV
+LDWELSTLGHPLADFSYHCMAWHISPGTFRGIGGLDLAALGIPSEAEYIRRYCERTGFTT
+PEALAKDWNFYLAYNMFRIAAILQGIAKRVEDGTASSEQAKTSGAGARPMAELAWRFARQ
+A
+>tr|A0A0P0MA75|A0A0P0MA75_9BURK
+MTESTATVLYEARGAVALITLNRPQALNSFTRAMHHDLWAVLDQAEANPAIRAAVITGAG
+RGFCAGADLSDFDFTPGPNQVERADPGPIIDQAFNPSTRRLQSLRMPTIAAVNGVAAGAG
+ASMVMACDIAIAAPGASFIQAFSKIGLIPDAGGSWLLVERLGLARAMALAMTGDKLAAQQ
+AKDWGMIWDVAEDPLASALALAERLANMPTKALVATRALLQSATTRTLSEHLDTERDTQS
+ALGRTHDYFEGVQAFLEKRSPQFKGE
+>tr|A0A0P0M8M1|A0A0P0M8M1_9BURK
+MAKITASVYTSHVPAIGAAMDLGKTQEDYWKPVFAGYDFSKQWMKDNKPDVIFLVYNDHA
+TAFSLDMIPTFAIGTAAEYKPADEGWGPRPVPVVKGHPELASHIAQSVIQQDFDLTIVNK
+MDVDHGLTVPLSLMCGELDPVQDAWPCPVIPFAVNVVQYPVPSGQRCFNLGQAIRKAVES
+YDEDIHVHIWGTGGMSHQLQGARAGLINREWDNAWLDQLINDPVACAATPHIDYVREAGS
+EGIELVMWLIARGAMSDIEGGQATGPAPKLRHRFYHVPASNTAVGHAILENV
+>tr|A0A0P0MB49|A0A0P0MB49_9BURK
+MRACAAALLLLCGLGSVLAKEAPAQAEVWTGWVSWVMDGDTVLVVRPGQQEPVKLRLDAV
+DAPETCQPGGVAARDAMMALALRKSVQVQSLGHDSYGRDIGRLTVNGVDLGAEMVRSGMA
+WAYRFRTGRGPYAALQRQAQKEKRGVFAGREEPMSPSLFRKFHGSCLAP
+>tr|A0A0N7J8U9|A0A0N7J8U9_9BURK
+MTSEADVHSHAPELPWIVEGQALPPVSWAWDASSPAPGLLAASSDLSAQRLMEAYAEGIF
+PWFNMGQPVLWWSPNPRMVLQTRDFRFHRSLQQSLKRWSLSPDFELCFDRDFAQVIRHCA
+TSPRAGQKGTWIVPRMVDAYEALHHKGLAHSCELRIQGELVAGLYFVALGHAVFGESMFT
+TITDGSKMALACLVSVCLQHGITAIDCQQNTRHLASLGAREIPRSDFLRGVHHGREQAPI
+DWASQSLNWTALTAGAALT
+>tr|A0A0P0M779|A0A0P0M779_9BURK
+MKFRHIQVDPMTPTIGGMISGVDLNNTRSEDVYEEIKQALWQYGVVFFRKQALKPEAYIR
+LGQNFGEMEQHEFFPHIEGHPQIQLISHQGNEAPETDRWHTDVTFRKKPNMVSILRITDL
+PPSGGDTMWMHAGAAYDALNPGMQTMLEGLRADHDLPWHFRRINANERLAQRASAKSGMM
+VLASQQECKMIENTPTVTHPAVITHPYNGRKILFVNSIWTKRLLGMHMDLSEAVLNMLYE
+WVKKPEFMVRFRWEKDSLAMWDNCATQHYAVFDYAPHYRAGQRMTCGSFVPTLNPGAAAA
+GGQPSVMRQLLDTTRMQAASPSEQKAVEAIFSALESVDLNAVASAAQRR
+>tr|A0A0P0LBR7|A0A0P0LBR7_9BURK
+MNTKTKLDSNVNALMQRIIGWTREHDRSFQQTLTSLCEGTLPEKTAKTLRSILYAYPHET
+VWVASQYLCEAETQFGPIPDSIEMVSLSRTVKGYEVKVICKGGQQ
+>tr|A0A0P0LJZ7|A0A0P0LJZ7_9BURK
+MNYQDILYSVEHRIATITLNRPDKLNAWTAVMEREVREAMDAAAADDGVRAIVLTGAGRG
+FCAGADMDLLKGLDPSDITATTWTKPFDVNQRLDYQTRYGFYPAIPKPVIGMLNGATAGI
+GLVHALYCDIRFAADNAVFTTAFSRRGLIAEHGLSWMLPRIVGHANAMDLLLSARKVLAP
+EAQAMGLVNKVFAPQALAEATYAYVRDLVDNVSPRSMAVIKRQQYDAPFQTLAENTRQAN
+AEMARSFESEDFREGVAHFMEKRAPQFTGR
+>tr|A0A0P0M7D3|A0A0P0M7D3_9BURK
+MNLASLLETWGDSNVLAMAGALVGFIFGLAAQRTRFCARAAVVECCEGRTGDRFSVWWLA
+FGAALVGVQALVWAGGLKPADARYIGATGTLSGAVLGGLLFGAGMILTRGCASRLLILSA
+NGNLRALLAGLVFAVTVQASIGGWLAPARQALAGWWPIDGGPGRDVLQLTGIGPTGGLVL
+AVLALGTGFYFFFKTHQRRWGLALGAIITGLSIALGWGLTQAIASTSFEAVQIQGLSFSS
+ASAEMLMRVLSTATSPKLGFDAGLLPATFVGSLLGALVGGDFKFEGFKTENKLGHYLVGA
+VLMGFGAVLAGGCTVGAGMTGGSVFSLTAWLTLISIWLGAGMAWRINRSMGWPI
+>tr|A0A0P0M8D2|A0A0P0M8D2_9BURK
+MNAFVDVSFFPRDAKPLTSYRKYWAQRFGTAPFLPMSRAEMTQLGWDSCDIILVTGDAYV
+DHPSFGMAVIGRMLENQGFRVGIIAQPDWTSAEAFKALGQPNLFWGVTSGNMDSMINRYT
+ADRKIRSDDAYTPGDVGGKRPDRAAIVYSQRCREAFPEVPIVLGGIEGSLRRIAHYDYWS
+DKVRRSVVVDSKCDLLLYGNAERAIVEIAHRLAAREPVQQITDVRGTAFVRRETPEGWFE
+IDSTSVDTPGHVEAHINPYLMISDQAREQGATCAREEEAKEVAEGHNAKNIETDLSAAVA
+QARTVQAAIQPLTFVPNPALRGKGTHKVPPRDKSVIRLPSYEQVKQDAVLYAHANRVLHL
+ETNPGNARCLVQAHGEGHTARDVWITPPPIPLTTAEMDHVFDLPYARSPHPRYADENGSH
+DHATKIPAWEMIRFSVNIMRGCFGGCTFCSITEHEGRIIQSRSEESIIREVEDIRDKVKG
+FTGVISDLGGPTANMYRLGCKSPEIESACRKPSCVFPGICQNLTTDHGPLINMYRRARNL
+KGIKKILIGSGLRYDLAVQSPEYVKELVQHHVGGYLKIAPEHTEGGPLSKMMKPGIGTYD
+RFKSMFDKYSEEVGKKQFLIPYFIAAHPGTSDEDMMNLAIWLKKNGFRADQVQTFYPSPM
+ATATAMYHSTRNPLRKITRDSEKVDVVKGDKRRRLHKAFLRYHDATNWPLLREALKAMGR
+SDLIGNGKHHLIPNWQPLAEEGYQSARRKNSTGAGAKSSVSLSTAPKRMGQPKKGQLLTQ
+HTGLPPRKKS
+>tr|A0A0P0M6U2|A0A0P0M6U2_9BURK
+MANQAQMANAIRALAMDAVQQANSGHPGAPMGMADMAVALWGDHLQHNPKNPHWANRDRF
+VLSNGHGSMLIYSVLHLTGYKLPIEELKNFRTLHSKTAGHPEVGVTPGVETTTGPLGQGI
+TNAVGMALAEKMLAAEFNQPGHTIINHHTYVFLGDGCLMEGISHEAVALAGAWKLNKLIA
+LYDDNGISIDGQVAPWFIDNTPQRFAACGWNVIDAVDGHDAAAVSKAIAAAKHSADKPTL
+IVCKTAIGKGSPNRAGTSKAHGEPLGAEEIKLTREALGWTAEPFKIPKEVYADWDAKAAG
+AAREAAWNTAFAAYKAAFPAQAKEFVRRMKGDLPKNFNQVAFDAVVAAHTKGETVASRKA
+SQLALEAFTAALPEMLGGSADLTGSNLTNTKSTPAFRVDLAGDVVKTEEGQIGRHINYGV
+REFGMAAIMNGVALHGGYIPYGGTFLTFSDYSRNAIRMAALMKQRVVHVFTHDSIGLGED
+GPTHQSIEHAASLRLIPGLDVWRPADTAETTVAWAVALQNAHRPSALLLSRQNLAYSPKS
+DLGDISRGAYVLSEPEHVGIKKTHGVIIATGSEVQLALAAQKLLAERKIGVRVVSMPSTN
+VFDRQDTEYKQSVLPKGLPRVAVEMGSTDGWWKYGCAAVVGIDTYGESAPAPVLFKHFGF
+TAENVADTVHAALLKA
+>tr|A0A0P0M773|A0A0P0M773_9BURK
+MRRGTKDNPGVTHVPPLSSELTLRIHQAIAQAGGWIGFDRFMAMALYEPGLGYYTNALQK
+FGAMPSSGSDFVTAPGMSPLFGETLAVQVKEALEATGSDEVWEFGAGTGALALQLLGSLG
+DAVARYTIIDLSGTLRARQADTLLQHAGKVRWLDTWPEVIEGVVVGNEVLDAMPVQLLQR
+TQGIWHERGVVSAGEAFAWQDRITDWRPPLEIEGEHDYLTEIHPQAEAFVTSLAERLLAG
+RGGAAFFLDYGFPEAEYFHPQRHMGTVMCHQLHQADDNPLVAVGQKDITAHVNFTGVALA
+GQNAGLNVLGYTSQAWFLLNLGLAERMAAASLAERSQAQRLINEHEMGELFKVVGFSTSS
+DLAAQGFARGDRSHRL
+>tr|A0A0P0MC32|A0A0P0MC32_9BURK
+MKRLAFDHERETRAVILDEDSLTGEPKKGISIPVDPFKLITSIWIDPRAPDEVVKAYKFY
+LKEKLEFPGKVERSGLYAVPEGLAA
+>tr|A0A0N7J8W7|A0A0N7J8W7_9BURK
+MMFDRTIRHCRQCGALVERRLPDDGDTKERAICTVCHTVHYENPLNVVGTVPHWGEQVLL
+CKRNIEPRKGKWTLPAGFMELGESTSQGAARETTEEAGAQFIMEDLLTVMSVPRVGQVHL
+YYRAKLTSDVFDPGHETMEARLFKEDEIPWDELAFRTVKETLEHYFADRRAGRFSTHAFD
+IA
+>tr|A0A0P0M7H2|A0A0P0M7H2_9BURK
+MLIQPSQADVRRFFCGVYAKARTAAALEPMEMLVSQWIDEHPEYHAELSDVDAALANMHQ
+VDPNRENPFLHLSMHLSISEQCSIDQPRGIRQAVELLTHRLNSLHDAHHQAMECLGRMVF
+ESQRSGRMPDGESYIACVQRNATQD
+>tr|A0A0P0M704|A0A0P0M704_9BURK
+MSILVIASLAESLINFRGPLLAALQAKGMQVHVAAPNLPEDSAVHQQLKALGYVVHNVPM
+RRTGTNPVADAFTLWQLWRLMRSIQPSHVLGYTIKPVIYGSLAAWLAGVPRRFALITGLG
+YAFQGQAKALGGLRALVQRLYGLALRRTDKVFFQNPDDQALFRNLGLLPPGTPSCVVNGS
+GVDVEAFAVAPVPPVPHFLLIARLLGDKGVREYAQAAQLTRALYPQARFSLVGWLDENPD
+AIAQSELDAWVKAGTLDFMGRLSDVRPAIEACSVYVLPSYREGTPRTVLEAMAMGRAVIT
+TDAPGCRETVVDGDNGFLVQVKSVDALVEAMTRFITDPTLSTRMGQRGRQIAEEKYDVHK
+VNAVMLKEMGLA
+>tr|A0A0N7J9A1|A0A0N7J9A1_9BURK
+MTEPMAEHPYAELTPDRVMDALTELGLWPDGRLLALSSYENRVYRAHLDEPVQGSSAVVL
+KFYRPGRWSREQIQEEHDFAAELLAGEVPVVAPFVLNGQTLHHSAGFDFSVSPLRGGRTP
+ELDDFDVLEWIGRFLARIHTVGAAQPFMHRPTLDVQTFALEPAEWLQTNQMIPLEVEREW
+REAFAAALALVQEKMAQGAADRRLIRLHGDCHPGNILWTPTELPGGGPHFVDLDDARMGP
+AVQDLWMLLSGDRAQRTQQLSALLDGYDQVRDFDRAELKLIEPLRTLRLIHYSAWLARRW
+EDPIFPVNFPWFGTPDYWRGQVQMLQEQIEQMQEEPLSV
+>tr|A0A0P0M6T9|A0A0P0M6T9_9BURK
+MILSANEAAIAQAAQALRDGQLVGLPTETVYGLAANATDDAAVAKIFVAKGRPADHPLIV
+HVASAAQVPVFAAQVPDFAQSLIDAFWPGPLTLILPRQSGVAAASAGGQDSIGLRCPSHP
+VAQRLLQACAVLGVLGVSAPSANRFGRVSPTSALHVQSELGPDLLILDGGDCDVGIESTI
+IDCTRGEPVLLRPGHITRVQIEVACGRAVLDKDAPQAVLGQPAPRASGTLESHYAPRAKV
+RLMSATDIASKLQALGPHANNLGLWSAERPASEQGMGSGVGAGVLWRQQATTAEQAAHDL
+FGVLRDLDARGVSQIWVQLPPDTPEWEGVRDRLQRAAA
+>tr|A0A0P0M949|A0A0P0M949_9BURK
+MRYALQWGTSFSLFAMAYSDTIDQIAERVDHLLLRHEELQRTNALLAQQVQALSLERDQL
+KSRLAAARARVDALIERLPSPATTAPASPEASA
+>tr|A0A0P0M799|A0A0P0M799_9BURK
+MTNIFRASALVVMGCMALAAQANSPVGRWHTIDDKTGETKSVVTIEEAGGVLRGKVSQIL
+RKDADPAAKCGLCKDDRKDQTILGMEIIRGVKKSPGNEYWDGGDILDPEEGKLYRVRLTP
+IEGGAKLQVRGFLGPFWRNQLWVKAP
+>tr|A0A0N7J969|A0A0N7J969_9BURK
+MALQLNSPHTRIHQLFDERVAQAPEHPFLYLTQGVMTLGQLAQQVDLLEAELRQAGVRVG
+DRVLVAAENCPEHVALVLACSRVGAWACGVNARMTASEVAAFANKADARVLYFTVGVSEA
+ARQHAAQHGTQASVLPGLQRTLVNPHDTAQSGELAEQVAAIIFTSGTTGQPKGVMLTHAG
+LLQFARVSAQSRQLWASDRSYAYLPMTHIFGLGTVLMASLHAGSGLLMRSQFDPADVFDA
+LAHHGLTQLQGPPAMFTRLLGWLDGQGIRQPVAPDLRYVYTGAAPLDLSVKQAIEARFGK
+PLHHGYGLSEYAGALTLCRLNEQRNDTSAGYLVEGAELRIMGPDGQDLPAGETGEIWMRG
+VGLMPGYFRDPEITAQVIKTGGWYASGDLGRQDADGALQVVGRLKEMIIRSGFNVYPGEV
+EAVFLAWPGVQKAAVVGRKAADGNEDILAFIEAKPGVQLDLQALKAHAHEHLSPYKRPSA
+LVLVPEMPMTLSGKVLKRELLEQWSAAQTGSA
+>tr|A0A0P0M904|A0A0P0M904_9BURK
+MSALRAAIVGAESTGKSWLTQSLAEVLRARNRSVHTVDEALRHWCEREGRTPQQHEQMAI
+AQQQALAADHIAEQAPKSWLLSDTTPLMTAVYSDLLFQDKSLYPMALAHQALYDITLVTG
+LDLPWVADGLLRDGPHVRVPVDNLVRQTLEGAGLPYRVVYGQGPRRLNNALLALGLPGED
+LSAQQTRVDGQFSINQGRSIWQCNECSDPGCEHKLFTGLLKQRSKS
+>tr|A0A0P0LC30|A0A0P0LC30_9BURK
+MPYTVTPTAIPEVLILEPQVFGDARGFFFESFNQRDFAEKTGVDLSFVQDNHSKSAQGVL
+RGLHYQIQHPQGKLVRVVQGQVFDVVVDLRQSSPTLGQWVGVYLDAQKHQQLWVPPGFAH
+GFVVLSETAEFLYKTTDYWYPAHERSLRWDDPTVGITWPMQGQPLLAAKDAAAALWAEAE
+KFA
+>tr|A0A0P0MAM5|A0A0P0MAM5_9BURK
+MQLTGKITPETLMTLEAYTKWRKVHKPEVIAHRKLRSVQLGEHINVQFESETTIRYQIQE
+MLRIEKVFEEEGILQEIDAYAPLVPDGSNWKATMMIEYTDINERRRELAKLIGVEDRMFV
+EVEGHGRVYAIADEDLDRETDEKTSAVHFLRFELKPVMCAAIKAGAGVKLGCDHTHYPSH
+IDMAPDTLASLAGDLK
+>tr|A0A0P0LNQ9|A0A0P0LNQ9_9BURK
+MLSGILFSLAAGLMWGLVFVGPLMLPDYPAALHTFGRYLAFGLIALPLAFVDRAEIRRLT
+PSDWLAALQLAAIGNVLYYLFLASAIQRAGGALPTMIIGTLPVVIAVAANLLNHQRDGRF
+PWLKLAPPLALILLGIACVNHVEWTALVQNPAADTLRYITGAALAVGAVVCWTWYPLKNA
+DWLRGHPDRNPRVWATAQGMATLPLALLGYAAYWLWALATNDPMPMPLGPRPLEFIGLMM
+AIGLFASWLGTLCWNAASQRLPTALAGQLIVFETLAALSYAFWLRGQWPEPLTLAGIALL
+VAGVIGGVRVKAETAETD
+>tr|A0A0P0M6I8|A0A0P0M6I8_9BURK
+MRFNSGMTRLPSPEVLISEVGPRDGLQSVKATMPTADKLRWIDALAAAGLREIEVASFVP
+AQLLPQMADAAQVVQHALRHSGVRVMALVPNLRGAKAALEAGAQKITLPVSASTAHSLAN
+VRKTPEAMVEEVRAVLRLRDEIAPGVPVEVGMSTAFGCTLQGLVPEGDVLRLAVQLAQAG
+VNEIGLSDTTGMGNPAQVTRLFKALFNEIGPLTGAAHMHNTRGLGLANCLAAYEAGVRTF
+DSSLGGLGGCPYAPGASGNVVTEDLVFMFEAMGMNTGIDLVRLMAAREPLQAGLPGEPLY
+GMTPEAGLPKGWPTA
+>tr|A0A0N7J855|A0A0N7J855_9BURK
+MFYRENGQYKTSYRSDQQIFAIAQDRWAILALIAFAFIGVPFIADEYMFRAILIPFLILS
+LAALGVNILVGYCGQISLGSGAFMAVGAYMAYNTYIRIEGMPLIVALLAGGFFATLVGMF
+FGIPSLRVKGLYLAVATLAAQFFCDWAFLRVGWFTNNNPSGSVSVSNLNAFGWAIDTPLE
+KYLFCLIFLVVFGLLAKNLVRSAIGREWMAIRDMDVAAAVIGIRPVYAKLSAFAVSSFIV
+GVAGALWGFVHLGSWEPAAFSIDRSFQLLFMVIIGGMGSIMGSFFGAAFIVILPIFLNQF
+LPAMGDMLGVSISTAAVSHTEFMIFGALIVWFLIVEPHGLAKLWSVAKQKLRLWPFPH
+>tr|A0A0P0LS53|A0A0P0LS53_9BURK
+MTASSFSIKDFLKSFMLVELFKGMALTGRYAFARKVTVQFPEEKTPLSPRFRGLHALRRY
+DNGEERCIACKLCEAVCPAMAITIEAGQREDGSRRTTRYDIDLTKCIFCGFCEESCPVDS
+IVETHIFEYHGEKRGDLYFTKDMLLAVGDRYEKEIAAAKAADAPYR
+>tr|A0A0P0MBZ2|A0A0P0MBZ2_9BURK
+MGLTSPKSLAVAGLLLNAFVWGVCWWPFKQLEIQGLHPLWATALVYAFVFVSIAVWLWRS
+GQLQSWRGHPGLWLLLLASGLTNVGFNWAVTVGDVVRVVLLFYLMPAWSVLVAWWLLDEK
+PTPMALLRLVLALAGLFIVLKTPETPWPVPESLADGLALMGGLTFAITNALLLKLRDAPS
+SSRTLAMFGGGAIMATLAAIAGLATGVVAIGAAPTWSWLPLVALLSVSFLLGNLALQYGA
+ARLAAHTTALVMLSEVLFASVSSVLLGASSWDSRTLIGGALILLAALLSIVGPGHKAK
+>tr|A0A0P0M8V9|A0A0P0M8V9_9BURK
+MWRDTLHRSILPMRCRITSPLMCLCALLLALAQPAWANGSDLPQMCSVETQQSPGSSPGK
+PSESADCYEFGASVGESGWNWRKKLPSHVRWVMRKDAPSLCGQAQTEFGQKVESRWPEGC
+VFLAPTSCTIVSQGPISPASIGNAVRDCAP
+>tr|A0A0P0LSD2|A0A0P0LSD2_9BURK
+MVSNNAKEVFIQGITQDGKPFRPSDWAERLAGVMSPFRPGGAVPGSHLSYSPWCIPTTLA
+GIKCVIVNHELRDHNVMAWDFVMNFARDNGLQVAEACLLPDPPPPQ
+>tr|A0A0P0LIF2|A0A0P0LIF2_9BURK
+MARLQQLFREKIAADLTAKFGYTSPMQVPRITKITLNMGVSEAVADKKVMDHAVSDLTKI
+AGQKPVVTKAKKAIAGFKIREQQPIGCMVTLRGVQMYEFLDRFVTVALPRVRDFRGISGR
+AFDGRGNYNIGVKEQIIFPEIEYDKVDALRGLNISITTTAKSDEECKALLAAFRFPFKN
+>tr|A0A0P0LHC4|A0A0P0LHC4_9BURK
+MTAPAAPIEFTAPKPPGPGAGCVASMSAIAQLPQIRQALNSVVGLQLAIVFGSCATGLAK
+PDSDLDIALAFDQAMSVQQHIALIEALTLATGRPIDLIDLRTVGEPLLGQIMQYGVRILG
+SDVLHAQYMTRHVMEAADFMPYQARILQERRQAWIHK
+>tr|A0A0P0M6M5|A0A0P0M6M5_9BURK
+MQLIWVAGPADKVVTFSITTRTVLTALAAVSSFLVLLGFLFHLIGLRVAVEYVPELAHRM
+GGVTSQSEQQRVEAIYREKLELLNHHLSGVSERLHEIEAIKDKVLGRLGIEKLLPASGPT
+VREPSAGKGGPMNLLSTWGFSSRRLNHQLDQSIEKVLHYDKTLADMQARWQGDLGRLDLV
+PTVLPLSGDFLLSSTFGVRADPLTHLPSMHEGIDFVAPVGTPVLATADGVVLRAEYAGAY
+GNMVELAHADGFVTRYAHLKTIDVKPQDVLQRHDVVGTLGNTGRSTGPHLHYEVIFKGRA
+MHPAKALAAWAQS
+>tr|A0A0P0MBM2|A0A0P0MBM2_9BURK
+MRKSTWRKTTAWPLFWLYAALIAYASLYPFDSWRFQGVLSWSFLTAPWPRYWTGFDVLSN
+VLGYAPLGFLLALAVHRSRRDWPAITLATVVAAALSFAMESLQMFLPVRVPSNLDWVLNV
+GGGWAGAVVANGLAWAGLIERWGRFRDRWFESEATGVLALLALWPLALLFPAPVPFGLGH
+VFERVETTWIEWLQDTPWLDWWPVRTAELQPLLPLTETLCVAIGLLLPCLLVFGVVHRRP
+QRWVLAGVCLALGLLASALSATLTYGPVHAWGWISPEVLMGLIWAALGAAMLSLCPPRLC
+WVLALAALVLQLSLLNSASADVYFSLTLQTWEQGRFIRFHGLIQWLGWLWPYALLVYLVR
+RLSWPGLS
+>tr|A0A0P0M8Y0|A0A0P0M8Y0_9BURK
+MFRRHLISLAALAICSAWMPAAMAQGKDIKIAHIYSKTGPLEAYGKQTQTGLMMGLDYAT
+GGTMTVGGRKIVVIEKDDQGKPDLGKNLLAAAYGDDKVDIAVGPTASPVALAMLPVAEEY
+KKILLVEPAVADSITGDKWNKYIFRTGRNSSQDAIANAVAVDKEGVSIVTMAQDSAFGRD
+GVKAFKDAVKKAKLVHEEYLPPATTDFTAGAQRMIDKLKGQPGRKIIFIIWAGGNPFKIA
+DMDLKRYGIEIATGGNILPAMVAYKQFPGMEGAAYYYFGMPKNPVNDALVASHYQQFKSP
+PDFFTAGGFSAAMALVTALKKTNGDTNTNKLISTMEGMSFDTPKGKMTFRKEDHQAMQSM
+YHFKIKVDPAFAWGVPELIREIKPEEMNVPIRNKR
+>tr|A0A0P0LU83|A0A0P0LU83_9BURK
+MRHNPALHDGHQIRLIEGGQQYFESLEAALDQARSHVLLETYIFDVHGAAAKVAEALARA
+ALRGVRVWLLVDGVGTPQLPEIWRTRFAQAGVDWRVYAPLGTLGLLIPSRWRRLHRKLCV
+VDGHTAFCGGINILDDWYDPHHGSLAQPRLDFAVVAQGELVGHIQDSMTQLWWRLQGAQH
+ARERKLAQSFRSFKTAGLPLPWKQPLPLPDGSPPPSRAALLLRDNVLHRSQIERAYLKAI
+GLARYEVLIANAYFLPGRRLRQALVHAARRGVRVRLLLQGRYEYFMQYHAARPVYGTLLA
+AGVEIYEYDASFLHAKVAVVDPDHDRPWATVGSSNLDPLSLLLAREANVVVADRLFAQQL
+HQRLSQVIEAQSTRVSATLSQRHWHQRWRDRLAFGLMRLALFLTGHRY
+>tr|A0A0P0M894|A0A0P0M894_9BURK
+MKTQGTSRRTFVQASAAAAVTVAFPTLAQAQAFPTKPIKLICPWPAGGSTDAVMRALAES
+ATKALGVQVVIENKPGASGMLGPNELVRAQPDGYTLSQITIGVARLPHMQKMQFDPLKDF
+TYIACLTGYTFGVVVRSDSPIRSIADLVAFAKANPGKFTYGSTGNGTTPHLAFAEFASKA
+KIDVTHVPFKGSADGVQAVLGGHVMSHSDATGWAPQVEAGTMRLLATYGSKRTKRWPNVP
+TLNELGFDTVSDSPFGIGGPKGMDPAVVKRLHDAFRSTLQDPAVLASFDKYDQSVIYMGT
+EEYTKFIRDTFQSEKATIERLGLAMKT
+>tr|A0A0P0M8S0|A0A0P0M8S0_9BURK
+MAHIFIFSPSSAVRDKAAFRRGLKRLKAQGHEVEVDESALDTHMRFAGDDATRIAAITRA
+AASGADVALISRGGYGLTRVLPALPYKQIAKAIDGGTQFVGLSDFTAFNQAVFAKTGRIS
+WQGPALGEDFGAEKEPDDIMQACFDDLLLEQGEGTGWQLPKAEAERRVLVKDAPLWGGNL
+TVLTSLLGTPYFPQIKGGVLFLEDVGEHPYRVERMLTQLLHAGVLAQQKAVLMGQFSKYK
+LVPAHDKGFKLTTVIDWLRSQIKAPVLTGLPFGHVETKVLLPVGAKVDLVTEGRDALMVW
+GHI
+>tr|A0A0N7J8F7|A0A0N7J8F7_9BURK
+MLDCLIKNGTVVDGTGAPARVADVGVRGGLIVAVGQVDEPALQTVDATGLWITPGFVDIH
+THYDGQVTWDECFTPSIYHGVTTLLMGNCGVGFAPKRPGHEDDLIKLMEGVEDIPGAALH
+EGIRWNWESFPQYMDALAVTPRSLDYLVQVPHDPLRMYVMKERALAHEQATAQDIEAMRS
+LLREALQAGAAGFSTGRSDNHRTSEGKDTPAANAGNDELTGLAQAFEGLGHGVVQIVSDF
+NLLNGPDQFDAEFDSVEALARASGKPVSMTWLQRDPGGEQYLKIQQRVEAAVNTGLPLYM
+QTAVRGIGVLNGLDASFHPFMGFPSYKEVAHLPLAERAQALRDPARKARILSEKSERLAG
+DGSAIPPLVDILLAKIDLISGRMFALEDTLNYEPSVMQSFLVRAKQAGIKPLEAIYDHLS
+AGTGEGLIYFPIFNYNEGSLDAVRRMLAHPRALSSLSDAGAHVGTVCDASFPTFMLTHWV
+RDRGRDSIPLETAVEMLTSRNARYLGLSDRGVIAPGMRADLNAIDPQRLSMGLPRLVRDL
+PAGGKRFVQKAEGYVATWVAGEQVQREGEITAARPGRLVRMGQA
+>tr|A0A0P0M923|A0A0P0M923_9BURK
+MSVTMREMLEAGVHFGHQTRFWNPKMAPFIFGHRNKIHIINLEKSLPMFQDAIKFAKQLS
+ANRGTILMVGTKRQARELVAAEAQRAGVPFVDQRWLGGMLTNFKTVKTSIKRLKDMKAQQ
+EVGLDSLSKKEQLMFKREMEKLEKDIGGIQDMAALPDAIFVIDVGYHKIAISEAKKLGIP
+LIGVVDSNHSPEGIDYIIPGNDDSAKAVALYARGIADAIIEGRANAVNDVVKAVTEGSDE
+FVEEANASA
+>tr|A0A0P0M6X5|A0A0P0M6X5_9BURK
+MNSPAFTDMGLPTQPAVVFLHGVGGGRHGWAAQQAHVADLGWRSLAWDMPGYGDSPMVTP
+YDFAHLAQALWQMLDAAHIDQAVLVGHSMGAMVAMQAWTQKPERIRGLLLAASSPAFGNS
+DGDFQKQFLAQRLAPLGAGKTMGDIADKLIPTMAAPGGDQANLIPVSLKSAHQSMSAVPP
+DTYRAALQTLVQFEQRAALPTLNVPVLCLAAEHDRTAPPTMMERMAQKIPGARYACLAGA
+GHLLHYEQPEAFNAELEKFLKDVKP
+>tr|A0A0P0MAT9|A0A0P0MAT9_9BURK
+MSEHFFSRWSQRKQAVAKGLPVAEPVAPASPTELPGVPGPSELQQRSKASPPSQAAAQAD
+SQSSETPAQPLPSLDDARALTPESDFQPFMRPGVTADVRNVAMKKLFTDPHFNVMDGLDI
+YIGDYNTPDPLPAGMLEKMVGAQLLGLLDKPDEAAAKTATPAGAVPTTQGASSDLGGNPD
+QSPATQEGSPVVAQSPTSLTDSAGPASPVLQPHVNAHPEHDHPDLQLQPNHAPASPSPGP
+STG
+>tr|A0A0P0LE30|A0A0P0LE30_9BURK
+MLAQRWMWIAWPAFLVAGLLEVLVFAFVDPQDLHWFGQDLDLSRQAIYTLAFFAFWGLTM
+LASGLTTLLSLSPFELNRCPVQPSDRPAECSKKRVNGTDCC
+>tr|A0A0P0M7I6|A0A0P0M7I6_9BURK
+MSSVYVGTYNKYNNGSIRGDWIDLDDYADKEAFLQACRELHSDEQDPELMFQDWEDIPSN
+FISESSIDERTWEWLKLDNGQREIVATYWDDVDESGEVADALEAFQGEHESEREWARNYW
+EETGMLSELPEHAQNYIDFDQFAHDAQVGGDMTFVRTGGKVKAFRR
+>tr|A0A0P0M9G1|A0A0P0M9G1_9BURK
+MSTSDLHRLLTAPILPTLLRLAAPNVLAMVMTVLVGIAETYYVGRLGTTPLAAMALVFPF
+AMLTQMMSAGAMGGGVSAAISRALGASDLVRAQSLVQHALLIGLGAGLVYSALFLLWGPD
+FYAWLGGRGAVQDQAVQYGQVLFAGAVLVWLLNTLASIVRGTGNMRAPSLALVATALLQI
+ALSGALSLGAGPVPALSMVGVALGHILATAAGVLYFLWYLIRSQGRLTLHLQGFVIQRSL
+LADILRVGAVACLSPVQSVLAILIFTGLLAQLGTEALAGYGIGQRLEFLLIPIAFGIGVA
+AVPMVGMAMGAGQVARARRVAWVAAGLSALNLGVIGAVVTLAPDVWARLFTQDETVLAFA
+RQYLVTAGPAFPFFGLGLTLYFASQGAGQVIGPVLAGTVRLVLVAGAGWWLAQHQGTAGD
+FYGLVAWAMVIYGVVTAAAVAFTPWASSAGRASK
+>tr|A0A0P0MBA5|A0A0P0MBA5_9BURK
+MLDLRIQQHFIDSADLHYQVAEGLAKPVDAAVQAVLACVTGGGKVLTAGLGTSAGLAQYL
+AGLLVGGFERERPGLSAMALSADAQMASLWPEEQGLASQVRALGHTADVLFLISAQGAES
+ALVQAVQAAHEREMSVVALTGQQGGVLARQLRETDVHVCVPHERVARIREVQQLVLHCLC
+DGIDTQLLGEQESF
+>tr|A0A0P0M8C7|A0A0P0M8C7_9BURK
+MKAPPRLQTLVEEGLIDTVVRQLMSGKEAMVFVVRCGDETRCAKIYKEATHRSFRQAVDY
+TENRKVKNSRSARAMAKGSKFGRQEQEAAWQSAEVDALYRLAAAGVRVPRPFNFFDGVLL
+MELVTDAHGDAAPRLNDVAFTPAQALQHHATLIGEVVRMLCAGVVHGDLSEFNILLAHVP
+GEGDLPGVDEPVIIDLPQAVDAAGNNHAQRMLLRDVGNLRDFFGQFAPELRQTEYGPEIW
+SLYQAGLLSNETALTGRFKRSTADVDMQAVLREIDDARDEEAARRLRMATPSA
+>tr|A0A0P0MA57|A0A0P0MA57_9BURK
+MQDILEQLEKKRAAARLGGGQKRIDAQHAKGKLTARERIEVLLDEGTFEEWDMFVEHRCT
+DFGMQDNKIPGDGVVTGYGMINGRLVFVFSQDFTVYGGALSETHAEKICKIMDQAMKVGA
+PVIGLNDSGGARIQEGVASLGGYADVFQRNVMASGVVPQISMIMGPSAGGAVYSPALTDF
+IFMVKDTSYMFVTGPEVVKTVTHEEVTAEELGGALTHTTKSGVADMAFENDVEALLMLRR
+LYNYLPLNNREKAPVRPSGDPSGRMDMSLDTLVPENPNKAYDMKELIVKTVDDGDFFELQ
+PDYAKNILIGFARMEGQTVGIVANQPLVLAGCLDIKSSIKAARFVRFCDAFNIPVITFVD
+VPGFMPGTSQEFGGIIKHGAKLLYAYAECTVPKITVITRKAYGGAYDVMASKHLRGDVNF
+AWPNAEIAVMGAKGAVEIIFREDKGDPEKLAAKEAEYKARFANPFVAGARGFIDDVIQPH
+ETRKRICRSLVMLKDKKIENPWRKHGNIPL
+>tr|A0A0P0LGA3|A0A0P0LGA3_9BURK
+MKKILLLGSGELGKEFVISAKRLGCHVIACDSYAGAPAMQVADESCVFSMLDEVALRAAI
+AQHQPDLIVPEIEAIRTEVLLDVEKEGFEVIPSARAANLTMNRDRIRDVAVGLGVRTAKF
+AYADSAAELLARATEIGFPVVIKPVMSSSGKGQSVAKTAADVQTSWDYACAGMRGDRQKV
+IVEEFIHFEFEITLLTVRQRKGPTLFCPPIGHVQERGDYQYSWQPQDMTPEQVKAAQDMA
+DKVTNDLGGAGLFGVEFFVTKDEVIFSELSPRPHDTGMVTLTSQNLSEFDLHARAILGLP
+IPHIDCVEGASAVVLADKDGQNPTFTGVEAALGEPGVDVRIFGKPTTRPYRRMAVALAQG
+PNALQRARAAAAKINVVV
+>tr|A0A0P0LIP2|A0A0P0LIP2_9BURK
+MILVDSSVWIDFFRDGRSAQSHTLVRCLGDSSVEVGMADLVLFEVMRGFREGALMRDAQN
+LMSALPQVEIGGIAPVLKAAERYRQLRSQGRTVRSPIDVLLASYCMTHGHALLHRDADFE
+SLKTLGGLETWPQ
+>tr|A0A0P0M737|A0A0P0M737_9BURK
+MQRRDFFQRAVAAAGTVAGAAVVTSAVSRSALAALPEPVIQTRPDTAPPWTPPGVTGAGR
+PYNPVVTLNGWTLPFRMKDGVKEFHLVAEPVVREMAPGFVVNMWGYNGQSPGPTIEVVEG
+DKVRIFVTNQLPEHTTIHWHGQRLPNGMDGVGGLNQKQIPVGKTYVYEFVARRPGTFMYH
+PHADEMTQMAMGMMGLWITHPKGQHPLIAEVDRDYAFLLSAYDVTPGAKTPNVNTMLDQN
+IWSWNSRVFPGISPLVARLNDRVRVRVGNLTMTNHPIHIHGIEFEVTGTDGGPVPPTARW
+PEVTTDVAVGQMRQLEFIADEPGDWAMHCHKSHHTMGAMGHDVPTMIGVDHRGLVQKIQR
+LIPDYMVMGERGMADMGEMEMELPENTFPMMTGTGPYGPIEMGGMFTTLKVRAEQKPGDY
+SDPGDYPQPPGTQSFEYKGPAAATPRAPETARQPAAPASGTARKPKGHGQH
+>tr|A0A0N7J8J8|A0A0N7J8J8_9BURK
+MPGLSQRIRALAQEHAARGYLVLAPSLFGRGRPGHDHGYKYQMAFFGKELVMPLQTVDSS
+RSMQDVQTMVTWAQGQVAQGNVGILGFCWGGLLAWQAACTLPQVFAAASFYGGGITDPEV
+RGLRPMCPVLVHLPSQGERMTHESMDAFVAVQRDHFPAHGLVRPGQKVPMVQIERYDAAY
+GFDHAASRQHDPLASQVARGKTGDFFAKYLLT
+>tr|A0A0P0MAF5|A0A0P0MAF5_9BURK
+MTPTTRRVAQALLYEAMAIAVVGPVLSVAFDKSPTSTLGLAVVLSSIALTWNYVFNWLFE
+RWESRQSVRGRSFVRRLAHGAGFEGGLVIILLPVMSLWLDISLTAALLANLGLLAFFFFY
+AIAFTWCFDRVFGLPASAQAGDGNRG
+>tr|A0A0P0MB95|A0A0P0MB95_9BURK
+MTSKKTDRLPEIPREHMTDAQRAAVDELVSGPRGKLTGPFIPLMRSPELMRRLQKVGEYL
+RYDNTVGLHNSEFAVLVVARHWSQPVEWHIHKPIAMKAGVSEETCNAIAEGRRPPNMTAQ
+ETVVYDFLQELLHNQSVSDVTWAAAQKMFGDQGVIDMTAHCGYYSLLAMVMNTTRRDLPD
+NAAPGIAPFPH
+>tr|A0A0P0LGC3|A0A0P0LGC3_9BURK
+MNPTHRHASLQGIGFAVLATACFATLDTTTRHVSAGLSVLVALWFRYALQALITTVVVWP
+GRGRRVMRTEHPRFQLARGLLLFACSILAFLSLKYMPVGEFTAISMLSPLIITLLAARML
+KEKIRPLRWLLVLGGFIGTMVIIRPGSQHFDWTVILPLMLVGTNSGFQLLTSKMAKTEDP
+ITTHFYTGWIGTGMATLLLPFVWEMPADWTVWLQLLLMGVLASIGHFLLILAYGRTPAAT
+LTPYMYAQIGFAVLGGWVVFNHLPDQWTFVGMGLVALCGALGAWLTVRENRITIQPPES
+>tr|A0A0P0MBM3|A0A0P0MBM3_9BURK
+MQQQHPAMIHRRTALSRLGALSVVAATPFVASCAGPQVQQYAQEKPLLDLRTYFTGTIDA
+WGVFTDRSGQVVKRFTVVMDCSWNGDEGVLDEAFVYSDGTKQRRVWKLKAGPNGSYTGRA
+DDVVGEASGHVSGNAFRWGYTLALPVDGRVWNVDFDDWMYLMDDRVMLNKATMSKWGVKL
+GEVTLSFTRRTPLAAKPG
+>tr|A0A0N7J8A2|A0A0N7J8A2_9BURK
+MPLKLSYMKIYYLTGMGGTLESGLGQGLLSRGFEVSGRELSGTFRKLDFAQQVDLVASDL
+QSNFWREDAHVIANSFGAYLFLHAQAHMEPYIGKVILLSPIVGEFSNKDTRMNFIPPRAD
+KLQQLAEAGSFPIPKNCQVHVGSEDWQSNPANVEAFGSMLGIPVTVVLNAGHMLPKEYVG
+DLLDKWLN
+>tr|A0A0P0LQD8|A0A0P0LQD8_9BURK
+MQWPIFKSKALNVQPWFLILLACYAILELSFNHRLLELAGDLQMKATPTQLHDIEIWGRI
+VSGLGLALLLMRWLDSFVKSRLTLLVLSCTLGLFSMWHLQKILVDTIVSGADQQDLMMSW
+RSQLSTLEALNGRILLRGETLLNGPAPDDIRPVMSALWASSLAGLLPDDLDSSSGAAQLI
+HGFFSPQFTSEQLTAAYRKTVMTPVVLGASLLFGLLNLCQFFAGLVALMLTFARQESMLE
+RCKFWLLPSLTVLCLALSWWPGNVWTTSPAYQRVASPALWADKPYLAPFVEWSVRAEPAW
+ADSVAWVHSVLLQDFEFKSPIGFFKDQ
+>tr|A0A0P0LHP3|A0A0P0LHP3_9BURK
+MNRHGGPHHNASMTEELPLNRPQSKTDLFLSFTFLALQGFGGVLAVVQRELVERKRWMTP
+AQFVEDWAVAQILPGPNVINFCLMIGGRYFGLAGALAALAGMLAAPTAVLLVLALAFGSV
+ADLAWAQGALRGMGAVAAGLIAATGVKLIPALKSNPIGIGVSAAIMLGTFIGVSLLRWPL
+IWVLLGIGSLACGWAYLQLTRQANTPKAAP
+>tr|A0A0P0LLG3|A0A0P0LLG3_9BURK
+MVPKRWARRAVTRNAIKRQIYNVSERFGDRLPVAAHVVRLRTTFDRQQFISATSEPLKLA
+VRQELEQLFERAALSEVHT
+>tr|A0A0P0M7E9|A0A0P0M7E9_9BURK
+MKIRKIKIKNFRGVKELDWSLPNADIFCLIGKGDSSKSTILEAIRYAFHPQWNLILSDSD
+FHQCKVADSIVIEVTIGALTEEFCSLDKYGQYLRGWDAATLKLTDEPEDHLESVLTVQLT
+VDKDLEPKWMVVCDRHPDGVQFKQGDRNKVSVGLIGAYSEKQLSWATGTALAKLTEAQSL
+NELLANASRTARASLDGDRPVTLKNFDAAAGKSQEIAKLLGVPVSDAYKAHLDLASINLK
+VGGLALHDGDIPLRQLGLGSRRMLLCGIQKMGLEEGHITLFDEVEFGLEPHRITRLIKHV
+REDKRGQYFLTTHSPTVLRELTVKELYVVHSKGGVVQITSAAKDGLEQLEVQGKIRSSTE
+AFLARKVVVCEGATEVGFVRGFDDHQVGKGKDPLSYHGVELLDARGANNIKGLAKAFKAL
+GYEVTVLADADSPENFSPADEAELVKLGVPVVAWDSKLSLEERAMKDLPWSAVLASVQLA
+QTEFAYPVRDQVYSRLVAKFELAQEVEKWVESENLRAAIGLAAKKSEWFKNISKGDRWFS
+AAAPNFEDADFAKKDLSVKLNKLWAWIERV
+>tr|A0A0P0M7W4|A0A0P0M7W4_9BURK
+MFTTAIAGSLPKPAWLAETEKLWPQWTTQGPELQQAKADATLLWIKAQEDAGLDVIGDGE
+QARQHFVHGFVEQVEGIDFVNKVTMGIRNNRYDAQVPQVIAPLRLKGRVHAFEAQLARAH
+TKKKLKFTLPGPMTIVDTVADRFYGDKVKMAMAFAELLNQEALALQADGVDIIQFDEPAF
+NVYMDDAADWGVKALEVAARGLTCTTAVHICYGYGIEANNKWKETLGHEWRQYEKVFPAL
+AKSSIQQVSLECMHSHVPMEMMKLLEGKDVMVGVIDVANPAIETAEEIADTIGRALQFVP
+KNRLIACTNCGLAPMSRAVAEAKLKALAEGAKLASQRYA
+>tr|A0A0P0M907|A0A0P0M907_9BURK
+MTANLLEFDLEGLAVFCEGLGEKRFRATQLFRWIHQRGASDFDQMSDLAKSLRQKLKSHA
+HVSPLPVISQHISADGTIKWLFNVGDGNAIESVFIPEDDRGTLCISSQAGCAVGCRFCST
+GHQGFSRNLTTGEILAQLWFAEHFLRQHLRTDERVISNVVMMGMGEPLQNYSALVPALRT
+MLDDHGYGLSRRRVTVSTSGVVPMIERLSGDCPVALAVSLHAPFDALRDNLVPLNRKYPL
+DELMQACIGYLAHAPRDFITFEYCMLDGVNDQPEHASTLIDLVQKHARQGLRCKFNLIPF
+NPFPASGLLRSPHARVQAFAKQLQDAGLVTTVRKTRGDDIDAACGQLAGDVKDRTQVQSR
+MAEQRTISLVPLSAVTFSETRHDTKPQI
+>tr|A0A0P0LP49|A0A0P0LP49_9BURK
+MGPLVDRQGVRVKFKMSEKSLFAVLLRSPWWISFVLVAVIALLAGALLPDQYKGVGMLGG
+FPFFVIGCMALWRQRNLPSPALVEKGLEKLGGMSWRDFSVVLDTAFTRQGYTVTQLSGMA
+DMLLEKRGVRTVVSAKRWKAAAMGLEPLRELVSRRDALEASNSVCISLGQVSAKAEEFAA
+DNRITLITGADLVILVDEEVKAL
+>tr|A0A0P0M8P6|A0A0P0M8P6_9BURK
+MLMSTLKPLGELENPSEFIARHIGISAADEQHMLSVIGEASRRALIESIVPRSIARAQAM
+DLPAPVSEAAALAELKSMAQQNQLLKSFIGQGYYGTHTPGVILRNILENPAWYTAYTPYQ
+AEISQGRMEALVNFQTMVTDLTAMDIANASMLDEATAAAEAMTLAMRTVKSKSKVFVVSR
+ACHPQTIEVIQTRAQPLGIEVLVPQSADAFTAAMNAEHFAALVQYPCSTGLVEDLSGYAA
+QSHAQSAALIVAADLLALTLLKAPGEMGADIVVGTTQRLGMPMGAGGPHAAFMACRDAYK
+RSLPGRLVGVSVDVHGKPAYRLALQTREQHIRREKATSNICTAQVLPAVVASMYAVYHGP
+EGLKRIAGRVATYTAIFAQGLQTLGFKLRKETAFDTVWIAIGESSAPIIERARQAGMNLR
+KACDKSVSISLDETTTREDIHALWQVFAAESAPPGQALPNFDAFEKGVEPLIPTELRRTS
+DFLTHPVFNRYHSETGMLRYIRQLSDKDLALDRSMIPLGSCTMKLNATSEMIPITWPEFA
+GVHPFAPAEQLKGYAQLDQQLRDWLCQATGYKGISLQPNAGSQGEYAGLLVIQAYHRAQG
+QGHRNICLIPSSAHGTNPASAQMVGMQVVVTQCDTNGNVDMADLQAKCEQHSANLATVMI
+TYPSTHGVFETQVKQLCELVHQHGGRVYVDGANMNALVGVAAPGEFGGDVSHLNLHKTFC
+IPHGGGGPGVGPVCVVEDLVPYLPGHATGGVPVNGVGAVSAAPLGNAAVLPISWMYCRMM
+GAEGLKHATESAILAANYISKRLSAHYPTLYASDSGHVAHECILDLRHFKDSCGVMAEDV
+AKRLMDYGFHAPTLSFPVANTLMVEPTESETLEEIDRFIDAMIAIREEIRQVENGSWPQD
+NNPLKNAPHTADSLLGSEWTRPYSREVGAAQAQRVSGSVKYWPQVGRVDNVHGDRNLFCS
+CIPVGDDA
+>tr|A0A0P0LSK4|A0A0P0LSK4_9BURK
+MNQSTLQKISMTISSGIRTIGLAIGLALSSLSWAGEGHDHGDAKAATSAPSTPRFTAVSD
+ALELVGVLNGKQITLYLDRLETNAPVKDAQIELDLSGVKFVAQKHGEGEFEIVLPSEPKP
+GVISVTATVTIDKEVDLLAGELDIHSDLNGQGSASKNEWKKWLSWVLLFATALMALIFIR
+KRLQTHQANRTGGAA
+>tr|A0A0P0M8G6|A0A0P0M8G6_9BURK
+MRSDEVLIFFALLNSANNARETPCFYGISLVPLLSAYTDREVAWVGLYEDQNQRHATFTF
+RCTL
+>tr|A0A0P0M8H0|A0A0P0M8H0_9BURK
+MPTLSKRQFNRHLLWTAFGAALSPTGAWAQEWPSKTISLVVPFPAGGSNDVVARLVGESV
+RKKLGQTVLVDNKPGANGALGVETTLRGAKDQHTFLVASDSVSLLPLFRNMPWDLSKTFT
+PIAVLSFQPIVVVTAPSTGMKTLQDLQTRAKGKPDQVSYASSGQGSIQHLVGELFSQNLG
+INLLHIPYKGGGQAVNDVISGQVSAAVLGAAAVLPHIKSGKLIALAVSTRRRSSILPDTP
+TLSESGAGDIDVPQWSALFAVEGTPAPIMAQMRRVVDDSLADAGLKQQLLGLAMETVAMT
+PDAFQQRMVQDRERWAKLIKDRKISME
+>tr|A0A0P0MA85|A0A0P0MA85_9BURK
+MYLIVIAWLYVTLLMALAEAFSTQGSVLGAIITFVLYGLLPMALVVYLMGTPLRRKAIRR
+QEDQARQEAASSQQDSTLQPDAGGHATALPETAAVPAVGEEKR
+>tr|A0A0P0MAC4|A0A0P0MAC4_9BURK
+MSSTKSSLTALTLGAIGVVYGDIGTSVLYAMKEVFGSGHVPFTPDNVYGILSIFFWTLTT
+IVSVKYVVLVLRADNHGEGGLVAMLALASQSVKDQPRLRKVLLMVGIFGACLFYGDGVIT
+PAISVLSAVEGLEVISPNFKKAVIPLTVVILFVLFWVQKRGTAGIGKFFGPITLVWFLAI
+ACLGLLHIVQRPEILLAISPHYALGFMWHNPGTTFIILGAVVLCVTGAEALYADMGHFGK
+KPIRLAWFSVVMPCLTLNYFGQGALLLSEPEAVKNPFYMMAPDWALLPLVGLATMATVIA
+SQALISGAFSVTKQVIQLGYLPRLQVLHTSETDTGQIYMPFVNWSLFGAIVLAVVMFKSS
+SNLASAYGIAVCTDMLITTVLTFFVIRHAWKLPLALCIGATGFFLIVDLAFWASNMFKLL
+DGGWFPLMLGAVIFTFMVTWYDGRRLLNDSLRSDALKLTDFLEAVFVAPPTRVSGTAVFL
+TAEIGSVPNALLHNLKHNKVLHERNLFVTVQNHEIPRMPMAERLEVTDLGHDCWQVIVNY
+GFKENPDLPSALANIGKNGDFLDPMMTSYFLSRDIVIPTIDGGMAPWREKLFAQMHHNAS
+GAAAFLNLPTNAVVELGSKIEI
+>tr|A0A0P0MBL9|A0A0P0MBL9_9BURK
+MNRLTHIVGFAALSLAAIGPAAAAPSQVVLSCAVAYLPQRSTWVREVRIDWDKKAIRSLH
+IDGLQPHGFSLIPQGVMTAVDNERIQIDLVTRQWQSDFRGHATGQGRCETVPG
+>tr|A0A0P0M934|A0A0P0M934_9BURK
+MTRAQPRASVYSASLVRFLTENAMLSPARPTEQVGQKLGDWLDFRQAIALHSVLNPEPAN
+APHSKALPAPASRQSLIAPEALTRHFTHVRAQLVESITQGAPAGSGLARIDMPAPVLDEP
+LDIKTAFEPYRRFVAAHQRQMESTVRSLRSRLRQQLSQRGSAAQQLAALDAAFENILVER
+EAVLLAKTSKLLEKRFVQALKLHLQEQAKADQEALATEAAAPAAEGIHRPTSSLSPQPNP
+NPWLMPLRETLRQALLAELDTRLQPALGLLEAITSETEQ
+>tr|A0A0P0M989|A0A0P0M989_9BURK
+MTLSPSLEVIPVTPAYWAEACAHLAKKDRVMKKLIPQFGDAILETRGDAFVTLARSIVGQ
+QISVKAAQSVWDRFSALSKRLTPAAVLKLKVDDMRAAGLSARKVEYLVDLAVHFSSGTVH
+VKAWHEMDDEAIIDELVAIRGIGRWTAEMFLIFHLLRPNVLPLDDVGLINGISRNYFSGE
+PVSRSDAREVAQAWSPYSTVATWYIWRSLDPVPVAY
+>tr|A0A0P0LH00|A0A0P0LH00_9BURK
+MGTFSIWHWLIVLLIVVMVFGTKKLKNMGSDLGGAVKGFKDGMKEGGNKDEAAAPVAGQV
+TASTTAQAEKTTIDVEAKTKS
+>tr|A0A0P0M6Y8|A0A0P0M6Y8_9BURK
+MKKSLIALAVLAASGAAFAQSTVTMFGIVDAAVSVAKGDVADKTSLINSGYNSSRFGVRG
+VEDLGGGLKASFHLEGALSNDDGNATGFNFQRRSLVSLSGGFGEIQLGREYTPHFWNHTV
+YDPFGTNGSGTQIGLNSAAGGATTVRTNNAINYYTPTMGGFKLQAQMAFGEQSSNAAAPD
+AGNMTSFRASYDMGKLSAAVATGKTNVSAGVDITSTNYGAAYDFGVAKVMGSVFKDERTG
+AADTDGYVFGLLAPVGPGTVRFAMSQTETGAAQSKKTAIGYVYGLSKRTDLYATYASVKN
+SGGASANAGGATSGVNGSSTAMDFGVKHSF
+>tr|A0A0P0MA54|A0A0P0MA54_9BURK
+MTTPNAIDEAQMRQLREDLLDSMDEELELELDDRWGTDAATNAAQAGERIRYFRELLRLQ
+SELVMLQDWVVKTGHRMVILFEGRDAAGKGGVIKRITQRLNPRVCRVAALPAPNDREKTQ
+WYFQRYISHLPAAGEIVLFDRSWYNRAGVEKVMGFCNDEEYEEFFRSVPEFEKMLVRSGI
+QLVKYWFSITDDEQHARFLGRIHDPLKQWKLSPMDLESRRRWEDYTRAKETMIERTHIPE
+APWWVVQAVDKKKARLNCIDHLLGMVPYHEVEHPQVELPGRVRNPDYIRHPVPAEMIVPE
+KY
+>tr|A0A0P0M7N1|A0A0P0M7N1_9BURK
+MYKNLAATLVVACFFLPAVQAQTSSPTPVKATEPIKAGFVYVSPITDAGWTRQHDEGRKA
+VERALGDQVKTTFVADVAEGADAERVIRDLAQQGHQIIFTPSFGYMEPTLRVAKDFPNVK
+FESVTGFKTAPNVSASNARYYEGRYLAGVAAGRMTQTNVAGYVAGFPIPEVLQGINAFTL
+GMRSVNPKATVKVVWLNAWFDPPKEREAAMALFNQDVDVIAFHTGSTAVMAAAQERGKMA
+VAYHSDMRRVAPDAQIIAVTHQWGDYYTSRVRAALSGTWTSGNVWGGIKDGMIRVGEFGP
+KVPKAVQDEVLAKQRLVGTGKLLPFAGPITDNEGKAVLPAGQSLSDAQILNMNYLVQGVQ
+GRVSR
+>tr|A0A0P0LSQ8|A0A0P0LSQ8_9BURK
+MAPMTQRVPDSPTPPASLPADTDPLTAPSLKRRMACWLYEGMLLFGVVFIAGYLFSSLSQ
+TRHALDNRPGLQAFLFLILGIYFTWFWHRGQTLAMKTWHIRVVSATGQPLSQRRALLRYV
+LSWLWFLPPLLLTLPFGLSAAAVGWLTVGWVLVWALLSRFHAQKQFWHDVWAGTRLITSR
+>tr|A0A0P0M6I4|A0A0P0M6I4_9BURK
+MFKPSCKHISIATVIATLMAAGSAMAQAADAAAAASAPVVAAAAAAAEENPYGLSALWAQ
+GDAVAKGTLLILVLMSMASWYVIFTKYAEQSKLNKQAKAAQESFWSANTVEQGKDTLQEG
+SAFRFIAEKGLEGASKHTGLLGAVDFNEWVTMSIQRAIGNVQSRMQDGLAVLATVGSTAP
+FVGLFGTVWGIYHALVKIGISGQASIDKVAGPVGEALIMTAIGLAVAVPAVLGYNWLVRR
+NKAVMEQVNAFGSDLHAVLLGSAKK
+>tr|A0A0P0MA66|A0A0P0MA66_9BURK
+MSLNDFLLHSDVVSRVLALMLLALSVGSWVVIAWKWRLLSRVTQDVPRSVAAFWQAAGFE
+DARQRVAQFDREACVLPLLDATLLPLGGTLASAGQRHHQLTRVLREAMQSVLRRLQWGQV
+LLATAGSTSPFIGLLGTVWGIFNALSGMADGGPIRIEQIAGPVGEALVMTAAGLAVAIPA
+VLGYNLLGRRIGQIEAELEGFAHDVRALLTDPRD
+>tr|A0A0N7J8U7|A0A0N7J8U7_9BURK
+MLYQIFETQRSIMEPFSDLAQAAAKLYSNPLNPMAQTPLAQRVSAGYALMHRLGKDYVKP
+EFGIRTVKVNKTDVAIHERIEIDKPFCELRRFKRFSDDPATLTMLKAQPVVLIVAPLSGH
+YATLLRDTVKTMLQGHKVYITDWKNARLVPLTDGEFHLDDYINYVQEFIRHLQATYGHCH
+VVSVCQPTVPVLAAVSLMASRGEKTPLTMTMMGGPIDARKSPTSVNNLATNKSFEWFENN
+VIYRVPPTFPGAGRRVYPGFLQYTGFVAMNPDRHATSHYDYFKDLIKGDDASAEAHRKFY
+DEYNAVLDMDADYYLETIKTVFQDFKLVNGTWDVKGVDGKVERVRPQDIKGTALMTVEGE
+LDDISGSGQTRAAQDLCSGVPASERQHLEVEGAGHYGIFSGRRWRDIVYPQLVKFILSHA
+PQAKAPTAAAKSAAVAAPVAVSPAAKPATKAPVKTAAKTPVKTAAKPAAKTPSKAVAKSA
+AKAVPNTAVKTTWVDAKKKA
+>tr|A0A0P0LIH0|A0A0P0LIH0_9BURK
+MSTPEDRPSRSVIPITSVSAEGDADMVSLYQAHQKIYPRSVQGVFAKWRWLMVVITQLVF
+YGLPWLEWGQRQAVLFDLGARRFYIFGLVLYPQDFIYLTALLVISALSLFLFTAVAGRLW
+CGFACPQTVYTEIFIWIERQFEGDRSARMRLDDAPMSFNKLWRKTGKQLAWIVLSLWTGF
+SFVGYFTPIRELTASIFSLGFGPWEIFWILFYSFATYGNAGFMREQVCKYMCPYARFQSA
+MFDKDTLIVTYDEARGEPRGARSKKADPKAQGLGACVDCTLCVQVCPTGIDIRKGLQYEC
+IGCGACVDVCNNVMDKVGYERGLIKFSTQNAMDKGWSGAQTVRRIFRPRVLVYTAVLWAI
+ILGVGLSLWSRDPFKVDIVRDRATMARIVVGGKIENVYRLQIMNAAEQNLTFQLQVDGLP
+GLALATEPLVEVGATESRWVSVRLQVPYDAAPAGSHPIHFRIESRSTDGQSVGQLSEKTV
+FLVPR
+>tr|A0A0P0LLY5|A0A0P0LLY5_9BURK
+MNGSNTVGAGQVPTSTSWVGVFDRSFVACQGPVHSVVRTAGPAVLAQALQRTRARTLGLM
+QAWQYAMPDLSVPPSPGMNPPLWEWGHIAWFQEWWTVRNRQRHWGTRSASAGEAFDASLL
+PDADALYNSSEVAHDNRWALPLPDLAGTQAYLAQVLQRSLGHLQALEALHAVGQPLTDEA
+LYFWRLVLQHEDMHNEASVYMAQALGLALPPALCWRESASGDARGLETPLGQTGSVHVPA
+QVHTLGCSGPGFAFDNECQAHPQALAAFEIDLAAVSWARYLPFVQATGHSLPPHVRWLDG
+AWQAQRFGQWQLLDLMAPAVHLNAHDAQAWCQWAGRRLPTEAEWECAAQQPGWVWGQVWE
+WTASDFAPYPGFEVHPYRDYSAPWWHGHRVLRGACAATSANVVDVRYRNFFVPERRDIFA
+GFRSVAV
+>tr|A0A0N7J8K1|A0A0N7J8K1_9BURK
+MKVLIWLVFLVLMAFWTGLVALTEQLSQWLLASMANGQVADLASVAGQWPVPAWLGFWVD
+TAWLKSLQEAGVGLVQWLSQVLPSAQGLMSWISPLLWLGWGAGTLVLLVGAVLGHLLVRK
+GWHASRKSLKL
+>tr|A0A0P0LFM8|A0A0P0LFM8_9BURK
+MTQESFVDFQNVWLAYNDELLAQNHFAVEDINLQVKQGEFIAIVGPSGCGKSTFMKLTTG
+LKMPSKGRILVDGQPVTGPLKISGMAFQASSLLPWRTTLDNVLLPLEIVEPYRSNFKQKR
+EEYAERARKLLNTVGLGGYEDKFPWQLSGGMQQRASICRALIHEPKMLLLDEPFGALDAF
+TREELWCILRDLWTEQKFNVILVTHDLRESVFLADTVYVMSKSPGRFVVKREIDLPRPRD
+LEITYTPEFTNIVHELRGHIGAMRKTGTAINQ
+>tr|A0A0P0M971|A0A0P0M971_9BURK
+MDINTMRSVVTLLAFCCFAGIVVWAWSNRNQADFDEAAQLPFRQDD
+>tr|A0A0P0LFR3|A0A0P0LFR3_9BURK
+MVARIIFSHGNSFPASTYKVMFDNLRQRGFEVDAVEKFGHDPQYPVTNNWPHLVQQLADF
+ARDKQGEGEPAFLVGHSLGGILSLMCAARHPELARGVVLIDSPVLGGWRATTLGLAKRTP
+LIGALSPGRISQKRRHHWPDAQAAKESFAHKKSFARWDPQVLQDYIDHGTHNEGGQRVLS
+FDRDIETAIYNSLPHKLDSLLKRKPLKCPAAFIGGTHSAEMRQAGTDLTHQVVKGRIMML
+DGSHLFPMEKPIATAAAIEATLRNLGV
+>tr|A0A0P0LGG7|A0A0P0LGG7_9BURK
+MTRKKSPVASLELPEVNFSEDGEIRYLHLGTEWIQGSMFLDRPFDIELEYVQRMFGWLLF
+FPHDDVKGAHAMQLGLGAGTITKFCYKKLKMTCTAVELNPGVLHACRGWFRLPPDDERLR
+VVLADASLEIQKDEWLGTVDALQVDLYDEEAAAPVLDTPDFYRHCRELLSPQGCMTVNLF
+GRSSSYAESVEKICAAFGEDAVWAFKPTREGNAIVLVQRTPSRPSRVALLQTASAIEEKW
+GLPASKWLKVFKPLTL
+>tr|A0A0P0M8E0|A0A0P0M8E0_9BURK
+MTLKPPETAPTDPAKSTIAPETPVSVPTDNRSASRSTRPRTLDSHDLLGEQALVFIRHLG
+EIYRLQTTRHGKLILTK
+>tr|A0A0P0M968|A0A0P0M968_9BURK
+MSAALQTRQLSAELGGRQVLQTIDLQITAGRWTCVVGPNGAGKSSLLKALAGLLPHSGQV
+LWQGQPLASLTRQQRSLQLSWLGQGESSTLDLRVWDVAMLGRLPHQSWLGAPSAQDARMV
+EAALRATQAWDWRERTLGELSGGERQRVLLARAMAGNAPTMLMDEPLANLDPPHQVDWLE
+QVHCLLAQGTTVVSVLHEIGMALHADDIVVMREGQVVHHGLGRDAATHAAIEAVFDQRIR
+IQALDGRWVVLPRLGGESYRID
+>tr|A0A0P0MBG6|A0A0P0MBG6_9BURK
+MKIQLLSDLHLESNPDFMPSPAPGADVLVLAGDIGSYQTGSALAQAGDGDFGLARFSPLH
+GWPTPVLFVPGNHEYDGLDFDEAHTRLHQTCERLGITWLEREVLHLGGVRFAGTTLWTDF
+DALGPLAGQPIPDPLTDKIPAHFSHPNSQYTRQLKARDKAFRAANYYLRKTLTTRQGEPW
+LAEDLREQALRCQDWLSAALRAPFAGPTVVVTHFAPSLGSADPRYGRVPGTAGFCNALDH
+LLPQAQLWLHGHLHCPSDYTQNGCRVVANPLGYARKNEQVTFQAQCLLEVRGT
+>tr|A0A0P0LKQ6|A0A0P0LKQ6_9BURK
+MAMTPEQRKSNVRLGLILASVALAVLLGFVAKLLILNP
+>tr|A0A0P0M6Y1|A0A0P0M6Y1_9BURK
+MTTVASSPESERSSPRGQAVIELLSSMRFAISLLTIICIASVIGTVLKQNEPTNNYINQF
+GPFWAELFATLKLNTVYSAWWFLLILAFLVVSTSLCIARNTPKILVDLKNYKENIREQSL
+KAFHHKAEGHLNEAPEAAAKRLGALLATGGWKVKLQERDTPAGKGWMLAAKAGAANKIGY
+IAAHSAIVLVCVGGLLDGDLMVRAQMWLGGKEIYNGGGLIADVPAQHRLSERNPAFRGNL
+LVAENTASGTAILNQSNGILLQDLPFVIELKKFIVEYYSTGMPKLFASDIIIHDKATGEK
+QEARVEVNHPASFKGINIYQSSFDDGGSSVKLQAVPMSAATKAFEVEGTIGGSTDLTNGN
+DKLTLEFTGLRVINVENMSGGAGPEGTAVDVRKVDLRSAIDERLGAGHKTTKTKELRNVG
+PSVSYKLRDAAGQAREYNNYMLPVDTGDGVPVFLLGMRETPSEPYRYLRPPADENGELTG
+FIRLRAALETPELRDRAVQRYARKAVDPQRPELTRQLADSAARSLGLFAGLEQVQGKTVS
+GLQALADFLESNVPEAERPRAGEMFVRILNGALFELDAVAREQAGAKPMPADQVQGFMSQ
+AVLALSDAPFYPAPMTFLLKDFKQVQASVFQVARAPGQSIVYLGCALLILGIFAMLYVRD
+RRLWVWLSPQGDGAQASVALSSNRKTMDVDREFDQLSARLLGRSEKTP
+>tr|A0A0P0M8L7|A0A0P0M8L7_9BURK
+MKNITRDNLTDTVKSSFANIDGERQRHLVNRLVHHLHAFASETGLSHDEWRDGIAFLHRM
+AEISSPSRSEFTLLSDVLGLSSLVDLLAARPGATEGSVLGPFHTRGSPWVDNGSNLINQN
+EGEAVLIQGRVTDTDGQPLANASIDFWQNADNGMYWQMDDSQPQDNLRCQLKVQADGRFE
+LATIRPRPYMVPTDGPVGELLRMSHRDAWRPAHFHIIVEATGYRSLITEVFDEADPWVDK
+DAVFGVRASLVRPFTPASDAATAERMGLPAQYLSVELPIRLARED
+>tr|A0A0P0MAL5|A0A0P0MAL5_9BURK
+MAMPSWAQAQAYPQKPVKVVVAFTAGGTTDILARTVTQQLSEKLKQPFVIDNKPGAGGNL
+GTELVVRSAPDGYTLIVNSVGPIAVNPTLYGKLPYNPLTDLVPIVQIADVPNVLVIHPSV
+PANTMEELIAYAKANPGKLNYGSTGIGTSSHLSSFMLSKRVGFEATHIPYKGADALKDLL
+AGRIQFMFATIPSVMTHITAGKLKPIAVSSLKRSRSMPEVPTVVEKGFPQFEAGSWFGFF
+APKGTPDAVISMVNKAVNEILQVPAIEQQMIAQGADPAGGTSAQFGQFVQREHDKWRVIV
+RDSGAKAE
+>tr|A0A0P0MAH0|A0A0P0MAH0_9BURK
+MCMKTFENLADLAACVGQDVTATDWVTITQQQVNQFAEATGDHQWIHVDVERAQQGPFGA
+PIAHGFLTLSLLSQFFDKTIVVTSARMGVNYGLNKVRFMAPVPVGSRLRAHLHLHSATPI
+DGNGMQFQWNVTVEREGSDKPVCAAESLVRIYA
+>tr|A0A0P0MA36|A0A0P0MA36_9BURK
+MRRATDTDFGHGLAAAWLALCALASATVQAQATAPGLAEPAACTRPVYLTFDTGHMGTAP
+LIAQVLQRHKVPVTFFAAHEKTQQGDGSLGDHWAAWWRARGTEGHAFASHTWEHAYWRAD
+LDGPGDVRFRIRPTAGPLAGQNLQWSAQQYCDSLRRAASRLQDLTGQAPLPLFRAPGGKT
+SPRLLQTARQCGFAHVGWADAGFLGDELPSERYSNAHLLQKALQNIRAGDILMAHLGIWS
+RQDPWAPAVLEPLIVGLKARGLCFATLREHPQYREAVRLQPLQLAPSPHNLVKPPVPRH
+>tr|A0A0P0MAH8|A0A0P0MAH8_9BURK
+MTAPIFPIDVVIMAAGKGTRMKSRLPKVLQRLAGVPLVQHVLGTAAQLNARSAVVITGHG
+ADQVEPVVLAPSQALAVQCVRQEPQLGTGHAVQQAVPALADEGVVVVLSGDVPLTQADTL
+QALIAQCDGQQLALLTIDMADPTGYGRIVRQGEAVQAIVEHKDATEAQRQIQEVYSGIMA
+VPARLLKSWLGRIDNQNVQGEYYLTDVVKLAVADGVPVVAHKINDPVQVAGVNSPVQLAE
+LERAHQLRQAHQLMEQGVRLKDPARFDLRGQLVCVQDVEIDVNCVFEGRVSLGEGVKIGA
+NCVIANCTIAAGAVIHPFTHIDGEKLGVSVGEGALIGPFARLRPGAQLGAEVHIGNFVEV
+KNSTLAQGAKANHLAYLGDATVGERVNYGAGSITANYDGANKHRTVIEADVHIGSNCVLV
+APVTIGAGGTVGGGSTITKSTEPGSLSVARGKQISIANWARPAKKPKG
+>tr|A0A0P0LDU6|A0A0P0LDU6_9BURK
+MQISFESLETPALTKAHLADLLFEQIGLNKRESKDMVDAFFDLMVDSLIAGDDVKISGFG
+NFQIRTKAARPGRNPRTGELIPIDARRVATFHASHKLKALIQGDAVDDEGVETVGR
+>tr|A0A0P0M802|A0A0P0M802_9BURK
+MSSTIYQPSADFVKNANVSGLAAYEALCKEAETDYQGYWGRLAKELITWKTPFTKVLDES
+NAPFFKWFEDGTLNASYNCLDRNVEKGLGDKTAIIFEADGGEVTKVTYSQLLAKTCQYAN
+ALKSLGIKKGDRVVIYISMSIEGVAAMQACARIGATHSVVFGGFSAQSLRDRIEDTGAVA
+VITADNQVRGGKLLPLKSIVDEAINLGGCGSIQNVLVVKRSGADIAMTAGRDLWMAELAD
+QQATTCEPEWVGAEHPLFLLYTSGSTGKPKGVQHSTGGYLLHAALTTKWTFDLKADDVFW
+CTADIGWVTGHTYITYGPLALGGTEIVFEGVPTYPDAGRFWKMIQDHKVSIFYTAPTAIR
+SLIKAAEANDAVHPKSYNLSSLRLLGSVGEPINPAAWEWYHQHVGGGNCPIVDTFWQTET
+GGHMITPLPGVTPMVPGSCTLPFPGIQAAIVDETGKDMPNGQGGILVVKKPWPSMIRTIW
+GDPERFKKSYYPEDFKGKYYLAGDGSIRDEKTGYFTITGRIDDVLNVSGHRMGTMEIESA
+LVSCTELVAEAAVVGRPDDTTGEAICAFVVLKRSLPNTEEGKAIAKQLRDHIAKEIGPIA
+KPKDIRFGENLPKTRSGKIMRRLLRSLAKGEEITQDISTLENPAILGQLGQAY
+>tr|A0A0P0M803|A0A0P0M803_9BURK
+MQKFTLLKGIVAPMDRANVDTDAIIPKQFLKSIRKTGFGPNLFDEWRYLDKGEPGVPESQ
+RKPNPDFVLNQPRYKGASILLARKNFGCGSSREHAPWAIDQYGFRCVIAPSFADIFFNNC
+FKNGLLPIVLPEAAVDLLFNEVAAFPGYELTVDLERQVVVRPQGEEIPFEVQAFRKYCLL
+NGLDDIGLTLRHADKIKAFEAERLATKPWLAHTAVNA
+>tr|A0A0P0LMM4|A0A0P0LMM4_9BURK
+MSRWKRPLKAAEVRKILRALGFDPKPLKATSREQWTKRDGNHFYKVTLSAHNEPFDDFIV
+KSMARQAGVTVREFYDALN
+>tr|A0A0P0MC12|A0A0P0MC12_9BURK
+MNFIRSLVHVLWMAITVIPWALFVVLISYFVSSTRLYWVCVGWLRLAVNSGTRILGIQNR
+IQGMENLPLGTKDPAVLLVKHQSTWETFVMPVIMPHPLAYVFKKELLYVPFFGWAMGRLD
+MIHIDRKQRSRAFAKVVQQGRRLMQEGVWVIMFPEGTRIPRGQKGEYKSGGARLAIAAGV
+PVIPIAVTSARCWPTRAFVKTPGVVDISIGQAISSEGRSAEELMLEVETWIEFEMHRLDP
+EAYPEPHPQATIAASGH
+>tr|A0A0N7J8J7|A0A0N7J8J7_9BURK
+MPHLVRRQTCQWIALASLAFCASTPSAMAQAAYPSKPITLVVTYPPGGGADAMARLIGPK
+MGEALGQTIVIENKPGAGGQIGAAAVAKAAPDGYTLMLDASSFSVNPSLYPKLPYDSAKA
+FQPVGVVALFPNVVLVNANFPAKNVPELIAAAGKTKDAVSYASSGNGSAQHLAGALFESA
+AKVDMVHVPYKGGGPALNDVIGGQVPLFFGNLASTLQHVQSGKLRALAVTSGKRSSILPD
+VPTLSESGLRGTEIYEWNAVFAPANTPEPVMKKLADAFQQALDSPEVKARIAQLGGDIQK
+GSPEQAKRFIEQQTSLWSRVIKERKITIE
+>tr|A0A0P0MC02|A0A0P0MC02_9BURK
+MTTQNLLVELFVEELPPKALNKLGAAFSGVLAEQLKAQGLAAADAAVTAFASPRRLAAHV
+TGVAAQAADKAVQQKLMPVAVGLDAAGNATPALLKKLQALGADVSDPAAAVAMLKRAPDG
+KAEALFYDSVVPGASLQAGLQKALEEALAKLPIPKVMQYQLETDCELPGWSSVNFVRPAH
+SLIALHGSVVVPVKALGLTAGNSTQGHRFEAKVSPVVLQHADQYAETLKNDGSVIASFAE
+RRAEIVRQLNAAATQVGGGAKPIEDEALLDEVTALVERPNVLTCQFETEFLGVPQECLIL
+TMKANQKYFPLVDASGKLTNRFLVVSNITPDDASLVIGGNERVVRPRLADAKFFFDQDRK
+KTLESRVEGLSKVVYHNKLGTQGERMARVCAIAKAIGQQVGGDLLAAQAEQAARLAKTDL
+LTDMVGEFPELQGIMGGYYARHDGLSSDVAEAIEDHYKPRFAGDDLPRNNVGLVVALADK
+LETLVGMFGIGNVPTGDKDPFALRRHALGVVRMLVEKDVALGLPELLALSTPVFGDKISG
+GADALIDFIYDRLSGSLREQGFSAQEVDAVMALRPARLGQVNQFLSAVRAFTALPESPAL
+AAANKRIGNILKKAGEVDAHVNPALLQEDAEKGLYTAMQKLLPESEAQFKAGDYTASLQT
+LAALRAPVDAFFDDVMVNAEEMDLRLNRQGLLKSLHVAMNRVADLSRLVA
+>tr|A0A0P0LD44|A0A0P0LD44_9BURK
+MNLLQSKNGVDTHYHVFNAGVAIEGARYVPQYSASLSTWLQQAQSVGVGRGVCVQPSFLG
+TDNRWMVDSLRSNPDVLRGIAVVSPDESVETLKVLNEAGVRGIRLNLAGISHDIPQWSQA
+HQLWQTLQEMGWHLEVHTDQGKLPQVLQQLPSELPLVIDHMAKPLQAQSNDATLLALKAR
+ARVSPIHVKLSGAYRLGDVDSARLARLLLQELGPHSLLWGSDWPCTNHEQFANFETLMAQ
+AHQWIPSEFFEQIMTENPMGLYWNSF
+>tr|A0A0P0LH90|A0A0P0LH90_9BURK
+MTYPNTQLFINGQWCDAEGGRTLAVFNPATGTEIGRLAHAGIPDLERAAQAAQKGFELWR
+DVPANERSAIMRKAAALMRERAPQIAELLTQEQGKPLAEAKVEAMSAADIIEWFAEEGRR
+VYGRIVPPRNIHVQQQVLKQPVGPVAAFTPWNFPINQAVRKMSAALATGCSIIVKAPEET
+PAAPAELIRAFHDAGVPAGVIGLVYGTPAEISNYLIAHPLIRKITFTGSTPVGKQLAALA
+GQYMKRVTMELGGHAPVILAEDADIALALKTAGAAKFRNAGQVCISPTRFLVHHKIADAF
+AEQFAAQAQALKVGDGLTAGTQMGPLANERRLAAMQSIVQDARAKGAKVLTGGERIGTQG
+NFFAPTVLSHVPLDADVVVNEPFGPIAAVRSFENIDDAIAEANRLPFGLAGYAFTNSMKT
+MHQLSQRLDVGMLWVNQPAAPWPELPFGGVKDSGYGSEGGPEALEAYLNSKTVSIFNA
+>tr|A0A0P0M756|A0A0P0M756_9BURK
+MGKFRIQPCSRALPNGAFGAQVSVASGRGSASTDRVMRFVPEFATPAAASQYALDEGMLW
+VERQTTKPILL
+>tr|A0A0P0MA12|A0A0P0MA12_9BURK
+MQPHSILNFWFTELTPKHHFAKDPALDEAIRTRFGATLAAAARCELFAWRTTPEGRLAEV
+LVLDQFSRNVYRDTPQAFAQDALALALAQELVASGQDRNLPLAQRSFAYMPYMHSESALV
+HTQAALLFAQPGLEDTLRFEERHQAIIERFARYPHRNAILGRPSTPEELAFLSEPGSGF
+>tr|A0A0P0MAK5|A0A0P0MAK5_9BURK
+MTDSALTHITVLLNEAVDELLQASAGADGAYVDATFGRGGHSRLILSRLSAQGRLLAFDK
+DLEAIAEAGRIADTRFAIRHEGFSHLGELPAGSVDGVLMDLGISSPQIDSPERGFSFRFE
+GPLDMRMDTTRGQSVADWLATAEVDQITEVIRDYGEERFAFQIAKALVARRQERGPISST
+SDLAQLVADTVKTREPGQNPATRTFQAFRIFINAELEELEQALEGCLRVLAPGGRLVVIS
+FHSLEDRIVKQFIAKHSKEVVDRRVPFAEPMKMRLKAIGRVRPSESEVRGNPRSRSAIMR
+MAERTEVPA
+>tr|A0A0N7J8N8|A0A0N7J8N8_9BURK
+MITLFLALPYPSHRPARLLSKRMTALWMSVGLLMAGSLASAQSTPAPQLDLARTQLTAGM
+HRLDVQLAQTPDQRQIGLMWRKEMPQHEGMLFVFEQATVQCFWMRNTLIPLTAAFVEDDG
+TIVNLADMQPQKDDSHCSSKPVRFVLEMNQGWFAKRQIKPGFKLGGTVFSKRPG
+>tr|A0A0P0LD79|A0A0P0LD79_9BURK
+MSETNSVYAAYQGNTYLFGGNAPYVEEMYENYLANPGSVPDSWREYFDALQHVPAVDGTN
+AKDVPHLPVINAFAERAKSGGTKVVMASADVEMGRKRTAVQQLIAAYRNVGQRWADLDPL
+KRTERPNIPDLDPGFYGFSDADQETVFDTSNTFFGKNNMSLRELLNALRETYCGTLGAEY
+MYTTEQAEKRWWQQKLESIRSKPNFTAEKKKQILDRLTAAEGLERYLHTKYVGQKCFSLE
+GGESFIAAMDELIQSAGAQGVQEVVIGMAHRGRLNVLVNTMGKLPADLFAEFDHTAPEDL
+PAGDVKYHQGFSSDVSTAGGPVHLSLAFNPSHLEIVNPVVEGSVRARMDRRDDPHGKQVL
+PVLVHGDAAFGGQGVNQETFALAQTRGYSTGGTVHIIINNQIGFTTSDPRDMRSSVFCTD
+IVKMVEAPVLHVNGDDPEAVVMAAQLALEYRMTFRKDVVLDVVCFRKLGHNEQDTPALTQ
+PLMYKKIGAHPGTRKLFADKLAAQGLGDNLGDEMVKAYRAALDAGKNTTDPVLTNFKTKF
+TVDWSPFLGKKWTDAGDTAIPLAEWKRLAEKISTIPDSVTPHQLVKKVYDDRAAMGRGEI
+PVDWGMGEHMAFASLVASGYPVRLSGEDCGRGTFTHRHAVIHDQKREKWDTGTYVALQNV
+TDKQAPFTVIDSILSEEAVLAFEYGYASNDPNTLVIWEAQFGDFANGAQVVIDQFIASGE
+VKWGRVNGITLMLPHGYEGQGPEHSSARVERFMQLAADTNMQLVQPTTASQIFHVLRRQM
+VRNLRKPLVIFTPKSLLRNKDATSPVSEFTHGSFQTVIPENKTLKADKVKRVVACSGKVY
+YDLVKHREAKGADDVAIIRVEQLYPFPHKAFAAELKKYPNATDIVWCQDEPQNQGAWFFI
+QHNIHENMQSGQKLGYAGRAASASPAVGYSHLHQDQQKALIEAAFAKLKGFVLTK
+>tr|A0A0P0M883|A0A0P0M883_9BURK
+MADEEIEVEGKKKSPLIKIIVIAVVALLLLVGTAVGTMFVTGFFDKKDTSAAEQALKDLE
+KGAAEGKGAANEASAPQKKAKESPELERFENSYMELEKPLVSNLTNTRKVIQLNLAIMTH
+YDERVFKNAKKHEFALRSVALDAMRQMTEADLAKPEFRKELAAKIREEMNAVLQKYEDFG
+GIEEVFFTSFVVQ
+>tr|A0A0P0MAH1|A0A0P0MAH1_9BURK
+MFHIVLVEPEIPPNTGNVIRLAANTGCTLHLVEPLGFSMDDKHMRRAGLDYHEYADLRRH
+ADWASFLAQEKPQPERMYALTTRGSRPAHGVAFAPGDWLVFGSETRGLSPELREQFAPAQ
+RIKLPMREGQRSLNLSNAVAVTVFEAWRQNGFAGASQAPGLPAQA
+>tr|A0A0P0M7D8|A0A0P0M7D8_9BURK
+MTTPLLSLQGITKRYPGVVANQDVSLTVMPGQAHAVLGENGAGKSTLMKIIYGSVKPDEG
+QVVFNGQPVNIRNPQEARKLGISMVFQHFSLFDTLTVAENVWLGLDKSLSLAEVTDRIVA
+KASEYGLDLEPERPVHTLSVGEMQRVEIIRALLTEPKLLILDEPTSVLTPQAVEKLFVVL
+HKLVSQGVSILYISHKLHEIRALCSACTVLRGGKVTGVCDPREESNASLSRLMIGAEPPA
+LQHVARAPGEVVLSVQGLSLTRQDPFGVDLEGISLQVRAGEVVGLAGVSGNGQKELMWAL
+SGEDTRAGVQCGEASVSLSGQAVAALGPVPRRQMGLHFVPEERLGRGAVPSLSLSQNLLL
+TRSEAVGTGGWVRMGALADQARSIIDRFKVKASGPDAAAQSLSGGNLQKFIVGREISAAP
+KLLIVSQPTWGVDVGAAAQIRAEILALRDAGCAVLVVSEELEELFELSDRLHVIAKGRLS
+PSVARTEATVERIGEWMSGLWPEAKNDKAQEAQHAAA
+>tr|A0A0P0M8Z7|A0A0P0M8Z7_9BURK
+MSEAFVVGQMTVKDPEKWAQYRSQVLATLLPFGGELVFRGEQAQSFSGVNPHPDIVVIRF
+PSLEHAQGWHGSAAYQHLIPLRQAAADVVLTSYAT
+>tr|A0A0P0LHU6|A0A0P0LHU6_9BURK
+MKKLLVPSLLALSLLAVTGAAQAQAAESTLSFNVGTTTDYRYRGISQTRLKPAVQGGVDY
+ADKSGFYVGAWASSIKWIKDAGGDASAEVDVYGGYKGAVGDVAYDVGFLRYEYPSNKLAV
+SANTNEVYGAVTMGPATLKYSHAVSNLFGFADSKNSYYVDLSGTFDLGNGFSLVPHVGYQ
+SVKNNGAYSYSDYSVTLGKDLGNGLSVSAAVVGTDADKTMYVTPAGKFTGKTGVVVGLKY
+AF
+>tr|A0A0N7J8G9|A0A0N7J8G9_9BURK
+MFIRCAFFQGNVKPGMEDAFNRYIRDNLVPLWTRFPGAQEVRVLRQVESDVADPHFGMVL
+SVRYPSREAIEIALASEVRMKSKEVSKDMIAMFDGTVFHTVFSADEYALPTD
+>tr|A0A0P0M7U6|A0A0P0M7U6_9BURK
+MLTILFDGIAYGMLLFILAVGLSVTMGLMNFINLAHGAFAMAGGYLTVVLMQRFDVPFLL
+CLPLAFVATALLGAVLERTLYRHMYNKPHLDQVLFSIGLAFMSVASVDYWMGSQQQIMQL
+PDGLRGRTELWTGEVFELGMGHYRLFIIAVCAALTVGLQFVLAKTRFGSRLRASVDDARV
+AAGLGIRVNLIFAATFAVGSGLAGLGGALGAEVLGLDPTFPLKFMVYFLIVVAVGGTSSI
+SGPLWAALLLGIADVAGKYYMPKLGSFIVYSLMIAILIWRPQGLFVRKGGR
+>tr|A0A0P0LIQ4|A0A0P0LIQ4_9BURK
+MQLTARHQEYWGKNLRITGLLLALWFFVTFVLLYFSRDLTFSFFGWPFSFWVAAQGALIV
+YCLIIWYYARYMNNLDKEYGVAEGEEA
+>tr|A0A0P0LG70|A0A0P0LG70_9BURK
+MKFADPSLLPDEPEPARYLASALRQTHISVRGARTHNLKNIDLDIPRNQLVVITGLSGSG
+KSSLAFDTLYAEGQRRYVESLSAYARQFLQLMDKPDVDLIEGLSPAISIEQKATSHNPRS
+TVGTVTEIHDYLRLLYARAGTPYCPDHKLPLQAQTVSQMVDAVLALPEDTKLMILAPIAR
+EKKGEFEKVFEQMQALGYVRFRINGQTVEVEELPTLKKTEKHNIDVVVDRIKVRSEEDAK
+ARDALRQRLAESFEAALHLAEHRAVALEMDTGKEHLFNAKFSCPVCTYSISELEPRLFSF
+NSPMGACPTCDGIGSMAFFDPERVVAFPSLSLASGAIKGWDRRNGFYFSMLESLAKHYQF
+DIETPFEKLAPIHQQVLLHGSGLEEIKFSYVMESGASQGKKVSKKHPFEGIIPNMTRRYR
+ETDSSVVREDLARYRNMQACTDCQGTRLRREARHVRIGEGAQARAIYEISHITLGESQQY
+FQGLKMHGAKAEIADKVVREIALRLKFLNDVGLNYLSLDRSADTLSGGESQRIRLASQIG
+SGLTGVMYVLDEPSIGLHQRDNDRLIGTLQHLRDIGNSVLVVEHDEDMISVADHVIDMGP
+GAGVHGGRVMAQGTCADILAAPDSVTGQYMSGRKKIEIPKRHKAGKDFIEIIGASGNNLK
+NVNVKFPVGLLTCVTGVSGSGKSTLVNDTLYAAAAHQIHRAQGDAAHHEEIKGLEHFDKV
+INVDQSPIGRTPRSNPATYTGLFTHIRELMAEVPAARERGYGPGRFSFNVTGGRCEACQG
+DGMVKVEMHFLPDVYVPCDVCHGMRYNRETLEVQYKGQNIAQILNMTVEAAHQFFSAVPN
+IARKLQTLLDVGLTYIRLGQSATTLSGGEAQRVKLALELSKRDTGRTLYILDEPTTGLHF
+ADIDLLLKVLHQLRDAGNTIVIIEHNLDVIKTADWLIDMGPEGGAGGGTVLGEGTPEQLA
+KNKASFTGHYLARLL
+>tr|A0A0P0M852|A0A0P0M852_9BURK
+MTCFVIDPTAKTITPVPWDGGLDAIRQLIGFETIDSDEIDASGDRLFFDEKCFIRQTPGV
+GRFQLDSLAPVAGVGVVVGAGVSAPQVTLQALQGRVKFL
+>tr|A0A0P0MAX3|A0A0P0MAX3_9BURK
+MKQRSFKQYFVTGLLVWLPMGITVWVLMWLVGMLDAIFLAVLHAADTLIPGVHASAEYLR
+GVPGLGVAIVALVIFATGVFVANMFGQWWLRKWHGLMNRIPVVRSIYTSVKQVADTLFSG
+SGHAFSKALLVQYPRQGSWTIAFLTGTPGGEVAKHLGQPMVSVYVPTTPNPTSGFFLMMP
+KADVVELDMSVDDALKYIISMGVVVPGTPVPKPTAVQPQLS
+>tr|A0A0P0LNZ2|A0A0P0LNZ2_9BURK
+MEIFDYDNILLLPRKCRVESRSECDAGVTLGSRTFRLPVVPANMKTVVDESICLWMAQNN
+YFYVMHRFDLDNVQFVRDMHGKGVYASISLGVKAPDRATVDQLAAEGLVPEYITIDIAHG
+HADSVRDMIAYIKGKLPNSFVIAGNVATPEAVIDLENWGADATKVGVGPGKVCITKLKTG
+FGTGGWQLSALKWCARVATKPIIADGGIRSHGDIAKSIRFGASMVMIGSLFAGHEESPGK
+TVEVDGALFKEYYGSASDFNKGEYKHVEGKRILEPIKGKLANTLIEMEQDVQSSISYAGG
+TKLMDIRKVNYVILGGDNAGEHLLM
+>tr|A0A0P0LFI8|A0A0P0LFI8_9BURK
+MLSQHLRSRDIQFLTCSYKSISKLLLYPYSHSRVFHAYSSVSNVYPL
+>tr|A0A0P0LJV4|A0A0P0LJV4_9BURK
+MAHDVQLIYFNAGGGHRSAALALQEVIAQAQPDWAVTLVNLFEVIDSDRYYQKLTGFAPE
+DLYNMRLKRGWTRGLATELKLFQAMIRLTLPTLKKKMRSFWRNTQPHLVVSLVPNFNKVM
+YEALRDELPGVPYVTVLTDMADYPPNFWIEPNQGQYIICGTEFAASQAASQGYDAASIIQ
+TSGMILRPSFYRKSCVDKGQRFVELGLDPNRPTGLVLFGGHGSNDMLKIAKALPDRQLIF
+VAGHNNTLAQKMAAQSPSMYHLVLGFTKDIDQFMQLCDYFVGKPGPGSLSEAVHMGLPVI
+TFRNAATMPQERYNTTWVEENQLGKVIGSVSELPGVVEAVLDDLTRYQKHVQEINNQAVF
+EVVASLAQIMPKQTPKSALQTS
+>tr|A0A0P0M8V8|A0A0P0M8V8_9BURK
+MTNAVIVSTARTPLAKGWKGAFNMTHGATLGGHAVQHAVARAGIDAAEVEDVIMGCASPE
+GATGANIARQIALKAGLPISVSGMTVNRFCSSGLQTIALAAQRIIAGEGQVYVAGGVESI
+SCVQQEMNTHMMQDLALAKMKPEIYWNMLQTAEQVAKRYKIGRDVMDAYGAASQQKACAA
+QAAGLFSDEIAPITVTQGVIDKIMGMTTKQVTVSVDEGLREGTTVEGISGLRSALPGGLV
+TAGNASQFSDGAGACVLMDEKLAEQRGLKPMGRFLGFAVAGCEPDEMGIGPVYAVPKALA
+RLGLTVNDIDLWELNEAFAVQVLYCRDKLGIPADRLNVNGGAIAVGHPYGVSGQRLTGHA
+LIEGKRRGAKRVAVTMCIGGGMGACGIFEVL
+>tr|A0A0P0M7L3|A0A0P0M7L3_9BURK
+MKTKTFIVALLALPMLQGCTVLAIADVAASTVIYGVKTAVNVVDAVTPDIINRDKDKKNK
+>tr|A0A0P0M861|A0A0P0M861_9BURK
+MTEALLGFLAIFVLALLRMPLAFSMGMVGVVGIGLTRGWLPAMASTAQVVHETGFAYTLS
+VIPLFILMGNFVARAGLAHELFHAAYTFIGHRKGGLAHATIAACAGFGAICGSSIATAAT
+MSKVAYPSMKKLGYSDAMSTGVIAAGGTLGIMIPPSTILVIYGIITETHIGKLFAAGVLP
+GILTACLMMLAVVLMTWHDPEHAPAGEKFSWTERFKAVRGIWGVLLLVVLVLGGIYGGFF
+TATEGAGMGATGAFLFALARKALSWKVLGEVLVESARTTAMLFTLLIAATIFANFVNYTS
+LPFELKDWITGLGLSPIMIVAAMMLIYVLLGTVMEELTMVLLTIPLFFPIVVQLGFDPVW
+FGVLIVMVIQIGLISPPVGMNLFVLNTLLPNVGLGTIFRGVWPMVMVLVITLGILLAFPA
+ISLWLPSMMD
+>tr|A0A0P0MB40|A0A0P0MB40_9BURK
+MSNLPDLDAMPKVMGEDGQFHATDDDVDLSGTPIEAWVALAFFWALGLTVFYQFFTRYVL
+NDSASWTEEIARYLLIATVFTGATIGVAKNNHIQVDFFFRFMPDWMGRAMGLVVDVMRTA
+FFAAATFLTGQMMQKLGSYKMTIIDLPMNLVYGVVMAGFAAMCLRSIWVAKVHWQRGYTV
+LQRPESEMTDR
+>tr|A0A0P0MAQ1|A0A0P0MAQ1_9BURK
+MTNHQITTLPALRQLYGAARERALKKEIPSLDAHAVRFIALSPFVVLASSDAGGQMDASP
+RGGDAGFVKVLDAQTLLVPDAPGNNRLDTLENIVATGRLGTLFMVPGFDETLRVNGRAVL
+STDPADLALCADARRTPALVVRLTVESVYLHCAKAFMRSGLWDASRHTDRAQLPSMAEML
+RDQIRAFKGEEIEAETQAQRLERYQQSL
+>tr|A0A0P0LAP4|A0A0P0LAP4_9BURK
+MALVSMRELLDHAAVNGYGIPAFNVNNLEQVQAVMMAADEVGAPVILQASAGARKYAGEP
+FIKHLIQAATEQWPHIPLVMHQDHGQSPAVCQGAINLGFSSVMMDGSLLEDGKTPADFAY
+NVDVTRRVVEMAHLVGVSVEGELGCLGNLETGEAGEEDGIGAEGKLDHSQMLTDPEEAAQ
+FVKATGLDALAIAIGTSHGAYKFSRKPTGDILAISRVKEIHQRIPNTHLVMHGSSSVPQE
+LLALINQYGGKMKETYGVPVEEIQEAIKHGVRKINIDTDIRLAMTAACRKFLFENPDKFD
+AREWLKPAREAAKQICKQRYLEFGCEGQAPKIKGDNLQVVAARYARGELAQVVN
+>tr|A0A0P0LLJ3|A0A0P0LLJ3_9BURK
+MLERMHSLFHFAFHVTDLDEARRFYGDVLGCQEGRSTNTWVDFDFFSHQISLHLGEPFKT
+TLTGHVGDHLVPMPHFGLVLQKAEWQALADRLQAKQMKFVVEPHLRFAGQPGEQWTMFFM
+DPFGNPIEVKGFASLDTVYAS
+>tr|A0A0P0M9C6|A0A0P0M9C6_9BURK
+MTTPHHTRRWTALALSLSLLAPWSAQAQNASAPTNASTPKVRISTSLGDIEAELYADKAP
+KTVANFLQYVNDKHYEGTIFHRVIAGFMVQGGGFDAQYKEKKTRPPVQHEGRQALAGGLK
+NTTGTLAMARTNDPQSATAQFFINVVDNAFLDPTPIPDGDPVAKFQYQGRVYENVARAQL
+LNAPQLFGYTVFGKVTSGMDVVQKIRNTPTGAGGPFPTDVPRTPVVIQSITLLK
+>tr|A0A0N7J8D2|A0A0N7J8D2_9BURK
+MEALTPLHDPLSGVVVVLLADFLRQHQGWGWLRLVAGATPYKDVPGLTMVKVMGSGHGGG
+FSLRPSATHQGLICTFSHLDLALKFLDSSAVQAYRSRARECWTGVLSVQSARGHWDKQAW
+QASSAQALGMPGEKQDKSEQGNPGQSLDGQPHSGPFAVLTRASIVPTKAMAFWRYAPAAQ
+ADLGQAPGCLLAMGLGEAPLVRQCTFSLWEDTAAMLQYARQGAHQVASAAAYKHQFFSES
+LFVRMQVLQMAGVWQGRSFDAPAKAVQGTAPADVALADSRLAGVPSLEVSHV
+>tr|A0A0P0M8X3|A0A0P0M8X3_9BURK
+MSAFIYLASQSPRRSQLLDQIGVAHQLLLAGPDEDAESLEDVHGSEAPARYVARVTGLKL
+DAAVQRLKRQGLPLAPVLCADTTVCLGRDILGKPADEADAVRILKRLSGQTHRVLTAVAA
+QKGQQRVATVSQSWVRFAPMTAAQIRAYVATGEPMGKAGAYGVQGRAAAHIEQIRGSYSG
+IMGLPLFETAALLRNLGVRC
+>tr|A0A0P0MA97|A0A0P0MA97_9BURK
+MPQSLSPEQAFWSRLSGPQQAWLTGELKAQQALPSGGSVWLCDGVEMGWVSADRAQDMVA
+LLPGCTIRQGRLHWQTSAVQPMQRSQALQAFLEQQAAQGRLTGWRGEFFAWWPDTPAWPP
+ALDVPPFLCVERAGFRHLGLMSHAVHIHGFLPQGELWCGRRSDHKATDPGLLDNLAAGGL
+TAGEAPLTTAVRELAEEASLHLSDPNRLRGAGVIRTQRLEPQGWHDEQLLVYTLPMTEQE
+TPVNADGEVQEFLCLSPGEVVSRMQSGQFTVDACASLAQSMAWLMTDK
+>tr|A0A0N7J975|A0A0N7J975_9BURK
+MRSLFEPCQVGSIALASRIVMAPLTRNRAPGSLANARMATYYRQRANPATGAGLIVTEAT
+AISHQGQGYADVPGIWSAEQVASWKQVTDAVHAEGGKIVMQLWHVGRVSHTSLQPGGAAP
+VAPSALTAATKTVLLVDGQPKFEPVSAPRALDAAELPGIVQDYRRAAANAIAAGFDGVEV
+HAANGYLIDQFLRSSSNHRTDAYGGSIENHARFLQEVIQAIVAEIGGARTGIRISPVTPA
+NGVIDEQPQPLFEHVARLLAPMDLAFVHVIEGSTGAARDHQQGDKPFDYAALRQAYTQAG
+GRAAWMLNNGYDLSLADQSLASGADLIAFGRPFIANPDLGARLRQGGPFNTPDRATFYGG
+GDAGYTDYPFLPKA
+>tr|A0A0P0LSB0|A0A0P0LSB0_9BURK
+MPAVPTANLQPEALKARFAHPPVWHPEVVRENFSSDRAPAQAAVLVPIVMRGPNASLPTV
+LLTRRASHMKTHSGQIAFPGGKVDPEDANLHATALREAEEEVGLAARHVQVIGELPVYIT
+GTAFWVTPVIGLVSPNFDLRPNADEVADVFEVPLAFLMNPANHRRHAMDWQGARRHWFSM
+PYEEQRTTAHGQVQAVEHFIWGATAGMLRNFYQFLVASPST
+>tr|A0A0P0LVC4|A0A0P0LVC4_9BURK
+MSVNLEAGLRSGAQALGLVLTDAQIQHLLDYAALIQKWNKVYNLTALRDPADMLTHHLLD
+SLTAIAPLRRHTQGQPIQVLDVGSGGGLPGVVLAICMPELNVSCVDTVAKKAAFVQQVAV
+SLKLPNLRGLHARVESLTDPYQVICSRAFASLPDFVTWSRSALAEGGVWMAMKGKHPQGE
+IDALPADVKVFHVEPLAVPGLDVERCMVWMKAKTD
+>tr|A0A0P0M822|A0A0P0M822_9BURK
+MKKSTLWILSAVALAALLAGGARWASQRQADKTPTAPTAAVAPSIELATSDVFTARTQTL
+NLGIAVSGALKASESAIVKARVAGELQELSVREGDRVQAGQVIARIEPIEYQARVRQAQQ
+QADAAKAQVDIAQRQFDNNQALVNQGFISQTALLTSQASLNGATATHAAALAALDLANKS
+LADATLRSPLPGVVAQRLAQPGERVAIEARLVEVINLSQLELEAALTAEDASLVRVGMTA
+QLQVDGVDAPIPAKVLRINPSAQTGSRSILVYLGIKGREGLRQGQFAQGTLGTQSLQVMA
+VPVDSVRIDKPQPYVQVVQDGKVAHITVRTDVRSEGERQTLVAVTGVTEGTQVLSGSVGA
+VREGVLVKFTAPGNAAKVKP
+>tr|A0A0P0LRE1|A0A0P0LRE1_9BURK
+MPAVSSRGRGRRTIAEINMVPFIDVMLVLLIIFMVTAPMITPSMVDLPSVGKAAKQPDQV
+VQVVIQKDERLELVSNGKTDSATLASVAPSVKRLVGDSENTAVVISADRTVKYETVVQVM
+DSLQRAGISRVGLSVQLAP
+>tr|A0A0P0M7K1|A0A0P0M7K1_9BURK
+MALTFPFAAIVGQDEMTLAIQVVAVDPSIGGVLVLGDRGTGKSTAVRALADLLPPISVVK
+GCPYRCDPAKPASACPVCQARDPKAKVVTERQSVAVVDLPLGATEDRVVGALDLEKALSQ
+GVKSFAPGLLAQAHRGFLYIDEVNLLDDHLVDLLIDVAASGENLVEREGLSVRHPARFVL
+VGSGNPEEGELRPQLLDRFGLSVQVRTPQDLALRVSIIKRRDAFDKDPEAFKALWHKDNQ
+KLQKRILKARELLDAVEVSDDMLMLCARLCQQLGTDGLRAELTLLRATRAYAALQGHKAV
+KAEHLQSMAPLALRHRLRRNPLDDTDSGARVQRSLQEVLAA
+>tr|A0A0P0MBF3|A0A0P0MBF3_9BURK
+MNIELLGLEARHPAALPGAPAALRALNLRLAAGEQVAIIGPSGAGKTTLLQVLACAQPPT
+QGSLQLAGVNPWTLSARALRSTRGQLFLAPQVPPLPPRQRVVTSVLAGRLPSMGLWASLR
+SLFYPADIPAAYEALVHFDLGDKLFDRVDRLSGGERQRVGLARALLAPASLWLIDEPLSA
+LDPMRARMAMSALVNLAAERQVTLVATLHQVDMALAHFPRVIGLRDGQLVFDLPSAQVSP
+ERLAHLYDQYEHELRGEVLSVALPDDAPARPAPVVMHCR
+>tr|A0A0P0MAR5|A0A0P0MAR5_9BURK
+MILASAPFWTLPFSALAVLIYAIPALVPRRLSDVHARRLLWLAWGFHAISLLVLLMGPVR
+FGFAPALSVTAWLVVTAYMIETQFFPKLKARWAVGSLGAMTVALAWVFPGTLLTTQASAW
+LPLHFALGLSAYGMFAAAVVHAWMMTRTEHDIRLAHEGSSGLPLLTLERLTFRFVGAGFA
+LLTATLVAGALFGEALYGQSHTEWRWDHKRVFAVLSWLTFATLLVGRSQWGWRGRRAVRV
+LYIGAGLLLLSYAGSRFVLEVLIGRAG
+>tr|A0A0N7J8C7|A0A0N7J8C7_9BURK
+MSTSVSNTLLITRQGAVETWTLNDPATRNALSDAIVDGLLQACTRAAQDDSLRIVVLTGA
+GGAFCAGGSLGGFASLIGQPLQEGQTDPLLAMNRGFGDLLHALSALPQLLVCRVDGAAMG
+GGFGLVCCADHVVATARSVLGTPEVTLGLPPAQIAPFVWQRLGESAARQCLLQGLSYTAA
+QAQQVGLVNELIDVDSDAAWGKTLTRLMRAAPGAVASTKQLLRSVRGPVPDMRDAAAQAF
+ASGLRSAEAAQGLAAFARKQPAPWTLSDKDTA
+>tr|A0A0P0M8Y7|A0A0P0M8Y7_9BURK
+MKPNLHQVKRELTHERLLHSALTLVQEKGAGRLSIQAVAQAAGMTTGAVQHHFPSKAALM
+MQVLSLLIDSLESDTDFWPSPRWGLRRRSEHFVRQAWAQLYSQPRFASAWSAYLAAVDDV
+VMTAHIIEQRSLIQQRLRVQFLAAFPEIAIHRQAEAHMQFVLTTLRGLGLVRPFAPAAAI
+DSQLTLLSEFIQSIPTKPQETP
+>tr|A0A0P0M9X1|A0A0P0M9X1_9BURK
+MRAIKKVRQLIAHEPLNPTAQIFARLISSLVDEVDFSLKDLYELGTSDFQLAMDILQEWR
+LDRYYMGKAKTFDVAMQALQLNQPKSSKPKA
+>tr|A0A0P0M789|A0A0P0M789_9BURK
+MSTFNNPQQTWNQRFAAEHYVFGEAPNAYLKSQAAHLVPGTALAVADGEGRNGVWLAQQG
+LQVDAFDFSDNALHKARALAQSRQVAVNWVHSDWQSFDWRPAHYDNVVGIFFQFATPEER
+GTLFARMLDSLKPGGTLIIQGYTPRQLDFNTGGPGKLAHLYDEALMLDAFGELDILDLRT
+YEAEINEGTGHQGMSGLLGLTARKRLG
+>tr|A0A0N7J944|A0A0N7J944_9BURK
+MAGGRQTGGASIKVSAMSHVFKRLGLAAPIFQAPMAGAQNHRLAMAVCQAGGLGALPAAM
+LSPDALLAELQALTAATGAPYNVNFFCHTPPTPAPEAQMRWQQALAPYYREFGLDPAQMP
+SGPGRVPFAHDSADVLEAFRPAVVSFHFGLPAPDLLARVKSWGSLVASSATTVDEARWLQ
+AHGADLVIAQGLEAGGHRGMFLTDDLSTQLGTMALLPQIVHAVDVPVMAAGGVGSDQSVA
+AAKLLGAAGVQIGTAYLCSHEASTSALYRAALLSPAAQHTALTTLFSGRPARGIVNRLMR
+ELGPLNAAAPAFPLATAAIAPLRAAAEAQGLSDFTPLWSGQNASNARSLSAIEITRGFVQ
+AWLTTARYPEG
+>tr|A0A0P0MBC7|A0A0P0MBC7_9BURK
+MNPSPPGYLTKQESITVLGVDDLLIRSLLDKNQFHDPLDEALNLGISSAAWPLFGLLWPS
+GMHLAERMARRSVTDERILEIGCGLGLASLVAHRRGAQVTASDCHPLAHSFLDENTRING
+LLPMRYCHGLWGTAALREDGLPVLTQAHDSPLTGLFDLIVGSDILYERDDEGTLAHFIGK
+HAAPQSEIWVIDPNRGNRAAFHKHMALLGFVMHEQVLDHAEHDGIGAYKGRMLTYKRQGS
+LSTVSQMV
+>tr|A0A0P0M9V8|A0A0P0M9V8_9BURK
+MARQSFSRYLPWLVTGPVALLVWPVSTWASAGFAALFVMGWVDFKQTKQAVRRNYPLTGR
+LRYGLEYIRPELRQYFLEDDEEKLPFSRNQRAMVYARSKMQNDKRGFGSIKDMYHAQSEW
+ITHSLQPTELDPANFRITVGAHQCQRPYALSLLNISGMSFGALSPNAIKALNKGAALGQF
+AHDTGEGSISRHHREPGGDLIWQIASGYFGCRTPEGLFDPVRFAEQARSPQVKMIEVKLS
+QGAKPGHGGVLPKAKVSPEIAEARGVPMGQDCVSPARHSAFSTPLELLGFVGQLRELSGG
+KPVGIKLCVGHPAEWFSLVKAMLQSGQTPDFIVVDGAEGGTGAAPIEFADHVGMPLRDGL
+RLVHNSLVGAGLRDRIKIGASGKVISAFDMARCLALGADWCNAARGFMFALGCIQSRSCH
+TDHCPTGVATQDPVRQRAIVVTDKAERVYFFHANTLHALADLVGAAGLQKPGDITPQHLM
+VRNAAGQARSLASSIDTLTPGQLLREEAGPQALPSPFAEFWPTSQAGHWGVPAEATALPA
+>tr|A0A0P0MA08|A0A0P0MA08_9BURK
+MIKQFIDKLMGKTPKSSKPHFGRRTEVPASVHGIDPNLVDERAINVTRTLQQAGFEAYVV
+GGAVRDLLLGLRPKDFDVATNATPEQVKGLFRRAFIIGRRFRIVHVVYGRGRDNEVIEVS
+TFRAHLDNVAAEQVKGNERTSKRQLEGMQHAVDSSGRVLRDNVWGPQDEDATRRDFTVNA
+MYYDPESQIVVDYHGGIQDAKKRVLRMIGDPVARYREDPVRIIRAVRFAAKLSPLGFKLE
+AKTSKPLTQSATLLADVPQSRLFDEMLKLLQTGHALASIAQLKNLGLATGIYPLLDVVVE
+RADSAFVQVALADTDRRVGEGKPVAPSFLLACVLWADVREGWAKRLARKEHPHPALQDAI
+DEVFDARIGDVSGRGKLAADMREIWIMQPRFEKRVGSTPFGLVEQPRFRAGFDFLRLRAD
+IAEVDERLADWWQEFSMASDAEREDLVQAAKAEQQASQAAKPRVRRAPRPEGAPAPAESR
+PAAEAEGSDEGAAKKRRRRRRKPGAAGDQAGDGGSAA
+>tr|A0A0P0MAB3|A0A0P0MAB3_9BURK
+MNMTKILLASLLLLLLIVGVVIGLAWAPDRPVDNLKTRWAAAPSRFIELQGMQVHLRDEG
+PRDDPEPIVLIHGTSASLHTWDGWTAALKDQRRVIRMDLPGFGLTGPAPDGDYRMERYAD
+FIVALMDQLGVRQAVLAGNSLGGGIALRTAVQHPDRVSRLVLVDASGYPLQSTSVPLGFR
+LAQIDGLKPVMSRLLPRSMIEASVRNVYANPDEVTPELVDRYYELTLRAGNRESLTQRMK
+LRETDALSAGLISSIRQPTLILWGAQDRLITEPSGQRFHQDIPGSHYVVFEGLGHVPQEE
+DPERSVAPVLKFLALKP
+>tr|A0A0P0M8I5|A0A0P0M8I5_9BURK
+MQILGIESSCDETGVALVETTGVAMPRLLSHALFSQIEMHQAYGGVVPELASRDHIRRVL
+PLTRQVLAEAGATLAGIDVVAYTRGPGLAGALLVGSGVACALAASLGKPVLGVHHLEGHL
+LSPFLSADPPEFPFIALLVSGGHTQLMRVDGVGRYELLGETIDDAAGEAFDKSAKLMGLP
+YPGGPGLSRLAEQGNPAAYKLPRPLLHSGDLDFSFAGLKTAVLTQSQKIGPAAHTEGAPE
+RADLAASTQAAIVEVLVKKSMNALKTSGMKRLVVAGGVGANRELRAQLNAACAKARVRVH
+YPELHLCTDNGAMIAMAAAMRLQAGAQTAQARYSFDVKPRWPLHELAGS
+>tr|A0A0P0LL52|A0A0P0LL52_9BURK
+MTVSPQLMQRIRQDVQSMHAYAIQDSVGMVKLDAMENPHHLPAELQKALGERLGALALNR
+YPDGRVNELRHALASYAGMPEGFDIMLGNGSDELISLLAMACDVPGASILAPLPGFVMYA
+MSAQLQGLAFHGVPLTADFELDEAAMLAAIDQHKPSIVYLAYPNNPTGNLWNDETIEKIV
+LAQGAQGGLVVMDEAYQPFASKSYMDRIMRHSHVLLMRTLSKFGLAGVRLGYMIGPRALI
+AEIDKVRPPYNISVLNYECALFALEHAEVFVAQAKDLREQRARLLKELATWPGVTPFPSE
+ANMILARVPDAAKTFEGLKAHGVLIKNISKMHPLLANCLRLTVGTAAENDQLLAALKASL
+>tr|A0A0P0M817|A0A0P0M817_9BURK
+MDIPTPIENRLIDLEIKAGFTEDLLDQLNAQVYRQQQQIDALIQELRQMRDRLPESGGGA
+EMRNLRDEIPPHY
+>tr|A0A0P0M867|A0A0P0M867_9BURK
+MAGMSNMAVVDPMGLLLSLARPESLMVLGAFAVCLVLAWLMTWGVRRVFNGQDMAILLGR
+QLVDGVLFPMLLLGLTFVARTLLTQQQPAPLFVVLLPVCISLAVIRLGVKVLQVAFANAP
+FVRVLERTISWLAWGAVVLWVTGILPLVLNELDQISWKIGGSVLSVRTLIEGALTAGAVL
+IVALWISAAIEARLLKSATGSDLSLRKVISNTVRALLMFVGLLLALSSVGIDLTALSVLG
+GAVGVGIGFGLQKLASNYVSGFVILAERSMRIGDMVLVDGFEGRIVDIKARYTVIRALNG
+RESIVPNEFLIINRVENFTLMDPKLSQTTLVSVAYDSDVELVRRLLIEACESQERVLKDP
+APNAFLSQFGADGLEFTVSYWIADPENGQLALRSTINMLILAALREHKIEIPYPQRVMHM
+VNPSSKAATD
+>tr|A0A0P0MA93|A0A0P0MA93_9BURK
+MNTALKLQQAMRRNPANDWRMDDLLALAKRHGLSVRSTGGSHHVFVHSQLTDTLSVPARR
+PIKAIYIKHFLLLLDALQEQSYGQED
+>tr|A0A0P0M8J3|A0A0P0M8J3_9BURK
+MSETKSNQVAPTLLVGVDFGLPHFDGELQELGLLAESGGLKPVARLTCKRKAPDPALFVG
+SGKADEIKELALMHGAVEVLFDQALSPAQQRNLERHIGLPVNDRTLLILEIFGQRARSHE
+GKLQVELARQQYLSTRLVRRWSHLERQSGGIGMRGGPGETQIELDRRMINDSIKRIKERL
+VKVKKQRNTQRRQRERRDTFNISLVGYTNAGKSTLFNALVKARAYAADQLFATLDTTTRQ
+LYLGEAGRSVSLSDTVGFIRDLPHGLVEAFQATLQEATEADLLLHVVDAANPDFPEQMAE
+VQKVLAEIGASQVPQLLVFNKLDSLPAERYPLQMQDQYELDGHAVTRVFLSARSGEGLPL
+LRSTLADIVKAALPAAESPEPDPRDLDREYPGDLP
+>tr|A0A0P0M7G9|A0A0P0M7G9_9BURK
+MNTAVNHPTPEMARRMANAVRMLAVDAVEAAKSGHPGAPMGMADISEVLWNRHLKHNPLN
+PQWADRDRFVLSNGHGSMLIYALLHLTGYDLALDELKKFRQLHSKTPGHPEVDITPGVET
+TTGPLGQGITNAVGMALAEKMLADEFNREEDGQRLDIVDHMTYVFLGDGCLMEGISHEAC
+SLAGTLRLSKLVALYDDNGISIDGHVEGWFTDDTPKRFEAYGWNVIAKVDGHDPQAVNAA
+IEAAKAQAHSPNGKPTLICCQTVIGMGSPNKAGTHDVHGAALGAAEVAATREALNWPYAP
+FEVPADVATAWDARASGTRAESQWRERFASYESRYPEEAAEFERRMKGDLAETYVQGLEK
+ALAAIAAKPDAVATRKASQNALDVLAPLLPEFFGGSADLTGSNLTNFKTCTKAGRDTWGN
+HLSYGVREFGMAAIMNGMALHGGYIPYGGTFLTFSDYSRNAIRMAALMKKRVIHVFTHDS
+IGLGEDGPTHQSVEHVPSLRIIPGLDVWRPADGLETAVAWACAVERLDGPSALALSRQNL
+PQLLTDAADAAKVRQGGYILSDMPGAQAIIVATGSETSLAMKAQAELATQGVATRVVSMP
+CTNVFDRQSEAYQDMVLPLGLPTVAVEAAHPDFWRKYVGRTGMVIGMNSFGESAPAPALY
+AHFGITTERVCEAVRTLVHRHTHRQAQVLPEHIVPSDN
+>tr|A0A0P0LFF5|A0A0P0LFF5_9BURK
+MKTPAGHQTLELTGLRFDANLGILEHEKTDPQPIQVDAELNLGTQPLLPSDDDIHSVLDY
+RKVRKIIIDECTAEHINLLETLIGKVSNRLMQLPGVLGVRVKIAKLEIFEDCEVAIRMET
+GQW
+>tr|A0A0P0LM71|A0A0P0LM71_9BURK
+MSKLPVNLKSVAIASLTLPLVMWLLRMLWPDISWGFLLLFGLQVMLMLATLQLVVSSVWT
+PTRRLELPGKNAALPRRIFAKKTSVMAFLRGMVQRARGAVAMLLGRLFKRKAA
+>tr|A0A0P0M8V7|A0A0P0M8V7_9BURK
+MFKTILFLTLTAFGAFTATAIWQGGISGILGAITDSLGSMQIFIDLVIALSLIMVWMWHD
+AKQKKRNVWPWLVLTLLAGSFGPLLYLLTGPTKQGGHQA
+>tr|A0A0P0LLP5|A0A0P0LLP5_9BURK
+MSQETSAVIDSNRFVTNSKPNPLAKTPAQTPQFLSTAEAARMLGLSTTLVQTLVDQGDLK
+GWKTRGGHRRISLDSILGYQTDARHVTGSSLKSSTKPKVTIVIESPTLFSELKAECDVWN
+MPIDVRFFDSVTEALLELSSQKPDMMVVEMSMPRPQQEKTFQALENFNQRGHTPLSVVLI
+TSEKALKASMPAGASSSIQVVSGPMSAVWLHAYLTGVIASYRV
+>tr|A0A0P0M8Y1|A0A0P0M8Y1_9BURK
+MDTPETQAPQHTSFAEFYPFYLSEHSHRTCRRMHFVGSTLSLMCLAMLAVTGKPQYFLYG
+LLCGYGCAWIGHFVFEKNKPASFKRPLYSFMGDWVMYRDMWRGRVSF
+>tr|A0A0P0M9Y7|A0A0P0M9Y7_9BURK
+MVMNTSIRPLAIRMHPDDNVAIIANDGGLPAGTVMPEGPATGLVLRDKVPQGHKVALTDI
+AAGQAVLRYNVPVGYARESIAAGSWVHERLLDIPSARELQGLPMATRPAPAWLPLEGHTF
+EGYVNADGSVGTRNLLAITTTVQCVAGVVKIAVDRIERELLPLYPNVDGVVGLEHSYGCG
+VAIDAPGAEIPIRTLRNISLNPNFGGEVMVVSLGCEKLQPSRLLPPGSFPIHDSRDKAQG
+PDLVCLQDDEHVGFMSMIDSIVQGAKPHLERLNARKRQTVPASALVVGVQCGGSDAFSGV
+TANPAVGYMADLIVRSGGTVMFSENTEVRDAVEQLTSRSATHAVAEDVVRELGWYDQYLD
+RGRVDRTANTTPGNKAGGLSNIAEKAMGSIIKSGSGAIASVLAPGDKLKPDQKGLVFAAT
+PASDFICGTLQLAAGMNVHVFTTGRGTPYGLQACPVVKVATRSDLARRWHDLMDFNAGQI
+ADGEMTIEDAGWALFRMLLETASGKKTWAEHWKLHNALVLFNPAPIT
+>tr|A0A0P0MAA7|A0A0P0MAA7_9BURK
+MSEPSSSWGVAEPAAHWRLVSGDLLDVNVWVGLCSAAHPFHDPAMRYWQSACETETPLWF
+CRTTMMGLVRVLSQPRAMGPNVLTLNQAMAMYRQWLNTPAVGLLADPPSLDDAIEQLLGR
+RGEPQPIRLWTDMCLAATAQSAGLRMVTFDRDFERFGLTRCLVLPTDASSQTNPGPAP
+>tr|A0A0P0LVA5|A0A0P0LVA5_9BURK
+MTKTSSTQRRLLMALLGAACTATALPLWAQSTGSNTVKLIVGYAPGGPVDSSARVFAPVL
+SRELGQPVIVENRPGAGGAVAGNTVVKSAPNSLEIFYAASPTMTISPHVLKAMAFDPLKD
+MTPLATILSYANVLVINQNQPFKTLPELVAFGKANPGKLAYGSAGMGASNHLSGELFARR
+AGINMTHVPYKGNAPAMTDVMGGQIQMMFDIVGGAKAHIDGGKVRPLAVTSKERNPALPQ
+LPSMTELGIRDYDVGGWYGLYGPLGMSAELSQKITAATARALQDPELNKRWVDQGYVIWN
+AKPADLADRMRREHALWAEVTKGMTFE
+>tr|A0A0P0M983|A0A0P0M983_9BURK
+MAKTIVVYHSGYGHTQRVAQFVAQGANAQVIAIDADGNITDADWAALDAADAIIFGSPTY
+MGMASWQFKKFADATSKRWFTSAWKDKVAGGFTISASPSGDKLSTIQYFITLSQQQGMIW
+VGQPAMNDGTINRIGSNSGVMAQVGPTSPAEDIPQGDLDTAKAYGERVAAVAAKLRG
+>tr|A0A0P0LSY2|A0A0P0LSY2_9BURK
+MLDILYLDDYLAAVTKPPGLLVHRTGLDAGETRFALQMLRDQLGRPVWPAHRLDKGTSGV
+LLFALNAEVARTLGQAFESGDGLQKTYRAVVRGWPADEGLIDHPLKRMPDDMRTERLEVQ
+PAQSRFATLRRFELPLSQQGFASTRCAEVALQPLTGRRHQLRRHMKHIAHPIIGDATHGK
+GPLNRAVAELLGHQRLWLHAHSLTLPHPVSGEMLLWVSPLPAEWSLWDTFA
+>tr|A0A0P0LNB2|A0A0P0LNB2_9BURK
+MQTDSTVQATLNAWQAQLEDVRRRRVERGGGHAGLAKPQQVLGKTGLQVMTALLEGELPH
+PYMADTFDCELIEVGEGLAVFQATPQLKHYNPLGSVHGGWYATLLDFALGCAVQTKLPAG
+LGYTTSQINLNIVRAANTQTGPLRCIGNAIHVGRQIGTSEARIVGPDGKLYAHATTTCAI
+FEAAPKIS
+>tr|A0A0N7J8J4|A0A0N7J8J4_9BURK
+MTLQPQMLALLFTVILLAVTTYFLLGSIPLLTLKHDNPMDSRFIRSFYITYFRLALIAAL
+AASISFAFAGKPALSMGAGGIAMLTWLMRRHLITRMDHFGAQIRADELVAIPAFKKMHKS
+AILINATQLLAILGSLGSF
+>tr|A0A0P0M7C0|A0A0P0M7C0_9BURK
+MGISGRIAAAFQSAQITPLLALVAFLLGVFAVMVTPREEEPQINVTMANVIAPFPGASVR
+DVEQMVAIPAEQVLSKIAGVEHVYSVSRPGVAILTVQFKVGVPRTEALVKLHDTIRENSD
+WLPRNLGLPEPLIKPKGIDDVPIVSLTLHGKNADLSAFDLERVAHSIEADIKRVPGTRDV
+VTIGGPRRAVLVQIDPQRMNGSGVTVHDLRMALQSANLGLPVGELLGANQSVAIEAGPHL
+AQSSDVADLVVQVVQGKPVFLKDVASVKDGPMPAERYVWHGNNEKNGGEEFAAVTLSITK
+KSGENAIDVANGVKSRVEKLQGTVIPDNVQVVETRNYGETANDKAQKLIQKLLFATASVV
+ALVFMALGRREAAIVGVAVILTLTATLFASWAWGFTLNRVSLFALIFSIGILVDDAIVVV
+ENIHRHQQMYPGKSIREIIPGAVDEVGGPTILATFTVIAALLPMAFVSGLMGPYMSPIPI
+NASLGMLLSLAIAFVITPWLSGMWMKPSLGHAHDATGGGHSGLSAKLEPLFEKIFKPLLD
+TQSGGRNRKLLGLGIAGLIALSLVLPVTGLVMLKMLPFDDKSEFQVVVDMPAGTPLEKTA
+AVMRELGGHLATVPEVTHYQAYVGTASPINFNGLVRQYYLRAGAELGDIQVNLVRKSERS
+DKSHVIATRVRPALQEIGRKHGANVKVVEVPPGPPVMSPIVAEIYGPDAEGRRQVAKAVR
+AVFEKTEGVVDIDDSSIADAPRKLLLVDRRKAAVLGVSQQAIVTTLRAGLAGESVTYLHD
+GSKYPVPALIQLPEQLHGDLDALLQLGVKSATGKVVAMRELVTVSDTLREQPVIHKDMLP
+VNFVNADMAGKVDSPLYGLFKMRGDVAQIKGLDGERIEEFFISQPDDAWRGYSLKWDGES
+QITYETFRDMGAAYGVGLILIYLLVVAQFGSYLTPLIIMAPIPLTIIGVMPGHALLNAQY
+TATSMIGMIALAGIIVRNSILLVDFINLQVNSGMDFKRAIVQSAITRAQPIMLTGLAAMI
+GAFFIVDDPIFNGLAISLIFGIFVSTVLTLVVIPTLYFVAYRKKYGA
+>tr|A0A0N7J914|A0A0N7J914_9BURK
+MRAMLRQTFDPLHKNPQTVLHVTGLSGGPAGQVLFHDLAFPLPAGVSALLGDEGVGKTSL
+MRLLSGDLTPIAGQLRLSDEAAALALPQASVVFWTDLRLPSHDQATPAQCWAHLRASCPA
+WSDDTQKELIEVLQLTPHLDKRLNMLSTGSRRKVGLVAALACGATVTLLDQPFVSLDQAS
+IRSLQAFLAKLGQSPHRAWLIADYEKPVHLPLASVLQL
+>tr|A0A0P0LTV7|A0A0P0LTV7_9BURK
+MPHPPLALRQQLATTPSLSRRASLSALLLSPWLMPRVGAQVVQPVDSDGHSGVQLAMPWP
+AGRSPQGFGVSEKFDGVRAVWDGRVLRFRSGRAIAAPAWFLSALPRVALDGELWMVRGAF
+DQLSGVVRQAEPDDEAWRAVKYLVFDAPGHAVPFAQRMVFVQSTLAQAQQPWLMPVEQRE
+VKDNRALQAWLQETVRQGGEGLMLHRADALWQPGRTDALFKLKPELDEEALVVGHQPGKG
+RLLGMTGALLVQTPSGQRFALGSGLSDAQRRNPPPLGAWVTYRYRDRTPSGLPRFASFLR
+VREAE
+>tr|A0A0P0MAL8|A0A0P0MAL8_9BURK
+MMNLRGENLKMVGKLAIVTAGMFGFGYALVPIYKAICEITGINILSISETQVPGNAKAGK
+AAEVLRNTQVDTTRTVTVEFDANVRGPWEFKPEKRSMQVHPGELSTVMYEFQNVQNRRMA
+AQAIPSYAPRNAASHFNKLECFCFNQYTLEPGEKKSWPVAFVIDPKLSKDVTTITLSYTF
+FEVGGKTPAAPTAPLAAAVQPLPIKTGLGS
+>tr|A0A0N7J8W2|A0A0N7J8W2_9BURK
+MPDKTPTQNALEVRNLDFYYGKFKGLKNVNLNIAEHRVTAFIGPSGCGKSTLLRTLNRMY
+SLYPGQRAEGEINFYGQNILDKGQDLNLLRAQIGMVFQKPTPFPMSIYDNIAFGVRLYEN
+LSRSDMDERVESALTKAAIWNEVKDKLGQSGLSLSGGQQQRLCIARTVAVKPKVILLDEP
+TSALDPISTAKVEELVSELKKEYTVAIVTHNMQQAARVSDFTAYMYLGELVEFGQTEQIF
+MKPAKQETEDYITGRFG
+>tr|A0A0P0MBX7|A0A0P0MBX7_9BURK
+MAVLGLGSAWAQTSSVELTELMPVRKDNALLLNAQLKLELGPAVEDALIKGLAVHFVVEA
+EVLRERWYWTDKKTGAASRYYRLAFQPLTRRWRLNVSSEPISGTGLAGSISQNFETLAEA
+LSVIRRQSAWKIADAQSLDPDARQRLRYEFKLDVTQLPRPFQIAAGNQADWNLQVIKTLR
+LSEELVR
+>tr|A0A0P0M6Q9|A0A0P0M6Q9_9BURK
+MSTSPKAKSSSGAVRIKGSGQSTGPKSALGKARSSQNAVSHGLTSNRVMPDEVRMVEDFT
+QELTQYYKPESPLEVLQIQRIAFCRAKLAKLIDMEVAGRELARKQIDLQPELVMQRLTQF
+PEKLRSLALSSIKGESVLFKLGLDEAKLHAIAQEIKDFAGSLDDGSDLSSNFPRLCAYLS
+GIQPVPDQIDDMDPDQALMIFAQRIRNLSINQESVAHAKTSKGSSETKVDEVMGQVNRSI
+QIEKMATRKTLRPKMPGVAGYHQAVEPDLQEIIKLASVLSGVPKVVQSFQEMKCWMLRAA
+DLQAEETDRMMKYQTMLERRLSSAIGELLELRKYQIN
+>tr|A0A0N7J8F6|A0A0N7J8F6_9BURK
+MSWLEKLLPPKIQHTDPADRRTVPEGLWVKCPSCETVLYKTDLEENQNVCPGCSHHLRIG
+ARARLNAFLDGEGRYEIGQEVVPVDPLKFKDSRKYPERLKEAMDNTGETDALVVMGGAVH
+SINLVAACFEFDFMGGSMGSVVGERFVRGVETAIAQKVPFVCFTATGGARMQEGLLSLMQ
+MAKTNAALTRLAKKGLPYISVLTDPTMGGVSAGFAFLGDVVIAEPKALIGFAGPRVIEST
+VRVTLPEGFQRAEFLQTKGAVDFICDRRELRKTIASTLAMLQRQPADAVS
+>tr|A0A0P0MA63|A0A0P0MA63_9BURK
+MFSRLRSDIQCILDRDPAARTAWEVLTCYPGLHALVLHRRAHWCWNHGFKWLGRFISHIS
+RGLTGIEIHPGAKIGERVFFDHAMGVVVGETAEIGDGCTIYQGVTLGGTSLYKGAKRHPT
+LGKDVVVSAGAKVLGGFEVGDGAKIGSNAVVIKPVPAGATAVGIPARIIPSKAGESADVS
+GTERKFNAYGITQDDDPVSQALRGLIDNAAGQEHQIAMIWKALEQLCAQQQLAMPGDAAT
+RESFEADKFNQLLDK
+>tr|A0A0P0M742|A0A0P0M742_9BURK
+MALKQLHLSLQFGDIPYAARHRAALPRHAVIRAIRHALADDAEITVRIVGEEEGRALNHS
+YRKKDYATNVLTFDYEQEPVVMADLVLCAPVVAREAKEQGKTLAAHYAHLLVHGTLHAQG
+WDHETSTADAEEMEAYEVAILAGLGLKNPYV
+>tr|A0A0P0MBL7|A0A0P0MBL7_9BURK
+MIDRQFIGHTMPAFEVLVEKGRLKFFAKATGQTDPVYTDEAAARAAGHPALPVPPTFLFC
+LEMESPDPAAIRNLLGMDYRKLLHGEQGFTFHRMAYAGDVLRFEQRIEDIYDKKGGALEF
+VLRKTRVSNQRGEHVADLRAVTVLRHGPSA
+>tr|A0A0P0M7B6|A0A0P0M7B6_9BURK
+MLERFIQNKKLDAAKLSAKKLLSARGEANAQSMAIKLIDHYDHLDKRSQIDFFHFLSSQF
+NPDPSLVVDAANRYNTERNEASLIHLFQTVEPPRQELLRRVNRAAAGTATILKMRQTLLS
+YLKDHPAFRATDSDMHHLLSSWFNPGFLELHQITWNSPAQLLEKIIAHESVHAIDGWDDL
+RRRLQPDRRCFAFFHPQLPGEPLIFVEVALVPNISKDIGTLINKQAPVGDAKSFKAAIFY
+SISNCQPGLKGVSLGNFLIKRVAQKLIEEIPSLKTFCTLSPIPGFTQWLDAGAPLPEERI
+GPTQLRKWQEAQKILAASSLNWAERLKSGWHPERNAEAERATLMRLCALYLMHQTPEARG
+DAVGKFHLSNGATLHQINWAADLSKKGLQQSGGLMVNYLYELDKVEEQHEAFSHKTVSCS
+RGVEKLV
+>tr|A0A0P0M8R1|A0A0P0M8R1_9BURK
+MNPLNPHTLTLPKALVTLVAGALFGFGLSLATMVQPDVVLSFLRFQDWGLILVMGGAAGL
+AMLAYKGVPRWLGRPFLGGQFLTQPASWNRQTVIGSAIFGVGWGLSGVCPGPAIAALGTG
+NTDILWALGGIVLGALAHGLTTRD
+>tr|A0A0P0M9C2|A0A0P0M9C2_9BURK
+MSSVPFKRTATVLALATLLSACSVLQEDKIDYKSAAKAPTLEIPPDLTQLRKESRYAIES
+TSATASGFQNAGSRVADAGTAANALGPVRIERQGHQRWLVTSLPADKVWEPLREFWTSNG
+FVLVTDAADVGIMETEWAENRAKLPQDFIRRTLGKVLDSFYSTGERDKFRTRVERNAQGG
+VDIFITHRGMIETYTDAQKDRTIWQPRPSDPELEIEFMRRLMVKLGTTPEMAKTAATATA
+ATANASETSSQVSTVNGQPVIVLQDSFDRAWRRTGVALDRSGFTVEDRDRMAGVYFVRYV
+AAGTSTEPTGFLGRIFGSKKDTPSTLTKYQIKVISSGDNQSAIRVLTATGQPEPSIQDAE
+RILKLIAAELR
+>tr|A0A0P0LJE4|A0A0P0LJE4_9BURK
+MNTDRPPPSIPPVTEADLHAFVDGRLPAERQVEIAAYLAARPEDAQLLEAYRAQKRKLHA
+LLDPVLDEQPPQRLLKSARPRAVPQTPWYLQRLAAGIAIAVISGATGWGLRGGLPAGGDD
+AGRMAAAAPAERGLTLASAGGFAQRAAVAHAVYSPDARRPVEVDAAHEDQLVAWLSKRMG
+APMKPPHLQAQGYTLEGGRLLPGGQGPVAQFMYRNELGSKLTLYVSNDVADVGSAAGPDK
+ALQAGVKNTDTAFRFAREGAVNVFYWVDGPFGYALSSDADRSVLAQVSAEVYRQLGTPR
+>tr|A0A0P0M8L6|A0A0P0M8L6_9BURK
+MTLSPSLLSIVCLLSAASAMAQDKVLNIYSARHYPTDEVMYSDFTKATGIKINRVDADDA
+GILARLKAEGAASPADVILLVDAARLWRAEVDGLFLPIKSAKLEEAIPANLRAKTADNGG
+TAWFGLSTRARVIVYDKLKFSKTDVDSYEKLADAKFKGHLCIRSGSHPYNLSLFGAMTEH
+LGPQKTEVWLKGLVDNMARSPKGGDTDQIKGVASGECGVAVTNTYYLARMMRSSNPADKA
+VTEKIGVVFPNQNSWGTHVNVAGGAVARHAKNTDNAVKFLEYLASPAAQNHFANGNNEWP
+AAKGVSFDNPALKAMTGGSFKSELIPISAVGMNQIKVQQMLDRVGFK
+>tr|A0A0N7J8S4|A0A0N7J8S4_9BURK
+MSTPQIHLETLPRSIQLLMVLGFLALAAFPFVGTDFYTAMVVRMMILAIFAMSLDLLQGV
+TGLVSLGHAAYFGLAGYVLAFVTPQNEPISLYTSLPLAVGGSALAALVIGFLVVRTHGIY
+FIMVTMAFAQMIFYIFFDNKALGGSDGLFLNFRPDAGIIDLENKRVFYYFTLGCLLVVYV
+FLRRLLWSPFGRALSGIRVNEHRMRALGFNTFSHKLAAFTLAGALAGLAGYLFAAQTGFV
+NPELMGFHLSAHAIMMVILGGMGNFAGAIVGAFSFEYLLHVFKDLPEVGSFKTGKHWQMW
+MGLFIVALIIFAPKGILGLINRALGSKTAKEAGHD
+>tr|A0A0N7J992|A0A0N7J992_9BURK
+MERIWLKNYPPGVPHDIDTEQYKSLTDLMERAFREHSDNPFSVCMNRWMSYKQLDELSTA
+LGAWLQNKGLEPGSRVAIMLPNLPQFAVTMAAILRAGYTCVNVNPLYTPRELEHQLKDSG
+ASAIVILENFAATLQEVVERTAVQHVVLASIGDLLGPINGRWLTFAVRHLAKMVPPFELP
+LSNGRTVTSFKKAIAQGRILNLRPTTQTMDDIAFLQYTGGTTGLSKGAVLTHRNVVAAML
+QAEGWFSPALADVPDLRKVNNVAALPLYHIFALTLCLLAIRQGSYLTLVPNPRDFAKFIE
+VLKQRPFHVLPGVNTLFNALMQHPMFKTIDFSSLKLTQAGGMAASEGTAHNWQKATGSAM
+IEGWGMSETCAIGTNNPVTQKTFSGNIGLPLPSIDIAIKDDDGNSLPVGSSGEICIRGPN
+VMTGYYNQPAENAKTFTEDGFMRTGDIGIMDEGGFTRIVDRKKDMIIVSGFNVFPSELEN
+LISTCPGVVECAAVGIPDAMQGETIKVFVVRNDPMLTEEAVSRFCQDKLTGYKRPKYIEF
+RDELPKSNVGKILRRDLRSAK
+>tr|A0A0P0M7L1|A0A0P0M7L1_9BURK
+MDRRSVIKNTGLAGVLAAGAAPALVQAQANLRWRLTSGFPKALDTIYGAAETFSKKVKEL
+TGGKFEISVHAAGELVPMPGIVDAVKNGTVEMAHTAPYYYFGKDETFALGCAIPFGLNSR
+QMSAWMYDGNGLKLMREFYKQYDIMSFPMGNTGAQMGGWFRKEIKTVNDYKGLKFRVGGF
+AGKVIERLGGVPQNIPGGEIYQALEKGTIDAAEWVGPYDDQKLGFFKVAPFYHYPGWWEG
+GPQLDLYINQKAYDSLSSEYKAIVECAAAYAHTEMQAKYDARNPGALKQLVANKTKLVAF
+PKPVMDAAFKESMALYSELSAKNPNWKKIYDDYSKFRAESNLWFRFTEARFDSFMQGAKL
+>tr|A0A0P0MB10|A0A0P0MB10_9BURK
+MKYLIWLLVIVLAIWAFKRSRRVNTVTPEDKPPASPATPAHMAACLHCGIHLPQDEAVTG
+EKGLYCSTEHRAAAHDRNPV
+>tr|A0A0P0M825|A0A0P0M825_9BURK
+MRTRRSALHALASAAAVSTLPSIALAQGLGDFPSKPIRYIVPFAAGGQTDIMARLIGQHA
+GIEFKQAITVDNRAGASGNLGADLAAKSAPDGYTWLAITLAHAVNQSLFNNLPYSLEKNL
+TAVAHLASSPLVLVVNQSSPSKTLTEFLAQARAKRLNGGSSGNGTPPHLGLELLALNAKL
+EVTHIPYKGGAPSLNDLMGGQIDFIVSNLPEASVHVKAGKLRALAITSAVRHPLLPDVPT
+FNESGLPGVELENWTGLMMPAGTPPAIVEKVASSAIRALKLKEVSERVAALGFASTGLGP
+AAFSDLLKKDVARWREIVKTRNIQPD
+>tr|A0A0P0LMG1|A0A0P0LMG1_9BURK
+MFDRHAQTLLRPALNAAARGLVRAGISADALTWLGFAIGMAAAVAIALQAWWWGLGLLLA
+SRLLDGLDGSVARLTQPTDAGGFLDIALDFVFYAAIPLAFAVANPSANALPAAALLASFI
+GTGSSFLAFAALAEKRGLTDTALPGKSFYFLGGLTEATETITVFAAMCIWPEHFAVLAYG
+FAGLCAVTTGMRVGWGYWRLG
+>tr|A0A0P0MBN8|A0A0P0MBN8_9BURK
+MAVSKRAVHVVGVGMIPFTKPGASESYNLMGARAAKLALDDAGVPYDAVQQAYVGYVYGD
+STAGQAAIYGVGLTGIPVFNLNNNCSTGSSALYLARQAVESGMVECAIALGFEQMVPGAL
+KGAYDDRPSPMTRFAEAMTAHQGFDAAAPRAAQFFGGAGLDYMKEYGIRADTFGRISVKA
+RQHAARNPLAVFRQTLTLEEVMASPTVFGPLTRYQCCPPTCGAAAAIVCSADFAKKHKLD
+ASVVIAAQAMTTDTPSTFESDDMRRVVGYDMTANAAKQVYEAAGIGPEDLDVVELHDCFT
+ANELITYEGLGLTPEGTAEKFIVDGDNTYGGRIVTNPSGGLLSKGHPLGATGLAQCYELV
+SQLRGQADQRQVEGARLALQHNLGLGGACVVTLYQKV
+>tr|A0A0P0M8T2|A0A0P0M8T2_9BURK
+MGLGLVASAMAQPVVDHLPGADGLALKVWVFHPVQRSPDTQRPVVVALHGCGGMYATVGS
+RKGQLSARHQGMTDLLLAQGYSVVWPDSLTPRQETSLCEQSMASRQVRQSHRRSDVHTTL
+AWLGQQAWTDQQRVALLGWSHGGSAVLASSDSRQKPPQPSVTPDIALAFYPGCSDALRRA
+YQATWPVHLLLAGADDWTPAAPCVALAQKAGMSFKLYPDSHHGFDNPVGQVKHLPRVPNG
+QHPGMGVHAGRNPVTGPQAWQDVLELLKKRWPDPVAH
+>tr|A0A0P0LPL8|A0A0P0LPL8_9BURK
+MSKTVVYDVQVVFGDCDPAGIVFFPNFSKWMDASSLNFFMKCGIPPWRELVKTRGIIGTP
+LLEINTKFIRPATYGETIQVHTSVQEWRDKVFVHKHVVMRGETVLCEGTEVRAFCIKHPD
+DSDRIKAIPVPEDIKALCS
+>tr|A0A0P0LM61|A0A0P0LM61_9BURK
+MIIPSKSSPSLLQFDVTDQVATITFDSPSKRNALEPAMRDELAVALQHIQHDKSIRAVVL
+TGAAGHFCSGGDLKNIATANLDNGGWLGRMQTLHDWVQLLLTLDRPVIAAVDGAAAGAGF
+SLALSADFVLATPRAWFNMSFLKVGLVPDVGALYTLPRVVGVQRAKEIMLSARDIDAQEA
+LRLGIVMELHEPDQLLPRAQAMARSFVGASPAAVALIKRSLNNALGGGLPDMLSSEAQAQ
+SLAAGTAEHREAVNRFLTKQPPLFAWPAQNKS
+>tr|A0A0P0LVV7|A0A0P0LVV7_9BURK
+MPALLRIHHAAIICSDYARAKHFYTQLLGLRVVAENFRAARQSWKLDLALPDGGQVEVFS
+FEGAPPRPSYPEARGLRHLAFAVNDVQAWVTHLQAQGIAVEDVRTDEYTGQRFVFLADPD
+GLPLELYEVPAQSTSPST
+>tr|A0A0P0M7L5|A0A0P0M7L5_9BURK
+MASVNSGFEPKDVMTSPTPITVSVDCMGGDHGPRVTLAACRRFLSSHPDARLILAGRAEA
+LAGFSDPRAQVVVAAEVVEMDDPLEVALRKKKDSSMRVAIEQVRDGHAQVAVSAGNTGAL
+MAIARYVLKTMDGIDRPAIAGQMPNFKGGGTTMLDLGANVDCTPEHLLQFAVMGSALVSV
+LQDKDQPSVGLLNIGEEAIKGNEIIKKAGELLRSAANSGDLNFHGNVEGNDIFKGTVDIV
+VCDGFVGNVALKASEGLATMVSGFLKAEFSRNIFTKTAALLAYPVLTAFKNRVDHRRYNG
+AALLGLRGLVFKSHGSADELAFENALNRAYDAARNQLLDRVRDRIAHAAPLLMGAQAERS
+EPAVTSV
+>tr|A0A0P0LJ30|A0A0P0LJ30_9BURK
+MMDNSSWMTMYPEIVLLVMACVVTLADLFVKSTKRTATYVLTLVSLGGVALLHAVYADAG
+QTLYGFGRMVVSDPMGHWLKCFATIAVMVTLVYSRPYAADRDMLRGGEIFSLSLFALLGM
+SMMISGQNFIVIYLGLELLTLSSYALVALRRDHTQASEAAMKYFVLGAMASGFLLYGMSM
+MYGATGSLELSAVLKAIASGQVNHQVLVFGLVFIVAGLAFKIGAVPFHMWIPDVYQGAPT
+AATLMIGGAPKLAAFAILVRLLVEGLLPLAFDWQQMLALLAIGSLLMGNLAAIAQTNLKR
+MLAYSTISQMGFVLLGFVAGVINGETTLAANAYSSAMFYMVSYVLTTLAAFGVIMLLARQ
+GFESEEITDLAGLNQRSPLYAGVMAICLFSMAGIPPMVGFYAKLSVLQSLVASGQGFYIG
+LAIFAVIMSLIGAFYYLRVVKVMYFDEPVTATTVSASLDVRLVLSTNGLLVLLLGIFPGA
+LMALCADSIVRMLAA
+>tr|A0A0P0MBS0|A0A0P0MBS0_9BURK
+MAADTLQRMNTATKSSDSAPYLPQIRLYQNWLRDERGLSFATYNDLWRWSVTELDAFWQS
+IWDYFDFQSPTPHTAVLANNVMPGAKWFPGAQTNYAHQVLRHVQPAHDAGFLAVISHNEK
+GLRREMTWPELRRQVAAMALHLQAQGVQPGDRVAAYLPNIPEAMVAFLATASVGGVWSIC
+APDMGTNAVLDRFKQIEPKVLIAVDGVSYGGRDFDRMGVVQELRDALPSVQHVIIHDNLG
+TLDLTNCDVGGSVQLSAITARDDAEVQAFEPMWLPFDHPLWIVYSSGTTGLPKPIVHGHG
+GTVIVALANKILHNDIGCSYHPNSWGERFHWYSSTGWVMWNAQVAGLLNGVTCVIYDGNP
+GGSKDNPDWGILWRMAAQEKVTFFGAGAAYFANCHKAGLDISRCGDLSLIRALGTTGSPL
+SADTQTWGVEQFKAIGTDIWWCNISGGTDFAGAFVGGHRELPQEPGVMQCRELGCAVEAW
+NEAGEPVLGEVGELVCTQPIPSMPLFFWGDKDNARYLASYFEMYPAGHGRKPGGGDGPAS
+MGGVWRHGDWLRIGNAQGEGEGCVIFGRSDATINRHGLRMGTSELYSAVEALPEVMDSMV
+VDLEYLGKESYMPLFVVLRPGTALDDVLKAKLNNAIKVALSPRFIPNEIFQVAEIPRTLS
+GKKQELPIKKLMLGQPLEKVVNKDAMANPGCLDWYVALAKQHLARVAKPGV
+>tr|A0A0P0M722|A0A0P0M722_9BURK
+MTTVTLNPGYLSSRTAIDWGFALLALLGTVFAFTRYQHAMDVYEQAILIGSLPAVIWLAW
+FWRPLRTLMLVVTGLSLLAIYLYQGDLARSEQVFLLKYFLSSQSAILWMSILFFISTVFY
+WAGVFIRGQGDAMESLGSRMAWVAVGLALIGTLVRWYESHQLGPDIGHIPVSNLYEVFVM
+FCWMTTAFYLYYEAQYKTRALGAFVMLVVSAAVGFLLWYTLVREAHEIQPLVPALKSWWM
+KVHVPANFIGYGTFALAAMVAFAYLIKQQATETRWYKLAPLWLLGIVLCFEPVVFRQSAN
+DQTSSYWMVYFGISAFIVAGILLGRRRIAERLPSFEILDDVMYKAIAVGFAFFTIATVLG
+ALWAAEAWGGYWSWDPKETWALIVWLNYAAWLHMRLMKGLRGTVAAWWALVGLGITTFAF
+LGVNMFLSGLHSYGTL
+>tr|A0A0N7J8Y7|A0A0N7J8Y7_9BURK
+METELKLSLNEADLPRLQTHPLMAKGAGKQRLLNTYFDTPDLALKQRRMAVRERLAGDQW
+LLTVKTAGQSQNGLSRRQEWEAPTTPGTLDFESLVDDAALATDLMALRPALRALFCTDFE
+RQCWVIEHASARIEVALDQGRIHVPGTALSEPLLELELELLSGPEAALLALADVLRQTPQ
+GDLTLTPSDTSKAQRGMALWRRAH
+>tr|A0A0P0M6V4|A0A0P0M6V4_9BURK
+MPCDVVDVFGFALHLAQSGKKHDQTKPLKGFGGASVLEVVEDHMGDTFRAVYTVKIAERV
+YVLHCFQKKSNKGIETPKQDMDLIRERLKAAQAHAKGA
+>tr|A0A0P0LBY0|A0A0P0LBY0_9BURK
+MNQVSPPPSTVAKPKSPLILDHDRAGGYWGAVYVFTAIKGLQVVIDGPVGCENLPVTSVL
+HYTDALPPHELPIVVTGLAEEQLGREGTEGAMKRAHATLDPELPAVVVTGSIAEMIGGGV
+TPEGTNIARFLPRTIDEDQWQCANRAMYWLWSEYGLRKVPARKPFEERPVGEKPRVNIIG
+PCYGTFNSPSDLAEIRRLVQGIGADVNMVFPLTSHLADVSRLVEADVNICMYREFGRMLC
+EALERPYLQAPIGLHSTTNFLRKLGELLHLDPEPFIEREKHTTLKPMWDLWRSVTQDFFA
+TASFAVVAGETYSRGLKNFLENEMGLPCRFSVSRTAGNKTDNAAVRELVKTQTPLIMFGS
+YNERMYLSEISGGSPMRAAFIPASFPGAIIRRHTGTPFMGYSGASYLIQEVCNALFDALF
+HILPLGTEMDKAPATHARGVVAPNASWQDQAQQRLRDVVQSQPVLVQISAAKRLRDQAEQ
+LSQAQGHSEVTEAHVNAASRELGLGIAA
+>tr|A0A0P0LFG6|A0A0P0LFG6_9BURK
+MAKEELIELMGVVNEVLPDTRFRVTLDNGHQLIAYSAGKMRKNHIRILAGDRVTLELSPY
+DLSKGRISFRHLAGRAPMAPRRPPAR
+>tr|A0A0P0M995|A0A0P0M995_9BURK
+MSVITPQLLTRFDVPGPRYTSYPTADRFVEAFGEDDYVQALTQRQSGSVGKQPPLSLYVH
+IPFCESLCYYCACNKIITKHKERAADYLRYLRKEVELHTRHLGRGQSVSQLHLGGGTPTF
+MSDE
+>tr|A0A0P0LDJ9|A0A0P0LDJ9_9BURK
+MQPHHLELLAPARTFDIGIEAINHGADAVYIGGPSFGARSTADNSVQDIAKLVHYAHRFH
+SRIFVTLNTILRDDELEGARKLAWQLYDAGVDALIIQDMGLLEIDMPPIQLHASTQTDIR
+TPEKAKFLQDSGLSQIVLARELTLPQISAIRDVIDTERTVIEFFVHGALCVAYSGQCFIS
+HAHTGRSANRGDCSQACRLPYEVKDAQGRIVAHDKHVLSMKDNNQSENLRDLVDAGIRSF
+KIEGRYKDMAYVKNITAHYRKLFDEVLTERPELAASSHGRTTFSFEPDPNQNFNREFTDY
+FVQGRKEDIGAFDTPKNPGQTIGWVSKVTPEHVEITTDDPATELHNGDGLCYYDLQKELV
+GLQINRAEATKAKGVWKLFPKDPMDGFKDLRKGVQVNRNRDMSWVRTLDKKSAERRMGVW
+MQLVENDKGLQLTLTDEAGHTGSAQMAIAWQEPKDAGQAEDKLKTALGKLGDTLFEPLDV
+QVALPRPWFVPPSQLNALRRDAVQALETARAEGLHRLPRAVPVEPPVPYPEDTLTYLANV
+FNQKARDFYAKHGVKVIAAAYEAQEELGEVSLMITKHCVRFSLSLCPKQAKGVTGVQGTV
+KAEPMQLINGKEKLTLRFDCKPCEMHVVGKIKKSVLNAVPESPVQFYKSRPIVGLH
+>tr|A0A0P0LV01|A0A0P0LV01_9BURK
+MRTTLDIADDVLFAAKEIAQREKKSIGQVMSDLARKAFAVGAYQPPADQTVPHVSERLAL
+YGIQPLPSRGAVISNELIERLRDAEGV
+>tr|A0A0P0MCC4|A0A0P0MCC4_9BURK
+MNAPTFLTWSENNTTRTALWRSDQALPKHVVLTDDTMTADTAYRLACAGTGLLWRSDFQN
+ARQMLQALTRRIDKPKKVRAKKSSSDAPVIPGATFHAHRQAQAQRTRILSQVLIELNGDY
+GIDLRRAPNAKAACLQAFGPANDAPSVISLRSLQGVIGAFEWRKNGVEVTAMGEALRIYP
+HYGVFSPVRGEYVDLVVKTPLPEALKSHPIAFDIGVGTGVLSAVLARRGAKHVVATDMSE
+RALTCARDNLQRLGLQNQIELLHTDLFPPGQAALIVCNPPWLPARATSLLEQAVYDEGSQ
+MLRGFLDGLTAHLSEGGEGWLILSDLAEHLGLRSRQLLQAWIAEAGLQVLGRMDTKPVHS
+KINDETDALHAARAAEVTSLWRLGVLADRTAP
+>tr|A0A0P0MB67|A0A0P0MB67_9BURK
+MNDIRRTILWVIFGFSMVLLWDQWQLYNGHKATFFPKPEVAASAKTPAASAASANAVPTA
+TAAPAAVTATPGQVPTSVPAAPAAPREKIEVVTDVLKLSFDTEGGTLVRTEFTQHADFVD
+STKPFVFLDQSSSRVYVAQTGLIGGDFPTHKSPMKFSGERSLKDGQNELTLRFESDVING
+VKLVKTYTLKRGSYAIGVTHEVVNTGTTNVSPQLYLQLVRDGNKPEGESAFYSTFTGPAI
+YTEAKKYQKVEFSDIEKNKAEIDKSSPNGYVAMVQHYFATAWLLADGIQRENFVRKVDTN
+LYAVGMITPVADVAPGQSKSVSTQLFSGPQEEKVLEALAPGLDLVKDYGWLAMLSKPLYW
+LLDKLFSFIQNWGWSIVALVLLLKIAFYWLNAKAYSSMAKMKAINPKIMEMRERLKNDPQ
+KMQQEMMRIYREEKVNPMGGCFPIMVQIPVFIALYWVLLSSVEMRNAPWVLWIQDLSAPD
+PYYILPLVMTLTTLLQTALNPAPPDPMQAKLMWFMPLIFSVMFFFFPAGLVLYWITNNIL
+SIAQQWVINTRMGVPPQFNLPKFK
+>tr|A0A0P0M7F8|A0A0P0M7F8_9BURK
+MVTDLKHMLSLDAAHQLGEQLAAAGATVHRGQWQKAMGADFEALGLMDRGRRLAQVMAQF
+LPPDFAQAAPVLVSALGRPMGLDKHGEPTASDDVPSSFFYLPHSMYIATHGLQHLPEALH
+TQHALTQRFTAEFSLRPFLQQHTQATLAHLALWAQDDNAHVRRAVSEATRPRLPWAARLP
+DFVRDPSPVLPLLARLRDDPSSYVRRSVANHLNDIGKDHPELLTGLARQWLDDAPVPATR
+QSLLRHALRTAIKRGDAQALALFGHGQVSPLQIQSASISPSNARIGESVTVRCQLHNHSA
+QTARALADWRVFYVKANGTLSPKVFKGSTVQVEAHSSVVIEKTLSLRQMSTRTHHPGRHT
+VEIALNGHSHPVGRFDLQP
+>tr|A0A0P0M7W7|A0A0P0M7W7_9BURK
+MTAPRMDVAIFSYNRGAYLKNCVESLQRNLPGVHFTVYDDGSDEPDTVAYLQSLGGHVRH
+MKSGGDERHGGYYNNMQAALDATQADYLLMLQDDLQVVRPFAQEELSRIHEVFEQSPTTV
+FISPLFMKGSKRAYFQQRYQADTALRCYRWSADPQETGKVPQKYADIAVLHVARLRQSGW
+QFAGSEEANGVLADQLFGDMVQVAEPWVFYVPEEPAYRGRVLTFGAKLAVKMAGNQVKSF
+RDMTAQASTAFAQRDLRVYPFAEDFVDTVDPTVRKPYKFNAYRTRWLPLILNKLELLGRR
+LWSH
+>tr|A0A0P0M9K2|A0A0P0M9K2_9BURK
+MFSLFKGVESPEALKKKAKQTFDKVTALTADTFEANSLRRGLALLSCAHLDKTFIAGAER
+TADWQQMAAFAVAKDAEAPPVPKADCYQKVRSGKSDIWVYLPTEYAERAFLFGAKYQRTE
+LNSEQAIASMQQLADTICRSEIGLNYEIEVLKFLRHELSAVERNADVQEDLSGMPSD
+>tr|A0A0P0LET6|A0A0P0LET6_9BURK
+MKRVFDLLASALGLLILSVPLTVLAWQVRRKLGSPVLFTQVRPGLHGKPFCMVKFRTMTD
+ARDASGGLLPDAQRLTPFGRFLRASSLDELPELWNVLRGEMSLVGPRPLLMEYLPLYSPA
+QARRHEVRPGITGWAQVNGRNAISWADKFALDVWYVDNRSLWLDVRILWLTVRKVLVRDG
+ISAPGDATMPKFEGINENK
+>tr|A0A0P0LUE4|A0A0P0LUE4_9BURK
+MTGWQTLLYKEVLRFWKVAFQTVGAPVLTSVLYMLIFGHVLEDHVKVYDSVAYTSFLLPG
+LMMMGVLQNAFANSSSSLVQSKIMGSLVFLLLTPLSHRSWFVAYVGSSVVRGLAVGLGVF
+VITGWMVNITFVNPFWILAFAVMGAALMGSLGVIAGLWAEKFDQMAAFQNFIIMPMTFLS
+GVFYSIQSLPPFWQKLSHLNPFFYMIDGFRYGFFGQSDVSPWISLAVVGTALAAISALTL
+HLLRIGYKIRS
+>tr|A0A0P0M9B7|A0A0P0M9B7_9BURK
+MFVHLRLHTEFSVVDATCRIDDVVKIAAKDAQPALAITDLSNLFGTVKFYKEGRGKGVKP
+IIGAEIHLEGLGGDVGVTSRVVLLVQNHTGYLNLCELLARAWTQNIVKGVAVVKLAWLKE
+LSDGLILLSGAQAGPVGQAIVQGDTDKAADVALQLGSIFPHRFYLELQRAGRPEDEPQVA
+GAVALAARLGLPVVATHPVQFHSPEDYEAHEARVCVSEGEILANPRRVRRFTREQYFKSA
+AQMSALFADVPSAIANTLEIAKRCNLTLVLGKPQLPNFPIPPVAGVVMSVDEYFRHVSHE
+GLKERLVHLYPDAAKREAERQRYVDRLEFELNTILKMGFPGYFLIVGDFIQWAKNNGCPV
+GPGRGSGAGSLVAYALKITDLDPLQYNLLFERFLNPERVSMPDFDIDFCQTNRDRVIEYV
+KQKYGREAVSQIVTFGTMAARAAIRDVGRVLDMSYTFCDGISKLIPNKPGMSVTLQYPPA
+TPKEGDKNNYAIAMEPILAERIEREEDVKTLIELAQKLEGMTRNVGMHAGGVLIAPGKLT
+DFCPLYQQPGSESAVSQYDKDDVEAAGLVKFDFLGLATLTILEIAREFIIKRHKGQENFA
+FENIPLDDAPTYKLFSDGKTEAVFQFESRGMQGMLRDARPSRLEDLIALNALYRPGPMDL
+IPSFVARKHGREPVEYPHPAVAQMLSETYGIMVYQEQVMQTAQILGGYSLGGADLLRRAM
+GKKKAEEMAEHREKFRAGALATHNIPQDKADEVFDLMEKFAGYGFNKSHAAAYSLLAYHT
+GWLKVHYTAEFFCANMTVEMDDTDKLKVLHEDALKFGIRFDPPDVNRGTHRFEPVTDKII
+RYGLGAIKGTGQQAIDAIVAAREQGGPFTSLFDFAVRVDRTRINKRTVDALIKAGAFDSL
+HMNRAALSASIDRAFEFSAATTANVNQGGLFDMLGDDSHGSSTQEPELVEVMPWGIKERL
+LLEKTAVGFFLSGHLFDAVEREVRQFARRKIDDLIDSRESMVLAGIVSDLRIINGQRGKV
+AIFKLDDKSGMLEATADEALINSAKHLLKDDELIIVTAKMQADRFSGGFRLKIEQIMDLA
+AARCRFGKYLRVAVNGRAPDIARIVKEFPAQREQTEHGDLVRGLPVRLVLERSKDQLAAR
+AELALGDTAKFFPTDAALASWMAQADQGLAQIVYD
+>tr|A0A0P0LDY8|A0A0P0LDY8_9BURK
+MNFPDFRAQILPSAMKALACAMLSLPAWAVDPFTVRDIRVEGLQRIEPGTVFASLPVRVG
+DRYTDDKGAAAIRALFALGLFKDVRLETQGDVLVVVVQERPSVASVEFIGLKEFDKDVLV
+KALKDVGLSEGRPFDKALADKAEQELKRQYISRSLYGAEVVSTATPVDRNRVNLTFTITE
+GGPAKIAQIDIVGNQAFSDETLRDQFNLDTGGWMSWYTKSDRYSRTKLNADLEALRSYYL
+SQGFLEFRIDSTQVAMSPNKQDMAITINITEGERFVISGVKLEGDYLNREDEFKALVKIA
+VGKPYNAETVTETTKAFTEYFGKFGFAFARVEAKPQIDRSNNRVQFVLQAEPSRRAYVRR
+IQVAGNDRTRDEVIRREFRQFEAAWYDGDKIRLSRDRVDRLGFFTQVNVETQEVPGAPDQ
+VDLLFTVTEKPTGSISLGAGFSSAEKVAVSFGIRQENAFGSGNYLAVEVNTSKFNRNLVL
+STTDPYFTKNGISRTVDLFQRTTRPYLGDVNAYQLINSGAGLRFGVPVTERDTVFVGGNV
+EQTEIREGTGLPDAYRAYGERFGTTSTALPLTLGWARDGRDSALVPTRGSFQRVNADMSV
+AGDVRYVRASYQFQQYVPLSKKYTLAFNTDLGWGQGLKGQPYPLFKNFYVGGLGSVRGFE
+QSTLGPSEPNSSTNTALIYLGGPKKLVFNAELLMPFPGAGNDRTLRLFGFTDVGSAFGEN
+QQVSADALRASAGVGLSWISPMGPLRFSYAMPIRQQTGDKIQRLQFQIGTSF
+>tr|A0A0P0MB12|A0A0P0MB12_9BURK
+MNAKTAAPESWYPNAADRTGQTDDERIKDITVLPPPEHLIRFFPIAGTATETLISQTRQS
+IAKIVHGQDDRLLVIIGPCSIHDPAAALDYARRLKPLRDKYADTLEIVMRVYFEKPRTTV
+GWKGLINDPYLDESYRIDEGLRIARQLLIEINRQGLPAGSEFLDVISPQYIGDLISWGAI
+GARTTESQVHRELASGLSAPIGFKNGTDGNIKIATDAIQAAARGHHFLSVHKNGQVAIVQ
+TQGNQDCHVILRGGKAPNYDAESVAAACKELEAAKLPATLMVDCSHANSSKKHERQIDVA
+KDIAAQISGGSRQVFGVMVESHLKDGAQKFTPGQHDVANLTYGQSITDACIGWDDSEGVL
+QVLSDAVKARRSR
+>tr|A0A0P0M6Y4|A0A0P0M6Y4_9BURK
+MSDWNQLLPSSHTDTFARDRLPPQDQLPVFIADRPELDYPNQINCAVELVDRHVQSGRGD
+RIALHGVSDFNKGGGDFSWTYAQLQDKSNRIAQVLTQDMGLVPGNRILLRGGNSPMMAAC
+LLGALKAGLVAVPTMPLLRAGELAQIIDKAQVSAALCDSLLADELQHCMTPGHASHMASL
+QQLVQFRSDAPDGLEQRMAQQSGAYTPHATSRDDVCLIAFTSGTTGKPKGTMHFHRDVLA
+MCDLFPRHILQMNENDVVCGTPPIAFTFGLGGLLAFPLRCGASTVLLEKHTPETLMQTIA
+KYRATQCYTAPTMYRQMATLAKGIDLSSLKHPVSAGEALPDATRQLWKQATGIEMTDGIG
+GTEVIHIYISSAGAQVRPGSIGLVVPGYVAQIVGDDMQPVPPGTVGRLAVRGPTGCKYLA
+DPRQQDYVKDGWNLPGDTFVMDADGYFSYQARNDDMIISAGYNIAGPEVEGALLQHPAVA
+ECGVVGMPDEDRGHIVQAYVVLKPGHTGDAATEKALQEHVKQTIAPFKYPRKVVFLDALP
+RTETGKLQRFKLRQISS
+>tr|A0A0P0LAR2|A0A0P0LAR2_9BURK
+MKFSAPAFVRTTLGAIALTLGASAMAQSVVRFQDYPGTGNLMVRVAIEQGFCQQAGIRCE
+LRTIPAAPLGLQTMLSGDIEVFFGPTEVAAAAVARKVPISIIGAGFTDPIFFMAAGTNTE
+LATEKEGYPGVVKSFKGKKIGVTQRGSGAEFQVIDMLADVGLTANDVTFVAVGAPDTAFP
+ALTRGQVDLIMTFSPTDGMCEVLKACRVVVDPRKGQGPKSLLATRGGAGTMAVKADWAAA
+NPQTVAAIRRMLELSEAFMANPANFGRTLEVLRKTFALQLPNADQIAEVALRNTISNFKA
+RGTVPAMQAVANAMTENKLLPGRVEMAPAVLP
+>tr|A0A0P0M731|A0A0P0M731_9BURK
+MLRWFLFFSRWPLWALHALGSLGGWAAWLFSGRYRRRFLDNARQAGLGWWAVMGAIGQAG
+RMSAELPRLWLGRTPPLVWADDRAAAEAYAQGRGVLFLTPHMGCFEITAQALALRFGQQH
+GQLTVLYRPARQVALNEVMALARNRPGLQAVPTTLAGVRQMIKALRAGEAVGLLPDQVPP
+EGMGQWAPYFGKPAYTMTLAARLALQTGAQVVLIWGERLPWGRGYRLHTQTLGRELSPDL
+ETAVVQINQAMEVLVQACPQQYLWGYARYKAPRKDT
+>tr|A0A0P0MBB7|A0A0P0MBB7_9BURK
+MYEWFKFLHLAAAIVWLGGMALVILALRPVVITQMAPPERLALMAAVLSRFFSMVWISIA
+LILTSGFWMLSMADMTLAPKGWHAMSGLGLLMCLIFAHIWFAPFRRLKAAVANTDWPAAG
+KALGQIHPLVLTNFALGWLAVLAVIVWR
+>tr|A0A0P0MBI2|A0A0P0MBI2_9BURK
+MKDTHSPADVPGIRVFSIQSSQVQAWPSPSDTALPEAMPEQGFVWLAFSRSHFEQHLPAI
+QASLQLLTGQSLVDLHVSDLLNGQLPSRYDFTSHYDLLVFRRLAQQTGTTPRHNETKAAH
+ASGKRPGPPILRRIDTSPVGFAVFERVLLSVHPDDCAVREAYASRLLNATGDKTLAHDPR
+SAGARGIPLSPADMMLRIVSQMVDAYLDLRRELSRQLDHWQAELLHPQARFRRWDALLQA
+RLALHQLEDLCDDQHTAMLGWNETLDDWVVSEDPTALREHELLKVRCRDVLEHIDRVVHH
+VRRLEHNTETAVQMHFNAQGNRTNDIMRTLTALTAIFLPLNLIAAVFGMNFEFMPWLHQA
+SAFWWTLGGMAAVAATLGLVFWRKRYLARTGD
+>tr|A0A0P0LFN7|A0A0P0LFN7_9BURK
+MRHMSNEQAAIRVINACKSFRKDRPALQAIDLRINKGECVGLLGASGSGKSTLLRSLCGL
+ERLDGADSEIQLWGQSLQKSGKLSKDVRQLRTHIGIIFQQFNLVGRMDVLTNVMTGLLPH
+IPLHRSLLGWFTPEEKFKALKALHSVGLSEQAMQRASTLSGGQQQRAAIARALVQGARIL
+LADEPVASLDPESTRRVMDLLRQLQREQGMTLVISLHNVNLARQYCDRIIALREGRLVYD
+GPPMGLDNQRLRELYGTHSDELFMDHPPETPEPLFNPTLQLLAH
+>tr|A0A0P0LK67|A0A0P0LK67_9BURK
+MLLTKKTSSTSGAASSAFVHSLRRGLSQALPTMDRRSFLRRSGLGVGVGLAASQLTLVQK
+AHAGKGTSIVGAGKVEVKRTVCTHCSVGCAVDAVVENGVWVRQEPVFDSPINLGAHCAKG
+AALREHGHGEYRLRYPMKLVNGKYERISWDTALNEISAKMLELRKASGPDSIYVVGSSKS
+NNEQAYLLRKFMSFWGSNNCDHQARICHSTTVAGVANTWGYGAMTNSYNDMQNSKVALYI
+GSNAAEAHPVSMLHMLHAKENGCKMIVVDPRFTRTAAKADEYVRIRSGTDIPFLFGLMYH
+IFKNGWEDKKYINDRVFGMDAIKAEVMAKWTPDKVEEACGVKEDQVFKIAKMLHENNPGT
+IVWCMGQTQHTIGNAIVRASCLLQLALGNVGKTGGGTNIFRGHDNVQGATDVGPNPDSLP
+GYYGLAEGSWKHFANAWGVDFEWIKKQFASPAMMGKNGITVSRWIDGVLENNELIDQDSN
+LRGVFYWGHAPNSQTRGLDMKRAMDKLDLLVVVDPYPSATASMAAMPGKAEDLNPNRAVY
+LLPACTQFETSGSCTASNRSIQWREKVIEPLWESRSDHMIMYQLAQKLGFGAELVKNYKM
+QKVGGMDEPMPEDILREINKSVWTIGYTGQSPERLKAHMKNMHVFDVKTLKAKGGKDKET
+GYDFTGDYFGLPWPCYGTPELKHPGSPNLYDTSKHVMDGGGNFRANFGVERDGKSLLAED
+GSHSLGADITTGYPELDHILLKKLGWWDELTEAEKAKAEGKNWKTDSSGGMIRVFMKGHG
+CHPFGNAKARAVVWNFPDPIPQHREPLYGTRPDMMAKYPTHDDRKAFWRLPTLYKTVQDK
+NIADKLHEKFPLIMTSGRLVEYEGGGEETRSNPWLAELQQEMFVEINPKSAAERGIRNGE
+RAWVTSPTGARINVQAMVTERVAPDTVFLPFHFSGRWQGVDMLPHYPKGAAPIVRGEAVN
+TATTYGYDSVTMMQETKTTICNIEKA
+>tr|A0A0P0M8A3|A0A0P0M8A3_9BURK
+MKLSRILLACLVAAVGSSAYAAKFNLKMGHAVNATDGQHAAAMKLAELVKQRTNGDVEIT
+VFPANQLGNDAAMINGTRGGTIDIVSSGASNFNGIVPNTAAMELPFVFRSAQHAYNVLDG
+AVGTGVLNELSPHGLKGLAYWENGWRAFTNNKRPVNKPDDLKGLKIRSTPNPYHIQAFRL
+LGMNPSPMPIAELYTALETGTFDAQEHPINVTWSSKFYEVQKHLTVSNHVYSPLVVAMNK
+AKFDSLPANYQKVIVDSAREAATFQRSLNASNAGKVISELKKSGMQVIENVDMAPFQKIV
+SAEIAKTFGEKNGPALLKAIEDTK
+>tr|A0A0P0M9D5|A0A0P0M9D5_9BURK
+MSNPQVELHITGYGVITLELDAEKAPKSTENFLAYVNKGHYNNTIFHRVIPGFMVQGGGF
+EPGMGQKPTDATIENEANNGLKNDKYTVAMARTSAPHSATAQFFINVAKNDFLNHTAPSM
+QGWGYAVFGKVVKGSEVVDQIEGVKTGNRGGHGDVPKEDVVIEKAVAI
+>tr|A0A0P0M8M2|A0A0P0M8M2_9BURK
+MTLIDTLFPLGWQHYLLGGLTIGAGVALLYVFNGWVGGMSSVFSSSWSFVSKRAFFQQAR
+FVSTRNWRLVYALGVVLGALVWRFTLAGGEAQHTSVPAWQLLGGGFLVGYGARLGNGCTS
+GHGICGLGSLQLPSLGAVLTFMATAFMTANLMAIFTKGLA
+>tr|A0A0N7J857|A0A0N7J857_9BURK
+MSTHHQRLWAITSMAALFVLAGCTNLPPACPSAADLKPEQLHGVWTVKLDSAGTHWSLQL
+GPHPEHQGSLRGELTQGALRYPVVADLDGRDFTLEESHDGQRIAATWLGEMQVQHCDWSI
+TGERQMGDAKRPPQPFVIRSNRLR
+>tr|A0A0N7J993|A0A0N7J993_9BURK
+MRAPLQFVLDFFTGGDPVQPTTLPSSPPKVWVPPVTDAQSVAPPSTSGAVEGSQPQTDAS
+PCGFTHPAANRHAQLQGVMVSFRLERSRRKSIGFLVGADGLVVRAPGWVPLREVDAAVKE
+KAAWIVAKLQQFKERQTEQFQKAIEWRHGAEVPFLGRTVQLCVLERGVGRVHGQDLAPEQ
+VLPVTVPPGASVTQVRDAAQVWLKKQAKTLFEARLHHFAPLLGVRWQKLSLSSASTRWGS
+ARTDGHIRLNWRLIHLPISQIDYVVVHELAHLREMNHSPRFWETVGEVMPDYAERRKALR
+QAPVDLKED
+>tr|A0A0P0MAR0|A0A0P0MAR0_9BURK
+MTLHCTWCLPIRTFLRDTARGLFIVTHSGLAMVGLGAAAFVLAMWWHPQWLNQAEGALFD
+WLRERQVLLSWLPENTAERATAVNLEDLTAQQAAVAVWLGRKYKVAPEPLAALVAEAYVL
+GKKHKLAPHLILAVMAIESNFHPYVQSQAGAQGLMQVMTAVHAQRYEAYGGKLAAFDPIS
+NLRVGVSVLADATKLRGGSVQEGLKFYLGGYGLTEDGGYLAKVLAEQLLLDQVAAGVKVP
+IQ
+>tr|A0A0P0M7H4|A0A0P0M7H4_9BURK
+MRATSNEHFTLDRPTPVLEDKRLEKVRVRHWFFFIARKSIDGTVDHKNRLLWEEHFLGPE
+KNAAEVKLVKHLQQWLRDDSQLSKLREDQLRFGAGVASAKYEEGATSPNESTLALFETLI
+RGSRAEYEFGPLGEPLWVVLAGKVSACEEYVAQCFTDEEMLNTEFRDRVQSVMDALIAPA
+YRISISDIPDLGVQQKSAHPVWLSHVNEVTKLPNQEPSDDTLEVSTIDDQIILAIALWHI
+AAHRKEKAFLQLEWLLMGLCYGTIAHHFSEDIQAFVLEMLRDKGSKIPLPKQGRMLSFEE
+RWSITFWK
+>tr|A0A0P0MC07|A0A0P0MC07_9BURK
+MDWADVQEGDAGGMSALGHALMNTLASQLRRLWPGCLALTAICLAWVLAYDGKRIFQIGV
+LALPAVLCLCWPSRHAGWRALQVGFVGTMGLVFITDAAVRGFLLDVYEASPASAMVITAV
+ANTTPQEMTEFMAMNGPSVWLWGFFALVSLCFFIVSLARWWTTPSPPLKLAGWRLAAMLL
+VLTVVLVSFVNKPWRQHHPLLFWTHWVTEVSSLRDQWDNLGEQRQRLLANAQAQNPHITA
+GAPDTLLLVISESINRGHMSLYGYPRNTTPALMQLEQTEGDQLGVFAHAWSVDASTVQAL
+RNFFYFGHAEDQPQHLMALASKAGYETWWISNHDDLAIDQEHAKLADRVHMLNKTPGRSG
+VSLDEGTLPHLAAALKSQAARKLIVVHLLGTHPHYALRHPATRTPFNNVKDDIYQALKDQ
+GRSSRVRDLRNDYDSAIHYHDEVVAATLNMTRTLGNNASWVYFSDHGQEVGHVGNHVGHS
+AATADGYRVPLLVWGAGIANLPPATFSQPVRTDWLGHSVMHLLGIDWLGHLPEKNVLDTR
+YRWRAPPLPMVADFAS
+>tr|A0A0P0LM09|A0A0P0LM09_9BURK
+MTATSAATSANIPTSLKLPSTLKLQLEEDAKQMGMSLHAFMVSTLADAAQRKRLKQTLAQ
+DSAEALAVMKASGKGHALDDVRLYFSELKEHRQGKRAPPAPLKSKKMG
+>tr|A0A0P0M9E5|A0A0P0M9E5_9BURK
+MNFRKRTPSAEPEINLIPFIDVLLVVLIFLMLTTTWSRLTEINMTLPLADTQKQKDRPQQ
+IVLSVNAQGQYAVNQSRIEGTSVAALAAALGPLASKEVTLVISADAQATHQSVVNAMEAA
+RRTGLSQITFATQSPEPSGS
+>tr|A0A0P0LPH2|A0A0P0LPH2_9BURK
+MQASPSQASSRNSPFMTPSSPGAAQRSAPDLCEPCAGIQQHWRKAPGHAELVQGTHHRED
+RGNGQASFTRYRCDRCGAAWEYENNKANQHAGWALLAH
+>tr|A0A0P0M935|A0A0P0M935_9BURK
+MNLTSVSPQRWLLLIALSGIGMLVFGLYLQHVVGLNPCPMCIVQRYALIGVVLLALIGWR
+LQGWALAAAGLLMTLSAGFGAFTAARQSWLQWYPPEVVNCGRDFYGMVENFPLNRAIPMI
+FKGSGDCSKIDWTFLGGSIANWSFLCFVLFGLLGVWVTLRSRAAQAA
+>tr|A0A0P0M9X2|A0A0P0M9X2_9BURK
+MKTQIELASHGLDSNTLAHFTGTTKYYRISRKHLLTDGTKYLAEQGKCFWMMDAIASHLA
+EIGIADWFVLIKVQVNQARALMIYEDGNGTEHARQEIPYTDFPLNALTLYASWDGEHWVI
+MLPSEY
+>tr|A0A0P0M8J7|A0A0P0M8J7_9BURK
+MGVSLAACVSPSQVIPEVAPVSKVCPEGVPAGATCLRGQDSASAHYLIVMPAKWSGVLVV
+HAHGGPSYGPPKTSRNDEDIKRWAITVKEGHAWAGSVFRQGGFAVTTAAEDTERVRRIFV
+DHVAKPRTTLLHGQSWGAMVATRAGEMFPKSWDGILLTSGVVAGPTTYDFRLDIRALYQH
+LCNNHPLPTEPAYPLSIGLPTDSKLTSAELAKRANECLGTATPAAQRTPQQAQKLKTIVD
+VLKMPERSVLSHLNWGTFALQDVVSKNGGASPFGNAKVQYAGSSDDAQLNARIPRFQPDP
+KAAALFSADVDHHGRFSVPVISSHAINDSTVFVEGQAALRQKMVAAGTADRLVQTYVDSS
+EHSYWGDAHYPPLFNALLDWVVKGQKPTPEGIDQRCKQLNPTQAKDCRFLPNYAVKPIAS
+RIYPR
+>tr|A0A0P0MAK9|A0A0P0MAK9_9BURK
+MKNIYQLTRRTLGLAALSLAALTPNLQAQEKPPLKILVGFPPGGSADVLARMVADALRDD
+FGTIVVDNKPGAGGRIALNMTKTAKPDGQTVIILPSGPMVLFPHVYKKLDYDAVKDFTPI
+SQIARFQFGVVSGPASNVKSIAEMAAKAKSDPATASYGTPGAGTLPHFMGVLLEQSAGIN
+LNHIPFQGGAPANNALLGGHIGYKFDVVSETAELHRTGKVRIIAVTGAQRDAQVPEVPTL
+KESGVNMEATAWFAMYGPAGLPAEALSRLEKAMMKIARQPAMKEKMVKLGYEPIGSSSAE
+LAAAQKSDLTRWEKPIKATGVQLD
+>tr|A0A0P0M7L0|A0A0P0M7L0_9BURK
+MMAALERLGHEAAVRVSVQATQGSVPRGPGTHMLVFAHGEAGTIGGGHLEFQALAHARRL
+LAGELVPTHLRQVLGPSLGQCCGGVVELTMERVDTQDVARLRTLLMPPRTPLALFGGGHV
+GRAIVNTLAPLPFAVRWIDSRDEIFPDDVPVDVDCEHSNPVQAAVADLAPGSRVLIMSFS
+HAEDLDIVVACLKRLRAQDDLPFVGLIGSATKWATFRHRLEDRGFTAEEIARITCPIGVP
+GITGKEPEVIAVAVAAQLLQTL
+>tr|A0A0P0LCL6|A0A0P0LCL6_9BURK
+MSQAAHPHAVNVSRTIERLVTGQATSDGAGVKLSRILTQNLQHRLDPFLMLDAFGSDKPD
+DYIAGFPDHPHRGFETVTYMIAGRMLHRDSAGNEGLLQNGGVQWMTAGQGVIHSEIPQQA
+DGVMEGFQLWLNLHSSEKMNVPWYRDFQKDQLPQFQTSAGVAVTVIAGSSHGVQGAVSRE
+ITQPVFLDVHMPEGARFEQTLPVGHNAFVYVYRGEVSIAGQAVPLQRMAILANTAQADGV
+VIEASAEAKLILVAGQPLKEPIVQYGPFVMNTKEEIYQALQDFRDGRLGEKA
+>tr|A0A0P0LT49|A0A0P0LT49_9BURK
+MQTRFILIETSHAGNVGAAARALKVMGFDDLVLVKPRWPNVLRKEETIQRASGANDVLAK
+ARVVDTLEEALEGVTHLCATAMTPRDFGPPTRSPREHFAELTRPGAPAQCVAFLFGSERF
+GMKNEDVYRCHVALSIPTNPQFGSLNLGSAIQVIAYDWRVALGGFPVQDAVPPADKADAQ
+QVAGMLMHWEQALTDIGFLDPAAPKKLMPRLNQLFNRADLSPEEIHILRGVAKAMIQNAS
+AKR
+>tr|A0A0P0M767|A0A0P0M767_9BURK
+MKKMTQTLIGSVLATAGLLAATSAMAGKTLDQIKQRGQIVCGVNTGLAGFSAADSSGNWS
+GLDVDHCRALAAAVLSDATKVKYVPLTAQQRFTALQSGEVDVLSRNTTNTLNRDGSLGLH
+FIGANYYDGQGFMVPKGKITSAKQLKGATVCVQSGTTTEKNLTDFSRANKLNLKPVVFEK
+VEAATGAYFSGRCQAYTTDASGLASVRAKEAKDPAAHLILPDLISKEPLGPMVRRGDDEW
+FAINKWVLAGLIEAEEYGITQANVDQMKTSDNPQVGRLLGATEDLGKHLGLDKEWLARAI
+KTTGNYGEMFERNVGPKTSINLPRGLNNQWNKGGLMYAAPLR
+>tr|A0A0P0MAF1|A0A0P0MAF1_9BURK
+MNIKSQKDFFSGLFYLVAGGAFAIGATNYNVGTGARMGPGYFPLLLGILLAIIGAFVMFK
+SLTVETQDGEKIGKWAWKPLFFIIVGNLLFGILLGGLPSIGVPAMGLIVAIFGTTLVVSL
+AGDTYKLKEVLILSIILSIGSYGAFVKLLNLQFPVWPTFITG
+>tr|A0A0P0LBF6|A0A0P0LBF6_9BURK
+MNSAAHWMGLLTALGVGLLIGVVRERRHQPGRTKAGTRTHTLVAMLGYVSWSLGTWPFVA
+TVLVIGALMIGGYQATVRSDPGQTGEVALLVTLMLSALAQQNPSLSAALGVLAAALLHAK
+QASQRISLVLITDQELQDALILAAAALVVMPLLSDQAMDPWGVLQPITLWRIVVLVMAVG
+MLGHVAQRALGGRWGMPLAAFFSGFVSSTAVVVSTGQRVRAGQSDPLPAAACAMLANLAS
+LTLFAGVLGAASPTLLVAMRWPLVLAGLGLQLVVLLALRRIEGDGAETPTGRAFKLTHAL
+GMATIIALMSLLAALLQHVFGDVGVLLAALCVAWVEVHAAAASIAQLIHSGGMTPEWAHW
+ALVAVLASSAVAKTALAMASGGIRYDLTVGLGFVAMVVGGAVGVLWFI
+>tr|A0A0N7J8T3|A0A0N7J8T3_9BURK
+MSSKISLSRYLVEQQRDKGHIPADLRLLLEVVARACKSISHAVNKGALGGVLGSAESENV
+QGEVQKKLDIIANEVLLEANEWGGHLAAMASEEMDSIYLVPNRYPQGEYLLMFDPLDGSS
+NIDVNVSIGTIFSVLKKADDSQGVTEQDFLQPGKNQVAAGYCVYGPQTTLVLTVGDGVAM
+FTLDREQGSFVLTQENVQVPADTKEFAINMSNMRHWDEPVRRYIDECLQGKEGPRGKDFN
+MRWIASMVADVHRILTRGGVFMYPWDKREPHKAGKLRLLYEANPMSWLIEQAGGAATNGK
+ERILDMQPSQLHERVSVVLGSKNEVERVTQYHAQV
+>tr|A0A0P0LIK8|A0A0P0LIK8_9BURK
+MKQKERKRDVRCRTFFKIDRKKLERVKIES
+>tr|A0A0P0LAM3|A0A0P0LAM3_9BURK
+MCGLTGFWGSSADGPVIQSQLQRMTQQIQHRGPDSDGHWVDANAGIALGHRRLAIVDLSP
+AGAQPMQAVSGRWVMAFNGEIYNHLHLRAELERSSLAPVWRGHSDTETLLAGFDAWGIRA
+TIEKCVGMFAMAVWCRQTHSLTLVRDRLGEKPLYYGWQGQGSQAVFLFGSELKALSAHPA
+FTAEIDRQALGSYMQNMAVGGTHSIYKGIHKVPPGTILTVSSNKPDPVMERYWSVEQVAA
+QGVANRFTGSAAQAVDALEALLKDAVAQQMMADVPLGAFLSGGVDSSTIVALMQAQSSRP
+VKTFSIGFHEKEYNEAEHASVVAGHLGTDHTDLYVTAQQAMDVIPRLPSLYDEPFADSSQ
+IPTFLVSQMTGQHVKVALSGDAGDELFAGYNRYQLTASLWPKLSSMPQPMRKLAAWGLTR
+FSSNTLDRFASYTPLAKRWSGVGDKLHKGAGVMGAGSIADLYQSMVAMGWSKPSALVRGM
+DGDAISLNMPDLPGLRDVERMMAFDLLNYLPDDILTKVDRAAMGVSLETRVPFLDHRVVE
+FAWRLPMDYKMRRENGRSVTKWALRQVLYRHVPQALIERPKVGFGVPIEHWLRGPLRDWA
+EDLLSEARINRDGFLNPRPVRQRWKEHLSGKRNWQHSIWCVLMFNLWLDEQKRSVSAA
+>tr|A0A0P0MAJ7|A0A0P0MAJ7_9BURK
+MQPASLPPEFMLFTGNANPVLAAEIAKHLGTQLGAVDVGRFSDGEVTVELKQNVRAREVF
+VVQSTCAPTNENLMELLIMVDALKRASAGRISAVIPYFGYARQDRRPRSTRVPISAKVVA
+NMLQAVGVDSVLTMDLHADQIQGFFDIPVDNIYASPVLLGDLRQKNYEDLIVVSPDVGGV
+VRARALAKQLGCDLAIIDKRRPKANVSEVMHVIGEIEGRNCVIMDDMIDTAGTLVKAAEV
+LKERGAKKVYAYCTHPIFSGPAIDRIAKGEALDEVVVTNTIPLSAEAAACSKIRQLSVAP
+LIAETINRIAHGESVMSLFSDQA
+>tr|A0A0P0MBC0|A0A0P0MBC0_9BURK
+MNAPLHREMPGHLLDSARALNDVTQAWDSTIVPELKNYIEIPAKSPAFDADWAAHGHIES
+VLRRAAQWVEAQKVEGLTLEIIQLPGRTPIMFFEVAATRAASEGSGQTVLMYGHLDKQPE
+FNGWRNDLGPWTPVYEDGKLYGRGGADDGYAVYASIAAVQALKSQKTPHPRIVGLIETCE
+ESGSYDLLPYVDALRTRMGDVGLVICLDSGAGNYDQLWLTTSLRGMASGTLKVQILTEGI
+HSGDASGLVPSSFRIMRQVLDRLEDSTTGRLLPASFHCEVPAERLAQAQATAAILGDEVY
+KRFPWAHYDCGGSTTFALPTTTDPTQALLNRTWTPTLSVTGAEGFPALKDAGNVLRPYTA
+FKLSLRLPPLVDAAQAVAEMKALLEDNAPYQAKVTFESGGGATGWNAPDTLPWFEQALNS
+SSQAHFGAGVGYIGQGGTIPLMNMLSAGFPKAQMMVCGVLGPKSNAHGPNEFLHVPYAKK
+LTAAVAEVMARMP
+>tr|A0A0P0M9G3|A0A0P0M9G3_9BURK
+MALNPPLRLDAQALKDVAQAASPKSCQCPLGACTGWESVTEDRWPAPNLTVVGSLRALTA
+EGEPDQGGEPTFEEFHPQGTRYESPLAPIAPQFFPYNRCDVFSCSRCERVLLRYTEFGGY
+YVDHRVRALNADLVVDAPLPDAAA
+>tr|A0A0P0M9Y0|A0A0P0M9Y0_9BURK
+MQHNFIANQSIPALAGQTLDVIDPSDGQVFDQIPRSQAADIDQAVQAARAAFNGPWGRLT
+GVERGRLLMALSRKMAEHAGELAALEQRDCGKPTKQAAADAVALARYFEFYAGSCDKLHG
+ETLPYQNGYSVLTWREPHGVTGHVIPWNYPMQIFGRSVGGALAAGNACVVKPAEDACLSL
+IRVAQLAAEVGFPAGALNIVTGYGHEVGDALARHPGIDHISFTGSPRVGTLIQQVAAERH
+CPVTLELGGKSPQIIFDDADLDAAIPVVVNAIVQNSGQTCSAGSRVLIQQGIYEPLLARL
+GEAFGRLQVGSAAMNLDLGPLIRASQLERVTGFLDQARADGIATVAQGQIAAGVPAGGFY
+QAPVLLRDVPVMHRLAQEEVFGPVLSAMAFQDEDHAVELANATDFGLVAGIWTRDGGRQF
+RMAKRVRSGQVFINNYGAAGGVELPFGGVKSSGYGREKGLEALLGFTTLKTVAIAHG
+>tr|A0A0N7J8G3|A0A0N7J8G3_9BURK
+MNLDHPVLSSLLPVALLILMGFVAGRTRLVQGESVRDLSNLVFMVLTQAMLFRTMSQVHL
+DQLDFAPVVQYLAVTVLLFFILIFVYGRNARATVLALAGVFSNTLMIGVPLIGLAYGQPG
+QILLLTLVSVHALVLLTLATLILELQMAREQQSAFGHSTQLWRTAFQAIRSALLHPVPLP
+ILVGLLYAQTGWGLHPVVDKPLQLLGSAFVPIALLLVGITLSQTNMGFNLVKAIRLSLVK
+TVVHPLLMLVVGWSFGLRGLPLSVMVVVAALPMGANGFLFSQRYQKEEDTVTAAVAVSTG
+MAAVGISLALAWLPSVAI
+>tr|A0A0P0LND0|A0A0P0LND0_9BURK
+MPEAPQHKRPDRPFLSRAMLALSALGLGWLGGCSTPPSSKPSPGPTTSQVPGSPSQPAAT
+RPEALTQAVIPPATPAMGPVKSAARNARDYRKDAASHLYARHSQHIFKGRLPPMLEAVGV
+LNVDIDRHGSVKSVQWMRAPRHVPQVMQQIERMVKAAAPYPVPQHMSQVTYTDVWLWHQS
+GKFQLDTLTEGQD
+>tr|A0A0P0M9V6|A0A0P0M9V6_9BURK
+MMNLTPTLQDCELLDLQDPLRSLREQFDLPHGVIYLDGNSLGVLPKTAPARVAHAVTHEW
+GTDLIKSWNTSGWFTLPQRVGDKIARVIGAQPGEVIAADSTSINLFKVLAAALHIAKADH
+PHKTKIVSERSNFPTDLYIAEALCKERGYTLQLVEADEIAAALQADVAVLMLTHVNYRTG
+AMHNMQAVTAQAHAQGILTVWDLAHSAGAVPVDLNGSGADFAVGCGYKYLNGGPGAPAFV
+WVHPQHTDRFWQPLAGWWGHAAPFAFTPDYQPAQGITRYQCGTQPILSLTALDCGLDAFL
+AAEALGGMAALRQKSLALTGLFMQLVRTRLHGHGFGIATPTEEALRGSQVSLTRAEGAYA
+IVQALIARGVIGDFRAGDGGLHADILRFGFTPLYVGYADVWQAAEHLCQVMQSGEWQDAR
+FAQKNAVT
+>tr|A0A0P0LJ19|A0A0P0LJ19_9BURK
+MSDLLIQAQDLNTYYGASHILRGVNFSVGRSETIGLMGRNGMGKSTLLKTLMGIVPPRTG
+TVDIKGQRMNGRPTFEVAQLGIAYVPEGRGIFGNLSVVENLQMAARPGTQGQREWTYERV
+LETFPRLKERLGHGGQQLSGGEQQMLTIGRALMTNPDVLILDEATEGLAPLIARDIWRIC
+SLIKDSGISSIIVDKNWKHVTQITDRNIILVKGQVVFEGSSQILLNDPSVLEQHLGV
+>tr|A0A0P0LTA1|A0A0P0LTA1_9BURK
+MSALALNAEALYLELLRGVRSLCTANTRLVGITSGGAWLAERLQRDLGLAGESGQVSSVM
+HRDDFAQRGLSAGGQTSLPFEVDGAEILILDDVLYTGRTIRAVLNEIFDYGRPARVQLAV
+LVDRGGRQLPVQADYAAARVALPESQSLALARDAEGRFSFEVEIKAPLS
+>tr|A0A0N7J885|A0A0N7J885_9BURK
+MTRSAHPQRGAALLTAMLTVALVATLASAALWQQWRQVEIEIAERGRSQTAWMMTGALDW
+TRLILREDAISAQGAAADHLGEPWALAVQESKLSTFLSQDQQWREGDAEVFLSGQITDAQ
+SRMNVMNLVENGEISPQALARFAALFERLDLPLAELQTLAQQLQISLKASRTNPAPTNAG
+TGNPGPAALMPQQTAQLVWLGLSPATVAALQAHISVLPEATPVNLNTASAEVLSAVVPGL
+DLASARQAVSQRQRGHWASLSAAQEALGSSGRLLNAQQHSVQSRYFEVQGRMRIDNVVQQ
+ETALVRREGIQTRMLWRVRSPQLRLDAPLQ
+>tr|A0A0P0M8P4|A0A0P0M8P4_9BURK
+MNFEFQKLSLSHAMTASVDALVVLWPGHVLPDAKAVEPVSRLLAQAIAHGDFELKAGAVL
+SLYSQPGMATRHVVVSCSADNQPGQIRSAMQAAWGAVKASKIKRLGVHVVGDVSAQGLQM
+ALSTLADASYSYTTTLSKPKARTLKNVRISASHDSAELRQAVVHAQALVAGVELAKEWAN
+RPANHATPTHLAQAAKTIASGRNFKCEVLGPKEVAKLGMGAFMAVAQGAAEPLRFIVMRY
+NGGAASQAPVVLVGKGITFDTGGISIKPAPEMDEMKYDMGGAASVLGVFKALGELKPKIN
+VVGLIPATENMPDGLAVKPGDVVTSMSGQTIEILNTDAEGRLVLCDALTYAERFKPQAVI
+DIATLTGACVIALGAVRSGLFSSDDTLASQLQQAGEYSGDVCWRMPLDDDYAEGLKSRFA
+DVANVAGRAAGSVTAAKFLQRFTKSFAWAHLDIAGTAWRSGAAKGATGRPVALLLQYLLS
+NAQAPGVQKNAALPKVADQSVQKVKSKARAVKQS
+>tr|A0A0P0M9P7|A0A0P0M9P7_9BURK
+MNNPNALPAAKDCDPLALGWMQGSPPAADKIIRFEDGSGYRFPQLRWSFAHYRQLVPTVT
+VAKGFKPSTPLQMAQGLPSVGYTPMGGAGVCHWADMLEATYTDAILVMHKGQVLLEHFGG
+VMTPGREHIAMSVSKSFMGLLAACLVAEGALDETQRVDHYVPELTGSGFGDATVRQVMDM
+TTAIDYSENYADPQAEIWKHMCAGGVMPRPPGYSGPANFYDYLKTVRKLGEHGERFTYRT
+ANTDVLGWIVRRVSGQNTEHMLSERIWQPMGAELDAYYTVDPNGTAFAGGGLNTGLRDLA
+RFGELVRNHGRVGQTQVLPAAAVADTFAGADPARFAANGPATLAGWSYRNMWWVSHNAHG
+AIMARGVHGQNIYIDPKAEMVIARYASHPVAANIANDPHTLPAYHALALALLG
+>tr|A0A0P0LFS7|A0A0P0LFS7_9BURK
+MLFPFKSSFSRPLALLGLLGLALMQMGCAHPVVVEPSVSVHSRIGHVPVYTQVGVPDPVY
+YAPPRVIYAPPRVIYAPPPPPRVVYVPRIHVPRVHVPQGHPPAQIWGHGHDRGHRGQERR
+QLREEERERGGWRGQRDQREQWQRH
+>tr|A0A0P0M977|A0A0P0M977_9BURK
+MKKQMLSAAMVALLASPVLAQNLAVVNGKPVPSSRVKALQQQVEASGRPVTPEVMAQIKE
+ELIAREVFMQEARKRGLDASDDYKSQLELARQTILIRQLFADFQKKNPVTDADIKAEYDK
+FAKENGGKEYRARHILVETESDAKALIAEIKKGGSFEELAKKASKDPGSGANGGDLDWAA
+AGSYVPEFSDAMVKLAKGQMTDAPIKSQFGFHIIRVDDVREAQLPKLDEVKPQISQQLQQ
+QKLAKFQEDLRAKAKIQ
+>tr|A0A0N7J893|A0A0N7J893_9BURK
+MSDTSHPNTVSLPTDQELVLKVIPMPADCNASGDIFGGWVMAQVDLAGAVLPARRVRGRM
+VTVAVNEFIFKQAVKVGDILSFFSRIVRVGRTSVTVKVEVFAERFQLQGQYIKVTEANLT
+YVAVDAQGKPRPVPAE
+>tr|A0A0P0LNU0|A0A0P0LNU0_9BURK
+MVNEVVWACVFTALCWWLGTGVILWLDRLPARSFRFSLAGWTVLLALSFWGVAHSMQEVS
+VFNAYLAFGSVILMWGWHELAFLTGWITGPRKIPLVPGTTGWPRFVQSVQVMLYHELALL
+ANFAVLWWMQESRPSHVAICTFALLWCMRLSAKLNLFFGVPQNGAQYLPDHLKYLASYFR
+TTRGMSLWFVLSMGVAMGTWFWLVWLAQQGAVAITTGWVMLATLLGLAIVEHVIMIFPWP
+LERLWGWAMGQTTKPALTTPP
+>tr|A0A0P0MCA4|A0A0P0MCA4_9BURK
+MSLAELLELGSYAVTVFGLPYAVWVFWLEQRKERENEEEEAYQHLSDAYNDFLKVVLDHA
+DLQLRTTQALHDPTPEQRERMMTIFDMLIALFERAYLIAYRETMSATEQRRWNSWDDYMR
+EWCRRDDFRLALPLLLRGEDPDFVAYIRRIAEEETGEHLILADIHKHTHP
+>tr|A0A0P0M6W5|A0A0P0M6W5_9BURK
+MTLFRPATTLMVQYAHYHRDRRNIVTHLLGIPLIFLSIGVLLLSPSWVVAGQTVTLAWAL
+WALTSVWYLSRGDVLLGAATSFVNGVLIAAAHEVPPLAQALGLAVWQAGLGLFFIGWVIQ
+FIGHYFEGKKPAFVDDVVGLLVGPMFVVGEVLMWAGLLQRMHMDIERQAGPTR
+>tr|A0A0N7J860|A0A0N7J860_9BURK
+MHQAPPSHIKALSPDFETPHFKQALSRFATGVTVITTFAPGARKGDSASSSFVGITASSF
+NSVSLTPPLVLWSLGQGASSAPLFHAGTHYVVNVLAADQLDVCNRFAFGKGDRFADTAYK
+LGESGLPILDGALAWFECHNRSRHEEGDHVIFVGEVERCGFSDGSAPLVYQGGQFSTTTP
+LA
+>tr|A0A0P0M7R6|A0A0P0M7R6_9BURK
+MKQALPKNTPPLKSSASALDKNQKRDSERPLVEDIRLLGRILGDVIRVQEGPEAYELVEQ
+IRKLSVAFRRDADHEADKALKKLLKSLPGDRAVSVIRAFTYFSHLANLAEDRHHIRRRAI
+HERAGHTQEGSIDVALQRLRWAGITPRSISDMLATSFVSPVLTAHPTEVQRQSILDAERD
+IAHLLTERDAIKARAAAVNAAKDALSPKELAANEQQIRARVMQLWQTRLLRLTKLTVADE
+IENALSYYEATFLREIPKLYAEIEQALPGQPIASFLRMGQWIGGDRDGNPNVTAQTLEHA
+LTRQSDVALRHYLTEVHFLGSELSLSAMLVPFGPEMLALAERSPDTNEHRQDEPYRRALT
+GMYARLAATLKKLTGGDAARHAVAPQNPYATPEAFLADLRVIETSLRSHHAEALAAQRLH
+PLIRAVEVFGFHLATVDLRQSSDQHEEVVGELLTTARVEKNYRQLDEHAKQALLLGLLND
+ARPLRVPGADYSAHTVSELAIFDTAQRMLQSFGRQAIRHYIISHTETVSDLLEVLLLQKE
+VGLLRGTLDAQAHNDLIVVPLFETIEDLRNAAPIMRDFYALPGVAALVARSGGEQDIMLG
+YSDSNKDGGIFTSNWELYRAEIALVELFDKLKSSHGITLRMFHGRGGTVGRGGGPSYQAI
+LAQPPGTVRGQIRLTEQGEVIGSKYANPEIGRRNLETLVAATLEATLLQPTKPATRAFLD
+AAAELSEASMAAYRSLVYETPGFTDYFFGSTPLKELTQLNIGSRPASRKALQKIEDLRAI
+PWGFSWGQCRLTLPGWLGFGSAVAAFLDKPDAAERKAALALLQKMYRQWPFFRTLLSNMD
+MVLAKSDLALASRYAEMVEDARLRKKIFAAIEAEWHRTADAITQITGEKNRLASNPALDR
+SIRHRFPYIDPLHHLQVELIRRYRAGLADERVQRGIHISINGIAAGLRNTG
+>tr|A0A0P0MBK7|A0A0P0MBK7_9BURK
+MSTEHITLNADLSQRCIVHSPSLDWVDSPASGVSRRMLERDGGEVARATSIVRYAPGSAF
+ASHTHGGGEEILVLEGTLHDEHGVYGPGTYIKNPVGSSHAPSSPEGCTLFVKLRHLDPRD
+DERVVIDTRRSEWRQGMVEGLKVLPLNTFETQNTAMVRWAPQTFFNPHRHWGGEEILVVD
+GVFSDEHGDYPAGSWLRSPHMSQHQPFSREGCLILVKTGHLV
+>tr|A0A0P0MBU3|A0A0P0MBU3_9BURK
+MAMKFTATLFAAAALYASAASAQTGSLNAICSTDQSWCEMAAKEFTKATGITVNQTRKAT
+GEALAQLRAEAANPKTDIWWGGTGDPFLQAAEIGLLAPYRPDYLNDLHGWSVRQYAMSQN
+MVGGFYTSAIGFGWNTELLKKKKLPEPKCWADVIKPIYKGEVEISHPASSGTAYTILAGL
+VQLMGEDAAFEYMKALHKNVTQYTRSGTAQAPNVAKGEVAVGISFIFGFDGWRHNKYPVA
+TVAPCEGTSYEIGGIAMVKGARNAANAKRYYGWLMSPAGQSIGAKADSLQSPANKTFKAD
+PRIPSMDSVRLIKYDFEKYGKSAERRRLLERWNKEVGSLSK
+>tr|A0A0P0LFM1|A0A0P0LFM1_9BURK
+MMNRRGNLKALATAAAIVAGSLTFVNQAQAQAGNTIKVGVLHSLSGTMAISETVLKDTVL
+MAIDEINAKGGVLGKKLEPVIVDPASNWPLFAEKTKQLLGQDKVSVIFGCWTSVSRKSVL
+PVVEEMNGLLFYPVQYEGEELSKNVFYTGAAPNQQAIPAVDYLMSKDGGSAKRWVLLGTD
+YVYPRTTNKILRAYLKSKGVKDSDIDEKYTPFGHSDYQTIVADIKKFSAGGKTAVVSTIN
+GDSNVPFYKELGNAGLKAKDVPVVAFSVGEEELRGVDTKPLVGHLAAWNYFMSIKNPAND
+EFTKKWAAYAKAKNIAGHKDKPLTNDPMEATYIGINMWKQAVEKAKTTDTDKVIAAMAGQ
+TFKAPSGITSKMDEKNHHLHKSVFIGEIKADGQFNVVWKTPGPVKAKPWSPFIPGNDVKP
+DEPAKK
+>tr|A0A0P0M9J0|A0A0P0M9J0_9BURK
+MAEIKNYTLNFGPQHPAAHGVLRLVLELDGEVVQRADPHIGLLHRATEKLAEHKTYIQSL
+PYMDRLDYVSMMCNEHAYCLAIEKMLGLEVPMRAQYIRVMYSEITRILNHLMWLGSHGND
+CGSSTILIYTFREREDLFDMYEAVSGARMHAAYFRPGGVYRDLPDSMPQYKVSKVKNAKA
+IEQLNSNRKGSLLDFIDDFTQRFPKCVDEYETLLTDNRIWKQRTVGIGVVAPERALNLGM
+TGPMLRGSGFAWDLRKKQPYDAYDQVEFDVPVGKTGDSYDRYLVRVQEMRESNRIIQQCV
+KWLRANPGPVITDNHKIAPPSREGMKSNMEDLIHHFKLFTEGFRVPEGEAYAAVEHPKGE
+FGIYMVSDGANKPYRLKIRAPGFAHLATLDEMAKGHMLADAVAIIGTMDIVFGEIDR
+>tr|A0A0P0M9A7|A0A0P0M9A7_9BURK
+MAGYSDPGFDTLALHAGAAPDPSTGARAVPIHLTTSFVFESSDQAAALFNLERPGHVYSR
+ISNPTNAVLEQRISALEGGIGAITTSSGQAALHLAIATLMGAGSHIVASSALYGGSHNLL
+HYTLSRFGIRTTFVKPGDLDAWRAAVQPDTKLFFGETVGNPGMDVLDIEAVSAIAHEAGV
+PLLVDSTLTSPWLIKPFDHGADLVYHSATKFLSGHGTVVGGVVVDGGSFDWDQSGKFAEL
+SQAYEGFHNMVFSEESTVGAFLLRARREGLRDFGACMSPHTAWLILQGIETLPLRMARHM
+ENTAKVVEFLAAHPLVSRVGHPLLESHPSHALAQKLLPRGAGSVFSFDIKGSRAQGQKFI
+ETLKVFSHLANVGDCRSLVIHPASTTHFRMSDEALSASGIGPGTIRLSIGLEDPADLIDD
+LKKALKAAEKA
+>tr|A0A0P0MB71|A0A0P0MB71_9BURK
+MQFLNKDKVGQPSTKARGDAGEDEALAFLQERGLRLLQRNYRTPGRGGGEIDLIMQSPDG
+TVVFVEVRKRSRSDFGGAAATVGVHKQRRIIFAARHYLLGWRQLPPARFDVVTLEGHGPQ
+WLQAAFDAS
+>tr|A0A0P0LNM5|A0A0P0LNM5_9BURK
+MSDLSADEILDALGVEVTPVKTSALTPFEERVIAGFEDIQRFFEEHKRLPVNSEGRDIFE
+RLYAVRLEQLRKLPQALAILALHDTHGLLRVGPAAANIDSLNEDALLAELGVDLEAQPTD
+DITVLRHVRSNAERRNAEEIANRTPCKNFNEFQPLFEQAERELKSGNRTALRFGRDASIQ
+LHDFFILDGQFAYVAEVGDTIKMETGHDDARLRVIFGNGTESNLLLRSLQKALWKDETGR
+RLTVPDMGPLFSDTQEQDDIETGTIYVLRSKSSHPYVSEHRELIHKIGVTGGKVETRISG
+ADKDATYLLADVEVVATYKLHNINRVRMENLFHKIFSSAQIDITIDDRFGNSVKPREWFL
+VPLHVIDQAVQHIMDGSITEVIYDTPRAQLVRT
+>tr|A0A0P0LV50|A0A0P0LV50_9BURK
+MNRFSPSTPRIPGIRFVHSPGPTHVPDEVMHAMQRPMTDLSDPRVAAMIAECESGMKRLL
+HSPNSDVFLFASNGHGMWESVAANLASPQHTLLLAGSGHFSDQWALQIEGLGVALQRTPH
+QEGHPFDVAAIEQALRDDKDHRISAVLVVHTETSSGVTSDLAAVRRAIDAAAHPALYVVD
+AVASLAASPFHMDALGVDVALGSSQKGLMMPPGLGFVAVNAQAMAWSAQHADPRFYWDWQ
+RRQTGNQSAKFCGTPPLAHIAGLETAIALLEAEGLPQVWARHQRLAGAVHAAVERWAVPG
+ALRFHARVPETRSASVTAIEVVPGIDPEALRTVARERFQVAMAGGLGPLAGRVFRIGHLG
+DMNEPMILGALAGIEAAMTVQKIPFGTDGVAAAVAFLAANSSAQSTR
+>tr|A0A0P0M7P0|A0A0P0M7P0_9BURK
+MQNFPMSDTPNPDDQTPGKQGLAALTLAAIGIVYGDIGTSPLYTVKEIFAPHTGVPLDAL
+HLIGAVSAIFWALMLVVTLKYVILILRADNHGEGGGLALTALAAHAVEKRPALRRSLLLL
+GVFGATLFYGDSLITPAISVLGAMEGLEVLTPALKPYVVPATMAILIGLFFMQRFGTAVV
+GRFFGPIIILWFVVLGAVGVWHIAQQPAILAALNPLHAWEFLSNRGWHMFAAVGAIVLAL
+TGAEALYADMGHFGRKPIQIAWTGLVLPGLALNYLGQGALLMGDPSAIQNPFYRLFPEAW
+LIPALVLATLAAIIASQAVISGAYSLTKQAMQLGFLPRMRVHYTSAREMGQIYMPGVNWA
+LLVGVLAVVLFFGSSSALASAYGIAVTLTMMITTMLTYFVVSESWRMPAPLAIGATVFFL
+FIDALLVAGCAIKFLDGGWFPLTLGLALFILMSTWRRGRELMMDSTRRDGLSLQDFIDQL
+DPGSVNKAERTAVYAVADPETVPQALLHNLKHNQVLHVQNVILTVHFEDVPWVPLTRRVD
+VKPLGNSFWRVQVNYGFMDTPDVPKALELTSPHGLSVPVFETSYFLSRETVVPTPGAGMP
+IWREKLFATMSQNAGGVVEFFKLPGNAVVELGTRISI
+>tr|A0A0P0M795|A0A0P0M795_9BURK
+MTKKQKLELTWIGKDDVAKLEPRILIEDAEFSYHAPKRHTDADLFDNKLIFGDNLLALKA
+LEEDYAGNIRCIFIDPPYNTGSAFEQFGYDDGLEHSIWLSLMRDRLKILKNLMRSDGSIW
+ISIDDNEAHYLKVICDEIFGRNNFVSNIVWQKRIQPDMRATIGAGHDHILVYAREISVFK
+SKLKMLPTTNEQLSRYKNPDNDPRGAWVSADFMAKGYRPNQMYEIITPAGKILKPRAGSC
+WRNVEPVYQKLVTEGRIWFGKDGDSVPRKKTFLSESEGIAAWTWWTNSEVGHNQEAKKEV
+NALFGAENGFETPKPERLLSRIIHLASDQGDIVLDSFGGSGTTGAVAHKMGRKWIMIELE
+NHCYTHIVPRLKKIIDGVDDGGVTEDFGWKGGGGFRYYKLAPSLLEKDKWGNWVINKDYD
+ANQLAAAVCKHEGFTYSPSESDWWAHGFSTETDFIYVTTQTLTEEQLIALSEDVGNERTL
+LVCCSAYKASAAMLNDKLSNLTLKKMPHALLSKCEWGKDDYSLNISKLPVATQDDEQEEV
+PKKKAAKKEADLFGEE
+>tr|A0A0P0M815|A0A0P0M815_9BURK
+MTIAVFVFSLLGAMALGMPIAYALLVCGLSLMAYMASNGMINAFDSQILAQRFVDGADNF
+PLLAVPFFLLAGEFMNAGGLSRRIVNLAMAWVGHFRGGLGYVAVMAAVIMASLSGSAVAD
+TAALAALLIPMMKQAGYNVGRSAGLIASGGIIAPVIPPSIGFIIFGVAANVSITKLFLAG
+IVPGILMGVAIGLTWWWLAKRENVQPAPRMKLADKLKATREGVLALGLPVFIIGGMKFGV
+FTPTEAAVVAAVYSFVVGAFVYRELQWSKLYGLILTAGKTTAVIMFLVAAAMVSAWLITV
+ANIPAEVARMMEPLMFNKTLLMVVLMLLVVVVGTALDFTPTVLILTPVLMPLVIKAGIDP
+VYFGVLFIMNNAIGLITPPVGTVLNVVCGVAKINMDTAFKGVLPFLWAQLGVLALLIAFP
+SIVLVPMKWMLS
+>tr|A0A0N7J8A1|A0A0N7J8A1_9BURK
+MSKQAKTLTAQEIRRVLDYVATRKHSERNRAMLLTMYYAGLRVKECAALRYEDVLDAEGK
+IRAEIRLTPEQTKGSKAGTVFVSDKLRKELQAYVKSVPPNALTDKLFYSQKRPQDGWNSN
+TLCQFFHHLFKSVGIEGASSHSPRRTLITNLADKGVSVRILQSIARHANISTTQAYIDVN
+DAIKRKAIELA
+>tr|A0A0N7J928|A0A0N7J928_9BURK
+MNSIDIDVIRTALDWQSRGHRVVMGTVVRTWGSAPRPPGSLMIIRDDGQVAGSVSGGCIE
+DDLIRRVAAGELALRLPDTTTYGQTAEEVRRFGLPCGGSVQVVLEPLSAQSQLRELLVLI
+EQHQRVERRMDMATGMVRMSAAAEGDKLQFDGQSLTTVHGPRLRLLIIGGGQLSRYLANM
+AVMLDYQVTVCEPRVEYHEGWEAMAGVTLSKEMPDDLVLAMRLDHNSAVVAVTHDPKLDD
+LALMEALRSPAFYVGALGSLHNNAQRRKRLLDFDVSEAEVQQLHGPVGLNIGALTPPEIA
+LSIVAEMTAMRRGTDLSQALSNWQGSKTVCGLSA
+>tr|A0A0P0LFV3|A0A0P0LFV3_9BURK
+MSTVRIAPSILSADFARLGEEVRAIEAAGADWVHFDVMDNHYVPNLTIGPLVCEAIRPHV
+QIPIDVHLMVEPVDALVPLFAKAGANIITFHPEASRHVDRTLQMIRDHGCKAGLVFNPAT
+PLEWMDHVMDRLDVVLLMSVNPGFGGQKFIPSTLPKLQAARQRINTHVARGGQNIVLEVD
+GGVKTDNIAQIVAAGADTCVAGSAVFGAPDADGGYRGVMQALKQAAVA
+>tr|A0A0P0M9C3|A0A0P0M9C3_9BURK
+MKRYGAEFLGTFWLVLGGCGSAVLAAAFPQVGIGLHGVSLAFGLTVLTMAFAIGHISGCH
+LNPAVSIGLWAGGRFPAHQLLPYIVAQVLGAIVAGGVLYLIASGAAGFDVSQGFASNGYG
+AHSPGGYSMVAALLTEVVMTMFFLIIIMGATDPRAPAGLAPIAIGLALTLIHLISIPVTN
+TSVNPARSTGVALFVGDWAVAQLWLFWLAPILGAVLGAGAYRLIASEEK
+>tr|A0A0P0LPS9|A0A0P0LPS9_9BURK
+MPPEKAPQGAFFMGDRVSCGRCTIDFMQSTQNLKDSSLPHAWADLQAQTKLSDWLEPEAH
+RLAFADPEFLLRRETRGIRFQLEMLKPDLAQAEAGIEHTVVVFGSARFVDRATAQAQLEA
+AEQSGNPQELAKAQALVRNAEHYESARVFAQLVARACSCLPDDEKLFICTGGGPGIMEAA
+NRGAQEAGAPSVALNIALPHEQHPNPYVTPELSFKFHYFALRKMHFMMRAKALVAFPGGF
+GTLDELFEVMTLVQTRKARPVPILLFGTAFWKGLINMEVLIEEGTISASDLQLFHYVDTP
+EDAWQAICKFYQLSVA
+>tr|A0A0P0M690|A0A0P0M690_9BURK
+MKKLFAFAAMAAVSVGAYAQAYPGTKPISIVVPFTAGGPTDRVARDLAEAMRKQIPGSNF
+VVENAAGAGGTIGATKVAKAAPDGHTLLLHHIGMAATPALYRKLAYKTLEDFEFLGMIND
+VPMTLIGKPQLPANTYRDFENYIRANAGKLNIAHAGLGSASHLCGLLWQSTLQTKDAMTT
+IPFGGTAPAMTALIGGQVDVMCDQTTNTTSQIEGGRVKAFAVTTAKPLSSHPVLKHYPSL
+QEMGLKGFNLTIWHGLYAPKGTPAAINKTLNDALKKALKDPEFIKKNEGLGALVVNDNRT
+DPAEHKKFVAAEMVKIKTAVDAAGKYAD
+>tr|A0A0P0M9N6|A0A0P0M9N6_9BURK
+MTTAARLIPLNTRHISAPVHQDHFTLAMHQEAENALAMALHYLRSSGSNVPGATRKAVQA
+LGALNRLEMLSVGSGARTTGRA
+>tr|A0A0P0MAS1|A0A0P0MAS1_9BURK
+MITALLGALGASTRQLLADWGFAARLFFKLLGMTGAALKRFALVRDQIHFLGNYSLAIIT
+VSGLFVGFVLGLQGYYTLQRYGSAEALGLLVALSLVRELGPVVAALLFAGRAGASLTAEI
+GLMRAGEQLTALEMMAVDPLQRILAPRFWGGIIALPLLAAVFSAVGILGGYVVGVLLIGV
+DAGSFWSQMQGGVDVFKDVGNGIIKSVVFGVAVTFIALLQGYVAKPTPEGVASATTRSVV
+VSSLSVLGLDFILTAMMFSI
+>tr|A0A0P0LB88|A0A0P0LB88_9BURK
+MEPTRISAIRHGETAWNVDTRLQGHLDIPLNEVGLRQAQHLAQALVQREVIDAVYASDLS
+RAHTTAQAIAKSIGKTVTVHAGLRERHFGAFQGRTFSQIETELPEHAWHWRKRTPDWVPP
+GGGESLTVLRERVIQTVEALAAAHAGQHMVLVAHGGVLDILYRAAARLDLQAPRTWALTN
+TAVNRLLWTPQGLSLVGWGDTSHLDDLAEDESSL
+>tr|A0A0P0LDT0|A0A0P0LDT0_9BURK
+MSVMNLPALIEQAAKRLEAAGVAFGHGTQSAFDEAVWLVLWRLGLPLDTDLDEKADQAVS
+AEQQAACAALIEERITSRKPAAYLTHEAWLQGVSFYIDERAIVPRSLIAEVLADGTIDAW
+LSDQTQQVLDLCTGNGSLAVLAALAWPEVQVTGADISDDALAVATINVERHELNERVRLV
+HSDGLSSLNPPAHGPFDLILCNPPYVCQASMDALPAEYRAEPELALAGGTDGMDFVRQLF
+KQAPERMSEHGVLVLEIGNEVDHFIAAFPELEVAWLDTSAGDDQVLVIAREALLTLKGRA
+>tr|A0A0P0LFQ3|A0A0P0LFQ3_9BURK
+MFSNLLERTARLCSILGGIVMTGLMLMTCYSLIGRNFFDSALIGDFELTGVGAGAAIAKF
+MPLCQLKRENIIVDFFTAKCSAATNHRLDRMGDVFMAVIFGLLSWRCALGAINAKETMGA
+SMLLGFPDWIVFTSMCIPFGITALIALMQALSQIVHNEEATA
+>tr|A0A0P0M8I4|A0A0P0M8I4_9BURK
+MMIRLMALASLLWLTGCADGLTTQAPASLAPARSGSLLQCDELRDQFKYSATRMESAELV
+QAGAVRTGPQPTAVTAYKTGKHCLIKGKMHERQGADGQPYAIGFEMRLPQEWNGRFFYQA
+NGGLDGVVQPALGALGGGPLTGALAQGFAVISSDAGHNPRQNPYFGSEPQARQDYGYTAV
+GKLTPMAKELIKTAYGKLPDRSYIAGCSNGGRHTLVAASRYAEQFDGYLAGAPGYRLPNA
+ALAQLWGSSLWNSLAPAGPTVNHPFNPNLKFPDIGAGFNAEDRQVLARAVLAKCDAIDGA
+ADGMVQDVAACQKTFDVQKDIPNCTAGRDGKCLSVMQKNVIAQVFKGGQTTNGNPFYSPF
+PYDPGVSGANWATWKFVFSQALDPGALSHVFTSPKREVKAFDSNYDNLYAGIFAKPPGFS
+ESADETITPLNHAKPANMKQVQQRGAKVLLYHGVSDPVFSETDTRAWVDRVAKEVPNSAN
+FVRHFPIPGMNHCSAGPATDQFDALTPLVAWVEQGIAPERITAQVRGAGNAGGVNAELPA
+NWSAQRTRPLCAYPTVAKYKGQGSLETADSFTCQ
+>tr|A0A0N7J8I7|A0A0N7J8I7_9BURK
+MQTGQLWDIFCTVIDNHGDLGVCWRLTRQLRDAGQRVRLWVDDASALAWMAPTAHQEPGI
+EVRPWAEASQTSTLQALPPADVWVEAFGCNIPEAFVAHGVATRAQQPKWINLEYLSAEDW
+VPRMHQLPSPIMSGPAKGWTKTFFYPGFTPDTGGLLREANLMERQQRFDRAAWRQQHAPN
+PAPNGLLISLFCYEPAALPQLLAQLAGTPHHLLVTPGRPLAAVQQALAGMAEPPNWSTLP
+YTDQNGFDEMLWACDLNFVRGEDSLVRALWAGQPFIWQIYPQDDNAHHAKLEAFLDWMQV
+PESLRKAHRVWNGMEAGKWPTLNAETLRIWSQNTQIKRHQISGQTHLVKQLIKFMG
+>tr|A0A0P0M702|A0A0P0M702_9BURK
+MHKLSFKRSLTALAVVSALAMGSAHAATVRIANQGDALSMDPHSLNESLQLSITNNVYES
+LVGVSKDLKFEAGLATSWKQTSPNVWRFELRKNVKFHDDTPFTADDVVFSLNRAAGEGSD
+MRSNTNDIKEVRKIDSHTIEIETKSPFPILPNVLSTVFIMSKKWCEDNQATRPVDRRKGI
+ENAASFRANGTGPYRLRERQPNVRTTFVRNGSYWGKIDGNVDEVIFSVISNDPTRVAALL
+SGEIDIMEPVPVQDVPRINAGANTRALVAPELRTIFLGMDQKRDELLYSSVKGKNPFKDK
+RVRQAFYQAIDIEGIKRTVMRGASNPSALMVGPGINGFNPDLNKRLPFDPEASKKLLAEA
+GYPTGFTVDMNCPNDRYVNDGQICEAVAANLARVNVKVNLKAETKGTYFPKILRRDTSFY
+LLGWTPSTYDAHNALNALMRCVDDKGTGQFNLGAYCNPKVDELTVKIQSETDQAKRNAMI
+KEAFELHSADIGHLPLHQQALAWGINKKVTLVQRGDNSMPFKSITVK
+>tr|A0A0P0M8K7|A0A0P0M8K7_9BURK
+MPINPFRSRITSSRAQLASPLKRQVGLSLLLLGLGAFSATNAVAQAFPTKPLRLVVTFPS
+GGAPDILARLFSEKAQLGFPVVVDNRPGAGGNIGADNVAKSPADGHTIVMGTVGTHSING
+ALYEKMPYDMVKDFSPISLIASAPNLLVVNNALPVKNVPELIAYMKANPNKLSFGSPGIG
+TSVHVSGELFKSLTGTTMEHVPYKGRQFAIPDLIGGSIQVMFDNMPSALPMAKEGKIRAL
+AQTTATRSPAAPDVPTVAETVPGFEATTWFAMFAPANVPRPVIDKLNAEVLRVFKLPDVQ
+ERLKTLGLDPVLSSPAELARYQASEITKWAKVVKESGAKAQ
+>tr|A0A0P0MAU0|A0A0P0MAU0_9BURK
+MSLLNDSVREAARRSVLCWLATVDADGLPNVSPKEVWAIADDAHVVVANIASPMSVRNIA
+QRPQVCLSFVDVFVQKGFKLVGTAHELQVENPAFAAWAAPLLAMVGQRFVIHSVLVIRVS
+SVASIVAPSYRFYPDETTEASQVASAMKAYKVHPAPQEKP
+>tr|A0A0P0LGF8|A0A0P0LGF8_9BURK
+MNTPALDLAPFRQALASLEDGLDVVRDTAWFHQQNDKVRHTLIAGVIQNFEFVYEISTKM
+LRRRLEMDALNPSEVDFANFRDVLRIAAEKGLITDVAVWFGYRQMRNITAHTYDHQKAQQ
+VYEGTQAFMLDARLLLARLEDAIE
+>tr|A0A0P0MAT2|A0A0P0MAT2_9BURK
+MYELSLLCPEDRVDVLSDALDALDALSVSVEDADAQTPAEQALFGEPGMPPPKDGWQRSR
+MVALFAQEAAAKEAAVLLGAQDFFEDCQLLGIQTVEDQDWVRLTQSQFAPVEVTPDFWIV
+PTWHEPPKQARQIIRLDPGLAFGTGTHPTTRMCLRWIAQHGVQGQRVLDYGCGSGILAIG
+AAKYGALDIDAVDIDDAAVTSTELNAQANGVQLKAGLPDKAQGQYQTVLANILATPLKVL
+APLLCSYVSPGGHLVLAGILERQAEELKAAYAPWLALEVADTQEGWILMTAKAVAHSA
+>tr|A0A0P0M8Z0|A0A0P0M8Z0_9BURK
+MKRSQIALAFILSLTLSACGLVSTQAVYEEIRAQEKAKAVGRGAAPGQKLPNYDAYQKER
+SVLSP
+>tr|A0A0P0MA45|A0A0P0MA45_9BURK
+MKDGIHPNYREVCFQDMSNGFKFVTRSCANTKEMITMEDGRELPWYKLDTTSESHPFYTG
+TQKSVDNMGGRVEKFRNRFGKTTTIAK
+>tr|A0A0P0M7F5|A0A0P0M7F5_9BURK
+MTTDNAPSGLLQLIWLASPALPIGGFSYSEGLEAAIEQGLVHHEASATDWVVDQLHLTQS
+RGDMAVLAQAIPAWQRGDTARLQALSDWVMATRETAEMRLQTEQMGRSLLDWLRNLQQAS
+EEQLNVCARLPVSYPLAMSLALSLAHTPLDQALQAYAFGWAENMTQAALKSVPLGQSAGQ
+RMLARLAREIPLAVQTAMALQDEERQAFSPMLAILSSRHETQYSRIFRS
+>tr|A0A0P0M7N7|A0A0P0M7N7_9BURK
+MINRKGIILAGGSGTRLYPVTQAVSKQLMPVYDKPMVYYPLTTLMLAGIRDVLLISTPQD
+TPRFTELLGDGSQWGMNIQYAVQPSPDGLAQAFIIGRDFVGSDPSALVLGDNIYYGHDLV
+KLLASAHARTSGASVFAYHVHDPERYGVVDFDASFRALSIEEKPKVPKSNFAVTGLYFYD
+QQVCDIAADIRPSPRGELEITDVNKRYLELGQLNVEIMGRGYAWLDTGTHDSLLEAAGFI
+ATLQKRQGLMVACPEEIAFHQKWIDAAAVQKLAAPLAKNGYGQYLLNLLK
+>tr|A0A0N7J925|A0A0N7J925_9BURK
+MLLRDIAHTRTGDKGNRTTLSVIAYDPKDYALLEQHLSAERVQAHFAGTVHGPVERYALP
+QLGALNFVMHQSLGGGVTRSLALDAHGKCLSAHLLTFMIE
+>tr|A0A0P0M6T6|A0A0P0M6T6_9BURK
+MEGMQDHSPIPTPDALTGAARTASVRQRGFTLIELMVVLAIIGVLAALIVPNVLGRADDA
+RITAARTDVGNLMQALKLYKLDNQRFPTTEQGLNALILKPTTEPVPGNWKPYLDKLPSDP
+WGRPYQYLSPGLKGEVDVLSFGADGRAGGEGNNADLGSWQ
+>tr|A0A0P0LCS7|A0A0P0LCS7_9BURK
+MTLSGFSVRTVITKGALCLVWAAGMLPALAHAWTRMGETPEVTLYVDRQSIEKEDNIRRV
+WELQDLKVADADGVMSRRYLNEYDCQYKMHRLSKVTSHAGPKLTGKKLFTVNETGYWRKI
+PPNGIFVLTYVAVCIQ
+>tr|A0A0P0M8T0|A0A0P0M8T0_9BURK
+MKLELPERKKLVNELVIPIRWGDMDAMGHVNNTVYFRYLESTRIDWFDKIGFTPNPQGEG
+PVIVNAFCNFYKQFEYPGNILAKMYVSDPGRTTFESWCTLERTDQPGVIFAAGGATTIWV
+DFPKQKAVNLPEWVRALVSD
+>tr|A0A0N7J8G8|A0A0N7J8G8_9BURK
+MLKRRNLVTLIAGTFLVASSAMAQFADRNIKFTNGVNEDHPVGVGVKKMQEVLAAKTGGK
+MKITAFWGGAAGGDLPATQALRAGTQEMVCTSSSPLVGIIKELGVFDLPFLFANEKEADA
+VLDGAAGKYFNAKLEAAGLVNLAYWENGFRNLTNSKRPVTKLEDFDGVKVRVMQNNIFLD
+TFKTLGTNAVPMAFGEVFTALETKTIDGQENPFVTIETSKFNEVQKFLSVTRHAYTPFLV
+LYSKKLWDQLNPQEQAVLREAAMEGQKVQRAANRALNERSLASLKTKGMQVNELSAAEQN
+RIRARVASVYDKHKDSIGADAIKVVQDELKKARGG
+>tr|A0A0P0M732|A0A0P0M732_9BURK
+MDYPGNLFVVAAPSGAGKSSLVKALMELDSRVQPTVSHTTRAPRGQEKHGREYFFASPQE
+FDAMVLGDAFVEWAHVHGQRYGTSKKMIEERMAQGADVILEIDYQGALQIKKMYANAVLI
+FILPPSWEELRSRLERRGEDAPDIIALRLQNAAVEIAQAPEFDFVIINEVFDRALFDLKA
+VVHAQRLKYHVQRRARPDTFQALKMA
+>tr|A0A0P0M8U8|A0A0P0M8U8_9BURK
+MLGLMQQQSLLISSLIDFAEKHHGDSEIVSRRVEGDIHRYAWADVARRSRQVANALDAQK
+VPQGARIATLAWNGYRHLELYFGVSGSGRVLHTINPRLHPEQMAWIANHAEDQILCFDMT
+FLPLVQALHPHCKTVTQYVVLCDADKLPEGTGIPNLVSYEAWMGQQPSTYTWPQLDENTA
+CSLCYTSGTTGNPKGALYSHRSTVLHAYAAALPDSMCISARDSILPVVPMFHVNAWGIPY
+SAAMAGSKLVFPGPALDGKSVYELIEAEGVTFAAGVPTVWQMLLGHMKPAGLKFSHLNRT
+VIGGSACPPAMIDAFRQDYNVDVLHAWGMTELSPLGTVCTLKNKHLSLPDDAQMKLRMKQ
+GRCIFGIDMKIVDAEGRELPHDGKSAGDLLVKGPWVIASYFKQEGGNPLVDGWFPTGDVA
+TMDTDGFMQITDRSKDVIKSGGEWISSIDVENIAMAHPAVAMAACIGMRHPKWDERPIVC
+VVKKPGNELSREELIAFYDGKTAKWQIPDDVVFVDAIPLGGTGKMLKTRLREQLADYVLP
+GL
+>tr|A0A0P0MBU5|A0A0P0MBU5_9BURK
+MKRLYAYFFRGLITFLPVGLTVYVLYLFVTWVEGSAMRVLRPFTGDFYLPGLGIVLGTAL
+ILVLGFLVSQPFMRRMIGWVELPFTNLPLVKSIYSSLKSFADYFAPHERDAQQVVLLKKP
+DSELSIIGLVTRQNLSDLPLDAHTRQHIAVYLPMGYMIGGYTVFVPREWVQVLDMSVEEA
+MRSSLTAWMGSTKNPADPV
+>tr|A0A0P0LII9|A0A0P0LII9_9BURK
+MKTQSCLELSDVKAIAAAAEAEALKNNWAVSIAIVDMGGHLLHFARLDGAPPVSAHIAPS
+KAHTAALGRRESKVYEDVINGGRTSFLSAPAIQGMLEGGVPIMKDGFCLGAVGVSGVKSN
+EDAQIAKAGIAAIGL
+>tr|A0A0P0LTI9|A0A0P0LTI9_9BURK
+MNEITSRFLPPEDAQRRELHNEVHARPPARVRLPALIVYVALLNEGVTREQEWAHLRRLP
+GHADLGLDQLQGNFLRLRCDHFTVKWERHTEFTRYSIVQNLPPNAQWGADLPELAPHVAV
+GTDWLRGLPGQTMAAIELGMLSADIDSPGLIAQAQSWLGPGTVLASRMGNTAEGLSHSCI
+LTHFRIGTDGFERMLVVAPEGTSEARAGRISQRLLELETYRLMALRGLPVAKNLSAMLSA
+AEAQLADITGLLERKGETDQALLDLLVSLAARIERATAEHGFRFSATRAYDTLVSQRLTE
+LRERPISGTQTLGEFMQRRLSPAMATVNATEKRLASLAERVSRTSALLRTRVDIATETQN
+QVLLEKLTRGQELQLRLQVTVEGLSMAAISYYVVSLLLYAFKGLKAYGLPFNPEIAVAML
+LPLVLWSVWRSRQKIHEKLHRSDT
+>tr|A0A0P0M781|A0A0P0M781_9BURK
+MLALMGSLVSLAVGTSFAKSLFPALGAEGTTAYRLVFAMLMLMAVFRPWRRKWVWADALP
+LGLYGVTLGVMNLLFYSAIKTIPFGVAIAIEFTGPLAVAVWTSKKASDWLWVTLAVVGLA
+LLLPFPGADAATALDPMGMFFAFTAGICWALYIVFGQRVALRYGAMATPMGMLAAVLVVA
+PIGVWHAGSALLNPQWLMAGLAVALLSSAIPYALEMFSLNHLPKNTFSILLSLEPAVGAL
+AGWLVLAEHLTLAQGVAIGLVMAASMGTAWSAGQDKRVTPGSGQA
+>tr|A0A0P0MBA0|A0A0P0MBA0_9BURK
+MKRLRIASLLSAALGLSLLATQAMAQAYPNKPIKAIVPFAAGSATDQIGRAFAQKMSEVL
+GQPVVVDNRAGVNGMLGADAVAKSAPDGYTILIGTNSTNAALKSLMKKLPYDQDTAFAPV
+AYMGSVPLIVAVNNDVPAKNLREFVDLAKSKPTQITFASASTSQLVSSEMLSSMAGIQMT
+NVPYKSGPAAMTDLIGGQVNMFSADFAVMLPQVKAGKIRGLAVTSTQRSKAIPELPTVNE
+ALGLKDYELIAYFAVFAPAGTPADIITKLNAAVNAAATDKTILERFSALGFETAPASPEA
+LAQRSKAETAKWAKAIRDAKIEPQ
+>tr|A0A0P0MA70|A0A0P0MA70_9BURK
+MSSTQPLRGIRVVSLALNLPGPAALMRLAQMGASCTKINPPAGDPMQHYTPDGYALMHKG
+VKHHTLDLKTEAGQAALHKLLPKTDVLLTSFRPSALTKLGLGWKTLRKQYPALSLIEVVG
+APGPLAEIPGHDLTYQAEVGLVNGMDLPPSLFADMGGALMASEATLKAVITLKTSGKGSR
+HEVALSEAAAWLALPRQLRMTTPDGAVGGAHAGYRIYPCKNGRVAVAALEPHFAQRLCEA
+AGLPQAHPVKDLFKPATRQAIEAFLASQTRAQLDKLATAKDIPLMTLK
+>tr|A0A0P0MAY7|A0A0P0MAY7_9BURK
+MNDSVMALALAALLGLMIGSFLNVVIHRLPLMLQAQWDAPLGDTTHDASLSAPPFNLAVP
+RSHCPHCQHTLAWHENIPLLSFLRLRGRCAHCHTPIGWRYPAIELVTAGLFMWAAAEHGL
+SFQALVWAGFAAALVALAAIDADTRLLPDAITQPLGWAGLLAASLGLTGIGLNDALWGAA
+VGYLFLWTVYWLFKALTGKEGMGQGDFKLLAALGAWLGWHALLTLVLIASFSGVIGGLWL
+KLRGQLADNGELAFGPFLVLAGLWVMVFGPLPWFLI
+>tr|A0A0N7J8J6|A0A0N7J8J6_9BURK
+MKTVGSFFVAALLGLSHSVHAQFDPTKVVIEPLVISQHFNAPNTRFSTPAFAAGRENFTS
+YAESVEFLNALAQRHNNIRIETVGSSQQGRAMLLVVMAGPRGYNANLPTLMLMAQQHGNE
+PAGGEAALVMAQKLSTERAILLESMNVLIMPNTNPDAAERFKRESINGIDINRDHLLLRT
+PEAQAIAAALNKYSPHLVLDLHEFTVAGRWVDKFGAVMHSDALLQAATVGNLSPIVQSVQ
+TRYLAAARNALEAKGHRVEDYHTSSSNAKDLTVSMGGVNVDTGRNVGGLRNAVSLLLETR
+GVGIGRANFARRVESHVLAATAILETAAQDGQSLIKMQQEAGRTTAEKSCTGNMSIVVKH
+TPQRRRLSFLDAKTGEPRAIDVDWRSAHQLNIERERTRPCGYLIAADQTVAVQRLRDLGV
+KVTTLDNQPQPWETEAYVVANENAGSRQDARGAISDSQNPIRLLNVKTQAGKLTPAAGSY
+YVSLNQPLAGLVTAALEPDSQNSFVANRLMVVGDNKLLRVMNTPSF
+>tr|A0A0P0M6Z1|A0A0P0M6Z1_9BURK
+MPRSTDWTRNETLAAFHIYLQLPFGQLHRNQARIVQLSQWMGRTASAVAMKLVNLASLDP
+QIVASGRRGMGNASKLDQQIWNEFLAANDPVVTEAATSFGHYAEQNGLPPFVDVLDEVPE
+IAEGKTTTAIVQVRVNQARFRRAILASYNATCCMSGLRVPKLLVASHIVPWSMDTQNRLN
+PSNGLCLSALHDRAYDQGLITVLPDFTIRVGEALRHAELDPFAQSSLAQCEGQAIRLPER
+FRPAPAFLEAHARRFGFL
+>tr|A0A0N7J8D8|A0A0N7J8D8_9BURK
+MAFFTRSAFDRMDTIMRTMELTALLILAYFAWLAVALRKRQRTVQGPWLFLLRAFFPNWQ
+FFHGLGPAPRLWVRAQSQPGQWSNWQAVYPRLPRRTWHLLHNPAVNLALSHQNLVEHLAT
+DVHDLAENADIRDCVSYQLVTRLARDAVQRGSWADTPMLHRAGGLTPQAFQFEIRLLHLG
+QAGEAQLLLSPVIPLRP
+>tr|A0A0P0MB37|A0A0P0MB37_9BURK
+MKTTRSPIRPLSNSRWATCALLASLMVCVAVWHGHALASDKGDHERALQAVQSGQVLPLA
+KVLALVEKAHPGQVLEVELEHEKQQWHYEIKLLQPDGRLMKLLVDARTGEVLKRQSRSER
+R
+>tr|A0A0N7J8K6|A0A0N7J8K6_9BURK
+MSVDNPNDANPSAAMDLHSPQRQLIEWQIEHADLDALIDQAALMPGHMDELRLRRMKKRR
+LALRDQMASLQAQLAPKEPA
+>tr|A0A0N7J8Q9|A0A0N7J8Q9_9BURK
+MAIYQLDDQTPDVADSAWVADNAQVMGAVKIAADASIWFGVTVRGDTETIEIGEGSNIQD
+GSVMHADHGKPIKVGKHVTVGHMVMLHGCTIGDESLIGIGAVVLNGAKIGKNCLVGAGSL
+VTEGKEFPDGSMIMGTPAKVVRELSPEQIEGLRQSAKHYVENARRFKAGLKKIS
+>tr|A0A0P0M6M8|A0A0P0M6M8_9BURK
+MPAYRFEALQTDGALRKGTLEADSLKAARTQLRTQQLVPLLVEAIASGSASAAARSLPWW
+QRPIGGGRAFSGSERAVWTRQLAGLVGSGLPVERALAALSEEADDDKQRHLLAAIRADIN
+SGSTLGRALAQFPQEFPAIDRAVIAAGEQSGHLSDVLNQLANDLEDHQVLRAKLLSASLY
+PAIVSLVALAIVIFLVTSVVPQVAGVFAGTQRQLPGLTVAMLAISDFVRHWGWFMVLLLA
+GGVMAFRVAMRQAALRLRFDAAWLHLPLIGRLARGYNSARFASTLAMLTAAGVPILKALQ
+AAADTLSNQALRADALEALVRVREGAPLGTALAQNARFPGLLSMFARLGEQTGQLPVMLQ
+RAATQLSGEVQRRAMALATVLEPLLIVAMGGMVMLIVLAVLMPIMQLNQWVK
+>tr|A0A0P0LHU5|A0A0P0LHU5_9BURK
+MSTPQALLELKDLRIAFGGQAVVHGVNLCIKPGERVALVGESGSGKSVTALSVLRLLESA
+ELSGKVLWQGQDLLQQSPAEMQRIRGDEIAMIFQEPMTALNPLMTVGQQISEVLQLKKLL
+SRRDADARAVHLLSETGIDDPARRFGAYPHQLSGGQRQRAMMAMALASEPKLLLADEPTT
+ALDASLRLQMLQLLADLQQKTGMAVLLITHDLALVRHFADQVAVMEKGHLVEQGTLQAVF
+ERPQHPYTQRLLSSRPSRAGLVDMPPLETSAVLQARQLQVRYPKSVPGFKAWFQKHHFTA
+LHGADFSLLPGSTLGVMGESGSGKSSLAQAVLGLIPFEGDLSFDGHTWQGSPARDKALRR
+QVQVVFQDPYGSLSPRMTVGEIVSEGLRLHQPHWTAEQTEERVRATLAEVGLVGEGFNDV
+LNRYPHTFSGGQRQRIALARALVVEPAVLVLDEPTSALDVTVQKQILELLKTLQKTRGMA
+YLLITHDVDVLRAMAHQVVVLKSGQVLEQGLAEQVLGDPQHPYTRSLVQAFPEIN
+>tr|A0A0P0LL07|A0A0P0LL07_9BURK
+MKLKLSITALALGLASMTAQAQTEVQWWHSMGGALGEWVNDLAKDFNNSQKDYKIVPTFK
+GSYDESMTAAIAAFRAGNAPHILQVFEVGTATMMASKGAIVPVGEVMKKAGVTFDANAYV
+PAVAGYYTAPNGQMLSFPFNSSTTVFHYNKDAFKAAGLDPEKPPKTWPEVALAAGKLKAS
+GHKCPFTTSWVSWTQLESFSAWHNTEFASKGNGMRGMDARLTFNSPLHVRHIENLANMAK
+TGLFVYKGRGNAADAVFVSGECAMTTGSSALYGNIKRNAKFASGISTLPYYPDVAGAPQN
+TVIGGASLWVMSGKKDNEYKGVAQFFAHLSKAEEAAKSHQRTGYLPLTKASYEMTEKSGF
+YNQNPGTDVSVEQMIRKTTEKSRGIRLGNFVQIRTINDEELEQVWAGKKAPKEALDAAVK
+RGNEQLERFQKANK
+>tr|A0A0P0LU01|A0A0P0LU01_9BURK
+MTATAYTWPWVELIARYKFQQQAGWAGALATLMLSTPLAEDTLDEADWVLPIPLSAQRLA
+ERGYNQSWLLARQLSPHKADARLLLRTRDTPSQRTLPRAERLANLVGAFAVEPMRAAQLR
+GKKVVLIDDVMTSGASLHTAARVLRDAGAAQVSALVLARTEAGGEA
+>tr|A0A0P0M8B9|A0A0P0M8B9_9BURK
+MSFDINDNNDDVMNEINMTPLVDVMLVLLIIFIITIPVVQHAVKVELPRTPSSQEKTPPE
+NLQLTVDSRGQFFLGQQPVAADALEDALREHAGKDPQPQLYIRGDKKVAYEHVAQAMSAA
+QRAGLTKIGFVTEGQKP
+>tr|A0A0P0LED7|A0A0P0LED7_9BURK
+MKNSSPSSARTAPQVLADPTPASSQHLCDDPIDVVYLWVDGNDSRWRAKREAALAQLPRD
+TGAAMARYSNVEGRFRDNHELRYSLRALEQFFPEHGHVYIVTDAQAPDWLRPSDRLTLVD
+HRELMPESSLPTFDSGHIESWIHHIPGLSERYFYFNDDVFLGAPLNPADWFTPEGFYLTW
+SDEPLVTDEAMRMDATSLENACRLSIEWLRAQASAALAGQALPPSRQQDPLYQSTFRTFA
+HSPRPMRRSLMRELELTAPELFEGVRSTVFRSWDKPTIVSDFVLRWALAHGLAQMRTYRH
+RHVSTGDADQQAQLQCLLAEFGSLDFFCINDTTDDAHAEDPRLLQVQSVLQAMLPQASGF
+EQSGSGASEPSEALTAHAAEIHQGAQAPAAHQSSVSGSRRRA
+>tr|A0A0P0LPI6|A0A0P0LPI6_9BURK
+MNTMPLRLIVMGVSGCGKSTMASALGERLGLDMVDGDDLHLPESVAKMRSGIALQDADRW
+PWLDRIGHYLAQAQEPGRVVACSALKRVYRDRIREQAGDVCFVFLDGDFDLIEQRMRQRV
+GHYMQPGLLDSQFRTLEKPQADESDVIRLPITEPVQDMVAQALNALHNRLHPAL
+>tr|A0A0P0LLI4|A0A0P0LLI4_9BURK
+MHRSHRFFHSLSRLVLIWYVLFVGVSVLAATLQPKTMDVVCSSMGIMKVVVQGEGEAPPL
+TSNMDCPLCAHATPALPPPTVAALAHVNDARAHIVQALPEALLLVRTAPPLPSRGPPDQI
+>tr|A0A0P0M9A4|A0A0P0M9A4_9BURK
+MNKNTAPFMRQAVMDLEESRIREVANAGMGRPDVLAFWFGESDEVTPDIVRQAAIDSMQK
+GETFYSHNLGLPELRQAVSDYMSALHGPIGMDRLAITSGGVNALMLAAQALIDAGDEVVA
+VTPVWPNLTAQALVMGANLRCVSLRPVGGQWQLDMAALKAAITPTTRMLIVNSPNNPTGW
+TLSRAEQAEILAHCRSTGTWVLADEVYERLYYETDTANGCAPSFLDVAELDDRLVVVHSF
+SKSFLMTGWRLGWLVMPAAMTPHMGKLIEFNTSCASVFTQKAGVVALQNTADITPRVVAH
+LKACRDTLVPLLQAVPGVQLAPARGGMYAFFKLDGHPDAVQTAKRLVAEAGLGLAPGEAF
+APEAAGWLRWCFASKDLARLAQGVERLQTWLRQNPSAAV
+>tr|A0A0P0LV28|A0A0P0LV28_9BURK
+MSNLSSVIKSIQDIMRQDSGVDGDAQRISQLTWLLFLKVFDALEEELELTRDDYKSPIPE
+AMRWRNWATDAEGITGDALLDFVNNQLFATLKSLSGDAQRNPRGYVVRGVFEDAYNYMKS
+GQLLRQVINKLNAIDFNRQAERHQFNDLYEKILKDLQSAGNAGEFYTPRAVTQFMVDMVN
+PRLGERVMDPATGTGGFLVCAIEHLRKQVHNTEEEATLQNSILGVEKKQMPHMLCVTNLM
+LHGIEVPSLVRHDNTLSRPLRDYTPADRVDVILTNPPFGGIEEPGIEQGFPADVRTKETA
+DLFLVLIKHILKTNGRAALVLPDGTLFGEGVKTRIKEQLLAECNLHTIVRLPNGVFAPYT
+GIKTNLLFFTKGKPTEHVWYYEHPYPAGVKNYNKTKPIRIEEFDAEKAWWGSEADGFSVR
+VENERAWKVSIEQIKAANYNLDQKNPHAAEVVSHDPEQLLADYARLQTEAQSLRDQLKSI
+LAQSLGAKA
+>tr|A0A0P0MAT1|A0A0P0MAT1_9BURK
+MPIYAYKCDACGHAKDVLQKMSDAPLTDCPACGAPKFNKQLTAPGFQLKGTGWYATDFKG
+GGAAGVPAAAGTAADAVASPASAPASDTTAPAATTSAGACAASCACH
+>tr|A0A0P0LMT4|A0A0P0LMT4_9BURK
+MAFIHKKRILTSVLLLAWLLISFGPSFFARELSVLVWGWPLYFWMAAQGSILLFIGIVVV
+YAWLMNRWEAQETAAGRDIPKGW
+>tr|A0A0P0M8W6|A0A0P0M8W6_9BURK
+MQALHIHAGPKALAHIRDYGLRPEHIGVIPGAAGGPKGLILGPLDRFIFGDWLTQSTQPV
+DLVGASIGAWRMATACLKGSVAAFERLEHDYIHQHYEPLPGQKRVNAQQVSDAFGQSLQA
+FYGGRIAEVLSHPRYKLHIVTSRGRHILHQEHPVATPLGYAGAYISNALHRRALGAWLER
+VVFSSQSAALPFDAQDFRTRSVALTGGNFMSALQASCSIPFALKAVHDIPDAPAGAYWDG
+GITDYHLHLNWTAPSQGSDRAIVLYPHFQKSVVPGWLDKALKWRHGATPFLDSTIVLSPN
+PEWVKTLPNGKLPDRKDFMTYDRDLAGRVKVWNAATQASQQLAEEFSRWLHKPDASVVQA
+L
+>tr|A0A0P0M8B4|A0A0P0M8B4_9BURK
+MTQPIVNLQDHERAAQAALSEAAWAYFSGGAADEITLRHNVAAWQSLGLLPRVLQDLRGG
+HTSGRLLGRKWPMPLLVAPMAYQRWAHPEGESGMALAAAAQGCGMVLSHQTSTPLHDVAA
+LVASDAERGPLWFQLYWLADRGALRELLAQVEAAGFEALVLTVDAPVQGVRDRERRHGMP
+LPEGVKAAHWPNSAPPKKPRTGLSGGLADAAPTWADVQWLMGQTRLPVLLKGITHPQDAV
+QALNLGAAGVIVSNHGGRVLDTLPATAELLPGIVQAVRQHHPQALVLVDGGIRRGTDLFK
+ALALGADAALIGRPALYGLAHAGARGAAHVLRLMRDEFEATMALTGCADLHDIDRDRLWP
+LQHV
+>tr|A0A0P0M901|A0A0P0M901_9BURK
+MATKKPSNPTLPTVTPRAPDGGDSVVLERRAQKIEPPQMYQVAMLNDDFTPMEFVVMVIQ
+EFFSKDREAATQIMLKIHLDGKGVCGVYSRDVAATKVDQVLDAAKQAGHPLQCVSEPIE
+>tr|A0A0P0LB63|A0A0P0LB63_9BURK
+MFSYRHAFHAGNHADVLKHITLLATMRHLMQKEAGITLIDTHAGAGLYRLDGDYSQKGAE
+AEDGLFKLLEAAEKLDTLPEPVQDYLEQIASFNPNGQAKIYPGSPFLMQRLMRHESRDRL
+RLFELHPTDSKALMSNIAQLEAGRTVTVSREDGFEALKKILPPPPSATGSKRAMVLIDPS
+YEIKSDYAKVANVIQEYLKRFSTGTYLVWYPIIPRPEAHDLPKRLRTLANQSQKPWLNAT
+LAIGRGPGDEGGLVASGMFVINPPFTLKDQIRKALDVVGPALARGSGKNWAVESS
+>tr|A0A0P0LN47|A0A0P0LN47_9BURK
+MLRWLIVVFLALIIFSGLQKWLQKFGFGRLPGDFRFRLFGREWFIPLTSTLLLSLLAAAI
+ARWV
+>tr|A0A0P0LHN3|A0A0P0LHN3_9BURK
+MNKLQGRNVVVVGTQWGDEGKGKLVDWLTESAQGVVRFQGGHNAGHTLVINGVKTALHLI
+PSGIMRAGVKCYIGNGVVLSVPKLLEEIAGLEKAGVEVRSRLRVSEACPLILPYHVALDV
+GREAAKEKAGTAKIGTTGRGIGPAYEDKVARRALRVQDLKYPERFANKLRDNLALHNEIL
+VNILGAAPVDFDTTYNEAMAYAKELLPMVADVSRELNDAHKAGANLLFEGAQGTLLDVDH
+GTYPFVTSSNCVAGNAAAGAGVGPGMLHYILGITKAYCTRVGGGPFPTELDWETPGTPGY
+HMSTVGAEKGVTTGRSRRCGWFDAALLKRSAQVNGLSGLCITKLDVLDGLKELWLCTGYE
+LDGETIDILPMGADEIARCKPIYEVIPGWTETTVGVTEMDKLPATARYYLDRIAEVTGVP
+VHVVSTSPDRDHTILLHNPFAA
+>tr|A0A0P0MAN7|A0A0P0MAN7_9BURK
+MTTPTPTGFSRRHVAQALGAALALGLTPAWSANASAPWPTQTVRLVVGFPAGSSPDLTAR
+ALAEPLAKALGQNVIVENKVGAGGNIAADFVAKSTDGHTLGLMINGNMTIARILNPKVPY
+DPLKDLAPISLIGKAPLVLAIPASGPGVVPGQTAAEWLSQAQKAGDKLSYASPGVGTVAH
+LGMELLKTKAGIAPVHVPYPGNPQIITAMLGGQVQLALLPPAMAAAQVRGGKLRAIGASS
+TGRSPVAAEVPSLSEIGVKDYQLEIWNAVAAPASMPAAVASKLSAMVSDIVRAPEMRARL
+FQQGWQVVGSSPEGLRNRIESDTKALGDIIRSQKIEVN
+>tr|A0A0P0M875|A0A0P0M875_9BURK
+MTDSNTPNTPELLLHERDARGVHRLTLNSPASFNTLSEAMLTALQKALSAVAQDEQARVV
+VLGAAGKAFCAGHNLKEMRAQPELAYYQQLFAQCSRMMMTIQKLPVPVIARVQGLATAAG
+CQLVAQCDLAVSVDSATFGVNGIDVGLFCATPSVPLVRNMHAKQAMEMLLTGGFISAAEA
+QSRGLVNRVCAAAELDVQIDDLVNAILAKPREAVRVGKALFYQQREMGIEAAYQLAGQTM
+ACNMVHEVAQEGVQAFIDKRTPTWRA
+>tr|A0A0N7J8C2|A0A0N7J8C2_9BURK
+MENNQATGGPQQDPRKLMHEVVFLHSERLNMLTGHINTLMSQVAWSETCFKRVEDSGVIH
+MAGIIRKMAKDLEMLQINHNKLSHFVRTHVKTDQDEGSNGGGDDQSPLSTHLQKSLSKLG
+R
+>tr|A0A0P0MAB6|A0A0P0MAB6_9BURK
+MSGINYSEKIPNNVNLSEDRTLQRALEQWQPNFINWWDDMGPEGSTDMDVYLRTAVSVDP
+QGWAQFGHVKMRDYRWGVFLNPGEQDRKIHFGDHIGEKAWQDVPGEHRANLRRIIVTQGD
+TEPASVEQQRHLGLTAPSMYDLRNLFQINVEEGRHLWAMVYLLHKYFGKDGREEADALLQ
+RNSGNEDNPRILQAFNEKTPDWLSFFMFTYFTDRDGKFQLCALAESAFDPLARTTKFMLT
+EEAHHMFVGESGVSRTIQRTVDVMNQLKTDDVGKLRAAGVIDLPTIQRYINFHFSVTIDL
+FGADQSSNAATFYSSGLKGRYEEGKRGDDHVLKGNSYKILSVENGKLVEKEVPMLNALNE
+VLRDDYITDSKGGIDRWNRVIAKAGIPFTLKAPHKAFHRNIGSLSGAKITPDGQVVTDEQ
+WMSQVGEWLPTNEDRAYVASLMGRVVEPGKFANWIAPPVMGINRQPVDFDYVRFN
+>tr|A0A0P0M7Z3|A0A0P0M7Z3_9BURK
+MIEVMQPQIGERIYDAACGSAGFLCEAFAYLSPKATKADDLDTLQKRTFFGKEKKSLAYV
+IGIMNMILHGIEAPNIVHTNTLGENINDIQERDRYDVILANPPFGGKERKEVQQNFPIKT
+GETAFLFMQHFIKSLRAGGRAAVVIKNTFLSNTDNASVALRKQLLTDCNLHTVLDCPGGT
+FQGAGVKTVVLFFTKGEPTRKTWFYQLDPGRNMGKTNPLNDADLVEFVQLQKTLADSPKS
+WSVAADTVNLDTFDLSVKNPNGREEVVHRSPADILDEIAALDAEAAEVLGNIRGLLA
+>tr|A0A0P0LRI6|A0A0P0LRI6_9BURK
+MDILYLLIPLSVALVFFILAGLWWAIDRGQFEDIEAEGDRILRDD
+>tr|A0A0N7J865|A0A0N7J865_9BURK
+MAKKAPRRTAERIAQVTLDLFNRFGEPNVSTTLISAELGISPGNLYYHFPSKDALVNQLF
+DQYEAAMLSLLDAAPDVRDVEDTWFLLHSLFEQVWNHRFLYRDLNNLLSGNRHLETHFHA
+VLERKTLAFRQMLESLGAVGLMRIDADHVETLSASLSVMVTYWLSYEYVRNPRQAMEPAS
+AGLALTRGAQHVLSLLTPYMADPQVQQHLQALTAAYSAPGAA
+>tr|A0A0P0LIM0|A0A0P0LIM0_9BURK
+MLTFQQIILKLQQYWDAQGCALLQPYDMEVGAGTSHTATFLRAIGPEPWKAAYVQPSRRP
+KDGRYGENPNRLQHYYQYQVVLKPAPSNILELYLGSLEALGFDLKKNDIRFVEDDWENPT
+LGAWGLGWEVWLNGMEVTQFTYFQQVGGIDCKPITGEITYGLERLAMYLQGVDNVYNLQW
+TDGLTYGDVYKQNEVEQSTYNFEHSDAEFLFTAFGAHEKQAQHLMGAQLALPAYEQVLKA
+AHTFNLLDARGAISVTERAAYIGRIRNLARSVAQSYYESRERLDFPMAPREWVAQMPKKA
+A
+>tr|A0A0P0M6W7|A0A0P0M6W7_9BURK
+MKHKYRQRFISCLLLAALVSAPAHAQPSGLPGLGDGESISLSAERQLGDRIARELYRDPD
+YIEDPVLDEYIQLLWAPLVRAAAARGELSAELQERFAWRILLGRDRSVNAFALPGGYLGV
+HLGLISVVGSHDELASVLAHELSHVSQRHIARGMSEQSRMTPWLVGAMILGALAASKSPQ
+SAQALIVGGQAAALQSQLSYSRDMEREADRVGYGILVDAGYDPRGFVGMFGKLQQAAGLN
+DNGAFPYLRSHPLTSERIADMQARQQLNTPGAVPATDMAQALMSARARVLSQNTPDALKA
+WTQEAEQPSSQDGPAQRAGKLYAGTLAYLQQRNMPAAERSLQQLRELANKSVPTNASAVK
+AVDANSGLSVARWLRLLSAEVAMKQDKFQAALQHLQPSGAVSDLARPELMAAAQAVQRLP
+GHAMQAEITRQLRQRVFVAPHDAQAWNLLASLLAVQGQALASLRAEAEAQVARLDWEGAL
+DRFRAAQDLAKRSRLQAGEHIEASIVDTRLREVQAKLRALIQPSPSQR
+>tr|A0A0P0M9K1|A0A0P0M9K1_9BURK
+MTSEFQIDIPASFMALYVPPGKIKPTLGQRELAARYELCEDLANLLTEKAANMQFTLGIT
+EELVLAQCEAGLLAEPAVVTPDEARWVVCRLAELLQWPMYQLLQSPAAHTAR
+>tr|A0A0P0M9F5|A0A0P0M9F5_9BURK
+MDVKTGFFYLFSVVLLFAAFRVVTARNPVHAVLYLMLAFSQASAVWFLLNAEFLAILLVL
+VYLGAVMVLFLFVVMMLDIGIDTVRKGFWKNFPLAATLGAVVALEMAAVLLSGFRMSEAP
+AMGTGAVQVDNAKALGILLYTEYLMPIQIAAAILLVAMIAAIALTLRERKDSKAIDPSIQ
+VRVRAADRMQVVKMAPTQAAPAPVAPTEAAAEEVKK
+>tr|A0A0P0LUW5|A0A0P0LUW5_9BURK
+MSSGILAIVPAHAFSWADLSAGDASQGLKLALEKGASAAIGLLGVQDGFMGHDKVRIGLP
+DALNKGARMLKTLGMGQQLDALTLQMNRAAEQAVPLAQKALMQSIQTMSVQDAKGILKGG
+DTAATQFFVDKTRAPLSAEFLPQVKQVLGQLGVVEQFNAVAGKLSSMGLVSRDKALLENH
+VTAKALDGLYYMIGEEEKKIRQNPAQAGSALLTKVFGALR
+>tr|A0A0P0MAM4|A0A0P0MAM4_9BURK
+MSANFQVNYQTSPAEYKHIQLSFDGEIATLSININEDAGIRPGYKLKLNSYDLGVDIELH
+DALQRIRFEHPEVRTVVVTSLKDRVFCSGANIFMLGVSTHGWKVNFCKFTNETRNGIEDS
+SKHDGLKFVAALNGACAGGGYELALACDDIVLVDDRSSAVSLPEVPLLGVLPGTGGLTRV
+TDKRHVRHDLADIFCTSVEGVRGQKAVDWRLVDAIAKPAVFKDVVKARATKLAAGSIRPV
+GAKGVALTPINRTIAADALTYTNVTVDIDRAKRIATFTVKAPATAQPTDIAGIEAAGMNW
+WPLQMVRELDDAILHMRTNELDIGTWVIKTSGDVAAVLASDATMLANKDHWFVRETIGHL
+RRTLARMDVTSRSLFALVEEGTCFVGTLAELAFCADRAYMLALPDDEAKAPKIQLNEMNF
+GFFPMVNDQTRLQRRFYEEVPAMEAARGAIGKALDADAALALGLVTAAPDDIDWADEIRL
+ALEERSSMSPDALTGLEANLRFAQQENMLTRIFGRLTAWQNWIFQRPNAVGEKGALKVYG
+KGEKVQFDMNRV
+>tr|A0A0P0MBT9|A0A0P0MBT9_9BURK
+MPIQHAIWQVADKPAILPAAKLASEQLLESMIVREPRILSSEWMLIGQQEVTSHGGRIDL
+LAIAPDGSLVLIELKRDRTPREIVAQALDYASWVVDLTADRIVQIYQRFSKGGSLQADFQ
+KRFGLVLDEDTLNHSHQIIIVASELDPSTERIVAYLNARDIAINVVFFKVFEHGGQQLLS
+RAWMIDPGETQANAAATNTAKGEAKEPWNGEFYVSFGSNEHRSWEDARRYGYISGGGGTW
+YSQTLKLLSPGDRVWVKIPQTGFVGVGEVTESVQSAKDFTVVTPEGDRLALDVLQHGPLY
+SATADDPEQAEYFVRVKWLHAVDAAHAFNEVGLFGNQNTVCQPRAAKWRHTVERLKTVFA
+GWGG
+>tr|A0A0P0M9J5|A0A0P0M9J5_9BURK
+MSPDTDAPFLPDSEFDLRARAELAIAFEASDAPAHLYRKPQPLLARRGLQRFLAALLLAG
+GTSGGVLAVRPPAMVRDAIDHEYHERSLRGSFMEQRQLLMHLGMRDANVVPGFPQLMRPC
+DIEGHLAYHLTTFFEKGGMVTVYAFDQPVDLREASGWWSNVHWKVIRSREGKPLLLVAQK
+KKALAVAQTALQAPPVSGPG
+>tr|A0A0P0M9K5|A0A0P0M9K5_9BURK
+MTQDELKALVGQAALKYVVPGEIVGVGTGSTVNKFIDALAIMKDQIKGAVSSSEASTVRL
+KALGIPVFDCNEVESLSVYIDGADEIDHQGHMVKGGGAALTREKIVAAQSKQFVCIADES
+KLVDALGAFPLPLEVIPMATARVMRQFAAMGGSAVVRLKDGQPLVTDNGQHIVDVKGLKI
+TDPVAFENTVSQWPGVVTVGVFALQKAQVCLLGTSDGVKTLVF
+>tr|A0A0P0M8K9|A0A0P0M8K9_9BURK
+MGNFAEFHARSINDRDVFWAEQAKLVDWKVQPQQICDYSNPPFAKWFVGGQTNLCHNAVD
+RHLAERADQPALIFVSTETNQERTYTFCELHTEVQRMAAILQDLGVVKGDRVLIYMPMIA
+EAAFAMLACVRLGAIHSVVFGGFASHSLATRIEDASPKVIISADAGSRGGKGVPYKPLLD
+EAIKLSAHKPVNVIMVDRKLAAFTPVAGRDVDYATERAKHMDAVVPCVWVESTHPSYTLY
+TSGTTGKPKGVQRDTGGYTVALAASIPNVFEGKPGGTFFCTSDIGWVVGHSYIIYGPLIG
+GMATILYEGLPIRPDGGIWWSLVEKYKVQVMFSAPTAIRVLKKQDPALLSKYDLSSLQAL
+FLAGEPLDEPTAKWISEGLSGKAIIDNYWQTETGWPILSICNGVEKAPSKFGSPGKAIYG
+YNVKLVDDQTGEELTGANQKGVLTIEGPLPPGNLQTIWGDDERFVKTYWKTVPNKLVYST
+FDWAVRDEDGYFFILGRTDDVINVAGHRLGTREIEESISSHPNIAEVAVVGVADQLKGQV
+AMAFAIAKDTSGLTDAAARLKLEGEVMKVVDSQLGAVARPSRVFFVSALPKTRSGKLLRR
+AIQAVAEGRDPGDLTTMDDPAALQQIVDQIQG
+>tr|A0A0P0LSE2|A0A0P0LSE2_9BURK
+MVVTRARASGALWGGLSEGATVLVDTAPWIYLLEDHVEFAPRFVGLFEAAERGQIQLALS
+TVSLAEVLTGPLKAGQTALAKRYETALGAYQVVPLSAAVASLAAQLRVQYRLKLPDAVQL
+ASALEIGAAALVTHDRDFSAVQGLPVLMGP
+>tr|A0A0P0LU96|A0A0P0LU96_9BURK
+MKVLLTFVIAYLAVTIGIGLFAARRVHGAKDYLVAGRSLPLYMNVATVFATWFGAETVLS
+VSATFAKDGLNGIPGDPFGATVCLVLAALLFAKLFYRLNLLTIGDFYKVRYGKSVEVLTS
+VAIVLSYLGWTSAQLTALGLVIHVLSSGAIDLNYAIMMGAAVVLIYTVFGGMWSVAFTDL
+FQTVVIVVGLMAVALLVGGNAGGFDKVVAQAAADGKLDMFPADMDAAAWWAMAGAFFAFA
+FGSIPQQDVFQRMTSAKDEKTAVRGTIIGGLMYFVMAFIPLYIAYAALIAHPELKALFES
+EDARAIQRILPDLVLGKMPMWAQILFFGALLSAILSTASGALLAPTATFTENVLKPFVPH
+MSDRQFLLLLRVILVTFTSFALLFALNSTSTMYEMVQNAYNVTLTGAFVPLVAGAFWKRA
+NTQGALFSVVLGVGTWLVFNFLAPETLVPANLLGLMASIVGMLLGSLTPSVIANQGQSMA
+SALDHAARDTTKR
+>tr|A0A0P0M6N3|A0A0P0M6N3_9BURK
+MTARTAIHNLQVANPLLSFINDQMLPATGVDKDKFWKGFNDIVADLAPKNIALLAERDRI
+QTAMDQWHTANPGPVAEGKAMKAYRKYLAQIGYLVPEPKNAQATTANVDAELAKLAGPQL
+VVPILNARYALNAANARWGSLYDALYGTDAISEADGCEKGTGYNPQRGAKVIDYCRNVLD
+RTAPLKTGSHVGSKGYAVKAGKLVVTLANGKNTTLANDKQFVGYTGDAKAPASVLFVHNG
+IHLDLQINKSTPIGKTDPAGVSDLIAESALSTILDLEDSVAAVDADDKVLAYANWLGILQ
+GTLSEEVQKGGKTFTRTMNGDREYTKPAGKGTVKLHGRSLMFVRNVGHLMTNPAILYKGA
+DGKNHEIPEGILDAMVTVTCALVDLQKKSSHPLRNSRTGSVYIVKPKMHGPAEVAFADEL
+FGRVEKVIGMKPSTVKLGIMDEERRTSANLKACIAAAKSRVAFINTGFLDRTGDEMHTCM
+LAGPVMRKGDIKNSTWLGAYEKNNVNVGLACGLRGRAQIGKGMWAMPDLMADMLKAKIGH
+PMAGANTAWVPSPTAATLHAMHYHQVDVPALQKQMEKAVAKQDPKQLREDTLNALLQFPV
+VAKDAANWSAEDKQKELDNNAQGILGYVVRWVDQGVGCSKVPDINGVGLMEDRATLRISS
+QHMANWMQHGVVTEKQVKQTMERMAAVVDAQNAGDAAYQPMAGNFAKSAAYKAACDLVFK
+GKAQPSGYTEPLLHAWRLKVKAA
+>tr|A0A0P0MB38|A0A0P0MB38_9BURK
+MLIAESQSMLFEAPLPLQSGASIRGYSLSYETYGTLNADKSNAVLICHALNASHHVAGVY
+ADQPKNLGWWDNMIGPGKSLDTDRFFVIGVNNLGSCFGSTGPMHTNPDTGRVYGADFPVV
+TVEDWVNAQARLLDALGIEQLAAVMGGSLGGMQALSWTLQYPERVKHAVVVASAPNLNAE
+NIAFNEVARRAIVTDPDFHDGHFYAQGVVPKRGLRIARMIGHITYLSDDVMNEKFGRELR
+EAVTHNATGYKYSTQEVEFQIESYLRYQGDKFSEYFDANTYLLITRALDYFDPARAFGGD
+LSQALARASCKFLLISFSTDWRFSPARSREMVKALLDNRRDVSYAEIDAPHGHDAFLLDD
+ARYMNVVRSYFDNMAKTLNEGGAA
+>tr|A0A0P0MA23|A0A0P0MA23_9BURK
+MSTIAHPPVQCPTRTASAVLFSWSPSASAVLLALWLSALGSVFTSPPAQAQQAVYRCGQE
+YTNAPREPALCEPLAPQAITVINGTRPAIQPQASTSAAVPTRSASAEPVAAAPNAAAQPR
+TPAVPSRLPDVQQSERDGQARTILMQELDKARAQLAQLVHSYNQGEPEKWAAETRNHQKY
+LDRVAEMKAAIERTERDIDSLQRELSRRPVHTSVRMP
+>tr|A0A0P0MB89|A0A0P0MB89_9BURK
+MNINATLFIQMIVFAILVWFTMKFVWPPITKALDERAQKIADGLAAADKAKAELSSANAR
+VESELAKSRNETASRLADAERRANGIIDEAKARATEEGNKIIAAAKAEAEQQSVKAREAL
+REQVAALAVKGAEQILRKEVNAGVHADLLSRLKTEL
+>tr|A0A0N7J8U6|A0A0N7J8U6_9BURK
+MALLQISEPGQSPDPHQRRIAVGIDLGTTHSLVASVRSGVAECLPDDEGRVILPSVVRFM
+PGQGRQIGFDALQSAASDPVNTIASVKRFMGRGLNDIADRSKLPYEFIASEQGMLSIQTV
+QGPKSPVEVSAEILATLRYRAEDTFNDDLYGAVITVPAYFDDAQRQATKDAAQLAGLNVL
+RLINEPTAAAIAYGLDNASEGVYAVFDLGGGTFDISTLRLTQGVFEVLSTGGDSALGGDD
+YDQALADFAMAQQPGLQAATAEDKTRLKAAARAAKEALTGTDIAHLNVALSTGALSVQIS
+RADFEQTTQALTARCITAVRKALRDAQLAKDDVQGVVMVGGSTRMPQIQQAVAEFFGQAP
+LNNLNPDEVVALGAAIQANQLAGNNAAGELLLLDVIPLSLGIETMGGLVERIIPRNQTIP
+TAMAQDFTTYQDGQTALALHVVQGERDLVQDCRSLARFELRGIPPMAAGAARIRVTFTVD
+ADGLLNVGAKEQISGVEARIDVKPSYGLSDDQIATMLQESFTTAQADMKARALVEARVDA
+DRMLLATRSALAVDSQLLSADELASIDALMATLQAAVQTEQDAKALEDCTQALAKGTEAF
+AAERMNHSIQKALAGQNIQTL
+>tr|A0A0P0M9M8|A0A0P0M9M8_9BURK
+MALQPMTTPSTPVFVLGEALMDCIAQPDGRLLPLMGGSPFNLARAAALRGASVAYLNPLS
+RDLFGQGMAQQLQRDGVTLPGGTSAKPTALAVVQIDQGQPSYGFYREGIADRDYTVDGIL
+ALLRESPKPGIFHTGSLLLIPPEHHKVLAILQAARAMGWTISVDINLRPQVAGELGPYVA
+ALKEVIALTDWLKASDEDLQTMGFADVRPAESARLVQALRAGVSQSALNRVALTFGGEGA
+HLDIAGQGHSLPVPPTQVVDTVGAGDTFWGNTLADWALQPEGAADRVATTLAQAMKAAAL
+NCARQGCQPPRWAEVQAA
+>tr|A0A0P0LL21|A0A0P0LL21_9BURK
+MSSPQPGRATRTFRWRGLDSQGQPQSGQIQALNADLARVQLRRQGLQQVQVHRLWWSPPD
+RIKAKDLAVMTRQWAAMLRAGVPVVQALGMLCRSMSAKALVTVMQGVRSDVEAGVALHVA
+LAQRPQHFSGLYVHMVQAGEAAGILDTMMERLSMTLEKNEAMRSKIRSALMYPIAVMVVA
+LGILVLILVLVVPVFQDVFQSFGAELPLATQMVVGLSDALVGAWPVALPLGLLLIGAAQQ
+NSPATSRVRQWLARWWLRWPVLGPLLTTAVVARWAQTLSALLAAGVPLPEALGPTAQACD
+HPVFERTTLQLQRRVVQGHSLSDSMTQSGRFPAMIVQLCATGEETGALDSLLGRAGGLME
+SALDDQVNGLSSLLEPLIIVVLGGFIGAILVAMYLPIFSLGQVF
+>tr|A0A0P0MA43|A0A0P0MA43_9BURK
+MAATAIHLTWFNPVQLTWGPNLLHTHTPDKAFFVLADPHAISLAMEVDLRRHWGDLCQGW
+IWQRSAQSSMSAALELCQQLWPMWATQPDVALLAIGGGTTLDLAKLARFELPDLSQATSV
+WRANKLPYPHKRHTLWCAPTTSGTGSEVTPWATLWDLDTQPALKRSWSSPKGFADQAWVD
+PYLTLSCPEGLTRDTALDTLAHALESIWNHHANEITRPLAVRSARMVLQTLPALLKSPQD
+TGLREQMSQASVLAGLAMSQTQTALAHALSYDLTLHENLPHGHACSVWLPMVLDIAAAIS
+PQVQDDLAHVFDCRWQQAREHLTNWLQSLGIAPRELRQNPVGLYQLQQALASPRGRNFVG
+STA
+>tr|A0A0N7J946|A0A0N7J946_9BURK
+MNFEPLIELTRNGIPECMHMGALAVTDTEGRVLAQVGNPHWLCFTRSTLKAMQALPLIQS
+GGAAHFGFTPSELALMCASHNGEEMHVEKVSSILRKSGSNTRQMRCGCHVPYRFTFFDRP
+MPEGFAYDERHHNCSGKHSGFLAYCVQHGLPTESYTEVDHPLQKQIRLAVAHLAGLSEEE
+LALGIDGCSAPNYAMPLSRLARSYARLAQPESDGLYGASLQQLGEAMSAYPELVSGTGRN
+DADFMRVGRGDWVTKVGADGVQVVGSRSRGQALAIKMMDGNKAALFAATVEALDQLGWLD
+DTQRQALAPWRAQVLLNVAGSPVGERRSVFKLQTGA
+>tr|A0A0P0MBR4|A0A0P0MBR4_9BURK
+MTKIYRTLGLLCGLTFLAGIPAQGQTPATPSAAKPSLTVTVTTPQTASLAQKISANGNLA
+AWQEAIVGAEANGLKITEVRVNVGDRVQRGDVLAVLQADSLRAELAQAEGTLAEAAASAQ
+EAKAQADRARSLQQQGFFSAAQLSQALAAEASAVARVQSARALVQLQNVRLSQTQVRAPD
+AGVISARQATVGSVVGAGTELFRLIRQGRIEWRAEVTAAEIGRIQVGAPVQIKAANGQVL
+QGKVRMVAPSVDAQTRNALVYVDLPAQTGSARAGMYAQGEIALGQSQALTVPQAAVVVRD
+GFSYVYTVGTDQKVSQLKVQTGRQSEGRVEVTSGLKADARVVASGGAFLNHGDTVRVVDA
+PAPPAAPAAK
+>tr|A0A0P0LMY5|A0A0P0LMY5_9BURK
+MAAVSGTAFAQSTVTLFGGADLNYRSVTSGTNKFQGMAQDGIYSSRFGVRGEEDLGGGLK
+ANFHFEGGMNPDTGTPGGFNFARKSTIGVAGGFGEVRMGRDYTPLFTIAGIADPFGTNGV
+GSSYNLANSVTLASSEVTAADVTTAGGFATAATATANAVYADPNAVRANNSVAYYSPSFS
+GFTAGLMYSFGSEATGTTNRDAGKMTSLKLQYGNGPLVAALGTQSTKGATDQKAKWATTF
+LAGSYDLGVAKVSAGYKTDKLTETDGVNSGSIKSTILGVAVPMGATTLKASYVARKAEEK
+IGNQLAFGAVHDLSKRTSVYGTYSVLKNEEGFGNTVGSAIASDFTGLKSKGFEFGVKHNF
+>tr|A0A0P0M6R7|A0A0P0M6R7_9BURK
+MHLCILENDDLDPPLSQRYTRVAAMFEHLFAQTGYQGRIDTFSARHGQYPASFETYDAVL
+LTGSRADSFSDEPWVVALREQVTRLLQGQHKLLGVCFGHQLIAHCLGAPVQRAPQGWRVG
+RQAYEWLGDAEHLGLAPGVPARMALLASHQDQVLALPPGATLLATQADCPVAAYALGDQV
+FCIQPHPEFTPEMSAFLLDKRRALLGEPLYERSMGSLSEPHDGLALARFMIRFVQYGLSA
+>tr|A0A0P0MBJ2|A0A0P0MBJ2_9BURK
+MFFLQSLRNAHRLTRLVLVWFALFVGVAVASPLVNPEGVQLVCTTAGSVKLIQLDADGEE
+AQSSHHGLHCPLCLPAAAPPVASVSAPVHVGLSHALRPLEQARLASLIGLPWQARAPPSL
+S
+>tr|A0A0P0MBY0|A0A0P0MBY0_9BURK
+MSPSSTPFWPKGVPRTLSLPQVPLTHYVQVAAERYPNKPAVIFCGSTLTYAALLTRVEAL
+AGYLTQRLGVQRGDRVLLMSQNCPQYVAAYYGIMRAGAVVVPVNAMCTQSEIRYYLQDSG
+ARVAVVAQELLPQVMPLLQPGEGDALQAVLVHAYSEGLPAQPASNEVPEVVLAPRQWTEA
+PGLHGLEDAIAQALPAPAQHPGSHDLCVLPYTSGTTGHPKGCMHTHATVLASNMAAQVWR
+SMHMDSVFLAVAPLFHMLGMQGGLNVPITLGATVVMLPRWHAASAARLIEQHRVTTWSAP
+PAMLIDFFANPAAAQRDLSSLSALAGGGAAMPETVANLLQTRFGIAYNEAYGMTETASFL
+LGNPPARGKRQCLGVITPGVDARIVDPETLRELPVGEVGELVTRGPQLMRGYWQNEQANQ
+SSFFELDGQTFFRTGDLASVDEEGYFFMRDRLKRMVNVSGFKVWPAEVENTLYEHPAVHE
+ACVISVPDTQRGENVMALLVLKPDAKGQVTEQDIIDWSREHMAVYKAPRIVRFMDVLPKS
+GTGKILWRQLQEQEHARLNTTSVKETP
+>tr|A0A0P0MC46|A0A0P0MC46_9BURK
+MSTPHHPEGQIDCTVHGTVLQICINRPAKRNGFTPKMYRELGEAYTRLDDDPTLRVGVLC
+AAGAHFTAGLDLPTIAPLMQRGEKAVPLGLVDPLNLGMEGYRRRTKPMVVAVQGITYTLG
+IELMLAADIVVAADDCRFSQLEVQRGIMATGGATLRMAERAGSGNALLHLLTVDVFDSTE
+ALRLNFVQKVVAAPDLLAEAMRIAGQIAAQAPLAVVATRQNVLKAVEQGPLVAMHDFLPV
+QQRLSRSEDAAEGVRSFVEKRPARFTGQ
+>tr|A0A0P0LCW2|A0A0P0LCW2_9BURK
+MKTDPGRRWALAALLIATGAVTACAQFNHDQPNSPVAMSAVPAMTPSPRVALVLGSGGPR
+GYAHIGVMRVLEDAGIPVDLVVGSSVGALLGSFWAQGYSAQALDDLSQTGGPLTVFDFSV
+FADRGWIHGQRLQDYVNKGLNHSNIEDMPRKFIAVATRLPDKQPVFFSAGNVGVAVRASS
+AVHRVFSPVGIRGVEYEDGDESLPVAVRAARQAGARFVIAVDVTARPGSAPEGTSATRLE
+REARRRDRIDPELQHADFVIHPDMGFATRPTTAFFRMARQSGEREAQRLLPQLKAALQNQ
+PWRTP
+>tr|A0A0P0MAN8|A0A0P0MAN8_9BURK
+MPIQCRMTQKLTPVTALLLTVPPLLWAGNAVVGRLVSDLVPPITLNFLRWAVALFILLPL
+AAWVLKRNSGLWQHWRRFALLSLLGVGCYNALQYLALQTSTPLNVTLVAASGPVWMLAIG
+ALFFQAPVRRAQVYGAALSIVGVLVVLSRGDWAQLLAVKLVIGDLFILLATACWSWYSWM
+LSRKDEPEAIRQDWAAFLLAQVVFGLGWSGLFAGMEWGLTDAHINWGWPLVSALAFVAVG
+PAVMAYRCWGLGIQQAGPAVAGFFANLTPLFAAVFSAAFLGELPQLYHVLAFGLIIGGIW
+VSSRR
+>tr|A0A0P0LIQ3|A0A0P0LIQ3_9BURK
+MPASSISPGFIALHSHRSEVLADTLTGWLRTHPLLPLESEVVLVQSNGMAEWIKIELARQ
+GGVCAATRVELPSRFLWRTYRQVLGAANVPPDSPLDKLPMTWRLMALLPSCLQDPVFQPV
+AGFLRGDEPDRLLQLASRLADLFDQYQIYRPDWLQDWAAGRNLLRKAAGHDELGEDQLWQ
+AELWRRVLDTLDDSQRQATRPALHARALAHLQSGQPLASPVARRVSVFGMSHMPGQLLEM
+LAALAAHSQVLLAVPNPCQYHWGDIIDGREWLQAERRRHAYRGEALAGLPLAQMHLHAPT
+LLAAWGRQGRDFIRQLDAFDDLQAAQQVTQWPRLDFFDDVPGEDATRLLAQLQRRIRDLE
+PSSGGTPAQPLRKDDASVTFSVAHSPVRELEVLHDQLLQWFHTSPEPLSPRDVVVMVPDI
+EVMAPAIRAVFGQYKRSDARFIPYDIADLGAQAISPLIHAVEWLLALPQQRSRMSELVEL
+LEVPALAARFGLKDEHLPTLTRWMAGSGIRWGLSAEHRAGLGLGVCGDDNSALFGVQRML
+MGYACGADPVDDGVSLGVSPYFEVGGLDAELAGSLAHLLQALIDWWQICTQSATPAQWAE
+HCRAMLAALFKPRDDNDRNALAALDQALNDWVRACGEAGFEEAVPLAVTRSAWLEALKAP
+RLEQRFRAGGVTFCTLMPMRAIPFKAVCLLGMNDGDYPRRSPRADFDLMGLPGMTRPGDR
+SRRDDDRQLMLEALLSARQVLYVSWSGRSVRDNSEQPPSVLVSQLRDEIDLLWGKDTAKG
+LTTVHPLQPFSRAYFEAGSGLLTYAKEWRAAQDVQRGDGASETGTPSSALALLSPLMAAN
+EQAPIISIAQLARFLRKPVGAFFRERLQVHLEDERSELHDEELFGLGGLDLYQLLDHELQ
+HVPADLIADELPSHAARVVQQLREAGALPLAGVGTLEAQKLTHILQTQLAAALRECGAYP
+EAAERVLVDQTHPQVSLQDALGGVLAGEGGQMLLSLRANDVADLKPKTPLARPEKLIDIW
+LQSLAAAAVGHSVRCVVVGRNAVVRAEPQDPEAARTQLQTLLAIWAEGMRWPLPLPPGVA
+LQWLKDKENTNALADAYEGSDFKSAEKDKDPALARTYPTVQDLLATGALDRLAQAVYAPL
+KAWAAEAEVEALPGAPADDEGEKA
+>tr|A0A0P0M719|A0A0P0M719_9BURK
+MPILSTIQSRLTALLLNILFIGTAVLGAVLIATQKLLAWLDGYHPQLNQASLVFQGWLKR
+YPKTIVASLASVLLVGGGGAFAVANLGPDIADQPVVNITVPVEIAQLEAQAELLDQFQVN
+LTRSDQTRPADTPEALLRRLGLVDAEAAAFLRKHPLARQALQQGGRAVSAEVTGQQSLLS
+LSVRWLKNENDTFFQRLRVERSGQGFQAALETSPMNTSIRMTGGTVTRSLYDAADEARLP
+DPVIHQLTQIFSNQIDFHRTLRKGARFSVVYEVLEADGEPLRTGRVLSAEFHNDNQQYDA
+VWFQEPGQKGNYYDMDGKSLSRSYLASPLTFSRQSSGFAMRLHPIFNTMQAHRGVDYAAP
+TGTPAMTVGDGVVTFAGRQGGYGNVVEIRHGNGHSTLYAHLSRIQVRTGQTVQKGQVIGA
+VGSTGWSTGPHLHFEFRVNGVHVDPQKIIQQAQSGPIPTASMARFKAMVNQAQSQLQAAA
+QMREVNSQ
+>tr|A0A0P0LF34|A0A0P0LF34_9BURK
+MSGAHTSHGASAAHTSAFQRDMDESMARMMQAMHSPGYAGQADQDFLAMMIPHHAGAVDM
+ARLVLQHGRDPVTRQLAEEIIAGQTVEIQSMQRRLHTLQQRTAKGAEAEFPSLGGTRGP
+>tr|A0A0P0M7J8|A0A0P0M7J8_9BURK
+MFKVHAIPPERLPELLRTMPKAELHIHIEGSLEPELIFALARRNGVSLPYADVAALRSAY
+AFTNLQSFLDLYYAGASALLHEQDFYDMAWAYFEKAAADHVVRAELFFDPQTHTARGVPM
+AAVIEGLSRACSDAQAQLNISADLILCFLRHLSEEDALATLEEAMPWRKHFIGVGLDSSE
+LGHPPEKFSRVFARARELGLHCVAHAGEEGPPAYIWGALDVLQVERIDHGVQAIHDAALM
+QRLAESRMPLTVCPLSNLKLCVFKNLADHNLGQMLDAGLCVTLNSDDPAYFGGYLNDNYL
+QTFAALHLNAQQAYQLAANSIEASFASGADKRRWMHELKACFQGFAEQD
+>tr|A0A0P0LU72|A0A0P0LU72_9BURK
+MTQRPNIIFIVADDLGFADLGCYGGRDAQFGKVSPVLDRLAAAGLKFTQGYANSPVCSPT
+RFALMTARYQYRLRGGADEPINSKSKGSMVLGLPPEHPTLPSLLKARGYRTALIGKWHLG
+YPPHFSPIKSGYEEFFGPMSGGVDYFTHASNNGTHDLYTNEEEKHEDGYLTDLISNKAAD
+FVNRMAPGTAQGTPFFLSLHYTAPHWPWETREDHALAQEVKDNLFHLHGGNIHTYHRMIH
+HMDEGIGWVVDALKKTGQLDNTLIVFTSDNGGERFSDNWPLVGGKMDLTEGGIRVPWIAH
+WPAVIAPGGTSTQHCMTMDWSATLVELAGAQADADHPFDGVSLAPVLRDAKYQFERPLYW
+RMNHRGQRALRLGDYKYLRVDGNDYLFNIPADERERANLAQREPAKLNAMRQAWEAWDST
+VPAIPEDATISLGYSVKDMPQR
+>tr|A0A0P0M8E3|A0A0P0M8E3_9BURK
+MTKKATHDEEEMGILQALTSGNLQSVKDAPARLKAHQSVAEATLKKDQRLNIRISSKDLK
+NLQARALEEGVPYQTLAASLLHKYVSGHLVNQR
+>tr|A0A0P0M9Z3|A0A0P0M9Z3_9BURK
+MSTSAPDFWTQMSDGFQQNLSKSWSQAMQHFQTIDLGGLKPSADASVPNLKFSPEKLQSL
+QGQYFKDASELWNQSLHNSLQVKDRRFSGEAWSTNPMAAFNAATYLLNARTLMGLADAVD
+ADEKTRTRIRFAVEQWVAAAAPSNFLAFNAEAQKKAIETHGESIAKGVKNLMHDMQQGHV
+SMTDESLFEVGKNVATTEGAVVFENEFFQLIEYKPLTAKVYEKPFLLVPPCINKFYILDL
+QPENSLIRYAVSQGHRTFVVSWRNPDESMAQKTWDDYIEHAAIEAIHTVQAITGAPKINA
+LGFCVGGTILSTALAVLAARGEKPVASATFLTTLINFTDTGILDVFIDENFVKFREQQMG
+QGGLLKGQDLASTFSFLRPNDLVWNYVVGNYLKGETPPPFDLLYWNSDSTNLPGPFYAWY
+LRNTYLENNLVKPGKVTVCGEAIDLGKVDMPVYIYGSREDHIVPIGGAYASTQVLPGKKR
+FVMGASGHIAGVINPPAAKKRSHWLSEGTKFPADVNDWIANAKEVPGSWWTDWSDWLKGH
+AGKPIAAPKTYGKAAKYKTIEAAPGRYVKAKA
+>tr|A0A0P0MB31|A0A0P0MB31_9BURK
+MCLLAWANAAAHAKTQAPNQLASSLAADQCLLPAAQRHGVNPHILRAILQVESGMRPHVV
+SRNRNGSIDVGMAQINSIHFRELAQWGITPERLLDPCVATHVAAWHLKRVMLHHGNTWFG
+VAAYHSATPVHNQRYQALLRQELVRTGVWR
+>tr|A0A0P0MBY1|A0A0P0MBY1_9BURK
+MNKIRTGDEVIVITGRDKGKRGKVSSRASDSHLLIDGINIVKKHAKPNPMKGTTGGIIEK
+AMPIHQSNVAIFNAATGKADRVGIKLQADGKRVRVYKSSGEEIKVA
+>tr|A0A0P0M723|A0A0P0M723_9BURK
+MSQAIGMIETKGYVAAFAAADAMVKAANVNIVGKKEVGGGLVAIIVSGDVGAVKAATEAG
+AEAAGAIGEVVSCHVIPRPHADVSKAFDGK
+>tr|A0A0P0M7U8|A0A0P0M7U8_9BURK
+MSRIDPTLSALKSQDRKALIPYVTAGFPQKTTTVPLMHAMAEAGADIIELGVPFSDPSAD
+GPVIQKAGDKALALGIGTVQVLDMVREFRQTNTTTPVVLMGYANPVERYDQKHGADSFIR
+DASAAGVDGVLIVDYPPEECVEFAAKLRAHSMDLIFLLAPTSTNERMQQVAQVASGYVYY
+VSLKGVTGSGTLDTDAVEAMLPRIRQHVSVPVGVGFGIRDAQTAKAISRVADAVVIGSRL
+IQLIDAAPADRINDVAAEFLSGIRQALDA
+>tr|A0A0P0LI75|A0A0P0LI75_9BURK
+MRSVIRHPVTFKGSRLARWILKILGWRLDFEGFPTRQGVAIVYPHTSNWDFPIGMLAKWA
+LGIPAHFWGKDSLFKFPVIGAWMRWVGGIPIDRSSSRGVVGQMVHVFEQHKQNDQLLWLA
+LAPEGTRSLTPGWRSGFYQLALGAQVPLALVKLDWGQRRFTVVDFYDLTGQVERDYAHMA
+QVFEGVKGFHEHQMGPILPYSPGQKLESAQPKP
+>tr|A0A0P0MA82|A0A0P0MA82_9BURK
+MQQAEFEQLLQRFSAAAEAGDGEAFAQCFTPDGVYHDYIYGDHTGRADIAHMMNDLFHRD
+AGPDYRWEMFDPVCNGRVAYARSLSSFTSKVPEFAGRQVVIDGISRFELQDGLICDYSES
+VNGGVAMVQLGVAAPRLEKVLKRWSQQLIDQPATQAFLARGKRTV
+>tr|A0A0P0M8C9|A0A0P0M8C9_9BURK
+MDPQHLDVVAFARGGLRLQGEGALADWPRLAEEQHGDTVAPGQVQWLLQGRAVAQSGASD
+QLWLDLKASLMLPMQCQRCLSPVLEAVQAERSFLFVADEAAAQALDDEVEDDVLVISRDF
+DALALVEDELILSLPLVPLHDVCPETLPMSVADPAFEAAAERPNPFGVLASLKTGQDR
+>tr|A0A0P0LC54|A0A0P0LC54_9BURK
+MTDLLKTIDSPADLRRLQRTDLPQLADELRHCVLDNVSKTGGHLSSNLGTVELTVALHYV
+FNTPEDRIVWDVGHQTYPHKILTGRRDRMPSLRQFGGLSGFPRRDESEYDTFGTAHSSTS
+ISAALGMAVAARQKGESRHSIAVIGDGAMTAGMAFEALNNAGVEECKLLVILNDNDMSIS
+PPVGALNRYLAQLMSGRFYSAAKAGAKNVLKNAPPLFELAKRLEEHAKGMVVPATLFEKF
+GFNYIGPIDGHDLESLIPTLENIKHLDGPQFLHVVTKKGQGYDKAEADPVAYHGPGKFDP
+SVGLVPAATPAKTTFTQVFGQWLCDMAEKDMRLVGITPAMREGSGMVAFHQRFPKRYYDV
+GIAEQHAVTFAAGMACEGLKPVVAIYSTFLQRGYDQLIHDVALQNLPVVFALDRAGLVGA
+DGATHAGAYDIAYIRCIPNMSLACPADERECRQLLSTAYAQNHPVAVRYPRGAGVGTEPG
+RDLDTLPFGKGEVRRQGEKLAILAFGTLLAPALQAAEKLNATVVNMRWVKPLDVDLLAQI
+AQSHERLVTVEEGCVMGGAGSAVGEVLQQLNLQRSVLHLGLPDEFIEHGDPAKLLALQGL
+DAAGMEATIRQRWPD
+>tr|A0A0P0MA64|A0A0P0MA64_9BURK
+MNATTSSATPVTTAASPSSAAGKSAVKVAAKPAAKPATKAASAKKTPVKATRKTAAKAPK
+SKPSPAQAAPLSPPATPNKAKTGPAKAAQPKAVDKKKSGAPAKAAKEKKVKVVRDSFTLP
+KTELLQITEMKKRAMALGVEVKKSELIRAGLQALAGMADTAFKKAMSNVPTIKTGRPAKD
+>tr|A0A0P0MBW2|A0A0P0MBW2_9BURK
+MKNFNRRQLTTWVLASLGLGATMTASAQEWTPTKPVRIIVPITGSTNDVLARLIAPKLQE
+VFGQPFVVENKPGAGGNIGADMVAKAAPDGHTLLIGYNGPLAINVGLFDKMPYDPVKDLA
+PITLMVKAPQYLVVNPASGITSVKDFVEKTKANPTKYSYGSVALGSASHLTMEMFKSAGG
+FHITHIPYRGAGPAVSDLIGGNIQAGFFVPGNVQQFAKEGRLKLLATSGLKRFASTPDIP
+TLSESGYPDFEATSWIGFLTTGGTPAPIIERYNREIVKIVRSPEITKRLLDMEFEIVATT
+PNQFRDWIGAEIKRWGKVIKDTGTKAE
+>tr|A0A0P0LNL4|A0A0P0LNL4_9BURK
+MSEELALKLNDFTTKGYVIAPAGYGKTHLIAMAVKAATKRQLILTHTFAGVNSIKTKMTA
+LGVPASKYQIDTIASWSLRLCLAYPKTSGWKVEHPTSKQWNKLYECCSGLLGKQFVRHVV
+SATYAGVYVDEYQDCSDLQHGLVCAFAEFLPCRILGDPMQAIFDFGGDESKPVDWAVSVY
+PTFTCLGQLETPWRWKTNGDPNLGAWLKKARETLEQGQKIDLLNGLPACVKRVQTTPQFL
+ASKQCSSLMGLLGHQESVIALHGGDQQSKNKTHLLARTMGGKFSSIEEVEGKDLHSFIKK
+LVAAKTTQQGFLLALDFSKKCFTGVGDILTAGTKRGEVAKQSKGTKYPLVLHAANAYLNS
+PTSAHLRAFFLALKDNPETSAYRRDLLYRFLNVLKIHIDGGGTTLTDAANLYQRDMRHTG
+RPISHRKLIGTTLLVKGLEYDHAVILDADTLDAKDLYVAMTRGAKTLTIVGEQWHLPAR
+>tr|A0A0P0LTW7|A0A0P0LTW7_9BURK
+MNFDYQFPYTSTRLPLFARNVVSTSHPLAAQAGLRMMLKGGNAVDAAIAAAAVITLTEPV
+SCGLGSDAFAILWDGKELHGLNSSGPAPATWTPEYFHRKYGAETKTPPKRGFDSVTVPGA
+VAGWVALSDRFGKLPFADLMEPAIEVAERGYLIPVVVQQKWAAATPELQSQPGFAQSFLP
+WGRAPQVGELFQFKNAARGLKAIAATKGQALYGGEIAQAIEKFAKENGGSITAKDLADFK
+PEWVKPMAQDYRGYTLHEIPPNGQGIAALIALGILSNFDMASHKVDSADSQHLQIEAMKL
+AFADTYRYVADPRFMELPPEQMLDPAYLSSRAKLIDMKKAQDFKAGNPVKGGTIYLTAAD
+ENGMMISFIQSNYMGFGSGVVEPTYGISLQNRGHGFSTDLQGQNPANLVLPGKRPFQTII
+PAFVTKDGQPVMSYGVMGGNMQPQGHMQTLVRMLDYGQNPQAACDAPRWRFNTGLNINVE
+AAMNGGTVQELIARGHQLDIINDSYQDFGAGQFIWRMGDPAVQGYQVASDPRRDGQAVGF
+>tr|A0A0P0M7A5|A0A0P0M7A5_9BURK
+MLEVKNIHQYYGGSHILRDVSLSATQGQVTVLLGRNGVGKTTLLKSLMGLVPIKSGSVTL
+GGQDLSNAKPYERAAAGVGYVPQGREIFARLTVEDNLRMGLATQPGGTPIPPELFELFPV
+LKLMLHRRGGDLSGGQQQQLAIARALAAKPRLLILDEPTEGIQPSIIKDIGRVIRQLADV
+GLQGQRMAVLLCEQYYDFAEELADQYLVMERGEVIASGPGNEMRDKNIQQLVAI
+>tr|A0A0P0M7H3|A0A0P0M7H3_9BURK
+MNADILLSAQDLSVRFGGVLAVNKVSFDVKRGEVFTLIGPNGAGKTTVFNLISRIYTPTT
+GVIDYAGPQGTLRLTDQQPHQIAGLGIARTFQNIELFEHATVLQNLLIGRHTHRKTGVWS
+EMFFSRKTRAAEIEAREKVEEVIDFLDLQHHRDSMVAGLPYGVRKVVELARALCTEPKLL
+LLDEPSSGLNVEETEDMAFWISDIKNELGITVLMVEHDMSLVSKVSDRVLAMSQGEELAT
+GTPSQVQSDPGVIEAYLGSVDDVSSLRRENYVPGGAA
+>tr|A0A0P0MBN7|A0A0P0MBN7_9BURK
+MKSRKRNGLLALMLMSLVGLVVYSIWIEPQRIEVVQHDMSAQSEEVSFRLIQVSDLHLRG
+YGEHEKYIAQTIKDMNADLVVLTGDAIDRQEAIPWLRSFVKELGTVPVLHVLGNWEHWSD
+LSLESLNSTGVRLLLNERWTLIKGQRRLEIIGLDDYTAGQPDLGLISISSSFSRDKSTVL
+VQHSPGFFDQASVTREMGAQRFDLCLAGHTHGGQVAIFGWAPMKPVGSGRFTAGFYDVPG
+CRLYVSRGLGTSVMPIRLGSRPEVAVFEF
+>tr|A0A0P0M6T1|A0A0P0M6T1_9BURK
+MKTNKFNVLLLSAGRRVELIKAIKQELQLRGLQSMMFATDLKPEMSAACQLADQAFALSR
+VTAPGYMDQLLALCLEQKVGLVIPTIDTELLSLAEHRERFSAEGIDLVISDESLVRVCRD
+KRLTAQLFNSVGIDVPKILDRQLLAFPCFAKPYDGSRSVGAAKLCHAADLSDGMRDDPKM
+MFMEFIDQSFEEYTVDAYYDRKGILKCLVPRHRLEVRDGEVNKGVTRKHHVYEYLIDKLA
+KIKGARGCLTVQLFAHPHEKRYAALEINPRFGGGYPLSYSAGANYPGWLIDEYLLPKEID
+FFDGWTSDLMMLRYDAHVLVKNAH
+>tr|A0A0P0M7F6|A0A0P0M7F6_9BURK
+MSEAFVYDAIRTPRGKGKKDGSLHEVKPISLLSGVLRELQSRNQFDTAAVDDVVMGVVSP
+IGEQGSVIPKVAALAAGWDWRCSGVQLNRFCASGLEAVNMAAMKVRSGWEELVVAGGVES
+MSRVPIGADGGAWAQDPETNSATLFVPQGIGADLIATMSGFSRHDVDAFAVESQKRATAA
+RAAGYFDGSVVPVKDKLGQIILAQDEFIKPSTTVETLGGLKASFEQLGGMGFDAVALQRY
+PQVERIHHVHHAGNSSGIVDGAAAVLIGSEAAGKTHGLTPRARIVSVALSGADPTIMLTG
+PMPAARKALAKAGLTIDQIDLFEVNEAFAAVPMKFMQEMGVSHDKVNVNGGAIAMGHPLG
+ATGAMILGILIDELHRRQLRYGLATLCVGGGMGIATIVERV
+>tr|A0A0P0M9R6|A0A0P0M9R6_9BURK
+MSTTDSTFDGPAPAFSICVYCGSKPGNSPEFAQIAVQVGTWIGAHGGQLVYGGGRNGLMG
+LVAEATLAAGGTVVGIIPTALVEKEWAHHGCTELHVVDTMHERKRLMAEKADAFLALPGG
+IGTFEELFEVWTWRQLGYHDKPVGILNSLGYYDTLMAFIGQVVKEGFMADWQTGLVRVGT
+APEVLLQALVEAAGFAPAAKTELL
+>tr|A0A0N7J976|A0A0N7J976_9BURK
+MSSSPTWPPTEAPLRPWLARVVRLVLWGLLVAGLVLGLAWATLHFWIVPRIAEFRPVLES
+LARQSLGVPVRIGGVSAQSTGWVPSFELSDIELQDALGRPALHLPKVQVALSLHSAMQGK
+LDQLVLDAPELTLRLLADGRWQIAGIDWRPTSGQDSPAADWLLSQREVVVRGAQLHWHGP
+GHNPNATPALTSTSPEPLTLRDVDLVIRNTARQHALRLDATPPPGWGERFVLMGQFKRNL
+LSLHPGRLSDWSGQAFAHFPQLDVAPWSAQGLPIPASLRPEAGPMQGQGHLRLWADVQRG
+QWRGGLADVDLKNLQLRLHPSQPAVNLQSLSGRLGLQVHAEGFVAESQELRVIGEEGLSW
+PGGQLTLDYTHAQGTRPAKGHLKAEQLDLQALQALALRMPIDETVSPRLHSALQAREVRG
+RVTSLNLRWVGDWNSPEIQEAQAKVEGLSWQPGSAVVAAWGTLPGADVPGLRGGQLTLAM
+TANGGRLDLQTGAGSALWLPGLLEPSEVPLQQMQASLSWARQTGHNAHDSWHVPHWSLRL
+ANADLQGQWQGQWQPAPQGQGPGILSLKGRVQRAQAAAVHRYLPLNLPIEVRHYLRDALV
+QGRYENVQVQIQGDLDKLPFARPEDGTFLFTGDLKDGELDMVPPSLMDPGEVPWPRLHAL
+QGRLTFDRLGMQLREASARVGVGAQAIELKAASVDIADMAHQPVLRVQAQSLADAPLVLG
+VVRQSPLNELLSGALQPAQASGPVLTRFALQLPLLDLNNTRVQGSVQFNGNDLRMLPGTP
+WLNKLYGTLQFHERGFEVRQLQATLLGGPAVIDGGMHSPNPVAGQPAPKPPQTVFEARGR
+VSAAGLQAANDVAPLNLLAQHASGATDYHARLAWPQGLPELTVRSQLGGLGLQLPAPLGK
+TAAAEKPLALQIRSKQTPTGAQDEIKLALGDKVHLVYERDLSTDTPQVLRGRLGLGVLPE
+NLPALPTSGVTAHVVLDRLVVDDWLDLLPPPTNPAANPAPAQTPPQTAAVATPRSAPPLS
+VWQNYLPTRMGLKANSLIAKDRHLHQVQAGGTYEDGLWRVNIDADELSGHVVFVPAMPGL
+SDQAGQLFARLSRLNLQPSNAREVESLLEAPPTSLPALDIVVDALVLRGKPMGRVEIEAV
+NADKGLAQTPVAREWQLKKFNIDLPEGTLRSTGRWLAAREGSPWRKTEMNFVLDVRDAGA
+LLTRLDTPDALRGGTGQIEGMVSWQGSPLNLHYPSLNGHLDVRMGRGQFLKADPGVAKLL
+GVLSLQALPRRLLLDFRDVFAQGFAFDSVQGDVTIVHGMANTRNLQIKGVNALVQLDGSA
+DLARETQKLRVHILPIVDTGTASLVAAITVNPLVGLTTFIAQWLLQNPLARASAQEFLVD
+GSWANPQVTRVDQRPAQTPAPINPP
+>tr|A0A0P0LG56|A0A0P0LG56_9BURK
+MSFVSPEFALLCLVFLPIYWSLAGHPRAQRSLLIVSAYGLYATWVPVFAWVLLAYSTVIW
+ALGRWMQRAGAGRLPWVLGLWLAGSFLVFLKYYEFARETFQTLLQLTGFVSLLPVADWVA
+PVGVSFFTFQAVSYLVMVGRAPALARSWPDVLLFLSFWPTLFAGPIWRAEHFFAQTDETD
+SARRVGRPRHAWLALYLITLGLLQKVVLASWLSAQVVDPVYKYPDQYASVSLAAAMLGYS
+LQIFLDFAGYTLVVTGLALLLGYRLPVNFRQPYLARNLSDFWTRWHVSLSSFIRDYIYIP
+LGGNRLGWGRTQLNVLTGMLISGLWHGANWTFVVWGLLHGLGVVVQNTAKLWGMPAWPRW
+AAQTLTFVFVTVAWVFFRADSVPQALLMLQGLWHSPAGFWQAEQMPWWGLLGIAALVWGL
+SPWALRWQRLSVAWLARLGPGLGGALLALLWCVWLYGAPEGVPSFIYYRF
diff --git a/Exercise11_files/Problem1/Problem1.sh b/Exercise11_files/Problem1/Problem1.sh
new file mode 100644
index 0000000..d0b3f58
--- /dev/null
+++ b/Exercise11_files/Problem1/Problem1.sh
@@ -0,0 +1,25 @@
+#Problem1
+#File already unzipped
+
+#muscle steps for each .ref file
+
+../muscle3.8.31_i86win32.exe -in sigma.ref -out sigma.ref.muscle
+../muscle3.8.31_i86win32.exe -in sporecoat.ref -out sporecoat.ref.muscle
+../muscle3.8.31_i86win32.exe -in transporter.ref -out transporter.ref.muscle
+
+#hmmbuild steps for each .ref file
+
+../hmmer-3.1b2-cygwin64/binaries/hmmbuild.exe sigma.ref.hmm sigma.ref.muscle
+../hmmer-3.1b2-cygwin64/binaries/hmmbuild.exe sporecoat.ref.hmm sporecoat.ref.muscle
+../hmmer-3.1b2-cygwin64/binaries/hmmbuild.exe transporter.ref.hmm transporter.ref.muscle
+
+
+for i in *fasta
+do
+	../hmmer-3.1b2-cygwin64/binaries/hmmsearch.exe --tblout $i.sigma.hits sigma.ref.hmm $i
+	../hmmer-3.1b2-cygwin64/binaries/hmmsearch.exe --tblout $i.sporecoat.hits sporecoat.ref.hmm $i
+	../hmmer-3.1b2-cygwin64/binaries/hmmsearch.exe --tblout $i.transporter.hits transporter.ref.hmm $i
+done
+
+cat *.hits | grep "tr|" | sed -E 's/[tr|A-Z0-9]+\_9//' | awk '{print $1 " " $3 " " $5}' > finalhmmout.txt
+
diff --git a/Exercise11_files/Problem1/Rhizobium.fasta b/Exercise11_files/Problem1/Rhizobium.fasta
new file mode 100755
index 0000000..1ad6df5
--- /dev/null
+++ b/Exercise11_files/Problem1/Rhizobium.fasta
@@ -0,0 +1,32137 @@
+>tr|A0A1Q9AJP3|A0A1Q9AJP3_9RHIZ
+MAKSKFERNKPHVNIGTIGHVDHGKTSLTAAITKYFGEFKAYDQIDAAPEEKARGITIST
+AHVEYETPNRHYAHVDCPGHADYVKNMITGAAQMDGAILVCSAADGPMPQTREHILLARQ
+VGVPAIVVFLNKVDQVDDAELLELVELEVRELLSSYDFPGDDIPIVKGSALAALEDSDKT
+IGEDAIRELMAQVDAYIPTPERPIDQPFLMPIEDVFSISGRGTVVTGRVERGIVKVGEEI
+EIVGIRPTTKTTCTGVEMFRKLLDQGQAGDNIGALLRGVTRDGVERGQILCKPGSVKPHK
+KFMAEAYILTKEEGGRHTPFFTNYRPQFYFRTTDVTGIVTLPEGTEMVMPGDNVTVAVEL
+IVPIAMEEKLRFAIREGGRTVGAGIVASIVE
+>tr|A0A1Q9AD56|A0A1Q9AD56_9RHIZ
+MKNARNNELTDRRQSAQEAKAAQLKAYRDAQAQPDPERAARQAERAAVAAAREARRIERE
+EAKRAEKIRLAEEAAAREAALEAEARAEAEARELAEKTRIARVVEDEAARKAERDRRYAA
+RKARKN
+>tr|A0A1Q9ACJ0|A0A1Q9ACJ0_9RHIZ
+MSKTFDPLQGDFIDHIPLKSAPLVRVIAQVRFPDVTVNPDRIFVSGFQKAIRKRYPRFVE
+EGTQNIVLGPTGVSMSPSVVYRFLDAANVWRVSLTPNFMSLETKKYESGNDFADRYRELL
+GHLAETVAPSHVARIGIRYVDQVQVTGGLNVDDLLERHMSEVSGRLPNVRHMVSELEARS
+KEGMVLARWGHLPEQGTHDPEIMPPVENASWFLDVDSYIGYESELLEYDTNKVAGITHEL
+ANRAYNFFRWCVNDHFLAKFGKDA
+>tr|A0A1Q9AEG0|A0A1Q9AEG0_9RHIZ
+MAFISLQEAAGRLGVSLSYLRDLLDRVDRIPTVLDAEGADFWTSTTGVIHERDLRTYEHM
+LRHRRFVRLRERYADVLVEDAVLAIRPGWKSILEHVCDRIRWMPAQWSMRLRKAKEQSGY
+LVLGFEYDRDQPAAYNELERLREEIRLMSLAVCEECGRHGRFRYSPSRSLTLCDKHARLA
+EPVLPGDGVIADPASDGALLSELPHD
+>tr|A0A1Q9ANZ4|A0A1Q9ANZ4_9RHIZ
+MGAVSLKGVSKSFGAVEVIRNVSVEIAEGEFCVLIGPSGSGKSTLLRIIAGLEDVTDGEV
+RIGGRDVTELAAKERDIAMVFQSYALYPQMTVRENMSFALRLKHRPKDEIRRKTDEVAQM
+LGLEALLDRLPKELSGGQRQRVAMGRAIVRDPSVFLFDEPLSNLDAKLRTQVRGEIRDLH
+RRIGTTSVYVTHDQVEAMTMGQKIVVLRDGRVEQVGTPLELYDRPDSVFVAGFIGSPAIN
+MLPAMVGPEAKTLHAARSEIVLPMPDGYRLESGREVLIGIRPEHLETVAAGAAGSIVCAV
+DAVESTGSDTTVICDSPAGKMLVSSKQRSQARTGDLFALRPDGEKLLIFDKASQARIVRA
+>tr|A0A1Q9AIL5|A0A1Q9AIL5_9RHIZ
+MRHRITALLAASLLTGCQSALSDVGRAPAMSPIGTGLQYSQTPQLAMYPKQPMHTNNGFS
+LWNDQRSALFKDSRAINVGDILTVDIRIDDKASFDNKTNRKRENESGFNIGAQSSGAVSD
+GKWKGNLDYGSDTSTKADGTTARSEKLVLLVAAVVTGVLENGNLLISGSQEVRVNQEMRI
+LNVAGIVRPQDVDSKNMISYDKIAEARISYGGRGRLTEIQQPPIGQQVMDILSPI
+>tr|A0A1Q9ACK4|A0A1Q9ACK4_9RHIZ
+MDGTGGIKKEAAPGLYAGSFRKVRLEGTPKEVLGGLEAQLQSLTSKQAIICAPPRVGRDE
+WQITTARQGLEEGYLSRTQENFEALNGPAIFGMDFDSAEFPEALLGALKEAGSISHALAS
+VHPSFGKAAFLRRNSASAGVGVGVGGKKSLTSSHHRYYVVPDGRLIPEFVRNLADRLMLA
+GFLYGKITASGHILPRTLFDTFASSDSSRLFYEADPVLQDDKLRALPRPCVVQDGGMLDL
+ASLPPLSAEEAFRLRVLVSEMEADLAAPAKAIRAAYIEQRVADLVARRGISPESARRSVQ
+SATERHVLDEHFEIFFDDGSSATVREIINDPTQFHRKSCADPLEPDYGGGRAVAMVLAST
+RPFVINSFAHGGARYDLAPQLQMFEDREEALPLESLFRERSEEDPSQHIGQPGLKVVTDR
+IEPKGIPPREWVVFPRLPLGDVAQCVGEPGVSKSTLALRDALAVSSGSEPVLRGVDETGA
+PISPERLHLAGPVIIYNAEDRLSEMERRLAASQRHFDVAKPKHPIILWSGEDGTKLTIMQ
+RDNDRSAMKRAPGADLLERIIDQYKAVLVVLDTQISLTAGGHENSNDDQDALLQELAWIA
+ARSRCAIEVVHHTAKHTRNAAGDMGAGRGGFAAVGKVRSAFTLVNVTGEAEDERAWGVSS
+ADGLIRLDYAKISHDRKPSVPLVFKRMSVSVGNGCGVRPGAAGALFDDDPRAALQAAGDF
+APVLDLVKIEARTRKKVDGSKAEAIARIAHDLLAENNTLPLPGLWEAIGARAREQGIFEG
+KARNVVVGEITSALGGGGVQFTLGSGQVVLIRALKRSSAQTACWYIDRSAKAEDGAQ
+>tr|A0A1Q9APM3|A0A1Q9APM3_9RHIZ
+MSRASRLITLIEILRRHRFPVSAAALAAETGVSVRTLYRDIDTLRGQGADIAGEAGLGYV
+LRPGFTLPPLMFGEDEIEAVALGLRWVTARGDGDLARAAEQALAKIEAVLPAPLAERLQQ
+QNLLVGPARQEAERIDTASLRAAIRAEIKLDLAYRDGAGAVSQRIVWPFALGFFETTRIL
+IAWCELRGAIRHFRTDRIDNLLRLDQRYPKRRAQLLAEWRRQQLERRPVRLQSLNAPDRN
+>tr|A0A1Q9AKV2|A0A1Q9AKV2_9RHIZ
+MDTSSAATPIESAKENVKPAQDGVDLLTSPTRFINREFSWLQFNRRVLEETLNPAHPLLE
+RIRFLSISAANLDEFFMVRVAGLEGQVRQNVVVRSPDGKTPAEQLDEILREINNLQMEQQ
+ASLAVLQQYLAKEDILIVRPVSLSREDRAWLETTFEQTIFPVLTPLSIDPAHPFPFIPNL
+GFTMGLQLVSTAEREHMTALLRLPVALDRFVRLPDVKSTIRYITLEDVVGLFIERLFPGY
+EVRGAGTFRLIRDSDIELEEEAEDLVRFFETALKRRRRGSVIRIEIDSEMPIELRRFVIS
+ELAVPENRVAVLPGLLALNTLSEIAKAPRDDLRFPPYNARFPERVREHFGDCFAAIREKD
+MVVHHPYESFDVVVQFLYQAARDPDVLAIKQTLYRTSNDSPIVRALIDAAEAGKSVTALV
+ELKARFDEEANIRWARDLERAGVQVVFGFIELKTHAKMSMVVRREDGRLRTYCHLGTGNY
+HPITAKIYTDLSFFTCDPAIGHDMANIFNFITGYGEPEPDMKIGISPYTLRPRILQHIEE
+EIVHAQAGRPAAVWMKMNSLVDPDIIDALYRASRAGVEVELVVRGICCLRPQVPGLSENI
+RVKSIVGRFLEHSRIFCFGNGHGLPSEHALVYIGSADMMPRNLDRRVETLVPLTNRTVHE
+QVLSQIMLANLIDNQQSYEILEDGTSRRIAVSKDSDPFNAQVYFMTNPSLSGRGEALKSS
+APRVIAGWKSDRRK
+>tr|A0A1Q9AGC3|A0A1Q9AGC3_9RHIZ
+MSKLNRIITIANQKGGVGKTTTAINLATALAAIGESVLIIDLDPQGNASTGLGIQRRDRS
+LSSFELMLGTHGVGEIVQPTAVPNLSIVPSTMDLLGVEMEIAQQSDRVFRLRKALQSLDA
+LRYSYVLVDCPPSFNLLTMNAMAAAHSVLVPLQCEFFALEGLSQLLETVDQIRRTVNPSL
+DIQGIVLTMFDSRNNLAQQVVTDVRTHLGEKVYQTLIPRNVRVSEAPSYGKPAILYDLKC
+AGSQAYLQLASEVIQRERQRKAAA
+>tr|A0A1Q9AKF3|A0A1Q9AKF3_9RHIZ
+MMPLPPADRVVQVEKALSDFVERAGLAPGSRLPTEREMMVALNVGRSTIREVLRKFQALG
+VIESRKGSGTYLLKPISAATVHMPISIDAQSLRDALLMTLEVRRGIEIEASMAAARRRTE
+IDIATMEARLVEMETVHLAEGTSGKADLAFHLSIYDSTHNPLFRQLLEQMREGFERFWSK
+PFDRPDFAARSFPFHRTLFNAIVAGDAEAAREETLKILSIVEEDIKDMSQ
+>tr|A0A1Q9AL10|A0A1Q9AL10_9RHIZ
+MSSTQSQGRTRATLRNFLDNEASGGLVLMAAAVLALLVANSPLGEAYSHALHWKIGPLGL
+QHWINDALMAVFFLLVGLEIKREMLDGQLSSWSRRILPGAGAAGGMLAPALIYVALNLHD
+PAALRGWAIPTATDIAFALGVMSLLGPRVPASLKIFLAALAIIDDLGAVLVIAFFYTAEL
+NLMALAGAAAVWAALFALGRWRVQNLWPYMMLGVVLWLFVFASGLHATLAGVMLALTIPL
+KRTPGTPEAHPSQSPLHRLEHALHKPVAFIIVPIFGFANAGVSLAHVTLGSLTEPLTLGV
+ALGLVLGKFIGVFGTVALLVRLGLAQLPAQAGWGQMAGTALLCGIGFTMSLFIGLLAFND
+PAVQDAVKIGILLGSLVAGLLGVALMAAFGRRAPASPSRAG
+>tr|A0A1Q9AKZ3|A0A1Q9AKZ3_9RHIZ
+MAEPQFSIPSRKAQDLANRLARRENLSVMEVVERALEAYESRRDTHEPAAAFYQRIAERC
+GTDLDLDAVIQDGRAPHAGVDL
+>tr|A0A1Q9AGG3|A0A1Q9AGG3_9RHIZ
+MRTRNALLLSSLAAMLAAAGCSTAPVTTAPPLAYASPPPATVAVNEIFSDGYGPVEDHGY
+TLPAIPINKVDKRFHRQIVDYPTQEKPGTIIVNTPSRFLYYVLPGGKAVRYGIGVGKQGF
+AWQGRAYVAWKQEWPTWHPPKEMAERRPDVAQYVENGMGPGLRNPLGARALYLFNEQGQD
+TLFRLHGTPEWNTIGTAASSGCIRMMNQDVIDLYSRVRPGRTAQVIVQQ
+>tr|A0A1Q9AHD6|A0A1Q9AHD6_9RHIZ
+MTSRSPAHKGSQGPRQIVLVLALLFGAVLVAVAGLSLGTRTLGPAALWTALSSPDGKIES
+ILVWTLRLPRSLAAFVGGAGLGLSGYLLQSLTRNPLAGPALTGVSAGAVAAIVCCFVFLP
+WLSSIFYPLIGMIGGLAAAAVTFWIARGGRGRPLHLALGGISVSLLLSAVTTYVLMLSGP
+QVPSLLFWLSGGFQGRSWTQLGYMAPWVAAAFVGALICRRIIGLFLLSEQAAAGMGVNLA
+LWKPVLLVLAVLPVAGVAPVAGPVAFVGLASPHLARLLRPQDPGWTLTFSAAIGGFITLS
+ADFVARTVALPRELPISIIAALIGGPVFIYLTQRRDLSFGGKR
+>tr|A0A1Q9AG25|A0A1Q9AG25_9RHIZ
+MTNWLPNLSEGTGPLYQRLADSIEAAIDGGSLAPGDKLPPQRNLAFDIGVTLGTVSRAYA
+LVHERGLVAGEVGRGTYVRERGNGGEPSPASPLNHELRSGRSLDPPDGKLRFDSTGAADV
+GQADLIERVLAQVVAEHPAEITNYARNAPAHWQEAGVRWLSRQGFSPEAEDVVFTQGAHS
+AIMAVVTAVTSPGDKVLFESLTYTHIARALGLTGRRVIASEIDEEGLVPEDFERVCQQQH
+PAIAFLMPSAHNPSLAVMSLGRRRAIAEIARRHNVMLIEDDIYGVLTRPDIPMLATLAPE
+RTFVVSGFAKAVAAGLRGGWVACPPNMSTRVRVAQKMLTGGLAFLLAESSARLVLSGEAE
+AIRRDVAAELSARHAIVLESLAGHSLRSTSQIPFFWLDLPEPWLSGTFKAAAFEAGVLID
+DEDEFKAGRPDRVLHKVRVGFSNHRREDVRRGMALLRSLLDGGLSGYEGGI
+>tr|A0A1Q9APH6|A0A1Q9APH6_9RHIZ
+MAPHSSSPGPSADLLVVGGGVMGLWAAVMALRAGLSVCLVEAARIGAGASGGLLGALMPH
+MPDRWNEKKALQRDALISLEAGVARLEAETGLSCGYRRCGRVMPLIRPALVERALKHQAD
+AAQHWPAAYSWRHLPQAAHPGWPAPSQAPDGVAVETLAARIAPRALLAALAARLRADPRC
+SVIEADGVAALDPAGGKAVTASGLRIGFSACVLAAGVESFPLLAPFLPVPAAALGQAVKG
+QAALLDAHINPERPILFADGLYIVPHESGQVAIGSTSEDRFDDPLSTDGQLDALLTRAAL
+LAPELADAPVLERWAGLRPKAVGREPMVGRHPDFPRLFALSGGFKISFGIAHHLASRLID
+EIRGEALDLPASFHLSTHLRLVT
+>tr|A0A1Q9AC77|A0A1Q9AC77_9RHIZ
+MASSANLGDRLEGYVSELVKTGRYNSRSEVLREGVRLVEEREKRLAALDAAIARGLADVD
+AGRVKPVEEVAERLRAKYRKMGEDRGL
+>tr|A0A1Q9AIL4|A0A1Q9AIL4_9RHIZ
+MTSIVTNASAIAALSTLRSISSNMETTQAHISSGLKIGAAKDNAAYWSIATTMKSDDRAL
+SAVQDALGLAAAKTDTAYNGLDTTIDIISTIKAKLVAAREPGADKDKINKELTELKNQII
+STAQSSGFSGENWLFNASGATATTKTMVGSFTRSSTGVSIGTITFDATKSIIVDKNNANN
+GALTKNVLGYNSAGTSANFFLVNASSATTASGSEVTISSGTADSSVEQMVSAVDTMLQNL
+TDVASQLGAINSRIDTQNGFVKDLRDTITKGVGRLVDADMNEESTKLKALQTQQQLGIQA
+LSIANSSADSVLSLFR
+>tr|A0A1Q9ANK6|A0A1Q9ANK6_9RHIZ
+MASSTRSRRMGPVRVGESPAVRRTLIGLVLALSALVIVAPLAVIAVEAFSKGFGVFAATI
+AHPDTRSAVVMTLVTALIAVPVNTLFGIAAAWSITKFDFPGRGLLLILIEIPFSVSPIVA
+GVAYLFVYGMQGLFGAFLQDADIKILFALPGIVLASMFVTAPFVARELIPLMQAQGRDLE
+EAAASLGASGWQTFFSVTLPNIKWALLYGVILCNARVMGEFGAVSIVSGNIRGQTNTLPL
+HIELLYHDYQTAGAFSAALILTVIAVFTIIAKALLERRGAGRVRAATLAPTAGPAEAAKE
+TP
+>tr|A0A1Q9ADU5|A0A1Q9ADU5_9RHIZ
+MITALAYAMIVVFMTAIMTNRLSALLALILVPIVFAVLGGFGAEIPTMVVDGLKKIGPTA
+ALLLFAILYFGLMIDVGLFDPLVRLVVRVCHGDPLRVIVGSTLLAMVVSLDGDGSTTYLI
+CVTAMMPLHRHLGINPLILPAVTVFPNSIINVAPWGGPTARVMAALHLEPSQVFVPLLPS
+ILLACLGAVGIAAYLGLSERRRLAALGTGMLAQSGASPAEAVNRAVVARGPFLQGFNLVL
+TAAVMVLLVADLLPLAVVFMIGFAIAMAVNFPHVRDQRPRIEAHAGSALSVVAVIFAAGI
+FTGILSGTGMTDALAKSVIYLIPASAGNMIPLITAVLSGPFTFLLSNDAFYFGVVPVLAE
+AAKAYGIAPEVIARASLIGQPMHMLSPLVPALYVLTNLSEVETGALQRFALKWSVLLAFL
+MLVGAALSGAVPLY
+>tr|A0A1Q9AJ62|A0A1Q9AJ62_9RHIZ
+MRADAAKGRALPADIDAAGAAEAERVAEAIVFAAAEPVSLAYIAERLPAGIDAGAVMARL
+KAQYRDRGVNLVQIGQSFAFRTAADLARVLADGQAEPRKLSRAAMEVLAIIAYHQPVTRA
+EIEEVRGVQTSKGTLDVLMEAGWVRFRGRRRTPGRPVTFGTTRDFLDHFGLEDLRDLPAV
+EDLKAAGLISGRISSGLSLPIPAESDTLGPEEDPITPQDLEELVLLPPGGAPDAAD
+>tr|A0A1Q9AHY7|A0A1Q9AHY7_9RHIZ
+MTTYTVSHIDAVSGGERPVFSSMPATVSLRDVVLNHLAWHLDDLDFTDGHLDEDTVLSVL
+SGDFVARDGDVVVEVVNAEQFRHTREIGDAEPGAFFIDGEGAACELNRLPCPPYFDPDGI
+PF
+>tr|A0A1Q9AMT9|A0A1Q9AMT9_9RHIZ
+MTRELELQMRGYGLTTAEITYRLPDHPVLLQTFLWQHYDLAPDFPEMKSFLKFWRETLDG
+PLHSVRFVHRKLISASDWRALKGEFVIN
+>tr|A0A1Q9AI77|A0A1Q9AI77_9RHIZ
+MKNAYRVVIIGGGVVGASVAYHLAKFGWTDIALLEREVLTAGSSWHAAGGFHALNADPNI
+AALQAYTIDLLSEVGAESGINIGMHMTGGISFATAPERWEWLKASYRSFQSLGINDVELI
+GPEEIKARCPVLSTKDILGGLYSEREGHIDPSAVVHAYARAAKKRGAEIIEHTKVDALKQ
+RPDGTWDVVTEKGIVHAEHVVNAGGLWAKQIGRMVGVDLPVTPMEHHYLVTEAIPELVEM
+KGEIPLMVDLEGFTYTRQEQKGLLMGIYEVDHKHWNMEGAPWDYGIELIQEDIGRIESEL
+SLGFRRFPCLETAGVKRWVNGAFTFSPDGNPLVGPLRGLRNYWVACGVMAGFLQGGGVGK
+SLAEWMIYGEAEADIFGMDIARYGAFASNREYIRQTTGQFYSRRFVMSYPNEPLPAGRVL
+KRPAAYEGMTGAGCRWGARWGLEQPLYFAPEGFKETPTLRRSNAFDLIGAEARAAREGAA
+LLDITAFSRYEVSGPGAEAWLDRLFASKLPAPGRAALAPMLAENGKLKGDLTLLNWGDGT
+WWIMGSYYLREWHMRWFAGHQREDLARGAVTVRDISDSVTGFAIFGPKSRAILQKLTHQD
+VSNAAMPFMTCRRLDVGLIRAKVARLSVTGELGYEINCGALEQATLREILLEAGAEFGLR
+ETGFNALLSLRLEKSFGIWSAEFTQGYTPGQTGLDRFIAWDKPDFVGRAAALAERAAPSK
+RVLATLAVKAGDADASGYEPVWKDGRLVGTVTSGGYGHTIGKSLAMALIDREQAVPGNAL
+AVHIVGEECSAVVIEASPYDPAGRAMRG
+>tr|A0A1Q9AF65|A0A1Q9AF65_9RHIZ
+MTTIGIIGGGQLGRMLAMAAARLSMRVVVLEPDATCPAAQVATRVIAAPYDDEAALDALA
+ETCDLVTYEFENVPVIAAARLAARLPVYPPPKALEVSQDRLVEKRFLNACGLDTARYHAV
+DSLEALQAALADFGGQGVLKTRRLGYDGKGQAVLKPGGTTAEEAFDALGHVPLIFESFVP
+FVREISIIAARGTDGSIAAYDPAENIHRDGILSTSRVPAGIDQATSAAARTAAAAILTAL
+DYVGVIGVEFFVLADGRLAVNEIAPRVHNSGHWTEAACIVSQFEQHIRAVAGLPLGDTRR
+HSDCLMHNLIGDDVDRLTDWLATPQALVHLYGKEEARPGRKMGHVTVLSAP
+>tr|A0A1Q9AP83|A0A1Q9AP83_9RHIZ
+MTQLHHTFDFDPTHGYSPEALKAIRPPEAPPGFDAAWSARYAKALTLDPRPVLKPSQESH
+PDWTVHDIAYSSTDNITIHGWLLVPRHGVVTRGMVIGHGYGGREAPEFDVPVENTAILFP
+CFRGLSRSASPPISPNSAWHVLHDIDKPKRYIIGGCVEDLWLAVSALIALFPQVHDKVGY
+SGISFGGGLGALGIPFDSRIDRGMLEVPTFGNRPLWLKLPCIGSARSVQLYARRHPEVVE
+TLRMYDAAIAATRIRVPMIAAVALFDPAVAPACQFSVANALPKNDYNQIFILDAGHFDYP
+DNAAQHKALRDRVRDHFRAS
+>tr|A0A1Q9AHM3|A0A1Q9AHM3_9RHIZ
+MNGITVGIDIGGTKTHLRAYDPAGHADDLVVPSVEWRLRDWTGDARALLAFAEKLAAGRP
+IRAIAVGAHGCDNQEECDAFEAGFRAVTTIPVTVVNDAELIPASIGAINGIGVVAGTGSI
+AVTRNADGRMLAAGGWGWVIGDEGSAAGLVREAGRAISRYLDCGGSRDEPLVRALFAALD
+IDNPARIGSQVANAGGAAALGRHASVIFDAASAGSAIAQTVIDEGATALVDLVERLKMLG
+AEARSVVAGGGVIVAQSRLADAFLKAMDARFGASLSVSIYPGPPVEGACNIAKALAAAMP
+RPAAPERAGRTA
+>tr|A0A1Q9AL82|A0A1Q9AL82_9RHIZ
+MKQQFRLLAAYNAWANERLYEAAQALDDDAYHTDKGAFFGALHGTLSHLLITDRVWLYRL
+TGQGAAPTSLRALPYDALAPLAAARKIEDRRLIDYVEALEDADFGREITYQPLSMPQPIT
+QRIWPLLIHLFNHQTHHRGQAHATLTALGRPSLVLDIAYFLSLPEQASLVGEG
+>tr|A0A1Q9AQC6|A0A1Q9AQC6_9RHIZ
+MPSAAASATICATGRLIVVVGPSGAGKDTLIDHARARLAEEAAPAVDFDVVRRVITRPVE
+AGGEAHHATDKTEFARMRDEGRFCVAWEAHGLAYGIPRETCRAVAEGGIRLVNGSRHALP
+HFRAVFPRMETVLITASPAVLAERLAARGRETVAEIHARLARRVEDRPEDYDLVIVNEGP
+VAETAARLLAFIRDPGVADRKSA
+>tr|A0A1Q9AHD2|A0A1Q9AHD2_9RHIZ
+MNRFEPSGDREAKVRYLDGDFQIVLPGSHVVCAVTGRVIPMEELRYWSVARQEPYIDAAA
+AFEAEKRAGALPNQ
+>tr|A0A1Q9AID2|A0A1Q9AID2_9RHIZ
+MLAESYSAADTRKADRAGAEQPAPRPAAGARSGLRVPTLAISLLTGAALIASWWLAAALA
+VVSPVFLPSPAAVATSFWSLVTTGFVDSTLLQHLAASLGRVLAALAAALVIGVPVGLLIA
+ISRVGRGILDPIVEFLRPLPPLAYLPLIIIWVGIGEASKVTVIALSMLPPIILSTSAGVR
+GVPRDFVNAARAFGATRRQLLARVLLPAALPSILTGMRIALGTGWSTLVAAELVAATRGL
+GFMIQSAAQFLVTDIVIAGILVIAAVAFALEWLARFIERRFVPWADPGRNR
+>tr|A0A1Q9AQJ3|A0A1Q9AQJ3_9RHIZ
+MRRMPRRLRQLKKLPRRWAKRGSRPSAPHDQRTRSAYIFGAICPRHGKAAALVMPWCDTH
+AMNQHLIEISRNVADDGHSILIMDQAGWHMSNNLIVPENITILPLPPKSPELNPVENIWQ
+FMRDNWLSNRVFKSYEDIVDHCCYAWRKLQQRPWNIMSIGRRQWTHGF
+>tr|A0A1Q9AM38|A0A1Q9AM38_9RHIZ
+MDFISAFMVNSTVQAITPILLAALAGSLCARVGVFNIAMEGQLLIGAFCAVAGSHYTGSA
+AVGVAAALVGTVVFSLILAYGATVFRGDAVVICIGMNLLASGLTAYLLRQLFGVSGVFSD
+PNIAELAKIRIASIQSIPWLGWIVSRQTVLTYLSWALTALVAYVLYRTPMGLRLRGVGED
+PEAAGTMGIDVRRYRVVTVLAAGALTGLGGAQLSLGTVGIFSEDMSAGRGWIAVVAVMLG
+RDNPLLAALACVLFGIADALSVKLQAQGLPNQLTDIVPYVVTLAALVISYRRKRGTRLA
+>tr|A0A1Q9AK24|A0A1Q9AK24_9RHIZ
+MSQAQSVSILDRRILLPAVGAAFRKLDPRTLARNPVMFVVATVSALTTLLFLRDLARGGP
+DLGFSFQINLWLWFTVLFANFAEAVAEGRGKAQADSLRKARTETEAKRLTSATGRDYERV
+PGTSLKVGDLVLVEAGDIIPSDGEVIEGVASVNEAAITGESAPVIRESGGDRSAVTGGTE
+VLSDWIRVRITAAAGATFLDRMISLVEGAERQKTPNEIALNILLAGMTLIFVLATATIPS
+FAAYAGGSIPVIVLVALFVTLIPTTIGALLSAIGIAGMDRLVRFNVLAMSGRAVEAAGDI
+DTLLLDKTGTITLGNRQATSFRPLKGVTEQALADAAQLASLADETPEGRSVVVLAKEKYA
+IRARDMASLKAIFVPFTAQTRMSGVDLEGSSIRKGAVEAVLAAVAGQADGAAVKELRAIA
+DEIAKTGGTPLAVSRDGRLLGVIALKDIVKGGIRERFAELRRMGIRTVMITGDNPITAAA
+IAAEAGVDDFLAQATPENKLELIREEQAKGKLVAMCGDGTNDAPALAQADVGVAMNTGTV
+AAREAGNMVDLDSDPTKLIEIVEIGKQLLMTRGALTTFSIANDIAKYFAIIPAMFLTFYP
+QLGVLNVMGLATPQSAILSAIIFNALIIIALIPLSLKGVAYRPVGAGALLSRNLLIYGLG
+GILVPFVGIKAIDLLVTAIGLA
+>tr|A0A1Q9ADG6|A0A1Q9ADG6_9RHIZ
+MRRGLRPLVTSIGAHAILLSGAFIMVYPFLWMWRASVQSSGEVFGAMKNAPSTLESILAN
+YGQALFQTPVLRFMLNGALMTGGILLFQVATTVTCAYALAKLEFRGKRVLLALVLLAITI
+PAQAPALPLYLGLAKLQLLDTYLAMMVPHLTSAFAIFLFRQFIRSFPEEILLAARLDGMT
+EIEIVTRIVVPSMLPAIAAFSIFSVTFHWNDLYWPMIVIHSIDLAPPTLGILFFRSQEGG
+DSFGPLMACATVVTAPLILVFIAAQKKFVQGVTMSGVK
+>tr|A0A1Q9ANJ3|A0A1Q9ANJ3_9RHIZ
+MTEGKRGGSASMSDVARLAGVSQSTVSYVINGTRPISEETRRLVEEAIRVLDYTPNAAAR
+SLRSARSQTLVLSLPSVPRRPDVGMGVYVVAIAEAAAARGYQLLLRTQAADRADELVRLV
+TGRQADAVLLLQVMAQDPRVRLLDKAGIPAIAIGEPSEPSRLRFVDYDFAGAVDLAAATL
+ARAGHRAALFIGPGEEEVEAGYLYASRVGGALAPAALRHAVRFEAMSAPRDRAEEERRIV
+GLLAEHADITALVCMALPSFERARRLFLSARPGVDPTDAVIAFGTLGTPDTPGADATRIE
+HPVDAIAENAIRLAEDALGEGTAPSLKLLPFLRHA
+>tr|A0A1Q9AHI7|A0A1Q9AHI7_9RHIZ
+MSVAGINEQNHAAKPSFSWLRGATGPLIGLIGLCLFLSFATDTFLSTRNGLNILDQITVL
+GIMSVGMTFVILIGGIDLSVGSVLALSMMVMGWTANVAGLPLGIGIIFGLAASAVSGLLV
+GLMVTMFRVPAFIATLAMMSAARGVANMITDGQQIVGFPDWFMMLAIDRHFGILTATVFL
+MLVVVIVAWAFLQLRAEGRMLYAVGGNQEVARLAGINVTRVTIAVYICCAMLAGLAGIVL
+AARLDSVQPSSGFGYELDTIAAVVIGGTSLSGGAGGIGGTLIGVLIIGVLRNGLNLLNVS
+PFIQQVIIGVVIVLAVGAETVRRKRG
+>tr|A0A1Q9AJJ6|A0A1Q9AJJ6_9RHIZ
+MRGLSLVVPLSLMISLSALDLTLSASILLCLLLTDRARRSLYAALMLERAAGLSGAHGPD
+GRFAGFRVTASPPVAG
+>tr|A0A1Q9ADM6|A0A1Q9ADM6_9RHIZ
+MTELNYHHLRYFRAVAHDGNLTRTAERLNLSQSALSIQIKQLEERLGHALFERRGRKLYL
+TEAGRIALDRADTIFSAGEELVETLKETGKARRAIRIGALATLSRNFQIEFLRPLLGRAD
+VDMILRSGSTAELLRALETLNLDIVLLNQAPMADSVTPLITQPVYQQRVSLIGRPDYGRP
+GAGLAELLAEHPVILPTLESGVRAQFEALVARLGLTPQIAAEVDDMAMMRLLTREGAGLA
+VLPPIVVKGELEAGTLVEFDALPGMMEFFHAVTIKRRFPNPLIAPLLRQWG
+>tr|A0A1Q9AMC6|A0A1Q9AMC6_9RHIZ
+MRLSTQLVIATVLLVATLVVAVRFVPGAASKLESAGVPASLAGLIAGKPSAGAQGAARET
+TGALARQGGGGRNGASGPPIVVVQAVAMGVVNDRIEALGTGEARSTVSVTPLSTGNLAQV
+LVTSGDRVEIGQVIARLDNDAQTIAAEQGRVAVEKARDALDRNRRLGNAVSIAALRQAEF
+DLQAAELERQSAELELKRRDIVSPAKGVVGIITANPGDYVTTSTAVAVVDDRSEILVDFW
+VPERLSNQIRAGQPVSATAVAMPARDFAGTVSAIDNRIDQASRTLRVRARLDNPDDVLRA
+GMSFSVQVRFPGETYPAVNPLAVQWSSDGAFVWQVLDDKARRVPIKIIQRNSDAVLVDAA
+LKEGDRVIIEGVQRAREGGPVRIEGADPAPSTRNQEISKAEGRS
+>tr|A0A1Q9AHL5|A0A1Q9AHL5_9RHIZ
+MHLATLTAFSLLAAAPAVLAAGISGAPAPFDKGGVKLALVSYLSAGDFFQAYQAGAEAQA
+KALGADLRIFPGRQNAAEQREQILQAINLGVQAIIVDHGLPESLADVVQQALDKGIKVVA
+FDVNLNNPKITQIEQSDHKLAESALNQALKDNGAAFKAGYVYVAGFAPLDRRNEVWDKVK
+AANPGIVEAARFGVVSDTTATSTADQAKAALRANPDISVVFAPYDEFARGVKLAAVDLGI
+ADKLKIYSADISTADIQEIVEPGSPWVATAATNPAVVGAVSIRAAALQIAGETLPQTIVV
+EPVLVTQQQLRDAGVTTIEDLAKKIPAFSTSAAATATWIPLAAF
+>tr|A0A1Q9AMI4|A0A1Q9AMI4_9RHIZ
+MRALQLLDDRKLEVTDLPEPPAPGAGEVTLRVKAVALNHIDVWGWRGMAFAKRKMPLVIG
+AEAAGVVEEIGPGVANVIPGQLVSIYGARTCGLCRPCREGRDNLCEHVSGVHGFHLDGFA
+QEKVNLPARLLVPAPPGVDAIGAALAPVTFGTVEHMLFDNAKLEPGETILVHAGGSGIGT
+AAIQLAKKMGCTVITTVGSDDKIEKARALGADHVINYRTDRFEGVVRKLTRKKGVDVVFE
+HVGKDTWAGSMLCLKRGGRLVTCGSTSGVSTEMNLMMLFQQQLKLLGSFGCRMENMADAM
+QKMARGLVHPVIDTQVGFDDIERALERMEGRQVFGKIVLAF
+>tr|A0A1Q9ADT6|A0A1Q9ADT6_9RHIZ
+MPILYTTKASATGGGRAGHAATENGVLDVTLTVPKELGGDGATGTNPEQLFATGYSACFL
+GAMRYVAGQKKIKVPDDAKVTATVGIGPREDGTGFGIEVSLLVDLPGVERAEAEDLIAAA
+HIVCPYSHAMRTATEVQVSLA
+>tr|A0A1Q9ADV4|A0A1Q9ADV4_9RHIZ
+MPTPHDSPSSTALPPTMRHVGLTAPGGPENLVIAEGPLPVPGPEDLLIRVEAAGVNRPDV
+MQRKGLYPPPPGASPILGLEVAGEIVAMGAAVEGFALGERVAALANGGGYAQYCAVPAGQ
+ALPIPAGMDAATAAALPETFFTVWANVFQMADLVEGETFLVHGGTSGIGTTAIQLANAFG
+AQVYATAGSAAKCEACLGLGAKRAINYREEDFQAVIAAETQGRGVDVILDMIGASYFERN
+IASLAKDGRLAIIALMGGATAEKVSLAPIMMNRLRVMGSTLRPRTATEKQAIRDDLIDNV
+WPLVEAGEVAPVLHAVLPFEEVAQAHRLMEAGDHIGKIVLTL
+>tr|A0A1Q9AK09|A0A1Q9AK09_9RHIZ
+MQRDRIDRAGDMHVFLTVIKTGNLSAAARALSLTPSAVSRIVARLEARLGVRLLLRTTRR
+LTPTAEGEAYAQAARRILADLEETESTIADQAAPRGRVRVSAASAHGRLVVVPLLGEFAE
+QHPGITVEIDLSDQVADIIGGQADLAIRFGPLPDGPLTVRRLDETGRTVVASPAYLARHG
+RPEVPADLARHNCLDFSFRRAEPGWPFREEGRERLLSVSGNILANNGETLVQLALQGVGI
+TRVGNFHIEEDLAAGRLVPLLEAFNPGDREPIQAVFLGGPSMPARLRVLIDFLAARMGRR
+AARGQPG
+>tr|A0A1Q9AQI9|A0A1Q9AQI9_9RHIZ
+MRLTDLLSGSSFRTSAKVAIGVLVLMSLGGTLFIWSATQALRDVTEQQTLEEAVLLSDVY
+AAAGREGLVKAIGTLSNLVSSQDRISAVYDEHGINLAGADLAMPDFIGVRDTTLQSVSAK
+GSQGHFVLSVQKFNDATLVVGRNLKAVDEMRVHMIVGLVVMTVLLTFGALVLGLLASRQS
+FSKLRSIEGVLARVASGESEARIPILQRKDQIDRISIQINANLDVLSRLMDSMRATTTAI
+AHDLKTPLARVGLVLNDALDAIEAGRDPHPQVERALNETGSLNEIIDTILRITRIRAGSP
+RKDMQLNDLGGLIENTLEFFAPLAQENGQTLEFRPGETEKSLLLCDKNMVQQMLANIVGN
+AIVHGGFGISIRVRLQDRPETLDLIVEDTGGGIAEGQRHEVFDLFKRIDSARSKPGSGLG
+LALVKAVADHHEAVIALSSTDPGAVDHPGLRVTVSFPSGTD
+>tr|A0A1Q9AET5|A0A1Q9AET5_9RHIZ
+MTLIIADDHPLFRGALAQALGAAGGGVLILEAGDFDATRRVVTAHPEADLLLLDLTMPGV
+SGFSGLMSLRIDHPALPVMVVSAHDDPATIQRALDLGACGFLSKSSGIDEIRAGIDTALA
+GEIYTPAGFSPGQQQDPATVLLLQRLQSLTPQQARVLSMLAEGLLNKQIAYELGVSEATI
+KAHVSAILLKLHVDSRTQAVIHYGRLLGGAA
+>tr|A0A1Q9AIN3|A0A1Q9AIN3_9RHIZ
+MMQDAATKRVHVIQGEFKVVTDPNVVLSTILGSCVAACMRDPVAGVGGMNHFLLPGSAEA
+LASGGDATRYGVHLMELLINGLLKKGARRDRLEAKIFGGAKTIARFSNVGEQNARFARQF
+LMDEGIRIVGESTGGDQGRKLEYWPLSGRARQHQLTGVEAQRTVALEQRPAPAPKPVDNS
+IEFF
+>tr|A0A1Q9AED2|A0A1Q9AED2_9RHIZ
+MIELERIRPEVLRGSFPMVCGDCRYTDVGTGWRGIVWQMCLDLERLPAGSVKITELGEKM
+GGLRVSMHTDGLSPEQEAAVRLAKVLAEERSRYLCEVCGEIGSIRRPPDGSAEWLRCRCH
+RHMPRDQTAWPIIRRERRHRIGGQYWVYDHLLDRMRVDELTAEKIYQTYRGILSVGAVDH
+VPVGWLAILDEYLRAAATSMEGADFRIQRIVEAHGGLDLESTSRPMSMTDPRFDSLERLG
+ILLEARSLTTCRECGRRGHGYAIDGDIQTLCDDHAVGTLIRERDLGFVRATLDGFVRYDI
+ETDSLVDVEHPAGDA
+>tr|A0A1Q9AEB4|A0A1Q9AEB4_9RHIZ
+MNRFIDRTGRRALFCFDPETAHGLSIAALKTGLVPAKPVRADPRLRQTIAGLSFPNPLGL
+AAGYDKNAEVPEAILKLGFGFTEVGTLTPRPQAGNDKPRIFRLKEDEAVINRLGFNNEGH
+DAAFARLSDCRRDALIGVNIGANKDSADRIGDYVLGIRRFAALARYFTVNISSPNTPGLR
+DLQARESLATLLKAVLSARDEAAGERRVPVFLKIAPDLTEEGLDDIAAEALAHPLDGLIV
+SNTTLSRDGLTDAAQAKEAGGLSGKPLFRRSTIVLAKMRQRVGPALPIIGVGGVNSGETA
+AEKIRAGADLVQLYSCMVYHGPRLPGHIISDLSHLCAREQLFSIRDIRDTRTSFWAAEGL
+>tr|A0A1Q9AN47|A0A1Q9AN47_9RHIZ
+MNAPAKTEDFAATIPAGVFAETVTEVQHYTDRLFRFRMTRPESFRFRSGEFAMIGLMVEG
+KPIYRAYSIASPAWDEELEFFSIKVPDGPLTSHLQAIKPGDTVLMRKKPTGTLVLDALTP
+GRRLFMFSTGTGIAPFASLIREPETFEKFEEVILTHTTREVAELTYGLDLMEEIRNHEFL
+AELVGDKLRHYPTTTREAYDKTGRITDLIRNGTLFSDIGMTGFDPAVDRAMICGSSEMLK
+ETKELLEAAGLTEGANNKPGEFVIERAFVG
+>tr|A0A1Q9ACU6|A0A1Q9ACU6_9RHIZ
+MARVKRGVAAHAKHKKTLKAAKGFYGRRKNTIRAAKAAVDRSRQFATRDRRAKKRNFRAL
+WIQRINAAVREHGLTYGRFIDGLNKAGIEVDRKVLSDMAIHEAAAFGALVEAAKSALAYL
+KDTGTANEFESAVR
+>tr|A0A1Q9AJ00|A0A1Q9AJ00_9RHIZ
+MKIFSDNTNIGLRHFRAAVTVMEEGSFSRAAQRLGVVASALTETIRALEAECGTQIFDRS
+ARPVRPTEDGRRFLEGARDVLDRFALSLDGLRRIGALQTGRVAVGAAPSSVQDHLAAALI
+RFRRDYPGIEVVIHDDVAERLAAMVAERTLDFALAGHSLASDALDAVRLSEDRFGLVCHR
+RHPLAQHVDALTLADIPGDELIALEGQTGIARLLADHPDLPAELRRGRIRTYSTIAQLTL
+VHQGVGIALLPERAAAVLQSPDIVFRPIRDFALTRPVYLLRPFRAALPAAAERFIACLFE
+ENAGAPPEQG
+>tr|A0A1Q9AJX0|A0A1Q9AJX0_9RHIZ
+MRRGDESVGDRSLIDVCTTEIRAHRLIFLAILGPLLAYVLPGFMFSLGFAFVVTTTASYS
+GYDLAKDSIWELLPWIIGFVLPIPALAIGGVREWCRLTRSDQLAQASGMRLPPVHRDQLH
+AILEQIWQSLSETGSPSPKLICQPNFRTAAHAYEDRTGQAIEVTAGLAGRLLRDDPLALS
+ILRHEVAHLVHKDLSAIRLQSLVAGAATFAADGAMAVCLCAAGLIVAYTDLGVFPMKASF
+SNILAVHMAILCATVIVVFPLLLGRYVVRRYSAFLVALVEMRADVCAGIWGGGLRSFSER
+LDSDPTVRTTTLRDRGLAYVSTALSHFPPDERIALLSNPQRLGSPKLRYFAAAIVFVWLM
+AFHQGSMIWDTVLLATIVALLQSLTAIMVLNMGRGIRLRWLRAMVLAVGMVLTQALPFIS
+IEGLAYLSQSLTAALVTPGGFGGADASPLRDTIITFEEFGRFAGASVGNAGVVLALLLTT
+ASLLAMSSIAQAFGRRIDTLRMMLIGVLTALTSVAVSYKFFQSELDEFIRLSAFSLANVD
+EQDADWGAIVPAFLRQPLSEAALQTSEMLKGPPFLEELAWLRVSLPVLVGLLATLLFVFL
+PFLFDQRKRGGPLC
+>tr|A0A1Q9AFS4|A0A1Q9AFS4_9RHIZ
+METITVSSRPIESFRFGSGTTRFGQLEFLGGLVMRSSHPLFGALSSIRFRPDGRRFLAVM
+DSGHFVEGRIERDGQGRLSGVSTLKVTPMIDRSGRTGGAKRSMDSEGLAFTPEGVLVSFE
+GLHRVDLYPDPAVESARPLRTVPILIPRGMLENNRGLETVAAAPADSPLKGAAVVVAEES
+LDGQGNHPAAILDGPLKGRFSVRHRDRYLVTDGAFLPDGDLLLLERRFTVTDGLGFRIRR
+IDGRTLKPDAVVDGPVLIEANMSEQIDNMEGLDVVTGPDGDTRLFLISDDNRSLLQRSLM
+LEFRLLP
+>tr|A0A1Q9AI33|A0A1Q9AI33_9RHIZ
+MTGAEEDIGARVLAAAQEWIGTPYRHQASMKGVGCDCLGLVRGIWRDLYGAEPEALPAYG
+RDWAERSGEDRLTEAARRHFQPREAGHTCAPGDLLLFRWRPDLPARHCGIHAGGQRFIHA
+YEKAAVIVSPLAPGWARRIAGCFRFPDL
+>tr|A0A1Q9AP21|A0A1Q9AP21_9RHIZ
+MSRTLRFLGVGAFGFLVDAGTTLALVHLGLNPFAARLLAILVALGATYLANRTVTFQVEG
+RANVAEGARYGGVGLMTSAINYLVYSAALALLPSLPPLLALATGSAVAMALSYLGYSRLV
+FRPR
+>tr|A0A1Q9AKD0|A0A1Q9AKD0_9RHIZ
+MSCDSKGASVTVERLSWGPRAGLTLVDDVSFAVPAGARLAILGANGAGKTSLLRCLYRAA
+QPRSGRVLIDGEDLAGLTPRQSARKISVVLQEMPADFPFTVRDVVMMGRIPRRSGLGGWS
+GEDRAACDHALDHLALGGLASRNFASLSGGEKQRVLVARALAQAPEIVILDEPTNHLDIR
+HQLEILALLEGLGLTVITTLHDINLAGRFATHVALMAAGRLVAFGPPETVLSAEAVSEAF
+GVAARVHAPRASEALRFSFSLPVFF
+>tr|A0A1Q9AL09|A0A1Q9AL09_9RHIZ
+MSAAPVLSLPVVRDPGPAPVVAAGPVHLRPFRLADADAVANSLSDQAAARMLLGVPAPYL
+RQDALDWLMLATSGLLPGWRLAVTMADDVTIGAVNILPKAGHWTLDYWLSRFYWRRGLAR
+QAVSAALDRFFQRMPEAEILTLTPADDAAALRLQAGLGFTVTGCREAFVEARGRMVLMIE
+ARVDAAALRRV
+>tr|A0A1Q9AJV5|A0A1Q9AJV5_9RHIZ
+MSFLADMTLEQQEITMIISALSRWCSDAAIDVDSEPGRDAATVFLGLYKSGHTSCEALLS
+AMQRVNGQA
+>tr|A0A1Q9AH98|A0A1Q9AH98_9RHIZ
+MTLETEFAGRILFDETLELGEGPSYDPDTGTAWWFNILGRELHSLHLESGRHAVQSLPFL
+GSVLARVDAESQVVASDQGLFLRHRADGRFEKLLTIEDNPANRSNDGRVHQSGALWIGTM
+GRKAEDKAGAIYHVARGKVTRLIGDITIPNAICFSPDGATAYYSDTMANRLYKVALDPAT
+GLPTGAPTLLAEEGQAEGGFDGAVCDAHGRLWVARWGAGAVDVYDADSGRRLERHHLPAS
+QTSCPAFIGAKADRMLVTSAYEGMDAAARDKDPNAGKTFELGRSVEGRFEPAYIL
+>tr|A0A1Q9AQ80|A0A1Q9AQ80_9RHIZ
+MRFDTSQILELAGISKEMLRHWKRALPPLFGRDGRSDRYSYAELVALCAIAQAVTKLTIP
+VSRFTDNAVWLFEEVEQQLKPGGALLILCILPDRLAFLSENELATVEAGCFIRLDVVVDR
+LNTRAFSEDEQTKEAQLDLPFRDAKIMGMRITRRP
+>tr|A0A1Q9AQF7|A0A1Q9AQF7_9RHIZ
+MRQLLTASLALVLALPALSACTTAGDPGVQPIPGSITYGGQPRTKLTKSPIGSTFTHLLT
+DEYGRQAEEVYRIQPDRSLKLLSRRRIEVDDFGGGF
+>tr|A0A1Q9ADU7|A0A1Q9ADU7_9RHIZ
+MTTLRGALIGCGFFAVNQMHGWAGIDGVEIVALCDRDPGRLAEMGERFGVARRHADAESL
+FAEGGFDFVDIATTVASHRALVEMAAAHGIAAICQKPFARTLADGKAMVAAMETAGVPLM
+VHENFRWQTPIRAVKAALDAGAIGTPFWGRFSFRSAFDVFSGQPYLAEGERFILEDLGIH
+TLDIARFVLGDVESLTARTKRVNPAIRGEDVATVLLDHKSGATSVVDVSYASRLSQELFP
+QTLVELDGSEGTLRLKADYRMEVTGRDGTTTTEVAPALLPWASRPWHNIQESVAALQTHW
+RDVLRKGLTPETSGADNMKTLALVEASYQSALNRQTLRPDALIA
+>tr|A0A1Q9AES1|A0A1Q9AES1_9RHIZ
+MGLTQFEIDERLARDSRHLVDLDLCELRLMEDCRWPWLLLVPRRDGIEEVYELRPEDQAL
+FFAETVRIAEVLNDVTGADKINIGALGNHVRQLHMHVIARLETDAAWPNPVWGVGAAEPW
+DDGERERFVFRLMERLS
+>tr|A0A1Q9AQ03|A0A1Q9AQ03_9RHIZ
+MDTLTRMRAFIDVVDAEGFSAAGRRVGRSKALLSKYVRELEDELGALLLNRTTRQFSLTE
+AGHLYYRTASEILKEIDNLSDLVRAGNADLKGRIRITAPRTFVDAEIGQSLIDFRLAHPE
+LSLEIIADDRFVDLVEEGFDVAIRITKLEDSTLIARKLSDFQIIICAAPDYLKRSEPILH
+PSDLARHACIIDTNGRSYSSWRFCEPDGSPFSVSVSGPMEVNSPLASVRAARAGLGIAAV
+PDFIARPKVASGDLVAILQDFCPQDRGIYAIYPHRRYLPAKVRTLVDFLHSWFRRG
+>tr|A0A1Q9ACB1|A0A1Q9ACB1_9RHIZ
+MSERSSNLDMPFILPQQAQKHVTHNAALQLLDAVTQLVVTDSVTAPPANPAEGLVVWVLP
+AATGLFAGRSGRLATFQDGGWSYLLPRTGWRGWFLATRRLLVFTGQGWEDADALAAAPML
+GVHAPADSTNRLAVAAAASLFSHDGQGHQMKINKASAGDTASLLFQSGWSGRAELGLAGQ
+DAFSLKVSADGASWQTALETDAAGRVRLPQRPLVRASLGGGAKTMADGTRSGFATLAVNQ
+GGFGLGTTVGGNGAALLVPASGVYLVMLTLDAAPSGSFSITAEANAQLALASFRNTSPPA
+QVNATAFGLASLAAGDELSLRHGGTATVDFSPGRTELMAMRV
+>tr|A0A1Q9AL92|A0A1Q9AL92_9RHIZ
+MPSINASKILILATDGYERSELRVPLEKLRERGAEVKIASIQSGSIKSWDEKDWGDSVDV
+DLEAKNVKIDEFDALVLPGGQINPDTLRKDETAVKVVRDFVASGKVVAAICHGPWLLVEA
+DALKGRKVTSFPSIKTDVKNAGGLWEDAPVVTDQGIITSRKPDDLDAFVDKIVEEVEEGR
+HDRRAA
+>tr|A0A1Q9ANU0|A0A1Q9ANU0_9RHIZ
+MTDALSLPMIPDATDTAAAPLVLLPDRSVSPPLSELPFKPQPRAFAPPVSGLEGLLPLSV
+EIPRDSHGAAAPIPALDAADEPAAEDYVRWLEALWASRLVGEGDVRPTFTLGVLLWPGFS
+LFTLALLQEVLRLAGEAAPTAPPRLALLGPASEAAVPAAGIGLRLAADTPYVRPDDLDLL
+LVLAGPDTPERLATRRDRGGLPAREAVDTRGSDGAEAGREATGRHLSEAGPADSGEPIRH
+RDYLRVAAAAGLTVGGCGGGVRVLVEEGLLANRRFGLDQRLQADLHAAFPGLAIVPAEAV
+LDQGRMTSADGVAVLSVLLPLIRARLGHEAVARIEAGLRLPAPVSDFSPPGPQMAAAVVM
+DAERPVPARGQAESLPEARAIADPRIARAVVLIEARAGQNVSPSEMARAAGLSARQFSRL
+FRATLGMTPKHFILHTRLARARILVEQGMLSMAAIADQTGFADCAHFTTAFKARYGTAPR
+NLRPRRAPR
+>tr|A0A1Q9ALM7|A0A1Q9ALM7_9RHIZ
+MDIRAAEISAILKDQIKNFGQEAEVSEVGQVLSVGDGIARVYGLDNVQAGEMVEFPGGIR
+GMALNLEADNVGVVIFGSDRAIKEGDTVKRTGAIVDVPVGPELLGRVVDALGNPIDGKGP
+INATRRARVDVKAPGIIPRKSVHEPMSTGIKAIDALIPVGRGQRELVIGDRQTGKTAIIL
+DAFLNQKPIHDNGPENDKLFCVYVAIGQKRSTVAQFVKVLEERGALQYSIVIAATASDPA
+PMQYLAPFAGCAMGEYFRDNGQHALIAYDDLSKQAVAYRQMSLLLRRPPGREAYPGDVFY
+LHSRLLERAAKLSDARGAGSLTALPVIETQGNDVSAFIPTNVISITDGQIFLETDLFYQG
+IRPAVNVGLSVSRVGSSAQIKAMKQVAGSIKGELAQYREMAAFAQFGSDLDASTQRLLNR
+GARLTELLKQPQFSPLKTEEQVAVIFAGVNGYLDKLPVAKVGPFEQGLLSYLRSEGKGVL
+DAIRTEKQISDDTKGKLKAALDSFSKSFAA
+>tr|A0A1Q9AI20|A0A1Q9AI20_9RHIZ
+MTDDHLETWDDVDLGIEDPEPAGVPPIVYRWKEGPEHRAWVGGGTWRLTPVAMTQDEYER
+RIEAQWAADVADATAAPLRL
+>tr|A0A1Q9AKB9|A0A1Q9AKB9_9RHIZ
+MAFPTSPAPVAVAQGATPTKPRPPAQPAEPKGWLGLVFMAPSLVFITGLFLIPLGMTLWM
+SLHNWPLLGRVKFTGLANYAELAHDMQLWHSLGFTLLYTVLVTTAIMAVALPLALLVDRP
+LRLAGLFRTIYFMPVVIGFGAASTLWMWLLNPDSGVFAQLLRGAGLVDSAPRPLESFWPA
+LGVIILMVVWKTAGFTMVILLTGLQAIPADVIEAAKIDGASVFSRFRRITLPLMRNSLLL
+ALVLNVTSSMLAFDQFFIITQGGPANSTISAVFSIYLASFSSYRLGYGAAMSFVLLVVLV
+AISSVQLAFLRQRPEES
+>tr|A0A1Q9ADP7|A0A1Q9ADP7_9RHIZ
+MMDRESSFYIDGAWTDFADVTRLPVVNPASELVTGHIAGGNARHVDLAVMAARKAFPAFA
+GMPVKDRMALLDRMHRLLLERAEQFAEALVLEMGVAIGFARAAQVPFAAEHIRIQKELLE
+TYRFVIVEGTKATAREAIGVAALITPWNWPLYQITAKVAPAIAAGCTIVLKPSELSPYSA
+LLFAQLMEDAGAPAGVFNLVNGTGESVGAALSSHPEVDMISITGSTRAGVLVAQAAAPTV
+KRVVQELGGKSPNVFLDDAHFEEAVPKGVLAGMRNVGQSCSAPTRLLVPAHRLAEAEELA
+ANTARAFIVGDPRDPQTTMGPIANRAQFDRVQTMIQAGLDDGAKLLCGGLGRPNGLNGGF
+FTQPTIFSEVTPTMRIAREEIFGPVLCIMPYRDEEEAVAIANDTVYGLGAHVQSASRERA
+RKVAARIRSGQVHINYPAWDGTAAFGGYKQSGNGREYGVYGFEEYLETKSILGY
+>tr|A0A1Q9AF09|A0A1Q9AF09_9RHIZ
+MSDTTPTRSPAPMAAGADEKPAAYRVLARKYRPKDFSDLMVGQEPMVRTLTNAFETGRIA
+QAYMLTGVRGVGKTTTARILARALNYKTADIDRPTIDLSVPGEHCQAIMEGRHVDVIEMD
+AASHTGIDDIREIIEQVRYRPVSARYKVYIIDEVHMLSTQAFNGLLKTLEEPPEHVKFIF
+ATTEIRKVPITVLSRCQRFDLRRIAASDLVGLFTTILEKEGVSAEPEALAMIARAAEGSA
+RDGLSLLDQAIAHGAGIVEAAAVRAMLGLADRARIVDLFEHVARGDVGAALEEFARQYEA
+GASPSVVLTDLADFTHLVTKLKFVPAAAEDPSLSEIERRRGAEFSGGIAVSTLSRLWQML
+LKGIAETEASSRPAGAAEMVLIRLAHAAHLPAPEEAARRLMELSGSGGGAPVHPNGGTNG
+AGSERAMAQAVGSDLGNGAHQPSAPRASLGGGATMLRAVPTSPEATPQARGQAEAQAAAP
+KPAARGEAAGNGVSVRTVADIAELCAKNRDIVLKTNVRKFVRAVRIEPGRIEMNLPEEAP
+KTLVAELQRRLEEWTGRRWMVILSREPGEKTLAEQETDAQEQLLTDARADPDVAAILARF
+PGARIADVRIRTPEPEIEEDMPAAPATAESAEGDILPGDDVLPEDDFGDL
+>tr|A0A1Q9AG57|A0A1Q9AG57_9RHIZ
+MALTCDQQPVRLAGPWGAVFSMALAAFVLIASEFMPVSLLPLVAHDLAITEGQTGQAISV
+SGVFAVITSLVVAHLTRRIDRRLVASGFTSLLVVSGTIVAFAPNYPVLMIGRVLLGIAIG
+GFWSMSTSIVMRLVAENEVPKALAWINGGNALAATISAPLGSLLGAYVGWRSAFFLVVPI
+ALLALVWQWISLPPMPPRDQKSRGNVLRLLARRQVLLGMASTMLLFMGQFALFTYLRPYL
+ETAGGFSIEAISLVLLLMGLAGVLGTIAIGRALRTRLFTLLIGIPAVMALLAIGMAALTS
+ASLLVAALLVAWGFFGTAAQVGWGTWVSKHISDDAEAGGGLSVAVIQLGITAGAAGGGYL
+FDAVGWRGPFALAAIILAASSIVALAAMRNARRNTT
+>tr|A0A1Q9AED3|A0A1Q9AED3_9RHIZ
+MTGERPPHPALMHLIETARAFAASCSDDGRSYRTGHYEGLAHGSRLLTRQEFADAAVAAR
+SQSDLNYTYGFLRGLQHAFSVVLPRE
+>tr|A0A1Q9AI14|A0A1Q9AI14_9RHIZ
+MTSTIIQAAVVNRDSDMLVGIGCAATVPDGLRNAMLSYRAERASVGEFAIEVYEVEFGSP
+LNNDDFDPDVIGVLADAA
+>tr|A0A1Q9AHB9|A0A1Q9AHB9_9RHIZ
+MKARDVLKNLISESGQSTGGAPAAPQAHKPSGAVRAMNLSMERLSGEAAAAKELRQVLAA
+GDKVVELDPALIDTAFIQDRIEVQNDPEFDRLVLSISESGQQVPILVRPHPSRPGRYQAA
+YGHRRLRVAAMTGRPVRAVVKVLSDEEVVLAQGQENGPRIDLSFIEKALFAQRLDTHGFD
+RDTIAKALSVDKPETSRLLQVAEGVGQDLILAIGPAPKVGRPRWLAIVERLKNATAAQRA
+QSEIRSLEFLQADSNTRFERLWKSVQEPAPTKPNRKEPIRTKDGRVLGAFEHGSRASKLA
+VTSKEFAAFLSDRMPDLVTAFEKEIDAKADT
+>tr|A0A1Q9AG99|A0A1Q9AG99_9RHIZ
+MQSLRSIALSAIGLLLVLAAFVFTASLGLILAGLVSLAMIGSALSARFSAKPAPVRARSN
+SYSAQAASNRDAARNSGREPRIWNDGRGTIIDL
+>tr|A0A1Q9AMH3|A0A1Q9AMH3_9RHIZ
+MNNRLPYVLIAIGVLLIVAYSSIFVVTQRQQAIVVRFGQIRAVKTEPGLYFKLPFAFMDA
+DRVQYVPAQALRFDLDNIRVQVSGGKFYEVDAFMVYRIADARRFRETVSGDRESAEARLR
+TRLDSSLRRVYGLRGFESALSDERAAMMREVRQDMKADADSLGIRIEDVRIRRTDLTQEV
+SQQTFDRMKAERLAEAELIRARGNEEGQRRRAIADRQVVEIVAEAQRESEILRGEGEGER
+TRIFADAFNRDPGFFAFYRSMNAYNAAIANPETTLVISPDSEFFRYFNSAAGAAAPATSP
+APAPAAAAPAATAPAN
+>tr|A0A1Q9AN11|A0A1Q9AN11_9RHIZ
+MNTPRIETLSAAPEIGRYYLVPTVEGRWNDRLARWPVIGPRHSDAHCLQFDFQHYHLDPR
+FLVGNGWYWRSVQSQPLMISNRINPDGLPAPVWRRRKCQRLENPKAREFRADLAKRQVAN
+FDCHLSEWAGRQARHDGQGWVCPHRNVPLASMPVIDGAILCPLHLLLIDARTGRVLPANA
+KCGVAP
+>tr|A0A1Q9AMC3|A0A1Q9AMC3_9RHIZ
+MKISRIVALIIVLIAASFFLVPLYATFQFSLQMLRGQWSLQAYRSVFSDPQFLSTLSYSA
+VASLAAIVISTLIIVPTTYWVRLKMPRVKPFMEFITLLPLIIPPIVIVFGYLRLYGSDSM
+LPLTVSTAGTNVMLVIGYATLSLPYVFRSVDNGMQTLDIRTLTEAAEILGASRATIIFRV
+ILPNLRAAIVSGAFLTFSISFGEFVFASLLNRPAFGPYLVQIGQDRAYEPAALAVLSFAL
+TWACMVLMQIFANAKPGTSARRRPAALFPFARRKTA
+>tr|A0A1Q9ACZ9|A0A1Q9ACZ9_9RHIZ
+MNIHKNARLTPLRREEMARLVLAGMPVSQAARMFGVCAKIVRRRTERFRQGGREAMIDRS
+SRPHASPRMTGQALAERIITLRRQRLTGRHIARETGVSCATVSRVLKRARRSRIRDLEPP
+QPVVRYEYAEPGGMIHLDIKRLGRFERVGHRITGDRKGQSSARGVGWEYVHVCIDDASRI
+AFTDIFPDEKAVSAIAFLRAAVAYYASLGVTVTRVMTDNGSCYKARDFAKACKALGLKHI
+RTRPYTPKTNGKAERFIQTALKEWAYARSYPSSEHRKMNLPVWNHMYNWHRPHGSLKAQT
+PISRLALTGDNLLTLHT
+>tr|A0A1Q9AE52|A0A1Q9AE52_9RHIZ
+MGRAGAPEEGQAVDRTIDRPDLLPAPFLRWFAAKGWQPRPHQLALLSRVEAGEDMLLIAP
+TGAGKTLAGFLPALVSLTRRGRLPPGSGFSGIHTLYISPLKALAVDIERNLTVPVTEMGL
+PIRIENRTGDTPQGKRQRQRVNPPDILLTTPEQLALLLANGEAERFFKDLRFVIFDELHS
+LVTSKRGHLLSLGLARLRLLAPEMRAIGLSATVAEPMELQRWLVAQAPGAARHAGLVKIE
+GGARPEISILNTDARVPWAGHRAEYAMAEVYEALKRHRTTLLFVNTRSQAERLFQALWTI
+NDDNLPIALHHGSLDVGQRRKVEAAMAENRLRAVVATSTLDLGIDWGDVDLVIHVGAPKG
+ASRLAQRIGRANHRMDEPSRAILVPANRFEVMECQAALDANYLGAQDTPPVGRGSLDVLA
+QHVLGMACAAPFHPLALYEEITSAAPYAALDWETFERIVDFVATGGYALRVYERYARIRK
+MEDGRWRVSNPAVAQQYRLNIGTIIESPMLNVRLVSKNTRGRLGRGGMSLGKVEEFFLEM
+LSPGDTFLFSGKVLRFEGIRESECLVSQGYALDPKVPAYAGGKFPLSTYLAAQVRRMLAD
+PSAHHALPDQVRDWLALQNDLSMLPAEDELLIETFPRGNRFFMVSYAFEGRLAHQTLGML
+LTRRMDRTGLRPMGFVATDYSLAIWAVEDLGLAFARERPSLEALFDEDMLGDDLEAWLDE
+SFLLKRTFRNCAIISGLIEQRHPGREKTGRQMTVSSDLIYDVLRSHEPDHILLQATREDA
+ATGLLDIGRLGDMLRRIKRHIIHRPLDRVSPLAVPVMLEIGREAVPGGHGQDLLLAEAAE
+DDLLTQAMAEG
+>tr|A0A1Q9AEA5|A0A1Q9AEA5_9RHIZ
+MSLSASQNRAGLALIAPASILAIIFLIAPLSSILVLAFTDYQLGDRSLRFIGFENFQALI
+DDPVFWKSLSNTLIYSAVVVPGSMLLGLVSALLIDAGTSLRSFYRTAFFMPVMASLLAMA
+IVWEFMLHPSFGIVNTTAKALGFASHNWLKDGDIALYVLAVIGIWQSFGFNMVLFMAGLS
+AIPRDLYDAAELDGTPHAWERFKLITWPLLAPVAVFVAITSAIRSFQVFDTVHALTQGGP
+NKATEVLLYTIYAEGFEFFRSSHAAAITIVFILLVVSVSLLRFVSLKKNGEGA
+>tr|A0A1Q9AIF8|A0A1Q9AIF8_9RHIZ
+MVAIDNVTMAFGSFVAVENVNLKVGNGEFLSIVGPTGCGKSTILNAIAGLLKPAKGAVSI
+DGATVGGVQNTIGYLFQQDALLPWKTAYQNVELGLMFRGVAAEERRAKVMAWLEKVGLKG
+FESRFPHQLSGGQRKRVQMAQALITEPKVILMDEPFSALDIHTRHLMQNELLRLWQEDRR
+AVVMITHDLEEAIALGDRVAVLAAGPRSRVIESFPVDLERPRNVSEIKLDPKFMTLYRDI
+WASLRGEVEKSYASR
+>tr|A0A1Q9AHT1|A0A1Q9AHT1_9RHIZ
+MSEKPFSRPSIHDVKPIAVPKIGHWIGGVVLAILALVLVQVLVTNKNMQWGVVAAHMFSP
+AILAGLGMTLLLTALAMVLGLAIGVLLAIMRLSASSVFQAVSWGWIWFFRGVPPLVQMIF
+WYNLALLLPEISLGIPFGGPKLVSWNTNELINPFSAAIMGLAFTESAYAAEMIRAGIQAV
+NAGQTEAAATLGMTRGQTLRRIVLPQALRIVIPPIGNDTISMLKFTSLVSVLALPDLLYS
+AQMIYARTYQTVPLLLVATIWYLVLTTILTAVEHAIEHRLKSEDRAGSGKRAGFLPFRLF
+ARQQEAL
+>tr|A0A1Q9AHH1|A0A1Q9AHH1_9RHIZ
+MKRKSQGACLDVYSRITEKIVADLERGVRPWMRPWHCGHAAGRVARPLRHNGLPYSGMNV
+LLLWSEAVARGFAAPIWMTFKQAVELGGAVRRGEAGTTVVFASRFTKTEKDAHGGDVERD
+FPFLKTYTAFNVEQIDGLPERYYGPAAPVQNPAERIEHADRFFANTGAMIRHGGDKAFFS
+SAGDFIQMPAFQMFRDAASYYATLSHESCHWAGGPNRLNRDLSRYHKDRSERAREELIAE
+LGSCFLCADLGIAPELEPRPDHASYLASWVKVLSDDRRAIFQAAAHAQSAVSYLHNLQPA
+PAGEREAA
+>tr|A0A1Q9AJE3|A0A1Q9AJE3_9RHIZ
+MPKPFTRELSLDELAALPDSQVDTSDIPELDETFWRNSQTVEPEGTEQITLRVKKSVLQA
+FRNTGKGYQTRMNAALESYAQTLKK
+>tr|A0A1Q9AMP9|A0A1Q9AMP9_9RHIZ
+MRLLVISLLLASSISQAADIGGRASVIDGDTIEIHGQRIRFSGIDAPETRQTCKTTNGAD
+YRCGKASAEALEQFLAASRPTRCVASGKDRYKRLLAECFRADGKSVSAWMVRNGQALDWP
+RYSKGAFTAEQAAAKADKLGVWQGPFIPPWDWRRL
+>tr|A0A1Q9AJI6|A0A1Q9AJI6_9RHIZ
+MRHRLKPRALEASRALIGVLLALGSSMALPGAASAARVSNPVAVFSGIDKITGRITTFDV
+YIGETVQFGALQVTPRVCYSRDDTEAPKTTTFVEVDEITLDRKIRRIFTGWMFADSPGLN
+AVEHPVYDVWLKDCKAKSDLPPPDTAQAKPAQ
+>tr|A0A1Q9ANE8|A0A1Q9ANE8_9RHIZ
+MSLPADRSAADVDIDLRALSSALWRRRWRILATTALVSALAFAGASMITPSFQGETRLLI
+ESREPDFSAQPAASVNGLAFDDPAIVSQVQVLQSVDLIKQVARDMRLYQLKEFDPAAEPS
+ALSDLLVMLRLKKNPLDTPPEERVLKAFQEKLQVYQVEKSRVIGVQFTSKDRRLAAAIPN
+EMARVYLSLQSGAKLDSNTEASRWLEPEIANLREKVRAAEQKVADYRAKSDLLPTGENGT
+LATRQLTDLSAELARVRAERANAQSRADGVRAAIKSGRDASTLNEVVASPAMQRLSDTES
+QLQRQIADLSITLLDGHPRLKGLKAQLQGVRAQIREETRRILQGLDNDVDVASLREQDLM
+RQMNTLKASSAKAGEDEVDLRALEREAAAQRQLLETYLARYREAASRVSSSATPADARVI
+SSAVEPGEPIFPKVIPITVVAGLGSLLLSTLFVLLSELFSGRALRPSNGFGPGRPRRRVA
+IPLASEARMPSRQPVHRPEPAVFGRDPAARALETAVHVPDFPMPTEPASLEARLSPETLA
+EIAALDLADDAGAKAQTSAAPTTAEPDSTPAAPAIEPAAGRNADPLSERLDDVAARLTLD
+EIKVALCLSPGGEAGSATAVALARHLADLGCRTVLIDLSGTALASRIMTPGAPAGITELL
+SAKVAFGETIHPDQLSDAHVIPQGNADPDMALKGAERLPMIIDALADAYQLVVVDCGHAR
+IDGLARLSRAERTRILLAVAEMDEAELIGTLEALEKAGHHDVALLANVERGAPSALSPRR
+HQAG
+>tr|A0A1Q9AP37|A0A1Q9AP37_9RHIZ
+MLQAGIIPVTHFHQNCTILFDSETREGVVVDPGGDVDVILQTLDENAVTIKAIWITHGHI
+DHAGGAKELKEALGVEIIGPHKDDAPLLARLETQAERFGLSMKVENVVPDRWLEEGDAVS
+FSGHVFEVLHCPGHAPGHVVYVNRAQNFAHLGDVLFHGSIGRTDLPGGNHEQLMDSIRTK
+ILPLGDEMGFICGHGPGGRIGEERRSNPYLRGL
+>tr|A0A1Q9AF64|A0A1Q9AF64_9RHIZ
+MQKFRKGTKVEWTWGKSKAEGKIDESFTEDVERTIEGHKIKRKASADEPAYLIKQEDGAR
+VLKSHSELRSV
+>tr|A0A1Q9AFB8|A0A1Q9AFB8_9RHIZ
+MQFLFYTHSLVSDWNHGNAHFLRGIVRDLLRRGHGVGALEPRDAWSRANLVADQGPGAEA
+EFARIFPMLSSQRYGADFDHEAALAAADVVIVHEWTDPALIARIGRARQQGGDFTLIFHD
+THHRAVSAEGEIAGLDLSGYDLVLAFGETLRQRYLAAGWGQQVFTWHEAADAALFHPMPE
+VEKTGDLIWIGNWGDDERSAEIAAFLIEPVRALGLSATVRGVRYPQPALSALAEAGIDYG
+GWIANAEAPRAFAQHRLTVHIPRRPYVESLPGIPTIRMFEALASGIPLISAPWDDAEGLF
+SPGRDFLFARDGGEMTRLMRMLLSDPAMAAELAAHGLRTVLSRHTCRHRIDELLAILAIH
+GTAGIRAELASSSSRSKDAAA
+>tr|A0A1Q9AMB5|A0A1Q9AMB5_9RHIZ
+MTTITPSTITPSTITKAACIGGGVIGGAWAARFVLAGIDTRIYDPHPEAERIIGEVMANA
+ERAYAMLTTAPLPPRGKLIFCKSLREAVEVADWIQESVPERLELKRGVLTEIDAHARPDA
+LIGSSTSGLLPSELQRDMAHPGRFFVAHPYNPVYLLPLVELVGGTGTTADTIARAERAAE
+QIGMKGVVIHKEIEAFVGDRLLEALWREALWLIHDGICDTETLDNVIRYSFGLRWAQMGL
+FETYRIAGGEAGMRHFLAQFGPCLAWPWTKLTDVVDLNDALVEKIGAQSDAQAKGRSIRE
+LERIRDENLVGILQALKGGNGGEGWGAGQLLANFEQRLWREAKAPGRPDPSAPLRLVEAK
+VSAAWVDYNGHMTEHRYLQLFGDTADALLRLIGVDMAYVEAGHSYYTVETHLRHLGEARL
+GQRLYTTLQLLSHDAKRLHFFSCVHDAETGAVLATAEQMMLHVDSAAGRASPAPQAVLDR
+LAPIAEAHGALARPEGAGRFVGQPR
+>tr|A0A1Q9AJH3|A0A1Q9AJH3_9RHIZ
+MAKEATRVRRRERKNISSGVAHVNSSFNNTMITITDAQGNAIAWSSAGSKGFKGSRKSTP
+FAAQIAAEDAAKKAQEHGMRTLEVEVCGPGSGRESALRALQAAGFMITSIRDVTPIPHNG
+CRPRKKRRV
+>tr|A0A1Q9AFX4|A0A1Q9AFX4_9RHIZ
+MMAPAALADLRGIRRHIAQTSAYHAKAFLTELTAKIAWIAEVDFTGVPRDHILEGLRALP
+FRQRCIYYRSYADRIVVLRVLHGAQDVEKQQFDRGD
+>tr|A0A1Q9AGK7|A0A1Q9AGK7_9RHIZ
+MALVWCLNLLGLPADADQMLHAHGVSGAARDADLLRAARRFPVKAKAISSRYERLAATPM
+PALAELTDGGWIVIGKADAEKVLALDPANGSPELIGRHDFTTRWSGRLILVARRATRLSL
+DRRFGIGWFVAAMTKYRRPLVEVLVASLFIQVFGLIAPLFFQVVVDKVLVHRGLSTLDVL
+AVGLILVSLFEVLLTGIRSWLFAHTANRIDVELGARLFQHLVALPMAYFSTRRVGDTVAR
+LRELEQIRQFLTSSALTLIIDLFFATIFIGVLYLYSPSLTAIVAASIPLYVLVSLVASPM
+LKQRIDEKFRRGAENQSFLVESIAGIETVKAMALEPALQRRWEEGLAGYVTAAFGVIGVS
+TFAQQAVQAISRIVTVGILFFGARSVITGELTIGELVAFNMIAGQVAQPVLRLAQLWQDF
+QQTRVSIDRLGDILNTPTEPVAQPTSSLPPIRGAIRFEAVSFRYRLDASAILSDVSIDIA
+AGEIIGIVGTSGSGKSTIIKLVQRLFVPERGRVLIDGTDLALADPAWLRRQMGVVLQENV
+LFNRAVRENIAIADPAMGMDQVIAAARLAGAHDFILSLPEGYETMIGERGASLSGGQRQR
+IAIARALALNPRILILDEATSALDYESEAAIQANMAAITRERTVLIVAHRLSTVRAAHRI
+VVMDEGRIAESGTHDQLMRLNRRYARLWRIQSEGPAAAALRPVEARP
+>tr|A0A1Q9AKH7|A0A1Q9AKH7_9RHIZ
+MLHIVETHNRLSFSLLVEDMFALRARVFKDRLQWDVHVEDGKEIDVFDAADPLYILSVND
+VTGRLEGSVRLLPTTGPNMLRDVFPVLLPDDLVVESPIIWESSRFCVEPDAARLGEGRIH
+RVTTELLCGLVEVGLRAGLSHIVSVYDARMARIFKASACPAEVIGTPTRIGRVMTYAGLF
+EISETLLQNIAATQPTRENAELRDDLPALRVA
+>tr|A0A1Q9AHU4|A0A1Q9AHU4_9RHIZ
+MRKLVLALAASVAALSGASSASAGEIAVIVKTVNSTFWQNVQKGADAAIAKAKGHTMTFQ
+GPASESAIADQVNMVENAVNRKVDAILLAPSDPDALVPAVKRAWEARIPVVIIDSMLAKD
+ADKYYQAFLATDNKKAGELAAKAMIDKVGTEGKIAVMSYVAGAGSEIGRVGGFTDYIKAH
+SKLTIVGPYYSQSQMATALNQTTDVLAANSDLKGIFGANEPTAIGMGRAIKQAGKAGKIV
+AIGFDGNQDLQEFVKDGTLEATIVQGSYQMGEKGVDTLVKLLGKEKVEKFIDTGVVVVTK
+SNIDKPEAKNVLY
+>tr|A0A1Q9AFM1|A0A1Q9AFM1_9RHIZ
+MFLLTALAPVLAPGAAHAEFRVCNGTQNLVGVAIGYRAKEGWITEGWWQVPATTCATLIE
+GELQSRYYYLYAEDAARGGRWTGNVNMCVAENEFKIVGVQDCFARGFQRMGFKEYDTGRQ
+GSWMVQLSDTPGSQEGQN
+>tr|A0A1Q9AL14|A0A1Q9AL14_9RHIZ
+MDAQRKIGRDRRGVATGRRALSRVLLSALLLSSACLIGPCGRAWAQEPSASPESTSPAAG
+SSSPDADLSTQALSPASDTASAAPDAAADLARRRDSTRNELTALEQTIQLSEGKATELEK
+TIAEIEKSNGALRQALVDSAAKRRTLDEQIRAGEDKLIDLRAREAAVHESLKARRGLLAE
+VLAALQRMGRNPPPALLVTPEDALGSVRSAILLGAVVPGIRGETEKLAADLAALNGLVRD
+IGNERDRLTGDMTARLEEEHRTTLLLQEKEKLNGETAGALEAERRRAAQLAAQAKNLTGL
+IGTLESQITSVRQAAEAARVEEAARQMQSEAEREAARARAEAGVPDKNRIAPAYAFNDLR
+GKLALPATGSVLKRFGDDDGTGHSLQGMMLETGAAALVTAPSDGWIVYAGPFRSYGQMII
+LNPGDGFHLVLSGMETVNVRQGQFVVAGEPLGTMGATRVASAAALALETKEPTLYIEFRK
+DGKPVDSQPWWAKSDTRKARNDT
+>tr|A0A1Q9ALH5|A0A1Q9ALH5_9RHIZ
+MTVHGLSLPLEKGRDSRLKLAVIGRGFSGMMMAIALLRTLSQPFQLCLFDPKPTVSGGQA
+LATKRSTEILNSRARDLSVSIGDPKDFTRWLQANAAFRDAVSAAIPGFGQIFVPKSTFSD
+YVYQRFSEALAQRTDVAVRMSNDDVTGLERLDSGFLLRSEEGGTEHFDEVILATGYGISG
+PNNPGGFENRLPALPSESCQHIVVMGSGLRAVDQVMQLRDGGFAGHITLLSRRGFLPQPH
+TRLPADATFPTQPMPSSLREILRYVRQACAEAEENGWSWQAAMNGLRKRARALWSSLPPS
+EKRQFNRHLRAIYDAHRNRLPADVHARLERELSGGNTRLLKATAIMRVPGGLQLRRAGTS
+APEVFAADEVIDCRCLAPNLDSPLMKRLLASGLAVPDELALGLSVNPAGELLDDQGRVQG
+LFAIGPLGLGSLPDIDLVPEIVNQTYAAAERLEHRTRPQRRAG
+>tr|A0A1Q9AGG8|A0A1Q9AGG8_9RHIZ
+MTDVLPQTMARQSDGDDAAETPRRRFSGWSHPFTLIRRLFGNAVFSSLTRRILFFNLVAL
+VVLVGGIMYLNQFREGLIDARVESLLTQGEIIAGAIAASASVDTNSITIDPQKLLELQAG
+QSITPVPRDEDLEFPITQERVAPILRRLISPTRTRARLYDADADLLLDSRHLYTGGQVLR
+FDLPSITPDETSFTDRVNGWFNRLLQPGNLSLYKEPPGGNGSIYPEVVNALTGVRGAVVR
+VTEKGELIVSVAVPVQRFRAVLGVLLLSTQAGDIDKIVHAERLAIIRVFGVAALVNVILS
+LLLSSTIANPLRRLSAAAIRVRRGGAKERQEIPDFSSRQDEIGNLSIALRDMTRALYDRI
+DAIESFAADVSHELKNPLTSLRSAVETLPLARSEESKQRLLDIIQHDVRRLDRLISDISD
+ASRLDAELARSDASTVDLETLLASLVDISRQIRSKKKTVQLNFVVDRKDPRTSFLVSGYE
+LRIGQIITNLIENARSFVPEDGGRILVRLTRRKNRCIVQVEDNGPGIQAEDIDRIFERFY
+TDRPEGEDFGQNSGLGLSISRQIAEAHKGTLKADNMKDAEGRITGARFTLALPAETNA
+>tr|A0A1Q9AMV2|A0A1Q9AMV2_9RHIZ
+MASSPGFAERIALYALLTALTSFSIDALLPGLRQLGAELAPAPPLSTQHVISLFIFGMVF
+GELLIGPLSDALGRRPALMIGLGIYAFGSVIALTAPSLPLLVLGRILQGVGVAGPKIATR
+AMIRDQFEGDAMARVMSLMYTLFILVPMLAPTLAQGLIALAGWRSLFAAYLVLAALGGGW
+LMLRHPETLPAGRRIALRPALIWRNGGRILAHLRVTLLIAATGLVFGAQLLYLSTAPDLF
+FDLYGIAERFPLYFAGLALGIGLATFVNAALVRRLGMASMAKAGFAGLILSSAALFAASW
+AGHGRPALVLFMAGLFAAFFSIGILFGNLNALAMRALGQIAGLGASLVSAGSSLVSTLFA
+VLLGRLYDGSAYGLSAGLLLAGLGGALLFALALRCDATPVEPVTAEADRSR
+>tr|A0A1Q9AP65|A0A1Q9AP65_9RHIZ
+MSEPRLPLSAFIITLNEEAYLGACLDSLKDCREIVIVDSGSTDGTRSLVERYIAEGWPIR
+FVYEPWRGYAGQKQLALDLCTQPWCLNIDADERLDGALRASLPKLLDAPASIVGWKIARR
+PYLIGYGYTPEKVKERKNLRLIRAGRGLYDLTQAVHEGIVPQGRVAKAEAGSLLHFRPLP
+LDEQILKENKYSTLKADQQTAEGRKPKAGKLVFSPMLYFLRLYLRNGLWRCGLPGFIEAM
+TGAVYAFLTQAKLYQRAALRRRPNEDDAGAH
+>tr|A0A1Q9AKR4|A0A1Q9AKR4_9RHIZ
+MTEILFYHLTESKLEDALPPLLEKSLERGWKVVLQLAEPQECERLDEHLWTYRAESFLPH
+GLEDGPMPADQPILLTSGAGNGNGADVRFVAGGAEPPPLEGYQRVVIMFDGYDAGQLERA
+RGQWKRLKEEGHALTYWQQNADGRWVKKA
+>tr|A0A1Q9AEK8|A0A1Q9AEK8_9RHIZ
+MENATAQQEEARHQAQPSARPLFFRGLSGKLLLLTVIFVMVAEVLIFVPSISAMRIRWLD
+DRLNTAAAAAVVVDGLQNIQLDGKVREDTLRTTGALAIALRHKDESRLIVADEMPPQVDG
+QYDLDDDNPLLAIRDALDTLIFGGDRIIRVYGAIDEDGGDTVVELVMQDRTLRKAMLRYA
+RNVFLISIVISLITGIFIFVAINRMMILPIRRMTDNMQAFAADPNDPGRVMAPTPGGDEL
+ATAGRHLAEMQRELQKTLKEQKNLADLGLAVSKINHDMRNMLSSAQLISDRLTDVDDPMV
+KRFAPTLLRAIDRAVSYTTHVMSYGGAKEKAPNRRCLKLKPLVQDVVELLAVDARSGIEV
+RLQMDGDIEVDADGEQLFRVVHNLARNALQALQQEHAEDNSVITIAANRTGSVVSITVDD
+TGPGMPQKARENLFSAFRGSARSGGTGLGLAIARELVLAHGGTIALVEKPTRGTQFRIEI
+PDSPVSLDLFRSRSGH
+>tr|A0A1Q9AMH2|A0A1Q9AMH2_9RHIZ
+MTEFDESLPAADASEEELARHAAKMAKKKAARDKIMATKTDGKGLIIVNTGKGKGKSTAG
+FGMIFRHIAHGMPCAVVQFIKGGWETGERTLIERHFADLCTFHTLGEGFTWETQDRARDI
+AMAAKAWETSKALIRDARHSMVMLDEINIALRYGYIDAAEVIAFLTAEKPPMTHVVLTGR
+NAREDIIEIADLVTEMELVKHPFRAGIKAQIGVEY
+>tr|A0A1Q9AG66|A0A1Q9AG66_9RHIZ
+MEPFMSAWVLGLSIALPLGPVSLQCVEQSLAQGARSGLASGAGAATSHCLHAAVAVLGAK
+AIALPLAAINGRVNLVLGLVLTLLGLRSLLLARVAAEPRATIGSRGIAYLKGAGLALSNP
+ATPLTYLTFAAATATATARTTDMGLQQTAFVCGAGLGALSCYATLIALTALVGRHLPHSL
+FSRLHLVSGPILIVMGLMMAVR
+>tr|A0A1Q9AEH8|A0A1Q9AEH8_9RHIZ
+MDAWIPITIAAAFLQNLRSALQKHLRGRLGTRGASFVRFGYGFPLALAYVAALHLGLGYG
+LPVPGLDFALWAVIGGLAQIYATILLVHLFSLRNFAVGTAYSKTEPVQAALFGFLLLGER
+LSAGAVMAIAVGVVGVMLISIARAPLSWRTLGAALFGRTALIGIASGAIFGMSAVAYRSA
+ALALEGPNAVMQAAVTLACVTGFQTVYMLIWMLIRDRQEIIRVAQSWRSSALVGLSGVLG
+SACWFTAMALQPVAYVRALGQVELVFTFAASFFLFKERVNRLELLGCLLIVSGILGLLLN
+>tr|A0A1Q9AHH2|A0A1Q9AHH2_9RHIZ
+MRTQVAIIGAGPAGLILAHLLHAANVETIVIERQTRAYVEGRVRAGVLEQGTVECLARLG
+LDQRLRAEGLRHSGTHLSADGEDFRIDLEQASGGACVTVYGQQEVTHDLFEAAQARGLTI
+LFEAGDVRPQDIETEKPFVTCRTPAGEQRIDCDVIVGCDGFHGVCRQAIPAHVLRSFERV
+YPFGWLGILTERPPVSDELVYASHERGFALASMRSMTRSRYYIQCDMEQRLEDWPDERIW
+DELALRLGPALGARLQRGPSFEKSIAPLRSYVAEPMRHGRLFLAGDAAHIVPPTGAKGLN
+LAVSDVTMLGEALAEFFGEGSSAGIDTYSARALARVWKAERFSWWFTSLTHRFPDTGDFE
+RRMQVAELAYLRSSPRAQASFAENYVGLPLA
+>tr|A0A1Q9ANG3|A0A1Q9ANG3_9RHIZ
+MPCHRISLEAKPKRRWVRTWLDGDDFIGFDGAIVMGRIFRIAALSEGDREKWLWLLAHAP
+AQIKLDHPSCGWEETARQAAVRVENCYEKILRSIHRDAYDTLQKQGKR
+>tr|A0A1Q9AE37|A0A1Q9AE37_9RHIZ
+MAIAPPEFGATIEEIVQGRLPATLALQTPDGTPIGRLVPVTRAHLEDAFVIGKLTDWRNA
+NMAAFFTQFTATPERTRAWLDKVVLAATNQMIFLIYAEDDQLIGHFGFKDLTEDEVLLDN
+AMRGERGGHPKLLQIAGETLIDWLFAAAKVRVVYGIVLTTNVPAIMMNRAMGFGLWDKYP
+LAKTEHQGETRWAMGEKGAVSPDNVYCYRVEIVRERA
+>tr|A0A1Q9AFS3|A0A1Q9AFS3_9RHIZ
+MLLDRLFSRFENWVKPFAPRAVLQPPDSVTGFVWFYIRQAKAPFIAMLVLGGATAGIEAA
+LFWFVGRLVDILATIKPSDGWQGLLASHGAELFGMLVLIGVVRFVVTLIMALVDQQVITP
+GFYNLVRWQSYLHVARQSLSFFQNDFSGRIVTKVWSAGQATGDLVTSLMESVWFVAIYSV
+STLALVGGLDPWLAVVVLFWLIAFGFLARFFVPRIRHHSRETAEAASMLNGRMVDAYSNI
+QTLRLFGRDEENDRYMRQGFDSFQKTTLAFTRFITGVRASMALLSGIMIVTMSIISIDRW
+LAGSVSSGAVAFTLALVLRLNFLLSRLMVQFNGLMRNLGTIQNSADLISQPIGLVDRPDA
+VPLKVERAEIRFEAIRFHYGREKGVIEDLSLTIRPGEKVGIVGRSGAGKTTLVNLLLRFY
+DLEGGRILIDGQDISTVTQESLRAAIGMVSQDTALLHRSIRDNILFGRPDAGEEALRDAA
+RAAEALDFIDRLEDQRGRRGFDAHVGERGVKLSGGQRQRIAIARVMLKDASILVLDEATS
+ALDSEVEAAIQTHLDQLMQGKTVLAIAHRLSTIAALDRLIVMEDGRIVEDGTHEALLRNG
+GLYATLWARQSGGFLVD
+>tr|A0A1Q9AIW1|A0A1Q9AIW1_9RHIZ
+MSLSMRIAAHLPYLRRFSRAVTGSQTSGDAYVAAVLEALIANIGLFPKTSSDRVSVFKLY
+CQLFDQVTIAPSEAASPFSWEQRAADNLQNITPDARKAFLLVSVEGFSPEEAGEILGLSA
+DDTGALLHKASQEISAQVATEIMIIEDEPLIAMDIEDMVRSLGHGVSGIARTHAEAVDLF
+HRTKPQMVLADIQLADGSSGIDAVNEILKSSTIPVIFITAFPERLLTGEKPEPAFLVTKP
+FNPDMVKALISQALFFDEHAGRGK
+>tr|A0A1Q9AMT5|A0A1Q9AMT5_9RHIZ
+MPMSADRSASAPLIVFDLDGTLIDTAHDLVDSLNHAVVQAGLEPVTYDDLTFLVGSGAKA
+MIERTFALRERALSEEELAFQMKEFVAHYHAHMPGVSRPYDGLIDALDRLEAEGYAFAVC
+TNKMEKLAKTLLSELKLDHRFKAITGGDSFDVRKPHAEHLLGTIRLAGGDPVRAVMVGDS
+LNDILAARNAKVPVIAVPFGYSDVPIATLDPDVIIQGFDELTVTLVEGLMAG
+>tr|A0A1Q9AKY2|A0A1Q9AKY2_9RHIZ
+MTSQTTKRFGINAATNRLHMGRVSLPLPKSRAPRIALGTSLVIGGCLGFLPILGFWMVPV
+GLVVLSQDIAFVRRRRRRVTLWWGRRQQARQARTGRTAAGQVEQAGQAEG
+>tr|A0A1Q9AN05|A0A1Q9AN05_9RHIZ
+MIRISLDVMGGDFGPEVVLPGAARALERHPDIRFLLFGDQAICAPILERYPKLKAASSFE
+ATEIAIAMDEKPSQALRRGRGKSSMWQAIDAVNRGEADVVVSAGNTGALMAMAVFCLRTM
+SGIQRPAIAAIWPTLKGESIVLDVGATIGADARQLVDFALMGGAMARALFELERPTLGLL
+NVGVEEIKGQEEVKEAGRLIREASFEGIDYSGFVEGDDIGKGTVDVVVTEGFSGNIALKA
+AEGTARQIASYLRAAMSRTLMAKIGYLLAKSAFDRLREKMDPQKVNGGVFLGLNGIVIKS
+HGGADAEGFAAAIDVGHDMVRNGLKNKIQADLAKYRAVQTPEAATGDAAARGEI
+>tr|A0A1Q9AQJ0|A0A1Q9AQJ0_9RHIZ
+MLLRMYSITSASSATSTWPGHLPSWALARGRDIDERDAAFAAGIALKSLDDLIRSNTPWI
+GCWRDRLALKSAAVAARMLGRNEEEPALRDAVLLTPADGDPGPAGKLFLATRMLSRRIGM
+PGTSFIKELATLLSIRWDDNLASVPDLVDSAIQSGRSAPFAVADLIMAISTARPDAEVLA
+LGLGEMVLAQKLNWSQPVPLVLPERFGPAFRTIGGRGRVKPGESTYSKAICMAIVDGAEL
+ALRSAAEIDRRASRLLAIAAKVRTRGAEPVIRRLLNEDAVSASAAGASLSRWAASRLFER
+LEGFEAIRELSGRSSFRIFGL
+>tr|A0A1Q9ACK6|A0A1Q9ACK6_9RHIZ
+MRFLMRVMSFLALVLAVVLATVDALQSVAIGAPLFMPLAEALAGFGQSGLVLVQALERPH
+PEISAIDPLLQWALSQPASIVFCGVSLLFWMIGYRRRPARASFA
+>tr|A0A1Q9ACX4|A0A1Q9ACX4_9RHIZ
+MRLAVTGKQGQVVTALIERGAVHGVDILALGRPELDLADRASVLDALAGAKPDAIVSAAA
+YTAVDKAESEPAQAFAVNCDGAGAVAEAAVALGVPVLHLSTDYVFDGTSPEPYLESDLVG
+PTSVYGRSKLAGEMRLASIAPNHAILRTAWVYSPFGANFVKTMLRLAETRDSVSVVADQQ
+GTPTSALDIADAVIAIARQMIDSDEAELRGVFHLTGTGSASWADFAEAIFAGLAEKTGKQ
+VTVNRITTADYPTPARRPAYSRLSNEKLARLYGVRLPDWRDSTKLVLDRLL
+>tr|A0A1Q9AH29|A0A1Q9AH29_9RHIZ
+MTTREIVISTTTTGTMQVADADTLITLARTALLTTAAEGFVVSGDATNRSIAVEGEISAG
+AAGIVFGSSPFDLDGTIRIGSAGFIQAARAGILAIADGTEINQGGTIQSKLAGVAASGLA
+TQFSNSGTITSSLDAAVDITGLSSTVTNNGRLAGFLDGLRISGDRSIVTNNGSIGSTKAA
+GIVSSGADTTVTNNGTIGVQGHGMLIRGAGEIITNNGKVGAGGSAIIVSGADVIVTNSGS
+LNAGADGILVTGARAIVTNNKAIEVGGDALRIRADDVVVNNTGTVKGMSGLEVVGANVKA
+ANSGTITGWKAGLGAVDFTQAGNASFTNDGTVTALAKLAFKGGNGVQMLVNRGLINGDVD
+LGGGNDYFDGTGGTVKGKIAGGTGNDTYVISDAKALIVEGKNAGTDTVRASVSYTLGDNF
+ENLTLTGGNALSGTGNSLANQLHGNEAANTLKGMGGNDLIWGHGGNDILTGGAGIDTFFF
+ATGDGRDTITDFKATGREHDVLDLKGLASITSFSDLVANHMTQTGKDVLIDGLEGDSILL
+KNVKLAQLDKSDFHF
+>tr|A0A1Q9AK31|A0A1Q9AK31_9RHIZ
+MILRDHLPAGHVLLGRKAASKSALIALLAEAAAERSGLAATPIRAALSAREALGSTGVGK
+GVAVPHAMVEGLDKVVCLFVRLDRPVDFAAVDDEPVDLVFLVLVPPVQRSQSLSLLSALA
+RRLRESDAARGLRAAPSAEAALAILAPEE
+>tr|A0A1Q9AJV3|A0A1Q9AJV3_9RHIZ
+MAATIRFHEGDISAEAAALYRGAIAVDTETLGLVPHRDRLCLVQLSPGDGSADVIQIAAG
+QKQAPRLVALLADPAREKIFHFGRFDIAVLFHTFGVTTGPVFCTKIASRLVRTYTDRHGL
+KDNLKELLEVDISKQQQSSDWGAAKLSQAQLDYAASDVLHLHALRDKLTQRLERDGRMDH
+ARACFAFLPTRAKLDLLGWNETDIFAHS
+>tr|A0A1Q9APV1|A0A1Q9APV1_9RHIZ
+MTLAPPPAFITDAERLERLTRLRAAMETAGVTGLLLGSTDNLRYFTGLVWHGSERLLGAL
+VTAQDLVYIVPGFEESKVETLQHLPGRTALWQEEESPAALVARLLGGQGLLAIDDAMPLF
+FYHALASVLSPERLVNAGPLMRPLRRIKSQAEIDILHYAMGLTLEVHKRAHAILTPGIRA
+SDVVRFIDEQHRALAGHASTFCIVSFGQATALPHGAEGEQVLEKGDVILVDTGTRIDGYH
+SDLTRTYVLDGPDTDFAAHFAIERAAQQAVFDAARLGAPMQALDAAARAVLAEKGLGPDY
+RLPGLPHRAGHGIGLEIHEEPYVVRGNETLLEPGMCFSNEPMIVFPGRYGIRLEDHIYMT
+EAGPAWFTPPQESPIEPFA
+>tr|A0A1Q9AM84|A0A1Q9AM84_9RHIZ
+MSHSIWERILSSVAAAGNVLAGMVEAVRTFLEGDPVTRRDVAFSVAMIALSAKMAKADGV
+VTEREVEAFRHIFRYPDAEARNVARLYNLARQDVAGFEAYAEKMARLCATCEQDCSVLED
+ILDGLFHIATADGALHEKEMAFLARVAEIFRLSEARFEAVMARHVDGESDPYALLGVSRE
+DDFPTIKRRYRALVSEHHPDVLVARGLPAEMQRLAHDRMAAYNAAYEAIERDLQAA
+>tr|A0A1Q9AJG5|A0A1Q9AJG5_9RHIZ
+MTMTDPLGDMLTRIRNGAARRKSSVSTPASKLRARVLDVLQAEGYIRGYSEVAFDNGKNE
+LNIELKYYEGQSVIREIGRVSKPGRRVYVSVKSIPQVANGLGITILSTPKGVMADHQARE
+QNVGGEVLCSVF
+>tr|A0A1Q9ACG2|A0A1Q9ACG2_9RHIZ
+MVRDLEVMIGGNRILDKAGFTARAGALTAIIGPSGCGKTTTLKALSGEIAYRGSVTLQGD
+EVSRLSPMALARRRAVLPQATALAFPFTVREVVAMGLQVAGVGAPADGRRIASALEDVDL
+GGFAGRFYGELSGGEQQRVQLARALCQIKASAAKPGAGARANPMQERDGKTAGATAFVPF
+LFLDEPVSNLDIRHQLAIMQLARDHARQGGGVVAVMHDLNLTAMFADSVVMMRAGRVEAE
+GTPEAVMQDGLLGRLFGCALKVGTVPPAGMPFVLPQTATLS
+>tr|A0A1Q9AF67|A0A1Q9AF67_9RHIZ
+MTRRYFGTDGIRGQSNLFPMTPDLAMRVGIAVGTIFRRGAHRHRVVIGKDTRLSGYMLEN
+AMVAGFTAAGLDVFLLGPIPTPGVAMLTRSLRADIGVMISASHNPFQDNGIKLFGPDGYK
+LSDEIEAHIEDLLDQDLSGQLAKAHDIGRAKRVEGDIYRYIEHAKRTLPRDVTLKGLRVA
+IDCANGAAYKVAPLALWELGADVVTIGAEPNGTNINLDCGSTSPGALQKKVHEVRADIGI
+ALDGDADRVQLVDERGQIIDGDQLMAVIADQWALEGQLKGDGIVATVMSNLGLERYLDGR
+GLSLQRTKVGDRYVVEHMRKHGYNLGGEQSGHIVLSDFGTTGDGLVAALQVLAAVKRLDR
+PVSEVCHRFEPVPQVLKNVRIASGKPLEEPAVRQAVQEAEARLKGRGRILIRPSGTEPLI
+RVMAEGDDRAEVEAIVNELVSVIGAARSAA
+>tr|A0A1Q9AH35|A0A1Q9AH35_9RHIZ
+MTHIQIDTVTKAFDGAKALDAVSLDFASGSFTALLGPSGCGKTTLLRLVAGFERPDAGEI
+RFDGRAMSGAGGMVPPEERNVGVVFQSYALWPHLSVAGNIAYPLKMRGVSSGEIDRRVAE
+ALDIVELGGFGARDTSELSGGQRQRVALARCLVADADLIVFDEPLANLDVHLRAAMLETF
+RQVHRTTGRTIIYVTHDQAEALALADRVAVMEKGRVLQFSPPEALYRAPATQKVARFIGR
+GSLLAAFVSPLGPGSAGVRCGEGEFSARCEGTVAEGPAHVLLRPENLHLVEPGSDSITGT
+VRRVTYHGPAYETEVEVSGVEASRGRLIVDAPQALVIGAPVAIAVSDAWVVPSA
+>tr|A0A1Q9AHH3|A0A1Q9AHH3_9RHIZ
+MGRINELRLISRVAQMYHVEHKRQAEIAEHLRLSQATVSRMLKRAETEGIVRTSVIPPAG
+TYSDLEQALRERFGLPEAVVVDCSEDRDGAIMARIGESAAHLLEITLSPGEIIGVSSWSQ
+TIFKMVENIHPQKGAGARYVVQTLGGMGDPSVQTHATQLTARLAKLTGAEPKLLSVQGVT
+SSREAKLLMMADPFVRDTMDLFGAITLAIVGIGAVEPSELLARSGNIFSARELADLAEAG
+AVGDISLRFFDRQGRMVKTPLDDRVIGMSLEELAKVDRVIALAGGKAKTDAIAGALRLGV
+IDMLVTDRFTAERLTA
+>tr|A0A1Q9AIY1|A0A1Q9AIY1_9RHIZ
+MRYLHTMVRVTDLDAALHFYGTLFGLTEVRRIESEQGRFTLVYLAARDDLDQAKSASAPL
+LELTWNWDHEDYTGGRNFGHLAYEVDNIYETCQKLMDAGITINRPPRDGHMAFIRSPEGI
+SIELLQKGERLAPQEPWSSMANTGSW
+>tr|A0A1Q9AEJ6|A0A1Q9AEJ6_9RHIZ
+MAKKRKSKGKNISLGVTDDEIDRGTGETRRRLTPDPLMSDSLHAHRIPAGMRIRTALEEG
+IGCKALDMVRIGMTSGASSGITQPTPLDRLLVERTWLDRWRNACDHKCLHHAFAEEFAIG
+HSLRQIAERHVLSRHKVSQLVYDGLDLYAELRGFLPKPNGSKASIRVLENPNFVAPPAAD
+DHEPAPWKLPVKARLRNRNLTN
+>tr|A0A1Q9AG53|A0A1Q9AG53_9RHIZ
+MHCLMLGLACLLGGFAPSGAAAERTVLPASRDPVIIVLDASGSMAAALGKETRLDAARRI
+LLDTLSLFPVDRQVGLVAYGHRRKNDCGDIETVRDLGPVDVKAIREALKPLRARGKTPLS
+GALRHAAGLLPESGGTIMLVSDGLETCHEDPCAVAESLKEARAGVVIHVVGFGLSEGEMK
+GLACIAERGGGQAIETKNANGLEHALRTLAEPPPAPIGNPSEKPSPVETKPASPPPPMPK
+PVTLKAVIDGRAVPGPVTFTVASDKGETVYSGKGTQVTPSLAPGRYRLRLAGSNIDAQTP
+LTVAGQPDERHEIPLKAGLVRLSIVAAQGLSLADTDLKGDPVWTLAPKAGQALATLEGVL
+APEAMLAPGRYAPTVSLGGFSATAEIDVVEGKTVESVLDLRLGKVTLEAALPGEKTPIKT
+GTGLSWTLAGQADTKPLTAEAVARPTFLVSAGAYMARLAIAGAVIEQAVTAEAGETKIVQ
+LDLPSAALALQGSLGPGAPAFTDWRDAAWTVRPVKLIGGAQAGPALEGKLEAAPSLVLTP
+GEWEVTLVSGAASATRHLTLAPGAKLRERLDLAAGRLTISAQPAPGAAPPANVLLSIFAA
+KTEGGFEEKPIVQVGTPRSYAAILPVGRYRVDAADEQGRKGTTDIDLKTGESVERSIDLK
+>tr|A0A1Q9ACV9|A0A1Q9ACV9_9RHIZ
+MTRNAVKTLFHPFANGTLDLPGEGQRILFLGAEAGFDRPEGFDATLDAVQPLRPHHRGLA
+AARIDSRPELGDGKEYDGALLLIGKHRGENEQRIAEALLRTREGGMIVIAGAKEDGILAL
+RKRLEALGFDVDSLPKYHAVALWFPRPADIGAAVETLRARAAVVEGRFTAAPGMFSHDRI
+DPGSELLASRFPRDASGHAADFGAGWGYLSVMLAEAAPGLKGIDLFEADHNALEAARANM
+AANARNMPARFHWQDLTAEEPRDRFDLIVMNPPFHETQAADPALGQAMIRMAAKSLKLGG
+RLMLVANRGLPYESVMTELFKEWGETCRNARFKVLWGRK
+>tr|A0A1Q9AH06|A0A1Q9AH06_9RHIZ
+MTLRLSNPTARLLFLARQGLADPPGRKLDRAGLLSLIDRLGFVQVDSIQTVERAHHQILF
+SRAQTYRREDLVHLLEGERSLFENWTHDAALIPTRFYAAWKHRFRRRAPILRERWRRLRP
+DGFEPVVEDVHRRIREEGALLSRSFEAPDHKGGGWWNWHPAKTALEFLWHTGEIAISRRE
+NFQKVYDLSERVIPPAHFEAEISEADFIDWCCREALARLGFATSGEIAAFWDLVTPQEAK
+AWVEAHRGELVPVLAETVDGNARAALALADLEARLPDLAPPPARLRVLSPFDPMLRDRAR
+AERLFGFFYRIEVFVPEAKREYGYYVFPLLEGDRLVGRIDMKANRKQGALEVKKLWWEPG
+LRASAGRHERLEAELARLARFSGLERVIWLAGAAPV
+>tr|A0A1Q9ANQ8|A0A1Q9ANQ8_9RHIZ
+MVDDPDAELIKAVAAGEPGAMQALVARKLPRFLALAVRMLGDRAEAEDVAQETFLRIWRH
+AGRFRAREARFDSWAHRIALNLCYDRLRRRREEPMAEPPEQADPAPLPDADEEGEARQVE
+RALQALAPRQREAIVLVYYQDMTNRQAAELMGLSIEALESLLSRGRRALAARLKGDCDDA
+>tr|A0A1Q9AKB6|A0A1Q9AKB6_9RHIZ
+MSFSWIDSYWPLLLTGAWQTVALLVISVGFGFLLAIGIAFAQVSGGPVTRLLARGYCTFF
+RGTPLLIQLWLLYYGVGSLLPLIPGLRQSLFWPILREGFFFAAVSFTLNYAAYEAEVLRG
+ALLAVPKGELEAGRAFGMSPLRLVRRIWLPRAIRIALPTIAGEVVMQLKATPLAFTVTVM
+DLYAVATKVRQDTLLVYEPLLVVTLFYLVITAFIAGLFRLVERQVPMRR
+>tr|A0A1Q9AD41|A0A1Q9AD41_9RHIZ
+MQAIRFTGKGQAELAAFDPGPPAEGHVRLRVRAAGLCHTDIDVLHARYGDGAFPVVPGHE
+YAGEIEALGPGVSGFEVGDRVAVDPNLPCGACPACARGLTNLCRNLKAYGVSHNGGFAEV
+SLVHADHLHPIGAMPYTTAALAEPLACVVNGMRSAGIGAGARTPDHALVFGAGPIGLLLA
+LSLKSQGVARVTMADINESRLAFAAELGLEGAVSGSQALMGQRKGFDFVADATGIASVVE
+SMIPLVDDGGTALFFGVCAPDARIAISPFEVFRRQLKLVGSHSLNRNIPDALAILRADDG
+TMARLVSHQLPLQDMLPFFLHKPGDPATMKVQYVAA
+>tr|A0A1Q9AEQ1|A0A1Q9AEQ1_9RHIZ
+MKILSVASEIFPLIKTGGLADVTGALPKILGHLGCETRSLIPGYPTVLAKVEQVRPVHFF
+SDLFGAPATLLEAQHDGLDLLILDAPSLYDRKGGPYVGADGVDYPDNWRRFSVLSYVASA
+VAGGLLPDWRPDLVHTHDWQTALTTVYMKYSGNAADVPSVLTIHNLAFQGQFPAKLIRQI
+GLPPEAMNINCLEYYGDLCFLKGGIQTASAVTTVSPTYAREVLSTDLGMGLDGALLSRLR
+DFSGIVNGIDTEIWDPATDPYIPANYDYKQIRLRQRNRAALIDAFRLDNTPGPIFAAVTR
+LTWQKGADMLAEVADEICNLGGKLVILGQGSKDVERALILAAGWRPGQIGVRIGYDEATA
+HLIHAGCDVMVQPSRFEPCGLTQLYALRYGAVPLVSRTGGLSETIIDANDAAMSARVATG
+FQFHPVTADNLRLAVHRAFHAYRDPKKWARLQNQGMKANFSWERSAEQYAALYERLIAQR
+PSAL
+>tr|A0A1Q9AKQ6|A0A1Q9AKQ6_9RHIZ
+MTASAFDTEEVNRSAPHSAVVKVGQILAQLKITPFPRNYELIFEAMSGEHPDLAQEILAL
+GHQPSQAHLDEIGMRHKLAGHLSLVMDATRAQAAQTIEALEQPLNDSLTVRDQLGQQLHR
+FLDRLDRDPIAGMSEFADETRALRRMVAQLREKEERVATALNETAQALDAFNTGISEARR
+MALRDSLTGLPNRMALSVKLASLFEHEAQRRSAALVLLSVGGLRTIALKAGRPAAEKVLR
+QIGGCLRDTIKRDDFIARNATDIFALVVFNVTEANALSIAARIKERIEAMQVLPEQPGAA
+FLTVTGGLAVSAHAQHATHLLAQAEVALRNVRVDTPGGIMACTPALSASLIRTYAPHIVR
+TTA
+>tr|A0A1Q9AQ87|A0A1Q9AQ87_9RHIZ
+MHVVALIPHPKTALSSLLIADAASAVEPGSTITALHVCVDPAKIGGSVEEVDMQEMRIRD
+EGTASQRRNEVRKIFEEWSAGREPSPAGAKVEWVEADGGEEDGVRNHLGSADLVTIARPQ
+SMDGGDALHAALFDHHRLVVFTPDTNGTAVSFGRSIAIFWRDDDEIRSCLQKARAWLRAA
+DTLVILAAHENEVPEAVGFIQSLHVSGTGRLQTSVAKNADEFLEKANRGGADTLLMGAYR
+HGAFLEAVFGGATKTVMDHTSLPAFLSH
+>tr|A0A1Q9AM74|A0A1Q9AM74_9RHIZ
+MAPQTLHPARRAALTLSFEFFPPKNEEMERQLLETAEALKVYAPEFVSVTYGAGGSTKAR
+SIDTVRRLIADHGLTNTAAHLTCVGAARAEVDSVIDSFMAAGVTRFVALRGDAPGGAGVA
+YQPHPEGYENAAALVGALARRGVRSIAVSAYPEKHPESADVAADIDMLKRKVDNGATQAL
+TQFFFDNDDFERYLERVRAAGITIPIIPGILPINNLNQVIKFAGLCGARVPQVLIDRLGP
+LEEAPEERFREATLIAAEQIVDLAQRGISSFHLYTMNRTPLISAVCDMVQFARVDAASPA
+A
+>tr|A0A1Q9AI98|A0A1Q9AI98_9RHIZ
+MQAVNVRLIQIALLALILGSWQIGVTSGVIDRFFFPAPLDIVQQVISWVADPSFYKHVGI
+TLSETVLGYVIGTGLGVAAGVWLGLSPYVARVLDPFIKAVNAIPRVVLAPIFVLWLGLGL
+WSKVALAVTLVFFVTFFNAMQGVREVNPVVLSNTRILGASRSDLLRHVYFPAAASWILSS
+LRTSVGFAVVGAIIGEYLGASAGLGYLIARSEGNFDAVGVFAGIIILALFVLIIDLLLDV
+AEKRLITWRPKAGEERPA
+>tr|A0A1Q9AGS8|A0A1Q9AGS8_9RHIZ
+MPRSYAIYDVFTDTPLKGNPLAVVFDGEGLSTEAMQAVAAEFALSETVFVLPAEGPAHAA
+RLRIFTPHHELPFAGHPTVGTAVALAERRFGRESALDLVKVLEEQIGPVRCAVRLRPQAA
+SFAEFDLPRRSQKLAVNFDRQALADALGLPASQIGFENHVAGLWSAGVPFVTVPVHDLAA
+AAAVEFDAARWQKLAPMADGRLAAAYLYCRGGQNHQARFHVRMFAPEMGIAEDPATGGAL
+AAFSGTIQHFDQLPDGNHAFLVEQGVEMGRASYLHLHIQVDAGLVAAARIGGAAVKIAEG
+TLFV
+>tr|A0A1Q9ANM3|A0A1Q9ANM3_9RHIZ
+MARSQADAELVHEVQSELVYLSNLDAGITRREGKRGFLYYDADGKRVTDPAELERIAALA
+IPPAYSDVLISPVANGHLQAIGMDARGRKQYRYHPDWHAERGKAKFALLPAFAASLPKIR
+AQVDEDLNRRLPGLEKALATVVWLLDNLFIRVGNAHYAEENGSFGATTLRSRHVKISGSS
+VQFHFKGKSGKEWKLQHGDRRIVRAIRTLQDLPGQQLFQYLDEDGKRHAVGSADVNAYIK
+AIAGGDFSSRQFRTWGATRLAASAFADLEPATSQRERKRQINAVIDEVAAKLVNTRAVCR
+ASYIHPRIIADFETGELAALKRLRPSKSRTLTEWMNEDEIRVLRWLKRAGEPAAT
+>tr|A0A1Q9AEN4|A0A1Q9AEN4_9RHIZ
+MLDQIKGLHHVTSMAASARENNAFFTDVLGLRRVKKTVNFDAPDVYHLYYGDELGTPGSV
+MTYFPFPNIARGRPGTGEVGTTVFTVPKGSLDFWRSRLEAHKVDGLSQDTAFGASRLHFA
+GPDGDGFALVEAEDDPRQPWTGNGVGADEAIRGFHSVSLRLRDEGATRELLGFMGYQPVD
+THEGVTRLAVPGGNKADVIDLETLPNIAHGRQGAGSVHHVAFAVENREAQLAVRKALMDT
+GYQVTPVIDRDYFWAIYFRTPGGVLFEIATNEPGFARDEEVAHLGEALKLPQQHKHLRPI
+LEQHLEKLEG
+>tr|A0A1Q9AJU0|A0A1Q9AJU0_9RHIZ
+MSKPPREPRERTGKSTLRLGARRNRADTAVEIAPEAPIIHGAVPPRDVLMRFLAGNPERA
+SKREIAKAFGLKGDQRVALKDLLRALEEDGLVEKKRKALVRPGALPPVTVLDITTRDHDG
+ELIGRPAEWPEDAGVAPAVLIRQSQVAKTKGKQAVGGIGDRVVAKIFASKSATGPAYTAR
+IVKVLDRRRSANAALGVYRPMASGGGRVLPIDKRGEELVIDEGAEGAAVEGDLVEVEIER
+TGRFGLARARVSNVIGSVASEKAISMIAIHAHGIPYIFPDRVIEEAEAAGPASMVKREDW
+RSLPLVTIDPVDAKDHDDAVHAEPDPAPENEGGVIVTVAIADVSWYVRPRSALDQEALKR
+GNSVYFPDRVVPMLPERISNELCSLKENVDRPALAVRMRFAADGRKIGHSFHRIMMRSAA
+KLAYAQAQAAIDGNPDDKTGPLLEPILKPLWAAYAIIKRGRDRRQPLELDMPERKIVLKP
+DGRVDRVFVPERLDAHKLIEEMMIQANVAAAETLEAKRQALVYRVHDAPSLSKQEGLREF
+LNTLDISLMKGGNLRANHFNGILAKAEGKPYAQLVNEMVLRSQSQAVYSPENIGHFGLNL
+MKYAHFTSPIRRYADLIVHRALVGALGLGEGGITPAEEAALDDIAAEISTFERRAMAAER
+DTVDRLIAYHLSAHVNEEFDGRVSGVTKSGLFISLPHYGADGFIPISTLGRDYFIYDEAH
+QALSGERSGLGFRLGDSVRVKLVEAVPLAGALRFEMVSDGQPMPTATRSFHKAGRRDRPG
+SRRPPAGTRAPRGRR
+>tr|A0A1Q9APA5|A0A1Q9APA5_9RHIZ
+MKKIYRNLAILSTLVSVMLPLEANAESFSQLTANGATVSKMTENQAGLAGWFVTSNGRKY
+FCKLNVGLAIADAKTLVSFTSSGRMVKVDRVTYENHVGGPDKSMPTLSDLKNGRLRPSDV
+GQCTSTGK
+>tr|A0A1Q9AMN1|A0A1Q9AMN1_9RHIZ
+MTLPADRETVSKAFATLDETNQMALRVLMQTPEGDEHLLDGLYHHLDAATKAKLLNTMKL
+EKLGTWLGENAPGRLQVRLMETARASQHPVYQAFRTGLSRTRALERAYQKTA
+>tr|A0A1Q9ANX5|A0A1Q9ANX5_9RHIZ
+MATIKARPFDFTLAPENAALIVIDMQRDFIEPGGFGATLGNDVTRLQAIVPATARLIAGF
+RKAGLPVIHTRECHAPDLSDCPPAKRTRGNPSLRIGDPGTMGRILIAGEAGADIIQALYP
+IPGETVIDKPGKGAFYATPLGEMLKEKGVRQLVFAGVTTEVCVQTTMREANDRGYECLLA
+TDATESYFPEFKKAAIDMMTAQGAIVGWAATVDQIVEAIDD
+>tr|A0A1Q9AI80|A0A1Q9AI80_9RHIZ
+MDPCLSAQSRRAVLMVGMASILAACDQVTQKGARAGAFVAPLDGAARSPGSADMDALYAA
+RADGGYLVPAIPYRQIPQRFHRQRVAYSGSAAPGTIVVETQARLLFLVEPGGTAMRYGIA
+VGSAGFAWKGEGVIGRRQAWPRWTPPPEMLARKPGLTRYVSDEGSMAPGLSNPLGARALY
+IFQNGRDTLYRIHGSPEWQTIGRAASSGCVRLINQDAIDLYDRVQTGSRVIVS
+>tr|A0A1Q9ACY3|A0A1Q9ACY3_9RHIZ
+MKLGLSNLAFEQEPAAPALEALAAAGFSGLEVAPTRIAPWDELTDQRLADYAGNLARFGL
+GVSSLQAIFFGAEGVELLGAPDAFERMRRHIHLVGRVGQALGARRAVFGAPRQRRRGELT
+VAQAFDLGRERLADLAEVAAHYDLVLGLEPVPQSYGCDFLDRWTQMRQMVEAVGHRGLGI
+HLDTSCVELSGDSIVEAIEGCAGRIVHFHAAEPDLRGFDAPVADHPGAAAALRAQGYDGW
+VVVEMLAAKAGGPDAAATAARYVHGVYGDPA
+>tr|A0A1Q9ALS0|A0A1Q9ALS0_9RHIZ
+MHQIPFYQVDAFASQPFAGNPAAVLIMEDWLTDRDMLAVAEENNIAITAFVRPADAGWEL
+RWFTPTMEADFCGHGTLATAHVLATERGVEGDFVFATQAGALRVSRHTDGYALDLPSLPP
+ELVSEVPPTVMEIIEGPGLAVFRTARHWFVELADERAVRDFMPDLAKIATLHPLSFAVTA
+QGNAHDFVSRNFAPGAGVPEDSVTGSTHSALVPYWAWKLGKDRLTAFQCSRRGGRLSCEL
+DGDRVRIVGTAVPYLNGTVIF
+>tr|A0A1Q9ANV9|A0A1Q9ANV9_9RHIZ
+MTVPAQTTIGPRPPRRRLPLSVVLGLALAAIIILAALFSAYLAPFDPTRMAVGPRLAAPS
+AKYPFGTDEFGRDLFSRVLIGGRLSLGIGVSAVAFGLVIGGLAGLMAAFSGRAVEAVMLR
+LIDILYSFPDTLIALALVAFLGPGIENATLAIAISLVPFYARLTYGLAAAERAKPYIEAA
+RLAGIGTNRLVRVHVMPNIGQSLIVMGTLGFSSAILSAAGLSFLGLGVQPPSPEWGAILA
+SGRNYITKAPWILIFPGAAICLTVLSFNLIGDSLRDFVDPRRKGLR
+>tr|A0A1Q9AH87|A0A1Q9AH87_9RHIZ
+MAAEAQPLPEGLRRGEDGLLRCFWQMGLPDYIRYHDEEWGQPVEDDTRLFEKLCLEGFQS
+GLSWLTILRKREGFRAAFAGFDIDRVAAFGEEDIERCVADAGIVRHRGKIVSTINNARQA
+QKVRAEFGSLARYLWQFEPKPAERPAEVSYAALVANPKTEASIRLSKDLKKRGWTFVGPT
+TVYAFMQAMGMVNDHIEGCSCRARAEEARLRFVRP
+>tr|A0A1Q9AC73|A0A1Q9AC73_9RHIZ
+MSRLDSFIHRVQAQRDILNHVRDLGLPAAEGVILEVGLGNGRTFDHIRENFPGYRIIAFD
+RALGAHPASTPGDGDLILGEINETIGEVAGIGAVFAHADIGTAYPEVDAQTITWLPDGLA
+DALAPGGIAASGLPLDHPALEPLPLPSGIRPGRYHLYRRR
+>tr|A0A1Q9AKX9|A0A1Q9AKX9_9RHIZ
+MGGALVIVYECLMVFRRRQPLRRQERLRQAVWPRKGAMRGWRYLSLRVLRLSSSPHKIAL
+GAAAGTASAMTPFLGLHVLIALAVAYLLSASLVSAAIATTLANPLTIPLILFSIYEIGAA
+ILGLDQEKPVSGGDLLDGLSHLDLGELWAPVLKPMLVGMVPLATGMGALAYAATYFSVRL
+YNARRAARRLARFGASRSLP
+>tr|A0A1Q9AKV4|A0A1Q9AKV4_9RHIZ
+MMKNKAGLVALVVLAVATLLMVFLVLPNLGRDSAGSRAPASSATTAETAPQPATPQPAPA
+PASPSSVSSSPAETTTAADAKQPRVPDAAASAPSPAPDSAPAPDKPVATDQPAAPDNAAA
+PAQAATGDTAQADIPSFDVLRVERDGSTVIAGRAAPGSDLAVVNGDTVITTTKVSPSGDF
+AAVLDQPLAPGDYQLTLRATGKDGKDKSSNEVATVSVPKTPDGELLAMVSKPGEASRIIT
+APGEAADVPPAPAIAAPPPAAEAAAQPAAALPAPAMRIAVTAVEIEGSRIFVAGTAPAGA
+LVRAYADNTFIGEAKAGANGRFVIDGQIDLSVGSHIIRADLIGPDGVKVTMRASVPFERP
+AGAQVAAVAQPTADAAASEADAQLLDMARGQVRKAFALLKGLFASDQTPQADTLAAARSA
+TEIALGSLSGLKADPTSSATTRERMQISAKAAGKALAVLKPVAREAAAVKAVLSQVEAAL
+APVLHDEPAMAAVPPAGVDSAAAGGQAAPAPQTAPPETAAAEPPTVQQAPLQQSRNSVII
+RRGDTLWQISRRVYGAGVRYTTIYVANEDQINDPDRILPGQVFGVPDKALPDPESEAIHR
+RHMQQMQRN
+>tr|A0A1Q9AGV2|A0A1Q9AGV2_9RHIZ
+MTAIDDRETVCLDAGLLSEATARDYLALLKPRVMSLVVFTAFAGLMLAPGHLHPVLAVVA
+ILCITVGAGASGALNMWYDADIDRVMTRTARRPIPAGRIRPGEALGFGLTLSAFSVAILG
+LAVNWLSAGLLAFTIFFYAVIYTMWLKRSTPQNIVIGGAAGAFPPMIGWACVTGGVSLES
+IVLFLIIFLWTPAHFWALALFKMKDYEAVGVPMMPNVCGEATTKTQILVYAVLTAAVGVA
+PAAIGLSSPVYGVFAGLLGAVFVWLSVKVKRMPDGDKAMVPAKKLFGYSILYLFVIFAAL
+MIDRLAQALMTGAWA
+>tr|A0A1Q9AHD8|A0A1Q9AHD8_9RHIZ
+MPGRRLSGLGRGVGALCLLLVFVLLVGLGTWQMQRLAWKEDLLAAIAERRAAPPADLRAI
+EAIAAGGGDVDYRTVRVEGRFLHDRERHFFTTWNGQPGYAVYTPLVLADGRMLLVNRGFV
+PYERKPVETRAAGQTDGLVTITGLARARLPAKPSFILPDNEPAKNIYYWKDLEGMIRDDS
+LDPGRFVPFFIDADATPNPGGLPVGGITLIDFPNNHLQYALTWYGLAAALLVVTVAFVMR
+AKHPPKP
+>tr|A0A1Q9AHB6|A0A1Q9AHB6_9RHIZ
+MARIIETATGLEALTFDDVLLQPGHSTVMPGQTNIATRIAQDIELNLPILSSAMDTVTEG
+RLAIAMAQAGGLGVIHRNLTPVEQAEEVRQVKKFESGMVVNPVTIGPDASLADALALMKI
+HGISGIPVVENGGAGGHERGRLVGILTNRDVRFASDPSQKIYELMTRENLITVKDGVDQA
+EAKRLLHKHRIEKLLVVDPQGHCVGLITVKDIEKSQLNPNASKDAQGRLRAAAAISVGDD
+GFERAERLIDAGVDLLVVDTAHGHSQRVLDAVTRVKKLSNSVRIMAGNVATSDGTKALID
+AGADAVKVGIGPGSICTTRIVAGVGVPQLAAIMSAVEAARAQNVPVIADGGIKFSGDLAK
+AIAAGASACMIGSLLAGTDESPGEVFLYQGRSFKAYRGMGSVGAMARGSADRYFQAEVRD
+TLKLVPEGIEGQVPYKGPVSGVLHQLAGGLKASMGYVGGATIPEFQEKATFVRISGAGLR
+ESHAHDVTITRESPNYPGAV
+>tr|A0A1Q9AEB8|A0A1Q9AEB8_9RHIZ
+MAQLMSTLGFWNSSAGRHTPIEDIQGIFTGSLVAALGLYMLASAGLLTGSTAGVAFLLHY
+ALGINFGLAFFLLNLPFFYLSLKRLGLAFTIKTFVAIGLTAVLSDLQTRFFTIAGMQPAW
+GALTGGLLLGYGLLALYRHRASLGGVGILGIWMQERFGIRAGFVQLVIDMGVLAAAFFVT
+SPQTVLYSVLGAVVLNLFVAINHRSDRYIAL
+>tr|A0A1Q9AHB4|A0A1Q9AHB4_9RHIZ
+MAASHAIFWPLVAQIFLVFLVYALMNRRRLAAVRAGEASVKDFVVPNVEPAASATVARNL
+INQFELPVLFYVVVLSLYVTGGAGTLAVLIAWGFVISRYAHAYVHVTANRVLLRRKLFLA
+GVAMCMLLWLVLVVHLALMP
+>tr|A0A1Q9AHM2|A0A1Q9AHM2_9RHIZ
+MNISRFFIDRPVFAAVLSILIVVAGLIGMRSLPISEYPNVVPPSIVVRATYPGANPTVIA
+ETVATPLEEQINGVEDMLYMSSQATSDGVLNVTVTFKLGTDPDKAQQLVQNRVSQAEPRL
+PAEVRALGLTTVKSSPDFIMVVNLVSDVDRYDITYLRNYATLNVKDRLNRIQGVGQVQVF
+GAGDYSMRVWIDPQKAAEHGLAASDVSNAIRGQNVQAAAGIIGASPSQPGVDLQLNVNAQ
+GRLRTPEEFGNIIVKSGANGEITRLRDVARIELGAADYTLRSLLDGRPAVAVAVLQAPGS
+NAIEIADNVKATMDQLQAAMPQGVKYEIVYDTTKFVRASIEKVVDTLLEAVALVVLVVIL
+FLQTWRASIIPLIAVPVSIIGTFAVMYAFGFSINALTLFGLVLAIGIVVDDAIVVVENVE
+RNIENGLSPRDATYKAMKEVSGPIIAIALVLVAVFVPLAFISGLSGQFYRQFALTIAIST
+VISALNSLTLSPALAALLLKGHHAKKDWLTRFMDAIFGWFFRGFNRAFGAASNGYGRTVG
+GLLSRKSLVMILYLALVGATYSMFHAVPSGFVPAQDKQYLIGFAQLPDGATLDRTESVIK
+RMSDIALKQPGVEHAIAFPGLSINGFTIGSNAGIVFAVLDDFENRKTPDLSGGAIAMALN
+QKFAGIEDAFIAMFPPPPVNGLGTTGGFKLQIEDRAGLGNQTLDEAAKAVLAKAYQTPEL
+AGIFSSFQINVPQLYADLDRAKAEQLGVSVTDVFETLQIYLGSLYVNDFNAFGRTYSVRV
+QADSKFRAKPEDIGQLKVRSQSGQMIPLSALLKVDAQTGPERTTRYNGFLSADINGGPAP
+GFSSGQAEAAITRILEETLPSGLAFEWTDLTYQQILAGNSSMFVFPLALLLVYLVLAAQY
+ESLVLPLAIIMIVPMGVLAALTGVWLTGGDNNIFTQIGLVVLVGLSAKNAILIVEFAREL
+EFEGRTPFQAAVEASRLRLRPILMTSMAFIMGVVPLVLSTGAGAEMRTAMGIAVFSGMIG
+VTFFGIFMTPVFYMLARLLTGGRPLRQHGAEDATPALSPAE
+>tr|A0A1Q9AQH2|A0A1Q9AQH2_9RHIZ
+MTEQTVSAAGHVAATGPIAGPVRGTFKLPLWTLPYVFAFFMAGIMAMIMSAVIVGVNGGI
+DAGYPARVLDAYAIAAPTAFFAVLAVRPVVMCLVALVVRLG
+>tr|A0A1Q9AHL0|A0A1Q9AHL0_9RHIZ
+MSDTKKPFMNTTRRQALGLLALGASGVVMTGLPGFSRAFAQGTKDAKGQLTVGFSQEPTV
+FNPHMPHIEVDEGIHFSIFDPLFYVDEKGAFVAALAAEVPTVENGGISADGLSWKVKLRN
+DVKWHDGTPFTAEDVKFTLELLVDPNFRSWRKTGHEFVRELTVVSPTEITWKMEKPFAPY
+PSILASTFITPKHALGSAADRNTAPYNNAPIGTGPFKWKERVAGDYILLEANKDYFGAGP
+HIETLIYKYVPDLNVLYTQFKTGDIDVVGLQWITPDHYDEAKALEGKVVTVVPGSTVESF
+TLNMERPQFKDPKVRKALYHAIDKQSIIDALYYGLPTPTESYVPQQSFYYNPDLPKHEYS
+MEKAKALLDDAGWMPGADGIRAKDGVKLAFTCSTTAGNHIREQVQQYMQQSFKDLGIEMT
+ISNLPPAVMWGDYWMLSKFDSVIVGLDFLTGPDPDTSDFFRSTSSAAKGGAGQNTWQFAN
+KEVDDLLAKGGSLFVPEERKAAYFKIQEIMRAELPFLPLFQYATVRGHKQGVENVVFNIN
+TRIDTWNVGSWTVS
+>tr|A0A1Q9AHS3|A0A1Q9AHS3_9RHIZ
+MNDVMNDPVRGEPLLKVERLRKSFGTHEVLRGIDVAVMRGDVTCIVGPSGSGKSTLLRCL
+NYLERPTGGAIFLNGEPVGVRWKGERLYEMSFNELARQRQRMGMVFQGFHLFPHKTVLEN
+VIEAPVLVKRVARAAAVEEAMVLLERVGMKQRASYYPAQLSGGQQQRAAIARSLAMKPDV
+MLFDEPTSALDPQLVGEVLAVMRQLADDGMTMVVVTHEMGFARDVADHLIFMDGGVVVEE
+GRPADVLTRPQHDRTRAFLARVLAA
+>tr|A0A1Q9ALQ5|A0A1Q9ALQ5_9RHIZ
+MCNLYNVSTNQEALRAFRQALDRLGNLEPSFDIYPDRPAPVLRRADDGEAWDWLTWGMPT
+PPSVLGDKPDTGVTNIRNVSSPHWRRWLGPENRCVVPWTTFCEWEDTKPKKRKRWFAISE
+ERPLAFFAGIWTGWKGTRGSMKNPREGEHQLYGFLTTEPNAVVKPIHPKAMPVILTTAEE
+VDVWMRADWAEAKGLQRPLPDDGLLLLPVES
+>tr|A0A1Q9AEV9|A0A1Q9AEV9_9RHIZ
+MFIQTESTPNPATLKFLPGRVVMETGTAEFRDEDEANAGSPLAARLFRVPGITGVYFGYD
+FITVTKDGQDWQHLKPAILGSIMEHFMSGQPVMAGPRAEATDAEGEFFDSGDETIVATIK
+ELLETRVRPAVAQDGGDITFKGFRDGTVFLNMKGACSGCPSSTATLKHGVQNLLHHFIPE
+VRSVEAV
+>tr|A0A1Q9AF72|A0A1Q9AF72_9RHIZ
+MNPNFRNFALWAIIALLLIALFSMFQQPAERSGSREIPFSQFLKDVDGNRVKEVVITGNK
+VVGNYTESGTTFQTYAPSIDTAFTERLEAKNVTVTVRPETDGSSGFLSYIGTLLPMLLIL
+GVWLFFMRQMQGGSRGAMGFGKSKAKLLTEAHGRVTFEDVAGVDEAKQDLEEIVEFLRDP
+QKFQRLGGRIPRGVLLVGPPGTGKTLLARSVAGEANVPFFTISGSDFVEMFVGVGASRVR
+DMFEQAKKNAPCIIFIDEIDAVGRHRGAGLGGGNDEREQTLNQLLVEMDGFEANEGIILI
+AATNRPDVLDPALLRPGRFDRQVVVPNPDINGRERILKVHIRNVPLAPNVDLKTLARGTP
+GFSGADLMNLVNEAALMAARRNKRVVTMQEFEDAKDKIMMGAERRSSAMTEAEKKLTAYH
+EAGHAITALYVPAADPLHKATIIPRGRALGMVMQLPEGDRYSMSYKWMVSRLVIMMGGRV
+AEELTFGKENITSGASSDIEQATKLARAMVTQWGFSDQLGQVAYGENQQEVFLGHSVAQS
+KNLSESTAQKIDNEIRRLIDEAYEEAKRIITEKHSEFVALAEGLLEYETLTGEEIKALIR
+GDKPARDLGDDTPPHRGSAVPSAGAKKDGGASGAKGDEPEGSLPQPQ
+>tr|A0A1Q9ADE0|A0A1Q9ADE0_9RHIZ
+MAWTRRTLGAALFSFGLLMGTGAADLSLLGVRAEAASMKELRIGYQKTGLPVIARQQQVI
+EKALAPEGVSVRWVEFSAGPPLVEALNAGSIDLGWTGDAPPIFGQAAGAAITYVAALPSN
+GAGEAVFVKPDSAIKSVAELKGHKIGVGKGTSAHNLLVAALEKAGVDFKDITPVYLSPPD
+AAAAFASDKIEAWAVWDPFFAVAETRYKVRVLATTDKTLDVKTYFLANRGFAAEHPQEIV
+TTLGALKQAAGWADSHRDKVAEALHEVTGVPLEAQTLAANRTQFGIEPITPAIIESQQAT
+ADRFFRLGLIPKKITVSEAVWTPPAGN
+>tr|A0A1Q9AF77|A0A1Q9AF77_9RHIZ
+MIDPFNEASAKKKVVKAEETASGRMDAFLADALDGALSRNRIKSLIEEGAVHVNGKPVTE
+PKRKVAPGDLFEIVLPEPEDAEPAPEDIPLDVLHEDADVIVLVKPAGLVVHPGAGNWSGT
+LVNALIHHCGESLSGIGGVRRPGIVHRLDKDTSGVMVVAKNDLAHRHLSAQFADHGRNGP
+LERAYQAIVWGRPRSLKGTIDAPLGRAADRVKRAVKREDADDAREAITHYTVVERYHEKP
+DATALASMVECRLETGRTHQIRVHMAHIGHPLIGDPDYGAAFRTKANRLPERAQEVVLGF
+HRQALHAFLLGFEHPSSGETMTFEAPMPEDMRALALALAE
+>tr|A0A1Q9APF7|A0A1Q9APF7_9RHIZ
+MSMTLRHHPVLGGKAALRLKDVTLEALPEGHVLQLLAAAPEAGPGLRERIGDSDLRPLAP
+GQWLLIGNAPLTPEDLTGLEERLKPVADIVDQSHGRVRIALSGPAARAVLAKGTAVNLDA
+AAFPVGHAAQTLIGHIGAHLARTGEDSFELTVLRGFAESLWDDLAQMAAEFA
+>tr|A0A1Q9APX4|A0A1Q9APX4_9RHIZ
+MSDITRQPAQDQGRKPGRGRIYNSITETIGDTPLVRLDKLAKEHGVQATLLAKLEFFNPI
+ASVKDRIGVAMIEALEAEGRIVPGRTTLVEPTSGNTGIALAFVAAAKGYRLILTMPESMS
+IERRKMLALLGAELVLTEASKGMKGAIAKAEELVASLPDAIIPQQFENPANPEIHRRTTA
+EEIWNDTEGAVDILVAGIGTGGTITGSGQVLKARKRSLQVVAVEPAESPVLSGGAPGPHK
+IQGIGAGFAPAILDTGIYDEIVAVASQEAIETARHVARLEGVPVGISSGAALTAAIRVGQ
+RPENAGKTIVVIIPSFAERYLSTALFEGLGG
+>tr|A0A1Q9AI60|A0A1Q9AI60_9RHIZ
+MHFDYIITGAGPAGCVLANRLSEDPTVKVLLLEAGGGDWNPLFHMPAGFAKMTKGVASWG
+WQTVPQKHMKNRVLRYTQAKVIGGGSSINAQLYARGNAADYDLWANEEGCAGWDYRSILP
+YFKRAEDNQRFADDYHAYGGPLGVSMPVSALPICDAYIRAGQELGIPYNPDFNGRQQAGV
+GFYQLTQRNRRRSSASLAYLAPIKDRRNLTVRLNARVMRIVLEGTRAVGVEIAGKAGTEI
+LRAEREVLVSSGAIGSPKLLLQSGIGPVEHLSSVGVKVLHDLPGVGGNLQDHLDLFVIAE
+CTGDHTYDGVAKLHRTLWAGLQYALFRSGPVASSLFETGGFWYADPEARSPDIQFHLGLG
+SGIEAGVEKLKNAGVTLNSAYLHPRSRGTVRLSSSDPAAAPLIDPNYWADPHDRTMSLEG
+LKIAREIMQQAALKPFVLAERLPGPNIRTDAELFDYGCANAKTDHHPVGTCKMGTGPEAV
+VGLDLKVHGLEGLRVCDSSVMPRVPSSNTNAPTIMVGEKGADIIRGLPPLPSAIFAHERN
+DARPRARAEIR
+>tr|A0A1Q9AGT1|A0A1Q9AGT1_9RHIZ
+MFHGERMTMGTGGTRETSDDTLGIGKRLTVVFAVAVGVVVLALFASQPLVGIIGRQLGLS
+ADLSGLATTLTLLGYATGLILLVPLTDIIENRRLILTTLVANVCSLLSLASASTRVTFLI
+ASFLVGLSISAIQMLVPVAASLSSEARRGRTVGNVMSGLMLGILFSRPIASLVTEAFGWR
+TLYGMLGLAVAILAFVLALFIPAFRPSGRGSYLQLIGSLGTILKQEPILRRRAASQAMCM
+ATFSVFWTAIALRLAQAPFELGQTGIALFALAGAAGAVVAPIAGRAGDRGHTRPATALAH
+VAVIAAMVLAYLGGTATIGSSTVSLAVLLVAAVLLDLGVIADQTLGRRAINLLRPEARGR
+TNGLFTGLFFLGGAAGSALSGFAWNAWGWQGVCVVGLVFGVAAIGVSLSDRSHLNGDHCV
+GK
+>tr|A0A1Q9AII9|A0A1Q9AII9_9RHIZ
+MMDFDNFESSAPTRPLSQTDKAAAVLLAMGKGVAGKLLKFFTQSELQGIIAAAQSLRSIP
+PHELDQLVSEFEDLFTEGAGLMDNAKAIEAILEEGLPPDEVDGLLGRRAAFQAYEQNIWD
+RLQDSDPVFVSRYIAKEHPQTIAYVLSMMPSGFSAKVLLELPESQRADIMNRTVTMKNVS
+PKAAQIIEQRVIEMVQAVDEERNSTGSVKAADLINQLEKTQVDSLLGALESLSQESASKI
+RPKIFLFDDIMLMPQRSRVQLFNDVSGDIITMALRGAAGDLRECVLSALGARQRRMIESD
+LGSGEQGINPRDIAIARRSITQEAIRLAAAGMIELKEKTAA
+>tr|A0A1Q9AIK1|A0A1Q9AIK1_9RHIZ
+MWTIRKNILTTGLVALTIAGTTIATASQAEAHNNFGRGLAAGIAGTLIGGALVASASHPA
+YAAPVYTTPVYDVPAYPQTVVVAQPACRVVWRQDGYGDMYRTRVCV
+>tr|A0A1Q9AMG7|A0A1Q9AMG7_9RHIZ
+MSAKHVAVLMGGFSSERPVSLSSGEACAAALEGEGYRVTRVDVGRDVSAVLSALRPDVAF
+NALHGPFGEDGTIQGVLEYLEIPYTHSGILASSLAMDKIQAKRVAAAVGIPVAPSRLLNR
+HEIGHQHPLPPPYVIKPVREGSSFGIVIVKEDQSHPPQIVSSPEWRYGDLVMAERYVAGR
+ELTCGVIGAGEEARPLGVTEIVPLGHAFYDYESKYVKGGSQHILPAQILPEIYQTVQELA
+VAAHRAIGCRGASRSDFRLDDGEGGTGELIWLEVNTQPGMTPTSLLPEIAAHAGMPFGKF
+LSWLVEDASCLR
+>tr|A0A1Q9AG01|A0A1Q9AG01_9RHIZ
+MKSAVVQLPGLNRDRDMIAALTLISGKAPVTVWQTDTEIPDVDLIVIPGGFSYGDYLRCG
+AIAARMPVMQAIRAKAEAGVKVLGVCNGFQILLEAGLLPGALMRNASLRFVCKEVKLEVV
+NAETAFTRAYGKGQIIRCPVAHHDGNYFADAETLERIEGEGQVVFRYAEGTNPNGSLRDI
+AAVTNAAGNVLGMMPHPENLIEAAHGGSDGRGLFASALDVIAA
+>tr|A0A1Q9AKZ4|A0A1Q9AKZ4_9RHIZ
+MAGHFAPFTALAERLLPLSSPAGNDGSHDEGHILRVWRNAAAIQAGEGGDPRLIAAAVLL
+HDCVSVEKTSPQRAQASKLAAERAETILLAEGWSAADRAAVAHAVHAHSFSARVPIESLE
+AAIVQDADRLDAIGLIGVARCFYVAGRTGGGLFHPLDPMAEHRPLDDHAFALDHFETKLL
+RLADTFQTATGRAMAQRRTEALRQFRDAILSEI
+>tr|A0A1Q9AHY8|A0A1Q9AHY8_9RHIZ
+MIARLIAFSALAAMLAGCATTTTAPVSIARSNAVEARWKGQSAGPFFAQFGPPASDTVSG
+DQTLYTWRGGRRESLGNGKRGPWQSCSVQLTVSSDYTIRAVRILGDRPTSKGRTFCEDFL
+APQQQG
+>tr|A0A1Q9ANS7|A0A1Q9ANS7_9RHIZ
+MTKLTFYSLTSAFRRSALAGRNAGGLAPGEDRPAGTLLICGATHVGTSRLAEALAGKAGP
+QARHSLRLHAQPWMIAQSDADADASPLSRLEALILADIVLLAVDARDLARDGMRDLLIRH
+HLFRRSGLVIALTAVDQTEDGRKRFETIHAEIAALFGDRQMPPVIALSGGSRETTGDDRV
+QADARPDGQAPGTPALSPAWFTGPRLIEVLEAEAARLTPEEKRPFRLAVTSVDPSRPEAP
+CVDGTVCQGFIAAGDEVRILPGGLLSSVSGLVTLERKEEDGAGPVALRLTLSAPAACQPG
+QIVVPANRPCEVTDQVEAAIAWFDRAPLVPGSYGLDLGGQSTFAAITRLRQAVDLDMTHA
+PAADSLGPSGIGIADIALETPLAFDVETNGLSCFQLTDPVCGRVVGLGRIRQALRRADNI
+HWQALTIDRHRRAAMKQQTPLVVWMTGLSGAGKSAIANLAEQKLAAAGRHTFLLDGDNVR
+HGLNRDLGFTEPERVENIRRVAEVARLMSDAGLIVLCAFISPFRSDRWMARKLMAAGEFV
+EVHVKASVEIAEARDPKGLYRKARAGELKNFTGIDSPYEEPEAAELVLDTSILSVQEAAD
+LLVRHITDI
+>tr|A0A1Q9AFN3|A0A1Q9AFN3_9RHIZ
+MIRFSLSCDQAHDFDAWFSSGADFDRQAEAGFVSCPHCGSSAVSKRLMAPSVATARSREA
+HQQLAMDVQRGEVIAKLRDMVKTIKENAEDVGERFPEEARKIHYGEADQRGLIGKASPEE
+ARALIDEGIEIAPLPVLPDDVN
+>tr|A0A1Q9AML3|A0A1Q9AML3_9RHIZ
+MLPALSRVLGAVDRSSKIPILTHVHVVIDDQGLSLRGTNLDIEISARVETAEPGAPRSFA
+LPAVKLREVVNALPEASEITFSDGRGRDHINLSAGKSRYSLPILPGTDFPCMRSTENFAW
+ADMDAELIARGLRRVAHAYDRSEGREYLRGICLHKTRDGDGIDFAATDGLWLAKTTARGD
+SPAVLPCHDMNKNFPHVIVPGRLAELIAKLLADMKGRCRIAATSNHFAVECDGVEVISKL
+IDGCFPEYWRMIPGDGKTIVASLSELLGAVRRSCAAMDDGMKDPITLDASEGQMTLQIVG
+ANGTGAQDSVPVEMSDPWSFCAPSGRLLRTLEAMVAIDVELTIAPMGQDNSVLMVRPLGE
+SDDVFLVVYMRPRLHAFGGAA
+>tr|A0A1Q9AKW9|A0A1Q9AKW9_9RHIZ
+MMGRPSLVGACLAALALSGCSEDASGEVQGSRGNTPILQAPANGAAAGPGGKAGPSPRAE
+TMPRGDLPEGEGFDFYVLALSWSPSWCQDNDPQARTAQCDSSGRGFVVHGLWPQNERGYP
+QFCDSAEPKRVPEALGRTLFDIMPPALGLIGHQWRKHGSCSGLDQKAYFETLRAARERVH
+LPDSLGPQATSRPSSAAALEEALIRANPGMTQAGIAVDCDKSRLEEVRICMTKDLAFRDC
+AEVDRKGCRAPALTMPAPR
+>tr|A0A1Q9AFB6|A0A1Q9AFB6_9RHIZ
+MADFLIRLPATALVLAFALALPARAADPGAGLQPTSGAETSAPKAETPAASPSAPAKPGI
+ASDDRKATLNALFDALKRERNPEKAREISGQIRLEWAESGSATVNFLMLQAAKAIAENRQ
+TSALDFYDQVIALAPDYSEGWNGRATLHYQMNNYRKSMSDINHVLQIEPRHFGALAGMAT
+ILTTMDKPELAVRVWEKFLEIYPAERKAQEELNTLQEKVAGSRT
+>tr|A0A1Q9AGA4|A0A1Q9AGA4_9RHIZ
+MAHWTNSIADVAGLTIGQAEDEGLKSGVTALLCDTPCVAAVHVMGGAPGTRDTDLLLPEN
+TVERVDALVLSGGSAFGLDAASGVQGALREMGRGFAVGPARVPIVPAAILFDLLNGGDKG
+WGRFPPYRDLGYQAALKAGRAVATGSVGAGTGALTAGLKGGLGTASLRLPSGFTLGALVA
+VNALGSATVGRTRHFWAAPFEKGQEFSGLGWPSPMPEDATALRLKGRPEPGTNTTIAILA
+TDAVLTKAQAKRLAVTAHDGFARALWPAHTPMDGDLVFSLATAAAERLPDADAMMELAAF
+SGAVMARAIARGVHDATPAAGDVMPCWSSLT
+>tr|A0A1Q9AK52|A0A1Q9AK52_9RHIZ
+MAGFDGLFFTEVLVGGLLSGVMYSLVAIGFVLIYKTSGVLNFSQGALLLFAALTFVSLVE
+RGVPFALAFLVTFAIMVVIGIAIERTVLRPLTNKPPITLFMATLGLSYIIEGAAQLLWGT
+QVHALDLGIEDVPYDIAGVFISQFDVFAALTAAAMVGLLSAFFRYTRIGLGFRAVADDQL
+AALAVGLKLPWIWASVWAAAGLIALVAGLLWGARLGVQFSLSLVVLKALPVLVLGGFDSI
+LGAILGGLLIGASEKLAEVYLGDYFGGGIESWFAYVVALAFLLIRPSGLFGQKLVERV
+>tr|A0A1Q9AJ95|A0A1Q9AJ95_9RHIZ
+MRIVLIVVLLALAGCATAPRNIQNACAIFDQRDGLFNNWERSARAASREYGVPVPILMAT
+IYVESGFRPYARPPRRYILGFIPWGRVSTAYGYSQALDGTWEHYRRATGNWSARRSNFSD
+AVHFVAWYHNFNHQKNGIALTDPYNLYLAYYSGHVGYARGTWRNDAGVRRAAAKATSIAR
+NYSTQLRRCR
+>tr|A0A1Q9AKK3|A0A1Q9AKK3_9RHIZ
+MAARVVLELSAVERHYSQGDKALSILKGADFRLNAGQTVALVAPSGTGKSTLLHLAGLLE
+RPDGGDVLINGRSCGKLGDEERTRIRRHEIGFVYQFHHLLPEFSAIENIMMPQLIGGLSK
+AEARERAAALLDYMRIGHRADHRPSELSGGEQQRVAIARAVANAPFVLLADEPTGNLDPE
+TAGYVFEALKALVKQSGLAAMIATHNHDLAGLMDRCVTIEDGKVVQLR
+>tr|A0A1Q9AFV7|A0A1Q9AFV7_9RHIZ
+MPALASVLDAIGNTPLIRLKGASEATGCTILGKAEFLNPGQSVKDRAALSIIRAAERAGA
+LKPGGVIVEGTAGNTGIGLALVAQALGYRTVIVIPETQSQEKKDALKLLGAELVEVPAVP
+YRNPNNYVKLSGRLAAELARTEPNGAIWANQFDNVANREAHVETTAPEIWRDTDGKVDGF
+ICAVGSGGTLAGVAEGLRGFNPDIKIGLADPEGAALFDYYTKGELASAGSSITEGIGQGR
+ITANLEGFTPDFSYQIPDAEALPLVFKLVEEEGLCLGGSSGINIAGAIRLARDLGPGHTI
+VTILCDYGNRYQSKLFNPAFLKSKGLPVPAWLTKTTEVSIPYENAG
+>tr|A0A1Q9AMZ0|A0A1Q9AMZ0_9RHIZ
+MAACRICREAPLGGPERALPQEPRPIFVLSPRAPVLIASQAPGVRAHDSGVPFNDPSGNR
+LRQWLGVDRTLFYAPDNFAILPMGFCFPGHDRHGGDLPPRKECAPAWRAPALAAMPGLRL
+ILTIGAYAQAYHLGPRASMTETVADWRAILSASLAEEGAPATLPLPHPSWRNSAWLKRNP
+WFEAELLPELQARIRTLISR
+>tr|A0A1Q9AE57|A0A1Q9AE57_9RHIZ
+MKAVILAGGLGSRIAEETHLRPKPMIEIGGRPILWHIMKIYYAHGIRDFIICCGFKGYVI
+KEYFANYGLHMSDITFDFADSSMQFHRKSAEDWRVTLVDTGENSLTGGRLKRLEKYLKDE
+EAFCFTYGDGVSNVDISGLIAFHKAHGQMATVTAVRPPARYGALQLDGDRVQGFIEKPEG
+EGGFINGGFFVLSPKVIGLIEGDQTSWEGEPLTHLASEGHLRAFFHEGFWQPMDTLRDKN
+HLESLWQGGTPPWKVW
+>tr|A0A1Q9AGT5|A0A1Q9AGT5_9RHIZ
+MKHFIVEARYLVPFEEIKATIPRHRAFLQKGYDLGLFLCSGPKEPATGGFLLARANSQAE
+LEAFFEDEPFHIASLASFSFIEFQPVKRQDWTGHWFGEVRNSTI
+>tr|A0A1Q9AIG4|A0A1Q9AIG4_9RHIZ
+MKASLNPFTLAATLSALLGASALALQAHAEDKTIVVYNAQHESLGKEWIEAFTKETGIKV
+TMRQGSDMQLANQLIQEGEASPADVFLTENSPAMTLVDGVGLFAPVEKDTLAQVPQAYQP
+SDGHWVGIAARSTVFAYNKTKLSEDKLPKSLLDLADPAWKGRWGAAPAGADFQAIVSALL
+ELKGETETAKWLKGLKENATPYKGNSVAMKAVNAGEIEGAVIYHYYWFGDQAKTGGENSK
+NVGLHYFKHKDPGAFVSLSGGGVIKSTQHMKEAQQFLKFVTGKAGQDILKNGTSYEYAVG
+KDAASNDKLVPLADLQAPEIDPAKLNSKKVTELMTAAGLI
+>tr|A0A1Q9AKE4|A0A1Q9AKE4_9RHIZ
+MTELRPEALCVEDLHKRFGAQEVLKGVSTTARRGDVISIIGSSGSGKSTFLRCINLLEMP
+DRGRIAVNGETIALKPTRAGHLQPKSWRQVERIRSGLGMVFQSFNLWAHMTVLENIIEAP
+VHVLGLSRQEAVDKAEALLNKVGLADKRDAYPAFLSGGQQQRAAIARALCIDPAVMLFDE
+PTSALDPELVGEVLKVIRDLADEGRTMLLVTHEMRFARDVSSHVLFLHQGRIDEEGPPQQ
+VFDAPVSARCREFTGALAR
+>tr|A0A1Q9AMG0|A0A1Q9AMG0_9RHIZ
+MSVHAKRRRITPPVIAALKGERPIVSLTAYTTPIARLLDPHVDLLLVGDSLGMVLYGMDS
+TLGVTLEMMIAHGQAVMRGADAACIVVDLPFGSYQASPEQAFTNAARVMKETGCSAVKLE
+GGAEMAETVAFLVARGIPVLGHVGLMPQLVNTTGGYRSLGRHDKEAEKIRRDALAIQAAG
+AFALVIEGTIEPLARAITEELTIPTIGIGASPACDGQILVSDDMLGLFNDFTPRFVKHFA
+TLAPEITRAAEAYAEDVKARRFPGLEHTFQPQR
+>tr|A0A1Q9AL71|A0A1Q9AL71_9RHIZ
+MTKLSSTPLSSGPTSSLNRRNLLKVAAGAALVSALRSAFPSGAFAAAPAPEVTGVKLGYI
+ALTDAAPLIVAKEKGLFDKYGLPDVEVAKQASWGATRDNLVLGGAAGGIDGAHILSPLPY
+LLHTGKVTQNNQKVPMAIIARLNTDSQGISVAKAYAETGVTLDAGKLKAAFEKKKAEGAE
+IKAAMTFPGGTHDLWIRYWLAAGGIDPDKDVSTIVVPPPQMVANMKVGNMDVFCVGEPWN
+EQLVNQGIGFTACTTGELWKGHPEKALGMRADWIEKNPKATQALLMAVMEAQIWCDSMAN
+KDEMATILGKRQWFNVPPKDVLGRLKGDINYGNGRVAKGTDLYMKFWQNAASYPFKSHDT
+WFMAENIRWGKLAPDTDIKALVDAVNREDLWRSAAKALSVADADIPASTSRGVETFFDGK
+TFDPADPSAYLKSLSIKAAS
+>tr|A0A1Q9AJN9|A0A1Q9AJN9_9RHIZ
+MSHFPHRHLLGIKGLTEPEITLLLDKADEAVQISRRREKKTSTLRGLTQINLFFEASTRT
+QSSFELAGKRLGADVMNMSVGNSSVKKGETLIDTAMTLNAMHPDVLVVRHSSAGAAALLA
+QKVSCSVVNAGDGQHEHPTQALLDALTIRRARGKLSRIIVAICGDVLHSRVARSNILLLN
+RMGARVRVVAPPTLLPSGIADMSVEVFHSMEEGLKDADVVMMLRLQRERMAGSFVPSVRE
+YFRYYGLDAEKLKAAKEGALVMHPGPMNRGVEIASEIADGPQSVIEDQVEMGVAVRMAVM
+ETLLLSENGGPRT
+>tr|A0A1Q9ACA2|A0A1Q9ACA2_9RHIZ
+MITEFLLSRHEKKTLVVAALILLAAILVPLANLLAPEGSLLHVPDHLVPLMGKYLCYALL
+ALALDLVWGYCGILSLGHGAFFALGGYAMGMYLMRQIGPRGVYANPLLPDFMVFLNWKEL
+PWYWTGFNHFWFAGLMVLLVPGLLAFVFGWFAFRSRVTGVYLSIITQAMTYALLLAFFRN
+EMGFGGNNGLTDFKDILGANIQAPETRATLFAMTALLLALSLILSSAIVRSKYGKVLIGV
+RDAESRTRFLGYRVENMKLFIFTVSAMMAGIAGALYVPQVGIINPGEFAPANSIEVVIWT
+AVGGRGTLIGPIIGAILVNFGKTIFTAAFPEFWLFALGALFIATTLFLPKGIVGTVMQGS
+KARAERQKAVAAEKGRTAAQPSQGAAAHETQAAE
+>tr|A0A1Q9AI58|A0A1Q9AI58_9RHIZ
+MARFDLDTVFNAPAGGDNRAEVFCEMGLMYATGRGCDIDLVSAHKWLNIAAIRGSERAAL
+LRAELSSSMSKMELAKALREAREWMTTH
+>tr|A0A1Q9AEJ2|A0A1Q9AEJ2_9RHIZ
+MKALVDKLKTLAAETSATDLRAAFAADPQRFDHFSVALDDLLLDYSKCAVNEQILAGLEE
+LADAAKVAEKRDAMFSGAPINFTEGRAVLHTALRNRANTPVLVDGKDVMGDVNAVLDAMG
+AFADGIRSGALAGATGEKITDVVNIGIGGSDLGPVMATLALAPYHDGPRLHFVSNVDGAH
+IADTLKLVSPETTLFIVASKTFTTIETMTNAKTARAFIADKLGEEAVGHHFCAVSTALDK
+VAAFGIDAARVFGFWDWVGGRYSIWSAIGLPLMIAIGKENFGEFLAGGHAIDTHFRTAPL
+RQNLPMLLGLIGFYHRNVLGYPSRAILPYDQRLSRFPAYLQQLDMESNGKGVTIDGTPVE
+GDSGPVVWGEPGTNGQHAFYQLIHQGTSIIPAEFMIAANGHEPALRHQHDLLIANCLAQS
+EALMKGRPLEEARAQLEDKKMPEADIARIAPHRVFTGNRPSLTLVYDKLTPFALGRLIAL
+YEHRVFVEGALFNINSFDQWGVELGKELATGLLPVVEGKESAEGHDSSTAGLVKALLSAK
+A
+>tr|A0A1Q9AQ20|A0A1Q9AQ20_9RHIZ
+MTTQTLKKAELHLHIEGAAPIALAERQAERYGVDISGTIADGRYVWRDFADFIQAYDRVA
+GLFRTPEDYAALAEAYLTEIAEAGAIYAELIVSSDHGEAIGIGADAYLDGLGRGILAAKE
+KTGIEARMLITMIRHLGPERAERTAAYAARRPHPLVTGVNLAGEERMHNVADFARAFDIA
+RDAGLGLTIHAGEMAGAFSVRDALDHVRPSRISHGVRAIEDEALVRRIAEEGVVLEVCPG
+SNIALGVFDSFDSHPLKRLRDAGCRVTLNSDDPPFFDTSLAQEYAMAASVFGFSPAEIDA
+MTRTAIEAAFIDEPARAVLLARLAG
+>tr|A0A1Q9ACG5|A0A1Q9ACG5_9RHIZ
+MSDSGRNGTDQRAQLLDMILSKTGTGYVLQDAQLNLIASANVPDIALHLAFAGPDDANGE
+AARIGNLKREVIALGRATTAEVDIASSAGLMTFRFDIEPMADQFGGIVLILRDVSDTRHR
+ERVLKTLLRELSHRSKNLLAIIQGIATQTARQARSLDSFLVTFRGRIQSLASSQDLVTDS
+SWRGAFLFALAEKQFAAYWSEPGMPITPTGIDAHLSPNAALHIGLALHELIVNSASHGAI
+AAGVSSLTLDCFETVMDGKEALELVWLEHLPVGSTPMEGTEASFARTVLERVVPIAIGGK
+ARYLAQSDRIEYHLFIPPHEYEIITRVEE
+>tr|A0A1Q9AGN8|A0A1Q9AGN8_9RHIZ
+MNQFIMSMDAGGTMTDTFFVDDTGRFVVGKAQTTPADESIGFGRSVEDALAQWGQAPEAV
+FPKVATGIYSGTSMLNRLLERKGRRLGVIVTAGMEDYFQLERGIQTYLGYSYQDRLKVST
+HRHNQPLVPRERMKGVRGRIDLFGTEAIPLYEHEAEAAVAELLDMDVEGIVVNLLFSYVN
+GAHENAVKEAALKVMERKGKSVPIYLSSELYPVMQDFARLNTVTIEAYAAEPSRGQFQKI
+ADRARNFGGQFELRVMASHGGTISTEARELARTLISGPIGGMVGARYLGAELGIGNIVCS
+DIGGTSFDLGLITGGEFTTKTQPDMARFVLKLPLVDIDSVGAGTGSYVRLDPISKRIEFG
+PDSAGSRIGMCFEQGGVDTPTLSDCNIILGNLNPNNFLGGEVILNRERSYQAIKERIADP
+LGLDPYDAAEGVLQLFENHLRNEVYARVFGKGYSPEDYTLFSYGGGGPMHVAGYTKGLNF
+ADVLVPAWAAGFSAFGCACADFEYRLDRTVNVATASPDLAPAAFEQGFDLLSGAVNAGWE
+GLRAKVKEEFAKSGVDAGQIEYRHCLRLQYVGQLNDVEIELPFQAVRRADDIREIIERFE
+VAYSKEFSRSAKSPELGYLVTNVLVRGVVKVMKPALPNFPLHGPEPLRDALKEIRPIYRN
+GKWHDARIFHMDDLLPGNVITGPAVIEAASTTFMVPPGAEARLDQHLIFHLRHLED
+>tr|A0A1Q9AHS0|A0A1Q9AHS0_9RHIZ
+MTNQRFLKMPRLGETMEEGKIVGWLVKPGEAFSRGDPILEIETDKTIAEFPALGDGRLNE
+ILVGLDETVEVGHPIASIEIGTGPDWTADEGGSEPASDACTPSVPVVQEAGLAETDLTMP
+RLGETMEEGRIAKWLKAEGDSFERGEALLEIETDKTIAEFPALFAGRILTLLKGEDETVA
+VGAPIARILAPSETAAEAGTADLAAPAASDRPAEQVRPAQQGPAQTTRLRATPLARRLAR
+ARGIDLAQLKGTGRRGRIERDDVLAFAGQGRAEPTLQAASSLADDVSMAALTRGRMAYVD
+SAAGQGVPLLLLHGFAGDHTTWATIAAGLKRAGRRVIIPDLPAHGLTEIKESDPYGLGSD
+LVEFLARLGIDQVSVLAHSLGAVAAVTLAKAAPDRVRALTLIAPAGLGREIDTGFIDGMA
+GAQHPGEVAHLLRRLSVHGMALSENALVKLTKTLSAGRLKALAGNLAGSFGQRIDTIGLL
+QALPAQLPVRVLFGLDDRIIPWTQVAALPPRVAIHLLARAGHMPHWDQTREVLDIILSQG
+ASR
+>tr|A0A1Q9AJA6|A0A1Q9AJA6_9RHIZ
+MARYVFITGGVVSSLGKGIAAAALGALLQARGYRVRLRKLDPYLNVDPGTMSPTQHGEVF
+VTDDGAETDLDLGHYERFTGRSATKTDNITTGRIYKNIIDKERRGDYLGATVQVIPHVTN
+EIKAFVTEGNEDYDFVICEIGGTVGDIEAMPFMEAIRQLGNDLPRGTAVYVHLTLMPYIP
+AAGELKTKPTQHSVKELQALGIHPDILLVRADREIPEAERRKLSLFCNVRPSAVIQALDV
+ASIYDVPIAYHREGLDSEVLAAFGIEPAPMPRLDAWDDVADRIRTPEGEVTIAIVGKYTG
+LKDAYKSLIEALYHGGIANRVKVKLEWIESEIFEKEDPAPYLEKVHGILVPGGFGERGSE
+GKINAARFARERQVPYFGICFGMQMAVVEAARNLAGIEKASSTEFGPTQEPVVGLMTEWI
+KGNELQKRTAAGDLGGTMRLGAYQASLKKDSKIAEIYGATAISERHRHRYEVNVDYKDRL
+ESCGMVFAGMSPDGVLPETVEYPNHPWFIGVQYHPELKSRPFDPHPLFASFVEAALEQSR
+LV
+>tr|A0A1Q9AG74|A0A1Q9AG74_9RHIZ
+MSPRDESGEGASRPAERLGANVARLEGRARRPPRPDSLSESIQRSTLAFVEIGARSNFSF
+LEGASSPEEMVEQAARMGLAGLGLADRNSVAGVVRAHAHVKAFARRRKEALTFLASEGAS
+AAREHGRGAEAGASLPESESLSDTDEGEAGGVGTEDEEAERRRAERLAKARRDVVLPEDF
+VFRPGARLVFRDGTPDILAFATDRPAWGRLCRLLSQGNLRAHKGSCLLDEADLLQWGEGL
+MLAVLPDAGFHHGATEDAVPATPCPAQGDAPAAAGQIPMAPAVRLEGLLRRLGQRFPGQV
+HLALSPCHDGEDGFRFAWLSALADQAGVPLIATNQPLYHHADRRSLADVVTAIREGVPVM
+QAGFRLAAHAERCLKDGREMARLLRAHRVAVDNAARFFSRLTFSLDEISHNYPDESQPGE
+TLFQTLERLTWEGVSRRYPKGASDKTKRQIHHELQLIKSLKYEGYFLTVHGIVHHARHEL
+GILCQGRGSAANSTVCFCLGITEVNPEERSLLFERFVSTARDEPPDIDVDFEHARREEVI
+QAIYDRYGRNHAGLTAAVTSYRARSAGREVAKAFGLPADIQTALSNAVGGWWTEALKAGD
+ARLAGLNAEDPAIRAVLRHAAMLAGFPRHLTQHVGGFVITRDRLDEIVPVMNTTMPDRIM
+IEWDKDDLDQVRLFKIDILALGMLTCMAKAFRLLEARYQRHLSLASLCLDAQDDVYDMIC
+RADTIGVFQIESRAQMSMLPRLRPRELYDLVIEVAIVRPGPIQGNMVHPYLKRREMVNRG
+EAITYEYEKLKDALERTLGIPLFQEQAMQIAIDAAGFSPEKADRLRRSMATFKRSGEVAG
+FREEMIEGMVRNGYDADFAARCFSQIEGFGEYGFPESHAASFALLVYASCWVKAYYPDVF
+LAALLNSQPMGFYAPAQLVRDAHEHGVEVRPVDVNHSDWETVLEEGDWRGERLHPRHQSM
+WRVIRTRHAVRLGFHQVKGVAQERMDVLLDRRTTPYRTVRDLWLRTRLAPAELERLADAD
+AFASMGLTRREALWAVRGLEREGPVDALPLFAQAVKTDATATGDRHAHARTEQGEAAAKA
+EGPEEPDAFAELLREPPVTLPDMTPGEEVIEDYRALQLSLKAHPVAFLRQQLRDRGAVPA
+QRLAELAHGSDVTIAGLVLVRQRPGSARGVIFMTVEDETGSANVIVWTDVYGRYRREVIG
+ARLVQVSGRLQRQNEVIHLVARHLEDLTPMLGLLQTQARRFGVSPRADETLSGSGDPRDK
+RAAIAAERAAMERRLAAGAAAAVMPKGRNFH
+>tr|A0A1Q9AN88|A0A1Q9AN88_9RHIZ
+MARSDPLRIIHCFRSPVGGIFRHVRDLVEAHADAGHQVGLLCDSTTGGDFEAALFEALKP
+KLALGLVRLPIQRAISLSDIAALWRSLREIGALKPDILHGHGAKGGVVARTVGTLLRLRG
+QKIVRLYAPHGGSLHYDPAKPGGRAVFALERLQEWATDALVFVCDYERRTYERKVGVPRT
+RFARIYNGIADQEFTPVPPWPGAADFLFIGMLRDLKGPDLFVEAFARTERRLGEPMSGLM
+IGDGPQRDAYERMILERGLSERIRMLPAMAARDAFALTHAVVLPSRAESMPYVALEALAA
+GKPVIAANVGGLPEILGEQSPALAPPDDAQALSDIMTSAITEPGWAGRAMPSADSFRQRF
+SASTMAEQMLELYQQLRAAR
+>tr|A0A1Q9AH14|A0A1Q9AH14_9RHIZ
+MSSSASPSSSPAEGSTAHGAHEPAHGPQKLLGAALGSIGVVYGDIGTSPLYAFREALRPV
+AGDGLSRLEIIGLVSLVLWTLTIIVTLKYVLFLLRADNHGEGGTLSLLALLMKSRGRAVS
+FLFFTGVAGAALFIGDAMITPALSVLSAVEGLKLVAPHFEHYVVPISVIILVMIFAVQSQ
+GTDRVSKFFGPITLVWFIAIALAGLSHIRDDIGILAAFNPAYAITFLLQSGPAGFVVLGA
+VFLTVTGAEALYADLGHFGRRPIQLAWIAVVFPSLALNYLGQGALVLKDPAAMDNPFFLL
+FPDWALLPAVLLATAATIIASQAVITGAFSLARQAINLGFLPRMAILHTSRVSTGQIYVP
+NVNSVLLFGVMLLVLMFGSSESLATAYGISVTGAMVVTTLLAFEFVRLRWHWPVWAAASL
+LVPLLLLELVFLGANLLKIHDGGYIPVMIAAGCVVLMWTWVRGTQLLRDKTRHTDIPLAS
+FIKSIERESAHAPVAVPGTAIFLTSEPDSTPAALLHNIKHNHVLHAQNYILTIRTTNTPM
+VPIEHRVSASRLSDRFGLLEMRFGYMETPNVSQALGVFRKSGLKFDIMSTSFYLGRRKLV
+PDAKSGMPHWQDRLFIAMANAAIDPSDYFRLPTNRVVELGSHVII
+>tr|A0A1Q9ACJ5|A0A1Q9ACJ5_9RHIZ
+MKLLTEPEAAQILQCSTSTIKRLRFAGKLAYLPGRPVLIDEADLAVYIDEKKRERERRDA
+ERRAAQAPMEARRWAAIAVLLRPDRRKPKSS
+>tr|A0A1Q9AD68|A0A1Q9AD68_9RHIZ
+MELRDAIPADLAGITEIYNHAVRETTAIWNETEVDLANRIAWHADRQRLGYPVLVAVEGG
+EVLGYASFGDWRAFDGYRHTVEHSVYVRADAQGRGLGVVLMQALIDRARALGKHVMMAGI
+EAGNRGSIRLHEKLGFRQVGLMPQVGTKFGVWLDLAFLQLVLDDRAAP
+>tr|A0A1Q9AE63|A0A1Q9AE63_9RHIZ
+MRHLERAGLYLALSVAAFLSVFPFLWMLVSATNSSGEIIRGKLGLGDQFWINLDNFMTQV
+DLPLVMWNSAKVAVLSTVLTIAVSSLAGYGFEMFRSKMRERLYSLVLLTLMVPFAALMIP
+LFMMIGQAGLINTHIAILLPSIASAFIIFYFRQATKAFPTELRDAARVDGLKEWQIFLFI
+YVPVMRSTYAAAFVIVFMTSWNNYLWPLIVLQSNETKTITLVVSALASAYYPDFGVVMIG
+TILATLPTLIVFFVMQRQFVAGMLGSVK
+>tr|A0A1Q9APC3|A0A1Q9APC3_9RHIZ
+MSLVSENIPGLSPLEKLRSLNITPTVALSFLVIAIVIAWSLAPQLFSGHSPVNGVPADKL
+SAPSLEHWFGTDHLGRDLYTRVVYGAASSVSSALVAVVIGVVIGGLIGLLSGFFGGWVDV
+VFARFVDVLLAIPKFLLAVIVVTALGFETINAAIATGISTIAFFARVARSEVIKTRRATF
+VEASFLLGGSRGFILLRHVLPNASRSMLPLAVLQFGESILVIAGLAFLGYGDPPPSSDWG
+LLISIGKDYLKWPWLVYAPALVTIVTVLSVNRISRWLRKSH
+>tr|A0A1Q9ALN5|A0A1Q9ALN5_9RHIZ
+MTSYLLEFASLMAVFSFAIVSPGADLAMVMRQAILHGRRQAVITSFGIGTALMFHVSYTI
+LGLGLIISQSITLFNIVKWCGVAYLVYIGIKALKAKKAVAEDPAAHAAPSRAQSAPKAFL
+LGFAANALNPKPVFFFLSIFSTVVSVQTPMEVKFVYGLIMATALIAWFVSVSLFMTTPRM
+RAAFTGISHWIDRASGAVFIALGLKLAMEKAH
+>tr|A0A1Q9AD63|A0A1Q9AD63_9RHIZ
+MSVTDNSPAPSETTSARGRLILQEYGIFIAFLLLSGILSVSNEYFLTPGNISNVLLQTSI
+NGILAIGMTFVILTRGIDLSVGAVVALSGIVAASFATTSATAAIPGGPYPAVLALAIGVL
+VGVACGALVGTIVSRFSVPAFVATLGMLSAARGMTLIYGGGKPVPALTPDFRFIGTGSVA
+GLPMPVVVLAVVFLVSWWVLSRTRFGRYIYAVGGNPHAANTSGIPVSRLRFSVYVISGGL
+SGLAGMILSARTGSALPQAGIAYELDAIAAVVIGGTSLSGGVGRITGTLIGALIIGVMNN
+GLDLMGIQSYYQQVLKGALIVGAVMLDQKRNHG
+>tr|A0A1Q9ADI5|A0A1Q9ADI5_9RHIZ
+MHDLSAALPEADDNRHRIAVIGMSARLPGAADLNQFWQNLVDGRESVRRFTEEDLRASGV
+ADSLRSSGDFVPAGAPLDGADRFDAAFFGYSPAEAEILDPQQRIFLECAWEALETAGYAG
+EAGGGAVGVFAAAGINTYLFNLRDNGRIRETVSPYEIFVSNDKDFLATRTAFKLNLTGPA
+ITVQTACSSSLVAVHMAAQSLLSGDCDMALAGGVALSYGTGYRAREGGILSPGGHCRAFD
+AASGGTVPGSGVGIVVLKRLEDALIDGDTIDAVLLGSAINNDGARKASFTAPQVDSQAAV
+IADALAMAGVAAESIGYVEAHGTGTALGDPIEVAALTKAFRRDTDRKGFCALGSVKTNIG
+HLDTAAGIAGLIKAVLALKHRQIPASLHYETPNPQIDFARSPFFVNAALRPWQDAAGPRR
+AGVSSFGIGGTNAHVVLEEAPPASPRAQEAGPQLLLFSARSPRALARTAARLADRLAADK
+APALVDVAFTLRAGRRGFGHRQFVVAGDRQQAVARLRALADGGEADLGQTAADAPAEAVF
+LFPGQGSPYPAMGKALHAALPAFREAFDACARLLDRELGIDFKAWLFSGDEEVHRTDLAQ
+PALFAVEYALARLMMAHGVRPVALHGHSIGEYAAACIAGIFDLETAIRLVVARGRLMQSA
+EPGAMLAIIHPGEDIGRLMSPALSLAAANAPGLSVLSGATDAIIALEQRLTAEGIASRRL
+KTSHAFHGPMMAPAAATFRALLSAERLSAPTVPLISNVTGTWMTPEQATDSAYWTGHLLQ
+TVRFEEGTRTLMARPNAVFLELGPGRTLGTFTAQTGVDAQRIGATMLDTAREREAEQTLE
+AIGRYWQRNGSLQPEARQGRRVALPTYPFESTRHWIEPDDAQLAVAALPAPKTGPTLSRI
+DWRRAMAGKAGHAAPRGRILLFDDGHIGPALAEALERGGAEPYRAQMGSGFAEPDYRCFT
+LHPQAADDYTALLDSLDARGAAPRHVVFAWPLAGRPEPEREQRPQQQDAPARALLLLVRA
+LARDGRAVTLTVVTRNAIDATGLEPADTAQALVAGMVRVIGQEYPALTCRHIDIDDAPPA
+RLAPRLRDALGQDAPEITLRGPHCWRPETREIDGPEGPGLKPSGVYVLAGTLAEGVGKAW
+EQGLAALPGAKLALLQPAGASVIDNPDGMTLRLDPADPTAVREALDTVAAHFGRIDGVFL
+AMPQSGETSAALIADLQPLHWRDTLDRLALVESFAAALAGRKLGFCCVQSSLSTQVGGLG
+LSAYAAGHAAIDRLVAEQAKAGETGWLAIGYPLIAEGPVPSSSGGRKNAFAVSPEAAWDF
+TAAAIASGISGRLLLSGAALPPADTPAAVEETAPPDAGRSRPPLATAYRAPRTPTEATIT
+GIFEELLGLAPVGVDDGFYELGGHSLLAIRAVARLREAFPVDIAMRDLLFDNPTAAAIAA
+TIDTRRMQQADLAGMADLLDEVTRLSDADVDRLLAGGSMR
+>tr|A0A1Q9AFR1|A0A1Q9AFR1_9RHIZ
+MALHDIARHPRFQGRKESRKAGFFSPLLLLVLAIAALPLLLLHTITLPIGAMFFDTYVYI
+DAANRISDGQIPSLDFFAPVGALGYYLFRIVLSAFPNGHPLLIASWSVLLVSAPLMGLVL
+FDVQKRSRSVAWALLVPFLLFSLLPFNTGGDFFPYPGSDGFGIYNRQICQLMYVLAAALC
+FMRGPRRLAAAVGLTMLALLFVKVTGAVAGTVMCLAAFLAGRLPLRAALIAGLLFFGVIA
+ALELSLGLVSAYAADILSLVEINEGGLVQRLLQAASLNFGAVFSAIVLALALLAFTGRAF
+FGAIGSAVRRPSLEALARIFDHPAIWLGAFTLAGLIFESQNTGSQAFIFFFPLVLMILIE
+SRAMFGNTARFAVVALAGLAICLPLAVRVVERSARAYLGAFQNERLEATHLKTMAAVSAR
+PFFFLRAERMNAAYVAHRDTFQDISENGELSSFLMFSDFDYQITWLQNVDRAISGVEAFE
+AQHGIRFKTIMNIDFTNPFPYLMDRSAPHAIAIGADPFRAVPPPNDRVKAAVADVDLALY
+PTCPVGITRLALFKLYQPLLDATHERVQITPCFEGFVRKALMAR
+>tr|A0A1Q9AHY6|A0A1Q9AHY6_9RHIZ
+MDFAFLFVDWLGKPLWMWLGFMSLVIALLAFDLGVLHKENREIEVGESLKLSALYITLGL
+AFGGWVWWYLGPDAGMNYVTGFVVEKTLALDNVFVIALIFSFFAVPRLYQHRVLFWGILG
+VIVLRALMIGLGAALVNEFSWVLYLFAGFLVITGIKMLFVGDKEPDLASNPLLGFLRRRL
+NVTDEHHGDKFFVRLPDSKTGHSKTGKSVLFVTPLFLALVLIEIADLVFAVDSVPAIFAI
+TTDPFIVYTSNIFAILGLRALYFALAAMIHRFHYLKPALAVVLIFIGSKVFAADLLGIDK
+VPPAISLGVTFAIIASGVVFSLVKTRKPQAAE
+>tr|A0A1Q9AIW3|A0A1Q9AIW3_9RHIZ
+MLWNDFLKSRKITTFADVQRSHGGLYPGFLFLRHALAITILLHHARILTRGPHDGSTGVV
+IGGDGATMASILFSQDALRPFLYSLVGAFFALSGFLVAGSALRNRSVKDFLLLRVFRLLP
+ALTTEIMLSAFILGPIVTEFTLSAYFTDHNLYEYFGNLVGFVQFDLPGVFIHNPFPDRVN
+ESLWTLEPELACYGLMALVMAPGLLFNRRRFGIIMLIVTAVLAIVAFTGLADINTRLDLT
+RFSHWFIVYLFFVGVVFKLFDEFLPVSLPLFVVCGVSYFFLLLTNGSDVMAGLCLVYCTA
+YVGALRFGWFDRICRWDISYGLYLYGFPISQTLIHFLVPHYLGQDAKGVVVIMALSLFLT
+VCFASASWLLIEKPALKLKKLISPRVKEPYRPAPEAPAPDASVRQPA
+>tr|A0A1Q9AJT0|A0A1Q9AJT0_9RHIZ
+MPLQDNGEVPEALPPVATDPFKNFPAITGPQKKMPKLNSFSTMNPDRPAAPAAKDVKLQA
+LLKQKGQPVEQGLVWRVFSPQPGSDGKLPLLATSQGGSADFQLVPGEYFVNVAFGRAGAT
+RKIRVPDIGEAERQTLVLDAGGVMLNAVSGPDTKIPRTELSFSIFASDVKEDGERQLVVA
+DVKPDAVVRLPSGTYHVVSNYGSVNAVIRADIQVEAGKLVEATIQHRAAKLTLKLVAEAG
+GEAIADTAWSILTGSGDVVSESVGAFPTLVLSEGTYTAVARNKDKIYQRDFTVTAGVNSD
+VEVYLDEKANAEASAKAARGED
+>tr|A0A1Q9AKS2|A0A1Q9AKS2_9RHIZ
+MALQSMTGFARSEGTSGRFRWAWEMRSVNGKGLDLRLRLPGGAEHLEGDIRRMAGEVLSR
+GNLQIGLTLAALEPGVEPVINREALAAIERLRAELGDLIDPAPLRLDTILGLRGVVEFRE
+RQDSEEERATRDLAVLDGFAHALGALTAMRESEGAALLAVLSSQLDRIGTLVETIEVDPS
+RSVAGISARLMQQLALLSDHAATLDGDRLHAEVALLAAKADIREELDRLTAHVAAARGLL
+AAGGPVGRKLDFLCQEFNREANTICSKSSSAAVTAAGVELKVVIDQFREQVQNLE
+>tr|A0A1Q9ADZ8|A0A1Q9ADZ8_9RHIZ
+MPVSKASLLKTLDPNPSFVPRESGPLPERLIAGLPAFKTWAMDEAKDGLVLSGVWEATPG
+ETKSIKGEVFEFCHILSGVVEITPDGGEPVIYKAGDSFVMKPGFTGVWKTIETVRKIYVV
+VN
+>tr|A0A1Q9AL08|A0A1Q9AL08_9RHIZ
+MFNHLKKISRALRAPSIEEREAQYLGGAVDRIDLEYRQRQIDRGLFRRTF
+>tr|A0A1Q9AN97|A0A1Q9AN97_9RHIZ
+MTTFADLGLSQKVLSAVTDAGYTIPTPIQAGAIPPALKHRDILGIAQTGTGKTASFVLPM
+LTLLEKGRARARMPRTLILEPTRELAAQVAENFEKYGKNHKLNIALLIGGVSFDEQDRKL
+ERGADVLICTPGRLLDHCERGKLLMTGVEILVIDEADRMLDMGFIPDIERIAKLIPFTRQ
+TLFFSATMPPEIQKLADRFLQNPERIEVAPPSSTAKTVTQRIVATHDKDYEKRAVLRDLI
+REQTDLKNAIIFCNRKLDVADLYRSLSRHGFSVGALHGDMDQSSRTKMLAGFKDNQITLL
+VASDVAARGLDIPDVSHVFNFDVPIHAEDYVHRIGRTGRAGRSGAAFTLVSRRDTKYLDA
+IEKLIDQKIEWLNGDLTELPPPAESYESAKPKRERGGRRERDRDRDRGRRSETPRAEAKA
+EARAADSHRPDMKSGETPVLEETNAKADTVKAERKAQPKGQTSARQANRPAPAPAPANDD
+NRDRRNRYRRDQDDGPTPVGFGDDIPAFMLIAGKA
+>tr|A0A1Q9APA2|A0A1Q9APA2_9RHIZ
+MTGSDEVVIREASKEDASLWCHLRLGLWSGDGRDAHGEAIARMLADREKGAGRTAFLAFV
+EGAACAFIELSLRQDYVNGCDTSPVAFIEGISVAEDFRRRGLAKALIEAACDWARSRGCT
+EIASDAALSNHTSHRMHLASGFEETERVVYFRRWV
+>tr|A0A1Q9ACV1|A0A1Q9ACV1_9RHIZ
+MQVLALGATIALGAAPVLAQDAAGQTGKQAQTGGQAAAPVWRHGLSMVGPLKYAEGFQRF
+DYVNAAAPQGGEVRLNIMGSFDSTNPLLAKGDLAVGLVGPAADASGMSMGLVFETLMKPS
+MDEISSTYGLIAEAVSFPEDIAWAKFRLRAEARWSDGTPITPEDVIFSFEQTKALNPQSE
+FYYKHVVKAEKTAEREVTFTFDETGNKELPHILGGLLIVPKLWWQGQGPDGKARDISRTT
+LEAPMGSGPYRLVSIAPGSALRYERNPDYWGKDLPVNIGQNNFAAISFTYFADLDVAFEA
+FRSGNADYRWENSARRWATAYDFPAVKDGRIVRESLENDNRNSGVMVGFIYNLRRDKFQN
+PKLREALNYAFDFEELKRTIFFGQYDRIDSFFYRTELASSGLPQGKELEILQGLKDQVPA
+DVFTKPYLNPVGGDPTKMRENLRQAIALLKEAGYELKNNRMVNVKTGEPLTFEILLDGNT
+IERVALPFSQNLKRIGIEASVRSVDSAQFTNRWRGRDFDMLYLGWAQSLNPGNEQTEYWG
+SQAAAREGSQNFSGISNPGVDALIRKVIFARDREELVAATHALDRVLLAHHIIVPTYASK
+NSNIAYAKRLKHPDPLPEYAVGFPALWWSQP
+>tr|A0A1Q9AFR7|A0A1Q9AFR7_9RHIZ
+MAEGTLTHIDSSGAAHMVDVGNKAETVRTAIAEGHVRMAPDTLAAIRAGNAKKGDVIATA
+RIAGIMAAKQTAALIPLCHPLMLSKISVEITPDETLPGLRVETLARVEGRTGVEMEALTA
+ASVACLTIYDMAKALDREMEIGGIRLLEKSGGASGDFRAKGRG
+>tr|A0A1Q9AI61|A0A1Q9AI61_9RHIZ
+MKAALTAYAATLVTFLAIDAVWLGLVARTFYRDQLGELMLPQPNFVAAAVFYLFFAVAVV
+ILAVMPGLRAGSILVAMGYGAVLGLAAYGTYDMTNLSTLKGWPTLMSFVDMGWGTILTAV
+SAGAGAYAVRLFAANG
+>tr|A0A1Q9AKV3|A0A1Q9AKV3_9RHIZ
+MAKARPSFICQNCGTVHSRWVGKCEGCGQWNTVIEEDPTAGIGGGPGKMPKKGRPVALTT
+LDGEAEDAPRVATGISELDRATGGGFVRGSAVLIGGDPGIGKSTVLMQAAAALARQGHRI
+IYVSGEEAVAQVRLRAQRLGAADSSVLLAAETNVEDILATLSDGKRPDLVIIDSIQTLWS
+DIVDSAPGTVTQVRTGVQAMIRFAKQTGATVVLVGHVTKEGQIAGPRVVEHMVDAVLYFE
+GDRGHHYRILRTVKNRFGPTDEIGVFEMSDRGLREVTNPSELFLGERNAKAPGAAVFAGM
+EGTRPVLVEVQALVAPTSLGTPRRAVVGWDSARLSMILAVLEAHCGVRLGSHDVYLNVAG
+GYRIAEPAADLAVASALVSSLAGLALPPDCVYFGEVSLSGAIRPVAQTGQRLKEAEKLGF
+SQAVLPSASADLPKGSGQRWSEMESLPDLVAKIAGSRAALTPAEDD
+>tr|A0A1Q9ANV8|A0A1Q9ANV8_9RHIZ
+MPQQPARAKRKRARRLDWKGALIPWLFLAPALVIFTWFKFYPMASGLTMAFYDVQFYGES
+QWVGLDNFARAFSDPDLRAAVGHTLTYVIVSTLTASTLAFFLALVLEGQARHLRIIRTAI
+FLPAITSAAVIAEIWRILFNSAPYGVVNSVLDQLGIAPQGFLTDPGQALWVLVLMQVWKS
+TPYDMVIFVAGLVGINRELYDAANVDGASRLRMLWHVTLPGIIPSISVVIMLSFIRGFRV
+FAEVYATTGGGPAGSTETIMTHIYKAGFQNLEYGYASAVSLLLLAATIVLTLIQTLVKAR
+LSR
+>tr|A0A1Q9AKP4|A0A1Q9AKP4_9RHIZ
+MAELDRFRHHAFEEVSSTNATALAAARDGEEGGLWITARRQTAGRGRRGRSWSSAEGNLY
+SSLMLIDPGPIALLHSLPLVAAVAAQQAVSAALPYGVEARVKWPNDILIEGRKAVGILLE
+SEGLPDGRRAVVIGIGINVAEAPDHGLYPITSIREMGGTLSADEVFAHLFRAMAEGLALW
+DEGRGLARIVAAWRQRAAGIGGRITVNLPNGSLSGVFEDIDEAGQLILRDEGGQRRLISV
+GDVFFG
+>tr|A0A1Q9AN69|A0A1Q9AN69_9RHIZ
+MAGKDFGGKISFRLSSGPVMSLRGTFSVLVASQTNEAITNQNGSTDRVGTPTSPRANVAF
+ADGGIDYAALMKAPRMSVTIVEEFTGVTHHFINAFFSGDPENNRMNGEVSGLTLVGEVYR
+KTGG
+>tr|A0A1Q9AD12|A0A1Q9AD12_9RHIZ
+MTLTLTLTGPGAAHAAETAADLLATLTGERPQTPSSTGPDDIRRDLATGLAIAGIVLSVP
+GAVLATLDLSARLRKRRELAPKVEAVKRVLEAADAQGTIRIEETTISLTGLGTDQILDRL
+LAEKPH
+>tr|A0A1Q9AGI6|A0A1Q9AGI6_9RHIZ
+MTQTGLFNPEQTLEALGFTELSAVRYNLSAAELCEEAVRAGEGTLSAHGALCVVTGQHTG
+RSAKDKFVVRDEKTEDKIWWDNNKPMSPEHFERLRLDMLDHARGRSLYVQDLIGGADAEN
+ALPSRVVTEFAWHSLFIRNLLIRPDAETLKTFVPKLTIIDLPHFKADPERHGCRTETVIA
+CDLEQGLVLIGGTSYGGEMKKSVFTALNYLLPAKGVMPMHCSANVGAAGDSAVFFGLSGT
+GKTTLSADPNRTLIGDDEHGWGADGIFNFEGGCYAKTIRLSAEAEPEIFSTTRRFGTVLE
+NVILDEARVPDLDDGRLTENTRAAYPLDFIPNASETGTAGHPKTIIMLTADAFGVMPPIA
+KLTPDQAMYHFLSGYTAKVAGTEKGVTEPEATFSTCFGAPFMPRHPSEYGNLLRELISKH
+GVTCWLVNTGWTGGAYGTGRRMPIKATRALLSAALDGSLADATFRADENFGFAVPVAVDG
+VDTAILDPRSTWADADAYDAQARKLADMFVTNFAKFESHVDGGVRAAAPGGLKLAAE
+>tr|A0A1Q9ALT6|A0A1Q9ALT6_9RHIZ
+MMDTIRLTAAQATFRWLSVQMTEEGDRFIEGVWAIFGHGNVAGIGEALKGIGDRLPTWRG
+QNEQTMAHAAIAYAKTKRRRKAMAVTSSIGPGATNMVTASALAHVNRLPVLFIPGDVFAN
+RRPDPVLQQIEDFDDGTMTVTDCFRPVSRYFDRITRPEQIMTALPRALQVMTDPANCGPV
+TLAFCQDVQAEAYDYPKAFFTPKTWRIRRPEPDPREVDDVVAALKTSTKPIIVSGGGVLY
+SGADADLLAFAKTHNIPIVETQAGKGAIDWEERLNFGSPGVTGTDCGNKIAAEADLILGV
+GTRFQDFTTGSWTAFGNPDRKLVSVNLTGYDAAKHGAIPLVADAKVALERLTEGLQGHRF
+ADPDYAARDAWFEAADAATAAPSVSQPNFLPSDAQVIGSVQRVAQTNTVAMCAAGTMPGA
+LQILWRAASGGYHMEYGYSCMGYEVAGAFGIKLAAPEKEVICFVGDGSYMMANSELATAV
+MMRVPFTIVLTDNRGYGCINRLQQECGGAEFNNMYKDCNIEVQPEIDFVAHATSMGAHAV
+KVPDLAGLEAEIVSARSRTIPTVIVIDTEAETGAGIGGGWWDVAVPAVGETETLRIARAH
+YEATLPRQRLN
+>tr|A0A1Q9AGL4|A0A1Q9AGL4_9RHIZ
+MLERLQAEAEDTPPEPADAPAFAQVSGLSASFAPERDRAALNHGADATGAYREFAGEAPN
+FESPDVHTAGPAAPDQAAPDPDVPAPEMPASEMAAPEPAPPPPPPAHLLRLSPEEIAGEL
+ALSAQDTLESLAAKRRRFARANHPDAHDGAWREAATRRMTIANMLIDEAARRLRRQAGLM
+AADRAKGKARTGQAPQASGSQARR
+>tr|A0A1Q9AKM5|A0A1Q9AKM5_9RHIZ
+MRCSAMVPINRFRQRMEFHLMTSPAAATSVLASSARAQGCEEAIRPAFTRLAEAGDLDLA
+AAVGPDLPAQLEPLIATAEAEGWERDEVEQAVRSLAQQRLGAQGAAID
+>tr|A0A1Q9AM62|A0A1Q9AM62_9RHIZ
+MTYHFSIPDMSCGHCVKAVTSAIAEVDPKAETAVDLTTKTATVESALPAEALGKAIETAG
+YAATLSD
+>tr|A0A1Q9AM83|A0A1Q9AM83_9RHIZ
+MRLASVPISAWIGMAGIALALVCALFAPFIAPYGETQVVGDVWLPAGGDFLLGTDNLGRD
+LLSRLIFGARTTILVALAATVLSFSLGMALSFTAAVTGGLIDQLFSRFNDLMMAIPTLIF
+ALVVLAVLPQHLWILILVMAVLDSTRVFRIGRAVALDVAVMEFVEAARLRGEGHLWIIFR
+EILPNTLSPLLAEFGLRFAFSILFLSTLSFLGLGIQPPAADWGGMVKDNKDGIIFGISAA
+LVPGAAIAALAVSVNLVVDWMMKRTSSLKGGRGDA
+>tr|A0A1Q9AC84|A0A1Q9AC84_9RHIZ
+MKSFKRRLRKIRNRIARRLFDTRYGRELLVQGISPRVLSMTADCGDHRMTFSPHDYIGRK
+IYRKGHFERDHVDRLMAVLEARGLLRPETVLLELGGNIGTQTLYFALTGRFRQIVTVEPD
+PRNLAFLETNIRQNGFEGRIRVAPCAAGAEGGTLDFFQHAGNSGKSSALAAGGGTTRIAV
+PVKTVPEILTEAQVSVDAVGLVWMDIEGYEPAAIAAMEPLLARRTPIYLEFSPVFYGPAG
+AAALRDKLARHYENGLIFREDGRQEPVTIRALPVDEPQFDVLLLP
+>tr|A0A1Q9AEK6|A0A1Q9AEK6_9RHIZ
+MSLVKKFATVGGATLGSRILGFTRETMMAAALGTGPMADAFYAAFRFPNLFRRLFAEGAF
+NAAFVPLFAKEIETHGVDGAKRFSEEVFGVLFTVLLLITVVMELAMPLIVAWVIAPGFVG
+DAEKFDVTVKLAVVMFPYLMCMSLTAMLSGMLNSLQHYFAAAIAPVFLNVALIGALGYGL
+WTGADPLTTAWCLAWGVLVAGLLQMAVLYAGVRHAGMRLSFKRPRMTPNVKRLLVLALPA
+AVTGGITQINQIIGQMIASTKEGAIAVLQYSDRVYQLPLGVVGIAVGVVLLPELSRALRG
+GHLKEAGNLQNRSLEFVLFLTLPAAGALWVISDQIVRVLYERGAFSPETTQTVASVLAIY
+GLGLPAFVMIKALTPGFFAREDTRTPMRITGISVMVNCALAVSLFPILAERGIATAEATS
+GWLTTIMLFVTLVRRGHWDWDKALFSRAIRLCIATGVMCVVLAYASDALQPWLQPGSKLL
+HQLGALCALIGLSMLVYFSLAFLIGGADLGIIRRNVKRKGAVEKS
+>tr|A0A1Q9AN42|A0A1Q9AN42_9RHIZ
+MTPLLVSYAEPLPMTAADRAWMRALGAAGGRCELTSEDRLHALSCMALGLILPEPGEGGV
+TMAVMTRRGRDWLDDFRRAH
+>tr|A0A1Q9AL68|A0A1Q9AL68_9RHIZ
+MTQPPSKEPGPEIEPYTGPAGGWGSVTSLMRQAKRAKRPASVLPGLVQQNKPHGFACVSC
+AWAKPADPHPAEFCENGAKATFWELTSDRATPDFFAQHTLAELKTFDDYELEMTGRLTEP
+MRYDRESDRYLPVSWDEAFAEIGRELQAIRAQDPKTAIFYASGRASLETSYMYALFARLY
+GNNNLPDSSNMCHESTSVALPEVIGVPVGTVRLPDFDQADALFFFGQNPGVNSPRLLHPL
+QEAVRRGARIVTFNPLRERGLERFTNPQSPVEMVTRHETKISSQYHQVKAGGDIAALAGL
+CKAVLAIDGDAMERTAGGVLDRAFIREHCHGFEAFRAFIDATPWEAIERESGLTRAALES
+AAEVYVKAKAVIGIYGMGLTQHKRGVETIQMLTNFLFLRGNIGRPGTGVCPVRGHSNVQG
+QRTVGISEKTKLVPLDRLAEQYGFEPPREDGLTTVDACEAIIAGRIRAFVGLGGNFLRAV
+PETEAMEAAWPRMRLTVQIATKLNRSHLINGEVAYLLPCLARTEIDRQESGSQAVSIEDS
+TSCIHGSKGFHAPASEHLLSEPRIVAGIAKATLPANSNVPWDGWVADYARIRDAIEATYP
+TIFTDFNKRMWTPGGFEKPIAARERRFDTETGKANFKVPSALSASFAEDAPDVLRLMTLR
+SNGQFNTTIYEYTDRFRGVDGTRKVLFLNARDMDRFGLAEGERVTLETAVDDGVVRRVAD
+LRVTAYDIPPGCCGGYYPECNPLIPLWQHAERSKVPAAKSVPVRIVKQNSPS
+>tr|A0A1Q9ACF5|A0A1Q9ACF5_9RHIZ
+MNQSPSAASPAVALVTGAGSGIGRAAAIALSAEGVRVGVLGRTRDELEDTVSAILARGGR
+AVALVADVSDEAQMRAAIGELVSAFGKLDIVVANAGINGVWAPIDDLTPEEWDKTIAVNL
+RGTYLTLHLSVPHLKQAGGGSITVVSSINGTRTFTTPGATAYSVTKAGQVAMVQQLSLEL
+ARYRIRVNAVCPGAIATRIDDNTAQRGVEETAIPVEWPEGEVPITGGKPGRAEDVADVIA
+FLSSDRAAHVTGTPVWIDGGQGLLR
+>tr|A0A1Q9AHW9|A0A1Q9AHW9_9RHIZ
+MTEFLKSRRVADIVASTLHAHRARHAFGVPGGEVVTLIDALQQAGIPFHLARHETSAALM
+AAGASAISGGPELLVTTVGPGLANAVNGIADAAQEHVPLVVLSGVVDRATRARYTHQVID
+HARLLRPLVKASFEIEPESAGATVARALALAMAEPMGPVHLDLSPAVAAMMVADAPIPAP
+PARFAPLATSADPAIRLLAERLAGAERPLVIAGLAAARSGAGPALRHLAETLGAPVITTY
+KAKGLLPEDHPLSLGSAGLSPLADGILLPLVRDADLVLCLGYDPIEMRLGWLDFVTDPTR
+LVEVAPVAIDHGMHHAGTQVSGDPAHILEALSGLLPLRRSWPGGAPDAARAALRRAFATA
+ADWGPHAIVEHLNATAGEDGLVTVDSGAHRILLSQKWEAARPLSLLQSAGFCTMNAALPL
+AIGAQVADPARRVFAVMGDGGLEMGIGELATVRDLGLPLTIIVFQDRSLALIAMKQASAG
+LAPAGVALGETDFATIARGFGGDGITVESMDAFRYALEASRHRPGFSLIACRFDASAYDG
+AF
+>tr|A0A1Q9AJP4|A0A1Q9AJP4_9RHIZ
+MTAYDTDNIFAKILRGEIPSHRVYEDEATIAFMDVMPQADGHVLVVPKAPSRNLLDADPA
+TLAGLIQVVQTIAQAAQEAFEADGISIMQFNEAAGGQSVFHLHFHVIPRHEGRPLKPHTG
+TMADHGLLAAQAEKLREALAG
+>tr|A0A1Q9AH82|A0A1Q9AH82_9RHIZ
+MAVSQSEISALSFEKAVEELEAIVSALERGDVALDTSIAYYERGEALKKHCEALLSAAED
+RIEKIRLDRAGKPTGTEPLDGA
+>tr|A0A1Q9AJG6|A0A1Q9AJG6_9RHIZ
+MRMWTHRRHWPFLWGGIAGLLALPVFLVLAPRLAVEGPAIVFFLIYLAQVGLRLRRLTAD
+RLKATAEADDAPAPVILFVTLMAVVAAIVALFNAMNRAGSSESSLEVALAFASVVLGWLT
+VHTMFSMHYAHLYWRPLKTKPGTPPARGKGLDFPGDDEPGAYDFLYFGFVIGMTAQTSDV
+EITETAMRRINLAHSLVSFFFNTVLVAAAVNAVVSLAN
+>tr|A0A1Q9ACP4|A0A1Q9ACP4_9RHIZ
+MMKRIAILAVAAVYLSGCTTVDPYTGEQKMSNTAGGALIGAGLGAATGLLIGKDARGRRN
+GALIGAGIGALGGGLIGKYMDNQESELRAQLQGTGVSVTRVGDRIVLNMPSNVTFATDQD
+QVNPGFYATLNSVAIVLNKFNKTLIDVDGHTDSVGNPAYNQGLSERRAASVANYLASQGV
+DQRRMSAIGYGQERPIASNATEAGRAQNRRVEISIAPIQEN
+>tr|A0A1Q9APX7|A0A1Q9APX7_9RHIZ
+MRIDGGCHCGAIAYEAEVDPEAVGLCHCTDCQALTGSAFRVTVTARAQDFRITRGEPTIY
+RKQGDNGRPRLQAFCRQCGSPLYTTGVDEDAEAVGIRWGGIAQRRSLAPNHQIWCNSAAD
+WLDSIVRLPARPRD
+>tr|A0A1Q9AFT2|A0A1Q9AFT2_9RHIZ
+MAGDDDLWVFGYGSLMWNPGFPEVEALRARIHGYRRALCVRSYVHRGTEASPGLVLGLDR
+GGSCTGMAFRVPRAERAATVHYLRERELVTHVYKERMLPIRLADGRVVMALVYVIDRDHI
+QYAGALTAAEAAVIVAGARGRSGENVDYLLNTLDHLRAMGIRDQWLEEVARDIDRLRASG
+>tr|A0A1Q9AHN2|A0A1Q9AHN2_9RHIZ
+MSYRATIARQPDSLRDSIAAASADLEQIDISPLQKGLIGITGIGASFAAATVVAGEFQRI
+GRRAHAVRAVDLIHGGDMADSILAMSAGGRSIEPVSAIKAHPGRPSFGITKDGNNPLSSA
+VNAHIHFASGSDATPSSTGYTGTLVAAGLLADKVAGAASLDWATLPALAAEVLENAGTRM
+EAAAAIFADRRAIDCVGAGSSFGTADGASLLIREAARIPAGPSDTLHYLHGPMEPMDAST
+GVVIIGDGREIKLAQDMAAIGSGVVLITAEDVADAENLVVIRVPAQVNRIARGILDILPA
+QLLAATLSDAAGLTDTKFRYRQTDTKIQAA
+>tr|A0A1Q9AIR5|A0A1Q9AIR5_9RHIZ
+MDHTSRPNMPPLDNFWMPFTANRQFKAAPRLLAAADGMYYTDVDGNQILDGTAGLWCVNA
+GHGRRKIAAAVERQLATMDFAPTFQMGHPIAFEFAAKLGQFAPGDGAATLDRLFFTGSGS
+ESVDTALKIAIAYQRAIGQGTRTRIIGREKGYHGVGFGGISVGGLVNNRRVFPQIPADHM
+RHTLDLERNGFSRGLPAHGLELAEDLERLVALHGAETIAAVIVEPMSGSAGVILPPKGYL
+ERLRAIADAHGILLIFDEVITGFGRLGTPFAADYFGVIPDMMTTAKGITNGTIPMGAVFA
+SRKVHDGLMHGPGNQIELFHGYTYSGHPVACAAGLATMEIYQEENLLARAGDLAADWEEA
+LHGLKGHPHVADIRNLGLVGAIELTPRPGAPGARAYDVFVDCFHKGLLVRVTGDIIALSP
+PLIIEKEQIATIVSTIADALKRAA
+>tr|A0A1Q9AIS6|A0A1Q9AIS6_9RHIZ
+MLRFIFGRLLVLIPTFIGVSIIAFAFIRMLPGDPVMLMSGERVMAPERHAQIMAELGLDR
+PMYIQYFDYLVGLLQGDFGKSIISKRSVLTDFLTLFPATVELSFCAIVLAVALGIPAGVL
+AAVKRGTWLDQTIMGTALIGYSMPIFWWGLLLIIFFSGYLGWTPVSGRISLMYFFKPVTG
+FMLIDSLLSGQPGAFKSAVTYLILPTIVLATIPLAVIARQTRSAMLEVLGEDYVRTARSK
+GLSPFRVVGLHALRNAMIPVITTIGLQVGVLLAGAILTESIFSWPGIGKWMVDSVFKRDY
+AVVQGGLLLIAAVIMIVNLVVDVLYGLVNPRIRR
+>tr|A0A1Q9AKQ2|A0A1Q9AKQ2_9RHIZ
+MSGRQPIDGGILYDENARDDDELLDEVDGSAEGGEDSARLLPAIEWIEGGSQENGLRGAA
+LIGEFVKRLPNSPGVYRMFNEAGDVLYVGKARSLKKRVSNYAQGRGHSNRIARMVRETAH
+MEFVTTRTEIEALLLEANLIKRLRPRFNVLLRDDKSFPYILLTGDSRAAALYKHRGARSR
+KGDYFGPFASAGAVGRTINSLQRAFLLRTCTDSVFESRTRPCLLHQIKRCAAPCTHEISD
+ADYAGLVDEAKAFLSGRSQAVKAQIATAMTAASEDLDFERAALYRDRLAALSHVQSHQGI
+NPAGVDEADVFAIHHEGGVSCIQVFFFRTGQNWGNRAYFPKADPSLTPAEVLAAFLAQFY
+DDKPCPRQVLLCEGVEEQELLGEALSEKSGHRIAIQVPQRGEKKDLVDHAVANAREAHGR
+KLAETASQARLLDGFAQTFGLERVPRRIEIYDNSHIMGTNAVGGMVVAGPEGFVKGQYRK
+FNIKSTDITPGDDFGMMREVMTRRFSRLLKEEGKPDRTAEPSEDAPFPAWPDVILIDGGQ
+GQMTAVRAILKELDIEDCVVAIGVAKGVDRDAGRERFFPPAREGFTLPPRDPVLYFIQRL
+RDEAHRFAIGSHRARRKKEMVKNPLDEIAGIGPTRKRALLHHFGTAKAVSRAGINDLMAV
+EGISEAVARQVYDHFHEDGAR
+>tr|A0A1Q9AIE8|A0A1Q9AIE8_9RHIZ
+MYVPSWTIFAGLGALDRRELCNLIASFEATTLLSMSMARVSDMVARFQKDARETETKAFA
+RRLEETADALFSSTSTDRALRVRLWTRMADALDIDTVLPLSTRKASAVGAGAAFKAAAIM
+AVPIAEDTESAEQTAFQRALKTVKAIRGRQYQDFSALVADQAEMVARELAEAAKSGEMSE
+ELQSALDERIRDHIRSLPPELRDEAMQKALTSADKATLALLATGTTAFSIGVGVNLAGFS
+AYILAAQASAFIPFMSGPAVVSTLFMLANPLFSIPAVVGIGYLANRHVNGGQAAKLAGVV
+AVQLALRGLSSEREGLAVVLNDFRTATEADFASLPSGLVAAALSRKREVAKTMGGSMPIA
+FGDLAVSNSTADRRRILLEGVLSRSKGDAAEIATVATLTAGDIIYNAASIDPMVVSAADF
+SRAEDIGTIFQFGAFADRVGSMAATAAAGAENNLRGYVSEQLVAARLVGSGHVVSFPETA
+NNPGFDLLVDGMPFQVKCLMSVDGLRRHFEKYPNMPVYANSELADTVMEIGAPWEKMVFY
+VDGFDREIADLIMTTSVEAGEALGDMNVPYFAVAASSARTLYRVWRGRLPMSDLPLSVAM
+DVSVKGGLSAIGGMSGKLIGLMAFGPAGALVLGGVGGVGALAGAGWAREQASRLLSSEWL
+ADLDAAAARFRTVTIAAIQSKIEMLEGKRAQVPDTAPTVRGWLDARFADDILFLREVAYD
+LEVVLPGLRQPERARAYLSAMDAAKVHPLAVEAELHDLLEIMTSEPPKAKSAGKRAEKAW
+TSAKAKLPFGS
+>tr|A0A1Q9ADT7|A0A1Q9ADT7_9RHIZ
+MMLSSILMVDDDESDLFIAGYTIRKFDPAIALLSAHNGQEALDILRAGRPDAVLLDVNMP
+VMNGFELLEHLALMAEDERPVVAMLTSSRVPADRQRAETFAFVRAYFEKPLRTEDMAALA
+GLAGSRDLERRQTGG
+>tr|A0A1Q9AHN1|A0A1Q9AHN1_9RHIZ
+MPARFQAVAWDIDGTLVDSEPLHHRALVSASLEFGTDLRNLPDMAFRGIHMGDVWQLLRD
+RLPPSLAEEVWAHAINRHYVAGRRTLRPLPGAVETIRALHRQGVPQVCVSNSCRLVVDAN
+LDALDVAACMTFSISLDDVTEGKPSPLPYAGAAERLGLAPETVVAVEDSATGIRSARAAG
+LHALFLRTSDNGGVWAGEPKPDGMLEALTDLLAFFPQKVPFS
+>tr|A0A1Q9AI41|A0A1Q9AI41_9RHIZ
+MYGASAANNGIHYISTFDFYRLVDEKMRAKGWDGRLYDESLNQSVMETLLVDYKIWPECW
+KSLLDDEQRDSLMKEAAAARSQRRAS
+>tr|A0A1Q9AJA7|A0A1Q9AJA7_9RHIZ
+MTMQTNATVTAGAGEKAVAFSNSQPLSLIAGPCQMESRDHAFMIAGTLAELCAKLGIGLV
+YKSSFDKANRTSLSGKRGIGLDAAMEIFADLKAEFGFPVLTDIHTEEQCALVAETVDILQ
+IPAFLSRQTDLLVAAAKTGRVINVKKGQFLAPWDMKNVLAKFTESGNPNVLLCERGASFG
+YNTLVSDMRSLPIMAALGAPVVFDATHSVQQPGGQGGSTGGQREFVETLARAAVAVGVAG
+VFIETHEDPDHAPSDGPNMVHLKDMPRLLETLMAFDAVAKR
+>tr|A0A1Q9APY3|A0A1Q9APY3_9RHIZ
+MARFVLQQPLSLHQPFSGDVTQTINPWTWVFSPQNVQIGLFNIDLGPSGDPQVEAEVLRD
+VASYGRQIGRCQDVLAILLDRLEAVETLQGADRDAAEDFRSLLREIGKVKKRKGKR
+>tr|A0A1Q9AQ27|A0A1Q9AQ27_9RHIZ
+MNTITNRYDFALVFEVINGNPNGDPDAGNLPRLDPETNRGLVTDVSLKRKIRNYVDLARH
+GEEGFHIYVEEGAILNDKHRQAYRALRPDDVKVGKDAKLNPKDDAEARQLTAFMCRNFFD
+VRTFGAVMSTGVNCGQVKGPVQMSFARSVEPILPLEISITRMAATNEAEKKQKAEGDDSS
+DRTDNRTMGRKHIVPYGLYVAHGFISAKFAERTGFSEADLDLLFEALGTMFEHDRSAARG
+EMATRKLIVFKHDSALGNAPAHALFDRIHIGRSVDGAFRTIDSRLDNLPPARAFSDYIVT
+IDRDNLPTGVEIIERL
+>tr|A0A1Q9AHX9|A0A1Q9AHX9_9RHIZ
+MSKLTAHSEFGAAAYQFIRELDVPAHLQIALTPLIMASLIRVHFRFWLAQNVEDAGFIPD
+PDAQFDHDPQWFQIDGWPEKGGSAEDVLARKWSERARLTMRWYGVHVWHVIDWLTVAEEA
+DHAWRYRLDDDGYPVKLTKCSDLARLVAEATKGLRDRNEKIGGEIVLGPREEERVADLGV
+GYSLVQMHTPAALRREGYRMHNCLKSGDYGRNLIDQDFSYFSVRNPQDKPVATIEVERND
+ISQFFGPCNAKPADHLIDLVSPLAGLWQTLSNRAAGRFAADGPGPQNNDNRHVRRV
+>tr|A0A1Q9AEH5|A0A1Q9AEH5_9RHIZ
+MQSDLDYTRLIERMTPAMHDCVRGFLLKYTGDPAPHEEDIEQWVRDDLDNHVDELTFEER
+ELVEARLLRTIRMRLNHGGLRGVH
+>tr|A0A1Q9AJ58|A0A1Q9AJ58_9RHIZ
+MCPKDNQLHVTDASSSLMVGPVALRNRVVLAPMSGVTDLPFRRLAWRHGAGLVVTEMVAS
+RELVGQAEESWARLKSAGISPHMVQLAGREAHWMAEAARIVEGEGADLIDINMGCPAKKV
+TGGYSGSALMRDPDHALRLIEATVKAVSLPVTLKMRLGWDETSLNAAEIARRAEEAGVRM
+ITIHGRTRMQFYTGRADWDAIRAVRAAVSVPLVANGDVATPEDVREILRRSGADAVMVGR
+ATQGQPWLPGCLAGAATAPEGAALRDLVAEHYAAILDFYGEQAGLRHARKHLGWYLDRFA
+PGLAPGDKGLIMTGTEPKAVIARVLAAIEDAQGRGDGRQPGNDLVERSAAA
+>tr|A0A1Q9ADH0|A0A1Q9ADH0_9RHIZ
+MSSASNAASLSSREVIRRRHEALAYRFCGPAVLLLGLTVIAPVLFVLVASLTDYRLGRTT
+FQWIGLGNYVTMFSSPYVWQALRNSAVYTAIVVPLSVFLALFVAVLIHGRTTSRRFYEIV
+YFLPVASTLTAMSIVWSYVLNGRIGPLADLMASMGLPRLDFFSDDSLALSGLAIIGIWRL
+VGYNVVLFLAGLTTIPAEVQDAASLDGMDNFFDRLRYVTWPLLAPTTVLVIVLNCIQAFQ
+VFDTVAVLTNGGPRGATNMLLYEINTQSFGSLKIGYGSALTVLYLILIGGFSILQVALSD
+RKGES
+>tr|A0A1Q9AE73|A0A1Q9AE73_9RHIZ
+MLFDEQDYLAANPDIGDAVQRGLFRDGFSHFRAHGLREGRFPGYHGFDWDDYVRANADLA
+HFRNEPDPERAAREHFRTAGYGEGRRLKP
+>tr|A0A1Q9ALP1|A0A1Q9ALP1_9RHIZ
+MLLTIFLAFYALVVIIFLDNTLREGETVGAGRWDAMRFLGLGACLAWPILLAYTIIIARF
+RPVPQSSRGIL
+>tr|A0A1Q9AGG9|A0A1Q9AGG9_9RHIZ
+MNQSALIRPDWTPATIALMVLGFIVFWPLGLAMLAYILFGERLGAFKRNANETVDRTFSS
+FRGFPGFSGRARPGFDTGNVAFDEWREAELSRLDEERRRLNEMREEFETYVRELRRAKDQ
+EDFDRFMRERKFGKGGTVEGYTGS
+>tr|A0A1Q9AGR6|A0A1Q9AGR6_9RHIZ
+MSPRTRAVLAAAAALFVERGYAATSMRDIGERVGLLGGSLYHHVRSKEALFLRIHDTAIR
+AAEARIRAAVAARTDPWDRLEAAAVTMLEIQLDPQSITLPLMNDLRAVPPALAERLIATR
+DGFERLFKDLVAALPLRADLNPALYRLLLLTLLNHVGDWYRQGKSTPAEIGAEILRLFRH
+EAE
+>tr|A0A1Q9APP5|A0A1Q9APP5_9RHIZ
+MTKPIVAIPCDYREFEGSDWHAVAHQYVRAAVEGAGAMALLVPALEEGNDADALLDRVDG
+LLVSGARSNVHPSLYGRTATEQDGPFDPGRDATSLPLIRAALKRGMPVLAICRGIQELNV
+ALGGTLANDIQEQPGIWDHRHPEDPDRDVKYAIRQGVSVKEGSCLARVVGAGEIQVNSLH
+RQAISALAPGLAVEALADDGTVEAVSVIDAKGFAVGVQWHPEYWVGTDSPSGQIFSAFGE
+ALTDYVRARQAARLSA
+>tr|A0A1Q9AJ11|A0A1Q9AJ11_9RHIZ
+MFVTQAFAQTGGPTAGGGTTEIIMSILPFLLIFVVMYFMIIRPQRAAMKRREELLRNIRR
+GDQVVAGGIVGRVTKVVDDSEVEVEIADGVKIRVVRSGISEVRVKGEPVKE
+>tr|A0A1Q9ALG2|A0A1Q9ALG2_9RHIZ
+MATEIRVPTLGESVSEATVGTWFKKVGDTVKADEPLLELETDKVTVEVPAPASGTLSEIV
+AQAGETVGLGALLGQIAEGASAGAPAAAPAPAAAPAAPAPAAPAAAPAPAASSMPPAPAA
+AKLLADNNLAASDVDGSGKRGQVLKGDVLAAVKTIGQPAPAAAEAPKAAPRAPSAAEDAP
+REERVKMTRLRQTIAKRLKDAQNTAAMLTTYNEVDMKAVMDLRTKYKDVFEKKHGVKLGF
+MGFFTKAVTHALKELPAVNAEIDGTDIIYKNFCHVGMAVGTDKGLVVPVIRDADQLSIAG
+VEKELGRLAKAARDGSLSMADMQGGTFTITNGGVYGSLMSSPILNAPQSGILGMHKIQDR
+PVVVGGQIVIRPMMYLALSYDHRIVDGKEAVTFLVRVKESLEDPERLVLDL
+>tr|A0A1Q9AGY5|A0A1Q9AGY5_9RHIZ
+MDFRGDVLRRLQNRKDGYSLEQAFYTDPDLYKLDLEEIWYKDWLFVGHDCEIPKAGNYFT
+LQVGDYPVVIVRDRQGSIRALHNSCRHRGSRVCTSQKGASAKLVCPYHQWTYELDGSLLF
+ARQMGEDFDKAAHSLKPIACESFGGYIFICLSETPMDFAPVKELVNGYLAPHQLKDTKVA
+FESTIVEKGNWKLVWENNRECYHCASNHPELCRTYPEAPSATGVQGAADDPVISQHWAHC
+ESAGLPSEFQMSPTGQFRVARMPLIEQAESYTMSGERAVKRPLSDAVKASHIGTLLLFHY
+PTTWNHVLVDHAISFRVLPLGPELTQVTTKWLVHKDAMEGVDYKLDELTHVWTETNDQDR
+RIVEENAFGIRSPAYEPGPYSPEHEGGVMQFVEWYCNFMQDRLRGKTSPLFKVA
+>tr|A0A1Q9AHF9|A0A1Q9AHF9_9RHIZ
+MAAKRRFKSDAFEAIHSAVEGMLAAGTIDKETMRTFDEDCLVTPHELTPGEIKALRENNH
+VSQPVFARYLNTSQSTVQKWETGAKRPSGPALKLLSLVQKHGLQMLA
+>tr|A0A1Q9ACD7|A0A1Q9ACD7_9RHIZ
+MTLVIGALVFWLFAWGFNEWLVRLRPASRGLKRLIDIAVPLIFGVTLLVLWEGLVRGFQV
+PVVLLPPPSMIWTRLIGSLPILWADFQQTVLKSVLTGYVLGCGFGFVVAIAIDRSPFLQK
+GLLPLGNFVSALPVVGIAPIMVMWFGFDWPSKVAVVVIMTFFPMLVNTVTGLSAASSMER
+DLMRTYAASWWQTLTKLRLPAAWPFIFNALKINSTLALIGAIVAEFFGTPIVGMGFRIST
+EVGRMNVDMVWAEIAVAALAGSGFYGAVALVERAVTFWHPSVRGERT
+>tr|A0A1Q9AEA1|A0A1Q9AEA1_9RHIZ
+MGFDCLVLGGGIVGVSAALHLQARGRTIALIDRAQPGTGTSYGNAGLIERSSVVPYAFPR
+KLSALFAYGLNRRSDVRYDPKFLARIAPFLLRYWRASAPAPLEASAAALLPLIEASIAEH
+QALSAQAGAEGLMRPGGWISLYKSEKGFAAAAREGEGFRTSHGLSVDILDRAAFLALEPA
+FVSGAERIAGAVHWRDPLTVEDPLALTTAYAALFRDKGGRILTGQAESLRADGTGWGVET
+GEGPVTAREAVIALGPQSAALVSRFGLSVPMAVKRGYHRHYAQAEGALPGRPVVDEDAGY
+VLAPMRQGLRLTTGIEFAAADSPANPAQLQACEAAARGLLPLGAPVEAAPWMGLRPCLPD
+MKPLIGPVPGQPGLWCDFGHAHHGLTLGPASGRLLAELITGETPFADPAPFAPARFA
+>tr|A0A1Q9AGX5|A0A1Q9AGX5_9RHIZ
+MTRISQEQNAIRPDPLDTRADPDKAGPEATIKPKTAADPHPGSVSDGTDPQAREGSTPIA
+DRKDEAR
+>tr|A0A1Q9AH66|A0A1Q9AH66_9RHIZ
+MTTEAIYAAVDWGTTSFRLWLIGADGTPLAERRAGEGMTTAAQEGFSAVLERHLAALDAP
+AHLPVMICGMAGARQGWMDAGYLDVPARLDAIVGRAVTVPDPNRDIRILPGLAQRLEAAP
+DVMRGEETQLMGAAGDLGPGSHLLCMPGTHSKWVRLRDGAVEGFSTFMTGELFDVIGKQS
+ILRHAIEGAGPFDGSHPAFLDAVKTACISSARFSNLVFSLRSGQLLHGLDATSAKARLSG
+LLIGLEIAGARDTAPDALHVQLIASGAMAALYTAALEAATLGATVIDADQAVRRGLHAAA
+SAVWPS
+>tr|A0A1Q9AL99|A0A1Q9AL99_9RHIZ
+MECDSRKIIQRLKDDGFTLVKVSGSHHKFRKDDRTVIVPHPKKDLPLGTARSIARQAGWL
+SKPSAEE
+>tr|A0A1Q9ALV6|A0A1Q9ALV6_9RHIZ
+MSSLRRRPFGSHGKVHEITPQSAGWRYVGFSLYRLRSGETIAEATGDMEAILVMVEGIAR
+FTAAGTEWGELGERMSVFERTPPHCLYVPNGEAFEATATTDCAIAVCLAPGRSGHKARRI
+GPDGIALTPRGVGANQRFINNIAMEGNDFCDSLLVTEVFTPAGNWSSYPSHRHDEDDDPR
+ITYLEETYYHRIDPKDGFALQRVYTDDGSLDETIAVKDHDVVLVPRGHHPCGAPYGFDLY
+YLNVMAGPLRKWRFVPDPAVQSILDRDQK
+>tr|A0A1Q9AM91|A0A1Q9AM91_9RHIZ
+MPLTPLSRSLLILALAGTTLTPFCRTALAQEAGATAMQDATGSSTMLDTIVASGGSGGVI
+TADGYVGTSSATGTKVDTPFLQTPQSVSSVTQAQLEDRNPQTLTDALAYTPGTRVGGYGF
+DPRFDSFTVRGFDVTYTGIFRDNLRQPGAGSSLFKTEPYGLEGVSILRGPSSALYGASGA
+GGLYNLITKRPTDTPLREVEIQYGTQDRIQGQFDFSGPVNESDPVTYRMTGLARSADTEQ
+VGVPDDRVYLAPALTWKPDEDTRFTLLGEVSRIKTGGTAAYYYDATTGKVSDFFAGNPAF
+NDSVQNQARIGYEFEHRLNDVFTFRQNARLSTLKTDADWAFAYQPNAVDPLLLDSSAGTF
+EERLTAGVIDNQIEASFDTGALDHTLLVGLDYTKLRYRSLNGYGVSPPLDTRNPTKGRPV
+DPIPFQTRTDQDQWQLGAYVQDQIRYDAWTLTLGGRHDWVKTDTDNTTLATNAVTTTKQT
+DKAFSGRIGLTYEFDFGLAPYASYSTAFSPNAGVNQETGAPFKPTESTQQEVGVKYLIPD
+LNTLLTAALFNIEQKNGLYYEVVNLPSGPANIQVQRGKLRSRGFELEGVTTLDNGLSVTA
+SYTYTDMKILEGPEGTVGNHVSSVPMHMAALWADYTLPEDGFAAGLGFGAGVRFIGKSYG
+NDTNTLHNSARALFDAAVHYDFAAIDKKYEGLKLQVNATNLFDQRDAVCSADFCYRDAGR
+KVVGSLKYSW
+>tr|A0A1Q9AK41|A0A1Q9AK41_9RHIZ
+MIADATALADAIKAGRFSATAAMQAALAAAEAEADLGALTHVDSRLGLAEAARIDAMFAE
+GGAAAAELAARPFAGVPTLAKDLGGPFVGLPVKAGSALFAARDPDMPLEGAADRSTPDSD
+LAARFRAAGFCLFGLTTSPEFGLSLSSEPAIGPACRNPLAPTLSAGGSSGGAAAAVAAGI
+VAIAHATDAGGSIRVPAAACGLVGLKPGRGLMPGGPDFGNHLGGIAAELVVSRSVRDTAA
+SLTALAGAARGPFPPAAAPSIFPTLPQRLRIGLVTDLGADCPVEPARQAAVEAAARSLEA
+DGHLVRRIDKNALAALAATSRRVFETIVCVNLAALFDRLALDEGRVEPISRAAIARGRSL
+TGAGLWQDLNAMVLVSRDLWALFDDVDLMLTPMLSRAPLPLGAMPTDHADLDLHFSRMAC
+FAPLATLANIAGCPALTLPFGADEDGLPLPLQLLAPMGGEGLLLAAAARLEAEGRWRHRF
+PIATPLPASPGAREDLSA
+>tr|A0A1Q9APT0|A0A1Q9APT0_9RHIZ
+MTASALNDAIVLDKLRAVRKTVAISIPVNMLLGVAALAVAIHAGKGAAGALWFSFSLAIN
+ITRLLFCRYPIGNDRREPGEATGARASRRALSVGRHLTLHCVFAFLSGFAWALIPFLCDG
+YTTPETVFYLAVVCGITAGAVTHGFAYAVIPIVFITPPLVSLIGCLLYSGGYDRNWLAAT
+VLLYLLALIRGSRVGEELVDNQSRLKNEATFLSRSLETANHRITLFARDMRERATHDDLT
+GLLNRRGFAEVLVSRGQTGQETLSEGAARRDEHVAGRHFLLLFDLDGFKTINDAFGHKTG
+DMILVEVAGRLRAYLPADTPLARLGGDEFAALVDLPAGDAGPEAIAKDLIAAIAAPFARL
+PAGRIGVSIGICECDDDNLDTLLVAADVALYAAKNTGRNRFRIFDEALRRRAQMTRDIER
+DLAAAMAQQALTMWYQPIMAENGTRVDTLEALVRWQHPAHGFIPPMELVAVSALSGLSGD
+LLRYILREITEMVALLRQNGFDDVRVAMNVSPREMTQMSVDELVISEFKALGLPLSMLEI
+EITEEVAIDPAAVKGKLDRLTQAGVRLAIDDFGTGYSSLSALQSLPIHRVKIDRGLIHSI
+AASPERQALVDAVLHVSKSFGFEVVGEGVETPEDQATLEELGCPLMQGYALSRPRPREEI
+VGWMESGRKAGPANEELAP
+>tr|A0A1Q9AKM9|A0A1Q9AKM9_9RHIZ
+MPTITFANTKGGAGKTTAVLLLATEFVRRGYRICIVDTDPQRWISRWFEAAQPHDNLTVA
+TFVSLASLQRTIQQYQTSCDYIIVDLPGAQSPLLATALGMSDHVMIPIQGSSMDAQGGAQ
+VIELLSYLDRKANITIAHSVVLSRVNPMVTTRALLAVKALLAERSVNLLQTPIIERAAFR
+DMFEYGVFLHQMQPERVSNLAKAIQNAESFADEVERLVPLTSRTRAASAA
+>tr|A0A1Q9AMP0|A0A1Q9AMP0_9RHIZ
+MSITIMARLFKARLGTANRKILAIRLADFADDEGRGIWPTVGRLSAETELSERTVQRILK
+EFVDEGLLVEVSRANGRPGQATRYDFDLSVLGRIIDGMQENDPIDDGCQAGTGVTVSPVR
+VTNERETGDNGDIDGCHRDTRTIIEPLDHPSRKQDAREQGRENDPDASPKSALAELTTVL
+DVETARAVMEHRRTIRRPLTPHAARLLARKFAQMPDPRHAADVMIGNGWQGFDPSWVKDR
+PSSRASPSAPQRPETAHQKLKSAIRSAREIEHDLGSRRGNQPVDGRLRLGGLDGERGADG
+FDD
+>tr|A0A1Q9AE99|A0A1Q9AE99_9RHIZ
+MSNRETYDSAFTETFMIEAKDLPGLKYQGVAAWDSVGHMALMAALEEAFGIEMDIDDIIE
+FSGYEAGQAILSKYNVAIEPAA
+>tr|A0A1Q9AJG3|A0A1Q9AJG3_9RHIZ
+MAAIQYGVLFDLYALDELYGSGVTALSSSATKVVYGGAGGTTFVVAGKGLSFKNGAPTAG
+TVTGVSFIDGDGETLLQVTGGSFKAKDLYAAYTKKGSVEQLAQALFAGNDTVKGTDYDDI
+MSDPNPGNDTVFGLGGDDYIGGSAGNNRLDGGAGWDILTYDP
+>tr|A0A1Q9AJE2|A0A1Q9AJE2_9RHIZ
+MSQNAPEARPIVVVTGIGGFLGRHVAKSLLDAGYPVRGSLRDPRRGAEIAAALGAAGSET
+RNLTFFTADLEQDRGWAEGLGGAAAVIHVASPFPARAPDDSASLVATAREGTRRVLLAAK
+AAGIDRIVLTSSIAATNYGSGQAPFTERDWTDPDGPLTTPYYRSKTLAERIAWDLAERHD
+LALTTVNPAMILGPMLGGAPGTSLMVIQKLLSGRYPALPKFAVSVVDVRDVAEMHRLALE
+REAAIGERFLAAGPVMSLADIAALLRRSLPAHAGRVPRLVLPTWLARLAAPFDANLRLIA
+GELGRDARVSSEKAEHLLGWRSRPPQEAVLAAAQSLIAAGKS
+>tr|A0A1Q9AN23|A0A1Q9AN23_9RHIZ
+MAFSSSPARKDPPPLKRRHPSKNAAKSDRLRRFLGYYLPHRALLAADLLAAAIIAACSVW
+VPLGINRLVSEIGALEGGSSSPQALLAPASLLLAALSAQIGAQFFVDHWGHVMGARIEAD
+VRRQLFDHCQRLPLSFYDRVRTGELMSRMTSDSLWLGELFHHAPEDLFIAGLKFAGAVVV
+LFLLDPVIAWMVLAITPFAVLLALHFNGRMNRAIARSKQEIGAINERIEDTLQGIRLVQA
+FAGEDRERAAFERLNSRFLASRVESYRHEACFSLSMDGLAQLLTGLVLAVGAWHILSARI
+STADLLSLLLTVGVLVDPVRRLANVIRLWQEGYTGFVRAMEILEIVPDLQERPDARPLKV
+ERGAITFESVRFGYGGKGDVLRQLSLTIDGGQFVALVGHSGVGKSTLCALLARFYDVRDG
+SISIDGTDVRSVTLASLRQAIGFVQQDVYLFAGTVADNLRYGRPEATRAEIEAAARAAHA
+HDFIQALPRGYDTEIGQRGVTLSGGQRQRLAIARVFLKDPPILVFDEATSALDQDSERAV
+QAALAALARGRTTLVIAHRLSTIRRADRILVLDETGLAEDGTHATLMVASGIYARLQRGG
+EGRETTEAR
+>tr|A0A1Q9ANZ1|A0A1Q9ANZ1_9RHIZ
+MEGPRAAKPLVWCVDLSVGFSLQHGPVIAVADKVLPHRLPAAALILVNATIAAFVSFRLF
+ERPVGIAIQRRCGGGRRALPRRLTRSVGATF
+>tr|A0A1Q9AJQ0|A0A1Q9AJQ0_9RHIZ
+MGRAIPRPSAFPARALIVMALLVSLAMLLALFRPDGVRADTLAFSTAPLVIHAQDGRTHN
+FTVELALDEDQRAQGLMFRRAMAPEHGMLFDFGEVRRVMMWMKNTTLPLDMLFIGRNGRV
+ETIRENAVPQSEAIIDSGKPVAFVLELNAGTVSRLGLKPGDRVETARIR
+>tr|A0A1Q9AQ56|A0A1Q9AQ56_9RHIZ
+MTQCDDLTIETRSGPVKGQSRDGVRTWFGVPYAAAPVGALRFRAPEPPSAWEGVRDADSF
+GPLPLQKRGFEPIGGAGATTPMSEDCLTLNISAPLKISGKLKPVVVWIYGGGFTLGGSRS
+PLYRGNHLVEDGDVVYVSFNYRLGLFGFADFSRWGMPGSPIDTNLGLRDQIAALTWVQQN
+ITAFGGDPDRVTIFGQSAGAACVTYLMCVPAAQGLFHRAFAMSPSALSVYGSDRHALFAR
+DLVSLLGVDPDNCEATNHALKTEDGARLIEAASQYYYGIAPDKYPGMLPSSPVIDGNILP
+KHPIEAFQEGSAMKIPLVIGTMSREGAMLDKALPVISTRVSRLEAMFAETATGSFRDRIA
+DVYRGFPSKKRAIDIGGDFTFWLPALQIAEGHSKHADCWFYRFDYATPLTRLVFSEATHG
+LDLPMVFGTTGEGELGRLDLFSRRRSKAVGHRFRTLFTEFAHGKSPDWERYDTATRMTRI
+VDHQDRTEGDPRQERRLAWGTYRGPA
+>tr|A0A1Q9AJR5|A0A1Q9AJR5_9RHIZ
+MTSLDPIQVFRTEAAELFEQIESGLLDLLNDLSDQDTIDAVFRGLHTLKGSGAMFGFEAL
+AAFTHHCETAFDRVRKGQVPATDELVAAVLDAQDHMKALVSTPQGDHEDASNRLLAALHA
+AVGGAATTGHVVTPPLPQASAQAAAPASAPAKGQAFHIAFRLPANAMINGTNPLGLLDEL
+RELGECTVKADLSTIPGLGSLEPTDLYIGWSVDLVTEQGRDAIDDVFIFVMDDMDIKVTE
+VAPVEAKAAEAAPAAKAASPAPEATLQKAEPAKAPGNEPKHGGKQAENVRVPAERLDELM
+DRVGELVIAQSRLSQLAGSSADLHLRAVSEDVERLSGELRDTMMVLRMVPVGSLFGRFRR
+LVHDLARETGKVIELETEGETTEVDKTVIERLADPLVHLVRNSIDHGLEPPDERVAAGKD
+KTGRVILSARQSGGEVIITIKDDGRGINRDRVRAKAESSGLIQPGQMLTDQELLQLIFQP
+GFSTAAQVTNLSGRGVGMDVVKKTVEALRGVIDVRSENGRGSEISLRIPLTLAIIDGLLV
+RVGAGSYVIPLSAVEECLELSLEDDLRSRGRSFISLRDNLVPFLRLRELFETGTPPDRYQ
+KMVVISTGDARVGLVVDQIIGDHQTVIKSMSKLHHDVVTFSGATILGDGGVALILDVTHL
+VAVGQYQEAHLRAAG
+>tr|A0A1Q9ACZ8|A0A1Q9ACZ8_9RHIZ
+MQAGALTHKSDECTLVALSLDSLEPTTTGEALIPPDLDSIITSSPDILERIQAYYASPAA
+SPAGPAPLVALISAPEQVTPFIFGRIAACVRRLARANADLLRSTALLRADYEAMSAAFAA
+LEVLVQHNRLAERRAATPVGPSRLSHPADGLSVENFEQLLPDRSAGLCDVAIYLRALPKG
+EGDLHIQLRALESDVVVGRWTVARRALSEGWLRLSLDRALPVEPCSLLLSGRWTGGEGLH
+LGLGVSHPVERWQALINGQRIGSTLALNRWTASPGLRLPHSSEAVRALGSGMERSTLVLQ
+ADTAIIDSLGDASMVFFHEAERSIQVHPVGLSPTKACLPLACPAGVVRISARVETMHPEA
+GRVVYGLGLGSPDMRGAIALPSLDLDHQSDWVVLPARTPAMVTLFLAEPLAEPADLYLLT
+RLPEGESARFCWAHFSDITFDYAEGGADVA
+>tr|A0A1Q9ACG1|A0A1Q9ACG1_9RHIZ
+MFETGRWLNEPKDWRIEEETLCVTTDAGTDFWRETHYGFTRDSGHAFMAAHRGGFTASLR
+VQADYSALYDQAGIMVRVDERHWIKAGIELSDGIACLGSVLTNGQSDWATGPYAGDARDI
+RLRVTVDKGVLRLQASADGRHWPLVRLCPFPQAETYHVGPMCCTPERAGLIVRFSDFTLT
+PPLGKDLHDLS
+>tr|A0A1Q9ADE4|A0A1Q9ADE4_9RHIZ
+MRIAVLAYDRISPFMLSTPLAVFAEPFLAGGHQLEICAATPRLSATGGLHIEAPAALDAS
+LLADVVILPGWRDAQEPVSPDIVAVLRAAGERGALVVGLCLGAFGLAEAGLLDRRRATTH
+WARAELFAARYPAIDVDPGALFIDEGPVLTSAGIAAGLDCCLHLLARLSGIGEAHRVARH
+LVVAPQRGGAQPQLLERPVPGTSAERRVTGLLESLRADPLEAPSLDTLAQRACMSRRSLT
+RHIRAQTGGSLGDWLKRVRLARAQDLLVAGGRGLEDVAARAGFVDAQALRAAFRQELGLT
+PRQWLARQRLG
+>tr|A0A1Q9AGX7|A0A1Q9AGX7_9RHIZ
+MKVECTRLASGLTVVTETMPHLESAALGVWIKSGSRDETADEHGIAHLLEHMAFKGTGRR
+SARDIAEQIENVGGEVNAATSTETTSYYARVLKDDTALAIDILADILTESAFDEDELERE
+KQVILQEIGAANDTPDDLVFDRFAEAAFAEQTLGRPILGTPETVMSFSSDQIRTYLARNY
+TTDRMFVVGAGAVDHDSFVRQVEERFARLPTVPTGAPVAQPARYTGGEVRENRDLMDAQV
+LLGFEGKAYHARDFYCSQILANILGGGMSSRLFQEVRERHGLCYSVYAFHWGFSDTGIFG
+VHAATGGENLPDLMPVILEELRKSAMSIDQQEIDRARAQIRAQLLMGQESPAARAGQIAR
+QMMLYGRPIPNEELVERLSGITVERLTDLAGRLFFDTVPTLSAIGPVESLMPMNDILGGL
+AARSLPRAASA
+>tr|A0A1Q9ANT7|A0A1Q9ANT7_9RHIZ
+MPFRRTLLIAPPLAVVALIGVVPLALVVLWSFWTWDPATYWIKPDLSLAGYAGILNAGRW
+TVILSTLVKSFGAALLCSLLAYPLSYAIHVMAGPRIQMLLLALMTIPFFTSYLIRSFSWR
+LVLGRTGAINETLQALHITSAPLDWLLFSNFAVFIGFVASYLPFAVFPLLLSMRRIPPEL
+MAAARDLGAGFWRAFFTILVPLTYAGLFAGFLFVFVMVAGSSTEVQMLGGAGASIVSVMI
+NDVMRVANYPLAFAISVVMLITIFGMVLIGNAFFKLSGLFGEDAE
+>tr|A0A1Q9AP79|A0A1Q9AP79_9RHIZ
+MDAVNAARVRRLAFWGIPLSIGVLGLKLLAWWVTGSVALLSDGLESIVNVVAAVIAFVVV
+SYAAKPADASHPFGHHKAEYFSAVIEGVLIVVAALMIVYEAAPAVFDPKLPEAPLLGLAI
+NAVAGVINAVWASVLMRAAKALRSPALEADGHHILSDVVTSGGVLIGLALAFLTGYAVLD
+PLLAVLVACNILMQGSKVISRSVDGLMDRAVPEDEEAAIKAAIAAHAAGSLGVHDLKTRQ
+GGSVIFIDFHLVVPAEMTVGAAHEICDRIEDAIRAVHATAKIAIHVEPESEEAHGVRVKL
+TGGRKP
+>tr|A0A1Q9AHX6|A0A1Q9AHX6_9RHIZ
+MPMIDRSTLYVTPDGRPMNTQEQLALLLDIGGIDAAEAAALTGATRLSIETYRKPSFKRA
+VPAAIIMVLEDHVLARLARIAQAAGYELRPRA
+>tr|A0A1Q9AFA8|A0A1Q9AFA8_9RHIZ
+MFSHLDTKSLIFGRLDLGAFPLHEPILVATFIAVALGGIVVVGALTYFRLWGYLWKEWFT
+SVDHKKIGIMYVVLALVMLMRGFADAVMMRTQQAIAFGGNEGFLPPHHYDQVFTAHGVIM
+IFFMAMPFVTGLMNFVVPLQIGARDVSFPFLNNFSFWMTAAGAVLIMISLFVGEFARTGW
+LAYPPLSGADYSPGVGVDYYIWGLQVAGVGTTLSGINLVATIIKMRAPGMTMMKMPVFTW
+TSFCTNILIVATFPILTATLALLSLDRYVGTNFFTNDLGGNPMMYVNLIWIWGHPEVYIL
+ILPAFGIFSEIVATFCGKRLFGYASMVYATVVITILSYLVWLHHFFTMGSGASVNAFFGI
+TTMIISIPTGAKVFNWLFTMYRGRIRFEVPMLWTIGFMVTFVIGGMTGVMLAVPPADFVL
+HNSLFLIAHFHNVIIGGVVFGVLAGFNYWFPKAFGFKLDPFWGKMSFWFWLIGFYFAFMP
+LYVLGLMGVTRRVSQFEDPSLQIWFIIAAFGAFLIALGIASFIIQLIVSFIKREELRDVT
+GDPWDGRTLEWSTSSPPPDYNFAFTPVIHDHDSWYDMKRRGYTRPLEGYRPIHMPKNTGT
+GVILAGLSVALGFALIWYIWWLAALSFAGIILVSIAHTFNYKRDFYIPAEEVVATENART
+QLLMKKA
+>tr|A0A1Q9AMB6|A0A1Q9AMB6_9RHIZ
+MTDTAAHEFWRGARKALPAILSACPFGALFGALAVDNGLSISEAMLMSATVFAGASQMVG
+IELFGQKVQPWLIVLSIFAVNFRMVLYSASIARHIAHFSRAQKAFGLFLLTDPHYAETER
+RADATGRVRFPWFLGYGIGLYVPWQIATALGAVFAGLIGNPAAIGLDVLLPIYFLSLVMG
+FRQRRNWLPVVATASVVSVLALKVVGSPWHVSIGAVVGMVLAACLPLPAEEKDSAISKDH
+RN
+>tr|A0A1Q9ANK9|A0A1Q9ANK9_9RHIZ
+MTEEPARADHHRGKPAPSPTQNPEPALSPTLARNIAALIDRRRAVEAEASLQEKAAAAIS
+RFAGSMVFVYIHLVLFGGWILLNLGLIPAIPAWDPTLVVLAMIASVEAIFLSTFVLINQN
+RMAAQDDARADLDLQVNLLNEHETTRLIAMVDAIARHLEVAPLPEPEIEEMTRDVAPDAV
+MDAIAAHQDGR
+>tr|A0A1Q9ACK1|A0A1Q9ACK1_9RHIZ
+MMLTEPEVAERLRCSTSKIKRLRFAGKLDYLPGRPVLIDERDLDAFISGQKRIGREHGRP
+SNEIAARTDEAREWALAQVLGLKK
+>tr|A0A1Q9AH93|A0A1Q9AH93_9RHIZ
+MVSQAPAFWWQPRGLKAWGLSPLAWLYGRITGRRMRRAARSAAGLPVICVGNFTVGGAGK
+TPTALALAKAAREKGYTPGFLSRGYGGTVKQPTLVDPARHGADAVGDEPLLLSRFATTVV
+CRTRIEGARLLAQSGADLIIMDDGFQSARLHVDLAVIVVDARRGIGNGLPLPAGPLRAPM
+AEQIRQLSVLLKIGEGTCADPVVRQVARAGKPVLQARLRRHDALSLQGARVLAWAGIADP
+EKFFATLCEAGAEIVDRQVFADHHLLTTEEIADLLGRSKAGRLQLVTTAKDHVRLAAGPG
+ISGRLAAESAVVEVELAFDDPAAPGRLVEQAMGQGRLRLLGVAQPGPAAGATTSRR
+>tr|A0A1Q9AD20|A0A1Q9AD20_9RHIZ
+MLLSTRQEDIIALAKASGRVTVEDLAARFGVTPQTIRKDLNDLCDGRLLTRVHGGALFPS
+GNENVQYEARRAMAAAQKQAIGRAAAAMIPDNASLFINIGTTTEAVGEALSDHQGLMVIT
+NNINVANSLRLSPAIEVVIAGGVVRRSDGGIVGEAAVDFIRQFKVDFAVIGASAIDGDGA
+LLDFDFREVKVAQSIIDNARHVILVSDASKFERTAPVRIGHLSQVNSFITDHCPNGRIRA
+ICAENDVRLIETQG
+>tr|A0A1Q9AG11|A0A1Q9AG11_9RHIZ
+MSEKIDLSSYVLSEDDEFMNVHQRAYFRAKLNAWKNDILREARETLGHLAEESANHPDLA
+DRASSETDRAIELRARDRQRKLISKIDAALQRLDEGTYGYCEETGEPIGLKRLDARPIAT
+LSIEAQERHERREKVYRDE
+>tr|A0A1Q9ALG7|A0A1Q9ALG7_9RHIZ
+MDMRTPLAKVRGLGSAKSGTEHFWRVRTTAVVLVPLTLFYIVFLIAHAGAPYEVVVAALV
+NPFVCVITALTIVASIVHMQLGMEEIIQDYIHSEGLKVALLLLNAFFSLFIGGLCLFAAL
+KIAFAG
+>tr|A0A1Q9AM69|A0A1Q9AM69_9RHIZ
+MATPCRIILDVDTGIDDAMAIFYAVRHPNIRLEALTTVYGNTEVEIATDNTLKILDLLGR
+ADIPVAKGVGRSLLKPFTREADFVHGSNGLGDVELPPASTKPVDEHAMDLIIRLVKENPG
+EITLCPVGPVTNIALALAKAPEIAKLVKGIVIMGSTLFHPGIHGVRNPMVDANLHNDPEA
+ARMVLNAGAPVTLIGMDVTMKTLLSSAMMREITEKGDHAARTMMKITEFYVASYKQMHPG
+NDGCPLHDPLAVAVCEDPGFVTTERMFADVELHGEITRGQVIPDRRPISRHLFNAEVAME
+VDTARFEKAFLDTMLRA
+>tr|A0A1Q9AN96|A0A1Q9AN96_9RHIZ
+MNAVTPVIPAGLLQSVERARALLDEGDYVAARLLSAGAYEQAKAAVDHAQRVKASDRLIA
+KAREMQLSALEIEAMATVGLADEVDAAQAAGLISARGGRPKTVAGGDGFRIADLGVTRQQ
+LHEARRLREVVRQMPDFVRVTLGERIKAGLSPTRANLRAAIGTASAGKADRGDNLYQTPP
+EATLSLLALERFSDLVWEPACGRGAIARVLEASGYQLRLSDLRDYGTQSEDGTAQEVGNF
+LASRAPEGGAGPDIVTNPPYGEDLNRFVAHALREHRPRKMALLLNLNVICGYADPDRTFW
+MEDHPPARVYAFKHRLPMMHRDGWEGEKASSRMNTGWFVWERQEDGSYGRSTLLHRIDWE
+DFAGRDPLSPNYAGAFGRASFVDVDAEDFTRQTPRRTLAESVEAVREQVRAWLAAARGQG
+RTQLDRRTLRQQLGIRDATAIALIDEFCAVGLLGPADDGGAHPILDWGSDAA
+>tr|A0A1Q9ADL8|A0A1Q9ADL8_9RHIZ
+MNTELHAFTMKLHPGMEDEYRRRHDALWPELAALLHEAGVRDYSIHLDRATNTLFGVLTR
+PKDHGMAALPDHPVMKRWWAHMADIMETNPDNSPLQGELVTLFHLP
+>tr|A0A1Q9ACD0|A0A1Q9ACD0_9RHIZ
+MALLCGLVAGLCGTRAQAQDAPQIDCEQAESQMELNYCADQDYAEADQALNETYRQAMTR
+LRKADADLAATPGAEAGAVEALKAAQRGWIAYRDGQCILAGLPVRGGTMEPMLVLNCQAD
+LTRKRTQELKETIAALDQ
+>tr|A0A1Q9AFS8|A0A1Q9AFS8_9RHIZ
+MKQRDAKFAIGQVVRHKVFPFRGVIFDVDAEYSNTEEWWNSIPAEIRPDRDQPFYHLLAE
+NDEAEYVAYVSEQNLMSDNDPVPLRHSQVEMFFDPESAGHYRPKAVVQH
+>tr|A0A1Q9AMR5|A0A1Q9AMR5_9RHIZ
+MTTASDTRELGVGIIGCGNISTTYFKLAPLFRGIKVLACADINMGAAEARAEEFGVEAQT
+IDALLANPAIDIIVNLTIPDAHFPVSKAILEAGKHVYSEKPLVLSLEQGETLRGLATAKG
+LKVGCAPDTFLGGAHQLARHLIDEGRVGRVTSGTCHVMSPGMEMWHPNPDFFFLPGGGPV
+LDLGPYYIANLINLIGPVRRVGAMTSMANPTRTITSEPRKGEVIPVKTPTTIHALLEFQN
+GATITLSASWDVWSHRHANMELYGTEGSLFVPDPNFFGGTVQASGRDKDIQPVEMWDHPF
+AVANYETSHGPMANYRTAGLADMAVAILDGRDARCSLERALHGVDVMVSVLKSGEEGRFI
+DLTTTCTQPAALSIEEATALLR
+>tr|A0A1Q9AE00|A0A1Q9AE00_9RHIZ
+MPASISLTGLCWSTPDDTPLFTDLTLAFGPERTGIVGRNGSGKSTLLRLISGEVSPVSGQ
+VRVTGVLAAMRQDAMAQAGEALADLFGVRPALDLLGRAGAGLARTDELMVADWTLPARIE
+TALLRCGLSLPPETPLAALSGGQRSRAALAAAIFAEPDILLLDEPTNNLDRAGRKAVIDL
+LRGWRGGAIVASHDRELLEEMDAIVELTSLGVTRYGGNYSAFRERKDVEREAAARDLAEA
+EEARREADRRARQASERKARKDSAGHKARARGDQPRIAMNTARNRAEASGGAGKRLREAR
+RAGAEETLAAAREKVEVLQPLRMDIAPIGLAPGKTVLRLEGLTGGYTGDQPIIRDLSLTM
+TGPERVVLTGPNGSGKTTLLRLITGRCEVQSGRVDVAVTFALLDQHAGLLDPDLTLRDNF
+LRLSPLAGLHDAHAALARFGFRAADALRLAGRLSGGERLRAGLACVLQAVPQPQLLILDE
+PTNHLDLDGIAALEAAMAAYDGAVLAVSHDTAFLRSLAPTRFISLERHANVDDSTL
+>tr|A0A1Q9AQ86|A0A1Q9AQ86_9RHIZ
+MTLDQLRIFAEVARQQHITKAAKAMNMTQSAVSAAVIALEERHGVALFDRIGRSIVLNQT
+GTIFLEHALQVLAEAKAAESALSDLAGLLRGELSIMASQTVGAYWLPSRLAKFHTRYPGL
+GLDVRIGNTEAVGDAVEAGRVELGVVEGAVDRPALSSRMIATDEMILVVSPTHPWTKGKK
+LGKADFEDATWVLREPGSGTRLAFETMMTKEKLKLQALNVAIVLPGNEAVLGAVEAGMGA
+TLTSRSAAQTELNSGLLVEANASPLPRPFFLLRHKERYRSKAADAFEALLSE
+>tr|A0A1Q9ADG9|A0A1Q9ADG9_9RHIZ
+MKFSLFVHMERLNADQSHQELYEEFIALCEIADRGGMHAIWTGEHHGMDFTIAPNPFINL
+ADLARRTQNVRLGTGTVIAPFWHPIKLAGEAAMTDIVSGGRLDIGIARGAYGFEYERLHP
+GLDAWGAGQRMRELIPAVKGLWAGDYAHDGEFWKFPATTSAPKPVQAPHPPIWVAARDPN
+SHEFAVANGCNVQVTPLWNGDGEIESLMGRFNAACEKAPEIERPKIMLLLHTYVGSDADD
+VEQAAREVSVYYNYFFAWFKNERPIHQGLIARLSEEEIAANANLSPAVMKANMPIGTSQE
+VIARLKAYEALGYDEYSFWIDTGMTFERKKASLERFIAEVMPAFR
+>tr|A0A1Q9AN29|A0A1Q9AN29_9RHIZ
+MSISDLRRRLAALCRKAAASLDPSVPEPEIFRLQLILGQHHSAIRKLERRCRDTEAHLQS
+IHDALSPPR
+>tr|A0A1Q9AJJ5|A0A1Q9AJJ5_9RHIZ
+MTTQLQDILPAYEAVALIANSESVVIDEIVAALPEQTLYVFFTGCAKVLKGPFPRDAILC
+HRLVAGGTRFLKSQKHFDRAYAFFPDGLKAEVGMIADRGLAAGEPPPAAARESTLTPQTI
+DFDHSFGRFYPEGRMPTTGFALALWLIEAMPQARIHLCGFTGVAGLQFNMYAEHDWTFEQ
+TVLSLFEQSGRLTRLAQGGGLSTDAFARIHARFPEFGEARVALTAAQALANRFTGMERQM
+AKLWAMTKMRRQIRAFFKRLFK
+>tr|A0A1Q9AQA7|A0A1Q9AQA7_9RHIZ
+MHEHPRGVAIERDGHKTWLKWHRGRRQAGDLSFTRHRLIEGLRLGASLEIDLLRYDAPGF
+VVLHDEMLDAATTGQGRVLSASAETLRGLRLRQDNGQPTDHPVLLIEDLARLIQETRAEA
+GETGAVIQLDMKEGSEAIRDEDLAAFAAAIGPVARSVILSGGDAQAVQRLSQAVPDMPVG
+YDPCHFGAAEALRESRDFQGFVDRAAEASPHATMIYLEYPLVLFAAEAGFDMVAAFHQLD
+RQVDAYTVQLASPEMVADVECLLALKVDQITTDDPTGLDLALARKD
+>tr|A0A1Q9AKT7|A0A1Q9AKT7_9RHIZ
+MFDLTGRKALVTGATGGLGEEIARAYHQLGATVGLHGTRQEKLEALAAELGERVHIFPAD
+LSNRDAVKALGEKAESELGGVDILVNNAGITKDGLFVRMSDADWDAVLEVNLTAVFRLTR
+ELTHPMMRRRHGRIINITSVVGVTGNPGQANYCASKAGMIGFSKSLAQEIATRNVTVNCI
+APGFIESAMTGKLNDKQKEAILGAIPMKRMGKGGDIAAAAVYLASDEAGYVTGQTLHVNG
+GMAMI
+>tr|A0A1Q9AM86|A0A1Q9AM86_9RHIZ
+MLEHWIVDYGALAIFLGAALEGETAAFLGGVLAHRHLLPYWQVAVAACLGSFLADQAFFF
+AGRYAANWRIVQRALQSRALQRVTRLLEAHPTGFVLSFRFIYGMRTISPLVIGTTRIPAL
+RFLLLNAIAALVWGILITAIGFLFSETVHALFGRMRLHAHLLVAIGALALLIPALWLVAR
+HWRRPDPAS
+>tr|A0A1Q9AQN5|A0A1Q9AQN5_9RHIZ
+MIKRIAKDQVCRGMFVEALEGAWQDNPFSARRFLLEDDNAVAALKSSQITGVFINPSLGL
+DVGGRTPLRARAAHPSVNEARHASARVISETTQQLEALFTDVRFGAAIDLDDVAHLADNL
+GQSIERSPVILIDMTRLKSKDKATYLHSLAVSALLIHFSRAMGFDSETVRIMGIAGLLHD
+IGKLLIPRQVLQKPGALTQEERQVIMQHPVYGYDLLKQSNMPQIVLDICRHHHERMDGRG
+YPDHVMAAELGQHVRMSAIVDVYEAITSLRPYRTPWSSQRALTWMAEQSGHFDRQLLMRF
+ILSLDPALTHGVALS
+>tr|A0A1Q9ACE6|A0A1Q9ACE6_9RHIZ
+MSGLFSGKSSYRTGSGLFNQPLDDQLSDIRDDIAALTKLLAKRGDKASHLVRDRAHDARS
+SAEAGLGDLMEGAEEMLSDLRRRYASTERQVRHTVREHPLATIGILAAAGLLAASLLRK
+>tr|A0A1Q9AEZ8|A0A1Q9AEZ8_9RHIZ
+MSQFPPRVFSGVQPTGNLHLGNYLGAIRKFVALQDNNDCMYCVVDMHAITAQLVQGDLIG
+QTRSIAAAFIASGIDAKKHIVFNQSTVPEHAELAWIFNCVARIGWMNRMTQFKDKAGKDR
+EQASLGLYAYPSLMAADILVYRGTHVPVGDDQKQHLELARDIAMKFNLDFAEKIRASGYG
+IDITVGDEPVHALFPMVEPLIDGPAPRVMSLRDGTKKMSKSDPSDLSRVNLMDDAETISK
+KIRKAKTDPDGLPSEIDGLAGRPEADNLVGIFAALSDRTKADVLAEFGGQQFSVFKPALV
+DLAVTVLAPITAEMRRLMDDTSHIDAILKDGGERARARAAETMAMVREVVGFLR
+>tr|A0A1Q9AP44|A0A1Q9AP44_9RHIZ
+MNHSDHVQAVAHHASAAASSPVAASWRRCLTLYGLSPEESRAPERLGESEFLAARERSQP
+LLEEASSELDRLFSTVGRSGCCLLLTDERGVALDRRGAAGDDKDFRGVGLWSGTVWSEAS
+VGTNGIGTALADERPVLIERDQHFLSRNTRLSCATAPIRDHRGRVAAAIDISTCRDDAND
+LALMVLHHAVREAAQRIETNLFRRAFPQARILLVPADKAAPALLAIDRDDLVLGATRAAR
+LRLGLDDERIAAGVPAGDLLGEGSQIRGEPLLEAERAALRRELSRSGGNVSQAADNLGIS
+RATLYRKMKRLQVN
+>tr|A0A1Q9AFC5|A0A1Q9AFC5_9RHIZ
+MQEIVFAARDAQPSADGRSWQFRIRDDEGALFVLNVPRQAEDGSEEFRLFYEPAQAHHGF
+ATWPQQQASAQSPPSAAPLDQRHLDAFVAMALMAQENTAQYASAENDTSDPSAQSIALVT
+TAELPRLGALLPLPQNDNILDDGSVDAESLDEAAAGVDALILAMLEAEWLRLHALPIR
+>tr|A0A1Q9AIV9|A0A1Q9AIV9_9RHIZ
+MTTEINPVALSVFIFFFVLVTVMGFVAARWRRPETLAHIDEWGLGGRSFGTWITWFLIGG
+DFYTAYTVIAVPALVYVVGAYGFFALPYTIVVYPLVFLVMPVLWKKARDHGYVTAGDVVH
+GQYGSRGLELAVAATGVIATMPYIALQLVGMTAALKALGLTGEIPLSIAFIILALYTYSA
+GLRAPALIAFVKDIMIYIVVIAAVALIPSKLGGYANVFAAADAAFQAKGSGNVLLGGHQY
+VAYASLALGSALAAFMYPHTLTGIFASSGARTIRKNAVLLPAYTLLLGLLALLGYMGHAA
+GLKLSSPNDVVPALFQTLFPSWFAGFAFAAIAIGALVPAAVMSIGAANLFTRNFWKAYVN
+PAINDAGEAQVAKVTSMLVKIGALLVIIFLPTQFALDLQLLGGIWILQTLPALIFGLYTN
+WFRAPALLTGWAIGFFGGTYLVWDAGWKPLHMISLGGEPFTVYTGLLALAANVAAACLVN
+VALRAAKPAMA
+>tr|A0A1Q9AIP7|A0A1Q9AIP7_9RHIZ
+MSASSLSRYLKDFSAPAIDIQVGASSSYFSDLDMPDVSLLPSPAQPKIDIDAERLQARRD
+GRAEAEEELSERHAAEIAALEARHQEALEALRATLEAEAAQRIAERFKEMSAAIVEHLGG
+EAARALAPVLQDALARKAVADLGRALRRSLAEGEACRIVVTGPAKLYAALKAELGDTAEA
+SFRHVEADDIDLSVDMGGPILVTRMSAFAKAVEKVLA
+>tr|A0A1Q9AJR4|A0A1Q9AJR4_9RHIZ
+MPPAAETPASSPASGIVQGLAIMLVAMIILPCMDAIAKYLAVYLGMSPGQVTFYRFFFQL
+VSTLPMLLRLGGLKALKPKRLWSNLLRGVLLALASLLFFVSVKYMPLADVFAIYFVEPFI
+LTCLSAIVLSERVGPMRWLAIAVGFLGAMIVIQPSFAAFGFTALMPVGCAFLFACYLLMN
+RMAGSHDSPLVMQTIAGLGGTVIMVLALGIGHGLGHADFAPSLPATPLAWALCILLGTIS
+GYGHLLVVRAFRAAPASILAPFHYFEIVSATALGFLVFGDFPSLSKWLGIAIIVASGLFI
+IWRERRLERQAGAQPA
+>tr|A0A1Q9AJZ3|A0A1Q9AJZ3_9RHIZ
+MTRYAGPVIDPHHHLWDISLKRHPWLERARANENEMVFGSMSALLRSYGVADYAADAARQ
+NIVASVHVEAGWSDAHPHEESAWLDSLDLTGGIARRAIARVPLDDPRAEEKLATEAANPR
+VVGIRDIVSWHPEPAKSFAPRAGRMADARWRAGLSHLTKLDLVFDLMLYPWQMDEARDLV
+RAFPETLFVLNHAGSPADRTQEGMALWRRGLEALGAEPNIRLKISDLVAYDHAWSFDSLA
+PVISHCLDCFGPERCMFASDFPVAGLHASFDALYEVFRRAAAPLSHDEQRSLFFTTANDT
+YRLGLSDHAAAAGKDHV
+>tr|A0A1Q9ACN0|A0A1Q9ACN0_9RHIZ
+MRSLNLGILAHVDAGKTSLTERLLFDAGVIDRLGSVDKGSTQTDTLALERQRGITIKAAV
+VSFKIGDRIVNLIDTPGHPDFIAEVDRVLGLLDAAIVVVSAVEGVQAQTRVLVRALQRLR
+VPFVFFINKIDRRGADVPAVIAALRSALPVRPIGVSRVIEAGTKNARAEPLDLRDPALFD
+TACEAMADHDPDLLADYLTAPQTLTAQRLQDALREQVGQGLLHPSFAGAAMTGVGVPALM
+SAIATILPAPLRDPAAAVEGTIFKIERGWGGEKLAYVALTSGTIALRQTLSLPRGPERVT
+VIQVFDNGQTRPASCLQAGQIGRISGLSHARIGDSVGDMRDSAVKTAFPPPTLEAKIVVA
+RAGDHGALWVALSQLAEQDPFIALRKTADTGEIYLSLYGEVQKDVIRDTLLADFDLSVAF
+EESTIVHVERLLGIGTGLELIFRPPNPFLATVGLRVEPRKEGAGNSFALEVDVGQMPASF
+YRAVEETALEALEDGLFGWPIVDCHIAMTDAKHTSPSSTAGDFRQLTLWVLAKAVQEAGT
+VVCEPVEQFRLEAPSNAFHTLLTVLGKAGAAVTHSAVEGETLLLEGTIASARVQGVLREL
+AGLTAGQGLMETTFSHHAPVSGPPPSRARAGSAPFLSHRTSLPIP
+>tr|A0A1Q9AFQ7|A0A1Q9AFQ7_9RHIZ
+MTLLLLADHDKGALSDQTARALTAATEIGGEIHVLVAGPEARAAAESAAKLAGVSKVLLA
+EDASLTGNLAEPLSALILSIAGSYDAIVSAASSVGKSVMPRVAALLDVAQISEITEVVSS
+DTFKRPIYAGNAIQTVKSGEAKKVITVRTAGFAPAAEGGSAAIEPVAAAPDPGLSRFVSD
+ALSTSDRPELTSAKIIVSGGRALGSSEKFKEVILPLADKLGAAVGASRAAVDAGYAPNDW
+QVGQTGKVVAPDLYIACGISGAIQHLAGMKDSKVIVAINKDEEAPIFQVADYGLVGDLFE
+LLPELEKAL
+>tr|A0A1Q9AI87|A0A1Q9AI87_9RHIZ
+MTDRPRAWQTKTAARLTLSGVSGQGRFSGYASLFNEVDLGQDMIEPGAFSRSLARRGAEG
+VRMLFQHDPAEPIGSWVTLREDQRGLFVEGQLATGVARAREVHALLTNGALDGLSIGFQT
+LRARTDAKTGVRRILEADLWEISIVTFPMLPSARVSNVKDARWFRDKETELVRGLRRVAR
+MMKTRP
+>tr|A0A1Q9AJR2|A0A1Q9AJR2_9RHIZ
+MISKVLIANRGEIALRVLRACKELGIATVAVHSTADADAMHVRLADESVCIGPPPSRESY
+LNIHQIVAACEITGADAVHPGYGFLSENAKFADILDAHGITFIGPTAEHIRIMGDKITAK
+QTAMELGIPVVPGSDGEVKPETALDTAREIGFPVLIKATAGGGGRGMKVAQTEDDLEEAF
+NTARSEAAAAFGNDAVYMEKYLGKPRHIEIQVFGDGMGNAIHLGERDCSLQRRHQKVWEE
+ANSPALTVEQRMEIGKVCAEAMKKLKYRGAGTIEFLYENGEFYFIEMNTRLQVEHPVTEA
+ITGIDLVHEQIRVASGNGLSVTQDEVVFQGHAIECRINAEDPRTFVPSPGTITHFHAPGG
+LGVRVDSGAYAGYRIPPYYDSLIGKLIVHGRTRSECMMRLRRVLDEFVIDGIKTTLPLFQ
+DLINNDDIAKGDYDIHWLEHYLAQPAAE
+>tr|A0A1Q9AKX0|A0A1Q9AKX0_9RHIZ
+MTASQPHLASSAILIRGDRYLLVRRSKPPSAAMYAFPGGRAEPGETPADTALREFHEETG
+ILARNARLFATYDLPPLSADGPGMRHFFLSVFLVEAEDDAQAIAGDDAESLGWFTAREID
+DLPAPDSVRDCIARLEAARA
+>tr|A0A1Q9AN83|A0A1Q9AN83_9RHIZ
+MSFRAIELAGEAGEALNVVKKLERERQGWAGSRATLEQLAEELADVVICADLLALAAGID
+LAVAVPRKFNATSEKVGLATRIESGRDALRAAYKQLEQQMMEAGFAVTSSEPLAYISLQT
+LVRLVADKSGQYQMTVPRDQPGPTEIALFTWPTPFPEADPPQLQNVTAEGGCDQQPGGAA
+EAVTASGAAALESRNA
+>tr|A0A1Q9AE76|A0A1Q9AE76_9RHIZ
+MDAPALFAAAVPGKAKAATSARQISGGALVFGRPISREKPMATLSICIPVEGEAPDLGHL
+VAKLLKDPAADVEVIALFSSAAAAPSEDLAALAADDKRLVLETLDTAPAARALWRQTASR
+ATGRWVTLVRPSDTLDPELAIMVHYLERRSPEIDALGWNSFQIDPLAVPGVSGPVAVPAH
+YHINMFDKTAMLKAFFYWSGSLNAPRMPFGLYHGALRRSLLDTLLSLPVNDGWSSPVPQY
+EWSGRVLLFSDAMAFCDRPMSAINMPAYKAPASHKPTHNFPFHAGLGLTGAVAEAQFHVL
+GELGNEWTANEDFLRACMIDCMMETDRRAFVAKGNGYFAAFQGFDPRLASGFRPEFNENP
+TSDRRRGLQGDVLMVDRFLGGAQTAQEFYDAAKALLVPVALLCDEAQLH
+>tr|A0A1Q9AQ96|A0A1Q9AQ96_9RHIZ
+MLKSIITGAVMLVATTAPTLAADIHVYGPGGPLPAMKEAAAAFEKSSGNTVIVTAGPTPQ
+WIGKAKDNADLIFSGSETMMSDFVKAMDGQIKDADVVPLYVRPSAILVRPGNPEKITGLA
+DLFKPGHKVLVVNGAGQNGLWEDMAGRTGDIEKVKALRANIKTFAANSAEAKKAWTEDKS
+FDAWIIWNIWQVANPKLADVVEVEPDYRIYRDTGIVLTERGGKNADAKAFSQFLQGPEAK
+AIFAKAGWTTPSK
+>tr|A0A1Q9AEB2|A0A1Q9AEB2_9RHIZ
+MRSKLSYAQLRAFNAVAKEGSFSSAARRLGLSQPAITAQVKALEQSYGVLLFERRGDGAR
+MTPLAKSLFQETQELHVIEAVAADILGASSALKTGELNIMCGAPNPAMALISEFRRRYPG
+VRVTANFGNWHRVTTALYEQQCDAIILTGVPDDDSLTRIPYMEQRAVALVPAGHPLAKRG
+KPLSLHELADQPLIFRNDQSLTQSALNMAIRKSGVNLEPALSLGEREAVYEAVHQGLGIG
+FMFELAVSRAESNVVRLPIMELNDVYVEHVACLTRNMRRREVRALMALVE
+>tr|A0A1Q9AKG3|A0A1Q9AKG3_9RHIZ
+MQILKLDPRALKDNPDDTRRSKSSPQSDALLLATIKAVGIIQPPVASPETGGGNGYVIQA
+GHRRVRQAIAAGFDEIEVIVVEAANDNGAMRSMIENIAREPLNPVDQWRGIERLVALGWT
+EEAIGVALTLPVRQIRKLRLLANVLPAMLDQMALGDMPREQELRTIASASLDEQREVWKA
+RKPKKGQTASWWEIAKALSKERMFAKDASFGDDLAAAYGIEWVEDLFAPADEDGRYTTNI
+EGFLGAQQEWMTSNLPKNGKIVEVNNWGQPELPKKAERVYGKPSKSDHVAIYVDRAGKVQ
+SVAFRMPEERKASRNGVSGAVGDGSAHDGRIVDPPKSRPDVTQKGHDIIGDFRTDALHEA
+LGRAPVEDDMLMALLVLAFAGLNVRVDSGANDTAFEQKRFKRHAARLIGDDGKIAYDMET
+LRVAARSMLISVLSCRRGMSNSGVVSRIAGNAIGADSFLPNMGTEDFLNCLSRQALEAAA
+KEAKVLPRQKVRETRSALIDHFRDGHFVHPAALFAPTPDDVAELVKHAELQDREDEDATA
+DGERTDVIGDAEAGAGETDCEADDLHEIPKQDRDEHGAPEQQHAYGIAAE
+>tr|A0A1Q9ALX1|A0A1Q9ALX1_9RHIZ
+MARKQTRPELVTNEAKPKRTNRINFFELAYERIEERLINCELKPGRQLTLQELQDATGLG
+RTPVHNAVSRLAADTLLVVLPRHGLRVAPIDLARERLLLQLRRDMERFVVRLAIERASLS
+HRNQMLHIERALRERRDKITLAEFNLMDRRIDQLLLSAANEPFLEHTLRPLHTIYRRIGF
+IHHTISREKTDLSKTVNCHLSVLNAVANRHIETALAATEELIGFVDSMFDEMETGIDPRL
+LDCSIEPIFKV
+>tr|A0A1Q9ALY3|A0A1Q9ALY3_9RHIZ
+MKRAQLARERLDGHPWTPYLFAAPVGIYLLLFQFYPLIQQFYMSFTATDLLTPTVNPFVG
+MENYSFLIEDGELWKVLSVTAIYTVACVVFAIGVGLGSALLLDSPFIGRSLARALITIPW
+AAPSVAVALIFTWIFNSQYGIFNRALTELGLQLGGENWLDNASLALPAILLTTVWQIFPF
+SSVVILAALQGVPQELKEAAVIDGADRLNIFKTATWPTIQPTVLMLTLFVTIWSLRRFDL
+IWLMTQGGPIGATNTMVIELYRQGFVYRDLGTAASIGMIGLSIALLVTVIYFKVTQMTEQ
+AQGKR
+>tr|A0A1Q9APC1|A0A1Q9APC1_9RHIZ
+MIVKTHPVKQGMPDAARKYRPYPQVDLKDRTWPSKIIDKAPIWCSVDLRDGNQSLVDPMG
+HDRKARMFQLLLDMGFKEIEIGFPSASQTDFDFARWCVEEGHVGKDVSLQVLVQCRPELI
+TRTFEALEGAHQPIVHFYNSTSELQRRVVFGKDVAGIKQIATDAAKMIADMAAKAGGGYR
+FEYSPESFTGTELEVALEICNAVVEIIKPTADNKLILNLPSTVEMSTPNIYADQIEWMCR
+NIDNRENVLISLHPHNDRGTGIAAAELGLMAGADRIEGTLFGNGERTGNVDVVALALNLY
+TQGVDPGLDCSDIVRMREVYEYSNQMVIPERHPYVGELVYTAFSGSHQDAINKGMKAIKT
+ANHTLWEVPYLPIDPQDVGRSYEAIIRINSQSGKGGIAYILQEDYGINLPRNLQVEFRED
+IQRITDEGGKELPSKAIHARFLERYVEQPGARMKFIEHHTYPAGTDHRGVRVVAAEIEDR
+GEVKRIEGKGNGPIDGFVNALSIYLGIPMSVADYSEHSLQHGSNAAAIAYVELEHPGGKL
+FGVGINTNIVAASLEAIVSAANRVVGV
+>tr|A0A1Q9AK29|A0A1Q9AK29_9RHIZ
+MPLETLLLFVPACFALNMAFGPNNLLSITLGARHGLRTPLLAATGRLVAFTLMIAIAALG
+MGAVLTASELAFTVVKIAGAAYLVWLGIKILRAPATVAVDQPEPAGRGLASFMRQEFLVA
+IGNPKAILIFTAFFPQFVVAGHYWSSFALLGAIFLALELVAIALYAYAGTRLSGVMRHAR
+GLRWINRISGATMIAFGGLLMAARRPAM
+>tr|A0A1Q9AQ37|A0A1Q9AQ37_9RHIZ
+MSALVAVALLATACSTPKKELTTGSISSPAASPRAVQTMTEPELRAAASSVGAAYEKNPG
+DKTNGLNYANLLRMTGKNEQSLAVMQQLAIRFPTDREVLAAYGKAQAAAGQLEQALATIG
+RAQTPDRPDWRLKSAEGAILDQLGRSAEARQAYRNALDIKPNDPSVLSNLGMSYLLTKDL
+KTAETYLRSAAAQPGADSGVRQNLALAVGLQGRFDEAERIASAELSPAQAQDNVRYLRAM
+LAQQNSWKQLASQDTRSPTAQKVN
+>tr|A0A1Q9AL70|A0A1Q9AL70_9RHIZ
+MSVKLPNDTIGMLLTDVSRLLRGAFDRTILAAGLGLTPGEARALVQVAASEGIKQAEIAQ
+RMGIEPMTLSTYLDRLEGLGLVSRVADPTDRRAKHVVLTDQADGIVLSIQASLRTMMDNV
+TDGLDEEARAALRLSLLTLRDNLQAVDGCPPTRTPSREDRT
+>tr|A0A1Q9AKM4|A0A1Q9AKM4_9RHIZ
+MAKLKVDGKEIEVPDHFTLLQACEEAGAEVPRFCFHERLSVAGNCRMCLIEVKGGPPKPA
+ASCAMGVRDLRPGPNGEAPEVFTTTPMVKKAREGVMEFLLINHPLDCPICDQGGECDLQD
+QAMAFGVDSTRYNENKRAVEDKYIGPLVKTVMNRCIHCTRCVRFTTEVAGIAELGLIGRG
+EDAEITTYLEQAMTSELQGNVVDLCPVGALTSKPYAFHARPWELGKTESIDVMDALGSAI
+RVDTRGREVMRVMPRVNEEINEEWISDKTRFIWDGLKTQRLDRPYVKKDGRLQPATWGEA
+FGAIKTAVAATQGGKIGAIAGDLASVEEIYALKLLVNALGSSDVDCRQDGAALDPSLGRA
+SYLFNPTIQGIEQADAALIIGANPRFEAAVLNARLRKRFRQGNFPIGLIGEAAELRYEYA
+YLGAGTDTLADLVAGNGSFLDVLKNAKRPMIIVGQGALAGEGGFAVLAQAAKLAAAVGAV
+SAEWNGFAVLHTAAARVGALDLGFVPGDARRTAADIAASAQVLFLLGADEVDLSNKAGFT
+VYIGSHGDNGAHGADVILPGAAYTEKSGTWVNTEGRVQMGNRAGFAPGDAREDWAILRAL
+SDVLGKRLPFDSLAELRRKLYADHPHFAEVDAIAPGAPGEIDALAQKAGAMAKSVFASPV
+KDFYLTNPIARASAVMAECSALARNNFKAAAE
+>tr|A0A1Q9AH37|A0A1Q9AH37_9RHIZ
+MAQADRRWTQEDARSHLDDLLQKARDEGPQYVDLEDSDGVVVISRQRYAALTGWHGDLPL
+VDFLESLDLDGIDLSRNEDRGRDVSLP
+>tr|A0A1Q9APZ8|A0A1Q9APZ8_9RHIZ
+MKKGDHLFLVDGSGFIFRAFHAIPPLTRKSDGLPVNAVSGFCNMLWKLLTDARDTSVGVT
+PTHFAVIFDYSSKTFRNALYDQYKANRTAPPEDLVPQFGLIRHATRAFNLPCIEMEGFEA
+DDLIATYARLAEEAGGDVTIVSSDKDLMQLVTSCVSMYDSMKDKQIGIAEVVEKWGVPPE
+KMVDLQALTGDSTDNVPGIPGIGPKTAAQLLADYGDLDTLLARAGEIKQAKRRENIVANA
+DLARLSRELVRLKTDVPVPMALEELHLEPQDGPKLIAFLKAMEFTTLTRRVAAATESDAE
+AVEAASVPVEWGAAAHGPDLDKGTVTASGDLAAGELAEGASGDSAADAAAVFAGKPPAPA
+ETALTPESLADERANAFGAAKIDRAAYRTLTDIGALEAFVAAARESGVVAFDTETNSLDA
+MRADLVGFSLAYADLAADPSGLAIRAAYVPLSHKQGHGDLLGGGLVEGQIPAAQAIAALK
+GLLEDRTVLKVAQNLKYDYLVMKREGVTIHPFDDTMLMSYVADAGTGTHGMDVLSERWLN
+HQPIAYKDVAGSGKSMVTFDHVPIDRATAYAAEDADVTLRLWFVLKARLAAKRLNTVYER
+LERPLVPVLANMEARGISIDRQILSRLSGELAQKAAAIEHEIYALAGESFNIGSPKQLGD
+ILFGRMGLPGASKTRTGQWSTSAQVLEDLAAAGHELPRKIVDWRQLTKLKSTYTDALPGF
+VHPQTHRVHTSFALAATTTGRLSSSEPNLQNIPIRTAEGRKIRTAFVATQGHKLISADYS
+QIELRVLAHVAEIPQLRQAFADGIDIHAMTASEMFGVPVEGMPGEIRRRAKAINFGIIYG
+ISAFGLANQLSIERSEAGDYIKRYFERFPGIRDYMEATKAFAREHGYVETIFGRRAHYPE
+IRSSNPSMRAFNERAAINAPIQGSAADIIRRAMVRMEPALAEAGFDQRVRMLLQVHDELI
+FEVEDEDVARAIPLITGIMEEAALPALELRVPLKVDARAAQNWDEAH
+>tr|A0A1Q9AMN2|A0A1Q9AMN2_9RHIZ
+MSLNSSQLDRRITIQRATTAVDGFNEAIEAWSDIATIWAKRRDVSDSAKIEFLAAGQIGS
+FAAARFTVRSSTLTRTITPVDRMIHDGRVWAINGVKEADEGRRRFIEITASRDAD
+>tr|A0A1Q9AQM8|A0A1Q9AQM8_9RHIZ
+MESGHVTTPFGRRSMTLGMLASQALAETIAPGKAIDKWKLYRALCEARPCLGISDRALAV
+LNALLSFYPKNDLAEGVGLVVFPSNIQLSLRAHGMAEQTIRRHLAALVDAGLLVRKDSPN
+GKRYARKGQAGEVEHAFGFSLAPLLARAEEIEGLAAQVVADRQLLHRLRERLTICRRDIS
+KLVETALEERAEGDWLAIAQHQQSLVTGLPRNATAVQVEAVLDEMELLREEAVNRLEMLS
+EKRKLSGSPAQTERHIQNSNPDSSLESEPLLETEQGERPAPANGPWNGQQRKPGRDEKTD
+GVGLKAFPLGLVLRACPQIEDYGPGGGVGSWRDLMSAAVVVRSMLGVSPSAYEEACAVMG
+PENAATVVACILERGGHINSPGGYLRDLTRRAGRGEFALGRVLMALLRANGGAAGAARVA
+G
+>tr|A0A1Q9AKV0|A0A1Q9AKV0_9RHIZ
+MRRVVITGTGMVSPLGCGTEVSWSRLLAGGNAARKVTEFEVEDLPAKIACRIPFGDGSDG
+SFNADDWMEPKEQRKVDPFILYGVAAADMALADAGWHPKTDEDQIATGVLIGSGIGGLEG
+IVDAGYTLRDKGPRRISPFFIPGRLINLVSGHVSIRNKLRGPNHSVVTACSTGAHAIGDA
+ARLIMLGDADVMVAGGAESPICRISLAGFAACKALSTQHNDDPQKASRPYDRDRDGFVMG
+EGSGIVVLEELEHAKARGAKIYAEVVGYGLSGDAFHITAPSEDGDGAYRCMAMALKRAGL
+APSDIDYINAHGTSTMADTIELGAVERLVGDAASKISMSSTKSAIGHLLGAAGAVEAIFS
+VLAIRDNVAPPTLNLDNPDVETAIDLIPHQARKREVNVALSNSFGFGGTNASLVLRRYEG
+>tr|A0A1Q9AIG3|A0A1Q9AIG3_9RHIZ
+MEAPTPGAVAEQLDRANATPISIEETTGTQARSWRDRLTIEPSAEDITGFTVDLAMLLKG
+GITLNEALAILTEMETRRWLVTLIARLHADLSAGTSFSKALARHPRLFPPVYVKMIEVAE
+VSGRLEQALSGIARERQRSEGLRKRLIGALAYPAFLAVAALGVLAFVLLYIIPQFESAIA
+GFRDRIAPSALFVFELSEWFRGHVDLVLATIAVLLLTFLLVKRLGRHTSLLIEICALLPF
+TARIVTDHMTLTFCRTLEILLVNGVDISSALRLIRGVYGHPGVAARIDGVIAEVRGGKRL
+SQALAAQTLLPGHVVQMLRVGEESGQLAESAGRIAGFYETKLDAALTRLTAVAGPVLMMG
+ISMLIGWMILSIMSALMSINDLLVQ
+>tr|A0A1Q9AK71|A0A1Q9AK71_9RHIZ
+MPQGKPLLVALLALILILAAITAGVSLGAASIPLKTVWGVVADRLVPGSVIKDWSAGRES
+IVWDVRFPRVVLAALVGAGLAVVGAVLQVTTRNPLADPHLLGVSSGGACGAIFALLHTGM
+VFGLITVPLFAFLGALAATLAVIGVTRFSGSSAERLILSGVAVAFVATALSNLLIYLGDP
+RAVQSVVFWMLGGLGLAQWPHLLYPALVLAGSLAWLALRAREINGLAMGDETAATLGLPV
+ARLRAQLFTVTALLTGVMVAFSGAIGFIGLMVPHVVRLFAGSDHGRVIPLSAAVGAIALV
+LADLAARTIMAPEDMPVGVITGFAGGLGFILLISRRPAA
+>tr|A0A1Q9ADS0|A0A1Q9ADS0_9RHIZ
+MNMPIRKTFAVLLASAGLAAMVSAAPAWAVTPADTLVEGFAFDDIISVDPGEAFELSTAE
+ITGNTYNMLVRINPENTAEVVNELAESWSVSDDKLTYTFKLKPGLKFASGNPITAEDVAF
+SMERAVKLDKSPAFLLTQFGLTGDNVTEKAKAVDPLTFTLTVDKPYAPSFVLNVLTATVA
+SVVDKKLVMSKAQPVTPSEKYKYDTDFGNGFLKTGYAGSGPYKIMAWKANEAVVLEANPN
+YFGEKPKLKRVIYRYMKESSSQRLALEAGDIDVARNLEPGDMEAVSKKPGMVITSAPKGT
+VYFISFNQKNKDLAKPEVREALKYLIDYDAIGATLIKGVGTIHQTFLPAGQLGAIDDKPY
+KLDVAKAKELLAKAGLKDGFSVTFDVRNIQPVTGIAESFQQTAAQAGIKVEIIPGDGKQT
+LTKFRSRKHDLYIGQWGSDYFDPNSNAETFTSNTDNSDDSKNKTLAWRNAWDVPALTKET
+QSALLEPDAAKRAAIYQDLQKKVLADGPFAIIYQQVEIAGHSEKLKNFKLGPSFDTNFVY
+TISKD
+>tr|A0A1Q9AQ30|A0A1Q9AQ30_9RHIZ
+MDIIEIEERFAAGDSLSGQIDTLFSAMQAFGFDTLIYDYTPVRYDLDGRLMMPTVLELRN
+IDETMRDYWFGRGYFRHDPVQHVALGTTAPFFWNYDPKAETRIRAFMNEDTACVADFLAE
+RGLTAGVTVPVHLPGGDYATVTGIRAGDPARLEREARLCLGEFSLMAHLFQRAVGAQVAR
+QATGLARLTARERECLRHSADGLSAKEISRLIDRSVPTVVMHLNAATRKLGAKNRTQAVA
+RAAHFRLLDPPHAS
+>tr|A0A1Q9AF37|A0A1Q9AF37_9RHIZ
+MKIKNSLKSLKTRHRENRLVRRKGRIYIINKLNPRFKARQG
+>tr|A0A1Q9AFQ5|A0A1Q9AFQ5_9RHIZ
+MMLKTALASATVLAACLFGSAHAADMTVGFSQIGSESGWRAAETTLTKQQAEKRGIDLKF
+ADAQQKQENQIKAVRSFIAQGVDAILIAPVVATGWDEVLTEAKDAKIPVILLDRTVDAPK
+DLYMTAVTSDLVHEGNVAGKWLVDTVAGKPCNVVELQGTTGSSPAIDRKKGFEQALKGHD
+NLKIVRSQTGDFTRTKGKEVMESFLKAEGGGKNICALYAHNDDMAVGAIQAIKEAGLKPG
+KDILVVSIDAVPDIFQAMAAGEANATVELTPNMAGPAFDALAAYKKDGTMPPKWIQTESK
+LYTQKDDPKAVYEQKKGLGY
+>tr|A0A1Q9AI31|A0A1Q9AI31_9RHIZ
+MITRASSELPGRFKRLRVVLVTITAALAVSAVLCSLLAVQYQERIMTASRYNDAFDLSQT
+AVELLRLQSAVQDFVISGDGKAIALRLDIFRSRVTTIEAREDLKDAERVAFLDGLRGLLA
+EIGDEFARDPRPEAALTILRLMSPLVPPSVRMAARAHSTGGDVVQDNQTHLKYIFASLCS
+VIVALVLFGAVLVTFVLNQNRLLDHFARLDGLTGLLNRLGFNEKVSQVKDEMIAVILVDV
+DHFKELNDTMGHEAGDMVLAELAVRLKASAPDATAIARLGGDEFALLYAGADAQARSCAT
+AERILASLKESMVVDGRDVMIGATLGLCMGNDALTRAVMLNNADIALYRAKADGRGHFRV
+FTPSMRDELLRRKKLMNALRLAIVHDELFLLFQPIVDTTTGKTRGFEALLRWRHPELGTI
+PPSEFIDLAELSGQIVAIGAWVIDQACREAASWPSDLFISFNVSARQLTDNALIACVAKA
+AATHGIACERMVVEITESTLIDNDAAALSVLHELQAMGCSIALDDFGTGYASLSYLQRFP
+FDKLKIDQSFLRKLDGENCDDAKIVRAIGELGRQMALTIVSEGVETPEQLALVRSARCAL
+AQGYLFDRPLSPKAARDRLRQEGATVLGIAFERPTTATGPGSRA
+>tr|A0A1Q9AJJ9|A0A1Q9AJJ9_9RHIZ
+MERDLIDVTLLPAAGSPPVRWRVAQGLVDYEAAVAFMEAEVEKIARGEADELAWLVEHPP
+LYTAGTSADAADLVMPGRFPVHKTGRGGEYTYHGPGQRVVYVMIDLKRRRQDVRAFVAAL
+ERTVIGALDAMNIRGERREDRVGVWVRRPEKPPLPDGSPAEDKIAAIGIRLRKWVSFHGL
+SLNVEPDLDHFGGIVPCGIRGYGVTSLVDLGLPVTMEDADLQLRAAFEAVFGPTVDDPA
+>tr|A0A1Q9APZ2|A0A1Q9APZ2_9RHIZ
+MAGFDPTILILCLCIAVAVGGVAYALFFQQIETQKKAQSRLRKVQATETDRVKVRQARDR
+MSEMSKRRKSVQDSLKDLERKQQEKTASKATVKMRLLQAGLTITPMQFHLAGGALGLLAG
+LVMLILTGQPLLALGVILPLGVGLPRWVLGFLIKRRAARFLDELPNALDAMVRAVKSGLP
+LNDAIRLIGTEGREPVRSEFRRVVESQQIGLTIPEACQRMSQTMPLAEVNFFAIVIAIQA
+QAGGNLSEAIGNLSKVLRERRKMKAKVQAMSMEAKASAAIIGSLPFIVSLLVYLTTPSYI
+AILFTDMRGHLILAASLVWMGCGIMMMRAMINFDI
+>tr|A0A1Q9AGQ8|A0A1Q9AGQ8_9RHIZ
+MPQPIALVTRSPAEEEAGWLAALRRAMPGERIETLSALSAAERAEVEIAIVANPDPAALR
+ALPKLVWIQSLWAGVERLVADLTELDRPIVRLVDPQMSHTMAEAVLAWTYYLFRDMPAYA
+RQQRARQWNPLAYKRAEETTVGLVGLGALGTAAAGRLREAGFTVAGWSRTAKALDGVACF
+SGEEGLDALLSRANILVCLVPLTAETRGLIHAGRLARLPEGASLINFARGPVVVTQDLVA
+SLDAGHLDHAVLDVFDQEPLPADSPLWAHPGITILPHISAPTDRVTASRIVAGNIARYRD
+DGTLPQAVDRDRGY
+>tr|A0A1Q9AP76|A0A1Q9AP76_9RHIZ
+MQVLVRDNNVDQALRVLKRRMQREGIFREMKARSFYEKPSERRVREKAEAVRRVRKLARK
+KAQREGLLPAPKKAPR
+>tr|A0A1Q9APC0|A0A1Q9APC0_9RHIZ
+MFDTTPTSLPDFTIGAVNLASARLGATALYATDEFFAPLSRMLADEPAKFLPDVYDDNGK
+WMDGWESRRKRVEGHDWGVIKLAMPGIIHGFDVDTSHFTGNFPPHCAIEALALEAGEPTD
+DSSWEEILPKSPLGPGIGAAAHHFFPVDTGGKVYTHLRLHIFPDGGIARLRVYGTAHFDW
+SKVGAEEEVDLAYIYNGAKSLAWSNAHYGVPDQMLGPGRGINMGDGWETARRRGPGHDWA
+IIRLGHPGLIRRVVVDTAHFKGNFPDTCHLLGAYLPGHGDTFSEEEIAASENWTPILPRQ
+KLSMDHIHDYGADIVADIGPVTHVRYAMFPDGGTSRLRLFGVKA
+>tr|A0A1Q9AJY4|A0A1Q9AJY4_9RHIZ
+MKLATAPDAWGVWYADDPRQTPWERYLDEVRDSGFTATETGPWGYLPTDPARLTDALSSR
+GLSVCGSALVHLLAPADAMDSLRPRLAQTCSLLKAMGAEWVVLMDDSDLPPPGKQRAHSP
+EAWKSMIANVTEAARYVSGEHGLSFVFHPHVGSGVETEAEVIRFLEETPEDLVGLCFDFG
+HHAYTGADAVDFMKRYADRIPYYHFKNVDPTLLEKINREKIDFITGFQLGVMCELDKGMV
+DFRAVVDFLEARDYQGYVVYEQDMYPCPPDKPFPIARRNRDALRALGL
+>tr|A0A1Q9AKQ3|A0A1Q9AKQ3_9RHIZ
+MSIPSLGFTFDPGSVAPDVGAPAADRIVSGDPQFRTWNLEEAEGGLYAGIWEATPGAWRI
+VYEEWEYFHILSGHSRVISEDGTVFELKAGDSMILRPGFKGIWEVIETTRKDYVIRI
+>tr|A0A1Q9AIA2|A0A1Q9AIA2_9RHIZ
+MTVLVAPKALANHAARDFRMLIDGRWESGEGQPIERVAPSHGVVVSRYPAGTAADAERAI
+AAARRAFDDGPWPRMTASERSAALLKAADLIAARAEELAYLDAIEAGKPISQVRGEIAGA
+VDIWRYAAALARDLHGESYNTLGDGTLGVVLREAIGVVSIITPWNFPFLIVGQKLPFALA
+AGCTTVVKPSELTSGSTLLLGEILEEAGLPKGALNIVTGTGPAVGAVLTAHPEVDMVSFT
+GSTGVGRLTMASAAQTLKKVSLELGGKNPQIVFPDADLDAFIDAAVFGAYFNAGECCNAG
+SRLILHKSIAADVVKRVAELSRQVKVGDPLDPATQVGAIITPQHLDKIAAYVSGATGSGA
+TIAQGGQTLDFGMGQFMAPTILEAVTPDMAVAREEVFGPVLSVLTFETTAEAIAIANSID
+YGLSAGVWSRDFDTCLTIGRRVRAGTVWMNTFMDGASELPFGGYKQSGLGRELGRHAVED
+YTETKTLNMHIGARTGWWMPRKEQMA
+>tr|A0A1Q9ADL7|A0A1Q9ADL7_9RHIZ
+MTTQTPETRNPAPAEGSAPRRAIPDRLGTPFARILRRWEVLLFGVAVAIFIANALASPYF
+LNIWNLSDATFNFTEKALIAFAMALLVISGEIDLSVAAIIALASTAMGAAAQAGIGTAGL
+VAIGLGVGLGCGLVNGFLVSVMRLPSIVVTIGTMSLYRGISYIVLGDQAYGGYPESFAFF
+GQGYVLGPISFEFALFAVAAILFSVLLHATNFGRQVFVIGNNDFAARFSGIPVERVKFIL
+FLLTGLMSGIAAICLTSRLGSTRPSIAQGWELEVVTMVVLGGVSILGGAGTIGGVVIAAF
+VMGLVTFGLGLLNVPGIVMSIFIGLLLIVTIALPIIAGRIKAMGKS
+>tr|A0A1Q9AFC6|A0A1Q9AFC6_9RHIZ
+MSDNKDKPKAARRSLRPLAGLGRYVKRYRGMVTGAGIALVTAAVTTLTLPLAVRRMVDHG
+FSAADGRFIDTYFSMLVVLAVVLALASAARYYFVITLGERVVADLRREVFDHVTRLSPSF
+FDVNQSGEIVSRLTADTTQIKSAVGATASVALRNVILCLGAIIMMVYTSPKLSSLVLIAI
+PLIVFPLVGFGRSVRRRSREAQDRLAGAAAYAGEAIGAIRTVQAFTAEEAARARYGAAVE
+DAFGAAKAAITARSALTAFAISMIFGSVVAVLWFGAKSVLDGSLSAGTLGQFLLYSVFAA
+GSLGALSEVWGELAQAAGAAERIHELLDEQPAIAAPPLPLVLPQPASGRVAFDGVHFAYP
+SHPGEKSLRGLDFTVEPGETVALVGPSGAGKSTVFALLLRFYDPTSGRILVDGADLRSVT
+PDALRRRMAIVPQDVTIFAASIHDNIAFGTSGATRAQVMAAAKAAQADEFIQRLPQAYDT
+LAGERGVTLSGGQRQRIAIARALLKDAPILLLDEATSALDAESETLVQRALDGLMENRTT
+IVIAHRLATVLKANRILVMDQGRIVEEGTHTALIRQNGLYARLARLQFDHGQASLERSAA
+SS
+>tr|A0A1Q9AL83|A0A1Q9AL83_9RHIZ
+MAEDFPALVLEEKDGRSAGRLARLTMGDLPDLDVTVEIAFSTLNYKDGLAITGRGKIARR
+MPLIGGVDLAGTVVASRSPAFTPGDRVVVNGFGLSETEHGGYARFQRLKPEWLMRLPDVF
+SFEQAMGIGTAGYTAALAVDALEAWGAGWGRFVPGEREVLVTGAAGGVGSMAVALLARAG
+HRVTAATGRPQTHDYLQSLGATGFIDRAALAEKGPPLQKERWAGGIDSVGSTTLATALAQ
+TARGGAIAACGLAGGADLPATVMPHILRGVGLIGIDSVMAEMPRREAAWARLARDLPADL
+LSRAIRVEPMSALPRLAEEILAGHIRGRVVIDVSR
+>tr|A0A1Q9ACV0|A0A1Q9ACV0_9RHIZ
+MDFYVSLIAILESTIRLSVPLLFAALAGLFTERAGVFDIGLEGKMLGSAFAAGAVAAVTG
+SVWLGLVAGILVSVALSLVHGYASITQRGSQIVSGVAINFVVAGATVILGEAWFRQGGRT
+PALSGGARFQTIDLPFVEALRDVPVIGPIYAQLLSGHFLLTYLAFAMVPLSWWVLYRTRF
+GLRLRAVGENPGAVDTAGISVVWMRYRAVICCGILTGFAGAYLSLAMTAGFVKGMTAGKG
+YIALAALIFAKWRPVNVMFACLLFGFLDALSIRLQGNPLPLIGQVPVQFMQALPYLLTVI
+LLAGFIGKAIPPKAGGVPYVKER
+>tr|A0A1Q9AEU4|A0A1Q9AEU4_9RHIZ
+MNASALSLIGRLRRAARAARAGWRGALDAAAGPGALAAGQKAEDKEGACEPSYPAQDAPM
+SARLVATVAHELRTPLAGILGMGQLLSETPLNAEQRNYLTQMRDSGAALSRLVDDLLDLS
+SLAAGRFELTAVPTEIRVLVEQVVEMLAYRAHAKSIEVASTVDASVPEHLLLDGARLRQI
+LFNLVGNAVKFTWHGGVLVSVSYEDGALAIAVRDSGPGMSDGEQARLFKAFERGEAGRQT
+LDSSGLGLSIAWRIVAAFGGTLDVTSRLGEGSTFLLKLPCRPEGDATSQRDRARLLVPSR
+VLVLAPEGPAREALLATIATLGGLCRSATRQDEAVAAWHALEEGGTVTDIIVDHRVAAVF
+HELLVSFPALGRVETRRTYLVNPEERIVRPLNRRDGYRSWLVRPLRERSLIEVLSGRMQG
+IEVRDAINDNQPVFRAAAPSSVGPSSLGRSPDGQGPATMSPPVANQDRPAGILVAEDDAV
+QGMLLSAMLRRAGHRVHLVTDAPSLLAALLPGDGLPVRPVLVLTDLNMPGGRGVELIRAI
+RARALTPDGRPLPLVVQTADSDAAVLAQLEAEGVSAVLAKPANADALALLLERLLDRPDR
+>tr|A0A1Q9AJP1|A0A1Q9AJP1_9RHIZ
+MPVVTIRDLSEETHRAIEAQAARHGRSAEAEIRAILETAVRHAPPVRLGSLLASIAAEAG
+LSEEDAESFNRLRDKTPAEPLDFG
+>tr|A0A1Q9ALZ3|A0A1Q9ALZ3_9RHIZ
+MEVARPGDRAVSWGWGPKKMSEAYAYALTYKDHVNLGFYRGADLPDPHGRLKGTGKSMRH
+LSIRHPDEVSDPAVRDLIVAAREERRKTLGLPG
+>tr|A0A1Q9AN41|A0A1Q9AN41_9RHIZ
+MMATKIDEIRAAQPIEIREKVYRQLDKAQREARIRVEQIGMASQRIADDYPHLARWICLK
+VVAGRELAVEKELRALDVHAALPKRKGQEMRIRGRIIPPKDLAAMPGYLFVRCVVTPASV
+LGLLHFDPRKRVLGILGGAEKPFFIPLKNIKKMLGKAEAGDYDDRGGPVPFQVGERVRLD
+DCPFGDVPAKILSVDERRSRVDVEVIIFGRPTSVSMALAQIEKL
+>tr|A0A1Q9ANC6|A0A1Q9ANC6_9RHIZ
+MAPDTDPSIHRQLGEMAASLRSISETQTEVKETLRRADDKASASRAEMYRKIDDTNSRLA
+AVEANIADVRGDVSEMRPVTDDVRRWKLMGLGALGMIGIGGMAIGVTFGEALRRIGALLI
+GR
+>tr|A0A1Q9AFQ9|A0A1Q9AFQ9_9RHIZ
+MALLPVDEAIARLLALAKPIARIVEKPLAEAQGLVLAEDVTACVTFPAFDNSAMDGYALR
+HEDIAAGAVELTVIGESAAGRGFSGRVAPFQTVRIFTGAPLPEGADTVLMQEDAEALDAQ
+RIRTRFTPAKGRHIRPRGQDFKEGETLLFAGERLDAGRLTLAAGMNRPRLPVFAPPRVAI
+LSTGDELVAPGETPGPDQIVASNAFGVAALARENGAEVLDLGLVPDRADAIAEAVARARQ
+AGADVLVTLGGASVGDHDLVQSSLLALGMELDFWKIAMRPGKPLMVGRLEGMPVLGLPGN
+PVSSLVCALLFLEPLVALLARRSPPARAGEALLAEPLPANDTRQDYVRARLTRDDQGRLL
+AHPFARQDSSMMRVFAASDALIVRPVGAPALAAGDPCPILMLRPV
+>tr|A0A1Q9AC92|A0A1Q9AC92_9RHIZ
+MEYFVQQLVNGLTLGSIYGMIAIGYTMVYGIIGMINFAHGDIFMLGGFAALIVFLALTSL
+FAGVPVVIALLVMMIVAMIMASLWNWTIERVAYRPLRGSFRLAPLITAIGMSIALSNFIQ
+VTQGPRNKPIPPMVSSVYNIAGITISLKQILIIVITAVLLSVFWYIVHRTPLGRAQRATE
+QDRKMAALLGIDVDRTISVTFIMGAALAAVAGTMYLMYYGVVVFTDGFIPGVKAFTAAVL
+GGIGSLPGAVLGGLLIGLIESLWSAYFTIDYKDVATFSILAIVLIFKPSGILGRPEVEKV
+>tr|A0A1Q9AMA5|A0A1Q9AMA5_9RHIZ
+MKQVNGSKLLASLGDGVNALRGRLTPDAPMDRVTWFRAGGLAELMFQPHDVDDLVAFLKL
+LPEEVPLMVAGVGSNLLVRDGGIPGAVVRLSAKGFGDVELAGDNRVKAGAICPDKNLAAM
+TLDHGIGGFFFYYGIPGSIGGALRMNAGANGGETSERVVEVHAVDRQGNRHVLTRDEMGY
+AYRHSSAPKDLIFTHAIFEGYPEDKAKIRADMDAVRHHRETVQPIREKTGGSTFKNPEGH
+SAWKLIDEAGCRGMMIGGAQMSPMHCNFMINTGQATGYELEYLGETVRRRVMEHSGVKLE
+WEIKRIGKFMPGYEVKEFLGVALV
+>tr|A0A1Q9AGM8|A0A1Q9AGM8_9RHIZ
+MIDDDQNSRRRQALSLPPGLRFFPCHIDAQAQAALVEEIRSVVRAAPLYRPQMPRSGKPL
+SVRMTNCGPLGWVTDRQHGYRYQPNHPETGLPWPPIPPDLLELWTSLAPAAPPPEACLVN
+VYGPEAKMGLHQDKDEATFAAPVLSVSLGDEALFRIGGTERGGPTVSFRLRSGDVLLMDG
+ESRLAFHGIDRIYGGTAALLRQPGRINLTLRRVTPF
+>tr|A0A1Q9AK95|A0A1Q9AK95_9RHIZ
+MNADIASMIGKRLGLSALTLLIVSFAVFVATNLLPGDTATILLGQAATPEAVAGLRQAMH
+LDDPAVFRFLRWLAGAVTGDFGTSYANNMPIATLIAGRFVNTMELAGLTAVIAVPLALTL
+GITAAVLRGTLYDRIVAVLTIGVISVPEFVVASTAVLLFAVYLKWLPAISFVNEVHSLTD
+LLRMYAMPVVTLTFVVSAQIIRMTRAAVIETLSMPYVEMALLKGASRSRIVLRHALPNSL
+GPIVNALALSLSYLIGGVIIIETIFNYPGIAKLMVDAVATRDLPLIQTCALIFCLGYLIL
+ITIADIIAILSNPRLR
+>tr|A0A1Q9ALF2|A0A1Q9ALF2_9RHIZ
+MAPPILKLDDIVLTFGGTPLLNGAGLQVEPGDRVCLVGRNGSGKSTLLKIAAGLIEPQSG
+EVFRHPASTVRYLEQAPDFAGYETVETYAEAGLGPGDDPYRVAYLLSHLGLTGQEHPASL
+SGGEARRAALARVMAPEPDILLLDEPTNHLDLPTIEWLEGELMKTRSALVLISHDRRFLE
+KVSNATVWLDRGQSRRLDRGFAHFEAWRDEVLEAEELEQHKLGKAIEREEHWLRYGVTAR
+RKRNMRRLGELQDMRSRHRGHKGPQGTVQATVSDAQESGKLVIEAEKITKAYGDRTIVAP
+FSLRVHRGDCIGLVGPNGAGKTTLLKMLTGQLSPDSGTVKLGTNLEIATLDQKREDLNPE
+DSLAHYLTDGRGETLLVNGEQRHVTGYMKEFLFQPEQARTPIRNLSGGERARLMLARILS
+RPTNLLILDEPTNDLDIETLDLLQEMVAGFTGTVILVSHDRDFLDRTVTSTIAPADPEAP
+DGRWIEYAGGYSDMMAQRKGAAEERKRAEKAEKAKTAETAAPAAKPANAKGKLSFKQKFA
+LENLPKEIDKAQKDIATREAEMADPNLFSKNPNRFATLAKELETLRAEVAKKEEEWLELE
+MLREELEG
+>tr|A0A1Q9AMV9|A0A1Q9AMV9_9RHIZ
+MCNLYNVSTNQEALRAFRQALDRLGNLEPSMDIYPDRPAPVLRRTEDGEAWDRLTWGMPT
+PPSILGDKPDTGVTNIRNVTSPHWRRWLGPENRCVVPWTSFCEWEDTKPKKRKRWFAINE
+DRPLAFFAGIWTGWKGTRGSIKNPREGEHHLFGFLTTEPNAVVKPIHPKAMPVILTTAEE
+VDVWMRADWAEAKVLQRPLPDNGLLLLPPDS
+>tr|A0A1Q9AEK9|A0A1Q9AEK9_9RHIZ
+MIEVVRVLSIPLPFLAGLVIALTLHANLKGVSAPGPRWVFTAFLIFYALQGLIVGLRFGY
+GVEALAPVQPVTAAAMPPLAALAFLMLADRPPQRLWLHALPPVLAGLGVLLFPPAVDIVL
+FATFVTYGLALWRVARGGEAAAAEAEISRMLPILRTARLTAVLMLYFALTDAMLSIYTLF
+AGRAVVPMAVGLMNIGAIVLALLSYLAPVAVAPSARSDAGLAPDATPATVATPAEAAEDA
+ALLRQINAALDATFRDEALTLARLARKAGLPARTVSAVINRATGYNLSQFVNNRRVAEVC
+RLIETEDRPLTALMLEAGFSTKSNFNREFRRVTGLSPSQYRAKMRRSAAARA
+>tr|A0A1Q9AP66|A0A1Q9AP66_9RHIZ
+MGERQLHLTGAGEEAGELKRVMGPGLLLLFIVGDILGTGIYALTGQVAQKVGGVVWLPFL
+IAFLVALLTAFSYLELVTKYPKAAGAALYTHKAFGIHFLTFIVAFAVMSSGITSASTASR
+AFAANFAATVGLDAGTIGVTLVAALFLALVGLVNFRGVGESVKMNVVLTVVELSGLLLII
+GIGAYAIFGGQGDVSRAFVFETPGDTSLFFSVVAATSLAFFAMVGFEDSVNMAEECKDPS
+RIFPKVLLAGLILTGIIYVLVAVSAITLVPAAELGEGETPLLKVVQAGAPGFPIGIFAII
+TMFAVANSALINMMMASRLIYGMAREAVLPAVLGRVHSGRRTPYVAILFTSAIALALIVF
+AGSVPALGGTTALLLLCVFAIVNVAVLVLRRDPVRHKHFRTPTILPVLGTLSCVFFAGPW
+TGRDPVQYVIAGALLALGVVLWFVTVSVMRRHAAPAE
+>tr|A0A1Q9APE1|A0A1Q9APE1_9RHIZ
+MPAPDSQTPDSQTLDWFDGDMPYSREFGDHFYCRDDGRLECGHVFLAGNGLPERWTALRP
+GESFAIAELGFGTGLNAMETWRQWKATAPAGARLTFTSFERFPMPAAAIDRALARWSELD
+AERQALVAAWPERPEGIVTRDLAPDVQLTVICGAALDSLAAQETLFDAWYLDGFAPSRNP
+DMWSAELMAAVHGHTQPGGRFATYAAAGFVRRNLAAAGFHVERRPGFAGKREMLCGERR
+>tr|A0A1Q9AEN1|A0A1Q9AEN1_9RHIZ
+MSVRVSGKNMDVGDAFRTRIEDHIAQAVTKYFDGGYSSQVTVAKSGAGFSADCKVHLDTG
+ATLQANGEANDPQAAFDGAAERIAKRMRRYKRRLKDHHNGNGHAAFSEVSYRIMDSVPDE
+DEEIAEDFAPTIVAESSKQVKTMSVAHAVMALDMTDDPLVMFRNAGNEQINIVYRRNDGN
+IGWIDAAAIKS
+>tr|A0A1Q9ACR7|A0A1Q9ACR7_9RHIZ
+MLTHDAEGNGKGILEINGQSQPVSYEVIMARDEDETRSVRIRLMAPRDWLMKQGFSGEAT
+LVRDNGSRVKVSHEGGVGVEDPIAVALEGYEALKGGEGEAAEAYPELSSH
+>tr|A0A1Q9AQD7|A0A1Q9AQD7_9RHIZ
+MKFTKLRLVGFKSFVEPAEFIIERGLTGVVGPNGCGKSNLVEALRWVMGESSYKNMRASG
+MDDVIFSGSGSRPARNMAEVGLYLDNADRTAPAGFNDADEIQVTRRIERQSGSVYRINGR
+EARARDVQLLFADASTGARSPSMVGQGRVGELINAKPQARRQLLEEAAGISGLHSRRHEA
+EIRLRAAEGNLERMEDVLGELEARIEALKRQARQAGRFKTLSSEIRRAEAMLLYIRWSEV
+RAAEAEADGQVKAGTVIVAERAQAQMDAAKEQAIAGLKLPELREAEAETAAQLQRAEIAR
+VQLEQDFARLMRRREELFRRLAQLDDDMAREARLIADNDAALARLAFEEDALQAQLGGAD
+ARDAATRAALEDANARLEQAEGALARLMAARAAAEAARGEIDRSARDLAGRRQKLAEQIA
+RTDADLERLDRTLAARPDPDRFRERVAEASEGLEAASAATHAAEATLTEAERTEAEGKAP
+LDAARQTLGALAAEARAIGAMLAAGAPPAGTSPVMDSMVVNRGYETALGAALGEDLESPL
+DREAPAHWRLPGDPAEDPVLPPPAEPLSSYVDAPPALARRLRQIGMVEDAATAEWLQPHL
+RSGQVLVTREGAVWRWDGHVTGADVAGPAALRLGQKNRLAEIRREQERAEVARKAAEAAL
+NAASAARAAAVAAARTARETEREAVRHLSSMRDLLAKAEREAGEALRHRAVLAETRSQLA
+AQEAEADAQAEAVAAARAALPDMAGLVADLDRQSADVREKRQSALAARAAHDDDVRETAG
+GRKRLEAIAGERASWAARVESAHRYGTELADRREEAQAEMAELIDAPEACERQRRAVTLD
+ISRLETARREAAERLSLAEERQRRADQDAAAALAGLAEARETRGRAEERLLSIRSRRAEI
+ETAIGTAFECAADEVARFAGHVEGRPLPDMRQVERELDRLKGERERLGGVNLRAEEEQAE
+LAERLATLLKEREDVIEAVRALRSAIQTLNREGRERLMAAFDVVNGQFQRLFTHLFGGGT
+AELQLIESDDPLDAGLEILARPPGKKPQTMTLLSGGEQALTALALIFAVFLTNPAPICVL
+DEVDAPLDDHNVERYCNLMEEMAALTETRFVIITHNPITMARMNRLFGVTMAEQGVSQLV
+SVDLQAAEALRDAG
+>tr|A0A1Q9AED4|A0A1Q9AED4_9RHIZ
+MAGFFFLAALISLYPVLSVAIPPLPDYPNHYARLWLISGGAADPALSGMYRVDWGVAWTN
+VLIDMIAGLIGPAVPITVLSPILLSIGLLMPAIGIAALNGALFGGLHWWAVFCVMLIWNF
+IFLAGFLNFEIGLGLALLFAAGEIWLSSRPQPVRLLYRVAAAGVLMIAHPFALMFFALLQ
+AALAFGPRLGLLARPGEWAATIGRMLAFCLPCFVPLIVLMLFGPALPGTEMPAGRGGAVW
+GEWSLSNAASVLLTYFKTYDPQRDAIYLTLFVALLGIAYLRRRLAVHWGLILVAALLALV
+SPFMPVAYLATGAMDLRLPSMMALALAAGLRPALFESRRALMAISAFALVVVASRMLLVD
+RVWLAGEKNMRAVEEALASVPPGATVLPMQHTNERALDPVAPPGRFLGRHMPIHWHFGSL
+AVVRQKAFIPTLFTAAGKQPITVLPPYTEISVPEGIPPTVDLLGKPVANDYPYMADWPHR
+FDYILVVNADMPNIDGPMPSLANLTLVADKGFAQLYKVVK
+>tr|A0A1Q9AKQ9|A0A1Q9AKQ9_9RHIZ
+MPFRFVHTADLHLDSPLSSLALKNPDLSELVRGATRAALAAIVDLCLAERVDALLIAGDL
+YDGAQTSMNTALYLAAELRRLEAGNVRVFIIRGNHDSASTIKRELSLPDNVYLFSGKVRP
+MLAGALGNGRPVYVHGVGFDNPHAPESLLPGFHPPMADAINIGMLHTSLAGAPGHDAYAP
+CTLGELIAHGFDYWALGHVHQRQVHSEKPLIVMPGMPQGRDINEAGAKSVTLVSIGEDGA
+LAHEARVIGTAAFERIAVDLSAVESWSGALQAIGRALDAGRRLHGAGQIIARLVLTGATP
+LAARLRRDPELILAEAANLAASRAGLWIEAIDVACVPPAAASINAADPVDELGRLLREDV
+LTAPGFRREVEVLFEEFLGQLPRELRERFVRDEEAAAVLTAMLAQEGAEDVLAALSGTRA
+GEPA
+>tr|A0A1Q9AIL3|A0A1Q9AIL3_9RHIZ
+MMLTDPILQGDLDAYVDGQLSPERRIQVEAHLAAHPDVAAKVMADLSLRGRLKMALHQGE
+PAGRQETREAARRLERSLRFSLYVERGRRMAAAAAIVAFAWTATSWLGPFRATEVVASEP
+PPAHVEEAVRAHQTALLRENMRSQPETRGYDREDIRAATAIVMPTLPDGWKVVDVQIFPS
+RFGPSVEVSIATADGAQRSLFAVRPGAFSVRPVNLYRIDGAEAADWQIGEVAYALVANQA
+TDTLTREAERLSATLY
+>tr|A0A1Q9ALG6|A0A1Q9ALG6_9RHIZ
+MSLLDLLWPLYRREAPRLLAALGLGLVTLFAGIALLGISGWFLTAAALSTAGMAFNLFGP
+SSLIRGLSLLRILARYGERIAGHDATLALLAALRGDVFARLLARIPLGRLPDETGAAMAH
+GDLVSRLTADIDQLESLFVVGVGPLVNGLLAALALGVALALLLPSALLPVLFALALAIIG
+VPLLLLLLARRPARAVARLGALLRGAVIEAIESRDDLRAFGRTALAQTRFEQAAAELGRA
+RRRLALSGALAGAAMQALTACALLAVLLLGTRALSSGAITGPLLVGLLLGTLASFEAVAA
+ILRGVARFGPAAAAAERLAGLLDAPAAIVAEPHTLSLPNSLDIAFEAVHFAYEPGRPALS
+GLTLKIGCGERVALTGPSGSGKSTLFALILRLHDPDAGRVLLGGIDLKCADPDEIHAAVA
+VLEQDAPLFMGSVRDNLLIGNPRCGDAALWAMLEAVQMADLVAALPGGLDAFVGETGHTL
+SAGQARRLCLARTLLSPAPILLLDEPTASLDPTLEQAIFEALPRLTAGRTLVVATHAPPA
+MLKDFNRKLHLCAQGALEIA
+>tr|A0A1Q9AIE9|A0A1Q9AIE9_9RHIZ
+MTSMAKHDDTAAPAPDLPVPEDLGGDQAAALPVQTFTRPGVSLRAPAATSPGLASLGLAA
+LGLPAPAVPAAGLPPLERPAADLAAAGHDPASGAEEGSVPPPAPETGYWSFQLGEGDEAA
+QLDWRLDAAGMVTGLFWCGKPMERTDPLLHLADLPRDAQGRAFPATFRFDPATGQKLTHW
+HDATPLASFPRLAPDGFPVLPLAGQPVPAEKSEVHLPQGTVAVFSAGTPVRLFCLTRHGE
+LHLRQPDGAWTWCDSLAQPGEVDHAFGVLGFATGFALVLAGHALVCRLRPGMPGLVHHRL
+KPEPGRRLCGAPALIDPDSIAFPVQRDETVGLMTYAIEAGGWAEEMEAGPLPLEAGEMLA
+LPVQTASRQPETVWVGSSGALVTGFDFQSRVTATRPFGPDIRAVAGALPLREESGTLHAL
+VSTPDCYGLISLTATPRLTELHGLQLCAGQARYSGRSFYPSLWSDSILELGVEAGAGSAL
+LPLAYQKDARGAVDSALVILIRGLSGVDRLFARQGDAWLAGDLYWQSGSRLKPLEISLRL
+RARYDIIVFCEGDALVVGSALNGLFRRLPFEVIS
+>tr|A0A1Q9ANE5|A0A1Q9ANE5_9RHIZ
+MPCHQISPNSKPKLRWARTWQDGDDYVGFDGAIAIGRIFRIAALSADDREKWLWLLTHAP
+AQIKLDHPSAGWEETPRQAAVRVEFCYQKIRQAIHDDAYDTLRKHGKR
+>tr|A0A1Q9ANN2|A0A1Q9ANN2_9RHIZ
+MMREGETGLSEARFRALAQAYGGEIARWPGAVQAQARAMAERAELSAVLAEARAVDAALD
+RFALAPPAPALAARILRETGRGHALRLAIRRALIGAGLLGVGLAGGLAGAAAVMIAVPPP
+ALTGEDGTTVFGMLAPDLAAADLNRPGASPRDPAPAMEREP
+>tr|A0A1Q9AIR0|A0A1Q9AIR0_9RHIZ
+MEDAEGADAPKKKNPLIATIIAAVVVTIVGGGGGWFVGGLLAPAAQTAPAAKPAPAPAHG
+AEAKDSGHGGGKKEEGLPHAFTEAGGVLQLDPMTVNLAYPTENWIRLELALVFKEHPDLA
+LAKSIQDDVTAYLRTVSLQQIQGPRGFQYLKDDIQERVDLRSEGRVSDVIFRTFVVQ
+>tr|A0A1Q9AL90|A0A1Q9AL90_9RHIZ
+MKDHQTDFRMRAALPQDHALLRALLDAHLDELSGFAPVDRAYPWFDLYFSEQDRWAWLAE
+ADGAVAGFALVNRHAASGLPAERVMAEFFVTPGFRRQGRGRRFAGSVFAAAPGQWELSVL
+SANAPGLAFWLSVCGAYPAFQRIDAGEETILRFVVASPSSAI
+>tr|A0A1Q9AFC7|A0A1Q9AFC7_9RHIZ
+MSETVTLSLDEAARLAKAAFLTSGVSDAHAEALTATVMAGQADECHSHGLYRVLGCVRSV
+REGKVNPVAEPRVSTPGPAIVKVDADYGFSPLAFRTGLPHLVEKARGQGLAALAINHCFH
+FSALWPEVEALAAQGLAALALTPSHAWVAPAGGTKGVFGTNPIAFAWPRPGDFPFVFDFA
+TSAAARGEIELHRRAGKPIPEGWAIDAEGQPTTDATAALAGAMLTFGGHKGSALSAMVEL
+MAGPLIGDMTSLESMAFDAGVGAAPCHGELILAFDPARFLGAEKDTHVARAEALFDAILG
+QGARLPSQRRFAARQRTATAGVTIPRQLYADIQALLA
+>tr|A0A1Q9AMX2|A0A1Q9AMX2_9RHIZ
+MAGWTSIFTFFGSAVGILTGLFVVWDRFYKHAPSLFLVAKPLIEGGKQRKAFLRLVNNSE
+RPLIASWPNGSEDNVMRVATNDGIRGIVASIVRGETSVVLDGKDDRLFPVLKPPNWDDLS
+DDGTIEINVRWRFVQPLIWKRDRSTTVRIDKRSLKLLEDEADLE
+>tr|A0A1Q9AGH4|A0A1Q9AGH4_9RHIZ
+MKLQDLKNKTATDLLAFAESVSVENASVMRKQELMFAILKMLAAQDVEIIGEGVVEVLQD
+GFGFLRSANANYLPGPDDIYISPSQIRRFSLKTGDTVEGPIRGPKEGERYFALLKVNTIN
+FEDPEKIRHKVHFDNLTPLYPNERFKMELEVPTSKDLSPRVIDLIAPLGKGQRGLIVAPP
+RTGKTVLLQNIAHSITANHPECYLIVLLIDERPEEVTDMQRSVKGEVISSTFDEPATRHV
+QVAEMVIEKAKRLVEHGRDVVILLDSITRLGRAYNTVVPSSGKVLTGGVDANALQRPKRF
+FGAARNIEEGGSLTIIATALIDTGSRMDEVIFEEFKGTGNSEIVLDRKVADKRIFPAMDI
+LKSGTRKEDLLVPRQDLQKIFVLRRILAPMGTTDAIEFLIDKLKQTKTNGDFFDSMNT
+>tr|A0A1Q9AJS5|A0A1Q9AJS5_9RHIZ
+MRSNSMTSAIENRAPSNHGDAMSQRDRTAPQATPTRHADAILKIIDVLVRQLSDSPLSTR
+LALTRLIETLSKILDIPPLPQETLRDFAKRLSAAIEAMPPAARAALEKQLGQRPLVTALR
+LLLDTLRNEAPPALPRPANLPLKAFEVIDRQKAAPYPVPEAGPARSGPPNRPQATHGAAP
+AQGAKSATAEPAAIRLPTTTPTTQPAPAAQPPSAAPSLSAPQRAAAIAMAAEARAAEARR
+TGLSSQGPAASASALPQPEITAPVPSQSGARPLPLAQPAPSSPVLPSPLAAQAASSSVTT
+ATDEAGTERPLEPQPSEAAEREAAPAQESETTAALQRARRSATTKDGIPLLKTAIDYLSR
+SPDAVNSLLRIVTALRTQEESARPPAALLAAARGWSSDEAGSLEARAAAADSAAPADDAA
+PTGPARRDPAAARPAQSVASQDRVGPADDAQPTRADLEGKDQESMLAEMPASELIETEAT
+TLLSLGRRPAAAPALPPLLDETNMDALISALADEADPDRSDAPALGPRARTGGNGEALSP
+QDDAQTTARAAAERSVALPPSRPQDLGDLGILRPSENVMQDWIALAFAAASLPPKDVKPR
+RPDNLPTERSQPLGKDDRDGQKRRGQSPARDQDEPAQNQEDGESSPDGNGEDNAGDAYAL
+YRHMAGFDPEEKAPEA
+>tr|A0A1Q9AKW3|A0A1Q9AKW3_9RHIZ
+MTTLQGRIALVTGASRGIGYFTALALGKAGAHVVACARTIGGLEELDDAIRQAGGSGATL
+VPFDLTDMAAIDRLGAAINERWGQLDILVANAGILGTISPIGHVEAKVFEQVMAINVTAT
+WRLIRSVEPVLLKSDQGRALILSSSAAHKCRPFWGPYSASKAAVEALARTWAGETQRLPL
+RILSVDPGGTRTAMRAQAMPGEDPSTVPHPSEIAEALLPLCGAGQTETGKLFQVRERKIV
+DYRMPE
+>tr|A0A1Q9AK65|A0A1Q9AK65_9RHIZ
+MSKKTVADWQALAEKELKASPDTLVWNTPEGIAVKPLYTAEDLQGLAHLDSLPGLAPFVR
+GPRATMYAGRPWTIRQYAGFSTAEESNAFYRRNLAAGQKGLSVAFDLATHRGYDSDHPRV
+EGDVGKAGVAIDSVEDMKILFDGIPLKDMSVSMTMNGAVIPILACFIVAGEEQGCPRAVL
+SGTIQNDILKEFMVRNTYIYPPEPSMRIVADIIDYTAREMPRFNSVSISGYHMQEAGATL
+VQELAFTLADGRDYVRAALAKGLDVDEFAGRLSFFFAIGMNFFMEAAKLRAARLLWTRIM
+QEFQPKKPASLMLRTHCQTSGVSLQEQDPYNNVIRTAYEALSAVLGGTQSLHTNALDEAM
+ALPTEFSARIARNTQLILQHETGVTRVVDPLAGSYYVESLTNELAEKAWALIEEVEALGG
+MTRAVADGLPKRLIEEAATLRQARVDRREEIIVGVNAYRLENEEPIDILSIDNTAVRLAQ
+IARLERTRQTRDAARVAETLGLLAEVARSGAGNLLEAAVEAARARATVGEISDTLRQCFG
+DHTARPEVVGDIYGPAYADDPEYETLTGRLAAHAAARGAAPRIMVAKLGQDGHDRGAKVI
+ASAFGDIGFDVLAGPLFQTPDEAAAMAVENGVQVVGLSSLAAGHKTLAPQLVEALKARGA
+SEVIVVVGGVIPRQDYAFLMEHGVAAVFGPGTPVLEAANAVLDLLEGKRRNQ
+>tr|A0A1Q9AL66|A0A1Q9AL66_9RHIZ
+MARKTLDEGYLAVVKAAIRSAITAGGFSDPFAGAKITIPKTAASPRKATPIGFTKMNGPF
+RAGIESGLMEDIMLPLLGHLTSRRLGLLIHLRGTDIREQYPDVWVGQVTRLSNVNGTWTT
+IPVKTQDSERYFVLHDFLKQIGFIDWAISQESNFLFPNIMNLKDPSKSGSSYMQRLFVKA
+GIKPKSGGESNGRREVFHSLRSGNIQDMRESGSIRANAVSRQGTAPGSMSTTSTVSTSRP
+RRRRASSKPCRSIQRSTTRSSRDWISRRSLGESGKQVHRSGNDFRSQCSWHRCSRLAASA
+VFPDLAVTPFFARKQTWLVLPRSSRSTVAVASLSMAWRQKLRSANLCHPTDLRILAYTL
+>tr|A0A1Q9AFD5|A0A1Q9AFD5_9RHIZ
+MSDRASSPVGRPYGFVEWFRPGEYERAEAVLPQIRAAGASFLRTHLSWAEYLAEGGEAWF
+DWLIPQLGRDFDLLPCIHYTPPSHSRNGRSSGAPHVLKDYADFVDHVLTRYGQHFTHVEL
+WNEPNNLLDWDWRADQDFALFCEMIGGAAYWAGKRGWKPVLGGPCPFDPYWLNLMGERGV
+LQVVDAVGFHGFPGTWDSEAGTWGGWDLHLGEMRAILDRYNPGSEIWITETGYSTWRKDE
+VEQARRFMKALSVPADRMYWYSWSDIPADVPVQEGLWFDPRHYHLGAVDAQGQPKLLARL
+LTEGGVEKLGAVTRLAAPALTGQAKPVVIIGGSGFIGCNLAESFLAEGEDVVVVDNLSRA
+GVDQNLHWLMERHGARVHPVLADVRDLLSLEPAVKDAKAVFHFAAQTAVTTSLVSPIDDF
+EANARGTVNVLEAVRKAGGQAPVIFASTNKVYGGLSDMAMVEHDDRYIPGHEEVRAHGIG
+ESRPLDFCTPYGCSKGVADQYVLDYAKSFGLRTAVLRMSCIYGPRQFGTEDQGWVAHFLI
+SALKGAPISVYGDGKQVRDILHVDDAVAAYRAVLSGIDRVSGEAFNLGGGPINSVSIQMV
+LREIERLAGQPLALDHGDWRAGDQLYFVADTRKLTARLGWQAQVKWRDGVRDLHDWLVAH
+RPGLQADRPALKVRA
+>tr|A0A1Q9ADY4|A0A1Q9ADY4_9RHIZ
+MKYIYLGKSGVKVSELCLGGMMFGGATDEATSRRIIESARDAGVNFIDTADMYNGGESER
+VIGRGIAAHRDHWLLATKIGNPMGTGPNERGMSRKWILQAVDASLKRLGTDRIDLLYIHK
+ADFEAPLSEMVHAFADLIRAGKIVYFGVSNFKSWRMAETVYLAEKAGIQGPVASQPLYNL
+VNREAELEHLPAAAHLGLGVVPYSPLARGILTGKYHPNVAPDASTRAGRGDVRMMEAEWR
+PESLLVAEKLKKYAADKSVPPAHLAQQWVMRNRLVTSTIVGPRTFEQWQDYLDALDYAYD
+VEDERFIDLLVSPGKTSTLAPFDPHHPVEGRRVF
+>tr|A0A1Q9AMD6|A0A1Q9AMD6_9RHIZ
+MHRKLLLRLIDAEYAITRLNIGSQIPDWVAGPGFWAAISSREELTLVCRAARVPSSIHSS
+LGWRCFRIEQHFAFDAPGVLSSVVSPLSSAGVGVFANSTFSTDYVFILGSDLEKAVAALK
+ASGHEIMV
+>tr|A0A1Q9AIH1|A0A1Q9AIH1_9RHIZ
+MKKRVLTVDDSRTIRNMLLVTLNNAGFETIQAEDGVEGLEVLEDCNPDVIVTDINMPRLD
+GFGFIEGVRRNDKYRAIPILVLTTESDAEKKNRARQAGATGWIVKPFDPTKLIDAIERVT
+A
+>tr|A0A1Q9AJ83|A0A1Q9AJ83_9RHIZ
+MSVSTIPVGVKRFLAALMLFGSALPASAELVGPYKDALFAYPALVESQDKGDFRVVDYQE
+LRDINERDDIPERRVKRAYVSLGVKSEQAFESVDAGGRSVEVLRVGAARGAAFTVIFIHG
+RGGDRRLGANDYTFGGNFNRLKNLAVNGRGVYYAPTVRSFDENGVADVAALIHHAATQSP
+GRPVILACASMGTFICWGITRDRQAVADLQGMMILAGPADPAFLKSAAHQARLPLFFSHG
+SADSVYPAEAQIALYRQLKAAGYPTRFVLFRSGTHGTPVRMTDWRETLNWFDAR
+>tr|A0A1Q9AEY7|A0A1Q9AEY7_9RHIZ
+MLDPTATASSPAVSKPWLKSYHASVPATIPPLDHGTIPDLFDACCARYAESAAYSCMGST
+LSFAALARDAGHLAATLQSLGLEKGDRVGVMMPNVLQNPITLFAVLKAGLVVVNINPLYT
+ARELRHQLSDSGAKALVVLENFAATVEQALPGTDVRHVIVTSLGDCLGLKGLLVNAVVRH
+VKKLVPRWSLPGHIPFKQALSRGRGLTLKPVALASGDTAFLQYTGGTTGISKGAILTHGN
+LLANMTQLGLWLDTAFVNRPRPQRIVFLCALPLYHIFALTVNALMGLKLGGLNVLIPNPR
+DIPALVKEIGQNRITVFPGLNTLFNALLNNPDFRTLDHSSLALTFGGGMAVQRPVAERWE
+AVTGCPIKEGYGLSETSPVATANRLDLPDFTGTIGLPLPSTEVEIRDEEGRSLPPGEPGE
+ICIRGPQVMAGYWNMPAETARAMFADGFFRTGDIGFMSPEGLTKIVDRKKDMILVSGFNV
+FPNEIEEVVMTLDGVLECAAIGVPDPHSGEAVKLFVVRRRPDLTEDEIKAHCARHLTNYK
+RPRHIEFREELPKSNVGKILRRQLRG
+>tr|A0A1Q9AJ94|A0A1Q9AJ94_9RHIZ
+MSTALVVMTILGCDDAVTSCHYVETVKGSWTSISACDTHSQTVLPRFTNRSYPVIVALCE
+KQDEGIVAQSGMIPAPPAAPALPEAGADLASAAAVPPAPVPAAPVGQGIAARAPDSVERP
+SPTTAAPTATTLEQIDPAPVPPEPPGLTAIPARAYDFLRNQLPGRDALRRTLTAPVHYVG
+EGYSWVAHRIVPDKP
+>tr|A0A1Q9ANE9|A0A1Q9ANE9_9RHIZ
+MARIRHLLRPLEPARLRAFARRSEVGLVAAAVVVGALAGLAVSLMSYISLSLHRLIFGIA
+DHQRLSASDLKGELSVLMAPIVGGLVLGILLFFLARWRKKPMVDPIEANALHGGRLSLTD
+SLVVAVQNLVSNGFGASVGLEAGYTQVASGLASKISIFLQLRRADARLLLGCGAAGAIAA
+AFNAPLTGAFYAFELIIGSYTIVSLTPVIVSALIANLVARLISGDEFVIDIGTFDVVTLA
+DYPPAILLGAAASGIGILIMKGVSLTEELARKSAIPAPLRPPIGGIVVGVLATVSPQVLS
+GGHGAMHLNLANEPTIAVLVGLFLLKSIASAVSIGSGFRGGLFFASLFMGALLGKIFAFG
+AMLAFPEATLTPVVYAVVGMSALAVAVIGGPLTMTFLALEITGDFPITVLVLAAVITSSL
+VTRTTFGYSFATWRFHLRGESIRSAHDVGWIRNLTVGRLMRADVRTTPASRSLAEFKRDF
+PLGSTQRVVAVDEANRYVGMILVPEVYASPMEEEGERQDLDRFISLRNSVLLPTMNAKQA
+AALFDKSESDALAVVNNMIERRVAGLLTESHTLRRYSEELDRRRREASGEL
+>tr|A0A1Q9AH07|A0A1Q9AH07_9RHIZ
+MVSTYFQYNFVTRDMKASLARTAGDTLVARDTAYYKENIGKVKTVDQFVDDYRLFSYAMK
+AYGLEDMTYAKAFMKKVLESDLDDKNSYANKLTDTRYRNFAMAFGFSKSTTVAQSNAQED
+AIIGLYNQTVADLDGVMKADANYFDAMTTRVTSVDQFLHDDRLRNYTFTVFGINEDTYVY
+KDVRGAIGSDLNDPNSYFNQNWQPHIDAFQTLGPSLQTEYDNRSERLSLIQQIDQLNTAK
+AQPGADQAAIQAKIDTAQARVDTLNQSLPAYVDKASETQKINEVGTQFSTLQARAKLADG
+YKDLASFFKFNADGSVTPGNSIMTDENKANMREAYYANAKRVTPGAAMINKANYERDIQN
+VTTVKDILTNTRLFNYIVLSYGLPASTLTSTLENILTDDPTNPNGYIQKSKSDLVSVYSQ
+IAKDFNFDADGNLKSGMPPQTAAQMKSTSNGYMVHYNDKDDAADATLIAAYKKNIGTITN
+VDKFLADANLKKLALTAVGLDKENLTTRQLKQILTSDLNDPKSFANAAKDERYVKLAKAF
+NFKADGSLGSPILAQSETEILLVSKNYVLRKSQFGTADDKTKAEADATYYSDNIAKVEKL
+DDLLKDKKLTGFVLQAYGLDPEKYDAEELRKIFGSDLSDKNSYVNTLEETKFRDIVASFN
+FNAKGQVERQTEAQIQTRHGLMQTETMYYNQSLEETQGEDNAGVRLALYFRRMADTIGSA
+YDILADPALSEVVRTAFDIPQEMQAADIDIQKAYIDKVLKIKDLRDPDKLNKFLTRFTAL
+YDAANNTDVAPAALLLGGSGGSSGGISADTLMTLTQLRTGGF
+>tr|A0A1Q9AJ01|A0A1Q9AJ01_9RHIZ
+MPLTSPDDKTKDPEKDHDIPIALQSARGVRTWKEAADWLKIRGVEDIECITPDIAGVPRG
+KMMPSSKFTSNTSLALPSALYRHTISGEYPDETGDFRYDSRDSDIKLVPDLSTLSIVPWE
+SDPTAQVICDIAGSKGEDVPYTPRNVLKNVLALYRQRGWKPVVAPEIEFYLVAQNDDPDY
+PLRPPKGRSGRSINGGQAYSIAGVNEFDELIDDIYHFSEKQGLEIDTLIHEEGPAQLEIN
+IRHGDPIELADQVFLFKRTIREAALKHGIFATFMAKPMQGQPGSAMHIHQSVVEINTGRN
+LFSNPDGSASKEFFHFIGGMQHYMPKALSMIAPYVNSYRRLTPDMSAPVNNAWGYDNRTT
+AFRVPVSEPSARRVENRLPSSDANPYLALAASLGCGYLGMVRQLEPTAPSDDTVNDKTID
+LPRGLLEAISALESEPDLAEVFSAEFIAIYCGIKRGEFETFMQVISPWEREFLLLNV
+>tr|A0A1Q9AHN5|A0A1Q9AHN5_9RHIZ
+MNMLTNQPFTAVKTHGSELIGETPLFELARTGSGSRLILKLEQFNPTGSCKVRMAREMIL
+AAEREGKLKPGGHIVEPTSGNTGTGLALVAIERGYRFTAVVDHHASRDKLGAMRAMGVNL
+VFAEGKGEGPSTVERRRIAGEIAAATGAFWPDQHHNPNNNNGYAGLAMELLHDLSGKIDY
+LVGTGGTLCGTVRELRRLGSNVVSIGVEPTGSIIFGGPTGKYWQTGAGAPGGFVVGPNVE
+HALIDEGLTVDDIDAFAACRVVARRTGLLVGGTAGAALHVALKRLALVERESTMVVLIYD
+AGEKYLDSIFDDDWLRERRLLDELAERRIDRLFNAYSESTRLGAAALMARGA
+>tr|A0A1Q9AKR3|A0A1Q9AKR3_9RHIZ
+MNYRHIYHAGNFADVLKHAVLARLVTYLKGKDKAFRVIDTHAGIGLYDLSQEEAQKTGEW
+RDGIGRLLATPLPPDIEALLAPYLDCVRELNPGMNQGMEAGSVTLYPGSPKLTRMLLRPQ
+DRLSALELHPQDSATLARLFDGDYQTRVTELDGWLALGAHLPPKEKRGLVLVDPPFELAG
+EYERLVSGLAKAHRRFPGGTYCLWYPLKQGAPIAAFHEALKALNIPKMLCAELAVRSDRD
+TTGLSGSGLILVNPPFTLKQELDVLLPVLKDRLRQDRFASARAFWLRQEATEEDDA
+>tr|A0A1Q9AHR4|A0A1Q9AHR4_9RHIZ
+MSSKTTRSIAHYLMLSPFMLLFAVFFLYPIVSGFFYSFFEWNAAQSSQFVGLANYTKVFT
+SRSFEKATWNLLVYVSITVPLGIFVALGLALLVDSFSGFWAKFFRSAFFIPVVMPLFLAA
+TIWRWIYAPNFGLMNTVLSWFGMPSVQFLTDTGTMLYAMIAVDIWVSAGFNMVILLAGLK
+NVPRHYYEAARLDGASTFQQIVHVTLPSIRPVLFFVITYGLISALQVFDIPWLLTGSSFA
+EYGGRANTLLFPVMDMMGRGFGSVRFGQASAYGFMLTILIVCVTAVMFALRKRFGDA
+>tr|A0A1Q9ANJ4|A0A1Q9ANJ4_9RHIZ
+MPNPANINTPFTLISFGRSGTSLVSSVLDHHPAVDFIGETAQTIFFGWMAAEQSNGVVRR
+NVDRDQVFDLDAFCARAVQGLFSHLFPSEKRFWLHKPIGIPQAIWHFAGDDFPAWYWNVL
+HQSFPGSTTFTILRNPMDVAVSARLYWGFDSEEIVQQLAQMAELIIHPHSSVRFAVNYHD
+FARDPATQVPKLCEQLGIDYQPQMLDAFKIKHVEHRQDAGAIETAVEEILAVQDLERYLE
+RIAAMWRTFGPEPGSFLKTSKYLRAR
+>tr|A0A1Q9ANS6|A0A1Q9ANS6_9RHIZ
+MRYLSSIRYIDAVVKAGSIRAAADTLAITSTALNRRILAMEEELGVPIFERLPHGVRLSA
+AGEIYIHHIRNQLSDMERVKSQIADLSGVRRGHVSIACSQALLPYFLPSQIALYRKEHPN
+VTFGVHLRDREAAEQALVDHSADLAIVFEPVRLADFMTLIRVRQPVHVVMAAGHPLAAKT
+SVRLFECASYPVSLPTAPYGVRHLLDIAMRVAGIRLDPVIQSDSFEFLRNHAVAEDILTF
+QIPIGLGDETSTGQMVSRPIDSRDVPSGILYLGQLKGRTLPVAAARFAAQLTSTLANQFE
+VS
+>tr|A0A1Q9AKF1|A0A1Q9AKF1_9RHIZ
+MTETLVIDASIAVKWVVEEEGTPEALGLRQSFRFIAPELLTVECANILWKKVQRGELSRE
+EAQLAASLLARGDIELFGMRGLLVKATELAMEIGHPAYDCMYVSLAISRNCRFVTADERL
+LRILAQKAPRNIADLCVTLEQISSGSH
+>tr|A0A1Q9APC9|A0A1Q9APC9_9RHIZ
+MERLRSDWETRRVSRRRARASENVPLLLATGAEPRPLSAADLPLVTFTHNDAKFLRSFLA
+HYRRLGISRFIIVDDRSDDGTVEFLTQQADVDLWRSPLRYKEARRGKLWREALMARYGVN
+RWYVSIDSDEYLVYDGCFDHPLPALIRQLEAKGQKRLFAPMLDLYPRGSVGGFAFAGTDE
+TMPWQVADGYDGDGYALAPNHRFLSLKGGPRHRLFNTEAELAKYPLLYWDADCSFGISVH
+QPLPFARNFVVPQGMLLHFKFFSDYRDKTRAAVAQQQHFGNAEVYRRILGHVEEGGDLNF
+LYPGTRQFTGPQDLVAQGFMHSLWA
+>tr|A0A1Q9AEX7|A0A1Q9AEX7_9RHIZ
+MPHSSSPLAPLKHDTFRLIWFASIVSNFGGLVQAVGAAWMMTSISSSSDMVALVQASTSA
+PIMLFSLVSGALADSFDRRRLMMVAQVFMFVVSVLLTLCTYFGLVTPWLLLTFTFLIGCG
+TALNNPAWQASVGDMVPRQDLPNAVALNSMGFNMTRSIGPAIGGAIVAAAGAAAAFAVNS
+LSYFALLFALYRWKRAPIDSVLPRESLGRAIGAGLRYVAMSPNILKVLLRGFVFGLAASA
+ILALLPLVARDLVAGGPLTYGLLLGAFGVGAIGGALISARLRERLTGENIVRLAFLGFAL
+SAAMTGWSGNRALTCLALLGAGAGWVLALSLFNTTVQLSTPRWVVARALSLYQTTTFGGI
+AAGSWFWGVAAEQYGADMALYASAALMLVGGVIGLRFALPEFEALNLDPLGSFTEPMLKL
+DLTPRSGPIVVLIDYEIDEADVPAFLTIMGERRRIRIRDGAGQWSLMRDLENPRVWTETY
+HVPTWTDYVRHNQRRTQDDKSNYERLHALHRGEGSPRVHRMIERQTILPHPYEQFRRQMD
+IPH
+>tr|A0A1Q9AP17|A0A1Q9AP17_9RHIZ
+MNTLAPATHPAARAAAERASATPLVEVRKVRQVYDKGVSGSLLVLDQVDLTLNPGEVIGL
+LGRSGSGKSTLLRAIAGLLRPSEGEVLFQGRPVDGPTDGVSVVFQSFALFPWLTVLQNVE
+VGLEAQGVNAAERRKRALAAIDLIGLDGFESAYPKELSGGMRQRVGLARALVVHPKVLLM
+DEPFSALDVLTAETLRTDLLDLWCEGRMPIESILIVTHNIEEAVLMCDRILIFGSNPGHV
+IAEIKVDLPQPRNRLDPAFRVLVEDIYQRMTAKKGTAPTRDGLFPGTGISMELPRVSTNL
+MSGMIEALAGDPYHGKADLPPLAASLHLGMDDLFPIAETLQLLRFAELEGGDIRLTPAGL
+RFSDSDVDERKRLFAQHLASYVPLAAHIRRILDERPSHRAPASRFRDELEDHMSEDYASA
+TLKAVTNWARYGEYFAYDEHSDLFTLENPS
+>tr|A0A1Q9ADB6|A0A1Q9ADB6_9RHIZ
+MHKKFRMLAATMTALAGLATSVYAADAKTIGVSIPAADHGWTSGVVYHAQRVADLLMKEH
+EGLKVIVKTSPDPASQANAVQDLETQGIDALVILPTDPDPLVNAIKEVKGKGTFVSIVDR
+APSVNDNSVRDLYVAGNNPALGEVAGNYIKETSPEAKVVVIRGLPIPIDQQRQDGFDKAI
+AGSKVQVLDRQFGNWNRDDAFRVMQDFLTKYPAIDVVWCQDDDMAVGVLQAIEQAKRTDI
+KYVVGGAGSKDMIKKVMDGDKMIPVDVLYPPSMVGTAMELTAAALYDQIPAHGTYTLDAT
+LVTKDNAKNYYFPDSPF
+>tr|A0A1Q9AGX9|A0A1Q9AGX9_9RHIZ
+MSEEREAGSAGVAVSVERPGTHPGVQVIRLCRPEKKNALTRAMYASMSEALQAAEADDDL
+RVTVFLGQPGCFSAGNDMGDFAEAAAGGNFGAEVVGFLKTLAGGRKPLVSGVDGLAIGIG
+TTLHLHCDLTIATPRALFRTPFVDLGLVPEGGSSLLGPMLLGPQRAFSLLALGEPMSGAQ
+ALEAGLVAALAEPEALEAAVLSAAARIAAKPPEALMAARRLLRGDPAVLIARIEAEAVEF
+ARRLRSREAAAAIAAFLQR
+>tr|A0A1Q9AJM7|A0A1Q9AJM7_9RHIZ
+MTIVDVRTPDPKRFIPGATGDWEVIVGMEVHAQVLSNAKLFSGASTEFGKPANANVSLVD
+AAMPGMLPVINEECVRQAVRTGLGLKAQINKRSIFDRKNYFYPDLPQGYQISQFKDPIVG
+EGQIVISLGPDRQGQFEDIEIGIERLHLEQDAGKSMHDQHPTMSYVDLNRSGVALMEIVS
+KPDMRSSEEAKAYMTKLRAIVRYLGTCDGNMDEGSMRADVNVSVRRPGEAFGTRCEIKNM
+NSIRFIGQAIEYEARRQIAILEDGGTIDQETRLFDPNKGETRSMRSKEDAHDYRYFPDPD
+LLPLEFDDAFVEALKVDLPELPDDKKARYVSELGLSIYDASVLVSEKAIADYFEAVAAGR
+DGKAAANWVINDLLGALNKAGKGIEETPVSPAQLGGILDLIKAETISGKIAKDLFEIVFA
+EGGDPAEIVEARGMKQVTDTGAIEKAVDDIIAANPDQVAKVKAKPTLAGWFVGQVMKSTG
+GKANPQAVQALVKTKLGLED
+>tr|A0A1Q9AIX7|A0A1Q9AIX7_9RHIZ
+MVQLSAHLLKSASAVARPSERWRETNVHIGQTLKSLYFNGDTPRTEGVFANLLNQLDDAE
+DGSYRPV
+>tr|A0A1Q9AF16|A0A1Q9AF16_9RHIZ
+MTEISDILAAPPAPQPTLDPDHAPAPETPAPRKVFLKTYGCQMNVYDSERMQDALARDGY
+EPCDSEAEADLVLLNTCHIREKAAEKVYSALGRLRELKKKKAAEGKVMTIGVAGCVAQAE
+GGEILRRAPSVDLVIGPQTYHRLPEALARVKQGERVLETDYALEDKFEHLPAPKPAATRA
+RGVTAFLTVQEGCDKFCTFCVVPYTRGSEVSRPLSRVVGEAERLAASGVRELTLLGQNVN
+AWHGVDDAGKELGLGDLLRRLAEIPGIARLRYTTSHPRDMDDTLIAAHRDLPALMPYLHL
+PIQSGSDRILKAMNRRHKAADYVALVQRIRAARPDLALSGDFIVGFPGETEEDFQATLDL
+VEAVGYAQAFSFKYSTRPGTPGADLADQVDEAVKAERLERLQALLFSQQQDFARGCIGRT
+IDLLLEKPGRMPGQLIGRSPWLQSVNVDAKGVEIGDIIRVRITGAGPNSLFADVLG
+>tr|A0A1Q9AH51|A0A1Q9AH51_9RHIZ
+MEPAGGPKARILVSACLLGQAVRYDGRGKPLLHPLMTLWQAEGRLVPLCPEVSAGLPVPR
+PPAEIAAGAGGAALLSGMARVVEKTGGDVTAAFLQAAENALALATSMGCRHALLIDGSPS
+CGTLAIYDGSFGGRKVAGEGVVAARLRQAGIAVFADREIEALACALAEADRRAL
+>tr|A0A1Q9AFA9|A0A1Q9AFA9_9RHIZ
+MSIRSLFFIASYCVVTLAFIGLAHLTAQHSGSTLSMSAVELPKTERLLPGGTQNGFLMER
+FG
+>tr|A0A1Q9AJN8|A0A1Q9AJN8_9RHIZ
+MSAHILTVDDSASIRMTTKIALTGAGYQVTEAVDGLDGLNKAKAGRFDLIVTDLNMPNMN
+GLSMIEALRKSAAHMGVPIIFLTTESDAEMKARAKAAGATGWITKPFDAEQLVKIARKVL
+GK
+>tr|A0A1Q9AHT7|A0A1Q9AHT7_9RHIZ
+MSDAFRLDGKIALVTGAARGIGRAIAERLAEAGCTVILADRDAEEADIAAAAICHAGGQA
+IGMMLDVTDRAGVMAAADGLHARFGVLDVLVNNAGIVRNAPAAEMTFEDWQAVIDIDLTG
+VFTCAQIFGRAMVQAGRGAIVNISSMCGEIVVQPQPQAAYNAAKAGANLLTKSLAVEWAE
+AGVRVNAVAPGYVATELTLRGRSNTAWFTAWMAATPMRRLGEPREIANAVLFLASPAASF
+VTGTVLSVDGGYTAL
+>tr|A0A1Q9APQ7|A0A1Q9APQ7_9RHIZ
+MSEMVFLKAGPFRFEARLETEAAPETCSAILKLLPYRERIIHVRWSGEGLWIPLGTTDFG
+IGYENHTSFPAPGQMLLYPGGISETEMLLAYGAVHFKSKMGQLAGNHFLTVTSPLEDLAK
+LGRMVLWEGAQALEIGLT
+>tr|A0A1Q9AE23|A0A1Q9AE23_9RHIZ
+MSAPTNIASAGSTPAKPAPVRRKKSLVELLFEGRAFFALIAIILVFSSMSPNYFTVGNFL
+IMASHVAIFGLLAIGMLLVILNGGIDLSVGSTLGLSGVIAGFLMQGVQLQQLGVILYPPV
+WVVVVLTCLLGAVVGAVNGVLIAYLRVPAFVATLGVLYVARGIALLMTNGLTYNNLGGRA
+DLGNTGFDWLGFNRLGGVPIGVLVLALFAVICHILLTRTAFGRWLYSSGGNERAAELSGV
+PVKRVKIMVYVLSGVCAAVAGLVLSSQLTSAGPTAGTTYELTAIAAVVIGGAALTGGRGT
+VIGTMLGAFVIGFLSDGLVIIGVSAYWQTVFTGAVIVMAVLLNSIRYGRR
+>tr|A0A1Q9AFP3|A0A1Q9AFP3_9RHIZ
+MHKTASAASRDRVAHPLDAGAAGRFILPVIVILVLGGLGYVAYALGQDLASARTVPWVML
+GLALFIALGFEFVNGFHDTANAVATVIYTRSLPAEIAVVWSGFFNFLGVLTSSGAVAFGI
+ISLLPVELILQVNSGAGLAMVFALLCAAIIWNLGTWYLGLPASSSHTLIGAIIGVGLANQ
+FMAPTGTATSGVDWSQATNIGLSLLLSPLVGFGCAALLLVVMKMVIRNKTLYQEPKTAAP
+PPLWIRAILIFTCTGVSFAHGSNDGQKGMGLIMLILIGLVPTAFALNRTPDPHYLQSYLA
+ASTGVETALGNYVKPGVEVADAKAAVASAVKNKEWNDTTTLALQRYIHTSSAEIARFPTL
+EAIPDTLVSNIRNDIYLIGEALKLIDKKKLLPMQDADLAAVKAYHAAVDNATKFIPDWVK
+VAVALALGLGTMIGWRRIVLTVGEKIGKTHLTYGQGAAAEMVAMATIGAADHFGLPVSTT
+HVLSSGVAGTMAANGSGLQGQTVRNLLLAWVLTLPASIAIAFVLYVGLRQVF
+>tr|A0A1Q9AHM6|A0A1Q9AHM6_9RHIZ
+MASERSATKTIEKPKFLAQVRQAAIVSELGRAGSVTVSELAQQLSVSEMTVRRDLVELEK
+DGRLIRTHGGAVKPDQAPAMARSDNFDGEEPAFDARLARNAALKRRIAATAAELAAGARS
+IALDVGTTTYFVAEALTPRPQAKLFTNSIRSAGQLSARGLETYLAGGRIRAEEMSTSGPS
+AVSQFETLWFDIAFVGVSGLTREGIYDYSFEETDMKRVYLTRSSRRVVLCDSTKFNRMSL
+VLVGGLLDFNTLICDEAPSDELQAALTRAGVDIIVAR
+>tr|A0A1Q9ACK9|A0A1Q9ACK9_9RHIZ
+MNKRQVEIWKTGVAWLVLAVAGPAMAQETEAPQTLSGQAQEKQGQATVLDTITARGRGDA
+TGTGPVEGYVPRTSAAGSKTGADLADVPQSVSVIGRQELDDRGVVTKVDEALRYTPGVTT
+QPFGTDADTDWFYLRGFDATQSGVFLDGLNLYSYGFGGFQIDAYALERVDVLKGPASVLY
+GGANPGGIVDLVRKRPQDGTTREAEIGINNFGNAFFGFDVNDKADAAGAVTYRVTGKIAG
+GEQETDYSNDLRGFLMPQVTYRPDDATSLTVYAMISSFKQRHTGNGFLPYEGTVTRAPYG
+RIDRDAFFSEPDLDTGRADQQLIGTEVTHEFDNGWQFSQSLRYAHLDKHEVMFYPYGYVN
+TTDPASPLYYQLNRIGFEHDTAVHSFAADNRLTGTFATGPLAHEVLVGLDYKHYRIDQTQ
+AVPAWPAAATPIDPVDPVYGLPQPPINGTYLDQTLTLSQLGLYAQDQIRFGNGWLVTLNG
+RQDWVKTESDARIGTSYSADDSATTGRAGLAYEFASGLTPYVSAATFFNPLIGTAYDGGA
+LKPEEGHQIEGGIKYAPGWADALITASVFHIVKQNVALTRPDFLQEQLGEVTSTGFEFEA
+KANLTQNWRALASYSYTDLEITRDLNADLVGKRPYLIPTHQAAFWLDYLVTDGAAEGMSL
+GAGLRYQGKSFADNLNQFAVPDAVVVDAAIRYEKQGWGAALNVANLFDKDYVAGCQGIYT
+CGYGAGRTVTLKLSKKF
+>tr|A0A1Q9AD58|A0A1Q9AD58_9RHIZ
+MVFLLLVAAGGALVLQNLAMSAIAARASSLLIPLLLNSITGLCLFLGLLLWQAGPAGLKE
+LAQVADWRAFLPGLLGSFFVLASLMGYQRLGAASTIALLIASQLACGLLADAVRFGPASL
+KPMTLFGALLLAAGAALVVSRAGR
+>tr|A0A1Q9AP20|A0A1Q9AP20_9RHIZ
+MPLAPTPPNRGKGRPTTRESASASLGAILNLIRLGKATTRQELERESELGRAVVSDRLAT
+LSEIGLVVESELGIASGGRAPRLVRFRTDLGCILVATLDQSALGVGIADLSGRLSTEHHE
+AIDLGADARSISDRVVSLFDWLIAKHAPTMPVWGISISVPGPVTHDEETLFLEYTPSFLP
+AWEGFPFVETLVERYGAPVWLRSSIETMTMGERFSGAGQSVRDMLFVKVGKRIGAGLICD
+GRLHRGTKGAAGLIGQMPVQAGDRTSTLDALAGSDMIAREGLLAAQTGRSPLLADTLRRG
+GTVGAIEVSQAAQAGDPASMEILGLSGRLIGHAVAMLANMLNPDLIILSGTMAQTNDLIL
+AAVRETVYGESHPLVTRDLIIGKSQMGSSAGLVGAAMVAIESLFDPACLKDWIVQASPLA
+HPLFQSVRQTCGERKTMAMARPAEVPGIPAQTGSAP
+>tr|A0A1Q9ACE7|A0A1Q9ACE7_9RHIZ
+MKAAQDAATPPASAFGGPARVLFYVQHLLGIGHIARASRIAAALRQSGFVVTVVTGGAPV
+DGFPGAGIDHVALPAVKAGDAGFKGLFQLDGTPADEAFKAARRDLLLSTFERLQPDVLIT
+EAFPFGRRQMLFELIPLMEAAAARRPRPLIVASLRDILQERPKPERDRETLDFVNRFYDQ
+ILVHGDPAFVRLEETYPLAAEVADKVRYTGLVAPPKPEPSPERYEVVVSAGGGAVGRELI
+EAALEAARMRKRAGPWALITGPNLPQADFDRIRAAAPDGVEVFRFRRDFASLLASATLSV
+SQAGYNTAGDILQAGCRAVLIPFTTGGETEQGERAERLERLGLARVLKQEALSPERLAIT
+IGEALALPRQSTASLDLDGARHTARLLADSLRQRA
+>tr|A0A1Q9AIV0|A0A1Q9AIV0_9RHIZ
+MSLYSRFTGPSQAGRAKLEIERVTALVSSGQIGALLNAEVAAGETRDLLLAVNGLLKAAT
+DPAVALRKGLQTMADEHARGDIDVCLPARSFSGEFSQMAQLINELVESHIAVKKQAMACV
+RALGEGNFAAKLDSFPGKKAFINETIETLRGNLVGLIAEMNRMSEEHDRGDIDVFVPVDK
+FKGDFATMAAGVNNMVAGHIAVKKKAMACVKQFGEGNFNAELEAFPGKKAFINETIETLR
+GNFRAIIAEIQRLIQASTAGQLSERGDETRFIGDFGKLVAGINGMLDAILLPIGEGNRVL
+NLVSTGDLTEIVEIECEGDHQRMKDSINDLVQSLTAFALTISGAADQVSSGSHELSASAE
+QVSQGATEQASAAEEASASMEQVAANIKQNADNAAQTEKIARHSAKNAELSGEAVNKAVN
+AMQTIAEKISIVQEIARQTDLLALNAAVEAARAGEHGRGFAVVASEVRKLAERSQTAAAE
+IGAVSSETVKAAQEAGDMLKNLVPDIRKTAELVAEISAACREQDIGASQINEAIQQLDKV
+TQQNASASEQMSATSEELAGQSGQLQEAIAFFRTKEETKSFNAAARTPRNPAPAKPAGAK
+GLAAKKPAAKPATRSGAASVARETVARQQARARGFALDLKQGGPDEDDDCFHEAS
+>tr|A0A1Q9AN67|A0A1Q9AN67_9RHIZ
+MTVHDIRFPADISLGASGGPERKADIVALASGHEQRNAPWVNSRRRYDAGKRGARAHPFR
+TAAKPVAA
+>tr|A0A1Q9ANN3|A0A1Q9ANN3_9RHIZ
+MNSLTWAIAGLATAGVIARPMRWPEWIWAVSGAALLIALGLIPWQAAAHAVGEGWDVYLF
+LIGMMLLSETARAEGLFDWLAATAVNHARGSTFRLFTLVYLTGTVVTVFLSNDATAVVLT
+PAVFAAARAARAEPLPLLFACALIANAASFVLPISNPANLVLYGGKMPELSAWFASFALP
+SLASILVTFLALWFMERKRLSGACAKAVARKPLGRGGVAAFAAIAITALLLILVSAFDQP
+LGPPTAVAGIVSLLAVSALARRSPLPLVKEVSWGVLLLVAGLFVLVEALNQTGVIAYVAG
+LLSRPGVDPVTLGAVSGTVLAFGSNLINNLPAGLITSLAVEQAAPPRLVIDSLLIAVDLG
+PNLSVTGSLATILWLQAIRREGEDVGFWRFLKVGAVAMPTALAAALGARLLIG
+>tr|A0A1Q9AI68|A0A1Q9AI68_9RHIZ
+MRKLMTSTAMAALALSGLAMTGLTTTAAAADKEVQMLHWWTSGGEAAALNVLKQDLAKEG
+FGWKDVPVAGGGGDAAMTALKAMVAAGNYPTASQMLGYTVLDYAQAGVMGDLTETAKKEG
+WDKSVPAALQKFSVYEGKWVAAPVNVHSVNWLWINKAVMDKIGGKQPKTFDDLIALLDKA
+KAAGVTPLALGGQSWQEATMFDSIVESTGGPEFYKKAFNDLDEASLKSDTMKKSFDNLAR
+IVKYVDPNYSGRDWNLATAMVIKGEALVQVMGDWAKGEFVAAKKKPDTDFLCYRFPGTEG
+SVIYNSDMFGMFNVPADRKAAQVALATATLSKSFQSAFNVVKGSVPARTDVPDTAFDACG
+KKGIADLKAANEKGTLFGSLAQGYGAPPAIANAYKDVVSKFVHGQIKTSEEAVTQLVQAI
+DDAR
+>tr|A0A1Q9AC66|A0A1Q9AC66_9RHIZ
+MALFYFRVLDRDGDAASESAHEFASLAEAKAEARRALGEMAADGLPGAPLNMMSVEVLDA
+EHRSLVELRLLVEEVPKGLS
+>tr|A0A1Q9AKC8|A0A1Q9AKC8_9RHIZ
+MATDRLDRFDRDILQIVQRNCQRTAEMIAEEIGLSTSAVQRRLKRLREDGIIRSEIAVVD
+RKSTGTPMVFIVGMEIERDNYDALAKFRIWAERQDHIQQVYYVTGAVDLIAIVTAQDVEH
+YDDIAALIMAENPQIRRMHTNVVLRDVKLGLFVPLAGGSDADG
+>tr|A0A1Q9AKP5|A0A1Q9AKP5_9RHIZ
+MLTILLVLGGALLALVALSSIYAWGRFGRRPQGAPARALPPLDGQTEIDRRAAPMRAAHA
+GQNGVALLSDNIDAFAARALSARRAGRSLDLQYYYWRKDLTGRLLAAEVLAAADRGVKVR
+LLLDDINAGLHDAFCLSLDAHENIEVRLFNPSRARTDRLKRGLEMMARPLSATRRMHNKA
+WIADGRIAIAGGRNIGDAYFDAAEQSNFRDLDMWMLGEIAGQASEIFDAYWNSPMVLPIG
+ALRTPRRHYLPRLRRKLARIANGSAARPYLDHLDRLAGEEGLFHGTGPLRWTGELRMVAD
+PPEKAHMGRRQNWLMEVLMPVIHDTERHLRIISPYFIPGANGVKALGALTERGAEVAVLT
+NSLAATDVAAVHGAYANYRRRLLSIGVRLYELKAEREPSETARLSLFGSRSASLHTKAFT
+IDGRTGFVGSMNFDPRSASLNTEMGVLITCPALIADIDAIFTEETAPANSFRLSLEGRRL
+VWSDERAHHARRLRREPEAGFWRWLTATVIGVLPVESQL
+>tr|A0A1Q9AE07|A0A1Q9AE07_9RHIZ
+MEADFVIIGSGSAGSAIAYRLSEDGRHKVIVIEAGGSDFGPFIQMPAALAWPMSMKRYNW
+GYLSEPEPNLNNRRITAPRGKVLGGSSSINGLVYVRGHAEDFNRWEALGASGWAYADVLP
+YFKRMETSHGGEEGWRGTDGPLHVQRGPVKNPLFHAFIQAGKQAGFEETADYNGSKQEGF
+GLMEQTIYKGRRWSAANAYLRPAMKRGNVEVVHGLAERIVIENGVAKGVEIRQGKALTTI
+RARREVIVSASSFNSPKLLMLSGIGPAAHLQAMGIPVIADRPGVGANLQDHMEFYFQQIS
+TKPVSLYSWLPWFWQGVAGAQWLLSKGGLGASNQFEACAFLRSAPGLKQPDIQYHFLPVA
+ISYDGKAAAKSHGFQVHVGYNLSKSRGNVTLRSPDPSADPVIRFNYMSHPEDWEKFRHCV
+RLTREIFGQKAFDAFRGPEIQPGEAVQSDDQIDAFLREHLESAYHPCGTCRMGRADDPMA
+VVDPECRVIGVEGLRVADSSIFPHVTYGNLNSPSIMTGEKAADHILGKAPLARSNQEPWT
+NPRAAVSDR
+>tr|A0A1Q9AKZ8|A0A1Q9AKZ8_9RHIZ
+MHNTQFHPLAAGAPGMTSAAQRFGVLPKPDLSFTPEIARETEHLYQKVKDFIPAFEWPVY
+APYVAAINRLKRERNAVILAHNYQTPDIFHCVADIVGDSLKLARDATRVDAEIIIQCGVH
+FMAETSKLLNPEKTVLIPDSRAGCSLSDSITGADVRLLKQRYPGVPVVTYVNTSADVKAE
+TDICCTSSNVLQVVESLASDTVLCIPDEYLAMNVARQTNKKILTWKGHCEVHERFGAEEL
+LAYKAAYPGLEIVGHPECHPDVIAVCDFAGSTAGMIDYVKDKRPPRVLLVTECSMASNVA
+AEVEGVDFIKPCNLCPHMKRITLPKILDSLLTMTDEVTIDPTVADRARLAVERMIALKA
+>tr|A0A1Q9AJI7|A0A1Q9AJI7_9RHIZ
+MPTVNQLIRKPRQAQVKRNKVPALQQNPQKRGVCTRVYTTTPKKPNSALRKVAKIRLTNG
+FEVIGYIPGEGHNLQEHSVVMIRGGRVKDLPGVRYHIIRGVLDTQGVKNRKQRRSKYGAK
+RPK
+>tr|A0A1Q9APR6|A0A1Q9APR6_9RHIZ
+MQAPLHRQSQPRRRLAGLLAALVLIGGVLAALAPDAARAEAPVTVFAAASLKTALDAVNQ
+AFTAETGKPATASYAASSALAKQIEAGAPADLFISADEDWMNDVAGKKLIRAETRTDLLG
+NRLVLVSAKAEGAPVEIGRDFDLKGKLGEGRLAMGAVESVPAGKYGKAALEHLGLWDGVK
+DRVAGAENVRAALLLVSRGEAPFGIVYETDAAADKGVHLAGLFPAGSHPPIVYPAAILTD
+SHNPAAADYLAFLRSDKAGAIFKAQGFTLLSR
+>tr|A0A1Q9ALZ4|A0A1Q9ALZ4_9RHIZ
+MTLVLPAPPTPTVAVHGTDSRFPVRRIFCVGRNYAAHAREMGKDPDREPPFFFSKPADAV
+VDSGETVAYPPQTENFHYEAELVVAIGKAGRDITLDHALNHIWGYAVGNDLTRRDLQLAA
+RDQGRPWDFGKAFDRSAVIGPIHAVADSGHPTKGSIRLTVNGAVKQDADLAELIWSVPEI
+ISFLSHSIALAPGDLIMTGTPAGVGPLVPGDVCVVTIEGLGSLETPIGPRT
+>tr|A0A1Q9ANQ6|A0A1Q9ANQ6_9RHIZ
+MSDFISMLFAIFVVNPLQAEVSDRLRGVAVNELIGAGRACIAAEGPRLLERAQANWGWAA
+ANAIGVSFGMVDPATLLSGDNADCRRVLPLLRQNGERSNA
+>tr|A0A1Q9AQ99|A0A1Q9AQ99_9RHIZ
+MSTMAMRLEAEIPALRRYAFALLRDHNRADDLVQDCLERAISRWYLRRTDGDLRAWLFTI
+MRNLHISAGRQSQRRGPHHDLDTVMLPGSPADQDHGIAVRDILEALDRLSDDQKSLLLLV
+GVEDLSYEQAAAVIGVPVGTVMSRLSRARQKFRSILDNKTPVTLRRVK
+>tr|A0A1Q9ADK9|A0A1Q9ADK9_9RHIZ
+MGRTRSLFGCAAALAMTLSMGVSHAFAETFALVTINQQALFFNQINDGAKAAAKAAGADL
+VIFNANNVPSAQNDAIETYITQKVDGIILVAIDVNGVKPAITAAKKAGIPVIAIDAQIPD
+GDNIAFVGVDNTAAGKDIGTFFSDYVKSDMGGAAKVGVVGALNSFIQNQRLDGFKAAVSA
+GGQKVTFLDTVDGQNVQDVALSAAENLMTANPDMNALYATGEPALLGAVSAVPSQGRTDS
+IKVFGWDLTKSAIDGIDQGFVTAVIQQDPAGEGKAAVEALMKVKKGETIDKIINVPVTIV
+TKANVDQYKAMFK
+>tr|A0A1Q9AEY0|A0A1Q9AEY0_9RHIZ
+MAAKAEYGAELQRRFVPLMTGVGPVEATLSLARALCRLEAQGKLPDLVVSLGSAGSARLS
+QAEVYQASSVAYRDMDASPFGFEKGRTPFLDLPATVPLDLTLPGVPTASLSTGGNVISGA
+AYETIEADMVEMETYAVYRVCQSFGLPLIGLRGISDGITEVAHIDDWTQYLDVIDAKLAA
+IIDRLEAALAEGGLAALRRPA
+>tr|A0A1Q9AI24|A0A1Q9AI24_9RHIZ
+MERHMSDNPDEYRKVLSLDEHRAKRRPAKAVDADSDDDDVEDDGERFVATFQGDPDEIFD
+QFVEFLGGDPEIGGVIAVRPQLLILEDEPDEDVHGRYDDAVWEETLPMWDVDGDDGEPRG
+PFDASVLLELIRTHPDDFKAMLGSKEPVLGSGNSFLEAFYQY
+>tr|A0A1Q9AFZ7|A0A1Q9AFZ7_9RHIZ
+MNMMQTFKVSPLSTDKPLSIAILAMGGQGGGVLADWIVALAEAQGWVAQTTSVPGVAQRT
+GATIYYLELIKGRPGVAPVLSLMPTPGDVDIVIAAELMEAGRSVIRGLVTPDKTLLIAST
+HRSFAVGEKEKPGDGIGNPEVVVDATDFAAKKTIAFDMDRLASRNGSVVSSALFGALAAS
+RALPFTREQFEATIKAGGKGIEASLKAFGAAYERAGTGENDRLSATPKKRLDALPVSAGH
+PQLDRLLARIRGEFPESAHSMLFAGVKKLTEFQDPDYADDYLSRIKALFDADRAAGGEAK
+DFAFTLHAAKYVAIAMAYDDVIRVADLKTRATRFERVRKEVGVKADQLLYTTEYMHPRME
+EVCGTLPRGLGRWIENSPRLFGFLNRRIEKGRRVKTGTMGWFLGLYLVSALRRFRRGSLR
+HHVEMRHVEDWLASARSVLPENYDLAVEILGNRRLVKGYSDTHVRGLSKFDRVMSALPLL
+REREDGAAWMRRLRQAALLDEQGIALDGALKTVATL
+>tr|A0A1Q9AGM6|A0A1Q9AGM6_9RHIZ
+MQAGPRASDAASFQPANSRTLRLPTIVRLRWLAVSGQATTVLVVAFWMRFPMPLMTAGLL
+IALLAAANLALPLLYPPAHRLQPRAAFLLLFTDLAQLAALLFITGGIANPFTLLISVPVI
+ISSASQPRNYSIALAGLAIAAVTMLAFSPYPLPWYDGAPPVLPPVLLAGFWVAIVSTILF
+AAFYTYRVSLEASELAEALAATELVLQREKHLSQLDGLAAAAAHELGTPLATITLVAKEM
+ANELGDDPRFGEDVQLLRSQSERCRDILRQITTLPSQDEAHMNRLPLSSMIEEVIAPHRE
+FGVRITLVEESGRAGEPVGNRNAGILYGLGNLVENAVDFAREEVVVTVRHTAESVTVTIA
+DDGEGYAPEILSRIGDPYVTKRQRDDSAGGLGLGLFIAKTLLERSGATLTFENGGPERPG
+ARVQVIWPRGMLETRTAS
+>tr|A0A1Q9ANB5|A0A1Q9ANB5_9RHIZ
+MTHPTATLVEDTTEVTSQTIRDALRDAIVDRRLAPGTKLSEADVGTIFKVSRTLARSALQ
+ALSYEGLVVVERNRGAFVASPSLEEARQIFASRRILEPGILAEAARRIGPAEIAALRHLL
+KEEERLIEARGQHARRAEIKASGDFHLALADMAGNAVLRRFMDELVARSSLVIALYGQSA
+ISSCGHQEHEAIVTHIETGAIDEATAMMLHHIDHIEADLDLRAKTGSDLKEALLQSL
+>tr|A0A1Q9ANY0|A0A1Q9ANY0_9RHIZ
+MLDLTSRIYEAAFLSDLWQPVLHDLAGAVAAEGAVIANISDPAIPYIASPGVAALYDEFL
+RGGWLQNNAKTKALLSQPAGGFFCDADHLSDAWMAEQPVYRDFYWPRGFGYAAGTVIESP
+NGDRVTISIEKKRGERGLDRGELDLLNDLRPHLARAALLACRFALARIEASLEALALAGL
+PAASIRADGRVIAANAPFSGIVDQATIESQDRLLVRHREVNQALYALLAQARQRSAEGAP
+PSRSFPIPSRPGSLPAVLHLLPVTGAVRDIFVSAAFFVVITPLKRQAAVSTDILRGLFDL
+TPAEARIGQSLVEGATIKETADSFGIAVETARSHVKSILAKSGMSRQGDFVAAISALPQM
+HGGADLRR
+>tr|A0A1Q9AH28|A0A1Q9AH28_9RHIZ
+MPNSSEKKQLLHLVFGGELTTLTEVEFRDLSKLDIVGIFPNYETALTAWKAKAQQTVDNA
+HMRYFIVHMHRLLDPNQA
+>tr|A0A1Q9AJH5|A0A1Q9AJH5_9RHIZ
+MLQSTSECALLFEQFDWDASPLGPVKGWGAELRTLVTVMLNSLQPMLLVWGPEQITLYND
+GYAQMCGNRHPGAFGHPFRDLWFDIWDRVDPIISDAYAGKGTSMDDIEFIMHRNGFPEEA
+HFAFSYTPVRGTDGAVLGMFCACTETTADVRLRREQISERERLLRIFEMSPAATAALVGP
+DHVFDFANAAFNLISGQRPLIGLPAAEALPELAAVGLIDSLNTAYRSGLPLTAQAMPLQF
+RRAGQQADEKRLIDIVCQPMRDHSGAMTGILIQAQDVTEKRAEEAHRELLARELGHRLKN
+QLAMVQAIVSQTLRSASDIPTARRTLGDRLAVLGAAHDMIIRGDARSSTIADIVAQMAEV
+HDDRAAPRIRAEGPALTMGARPTLSLSLILHELATNASKYGALSTPSGRVELRWAVSTPT
+PDRVTIHWTEHEGPPVSAPASEGTGSKLIKAGLAGARDCRVEIRYEPAGLICTISADLAG
+LQAEG
+>tr|A0A1Q9AQ52|A0A1Q9AQ52_9RHIZ
+MKMTETPYLRFPSGKGGGRSFLKERSGSAAVEFAILILPFLMVVFALIETSVAFAGEQLL
+ANATEVMARKLRTGEITTTTSQAEFRRQFCTEIAAMMTCSSSEVDTPEKLFLDVRSFKDF
+ASLPEAVPRIGNAPDGDLDTSQFAYAPGGSGAINIVRAYYRWRVVTDLVRPYITNLRPAG
+SSRPRDYLMVATTAFRTEKY
+>tr|A0A1Q9AQR9|A0A1Q9AQR9_9RHIZ
+MNKLARLLLRRLDRVARREAQRNAHANGLLAMKIVEVDGHVLRRYSPAFDTDRMRGDRDR
+DLAWIRRTFAAYLLPPPQQSDIVVTEGKASTALLPSLDRFGQVSAEDHAAAVDHRRRAYA
+VGLVGRAGRAPLVSNVVAALVLARAIENTSMPLARIVQTIAMAAPVICLHAPVPGFERAM
+RRLLELPGFLPGAVPNGIDGDYVYDDSSFAVADGTGRAYIQFIGESIHRLTGATLQRRLV
+NALTRDYPVVAISETAQHIPSEISIAADIALVGGFLDYPFISMMLEAMYGDTGLAALTRW
+TNAYDSHYLTIDDVVLAFRPGRGASEVIDVLASLTERNRVAARDGDDDDDEPSSKATGKS
+SKSKQDGAASEKSSSGKDGGGGWKRDKPSGAEVIQPEPWGPGEGDRPALMVETLSGYGKA
+KTWALDLKADLADHRAGALAWSDMSTKLLLYGPPGTGKTTFARALCNSLQVPLVATSVST
+WLQGGHLNDVIAKMAKTFAEARAIAPSILFIDEIDGIGKRQPAEREYADYWNTVVNKALE
+LLDGAVKSEGLVIVGATNRPDQIDDAIKRSGRLETHIEIPMPDIAALAAIFMHHLGDDLA
+VLVGDAGKLNGEAHDEVEADVAGPHVEGPPPPENDADTDSDEHGSGDTRKGTTT
+>tr|A0A1Q9AP92|A0A1Q9AP92_9RHIZ
+MTGIALIGCGFVADYYALTLKNHPELRLCGVFDILPERQAAFARFWSARAYDSLEALLAD
+PSVEIVVNLTPPETHAEINRAALQAGKHVYCEKPLAMTMDDAQAVVELAETRGLVIAGAP
+ANALSSARAHCAALIRSGAIGAPRLAYAEMEDGPVFRGNWRSWKSRSGAPWPGVHEFSIG
+CTLEHAGYAASWLVSLFGAVDRVTAFSALAFPNKGPGTEGLSLGHDFSVGCMAFRSGLSA
+RLTSGLGAPRDRSLTVVGEEGILVVRDLWDEFSAVQLEPFGRRPFWPRLVDRLEHELQRK
+LGFRLTAGRTMPYARRKLALPAYPSRIDFARGVAVQAAAIREGRTPFFSGRTALHLTDIA
+LSLHNGLNDHAPLPPAQTALVGDQG
+>tr|A0A1Q9AQD0|A0A1Q9AQD0_9RHIZ
+MPAARSACPDMALGRLWPFPFGGNPDLALKQTTKGRGRGQAADPPIIPDGNPAGARAFAT
+RLHLCPATFVVAAI
+>tr|A0A1Q9AEA4|A0A1Q9AEA4_9RHIZ
+MLNFLRSIWWGFWNTFNGLVWGVLRLFGHYPPVPQAKHDNLSTEDVQQELQNARDRASIA
+EPDDLETRVALIWGYAHADARVRTEIDLGILPEPQRHALMLMSDLDLLRLAGDRSLCAKW
+HLGGGKFPRTKKKAPEAPEPSKEEVVSHAFMRRQQARRWRVEDDETPSLTYARR
+>tr|A0A1Q9AG72|A0A1Q9AG72_9RHIZ
+MLAGLKPSTDIVERRDAQRFEPAHSDYYRGRPGRPLKLMLQARHDFLSIWRESDYRDKVS
+SMTLFGRQLVVVNSPEAIRTVVAKRHENFERKTPQMRRALEFLLGDGLFISDGETWKQRR
+PLVNDIVHKNRLPFFGRIMEQTTGELVRRWESLADGASVNVLFEMAGLTAEIIARSVFGR
+DLGEDAANAVSEGFESYQSLIDSINIGYFLGFDEGLPVLRTPKLRRSVKRIHTIIDKVVE
+DHLAGRGDHDSMIELLVRRQQRSPELKLDVVALRNEAATIFMAGHETTAATLTWAWYLLS
+RAPWVEARLHEEIERVCGDRPPRFEDLDDLVWCKAVIEETLRLYPPVPILARQAKEADRI
+GEIDVKPASLILIVPWLLHRTEAFFPEAHLFKPERFLPGQKPIPYSYIPFASGPRVCPGL
+QFGLNEAVLCLAILTQRFRLRVPEEHKVEPQCRLTLRPRGGIPVTLHRR
+>tr|A0A1Q9AHI9|A0A1Q9AHI9_9RHIZ
+MRRASAFIEDKRSRGVWLGGALVALVVLTALVGPVVVTADPNRQDLLHVLAAPSREALLG
+TDHLGRSVLARLVHAARLSLSLGAMAVATAALPGIGLGLATAFAGGWTDRLLTSLADAIL
+AVPGLILVLLIAALSPGAFWPLFLGLSLTQWVEWFRMTRAASRSALASPAVEAARLLGFS
+PWHILRRHVFPDLLPLFGTLGAFGLGSAVLALGALGFIGFGLRPPTPEWGLMMVEMLPYW
+NEAPLALLMPPVCLLTLILGLQILARR
+>tr|A0A1Q9AN49|A0A1Q9AN49_9RHIZ
+MDLRRFEFDGRMDERDGQQFVSGRALFGDGWTRIHRVETHGFASMPVKGAKGLLLAPHPD
+LGFVLGLENPGMRPAGMPGGGTALYDAGGNIIRMVMGDGIRIDIAGASMTLTKGGVTLTI
+SAGGVEITGGFLKVNGVRVDDTHVHGGVVPGSGNTGTPA
+>tr|A0A1Q9AKV5|A0A1Q9AKV5_9RHIZ
+MALYEHVFLARQDISAQQVDALVEQYKGVIEANGGKVGRVENWGLKSLTYRIKKNRKAHY
+VLMDIDAPAPAVHEVERQMRISEDVLRYMTIAVEKHEEGASAMMQKRDRDDRPRRDGDRP
+ERSFGDRPRRDNRDGDREDRPRRPREDRA
+>tr|A0A1Q9ALD9|A0A1Q9ALD9_9RHIZ
+MSGSNNPYGGSFGTQMTASASYGAAKPAAAAPSGPSSSGAGTSGAGELIKDTTTAGFARD
+VMEASRHQPVLVDFWAPWCGPCKQLTPVIEKVVREAGGRVRLVKMNIDEHPSIAGQLGIQ
+SIPAVIAFSGGRPVDGFMGALPESQVREFIDRIAGPAIDAGAEEIAAVLAEAKVLAEEGA
+HEEAAGLYSAVLQAEPENAEALAGLAQVMIAAGAPEQARALLDDLPEAVKAEAGLVAVAK
+KLGQIEEARKLGDPNALERALTENPEDHEARLKLAKIRNVEGDRTAAAEHLLTIMRKDRS
+FGEDAARRELLQFFEVWGPTDPATIAARRRLSALLFS
+>tr|A0A1Q9AJ52|A0A1Q9AJ52_9RHIZ
+MSGVNEIRSTFLDFFKTNGHEIVPSSPLVPRNDPTLMFTNAGMVQFKNVFTGLESRPYST
+ATTAQKCVRAGGKHNDLDNVGYTARHHTFFEMLGNFSFGDYFKERAIELAWTLVTREFGI
+DRNRLLVTVYHTDDEAFGLWKKIAGLPDERIIRIPTSDNFWAMGDTGPCGPCSEIFYDHG
+DHIWGGPPGSADEDGDRFIEIWNLVFMQYEQVTKEERVDLPRPSIDTGMGLERVAALLQG
+KHDNYDIDLFQALIAASVEATGVKAKGDQRASHRVIADHLRSSAFLIADGVLPSNEGRGY
+VLRRIMRRAMRHAQLLGAKDPLMYRLLPALVGQMGRAYPELIRAESLISETLKLEETRFR
+KTLERGLGLLNDASATLGEGDRLDGETAFKLYDTYGFPLDLTQDALRARGVGVDTDGFAA
+AMERQKAEARASWAGSGDAAAETIWYGLRERLGATEFLGYETETAEGVIQALVRDGAEIA
+SAKAGESVQVVLNQTPFYGESGGQMGDAGTITTEQARLKVTDTQKRGDGLFVHIAEVEEG
+TVEAGQAAALEVDHGRRARLRANHSATHLLHEALREVLGTHVAQKGSLVAPERLRFDVSH
+PKPMSAEELKVVEDMANEIVVQNTAVTTRLMSVDDAIAEGAMALFGEKYGDEVRVVSMGT
+ALHGNKAGKPYSVELCGGTHVAATGQIGLVKILGESAVGAGVRRIEALTGPGALAYLSEQ
+DERVKALAGQLKVQPAEVLSRVEQLVDERRKMERELADARRKLALTGGTQASDAPREVAG
+VPFLGKVVTGVEPKDLKGLADDGKKSLGSGVVVFVGVADGKASAVVGVTEDLTGRFSAVE
+LVRVASAALGGKGGGGRADMAQAGGPDGDKAADAVEAVASAMAG
+>tr|A0A1Q9APR7|A0A1Q9APR7_9RHIZ
+MTFPATNTAGLVHAVLACLEAADLPCLLFGGWAEEALGLRPPGPHGDIDLVYVGPGFAGL
+DAFLAGGQRLCPHDTPLRSLPAKRFPHKRAFLVEDVLCEILLVDLHDGLPATCFWGDTLF
+FWERPLAEATPAVLGGLPVPVMSRANLLAYRALHRETQPWRWHDATLSEAQAPDLPAF
+>tr|A0A1Q9AG69|A0A1Q9AG69_9RHIZ
+MNANAIVQKLWRLCTVLRKDGITYQQYVTELTYLLFLKMMAERNRETGSLPKGMRWADLV
+AKNPFDRLGHYRTVLLALGSSATRLGKDDELIPAPGDDAGPEERKRYADARPLPDMVQKI
+FDNASTFLREPQNLTTLVTAIDELDWFSEDRDQFGDLYEGLLQKNAEETKRGAGQYFTPR
+VLIELLVRLMQPQPGEVIQDPAAGTGGFLIAADRSMKARTDDYLALGEKEQAFQKRRAIH
+GMENVPGTLRLLLMNLYLHDIEGDHVDLGDTLSDKGTKLGRADLILTNPPFGPAGGTPTR
+DDLSVTKTVSSYQLPFVEHCIRALEPGGRAAIVVPDNVLFEDGRGKELRRMMMERCDLHT
+ILRLPTGIFYAQGVKTNVLFLTRGKTDTGNTKAVWIYDLRAQMPKFGKTTPLTPAHFEGF
+EKAFGASPYGAERGPDEGEAGRWRPFTREAIAARGDNLDIAWLREAEEEAEEGLTEPDDI
+AAAILGHLQAATLEIEALMAELGDEVLAELPEAAE
+>tr|A0A1Q9AP82|A0A1Q9AP82_9RHIZ
+MNRDYRRWYSPSLHREMELLVFGHAGAKVLMIPTRDGRFYEYEDLGIVRALADKVEAGQL
+QLYCVDSLARESFYDLQRHPAERIRRHAAFEAYLINEVLPLMATLNPHDCVIAHGCSLGA
+FQAASLFFRHPQHFRKLAAFSGRYDLTIEVEHFSNLFSGYYDEEIYFHTPPHFLPNLEGW
+QLDLLRQRDIVLTIGNEDPFLENNLHFSQLLSRKGIAHQLHLWDGRAHRAGAWRRMAAIY
+I
+>tr|A0A1Q9AEB1|A0A1Q9AEB1_9RHIZ
+MTEAYIYDHVRTPRGRGKKDGALHEVPSVRLAAKTLEALRDRNGLDTTQVDDIIMGCVDP
+VMDAGAVIPKAAAFEAGYSTKAPGMQISRFCASGLDAVNLAAGKIAAGADEIVIAGGVES
+MSRVGMGMSGGSWYMDPSVNFPSFFMPQGVSADLIATKYGFTRDDVDAYAVESQRRAAAA
+WEKGYFAKSVIPVKDQNGLTILDRDEHMRPGTDMQALASLNASFQMPGEMGGFEAVGIQA
+HPEIERINYVHHAGNSSGIVDGAGAVLIGSKAGGETLGLKPRARIRAFANIGSEPALMLT
+GPVDVTEKLLKKTGMSISDIDLFELNEAFAAVVLRYMQAFEISHDIINVNGGAIAMGHPL
+GATGAMILGTVLDELERRDLNTALVTLCIGAGMGTATVIERV
+>tr|A0A1Q9AFB3|A0A1Q9AFB3_9RHIZ
+MAGHSQFKNIMHRKGRQDAVRSKMFSKLAREITVAAKTGLPDPTMNSRLRLAVQNAKAQS
+MPKDNIERAIKKAAGADGESYDEVRYEGYGPGGVAVIVEALTDNRNRTASSVRSTFSKAG
+GALGETGSVSFSFDRVGEITYKASVGSADKVMEAAIEAGAEDVVSDEDSHTIYCGFEDIN
+EVSKALEGALGEADTVKAVWRPQNTVPVDEERAASLLKLVETLEDDDDVQNVYTNFEVSD
+EVMAKLSA
+>tr|A0A1Q9AME1|A0A1Q9AME1_9RHIZ
+MSGEVVNLRQARKQKARRDKEKTAEQNRISFGRTKAEKTLTKAVNAMADRKLDQGKLEQG
+RLDQGGRESAPDGSDDA
+>tr|A0A1Q9AG48|A0A1Q9AG48_9RHIZ
+MTGKDGVHAAEQAVRSLFAPTPLQLNEHLSARTGATVYLKREDLSPVRSYKIRGAFNFFR
+KQLAEEGAAARRFVCASAGNHAQGFAFICRHFGVEGTVFMPVTTPQQKIDKTRMFGGPFI
+TIRLFGDIFDQCYKAAQAFTVETGAVMVPPFDHADIIEGQATIAAEIAAQLPEGVTPDLM
+VMPVGGGGLSAGVTGYFAGDLPPEAFLFCEPEGAPSLKRSLETGALVTLDQVDNFVDGAA
+VGRIGALNFERLRHFSAGQVLLLPENAICVTIIDMLNVEGVVLEPAGALSIAALDALPPE
+QLQGKTVVAVVSGGNFDFERLPDVKERAMRQKGLKKYFILRLAQRPGALKDFLSLLGPED
+DIARFEYLKKSARNFGSILIGIETQRPENFATLKRSFDEAGMSYQDITENDILSSLII
+>tr|A0A1Q9AJ34|A0A1Q9AJ34_9RHIZ
+MSKGLDLNDIKRRMDGALAAFKNDIASLRTGRASANVLDPVMVEAYGSRVPLNQVANITV
+PEPRMLGVSIWDRQMVGAVDRAIRESNLGLNPIIDGQNLRIPLPELNEERRRSLVKVAHD
+YAEKSKVAIRHVRRDGMDVLKKAEKDGIVGQDESRSLSEKVQKITDDMISDIDRLLADKE
+KEIMQV
+>tr|A0A1Q9APV8|A0A1Q9APV8_9RHIZ
+MDKPQKDLTDCEREPIHIPGAIQPHGALAVLDPADLTLLAASANLSDILGCEAVIGSRLG
+GAIGEKLDEIALWHESDQPFLRVIARDERTVITAHRSEGLIVVELELANDSSAFSIFSQL
+NNFVQEIAGQQTVTGALDACARVVQMLSGFDRVLIYRFDEDWNGRVMAESVNDRLPSYLD
+LRFPAGDIPAQARRLYAQNRLRSIPDADYRAVPIEPSVDPRSGQPLDLSFAQLRSVSPVH
+LEYMRSMGTRASMSVSIMVDGALWGLVACHSAAPRNLSPMLHDACDFVVQSLAMRIGAQE
+RAEDAAARERLSAIETQLLTAMTGAPDWVAGLMSDPDRLLAQVGATGVAMLTEGRLEVAG
+EVPDDDAIGAIVHWLDARGVSEIYTTDRLMLDMPQAEAFSRIASGLLALRISDLTSNWLL
+WFRPEVIETVTWAGNPHKIVREEGRIHPRNSFEAWREQVRGRALAWSEAERSAARNLRTA
+IVGVVLRRAEEMAQLTRELQRSNRELEAFSYSVSHDLRAPFRHIVGFAQLLREREADMDA
+KSRHYLQTISDSALAAGRLVDDLLNFSQLGRASLSKSAIDMDKVVNEVMRSINLSTEGRN
+IEWRVSSLPHTFGDQTLLRQVWYNLIDNAVKYTRPRDPAIITIHGQEHDGKTCYTVEDNG
+VGFDMAYAAKLFGVFQRLQRAEDFEGTGIGLALVRRILDRHNGSITATGEVGKGARFTFA
+LPLPQKKGRALV
+>tr|A0A1Q9ADP6|A0A1Q9ADP6_9RHIZ
+MFRKVLIANRGEIAVRVIKTLRRMGIASVAVYSDADRFAMATRLADEAVRLGPAPASESY
+LNIDAVIAACKATGAEAVHPGYGFLSENIGFAERLKAEGIAFIGPKPENIADFGLKHTAR
+ELAKASGVPLLPGSDLLASVEEALAAAETVGYPVMLKSTAGGGGIGMQLCADATALKAAF
+ESVQRTARASFGDARVYLERFVAKARHVEVQIFGDGAGRVIALGERDCSLQRRNQKVIEE
+TPAPGLTDRVRRELHAAAVSLGSKVHYASAGTVEFIYDPAREAFYFLEVNTRLQVEHPVT
+EAVFGIDLVEWMIRQAAGEDVLTGKENLTPKGAAIEARLYAEMPHADFRPSAGLLTEVTF
+PDDARIDGWIETGTEVTPFYDPMLAKIIVADENRDAAIARLKAALAETSIFGIETNLDYL
+RAIAASDLFGSGDVATTALKDFAFVPEVVEVIAPGAQSSLQELPGRLGLWHVGVPPSGPM
+DERSFRHANRLVGNHDHTAALELTVSGPMLKVFSDVTVALAGAEMPMTLDGAPVPHGTPV
+AVKAGQVLAIGAIQGAGQRAYLAVAGGFDAPVVLGSRATFGLGQFGGNATGTLRAGHVLR
+LARAPQQEVQPADAPAAIAREWSVGVLYGPHGAPDFFLDEDIETLFSTEYEVHFNSARTG
+VRLIGPAPKWARTDGGEAGLHPSNLHDNAYAIGAIDFTGDMPIILGPDGPSLGGFVCPAV
+IAQDEQWKMGQFKPGDRIRFHPVARAADPVAGPAVHGIGETAGSPVIGKREDGAVPVVYR
+RQGDDNLLVEYGSMQLDVGLRLRAHLLMQAVKAAKLPGLIDLTPGIRSLQIHYDGSSLAR
+TRLLGLLKEIEDAMPSVDQVKVPSRTVWLPLSWNDPDAALAMRKYQELVRANAPWCPDNI
+EFIRRINGLADEQAVRQTIFDASYLVMGLGDVYLGAPVATPLDPRHRLVTTKYNPARTWT
+PENAVGIGGAYMCVYGMEGPGGYQLFGRTIQMWNTWRQTPEFGRDKPWLLDFFDQIRFFP
+VDHQELTEARAAFPHGGYPIRIEEGEFSYQAYQAELVCHADSIGLFKAQQQAAFEAERRR
+WKEQGLDSFVVDEGGGMGLGGDLPEGCFGVESAVPGNVWKVLVEEGQKVEAGQTLAIIES
+MKMEITVNAHAPGRVRDLRAGPGRTVKAGDVLVVLEDL
+>tr|A0A1Q9AG32|A0A1Q9AG32_9RHIZ
+MSGIHEFIDNEVKTNDVVLFMKGTPQFPQCGFSGQVVQILDYVGVDYKGINVLADADLRQ
+GIKDYASWPTIPQLYVKGEFVGGCDIVREMFQAGELQTMLQEQGIAVRAA
+>tr|A0A1Q9ALQ0|A0A1Q9ALQ0_9RHIZ
+MRGVVIHAPKDLRIEEVPEELLQPDQVRVAVSVGGICGSDLHYYHNGGFGAVRLRAPMAL
+GHEFSGVVTNVGSDVSHLVPGMRVAVNPSRPCGHCRYCALGMQNQCVDMRFMGSAMRNPH
+VQGGFREGVTVHASQPLLIDDALSMREAAMAEPLAVCLRAARQAGPLLGKQVLITGAGPI
+GMLSLLVARRAGATRIVITDVAEAPLELAIRIGADEAVNVSSNDGVLEPYRANKGTFDVL
+FEASGNQSALVSALDTLRPGGVIVQLGLGGEATLPINAVVAKELQLRGTFRFHEEFQLAV
+ELMGRELIDVKPLISATLPFEQAREAFELASDRSRSVKVQLVFNEIGD
+>tr|A0A1Q9AL57|A0A1Q9AL57_9RHIZ
+MFIAIGFFAQLVDGALGMAFGLLTTTSLLTLGVPIATASAMTHVTEVFTTAASGLSHTYH
+RNIDWKLVARLAPAGMVGGAIGAFVLSNIDGKVIEPYVSAYLVLVGFYILFKAFRPMAIR
+EVRDWLVPFIGLAGGGLDAAGGGGWGPIVTTSLIGRGHDPKRVIGSTSLTEFAVTLVISA
+TFILTLGFAELGSAIGVIIGGVLAAPIGAFVVKKLPVKPLMIAVACLIIATSLYRVF
+>tr|A0A1Q9ADU1|A0A1Q9ADU1_9RHIZ
+MRNTLPRQAMVDPVRPDEILSLAKLAIQPAFQPIAEVATGLVFGYEALIRGHDRLGFSTP
+HDLLDRAQAEGQLLALEQMVASRALAIFADLPDFSTRTLFLNVDGRVAGKIVAYAQRLLA
+SLEGAAIPASAICFELSERFDHFAGADDLAGMIRSLKALGFKLAIDDFGVGFNGMKLLCD
+LAVDYIKIDRHFIRGIETNPRKRHVLRQVVNSSHVLGTRVIAEGVETETEFVICRDLGCD
+LVQGYYVARPTSDAMSLRSAYVHLEQAGRRRIANGSLDAVLIRQQVEIVPVVSENEGLDA
+VFDFFRQSPQRSFVPVINAGGEPRGVLHEHHLKEMIYHPFGRDLLQNKLYRRTVLDFVTP
+APIADLDMPTEEILRAFADMEGSDCVILTENARYAGILSASALLRILHEKQLKHAQEENP
+LTGLPGNRAIRDYIQTLVQDGDEERFVCYCDFDNFKPYNDAYGFQKGDMAITLFAALMRR
+HFIGEGTFLAHVGGDDFFIGVRGLSRATVEANMARLLSDFSADVRQLYSPGDLEAGAIRG
+VARDGTPTAFPLMRCSIAVLMLPRGQVFSHAMPISMRIAQAKKSAKASADGLVFDIVGGG
+ITA
+>tr|A0A1Q9AE04|A0A1Q9AE04_9RHIZ
+MTIAKIEDAIAALARGEMIVVVDDQDRENEGDIVAAADSITPQQIAFMMNKARGLICVSM
+ERQRLEALDLPLMVPVNTEYLQTAFTVSVDYIPGTSTGISAADRALTIRALVDETTKPAD
+FARPGHVFPLRAHPEGVLGRRGHTEAAVDLCRLAGRAPSGVICEVAKDDGTMARLPDLEI
+FARENGLVLVTIEDLVAYRQGDAAPALRSVA
+>tr|A0A1Q9ACG8|A0A1Q9ACG8_9RHIZ
+MGRAVILAAGVTAWVASAGAGLAQEAGNSPAVKGLTVELNGLNPSDKGCKLTFTAESSLK
+QDIDKLSFEFVLFNGQGLVERMAVLDFRDLPAGKTKVRQFDLAGTRCEALGSLLINDAPV
+CQGADLAREACMGGLRTGSKAPIALKG
+>tr|A0A1Q9AIR9|A0A1Q9AIR9_9RHIZ
+MAVTGVTSAANTPANTTTTTAASSKDAAAASLNYDSFLKLLVTQMKNQDPTQPMDSAQQM
+AQLATFSQVEQTIKTNKNLETLIQGNALSQAGSVIGRTVTSADGATSGVVSSVTITSTGI
+SAMLASGQTIDVTAGVTIK
+>tr|A0A1Q9AIX2|A0A1Q9AIX2_9RHIZ
+MKKTDVVVLGAGIVGISTAIHLARRGKSVVLLDRRGPGEETSYGNAGLIQREGVFPYGFP
+HDFGALFRYALNNTIDAHYHLKALPGLVPFLARYWWHSGFRQHQRIARLYAPLIEHSISE
+HDDLIRASGAEDLIRKDGWMKVFRTEAARDAAYKDAENLSAAFGVNHQKLTAADIRTAEP
+SIRTELVGGLRWTDPWSIRDPQSLLKAYLAYFQSLGGMLMAGDAATLEHILEGPGWRLAT
+PEGPLETQEVVVALGPWADAVTRKLGYHMPLAVKRGYHMHYGAEGNATLNNWVLDAEMGY
+FLAPMLRGIRLTTGAEFAHRDAPKTPVQLTRAEKVAREFFPLAERRDAEPWMGARPCTPD
+MMPVIGKAPRHQGLWFAFGHAHHGMTLGPVTGRALAEMMTGERTVIDLTPYRPDRFLA
+>tr|A0A1Q9AMZ6|A0A1Q9AMZ6_9RHIZ
+MIRRTSRPAGPLLRLLRSRSGGMALIGALTLPMVIGVGALAVDYGRALNSQAEQQRAADL
+ASYAGALAYGGTKSTDSMRAAVINVAALQKIPASAVVAELVDSPRTSGAKAVNVTITTSG
+PTFLAKLFGTNALTIQAIASTEIGSGSSGDAAGCVIALDAQGTGVTMSGGTTLNVPNCTV
+ASNATITSPCGTKIVTKGALYNSASPPDQPSWCQTIQKQDGTPAPISKGVTADPLASNPG
+VLAAVARFNDQPSLQAPAKPATVNGADLVFDPWDTSKQQALKQALAAQGCQASYSDNEKL
+WRVTCTSTSMTFGDLMIGSSLKLEFNLAGPANTTYNFKSIRSTGGGSYAFGPGTFTVSGG
+ISLNGDAGSFGAGTFRIGPATNDCGYSLCGNSNGQLTFAGPSTFELSNGVKVSGSNVTTL
+GSGTGNSYKIGPSSDGRALFVDSGSAYLSTASSTAQLFRLWGKVQSGGGTCVVFPAASQH
+DIMGSVDMAGGLEFGSGPYTIDGYMGLGQNNGGSVTCQGKDLSFSGRDVTITLSGKETMT
+SDACKGTAYCASAGYKDMVMRAPGSGQFAQLAVIGPTKVKAGGTLTAGASGSNISGAFYF
+PLAPISMSGGASAQDACLFLIGSAISISGGSAAASQCDKLLSSGGGAGKSAKLVR
+>tr|A0A1Q9AJ87|A0A1Q9AJ87_9RHIZ
+MPTFSPSLEKALHQALTLANKRHHEYATLEHLLLALIDDADAAAVMGACNVNLETLRKTV
+ADYVDNELSNLVTGYDEDSKPTASFQRVIQRAVIHVQSSGREEVTGANVLVAIFAERESH
+AAYFLQEQEMTRYDAVNFISHGIGKRPGTSEARPPRGVDEGEAEPKAARTDDETGQKKPQ
+DALSAYCVNLNEKAKIGKIDPLIGRHSEVSRTIQVLCRRSKNNPLYVGDPGVGKTAIAEG
+LAKRIVEGKVPEALANATIFSLDMGTLLAGTRYRGDFEERLKQVVKELEDYPGAVLFIDE
+IHTVIGAGATSGGAMDASNLLKPALSSGAIRCIGSTTYKEYRQFFEKDRALVRRFQKIDV
+NEPSINDAIEIMKGLKPYFEDYHKLKYSNEAIKSAVELSARYISDRKLPDKAIDVIDETG
+AAQMLLPVAKRRKLITEKEIEATIATMARIPPKTVSKDDETVLANLDKELRTVVYGQDLA
+IEALSSAIKLARAGLREPNKPIGCYVFSGPTGVGKTEVAKQLAASLGVELLRFDMSEYME
+RHTVSRLLGAPPGYVGFDQGGLLTDGIDQHPHSVLLLDEIEKAHPDLFNILLQVMDHGQL
+TDHNGKKIDFRNVILIMTTNAGASDMAKAAIGFGSSKRTGEDVEALNRLFTPEFRNRLDA
+VIPFGPLPTPVIHQVVQKFVMQLETQLAERNVTFDLAPEAVAWLAEKGYDEKMGARPLSR
+VIQENIKKPLAEEILFGKLKKGGVVKVTIGDKPDGSKGIVLESVPESERIKPKAEVVRPA
+RKSAKAEPQAEVETVGAEPKASGRKAAKPAQTPEPDAPRKGRTVPKVPRK
+>tr|A0A1Q9AC79|A0A1Q9AC79_9RHIZ
+MTRRFEDARILMYSHDTFGLGHLRRCRTIAHSLVEHYRGVHVLIISGATIAGAFDYRARV
+DFVKIPSVIKLRNGEYTSMDQHIDLHDTLKMRRSIIRHTAETFKPHIFIVDKEPMGLRGE
+VEETLTYLKQQGTTLVLGLREVMDAPHLLEAEWARGDTLRKIGQFYDQVWVYGPPDFYDP
+LVGLDVPPQVRARMEFVGFLQRSASADVLSEHKPKEDYILVTTGGGGDGEELIDDVLNAY
+QADPTLTERALVVLGPYMPAQQRAELIRRAQAIPYLEVIEFDNRMEQLIAGAKAVVAMGG
+YNTYCEIMSFDKPALIVPRVVPREEQLIRARRAAELGLIDMLLPEEAHDPMRLSAALKAL
+PDRPPPSTSARHLCLDGLANIADLVAEVFDRRGDRARLSLVSG
+>tr|A0A1Q9AKG6|A0A1Q9AKG6_9RHIZ
+MGYFLTADGGTESLRARVYDLDGHCLGSVAVAYETRFSAGARAEQDPEDWWRAFVSAARG
+AIAEARVDPQNVDAICLATTSCTVVALDGDGRALRPAIIWMDVRANCEADAVLATGDGAL
+IANGGGRGPVSAEWMIPKALWIARNEPEIFEKAATICEYQDFMTLRLTGERAASLNNVTL
+RWHYQTDRGGWPTSLVDALGLSALLRKWPERIVPPGGVIGTLSAKAAEELGLPSAVKVVQ
+GGADALIGMIGLGVAKPGQLALITGSSHLQFGVTEQPVHAPGIWGTYRDCVYPDRYIVEG
+GQTSTGSIIAWLGRLMNGTMDLAEMNRKAAALDPGCDGLLVQDHFQGNRTPYTDPLSRGA
+IVGLTLAHEPHHIFRAVMEGIGFGTRAILDAMASAGYRGTEITVGGGAGASELWLQIHAD
+TAGLPVSVPASRDAPSVGAAVLAAHGAGHFPSIDEGIAAMVKPGRRIEPRQREVALYDEI
+YQRYLALYPALKAVASAGRSPA
+>tr|A0A1Q9APM8|A0A1Q9APM8_9RHIZ
+MELGLYTFADVDPQAPRGRGAEGEERIRHLLEEIALADEVGLDVFGVGEHHRPDYAVSAP
+AVVLAAAAARTKRIRLTSAVSVLSSDDPVRVFQQFATLDLVSGGRAEIMAGRGSFIESFP
+LFGYKLEDYDELFEERLKLLVVLGEKETVDWSGGGKRKAIHGRGVYPRPLQNPLPIWVAV
+GGTPQSVVRAAALGLPFALAIIGGEPARYAPLFELYREAARRSGRDPSRLKTSVNVHGFI
+ADTTEAAADQFYGPQAAVMNRIGRERGWGATTRAQFDHACGPNGNLFLGDPDLVAEKIIR
+HARIFRNDRFLLQMAIGLMPHDQIMRGIELYGTKVAPQVRAALAKDAAA
+>tr|A0A1Q9AEL2|A0A1Q9AEL2_9RHIZ
+MDDSNLAGQRRMRRKLTFWRVAFVVLIIAGAGLVWIAGRSGQAAGPAAPHIARIAITGLI
+QDDRELLDRIDRIGRTDAAKGLIVTISSPGGTAFGGEAIYKAIRKVAAKKPVVSDIRTLA
+ASAGYMIALAGDHIVAGDTSITGSVGVIFQYPQIQPLLEKLGVSLEEIKSTPLKAEPTPF
+HPPSAEARAVIQAMIDDSYAWFVDLVADRRKMPREEALKVGDGRIMTGRQALSAKLIDEL
+GGDEAVKAYFKSRNVDPTLTIVDWEAPSKGFLGLGATATARAALEALLPGLSGLESVARE
+KLFLDGLVSVWQFDPR
+>tr|A0A1Q9AEP8|A0A1Q9AEP8_9RHIZ
+MSSTNANKPVEGGAIVKKSTAKADAKTSPRERIVSTACALFRSHGIRGIGVDAIAQAADT
+NKMTLYRHFGSKDDLVCETLKVASSKAAALWDDLSTRFPGNPRAQVDGWVSARVDCLASE
+PYGCDLANAAVELKESDHPAHALIESFKTAQRQRLEELCREAGLSEPELLADTLSMLLEG
+ARVSRIATGDQGPAARFERACRAAISAHAARVEEAGVGH
+>tr|A0A1Q9AKT1|A0A1Q9AKT1_9RHIZ
+MDADAARDKPAFPAASIPLTVRVQAESFDTAAEIAALSHGRSDIGALVSFSGLCRDEGGA
+LAALELEHYPGMAEAEIRRICLDAITRFGLQGATAIHRYGKIAPGAPIVLVVTASAHRKA
+AFDGANFIMDFLKTGAPFWKKEHRVDGARGDWVSAKDADDSACARWLR
+>tr|A0A1Q9AQF8|A0A1Q9AQF8_9RHIZ
+MMEIAETFARESGEGPLYKRLKTALEEIIRGGSRAGEALRAGAVLPGERVLAAELGLSRV
+TVRKALSLLEAEGLISRRQGSRTEVGARVEKSLATLTSFSEDIRARGQVPGCLWLFKQMS
+RPSSAEMMALGIAGTAPVLRMKRVRLADGLPIAVEISAVPARFLASPELVGDSLYEALAT
+RGLMPERAVQRMRARAASADDALHLACEAGAPILSTERRCFLADGQIVEYCETRYKGEVY
+DFVFELHR
+>tr|A0A1Q9AKS4|A0A1Q9AKS4_9RHIZ
+MRTVDLVYFSWVRERIGRGEERIELPDTVLTAGDLIRHLKGLSEDHASALEHENVIRVAI
+DQEHVDHDEPLGAAREIALFPPMTGG
+>tr|A0A1Q9AJ44|A0A1Q9AJ44_9RHIZ
+MARALVMIQQHVALKLQSRFSALDFVHFPPQKQSTQSGSTAVILRECRIDREKDSQPPGD
+TMLSGIRADWKKIEVGQAVA
+>tr|A0A1Q9AMQ1|A0A1Q9AMQ1_9RHIZ
+MRATRDHLGRPLVAVTGMGVMTSLGQGLADNWRALTDGVSGIHAVSRFPTDGLSTRIAGT
+VDFLDLPLQNAVERSYAMARETTIEALAQAGMSSDFNGPLFLAAPPIEPEWSARFALADR
+AGPSQKPDDAYDRFLAAMRERPDPAFHEAALFGAVSERLADRFGTRGLPVTLSTACASGA
+TAIQLGVEAIRQGRTDRALTVATDGSVSAESLIRFALLSALSTQNDPPQRASKPFTRDRD
+GFVIAEGAATLVLESLEAALSRGARVYGILKGCGEKADLFHRTRSSPDGGPAIATIRAAL
+EDAGLAEDAIGYINAHGTSTPENDKMEYGAMSAVFADGLAAIPVSSNKSMIGHTLTAAGA
+VEAVFSLQTMQTGTLPPTINYLNPDPAIVLDVVPNVKRDAQVTAVLSNSFGFGGQNASLV
+MTAEPA
+>tr|A0A1Q9AI38|A0A1Q9AI38_9RHIZ
+MRLYYFTKPEHGLENIRRRRIKIARIKDLNDPYEFIPLMGDRALRKGMREMKRLADSEYG
+IVCFTSSWEHPMMWSHYADRHRGVCLGFDVVSARPIIPIEYTPHLLAEKDFKVQQIDDID
+TLDYMRTWFVKFDSWAYEAEKRMVFQLDQEEVENGLYFHRFEPALRLAEVVVGAESDITR
+DQVTAAIGDLQNVELTKARLAFQRFAVVKQHQESMWKKTEDLDPEHAM
+>tr|A0A1Q9AHI6|A0A1Q9AHI6_9RHIZ
+MTQVPVSSPPVTPLLDKVALPEDLKRIDDKDLPQLAGELRAEMIDAVSRTGGHLGAGLGV
+VELTIAIHKVFDTPNDRLIFDVGHQCYPHKILTGRRDRIRTLRQENGLSGFTRRAESAYD
+PFGAAHSSTSISAGLGMAVASELKDEKRNVIAVIGDGAMSAGMAFEALNNAGALDARLIV
+ILNDNDMSIAPPTGAMSAYLARLASGRTYMGIRDFGKKLTAYLGKSVDRAITRAVEHARG
+YMTGGTLFEEMGFYHIGPIDGHSFEHLLPVLRNVRDHAHGPVLIHVVTQKGKGYPPAEAA
+ADKYHGVNSFDVITGAQAKVKPNAPSYTTVFADALLEEARHDPAIVAVTAAMPSGTGLDR
+FAEIHPKRCFDVGIAEQHAVTFAAGLATEGLKPFVAIYSTFLQRGYDQVVHDVALQGLPV
+RFPIDRAGFVGADGPTHAGAFDTAYLATLPGFVVMAAADEAELKHMVRTAAAYDEGPISF
+RYPRGEGVGVDLPERGDILAIGKGRVLRQGSKVALLSFGTRLSDCLLAAEDLDAAGLSTT
+VADARFAKPLDMDLIRQLARHHEVLVTIEEGAVGGFGAHVLHAMAVEGLLDGGIKVRPMV
+LPDEWTEQSKQDAMYRKAGLDRAGIVATVFAALGQKHEALGLGAAG
+>tr|A0A1Q9AFN9|A0A1Q9AFN9_9RHIZ
+MAVSPGTVRPLSKGATPSSSKLESDARTIHDDKPVSASNIAIGVVLGRMSEFFDFFVFGL
+ASVLVFPQLIFPFAPDRLTATLYSFAIFSLAFIARPVGSVVFTAIDRHYGRGTKLTVALF
+VLGSSTVCMGFLPGYDQIGVAAIYLLALFRIGQGFALGGAWDGLASLLAMNAPERHRGWY
+AMVPQLGAPIGFALASMLFGYFVANLSTEDFLSWGWRYPFFVAFAINVVALFARLRLVVS
+KEFGTALERHELQPVRIRDLLSTHGRDILIGAFVPLASFAMFHLVTIFPLGWTSLYGEQA
+IGAFMMVQVIGALCGVVTIIASGLLADRIGRRSQLGVAAVIIALFSFIGPMLISSGSTGI
+DAFVIIGFGVLGLSFGQASGSVSFRFRKAYRYTGSAFTSDLAWLVGAGFAPLIVLYLSSH
+FGVTFIGLYLLSGALCTLVALFFNKRIEPAND
+>tr|A0A1Q9AGV8|A0A1Q9AGV8_9RHIZ
+MFVREGHALTVARRLAWQMTIRGGLALSFGLAACGLMQQARGMGTILTLHRVRPAQADRF
+APNAHLEVTPDFLDAALQRLKASGVSLVDLDEIAARRREADRSPADRPPFVAVTLDDGYR
+DNLDHAAPVFARHNVPFTVFVVEGFARRRQSPWWETLAALLGSRTSLPDPFTKQAGAILD
+LSTPAGKQRAFDRLAAHIRGSTDEAAAILTLNRAAEREGLYPAALTERLMLDERGLIALA
+RSPGANLGAHTVTHRALAPLDDAAAEAEIAASARFIADLTGQPARHFAFPYGDAPAVSLR
+DQALVLKHGMHGYTTRPGTITMASLPGGLPRVSVNGHYQRPWQLAALVTGIPFRLRGRAS
+D
+>tr|A0A1Q9AC97|A0A1Q9AC97_9RHIZ
+MINTILAAGRTAVVTGAASGIGLAAAGRFAAAGMNVVLADLEGRRLDDAAATVAAQAPSG
+TSAVMAVPTDVSDIASITALAEEVEARFGAVHLLMNNAGIGPGSSIFGPIDAWERVLATN
+LGGVITGTRAFGEAMIAHGDPAMIINTGSKQGITTPPGDPAYNVAKAGVKVFTEALAHEL
+RNREGCAVTAHLLIPGFVFTGLTAGSRTEKPAAAWTPEQTVDFMIDSLERGDFYILCPDN
+DVPRELDEKRILWAAGDIVENRPALSRWHPDHGAAFAAYLKRDRPVVA
+>tr|A0A1Q9AMF9|A0A1Q9AMF9_9RHIZ
+MYQSFDVTSTPQFGKERVAALRAALGDAGADAFLVPRADEYQGEYVPACAERLAWLTGFT
+GSAGIALILPERAIVFVDGRYVTQLAEQVDGTVFAGGDLIGEPPHLWLERHGPEGLRLGI
+DPALHTGAEVRKLRAALEKRSGSLVFLEANPVDALWADRPSEPLGPVTIQTEAHAGRLAR
+EKIAEMAESTAKAGADALLVTDPQSIAWIFNLRGADVPHTPNPLARAIIQADGAAEIFID
+LRKLTIETKAYLTQVATIAEPSAFTGRVAALAGEGRRLLIDPDHASFAVAELIRQQGGSV
+VEGADPARLPRATKNAVEIEGARRAHLQDGAAMVEFLCWLDAQAPGSISEIQAVEKLEAC
+RIAVGERLQNPLKDISFDTISGAGAHAAIMHYRVTHESDAPLEAGTLFLIDSGGQYINGT
+TDITRTVAIGTPPEEGRRLFTLVLKGMIALSTARFPKGSRGVELDPLVRIGLWKAGVDFA
+HGTGHGIGSYLSVHEGPQRISRAGMQEILPGMLLSNEPGYYRPGAFGIRIENVIHTLPAT
+PIDGGDIPMLGFETITFCPIDRRLIDPALLTGDERAWLDAYHAETREKLTPFLDDAGAKA
+WLEQVTQPLDV
+>tr|A0A1Q9AG77|A0A1Q9AG77_9RHIZ
+MKAISEGRFDPWLHAVLVVMVAFAFLADILLPLGTANWLVYVLAIALSSLTSRASTPLIL
+AAVSTVLIVIGLFLAPDGVSVQLAQLNRSLCIIICWIIAASGYSFIRNKVEVRQQEWVRQ
+GQVAMAARVSGEQSVEQLSDNMLTFLVDYLGAQGAAIFVNREGRFARLGAFGLPSDAPVP
+AEILPGDGLIGQVARDGRLIDLSDVPENYLYIGSALGRSLPRRLMIAPVAADGTVHAVIE
+LGFLKPIDRPVEELLGRLSDKMAVAIRSAEYRGMLRRLLEETRQQADELRAQSDELRAAN
+DELEAQSRSLQESQQRLEHQQAELEQNNAELEAQTHELMTQRDELTRARSELERQARDLE
+QGSRYKSEFLSNMSHELRTPLNSLLILAQLLAENKSGNLTEEQVKFARTIGAAGNDLLVL
+INDILDISKIEAGQVELQMQPVAISTLLDKLRRTFEPSAVQKGLDLQLLANSTVPPTIVT
+DPQRLEQVLKNFLSNALKFTHKGEVSLTVARENDALSFSVRDSGIGISADNLKAIFEPFR
+QADGTISRKYGGTGLGLSISRELGTLLGGRIAVSSAEGQGSTFTLTLPIDADLGLSEPVQ
+GASVSRGEIAPVLAVGPHSSERTPPIQPLAQPPLLQTPPAHRPVPIRDDRAMLRAGERVL
+LAVEDDPAFAEILYDLAHDLGFQCIVAGTADDGVIMARQYLPHAIVLDIGLPDHTGLFVL
+DRLKHDLRTRHIPVHVVSGADYTLKARALGAAGYTLKPVKRDELALTLEGIENNLQEPVR
+RVLVVEDDATQLESVQLLLGSRSVTTVGVKTAAECIDMLTRESFDCMVLDLTLPDASGLD
+VLDHLKENGTLSFPPVIVYTGRDLSADDELRLRRYAKSIIIKGAKSPERLLDEVTLFLHQ
+VVSALPDRQQEMLAKSLNRDETVEGRNILVVEDDVRNVYALTSIFETHGASVTIARNGLE
+ALKAIETGLEQKGAVPFDLVLMDVMMPEMDGLTATREIRSRFRLNHLPIIMLTAKAMPQD
+QAQCLAAGANDYVTKPLDVDKLLSLVRVWMAR
+>tr|A0A1Q9AJ16|A0A1Q9AJ16_9RHIZ
+MRTSQRTMREVLLMQRFYCAGATDRLAAHEFLMMATVSPATVQPRQREDDDSPPDAGSDL
+KDSHFWRKGGTP
+>tr|A0A1Q9AMT8|A0A1Q9AMT8_9RHIZ
+MDRDLIRFNVLRNALYHTSRRLTFERWNRWCNLAVLLLGASAFAEASRRLQISEIALYTG
+FATALIGGLQLVFDFAGKARDHQALQRDYYHLLADIEECTDATDAVRAAWQGRISRIAAD
+EPPMLRALDAKAYNDALAGMVGFPQDQRLIIPAWHRIFGQFWAFEGHNYRMVCEVPGKSA
+>tr|A0A1Q9AKF6|A0A1Q9AKF6_9RHIZ
+MTRSSIRKVYQGVADRGQMFRMFDRHAQRPDRFDGDASALYAGEWFEITEREHDYMFEIL
+TPLWIRGSMFAMREFLTGSVTSVFFALRIDGQVRYFHGYCDLSDSASLEQLRMAIITRES
+RPVRAMTREERLEHIWSSTADDYGGYAGESWPEEDRGKRIIMLYIQGRGTTLKRLDHLSD
+DEIAAKLPVHLRHLPSTAAA
+>tr|A0A1Q9AJL9|A0A1Q9AJL9_9RHIZ
+MNPETVKHLFDHVWKDQDELSVLTFSLNGETFAIEAINVQEILDLLPETRVPGAKPFVAG
+VINFRGRVIPIADLRRAFGMEATEATIDSRIVVVELTLEGEPCLVGLRTDKVHEVTTLPH
+AAAEPPPIVGMRWRPDFIHCLVRRGTDFVIIPNLEVIFSTQPARSAA
+>tr|A0A1Q9AHU8|A0A1Q9AHU8_9RHIZ
+MTAQARPLVEAKEASSRKSRDQWLLKYSTLLALFLLFAGFALTVDRFLTASNLLNIVQQI
+SMLTIVGAGLTFGFAAREMDLSVGYTVGLSGILVPLMLISGVPLPIALLGAVAAGFAVGA
+INSMLVTLIGIPSLIATLATGSILYGINFMSTGGRAIYGGLPDGFLFLGQGQILGIPVLA
+YAMVLFVLVAWFLMERTIFGRYIYAVGGNLKAAELSGVNGRFYRSAALVVCSLFAAMAGA
+LLAARLGSGQPNAGERYLLDGLATVFIGMTMIRPGTATVTGTFFGALFIGVINNGLNLVG
+MDTYVQSIVKGLIILVAVAIVSRTTKLKLL
+>tr|A0A1Q9AL02|A0A1Q9AL02_9RHIZ
+MDLLMLGAFLLALLAFARARRTEERLASEVKALKAEIAALRAVLPGLAGGQPESLPQPLA
+EVAPADGAALPAEDGLTAVWPGAQAERAQAEVGAALERAARGEPAPKAKGDAAFPESGPV
+DAVAAPRLESLESRLGARWAVWTGGLALALGGIFLVRYSIEAGLVGPGIRVALALLFGLA
+LIGAGEIVRRRAVPALSARFSNAMIPGVLTAAGAASLFGALYAAHALYGFIGPVSAYLLL
+SAVSLGVVALSLRYGQALAGLGLAGSLITPALVSSDDPNFWALFLFLAIAWTGTALAARL
+KGWRIVPALANLGLLGWILLALLGSGMTDELPIVTALLVMIAGTGLIWPAAALGHRREAD
+APDAATAGAEREIPVASDKPDAAAAAPGTAPADMPDRPRRPWLAPLRVPFLGITFTLALT
+VFLSALALATLSLDRPLDGISQASAVLAALAILAALRRGMLYPALAAAFGAVGAVDLYAD
+LLTPSGAMLGAPPPNWTVAAFAAGLSFLLIAFAWPGLRLRMMPASERPPTGRLAAAIAGL
+TPVGLMGLSFLMVGVFAQDLLHQLLCLALAALLLALTEATARWPVSPQAPGETARGLLMA
+GALGLIALAAHASGNGLATVLIIALAGLGFTLATGWRAFPALPFITVLAAAILLARYAAL
+PTIVPAEALGRTPLFNALLPGYGLPALTLILAAWRLRAWPDARARELLQALGCLFLLLTI
+GMLVRHALHGGVIDASVPSLGEQAIYTLLLIGASAILTVLERRSPSRFFRLGSMALSAVS
+VGLVLIAHLIALNPYFTGEPLGRYPLVDLLGLGYLLPGLGFAGLAYLATVRRPKAYVTLI
+GAAAGLMIFAWATLSVRRVWHGEGIASWKGFLPAETYAYSAVWLGLGVVLLIAGARRHAV
+ALRLASAALVLVAVLKVFLIDMSNLEGVLRALSFIGLGGVLIGIGLFYQKILSGVGMPAL
+PAALRSGTTATTPPVPEQDFPDDRPSPDDTRDDR
+>tr|A0A1Q9ANT6|A0A1Q9ANT6_9RHIZ
+MERILNYMHAHETGAISQYVGQLRIGSACCPLAQTDQPLALTADNTGFSDVAHSSRQFHA
+ARGLAPGHYRRQFRERHDSLNSAKARHGNGREDPGSVTV
+>tr|A0A1Q9AFF3|A0A1Q9AFF3_9RHIZ
+MRVLLIEDDSATAQSIELMLKSESFNVYTTDLGEEGVDLGKLYDYDIILLDLNLPDMSGY
+EVLRTLRLSKVKTPILILSGMAGIEDKVRGLGFGADDYMTKPFHKDELVARIHAIVRRSK
+GHAQSVIATGELVVNLDAKTVEVGGQRVHLTGKEYQMLELLSLRKGTTLTKEMFLNHLYG
+GMDEPELKIIDVFICKLRKKLANAAGGANYIETVWGRGYVLREPDGDMAESA
+>tr|A0A1Q9ACM2|A0A1Q9ACM2_9RHIZ
+MKTRILIATALLAGMTSTAAFAQDSAVTGAAGGAVTGAIVGGPVGAAVGGAVGLVAGAAI
+DPPPERVVTYVQEQPVAQSVVVEQPVAVGKPIPKTVVLTPVPEDERYAYTVVNERRVIVN
+PQNYTVVRVLD
+>tr|A0A1Q9AQ54|A0A1Q9AQ54_9RHIZ
+MRRRGLNVTRIGQRLRTSAACALALLSAFSSLPLAATPALAGQSVLRITDAGPGMKKSIK
+LGLNKALVVDLPEDAQDLLVADPTLADAVTRTARRIYLFGKAVGQTNIFIFGANGREIVS
+LDLEVERDITGLQANLRRFLPDSDIHVEIISDNVVLTGTVRTPLDSTRAVELAQAFLKGG
+EATTRNITAQGSNGDAAIYAERRQQSQIVNLLRIDGEDQVTLKVTVAEVSRQVLKQLGFS
+GSVTSDGGDGITFRNPVNLGNAVNPVASAITGAIGHSGLNFASYLNAMEQAGVMRTLAEP
+SLTAISGKAAEFSVGGEYRLPNSQEIDKDGAITRSSETVEYGIALNFTPVVLGPGRISLD
+IETSVSEPTFDGSVVNGNSNRVPGQTYLSLRKRVAKTSVELPSGGSIVIGGLVQDNIRQA
+MSGLPGISKIPVFGTLFRSKDFVRNETELVIIATPYLVKPVARSAISRPDDNFDPTGDIS
+GYFLGTVNRLYGNRQAAAPAGAYHGNVGFIYK
+>tr|A0A1Q9AQ64|A0A1Q9AQ64_9RHIZ
+MVDAVEVAIVDGASRPCDHHASGVWALSEIDDLLESDGVASCIAELRRRFGQRVQQLLEA
+ETLKALCFDRVPPPDTAVMTPEVTAPTRSRINLNGPARPFEEDRAARAGDGDGDYDEPGS
+DAASDDDEPAPVFMRVR
+>tr|A0A1Q9AQD1|A0A1Q9AQD1_9RHIZ
+MQSTPKKIAVTGAAGQICYSLLFRLANGDLYGKSQPIELRLLDLPQAQHAVRGVVMELED
+CAFPLLHNIVMTDDPRQAFEGVDAAFLVGSRPRSKGMERRDLLAANAEIFKVQGRAINEV
+AGRRAKILVVGNPANTNASILIANAPDFNPRQVSSMIRLDHNRALTQLARKAACGVGDID
+KLVVWGNHSPTMFADWTYATAAGRPLSETIADDHWYKEVLIPEIARRGTAIIEARGASSA
+ASAANAAIDQMRDWMHGTDGRWTSMAVISQGQYGIPEGLVCGVPVMCEDGDYSVVEGLDL
+DGFQKSKLDKTIEELVGERDALS
+>tr|A0A1Q9AG56|A0A1Q9AG56_9RHIZ
+MTCFLLAAAPSRAASDCQPIYDAYAAMFQKPAIKRTITTPGMADPVEMVLTPDALYSRVG
+AKDSWGKVELNAATRSVMKKGTPSPETVTECRRIGPRAVEGVSGTAYDFTPAKMSGNAPG
+ETITVVLDDATGLPLLETALKAGTKVANVYDGVTIPLP
+>tr|A0A1Q9ALI1|A0A1Q9ALI1_9RHIZ
+MSSPLKMAGFDGETLEIIAFRLHEQEFCVKTTTIREIRGWAPSTPIPHSPAEVIGVMNLR
+GTVIPIIDLAHKLGMESTVANERSAIVVAEVHNMVVGLVVDRVSDILTVQGSQVQPVPEI
+TTSFDRSFAEGIIASDSGMICFLNLARMFKERDTDDWAA
+>tr|A0A1Q9ALA0|A0A1Q9ALA0_9RHIZ
+MSAPREAGGGLTAGPPPLWQRPTFWLAASLAVLILQALIEGAMGRTLICTCGTIKLFEPV
+VMSPGNSQHIADWYTPSHIIHGFLFYGLTHLLMRRRPLSARLFVALLIEAAWEIAENSPA
+VIDRYRAATISLDYLGDSILNSTMDSVFMAVGFFAAARLPVWLTIAIALFFELLTGFLIR
+DNLTLNVLMLVWPLDAVKAWQGAL
+>tr|A0A1Q9AQ95|A0A1Q9AQ95_9RHIZ
+MEDHLFEHVRPYLDRTIEERIAYIRAPRWIGHQAAIESHQRLSDLLSRPPSLRTQGLMIV
+GPYANGKTMIVERFAVDCLKASADQKVWIVQTREGAGLGHFYASILHALNAPGGDVWTVG
+RKAEQLDHLLAALRPKVLIFDEFHNALRGRPRDVEAVFAFLRRIGRQYDISPVLVGEVTV
+YDYICATSEMASRFELFPIPRWSYDEAYLSLLDSLEAALPLARSSDLSAERKARHILGLS
+EGLIGEIVAILTKAAIAAIQEGDERITRSSIDNLRYIPLSKRRHGPIREALL
+>tr|A0A1Q9AKM3|A0A1Q9AKM3_9RHIZ
+MTKQDELVFLPLGGVGEIGMNLALYGFGPAAKREWLMVDCGVTFPGPDLPGVDLVLPDIR
+FLAEERKTLKAIIITHAHEDHYGALNDLWPGLNVPVYASPFTAGMLEAKRQFERSRTEIP
+VTIFKQGDRIRAGSFEIEAIGVNHSIPEPMALAIRTPLGTVLHTGDWKIDLQPSLGPLTD
+EARLRALGDEGVLAMMCDSTNAMRDGASPTEEEVGASLTKLIEAAEGRVAITTFSSNVGR
+IRSIARAAEAAGREVLLMGSSMKRVVNVARDIGLMEGISDFIDEEDFGYIPRDKVVVILT
+GSQGESRAALAKLSRDEMRNVAFSAGDTVVFSSRTIPGNEKAINDIKNGLIEQGIHVLTD
+SDALVHVSGHPRRGELRQMYEWVRPKILVPVHGEAAHLTAHAELARQSGIAEVPRLRNGE
+ILRLAPGAPVIVGEAPHGRIFKDGSLIGDFEEMGIGARRKLSFAGHVAVNLMLDGRLDIA
+IDPVVVPIGLPEYDDEGEDMEETLYDAVVGAVESIPKVRRKDLALVQESVRRAVRGTVND
+IWGKKPVVTVFVNKVG
+>tr|A0A1Q9ACT7|A0A1Q9ACT7_9RHIZ
+MQNEIRPPLTDAEGEVREVTAEDLSDAQPMQGSFADIAQALERSRGQRGPQKAPVKERVG
+LRLDKDVIEHFRKTGPGWQSRINAVLADYVKTGQQ
+>tr|A0A1Q9AE58|A0A1Q9AE58_9RHIZ
+MLSKSRLKIWLLVLPVLAVAALVWSGASLWSRREAAERLAREAETLARQHGRLIDSELAR
+FRLMPIVLGEYGDLVDALSNRDRETATRLSDKLGFLVRETGASYIYLINRDGVAVSASNL
+REPTSFVGQDFGFRPYFNEAMRDGAAEYYGAGLLTRRAGLFLARRVGESEAASGVVVVKY
+EFGALSASWASDPGRTLVVDANGIILAAPDEDQILTTLAPLPAAVRQQIDRIGQYGDAAL
+EQGKYRFAGPDRIVTAEGARMVYASLPIAGTDLRLLHLLDSGPARAAADRRAALATLAIL
+PLLLLASFALWWRADRAARRAAERRALEEAVAERTGQLRKEMGYRALADQRYREAREELA
+QANRLASVGSIAAGLMHEINQPVATIRTLSENALHHLAASRSERVRDSLGTMIAMTERIG
+TLTQEMRGFARRGEEKIGPQSLDAIISGAMLLMEDRIAKAGIRLDRPPSGQPSVLGKRVA
+LEQVLVNLLQNAMDALEAVPDARIAMTVERRDETIRLMVADNGPGIDPALGKDVFQPFVT
+GKPNGLGLGLGIAEDIMRDVGGALEITASPLGGAAFTVTMRTA
+>tr|A0A1Q9AK33|A0A1Q9AK33_9RHIZ
+MHIEPGVVDGAKIILSYATAAGALVLTGGMARQTVRRDGAVPLALRSLATTALVFCFFEV
+LPHHPVGVSEVHLILGSTLLLLFGAGPAAIGLALGLLIQGLFFAPFDLPQYGMNVTTLLV
+PLWAIHRLAARIVPAGTAYVDLRYRQALALSVAYQGGIVGWVAFWALYGHGFSAENLASV
+GAFGAAYMSVVLVEPLIDLAVLAAAKAAAGATRGPLFTPRLHLKA
+>tr|A0A1Q9AML5|A0A1Q9AML5_9RHIZ
+MPLYALGPHRPSLPQAGRFWIAPDAHVIGQVLLGDEVGIWFGAVLRGDNEPIRIGARSNI
+QEGAVLHVDAGFPVTIGEGCTIGHRAIVHGCTIGDNCLIGMGATILNGAVLGRNCLVGAN
+ALVTEGKVFEDNSLIVGAPARAVRLLDAAAVAKLKASADSYVGNWRRFASEMRLIEE
+>tr|A0A1Q9APX9|A0A1Q9APX9_9RHIZ
+MAKITRVAVQMDHVSTINISGDSTFAMSLEAQSRGYQLFHYTPDKLSLRDGKLYATGQAM
+TLRDVKGDHFTLGEPERVDLSSMDVVLLRQDPPFDMAYITSTHLLERIHPKTLVVNDPAW
+VRNSPEKIFVTEFADLMPATLITRDPAEIARFRQEMGDIILKPLYGNGGAGVFHSTRDDR
+NMTSLLEMFSQMYREPFIAQQYLPAVRKGDKRILLVDGEPVGAINRVPAEHDSRSNMHVG
+GRAEATELTAREREICDRIGPALRERGFLLVGIDVIGDYMTEINVTSPTGIREVKKFGGA
+DIAALLWDAIERRRG
+>tr|A0A1Q9AL15|A0A1Q9AL15_9RHIZ
+MQYRVQFFSWTPSFGVRQVGRVITTNAPSPKLAAITLLNLPLDETGAPKNLAVRVWSPDE
+EEKADCACFYYH
+>tr|A0A1Q9ANI4|A0A1Q9ANI4_9RHIZ
+MSRHFLLVDPLENPLLLKALAAPVRIGILKLLQVRGALNVNELAELLAQPQSSVSIHVQM
+LQEAGLIATETVKARKGSQKICRSLYDEILIRFEETIEKADPDAIEVAMPLGLYTGFEVS
+APCGLCSSDGIIGLLDVPSTFLDPDRMKAGLIWFTRGYVEYQFPNNARLANLAVREVEFV
+LELSSEVPGTSADWPSDITLTVNGTDVVTWTSPGDFGDKRGAYTPDWWKLKGSQYGKLKS
+FRIREDGTYVDGLRLSDVTLADLDLTSHHSIRLRIGVMDDARHPGGINIFGRGFGNYDQD
+ILMRLKVR
+>tr|A0A1Q9AKF7|A0A1Q9AKF7_9RHIZ
+MSDGDEELMVRAAWYYYVGGLNQEATASRLGLTRARVNKMLGEARETGLVSISIDHQRVG
+VMPVETEIQQRFGLDFCTSTPAFGFDAMKADADLRQQIALRAVGVAAANHLKRLLEENDP
+ITVGTGWGRTIEQMTLQLAGVRAPHARFISMMGSLTANNAYNPFEVVHTLARRTGGEGFF
+LPVPFIADSVEDRKVLVSQRSVVKAMEIARSAAVCFISAGELTEQSLLRRQGMISRADLE
+SLHAAGAVGDTNGIFFDDRGRQVKHDLNDRTIALGLEELKRLKVILLIAGEEKAQAARAL
+LRSGMVSGLIIDGDAALRLDALGG
+>tr|A0A1Q9AL16|A0A1Q9AL16_9RHIZ
+MTATAPHPPELPALLVEDQVRAALAEDLGRAGDVTTLATIGPNRQASAVLAAREPGVLAG
+LTLAQAAFRLIDPTIRFDTPLADGAPLSAGTVIATVSGRARALLSAERVALNYLMHLSGV
+ASLTARFAAEIAHTHARITCTRKTLPGLRGVEKYAVRLGGGSNHRFGLDDAILIKDNHIA
+VAGGIAPALAAARAYAGHLLRIEIEVDTLDQFREALAAGAEVVLLDNMTPDQLAEAVALN
+AAHHGLIAGGDYVHAVKRTVLEASGNVALSTVRAIAESGVDFISTSKITMAAPTLDIGLD
+IAMA
+>tr|A0A1Q9AI36|A0A1Q9AI36_9RHIZ
+MADWNGVSDVWLARLLGALAGASVSLVYMLPKSAQEAAIRFLTGLACGLVFGGPAGLWLS
+RKLEIAPALSASEMLLTGSAAASLGAWWGLGAIARLADRLGRGTPNGR
+>tr|A0A1Q9ACS0|A0A1Q9ACS0_9RHIZ
+MSKAVLIGFPGDAKLYLADIEAGTVVPVDEAHGGLTGMGELAAADSAVVKGVNLAVAVNS
+ADSVFAGVFE
+>tr|A0A1Q9ADY2|A0A1Q9ADY2_9RHIZ
+MPTGQTRTRTFRPLPVPSVTLSGLFGARQDAVCATTAETLLDRCVDAGMLDAIDVSKPSP
+GIVIPLQPWSGSTQMFWDSDLGKSIETVAYSLYRKANPALEARVDAIIDLYEKLQDADGY
+VNAWFQRIQPEKRWSNLRDFHELYCAGHLMEGAVAYYQATGKRKLLDIMCRFADYMITVF
+GHGEGQIPGYCGHEEIELALVKLARVTGERKYLDLSKFFIDERGTEPHYFTREAVREGRD
+PENFIQKTYEYSQSHKPVREQTEVVGHAVRAMYLYSGMADIAAEYGDDSLTRALETLWSD
+LVSRQMYITGGIGPAASNEGFTEPYDLPNESAYAETCASVGLVFWANRMLGRGPNRAYAD
+VMEQALYNGALSGLSLDGKTFFYENPLESSGKHHRWVWHHCPCCPPNIARLVASIGSYMY
+AVAEDEIAVHLYGESQARFEIRGTDVTLAQETRYPWDGAIALTLGGLATPQAFAISLRIP
+GWAKAARLTVGGQAVDLDQVMIDGYARIERLWSAGDQIRLDLPLNPRFLHANPLVRQDAG
+RAALMRGPLVYCAEEVDNGAGLNRLTVTGDPAAAQEIAAEGLGDAVALELDAERDRADWG
+DTLYRETPPATQSTRARFIPYALWDNRAPGEMLVWMRRPSHGQEKTGGGA
+>tr|A0A1Q9AM58|A0A1Q9AM58_9RHIZ
+MIKLRETMMILDLHRQGLSVSAIARQTGIDRKTVRKYIERGMEAPAYGPRKPRSTVIDPF
+ASYLRERVKAYPGLTGSRLLREIRERGYTGGYTAVTDFLRDVRPPATAGFEVRFETPPGE
+QAQVDFAQFHVVFTDEPMTPRIVWLFSMVLGHSRLIWARFVMHQNLPTVLRCHVAAFEAI
+GGVPREILYDRMKTAVIGEGQTEGIVYNRALLDLARHYGFHPRACQPYCAKTKGKVERPF
+RYIREDFFLARTFCNLDDLNAQLRHWLDTVANPRVHATTLRVVNEAFAEERQHLRPLPLA
+PFRAVLKLERRISREGMVSVGGNAYSVPDATRSRLVEVHSLANEIRIFESGTLIAVHPIL
+EGRKQRRVQPDHRRNIVAQRSWPKAGEAGVTLQPIGDKVPQRSLAFYEAVGKALARENRP
+>tr|A0A1Q9AF55|A0A1Q9AF55_9RHIZ
+MASAVPFCISLCSFLAPLTETCQKAVFGVAMGLSVAVLLLVGFPHRIDFLIHLPNGLIVL
+AAFFGGLPAIVPALIVVAGVAGAQAGTMAGLAMGQALLSGAIGIIFHCLRRRLAPTALEM
+AGLSCLAALTLVFCGLVEGDAGERRQAEILDPALLLFLTTFLSMAGMGREITRNRRLGEA
+RLLRTIIDALPDNLLVSDRTGRFITANPAAATFLGRAAKDRLAQAQLADFFDGQTLRAIT
+AHQQAVIIEHAPRLRDYPFVLKTGQAGWLSSMKAPILDDDGRLVAIISLDRDITQAKEIE
+LQHVQTEAILREAIGCMADAMVVLDEDNRILLINQQYSALFAQTEMIIGCHIETVLRRAA
+PLYHAAGEDAQAFSARVLAMMRVEGRSDLTLGPDFHVSMTVRQMANGYRLVVLSDISAAR
+AAERAMLSLNNRLEQLARIDEVTGLFNRRMLNQHLDHLLGDRDGAEPALTVMLIDVDHFK
+CYNDTYGHLAGDACLAAIGACLTGLAGELPLAIAARYGGEEFALVLPGIRRVAAASIADV
+VRRRIRDLAIPHKASVFEVVTVSIGLASGPMQGLSDAASYLSAADLALYRAKASGRDCAF
+TFHANMLPPPTA
+>tr|A0A1Q9AQC8|A0A1Q9AQC8_9RHIZ
+MQAASAAHRLAPEASTRLTALAAAVLKAGETARGALRRRLPDQMTAKGPRDYQTEIDVAV
+ERMLVEDLARAFPDHAIKGEEAVGNRAAEAGAPVIHIDPIDGTTNFAWGLPHFAITVCIV
+ENGVVTAGVVYDPMLDELFSAEEGAGAWLDGEPIACVDHAAVEDVLVGAGLPVPGQVKAV
+SEDTYFAALKRLMANTAGVRRLGSAALSIAYVACGRLDGFFEDGLSVHDYGAAALLVREA
+GGTVTAFSGGPVTPQGDILAATGALHGWLAEGLR
+>tr|A0A1Q9ADN5|A0A1Q9ADN5_9RHIZ
+MRWINRRPSPGARLALASLPFAAVLIAYTVGSLSRLAANANDKLLPGLAGFADALNRMAV
+IPDARTGDILLWADTLASLIRLFSGLGIATAIALVLGMLIGMLPSVRALLSPFVAALSMV
+PPLALLPILFIAMGLGEVSKIALIVIGVTPVMIRDLAFKASELPREQIIKAETLGGNSWQ
+IALRVMLPQVLPRLITCLRLQLGPAWLFLIAAEAISSDSGLGYRIFLVRRYLAMDVIFPY
+VVWITLIAVATDWALERLRLAVFPWSAAEGKA
+>tr|A0A1Q9AEC2|A0A1Q9AEC2_9RHIZ
+MGLGYCCAMVDSDYTYSVDDCDVQDKVKLRTFREKRRQWKDWLDDDPDHAIWRTVQELIW
+RDVQFATIGQLAKDNPEGPLNTSLIAESLIGGHVAQQVLAIRRLMDKGRNRISLYRLVVD
+VRSNRELLTRENIVCFDGLPFDHEAVEAREWAEMTPGVRWGHTTGPRAWSTSERLHRKFD
+RVSGHHHPNRSRSDTIPKATLSGLEQLLLSSGAARIAEWSHAYLAHAGAPFDREAVKSVA
+IANGTVAAAIRDLALITEYVSSQILWIGGYRGALMPTPQFDVFEKLENPVADDAGQQEAA
+LVWERKRREWDDALEGVDELLAREEAANPPGI
+>tr|A0A1Q9AD44|A0A1Q9AD44_9RHIZ
+MTDAHSDTMADAHSHTPHSDALVLFGATGDLAHKKIFPSLYQMVARGHLDVPVIGIAFDD
+WPLEKLVARARDGIAHALGEVDETVFGRLVALLSYVSGDYRDAATFDRLKAALGARHRPI
+FYLAIPPSLFETVVRSLQQAGLTKDARLMIEKPFGHDLASARDLNAILHSAFPESALFRI
+DHYLGKEAIQNLLYFRFANSFLEPVWNRDHIDSVEITMAEDFSVEGRGKFYDEVGCLRDV
+VQNHLLNVLLLLAMEPPAGHAADDLMDEKQRVLKAMPALSPPDIVRGQFRGYLDEPGVKP
+GSTVETFVAVRFRVDTWRWQGVPFYIRAGKNLPVHATEVVVRFKRPPIDVFDPLAGAGNY
+VRFRIAPQVVVALGARRKMAGDAMIGEPVELLAVDDDSADMLPYERLIGDAIAGNKQLFT
+RQDISEEAWRVVAPVLDDPIPPPVYAPGTWGPEEAMTDFGPPGGWHALEAAPKGAPATSM
+SPTHPVKS
+>tr|A0A1Q9AM89|A0A1Q9AM89_9RHIZ
+MTGSAHPAAGDAFGPLPLSALFTGEHAWCAEKVLAAEDLPEAMPLGAFFRSGAFAQAIDR
+MEEARGACDRRALASFWSLYYFAALTIPYVVAGRAHQALPVSLEAMTIALGEDGLPRAFG
+LDGAGTLSEADIEDLPGLVTPLVTAHLREAVALMSAHGGLAPKLAWNNAAVYIDYAFNAT
+ARTRPDGAASADHGWAARPLFVEATLKDGSANPFRGCLRHDPGPEGAPLCRRRVCCLRYL
+LPGVASCGELCALPDQRKRALETTA
+>tr|A0A1Q9APV3|A0A1Q9APV3_9RHIZ
+MADAGMDMSGARQAVTAWRRGACPTLAAPMPTGDGLLARLRPREPALPLGMVRTVLLAAD
+RHGSGLVEITARGSLQVRGLTARSAADFADDVAQSGFPLAEAPAVEISPLSGLDRQALAD
+GQAMAQRLRAVLAEEEAGSSGFTDRLAPKLSIVIDEGGQVDLSGLIADLRLVAEAAERWR
+LFLGAQDAGLFDAQGAVVAVRASLRALAQLGRAARGRDLDPATLTLPALEAATPEKPAEP
+ENELGAETGALQGQGRAPEMKRGSARQSPRPEAVTLVGPIDLGPINFRSGDPMTRGFALG
+LGFAFGQARAADLLTFLQQAEAEGAAELRLAPDHGLIVAPLGEAALRRLMARAEALGFIT
+RPDNPARAVAACAGRPACASACLDTKGIAAQAAERLAPLLDGSVRLHVSGCPKGCAHPRA
+AALTLVGGPAQERLGLVLEGQAADAPSIALDVSDLNGALTRLSRCVSGARLAGESARACL
+RRLGPAGIAAALQQG
+>tr|A0A1Q9AFU8|A0A1Q9AFU8_9RHIZ
+MLAEQRKSLIMDRLRRDGQVVAKAVAEELGLSEDTIRRDLRELAAEGQLRRVHGGAMPLA
+PELPDFAARRTVSPSVKRALGRAAAALVRPGQLIFLDGGTSTAEIAKALPRDFGFTIATH
+SPTIAAELEAHPTAEVILIGGRLYKHSMVAVGAAASSQILLIRPDLFFLGATALHPIHGL
+STGDLEEAAIKRLIASRAAETFLLATENKLDHVSPCTIMPVSDISGIFVQSGLASDRLAP
+YRALGVRIIETQADEQDGS
+>tr|A0A1Q9AFE2|A0A1Q9AFE2_9RHIZ
+MTDQTTRRFARPLVAIAAVLGLLAGAAAVYVRESRSGNGAGGETAAADCADAAATVGRIT
+PFLKGQVAAMAPQTPRALPPLSFTDGDGKPSSLAALSGKTLLVNLWATWCVPCREEMPAL
+DALERAMGDARFQVVAVNIDMGSDEKPKAFLDEIGVKALALHRDGSMGVFNTLKKEGLAF
+GLPATFLVDPKGCLIGAMNGPAAWDSEDAKALIGAAKGA
+>tr|A0A1Q9AEQ0|A0A1Q9AEQ0_9RHIZ
+MRDILETSAIAAGLEIMAIYRRGAEVTIKADRSPVTDADEQAEALILADLARHFPQIPVV
+AEEQAAQGHVSRIEGEFFLVDPLDGTKEFVGKRDGFTVNIALIRDGVPVAGVVYAPALNV
+GYSAVEGVAEKFVTDEAGNRSQRRRIGVRACPEQAVVLASISHCTPETEAFIDRCGFYER
+RSIGSSLKFCLLAEGLADAYPRFGRTMEWDTAAGDAILRAAGGSVHALDGSLLLYGKQHQ
+ATDADFANPSFIACGTHRAIYFPDQPAV
+>tr|A0A1Q9ALB5|A0A1Q9ALB5_9RHIZ
+MAHACLGCRDGAAFAHPFSMAFQPIVDRRSGRIFAHEALVRGVAGEGAGSVLSLVQDEMR
+YAFDQQCRVKAIELASTLFDHAEKPFLSINFMPRAVYEPRACIRLTLDTAKRTGFPLDRI
+IFEFTEDEQLDTAHVLSILKTYREIGFKTAIDDFGAGYAGLNLLSRFQPDIVKLDMELIR
+GIDTDRVRQIMVGKMVEMLHALGVEVVCEGVETTAEFHALADLNVDYIQGYLVARPSFEA
+LSAISLPLAA
+>tr|A0A1Q9ALM3|A0A1Q9ALM3_9RHIZ
+MAFVARLRLAALLFLGASSALSGQPVWAMDSATPGISSSERPIIGRPARHSQGSWSGRAP
+RRSTVTVERSWSPGFRDPLWREGGRRRADPLGGTYVGLDVWRDRGNGVFVRGGAHYGGDA
+GGWSPLVQPRIIRVTPSTHSCSMEAGVCVVRGQ
+>tr|A0A1Q9AEH0|A0A1Q9AEH0_9RHIZ
+MDDFLNVDGVLFDLDGTLISGGQALPWAHDLIDASRGNFAIVTNDAEHTAFEIAILMDQL
+GFAVAEERIVTAGMAAIRMVAEKMPGAQIAMAASESLQEYARSLGLNISRERPDVVLIGR
+DRTFSYDTIQSAANSVLAGAQLVVCNPDRTHPGRGGSIVPETGALVAAILACTGPVPHQI
+VGKPEPGIFLAGAQLLGTSPNRTLMVGDNPETDGKGAMRAGMTFLKIG
+>tr|A0A1Q9AIH6|A0A1Q9AIH6_9RHIZ
+MADPHRSDPAQRAPEERLDVMPTVFVALGGTGKEILLRLRRRILQHNWSGKSLMSLDEFP
+PARFVYFDTDTAEARESDKAAATDLLAGRVAFNKAETIQSKVDTRHYMTEVEGGVYPQIA
+EWLPSGPLDKIQSEKGAGQVRCISRLLFFDKYPIFMNLMRTMAERVTQNVTNDRLLESLG
+LKTTKKLRFVVVGSSAGGTGSGSFIDVGYALNSMRSPRIDQLDLFLMMPGGYRDANKDRV
+FANTFAALSELEYCMRGNASPSYVQRWTSQDRPEPGVKTPYSDVYIFDRQNIAGENTGVK
+EDLFDMVADILFEDFGSSEFASQKRTVSVNQQQLKSTNYFPELGWAQSGLFFSKGYSAVG
+QTTLLSTTSIQVEENLARNNGQMVRAFFGMAADGTPRLATSEERDQFLQERLRLRPKAYV
+SDYDARARFEHPSITDYDLADVLLMRADKSALDVTLASEIEQDIASLMARVQDHRAWVDE
+LRHVVEMRQRDVDGRVGEGATYGPKGLEIAQARDRLEAVLLSRGLEEGSLRGELYRMLDD
+QERGGLEYTIDLVAKIQARIGESGTGVLARLQEAEEAYAARANRLTAEQLHASIDRLQQA
+SQSNFLFGGGGRKSCEKYLSQARDDLIAALQARLHAIAVREAAALLRRTALFFGTPQNID
+DTGEPLWSGLIGEFQAGRRRVRQLLTLIDADTSRLKDALKRGDGGTFFVIEDRGFEIRRE
+TAETHLAWAREAFDGIGGSREIFLKLESDDGRLEILNLLRAVSNKRLGDTRQRIPSVVEA
+MRSLPVQRQQRLIELLVNRAAPWIAGDFGRGFRPGNENYKMFIAVDGAKAFREEFDEMVR
+ARLPSNTGLTSVAYYESGVPGRIVCYCELSGIPLDLIGPIRSEWQASYRSEQRKPDGYPL
+HNHWDYLRFPDPIVPNPRELEELVDRLKFFLRSVMLGTLRFRAETADRSRPGQTRQPGYW
+MEEKRNQWDLVGNERRLRRLGFMDNHRELLEQQLRRIEGGLGRLQFFALAALARWYADRV
+YTPRTEEVNGAHQRRGGIGHHAARELEKTFLQQGRATLGSLPVGLIEAEALDRLCDRIED
+WTASLPGTAEDVDDSEVGRGPDLPAELRATDKRGVVWEAFTAEALGMLLQPQVAPMAIPE
+PQLALPAPVAAIPVFAVAPAPPPPPAAAQRFWLFNQQGQVAGPYDAAAFRMLADLGQLKA
+EMKVCPEGGQAWQAVGEIPLLAALLVAPVAAAPPPPPPFA
+>tr|A0A1Q9AJQ3|A0A1Q9AJQ3_9RHIZ
+MRILLTNDDGIHAEGLSVLERIALSLTDDVWVVAPETDQSGLAHSLTLSEPLRLRQISQQ
+RFALRGTPTDCVIMAIRKVLDRKPDLILSGVNAGANMADDVTYSGTIAGAIEGTLQGVRS
+FALSQAFHYPLSGPMPWAVAETHAAGLLRKLMAVDLPDGTFLNLNFPNCPPEEVEGVEVT
+SQGKLDFGLTIDERTDGRGHPYFWLRFGERVGDFRAGTDIQTLRERKISVTPLKLDLTDY
+AVQDRVAAALIAPDEAERGGAA
+>tr|A0A1Q9AM90|A0A1Q9AM90_9RHIZ
+MRILLVNPNTTASMTEKAAAAARAVAAPGTEILARTSAMGPASIEGHYDGAMALPGLLQA
+IRAGEAEGADAAVIACFDDTGLDAARALASIPVLGLCESALMTAGFLAQRFTVVTTLERS
+RVLIDNLARHYGMGARARVRAADIPVLDLEDSGSHALGRLTGEIERALKEDGAEAIVLGC
+AGMADLALRLQNQYGVPVVDGVSAAIKQAEALVAQGLKTSKRGSYAAPLPKAYAGAMSAF
+AP
+>tr|A0A1Q9ANX7|A0A1Q9ANX7_9RHIZ
+MILPITALVFALIGLGLGGAGVWLAVLGGSWYYIFAGLGFLLTAFLLFTRRPSALTAYAL
+VVVGTLAWAVWEVGFDWWQLGPRGGIIILLGLWLLLPAVRGALGFTSPTGHVYRAGAGTL
+GGAVLLALVVAGYSMTQDPLDKTGSLPEAQAGASADYGGQVADNEWHQYGRTPYGQRYSP
+LSQINKDNVSKLEIAWQYQTGDVKRPDDVGETTYQVTPLKIGNMLYVCTPHNWAIAIDAT
+TGEERWKYDSNPGMNPDRQHQTCRGVTYYADPAAAPGSACATRVYLPTSDARLIALDAQN
+GQVCTGFADQGTLHLEQGMRYQPAGYYYSTSPPVIADGKIIIGGAVNDNYSTREQSGVIR
+AFDVNTGALVWNWDSGNPDVTTPLPEGQTYTTNSPNSWSVFSYDEGLNLVYIPLGNQVPD
+QLGMNRSEAVERFSSSIVALDIGTGQVRWVRQTVHHDLWDMDVPAQPVLLDINGRKALVG
+PTKQGDIYVLDRATGEPIIPVKEVPGPGGTIPEDHSSPTQPLSGLTFNPPPLQDKSMWGI
+TMFDQLACRIQFHRLRYEGRYTPPSLQGTIVYPGNFGTFNWGSVAVDPERQVMFGMPTYL
+AFTSRLVPRDQIPPKGQGEKGSEQGLNRNEGAPYGVYMGPFLSPLGIPCQAPPWGYVAGV
+DLKTGEIAYKHRNGTVYDMTPLPLPFKVGVPGIGGPMITKGGVAFLGAAVDNYLRAYDLT
+TGRELWQARLPAGGQSTPMTYATDDGTQYVVMVAGGHGSVGTKPGDYIIAYRLPKG
+>tr|A0A1Q9APT6|A0A1Q9APT6_9RHIZ
+MVVVRPVRPWVHRPYYGAVVAGVVLGTVIVASSVPPAPSPQVCWYWSNSFQTRGYWDYCK
+PH
+>tr|A0A1Q9APX3|A0A1Q9APX3_9RHIZ
+MEKLVDKGALPAPQHGCFTNADTELSGLERQLDMRDRQIQQLSAELAHLRRTFNHASAMA
+RIGVWECSLADNCLTWSDVIYDMFEIPRAGRFNREEVLDLYTPASRAELDIKRAQAIADC
+GSFSMNAEIITRRGNRRWLRITASVDADEAGHPFRIFGMKQDITEERMHLNQIRELAEND
+MMTGLSNRARFQSVFSTFCEQHADGEAGLMLIDLDGFKGVNDTFGHPAGDACLKQVAMRL
+KIALGRSELVARVGGDEFAALLAPPVSLAEAEAMAWRVVEVLGAPMFYEGQPVVIGASVG
+LAFGGGAVGPSCLFRHADLALYAAKDAGRNRVCLYGADQAEMAGARSLRA
+>tr|A0A1Q9AJX8|A0A1Q9AJX8_9RHIZ
+MSLDVFSAHRNDPQVRLDAKRAAFIVVDMINEFCKPGGKMVLPGYESLVGPQTALIEAAR
+KAGAPVIWVHDAHRPGMRHEREWAKRTPHGLENTWAVEIIEDLGARADEIHVTKRRYSAF
+FQTDLDLTLKDMQIDQLVVFGVVTNICVRSTVHDAFFNGYEVIVPADACAATGPREQESS
+LYDIATHFGVVSDVQSVVAALNQGTAITNMIAA
+>tr|A0A1Q9AEK5|A0A1Q9AEK5_9RHIZ
+MENNRNYFVAIALSVLILIAWQFLYINPKMERERAAEQVRQAQIAEQQAANPAAGQAGQP
+APGQTANGAAPAGSPLATDLSRDQVLARTQRVAIDTEALAGSINLTGARLDDLKLKEYHE
+TVDKKSPIITLFSPGETADGYFTELGYVGTAETGAVPGPQTVWTAPEGAKLTSQTPVTLT
+YTNDKGLTFARTISIDEHFMFQVVDKITNASGAPVSLQPYGRVTRNTKPATPSVYVLHEG
+FIGYLGDHGLQEIKYTKVEDDVAVKPGKATGGWTGITDKYWAATIVPQQNLAYEASYNHF
+TQGRPSYQADYRQDALTVGAGQTQELKTLVFAGAKQVPLIDGYEASYQIPKFDLLIDWGW
+FYFITKPMFKLMDFFFRFFGNFGVAILMTTIVVKLLFFPLASKQYASMANMKKVQPKMEE
+LKKQYGEDRMGLQQAMMQLYKDEKINPVAGCWPILLQIPVFFALYKVIYVTIEMRHAPFF
+GWIQDLSAPDPTSLFNLFGLLPYDVPHALMIGVWPIVMGITMFLQMRMNPTPPDPTQAMI
+FTWMPLVFTFMLASFPSGLVIYWAWNNTLSVIQQAIIMRRHGVKVELFDNIKGLFKKPKP
+AE
+>tr|A0A1Q9AI99|A0A1Q9AI99_9RHIZ
+MAEALEQRPGRILVLILAYLLINIAVRLSLPTSLEMDEAQQALLTQWLAAGYDSQPPLYN
+WVQYGVSALAGLSLSTLAGVKAGFLLAIYGGYAMLARECLEDRALAALAPLGLLTIPHIA
+WESQRDLTHSVALSAVSILFLWAVMRTLKRPSLLSFTLVGVTAGLGLLAKYNFVLLPFCC
+LVAMASLPETRRRLADWRILVAAAFAVLVFLPHGLWLWQNSGIAAAETLGKLEDDGAPVS
+MLADLAGGVLSLAGATLGFTGLTLLVFALAAGKADGASALRAQSLPTRLIGRMMLVFIAI
+LLITTLATDADSFKERWLSPVLIFLPLYLCLKAEAAGLNGRRLLARILPVALVIAVLVPS
+ILLLRVTAAGWTGKYNKQNVPYAALSRLIAEAVPEAPGAVILSADRQLAGNLRLNFPAAA
+VVTPDYERFERAAFDTANRPVLVVWRGNAPIDPALRQLALRQGSEQEGVKREATPVGGIV
+SLGYLYGRPGDRVTFSYQLFANP
+>tr|A0A1Q9AKH5|A0A1Q9AKH5_9RHIZ
+MTRRLLSVGLVTTLCAFAPAIGSAQVPVNDAKRTVSETNTAICMRRARTFKQSTVAPTRD
+IRASMTGNNDAARMPGVSGQNVFGAALSGSTIGGDDFAVLMGIANTVQAIKAKNAGQAIS
+ALASVAAAVAANSSSLSTQTETVGGANTLKGAFEQNGIARLSEAQIWNQAIQAVSTTVQL
+RNQRLLDVTAAASATAKTGAYDPSQTTFTGPGKHKGQ
+>tr|A0A1Q9ACU5|A0A1Q9ACU5_9RHIZ
+MSSRQTSFNYEEILSCGRGELFGPGNAQLPLPPMLMFNRITELSEDGGDHGKGFARAEFD
+ITPDLWFFPCHFQGDPVMPGCLGLDALWQLTGFYLGWLGEPGKGRALSTGEVKFTGMVTP
+KTKLVEYGIDFKRVMRGRLVLGIADGWMKADGEVIYRATDLRVGLFQEKAA
+>tr|A0A1Q9ANB7|A0A1Q9ANB7_9RHIZ
+MTISSQKLAPAYDVEAVRRDFPILSRTVHGKPLVYLDNGASAQKPQAVIDAVTHAYSNEY
+ANVHRGLHFLSNAATEAYEGARETVRRFLNAGSLDEVIFTKSSTEAINTVAYGWAMPNIG
+EGDEIVLSILEHHSNIVPWHFLRERQGAKLVWAPVDDDGAFHLADFEACLTERTKLIAIT
+HMSNALGTVVPVKEICRIARERGIPVLVDGSQGAVHMPVDVRDIDCDWYVMTGHKLYGPS
+GIGVLYGKRDRLMAMRPFLGGGDMILDVTLDNVTYNDPPHRFEAGTPPIVQAIGLGVALN
+YMESLGRAAIAAHEADLTAYASERLSAINALRIIGQAPGKGAIFSLAIDGVHAHDISTVI
+DRAGVAVRAGTHCAQPLLTRFGVTSTCRASFGLYNTRAEVDALADALDMARRFFS
+>tr|A0A1Q9AQG1|A0A1Q9AQG1_9RHIZ
+MRTIDINEAIDVGPFERFQWKIVGLCGLLLIVDGYDVFVAGTVLPKLIAEWGLTKPQAGA
+LQAWALFGMMFGALIFGPLADKFGRKKGIAISFLLFTTATITTGFAQSPQQFEILRFLAG
+LGCGGLMPNAVALMNEYAPKRLRSTMVALMFSGYSIGGMVAASLGITIIPAFGWQWMFFV
+AAIPLAILPFILWQLPESLGFLVRQNRQTEARAIYAKLYPAQPIGDGDRLVFTETKVTSA
+SVAELFRQDRGSRTAMVWVSFFCCLLLVYLLSSWLPKVLQEAGYAERASLLSLFSLNFGG
+MVGAIAGGRLGDRFGLPKVVVCFFAAAAVSIALIGTGLPASLLFLSVFVAGATTIGTQIL
+LYASVAQLYGLSIRSTGLGWASGVGRIGAIVGPTFGGYLLAQELPLQQNFMLFAIPAVVS
+TFAMTAYSVLSTRKAARELAPA
+>tr|A0A1Q9ADD9|A0A1Q9ADD9_9RHIZ
+MAGKPVVKIDAITKLGVEKLAALVAGEAERNPGFRKLLKAALAGVKGPEAVAKLVDTRLA
+SLERAQSTISWRRARSFAQDLDTIRVMIVDQLAPLSPTIGADRLLRFIASHESVFDRLND
+SSDKVSTIYLEAIETLAELAAKLPAEDRRRLPERIMARLSDDGYGYLLQIVKAVAPTLPA
+EALLDWDQRFAPKSPAAAKREGVAAWESDRRLLMRQLLARARGDLDALVALEAMKSPASQ
+DGFTMAQLLFDAGRFAEALDWLRKPRETGIRFVRRQDLADMAPAPPHPESIVRAQLEARI
+LTALGDKPAAQALRWARFEAELDPAILRDYIAALGDFEEFEALDRAFAHAFNVKPPELGL
+AFLVVWPRLDKAAELVLAKDRRWDGRNFDLLAPAADALAEEHPLAATVLYRALVDDILAR
+SRSQVYDQAAIFLAVLDALKDRLDADALAATGMPPHRAYMAQLRKVHGRKYGFWSLVPSD
+L
+>tr|A0A1Q9AN13|A0A1Q9AN13_9RHIZ
+MSQALTVFPAFFRVARKPVAVFGNGDEAYAKARLLLNTQARLIAFVDEPEPDYAAFLQAR
+GIEQVNAPFAPEQVEGMALVFAATGEALLDQAIVSAARAAKIPANAVDQPEWCDFITPAL
+VNRAPVAVAIGTEGAGPVLAQMIRARIDQMLPPSLGALASLAAAYRHAVDRLLPRGSARR
+IYWRNFFSGPVADAVADGDLSAARRAATRLLKAPEAAEGRVWLVGAGPGAEDLLTLRAQR
+VMMEADVLVYDALVPQAIVDMGRRDAERLSVGKRKGCHSKSQAEINQLLVRLGREGKRVV
+RLKSGDPLVYGRAGEEMAALREAGIAYEVVPGITSALAAAADFELPLTLRGVASSLVFTT
+GHDLTGAVLPDWARLAVSGASVAVYMGRTVAASVAERLAEAGLPRETPVAVVENASRENR
+RLMHGTLADLPDLAYREDLSGPVMVIIGEAVAGANFDRSQPLSRARAGGDEGERLLPADK
+KNERVRA
+>tr|A0A1Q9ANH9|A0A1Q9ANH9_9RHIZ
+MTAQIEITEVTKRYGALTVLENLSLSIKANEFMVFLGPSGCGKSTLLRMIAGLESVDEGT
+IAINGRRIDTLPPGQRDLAMVFQSYALYPHMSVADNMAFGLKNIGVPADVIATRLSEAAR
+MLEIGHLMERKPGQLSGGQRQRVAIGRAIVKEPKAFLFDEPLSNLDAALRVRTRVELAQL
+RHRVKSTMIFVTHDQIEAMTLADRVVVMNNRRIEQIGTPMDIYTRPATRFVATFVGSPTM
+NFLKAKMDSRDGFATLTLPDGATLQTAMRSDGLAPGAYELGIRAEAVRPARAGETVTTSG
+TVEVLERLGDRTLLYIRLSDGSMIVAEDAGLSRAAIGDRMELTLDGSRVHLFDGEGRAFH
+AVEAAHG
+>tr|A0A1Q9AEB6|A0A1Q9AEB6_9RHIZ
+MERQPVSSSSLASVGYDPGSETLEVEFVATGKVYEYYNVPQFMYERLVEASSIGQFFNAE
+IRNAYPCNPI
+>tr|A0A1Q9AG23|A0A1Q9AG23_9RHIZ
+MNRRRRIYEGKAKILYEGPEPGTLIQFFKDDATAFNKKKHDVIDGKGVINNRISEYIFTH
+LNKIGIPTHFIRRLNMREQLIKEVEIIPLEIVVRNVAAGSLSKRLGIEEGTVLPRSIIEF
+YYKADALEDPMVSEEHITAFGWASPQELDDIMALAIRINDFLSGLFLGVGIQLVDFKIEC
+GRLFEGDMMRIILADEISPDSCRLWDVETKNRMDKDRFRRDMGGLVEAYQEVARRLGIMN
+ENEPPRGSGPVLVK
+>tr|A0A1Q9AKF9|A0A1Q9AKF9_9RHIZ
+MAGSRIEHARIHNRRLVFETIFQRGPISRVEIASVIRLKPQTISSITRELLEQGLIVEAG
+RSSGLRGQPQIYLEANAEAGFSIGIHLDQNLCSILVLDLTRKERARRVTRIDTGDPANAV
+KALSSTLSALLAEQAVSSEHIWGVGLVLPTFGSAGDDFDFSMRHWQAWRDFPFADELHRL
+TGYAILVENDATAAAIGERIHRPDTQEATFVYYYIGHGSGAGLIIDGYPYKGIGGTAGEI
+GLLPFAGLGGSQTWPESGPEAADGTAAQGGLISIGGLGLACGLGLNPDPARILQLLAIRD
+HRLMDWLASAARLLRDVVAIIEVMYDPGFIAVGGALPQPLIERLVDRAYPLRPTPAARRD
+RVHPRLITARLSEDAAVTGAAMLPIFVNTSHNFRHLYIRQNLADVRPFEIAGSAQP
+>tr|A0A1Q9ANV5|A0A1Q9ANV5_9RHIZ
+MPSDAADPRTGQSWTVDVAGQAIDLPIVAIKPDFAISLMMVIDLGVRFGAHVGQALAERL
+APTKPEIVIGAATLGIPVAIEVTRALGLDDYVILQKSPKLHLANALEQRISSITSKGEQR
+LLLDRAALPLLAGKRVAVVDDVVASGSSLRGSLELVRRAGAEVVGIGVILTEAKDWQETL
+GPDRDLVHGLAHIPQFTKAADGRWKPIPGT
+>tr|A0A1Q9AEF8|A0A1Q9AEF8_9RHIZ
+MSENTVLTMSSWRDVHEIIVKTKEGRSCSILIHDDGGGAFDTDILISGLVGSARPAMSYG
+LKSTTPTSTPKEHFNDSLLLITAHLKQYAPTDEMADFWNPCNTPFVSQLEQNEVLAALGI
+GQVVRVN
+>tr|A0A1Q9AJ92|A0A1Q9AJ92_9RHIZ
+MIIQAFLRWVEQASASNRARAAAALGRAYATGGTPHLDRNAAEMGMTLLLDDPAPQVRQA
+LAEALADCPHVPRAIILSLAQDRAETAYTVISRSPVLTDHDLVELVARGSAEIRALIAAR
+HPVRAPLAAAIAEIGDEIAVSILIENAQAQLTARTLARLAERFRDHAAIRGGLLARADLP
+AAVRAGLTEAVSEALAGFSLVARALGADRAARITREACDVATIHVSAAVPAPDMIRLVEH
+LRLRARLTPAFLLQALCAGKVALFAEAMVCLTGMGEARVRAILSGGSGHAVRAMIERAGL
+GRDVSGLYMDAVLLWRRENRLPEETGSVPKRLLARLRDLGGQANVAPGLAEIIEKLDIAE
+QRRQARRLALDAA
+>tr|A0A1Q9AGB0|A0A1Q9AGB0_9RHIZ
+MTQPSSHTSTLGYFKWSFIVTAIGLALGAWLGWNTTGTVGGMASVFFICTVLAVLEISLS
+FDNAIVNANKLKDMTPVWQQRFLTWGILIAVFGMRIVFPLLIVVIAAGIGPIDAVVLAAA
+RPDEYARIMNEAHLPIAAFGGTFLMMVGLSYFFDPDKDVHWIAFLERRLSAAAAIKGIEI
+AFVLILILGFSRLLEGAEATLFVHSALYGLVTFLIVEVIGGLLDASQKTMSEAAKGGLGA
+FIYLEVLDASFSFDGVIGAFALTQNLFVIAIGLGIGAMYVRSMTIMLVEKGTLAHYRYLE
+HGAFYAILILSVIMYVQTLFHIPEVITGLGGAALIGVSLWSSIRYNRQHAGETLTGHAPA
+GHSA
+>tr|A0A1Q9AGL7|A0A1Q9AGL7_9RHIZ
+MHETIFALSTGGLPSGVAVIRLSGPETAHVMTAMAGPLPRPRRAALRTIRRPSGERLDQG
+LVLFFPGPASFTGEDCGELHLHGGRAVVTAVLDCLGGFATLRAADAGEFSRRAFSQGKLD
+LVEVEGLADLLAAETEMQRRLASEHAAGGLSEIYQGWARRLTHARAMIEAELDFADEEDV
+PGSVADRIWPDMAALGLEIDHHLAGAATAAIIRDGFRIVIAGAPNAGKSSLLNALAKREI
+AIVTEIAGTTRDILEVDLSLAGFMVKLFDTAGLRETEDRVEREGIRRARSAMEEADLILL
+LADHPQGFDRELIRDDRVVAVGTKLDQDTALWDRSAAEVLISTRSGEGLDALIQAIERRL
+PQLQPGALALPSRRRHQDLLRQCAGHVQDGLAAAPLGLDLQAEHLRLAQEALGRLTGRID
+VENLLDVIFSEFCIGK
+>tr|A0A1Q9AEW7|A0A1Q9AEW7_9RHIZ
+MGAMAPLTTAPRPADFAHVRDWVFDLDNTLYPHHVDLFAQIDRNMTDYVATLLQLAPDEA
+RKLQKAYYRDHGTTLQGLMLHYGVDPNDFLQKAHAIDYTVIPADPALGAAIKALPGRKFI
+FTNGTVAHAEMTARALGILEHFDDIFDIVAAEYVPKPAGATYDKFMALNRVDTTHAAMFE
+DLPRNLTVPKALGMTTVLTVPRNLEYAFSEIWERHDGKSDEIDYITEDLAGFLQHLID
+>tr|A0A1Q9AHT5|A0A1Q9AHT5_9RHIZ
+MADITSGKPQEPIQSRQTPPGRGLSDRQKDIIQKFAALGSLVILAAVFATTSSAFLTVNN
+GMTIALQVTSIALLGIGATYVIITGGIDLSVGSVLALAGVVAALAVRDLGTPIWLGMLIG
+ILTGSACGLINAFVITRLKLPPFIATLGMMLIARGVALQITGARAVSGLGEAFGVLGNGS
+LFRIESIDDQGFPVVSFPGIPYPVVLMIVIAIAAGFLLNRTVLGRHIYAIGSNADAARLS
+GVNVTRVTAFTYLVSGTLAGLTGCVLMSRLVTAQPNEGVAYELDAIASAVIGGTSLIGGV
+GTISGTFIGAFVIGILRNGLNMNGVSAFIQQIIIGLVILVTVWIDQIRNRR
+>tr|A0A1Q9ADM3|A0A1Q9ADM3_9RHIZ
+MKRLLASTCLLLGTIAGSAIANAAECGHVTIASMNWQSAEVLSNLDKFILNEGYGCDAEI
+TIGDTVPTITSMAEKGQPDIAPEAWVDLLPDVVKKGTDEGRIVKAGSPLPDGGVQGWWIP
+KYLADAHPDIKTIPDLLKHPDLIKDPEDPSKGAVYNGPQGWGGTVVTTQLFKAFGAEKAG
+WTLVDTGSAAGLDGSIAKAYERKAGWVGYYWAPTALLGKYEMVQLQAGVPYDAAEWKRCI
+TVASCTDPKPSAWPVDTIATLVAKPFSEKVAPEVMTYLNKRAWSNQTVGKLMAWMTDNQA
+SGEDSAKHFLKENKDIWKAWVSPEAAAKIEAAL
+>tr|A0A1Q9AHI0|A0A1Q9AHI0_9RHIZ
+MTTTTHTGAGTRALALVFLAAIIEGFDLQAAGVAAPKLVPAFKLVPDQVGLFFSAATFGL
+VFGALCGGVIADRWGRRTGLALSLAAFGLFSIGTAFADTFEHLVAMRFLTGVGLGGALPN
+LIAIAAESVSPERRGRAVAFMYAGVPLGGALASLVAMVGLHDDWRTIFVVGGILPLLLVV
+PLQVLMAPFRVVRDARGPARRRDVLLGPSVLAQTVLLWAAFFFGLIVVYLLLNWLPQILV
+SLGFARETASLVQIVFNIGGAAGAILGGRLLDGTRPALASALGFAGLMLAIALLAMVPAG
+SVPAALAAGAFIGATVIGVQALLYGIAPQCYPGEVRGVGVGLAVSVGRVGSIVGPLVAGW
+LLASGMGPQQLLYTLLPIAAVCGAATVILILRRNRTGVPLAA
+>tr|A0A1Q9AMR9|A0A1Q9AMR9_9RHIZ
+MRRIGARLAGKAIYPTASAVAVCDDKYAFNRVVSNSPFGVMIPQLIADVSASPFPCILKR
+RHDHFGVESFVLRCEGDVLQHARRLKSDDYFLQEYIEGKEEYATHILLRDGEIVFSFNVL
+YEVADQPFVKGKRQHHLSMKTAIALPFLKDFLKVLDYIGFRDGTCCLDYKISNGTPQIFE
+INPRFGWSLFHDFGPYLRSYREAAQGWTGASAPALSDPAPLMADALP
+>tr|A0A1Q9AK48|A0A1Q9AK48_9RHIZ
+MSTLFDILASAGLWAAVLRIATPLILGTLGALLSERAGVLHLGIEGIMTFGAMIGWLAVY
+HGADLWTGFLVAALAGAAFGLLHALLTVSLGLSQHVAGLGVTLFAASFAYYVFRMLVPVA
+GTPPTIVPFQPLDIPGLTAIPFFGPAFFAQTAPTYLAILLAIALGYLLKRTPLGLAIRMT
+GENPHAAEAQGINPVAVRYGAVIAGSALMGMAGAFLTLSAFNSFFPTMVQGRGWICIALV
+VFASWRPGRALLGALLFAFFDGVQLRLQPALNGIVPYQLFLMIPYLMSIVALAVMARRAR
+VPQALMQPYRRGER
+>tr|A0A1Q9ACS7|A0A1Q9ACS7_9RHIZ
+MTFLSSPIVNPNDRDGDVDVDEVRALARMLAYAHQAASDLKLDATMACIEMALGSVLRDM
+EGDVAGLSAQTTAAGRKMKAH
+>tr|A0A1Q9AHK7|A0A1Q9AHK7_9RHIZ
+MTKLIVKQAGPLMSVQDLGRTGFVQMGVSASGPMDEVAMRIANRLVGNPQNHALLEFAVL
+GGQFEVDAPTSFAVTGGAAAITVDGERVDGWASHVLLPGQVLRIGALTNAVWGYLALSGG
+IETEPVLGSRSTHLRSGLGGLDGRRLAPGDALPLGTPADDPVGMPQRVLRLPLPRAAGPI
+RVIDGPQAGHFDEATWQQFLRGPFLVSGSRDRMAQILEGPPIRAAGGHDIVSDGTVMGSI
+QVPASGRPIVLMAERQTTGGYPKIATIASVDLSRLAQAMTGSLIRFKRVTQDQAEDLWIA
+RRRWLETACACLNGNGDAGMPEGGGS
+>tr|A0A1Q9AJC2|A0A1Q9AJC2_9RHIZ
+MPINITMPALSPTMEEGNLAKWLVKEGDKVKAGDVIAEIETDKATMEVEAVDEGTIAKIV
+VPAGSEAVKVNALIAILAEDGEDVGAAASGGGASPAQAQAQDVKSDQVAVSAAPASSEAK
+PAAAAPAKAEGGARTFSSPLARRLAKEAGLDIAAISGSGPHGRVVKSDVEKAVAGGAKPA
+PATAAAPAPAAAAPAAAAPASAPKGMSDEAVLKNFAEGSYELVPHDGMRKTIAKRLQESK
+QTIPHFYVSLDCELDALLALRTQLNASAPEKDGKPAFKLSVNDMVIKALALALRDVPDAN
+VSWTDSAMVKHKHADVGVAVSIPGGLITPIVRSAELKSLSAISNEMKDLGARAKGRKLKP
+EEYQGGTTAVSNMGMMGVKNFAAVVNPPHATILAVGAGEERVVVKKGEMKIANVMTVTLS
+TDHRCVDGALGAELLGAFKRYIENPMSMLV
+>tr|A0A1Q9AD23|A0A1Q9AD23_9RHIZ
+MTDHAARQLSRMFRDIASAMADARDWLTELDGAIGDADHGITMALGFEAVTAALAREDLD
+RMAPSALFEIAATAFLDAVGASTGPLYATAFRRAARFLRTQEPAASNTPAQAPSLAARPL
+APLSTATQAGLLQAMAAGIAERGKGQRGDKTMLDAWIPAAEAAESAAGLDAASLWRAVLP
+AAEAGAEATRSMTAARGRAARLGERSLGHIDPGAASAVILLQAMARVLADQTDAS
+>tr|A0A1Q9AJM5|A0A1Q9AJM5_9RHIZ
+MKWVLIAWGGPMLFLSGWYVLSFYDLNFGLYFFSREMHDLVMEIYGGVLGLPSEAVPPLV
+GRALVVDTLLVFGLLALRRRRVLSAWVRRRILARAQAAGGQAVAAQSDASSDTARASAVS
+LSSAP
+>tr|A0A1Q9AP16|A0A1Q9AP16_9RHIZ
+MRLETVRTHEAKIAGASVALPIVQLDARKAIALLMVIDMGIRFGDRVGEALAAHFAALRP
+EIVVGSATLGIPVAIEVSRRLGIDHYVILQKSPKFHLADALVEEVRSVTSTAPQRLLLDR
+RSVPLLQGRRVLVVDDVVATGSSMAAALRLVRRAGGCVIGAGTILTEGHAWRSALGDDAA
+LLHGLGHIPQFDMIEGEPVADPATVADAFVERRIFLKAQTTQTRKPSAA
+>tr|A0A1Q9AFS1|A0A1Q9AFS1_9RHIZ
+METSVRTIFLGLAVLASFVAGPALADPVRSIAMHGTPALPDDFKAFPYVNPDVKKGGRIA
+YGVVGTFDNLNPFILKSMRTTARGMLDPEYGNLVYDSLMQRSRDEAFSLYPLLAESVEWD
+DNRSFIQFNLNPKAHWSDGQPVTPEDVIFTFELFRDKGRVPFSNRMAKVAKLEKVGERSV
+RFTFNEQSDREFPLLVALTPILPKHATDVDSFDQTTLKFPIGSGPYKVADVRPGERIVYR
+RDPNYWAKDLPSKVGQDNYDEISVEYFLQDNTLFEAFKKGEIDVYPEGSPTKWARSYSFP
+AVSSGQVIKDTFTPRTPSGMLGFVFNTRRPQFQDIKLRQGLALVFDFEWVNKNLFDSAYT
+RTQSFWQNSSLSYLGNPADNRELSLLGDIKNRIIPAVLDGSYRLPVTDASGRDRNVLREA
+VTLLREAGYVVKDGRMVNAQGVPLSFEIMTQNEGQEKLALAYQRFLAPLGIQASVRTVDD
+SQYQARSQTFDYDVIIKSFPSSLSPGIEQVGRWTSASRDRQGSDNFAGVADKDVDTLVND
+ILQARAQEDFTAAVRAHDRLLVSNFYLVPLYHVNAQWIARQKHIGRPDVVPLYGYQLPAW
+WDENAQK
+>tr|A0A1Q9AKB3|A0A1Q9AKB3_9RHIZ
+MATAQQGILDLLSPVPPGWGGVLLSGAASTLAISAGAFLIGLVLGTGGALGKLSGIRPLG
+LILEVYTTAIRAVPELILIVGLYYAGMDGLNRLLALAGLPAFELNGFAVAIAVLGFVQGA
+YMTEVLRGAILAIPIGQIEAAKAFGMGPRLRFRRVVLPALLPNALPGLANLWMSIMKDSA
+LVAVVGYQELALATRLAAASTKHYFLFFMASALIYLALTLVSNALFTLMERRVRRGQPKP
+AGHLAP
+>tr|A0A1Q9ADA4|A0A1Q9ADA4_9RHIZ
+MFHLMFGLPWLVVATRFLWPLPWPLAIKVLIALLLLVASQYHYISRLSSGSVFAPELPRP
+LIIAFNLAMAATILLAVFQIALDLTALVLALFKGRLPLVPPQVRYGLGMLAVVLSAYGVQ
+QALRVPPLKDVEVAILGLPAAFDGYRLVQLTDLHISNLFPATWARAVVERTNALDADLIV
+MTGDLIDGDVAHRARDVAPIADLKARDGVYAIPGNHEYFFDYAAWMRQYEALKLTPLLNR
+HIVLRPGEAALVIAGVTDRSAGRFGATPPDLGAALAGAPAGAPVILLDHQPMDAARSAKK
+GIALQLSGHTHGGMVWGLDRIVARANNGFVSGFYRVGAMQLYVNNGTALWPGFALRLGPA
+SELTRITLRPAR
+>tr|A0A1Q9AG50|A0A1Q9AG50_9RHIZ
+MPFHAAFLALVVPPFTGALVFAMFGADLSLRLIASLLAPAYLLGAAPAFLCGRLDRRLAR
+LGWSGAARLAVASGLGGLAGLVVLGPLFLKGSIHGALPLLAPVAFAFSAFAALGLAMLLA
+WLPAMTWKPPTPPEGDR
+>tr|A0A1Q9AKP6|A0A1Q9AKP6_9RHIZ
+MRLNRLDLVRYGKFTDRRLDFGPRGEGADLHIVYGPNEAGKSTLFNGFLDLLFGIEARSA
+YGFLHPYAAMRVGGVVEAGGSAQEVFRVKRAQNTLIDAADRSLPDGLFAAALGGIDRAGY
+RMMFSLDDDTIEQGGEAILKSEGELGTLLFAASAGLPDTAAALEALKGEAEAFYKPQGRK
+HQLGELKDVLERLKQERTALDVTARAFKELRRDRDLATETHEQALSARAGLQAALDQCRA
+AIDALPILARLRAGRAELEAYGDLPEPPSAWFAALPGLMREEAALSSRQVQAEAARARLD
+GALEGLARDPQALALAPALSALLQDNLEARERAAIQDLPVRQAERQRLMAELAMQRARLG
+IDDSIPLTKLILPAGEAAHLHALVVQHGKLTERASTAARELQAAEQASARLKRQEPAEAA
+ALPPREIAPPSPDAVEALKQALAAARGSDAGLRRQEAERRREQAAVELTERLALLSPFTG
+DADALAGLQVPTNEEISAWRLGLASLEEERLRQQSRLGEIETELAADAARAEALAGRGGL
+VDDAAAAALRAAREAAWQRHASALDSETAQSFRVALMADDEAGASRLAQASDLSRLRDLA
+EARADRLARRAALGERLAAIAEDKARILAEVGSACATCALEPALTPARLEAWLSRRSEAL
+AARAALQLAERDLDRAAGDEAGLRADLAQGLLPWESASGPGTERLDGLVRRAERLLAELQ
+EAAHAQKAGREAAARAAELLESRRADDAAVRQELEDWAQAWQRALAKAAVLDWLQATSGG
+AGDVPVPPPAMVLPLITILQEVEALVIRLADLDHRIAAMEADRAAFRARLADLQPMAADA
+PPLPVLEALRRRVQAAQEAERIAERLAQEEQRLEEDEARLAEDLGRHEALKREMLALFQA
+DSLNEVAAGLDAVKARAQLRQRLADAEDDLCRRLQADRIETAEAQIDALDRHALAEERAA
+LEARLAEAEAQAGEALVARRAAEKALAAVAGSDAAAHLEEQRRTVLAEIETRAIRYLRLR
+AGILAGEEALRLYRERHRSAMLARASEAFSVISGGDYEGLGSERVKGREVLYARPAGGGT
+KFAEDLSKGTRFQLYLALRIAGYHETAGFREPLPFIADDIMETFDDRRAGHAFRLMGDMA
+RKGQVIYLTHHEHLCDIARSVCPEVRLHRL
+>tr|A0A1Q9ALH2|A0A1Q9ALH2_9RHIZ
+MTLIHEIDYGTPASRAEEQVTLTIDGRSITVPAGTSIMRASMEAGIQVPKLCATDMVDAF
+GSCRLCLIEIEGRGGTPASCTTPVMPGLVVHTQTERLKAIRKGVMELYISDHPLDCLTCA
+ANGDCELQDMAGAVGLRDVRYGYEGDNHVRARETDGVANARYLPKDESNPYFTYDPAKCI
+VCSRCVRACEEVQGTFALTIEGRGFGSRVSPGAHESFLSSECVSCGACVQACPTATLTEK
+SVIAIGQPEHSEVTTCAYCGVGCSFKAEMRGEELVRMMPWKDGQANRGHSCVKGRFAYGY
+ATHKDRILNPMIREKISDPWREVSWEEAFAHVASEFRRIQYRYGREAVGGITSSRCTNEE
+TYLVQKLVRAGFGNNNVDTCARVCHSPTGYGLGQAFGTSAGTQNFDSIEQSDVVLVIGAN
+PTDGHPVFGSRLKKRLRQGAKLIVIDPRRIDLVRTPHVEASYHLPLKPGTNVAVLTALAH
+VIVTEGLANEAFIRERCDWSEFEDWAAFVAEPQHSPEAIEAYTGVPADLLRGAARLYATG
+GNGAIYYGLGVTEHSQGSTTVMAIANLAMVTGNIGRPGVGVNPLRGQNNVQGSCDMGSFP
+HELPGYRHISDDATRETFEKLWGVTLNNEPGLRIPNMLDAAVDGTFKGLYVQGEDILQSD
+PDTKHVSAGLAAMECVVVHDLFLNETANYAHVFLPGSTFLEKDGTFTNAERRINRVRKVM
+SPKNGYADWEVTQKLAQAMGLNWAYAHPSEIMDEIAATTPSFASVSYAYLDQHGSVQWPC
+NEKFPLGSPIMHVDGFVRGKGKFIRTEYVATDEKTGPRFPLLLTTGRILSQYNVGAQTRR
+TENVTWHQEDRLEIHPHDAEQRGIKEGDWIKLASRSGDTTLRALITDRVAPGVVYTTFHH
+PDTQANVITTDFSDWATNCPEYKVTAVQVSPSNGPTEWQQDYDDLSRRSRRIAGKLEAAE
+>tr|A0A1Q9AL58|A0A1Q9AL58_9RHIZ
+MLRLAALFLLLSGPAGAAPVLFPAANGRADAPVLTIYSSLDEGLAQPMIAGFQSANPDVA
+VRYEDMLTGEIHERIMRETDAGQTTADFAFSSAMDLQVKLANDGYAQASDLPLSASWPGW
+ANWRNTAYALTFEPAVFVYHKPSFTTEPPPATRAQFVAYLERHGDTVHGRIGTYDIERSG
+VGFLFMARDQEQFGDIWSVVRAMGKAGVKLYSTSTAILERITDGRFVIGYNILGSYAAEW
+AARHPEVGIVLPKDYTVVMSRIGLVPQAAARPDLGKRYLAFFMSQPGQTIMARELHVPAV
+NAAQTPAEEPGGVFTGALAQQLRPVPVSPGLVVYLDRVKRARVIARWNEMLRLQ
+>tr|A0A1Q9AJV1|A0A1Q9AJV1_9RHIZ
+MSAIESRGIRRIVTVMEETLMEGGRVLDRPIRRAASVAVIHNPFAGRYVEDLGALMETGR
+DLGRLLPERAVAMLGIEGSKVESFGKAALVGEDGELEHAAALLHPQLGAPFRDVLGGGAA
+LIPSSKKRGAPGAPFDIPLGHKDAARVRSHFDGMEVRVGDAPRADEIAVAIAVTDGGRPL
+PRVGGLSLDKIVGKDGLV
+>tr|A0A1Q9ALP9|A0A1Q9ALP9_9RHIZ
+MAAATRPAPEKPSLIGLTREEMAEALGGIGVPERQRRMRVNQLWHWLYVRGVSDFDAMTN
+VAKDMRALLKTHFTIARPEVVEEQISSDGTRKWLLRFPARGAGRPVEVETVYIPEEGRGT
+LCMSSQVGCSLTCSFCHTGTQRLVRNLTAEEILAQLLLARDRLGDFPGADVPEGGLIPSS
+DRKVTNIVMMGMGEPLYNFEAVKTALLIASDGDGLSLSKRRITLSTSGVVPEIARTGEEI
+GVMLAISLHAVRDDLRDMLVPINKKYPLKELMEACRAYPGLSNARRITFEYVMLEGVNDS
+LEDAKDLVRLLKGIPAKINLIPFNPWPGTNYRCSSWEQIETFADFINSAGYASPIRTPRG
+RDILAACGQLKSESERMRKVDRLAYEAMMIANHGEDD
+>tr|A0A1Q9AM02|A0A1Q9AM02_9RHIZ
+MSLALEIRNLQKHFGGLHATRNLSMEIPRGELHAIIGPNGAGKTTLLTQLSGELRPSSGS
+VFVNGRDVTKAPPHKRAALGVARSFQITTLVKDMTVGENVILALIANSGHAYRFWNRYDR
+NAGLWRAASEAITRAGMAPNLLHRRVADLSHGEQRLLELAIALARDPAILLLDEPMAGLG
+SEESRAMTRLLGSLRGRRTILLVEHDMEAVFELADRITVLVRGEVVAVGTPGEIRRNEEV
+REAYLGEEA
+>tr|A0A1Q9AL55|A0A1Q9AL55_9RHIZ
+MHDEDDDDSALRAIEAVIEMKGELKTYLRMIDRSDAPIPVEEMQKAAGIRDLVSLNRELE
+HQARGEPFSELIVGHADMLKQSAIAKLSASSVLSDPAPLQVPNATSATVAPPVSRADVLH
+RDTGADDQSDDEDLPRDAQGRLIPAFELDRRTVRRPKSVQPKLSDVIPTYVAARRPSGGA
+NIARDLATAQSRLALFIELIGDHRVDTYVPADLQAFVNHMQFWPGDNNQRDPDLTPWQVI
+EDNRDLHLKPFGQEDAG
+>tr|A0A1Q9AE94|A0A1Q9AE94_9RHIZ
+MSKPTFYEFFAGAGMARAGLGKGWECVFANDFDRKKGLTYQLNWGLGGELEVGDIRKVTI
+DKLPGVADLVWGSFPCQDLSLAGGGAGLKGERSGTFYPFWDIIRDLREDGRAPHVIALEN
+VNGALTSHGGKDFAAICETFTKHGYRYGALVIDAAVFVPQSRPRLFVVGVRDDIEIDPAL
+VAPGATMPFHTRGLRNAVERVPAKAMENWVWWNLSMPAMRTSTFADIIEENPASVEWHTQ
+AETAKLLDSMSSINRAKVEAAKRAGRRMVGGIYKRTRQDAEGRGVRAEVRFDDVAGCLRT
+PAGGSSRQTIIVVDGNVVRSRLISTRETARLMGLPDSYKLPKPYNEAYHLMGDGVAVPVV
+RFLAHHLLEPLAGVATSVESTDGINVA
+>tr|A0A1Q9ANX8|A0A1Q9ANX8_9RHIZ
+MFDDQSFSLPADRLLCHVDGVFALEAMAEAERAARWAAFAGKRPEAFDGRLLRMAQHSVT
+DDALRITAQETRFSAYIATRDPNFTLRHPGVGRADPLGLTAAVLAVDGQLILTRRNLTAE
+QNPGCLYLVGGYAEPGSTGTVDLLAEAAREVAEELAVTDLLRDEALAIGLAYDPVHCHPE
+LFLLLPSASRAEDILRQVEEAQDRTEAAQLIACPLAQVIEGGSALSSATWTWSFRKARQF
+LIDHQRRAGG
+>tr|A0A1Q9ACP2|A0A1Q9ACP2_9RHIZ
+MTEDTPVDAALLFEETLDAPLPKVWRALSIPALRAQWLPSGDLMEPDGVEVVPGQTMRYR
+MRERTPPFLESHVTIRLTPGEDGGTHIRILHELARPRAAGPVAANANRAALLSAA
+>tr|A0A1Q9AFP1|A0A1Q9AFP1_9RHIZ
+MATVVIYTRQGCGYCAAAKALLEKKGVAYEEHDATGKPEVREEMIERSQGGRTFPQIFID
+GKHVGGCDDLHALDRAGELDPLLAA
+>tr|A0A1Q9AMB0|A0A1Q9AMB0_9RHIZ
+MKCLLLIDIQNGFCSGGNLAVPDGEAVVPVANRLMAEGGYDLIVASQDWHPADHGSFASQ
+HPGRKPFETGTLGGRPQMLWPDHCVEETADADFHPDLDTARIDFVQRKGMDSDVDSYSAF
+RDNDQLALTGLADYLSAKHVTRLDICGLATDYCVRFSALDAKAMLPAVNVRVIEDACRGI
+DPAGVEAAYDAMAAVGIGLVTSATVLAEQA
+>tr|A0A1Q9APM0|A0A1Q9APM0_9RHIZ
+MSYHNPHTPPRKSATFDDHTLAEIRRAAATGIYDIRGAGTKRKVPHFDDLLFLGASISRY
+PLEGYREKCDTTVTLGTRFAKKPITLKTPITIAGMSFGALSGNAKEALGRGATIAGTSTT
+TGDGGMTDEERGHSQTLVYQYLPSRYGMNPKDLRRADAIEIVVGQGAKPGGGGMLLGQKI
+SDRVANMRNLPKGIDQRSACRHPDWTGPDDLEIKILELREITDWEKPIYIKVGGSRPYYD
+TALAVKAGADVVVLDGMQGGTAATQDVFIEHVGMPTLACIRPAVQALQDLGMHRKVQLIV
+SGGIRSGADVAKALALGADAVAIGTAALVAIGDNDSKWEEEYNKLGTTAGAYDDWHEGRD
+PAGITTQDPELAARLDPVAAGRRLANYLKVMTLEAQTIARACGKNHLHNLEPEDLVALTM
+EAAAMAQVPLAGTSWYPGKGGF
+>tr|A0A1Q9AC87|A0A1Q9AC87_9RHIZ
+MAVAPVMKPAASSADPILKVEHLSMRFGGLMAINDLSFECRRGEITALIGPNGAGKTTVF
+NCITGFYKPTMGMMTLRQKAGKDFLLERLADFEINKRAKVARTFQNIRLFTGLTVLENLL
+VAQHNTLMRASGYTILGLLGFPAYRKASKESIELAKHWLEKAALIERADDPAGDLPYGAQ
+RRLEIARAMCTGPELLCLDEPAAGLNPRESLALNTLLQGIRGETGTSILLIEHDMSVVME
+ISDHVVVLEYGQKISDGTPDFVKNDPKVIAAYLGVEDDEIEEVIAEVEEVAHEVEEGGQK
+>tr|A0A1Q9ADV7|A0A1Q9ADV7_9RHIZ
+MPQRELSDPITMRLPLDVLAEVEEIAAICERSRSWVFVRALKAYLAAEGREIRELAQDRR
+DVDEGRGKDLDAVIREMEGAGKGAAA
+>tr|A0A1Q9AFW7|A0A1Q9AFW7_9RHIZ
+MRAIALSSMVACLLAASAAFGQGVETKAKQVYMIEQETGTVLLSREADTVVAPASNAKLM
+TMEVALEAIRSGSLALTSDFPVSEFAWRTGGAPSGTSTMFAAIKSRVPVPALLTAIAVQF
+ANDACLILAEGLAGSEQGFVDRMNARAAALGLSASRFANATGLPDPRNQTSMRDLVTLAR
+HLQETYPDAYANYALPDFEWNKIRQRNRNPLVHANIGVDGLVTGFAEGQGFSIVASMARE
+GRRVFLAAGGFASDKERTEESRKLLDWAMTDFVRKRLFEAGETVAEAAVYGGAVPHVALV
+PVAPVDILLQTSSQEKVVAEVVYRWPLKSPLAKGAEVGRLVVTRGGKTIREVPLAAAQAV
+DQGPLTRRAADALQELLFFWL
+>tr|A0A1Q9AK37|A0A1Q9AK37_9RHIZ
+MVGPSRKRIGPKGDLTVTAPIVFGRLHLLPVIGDFLKAFPDINMRLTLGDRNNNLAEDHI
+DVALRIGALADSNLMALRPWTGQTWRLRQAGLSERLFSAHSSA
+>tr|A0A1Q9APE0|A0A1Q9APE0_9RHIZ
+MSVLLITLTFLLAGMVKGVTGMGLPTVAMGVLGALISPLAAASLLIVPSFVTNLWQLIAG
+GPVRGLIGRFAPMMLAILAGTFAGSFFMVGGAVRQVTGALGVVLSAYALYALLARPRRVP
+ARHERWLSPLIGLVTGVLSGATGVFVVPAVPYIQALGLEKDELVQALGLSFTVSTVALAA
+SLAWHGAFQADNLLWSSAAVLPALAGMALGQIIRQRISPAAFRRGFLVCLLLLGLEMALR
+PLL
+>tr|A0A1Q9AJV4|A0A1Q9AJV4_9RHIZ
+MNPSPSRAPLGIGVIGCGEIAQLMHLPILHELPDVRIAALCDLSAEVLDALGRRFHVAAR
+YHDYADLLADPAVDAVVICTFDHGPVVKAAIAAGKHFIVEKPLAFTAEEARLLVEAAERS
+GLVALVGYMKIYDPGYRLGIDAIGRIGRPKMVQVHDFAGRFDRYQQLYDQVRGSDIDPGV
+LAAGRKAADDAVAAMLGKSHAAYAELYMTLLMLGSHDLAVLRGAFGPVERVDYAQAVGKT
+HLLAVLGLPGGVPALLEVAFGALYEWWDEWMTVYGEADEVRIDFQNPYVRNAAASVRVKE
+QAGEGASERHLPGTPDTAFRRQWQHFLACIDKGATPMTPLAGGLEDLILAERIIKALPAR
+DNQP
+>tr|A0A1Q9AIM1|A0A1Q9AIM1_9RHIZ
+MARMLKSLLCTVAIALATGPVRAAGPDAALPPYQMLRSLQYIQDSVVHGDHAAGDMQRYM
+LAEIDKRLLTASPEVFDDPRNVDAALIYAMSGGNPQTLKVLADRDTRGRFDNRIVDALSH
+YLNGKGALIVTLLTKTIGEYHNAATEPYLALVLANALAAQNADEANKYYDKARLYAPGTN
+IEEAALRRSLFLTVQKKQNDRAFVYAVRYARRFMTSPYAGQFADSFVDLVMATYTDGKKD
+QVEDVLAFMDRPRRREVYLRIARRAAIGGMTDLARLAAEQAEALADPGDTSPKALASLYA
+GLVDVPSSGVLDALKALEAIPENHLTERDRALRDAARHVAEEVLRSPPEPDEAAAASEPG
+HVAPSLSHDVAAGETGSGASPFAPAPGAAVMAEAPAPAPAGNAAATPEPGLDPVLTSFVE
+DGKSKLKSIDDLLKSEKNP
+>tr|A0A1Q9AQJ4|A0A1Q9AQJ4_9RHIZ
+MKAKSSSQLGDAGQLIVATPTGFARLRLTEKELAPYYTPMARPCIDRDSLLSFSAWGRQQ
+VAGQSAFERYLNALDIPYRGEKRTRAKDLRELIQEIIEELDLGSHHGSPKAYGVTFDRTK
+NTTFDYWLFDELIVQLDAGAGGKGIQKPLNQLRLMAWRKGPAALADVIRRVCRHYPQLNF
+QRLLVFEVVKGNHKVIRPLRGTYRK
+>tr|A0A1Q9ACW2|A0A1Q9ACW2_9RHIZ
+MKRYIKKLTSLVNLGFRSLSLVFRFLLSFYIIKYLGYEATGIYGLALGAIGIVPAAIGWG
+LNYFVAREVVGKDPAYAANVVHNRLFVTTVTLALVTILCVAIALAAGYSITLLYGIIIAL
+IWLETYGLDIHLPLIGQDMATEANLLVFVRSALWVPFAAGLGIAFPVFRNLETVFIAWIL
+SYGVAVALLLYLLRHWPLRQAFTAPIDYGWIRERLRHSWHIYVSDLALVGLIYTDRYIVS
+FMLGLTLTGIYTFFWSLTNALQTLMQTAVVQLALPVLFRAFKEGTPDHWSRAFRREMLKT
+MAFGTILGLGVFGASEILIRIMGMHELSQHRDLFILLLLAAIVRSFSDLLNIGLTSRNKD
+KHYATLNIIGVFLSIALAFAMIAAFGLIGAGIAAFTAALSMVLLKGYFLLHFARGTRSID
+SGTDSR
+>tr|A0A1Q9AGL1|A0A1Q9AGL1_9RHIZ
+MSNDRFDIKICGLKTAEAAERAVARGATHIGFIFFAKSPRHVTAEAARPVADAIRGRAKI
+VAVTVDATDAELDTIVSGLAPDMLQLHGRESLERVAAVKARYGLQVIKALSIRDAADLDA
+ALAYRGTADRLLFDAKPPKGSELPGGNGVSFDWRLLDALDDGVDYMLSGGLDAENVGVAI
+RSTRTPAIDASSGLESAPGVKDPARIEAFFDAVAAARSLAQAHRQTANQGA
+>tr|A0A1Q9ADW9|A0A1Q9ADW9_9RHIZ
+MKTLNLVHLNGLRAVEAAARLGSLQAAAAELGVTIGAVSQQILKTERQLGRPLFARQPRG
+LDVLPEAEAVIADLAEGFVRLERAVVRARRRDETVLTVSVAPVFAARWLVPRLDRFEARH
+PGLRLRLDATARLVDLEAEEVDLAIRVGRGDWPGTAAELLLAQRVFPVASPALAERLQRP
+EDVLSLPAVIDGRSMFSWELWLEAAGLPGRSMAVRHVFNEASLCLDAAIAGQGLFLAWQT
+IACDALRDGRLIEPFDLRVPTGLGHYILTPTGRRATPARTALRAWLFDEIGEAERAGV
+>tr|A0A1Q9AG36|A0A1Q9AG36_9RHIZ
+MTFWQRLNRARRAWRYRWRYSRRKPQAPREAEPFSGPVIVLGSAPVSTRPAGFDAGFRLI
+AINGSQAAAKAWGVAAPDVTFLQFNQVEGKGDRAVAVRRVLSGERCGTLYVIRWPKGMDQ
+LKAGLAAFSYSYDRLETIDAYQRSRLAHDVLGRLIVEADNDSKFSNGLTAVFYALANGAT
+SVIISGIDPGSAGHVYNDLKLERLHSGTDAKILAELVERGFPVFTADRHVAEKSGLPLWT
+GEKKKEDA
+>tr|A0A1Q9AIE0|A0A1Q9AIE0_9RHIZ
+MQPGFLSIRSLTKRYDTMVAVDTLTLEIPKGELVAFLGPSGCGKSTSLRMIAGLCPVTSG
+TISIDGKDVTRLAPYRRDIGLVFQSYALFPHMTVLKNVMFGLEMRKVPVAEAERRAREAI
+ALVRLEGREDRKPAQLSGGQQQRVALARALVIQPSILLFDEPLSNLDAKLRDEMRAEIRR
+IQKRLGITSIFVTHDQVEALSMCDKVAVLNGGRLEQIGTPGDLYERPATAFVASFVGRTN
+RLSGVAEGDRISVGGAALRAPGSRRGNVDLMVRPHRMIMTPAGDKGPDFDGEPLNSIGGE
+IRDVYYAGDILNYEIQAGDQIISVERATTGGETPMASGSPVTLTWRVADTLVFGAGQ
+>tr|A0A1Q9AJJ4|A0A1Q9AJJ4_9RHIZ
+MQKIRKGDKVVILTGKDKGRTGEVIQVMPKEDRAVVRGINMVKRHQRQTQTQEAGIISKE
+APIHLSNLAVADPKDGKPTRIGFRFEGDKKVRFAKRSGEVING
+>tr|A0A1Q9AN00|A0A1Q9AN00_9RHIZ
+MSETPPAQPVSLFRSSRPRAIPAGNTQARWPYLLSLLLHLALIPLLILLLAPAQLPPSGE
+QGLSVEVVTEPEARPPPAPAPQPPAEPSPSGPTADGPQAAADQPAPSEDKAPDAGAAVPP
+PPPSEQQPTRQAAGPPADLVPAKRLFAAAILKDPRSRKAVKALRALSPDDQIEQLCNIEA
+MEQIKRHDSRRRPDFIISYALAPPSLQGPLFVADGAAVHDRDQWIGLRYRCVVTPDRRDV
+VEFAFAIGANIARDEWSSLSLPKEEGASD
+>tr|A0A1Q9AF43|A0A1Q9AF43_9RHIZ
+MTFKTLDDLTDIQGKRVLVRVDLNVPMADGKVTDATRIERVLPTIRELSEKGAKVVLLAH
+FGRPKGEPVADMSLKPIAAAVEDILDQRVLFAEDCIGDKAKAAIDGMKDGDVLLLENTRF
+HKGEEKNDPDFVAALAANGDIYVNDAFSAAHRAHASTEGLARHLPAYAGRTMQAELEALE
+KGLGNPKRPVVAIVGGAKVSTKIDLLQNLVKKVDALVIGGGMANTFLAAGGTDVGKSLCE
+HDLAETAKAIMAEAEGAGCAIVLPVDGVIAREFKAGAANEVVEIASIPADAMVLDVGPQS
+VTAVNEWVSKAETLVWNGPLGAFEITPFDKATVAVAKHAASRTRSGDLVSVAGGGDTVAA
+LNHAEVGDDFTYVSTAGGAFLEWMEGKPLPGVDILKSK
+>tr|A0A1Q9AJ86|A0A1Q9AJ86_9RHIZ
+MTRPASPLLPMRLSAEVAAAKERSAPVVALESTIITHGMPYPGNLNMARSVETIIREAGA
+VPATIAVIDGTLHIGLEEAELETLAQTKGAMKVSRADIAFAIAERRTGATTVAATMIAAA
+RAGIRVFATGGIGGVHRGAELSFDISADLEELAISPVIVVCAGAKAILDIPKTLEVLETR
+GVPVVTFESEAFPAFWSRESGLASPLSLNSPAAIANFQKVRDQLGIDGGMLIANPVPEEA
+EIPREEMEIYIARALDNAKRDGILGKAVTPYLLQSIFEITDGRSLQTNIALVENNARLAA
+EIAVAMV
+>tr|A0A1Q9ADY9|A0A1Q9ADY9_9RHIZ
+MQLAMMGLGRMGANMVRRLLRAGHECVVYDINPQAVAALVAEGAVGASSIEDLVGKLQKP
+ACVWLMLPAALTDENVDHVARLMAPGDIIIDGGNSHYHEDVDRAARLKDSGIAYVDAGTS
+GGVWGLERGYCLMIGGPDEAVRHLDPIFASLAPGAGMPAELPTAQRGYLHCGPSGAGHLV
+KMVHNGIEYGMMAAYAEGMNILKAANSGHAARTADAETSPLPTPQYYQFDINLDEVAEVW
+RHGSVISSWLLDLTAQALAADPDLSGYGGRVSDSGEGRWTVKAAIDTGVPAPVLTSALYQ
+RFTSQGESLFADKLLSAMRFAFGGHHEKPKA
+>tr|A0A1Q9AGN6|A0A1Q9AGN6_9RHIZ
+MADTVNSVHLNVARGANEHPVRRFFRATEIDTRLLGMVGALMIIWISFQISTGGLFLTPR
+NLWNLTVQTSSVAVMATGMVLVIVTRNIDLSVGSVLGFCGMVMGVAQAQILPQYLGLGHP
+AIWAITLLIGLVTGAAIGALHGVIIAFLGVPSFIVTLGGLLVWRGATWFVTSGQTVAPMD
+TTFRLMGGGTEGSIGATASWLVALIACLAIVWALLHARRQRKRFGFPRRPIWAEYVLGGV
+GCALVLGFVAVANAYYWPANIARKYADANGIAWPDGGLLISHGIAVPVLVAIAVGIVMTF
+ISTRLRFGRYVFAIGGNPEAAELAGIKTRWVTVRIFTLMGALCAIAAAISTARLNAATNA
+QGELDELYTIAAAVIGGTSLAGGTGTIAGAMLGAFVMQSLQSGMVLLGIDSPLQRIVVGM
+VLVIAVWLDTVYRARAK
+>tr|A0A1Q9ADV0|A0A1Q9ADV0_9RHIZ
+MITLTYRIETTGSVEALAEKIASDQSTGTFVPVPGETEALKARVAARVLSVRRLPDAAHA
+SWPEAAEGLPIHRGEAEIAFPLDAVGTDLAALMTIAIGGAFSIKGLTGLRVVDMALPAAF
+AGAHPGPQFGIDGSRRLTGVYDRPIIGTIVKPALGLRPDETAALVGELIASGVDFIKDDE
+KLMSPAYSPLAARVAAIMPKVRDHEQKTGKKVMIAFGITHADPDEMMRNHDLVLEAGGNC
+AVVNINSIGFGGMSFLRKRSGLVLHAHRNGWDMLTRHPGIGLDFRVYQQFWRLLGVDQFQ
+INGIGVKYWEPDDSFVRSFEALSQPLFSEADRPLPVAGSGQWGGQAPETYRRTGRTTDLL
+YLCGGGIVSHPQGPAAGVRAVRQAWEAAVADIPLEGYALDHPELAASIAKFGGGKGD
+>tr|A0A1Q9AG98|A0A1Q9AG98_9RHIZ
+MSDLAQMPVLAPHAPETRGRSLFALAMRRFRRNRAAIAGCVVLALVALFSFVGPLFSSHS
+YDEVFPSYVSIAPSLEPRPGADTLQGAMENAVQRARLRLDAFQVEGRSFTATLAADQPID
+PRATRYIDRANEFDDTVVKETLEDGRKLVVEGRVTREYFPFGTDSNGRDLLVRVMLGGQI
+SIAVGFLASLVSLGIGVVYGATAGYVGGRLDNVMMRFVEILYSLPFVFLVVLLVVFFGRS
+FILIFLVIGAVEWLDMARIVRGQTLALKRREFVGAAESLGLSDWQIIRRHIIPNTIGPVV
+VFVTVIVPKVILLESFLSFLGLGVQAPLTSWGALIAEGANNIQSAPWLLIFPSAFFVVTL
+FALNFVGDGLRDALDPRDR
+>tr|A0A1Q9APN4|A0A1Q9APN4_9RHIZ
+MAAVLDAALSFFRKAEFTIDAEHPGDVVQRERLLDRAMGPGRKRKSSEAIRRGRVPAQGL
+ALVARDLDGHVIGTVRLWHVEAGVGPDGAGIPALLLGPLAVDAAYEGKGIGGALMRAAIT
+EAAARGHGAILLVGDPEYYERFGFFAEKAAHLVMPGPFERRRFLGLELKAGWLTGAAGLL
+VGTGTRLSQPGIARVA
+>tr|A0A1Q9AE34|A0A1Q9AE34_9RHIZ
+MSETQAHPGFDINGIIRHQRNRYPVLLIDRVTAVDPGKSAQAVKCFTYNEWFFPGHFDDE
+PNVPGFVQIESLTQTFIMTFLCMEEYKGMKTNFVSINNVRFRRKIVPGDVLRIEAKLTSF
+KRGLAIGSVESFVGEEPACSGDFVVAVPDILDRYKPRS
+>tr|A0A1Q9AFU4|A0A1Q9AFU4_9RHIZ
+MADAALSPAFSRAGGKTLRALLGEPRVLFGGGFVLLMIAIALLAPVIAPKDPLEQDLMLG
+TLPPAGFDGAEAGYLLGTDDLGRDVLSRILHGTRIALIVAFVAASLSALIGTALGLAAGF
+YRGWTDRIVSRLVDIWMSFPPVLLSVLLVAVFGPGLHSVIAAIVIIDWTRFCRVVRAETI
+RQAGLDYVTAAETVGFSRPHILLREILPNVVPILLALVSLEMGIAVTVEAILSFVGLSLS
+SDTPTWGGMIAQGRQIVYQGWWVLVFPLIALFSTVLAFNQLGNGLRLALDPVMRR
+>tr|A0A1Q9AKZ6|A0A1Q9AKZ6_9RHIZ
+MARVTVEDCIDKVDNRFELVLLASHRARLISQGAAITIDRDNDKNPVVALREIADETLSP
+DDLKEDLIHSLQKHVEVDEPEADPASLIGGDAVFSDTAEDDDQADVVTFDRMSEEELLAG
+IEGLVAPEKSEDY
+>tr|A0A1Q9APN1|A0A1Q9APN1_9RHIZ
+MIDPQTLAARFPAEFLFGVATASFQIEGASKADGRKPSIWDAFSNMPGRVFGRHNGDVAC
+DHYNRLEEDLDLIQSLGVDAYRFSIAWPRVIPDGTGPINEKGLDFYDRLVDGCKARGIKT
+FATLYHWDLPLTLAGDGGWTARSTAYAYQRYAKTVIARLGDRLDAVATFNEPWCSVWLSH
+LYGIHAPGERSMDAALHALHYTNLAHGLGVQAIREAQPELPVGIVINPMHVIPGSDSEAD
+RQAAERAFDFHNGVFFGPLFKGAYPESVLSAFGARMPAVEPEDLAIISQPLDWWGINYYT
+PMRVAHDPAEGAEFPATVSAPPVSQVKTDIGWEVFAPALGDCIRTLNARYDLPACYITEN
+GACYNMGVVDGVVDDQPRLDYIADHLQVTADLIAEGYPMKGYFAWSLMDNFEWAEGYRMR
+FGIVHVDYDTQARTIKKSGHWYQALAKAHSAAASA
+>tr|A0A1Q9ADQ8|A0A1Q9ADQ8_9RHIZ
+MTDLAQTIASAQASLTKLEQRIADYLLSRPEVVAIESSAEIAKKLDVSPMTVSRFFKKLG
+YESSLEARSKIKADLYAHGAARLDNRYGDFSLSLGGRDLNSDHQVALTAINCALEHRRTF
+LWREVVRLVAETEAVFLAGFQTMHYLAGGLAMRLRYIRNNVTVLDGADGVYGEFFASGAK
+GKVLIIIDTFRYGANGPRLARAAREEGAEVIVFCDELCDWAAELTDKTIVFPSESYYFLG
+LPVGINFSLNLLMQDVVLALGERGKAHVERISVSQDRFGAYSK
+>tr|A0A1Q9AGH5|A0A1Q9AGH5_9RHIZ
+MAILSLHNDTPLIDGRQSRRAMAVRRGVQRALFDMRHAVLPELTLASGRRADLITLSPKG
+EIWIVEIKTSIEDFRVDRKWPEYRLHCDRLFFATHPGVPLEIFPEECGLFLSDGYGAEMI
+REAPEEKLAAHTRKAVSLLFARTAAQRLMLAEWAATDESAIAAIAAGTADPPSYPDA
+>tr|A0A1Q9ALL7|A0A1Q9ALL7_9RHIZ
+MLPEHVDLCQRVYDNARAARGLESDAMNPVAALVLTLYRHGVHEESELLRRTLMALDESS
+>tr|A0A1Q9AKJ5|A0A1Q9AKJ5_9RHIZ
+MAVFLCAASARAQVPVIDTATLSQAKQTAEHTAEIMNSNGQILQTVNRTLAAVTGSRSTA
+EIAGAALGGGFSMGAAPDFSSLMAGQMAWGRLGAYGNAATKILNGLNLVKTLSGQTDKAK
+LTRGDKSYQALVNTATALTATISGLQASTQQRSQAFQTVEGQIGTAPDIKGSIDQNSQLQ
+TQTAQTVNELVGAVNAGNAALNAQQMQELAAQAATAEFMAYDPSRVSLTGE
+>tr|A0A1Q9AGV1|A0A1Q9AGV1_9RHIZ
+MAVYTDITEGALRGFLEAYDIGRLTAYKGIAEGVENSNFLLHTTEGPFILTLYEKRVNPD
+DLPFFLGLMEHLAARGISCPLPLTRRDGTLLGELAGRPAAIITFLEGIWLRQPEAPHCAA
+LGRALAGLHRAGEGFALKRANALSVEGWRPLWEKARERADEIAEGLRAGIDAELAFLERS
+WPKGLPSGVIHADLFPDNVFFIGDALTGIIDFYFACNDTLAYDVATCLNAWCFDDKSGVY
+DAAKGQAFLAAYQAERPLTPDEVAALPLLARGSALRFFLTRAYDWLSTPPGALVVKKDPL
+EYWRKLRFHQTIETAEGYGLTG
+>tr|A0A1Q9AI85|A0A1Q9AI85_9RHIZ
+MRSVAYAILIGLIGAAMLHIVLVLGLPRFSAEDAYSRVLGLFEMDSFFRLTRAPGTTGLS
+DDDPFLRVAVCGFSVAGGPVRFSAGGDVPFWSFAVYDSTSNEVFSMNDATAVQRKLDVIA
+ATPRQLTELRKLPSDALGAAILVEMRDPEGYAVVRAMAPTQSFEESARDFLAKASCETFR
+AEN
+>tr|A0A1Q9ALU9|A0A1Q9ALU9_9RHIZ
+MRTSRQLEHMRVLAVLLMLGFAAFPIYWMFVTSMTPSSELFASSPRLLPAWSQLSIYAEI
+FNTIPVATWLKNSFLVAAGTTVLSILLAVFPAYALSRFRFAGLAVLGFALFATQMLPEAM
+LVVPLYSIFGDLNLLNTIPGLVLANTAFVVPVITWIIKGAIDSIPFEIEEAARVDGCSRL
+DIVLGIVIPLVAPTLAAAAVISFFHGWNEYVFAQTLVSSENLRTASVGLASFVGELSTPI
+HSVMAVGVIYTLPAIIFYLFAQRYVVAGMTAGSVKG
+>tr|A0A1Q9AEG1|A0A1Q9AEG1_9RHIZ
+MLPIGSSYWSEQGDFMSDIEWRWVSAGFISGGGTSEKEPHFKKDWVSFLIEVTEFELTYM
+LRANDRGYDDLPEFPLSHHGMEDIKAAQAERITPILNDGHYIRGKGKIVDDNIMWSNFAK
+GTPGGDKDETINQTFSEVEFTIWPGDRFGELRVSRPEYRDEPYRLLANLQLPQTRIDSLA
+EMAHRYGADARMKISLLASLFYYRNGYSEYASTYLMPAMGANNAEAVISHASVTPADRNE
+AEHNLLMATYEQRRTTMLQAFSNGSENIHKALAYAYQERMAPTRNRSELEKLRRPDPFEA
+VYAIPSAAVEAAEAFIVHNWDNDAPEKIAFPRIEEAMAPYRLRRWQVGSILQYFWLSRLF
+LKPEVLAAVRIDVPFECGGIGEDFKPSDVVLDC
+>tr|A0A1Q9AMU3|A0A1Q9AMU3_9RHIZ
+MTEAETSRTADQPSERRFRTLFISDVHLGSKAARTDYLLDFLRHHDAETIILVGDIVDGW
+RLKRSWYWPQSCNDVVQKLLRKARKGTRIIYIPGNHDEFLRDFPGIHFGGIEVATRHMHE
+AADGKRYLVLHGDEYDVVVRNARILAYLGDWAYDAAIVINIGLSAVRRRLGLPYWSFSAW
+AKLQVKHAVSFIGAFQKAVAEDARRAGADGVICGHIHHALIEDIEGVRYINTGDWVESCT
+AVAEHFDGRMELMTWQAVTKRPVPAEPEDGDEAKIVLAQLMARHAA
+>tr|A0A1Q9AEH9|A0A1Q9AEH9_9RHIZ
+MELDDLVKAVLGRAKGLARMIVAVAGPPGSGKSTLAEVLAERLSAEGETAVVLPMDGFHM
+DNGILEARGLLARKGAPETFDVRGFADLLKAVRAGGEEVLVPVFDRSREIAIASARPIAP
+ETHIIIAEGNYLLLDEAPWSRLQDCFDLTIMLLPPRAILEERLRARWAYYGLDAAAIARK
+VEGNDLPNGDRIRAHQRSADLAIEAIDLPL
+>tr|A0A1Q9AID1|A0A1Q9AID1_9RHIZ
+MRATLTGAVRPARQRAANAGFLLVEALTAMAIGALLLLALASLLSLVLRASDRTTAAGTA
+VEERARIVSALIARIEPITPQRWAGPGAGFVFEGTETMMLFARFRAGRDGILQSRLVRLA
+SAGQVLSEDERPLPPDARDSTAVTGGDSPVVLQDRFVVRFAYFSRLADGTEALTDRWSAT
+TAMPVAIRVTLADPDGTPRGSVRIPLRVNAEPGCAAPGPALCSLAPRAAAPGPPPESQAP
+NKPDDSGG
+>tr|A0A1Q9APW9|A0A1Q9APW9_9RHIZ
+MSRLVIVSNRVSVPERSGAAPAGGLAVALQAALEERGGIWMGWSGNSSGEEEPGPLDLKE
+RGKITYALTDLTKTDVEEYYHGFANRVLWPICHYRLDLAEYGRKEMAGYFRVNRFFAHRL
+APMLKEDDVIWVHDYHLIPLAAELRQMGFRNRIGFFLHIPWPPADVLFAMPVHEEIMRGL
+SHYDVIGFQTDHDLENFAGGLKREGIGEALGDGLFSSHGRRFKGAAYGIGIETAAFAKFA
+QKSASHSMVRKARDSIEGRDLIIGVDRLDYSKGITQRIDAFERFVKDNPAQQGKVTYLQI
+TPKSRSEVPEYEAMQRTVAEQAGRVNGALGQVDWVPIRYINRSISRPILAGLYRMAKVGL
+VTPLRDGMNLVAKEYVAAQDPEDPGVLVLSRFAGAARELSGALLVNPYDIEGTANAIARG
+LAMPPEERRARWRGMMDFLLEHDVTRWCDDFLKDLVPPGES
+>tr|A0A1Q9ADL3|A0A1Q9ADL3_9RHIZ
+MKKADAHAPDRGKRLKSIIGGSTGNLVEWFDWYVYAAFALYFAPHFFPAGDQTAQLLNSA
+AVFAVGFVMRPVGAWIMGLYADRHGRKSGLALSVTLMCAGSLIIALTPDYQTIGVAAPVL
+LVIARLMQGLSVGGEYGASATYLSEMAGKDRRGFFSSFQYVTLISGQLLAIAVLLILQNV
+MTTEALNAWGWRIPFFVGAGLAVVVFWLRRGLAETESFKNVKAGDKPKSGFWQLLTKHPK
+ETAIVMLLTAGGTLAFYAYSIYMQKFLVNTSGFSRETASEINAVTLFVFMLLQPIAGGLS
+DRIGRKPLMITFGVLGVLFTYPIFSALEHTKDPLTAGLLVMAALVIVTGYTSINAVVKAE
+LFPAHIRALGVALPYALANTLFGGTAEFVALQFKSSGWEQGFYWYVTAMIAISLVVYLFM
+RDTSKQSEILED
+>tr|A0A1Q9AIM2|A0A1Q9AIM2_9RHIZ
+MTPPVAIDLRHAADECLANGEFPLTRRDLADISAMIYADAGIALNESKASLVYSRLSKHI
+RNLGLKSFRDYCALVSSPAGAAERRDMLSYLTTNFTRFFRENHHFEHLRDEVLPGLIARA
+KSGGRVRIWSAACSDGQEPYSIALTLLSVMPNAADYDIRILATDIDPKILAIARVGAYDA
+NALETVQPAMRKQWFTETSINGRTKYQIDDRVKRLITFNELNLMSQWPFKGKFDVIFCRN
+VVIYFDEPTQMRIWSRFAGMLLPSGYLYIGHSERVSGDAKAVFDNIGVTTYRFIGGGKGG
+HAS
+>tr|A0A1Q9APD3|A0A1Q9APD3_9RHIZ
+MLRDLSAQSTVMGLLAAFVGFASSFAVVLHGLVGAGASEAQAASGLAALSIAMGFCAILL
+SLWTRLPISIAWSTPGAALLAATGGIEGGFPAAIGAFILCALLIVAAGLLKPFGRLVAAI
+PPVLASAMLAGVLVGLCLAPVKAVAFDPRLGLPIVLAWAVAGRMHRLAAVPAALIAFGLV
+VALGVEIPANAGARLADSIGLRFEWVTPVFTWSGLITIALPLFVVTMASQNIPGIAVLNV
+SGYQPAPGRLFAATGVFSLFSAPFGGHAVNLAAITAAMCAGEDAHADPRRRYWAAIVAGV
+AYIVFGVLAPTITALVALAPAILIEAVAGLALIGAFAGAASLAFREPATREAAAVTFLVT
+ASGVSFAGVSGTFWGLAAGGAMLLIARAGRRV
+>tr|A0A1Q9APV0|A0A1Q9APV0_9RHIZ
+MSELRPILLVEDSPRDLELTLTALEKCQLANEIVVARDGAEAIDYLFCEGVHRGRPAGDP
+AVVLLDLKLPKIDGLEVLERVKKDQDRKHIPIVMLTSSREEQDLVRSYELGVNAFVVKPV
+EFSEFFKAIKDLGVFWGILNEPPPGQRRNGRP
+>tr|A0A1Q9AJY2|A0A1Q9AJY2_9RHIZ
+MDAGNNRTGRIDFLAYGFIAIPVMAIVVFLFYPAALAMFGTLFHKRPDGGLAFDASSYIF
+FFTDPYSLANLMRTLWTTFVALVLIVAVNLPIALYMRFTRGWLASLIQGLALFPMFVPGI
+IICYALIRYLGPNGWLQSLLNAVGFTHYASPITTPWGPVIGLIWDGMPMTLLILISGLGT
+ISDASIEAARDVGAGRLRILRSIILPQITHSILIVSALNFLGFFGQVLMPFMLGPTNPEM
+MGPFMLRTFVSVRDPLQAATQATITFLICSLAGLAYVRSLANRKEER
+>tr|A0A1Q9ALE4|A0A1Q9ALE4_9RHIZ
+MKTLSIEVRPAEPQDASAIAEVHRSAWMQAYGGLIPHIPLIRMVDRRNESWWRKATRGPA
+TLLVVEVAGVIAGYATMGLNRARALPQEGEVYEIYFRPEYQGLGLGRILFGEARNLLRSL
+GCSGLVVWCLEECDIATSFFRNAGGQDVCEGMEDFGDKHLKKIGYVWA
+>tr|A0A1Q9ALW9|A0A1Q9ALW9_9RHIZ
+MRSIGMDVHRSFAQVAVLDRGKVTEEFRVELDYDAVVAFGQKLRKDDEVILEATGNTSAI
+VRLLTPFVAKVVIANPLQVKAIAHARVKTDKVDARILAQLHAAGFLPEVWAADDDTLNLR
+RLVSERAALVRSVRRVKSRVQAVLHANLVPKYSGHLFGKGGRDWLSTAPLPKAELDLLAR
+HLDELDWLKGKLEKLDGSMARIALDDSRTRKLMTIAGINSVVATAVIAAIGDISRFPTPD
+RLASYFGLTPRVRQSGDRGAIHGRISKQGNATARTMLIEAAWSAASVPGPLRAFFLRIKD
+RKGLNVAAVATARKIANLIWQLLTKEAPYRWARPAFVAMKMRKLELRAGAAKAHGPAGPA
+RDYWIKEIRHREMELVAQAEAAYAAMVEAWRDRPPKPQKG
+>tr|A0A1Q9ADA0|A0A1Q9ADA0_9RHIZ
+MTALSPSLAPQTRRRLALGSRHALPVALVAVFLLFSALAPGFLSLANLESVLVNNFTLLS
+IVAIAMTFAIAAGGIDLSIGTAVDFASFSFVTLVLSGQPVPLALAAGLGGGALVGLFNAV
+LIAGIGISPFLATLGTLFIGRSVQQLLTNGGNPVYLPPAGVPESFRFLGRGTVAGLPVPL
+LVAGAIILIAGLILSRSRFGRVVSATGTEAEVVRYSGLTLKAHLAGTYVLVALIAAVAGL
+VLTSTVTVYIPSSGNAFLLNAIGAAFIGTTLHPHGRPNIAGTVLGVLLLSLVANGLLMSG
+LNFYWQQVGTGLLIFTVLALSFASRKA
+>tr|A0A1Q9AFB0|A0A1Q9AFB0_9RHIZ
+MLDRPKAARRPRTSLVAGGAGFVGSHLCDRLLAEGHRVLCVDSYLTSSPETVAALDNHPN
+FRRIEHDICQPLALDEAVDEIYNLACPASPPLYQADPFHTMMTSVVGTGNLLQLAARHGA
+RFLQASTSEVYGDPLQHPQQEDYWGNVNCTGPRACYDEGKRAAEALCFDSLRLGQVDARV
+VRIFNTYGPRMQPNDGRIVSNLIVQALKGEPLTIYGDGEQTRSFCYVSDLVEGLRRLMAV
+DPNPGVPVNIGNPGEFTILELAEMVLALMPTRSALIHRPLPADDPQRRRPDISRAEGLLG
+WRPQVSLAEGLPRTIDWFRATLGATAPLVRRPAKGMAGRVVSPA
+>tr|A0A1Q9AFD1|A0A1Q9AFD1_9RHIZ
+MINASEIREHAEVIGADGMHVGTVDRVEGNRIKLTKKDSGSEHDGHHHFIPLDLVESVDD
+NRVRLSRSSGDALGAEQEQDGSSIRH
+>tr|A0A1Q9AFE4|A0A1Q9AFE4_9RHIZ
+MPPDARVRRRTVVTLLLAVLVTAGLLSLGTWQVKRLFWKQDLIARVEARVHAPPVPVPPA
+ADWAGIDAASSEYRHVSLSGTFLHDKEALAQANTVLGPGFWVLTPLSAEDGTIVFVNRGF
+VPPDRRDPSSRSAGNPQGPVQITGLLRLSEPKGAFLRSNDPAADRWYSRDVPAMAAARGL
+PADKVAPFFVDADDTANPGGYPVGGLTQIAFPNNHLVYAITWYSLAGMLIAAVVVLYRRR
+QL
+>tr|A0A1Q9AKL6|A0A1Q9AKL6_9RHIZ
+MSLDSHHRHTSMTRRSRHRAIYGKLKADLVSCRLRPSQHLSIARLSLAFRSSNTPVREAL
+IRLHAERLVAVDTEGGFRVRDLHLGEMRDLLMLARLIIPRCLSGTRRGFPFDRISAPAAL
+AQKSRYRASRVLQAQSAETAFFIERIYSGVAEMSANEEIAAIVENICDRTHFVRTHDIQA
+IRRGKWLADELHEIVAALSRGDHDDAASRIDRFLQMQIDRLPEVLPKALAAIFLAECNST
+CSDYEP
+>tr|A0A1Q9AIJ2|A0A1Q9AIJ2_9RHIZ
+MKALSIAATGMNAQQLNLEVIANNIANINTTGYKRARAEFSDLLYQAERSQGVPNRAGQA
+IIPEGANVGLGVQTSAVRNLHLQGSMVSTGNDLDVALIGKGWFQVQMPDGTTNYTRAGAF
+NTNDTGQLVTIDGYTVVPGITVPANTSKVTITTSGEVLANIGNATIPTNIGQLTIANFVN
+EAGLEPQGDNLFKQTPASGAPVVGVPGDAGFATIKQKYLEASNVDPVKEITDLISAQRAY
+EMNSKVIQAADEMAGTVSKNLR
+>tr|A0A1Q9AP34|A0A1Q9AP34_9RHIZ
+MELRDAIPADLAGITEIYNHAVRETTAIWNETEVDLANRLAWHAERQRLGYPVLVAVRGG
+AVLGFASFGDWRAFDGYRHTVEHSIYIRADCHGRGLGTALMQALIGRARALGKHVMVASI
+EAGNRGSIRLHEKLGFRQVGRMPEVGMKFGVWLDLVFLQLLLDDRAAP
+>tr|A0A1Q9AKY0|A0A1Q9AKY0_9RHIZ
+MRKLTPEDRQALEEVLGYSFEDKARLDRALTHSSARRAKGSDYERLEFLGDRVLGLCVAE
+LLFKTFREANEGELSVRLNQLVSAESCAAIADRLKLERFIRTGADVRKLTGKHVLNIRAD
+VVEALIAAIYLDGGLEAARGFVMAHWEDRAASAEGARRDAKTELQEWAHARFAVTPHYRV
+DDRSGPDHDPRFTVTVEIPGLAPATGVDRSKRAAEQAAATNILEREGVWTQAAGRTEKDK
+A
+>tr|A0A1Q9ADL9|A0A1Q9ADL9_9RHIZ
+MKLKTALAAGVALAVALMAGAASAADMKIGLVVKSLGNGFFEAANKGAQEAAKELGGVEI
+IYTGPTTTTAEGQIEVINALIAQGVNAIAISANDPDAVVPALKKAAQRGIKVISWDSGVA
+PAGRILQLNPSSNELIGKMCLQLAADHLEGGKGDFAILSATTTSTNQNIWIGEMKKQLKD
+FPGLKLVTTVYGDDLSDKSYREAQGLLTAHPDVKVIVAPTTVGVLAASQAVKDAGKIGQV
+YVTGLGLPSEMAGAIKSGATKEFAIWNPIDLGYTATQISYHLVKGDTDGKPGSEIEAGRM
+GKIKVGANGEAAMGDPFVYNAGNIDQFSKVF
+>tr|A0A1Q9AF02|A0A1Q9AF02_9RHIZ
+MTTKILLAEDDNDMRRFLVKALEKAGYKVLSFDNGASAYDRLREEPFSLLLTDIVMPEMD
+GIELARRATELDPDLKVMFITGFAAVALNPDSKAPKDAKVLSKPFHLRDLVDEVNKMLAA
+>tr|A0A1Q9APP2|A0A1Q9APP2_9RHIZ
+MPILSNLTRPKGDPKILTTGPTVQSGAERLAKGLGWFSIGLGLTELFAARRLARGLGLYG
+HAPLIRAFGLREIWSGMMTLSVDKDKGLQSRVVGDGLDIAVLVSALRHGNYRRDNAAAAL
+AMVVGITVLDVLVAKAVTAERSRPTGKPRDYRDRTGFPGGIEAVRALSR
+>tr|A0A1Q9AH53|A0A1Q9AH53_9RHIZ
+MASSTHHDYAGAHPVSAHEPGHAHHPQLSFFQRWFLSTNHKDIGTLYLIFAIIAGIIGGT
+LSIFMRAELQEPGIQIFHGLASMVYGFEGDAAIDGGKHMYNVFTTAHALIMIFFMVMPAL
+IGGFANWMVPIMIGAPDMAFPRMNNISFWLIVPAFILVLLSMFVEGPAGAYGAGGGWTIY
+PPFSTSGQPGPAVDLVILGLHIAGASSILGAINFITTILNMRAPGMTLHKMPLFAWSVLI
+TAFLLLLSLPVLAGGITMLLTDRNFGTAFFAPEGGGDPILFQHLFWFFGHPEVYILILPG
+FGIISHIISTFSRKPVFGYLGMAYAMAAIGAVGFIVWAHHMYTVGLSLDTQRYFVFATMV
+IAVPTGVKIFSWIATMWGGSIRFATPMVWAIGFIFLFTVGGVTGVQLANAGLDRALHDTY
+YVVAHFHYVLSLGAVFAIFAGWYYWFPKMSGYMYNEFIGKLHFWVMFIGVNLIFFPQHFL
+GLAGMPRRYIDYPDAFAGWNRVSSYGSYIAAVGVVIFLYGVFEAFAKKRVAGDNPWGEGA
+NTLEWQLSSPPPFHQWEQLPRIS
+>tr|A0A1Q9AJA1|A0A1Q9AJA1_9RHIZ
+MSVKAILDEKGRRVVTVAPQETLRSAAALLNEHRIGAVVVLEGETITGVLAERDVVGAVA
+RHGASALDMPVAQLMSREVHLCSEATSIHQLMETMNRHRARHLPVERNGRLIGIVSIGDA
+VRNHIRTIEGETEQIKAYIAG
+>tr|A0A1Q9AIH3|A0A1Q9AIH3_9RHIZ
+MPPSQKALVPFVSVENMMRLVHAIGIETVLAELTDAIEADFVRWALFDKTPRVASHSRDG
+VIELMPTSDGETYSFKYVNGHPKNMGSGLQTVTAFGLLADVSTGYPVLITEMTLLTALRT
+AATSAMAARHLAPRDARVLALIGNGAQAEFQALAMKAVNGIDTVRLYDIDPRATEKTRRN
+LKNSGLRLIVCRSAEEAVEGADIVTTCTADKQRATILSDNMVGAGVHINAIGGDCPGKTE
+LHPDILLRADTFVEYPPQTRVEGEIQQMPADYPVTELWKVIAGEAPGRREAGQITLFDSV
+GFAVEDFSALAYVRARLKDTGLCAMLDMIADPDDPRDLFGMLQRAQ
+>tr|A0A1Q9AJG8|A0A1Q9AJG8_9RHIZ
+MNGQNIRIRLKAFDHRILDASTREIVSTAKRTGASVRGPVPLPTRIEKFTVNRSPHIDKK
+SREQFEMRTHKRLLDIVDPTPQTVDALMKLDLAAGVDVEIKL
+>tr|A0A1Q9APK8|A0A1Q9APK8_9RHIZ
+MSRYVIIGAGAVGASLAAQFALSGIDYVLIGRGAQIGHIKAHGLTFRRPRGVRRIDLSAF
+DVTEPAELRRDDILLLTVKSQDAADALAFWSWRNVIDSGAPAALSLPVVTFQNGLATEAA
+ALRTFARVYGASILTPARFIETGTVTVAAEPQLGIVTVGRFPTGNDETSARIAADLAKAG
+YLAETTSDIRRWKAAKLLHNVRNVLELFDGPAHLRDEISAAIVQEATQVLEAAGYSIASP
+SERGIDISNWRVVPEGDVTHGRQSTWQSFTRGASSEVDFLNGEVVLLGRLHGVATPYNEA
+VQRLAGELAQKGAFTEPLRLEAILALPDGEQNGLPADRAVAT
+>tr|A0A1Q9AQK2|A0A1Q9AQK2_9RHIZ
+MHVPGVKWTYDTAELIADGIVHGIGLALALVGVTALIFYTTLFGTAGQLAAAWVYGAGLV
+LTLSISFLYNLYPVSRTKWLLRRVDHSSIFILIAATYTPFLQQGWDSPFLFAMLIGIWLI
+AAFGIALKCLFPGRFDRLAILLYLAMGWSGVAAAEPLTGRLPEATLVLILIGGLIYSFGV
+IFHVWEKLRFQNAIWHGFVVAAAAVHYSAVVTCISAAGV
+>tr|A0A1Q9ACC5|A0A1Q9ACC5_9RHIZ
+MSLSTRIAPYLPFLRRYSRALTGSQTSGDAYVAAVLEALIADVSIFPEAGSDRVALFQLY
+TKLFGNSSILIPEPVSPFAWEKRASINLASVSPLARQAFLLVAVEGFHANEAAEVLGCSE
+ARMSQLLEQASEEISRQVATDIMIIEDEPLIAIDIEQMVESLGHRVTGIARTRDEAIALF
+KASQPSMVLADIQLADGSSGIDAVNEILKSSAIPVIFITAFPERLLTGERPEPTFLVTKP
+FNPDMVKALISQALFFNENTRAAA
+>tr|A0A1Q9AGI7|A0A1Q9AGI7_9RHIZ
+MREPEREHRAEARPVHATGIVLGTQGLLFVGPAGSGKTILALATIESARRAGLFAALIGD
+DQVLIEAHGDVIVARRPPVIGSLAEIRGSGIVPVQSVPAAVVEIAVRPVALGQVAFGLEE
+RIAPPDERAELAAGLSLPLIRLPYGDGIDPLVRLKPLIAATLGQTCGK
+>tr|A0A1Q9AH92|A0A1Q9AH92_9RHIZ
+MTLTIALPSKGRIKEAAAEIFDRAGLPLVSVGNDRSYRGRIDGLDGVEIAYLSASEIARE
+LAAGTVDFGVTGEDLVREDMSEVDARVEFCARLGFGGADVVVAVPEIWLDVETMADLGDV
+AADFRARHGRRLAIATKYWRLTQQFFSGSHGIQLYRIVESLGATEGAPAAGQADIIVDIT
+STGSTLKANHLKVLADGVILKSEACLVRARKAAHQGDERVEEIVRRVRGAL
+>tr|A0A1Q9AQ85|A0A1Q9AQ85_9RHIZ
+MRVYSFILVASFVFVGSASAEQSHDHHPAMSMEDSGTSTAFSKSMKVAMDKMHAGMMAVP
+ETGNPDHDFLAQMIPHHQGAIDMAKAVLLTTKDPQIRNLAQSIITEQAYEIQLMNSMLTQ
+QRGSVAANPETSK
+>tr|A0A1Q9AMG8|A0A1Q9AMG8_9RHIZ
+MTVKTFATAGVLLFSVVALSACGNTIRGMGKDTAGAVNATQDAGRSVEKAAKN
+>tr|A0A1Q9AG08|A0A1Q9AG08_9RHIZ
+MLESLRRGAQTWVFKGLLILLVISFGVWGVSSSFQSRSSNAVVTVGDVTVSAADFRLAYE
+RQVAQISRQFGMRLSREQARAFGIENQVYSQLVAGAALDQLSRDMGLGLSKDRLAVLISQ
+DPAFRGVNGQFDRTVFSAVLRNAGLREVDYINNRSQVAVRSQVVEAVSDGFQPPKVLIDA
+LKAYRDETRTIDYILLSNANIDPVKAPSDEVLGPWFDSHKANYRAPEMRKVSFVKLEPAD
+IADPSKVTDDEVRAEYERRKASFTTAETRVIDQLAFPSRAEADAAAAKLAAGTSFDQIVS
+ERGRTAADIRLGSFTKSAMPDQKLAEAAFAVSAAGGATPVVDGQFGPVILRVATIQPGAT
+RSFDEVKDELRRDLALGKAAEEITALHDRFEDLRSGGATLTQAAEQLNLKPVTLDAIDAQ
+GNDAEGQKIATLPPAPSFVQEVFKTDAGVNALPIQLGREGYVWFDVENVMPARDRTLDEA
+RERVVADWTAEQQHNALAARAGELKARVEKGETLAAIAAELGLAVETKTGLKRGSVDASL
+SPSAVAAAFAGPNGHVAAAPGVDGEGQVLLKVTEVGHSAGDALDNDDRQINALAQASGDD
+ILDQMVADLQTRYGVSINRELAQQAMLP
+>tr|A0A1Q9ADQ5|A0A1Q9ADQ5_9RHIZ
+MKTHRIALIPGDGIGTDVIDAAWSVLQRAAGLSGFALEGTTFPWSCAFYKETGRMMPADG
+IEILRGFDAILLGAVGWPAEVPDSVSLHGLLLPIRKAFVQYANIRPHRLLPGVEGPLKAE
+GFDILCIRENTEGEYSGAGGRVHQGTANEVAVETAIFTRAGVERILRFGFEQARARRCKL
+ASVTKSNAQKHSMVFWDEITALLAADYPDVTVTSYHVDALAARMVMAPESLDVIVASNLF
+GDILTDLGAAIQGGLGFAASANINPDRSAPSMFEPVHGSAPDIAGKGIANPMATIWSGAM
+MLEHLGESQAAARVMQALSATTARGIGIRPGKDSTEAITAAILGEVNSKKG
+>tr|A0A1Q9AIW0|A0A1Q9AIW0_9RHIZ
+MRGLGAVVLAYGVYWAVLMAGGNFHAVVPGQVYRAAQPSAKDIAAYQQSYGIRSIINLRG
+ASAGRAWYEDEVAEAAKRGIVHIDFRMSSSKLQSPERMEKLIALLKDAPKPLLIHCAWGA
+DRTGLASALYLADVGKAPEAQAEGQLSIAFGHFALPFLSRAYPMDESFEQMEDRFGYPKS
+VWDHITSIGTTGEDAAGVAPLAG
+>tr|A0A1Q9ALZ6|A0A1Q9ALZ6_9RHIZ
+MAEERRTEAAARFKVLKPHLDDGVPLARVAADAGVPIRTLRRWLSRYRSMGLAGLVRTLR
+SDAGHQKLAPDVVDLIEGLALIKPRLTIAAIHRCATTALSPRNTPAPSYGSVYAIVRKLD
+PAMLTLAHEGMSAFRNRFELIYRHRAERPNALWQADHTQLDILVIDADGSIVRPWLTTVI
+DDHSRVVAGYMVFVGAPSALHTSLALRQAIWRKSTDCWPVCGIPDALYVDHGSDFTSNHL
+DQVAADLRIQLTYSAVGCPQGRGKVERLFGTLNTELLSELPGNIRGGKPVSPPSLSVSEL
+DAAIGRFITITYNARVHSSIGTTPLKSWLGDGWLPRMPESLEDLDLLLVMVARPRVVHRD
+GIHFEGSRYLDPTLASYVGESVTVRYDPRDVGEIRVFHRNQFLCRAISPEYAGYTITLKD
+IQTARTEHRRALRSQITEKVGCVKDFLPDTTRRTSPEKPKPQMVAAKRRLRTYFEDDP
+>tr|A0A1Q9AJL3|A0A1Q9AJL3_9RHIZ
+MFFVRTAAQADLAAVSKLLGETWHATYDPIYGVARVSEITAEWHSVAALKSRLGRPQSEF
+VVADDGKLLAGMGFAALDPKAPKTALLHQLYVHPDHQGQGIGRDLFAELETCFPDAERMR
+VEVAAENGRAIHFYTRLGFSEVGRTDICAGKAGMPTVILEKRLEF
+>tr|A0A1Q9AKA1|A0A1Q9AKA1_9RHIZ
+MIDKITNWTKSDDARVEDAIRRGASRRELLKMMLAGGVALSAGGAVFGRAERALAATPVS
+GGHLKAAGISASNADTLDPAKASLGTDYVRCCSLYNRLTFIDVTGVPQMELAEKLDTKDA
+KTWTVTLRKGVTFHDGKALTSADVVYSLKRHLDPAVGSKVAKIAAQMTEIKAVDANMVEI
+GLKAANADLPFILALHHFMIVQDGTTDFSKGMGTGAFVLETFEPGVRSIVKKNTNYWKPG
+FPHLDSFEFFAITDPNARVNALLAGDVHFASAVNPRSAKMIEAQPGFELVKSTVGAYTNL
+NIRLDMNKPDFIMGMKHIVDREQIIMAALRGFGEVGNDQPISKANVYHNADLKPKAFDPD
+KAKHHFQKAGVLGQSIPVIASDAADFSVDMAMIIQASAAEIGMKLDIQRVPSDGYWDKYW
+LKAPIHFGNINPRSTPDIYFSLLYASDAPWNESQYKSPKFDAMMLEARGSLDDAKRHAIY
+NELQTMISDEAGTIIPAYTTNADGISSKVKGLQVNPLGGMMGYAMAEYLWLEA
+>tr|A0A1Q9ANY6|A0A1Q9ANY6_9RHIZ
+MRRRTVLHFPGFEPLDAAAHHRRYGRAAEQSARVWDLGLTVGPLLPAGGQGAGTPAVAAF
+DVACRSANCATDSRIHIFDHDALVRHFNGRSLTARLLGGFRSGGRVVLQGGMTAYFRHAW
+RFGLFFVFPFLFTALALMLALLFAALPLLAGFSPWTLLASLPAALFLFALLFPRLSARLH
+VLHLLADWQLAVAVAALDDATVRLWIEGRVAAARQALQQESDEVVISAHSMGASLAAHVL
+GTLIEREPALLDGRRVVFVGLGGALLQCALLKSATRLRAHVGRIAAAPGVTWFEVQCLTD
+AIHFYRAPLVALCGHPGLAQPRLVFIRLRQMLEATRYRRIRLNFLRVHRQYVLAADRPAP
+FDFTLMTAGPLPAADFARFSQSRLPQLGC
+>tr|A0A1Q9AEJ0|A0A1Q9AEJ0_9RHIZ
+MSRMKKPKLRRKDGVWDPLADSAQARERAAGVPPTPQSLSPTYRLAYADADFLCREELRP
+IRLQLELLKTEMALAERGIASTVVMFGGARIPAPGQEAWAAKNETQRRNLEAASVYYDEA
+RKFARLCSNHAARFDYKEFVVVTGGGPGVMEAGNRGAQDVGAPSIGLNIVLPHEQAPNRY
+VTPDLSFNFHYFAIRKMHFLVRAKAVTVFPGGFGTLDELFETMTLMQTGRMALVPLILFG
+ESFWRSIIDFQALADFGTIAPADMDLIHFVDTAEAAWKIIADFYDKVEPASVDPAVPLAS
+GLR
+>tr|A0A1Q9AIB6|A0A1Q9AIB6_9RHIZ
+MAFLHISGLRKRYGALEILKGIDIELEKGGFLVLVGPSGCGKSTLLNTIAGLETITEGDI
+KVDERSIAGLHPSKRDIAMVFQSYALYPNMTVAGNIAFGMEMRGVPADERKQAIDKVAKV
+LQIGHLLDRKPSQLSGGQRQRVAMGRALVRDPKLFLFDEPLSNLDAKLRVDMRTEIKRLH
+QTTGKTIVYVTHDQIEAMTLATKIAVMKEGIVQQFGTPAEIYNNPANMFVADFMGSPAMN
+LLSGRITRADDGLAVALERAGGEAIRLPVAAAQAALAQYENRDVVFGIRPEALTDPEGAD
+RNASALAENDCLIEVVEPAGSDTFAVTKLGGREVVARLRADARIRAGEMARLAFNLDKAV
+FFDPQTQARIA
+>tr|A0A1Q9ALR3|A0A1Q9ALR3_9RHIZ
+MRDDLHRLIGRVSYCIDEGLDNLTVTPSHDGCGLIELIVIDEAERLSNLALEYIRDLFDR
+SNIGLILVGMPGIEKRMARYPQFYSRVGFSHGYRPLLGDELSFVLTRHWRKLGVTLDEAD
+FTDAQAVAAIARITGGNFRLLYRLFVQIERILRINEMTAITEEVVDAARSTLLIGAT
+>tr|A0A1Q9AGE4|A0A1Q9AGE4_9RHIZ
+MDIISLGSQASGKGPSDWFTGSVRIDPLFAANEARRSAAATVTFEPGARTAWHTHPLGQT
+LVVVSGLGRVQREGGPIQEIRPGDVVWFEPGEKHWHGAGPTTAMSHIAIQEHLDGKVVDW
+MEHVTQEQYEG
+>tr|A0A1Q9AJ13|A0A1Q9AJ13_9RHIZ
+MDERALDGHRIDTLIAEVRKLSAALERIAGPAPAENDWAAADCFVWSPQRRHLQPVPRPN
+RIGLALIKGVDHVRDILHENTRRFADGLPANNVLLWGARGMGKSSLVKSVHAAVASETGV
+ALKLIEVHREDIATLPLLLDLLRDAPAPVIVFCDDLSFDHDDTSYKSLKAVLDGGVEGRP
+AHVLLYATSNRRHLLPRDMMENERSTAINPSEAVEEKVSLSDRFGLWLGFHKCSQEDYLA
+MIDGYAQAFGLETPCAQLHAEALTWATTRGARSGRVAWQFIQDLAGREGRRLP
+>tr|A0A1Q9AG46|A0A1Q9AG46_9RHIZ
+MLGRRDFLSALAVGAMMPRLAHASTGGATVPLWPDSPPGGGGPAGPTETNPPGTFFNVSV
+PTVDIFRPERPNGSAVLIAAGGGYKTISNGWEGKGAADWFNARGVTAFILTYRLPGEGWK
+AGALAPLQDAQRAMRLIRSNAGRWNLDPQRIGSIGFSAGGHLIGMTATRSSFRAYAPIDT
+IDTISSRPDWAVLAYPVITMQLPYGKSMSRRILIGPEADAALVKAWSVETYVGPDCPPLF
+LMDALDDPVINPQNGVIMAEACKKAGVKAELMRLSAGGHGFGMGKRGSPTADWPLKLESW
+LKLQGVVS
+>tr|A0A1Q9AJ72|A0A1Q9AJ72_9RHIZ
+MANEPESMIIPLLREIRGEIDRRFEEVRGEFVDLRQRLDKLESGQKTIRQALTADTMMSK
+FVTGDFEERIFELERKVEALTKGQ
+>tr|A0A1Q9AIG6|A0A1Q9AIG6_9RHIZ
+MTDSLSPDLEKALDAFRADHPQLTDRQAALTEILTRYFSANGYLPSHQEGKRPEELDATN
+DD
+>tr|A0A1Q9ALB7|A0A1Q9ALB7_9RHIZ
+MPRLFTALEIPRNAAMSLSLLRGGLPGARWIDVENYHITLRFIGDVDGRTADEIVERLDR
+IERPEFQLQLTGTGAFGSKKPHSVWAGVTTPPELFQLQAEIERICQRIGLPSDPRKFTPH
+VTLARLRSTPVDEVVRYLTGRGGFMTQPFTVSRFVLLSSRDSVGGGPYLTEEVFPLHEAP
+AKRAMMEVGPELPRL
+>tr|A0A1Q9AEF0|A0A1Q9AEF0_9RHIZ
+MTSDTAVPSMGAVLPILPIPQSVVEKHQRQERRRTVLTAALDVLTSVAAQDADGARQQNG
+VGFNKADSSLGHRLSRIPVDRLMKDRTTAEQVLKLAARYRGQASALRQINLFE
+>tr|A0A1Q9AEJ7|A0A1Q9AEJ7_9RHIZ
+MSDFRTEPAAAVTDEADPASQDETGSSITGAAQDGAWSETTTRQEGARPESARSDFARHE
+PSKPAVSFWSRAARIWRGASAPNLREDLADALMADPGTDTAFSPAERAMLNNILRFREVR
+VEDVMIRRAEIEAVDLSITLGDLLILFEESGRSRMPVYHESLDDPRGMVHIRDLLAYITK
+QARNRRRGSNRPAAPAANGEDKPEKPVRQPRPSFDLGRVDLMKTVEEAGIIRQVLFVPPS
+MHASDLMQRMQAARIQMALVIDEYGGTDGLIALEDIVELVVGDIEDEHDSEEVMFARTSD
+DIFVADARVELEEIAAAIGPDFDVREQLEDVDTLGGLVFNTLGRIPARGEVVQAIPGFEF
+QVLDADPRRVKRVRIVRKRIPPARRRPRDGMADGQELASEAGTGSQG
+>tr|A0A1Q9AJ26|A0A1Q9AJ26_9RHIZ
+MANKSAVFTVDEKQVEMPVRSGSIGPDVIDIGTLYKNTGTFTYDPGFTSTASCESKITYI
+DGDEGVLLHRGYPIEQLAEHGDFLEVCYLLLYGELPTANQKKDFDHRVTMHTMVHEQMSR
+FFTGYRRDAHPMAVMCGTVGALSAFYHDSTDITDPHQRMVASLRMIAKMPTIAAMAYKYH
+IGQPFVYPKNDLDYASNFLRMCFAVPCEEYVVNPVLARAMDRIFILHADHEQNASTSTVR
+LAGSSGANPFACIAAGIACLWGPAHGGANEAALNMLAEIGSVDRIPEYVAKAKDKNDPFR
+LMGFGHRVYKNYDPRAKIMQKTTHEVLAELGHRDDPLLEVAMELERIALTDEYFIEKKLY
+PNIDFYSGITLKALGFPTTMFTVLFALARTVGWIAQWNEMIEDPQQRIGRPRQLYTGEPK
+RDYVPVPKR
+>tr|A0A1Q9AJY6|A0A1Q9AJY6_9RHIZ
+MTQASSSRLYGAIQRRRNRGLVGLYLVVGAFLLLYAVLFPGILTIGGFSKFTQNWFPLAL
+VTMAQALLMLNGGITLAIGPLVSLGAVIAATTMGSAFGVPGGILAVIATGLGIGAATGAI
+VALLRLPAIIVTLAGSFIITGVALILLPRPGGFVPGWLSTLLAGHTPVAFLLLLVILALW
+KIFLATPLGLAIYAAGDNPVGAFRSGVPIERVKIVSFALSGVLAALGGLFVAAQTGSGDP
+IIGAPFTLNSIAAAVLGGVGFLGGKGTMRGAVCGSLLLSVMINVMFFLGFPPVAQYVAQG
+LIIVGAVAVPARLALWRAAR
+>tr|A0A1Q9AGF9|A0A1Q9AGF9_9RHIZ
+MTLTRDLLIVNKRGLHARASAKFVQTVETFNAEVHVSKDGMTVGGLSIMGLMMLAASTGC
+TIQVSATGEEAEAALAALEALVADRFGEEM
+>tr|A0A1Q9AQI5|A0A1Q9AQI5_9RHIZ
+MVYTAEQDPLCYPGTTVLINKLDLVDQAELDEAELALFLIRADEPLPDGALDRAHYMAIH
+HHLFQDIYDWAGQPRTIRIGKGGNWFCYPEYIDRQMDLVFAKLERNGFLTGLSPEEFARQ
+ATDFLADLNAIHPFREGNGRTQLTFLSLLAENGGLPFNDDLLDRHRVIGAMIDSFDGRIE
+PLRQLILDLVSH
+>tr|A0A1Q9ADI8|A0A1Q9ADI8_9RHIZ
+MKFSLFYFDGDGLGASGQRYRLLMDSARFADAKGLTALWLPERHFHAFGGLYPNPSTLHA
+ALSMITRRIQLRSGSIVLPLHHPVRVAEEVAVVDNLSQGRAGVAIASGWTRDEFVLSQTP
+HGSRRSAMWRAYDQVTQLLAGESVGFEDADGNRVEAKTLPRPVQPRVPFWVACQSTETFV
+EAGRRGINVLTALLGETLESLAPKIAAYRQSLEKHGHDPASGTVTIMVHTFLGQDEETVR
+AKVQGPFSHYLKTHYHLLEGLARSMGLDITLDHFSEDDLDSLIRFGIDGFIKGRSLIGTP
+ESVGGTVEALAAAGIDEIACLIDFVQDYDLVMEGLPHVVALARRHAGTSALAQAV
+>tr|A0A1Q9AJ78|A0A1Q9AJ78_9RHIZ
+MVFLGDALNLLVGYILPFLVVLTLIVFVHEMGHYLVGRWTGIRVLAFSIGFGPEIIGFND
+RHGTRWKISAIPLGGYVRFYGDGDAASTPDYAALDRVAPEERDRTFLGAKLWKRAATVAA
+GPIANFILAIAIFAVIFATYGKHIADPTVSEVKAGSAAERAGVKPGDRLVAIDGSPVVTF
+DDVRRYVGVRPEVPIAVRIDRAGQEVDLTMVPERTVVEDQFGNKMELGIIGILTSQQSGN
+FRVQTFSPAQAVAEGARESWNVVTGTFDYIRNLIAGRMKADQLGGPIRVAQASGQMATLG
+VVALFHLAAVLSVSIGLLNLMPVPVLDGGHLMFYAIEAVRGRPLGAGAQDVAFRIGFAMV
+LMLMVFATWNDISSLIG
+>tr|A0A1Q9AE06|A0A1Q9AE06_9RHIZ
+MADTRDLIIGIDAGTSVMKAVAFTLQGRQVASASARNAYVTGEDGSATQSLDQTWVDCVA
+ALKGLGARIDNLAQRVAAIAVTGQGDGTWLVGAGNRPVGDAWLWLDARAAPTVDRLAGEG
+ADRARFEATGTGLNTCQQGAQMAHMDRFARDLLDRAEVALHCKDWLYLNLTGVRATDPSE
+VSFTFGNFRTRRYDDTVLSALGLSHRRALLPQVVEGTEVLHPLSPEAAAACGLLAGTPVC
+LGYVDMVMTALGAGVRSGGQNAACSAIGSTGVHMRAKAVEDVVLNAEGTGYVICLPIPGI
+VTQVQTNMGATINLDWLLQMGADLLAEFGQTVSLSDMIARIDPWVAASRPGNLVYHPYIS
+EAGERGPFVDARARANFSGLSVRHRFPDLVRAVVEGLGLATRDCYAAMGALPPELRLSGG
+AARSAALRGTLSAAVGAPVRVSHREEAGAAGASMMAAVAIGAYPTMDACIADWVDPGLGQ
+AEPPAAEEAARMDRLYTAYRQIRQGIAPSWETLSARPATTTEDERSVA
+>tr|A0A1Q9ACI4|A0A1Q9ACI4_9RHIZ
+MTINRTFFFEELHETLFPNGLHESQYQGTARILDYWAQRHPALDDRFLAYILATAYHETG
+AAMQPVRETHATSDDQAIERLQRAFDNGQLTWVRKPYWNKDSEGKSWFGRGLVQLTRRDN
+YDRVGHNLGIDLTTDPSAALDDDNAIRIIVEGMIGGWFSGPKLADFFHGNVANWLRARAI
+INGSESAQKVARYGKSFYRALSYTV
+>tr|A0A1Q9API6|A0A1Q9API6_9RHIZ
+MTKALIRIMRNENAAVEDAALRFKQAWRGQADADVVLTFSSPMQLFEVLSPKRWQLIETL
+QRIGAQSLRGLARALGRDVKRVHEDVHLLMEWSLITRDESGRFLVPYEVIHADFDLRAIA
+>tr|A0A1Q9ACI3|A0A1Q9ACI3_9RHIZ
+MALSLNKLSARAVTAIKKPGRHGDGGGLYLVVDKSGARRWVFLYRRDDRLREMGLGGLNA
+VTLARARELAAEARANLQAGVDPIEAKRNAPVAVPTFGEEADDFIDAMAPQFRNAKHLDQ
+WKMTLKVYAAPLRAKPVDRIATADILEVLKPIWLTKPETASRVRGRIERVLDAAKAKGHR
+TGENPAVWRGHLANLLPKRRKLSRGHHAAMPYEDLPAFLADLRTRDGIAARALEFTILAA
+ARSGETFGATWREINLEAALWVIPADRMKAGREHRVPLTARAIEILTELSALNAGPDTYV
+FPGQREGRPLSVMAMDMLLRRMNVDFTVHGFRSSFRDWAGEETAFPREVAEAALAHVVGD
+QTERAYRRGDALEKRRKLMVAWANYCEPRKGGNVVQLKAQRGG
+>tr|A0A1Q9AHI4|A0A1Q9AHI4_9RHIZ
+MSRIVYLNGAWLPEEDAKVSIFDRGFLFADAIYEVTGVVGGKLLEYQGHAARLQRSMAEL
+GIACPLSQDELLEVHREIVRRNALEEGLIYLQISRGTADRDFAYPKDATPTLTLFTQAKA
+VLDNPKVATGISVVLLPDHRWARRDIKTVQLLYPSMAKMEATARGAEEAWLVEDGFVTEA
+SAANAHIITAEGTLVTRPLSQAILHGITRASIVEIAENAGIACEERAFTPEEAKAAAEAF
+MTSATNFVLPVVAIDGQPVGAGKPGPLTLKLRALYVARKVANAI
+>tr|A0A1Q9AEI9|A0A1Q9AEI9_9RHIZ
+MSRDSLSFDTVLFILGGHPVTLGLLLASLCGLLLLTMLLSTLRRGRAHAAEQERIDRLLT
+AQAEMQSRMATLTEVFGTRQSELNRAIGERLDGMGQRIGSSILQQTQATHENLRRLQERL
+TAIDSAQANIQTLARDMAGLQQILSNKQTRGAFGQQRMETIVADGLPQGAYTFQATLSNG
+ARPDCTIRMPNGQPALVVDAKFPLEAWNTLRSAQDEAVKRQAAQQFRRDMEVHIRDIATK
+YLLPGETQDTAFLFVPSESIFADIHEHFEAIVQKAQRARIVIVSPSLLLLSIQVIQAILR
+DASMREQAHLIRDEVVHLMADLGRLDERVRKLQGHFLASQRDVEDILISSDKLRKRGGRI
+EALELDTQGPAPVASPPPAQPQATPSSSASAPQGPGDQGRPRQSALKLWVVDED
+>tr|A0A1Q9AQN0|A0A1Q9AQN0_9RHIZ
+MNQDSHSKQDAREAGERLVNSHASEDPFAAAFKATRMPMIITDPRQPDNPIIFSNRAFAE
+LSGYSTDELIGRNCRMLQGPGSDQAAIARIRAAIAARQNISVDILNYRKDGSTFWNALFI
+SPVRNAEDEVIYFFASQLDVTTVKNKETELAEARRMAEKLVEERTRDLKMALDAKTLLVH
+EVDHRVKNNLLTIASLLKLQARLTTDVTVAGTLHSVLDRVEALSIVQRKLFTSDDVARFD
+VAEFARELIIDVVSALKRDDITVELDLSPVLVPAVKASPLALIVNELVGDAVRRGLRDGG
+GRIDVTVKRLNGHFVIRVHDTLEPADVNVDREEQEFGRLVLETCARQLGARIERGVDGNV
+NRVDVTLLVGDGEEKTF
+>tr|A0A1Q9AI25|A0A1Q9AI25_9RHIZ
+MDRLDPHRLDDLQDNPLRPLSRKAAAAVLADLKALAADRPPLARWLAAESAARDAVIAAF
+TLSPYLADLARTHPDLLLDLIARPLEELLDAACQAARSSWQPAPGEPARADGIVMAGLRQ
+AKRQTAFVLALGDLLRLFDARQTTRRLSAFADAAVSATVDHLLLSAHEAGKLRLENPAEP
+ARASGLIVLGMGKHGACELNYSSDIDLVVFYDPETPALAGRPDLAEDLGRLLRRLIRILQ
+ERTGDGYVFRTDLRLRPDPGATPLAISVDAAMTYYEGRGQNWERAAFIKARPVAGDLAAG
+ARFLKELTPFVFRKYLDYAAIADIHSIKRQIHDHKGHGAIAVKGHHVKLGRGGIREIEFF
+AQTQQLIAGGRMPALRARETEAALAALSEAHWIDAQTAQALTEAYWFLRDVEHRIQMVHD
+EQAHTLPKTEAELKRIALMAGFADTATFAEALTARLKTVERHYGALFERERSLSDGQGNL
+VFTGQNDDPETLATLSRMGFARPSDICRMIRTWHAGRYAATQSAEARERLTELTPRLLQA
+FGESRMADEAMMRFDAFLARLPAGIQLFSLMANNQGLLGLLVTIMSAAPRLADIVAARPH
+VFDGMLDPRQLTELPQREEMARRLDLFLAGARAVEERLDRLRIFAAEQRFLIGVRLLTGV
+ADAQDAAAAFTDLADLSIAAALDVAQDALAETHGRIAGARVAVIGLGKLGSREMTAGSDV
+DLILLYDHDGELPDSDGPRPLDAPRYFARLAQRLIAALSAPTSEGVLYPVDMRLRPSGNK
+GPLATRLPAFAKYQREEAWTWEHMALTRARGVAGDAGMVAAAQEAIAAVLDQPRDLAKLH
+RDIAEMRGMIAREKHPAGIWDVKLIEGGVVDIEFIAQDLMVAAASRGLARPAAGASTAEM
+LQALAPARLGQEATGQLLAALSLHTTIAQVLRLCLDGPFDPKTAPAGLVDRLCRTTAAPD
+LSVLEAELRERAATVRAIFTGAIGKPVG
+>tr|A0A1Q9AQC7|A0A1Q9AQC7_9RHIZ
+MKTIEQTGGATIIPFPLGGLRRDRESIAQDARLTVAKEVAPFIDQCWYHEEAMREPERH
+>tr|A0A1Q9AGS7|A0A1Q9AGS7_9RHIZ
+MTLQDFYLAYIDCLNRQDWDALGRHVAEHVKHNGRPFGLSGYRSMLIQDFEDIPDLRFVV
+DRLVCDQSLIAARLMFDCAPKGRFLGLEINGRRISFAENVFYEVKGGKIVDVFSVIDKAA
+IERQIG
+>tr|A0A1Q9APJ8|A0A1Q9APJ8_9RHIZ
+MNIAAPSPNLSTAFRPKQRLGFNTRVSFNDDDGPAEGLRQGIDLFRQAERLGYQSGWAYQ
+RHFDHYLSSPLPFFAAAGQHTRRITLGSAVIPMRYQDPILLAEAAGTTDLLIGGRLELAL
+STGANSAFDAVFGAVETDARTEGKRRQARFLSAIAGDVLHRVTEQDKEAPTGESLRVTPH
+SPGLRSRIRQGSASTESAIQAAELGIGLISGTVLHDQAEGETFGQYQARIIDIYRTHWLR
+IWNTTPPPVAVAASILVGTTAELRTVYAAYDLERRTAGIAASRPKGALAPAATPAGAIIS
+PVFQGEPDDVLDAVLNDPGLAAADELVLFLPPAFGLSENLRLLSDFATTVAPSLGWRPAS
+DEDGSKQPAL
+>tr|A0A1Q9AJ45|A0A1Q9AJ45_9RHIZ
+MVAKDYRSLTFLVVSMALAVCGPVQRAHAFDPDAGVSKESGPFALFKFGFSAYKNGRKDE
+AVEAYRYAAEQGHTASRWALANMYAYGDGVAENDLEAFKIYSEIAEKGVEPGSEDTGYFV
+NALISLANYYRRGIPGTPIKRDLNQARQLYFQAASTFGVPEAQFQLARMLLDGDSGTTNV
+QQAKKWLNRARKKGHVGAMGVFGNVIFQEGQTARGLAYMTAALDKCSPKDRPWLQQMQEQ
+AFSLAGENDRRQAIAMAQTIQTSDNDPE
+>tr|A0A1Q9AJP2|A0A1Q9AJP2_9RHIZ
+MAKAAKIKIKLLSTADTGYFYVTSKNSRTKTEKMVKTKYDPVVRKHVEFKETKIK
+>tr|A0A1Q9ALU4|A0A1Q9ALU4_9RHIZ
+MNMQSLFEIKGRTALVTGSSRGLGRAMAEGLAEAGARILINGTDPVRVAKTVQELRSAGY
+AAEAASFNVTSEEEIKAAFAALDQAGIAVDILVNNAGIQYRKPIVELDTADWQRVIDTNL
+TSAFMIGREAAKRMIPRGHGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQ
+YGIQANAIGPGYMLTDMNQALIENAEFDAWVKGRTPSKRWGKPEELIGAAVFLSSGASDY
+INGQIIYVDGGMLAVL
+>tr|A0A1Q9ALD7|A0A1Q9ALD7_9RHIZ
+MALKIRLARGGSKKRPYYQVVIADARSPRDGRFLEKVGSWNPMLAKDDAKRVELNNERIQ
+HWLDNGAQPTDRVLRFLAEAGIAKRDARSNPEKGKPGKKALERAAEARQKAEAAAAAAAE
+>tr|A0A1Q9ACJ2|A0A1Q9ACJ2_9RHIZ
+MVFTYGSFDGYSDYVAVGDFIGFGLDRYLIASIRSDGFSLSTTSGGAVNFPANTERTWRY
+TYDIRRGACNIRGNSIIFIDGDFFFSFFYDTRSNKLKIGNTWYSVTQIIDPRQLKIDTNL
+GNQDNIAFIQKTHIEFASGLRTQSLMGSREENAFIGVTDKGEMKIDLQGFVNGAVPREMP
+LIIGGALSYDANGLYEHLTLTADGKLGVGEPRDVVRASPARTNSFVVSSAAQGGTKVRVV
+SDRKRASFNGDIRLVDTYFENDYGGAKIQSRTAVGTSSLALNPEGGNVLLGGPVVLNGVG
+SYADDAAAASAGVPSKGLYRRSSDGVLMMRA
+>tr|A0A1Q9AE88|A0A1Q9AE88_9RHIZ
+MSTHIASVYDEDLKYLARRISEMGGLAEQMVAESVRALVNADLGLAQKVISDDVLLDEAE
+RQIGEKAIVTIAKRQPVASDLREIMGSIRIAADLERVGDLGKNTAKRVIAVTSTSLPRQL
+ARGLEHLAELALTQLKEVLDVYASRSPEKANSIRERDEEIDAIYTSLFRELLTYMMEDPR
+NITSCTHLLFCAKNIERIGDHATNIAETIYYMATGSQPAGERPKDDSANTVGAINS
+>tr|A0A1Q9AH86|A0A1Q9AH86_9RHIZ
+MKLKEKVCIVTGAAGGIGRAIAARYVAEGAKVAIADLKGDDAVTTAEALTASGPGEAIGV
+TMDVTQEAAVQDGVAAVIERFGRVDVLVANAGIQIVHKVEDFPFEDWKRMLSIHLDGAFL
+TTKACIPHMKAQGGGAVIYMGSVHSHEASPLKSAYVTAKHGLLGLARVVAKEGGAHGIRA
+NVICPGFVRTPLVEKQIPEQAKTLGISEEEVVNRVMLGNTVDTEFTTLEDVAEVALFFAG
+FETNALTGQSLNVSHGWSMR
+>tr|A0A1Q9AN15|A0A1Q9AN15_9RHIZ
+MSDRKNHVTFAAQWLYVLQPFIEYGQSLPEETTFIHGHLFVEPARQGGALIIAANAHALL
+LIHDQQASCSGPLTLDVPEDAFQAATPPEPAIFWQEGERLTAEMPEWMQPGRFVAHDHGM
+WIEPRMRHPQWAEERQDFFPMLQMSTTVPAGYTVQGLDFEITPGIKPQWRRMLTAAFADA
+GDGATAPLAFDPAIVSQFDRICALTRKQSGEKGAATFHRATRNREGTPGPIIMTFEGHPH
+IVGTYMPQRADGYVGPSWALLHAAREGGKANG
+>tr|A0A1Q9AES0|A0A1Q9AES0_9RHIZ
+MAKGYWIARVDVRDPERYKDYMAAAKPAFERFGAVFLARGGRHEVLESPGRARNVLIEFP
+SFEDAVACYNSPEYLIAAAIRQTVADGEIVVVEGV
+>tr|A0A1Q9AFH8|A0A1Q9AFH8_9RHIZ
+MLRRLYDWTMSLAARRSAEVWLAIIAFVESSIFLVPADVLFVPMALARPQRVWRYALVAT
+VFSVLGGIAGWYLGHYAYESIAKPILEFYGKLDAFEQLKASVDYETIVLLLVTSGLAHLP
+PIKVVTILSGAVNIDLTLFIISAIVARGARFFLLAWLLQRYGESIRHFIEKRLGLLTGVV
+AGVMIVAFIGYRLVH
+>tr|A0A1Q9ANG8|A0A1Q9ANG8_9RHIZ
+MQASAPGRATLVALMLATAALGGCSATADSLGQTYTQGYIVDQQTLALVPVGSSREQVLL
+SLGTPSTTATFDNEVFYYISQKRHRAAAFMNSKIIDQSILAVYFDDKGTVAKLAHYTLQD
+GRVFDMITRTTPTGGKDMTFLGQILSGNGVGKSMARSIFADGGNGSN
+>tr|A0A1Q9AE80|A0A1Q9AE80_9RHIZ
+MQENFWHGKRVLVTGHTGFKGSWLSLWLKELGAQVTGLSLAPQTEPSLHRLLGASTDDTD
+ILDIRDRDAVLAHVLRSRPEIVFHLAAQALVRAGYRDPLGTFEVNVRGTANLLDALRASE
+DVRAVVVVTTDKVYNNPENGLAFMESDPLGGHDPYSASKAAAEIVAASYRNSYFAGRNVG
+LATARAGNVIGGGDWAEDRLIPDAVRAWQAGAALHVRRPKAIRPWQHVLEPLGGYLGLAR
+RLWEAPEGVEAFNFGPNHGEAASVGAVLRLAERHFGGKGAGVVLGDGSEGPHEAGYLVLD
+SSKARSELGYYPRWGLSETLRRTMEWYRAQREGADALSLCLADIRDFVGTASQSERERLA
+G
+>tr|A0A1Q9AKJ0|A0A1Q9AKJ0_9RHIZ
+MDMRRIVGDNFGRLRREKGLTQEQVADLSGLSQQYLSDLERGKRNPTVVTLFELAQALGV
+TPTDLIKPAVGQS
+>tr|A0A1Q9AMU0|A0A1Q9AMU0_9RHIZ
+MPSYDYDLFVIGGGSGGVRSARLAASLGKKVAIAEEFRFGGTCVIRGCVPKKLYVYASQF
+SKDFEDAAGFGWSVGEIGFDWGKLVAAKEAEITRLEGLYQKGLTNAGAELIASRAELTGP
+NSIRLLADGRTVTAERIVIAVGGRPTPHRDLPGHELCITSNEVFDLPSLPKSVLIEGGGY
+IAVEFANILQGLGVTVTLIYRGREILSRFDQDMRQGLHREMEAKGIRILCGDVITAVSRG
+EGGLLKVETRENGTLQVEQVLEAIGRVPHTQGLGLEAAGVRTDEKGAIIVDAFSRTSAPG
+IYALGDVTNRVQLTPVAIHEAMCFIETEYKGNPTSPDHDLIATAVFSQPEIGTVGLTEEE
+AGQRFEEVEVYRAEFRPMRATLSGRSEKMIMKLLVNAADNKVVGAHVLGHAAGEMAQLLG
+ISLKAGVTKADFDRTMAVHPTAAEELVTMYSPSYRLKNGVRA
+>tr|A0A1Q9AGN3|A0A1Q9AGN3_9RHIZ
+MTVPEQIAGTAAMPVIINPAHLHDPTPNGYSTAVITPPAGRLAFISGQGGQDRTGALPPD
+FARQVKQAYDNLAAVIEAIGATPAHVVKLTVFVVDHDMSKLGILTEAVTHLFGTNLPAQT
+LVPVPKLAIDTMLFEVEATVLLVA
+>tr|A0A1Q9AHV5|A0A1Q9AHV5_9RHIZ
+MSTLTLSGITKSFADNDILKGIDLQAHEGEFIALVGPSGCGKSTLLRIVAGLEQATTGSV
+RVAGREVTALAPAERNVAMVFQSYALYPHLTAGQNIAVPLAMRQLSRLGRLPLIGALAPG
+QKAIRREIQAKVREMARSLMIEHLIDRKPGQMSGGQRQRVALARAMVRRPALFLMDEPLS
+NLDAHLRVHARTEIVDLHRRAGVPTLYVTHDQAEALSMADRVAVMIGGRLLQLAPPQQIY
+ADPRHIEVARFIGQPRINSLASRVTEEGMVRFGPAALSPAAALRAGTAVTLAIRPEHLRV
+LPRQTGVETGGLPGQVERLEFLGSEVIVSVRLDGMGETLLAKLAPAEAARLATGQPVGLL
+PEADHLLVFDVAGHRIDAMPVLAQLRENAHG
+>tr|A0A1Q9AHR9|A0A1Q9AHR9_9RHIZ
+MTEIHDAISSSPNGLRRRDFLKGAAVAVAGIGLLPQLALAQGAIVALVHTQAAGDNGPVD
+SMIAKLNAIAAERGFTPRIVYASDAATYETIFRTLGDAGAAVIVSTFNEVAEAFKALAPE
+YPDTKWIQLFGDPIEPSLPNVVTVSYDYYLGCYLSGLFGAMMSPLGKLGYIGGISLPPLN
+ADANAIKAAMTTVKPDATLTVAFAGSFQDPAKGQEIATQMYKNGVDYIQTDSAATDAGII
+AAANEIPGKLVSGISPAQYKLGPKSVAAIVSLDFGQSLYNEVAATLKDGWKGGHTKTGLG
+TGVIDFILSPVFVDQGDPALVAKAKEVWPKIEEARARILDGSLAVPFNTTL
+>tr|A0A1Q9AKX5|A0A1Q9AKX5_9RHIZ
+MRNSAKWIDSARACITVLFCSSLAAAAPLPATAQLTEVQTKAPGAARQENTTPSGAPSSG
+AQTAAPATPQSQPAAYDPRLMRLAEILGSVHYLRTLCASPDAGDWRQSMEALIAQEARNE
+EERRTRLTAAFNRGYRSFASVYTQCTAAAVEAERQYRAEGATLAAEIVARFGN
+>tr|A0A1Q9ANH0|A0A1Q9ANH0_9RHIZ
+MNNSFSKPRQQAEIAFGKTQGRAGTPAQGGAPARDRAFDELETIKAAREAKTERLRAARL
+AREAGDGLQQGK
+>tr|A0A1Q9AKE9|A0A1Q9AKE9_9RHIZ
+MFVDACAIIALLSDEPEADRVSDALMTAQTRMTSPVAVLEAVLGLSRPDKFALPVDTVEP
+IVMEFLEARGIEICDLPPAKHATSLALSAARRFRSSRHGLNLGDCLHYACAKYYRVPILA
+TADEFRQTDLETVP
+>tr|A0A1Q9AGJ2|A0A1Q9AGJ2_9RHIZ
+MTSVFKLMTGLAVIMSLNSVAQAKDLVVGVSWSNFQEERWKTDEAAIKAALAKSGDKYIS
+ADAQSSPAKQLTDVESLISQGANALIVLAQDSSAIGPAIEKAAAEGIPVVGYDRLIENPA
+AFYITFDNKEVGRLQAQEVFKVKPEGNYVFIKGSSSDPNADFLFSGQMEVVKAAIDAGKI
+KNVGEAYTDGWKPEIAQKNMEQFLTANDNKIDAVVASNDGTAGGAIAALDAQGLAGSVPV
+SGQDADKAALNRVALGTQTVSVWKDSRELGKRAAEIAVELAGGKTMDQIAGVQTFNGGPK
+KVEMKSVFLKPLPITQANLGTVIDAGWITKAEACQGVKGGKVPACK
+>tr|A0A1Q9AQA8|A0A1Q9AQA8_9RHIZ
+MTSRRLFPLLPARRTALALTLGLGAALAGCANKDATTTGSLPDDYRTRHPIVIAQAEHAL
+DVPMAAGDHRLTTGARDVVKGFGNDYLASSSGPVLMMVPEGAPNGFAISSIKRDVRAALV
+STGVPAGKIVETRYQAQASGDAAPIRLSYNAVTAKTGPCGQWPSDLVLDTAENRNYQNFG
+CASQSNLAAQIANPMDLLGPRAMSPIDTVRREQAISDYRGVKSSSSNTTITFTNN
+>tr|A0A1Q9ANW9|A0A1Q9ANW9_9RHIZ
+MSETGFRRLVLGLLVLNVFLVSALAGAGLFYINRAPPPSGGRLPLAGEDLPRETRAAFQK
+ALSDARRGARATTLAAQQARIEAAALMGQETLDRASLSDALARARAAEMAVRAAAEEKAI
+DFVTDLPLEDRRRLAQGLIRREAPKPAGR
+>tr|A0A1Q9ADG7|A0A1Q9ADG7_9RHIZ
+MTSVVSSSPLPATRARGHSRRRRRASTGWRGLAYIAPAMLLVLVFFVLPVLLTVWMSLHN
+WPLMGAQKWIGLKNYTRLLSDARFLQALNFTAFYTLVVTIAIFAVAFPLALFVEKQRRFV
+GFYRTVIFLPVVVGLATASLLWAWLANVDSGFFSPLLRLLGLVDRSPNLLARFDTAFLTI
+IVMVVWKIAGFTMILLLTGLQAIPAELDEAARIDGARRFQRFRHLTLPLMRRTIALALIV
+SITGSILAFDQFYIMTSGGPQNRMISVVYYIFNQSFVSFNLGYGAALSIVLLAILVVISI
+AQLKLLKIGEERP
+>tr|A0A1Q9AJ35|A0A1Q9AJ35_9RHIZ
+MSGDIEDKPQPLMEHLIELRSRLIWAVGAFFVAFLVCFYFAKGLFNILVQPFRWSVEWAG
+LNHRQVELIYTAPQEFFFTQIKVAMFCALVISFPVIANQVYKFVAPGLYKNERAAFLPFL
+IASPILFLLGACLVYFFFTPMVMWFFLTMEQGGGDGKVAIQLLPKVSEYLSLIMSLIFAF
+GLVFQLPVITTLLARVGIVTADDLAAKRKYAIVIAFIAAAILTPPDPVSQIGLALPAILL
+YEVSIHTARLIERQRARNADASSSRDLAETDERS
+>tr|A0A1Q9AJ05|A0A1Q9AJ05_9RHIZ
+MSRPSKTGSRAAFWLLLLPYIGLLWVPFYNMREPSLFGFPFFYWYQLAWVPLTAALTYVA
+YRSVRDDD
+>tr|A0A1Q9AGE0|A0A1Q9AGE0_9RHIZ
+MRFDVIVIGGGHAGCEAASAAARLGAEVALITHRRDTIGIMSCNPAIGGLGKGHLVREVD
+AFDGLMGRVADAAGIQFRLLNRRKGPAVRGPRTQADRKLYRLAMQAAIDAIDNLTVVEGD
+AFDLTTNNGQVDGVTLADGRHLAAGAVVLTSGTFLRGVIHIGDQTTPAGRMGEAPSLGLS
+DTLRRAGLALGRLKTGTPARLDGTTIDWASIGRQAADEDPVPFSFLTDRITTPQIDCGVT
+RTTEATHRIIEENIGRSAMYSGKIEGVGPRYCPSIEDKIVRFGERDGHQIFLEPEGLDDP
+TVYPNGISTSLPAEVQDAFIRTIPGLEQVRILQPGYAIEYDHVDPRELTPALAVRKLPGL
+FLAGQINGTTGYEEAAAQGLAAGLNAARHAGGQSPYIFSRTSSYIGVMLDDLTSRGVSEP
+YRMFTSRAEYRLSLRADNADLRLTPEAIALGCVGSERRERFTQWHQRFEERRAQLKELSV
+TPTEARRAGLELNQDGQRRSAYDLLSYAHYDWQTIARLWPEMASVERKLTDILEIDAQYA
+VYMDRQRLDIDTVQREEQRIIPAEFSYAALPGLSIELKQKLERAKPANIAQAMKVDGMTP
+AAISLLLAVLKRSESPAKQRAIPE
+>tr|A0A1Q9AMX6|A0A1Q9AMX6_9RHIZ
+MSVTERMIPPQAPPPEEARPYSAERLAGRIFLGVWLAAAIGVAIGAVQGWDTQKFFTYGP
+TLLSGLGVTLTLVSLSIVFGAILSVPLAFGRMSRNPVISWASYVYVYFFRGTPIIAQLFL
+VYYGLGSFRPELDAVGLWWFFREAWYCALLAFTLNTAAYQAEILRGAIESVPRGQREGAA
+SLGLPARVTFFKVILPQALIVALRPYGNEIILMIKGSAIVAIVTVFDLMGETRRAFSRTF
+DYQMYLWAAILYLMIVEILRNLWAWLDARLTRHLKR
+>tr|A0A1Q9ANR7|A0A1Q9ANR7_9RHIZ
+MTDSLIRAATAEDFPALRAIEHAAFETLRRAGAVSGPAAVSGDADLRRYLEADCLDLAMD
+AAGQPIGYVGASLLQGWLHVGELDVHPAWQRQGIGRRLMKGILDKGRSSGLPGATLTTDR
+LAAFNAPFYASLGFRPVDDASLPWLQAILDAEVAKGLDPARRLAMRLDF
+>tr|A0A1Q9AQD9|A0A1Q9AQD9_9RHIZ
+MSNPHLTRLTAASMIVEAAAIIALDFFEKRDRIATRTKAAAQDFVSEADTAVETFIREKL
+AAAFPGETVCGEEFGGTADDAYWIIDPIDGTSNFLRGSPLWGVSLGFVRNGRPELGVVAM
+PAEHRLYAAANGTGLFCNGTPFVRPAPIADIRLVSLGDHPQEDFEAAARFQLGLRRADWI
+VEAFHSTSVSLVYAARGIFDGHLQTRTTMWDIAGGAVLAREAGLEVRIGLNAEGQEWIAA
+GTPALLSTVEPLWPEIAA
+>tr|A0A1Q9AJW1|A0A1Q9AJW1_9RHIZ
+MGIVQRRDVFGPLILIFLVFFIVLPVATVFLWAFAEQWFYPSVLPTKWGFRFWAQLVSRP
+EVWQAFLMSIKLSLTVTALSALICLPAAYAFARMDFPGRSGFMMSFLMANAFPRFALIVS
+IAVLFLTLDLVGTFQGVVIIQFLNTLLLMIWLPTAAFRAIPRETEEAARDVGASPLQVFW
+HITLPQAFPTIAAALLMTFVWTFYETEGAWLVGAPRIRTMPLLMMSMINNQLVVQYGAVL
+SVMLWVPSLVAIVLARRVIGGDAFAKGLGG
+>tr|A0A1Q9AFY2|A0A1Q9AFY2_9RHIZ
+MIMTDLTQKNEARSPAVESLRKEQMRAESKGDELEKGLEDTFPASDPVSVTNTTTPTGRT
+DKGEMRH
+>tr|A0A1Q9AG02|A0A1Q9AG02_9RHIZ
+MRHYQNRREEPRSPARIEGQVRCHDAQTRGRVLNLSPGGVCIELRGPIGASQGAPIVLDT
+EAVGLLQGIVHWSRGDRIGIRLERSSNAAAKISSYFRLFARG
+>tr|A0A1Q9AN79|A0A1Q9AN79_9RHIZ
+MIKIKVENPVVELDGDEMTRIIWQFIKDKLIHPYLDIDLEYYDLGMEHRDATDDQVTIDA
+ANAIKKHGVGVKCATITPDEARVKEFNLKKMWKSPNGTIRNILGGVIFREPIICENVPRL
+VPGWTKPIIVGRHAFGDQYRATDFKFPGKGKLSIKFVGDDGQTIEHDVYDAPGAGVAMAM
+YNLDESITEFARASLNYGLQRNVPVYLSTKNTILKAYDGRFKDIFQEVYEKEFAEKFKEA
+KLWYEHRLIDDMVASALKWSGGYVWACKNYDGDVQSDIVAQGFGSLGLMTSVLMTPDGQT
+VEAEAAHGTVTRHYRQHQKGEETSTNSIASIFAWTRGLAHRAKLDNNTELAKFSETLERV
+CVETVEAGFMTKDLALLIGPDQPWLSTTGFLDKIDENLRKAMAA
+>tr|A0A1Q9AIZ4|A0A1Q9AIZ4_9RHIZ
+MSQIRPLVPLLVTAGILIGGNGLLATFISLRGLREGFSPSVIGLIGAGYNIGFAIGCVYV
+TRILRSIGHIRTFSAMAALAAAASLSMALVIDPTVWFAMRLLAGLCLASLFATVESWLNA
+RVTNDNRARTLSVYRLVDLGSVTAAQYLIPAIGVDGFGLFAVISMALSLSLVPISLADRS
+SPAPPEAFRFDLKALWSVSPLATVGAIVVGLTTAPFRSLGPIYAADIGLSVTAIATFMSA
+GIIGGVVLQYPLGLYSDRLDRRRIILAAGIGSLVSVLYLAFFAGQDETRNIIGIFLFGAF
+AMPLYSLCSAHANDHAAPGQHALVSAGILFFWSLGAIVGPLGASLLIDHFGSRALFLYMS
+VVLAGFIVYTLLRMRARGGVEIGRRQLRFRALLRVSAYFNRLPARPDTPHTPPAHPQADK
+QD
+>tr|A0A1Q9AM78|A0A1Q9AM78_9RHIZ
+MMKAPADERRDDAPLGLTFMVLSVLISPVIDVFSKLAVVTVPAGEIAFSRFVLQAGFLLP
+PVLLRGALTGISARTMALHALRGGLLVVSMLSFVATLKVMKLADAIAIFFVEPIILTILG
+GIFLKETIGWRRYTACGVGFFGAMLVIQPSFSEVGPVALLPMVSALTIAIFLLVTRSVAK
+AEDPWSMQFYAGLWGAIFSGLLLVIGHETGIPVIDPVVPDALTAAYLVGTGLSATIASVL
+GVYAYRSAPASVLAPLQYLEIVSATLFGWLIFNELPDPLKWLGIAIIIGSGLYIIWRERR
+LKRAAMPVPPAV
+>tr|A0A1Q9AFI3|A0A1Q9AFI3_9RHIZ
+MPPNWASPRAAPGHVAGFARRVAQAAIDLLFPPACLGCGRQMGVHGGACAACWGRLRLIE
+RPFCPIYGTPFALDLGPGILSPEAIAYPPVFDRLRSVAHHDGLARQLVHGLKYRDRTDLA
+PVMAEWMLRASDGEVARAEAIVAVPLHALRLASRRFNQSAELARAVARLSGKPFLADALR
+RSRRTRRQVGLGQRQRVENVRGAFTVTQEGRAEIFGRRLVLIDDVYTTGATVSAVTRALK
+KAGATEVTVLTFARALGDPI
+>tr|A0A1Q9AHZ8|A0A1Q9AHZ8_9RHIZ
+MTVRLADIVMQYPGTRALDHVDVDFLFSEVHGLIGENGAGKTTLVSILGGSKQPTSGTIA
+IAGVETVLASAGDALAKGIAHVSQEGSLVPGLSAAQNILLGDEPRLGLGIIDTRALRRRA
+AELLDRWFPQVAIDLDAAVDTLPMADQKVIEIVRALRGEIRLLILDEPTATLPAREKENL
+WRIIRSLPPRGVGVVLVSHFLSEVKALSDRITVLRDGRHVTTLPSAEVSEAQLVDFMLQR
+AGKTAVAIGENGDGARAAGETVMEIADWHVGGVRVDRFAIRAGEIVGLIGLTGAGHFGFA
+RSLYTGEGFLSGSTVFAGQPLARPDARSMKARGVAFIPDHRMENSLIGEWSVRENLAMVH
+PHAGAHAGVLSMGLEEKAARAAMALFNVKAHSPEQRIQDLSGGNKQKVSIGKWLYGAPER
+YRLMIFVEPTEGVDIGAKREIHRHIHRLAAEGTAIIVASSDLMEVADIADRVVPFVQGQA
+ARALSRAEFSESRFIAAMAGDPK
+>tr|A0A1Q9ANM8|A0A1Q9ANM8_9RHIZ
+MKREDRKQAIVNWLIENRTADLDALAARFSVSRMTVHRDLDDLERAGILRKMRGGATIEP
+GTQFESDFSIRELQETETKRAIARAALDEVEPGMSVIVNDGSMAAVLGARLCEKRPLTVI
+TNNAAVLETLKAARDITLMAPGGVYSPKFNAYLGLMAEEALGRLSADLAFISAPAVSSAG
+AHHMDEAVVRSKRAMMGAARRCCLLVNHRRFGRTALHHLARLDGFDTIITDRAPPEDVRA
+ALVTAGTRLIIAPPETAEADTAQA
+>tr|A0A1Q9AMH4|A0A1Q9AMH4_9RHIZ
+MRSHALIPSRLSSRRLTAGPAASAAGQRVAGERTAISPEFKARLVRAVAAVLSGFGLFIL
+TLSFEPFPGDGTDSAAASGGNVINQVGYLGLGGLFLFALLSIVDPRLLLKAITPTFVIIF
+AIAFGSCLQSYDPATSARGVMQSLIVMIPMAGVLLLPRSERDFVEAGATAILLLVLLNYA
+MLVLAPSLAKHTADAIESWHAGFWRGHLSHKNVAAPVFSILCMFGIYCARTGAPRRGLLI
+ALLSANFVLHTGSKTTIGFLPLSILFVGIGALTLRPALTIALHTVFTIVILALTLGSVYF
+SSLHDLTASLMSDPTFTGRNDIWDFASRSIPDHPWFGHGYASFWQSPVILGMEKDFEANW
+DVRGIVTAHNVYLDAVVTYGFLGGLPLLALFFIKPFFDYARAFRRPQNRHFAEFCIMVVA
+FMTYNGMMESFLINRADPLWVLTALAVYGLNLAAAAPVAAEEPGADGAQAR
+>tr|A0A1Q9APF2|A0A1Q9APF2_9RHIZ
+MGLGKEQVRWGVIGAGEIGIAFAQDIAQTRHAVVTAITSRREDRARLYAERFGGLACLPD
+LDALLAEEAVDAVYIATPSSQHAEQTLRALSAGKPVLVEKPLAVSAAEAQAVLDRARQTG
+LFAMEALWTLFLPALAALRAHLRQGTIGRVKAVRGQLAYFKPEDPHSRFFSPTLGGGALL
+DLGIYLIALTLNLFGTPKAMTSRWQAAATGVDLCAQMGLAYDGFEAELACGFDRTDTNRY
+VIEGETGALIIDQPFIAAPRLFLSRYAGLTRELGAEGNGLAGRILCKLTALPIVPGLTRL
+DHRYVGNGLSFEIDAASQAILAGETRSGIMPLERSVEALSLLDRIRAQPPERFR
+>tr|A0A1Q9AHM1|A0A1Q9AHM1_9RHIZ
+MTQFPSLPRSGRDLSDLNALIDASIGKSDVAPMSSPLPSSSPQQERPDIERRRPARDTAA
+QSQVERFRISIDPAVIVATKHAALQRKVAPSEIVELALRQYLNLET
+>tr|A0A1Q9AKB8|A0A1Q9AKB8_9RHIZ
+MLSPSLSAHAQTMERLTNKAKELVAPVTGKTDDRLQKVATFEHQVTGVTVSEDGRIFVNF
+PRWSEDVPVSVAEVMQDGSIRPYPDDAWNAWRNAKMSELSPKDHFVTVQSVVADGRGSLW
+VVDPAAPNSEKTVKDGPKLVQIDLKTNTVKRVYPFPPEIAGPASYLNDVRIAPDGAFAYF
+TDSGAPGGLVVLDLKAGKAWRVLSDDPSTQFEKDVVVHVDGKPLRRPDGRQPLFNADSIA
+LSKDGTTLYWKALTGKTLYRISTAALQNASQDPSAAKAEKHADREPTDGLWIDDQNRIYL
+SAIQDDSIKILSADGKLTSFLQDSRLRWPDTFSQGPDGTMYVTASHIQDSPWFHPGWTDD
+AFTLFKFTPPK
+>tr|A0A1Q9AMD3|A0A1Q9AMD3_9RHIZ
+MDFAHHFGVKKLARGGMIALSLSLSGVLLSACQNDPDIDITKLKADTDPPDVLYRQGLAN
+LNAGKTTEAARKFDAIDREHPFSEYARKALVMKAFVAYRNGQSQDAINAATRYLNLYPQS
+EDAAYAQYILGLAYAKQIPTVTQDQKPAFKTIEAMQAVIDKYPNSPYVEDARAKVRFAKD
+QLAGKEMQVGRYYLERKEYLAAAARFRTVVEQYPTTNQVEEALARLVETYFAMGVTSEAQ
+TAAAVLGHNYPDSQWYADSYKLLQGNGLEPRENGGSWISRAGKKLIGA
+>tr|A0A1Q9AMG4|A0A1Q9AMG4_9RHIZ
+MTELKSVRGKTIRGETCTMEQFQLRYGLNDEEARRLFERFGPSATELDLLMAAKRRQPVA
+>tr|A0A1Q9APL8|A0A1Q9APL8_9RHIZ
+MLRDALLYDAAGRPIKQHHKVLSEDWDEIRAWSNEVYMPYHVAPTGKAAKPNSTMHSAQI
+GRIIVTRFGYGIPVDIKDWSQDAGNAVVLTTIGGNARHRIDGAQAADTGIGESFVVDCSR
+TDYHVDFDPDHLQLNLTIPHRVLEEICRDWFGFVPDDALWQCKTLIGGKNSSWLALMDYM
+ARCIAEAPDRLARDRTGRHLEQTICIHLLNEWAARAGFDLENPRNGLAPRHVRLAEEFMR
+DHAANTPSMVEVAQAAGTSLRSLTLAFKQFRGYPPSQFLREQRLQGVRKALTATEGAGTV
+SQIANDWGFIHLGEFARLYKDRFGELPSRTLRG
+>tr|A0A1Q9AMY8|A0A1Q9AMY8_9RHIZ
+MMIAASGAAGARDFPLASCKSWNATLEHRSGVDSRRATMTGTATEANLAEYCQRDPGGET
+VQYGGDLTVKACIAKYRQQAGHASYRAVADCTKGSLSFFPPQGDPQTVLFPLAEDADTSC
+ASGMPPLMAQFKLLCPKAAARYHIE
+>tr|A0A1Q9ALG8|A0A1Q9ALG8_9RHIZ
+MPLCLSIEGLAARRGDAPIFRDLSFRVAGAEVLVVTGANGSGKSTLLRIVAGLLRPEAGR
+VRITGLDEAGDAQADDPQRRREACHYLGHRNGLKAELTVLDNLAFWRALASVESRKAGLP
+VEAALDAVGLAALAHLPAGVLSAGQSRRAALARLLVAHRPVWLLDEPTAALDAASDAMVA
+ALILAHVRAGGLAVAATHQPLDLPGALRLAMPARPDLLDETQEGAPDDGFWLDARHGTGG
+AGDRPRRDAR
+>tr|A0A1Q9APP3|A0A1Q9APP3_9RHIZ
+MPKRQDLKSVLIIGAGPIVIGQACEFDYSGTQACKALKEEGYRVILVNSNPATIMTDPNL
+ADATYVEPITPEVVAKIIAKERPDALLPTMGGQTALNTALSLKRMGVLDRYNVEMIGAKP
+EAIDKAEDRALFREAMAKIGLETPRSMLANATDIKDHDRKGHEAARAKLRETLSGDELDK
+ALDALENQWNLGETDRKQRYMSHAMAVAAQALDHVGLPAIIRPSFTLGGTGGGIAYNRSE
+FFEIVSGGLDASPTTEVLIEESVLGWKEYEMEVVRDKADNCIIICSIENIDPMGVHTGDS
+ITVAPALTLTDKEYQIMRNASIAVLREIGVETGGSNVQFAVNPKDGRLVVIEMNPRVSRS
+SALASKATGFPIAKIAAKLAIGYTLDELDNDITGGATPASFEPSIDYVVTKIPRFAFEKF
+PGASPVLTTAMKSVGEVMAIGRTFAESLQKALRGMETGLTGLDEIEIPGIDDGEGSKAAI
+RAAIGRPTPDRLRMVAQALRFGFSEAEVHESCKIDPWFIAQLKAIIDMEARVREHGLPGD
+AENLRRLKAMGFSDARLATLSGKRPKEVAELRNGLNVRPVYKRIDTCAAEFASPTAYMYS
+TYETPFVGQARSEAGISDRKKVVILGGGPNRIGQGIEFDYCCCHAAFALKDAGFEAIMVN
+CNPETVSTDYDTSDRLYFEPLTAEDVIEILKAEQEKGELVGVIVQFGGQTPLKLAEALEK
+NGIPILGTAPDAIDLAEDRDRFQKLLMKLDLNQPNNGIAYSVEQARLVASEIGFPLVVRP
+SYVLGGRAMQILHSEGQLQGYLLDTVPELVPEDIKQRYPNDKTGQINTLLGKNPLLFDSY
+LSQAIEVDVDCLCDGKQVYVAGIMEHIEEAGIHSGDSACSLPPRTLSPEMLDELERQAEA
+MAKALKVGGLMNVQFAIKDGTVYVLEVNPRASRTVPFVAKTIGAPIAKIAARVMAGESLD
+QAFAAYGEKPDPRKLKHIAVKEAVFPFARFPGVDILLGPEMRSTGEVIGLDTDFAVAFAK
+AQLGAGVDLPREGTVFVSVRDDDKVGVLRAIRLLTEIGFKVLATGGTARYLEEQGIAATK
+VNKVQEGRPHIEDAIRNRQVQLVINTTDSNKAISDSKSLRRATLMQKVPYFTTMAGAEAA
+AAAIKALKAGNLEVRPLQSYF
+>tr|A0A1Q9ALM5|A0A1Q9ALM5_9RHIZ
+MDCDSFAAFARHRAGRLDLALSLGSCTAEAATMAVAGQPDLVDAFEMALSLGPHDCLVTG
+VERQGDPAGKADA
+>tr|A0A1Q9AIQ0|A0A1Q9AIQ0_9RHIZ
+MQTGLYVAVSSQMALEKRLATLAHNVANANTVGFRATEMKFNSVLGDTKPTKVAYVNEGQ
+EFLKTTSGGLTSTGNALDVAMKGDGWFSIQTPGGNALTRDGRFTLTDTGDLVTLRGYPVL
+DAGGAPIQINAAAGDVVITPDGAIRQNGQQMAALGLFEADFSKGFSRYDNSAVFPTGAQP
+QPVVDRLDVGVKQGYVEESNVDPITEMTQLITVSRAFENITALMRDGETSLGEAIKTLGG
+ART
+>tr|A0A1Q9AMH7|A0A1Q9AMH7_9RHIZ
+MEVITGIVELRQRLMIQRKTGRSIGFVPTMGYLHQGHMTLVARARAENDLVVVSLFVNPL
+QFGAGEDLAKYPRDLDRDAALLTENEVDILFAPGVEEMYPRPMATVVDVPELGNVLEGEA
+RPGHFAGVATVVTKLFNIVQPRRAYFGQKDFQQLQLIRRMVEDLAQPVEVIGVETVREAD
+GLACSSRNVYLTTDERRAALVVPRTLDEAARLMAEGMTDVAALEAALGDFVRAEPLATPE
+VVALRDPETLQRPERIGEGPVLLLLYIRIGATRLLDNRVYEPAQLMAAVA
+>tr|A0A1Q9AMX0|A0A1Q9AMX0_9RHIZ
+MALSIGVIAQSAVTRRTMARRRLAAPLPSCRDGDLASRRSFLHAVMIFSLFRPGFSVGFG
+LKPCMQLLL
+>tr|A0A1Q9AE92|A0A1Q9AE92_9RHIZ
+MDQGIGDSPRCPSFNTALHFMAAAAQEGVCGLGRGQGRGLGAGDMMGLALLRMRLACRFR
+HGGDDAALASKGLRTKRDG
+>tr|A0A1Q9ANM9|A0A1Q9ANM9_9RHIZ
+MVLQQKALQDGATFTLGDRTVKRLGYGAMQLAGPGVFGPPKDRAEAIAVLREAVESGVDH
+IDTSDFYGPHVTNEIIREALHPYGDGLVIVTKVGAVRGPDASWNPAFSAEDLTRAVHDNL
+THLGLDVLDVVNLRAMFDVHGPAEGSLEAPLTALAELQRQGLIRHIGLSNVTARQVEEGR
+KITEIVCVQNQYNLAHREDDALLDALAEKGTAYVPFFPLGGFSPLQSSLLSRVAARLGAT
+PMQVALAWLLQRAPHILLIPGTSSRAHLRENLAAADLVLSAEDVAELDGIGATSEG
+>tr|A0A1Q9ACA9|A0A1Q9ACA9_9RHIZ
+MPYKMSRAAYAGMFGPTTGDRVRLADTELFIEVEKDFTTYGDEVKFGGGKVIRDGMGQSQ
+VTRAEGAVDTVITNALIVDHWGIVKADVGLKDGLIVAIGKAGNPDTQPNVDIIVGPGTEA
+IAGEGKILTAGGMDSHIHFICPQQIEEALMSGLTCMLGGGTGPAHGTLATTCTPGPWHIA
+RMIEAADAFPMNLAFAGKGNASLPGALTEMVLGGATSLKLHEDWGTTPAAIDCCLSVADE
+YDVQVMIHTDTLNESGFVEDSIAALKGRTIHAFHTEGAGGGHAPDIIKICGQPNVIPSST
+NPTRPYTVNTLAEHLDMLMVCHHLSPSIPEDIAFAESRIRKETIAAEDILHDIGAFSIIS
+SDSQAMGRVGEVAIRTWQTADKMKRQRGRLKEETGDNDNLRVKRYIAKYTINPAIAHGLS
+HAIGSIEIGKRADLVLWSPAFFGVKPDMVLLGGMIAAAPMGDPNASIPTPQPVHYRPMFG
+SFGKARTNSSVTFVSQAALDAGLAARLGVSKKLMAVKNTRGGIGKASMIHNSLTPVIEVD
+PETYEVRANGELLTCEPATVLPMAQRYFLF
+>tr|A0A1Q9ALC2|A0A1Q9ALC2_9RHIZ
+MSISKILVANRSEIAIRVFRAADELGLKTVAVWAEEDKLALHRFKADESYLIGRGPHLAR
+DLGPIESYLSIDEIIRVAKLSGADAIHPGYGLLSESPEFVDACDAAGIIFIGPRPDTMRQ
+LGNKVAARNLAISVGVPVVPATDPLPEDEAEIHRLAEEIGYPVMLKASWGGGGRGMRAIR
+DPKDLLREVTEAKREARAAFGKDEVYLEKLVERARHVESQILGDTHGNAVHLFERDCSIQ
+RRNQKVVERAPAPYLSEAQRKELADYSLKIARATNYIGAGTVEYLMDADTGKFYFIEVNP
+RIQVEHTVTEVVTGIDIVKAQIHILDGFAIGTPESGVPPQEQIRLNGHAMQCRITTEDPE
+QNFIPDYGRITGYRSAAGFGIRLDGGTAYPGAVITRFYDPLLVKVTAWAPSPPEAIARME
+RALREFRIRGVATNLTFLEAIISHPKFRDNSYTTRFIDTTPELFQQVKRQDRATKLLTYL
+ADVTVNGHPEAKGRPRPVPGIAKPVVPHVEGAIADGTKQKLDALGPKKFAEWVRAEQRVM
+LTDTTMRDGHQSLLATRVRTYDIARIAGTYATALPELFSLECWGGATFDVSMRFLTEDPW
+DRLARIREGAPNLLLQMLLRGANGVGYKNYPDNVVKYFVRQAAKGGIDVFRVFDCLNWVE
+NMRVSMDAVAEENKICEATICYTGDILNSARPKYDLKYYTALAGELERAGAHMIALKDMA
+GLLKPAAARILFKALREATDLPIHFHTHDTSGIAAATVLAAVESGVDVVDAAMDAFSGNT
+SQPCLGSIVEALKGSERDPGLDTEWIRRISFYWEAVRHQYAAFESDLKGPASEVYLHEMP
+GGQFTNLKEQARSLGLETRWHQVAQAYADANRMFGDIVKVTPSSKVVGDMALMMVSQDLT
+VADVESPEKDIAFPESVVSMLKGDLGQPPGGWPEALQKKALKGEAAYTVRPGSLLEDADL
+DAERKVIETKLERPVNDFEFASYLMYPKVFTDYALAADTYGPVSVLPTPAYFYGLATGEE
+LLPELERGKSLVILHQAKSEPDEQGMVKVFFELNGQPRLIKVPDRNRAATSIARRKAEAG
+NAAHLGAPMPGVISTVFVSTGQAVKAGDVLLSIEAMKMETALHAEKDGTIAEVLVKAGDQ
+IDSKDLLIVFG
+>tr|A0A1Q9AEA9|A0A1Q9AEA9_9RHIZ
+MRTILTAAALSLMASAAMADTTTITVQYAYPELFDTTQKEMLEAFSKKHPDIKVEFRTPY
+KDYEDAAQRVLREGITGNVPDVTFQGLNRVRVLADKEIAVPLDDFIANETDFDAAGYHDG
+MRQAGAVDGKVYGLPYAISLPIVYYNMDLVKKAGLDENSLPKTWNDIIALAKKIEAQGEA
+DGIETEWAITGNWLWQALVFANGGTMLNEDETKVAFDGEAGKQAIGTLARLVIEAQSPNM
+TPNEMLAAFSAGKIGMMVTTTARVNAVTKQIGGKFELKTGNYPDLKEGVSRLPAGGNVAI
+ITAKDKDKQKAAWEFLKFATGPEGGAIMVKTTGYMAPNTKAADLLKDFYAENPNQAVALS
+QLPYLTGWYAFPGDNGLKITDVIKDRLQSVMDGSRAEEAEAVLADMAADTQALLPRR
+>tr|A0A1Q9AEQ8|A0A1Q9AEQ8_9RHIZ
+MVNDVQFDGALAQTSAPVADAYRRAVRHSQRVRRLKIVLPIAALVIAAVFLVVSVAHTFL
+PEHLNIESATIEDGKIVMQSPAISGRNPQNISYSMKAQRALQDIANPDQITLENIQAEMP
+VNDTTIATVNAKSGIYDRGKNTLDMNAPFTVSMNNGLLAEFNSAYLDINAGEMRSDKPIA
+VRLNGGSIVAKKLDMTDKGHNIIFEGDVKVVVDPSALRKTLN
+>tr|A0A1Q9AG27|A0A1Q9AG27_9RHIZ
+MEDLIASNGSRFLFAVTIVGLALGALVGVLWLLKHRGTASGLLRGARLREQRLAVLESTA
+VDARRRLVLVRRDDVEHLLLIGGPADLVLESRPLGAQTTTPGIFGLEARAGLPAGVPEPD
+ATPAGAQGKAGDGPDGGRAEAARSERSSLAATAPVAASGRAEHRDVPQAPPELGGREWDL
+EGHMPRAARNEGQSPAQPATTLTSPALPAMAAPTAAMPLDSSHDHAIDHPAALPSSQPLT
+PAPSAAASSPTPPDRLRAAPITDPLDVLFPQEQKEDEASRAAALARRFAPFDDEEDAEEA
+FAPQRPAPPAAHPATVAQPAAGRPLQTMDPLDALFPPETATPETGVAAAPQAVFSPLQEP
+SQALEEKPWDDSLRPAPRQAAPQIVAAAPVARDLPFQIDPPSAPPATDPPPSDPLDMLFP
+QTPSTGWPDETTATADGAAHERGEVLRAMDHAGINRAAGAARAPARALGDAASLLPPAAP
+DLTATAPAGRPRPLPSRAAEPALSGAPATVEDAPPPSEAPPLSRRPAPLAPARSAADDQR
+ARGLGETTGPAAERPADEGQRAPLSPMPKPSREPASAQQAATVTPSMPDGERAKTETAAI
+RPPATASSAIRPATAEPPTPAPATPDETAPAVPGAAAAEFAQKLANERRMPFEQRLARAA
+AQRAAEAARPRTPPVSAMGQVLYRDAETTSPAAAPTPARLPPRPEPATVAPVRAATAEAA
+KAPPAQGGDPRSAADILDAARDRVLPAARPRPPRIAEQPVEAQSLKEQLVQEKPSAPPGS
+FASILAAGADGKGSPVTSPPASSAQSAATPSAPASSPTPRASAARPTAPRATATQPMPRA
+TPTAPPKSS
+>tr|A0A1Q9ADV1|A0A1Q9ADV1_9RHIZ
+MPPLHRKSKILRRSRILWASPALWRPRLVFWCGALAIGLVSVAFAKLADLAQHLFGRITA
+AGPHGDLVPLLLTPAGFALSAYLALRFFPNSQGSGIPQAIAARHLHEDRDRQRLLSLKVA
+FGKVMLTLLGLFSGASIGREGPTVQVGASIMLAVARFGGMAQARGLILAGSAAGIAAAFN
+TPLAGIVFAIEEMGRAYEARSNGLVLTAVILSGLAALGLSGTYTYFGLASIGPASAREWL
+LVVVCGVAGGALGAGFSGFALSLGRRIRRWMQPLPLRRSVLLAAGCGLAVALIGLASGGA
+TFGTGYEQARGAIEGQALPPFFFLEKLLASFLSMISGIPGGIFAPSLAVGAGLGSSLGLA
+LGTSITLAATLGMAGYFAGVVQAPMTAFVIILEMTGNHDGVIAIMGASMLGYLTSRLLQS
+EPLYHGLSRSFLAAAMRQSRAEEQEARPDTAETGAEDPRPVKKSDA
+>tr|A0A1Q9AEU7|A0A1Q9AEU7_9RHIZ
+MGSTRHFLDLSAMGAEDLRSIIDDARIRKAATKQGTDDKPLAGKMLAMIFEKPSTRTRVS
+FDVGMRQLGGETLFLSGTEMQLGRAETIGDTARVLSRYVDAIMIRTTDHSRLLELAEHAT
+VPVINGLTDATHPCQIMADIMTFEEHKGPVKGRTIAWTGDGNNVLHSFVEGSARFGYRMT
+MATPLGSEPDDRFLNWARDNGGNVMLCHEAERAVEGADCVVTDTWVSMNQEHRARGHNVF
+QPFQVNAALMARAAPGAVFMHCLPAHRGEEVTDEVIDGAQSVVFDEAENRLHAQKSVLAW
+CLGAI
+>tr|A0A1Q9AMX5|A0A1Q9AMX5_9RHIZ
+MEESLMAHLLASTDLTAIVGQRIRYGRASQTDARPFVVLQVVSGSETYTMAGPSGYRVSR
+LQVDCYAESYATAKRAVRAVRAALSDFREGGIQGVFIDSERDLPAADAGNVSTLFRSSID
+INVHHGESS
+>tr|A0A1Q9AME5|A0A1Q9AME5_9RHIZ
+MSEAKGKPQVSIVVAMAKNRVIGRDGGMPWRLPTDLAQFKRLTLGKPVIMGRRTFESLGR
+PLPGRDNIVISGKADLVLEGAEVVASLEAALALAERRAEARGAEEIAIIGGGQIYAQALD
+HAEVLYVTEVEAEPEGDTLFPEISPDRFQKIDEAPMPRGEKDSHAMRFVIWRRQSTGC
+>tr|A0A1Q9AMU6|A0A1Q9AMU6_9RHIZ
+MTTLIIDRRGNVPVPASPLPAMVDPFGRAISYLRVSVTDRCDFRCTYCMAEQMTFLPRKE
+LLTLEELERLCSAFVARGVRKLRLTGGEPLMRRNVMMLVRAMGAHVQAGRLEELTLTTNG
+SQLTRFADELAECGVRRINVSLDTLKPDLFRTITRRGDLGPVLEGIRAAQAAGIRVKINA
+VALKGINDAEIPDMLRWAHGEGMDLTLIETMPLGETGEDRTEHYMPLSEMRARLAERFTL
+IEDTYRTGGPARYLRVAETGGRLGLITPMTHNFCESCNRVRLTCTGTLYMCLGQEDAADL
+RGVLRATPDDAALHAAIDEAILRKPKGHDFVIDRARRPAVSRHMSVTGG
+>tr|A0A1Q9AFB7|A0A1Q9AFB7_9RHIZ
+MPILNRAAELAPDVTEWRRALHRKPELLYAVEETAAFVAEKLKDFGVDEVVTGLGRTGVV
+GLIRGTLGDGPTVGLRADMDALPMTETSGKPWASQVPGKMHACGHDGHTAMLLGAAKYLS
+ETRRFRGAVAVIFQPAEEGGAGGREMVKDGMMERFGIREVYGMHNMPGMPVGHFGTRVGP
+IMASTDEFAITLDGRGGHAAQPHRTIDPIVIGAQIVGALQTIASRTADPLSSVVVSVTKF
+NAGFAHNIIPEQAVLAGTVRSLKDETRDMAEARIRALAEGIATAHGATARVRYERNYPVT
+VNHAEETQHALEAARAIAGPAQVAGTIEPMMGGEDFSYMLNARPGAFIFIGNGESAGLHN
+PAYDFNDEVIPHGISYWVRLAESRLGSQ
+>tr|A0A1Q9ADM5|A0A1Q9ADM5_9RHIZ
+MIKPDRTQPERTTLFSRIAVIDIGKTNAKLVVVERGSGAEIAARRMPNRVLTDGPYPHYD
+TDALWRFILDALGALFRETGFEAISVTTHGAAAALLDAEGALALPVLDYEHAYPQEIRAD
+YDRLRPDFAETFSPRLPGGLNLGAQLHYQKRSFPDDFARVERIVTYAQYWAGRLTGVFAT
+EVTSLGCHTDLWRPREGGFSSLVDRLALGDLIAAPRPAFDVLGPVLPDIAAGLGLPGSLP
+VFCGLHDSNASLLPHLMTREGALSVVSTGTWVVSFAVGGDLDHLDPARDTLANVDALGRA
+VPSARFMGGREYERLTADLPPVSAPEIAAAVPGLLARGIMYLPNAVPGSGPFPRRQGGWR
+SETGVSDAERHAAIALYLALMTASGLALLGRRGPILVEGPFSANETYLAALSGVTGAEVL
+ALGSSTGTSAGAACLAGGPAVPAQARAVAPLPMDAYAAAWRAATLV
+>tr|A0A1Q9AKL4|A0A1Q9AKL4_9RHIZ
+MFAAARRNELGSYGPRVTLLEKLSASHARIEQCFLKAGETLVSVMEIVGALVSALDQFTS
+SLGGDAIKDTIADLRKSVADLASLPETAAARQKAFDDIAQLCAQTVLQVEDMRETFRYLR
+TFAISVKITGAGIDEFAGFADEIRERIQSGAREIDSFAQQLGAMNGELGKAKNFADGVLS
+DFQATIPAIIASLDRSALLLAQERKEMSAIADDVRHTANQVQSKIASVLSALQIGDITRQ
+RIEHVRDSFKITEEFTASTDGRSLTPEERWDIERAVFALAVAQIDQMLEDFREKSASISS
+IIASFAQDATQMLSQRERLGSFSANADKNVLKAMERDIGHASTLAVDIQARGSESDKLVA
+RVSESVQALLSGIDVVRGIKTDIHYMALNSNLRCSRLGDAGRAVNVVSGELRTFAGRLED
+PANALMAGMQAVKAVAGSLLVTHEDGRAHDVVLPLREALEAIKAASQSMDAGLRDVTEQG
+GAVFGRIMAAVKSLDFESQLGAVLADSADIARKVMEQQGVPDQLPPVAEIVGSKIFAIYT
+MVQERQIHIAILPGSTLEAAAEAPAAQSDDDFLEDALF
+>tr|A0A1Q9ADP1|A0A1Q9ADP1_9RHIZ
+MAIDPDGRSLAKDTLPLRFGVLLVAVIALAATVPAKAETVLERAVREAEPCKALKVNIGF
+TPIGIDNVEEVRIDTFQLSADGHKGHAKLIGLLACKTSEQAFLHSDASAKIHVEAAFDLQ
+SCEIAQLEAHILETGGSFKSAVDLLARSIEKSLQDGMSSQIAKLCR
+>tr|A0A1Q9AH85|A0A1Q9AH85_9RHIZ
+MGLPLLSRLSVAAALSVAAAFGAQAQTQQPPAPQPSAPSAPASPQTNAPGTVKSNHGAWS
+IVCDQPAGASGEQCALMQNVIAEDRPEVGLSVVILKTADRKAKILRVLAPLGVLLPNGLG
+LNVDGKDIGRAYFVRCFNDGCYAEVVLEDELLKTFRSGQTATFIVFQSPEEGIGIPVDLK
+GFGEGYDALP
+>tr|A0A1Q9ALX0|A0A1Q9ALX0_9RHIZ
+MTDNEDHNDRQSGGIQSLDAALKLLNAMRAYPGPVALSELARDCGMPPSKAHRYLTSFAN
+AGLVVQAGRSGKYDLGHGAVMLGLAALARHDFVNRASDVLPELCQETGLTVLLSVWGTHG
+ATVVRWERAATPAVTSMGLGTILPLLNSATGRAFLAWAPPAPLKDIRSAELREARRTSAT
+AGQRIVSDKDIEKLVAETRERGYASVEGRYIPGLVAIAAPILDWQGEAQAVVTLIGTDPE
+VMQPESGSTKSLIACCQRLSYAKLA
+>tr|A0A1Q9ACL0|A0A1Q9ACL0_9RHIZ
+MGFQPRMHNRIEGFSILGGLKRLSFPGMTADLWDVACAPEAGGFYLGEDPRLFIVLSATG
+DERRSLRLSAPGLEAAEAGPNLSPSLSYVPAGLGLRGEMRAVRTLRHLDLHIGREALAER
+LGEGTDPRALSIPRLLQPSPELLPVARLLAVECEAAQPLLPLYAESLALALLIGLLRLPA
+PAAPMRAGLAPWALRRVVDFIETHCQRAIRLEELAGLAGLSPSHFCHAFKASTGMGAHRY
+QMEARLARARTLLKAGRLSISEIATETGFADQAHFTRAFRHLSGTTPARWARLHRDT
+>tr|A0A1Q9AE42|A0A1Q9AE42_9RHIZ
+MSVLSTLSPRALQAPESGIVEVVNYARGREGLIPLWVGEGDQPTPDFISAAARDSLTAGE
+TFYTWQRGIPPLRQAIADYHARHFDARLSADNVYVTASGMQAIKIAIEALTGPGDELLYL
+TPTWPNFAAAAAISGGVPCAVPLSFAEGGWQLDMARLVDAITPRTRVLFVNTPGNPTGWT
+ATREDLAQLLDLARRHGFWIVADEIYARYAYHAPRAPSFLDVMEADDRIVFVNSLSKNWS
+MTGWRVGWIVAPAELGQVIENLIQYSTSGVAQFIQAGALAAIETGDAVVSRNLALARRSR
+DLFLDALIATNRVETRKPDGAIYAFLKIDGVEDARAAAIDIVDRTGVGLAPGTAFGPGGG
+NFLRACFLRDPAQMQEAAARLSEYILRL
+>tr|A0A1Q9AGZ4|A0A1Q9AGZ4_9RHIZ
+MPDLLLELRSEEIPAQMQRKAAGDLRKLVTDALVEAGLTYEGAREYWTPRRLTLDIRGLT
+ARSADQHEERKGPRVDANEKAIEGFLRGAGLASISEAHVHRDPKKGDFYVAHIVKPGRAA
+EEVIAEVMPGIIRNFPWPKSMRSGVASARPGALRWVRPLQTILCTFGPENEETQVIPFEV
+DGIVASNLTAGHRFHAPDLFTVRRFADYVEKLERAFVVLDADRRKDMILHDARDLAFASG
+LELVEDEGLLEEVSGLVEWPQVLMGSFEESFLSIPAEIIRLTIKTNQKCFVTRPQGAEAG
+TLSNRFILVANIAAKDGGAEIVHGNGKVVRARLSDAKHFWTRDQGNLPDLHALKPSAEKF
+GLDLAKPLDQRMAKLDALNVTFHAKIGTQGERVQRIRALAAKLAAVTGADAALVDRAAVL
+AKADLRTEAVGEFPELQGVMGRKYALLQGESPSVAAAIEDHWKPNGPSDRLPEDAVGLTI
+ALADKLDTLACFWAIDEKPTGSKDPYALRRAALGVIRMLLERKIRLPLLDTFSYAVLGRA
+LSNEERDSIAIESTLDITRLVVSVNRKSDITWDEFSSVFLKGSLLSFFHDRLKVYLRDLG
+ARHDIIDAVLTPEADDLLMVARRAEALTAFITSEEGRNLLAGTKRATQLLAAEEKKGAAV
+AASVDPALLTLDAEKTLHTAVVTAAAEAAKAVAAEDFRVAMEALSALRGPVDRFFDDVLV
+NDENPAIRANRLALLGQIRAATGTVADFSKIVG
+>tr|A0A1Q9AFV1|A0A1Q9AFV1_9RHIZ
+MNAKTLPLIATLVIFIAAFAICTLQYPTMLSTRVIGNLLTDNAFLGIAAVGMTFVILSGG
+IDLSIGSVIAFTSVFLAVMLEGTSIHPLLAFVLALAITTAFGALMGAIIHFLEMPPFIVT
+LAGMFLARGMAFVLSIDSIPIRHPFYATLKSAYWVMPGGGRLTLIGGAMLLVFLAGIIIA
+QRTRFGTNVYALGGGAHTAALMGVPVGRTTIGIYALSGFVAGLSGIAYSLYTSAGYSLAT
+VGVELDAIAAVVIGGTLLTGGAGFVGGTLIGVLIQGLIQTYITFDGTLSSWWTKILIGGL
+LFAFILLQKGILSLSSGRRRLTMKGA
+>tr|A0A1Q9ALT9|A0A1Q9ALT9_9RHIZ
+MTRIRITLEGVGALDEWRQAARGLIARAIPPEAVDWTSRRDATDLFADSKGLSGSAPLST
+VQAATDAPRPQEAMPSFAVPRDFITLAEAVLCHSDPSRFDLLYRLLWRLRGQRDLLADVS
+DPEVARALALAKSVRRDAHKMTAFVRFKELAPDETGSDGNRRRFFAWFEPDHYIVARTAP
+FFERRFNDMDWIIATPKGTAAWNGERLSVTHDSHETVPRPNLTDDADGLWRTYFRNIFNP
+ARLKVKAMQAEMPKKYWKNLPEAALIPELIAGAEARVREMAARAPTHPPAFHAGAGRKAR
+ENVVEGEAPPEGTIEALRSAAASCTRCPLHCNATQTVFGEGPDDAKVMVVGEQPGDQEDL
+AGRPFIGPAGRMFDKIAHEAGLARDVLYVTNAVKHFKYEPRGKRRLHKTPNAGEIRACRW
+WLTGEIAIVKPKLIVAMGATALTSVMNHTEKLADHRGRFTELGEGRTLYTTVHPSYLLRL
+PDEARRQEEIARFRADLAAVKEAQARL
+>tr|A0A1Q9AMH9|A0A1Q9AMH9_9RHIZ
+MTINLQKPDITELKPRITVFGVGGGGGNAVNNMITAGLQGVDFVVANTDAQALTMTKAER
+IIQMGVAVTEGLGAGSQPEVGRAAAEECIDEIIDHLNGTHMCFVTAGMGGGTGTGAAPVV
+AQAARNKGILTVGVVTKPFHFEGQRRMRLAEQGIAELQKSVDTLIVIPNQNLFRIANDKT
+TFADAFAMADQVLYSGVACITDLMVKEGLINLDFADVRSVMREMGRAMMGTGEASGEGRA
+MAAAEAAIANPLLDETSMKGAQGLLISITGGRDLTLFEVDEAATRIREEVDPDANIILGA
+TFDEDLEGLIRVSVVATGIDRTAAEVADRNASFRPVAQKAARPAAAQPAPQVAAPAAAVV
+AQPAPVMQQPAAPAPQQVDAVAQAIREAEIERELLIQQRAAQLAAAPAQAAPAEEFRPQS
+RLFAQPAAAEQPQAYRAPAPEAPVYQPQPAPVAAQAPRFEAPRYEAPRQEPVAPVMRQPM
+PEPVRMPKVEDFPPMVKAEAERRAQPAPQPEERGAMGLLKRITNSLGRREEEDSSVSADM
+TAGAPSAASQQRRPLSPEASVYAPRRGSLDDHGRMAAQPRSHEDDQLEIPAFLRRQSN
+>tr|A0A1Q9AHD0|A0A1Q9AHD0_9RHIZ
+MSREEWRRSRQGKKATDSRCGRTIEATPVCGQTCQIEAAVAAPDEDRIEKDVENGGHRLI
+SPSA
+>tr|A0A1Q9AN76|A0A1Q9AN76_9RHIZ
+MVLPSFPSPSFSLARLARAREGIAAVEFAFIAPLFVLLMAGVSDVSLFIIKRMKADAAVS
+SAANQALTSGAGLTSSTADSTANLLAAILRAPDPGGTARILINGSRQYDVTATTITASGP
+ASAADECRCPTSSGGTITWGGAVSCTSTCASGAPAGKYVSIAYNRPYKTMFPNYGVIPGN
+GITIQTAAQVQ
+>tr|A0A1Q9ADY5|A0A1Q9ADY5_9RHIZ
+MAAEEDFLPALGGRWTGGGTVITRIGSAPIRVTCDFDSKASARALAMSGRCRGLLVVRRA
+VSADITRAGARYAGSYTGPSGRPAALSGRRSGDSLDFSVRWSREINGDREARMTIRRIGQ
+NGLQLRTLDRDPKTGKTVVTSDLTLRR
+>tr|A0A1Q9AFM0|A0A1Q9AFM0_9RHIZ
+MKVRPTGPIVPASNVSGRALMLVIAIMAFLACITLGAVMMVRATAESWQSQISREITIQI
+KPAEGLDMDKALEEARNVALSFAGTRDGTIVDRAATARLLEPWLGPGLNLDELPVPRLVV
+VTIDETAPPDFAAMRARLSEVLPQAILDDHRTWVDRLVAMAHTTALIGTGVLVLVFSAMV
+LTVVFATRGTLSGNRHIVEVLHFVGAEASFVASEFQKHFLKISLKGSGAGGILAALCFLA
+ASWWQQRSMATPQSDQATALFGTFTIGYTGYLGIVATMILIALLTTVTARYTVMRTIYEI
+DLIRSDPGRTDAFQD
+>tr|A0A1Q9ALC8|A0A1Q9ALC8_9RHIZ
+MRRGLVPGLLALLFLAGFVGLALIALLTADAGLPASSASAAAWFDVTVWRSLRFTLLQAG
+LSTLLSVGLALPVARALARRPCFAGRIWLVRLMALPLGLPALVAALGLLGVWGRQGVVNQ
+ALAWLGLSDPVSIYGLTGILLAHVFFNMPLAVRLFLGGLERIPAEHWRIAANLGLGPFAL
+WRFVEWPVLRGLLPGVAGLVFMLCATSFTLVLTLGGGPAATTLEVAIYQALRFDFDPARA
+VALSALQIGVTLALLMALRLAAPAPEEGLTAGRASRRFDGAGWSARLADAAVLALAALFV
+AAPLLSVTLSGLAARPLRLIAEPVFQRALLTSLSIAAASAALSVLLSLSLISTRLAAQAR
+RHRPLSLRLLAAATDSAGSLVLLVPPVVLGAGWFLLLRPFGSVGPFAPVIVILINALMAL
+PFAIRILAPALATHRARTSRLAESLGLSGWNRLRRIDLPCLARPLMMALSFAAALSLGDL
+GAVALFGSQDLVTLPYLLFSRLGSYRTQDAAGLALLLGLVCLLLTMIGTPATMTSPHRIK
+EDR
+>tr|A0A1Q9APQ5|A0A1Q9APQ5_9RHIZ
+MFHSFFPKPKLFFTSLILWTLVCIALWYGFAADWGASLGYVPPPEGQMPIGLGFFVTPDN
+RWFYAYFIVAAVLFCSVWTVLARNHRWINWSIWGSALIIFSTYFGVQVYVAINNWRRPFG
+DLLQNALTGKPGITVGDFYSLMLVFCQIAFLSMFVSIITDFFVSHYVFRWRNAMNDYYIS
+RWEKVRHIEGASQRIQEDTMRFANILEGLGVSLINSVMTLIAFLPILFALSTYVTTLPII
+GEIPHTLFWLAIGWSIFGTALLAIAGIKLPGLHFRNQRVEAAYRKELVYGEDHADRAQPP
+TVAELFSNVRRNYFRMYFHYLYFNVARYFYLQADGLFVTFMLVPTIVAGKITYGIYQQIA
+TAFGQVSNSFQYLVNSWTTIIELLSIHKRLKAFEAAIDNQPLPSIDERYLKGESGEQQAP
+AAP
+>tr|A0A1Q9ADJ8|A0A1Q9ADJ8_9RHIZ
+MNELLTKLAGLSPERRALLERKLLERGMALSDRILPRADLSAPVPLSSAQKRLWFMQQLE
+PETVAYNMNLALSLAGPLDRAALERAFAALVARHEPLRTRFTQGADGQPQQIVEEAPALA
+IAYQDCRGKLDPDAAARRHVAALVATPYDLTRPPVRACLVAIRPDEHVLVLGLHHIISDR
+WSMGLLARDLSAFYRAEVTGAAASLEELPVQFADWALWERTRLASPEAARQLAEQALRLR
+GDLPVLELPLDRPRSPTAQFAGAHHPVRVEPALALALRALAAERNVSLFTLLLTAFNVFL
+HLLSDSDDIIVGSEVANRDRPETQAIMGPLVNTLVLRSDLSGDPTFSALLGRTAEAVRQA
+LAQQDIPFERLVETVNPERSLSELNPLFQVKFDIQHSVTPPSELHGLTLAPYPLEEIATK
+YDLRFNLEDRQPDIAGRIEYSRKLFDPETIAQMFAGFERVLDLIAEAPERPLSRFSLLDA
+ARERAIIAASAGPLRDFPEDACLHDLIRVQAEATPDAVAVTDGTVTWSYATLAAQSARIA
+AALMAEGVKPGDRVGLCMRRSPRMIAVLFGILEAGAAYVPLDADYPASRLAFIASDSGID
+RVLSDHRPAFLSMELATKLRLIDVNDLPDSPLPPRAKTRPDDLAYIIYTSGSTGVPKGVA
+VEHRSVVAFLRWAQERFTREDVAFTFVPTSISFDLSVFELYAPLVRGGALVVADHFLALA
+SLADKVELTLVNTVPSLLQAYLQEHRLPDSLRVATFCGEPLPAALVDALKRDYPRLAIHN
+LYGPSEDTCFSTEVALHGDRYTGGVVPIGRPLPETRAYILDRCGRLRPPGLSGELYLAGA
+GLARGYFGRPAQTAERFLPDPFSGHPGARLYRTGDRVRRRRDGLMEFQGRLDHQVKLRGL
+RIETGEIEHHLERLPGIEKAVVTVTPGADRQLAAFIEPKDGATLREEDLRRALSADLPSH
+MVPTLWCLVAHLPQQPNGKIDRAALPALLPAAEQSAAPPETAMERRVAEAWSAVLPGEAE
+RSLGDHFFRLGGHSLLAMRMIARLAIDLPTRDVLRTLFAFPRLKEFAAALEAAGGTARQA
+RIVALEDGTRPPLSYAQQRLWALSELEPDSVAYNIPAALRLRGPLDREALAQAFEGLSLR
+HAALRTRILTRDGRPEIVVSDRAELDIATIEAREDALPEHLSAESNRPFDLARGPLFRAR
+IIALGAEDHVVLVVIHHIVSDAQSIAILLREAMALYEAGPEGVARLPALPLGYGDFAAWQ
+RRQDFAPSLESWRRQLEGAPPLLDLPTDFPRPARQDHRGGSVRFALAPDVTAALLQCARQ
+ADATPFMAMLSAFAGLLSRYCGSPDVVIGTPISQRPDPALDNVVGLFVNTLALRLVHAPT
+MSFLDQIAQVRAHVIEAFRHQDVPFECLVDALAVSRSGSHNPVFQAMLNWQSAETPARLP
+AGLTGEALVLAQETAKVDLSLDVRQAGDGLSCNLIYRSDLFRRETIVHMAEAFETLLRGL
+LAAPATPQGRIPFLPEAQRRQIARWNDTARIQDPEITRLHSFFERSACRLPEAIAVTDRA
+RSLTYAALDHRAGKLAAALVARGIGPGSAVGICLGRTVDLVAAILAVLKTGAAYVPLDPN
+YPRERIAFVAADARLALLLTQDARADFRAYATLDPAAVWEDATGDHPAPARESAASCRDL
+AYLIYTSGSTGKPKGVAIEHRNAVAFVHWALETFPAESFAGMLASTSVCFDLSIFEIFAT
+LAAGGRIFMVEDLFELADAAFADEITLINTVPTPMMELMRFGPLPPRARTVCLAGEPLPE
+SLAEAILADGAVEALYNLYGPSEDTTYSTGCRVQPGEPIHIGRPIANTTAHVLDEAFHEV
+PIGAPGELYLAGAGIARGYHDRPDLTAERFLPNPFASSGDHPLLYRTGDRVRRRADGNLD
+YLGRADRQMKISGFRIEPGEVEAVLMRHAAVTGAAVDAWRDETGHARLAAWVETAGEVAI
+SDLTAFLSERLPRHLVPVLIARIDALPRLPNGKLDRKALPDPSRPDPSHADPSSKEPATS
+ARKTPRPGTESRLAAIWEKLLGRSGIGREDNFFALGGDSILAIQVVAEARKQDLILSPRD
+LFLHATLAALAAATSIGKVEAESGPVTGAVAIGPAQAWFFGQAFAEPDHWNQALLLKPRQ
+PIDASELRRALDHLHGAHDALRARFAHQDGAWQQSYGLVEAAPRLHHVRCGQADAAERLA
+ETMHSLQRGFDLETGPVWGASLIEIEGGEQRLALAAHHLVIDGVSWRILLDDLATALQTG
+RNAGTRPALRRTTSFGQWIQRLAQTALFDGEFDDWSDIATAPADRLPRAADGGNRVADTA
+LVVRTLDEEATVDLLHAAPSAYPIRPEELMIAALFSAVRAWTGARRLRLILESHGRSDLF
+PEVDLSRTIGWFTAFYPVLLQAETEAQPRALLLRVKESLRRIPHDGLGYGVLHHLKGRRL
+PVLEEIAEIRFNYLGQTDSLFSGDALFTRADESVGETRGAGNGRGVLLDINAIVSGGRLR
+VSFAYSCALHDRETIEALAARFEEALAELTALCLTSPEPGYTPADFPHMAIDQADLEAIL
+RQL
+>tr|A0A1Q9ACT6|A0A1Q9ACT6_9RHIZ
+MFGQRIVKVGVLHSTTGTMACNEAPLVDMLRIEIDKANEAGGLLGCRIVPVMLDPGSDWL
+LYGQHARTMIRDHGVAAIFGCWTSTSRKAVLPVVEEEDCLLFYPLDYEGEEQSPNIFYLG
+GTPNQKLFPALEYFLSAPGGAFNRFFMIGMDDNYPRAINRMMRAFLDAKGLSTAQMPERY
+VPFSHRDWQQEIEAIAAFRERGRGVIVSTILGDANARFYSALQAANFDMQDLPVLALSLN
+ELDLTTLGSSATSGLHACWNYFMAHRTPENRAFLEDWNRATGGGKRVYDAMVATRTGFRM
+WLRAAAGAGTTRTAAVRQYMLGRTEQGLDGETITMGINHHVDMGMSIGRANAAGSFDIVW
+QSVRPLRGNPWAAEHIISETKAVTAQRELLDALPTPLIVIDETGLLRYRSASTDDYFGKD
+IAPDYLDALRQAAGDAAAEGLDGDTPVAEIVVRTPSGDLHNLTVASRRIVFAGVPSQLLS
+LADVTYIRRIEATLRLMNADLEHLATTDGLTGLFNRRYFMEKLAEHIALCQAENRQAGVL
+LIDLDHFKSINDGFGHAVGDTALVETAHRLSRERGEQDLIARVGGEEFGVILSARTSEET
+EQAAERLRAAVAAVRLQAGGATIALSCSVGMTMCGMAGDSPEAALRRADDALYAAKRDGR
+NRVVFSRSA
+>tr|A0A1Q9ALV4|A0A1Q9ALV4_9RHIZ
+MSSTGTSPRAVAQAYFDHWTAGRFEAAAALLAEKIEIETPINAYPNKADFVAALSGFGTL
+VTGANRLVDLAEGDDVVQIYDMNVSGLGVIRMTEHFVIQNGLVIRLRQIHDTAALRAAGF
+ER
+>tr|A0A1Q9AES8|A0A1Q9AES8_9RHIZ
+MNAYMNMAIGAFLGVVFVLMSISIASEGLFHSEAPEKPGFAIAADEPAASGESAGAEAAE
+VDIKPLLAKADASAGETIFKKCAACHTVEKGGPNKVGPNLWGVVERPIASHEGFSYSAGM
+KTFAEANKTWTYDHLSYFIEAPKKHVPGTAMGFAGLKKPEERASLISWLRGHADQPVPLP
+GGEAPSQ
+>tr|A0A1Q9ALZ1|A0A1Q9ALZ1_9RHIZ
+MKYDFSTLSADEFEDLSRDLVGADLAIRFEAFTVGTDSGIDGRHAVADGSIVLQAKHYFR
+SGFSKLRSKMKEERHSIDELNPKRYVLATSVALTPANKDALAELIGPSLLSTGDIFGADD
+LNALLRAYPEIEKAHQKLWGQNTSVLEEVLSSVVRKAMASETIPPALSRLMPPPATGNST
+VAKPVERDVVFIIKASPIDDEFTLWLAPKLEAEGYQVFADVLTLQPGDRWRREINAALRH
+RAAKVLLLCRDSTLADENVQDDLDIALELAKDLGDQRFVVPLRMETFRKVKGLGDTVAVD
+FVKGWGDGLNKLLDTLQRQKVPRNCDNASINPNWEMFRRRGTIEITDEPERLTSNWLRIV
+ETPDVIRYFESSGAIDKNRLQRALDGFGHPCALVGGNGFLAFGHQPEIEMAFESAGRFKI
+KHEIPLDEFVAKGFAKLRVDRQTASNLVIAMMKRAWFNYCKRNGFIEHTYSNSVGFHASA
+EHAPTGKKIPWGNQGEKRRSSMLRNSAKGHIWQFGVTAIPTFWPFWHFKLKSRVLFAEDN
+QTPAGVAIDDPKKLHRLRRSVCKGWRNKQWYGRMLAFLELLSGESAFIRLPLSETTEIVI
+EATPMLFSSPVSTVLPNLVDEDDEETDASTLGRPDNDEEGGE
+>tr|A0A1Q9AP58|A0A1Q9AP58_9RHIZ
+MFKLAHISDVHLGPLPDLSLRELASKRITGFVNWHRNRRKHMVGDTLSVLMDAVEAANPD
+HLAVTGDLVNLASSREIEAVRLWLQEEGKPDRISVIPGNHDAYVPGAYEKSVKAWYPYMR
+GDRGPEAWNEDFHCFPYLRVRGQVAIIGCSTAVATPPFAASGYFGRRQARETVNLLRAAG
+EAGLFRVVLIHHPPIRGATSMHKRMIGIRRFGAVISSGGAELVLHGHTHLNTVYQLRGQI
+RPVPVIGIASASQGPGGHKPPAGFNLFSIDGGPGNWRCERQRFEIAPESGGVNLAQTDMF
+>tr|A0A1Q9AM95|A0A1Q9AM95_9RHIZ
+MLSKLTFPLVAATALFVLNPSLLPESLRQDSALRAEDMTSPGLGELLDGPAKSSGRTSSV
+NAALAPPTVSAQADGAPALPAAAVKQNIQPGENPFLSPGKDLTAAASAARAPATVQAMIV
+PAAPQMPAAPNMAPTPAAVNPFETDKSQDGALSALPSASTSDVDVTALRYYATSKDLKRL
+GAEMRRLKELYPDWQPPKDLFAPVVSIDEQPLWELYAKGDYAGIRAEIARIQSANPKWQP
+SEDLTQKLQAGETRSLINSAYKRGRWAEVLSTAQAAPQIMVCQEMQVQWNVAEAFARLKN
+YAEAFDVYHYILTSCDDPAMRLSTVQKAGLLLPPAGTASLIALGRTMPDGSSEFDDISFD
+GLRREIGSFIQNGDFASMPNEQELSRFVEFIQQTNSGKDATLIGWYFYSQKDWASANGWF
+IQAAKYQRDPKSIEGVILTLRNMDRPGEALQMARRYMTASPEIAKQYIEIISASITDDKS
+KLKLEKGDTETFEKVVAEQKSPLGGQALGWKYLADGDKAAASDWFNKSVSWEPTEGGVIG
+LAVLAARAKNYATLTALKSKYGSEFEGLKDFRVYKVKPYRAASAKPVKLKKKPEEKRGLF
+WFMNTNG
+>tr|A0A1Q9ADC7|A0A1Q9ADC7_9RHIZ
+MSNYDAVVIGAGHNGLAAAIHLASRGWSVAVVEARDVAGGAVKTAELIEPGFRHDLCAMN
+LSMFAGSAFHKTYGPALAAHGLGFVPAADSFASLFRDGSHLGVGTDRARTRAAIAALSAD
+DAEAWDRMSDGFGAFAPPLFGILGAPMPSFAGARALWQALRAGGLARLYDLGQLLLSSPR
+GFLDRHFKSEKLKSMMAAWGLHLDFAPDTAGGALFPYLETMATQAFGMVIGAGGADSMIR
+AMTGLLREKGGMLHLGAPVSEIVMEGGRATGVGLADGRQLTARRAVIANLHPRLVFDRLL
+PAAAPIPARYREGIRRYRAGPGAMMIHLTLDGLPDWRGAPELSRYAYVHLAPDLAMMNRV
+YAEAIAGLLPAEPVLVVGQPTAIDPSRAPEGKHVLWVQVRVLPAVIKGDAAGIIAATDWA
+EAREAYADRVMALIETYAPGLSAKIRGRLVVSPADLERENPCLIGGDSLGGSHQLDQNFL
+FRPVAGWSRYRTPVDGLHLCGAATWPGAGTGAGSGFLLARMLAG
+>tr|A0A1Q9AG86|A0A1Q9AG86_9RHIZ
+MALNTPQTAARDAQPLPVDYNDSIRSTYLSTEELRTLGETLARNGAPPLAGFFPFEFRAR
+HRENENEIFRVYKITAADVEAGASITPAAEWLLDNHYIVEEAIQEVRRDFPRRFYRELPT
+VPVAGTTIPRIMALGWLYVAHTHSTVTQDTLTAMVEGFQKHSALKIGELWALPSIVRFIL
+IENLRRIAIRVERSRAMRNKANDVADQIERAGDPEKVKVLLADFEALAADNTFVAQLLYR
+LRDGSASEGVVMTWLEDLLDKRNSHIEDAIAAEQNRLASGNATMSNIIRSLRKIDDTDWA
+VWFESVSKVDEALRDGADYTALDFGSRNKYRTTIEKLAKRASASELEVTQTALRIVREEK
+LAYEAGTLKHEPNVGELLVGSRKNVLEEAIGYDPSPLQKCIRFARSLNWLAIAGPNLILT
+VLAMVLVYGFVSPMDIPDGAKLIMLLLFALPASEGAMGLFNTVVTLFVTPTRLSGYEFLE
+GIPPEARTLVVVPCLISKRDHVDELVRNLEVHYLANPKGEISFALLSDWADSQVEQTAHD
+LDILDHAKQEIAALSARYAHDGRQRFFLLHRRRLYNEGEGCWMGWERKRGKLHELNLLLR
+GDRDTTFLAGADIVPENVQYVMTLDADTRLMRDAVTKLVGKLYHPINRPVIDPKTGAITS
+GYSILQPRVTPSLTTGSEASAFQRIFSANRGIDPYVFTVSDVYQDIAGEGTFTGKGLYHV
+DAFESAIRGKIDENAVLSHDLLEGSLARCALVSDVELVEDFPIRYEVEMSRQHRWTRGDW
+QLLPYIVDPSNGLSMLGRWKMYDNLRRSLIPIAWVIASVMGWYYMEPTDALIWQIVLIFS
+LFVAPTLSLFNSILPRRNDIVARAHLHAVLSEVRAANAQVALRIVFIAHGAAMMADAIVR
+AIYRTFVSRKLMLEWRTAAQVQSSSSGSVADYYRSMWTAPVIAAVSVLIAAVSDTGLPYI
+GLPFVAIWALSPAIAWLVSQSAETEDQLVVSEESKAELRLIARRTWRYYDEFVTEKQSFL
+PPDNFQEIPHPILAERTSPTNIGVYLLSVMSARDFGWIGFEETVRRLEETIGTLDAMPKF
+RGHLFNWYTTNPLAPMEPRYISAVDSGNLAGHLIAVSSMCRDWAEAPSAHVQGNLDGIGD
+VAGILLETLADLPDDRRTVRPLRRHLEERISGFQNALDAVKREREFASIRVINLAVLARD
+IEKLALNLNHEIKSEKSGEINRWANLLVKTCEAHIADGVFDLSAIETLRERLVVLRDRAR
+DLAFSMDFSFLFRPERRLLSIGYRVATGELDEACYDLLASEARLTSLFAIAKGDLPTEHW
+YKLGRPVVPIGSRGALVSWSGSMFEYLMPPLVMQERYGGILNQTNNLVVREQMNHGRRLG
+TPWGISEAAFNARDHELTYQYTNFGVPTLGLKRGLGQNAVIAPYASILASMYDPKAALAN
+LKRLRAVGALGPYGYYDAVDYTPTRVPEGKTCAVVRNYYAHHHGMSIAAVANVVFNGRLR
+EWFHADPVIEAAELLLQEKAPRDIPIMNAKREPESLGKGQADLLRPEVRSIVNPLVKDRE
+TVFLSNGHYSVMLTATGAGYSRWNGQTVVRWKPDPVEDRTGTFLFLRDTATGQWWSATAE
+PRRAEGEKASTKFGDDKAEFIKVVGDLTSEVECIVATEHDAEGRRLTLVNTGTEDRFIEV
+TSYAEPVLTTDDTDSAHPLFSKMFLKTEIDPKGDVIRVVRNKRAANEPDMMVAHLITDSA
+GASRQTEAETDRRRFIGPGRTLAEARAFDGDVKLSGTDGFTLDPVMALRRTVRVPAGKKV
+KVILWTIAAPSRSELDAAVERYRHAASFDQELIQAWTRAQVQMRHVGITSQEAASFQMLA
+RYLVYPDMHLRADAAFVESGLGPQSALWPLAISGDFPIVLVRINDDIDLNIAREALRGQE
+FLRTRGVIVDVVILNERASSYVQDTQHALDGMCEAMRMRAIGDGGRQHIFAVRRDTMEPA
+TYSALLAAARAVFHARNGKISDQITRAEALYAKPVVAKEDAPLPLAALPPVDLSRKPASV
+SGEDLDYWNGYGGFTRDGAEYVTRLTGGETTPHPWINVISNERFGFHVSADGAAFSWSRN
+SRDYQLTPWSNDVVGNRPGEAIFLRDLDRGSVHAPYASLSRRQDVVFETRHGLGYSVFTS
+RQDELTIEVTQTVHASRPVKAVQLVVVNDGRETRRLRAYAYAEWVLGNNRAKTAPFIVPH
+YDDASGAVMAANPYSIDYGQRTAFLASSETPSSHTASRREFLGGFGAIQAPQAVLDGAKL
+SGATAIDGDPCAAIAIDLTLAPGARQALTLYLGDGDDRAEALGHLEAVKGEAFDDLLDQA
+KRFWADFTAHVQVETPDAAFNNLVNRWLPYQSLGCRILARSAFYQASGAYGFRDQLQDTL
+AFIGHRPELARAQILNAAARQFKEGDVLHWWLPGTGAGVRTLISDDVVWLGYAVNSFCTA
+TGTTDILDAQIPFIEGDPLEPGQHDRFFQPKVSEEVASLYEHCAIALDLAIKRTGENGLP
+LILGGDWNDGMNRVGIEGRGTSVWLGWFLAATLRPFIAIARSRGDEARASHWSAHLDSLK
+ASLEQAGWDGAYYRRGTYDDGTPLGTADSDECRIDSIAQSWSVLSGEGDPARAAEAMDAV
+LANLADEQHQIIRLFTPPLSGTEQDPGYIKAYPPGVRENGGQYTHAATWVVLALARLKRS
+EDAWKAFSMLNPVNHALDRPSADLYRVEPYVVAADIYGDGALTGRGGWTWYTGSAAWLYR
+AAVEGILGVTRQGGRLVVDPAIPDHWEGFAITLMVEGRARRIEVRRDGQGAFEVTLDHAA
+IKNAQEGLLL
+>tr|A0A1Q9AGT7|A0A1Q9AGT7_9RHIZ
+MLIRSSTPEALRQNNSLSVLSALRRQGALAHTDLCAQTGLASATVSAITAILERDGVIER
+LEQKPAGGRGRPRVLFQPKRDCGYLAAVRISSDQVQYSLVDYAGRLIDRFEEPRLGGDGA
+TEAFGQSFLAALARLAERSRLARDQVLAISISSKGIVDPGAARLVWSPVFGGAALDFSAL
+LGGVWPARVLLANESLLVAQAIAAQREGQGHIPAIAALSLGHSIGLGLARRDRHGEWEVS
+APNFGHMQHVAGGSLCRCGSQGCVEAYAGFYAVLRTAFQVPPQTIPAKFVPIAEIDKIAA
+QARAGHRMAIYAFRQAGQSLGAGLARMMSLFGSMPVAVTGPGLRFFGLMQEGLLEAFAET
+HEGRLNGVPLILPMTGEDELVFEGHVTRALAEMDVMLATGQGGGAP
+>tr|A0A1Q9AJI9|A0A1Q9AJI9_9RHIZ
+MKTIAMLKVGVFGSLLAGLSTTATLAFPPNMVTLGATSPPIGHYEFCKRLPAECRPNAGD
+LTPVALTPEKWKQILTINYDVNTRIQPVTDMELYGVEEYWAYPDKAGDCEDYVLLKRREL
+MAKGFPASDLLITVVLQPNGEGHAVLTVRTDRGDFVLDNMRNKVLLWSDTEYTYLKRQAT
+EDSGRWVKLQDGRAVAVGSVASR
+>tr|A0A1Q9AKP3|A0A1Q9AKP3_9RHIZ
+MKQTAHLRSGWMLVVPLLSFIAVLFVVPIATMLWKGIYDAEVADLLPATTRSLALWSDEG
+KLPPAASLAALADDLRTLDRSGRVAELSFRMNRKRHGFRDLIERSAIRLRDEGTKLEDID
+SRWSDPVSWQVLKQATEVITPDHLLNALDLDRMPDGSINRQDEGRRIYLRLLGRTILVAA
+IVTCICVVLGYPFAHILAAAKGKRRTVLLFVVLLPFWTSLLVRTTAWIVLLQRQGVINEL
+LVSAGIIADRHRFALIYNFSGTIITMVYVLLPFFVLPLQAVMRGIPGQYVKAAASLGGSP
+IRVFQRIYLPMTMPGVAAGASLVFILSLGYYVTPALVGGRTGQLISNQIAFHIQSSLNWG
+LAAALGTILLALVAAMCLLLSRFAGQGRITP
+>tr|A0A1Q9AMV0|A0A1Q9AMV0_9RHIZ
+MRDVDPDFFAALKNARRDGIVPRRIVTITAKTWPDANGNTAPVQRSFWTDVDDVVFDIVS
+GITGQMEARTCYGNVDLKVSSIKRVSDLTIQEVTISASQIAPPVQSLIRDQDVRLGKVEI
+FDCLLSPKSRRPVSLPELVWLGEISGTPISTPSRGEAGSITIKTVSDAIMMLTRKNPAKS
+SYQEQKKRDGDEFGKYSNSVKDWKIKWGM
+>tr|A0A1Q9AM26|A0A1Q9AM26_9RHIZ
+MTRMIDGKAVAAEVTARVAEDVRILTAAGQRPPGLAVVIVGDDPASHAYVSAKGRMAKQC
+GFHSVQHTLPAGTTEDDLLQLIEILNADPEIDGILVQLPLPKPLDSDRVIQAISPDKDVD
+GLHVVNAGKLATGDLTTGLLPCTPAGAMELVSGIHGRDLSGLHAVVIGRSNLFGKPMGQL
+LLAANATVTMAHSRSKDLPSICTLADILVVAVGRAQMVKADWVKPGATVIDVGINRVDTP
+ERGSGQSRLVGDVDYAGAVDVAGAITPVPGGVGPMTIAMLMANSLKARSLRQTLHFN
+>tr|A0A1Q9AP10|A0A1Q9AP10_9RHIZ
+MAKNIVILFDGTSNEISADRTNVLRLFGILERNDRQLVYYDPGVGTFGADNAWSKRTRQA
+AEIWGLATGWGLDENVKEAYRMLVDVYDPGQPDEAGHHPDPDRIFLFGFSRGAYTARVLA
+GFINAFGLTKKIHLNLLDYAYRAYKSIPVEEQESDDISAEGPAPSAFRTMRLYERTLRNI
+RPPIKLLGLFDTVASVIEMGKWLPQTRSHPFTHHNPSVEVVRHAVAIDERRTMFQPELWR
+AGQDYYGGPFTPKLGETKPQNFKEVWFAGVHGDIGGGYPESESAAIKIPLQWMIEETRGL
+GLEFNTGTIATLILGEGEDGKGYERPCALARLHNSMNVGWKLLEFVPRKVPMSSWRNEAL
+KKSSYYIPLEDRRYIAPNAFIHRSVERRIKDTHYAPPNLPKQPNFVD
+>tr|A0A1Q9AKY1|A0A1Q9AKY1_9RHIZ
+MFDPREKIALFIDGANLYAASKSLGFDIDYRKLLKAFQKRGYLLRAYYYTALIEDQEYSS
+IRPLIDWLDYNGYKVVTKPAKEFTDSLGRRKIKGNMDLELAIDAMEQAETVDHLVLFSGD
+GDFTTLVEAIQRKGRKISVVSTMATQPPMIADDLRRQADHFIDLQTLKVEIGRDPSERPM
+RSIDPVAVERVNGAQA
+>tr|A0A1Q9APK9|A0A1Q9APK9_9RHIZ
+MSELLIIWCMLLAQLMLGVAMACTLYRIIFGPRAQDRVLGLDALYVCAMLLLLTFGIRTA
+NVIYFEAALIIAVLGFVSTIAFAKFMMRGEVIE
+>tr|A0A1Q9AKJ7|A0A1Q9AKJ7_9RHIZ
+MSGMWRKAAIVAAAQLLLSAISAHATNIAWVHANAAAQSEQRVKAGFDAWLKSSGKDWNV
+SVLDSGGSGERTASNLQDAASRGVDAIIITMADLRASRAALDAAIAAKIPIVTVDSGYVP
+GVLADITTNNWAMSADVSPYLLNELGGKGNIIFLRMAEHHGTRKRGDVMATILKEYPDIK
+VLAEHNIKYTAFFEDTTSTMQDYASRFGDQINAVWAPWDEPAQASINALKAAGLNNVKVI
+GIDGHPNAVAEVCKPDGMMIATVSQPFEKMGAQAGEWIEDIVVKKEDPAKVIPSKTVYLD
+APLVTKQNCKDFLPK
+>tr|A0A1Q9AJU6|A0A1Q9AJU6_9RHIZ
+MIEIVTDPFPSANDLNTLWQAAWGESAARDFAPVLARSLVHFGAYADRRLIGFVNVATDG
+DRHAILLDTCVHPEFQRQGVATRLVTMAADEAARRGAQWLHVDYEPQLDAFYRGCGFRPT
+AAGLMKLR
+>tr|A0A1Q9ALK7|A0A1Q9ALK7_9RHIZ
+MRDSLILGIETSCDETAAAVVARAPDGTGRIVSDVVLSQIAEHSAYGGVVPEIAARAHVD
+ALDGLVKAALAQAGVTLGDVDAVAATAGPGLIGGLLVGLMTGKAIARAAGKPLYAINHLE
+GHALTARLTDGLAFPYLMLLVSGGHTQLVLVKGIGDYERWGTTIDDALGEAFDKTAKLLG
+LPYPGGPAVEAAALTGDADRFAFPRPLVGEARLDFSFSGLKTAVRQAAQAIAPLSDQDVA
+DICASFQKAITRTLKDRIGRGLARYRQLPQGAPALVVAGGVAANKAIRQMLQGLCTEHGV
+RFVAPPMSLCTDNAAMIAWAGAERLAFDLAPDPLSASPRSRWPLDAKAEALIGYGKRGAK
+A
+>tr|A0A1Q9AQI2|A0A1Q9AQI2_9RHIZ
+MTSFLMHRAQTRSGEPALVYKHYFIERPCRILVITDHLSARTFHRAVLRHISLCGAMLDM
+SPAIALPPQFFLQINGFDDEIGCTAILRHEVHLGVRFNMLLKQAFLSQLIRVDFRGA
+>tr|A0A1Q9ADM8|A0A1Q9ADM8_9RHIZ
+MSNDPLLQPFQLKHLTLRNRIIVTSHEPAYPEDGMPKGRYRAYTVERARGGVALTMTAGS
+AAVSKDSPPVFNNLLAYKDEIVPWIREMTDAVHEAGSAIMIQLTHLGRRTRWDKGDWLPV
+LAPSHHREAAHRAFPKKLEDWDIERIIKDFADAAERMKAGGMDGVELEAYGHLIDQFASP
+LTNELDGPYGGSLDNRLRFCFDVFKAMRARVGDDFILGVRYTADECLPGGTDKADGLEIS
+RRLKESGLIDYLNVIRGHIDTDPGLTDVIPIQGMASAPHLDFAGEIRAATRFPIFHAAKI
+QDVATARHAIAAGKVDMIGMTRAHMTDPHIVRKIMEKREDDIRPCVGANYCLDRIYQGGL
+AFCIHNAATGREETMPHAIPKADVRRKVVIVGAGPAGLEAARVSAERGHEVVVFEAASDP
+GGQIRLTAQSERRREMIGIIDWRMSQCEKLGVTFHFNSWAEAGTILAEAPDVVIIATGGL
+PHTEVLSAGNDLVISSWDILSGDVKPGTNVLVYDDAGDHAGLQAAEVIAKAGGKVEIMTP
+DRAFAPEVMAMNLVPYMRALQKLDTTFTVTYRLEAAEKSGNQIVAHVGSDYGGVSKQRLV
+DQIVVNHGTIPLDELYFELKPASRNLGEVSYDALIAGAPQTVARNPEGRYQLFRIGDAVA
+ARNTHAAIYDALRLAKDL
+>tr|A0A1Q9AGZ8|A0A1Q9AGZ8_9RHIZ
+MVSHSSTNLIASTAESPTSAVSWGAIFAGAVGATAVTLVLTLAGSALGLTLVSPFPNESV
+SASTFAISTAIGLIVMQVLASAFGGYLAGRLRTKWSGLHNDEVYFRDTAHGILSWAIATL
+VAAGILGSVISSTVGTGVQAVSSFAGSATSTAATAATATAAASGRTDEAANYLVDRLLRP
+ANPATPGQPGQNADEDAAAQVSRILWNGATTGSIPEGDRTYLAQLIASRTGLSEADANRR
+IDETLKSAEDAKNKAQQAAETARKASASAALFGTLSLLIGAIAAGVAAVMGGRQRDDETM
+YIRM
+>tr|A0A1Q9AHP8|A0A1Q9AHP8_9RHIZ
+MSKRKQILLNAFSMNCVGHINHGLWTHPRDRSADYRRLSYWTDLAKTLERGLFDGIFLAD
+IIGVYDIYQSSVDLTLKESIQLPVNDPILLISAMAAATQHLGFGVTVNTSVEAPYSFARR
+MSTLDHLTEGRIGWNIVTGYLDSAARALGQSGLGEHDSRYDRADDYLDVLYKLWEASWAE
+DAVKRDKAARIFADPARVRAIRHEGPYYRSEGYHLSEPSAQRTPVLYQAGTSGRGRQFAA
+RHGECIFIGATDKAAAARTARALREEAVAAGRAPDDIKIFVGITVVPGRTTADAEEKLAD
+YLDHASPEAGLAHFAAGSGIDFSRFDADEPIDYGTGNAIQSVNQLARQKGWTKRQLLKEL
+AIGGRYPIVVGDGAKVAEELIGWIDEGGIDGFNLARTVVPESYVDFIDIVIPELQARGAY
+KTAYADGTLRHRLFGRGDHLPENHPGSRQARAQAW
+>tr|A0A1Q9ACL7|A0A1Q9ACL7_9RHIZ
+MEKRRLGRTGLSIAPLVFGGNVFGWTADEATSFRLLDGFVDAGFNAIDTADVYSSWAPGN
+QGGESEAVIGRWLKQSGRPRDAVVIVTKVGSDLGEGRKGLSRRWILEAVEASLTRLKTDH
+IDLYLSHWPDAETPYEETLSAYDALLTSGKVRHIGASNLDAAQLREALTVSRDKGLPRYD
+VLQPEYNLYDRASFEGALRNLCIEEEIGVISYFALARGFLSGKYRSHKDLGQSPRGTSID
+RYLNGRGMRILGALDAVADKHGAKPAEVAIAWVMARRGVTAPIASATSQEQLDSLIRSAQ
+ITLDDEDCRALNEASE
+>tr|A0A1Q9ADV6|A0A1Q9ADV6_9RHIZ
+MSSTRSIAAARPPLLLALPALAAGGAMLVPLVYLVVRAAETQATELAFLVFRPATAQLLA
+NTLSLVVCVLALSTAIALPLAVLVTRCRLPFPWLWPVLFTLPLAVPGYVMAYALIGLSGY
+YGPLNQVFGMRLPRLEGLSGATLALSLYVYPYLFLNLRTVLTTLDPALEESARSLGHSAV
+STFLRVVLPQLKAAFLSGWLVIALYTLGDYGAIALMRYDVFSSAIYSQYAGAFEVYYAAW
+LALMLIALAGLFLAAEARAARRLHLARTGTGTARVLPRAPLGRMALPAALFIALVVSASL
+GLPVSVILFWLSRAPEAIDWPAVAATALQTVTIAGPVALLAMAAALPVALVTTRFPGRAA
+FLAERMVYLGYAVPALPFALAMVFFSLAVIPFFYQSMTLLIATLTLHFLALALGPVRSRL
+LQLGPRTEEAARSLGHGAFAAFRRVTLPQLMRALVAGGLLVFMVVAKELPITLLLSPTGT
+QTLAMTVFARSSEGALVDAAPYAGLMILFSSLFVGLVLTRSGRAAGKTS
+>tr|A0A1Q9AMQ6|A0A1Q9AMQ6_9RHIZ
+MLDTEDLPRFACPDWWEKLQAGETPMAAVPLNEAKARKALAFFNRLRLPDVPGNPPMSEA
+CGDWFRDILCAFLASEDPDTRRRLVWELLCMVPKKNSKTTYVAALGLTALFMEEAPNRQM
+LIVAPSQNISERCFEQAQGMIRLDPKLVEIFKLQDHIKCITREKTGTKLNVKTFDTSIVT
+GEIPVLTIIDELHEIGKNAKATRVMQQIRGGGITKQRGQVLMITTQSDDVPAGIWRTELK
+KARAIRDGKGGGSPIMLPVLYEFPEEKQRDQDYWRDQTNWDLLLPNLGRSIDPQALVEDY
+ENNGSVSKETEQVWASQHLNIEIGVGLGGDGWSGAIHWQSCADSTLTGLDTLLARSEVCT
+IGIDWGGADDLAALFVMGREKHTRRWLGWTIAWARETVFERRKSIVSKLREFEEAGDLIV
+AKSGEEQAASAAAVCKRVFEAGKLPEAAGIGLDSAGVALLVDALEAEGLVEPLVQAVLQG
+WKLQTAISSVPLKLEDQRFVHGDQSIMAWSVGNAKQTLRGSNYVVTKEVSGAAKIDNLMA
+MFNAAMLMFLNPEARPSSYLEAGELLVL
+>tr|A0A1Q9AQN2|A0A1Q9AQN2_9RHIZ
+MFGVEWEKQTSSDADVLLQAADLVEAFIVLLRVENVANDILDTEELPASKTTMINAFRLV
+IATELEADDSRRLARIGRQLSRFQDNVGLRISLTPAHSAAPKAARRADREAAQRFDRLFE
+RVAKEALALDRILAVSVRIAERRGAASGITPHFEPDGTYSFGHH
+>tr|A0A1Q9ALT5|A0A1Q9ALT5_9RHIZ
+MKITSIETLRTQEFANVLWARVHTDAGLIGIGETFYGAGAVEAHIHDVLASRLLGRDPLR
+IEAHARELVNLPMAQASTGAEYRAASAIDLALWDIFGKVCDQPVYQMLGGLCHDRIPVYN
+TCAGYGYVRSNKIKPVDTWNFRDDAEGPYEDLRGFMTDAGALAETLLEQGISAMKIWPFD
+PPAIENDGRYITAEQLRAAIRPFEQIRTRVGDQMRIMVEFHSLWNLPTIKKIARELEAFD
+PTWYEDPIRMNSVSALKELAASTSVPICASETLGSRFPYKDMLEAGAIGIVMTDLVWTGG
+LTEGRKIASLADTYHRPYAPHDCTGPVAYVAAVHSSFSQPNTMIQESVRAFYTGWYKELV
+TNLPVIEDGCVLPMEGPGLGTELLPQVFERSDLTVRRSAL
+>tr|A0A1Q9AE56|A0A1Q9AE56_9RHIZ
+MTSATPSPFEVGPIRKKRHSLLWRAILSVDALSVSLSPCSGAERLARYNAALEIDCPHDL
+HGEDVILVAGDEAYFQRYGASFIRSLALLRQSFFVHLHLFQPGPEVLAEVARLRRDYPDI
+ALSLTIDRLTGLDLPRRLNIYYNAARFIAASELLDRGVARLLILDIDTLARRSPWERLAG
+LTCDVAFNFRPDKTKPWQKILANAVYYQGTPAARAFSQRFARALLKGLARNPAYHLDQIV
+PHYLLKSGRRFARDSVGALPDDLISLDYDPQASLWTAKGAHKRSERFLLEKARVDQMARP
+QTGLKRGA
+>tr|A0A1Q9AHL4|A0A1Q9AHL4_9RHIZ
+MSPQMLDRLWQAFLDTLTMVGVSAIIALVVGVPLAVFLVLSSPGGLINAPRTNRVLGAVI
+NGFRAAPFIVLLVALLPFTRLVTGTTIGVWAAIVPLSISATPFLARIAEVSLREVEHGLI
+EAAQAIGCRRWHIIRHVLLPEALPGLVGGFTITVVSMIGASAMAGAVGAGGLGDMAIRYG
+YQRFDTTVMVAVLVVLIATVCLVQFIGDSAVRRLRAR
+>tr|A0A1Q9AQB1|A0A1Q9AQB1_9RHIZ
+MPSYTVREWDTLPHGDGEGSIPAHLASRLVALTKTSPFAGRGGGGVLEDRRHELRARGVV
+GVIAAQGCSLEILPKIDVMQAEGAERQNAAIRKRLVHMLAVALDLKIEIGRITDLDWQRE
+TLLEILIRLFCDKLTEAIRRGMPRRYLGHEEDLSALRGTLDVPRQFTRHALNPGRLACRF
+DDLSQDIALNQIMKAAVAHVSRTSRSPANQQRLRELAFVYADISDVPVPALRWREVIIDR
+TNRAWQDLFGMAQLFLRSRYQTTSSGSGQGSALLFEMNALFEEYVGRLVTRALAGTEFRV
+TLQGGRLFCLTSVENDRALFQTKPDILIWRGGQVAHVIDTKWKRISARIDDPKLGVSQGD
+VYQMMAYAHLYKSPKLTLLYPHHNGLGANEGVQAQFRITGQETVIETGSVDVANGKDLAA
+RLRDKFLLNVFGGS
+>tr|A0A1Q9AL87|A0A1Q9AL87_9RHIZ
+MSDTMIELKKADLTLGHAAASVHVLKSIDLRIGRGETVGIVGPSGSGKSTLLMVLAGLER
+LDSGEITINGVSLQGLSEDKVAEFRGRNVGIVFQSFHLIPNMTALENVAVPLELAGARDA
+FERARAELVAVGLGDRLGHYPGQLSGGEQQRVAIARALAPNPRLLIADEPTGNLDGETGR
+QIADLIFSKQAERAMTLMLVTHDPALAARCGRQVHVRSGEILDDGSLNQGRSAAQAGGTS
+ALLQAGKKAGA
+>tr|A0A1Q9ACR5|A0A1Q9ACR5_9RHIZ
+MARFDVYQMKADGALVVDVQSSLLDGLDTRVVVPLLPLGALAYPIARLNPMITVDGTSYL
+MATQFIGTVPERAVSATIANLKQRGDDITAALDFLFQGF
+>tr|A0A1Q9AJA0|A0A1Q9AJA0_9RHIZ
+MKYIPFILFTVLTNAAAQLMLKQGMISLGPLSFTAETAVARIFQILFNPWVFAGLVTFAI
+SMASHLFVLSKVELSFAYPFLSLAYVAVAIFAYFVFREDLNAWRIAGIAFICVGTFFIAQ
+SGRSSESHAPDAAVQGTATKTKDIRSAA
+>tr|A0A1Q9ALE7|A0A1Q9ALE7_9RHIZ
+MTTQQKKSSTRHGFKTGESIVYPAHGVGQIVAIEEQVVAGMTLELFVIDFEKDKMRLKVP
+VAKAVSIGMRKLSETDFVERALKVVQGKARVKRTMWSRRAQEYDAKINSGDLISIAEVVR
+DLYRAENQPEQSYSERQLYEAALDRMAREIAAVNKMSSTEAIRLVETNLSKGPKRGKTVE
+EDEAQEEEAA
+>tr|A0A1Q9AF53|A0A1Q9AF53_9RHIZ
+MLRYAVLLFVAIAFIHLVWPMPAAHAQATPPASPQATRPVSQCQAIAERLPKVQFAAFRT
+DAAGPRAVAGEAGAVTITYLGHSAFNIVSPEGVSIVTDYNGWYKPAETPDIVTMNKAHST
+HYTLSPDPAIAHVLHGWRDDGEPADHDLVLRDAYVRNVVTDIRLGWGGDAMEKNGNSIFI
+FEIAGLCIGHLGHLHQELTEVHYAEIGRLDVVMVPVDGGLTLGPDSMSRVVSRLRSSLIL
+PMHRRGPPIDRFLSLFGSGFDARYADSDSVTVSLRSLPKKPLILILQGV
+>tr|A0A1Q9ALF5|A0A1Q9ALF5_9RHIZ
+MQPPNRPPLQDGAPALRAEAATAPEDTRPRLIHVLDLFAQFSPDFMADGRGDGEQAERDW
+RR
+>tr|A0A1Q9AGX4|A0A1Q9AGX4_9RHIZ
+MFWGKAKADAKDFQGKYETAQERLDLLDGYCGVGLWEAYLPEANGQHPQSRWRYSSELRR
+LTGYTEADFPDTLDAWVAKAHPEDLERVFASLAQFLTDKSGKARYEDSFRIKMKDGSYRW
+FRSTAGSRYLPDGTTVRVCGTFTDIHDQVLLRERSEAATREDQETIAALRTAMTALAAGD
+LTYRIEATMPAKTEVLKRDFNTATQQLEDVITSVIEAVHSISGGSSEISRASDEVSRRIE
+QQASSLEETAAAIDEITSTVQRTAQNTNELASAATKTRHAAEHSGSVVQSAIAAMSQIEH
+SSGQINQIIGVIDDIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAQAAKE
+IKQLISTSSDQVGKGVNLVGETGRALKMIVDEIASITDLISDVAQSAKEQATGVRGINST
+VNQMDQMTQQNAAVVSNTANASHSLASEAAHLAELVSRLKVGAAEKAYRSGRRAA
+>tr|A0A1Q9AM49|A0A1Q9AM49_9RHIZ
+MKKLASVEVLGGGPAGLYTAILLRRMMPHVRLRVTEQNAKGATFGFGVVFSDQALDFLKA
+DDPETHDLVTPAMERWRNMTLNLPAGQVVLDGVGFSAVGRLELIEILRKRAEALGVEIRF
+SQHIESLDDLDADLIIGADGLNSLVRRSNETGFGVHLDHFSNHFAWFGTERPFDTLTQTF
+VKTDKGAFNAHHYRFQPDRSTFIVECDEATFKAYGFAGMGEEESARLCEGIFADTLEGAP
+LITNKSMWRQFPRLWCDKWVSGRHVLLGDAVHTAHFSIGSGTRLAMEDSIALVRALASHD
+DVDEALAAYQAERQPIAKKIVDAANTSATWYESFASKMDLPPVDFAFDYITRSGRIDMER
+LRRMAPEFAARYEAEGGRQSTVIADPVAPHVPGAAEIGFDKAAHGNCSNILWDNLERNPR
+KIAVTGPAGTLTYADLIAEAARWGNAFTTAGLQRGERIAFFIDDTPVYPAAFFGAVRAGF
+VPVLLNTQTPPDVLNYFLQDTGARIALCEATFLDVFSDDVLKGTSLKTIVVANGAAKGEK
+QRAASEFLDGHATTLACASTGPDDMAFWMYSSGSTGRPKGIVHLHHDMAYTQASFGRHVL
+KLTEDDICFSVPKIFFAYGFGNAFTFPFSIGATTVLMPGQPRADAVLETIETFRPTVLFG
+LPTLYTSLARAESVKRRDLSSLRQSMSAAEVLSQDIYEAWKALTGHGPTEGLGSTELLHI
+YLSNSLTDHRIGSAGARVPGYEIRLETPDGKVPDAGEEGVMFVRGHSSAPTYWNRPDKTR
+ETMRGDWIYTGDRFIEKDGYYFFQGRADELIKVSGQWVWPLEVERCLNEHPDVHECAVLG
+HQMEDRRMTLRAVIRLREGKEASPAQSDALRAYVKSRLQPYKYPRIVEFVTELPKTGTGK
+IDRQAVAAAPVSELEQIVA
+>tr|A0A1Q9AEK4|A0A1Q9AEK4_9RHIZ
+MEMKESVGRKPTGITDQEALDFHARGRPGKLEITPTKPMATQRDLSLAYSPGVAVPVKAI
+AADPATAYDYTARGNMVAVISNGTAILGLGNLGALASKPVMEGKSVLFKRFADVDSIDLE
+VDTENVDEFINCVRFLGPSFGGINLEDIKAPDCFIIEQKLREIMDIPVFHDDQHGTAIIA
+AAGLINALSLTGRDLKTTRLVCNGAGAAAIACIELIKAMGFASENVILCDTKGVIYQGRT
+EGMNQWKSAHAVPTERRTLAEAMDGADVVLGLSAKGAFSPEMIRSMAPRPIIFAMANPDP
+EITPEEVSAIRDDAIVATGRSDYPNQVNNVLCFPYMFRGALDVRATTINEAMKIAAAQAL
+ADLARTDVPDDVAAAYQGNRPRFGANYIIPVPFDPRLISSIPVAVAKAAMDSGVARRPIA
+DLDHYARQLSARRDPIAATFATIHERVRRHPQRIVFAEGEEAQVMRAAISYANQGFGTAL
+LLGREDRMLETAEREGIDLDRPGIQLVNARISTRTAAYTDYLYARLQRQGFLFRDAQRLI
+NHDRNHFAACMVALGDADGMVTGITRNYATALDDVSRCLDKKPGHRVIGVSLALCRGRTV
+MVADTAVHDMPSAEELAEIAIEAAGLARKLGYVPRVAFLAYSTFGHPSGERSQRVREAVK
+ILDGKRIDFEYDGEMGADVALSEEVMAQYPFCRLSSPANVLVMPAIHSASITTKMLEQLG
+GATVIGPLLVGFDKPVQIVSMAARESDIVNMAALAAYKATS
+>tr|A0A1Q9AKL3|A0A1Q9AKL3_9RHIZ
+MATVTNESQFVTFSLGDEIFAVPVDVVREILDYEDPSRIPHGPAHLLGLRDVRGQGVPII
+DLRVRLGMDKTVRTAHTRILVLDIPLADKMLALGLVADKVFEVVPFRHDAVETAPDIGAA
+WNSDYIRGVVRRTNDFVIIIDLSRLFSDSAPALSAVAQPSRAVA
+>tr|A0A1Q9AEZ0|A0A1Q9AEZ0_9RHIZ
+MRISTSEDKDSPEARQKAKLTAFLKAEARDKGFDLCRITLPDSIPEAPARLRDFLDRGYH
+GTMDWMAETAERRADPRVLWGEVRAIVVFGMNYGPEHDPRAVLSMPDRGAISVYAQNRDY
+HHVIKGRLKEVATRFAARAGADVKVFVDTAPVMEKPLAEQAGLGWQGKHTNLVSRDFGSW
+LFLGSLFTTADLEIDAPERDHCGSCRACLSACPTDAFPAPYRIDARRCISYLTIEHKGEI
+APEMRASFGNRIYGCDDCLAACPWNKFAAQAAEMKLRAREELKAPPLADLLRLDDAEFRS
+LFSGSPVKRIGRDRFLRNCLIAAGNSGDPALVEPVLRCLDDATPVVRAMAVWALGRLLGT
+AARTTLADRIAAEEDEAVLREWKRLEDPACIS
+>tr|A0A1Q9AN36|A0A1Q9AN36_9RHIZ
+MSDVMWSVAQIAARDGVSKAAVSKAIKKLLEAHPETPVVRDGQGRIASISLAHYDEYRAR
+FVNPAKASAPIREVSSDSPPSLPRLDPSDSFDEARRQSEWLKVGREKIRHQQECGQLVRL
+DMVEEAHKKLGAEIQSVIRGLPNHADEVALAISKEGVHGVRQVLRTIAFAMGNKIADKMA
+AIAEAAPESDPLIESEDI
+>tr|A0A1Q9AJT1|A0A1Q9AJT1_9RHIZ
+MWTKHHKKRYLGRLAMPAITAVFLTYFGYHSIHGEFGLESTERFNQQLVDRKARLAVLVE
+KRQTIEKEVALLSDGSLERDMLDERARFALNMSRADEIVIFH
+>tr|A0A1Q9ACH3|A0A1Q9ACH3_9RHIZ
+MDEGARPSAGATTALLRLMTWMSPAFPVGAFSYSGGLEQAIANGAPGTAEALCDWLSASL
+TRGSLWNDAVLLAEAHRSVGDPAALAEVAELAEALAGGRERHQETLLQGSAFLTAAQAWP
+EVSLPALPAETAYPVAVGAVSGAHGVERVAAIAAYLQGSLANQTSVAIRCGLIGQVQAVA
+LLARLEHQVEEIADRAAKSSLETLGTATLAADIAVMAHETLPSRLFRS
+>tr|A0A1Q9AKB1|A0A1Q9AKB1_9RHIZ
+MQNQIDIVAFGPEHLDGAVVLSRAEGWPHRREDWMMMLQLSLGAVVTDTDGRVAGTILVT
+PFGTDFATINMVIVDKSLRGLGLGRKLMERAFQLAQGRPLRLVATKEGLPLYEKLGFVAT
+GTIRQHQGAVEAVAAPDGVEEMQPGDADAIRALDRQAQQADRCALIDTLIERGRIAVIRK
+GGTVEAFAAIRAFGRGEVIGPVVAPDVETARRLIAHFAASRTGAFLRVDTGSDTGLAPWL
+EEIGLAHVGGGVTMRRPLTQDAGTGQATIFALASQALG
+>tr|A0A1Q9ACL9|A0A1Q9ACL9_9RHIZ
+MNKIVREHYPASKLPEDLREGLPEGAMVRIVIDEVPDAASSDEAPSTRENLERIGKIQGS
+RFAVLDRIASPQSAPRNAEDTLEAIRRHHASGAESVSVEEAVRRIRALRDEWDDE
+>tr|A0A1Q9AIM8|A0A1Q9AIM8_9RHIZ
+MIKLLLTGIWACVVTLGAVYFSVQHASAPKVSEEEATRAALQEYVPGELITVPVIANGGV
+QGYFLAKLSYAADKTKTKTLQIPLKEGATSALYNILVGKKLINIADTSNFDLTHFKDVLR
+DGLNEVYGDKLIFEVYVEQLEYLNKADLARLAQPPDEAHEPKPVPVVDKNGATAHEVMPG
+KDAPSGH
+>tr|A0A1Q9AP53|A0A1Q9AP53_9RHIZ
+MNFLPFVFTNPLVLAGLIALPAIWWLLRMTPPRPVTEAFPPLRILASVIRREETPSKSPW
+WLTLLRMLMAAALIVALADPVVNPRANSLSSDGPLALVIDNGWATAGDWTRRVETAEALV
+SDAEEARDVPVSIVFTAEREQNAVPGTAAEARTRLAAARPQPLPVDRIRALDALSTALAG
+TRLGTLAFLTDGLAENDARVTSAIVALQPANTRIISGDTGSLVALTKADNDADGMRITAT
+RLPSSEPRSVAISALDARGRAIANGTIDFAAGAATGSGVLAAPFELRNDFARITLAEPEN
+AGGVLLLDDGFRRRRVALLSGEARDQSQPLLSPLYYINRALQPYADLIQPSESDLSVAVP
+ELLAQKPSMLIMADIGRLPDETTGAVLQWLRNGGTLVRFAGPRLAAAPAGDPLVPVTLRQ
+GERALGGALSWSQPQPLADYPAGSPFVGLRRPDAVTVNRQVLAEPTADLASRTWASLADG
+TPLVTTRSEGAGRIVLFHVSAEATWSNLPISGDFVEMLRRVVQLSRSGGVGEAGGGKPQA
+LPPYRLLNAEGVLVSETGRARPLELAGTAVPSADYDHPPGLYGSEEGFVAVNLLPRETAL
+APIDLSGLSVPHAAERLIGAESWSLKPALLTLAMLLLLVDTLIVLFMGGALSRLRGRRAA
+TALALVGLTALVALPPRAAKASDVKPGDEQLLQVLDKTHLAYVVTGEAEVDRLSERGLFG
+LTEFLTYRTTLEPGAPVGLDIAKDELSVYSMIYWPISATAPMPSPQAISRIDAYMRAGGT
+VLFDTRDQFSTLGGEQSTSPNGERLQAILAGLDIPPLEPVPADNVLTKSFYLLSNFPGRY
+TGSPLWIEAQPRSDGEETGRPARSGDGVTPIMITGNDLAGAWAIDDSGRPLLPTVPPDEM
+QREYAYRAGVNIMMYMLTGNYKADQVHIPALLERLGQ
+>tr|A0A1Q9ANG2|A0A1Q9ANG2_9RHIZ
+MGKRAGEDAGPTRRALLRAAGSAALLPLAAPALATSPAASSAAAPAPGAAVLGPAEPPLI
+HEDYAIARRSFHTKLLRKGPAPDKGDPLTPPPGAEAIGYRSGGLSLTAWVSPGHDDAKNR
+RPGILVLHGGNALWHGHWDLTTAYHKAGYIALMPALRAENGQDGAFSGFYDELSDVLAAA
+ERLRGLPGVDPDRIYLAGHSIGGTLTLMAAQASPMFRAAASFSPNPDGRVFFRRFPEDIR
+FDTSDPREYDMRSPICFAVSFKCPVLMLHGTAETRTDSIIRMTAARARAKGLDVRRGVIE
+GGHMSALDGEIPESLGFFKGLA
+>tr|A0A1Q9ANZ6|A0A1Q9ANZ6_9RHIZ
+MATKVKENEEAESERDGAPDGPLLDLSDDAVKKMIKAAKKRGYVTMDELNSVLPSEEVTS
+EQIEDTMAMLSDMGINVVEDDEVDENAAGEEEESSEEGESEGGELATTGSTAVATTKRKE
+PTDRTDDPVRMYLREMGSVELLSREGEIAIAKRIEAGRETMIAGLCESPLTFQAIIIWRD
+ELNEGQTLLREIIDLETTYSGPEAKAAPQFQSPEKIEADRKAAEEKEKTRRPRPMADDDI
+TNIGGDMPPPEEEEEDDDESNLSLAAMEAELRPQVMETLDRIAETYKKLRKLQDQQVEAR
+LSDAATLSPAQEKKYKELKDELITAVKSLSLNQNRVDNLVEQLYDINKRLVQNEGRLLRL
+AESYGVKRDSFLENYTGSELDLNWVKGIAVLPQRGWKDFAAKEERNISKIRAEIHNLATE
+TGISISEFRRIVHMVQKGEREARIAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNI
+GLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKIVRTSRQM
+LHEIGREPTPEELAEKLAMPLEKVRKVLKIAKEPISLETPVGDEEDSHLGDFIEDKNALL
+PIDAAIQANLRETTTRVLASLTPREERVLRMRFGIGMNTDHTLEEVGQQFSVTRERIRQI
+EAKALRKLKHPSRSRKLRSFLDS
+>tr|A0A1Q9AJP0|A0A1Q9AJP0_9RHIZ
+MPLMSNVLVPELSVRDWRVSLMFYRDLLGFSCRYIRADEGFAFLERDGAQIMIDQIGLGR
+DFDSGIQTLERPFGRGLNLQIRVAALDRILSALTHAGVTLHLPLEEKWYDVGEGLESGNR
+QFVVADPDGYLLRFYEDLGERRVQ
+>tr|A0A1Q9AHG3|A0A1Q9AHG3_9RHIZ
+MTVETYVPDALDRRLIAHLRADGRASLSKLADVLGVARGTVQNRLERLMETGTLLGFTVR
+VREDYDAQSVHAVMMIEVTGKATIQVVRRLRGFAEIQSLHTTNGKWDLVARIRAATLTDF
+DRVLREIRMIDGIANSETSLLLSTA
+>tr|A0A1Q9ADJ2|A0A1Q9ADJ2_9RHIZ
+MRFSILCLTLALLLAALFAASLALGDVPVSWRALAAMLGGGSDVSPDARMIVVDLRLPRV
+LLGALVGMALAIAGTISIAIMRNPLAEPGVLGINGGAAVGAMVVIVVLRDPPVFLLQASG
+FFGALALAAAVYLLSWRGGTASLRIVLIGVGLSALTGAVTSLLAATGDLAAVQRAMIWLA
+GSVYDASLLKVERLLSWLILPAALTLALARELDLIAFGDGTAKSLGQPVERVRALMILLC
+TVISGAAVAVSGLIGFVGLLAPHIARRLAGPVHLRILPVAALVGACLVTAADLLGRLVIA
+PAQVPAGIVTGLLGAPFFIYLLWGRRHGRG
+>tr|A0A1Q9ADL2|A0A1Q9ADL2_9RHIZ
+MTQNAPDRILLVDDNPAFRAALADSFAIAGLEVELHEDGQSALASLSGTLPGVVVTDLRM
+PRLDGNDLFEAILARDRELPVILMTGHGDIAMAVAALKRGAFDFLAKPFMTDHLIASVRR
+ALETRRLVVENRRLRQAALEAEQASPLLGQTPAMVQLRDMIQRIAHTDVNVLIEGETGTG
+KELIARLLHQGSPRRGRPFIRVDCAAVTEAMVDDTLFGTRLRRGQIAEAQRGTLFLDGAE
+AMSPLMQGRMLAIAENREMPSPAGGMVPVDVRIIAATKKPLAGGEGTTGFREDLLYHLET
+VRVSVPPLRARRGDIALLFNVFLEDAARRYGLASVPMDAAIETCLLTGEWPGNVRELRNY
+ATQVALGLAAKRPALSSRLGLAEQMDAFEASVLTQALQNHGGDANAVAQALKLPRRSLYA
+RLQRLNIQPAVFRASPSRKARDET
+>tr|A0A1Q9ACL5|A0A1Q9ACL5_9RHIZ
+MKRDLYETLGVAKTADEKELKSAFRKLAMKYHPDRNPGDPEAEKTFKEINEAYETLKDPQ
+KRAAYDRYGHAAFEQGGMGPGGFGGAGAGMGAGGFSDIFEDIFGEMMGGGRQRQRSAGGR
+ERGADLRYNMEISLEEAFTGKTAQIRVPTSITCDVCSGSGAKPGTSPKTCGTCQGSGRVR
+AAQGFFSIERTCPTCQGRGQVIPDPCTKCHGSGRVTEERSLSVNIPSGIEDGTRIRLSGE
+GEAGVRGGPAGDLYIFLSVKPHEFFQRDGADLYCTVPISMTTAALGGTFDVQTLDGSKSR
+VSVPEGTQAGKQFRLKGKGMPVLRSSQVGDLYIQIQIETPQKLTKRQRELLKEFEEISSK
+DNNPESTGFFTRMKEFFEG
+>tr|A0A1Q9AN65|A0A1Q9AN65_9RHIZ
+MTIHPGALRFVGQTLADAIRPTPPVPFHEWIGKNIVLVDGPRKGEFWTAEDAPYLVEIAA
+CLTQEHPCTRVTVRKSQQTGVSILALAWMLYIAETCPDNCLYGVPGLDALRDINSGKMQP
+LIDEWQRETGKSVVYPTTSRSGEGSSTFQKKFAGGTLYLANANAVMDLSAKTTRYGVKDE
+VSKWQELPNGADPENLFFGRFTAFRRQKSYKIFELSTPELDSGDPLGEGPGHCRIDRSFR
+QSDQRFWNIGCPECGEELVQQDAFLLIDRDHPHKTVMACPSCGHHISEMERVAAVRQGRY
+IATAPGEDRHPGFHVDAFMSLMMSYEAIAEDKIAYAAKGEAGAKDYNNLVCALPYAMRGN
+APDHKGLMQRREDYPADTIPAGGLIFVGGADIQSHGIYLEVVAFGEDRQSWTVSAEYFKG
+ATDNPAAGAWLLLEDFAAREFPDCWGVLRRLDALAVDSGYRTNQVLEWCRRHPDTYAIKG
+MPGRGIPAISIPTRKSVNKRGKRKRFGSAMTWPVGTWALKAEFYGNLHKDGLAAGQPCDP
+PGYCHFHKGLNEEYFQQLTAEYFSSKLVKGRLHEEWMTRRADNHYLDCRIYAMAIAEHLG
+LSRKTKSEWAALRARLEPEVPTDLLSVAPLITAMQAVVKAVARPEEAKPAAPVTSTVPSA
+PPAPKPPTLENRWKKRNAGKT
+>tr|A0A1Q9AC68|A0A1Q9AC68_9RHIZ
+MPSTDPFRFAILSDAHVHDIAADYGLPDAPEALSVRPLADTMRSTRVFNESKAALLRALE
+EIAARGIRHVVITGDYTDDGQGPARAAAQAIFCEAEERLGLRIFLTVGNHDVFADDGRHR
+TKRFLTASGGHGVLTSDPERRDPDARFVALRPDMRCLGSPAGLAPFATFGFMPREDDLLW
+ETPFGTDPDPEARRYAVTSPDGQRREWLFDASYLVEPVAGLRFLMIDANVFVPLNPGQML
+ADMTFEDSTNAGWTALLRHKPFLLDWIGRAAETARRDGARLIAFSHYPVLDPLDGTGADE
+RALLGETDMVKRRPSPEVAEALIAAGITVHVSGHLHVNDTAQGRNDAGVLTNIAMPALCG
+FPPAYKIATLRAEGLGIETVSLDAMPLDARLMRLYAREAVQDGLETGGLLEAGDYGAFLH
+AHIGRIATRRYLKRDWPQDLAEAIRLLTLGDLARLALTAEPVTLEDFLRTGGLAGAGVAE
+AGKAGLVDPSLSDLPATELVGDWYRLRMGSDLGLKAIAAERRTAYAALARAFAGRDWPEN
+SLQRALALMMRMMTAYAEGLPSIDFTLDWDSGAIRRD
+>tr|A0A1Q9AEQ2|A0A1Q9AEQ2_9RHIZ
+MITVFGSINMDLIATTAQLPRPGETVAGHGFSTAAGGKGANQALAATRAGAAVRMAGAVG
+ADSFAEGALALMAEAGTDLSLVGTVDEATGTAHILVGDDGENMIVVVSGANGRIGESEAR
+AAVASLSAGDLLMLQLEVPAAAVEAALKAARTAGITSLINTAPLTPEAAALSRLADIVVA
+NEHEFERLAGRTGLSPEERRAAMARLSGETGQTLVVTLGADGVIAIRDGQFYQAAGLSIT
+PVDTVGAGDTFCGYLAAGLDDGLSFERALRRAAIAGSLACLAPGAQPAIPMAADVDSAEI
+EAA
+>tr|A0A1Q9AQC5|A0A1Q9AQC5_9RHIZ
+MHLGLKRAMDIVVSLSALIVLAPVLLLVCLAIKLDSRGPIFFSQERWGRNCTKIRVLKFR
+SMRTDLCDVTGVAQTVKNDPRITRVGAFLRKSNIDELPQLINVLKGDMSLVGPRCHAIGM
+LAAGILYEDLCPNYHQRHAMRPGMTGMAQMRGLRGPTDRASKARARVASDLYYVNNFNIM
+LDIRIILGTIRSELSGGKGF
+>tr|A0A1Q9AQ67|A0A1Q9AQ67_9RHIZ
+MSATLESIRAFLYREARFLDDRDWDAWLNCYAQDASFWMPSWDDDDRLTEDPQSEISLIY
+YPDRSGLEDRVFRIKTERSGASTPEPRTSHMIANIEILAEGETEIELRYNFHTLNHRYKV
+TDHFFGATFVTLRRSGDGFLIAAKKVVLKNDYIRQVIDIYHI
+>tr|A0A1Q9ANF5|A0A1Q9ANF5_9RHIZ
+MTEDLVLYTNPMSRGRIARWMLEETEIPYQVEFIGFGERMKSADYLALNPMGKVPALRHG
+RALVTETAAICAYLAETFPEAGLLPRTDVERASYYRWLFFVAGPLESAVTNRAFQCEPPA
+DKARSVGYGTYDDVVSTLEKAVSAHDYIAGEHFTAADVYVGAQVAWGLRFKTLEERPAFV
+AYAARVANRPAARRAAELDDAALPKG
+>tr|A0A1Q9AMQ2|A0A1Q9AMQ2_9RHIZ
+MANPGSLAITVAGADAVRDELSGPRGRRPQRSFSGRNIMIYGTLLIAALYYLLPLYVMVV
+TSLKGMPEIRLGNIFSPPVEITFEPWAKAWASACTGLNCDGLSRGFWNSVRITIPSTVIS
+IAIASINGYALANWRFKGSEVFFTILIVGAFIPYQVMIYPIVIVLREMGIYGTLTGLVIV
+HTIFGMPILTLLFRNYFVSLPEELFKAARIDGAGFWTIYLKIMLPMSLPIFVVAMILQIT
+GIWNDFLFGVVFTRPEYYPMTVQLNNIVNSVQGVKEYNVNMAATILTGAVPLFVYFVSGR
+LFVRGIAAGAVKG
+>tr|A0A1Q9AD77|A0A1Q9AD77_9RHIZ
+MKPLDNTVAVVTGAGRGIGREIALHQARGGARLALIARSEAEIAETARLIESEGGQALPL
+ALDVTDGARVEEGLARVEEVLGPIDLLVNNHGAFRAFGPIWECDPETWWGDVEINLRGTF
+NTCRIAAPLMRARGGGRIVNLVGGGTGNSFPHGSGYAASKAAIMRFTECLNDTIRDKAVY
+AFAVDPGLVRTQMTELQLNSQAGKTYLPDLPGLFAEGINIPPDRVAALIAEIAAGRFDPL
+NGRLLRGVDDRDALARDMEVVVAADGRALRFTGLG
+>tr|A0A1Q9AE45|A0A1Q9AE45_9RHIZ
+MPSPSSATIEDVARLAEVSIATVSRAIHTPEKVATSTRQRVNQAIAITGYTTNAMARSLR
+MGRSNMILVLAPDIGDPNFSSILVGLENEARAHGYGVLIGHTQNDPERGLDYLKFLNSNQ
+AAGLLLFTGHAPFGHQTMTERLPPTVGLFEPVFNGQISYVGVDDTAGARKAAEHLLSSGH
+RRIAFIGESRTRLGHQRRRRGFDLALDAARIPATDRLVLEGDGTIESGRLALEQIFMRGE
+APTAFMCVNDATAIGVVNGLSARGYELPRDMSVIGFDDIPQATYVHPPLTTIRQPRSAIG
+RQAMALLLQSLDGPARPPEDILIMPDLVVRGSVTLPPRR
+>tr|A0A1Q9ALV0|A0A1Q9ALV0_9RHIZ
+MIFGGAAMVLHGLEPGPVKDIDVILSQETAAALAARHGWSNQADGTSALFRSAVLLRPDF
+GPIPVELLGGFQIRTQDGWTAVESGGSQPMRLGGETLHVAEARRLSALFRLCGRPKDIRR
+AAMLDARAERAD
+>tr|A0A1Q9AHD4|A0A1Q9AHD4_9RHIZ
+MTPRDLFCTIAMLLGATTALAQEPLRVVTPFEIASLEPSRGGFNFTRMEVAETLVGADDE
+GRAVPGLSTAWTLSDDRLTWRFTLRARAKFHDDTPVTAEIVAQCLERARSQPGPLKDAPL
+TEIRAVAPDVVEIATSTPFMPLPAFLAESSSQILAPSSYDETGAVRRIIGSGPYRITSLE
+PPLRFEVERFEGWTGGAKPAIERAIYQAVGRKETRALMAESGQADLAFTLDPAGTDRLRR
+AAGVAVTTKSIPRVITLKLNAHLPAFADVRVRRAVSLALDREGIASAILRSPEAAATQFF
+PPTMVGWHVPGLAPLRHDPAEARRLLAEAGWAPDAQGQLVKDGKPLHATLRSYAVRPELP
+VVAAAIQAAERDIGIDLDIAMMNSSDIPAGHRDGTLEMGLIARNFSLVPDPIGTMLADFG
+PHGGDWGAMGWASPQLTETLQALQETDAAQTRAALRGRVSEILQTELPVIPVAWYELRVA
+ASKRLDGVSIDPFELSYRISRMRWAD
+>tr|A0A1Q9AGX6|A0A1Q9AGX6_9RHIZ
+MKVDLTHAEPHKKAPFYSHLYVQVIVAITLGILLGHFYPQIGAELKPLGDAFIKLVKMII
+APVIFLTVTTGIAGMNDMKKVGRVAGKAMLYFLCFSTLALAVGMLVSNVVQPGAGMHIDP
+ASLDAKAVASYAAKAHDSTITGFLMNIIPTTIVGAFADGDILQVLFFSVLFGISLALVGK
+PAEPVVDFLHAVITPMFRLVAILMKAAPIGAFGAMAFTIGKYGIGSIANLAMLIGTFYIT
+SLLFVLVILGAVARYNGFSILALIRYIKEELLLVLGTSSSEAALPGLMAKLERAGCKRSV
+VGLVVPTGYSFNLDGTNIYMTLAALFIAQATDTHLSFGDQILLLLVAMLSSKGAAGITGA
+GFITLAATLSVVPSVPVAGMALILGIDRFMSECRALTNFIGNAVATVVVARWENELDKEQ
+FAAAMAGKLETDPVAIVDEPHRPALQPAE
+>tr|A0A1Q9ADC1|A0A1Q9ADC1_9RHIZ
+MTKAKPHHDLRSERAPIDEIDAQLLRALNADARQPLSALARQVGLSAPSVAERVRRLESS
+GILAGFTAEIDNRALGYSLCALVRIRPLPGKLHIVERRIQDIPEIIECDRVTGDDPFLAR
+MVVRSIEEMDTILDSLSHDAVTSTSVIKAQSVKRRLPPLR
+>tr|A0A1Q9AEZ7|A0A1Q9AEZ7_9RHIZ
+MAVSANRLELLQIADAVAREKVIDREIVLAAMADAIQKAARSRYGSESNIRADINSKTGE
+IRLQRLLEVVEHAEDYSTQIPLALARDRNPDAALGDFIADPLPPMDFGRIAAQSAKQVIV
+QKVREAERDRQFDEFKDRLGEIVNGTVKRVEYGNVIVDLGRGEGIIRRDEMIPRENMRYG
+DRVRAYVYDVRREQRGPQIFLSRTHPQFMVKLFTMEVPEIYDGIIQIKSVARDPGSRAKI
+AVISNDSSIDPVGACVGMRGSRVQAVVGELQGEKIDIIPWSPEPASFIVNALQPAEVAKV
+VLDEDAERIEVVVPDEQLSLAIGRRGQNVRLASQLTGWDIDIMTEQEESERRQKEFNERT
+QLFMNALDVDEMVGQVLASEGFAQVDELAYVDLDEISSIDGFDEDTANELQTRAREYLER
+LEAEMDAKRKELGVSDDLRGIDGMTGQMLVALGEDGIKTIEDFAGCAADDLVGWSERKNG
+ETKRFEGLFSKFEVSRAEAENMVLQARLAAGWITEEDLAREQEELQITEGDEEEA
+>tr|A0A1Q9ALI6|A0A1Q9ALI6_9RHIZ
+MDLVSAAAPAAALNPLPDADWFDRYEMRLEDGGLSAGEAARLILANPPAWAGWLMQLRNG
+LVRLAGLRGVAMKAGDEAGGFPILEERPERCVLGFNDRHLDFRIVVDIRQSGTGTLLGVT
+TLVKRHNLFGRAYLAAVGPFHRLIVPASLRQLQPQGARPYRAAGSEGKR
+>tr|A0A1Q9APC5|A0A1Q9APC5_9RHIZ
+MDPAAIDVIAPNFKRRLSGVTSTIIQLVPVQRRLGRRIAVLGPGLPTSLPHLHWRDLTQL
+WTPPAGRPARVWHARRNIEMLPGLILRDLLRMPLRLVFTSASQRRHTGWTKFLISRMDAV
+ISTSQRTAHYLDRDSTVIRHGIDIERFAPAKDKAAARRALKLPEQAQIVGCFGRVRRQKG
+TDLFVDAMISLLPIRPDWIAVIAGRATAQHVAFERELKEKVARAGLSHRILFVGEHTNIN
+DWYGVLDLFVAPQRWEGFGLTPLEAMASEVAVVATDVGAFSELVVIGAEETGIVVPAGQM
+GGLMGACAEFMDHPERRIAAGRRGRRHVAAQFTIEGEATAIGAVYDTVSGSSDRKP
+>tr|A0A1Q9ANB8|A0A1Q9ANB8_9RHIZ
+MLSQIRTLLSLSTAMIMATTAVASAEPSAELIAAAKKEGTLTTIALPHDWCGYGDVIAGF
+KAKYGLQVNELNPNAGSGDEIEAIKANKGNTGPQAPDVIDVGLSFGPAAKKEGLIQPYKV
+STWDSIPDSAKDAEGYWYGDYYGVLAFGVNKDIVKDIPTSFKDLKDAKYANSVAMPGDPR
+TGNSSLMSVYTSGMSTGAKTAEEAAKAGVEYFKELKKSGNLVAVNGSAQGMAQGTTPILM
+DWDYNVLAMRDKLAGNPPVEVVVPSDSVVAGVYVQAISAFAPHPNAAKLWMEYLYSDEGQ
+IGWLKGYCHPIRFNDLAKNKKIPADILAKLPPAAAYEKAHFPTLEDQATAKKVIGEAWPS
+VMSAQ
+>tr|A0A1Q9APY5|A0A1Q9APY5_9RHIZ
+MGEAQSVGLVRLPHAAGLALPTYETTGAAGFDLRAAVADAAPLVLAPMARALVPTGFIFE
+IPDGFEGQVRPRSGLAARHGITCLNTPGTIDSDYRGEVQVILINLGAEPFTIERGMRIAQ
+MVIAPAPQARLEERAEPSETARGKGGFGSTGV
+>tr|A0A1Q9AD19|A0A1Q9AD19_9RHIZ
+MDISGRIEGPEADKVRDALKDMLGRLERDGVSRAKASALIRAELERDAMSDQPESAPPSP
+DAPMREEPANDWPAA
+>tr|A0A1Q9AEZ1|A0A1Q9AEZ1_9RHIZ
+MTRPLSSRPLSTYRLQFREGMTFDKAAELAPYIKRLGVSHLYASPIFAATSGSTHGYDVT
+DSNRFDPDLGGQEGFDRLSAALKAEGLGLIVDIVPNHMASSLENPWWRSIVEWGADSPHA
+RTFDVDWSRPLTLTVLGGSFEEAVEKGEIKLGLDAQAGVIGLSYYEQVFPLAPSTYAQAL
+KTVDLPLARHLEALAAKADPGGEDDFHAAVRQAFSEDAAGTSALEEALAALAPAQITEIA
+EAQPYRLMDWKKAASGLSYRRFFEIAGLAGLRVEDEAVFTTSHALILDLVEKGVVQGLRI
+DHVDGLADPKAYLERLRAAVGPDVPIVVEKIIEEEERVPEDWPVEGTTGYEFIAALARLF
+TVKDGLDTLARAYDRFAPGDPYETLLHDAKMLMLQENFEGEVSTLTRIGREAAGAGVESN
+ETFAAALRALVAGFTVYRTYGTTGALSPADETVLDDALAAAAIDLSTQEREALGAIEAIL
+KGRSPSAAATDFRTRFQQLSGPVMAKAMEDTAFYRHNRFLALNEVGGNPVEPHLTVDAFH
+DAMIRRVVEQPEALSTTSTHDTKRGEDSRARLYALSQAPERWIEAVQRWHGQNAGAVQAL
+KEGAAPEPAVEWGLYQALAGAWPVGLKTDDAKGIEAFGTRFAAYVEKMIREAKLRSFWAE
+PNEAYEAAVQDFVRGLLSSPEFLRDFAATLGPYALTGLYNGLAQTLVKIAAPGVPDIYQG
+SETEDLSLVDPDNRRMPDFARLARLAEGPARMRLDFDALESGAAKQSLVRLGLAARQAQP
+ALFLEGDYRPLTLSGDHAHRFVAFARVSGTQAAVVVAPVRIHELLEASGAQGLDIAAGEI
+TVHLPQDLAGRVWQDRLGEHGGSMTAGDALALSASAAAPFLLMTTG
+>tr|A0A1Q9AIS0|A0A1Q9AIS0_9RHIZ
+MTETALPLAGMPAFANRPVKGNKGKGEDVAGFDFAKAVAALSNVVDEQPAEGEPAAKGKL
+AGKATVRVADLAKGSDRAGPADVASADTLLQTADKAEAGSVKGKGAHHGAKPSRLQAAQE
+DLPLAAEARDLPAVISDDKAVEEKAGADEKTVSHVQLLRKAARDNAAKTQNDGSQENVSM
+QVLHEALSKLKQTGKSAKEAASGDEEAASDEGESTTAAGVSGQNQGQLHGTGAAALLTML
+ASAHGGAHAAVASAKGAPLPDEAGQPSSLKLEGMPMPRLKEAAIEGDGPDMPKGTAEAVP
+DTLFRFSRADGKGQAATLKVTDDGLKAPSAEAKTPAKLEQVTVLDSRRFLGVAMTTANAQ
+IVTESVAKSARAGASTLEAVALLQGTQQASAAGKVLDTLKIQLHPNDIGPVTATLKLKED
+ELQVELRVQTGEAFRQLRSDQDAMVEALKSQGFSVDQINIVFTPASDTSQGGADGGGQGQ
+QGAGQFGSGTPGQQAGEGRGQAGAEERGAQRQASRNYDGKMGATDASLRPGDPGQSGDIY
+L
+>tr|A0A1Q9AFT0|A0A1Q9AFT0_9RHIZ
+MTGENQALLIDARGIEVTYGGRGLFGRSEAGFKVLHGIDIAIRRGETVGIVGESGSGKST
+LGRALLRLVPVSAGTIAFDGQPITDLSAARMRPLRRRLQMIFQDPMASLNPRHTIGRILT
+APLLLHGVVADRAGAERAALAMLEHVSLPAAVLGRSPHELSGGQRQRIGIARAALLKPDF
+VLADEIVSGLDVSTQAMALNLLKDLSREMGLAMAFISHDLSVIRAVCDRVYVLRAGRIVE
+QGPCAEVFARPRSDYTRQLLDAIPLPEIDPDWLGDRPMQPAA
+>tr|A0A1Q9AH16|A0A1Q9AH16_9RHIZ
+MRRDLSLFLTLAITQTTGWGTTGVLAVLAPAIAADLAVPLPLVFLGTAVFYVAMGLAAPL
+AGRAFRGIGARRAMAVGAVGLALGLAGLGLCTGLVPFLFAWGLMGVAGALFLTTAAYVHL
+ADVAGERARGLIGMLMLVTGLAGSLFWPLTAALEHLAGWRLTLEIYAAVMAFAVAPLVLA
+GLRQPEAAIASDQEMSPASPASKRALRGQIFWFLVLAIALNSFVTSGMEAVGITLFRVLG
+ADPALAIGLASFLGVLKVSGRLVELVGGKRWSALSTGLVAGALIPCGLLVLLLFGAGPVA
+LGLCLALFGLGSGAFAVARATMPLAFYQKADYAAAVSAIALPMNLTTALAAPILSGLITR
+SGASATLGLMVLLSGLAFLLMLRLKTLSARPPVRPVALADGSTA
+>tr|A0A1Q9AKR0|A0A1Q9AKR0_9RHIZ
+MVAMNRVMRIGSALILAAAVMVSSVPVAQAAGGTGIAVVVNGVPITTGDVAKRVAFMRLQ
+KAQGGEAAARQQLIDEVLKRQEILRVGMSVSTDDVDGAVKRFAAGNKLTVPQLSMILDKA
+GVGLDHFKQYVAVSMSWPRVVNARYGGGKRLSNEELVKRMQENGGKKPVTTEYYLQQIIF
+VVPAARRNAILSKRQAEANASRPKYPGCEQAKVFAATMLDVSVRDLGRMVSQELPAEWKP
+LIEKTEQGQVTTTLVTDKGVEYLAVCKKREVSDDAAAEIVFRAEDLESKKKGDEDPNSVR
+FVEELRKKAQIVNK
+>tr|A0A1Q9AI63|A0A1Q9AI63_9RHIZ
+MSHGATAAARAGILAGLAACCAIPTMPPASTPVIVVASLVLAVMTGWIVWQDASDFTIPD
+GPLLVIALLGVALRMSAAQGDWREALSILVDAGLCGGALLAIREAYYRLKGMDGLGFGDV
+KLAASGGSLLGITGFAHALLAASALGLAVVLMLMLIKPARRIDRLPFGALLAPACALVWA
+LSLVVAYR
+>tr|A0A1Q9AJJ8|A0A1Q9AJJ8_9RHIZ
+MAEKKTGIDQALIRDLANILNETDLTEIEVEQDSMRIRVSRSAPIQAYAQMPTYAAPPAP
+AAAAPAAAAQAAEAARSAKNALTAPMVGTAYLAPAPGSRPFIEVGAQVKEGQTVLIIEAM
+KTMNQIPAPRSGKVVEILVEDGAPVEYGEALVVIE
+>tr|A0A1Q9AH78|A0A1Q9AH78_9RHIZ
+MREWTVEGSDQLISDRWINLRVDHCRTPEGTAISPYYVLDYPDWVVVVALTEARELVMVE
+QYRHGAGRVLLELPAGSCEREDPDIEISARRELLEETGYEAASWRLVSSLYANPATQSNR
+LHVFLAEGARQVGAQQLDRGEEGMTVHLRPLDTILPGLASGVIGQALHVSALLLALGPQG
+>tr|A0A1Q9ANV7|A0A1Q9ANV7_9RHIZ
+MSQHHRRIWIGTSWKMNKTLAEARSFAETLKDAHGRIHPQIQPFVIPPFTAVREVKTILA
+DVPVKVGAQNMHWEDRGAWTGEISPLMLTDCGLDLVELGHSERREHFGETDETVNLKVKA
+ALRHGLTPLICIGETLEDRNSGRASEVLAREVEGALKGLSAEEAARPILLAYEPVWAIGE
+KGIPATADYADARHREIAEVARHVLGHAVPCLYGGSVNPGNCAELIACPNIDGLFIGRSA
+WNVEGYLDILARVAATL
+>tr|A0A1Q9AG40|A0A1Q9AG40_9RHIZ
+MVSAWMEAGDPLVIAQRWAGEGRRVALATVIDTWGSAPRPRGSHLVVDQDGNFEGSVSGG
+CVESEVITQAIEVIETGGAGRLLEFGVSNETAWRAGLSCGGRISVFVQDVAH
+>tr|A0A1Q9AIA1|A0A1Q9AIA1_9RHIZ
+MHAGLCRLRLHPDLFWRLTPVELAAATGAFAPEEAVPARNDLAALMAAYPDAPSSAGLDG
+DAASSPFFAGEPQ
+>tr|A0A1Q9AK63|A0A1Q9AK63_9RHIZ
+MSIDKAGTSGASTGQEAAAGASAAEADAKPSLPAADSREPAQATLPAPLSASSTGRPLLS
+CYFPLGDPAIALDCLDLYAGEGVDVLEIGMAAPDPFLDGADVRASMARADRTRWRGDLDA
+VLDRLARLPNPPRTLLMTYVDPAHPGLSDTSLWRGIDSLLAVSRPNDPLAARLEASALSA
+GTALSAFVALPPSPSALMRARQAGFYVMLQAHDGPTGPRARLDPENSGRIASLRTEGVKA
+PVMLGFGISTGEQARAARDLGADGVVVGSQVLRAALAGPGALRLLLREMRSGLDA
+>tr|A0A1Q9AMR7|A0A1Q9AMR7_9RHIZ
+MNGNGMKNEQGVKSGYFNAPLFAVAPMIDWTDRHYRAFARTMTRHALLYTEMIVADAVLR
+GDCQRLLGMDAVEHPVALQLGGHDPKKLADAARIAVDYGYAEINLNVGCPSDRVQSGTFG
+ACLMLTPDLVADCVSAMKAAVALPVTVKCRIGVDQQEPEMALRALIDAVTCAGVDAVWVH
+ARKAWLEGLSPKENREIPPLDYGLVNRVKAERPELFIGLNGGLQTLEAACAHLGAIDGVM
+LGRAAYQDSGLLSAVDARFPALVGGEAGRLAPQEPLTARGHRADPAFWQGVAETMAAYAG
+RHIAAGGRLIHVTRHMVGLFQGWPGARRYRQILSADAARPGAGPEVILRAFDAVLAAADM
+RLEEATEAV
+>tr|A0A1Q9AED0|A0A1Q9AED0_9RHIZ
+MTSFKLTLATLVASVAFVGAAAARDQIQVAGSSTVLPYAKIVAETFGETFPNFKTPVVES
+GGTGAGLKEFCKGVGADTIDIANASRKIKDSELETCKKAGVTEVEEVKIGYDGIVFATDA
+SNPDLKLTPKDLYLGLAAEVVKDGKLVANPYKKWSEINPSLPDATIAAYIPGEKHGTREV
+FEEKVLHAGCADSGAEKVIKETVKDEKDQARKCIAVRKDGMAVDIDGDYSETLARIAANK
+SGIGVFGLSFYENNADKLKVATVSGVVPSTETVASGKYPVSRPLFFYVKKAHIGVIPGLK
+EYVEFFLDDQMIGPDSPLAAYGLVAAPESERESMRKAFESGKTL
+>tr|A0A1Q9AIT9|A0A1Q9AIT9_9RHIZ
+MLRSPEPTWLSENPGTRTVLIHGMVMAPAFWRCFAPSIAITGRAAAYPLPGHSPWILGND
+ATPLTTEVIVDAYAQAIERDFDGEPVTLIGHSTGGFLSLLIARHRPDLVDRVVLMGAFAC
+GRFEGQERMASRILRLPWLGRLLFSRLFTRWIATKETFRWGSLECVFDKTVRWETEETQA
+TMEAVRAHLLASRPHEIAAFVVWMSRTSIVPELPRIDVPVLNIIGAGDRVVPPIHQIHLA
+AALPRCHTVILNAIGHLPMAEARGVVDRLISDFILLGPHGLSSRAAAQKNRSGGAKPVFS
+RKNEASGTNMTAMR
+>tr|A0A1Q9AGK9|A0A1Q9AGK9_9RHIZ
+MLLERLSPALFVALWSTGWVMAKYADLYADPLTFLVMRYGLAALIFAGLCRAMKVPRLAR
+PGASLHAVLSGMFLHGFYLGAVWWAIGQGVPAAISGIIAGLQPLMTALAAPAMTGERLSG
+LQRLGLVFGFCGIALAVLPKALAGGALGAAAVPLFPVLVNITGMASVSFGTLYQKRFLQE
+GDLRRIACLQYIGALIVTIPAALMLEDLRVIWSFELFAALGWAVLALSVGAIGLLLYLIR
+RGQVSRAASLIYLVPPLAAFEAYLMFGEPLTAPMIAGTAIAVAGVYLTNRKGRVGVEV
+>tr|A0A1Q9AK46|A0A1Q9AK46_9RHIZ
+MKKFNLSDWALEHRSLVWYFMIVFMIAGVFAYIGLGREEDPNFTIKTMVIQAQWPGASAE
+EVTKQVTDRIEKKLEELASLDRTRSVTTAGQTIIFVDLLPTTKARDVAPTWVRIRNMIAD
+IKGQFPSGVVGPFFNDRFGDVYGNIYAFTSDGLTQRQLRDRVEDARAKILTVENVGKVDI
+IGAQDEVIYLEFSTRKIAALGIDRQAVISTLQAQNAVTASGFIEAGPERVALRVSGQFAS
+EESLRAINLRIGDRFFPLTDIATITRGYADPPSSLFRFNGQPAIGLAIGMKEGANLLEFG
+KALDKEMERVTAEMPIGVTIGRVSDQPAVVEEAVSGFTRALFEAVVIVLAISFISLGMRA
+GLVVAISIPLVLAITFLVMAYTGVSLQRISLGALIIALGLLVDDAMIAVEMMVARLEAGD
+DLRKAATYVYTSTAFPMLTGTLVTVAGFIPIGLNSSAAGEFTFTLFVVIAVSLVVSWIVA
+VLFTPLLGVTLLPNSMKKHHEHKGVFARGFAGALGLAMRFRWITILLTVAAFGASLFGMG
+FVQQQFFPNSDRVELVVDWNLPQNGSIHETNRQMAQFEREMLQGNPGIDHWSSYVGQGAP
+RFLLSFDVQPADPTFGQTVIVTKSVEVRDTLRRELQAYLNRAFPGTDAFVKLLDIGPPVG
+KPVQYRVSGPDIQTVRRLAQGLAGIVGSDPRLIAMTFDWNEPARVVRVDVLQDKARQLGV
+SSEDIATALNSIVEGSAATQLRDDIYLIDVVGRAQSADRGSIDTLQSLQLPSSNGKSVPL
+SAFATFRYELEQPTIWRRSRQATITIKAGIDGPTQPATIVEALAPKVAEFSKTLPAGYNV
+VAGGSVEESAKAQGPIAAVAPLMLFIMATILMIQLQSFNRLFLVFAVAPLALIGVVIALL
+ASNAPLGFVAILGVLALIGILIRNSVILVVQIEDLRREGMAPWAAVIEATEHRMRPILLT
+AAAATLALIPISREIFWGPMAYAMMGGIVVGTVLTLLFLPALYVTWFRIRRDTPADDLKS
+GEASA
+>tr|A0A1Q9ANP3|A0A1Q9ANP3_9RHIZ
+MPLFLADAWHQCQFEYFREGVEIYRIFSGAPELALLRYAPGASVPRHLHTGVETILVLEG
+SQSDEYGHYGPGSLVVNPEGSVHSVSSQEGCVVLIQWTSPVQIL
+>tr|A0A1Q9AG76|A0A1Q9AG76_9RHIZ
+MLAVKDLTVAFGSNVVLDKLTLDVYRGEILGFVGASGTGKSVLMRTVLRLLPRQSGSIRI
+LGAEYDKVSEEERVALDTRLGVLFQHGALFSALTVKENIQVPMREYLDLSQEMMDDLAML
+KIALVGLKPEAADRYPSELSGGMIKRAALARALALDPDLVFLDEPTSGLDPIGAAEFDDL
+IAKLRDTLGLTVYMVTHDLDSLFSVCDRIAVLGKKRVLVEGTIDDMLAFDDPWVQSYFRG
+KRARSIVRDETPGEARQ
+>tr|A0A1Q9AGD4|A0A1Q9AGD4_9RHIZ
+MGYKIAVAGATGNVGREMLNILSERGFPADEVVALASARSHGTEVSFGDKTLKVKNLENY
+DFSDTDICLMSAGGAVSLKWSPKIGAQGCVVIDNSSAWRYDADVPLIVPEVNPDAISGFT
+KRNIIANPNCSTAQLVVALKPLHDVARIKRVVISTYQSVSGAGKDGMDELFNQTRAVFVA
+DPIESKKFTKRIAFNVIPHIDVFMEDGYTKEEWKVLAETKKMLDPKIKVTCTAVRVPVFI
+GHSESVNIEFESEMTAERAREILRDAPGCLVVDKHENGGYVTPYESAGEDATYISRIRED
+ATVEHGLNIWVVSDNLRKGAALNAVQIAELLVARGLIKAKQAA
+>tr|A0A1Q9AJS4|A0A1Q9AJS4_9RHIZ
+MAKPELGTKRIDPETGRKFYDLNKDPIVSPYTGKSYPLSYFEETSVAKVMEKAEEEDVAE
+VDTENTEVELVSLEEAEDGAAGDDLPDLGDDEVEIDSDDDDTFLEQDEDDDNNGLSDLIG
+VSDDDEEA
+>tr|A0A1Q9AKU9|A0A1Q9AKU9_9RHIZ
+MQYRKAMNVATPLRPVTGHTVCPHDCPSACALDVDLMADGRIGRVRGAAANSYTAGVICA
+KVARYSERIYHPGRLLVPQRRKGGKGSGQWQEIGWDAALDEIAEAFVKAEARHGSEAVWP
+YFYAGTMGQVQRDSIERLRHAKRYSGFFGSICTNPAWTGMTMATGALRGPDPREMAKSDC
+VVIWGTNPVSTQVNVMTHAIKARKERGAKIVVIDIYDSPTVKQADLGLVLKPGTDGALAC
+AAMHIAFRDAYADRDYMARYADDPAGLEAHLKTRTPQWAAAITGLSVEEIERFARLVGTT
+RRSYFRLGYGFTRQRNGAVAIHAAASLATVLGSWRHEGGGAFHSNNDIFRLDKRMLIGSA
+MADPEIRMLDQSQIGRVLTGDAEALRHRGPVTALLIQNTNPVNVAPEQRLVRQGFLREDL
+FVAVHEQFMTDTAVLADIVLPATMFLEHDDLYRGGGHQHILLGPKLVEPPETVRTNLFVI
+EELAKRLGVADRPGFGMSERAHIDAILAPSGSSFDALKEVRWLDVQPDFDTAHFLNGFGH
+ADGRFRFRADWTGTPAPNRPPASIGLLGPHAALPTFPDHAALIEAEDGDHPFRLATSPAR
+SFLNSTFAETRSSVEKEGRPSVMIHPEDAVRLHIGEGDIVRLGNQRGTIRLHAEIGGGAR
+RGVLVAEGLWPNGAHLDGEGINVLTGADPVAPYGGAAFHDNRVWLARDGEK
+>tr|A0A1Q9AL77|A0A1Q9AL77_9RHIZ
+MSALAPTPAGAGPDRKAASPARGTVIALSRRPQPRFNLKRIGIGLAQSVLPPLVVLALLV
+GLWQLLCSAPDASLPSPATVWEQSRDLIVSPFFDNGSQDIGLGWRVLVSLQRVAYGFGLA
+AIVGILLGAVIGQSIWAMRGLDPIFQVLRTVPPLAWLPLSLAAFQQAGPSAIFVIFITSI
+WPVIINTAVGVRNIPQDYRNVAEVLRLNQVEFFFKIMLPAAAPYIFTGLRIGVGLSWLAI
+VAAEMLTGGVGIGFFIWDAWNSSRLPDIIVALVYIGVVGFILDKLVAFAARIITRGAATN
+>tr|A0A1Q9APA6|A0A1Q9APA6_9RHIZ
+MSDTIPFSDFEKVDIRTGTIVEAQPFPEARKPAIKLVIDFGPEIGLKKSSAQITVHYTPE
+GLVGRQVLAVVNFAPRQIGPFRSEVLTLGFADENGAIVLASVERPVPNGHRLM
+>tr|A0A1Q9AKL0|A0A1Q9AKL0_9RHIZ
+MTKPGEDKDKQANGAGADFAPGQTSKPADIGKDISALSDWLNKMPMMQHPVAAFAAATAV
+GFGVTSQLAGIMLGAMQGMSDAARKTAADRETPAEPDVASDKDEAQAAAPAVVAEPAEAP
+VVPEAIVPEAVAEPEAALADVAALTEEPASKALVAPLPEARLPEEPEAEAKAEPKGAPAA
+KKPKARATASKPAAPRRRADKTADDLKKISGIGPKLEQVLNGLGVTRYAEIAAWSEDDVK
+RVDAELGVSGRIERDGWVEQARELMKN
+>tr|A0A1Q9AF17|A0A1Q9AF17_9RHIZ
+MRKYSVFAVAREAMRAHKGWEAQWTSPEPRAQYDVIIIGGGAHGLGAAYYLAKEHGITNV
+AVIEKGWLGGGNTGRNTTIIRSNYLYEESMDIYEHSLKLWEGLSQELNYNVMYSPRGVMM
+LSHNIHDQQVFKRHIHANRLYGIDNEWLTPEQAKEFCPPLDISASARYAINGAALQRRGG
+TARHDAVAWGYARAASDRGVHVIQNCEVKGIRRGPDGAVTGVETTKGFIGARKIGVSASG
+HNSMVLGMADVRLPLHSVPLQALVSEPLKPIFPCVVMSNTVHAYISQSDKGELVIGAGTD
+QYNSYSQTGGLQIITHTLDAICELFPIFRRVKMMRQWGGITDNTPDRSPIQGVTPVPNLF
+VNCGWGTGGFKATPGSAHLFAHLIARGEPHRLAAGLTLDRFRTGRLIDEAAAAAVAH
+>tr|A0A1Q9AD54|A0A1Q9AD54_9RHIZ
+MAKTRNRATGLPTLAEVAERAGVSPITASRALRSVPTVDPDLVDRVRQAARSLGYVPNPA
+ARTLASARSRTVVVLIPALSNHLFIEMFEAIETVLRARGFEPLLGHYQYDALEEERLIRT
+FLTYQPCGLLLTGFDQTPAATRLLTDCGLPRVHMMELGEETEIPSVGFSQDEAGTAVAWH
+LISRGRRRFAFLGAQLDRRVLQRRDGFQRALLEAGMQPAVEFLSPDPSSIALGCQQFRSL
+RRDYPDIDAIFFCNDDLAFGASFEAARMGVPVPRQIAFVGFNDLPGANELVPRLTSVRTP
+RAEIGRVAARRLLALLDGETLSQPALDIGFELMPRQSS
+>tr|A0A1Q9AFN2|A0A1Q9AFN2_9RHIZ
+MDYLNIGDALSPVMVALLSGRDVARVPSQSDALRMACVGTIGHGFSGGEVWFWGTGCSNR
+LKPSSDAPPEAYQRPDNANFRVLATRGPVSEQLLTGEAEGSIGVYGDPVWLLPRFYRPSL
+PKRWKLGVIVHLSELSDRDVEAHVKEELLRYRVPPELAGEIRLINTVAPIGMAGIRDKID
+EILSCERIVSTSLHGLVFAESYGIPCLSFPAHLAGGLQEVDLRQSGILDLRIVDLYRGLG
+LDRLVVYGQPAHLPTDWPALMAAIDQTWREKPFDAEALIAAFPLDLNPLQAPADGTIWDH
+PLLTGLTLQHDVRELNRKPKPQEERKGGWLSRWLR
+>tr|A0A1Q9AI88|A0A1Q9AI88_9RHIZ
+MQGLMNPTVFQDSFVGKNTAPVTLVVYSSPTCSHCIDFHENDLPKLQETYVASGKLKIAY
+RPFVRNSVDAVIFMLANARGQDKFDETVSTFMSKFDEIAAASNAEDVLREIAASMGVDRA
+GFDRAIADQTYLDKLNAATTEASQKFGVAGTPSFFVNGERVEVKRSFDEVSDAIAAAQDG
+>tr|A0A1Q9AP07|A0A1Q9AP07_9RHIZ
+MHTVATLLSILPFPQIDPVIVAIGPLKIHWYGLAYVAGILVGWRYARMLLATPRLWRRDT
+PPASLEAIDDFILWVAAGIVLGGRIGYVLFYDFAAVVENPLRALQIWNGGMSFHGGLLGT
+TLAMVLFARKRAIPMWSLFDIVAAVVPIGLFFGRLGNFINGELWGRITDVPWAMVFPTGG
+PFARHPSQLYEAGLEGIVLFIVLAVLIYRGRALKTPGLIAGVFVTGYGLARIVVENFREP
+DAQLGYLLGGWLTMGMLLSLPMVAAGLWAIWRARRAAALEGAR
+>tr|A0A1Q9APU5|A0A1Q9APU5_9RHIZ
+MPNTTGTNGIVSEAGDEGMTRRQALLSGAALAISRLAVGGAAPASALAALGIGTEASAQP
+AAKPPHIVYVMVDDLGWKDVGYHGSDIRTPNIDALAANGARLEQFYAQPMCTPTRAALMT
+GRYPLRYGLQVGVIPSGGSYGLATDEYILPQMLKDAGYRTAMVGKWHLGHASKEYWPMQR
+GFESFYGALVGEIDHFKHASHGVRDWYRDNEPLEEEGFDNLLFNQEAIKIVQGHDANKPL
+FLYLAYTAPHTPLQAPQEYLDKYSSIADPQRRAYAAMMSVVDDGVGALVETLAKRGMRED
+TIIIFQSDNGGVRSAMFAGESKVTGELPAQNGPYRDGKGTLYEGGTRVAAVANWPGKIAA
+EKVDGVIHVTDMYPTLASVAGIKLGRNKPLDGVNAWKTISEGKPSPRHEMVYNVDLMSGA
+IREGDMKLIWTAALPGKVELYDLAKDKGETTNLAERYPRIVRKLQERIRELAKEMAPPLL
+LGEAIKLTFGAPPKSADPAKLFDADD
+>tr|A0A1Q9AH58|A0A1Q9AH58_9RHIZ
+MFVTAAYAQSTPTEGAESHGAAPAEVHTETGVAHEGGHGSGVFPPFDQSTFASQLLWLAI
+TFGLFYILMSKVVLPRIGSILESRQDTIARDLDDASRAKSEADAAVAAYEQELAAARAKA
+NQIANEAREAAKAKAAAERTAIETELNGKIAAAEARIAEIKSRALADVGAIAEETASAVV
+EQLIGARVPETEIAAAVKASAN
+>tr|A0A1Q9AI97|A0A1Q9AI97_9RHIZ
+MRQRNEKAILRAATTLFAKKGFDGTRATEIAERAGLPKANLYYYFNTKEEIYRAAIRHLI
+AGWDKALRHIRADADPFEALEAYVREKLDYARKNADESRMFANEIISGAPFLSRADRKHM
+HDITLEKTLIIEQWVAEGRMRPVNPRHLFIVLWSTTQFYTNFEKITCDTLEKPRLSPSDY
+EDAARTIVETVLRGLRPGKASSDP
+>tr|A0A1Q9AMW3|A0A1Q9AMW3_9RHIZ
+MPETASLLAFALIAFGMVLTPGPNMVYLISRSICQGRKAGLISLGGVALGFLVYMTCAAL
+GITAIVMAVPYAYDALRFAGALYLLYLAWQAVKPGGRSPFQVRDLPKDSPRKLFMMGLLT
+NLLNPKIAVMYLSLLPQFVSMEHGSVLTQSLILGTVQIVISLTVNAIIAIAAGSIALFLA
+NRPTWLAVQRWLMGTVLAGLAVRMATEARR
+>tr|A0A1Q9AEJ5|A0A1Q9AEJ5_9RHIZ
+MRANYLFTSESVAEGHPDKVCDRISDEIVDLVYREAARTGVDPWTVRIACETLATTNRVV
+IAGEVRLPKSLMKTDKAGNEVINPTKFKAVARKAIREIGYEQDGFHWKTAKIDVLLHSQS
+ADIAQGVDNAADRQGDEGAGDQGIMFGYACRETAELMPAPIYYSHRILALLAEARKKGEG
+DAAHLGPDAKSQVTVRYADGKPVSVASIVLSTQHLDESWDSVKVREVVEPYIREALHDIE
+IADDCQWYINPTGKFVIGGPDGDAGLTGRKIIVDTYGGAAPHGGGAFSGKDTTKVDRSAA
+YVARYLAKNVVAANLADRCTIQLSYAIGVAQPLSIYVDLHGTGRVTEDQVEAAIRKTIDL
+SPSGIRRHLNLNKPIYAKTSAYGHFGRKAGRDGSFSWERLDLVKPLKDALKAA
+>tr|A0A1Q9AJ68|A0A1Q9AJ68_9RHIZ
+MASAPSMTGQPRRLDHLVLPVESLDASRRRMEAMGFTVAADAQHPFGTENACVFLADGTY
+LEPLAIASREDCEAAARAGNVFVARDQAFRFRRGPEGLSALVVSSEDAQADDRRFHAAGI
+SAGAPLDFSRIMRLPDGSEGTGSFRLAFAADLRAPDMFFFACQRLQSLPSDRTALERHAN
+GVTGIARVVLTEDNPSDFQYLLQEIFMQRHVAAQSFGMDLEAANAAVSVLTPEAVQAFFG
+EAGRLEGERGLRGFAVVFRVASRAQLEDTLRAGDVAFRSLGPLIIVPPASGQGVLFAFGE
+>tr|A0A1Q9AQB8|A0A1Q9AQB8_9RHIZ
+MIKTLRWIVFLLAALAMNFPVIVTLVTSFKTARELASNPGLWIQSPTLANYATVLGKTDR
+FNIYAYLLNSTSAALIGTLVALAIAFPAAYAIARSAIGRRVLLPVVINLRAMPLVIFAIP
+LYMMYQWLGLLDTRLGLGLILAIVNIPLALVILVNAIGEVPIELDEAASVDGASAARIML
+SVVLPVVRPAVTTCFIFGFITAWNEFLFGLMLTTSRAVPMTVGSSFFFAASGGGVQWGAA
+SAVMILGALPPALLGLIMYRQISASMTAGAVKG
+>tr|A0A1Q9AJH1|A0A1Q9AJH1_9RHIZ
+MLQPKRTKYRKQFKGRIKGVAKGGFDLAFGEYGLKSLEPNRVNAREIEAARRAITRHMKR
+AGRVWIRVFPDVPVTAKPTEVRMGKGKGSVEYWACKVKPGRMMFEIDGVSEELAREALRL
+GAAKLSVKTRFVQRIAE
+>tr|A0A1Q9API7|A0A1Q9API7_9RHIZ
+MGQGDTVLVLGATGGIGGAMVEALLARGVSLRALHRQAARQAQRDARIDWRQGDAMVEGD
+VLSAAEGVQVIIHAVNPPGYRDWNRLVLPMLDNTIAAARATDATVLLPGNIYNFGPDVFP
+LIRDGAAQNPQTAKGRIRGEMEERLKQAAETGLRSIVLRAGDFFGPGAGNSWFGQAVVKA
+GQPVRAITQPGRDGVGHQWAYLPDVAAAMLALLDRRDELAGFEAAQFGGHWDEDGTAIVQ
+AIRRVVGHPDLPVRRFPWWLLPLAAPFSQTMRELWEMRYLWRQTIRMDNARLVSLIGTEP
+HTPLDAAVRASLASLDCLKEPAAVVPVGRQIAAQ
+>tr|A0A1Q9AG49|A0A1Q9AG49_9RHIZ
+MANVTNELMYELLKRMNQRFDRVDQAVGELKNEMQSMRGTLISIHQDIHNIYGILGRHES
+RLDRIENHLELRELAEAQARFEPHP
+>tr|A0A1Q9ACP6|A0A1Q9ACP6_9RHIZ
+MLTQLFSGARRRPLSSLSEQEVLALAIASEEDDARIYLAYADQLRAAYPHSAKVFEDMAE
+VENTHKNMLIDMHRRRFGERIPLIRREHVRGFLERKPDWLQKNLSPDAIRREAELMEQQA
+YRFYVEAAKQTSDAGTRALLHDLALAEQGHEDIARMLDERHRPEEVREEEQETAHRQFVL
+TYVQPGLAGLMDGSVSTLAPIFAAAFATQDTWQTFLVGLSASVGAGISMGFTEAAHDDGK
+ISGRGSPLKRGLACGIMTALGGLGHTLPYLIPNFWTATIAAVIIVFFELWAIAFIQNRYM
+ETPFLRAAFQVVIGGGLVLAAGILIGSG
+>tr|A0A1Q9ALN7|A0A1Q9ALN7_9RHIZ
+MECVVGLMSLGFSSDASAVLAAMNRSQAIIQFDLTGKILSANKNFCAALGYEMSEIVGQH
+HRMFVDPAEASSAEYHQFWSNLSAGKFDQRECRRIGKGGQEIWIAASYNPVFKRGKPYKV
+VKFATDITALKLKSAEDAGKLDALSRASAVIEFTAAGEILTANENFLSTLGYQLAEIKGK
+HHSMFCDPTYTSSEDYRRFWTRLAGGEFIADEFMRLGKNGKKVYIQASYNPIFDMNGKVF
+KVVKFATDVSTRVENVDQLASALQGLAEGDLTQKLGTPFLPTLEKLRTDFNGAAFKLRSA
+METVSQNAAAIAAASQEIRAASDDLSRRTEQQAASVEETAAALEEITTTVSDSSRRAREA
+GQLVRKTKESADRSGLVVKQAVEAMGKIEASAAEIANIIGVIDEIAFQTNLLALNAGVEA
+ARAGEAGKGFAVVAQEVRELAQRSAKAAKEIKDLIGASNGHVKNGVSLVGETGKALEEIV
+GQVVHVDSNVCAIVEASREQATGLKEINMAVNTIDQGTQQNAAMVEETSAAAHGLAKEAD
+ALFHLLSQFNIGGTHSHRGALKSASAAPRPAANAVRQMTAKVVHAFQGNAALAGGDSWKE
+F
+>tr|A0A1Q9AQ63|A0A1Q9AQ63_9RHIZ
+MKTDELLTLLSADTAPVRPLRRMLSVALAIGFLVSALVMIATVGMRPDLAVAMIEPRVVA
+KLSVTLLAAASSAVLVFRIGRPGVPLGRTLRALLLPAALLAAAVAIELSVLPPDHWKASL
+IGRNALFCLFFIPVLSAVPLIGFLWAMRAGAPERPGWAGAACGFSAASMAAFIYAFHCPD
+DSPLFVMTWYVIAIGLVTLTGAAAGRRLLRW
+>tr|A0A1Q9AE96|A0A1Q9AE96_9RHIZ
+MPLPAVLTERLTVPVLAAPLFIISHPALTIAQCKAGVIGAFPALNARPQSQLDEWLDEIT
+STLSAHDREHPQRPAAPFAVNQIVHKSNTRLEQDLALCVKYKVPVVISSLGAVPEVNAAV
+HSYGGIVLHDVINDRHARSAIAKGADGLIAVAAGAGGHAGTLSPFALIQEIRAWFDGPLL
+LSGAIATGGAILAAQAMGADMAYIGSPFIATPEARASEAYKAMIVESNAADILYSATFTG
+IPGNYLRPSIVQAGLDPDHLPPPGLASLDLDRTEGGQGAKAWKDIWGCGQGIGAIKDIRP
+VADLVGRLAQEYGEARARLCCTGAA
+>tr|A0A1Q9AMJ2|A0A1Q9AMJ2_9RHIZ
+MKTYAIDTNILVRLLVLVDEEQTRIVEDLLMQSRLVILWSVLLETEWVLRSIVKADRASI
+TEKFRSLLFMPSLQVERAEEMAKVLDLHEAGMDFADAMHLVLAGARTFITFDRALVRRAK
+RKWPEARVELAQDAGEDSQGS
+>tr|A0A1Q9AC88|A0A1Q9AC88_9RHIZ
+MLKFNPLVADLPAPPIPQIGAWARAYDGAQGPLLDMSQAAPGFAPPAALLTALGQAAASP
+KAAGYGPIAGELALRSVYAAEICAIYGADIGAQNIQITAGCNQAFVACALALLAPGETML
+MTNPYYFNHQSTLAMLGLQVDLVPSDAAYGFLPDLEALEQAIRPGVRALALVSPNNPTGA
+IYPPDLLLAIFHLCRRKRIWLILDETYRDFLPEGHGAPHLLLRQPGWQNHLIGLYSFSKS
+CCIPGHRLGAITAGVHALAQIEKVMDNLQICAPRAAQIALAAVLPDLKPWQEENRREIAR
+RSVAMRQTLDGLEDWEIVSIGAYFAYVRHPYPDIASSFVAEKLGRIGGVLTVAGDVFGAV
+QEAYLRFAFANAPVSAIETLEDRLARFSLPGI
+>tr|A0A1Q9AEZ3|A0A1Q9AEZ3_9RHIZ
+MIEIGKSEQDFKREPCTLSDSSLWNMSRGNGQRFCDHDMRQNKDLKCGKRIREIATRFSS
+V
+>tr|A0A1Q9AFM3|A0A1Q9AFM3_9RHIZ
+MLPDMNFYLVAIPAVILVGFSKGGMGEALALMGVPLLSLVVPPVQAAALLLPILIAMDMV
+SLWAWRHNGDRRTLLILLPGALAGIAIGWATAAVVPRDALRLIIGLIAVLFALRYAVQVW
+RVRRGLVVTPRPHRPLLAGVLGAMSGYGSFVAHAGGPPFQVYALPLQLPPRDYTGTMVRF
+FAILNAVKLIPYFALGQLDTDNLMTSVSLFPFAVIATMAGAFFVRRMKPQTFYPFMYMMA
+FLAGLKLVHESLSTWLAP
+>tr|A0A1Q9AJB5|A0A1Q9AJB5_9RHIZ
+MDVRTEARHIPLCVDLDGTLLATDTLWEGVAVVLMRNPFLIFSLLLWALRGKGRLKHEVA
+VRTGRAAKDWPYREVVLQRLERERKAGREIVLVTGAAECIAQGVAAHTGLFSSILHSSTE
+HNLTHNNKRDALVARYGEAGFDYMGNSADDVPVFEAARRAIIVAPDPVAERWWRKHDAER
+LDTGPTSAIVALKCIRMHQWAKNVLIGVPMVLNHTILHMDALINTVLAFFAFSFLASAVY
+IINDLSDLTNDRNHPKKRYRPLASGQISVPIALTLALSLVLASLGLTALLPIEFAGTLAL
+YAVATTAYTFVLKRKLLVDVFTLAGLYTMRIAAGSAATQTDLSFWLLAFSIFFFLSLALV
+KRYVELHEHIGRADDELVPGRGYRPVDFEMVGQAGVASAFSSALVLAMYVHSKEMMEMYA
+LPWALWPLCPLVLYMQLRIWMMARRRMLHEDPVVFIMRDWRSLVIMSIGALLILAGALGP
+R
+>tr|A0A1Q9AD47|A0A1Q9AD47_9RHIZ
+MQSFSNAGGGAIVLAMAERIIENRAYLSEIDGKIGDGDHGVNMAKGFGMAAERLKGTEAT
+LAGALDTLGTVLMTEIGGSMGPLYGVMFTEFAETIEGLETIDAAAFSRMLHAGLAGIQSI
+GSAKVGDKTLIDTLVPAIEAFDGATSAGRSFAEALDALVAAAEAGRDSTLNLVARIGRAS
+RLGERSLGVLDAGATSCAIILKTLCEGARARLG
+>tr|A0A1Q9AGC5|A0A1Q9AGC5_9RHIZ
+MVQTTMARERLFALREQIAKLEGHAAPALVAQARAEALKACLDAEETDAPVGAQDYTPVP
+DRLALRIPALDQALEGGLPLQAISEIRAESHRDAGAASGLALALSACLRARHASGNPAEG
+PQASPRRAGQPLVLWISDRFCSREDGRPYGIGLEGFGLPSAALIEARPRRLEEALFAAEA
+ALQSGLFCATILEIAGNPKGFGLTESRRLSLRAKAAGRPLLLLRLSGAEEAGSTALRLQV
+AAAPAQARRLPDGTPLAGSLGNPVFRVTLEKSRLPAPLTFLLEWNPHACQFLPVASADDA
+ALARPAHSGAVPAASGHRPAAPPRQAGRISHG
+>tr|A0A1Q9ALE5|A0A1Q9ALE5_9RHIZ
+MTDATPETGPSACTEQTVDDVLIAGGGYVGLSLAVAVKMAAPHLAVRVVDGAPDGAWKRD
+GRASAIASAAASMLDVLGVWQEIAAEAEPIRRMIITDSKTGDPVRPVFLTFEGDGSDGKP
+FAHMVDNVAMVGALRARAQALGIPIQQSAVAESFRSGDHQVVLSLADGSTLPARLLVACD
+GVRSRLRQSAGINTVVFDYGQSGIVTTVEHERPHDGTAHEHFLPAGPFATLPLKGNRSSL
+VWTERTEDAARLIESDDLIFEDQLERRFGRRLGALKVVGPRRAFPLGLTLARAFVAPRFA
+LAGDAAHGIHPISGQGLNLGFKDVAALAETIVEADRLGLDIGSLSVLERYQIWRRFDTFR
+MGVTTDVLNRLFSNDVTPVRALRDFGLGLVDRLSPLKRFFISQAAGEASPSDPRLLAGRP
+I
+>tr|A0A1Q9AMN9|A0A1Q9AMN9_9RHIZ
+MATWWAPWTWFGEGRSHADNFIRNVGAAPGKFGLPVNERTALQLSAVLCAVRVIAEGVAQ
+VPLKVYRETEEGKRTVRSPAKDHSAYSVLHRRPNAWMTSFEWRELMTLHAVLLGEGYSII
+HRVSGKIDELIPVHPSAVQILFDGHDVRYRISVDGVSADYERNEVFRLRGPSMDGVTALP
+IVRMAASAIGLAQMLERSQSELQSNGARPSGILKLKDGQLNPEKKTEISDAWRKKFGPGG
+GGGVAVLDANWDFLSMTMTAVDQQHLESRKMQVEEIGRAFRVLPIMMMQSDKAATYASAE
+QMFMAHIIHTLGPWLDRWEQAIDRDLLDGEEAVYAHFQVKGLMRGAAKDQAEYYAKALGS
+GGAAGWMTQNEVRALEDMDPVDGGDELFRGAQNDTGASSDADDPAAPDGTTQEDE
+>tr|A0A1Q9AD11|A0A1Q9AD11_9RHIZ
+MRLKDKVALITGGARGIGLGFAEAFVAEGARVVIADINIARASEAAAAIGPAASAVKLDV
+TSVADIEACVTAVDAEFGGIDILVNNAAIFDMAPINDITEESYDKVFDVNLKGPLFMMKA
+VSNVMIARARGGKIINMASQAGRRGEALVTLYCASKAAIISATQSAALALVKHGINVNAI
+APGVVDGEHWDIVDAHFAKWEGLKPGEKKAAVAKSVPIGRFATPDDIKGLAVFLASSDSD
+YILAQTYNVDGGNWMS
+>tr|A0A1Q9ACX3|A0A1Q9ACX3_9RHIZ
+MAAEPDLSTPEHDDGASSSRIATLFAEYRVYLTAIAVIAIFSFVTIAISRLTAEVRYDDV
+MDALADTTWTSILLAVLFTGLSFAALIGYDLNAIDFIGRRLRTPSVAITAFIAYAIGNTA
+GFGPLSGGAIRFRAYSRLGLTPSEIARVIAFVTLSFGLGLLAVAALSTLMVAPRLETVIG
+LSSEWLRGVALLFVLVMAALVVLGGNGRTLSFAGLSLRLPDSRTSSRQFLVSAFDIAASA
+SVLYVLLPETHVGWPTFFAIYATAVGLGVLSHVPAGLGVFEAVMVAALGNAISMEQLLGG
+LVLYRLVYHVLPLIIAIILVVVTEVRAFSAKPVASDLGQIAVRLAPPLLSTFAMMLGAML
+IFSSVTPTPDSDLNVLARLLPLPLVEAAHFISSILGLVLFVASRGINQRLDGGWWIGLLA
+AVTALVLAPIKAIALFEAALLAVFVGAMILNRKAFTRRASLFRQGLGPNWLAAMGVVVVS
+AATILFFVYRDTDYSHDLWWDFEFSGEAPRGLRALLGLVLASITVTVFSLMRPATLRPQA
+PSQADIDKAVDVVRGQDSADANLVRMGDKRVMFSESGKAFIMYGIQGRSWIALTDPIGDE
+ADFSELVWQFVESARAAGGRAAFYQISPALLSSCADAGLRAFKLGELAIVDLDRFELKGG
+RLAGLRQALSKGVREGMSFSLIAQPDVAAVLDDLRAVSDSWLAHHETREKSFSLGAFDPD
+YICAQPVAVLYKDGKIVAFANVMVTDTKHEATVDLMRFSPDAPRGAMDFLFVSIMEKMKA
+EGYRTFNLGMAPMSGMSRRDTAPVWDRVGSLLFEHGERFYNFKGLRAFKSKFHPRWEPRY
+LAVSNGTGAALALLDATLLISGGVRGVVGK
+>tr|A0A1Q9AFN4|A0A1Q9AFN4_9RHIZ
+MSKLKLLATVAFVALMAANGAAVAQDAAADPVVAKVGDAEIHKSELDLAVNSLDPQLAQL
+SDEQKQAAALSGLIDVKLLAKDASQEGLGNDAAFKQRIAYLTDRELHNAYFKKHVVDAVT
+DAEVKARYDKEVAAIKPQEEVKARHILVKTEDEAKAVIKELDAGKDFAALAKEKSTDPNK
+DDGGDLGYFTKDRMVPEFSDAAFALEKGKYSKEPVKTQFGYHVILVEDKRMQPPPPLDQV
+APQVKQLVMRDKYLALLEAAKSKSGVDIADPALKKAYDEANKAEAEGAEGAEGGQN
+>tr|A0A1Q9AM81|A0A1Q9AM81_9RHIZ
+MNIGEAARQSGVSAKMIRYYEKIGLIAPAGRSQADYRTYGMEDVHGLRFIRRARDLGFSV
+EQMKALLALWRDRDRASADVRAIAQAHIADLERKAEAIAAMTQTLKHLVDHCHGDQRPDC
+PILEEFAAPRMEPDRPTPHRPEKFGPASLSPNLTPSLADRSR
+>tr|A0A1Q9AFI6|A0A1Q9AFI6_9RHIZ
+MRLTGYWVTLFRLERLRLASRFCRAVERAQGFSVQSERLRRLVNALILPFVSILPPISLH
+FDSTLWPAAGKIALPTKGLRQFFLFSFMPLP
+>tr|A0A1Q9AHJ4|A0A1Q9AHJ4_9RHIZ
+MNAVLGLDIGTTSTIGILVGLPGKILATASRPVTLASPQAGWAEEDPGEWWENVRAIIAE
+LLAASGIAPGDIKAVGVTGMLPAVVLLDKGGAVLRPSIQQSDGRCGYEVEELRGEWDEAD
+FLARAGNGINQQLVTAKLRWIERHEPTVFARSATVFGSYDYINYRLTGTRAVEQNWALEA
+GFVNVSTGLIDPELVALAHIGPDIVPPKRASSEIMGHIDPRGAAETGLAEGTPVVGGAAD
+MIASALGAGVVDAGDVLLKFGGAVDILTATDRVQPDARLFLDYHLVPGLYMPNGCMSTGG
+SALNWFARQFAGGEEAAARSAGLSIHQHLDRLAATKPAGADGLTILPYLLGEKTPIHDPD
+ARGVIEGLTLSHDIGHLWRALLESYAYAIRHHVEVLIDMGHAPRRFLVSDGGSQSTLWMQ
+IVADVLNAPVQRLSGHPGSCIGAAWAAAIGVGLESDWRGVTRFVTFSDVLAPQSESVAVY
+ERGYRRYRDLYRRLEPSWRQRP
+>tr|A0A1Q9AKA0|A0A1Q9AKA0_9RHIZ
+MLLSIRGLEKRFSGARALAGADLEVAAGSVHGLLGENGAGKSTLIKALSGLVRPDAGTIR
+LDGTPVTIDGVAEAEALGFRFIHQELSLVPHFTAVENAFVGRRYPRRGPFIDRRAMAQAI
+AEVARDIAPDLPLDVPAARLTTGQKQLVEIIRALTGAPARLVVMDEPTASLSDGEARRLH
+QAVRRLSARGVAVIFISHRLDEVMALCDRFTVLRNGATAGSGAISEIDRPGLVRLMSGRE
+ELAAAPRAVPAQSPAVLTVSALPFGPGEERISFAIRSGEILGLYGLVGAGRSSLMKIVWG
+ARGHDEGEIRLDGRRLRPGSIGDRIAAGGAYVPEDRRHEGLITSRSIAENLAIADLTAVR
+LQPGLPLTGLGALKRRALAIQAALAVKMGSPFDRPLTLSGGNQQKLLFGRWFGRPIRLLI
+LDEPTRGVDVGAKAEIHALARRFAEAGAAVLMTTSDMDELLALSSRVLVLAGGRITAELD
+GAALTPARIIDAAFQHASRKDPAA
+>tr|A0A1Q9AQ31|A0A1Q9AQ31_9RHIZ
+MSDIKAIAGARIFDGQSWHEEAVLVVKDGQVSGIVLPEEVPPAARRVDAAGALLVPGFID
+LQVNGGGGVLFNDLPEIDAIERICAAHARFGTTALLATLITDGLEVRARAIEAGHQARLA
+HVPGFLGLHLEGPHLSIARKGVHDASLIRPMSEADLDAMLGCAHLVEHLMVTVAAENVTT
+DQVRRMREAGIIVSLGHTDADYATVLRYAEAGATTVTHLYNAMSPLGHRQPGMVGAALAD
+GRLSAGLIADGFHVDPVAIGIALRAKVGPGRVFLVTDAMSTIGSDMSGFLLNGREIFRKD
+GRLTLENGTLAGADIDMLSSIQFLHDEVGVALDEVLRMAASYPADVMGISARKGRLLPGL
+DADFVLLTPELEMVATVIGGREVYRA
+>tr|A0A1Q9AG13|A0A1Q9AG13_9RHIZ
+MSASSSPSSSLSPVVSFDWLEERLGTAGVKVVDASWYLPAHKRDPKAEYAAAHIPGAVFF
+DQDAISDPTSGLPHTLPAPEAFAAAVGALGLSDSDTIVVYDGPGYFSAPRAWWMLRVMGA
+ANVFVLDGGFDAWKAEGRPVSDAETTIEPAVFSARFDEKAVTSFQDMKSIVASGSRQIAD
+ARSAGRFSGEEPEPRAGMRSGHMPGARNLPIGQLTEGGKLKSPEALRETFTAAGIDLDAP
+VVTSCGSGVTAAVISLALNSLGHENHTLYDGSWAEWGSRADTDVVTGKE
+>tr|A0A1Q9AGH9|A0A1Q9AGH9_9RHIZ
+MATVEVNSANFQAEVLNAAEPVVVDFWAEWCGPCKMIAPSLEEIADELKGKVKVAKLNID
+ANPELAAQYGVRSIPTLALFKAGEVADIKVGAAPKNALSSWINSATA
+>tr|A0A1Q9AJ40|A0A1Q9AJ40_9RHIZ
+MNWTPGPEGYLFIAIAGFLATDIWRWLGVIIGNRLDESSEMLNWVRAVATALVAAVVSKL
+IVFPTGELAASPLWVRLLAVAVGALAFFLGRKTPAIGIGTAIATLALGLWWIGF
+>tr|A0A1Q9AJ63|A0A1Q9AJ63_9RHIZ
+MTGATILVADDDAAIRTVLNQALSRAGYDVRITSNAATLWRWVSAGDGDLVVTDVVMPDE
+NAFDLLPRIKKARPDLPVLVMSAQNTFMTAIKASEKGAYDYLPKPFDLTELIAIIGRALA
+EPKRKPVKVEEDPQDGMPLVGRSAAMQEIYRVLARLMQTDLTLMITGESGTGKELVARAL
+HDYGKRRNGPFVAINMAAIPRDLIESELFGHEKGAFTGAQQRSTGRFEQAEGGTLFLDEI
+GDMPMDAQTRLLRVLQQGEYTTVGGRTPIRSDVRIVAATNKDLKQSINQGLFREDLYYRL
+NVVPLRLPPLRDRAEDIPDLVRHFVAQAEKDGLDVKRFDNEALELMKAYPWPGNVRELEN
+VVRRLTALYPQDVITREIIETELRADIPDSPIDKNGGRTGTLSISQAVEENMRQYFAGFG
+DALPPPGLYDRVLAEMEYPLILAALTATRGNQIKAADLLGLNRNTLRKKIRELGVSVYRS
+SRSA
+>tr|A0A1Q9AMV6|A0A1Q9AMV6_9RHIZ
+MDARQMKIKAAEAALAHVEDGMRLGIGTGSTAEEFVRLLAERVEAGLSVQGVPTSERTAR
+LCVELGVPLRSLDELPELDLTIDGADEVDAELRLIKGGGGALLREKIVASASARMIVIAD
+ESKVVDTLGAFKLPIEVNLFGLAATRIAIEKAASQCGLSGEIALRMTGDGAYTTDGGHLI
+LDASFGRIPDAEALSNALYRIPGVVEHGLFIGIASLAIIAGPGGARVMTR
+>tr|A0A1Q9ADG5|A0A1Q9ADG5_9RHIZ
+MSLTRTLTAAALACCMAAPGIAQASDVTLNFYHSYASTAEFLKPIVADFMKDHPNIKIKL
+QVPAESYSAANQTVIRGIMTDNLPDVYLPSYSTIAPLIETLKQNGRDVELQGLLTSEGKE
+WVDANYSAKLLQLGQVDGKQYAMPFTASLPMLYVNQDLVTKAGGDINNFPTTWDGVIALA
+QKINALNTGASGLSFSVGGLSDDWYWQMMVLSTGAGILNKDNTGIAYDNAQGLAALKATQ
+DMAVKTNMTVNTTPEPTTQAFFAGKVGMIVGSPSSLTNYTKSVGDRFTLRTMKFPMLNPK
+DGGLPAGGNALVILTKDKEKQAAAWEFIKYLTGPKAQAEVSQATGYMPTNKKSEDILKDF
+YAKNPNFQTVFSEMDWAAPWYSYPNNTADDIWKGVALTLDKLQRNQMTPEAALPEIRDHV
+AKVLAANK
+>tr|A0A1Q9AJF6|A0A1Q9AJF6_9RHIZ
+MRSGVIAQKVGMTRVYNDAGEHIPVTVLKMENCQVVAHRTEEKNGYVAVQLGAGQKKVKN
+TTKALRGHFAAASVEPKAKLVEFRVSSENLIDVGSELTASHFVAGQLVDVTGTSIGKGFA
+GAMKRHNFGGLRATHGVSVSHRSHGSTGNNQDPGKVWKGKRMAGHMGQTRVTTQNLEIVS
+TDEDRGLILVKGAVPGSKGSWIVVRDAIKAGIPENAPRPAGIRSAKVEGAE
+>tr|A0A1Q9AQ23|A0A1Q9AQ23_9RHIZ
+MTLFCLRDGFTGSIRFYMQKAHVGFLWFIPDLMAFGCLLFFTYFHIVRERNPAGIFFIIA
+FWWSVFVSVFFMNDTVFTLFSSIKMFIPMFVGFSFYERNITDIRWFQVFSVFIFMASAIG
+VILNPYVDYPWLGQEIDSFGLTRQATKLWWVDGVPRYGGFAGDSTMAAFMMLFTYLLISP
+YRSVLFNVICWPILVYALYLTNSKTAIGLFSLFAILYLYMNTIPQPLRIKVLKLFTRLSF
+IALFVPPLLMVTLGGVDLGAISPNLLSLADRINNTWNGPFIFVSQYFPIGMFVGCGMGCY
+TYTMNYTALQPFYLPLDNFYLATFIMMGYPFLLFIIFLSTRVNLMRDPVKLSMLMLWNVY
+SVTVQGYGPSYATLIYGYAISEVFGRIILRRVPRQQARKPTYAVTAMEGRTVKP
+>tr|A0A1Q9AJC7|A0A1Q9AJC7_9RHIZ
+MKAVRVAALGLLVAVSSVLQAGAAAAETTWAVMDVTSGTFLGGQGGKTRRPPASLAKMMT
+LYLTFEALRAGRLHWDDRIAMSANAASKVRMKLNVKAGTTISVREAVSAMIILSANDAAT
+AMGEHLAGSEAAFARRMTEKGRQLGMRDTIFATPAGLTARAPQLTTAEDMARLGLALKRD
+FPAQYKLFSQRSFVFRGRTIHGHNNLMYRYAGVDGIKTGYTDAAGYNLVSSLSTPKSHLI
+GVVLGGRSAAARDNQMAALLNRFSHEKSVTVAAARPAGKAGRKGVTPVAAEDADDDEAEA
+EAETTAPRPADRPMEVADIIDDADLEQGDGGMPVAAEHVSARSSWTIQVGTSGSRKGAET
+LRDHVGDLLKAGGKPAKGTVIASGSGHKALFRVRFSGTGSEKDAASACRVLKRSHVSCLP
+VRHS
+>tr|A0A1Q9AQC2|A0A1Q9AQC2_9RHIZ
+MAGARAAKPRRKAEERKQEILYDRELLDLPSEMRWREWMMRVEAVIFASSEPVSRETLAR
+VVGKDCSIDLLIDDLVGELRDRPYELVSVAGGWQHRSRPRFAETIRASSAPTRGGVAALS
+ESEAMVLMAVGYYQPITRGELSKIFGKDVSRDTIGGLRGAGFIGSGPRSPTPGAPYTYVT
+TPYFLSAFGMETLRDLPNIEALEDAGLLSKQGGSVDTDPAIGDDMLED
+>tr|A0A1Q9AEV5|A0A1Q9AEV5_9RHIZ
+MPQGPDEAREAIDLIQRIGIVPKLLDVCCRVTGMGFAAVARVTETHWIATQVLDQSDFGL
+KAGGQLKVDTTICHEIRSHRTAVVIDDVSQDPAYAAHHTPAIYGLQSYIAMPIILSDGTF
+YGTLCAVDAKPHRLNTPEVTGLFTLFAELLAFHIDAQRRAVEQDETGALRERFIAVLGHD
+LRNPLASLDAGTRMLAKTELTPRAKGVVELMRASIERMSGLIDNMLDFARGRLGSGLALD
+ETAPASLAPALGHVIEELRLAHPSRRIEAQLTDLPVRCDAGRVSQLLSNLLANAIAHGAA
+DLPVSVEASVTDGRFSLSVANGGPPIPPELQQDLFKPFVRMGGNGGGNGSGTGLGLGLFI
+AAEIAKAHGGTISVASDARETRFTFSMPHH
+>tr|A0A1Q9ANK8|A0A1Q9ANK8_9RHIZ
+MRAAGRRAPEPVVAPVEILRITQATRATFADLFIRMGFLCFIHRGEKRVVCPRKGEMIGR
+EGDLMIFPPGSIVTLENRPLLNGQYEADGVYFSSELIEAVFADQPAGGGPEVQILTAVAH
+RPEAVLALIRQTLEDAALPPPIRAHRLVEPLIWLRHHGIRLRPLPADEPLARLRGLIETD
+LSHPWRAAEVARHFAMSEASLRRWLGRSGHGFQQILQTTRLEKGLTLLQTTRLPISEIAL
+DCGFKTPSHFSDSFRQRFGIKPKAIRTAAD
+>tr|A0A1Q9AQB9|A0A1Q9AQB9_9RHIZ
+MKSILLGWPFWALLSAGFAAMTAIFAKVGVENVNSDFATFIRTIVILAAAGMMVYVTGNW
+QSPGTVSGRSWSFLVLSGLATGASWICYFRALKLGDAARVAPIDKLSVVFVAIFAVLFLG
+ERLSLPNWLGVCLIACGAVLVAYRA
+>tr|A0A1Q9APF8|A0A1Q9APF8_9RHIZ
+MANQNDSFIREVNEELRSEQVRAVWLRFGGVIIILAVLVVLGTIGKVAYDYWRDTSASAS
+GDEFLAALTLAKQNRTDEAIGALNKLEADGHGSYPVLARMRAATLQAQKGDTAAAIAAFK
+AVADDKNVEAPVRDAARLRAAYLMIDGGNYAEVAAQVEPMAVAGNPMRHSAREVLGLAAY
+KAGDLAKAKSWFEAIVGDDQSPRNVAGRAQMLLDVMAAGDANTPAG
+>tr|A0A1Q9AM63|A0A1Q9AM63_9RHIZ
+MPASTSSLLATLADWRRRFLTPETLMRLLPASVILAAGIVLNIRTHDLLSDHRDLVVHTH
+EVIEMSKDVLIGLDDAETGQRGYLLSSDTAYLKPYVHARERLAWMAPKLKEMVSDNPDQT
+ARADQLQALINLKLAELAHAITVHDEQGVQAAILVERDSMRTARMDEIRQVIGEMTESEK
+TLLSARKTEVDHDEERVRLVAISVALLSLVSRWCVEIWLGRRKRQEELGTV
+>tr|A0A1Q9AK10|A0A1Q9AK10_9RHIZ
+MTPFLSLEGRRALITGGTSGAGAATVALFRQLGARVLTTARKKPADLSGAAFVAADLTTT
+DGVQAVVEAVQAEFGGLDILVNMLGGSSAPSGGFAALTDAEWDKEFALNFFPAVRLDRAL
+LPGMIAQGRGVVLHVTSIQRNLPLPEATTGYASAKGALNTYSKSLSKEVSPKGVRVVRVA
+PGWIADPGQNGLALRIAAEAGISYDAAVQVIMNALGGIPLGRPARPEEVADLIAFLASDR
+AASITGTEHVIDGGTVPTA
+>tr|A0A1Q9AQ65|A0A1Q9AQ65_9RHIZ
+MIDAMAAAGIKFDFVTSASIADGGAPALASYVATLQAFQAAHPGAILTVEGLNEANVSNS
+IYDHAFTMEAAAAFQKALYGAVKGAAGLSNVSVINLSISHDSLADYKALGDLGQYSDFAN
+AHAYPHTGTLGDPSMEYSMGLAQGASSKDPLIVTETGYTTYQSAAGLGASETAQAKLILN
+NLLNAYENGSQKTYIHTLLDTSDSAYRGDMEVYFGLFHEDGTPKLAATALHNFTTILRFG
+DDGTAKAGTVFDYALSGAPDQTHSMVMQKSAGVYDIVVWRDTIVWDEKTKQDLTPRTANT
+SLDLGKVQSVVYVYDPLKGTAPIATYHDVRSITLPLSDHALIVEIGAKGPVVETPPQAAN
+SKLTMTSADFVAKIDTLAQTSGIQSITLSDSQVLKVSSVETMKHIIQKYGALLSKVAGDT
+VFSVTYGEATWQKVQTFDEAGNLLSRTDYGLSNGKIVSECKVALDGSFVYTAFNIVGRDY
+TIEKQTVNAKGQVTDLLRSHADGTPAYREVTRSDGKEYLYYNAKGALLNDVTVALDGSRT
+TLTYDAVTGKLARMIVAKDGNIETTTYSAGVKTGVSTLFKSGAQETATFDSVSGKVTSDV
+MKNADGSSVTKLYVNGVLSRQYEKYADGSQKNYINGLTGKTYVNEVQTVDAKGNLIDILR
+SHADGSLAYREKTDALGNKHYMSYDAQGRLLGDATVATDGTRTTLSYDVATGKMTQSSLQ
+SADGTLTVKTFVNGVLTAQAIKKADGSADYTSYNKTGLSYATLHQVVDKAGKIVLLERVH
+ADGTFEYREITKIDGGKQFLSFNPKGALLNDVTVGADGSRTTLTYDAATGTLSRTIVEKS
+DSAETTTFIAGIKTAVSTLFKSGVQKTLTFDAAGKVASDSLQNADGSSVTKLYVNGVLSR
+QFEKSADGSQKNAIYGLTDKTYTGEVQTLNAAGKMIDLLRVHADGTPDYHEISASDGSKE
+YLFYDAKGNLLNDVTVDAAGNRTTLTYDATIGKLARMIVEKDGNVETTTYSSGVKSGVSI
+QFKSGAQETVTFDATSGKVTSDIVKNADGSGITKLYVDGVLSRQYEKYIDGSQKNSLYGL
+TGKTYVTEVQTVDAKGNLIDIQRSHADGSPDYREITKADGTKEYLFYDAKGALLNDVTVG
+TDGGRTTLAYDALTGKMAQSTVQAADGTLTVKTFVAGILTAQTIKAPDGSVDYMSYNKVG
+LSYTTVHQVADKAGNITLLERLHADGTFDYREERHADGSKDFYYYDVKGQITAHVDTAAD
+NSRVVDTYLTNGTGDIRTDSYDNMLKLLVSNLAHSDGSHDITLYADKQTFHGGAGSDTIQ
+FRNTVSGSFVYEGGKDTLVSFNLVNGAQDHVVLDKSWAGSFSDLHLSQQGLDTVISFDKD
+DSIVLSNTIVSSVTADHFFFV
+>tr|A0A1Q9AQE7|A0A1Q9AQE7_9RHIZ
+MGLFGSLLGHGATVDPAELNKRLDGVLIEGEQALLAFKLIRDFFVFTEGRLILVNVQGMT
+GSRIDYTSIPYRAITRFSVETAGTFDLDTELRIWVSGSDVPIEKTLSKGTDVRGIQRALA
+TGILR
+>tr|A0A1Q9ANR8|A0A1Q9ANR8_9RHIZ
+MIWLHDLNFFVKLALAFAVMVTAWLAPGWQAGIAFALLCVLLLWLLRVPGVAGYSKGAAL
+LTAMVMASWLLNLTLQGIPLAAALPVAAAMAARLVATTAAFFFVMETSTPGAILAASSAA
+RLPPLVTLVLSLTFGVIPMLRADFERIADAQRARGMEIDDVGLPSRLRFALARGVPLLVQ
+AIRMAHAISFSLSLYGYDLTRKRTTWRQVGLMVEPRLMMRNKADAK
+>tr|A0A1Q9AK23|A0A1Q9AK23_9RHIZ
+MRLPNTLSRRQFLSLSGVTIASAGLASCATSTAEFRQQTTPYFRPVPGQVTITYQEPMAT
+AWRGGPVDTGLPPQSAYYAEIYGPVFDGGFALPAIPYQQIDPRFYRQQVADPFGEAPGTI
+IVDTKDRFLYLVQPGGRAMRYGVGIGREGFAWSGRGVIQWKQKWPRWRPPNEMVARQPHL
+AEYSIANGGMAPGLNNPLGARAMYIFKNGQDTLYRLHGSPEWKSIGRAVSSGCVRLMNQD
+VIDLYDRVRVKSPILVV
+>tr|A0A1Q9AD05|A0A1Q9AD05_9RHIZ
+MGIKTTLLAGLLAGTVSAFALPALAEDVTITVWSLDKDTQPAPNLIKDFNALNNGIKVEY
+RLLQFDDVVSEAMRAFSTGQAPDIIAVDNPEHALFASRGAFLDLTSRIQTSSVIKPDNYF
+PGPLKSTIWDGKNYGVPKATNTIALYYNKDMFKAKGLDPNAPPQTWDELVEAARKLTDPA
+KNVYGLAFSAKGNEEGTFQFLPWAQMGGGSYQHINTPGAVKALQTWKTILDEKLASPDTL
+TRGQWDSTGTFNSGNAAMAISGPWELDRMVQEAKFDWGVTLLPVPEKGAPRSSAMGDFNW
+AVFSSTKHPDEAFKVIEYFASQDDKMFERFGQLPARKDIEIKPTGNAHKDAALKVFLEQL
+QYAQPRGPHPAWPKISKAIQDAIQAALTGQMSPQEALDQAAKKIQAVLG
+>tr|A0A1Q9AFJ6|A0A1Q9AFJ6_9RHIZ
+MPVTAFAGGPSPAGVKPASHPPVKHGRIGVLLVNLGTPEGTDYAPMRRYLKQFLMDKRVI
+EWSRVFWYPILFGIVLNTRPGKVGKAYESIWNKERNESFLRTYTRSQAELMAESFADLPN
+VTVDWAMRYGNPSIDSRMKALQAEGCERILLFPLYPQYAAATTATVNDEAFKTLLKARWQ
+PALRTVPPYHDDPIYIEALARSITGHLATLDWEPEVVLTSFHGIPQSYFKKGDPYYCQCQ
+KTARLLREKLGWSKEKLQVTFQSRFGPEEWLQPYTDKTVEALAQKGIKRIAVVNPGFVSD
+CLETLEEIAEEAAETFHHAGGEKFAHIPCLNDSADGMAVLEHVVRRELAGWV
+>tr|A0A1Q9AFD4|A0A1Q9AFD4_9RHIZ
+MTTPLFDTIALIGIGLIGSSIAREIRHKHLARRVVVSTRSEETLRRAAELRLGDAYTTSA
+AEAVHEADLVIVSVPVGASGAVAAAIAGALKPGAIVTDVGSTKASVIAQMQPHLPAHVHF
+IPGHPIAGTEYSGPDAGFIGLFRSRWCILTPLPDTDEAAKAQLRRFWEALGSNVDEMDPG
+HHDKVLAIVSHLPHIIAYNIVGTADDLETVTESDVIKYSASGFRDFTRLAASDPTMWRDI
+CLHNKEAILEMLARFSEDLAYLQRAIRWSDGDKLFDLFTRTRAIRRSIVEAGQDTAAPDF
+GRHANDPVE
+>tr|A0A1Q9AD15|A0A1Q9AD15_9RHIZ
+MEEFSEFVGLSRPTVSKYFNDPASVRKKTRDVIEEALKKSGFRPNIFAVNLNRRRSNIIG
+VVIPNATDPFYMALTRRIELIASEAGFLAFVLTSDGRPELQDRAIRTFRSMNVAGAIVAP
+LDLNGRRSTLAELDRDIPLVYVDSPPDDMAAFVGTDNRQSFALIVDYLCRSGEAPCYFGM
+PAVNTNARTRLDAYCEAMERLNQAPHVLALSDVASWDFERFGFEEAERLFAQPDRLPTRT
+ILCANDRLAFGVIAAAYHRGLKVGHGADCDLRVAGHDDHPLSQYACPPITTVAQNYNEIG
+RLAIGLLMRKLGESEEQSGPHRDQILLKSELMLRRSA
+>tr|A0A1Q9AIP3|A0A1Q9AIP3_9RHIZ
+MIACFDIGGSAIKAAYAAAPDRLTIGARVPTPLDSFDGFADAIAGLCRAHPGAIAAISIS
+IAGVVDPRNGRLTCANIPCINGRTIAADLSARLGLPVFIANDADCFALAEALLGAGAGHD
+NVFGVILGTGVGGALVIDGRIVTGAGGFAGEWGHGQALATEVGEPPRRIGHFACGCGQKG
+CVDTLGGARGLERLHGALGGAPADSHAILAAWRAGDGEAARTIDAYLELVAPPLALTLNI
+TGASIVPVGGGLANAWDLMEALDAAVRARVLRQVDHPLLVRAALSTEPGLTGAALLGFQE
+LAARSSAVPGAQA
+>tr|A0A1Q9ACP7|A0A1Q9ACP7_9RHIZ
+MEDHLFSAARAAMAKAHAPYSKFPVGAAILAEDGATYAGANIENLSFPEGWCAETTAISH
+MVMGGGKRIKAVAVVAEKLALCPPCGGCRQRLAEFSGPDTLVFLCDEAGVQKRMRMDELL
+PHAFATDTIG
+>tr|A0A1Q9AGA2|A0A1Q9AGA2_9RHIZ
+MSEAQKGAVIVLSSHVVRGAVGNRAAVFGLEKLGHPVWALPTIVLPWHPGHGPSTRMPVP
+AETFARMIEDLMAAPWAGEVTAVLSGYLGMAEHAEAVADLVTSLSARNPDLIYACDPVIG
+DEQGLYVPEATAVAIRDRLIPLAGLATPNRFELSWLTGASLGDNNHLLDAALTLGPKRVL
+VTSAFPMITGSTGNLYLSGRNALLAEHRLVERAPKGTGDLLSALFLARLLEGLDEERALH
+LATASLFEIVARSASRGADEMTLTQDSASLVTPMAMVQMRRLFHPAQAPRR
+>tr|A0A1Q9AHA0|A0A1Q9AHA0_9RHIZ
+MTERGYRVAVLDCDPLLTLHDWCSTAWPERLTSARADKPADISRHLEAFKRQADFIIVDL
+SAATDVMNALTFALSDFVVVPMQGSAVDARGAIHTLNLLKLVEDNRRMVIKSSVLLTRLN
+PMVLTNSAKHVSQVISKQNIPFLDAAILERSAYRDMFTKMASLFSAEDPRIHNLDKARRD
+ILCLTDAVERRLAG
+>tr|A0A1Q9ADB1|A0A1Q9ADB1_9RHIZ
+MAKAVNFLIWMLVSLFVLTLVTLPISLQTHLVAAFLCMALLAILKVMKAEGNWRLIGLGF
+GTAIVLRYVYWRTTSTLPPLNQLENFIPGFLLYLVEMYSVAMLALSLFLVSMPLPEKKKR
+PGTTAYRPTVDVFVPTYNEDAQLLANTLAAAKNMDYPADKLTVWLLDDGGTVQKRSATDI
+PSARAAERRHAELSRLAADLDVKYLTRERNEHAKAGNLNNGLKQSEGELVVVFDADHAPA
+RDFLLETVGYFEEDPKLFLVQTPHFFLNPDPIERNLNTFGHMPSENEMFYGLIQRGLDKW
+NASFFCGSAAVLRREALQDTDGFSGVSITEDCETALALHGRGWNSVYVDKPLIAGLQPAT
+FASFIGQRSRWAQGMMQILIFRQPLFKGGLTFAQRLCYMSSTLFWLFPFPRTMFLIAPLF
+YLFFDLEIFVGSGGEFLAYTMTYMLVNLLMQNYLYGRFRWPWISELYEYVQTVHLLPAVI
+SVMLNPSKPTFKVTAKDESITQSRLSEISAPFFIIFAILIAAMGMVVYRLYVEPTKADVT
+LVVGGWNLLNLIFAGCALGAVTERGDKSAARRVTVKRRCEFKVGDAWYPAVIDNVSVDGL
+LVHVYDQSLAPLKAGNIEAIRVKPYSEGIPDTMAVNVVRSSKGEGEAISVGCTFAPQRAL
+DHRLIADLMFANSAQWSEFQMGRRRNPGLIRGTLSFLGIAAYQTNRGLYYMLRGLGSARP
+KLPVPAPAKGR
+>tr|A0A1Q9AN54|A0A1Q9AN54_9RHIZ
+MRGTLASHSDTVVFGGANALLVENQDGEWELLQFADAMGDPVPAGARVIVANTALGQTGI
+SADMLGLALNWRAGPAGSSLGGDDYVAQTVTLRGKARRPLAPVHLRSIQLSNGDWRLSWI
+RRTRIGGDSWDQADVPLGEEREAYEVDILDPVNGHVRRVVRAITAPSLTDIVLDGERQSR
+NGA
+>tr|A0A1Q9AQB4|A0A1Q9AQB4_9RHIZ
+MSALSSIPPARSRAPAQPQALSGALVGLTLVALPVFLLGWLIVYPILSAVLETVFPAGEN
+GARALSLASYRFFFSDPYSLANLQVTLWTTLVCGVLLILVGLPIALYLRFSQGRFAAYVQ
+AMAIFPMFVPSIILSYALIRTIGPNGTVDLILNALGLPKLPTPYLTPWGPVIGLVWDNLP
+LTVLMLTAGLGQISNASVEAARDVGAGPFRVFLAVILPRMANSLLVTASFAVLGIFSAFT
+LPYVLGPAAPEMMGPFMDRTFSDNNDPLNALTQAVISFGFCLVFGLFYVRSIARNQEGRP
+>tr|A0A1Q9AHM9|A0A1Q9AHM9_9RHIZ
+MKLPAATPASTTRPLAPLPAWALPRDRALPEADAAFAAGIALKSLDDLVRINPVWSGGWR
+SRQALTCAEAAVRWMGRKEDKQALRDAVLLTAAHGDPGPAGKVLLAYQRLAMRRPGFSSR
+AIMELADLLGQAWDNRLASAVDHADNALQSGRPAPFAAAALLTAIVAVRPDAEPLAWALA
+DLLIALMLGWNRPVPLLMAERDGPAFRVAAGRGRVRPGDADFARAVCLALVDGASSALRS
+ASDIARRADTLLACAAKVRTKGAAPVIQALLDEDAVAASAPGSNLSRWAASRLFDRLEGF
+GAVRELSGRSAFRIYGL
+>tr|A0A1Q9AN25|A0A1Q9AN25_9RHIZ
+MRFICACVLIMLSALTGAQTARAEKDMCEVVGQIAEAIMQRRQNGSSLQSSLELVRKVGP
+EGTAKVFEALVIAAYERPMFSTDDNKKSAVGEFRDDSQLACIKGTRSK
+>tr|A0A1Q9AEL7|A0A1Q9AEL7_9RHIZ
+MIKSELVQIVAARNPHLYHRDVENIVNAVLDEITDALAAGNRVELRGFGAFSVKNRPSRS
+GRNPRTGDSVFVEEKWVPFFKTGKELRERLNPGNADAVEDEDED
+>tr|A0A1Q9ALD0|A0A1Q9ALD0_9RHIZ
+MPGKVNFAKMNGLGNKILVVDMRGRTDRITPAAAIALASASETHFDQIMAIHDPRAAGTD
+AFIDILNNDGTGSGACGNGTRCVVQALAAETGRRSFTFQTAAGILQAVEHEDGMVSVDMG
+APVFDWQRIPLSEAFHDTSRIELQIGPIDAPLLHSPSALSMGNPHAVFFVDRDPMTFDLA
+RIGPMLEHHPLFTEKANITLAQVTGPAAMTTRTWERGAGLTLACGSAACAAAVSGARTGR
+TGRSVTITVASSPNRQALTIDWRETDGHVIMTGAAEWEWDGQLDPQTGQWARTITGAAAS
+>tr|A0A1Q9AHZ1|A0A1Q9AHZ1_9RHIZ
+MADQLSSADKEVFSKGLINLMITRYPPAAGAEGLMLLQFMPQAIEAAPVNMNGVTADEIM
+ARGRELVAQARAAGALTTPPDANGTLACVRKKVAIASATFEKGDYSLGSRFSVTNNLPYA
+IAGIWIDYKIKSDNRSVPWAEEDFVMAISGGIEPGETRQLSTSFSLLSRETPMTAKVFMT
+VRDVADPDKKLVVKAAGGVSGWPTDRSPKGCQL
+>tr|A0A1Q9ANB1|A0A1Q9ANB1_9RHIZ
+MTNLVTIAGIPVDADDPCALYAALAAAKAKRLAGEAVEESELQSPVMRQRVKVASSSIAD
+IDKELVRLQAACQAKMTGCRPSRRWPLRY
+>tr|A0A1Q9AD34|A0A1Q9AD34_9RHIZ
+MMSLDDITRELATLRDYWRYAISRFNAADLSYGHGTLTAADDAAFLLLDSLELPIDRLDP
+FLDARLLPAERRLLAERIEARVTTRKPSAYLTGRSYIQGVRFHVDERVIVPRSHLGELLF
+TEYLNPEGSSVLPDPTTVESALDLCTGSGCLAVLAAKFLPLAKVDAVDLSPEALEVAKIN
+VTAHEVEGQVRLVQGDLFAPLKGRTYDLIITNPPYVDHAALSGYPAEFQAEPVMAHDGGE
+DGLDLVRQILDQAADHLNPGGGILCEIGSGREILEEEYPHLDFVWLETAESQDAVFWLAT
+EAFDA
+>tr|A0A1Q9AKZ5|A0A1Q9AKZ5_9RHIZ
+MSAMRLADRRLIHVTGADAESFLQGLITTDLGQLGPDEVRAGALLTPQGKILFDFLVSRR
+PDGLTIEIAAGQAEALLKRLTMYRLRAAVTLGAEPDPMVAVGFDAGTGGLRDIRFEKAGL
+QLFRHYAGNSSDHSSQDGAADYDEARLTAGIAECGPDYPPQDAFPHDVLLDLNGGLSFRK
+GCYVGQEVVSRMQHRGTARRRLVLVTAETALPESGAPVLSAGRPIGALGSVRGARGLAIV
+RIDKVGDALAHGLLLTAGEVPVTLALPAWTGLSFPEEPAEEAHQL
+>tr|A0A1Q9AMI6|A0A1Q9AMI6_9RHIZ
+MASHAIEIRNLYKIFGARGADHVEAVRAGMSKTELNATHNHVLGLKDINISMPAGGVMVV
+MGLSGSGKSTLIRHINRLIEPTSGEVLYDGVDICRMSELDLREFRRHKTAMVFQKFALLP
+HRTILENTCYGLEIQGVPGMERRRRAMEWIERVGLSGFENRYPNQLSGGMQQRVGLARAL
+TNDAEILLMDEAYSALDPLIRVDMQTVLLDLQKELKKTVVFITHDLDEALRLGDKIAILR
+DGEVIQQGSGQDIVRYPADAYIAAFVKEVNRGRVLRVETVMTPLSGPVEGPAIPAGTVLE
+AAARDLSSAGASVAHVVDPAGLPLGRLDLHALVGAMVTESTEAREAAA
+>tr|A0A1Q9AFH0|A0A1Q9AFH0_9RHIZ
+MRDATTASVLASVRRLEAVAFRAWPAEQAIYDGSWLIRLAKGHPSKRLNSLNPLDPGDRR
+DIAGRLARAAERFAAIGRPLTVRLTPLAPPELHAHLEGEGWERFDESIVMSADLAQAATD
+GIDQLPLRDTRRFVEARLAISAEPDSLREALVSILDSIKPETGLFLLQSGERPTAVTLGV
+LDGGLIGLEQVAVAQDLRGQGLGMAVVQAALRWGQLHGARQGWLAVGADNAPACALYRKL
+GFAEVYRYAYYRERKRP
+>tr|A0A1Q9AHX3|A0A1Q9AHX3_9RHIZ
+MQQVVATNKPITHVADVPMQGNIIRNFTPNWFATTMGTGILSVALAQFPGHSWLFATGQA
+LWLFNILLFATCTALYAARWTRYFHEASRVFSHSVVSMFFGCIPMGLATIINGFLIYGIP
+HIGDTAVAIATTLWWIDVLMSLACGLAIPFMMFTRQSHSIDQMTAVWLLPIVASEVAAVS
+GGLLLPHIADAQTQLTVLMTSLVLWACSVPLAMSVLVILFLRMAVHKLPHVNMAASSWLA
+LGPIGTGALGLLVMSQTGPAVLSANGLAGVASAFGGASFLGAILLWGYGIWWLATAVLIT
+LRYLREGLPFNIGWWGYTFPLGVFSVATLRLSTMVPMSAIAVFGAVLVAGLACMWLLVAA
+KTIKGAVDRSLFVSPCLKAD
+>tr|A0A1Q9AC33|A0A1Q9AC33_9RHIZ
+MKNFALYTAMSALALSAAAFATPAAAAQPTACLITKTDTNPFFVKMKEGATAKAKELGVT
+LKSYAGKIDGDSESQVAAIETCIADGAKGILITASDTKGIVPTIEKARKAGLLVIALDTP
+LDPINAADMTFATDNLLAGKLIGQWAKETMGAGAKDARVAFLDLTPAQPSVDVLRDQGFM
+IGFGIDPKDPKKIGDETDPRIVGHDITNGNEEGGRQAMENLLQKDPTINVVHTINEPAAA
+GAYEALKAVGREKDVLIVSVDGGCPGVKNVKAGAIGATSQQYPLQMAALGVEAIKKFAET
+GEKPKATDGKDFFDTGVTLVTDKPAAGVKSIDTKEGLAKCWG
+>tr|A0A1Q9AET0|A0A1Q9AET0_9RHIZ
+MDPLIVSLRIAPQALAHFDALRRRYFPPERNVIAAHVTLFHKLPGEEEDEIRAVLQDEAE
+RTLEFPVTVRPPRRLGFGVAYDLESAALMRLRATLSARFARHLGPQDRQGFRPHITVQNK
+VSVKVAQDTLAELAAAFVPLTFAAEGLDLWRYRGGPWEPAATHGFRRDPASSALLPR
+>tr|A0A1Q9AFC1|A0A1Q9AFC1_9RHIZ
+MERLSGGCLCGKVRFVASGRPYRVGLCHCLDCRKHHGALFHASAIYPEDAVAITGETRAY
+AGRHFCPNCGSPVFARNGDETEVNVGSLDTPDQFTPTYELWTIRREAWLPPFPSLKPYER
+DRDESGRRTE
+>tr|A0A1Q9ACW3|A0A1Q9ACW3_9RHIZ
+MASALLQTFGSLSLRDAQGQGLKFPQKGLLLLAYLALSGRGRIGRDEASVLLWSDLERSV
+RHTNLRKTISRIREAQAAAGLPVLSVSDEAIWLPPETTLTVDAALLDTEDAPLRDMTELL
+RRPFPGDAEVPFGDFHRWVLAQQRHHLQRLRTRLLRAQECGDAPVSAVREAAFFLLEREP
+QDEVVRRCLSGQPKAPETGVGPSEPVTALQPAPRRTPGLTQLASPAASAVEPIYTPLSTL
+KAVIAPPPVSAALPRLALLPPVLKPGAHKSVAGTVGALIEDITISLCALRHVAVVAPYTA
+QRIQQSSEKVDVLAKHSVSYLVDTALSAEDLFVQIIFVPLDRIIWAQHFSIEGQWAAHRR
+TIASVIADCIAEQLRQHEQPLADYERHPEAYHAYLTGLQQTTRLTLQAIRSARRGFRQAL
+YLNPEFSHAYSGLARTFSLEWILTAHGDKTLLARAEENSRLAIERQPELAVGHKELGVAK
+LYLGQIDESLEALARAEELSPNYADAIYSYADSLVHASRPAEALEKLEKAMRLNPMSPDM
+YYWSAAGASFFVGRYQDAVDYIARMAEQASADRLRAASFAMLGDLKMARRYRRKDRQANP
+HFDLEKWLAVVPIREQWQKDLYRDALHRAGY
+>tr|A0A1Q9AIJ8|A0A1Q9AIJ8_9RHIZ
+MCALLRLSALAAVLLSVLPAFAAAPVRQIYLIQNSGWMEPYFLDPQSQFLSLAERLIDTT
+QLEGIDITVASFNQEGQLPGHHSPEVLLSGAYDPAVVQRALAGLSVPRRPNGRYADADFL
+GALQVTLGDLMQGGEGIIWMLSNNKNSPNNDQNVADNTRGFYDLLRNSPFITRILAYPLP
+MPVTGPNFSEKGFIVYGIAYGETAARALDVIAGPHAPLRGAFADPPVFLKPIEPQTLELE
+LAGRQVDEGASVAMENGVVVVDGLDAEAGSTLGFSGRLRNVAYPKKIASARISANWNTAA
+EGGGALAVTPESISQLAAGAVSDPIDFTLSVPAAERPPGLDGLFATQKTVDGEMTILLGD
+LAFDLDDGFVEKAAAVFGGAMMGEGQRKFVEQQLPAIFFDFRSISTSVTTVPIRMVFHFS
+AWPLYTAAASGVVLLGGLAALAFLLLRARPHLVEVAGQRQRLMLKPGQTLQVTGGDGRAH
+KVRGRLFGPPSISAT
+>tr|A0A1Q9AKQ4|A0A1Q9AKQ4_9RHIZ
+MSQAGKNGLTYSDAGVDIDAGNLMVEKIKPHVRSTRRPGADGEIGGFGGLFDLKAAGFTD
+PVLVAANDGVGTKLKIAIDADHHDEVGIDLVAMCVNDLVVQGAEPLFFLDYFATGKLDPD
+QGAAIVAGIAAGCREAGCALIGGETAEMPGMYQGGDYDLAGFAVGAAERGQLLPAADVEA
+GDVILGLTSSGVHSNGFSLVRKIVALSGLAWDAPCPFGDGTLAERLLTPTRIYVKPLLKA
+IRETGAIKALAHITGGGFPENIPRVLPKHLAAEIDLNAVKAPAVFSWLAKTGGVEATEML
+RTFNCGVGMIAVVSPEKADAVAAVLAGEGETVFTLGRMVAREDGAAGTLYKGTLAL
+>tr|A0A1Q9ACQ2|A0A1Q9ACQ2_9RHIZ
+MPQFPFVTLDVFTERRFGGNPLAVVTDAWGLDGAAMQAIAAEFGYSESTFILPPKDPANT
+AEVRIFTPTMEIGFAGHPNVGTAQVVAERIQAETGALPDRLRFEEGAGLVIVEILKAGDG
+TLAGTRITAPQPLMLGGEVDVETVAACIGLGAEAIRTDRHAPVFASVGLKFVIAELGSLK
+DLAAALPDMAASRRAQALHAEETDHFPIFLYVREESAPDAPMAIRARMFAPLDKIPEDPA
+TGSASGALGALLATLDPRADAWIEVRIRQGVEMGRESIIDVAAEKRQRVVERVTIAGRSL
+RVMEGFITV
+>tr|A0A1Q9ADC6|A0A1Q9ADC6_9RHIZ
+MKTWRHSLAAFLLLVSALPVLAAEQVGVRQIEVQSPARGKALSVTIWYPAEAGGAETLMG
+NSRIFAGTPAFVGASPAAGRHPLILLSHGSGARVETMAWLAKPLVEAGFIVAGPNHPGTT
+SGDSTPADTPKLWERTEDLSRVLTALSADPQWHPFINSDQVGALGFSLGGAAVLDLVGGR
+VSLEAYARYCEAFPDMADCVWFAGRRSFVSGAEVTVEPLDLRTVDRTRYEQSNRDARVRF
+AVLVDPSMARAFDPQSLKAIDIPLLFVNQGEAGKVPVSVAADDLARLTPYGSLIHIPQAV
+HFSFLPECKPDGAKILRSLGDPDALCADGGTRPRSDIHKELADRVTQSFIRQFDGQR
+>tr|A0A1Q9ADD5|A0A1Q9ADD5_9RHIZ
+MSPIAILVLAFSMSVDAFAVSVGRGAALTRPPLKESLRTGAVFGLVEAITPLIGWAAGVA
+ASQYVQAVDHWIAFGLLAAVGAHMLVNAWSQREEAERAAPKSSLAVLIVTAIGTSLDAMA
+VGVSLAFFDVNILVMALAIGLATFVMSSGGMLLGRVIGKRFGRYAEALAGIALVGIGLSI
+LIEHLSA
+>tr|A0A1Q9AJ19|A0A1Q9AJ19_9RHIZ
+MAMTGPIKLLLVDNHPLVLDGLRAILETYEHLTVVATATDAEEGIDKAAALRPDVVLLDI
+NMPRMSGIDAIERMRAAAPAARILMLSMHDNREYISSSVLRGASGYVLKDVSTAEIVTAI
+ETVMAGGTFFSSGVSEAILESRAKAEGPALTARERDILCGIAAGRNNRDLAEALGLSVAT
+VETHRKHLKRKLGIATTAGLVRYALDHGLMPSGGKSA
+>tr|A0A1Q9APH2|A0A1Q9APH2_9RHIZ
+MGQLYLNKVQKFYGDFEVIKGVQLDVKDGEFIVFVGPSGCGKSTLLRMIAGLDATSGGDI
+VIDGIRVNDLPPVKRGIAMVFQSYALYPHMSVFENIAFPLRVEKMAEDKIKAKVEHAARI
+LHLEQRLEQKPGMLSGGQRQRVAIGRAIVREPKIFLFDEPLSNLDAALRADMRIELAKLH
+RQLKATMIYVTHDQVEAMTMADRIVVLNGGHIAQCGAPLELYHKPANLFVAGFIGNPKMN
+MLPVTCKGTSAEGVLIDYQGQTATLPVDGTRAKAGETLTLGIRPEHLLLDTGDLNVTVVP
+TVIERLGAQTVAYASLDGKAENFCAMLPGTIGIRPEQPLPLGIKAADCHLFDADGQAFER
+RVSLTDIDLNLLGTTAA
+>tr|A0A1Q9AF74|A0A1Q9AF74_9RHIZ
+MTMPPRLLSAEKRGEDIDTTLRPQSLDDFTGQAEARANLKIFIEAAKNRGEALDHVLFVG
+PPGLGKTTLAQIMAKELGVNFRSTSGPVIAKAGDLAALLTQLEDRDVLFIDEIHRLNPAV
+EEILYPAMEDFQLDLIIGEGPAARSVKIDLSKFTLVAATTRFGLLTNPLRDRFGIPVRLS
+FYTVEELELIVRRGARLMKLPMTEEGAREIARRSRGTPRIAGRLLRRVRDFAEVAKVEAV
+TREIADVALTRLLVDNMGFDQLDKRYLTMIALNFAGGPVGIETIAAGLSEPRDTIEDIIE
+PYMIQQGFIQRTPRGRVLTVNAWKHLGLVPPKEAEATQFRLFQSEEE
+>tr|A0A1Q9AJ85|A0A1Q9AJ85_9RHIZ
+MEGVGLFGTIIVGGLAGWLAGILMDLRFGVLMNIIIGILGAALGSAIFDRMHVFIMPGWW
+GYLVTGFVGACILLFLAKLVRR
+>tr|A0A1Q9ALD8|A0A1Q9ALD8_9RHIZ
+MSAPRTLYDKIWDDHVVSRQEDGTCLLYIDRHLVHEVTSPQAFEGLRMAGRKVRHPEKTL
+AVVDHNVPTSPDRKEGIKNEESRIQVEALARNAADFGVEYYSESDVRQGIVHIVGPEQGF
+TLPGMTIVCGDSHTSTHGAFGALAHGIGTSEVEHVLATQTLIQKKAKNMLVRVDGQLPPG
+VTAKDIILAIIGEIGTAGGTGYVIEYAGEAIRALSMEGRMTICNMSIEGGARAGLIAPDE
+TTFAYVKDKPRAPKGTAWDMAVDYWKTLASDEGAHYDRVVVLDAAALPPIVSWGSSPEDV
+VSVQGVVPNPDDIQDEVKRASKWRALDYMGLKPGTKITDIAIDRVFIGSCTNGRIEDLRE
+VAKVVEGKTVASTVSAMIVPGSGLVKEQAEAEGLDVIFKAAGFDWREPGCSMCLAMNDDR
+LKPGERCASTSNRNFEGRQGFKGRTHLVSPAMAAAAAIQGHFVDIRDFG
+>tr|A0A1Q9APG5|A0A1Q9APG5_9RHIZ
+MASAPYRLDASWSAEGGTHGAFTFTFTNLSDAPLSGFKLAYTSLYRVIEPEACDNAVFLR
+RNANFHQYAPPEGLTLAPGDSWRFTVSGIHRPARHCTDGAKSAYLTHADGTHADVAVSDL
+LLSGRVSEPPPVLLPEGKLDLPFALQPWPAQIDAAPGEGFPVVLYPAEGTSLEEIRAVSE
+VTALTRRLMESAHAPFALTADPQGRALHFSAEESLGAEAYRLTFSADAVQLAYGGAAGRQ
+YGLTSLAQLLEGARVRPQSFRFPASGTIEDAPRYGWRGCHLDVSRQFFPVADVTRLLDIM
+AWLKLNIFHWHLTDDEAWRLEIKAYPALTTTGVLRGPDEPLLPQLGNGAAPVGGFYAQED
+VRAIVAHAAALSIDVVPEIDIPGHNAATLVALPDLVDGQEAPDSYHSVQGYPNNALNPAI
+EATYGFLEAVIDEMVTLFPSDYIHIGGDEVAHGAWMASPLAKALMEKEGLDGTFALQSYF
+LKRVKAMLDARGKKLAGWNEVAHGGGVAPENSLLMAWENPAVGIKLAEEGYDVVMTPGQA
+YYLDMVQAEAFQEPGASWAGTVPPAHTYAYEAEGEFPQALKDRMKGVQACIWTEHFLSRG
+YFNRLVFPRLPAIAEAAWTPKAQKNWDRFAAIVSLCPQL
+>tr|A0A1Q9AN34|A0A1Q9AN34_9RHIZ
+MTFEQWLQSRLTAHGYAVGPIDGKIGTATIAALKAFEGANGLKVDGIADPAVVAALKASA
+SAVPPKTMTQIPDRDRVPTIDVRQPSAIQWPRQADCMEFYGPVGTRQTTIDIPFDMRLAW
+ARSTVVRKMTLHEKVAPSALIALQRIAEVYSAKERADLGIDIFGGSLNVRRMRGGKAYSM
+HSWGIAIDFDPERNGLTTAKPQARLSHPDAVSFWLAWETQGWLSLGRARDFDWMHVQAAR
+L
+>tr|A0A1Q9AI56|A0A1Q9AI56_9RHIZ
+MGPECPGNCRLLEFQEMNMSKNMIRTVRDVFTTIGVAVDASVAYRHLSRRRMAGAEGMDL
+LSGIGQR
+>tr|A0A1Q9AMA9|A0A1Q9AMA9_9RHIZ
+MTSDPFLVNLRFACTTRRSVSDICRAIGLNRQQFNRYIAGQSRPSPHNLARIAAYFGVSV
+ADFALEPRQFELRILSPDRDRSEARLLLDGFPGDLQVLRRHLGYYQTFHLSPSWPGMVVS
+SCTRLWEERGSVRIKSIERMRDPANEIIQFSKYVGLVTCWRNRLFVAERSVGRQPLLSQT
+ILVPFEEHQRVYLRGTTMGVSWRKGNMPYASRMIWRALGQEVDKRQMLARCGVLAPNARS
+LPPTVRQFLSGPEADVLSVMDAPR
+>tr|A0A1Q9APF9|A0A1Q9APF9_9RHIZ
+MTAMLERLIDQGCGREPADLVLKGGQFFDLVTGELVASDIAISGERIVGTCGSYEGIQEI
+DISGHIVVPGFIDTHLHIESSLVTPHEFDRCVLPHGVTTAICDPHEIANVLGTEGIQYFL
+DSAEATIMDIRVQLSSCVPAAAHLETSGADLPIERLLPFRHHPKVIGLAEFMNFPGVVHK
+DPVCLAKLDAFQGGHIDGHAPLLRGLELNAYLAAGIRTDHECTSAEEALEKIRKGMHILV
+REGSVSKDLHALLPLLTERLSPFLALCTDDRNPLDIAEEGHLDHMIREAIACGAEPLAVY
+RAASISAARAFRLMDRGLVAPGWRADLVVIDSLESCRPRTVFAGGRLVEEALFAKRPPVA
+PVGLDSVKAARIQAAAFAVPMRTEEVPVIGVLPGKIITEHRRYHLPAIGNQTGVDLDRDI
+IKVAVIERHGKNGNHANGFVQGFGLKRGAIASTVGHDSHNICVVGVSEDDMALAANRLGE
+IGGGFVVVENGQVTAEIALPIAGLMSLTPFEEVRDTLKGLRQAAFALGATLREPFLQLAF
+LPLPVIPHLKISDKGMVDVDRFALIG
+>tr|A0A1Q9AH88|A0A1Q9AH88_9RHIZ
+MTSLYVEGDSWMHRLRAGHKLALLLVAGILLSITDSLLVLTLALPFCALPFVMLRLSWCA
+IRARLGGLMLTILILTAATAWLQSPEAGLVAFVRVTALVLLAGAVTATTGIAEMMAALTV
+ALRPLERLGLARAEDVALAVGLVLRFVPEIAQRHQALTAAHRARGITPRWHRTLPALIVL
+TLKEADDVARAIDARGLRGHKVRKG
+>tr|A0A1Q9AEI8|A0A1Q9AEI8_9RHIZ
+MDSFGTWLGGIAGEVAKAAEKISERHGAGAGENSPVTPIAFSINDGPAIVAHTKDGDIAA
+VLAAQQRRSSIYSAQIVNAQG
+>tr|A0A1Q9ACT5|A0A1Q9ACT5_9RHIZ
+MTSFDVLTIGNAIVDIIARCEDAFLEENAIIKGAMNLIDAERATLLYDRMGPAVEASGGS
+AGNTAAGVASLGGRAAYFGKVCDDQLGEIFAHDIRAQGVHFKTAPLTQAPPTARSMIFVT
+EDGERSMNTYLGACVELGPDDVEEEVVAASAVTYFEGYLWDPPRAKDAIRAAARIAHAHG
+REVAMTLSDSFCVHRYRAEFLDLMRSGTVDIVFANKAETLALYETEDFEAALAAIAADCK
+LAVVTMSEEGSVILKDGERVPVEPLEIAQLVDTTGAGDLYAAGFLFGYTAGRSLADCGRL
+GSLAAGIVIQQIGPRPMVSLKTEAERAGLL
+>tr|A0A1Q9AFX5|A0A1Q9AFX5_9RHIZ
+MDTTSQNVFPTTRLEDAEGEAHNISTTPTMGEIIAKRFSRRDLLKGCLAVSAISATVSPL
+ALATADEARAASAGSAFSFKEVEAGVDERHHIAEGYKADILLRWGDPLFADSPAFDPAKQ
+TAEAQSRQFGYNNDYVGFIPLNGSSEHGLLVVNHEYTNEHLMFPGIVQVVEKADKKDPAK
+MVKELAILPADQKRVDIEMAAHGGTIVEIRKVDGAWQVVRDGKMNRRITANTEMAIHGPA
+AGSDRLKTKADPAGTKVFGTINNCAGGVTPWGTYIMAEENIHGYFTGKLPEGHAEAANYK
+RMGIPEGTYHWGAFHERFDVSREPNEPNRFGWIVEVDAMDPTSTPKKRTALGRFRHEGAE
+SIVAKDGRVVFYLGDDERFDYVYKFVTQNAFNPNDRAANMDLLDEGTLYVARFDADGSMT
+WLPLVHGEGPLTAENGFHSQGDVVIEARRAGDLLKATPMDRPEDVQPNGSNGRVYVMLTN
+NTRRKPEQVDAANPRAKNAFGHIIEIAETDGDFTATKGRWEILLKCGDPSVAEVGATFST
+ETTRNGWFGMPDNCHVDAEGRLWVSTDGNSPSDTGRTDGLWAVDIDGPARGTSKLFFRVP
+VGAEMCGPLLLPDMQTAFVAVQHPGDGGDDWEGFGRLSYYEDLSTRWPDFRDDMPVRPSV
+VAITRIGGGKIGV
+>tr|A0A1Q9AQE8|A0A1Q9AQE8_9RHIZ
+MLERPISKAGWTRVRFDQIATQINDRVDNPAEAGVDRYVGLEHLDPDSLRIRRWGEPTDV
+ESTKLRFQPGDIIFGKRRVYQRKVAVADFEGICSAHAMVLRAKSGAVLPEFLPFFMQSDL
+FMERALSISVGSLSPTINWKALAAEEFLLPPIQEQARLVEVMSAGRSATEAMANLLSRLR
+ELRASVVLAVTGGDGSDGAELVRLGEISNVVRGSTPRPAGDPRYFGGDHIPWITVGEITK
+DDGVYLETTEAQLTELGASFSRQIPSGTVILSNSGWTLGVPKILRITGCANDGVAAFLDL
+DPRIDPLFLYFRLFGMTEYLRNAIAAGGDQPNLNTDLISKLTIPLLSLEQQLGAVAQVHA
+VQAEIDKAKLRLTAQQELYRSLAGTALVSRE
+>tr|A0A1Q9AES2|A0A1Q9AES2_9RHIZ
+MTLGNHPPLVTVFGGSGFVGRHVVRALAKRGYRVRVAVRRPDLAGFLQPLGNVSQIGFVQ
+ANLRNRASIDAAVRGADHVVNCVGILFERGANSFEAIQEFGARAVAEAARAEGATLTHIS
+AIGANPDAESAYARSKGRAEKAIFDILPGAIVLRPSIVFGPEDGFFNKFADMSRFFPALP
+LIGGGRTALQPVYVTDVAEAVAGAVAGQVAGGKVYELGGPEVLTFRQCLEIMLKVINRSN
+PLVSIPFGLASTLGSIASLVPFGAPALTPDQVTLLKSDNVVSEAAKAEGRTLAAFGIEPR
+LVEAVLPSYLVRYRPQGQFTRPDTAA
+>tr|A0A1Q9AHR0|A0A1Q9AHR0_9RHIZ
+MRAILAIDQGTTNSKAILVDESGALVARGASPVGIAYPQPGWVEQDPNRIWASVCEAIAA
+CLAAAPAGIEILAVALSNQRESVTMWDGKTGEALGPVLSWQCRRTAPDCERLIAAGHQER
+VQAITGLPLDPMFPGAKLRWLSERAPAGSDYRLGTIDSWLIHRLTGGRNHACDAANAARS
+QLFDLERQVWSAELASLFGVDLARLPEVCDSAGDFGVTLNVPGIADGTPIRAAIGDSHAA
+LFGHGAFHPGDGKVTFGTGSSVMATLDSYVPPRDGITTTVAWRIGGRPTFAFEGNILVSA
+ASLPWMAEILGLPDVAALVDLAATAAPDGPGFVPAFVGLGAPYWDSQARALFSQINFSTT
+RAQMARAVTDSLAFQVHDVFRAMRDQTTTPLGALYVDGGPSQNRFLMQTVADTLGHAVIQ
+CAAPEASALGAAYLAGLSLGLWPDLDAIARLPRAHHEIVPAPDRDSTRLAVWADAIQRAT
+LCPPPAKAQD
+>tr|A0A1Q9AIM3|A0A1Q9AIM3_9RHIZ
+MIVVVDERELVKDGYMSLFGREGIPSTGFDPKEFGDWVTTAADSDIEAVEAFLLGQGERA
+MSLPRAIRERTMAPVIAISDTPSLENTLALFDCGVDDVVRKPVHPREILARAGAIRRRLK
+ALTNYTDIGPIRIFADGRDPEISGEVFPLPRRERRILEYLVSNRGRRVSKTQIFNAIYGI
+FDEDVEENVVESHISKLRKKLRKKLGFDPIDSKRFLGYCIDWS
+>tr|A0A1Q9AHV2|A0A1Q9AHV2_9RHIZ
+MLVTDRRKLRHRDVSFTAMGLGCAQMGSLYRWTSYAESLGAFQAAWNAGIRYFDTAPFYG
+YTRSERRLGTMLTEEARNDYVVSTKVGRLMQPGETVGEEEDTYVRPLPFRPVYDYSYDAI
+LRSFEASQQRLGILKPDLLYIHDIGRVTHGEKHEHYWAQLTSGGGFKALGELRAAGLIKG
+VGLGVNEWQAVAEAMDVFDIDAAMLAGRYTLLEQESLPMLARAHEQGVGIVVAGAFNSGI
+LAGNRKFNYKDAPAELMARVEEIEAACAEEGVSLQAAALVFPMLHPAVVTVVSGARNASQ
+IEANIAWFQETIPASFWTRLKERGLISPDTPIDTAPVSAGAGAA
+>tr|A0A1Q9AGU9|A0A1Q9AGU9_9RHIZ
+MTIGFRVRRRDRVIDQQWIEKFRALPVANISDSMHRMYAGGAQLRPMHREGKLVGRALTV
+KAPPGDNLMLHKAMDMAVDGDVIVMDAGGDVTHALMGEMMLDYGHRRGIVGFVLNGAIRD
+ADAFLEMNVPAYAVGITHRGPFKNGPGEINTPVAIGGMVVMPGDLIVGDADGVVVVPIDD
+VAEVYDRTLAKSAAEQKQIEAIKAGTHKPTWFNDALAKGGCELPSTI
+>tr|A0A1Q9ADW1|A0A1Q9ADW1_9RHIZ
+MNMKVMPVITRKGQEDRGTGQSGGCVRVSGVGPQHTPATKIWFGKVSNDPGYRSYPHHHG
+EAETGGYVLKGKARIYFGENWQEFLDMEEGDFIFVPPNWPHIEVNMSTTEELVWLTTRTP
+DNIVVNLPDVDDSVLQGFRRA
+>tr|A0A1Q9AJD4|A0A1Q9AJD4_9RHIZ
+MADLFDLPEMSDPDPVRRAQIQMLKPLPKRFYKEVTVAETEDGFAIRLDGASVRTPAKKM
+LVVPSAALAEIIADEWRAQAEVIDPARMPVTRLVNSALDGVANDPEVTFNDILSFAGTDM
+LCYRADGPERLVERQQAQWDPILAWAAETLGARFILAEGVMHQTQPDAAIAAFGRALSAF
+KAPLPLASLHVMTALTGSALLPLAFALQRISAEEAWALAHLDEDWQIELWGADEEAEHRR
+AHRWQAMAAAARTFDALGVR
+>tr|A0A1Q9AH56|A0A1Q9AH56_9RHIZ
+MSALIALILPVLLVALWMALLVRSLLRARRAKEAAWAALDLPLRRRMDLVPPLAAWLEAR
+ARPEGARLRALYDRGKDLPEHATAERMTLDTHLSQALARLFTLAETDPDLKQDAEFSSLR
+AGFAAAEADLQGARRGYNAAARDLNALIESFPANLLAGSLGLAKAQYIELAPRASD
+>tr|A0A1Q9AFS7|A0A1Q9AFS7_9RHIZ
+MDIALLAQHAHQTLPEAEVPGLPNRYRGKVRDNYDLPDGRRILITTDRISAFDQALAVIP
+FKGQVLTQIARHWFEQTADIAANHVLDYPDPNVVIGRRLDILPVEIVVRGYLAGTTSTSI
+LTRYRAGEREMYGHSLPDGMRPNQVLPEAIITPTTKAMDGGHDAPLSEAMILDQGLLSAE
+QWKTVSDTALALFARGQALAAERGLILADTKYEFGLDPEGRIVLADEIHTPDSSRYWFAE
+TYAERFESGQAPESFDKDFVRNWVVARCDPYRDPIPEIPQDVVLEAAAVYIRAYEIITGK
+SFVLPDPAEVPIERVRRNLAKYA
+>tr|A0A1Q9AG55|A0A1Q9AG55_9RHIZ
+MAVQTVAMPQGVSAARAGVLFMLAGMLMFSLNDVLGKWMAASHSAFQVMTVRSVAALLVL
+APFMVRAGWRSLVLVPQPGLNMLRALFFSVDALAFYYCVAFMPLADAMTYWLAVPIYVAA
+ASPLVLGERVGWRRWIAILIGFSGVLIALNPSSASFSLPALVALGGSLAYGGAVVLGRRL
+RETPDLTLVTWQVVSALLAAGLGLALFPEAWSPLTPVSLSLLGLLGIVALSAHLLVNRSL
+KLADAAMVVPLQYTLLFWAILFGWLIFGDIPGTHALVGAALIVVSGLFIFFREQKTRRAA
+AVAEVV
+>tr|A0A1Q9AGZ0|A0A1Q9AGZ0_9RHIZ
+MTDIQAPAPIVILNGAPRSGKTSIARALQAQADEIWINLGVDVYARATPEKLLPGIGLRP
+GGERADLEKHLPRLYAGLWESIAAHARCGLPVVADVGLHDGHSRALNLLQDAARRLDGLP
+VLFVGVYCTLPEILARRAADPNANGTRYARPMPNQPVPRPVLLWQKAVHQPGQYDLALDT
+ASLSPENCATQILDRLCAPRERPSVFEQINGTWRAR
+>tr|A0A1Q9AI78|A0A1Q9AI78_9RHIZ
+MSRLRVLWRTTAVRLSALYLLLFSLCALLLVVYVTAMSQRLLTNQTREAVAAEVDQIETI
+YDRGGIAGVLRTLERRARQPGANLYVIASPAGEILAGNVAWLEPGLLDSEGWSSKPFLYQ
+RYSEEGNADKHLALAEVMVLPNGLHVLVGRDMQEPQKFGGLVRHALMVALGIMGVGALVI
+WFVIGRNALSRIDRMSHATTRIMAGDLSQRLPVNGSGDEFDRLSESLNAMLERIEKLNEG
+LRQVSDNIAHDLKTPLTRLRNRAEAALAQSAGEEDYRASLENTIAESDQLIRTFNALLMI
+SRVEAGSAVAEMSLVNLSQSAEDCVELYEPLAEEQALTLTSEILPGIVTHGNRELIGQAL
+GNLIDNAIKYAAGATDPVITVRLATRAEAILVSVADHGPGIPADKREAVLQRFVRLDESR
+SKPGTGLGLSLVVAVMELHGGTLELTETEGGGLTVSMVFPRLDT
+>tr|A0A1Q9AES6|A0A1Q9AES6_9RHIZ
+MSKTNRISFQGDFGANSDMACRDMFPSMEPLPCPTFEDAFVALESGEADLAMIPIENTLA
+GRVADIHHLLPQSRLHITGEYFMPIRFQLMVMPGVSRDEIRTVHSHIHALGQCRNIVRAN
+GWKAVVAGDTAGAAKLVAETGNRSMAALAPRLAAELYGLEIIAENVEDSESNVTRFVVLA
+REPKEVERGKGPVVTTFVFNVRNIPAALYKALGGFATNGVNMTKLESYQIGGRFIATQFY
+ADIEGHPGEAHVARALDELRFFSEKVRILGTYPAHPMRVTL
+>tr|A0A1Q9ACR9|A0A1Q9ACR9_9RHIZ
+MSKPTSSAPSQRMLRVGEQVRAAITQVLQRGEVRDPVIETTVISISEVRMSPDLKIATAY
+VTPLGVADHSETIEALNRNAKFIRGRLGPQLRQMKYMPEVRFRDDTSFDNYKKIDELLRS
+PDVVRDLDHDED
+>tr|A0A1Q9AJY7|A0A1Q9AJY7_9RHIZ
+MHSGLVNPIDLSLEGRQAGALAIPFSIDRSPYYQIRIPILRVKNGEGPSLLLMAGNHGDE
+YEGELQLARLMRLLDPARIRGAVTILPAANLPAVMAAKRCSPFDGGNLNRAFPGDRLGTP
+TARLANFLEAHLFPHHDVVLDLHAGGTSMAHLPCTLIERQADPARFERAVELLHVMGGAH
+AFIADNGPAAPTSMAAAGRAGAIGLSGEFGGGGTVTPASMRFTALAIDRLLLALGIVDRP
+ILSRDFGPASGPLQLLSLSRHSQGIYAERRGWFEPAVALGASVSAGDLAGWYHDLERLDQ
+MEEPLHFAEAGIVISHRLHCDSQAGDCLIQVAEPIVA
+>tr|A0A1Q9AKV9|A0A1Q9AKV9_9RHIZ
+MTQKMLDRALFDALSLVNRKLRSAFDARARARGLTLSRARTLFILFLQDGPSQRELADAL
+DVETPTVVRLLDGLEGQGLIERRADEADRRTKRVYLTAHGRAVAEEVEELAREVRAQVLH
+GLGPAEQRQALNLIGRMADNLGAMEARATGVEPMKARILEEAALEASK
+>tr|A0A1Q9AJV0|A0A1Q9AJV0_9RHIZ
+MSFRPPQSLSSPGSRQTPLNALEYEIMAERADALGRCGLKVEAALAALSAFDAGVGDAEG
+GEGPAREALVDAAADVTWAFFIQRELCGFRSNRDVIERYRIPGEVIARVGVVRRPKV
+>tr|A0A1Q9ALB0|A0A1Q9ALB0_9RHIZ
+MTFAAVVLTLYPEMFPGHLGHSLAGKALARGDWSLDAVQIRDFATDRHRTVDDTPAGGGA
+GMVLKPDVLARAIDAADAARPGLPRLLMSPRGRPLTQARVRDLAEGAGALIVCGRFEGVD
+QRVIDRRGLEEVSIGDYILSGGEPAALTLLDAVVRLLPGVMGNAASGVQESFEGGLLEHP
+HYTRPQLFEGEPIPEVLTSGNHGAIRAWQQAEALSLTRARRPDLLGEGRAPSAAGQPVTK
+>tr|A0A1Q9AJL4|A0A1Q9AJL4_9RHIZ
+MNGAAHSLTGFCRDCLCEQRPGLSRCAACGSPRLLRHPERDLLAIAHIDCDAFYASIEKR
+DNPELADKPLIIGGGKRGVVSTACYIARIQGVRSAMPMFKALEACPHAVVIKPNMEKYVR
+VGREIRAMMQELTPLVQPLSIDEAFLDMNGTEALHRAPPAQVLARFAARIEREIGITVSV
+GLSYCKFLAKVASDLQKPRGFSVIGRAEALDFLRERPVTTIWGVGKAFAATLEADGIRTI
+GTLQEMEENDLLRRYGSMGQRLYRLARGIDERPVAPESIAKSVSAETTFHDDLSRPEALT
+AHLRALSEKVAERLRHGGQAGQTVVLKLKTADFKLRTRNRRLENPTRLADRIFRTGMDLL
+DREADGTRFRLIGIGVSDLADPTLADPPDLVDVGATRRATAEEAMNRLRDKFGRGSIETG
+YTFGRDRR
+>tr|A0A1Q9AI94|A0A1Q9AI94_9RHIZ
+MFRVPFLVALALSVAFGLGIASAVQALKTTVGFGVIALGPWTAFPNAQTASADPYARAHR
+ARQGRLLYGGAEGLQFIASVDSAGAPLEAACAYEIAGQTPVARFWTLYMTDLQDRTLTAA
+PELPTALNSWTALHEGDGVIHIRLSAAAQPGNWLALTAAGPFRLVLTLLDTPTAGSSGLI
+DLGMPAIRKLGCGSHA
+>tr|A0A1Q9AIC2|A0A1Q9AIC2_9RHIZ
+MAKEEVLEFPGVVTELLPNATFRVKLENEHEIIAHTAGRMRKNRIRVLAGDKVLVEMTPY
+DLTKGRITYRFK
+>tr|A0A1Q9AN60|A0A1Q9AN60_9RHIZ
+MAAKEVILSRRYEVPGVAPFDRVTLREPTYADRYMSGLGLPQEWQPNGRGGGMVVTYPEV
+VDAYLQRLIVSPGYEHISGISATDGGRLEAALAGFFLEPTGSTASPTNLSSGSDGSPAAS
+PE
+>tr|A0A1Q9AEM3|A0A1Q9AEM3_9RHIZ
+MNAFAPLAAIDAAKLEKLAEVTVKVGLRLERGQDLVITAPLNAVALVRLITQKAYEAGAG
+LVTTFYADEEATLARYRHAPDESFDRAAGWLYEGMAKAYAGNAARLAISGDNPMMLANED
+PAKVARANRATSIAYKPALEKISNFDINWNIVSFPNPSWARQVFPNEPEAVAVSKLAEAI
+FAASRVDQPDPIAAWSRHNDELAKRSAWLNGERFSALHFVGPGTDLTVGLADEHEWHGGA
+STAKNGITCNPNIPTEEVFTTPHALKVEGHVASTKPLSHQGTLIDDIRVRFEGGRIVEAH
+AAKGEEVLNKVLDTDEGARRLGEVALVPHSSPISASGILFYNTLFDENASCHIALGQCYS
+KCFLNGASLSQDEITARGGNSSLIHIDWMIGSDKVDIDGIAADGSAKPVMRKGEWV
+>tr|A0A1Q9AHX7|A0A1Q9AHX7_9RHIZ
+MKGILAAIARAFQLIGKGADWLIDLPFAAVRSIAGTPRYAPGHTLPDFTPKTDFADLEGV
+YAQTKKSADVVALNKFAFDTVKGYVKAAEHARPDIDLSALPDEVRITLLSMDDNECKALR
+DAGDAALHKFAGGRDHRVHGVPAVGSVRPTLKSKVRRERTNHHAWLEEARALKPTQSRAF
+GL
+>tr|A0A1Q9AJK5|A0A1Q9AJK5_9RHIZ
+MIRLIGYFFGIGTVFALGLAAVAAVYLGHITRDLPDYEVLNSYAPPVTTRVHAGNGELMA
+EYARQRRLYLPIQAIPDRVKAAFIAAEDQNFYTHPGVDIYGLGRAVINNIQNIGSSRRPE
+GASTITQQVAKNFLLSGDQTMERKVKEAILSFRIEQSYSKDRILELYLNEIYFGMNAYGI
+AGAALTYFDKSVTELTIAETAYLAGLPKGPNNYHPFRREEAALNRRNYVIKRMVEDGYIT
+ADEGAEAEKQPLGVNIRRGGSHLFASDYFSEEVRRQIIQRYGENALYEGGLSVRTSLDPR
+VQVAARHALQQGLINYDERRGYRGPVKSLQIGGDWGEALFKVPSLSDVPEWDLAIVLSVD
+AKGVDIGLQPKSDGSGKPAAERVRGRISAQNMQWAYRSATNARKSARSPDGVLAPGDVVY
+VEPMKEEGQYRLRQPPKVQGGLVAMDPQTGRVLAMVGGFSYAQSEFNRATQAMRQPGSSF
+KPFVYAAALDNGYTPASVILDAPFELVTGGQVWRPENYGGNSAGPSTLRLGIEKSRNQMT
+VRLANDMGMNLVAEYAERFGIYDKMLPVLAMALGSGETTVMRMVSAYAVIANGGKQIKPS
+LIDRIQDRYGKTIFRHEDRTCETCNATDWKNQEEPVLTDNREQVLDPMTAYQITSMMEGV
+IQRGTAAGKVNLDRPVAGKTGTTNDEKDAWFVGYTPDLVAGLYLGFDEPAPLGRGGTGGG
+LSAPIFNDFMQVALAGSKPVQFAIPPGMSLIPVNRKTGMAAREGDPDTIIEAFKPGTGPA
+SSFSVIGGADQAVAPEEILRSSPQANQAVQSGSTGLF
+>tr|A0A1Q9APL6|A0A1Q9APL6_9RHIZ
+MKTIKGPGIFLGQFAGDAAPFNSWDAITKWAADKGYVGVQVPTWAGQLIDLKKASESKDY
+CDEFAGKARENGVEVTELSTHLQGQLVAVHPAYDEAFDGFAAPEVRGNPKARQQWAVEQV
+KMALSASKNLGLKAHATFSGALAWPFIYPWPQRPAGLVETAFDELARRWRPILDHAEDCG
+VDVCYEIHPGEDLHDGVTYEMFLERTGNHARACMLYDPSHYVLQCLDYLDNIDIYKDRIR
+MFHVKDAEFNPTGRQGVYGGYQGWVNRAGRFRSLGDGQVDFGAVFSKLTANDFDGWAVVE
+WECALKNSEDGAREGAEFVKAHIIRVTDKAFDDFAAGGTDEAANRRMLGL
+>tr|A0A1Q9ADZ3|A0A1Q9ADZ3_9RHIZ
+MTEQEVKASAVDEMVGQIRALIRARGLGVGDVLPSEAELADMFSASRNTVREAFRTLKAY
+GIAQSRQKLGAVLTDQHQSAMRDLLAFALDISADAFHDIQGYRRLTEMNLFDLLMDHLTD
+ADLAAMSNTNAALLAAGDAEDASARDFDFHLLLVTAAGNRTLTQTYGMLKPVIQRLMLSG
+KSERETLATVFAEHEAILEALRRRDRIAFTYHMDRHLRAGLVFIEAKAAGGKPPRP
+>tr|A0A1Q9AJC4|A0A1Q9AJC4_9RHIZ
+MAIRPILRFRDPLLSRACAPVTRFDAELAALAEDLADTMHAAPGIGIAGPHIGALQRVAV
+IDLDDRAGVRVYVNPEIIAASADQASHTEGSISMPGVTEEVLRPKTVTVRYQDLAGEMAQ
+LEASGLLGVCLQHEIDQLDGIFWIQRLSRLKRDRLVRQFAKLQGR
+>tr|A0A1Q9AMT2|A0A1Q9AMT2_9RHIZ
+MAGAVIGALRVNLGIDSAQFQEGLKNAQAALGNAGKSMQLVGKSLSTYLTVPLAGAGAAI
+LNTAGSFEASMNRVQAATNASTAEFDAMKKMALDLGANTSKSASESADMMEMLAKNGLTA
+QQILAGAASASIKLSEATGGDLSTAADVATNVMSQFKIGAEDLGEVVDGITNVTLTSQFG
+FNDYKDAIAQAGGIAGALGVKFQDFNAAIAGTSSVFNSGADAGTSFKTFLTTLVPKSKAA
+REQMDALGLKFFDAGGKMKSIADIAENLKTSLSGLSDEAKNDAVTTIFGSDAMRTALALA
+DQGAEGINKLAASIQRQGSANEQAQARMKGFNGELEKLGGSLETLANKIADAGLLQWATQ
+VVSKMSEFVDRLGQTNPELLKWGTIVAASAAAIGPLVIAVGAVAAGIAAIGAPIAVTVAG
+FAALAAGAAALYANWDQVKASFPTTAAVIEKAIAVIETTATGLMTQLGLVGQYLGQFLTG
+NLTAAGETVRQIFANLGSMFTDLANIIFPGAGDAIKAKIAEVVSSVTNFISSMMATFQAI
+PGQMAAIAEEIAASFAALPGRMLEIGGQIVDGLVNGIQAKWEAAKGAITGIADSITNSVK
+ATLGIHSPSRVMHEIGEFIMQGLQNGMAAGTPNAVSEAGKAAQAVSAQLATAGAAGGGAV
+SGVETATDAAADGLSKMESVGQQMAQTLGNAFTGLINGSKKLKDVALDALSSIGRSLLNS
+GLQALFGGGGSGAAGASSAGGGFGSIIAQAIGSLIGFSQGGSIMPGGAANGTGIDSQTVA
+FRKKPSERVDIYEPGKMKSSSALSVRGGDIIIQGDVSERNLQAIRDAIAENNERLPDMIA
+DHDRNPRMRRRFV
+>tr|A0A1Q9AE59|A0A1Q9AE59_9RHIZ
+MRVKTILMAAAVLLAATQLAQAEDTIRIATEGAYPPFNYIDTDGSLKGLDVDIAKALCEE
+MKAKCTIVQQEWDGMIPALTAKKFDAIVASMSITEERKKKIDFSNKYYVQPLSIGVPKDS
+KITAVTPEAMKGKTIGAQGSTTQADYAEDHFGKAGAEVKLYPSNDEATADLQNGRLDAMI
+TDKFVLVDWLNKAGKDCCKLLGDVPNTVTEVGIGLRQGDPLKEKFNAAIDAIVKDGTYTK
+ITRKYFPFDIY
+>tr|A0A1Q9AJB9|A0A1Q9AJB9_9RHIZ
+MMKTVLCYGDSLTWGYSAESLGRHDFADRWPSVLAAALGPEVTVIAEGLNGRTTAYDDHL
+ADCDRNGARILPTILHSHDPLDLVIIMLGANDMKPVICGQAFGAVQGMERLIELVRHHAW
+SFGRDEGPEILIVSPPPLCETANSAFAAMFAGGVEQSAMLASLYRDLADEKGCGFFDAGS
+VARTTPLDGVHLDAENTRALGRALEPVARMMLGL
+>tr|A0A1Q9ACR4|A0A1Q9ACR4_9RHIZ
+MAETVKTNPERAPPWQVGRRMRVRRPLVVYLAALLMVAIIPSFIFSLFILKRSADNQDEV
+VSQLLRASTTSVSRVVEREIDTMLTTLKVLAALHRPGDTDFKAFYDRSVSALAGTGTHLL
+IVDRNYRQLFNTRVRYGAPLPPVADPSSVDQAFRSGTTVVSNVFFGRTAGRWVFNVYLPL
+GDNGTSTEWVMALTRDAEDLARVVGHGALSSGWNAAVLDSTGRVIASSDATMRPGTAFFL
+QIVPGPEAGLGSARYKGVDYRTVTEFSVTSGWRVVAWARQSDVDARVVKSFLWLSLGGML
+FAGLALVGSMAIARMLSQGVRGLAEDARRLGAGEPVAPRRHRITELEAVSEALGAAAEAR
+AKAEGEIHFLMREVAHRSKNQLTVIQSMLNQSVHAQGTAQDFAETFRRRLAGLARSTDLM
+IAHAAQGVDMGELARNQLQPFVPEEAGRVVIDGPPLRLDTQASQTLGMALHELATNATKY
+GALANSHGRVRLSWTTDETELHLVWRESGADLPAETTPPRRGFGTMVLERMLGMSLDARL
+KRERHADGIEWQVTIPLAKLSPEAKPAETP
+>tr|A0A1Q9AHW7|A0A1Q9AHW7_9RHIZ
+MRRRSGLLQRTRRSLLALCVTGLVTIAVVWIATPILKRSFMDEAASQAASALRLAVAALN
+GHLKRYEALPALIADHDDIQDLLADPGNPELRQTADLYLKAINALLKSSEIYVMKPDGET
+IAASNFDTPTSFVGENFSYRPYFQQAIAGQTARFYALGTTSAKRGYYFSAPVRIAGAIRG
+AIVFKVDVDLIEASWRDSDYKIFVSDPEGIIFMSGNPDWLYASLVPLTPDRLARTAASRR
+YADKLPHTLPVTRSRVEGHDILTMPGPAGATRDYLLLSEAVEDAGWTVNVLTDTASAVNQ
+WRTALAAIVLSICFAALVFFVLIQRKARRDERMLMDIQAKAELERRVAERTADLAYVNRK
+LRDTQSDLIQAAKLAGLGQMSAALSHEFNQPLAAVRNYAESAELLISRDRLPEARDNLAR
+IGKLVDRMASLSQHLRNFARKPNERLDPVSLDAVLEDTLEIVRPRLATARATVTVDLGEP
+APVVLAGPIRLQQVLVNIVTNAADAVEEKDDRRITLTARRAQDNAVIEIRDRGDGVSPAI
+AARIFDPFFTTKGVGKGLGLGLSISYNIVKDFGGDLTVANHAEGGAVFSIVIPLAVPQKE
+AAQ
+>tr|A0A1Q9AG39|A0A1Q9AG39_9RHIZ
+MSRIAGLTCAAFLLGAPVQAASLCERLYERLAELPQERHDALQPSGFTGDITRLNLELRA
+ARADLRRLNCTGGSITVIGGGSEAACDALNERIVGLGRDIDAMKVQRLSAPEGGEAGQRQ
+RILSAIDLNRCAEKMEAEPVPISAGEDEQRPFRQPLYPPVQDGTRPIDGFGETPPLRLHD
+RRNPGWGGAGSGFSGSDAAGTVRTLCVRTCDGAFFPISSQATPEDFARDAESCHQRCPGA
+PTALYYHSLETQEADEMVSAETGAPYRDLPTAFAYKLRDPSEKSTCGCQLNAASVPSQSE
+PGDPGKSGEPGQPGASSIVSITTRPPATGASDKGIAAKDAAMPQPEAAAAPTQAQPSDPA
+RPYDPARKVRQVGPSFLPAQESAIDLHQPKSVTPSPDTN
+>tr|A0A1Q9AH62|A0A1Q9AH62_9RHIZ
+MTDTAATPLDYSKTLYLPETEFPMRAGLPQKEPEIAKRWQEMDLYKRLRASAAGRPKFVL
+HDGPPYANGNIHIGHALNKVLKDVITRSFQMRGRDANYVPGWDCHGLPIEWKIEEKYRAA
+GKNKDEVPVNEFRRECREFAQGWIDIQSAEFRRLGIEGDFERPYTTMNFHAESRIAGELL
+KLAVSGQLYRGSKPIMWSVVERTALAEAEVEYHEVESDTIWVKFPVLKVSEDKELGYWIK
+EALKLIAVDDETEDGLERMHDYEVDAYLSSIRSANVVIWTTTPWTIPGNRAISFSWKVSY
+GLYEITSAANNFGPKPGEKLILADKLAAEAFAKAKLEYRRLAPVPAEVLAAITCAHPLAS
+LGYDFLVPMLDGDHVTDDAGTGFVHTAPGHGREDFDAWMSNARDLEARGISAKIPFTVGD
+DGFYTDEAPGFGPSAEGGAARVMDDNGKKGDANKRVMDALIAAGNLFARGRIKHEYPHSW
+RSKKPVIFRNTPQWFVYMDKDLGDGTTLRSRALAAIDDTRFVPAAGQNRLRAMIEQRPDW
+VLSRQRAWGVPICVFADKAGTVLKDEAVNARILEAFEKEGADAWFAAGAKERFLGNEHDA
+EQWTMVTDILDVWFDSGSTHTFTLEDRPDLKWPADVYLEGSDQHRGWFHSSLLESCATRG
+RAPYDAVVTHGFIMDEKGEKMSKSKGNVTAPQDIMKDAGADILRLWVMSSDYAEDLRVGK
+TIIQTNIDAYRKIRNTIRWMLGTLAHDRQEEIAYADLPELEKLMLHRLSELDQLVREAYD
+GFDFKRITRALTDFANVELSAFYFDVRKDTLYCDAPSSLKRRAALHVIRKLFDCLVLWFA
+PMMPFTTEEAWRSRDPQADSVHLEQFPAIPAEWRDADLAEKWRKVRIVRRAVTGALEVER
+KDKRIGSSLEAAPVVHVADPELMAALDGLDFAEICITSDIEVVSGEGPEGAFRLEDGTKV
+SVEPKLAEGTRCARSWKVTKDVGSDPAFPDVSARDAQALRELGFATA
+>tr|A0A1Q9AMA2|A0A1Q9AMA2_9RHIZ
+MTIGSLGYQTTVARSVTLSGTGVHSGAAASITFHPAEADSGIVFQRMDGDAVVSEFRAVS
+ANVGNTDLCTVLGFSPATAIATIEHVMAALYAIGVDNLLVEVQGGEMPIMDGSSAPFFEA
+IEQAGLKALAVKRRVIRVLKPVRVEHGASWSEFLPHDAMRFEVEIDFDTPLIGRQVWKGD
+MTPSTFKRELSRARTFGFMRDVERMWAAGRGLGSSLENSVVISDDHTVINIEGLRYPGDE
+FVRHKTLDAVGDLALAGMPFLGIYRSYRGGHKMNAYALKALMSDPTAYEIVESQPARARI
+LREPVLAAAASVPA
+>tr|A0A1Q9AMY3|A0A1Q9AMY3_9RHIZ
+MTDSEKPHILIIEARFYDDMSDALLDGATSALTEAGATYDVVTVPGALEIPAAIAMALDG
+ADEDGTYYDGFVALGMVIRGETYHFDIVSNESSRALMDLAVSESLALGNGILTVENDEQA
+WARARKSEGDKGGFAARACLTMIDLKKKLSGQP
+>tr|A0A1Q9AMM3|A0A1Q9AMM3_9RHIZ
+MDNPVPTSQVDYGDIERLYRAVAEERPHAELLHQLYDLFGTDFDLRPPDHERRLVGTING
+AKPWRL
+>tr|A0A1Q9ALK9|A0A1Q9ALK9_9RHIZ
+MSIIVNKDTKVLVQGLTGKTGSFHTEQALAYYGTQMVGGIHPSKGGTNWTGSKGETLPIF
+ASVAEGKEKTGADASVIYVPPAGAADAIIEAIDAEIPFITCITEGIPVMDMVRVKAKLDK
+SKSRLLGPNCPGILTPEECKIGIMPGSIFRKGSVGIVSRSGTLTYEAVFQTSNEGLGQTT
+AVGIGGDPVKGTEFIDVLEMFLADDATTSIIMIGEIGGSAEEDAAQFLIDEAKKGRKKPM
+AGFIAGRTAPKGRTMGHAGAVVSGGKGDAESKIAAMEAAGIKVSPSPARLGKTLVEVLKG
+>tr|A0A1Q9AQE2|A0A1Q9AQE2_9RHIZ
+MKKSVPSRGIVQISEIANGIIDPVLARRAGINTFLLGAWDEIVGAEFALSSRPEKIAWPP
+RERDANGREAQRPGTLVVACEGAQALFLSHAKGEMIERINSFFGFPAIAQVRIVQKPVSP
+PPRPGRRLRPLDAASKMELEDMVSGIESETLKAALRRLGRGVLAAR
+>tr|A0A1Q9AJ98|A0A1Q9AJ98_9RHIZ
+MSAQAAPKAMTVSATDVAVEIIGMNKWYGDFHVLRDINLKVMRGERIVIAGPSGSGKSTM
+IRCINRLEEHQKGKIIVDGIELTNDLKKIDEVRREVGMVFQHFNLFPHLTILENCTLAPI
+WVRKMPKKDAEEIAMHYLKRVKIPEQANKYPGQLSGGQQQRVAIARSLCMKPKIMLFDEP
+TSALDPEMVKEVLDTMVGLAEEGMTMLCVTHEMGFARQVANRVIFMDQGQIVEQNSPAEF
+FDNPQHERTKLFLSQILH
+>tr|A0A1Q9AEI6|A0A1Q9AEI6_9RHIZ
+MSATDPIANLAALIRCPSVTPAEGGALAVLEEQLRPLGFTVDRIVSSTPDTPDIENLYAR
+LGTEGPHLMFAGHTDVVPPGDAALWRHPPFSAMIEDGMLHGRGAVDMKGGIACFVAAIAR
+LLAEGRKLPGSVSLLITGDEEGPAINGTPKLLDWAVARGERWDACLVGEPTNPDRLGDMI
+KIGRRGSLSGIVTVTGVQGHAAYPHLADNPVRGILALARALMDPPLDTGTENFQPTNLEV
+TSIDVGNPATNVIPASATARFNVRFNDTWTADSLKDELIRRLDAAARDEALRPGRAPVSY
+SLTFAERPSHVFLTRNDRLISTLSSAVEGVTGHVPALSTTGGTSDARFIKDHCPVVEFGL
+VGQTMHMVDERVAVADLETLTQIYMRFVESWFADAAA
+>tr|A0A1Q9AKE1|A0A1Q9AKE1_9RHIZ
+MRTSIATVSISGEFPEKLGAIAKAGFSGVEIFENDFLTYDASPREVAAMVRDFGLEITLF
+QPFRDFEGMPEPHRARAFERAERKFDVMGELGTDLMLICSNVSPVSLGGIDRAAADFHEL
+GERAARHGVRVGYEALAWGRHINDHRDAWEIVRRADHRQVGLILDSFHTLSRKIDPNSIR
+SIPGDKIFIVQLADAPLFDMDLLYWSRHFRNMPGEGDLPVVDFMRAVAATGYAGPLSLEI
+FNDQFRGGSARALAEDGHRSLVYLMDQVKRLEPDIRIDVPDMPDRIAVEGVEFVEFTTGP
+EEKANLAALLETLGFARTGQHRNRAVELFTQGAIRIVVNTDVEGSSFAGASYSVHGTNAY
+AFGLKVDDAHNALRRAQALDATRFAEPRASGETAIPAIQGVGNGVIYFLDGSPALANVWD
+SEFAAVAPASQGTDAGLTRIDHLAQTTRYDEMLTWLLFYTSIFSTRRTPMVDVVDPGGLV
+RSQAIESAPTPSFRVTMNGADNRKTFAGKFLAEGFGTSIQHIALATDDIFATAARLAGLG
+FQALPISRNYYDDLEARFGLEPAFSDALRAASILYDRDDQGEYFQIYSRTFGEGFFFEIV
+ERRGAYAGYGAMNAPFRIAAQRRLARPDGMPKV
+>tr|A0A1Q9ALB9|A0A1Q9ALB9_9RHIZ
+MGNQMKIVMAIIKPFKLDEVREALTAVGIQGLTVTEVKGYGRQKGHTEIYRGTEYAVSFL
+PKLKIEIAVPAETVDKAVEAIAASAKTGQIGDGKIFVYSIDHAVRIRTGETDSEAL
+>tr|A0A1Q9ACP8|A0A1Q9ACP8_9RHIZ
+MMTDDLFKALADPTRRRIFEKLAEGGRTASALREGMAISQPAMSQHLAVLRKAGLLREAR
+KGRFVEYQVEPEGLARMAEWLARYRAYWPERIDALKTLLREMDQ
+>tr|A0A1Q9ADE1|A0A1Q9ADE1_9RHIZ
+MTFARSFAAWRNYRKTVTELGRMTTRELNDLGINRSDIPSVARSAVQL
+>tr|A0A1Q9ACQ6|A0A1Q9ACQ6_9RHIZ
+MSITAERKAELIKQYATAEGDTGSPEVQVALLTERITNLTEHFKDHKKDNHSRRGLLALV
+SSRRSLLDYLKKKDEGRYSKLITALGIRR
+>tr|A0A1Q9AHP6|A0A1Q9AHP6_9RHIZ
+MSAAAAATTQPANAAGERPGSGMASTVALATLLLGPIIAVNGLAFLMPVFNLLLLSFRES
+LGGSTIGEAYTLANWSSTLFDSYYIELIVQSILTSLMITALTLVASYPIALYLHRSKGRW
+RTFLLVLVISPLLTSAVVRTYGWIAILADDGLINNMLKAFGVEAMRLIFNKVGVVIGLTE
+ILMPYMILALLAGFGRLDPRVEEAAETLGASPWKVFWRIVVPLTMPGVALGCLLSFVLAV
+SSFITPKLLGGGRVFLLATEIYDQAIVTLNWPLAATLSMIVLVIFGAALVLYSRLLRAVI
+>tr|A0A1Q9AD08|A0A1Q9AD08_9RHIZ
+MSIPSAGAASAVAKPQPARPKGRRRDRARLFQEMGMLAPAVILMTVFLIAPFILSFWTAM
+TNQPLVPRPTPVRFVGLANFIRIFNDPLFWTALWNVTRFTLWIIPVQCGLAFLTALLLHQ
+KIPFRNLFRGLFFLPAITSMVVVCVIWATLFQYPTGPFNQILGFLSFGTIQPIDWLGDPN
+WAMVSIVLLSAWQAYGFQMIIYLAGLQGISEELYDAARIDGANALQRFWHVTMPGLRPTH
+VFVLVITTIQAFKLYTQVAILTQGGPKNSTETVVHYMVRIGYEEQKLGYASAVSVILFLI
+VLVIALLQRFLLRRYDV
+>tr|A0A1Q9AMA4|A0A1Q9AMA4_9RHIZ
+MATVVALAIVYGALRSSRFARLAEPVLSVLVAIVLVAAFLIWATGDQRSARDPQPPLRPS
+QRLAITPDQVQLDGLVFTQGTPINNFIVTGRMTNRSDAVLNYFTFVAALEDCAASPCRPI
+GEDHALVLARLPPQESRDLRLVLTLPLPAGPLSPALRWTTRVETINALPAGPAAPPVAEG
+R
+>tr|A0A1Q9AD70|A0A1Q9AD70_9RHIZ
+MTATSDPFERLRRLTRARVALGRAGDGLPTEALLAFQMAHAKARDAVHGHVDFDAVAEAL
+APLESLRVKSGAADRAIYLRRPDLGRRLSAGTDSLPAGPVDLAIVVADGLSSVAVEQHAA
+AVVTRLARLLPDLSLGPIVLAEQARVAIGDDIGARMRAGMVLVLIGERPGLSSADSLGAY
+LTFAPEVGMRDSARNCVSNIHDHGLLPAAAADKLAWLIREALRLKLTGVGLKEAAPGALL
+ADVAGGPMLDHD
+>tr|A0A1Q9AIY5|A0A1Q9AIY5_9RHIZ
+MIGLARGLGGALLFALPMQMTMEMWELGFTMDRWRLLLLLLATLPLLFGLARRIGFEETF
+SWREGMRDAVIAYGIGIVSSAVLLSLFGLITSDIAREDLVGKIALQAVPASIGALLGRSQ
+LGSGPDEEDEDEQQETEGTGYGTELFMMAIGALFLNLNTAPTEEMILISYLMTPWHALVT
+ILLSIAVMHGFVYAVSFKGGHELSQDVPSWHALIRFTLPGYVIALLISLYCLWTFGRLDD
+AGAMTNLMAVVVLGLPGAIGAAAARLIL
+>tr|A0A1Q9ANW1|A0A1Q9ANW1_9RHIZ
+MTVNATPTPGPLLVSPEDHALVMIDFQSQMSFATKSIDAVNLRNNAALVAHAAKGFGVPA
+ILTTVAEKTFSGPMFSEITDAFPGQALLDRTSMNTWEDAAVIDEINRIGRKRLVFCGLWT
+SVCIVGPTLSALEQGFEVYVIADACGDISEEAHERAMERMLQAGVRPMTSLQYLLELQRD
+WARTGTYEMTTGIAKKFGGAYGLGIIYAKSMFGASEGH
+>tr|A0A1Q9AEV2|A0A1Q9AEV2_9RHIZ
+MSSLRSEWILLVALAAAILGFSVEHMLMEAGRIAALAGAGVLVAAIIATSIRVAHHAEIL
+AVKVGDPYGTMILTLSAVLVEVIILAILMSGESSPTLVRDTIYAAVMLDINGILGLAALL
+GGLKHGEQPYNDDSSRTYSVMILTAMGISMIVPEFVPEAKWHLYSAFTIIAMVTLYAVFL
+RMQVGAHSYFFSYSYPNKTRRKPPQAARAAGGPGPAVGQGQAPERPLPAAPSAANATAPA
+PAHNASAGSSQPAAAVEDEEGSHPGEEASASLSIGILVVGVVLIGILAEVMSALLNEGLR
+DSGAPPVLAALVVATISAAPEIMTAMRAALANRMQAVVNIALGASLSTVILTVSVMEAIA
+LFTGQPFIMAMTPVQTVMVTITLIVAAINLNDGETNAIEGMTHFVLFATFIMLSALGL
+>tr|A0A1Q9AEE9|A0A1Q9AEE9_9RHIZ
+MNWTDERVEKLKKLWSEGLSASQIAAQLGGVSRNAVIGKVHRLALPGRAKAGGAAPAAAS
+ARPKRPVPPVAAPQRPQQDTLRAPQRPLVRQNDVALMKDDQTPDMIEESAPVETPVAGNV
+VVPMTRKLALTQLTDRTCKWPIGDPMKDEFHFCGNDCSEGSPYCTYHARLAYQPSAERRR
+VR
+>tr|A0A1Q9AM22|A0A1Q9AM22_9RHIZ
+MPVGLTILLLFQLIGEILAYATHGAVPGPVIGMALIFLCLFLFKGQDRLKAFETHTLSAS
+RLLLANLGVLFVPAGVGIVQHLDMVADRGPQLIATILLSTLATLLVTVSTFLLTKRLMGA
+RKDG
+>tr|A0A1Q9AJE7|A0A1Q9AJE7_9RHIZ
+MIYVDADACPVKPEILKVAERHQLEVTFVANSGLRPSRDPMVKNVIVSAGFDAADDWIAE
+RAGAGDVVVTADVPLAVRCVASGALVTGPTGRVFDETNIGMASAMRDLGQHLRETGESKG
+YNAAFSPRDRSKFLETFDRLCRRARSSSAPA
+>tr|A0A1Q9AI46|A0A1Q9AI46_9RHIZ
+MDMLARRLTIISMLMVAFAMSLAVAVSADTERRREAGNGLADCTAHTAQFCQARLHMIDE
+AKL
+>tr|A0A1Q9APT4|A0A1Q9APT4_9RHIZ
+MREPPQLINRYKWYEILGIYAGIAVFLTFVLAPFVEGFLVSLKPLSQLFSSPYRFIPENG
+SFEAYYTMWDHVPGFARYIVNSFVISGAATVIVLILVVPAAYAFARFEFRGAGLLLGAFL
+AVNMFSGAVLLIPLFRLMRSLGVLNTYFAMIVPGVAFLIPSAIWLLRTYMMRIPRELDEA
+AFVDGASHFYTLRRVILPIAKPGIVVVAITTFIGAYAQQFIYALTFNSKTEYAPLPVGLF
+AYFGRQEVVWNELMAAAFVGIAPAMIVIFFLQRYLVSGLTAGAVKQ
+>tr|A0A1Q9AI05|A0A1Q9AI05_9RHIZ
+MLFDAPPAGTLVIDNRGTEMSALDLHLLSMLIDQRPPTVRELPKAMRQKYTADGVERYRE
+RIATSLENGVVEPTAAHVRQALADAAIHIVRTGGPGSEEVMRVLEAVFASHAGTPLTVKW
+RIKQGRIRPKFFKAS
+>tr|A0A1Q9AKM7|A0A1Q9AKM7_9RHIZ
+MPRRESDEKNRADTSSFDALMTECRDDGAQLSRTLHVFDAGLFDRALLEALVTENRERRA
+KD
+>tr|A0A1Q9ADT2|A0A1Q9ADT2_9RHIZ
+MSAAPLLSVENLDIAMRLPDGGRLPIVKDFSLTLQAGDTLGIVGESGSGKSLLSLAVMGL
+LPPAAIASGRILLEGRDLMALDDDGMSRVRGRRIGMIFQEPMTALNPAMTVGDQIAEGLV
+RHEKLSWKAAREAAVDLLDRVRIPDPRARAKAYPHQMSGGQRQRVGIAIAVAMRPALMIA
+DEPTTALDVTVQAEVLEILDDLCAREGMALMLISHDLGVIARMCARTLVLYAGRRMEEGD
+TRGVLTEPLNPYTRGLLRAVPRRRVDGAPLDTIPGTVPGFARLPEGCVFSDRCGDVVAAC
+RAGEPAWTQPRPNRGVRCIRAQQEMPA
+>tr|A0A1Q9AI96|A0A1Q9AI96_9RHIZ
+MAYPNSNPAMSAALGNLGGMMLIAGGAVGLMTAINDSLDGIAAAREGRMIDRYADALAAA
+TDHADRMGEIAVEAVRYCAELEAKVASLQAACAQRQEVIQVLRSRMA
+>tr|A0A1Q9APW2|A0A1Q9APW2_9RHIZ
+MELVLSAGIGVLAASGIWLLFRPRTYQVVIGLSLLSYAVNLFIFGMGRLRVDAPPIIEKG
+GAGGLLTHSDPLPQALVLTAIVIGFAMTALFLVVLLASRGFSGNDHVDGRE
+>tr|A0A1Q9APR4|A0A1Q9APR4_9RHIZ
+MKADHLLYPTPKGLYCERGGFYIDPVQPVERALITHGHADHARAGHGAVLATRQTLDIMA
+VRYGEAFCQTPEEAPLGKAMRIGDVTVHFHPAGHVLGSAQIAVEAEGLRIVVSGDYKRRR
+DATCLPFEPVPCDVFITEATFGLPVFHHPDDAGEIGKLLTSLRQFPERAHLVGAYALGKA
+QRVIILLREAGYNAPIFIHGALTKLCDYYQAQGIDLGALEPATITGRDKSAFAGRVIIGP
+PSAFADKWARRFPDPMAVFASGWMLVRQRARQRGVELPIVISDHCDWAELTATIAELRPG
+EVWVTHGREEALVRWCELQGIAARPLHLVGYDDEGE
+>tr|A0A1Q9AL34|A0A1Q9AL34_9RHIZ
+MRIGLFAVGRLKAGPERELAARYLDRFAKAGPAIGLEFARMTEVAESRAGSAPARMKEEG
+ALLEKALPENAVLVLLDERGKAMGSEEFAQLIAGWRDGGKREMMIAIGGADGLDPPLRER
+ADAVLCLGRMTWPHQLVRILIAEQLYRAVTILSGHPYHRA
+>tr|A0A1Q9ACW1|A0A1Q9ACW1_9RHIZ
+MTVKPHATEKHNFRIAAADMEQGDGKSLSPIARRRLPAFSIGQKRVAIFQIRLTRLDVDV
+FVFPMSLSQNQ
+>tr|A0A1Q9AEH1|A0A1Q9AEH1_9RHIZ
+MTRFSTFEIVSLDGALALQQVDHTELVEIEIAAVYGEREAVLRVGLVDLNDSNLAAWVDC
+DVEAVRAEMQEWLDAYMTLRLVVDYYAHPSECSSLNRILRKLLAKRDAFLAGDYVPLSSR
+WQVYWSSENEQGSYDGGAYDTLPDAQQAARELAVKLLGQCTDDEQCEGILSGTMDILPMV
+GTDGRDGEVVGDWIQTPVTEVVSTHLLAA
+>tr|A0A1Q9AHU7|A0A1Q9AHU7_9RHIZ
+MGYFLTADGGTESLRARVYDLDGRCLGSIAVAYETRFSAGARAEQDPEDWWRAFVSAATG
+AITEARIDPQDVEAICLATTSCTVVALDADGRALRPAIIWMDVRANREADAVLATGDGAL
+IANGGGQGPVSAEWMIPKALWIARNEPEIFEKAATICEYQDFMTLRLTGERAASLNNVTL
+RWHYQTDRGGWPTSLVDALGLSVLLRKWPERIVPPGGVIGTLSKKAAEELGLPFAVKVVQ
+GGADALIGMIGLGVAKPGQLALITGSSHLQFGVTEQAVHAPGIWGTYRDCVYPDRYIVEG
+GQTSTGSVIAWLGRLMNGTMDLEEMNRKAAALDPGCDGLLVQDHFQGNRTPYTDPLSRGA
+IVGLTLAHEPHHIFRAIMEGIGFGTRAILDAMASAGYRGTEITVGGGAGASDLWLQIHAD
+TAGLPVSVPASRDAPSVGAAVLAAHGAGHFLSIDEGIAAMVKPGRRIEPRRREAALYDEI
+YQRYLALYPALKAVANAGRSAA
+>tr|A0A1Q9AGW0|A0A1Q9AGW0_9RHIZ
+MVALTVRPYRSGDEAGIVAVILPIQREEFAIDITAEDQPDLTDIEGFYGAGSGGFWVAEM
+DGRIVGTIALKDIGGRRGALRKMFVAKPARGSAIGAGQQLLDTLLAHAAAHGVTEVFLGT
+TEKFLAAHRFYEKNDFAAVDPMALPEGFPRMAVDTRFYRRSLV
+>tr|A0A1Q9AME3|A0A1Q9AME3_9RHIZ
+MMTRARISETGTLVLPRALREAVGLAPGAEVEISQSGGRLVVEPVPPSAPEVERETKPLT
+AAAFLAQRLPYNGTVITDEMIEKAILEEAKRRWERVQRQTDEDLRD
+>tr|A0A1Q9ACD9|A0A1Q9ACD9_9RHIZ
+MKLKAILLGACSAAVLAGVAQAETLTIATVNNGDMVRMQKLTDDFTKANPDIQLQWVTLE
+ENVLRERVTTDVATKGGQYDIMTIGTYEVPIWAKQGWLLPLDNLGADYDVDDLLPAIRSG
+LTMDGKLYAAPFYGESSMVMYRKDLMEKAGLKMPDAPTWDFIADAARKMTDRSAGINGIC
+LRGKAGWGENIAFLTATSNAFGARWFDENWKPQFDQPEWKNTLDFYVKLMKDAGPAGASS
+NGFNENLALFQQGKCGMWIDATVAASFVTDPKSSTVADKVGFALAPDTGKGKRGNWLWAW
+NLAIPAGTQKAASAEKFVSWATGKHYLDLVAAKEGWANVPPGTRTSLYKNEAYLKAAPFA
+KMTLDSINAADPKNPSVKPVPYVGVQFVAIPEFQGLGTTVGQLFSAALAGQMSVDDALAQ
+AQTVSNREMQRGGYLK
+>tr|A0A1Q9ACP1|A0A1Q9ACP1_9RHIZ
+MPKMKTKSSAKKRFKITATGKVLAAGAGKRHGMIKRSNKFIRDARGTMVLAEADGKKIIK
+NYLPNGL
+>tr|A0A1Q9ALA6|A0A1Q9ALA6_9RHIZ
+MQVGNARYLKPQDLPEVLPVFPLSGVLLLPGAQLPLNIFEPRYLAMFDDALAGKRLIGMV
+QPSLTEHREEIVNGPQPPLCQVGCVGRITSFAEMEDGRYIVSLTGICRFRLLQEASITKG
+YRNFHIAPFAADLDTPEEEAQVDRAALLSAFKAYLDANKLEADWESVERAGNTMLVNSMA
+MMLPFGPPEKQALLEAEDLKTRADTLIAITEIVLARNFGDIETILQ
+>tr|A0A1Q9AN35|A0A1Q9AN35_9RHIZ
+MTEVRSKPSRDTLLRRLHKAHETWPTRLEDRAALVEKAFLALDEEAQRLALALQADYVEI
+LSGKVCRYNLYFSERRWERLTDADFAELARRRAAPKFVPVPPFGKLWFALRMRALLAGPE
+AINLPLDLRASTEEFYAGWVQINPERGQRLLARRGVAVATDGTLIFPEDFETRDIVRRYR
+DEGYPEVKRLHEDALARRAGSTDAAHAPLADLVEAVPAGSQLLAEWRALEEVTGWPLLPD
+MGSHPGHAYYPPGGPDELGAFQQAVKAILGEGR
+>tr|A0A1Q9AJS6|A0A1Q9AJS6_9RHIZ
+MITPLQQSAGLASTSVLRSILERKDEQRLEEEKKAKGVPSSESDEMLKAKVSSSQSHAAL
+NDKINAHFFGGQAEADPLAKLISRFAQQLGMERVDGESDARFGQRAADRMTLIGAIGQKE
+AGDGEPVTLARFGVTVSELDATLDGSNAKPSATEAWLARMVTEFGISRASNESDSAYSAR
+IGDTLRQARAPMAKDKEEIAQTLGLKDLGIEVEDLIAAMSNPRGQIAKDLSAALQKQAKE
+DKGLTKDLQKALQRMDDIADPKSKAELVLERDGAKDPTRVEDDDTRAERAADIRAKEASE
+KLDHVRKAQDALAAVNEAAIKTGHAPGGDGQTDADPGAAAGVDPAAALAGELLQTLAAHA
+ETAKTMQTATATKATNQQEAAGEPKSNEEREAHQLELVKQAGTPDGPSEAGMQKLDAKAI
+FAVSVDEIGLYELLKHKTIGDAAKAA
+>tr|A0A1Q9AD50|A0A1Q9AD50_9RHIZ
+MAGRYQHYISLGSNCEVAFQFRRVLQQDSSSFFSWNVTDCRALLRLLRARFEGVAELANI
+RPHSHDSMLLDARYDYLFHNPFTTGEPRDDPKFEETWAAYRAKIDYLVTKFLRDAASDDR
+TAYFYKTDEQDMREKARQIRDALWDLHQKDNFDLIIIQTRDREEEDWGEERLRNRYVRRF
+APLDDAHDGHVSNYDTIFREFPKAAKMYFAGY
+>tr|A0A1Q9AIH4|A0A1Q9AIH4_9RHIZ
+MCLAGCQTSEGEGDSESAFAGGVFSDLQARNPKGHPDVTSTGTARPRAGSTQTFGPDPGL
+TPVGSGDRASSGQYTLNFDRTDIKDVARAILNDALHVNYSISGDLSGPVTISSARPVSRE
+QLLSTLETSLSSFGFSLNRSGGGYTIAASGVSGGTVDFGSRTRAGFGVSIIPLSFVSAAT
+MMQLVSGFVAEADGLRVNAAGNTIIVRGSGPQRAEVVEAVLSFDSDFMQHQSVSIFRLAQ
+ARPEQVVPELDRIFNSQGQGGAIQFRAVNRLRGIMAISRNSALLKRAESWVRRLDQQDGQ
+SGNNVVVYKARYRKAAELATVMNNLFGGASGSSAAPSSRQAQSQPMGDPTRQGASGKDNP
+ATSEAEGSGTAVLANNRVASAFATASDDTIGAAYGGIPNVVDLTSGAQETQSPMRISADP
+SNNSVVIYGDADRASEILQTLKRLDATPVQVAINVTIAEVRLSKDLKYGVQYFINSKHLG
+LGNNNGSVSLVDEASNVLKKQIPGLNFVIGTNADPDVIISALDVIGDVEVLSSPSLVVLE
+NQTATLQVGDEVPITTRQSQSLENAVAPVVNQVEFKNTGIILNVTPRISQNDAVTMQIEQ
+EISSVASGANTLTPTISKRRLASQISVNDQQTVLLGGLISASTDNGKSGVPGANKLPVFG
+GLFGQTKKSSTRTELIVLIRPVIIRDAQDAANVAESLRAQMSVIGARGGGRLK
+>tr|A0A1Q9ACX6|A0A1Q9ACX6_9RHIZ
+MVQGIGINTKGALYANGYKNSSLIINSLNYIGVTQVRDAIAGPAQGSPVLDAMAAAGIKF
+DFMAGYGVAANGAAGIADFISALKSFQSSHPGALLSIEGLNEADLNSASYNGLTSLEAAA
+AFQKDLYTAIKADPALSATTVLNLNLGYDNTSNYARIGDLGAYSDAANAHIYTHTGRVND
+PVIESIIAHAKAASSGDPLIVTEMGHTTLQSFQGIGTNEAAQAKMLLTDLFTAFEDGASA
+VYFYELLDNSDSLYRGESEVYFGIFKEDGTPKLAATALHNLTTILKFGADGVADGTVPAV
+PTLNNAPSTAHLMTLDKPGAVYDILIWNDTPVWNMNTQKDITPVTTQTVLQFSQVESVIR
+VYDPLSGLVPIATYNNVSSISLPLSDHPLVVEVGAAAAVTETALVSDANLSLTAAQLMAR
+IDSLAVSSGLTSITLTDSHALPVSSVETMNYMISNYGSTLAKIAGGYSFTVSYGENNWET
+VKDYDAQGTLTLKTDYGYSNGDLVTKTILQPSGVMDVYSYKITGQTYTSQHQVVDASGKI
+TLSERMHADGSFDSRELHNADGSNEYYIFDTAGRLSQSSLIAQDGTITSFSYDTAGKLIA
+QSIKAVNGDVTSTTYSAGVKTTTTITSHEGWTEQMKYLSDGTLSSDYRKNTDGSAVSTIY
+NNGVVKTKSILFADGSSDNTTYGITGKTYTIEHNRTDTSGKTILLERIHDDGTFDYRELR
+NADGTKQFFTYTSTGILTADTFVNADGSKSWKSYKQDGTGDIQTEVFNAAGTSMKRDILH
+TSGKHDLYAFVDGQTLSGGAADDTFRFSTTKNATMIYQGGNDILYGFNTDGGAADHVAIN
+KSWAADFASLNMVQQGSDVLIRFDATDTLLVKQQKVAALTSDYFIFS
+>tr|A0A1Q9AGR1|A0A1Q9AGR1_9RHIZ
+MRDFGEIVVLAADRKGGILALDDALATTPALVSSAIAAIPDDRILAEMTRRIFNAGFSSK
+VIEAKWPAFEAAFMDFDVNACAFLSDDHFDALMQDRGIVRNGAKIRAVQINAQLVLDLAS
+LHGSAARYFADWPDNDYVGLLNLLKERGSYLSGDAGMRFLRTIGKPAFITTKDVVAALVR
+EGVIARAPTGKRDYAAIQEAFNRWSEQSGRNLTEISRILAMSLP
+>tr|A0A1Q9AJ76|A0A1Q9AJ76_9RHIZ
+MQAKKQLQIGIVVVAAGRGERAGQEGGPKQYRRIGDAPVISHTLRRFAAWPGTACLVAVT
+HLDDDALFDHALEISRIAMPVMRVHGGATRQASVLAGLRALRQQAPDVTHVMIHDGVRPF
+FDAALLERCAAALAQGDKAVLPAVAVADTLKRGDAQALVSATVPRAGLFAAQTPQSFDLD
+AILAAHEAAAADGGQDFTDDAGIAEWAGLAVRLVEGDAGNVKLTVKKDIDMADQRLATPA
+IPDIRTGNGYDVHRLVAGDGVTLCGVFIPHDQALLGHSDADVALHALTDALLATCGAGDI
+GDHFPPSDPQWRGAPSRIFLEHAARIVRDKGGVILNADISLIAEAPKIGPHRETMRARLA
+EMLAISIDRCSVKATTNETIGFVGRREGIAAIATASVFYPPEPA
+>tr|A0A1Q9ANR3|A0A1Q9ANR3_9RHIZ
+MQPSFAVRAARILLYLIILAIFVGPFWGIIVTALSGLVIKPGQLLLLPVQPTLANFKTAL
+IDMQVWRYLLNSLVVAILGTALQVAVSALAAYALARRRFRGAAIVSLLVLSTMMLPEEVI
+SIPLYLVVQARFPVIDASIYNTYAAMILPVVGWAFSIFMLTEFMRAVPKELEEAARIDGA
+NEWQIFANVVLPLVRPALGTVVIFGFIMIWDQYLLPLVVVSDKQLFTIPVMLGMLRVDET
+ITPNVFVAATLLAMAPTIICYLLLQKQFNRGIMAGAVKG
+>tr|A0A1Q9AJL2|A0A1Q9AJL2_9RHIZ
+MNQEVMNLFNPQMPAQTFDSIRISIASPEKILSWSYGEIKKPETINYRTFKPERDGLFCA
+RIFGPIKDYECLCGKYKRMKYKGIICEKCGVEVTLSRVRRERMGHIELAAPVAHIWFLKS
+LPSRIATLLDMTLKDIERVLYFEHYIVTEPGLTSLKANQLLTEEEYMIAVDEFGEDQFTA
+MIGAEAIYEMLASMDLEKIAGDLRSDMAETTSDLKQKKLMKRLKIVENFMESGNRPEWMI
+MKVVPVIPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLIELRAPGIIIRNEKRM
+LQESVDALFDNGRRGRVITGANKRPLKSLSDMLKGKQGRFRQNLLGKRVDYSGRSVIVTG
+PELKLHQCGLPKKMALELFKPFIYARLDAKGYSSTVKQAKKLVEKEKPEVWDILDEVIRE
+HPVLLNRAPTLHRLGIQAFEPILVEGKAIQLHPLVCTAFNADFDGDQMAVHVPLSLEAQL
+EARVLMMSTNNILHPANGAPIIVPSQDMVLGLYYLSIMNQNEPGEGMAFSDIGELQHALE
+NKVVTLHSKIRGRFKTVDENGKPVSKIHETTPGRMLIGELLPKNHKVPFDVCNQELTKKN
+ISKMIDTVYRHCGQKDTVIFCDRIMQLGFTHACRAGISFGKDDMVIPDSKVKIVGDTEAL
+VKEYEQQYNDGLITQGEKYNKVVDAWGKATEKVAEDMMARIKAVEFDPETGRQKPMNAIY
+MMSHSGARGSPNQMRQLGGMRGLMAKPSGEIIETPIISNFKEGLTVNEYFNSTHGARKGL
+ADTALKTANSGYLTRRLVDVAQDCIVNMVDCGTQTGLTMTAIVDAGQVVASLGARILGRT
+ALDDIDHPLTGERIVDAGKMILEPDVIEIEKAGIQSIRIRSALTCEVQTGVCSVCYGRDL
+ARGTPVNMGEAVGVIAAQSIGEPGTQLTMRTFHLGGTANVVDQSFLEASYEGTIQIKNRN
+LLRNAEGVLIAMGRNMAVQILDERGVERSSQRVAYGSKLFVDDGDKVKRGQRLAEWDPYT
+RPMMTEVEGTVEFEDVVDGVSVLEATDEATGITKRQVIDWRSTPRGTDLRPAIVIKDKNG
+NVAKLARGGEARFLLSVDAILSVEPNQKVSQADVLARSPLESAKTKDITGGLPRVAELFE
+ARRPKDHAIIAEIDGTVRFGRDYKNKRRVIIEPAEDGVEPVEYLIPKGKPFHLQDGDYIE
+KGDYILDGNPAPHDILAIKGVEALASYLVNEIQEVYRLQGVVINDKHIEVIVRQMLQKVE
+ITDAGDSTYIVGDNIDRIELDNVNDGLIEQGKKPASGEPVLLGITKASLQTPSFISAASF
+QETTKVLTEAAIAGKTDGLQGLKENVIVGRLIPAGTGGTMTQIRRIATARDEMILEARRK
+GTGADSANPMLQDLSSEQAPAAE
+>tr|A0A1Q9AD69|A0A1Q9AD69_9RHIZ
+MEMMAMATCGADNRCEDPSGDLSHDRQGEERLRQELGRMARRFCRHPEDVTRLIDRTLDE
+AGLAGGTLEGWAAREAEAATMPSLLSAMRRVMLAPSLAEDEAPRSRGPSLLT
+>tr|A0A1Q9AFP9|A0A1Q9AFP9_9RHIZ
+MRPSLLDPLFAPLPSLPGIGPKVGPLYARLLGEESVEACRVVDLVFHAPSSIVDRRQQPK
+IMDAPPGVIVTISARVDRHQPPPPGRSSQPTRVFLQDETGELALTFFRAKGGWLEKALPV
+GETVIVSGKVEWFNGRASMVHPDYMVRAEEAANLPLVEPVYPLTAGLSPRILRKAIEAAV
+ERVPDFPEWLDDSLIRAQGFLPARSAFEALHTPRDAADIDPRAPARRRLAYDELLAGQLS
+LSLVRRRMRVVPGIPVKATGVLSAKVLAALPFSLTASQTAAVADILADISGTDRMLRLLQ
+GDVGSGKTAVALMAMLAAVEAGGQGVLMAPTEILARQHAATIARMAEPAGVRVDVLTGRT
+KGREREAILARIASGETAIVVGTHALFQEGVEYANLLLAVIDEQHRFGVHQRLALTAKGM
+APHMLVMTATPIPRTLVLAAFGDMDVSKLTEKPAGRKPITTATIPLERIGDVVARLKRAL
+AEGRKAYWICPLVEETEESELMSAEERFQVLTSVLGPDVGLVHGRMSGTEKDAVMQAFKQ
+SEIKVLVATTVVEVGVDVPDASIIVIEHAERFGLAQLHQLRGRVGRGADASTCILLYKGP
+LSENGHARLSILRETEDGFRIAEEDLKLRGEGELLGTRQSGTPGFRIASLEAHADLLEIA
+RKDAAYLIERDPELSSERGQALRVLLYLHRRDEAVRYLRAG
+>tr|A0A1Q9ADT0|A0A1Q9ADT0_9RHIZ
+MNTVKVHGAEIPALGFGTFRMPDAEVLEILPQALKLGFRHVDTAQIYKNEEAVGTAIQQS
+GIARSEIFLTTKVWVDRFGRGELETSVEESLRKLKTDHVDLLLLHWPGSPTPIAEAVEGL
+NKVRQAGKVRHIGVSNFNVHQMQEAAKASQAPLVTNQVEYHPYIDQTPVLDAAHKLGLSL
+TAYYAMADGRVPKDPLLNEIGARHGKTAAQVTLRWLTQQLNVIALSKTSTAARLKENFEI
+FDFVLSEEEMQAIHGLARPDGRIVSPNGLAPAWDRAA
+>tr|A0A1Q9AD84|A0A1Q9AD84_9RHIZ
+MSSDVYSARLSRNLVRSSASTYKDNVNRRTGAGIPSRSAEGDLSVFRFSAFPDFNLEHRA
+VCSLRSRAAGDDRPRLARPIVRFLAGALRPAFLTLRPL
+>tr|A0A1Q9AIQ5|A0A1Q9AIQ5_9RHIZ
+MEFAASSDTRIRNVLGRLEMILDNENSRIGVDPSFDLRGSNARKSRCLYELTMLQRDVLP
+VQQSDLFVSQTKHIRAKLELNSSKVGAHMEACRSVVDLLKAAAQEAEADGIYSQEQFRYG
+EV
+>tr|A0A1Q9APX5|A0A1Q9APX5_9RHIZ
+MSDAEVAEDVPQDFDALKAAILERKASLPKRLKQVAAYALDHPDEIAFGTAASIAASAEV
+QPSTLVRFAQHFGFEGFSSLQQIFRARLRERAPAYEDRLKSLGDNDHSRLESGAILNGFV
+AAAHRSLDNVATSVDPEKFEAAADLLARAETIYLIARRRSYPLSSYMAYAFGKLKIRCQT
+VGTAAGIDEDLLSMASPRDAAFAVSFSPYATETVHQARLLATRGVPVVSLTDSAFSPLSE
+SARFWFEIVEADHAGFRSLSASMAFAMALTVAVAERRRRLASQHME
+>tr|A0A1Q9ANF7|A0A1Q9ANF7_9RHIZ
+MAGTNSEKPLLAEGPAIILVHPQLGENIGMVARAMANFGLAELRLVSPRDGWPSEKARAA
+ASRADHVIDGVKVFETTREAVADLEFVYATTARDRDGFKEVRAPGVAAETLRARFRAGQP
+VGILFGRERTGLTNDEIALADEIVTFPVNPAFASLNLAQAVLLMSYEWMKSGLESLESVP
+FQAPEQPPATKTHLHGLFDHIEEALDARGYFRPPEKKPKLVENLRAVLTRPGFSLTEIQV
+IRGVISSLDRFTREAPRGSSRAAGLVSRKAVRAEAHEAASGAEDADG
+>tr|A0A1Q9AFW6|A0A1Q9AFW6_9RHIZ
+MIFRRIFTILGCGSSPGVPRITGDWGACDPAEPKNRRLRAALLVEQVAEDGGRTSVVIDT
+GPDFRTQMVRAGVTHLDAAVYTHSHADHLHGIDDLRGYVLGRGTRVPIYTDQATLTRIAE
+GFSYCLTTPPGGHYPPIIEARLIGEDLAPFVIEGAGGAIPFLPMRQEHGAIHSLGFRIGD
+FAYCSDVSDFPEETQARLACLDTLVIDTLQYKPHPSHLSLQQSLGWIERLAPRRAILTHM
+HIPLDYATVMAETPRHVEPAFDGMTVTYEVTL
+>tr|A0A1Q9ADC2|A0A1Q9ADC2_9RHIZ
+MKKIGFLSFGHWSPSPHSGTRSAGDALLQSIDLAVAAEELGADGAYFRVHHFARQLASPF
+PLLAAVGARTRKIEIGTAVIDMRYENPLYMAEDAGAADLISGGRLQLGLSRGSPEQVIDG
+WRYFGYQPDEGKSDADMGRGHAEVLLEVLKGQGFAEPNPRPMFPNPPGKLRLEPYSEGLR
+ERIWWGAGSNATAVWAAQKGMNLQSSTLKDDETGEPFHVQQAAQIRAYREAWKAAGHERS
+PRVSVSRSIFALVDDRDRAYFGQSGKDADSIGYLDASTRAIFGRSYAAEPEKLVRQLAED
+EAIAEADTLLLTVPNQLGVDYNAHVIEAILKHVAPALGWR
+>tr|A0A1Q9AI49|A0A1Q9AI49_9RHIZ
+MRNLLMATVFGLAMATAAQAEPVRMSVGSYNLNNLPFPVAESLGFYKEEGLDVTIENFAQ
+GGSKVLQALVAGSTDVAVGFYDHTIQMQSQGKHVIGFVQLARNSGLVLAGKNDTDFDPAK
+PETIKGKSVGITAPGSSSDFFIRYYLKQHGLTDNDISIIGVGSGAAAVAALQQGKIDLLV
+NYDPAATIVVERGLGKILIDARSDEGAKAVYGGIYPTSVLYANQDFIDKHPEVIQKVTNA
+TLKALHWMKAHSAEEIVARLPDDFVSGDKKTYIKAVDNAKAIFSEDGKFVPADLETPLAV
+LKSFNDSVAKATVDLNTTYTNKFVEASKQTVQN
+>tr|A0A1Q9AP14|A0A1Q9AP14_9RHIZ
+MQLAQHHRLYLCFFLFALSLGALLARMPDLQEGLGIDKAELGLTLIGMSIGALISLTVSS
+PLIARAGARKTALVTVVGTALCYALVPVMPNAPTVFAVLFCAGLMAGALEINLNVELGRV
+EAATGRSIMSRAHGFWSAGFFVTALLASFIRQAEISMALHLTTALVVVAVFGVPVMRGLI
+DSAPATEQAAEAAPRFAFPTLGLLPLCLIGIAAFLVEGAGVDWSAIYMRDIYAVEPVIGG
+LGLTLFTFFMALARLTADGVVERFGPRAVATALLCLSAAGLGAVAFSLHPAMALVGFAML
+GAGCSAVYPLAVSAAAQRTDRPAHVNVAAIGQVTFVIFFLAPPLLGFVAEQAGIRASYLV
+CLPLVFVALACVPALKGRALEARTA
+>tr|A0A1Q9ADE2|A0A1Q9ADE2_9RHIZ
+MILVDTSIWIDFFRHDHPALRQIMDEDRLYCHPVIIGELALGSLRDRQSVLTFLTAQRQA
+RAASHEQVLAMIERHAIFSMGIGYSDAQLLASMLLDTRLILWTGDRRLRLAAAKTGLLLH
+EPERNAN
+>tr|A0A1Q9AN66|A0A1Q9AN66_9RHIZ
+MAFSGLHVLCALAGQDGDYSNTRQPLLVSPQWSQTMAAAGTTTNAAASAGSIFRVRVSAP
+TYIATGSAPDASQTTGSTTSSARELILPDDGPVDRYVAVGDKLAWVLA
+>tr|A0A1Q9ANM4|A0A1Q9ANM4_9RHIZ
+MKIAVAGDSAGEGLAKVLADHLKERHEVAEISRTDAGPDAFYATLSDRVASAVLAGTYDR
+AILVCGTGIGVCISANKVPGIRAALTHDTYSAERAALSNNAQIITMGARVIGSELAKAIA
+DAYLAQTFDENGRSAGNVEAINAVDAKYNKG
+>tr|A0A1Q9AEX5|A0A1Q9AEX5_9RHIZ
+MRPSGRKTDQMRKVSFERRISKHAEGSCLVKFGDTHVLCTASLEDKTPPWLRNSGKGWVT
+AEYGMLPRATGERMKREAASGKQSGRTQEIQRLIGRSLRAVVDLQALGERQISIDCDVLQ
+ADGGTRTAAITGAWLALRDCLAWMESRNMIKLEKVLKDHVAAISCGIFAGQTVIDLDYLE
+DSTAETDANFVMTGSGGIVEIQGTAEGAPFSEEQFSALMGLAKSGIGELVALQKAALEG
+>tr|A0A1Q9AFK6|A0A1Q9AFK6_9RHIZ
+MAPRVLVSDELSETAVQIFRDRGVEVDFQPQLGKDKDKLAEIIGNYDGLAIRSATKATEK
+LIAAATNLKVIGRAGIGVDNVDIPAASRRGIIVMNTPFGNSITTAEHAIALMFAVARQIP
+AADTSTQAGKWEKSKFMGVEITGKTLGVIGAGNIGSIVCARAIGLKMHVIAYDPFLSKER
+AEEMGVAKVELDELLAQADFITLHVPMTDKTRGILNAEALAKTKPGVRIVNCARGGLVDE
+AALAEAIKSGHVAGAGFDVFEVEPAKESPLFGLPNVVCTPHLGASTTEAQENVALQVAEQ
+MSDYLVKGAVSNAINMPSITAEEAPILKPFIRLADVLGAFVGQVTEEPIKEIEILFDGST
+ARMNTKALTSAALAGLIRSQVADVNMVSAPIMIKEKGVILSEVKRDKTGVFDGYIKLTVK
+TDTMTRSVAGTVFSDGKPRFIQIKDINLDADVGSHMIYITNTDVPGMIGFIGTTLGQAGV
+NIANFQLGRKEAGADAIALLYVDGKVSEAVLDQLRANPAIRHAKPLVFNVD
+>tr|A0A1Q9AEC5|A0A1Q9AEC5_9RHIZ
+MTQAVYDEYRASRGLPKRSVKLITEAEVAEIYQTRYNELPAGIDYATFDAAVNRACLVAR
+NGCRRHCASARTSFVSGLVTFKVFGRGWLSRIARVEAKSVKMAMEKRGTSAASQNVAFDI
+ESDVASKNAKSAATTSKVSGAGAGGSAYQVDWSNITALESAVLILVAVGFVGLAFYLIHR
+SRQEKARADAYAAIASEGATA
+>tr|A0A1Q9AP67|A0A1Q9AP67_9RHIZ
+MIEAPALSAETEGEPRVTATPAALALVEEIRRDHPQILFHQSGGCCDGSSPMCYPADDFI
+VGDRDVKLGEIGGVPVYISESQFEAWRHTQLIIDVVPGRGGMFSLDNGRERRFLTRSRLF
+SGGEACAIPVIRRGDEAKAG
+>tr|A0A1Q9APA8|A0A1Q9APA8_9RHIZ
+MTLDNDDDLQKLKEIGRICADALQTMTAALEPGMTTAELDAIGRAVLEREGARSAPELSY
+KFPGATCISVNEEVAHGIPGRRALRPGDLVNIDVSAEKDGFFADTGASTFLPPVKSSIER
+LCRDGRRALFIGLGEVRTGKPLSAIGNAIGGFARKNRYTLITNLASHGVGRSLHEEPTEI
+ATWPDKREKRVITDGLVFTVEPFLSLGGQWAEGGEDDWTLYSEPRAPTVQFEHTVVATRN
+GGVIVTMPSVAA
+>tr|A0A1Q9AFD2|A0A1Q9AFD2_9RHIZ
+MKHFAVAATIGVLAFSASVLPVTAMPLSALIDRALHRNEAPAPAPAAPVIKVQSSEAGRI
+GQLEEQVRSLNGRIEEMSFQLLQMQEQIRKFQEDNEFRFQDLEKGGGAAPKKKSALETPR
+TQDQASVPATESPAAAAGREPGASASSTTGSEPTDLGQIILDSEGQTLSATANPQPAAPT
+QPTTPSKRTAALNSDADLYQSAYGHVLSGDYSVAETEFRDYLDSFPKSEKAADASFWMGE
+AQYSQGKFSDAAKTFLNAHQTYGKSPKAPEMLLKLGMSLAKLDNKETACATLREVTKRYP
+KASPAVKAKVTSEQSRLAC
+>tr|A0A1Q9AK39|A0A1Q9AK39_9RHIZ
+MFKQLRPALVLLFATAAITGLVYPLAMTGIAQAVFPAQANGSLIEKDGTVIGSALIGQSF
+TSPRYFHGRPSATTGADPADASKSVPQPYNAANSMGSNLGPTSKALIDRVTAATAAARAD
+NPDGVSADVPADLVTASGSGVDPHLTPQAAYWQVARVARARGLDEAAVRALVDSHIEARE
+LGVLGEPVVNVLALNMALDALRS
+>tr|A0A1Q9ANF1|A0A1Q9ANF1_9RHIZ
+MARSKNTSDGFGEAPQASFESATPLSSNVADWAEELQRMAEAESIETRHDVASRAGRHRK
+QVEQAAAREKQSDAAPTKAKAAGKTAGSGKSSPGKSSRGTSMGSSSDPKARAAAGLNPVA
+GLDVTLEQAEALGFGAKTKAGKSKAVSVPDSAGLEGPSAVTATVEALSKLIESGNPLFKD
+GKLWTPHRPHRPEKSEGGVPIRMVTEYKPSGDQPTAIADLVEGLKSGERSQVLLGVTGSG
+KTFTMAKVIEETQRPAVILAPNKTLAAQLYSEFKNFFPENAVEYFVSYYDYYQPEAYVPR
+SDTFIEKESSINEQIDRMRHSATRSLLERDDVIIVASVSCIYGIGSVETYTAMTFQMAVG
+DRLDQRQLLADLVAQQYKRRDMDFVRGSFRVRGDTIEIFPAHLEDAAWRISMFGDEIDAI
+TEFDPLTGQKTGDLKSVKIYANSHYVTPRPTLNGAIKAIKEELKLRLAELEKAGRLLEAQ
+RLEQRTRYDIEMLEATGSCAGIENYSRYLTGRRPGEPPPTLFEYIPDNALLFIDESHVTV
+PQIGGMYRGDFRRKATLAEYGFRLPSCMDNRPLRFEEWDAMRPDTVSVSATPGGWELEQS
+GGVFAEQVIRPTGLIDPPVEVRSAKTQVDDVLGEIRETAAKGYRSLVTVLTKRMAEDLTE
+YLHEQNIRVRYMHSDIDTLERIEIIRDLRLGAFDVLVGINLLREGLDIPECGFVAILDAD
+KEGFLRSETSLIQTIGRAARNVDGKVILYADNITGSMSRAMEETARRREKQMAYNTEHGI
+TPESVKAKISDILDSVYERDHVRADISGATGKGYASGGHMVGNNLAAHLEALEKQMRNAA
+ADLDFETAARLRDEIKRLKAAELATMDDPIARQEARSAEGATGKAGSLAKSAEGATGKAG
+SPARSAEGTTGKAGSSAPEGKGSAANSSSLFQKPSLDDMGPGTDTARPLFRKNTLDEMTV
+GRTEKPVSGALPERPEESLSTKKRFSPLMEGQPERATDDPRPLARGKTGVGSYEDPAEVK
+RKGRTKGKTGRPGR
+>tr|A0A1Q9ACK0|A0A1Q9ACK0_9RHIZ
+MSTPYAKLPGWVDYGLIPLINLLVAFLVAGLVVLLVGENPLNAAYYMVTGAFGRGEYLGF
+TLYYATTFIFTGLSVAVAFHAGLFNIGSEGQAYIGGIGVALACLWLDRILPWYFVLPIAA
+LGAAFFGALWAFLPGWLQAKRGSHIVITTIMFNFIAASLMVYLLTKVLKPMGSMSPQTRT
+FEAGGRLPKLDWLMSLFGLNIGNAPFNISFLLALLAAFACWVLIWRTRFGFEMRTMGHSP
+SAARYAGISETRITIVVMMISGALAGLMALNPIMGEQARMQLDFVQGAGFVGIAVALMGR
+SHPAGIIPAAILFGMLYQGGAEIAFEMPAISRDMIVIIQGLVILFAGALENMFRPAIGRL
+FAGLASRAPAASQAKGA
+>tr|A0A1Q9ACU0|A0A1Q9ACU0_9RHIZ
+MLKFSLVMTAAWLGISVCQASATLAYTVQQTDAGTKFVMVEGTFEFSDDLTQLRDLLIRE
+HPSFIGFDSPGGNVAKAIELGRMIRSFGLMTFQVRKAECASACSLAFLGGTARSAEPGSI
+GVHKSSFSDPQGMHVDDAVSAVQQTTAEIIGYMSEMGVDPGLLQLSLSYDSNDIRYLSGS
+EMRRFRVTTQDTPVRVAEKAPDARPAVSAPQPGQAVKALPSLNVPIARDGIVRHPKGVAP
+LKATESVDAKTVSQFGNGTKVDILDGRGDWYRVSSGGRVGYLHYTWVRVAQFEEGEGDGR
+YVQVKSFSSLNEATAFAHRSSVPLAVHLAANGWFAVTLKDVYAAQEAKDVAGALKAHGVI
+AKDSIVTLGNTYVRKVCCD
+>tr|A0A1Q9AF84|A0A1Q9AF84_9RHIZ
+MARNTLPTIAAGEGGLNRYLDEIRRFPMLEPQQEYMLAKRYHEHGDLKAAHELVTSHLRL
+VAKIAMGYRGYGLPIGEVVSEGNVGLMQAVKKFDPERGFRLATYAMWWIKASIQEYILRS
+WSLVKMGTTANQKRLFFNLRRLKGKLQALDEGDLKPDQVKQIAKTLNVSEDEVMSMNQRL
+SGDASLNAPIKAAEGDSGQWQDWLVDEHDSQETMLIEQDELEDRRSLLSGAMKTLNDRER
+RIFEARRLSEDPVTLEELSSEFEISRERVRQIEVRAFEKVQDAVRKAASDREKALRVVEE
+A
+>tr|A0A1Q9AEA7|A0A1Q9AEA7_9RHIZ
+MTKDPTSASTGLVARLYADRWTLILSLALAGLLGAGGAPLALVGGFWVAFLLFVCLGGPR
+SSLPEEPENFLADSLADAPAAPPSAVVQFDPLAAAFDALDMPVLVISREQLVVFQNQAAE
+MIFGVIPPQTDLAARLRSPAILDLVRETIATGRPNQIEYAERLPAETVYTLRAAPVMAGL
+ADQPPLFVLSFRDVSQARRIERMRTDFIANASHELRTPLASLRGFIETLLGPARNDPQAH
+ARFLGIMLEQTNRMSRLIDDLLSLSRLELKAHIAPNQLVDLVPLLGHVRDALLPLAGELD
+VTVELILPEGPVTVRGDGDELIQVFQNLIENGCKYGQDGKRVEVRLTGGEGKPVEVFVRD
+WGPGMAAEHVPRITERFYRVNVEASRSKKGTGLGLAIVKHILTRHRARLIIQSELGQGTT
+FIVRF
+>tr|A0A1Q9AIB4|A0A1Q9AIB4_9RHIZ
+MKIKAILNRDGGTFRTTDMDRYTQEMERIFTQAGHQIEVSVISGKEIEAALERTSARDDL
+DAMIAGGGDGTISAAAALAWKNGMPLGVVPAGTMNLFARTLKLPLDIWRVLDVLADGHVM
+AADIGSANGRAFVHQFSMGLHARMVRYRESYSFASRLGKISASARAAFGVILNPPKFKID
+FEVDGVRERRKVSALSVSNNHFGANSLMYADSVDGGHLGFYTAPPLTSAGVARLTFDILR
+GKFRESPLITQMSVTHVTLHFPEANHKINCVMDGELLPLRGDVDLRVHAGELKLLVGPQG
+IEPSP
+>tr|A0A1Q9APD1|A0A1Q9APD1_9RHIZ
+MRILSRQTVIRALALSLAAACAAPALAAEPKNCGTVRFSDVGWTDITATTATVAAIVEAL
+GYKADIKVLSVPVTYQSMKNKDIDVFLGNWMPAQEKDVTPYLKEKTVDSLGVNLEGAKYT
+LATNAKGAALGIKDFSDIGKHKDALDGKIYGIEPGNDGNRLVMSLIDKKEMGMGGMELVE
+SSEQGMLAQVARADKAGKPVVFLGWEPHPMNTTFKMTYLTGGDATFGPNFGGATVYTNTR
+AGYVTECPNIGKLLTNLKFTLGMENQIMGKILNDSEEPAKAAKEWLKANPKAVEPWLVGV
+TTKDGGDAMKAVKGELGL
+>tr|A0A1Q9AEN2|A0A1Q9AEN2_9RHIZ
+MTKRTYQPSKLVRKRRHGFRARIATKGGRKVLSARRARGRKQLSA
+>tr|A0A1Q9AGN1|A0A1Q9AGN1_9RHIZ
+MTVRFGLLGAGRIGKVHAKAVSGDAKAKLVAVADAFPAAAQAIADAYGCDVRTIEAIEAA
+DDIDAVVICTPTDTHADLIERFARAGKAIFCEKPVDLDAERVRACLQVVEETGAKLMVGF
+NRRFDPHFMAVRQTIEDGRIGAVEMVTIISRDPGAPPVDYIKRSGGIFRDMTIHDFDMAR
+FLLGEEPVTVTAHAAVLVDPEIGKAGDFDSVSVILETASGRQAIISNSRRATYGYDQRIE
+VHGSKGVVSAENQRAVSIEIANGDGYTRPPLHDFFMTRYTEAYANEIARFIAAIEEGATI
+SPSGKDGLAALLLADAALQSVKEKRRIDVSL
+>tr|A0A1Q9AF26|A0A1Q9AF26_9RHIZ
+MSIKASIYHLTHYQYDRPIQLGPQVIRLKPAAHSRTKVLSHSLKVSPSNHFVTLQQDPYG
+NFLARYVFPEPVTELKIEVDLIADMTVYNPFDFFVEEEAEVWPFDYAEALVDDLSIYRKP
+EPATPALQAYLDRIDRTPRNTVNFVVDLNAQLQRDINYVIRMEPGVQTPEETLTQALGSC
+RDTSWLLVEILRHLGFAARFVSGYLIQLTPDLKALDGPSGTEVDFTDLHAWCEVYLPGAG
+WVGLDPTSGLLTGESHIPLAATPHYRNAAPISGGFFGEAKTEFAFDMKVTRVAEHPRITK
+PFSDESWDALNRLGQDVDEVLRASDVRLTMGGEPTFVSIDDFQSGEWNTDAVGPTKRAKA
+DALIRRLRTRFAPGGFLHYGQGKWYPGESLPRWTFSLYWRKDGLPIWRNGDLIAQEGRDY
+GVTDDDAGLLLATIAEELDVPSENVLPAYEDPAQWVLKEANLPENLDPSNNKLEDVEQRA
+RMVKVFERGLTKPSGYVLPVQPWNARAGGRRWISERWRTRRGRIFLVPGDSPVGYRLPLT
+SLTWISPSQYPYINPLDPSIPRAPLPDFAQEDGRTLGTAHFQPSAAQQVRMEQSVLEIDG
+FVRTAISVEARDGRLCVFMPPTASVEDYLDLIASTERAAARIGKPVHIEGYAPPHDERIN
+VMRVAPDPGVIEVNVHPAASWQECVAITSAVYEEARESRLGTDKFMIDGRHTGTGGGNHV
+VVGGVNPNDSPFLRRPDLLKSLILHWQRHPSLSYLFSGLFIGPTSQAPRIDEARHDALYE
+LEIAMAQVPAPGQGLPPLPWLVDRLFRNLLTDVTGNTHRSEICIDKLFSPDGPTGRLGLV
+EFRGFEMPPNARMSLAQQLLVRALIARFWQKPAEGGLTRWGTTLHDRFMLPHYVWADFLD
+VLSDLRQNGFDFRSEWFEAQLEFRFPFCGEVDYDGARLELRQALEPWHVMGEQGAIGGTV
+RFVDSSVERLQVTLETINPERYTVACNGRPVPLKPTGRSGVSVAGVRFKAWHPASGLHPV
+LPVHAPLTFDIFDRWSNRAIGGCTYHVAHPGGRNYDTFPVNGNEAEARRLARFEPWGHRA
+GPYILMREQPAAEFPLTLDMRRPPGL
+>tr|A0A1Q9AJD8|A0A1Q9AJD8_9RHIZ
+MRLSTGDVQARLGLSGQDDTAGGRIWRARDALGWSIEALAERLGLPGETIAAWEDDRNAP
+SAAQLFPLAAALGVTSAWLSDGTGPGPALPPPGDEVRRLRQELALVKKLQDDMAKAISSL
+EIAMERVLHERD
+>tr|A0A1Q9AD87|A0A1Q9AD87_9RHIZ
+MPADGAADTGKAKDGKPAAEKGQKDEGQQDKAAPEGPGRPAPGTDKAGQSGLEKEQEGAA
+AQTPDAAPALTIAPEPPEAHAQCIKDLTAIGARFEERGRIDDGKGCGIDKPISLTAILPG
+VEVAPAATLRCEAALELARWVKDSVLPAAKVAMAEDGALTRINQASSYVCRLRNNAATGK
+ISEHARGNAIDIASFTFRNGQTIAIQPRDEDGTLTGAFQRAVTATGCLYFETVLDPGSDE
+AHEDHLHLDILQRKADYRYCR
+>tr|A0A1Q9AIA5|A0A1Q9AIA5_9RHIZ
+MTLDVPQTVLDALTDVDMPRLAPVDPASETLRLAGFDVPVYRAGCVVIGSGAAGLRAAVE
+AKRRGNHVVIVSQSAWGGTSACSGSDKQTLHTANTADRGDDFKAMARAIRAGGAMDEDTA
+YVEAVGSARMMASLQFIGLPLPQDAYGGTLRYQTDHDEVGRATSCGPRTSRLMVQVLARE
+ALQLAIPFFNQTTGLRLLTEGSGDRRHIVGLLATRAAERSPNNPYGFALFACGAVVLAAG
+GPGELYRDSVYPNGCFGALGLALQAGLILTNLTESQFGIGTRREGFPWNLSGTYVQALPH
+IYALDTEGREHHFLADYYRTTQEMASNIFRKGYQWPFHAERMLDFGSSLIDLAIVRETAL
+GRRVLMDFNRNPLPVPGDLPFDLGRLDEDVRAYLGAAGATQASPIERLRHMNPLAIELYR
+RYKFDIAEDPLEFAVNNQHMNGGVMVDIWGRSTLSGCYAVGEAAGTHGVTRPGGAALNAG
+QVFGTRAAEHLDATGWARQPAAHDLAASGGAALEQCLAVLRPESPLDVKTLRTDIQARMS
+DSAGLICRADEVAAALEEAHRLNTAIRENGIAYDRPAEIGRVLQWHQMALASEAVLTALD
+HFIRNGGGSRGARAICDPQGALTPHTRSGPLEAFRFRAEEEAHRGEQILVFHDGTRLHVA
+TRPNRRFDEAAKPFFERDWPAWLTGALFDVEREKEVDIKSG
+>tr|A0A1Q9AC57|A0A1Q9AC57_9RHIZ
+MTEIGQPVPKGVVPMDGTPFVDDALEAIDRRDDAARETIENLSRTSRQDAKADIPASGND
+IGKDESKDEADQATSRAPFDAGTRSKALTVIEGEGRSCHEADLAAMRQELANITATLGRL
+SKAAASRAGEKVGEAGQIVREKAMERPYATAALAGLASLAVYLIARPPRQMGAQLHDASQ
+DLFHRLSEMDPRNSRRRSWF
+>tr|A0A1Q9ACM4|A0A1Q9ACM4_9RHIZ
+MTEPLLSVRNLSVAFHQGGRTAMAVEGVSFDILPGEVVALVGESGSGKSVTANSILKLLP
+YPAASHPAGEIRFKGRDLLAAPEQELRAVRGNDITMIFQEPMTSLNPLHTIERQIAEILT
+LHQGLEGPAARARVLELLNQVGIREPEKRLAAYPHELSGGQRQRVMIAMALANRPDLLIA
+DEPTTALDVTVQAQILALLKTLKDEHGMSMLFITHDLGIVRKIADRVCVMTKGRIVETGP
+TAEIFANPQHAYTRHLLAAEPKGEPPVADAARPVVMEGNEVKVWFPIKAGFLRRTVDHVK
+AVDGIDLTLRAGETLGVVGESGSGKTTLGLALTRLIGSKGRIAFLGQEIGGLNAGGMRPL
+RRRMQVVFQDPFGSLSPRMAVSDIIAEGLQVHEPSLSSAERDRRVAQALEEVGLDPATRW
+RYPHEFSGGQRQRIAIARAMVLKPEFVMLDEPTSALDMSVQAQVVDLLRDLQARHGLAYL
+FISHDLKVVRALANEVIVMRGGKVVEQGPSRQIFSAPREDYTRALMAAAFNIEAVESATV
+SQ
+>tr|A0A1Q9AH55|A0A1Q9AH55_9RHIZ
+MAAKDVKFGRSAREKMLRGVDVLADAVKVTLGPKGRNVVIDKSFGAPRITKDGVSVAKEI
+ELEDKFENMGAQMVREVASKTNDIAGDGTTTATVLAQAIVREGNKAVAAGMNPMDLKRGI
+DLAVSEVVKDLQAKAKKISTSEEVAQVGTISANGDKQVGADIAEAMQKVGNEGVITVEEA
+KTAETELEVVEGMQFDRGYLSPYFVTNPEKMVADLEDAFILLHEKKLSNLQAMLPVLEAV
+VQTGKPLLIIAEDVEGEALATLVVNKLRGGLKIAAVKAPGFGDRRKAMLEDIAILTGGTV
+ISEDLGIKLENVTLDMLGRAKKVSISKENTTIVDGAGQKSDIEGRVAQIKAQIEETTSDY
+DREKLQERLAKLAGGVAVIRVGGATEVEVKERKDRIDDALNATRAAVQEGIVPGGGVALL
+RSSTKITAKGENDDQEAGINIVRKSLQSLVRQIADNAGDEASIIVGKILDKNDDNYGYNA
+QTGEFGDMISMGIVDPVKVVRTALQNAASVASLLITTEAMIAELPKKDAPAMPGGMGGMG
+GMDMM
+>tr|A0A1Q9AKI9|A0A1Q9AKI9_9RHIZ
+MRGYQSRASAVVAAIWLFSMPASIEAQTPPAAGTAPQTVVLSGDSWQQGEKVFRLYGVQS
+CLRGSVYMDQTGERKDCGAVAAAMLAAFLRDTRPRCRSVAQIRTASTSPTVLVACSASIA
+TQELDLGSMMIGQGFAFAALTDLGQPVYASYLAQEILAQEAQKGLWAFEGFQRPDFRKLG
+LK
+>tr|A0A1Q9ACA7|A0A1Q9ACA7_9RHIZ
+MLINRKVPDVTFRTRVRDESIGGPNPYRWQDVTSADYFAGKRVVLFSLPGAFTPTCSTYQ
+LPDYEKLAPEFRALGIDAIYCLSVNDAFVMNAWAKSQNLENVQVIPDGSGEFTRKMGMLV
+AKDNLGFGMRSWRYAAIVNDGVVEQWFEEEGYSDNCDSDPYGLSSPQNVLAALQERKLAA
+>tr|A0A1Q9AE16|A0A1Q9AE16_9RHIZ
+MDTADVDHTGPAGLYIGRKLKGSSGIRYRRFSTVTEALRFAIEEMPASQLRGSCLEVEEQ
+RFNGAQIRSLYDAGQIPRLRQPF
+>tr|A0A1Q9AGG5|A0A1Q9AGG5_9RHIZ
+MTLKARVIPCLDVKDGRVVKGVSFVNLVDAGDPVDAARAYDAAGADELCFLDITASSDGR
+ETIFDVVARTAEQCFMPLTVGGGVRAIADIRKLLLAGADKVSINSAAVRDPDFVAQAADK
+FGDQCIVVSLDCKQTAPEKWEIFTHGGRNATGIDALDFAQAMVKRGAGELLVTSMDRDGG
+KIGYDIALTRAIADRVPVPVIASGGVGTLDHMVEGVKDGRANAVLAASIFHFGTHTIEEA
+KRHMAAHGIPVRLD
+>tr|A0A1Q9AGJ9|A0A1Q9AGJ9_9RHIZ
+MALETSAPSRQPSLGDYLKANIREYGLLVALVVIMIFFQFITDGVLFRPVNITNLILQNS
+FIVIMALGMLLIIVAGHIDLSVGSIVAFIGAISAIMLVKWEIHFLIVVPACLILGGVMGA
+AQGYWVAYQKIPSFIVTLAGMLVFRGLTYLVLQNRPIGPFPPDFQLLSTGFVPDLIPLGD
+PATSLIKNYFALIVILALVAYLIYSGFRERAINQRHGSENEPFIFFILQMVIISAVAIFL
+GFQLATYRGLPNVLVVMGVLIALYTFVTTRSTVGRRVYAMGGNEKAAKLSGINTERLTFY
+AFVNMGVLAALAGMIIAARLNSATPKAGVGFELDVIAACFIGGASASGGVGRIMGAVIGA
+FIMGVMNNGMSIMGLGIDYQQLVKGLVLLAAVFFDVYNKNKG
+>tr|A0A1Q9AHX5|A0A1Q9AHX5_9RHIZ
+MARVSGIAESLDIRLKNAVKAYDLNINDLAGRTLSEGFLRYWHVGMGEAPIQLKGGELFA
+QDVRATSDADITTVHRYLPHEFLKGSAIIAGFLRREGIELEVLSEPKLIDVGHGDPVTRW
+KLRGLVGGVKATSQIELTYGRGPDAFSAVNVFREIPSLISKVPSLLINCQPLEAAAAEKL
+LAVINQPDTDMRVKHVADMLDERLWEGVDCGLIARELQRVCRHRGIDPTSLPDTLAVETY
+ERLRENWTKRFRPGMPTVGFDQAISNVDYLWSEVQDCMTPSMRPLPTSAPVVAERRVGGM
+R
+>tr|A0A1Q9AMF7|A0A1Q9AMF7_9RHIZ
+MAALLSVNLNAIAMLRNRRDLPWPSVTGIGRIALAAGASGLTVHPRPDQRHIRFSDLAPI
+RALIDTEFSHAEFNMEGYPSADFLELVAEHRPEQVTLVPDDPAQATSDHGWDFRVHQAML
+TDVCSRLHDEGFRVSLFADGVPDREALEIARAVGADRIELYTGPYGGTYADEAAAERIAE
+ELGQTAEIAGALRLGVNAGHDLTVDNLPRLVRHIPALAEVSIGHGLTADALEYGMAETVR
+RFRRACGQTVD
+>tr|A0A1Q9AG09|A0A1Q9AG09_9RHIZ
+MTGITQSSADLDVRRRKILFRAWHRGIREMDLIFGQFAEAELAGLPEDVLDELEKIMAEE
+DNDLVKWITGEKPIPAEFDTPLFARIASYKPDFEGPGAGAGTAGPRA
+>tr|A0A1Q9AEI7|A0A1Q9AEI7_9RHIZ
+MQIEDILLEDGKAVVALTGGIIIEADYVRHESVAHSGVVVEDPRVSRAVALLSSGSAEDR
+KLSSAVRRLIEAAVEINASASPSDAVRKDSDGRVSGEYRMSLRHS
+>tr|A0A1Q9AKD3|A0A1Q9AKD3_9RHIZ
+MPRPTPLVVLGNLNIDLILGPTDWPEMGTEVFVEHDELRIGGSAGNTALALQGIGHPHIL
+VGSVGTDVFGAMIEAAFAADARRLARSTARTTLTVGITHPGSERTFFTTRGHLPQFSAGE
+ALSLLDGVDLEGGTVLLAGAFQTERLLAGYDELIAALTARGARIAVDPGWPTEGYTPTVT
+AFLRDLLTKSHCVLFNETEALHLAPAESTTAAARILHALQPEGAETVVKCGGDGALVIDA
+AGTLHQVPAPIVDVIDTIGAGDVFNAGYLSGRSLGQSPIQSLARATMLASRAISTLPRVY
+A
+>tr|A0A1Q9AE67|A0A1Q9AE67_9RHIZ
+MSDGVNRFLGDSPLRVVVKLLVVSLVVGFLMKVFGWTPFGILHTIEDFLRDLWRQGFAAL
+GAFGDYLLLGGAVVLPAFLIIRLLSLRR
+>tr|A0A1Q9AGB4|A0A1Q9AGB4_9RHIZ
+MEPVYLDTNETIFPDGYQRERIFTSAGEMVSPLPAPAKGTFARLIERFSHWRMRRAGRLV
+LRDLSDDQLRDIGISRAEAEAEVSKSFFFD
+>tr|A0A1Q9AER2|A0A1Q9AER2_9RHIZ
+MDEDRIGAEAAAETAAESQARGFRIGQASLPARPLEPGLYLVATPIGNLGDITLRALETL
+AGADMLACEDTRVTRVLLDRYGIRNRPFSYHEHNAAEAGERLLAALSAGKSVALVSDAGT
+PLVSDPGYRLAQSAIAAGHRVVPLPGASAPLAALLGSGLPNDAFLFAGFLPTKDKARRDR
+LGELKASPATLIFFESPHRIGATLAAAAEVLGAARQAAVCRELTKTFEEFRRGTLEDLAA
+AYDDLTVKGEIVLVIGPPLPEAAPDADTVDRLLLELSATLSTGKAASEAAQRLNLNRRDL
+YDRLIALRRDE
+>tr|A0A1Q9AJK6|A0A1Q9AJK6_9RHIZ
+MKITWLGHSAFHLETAQAKILIDPFFTGNPGFDEATRKDAASGLTHILLTHGHGDHVGDT
+IALAKETGATVLANADLAAWLGAKGVSKLEMGNTGGTVHFDGFSTTFTNALHSSAQITED
+GVSHSLGNANGLVLHFEDEPTVYHMGDTDIFSDMALIRELHEPEIGLVPIGDRFTMGGAV
+AALACQRYFSFETVIPCHYGSFPIIDQTADKFVAGMEGTQTKVAVATVGKGLSF
+>tr|A0A1Q9ACZ5|A0A1Q9ACZ5_9RHIZ
+MKGIRALARHLDISIGTVSRALNGRPDVNPETRARVMEAARALGYTPNQSGRSLRQGVTN
+TIGFMIEMSPDANASSDDFFMGVFEGVQTVLTRHKLDLVVFPCPAQENSVDYLARIVRRG
+LVDAMIISATRRRDDRVEYLDKAHIPFIALGRSDSGPNMRWVDLDFEGVAKSSVERLVAQ
+GHRRIALAIPADDINLGHVFHDAYRATLEAQGLAYDPALVFHAQRVLEGGYDLAAAVTSL
+PDRPTAILLSSEVLSLSLYRGLQERGIRAGRDLAVIGFRNNPRARFLTPSLTCHSVSLSE
+LGQTLAETLLAGMPAYAALYPERDRNLIWPMELVKGESDDFVFADADRAG
+>tr|A0A1Q9AGX0|A0A1Q9AGX0_9RHIZ
+MIEETIKGLAVMVLQVTLAVLFVLFGIQAASALMTSRPPVIGSDLNKTGLGKTGLDTTTE
+SGSLLWTTQPTRIDISRQTYERLPARLPPAPPVETDPVRFFANHEVIVIDNASFSWRGTT
+YRIDGIAPLPRKAVCKDVEGRRNACGLRAFKALDNALRGKSVACRPVGAETTLVSCRIGQ
+RDLAALLRPLNS
+>tr|A0A1Q9AE28|A0A1Q9AE28_9RHIZ
+MAEADRPGGAGGLNAALRRAARWLELRSFGLTPEHFTLSEGLRAAFAVAVPLLLVLLTGQ
+HQFGWSVYAAFWLCLCDVAGPDGLRRRLLLIFVLVGTVIAFAGAWAASFGWAAAMIAGTL
+LVFLAIALPYRLAHSAMLATLLAVVAVVAVGYPEPVDKAAILAFAFFAGSLWAYLLIVVF
+WRIDPLLPLKQDTVALYARLADMAFDLAATGNEPHRDARWHPEHAAHRRSVRIAIERLRL
+LLARYDGPAEASVAPTRRLLKAGEATFNALIALEHGFITGHGAADERIAVAKLLRNTLIA
+AQMTVAGVPDMQVLLARRLKRLGRARATIDDPMLAGILEAVRLSLLPLTGQGQARPLSTL
+SPPPLPGFSVALRQGIRQAACVLFVYSIARLFGLGYPYWAAMATVVVLQGNARITWTRSI
+ERVLGSLTGGFVALALLELIDARAILVPIAVLLTGWTIALRTVNYTVFVVTLTMLFIFVT
+ELLTPGAGIASARILDNTLGSLAAVLAVLLLWPERGPGLPALIDKGLASNGAYLEAVRQN
+VEPESLEETRRAAGLASIAAEVALHDLGGLTRRWYRLDQRHSEALRSLRLLAGEAASAWH
+KRLGGGDLSRDG
+>tr|A0A1Q9AF35|A0A1Q9AF35_9RHIZ
+MMRLVLILLALLPLPAFAASKAEVEAQFRQWLASDFWPQAKAGGISRAHFDAAFAEVKLN
+WNLPDLVLPGQPPKEEKQDQAEFASPGAYFSEKRLADLAATGRTLASVHAATLKRIEKTY
+GVPGPIVLAIWGRETGYGRAKIPHPIIEVLATKAFLSRRPELFRKELVAALHILDSGDIK
+EADMRGSWAGAMGQPQFLPTSFLQYAVDFDGDGRRDIWNSVPDVLASIANYLSKKGWQRG
+RDWGTEVRLPPTVSCALEGPDRARLTGQWAADGIARISGKPFAASEAKREAMILVPAGRS
+GPAFLVTPNFYVLKEYNNSDLYALFIGNLADRIGAGGSAFRAPFGDVGHMLRSDVLTIQK
+RLEAKGYDIGKADGLAGFKTRRSIGEWQEKAGLKPTCFPDPALKGRI
+>tr|A0A1Q9AGU7|A0A1Q9AGU7_9RHIZ
+MISAEHLKGITAFVQAADAGGFTLAGERLGLSKSGIAKSVARLEERLGVRLFNRTTRRFA
+LTAEGQSFYTTCVRVLAELENAEAALNEQRLRPRGRLRVDLPVVFGRRWVVPILLDIGGR
+YPELSLEISLTDRRIDPIEDGIDLVIRIGDLDDSTTLVARRLGLQKSVVCASPAYLESQG
+CPASLDELDDHSCIVFGRGGQTLPWWFVDGKGAPFAKPVDGQFAFNHSDAICDAALAGRG
+IALLSTWLIDDHLGNSRLIPILPEIETRGFPINALWPHARHMAPKVRVVVDELVNRFLPE
+PPWDMST
+>tr|A0A1Q9ALC0|A0A1Q9ALC0_9RHIZ
+MANQTEPPAGEALSQGIVVDLRDYRSARDPLPVTFDRRELDRILWVYGRMVGDGEWRDYA
+LDHLKDRAVFSVFKRSGEMPLFRIEKSPKLAAKQGAYSVVNTHGMILKRGHDLAQVLKVF
+DRMFKVIKS
+>tr|A0A1Q9AGV7|A0A1Q9AGV7_9RHIZ
+MTNDLISLFDADEASVQAILKQTLARADDGELYLEHGQSEVLSFDNGRLKGGSFNTDQGF
+GLRAVAGEAVGYAHSGELSLSALKRAADAVGAVTHGHSGTYAASPQKTNARLYGEDNPIG
+QPSFEAKVALLAEIDAYLRAHDPKVRQVTATVAASWQVVEILRADGERMRDIRPMTRLNI
+SVVTGDGDRQESGSFGVGGRRGFAEFLTEESWKAGADEALRQALVNLDAVEAPAGTMDVV
+LGSGWPGVMLHEAVGHGLEGDFNRKKTSAFAGLMGEQVAAKGVTVVDDGTIEERRGSLTI
+DDEGTPSAYNVLIEDGRLVGYMQDRQNARLMGMRPTGNGRRQSYAHVPMPRMTNTYMLGG
+DKTPEEIIASVKKGLYAVSFGGGQVDITSGKFVFGCTEAYLIEDGKIGAPVKGAMLIGNG
+PDAMKRITMIGNDMKLDTGMGNCGKGGQWVPVGVGQPHLRMNETTVGGTRA
+>tr|A0A1Q9ALD4|A0A1Q9ALD4_9RHIZ
+MKQVVIIGAGKIGATIAHLLADSGSYQVVVADHSAEQLARLERHPAIETAEIDIADADAL
+DRLLTGRFAVLSAAPFHLTVAIAEAAARTGLHYLDLTEDVRSTQRVTEIAATAKSAFIPQ
+CGLAPGFISIVAQDLARRFDRLDAVRMRVGALPQYPSNALNYNLTWSTDGVINEYIEPCE
+AIVEGRTTLVPALEEREEFSLDGVTYEAFNTSGGLGTLCETLAGKVRTLNYRTIRYPGHA
+AIMKALLNDLGLKHRREVLKDILEHALPTTVQDVVIVFVTVSGWQGGRLVQETYANKIYA
+GVVAGLRMSAIQITTAGSICAVLDLLATGKLPQSGFIRQEEIGLEDFLANRFGALYAPPA
+EMTRRAS
+>tr|A0A1Q9ADD2|A0A1Q9ADD2_9RHIZ
+MSQHARHCDHAAQTEARDDAALRFRDLTLGYGDHAAVHHLDGTIARGALMAIVGANGSGK
+STLLKAVAGVLRPMSGRIERSSGLRVAYLAQQSEIDRSFPARVLDLVSLGLWPKRGLLGR
+FRGEDRIAIATALSAVGLEGFSDRPIDSLSGGQLQRALFARVLLQDADVILLDEPFNAID
+AKTVRDLVSLIHRWHGERRTVVAVMHDLALVRETFPETLLLARRAVAWGETAKSLSAENL
+LKARNFAEAFDDSAPWCEPQRA
+>tr|A0A1Q9AF40|A0A1Q9AF40_9RHIZ
+MAQVTVTIDGKAYRMACEEGQQDHLTDLASRFDRYVSHLKGQFGEIGDLRLTVMAGIMVT
+DELSEVGRRISALECEVEDLKRQREEANHGQARIEQAMAAALGEVTAQIHGIAARISGQA
+PATPS
+>tr|A0A1Q9AIC5|A0A1Q9AIC5_9RHIZ
+MSKHITPAEAAALIPDGAVVSVSSSSGLGCPDLMLKAIGARFEETGHPREITTLHPIAAG
+DMSGIKGVDHIARKGLLKKILGGSYPSGPSTAEPPLIWQMITGNEIPAYNIPSGILFDMH
+REAAAKRPGVLTKVGLDTFVDPARQGCAMNGRGAEEPVVKRVTFEGEDYLFFPAIVPEVA
+IIRATTADERGNLTYEHEGAYLGGLDQALAARNNGGIVIAQVKRITKQGSLKPHDVRVPG
+MLVDYIVTDPEQKQTTQTLYDPAISGEIFHPLDGFSLPEFNIQKVIARRVAQELQAGSCV
+NLGFGISANVPRILMEEGLHGSITWVIEQGAVGGVPLLDFAFGCASNADAYMPSPYQFTY
+FQGGGFDASLLSFLEIGRDGSVNVSKLSFRPHVTAGAGGFVDITARARKIVFSGMFNAGA
+RLAIADGRLVIEKEGKLKKLVEAVEHVTFSGRRAIEQGQDITYVTERCVMKLTPEGITLT
+EIAPGIDLQRDVLDQSEFPLLVADDLKVMDARLFAEAPLGLSLPQKPARRLARTEQRALG
+EAVHA
+>tr|A0A1Q9ANX2|A0A1Q9ANX2_9RHIZ
+MTKRMNVAMIGGGFMGKAHAMAYASMPMFFWPAPVIPHRKVVVDVTDDTAETARQRYGFD
+EASSDWRNVVARPDIDVVDICTPNNVHAEIAIAAAQAGKHIICEKPLARTVEEARAMAEA
+VKKAGVIHMVAFNYRRTPAVALARKYIEEGRIGKILNFRGTYLQDWSADPDGPLSWRFQK
+KIAGSGTVGDIATHVVDLAHYLVGPIETVNAITTTYNKTRPLQQGGVDKLGAAEKASGDV
+ERGEVDVDDEVISLLRFQNGAIGSLEATRNAYGRNNFITLEIHGTKGSIHFNYERRDELQ
+VMFADDPADSRGFRTVYTGPAHPYGQGLWPIPGLGIGYSETKIVECFDFFSAIRTGKQPS
+PNFEDGLLTELVADALLRSGESGAWERVGR
+>tr|A0A1Q9AG12|A0A1Q9AG12_9RHIZ
+MDDEAIREIFDSLGPVSIRRMFGGKGIYADGRILAILLHDTLMLKGDGESAPRLEAAGAE
+RWSYEGKGGKTVLMPYWTVPPAAYDDPDEMAVWVREAFDAALRAVDKATPVRPARQRGRS
+PAG
+>tr|A0A1Q9AP75|A0A1Q9AP75_9RHIZ
+MAENDARTLPPAKQAAARPSFLAGLNALETIIVAVIALVALAGLLMIAKGLILKSDGAFF
+SAGRPVWEQSGTTA
+>tr|A0A1Q9ANE7|A0A1Q9ANE7_9RHIZ
+MTATFDKVADIIAETSEIDRETITPESHTIDDLGIDSLDFLDIVFAIDKEFGIKIPLEQW
+TQDVNEGKVSTEEYFVLKNLCAKIDALRAAKG
+>tr|A0A1Q9AD33|A0A1Q9AD33_9RHIZ
+MTTGTVKWFNSTKGFGFIQPDNGGADAFVHISAVERAGMREIVEGQKLSYDLEQDRKSGK
+MSACNLRAA
+>tr|A0A1Q9AH54|A0A1Q9AH54_9RHIZ
+MHPSIRPVRAEDRAAIVDIHVRQSQRIYAHFLPPAYLFEVMPDEKRILWAARILAEGAAP
+DILIRVAETAEGEIAGFACFVLKPDDPWGIYLHNLYVDTPFAGLGLGRKLFQAGLMDISG
+DFGARGVHLTAFAQNHPACALYARLGAQSASAG
+>tr|A0A1Q9AKS3|A0A1Q9AKS3_9RHIZ
+MTRTAEQLPLDLAPAPQTGREDLIVSDAIAPAVALIDAWPRWPSPVVVLVGPAGSGKSHL
+ASIWAELSGAERHRPMRDAAEAGRQRPVLFEDADRGPLDETALFHLINTVRQNGTALMMT
+ARQMPAAWAVALPDLRSRLKAVTVVELGAPDAFLLSQVLVKLFSDRQLAIDERLIDYMVA
+RMERSLDAACRLVEEIDRLALARASRITRALIAEVLDGADKGGD
+>tr|A0A1Q9AE66|A0A1Q9AE66_9RHIZ
+MNGSRSHQQTSNQEAGARSSFETLSRTIEGLEARIEGLMEAARDRARASVSAEALSADAA
+SRASSARDFSARVLPEQAAPPARAQSPRRERPTISDRTMPDRVNPETVPMPELAAADLGA
+RAGAIAEIIARQKALLTRSEAVRLDAGSNGQARADARMPAAERRNRAEAAAVEDQSAVYD
+APPRRSLREAGRAVRPAAEPSQSSLSRPDLSPPDLAEALVGLRHELKHEIAEGVAREIQS
+LRGEMRGLVADAGRDHNAARDIRADLQKLSDSIAALSRQAPAGPVAEALRDEFDALRRMM
+DGLAREESMRRIEGRWSGVEERIVQSDSARDDELVALARRLDELKTQIAAAQSGPAIHAL
+EAKLSRVLDAVDTLAAQIAPADRRLQGYVADLDRRLEDMRLQMGRLNSLGALEGLENRLG
+GVMDAVEAIAIQMPPNDRRLHSALGDLDGRLLDMQAQIERLSAQPDLATLEQRVAELVSA
+IETTGFRPDTRLQDQMQALERRLSQVAEEIGALDSAAALAAVEGRLVTLAQAVDVLSRQI
+RPGDAAVQAQFSALDQRLDEITRAIVAGGRSASDAAAVSRVEARLGDLSRQIEAIPSPAA
+ELAERIEDLAARMDALSREDAAARLEARLNALAEMLQRAEGERREGGASQERELSRHLLD
+ISRKIDALEAGAGHDALADRLDGLARRIEALNHATGEDEARFARLEQRLGGLAERIEAAQ
+AAPVDDAMLRGLHQQIAGLSDLLRSPRDAGGLPAEMESRMHALEDYLSTSDEYIIEAARQ
+AAEAVMDSYGRGNGAPVAGGDMAAIAALADDLKTLEDMSRSSQEQTARTFESLHETLVDI
+VGKLERLEQPAATLRPPEMPAARDAAAASPRIDAPVSRDSGEALPVLALLRDEAEARESE
+TESGRAGLMSGLARRFAARKAESTAARPMLDTAPSLDPADLMGKDVANELLEPGSGVPDV
+KTILARVRAGQQARGPQAEAERGETTDFIAAARRAAQLAAEEVQGLPQDAQGLTKGGRLA
+RHRKPILIAVGAILMAILAYPLAGALIGGDKSTPVPPAVIDAPKQAAPAAPQDAPDAAQK
+ETAPAAPSDGASSTLSSPETQAPAAATPDGTGEAGANAPDAAAGPAQAARDPAEGEATDS
+APVTFGRSAPVTPVTTVAVTPPAAAQADQQAAIEVPAEIGPPALADAARAGDPLAFFQIG
+ANYTDGRGGVAVDLAKAAQWYQRAADAGFAPAQYRLGSLYEKGSGVPQDFARARTLYEAA
+AEKGNANAMHNLAVLIAGGRAGTPDFASAAVWFQKAAEHGVRDSQFNLAILYARGNGVRQ
+DLKQSWAWFDAAAAQGDPDAAQKRDDVAKVMKPADLESARAQAAAFKPVPLDATANEAVA
+PDAWLGKAQPTGSVDMKKAIRNIQAILNNNGFDAGRPDGEIGAKTVSAIKAFQTSIGQAP
+TGQITDQLVHELLKRNARQG
+>tr|A0A1Q9AMR0|A0A1Q9AMR0_9RHIZ
+MNKLKRTQTDMIFKMPKRDKAVTIIDHDAKAPPAMPWWGVAYSLAVWCMLAACIILPITK
+AVRGLLSP
+>tr|A0A1Q9AMX1|A0A1Q9AMX1_9RHIZ
+MKDKARLSSGRPPLDGLKRQIARSRAGDAPARRKADSFIRETFRLQRQAAREKAQEWFDT
+WPKAAYWTEVESWRALDDDQIEFTMRRLPTAD
+>tr|A0A1Q9AP42|A0A1Q9AP42_9RHIZ
+MTQFHISKHVRSLLAAAAIATGMALSPAVAADLTVARSVDADSLDAQKASTTQSLQITNL
+IFDTLLTMDKDGSVHPGLASAWSMSDDGKSYAFTIRDGVTCHDGSTFDAAAAKASLDRAL
+DPATLNPNLSAWGPITGSSVDGKVLKVTLSEPYGPFASFLTSIQAAFLCPSSFATKEFKP
+VGTGPFKFVSWTRNDSIELAANPDYKNVNPLIENPGKPHLDKLTFKVIPEAVARMAALRS
+GEADLVEPSLEEATDLKSDSKFKVYAAEFSGQQMLAAFTWKIKPLDNPEIRKAIGMAMNR
+DAYANIAFEGLVNVANCPVAPNLFATDESLCAGWGVSYDPEAAKAIMEKAGYTADKPLKI
+KLSVHKLPGWDQMHQIMQQDLAAIHVEAEIETREVAAFFDHMKGENERTDGLPVVWTMGM
+SGVDPDYLTFLWKRPGFVNMGINAQLDGMLDEQRKLSGDARATKIHDIEKYLMENAYAVP
+LLSPGWGWLMASGANVEGFKMGFMVSLLFNDVTVTR
+>tr|A0A1Q9ALA2|A0A1Q9ALA2_9RHIZ
+MSSSSIVIASAGRTAVGSFNGAFATIPAHELGAAAIKGVLERAGVDAAEVDEVILGQVLQ
+AGEGQNPARQAAMKAGLPKEKTAWGMNQLCGSGLRAVALGMQQIATGDAELIVAGGMESM
+SMAPHCAHLRGGVKMGDFKMVDTMIKDGLTDAFYGYHMGITAENIARQWQLSRDEQDQFA
+LASQNKAEAAQKAGRFADEIIPFVVKSRKGDVTVDQDEYIRHGATLDSMAKLRPAFDKDG
+TVTAGNASGLNDGAAAVLLMREEEAARRGLTPLVRIASWATAGVDPQIMGSGPIPASRKA
+LEKAGWSVNDLDLVEANEAFAAQACAVNKDLGWNPEIVNVNGGAIAIGHPIGASGARVLN
+TLVFEMKRRNAAKGLVTLCIGGGMGIAMCVEAL
+>tr|A0A1Q9AC91|A0A1Q9AC91_9RHIZ
+MPEREKVALAKAVIVHGYMANPSAHWFPWLGRALEQRGLDVTIAAMPESQAPRPDVWAET
+LQVLLPEPDETTLFIGHSLGCITLLRHLSRLPAGARIGGYVLVSGFDRPLPNLPDLDDFT
+TEPLDYDALKRMTDVRLSIYSDNDTIVDPAYSRALAAALNTAEIERPGAGHFLASEGVTE
+LPEIVDRLPLPQAVA
+>tr|A0A1Q9AQ59|A0A1Q9AQ59_9RHIZ
+MIQCPFCTAELSRIAFMDDQVVALWDAFPVSPGHLLIVPRRHAATWDDLSADEKQSIWQN
+IDRAKIEIERKHKPDGYNVGFNLAEAAGQTVSHFHLHVIPRYTGDVDDPRGGVRHVIPHK
+ANYLAQEVSSTGALKRLITGGSDHLLPHLIMHMDEANACDIAVAFLLDSGARLIVEHLKD
+FLARGGRARILVGDYMDVTEPMALRRLADLDGDLTFRVFEAAAQGFHLKTYIFLSGKEGV
+AFVGSSNLSEAALTTSIEWNYKVISSHDRSAFPQITNGFEDLFDSYSAVSVTSEWINRYE
+SRRNPLGFKDAGLAYELPLPPPEPHAIQRQALAALEHTRQDGFTAGLVVLATGLGKTWLA
+AFDSNRLEYRRILFVAHREEILNQAIETFRRVRPTARIGRLSGDYKDTDADLLFASVQTL
+GKVNQIKQFRPDTFDYVVIDEFHHAAATTYRRIIDYFEPQFLLGLTATPERSDGADLLGL
+CQENLVFQAGVHLGIEAGHLCPFHYFGVPDNVDYRNIPWRSAQFDLTELTAAVATEARAQ
+NALEQYRLRGGTKCIGFCCSQTHADFMADFFNQQGVSAVAVHAGGNSAPRATSLQRLEAG
+ELDVVFAVDMFNEGVDVPSIDTVLMLRPTESTIIWLQQLGRGLRKSANKDRLVVIDYIGN
+HRIFLTKLRAIASIANVDASSSGHIRELLEKLQGDQISLPTGCEVTYDLATIDILRMLVK
+PASTENALEDFYRDFLERHGVRPTASEVFHSGSNPRSSSERSWLGFVVRMRGLDDLERAT
+WLEHEDFFREMEKTELTRSYKLMTMLALFDGETVQDRCTVDEIVGRVARLAFRIHKLQQD
+FSVDLADRKALRAVLLKFPIDVLTKLRDSNGTPYFVLEGELFGFARAPRNRETFSHLLQE
+ILDWRLAQYLSRSGGHNELADAVCRVARNTSGLPILFLPTTSGAAQLAEGPLDVVVGGQP
+MVATVGKIAINVVRRAGEPSNQLPTILRGWFGDDAGLPGKGDRVRLRFQNNTWRIEPMGA
+QSQAQAGLQLWERYSREAIPPAFGLTFDQATWNAGFVPKPPHIFLLVTLEKEGMLDEHRY
+ADHFISATEFSWQSQNRTKQASKHGEMIRDHRARGLHIHLLVRKTKKIGPKPAPFIYCGE
+VDFVTWTGEMPVTVTWRLRKAVPSMLLSQVKV
+>tr|A0A1Q9ADI2|A0A1Q9ADI2_9RHIZ
+MNQQGLRHRTDRQPAAETGEGAQPRLNRRRASGLLPHRLPQDAVHLHLVDDTQVTDPARL
+QTYARLLTDDETRRAAAFHAPEHRHQFLITRALLRRTLTHYCPGTPAQDWRFTLNAYGRP
+AIDGGFAIGLDFNLSHTRGRIALAICRDPSPGVDIEWLDRRVDYAGIADLVLTPDEQRDL
+AALPEALRAQRFTALWTLKEAYVKARGMGLSIPLREIAVSFDGSGQPSIRFGGSLEDDPQ
+RWQVWSLREGPAHRLALALAAPTPRRIRIFRGIPS
+>tr|A0A1Q9AIW5|A0A1Q9AIW5_9RHIZ
+MPLLEIQNLTVEFPTISGLFRAVDGVSLTCDTGEILSIVGESGSGKSVSMLALMGLLPSN
+ARITADRMAFDGKDLLSLSARQRRTVIGKDMAMIFQEPMSSLNPCFTVGYQLGETLRLHM
+GLNRAERRTRSIELLKFVGIPAPEDRLGNYPHQMSGGMSQRVMIAMALACNPKLLIADEP
+TTALDVTIQAQILELLVRLQRENGMALVLITHDMGVVAETAERVQVQYAGQKVEEQPVSG
+LFRDPHHPYTAALLASLPERAVIGERLPSIPGVVPGQHDRPEGCLFSPRCTFATDLCRRE
+VHEQGPDFGRALCNYPLRIGIPMGHPTLSVALAGEDA
+>tr|A0A1Q9ADI9|A0A1Q9ADI9_9RHIZ
+MTRADLSPPQPPSPFAIWREFHWAFFLNVQGLIVALRRFRLALERQRMADAEEELNTASV
+LLTASAAAMELAASFPKEVYETTIRVSMTRPTVESDDFSGLMSWEHAVLVDLWRDLRPVF
+SALPEELAVAHSGFVAAYRHLAESHVGVCARFVDSGSLRFDDRNAVETLRRFGRGRLGLI
+DPGGQGCPFHS
+>tr|A0A1Q9AEN5|A0A1Q9AEN5_9RHIZ
+MYRLFVDPLTIRTPRVLFDISRLYRNRGRRFGTGVDRIDLAIGLDLLARFGKDCHFLHAG
+IHGIVLLPQALGAKILLDLDRAWRGDARALPAGQRALSLAALPFLRRALPIDRSVVTGET
+TYVVASHSGLAKLRGGLRRLDPQARMARLVYVHDLIPLEYPEYQRPETAPAFDRYLSALA
+EAPLDFVSNSRDTDRRLQAFAARRGWPVRDFFVNIPRLEFTPEPEGPVRPPVAAFLADSR
+PFFTVLGTIEPRKNHLLLLEIWREMALAGVPPRLLVLGKRGWENENIVDMLDRCDYLKGH
+VVEFDGLTDGEVQQLLKRSAALLFPSFCEGLGIPLLEAAALGVPAVVSDLPVFREIAPEG
+TVFLSPLDGLGWMREIQARAAR
+>tr|A0A1Q9AHB5|A0A1Q9AHB5_9RHIZ
+MLTAFVLVVVACLTLLPIGRLFMVALAPGGALDLTEFLARIARPSAFRATLNTVDTAFFG
+ACAALALALPLTLAVALTNVPGRLALGYCIILPLMIAPQVTAIAWLHLFGPSSTLLHLVG
+LAPAPGARNPMLGRGGIILLYAVQHAPIVFIALRAGLAQVPRDLIEAARASGARPLRVLA
+TVILPLIRPYLAAGFSLAFISGIGNFGIPALLGLPVNYLTLSTLIYQKLSSSGPDVLPDV
+AALSIIVTVATLAGIGLQRLATGGRPARMTAGPAFHFALGRWKLPVALAAWGVILLTLAL
+PALALVVTSLIPAFGVPLGWSTVTLDNYVEVLWRQASTTRAFVNSFLLSSAAALLLAGFA
+LPLGWLMMRWPRRLATAVGGAIDLPYAIPGIVLAIAAILLFLKPLPLIGSLYATPWIILI
+AYLMRFLALAGKPVSTALAQIPPALDEAAAASGARPLRRLATIAAPLAAPAAIAGALLVF
+MSAFNELTVSALLWSSRHETLGVVLFSLEEAGLGTQAAAIAVTSLLVVIVTLGLIDRLGR
+RLPPGVLPWR
+>tr|A0A1Q9AI66|A0A1Q9AI66_9RHIZ
+MIPADSLAPAELAALLHFHADAGVEWLVSDEPANRFAEFQAQLAARRALAQPASARDETP
+APATTQEAGTARRAQRPDKATPPPRPAAPVAIPDEQAIAEAQSAARSASSLAELKVAMEA
+FTGCNLKNSARNLVFVEGSPSRGLLVVGPMPNGDDDRDGLPFSGRNGAMLDRMLGAIGLD
+RAEIMLGNVIGWRPPGNRVPSPRETEICRPFIERQVELIAPRHLLVLGNFAARFFFGGTD
+TIHHLRGSWREIRVGNHAVQALATLHPQDLFAAPVCKKLAWEDLLTFRKALDRG
+>tr|A0A1Q9AL62|A0A1Q9AL62_9RHIZ
+MSKKDDAVRVRAEDLPYRPCVGIMVLNREGLVWTGRRLTEGNSEFDGSAERWQMPQGGID
+EGEAPLEAAYRELYEETGMKTVSLLAEAPHWIHYDLPEHLIGIGLRGKYRGQTQRWFAFR
+FEGDESEIAIDPPPGGHAQEFDAWAWRPMEEVPQLIVAFKRKVYDEVVAAFRPLAP
+>tr|A0A1Q9ALL5|A0A1Q9ALL5_9RHIZ
+MTVASIPEARHASGLLDKARIVARPGFNRWLVPPAALAIHLCIGMAYGFSVFWLPLSKAL
+PVTDPSCASLSLASALFTTDCNWRVADLGWIYTLFFVLLGCSAALWGGWLEKVGPRKAAF
+VSTLCWCGGILIAAFGVMFHQLWLMWLGAGVIGGIGLGLGYISPVSTLIKWFPDRRGMAT
+GMAIMGFGGGAMIGAPLANILMGTFRTEADPGVWQTFMVMAAIYAVFMLGGTFGYRIPPA
+GWRPEGWTPPAAKSAMITTRHVHLKNAHRTPQFWLIWAVLCLNVSAGIGVIGMASPMLQE
+IFAGSLIGQPGIAFAALDAGQKMQIAAVAAGFTGLLSLFNIGGRFFWASLSDRIGRKNTY
+FCFFILGILLYALAPTFATMGSKLFFVLAFAIILSMYGGGFATIPAYLADIFGTQFVGAI
+HGRLLTAWATAGIVGPVVVNYIREAQIAAGVAPGPELYSGTMYILAGMLALGLIANALVR
+PLPEKWFMSDAEVAALQAQTAAANAGPTGSFGIGKGGFDATAALAWAAVGLPLAWGIWVT
+LKSSLALFN
+>tr|A0A1Q9AMQ4|A0A1Q9AMQ4_9RHIZ
+MVASLIKSFWRNQAELSQAILSQDEAEVARLDAGARVLLRSIVDATRLDPIEGRLQIVFL
+LDFIRFHADDPHVVVECTGHLERLLLRRDAPCEAGLLPAHNPVPRKHRSVPDGAFLQS
+>tr|A0A1Q9AIU8|A0A1Q9AIU8_9RHIZ
+MSSQIIPVEPFDYVVFGGTGDLAERKLLPALYHRQLDGQLSHPTRIIGASRSVLTHEEYR
+TFAVNALKEHLKPGEYEEDQVKIFTDRLFYISVDARSDAGWDKLKQLLDDGGKDRIRAFY
+LAVAPAIFGDISERIRDNKLITKQTRIVVEKPIGKSLASALELNDTIGKVFREEQIFRID
+HYLGKETVQNLMALRFANALYEPLWNASHIDHVQITVAESVGLESRAGYYDTAGALRDMV
+QNHILQLLCLVAMEVPTNMSAEAVRDEKLKVLHALKPITPANVERMTVRGQYRAGASAGG
+PVKGYLEELESGQSDTETFVAIKAEIGNWRWAGVPFYIRTGKRMASRMSEIVITFKPIPH
+SIFDESAGRIEANQLIIRLQPNEGVKQSLMIKDPGPGGMRLRNVSLDMTFSEAFNVRSAD
+AYERLLLDVVRNNQTLFMRRDEVEAAWRWVDPILKAWEIVGQKPQGYTAGTWGPSQAIAL
+IERDGRTWHEN
+>tr|A0A1Q9AET7|A0A1Q9AET7_9RHIZ
+MPSGGAGPMISADDTPPPEPTENLDIGISTEEIAITSDFRGADLTIFGAIDGFNPRLLAQ
+GKYDIVVALEGPKENATVRRKERVFGIWINRHSITFESVPQSYSLSSTRPVEVIAPADQI
+NNIGIGVDHMRLEPVGFLGDGSNVGAFRDAFRRLKEASGIYQRDPGGVQFISASLFRATV
+RLPANVPNGVHIVRAYLFRDGTFVSARALQLRVVKTGLEQAITQAAHQQPFFYGIFAVLL
+AVVTGWIASVVFRRD
+>tr|A0A1Q9AHJ6|A0A1Q9AHJ6_9RHIZ
+MSQPVFPELAGRRAFLTGGGTGIGLSIARALAAQGVAVALADIDGAAAERAAAEIGQGAV
+AIEVDVRKRASVESAFSAALERLGGCEIVIANAGVSTMQKALELTDEEWDFNFDVNTRGI
+FLTNQIAGRHLAGQGKGCIVNTASLAAKVGAPLLAHYSASKFAVLGWTQALARELAPQGI
+RVNAVCPGFVKTGMQSREIEWEASLRGISAEQVFNEYVAQTPLGRIETPEDVADVVVFLC
+SDSARFMTGQGINVTGGVYMT
+>tr|A0A1Q9AIT6|A0A1Q9AIT6_9RHIZ
+MLYYALVFLVVAIIAGVLGFGGIAGASAGIAQILFFLFLAFLVISLVAGLMRRT
+>tr|A0A1Q9AFP6|A0A1Q9AFP6_9RHIZ
+MDPVVSEKPPRIAIATRLRNNFLAGLIICAPVAITIWLTFAFIDWADSWVTPYLPQRYNP
+EYYFNIAIPGTGLVVAVVLITVIGFLGRNLIGRSIVNLGESILNRTPLVRTLYKSIKQIF
+ETVLKDQSTSFKKVGLVEFPQAGTWALVFVAAEAQGELRQRFDAMGQEMVAVFLPPTPVP
+TAGFLLFVPKDKLILLDMTPEEAARLLISGGLIVPEHHMKTLPVPAAERRGGPA
+>tr|A0A1Q9ACD1|A0A1Q9ACD1_9RHIZ
+MMLSRGDVVIAAFPGDVGKPRPAVILQSDLFLPIFSTALACPMTSHLIEAPVLRPLIEPS
+PENGLGQPSQIMTDKLSPLRKSVIRQKVGQLSAVDLAKVETALLHIMGFDRLIGARSEA
+>tr|A0A1Q9AQK6|A0A1Q9AQK6_9RHIZ
+MFLLSERQMARISPFFPLAHGIPRVDDRRVVSGIVYVIKHGLQWKDAPKDYGPHKTLYNR
+FIRWSRLGVFDRIFAALAGEGSKPERLMIDATHLKAHRTAASLLKKGLFPAVSGEPRVG
+>tr|A0A1Q9AGC0|A0A1Q9AGC0_9RHIZ
+MAVASKKIPAPDRVQVKTALLSVSDKSGIVELARALAAKSIRLLSTGGTHKALSDAGLAV
+TDVSEITGFPEIMDGRVKTLHPKVHGGLLSIRDDAEHQAAMAEHGISGIDLAVINLYPFE
+EVRAKGEDYPTTVENIDIGGPAMIRASAKNHAYVTVITDPADYAALTEELAASGETSFAF
+RRAMAAKAYARTAAYDTAISGWFAEVLDLPMPTNRTIGGTLAQELRYGENPHQKAGFYLT
+GEQRPGVATATLLQGKHLSYNNINDTDAAFELVSEFQTGLPACAIIKHANPCGVATAPTL
+LEAYQRALACDSTSAFGGILAFNGELDEATAEEAVKLFTEVIIAPAVSEAAKAVIARKPN
+LRLLVTGTLPDPKTPGLTAKTVSGGLLVQTRDNGMVEDLELKVVTKRAPSERELADMKFA
+FKVAKHVKSNAVVYAKDGQTVGIGAGQMSRVDSARIAAIKAEEAAKALGLDKPMTIGSAV
+ASEAFLPFADGLLSAIAAGATAVIQPGGSMRDAEVIAAADENGVAMVFTGMRHFRH
+>tr|A0A1Q9AEN0|A0A1Q9AEN0_9RHIZ
+MAAIRGKLASRALAAGDRLHSVRRFAEIMGVSPSTVVEAYGRLEAAGVIRARRGSGFYVA
+GPETPPMALSEAAPARERAVDPFWVSRQALDADEDALKPGCGWMPTASMPNAAIRKALRN
+VSRSDGAVLSDYGSTRGSARLRRLLLGRFAEEGLMLSPDQLMLTGSGTDAIDLLCRLLLR
+PGDTVLIDDPCYFNFQALLRAHQVTIAGIAYTPTGPDIAAFEEAVSRLQPRLYITNSALH
+NPTGATISPQTAHRLLRAAGAAGLTIIEDEIFAEFEPAPSPRLAVLDGLEQVIRIGSFSK
+TLSASIRCGYIAARPEWIEALVDLQVATRFGGPSPLATEILAEVMAGGTYRKHIEALRNR
+LTRTRRDVAEQLASIGVVPWITPRGGFYLWCRLPEGKDSTIIAKRCMTEKIILAPGNVFS
+ATQSAAAFMRFNVTQMAEARILPALRRAME
+>tr|A0A1Q9AF21|A0A1Q9AF21_9RHIZ
+MKRNRKAKILATLGPASGEEEMIQKLHEAGADLFRINMSHASHDLMRTLIARIRSVEARC
+GRPIGILADLQGPKLRVGKFANTKVTLTPGQTFTLDNNEAPGDETRVFLPHPEILEAVKP
+GDRLLIDDGKLHLKAEKADGKSIVCTVVAGTSISDRKGVSLPDTLLGVGVLTDKDRADLD
+AVLATNEVDWVALSFVQRPEDLAEVRKISQGRVGLMSKIEKPQAIDRIDEIIELSDALMV
+ARGDLGVEMPLEAVPGLQKQLIRACRRAGKPVVVATQMLESMISAPVPTRAEVSDVATAV
+FEGADAVMLSAESASGAYPVEAVSTMASIASKVEQDPHYPGIIYAQRTPPEATGADAISL
+AAHQIAETLNLAAIVCYTSSGNTGLRAARERPQVPVIALSPVIQTARRLSVVWGLHSVVT
+GDAADLDDMVNRACRIVVTEGFGKPGDRIIISAGVPLGTPGATNMLRIAYIGPDGQTGF
+>tr|A0A1Q9AE95|A0A1Q9AE95_9RHIZ
+MTVKDDRQEFEAHKREMCVALGRDRDALDQSTEMLVTLDKYDYAYLWSFLGLPIIQQPAD
+VMATQEVIWATKPDVIIETGVARGGSVIMMAALLQLIGKGKVVGVDIDIRAHNRESIETH
+PLAHRVELIQGPSTAPEVMAQVKAAIPEGASVMVVLDSDHSRDHVLDELRHYGPLVTEGQ
+YLVVADTLLGQSKPEQIPTKRSKIWMPGDEPFAALNAYLKETDRFEPDPVVNGKLVLSSS
+PGGYLKCLKG
+>tr|A0A1Q9AGP2|A0A1Q9AGP2_9RHIZ
+MAFVSMSSTIFSDERAQNLGETAYQTLLDMLIGRKLATNTVLQERPLADFLNISRTPLRY
+ALNRLENEGFLDRTPGRALVVKAFSPRELVETLHVRVVLETEAARLAIDRIPTEALDAIE
+SEIATLLACEKPDVAEDWAVDSRLHQLIAHHSGNAVLAGMIETLRLKTHMFNLSRLPERF
+EAGHREHLAIIAALRAHDRDAARAGIQTHLDNVRASIIAKLSAI
+>tr|A0A1Q9AKW7|A0A1Q9AKW7_9RHIZ
+MTDRQLYTGGCQCGAVRYRVEGDLADPHLCHCRMCQKATGNYFMPVATTPRERLTLTRGE
+PAWFVSSAVARRGFCAACGTPLFYDMPGEAIIGLVLGALDAPDAVRPVRQSGMESRLAWF
+DRLPALAGDNSNADSADGEARLGAIVQSNRQHPDHDTDHWSLPPFSSKP
+>tr|A0A1Q9AL37|A0A1Q9AL37_9RHIZ
+METIIKAIVFLPLIGFLTAGLFGRTIGAKASEYVTTGLMILVAIFSWITFFHIALGETEL
+LRVHVMRWIETGGFDTEWSFRVDTLTAVMFVVVNTVSCLVHVYSIGYMHHDPHRPRFFAY
+LSLFTFAMLMLVTSDNLLQMFFGWEGVGLASYLLIGFWFQKPSASAAAMKAFIVNRVGDF
+GFILGIFGVFVLFGSVNFETIFAAAKTYLPAEGAAASVEPVIHLFGMSLDRAHAVTAICL
+LLFLGAMGKSAQFLLHTWLPDAMEGPTPVSALIHAATMVTAGVFLVARMSPLFELSTDAR
+TVVVLVGAITAFFAATVGLVQNDIKRVIAYSTCSQLGYMFVALGVGAYGAAVFHLFTHAF
+FKALLFLCAGSVIHAVDGEQDMRHMGGLRKHIPITYWTMFIGTIALTGVGIPGTMIGTAG
+FFSKDVIIESAYASHNVLSGFAYTMLVVAAAFTSFYSWRLAFMTFHGKPRASHEVMHHVH
+ESPMVMLVPLFILSIGALLAGALFEGHFFGHEYAEFWQGALFTLPENELLEEFHHVPALV
+KWSPFIAMVLGLFTAWYMYIYSPETPKSLARQHRGLYEFLLNKWYFDELYDRIFVRPAKW
+IGTFLWKEGDGRVIDGFGPNGVAARVLDVTDRVVRLQTGYLYHYAFVMLIGVAALVTWMM
+LGSSL
+>tr|A0A1Q9AH72|A0A1Q9AH72_9RHIZ
+MKRSKDPDSPRLFDQPIAPDEAMERAAIESGLYPVAGTDEAGRGPLAGPVVAAAVILEPD
+HSLEGLNDSKLLTPARREALYNQILTRAIVSIASSGAGRIDATDIRKASLDAMRRAVLGL
+AVRPALVLADGRDVPPGLHCAGRAVVKGDQRSLSIAAASIVAKVTRDRMMARADTYFPGY
+GFAAHAGYATAVHREAIRLMGPCHLHRMSFRPLRRDPDPVDLPAEDVMGL
+>tr|A0A1Q9ACU3|A0A1Q9ACU3_9RHIZ
+MTQEKKLSTNAPNAIDVYVGSRLKARRVLLGMSQTVLGERLGITFQQIQKYEKGVNRMGA
+SRLQAAAEILGVPVSYFFEESEPTGRGVPDSELAAVTDFLGTREGLALNRAFSSIRDVNV
+RRGLVALMKSIAEAEGAVDEARPAAAQADRATLR
+>tr|A0A1Q9AE87|A0A1Q9AE87_9RHIZ
+MSRFRRIFALTAVALTLGITVADVAEARRAGGGGFGSRGTRTYSAPPTTQTAPTGTQTIN
+RSMTPNTNPGTAAQPGATRTNPGMQQTQQAARPGFFGAGGFGRSMVGGLIAGGLLGMMLG
+HGFGGGFGFLGMLLQILLIGGAIMLLMRFLANRRQPGYAGNGARPNTGSYAGANARMAGG
+PQAAPSGNAVPAYGAPSYGAGAPAAAATVAAGTDEVGLSGADFDRFEAMLADVQKAYGAE
+DYATLRKLTTPEAMSYLAEELSDNATSGVRNEVSAVRLLQGDLAEAWREGDADYATVAMR
+YESVDVMRDRDSGRIIEGDPARPTEATEVWTFLRKRGERDWRVSAIQGTKAA
+>tr|A0A1Q9AEY2|A0A1Q9AEY2_9RHIZ
+MTGANRIAGAGRLTPAKTARFRFDGRGFTALAGDTVASALLANGIHLMGRSFKYHRPRGV
+VSAGPEEPNALINVSRDTARSQPNVRATVQEVFDGMTVGSQNRYPSLAFDLGGINDTLSP
+FFAAGFYYKTFMWPKQAWASIYEPRIREAAGLGVSPKEEDPDHYACRYAHCDVLVIGGGA
+AGLAAAKAAAATGATVILADEQPEVGGALHFDTGAEIDGQNGYAWAQATAASLKAMDNVT
+LLTRTTAFGYYAQNFVAMAERVTDHIDRPQANAPRERLWQVRAKRVVIATGSIERHMVFA
+DNDRPGILLASAARTYLNHFGVTVGRKVGVYTAHDSAYEAAFDLKRAGVEIAAIVDSRLR
+PGDGLFEKARSLGIEVFTDHAVIATSGRLRVASMTVVPNGGGSKRKIAVDALITSSGWTP
+SVHMFSQSRGKVAYDAATGRFLPGHYVQDCVSVGTCNGTDDLQAILEEATAAGAKLAAEA
+GHAEGAAPVPAGRNAIAWTGGMAGAAYGAGPDDSVKAFVDFQNDVCAKDIRLAVREGMHS
+IEHIKRFTTNGMATDQGKLSNLHGLAIAAEALGRGIPEVGLTTFRAPYTPVTFGTLIGHA
+RGDIFDPTRKTPMHAVEEANGAAFEDVGQWKRAWYYARPGEDMHAAVNRECRTVRTTAGY
+FNASTLGKIEVVGPDAAAFLNLIYTNSWDTLKPGRCRYGIMLREDGFVYDDGVVGRIAED
+RFHVTTTTGGAPRVMHHMEDYLQTEFPHLNVWLTSTTEQWAVIAVQGPKAREIIAPLVEG
+ADLSNEALPHMSVVEAKVCGVPARLFRVSFTGELGYEINVPADYGAAVWEAVAKAAEPFG
+ACPYGTETMHVLRAEKGYIIVGQDTDGTLTPDDAGVAWAVGKKKPDFVGIRGLKRPDLVR
+EGRKQLVGLLTKDPKEVLEEGAQIVADPNQPKPMIMLGHVTSSYWSENCGRSIAMAVVAG
+GRAKVGQTLYVPMPDRTIAVEVTDTVFFDKEGGRIHG
+>tr|A0A1Q9AHT8|A0A1Q9AHT8_9RHIZ
+MTSSRFDRTDALCGGLFIALGLFFAIQSLALDLGTTFRMGPGYFPFVLACILTLLGLVIL
+FQSFNKQGEPFGKLAWRGILFILPAPILFGMTVQGLGFVPALFIASFVASFASQKLNPLM
+ALALSAAITVFSVAVFSYALGLPFERFGPWLRF
+>tr|A0A1Q9AKD4|A0A1Q9AKD4_9RHIZ
+MTQSAPTKSAGLFGYRLSPVGSIAFLVILFWAVIAIFGPQIAPYPVGKIVDMDYFGPMSA
+KFWLGSDYLGRDMLSRIILGARYTLGIALAGVLIASTTGVVLGMAAAVVGGWFDTLLSRL
+MDALISIPSKLFGLVVVAAVGSSLPALILTLAVIYVPGAYRFARALAVNVNTMDFITVAR
+IRGENTLYLAISEILPNIIRPVLADFGLRFVFIVLLLSGLSFLGLGVQPPLADWGALVHE
+NIQGLSLGAAAVIAPSLAIASLTISVNLLIDDLPRKIRDRSA
+>tr|A0A1Q9ALT1|A0A1Q9ALT1_9RHIZ
+MSARRTSLIGALLAMLGPISMSIYTPAMPELVRAFLTTPSEVKLTLSVYFGGFALAQLMA
+GPFSDAFGRKSATLAFLGINLAGSLACAFAPDIDTLIFGRMIQGIGASVGITVARAIVRD
+QFTGAEASRIMNLIGIMLAIGPAMAPALGGLALAAFGWRSIFFLLMGFSLMTMLAILVYL
+RETTVPDRTRARPGRLLRAYAEILRDGRFLAAVGVLGGAIGALYAQSTMLSFILIDRVGL
+SPTAFGLSMLMQSGFYFLGSVVLRLTARWTGGERAVQIGLLACGLGGVMILASVHLLTPS
+LLSIMVPVAFSAFGIAFLTPHMTTVALQSFPHIAGSASAMLGFIQMGCGFLGGLAASFVG
+TPLDAFGAIIPTMLFAAVVSYLAFQAQTRRQVLDPPAA
+>tr|A0A1Q9ADV3|A0A1Q9ADV3_9RHIZ
+MIEAPRALLTTLFQAAVAAADPYDAIRRHLPARPKGRTVLVAAGKAASQMAAAFERAWDG
+PLSGLAVARHGPVAACRQTRILQAAHPVPDRSGLLAAAALMNHVQGLTEDDLVVALISGG
+GSALLPAPPIGFTLADEIALNKALLASGAPISAMNRVRKHFSRIKGGRLAALAAPARVVT
+LVVSDVPGDNPAFVASGPTVPDETTARDALDVIEAYRLPLSAAVIEAIRMAEAPKPDDAA
+FARNRVEVIASARVSLSAAAHAARRAGVTPLILSDAIEGEAREVGRVHAALAREFAEQGT
+GPAQPAVLLSGGETTVTLGSDGEGRGGRNAEFLLAAAIDLDRVERIVALAADTDGIDGSE
+TNAGAFCDGGTAGRIRAAGGDPSALLSRHDAWSAFSLSQDLFVSGPTGTNVNDFRAFLIG
+>tr|A0A1Q9AHR2|A0A1Q9AHR2_9RHIZ
+MRAVVVGQITIATCVALDFPVDGRAPAAKLARHVADRDLLLDERMEAAAIGEGEVGMASR
+QATISKMTLLNPWRVALENRMYPATQSDHIIMIMELKLRLRLQMLWTSPSMT
+>tr|A0A1Q9AQ01|A0A1Q9AQ01_9RHIZ
+MPQKAANAAYYGAFQDPVTNAQAAFRGIMDAMARPGRIHVFADPARPPAPLSPAQGTIAL
+TLFDQDTPVHLTQGLAATAVASWLSFQTGAPIAADRLQARFALVEKAAALPPLSGFAQGT
+QDYPDRSTTVIIELEALSGGTARRVAGPGIDGETTIAPLGLPDAFDALWAENGAQFPRGV
+DLILTAGDACLCLPRTLRILR
+>tr|A0A1Q9AJC6|A0A1Q9AJC6_9RHIZ
+MKTISTARAFAGTQGVYSHHSDVLGCDMTFAVFVPPQAKDGPCPVLWYLSGLTCTHANVM
+DKGEYRRIAAERGVILVCPDTSPRGEAVADEPDNWQMGKGAGFYLDATEEPWSAHFKMES
+YITHELPALIAAEFPADMGRQGIFGHSMGGHGALTIALKNPERFRSLSAFAPIVSPSTSD
+WSVPALTKYLGADQAAWRAYDACLLVEDGKRFPEILIDQGTADSFLQTGLKPWLFEEAVK
+GTEIALTLRMQEGYDHSYYFISTFMADHIHWHADRLA
+>tr|A0A1Q9AJV2|A0A1Q9AJV2_9RHIZ
+MDADRPSEEAASAEVPVLGREEILAYYARTGYALEHHAAHLLRRAHQRATACFQAVMPSD
+DLTPTQMAALATLLKHGELSQNHLGRMTQMDPSTISLVVKALLKRGLIARKRSDTDQRMT
+MIALTNAGVEYTLPLLDLSMQVARRLLSPLSPAEQATLLDLLNRIGEPDAA
+>tr|A0A1Q9AFT5|A0A1Q9AFT5_9RHIZ
+MRKTLVIIINTLAAQAIFLCALRYVTEFFVLAFINSLATHILIAVAIMLVVALLIRRQTA
+SVFLLVISLTMAGHTILVKQAHAIRPTAQEAQAPPALRVMSFNMLAENFGNSERIAQMII
+RSGVDIAIVPEGSPLIFHLPALQKTYPYRFGCGEGTPTCDLLVFSRLPLKNMTTGSLSDL
+RRDRLMVATVDVQGVAVRVVAVHLSKPYFDDYHRNELYMLKAVLGNDPGPMFVAGDFNSG
+SIPPDMQRFLTQMNLRTAPDGEPGTWPVQLAPYGLGIAIDHIYSRPPLVPQRVQRLPEDF
+GSNHYGLTADFILRKP
+>tr|A0A1Q9AMG1|A0A1Q9AMG1_9RHIZ
+MSFFGVSGMYYSGESLQQHRIVLAEDSNLFSSMVSKRLKELLDIDVIVCRDYDELTFAIE
+NASYPATLAISNINLPGAENGQALNYLVDMSVPTIVFTGTFQESTRESILAKELVDYVIK
+DSVFAVDMLAESVCRFLTNHRHHVLIVDDSPTARAMLSTQLKRYNFRVSAADCGQTALKL
+LAEHSDIELVITDYNMPDIDGFELTRRVRTHYGPHQLRIIGVSSSTNRLLSARFLKAGGN
+DFVVRPFVNEEFYCRVNQNIDTLMKVRTLSERLLAKPDAA
+>tr|A0A1Q9AG52|A0A1Q9AG52_9RHIZ
+MAGTNDLTGTVTLVTGALGGRVGNGRSDDPVFSPDGKKLVFDSSANNLVAGDAGGLDVFL
+KDLTTGTITRLSVGVGGTQADDSSYLPVFSPDGTKVAFVSVAGNLVLNDGNGLSDLFVAD
+LATGAITRVSPNADQGVANSRPSFFPDGNKLLFETGDPLVAGDTNHARDIYAVDLTTGVL
+TRLSTDAHGNQIDQASTAPALSGDGTKLLFRTSAGLVPEDSNSGFDFYVKDLTSGALTLV
+GRAADGTVANSASLAASISADGTKIAFWSQATNLVANDTNGLTDLFVKDLVTGAVTLVTQ
+TAGGVQANRFSNQDLTTAFSPDGNFLLFTSLAGNLVPGDNNNNFDLFVKDLRDGTITRVS
+TAADGTQANFGGMEGRWSPDGRSIVFYSGATNLVSGPDGNNGQLFVKDVSSLYPAPVNHA
+PVANADSFTVVSGTPLQMGGAGVLANDVDIDGDPLHAVLLSGPAHGALNLDASGAFTYTA
+ETGFHGADSFTYKANDGTADSASATVTLLVDQAPVSTGETYTMRQDKVLTVAASAGVLAN
+DTDADGDPLTASLITGPQHGTLSLAANGGFTYTPTAGYHGADSFTYRANDGTTNGNVATV
+NLQVYSDAGKVVRVSTTSSGGQITEAMGSPVFSADEASVIFVARDDIIGGNTRERVIVRK
+NLATGAVTPLVSGSDLGGGGVITGYSAAVSSGDNLIAFEAGLPDGTGAHLYVKNLSTNVI
+TKISDDRSSSSSISFSPDGTKIAYSNIVISDAEVMVKNLITGSTDIVSRNMRGTAQNSSA
+LATPDATPRFSPDGRSIAFYSFDPHMVPDDTNGGADLFIKNLATGLLTRVTTNSDGTELS
+LGGYQVQMINGHPNVAGSSHGSYAFSHDGRYIAFLSSFPSLDPDPKSGLQQVYLKNLATG
+ELRVLSTSADGTLADADSDYVTFSPDDQYIAFSSEATNLVPGGRPDAGASLDKDFIYLKN
+IQSGAIMQMIGSADGQPANVGISFNDAFEFSSDGSKLLFRSAANNLVQNDTNNASDIFLK
+SIHYPPTANEDRYSPPLGKPLIVSAREGVLKNDVSPTGDPLTATLVAGPAKGTLDLHADG
+SFTYTPPPASGGTFFTGTDTFTYKVNDGTVDSNIATVKLLNYAAGYFSGLSVGGGGGRST
+GDPHLLTFDGRPYDFQAAGEFTLVKGPDFEIQVRQSALGSGNASVNTAVAMSVDGVAVSL
+YAGSAHPLLIGGVATDLGDGDSLQVGNGSIARSGSAYVVTNGNGDGFYAALGSNVIEVQP
+MLGSSGRAISGLLGNADGSASNDFRMRDGTDLGETVSSATLYSTFADSWRITDATSLFTY
+GAGESTASFTDRSFPHAIVTLADLDPTVRAAAEQTARNAGLTPGTLTFDNAVLDVALTGN
+AEFATSAAALPVLKPDAPRVALAADTGTSSADGLTKNAALAITPSASADRLSVTVDGHAV
+ATYDPSGLSQGTHTVSVTETNALGYSSDPTTVTFTLDSQAPDLHVTTGGGRSVSSDILVS
+GTIGAADIGRQISIFDETQTLLGTTVATADGHWSLTVQVPQMGDHQLTATAMDVAGNTAQ
+VSFAITRANDPGSGLGDVHMRTFQGLSYDFQAVGRFTMVRSVAASDPFDIQIETKSWGDL
+ASVTDKIAAQIGGNAVRFELDGSIWINGAVDRSLSSDGQVLGLDGGAITRLSAESYRVDW
+SSGQSLSVTNQGAWFDEVASLGPSDGPGSVEGLLGSNTSRATDIALADGTVLEHPSEADL
+LGRYAESWSLSDGGSLLEEGGTLPIAFSNRGHADAPFNGKSSIDLANFVAERTTLAFEAD
+RSGAFGTLTVASGQQQTALILMGQYAATNFHAGDDGHGGVTIDYQTPRPTLLG
+>tr|A0A1Q9AD37|A0A1Q9AD37_9RHIZ
+MEREDRKGRLIVSRRPVAAATVLMASLRKSPSRVRQRIGPSPFRQAVQVLQKMPEQAVFL
+VQPEGRGAQNLLLGKRHGGLAPQKRMEFVGAEIGVGQNADRLAGLARIGQCLIDQRIDEG
+QVRLMPHLFARQRGARLGGEAGIFGIDFGQGHFVKKARLFPALAGAALGQNPAAAKGIGR
+DRVVKKTEREERLAQLGEAVARLAERPP
+>tr|A0A1Q9ADQ7|A0A1Q9ADQ7_9RHIZ
+MVTIKEIAKAVGVSSATVSRVLNYDPALSISPAKRQAVIETAEALNYATPRSRKGQVGAP
+VAGPAQARLAIVHFLQSTEELADPYYIGVRLGVEARCREIKAEIVQIFHADMEADPQVLQ
+SVAGTIVIGKQSDDRIDWLAEQGRPLVFADFLPPRERFDAVHCDLDTATRRMLDALKQAG
+YRRIAFIGSHEHLNGETQRFGERRCRAYIDWMTAEGLFDPALLVLGDFCNSGQNLRLEAG
+YALAQAVLTVTPRPEILMTANDNMAIGAYRAIREAGLSIAGDISVVSFNDIPVAQFLSPP
+LSSLRIQGEHIGETAVDLLAERLAGRGYVKTVTIPAAMQWRESCRPPA
+>tr|A0A1Q9AFI9|A0A1Q9AFI9_9RHIZ
+MSLQQEQDEQEDKPLDPAMESVRRKMMRLQLVSGGIMMVMFMAVLGAIVYKVTRPPAGAP
+VENLDAAAIPAGVPVEAVAALPAGFAIDQVALSGRQILFYGRDGAGTRQAIVFDYAAGRI
+LATVRIAP
+>tr|A0A1Q9AGL8|A0A1Q9AGL8_9RHIZ
+MNTRLRHDAIIRILRRNATVTIAALAETVGASRRTVLRDIAALREQGFVIHSEAGRGGGL
+QLDPQSMQTSSRLSVTEVFALLISVAAMRATRSLPFADLADSGLAKIEKGLPSEKVRDLR
+RLLDCLYVGQLSPLQDVTDVGRVGADLLPAFETAFLERLHLRFQYRDARGIQTFREVEPQ
+AMLILPPLWYLVGWDPARGDFRHFRMDRITCPGIMEGRPFRRRHVPFESDVCPFSALPQ
+>tr|A0A1Q9ACW9|A0A1Q9ACW9_9RHIZ
+MRSLKDAVVVIAGASSGIGEAAAEAFAAEGARLVLAARNGPALEAVAERCRRRGVRVLVV
+PTDVTEPRQVAALVETARSFGRIDVWVSNVGVGAVGRFHEVPFEAHEAIIRANLIGHMRE
+AHAVVPVFLEQGSGVFINMISLGGFAATPFAAAYAASKFGLRGFAQSLRAELAGHRDIHV
+CDIYPAFVDTPGLKHGANYVGREIKPPPPVIDARRVAAAMVRAARAPRATTTVGVVTDAA
+RLVVALAPDLAARLLARGMERGFRRAGRIERSEGNLYRPPVEAGGIDGGFRKAGPLSSAG
+GVVVAGLVVAGLALVAGRLLAGPPQPLARRRGRRV
+>tr|A0A1Q9AP89|A0A1Q9AP89_9RHIZ
+MVEKVPMTQTGFAKLQEELRWRQQEERPRIIEAIAEARSHGDLSENAEYHAAKEAQSLNE
+GRIGELEDFVARAEVIDLSKMSGSTIKFGARVKLVDEDTDEEKIYQIVGDQEADVKAGRI
+SISSPIARALIGKEVGDSIEVVAPGGSKAYEIIGINWG
+>tr|A0A1Q9AGQ5|A0A1Q9AGQ5_9RHIZ
+MLPEPHVQTFLEAVRLQSADAAFEAFAALTRATLGSRLLTASALEIEDGKVTEGRSRRIY
+TDNPEVYPVGGFKPIPDNKWTDIVLRRQQVFSTLSIEEIAEVLFDWEIIRSLGCESNVNV
+PIIVGGQVIGTLNLLDKAGSYTAERLAPLPELMPYAVIAFLLVTRPR
+>tr|A0A1Q9AKN3|A0A1Q9AKN3_9RHIZ
+MPFDPPFRLAADHPSVSLDLHDPRFFTDPWASYAALHAQAPRFFWEEEGKWFFASYADVN
+ALLRDRRFGRQILHVASRQELGLPEPQPHLADFDRIESFSLLELEPPAHTRLRTLVNRAF
+VSRQIDRLTPRITALSHALIDGFADKGETELLTSYAEVIPVTIIAEMLGVPQEAAPRLLD
+WSHRMVRMYMARPTRETEDDANQASADFGAYLADIIDWKRKNPADDLLTQMITADRDGQT
+LSEEELISTAALLLNAGHEATVHQIGNAVALILSQGADPAALFADDRATTLTVEECLRRA
+APLHLFQRIALEDVTLDGGITIKRGERIGLLLGAANVDPTRFTDPMAFRPTRDEGANLSF
+GAGIHFCIGAPLARLELKISLPILFQHLPNLRLKAMPEVKDSFHFHGLERVELVW
+>tr|A0A1Q9ANS9|A0A1Q9ANS9_9RHIZ
+MSETEGQRPVLSVRDLSVTFAAKAGAFNAIDGVSFDLARGEILALVGESGSGKSMTSLSI
+MQLLPEAAQMRGRIEIDGQDVTALGRRQMEDVRGARIGMIFQEPMTSLNPVLTINRQMTE
+GLLRHQRLSRREATAQALACLEEVGIAEPDRVMAQYPHQLSGGMRQRVMIAAALALRPGI
+LIADEPTTALDVTVQSQVLDLLVDLKLRSGSGILLITHDIGVVAETADRVAVMRQGRILE
+TGTVDAVLGAPQHAYTRSLLASHLTVEKGLMRHRSEREGADA
+>tr|A0A1Q9ADF2|A0A1Q9ADF2_9RHIZ
+MGGVGHFLLVLAHRHAPASTLAPLTYTQLCWAMSGGLLIFGEIPSLTTAIGALVILVAGL
+LVLLSSKA
+>tr|A0A1Q9AP64|A0A1Q9AP64_9RHIZ
+MNYLGSHFATVSAPREADDGFFQGRLATWVEIDTTEQAMNLDNLDPVDFDDLDLELPPNI
+GFNGRVFFYTLRVQDHMLFLETRNEFGKRLSPGSAAKIFRKLFSPEIIGKDMPAVEVTVV
+PEEDALKRILSMPVLKRLKIHLVRPNADDIDPATVLDELMEQGARSQDIILVAAAQSEGI
+DPNQRTRAQAEVAETNGYVEGTGRDDDGNKIEFSTRAYPRVIRKALGEVGGYLALALQVA
+KETMVRKAGSQDL
+>tr|A0A1Q9APJ4|A0A1Q9APJ4_9RHIZ
+MRHIAVIGIGTGNPDHVTIEAVKALNRAHVLFLPDKGEEKAALADARRRVIAAHVTRMDQ
+REQAFIVPRRQAAGVTYGESVDDWHAALARNHAQLIAEALGPEETGAFLVWGDPMLYDST
+LRILDRVRATGLDFTLSVIPGITSLQLLTARHQIPLNGIGAPVTLTTGRRLAEDFPATPD
+TAVVMLDGEQAFLALEDLDAEIYWGAYLGMPQEIVLSGRLGELREEIAARRAEARAMNGW
+IMDIYLLRKPRS
+>tr|A0A1Q9ADF0|A0A1Q9ADF0_9RHIZ
+MSGLLLQFGTSRFLQAHADLFLHEARMAGQDVPDVVIVQTSGSAARAGRLAAFSKPEGFP
+VRIRGLEDGQPVEREVQVKSVTRGLSTAADWPDVVSLFAEQADTILSNTGDSGYSVAPEE
+AAQGLDASAPLPSFPGKLAQLLLARYRAGGRALTILPCELINRNGPVLKAIVTDLARGAG
+AEEAFLAWLDTKVIFANTLVDRIVSEPLEPAGAVAEPYALWAIEEAPGLVPPCTHPSIVL
+APDIEPYERLKLHILNLGHTVLADIWRKEGRPTEETVRAILSDPAIAARLDALYRDEVVP
+GFAARGLGGEAQAYVETTLSRFRNPFLDHRLSEIAGNHAVKIERRIAAFLAWAGTPAPTL
+QNIVSR
+>tr|A0A1Q9AGH6|A0A1Q9AGH6_9RHIZ
+MKLYRFLTAPDDASFCHKVTAALNKGWELYGSPTYAFNADTQHMQCGQAVVKEVEGKEYD
+PEIKLSEQ
+>tr|A0A1Q9AH15|A0A1Q9AH15_9RHIZ
+MASPNKAGGTGDRPDLFTAALFIGFGALGLWAGRDLTLGTASAMGPGYLPRIVSWLLIII
+GAAIGGFGAVRARVDIARPKLWPLAIILAAVIGFAFIAEFFGFVAASVWLLLVGSLADRD
+SRLREVILLTAGLTTFGALVFIIGLGVQMPIWPF
+>tr|A0A1Q9AEW8|A0A1Q9AEW8_9RHIZ
+MVIEGEEGDRARFDGTLIARNITKSYNARRVVRGVSLVVRRGEAVGLLGPNGAGKTTCFY
+MITGLVPVDEGAIEINGNDVTSMPMYRRARLGVGYLPQEASIFRGLSVEDNIRAVLEFHE
+KDSAKQEAKLNDLLDEFHIAHLRKAAAVSLSGGERRRLEIARALATDPTFMLLDEPFAGV
+DPISVADIQALVRHLTSRGIGVLITDHNVRETLGLIDRAYIIHDGEVLTHGRANDIVANP
+DVRRLYLGDNFSL
+>tr|A0A1Q9AH30|A0A1Q9AH30_9RHIZ
+MTLTSLATFWAFVGLILFLALIVYLKVPGMMAKALDERSARITEELAEAKRLRQEAQALL
+TEYQRKRKDAEAEAAALVAAAEREAQAITAEAKQKSDEFVARRTALSEMKIKQAETDAIN
+AVRATAVDLAIAAAERVIGQQVSASTDGALFAKSLGDVKARLN
+>tr|A0A1Q9AGY8|A0A1Q9AGY8_9RHIZ
+MMPMRHFSLILWGLPGLFLGAGTALAGSIDRIDSTEPPVVQAVFEIVCSTCADHPRAQDR
+APTYLVPELGTRDEKIELQRIHGALMLVRTEAWFGGSPVRIVTKPTPEAMAAYLKARNIV
+AGDTLAGNPGETGAGFTIAAAGIDSLNTTAALAPAEPLKADSVDLASEKSASSQVFDRTG
+FQLRLN
+>tr|A0A1Q9AH95|A0A1Q9AH95_9RHIZ
+MASEVAQLRTQFDVIRFMKRKAQAFGFRYFMIARVPTVEMETLAGASIVSNVPVELTAHY
+DKAGLLHSSGGMKRLRETATPFQFDLDDWYRQSVPSEELAQHMKILAVHQIEQSNYFPVH
+YADGSRGVVIFLGARHSFSMAELMELQMISIHVYNRLAEIGVVLRDNGLELTEREIECLN
+WTAAGKTSAEIASIIGLSEHTVNHYLNHVTRKLGAVNRTQAVVKAIRLGYVR
+>tr|A0A1Q9APP9|A0A1Q9APP9_9RHIZ
+MARAAEKQVEEYFTPILRENERHPNGWPVRMMVASQTEARHNRASWAPSHLISIRAPGTK
+LLSMIDLPPENHLQLIFSDALDQEDPQGARLEAIEQAFAFVDGLPEDAHLLVHCLRGIGR
+APALALGILGRYMEPEQAAATLHMLRPEAKPNRHVVTLCDTQIGLKGKLARQALRFPAKV
+WKPAKG
+>tr|A0A1Q9ADS8|A0A1Q9ADS8_9RHIZ
+MTALLLRRSASLFLTLLAVSGLIFLVMQVLPGDPAAIMLGTSASPETLAALRHELGLDQP
+MLVRYLAWIGGLATGDLGTSTTYGVPVSGLIGERLAVTLPLALMAIGLSIAIALPLGVLS
+AARRNGPADYIAGFISQLFIAVPGFWVGLLLALVFAVKLGVMPSGGFPGWQTGFWPALQA
+LVLPAIALALPQAGVLTRVTRSSVAEVLGEDFVRTARAKGLPKRAALWRHAVRNALVPVV
+TILGLQFTFLIAGAVLVENVFNLPGLGRLAYQALTQRDLVVMQDVVMFFAGLVILMNFLV
+DMSYLLLDPRLREAGR
+>tr|A0A1Q9ACH1|A0A1Q9ACH1_9RHIZ
+MLLLLTLLMGGAFLASIMLGVANASVAGVVRLLLGLDQDAALLRDRIIILDIRLPRALTG
+LLVGAALAVSGALMQGLFRNPLADPALVGVSSGAALGAVSMIVLGGALMPWLPASLSLTA
+LPLAAFLGGLASTLLLYRIATTGQVTSVATMLLAGIALGALSSAATGLLVFIADDRQLRD
+ITFWTLGSLAGASWQKLAISAPVILVALGASGFLARGLNALTLGEAAAFHMGFSVQRLKN
+GAILCVAAATGAAVATSGAIGFVGIVVPHLLRLVIGPDNRFLLPAAALLGASLLLMADML
+SRLVVAPAELPIGIITALAGAPVFLAILMRGRGRLGL
+>tr|A0A1Q9AIK3|A0A1Q9AIK3_9RHIZ
+MTTSPLDFPKGVHPDAAIAAGLPYQGGATLGSPAPARIEIAQSGEFKIPAPKGNQAPAAA
+PAPATAGPTSPAAPVQAAAQAVQPPIRFDAISAPPISPVQMVSGGAAFLLLAVLFLMVKI
+SITRSLQSRMAAPGPASEAGWMFFVWATFTALCLITAYIANLWMRLPVSIPAALLSLLLL
+VLFLRKRAGALSTRR
+>tr|A0A1Q9AKT2|A0A1Q9AKT2_9RHIZ
+MSPAAPSSTPKVQIPRRGLMLVISSPSGAGKSTIARNLLEDDPEMSISVSVTTRQRRPSE
+IEGRHYFFKTIREFEGLRQTDALLEWAEVHGNFYGTPREPVEQAMAEGRDMLFDIDWQGA
+QQLQQKMPDDIVSIFILPPTMAELQSRLHRRAEDTAEVIATRLANSRAEIQHWKEYDYIV
+VNEDLDRAFASVKAIVAAERIRRIRRPGLVPFVQGLLDEVPVLA
+>tr|A0A1Q9AMH8|A0A1Q9AMH8_9RHIZ
+MTAETSRAADLTPKGAATGKIPATVITGFLGAGKTTMIRNILQNAEGKRIALIINEFGDL
+GVDGEVLKGCGVETCTEDDVIELTNGCICCTVADDFIPTMTALLERPNRPDHIVIETSGL
+ALPQPLIAAFNWPDIRTQVTVDGVVTVVDSAAVAAGRFAEDHDKVAAQRVADDSLDHESP
+IEELFEDQLTAADLIVLNKTDLLDAEGLAAVRREVATRTARKPAMVEASQGSVPVSVLLG
+LNVGTEGDIANRKSHHEMEHEAGEEHDHDEFDSFVVALGPVAAPEALVARLKEIIAAHDI
+LRLKGFVAVEGKPARLLIQAVGQRVDSYFDRPWAPGEARESRLVVIGLAGLDRAAIEHAL
+QA
+>tr|A0A1Q9AE32|A0A1Q9AE32_9RHIZ
+MKPVPDLPVTLRVGGPLRTIERRPLPPYAPEVLAFLTALSKRLLTAPQTRLHPDIAAFAY
+WCRPANLARLQRAFGAAHARLGRGLALHIAPANVPVNFAFSFAFGLLAGNANIVRIPDAG
+HPQAEVICDALAALFADPAHRRVAAMNRLIRYPRSDAITGSLSQIAQARLLWGGDETVSR
+LRALPVHPRCVDIAFADRYSFCILDADAVLEASDTVLASLVKGFYDDVFLLDQNACSSPH
+LVLWQGTAKAKAAQARFWPAMTAYLEKSYALAPVHAVDKFVHLCATAIALPEAAASQRHD
+NFVYRVVLDRLPADIERHRGRNGFFYEHATDDLTCLAGIVEERYQTVTTFGIDRDALVQS
+IIAQGLSGIDRVVPVGKALDIGVIWDGYDLIGELSRIVHTA
+>tr|A0A1Q9AJ56|A0A1Q9AJ56_9RHIZ
+MAEKQLALSDDRNVASFAKDDPLAELARIVGDDSRPAVHQLRELERQQERVRVEPAFDLE
+AELLRELGMFEDAAAPAPVVEPVMPAQPVAAQPVQPVRVEPPMAPPAAAAPVAEPVRVMP
+QPLPQAAEIAPIPRAEPIAPVAHRVEPVMAPVSEPSLDFDLADELTQSLHLEPVEARPVE
+ARTVEARPVAPEPVAPPRAPAVQATAPAAPSGFAPVPSFVEPVTADALLSDVARFPVPPV
+AQRPAQAPAPEPVARKSSYPFTPNFTRATPTMAGQAGGGRSFARPVSQSEPVPPVAAAAQ
+PSVAPPQVPVAPQASVVPQSHVAPQAPIAPQANAEPEIDLDDFAFDLSDLDMGLEAESLD
+MAAVAPMADAPVVAPPAPARTPVVEAAVHPAPVAPAPVRPAQPVQQVAMPVRQPPAAPAP
+VQAMPAQAMMAPAIPVERDPVQPVPGQMMASQPVMPPLQVMPEPEAIEEDEFAFDPALLA
+EAEEQVTPIAELDVPQLPVNEPVKPMAHASDYDLDIDAEMAQLFQPAPRAAAPRPASHEA
+PSAQRAEPFGRAPVVPIGMADEAFERAMEEDFRRTFAERQADGRQGFDPLYPEDAVSQIE
+EPRSSRRLVLLASAAVVVLVAGAGVAYSLFGGKATSMASGEPQIILADKSPSKMVPVEKG
+GKTVPNQDKAVYDRVSGGSEAAPRQDELVTSEEQPMDVVQRTLTPESLPLEGENDMVGDD
+GAERLVAEDGGAVSGAAASDHAPALPPRKVRTMVVKPDGTLVAREEPDDPAADAGAGAIR
+PSLAQSTSRTAPGEMTSALPNANLAGLHDEAATQVAAVDTHVPVPTSARAPAVAKLPAAA
+AKPVTPAAQPAAPVQTAAIAPAAAPASASTGDYVIQVASLPSEADAKASYQKMSGKFASV
+IGGRSVEIRKADIAGKGTYYRVRIAAGSRADANALCDKLKAAGGSCLVTR
+>tr|A0A1Q9ACF3|A0A1Q9ACF3_9RHIZ
+MAITDFDSRRTAVFLAGLMGLAGVASAAAAAHGGGQDAHLLQAASALCLAHAPALIALAA
+LWDRLRMAAIASLLMAAGTALFAGDMTMRHVAGHGLFPMAAPTGGFAIMAGWLAVSVGAL
+LPRKG
+>tr|A0A1Q9AEX3|A0A1Q9AEX3_9RHIZ
+MRSLFDLHGPHPEPSTLTAFAENPLHRDSENRAEDCVTQALKQPGAHLLAFSGDRLVVKH
+DEQVVDPLFAPYELAGLEPDLDEAILLGTLPNGEPRLAVPVKAPVEALEASFKLTEGRTL
+YRQQMMPEPLLGQFAQAESLIVWNATHRFCGKCGSPTENRSGGYRRVCTACGHTLFPRTD
+PVVIMLTIDLERDLCLLGRGVHFPPGMYSCLAGFVEPGETIENAVRRETLEESAIQLGRV
+RYHASQPWPMPHSLMIGCFAEAKSTEIRFDQRELEDCRWFTRAETAELLARATGVGAEEG
+ERNSPPKGAIAHRLMRDWLDWVA
+>tr|A0A1Q9AJQ8|A0A1Q9AJQ8_9RHIZ
+MASALVEQEGFAAMVLRLRAEGLTAKGLLNAVEQTPRSVFAPPLYKREALSSRLVPLDCG
+SFMEGYDFAVRILNALNVKPGQRILEVGTGSGFTAAVMSRIAERVLTIDRYRSLVASAQR
+GFEELGIRNIIARQGDGSNGLIGEGTFDRILVTTAFDSLPRSYTDHLVSGGVLLLPIMIS
+ETDCRMVRITRTGSRFEREDLFSAPYLPIVPQLAAYL
+>tr|A0A1Q9AL85|A0A1Q9AL85_9RHIZ
+MKWLSTLAAVAALLPVLAGTQAAAGERLDQIKKAGVLKIGTEGTYAPFTFHNAEGRLVGF
+DVEIGEAVAKEIGVKPEFLEGKWDGLIAGLDANRYDVVINQVGITEERKKKYDFSEPYIA
+SKAVLIVKADNDAIKGFADLKGKRAAQSLTSNFGKLAEANGAELVGTDGFDQSIQLVLTG
+RADATVNDSLSFLDFKKQKPNAPVKVVASQDKAEYSGIILRKGEPELRDAINKALAAIKE
+NGTYKTISDKYFGADVSK
+>tr|A0A1Q9AHU5|A0A1Q9AHU5_9RHIZ
+MIDRTPVTHRAGVARSGNAAEADPITTEVVRHALNSAANQMKRALVRTAFSPVIYEVLDF
+AVAIYDPQMRLLAQAPSLPMFMGTLNFCVEEAVKNVGGVDNLFPGDMIMYNWPYGTGSHP
+QDLAVVNPVYLEDGELIGYTAIKGHWLDIAGKDPYCTDTVDVFQEGTIYPGVKIYKRGEL
+NDDIYRMVLANSRVPKFVAGDLNAQVVGCRVGAASFLDVVKRFGREEYRNAVEAMFDHGE
+KVVRSYFETIPDGRYVGHGEMDSNGITEDRIPFEVVVEIKGSDVTLDFSNVPETQGGPVN
+CPVPSTISASRVAISMLAGYGEAPHEGHFRAVEVVTRPGTMFHPLPPAPCFLYGWPALQA
+IEVIYNAIAKALPKAVPAQSGGCICSVVYWGTRAATGEPWADGSPHPTGQGAWDGGDGGT
+MLHISESATRFSPVEVWEAKNPWIVDRMALAQDSCGPGQWRGGPGIDFHFRMTEDTFITT
+AVERTKNEPWGLGGGGGGRPNGAAVRFADGRKVSVPKTTRFLVPKDAVVELSTGGGGGFG
+DPAARPKEAVEKDLKAGYISQSFARKHYPQAF
+>tr|A0A1Q9AMW5|A0A1Q9AMW5_9RHIZ
+MKLLPPSFLALLMAGLPLSAARAGDYPWSGDWALTLGGSVANAPAFYGARDRRFVFSPIL
+SIGRQSKLDRFVSRNDSASLPLYDSGRVSFGLAGRFLAARDENTSEDLHGLEDVRFGGEV
+GAFAQAYPTDWLRTRVEVRHGIRSHHGTVLDLQADAYTDITPTLRISGGPRATYASSAFG
+RAYYGVNGEQAAASGLDPYDPGSGWQSVGAGGALTWKATDKVETSAFVEYRRMIGTAADS
+SLVRQKGSENQLTVGLSASYRFDFTLE
+>tr|A0A1Q9AC76|A0A1Q9AC76_9RHIZ
+MLRYICWRIAAMVPTLLIISALVFTIIELPPGDYFESYVSEMRAQGEGVDMAEIEALRAE
+YGFDQPPVMRYFHWVAGMLHGDFGYSFEYQLPVSDVVGDRLWLTVLVSFVTILVTWLIAF
+PIGIYSATHQYSWGDYGLTFLGLLGLAIPNFLMALILMYFANIWFGTSIGHLMDQKYLSE
+PMSWEKAKSILEHLWIPVLIIGTAGTAGMIRRLRANLLDELQRQYVVTARAKGLHPFRAL
+VKYPLRMALNFFISDIGSILPAIISGAEITAIVLSLETTGPMLIKALQSQDMYLAGSFLM
+FLAFLTVIGVLISDIALAFLDPRIRLQGGSRK
+>tr|A0A1Q9AF48|A0A1Q9AF48_9RHIZ
+MIPDLAFLNRLADAAKAETLPRFRTGVAIDNKYKVGFDPVTEADQAAEAAIRALIQAEFP
+DHGILGEEHGGEGLDQDYVWVIDPIDGTRAFISGLPVWGTLVGLYHHGRAIMGLMDQPFT
+GERYLTIGEGTYYRGPEGEKRLTTRACVTLGEATMFTTSPFLYAPVAAASYKALEAQVRL
+ARYGCDCYAFALLAAGHVDLVCEGGLKPYDIAALIPLIEQAGGVVTDWKGGRPEQGGDIL
+AAGDPALHAQALALLASAAP
+>tr|A0A1Q9AKY9|A0A1Q9AKY9_9RHIZ
+MCGRFALTADLQELAAHFGGLDLDRLAPRYNIAPTQPVLAVMAAPTGLPGSNRAPWRAGL
+VRWGFVPGFIKDPRDFPLVINARSETVFEKASFRAALRHRRVLLPANGFYEWRKAGKGER
+AQPFFIRPREGGLMAFAGLMECWASPDGSEVDTAAILTTAANAALAPIHARMPVILKPED
+YARWLDCRTQEPRAVADLLAPLADEVLEAIPVSDRVNSASQDGPELQLPAELVPLTAKPQ
+KAPHSKASGRSRPGEDEVPAEPAQTQLSLF
+>tr|A0A1Q9AQH9|A0A1Q9AQH9_9RHIZ
+MPAMFRPAIARGSQPAVVKLVSFAAGKARVGKLLGYQSRGGELPVEDENGDRLAGRDWIR
+TLASEWAEEDGRAPSKDVLRLSLTLPSARLSSDEEVGEVLKGALPGHRIAWQSDLARDGE
+GRGVALVISAARRRLEGETRAGRIFDNRKSLRDLEMRLKDAFGAETRVEMQGFSHGVEGV
+ARGLGQLQKQGRDPIIAVRLDRAGAFVGQHALGGERSIIEEARDWKRDLRSQQRRDVAHL
+VLSAKPGTPKDAFVSAACAMLAREFAGHRFLFTLHEDRAHLHVHAVVKMVSETGKRLHPR
+IEDLRRWRAVLAQEARERNIPMDAVSRFERANPPGYKMKDIRRIERGEASEALRRRVEAV
+RQQAVHVPTRPEGLRHAAASAAGWSAGWRGEGDLRPEPPQTPGATPLDRAQPFDGRAIDP
+VDAQTLRRLRARSLDAVLIGVATAADRNARHLPGAKEPDMADLETMSSAFAEMETNLDIV
+AKALPPERLAAFDALRRKLKVSQTRMIEAQTAIEAGRGRIEGESWVQPVAQNFAGFIAET
+RGETIRYSLRSADGRTGAVAFTDQGDRVEVSRSRDREAVLAALELGIQKWGAVRVSGPDR
+YTALAVELAAKHGVRLTNPELQDKLTAARDRIARERSQRPGVMAGTLPPAQKPGDRQEVD
+GLSAENRAADQEQVFDRRDASQTMPREQAVRQTVAEKPAAAVTAPNGVKPPVDTGDKVKP
+ADRDRASILQAMQMASQKWGVVAVNGSERDKAIAVELAAEHGFSLSNPDLQEKLAAAKAR
+MEAQREMERTRERRQPGFVDSAEASPPVRRTDAEIAVALETVKEKTQAEATREVRQAKRS
+VQTGERPINGGGDDHVYRTKAEASAAVRAEKAVAQDPARAIPSDVSQSPEIERQRLDQKA
+LLSEKEVSRHQQVRKDKPRQR
+>tr|A0A1Q9AEV8|A0A1Q9AEV8_9RHIZ
+MTINLLRQGIGAKLGLTSAIGLIMTATMLAAIWLGFRAIDRAQAEVTVEQARVLALIDAK
+ASMRGQQKGASDLLLSTAGNGTAAALDYVKHRTASFDQYMQIASEHSGGPDDLARLQEIR
+ALAANWSKKFEQLADVVAHKLASDGDAAALLERQQALRKEMAPLADGLATAVDASVKVAK
+ERIAAATPAMQSIIQTALLSSLGVGAAMAVALLATALYGRRGIAAPIQRLTVSMARLADG
+DLAETVPFRERQDEIGRMAAAVDVFKANGLRMRDLNRQEAALQAKSADLQASISTVVTAA
+ADGDFRQRITKSYDNPDLDNFAGQVNVLVEAVDHGVDEVRRVVSALAQGDLTQTMQGDFK
+GAFGELKNNVNATMGQLQILMGEIRQAVESITSGASELSAASGDLSKRTEHQAASLEETS
+SALEEITVAVRNSKSRAAEVSHMADEAHGSTRQSGAVMREAVEAITRIDQASQEIGNIIS
+VIDEIAFQTNLLALNAGIEAARAGESGKGFAVVAQEVRELAQRSAGAAKDIKTLISRSAD
+QVQSGVTLVTSAGQAIGLIEDHMQKINGHIHAISTAASEQSSGLSQVSVAVTQMDQVTQQ
+NAAMVEQSTASTSRLAEEATHLAQLVARFKLDNQGHANPHRTQRGTMGGTMGTTGGGLPT
+SRYAA
+>tr|A0A1Q9ADP9|A0A1Q9ADP9_9RHIZ
+MSREKSFTIVGGGQSGLQLACGLLAAGHQVEVVQNRTAEEIAGGRVLSSQCMFHTALENE
+RALDLNFWEDSCPPVDSINFVVPAPDGAGKAVDWNGKLDRKAQSVDQRVKIPRWMAEFTA
+RGGRLTIHDAGIEDLEAYAKRSDLVIVAAGKGEIARMFERDAARSPFDKPQRALALTYVT
+GMEARPDHSAVNFNLIPGVGEYFTFPALTTSGPCDIMVFEGLPGGPMDCWKEATTPEAHL
+AVSQRILDSFLPWEAERCRDIALTDDNGRLAGAFAPTVRKPVGRLPSGAVVLGMADAVCL
+NDPITGQGSNNASKAAKCYLDAILAQGDRPFDEAFMVATFEAYWAYAQFVVGWTNALLMP
+PPPHVLNIMGSAQAYPALARRIANGFDDPRDFFPWFAVPEEADAYLEKLAA
+>tr|A0A1Q9AQI7|A0A1Q9AQI7_9RHIZ
+MLDAWIGNGDRHNANWGLVLDSQKRTITLAPTFDHASSLGRELSDAVRAERMVTKDKRFD
+VRAYAEKTRSGLYMDRTDKRPLSTIDAFRHASSAGKKHEEFWLARLSKVDPGDLSDIFER
+IPAELISTEAASFALNMLEINRQKLLGQT
+>tr|A0A1Q9AGJ4|A0A1Q9AGJ4_9RHIZ
+MGSLDFVTLFFMVAAVIIFIQLRSVLGRRTGNEKPPVDPFSPADGDRQPQATGKVVQLPR
+RDGAPAPAEERYRAVDAFAPADSEINAQLRRVVDADQSFDPKEFVAGARMAYEMIVMAFA
+EGDRKTLKSLLSREVYEGFDAAITEREQRGETVKSTFVGIDKSDIVQAEMRGSEAQLTLS
+IVSHLISATFDKAGTVIDGDAEAVSEVKDLWTFARDTRSRDPNWKLIATESEG
+>tr|A0A1Q9AFL0|A0A1Q9AFL0_9RHIZ
+MGSQSDWETMKNAADVLDALDVPYDARIISAHRTPERMVDFAKGARDEGFKVIIAGAGGA
+AHLPGMTAALTPLPVFGVPVQSKALSGQDSLLSIVQMPAGIPVGTLAIGRAGAINAALLA
+AAVLALGDADLAERLDQWRSEQSAAVARHPVDAA
+>tr|A0A1Q9AE97|A0A1Q9AE97_9RHIZ
+MMDTIPGLGQFDFAGDDHVVPFQVEGLDVRGRAVQLGPMLDAILERHNYPLPVARLVAET
+VVLTVLLGTSLKFEGKLIVQTKSDGPVDLVVADFATPDRVRAYARFDEAALQAAIDKGET
+LPQQLLGEGILAFTIDQGAHMQRYQGIVPLDGASLEEIAGVYFRQSEQIPTKVRLGVAEL
+LDRDEQGKPRHRWRAGGMVAQFLPEAPERMRQPDLSGGDGAQEHELEIDDLWDEARVMVE
+TIDADELTDPTVGTERLLYRLFHERGVRVYPPQAVYDRCACSREKIRDVLASLSQEELDE
+TVEEGAISVTCEFCSTTYRFEATEVRPQ
+>tr|A0A1Q9AFW0|A0A1Q9AFW0_9RHIZ
+MFGFHRPKEDFRRELASFLFESAPDAYCVIRDGHVIAFNDAFQKVLSQPADTIMGLTPAD
+FSPEFQPDGERSDNKAMAKIGLAMKEGFSRFEWEGRRRDDSRFQIQVTLIRWVREKETLL
+IVVWQDIEEMIRLRKAEELRQAEAARVAEEDRQAIEKLASGLRQLAEGDLTQQIDSAFSA
+KSDSLRQNFNVATQQLRALVSDVSAAAASVLDRCREISAASSDLSSRTERQAASIEEASG
+ALSHIVKTLTETSAAARSAKRMIELANTDSGDGSAIVEKAINAMEAIDRSSSEIAKIIGV
+IDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAAAAKEIRALITTSSKL
+VENGVGLVNQTGSAISRIAAHIAGVGGSVTTIERSASDQEAAMREIEAVIGQVDQVTQKN
+AAMVEETAAASNAMTDEMHEIARKLQGFRTEGVERPSRRRAA
+>tr|A0A1Q9ALD3|A0A1Q9ALD3_9RHIZ
+MPSLKDLKNRIASVKATQKITKAMKMVAAAKLRRAQEAAEAARPYSQRMSAVLANIAQAV
+GTDDSAPRLMTGTGQDKTHLLVVCTAERGLCGGFNSQIARFARDHVRKLQGQGKTVKIIC
+VGKKGYDILRRDFNALIIDRVDLRDVKKIGFVNADEIGKRIIGLFDKGEFDVCTLFYSEF
+KSVISQVPTALQLIPAAAPTAEASAESAAAIYDYEPDAGEILNDLIPRNISVQIFRALLE
+NVAGEMGAKMSAMDNATRNAGEMINKLTLSYNRQRQAQITKELIEIISGAEAL
+>tr|A0A1Q9ALP3|A0A1Q9ALP3_9RHIZ
+MLSELVPVFGDKMKIYGGHWLRCDIPLFEHADTHVLYTDIDVIFLKDVVETAPKPKVIAC
+GPEHNKGDYSYFNSGVMIMNVEAFARKRVALVEALKGRLSTTAPYDDQTLLNDVFRGEWD
+HLSDEWNWKPYWGRNDEAKILHFHGPKPANATVMQAGNQDIFGPDFKTIYNRSPEGYAYY
+VPVFEKYQE
+>tr|A0A1Q9AMU8|A0A1Q9AMU8_9RHIZ
+MKKIDEDALAEAYNRALALEKAGEIDAAVKAYEEVLALDPEDHGGAAVRIAAMGRGETPD
+KAPDAYVETLFDQHAQVFEDVLVEQLGYSVPVMVRQRLQALGLGPFEKMLDLGCGTGLTG
+GALRDMAADITGVDLSENMVEIAHEKELYETLYVAEAVDYLEDNDDGPFDLVTATDVLPY
+MGGLEALFFAAAEAMQPGGIFIFSSETLPDGILAGRRFMVGPHQRFAHAESYVRERLEAT
+GFAVLEVSEITVRMEQGEPTPGHLVVARLQG
+>tr|A0A1Q9ANU5|A0A1Q9ANU5_9RHIZ
+MITRRILLATSALFALSLSTIVPAQADPDAALAKLQDTVLSKGPHGETPAPASSIKLSDE
+ELARIKAMNATAAIVMHYGGNDWSQAQIHGLQTQFAAMGIKVIAVTDAGFKPEKQVADLE
+TIMAQKPSIIVSIPTDPVATASAYKAAADAGVKLVFMDNVPAGFTAGKEYVSAVSADNYG
+NGVASAHLMAKALGGKGQIGLVFHAADFFVTKQRYEAFKATIASDYPDIKIVAEQGIGGP
+DFSGDADKAASAMLTSNPNLNGIWAVWDVPAEGVVSAARVAGRDDLVITTIDLGENVAIS
+MAQGGFVKGLGAQRPYSQGVTEAMLAGYGLLGKQAPAFVALPALPVTKETLVEGWKAVYN
+TEPTANVKTSLGQ
+>tr|A0A1Q9AD03|A0A1Q9AD03_9RHIZ
+MSETWRNRLLLAVALGLAAVYLFPLYWMVVTSLKSGSAMFATPPSFWPSEPQWQTYAYVW
+QSRDVGRYLWNSLVIALGAVALVTLLGTGCAYVLARYRNVWIDIGLFLILMLQVLPASLM
+VTPIFVGFSQFGLLATPRLAVILAIAAKAMPFFVVLVRSTFMSVPAELEEAGLVDGNSRL
+GAFLFIVLPLARNGILVSAILIFMQAFGEFVYSKSMIQAAELQPASVGLNSFMGPNTNEW
+NNIMAFAAMYVGPILALFVLLQRRIVSGLTSGALK
+>tr|A0A1Q9APW6|A0A1Q9APW6_9RHIZ
+MTSFKIAIIGAGSVGFTKKLFTDILCVPEFAEIEVALTDISEQNLAMIKTILDRIVEANG
+LPTKVTATTDRRKAIEGARYIISCVRVGGLEAYAEDIRIPLKYGVDQCVGDTICAGGILY
+GQRNIPVILDFCKDIREVAEPGAKFLNYANPMAMNTWAAIEYGKVDTVGLCHGVQHGAEQ
+IAEVLGVKDGELDYICSGINHQTWFVDLRVNGRRIGKDELIAGFEAHPVFSQQEKLRIDV
+LKRFGVYSTESNGHLSEYLPWYRKRPEETARWIDMSDWIHGETGGYLRHSTETRNWFETE
+FPRFLDSAGKPIDPARRSNEHASHILEALETGRVYRGHFNVKNTGVITNLPADAIIESPG
+FVDRFGINMVSGITLPEACAATCLSSINVQRMSVHAAISGDIDLLKLAVLHDPLVGAICT
+PEEVWQMVDEMVVAEARWLPQYAHAVDDAKARLAKGTVKTRDWAGAARRAVRSIDELRAE
+KLAG
+>tr|A0A1Q9AN94|A0A1Q9AN94_9RHIZ
+MTASLTAIGLMSGTSLDGIDVALLRTDGLRVEARGPSLAVPYPPSFRRRLLDGLEVARQI
+RLRFDRPGMLARLEQDLTALHAVAVQDFLHANSLTPGEIDVIGFHGQTVLHRPQEGLTVQ
+IGDGGALARATGIRTVYDMRARDMEDGGQGAPLIPAYHAALAEALPAQLSRPVVFVNIGG
+ISNLTFLGRDPGQLIAFDSGPGNTLIDQWVEAHTGAACDIDGRLAAAGKLDAGLIERYLA
+HPFFTGNHRRALDRNDFAPPEKGSLPLEAGARSLARVTAAAILASARHLPERVGTYVICG
+GGRHNPVILQDLRDLAGQEGAQVITAEDAGFDGDAMEAEAWAFLAVRALKGLPLTYPGTT
+GVSAPVTGGVVAEPD
+>tr|A0A1Q9AKE2|A0A1Q9AKE2_9RHIZ
+MAINVNNAEADALTRKFATIAGVSITDAIIIAMREAIERRRNGETPRETARRLRAKHGVT
+LGDEASKPLPRDAFDAMWDEG
+>tr|A0A1Q9AKK4|A0A1Q9AKK4_9RHIZ
+MLAAAALLAASFPIASAKAQDADWGCQVLLCAASSAPSWHQIPYCVPPMTKLIAAMARPH
+FSWPICPGAGTGAPGFERYEACPTGFKVDYSSKGGDNNWNREPDLCMKKVNRCGQGFNYD
+HNSCMETITRPRPLRAQPFYFDIPQQSGKPKRFWFDLNE
+>tr|A0A1Q9AMN8|A0A1Q9AMN8_9RHIZ
+MTDAKIGYGTKYEIKATAAAAVFTEVAEVTSVTPGAASADRIEATHMKSPGRRREYIAGL
+IDSGEAEFEINYIPGNATDILLRTLMSSGDVTDHKITFPNGVTVTFKASITGFEKSIPVD
+DRMTATITVSVSGDETWGTAA
+>tr|A0A1Q9AFF2|A0A1Q9AFF2_9RHIZ
+MSAARIEAFLEMMSAERGASTNTLAAYQRDLDDVRAFLKGRGVALEAAASSDLSAYLASL
+VDLGFKSSSQARRLSAIRQFFRFLYAEGLRGDDPTGIIDGPKRGRPLPKTMSVDDVTRLM
+ERAAEEARTGPPEERLARLRLHALVELLYATGMRVSELVTLPATVLAQNGRALIVKGKGN
+KERMVPLSRAAIAAMAAYGAALKEQAEGVDVESPWLFPAASKAGHLPRQVFARDLKQLAG
+RAGLKISALSPHVLRHAFASHLLANGADLRVVQELLGHTDISTTQIYTHVLEERLHALVQ
+THHPLAKQGKKHE
+>tr|A0A1Q9AJF7|A0A1Q9AJF7_9RHIZ
+MFLSVFDVFKIGIGPSSSHTMGPMSAANRFLDLILSPDWPRPTGAGVAALKVSLHGSLAH
+TGVGHGSGRAVILGLLGERPDAIDPDRMDGLIGEVERSGTVTPPGHPAYAFQPKTDLVYD
+KKQPLPGHANGMTFAALDRDGRILLKRIYYSIGGGFVVTDTELAAMRADKAKPADIKVPY
+PFASARQMLDMAERSGLSIAQMKRANEEVSLPREELDAGLDRIWAAMKGCIDRGLSGEGI
+LPGGLKVRRRAAAIHDKLEQDWRSNRSNPLLANDWLSVYAMAVNEENAAGGRVVTAPTNG
+AAGVIPATIRYYLHFHEDADENGIRDYLLTAAAVGGIIKFNASISGAEVGCQGEVGSASA
+MAAAGLAAVMGGTPEQVENAAEIALEHHLGMTCDPVAGLVQVPCIERNALGAVKAVTAAS
+LALKGDGSHFVPLDACIETMRQTGVDMHDKYKETSTGGLAVNVVEC
+>tr|A0A1Q9ACM8|A0A1Q9ACM8_9RHIZ
+MGAYILRRLALMIPTILGIMAISFVVVQFAPGGPVEQVISDLSGQSGDRLSGGGNDFGAS
+AMDEGGGQYRGAQGLDPEFIAKLEKQFGFDKPPLERFLTMMGNYIRFDFGESFFRNTPVI
+DLILDKMPVSISLGVWILILSYAISIPLGIKKAVEDGSPFDVWTSGIIIVGYAVPSFLFG
+ILLIVLFAGGSFFNWFPLRGIVSDNFADLSWWQKILDYLWHMTLPLVTLLLSAFATTTLL
+TKNSFIDEIRKQYVVTARAKGLSERRVLYGHVFRNAMLIVIAGFPAAFISAFFTGSLLIE
+YIFSLDGLGRLGYESVVKRDYPIVFATLYIFSLLGLVVSLLSDLIYTWVDPRIDFDRRDV
+>tr|A0A1Q9ADR8|A0A1Q9ADR8_9RHIZ
+MDKRGAGGASVPECSRLSAGGIGIARMRYDGDDLAMAEPSRPSDAFHVITQLADFRMHRL
+WRDGRLVYEGGHGQGALAITDLGAAWQCHHLAPFDNVRFDIPVAELRRFAEEMGQPRLTG
+LGEVSAEADPVAAGLAQALLPSLERPEEASPLFVEQVVLALMTHLAQAHGGLHLPAQGKG
+MLAAWQQKRATEFLAGHIATPFQIAELAQACGLSRNHFIKAFKQTFHRTPYRWLIDYRVS
+RARELLAGPLPIAEIAVMTGFSDQSHLTRVFSAASGLSPGQFRRQHRG
+>tr|A0A1Q9AN33|A0A1Q9AN33_9RHIZ
+MKSDLFAIGEAEPRLSTGRPLIVDSFAGGGGASTGIEMALGRSPDIAINHNAAALALHAA
+NHPDTLHLSENIYRVDPLDYVRGRHVGLAHFSPDCKHFSKAKGGKPVERNIRDLAWVVVL
+WAERVRPDVITMENVEEWKDWGPLIETEKGLMPDPERRGETYQQWCKALRRLGYKIDKRE
+IRACDYGAPTIRKRLFLVARCDGKPIVWPEPTHGAPDHPDVIAGRKLPWRTAAECIDWSL
+PCPSIFDTAAEIFAKHGLRAIRPLADATMARVARGMGRYVIAAKRPFLVGIAHGDSGGRR
+EYGLDEPLTTVQAGGGKQAVVAPSVIRFNTGATGQDLREPLSTITANSYIKRPGGAAPLG
+IIAPHLMTMRNSGKPFNGADEPTHTITAGGAGLTLVAPHLSAFYGAGEGGQNRAAPADEP
+LRVVTTENRHAVIAPVLTAAQHGGSVRSPDAPCHTITASQKDQNAVIVPTLVGCGGRAGQ
+SRPRGGDEPMATITAKADACAAVAFLAQQNSDPRTLGSELKEAPRPGRPADAPLSTVTAS
+GSQQSVVSAFVARQFGASVGHGIEEPSATVTAGVNKSQLIAPYLQAYYGTGDGARLDEPA
+RTVTTKDRHGHVEASFAAPPFTREQEARARQVAEFLRAHGVWTGGEFVTLDIDGHVFVIV
+DIGMRMLAPRELYNAQGFPPDYVIDGGWDQQGDQGPIWVDFPKSVQVSCVGNSVSPPPYA
+AIVAANCGHLAIQREAAE
+>tr|A0A1Q9APA9|A0A1Q9APA9_9RHIZ
+MTRLNANLCLLLAGAIWGAGFVAQSTAMAAIGPLWFIGLRFVLASLVAAPLAWREARQAA
+APVSRRDWLGFLATGLALFTAAVTQQIGLLTTTVTNSGFLTSLYVVFTPLLSLLVLRRAP
+HRLIWPAAALAFVGIFLLSGGSLTAFRPGDAWTLLCALFWAMQVLLVGAFAARSGRPMAL
+SLAQFLVCAVASLIAAAAFEPISMAAITGAGMEILYAGIFSSGIAFILQVVGQRFTTAPQ
+AAIFLSSEALFAALFGALLLGESIPAAGYLGCAAIFAGILLAELGPYWGRRKLTS
+>tr|A0A1Q9AG88|A0A1Q9AG88_9RHIZ
+MSVKTYPVAKSTRGQAQIDAETYQKWYRESIENPDRFWDKHGMRIDWFKPYTKVKNTSFT
+GKVSIKWFEDGLTNASYNCIDRHLKTRGNQVAIIFEGDNPYIDKKVTYNELYENVCRLAN
+VMKKHGVKKGDRVTIYMPMIPEAAYAMLACARIGAVHSVVFGGFSPEALAGRIVDCQSSF
+VITCDEGVRGGKPIPLKENVDTAIHIAARQHVGVKSVLVVRRTGGKVGWAPGRDHWYHQE
+MAGVKAECPPVKMKAEDPLFILYTSGSTGKPKGVLHTTGGYLVYTSMTHQYVFDYRPGDI
+YWCTADVGWVTGHSYIVYGPLANGATTLMFEGVPNFPDQGRFWEVVDKHKVNIFYTAPTA
+IRSLMGAGDEFVKRSSRASLRILGTVGEPINPEAWEWYYNVVGDGRCPVIDTWWQTETGG
+HMITPLPGATALKPGSATLPFFGIKPELVDAEGKVLSGAADGNLVISDSWPAQMRTVYGD
+HERFIQTYFSTYKGKYFTGDGCRRDEDGYYWITGRVDDVLNVSGHRMGTAEIESALVSHD
+AVSEAAVVGYSHDIKGQGIYCYVTLMAGQKGSEELRKELIAHVRKEIGPIASPDKIQFAP
+GLPKTRSGKIMRRILRKIAEDDFGALGDISTLADPAVVDDLIDNRQNRQMKAAS
+>tr|A0A1Q9AND3|A0A1Q9AND3_9RHIZ
+MSPTGAELSIRAEAALGEPRAVLILCHGMSEHSLRYRRFAAEMARRDLTVYALDHRGHGL
+TRGPNHLLGRFAERGGVEAVLDDVAALRRHAIERHPDLPVILFGHSMGGLIALNAIERHP
+DLFDAVAVWNSNFNGGLAGRGGQALLAVERWLKGSDVPSAWIPPLTFGSWARAMDNPRTP
+SDWLSRDPAEVDAYRADPLCGFDVTVSLWIDVFRLIYAGAAPERLKRLRAGLPVHLVGGG
+KDPATRGGKDVLWLAERMRRAGLARVTTQIYPGARHETLNDLDRDRAIADLSRWIDSVLE
+PDHAGSDWQRRAAGA
+>tr|A0A1Q9AD66|A0A1Q9AD66_9RHIZ
+MSGEKLQDLFVIGGGINGCGIARDAAGRGYSVTLAEMKDFASGTSSASTKLIHGGLRYLE
+HYEFRLVREALMEREVLWAMAPHIIWPMRFVLPFQKGGVRPAWLVRLGLFLYDHIGGRKR
+LPATRTLDLRRDPAGRALKPIFRKAFEYSDGWVDDARMVVLNARDAAARGARILNRTQVI
+AARREQGGWTIETRNAEGELETHRARMLVNAAGPWVDQVLSGVLARNDARNVRLVQGSHI
+VVRRKFADPRAFFFQNPDGRIMFAIPYEEDFTLIGTTDRDFTGDPRAISITEGEIDYLCQ
+AASDYFAEPVTRDDIVWRYSGVRPLFNDGASKAQEATRDYVLKLEEGMAPLLNVFGGKLT
+TYRRLAEHALEKVGEAIGAKGAAWTAGSRLPGGQFPADGAAAATRSLIAAYPFLSERHAA
+RLIRCYGSDAAELLGGATDIAGLGRHFGGTLYEAEVRWLVAREWAMTAEDILWRRTKQGL
+FLTQDEMQGLEDYLRGMAVQHRAG
+>tr|A0A1Q9AEE3|A0A1Q9AEE3_9RHIZ
+MVTTPLRYAAFGKFDPTFVEVQDVDRTKTPSVQGRSFNNEWTAVGVAPGDFQKTGLRSPT
+TIVFNGKPVQNLTALIDTGAD
+>tr|A0A1Q9AFA5|A0A1Q9AFA5_9RHIZ
+MTFNPIDIADADDPRIAAFRSIRERDMTGREGRFIAEGTVVLRMLAAAHAQARGFHAEAI
+LILRSRLAGVAEILACFPSDVPVYVAEPAVFNAIAGFDMHRGVLAIGRRAEAPGLKDLLA
+TAPPLVLAACGLSNHDNMGALFRNAAAFGAGAVVMDRTACDPTYRKSIRVSVGAVLTVPF
+AREGSIETVIGALIAEGYALWGLSPRGRVALDAIPPAPRTALLVGTEGEGLPDAIMAAID
+TARIAQAPGLDSLNVATAAAIALHRIATVNGLVG
+>tr|A0A1Q9AJ32|A0A1Q9AJ32_9RHIZ
+MSAIETRRQIVDVADKLFYEHGYEATSFADIAGEVGLSRGNFYYHFKSKDQILEAVIERR
+IAKTGAMLNAWQEDAGSPLDRIRRFIRLLIANSAKIMDYGCPVGTLCNELAKLDHVAKDD
+AAHLFALYRDWLARQFAALGRETEAEALALHLLMRSQGVATLATAFRDGDFIRREVADME
+AWLQAQCPVTSSPQF
+>tr|A0A1Q9AK75|A0A1Q9AK75_9RHIZ
+MFAVEVRDHIMIAHSLPRPVFGPAQGMHGATFVVDAAFFTRDVDEDGLAVDIGAATTVLA
+EVLKPLNYQNLDTLDVFKGKVSTTEVIAKHVFDALAAAVKAERLGPGSHRICRLKVTLHE
+SHAARGWYEADL
+>tr|A0A1Q9AK81|A0A1Q9AK81_9RHIZ
+METVVGIDVSKNRLDVAIIPHGDAFAVGNDDAGINALIGRLKAIGADAVALEATGGFETQ
+AVAGLSSAGLTVLVVNPGQVRAYANAIGRRAKTDPIDAAVIAAFVLATKPEIRPLRDAET
+QALSELVARRRQIVQMIVAEENRLRMILAKQAQKSIKRLLTALRRELASLDADLDGHIRK
+SPIWKVRETLLVSVPGVGPTTARTLLAELPELGSLDRRQIASLAGLAPWTRQSGTWKGKS
+FIGGGRGKVRAVLFMAALVASRHNPALKAFRDRLVAQGKPKIVATVATMRKLLTILNAII
+RGKKPWQSA
+>tr|A0A1Q9AHU6|A0A1Q9AHU6_9RHIZ
+MNIAPQFPRPEVTTGALPASTKIFVPGEIHPEIRVPLRQIALHPTSGEPPVNVYDASGPY
+TDPAATIAIDQGLAQLRRDWILARGDVEAYEGRMVKPEDNGFVTGERLTPEFPVRHQPLR
+ARDGKAVTQLAYARAGIITPEMEFIAIRENLGRKAAKEALARDGESFGAHIPDFVTPEFV
+RQEVAAGRAIIPANINHPESEPMIIGRNFLVKINANIGNSAVTSSMAEEVEKMVWAIRWG
+ADTVMDLSTGRNIHNIRDWILRNSPVPIGTVPLYQALEKVNGIAEDLTWEVFRDTLIEQA
+EQGVDYFTIHAGVRLAYIPLTVSRVTGIVSRGGSIMAKWCLHHHRESFLYEHFEEICDIC
+RAYDVSFSLGDGLRPGSIADANDRAQFAELETLGELTQIAWAKDCQVMIEGPGHVPMHKI
+KENMDKQLKTCGEAPFYTLGPLTTDIAPGYDHITSGIGAAMIGWFGTAMLCYVTPKEHLG
+LPDRDDVKVGVITYKIAAHAADLAKGHPAAQLRDDALSRARFEFRWEDQFNLSLDPETAR
+SFHDETLPKEAHKVAHFCSMCGPKFCSMRISHDIRAEAQKEGMEAMAAKYREGGDLYMKV
+GD
+>tr|A0A1Q9AK17|A0A1Q9AK17_9RHIZ
+MTIELPKPIEAYFAADREGSPDAVAAVFTEAGIVKDERKIHRGREAIRAWRVETGQLYSY
+TAEPFSLASDEGRTRVMAHVAGTFPGSPLDFSFSFVLSGDRIAELEITL
+>tr|A0A1Q9AP52|A0A1Q9AP52_9RHIZ
+MSAPFSPEAFRARAAQQAGNPVDTAWRDHGDMLINPGILPVLESMALKDAAVLVGVIDGG
+TRDGRVILTRRTAKLRKHSGQIAFPGGAVDATDASIEEAALREAEEEIGLARDFVEPVGR
+LPHYRALSGFRITPVLATVKAGFTLTPNPDEVDEVFDVPLAFLMNPENHRRGSRLWNGEE
+RHFYEMPFEGRNIWGITAGILRMLYERLYA
+>tr|A0A1Q9APJ7|A0A1Q9APJ7_9RHIZ
+MPSFNLIAAFVVTTALFAFLPGPAMLYAAARTVAGGRRAGLMAVLGIHIGAYFHVVAAAA
+GLSALLQAVPMAYALVKLAGAAYLVWLGIALFRSRTENEADRPVPAAAPRRAFLQSVTVE
+LLNPKTAIFFLAFLPQFVDAGAGLPVWLQFLLLGVIVNVIFTLADLVGVFLAGMVLKAFQ
+RSARARGWMQKAGGTILVGLGLHLAFQRA
+>tr|A0A1Q9AQG9|A0A1Q9AQG9_9RHIZ
+MPRLSRQAVGLEQDGGWDGGSSVTAYIGELMLTRAALEAVARDLRGRDEPRFDALIEAMS
+RLARLVNDHAMGMQAMQGMSDTSRLPAPEVGAGDV
+>tr|A0A1Q9ACR3|A0A1Q9ACR3_9RHIZ
+MDGVGGGIDLVRIDSGFTRHDALLALIRAAFASMDGVIDPPSSAHRLTVENLAQKVRDEI
+GLVALDRGAGDALIGCAFLRPEPDALYIGKLAIAPEVQGRGIGRALLLRAEAIARETGLR
+RLRLETRIELVRNHQTFAAWGFVRTAENAHPGYDRVTSVEMSKVLD
+>tr|A0A1Q9AG78|A0A1Q9AG78_9RHIZ
+MSAPIEADAVLAFWLSDHARAHWFGSTPEFDAELRERFLSDYERVRAGAADVMAETPEGC
+LVLILFLDQFPRNMFRGTARAFEGDGKARALAQFALERGYPEGMDADRQMFFYLPFMHSE
+DPGDQQRCIALFSQRPEHGNSLDFARQHAEIIDRFGRFPHRNQALGRETSPQEAAFLTRH
+SGF
+>tr|A0A1Q9AJY1|A0A1Q9AJY1_9RHIZ
+MQSAREEDGSTVVYDDVLRIADPGPPKQGHGAEREAAAKRISIGDVARLADVAPITVSRA
+LRNPQKVSPDKRARIEQAVAQTGYSINPHASALKSGRSNVVLAFASNLMSEQFASALKSC
+AAVLEDAGYLFLVGQTSYSYERETAALRSLHAMKPAAVMLTGVIELESNRELLRGIGIPI
+METWALPRDPIDMLVGFSNTEAGRLAADMLFRKGYRKVAYVGRRSGRGALRLQGFREGCQ
+AKGITLVCEELVDDVTGVSDGRRCLASVMARPAKPDALFCSNDVLALGCMMEARRLNVRV
+PADLGILGFGQSDIAAEIPPGLTMIGVDSALLGREAGAMLIASLSGTPPAQKLKRLDLVV
+SEGGSL
+>tr|A0A1Q9AL21|A0A1Q9AL21_9RHIZ
+MLWKRCAVARQDKLVSADSGNPLGTLRNLWPYMWPHDRPDLKMRVVWATVILLVAKIVLL
+LVPYFFKWATDALNGRADLSGTAPTILTGALALVVAYNLARLLQAGLNQLRDALFASVGQ
+HAVRRLAERTFIHMHQLSLRFHLERRTGGLSRIIERGTKGIETIVRFTILNSIPTLIEFL
+LTAIVFWWGYGLQYLLVTAVTVWLYIWFTVKASDWRISIRRQMNDSDTEANTKAIDSLLN
+FETVKYFGNEEMEARRFDQSMARYEKAATEVWTSLGWLNFGQALIFGAGTAVMMVMSAMA
+VQRGEQTLGDFVFINAMLMQLSIPLNFIGFVYREIRQGLTDIEQMFDLLEVQPEVVDCPG
+APSLAIERGAIRFDNVHFAYDADRPILKGVSFEVPAGKTVAVVGPSGAGKSTLSRLLYRF
+YDAQSGSITIDGQDVRQVTQKSLRAVIGMVPQDTVLFNDTIAYNIRYGRIGASEAEVEQA
+ADIAQIGGFIRALPKGFSAMVGERGLKLSGGEKQRVAIARTILKSPPILILDEATSALDT
+RTEQEIQAALDIVSKDRTTLVIAHRLSTVIHADEIIVLRDGVIAERGNHAALIAAGGLYA
+SMWNRQREATQAEEHLKQVVENDDLGVVVRGPSAR
+>tr|A0A1Q9ALF4|A0A1Q9ALF4_9RHIZ
+MGTDSPTLLDQLFDAPAQRTVPVLVPMPAPKPYSYLVPAHMHVEPGSIVQVPLGPRQVMG
+VVWDGEDRPDVDPKKLKSITHVFDCPPLKPDMRGFLDWVAGYTLSPPGLVARMVMRAPAA
+LDPEPMVEGLRLTDTRPDRLTPARARVIEAAGNGLFWTRSGLAHAANVSSSVIDGLTAQG
+VFETAFMPPPPVVAPPDPDYRPVSLDPGQARAARVVCAAAQKGSFEVALIDGVTGSGKTE
+VYFEAIAETLRRGRQVLILLPEIALTAAFLQRFEARFGAKPAEWHSELAPRTREKVWRQV
+TEGGVRVVAGARSALFLPFADLGLIIVDEEHDPAYKQEDRVFYNARDMAVVRARLGDFPL
+VLVSATPSLESRVNGETGRYSPVHLPTRFAEAALPDLGLIDMRRHPPARGGFLSPVLVNA
+IGKTVERGEQALLFLNRRGYAPLTLCRVCGHRFQCPQCSSWLVEHRFRGQIQCHHCGYAE
+RTPEVCPECGTFDHLAACGPGVERIAEEIDGHFPEARTIVLSSDLMGVKRLRLELEAIAK
+GEADIVVGTQLVAKGHNFPLMTLVGVVDADLGLSNGDPRAAERTFQLLSQVTGRAGRTGR
+KSQGLIQTYQPTHPVMQAIVSGDREAFYQRETVERERALLPPFGRLAAVIVSADTRGEAE
+AHARGLRQAAPAAADIRILGPAEAPLAMIRGRHRFRLLVHGKRSSDMQAFMRAMIAAGPK
+PRGTLAVQVDIDPQSFL
+>tr|A0A1Q9AGQ2|A0A1Q9AGQ2_9RHIZ
+MTIMLEVDAVRAFVMIADLQSFTRAAEALGSTQGAVSVKLKRLEDRLGKRLIERTPRQVR
+LSAQGETFLPSAREFLAAHERALAALTVGRRRFRLGIAAHIMGPEVPTLLAKLKTLDPCL
+TIEVLSDNSRALLDAYETGALDAIIVRSDDDRRDGEVLGPEHFGWYASADFEHHTGEPLP
+LASHPSCCTVREVATRLLDGASIPWAEVFIGGTSAVTAALSAGLAVAAFPCRLATPDMIE
+VSQALGLPSIPSLSIVLHSSLTDAKTRETLRAITAAFSEHRKSSNRQISLTRNTQSR
+>tr|A0A1Q9AK30|A0A1Q9AK30_9RHIZ
+MAKARVDRFSTRCWHRLALRLVCALALICVGLSHRVPVLAGESLQAASSILIAPAERFAY
+LLPDGSLPQLCHETAASAAGPADAGHEQDGRHGPWHNSARCDACRLCAAILLPPPPDLIG
+QRLRPALAAPLPAMTALPEIRRIPRESQPRAPPVLPA
+>tr|A0A1Q9AP93|A0A1Q9AP93_9RHIZ
+MTRLLSIGECMVELGQAGEGLLRKGFAGDTFNLAYYARLCGGDRLAVCYCTAVGTDRLSD
+EMIAFIAAQGIGTEAIARIDGRMPGLYMIHLDKGERSFSYWRNASAARLLAQDGDRLRRA
+IEAADILAFSGITLAILPPEDVETLLSELRRAKAMGKIVAFDPNIRPRLWDEAARMRETI
+TAGARAATLLLPSFYDEASHFGDADIAATIARYQALGVATIVVKDGGAGVTLAEAGHLPR
+HVPATPVGQVVDTTSAGDSFNGAFLARLAGGATLDEAAAFAAKIAASVIGHPGALIPREA
+LGI
+>tr|A0A1Q9AIA3|A0A1Q9AIA3_9RHIZ
+MKSMVTNLRETARVAETIANGDLTVNVKPMSDKDTLGIALETMVHRLRGVVGDALAASDN
+VSSGSQELSSASEQVSQGASEQAASAEEASASMEEMAANIKQNADNAAQTEKIARQSAKD
+AEASGQAVNRAVGAMRTIAEKISIVQEIARQTDLLALNAAVEAARAGEHGKGFAVVASEV
+RKLAERSQSAAAEISALSGDTVQVATEAGEMLNRLVPXDLLALNAAVEAARAGEHGKGFA
+VVASEVRKLAERSQSAAAEISALSGDTVQVATEAGEMLNRLVPDIRKTAELVSEISAACR
+EQDIGASQINEAIQQLDKVTQQNAGASEEMSATSEELAAQAEELQASIAFFKVEQSQAAA
+RQGARPAAAPARAKAPTAPAPVKRKPAAAAPAAGRQTVAAQQARVKGFALDMGGPDEDDD
+DFRVSA
+>tr|A0A1Q9ALT7|A0A1Q9ALT7_9RHIZ
+MSAIEINNVSKKFGAKEVIRDINVSIDEGDFLVLLGPSGCGKSTLLRMLAGLESISSGEI
+VIGGKRVDQLPPGDRDIAFVFQSYALYPHLSVRRNMAFPLLMQEFRLWYHLPIIGAMAKR
+RIENSPRVVEKIAKMSKILGLTDMLDRFPRTLSGGQRQRVALGRAMVREPEVFLMDEPLS
+NLDAKLRTSMRSEISRLHKEIGGTFVYVTHDQVEAMTMGTKIALMRDGIIQQFGTARDIY
+TDPANTYVARFIGTPPMNLIMAKWDGARMMVGSLAIAANLSPTLAASDVLLGVRPNAITL
+ATDLSNDSLNGEVVMVEHVGADSIIAVRLKDGRTAHNDDGDLDAVMVTVPGYCMLSMGQA
+VSITIDPHQMILFSAATGERIRRLT
+>tr|A0A1Q9AQJ7|A0A1Q9AQJ7_9RHIZ
+MAFNESNTVEAHLRDLLAGAASARPTQLSIGLARTGGRIAGLGWHYVAPADLPRQPQEVL
+VEAHLRDALIRLNPDIAANLGRADDVLYRLRAIVMGARSDGLVKANEEFAAWALGERSMP
+FGANGEHVTIRLIDFDDIEKNSFVVTQQFTIRAGKTEKRADLVLLVNGIPLVLIEAKTPV
+RSSQSWLDAALQVHDDYERNVPELFVPNVFSVATEGKEFRYGSVRMPVDMWGPWRDGDGP
+QTMGAVEKAAASMLRPAMVLDMLDSFTAFATQKGKHRIKIIARYQQVDGVNKIVARVVAG
+QPRKGLIWHFQGSGKSLLMLFAARKLRLHPALKNPTVLIVVDRIDLDSQISGTFYAADMP
+NMVRTESRKELADLLGKDARKVVITTIHKFAEADGVMNDRDNIIVLVDEAHRTQEGDLGR
+KMREALPNAFLFGLTGTPINRADKNTFYAFGADTDEGGYMSRYGLNDSIRDGATKELHFE
+PRLVDLHIDQMAIEEAYAELTQGLTDEDRDRLGKAAAKMSILVKAPERIRAICADIAKHF
+HEKVSPNGFGAQVVTFDRESCLLYKQELDKLLPPEVSDVVISVNSGEPEYAPYKRDRDAE
+EKLLDRFRDPKDPLKIIIVTSKLLTGFDAPILQTMYLDKPLRDHTLLQAICRTNRPYGEQ
+KTHGLIVDYLGIFDDVAQALKFDEEGVQKAVSNIAELINALPAALQKCLAYFAGVDRSLT
+GYEGLIAAQDCIPNNELRDAFAADFSVLARIWEALSPDPVLSKYEGDYRWLGQVYESLKP
+SSGTGRLLWHRLGAKTIELIHENVHVDAVRDDLDTLVLDAELLETVLGNPDPERKAKEIA
+VKLAGRLRKHSGNPKFKALGERLEDLKNRHQQGLLLSIDFLKELLSLAKDVVKTERETPE
+EEDIDRGKAALTGLFEDARNGDTPVMVKRVVDDIDEIVRAVRFDGWQATHAGEREVKKVL
+RLTLFRYKLHQDAELFEKAYGYIREYY
+>tr|A0A1Q9AJL7|A0A1Q9AJL7_9RHIZ
+MADLMATTKPQDGAVEAGPHFVHLRVHSAYSLLEGALPIKKIIGKAVSDGQPAIAITDTN
+NLFAALEFSLKCQDDGIQPLIGCQIAVDMEDEGEGEKRGHAAHLAKPPALVLLAATDAGY
+VRLVDLISRAYLGSEGAATIRICASWLEEAGTEGLIALTGAGAGPVDMAVRAGAMPLAER
+RLQRLADLFGDRLYVELQRHRGYDKRHEARMIDLAYRLELPLVATNEPFFPTPDDYDAHD
+ALMAVAHNAMVSDDNRFRLTPDHYLKSRKDMAALFADLPEAVDNTVEIARRCAFTLKTRK
+PILPRFTGGSADGEEAEREEAAELRRQSVEGLEQRMDALGLAPGYSADDYRERLDFELGV
+IERMKFPGYFLIVSDFIKWAKNQDIPVGPGRGSGAGSLVAYALTITDVDPLRFSLLFERF
+LNPERVSMPDFDIDFCQDRREEVIRYVQRKYGREQVAQIITFGSLQARAALRDVGRVLEM
+SYGQVDKICKLVPNNPANPTPLYKAIEEEPRLKEEAEKEPVVARLLDIAQKIEGLYRHAS
+THAAGIVIGDRPLSKLVPMYRDPRSDMPVTQFNMKWVEQAGLVKFDFLGLKTLTVLKTAV
+DFLSRRGIEVKLEALPLDDQKTYEMLSKGDTVGVFQVESVGMRKALIGMRPDCIEDIIAL
+VALYRPGPMENIPVYNARKHGEEEIESIHPTIDYLLKETQGVIVYQEQVMQIAQVLSGYS
+LGEADLLRRAMGKKIKAEMDQQRARFVDGAVKNGVSKPQADMIFDLLAKFANYGFNKSHA
+AAYAIVSYQTAYLKAHYPVEFLAASMTYDMANTEKLNDFRQDAGRLGIKVVPPSVQTSFR
+RFETGENCIFYALAAIKGVGEAAVDHIVAVRGDKPFESIEDFCLRIDPKLLNRRVFESLI
+CAGAFDCFGFDRAHLVAGLDRILGFAQKAHSDKVSGQGNMFGAGGATGPEKIVMPTFTPW
+LASEKLHREFQVLGFYLSAHPLDTYRDLLAKMRVQNFADFSASVKKGATAGRLAGTVTSK
+QERKTRTGNKMGIISFSDASGQFEAVLFSEMLAQYRDLLEPGKSLVMTVQAEQRPEGIGL
+RLQTLQSLEERSLQMQKALRVYVRDSGPLRSIASHLNAKGEGLVSFIVIKENGQREIEVE
+LSEKYRISPEIAAALRSAPGVVDVELV
+>tr|A0A1Q9ALI8|A0A1Q9ALI8_9RHIZ
+MSLNDDITLLSSVPLFAEIDREKLRLIAFGAERRRVSAGQELFREGAPADCAYAVSHGRF
+RLTQLDAEGRLRLVGMAERGALLSELAMISLVARKLTATADEDSEVMRIPRALFHRMLEE
+YPDVALMVEARLRGSLQGMIAEAAELAPRFS
+>tr|A0A1Q9AEX8|A0A1Q9AEX8_9RHIZ
+MTNGSAPLAPLPRTLLLVPARMASTRLPGKPLADLGGVPMIVQVARRAVEADVGPVLVAV
+DHPETFAAVKAAGFNVVMTRVEHPSGSDRIFEALQTFDPQAQAEVIVNVQGDLPTIEPET
+IRASLRPLVDPAVDIATLAVEITEEAEKTNPNVVKVVGSPIGDTRLRALYFTRATAPHGP
+GPLYHHIGLYAYRRAALARFVSLPPSPLEEREKLEQLRALEAGMRIDAEIVTSVPLGVDT
+PEDLEHARRILSARGA
+>tr|A0A1Q9AHT0|A0A1Q9AHT0_9RHIZ
+MVVRRAFLFGLAASLGIPALGAASARADETILTLRDEKGTRIAAQTLAEMDALPQQSFRT
+TTPWHKGVVEFSGVTLKAYLDAAKVSPEKIRFVALNDYVVDADVASLIRGGALLATRQNG
+VPLPVSDKGPVFVIFDFDANPELHHQFYLSRAVWQLAEIDISQ
+>tr|A0A1Q9ADJ4|A0A1Q9ADJ4_9RHIZ
+MAEDERNLNDRQSGATKLAGVNLRLAYGPHSVVEGLDIALPARRFTALIGPNGSGKSTIL
+RSLAGLMRPAGGTVLLDGRGIATLSTRALARQIGVLLQGPVAPEGLTVGDLVAQGRYPHR
+GLLSGWSAQDQAACDEALRLTGTGHLADRALDSLSGGQRQRAWIAMTLAQRSEVILLDEP
+TTYLDLEHQIELMNLIRTLVRDHGKTVVAVLHDINQAARYADHIVLLKAGRRVASGPPAQ
+VISARAIEEVFQVRSMIIEDPVAGTPLCIPLAHESERDRRPSQRET
+>tr|A0A1Q9AEP4|A0A1Q9AEP4_9RHIZ
+MTDFLKSRAGRQVMGLAILSISMFAFGVTLEVHNILYGLMSEYDEFGMKQAVLALAIASL
+CSFIFSALRIMDLNREMQVRIQAQETADWMALHDHLTRLPNRYALERRRQQHAAAAEQRA
+RAMLDADVNADSVQRSDAEDEITVYSVNLSGFKRVNDLHGHQGGDAVLSLLAKRLQALGG
+ADNVFRTSGDDFLLIFTGRSAEQDHLMAELLIQAVGRPIRINGVPAEVGASIGYARANSA
+TDDLSDIAGRADLAMHEAKALGRNRVAAYNMAMQNKAAERAHYEARLRDAIRAGDIVPHY
+QPLINLKTGALCGFEALARWTDGNGRPVPPPVFIAIAEETGLITELFERLLSHACADAAG
+WPAEVMLSFNISPVQMKDPLLAGRILKITADAGLAPQRLEVEITENALIEDPELAGNLLR
+ELHAAGIQIALDDFGTGYSSLSQLARYRFDKIKIDKSFIATQDDERQEKIVLAMLSLGRS
+LNIAITAEGIEQHQQLAYLMAHGCDIGQGYLFGKAMPAEAAAAYVRERQAMAQPA
+>tr|A0A1Q9AFZ8|A0A1Q9AFZ8_9RHIZ
+MTPEIDVAALAALMQEAADAEILPRFRNLGAGDIRAKSEAIDLVTEADEAAERFMKARME
+AILPGALFVGEESTAADPLLLDQLAGADLAVVVDPIDGTYNYAAGMPLFGVMASVVAKGE
+TLAGIIYDPLGNDWVIAEKGSGAWMCRPDGSQEKLAVSPAPDLEAMVGCASTGFYAPDMR
+AVIMGKLAQVRVAASYRCAAHEYRTLAGGFLHFLMYQKLMPWDHLAGCLIAEEAGAHVAR
+FDGTPYRPGDLAGGLLVASDRDAWTELREKVFVA
+>tr|A0A1Q9ALS1|A0A1Q9ALS1_9RHIZ
+MGRVSKQTAHAGNEDVSIQPMILSGRGVTAVLGPTNTGKTHYAIERMVAHESGVIGLPLR
+LLAREVYGRLVDRVGEHNVALVTGEEKITPHMARYSVCTVEAMPRETRAAFVAIDEVQLA
+GDLERGHIFTDRILHLRGRAETLLLGAGTMRPILEQLLPGITVVERPRLSQLLYAGSKKI
+TRLPQRSAIVAFSAEEVYAIAELIRRQRGGAAVVLGALSPRTRNAQVALYQEGDVEYLVA
+TDAIGMGLNLDVDHVAFAQDRKYDGYQFRNLNPGELAQIAGRAGRHLRDGTFGVTGRVEP
+FDKELVHRIESHEFDPVRVLQWRSKALDFASVAALKKSLERPPGVQGLTRALPAVDVQAL
+DFLSRDGSVAALANRADRVETLWDVCALPDYRRITPAQHADLIATLYTDLVRHGRVNEDF
+MAEQVRRADHTDGEIDTLSARIAQIRTWTYVSNRPGWLADPTHWQQKTREIEDRLSDALH
+ERLTKRFVDRRTSVLMKRLRENAMLEAEISVNGDVFVEGHHVGQLAGFRFSLAQTTDGLD
+ARAVQGAAQKALALEFEARAARLHAAGNADLALSSDGTVRWLGDPVARLSASDHIMRPRV
+ILLADEGLQGVARDHVAARIERFVNHHISTVLKPLDDLSRAEDLQGMAKGLAFQLVENLG
+VLFRRDVAEEVKSLDQEARASIRRHGIRFGAYHIFMPALLKPAPAELITLLWALKNDGLD
+KPGYGDLIPVLAAGRTSVVTDPSYERMFYKLAGFRFLGKRAVRIDILERLADLIRPLLQW
+KPGTTPRPEGAYDGRRFTTTTAMLSILGATPDDMEEILKGLGYRADALKAEEVQAHLAAQ
+DVAAKPAAEAPAADAPAADPAVAEESATAADEAGEAPVETAHAETSEEPAASEAPAEEAV
+SAEEAAPAEVVPSAEEAPSQDGEAAVVAEPVEAKPVLLWRPGGRSDNQRPARNNARGGER
+RGGNRGEGRGQEGRAQDGRPQDGRNQQPRGERRDGQGGERPAGQSFGGGRRDERDGGGRD
+AGRQDGGRGEQRGRDGQKHEGRENRGGPRNENRGEGRGEDRREQRHRDRPERDNRDRGGK
+GAPMTFEARPPRKEKAIDPDSPFAKLAALKEQMKK
+>tr|A0A1Q9ACK7|A0A1Q9ACK7_9RHIZ
+MPQKVYIERLALTDFRNYHTLSLALDERHVVLTGDNGAGKTNLLEAVSFLSPGRGLRRAP
+YGEVARKESPDGFSVFAALSGMAGEAEIGTGTLGVEEGQSRRLRVNGTPARTVDELLDHS
+RILWLTPAMDGLFTGSASDRRRFLDRLVLSLDAEHGRRASDYERAMRSRNKLLSDPRPDP
+QWLSALERQMAELGIAMAIARREMIALLEGLIVRGMDEGGAFPAAGLALKGFLDGEDHRP
+AIDLEEEFVDRLEGGRWRDASAGRALEGPHRSDLLIRHRAKDMEAARCSTGEQKALLVGL
+ILAHARLVTDMTGHAPLLLLDEIAAHLDERRRAALFDLVDGLGGQAFMTGTDAAMFSALG
+ARARFFHVANGQVSP
+>tr|A0A1Q9AG67|A0A1Q9AG67_9RHIZ
+MSSFLSRLADDALIALDTFSDRTAGLVHPALRLGVTGLSRAGKTVFISSLVHNLLNGGRL
+PVFEAVRSGRVSRIRLAPQPDDAVPRFQYEDHIAALVRDRIWPDSTRAISQIRLTLDYES
+ASGWGRMFSRGELSIDIIDYPGEWLLDLPLLSQDFRTFSAQTWERAQKGVREELSRDWCR
+LAEAEALNAPADEAKARALAERFTAYLKACRSDERALSILPPGRFLMPGDLDGSPALTFS
+PLPLPAEGRPEPGSLWAMMERRYEAYKTHVVKPFFREHFARIDRQIVLVDALTAINRGPE
+AVADLEEALAEVLACFRPGLNSFLSSFVTRRIDKVLIAATKADHLHHESHDRLERITGRL
+VHRAAERIGLSGAGLEVMALAAVRATREATVEEGGAKLPVIVGVPIAGETIDGQVFDGKR
+RTAIFPGDLPANPDQLFAARPDGDLVNFVRFRPPEIEETGGGLKLSVPHIRLDRAMQFLF
+GDRLA
+>tr|A0A1Q9AIA0|A0A1Q9AIA0_9RHIZ
+MFGRGKTYRPNLFARLFLRTQWRLVIDASRPDAVKLTTEIDVLLPCFDLTSIHTSRGLLW
+HTIEVRSKTRTHRLEGLTAGGADDLSNRLLDFVNKHLGATIEGDRERLSAVDQAIAAVTS
+EARQYLAHSDIGAAINRVAGPAANALAHPLFDPARVPPKLAALLPKNLSMLTDPNKRRQY
+NEDFVVKELAGYDRFFSELAGLSLSLQQREACIRLEDSNLLVASAGSGKTATMVAKVAYV
+LDKRIHAPEEILVLAFNANAAAELRQRLARQLGVGVGELRCRVTTFHALGLSIIKEVRGK
+PPQLAEWIENASAEARFLDTLIKAEIEKDEEFRRLWIEMLTLFPTASSGDEIIDAAEDEQ
+RYREARASGAKATLQSLSKKTVRSLQERKIANWLWVHSIDFEYEKQFEYLDENEEAKYLT
+PDFYYPSIDTYHEHFAINQDGTSPFEGYVDLAVAKRKAMEEAQAKFFETSSAMESQDILL
+DELENQLTRRGVEPRPRDYAEIAKALEPTVIQRYHNIVSICIKHIRASGLTLEMLLERAK
+TLRDPNRAKRFAKVIWHITECYSRDLDAAGRIDFDSMIADAVADIELGRYRSPYSLILVD
+EFQDISESRSKLIKALRYQKQHTKVFAVGDDWQSIYRFSGSDVTIFTEFEKNFGTSWVGR
+LEQTYRSNQFIAEAAARFVQQNPAQLKKTVHSSRPALPQSIRVVPITIRRDKPDLQNACL
+TMLSRLNEFAELRSADWQTNEKPKLTVLLLARYNRTIPRIIDDWKFSHIEVKGLTFHRSK
+GLEADYTLLLDVTEGEYGVPSMIQDDELLHLVVPRPEIFPYAEERRLFYVALTRASRGVF
+ILSSKGNPSRYIGELEKVATGGLRYETVDGVMLQKCKRCETGFMVERRGQNDNKFLGCSR
+FPSCRETTSTGEVAQLH
+>tr|A0A1Q9AJT2|A0A1Q9AJT2_9RHIZ
+MADIYDEDGSLRSDYLEAVNHAIEEGDRASLLEHVADLHASELGDVLEALQIERRRRLVS
+LLGTDFDLSALTEVDEQIRVDITEHMSNDQIAAAIGDMESDDAVYILEDLDQEDQEEILA
+KLPFVERVRLRRSLDYPESTAGRRMQTEFVAVPPFWTIGQTIDYLREDTELPESFTQVFV
+IDPTFRLLGAVDLDMVLRSKRSVKIEAVMRDTLHPIEAEMDQEEAAQLFEQYNLLSAAVV
+DQNNRLVGVLTIDDVVDVIQEEAEEDIMRLGGVGDEELSSGVLRTSRSRMLWLLVNLFTA
+LLAASVINLFDATIQQIVALAVLMPIVAGMGGNAGSQTMTVTVRALATRDLDIHNAFRVI
+RRECGVGLLNGLVFGVLIGLAAGAWFQDVNLGGIIAAAMLINMIAAAIAGILIPLLLDRI
+GADPAVSSAVFVTTVTDITGFFSFLGLASWWFNIH
+>tr|A0A1Q9AIP2|A0A1Q9AIP2_9RHIZ
+MAWQSPISPGISLYEETAGPRPAYPPLSGSRSADVAIIGGGFTGLNAALHLASQGVATVL
+IDGCRFGDGASGRNGGQLGTGQRNEVDELEKLLGYERSKALFDMAEHAKKALLDFARDQA
+LDIDYRPGHLSVTHKAAYERDYRHFVETLANRYDYPHVRYLDREATEAKLGSRHYVLGVE
+DSGTGHIQPMKLVIGLARAAAAAGAALHEQTRATRLQRKGTKLEVETSHGTIRADRVLIA
+CNAHIEALEPVTANHVMPIRSFIGATEPLARFPEILPEGHSVADSRFVVRYFRKSPDGRL
+LFGGREAYTADSPADLAGPIRGQIAEVYPQLKNVAITHAWGGSVGITLPRRPFVREVMPG
+VTSIGGYSGHGVMLANYCGRLYAQSVLGGSHELDLLKDLPVPPFPGGRHFRSVLLFVALS
+WYALRDRL
+>tr|A0A1Q9AJJ1|A0A1Q9AJJ1_9RHIZ
+MSVDLATVKRVAHLARIAVNEEDANRMMGELNAILGFVEQLSEVDVEGVEPMTSVTPMAM
+RKRADVVNDGDKAEDIVANAPNSDRNFFLVPKVVE
+>tr|A0A1Q9AJM9|A0A1Q9AJM9_9RHIZ
+MDFEAARIKMVDNQVRTTDVTSHPVLSAFLTVPREAFVPEEMKALAYIDTDVKVSAANGG
+RYVMEPSPLAKLVQLAAIEPGDAILEIGSNSGYGAAILSRIGGSVVALESDGALAAQART
+TLAALGYDNVTVVEGPLEAGHAAGAPYEVIFLHGAVETVPDAIFAQLKDGGRLVAVVGYG
+NASRAKLFLREGGIVSESPAFNTAVKPLPGFRLAREFVF
+>tr|A0A1Q9AJU8|A0A1Q9AJU8_9RHIZ
+MDLAVDLSGITKRFGAFTANSGIDLAVRRGEIHAIIGENGAGKTTLMNILFGLLQPDEGT
+IAIGGKTMIVDSPAVAIGQGLGMVHQHFKLVPSLTVADNIFLGMEIRRNGLIDRAAQEER
+TRSLSEKFRLRVDPRERVAGLSVGMEQRIEILKVLARNARTIILDEPTAVLTPQESRDLF
+RTLRSFVDDGMTVIFISHHLEEVMAVSDTVTVLRDGRVVATKPKSALSKRELVRLMVGRD
+VSFDRRPRGQTNGKVALEVEDLWVRDDRQLAALKSVSLSVRAGEIVGIAGVAGNGQTELA
+EVLSGLRPASHGRARLHGQDILDLPPAAIRAGGLAHVPGDRMVRGVDRTASLSANMLIGR
+HRRAPFARAGVIDWSAVHGEMWTLIRRFDIRARGPEDPARSLSGGNIQKVVLAREFTAGG
+DVLLIDQPTRGVDIGAQEGIHDEIMRQRAEGRAILLISTQLDELKALADRILIMFDGRIM
+GAVDGAAMDEDAIGLMMAGVDPADMTEA
+>tr|A0A1Q9AHQ5|A0A1Q9AHQ5_9RHIZ
+MTALLVRGAQILTMARGQTGAFAGDMLVRDGRIETIGQGIEPPDGAEIIEGRGRLLMPGL
+VNAHTHSSETFFRGRYEKMPLEIWLLYAYPFFDNRPVPPRLLYLRTLLLAMESLKSGVTM
+LSDDFFETPGHDLDRLGLVFDAYDHAGIRANISSAVMNVPALDALPYAREIVPRDLAARL
+DAFTPISVQACLEFCERVFSRLHSRANGRLRFMLAPSAPQRCTPELMTALHALSRRHGVP
+YHTHVLETKTQAVTGPDLYGRSLIHYFADLGLLGPNMVIAHSVWVSDADIALMGEAGVAV
+AHNAVSNLKLGAGIAPVRRLLDAGVAVGLGTDGLSSNDTARIFDVMRVAALVQSATGPDP
+QDWLSAREILQAATLGGARTALLDRVTGSLEAGKAADFILLDMGSTSFLPFNDVEKHLVY
+AENGGSVETVVVDGKIVMRDRKLLTVDEDAVLAEIAETVPPLLAEHARVEAQNRVLEPFM
+QEIHRRATAQDIGMQRYAGDMPSWRHG
+>tr|A0A1Q9AK16|A0A1Q9AK16_9RHIZ
+MTEGFDPSELASLIVAHDAPHAFEAVVPPIVQTSLFTFSSYEEMLATYRGEKVRPVYTRG
+LNPTVRMFEEMLAKLEGAEDALGFASGMAAISASVLSFVAPGDRIVAVRHVYPDAFRLFG
+TLLKRLQIEVTYVDGRDEAAVDKAMAGAKLLYLESPTSWVMEAHDVGALAAIARKHGAVS
+VIDNSWASPIFQNPIALGVDLVLHSASKYLGGHSDVVSGVVAGSKAMIDRLRAEAYPYLG
+AKMSPFDAWLLIRGLRTLPLRMKAHQASALEIAGRLQALDVVETVCHPGLANRLPPGLTG
+TSGLFSFIFKPGVDIRAFADHLTLFKLGVSWGGHESLIVPGEVVLAQKAQPNSAHTFGID
+ARSVRLHVGLEGTEALWRDITDAISAASKAA
+>tr|A0A1Q9AL88|A0A1Q9AL88_9RHIZ
+MKISLVIHMLALVDEFQDARAVIREFERLIEHYDLRYYALYQRSQPDGITTRTSLTALTE
+RWPDGWQKTYAERSYRLIDPVFLQIGSRSLGFRWRDTMTASVSAALRRRIDRMLGEARAR
+GMADGYAFPIHSARGLVGGLVLGGKPVDLGPVEIALFETLARKLFWRLQAPEEAAAVPAV
+ALTQREEETLHYLADGMTSAEISQRMSISVHTVDWYVNRLQMKLQARNRHHAVARAFRLG
+LLT
+>tr|A0A1Q9AI51|A0A1Q9AI51_9RHIZ
+MSPDQVGTASKGSAKKPAKADTYDNANIRHLLSAPAAIGKIKGTAKFNFSKDSKLDTVKL
+DFPRTGDCQAVRKALTAEHGKPEGKDEKTGSSNYVWANTKQGNRIVLSSYPKVWCFAQVS
+APGYRPKEDNEKSGSKAVDAIMGDFHANQRSEIKDFCAGQWPTDFVMQKHCIDENNVARN
+KAQKFDTMKSKDNTVIWAQCSMQWKDKADRTDWVMMSHCLDEQSAALKAIRN
+>tr|A0A1Q9AIX1|A0A1Q9AIX1_9RHIZ
+MKIACLHTTHSNVAVFNAAAEDLGLAADALLHCVRPDLLAAVEQARTLTEAIRRETVALI
+LDLSEEVDAVLVTCSTLGPAADAVGDITGVPVLRVDHALAEQALVEGRHVLVLCTVATTL
+APTRALFSTIAERRGASFETRLVPGAWTLFKTGDMMGYFRCIADATRDAIAEGFTSVVLA
+QASMAGAASLLESHHRPLTSPAAALAEAVRLLRTH
+>tr|A0A1Q9ALY0|A0A1Q9ALY0_9RHIZ
+MCAGPACVCPFFKKERHLMKTLQQLIDSKSNLVDYFYNDTISQYHKSRTSLFATLIAPEY
+TNWREEQKAWREAAVLFNQSHHMPVLYVKGPDARKLLNYLSPCSFENLSTDRAKQYIACT
+PRGHHIGDCILNYYGEQEGFELISGMPILNWVRYNGETGGYNVEFKFDPTTPYTADGKRT
+KFRFQLEGPNARAILDEVCEGGWPEIKFFHTAYVTIAGCKVHVLRHGMAGHAGAEISGPF
+AEMDTVRNAILEAGQKHGLLQAGTRTYYSTPLEDGWIPYPLPGIYTGEELRPYREWLTEE
+SWEANMQLGGSLYSENIEDYYWTPWALGYERLVKFDHDFIGREALEAQLKQPRRVKRSLK
+WNEEDVMKVFGSQFGDGPMYKAIEMPTSYYGWPQADEIRSKDGKLIGMSQYCGYNINERD
+MISLCGIDEDHAEIGTEVILTWGEVNGGSRKPHVERHEQTTIRATVSSIPYSKAAQEKFR
+AVI
+>tr|A0A1Q9AQE5|A0A1Q9AQE5_9RHIZ
+MTILAHNPNVQSALRMTYSHLFLDEFQDTTGLQYALLKQAFLGSDAVITAVGDSKQRIMT
+FAGARSGIFQEFAQDFSADVIALTANFRSNPRIVAIVNAMATDIEPDAVPVTSARGEADV
+PRLTDGAIHFPNAREEATAIAKSIAAAVGSGRYKPEDFMLLARQRADKLEEKLAFAFVEE
+GLTLRNEARSLGEIQIQELMTEPLPDVVICALQMAIDDRSGAPFHRLRNMIGPIFGNQDD
+RPSAELKVEQKIREAVKLARAATANAPSGTTAESVATGIFDSLGTTTLSQLAPDYSNPAR
+FAAIHSATIKFLQECADLAETWQEAITQFQGRNQVKLMTVHKSKGLEAHTVFFLHLQNDG
+FFSSADMDEEALAFFVAASRARDRFFVTTTSHEIGRVARLWEMVTAAEIPELEASALDRL
+VD
+>tr|A0A1Q9AE64|A0A1Q9AE64_9RHIZ
+MATSTLRNVGGSVMMTIPKPVLEELGLGANAKLEVSVEEGRIVAAPQKRQKYTLEELLAQ
+CDADAAVTPEDEDWLNDRPAGREAL
+>tr|A0A1Q9AMI7|A0A1Q9AMI7_9RHIZ
+MDLQTLLTFAAAFFVFAASPGPDNLTIVSKTVSAGPAHGLAYGAGMVLSILGFVIFAAVG
+LNAVAQALNENFRFVQYAGAAYLVYTGVQMWRAEPVIAARAPRGGLARLFMTGFLLNLTN
+PKMPIFYLALLPGVLGTRSLTVTDTAELMLVILLVEILVVGFHVAAASRARRFIATPRRI
+RALNRGAGSLMIGAGVLVASR
+>tr|A0A1Q9AKP7|A0A1Q9AKP7_9RHIZ
+MTTARCRQFPGPLLPGLRLCFPTVLALTGLVSAGLALAASARADIPNRCDAPAILTEIAR
+LQDSLVMNREQTVRITGFTAIESRGTAPRATPPGARRFCAAQARLGDNSTRPIWYVLDED
+AADGGARPRVDFCIAGLDPDRRHGADCEAVK
+>tr|A0A1Q9AFT9|A0A1Q9AFT9_9RHIZ
+MTRAFFPGSFDPMTNGHLDVLAQGLAVARTVVVGIGIHPGKTPLMTAEARAALISAVVAE
+ALPERAADVSVIFFKGLVVEAARAEGASLLLRGLRDGTDLDYEMQMAGMNRAMAPDIQTV
+FLPAEAGLRPITATLVRQIAAMGGDVAPFVPAPVLKALQALRAPSAP
+>tr|A0A1Q9AFJ8|A0A1Q9AFJ8_9RHIZ
+MIGFGSIGRGTLPLIERHFKFDKNRMVIIEPREDAADVEIMQKHGVRHLKAHVTKENYKD
+ILKPLLTEGEGQGFCVNLSVDTSSLDLMKLCRKLDVLYIDTVVEPWLGFYFDKGMDNSER
+TNYALRETVRKEKEKNPGGTTAVSCCGANPGMVSWFVKQALLNIAKDSGLSVDEPAQDDR
+EGWAKLMKKVGVKGIHIAERDTQRTKNPKPLNVFWNTWSVEGFISEGLQPAELGWGTHEN
+WMPKNAQKHKKGSKAAIYLEQPGANTRVRTWCPTPGPQYGFLVTHNESISIADFFTVRDK
+DDDVTYRPTCHYAYHPANDAVLSLHEMFGNGGTAQPVLHVLDENELVDGLDELGVLLYGH
+EKNAYWFGSRLSLEETRRIAPYQNATGLQVTSAVLAGMVWALENPEAGIVEADEMDYKRC
+LEVQMPYLGPVEGHYTDWTPLDGRPGLFPEDIDEKDAWQFKNILVR
+>tr|A0A1Q9AFR0|A0A1Q9AFR0_9RHIZ
+MSELKTISIRGAREHNLKNIDLDLPRNKLIVMTGLSGSGKSSLAFDTIYAEGQRRYVESL
+SAYARQFLEMMQKPDVDQIDGLSPAISIEQKTTSKNPRSTVGTVTEIYDYMRLLFARVGI
+PYSPATGLPIESQTVSQMVDRILAFGEGTRLYILAPMVRGRKGEYKKELAELMKKGFQRV
+KIDGQFYEIAEAPALDKKYKHDIDVVVDRVVVRADIAARLADSLETCLSLAEGLAVAEFA
+DKPLPVNETSAGGAANKSLNETHERVLFSEKFACPVSGFTIPEIEPRLFSFNNPFGACPT
+CDGLGSQQKIDEALIVPEPEKTLKSGAIAPWAKSSSPYYNQTLEALGKVFSFKLTSRWSD
+LSAEAQKAILHGTEEKIEFEYQDGARSYKTVKAFEGIVPNLERRWKETDSAWAREEIERY
+MSAAPCPACKGFRLKPEALAVKIDGLQIGEVSNMSIRHARDWFEDLPARLSAKQNEIATR
+ILKEIRDRLRFLNDVGLDYLSLSRNSGTLSGGESQRIRLASQIGSGLTGVLYVLDEPSIG
+LHQRDNARLLETLRHLRDIGNTVIVVEHDEDAILTCDYVVDIGPAAGVHGGRVVAQGTPD
+DIIADPKSLTGKYLSGQLSVEVPSERRVPKKKKALTVVGARANNLKNVTASIPLGVFTAV
+TGVSGGGKSTFLIETLYKAAARRVMGAREIPAEHDRIDGFEHIDKVIDIDQSPIGRTPRS
+NPATYTGAFTPIRDWFAGLPEAKARGYGPGRFSFNVKGGRCEACQGDGVIKIEMHFLPDV
+YVTCDVCHGKRYNRETLDVTFKGKSIADVLDMTVEEGVEFFAAVPAVRDKLVTLNQVGLG
+YIKVGQQANTLSGGEAQRVKLAKELSKRSTGRTLYILDEPTTGLHFHDVAKLLELLQELV
+NQGNSVVVIEHNLEVVKTADWVIDFGPEGGDGGGQVIAEGTPEDIVKVERSYTGQFLKEL
+LERRPMRSKAAAE
+>tr|A0A1Q9AE20|A0A1Q9AE20_9RHIZ
+MTNGLPRILYTKPSIGALEVAYAGDAAAHGWGDRCYEYIQRFEAGFAAHLGVSHAIATSS
+CTGAMHMGLYALDIGTGDEVILADTNWVATVSPIVHLGATPVFVDVLSDSWCLDPDAVEA
+AITPRTKAIIATHLYGNLCDMDRLLEIGRRHGVPVIEDAAEAIGSELSGRQAGSMGLFST
+FSFHGTKTVTTGEGGLFATSDPALYERVLTLSNHGRARGQTKQFWPDEIGFKYKMSNIQA
+AIGCAQIERIAELTARKQAILAAYRRRLSHVNAISLNPEPRNGINGAWMPTAVFAADSGV
+TREMMQAAFKAANIDARVFFYPLSSLDMFESRTENHNAYDIPGRAINLPSFHDMTDAEID
+RVADVLLALAAAQAAPAPLRAAIA
+>tr|A0A1Q9AIA6|A0A1Q9AIA6_9RHIZ
+MTILIYQDNVSANGALYTALCRLFGKASVHLVNAHEVIGGALDGEVSLFVMPGGAARYKA
+AKLQGAGHARILDYVARGGAYLGICAGAYYACTSIEWARGTPYEIRTADTLALFNGRAIG
+PIDAFSPAGSYNGSAPRLITLDMNGKRSRTLYWGGCHFQAEPGSTAEIVARFADLPDAPA
+AIVAGGHGKGRWLLSSPHIEYDAQALDLIDFDVTANDYAEIRTLGDWSDLTLHTFETLLA
+RYLL
+>tr|A0A1Q9AL84|A0A1Q9AL84_9RHIZ
+MTAEPAIAPALFQWTGHEGLPRFTAIRDEDFAPAFDAALAEHAAEVTAVAENPQAPTFEN
+TVVALEIAGDTLSRVSALFWNRAGAHTNDTIQALEREIAPKMSRHYSRIGTDPKLFARID
+ALWQARETLGLTLEQLRVLERHWKGFVKSGARLDKPAQDRLAAINERLASLSAAFGQNVL
+KDESGWSLILKDEAELAGLPDFLRESMAAAARERDEEGAYAVTLSRSIIEPFLTFSERRD
+LREQAFAAWAARGANEGPTDNRDIVREMLALRTETAGLLGYKTFAAMKLEDTMAKTPEAV
+NGLLMQVWDKAVARARAEEADIAALIAEEGRNHPVMPWDWRHYAEKIRAQRFAFSEAELK
+PYLQLEKIIEACFDVAGRLFGIKAVEVKDVPAYHPDVRVFEIRDRTGAVIALFLGDYFAR
+PSKRSGAWMSAFQSQHRLRLKNGAEGERPIIYNVCNFAKPSEGKPALLSLDDARTLFHEF
+GHALHGMLSDVTYPSVSGTGVSRDFVELPSQLYEHWLTVPEILKHYARHVETGEPMPQAL
+LDKVLSARNFNAGFNTVEFTSSALVDMAFHTRTTVEDPMAVQAEVLGEIGMPASIVMRHA
+TPHFQHIFSGGYSAGYYSYMWSEVLDADAFAAFEETGNVFDPALAERLKTHVYAAGGAVD
+PEETYKAFRGRLPSPDAMLAKRGLAA
+>tr|A0A1Q9AM60|A0A1Q9AM60_9RHIZ
+MDRDQLVADSTKRKTVVRRLAYETGRNIIPIVVATIILAATLISLSLWLSSRSSEADRAV
+AHTVRNHRRLSIVQSLLQDAEIGQRGYLLTGDSFYLEPYDTAVAQISGALDDLAVNMTDN
+TTQTANVSVLRTLVVQKMSELRQSVQRQREGDHQAAVAILLGGQGKVLMDGVRDVLTRMR
+NEEEQLMVERARDARHASWQMEMLVIALALFLAAVGLLSLKLMISRTRAAEAARDELLAR
+LDRKLLAVLAADLVGYSALMESNETETLDRLQHARGLIDPLIEEHQGTIVTTAGDSVLAV
+FSSALSALDCALAIQTAMRRQNEGMEADAHMAFRIGLNVGDVIVQNGDVFGDTVNVAARL
+EGLAEPGGICITRTVRDHIRKQRNVTFEDLGFQRLKNIAQPISAFRVRQTA
+>tr|A0A1Q9ANH7|A0A1Q9ANH7_9RHIZ
+MTQVVTVSATTAAYAAEAIKPKARMAGDQPADEAITLLQTRPPGETAKPRIVEPSASNTG
+LSLMLMERGWQLQQETYARVLRHYAEMMEDGEPQRDDQPPAEDQQAEEEEQAAFDPLSAF
+A
+>tr|A0A1Q9ANI3|A0A1Q9ANI3_9RHIZ
+MAQAEIGLIGLGVMGSNLALNIAEKGNTIAVFNRTPQRTEEFFHEAGDLQDRVIACKTIE
+EFVAAIKPPRPIIIMIKAGDAVDQQMELLKPYLEAHDIMIDAGNANFRDTMRRFDALKDS
+ELTFIGMGVSGGEEGARKGPSIMVGGTEESWKRVEKVLTSIAATYNGDPCVAWLGENGAG
+HFVKTIHNGIEYADMQMIAEIYGILRDGLKMEAKEIGEVFGRWNKGRLNSFLIEITETVL
+NANDPLTGGPIVDVILDRAGQKGTGKWSVIEAQNMSVPATGIEAAVAARSLSSMKDERVA
+AEGILGLPGAALEIADRTAFLADLESALLAAKIGAYAQGFAVMAAASKEFGWNLPMPTIA
+RIWRAGCIIRSQFLDEITKAFTDRPDAANLIVTPAFATMVQETDGALRRVVSAAVLAGLP
+VPALASALGYFDSYRRGRGTANMIQAQRDFFGAHGYDRVDGQDSHHGPWGSGLVSERS
+>tr|A0A1Q9AF28|A0A1Q9AF28_9RHIZ
+MQVLSVASEVYPLIKTGGLADVAGALPEAVAAHGVTMRTLMPAYPAVLAKLAETQEVHVF
+DTLFGHPGRILSARHHGLDLLLVDCPALFDRPGGPYLDASGKDHPDNFRRFAALSLAAAL
+IAEGCLKDWVPDLVHVHDWQAALTPVYLRFGRRPETPVVLTIHNIAFQGQFSADIFQELA
+LPWAALHMDWIEYYGHLGFLKGGMRAADAITTVSPSYAEEILTPEFGLGLEGLLAARQNA
+LSGIVNGIDTEVWNPATDPMIAAHYDAARLEARRANRKPLLDRFKLDAPEGPLFCVISRL
+TLQKGMDILAAVIPDIIAQGGSLAVLGSGDAELEALFEEAALAYPGRVGLVKGYDEPLSH
+QLQAGADAILIPSRFEPCGLTQLYGLRYGCVPIVARTGGLADTIIDANEAAMLAQAATGF
+LFSPVGEDAFKQALKRAFKLFNEPRLWARLQVQGMKTDVSWDASAGRYAALYSQLCAKG
+>tr|A0A1Q9AHL7|A0A1Q9AHL7_9RHIZ
+MREPVLSLKGISKRYGPVPVLKDVSFDIHAGEVVALLGENGAGKSTLSGIIAGSRSPSEG
+SMTWLGQPYAPANPAEAIDKGVVLIHQELQLLPELSVAENVFIGRWPMKNGVVDRAQMVR
+RAQEQLARLNLHIPATRKVAGLSTAHQQLIEIAKALALNARLLILDEPTAALGGAETEAL
+FEQVRKLRAEGVGIIYISHRMEEIRKITDRIIVLRDGEKVQEFADSATPVRTVVESMVGR
+SLERMFPSLPEPQASTVLEVEKLTSSEDAFRDVSFSVKAGEILGIAGLVGAGRTELVRAI
+SGADPVASGTVKLNGTPLALKSPADAIARGIVMVPEDRKEQGLVVAHGIGENLVYANLDR
+FSSRWLTPSAKRAFADKAIAAFGVKGRGEQPASDLSGGNQQKVVIAKWLMRDPKVVVLDE
+PTRGIDVGARAGIYDIIVNLARRGVAVIVVSSDLEEVLGVSNRILVLAQGNQAGILSREE
+ANDVSVMELATL
+>tr|A0A1Q9AGY9|A0A1Q9AGY9_9RHIZ
+MREHRIDLLRGLSLLLIFAAHARFGFSDRLQHARGFADAADLFVLLAGVSAALAYGRLAF
+ADGVRAAGRRALVLYETHLLLVALFLSASLLLAPFEPRYEAALELADFWSAPVLRLAEAA
+LLVFLPGNLDILPIYILFLLAAPALFWLRRRSLPLLLLGSALVWLVSGLARVNLPNFALP
+EQAWYFDPLSWQFLFVIGIVLGDRLKAGRPMLPFHPLVFAGAALFCLIAAPVSLSVSEGW
+IAPPFGSLYHLLVSKTNCAPLRIVNVLALLYLAWNIRLVATLADHPICRPLVAAGRHSLP
+VFALGILLSAAAEGAMMAPQAPSLLSQLAMLVLGCALQLVLALRLERRRLARRRLPAPAI
+ATGGLPSGQSIG
+>tr|A0A1Q9AKL7|A0A1Q9AKL7_9RHIZ
+MSQPSTENSASKPVTLRSIVKSYDGKTAVVKGIDLSVAAGEFLTILGPSGSGKTSLLMML
+AGFELPSSGEIRFGDSDVSRLPPHKRNIGMVFQHYALFPHMTVGQNLAFPLQVRGYDQVE
+IARRVAWALELVRLAGVESRRPAQLSGGQQQRIAVARALIFRPELVLMDEPLGALDKQLR
+EQMQEEIARLHRDLRPTVIYVTHDQSEAIALSDRVAVFDSGRISQIAPPRELYEAPASAF
+VATFIGENNRIPAKAVDLCPFARFVIPGDRFVSAVPIGIETKGADCCVMVRPERLHFLAC
+QQELANSIDAVVTGVTYHGDSIRIRAEITGSTTELISRQANDGQRPVPRIGEPILLGWRT
+EDARAFPNTAHQHSANT
+>tr|A0A1Q9AKX6|A0A1Q9AKX6_9RHIZ
+MSVEIGLNAVVVARGPQAPMILALTDAAGARRDALPFGPFDPQRHRTFETSLRDHVEEQT
+ALSLGYIEQLYTFGDRGRHREPGEETKHLVSVGYLALARPDEEAASRLQEAGARWRDWYA
+YLPWEDWRAGRPGLIDAVILPGLSGWAEAAEGDRAAQRRARMRLAFGLDDIPWDEERVLE
+RYELLYEAGLVGEALADRPDEATAWRAALPTAPLGRAMQHDHRRIAATAIARLRAKIKYR
+PVVFELMPPDFTLTALQTMVEAISGRHLHKQNFRRLVEGAELVEPTGASTAGTGGRPAAL
+FRFRRQILEERPAPGLKLGSR
+>tr|A0A1Q9AII0|A0A1Q9AII0_9RHIZ
+MILYFRGDAFQGKAMTQAERPVGTALAAAGATVVEADYARGSDNRFPQAMEHAFMALAYL
+STKRKLYGGLTRSPLFVAGDEAGGNIAAGVALKARDVQLGDLSGQILLSPLIDPMMASQS
+MREAGEQSLRERWAEGWSHYLQAGCGFQHPYAAPCLCSRLSGVAPALVVTSQDDPLRDEA
+SGYAERLAASGVAVSKTVLPARCGWTGIYNGADGPWMAELREEFIRFMQQTSA
+>tr|A0A1Q9AJ67|A0A1Q9AJ67_9RHIZ
+MSPKTYIQEFAGKRILIVEDEYFLAAETRRKLEKLGAHVVGPTGRVREALDLIELDNVDA
+AILDIHLGDELVFPVAEQLSLLDIPFVFATGYDPSIIPKTFTGFALCEKPTELEAIARQL
+FGPGTDGMS
+>tr|A0A1Q9AJ61|A0A1Q9AJ61_9RHIZ
+MIAASAKIHPLALVEEGAVVGENVTVGPFCHVGPKVVLADDVVLLSHVVVTGRTTVGKGT
+RIFPNAVIGGDSQSVHHSAVDTELRIGANCTIREGVTMNTGTREHGGLTEVGDNNLFLAY
+AHVAHDCRLGSHIILSNNVMLAGHVTVEDRAILGGGSAVHQFTRIGRQAFVGGLSAVSYD
+VIPYGMLNGNPGVLSGLNVVGMTRAGFSKPEIHEVRRAYLEIFEGPGNVRTNAEAIRERF
+AESKAVVEILDFIAAAKDRALSSPHRGKKG
+>tr|A0A1Q9ANC0|A0A1Q9ANC0_9RHIZ
+MDLKLSSADIAQLQRSFQRMPGEIQTKVLARVMRRLGSMARTRIVARSSKHTQMPAAIVR
+ALTTAAFNAGGNTSTVVVNSNWIPLQALGAVQNAKGSYVNRRGQYDHAFVAQFASGHVGV
+MQRIPGTQMPSRQTKREQIRELFGANPAHAITNDPETYLDVMAEVIQEYMLPRMVHELER
+VLFK
+>tr|A0A1Q9ANI1|A0A1Q9ANI1_9RHIZ
+MKQWIGAALGAALMASGAQMAQAEDLAFASYTNGASAAFLNKELANFAKQSGHTVKLITM
+PSSSSEQFAQYRLWLAAGNQDVDVYNTDVVWAPQLAEQFIDLTEAMKDRTAEIFPSIVAS
+QTVNGKLVAMPYMTDAPAFYYRKDLLEKYGKPVPKTWDEMTKTAAEIQAGERKAGAKDMW
+GFVFQGAAYEGLTCDALEWIASSGGGHIVETDGTISINNEKAAAALDRAHGWVGTISPPG
+VLAYQEEESRGVWQTGNSVFMRNWPYAYTLGNGGDSAVKGKFDVAPLPAGAEGEAGASTL
+GGWNMAVPKYSKKQKAAIELVRYLSSEEVQKRRAIELSNMPVLEKLYDDKDIAAALPFMP
+AWKPIFQNAVPRPSATTKVKYNEVSSRFWTAVHSTLSGNGTGAENLEKLEIELTELQGGS
+W
+>tr|A0A1Q9APJ1|A0A1Q9APJ1_9RHIZ
+MMKTQGKTGSTDPGQALKACRSAFIGVGIASALVNLLYLTGSFYMLEVYDRVLPSRSIPT
+LIALSVLALLLYAFQGAFDMMRGRMLVRIANALDEAMSGRIYRAVVQAPLKVRMQGDGLQ
+ALRDFDQVRSFLSGSGPTAFFDLPWLPLYIVICFLFHPLIGTVAIVGSLILIALTFLTNR
+GTQAPSRRAAEAGNHRNAFAQSSRRNAEVVQAMGMLGRMSTLWAEKNDSYREENRITSDV
+GNGYGAVSKVFRMALQSGVLATGAVLVIEGMASPGIIIAGSILTARALAPVELAIGNWRG
+FVSARQSWQRLKDMMVALPEQPAPLELPPPCERLTVETLSGGPPGVQRLIFADINFTVPA
+GSALGIIGQSASGKSSLARAILGIWPPLRGSVRLDGAALDQWDSDRLGRHIGYLPQDVEL
+FGGTVAQNIARFAEDATAEAVVAAAKAARVHELILRLPNGYETDIGDGGTALSAGQRQRV
+ALARALYGNPFLVVLDEPNSNLDAEGEQALSEAVMSVRARGGIALVIAHRPSALAAVDLV
+LVMKDGRMQAFGPRDETLAQVLRRDTPRPAQAASIGGGHHPALKVVEDKEAGE
+>tr|A0A1Q9ADB8|A0A1Q9ADB8_9RHIZ
+MSALDATDRHLLRLLRLNARMSNAALAAEIGLSPSACLRRIRILENEGVIKGYTALIEAG
+QSDQAIAVIVNITLERQTEDYLNRFEAAVRRHPEIRECYLMTGGSDYLLKVEVESAGAFE
+RIHKEILSALPGVLRIHSSFSIRNVLATRTKGRR
+>tr|A0A1Q9APV5|A0A1Q9APV5_9RHIZ
+MCHPAARPDRLKERWRSIKAKALGLDDGALMRHAFQILLAAALVFVVIDFREIEAAKALV
+PFDPQAPGAAPILPPALTEGEPEAPPSEITTEAAQLKNAIRFELLPGGILKAQGAIDAGA
+AARFAAEVEARGEYVKTVVLDSPGGSVGDALAMSRLIRERQLDTRVEKGALCASSCPIVF
+AGGVQRVAEKGAVIGVHQIFNGSTQRLTPEEAMSQAQRTTAEVTRHLEAMGVKPGLWRRA
+LETPPDRLFYLSVREMEAEALTTPPPPRPVAASRGKGA
+>tr|A0A1Q9ADI4|A0A1Q9ADI4_9RHIZ
+MTRHQRALEPHAPVTAAERRELGQLGASAQNTDRTESTAAAEEAWLDLLLPNALPAEAVL
+EAEQREGLHTVLCGLVKALALNPRDGLPLLSELLQRLDALGSQDESGPEPVAVDTTGLPL
+TAFQASDYDRYFRVNRVAPALPATMMVRSLVQAIHAVTDLFARSADLPERQVRGQIEGFV
+AQAHLLARALGLERLR
+>tr|A0A1Q9AGV9|A0A1Q9AGV9_9RHIZ
+MTEKTHDPVTFDIIQNALEAVADEMFVAQRKTSMSAIIYEVLDLGTGICDANGEIAASGA
+GIPAFVGVLDKAVKRILEKHPPETIQAGDLFASNDPYWGGVTHLNDMILAMPVFAEGRIV
+AWTANIAHWNDVGGNVPGSMSSEATEIFQEGIRIPAVKLIEAGRPNQAVFDILYVNTRLP
+DYLRGDLWAGIAGVRIGERRLLELVEKYGADTFTAAIADFMDLGERRARAALKTMPKGTF
+SFEEEQDDGAIHKIVIEVTEEHFSVDLRDNPDQKGSSNSSREGVEIAAQLAFKAVADAQA
+PGNGGFFRPLKVITRPGSIFHVVEPGALGYYSEVEIRLFDLILRCLATHFPGLVPAGNFA
+SICGTVVGGKHPDTGRHYTIVEPQLGGWGAWAGRDGNAAIFSGFHGETFNCPAEVAEARY
+GLTVDHMALNPAQGGEGEFRGGKGISVHYRVRANDNFLSVGYTRSRMPPWGVAGGQDGTP
+NYVEVLRPGKAAERYSFGTNIPLNKDDIVHVVTGVGGGYGDPKQRSPEAIRRDLRDGTLT
+PERAREVYGFEG
+>tr|A0A1Q9AK01|A0A1Q9AK01_9RHIZ
+MEVLGNLFNIALLVATIRTTTPILLVALGGSFTTKAGIFNIGLEGQMLIAAFFAVVGSIY
+TGSSLGGLLIGVSAALLFALIYAVLVVSFRANEVVVGLALNILAGGMTISLLKAIFGTRG
+SVVGRGIVGLPKVQIPGARDVMGSSAQLISGFTPLVYVAFLAVPLLILVYNRTQLGLYIR
+VVGEKPEAAEALGISIARIRYGASMLCGLFAGLAGAHMSLGYITMFTENMSSGRGFMAVA
+ILIFSAGDPLKVLAGCLLFGFADAFSLRLQSFGFPSYLVLAVPYSVALVALFALSWRGRP
+KRLRETAETIRRALSVHPADAGRDAPASRS
+>tr|A0A1Q9AHY4|A0A1Q9AHY4_9RHIZ
+MSEPILELNGLGKTFEADGNRVVALSDVSLTFARGGCHAIVGESGSGKTTLANLVLGLMA
+PTAGEMRFNSVALPGDRGKGHRRAIQLVQQNPLSALNPRRTIGASVRLPLDVHEIGTSSG
+RAARVAELLQEVGLEPDYAQRSPRGLSGGQRQRVAIARALACEPELIVLDEPTSALDVLV
+QARVLKLLERLRVEHGLTYLFITHDLAVVRAIATTVSVFQRGRLVESGPVEALFAAPQAD
+YTRQLIGAVPVVTEEEARLRDAIRAGAPMPAAGPGA
+>tr|A0A1Q9ADL6|A0A1Q9ADL6_9RHIZ
+MSKPIGRQDQTVLKTLFGRDKPIIGVVHLMPLPGAPRYDDKGVEAIYERGLSDARAYLAG
+GCDAVIVENHGDVPFSKPDDIGHETSAHMAVVADRIRRELGRPIGINVLANAAIPALAIA
+SASSAAFIRVNQWANAYVANEGIVEGEAARAMRYRAQLRARGIRIFADAHVKHGAHAIVG
+DRPVEEQVKDLVFFDADVIIATGQRTGHAADLSYIDMIKQAAALPTLVGSGVTHDNANDI
+LSVADGVIIASALKYDGVWWNAVDPDRVIRFIAGLDR
+>tr|A0A1Q9AEN3|A0A1Q9AEN3_9RHIZ
+MIDRRHLLLSGAAFGLLASVGAGRLRAEEFEITRTDAEWRAKLTPDQYRILRQAETERPF
+SSALNNEKREGIFHCAGCDQQLYSSQAKFDSGTGWPSFTKALPQAVGLRKDSSAGMERTE
+VHCRRCGGHLGHVFDDGPKPTGKRHCINGLALAFVPGEMPAEP
+>tr|A0A1Q9ACF7|A0A1Q9ACF7_9RHIZ
+MSSETFFSTLPVFTRFAGVTDAAHYRPLPDDWWLATADIVDSTGAIEAGRYKTVNMAGAS
+VISAVLNGLGRHDLPFVFGGDGALVAVPASGRQAAAAALAACATWAREELSLTMRVAMLD
+VAAIRAAGHDVRVARFQASEMVSYAMFSGGGAHYAEMRMKAGDNAIAPAPPGTRPDLSGL
+SCRWNPIRARHGLIVSIIAVPGPANDVAAFEALVARIIAIASMLERDGHPVAPEGPALGL
+SSEGLATEIKARAKGEPAWRRWLRITGEYVLSSTLVRLGRNLGGFDARRYRRDVGDNSDF
+RKFDDGLKMTIDIDVTRLERIEAALKAAEAQGVCRYGLHRQDEALITCFVPTPLQRDHMH
+FIDGAAGGYAQAASRLKQTPEPASAL
+>tr|A0A1Q9APA1|A0A1Q9APA1_9RHIZ
+MRYAIGFTPSVCDPLTYAAADWLGRNPYSDALCEQPHVAGFSTAEFAFLTAVPRRFGFHG
+VLRPLFRLAEGMTEADLLYALMRFTSELSPFSIGRLSVQLKDSCFMLAPAGASAEVNALA
+ATILQRFEPFRAMLSDAEIERRDPDRLSAAQFANLLRWGDPFVLDDYRFHMMVTGPVPAP
+SQLRMATALQSFFEPFCLAPLEINSLALFVEAGAGAPMRVHSQHPLGKLPAHRVRPRTAA
+PIEDGHLPAPVGETRVALAMRALVPAR
+>tr|A0A1Q9ACH9|A0A1Q9ACH9_9RHIZ
+MPGVQAIVARACALVLALSLAITSGCAGRPEGVLIPEASAATVHALGASTVDMLVATTRA
+PSEKPGVLFGGERGNEVRAAEIVVSIPPDKNRQIGQVQWPRKLPANPAREFATVSVAPMN
+DKAKVQGWIKRSMPAGRRMLVFVHGFNNRYEDAVYRFAQIVHDSGAQVAPVIFTWPSRGS
+IFDYNYDKDSTNYSRDALEELLTTAAKDPAVADITIMAHSMGSWLVTESLRQMAIRNGRV
+APKITNVILASPDIDVDVFQKQWEALGPKKPKFTLFVSQDDRALQLSRRIAGNVERLGQI
+DPLQEPYRSGLEKAGITVLDLTALKGGDRLNHGKFAESPDVVKLLGNRLIAGQTITDSEV
+GIGERVGAVALGTAQTVGSAASVAVSTPILIFDPRTRDNYGEQLQRLNQSLSNTVGAATL
+Q
+>tr|A0A1Q9ADN0|A0A1Q9ADN0_9RHIZ
+MSQLKIDRVWKEYGDQIVLEDVSITIESRAFVALVGPSGCGKTTFLRMILGQEKPTRGTI
+LLDGAPLPPEPGPDRGVVYQKYSVFPHLTVLGNVLVGKELSAAPITGRLFGAARRAAVEE
+ARAMIADVGLAGSEDKYPAQLSGGMQQRLALAQALLMRPKVLLLDEPFGALDPGIRKEIH
+QLMKRLWNETPMTVVMVTHDMREAFTLATRVVAFERPRDRPEEKERYGATITRDIEIWPP
+RRPGTTPA
+>tr|A0A1Q9AL86|A0A1Q9AL86_9RHIZ
+MSAGPAKLKNPVLMGTVGAAQGLRGEVRVKSFSGDPMAIGDYGHLHAEDGRVFEVLEVRE
+AKNVVIVRFRGINDRTAAEALNGLNLFIDRDNLPDDDLDEDEFFYADLEGLEAFDAEGRS
+YGTVTGVFDFGAGDLLELKGPGKRPVLIPFSEHAVLEIDLEAGRLLLDPVAAGLVEDKDD
+DPAAPFRPKDD
+>tr|A0A1Q9ACW6|A0A1Q9ACW6_9RHIZ
+MRGLLSQRQIQAVIPPKADRKEPIACDFAMYRWRHLIENFFCDLKQFRAIATRYDKTDVS
+FMAWIFLRAAHLRLK
+>tr|A0A1Q9AIC1|A0A1Q9AIC1_9RHIZ
+MRILTGRPKGDGYILISVLAVVALLSGLVAALLLVGRAAVDTAGLESRALRREALLQSAV
+TVVGYQLFVLKRPEDAVNGQQLRLGEGVVTVTVASEAGKVDLNGSGKALLEAAYTAAGLR
+SLSPASPEMSSPQSLNPEAFASRVIAWRSAGGQTGADTAQASRDPGLGPGLDQGLGHGPR
+NGPFRSLDDLRFVAGISAGAFERLRPFLTVYNAPGRLSAFSAPAALVAALPGLSAGTLRE
+VLSVRQRRSAASAQRLSELLEGQASLIDTAMPRTYRVGIEIHADERLAGRRLTVVLSAGA
+TADWPYQVLNWTDGG
+>tr|A0A1Q9AHZ6|A0A1Q9AHZ6_9RHIZ
+MTAPSEARQEPQAPARAGKRPRDPRLDVFRGLGMLIILIAHIPDDGWALWIPARFGFSDA
+TEMFVFQSGVASAIAFGAAYDRHGAIALIARVARRIWQIFWAHIAVFVVVAALMVIAGTR
+YDGVTYVDSLNLVPFLENPGPLLVGLLTLTYVPNYFDILPMYIVILALMPVMILSARLWR
+PLPLLLMAVLWLAAQGGLTHLPAEPWSDRPWFFDPFGWQLLFFIGFFMKRGVLPVPGYDR
+RLMGLACVLVLVTVPFAWVRFHEAHPVFQQAADWLAPLTDKSDFGILRLVHFLALAYIVV
+HLAGERGARLRGPGARLLAVVGQQSLAVFITGMVIAQPIGVALDLAGRTASAEVAGNLFG
+IATLIATAYFVRWFKTSPLLA
+>tr|A0A1Q9AM29|A0A1Q9AM29_9RHIZ
+MDQEFIAQEIAVLAFVGKAQSRLADWYRQQIRNAVLVRSFAACQDEAKRAALTVCSGVDF
+RRKAAA
+>tr|A0A1Q9ANN1|A0A1Q9ANN1_9RHIZ
+MFARDGKPAATDRDRFGCSLAGLEEDDVLIGADIRFIRRRAARAPEGFVSTPASGRGTLI
+GLSMKPGHQRRIHHAHHASLHDFAENGLYIRRFADPYKAEMAGSFDFALMEISAAALATI
+ADQAECRHVEGLSEQAGAADLVLGGLTRALFAHAQGPMPTSPLFIAQIGAAIGTHLVRRY
+GEGRTTEPQGGRRLTPRQLGLITQRMRAQPKGDPGIDELCALTGLSRSIFLRAFRETTGR
+TPHQWLVEQRLDKARDLLLNSDAPLAAIAEACGFADGAHFSRVFAASMGAPPGAWRRRRL
+D
+>tr|A0A1Q9AEF2|A0A1Q9AEF2_9RHIZ
+MIICCGEALIDMLPRQSDRGEGAFAPYAGGAVFNTAIALGRLGIPTGFFTGLSTDMFGDI
+LRETLKASNVDFAPCATSDLHTTLAFVKLTNGHASYAFFDENTAGRMITEADLPELGDFC
+EALHFGAISLIPEPCGATYEALMTREHEKRVISFDPNIRPGFIKDKEAHRARMLRMAAMS
+DIVKFSDEDLDWFGMEGSHEELAGQWLARGAKLVVITKGADGADGYTTRGKVSVGGEKVT
+VVDTVGAGDTFDAGVLAALKLNNLLTKEAVANLSEDAVRAALALGAKAAAVTVSRAGANP
+PWAGEIGL
+>tr|A0A1Q9AK12|A0A1Q9AK12_9RHIZ
+MTGRLLLTIAHRLAILAYIVFALFPLFWLLKVSVTPNDLLYSEGVRLWPSHATLDHYRFV
+LENSAFPTFFKNSLIVAGSTSVAVTALSSLAGYALSRFRFRGKYALVALMLITQMFPLVM
+LVAPIFKMLSPLGLTNSLTGLVIVYTAFNVPFATFLMQSFFDGIPKDLEEAAMIDGASRF
+VAFRQIILPLTLPGIAATLGFVFTAAWSELLFALMLISGNASATFPVGLLTFVSKFSVDF
+GQMMAAGVMALIPACLFFLLIQRYLVQGLTAGAVKG
+>tr|A0A1Q9AD52|A0A1Q9AD52_9RHIZ
+MLDGAVQAHAAHIRPIGGSNRALVARNGPRPGKVGLVIGGGTGHEPCFLGYVGRGLADAV
+AVGNIFSAPPPAPILACARAASGGAGVLFVYGNYAGDVMNFEMAAEMAEEDGIAVRTVLT
+TDDIASSPREDREGRRGVAGNVLIFKAAGAACERGLPLEACAALTARANARTYTMGVALE
+PCSLPQTRRHNFELSADEIEIGMGIHGERGVARDRMMSADAVVDRVMDGIFAEMEAKPGD
+RVAVLVNSFGATPLMELYILYRRVAQRLAAKRIVIARNWIGHYCTSLDMAGASISVMHLD
+EELEALLAAPCDTAFLKV
+>tr|A0A1Q9AJ55|A0A1Q9AJ55_9RHIZ
+METRPFFPPHDGIRLAALAEAIGAELKGEGVADRLIRTVAPVARARVDEVCYLLNRRQAD
+ELKTTGAGALICDAAMARLAPEHLPLLITARPHTAFALAGALLHPQALRPERISTGQGIS
+AQAVVHPTAEIEPDVEIEPFAVIGAGVQIGSGTRIGPNVVIGANVAIGRDCTIAAGVTLA
+SALIGNHVIIHPGARIGQDGFGYAPGTRPGMMKIVQIGRVILQDHVEIGANTTIDRGTMD
+DTVIGEGTKIDNLVQIGHNVRIGRHCGIVAQVGIAGSTTIGNGVMIGGNAGLNGHITVGD
+GAQIAAKSGVASDVGPGERIGGLPARPIKDFLREIAEVSARAQNRQRKSGAKDE
+>tr|A0A1Q9AJA5|A0A1Q9AJA5_9RHIZ
+MADDKDLFSSMTPPAGAAKAATRAAAQPAQEPAAAALPAVKRAPPVASPVPSGLPAAAAA
+PAVKGSDGESYDASAIRVLEGLEPVRMRPGMYIGGTDEKALHHLFAEVIDNSMDEAVAGH
+ANFIDVHLDAEGFLTVTDNGRGIPVENHPQAPGKSTLEVIMTVLHAGGKFDGKAYETSGG
+LHGVGISVVNALSDLVEVEVARNRKLYRQRFSRGLPLGGLEELGDVQNRRGTRVRFRPDA
+QIFGPAMKFDPGRIFRMSRSKAYLFGGVEIRWSCEASLVAGTDIPEKAVFHFPGGLKDYL
+AATLGKEFTVTREIFSGKTERSGGHGSLEWAVTWYGGDPQLHSYCNTIPTPEGGTHEAGF
+RIALTKGLKAYAELTQNKRAAAITTDDVMISAVGMLSVFIREPEFVGQTKDKLATVEAQR
+IVENAIRDPFDHYLAGNPAEAAKLLDWVIERAEERLRRRKEKEVNRKSAVRKLRLPGKLA
+DCTQNTADGAELFLVEGDSAGGSAKQARNRANQAILPLRGKILNVASAGREKLSANQQLA
+DLVQALGCGTRSKYRQEDLRYERVIIMTDADVDGAHIASLLITFFYQEMPELVRGGHLYL
+AVPPLYRITQGAKTLYARDDAHRVELLKREFKGKAKVDIGRFKGLGEMMPAQLKETTMDP
+AHRTLLKVAIDEVDFEGTREAVDNLMGTKADARFRFIQERAAFADNLDI
+>tr|A0A1Q9AE27|A0A1Q9AE27_9RHIZ
+MFGNATGWILPALILIGWEAASRTGLISPNVLAAPSAVAEAFWRLLLSGELAQNIWISSL
+RALSGFAIGGAIGLVLGLANGLSALSRNLTDTTLQMIRNIPHLALIPLVILWFGIDEEAK
+LFLVALGVFFPVYVNTLLGIQSVDPQLVEMGRAYGMSRAALFVRVILPGALPSIFVGLRY
+ALGIMWLTLIVAETIAASSGLGYMAMQAREFLLIDVVVLSILIYALLGKLADSLARLLER
+RFLQWHPAFQTA
+>tr|A0A1Q9AHK2|A0A1Q9AHK2_9RHIZ
+MKARAHYDREWRTGWAFAAPGLALLAVVMGFPLAYSVLMAISSLTLLKPGLFPLVGLDNF
+ATLFSDRLFWGALLLTIRYSAVTVIGEFVLGLAIALMLKRAVRMRPVYFGLLTIPMAMSP
+ISVALIWKMLLQPNLGIVNHLLETAGLPRVDWLGNADLALSTMAFVDIWQQTSFVVLLLA
+AGLAALPQEPYEAAEVDGASAFQQFIYITLPMLRPVAGIAIIIQLINEFRTYDLPYVLTR
+GGPGTSTEVLSYFAYRKAFLGLSLNQGAAAAFCLLVIILALTVVFFLRLERAEAAGRNAP
+>tr|A0A1Q9AMY4|A0A1Q9AMY4_9RHIZ
+MHPYRSHTCAALRPSDVGANVRLSGWVHRVRDHGGVLFIDLRDHYGLTQVVVDPDSPAFK
+TAEQVRGEWVIRIDGLVKARTAETVNKAMPTGEIELYAQEIEVLSAAKELPLPVFGEPDY
+PEDVRLKYRFLDLRRETLHKNIVKRTQIIADMRNRMNASGFAEYTTPILTASSPEGARDF
+LVPSRIHPGTFFALPQAPQQYKQLLMVAGFDRYFQIAPCFRDEDPRADRLPGEFYQLDVE
+MSFVTQEDVWNTMAPVITEVFEKFAEGKPVTKDWPRIPYDVAIRKYGSDKPDLRNPIEMQ
+AVTEHFAGSGFKVFANMIASNPKVEVWAIPAKTGGSRAFCDRMNAWAQSTGQPGLGYIFW
+RKEGEVLEGAGPLAKNIGPERTDAIRTQLGLDDGDACFFVAGDPAKFYKFAGEARTKAGE
+ELNLVDRDRFELCWIVDFPFYEWSEEEKKVDFAHNPFSMPQGGLEALENQDPLTIKAFQY
+DAVCNGFEIASGSIRNQSPELMVKAFELVGLSKQDVEDRFGGMYRAFQYGAPPHGGCAFG
+IDRVIMLLVGAKNLREISLFPMNQQAQDLLMNAPSEATPTQLRELGLRVVPQPKKD
+>tr|A0A1Q9ADT5|A0A1Q9ADT5_9RHIZ
+MLTIYGVYRSRASRVYWLAEELGLAFRSVPVIQARRLAAPLAEDAPLNTRSPAFRAINPM
+QQIPAIDDDGLVLTESLAITLHLAAKHGGPLAPADRREEALALNWTLWAATAIEPQAVRI
+VLVYDAGVEATDAGRATIAEAVLALEPGFARLEAQLAAQPYLLGDRFTVADLNLAEVFRY
+AMSQTALFDRHPQLKAWLARCQERPAFKAMMAKRLAEAA
+>tr|A0A1Q9AG87|A0A1Q9AG87_9RHIZ
+MPAKSKAQQMAAGAALSAKRGERPMRSLKGASKSMAKSMSETELSDMASTKQKGKPKHVS
+QERAD
+>tr|A0A1Q9ADW3|A0A1Q9ADW3_9RHIZ
+MLNASAGAAQAPRLARSGANEKPRVAPWLLPLILVLGLFYLYPVFDVFRLAFMRATLLAN
+DGSYTLSTLIQTLTRPELGQILWVTFVFTGSSVVAQQLLGLAIALVVVRGESRGLFGTTI
+VRTTALIAWVVPGIAGGIIWKMLFNEAPFGGLNSILRLMGAPPVQWLSDPHIVMWSVVLS
+NVWRGTAFSMVVMYAALKAIDPVLYEAAAVDGATARQRLVYVTLPQLRSAILVNMILITI
+QTLNTFDAIISLTGGGPGRATEVLSLYTFNVVFRNYDLSVGAVLSILMLAISLGLALVYA
+VFLPKDEK
+>tr|A0A1Q9AD22|A0A1Q9AD22_9RHIZ
+MKSIFSSLRDGRGFDVSLVAFPMAFLFLLSGLPLVYNIVMSLQEVDMFSLGTFARPFVGL
+KNYATLFSQPETWPILKNTALFVTASIAGQFLIGFGLALFFWNEFPGASWLRGLFLVSWV
+MPGLVVGAIWNWILSGDFGVLNYVLRSAGLISGNIFWRSDPAFALWAVILANIWLGISFN
+MILLSVGLSSIPKDLFEAAELDGAGAFARFFTITLPMMRATIGAVVSLGLIFTLQQFDLF
+AAITSGGPNNASNVAQYWAWDLSFRQYDFAQGATISVIMIVFVMIASVIYVRSTRQEVRG
+>tr|A0A1Q9ADK6|A0A1Q9ADK6_9RHIZ
+MSGKPAPGGRPRAGLMLGLLGALLAASCLLSLCLGPRGIGLGTVFDALLRFDGSREHLLV
+VTLRLPRMLAAVLAGSALAVSGAIMQAVTGNPLASPGLLGINAGAAFAVVAVMTLTGGAS
+GVPFLWAAFAGAGAAAVTVYLLGAVFSSVHAALGLVLSGAAIATFLTSLTSAVLIFDQST
+LDAVRLWTAGSVSGRTLAEAVGTAPYIGLGLSLAFLLGRHLTVLSFGADAARALGQSPVF
+WRGAAILIVILLAGSAVALAGPIGFVGLIVPHIVRMLIGVDYRWILPFCAVGGALLVVAA
+DCLGRSLLANQGFPVGVTIALIGAPFFIWLAHNRLRSTA
+>tr|A0A1Q9AGC2|A0A1Q9AGC2_9RHIZ
+MKLSRRLVPDIATLQAFECAARHGSFTQAAAELSLTQSAVSRQIKDLENQIGTLLFQRVR
+QRVVLSEGGAKLLPEVRRLLNQSEALMLKAMGSAQAEGALALATLPTFGSRWLTPRLPDF
+LARHPGVTLSVASRSQPFDFAEESFDLAIHYGQPVWAHAHCIYLCSEIILPVAAPSRFSL
+GRPQAPADLARGPLLQLATRPKLWAEWLEGNGAETGGAYRGNRFDQFSMVIEAAVAGLGF
+ALVPRYLIEQELASGALEVVFERPMRTENDYYLVVPEGKTGNGPAQAFCAWIATQISPAS
+GAA
+>tr|A0A1Q9APM9|A0A1Q9APM9_9RHIZ
+MNEKTQKLLSVLKMQPVVPVLIVEDAKSAVPLARALVEGGLKAIEITLRTPAALDAIRAV
+AQEVEGAVTGAGTILNALHYEDAVEAGAQFIVSPGATGELLDVADDHEASFLPGAATPSE
+IMGLLEEGYEVMKFFPAEQAGGAAYLKALSSPFAGTLFCPTGGISLKNAKDYLSLPNVVC
+IGGSWVAPKDLVAAGDWAGITQLAREAFELRG
+>tr|A0A1Q9APY6|A0A1Q9APY6_9RHIZ
+MTFRRDHSATYLAGLLARNLARALQERARALGFAPGQFPVLLELWSEEGLTQKQLVDRLD
+VEQATLANTLSRMERDGLVERRPHPNDRRAQLIFLTERARGMEEQAKKAAEDADAAELAG
+LRQFERELMIEYMRVAIERGQQK
+>tr|A0A1Q9AM40|A0A1Q9AM40_9RHIZ
+MQDDEGAEAALLTETKLTTTKRRWAEEGRFLTGRVTRAGDDRLPPGQHLVQNWPVLDLGQ
+QPMIAPTSWSLDVSGAVETPVHLDWKAFQALPQSSFVSDIHCVTTWSRYDNHWRGVSVHD
+LLDLVRPKPEATHVMLRSFDGYTTNLPLADFAVEDALLATHWEGAPLTREHGGPVRLVVP
+HLYFWKSAKWIERIDLMTADRAGFWEKNGYHMRGDPWTEERYSED
+>tr|A0A1Q9AQB6|A0A1Q9AQB6_9RHIZ
+MSTVSVADAKSGFAGLVDQAANGEFVTITRHGKPAAMLVSIEAGEAAKKALTKPRANFGD
+FLMAYPGPADLERNPSRMRDADFE
+>tr|A0A1Q9AKN2|A0A1Q9AKN2_9RHIZ
+MIEALNDLAGTIREALGERVLSAGIAFGDLTVVTTRDAVISVLTFLRDDPRCRFVNLIDV
+CGVDWPQRAERFDVVYHLLSPTKNLRIRVKVATGEDQPVPSSTAVYPGADWFEREAYDLY
+GILFTGHPDLRRILTDYGFEGYPLRKDFPMTGYVEVRYDDEAKRVVYEPVVLRQEFRNFD
+FLSPWEGTDYVLPGDEKAKAN
+>tr|A0A1Q9AFV3|A0A1Q9AFV3_9RHIZ
+MLTDLMQRFETASSLYAEANGLTRDDDWFMLKLQEEMGELTQAWNRVSGRSRAKGRDAQT
+MARDLADETADVLGHVLLLAHRHGLDLEAAIARKWLFDPSANTAPDASATS
+>tr|A0A1Q9AJQ2|A0A1Q9AJQ2_9RHIZ
+MDDAREGTGIVLTERQRLAWLRLIRSDNVGPATFRDLINHFGSAERALEALPELSRRGGA
+KRPIRVASREEAERELERAHQIGARFVGVGEPDYPPALRQIDGAPPLLCVKGHAPTGITP
+ALGVVGARNASVSGAKFAAFLAREAGKAGYSVISGLARGIDAAAHRATLDFGTIAVLAGG
+LDRPYPPENLPLLSEIVEGRGLAISEMPLGWEPRARDFPRRNRLIAGVALGLLVVEAAAR
+SGSLISARYAGDFGRLVFAVPGSPLDPRSEGTNRLIKEGAILTTGPADILEALAPLGRMA
+RTVPPKADEPERPESPDMPTPDNHARAAILDALSPTPVEIDDLLRYTGLPAQTVYLILLE
+LDLAGRLHRHAGGRVSLALGD
+>tr|A0A1Q9ACW0|A0A1Q9ACW0_9RHIZ
+MIRAALLGATLALAPAFAMAQATPAAQAAPAAMPTEKAEFAKMAGSSNQFEIESSRLALE
+RAQSADVKTFARQMVEDHTKAGKAMMKAAAMKRPADPTPALAPKHAAMLEQLQGAKGAQF
+QMLYVDMQVQAHEEAVALFTHYAKNGDDAALKSFAAETLPVLEMHRKHVMQLAKKK
+>tr|A0A1Q9AGE9|A0A1Q9AGE9_9RHIZ
+MSLFDFIKEAGKKLGIGQDEAAPKAEDVKKELDSHDLGTEGVKVDVDGDKVVLKGSVKDT
+TAFEKAVIAVGNTLGVSKVEASELKVEQPAPTAAAPVFYTVKKGDTLWKIAEDQYGAGKG
+AHNKEIFEANKPMLTHPDKIYPGQVLRIPPLESK
+>tr|A0A1Q9APQ8|A0A1Q9APQ8_9RHIZ
+MTYGIRLKVSGDYACFTRPEMKVERVSYDVMTPSAARGILEAIHWKPAIRWVVDAIHVLE
+PIRFQSIRRNEVGHKAPAGKIKSAMKRGDLEGLNLLVDEDRQQRASLVLVRPAYVIAAHF
+EMTDRAGAEDNEGKHLDTFNRRAARGQCFHQPCLGTREFAAHFELLDPSADLPPAIDETR
+DLAFMLFDIDHQAKGRPSLFFRAQMEKGVVRVPHPASAEVRR
+>tr|A0A1Q9AJF4|A0A1Q9AJF4_9RHIZ
+MPKRILQGTVVSDKNDKTVVVRVERRFAHPILQKTVRRSKKYKAHDENNQYKVGDVVSIE
+ECAPISKDKRWTVVAAHA
+>tr|A0A1Q9APE5|A0A1Q9APE5_9RHIZ
+MATTILADGGEAYQTKGGIAVTRRRREAAYGTSIARYVDQLDERRGAVFSSNYEYPGRYT
+RWDTAIVDPPLGISSFGRALWIEAYNERGEVLLELIAAHLEGTDDVTLGARTARRLDLTI
+DPPTRVFTEEERSKMPTVFTVLRAITGLFFSPEDASLGLYGAFGYDLAFQFDAIELKLKR
+PDDQRDMVLFLPDEILVVDHYAAKAWIDRYDFAKGDLTTEGRDGDVAPEPFRTVDSIPPH
+GDHRPGEYAELVTKAKESFRRGDLFEVVPGQKFFERCDSRPSEISNRLKAINPSPYSFFI
+NLGVQEYLVGASPEMFVRVSGRRIETCPISGTIKRGEDPIADSEQILKLLNSKKDESELT
+MCSDVDRNDKSRVCEPGSVKVIGRRQIEMYSRLIHTVDHIEGRLRDGMDAFDGFLSHAWA
+VTVTGAPKLWAMRFIESHEKSPRAWYGGAVGMVGFNGDMNTGLTLRTVRIKDGIAEVRAG
+ATLLNDSNPDEEEAETELKASAMIAAIRDAKTGNRDKIARDVAPVGAGVKILLIDHEDSF
+VHTLANYFRQTGATVVTVRTPVPEEVFDSVKPDLVVLSPGPGRPKDFDCKATIKKARARE
+LPIFGVCLGLQALAEAYGGDLRQLAVPMHGKPSRIRVLEPGLVFSGLGKEVTVGRYHSIF
+ADPSTLPRDFMITAESEDGTIMGIEHVKEPIAAVQFHPESIMTLGHDAGMRMIENVVAHL
+AKRAKVKAA
+>tr|A0A1Q9AHA5|A0A1Q9AHA5_9RHIZ
+MARDTTDATPISSIEDLTDYLAGGSKPKEAFRIGTEHEKFVFFKADHAPVPYEGEASIAA
+LMKGLSEKTGWEPILDGPAIIGLSGPDGRGAISLEPGGQFELSGAPLETLHETCRESNRH
+LADLKAIADPLGIGFLGIGGSPLWSLDETPRMPKSRYDIMTRYMPKVGTQGLDMMYRTCT
+IQVNLDFSSEEDMRRKMQVSLKLQSLATALFAASPFTEGRPNGLLSWRGEIWRDTDNQRA
+GILPAAFRPDFGFADYVEWALDVPMYFVVRDGRYHDCTHITFRQFMAGALKGEVADWQPN
+MGDWTNHLSTLFPDVRLKRFLEMRGADGGPWRRICALPAFWVGLLYDDGALSAAEELTRR
+LSYGDVITFRDQVPSRGLKAEVNGLSMLDLAREALAISRQGLQARGRLNAEGADESHFLA
+PLEEAVARRSTLAEELLALYHGRWNQSVAPIFTDYAY
+>tr|A0A1Q9AMK4|A0A1Q9AMK4_9RHIZ
+MDETKRGLDTSAQTAPRPTLKTIAYMTGLGITTVSRALKDAPDIGADTKARVQLVARQIG
+YQPNRAGVRLRTGKTNVISLILSLEEEVMGLTSPIVIGISEVLRDTPYHLVVTPYSASGD
+SFAPVRYVLETGAADGIILSRTEPRDARIALMMERNFPFATHGRTDMGFAHPFHDFDNEH
+FAYEAVCRLAALGRRRILLLEPPPHLTFHRHMRAGFDRAIAEKGLEAVPFSAADIDDSLV
+TIRAAFEARLRQPNLPDGIVSSSAASAIAVIAALESAGLQLGRQIDMVSKVPSDVLGWLR
+PQVITIHEDIRLAGRELAKAVLGRIAGRPVETLQSLSFSGGGGQG
+>tr|A0A1Q9APN2|A0A1Q9APN2_9RHIZ
+MIAVDTSALIAILAREPMADLCAEVLRQSERTVMSAGSLAETMIVATRRGLDREMTRLID
+GALIEIVTVTPERARRAAEAYRRWGKGFHPAGLNYGDCFAYGLAEEFACPLLFVGEDVAR
+TNLVSARTRV
+>tr|A0A1Q9ANS1|A0A1Q9ANS1_9RHIZ
+MIHTLRTSFLAATAACALAGGLLASPAFAATELTFQRFFGACDADFGSNTDVSKAVGECG
+IITSMVNKFNADNPDIHVAVTTVEWPGYDQLTAQFAAGDPPDIVTIHHSALSDYQTKGLL
+LPLDDLLAANGIKPADFTDASRNGVTKDGKIYGLPIDNWTMLFHINMDLFKQAGLVDASG
+KPILPKSVDELLAQAKQFKEKTGKPYLIQNLANETALYTRNLYTYLFQQNSDFFADPTKV
+KINTPEAKKVVEMYKAIFDQGDTTKDLDYAASINAFLAGEGGVHLNGTWMIGDYNASAEK
+PGTALNKGGYAVYPYPQLFSGKHAQYADGHSLAVSQKDRSEEQTAAIGKFLKFMADHDFD
+WSRTGHLPAMKAVLDSAAFKALPHRDTVAPIAELGTSLPGAVQRQFAIQDIIGQEMSAAI
+TGQKEVDASLADMESRINELLANL
+>tr|A0A1Q9AHY9|A0A1Q9AHY9_9RHIZ
+MAAQKGRKPTQKEFEAIFGSSQMGSLARVVWPWYYWWMRYEIAKAKTPKDIAVVNAVHRA
+HQFWCTCGLVLGAPVVLVIAFLMMGR
+>tr|A0A1Q9AMK2|A0A1Q9AMK2_9RHIZ
+MLLEYFQMIDRVETADAEAGVLTAHSTVPMQSPVFDGHFPGYPLVPGVLLIETMAQASGL
+LVLAKTGFSAMPFLMSVDGAKLRSFVEPGAELSIEARLEHDGSGFAVTKARIEVSGRKVA
+DAQLKLKTVSFDQVPLGPAVLARAEEIGLQAALAAAQGA
+>tr|A0A1Q9AMM0|A0A1Q9AMM0_9RHIZ
+MRRFRLSRYLTLALLATSIQFGGLGFAYADQTILNVSYDPTRELYKDFNAAFSAKWKADN
+GETVTIKTSHGGSGKQARSVIDGLDADVVTLALEADIDAIAKETGKIPADWKGRLKNNSA
+PYTSTIVFLVRKGNPKGVKDWDDLVRDDIQVITPNPKTSGGARWNFLAAWAYGRAANNGD
+DAKALDYVTKLFKHVPVLDTGARGATTTFVQRGLGDVLLAWENEAYLSLLELGPDSFDIV
+TPSISIKAEPPVALVDGNVDAKGTRKVAEAYLDYLYSDEGQKIAAKHFYRPFRPEVADPK
+DIQRFTDVKLVTIDDFGGWKEAQPKYFGDGGVFDQLYKPGQ
+>tr|A0A1Q9AFL1|A0A1Q9AFL1_9RHIZ
+MRIIGVDFTSAPRRAKPITAAECLLRGDSLSFSQMHRWTDFAEFEAALAAPGPWVMGLDF
+PFGQSRRFIETIGWPRDWATYVAAMATLSRSQFREMLTAYRLPRASGDREHQRGIDRHTG
+GISPQKLHGVPVALMFFEGARRLLEAGVHLPLLKDGDPERIALEAYPGVLARALIGRRSY
+KNDTRSKQTPALAAARRDLLASLTGAAFAQDHGLAVAAPVSLAEDATGDELDALLCAVQA
+AWAFQRQASNYGFPAEADPLEGWICGPHCAASGVPLGAPPGAC
+>tr|A0A1Q9AN71|A0A1Q9AN71_9RHIZ
+MSAKIYRPAKTAMQSGKAKTHLWILEFDQDVPRTIDPMMGYTSSADTRQQVKLTFDSAEQ
+AVAYAERNGIDYRVIAPKDATRKAVSYSDNFRYNRLQPWTH
+>tr|A0A1Q9AIJ3|A0A1Q9AIJ3_9RHIZ
+MDGSGSASADAKAPAAASAAALPEDGRPAARANPASVLFMCGMNSIRSPMAEALAHTILP
+GSVYVASAGVRKGERDPFVDVVMEEMGLTLGRHQPHTLDDLEDDYFDLIVTLAPEAHHAA
+LELTRSMSVDVIYWPTPDPTVATGTREQILDAYRAVRDHLALLIRQRLAGGRKPTGN
+>tr|A0A1Q9AE02|A0A1Q9AE02_9RHIZ
+MLLLTLLLVVLDGAIANVALPSIARSLQADAASTVWVVSAYQLAVLVAILPCGALGEIHG
+PRRVYLSGVALFTLASAGCAFAENLTFLVLARFVQGLGAGAIMGLAMMNLRAAVPQRMLG
+TIIGLNAMVVAISSAAGPGIAGAILSVASWPWLFAVNLPLGILVLAGGRLLARVEGRKRR
+LDLSSLLANTLMFILFFCGAERIASEPVIGAALIGGAIVCLSLLLHLERGKEAPLIPTDL
+LAAPDFRVALVASVACFCGQMLSYIALPFYLQHSLNMPPALAGLYLMPWPIATAIMAPLS
+GRLANSIKTAWLCATGGALLAAGLLIAGLSPPDPYGIAFLIGAVMAGAGFGLFQTPNNRI
+LLLSAPKARSGAAGAMQGTARLTGQTLGGISMSILFASLPLSAALHGAVLFAAACAMIAS
+LVSLSRGRYEAVGQAGAA
+>tr|A0A1Q9AL47|A0A1Q9AL47_9RHIZ
+MSWIAIGEIDDIPLRGARCIKTPTAKIAVFRTADNAVYAIENRCPHKHGPLSEGIVHGAA
+VTCPLHNWVISLETGAALGADEGTVRTFPVRNDNGRLSIALAEPALAAAE
+>tr|A0A1Q9AI90|A0A1Q9AI90_9RHIZ
+MCLAIVLPLLWVLRVSFVAPEQSYSTTLLPGFSTQNYQALLSGRFGRSYLNSIVVSLGSV
+LIALPFAAMTGYAFARFSTGGRFARFLMLATQMLPPVALVLPSFTLLKGLALTNSLTGLV
+LVYAALNLPFLTWILMGFFKAIPVDLEWAALTDGATAWGAFWRIVLPVSLPGLAAAGVLG
+FILSWNEFLFALVLSGPSTQTIPVALAALQTSNGVQIGNVAAGVVLAILPLVVASRFIQR
+FLVEGLTYGSVK
+>tr|A0A1Q9ANM6|A0A1Q9ANM6_9RHIZ
+MKINLDHVVKTFNTFRAVHDVSLSVESGELVALLGPSGSGKTTLLRMVAGLEFPDAGQIR
+FGEQDATQIPVRERGVGFVFQHYALFPHLSVADNIAFGMRTARAARRSKAEIDARVEELL
+RLVQLSSLGNRFPAQISGGQRQRVALARALAVDPKVLLLDEPFGALDANVRRDLRRWLRE
+IHAELGITTLFVTHDQEEALDLADRVVILQQGRIVQQGTPRAVTRQPNSAFVMRFLGDTH
+QLSATAKGGQVTLGDLSLDATGLADGPVDVFVRPADLEWAGQGSGDQPGPGLPATVTRVI
+DRPGARRLAVSFEGHGLELDVAPEVEVAAGDRGRLRILRSRIFPA
+>tr|A0A1Q9AFX8|A0A1Q9AFX8_9RHIZ
+MAKILITEDEDSLRRFVARALQLDGHETAEAGDGAEGLARLNEESFDLLLSDIRMPVMDG
+IALVHEAAAAYPDMKILLMTGYAEQRERANDLAAKVVDVVPKPFTLPDIRRAVAEALAA
+>tr|A0A1Q9AHJ0|A0A1Q9AHJ0_9RHIZ
+MRSLFHLAYHVTDLDAARGFYGGILGCEEGRSTETWVDFDFFGHQISLHLGTPFEVTRTG
+KVGDHKVMMPHLGVILPLDDWFALAERLEKGGIAFDIPPVIRFEGEPGEQRTMFFFDPSG
+NPIEVKGFKDFDSVFAR
+>tr|A0A1Q9ANA6|A0A1Q9ANA6_9RHIZ
+MTDGQALRAVAALDFPDLSPGAVEGAPPVMRMVAPAELWVDESYQRGLSERSVRLIRKIV
+SEWSWAAFKPPVVVEVDGRLNVIDGQHTAIGAVTHGGIPAIPVMVIAAPKRETRASAFVR
+HNRDRISVTSTQLHAALVSAGDEDALTVDQVCARAGVKILKHPPSMARFAVGETLAVSVI
+SGLVNRRHARGAREVLEVCVKAGAAPVSAALIRAVEHLLHSAEYKGEIDAERIAVVISAQ
+MSTLFSEAQRFGHERKMPLWRALASVIYLNRKRVRHG
+>tr|A0A1Q9APA0|A0A1Q9APA0_9RHIZ
+MLYGGFKALFGSPYLYIAAGLTGLLFPFWRSVNNEGQRLWAQTAIDTVPSMLGFSMGGMA
+IMLAFSNASIFRAITQSGSPTSYFVTVVANFYHFILVQTLAIILALLCMAYPNDGTSVVG
+FLSFTYAILVGLATAGQLLGTAQIFNASGSLPERDDPSKPSDDN
+>tr|A0A1Q9ACB9|A0A1Q9ACB9_9RHIZ
+MTSQNGPLRVGIGGPVGSGKTALTDKLCKAMRDHYSVAVVTNDIYTQEDAEALVRMQALT
+SDRIVGVETGGCPHTAIREDATINLQAIADLNRRIPDLDVVFIESGGDNLAATFSPDLAD
+LTIYVISVCQGEEIPRKGGPGITKSDLLVINKRDLAPYVGADLDVMERDATRMRDSKPFV
+FSDMKRGEGVERIVEFLRVQGGL
+>tr|A0A1Q9ADT1|A0A1Q9ADT1_9RHIZ
+MSNTPDVTLKKTLNTFHLWGIAVGLVISGEYFGWSYGWATAGTLGFLVTTTVIAAMYVAF
+IFSFTELTTAIPQAGGPFAYSLRAFGPTGGAIAGFATLIEFVFAPPAISLAIGAYLNVQF
+PGLDPKMAALGAYILFITLNIIGVQIAATFELFVTILAVGELLVFMGVVSPAFSFAQFAA
+GGWSGEDTFSVASIGGIFAAIPFAIWFFLAIEGVAMAAEEAKDPKRTIPVAYITGVLTLV
+ALAFGVMLFAGGSGDWKALSNLNDPLPQAMKTVVGESSGWLHMLVWLGLFGLVASFHGII
+MGYARQIFAMSRAGFLPEFFSRLHPRFRTPHVATVAGGVIGVAAIFSDNLVSIAGQSLTA
+SIVTMSVFGALTMYIMSMLSLFKLRQSEPGLARPFKAPLYPLAPGFALGMAVVAFLAMVY
+YNTQIFAVFAGIMLVLVVATRLMRRTVTPVVPA
+>tr|A0A1Q9AJE9|A0A1Q9AJE9_9RHIZ
+MSDLFAAEEEERLALARPLADRLRPKTLADVSGQAHLTGPDGTLRRMIASGSLGSMIFWG
+PPGTGKTTVARLLSGETGLAFEQISAIFSGVADLKKVFESARARRMGGRQTLLFVDEIHR
+FNRAQQDSFLPVMEDGTIILVGATTENPSFELNAALLSRARVLTFKPHDAESLSELLTRA
+EAAEGRPLPLDEGARASLVRMADGDGRAVLTLAEEVWRAARSGEIFDAAALQDIVQRRAP
+VYDKGQDGHYNLISALHKSVRGSDPDAALYYLCRMFDAGEDPLYLGRRLVRMAVEDIGLA
+DPQALVICNAAKDAYDYLGSPEGELALAEACVYLATAPKSNGVYTAYKAAMRAAKEHGSL
+LPPKHILNAPTKLMKGEGYGDGYRYDHDQPDAFSGQDYFPEKMGRQTFYDPPERGFEREL
+RKRLDWWSKLRKERSQG
+>tr|A0A1Q9AQC0|A0A1Q9AQC0_9RHIZ
+MEAVMSTRFENAELLAALWLLGAEGERLPTSHGILDKALKECMGVLPSTLSASLSFGVTG
+VGLRCYELPDILLAAQEALLTTEPNPTYLSSLVTLDEDSARQIVLSYGLSTSKAREIGES
+LLASVKRTRAAVKQAAAA
+>tr|A0A1Q9AE49|A0A1Q9AE49_9RHIZ
+MFNEFKQFIARGNVMDLAVGVIIGAAFSKIVDSVVNDLVMPVVGALTGGGFDFSNYFLPL
+SAKVTASTLAQAREQGAVFAYGSFITVLINFLILAWIIFLIVKGVNRLRASVEHDKKTGK
+ADPAPPPADVQLLTEIRDLLKVNARPQTP
+>tr|A0A1Q9AK04|A0A1Q9AK04_9RHIZ
+MRLKTAFAAALLVLTASAASAQTIDVPAGTYVADKAHTNLLWSVSHFGLSHYIGRFDSID
+AKLQLDPKDPAKSKLEVTVDPKSVDTNDGAAGKDFNAEIASEMFFDAAKFDKITFVSKEI
+KTTGKDTGTVTGDLTFHGVTKPVTLDVKLNAALNPHPMSKKPTVGFSATGTIKRSDFGVT
+TLVGPVGDDVKLTIESEFVAQ
+>tr|A0A1Q9AJL0|A0A1Q9AJL0_9RHIZ
+MPTRFNRPSSRAPRPDAETLAVTALGWIAGDAEQISRFLALTGADVSDLRQAAGEPGFLA
+GVLDFLMGHEPTLMDFCAAHAVEPEDVAQAWQKLSGRFLDSGQI
+>tr|A0A1Q9ALY4|A0A1Q9ALY4_9RHIZ
+MSTALDDARAALKERQGLGARYDAPGAPARELDWARRGTAYFARILNDLPDDALDEPSAI
+IGFSRRRLIAQIGYQARLFSEIVAWARSGQTAPFPKEAAVSPDDLEFGITQPSRALRYLF
+EHSAIHLNVEWRDMTDAVWDQSVTDIKGKSVNLRQTPLLRAKSLWQHALDLKAGGREADL
+PIELR
+>tr|A0A1Q9ANF8|A0A1Q9ANF8_9RHIZ
+MADAKPVGNGEPDWLTFARRYSGLSEIKGRAHAPEILEMWRILGLSYRDDETPWCAAFVG
+FVLESCGFASTRSAWARSYENWGQGIKAPAVGAVVTFKRDGGGHVGFVTGRDQRGYLMVL
+GGNQADAVNIKPFDPKRVTAYRWPPGQALPIGAVPVVASNQALSTNEA
+>tr|A0A1Q9APB0|A0A1Q9APB0_9RHIZ
+MDATAFEDKTTAPLSAPMHAARRHDSAHKHVAGSADYIDDMPEPAGTLHAALGMTDRAHA
+QILSMDFTDVEKTPGVVCVLTARDMPHSNDISPSHLDDEPVLADGLVQFHGQPAFAVIAE
+TREQARRAARLAKIVYRDLPHVIDPAEAIEQGAPLVTKPLTLKRGEAEAALDQSPRTLKG
+RMRIGGQEHFYLESHIAFAIPGEDDDVTVWSSTQHPSEVQHMVSHVLGVPSHAVTVQVRR
+MGGGFGGKETQGNQFAALAAVAAKKLNRPVKFRPDRDEDMTATGKRHDFVVDYEVGFDAD
+GHILAVKANYAARCGFSSDLSGPVTDRALFHADNAYFYPHVLLTSQPLKTNTVSNTAYRG
+FGGPQGMVGGERMIEEVAYALGLDPLEVRKRNFYGEPGSGRDLTPYHQEVEDNIIARLVD
+ELERDADYQARRKAILAFNETSRVIRKGIALTPVKFGISFTMTAFNQAGALVHVYQDGSI
+HLNHGGTEMGQGLYTKVAQVIADCFQVDLERVKITATTTGKVPNTSATAASSGSDLNGMA
+AFDAARQIKERLIAFAAERWQTTPDAIRFVPNHVEIGTERIPFPELVKLAYFARVHLSAA
+GFYKTPKIHWNRETGRGMPFYYFAYGASCSEVSIDTLTGEYMVDRVDVLHDVGRSLNPAI
+DIGQVEGAFVQGMGWLTTEELWWDDKGRLRTHAPSTYKIPLASDRPKIFNVKLADWSENR
+QPTIGRSKAVGEPPFMLPISVLEALSMAVASVDGYRQCPKLDAPATPERVLMAVERLKRG
+>tr|A0A1Q9AMR6|A0A1Q9AMR6_9RHIZ
+MSFAGDLRTGFTGDVERKDSATEKLNKAAQSAQAEIGAVAAHAKDHPSATAMSALTIAAV
+AFLAGYVLGQGRRETNRWDRIW
+>tr|A0A1Q9ADM7|A0A1Q9ADM7_9RHIZ
+MPAKPPVRATRAHPYLALLSVCLAAAAMPLTFTGTAVALPSIAGTLGAGPVATAWVTNAF
+MLTFGSALMASGALADSLGRRRVFLFGAGSFALFSLALTVAPDILLFDLLRGGQGLAAAA
+AYAGGAAALAQEFDGPARLRAFSVVGTSFGVGLSLGPVASGAMIESFGWRSIFLAVVFLT
+TLAFLIGRLVLKESRDPAARGLDWPGAAAFTAMLALFTYGMLLVPERSWGDGLVLGLLLA
+AALCFALFIGIERTVARPMLDLSLFRYRRFVGVQLLAAAPAYGFVVLLILLPLRFVGIEG
+MSAVAGGGLMIALSAPLLVLPIVAGWLARWLRPATLCGGGLIVTAAGLVWLAALPPGTPP
+AVLALPMLVIGTGISLPWGLMDGLAIGVVPKERAGMAMGIFSTVRVAGEGVALAVVGAIL
+SLLITGRIQAAGLPGQPQVAGQSLAIGDLKGAMAALPGADPAEILTLYGAAFSWLLLLLA
+AITTLTALVVFLSLGEAAEREESVASGAGH
+>tr|A0A1Q9AJQ5|A0A1Q9AJQ5_9RHIZ
+MNILHIDSGILGEHSVSRRLTAAVIERLRAEHPEATVVTHDLVAEPVGHLTGADLGAAPA
+GRDVLAEFLAADVVVVGAPMYNFTIPTQLKAWIDRLLVAGKTFRYTETGPEGLAGGRKVI
+IASARGGVYSEGAPAASLDHQEPFLQSVLNFIGVTDIEIVRAEGLAMGAEAKAAAVDAAL
+ADIASRESLRQAA
+>tr|A0A1Q9AH39|A0A1Q9AH39_9RHIZ
+MSKTVCAHHPDLSGCGVLITGGASGIGAALVEGFARQGARVAFIDIDASAAQALVERLSP
+GLAHPPLFLHADLRDTVRLHACVRQAAEQLGGLRVLVNNAARDDRHDLETMEEADWDEAL
+DINLKPLLFTAKAAAPYLQASGAGAIVNFSSIAYLLNMGELPAYSAAKAGIIGLTKSLAG
+RLGPKGIRVNALLPGMVVTERQKALWLTDGAIAAMIDRQCIKRSLVADDMVGPCLFLASQ
+GAAALTAQAIIVDGGVL
+>tr|A0A1Q9AQ49|A0A1Q9AQ49_9RHIZ
+MNAVDFILSGMLAAATPFLLAALGELVVERAGVLNLGVEGLMALGAVIAFIVVYHGGGHM
+LAFAAAGLASVLLSLVFALVALGFRANQVATGLAIGILGQGLSALFGKTYESLTVKGLPK
+LALPGLSDLPVIGGLFVQDVVVWLSLLLTLMIWAGFAFSKTGLVLRAVGENPKAAHAIGY
+PVIAVRVAAIAFGGLLAGFAGAYASVVYTPLWADGMIAGRGWIAIALVVFGTWLTGRIFL
+GACLFGAVSLMSLAAQATGVELPSQFLSSLPYLVTIIVLGIISANKRLLKLNGVASLGEP
+FER
+>tr|A0A1Q9ADC0|A0A1Q9ADC0_9RHIZ
+MSDGAVGPGHPVLAAERISKSFGEVQVLFSVDFDVRAGEVHALMGENGAGKSTLVKILSG
+FERPSAGRILLDGEPVTLPQNGAAEALGIVLIHQEFNLADHLTVAESLFLGREVLRFGLL
+NRKVMRAEARRVLDELGARIDENALISSLAVADKQMVEIAKAISRKARIIFMDEPTAVLS
+REETALLFKQVRRLKAQGVSFVFVSHKLDEVMEITDRVTVLRDGQWVKTAPTSALDGEAI
+AQLMVGRELSSLYPAKHEPDVDEALVLQVKGLTTGYVKNVSFDLRKGEVLGFSGLIGSGR
+SELMEAVAGLRPRIAGEVMLHGAPLAPLAFREANGRGLAYMTKDRKGKGLLLDEPMTPNL
+TLQSIDQHVRHHYLDPASEARALARARRRFDIRVRDERVKAGRMSGGNQQKLLLAKIMET
+EPDVIIIDEPTRGIDVGTKQQIYHFIAALAREGRSIIVISSEMPEVIGLCTRVAVMREGE
+LVGMLEGEEVNEQVIMRYAAGLKRRGAAA
+>tr|A0A1Q9AI09|A0A1Q9AI09_9RHIZ
+MLIAGCNIVLTGSVEIVFLRGSQKRRGDGWMDHRDDDDLDMLELSRRAMADLDAMSVEFE
+LGAQGILAGLHRAQDEARGEAMGMTARPFDEDTRHKLVDAVFLPTLGGEVLRNGQRLASP
+TFKASTLERAIRHGHLAGRKDANKLTVSIRELREWLALGGLSEPTKTTRSPRTEAAVAAR
+EKERKTGAAISTMSILDAALLNAKKQKRK
+>tr|A0A1Q9AI83|A0A1Q9AI83_9RHIZ
+MRRARSFGTALTGALTAGLRDGRSLEDVLRQTALRLSDIALQAGLQPLQNLVGATASSLI
+EGLGKAAGATPGLTPGSSPNLAIAAGERGAAAAPASSPLAAAAASAFTADGQFATPALLR
+QAASARDPGLSEPVSAGMPASAAAPAAPSVVFNIRTEDAASFRRSEGQIAAMLSRTVLRG
+RRGL
+>tr|A0A1Q9ACD6|A0A1Q9ACD6_9RHIZ
+MTRMIASLLLAGAASLMALQAQAADKVTLQLKWVTQAQFAGYYVAKEKGYYEAEGLDVEI
+KPGGPDIAPPQVIAGGGADVIVDWMPSALATREKGVPLVNIAQPFKKSGMMLTCLKESGV
+KTPADFKGKTLGVWFFGNEYPFLSWMSHLGLKTNGGPDGVTVLKQGFNVDPLIQKQAACI
+STMTYNEYWQVIDAGIKPEDLITFKYEDQGVATLEDGLYVLEDKLKDPAFKEKMVKFVRA
+SMKGWKYAEAHTDEAAGIVLENDATGAQTEKHQKRMMSEVAKLTAGSTGALDEADYKRTV
+ESLLKGGSDPVITKEPAGAFTHEITEAALK
+>tr|A0A1Q9AN68|A0A1Q9AN68_9RHIZ
+MRYIPPYGSADPNAPYVDRNAQTAQRGSAVPAEFFNATQAELLGLIQAGGLTPTQNGQQL
+ATAIQRGQMNFAGASAQGGNQNAWIATLAPVPVDFPAGFTVTLFLFVSNNGPVTLNLNGK
+GAKSVRRSDGSELQAGDALAGEILTLVYDGTVWRAGRPLGNQYLPLAGGTLTGPLTLPGA
+PSQDLHAATRAYVDHPGFVGVASAVTLTQAHLRKYIEVTGGGSYTITLPAPEAATTTGGM
+YWFYNAGASEKTLATPSGNFVGPRGSNGPTLTLPRNAFVWVIAGYDNWVVVYQSYSFTLL
+GAARTLPPSALGGYVQLGGATTYTVTLPNPSDFSGAELEIYNSGSIAYTLATPSGQFVGP
+KGSGAATVSIPAGEYFMLRAGTVHWIAH
+>tr|A0A1Q9AFZ6|A0A1Q9AFZ6_9RHIZ
+MRRPKSMRGLETLGRVRLSESFFLRDFLHSEIASLHGFANIPDDPDRAIETGSQLCQQLL
+EPLQKTFGRLHIRSGYRSPEVNDFGNRHGLNCASNAASAAGHIWDALDAEGHKGAMACIV
+VPWVWDRHQQPGDWRRLAWWIHDHLPYATLEFFPKLWAVNIGWHERPARRITSFAHPRGL
+LTRPGMEGHNGLHAEHYAGFPPLER
+>tr|A0A1Q9ACQ1|A0A1Q9ACQ1_9RHIZ
+MDVNGVGWLAAIIIGGLAGWMAEQFMKSNMGLFMNIILGILGAVVLNAILSFAGLSFAGW
+LAYLVIGFIGACLLIAVGRAVRH
+>tr|A0A1Q9ADY1|A0A1Q9ADY1_9RHIZ
+MRVLTDADLVRYVTLPQSGRGPRRIQWKADMIRVALLAAHGGVWVDATAFCVRPLEDWLP
+PLMQSGFFAFEDPYPGRCMQNWFLAAAPGNPLVTRWLAQMARYWRKDGKLLHYFWVMHMF
+EFVVRTDRTAAEIWARTPKLSPKGPSLLKRLITQKDLAEPIPDAVDLHAIPVLKISSSTR
+SDDPEFNAAIAERRDIDLAVMVARLLAR
+>tr|A0A1Q9AHW3|A0A1Q9AHW3_9RHIZ
+MNTRFLETFIWAARLSSFSAAAERLHTTQASVSNRIAALERELGVTLFTRDVRCVNLTQA
+GRLALEHAEKIVSLTGEFRQTVSRREALRGTIRLGAADTIVYAWLPLLIRRMNEQYPGVS
+LDLSIDTSLKISQRIQGGDIDLGFIMGPVLAPEIYSAPLCIFESCWVGATGLDLPEGSLT
+LDDIAHFPLLTFSAGSQPHQALRAMLDAHGLSDSRIYNSNSLSIMTRLVAAGVGVGALPR
+VLVEDIIRSGEARVLAISPVVPPLIFHAVYQDRGDNALARAIAQMAREIVAETVNAWMTA
+LA
+>tr|A0A1Q9AND2|A0A1Q9AND2_9RHIZ
+MNVGIDMGTGPEGAPVPMDIEELLATRLLVQGNSGSGKSYLLRRLLEQSAPWVQQCVIDP
+EGDFVTLADRYGHVVIEGERTDGELVGIATRIRQHRVSCVLSLEGLDIEQQMRTAGIFLN
+ALFDADRDYWYSMLVVVDEAQLFAPSVSGDVSEEARKLSLGAMTNLMCRGRKRGLAGVIA
+TQRLAKLAKNVAAEASNFLMGRTFLDIDMARAADLLGMDRRTAEMFRDLKRGTFVALGPA
+VSRRPLKVSIGPVETSARSTSPKLTPLPEVGGNVEDLIFTPDADELTRPLPRRPVASARP
+TTEILAELSKPRPELTPAPAPQSANPRPAQPDMTPEERESLMDQILEEILDNPNAAYRPD
+GELFQDFLVRCRIRRVPGAALSLSAFRRKMAIARSGVDAQTADSEGWRTALDLSRQVTED
+LQGVFLLVAQAALRALPCPSDAMIARAYGTHSARRARRLLGYFEEQGLVVLHSDPFGRRI
+VAFPDLQAETAPGAADAPPEETRAAAE
+>tr|A0A1Q9ANL4|A0A1Q9ANL4_9RHIZ
+MSNAIHSVSPARDSTGARTNSASRVLLASLIGTTIEFFDFYVYATAAVLVFPHIFFPASD
+PTSALLASFATFSIAFFARPLGAIVFGHFGDRVGRKTTLVAALLTMGVSTVVIGLVPSYE
+SIGVLAPLLLAACRFGQGFGLGGEWGGAVLLATENAPPGKRSWYGMFPQLGAPVGLFLSS
+GFFWLLLHVMSQDALLSWGWRIPFVASIVLIAVGLWVRLSITETPDFQKAIDKHERVAVP
+VAELFRNHKRSIVLGTFVALVTFVLFYIGSAYLLSYNTKVLGIPFLDALEVQLFGSVIFG
+IAIPISGKLAEKLGRREVLIATTIAIGLFSFLVPVLLAGALSGVYLFVLIGMFLMGMTYG
+LIGTALAAPFPTRVRYTGSSITFNFAGIFGASLAPYIATYLQSTYGMAYVGYYLGIAALI
+TLACILLSGKDEV
+>tr|A0A1Q9AM55|A0A1Q9AM55_9RHIZ
+MTQKQRRTQAERSAQTREKILKATIDILVEQGMPRLTTALVDQRAGVSSGARVHHFPSKI
+DLVVAATEQAYASAAEIGRKRALSARSAVNPLREYAADCLSVYFEWPFIAALEVVVSART
+DVALMDRLKPVLDGFHRAMKTTWTESLVAAGYPQDIAEEELSLTLNLIRGMAMNKIWQHD
+AATYIAAIDKWCEERLGLFRLLASSRAAETISRVQPQ
+>tr|A0A1Q9AGF5|A0A1Q9AGF5_9RHIZ
+MSQFTLSDLEAIVAERAQASPSESWTAKLVSQGQPRAAKKLGEEAVEAVIAAIGGDRQEM
+IAESADLLYHLLVVLKLAGIPLQDVMSELARRTGQSGLAEKAGRPAQ
+>tr|A0A1Q9ADP3|A0A1Q9ADP3_9RHIZ
+MPTLKDLLTDPTLLRQSGLINGEWIAAGSGKTVDVIDPATQKAIGTVPDMDGEETRAAIA
+AAQAAFKTWKRKTNAERAALIETWFDLMIENLEDLALILTCEQGKPLDEARGEIRYGASF
+VKWFAEEARRINGHTIPAPASDRRILVLKEPVGVCGIITPWNFPNAMITRKVAPALAAGC
+TVVIKPSEFTPYSALALGVLAGRAGIPAGVINIVTGMPTEIGNELMANETVRKISFTGST
+RVGSLLMRGAADSVKRLSLELGGNAPFIVFDDADLDLAVEGALASKFRNGGQTCVCANRI
+LVQSGVYEAFAAKLKARVEAMKVGPGTQEGVSIGPMINAAAIDKIDRHVADALAKGAEII
+TKTQPLPAGGQYTAPIVLTGATTDMLLASEETFGPVAPLFRFETEEEAIAIANGTPFGLA
+SYFYTENLKRAWRVGEALEFGMVGLNTGLISTEVAPFGGIKQSGLGREGAQMGIEEYLES
+KSFHMGGLG
+>tr|A0A1Q9AI65|A0A1Q9AI65_9RHIZ
+MIVELGHYALVLALATAILQALLPLAGALSSDSALMRTGTNAAFAGFGLTLLSFGALTTA
+YVTSDFSVANVFENSHSQMPLIYRFSGVWGNHEGSMLLWLLILSFFSALVAFFGTHLPER
+LKALVLSVQAALAAAFALFILATSNPFLRLDPAPGEGSDLNPVLQDIGLAIHPPLLYLGY
+VGFSVCFSFAVAALIEGRLDAAWARWVRPWALMAWSFLTLGIAMGSYWAYYELGWGGWWF
+WDPVENASFMPWLAGTALLHSALVMEKREALKIWTVLLAILTFSLSLLGTFLVRSGVLTS
+VHAFATDPTRGVFILAILVIFIGGALSLFTLRAGALKAGGLFAPISREGALVLNNLLLTT
+AAATVLIGTLYPLVLETLTGDKISVGAPFFNLTFGLLMMPLLFAVPFGPLLAWKRGDLIG
+AAQRLMAAALLSLVAAAVMLYLRWGGPVLAPFVMGLGVFLMLGALAELGTRAGFAKLAFS
+VALRRLIGLPRASFGTALAHFGLGVTLIGIVSATAYQTEHILEMRRGETVEAGGYSLTFD
+GLRPAVGPNFTEERGHFLLRQGGVSAGEVWSSKRLYTARRMPTTEAGIRTFGLSQLYVSL
+GDARDDGAVVVRIWWKPWILCIWLGALLMSVGGAVSLSDRRLRIGVPAKAPSRPRLSAEA
+AE
+>tr|A0A1Q9AMI3|A0A1Q9AMI3_9RHIZ
+MTVVSGFLWDQGNWPECGKHSLSQTEIESLFEIGPSIYPDPSEHEERLRAIGKTDSGRYA
+FVVFVLREVDGALWIRPISARFMHAKEIRHYEQG
+>tr|A0A1Q9ACZ2|A0A1Q9ACZ2_9RHIZ
+MSAKTGLIGYTGFVGSTLMRSRAFDARYNSSNIEEIRGRHFSTLVCAGVSAVKWLANKEP
+EQDKAGIIRLTDPLETVTADHFVLVSTVDVYPAPVAVTEADQPDPASAQPYGRHRRELEL
+WAQARFKRCTIVRLPGLFGEGLKKNPIYDLIVGNQVDKIVPNGVLQWYPMRRFAEDLDKV
+VASGHEVINVAVEPIETAAIVDMFFPGTAIGAPSPAAPRYDMRTLHAPLLGGEGDYHIDR
+ATMLGELKRFIEGARA
+>tr|A0A1Q9ALR1|A0A1Q9ALR1_9RHIZ
+MSITLFVPADAAAVALGADRVAAAIRREAEARNLDVTLVRNGSRGMIWLEPLVEVETATG
+RVAYGPVTAKDVSGLFDAGLLDGNAHPLCLGATEDIPFLKSQTRLTFARCGITDPLSLED
+YRRHDGLKGLEKALSLTPAQIVAEVTDSGLRGRGGAGFPTGVKWKTVAGAEADQKYIVCN
+ADEGDSGTFADRMIMEGDPFVLIEGMAIAGIAVGATKGYIYTRSEYPHAIAVMEEAIRRA
+RAAGVLGLSVMGSAHAFDMEVRAGAGAYVCGEETSLLNSLEGKRGVVRAKPPLPALQGLF
+GRPTVVNNVLSLASVPIILDRGAAFYRDFGVGRSKGTIPIQLAGNIKHGGLYEIAFGLTL
+GEIVEGIGGGTASGRPVKAVQVGGPLGAYFPRDLFDTVFDYEAFTAAGGLIGHAGITVFD
+DTVDMLAQARFAFEFCAVESCGKCTPCRIGSTRGVEVVDRIAQGVEPEANKVLLTDLCNT
+MKFGSLCALGGFTPYPVMSALTHFPQDFQPAPLVEAAE
+>tr|A0A1Q9ALU1|A0A1Q9ALU1_9RHIZ
+MTFNRFFLSLVSAGVLALAANPAAAEDKQLTVYTYESFTSEWGPGPKLAELFEKSCACKV
+NYVSVADGVELLTRLKLEGPSSKADVVVGLDTNLVAEAKATGFFAPHGVDTSALTVPGGF
+KDDSFVPYDYGHFAVVYDTQAIKTPPKSLKELVEGDSKEKIVIEDPRTSTPGLGLLLWMK
+AVYGDQAGAAWAKLKDRILTVTPGWSEAYGLFTKGEVPMVLSYTTSPAYHMVAENSDRYQ
+AADFAEGHYIQIEVAGLTKSSHDPDLAKSFLAMLAGPQAQAILPTTNWMMPVAKPAEPLP
+AAFDRLVTPSKTLLIPSEEVAANRRAWIEEWLAAMSRQ
+>tr|A0A1Q9AFN0|A0A1Q9AFN0_9RHIZ
+MSKAAPAPRRPRLGFLGVGWIGRNRMEAIAATGAAEIAAICDPSPAMIEEALASAPDAHR
+VASLEDLLAHDLDGLVIASPSALHAAQSIAALERGIAVFCQKPLGRSKAEVEAVIDAARA
+ADRLIGVDLSYREVEAVKAIRALVREGGLGRIFSVDLTFHNAYGPDKPWFYEKTLSGGGC
+VMDLGVHLVDMALWALDFPEIEGVEGQLFAGGAPIAAASDQVEDFALATIRVKNGPVIRL
+SCSWKLQAGQDAVINATFYGTGGGAALRNVAGSFYDFTADAFHGTRSERLIDPPDAWGGR
+MAARWAEQLATRKSFDPAVEHLVAVTEVLDRIYGRG
+>tr|A0A1Q9AH83|A0A1Q9AH83_9RHIZ
+MAQVTREIVLDALRAVRGPDLEGNIVDLGLVSDVFISDDKVYFSITVPAERARELDPLRA
+AAERCVKELPGVKGAMVALTADRRAGQVAPRPAPAASPAAHSPTAHSHAGHSHAGHGHTG
+HAHAAPSQGGGAAPRQPTAAQKAGIPGVGAIIAVASGKGGVGKSTTSVNLALALQTNGLK
+VGILDADIYGPSMPRLLKLSGRPQQVDGKLIRPMENYGLKVMSMGFLVDEEVAMIWRGPM
+IQSALLQMLREVQWGDLDVLVVDMPPGTGDAQLTMAQQVPLAGAVIVSTPQDLALIDARK
+GLAMFRKVEVPVLGIVENMSYFIAPDTGNRYDIFGHGGAEREAHRIGVPFLGGVPLTMGI
+RETSDAGTPVVVSEPEGEPARIYRAIATKVWEQVSARAADSGRVAPRIVFE
+>tr|A0A1Q9AE90|A0A1Q9AE90_9RHIZ
+MPVLPPDADRRAAARRGFLSLAAVSGLAFLASCAGKPVPVAPGVGRDETDAVLGALNQLR
+KDKGLSPLSRDPAAVEAARYQAARMAKAGKMAHLLSISDSFLDRMKGGSVRLPAAENIAA
+GQKDAAAAYQAWLHSPKHLENMLGAHYTGLGVAMVANPATGNRPYWAMVLSSG
+>tr|A0A1Q9AFR3|A0A1Q9AFR3_9RHIZ
+MTKTLRTGFLAASLLALSSGVAFADYTLEILHINDFHSRLESINKFDATCSPEDEAKKQC
+FGGAARLKTILDQRRAALTGQNLLVLNAGDNFQGSLFYTTYRGTAELDVVNALKFDAMTL
+GNHEFDDGEKALAPFLDKVQFPVVSANVEIKPGSTLGDHVKRSTVVEIGGQKIGIVGATT
+VDTPELASPGPNVTFTDDVAAITAEVQALKAQGVNKIVALTHVGYNRDVDVIAKIPDVDV
+VVGGHSHTLLSNTDPKAAGPYPTLSDNPGGYKVPVVTAASYGKYLGDIVITFDDNGVVKS
+AKGDPILLDSTIAPDPGMLAQVAELAKPIAEMRAKIIGKSEAPIEAAREVCRARECSMGN
+LVADAMLARVKDQGIAIAIQNGGGLRASIDGGDVSQGEVITVLPFQNTLATFQLTGADIK
+AALENGVSQIDDGAGRFPQVAGLKYSFDKSKPAGSRVSDIQVKEGDAFVALDPAKTYGVV
+TNNYMRGGGDGYSVFAKNGKNAYDFGPDLADVTADYIAAHSPYKPYTDGRITDLTPADYK
+PAPKPETAQAPAATAPATTAPATTAPAAPAPATPAAPASPAASAPAAPAPAAPAAPAPAA
+PAAPAPATPAAPAPTAPAPAPAAPAPAPATPAAPAAPAAATGGPQTHVIVKGDTLWDIAE
+KAYGDGEKWRIIFDANGKPAPRRLLVGTELTIPAQ
+>tr|A0A1Q9AMT6|A0A1Q9AMT6_9RHIZ
+MMRALSDLRDLEARLESVGARARQDAEACGSSVFYAGQNRDGAIMEMTAQGERKSFTVSQ
+GVEHHAAE
+>tr|A0A1Q9ADL5|A0A1Q9ADL5_9RHIZ
+MTERMAVDMLHGETLAKAADQAVRAIPPAWPLTATVAVNPFLGQVNESLDRTAARLARIS
+GVRLALPRRHYAERVEKGKIRDEDLLAALRASPLPGGMDLAALKAALAEEPQPAEALPTI
+AELAARATGQDWPGLVRERIGSFAAGFFDEGQALWAASRHNGLYAAWRAFATHDLTPEIH
+GLKGFGITVAEAPETADAAIARAAVSLGLGAEPGTYFHQLLLSLGGWAQFARHLQFKAEM
+DGRTDSTALDLLAIRLVFEEALYAGHKVAIESAWQKVRRVHAEPVQADRDILIASVLQLA
+AEHAAQRQLAATLAAPVAAAAVATPVAEGKAARQPLLQAAFCIDVRSEVFRRALESSDSG
+IRTLGFAGFFGLGTSHKGFASFVAEHRLPVLLKPSVFSCSAVEGKADADLKARFNARASR
+AWGRFKLAAVSSFAFVEAAGPVYAAKILRDGLGLGAGLWKGSAKAKGVDAARPRLAADID
+IETQAAMAERILRAMSLTEGFARIVLIAGHGANVVNNPYASALHCGACGGHAGDVNARLI
+AGMLNDRAVREHLRAKGIDIPAGTVFLGGLHDTTTDGVTLFEEDLEQGLAADERARIRQW
+LDNAGRLARAERALRLPLASGDDVAGRSRDWSQVRPELGLAGCRAFIAAPRGRTAGRSLE
+GQAFLHDYVWRKDEGFKVLELILTAPVVVASWISLQYFGSTVAPSLFGAGNKLLHNVVGG
+IGVVEGNGGNLRAGLPWQSVHDGVGFVHEPLRLTVAIEAPKEAIGNVLRQHPQVRALFDN
+GWLHLFALNERGQMAWRYVGDQAWEAAGADEAGVLDRKRAG
+>tr|A0A1Q9AIX5|A0A1Q9AIX5_9RHIZ
+MPGPECGKRTARISSLVARLQQLQRALGGRNFAVLRLSGASLPGARKLTCVLDNWGVHSE
+AMAHNLLSAYGDALVNHLESSILPLVWNGTAPDQIADVSGFEAFTRRLIAGALTQAGVAF
+PVRLGAQGNGYVAVIGGELDLTPEAIIDLHGQACQILTDLLAADERRMLPAEALSEREID
+CLQMAGNGHISEDIAEKMGLSVHTVNAYLGAATTKLDSVNRIQAIAKAIRLGYIR
+>tr|A0A1Q9AKU8|A0A1Q9AKU8_9RHIZ
+MSDVNETSAAPASRETGTSQGPIVPKSPTEALRPEKVPQPPRRSKNAKSQLVIFLNFLMT
+VIVFVTIAAAGALYYAMSSYEARGPLQANTNFIVPNGASIVQIANSLERNSIVSDARVFR
+FMSEAYLDKETLKAGEYEIKAGASMQEVMELLKSGKSILYSTSLPEGLTVRQMFDRLSAD
+PVLEGDLPRELPPEGSLRPDTYKFSRGTKRAEIIAQARAAQATLVEQIWAKRDPSLPIKS
+REDFVVLASIVEKETGIADERSRVASVFLNRLEKGMRLQSDPTIIYGIFGGAGKPADRPI
+LKSDLDKNTPYNTYLIKGLPPTPIANPGRAALEAVANPSRTKDLYFVADGSGGHVFAATL
+DEHNANVRRWRKLEAQRNLPADAKPEGTVPAQ
+>tr|A0A1Q9AHD7|A0A1Q9AHD7_9RHIZ
+MPAADLWIDAPAKVNLALHVVGQRADGHHLLESLVTFADRGDRIGLSPAAEDGFSVSGRF
+AEAVPLEGSNLVLRARDALRAALAEDGKPAPPVALHLVKDLPVASGIGGGSADAAATLKG
+LARLWQAELAPERMSALALALGADVPMCLASRPLIARGIGETITPVETMPVMPMLLVNPL
+KPVSTPEIFRRLSEKTNPPLILPEDLAGLDGWFSALAPLRNDLEPPARLLEPEIAAVDLA
+LRANAPKLARMSGSGATCFALFADHTARDRAAERIANAHPDWFVLPCLTVSSREPTDAAA
+>tr|A0A1Q9ACT9|A0A1Q9ACT9_9RHIZ
+MTRLLYGLAGFRRSQSRAASDRRSRLFLPQIDPRHVLYAIGDVHGCLKALRAAELCIFAD
+LARQNRAGTIVLLGDYVDRGPHSAQVIEHLRQPTPPSVQRIALCGNHDDLFLRFLRRPEK
+HRHWLEMGGDKTLRSYGIDATKLLHSGGLPALSEAMLRLIPSDHVDFLAGLPVFLAYGQH
+LFVHAGIRPSIPLEDQTEEDLLWIREPFLSTGPGLPVTVVHGHTVVKEPIFAEGRIGIDT
+GCYRSGRLTVLKLQENTVDFLPVPPSGE
+>tr|A0A1Q9AGR9|A0A1Q9AGR9_9RHIZ
+MATIGTFKKTGSNEFTGDIVTLSVQAKGVRIVPDLHATGENAPSHRVLVGRAEIGAAWSK
+RSNEGRDYLGLKLDDPSFNAPIYANLFDDEDGEAYSLIWSRPNGRRGD
+>tr|A0A1Q9AHF1|A0A1Q9AHF1_9RHIZ
+MRSGSVTTPFGRRPAKLALVKAQLHAAETKPNKPIGKWQVFRDACEAREHLGLQDRALAV
+LHALLSFYPNDELSEEDGLIVFPSNRQLSLRAHGIAGTTLRRHLAALVDAGLIQRRDSPN
+GKRYVHRDGDGEIERAYGFDLTPLLTRAAELAGLAQEVVAERRRHKLAREALTICRRDVR
+KLLSAVIEDGTDGDWTSIEAQYIAILTALPRNPSRSKVEAALDEMSLLRSEIVSCLENQL
+KTENTDGNDSQNERHIQNSKSESIYEFEPSSGKEQGAAVATKSRPTQPALKSFPLGLVLQ
+ACPQISDYSRDGKIANWRDLMGAAVVVRSMLGVSPSAYEDACIAMGQENAATAIACILER
+AEHINSAGGYLRDLTRRAERDEFSLGPMLMALLRNSSGSQHRSAS
+>tr|A0A1Q9AMD5|A0A1Q9AMD5_9RHIZ
+MMQNLEKRNGRTIDAILITGPTASGKSALALDLARRHGGVVVNADSMQVYDILQVLTARP
+SLEDMEGIDHRLYGHVPPQAAYSTGDWLREAVALLACLEKEGRLPVFVGGTGLYFKALTG
+GLAEMPAVPAPVRERLRARLAEEGAPALHAELAEKDPQGAALLKLNDGQRIVRALEIIAV
+SGRSIQDWQAAGGPIAIAPDKALKIVVQPDRALLAERIDRRFATMFEAGAVEEVEALLAL
+RLPPAMPAMKAIGVPQIAAMLEGDMTPAQVIETSAAATRQYAKRQMTWFRNQLDESWIRL
+DPADGAAKDVIGATSAL
+>tr|A0A1Q9AHM4|A0A1Q9AHM4_9RHIZ
+MTGTEIQPLHGQTVAPIEWPTVALAGVIYGGYLAVTWWWASLPLPLVIVAGAWLIAWHGS
+LQHEVMHGHPTRLRWINDGLGWPPLSLWLPYALYRESHMLHHRDEFLTDPIEDPESSYFT
+RQAWERLGATGRRLASWNTTLLGRLTIGPAVMILAFLAQEAMQLRKGDRARLLLWLRHGA
+GVAIVLVWVVAICGMPLWLYLLGFVYGGASLSRIRSYAEHRYADHHEERTAIVENSPFLG
+LLFLHNNLHVLHHRRPGIPWYRLPALYRRDRQALIALNGGLLYNGYGDIFRRYLVTPHDE
+PRHPLYLENAAKDR
+>tr|A0A1Q9AIU5|A0A1Q9AIU5_9RHIZ
+MEHIAAIMMLVGCSAGNSHCAEIEPPVFAFETMQECQRDLRPAIGTVRRDYGVIYGKCAE
+VDPALEDDYTGIAWHINAQDELEVRLTTTPVKQKILVAENHVR
+>tr|A0A1Q9AIZ8|A0A1Q9AIZ8_9RHIZ
+MMTTTKPLDFLWFIPSSGDGAYLGSDALSRPSDPGYFREIAQAVDRLGYSGVLIPTGVAC
+EESFILATHLAAFTEQLKFLVAIRPGVASPAYYARLASTLDRVSHGRLLLNIVVGGSAQE
+LAGDGIFLPHDERYAHAEEFFQVFNQLLAEGRADLDGRYIKAHNAQLGFPPVQAPRPPLY
+FGGSSDSAIDFAGAQVEKYLTWGETPDQVGEKINKVRAAAARRGREVSFGIRLHFIVRET
+DDEAWEAADRLISKLSDETIAKAQEGFLKNSDSVGQARMQALHGGRRDKLEVAPNLWAGI
+GLVRSGAGTALVGSAKTVAARLKEYQDLGIDTVIASGYPHLEEAYRVSELLFPEIGLGGP
+RNQIRSSFGERQVFGGGGHGGNLRVVSGS
+>tr|A0A1Q9AIY4|A0A1Q9AIY4_9RHIZ
+MEKHVVTVAGEAVGVLVPCKDDMQFVAVKLDAWDLDGRLYPSRSEAERQIRQHVALIRRE
+RQLDFGPSE
+>tr|A0A1Q9ANU2|A0A1Q9ANU2_9RHIZ
+MKLYLASLGAGLVVGLIYSLLNVRSPAPPVVALVGLLGILLGEQILPLARTLMNRDPVAV
+SWRHHVKPHVFGHLPKAQKPEDGTPS
+>tr|A0A1Q9AIK9|A0A1Q9AIK9_9RHIZ
+MTSIITNGAALAALQTLRGINSNMEQVQNRVSSGYRVETAADNAAYWSIATTMRSDNTAL
+STVQDALGLGAAKVDTSYSALSTVIDIMSTIKSKLLAAHGLASDKDKINKEVTELKKQIE
+SAAQSASFSGENWLYNNTAGAIGTKSIVGSFTRSSSGSVSVTTLNFDTSNSVLIDTASAS
+RGLLTKAYAVDQTSSDGSGTPNATYYLIQPAGGTVPTGANAISLTATTSDTDLDGMMRAV
+EQMIGTLTNSASTLGAITKRIDLQESFVANLRSVIDKGVGRLVDADMNEESTRLKALQTQ
+QQLGIQALSIANTNSENILKLFQS
+>tr|A0A1Q9APP1|A0A1Q9APP1_9RHIZ
+MRISLEQAAGQLSELVRLAEEGEEIVLTENGAPRARLEATSPIDKAARERFFRDELPELQ
+RRAASRMIPGPDAAHSQDFLYDDETGLPA
+>tr|A0A1Q9AD43|A0A1Q9AD43_9RHIZ
+MDIGGSHVKIRTQAVEEERRVESGPTMTAAEMVAAVKSLADGWHYDVVSIGYPGPVHDNR
+PSRDPAHLGPGWAGHDFAQSFGRPVKVVNDALMQAIGSYRGGRMLFLGLGTGLGMALILE
+GVCHPLEAGHLPYRKGRSFEDYVSEAAREARGKKKWRDAVADVAQRLDAAFLPDEVVIGG
+GNVEHLKTLPPRCRRGDNALAFLGGFRLWTEPKLVL
+>tr|A0A1Q9APM2|A0A1Q9APM2_9RHIZ
+MSDMIDPPFPTAAQPPAAEPVLVAALYHFADFSRYQAFRAPLQDFCDARGIKGTLLLAHE
+GINGTVAGTDPAIAELLAFLRAQPEFSRLEHKESRAAAMPFLRMKVRLKKEIVTMGVENI
+DPNRIVGTYVDPKDWNALISDPDTIVIDTRNDYETAIGTFRGAVDPKTKSFREFPGWVRD
+NPGLHNKPKIAMYCTGGIRCEKATAFMKAEGFEEVYHLKGGILKYLEDMPAEESLWDGAC
+FVFDERVSITHGLKQGAHVLCHACRQPLTPEDLASPLHEEGVACVHCHDSRSEEDKARYR
+ERQRQMDLARKRGIQHLGS
+>tr|A0A1Q9APG9|A0A1Q9APG9_9RHIZ
+MTDESRAIRFILNDRTVTLDDVGPTTTLLDYLRLSRRLTGTKEGCAEGDCGACTVLVGRL
+AGEELVYEGVNACIRFVGSLHATHVVTVEHLAAKDGALHPVQQALVDYHGSQCGFCTPGF
+VMSLYGLWLSKDRPGRADIEKALQGNLCRCTGYEPIVRAAEAVGAARPDAVFDPILSMRD
+RVRTELKAIKTGETIVIGEGQRLVVPGSVAALAKVLENHPQATIVAGSTDVGLWVTKQMR
+QLSPVVFINGLDALQEITETPDGLTLGAGVTYSAAYPTLARLYPAFGRLIDRIGGDQVRN
+MGTIGGNVANGSPIGDTPPALIALGARLTLRSAKGTRVLPLEEFFIQYGRQDRQPGEFVE
+SLFIPAAKQEDHFAVYKISKRRDEDISALCGAFHLTLDAQGKVATLRIAFGGMAGTPKRA
+AQAEAAMIGRMWNEETVALGQAALAGDYQPLTDWRASAAYRSLTAANLLTRFLLETTGQA
+AELTRFTGAA
+>tr|A0A1Q9AIW2|A0A1Q9AIW2_9RHIZ
+MKLKQLSEMLGLSQTTVSRALNGFPEVSAETRSRVMKAVRETGYRPNRAAQRLATGRAGS
+LGLVMPIAPGLDSDVHFGEFLAGLGEEAVKHDFHFVINPSAPEDEESTFRRLVASGNVDA
+LYIAYVRRDDPRIALLNTLNMPFMVHGRAVDQGPHSYPFLDIDNTGAFYNAARLLIQLGH
+RRIGLINGPAHFAFAIRREKGMRKALAENGLPFDERLAHNGLMTDDFGHQAMEMLLEEPE
+PPTAVLCSSTVLALGAVRVLDRRGLKVGRDISLIAHDDELPMLKPENFSVPLTTTRSSLR
+AAGARIAERLINRVLQHGDPAEQELWRTELILRESTGPAPVR
+>tr|A0A1Q9AGX8|A0A1Q9AGX8_9RHIZ
+MSHNTFGHLFRVTTWGESHGPALGCVVDGCPPGLTFTLAEIQAFLDKRKPGQSRFVTQRR
+EEDLVRVLSGVMPSEDGQTLTTTGTPVSMMIENTDQRSKDYGEIARRYRPGHADYTYDVK
+YGIRDYRGGGRSSARETAARVAAGALARKVVPGLTVRAALVQIGKHKIDRARWDWAEIDN
+NPFFCPDPETVPVWEDYLDTIRKAGSSVGAVVEVVAEGVPAGLGAPIYAKLDQDIAALLM
+SINAVKGVEIGNGFGAAEITGEENADEMRMGNDGQPIFLSNHAGGILGGISTGQPVIARF
+AIKPTSSILTERRSIDADGNNVDVRTKGRHDPCVGIRAVPIGEAMVACAIADHYLRDRGQ
+TGRLSAGHALQD
+>tr|A0A1Q9AG17|A0A1Q9AG17_9RHIZ
+MTKLRHAGDYQMPIVDRSTRPGTVLRIILLAIVLTASAALFIIFKNQLDSEIVLGILGVL
+AMVGIFFLVSSAIGFIEVMPQSRPDELARAFLDGHPDGTVVTDRKGRIVYANAAYGAMTG
+ASRASEIQSLETILSRAREASEALYRLTNGLRDGRAGHEEFRLLRPLKPQAGPAAAGHWF
+RLKARVLPLQDGDRNGLYLWQISDITSEREQQERFFKELQNAIDYLDHAPAGFFSAGHKG
+EVVYINATLAEWLGLDLTRFQPGSMAIGDLVAGEGLALIQSVQAEPGLLKTRALDLDLKR
+VDGRSLPVRLIHRVSTARDGAPGESRTIVLARTPGEETEASASAAAMRFTRFFNNTPMAI
+ASVDSQGRILRTNAPFLKLFADVVAQTDMERGALLDAVVHPHQRAGMHEALAAARDRQSD
+IAPIDSRHPGNEARHVRFYVKAVVEAGDEAPDEAAIVYALDITEQKALETQMAQTQKMNA
+VGTLAGGIAHDFNNVLTAILLSSDHLLLSARPSDPSFADLMEIKRNANRAAVLVRQLLAF
+SRKQTMRPTVLNMTDVIGDLRMLVDRMTGMNVKVAIDYGRDLWPVRTDLGQFEQVVLNLA
+VNARDAMPDGGTLTLRTRNFPASEVAALNRRELPAEDYVLVEAEDEGTGIPPEILDKIFE
+PFFTTKEVGKGTGLGLSMVYGIVKQSGGFIYADSEVGRGTTFRILLPRYVEEVQPLVELE
+AMPTSAIAAPVPAPAPPPAAAEPADLTGDSAVVLLVEDEEAVRRGGKRMLETRGYTVYEA
+GSGVEALDVMDELNGAVDIVVSDVVMPEMDGPTLLTELRKKYPDLKFIFVSGYAEDAFAR
+NLPADAKFGFLPKPFSLKQLAIAVREMLDA
+>tr|A0A1Q9AFX7|A0A1Q9AFX7_9RHIZ
+MTSQQPHQQAEIAPDDADGVHLFRFSGSWKGNDISHVAGRLDELAGQAPEKSRIDLSDVT
+AIDTLGAWTIRRFMGQLGGAEKVELVSKKRQYVELIEALPTELKQPEKKQEKRTLFERIF
+TPVGRVILSAWEDTVAVMFILGSAVRGAHLKVGKRGGLSPAAIINQIDRMGVQAVPIIVL
+MSFLIGAIIAQQGAFQLRYFGAELFVVDLVGILQLREIGVLLTAIMIAGRSGSAITAEIG
+SMKMREEIDALKVMGMSPIGILVFPRLVALTISLPLLTIIANFSALAGAALVTRTYSGIT
+FVTFLARLHEAVDFSSILAGMIKAPFMALIIGVMAAVEGLKVGGSAESLGKQVTQSVVKS
+IFVVILVDGLFAIFYAAINF
+>tr|A0A1Q9AGF3|A0A1Q9AGF3_9RHIZ
+MDIAFLSQTMATLIKAVPTTLLLFSLSVFFGGLLALLIVWMRVSGNPLLSGFARGYIFVF
+RGSPLLIQMFLVFYGLGQFGVIRYSFLWPFLREPMVCAVLSLALCTAGYSAEIFRAGLRA
+VPTREIEAARAIGMSGFLLVRRILAPVAFRHALPAYSTEIVLMMKSTALASLVTVWEVTG
+VAQRLISQTYRTMEVFLCAALIYLVLNFLILQALALLEYALSKHRRAPSAAAGPLPR
+>tr|A0A1Q9AIF7|A0A1Q9AIF7_9RHIZ
+MSAATLSASGNQNRWIGRVAIYGLLILFAILYLMPLFVMLVTSFKTMDEIQNGNMLSLPQ
+APTLDPWFKAWGETCVGLTCAGIKGYFWNSLKMVVPAVAISTILGALNGYVLTKWRFPGH
+TLVFGLMLFACFIPFQSVLLPMATILGSLGRFGMALQDQIGMTLGFGNPTVNLVIVHVIY
+GLGFTTLFFRNYYEAFPNELVRAAQVDGASFFQIFRRIMLPNSLPIIVVTVIYQFTNIWN
+DFLFASAYAGSGESMPMTVALNNVVNTSTGVVEYNVNMAAAMIAAMPTLLVYIVAGRYFV
+RGLMAGAVKG
+>tr|A0A1Q9ALT2|A0A1Q9ALT2_9RHIZ
+MIDREHKLSVVRQARLLGFSRGNVYYSPRPVSDGDLALMRRIDELHLEYPFAGSRMLQGL
+LRGEGLETGRLHVATLMKKMGIEAIYRRPNTSKPAPGHKIYPYLLRKLAVTRPNQVWAMD
+LTYIPMARGFVYLCAVVDWFSRRVLSWRLSITMEADFCIEAVEEALARYGKPDIFNTDQG
+SQFTSIDFTAVLKKAEVAISMDGKGAWRDNVFVERLWRSIKYEEVYLHAYKTVSEARAGI
+GRYLTFYNGRRPHSSLDRQTPDQAYFNTLAPMMVAA
+>tr|A0A1Q9AMA7|A0A1Q9AMA7_9RHIZ
+MSATPTPRMTPLTWGLLFLLGLLWGGSFFFARIAVPHVPPFTLVFLRLSLAALALHLLLR
+GQHGLYAALKGRWRGFLLLGLINNAIPHAFIFLGQTQIGAGLASILNATTPIWTVLIGHL
+LTSDERLTGAKLGGCLLGLMGTAVLLGPAALSTMVAGDHAVPFWALLLPLLAALSYGFAA
+IYGKSFKGLNPTVIATGQLTGSSLIMLPVALAIDHPWTLPLPPLSVILAIAALAFLSTAL
+GYILFFRIMARAGATNTSLVTLLVPPSAILLGAVFLGERLEGTDIAGMVLIGLGLLVLDG
+RVLARLQRKGKPA
+>tr|A0A1Q9AIG0|A0A1Q9AIG0_9RHIZ
+MDYFKRFNFLFATPAFDADDLEGARYHQIVQEIERSGFEVVRARSIEDAEIAVQTDAAIG
+CMMVDWGKKGLEGKTAALINLMRRRGLDFPIILLIRRKRLEDVPVEVLDFIDGYVFLAEE
+TPTFIARNLISRLKQYAETLKTPFFGALVDYAEEGNQLWTCPGHNGGVFYSRSPIGRVFM
+EHLGEAVFRDDLDNSVLDLGDLLTHEGPALAAQKEAAKIFGAEKTYFVLNGTSTSNKVAL
+AALVTDGDLVLFDRNNHKAAHHGALLISGGIPVYVPTARNSYGLIGPMDWASFDEQALRE
+RIRTHPLVKDPEAWKKPKPFRVAVVEQCTYDGTIHNAEMILKKIGHLCEYILFDEAWAGF
+MKFHPLYAGRFAMGLTDLGPDSPGIIATQSTHKQLASFSQASQIHIKDRHIKGQKRRVEH
+RRFNESFMQHASTSPFYPLFASLDVGAQMMKGRSGEVLWDDTIRLGIELRKKLRAVRREF
+EEKESRPERRWFFEPFVPDRVQIPDVSRPGATHDVAWESISTDQLASNPAFWQLTPGAAW
+HGFADMEAGFAMTDPNKLVLLTPGFDGAAGGYAEHGIPAPIVAQYLRENRIVAEKNDLNA
+LLFLLTPGVEASKAGTLISGLVAFKRLHDENALLEEVIPEFTRRRMGRYAGVRLRDLCGE
+MHRFFREANVSGLQAKQFSAAHLPEIAMSPHDAARCLVRNDVDYLPIDAISGRIATTPFV
+VYPPGIATIVPGERLTERAQPMIDYLKMFETCFNTFPGFDVEIQGVYRETDASGRVRLYT
+YVAAE
+>tr|A0A1Q9ANF6|A0A1Q9ANF6_9RHIZ
+MANRFVKHRASARSAAAALALTCLALSSCASYSPPPAAFHEATIQAYRVDSGDRLRITVF
+EQAGLTGSYAIDQAGYLAFPLVGSIPARGKTLPELEKAIAAKLRGGYLRDPDVTIEVDRY
+RSVFIMGEVGQAGQYSYVPGMTVQNAIAVAGGFTPRANQSMIDVTRKVNGKIITGSVPIT
+DPVIAGDTIYVRERLF
+>tr|A0A1Q9AIK5|A0A1Q9AIK5_9RHIZ
+MHDTDADEVVVQRRSRRMPASDMALGSLGIVLAGLASYFPWWAYLNQDRISIPTLWEGRL
+QDLPTKIGNGSLSLAQQQRREETQAAVDQLLTASLPDVVKKPSGPPDQPFPPNPNFRLRH
+VANGRALIEDDKGVYLVRIGSLLPDDSQLATLEQRDGRWVLVTSRGDVFQSQQ
+>tr|A0A1Q9AND5|A0A1Q9AND5_9RHIZ
+MELPFSRALAPSIPLDEAPDLRSLPVRRHVVSHPFIERLRAAVPFDFFAVTGLDFDGYRF
+GSGHSIDTDVPPAFLDAYYGDDLLKTDPFVIASMHTNKVVIEEEVYAKTPPPQRLQYLAR
+TFGVLNRTLFPIRRGEVGFGAVTFSRATPFSSEEIEFLGEVAETTHRVLTRPIMERFSAQ
+TLKLIEGEITCLKFASLGKTTDEIAAVSGYTPDTVNSYMKTAIRKLKAENRVHAIAEAIR
+RGLVT
+>tr|A0A1Q9ACL2|A0A1Q9ACL2_9RHIZ
+MTSPIASAADDRRLGSEEIERYRRHLLLAEIGGAGQQRLKAARVLVIGAGGLGAPVLLYL
+AAAGIGTLGVADDDRVSLSNLQRQVIHATPDLDRPKVESAADRVGAINPHVAFIAHAERL
+TADNAERLIGAYDLVIDGSDNFTTRYLVADVAERLEKPLVTGAVGRFDGSLTVLTPYATA
+ADGTRMPRYRDLFPEPPPEGVVPACAEAGVMGALTGVIGTLQAMEAIKLLTGAGEPLIGR
+LLMYDGLAARFETIRYRRRRSAP
+>tr|A0A1Q9AHU1|A0A1Q9AHU1_9RHIZ
+MEDRPVSPALKIAAFVMFAFLLAPVLLVVPISFSADSYMSFPPSGWSLRWYIELMDNSRM
+IGALGTSTLLAVIVMVLAMVIALPAAYAIVRMRVIGGEALLALFTAPLLLPTIVLGLAIL
+IVFAGAGLLATFPGLVIAHLIIVLPYALRVLTTSLSGLPIIMEEAASTLGASPLTVFRRI
+TLPMMMPGMVATAALSFLVSFDEAVISLFLTGPRITTLPVALYQHVENQADPLVAAVSVL
+LIVLTLAVVLIVDRTAGLTKTFVK
+>tr|A0A1Q9ADT4|A0A1Q9ADT4_9RHIZ
+MANPVLVEVTRGTMVESRHRGMVVAVDSAGRIVFSAGAVDHLVFPRSACKAMQALPLVES
+GAADHYGFSARELALACSSHNGEPEHAELAGAMLARAGRSVEDLECGAHWSFQQETLINQ
+VRAMDRPTALHNNCSGKHAGFVCTCAHTGEAVSGYVGYDHPLQREIRATMESLTGAALSQ
+DVCGTDGCSIPTYAVPLQGLAHGFAKMATGEGLSPERAKAARRLIDACMAEPFYVAGTRR
+LCTEIMALAPGRIFAKTGAEGVFCAALPKQGIAIALKCEDGTTRAAEAMVAATLARFFRD
+DEALHTALMAKANHTMRNWNGMAVGDVRVTEALMA
+>tr|A0A1Q9AN77|A0A1Q9AN77_9RHIZ
+MRIAKLARARQGATAVEFAILIGPMLLLLFGGIEVSRVMWINHALEKVALTSARCIGIRN
+NACSNAGAYDASRANSYVITAAAGLGITLVASNIVIEDGATCYGATGFSKVTLTKTVTSP
+IPKLIDLLSNSAHQLTAQACFPTAAS
+>tr|A0A1Q9AER4|A0A1Q9AER4_9RHIZ
+MAGFASPSGSLVIDGATVLFEDRLAPARLRIEGGVIAEIDGPAGDGDHLDASGLLLAPAF
+VDMHGDAFERQVMPRPGVMLPLPAAFLETDRQLAANGVATAYHALTLSWEPGLRSVEMGW
+SVLEAVNRLAPRLLVENRLQLRWESFCFEAVGLIEAALEGPLQPSIAFNDHTSMSMLAAE
+VPVQQRPFEFSPDFPVISPDHPKFKTRMEERARRMKVTATEAEEMLHAVWARRPQVPEVI
+ERVALLGRTAGVAMLSHDDSQIETRDYYRGLGARISEFPMSETVAIAAREAGDMILFGAP
+NAARGGSHLGASPDAAEMIRRGLCDILASDYYYPALLLALARLEADKVAPLHDLWSLVAR
+NPARACGLADRGSIAVGQRADLLLLEWPEADTPRVMTTFVAARPAFRAMA
+>tr|A0A1Q9AGF0|A0A1Q9AGF0_9RHIZ
+MNDRRRTDSPSKRSPDKGKAKAAAKPGLAARQAAARLFGAVIDKQTSLDGLLDPVTGSPI
+YRDLSDEDRGLVRAIITTSLRFLPRIEFLLNSLMKTPLPEGARALQHLLVTASAQILYLD
+VPDHSAVDLAVEQAQADPRNRRFAALVNAVLRRLSREKDSLLSQVEGRSTFPTWFDARLG
+EAYGLELARQIGESVLSPAAIDLTVKDQAEDWAQRLDGRLLPTGSIRLRNVSGAITDLPG
+YAEGAWWVQDAAAALPARLFGADLKGQRIIDLCAAPGGKTAQLILAGADVTALDQSANRL
+KRLQGNLDRLGLSAETRLTNMEAFTAETLFDAALLDAPCSSTGTIRRHPDVLWTKSPDEI
+DKLALVQERLLRHALTLVRPGGIVVFSNCSLDPREGENMVARLVEEGLAERVPLSPSDWP
+GLEDAVTPLGDMRTTPAMIAPEDGYAGGLDGFYAARLRRPV
+>tr|A0A1Q9AFV5|A0A1Q9AFV5_9RHIZ
+MMLHHLLGRMLTAFVTLIGVAIVIFCLLRIVPGDPVAMMISPSATPADIAALRARYGLDL
+GLFQQFVIWFKAVTAGDFGASISLRRDVVELIGERLPATLELAFAALVFGVLAGGTIAVI
+TTLLRRTPLEAVFEFLNGLFLAVPDFVWALALVLVLGVAFPVLPLSGRLDPASAPAFVTP
+FYLLESLVRLDFATFSDLVAHMVMPVLALGLPLAAIVARILKESLLEAMGQDYVLLARLK
+GMSPLRLVLQEALRNAVGPTLTLTGVQFTFMIGGTVIIERIFAYPGLGNMAIDAVINRDL
+PLIQGIVLIFGALFILINIATDALAVLLDPRQAHG
+>tr|A0A1Q9AFD3|A0A1Q9AFD3_9RHIZ
+MRLTNLAASAAVALILTGCTNETLDTVDKADVDLRTVKSKTAYELSGKIVDRMRELNMPR
+TSPIMLRILKEEGLLEVWKADSANRFQKLRQYAICAWSGKLGPKVKEGDRQAPEGFYPLA
+PGQMNPNSSYYLAINTGFPNAYDRANGRFGTNLMIHGACSSSGCYSMTDEQMQEIFALAR
+DAFKGGQKTIQLQALPFRMTAENMARHKDNPNYEFWKNLKTGYDQFEITKRPPDVGFCEK
+KYVFNQQGGAMNPASTCPADMSTPPALSAALAAYNRKYDEDYAKALNKFKGMAWYEPSEA
+ERKAVVAKTREGKDLAYAPTGSSLAAGKLMSTAELEKKESLRAEIEDARKAAEIQKAELD
+KISKTGRRLPVPAANPLPRPELPATMTASAQPPAKTGSLFASLFRRAAPQEAPADPEITD
+VPADPSTQVTASTPAHSATGARHEPSTTAPAPASASAVKSGRSTGSPSTKPPVPAANPAE
+VATAPQPGDAPAEKPKRPFWKIWDN
+>tr|A0A1Q9AHA1|A0A1Q9AHA1_9RHIZ
+MAAPGETGFKSDPAPRFDALAQDGGLSGVHGVVALLGGRIVFERYIDGTDMRWGQPLGHV
+EFQPETLHDIRSVTKSIIGLLYGIALTKGCVPEPDEPLVTLFPEYADLGRDPERKRLTVR
+HALTMTLGMEWNEDAPYTSSANSEIAMEQAADRYRFILDRPILAEPGRGWIYSGGAVALL
+GKIIERGTGQSLPDFARDTLFTPLGIEAMEWIEGQDGEASAASGLRLSPRSLARIGQMIL
+QGGQWGGNRIIPEAWLDQSFRPAAMVDIGWPGMRYGYLWYLGEEAITDRTGTYGERFVAA
+LGNGGQRLFVFPGFDFVLAITCGNYNLPDQWRAPAALLYKVFLPSLTQR
+>tr|A0A1Q9AIY2|A0A1Q9AIY2_9RHIZ
+MEQPRFTPPAIALDALQRLPGALAAAGFRGDVSGDPALLAAMSTDNSVYAIRPDLVVAPR
+DGADVACLLRVLGEADYVSLPVTARGGGTGTNGQSLNVGVIVDFQKHMNRLLAVNAEEQW
+AEVEPGIVLEELNGKLAAHGLFFAPNTSTASRCTVGGMVGTDASGKGSRIYGKTSDNVLG
+LDLVTEGGLLIDSFATPPAEAAWLLAAARVACAKGRDALLAQVPNLSRRFTGYDLGRALE
+DPDRFDWWRLAIGAEGTLGLVTRIRVKLHRKPRLKRLVVIGFESFEAALNAGTPLLAHEP
+LAIEIMDEWVQALAEKAGVLGALPMALRARDGQPVSYSFVEFVGDDEAALSESVARLAEA
+GLRLPGAIAVHVARDEAEIAALWQVRAAAVGLLGKVKGNRRPVAFVEDCVVPVEHLAAFV
+RDFTALITEHGLAYGIYGHVDVGCLHVRPALDLGEAADRATLQAISDEVFALTRKHGGIF
+WGEHGKGVRGAYLAEFVGPEAYGAFQAIKQAFDPKARFNPGKLVAHAAPLMGISSTPMRA
+PRIDAADPLAPAFSCNGNAQCLSYPRAGTMCPSFKATRDLTHSPKGRAEALRAWHQARTA
+GHLTRDLEDSVFSALDGCLGCKACATGCPVQVDIPEMKSHFLDDIHRRRARKAGDRAALL
+MESHAALLDRLRAIVAPIANALMPLASRLTGLADLPAFARKGIAAGPYPQLPARDIAGRG
+FDAATVFLFQDPFTALFDPEASLAIAGGLAALGYEPVFVKLVTGGKAAHGLGDRARFLRH
+ARALTEAIDQVAKAGRPMIGLDPAFVAMLRQDYAKAGLTPAPVLLVQEFLADEIARGASF
+PRPAKIDWPTTFLPHCNEDAKAVAAWKTVLAALGAPTKVVAAGCCGMAGLFGHRARSLEV
+SRAVFDLAWKDAVAGETDVAASGFSCRCQLERFSAARAEHPLAALARAAHPAAGPIARAS
+SDTRGAA
+>tr|A0A1Q9ACZ1|A0A1Q9ACZ1_9RHIZ
+MEKITLFDSSYVTDNLGDQIIMASVQKHLREVFPQGFFTGVPTHDYPGQVAFKYLKEGDF
+AFVGGTNILSSHWLWYHQWKLRLTDLGRAGNPVLMGVGWHKYQDKPDIVTQKIYKKILHD
+TYLHSVRDKYTHDKLKDIGIDNVIYTGCPTMWDLTPDHVADLPEDKKEDVVFTLTAYLRK
+PEIDGKLLSLLTQRYRKVYFWPQMYDDLDYLQSIASTNASSALQILEPSLAGVKAAFTEQ
+PVDYIGLRLHCGVYALQHKVRSLILEVDNRATEIGKNTHLPTCARDNFDLIENWIGGSKR
+PVLDIPLDNIAKWKRQFVSKAAA
+>tr|A0A1Q9AGX3|A0A1Q9AGX3_9RHIZ
+MSVKTVTIDSLGAKGDGIAAGPGGALFVPFSLPGETVGVAVNGTVGTLMSIATPSPERQA
+PPCRHFGPEGVNGTCGGCVLQHAEDKLYHAFKRQLVIDALAARGIETDVAPLVTAAPGQR
+RRVVLTARRTEKALLLGYSQMGSHHIVDIVECPIASPGIVRRLEAIRQIALALAASAEPF
+RITVLEAENGLDLSIDGLTKLDDSRRRRAVEAVLGLRGIARLSVGGEVIVEPSKPVISFG
+TIPVTPPPGAFTQATREAEATMAGLVLDAIGKAKRVADLFSGAGTFALRIATRARVHAVE
+SEEKALKALDAAARATQGLKPVTVERRDLFRRPMMVSELKAFDALVFDPPRAGAETQAAE
+LARSAVKTVVAVSCNPTTLARDLATLIAGGYRLKSVTPIDQFLWSAHVEAVAVLEK
+>tr|A0A1Q9ACQ8|A0A1Q9ACQ8_9RHIZ
+MRRVVVTGLGIVSSIGNDAEAVTQSLRDARSGITFSKDFAEYGFRCQVWGAPEIDTTDLV
+DRRAARFLSQGGMWNHVAMKQAIADSGLEEREISGNERTGIIMGSGGPSTRTLVEAADIT
+RKNMSPKRIGPFAVPKAMSSTASATLATWFKIHGVNYSISSACSTSAHCIGNAAEMIQWG
+KQDIMFAGGHEDLDWSMSNLFDAMGAMSSKFNDTPATASRAYDVSRDGFVIAGGAGVLVL
+EELEHAKARGAKIYAELVGYGATSDGYDMVAPSGEGAVRCMRQALSTVKGEIDYINTHGT
+STPVGDSKEIGAIREVFGDKIPHVQSTKSLTGHSLGAAGVQESIYGLLMMQAGFIGESAH
+ITELDPEFEGVPVVRSRIDNAKIDTILSNSFGFGGTNATLVFQRHNG
+>tr|A0A1Q9AEU0|A0A1Q9AEU0_9RHIZ
+MRLGGRLAGAIEVLADIEARRRPVADALKDWGLSHRFAGSGDRSAIGNIVYDALRMKLSH
+AWLMEDESPEALAFAVLLRQWGLTAEALAGELEGDRFAPALPQAALAALSTRRLEDAPAH
+VQGDIPLWIQPAFEAAFGDAWIREAQALAERPSLDLRANRLKAPRDKVIAALEETGAKPS
+AIAHDGIRIAPGEGASRLPNVTAELTFAKGWFEVQDEGSQIVSELVDPRDGDQILDYCAG
+GGGKTLALSALMRNKGQIHAFDADRKRLAPIIERLKRAGTRNVQVHDRPQQLKALDDGCD
+IVLVDAPCTGTGTWRRRPDTKWRLTERSLEERLSQQQDALANAARHVRPGGTLVYITCSV
+LPAENEAQAQAFVAAHADFEQKPALPVYQRLFAGAPEPWAGEKGGLTLTPATTGTDGFFF
+SVMTRKAS
+>tr|A0A1Q9ANY3|A0A1Q9ANY3_9RHIZ
+MQETPKDTGAPSVAPVETPSGPPLAAHAEPARKAARWGLVLSVLAHLLLVAGFLASPALP
+DLKPPQEEAVTVEMVPPPEPEKKPEPEKKEEPKPEDKKPEKKAETPPPVSPPPRVAIRPK
+LSTAPEREDQLGETQSTDKTVETGPDARPDQTEAANPQTADQPSAPDRAPGGGASEPPTP
+NAAEPEPARSAPPVAQPSTEPPPDAAKADPAALAEAPTSDEGEAQASLPPADDGFSPTLP
+DRNAPTPSARPASADASAGAGGGRALKAAKVMNDAPMLRDPLARFALGQMPRKQQIRNLC
+VFEAAAQVRRARPDSNPEGFWLGDPVGNTLTAPESRYRSRGKQYRIDFTCTVNLNNLTVT
+DFRFRLGPELPARTEKTQ
+>tr|A0A1Q9ADB0|A0A1Q9ADB0_9RHIZ
+MATTASLRHAMIAMVLLCLPACGTPGGLKMNAMPAEVPVEKAMAFPPPGGPAIVSVVERN
+YSNAVAQDILLETNTRTPGENYIKVQFYGPGASAFERADRLSLSGFTTDTMARDIRAQFP
+TMRMRMASTYQQNGYGAFGYAYGSSGGESCLYAWQQITSSEHGRNGVNDLGMIRTRLRLC
+DRGSIESLLAVMYHYTLSGGFEHPQWNPYGPAPKPDPRIGMVGKPIYSLPPAGARTRAAA
+PRPATALAARAQPSLENAAAIPQLPSAATGSAAFAPSAQTPAVFIPAPNLPAPADVNAEA
+RTVGIPRATAMPAAAAAPAIPAAPVIPAP
+>tr|A0A1Q9AGW5|A0A1Q9AGW5_9RHIZ
+MRFVVVTLMAAAAVFSPLAAFAESADVEATITSVDTDKLSLHLDDGKSYQAPEEFDFDGL
+KAGVKVVVFYTEVDGKRVINDLEIVK
+>tr|A0A1Q9AGE2|A0A1Q9AGE2_9RHIZ
+MDIQLPDAEATAMLGEDLARALVTGDCLALSGDLGAGKTTLSRALIRALAEAPDLEVPSP
+TFTLVQTYDSRIPVAHFDLYRLADGSELEELGFDEALSEGICLVEWPDRASAELPVSRIT
+LTLTHEGQGRLARFSGPQSALDRIGRSLDIRAFLDRAGWPKATRRFLTGDASVRAYERIL
+RRGDADLILPDLILMDAPRRPRGAVVRDGKTYPELAHIAEDVTPFVAIDHWLRDAGFTAP
+AILAQDLEAGLLLLEDLGREGVIDASAQPIAERYLASAALLARLHRLQPPRDLPVAPGLV
+HTVPDFDRTAMAIETSLLIDWYLPEVRGTPATEAERADYEAIWNGLIDRLADGERHLLLR
+DFHSPNILWQAEREDVARVGLIDFQDAMIGPTAYDLAALAQDARVTIPPALRAEMIETYL
+AARGQDAGFDRERFLRDFHLMAAQRNCKLVGIWVRLKVRDGKPGYMQHMPRTMAYLREAL
+AHPALEPLADWCRKAGLPLSDEKA
+>tr|A0A1Q9AQ70|A0A1Q9AQ70_9RHIZ
+MTYWWLAYDFDNYVFACQICNQIYKGDHFPISGQLLESPLMPNAQPNGIQLTQLVQALVR
+DVTLTNDEELVALWGTEEADLIHPYLEDPADLLAYEADDANREVWIRAGAGARATRAHDA
+AVKFLGLNREELRRLRYEQLGILRILKLSFDEPRLGEATKATIRAKFDEMSRPAYPFAGL
+NRFFLREWNLL
+>tr|A0A1Q9ANW6|A0A1Q9ANW6_9RHIZ
+MGECPVWHAGEGCFYWTDIPARTLWRIDAAGQGLTHWALPVQLSAFALSEGGGFIAATDR
+GFARMTIVDDKVAFDFAGGPDLPEGWRMNDGACDRQGRFWAGSIAGKPGVEGEAGALFSI
+ARHGVLEARGGRFQVQNGLAWSPDGRRMYVSDSYPAHPHVLCYDFDPESGERYGGRLFAD
+HATLLGRPDGAAMDVDGCYWIAASDSGRILRMTPEGRIDAEIKVPVPNGTNLCFGGPDLK
+TALITSMNRDCIGGDIFAVTLPFQGLAEPQFVVK
+>tr|A0A1Q9AH81|A0A1Q9AH81_9RHIZ
+MIFNDAPPSASTVPARKRWIAFAVVSLLLVVAALLGADSYARVKALAALEAEARSEADLK
+VALLRATLERPRALPLLLSRDPDVAAGLKDGPAAERLSRKLEGLVDATGASVLYAISADG
+RTMAASNWREPTSFVGSDYGFRDYFSKAMRSGEAEQFALGNVSKRPGLYISRRVEVDGVA
+RGVVVVKMEFTRLEESWAASGRPTFVSGRNGVILITSRPELRFMTTRPIPEAERAPIRDS
+LQFGTAMLEPLRQTPMDRLGPGADLVVAELIPGHRASYLRLIVPVATTQWQLSYFAPTDA
+AIASVARQMRLTAISGLLPLLSFVALMLRRRDLARARREREQAARDMLEHRVLERTRDLT
+AARDRLQAEITDHRATEARLQGVQEDLVQANRLAILGQVAAGVAHEINQPVATIRAYAEN
+ARIYLDRAQPAEVEDNLTSIAALTERIGTITEDLKSLARKGRADAKPVSLKAVIEGGLML
+LRSRFSGRLDTVHLHDPADGLQGDVQVLGQRVRLEQVVINLLQNALEALNERPDGRVDIS
+LRDAGAMVALEIADNGGGIPPEILDALFTPFNTSKEKGLGLGLVISKDIVTDHGGTIAVD
+SSPAGTRFTILLKKA
+>tr|A0A1Q9ADP4|A0A1Q9ADP4_9RHIZ
+MSVLRSMCERVAERVDAVARKWLSRPTAKDDVTPAELMVVRRVGLGAVVALPLFPAALAT
+LVPASIALPAGSALALAGALFSGVAGIALVRRIAGDRPDLTELAPVRDPADDLAIYDRFV
+GLVTVHDRAGHVLAVRGRDQAAYTQWMRPLAGRGFLDHIHVSDRILFLRALDSLRQGAGS
+QSVELRFERATLSGEQTQFVHMRCDMTALCGPDDAMTVVVQTRDMSAEVLLRQEAAEKAA
+QAESANEAKRRFLAAVSHELRTPLNAIMGFSDVLAGEYFGRLENDRQREYVSLIHQSGSH
+LLSVVNTMLDMSRIEAGRYELIAEPFEVRGVVKACEAMLKLQAENKGVQLTSRIARSVGE
+LNADRRAVQQILINLVCNAIKFTDRGGLVTVDAEADGDQIRLVVSDTGIGMAADKIALIG
+QPFMQIDNAYSRSYEGTGLGLALVKGLVALHGGRLTVESRPGEGTVMTVTLPVDGSGIVP
+QPEAQPVPPAPVEFPPRLTTRVDGGRQAAPGEVALRQGGTAHGPQAKSA
+>tr|A0A1Q9AED8|A0A1Q9AED8_9RHIZ
+MVRRTIPRSDPLPDADTHSEGFRQSREAQRGALVEDYVELIADLIEDGNEARQVDIAARL
+GVSQPTVAKMLARLSAEGLVSRKPYRGVFLTAEGQKMASESRLRHQTVEAFLRALGVSPE
+TARIDAEGIEHHVSEETLSAFRRFIDKRD
+>tr|A0A1Q9ANT3|A0A1Q9ANT3_9RHIZ
+MTISGLGPHGERAAPAERIALTETDIAAAQEARFRVAIVLHTLSSDWAKQQIAGIMATFG
+DCATAVIEVVDCGFAPEAQIAALDRLRGEKPDAIISIPVANSAVAEAHRRVSKAGIRLLL
+LDNVPTGLLPGSDYVALVSADNFGLGMIAAAFLDPRLARGAAVGVLSYHAEFYATNEREI
+AFNKWMMTNRPDVTLHVRKFDNIQAAGSDALALVDGHRDLGGLFVVWDTPAMEAVKALRR
+AGHVLPVSTVDLGREAAIELSSDGLLCGIGAQQPYLQGVAVAQTCVLALLAKQTPDWVAL
+PGLAVSRDNVVESFQKIWRKQAPREVLVSAKLVTDHGGR
+>tr|A0A1Q9AI62|A0A1Q9AI62_9RHIZ
+MLDFEQIQTDLPTSAMNGYDDHWLQDPNRDRPLSHRWKMAEIELAKALRLPKMKTKTADD
+VLHLIAADIIMSERMHPGRRISYSRSDGFYKKRRQYTPEGFNLANVTAAIDLLEKLGYIV
+DHERRPPGRRGTQSSFRPNPSLSMLLLPAVALPLKNEIIMKDRDGNVVSYEDTGKSDGQR
+KGPSFSGRVHDMRAVVRKVNEVLADIDIVLDAEGVVADGEWLRKGDYVMYPGLKSLYRVF
+NGGWRLGGRFYGGWWQGVKSEDRRYFLLNGERTEEIDYSQIHPRIIYKEAGIELVGDAYE
+IPGWSGTKQLRDLCKAAFNILVNAACYDSARGALARDMGGDRQGAAELIEAIKAKHRDVA
+HYFHSAVGVRLQGLDSKMAEIVLAEMTVKRGIPVLPVHDSFIVAESHRETLVRVMKDAFE
+RVVGKTSNRDKIVKSSVGNTPVKTSSYGYTDYKQNRASSAAPGSSPLVLPSILDSDLSSV
+SAVSAADSSPVPTVESFTFGTPAVESPKPVIRRPAPAFLRAGPSETIDWEAKSAAKDAER
+ASKRAQASP
+>tr|A0A1Q9AJ24|A0A1Q9AJ24_9RHIZ
+MAERLTPKSLARGDDFGSEALDLIEITGVIKWFDVAKGFGFIVPDNGMQDVLVHVTCLRR
+DGIQTVLEGARIVALIQKRDRGYQAFRILSIDQSTAVHPSQLPPVRTHVQVTPTSGLERV
+IVKWFNRTKGFGFLTRGDGTEDIFIHMETLRRFGLTELRPGQTVLVRFGDGDKGLMAAEI
+HPDVPAPVGRAH
+>tr|A0A1Q9AMC9|A0A1Q9AMC9_9RHIZ
+MRRLLLALLPVMSLLSACTATDYDLVSTASITPRFDDKKPMDFGERTPHHHPVHGIDVSK
+WQGDIDWVAVRRSGVSFAFIKATEGKDVVDTRFDEYWRKARAAGLPYAPYHFYYFCSTAD
+EQADWFIANVPREAVHLPPVLDVEWNGESKTCRYRPSPLTVQSEMKRFMDRLEAYYGKRP
+IIYTSVDFHRDNLVGQFKTHHFWVRAVAKHPSEAYPERRWAFWQYTSTGVIPGIKGNTDI
+NVFAGSAKNWKKWVEAVSQPNLSAQR
+>tr|A0A1Q9AQ08|A0A1Q9AQ08_9RHIZ
+MKTFDTLENYLIAAGLACLVGLLSVWMGDPSSTVFHKMLFAPVFLLASRGLRHLFPEAND
+GKRGVVATIELQLLTAGLIAAFVLFVGPFERTDGTRLVELFTLMTLVMASINLVLGHLGP
+RDKR
+>tr|A0A1Q9AQH3|A0A1Q9AQH3_9RHIZ
+MATIKGTNFADTIYQSDYNLAAVTIYAYGGNDTIKLDITDSDGGDNDVYAGAGNDTVVNN
+FEGGNIIDLGSGNDYYLADIKAFASKSFDKVYGGDGNDLFEINGQVSDYFGGNGNDTFLS
+VGYNNLFDGGNGNDTISYEIQDDYASQAGLGVTVDLNKGRAVITKDRVEILKNIENATGT
+DSADDLFGNSKANVLKGLGGADILKGFAGDDDLFGGAGDDDLFGGAGRDILVGGLGSDYL
+KGEQGADTFEFDSVADSAVGAKRDVILDFSAKQGDLIDLKSIDADVYSSGDQSFSFIGGK
+SFSGEAGELRFSKGILSGDVDGDGRADFEIAVKGVTKMYVDDFVL
+>tr|A0A1Q9AFN8|A0A1Q9AFN8_9RHIZ
+MVKKTSVIAALGLALALTGLSGCGRKGDLEKPSVSAAEANVKRKPGEKPKPNPTPDRPFL
+LDPLL
+>tr|A0A1Q9AN75|A0A1Q9AN75_9RHIZ
+MTLVASSEGLRLRIHADTLADGALWLGVFLSGFVIVEPAPYELMMAGLIALWVPIAFRLS
+RTVALLAAFLLVFMIGGLLSLTMVTDLSIGPMYMAVSGFLALTAIFYAGVIEARAARIAL
+IFRAWSISAVITALLGIFGYFHLLPNSEIFTLYDRAKGAFQDPNVFAPFLVPPSLHLLHG
+ALKGRLADLPLRAAGLLILGLAVFLSFSRAGWGLYVFAVAMLVLVMLIHERSGAFRLRML
+MVVLAGAFAMVLALSLALQIPRVANLFSNRSQLVQEYDGGHLGRFERHRIGFRMMLEKPL
+GIGPLEFSKIFPEDEHNIWLKCLTTYGWLGFAAYLSLTITTLSVGFRLLLYDRPWQPFLT
+VAWISLLGHIMIAAVIDIDHWRHVYLLFGILWGCFALEIRWRRVSHAPG
+>tr|A0A1Q9AEL6|A0A1Q9AEL6_9RHIZ
+MTEEIGQLEAVIEAAFEARDGVNIHTRGEVRDAVEAALTLLDSGKARVATRGDDGSWTVH
+QWLKKAVLLSFRLNDMQVVKGGPDNSTWWDKVPSKFEGWGENQFRAAGFRAVPNAVVRRS
+AYIAPNAILMPSFVNLGAHVGEGTMVDTWATVGSCAQIGKHVHLSGGVGIGGVLEPMQAG
+PTIIEDNCFIGARSEVVEGCIVREGSVLGMGVFIGKSTKIVDRATGEISYGEVPPYSVVV
+AGTLPGKPFPNGDPGPGLYCAVIVKRVDEKTRSKTGINELLRD
+>tr|A0A1Q9AHK6|A0A1Q9AHK6_9RHIZ
+MSAATLPSSAASARPRWWQNRTIRRFARHKLAVIGLVMIVIMIFACVVGPHLLPYDELYI
+DLRARFAPPLTGSHIFGTDPLGRDIAARLFNAGRISLLVGFFAMVLSTLIGTVIGVVAGY
+YGGRVGAVLMRFVDAFLSFPSIFLLLALAAFVKPSPFMITVIIAVTSWMEIARLVEAEVR
+SLRERDFVLAARMLGLPNGWIMFRELLPNAVGPIIVAATLTVARAILLEAYISFLGYGIQ
+PPLPSWGNMLNGAQQYLDKAPWLAIVPGVAITLAVTSFNFIGDGLRDALDARSDLN
+>tr|A0A1Q9APD6|A0A1Q9APD6_9RHIZ
+MLRMYVREAERLTLSPLDPAAPAQHAGEEAAAPAAQTAVLWYDLINPALQEVRHVERDLG
+ITVPTRDEMEEIELSARLYQEDGAEFMTVTALSKLDGDVPMKTPVTFILKGATLVTVRYA
+DPKPFALFAARALRANGHSYAAGEEVMLGILESVVDRMADVLERIGNEIDMISHEVFRSK
+TGSSTKKTKNLQLLIEQLGQKGDFLSSVRESLVSISRMVAYHAAVETSGRKVAKEVRQMV
+KLLQRDTVSLGDHATFLSGKINFLLDATLGLINLEQNQIIKIFTVASVVFLPPTMIASIY
+GMNFQMMPELNWSFGYPWAIMVMLLSAVGPFYYFKRRGWL
+>tr|A0A1Q9AQM5|A0A1Q9AQM5_9RHIZ
+MTLYTETARFDTGRALSEDEMRRIAPAIFATVAHESRSERFKPIPTIEILRGLTREGFVP
+VGAKQSSSRIEGKSDFTKHLIRLRRIDDGKVYHVGDTVCEILLKNANDGTSAYELMAGLF
+RIRCLNSLVTQTGKIEEIKVRHSGDVQAKVIEGTYTVLKGAEHALAAPQDWSALRLNDDE
+KHILAQSAHMLRFGDTDGDTRTPIRPEQLLTQRRSADLGHDLWTTWNVVQENAIKGGIRA
+VTRDAFGRQRRMKSRPVTGIDQDLKLNKALWLLGEKMAALKGAC
+>tr|A0A1Q9AMQ9|A0A1Q9AMQ9_9RHIZ
+MRIDDNTIRLARMENSVTAEFDVNVDPFPIFSDGRLKERPVFQVIRNAFTKADMLLQVAQ
+ETIGS
+>tr|A0A1Q9AP91|A0A1Q9AP91_9RHIZ
+MKISRQVPLHALRVFEAVARLQSFTRAGEELALTQTAVSYQIKLLEDHLGEPVFLRRPRQ
+IVLTEAGERMLPKIVQGLDLLADALASARAPAEEVLLIHSPPTFAQQWLTYNLGRFHMLQ
+PSIAVRLKAAGETIDFDRTPGDIAIRWGRGDWPGLSAHFLMCLDFSPVLSPALAESIGGV
+TTPADLLKLPIISPTDPWWRLWFAAAGVDSSELAQRPKNDFGIQSLDAGAAMAGQGVAII
+NPGHYHNEMAAGLLIQPFALTCNDGRDYWLVYPERRSNQPKIKAFRDWILAEMAAEQAAA
+S
+>tr|A0A1Q9AHJ2|A0A1Q9AHJ2_9RHIZ
+MARVSTRRIVLERTTALVVTILFLLPVCWLISTAYKPSNQIFSVPPRLTFTPTLDQFRAA
+FALFDVAALVRSSVIISLGTTLLSLLLGVPAGYALARSRSRYSAGFAYFFLAIRMIPAVA
+ALIPFYLMMRDIGLLGSWWAVIVFNTMLNCAFVTWMMFSYFKALPPDMEEAALTDGCTQM
+GAFWKVAVPAVRSGIIACALFCMMFSWNDFLHPMFLTTLDAKPISVALLTAYGTKDITWG
+TLGALAHFSTIPIVLMALVMNRYFVQGATNGVQ
+>tr|A0A1Q9APV7|A0A1Q9APV7_9RHIZ
+MAAHENSTAARLLLLEDSALDAELICEFLRDIVPPPVIVRVSLRDDFAAALAEGGIDLIL
+ADFSLPDFDGMSALDMARELAPHLPFIFVSGVLGEEVAIESFRRGATDYILKQRLIRLPA
+AVERALAEAREKAERLRAERQKEVLVRELSHRVKNTMAMVMSLVRRTLVRGQPAEDYVAN
+LLQRLGAMADAHALLFETNWSETDLLEVVRRTMEPYLRSGIGRIPTRTGPARLGNGEAEE
+RRIEIHADAFVPLSPKPALALSMVFNELATNAVKHGALAHEGGRVVISWNEDAGEPDHVR
+IIWREIDGPSVERPEREGFGTTLIKRSVEYELQGSVTLNYRATGFLCEILIPKVIEL
+>tr|A0A1Q9AHH7|A0A1Q9AHH7_9RHIZ
+MPVDQTPPALLAEPCLRVIDLETAGNGRDDVCEIGWQDVIRRDDGRWVVSERRGSMLINP
+GHPISADTMAIHHIRDEDVAGAPFWKEAAPSVLRPERPILALAAHRAAFEQRYCTPRLTG
+ATPWICTWKCALRVWPELPRFSNQMLRYLRRPEGLDHALGLPAHRALPDAYVAAHHLRDL
+LEAAPLGDLLRWSREPGLLPRVPNGPERGKSWDRLSLERLAELARDRDGDIRFSAETEIA
+RRQGTDPVQAGEADQRRLL
+>tr|A0A1Q9AL54|A0A1Q9AL54_9RHIZ
+MVEKIEKKESGLWENVKIIIQALLLALVIRTVLFQPFTIPSGSMMPTLLVGDYIFVNKFA
+YGYSKYSLPLSPDIFSGRIFGSQPKRGDVVVFRFPPNPDIDYIKRVIGLPGDKIQVRDSI
+LYINDKPVPRVPDGSFRADDQYDTGAEVPVYRETLDDGATYDTLDQFPNSRGDNTQEFVV
+PPDHYFMMGDNRDNSADSRFDVGYVPAENLVGRASLIFFSLGHDTSFREVWKWPTNLRYD
+RIFKAVH
+>tr|A0A1Q9ANR4|A0A1Q9ANR4_9RHIZ
+MMWRNTRTAYGLVSRLLHWTVALLFIAQIPLGFLTQATAQNPALQFDLYQWHKSTGFLIL
+ALAILRILWSLTSRKPKEPSGTKPTMQCAAHMAHAALLTMTLAIPLTGWAIASTSPLQIP
+SFFFDLVVIPNLPMAVSDSAEAIWSQLHAWLAYGAAALIVMHAGAAVFHAIRPEAGSLHG
+MLPQRSRR
+>tr|A0A1Q9AE50|A0A1Q9AE50_9RHIZ
+MRRSEINRIIREAEAFFDRFHFVLPPFGRWEPKDFQARKSEIGAIVEAGLGWDITDFGLG
+DFAGTGLLLFTTRNGRLEELKRGGGMVYAEKAMIAAKDQVTPNHAHVIKTEDIINRGGGT
+LVIELHGATDGACDRTKGTTVMCDGIARALPPGGRLHLAPGESVTLKPGDWHSFWAEGGD
+VFVAEVSTVNDDATDNLFEDPAVTRFSGIEEDEAPYRLLVSDYATWLR
+>tr|A0A1Q9AJN6|A0A1Q9AJN6_9RHIZ
+MAKAADAQAAAGDEAKRVRHPEKAHRPDTEVMRKPDWIRVKAPTSKGYVETRSIVKSHKL
+VTVCEEAGCPNIGECWDKKHATFMIMGEICTRACAFCNVATGRPNALDQDEPENVAKAVK
+QMGLSHVVITSVDRDDLEDGGAEHFEKVIWAIRAASPSTTIEILTPDFLKKPGALERVVA
+AKPDVFNHNMETVAGNYLTVRPGARYFHSIRLLQRVKELDPTMFTKSGIMVGLGEERNEV
+LQLMDDLRTADVDFLTIGQYLQPTRKHHKVERFVTPDEFQSYETVAYTKGFLMVASSPLT
+RSSHHAGDDFARLRAAREKKLLAAAE
+>tr|A0A1Q9AKT4|A0A1Q9AKT4_9RHIZ
+MNHDHYSDAQLARILGDSKVIALVGASPNAARPSHGVMAFLLSRGYRVIPVNPGQAGKTI
+LGQTVAARLADIAEPVDMVDVFRAADQLDGVVEEALAMVPRPKVIWGQLSVRDDQAAARA
+EAGGIEVVMNRCPAIEIPRLGL
+>tr|A0A1Q9ALM9|A0A1Q9ALM9_9RHIZ
+MSRITEIAISHHRLALDPPFKASWDGRPRTAFDATIVRVRDDEGREGIGSGDLMKGFEGH
+EALFIGEDPRCLERHYEVLSHIDFHYGRCWPLDLALWDLAGKVMGEPVWRLLGGRSDRVR
+LYASSGVLRAPEAMADQAERYLEEGFAAMKLRFSASAGGRAGWREDVRALEAIRARVGDR
+MALMVDCNQGWRMPWDTSRPWTFKEALTVARELERLDVEWMEEPLHREDRAGMRRLADAT
+AIKIAGGEMTRSAAAFRDLIAERALDVIQPDVALTGGITGCRRIALMAREAGVIFTPHSW
+TNGIGVLANAHLTAGLGEAPFLEYPYDAPEWSLERRDFPLARPLTHSQGWLVLSEAPGLG
+IVLDEDRLRTTRIG
+>tr|A0A1Q9ACJ9|A0A1Q9ACJ9_9RHIZ
+MAQTILYCRVSTSEQTAAHQETQARQAGFKIDQVLSDQGVSGVTVPLADRPQGRRLFDIL
+RSGDILVVRWVDRLGRNYSDVTDNIREFIRRGVIIRTVINNLTFDGATKQPMEMAIRDAM
+VCFMAAMAQAQAEAIKEAQRAGIDHAREADRPGVYKGRKPSYSRTDLETVLTMLEKQAGT
+SEIAKATNLTRQTVLRIKADPRGADDALKAWGQ
+>tr|A0A1Q9AEJ8|A0A1Q9AEJ8_9RHIZ
+MPADAPKTLTLRRPDDWHLHLRDGAMLRGVVADSARHFARAIIMPNLVPPVVTTADAEAY
+RDRILDALPDGSRFQPLMTLYLTEHTAADDVAAGKASGLITAVKLYPAGATTNSHGGVRD
+LDKVMPVLERMAEIGLPLCVHGEVTTPEVDIFDREAVFIETVLDPLRRRLPELKVTMEHV
+TTKDGVDYILGANRNLAGSITTHHLIINRNAILVGGIRPHYYCLPVAKRESHRLALRKAA
+TSGDARFFLGTDSAPHVDPLKECGCGCAGIYTSINTMSCLAHVFEEEGALDRLEAFTSLN
+GPAWYGLPVNAESITLTRSETPVTFPDKIQTGAGPVTVFDPMFPLHWVVEASHG
+>tr|A0A1Q9AIA9|A0A1Q9AIA9_9RHIZ
+MTDVRVAVLGGSGWMGKVHIMAYQTFPHFFGTSHGTARVVAVTDRDPRRAGDLAARAPEA
+KILQDWQAAIDDPEIDLIDICLPDNLHFEVAHAALLAGKHVFCEKPLADTAAQARILADL
+AREKGVITRVGHAFPRNPVHDLAKEIIEAGEIGEITLFKGCQHIDVFGDPLAPFMWRADG
+DLAPTGIVGDTGSHVFSFMEFLVGRVTSLIADNIITSPRRPVVEGSGLGGQARLTGEERW
+AEVTNPDATNLLCRFENGAAGLVDFSRVATGRKFRQGYEIYGTKGSLLYDYDEVNRLRFY
+SHVDRPGRAGFRAIDVGPEHPSYRAFLPLPNFALGYNESKIIEAAEVIRSITTNTPMWPT
+FESGHHICQIVDACMESSRLRRWVDIPLA
+>tr|A0A1Q9AJ31|A0A1Q9AJ31_9RHIZ
+MGSFSIWHWLIVLVVVLLLFGRGKIPELMGDVAKGIKSFKKGMSDDEHADATTSKTVDGR
+TVDHKSDEVR
+>tr|A0A1Q9AFG2|A0A1Q9AFG2_9RHIZ
+MLTNERRQVGRAVPRIEGPLKATGRAAYAAEHSEPGLLHGAAVPATIARGRILEIDSRAA
+KVAFPGIVAIYTHENRPDAAWLDRSWQDDTAPPGHTYRPLQNDRVLFDGQPVAFVVADSF
+ENARDAAALIKVIYERDVPETDLSAKLAERYEPPKKRNGISPPPEPRGKPEQAFDEAHVT
+ISADYFIENEHHNPMELFATTVLYGEDGSLTVYDKTQGSQNAQKFVCNVFSLKQDKVTVI
+NAYVGGAFGSGLRPRHQLFLAVMASLDLKRSVRFEMSRRDMFYLSYRPAMHQTVSLAADA
+EGRLTAVMHDTVQATSRYEDYQEVVVNWSGLAYRCDNVKLTYGLAKLDAATPGDMRAPGA
+ASGLFALESAMDELSYAAGLDPLELRRRNFVHFDQNENKQLTSKALRACYREGAARFGWE
+RRKPAPRAMREGHELIGWGMATGIWEAQLQSAKARVRLSANGQVIVQAAASDIGTGTYTI
+LAQIAAEALDVLVEEVSVQIGQSDLPETSVEGGSWTAASSGSAVDAACLAIRQRLLDLAQ
+KDKASPLKEATVEEVVIRGGHLRLDVDPKASVAISELMARAGETAIEEEGEVGPDAKQMK
+KFASYTHSACFVEVRVDEELGLVRVTRVVSAVAAGRILNPKTARSQILGGVVMGLGMSLH
+EESMIDHRSGRIMNHNLAEYHVPAHADIHDIDVHFVQEFDNKASPIGVKGLGEIGICGVA
+AAVANAIFHATGIRIRHLPITIDKILAGDKTPTDRAA
+>tr|A0A1Q9AKC5|A0A1Q9AKC5_9RHIZ
+MTETQTFKVGLIGADIQLSKTPALHMREGAAHGLDYRYELVDIHQRHVDESALPALLDEL
+ETRGFAGANITHPFKQAVIAHLDDLSEDARMLGAVNTVVLREGKRFGHNTDWSGFYESFQ
+RGLPDARRERALLVGAGGAGVAVAHAALKLDIRRLDIFDQDKARAERLAGQLNERFGAGR
+AQAVDDPAGSLPEADGLIHATPVGMPAHPGIPVAPNLIAPHHWVADIVYMPLVTALLSTA
+SAKGCRILPGGGMAVFQAVGAFRLFCGREPDAARMSAHFTELCQTEGVA
+>tr|A0A1Q9ALN8|A0A1Q9ALN8_9RHIZ
+MKLRSLQASGYRSLRDIDLDLAEVNLFVGENGVGKSNLYRALQLMQAAATGRLAEEIAAE
+GGMGSALWAGPHRKTEAARIALSAELLDEQSAVTFRYRVEAGLRPPQAAAGFALEPQIKE
+EELSVKTGRRPVTMMRRKGPGVFVRDEAGRMGDYPQAALTSETALALLGDAGHYPEVGTV
+RRLLERWRFFHGFRTDRDSPLRRPCLAVTAPLLAEDGANLAAVFATLSVTREDTTELDAA
+IAAALKGARLVIPEPLESAAFGLMLPEFPRRTFEPRELSDGQLRFLALAGALLSYRRPPL
+IALNEPEASLHPDMLAPLASLIAEAARESQIWVVTHSQRLATEIAARTYAQSWRVLREDG
+ATRVVPAH
+>tr|A0A1Q9AMU9|A0A1Q9AMU9_9RHIZ
+MTATRTETDTFGPIEVAADRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARTNM
+ALGRLDKTVGDAIVAAAQEVIDGKLNDHFPLVVWQTGSGTQSNMNANEVISNRAIEMLGG
+VMGSKKPVHPNDHVNMSQSSNDTYPTAMHIACAERVVHDLLPALKHLHAALEAKVKAFDH
+IIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIEMTLPGLQELAQGGTAVGTGLNAPI
+GFAEKVAEEIAAITGIAFTSAPNKFEALAAHDSMVFSHGAINSTAAALFKIANDIRLLGS
+GPRSGLGELSLPENEPGSSIMPGKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNV
+YNPLMAYNFLQSVQLLADAAISFTDNCVTGIEAREDNIKAALERSLMLVTALAPKIGYDN
+AAKIAKTAHKNGTTLREEAVGGGYVTDAEFDEVVRPETMISPA
+>tr|A0A1Q9AQC1|A0A1Q9AQC1_9RHIZ
+MSSAAPRIAKPFDWAGLVFAILLTLVIAVPLLVVATWAFTEVWRYPSLVPQKFGLRFWSQ
+TLSRADVWEALFLSLRLTAVVTALSAVICLPAAYAFARLKFPGRNLLFLSFLASHAFPKF
+GLLVAIAGIFLHLGLISTFWGVVLIQLVGTLMLMIWVPVAAFQAVDRRMEEAARDAGAGP
+LRVFWSITLPQAGPTIAAAVLLTFVGTFYETEGAWLIGAPQVRTMPVLMISFINNQLVVQ
+YGAVLSVMLWLPSFLALIFARRIVGTGAFARGFGA
+>tr|A0A1Q9AE75|A0A1Q9AE75_9RHIZ
+MRRSLISAGGGLACLLATCLILWGGAASIRARDAAGSSTLSLETPDAAEVPADADPLAAM
+TQEEVPALPADEAASAETGSDRPAQDAQGAGPAPGSALPATSAQVTSAPLAPPDGTATGD
+MAQAAPAPAPASTPTPTGDIDMLASSETRNVVLRHPIVLSAGLIRFPSYRVQLAGINPEE
+QRRRCGTGRDSWPCGALARTAFRNFVRARTFVCSLPKDLSLPEHQLARDPAIVAKCSVGG
+DDPAEWLVRHGWAEVPAGSDLAPLMEKARQEQIGFFGPDPRKDEAKRMQDALDTAPADMA
+PDAPDGEDSGDAPAANP
+>tr|A0A1Q9APS0|A0A1Q9APS0_9RHIZ
+MAAKTTSSAAHVRPVETSADDQPDVARDSQPAAEARPQEGKTAGAAPAATAAPAKKRRGL
+LLPVIGLAVLAAAGWYGHDWWTNGRFMISTDDAYIEGDIAAIAPKVSGYVESVPVIANQH
+VKAGDPLVVLDGGDYRIALDQAEAQIATEKLSLARFDAQITGAVAARAQAEAQKVALQAT
+VRGAEITQRRESDLTSRSVGTAASLDAANVAVDQARANLLAADAGIASADASIAVLKAQR
+AEAESTIRSLELARDKAARDLSFTVLKAPYDGVVGNVSVQKGDLVSVGQRLAALVPTEAL
+YIDANFKETQIAGLVPGSKVKVHVDAYDDKPIEGTVQSIAPASGSVFSLLPPENATGNFT
+KVIQRVPVRISLPKDALESGRLRAGLSVVVDVDSRTAPGAAETAGR
+>tr|A0A1Q9AD92|A0A1Q9AD92_9RHIZ
+MSPAFYADTIADLRRLFTEIDRAPETVQTCALRFELAAADALVVYETTRRKGLTDSLFYG
+RPAGAEAQQTIPQVAAFAAIDRFLALGQFLALTGEGEAGKPLDKRYPHCAVSITYRRKGQ
+PKARAMRMVFIGFNDDADALAYGEGADDGALVIRRPHVTAKAFEWM
+>tr|A0A1Q9AF93|A0A1Q9AF93_9RHIZ
+MSLADPFDAISDPNRRYLLEELRRAPRTVNELAEGLPISRPAVSQHLKALLESDLVSVSP
+SGTRRIYTINKKGFDKVNLWLDQFWS
+>tr|A0A1Q9AIV6|A0A1Q9AIV6_9RHIZ
+MDAKTDERSQKTEGGALDVQTSQAVDQTDSSLKGRDAEEADSIEADDISNLAARREAARL
+HGDVYIVKSDLEDQDQREASPGTREQD
+>tr|A0A1Q9AMZ4|A0A1Q9AMZ4_9RHIZ
+MNPLVIGLSILALGLAILLFNHDGGQMLGLGNDAFARLVSLSAFLAVMAAGLWRGRMQLG
+QRLQRLLIWLVLLLALVTAYVYKSDLQSFGQRLAGGLMPGYAAVFTDNEGYQEVVLSKML
+NGHFEADVTVDGNRLRMLVDTGASNVTLSYEDAERIGIAPDKLTFSRRVLTANGEARAAP
+ITLDTVAIGPIERTRVAALVAEKGRLDQSLLGMSFLSTLDLLQMKTNELRLRD
+>tr|A0A1Q9AD55|A0A1Q9AD55_9RHIZ
+MTYLLEVEGLKKSFGGVAALRDGALRLKPGSVHALCGGNGAGKSTFLKILMGIHQRDGGT
+IRARGRDVVYSSPAEALSAGIAIIEQELSPIPHMSVAENIYLGREPSGRFGGIDFKTMNR
+KAQALLDRLGFDIRASALMMHLSVAQVQLVEIAKALSHDADVIFMDEPTSAIGEKEAQHL
+FVAIERLKAEGKGIVYVSHRLSEIFQIADSYTVFRDGRFIGDGLLSDIDRPGLIRMIVGR
+DLGEEFYKTNVPTDEPGLEVENLTAPGKIDKVSFTAHRGEVFGIYGLMGSGRTEIFNCLF
+GLDTPSEGIIRLAGTPITVRRPRDAMDLGLAFVTEDRKLTGLNLGDSLRNNVCLASLPEM
+SPRFSMNRRAEADAARAMIDRFAIKAARDTMPVSGLSGGNQQKVVLGKWFLRQPKVLLLD
+EPTRGVDVGAKREIYRIICDFTAQGGTVVMISSEIDEVLGLSDRIMVMRQGRSAGILARD
+AVDASALVNLST
+>tr|A0A1Q9AJI1|A0A1Q9AJI1_9RHIZ
+MPRFFVLNGPNLNLLGKREPGIYGGHTLADIEALCVEAGARLGFTVDFRQTNHEGTLVDW
+MHEAQDAADGIAINAGAYTHTSIALHDAARAIRVPVVELHLSNVHAREAFRHHSYLAPAA
+KGVICGFGAQSYLLALQALQSLTQSAE
+>tr|A0A1Q9AFM7|A0A1Q9AFM7_9RHIZ
+MAALAACCALAVQPALANPHLVVDVNTLKVYEQNDIFQKWYPASLTKLMTAYTTFRALRA
+GKLTLQSQVVMSKHAAAEPPSKMFFKPGQAMTLDSALKMMLIKSANDIAVAIAETVGGSE
+PAFVDMMNAEAQRLGMSSSHFVNPNGLPEPGQYTTARDLAVLAITIKREFPEFAPYFSYE
+GFTTGKKNFPNYNMLIGRFDGADGMKTGFICASGFNQVSSATRNGRSVVSVVLGSDSLGG
+RADESARLLQMALTDGGMNKPTLSQIAPYGDTRDTVADISKQICSKEAAKVRSEGRDEAG
+RQKLLSPFIHEINRPLNLVYAGLIPGTEPVEEAAGEKTAAAGVKGKGAIPIPVPRPVY
+>tr|A0A1Q9AIV2|A0A1Q9AIV2_9RHIZ
+MTLRQQIIALAIVPLVLAIVSVTSFITWQSVELAGTSVATFERNMLSSKETEIVNLTSLA
+NSAIRPIYEAAGPDDEAAKRRVIEIVRGLDYGRDGYFFIYDYAGNSLVHPRQEFLPGHNW
+LDLQDPDGNRVIANLIARAKDGGGFHRYKWNRPSTGEVADKVSFVVALDKWGWILGTGVY
+LDEIYAQTEAAKSDIRERIRWTFLIVALVAIPATLLVFSTCMMITLRERRLADARLKQLT
+QRVIDTQEEERARLARELHDGISQSLLGVRYRMDLAGRKVAAGAPEAEQAIRQGVETLNA
+AIKDVRRLSHDLRPRLLDDLGIVAALRSLLAHFEERTGIQTVLTVEGFEDELKSEPSTAL
+YRIAQEALTNVERHAGASRVDITLWSARGRARMRITDNGHGFVQGGPVGTSGLGLRNMQE
+RMAHFRGVLVIRSDETGTVMTAMMPKSANRERQAA
+>tr|A0A1Q9AI84|A0A1Q9AI84_9RHIZ
+MGALLQSHTAPRKLIAGNWKMNGVGAALAEIEAMAAAAERLSCDLVLCPAFTLIERAAGL
+VRDTPVRIGAQDCHAQPAGAFTGDISADMLADAGASHVIIGHSERRMAYAEANEQVAAKA
+LAAYRAGLTAIICVGETEAERDAGRALDIVVAQLSASLPDGATAANTAIAYEPVWAIGTG
+RVPAEAQIADMHAAMRQHLSARFGMEGVQMRLLYGGSVKAANAADIFAVPHVDGALVGGA
+SLKAADFLGIAAAA
+>tr|A0A1Q9ACZ7|A0A1Q9ACZ7_9RHIZ
+MPTVAMIQHTLKEWSRVRQSLEATLQEALSQHDMQAYLARFEADVLSHPDLASAYFDFLR
+NLKNFISSPDRHSADALRDYQASDMLRFGSAYFFFTMRKTIRSHTRLNGRLQRSGKTQCS
+ETIDYMQAGVLLDRAFGKTLAVRCTNWGAHFIRSKAIDGSFVYLWTRLGTNWGYIGDQRV
+RIDFLNECIDFEHLEYFYSVKHFVQELWWTFYVATSNYVTHLDIEQMRAVDAGRATQKFA
+FFSEGFWHIGHEIWNSFSAADFFVQNGVRFDIVLGYEHRCLHGDLERILSDVAAEFVLVD
+SVDALARYLAQSPEVVTFMTRHDFIGRNLSKQVLDNLRIDNHAMIDRVIADPAALSICFG
+IRCGNRECLNAFDLLESLIDTATRHLNGGLLRIVLDGTQRQKQTGTHAAIATDVEAQLLE
+RMHRELGTRENVELIDTAHLTYPESVRLVNLCDIFVTPWGAGLAKTCWVGRLPGVIYGNR
+FILGRNGDYDLYSSGFWVEEPNRIEYLPADHITRDVERSPDGKINDFEIDPARFSAFVWS
+FIESAEIKRAWEQMSS
+>tr|A0A1Q9AEJ9|A0A1Q9AEJ9_9RHIZ
+MGLKHVSNRLSKSDLAHLGAGEVGYIRKMRSDEVSRCFPEAPNMEPGLDLWALFGADGTP
+ILLTDNRSSTFFKAAEDDLKTVTLH
+>tr|A0A1Q9AGQ4|A0A1Q9AGQ4_9RHIZ
+MVQTSNAHGWENLLAERWRHEAGELPSLVPRDTEIAVLLRGRSVVDRRGGGMRQHTVAKR
+GTIWLCPAGVEEEFISVSEQMDDCLHIFLPGKPFSDSMLREYELDPARIELRYEAIDEDP
+FIEFAANQILREMSCETAAGRLLVETLALSLSAHLIRQYSGRPVGRTPAARGEKPLDGKR
+LARVEDYVDFHLDEDFTVTDLASVACMSVAHFARSFKLATGKSPHAFVNDKRMALAKQRL
+ADENWTIEAVALAAGFSSHANFTRAFKNSTGMTPQAFRSETRGW
+>tr|A0A1Q9AMV3|A0A1Q9AMV3_9RHIZ
+MRKTPRQARSRALVEAILEAGARILSVEGWAGFTTNAVAERAGVSIGSLYQYFPDKLALT
+DAIRQRHLDDCMAVLRLSQDAALSSDAFAAGLARAMISAHLKHPGLHRVLLDEAPASSDY
+RNPQSAFEQAYLACFEAAVARYRGEANRVAALVLSDAIDGIVHNAARRGMLAEPEVEREL
+VAVVLASLALRTRSSS
+>tr|A0A1Q9ADR7|A0A1Q9ADR7_9RHIZ
+MQQVFDGHNDVLFRLWTLSLDGRDPVAAFRDGDGAGHIDLPRARTGGLAGGLCAIFVPSE
+GGLVVSHPATDGAYVTPMAEPVAQPQALEIAKAMLGIARDIEAGGGWQLCRSTAEIRAAM
+AAGRFSTVLHLEGCEPIGPDLAELETFHAAGLRSLGPVWSRHNIFGHGVPFAFPMSPDTG
+PGLTEHGFALVRACNRLGIAVDLAHITEQGFWDVARTTDKPLIATHSNAHALTPVARNLT
+DRQLDAIRESRGVVGLNYATTMLRPDGLDDAATPLSDMVRHIDHLVARLGIDGVALGSDF
+DGATIPRAISDAAGNQALIDALKAAGYGDDDLSKLCCDNWLRVLGEAWHEGAANDTGRHQ
+AA
+>tr|A0A1Q9AIZ3|A0A1Q9AIZ3_9RHIZ
+MTKTAHILLVDDDPAEKLIIGNVLRKVQNIAIDLHYCQTIEEALDYVQSGAPVSLILMDN
+RLQPQADFRETVPVLRQKGYIGPVGVISASLSDPYFQTFEDYGADFRIDKAELDPTAVEF
+ILREYAAR
+>tr|A0A1Q9AJZ2|A0A1Q9AJZ2_9RHIZ
+MSDFTGKTIIITGAGKGIGRACVELFSERGARIVAMSRSQTDLDDLARNFGATVISVDLA
+DNAAARAAMKTAGLADALINCAGTNVLESVLDMTEQGYETVLGINLRAALICAQEFARAR
+IANGGGGAIVNVTSIAGHRGFVDHLAYAASKAGLEAATRVMAKELGAHRIRVNAVAPTVT
+MTELAAAAWSEPSKRDPMMVRHPLGRFAEVQDVARSIALLLSEDAPMISGAVLPVDGGFL
+SV
+>tr|A0A1Q9AM32|A0A1Q9AM32_9RHIZ
+MTTRGLLRNAALALATMTATLTAGAQAFSADGKPLVIYVSSNPVGVNDFLMLGKIGTDRI
+AKELGGTSKTFESTDPTTQRQNLEAAAKEGADVVVAITFEFNDILPQVAAQYPNVKFLQI
+DSCPSKMLPNIYCAVFREYETNFLAGAEAALTSETGKVGAIGALDIPFIHRYNDAFLAGA
+KHVKPEIETAANLWIGGDNPFSDPARGQQRATVMLSEDVDRVLAAASGSNGGIFKAMADF
+PGAAAFGVDINQCKQSPGHVMDNVEKLTDVAVETGVRDILKGTRGQVVALGLKENGMTLT
+SFKPDVDKSECLIAKYPEVIDKVKALKEEIIAGKVVVADPMKLDK
+>tr|A0A1Q9ACC7|A0A1Q9ACC7_9RHIZ
+MNFSAWAIRNPIAPILAFVLLLFMGYQSFNKLPITRFPNIDVPIVSITVTQSGASPSELE
+AQVTKEIEDAVAGISGVKHVTSTISDGQSMTAVEFNMEVPTPQAVQDTKDAIDRIRGTLP
+ASIDEPIVSKVDVEGQAIQTFAVSAPNMTLEEISWFVDDTIKRALQGQPGIGKIDRYGGA
+DREVRVALDEPRLNAYGVTASDVNAQLRQTNRDLGSGRGQVGGAEQAIRTLGDTRSVQAL
+ASSMIALPNGRFVRLTDLGTVTDTYQEPKSFSRFDGVPVVTFAVFRSKGASEVTVAETVA
+KILTKVRSENPEVDIKLVNDSVYFTYGNYEAALHTLMEGALLAVAVVLLFLRNWRATLIS
+AAALPLSAIPTFYIMDLLGFSLNLVSFLALTLATGILVDDAIVEIENISRHIKMGKSPYR
+AAIEAADEIGLAVIATTFTIIAVFVPVSFMPGIPGQYFIQFGLTVAVSVFFSLMVARLIT
+PVMAAYIMRSGDADGHEDHDKDGPIMRGYTRLISFTTRRWYMRYATLAGAIAFLVGSLAL
+LSTVPGSFLPPEDASRIVLSVELPPDAMLEDTERTTTAIYDRVKDMNGVDAVFVLGGASP
+KGDLELRRATVTVLLDKLDHSLVNKLVNNLLGNLPVIGPHLPKLPPKGRIIPQAQIEKQI
+YAALADIPDVRVMKLNDRGERDLSFNLLSKGDAELSEAVSRLEAKLRHETVLANVSPDGA
+LPRPELQIRPRAGQMSRLGVTTQQIADVVRVATIGDIDAALTKISLDDRQIPIRVQVDTQ
+MRTDLGAIRNLKVRTAAGALVPISALADISYSEGPSSIKRYDRSRVVTLGADLPIGVALN
+TASDRFKQVAAETELPHGVRFQEAGDAEVQAEMQRGFGNAMLLGLMLVLVVLILLFKDVI
+QPFTILFSLPLAIGGVAVGLIVTQNAMSMPVLIGILMLMGIVTKNAILLVDFAIEMKRHG
+MERVEAMIEAGRKRARPIIMTSIAMSAGMLPSALGVGEGGSFRAPMAIAVIGGIIVSTVL
+SLVVVPSFFLIMDDLSRLLGRLFGRFFGAKEQEIEPLANADLTEKLGDQERQIEAMQERI
+DRLEGRVLPRGGQVVAHPRLAAE
+>tr|A0A1Q9ADC5|A0A1Q9ADC5_9RHIZ
+MHKRLLTLALASAALALPLHAAQAADGPLKVVATFSILGDFAKQVGGDRIALTTLVGPNG
+DTHVYEPKPTDAAAIGKADVVLVNGLGLEGFMNRLVESSGTKAEIVTATKGVKPREMEID
+EDEGHGDEAHAHDAKAHDAKAEAGKKEEAHSSHHHHEGTDPHAWQNVANAEIYVKNIVDG
+FCKADKAGCDTYKKNGAAYEAKLKELDAEVKKTFAAIPKDRKTVITTHDAFGYFAAAYGL
+KFLAPEGLSTDSEASAKDIAELVEQVRHDKATAIFLENISDPRLMQQIGRETGITPGPEL
+YSDALSDPSGPAATYLDMVRYNTKTIAAQISGS
+>tr|A0A1Q9AF62|A0A1Q9AF62_9RHIZ
+MKIAVLGGDGFVGWPTALHLSAAGHEVHILDNLSRRWIDTELGVQSLTPMDSIQERTRIW
+HAETGRRIHFHLIDLARDYELLKNWLAQHRPDAIIHFAEQRAAPYSMKSDRHKNYTVNNN
+VNATHNLLNAMVELQLDAHLVHLGTMGVYGYSTVGAAIPEGYLPVGIETQSGETVSQEIL
+YPANPGSIYHMTKCLDQLLFQFYAKNDGLRITDLHQGIVWGTHTEQTRIHPQLVNRFDYD
+GDYGTVLNRFLIQAAIGYPLTVHGTGGQTRAFIHIQDSVRCIEIALKNPPARGARVEIFN
+QMTETHRVRDLAQMIARLSGAEIAWLPNPRKEAAENDLVVKNDKFLGLGLSPTTLEGGLL
+SEIVDVARKFAYRVDRSRVPAVSAWTRDIAATINHDPEGKRLKSVS
+>tr|A0A1Q9AJM8|A0A1Q9AJM8_9RHIZ
+MAEKMLIDASHEEETRVVVVRGNRIEEFDFESEHKKQIRGNIYLAKVTRVEPSLQAAFVD
+YGGNRHGFLAFAEIHPDYYQIPLADRQALLKAEAEEARRDDDHDSADHETPEEAAVPPAA
+EPEGNGEDAPTVKIETVEEKPKKPKRARRSKKAAAEPAVEAADAAQPRDDIAGEDAAVGE
+TDEDAASQQVVETAPESGEAALEGADSAEVAANDADAGDSGPSVSGDEGFGGDHDEGGSH
+GGSIAAMVDVDEVSEARGHDDDDDEDDHRHEEKEVIESVGAEDAMEEVPDRQVRKPRKQY
+RIQEVIKRRQILLVQVAKEERGNKGAALTTYLSLAGRYSVLMPNTARGGGISRKITNLPD
+RKRLKEVAKSLDVPQGMGVILRTAGANRTKVEIKRDFEYLMRLWENVRTLTLASTAPCLV
+YEEGSLIKRSIRDLYNKDISEIVVAGEEGYREAKAFMKMLMPSHAKVVQPYRDVHPIFSR
+SGIEAQLDRMLQPQVTLKSGGYIIINQTEALVAIDVNSGRSTREHSIEDTALQTNLEAAE
+EVARQLRLRDLAGLIVVDFIDMEEKRNNRAVEKKLKDCLKNDRARIQVGRISHFGLLEMS
+RQRIRASVLESTTQVCSHCGGTGHVRSQSSIALHVLRGIEEYLLKNTTHDISVRTTPDTA
+LYLLNHKRGTIIDYENRFGVAILIQADPLVGSQHFAVDRGEPVENPVRIEQLLPWEPPIE
+DEDDVVIEEELEEDEAAAEAQSEPAARESARDEGEGDNGRKRKRRRRRRGRNGSNGEGSQ
+DNLAAGDDESEDGSDEDEGENEGDEADDAAAVETTDGLTAEERQKRKRRRRGKRGGRRSR
+ADELEAGAEGEAEDGDAQGDEDEGDEASDQPADMAAEAAGEGTVLEQAIEVSGLTVLGEA
+EAGQPQDGLSAGMDQSLTEAEAAPQTSDVLQAEEALQETPPVAQDAPAPQAEAPVVAEAE
+PVAAESAEGTEEAGKPARRNRDLDTIASEPVVRSSSTGEDDAGKPKKGGWWQRRGFL
+>tr|A0A1Q9AMP2|A0A1Q9AMP2_9RHIZ
+MTQTDSTQTDTRQAGRDVVITGIGIVTSQGVGIAPHRALLTAPVAPEPVVELEKLAPYPV
+HPLPAIDWSQQIPKRGDQRQMENWQRLGVFTAGLALEDAGLKDDTDACGSMDMIVAAGGG
+ERDIKVDSLIVDEALKRNDREQLLNEKLTTELRPTLFLAQLSNLMAGNISIVHKVTGSSR
+TFMGEEAAGISAVETAFHRIRAGQSTHTLVGGAFSAERADMLLLVEAIGAHSLHRWLPLW
+SRAEGEGGGMIMGTVGAFLVLESRAHAQARGAQIYAQISEIAGDRGLRDEGRMERRLERL
+LEPAKGEGGETLIFSGASGMVALAEREKSVLDHVLPGAALRAYGGLAGHSLEAQFPLGLA
+LAALALQCGARVPPFDPAETAMAAPASRAVVTTVGHQRGEGVALLVAEAQEA
+>tr|A0A1Q9AE40|A0A1Q9AE40_9RHIZ
+MTDVIYKIVTAPQWQAAEATGRFDGAPVDLSDGFIHFSTAEQVAETAARHFAGQGDLLLV
+AVDADALGEALVFEPSRGGALFPHLYGPLPLAAVRWQAALPLGPDGRHRFPEDLAGQEAS
+R
+>tr|A0A1Q9AHC3|A0A1Q9AHC3_9RHIZ
+MTRLVRFSALSSLCAIALVFAVGALFRAQKTDMFQRELRIKVDSQLSLITTQIESDIRLR
+MTALNGLADSISTDTRNAEPVFDRLAPLIRARHADLLRISVAPQNQATLVSAHNPDEIDS
+IRQLRLDRFPAMRRAIERARKHAKPSIFGPVRLPSGHTAFEIFVPIYDEAGMPGRLWGVI
+ESAMDADHLLRMARRYDSSDGQQQEAGAQAISVAIRDVSLNNRAQDPFFGHYAIFSDNPV
+TRVLDLHGGRWEMAATPQGGWAVPPPEAAMIDRLIAVSMAASGAVAFLVSMLVKDRRETR
+TRLERREREVLSLSQRLDFALSASGIGVWDLDPDTEIQTWDDRMYTLHGRSAQEGVISLQ
+KFRKTLHADDVSPCLIALRQALLQEKDYRMEYRVVLPFGRLRHIRSFGAPHQDAAGRMKL
+IGISVDITDDVIKAEALRKAHAVAEARNHALAEANSLIEHNAYHDPLTALGNRRKLDRQL
+AEIAHTAGGLAGTALLHLDLDRFKQINDTHGHAAGDAMLIHTAQVLRQCVTSRDLVARIG
+GDEFVIVISPAPDRQALTALADEIVERMRQPHQHNGVTCRSGVSIGIALGGPMAQDAAAL
+MINADVALYRAKQNGRNRVEVYTEALQSAVTVGKRMADEIMEGLERNEFVAWYQPQVDAR
+SHRMVGAEVLIRWNHPRQGLLAPAAFLPVAEEIGVVPLIDAVALRRALTDQLHWATHNVT
+LPRLSVNVSARRLADPDLLDSLKAIDIPAGRMTFELVESIFLDESSQTVSANLEGLKALG
+IAIEIDDFGTGHTSILGLLRTKPNGLKIDRRLVMPILTEPSARRVLRSIVEIGRALDLTV
+TAEGVETLELAAMLAELGCTTLQGYVFSRPLPPDAFLQYMLDEKARRQLIVA
+>tr|A0A1Q9AIH2|A0A1Q9AIH2_9RHIZ
+MSIEAMQAKSAEAAAFMRLFGTPSRLLLLCFIAEKERSVGEMQDELGFRQPALSQQLAEL
+RQAGVVQTRRASRQIFYSIADARVATVMAMLMQMFCSPDQAEASNGAAAGGGRGA
+>tr|A0A1Q9AKJ1|A0A1Q9AKJ1_9RHIZ
+MRYESSGIVTSATFRPRPVSVFRADSMTKSEFASIRALRATSSTATAKTIGRCRARARDL
+NDTTRAYITILEKEADSIPADESTTRNLPLAGVPYSCKDVFKTKGILTTGGSRSLAAHVP
+DQDATVVAMLRKAGAILVGKTNLHEFCYGITGVNETYGTPPNPYDGSRIAGGSSSGSAVS
+VATGSAAFSIGSDTGGSIRVPAALCGLVGFKPTYELIKTEGMIPFCWTLDHIGIITRSCV
+DAAPILEVLAAWVDTDQGYPVSPLEERLLRRREAILLGLKIGVMRRHFFEGLDPEIRAAT
+EAVMTQCQRLGAVLVELDTPDMGDVRSASLAIQLAEASSWHGPRMGAEAHLYGDDIRRGL
+MQGQFILAEHYVQSLRLMELKRREFAAKMRHVDVLITPTTPIVAPWLGQKAVENETGEEL
+VGNALTRLTCIFNLTGNPAITLPCGRHSSGLPMGIQLVGKPYQDAKLLEIGNAIETVQEA
+GW
+>tr|A0A1Q9AD24|A0A1Q9AD24_9RHIZ
+MNEMMAERRLQGDSMAIPADEAIAADARALSDQLKAMRDRLFAPSAQKTLRSFTSGEAAR
+LIGVSDGYLRQLSLAGEGPQPETGIAGRRSYTLADINALRRHLGELALTKNNLAKARGYL
+RHRDPARGEHLQVIAVTNFKGGSGKTTSSVHLAQYLALAGHRVLAVDLDPQASLSALFGY
+QPELDLTGNDTLYGAIRYDEEIRPLQAIIRKTYFDGLDLVPGNLELQEFEHATPRALSDR
+HQGSDAGPMFFARVQAALESVADDYDVVILDCPPQLGYLTLSALCAATSVIVTVHPQMLD
+VASMNQFLFMTSDLLAVVREAGGTLNFDFLRYLVTRFEPNDGPQAQIVGFMRSLFGERVL
+TSTMVKSTAISDAGLTKQTLYEVGRENFTRSTYDRALESLNAVNSEIESLIHAAWGRHGD
+GR
+>tr|A0A1Q9AF11|A0A1Q9AF11_9RHIZ
+MTSLPQDLEEALGLFMAQQGLSRDEALSALLRAGLASHRQAEPVASPPPADDQADPSQPD
+PERVQYPGYFKGEGRL
+>tr|A0A1Q9AFK2|A0A1Q9AFK2_9RHIZ
+MLYDITLRITYRYEVPVSGGRHVIRAMPLSIPGRQRLIAGSLTATPLPDERYDRQDFFGN
+AVTGLLLRKTHEKLVLRMQSRVVVESQTETVDLSPPLALLGADLDAVWSMTADSPHHFLG
+TSPRLGEDAAIAAYAREGVEADMSVLQIARRLCSAIHTDFTYDPKATTVDSTPRDAFKIK
+RGVCQDFAHVMIVALRALGIPAGYVSGFLRTLPPPGKERLEGADAMHAWVRVWCGPTLGW
+IELDPTNDMAAGSDHIVVAYGRDYSDVAPVIGVLKSYGSHETHQAVDVIPVKIGG
+>tr|A0A1Q9AJ30|A0A1Q9AJ30_9RHIZ
+MVQFDLVVVGSGPAGRRAAIQAAKLGKKVLVIEQGKRVGGVSVHTGTIPSKTLRETALNL
+TGWRERGFYGRAYRVKQEISAEDLRRRLLITLDHEVEVLEHQFARNRVQHMRGKASFVDP
+TTLQVLKDDGEAVQVTSTSILLAVGTKPFRPSYMPFDGKTVIDSDELLDIAELPRSLAVI
+GAGVIGIEYATIFSALDTAVTLIDPKSTMLDFIDKEIVEDFTYQLRDRNMKLHLGQKAEK
+VERQPDGKVHIKLDSGRVVIVDMVLFAAGRMGATDTLNLDAAGLTADNRGRLSVNPETFQ
+TSVPNIYAAGDVVGFPSLASTSMEQGRIAARVAVGAIAKEPPKFFPYGIYAVPEISTCGL
+SEEEVKQRGIPYECGIARFRETSRGHIMGLDSGLLKLIFSLKTRRLLGVHIVGEGATELV
+HIGQAVLNLKGTVEYFVENTFNYPTLAEAYKIAGLDASNRMGDGEVKTVTAVSV
+>tr|A0A1Q9AKM6|A0A1Q9AKM6_9RHIZ
+MTDWPILSTVTFLPLAGVALLLLTNDASPAGRRNVLNISLATTVVTFLISLFVWIGFDNA
+NPGFQMVEKHAWLGTGISYHLGVDGISMLFVILTTFLMPFCVLASWESVEKRIKSYMIAF
+LLLEVVMVGVFVSLDIVLFYVFFEATLIPMFVIIGVWGGKDRVYASYKFFLYTLLGSVLM
+MLAIMAMYWQAGTTDMTELLKFGFPAGMQTWLWLACFAAFAVKMPMWPVHTWLPDAHVQA
+PTAGSVILAGVMLKLGGYGMVRISLGMLPLASAHFAPLVFTLSVVAIIYTSLVAMMQQDI
+KKLIAYSSVAHMGYVTMGIFAANMQGIQGALFQMLSHGIVSSALFLCVGVVYDRLHTREI
+SAYGGLVNNMPKYAVAFMVFTMANVGLPGTSGFVGEATTLLGAFRANTWVALFAATGVIL
+SAAYALWLYRRVIWGALDKDSLKSLLDLSTREKVILYPLVVLTIFYGVYPAPVFDATAAS
+VEQLVNTYNAALSAAPTVAAATVN
+>tr|A0A1Q9ALV8|A0A1Q9ALV8_9RHIZ
+MQTRNPNPTDVHVGSQIRMRRKMMGMSQSALGERLGVTFQQVQKYEKGTNRIGASRLQSI
+ARILGVEVSALFSGAAPVIEPNQADGGEIAGIQALVSSKEGFALNQAFSRIKNDAVRRRI
+VALAKSLAEASNEAMARDDDL
+>tr|A0A1Q9AF99|A0A1Q9AF99_9RHIZ
+MPKNPNLTLTGPDLAALLCSRVCHDIISPVGAINNGLELLDEGGADADAMELIRASALNA
+SVRLKFARLAFGASGSVGASIDTGEAEKAARDFAAVEKKTEISWTGPRVIIAKNRVKLLL
+NLFLIAYGAIPRGGSLDIVLDNPEYDAEFTLTAKGRMMRVPPKLVELLSGSLEEAIDAHT
+IQPYYTVLLADEAGMEIDVRSTGEEIIFTARMAQAA
+>tr|A0A1Q9ADE8|A0A1Q9ADE8_9RHIZ
+MRSTINLDEALVEKAKSLTGTQETTALVRQALETLVRVESGKRLIALGGTMPDAEAAPRR
+RTGGAE
+>tr|A0A1Q9AEH6|A0A1Q9AEH6_9RHIZ
+MASVNIRSVVKTFGETHVLKRIDLDIRDGEFISLVGPSGCGKSTLLRIISGLEQQSGGSI
+LLDGATVDRIRPRDRDLAMVFQSYALYPHLTVAENIAVPLVMRRLNTTERSLLGTLLPSA
+KAKRKEIAGEVGRVCDALSISMLKDRKPASLSGGQRQRVALARAMVRKPSAFLMDEPLSN
+LDAKMRVQARGEIAALHRQLGSTFIYVTHDQAEAMTMSDRIAVMMGGEILQVDTPDQIYQ
+MPLDLRVAEFIGSPKINVLQAALTEGDVLSFTFADTANNRVQAAFRPEAARLAGIANAPL
+AGVIHHIENLGADLFVQVMTAGGNLVVVRCDPGGIRPAIGDKVGIVMDEARLHVFGTDNR
+RIEGSYRLEAPL
+>tr|A0A1Q9AGL6|A0A1Q9AGL6_9RHIZ
+MIYLNTLAMKLFYMALWMKQRATLGAQIAVLKDQKVLLVRHSYKPGWHLPGGGVDPPEAP
+EAAAERELYEETGLKLAERPTLLGVIPNVSSATKRDYITAFTACAIAESHSRRSREIAEI
+AWFPVDDVPADSHPMVGKVLARLRQHES
+>tr|A0A1Q9AKF2|A0A1Q9AKF2_9RHIZ
+MTRIHAEAALLPQGWARNVLIRLDGARIAAIETERAAEPGDARCGVVVPSLGNLHSHAFQ
+RAMAGLAELRGPADDSFWSWRTIMYRMALTMTPEQVEAVAAQLYVEMLEAGFTRVGEFHY
+LHHDRDGRPYADPAEMAGRIAAASAETGIGLTLLPVFYAHAGFGGLAPAEGQRRFIHRPE
+AFAELMARCRSLTRALPGAHLGLAPHSLRAVTPEELADLLPLAEGGPVHIHVAEQVKEVE
+DSLAFSGARPVEWLLANMPVDDRWCLIHATHMTQAEVRGMAARGAVAGLCPITEANLGDG
+VFEAPLFLAEGGRFGVGSDSNVLISLPEELRMLEYSQRLARRARNVIAPPGGSTGRHLLE
+TARIGGNAALQSAIGLVPGGDADFVALDSAAVPYLEEDRLIDHWIFAGGVRLDRVWAGGR
+CQVEGGRHRARDAVRARFEAAMAQLVAAL
+>tr|A0A1Q9AQA3|A0A1Q9AQA3_9RHIZ
+MARLTIKGVSKSFGTGFAVNDVSLDVEDGELVCLLGPSGSGKSTLLRMIGGFERPSAGEI
+LIDAKDVTRLPPERRPTGMVFQSHALWTHWNVFDNIAFGLRLRRRPRAEIRERVEQALAM
+VGLADYGQRMTTQLSGGQQQRVALARSLVLEPKILLLDEPFASLDQHLRERLREEVKDIQ
+SRLGITTLFVTHGQDEALALADRIVVMRDGVMEQVAPPDVIYRAPRTEFVASFIGSMNFI
+RVTVEEGIGRHEDLTLPVPVADGPAVLGIRPEALSLTPSERPRAGRVHRSIDFGTHKLVD
+IDLLDGTRMKAMMPPETQVPRGLRVELGVSAFHVFRDGAQVYQAGARGSETERRVSHA
+>tr|A0A1Q9APK5|A0A1Q9APK5_9RHIZ
+MASIQTVGSGARPAQQRPAAPAQAPVDERMDPRRLIAFFAMVVGMFMSILDIQIVSASLA
+EIQAGISAGSDEIGWVQTSYLIAEVIMIPLSGTLARIISTRVLFASAAIGFTIASAMAAT
+STSIEEMIIYRALQGFIGGGMIPSVFAAAFTIFPPSKRNIVSPIIGLIATLAPTIGPTVG
+GYLSHAFSWHWLFLVNVPPGIVVAIVTWTYIDFDKPNLALLKKFDWWGLISMGVFLGALE
+YVLEEGNTKDWFSDDKIVLGAIASALAGIVFFWRALTVDFPVVDLRAFSNRNFAFGSLFS
+FIMGIGLYGLTYLYPLYLGRIRHYDSLMIGETMFVSGLAMFVTAPIAGILSGKFDPRVLM
+VAGFSSFSLGTWIMSGITADWDFYELLIPQILRGFGLMMCMVPINNIALGTLPRERIGGA
+SGLYNLTRNLGGALGLAIINTLLTRRQDIHYAQLSEHVQWGNPAAMHKLNSIAGNYAAHG
+IDGQLAAIRQLSGIVQTQAAVMSFSDIFVLLTGLFSALILCVALIKKPQAVPAGAGGGH
+>tr|A0A1Q9AND0|A0A1Q9AND0_9RHIZ
+MHQVSAGIDPLSRPRFDASLGLASATPVNRERLVHPSKFTRLGRAPLDVAARAVTHPETP
+QAALKVQSAKLGLALALAKSNADLRPAMQMAAAVPAPSAAAPAAAPAPIGTISTVHVAVA
+TPTLPPAPALPATPAVPTVSLPSQMDIAEAEAAPIRPHAMVEPSPVKTGTVSGPFSLVLS
+NSETAEPLPDLGPMPLSRPGAAAEARRLAPAKVEEEEDDDDAKPSVVRRKPARTELAYAK
+PDAPIDDEPPIRSPMLGRKGVAIYDISAGRVHMPNGEVLEAHSGIGKMRDNPDFVHVPMR
+GPTPPGTYKVTMREAKFHGVEAVRLTPMDGVAPHGRVGLLAHSYLLRTRGDSHGCVAFAD
+YPRFLKAFKRGEISQMVIVKSMKGGFSPQKKTLASLFSWGK
+>tr|A0A1Q9AI06|A0A1Q9AI06_9RHIZ
+MCTILRVRWTLTPLAAPRPWLACSGCGVPRAFETTGKIRLNANGRKLDAWLIYACTSCEK
+TWNRPIFERQPLRAIEPSLLARLQANDPELARAESFNLDALRRKALRIEESADVAIDKQV
+VDEMPRWTRIEIAMVAPHPVNLRLDRLLARELPLSRSGLPELERQGRLRIAQSRGGALRR
+RIGQGLVVILDIADAAERGGLWRAAAAGASP
+>tr|A0A1Q9ANB3|A0A1Q9ANB3_9RHIZ
+MKKLLILVLSAALSLPVAMPTQAMPRAPVVAPEASSDVIRVDDHRRWRPHHGYNRGWRHD
+RGGWRHDRGWDRRHRHYGWRHDRSYRHHYRDWGVPLGALAAGAIIGGAIAAPPPPRRVYR
+SVGGSHVNWCSARYRSYRAYDNSYQPYNGPRRQCYSPYS
+>tr|A0A1Q9AGR2|A0A1Q9AGR2_9RHIZ
+MSRFSGKVVLITGAAKGLGFATAKRFVEEGAKVAITDRDIAGGKAAAAELGGNCLFLEQD
+VTDEASWAQVFDAISKQFGPVDVVVNNAGIGHFETIETMTYERWLKTIDVNLNSVFLGTK
+IAVERLKPRGGAIVNVASVEGFLGDPALPAYNASKGAVRIFTKSTAILCARSGYKIRVNS
+VCPGFVETKLVSDALTALGDEAAEAASAGTIARIPMGRFGRPEEIASAIAFLASDDASYV
+TGSDLVVDGGFTA
+>tr|A0A1Q9ALY8|A0A1Q9ALY8_9RHIZ
+MPNLKLDAIDRRILAALQRDARLTNVQLAEEIGLSPSPCLRRVRILEKAGVIGGYHATLD
+RGGLGLGLTVFVGVKVERHHDEPAAAFRKAVQGLPEVISCHLVSGEADFLLQVVVPDLAG
+YERFLLGTLLKLPGVSDIRSNFAIQTVKAQGPLPLKHLPNGEMSRNS
+>tr|A0A1Q9AIW9|A0A1Q9AIW9_9RHIZ
+MNGETSDKALGAPVLEGRDLARYYAISRGPFKPTATVRALNGVSFSLHSGRTLAVVGESG
+CGKSTLARLVTMIEDPTAGELLIDGKPARVGDRSLRSLVQIVFQNPYGSLNPRQKVGTIL
+DEPLRINTKDDAATRRAKVEEMMQKVGLRPEHYDRYPHMFSGGQRQRIAIARALMLRPKV
+LVLDEPVSALDLSIQAQVLNLLMDLQKEMGLAYLFISHGLSVVRHIADDIMVMYLGRPVE
+TGTSEAVFSDPQHPYTAALLSATPVANPQGRRQRIALQGELPSPLKPPSGCPFNPRCWRA
+TDQCREIMPALAGDAAQQFACYHPLGEKAPSPPSA
+>tr|A0A1Q9AF39|A0A1Q9AF39_9RHIZ
+MPDQDQAELRLSVARLRQEHEDYDTAINAMIQTGCDALRIQRMKKKKLAIKDKITKLEDQ
+IIPDIIA
+>tr|A0A1Q9AIU9|A0A1Q9AIU9_9RHIZ
+MNQRFDPNDKRPTTPGSWPADKAAADAGAPRTAPLGTTATSDPLLNARPLDPDAPVTRPR
+SNWPILIILLAGLIVALLLWLPGGNSGNDTATQPAAPASQATPPADQATPPAAGTTSSDT
+TAPAGNTTATPPAAATPPAATPPAATSTDTGTPATGTGSTGTETPATGSGSTAPATGTTG
+TAP
+>tr|A0A1Q9ALP5|A0A1Q9ALP5_9RHIZ
+MTEITAKDRELIAVLSENARLPTAAIAKRLGLSRTTVQARIERLERAGVIAGYGVRLSED
+YQRGLVRAHVLITLTAKALPKVTQALAGMEEVETLHSVSGSFDLIALLAAPSIGALDLVI
+DRIGALDGVEKTLSSIILSTRIAR
+>tr|A0A1Q9AGG7|A0A1Q9AGG7_9RHIZ
+MAKVWVRKRRSSPMEDEKKVLSPAAQRALEEVEARRRAAQPQEQPKEIGGRGGEDPARFG
+DWEINGRAIDF
+>tr|A0A1Q9APU4|A0A1Q9APU4_9RHIZ
+MPVPEVLSAVDWVAAGSAHGPIAVLPLGAYEQHGPHLPFATDSLIAAGLVARLKGRVAAA
+GLHVGFLPVEPIGYSIEHGFAPGTRSLEHGEAIERWLAIAEALQAQGVDKLLMLNAHGGN
+APLMTIVATEARVRFSTLAVATHWLRFGVPEGWMTPQDKAIDIHAGEIETAMMLALHPEL
+VDRDKASDFPSRQRDFAARFTHLRAYGPHAFGWTMADLNPEGAAGNAAAATAEKGEALID
+HAVQGLLELLTDIDAFDPAEFT
+>tr|A0A1Q9AGW1|A0A1Q9AGW1_9RHIZ
+MAFSCLRLIALSAMGMMLSGCFGTGADLANSIDTSLSTGAIPKTVASNDMADAVTVKDAV
+SQADPASVSGAPIPWANSASGSAGVIERVEERRDGARVCRSFTTTRHSYQGIAKFDGDTC
+LDGNGVWVVNSFSARS
+>tr|A0A1Q9AKA8|A0A1Q9AKA8_9RHIZ
+MTSAEKRMDNPDQPTLWTGARIATLDPARPGLGVIEDGAILVEHGRIAWIGARTNLPEAA
+GPAVAQDLGGRWVTPGLIDCHTHLVHGGNRAREFELRLEGASYEEIARAGGGIVSTVAAT
+RALDVEGLVATALPRLDALLAEGVTTLEIKSGYGLTVASELAMLRAARALEAMAPVRVKT
+SYLAAHATPPDYKGRQSDYLDAVVLPGLEAAHAEGLVDAVDGFCEGIAFSVDEMRRVFDA
+AARLGLPVKLHAEQLSNLGGAAMAASYGALSADHLEYLDAEGAAAMARAGTVAVLLPGAF
+YTLRETRLPPVEALRAAGTRIAVATDCNPGTAPLTSLLLSMNMAATFFRLTVEECLAGTT
+REAARALGLLAETGTLEQGKSADFAVWDIESPAELVYRIGFNPLHARVFKGKRTAP
+>tr|A0A1Q9AI28|A0A1Q9AI28_9RHIZ
+MSAAGPLQAALVAYLSADAPLTALIGAHGICDRLVPATTPRPYLRILDIDSRDISGDLMP
+LWEHGLRLLVVGPEGGHRVVETVAARLRLLLDNAALTLNGHHLASLACQSCRIRRDETLK
+GHVAELTLRAVTEPA
+>tr|A0A1Q9AJC8|A0A1Q9AJC8_9RHIZ
+MQTILLVIYLMVVLALIGVVLIQRSEGGGLGIGGGSGFMSARGTANALTRTTAILAALFF
+VLALAMGILARYQPTATDVLDRIPGTTGTGNGVLDSLGPSGQAPAGQAPASQAPAGVAPA
+QPSNGVPQGDAPAAPAQSSSPASSAPASSAPAPSAPAASAPAETSPAAPATNNAPAAPAA
+NPPASGVPSGQ
+>tr|A0A1Q9AK43|A0A1Q9AK43_9RHIZ
+MSVISPKIARFEYVLTGADETFLWRRDDYPWERNVWNFHPEIEIHYVSNASGVLLAGDHV
+GAFTPGHISMIGSNLPHDWVTPLKPGERIAGRDIVIQFLPSKLEQASAFLPELAGFREFF
+TRAQRGLSFKGQARERAEALILDMEFQTGSVRLSTFLSLLSLLRDTDEVDILSSEAYVPD
+LSSGSLEALQMVFAHIFANLSEDIRLPDMARMVDMSDSSFSRFFKKNSGNSFTDHVNKLR
+IWKAGQLLTDTSMPITDICFEVGFRNLSNFNRVFLRHHNLTPSRYRKLSTNRRTVPLPQT
+TAGPLPV
+>tr|A0A1Q9AKD5|A0A1Q9AKD5_9RHIZ
+MDFMQIGDAAIHYRAVGLNGRRPVIAFINSLGTDFRIWDAVVERLSGTYGIVLHDKRGHG
+LSPSGSEPISIERHAADLLALLDHLGVARAVFCGLSVGGLIALSMAATAPERVRALILSN
+TAPKIGTAESWAARIAAIEAEGLPALVDPVMERWFTPAFRRADNPLYAGARTMLAQQNEA
+GYAATCAAIRDADYTKAAGRIAVPTLCIAGAGDGSTPPDLVRAMAARIPGSRFVEIPSCG
+HIPCLEQPAAHAATLTDFLAGLPEH
+>tr|A0A1Q9ACY6|A0A1Q9ACY6_9RHIZ
+MLLWLDQGGALAGWLKASRRTLEVIGTEAGAVTDALLAAPWEILADGTGFLATDRMNLFL
+PLRRIGPEGTPAAPNHSDLAMLFMAAAPEGQHELDYEAEETAILEATRNRSSGRPLAHLT
+VEESGELAVLADRHRDDGPFDILHLSCHGDILRVAGVARPVLLLETETGAAETVTPDRLL
+AALGERVPALLFLSACRTGQRGPAGELAAAREGRREGSASFDAAPRRDAGGAPAPDLTEP
+LARQMAAGVPHVLGWDGSVYDADASAFAEALYAGLSRGETVAYAAARARHGVMEPMASGA
+PRRHWHLVRLYLGPGGGGTLCEPRKPARTALPPAAPRFLDAAKQVRVAGRHEFVGRRRQL
+QHLRRGFAGAATGALIHGMGNLGKSSLAARLADRMSGHQLAVVFGRYDGLSILMELERVA
+TPLLGRVFQGFAAQARFRNEFAAMREAVRADEAMLGEAMNFLLDQVFAAYPVLLVIDDFE
+RALEEPVPDRPLVMPRPDLRPALGALLAAFAAHRGQSRLLITSRYDFVLPDGAGNDLAAG
+LLRVPLVGMRQGERQKQWRAKARAGAAEERLGKEDMAQVSAALEAAAGNPGLQDILTRPI
+LKGEAEAAPAAVEAVSQWRATGEVPADGNAAVAFFTRMSFETYAAALTGTERLMLAAACL
+FEEEVPVPRAAVAAAGGALGVVAVEPTIDRLIALGLFDDFGTLSGWPGTPELPHLGANPL
+ARPLAPSLEEDLAAQVADAGLAVLATAWRDTDGDFPLDPRGPVACRLALRATSPDPDILQ
+AAALAGVLYLFKFQGLAREALELAVPAVLRLKAMGRLPDHLLAGHTVTAAEQAGDVELQE
+KLLELALSSETLSEGPRAQLLGLRANLLEARGDLDEALRIRIEELLPIFEALGDRRSLAV
+TKGNIADVLEARGDLDEALRIRIEELLPIFEALGDRRSLAVTKGNIADVLEARGDLDEAL
+RIRIEELLPIFEALGDRRSLAVTKGNIADVLEARGDLDEALRIRIEELLPIFEALGDRRS
+LAVTKGNIADVLEARGDLDEALRIRIEDEIPVYEALGDRLSLALTKGKIADVLEARGDLD
+EALRIRTEELLPVFEALGDRRSLALTKGKIADVLEARGDLDEALRIRTEELLPVFEALGD
+RLSLALTKGKIADVLEARGDLDEALRIRIEELLPVFEALGDRRSLALTKGNIADVLEARG
+DLDEALRIRIEELLPVFEALGDRRSLALTKGKIADVLEARGDLDEALRIRIEELLPVFDA
+LGDRRSLALTKGKIADVLEARGDLDEALRIRTEELLPVFAALGDRRSLALTKGKIADVLE
+ARGDLDEALRIRVEEQLPVFEALGDKRELAVTKGQIADVLEARGDLDEALRIRVEEQLPA
+YEVLGDKRSLAVTRGKIADAFAEKGDVESALAMHLSRLPDAEAMGDLSILVHIRFSCARL
+RLERGDHQTDGLEAIAEDLAWAWDGANRLGYPDAVGAIGTLFGQVLALGGLPDQGIGILT
+VAAAAWDKLGQAGQADHCRQIIAKLKEQNA
+>tr|A0A1Q9AD64|A0A1Q9AD64_9RHIZ
+MNNTFSKSRQQAEIAFGKTQGRTAPQDQARASSRDRAFDELDSIKAAREAKTLRLRTARL
+AMEIGAREIVAKEIGAREIGAREIGDGLQHRD
+>tr|A0A1Q9AIY7|A0A1Q9AIY7_9RHIZ
+MTAQTAQARMAELSETNARLHAENRALTRRVAELAHANSDLQNLLESTAIAAIFLDSSLR
+ITHYTPAITAIFRLTEADLGRPIDHIAHRVAYDRLKDDVAAVMRTLAPLEREIRDPQGGT
+QFLVRVLPYRALDNAVAGTVLTFMDVTALMRAEALLRDREALLRSIVEGIPQLVWRAVEP
+GCWTWVSPQWTSFTGQAAGAALGRGWLAMVHPEDRERVVLAWQEAHDAGQLEVDHRLWSL
+EANGFRTVHLRARPVMDAQGRVEEWFGTATDVHEMLLMQEHQQVLLHELQHRVRNTLAIV
+RSVARRTADSSDSVENYADRLEGRINAMARTQTLLTRATQSSVSLRDLISNEIFAQTVDR
+HRIEIEGPVVPVLGKAAENLSLAIHELTTNSVKHGALSAPGGKVGVRWEIDSRTQPDNLR
+LVWQETGLEMPVQPPGRRGFGTELIEGLVPYQFGGTGRLVFEPTGVVCTIELPLPSLVKV
+RVSITG
+>tr|A0A1Q9AGT3|A0A1Q9AGT3_9RHIZ
+MPLRLATFNVENLLRRFDFSGFRRPDREDRVLKLFEIGDEAGYRRLEEARMVGLADDTRQ
+HTALAIADCDADIVCLQEVDDLQALEAFEGGYLYRMMGRGYPRKVLLPGNDGRGIDVALM
+LREETADGAAIEVGHVRSHADATFASLDLLTPELAASERPEARLFRRDCLEVDLIVGGKP
+VTLYLVHFKSMGPARGGIDGRAATMPLRRAEALGVRRIIERRFGAGLAQARFAICGDMND
+YQEKILVEGSRREGYRFRPVAEEGSALDVFSRDGFAENVLTRLDAMERWTLFHTRGATER
+HLCQLDYIWLSQALSAANPQARPEIIRAGQPFRTPFPPGQEVERYPRIGWDRPKASDHCP
+VVVSLEI
+>tr|A0A1Q9AGE5|A0A1Q9AGE5_9RHIZ
+MTQGGGRTASVSRKTNETQVSVTIDVDGTGTSTIATGVGFFDHMLDQLSRHSLIDMTIET
+KGDLHVDDHHTVEDTGIAIGQALAKALGDRRGITRYASLDLAMDETMTRAAVDVSGRPFL
+VWNVAFSAPKIGTFDTELVREFFQALAQHAGITLHIQNIYGANNHHIAETCFKAVARVLR
+TATEIDPRQAGRVPSTKGSLA
+>tr|A0A1Q9AGM0|A0A1Q9AGM0_9RHIZ
+MTRDEISRRPGRRTALLARLWAGACFAASGGHALAADGFSGGLFHSSEVISLALLAGAGA
+AATISMVWLSRQRARSEAENRDLTAMIADANQRVARLQALLSEKDRRIVVWESPRERPEF
+LGQLPAETGAPADDRDFLAFGRWIKAHSAAALDHAIEALRSRAESFDLIVDTLRGEIVEV
+QGRVSGGRAFVRFVALSNLRAELAEARLERDRLRTALQGLHALLDATDLPVWQRGTDGKL
+SWVNEAYRSAVEARTSAEAIAEGREFLPTLTREKIRAGATYDVPFRDTLSAVVHGNRRVF
+EVIDAKTTQGSAGLAIDVSSIESVREELARTLKSHAETLDQLTTPVAIFDGAQRLEFYNQ
+AFQRLWDLDTATLMRKPDNGEILDRLRERGKLPEQLNWRQWKENALSVYQAIDTQTDLWH
+LPNGQTLRVVATARPQGGATWVFENLTERVDLETRYNTLVHVQGETIDHLAEGVSVFGPD
+GRIRLSNPAFRALWGVTETQVQPGTHIKAIEQACAASYDMADGWKRFAQLITSFDDERPS
+YRGILELRTGLILDFAVIPLPNAQTMLTFVNITDSVRVERALKEKNEALQMADALKNDFV
+QHVSYELRSPLTNIIGFADLLKTPAFGTLTPRQAEYVDHIATSSSLLLTIVNDILDLATV
+DAGIVELDLSEIDLGEFLDEVALHMADRLQESGVSLTIEAPETLGRFVADHQRLKQIFIK
+LIANAAKVAPEGSTIALACRREGTDFVFSVKDKGPGIPPEVIASVFNRFESHGSHGGAGL
+GLSIVESFVTLHRGSVAIRSGEAEGTEVTCRLPAGELRQIAAE
+>tr|A0A1Q9AKS6|A0A1Q9AKS6_9RHIZ
+MMPKTLQRYFFRRYIATIAWFLLGIISLVFIIDFSELSNRMANLPGYTVRGALLMTALRL
+PTILQQTVPFIALFAGMTALIALNRRYELVVTRAAGVSVWQFLRPFVVGSLLFGLASVGT
+LNPLAAWGAAKAEQMEAEWGSSSSRNARSIPWLRQIHNNEDVIIGARAVQDEGRQLSIVT
+VIHFDPQGRIAFRQDARTATLENGYWLLNDVLETRNGVLPKRMAAARLETDLKPEFVRET
+LAKPDSIPFFELPRKIEIAKSFGFPVNGMLTQLHAMMALPLLLVAMTLIAASVSLKFSRF
+NQSRSVILGGIAAGFVLYVVTVLVKAFGSSGIVPPFVAAWLPVVVAMALGSTILLHQEDG
+>tr|A0A1Q9APM4|A0A1Q9APM4_9RHIZ
+MTGRGLTLFLLLIGLALLMLHPGSAAAQSPLGIGTAEPSISMGGPLSGLFAWVNREQQLF
+YRTLTDALRGMRSDPWQLWSLIGLSFVYGIFHAAGPGHGKAVISSYMLANEVELKRGVAL
+SFLSAFLQGLMAIALIGAAYYVLRGSGISLTRATATLETASYALVAAFGAWLLLRKLRAL
+GLFGRRTGMAQASFADPVPAIGTLSFDTARRAQADEFDGGAAAGSRRRPGLSYNGMSQSH
+TTGDFCEACGTTHLPDPARLGGEKLALGEAWSAILAVGLRPCSGALIVLSFALLNGLMLG
+GVLSVLAMSVGTAITVSALAATAVLAKGVALRLTSGSRVAGRVGLAIEIAGALFVLLIGL
+LLLGAALTA
+>tr|A0A1Q9ALL6|A0A1Q9ALL6_9RHIZ
+MAEIGARARAARRPLAVATTAQKNAALLAMAEAILARQSEILEANARDVAAARAAGVAGS
+FLDRLLLDQGRLAGIAAALRDIAALPDPVGTVIAAWERPNGLKIERVRTPLGVIGVIYES
+RPNVTADAGALCLKAGNAVILRGGSDSVHSSRAIHACLVEGLEAAGLPADAIQLVPVTDR
+AAVGAMLTGLAGAIDVIVPRGGKSLVARVQAEARVPVFAHLEGLCHVYVDRSADLDMALA
+VVVNAKMRRTGICGAAETLLIDADDAGRLARPLVEALLKAGCTVRGDAALKALLPDIAAL
+EPATDEDWATEYLDAVISVALVDGIDGAIAHIARWSSAHTEAVIAEDEAVVARFFAEVDS
+AILLHNASTQFADGGEFGMGGEIGIATGKMHARGPVGVEQLTSFQYRVHGTGQVRP
+>tr|A0A1Q9AF94|A0A1Q9AF94_9RHIZ
+MQRLMIADESDVVRKVGKRILGGMGFVVAEASNGLEALSRCEAELPNIIIVDAALDGALQ
+LISNLRHLPNGKSVRIFYCVVEADLRKMMAGKRAGADDFLLKPFDRKILTSVFGSLAAAA
+>tr|A0A1Q9AK79|A0A1Q9AK79_9RHIZ
+MTQTKKTNGFGRRAFIALAAATAALGLMPLGAQAASVADAKAKGKVVIGIQGDNAPWGFV
+NSSGVQDGLDADIGKAFADYLGVKPEFVPLAVANRIPALMTGKVDVLFATMGMTAERAKT
+IQYSKPYAGNVLSVYGPKDKKIAGYDDLTGMSVGVPKSSAMDTAITAGAGSKANILRFDD
+DAANIQALLSGQVEAVGGNQFYGDRLNAAAPDKYTSKFDLTTLYNGAGTRPGEKDWNETI
+NAFIDKIKADGELAKIYAKWMKREVPKFPEELPNIPFTVK
+>tr|A0A1Q9AKJ2|A0A1Q9AKJ2_9RHIZ
+MEFGQSAEDLPVARVGDLVFAILPRQGGHVLASAWRIARPLDALKRSDFYSHSARIVIPG
+>tr|A0A1Q9AKQ5|A0A1Q9AKQ5_9RHIZ
+MNEHNIRNFNINFGPQHPAAHGVLRLVLELDGEIVERVDPHIGLLHRGTEKLIEAKTYLQ
+AVPYFDRLDYVAPMNQEHAFALAVERLTGTEVPIRGQLIRVLYSEIGRILSHLLNVTTQA
+MDVGALTPPLWGFEEREKLMVFYERASGARMHAAYFRPGGVHQDLPHQLVEDIGNWLDPF
+LKTLDDIDTLLTGNRIFKQRNVDIGVVSLDDCWAWGFSGVMVRGSGAAWDLRKSQPYECY
+GDLDFDIPIGKNGDCYDRYLIRMIEMRESVKIMRQCVNRLLGDAKTGPVSSLDGKMVPPK
+RGEMKRSMEALIHHFKLYTEGYHVPEGDVYAAVEAPKGEFGVYLVSDGTNKPYRCKIRAP
+GYAHLQAMDYICRGHQLADVSAILGSLDIVFGEVDR
+>tr|A0A1Q9AF30|A0A1Q9AF30_9RHIZ
+MTDMDNRCRLVLVLPELDDSDRQVERLEAALSGGDVASVILTQGALDDATFQKQAERLVP
+IVQQAGAAAIIAGDSRVAGRVKADGLHVAQGAEMIAEAVEKFTPKLIVGAGGASDRHQAL
+EIGEARPDYMFFGKLDGDIKPEAHPKNLALGEWWASMIEIPCIVLAGTDPASALAVAETG
+AEFVALRQAVFAAEAPGAVVAAVNALLDEKAPRFED
+>tr|A0A1Q9AIC0|A0A1Q9AIC0_9RHIZ
+MSSLGSRLLQPFSALLGAFVAVMEPLVAALAPGTRWIAVETADDDLAFYRVSRRAAVFVG
+KGGALPEPVRRALRRRSADVELRLRAESVIAAQLKVPVEAKGFAAQIVESRLDRLTPWNP
+ERLLFGFALARQAGPDGQVTVDVVATARDIVAGGIARLVPFGVAPARVGSAAEPVDQPLR
+VDLFKGENDRARKGRRRRIAAASLILLAASLAFLAATAMVATVSTRKLAEADTALGALRH
+RLVGASGTGAARQDDLAALAAKTPQTASFVLIDRIATILPDNTFLDALEITPDAIRLAGS
+SMAAPALIPLLEAQPGLSRASFAAPVTRQADGRDRFDITASRDGGATRNVASPEVSAPGV
+AASQGGVP
+>tr|A0A1Q9APY9|A0A1Q9APY9_9RHIZ
+MAHDTVDLTNCDREPIHIPGNIQPHGCLMALDARAGQILRHSANLSALTGIEGSVNGRML
+EDVLGDDAAHTLRNVVAALREGARPALLQGLQTRCGPFDIAVHLYKSVVTIELEPETVGQ
+PLQMARMLIGRIGEITDTDLLVRQASRLVRGMLGYDRVMVYRFEEDGAGRVVAEARRGDL
+ESFLGQYFPAGDIPRQARELYVRNTIRIIGDVDAARVPIEPVIDISGEPLDLSYAHLRSV
+SPVHCEYLRNMGVSASMSISIIIDGKLWGLIACHHYRPLVLGMAHRVAAEMFGEFFSLHL
+QSLKQKEKLKTASHARASLDRFLRIASHHSDIGALLKESLADFATLMPCDGVGLWLNGSW
+TVFGTVPPASAVPGLLRMMGTVAEGRVWATHSLAQRLSEAETYSAQAAGVLAVPLTQIHR
+DYLFFFRREFIQTLDWAGDPTKTYQSGPLGDRLTPRKSFAIWKETVHLQAQPWTEAEREI
+AEVTRSALVEIGLRHSELMAEERSRADVRQRMLNEELNHRVKNILALIKSLVSQPVGQDR
+GLEDYVRSLKGRIQALSFAHDQVVRGDGGGILLDLLDAELTPYRQNADSILLGGPKVLLD
+SRAFSVMALVLHELSTNAAKYGALSKQGGHLSVTWHEDEQGDCVIDWRESGGPPVLPPTR
+TGFGTALIDRSLPYDLGGKSRVLYARSGVEAQFSIPARHVTITAPVVAGEQSLGNAMDAA
+TRLDPGIRVLLVEDQMLIAMDVEGMLADQGVDQVVTAASVVDAIAKLADFRPDVAILDVN
+LGAGTSIELAEILIRNGTPFLFATGYGNSTMIPSAFARVPVVRKPYDSLSLTGAIAAAVA
+AGKPES
+>tr|A0A1Q9AQ19|A0A1Q9AQ19_9RHIZ
+MATIRDVARHAGVAISTVSLALNGTGPVSAETRARILEAVAAVNYSPNLMAQNLKRGQSK
+LIGLVLGDLGNPFFGRLLRTVDRKISQADHMLIVADTDSDPDREIRTLNQLKRQRVAGII
+MAPLRNDKEFVAYLNAMDIPVVLIDQDVEGARLDFVSSDHQLAAGMLTDYLLRLGHGRRI
+AYLGGIPGFWTAQQRLIGFRAAMARAGLDVDPELEVVADYSAEKAYDQVSRLMSRPVRPT
+AFLAANNFMAIGALQAVNDLGFRCPEDVSIAGIDGVPWGSVIKPRITTAEQPIEELAGLA
+ASWMLEHVQGEVMAGAANRRHIALPRLVIGQSCAPPAASHPR
+>tr|A0A1Q9AFV4|A0A1Q9AFV4_9RHIZ
+MSRFWSPIVHALSPYVAGEQPRIDNLVKLNTNECPYPPSPAALAAIREAASDALRLYPDP
+TALELRQAIAADLGLTAEAVFVGNGSDEVLAHAFVALLKQEAPLLYPDISYSFYPTYCRL
+FEIGAETVPLDEAMRIRVEDYDRPCGAIILPNPNAPTGIALPLDAIRQLLLRHADKPVII
+DEAYVDFGAESATALIAEHPNLLVIQTFSKSRALAGLRVGFAVGQPHLIEALERVKDSFN
+SYPLDRLALAGATAAWKDRHWFETHRDLIVASRARLTEALETLGFEVLPSSANFVFARHS
+ARTGADLAAALRARAILVRHFAKPRIADYLRVSIGTQAECDRLVGALTEILAQG
+>tr|A0A1Q9AGU1|A0A1Q9AGU1_9RHIZ
+MDLTGNLLIGQSSVAGDGGEIFGIDAATGAALPGTFHGATKADVERAAALAWAAFPVYRE
+TALEARAAFLETIAENILGIGDSLIERAMAETGLPRGRLEGERMRTVGQLRLFAKEVREG
+RFQELRFDAGDPERKPAPKPDLKLRNLALGPVAVFGASNFPLAFSVAGGDTASALAAGCP
+VVVKAHSAHPGTSELVGVAVQKAVSACGLPEGTFSLLFDAGYEIGQALVADARIRAVGFT
+GSRRGGLALMDIAAKRTQPIPVYAEMSAINPVILFPGALSKRGAEIGRAFVGSLTLGAGQ
+FCTNPGLILAVAGEGLEAFKQAAAEALKTVPAQTMLTPGICKAYRQGVAKLMGHDTVTQI
+ASGQEGTDHQGSAALFEVKAADFQAHHELQEEVFGASGLIVVCQDLAELHGVISSLEGQL
+TVALHIDADDHAEAAKLVPELELLAGRLLVNGFGTGVEVSPAMVHGGPYPATSDGRSTSV
+GTLAIERFLRPVCYQDFPEGLLPQALRKG
+>tr|A0A1Q9AMJ0|A0A1Q9AMJ0_9RHIZ
+MNAHLQPTGSAYFIAKETEKAEKHTLSVLVDNEPGVLARVIGLFSGRGYNIESLTVSETE
+HEAHLSRITIVTRGTPHVLEQIKAQLERIVPVHRVVDLTVRANALGHERPIEREVALLKV
+RGDGETRAETLRLADAFHAKVVDATIEHFIFEITGKSSKIDQFVAIVKPLGLIEICRTGI
+AAMNRGAQGM
+>tr|A0A1Q9AIC7|A0A1Q9AIC7_9RHIZ
+MRDARGAARTGTTSLRQGFTLIEVLVAFIILALATMVIQRGVMTSVASAQRADGRLRAEM
+VARSLMTAPLKDSAAALAPESGVMDGLPWTLRFETVALPFATATDAQGKPPGWVPVRMVV
+TVALPEGQSLSPAGEIRIETVRLIKASPP
+>tr|A0A1Q9AIV4|A0A1Q9AIV4_9RHIZ
+MSSLRIKERKTAESELEKALNRVDFFRIFHTLALRFGFEHFGILQLGNEKDMGSLAGKLA
+LHDLPSGLAEEYDKRHRFTDSAVFKSLHQSTIPSLWRAVDQTPNQGNLLTQLGFDLLACI
+PVHGVNGARHAVFYLGDAEDLPMPGLQELTFETISAFDHFYRRVLVSKAGMGLTPREREI
+LRWISHGKTASEIALIVSVSEHTINSHTATILKKLDVVNRTQMVAKAIREQIIQ
+>tr|A0A1Q9APE9|A0A1Q9APE9_9RHIZ
+MRYSALSILKNGLFGNKGWKPAWRTPAPKPHYDVVIVGGGGHGLATAYYLAKEFGITNVA
+VVEKGYVGSGNVGRNTTIIRSNYLLQGNNPFYELSMKLWEGLEQDFNFNAMVSQRGVLNL
+YHSDAQRDAYTRRGNAMRLHGVDADLLDREAVRAILPFLDFDNARFPIQGGLLQKRGGTV
+RHDAVAWGYARGADLRGVDILQNCEVTGIRQSQGRVLGVETTRGFIGCNKLALAAAGNSS
+RVAEMAGLKLPMESHVLQAFVSEGLKPFIDGVVTFGAGHFYVSQSDKGGLVFGGDIDGYN
+SYAQRGNLATVEHVAEAGKAMIPALSRIRVLRSWGGVMDMSMDGSPIIDRTPIDNLYLNA
+GWCYGGFKATPASGFCFAHLIARDLPQTTASAFRLDRFERGYLLDEKGQGAQPNLH
+>tr|A0A1Q9AQG6|A0A1Q9AQG6_9RHIZ
+MYRKIIVPIAIDRLTQGEATLKRAMALLDEGGEIVLLNVVEDLNAYAQGYMIVDFPQQMI
+EDSVRHAERTLNALKAKHNVPGRVVIEIGGPAGRINELAEMEKADLVIIASHQPGLSDYF
+IGSTASRCAAHCHSAVLIDR
+>tr|A0A1Q9ADH9|A0A1Q9ADH9_9RHIZ
+MHNRLTTTVPDLKEDGFLSIVQYLEKRAALCEGAPTMRFFHDDAASIADGRFDGWSWAEL
+RDRSQAVAMTLRRQGFVTAGARILVVYPPGLGFVAAFFGCLYAGTVPVPVPAPRRADGIR
+RWLHIARDAGIAGIVCAPELAEPLEPLMRAIGHGFCLSPPAADATQPRPAGEEPLAPAPL
+GPRQVAFLQYTSGSTSDPKGVMVTHGNLIANLAQISRAFRYSDNDRSACWLPHYHDMGLI
+DGLLSPVFNGFPVALMAPAAFLRRPLRFLELASHVRATVIGGPNFAYEHCAEKAAPDAMP
+GLDLSAIRIAYNGAEPIRPKTLKRFAAAFAPHGFSWDAFYCCYGQAEATLFQTGGAPQEP
+PRILAVDRQALVGEGRAVAARLAEGIAEGVAMELAGCGQPAEGLDLAFVDPERGARVAEG
+EVGEIWIRGPNVTPGYWGRARLNAESFDQTLDGTGGWRRTGDLGFMLDGQIYITGRLKDL
+IIIRGQNHHPEDIEQSVFSSHPALAQGRAGVFAIEIEEEEQVGVVCELTREGLRDLDAPA
+VIDAVRAAVSRHHHLKAAVIALLRPSSLPRTPSGKVRRFACRQGLIDGDLRIVARWDAQP
+GQMFAPARSEVGPGWQQRLAEMQPARRRQMLRTLLQEDVAHLARLDPGRLPDASAGFFDL
+GLDSVALVTLGATIERELGLPLRPTLIFEYPTIARLADHLHALLEAEVDPPAEEALPRPV
+PPPAQSAIAAELAALKALLGSGRAG
+>tr|A0A1Q9ACA0|A0A1Q9ACA0_9RHIZ
+MNRRSLLKSALAAGMLATTAFHGAFAADDTIKVGVLHSLSGTMAISETTLKDAMLMLIEE
+QNKKGGLLGKKLEAVVVDPASDWPLFAEKARELISVDKVAAVFGCWTSSSRKSVLPVFEE
+LNSILFYPVQYEGEESSRNIFYTGAAPNQQAIPAVDYLMNTEGVKRFVLEGTDYVYPRTT
+NKILEAYLISKGIPKEDILINYTPFGFSDWQTEVAKIKDFGSAGKKTAVVSTINGDANVP
+FYKELGNQGIKATDIPVVAFSVGEEELAGLDTKPLVGHLAAWNYFQSVDAPANAEFIKTW
+HAYTKNDKRVTNDPMEAAYIGFNAWVKAVEAAGTTDTDPVLDQIIGTTVPNLSGGYATVM
+PNHHITKPVLIGEIQENGQFEIVQQTPEVVGDEWSDYLPDSKDLIADWRKPLSCGNFNVK
+TGKCGGKTTN
+>tr|A0A1Q9AD36|A0A1Q9AD36_9RHIZ
+MKKLLIALAAATALMATPSLAQDKKLKIGAAPYGLNAEFMQIWTAALEQHPAVKSGQVEL
+TVFDGRYDALVQQEQFNTMITQKFDAIIFVPIDIEAGATAVQAAHDAEIPVVGSNTRVNS
+DLLAAYVGSDDTISGYMEAKTVLDKIGCKGNVVILEGPIGQSAQISRLEGNKKALAECPD
+VKVLEDQTANWSRAEAQTLMENWLTAHPGQIQGVIGQNDEMALGAIEAIKAAKLKPTDFA
+IAGIDGITDALHAVKDGTMTSILQDARAQAQGAMDLAIFHAKKGDYKPESDIWAHYKDMP
+FNDGKDKNYNVPWTPVTSENVDTLLQGRK
+>tr|A0A1Q9AEX9|A0A1Q9AEX9_9RHIZ
+MLSHEGIWSAIDALAERHRLTPSGLARRAGLDPTAFNKSKRRSADGRERWPSTESVAKIL
+EATGASIEQFVEALRGERAAPSPTPPAALPAIPLIGFAQAGAGGFFDDSGFPAGQGWDMV
+DFPTTAGIKQGVYALEVQGDSMLPLYRDGDVLIVEPGAPVRRGDRVVVKTTEGEVMAKIL
+MRQSARSIELHSLNPDHPNRSFELAQVEWIARILWASQ
+>tr|A0A1Q9ACY5|A0A1Q9ACY5_9RHIZ
+MAAEGLSARGHAVTLFEAMPTIGRKFLLAGKSGLNITHAEDYARFRTRFGRAGASLAPAL
+DAFPPQAVRDWTDELGIETFVGTSDRVFPLGLKASPLLRAWRARLEASGVRIRTRHRMVG
+LDRRGLHLATPEGDLLLRPPAVLLALGGASWPRLGSDASWMPGLETLGVALSPFRPANCG
+FDVAWSPHFLERFAGAPLKGITATSAAGRLSGECVVSCHGVEGSLVYAHASACRDALEAE
+GQAELVFDLAPGRSLERLTADLARQPAKASFSTRLRKGAGLEGVKAALLREVTPEAASLS
+PEGLASRIKHLPVPLLRPRPIDEAISSAGGVRWEGLDERMMVRSVPGLFVAGEMVDWEAP
+TGGYLLTACLAMGRHAGLGLADWLEEHAPHGSAKQE
+>tr|A0A1Q9ALN2|A0A1Q9ALN2_9RHIZ
+MSQAVPGHRFAAFRHVGYRRYFISRFLAYFAVQIVSVSVGWQIYDLTKDPFDLGLIGLVQ
+FLPSLALILVTGSAADRFNRRVIMGICMVVSMLCAGALLALTLSGLFSPLPVYAVLLIFG
+IERAFLGPAANSLAPNLVPPEDLPSAIAWNSSSWQTAMIVGPVAGGLIYALGPAIPYMVA
+VAFFLASAIMVFAIPKPAQRSAGKAQNWQTITAGFRYIVSEKVVLGAISLDLFAVLLGGA
+VALMPVFARDVLSLGPWGLGLLRAAPGIGAVSMALFLAAHPIRSHAGLMMFVGVALFGLG
+TVVFGLSATPWLSIAALILIGAADMVSVYVRETLIMLWTPDELRGRVNAVNMVFVGASNE
+LGEFRAGMMASAFGAVPAVVIGGFGTLVVSVLWALGFPKLRQIQTLDVPEGQKG
+>tr|A0A1Q9AGM3|A0A1Q9AGM3_9RHIZ
+MAAYAPPIEDIGFLLNDVFGFDAVMAGLPGYEEVNAELALTVLAEGGRFCAEVLEPLNRS
+GDEEGCRLINGVVTTPKGFAEAYRAFAEAGWTGLSGDPAYGGQGLPRVVQILLDEMLSSA
+NFSFGLFPGLTRGAVEAIGHHAGDDLKETYLPKMISGEWTGAMALTEAHAGTDLGLLKTR
+AEPLPDGRYRITGGKIFISSGDHDFGGNIVHLVLARLPDAPAGVKGISLFLVPKFLPDPA
+GSGDQRNGFSVGALEHKMGIHAQPTCVMNYDGAIGFLVGEPGRGLNAMFTMMNAERLFVG
+IQGLGIGEIALQKAAAYAHERLQGRSADGTRGPVPILEHADVRRMLLTGRALTEGGRALA
+IWTALQMDSAARHPDPEAAKAADGFVALLTPVIKAALTDWGFAITVEAQQVFGGHGYIRE
+WGMEQYVRDARIAQIYEGTNGVQAMDLAGRKLMMEGGELPRRFFALMRAEIEEAPSSLGE
+LTRPVLAALADLEATTSALQEKAADVAEANAAAVDYLRLFALVALGWMWVRMAAAEAAGQ
+DNGTKAQRKRKLAALFVARLLPQTAGLKAAVLSGARPLAVFQEDEI
+>tr|A0A1Q9AG85|A0A1Q9AG85_9RHIZ
+MARKTKSADRLSAPMPPGAGEGTQPAATTGEPAASEGAAAARVPDPQAMAEGARRLRKAW
+TKADEAARGQFLTWLSKKGYLPEAASAPPIASGRYLLPATVERIALKMTQEKLSPAALAR
+HLGFSTEGPALERALRHGAALRLALVAALSAWLVQPAQGEADPTEQA
+>tr|A0A1Q9AK44|A0A1Q9AK44_9RHIZ
+MAADDDDYIYDEATGDWRPKSELAAEAAKASEVRDAAGNVLADGDSVTLIKDLKVKGANQ
+TLKQGTVIRSIRLTDNPEEIDCRHDAIKGLVLRTEFVRKR
+>tr|A0A1Q9AFF1|A0A1Q9AFF1_9RHIZ
+MDETHLREKGASGPRPHDAGVKGLALVTGASTGIGYELAKCAAEAGYDLIIVADEPAIRP
+AAERLRAYGHQVEPIETDLASQEGVQGLLEAIAAHNRPVELLMANAGRGLGHAFVDQDLE
+AVRRVVETNVMGTLALVHPIAGAMQARGRGRILFTGSIAGFMPGSFQAVYNASKAFINSF
+SFALRDELKDTGVTVSCLMPGPTDTAFFERADLEDTAIGQGKKDDPAMVARVGFDAMMAG
+EGDVVSGWKNKLQSAIANVTPSGLLASQHRKMAEPGSAS
+>tr|A0A1Q9AKG0|A0A1Q9AKG0_9RHIZ
+MPAPLTLVETPSRPPQEADVVVIGGGIVGVFTAYYLTQRGFKTVLIEKGRIGAEQSSRNW
+GWCRQQNRDARELPISTKSLDLWERFVAETGEDVGFRRCGLLYLSNDEAEIAGWARWRDF
+ARTVGVTTHMLSAAEAAEKGRATGRSWKGGVFSPSDGIADPSKAAPAVARAILKLGGTVV
+QNCAARGVETEGGRLSAVVTEHGTIRTKTAILSGGAWASSFCRQLGIRFPQATIRASIVA
+VSGVEGLPPALHTRDISVTSRSNGGHTLAISGRARVDITPQQLRFAPQFLPMFARRWRLL
+SPGGLEGVKSGHESLGRWRLDRPTPMERMRILDPAPTPGTLRLIHQRALELLPDLKRSTI
+TGNWAGYIDSTPDGVPGIGETENLPGFILAAGFSGHGFGIGPGAGHLIADIASGQTPIVD
+PKPYHPSRFAGSAWGKVAEF
+>tr|A0A1Q9AL22|A0A1Q9AL22_9RHIZ
+MPQLVDGRWVKDDVAASEMKNGAFHREPTRFRDLKIAAEPGRYQLFVAYICPWASRTLMM
+RALKGLEEILPIAVSEPELGEDGWRYDIPVDAGPKAPPIRFQHQLYTTSDAHYTGKVSVP
+VLWDRQEGRIVNNESADILRILNHAFDDLTGNRSDFYPQALRGEIDHWNGLIYDSLNNGV
+YRAGFAKSQAAYEAAVNDVFAMLDRLEAHLATHRYLAGAFFTEADIRLFVTLIRFDAAYH
+GVFKCNLRQLADYANLQAYLREILQWPGIAATVRIDHIKRGYYSIAHLNPTGIVPLGPLQ
+DFSIAHGREHLPGEGVWQKAA
+>tr|A0A1Q9ANL9|A0A1Q9ANL9_9RHIZ
+MRAAEDERRPSFVLGLGCRRDSEAGPLLALAEAVLAEAVRTGLAGDAEAIRPSAVASLDR
+RAAEPALLAVAAHYAVPLLTFPADRLEAETPRLASPSARVHAATGCHGVAESAALAAVGS
+AGWLAVPKRIGRDATAALAAVQEVL
+>tr|A0A1Q9AJ22|A0A1Q9AJ22_9RHIZ
+MSDADANVLGTADIREILKLLPHRYPFLLVDRIIDIDGDNSAVGIKNVTANEPHFTGHFP
+EQPIMPGVLLIEGMAQTAGAICARKTGEGTNLVYFMTIDNARFRKPVVPGDRVEFHVVKQ
+KQRGTIWKFHCDAKVDGQLVAEADIGAMIIKKEDA
+>tr|A0A1Q9AF82|A0A1Q9AF82_9RHIZ
+MGMAVGGGAGSGGRRGRRGRRKGAISEINVTPLVDVMLVLLIIFMVAAPMMTVGVPIDLP
+ETQAKALNAQTQPITISIKNSGEIYLQETPIPADEVVAKLQAIATTGYNERIFVRGDATA
+PYGVIADVMARIQTAGFKNIGLVTQQKTNG
+>tr|A0A1Q9AP02|A0A1Q9AP02_9RHIZ
+MTSETASTINTESGMQLEGRLNAYRRLLIGLATELARRDDGRAAIEAMLADAEIVDTQEE
+DPGVLPDQAFAGQEIATEEIRTVLTAALARRDALDAQAHATGAAAQPGFALPTGAASERE
+AAE
+>tr|A0A1Q9ALQ3|A0A1Q9ALQ3_9RHIZ
+MLNRLVPDIRKTAELVSEISAACREQDIGASQINEAIQQLDKVTQQNAGASEEMSATSEE
+LAAQAEELQASIAFFKVEQSQAAARQGARPAAAPARAKAAPAPVSAPAKRKPAAAAPAAG
+RQTVAAQQARVKGFALDMGGPDEDDDDFRVSA
+>tr|A0A1Q9AEG4|A0A1Q9AEG4_9RHIZ
+MLTLAEPVTLEQEVRKSRFLAACAPIADAEEARVFIDRVSDPAATHNCWAYRLGQVYRFS
+DDGEPGGTAGRPILAAIDGQGLDQVVVVVTRWFGGILLGSGGLVRAYGGTAAMALHCAPR
+IERIETVSSSLAVGFSDLQRVKARLTQQGVTITAEHFTGEGATLELALPVTSAEAIAELV
+RDLTRGQSLLAFD
+>tr|A0A1Q9ALP2|A0A1Q9ALP2_9RHIZ
+MAGEAGPRTLRAGFIPLVDASVLIAAAEFGFAAREGLQLDLVKDVSWANIRDRLAFRQFD
+VAHMLSPMPVASMLGLGSNPSPTIAPFSLGRGGNAITLSVRLFARMEETGLTGPGEDALA
+NARALAAVLAEMRARDEAVPTFGVTYPFSSHNYEMRYWLAAGGINPDRDVKLVVVPPPLT
+SDALAAGAIDGFCVGAPWNMVASERGVGRIVAAKQDIWPSAPEKVIGLRPDFAEAHRERV
+LSLLLALDRAASWCDDRANHADLAEVLSQPRYLAAPAELLRHVLSGEFSLDDRGSRRTIP
+DYMVFHDRHAGYPRPSQALWIYSQMIRWGQTPFSHAGLEAALSAYRPDLYRAALGEASPD
+PAHDLRAEGREAEDRFMDGHVFDPVGIPAYVAGFPVRADTGSVLEDD
+>tr|A0A1Q9AF66|A0A1Q9AF66_9RHIZ
+MKSLLIAAFAFSLAGSALAQDPPPPPGGPAPVAGEAAPPPPPPPGEAGRPPKGPGRPWME
+EGRPMPPRPPKGAHFEIKKGDTKVEVKCADDEPMKACTDTLMQILDRVDLKD
+>tr|A0A1Q9AQE3|A0A1Q9AQE3_9RHIZ
+MAAPTGAESGPVFDLTFEPAHGQAVTVAPGVQRITANNASPFTFHGTNSYIVGERSVAVI
+DPGPESDEAHFEALMRALDGRHVSHILVSHTHRDHSPLSRRLQAATGAPILGEGPHRAAR
+PLFAGEVNPFAESSDSAFLPDQPLADGARVEGDGWTITALHTPGHTANHLVFALEGTGIL
+FSADHVMAWSTTIVAPPDGSMRDYMASIDKLLLRDDTIFFPGHGGPVAAPKAFLRGLKTH
+RRLRQRAILDRLLAGDRTIDALVRVIYATTDPRLHGAAALSVLAQLEDLVEQGLAICDTG
+PPTLAGLFRLAEG
+>tr|A0A1Q9AJU1|A0A1Q9AJU1_9RHIZ
+MAARWYIVHAYSNFEKKVAESIEEKASQKGLSHLFEKILVPTEKVVEVRRGRKVDAERKF
+FPGYVLVRANLTDDAYHLIKNTPKVTGFLGSDNKPVPIPDYEADRILGQVQDGVERPKPS
+ISFEIGEQVRVSDGPFASFNGVVQDVDEERSRLKVEVSIFGRATPVDLEFAQVEKV
+>tr|A0A1Q9AHY0|A0A1Q9AHY0_9RHIZ
+MKRSILVLMSALAASPALALPEAKDRVYAADQNSNTVSVIDPSTNTLLGLIKLGDPRPNV
+LSPLYKGEVNVHGLGFSPDHKTIVAVSTVTNSVTFIDTATNKVKGVTYIGRNPHEAFFTP
+DGKHVWVTVRGEDYLSVIDASTFKETDRIKTESGPGMTIFAPDGKRAFVANSFNPVVQVF
+DVASKKLLAAIPVVSPFSPFIQVTPDGKEAWLTHKDVGKVTRIDTKTLKVKGVIDSGPIT
+NHLAFAKTPAGTLAYVTIGGENVVKVYTLDDDAKLVSTIPVGALPHGIWASGDGSRVYVG
+LENGDAVDVIDTEKQAKIAHIPSGQAPQALIYVPNAVASGDGRQNLEPRKDMPENVTLML
+KPAENMEGSGMIVSRNLGLIDIVDVSVSKLKPDTTYTLLFEGQPEPIVAFKTDAKGAAMA
+SATSPTRAIVKAGEASASPDVILVEGAEASMDAVLKSR
+>tr|A0A1Q9AI54|A0A1Q9AI54_9RHIZ
+MSQTADIVIIGSGIGGSTIAAGLAATGAKILILEAGDHIADLPVNRDQRAIFQQGHFRPK
+ETWYEVDGTGFNPGNYYYVGGNSKFYGAVLTRYRKEDFGVLQHQEGVSPAWPFAYEELEP
+WYSWAEQLYQVRGALGDDPTEPAHSKPYPYPPVPDEPAIADVRARLKRAGLHPASLPLGV
+DIDSWLAKARTPWDAHPNSRDGKMDAETTALALALRHVNVRLQTKSRVVRLETGEDGRVN
+RIVYVKDGQTASIAAKKVILSAGAVQSAVLLLRSANDRFPKGLANGSDQVGRNFMNHNSS
+AVIALSPRFRNTSIYQKTFAFNDFYLTDGEGGPPLGNVQLLGRVSGTILKGTMPRVPQWA
+LDRFARHAIDFYAMSEDIPNPESRVMVDGDRVVLQWRRTNWNAHLALVAKLKGVLKSIGF
+PVVLAKAFDKRTPSHQCGTVRIGTDPAEAPLDIFCRAFEHRNLFVVDAGFLPTSAAVNPA
+LTVAAQALRVADHIAATDLRA
+>tr|A0A1Q9AI02|A0A1Q9AI02_9RHIZ
+MVSKTYTTRPAGPAIPVTPTKVFPENYWPGEEKFRFWHVPEIAYRHRLRGCVREFIVFGV
+RGWRDGPRTSRLHLSRHFDLLLFVNEDKKMTVEAEVLLTSVSARIAKMDQPERGAVVSFK
+LSTEEEDREVRLQRRNMLRLASWTANRLGPAFEEFLADQGL
+>tr|A0A1Q9ANB6|A0A1Q9ANB6_9RHIZ
+MTDTSSSRVFGQRKEPWLLILARGEKVRHVTLKPWMTATAIGLSMLTCVGFLGATAYLML
+RDDLIGGTMARQARMQHDYEDRIAALRAQVDRVASRQLLDQQVVEQKVEKLLEQQSAISS
+RNGRIGSLVERAEDSGLDVRADEAPALDGQEEPAMPAYAPRDKHASAQGIRAIEAMIGLK
+TPADKTLADRPAEPPRDEPSRTGPLRAFARLAAPAESLSDRADRLFSKVTISLKQIERQQ
+RAQIDTLTADAVKTADAIQSIATRVGVPLDMANSPTAGDEDAVGGPYIEPQAPDGFDRSL
+VALDGALSRLESARMQARRLPVSNPAPGSQITSPFGNRPDPFLGRLALHSGIDFRIGVGT
+AVHATAPGTVITAGFNGSYGYLVEIDHGNGVATRYAHMSEIAVHNGQKVTAGTTLGFSGN
+TGRSTGPHLHYEVRLDGRPVDPMRFLMAGRTLAPYLN
+>tr|A0A1Q9AHH5|A0A1Q9AHH5_9RHIZ
+MTKAPIGGNRTGRKLGQKVKKGKLKASSRRWLERHINDPYVQRAQLEGYRARAAFKLLEI
+DEKHKILTGARRIIDLGAAPGSWSQIAAKVTRSTDEDPRVVAIDFLEMDPLPGVTIFQLD
+FLDASAPGLLMEAMGGAPDLVMSDMAAPTTGHRQTDHLRTMHLCEVAAYFAVDVLAPGGH
+FLTKTFQGGTERDLLTMLKKNFRQVVHVKPASSRAESVEMFLLAKGFKGKQVAQDDDAAE
+MDEDDDLALEAGDEAL
+>tr|A0A1Q9ACQ5|A0A1Q9ACQ5_9RHIZ
+MHKFKIVKAANGQFRVQFAYNAEVMVWSENYASKASAKNCIESLKKNVPDAAVVDLTREE
+TGSGYRFEIADSKDQFIVRFRASNGEVMVQSERYASKASAKNCIESLKKNAPEAPVDDET
+VAA
+>tr|A0A1Q9AIF2|A0A1Q9AIF2_9RHIZ
+MLEKSYREAARTPLPAGAIAVGTGFFIAPDKVMTSAHVIAGCDTIIVENGRLEPASARVA
+AQDRRRDAAVLKVQAVAPSVLSLGEDSGRGALRILGYGVGETGRMPADMREAARLKGSPP
+GALAVSARVSAGFSGAPILEAGGRVIGILSGRLNEGEGRDQADIIASPVAGLSAALRGHA
+DARGQKQGAAEGAVVKVSCQ
+>tr|A0A1Q9ALQ1|A0A1Q9ALQ1_9RHIZ
+MAQGGTRAPSGLRRALRRIALVLLVLLVAPYGLILLYAPGFVHPVSTLMLRDVVLRGGYD
+RQWTPFEKISPHLVRSVMVSEDGQFCAHDGVDWVQMRGVVQDALEGETTRGASTIPMQTV
+KNLFLWNGRFFLRKLLELPLALTADVVWSKRRIMEIYLNIAEWGPGIYGAEAAARHHFGV
+SAANLSRRQAALLAVSLPNPFDRNPAKPGRGLKRLATLIERRAGASADYITCLYP
+>tr|A0A1Q9ADA6|A0A1Q9ADA6_9RHIZ
+MTRNAKLKRRVRSRCAKTGESYTAALRHFRHTHDTPGFHSFPMAVAQTRFFDDPSDLPAL
+RASGAEMRDLMNKARLEGARLLHFPEGTLCSPNKRIMSSLGRREIGPSDWSRCNWDAFRT
+EIEAIRALAGQLKLWTVFGAAHRLSEPHRPHNSLYVISDRGDLVTRYDERLLSNTKISFM
+YSPGKRPVTFEVDGFRFGCSLGMELHYPEVFIDYEQRDVDCVLFSTTGESPQTAFAAEAL
+GHAASNSYWLSFSAHTPQSIVMPSGIADPAGQWAARCPHSEHAVLAMAHITIDPDSPAKP
+WRRKARSGLYAAFQIDGDPRSDETSLF
+>tr|A0A1Q9AC54|A0A1Q9AC54_9RHIZ
+MSLNRTRPSSVALLLLAAGASRRMGGPNKLLARFGGVPLVRRMAAIALASRAREVTVVTG
+DRAQAIEAALAGLSLRLLHNPDHAQGMGSSLALGVRHLSTLTTAGSMRMDAPKGILVMLA
+DMPGLTHDDLDLLITRFEQAGTQAIVRATSEGRPGNPVILPRSLFPALAALTGDEGARRI
+IAATDIPVLAVELGPAAHLDVDTPQALVAAGGVPDG
+>tr|A0A1Q9AJC5|A0A1Q9AJC5_9RHIZ
+MAGIEHKQVDADEKGMRLDRWFKVHYPGLGFGALQKLLRSGQIRVDGGRVKSDTRVEPGQ
+TIRIPPMEVDAKRSGPIAGRELKHAGDAELLSRMVLHEDAKVIVLNKPAGLAVQGGSGVV
+RHVDKMLEAWTNQRGEKPRLVHRLDRDTSGVLVVARTRGAAQKLTAAFRERDTKKLYWSL
+VKGVPRKRDDKISTWLVKEQTPDGDRMRIAKHGEDGADHAVSYYRIVEQAGQNFAWLEME
+PYTGRTHQLRVHAAHIGHPILGDPKYFEADINWNFPGGVQNRLHLHARHIDIPHPDGGRL
+SVTAPLPPHMVQTWNLFGFDVASAGEDE
+>tr|A0A1Q9APD5|A0A1Q9APD5_9RHIZ
+MTASLKQELEASIRAIKDYPKPGIVFRDITTLLGQPRAFRRAVDELVHPFAGNRVEKVAG
+IEARGFILGGAIAHQLSAGFVPIRKKGKLPHDTVRIAYSLEYGVDEMEMHRDAIVPGEKV
+ILVDDLIATGGTAEAACLLLRQMGAEIVAACFVIDLPELGGRRKLEALGVEVRTLVEFDG
+H
+>tr|A0A1Q9ACH4|A0A1Q9ACH4_9RHIZ
+MRIAITNALYPTPAQPSVVGGAEIYVRQLSQTLRARGHEILILRVSPDDRVHTETVDGIL
+VRYLPVRNLFPPFRQPANPLLRLAWHAIDDRYRAPAATADCLDAFRPDLLHSHTFNGLST
+DVWQVAKAKGLPIVHTLHDYYLTCPRCSRFNKGHDCEATCGSCALLTSVRRRRTALVDAV
+VGVSAKTLDIHRQEGLFAGAVQHVIRHAPDESIAYSPLPTTDGPLIIGYIGRFSAEKGIR
+LLLEAVSRLEPGSVRLLLAGKSTPEEQAELRQVAPGVDIEFLGYVAPPSFYQRIQVLAVP
+SIWHEPGPLVLIEAQAAGRPAIGTPFGGIPENLDDGRTGWLSEPEPESMASAIRRLVEDR
+SLLTRAHHALGEQRALRRSFDDVVSSYEAIYVAMADRRQR
+>tr|A0A1Q9ALM0|A0A1Q9ALM0_9RHIZ
+MTLHTLAPEEADRIPASAKERILEIVADCRGLEGPLLPILHAVQHEFGYIPEGAKPIIAT
+ALNLSRAEVHGTVTFYPDFRDRPAGQHVLKLCRAEACQAMGAHALGDKARALLGVDWHET
+TADGRVTLEPVFCLGLCACGPAAMLDGELLARLDEESLAEHLTEIRL
+>tr|A0A1Q9AD40|A0A1Q9AD40_9RHIZ
+MARLFTVASDNPELLKAQYQAFTRQMPMMYFILLSSTWALAVTHMRSTPLWLAIGVPAVL
+TLICAKRLMFWRRVRFQEPSAEQALRVLQGTNRLAVGIAVAFTTWSFLLVPYGDAYARSH
+VAFYMAITVISCIFCLMHVRSAALIVTLIVNGAFVTFFLAMGHLTFAAVTINVALVCYGM
+LSILFTNYRNFEQMIVSQQRTRALGDENLRLANIDRLTDLPNRRAFFSHLEQALDGARQD
+GTRLALTLLDLDGFKPVNDVYGHSAGDRLLMEIGQRLMTLPEGCKAFRLGGDEFAIVTVR
+AAEDGRLVEQAMAVAEIIQQPVALAKATAKVAASLGIAVYPDLASTCEQLFDRADYALYH
+AKRMRRGSAVLFSTAHERTINAEARIEQALKQADLASELSIVFQPIVDIVHGTVEGFETL
+ARWDSPVLGRVPPAQFIPVAERTSFVSHLTRALLQKSLAVAATWPDSVCLAFNLSAQDLA
+SPDGVTTLIAIIENSGLPANRIDFEITETALTYDFDQVKQSVERLRALGCRISLDDFGVG
+YSSLTRLHALPLTRVKIDRSFVSGLHQRPASYKIVKSVLALSRDMGLECVVEGVETCEEL
+AVLQQLQATLVQGHLYARPMDAEEIPAFLADFAQQRLAV
+>tr|A0A1Q9AJ07|A0A1Q9AJ07_9RHIZ
+MLDIKWIRDNPEALDQALAKRGQQALSASLIALDERRRALVQTLQDMQARRNAASKEIGA
+AMAAKDSALADRLKAEVAEMKTSMPALEEESKAVDAELADALSRIPNIPLDDVPVGEDEA
+GNVVARTVGDKPRWNHPALEHFDIGEKLGLMDFERAAKLSGSRFTVLTAQLARLERALGQ
+FMLDLHTGEHGYTEVSSPLMVRDDAMYGTGQLPKFAEDLFRTTDGRWLIPTAEVTLTNLV
+SGEIIDAERLPLRFTALTPSFRSEAGSAGRDTRGMLRQHQFWKCELVSITDADQAIAEHE
+RMTACAEEVLKRLGLHYRVMTLCTGDMGFSARKTYDLEVWLPGQNTYREISSCSVCGDFQ
+ARRMNARTRGRDEKATRFVHTLNGSGTAVGRALIAVLENYLNDDGSVTVPEALLPYMGGL
+KRIERAA
+>tr|A0A1Q9AF83|A0A1Q9AF83_9RHIZ
+MPSSASNAKAYVFLVITTLIWGGNSVAGKMAVDHVSPMMLNSLRWIIAGIALATFAGPQV
+RRDWPVIRRHLPLLLGYGAVGFTGFNAFLYLALQYTSAINAVIAQAAVPMAIFALNFILF
+RTGVVAAQWIGFALTLSGVALAVSHGEPSRLLALDLNRGDALMMAAVLVYAIYTVTLRYK
+PAIHWQSLISASVLGALLASLVPLSVEAALGQSRLPDATGWAVALFAGLMPSLISQILYV
+RGVEMIGPNRAGLFINLIPIFGTLLSLAFLGETLHAFHIGALVLALSGIAVAERGRSARA
+>tr|A0A1Q9ALV1|A0A1Q9ALV1_9RHIZ
+MTNTLIGYARCSTEKQDLAAQKSALQKIGVAVDRIYTDHGFTGANRARPGLDQALAAVRS
+GDTLVVPKLDRLARSVPDARAIGDDLASRGVRLQIGASVHDPSDPMGKLFFNILATFAEF
+EADLIRMRTREGMALARFRGKLRGKKPKLSERQQKELRRMYDTGGYSVSDLAEVFSISRP
+TVYRTLESVREFMIGVRSF
+>tr|A0A1Q9AQD4|A0A1Q9AQD4_9RHIZ
+MDQIVEILTYRLTPGSGAAFFAIMQEVSVPLHLKHGIDVVWHGRSLHDADGYGLIRAFET
+MEALEAQQAAFYAGDDWRTGPREEIVSRIAGATKIVVPMNAAAIAGLRAQRCFSGSMGEV
+>tr|A0A1Q9AEV6|A0A1Q9AEV6_9RHIZ
+MIDQWLRKPDFEIVALRSADLPEVALCHAGRFPHPWGEDEIHALTGQATVFGFVARQTNA
+LLGRPALGGFVLTRAAGGEGEILTIAVDARYGRLGIGWRLMRAALGEARRRGAESLFLEV
+DETNQPAIGLYRRLGFQTVATRKAYYKGADGTRTGALVMRLDL
+>tr|A0A1Q9AHX0|A0A1Q9AHX0_9RHIZ
+MLIDAHQHFWRLAERAGGWPPPEMAAIYRDFAPEDLIPDLKASGVDGTVIVQSLPRAEDT
+LFMLDLAERHAFILGVVGWVEMKAADAPARIAELARAPKLKGLRPMLQDLPDDDWIDDPA
+LDPAVSAMLEAGLSFDALVLPRQLKALTAFAERHPRLPIVIDHGAKPLIAEGRYSDWRRA
+MERLAALPEVCCKLSGLLVEAGEQRPEAIRPYADTLFDLFGPERLIWGSDWPVLRLVTEY
+GAWLAQCRAIVPEAAHEQVFGGNARRFYRL
+>tr|A0A1Q9AJL5|A0A1Q9AJL5_9RHIZ
+MTDIARIFIGFDSKEVVAYHTFCQSILEKSSIPVLFCPIALDTVAGIFTRERNPLQTTEF
+SFSRFLTPYLSNFEGWSLFADCDMLMRTDIAKLWELRDDRYAAMCVKHDYVPKVDTKFLG
+QTQTKYEKKNWSSVILFNNAKCTALTPDYVNSATGLQLHQFKWLESEELIGALPQSWNWL
+VNEYDYNEDADLVHFTDGGPYFDEYKNDDYAEEWFAARDRVLAVTQRA
+>tr|A0A1Q9AJZ8|A0A1Q9AJZ8_9RHIZ
+MSIITLPLPSSAGLVLTPKALGIAALLVVAYGVVPFVGSSYVFEALLLPFLALSLAGVGL
+NILTGYAGQVSLGSAAFMAVGAFAAYNFNLRVEDLPLIVSLVLAGLSAAAVGIVFGLPSL
+RLRGFYLAVSTLAAQFFVQWVLTKFSWFSNNSASGVIDAPPLTIAGLSFEGPVGRYLFAL
+AIVTVLTFLAHRLVTSQTGSNLIAVRDNETAARIIGVPVLKTKLLAFAVSSFIIGVAGAL
+WAFAYLRTVEPAGFNLDRSFQILFIVIIGGLATIRGAFLGAGLIVVFPLVLSRAGAFVFG
+DIFDSGVLDMTQRIVLGALIIAFLILEPDGLSALLDRLRHRFAAVFGRA
+>tr|A0A1Q9AJE6|A0A1Q9AJE6_9RHIZ
+MAEAANYEPRLKTEYVNRIRKALQDAFNYSNEMQIPKLEKIVINMGVGEATGDSKKPTIA
+AADLAAIAGQKPVITRARNSIAGFKVREGMPIGAKVTLRGARMYEFVDRLVNIALPRVRD
+FRGLNPKSFDGRGNFAMGLKEHIVFPEINYDKVDQMWGMDIIVCTTAPTDDEARALLKEF
+NFPFRQ
+>tr|A0A1Q9AF27|A0A1Q9AF27_9RHIZ
+MIRIQPFPVSAPDAAAAPARAGSDLGSLPSWRLEDLYPGRDSDAFRQDLARAESETLAFE
+ARWKGRLAEAAGKEGDEGLGAAIRQMEALEDLIGRIASFAGLTYFSNTTDPANGKFYGDV
+QAKLTDLSSHLLFFGLEMNRLEDAAIDGAIAKDPVAAHYAPWIRDLRLEKPYQLDDRIEQ
+LFLEKSMTGAAAFNRLFDETMAAMTVTVDGETLPLEVALSLLQEPEPATRRAVAEGLTKA
+FKDKLGVFTLITNTLAKDKEISDRWRGFEDIADSRHLANRVEREVVDALAEAVKSAYPRL
+SHRYYAMKAKWLGMDTLNFWDRNAPLPETPNATIGWDAARETVLSAYAGFSPDMAAIARR
+FFDGGWIDAPVRPGKAPGAFAHPTVPSAHPYVLVNYMGKPRDVMTLAHELGHGVHQVLAG
+GQGALMASTPLTLAETASVFGEMLTFRALLDQTRDKRERKAMLAQKVEDMINTVVRQIAF
+YDFERRLHTARREGELTAEAIGEIWMAVQAESLGPAIKLSDGYETWWTYIPHFIHSPFYV
+YAYAFGDCLVNSLYAVYQKAESGFQDKYFDLLKAGGSKHHSELLAPFGLDATDPDFWQKG
+LSMIEGLIDELEALEG
+>tr|A0A1Q9ALG0|A0A1Q9ALG0_9RHIZ
+MIYVVDASVAVKWFVFEGDHKMAQALVAIDVALTAPDLIFAELANVLRRKVRGGLVTEDQ
+AREALETMQTTFSAAVRSSDLLQRAFELSAMLDHSVYDCLYLACADQAEDRILVTADDKF
+VAKAVSAGHGHKIITLSDAVAGIAAGQEH
+>tr|A0A1Q9AHG2|A0A1Q9AHG2_9RHIZ
+MANRAAISAKLGHSNRVSIDETIGTDSAVLSSKLQELFERLFSPSSKKSLRRFSSGETAK
+LLGVTDSYVRHIAAQEDAVTSEKTASGKRTFALHEVHTIRQILGRTKPTYLPNRREHDHL
+QVIAVTNFKGGSGKTTTAIHLAQFLALRGYRVLAVDLDPQASMSAMLGFQPEFDVDENQT
+LYGAIRYDAHRRPVSEIVRKTYFAGLDLIPGNLELHEFEHDTPRALASRDADDTDMFFMR
+VSSALMEVQDSYDVVVIDCPPTLGFLTLSALCAATAVLITVHPQMLDVASMNQFLSMTAD
+LLNVVREAGGNLDYDWMRYLVTRYEPNDGPQAQIVAFLRSIFGERVLTSMMVKSTAVSDA
+GLSKQTIYEAGRETMNRQTYDRAVEAMDSVNAEVEALVRNAWSRA
+>tr|A0A1Q9AHZ2|A0A1Q9AHZ2_9RHIZ
+MTALQLAPITPGRALRFCVLVLTAALFLAPYLFMISTAGKAQSEIFTSSLSLIPSEPHFL
+ENFAKAFSRVSMPLLLWNGVIVCGLILAIQVVIAVPCAYALAKLKFPAARLMMALIMLGL
+LVPIHATALPIYVAFDRMALLNSYMALVAPFSISVFGIFLFLQFFRSLPDDLIHAARLDG
+MSELGVVMRVVVPNAWPAITAFSIFSVVAHWNDLYWPLIVVSNQAYATPPLGLLFFRAAE
+AGDDYGALMAATLIITLPLLAAFLLAQKRFVEGITMTGLKG
+>tr|A0A1Q9ADH7|A0A1Q9ADH7_9RHIZ
+MHGKDIKITGIRKDFGATNVLKSIDLHVRKGEFLTLLGPSGCGKSTLLRLIAGFDVPTSG
+SIEIGGRDVTRLAPKEREIAMVFQSYALYPHMTARRNMSVPLEMQRLSFAQRLPGAALVS
+GKIRQIRKEIAVDVERVCEQLGLASLLDRKPAQLSGGQRQRVAVGRALVREPSVFLMDEP
+LSNLDAKLRNQLREELADLQRRTGITFVFVTHDQKEAMALSDRIALMQGGQVVQCGTPDE
+IYRVPNHVSVARFVGSVAINEIPVAIRNEDLFAGPFALGLRAAGAPDGAYMLAIRAEALE
+PVPQSSDAVCLQLPVAHVEYSGSEVFVRCSGRDIGTEWIRFQVPVEQFAQLRAGGHLGDT
+VSLRLRAHGAHVFTLAGERMPAVLVNRYETNGLRHVLSV
+>tr|A0A1Q9AFY6|A0A1Q9AFY6_9RHIZ
+MTDRFQFTLLATDGKARRGQVSMPRGIVRTPAFMPVGTVGTVKAMYLTQVRELGADIILG
+NTYHLMLRPGAERVARLGGLHELIRWPEPILTDSGGFQVMSLSGLRKLDEQGVTFKSHVD
+GALHHMSPERSIEIQGLLDSDIQMQLDECVALPAERNEIERAMELSLRWAERCKVAFGDQ
+PGKAMFGIVQGGDSPELRVRSAEALAGLDLKGYAVGGLAVGEPQEVMLDMLDITCPALPF
+DKPRYLMGVGTPDDILKSVARGIDMFDCVMPTRSGRHGLAFTRHGRVNLRNARHAEDPRP
+LDEASSCPAARDYSRAYLHHLVRSNEALGGMLLTWNNLAYYQDLMAGIRASIEEGRFQSF
+MEETQETWARGDIPAR
+>tr|A0A1Q9AFQ0|A0A1Q9AFQ0_9RHIZ
+MIKNVGVVGAGQMGCGIAQVSAAAGYKVQLYDLSADRIETALATINGNLARQVASGKLSE
+DQRKQALALIQGSSDLHDLSAADLVIEAVTEDESVKRKIYGQLCPLLKPEAMLATNTSSL
+SITRLASATDRPERFMGIHFMNPVPVMKLVELVRGIATGDETFSAAKDYVSKLDKAITVA
+EDFPAFIVNRILLPMINEAIYTLYEGVGSVDAIDTAMRLGANHPMGPLQLADFIGLDTCL
+SIMQVLHDGLADSKYRPCPLLVKYVEAGWLGRKSGRGFYDYRGETPVPTR
+>tr|A0A1Q9AKY4|A0A1Q9AKY4_9RHIZ
+MQKVGDLHADNVLVTQLIRKRWQSYAPCTEKGLDFDQCRAAILAQPLITPASIARDARLR
+PVYSNYPM
+>tr|A0A1Q9AEM1|A0A1Q9AEM1_9RHIZ
+MTADGKPTLFSRPLPIALFILVALVLDQAIKWAVDQYLPFEQAVHVMPMLALYRTHNYGV
+AFSMLSEMEGWFIVGMRLFVVAFVLWLWRRTPKDRFFAHLGYAMIIAGAIGNLIDRFLHG
+YVIDYVLFYTATWSFAVFNLADSFITLGAGAIVIDEILHARRVKAAKAQTGD
+>tr|A0A1Q9AIM4|A0A1Q9AIM4_9RHIZ
+MITDPEGTVLALFAAFCRIGACIMLMPGFSSARVAAQVRLFTAIAISMAILPLMWNDIYP
+QVTGKGHTYIYLIASEAVIGGVIGLVARYYILGLQFAGSVITMLIGFNAPPAQDVLEDSA
+ENQLTNLISFGGLMVLFMMDFHHVIFDAIFDSYQVMPIGRGFDPQGVLITLTNSLETTFM
+IMMRLASPFLIYGLLFNVALGMVNKLAPQIPLYFISTPYIIIGGIFLYYLSAAAMLKIFA
+NGFALVMQAG
+>tr|A0A1Q9AIG5|A0A1Q9AIG5_9RHIZ
+MAARGAGTAPAGADATGLGAPAKALPPEEMWRSGLATAAEIADGLAEFHRIARGRYEEIA
+GRPHRMADLSRRYLREIHLYPFDQNGSPAIALADPGRQDAIHAVELALGARLPLCILSFE
+EIGLLFERAAQDAVPAGGVTVVETLEEDAAAGGSLQSIEDLARGAPVVRLIDDILERAVG
+MGATDVHLETGRDHLQVRLRVDGFLRRDQRLPFAMAAAVISRVKILAGLDIADRRLPQDG
+RANIRIGRAEADLRVAVMPTLYGETAVLRILLRDQRLLELGRIGMNERDRRAFEALLAEP
+HGVVVVTGPTGSGKTTTLATAVSMLNDPGRKIVTIEDPVEYQIAGIHQTQIKPAIGLTFA
+SALRAFLRHDPDVIMVGEMRDRETAGIGIQAALTGHLVLTTLHTNTASDAVVRLIDMGVE
+SYLLGAALRGIVGQRLVRRLCERCKAPDPDMHETAAALAGRRGIRLPDAAQFHRPVGCEA
+CGQSGYRGRIGIFEVLPVDDALRSVIRRDPDPDIIAEEARARGMTSMLEDGLIKCASGLT
+SMDEVLRATG
+>tr|A0A1Q9AJ27|A0A1Q9AJ27_9RHIZ
+MISTTAELRDACEKLAAAPYLTIDTEFLRETTFWPQLCLIQMAGPDIAVIVDPQAPGLDL
+SPFFALMANPEVIKVFHAARQDIEIIFHLGGLIPHPIFDTQVAAMVCGFGDSVSYDQLVN
+RIKNVQIDKSSRFTDWSRRPLSEKQLDYALADVTHLRDVYAHLKAELEREGRASWLADEM
+AVLEARETYDIDPENAWQRLKMRLRKPVELAVLQRIAAWREREARNRNVPRGRILKDDAL
+YEIAQQQPRDAEAMSRLRTVPKGWERSAAGGAILAAVNEALDLPKADLPRLPRTTQSPEG
+AGAASELLKVLLKLTAEKQGVAAKVIASSDDLDKIAAEGDKADVAALKGWRRDLFGETAL
+KLIQGDVALRFVDRKIETVEL
+>tr|A0A1Q9ACH2|A0A1Q9ACH2_9RHIZ
+MHRKFVWLHAPLALGLLLSGAARAEETAATPQVAPRLPAIVVTAVTEKPLADRVKATGTI
+QPVDESYAAPLVEGLPISEVRVDVGDKVTAGQVLAVLDKDTLLLQKSQYQAQRAKAEASL
+AQYQAQLIEARANAEEAERSRARTQRLEASGTVSTAQREQQDALAAATRARASSAEQMIS
+VAKADIAVVDAQIHDVDLRLSRTEVKAPVSGVISAKTAKVGAIASGAGQPLFTLVRDGAL
+ELRADVTETDLMRLAPGQKAEVALTDGAETLHGTIRLLSPTVDTQTRLGIAYISLPEPDR
+ARVGMYAGATITVAQKTALSLPLTAVTRKADGSFARKVVDGVIKLVPVQTGIQDGGSVEV
+VSGLAAGDQVVAKAGAYVRDGDKINPVIAAPAETN
+>tr|A0A1Q9AKI5|A0A1Q9AKI5_9RHIZ
+MWLALGAGLVLAGCNQPRQDAAVEERPVVVTEAALADYAPTTAVTGEVKARIQTELSFRV
+SGRITERSVEVGSKVTKGQVLARIDPREQNADVDVASASLQAAEAQLTQAQLDFNRQQNL
+FKSGVTSRARLDQSQEALLVAQATVESARTQLDVARDALSYTELKADADGIITARNAEVG
+QVAQAAQSIFTLAHDGPRDAVFNVFEALFLQKSLDHVEVAPLSDPSEKVSAPVREVSPTI
+DTATGTIRVKVALDAAGGALPLGAPVVGTFTAPTRQAIILPWNAIASDGGTPAVWVVDPK
+TSTVSMKKVEVAEYETGRFAVSSGLAPKEQVVIDGTKFLLPGKSVTVAKEASP
+>tr|A0A1Q9AQJ9|A0A1Q9AQJ9_9RHIZ
+MPDSAADNSPEENSRQAGDHAVSMPLFVEHAHLQVRDLPMVSAWYQRILGLTPIESSASG
+QTLGAGGVPLLTLTSRADLAPSAPRAAGLFHNAFLVPDRRELARWLAHAAHSGVRLQGAS
+DHLVSEAIYLTDPEGNGIEVYRDRPREEWRYQSDGMVAMATLPLDLQSLYDEAPQQGFSG
+MAPGTALGHIHLQVSALPEADQFFRAVLGLDLMATYPGAHFYAAGRYHHHVAANIWNSRG
+APRRESRMAGLADYAIRFNDPARFQQALDSLDRLEIAVTRSGTRAKLIDPWGMGLTLSA
+>tr|A0A1Q9AIX8|A0A1Q9AIX8_9RHIZ
+MFVITLRFADKTKAPQFMEGHNAWIKRGFDDGVFLLVGSLQPNAGGAILAHNASPEEIER
+RVQEDPFVAEGVVRAEILVISPGRTDEWLDFLKA
+>tr|A0A1Q9ACE2|A0A1Q9ACE2_9RHIZ
+MRLDPSRVRKRLHLASGLILGVFLLTHFSNHALGLISVQAMERGRLTFNLLWRNPLGGIA
+LYGALAVHFVLALEALYRRQTLRMPWKEKLKIVSGLAMPFLLVGHVTATRIDWVLSGYSA
+GYYDLLPYLWGKPIDRLDQSLALLLAWAHGCLGFWFWLRPKPWYPRIALPLYTLALMVPL
+LALLGFAAGGRSLGAALPSQSWFMKGRTDPAVLAEIRIALFAGLGLSIAGVLIARLIPMR
+GKVRIRYPDGRVLSVNRGFSLLEASRAAGIPHVAICGGRGRCSTCRVRVTEGLDRLPPAG
+KAERATLERINAPDNVRLACQLKPQFDVAIAPILGADNIGVKVQTPEEETGGRERRVALL
+FCDLRDFTRMSQQHLPFDTVFLLNRYFEMVGEAVEGAGGVVNKFIGDGVFAMFGLHNRLN
+EASLQALTAATEISHGIRLLNQRFESELTRPFRVAMGMHAGTAIIGRIGYGQAAALTAVG
+DSVNAASRLEGFAKEYDAELAVSADLLRQAGVSLEDQPTYPISIRGRTGTLETLIVQDAR
+SLAPMIEAARKAEATPAAERG
+>tr|A0A1Q9AP33|A0A1Q9AP33_9RHIZ
+MIENRLSDYLSHMLDAANQACAYVKGMEKQDFLADKRTQQAVILNIVIIGEAATRLLKDY
+DGFLRGHPEIPWSAMKGMRNRIAHCYFDINLDIVWDTVKTALADLLSALPRVQDAARAEN
+RT
+>tr|A0A1Q9AFB1|A0A1Q9AFB1_9RHIZ
+MADLATPDVRPNNTHFSSGPCSKRPGWSLDALSDAPLGRSHRAKVGKAKLKLAIDLTREI
+LEVPADYRIGIVPASDTGAVEMALWSLLGARGVDMVAWESFGSGWVTDVVKQLKLPDVRK
+FEADYGKLPDLAALDFDRDVVFTWNGTTSGVRVPNADFIPADRQGLTICDATSAAFAQDM
+DFSKLDVVTFSWQKVLGGEGSHGVLILSPRAVARLESYAPAWPLPKIFRMTKGGKLIEGI
+FEGETINTPSMLCVEDYIDALNWAKSIGGLKALMARADANAKVIFDFVEKTPWIANLAEE
+PATRSNTSVCLKIVDPEVTALDDKAQAAFAKGLVAALEAKGVAHDIGAYRDAPSGLRIWA
+GATIETADMDALMPWLDWAFAKQKAALAKAAA
+>tr|A0A1Q9ANT4|A0A1Q9ANT4_9RHIZ
+MQDWKLAYHANCWGALGGNAQGVTSITELSYRTFADMDRAFSDIAAVGYEGVELFDGNLL
+DYEASALRKLLADTGLSLVAAYAGGNFIFDEILPEELARVARAADRAAELGAPHLVVGGG
+AKRFDGIRDSDYARLGAALDMVMRLAEERGLRAHYHPHLSTIVEGPETVERIFGLTAIDF
+CPDTAHLAAAGGDPAKLIRDHAARISYVHLKGFQREPFAFTPIDRGDVPTAPILAALRET
+GFKGWICTELDAWPDPAEGARASMDYLKKA
+>tr|A0A1Q9ACJ1|A0A1Q9ACJ1_9RHIZ
+MDRLTRKLRDQKNAQQKRAARLAAMTAEERERHDAWQRSHQPGPKGARAAARQQRLVAKE
+IATALATPKQVGPEVTRIQAEIARLEALAAAIEQHDIFG
+>tr|A0A1Q9AK36|A0A1Q9AK36_9RHIZ
+MRNPIILSRRGVLASGLALGASAALGPLARAAAPVKVAGIHGSPVENAWNSVLHKALQDA
+AKEGVIEYVFSEGVSGTDYPRAMREYAEQGAKLIIGETFPVEKQAREVAADYPDTAFVMG
+SSGKEAGDNFGVFGTWNFDGAYLAGMLAGKMTKSNVVGSVGAMPIPEVNMLINAFAEGVK
+AVNPDAKHRVTFIGTFFDPPKAREAGLAQIDAGADILFGERIGTADAAKERKIKSVGSLI
+DYTPRYPDTVFANALWNFRPILNAALADVAAGKPTGRDYTAYGLMKEGGSDIVYVKGVAP
+AEAEAAMEAKRAEIKAGTFEVPKIMTEPK
+>tr|A0A1Q9AKZ1|A0A1Q9AKZ1_9RHIZ
+MSDTTLPIRSVCVYCGSQPGRDPMFMASARELGKSIAEHHLRLVYGGGTRGLMGAVASGV
+LSQGGRVTGIIPEFLMDMEATRHSLGQLSELVVTPDMHERKHRMFERADAFVALPGGIGT
+LEEIVEIMTWAQLGRHRKPMVFANIDGFWDPLTALIRHMADAGFIHTAHQVQPLIIDRIA
+DIVPTLIQHWAGKVDREGESEIIDKL
+>tr|A0A1Q9ALS7|A0A1Q9ALS7_9RHIZ
+MTIKSKLIMAFGVTIGLLIAMTLYGVSSLSTINRSSTDVIEGPVLRLEYALTASGKMSET
+IRAQKNALLSRTPDEVNRYMTSSNALNDELITVAKSGFEIASPQGKPYWEAVVNDAATFK
+TVAAELYSLQASGKLDEAIELSNGKLRDIATAMGQSIGKLIGVQKVAMQSARDANAELFD
+TTRNLLFALAGGATLIALIAASWIAIGISRGLKKITVAADAVALGDLDQTIEITTNDEIK
+DLIGKINVMTGNLRATAAVATEISFGNLAVDVKPLSERDSLGIAMKSMVTNLRETAASAS
+QIALGDLTRDVTPLSDKDTLGIAMKSMVTNLRETARVAETIANGDLTVNVKPMSDKDTLG
+IALETMVHRLRGVVGDALAASDNVSSGSQELSSASEQVSQGATEQASSAEEASASMEEMA
+ANIKQNADNAAQTEKIARQSAKDAEASGQAVNRAVGAMRTIAEKISIVQEIARQTDLLAL
+NAAVEAARAGEHGKGFAVVASEVRKLAERSQSAAAEISALSGDTVQVATEAGEMLNRLVP
+DIRKTAELVSEISAACREQDIGASQINEAIQQLDKVTQQXDAEPSGARHPQDCRTGLGDL
+GRLP
+>tr|A0A1Q9AEW6|A0A1Q9AEW6_9RHIZ
+MDAQVNTYSIEAGSWHRLGAHPDKDGVNFALFSAHAERVELCLFDDSGKIEIARLTLPEY
+TNEIWHGFVPGLKPGQLYGYRVHGAFRPEDGHRFNANKLLVDPYARELVGDVAWSKDHFG
+YIMDSEEKDLSFSETDSAAVMPKCRVVDTGSYDWKGDRSPIIPWSKTIFYETHVKGFTKL
+NPAIPENLRGTFEGMGHKAVVDYIRSMGITSVELLPIHFFPDDSMLIDKGLHNFWGYNTL
+GFFSPANRYYGPNGRDGFRDMVRALHDGGIEVILDVVYNHTAEGNEMGPTLSFKGIDNFS
+YYRTIPDNHRYYINDTGTGNTVNTSHPRVLQMVTDSLRYWVEEMHVDGFRFDLGTILGRE
+PEGFDQRGGFFDAVTQDPVLSKVKLVGEPWDIGPGGYQVGGFPPGWAEWNDKYRDTVRDY
+WKDTDNTAPDFAARFFGSGDLYDQRGRRPWASVNFICAHDGFTLNDLVSYNEKHNEANGE
+DNKDGHSDNRSYNYGAEGPTEDETIIAVRERQKRNFLATLLLSHGTPMVLAGDEFGRSQM
+GNNNGYCQDSEISWVHWEDLPPSAEELRDFTRRLIALRNAQPLLHRDNWRDGMVIEWVNA
+GGGPQLPEHWADGGGTTIGALVSRADLEEQDGIWSKMLVIFNPHDGPVPFVLPEGGWRLM
+LTTDDPTLEDEAVEGGQAYEMTGRSLCLFIPA
+>tr|A0A1Q9AG38|A0A1Q9AG38_9RHIZ
+MTSPLLSIKALSAVSTREAHQPVLRAVSLDLRPGEVHGLVGESGAGKSTIAKAVLGILPR
+TVKVTGGSVRFEERDLLTLPPRALRDIMGREITLIPQDPQTALNPSRRIEGQLTDGLRLR
+LGLSAAAARARALALLEEVQIRDPERVLASYPHQLSGGMRQRILIAAAFAPGPKLVVADE
+PTTALDVTVQKEILRLIRRMQRAHDTAVIFVTHDLGVVAKICDSVTLLYAGKVIEAGTTA
+AMLERPAHPYTRALIAAGPRYDRPEASLTPVPDAIFRQLRQDIEQTERA
+>tr|A0A1Q9AMX7|A0A1Q9AMX7_9RHIZ
+MAQTKTVNATGNQLIDGVLYEQAWADRTLTYAFPTALSSYGYGQDISSDFAPISTAQKQE
+ALFFLERSRGTAADDGFSVEGFTQLSLSQGTPDDAVIRFAQSSNDNETAYAYLPDSDETG
+GDIFFGIAYRGKPEDYRKPVAGNYAWHTLVHELGHALGLTHGHESDGFGMLPAAQNSLEF
+SVMTYHSYIGAKGEGSEFEPFGAPQTFMMADIAALQTMYGANFDTNSGDTVYRWTPTSGR
+TVIDGKVVLTPGANRIFATIWDGGGTDTFDLSAYKTKLAIDLRPGEASTFSADQLAFLGG
+GPNDGFARGNIFNALLYNDDPRSLIENVEGGSGSDVIIGNQANNQLAGGKGDDRLSGLEG
+DDVLIGGLGKDRLDGGAGSDTASYARASAGVKVDLAKPGQNTGEASGDQFIAIENLLGSR
+FADRLAGDAGNNSLDGGAGKDVLLGGAGDDLLIGGEGADVLTGGAGADSFVFRSASQSTL
+KAYDRITDFSPSEGDRIDLSAIDAMTRSAGKQSFTFIGTEAFSTRGGELRYEKTGIKTIV
+TADLDGDRKVDFALYLDKSITLDAGMFIV
+>tr|A0A1Q9AHP4|A0A1Q9AHP4_9RHIZ
+MTSSAWKRTLAASLLAATALATSAVTGRAADITLRALMEDVPETRIIEALLPEFTEKTGI
+KVEFEKIGYPDMHDKLVTQLVSAESAYNLLEVDFLWAGEFPAANWLVDLKPMADASKFDT
+APFIPSMLDLLGRTADKMPLVPMYNYSMGLIYRTDLISDEKLKAAYKQETGKDLALPQTL
+EDYVAIAKFMKAKAGVEGAAMQGQRGDPNAMEFSNYLFSAGGRYLNDDRTVALDSPEARK
+ALDLYVDNIKNGAQQGALSATLDDTLRLMCSGKAFSMVTYWWMLPQIDDAKACPAAAGKV
+ALSVMPGGHGESGGWGWGIPANVPEDQQKAAWTFIQWVQSKEIAVKRALQGHAPVRSDVF
+ADPAVLAKYPFYKTAEAVVASGKSFPIFTYSAEFENVLGTQISTAASGGTSTDEAVKASA
+AGLKDLMSR
+>tr|A0A1Q9AI89|A0A1Q9AI89_9RHIZ
+MHFDTIETSLFSCRPAPAAYDGGLGWNEEKYPFSGGVDLDLMNLDHNGLDLKGLGEVQGE
+DLPLILGALTRELCGQVQLLQSLGRLVTETADGAGVERKLVQADAKAQIEAISLIVRTLE
+KIDSLQRALAEARSDRDAAEGEADYAALVALFETRVEARARELAARGKACRPATVARGAA
+PRKRTAKTAPAKASPD
+>tr|A0A1Q9AF92|A0A1Q9AF92_9RHIZ
+MAAEKTVAGAIDALRQAVERLDRLVDGRFDRERDLGEIEGEVRRVNADRARLAQELDQSQ
+FRANRLEEVNREVSRRLVTAMETIRAVLDR
+>tr|A0A1Q9AJI0|A0A1Q9AJI0_9RHIZ
+MVRPSKGPMNIPAMRARCETHRMKSGHRRKKNISCSRKRLAAVQRSMFPQRTGEGLVTAA
+VRLSDHELGRQEDPAAKASIDTADTFWPLKLYDFPVTIAREKPDLP
+>tr|A0A1Q9AJV9|A0A1Q9AJV9_9RHIZ
+MLNLHHLASFVTLEETRSFTAAAERLGLGQSTVSQHIQRLEAALGRRLIARDTHSVRLTA
+DGEALLAHARDMLALDARVFSLFGESRLRGRLRLGVSEDVVANRLTDILHEFIRLHPLVD
+LELTVALSAELYRLQDGGELDLVLAKRRIGEAKGRLLYREPLVWLAREPERIAARAGALP
+LIAFPPPSITRRVAQEVLDRAGVSWRIVCTCSSLTGLTAAARAGMGVLVQPRSMAPEGLK
+EIPSELLPVLDDVEFVLVPRRGADAELVEALSHQIVSRIMPRAGG
+>tr|A0A1Q9ALA4|A0A1Q9ALA4_9RHIZ
+MNFAAPHIGFVLASYGAALVVVFGLILWVVLDGRARRADIRALEAAGIRRRSDRRPESGS
+APDARP
+>tr|A0A1Q9AMI9|A0A1Q9AMI9_9RHIZ
+MALCDALPTLLCKFPAIDDGTIRVVRKTIDESFKALVRSYANVIDVVVAPLQWFLNLLER
+SFTGAPWILVLAILLAFVFAASRSWRITLGAAVAMLAIGLLGLWNDTMITLAIVTVSTLL
+AVLIGIPIGIVMARSDRAQRIVNPVLDVMQTMPSFVYLIPVVMIFGIGKVPGLIAVVIYA
+VPPMIRLTNLGIRLVDKEVLEAADAFGSSPWQKLKNVQIPLALPTIMAGINQTIMMALAM
+VVVASMVGVGGLGRNVLQAINNQFFTIGFLNGFALVGIAIIFDRASQAYGRRLQKHSEVV
+HG
+>tr|A0A1Q9APV4|A0A1Q9APV4_9RHIZ
+MSAIEGIARTNFAYLDEQTKRMIRRAILKAIAIPGYQVPFASREMPMPYGWGTGGVQVTA
+AIIGPEDRLKVIDQGADDTTNAVSIRAFFEKVANVAVTTHTRDATIIQTRHRIPEAPLSE
+GQVLVYQVPIPEPLRFLEPRETETRMMHALEEYGLMHVKLYEDIARNGHIATTYAYPVQV
+AGRYVMDPSPIPKFDNPKMDRSPALQLFGAGREKRIYAVPPFTEVKSLDFEDHPFTIQRF
+DKPCALCGSTHSYLDEVVLDDRGGRMFVCSDTDFCEERREAGHVGPLGVPA
+>tr|A0A1Q9AEY3|A0A1Q9AEY3_9RHIZ
+MPYSITLHRVLRAPSERVYRAFLEADALVKWMPPNGFTATVHALDAKVGGGFRMSFRNFT
+SGQSHSFSGRYLELHPHERLRYTDSFDDPALPGEIEVVVTLKAVSIGTELTVTQSGLPDV
+IPAEACHRGWQESLALLAELVEAEIPG
+>tr|A0A1Q9ANH2|A0A1Q9ANH2_9RHIZ
+MATASNDTESPAHSRRPQRVLGVTGWKNSGKTGLVERLVALFTRRGLSVSTIKHAHHGFD
+IDRPGADSYRHREAGAREVAIVANDRIAIMQELRGAPEPDLVALLARMTPVDLVIVEGYK
+RAPIPKIEARRRDARAHEPLAPGDPTIFAIAADHPVDDAAVPVIDLDDTDAIADLVAARL
+GLG
+>tr|A0A1Q9AHJ5|A0A1Q9AHJ5_9RHIZ
+MKLSRILLASAAVLALSLGPVQAKELKKVGLAVANLQANFFNQIKQSVEAEAKKRGITVV
+TVDAKGDGPTQVNQIQDLLTQNIDALIYIPAGAAAATVPVKLAKTAGVPVINVDRNAEGA
+PGDTFLATDSVSSAKAVCEHIIEKAGGKGNMVIIHGQKGTTPEVDRTKGCMEAVKAHSGV
+KVVAEQWSNMWSQDEGFQIMQNMLQAHPDVSIVFAQADGLALGAAQAIKVANPSGKIVVG
+GFDGDTAALEALKNGVFDVTATQQTQKMGRMAVDMAAKIVAGEKVAPVQLMDATLTTKDN
+VASFIAEHP
+>tr|A0A1Q9AC75|A0A1Q9AC75_9RHIZ
+MSEPTAAVPHHDYEKVIKDSSKEVASFEVKRTPIQKLQHFLHTSPSAVSLIVLVVSVTVF
+GALLGSKFFSAFSLSLILQQVAITGIVGAAQSLVIMTAGIDLSVGAIMVLSSVIMGQFTF
+RYGFPPEIAILCGFIVGAFCGFINGILVSRMKLPPFIVTLGMWQIVLASNFLYSANETIP
+SQQLQAEAPILQFFGNNIRLGGAVFTYGVVAMVLLVAALWYVMNHTAWGRHLYAVGDDPD
+AAELAGVNVARMLTSVYALSGLICALAGWALIGRIGSVSPTAGQFANIESITAVVIGGIS
+LFGGRGSVLGMLFGALIVGVFALGLRLLGTDVQWTYLLIGVLIIVAVAVDQWIRKAAR
+>tr|A0A1Q9ACN2|A0A1Q9ACN2_9RHIZ
+MSDLALLESTLLNDIETAADEAAIEAVRVGALGKKGSVSDLLKTLGTMSPEERQTRGAAI
+NALKTRVSDAIATRKAALKDAAIAERLVRETLDVTLPVRSSPAERGRIHPISQIVDEITA
+IFADMGFSIAEGPDIETDYYNFTALNFPEGHPAREMHDTFFLQAGGDGNEQKVLRTHTSP
+VQVRTMEAQEPPIRIIIPGKTYRQDSDATHSPMFHQVEGLVVDKTANVANLRWVLTEFCK
+AFFEVEDITMRFRPSFFPFTEPSFEVDIQCDRSSGPIVKFGEGKDWMEILGCGMVHPNVL
+RAGGLDPDVYQGFAWGMGLDRIAMLKYGMPDLRDFFNADARWLSHYGFRPLDMPTLFGGL
+SQ
+>tr|A0A1Q9AKQ0|A0A1Q9AKQ0_9RHIZ
+MTVEALYASLGLSMPELILAIGALALLMVGVFLGEKATGLVNWLAIGVIALAGIVLVSMS
+GSGVAYGGAFLADPFARFMKVLTLLGSAIALFMTVGQAKLYNMNRFEYPVLILLATLGMM
+LMVSANNMMSLYMALELQSLAAYVVAAMNRDDVRSTEAGLKYFVLGALSSGMLLYGISLV
+YGFTGQTGFPEIAAFLSAGGRSLGVIFGLVFILAGVAFKISAVPFHMWTPDVYQGAPTPV
+TTFLASAPKVAAIAMIVRVVIIAFQPVTPDWQQVIVFISIASMLLGSFAAIGQKNIKRLM
+AYSSIGHMGYALVGLAAGSLQGIQGVILYMTIYMIMTLGAFACILAMRRPDGEHVENVSD
+LAGLSQTNPFMAVILTALMFSLAGIPPLAGFFAKYFVFLAAIEAKLYALAIIGVLASVVG
+AYYYLRVVKLMWFDDAKGSFARPEMALRLVYSLSGLFLIGYVLIGGPLGAAAEAAARTFF
+>tr|A0A1Q9AL80|A0A1Q9AL80_9RHIZ
+MTFESDVKSTPAERAHPLLKMALELGPMLIFFFANLRGPWLIEKVPALAVLGGPLLVATG
+LFMAATVISLVVSKILLGHLPIMPFVSGIVVVIFGTLSIWLQNETFIKMKPTIVNTLFGA
+VLLGGLLFGRSLLGYVFNAAFQLDEEGWRKLTLRWGLFFLVLAVMNEVVWRNFSDDFWVA
+FKVWGTMPITIAFTLAQMPLIMRHSLTPPEKSENGKDGETR
+>tr|A0A1Q9AL27|A0A1Q9AL27_9RHIZ
+MAVEATIGWLSKRTGVKVPTIRYYEQVGLLPEAARSDGGQRLYGPAEADRLAFIRHAREL
+GFDLKAIRTLLSLQDRPQQTCHEADAIARARLKEVEQRIANLQALKAELERMVEACAHGS
+VAQCKVIETLAARDHTHGPLADY
+>tr|A0A1Q9APR8|A0A1Q9APR8_9RHIZ
+MMERKLVGRRASSKLPELIELVMARPLVHTGTIAKALEVTPEAALRIFEELGLREMTRRG
+RFRAWGALNPNGLHGPARLSVGLSFE
+>tr|A0A1Q9AK18|A0A1Q9AK18_9RHIZ
+MTVNTVNTKDAAVGVPAFPKPVTPAHIIRDDAEAIAVARQLASEIAPGAAARDRDRIWPF
+KELDAFSQSGLWSINVPKAFGGPEVSYATLAKVIEIVSAADSSIGQIAQNHLGVVAAIRT
+VSDEAQQRLLFGEVLKGVRFGNAFSEFGSKRAVDFETRFIDDGDHVIVKGQKFYSSGALL
+AHLVPIVALDDQGRAWYAIAERDAPGLTVIDDWSSFGQRTTLSGTVILDNVRVPKTHLVP
+GYKGYEVPTADGAIFQIIQVAVDTGIAQAAIDETIAFVRSKSRAWVDSGLEHAWQDPYTI
+QAIGDLTLRLHAAQALLEKAGHAIDRAILDPNAETVAEAQIVTAQAKVLSTEIAIAATNK
+LFELAGTRSTLAEHQLDRHWRNARTHTLHDPVRWKYAILGNYFLNGEKPPLHAWS
+>tr|A0A1Q9AE48|A0A1Q9AE48_9RHIZ
+MKTLLSLCMPSNRSFARSYGSIETALIFAEKTGCRLIVSDNSRDAQKSAYWIGRSENLLY
+LADAPLDANQNLLNGMRRADTPFLLMLGDDDEIFLRDDLSPISLEGLPADIVGVRPELLL
+WTSAGGVRHSETFEILAQDPEARFAEYNAKAMANNSLYYSLWRREAFCAIIEAIQTHPTK
+GGYIDWAIVFALVSIGRVVHDPSILLRYDWDRWSTDEGIDAANTSLYSGASLKNIDTAIS
+VLLRFLDIHCFLQLIALPMSPDEREAASRANSKLHFCAFAMLLQSHEGLMAHPLAPVILA
+VAHVPEPEVTFDVACDLLDNWDLGKPGLGTLYRDYLEAMRAA
+>tr|A0A1Q9AIP5|A0A1Q9AIP5_9RHIZ
+MKDIDWDHYRCFLLVAKNGGLSGAAAALGISAPTLGRRMLKLEERLGRALFTRSQTGYRL
+TQHGQELMEELQAMEAVARKVEGWKTEGEGKAVVRITLGTWIARLLSNHIGDLVLPGENI
+RVEMTIGEVRASLNYRQSDIGIRAVEPEEGYLIARPAGRVAYAAYRRRKAEWGGQRWIAV
+DAQTANSPYLRYPHDMAPEAIVATVNRPHALLDLVRAGAGQALLPCIVGDAEDGLERVGD
+LVASLTHQQWIVTNSEDRHRRAIRLVARRMGAVLDRHRDHLAGHHPRMAPAVVPQG
+>tr|A0A1Q9AGD9|A0A1Q9AGD9_9RHIZ
+MSGAAASQGFTLTPLSFADLPGWGEDDPRAVLAAMERCRHHIETVKPHRTGALGISSAEL
+LPAFRAAASLEAETPEAARQWIEAQFRPFCIRPEGAADGFVTAFYEPVVAVSATPDEEFR
+HPFYRRPEDLVDVTDEIRPHGFDPAFAFALATPEGLTEHPDRGAIERGALAGRGLEIAYA
+RSKVDVFFAHVQGAARLLYPDGSMRRITYAAKTGHPFSPIGKRLIERGEIAPAEISMQAI
+RAWLENHPQEADALMWTNRSFIFFREAAVDNPDLGPIAAAKVALEPGRSLAVDRLIHTFG
+TPFYIASETLTRLDAGQPFRRLMLALDTGSAIIGPARGDIFTGSGDEAGELAGAVRHAAS
+FFLLIPVDAAARYGHGHG
+>tr|A0A1Q9AML4|A0A1Q9AML4_9RHIZ
+MITVQSIIDSIEAHCHARGIAETTFGKRAVNDGKLLARLRAGKSISIDTYNRIQEVLQSD
+TREAAE
+>tr|A0A1Q9ANH3|A0A1Q9ANH3_9RHIZ
+MRARWLARLVLALLHRGLTRAPDFIIGGWDRPYMLRWFVIPRNRFFNIYHHHIRRSDDDR
+ALHDHPWWSLSLVLEGEMVEVLSADGLTRRALSAGDIVLRNADSAHRLELPEGGACKTLF
+LTGPKIRDWGFHCPKGWKHWRDFVAADDAGSVGPGCDP
+>tr|A0A1Q9AIG1|A0A1Q9AIG1_9RHIZ
+MDHNDRQTIDGLFNRLAEAERQAGPMDKEADSFIHDKIARQPAAPYLMAQTIVVQEQALA
+MAEQRIAELEHQASQAQQAPAGGGGFFSSLFGGASAARTAPPRSPAQGGANPWSNQPGRQ
+TAYGQPQGYGQGMQGQPQGAWGQAQPAQRAGGGFMAGAAQTAMGVAGGMLLGSAISSMFS
+DPAQAAEAAAGDALQETGLQDARMEDMGDFGGGDDMEV
+>tr|A0A1Q9AQA6|A0A1Q9AQA6_9RHIZ
+MDEGETGGAAQSVPALRRAVAILDHLAECGEPISAARLTKALGLPKSTAHGLLLVLVELD
+LVARSPEGLLRPGPRSLRWSNAFLAQSDLVEAFRRQVAADEHLSDHSVTLSVLDGADVVY
+LACRNGAAPLGITFRIGMRLSAPFTATGKAMFAAMTEADVRRAFPSRWPDPLTPRSVASL
+DAFLKELEATRQRGHSVDDGQVRLGMACVGAAVRDAQGLPVAGVALSFLEAEASAAVLDR
+FGNRLRAIAEALSRSLGWRG
+>tr|A0A1Q9AMS6|A0A1Q9AMS6_9RHIZ
+MHCSCPGGRGAGLAFAVEQAYINADYRTIAFIMHPAAPFTRETTMTETTAGAPSVATACA
+QRYFHGPIFAVAPMIDWTICRK
+>tr|A0A1Q9ACW8|A0A1Q9ACW8_9RHIZ
+MVQSIGINTKGALYANGYKNSSLIINSLNYIGVTQVRDAIAGQAQGAPVLHAMAAAGIQF
+NFMTSYGVAANGAAGIADFLSALKSFQTSNPGALLSIEGLNEADLTSASYNGLTSLEAAA
+AFQKDLYTAIKADPALSATTVLNLNLGYDNTSNYARIGDLGAYSDAANAHIYTHTGRANN
+DPVMESIVSHAKSASSGDPLIVTEMGHTTLQSFQGIGTNEAAQAKMMLTDLFMAFEDGAS
+AVYLYELLDNSDSLYRGESEVYFGIFKEDGTPKLAATALHNLTTILKFGADGVADGTVPA
+VPTLSNAPSTAHLMTLDKPGAVYDILIWNDTPVWNQNTQKDITPVTTQTVLQFSQVESVI
+RVYDPLSGLEPIATYNNVSSISLPLSDHPLVVEVGAAAAVTETALVSNANLSLTAAQLMA
+RIDSLAASSGLTSITLTDSHALPVSTVETMNYMISNYGSTLAKIAGGYSFTVSYGENNWE
+TVKEYDAQGTLTLKTDYGYSNGDLVTKTTLHPDGTADVYSYKITGQTYTSLHQVSDASGK
+ITLIERMHADGTFDSRELHNTDGSNEYYTYDTAGRLIKNSVTAQDGTITASNYDTAGKLI
+WQGIKEVDGDLTSTNYSAGVKTSTTITSHEGWTDTFNYLPDGSLSSDYRKNADGSVVSTT
+YVNGAVKTKSIQSVDGSIDNMTYGITGKTYTTEHSQTNASGKITLVERMHADGTFDTREL
+HNSDGSNEYYVYDTDGRLSQSSVTAQDGTVTASKYDTAGKLTWQGVKETDGDLTTTTYSA
+GVKTSTTITSHEGWTEQMNYLSDGTLSSDYRKNADGSSVTTTYSNGVVKTKAFVAADSSI
+DYTVYGITGKTYTIEHSKIDTSGKTTLIERMHDDGTFDYRELRNADGTKQTLTYTATGIL
+TADTFYNTDGSRIWKSYKQDGTGDIQTEVFNAAGTSMKRDILHTSGKHDLYAFVDGQTLS
+GGAADDTFRFSTTKNATMIYQGGNDILYGFNTDGGAADHVAINKSWAADFASLNMVQQGS
+DVLIRFDAADTLLVKQQKVAALTSDYFIFS
+>tr|A0A1Q9ANI7|A0A1Q9ANI7_9RHIZ
+MTAFMLVGMLGAVGLGVDVSQAVSIKHELQGAADAAALAVLSTQSSTAKQAMQAQDGNMA
+QAEADAGRVFNANAGKKTYIVTRKVSVVKQNGILTATVNFTATVPTTFSRILGQPVIEVK
+GKAIAQTSTAAYRDFYMLLDNTPSMGLGATNADIAKMRDLDNCVFACHVVKGGVVQPSDT
+YGDARAAGITTRIDMVARAAASLMDTAKQARLVPDQFRVALYTFGPDASKRGLTEISPLT
+DDLDSVKPKATTIDLMSVPNSSYDDDQMTDFDRRIGDVGKVMSESAKGASGTGRTADDPE
+KILFFVTDGVNDANKPNGCSQPLHRATRCQEPIATSVCNNLKQAGFRIAILYTTYLKMKT
+DDGWYEKWIQPFDPQISPALKACASPSLFFEVSPSAGIDEAMKALFFQAINTPRLVG
+>tr|A0A1Q9APV2|A0A1Q9APV2_9RHIZ
+MSSDHRPLIVVPGRMHPRVLARLPGDFEMVQLDAADPALVTPDLAARAAGIATTNRLPAN
+FLAAFETVEIVANFSVGYDGIDVDAAAARGVVVTNTPDVLNEEVADTAIALLLNSLRRFP
+AAEAYLRAGHWAEKGPFPLTPLSLRDRTVGIYGLGRIGQAIAKRLEGFGVPIGYHTRSKR
+EDVAYTYYPSLKAMAEEVDTLISIVPGSDETRHTLNAEIFQALGPRGVVINVGRGSTLDE
+AALAAALKDGTIAAAGLDVFENEPHVPEALIALENATLLPHVASASEDTRNAMADLVVDN
+LKSWFATGAALTPVPETPFRRKG
+>tr|A0A1Q9AKL5|A0A1Q9AKL5_9RHIZ
+MEIGISHYLTVSAILFTLGIFGIFLNRKNIIVILMSVELILLAVNINMVAFSAFLNDLTG
+QVFALFILTVAAAEAAIGLAILVVFYRNRGSIAVEDVNMMKG
+>tr|A0A1Q9ADJ1|A0A1Q9ADJ1_9RHIZ
+MASSRPLLLAFPPAGAGAGLFRSWVGAAPPAMAVHPVSLPGREARFSEPLPISIEALADQ
+LAGELRPLLTGPYAILGYSMGALLGYETARRFQVQGLGAPEAFFALGCNAPDRMVLDRDP
+FHDMEPAAFRQALIDLGGMPLEILDNPEAMAVFEPVLRNDFRICETYRHDASRGVLRCPA
+HLLLCRDDAFVREPAAIAWSDFVTGGLTLDWIDGGHMIAGPVFDALPELVARRWLERAQD
+AQAGARKARWR
+>tr|A0A1Q9AL03|A0A1Q9AL03_9RHIZ
+MSTFERYLSLWVALCIVVGIALGHLMPGVFQAVGEAEVAKVNLPVAVLIWLMIIPMLLKI
+DFAALGQVGRHWRGIGVTLFINWAVKPFSMALLGWLFIGWLFRPYLPETQIDSYIAGLII
+LAAAPCTAMVFVWSNLTRGEPHFTLSQVALNDAIMVVAFAPIVGLLLGLSAITVPWDTLI
+LSVVLYIVLPVIVAQVLRCMTHAERLAARLQPVSLVALLATLVLLFGFQGEQIIAQPAVI
+ALLAVPILIQVYFNSGLAYLLNRISGEEHCVAGPSALIGASNFFELAVAAAISLFGFTSG
+AALATVVGVLVEVPVMLSVVWIVNRSKGWYERGAAVRPGTSAIRKA
+>tr|A0A1Q9ALS5|A0A1Q9ALS5_9RHIZ
+MALCEASFSRGSATRRFGYPLVDGIDGNIVQFEATAITFHDFAILLILRLCHRVEEVLGR
+RVPVAVEEARL
+>tr|A0A1Q9AQK5|A0A1Q9AQK5_9RHIZ
+MSRKLLFVSGFFMCLSWALEDRSEQHNDYEAQDLVDHLLAWTKRPPLQSLADIVERYAPH
+LASEVFDNYDKFLAILDSEPSRNRLQDLSPEAAYEDKIFLEAREIAIRFDAALTELLFRA
+NPTVTKLVEKYGVF
+>tr|A0A1Q9AK19|A0A1Q9AK19_9RHIZ
+MASIALSRVGKSFGTVSVLNEVDLAIEDGEFIVLVGPSGCGKSTLLRMIAGLEEITTGTL
+TIDGERVNERRPKDRDIAMVFQSYALYPHMSVADNMSYSLRLRRRSKEIIAQAVSAASAK
+LGLDPYLERRPKALSGGQRQRVAMGRAIVRKPKAFLFDEPLSNLDARLREQMRAEIKRMH
+GELGATSVYVTHDQIEAMTLASRIVAMNAGAVQQIGAPLDLYDRPANLFVAGFIGSPGMN
+FLEGRCEQGADTSAVVLPKGFRLPLPLRIPAADGEKVTLGIRPEHVTVDAQQGEIEAAVE
+LVEPTGLGVILHLLVHGEPFKLFSTDRALIRSGARLRIGLPRERLHLFDQAGNRMAAL
+>tr|A0A1Q9ADF8|A0A1Q9ADF8_9RHIZ
+MTMTHLYDIFELRLTAEVPGNPYLDVRLHAQFRQGNRSVRVTGFHDGGDSFVLRFMPDTA
+GEWSYTTTSNIEALDGRTGELTVTAARPGVHGPVHVRNRFHFAHADGTPYHPFGTTCYAW
+THQPIAQQEQTLETLAKTGFNKIRMAVFPKDYPFNTNEPLQPIFLPDSQGTIDFDRPNPE
+AFRHLERQIGRLAELGIEADIILFHPYDRWGYATMSEAQNLRYVEYVAARLSAHRNVWWA
+LANEYDFLLDTIPVETWDRFCHILEENDPAQHLRSIHNGDQNMNFDHRKPWITHVCIQNW
+DVKRTPEWRAAYGKPVVNDEPEYEGNIIYNWGNITAQELVHRFWTTVMRGGYAGHGETYA
+DPQDLIWWAKGGVLHGESWKRIGFLRSLLTADNLHGLEPMGMNDEWPWSRISGARDLGGR
+VSFIYFGEHQPDQWTTGLPTEDGAYAIDLIDTWAMTIEPARRIEAFVPHPQRHGSITRGG
+KADAAFGIALPGRPYLALRIRKLD
+>tr|A0A1Q9APU1|A0A1Q9APU1_9RHIZ
+MTASAPETQKPIPVTVLTGYLGAGKTTLLNRILTENHGRKYAVIVNEFGEIGIDNDLIVE
+SDEEIYEMNNGCICCTVRGDLIRVVEGLMRRPGRFDAIIVETTGLADPVPVAQTFFMDDD
+VRAKTELDAVVALVDAKHLPLRLKDSREAEDQIAFADVVLLNKTDLVTPEELARIEATVR
+VINPSARIYRTERSNIDLSRVLDQGAFSLERALENDPHFLDEGAHEHDHVCGPDCDHDHH
+HQGHDHHHHDHDHHDHDHDHGHDHDHGHHHHDAPSPLHDVTVQSISLRGGEMVPDRFFPW
+IQKVTQTMGPNILRLKGIIAFAGDEQRYVVQGVHMIIEGDHQRPWKDGEKHESRLVFIGR
+DLDREKIEKSFKACEAQTN
+>tr|A0A1Q9AFA7|A0A1Q9AFA7_9RHIZ
+MTRIATWFALSLAALAASCQSAPQEVYRPVYGSAAPVAPAGVEGSWVDPNGIVSTFSGGT
+FSTRTTDTNQLLASGNYTNVTPQLVEINMTSMVRKTQSKVNCALATPSQLNCTTDSGSQF
+SLTRRG
+>tr|A0A1Q9AMH0|A0A1Q9AMH0_9RHIZ
+MKILMDAPLRLPPYAGQKNRQAVVLPFAGQTSLPRGCDHPMPQRDAGSEGRAQRLVWRSL
+WASLRQGLRRRAERQALARQLRRLPDHLLADLGIDAEGNHNEIR
+>tr|A0A1Q9APG7|A0A1Q9APG7_9RHIZ
+MYEFAIAWEWLTFAVRWLHVVTAIAWIGSSFYFIALDLGLVKRPHLPPGAYGEEWQVHGG
+GFYHIQKYLVAPASMPEHLTWFKWESYATWLSGFAMLCLVYYGGADLFLIDRHVLDISAP
+VAILISLASLSIGWICYDLLCKSPLGKNTWALMGLLYVVLVAMAWGYTQLFTGRAAFLHL
+GAFTATIMSANVFFIIMPNQRIVVADLIAGRTPDPKYGQIAKQRSLHNNYLTLPVIFFML
+SNHYPLAFATAYNWVIAALVFLMGVTIRHWFNTTHARKGRPTWTWLVTLILFILIMWLST
+VPRATAPGEAAETVAPAFQRFADNAHFPAVKETISTRCSMCHAAEPVYEGLARPPKNVRF
+DTDAEIAAHAREIYLQAGRAHAMPPGNLTDMTEKERALLTAWFESAVKTR
+>tr|A0A1Q9AD74|A0A1Q9AD74_9RHIZ
+MARVELQDLRKSYAALEVLHGINVTIEDGEFLALVGPSGCGKSTLLRTIAGLESISAGEI
+RVDGRAINDLAPRDRDIAMVFQNYALYPHMTVAANMGFALKLAGMPAAEIDKRVTSAAAI
+LDLERYLARKPVALSGGQRQRVAMGRAIVRAPKVFLFDEPLSNLDAKLRVSMRAEIRDLQ
+KRLQTTTVYVTHDQVEAMTMADKIVVLNGGKVEQVGHPLELYRKPANLFVATFIGSPQMN
+LITGALAAGMQATTIGVRPEHLRVVTDGGHGWTGTVASAEYLGSDTYLSVDVPEAGRLQV
+RADGAVDLRPGDRAVLAPMIEHVHRFDGNGKAI
+>tr|A0A1Q9AGI9|A0A1Q9AGI9_9RHIZ
+MSRIDQNGLQIDSGLYAFLTQEALPGTGVDPDRFFAAFAEILRDLAPENRALLAKRDALQ
+ARIDAWHRENGAPSDLEAYRAFLTEIGYLLPEGPDFTVSTGNVDPEIATIAGPQLVVPVM
+NARYALNAANARWGSLYDALYGTDAIAEEGGAEKTAGYNEARGCKVIAWVRAFLDDSAPL
+AGASWTSVRKLSVAGGALAVETEAGPVGLADPAQFAGHRGIASSPSHILLKKNGLHLQIV
+LDGSTPIGAADAAGIADVVLESAITAIMDCEDSVAAVDAEDKTLIYRNWLGLMRGDLTEE
+VSKGGKSFTRRLNPDLTFMAPDGGELWLKGRALMLVRNVGHLMTNPAILDAEGQEVPEGI
+MDAMITSLIALHDIGPGGHKMNSHAGSVYIVKPKMHGPEEVAFANKLFGRVEAALGMAEN
+TLKMGIMDEERRTTVNLKECIRAASARVVFINTGFLDRTGDEIHTSMEAGPMIRKGDMKQ
+AAWIAAYENWNVDIGLSCGLSGHAQIGKGMWAMPDLMAAMLEQKIAHPKAGANTAWVPSP
+TAATLHATHYHKVDVAAVQQGLTTRPRARLDDILSVPVAVRPNWTAEEIQRELDNNAQGI
+LGYVVRWVDQGVGCSKVPDINNVGLMEDRATLRISAQHMANWLHHGVVKPEQVTETMQRM
+AAVVDGQNAGDPHYLPMAGHFDSSIAFQAAMDLVFKGREQPNGYTEPVLHRRRRELKAAH
+GE
+>tr|A0A1Q9AE89|A0A1Q9AE89_9RHIZ
+MLLAVLSMPVVACASSGGERDLARVSGDSTGAAGRPADPAALTRQALRAAPPADLKFSAE
+RGDPKAVPGGPDPAILPCPSRIARSGMIACRLAAAQDSLREAADASAYRSRAPPRQPA
+>tr|A0A1Q9AGR3|A0A1Q9AGR3_9RHIZ
+MNQLIRNTALATVLFLGAGAAHAEWPADRPIEFIVAYAPGGGTDVMNRTLAPYIEKELGA
+KITILNRPGASGEIAYTAMTQARPDGYTVSSLNTPGYLTMQMDRKVRFDPKKLCLVARVV
+EDPGSFIVQASSKFNTLKDLVAYAKENPGAVTVGTTGLGTDEHLAMLQLEKAAGIDLTAV
+TFNGANEARTALLGGHVDTIGINVGEFVGNDHSAFKNLGQFAEERASIAPDLPTAKEQGL
+EVLMSSERGIAMSCDVPEEIRNRFSSAVEKALENPEFQAKAKQMSLAISYRSAEAWNKEL
+PVRAERLGAIWKLAKEQK
+>tr|A0A1Q9AIU3|A0A1Q9AIU3_9RHIZ
+MTETSAAERVRAEMVELIPALRSFARRLDRRPANVDDLVQETLARALANLDKFREGTNLK
+SWLFTILRNTFCTKFGLAKREVVGMEECVSSRATVNSPQEWSVRASEFQRAFDKLPDRYR
+DAVDIILIQGQSYEAAAEHCGCPVGTIKSRVNRARAQLAVQLDEPAILN
+>tr|A0A1Q9AEX6|A0A1Q9AEX6_9RHIZ
+MRGLAVMVPALLMALPLQAEEPAAGRYRMERGERGLIRLDTATGEVSLCRENGETVTCRM
+AADERAAFERELDDLTRRVEALEKAERQAPPPRPSANLPTDAEIDRSIGIMERWMRSFFD
+MVQSFENRSGENRSGENRSGAPSGSGEESGSLPDKT
+>tr|A0A1Q9AMJ1|A0A1Q9AMJ1_9RHIZ
+MQAISFQLYSARNFQPFSEVFKTIAAAGYTQVEGYGALYAELDDQALSAFKADLDANGLT
+MPSAHFSLAMLETNPARAVEIAKAIGIEAVFCPHIMPEDRPTDAQGWHDFGKRLEAAGAP
+LVEAGHSFGWHNHDFEFVALPTGEIPMELIFQGGPSLRWEADIAWVVRGGGDPFDWIDRY
+GSRISAVHVKDIAPAGEAADEDGWADVGHGTVDWPRLFPILEATPAKYFVVEHDNPKDLQ
+RFANRSIASIRTYG
+>tr|A0A1Q9ALS9|A0A1Q9ALS9_9RHIZ
+MRYNATEKLDETSLPAKALKLALSKLDKPYVLTPSPVGYPTQSGLINALSTGGEIDICWV
+GVERNAWDATLPVPFPIDGGLLGYRLFLINSDRQPDFSGVKSIDALRNFVAIQGPGWGDI
+DILRNAGLTVRTGLYKNLFRMTVGGRADYFPRAAYEAVDEYKQYVGDVPKLAVEQDLILK
+YKFTMMFFVSKKKPELRDDIMKGLAKAHSDGSYQAMFQSDDNVATALSQGNLGQRTLIEI
+ENPKLPSEVNAIDKRYWFSV
+>tr|A0A1Q9AF78|A0A1Q9AF78_9RHIZ
+MLRRTFFQMAGAATGMAALAAAPAEARVEININRGNVEPMPIAVSDFLQGDLGRKISDVV
+AADLKRSGLFAPINRSAFIEKISNPDAPPRFEDWKVINAQALVTGRVTQEGDGRLKAEFR
+LWDVFSNQQMTGQQFFTQPENWRRVAHIIADAIYERITGEKGYFDTRIVYVAESGPKTAR
+KRQLAIMDQDGFNSRALTNSNDIVLTPRFSPNKQEITYMSFEGQQPRVYLLQLETGQREV
+VGNFPGMTFSPRFSPDGQRVIMSLQQDGNANIYTMDLRSRTTTRLTSTAAIDTSPSYAPD
+GGRIVFESDRGGRQQLYVMSANGAGQTRISFGDGSYSTPVWSPRGDLIAFTKQSGGKFSI
+GVMKPDGSGERILTTGFHNEGPTWAPNGRVIMFFRQNAGAGGPQLYSIDLTGYNEQLIPT
+QGFASDPAWSPLLE
+>tr|A0A1Q9AHB1|A0A1Q9AHB1_9RHIZ
+MAAIGEFTTNGNTIVGNVRTLTVSMKARLIPIERTSRDAPDFRIMAGAAEVGAGWNKVSG
+DEEAYISVSLDDPSFNAPINAALWPSEREGDYSLVWNRPKREA
+>tr|A0A1Q9AQA5|A0A1Q9AQA5_9RHIZ
+MSKSNFTEEFKRDAVRQITERGYPVAEVSQRLGVSQHSLYEWKKKFAASNAKGNDETEEI
+RRLKKELARVIEERDILKKAAAYFARDAK
+>tr|A0A1Q9ALG1|A0A1Q9ALG1_9RHIZ
+MSRGNQAALDGRSDRFVLSAFVWRQVVALLGYGLFGLLALAVAALSTWNVADPSFSYATP
+EPATNILGKSGAIFADLAMQFFGIGSVLALLPVVAWALVLIVGKPFDKHLKRLGAWFVGS
+TLAAAAMSCVPAPVTWPLPNGLGGVFGDMILRLPALLTGAYPTGTLAAVLGSILALPATA
+FLAFSAGLFGVEATREEAPAAALPSKARTVRETIEDDDDGPGGFGLLFVGALAHMRYTLQ
+ARMRLIFGGKPGRMAVETDDTYDFNGDEFGRLNEPPRRKSATRVEPSLGLGERREPAVFD
+EDDDEDDADDDRIVGQGSPRRGPSGEEARPGRVAAPAARPKISRNLEMRPQEDGSFTLPP
+LEFLAEPKNPTRDLTLSADALEQNARMLEGVLEDFGVKGEIIHVRPGPVVTLYELEPAPG
+IKSSRVIGLADDIARSMSAIAARVAVVPGRNAIGIELPNQRREMVFLRELVASRDFAESK
+ARLAMALGKTIGGEAVIADLAKMPHLLVAGTTGSGKSVAINTMVLSLLYRMTPDQCRLIM
+IDPKMLELSVYDGIPHLLSPVVTDPKKAVVALKWTVREMEERYKKMSKIGVRNIDGFNSR
+VEQALERGEAITRTVQTGFDRQTGEAMYETEEFDLQPMPYIVVIIDEMADLMMVAGKDIE
+GAVQRLAQMARAAGIHVIMATQRPSVDVITGTIKANFPTRISFQVTSKIDSRTILGEQGA
+EQLLGQGDMLYMAGGGRIQRVHGPFVSDTEVEEIVAYLKTQGSPQYLDAVTEDDDEDGEG
+PVGTGNLGESDDPYDQAVAVVLRDGKASTSYVQRRLGIGYNRAASLIERMEQEGIIGPAN
+HAGKREILVPTESDT
+>tr|A0A1Q9AJ38|A0A1Q9AJ38_9RHIZ
+MDLNAPSFQTFRHDGLDLSFFDKGDPAGPPVLLIHGFASSALVNWVFPGWLKTLGDAGYR
+VIALDNRGHGRSAKPHDPALYHPPAMAADARALLDHLGITSATLMGYSMGARISAFLARE
+TPERVRALVLGGLGIGMVEGVGDWDPIADALLAPSLEEVSHERGRMFRAFADQTKSDRQA
+LAACISTSRDLLSVEDMGRIAAPTLVAVGTRDDIGGSPQALAALMPNATALDIPNRDHML
+AVGDRVFKAAVLAFLEQHAGH
+>tr|A0A1Q9AJ48|A0A1Q9AJ48_9RHIZ
+MRALVVVPVIKKTGRGAAEAAVSVSTRSDESRLEEAKGLAIAIDLTVVEGLIVPVAQPKP
+GTLLGSGKIEEIGHLLSEHNAGLVIMDHPLTPVQQRNLEKEWNAKVIDRTGLILEIFGRR
+ASTKEGTLQVDLAHLNYQKGRLVRSWTHLERQRGGAGFMGGPGETQIEADRRLLQDRIVR
+LERELEQVRRTRQLHRAKRKKVPHPIVALVGYTNAGKSTLFNRITGAGVLAEDMLFATLD
+PTLRRMKLPHGRTVILSDTVGFISDLPTHLVAAFRATLEEVLEADLILHVRDMSDPDTAA
+QASDVLRILADLGIDEAARKERLVEVWNKIDRLEPEAHDALKEKATHTEGVMALSAITGE
+GVDALIDLVNDRLSGVMTEGSVTIPVDRLHLLPWIYEHAHVEEREDLEDGAVRLELRLSA
+SDSIDLERRLGLAPKLDDSENW
+>tr|A0A1Q9AGY6|A0A1Q9AGY6_9RHIZ
+MSSVLTKTKPSRAIAPQSWLDTIIKGDCVAALEALPDHSVDMIFADPPYNLQLGGALHRP
+DQSLVDAVDDEWDQFASFEAYDAFTRAWLLACRRVLKPTGTLWVIGSYHNIFRVGATLQD
+LHFWILNDIVWRKTNPMPNFKGRRFQNAHETLIWAAPNAKHKGYTFNYDALKAANDDVQM
+RSDWLFPICSGSERLKDENGQKAHPTQKPEALLARILMASTKPGDIVLDPFFGSGTTGAV
+AKRLGRHFVGVEREQAYIDAATRRIAAVEPLGKATLSVLTGKKAEPRVAFNVLVESDMIK
+PGTVLTDARRRHSAIVRADGTLASGGEAGSIHRLGARVQGLDACNGWTFWHYEDEGALKP
+IDVLRAKVRAGLEKLA
+>tr|A0A1Q9AL17|A0A1Q9AL17_9RHIZ
+MAPKGSSRVISKVVAENRKARFNYEIIDTYEAGLVLTGTEVKSLREGKANIAESYATDED
+GEMWLINAYLPEYLQANRFNHAPRRRRKLLLSKREINKLQGAVNREGMSLIPLKIYFNER
+GRAKLELALGKGKKLHDKRESEKERDWNRQKSRLLKEH
+>tr|A0A1Q9AJP8|A0A1Q9AJP8_9RHIZ
+MERAEKREFVTELNEVFKASGSVVVARYAGVTVAQMNDFRSKMRAAGGTVKVAKNRLAKI
+ALQGTESEGITDLFKGQTLIAYSTDPITAPKVVMDFVKGNDKIVVLGGAMGTTTLDAEGV
+KSLATLPSLDELRAKLLGMIQTPATRIAGVVQAPAAQLARVFAAYAKKDEAA
+>tr|A0A1Q9AI16|A0A1Q9AI16_9RHIZ
+MQHDIQSLTARGLKLHDKLGMLDNAERSLVLPYVACLELFLDDVCPKPAVEIETSNIVSF
+EDVTSRRVQRAEIAQRRTTAEPRRGVNVFGDDIWSDYD
+>tr|A0A1Q9AML7|A0A1Q9AML7_9RHIZ
+MTLPERLPGHSSRGRLERVLRRGEFAVTAELNPPDSADPEEVYERAAIFEGWVDGINAVD
+ASGANCHMSSVGICALLTRMGYAPIMQIACRDRNRIAIQGDVLGASAMGVSNILCLTGDG
+VQAGDQPGAKPVFDLDCMSLLETIRTMRDQSKFLSGRKLSAPPEVFLGAAINPFAPPYDF
+RPYRLAKKIAAGAQFVQSQYCFDVPMLKRYMDTVRALGLHEQCFILIGVGPMASARTARW
+MRANVPGVHIPDTIIARLEGAADQRAEGKRICIDIINEVKEIPGIAGIHVMAYRQEEYVA
+EIVHESGVLKGRRPWRREPAGDEDRLRERLDGLEHDAVERPTDRAAEAANVAPQR
+>tr|A0A1Q9AKL1|A0A1Q9AKL1_9RHIZ
+MPIFSVIAIYFVIWWLTLFVVLPVGLRTQAEEQDVVRGSTESAPARFSAWKVFGATTLLA
+ALIQLGFTILSDVYGIGIDSIPRFAPTFY
+>tr|A0A1Q9AFU0|A0A1Q9AFU0_9RHIZ
+MLQKGQDVAEYDLEAVVHDTQEGKKQELRLWLRLLSTTKLISQEIRRRLRREFGATLPQF
+DILSQLYRENDGLRLGELSKRTMVTNGNITGLVERLETEGLLVRERLPDDRRVIVACLTD
+KGRTTFQAMAEAHENWLKDMMADVDPIVISGLLTHVGQVKQSTSNHLSGDGDED
+>tr|A0A1Q9AFG4|A0A1Q9AFG4_9RHIZ
+MEQVGLAATTDVTLWSLFMQAGLIVKLVMLGLMGASVWTWAIIVDKSLRFARARKQADSF
+EQIFWSGQSLEELYRTLSDRNPTGMAAIFVSAMREWKKSFERGARSPIGLQMRIDKAMDV
+TLAREAEGLEARLGSLATIGSAGPFIGLFGTVVGIMTSFQAIAGSKSTNLAVVAPGIAEA
+LLATAIGLVAAIPAVIAYNKFTADAGKMTARMEGFADEFSAILSRQIDEKLQPRQAAQ
+>tr|A0A1Q9AK80|A0A1Q9AK80_9RHIZ
+MTEAFLCAYIRTPIGRFGGSLASVRADDLGAVPLKALMALYPTVDFEAVEDVIYGCANQA
+GEDNRNVARMSLLLAGLPVSVTGTTINRLCGSGMDAVITAARAIKSGEAELMIAGGVESM
+SRAPFVLPKAETAFSRHAEIHDTTIGWRFVNPLMKKQYGVDSMPETGDNVAIDFQIARED
+QDAFAVRSQAKAAAAQASGRLAKEITPVSVAQKKGDPILVERDEHPRATSIEALAKLKPV
+NKIEGGTVTAGNASGVNDGAAALIIASEAAAKKHGLTPIARILGGATAGVAPRIMGFGPA
+PASKRLMARLGMTQEQFDVIELNEAFASQGLATLRDLGIADDDPRVNINGGAIALGHPLG
+MSGARITGTAALELALSGGRYALSTMCIGVGQGIAIALERV
+>tr|A0A1Q9APP6|A0A1Q9APP6_9RHIZ
+MSEAVRLEESWKAALSQEFTSPYMTALKEFLQAEKQAGKQIFPRGAEYFRALDLTPLDAV
+KVVILGQDPYHGEGQAHGLSFSVRPGVRIPPSLVNIYKEMESDLGIPPARHGFLEHWARQ
+GVLLLNSVLTVERASAASHQGKGWERFTDAVIRAVNSLPHPVVFILWGSYAQKKAGFVDR
+ERHLVLRSAHPSPLSAHNGFFGTRPFSKANDFLVAHEQTPIDWRLPEAPASA
+>tr|A0A1Q9AKI4|A0A1Q9AKI4_9RHIZ
+MSDTAMPSLKTRFIPADPARVTFTGGFWDSWTRTVREVTIPTQHRRLEEEGFLEVLDFGK
+PPGPLARPIQPSGLSMQHFFDSDFGKWIEAASYTLKTHPNPEIEAKIDAIVEKLEQGQMA
+DGYLNSWFIRREPDKRWTNLRDLHEMYSMGHLLEGAVAYFQATGKRRFLDVMIRAVDHII
+DTFGPEPGKLRGYDAHEEIELALVKLYRVTRDPRHLALATFFIDERGQMPSYYDEEARRR
+GENPADYVYQTYAYSQAHRPVREQNQVVGHAVRAMYLLSAMVDLAHENDDPTLKAACDRL
+FANLVERQLYVTGGLGPSASNEGFTREFDLPNETAYAETCAAVALGFFAHRMAQLDLDAR
+YTDRLETVLYNGALSGISRDGEHYFYENVLESHGQNRRWKWHYCPCCPTNIARMITSLGQ
+YVYSATGDALAVHLYAAGTGELELDGRLVRLTQETRYPWEGDVAIRLTLENPAELTLHLR
+IPGWCRQARLTVNGEAVDLATVTEKGYAAIRRLWANGDEIRLGFDMPVDRLYAHPAVSED
+AGRVALSRGPVVYCVEEVDLGTEPQRLRLPADAPIHAQFEPDLLGGATVLSGEALEAQAA
+DWAGLYRTAPPALKPRRFKAVPYHLWANREAGAMLVWLNEK
+>tr|A0A1Q9AIH8|A0A1Q9AIH8_9RHIZ
+MDALKLMALDDEDLSVVSAHVQDAVFKLEGIAYRPAQGLFTLVVNRFVWEKALRSAKTFE
+RRRAAIGFKRVRAVRSIHLDRADKEAVHVLLAIRFEKAGEGPDGTIELLLAGGATIALDV
+ECIEAQLAETGGVWETASRPRHLLEGHPEQA
+>tr|A0A1Q9ALR0|A0A1Q9ALR0_9RHIZ
+MSSMKLHFLDARGALTDLHDWLHQCLTETYQKAAGLMPLQPLDVVVQTGKRIIPEKGHLG
+YAPLLSQCHLALISSAN
+>tr|A0A1Q9AKH3|A0A1Q9AKH3_9RHIZ
+MSGDFEEEAGITETVARPRRGRNSGLVPILLGSAALCVLAYAAYVSFGHPQSLGADKERE
+EFKTASRSTHLHLDPVEPPDEQDNKLVIAPPPVPVEQPTAQPVIVTAPPVDDTAARLAAE
+EAERARKAEELRQARLRSSMIVVDQGQQGGLPGAFSDPSSPPATGMSADDDPNRRFAAVV
+SAQDVETVRANRNDRIDALIPQGTMIRGVLETAIQSDLPGMVRAVISTDVYSFDGRRILL
+PKGTMLTGEYKSGLARGQTRVLIIWTRALRSDGTSVALGSYGTDDLGRSGLNGAVDKHFI
+ERFGAASMLSLVGGVSSFIAGLNTDGSSAPGSSSSSQMGVNAQTEAQQTVSQTMAEMANM
+ALKDSINIPPTIHVNQGRQIMVFVRRDLDFSALYPDPVKEAIHELRNAPGRPRR
+>tr|A0A1Q9AHV7|A0A1Q9AHV7_9RHIZ
+MSRYDTTPSFEGRIAHHHIVDFIATIGSAPQGTYILAVPPTTEAEVWVAPALTYFRDIRE
+VASNASADLEDAVDAGIKVEPYDINLLTAEGLFAGRTTARCTLYVTEHGHADLRHPSVRM
+ADNLIYIDLDPKLVQKAAADVGRPVTIDEAELLAEMPRRHRRLALVSGRAITESYELHLI
+TLEQEAALKAAGTVTRADKKKTTTERPRSVPTGVGLEDLHGYGEAKGWGLEVARDVMDFV
+NGDIRWDDVDGGILLSGPPGCGKTSFARALATTANCHFVAGSYASWQAHGHQGDMLAAMR
+SAFDEAVRCAPSVLLIDEIDGFMDRARDKENSDYLRNVVNGILELLDGSFDRTGVIVIGA
+TNHPDTVDPAIRRSGRLDRHVKIGLPDAEARLAILRQHLGVGEDFALKAFTHHTEGMSGA
+DLERIARDARRLARRERAELRHTHVAKAFPRREPRTRSELRHIAVHEIGHAVVAAALGAT
+VQEVFVRGDRDPALSAEVAGAAVIAPLAGRRDREWYLDRAAHLLGGLAAETLVFGEHADG
+VVVDLQEATNLVTFALVSVGMGGTLASDGHVDPEALATARMYDPALKRHVDEVLHEQAER
+AREILEAHAEAVEELIELLILRRRLDGAVVADTMTSCAARAPAQLSLTV
+>tr|A0A1Q9AH97|A0A1Q9AH97_9RHIZ
+MDGTVRTDDHALMGAALEQAALALAAGIFPVGAVLAAPDGRVLGRAHKTMASNHLDHAEI
+NLFRSVFVSPYDHQRSDGLTLYTTLEPCIMCFGTLLHLPIARLVYAMPDAYGGCASSRMV
+PSPPRHAAHTVEIIAGIRQDEAQALFRQFLDTTDERYWTSGGAAHFQAAVRGD
+>tr|A0A1Q9AJC1|A0A1Q9AJC1_9RHIZ
+MKTDFSLRDYLSTRRSIPAFQLGEPGPSRDEVEEMLTLASRVPDHGKLAPWRFIVYRGAV
+RAELGERFLELALTSKPDLSEEMIKVERTRLTRAPTVVAVVSRAAPHVKIPEWEQVMSAG
+AVCLNLLMAANALGYSANWLSEWIAFDPAALDLLGVQPEEKVAGFIHIGTAQVPPFERPR
+PELKDIVTWVGEE
+>tr|A0A1Q9APQ9|A0A1Q9APQ9_9RHIZ
+MSDHHTVSQELKARLDFVDFGQRQAEVLAEALPTIVASIGPALERFYGKAATHPHTASFF
+RDRAHVEAAKQRQAQHWQSIASGRFDADYVGRVTAIGKAHARIGLEPRWYIGGYSLILET
+LLKSVIESQLKGFLTRGKAGGLGESVAAVVKAALVDMDYAIAVYLDALREEREQVEAKQA
+AAAREQAVALAALERALSALADGDLTNQIREPLAPQFESLRENFNRALDRLDSTMGSVVS
+SAEETANNADEMLSAADDLARRTERQAASIEQTVTALEQITTISNQSASRTDAARAMVAQ
+ANEEAGRSGTVVSEAVAAMSAIEESSRKVTQIIGVIDQIAFQTNLLALNAGVEAARAGDA
+GKGFAVVAQEVRNLAQKSADAAREIKSLIDHSFSEVLRGVSLVNRAGEALQTIGNQVVSI
+NEHIDAIAGSAREQAVGIAEINSAIGSMDQSTQQNAAMVEETNAATHALAEVSGNLRHLI
+SQFRTSSSLARSGGASAAETQWRRAG
+>tr|A0A1Q9AE93|A0A1Q9AE93_9RHIZ
+MSLSEIKPVDLLVGKTPRRFDIDDPVLPAWIEEQALTSGDYPYDRKLDGDRYEAELKALQ
+IELVKVQFWMQATGRRVIALFEGRDAAGKGGAIQATRAFMNPRSARIVALSKPSETERGQ
+WYFQRYVATFPSAGEFVLYDRSWYNRAGVEPVMGFCTPAEYEDFLVQAPRLEAMLADEGI
+VLFKFYLDIGQEMQLKRFHDRRHDPLKVWKLSPMDIAALNKWQDYSEKRDRMLKKTHSKE
+APWTVIRANDKRRGRLELIRHMLKALDYEGKDKAAIGKTDDKIILDALDFLKDK
+>tr|A0A1Q9AIK2|A0A1Q9AIK2_9RHIZ
+MRPAGFSLFPFLGLCLTLSGCGAGANKSSLVGVNTGAAAASTYLAALGPGIVGEIKGLKL
+STADHQRALTAEYRALEGTPSGQEVEWEGKGASGTIVAAAPYQVGSQNCRQLTHTVTIDD
+REQVARGVACRNGDGTWTPL
+>tr|A0A1Q9AEN9|A0A1Q9AEN9_9RHIZ
+MDGIAGRIMLLSGWRRAALAIAAGLLTVLALPPFSIFAAPFISFPILVWLIDGLPADPAR
+GVLRRYLPAFWTGWCFGFGYLAGGLWWLGNALLVEADTFAWALPLAVLGLPAVLAIYYGL
+AGLLARILWSEGWGRIAALAASFGLAEWLRATALTGFPWNAIGYAAMPVPLAMQSVSLIG
+LMGMNVAAVFVFAAPALVGTRRGLALGLMIAALLVAGHLGFGLWRLSTPSGPPLDPPMTL
+RVVQPVIDQAQKLDDAARAAIFETHLALSAAPPAEGGRRPDVIVWPETAVPFILTENPDA
+LARIAEVLQEGQVLVTGAVRTEDAGAGLPPRYYNSMIMIDHQGQIIGAADKVHLVPFGEY
+LPLEDLISAAGLHAVAAAMPGGFSAAAQRMPMTLPGGRILYPLICYEAIFPAEIGDDALA
+SAALLNVTNDAWFGDTPGPYQHFLQSRLRAVETGVPMVRVANSGISASIDPFGRVQKGLN
+FGVAGAFDVDLPPRAAPIFPPSGQARNGLILQLIALAVAIFSRMSFVFREN
+>tr|A0A1Q9AJJ7|A0A1Q9AJJ7_9RHIZ
+MASKTSPLTFLRQVRAETAKVTWPSRRETVISTLMVFVMVIVAAAFFFGADQLMGWAISL
+VLKARV
+>tr|A0A1Q9APZ1|A0A1Q9APZ1_9RHIZ
+MTQTHMRREINEIPEAVQRFLDQSGPAVAAAGAALREKDPAFLVTIARGSSDHASLFLKY
+AIELTAGRPVASIGPSLASIYGARLNLAGGAAIAISQSGKSPDIVALAQAATDSGALGIA
+LTNTLPSPIATAMGHAIDIAAGPELAVAATKSYVSSIVAGLAILAAWTQDQALERALAAL
+PQHLDEAVSLDWSRLAAPLKDAGSLYMLGRGPALAIANEAALKFKETSGLHAEAYSSAEV
+LHGPVALVEGAFPVIGLVARDAAEGSVVEILDGLQAKGARAFATSGRAAGAVKLPYVETG
+HPLTDALALVVPFYGFVESWSRACGFNPDQPVALKKVTETR
+>tr|A0A1Q9AQL8|A0A1Q9AQL8_9RHIZ
+MRIESQSLAARALLTPTPEAAASISLSVQSGVARYAAAPPLPVAAPSSRLSSALFDMQFK
+EQFSGDGAAADNSGFGRTEREFIDWSKRSLAETIRAQVLEENGLTEESLRRLPQDEQHAI
+LDEIKERIRLAQTSAATPRDNAPDMPPAVPELSLWDHPGFASAA
+>tr|A0A1Q9AFW4|A0A1Q9AFW4_9RHIZ
+MKKIEAIIKPFKLDEVKEALQEVGLQGITVTEAKGFGRQKGHTELYRGAEYVVDFLPKVK
+VEVVLADEHADAVIEAIRNAAQTGRIGDGKIFVSNVEEVIRIRTGETGIDAI
+>tr|A0A1Q9AL29|A0A1Q9AL29_9RHIZ
+MSESSTNALPRSAYMSRPRFAVSMLFLMNGFVTGSWAPKIPEFKERLGIGESVLGLLILT
+FGIGSLVMMPVAGAAIARLGSKPVVKVAALLLSPLLLLLTLASDLWAATIAMFVFGGFIG
+AMDVAMNANAVEVEKSMRRAIMSSCHAYWSLGGLFGAAIGGALMAGFGVLVHALVVTGIG
+LALIALAWPMIFSDAPHPDTKAEKTRLPLNPLPWLIGLVALFSMVPEGSVLDWGALYLRN
+EQGASVALSGLGYAAFSASMAIMRFAGDLVRDRFGAVRTLRLSTMTAFVGLVLSGLAPDA
+PLAILGFAIAGIGISNMVPIAFSAAGNMPGLAPGIGISVASFMGYSGMLFAPSLIGFIAE
+HTGLSVVFLSVPALFIVVLALSHLARHADAGKG
+>tr|A0A1Q9ALU5|A0A1Q9ALU5_9RHIZ
+MWNPTTRRQYSRNQPRYETDLTDAEWAVIAPLLPQPAPRGRKPAWPLREIINAIFYVLRG
+GIPWRLIPKDLPPKSTVFGYFCRWRDTGVFTRINHRLVMVDREQTGRQASPSAAVLDSQS
+VKTTESGGPRGYDAGKKIKGRKRQAMVDMDGRALVLDPQPAHIQDRDGAVPVLRLSRRSF
+PFVAKAFADMGYSGDRPQNATLVDVEIVRKPKDQVGFAVHPKRWVVERFFAWISRNRRLW
+KDPEATVKSAKAFLYAASIMTLIRRIARRS
+>tr|A0A1Q9APW1|A0A1Q9APW1_9RHIZ
+MTRQPKITFIGAGSTVFMKNIIGDVLQRQALADATIALMDINPQRLAESEIVAGKLVRTL
+GTKAKIETHSNQKKALEGADFVVVAFQIGGYEPATVTDFEVPKKYGLRQTIADTLGVGGI
+MRGLRTVPHLWSICEDMLAVCPNAILLQYVNPMAINTWAIAEKYPTIRQVGLCHSVQGTA
+AELARDLDIPVNEIRYRAAGINHMAFYLSFEHRQADGSFRNLYPDLLRGYREGRFPKESH
+WNPRCPNKVRYEMLTRLGYFVTESSEHFAEYTPYFIKEGREDLIEKFGIPLDEYPKRCVE
+QIERWKGQAAAYQEAETIEVKESHEYASSIMNSVWTGEPSVIYGNVRNNGCITSLPENCA
+AEVPCLVDASGIQPTYIGALPPQLTALIRTNINVQELTVAALMTENREHIYHAAMMDPHT
+AAELDLDQIWSLTDDLIAAHGAFLPEWARGRRKIQAA
+>tr|A0A1Q9AHX8|A0A1Q9AHX8_9RHIZ
+MTYRGPETLWHEHRRDERLAALDRPHMRALNDYRDRLQLASGRDVPNFDPFDGGVHARLL
+ILLETPGPSEVECHRRFVSIDNPTGTAKNLRQALAETGISRDNIVLWNAVPWVRATRKSI
+TASERRDGKEKLSGLLPLLPDVEVAILAGSVASAARELLENFGIKVILSPHPSPTLINTS
+TTQRHRLQEALETSSAILNQSKMSIETS
+>tr|A0A1Q9AEU6|A0A1Q9AEU6_9RHIZ
+MAKRVTGPEIEKLIQLLAKVPGLGPRSARRAALHLVKKKDQLLGPLADAMGEAHRKVRIC
+SCCGNIDTVDPCSVCTDPQRDRSVIIVVEDVSDLWALERTGAMNTAYHVLGGVLSPLDGI
+GPDDLNIASLVDRVAEGTVRELIIAVNATVEGQTTAHYITDRLDGLEVKITRLAHGVPVG
+GELDYLDEGTLTAALKARTAF
+>tr|A0A1Q9APS8|A0A1Q9APS8_9RHIZ
+MQEILQLVQDPTAWIALVTLVVMEVVLGIDNLIFISILTNKLPEAQRERARRIGIGLALV
+MRLALLGTVAWIVKLTAPVFELFGHPFSWKDLILIAGGLFLVWKATKEIHHTVDPVDHKE
+DMVGKGASLSFNAAIGQILLLDLVFSVDSIITAVGMTPHLPIMIVAVIAAVTVMLLAANP
+LANFIARNPTIVMLALGFLLMIGATLIADGMGFHVPKGYIYAAMAFSALVEVLNMAARRR
+REKQKSGH
+>tr|A0A1Q9AM72|A0A1Q9AM72_9RHIZ
+MPVITFANTKGGAGKTTAALLLATELARGGARVTVLDADPQAWITGWAQTGAAPRNIEVV
+SAVTAASIQGHLAEARRVSDYIIIDLPGARDTLLANALGFSDHVVIPIQGCAMDAKGGAQ
+VLELLMRLEKSAGIRIPHSVLLTRVNSLVTTRALQMVKTLLAERQVRVLDTPIVERAAFR
+DIFDCGGLLQDMDAQRVSNLDKALENARLFAEEIRTLVPYRGARGQMRRAA
+>tr|A0A1Q9AIV8|A0A1Q9AIV8_9RHIZ
+MKSLGIFRRSFAPWADPNAKPFISFRNVTKRFGDFTAVDNLSLDIYTREFFALLGGSGCG
+KSTLLRMLAGFEQPTSGEIMLDGQSLSGIPPYRRPVNMMFQSYALFPHMSVEKNIAFGLK
+QDGMPKTEIAERVAQMLKLVKLEAFAARKPHQLSGGQRQRVALARSLAKRPKVLLLDEPL
+GALDKKLREETQFELMDLQYELGLTFVVVTHDQEEAMTMSDRIAVMSHGRVIQVATPAEI
+YEAPNSRFVAEFIGDVNMIEGKVALEDGRSILRTAEGISVALPETLAEGQSVALAVRPEK
+LKVSRQQPEGAGVHAMRGEIWDIAYFGDMTVFHVKLPSGKIVKASSLNATRGVEDPFGYD
+EQIWVSFEPQAGIVLKG
+>tr|A0A1Q9AIU6|A0A1Q9AIU6_9RHIZ
+MDSIEDRIKPWPADKRVIGEAVRDAVLPQLGPVLKAAYASVGMSDVPEEMLQQEERKFKR
+ISTGDFCPAYFAEQAVIARNIATQVSYPDYLAGYAFYAAGLTSALVDKVKWKSKSRRDAL
+LLSLAQSIFSDVAVAMNHFFAGEAERLERERAEKRAVLEEEARQVEHAVAVIGQGLMRLS
+DGDLATMIQEPLKAQYDRLRQDFNAALGNLASAMSTVLTVASNIGSGTQEVNASISDLSS
+RTEQQAASLEETAAALSEITTNVASASKTTDEAKQITLAASRAADKSTAVVAHAEEAMQR
+IEQSSQQISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSATA
+AKEIKSLIQNSSAEVGKGVQLFRETSSALKVIGEHITQINRQMDMIATTSREQAVGLAEV
+NSAMSAMDQNTQRNAAMVEELLAAAATLDDQSAMLREQISRFRTDRTEDGHRLSDRQTRP
+MARRA
+>tr|A0A1Q9AJB8|A0A1Q9AJB8_9RHIZ
+MSVTAAMVKELREKSGAGMMDCKKALAETNGDMEAAIDWLRAKGIAKADKKSGRTAAEGL
+IGIASAGTKAVVVEINSETDFVARNDAFQDLVRGVAAVAVETEGSVDAIAAATYPATGKS
+VSETIKDAIATIGENMTLRRAALLSVEDGVVSTYIHNAAADGLGKLGVLVALKSTGDKDA
+LNTIGRQVAMHIAATNPLAIRASEVDAAVAERERNVFIEQSRASGKPDNIIEKMVDGRMR
+KFFEEVALLSQAFVMNPDITVEAAIKEAEKTVGAPIEVTGMARLLLGEGVEKEETDFAAE
+VAAVAKG
+>tr|A0A1Q9AMZ1|A0A1Q9AMZ1_9RHIZ
+MSHTAVQEAFFSRSLADTDPEIFGSIEKELGRQRHEIELIASENIVSRAVLEAQGSIMTN
+KYAEGYPGKRYYGGCQFVDIAEELAIERAKKLFGVNFANVQPNSGSQMNQAVFLALLQPG
+DTFMGLDLNSGGHLTHGSPVNMSGKWFNVISYGVRAEDHLLDMDDVAEKARKHKPKLILA
+GGTAYSRTWDWKRFREIADEVGAYLMVDMAHIAGLVAGGQHPSPFPHCHVATTTTHKSLR
+GPRGGMILTNDEDLAKKFNSAVFPGLQGGPLMHVIAAKAVAFGEALQPEFQDYAAQIVKN
+AKALSQTLVDGGLDIVSGGTDNHLMLVDLRKKNATGKRAEAALGRGYITCNKNGIPFDPE
+KPFVTSGVRLGTPAGTTRGFKEAEFREIGNLIIEVLDGLKVANSDEGNAAVEAAVREKVV
+ALTGRFPMYPYM
+>tr|A0A1Q9ANZ9|A0A1Q9ANZ9_9RHIZ
+MGRRRGGIGISLLLIAGFAGALGWFLTKPERQPAAHWQGLPAADVANGERIFWAGGCVSC
+HAAPGAEGQARLTLSGGLALKSPFGTFHVPNISPDEKAGIGGWTLAEFGDAMTRGVGRNG
+EHLYPSFPYGSYSRLTPKDVSDLFAFVKTLPKSETVAPPHELPFPYNQRLLLGGWKLLFF
+SDAPRVALANADPAVLRGQYLVEGPGHCGECHTPRNGLGGFVSGQWLAGAPNPEGEGRVP
+NITPASETIGSWSAGDIANYLETGFTPDFDSAGGNMVEVQQNIAHLPAEDRAAIAAYLKA
+VPPVK
+>tr|A0A1Q9AG92|A0A1Q9AG92_9RHIZ
+MDSSTNRHPARVRRSVLTVPADNPRALAKLASLACDAVIYDLEDAVAPENKAAARAALVA
+HLDALSPDRHAGLDRHMGKDPVERIVRINALSAREQGPANLGLADLEAVLPFAPDAILLP
+KVENPGDVQQVADHLEEADVPATVRLWAMIETPRGLLNVAAIAAAGRTSGGRLDCLVPGL
+NDLAKATGVLPQPGRPYLVPYLMQVLLAARAFGLDAIDAVFNTISDGAGFAEECRQARAM
+GFDGKMLIHPAQIAPANAAFGIDPADLARARAIIAAFAEPDQAGKGVIRLDGEMVELLHL
+AQAERLVARAAHLAARDGTTI
+>tr|A0A1Q9APC6|A0A1Q9APC6_9RHIZ
+MAARADKTGDSAAGDPALDYEIIEQLFFAYRDFTGDPDVILEKRGFGRAHHRVLHFVDRE
+PGMTVADLLDTLNITKQSLARVLKQLIDSNYIHQVAGPEDRRQRKLYTTREGKALARALA
+EPQSRRIAEALARSGPGARETVIRFLNAMRNSEHG
+>tr|A0A1Q9ADY8|A0A1Q9ADY8_9RHIZ
+MIKTLLAATSLAALMLAQPASADTINMWVRTGIGDSFKEVVKAYNAGHDDKVQLTEVPYT
+ELVQKYATAIAGGQAPDALSMDLIYTPAFAAAGQLEDLTDWAKSLPYFNSLSPSHVRLGT
+YQDRLYGLPLSVETSVFAWNKNLYRKAGLDPEKAPATWEEITANAQKIRALGDDTYGFYF
+SGGGCGGCMIFTFTPLVWGAGADILSADGKTATLDTPEMRKAVDIYRTMIKKDLVPAIAA
+SDNGANFLSFTNGRIGQQSLGAFAIGTLVTQHPEIDFGVTLIPGVNGKPSSFAGGDNLVV
+TKGTPRIEEVKTFIQYIYSMDGQKIMAKYGSLPTRGDIADEVLKGLDPRMAVGLKAISVA
+KTPYTLQFNDLINSNNGPWAAFITAALFGDDVDGAFKTAQEDMQSIIDSGQ
+>tr|A0A1Q9AGA3|A0A1Q9AGA3_9RHIZ
+MAVTPHQRLVESKFLYRFLTTLDFAPFSVATTVPSIRKGDVGSIRLPLPPLAEQKRIVAK
+LDALNAKSARARTELARIETLVSRYKQAVLSKAFSGELTREWRKVAATIWPWRLEFWRDC
+GETLNGRAFPSDEYCESGVRLLRPGNLAESGVVFWSSKNSRFLPNNYAVKFPKHFVKGEA
+ILINLTAQSLEDQFLARACLSSASDEFMLNQRIGLFRPRNMIPKFCLFALKSPRFRSFVD
+NGMNSGSLIQHVHTKQLEQYKFDIPDIEEQHEIVRRIESAFARIDRLAKEAKRALALVGR
+LDEAILAKAFRGELVPQDENDEPAEHLLARIRAERESAPKGRRGRGAKA
+>tr|A0A1Q9AQH1|A0A1Q9AQH1_9RHIZ
+METNLFHFLRPEWFWALIPAGLLLWLVLRSRKNGTGSNWGKYVDAHLLRHLAISGATARA
+SRVLPSVAAAMLLVLVTALAGPTWEKAQLPSFTGGEPVVAVLSLAQSMNSDDLSPSRLRS
+AVHKLRDILARTEGDERALVIYSDVPFVAAPLTSDQKVISQMIPELSTKLMPVLGDRPDL
+AISEATSVLKGADAARGKILLIADNAGDTAATEKAAAEARKAGYTVSVLGIGTEKGATLQ
+TAGGEAITDRSGEKVTTSLDAEGLGAVARAGGGAYSSVTANSADLDRVLPKTDRVETAGK
+AEDVKADGWVDMGYWLLILPVLLLPFAFRRGLVFSIGLIACLNVVPGLATRPAHAGTWQD
+LWSTSDQQGKAAFASGDYKTASGKFETQSWRGSAAYRAGDYAAAAQDFPAGAYNRGNALA
+KSGQLKEALGAYDQALAANPQDADAKYNRDLVQKLLDEQKKQQEQEKNKQQQQQSGQSDQ
+KDQKQQAGSSGQKQDQPQSQGQSSQQDQRDQQAGSQGQQKQQNGGGQQDQQQASEGSQKQ
+NGGGDKKDQEQQAGGSGKKDQQQSQGQSGKQGQQDQQAGSQGQPKQQNAGGQQDQQQASR
+GSQKQNGGQSGDQQQSATQPGQESGSQGEQPKDQASTEPSNPADAAKSGQSPKAGAGKDA
+AEKAEDQNVGAGQKRTQDASATKPQGQEGGREQAGQQQDQTGSEGLAQADQAAQEAAKAR
+QQASASGNGGNQAGKDSENALSRMLSSVLDGNGKDKGGEPVKASVPGAPVVDQAVEQQLR
+EVPDDPSGLLRARIRQHYAQLRSGSN
+>tr|A0A1Q9ALQ8|A0A1Q9ALQ8_9RHIZ
+MVCLLMTAALVPARAAEPDRQPVLTENADYFGFDLRTEQNVTLKACGEICAGDKACRAFT
+YNPKAKWCFLKSDYDTLNDFPGAVAGRMVDKRQKEIDLGAPAALPFLDAATLAEARRLKR
+AAALPEELKGEGLNALVAAARRQADAGNAAEALRLAAGAVGIQPEDGALWLQAARYALRI
+TDNAELQRQGLLSAINAYELSRTSRTRAAALAGLAESLKATGSPRPALNAYKASLALADS
+KAVRSAYDALRATDGFRVVEHTIDSDSATPRACVQVSEPLVKAFDYQPYVLLNGQTPQAM
+EAKDQQICVEGLVHGERYALTLRKGLPSSVDEPLAADVNLDLYIRDRTAQVRFTGENFVL
+PSTMRRGLPLVSVNTPSASLKLYRIGERNIAGLMANSQFLTQLSGYTADRISEESGALVW
+QGTVEIASDLNKEVITSIPIDEALPKRQPGVYVMTAASTLGVANEWDSRATQWFVISDIG
+LSTFTGTDGLTVFARALSTATPMEGVSLQLLARNNEVLATARTDATGRARFDAGLSRGMA
+GLAPAVITAATDSGDYVFLDMTRAGFDLSDRGVTGRPAPGAIDLFAYTERGIYRTGETVH
+AAALARNERAEALDGLPLTFVFLRPDGVEDQRMVATAPKLGGYAVDLALQDNAMRGRWTL
+QIFTDPKGKPLSEQSFLVDDFVPDRITFDMTSAADRLVPGTPAEIDVNGRFLYGAPAAGL
+ALEGEVLVKPVRSDPAHPGYQFGLADEEAGEDLRIPLENLPPLDADGKARFAVTLGDMPS
+TTRRLEAHLAVRLQESGGRAVERTLTLPISDQRAAIGIKPEFTGDVREGGTAGFQVLALD
+ENGKAAAKAGLSWKLIAVERRYQWYRQGDSWGYEPVISTRQVADGRLDVTPEGGRITAPV
+GWGRYRLEVEDKVGGTASSVEFDAGFYVAASSTETPDALEIALDKPLYRLGETAKLKISP
+RFAGKALVTIGSESLVATYEADVPAGGTVVDIPVTQAFGAGAYVTATLFRPGEAQESRMP
+MRAIGIAWAGVDPEARKLALTLDLPEKTRPRQPLAIPVALSGLAAGEEAYVMVAAVDVGI
+LNLTRYPTPDPDGWYFGQRRLGLELRDLYGKLIDGSLGALGRLRTGGDGGQVALQGNPPT
+EKLVAFFSGPVRLDDAGRATVSFDIPQFNGTARIMAVAWTRQGVGHAERDVVIRDPLVVT
+ASSPRVLAPGDQSQLRLDLANTDAAATQVRLAITTNDAVKVGTDRLAAPLPIPQNGRISV
+NLPLSGAAIGEGRITIAAELADGTRLDQLVTLPVRGAAMPVTTHLPVELKPGESLTVDSG
+LLAESRLDGAAVSLSVARSAALDIPALLMMLDRYPYGCAEQTTSRALPLLYLSELTGRAG
+LPADPDASARVKGAIERVLSYQSSAGSFGLWSPGSGDLWLDAYVSDFLTRAREKDLAVPD
+TAMRLALDNLQNALAYDSEIGTRGNEVAYALYVLARNRKASISDLRYYADTKLADFKTPL
+AKAHLAAALSLYGDQARADSLFLDAQAAATAPDVADLDRGDYGSALRDDAAVLTLAAESR
+PVAKILPVMAHEVERQAAAKTLTSTQEQMWLLLAARAIDKGDSGIRLTVDGAARQGPFST
+RRSGEEILAAPVTIANRGSDPVTATVTTLAAPAFPLPAGGNGFALSRAYYRLDGTEANIS
+DARQNERFVVVLTVQQDNPWPARVILTDLLPGGFEIDNPSLVDSARLANFDWIDAVEPAH
+AEFRNDRFVAAFDRQQGEAGSYSVAYVVRAVTPGTYEQPAAQVEDMYRPQFSARTAGGRM
+TVSSAP
+>tr|A0A1Q9AMP8|A0A1Q9AMP8_9RHIZ
+MISMSVEPNHQEFVDSIKAEIKNTYGDLDKKTEDLAKAIDEAKKLIGEKASTSDIESRIK
+DLQTEIKKGEDRANEIERKANRAGLFGRDHQETKSIGERLSETDQFKAIQRSGSKSGTVN
+VTVKAIMTPTAPAARSPLVTATQAPMVTRIDRPLMVRDLLPVGTTTSQLIEYAQAGPLVN
+NAAIVAEGVLKPESSFTFTQAQAAVVTIAHWIPVSKQVYDDVPMLGSYIDTQLRIGLDQA
+EEDEILLGAGTTGHMNGLYNQRTVYSATGIPSNPTKIDHIRWAKLQVRKSYLAADSVVLN
+PQDWAAIEMAKDAGGNYLFSSITSGADPRLWGMRVVESDSLPPGSFMVGAFRSAAQIWDR
+EEANVQISSEDRDNFVKNMLTLRGEERLALTVYRPSAFVGGQFPA
+>tr|A0A1Q9ACE1|A0A1Q9ACE1_9RHIZ
+MARKPDSAARLDDAARAGWLYYVAGRTQDEIAAAMGISRQSAQRLVSLAMAERLVKVRLD
+HPIGACLERAAALKEKFGLRQVEVVPSDPGAPSSTVGIAEAGAAEIERWLKLSTPTVLAV
+GTGRTLKAAIDQLSPMECAQHRIVSLTGNIGRDGSVAYYNVIFSMAEAVKARHFTMPLPV
+LVSSVEERAVLHNQALVRSALELGGQADVAFVGVGELGVDGPLCQDGFLDPAEMTRLVEA
+GAAGEICGWIYDREGQLMPGIRDRVASVPLPDTSRCTVIGMAKGPRKLPALAAALRGRVL
+NGLITDEATAEALLKD
+>tr|A0A1Q9AFK7|A0A1Q9AFK7_9RHIZ
+MTIASFKEQTTQGHRMRAAIVTGPGQIDIRDALVAEPGPGQLRLRLEGCGVCASNLTPWS
+GPDWMTFPTEPGGLGHEGWGVVEAIGPGVENIHVGDRVGALSYHAYATHDIAEADAVVVL
+PKALEGRPFPAEPLGCAMNIFARSGIKAGDTVAIVGIGFLGALLTLLATAAGARVIAIGR
+RAFALDLARQAGAAETIAMIDHWQIIEEVKRLTEDRLCDVVIEAVGSQWPLDLAAELTRE
+RGRLVIAGYHQDGARQVNMQLWNWRGLDVINAHERDPQVYLAGMKAAVDAVVDGRLKPDA
+LYTHRFPLHKLDEALNATRDRPDGFMKALVMMEDVR
+>tr|A0A1Q9AI47|A0A1Q9AI47_9RHIZ
+MSAFPRLTLLAHSLPATVPFVGPEALERRIGRAVVARIGANESGFGPAPSVLSAMRAAAD
+GIWQYNDPENFALKQALGLHYGIAPEHIAIGEGIDALLGQIVRLVVDPGQAVVTSLGAYP
+TFNYHVAGHGGRLVTVPYRDDREDLDGLLDAVRRETAPLVYLANPDNPMGSWWPAEAVAA
+FAEALPETTLLVLDEAYGETAPAGTLPEIDRLIARPNVMRTRTFSKAYGLAGARVGYVLS
+TPENASAFDKIRNHFGMNRMATAGALAALADQAYLQDVLARIAAARARIGQIAAASGLAA
+LPSATNFVAVDTGRDAAFARAIVDRLMADHGVFIRMPGVAPLNRCIRISTGPQAEMQRLE
+EALPQVLAALG
+>tr|A0A1Q9AQG2|A0A1Q9AQG2_9RHIZ
+MRALNIITLLLVIIGGLNWLLVGLADFDLVAALFGGRDSALSTIVYVLVGLSAVWQLVPF
+FKSMSAGETRAEANIIHR
+>tr|A0A1Q9ALZ7|A0A1Q9ALZ7_9RHIZ
+MIAVPAGVKVWLATGHTDMRKGFPGLSLTVQEALKRDPMCGNLFVFRGRGGGLIKVICHD
+GQGACLFTKKLERGRFIWPSAADGTVVITPAQLGYLLEGIDWRMPQKTWRPTSAG
+>tr|A0A1Q9ANM5|A0A1Q9ANM5_9RHIZ
+MKNSALRAALAGLFAATTLAAAPAFAEKTKFEFWYGNTGDIGERVQEACKKFNDSQADFE
+IVCTSQNGYDTTLQNTIAAYRAKKQPAITQIYDAGTLDMMLSKAFVPAKKLMADNGYKID
+WDNYFPGIANYYATGSGELLSFPFNSSTAVIYYNMSAFEKAGVTGKPQTWEEVAEAAKKL
+KAAGYECPMAFNFDTWPLMEQFSAIHDQPIATEGNGYKGLNAELVVNKTKFIDELKFFKK
+MQDEKLFVVKTKQLGMDIVPAFTSQTCQIMMSSIADHGTVGKTLPEGVKWDVAMLPVFKG
+TERKKSLVGGASLWVMAGRPEAEYKGAAAFLNFIAQPDMVQWWSTVTGYIPVTKTGFESM
+KKNGFYDKAPYKGREIAIESLTLTQPTDTTRGIRLGNFTQIRKEVTSALEAIYMQNADIQ
+SSIDQAVERSNQGLRRFEKTYAGEKLN
+>tr|A0A1Q9AP31|A0A1Q9AP31_9RHIZ
+MILHAPRSEAEVVEIVRGALAGATPLALQGGGTRAGFGHAVAAEAGLSTSALSGILRYTP
+GEMVMTALAGTPLEEVEAALAGQGQRLAFEPADHRPAMGTQGVPTIGGVFAANVSGPRRI
+AGGAARDSLLGIRFVNGRGEALSAGGRVMKNVTGLDLVKLMAGSYGTLGLMTEVTFRVLP
+QPERVETLVFSGLEDQAAAELMAAAMALPADVSGAAHLPESVRGRFLAGALPEGAATLLR
+LEGHAASVAIRAETLTRALGARAPLQRLGPEQSESLWRAVRDIHPYAEDGTQRPLWRVSV
+APMAGPGLVAALRMEAGVDAFYDWQGGLVWLRMEAEPEAALLRGLIAKAGGGHATLLRAN
+PAARAAIPAFEPQPAPLAALAARVKASLDPHGLFNPGRMG
+>tr|A0A1Q9AQD8|A0A1Q9AQD8_9RHIZ
+MSQIIAQNIENHVEEASAPSLSTAVSGGVSAPPLSGGSALPSPAGGEHSATHLTSLADRA
+RGYVEAASSANTRKAYASDWKHFSAWCRRSGLSPLPPHPQTVGLYITACASGSVGTTAKA
+NSVSTIERRLASLSWNYAQRGLSLDRKDRHIAIVMAGIRKSHARPAAQKEAVLAEDIIAM
+IETLDRGTLLGLRDRAMLLIGYAGGLRRSEIVGLDLKAEQTEDGRGWIEILDKGMLVTLR
+GKTGWREVEIGRGSSDATCPVAAIETWITFARLAHGPLFRRVSGQGKAIGSERLNDKEVA
+RLVKRTAMAAGIRGDLSEIERAFRFSGHSLRAGLASSAEVDERYVQKHLGHASAAMTRRY
+QRRRDRFRVNLTKAAGL
+>tr|A0A1Q9AQP1|A0A1Q9AQP1_9RHIZ
+MLLSEGQMSDHKGARLLLDSLPSAKTLIADRGYDSKTFREALEAKGIEPCIPSSRSRKVP
+YPYDKALYRQRHKVENLFAKLKDWRRIATRYDRCAHTFFSSICIAATVIFWL
+>tr|A0A1Q9AIC8|A0A1Q9AIC8_9RHIZ
+MGVTLKVGSDYSIDMGNYDFGGAPTGHAHVTSYTKTSITGYIDDVNVVITGKGFTYSSQG
+IVGGTVTGLVVKEGSALLASVSGLNLSVKTLNKLASSGSDADWKAATVNVFSGADNVSGS
+NHADTLLGYKGNDTLSGNSGDDTLYGGDGNDTLLGGLGADNLYGGAGKDSFIYKSVGESN
+ALNGIDTIHDFWGKAGDRINLSAIDANSLTSKNDAFSFIGAKAFSGKAGELRVEKQAEDT
+YVYADTDGDKVADFQIHLDGALTMSKGFFVL
+>tr|A0A1Q9AJF3|A0A1Q9AJF3_9RHIZ
+MRHGKAGRKLNRTASHRKAMFANMAASLIQHEQIITTLPKAKDLRPIVEKLVTLGKRGDL
+HARRQAIAQIRDVTVVGKLFDAIATRYATRNGGYLRIMKAGYRQGDNAALAVIEFVDRDV
+EAKGAADRARLAAEAEAAEAA
+>tr|A0A1Q9APU8|A0A1Q9APU8_9RHIZ
+MHRYRFILTRPLQFLPVIFGVSIITFVLVRLIPGDPARVLLGARATPTAIANVRAQFGLD
+EPIWMQYFYFLQNLLKGEMGKSITYKIDVLPLIATRIEPTLALVFSAVLLSVLIAVPLAA
+LAARNHGRPVDHLVRVVSTFGIGFPPFWVALMLILLLAVAFPVLPVSGYGSTLGDKLVHL
+ILPSLTIALSLSTVLMRSLRAAIVEWLKSDVATAARARGMPESIVFWRHVLPNAVAPTIN
+LLAVNIGWLIGGTVVVESVFALPGMGQLLVRAIFSRDYMVVQGVAMVFACATVLVNFLAD
+IATVAADPRVKL
+>tr|A0A1Q9AFK0|A0A1Q9AFK0_9RHIZ
+MELLFDQPLIEARRARALGAGDRSAAFLLEIAAQELADRLDVVERRFEEAVELHGYTGQV
+AERLMATGKIGHVRRVETAADGPETLVAPLERVPLAPASANLIVSPLSLHLTNDTPGVFI
+QVRRALAPDGLFLAAIPGAGTLQELREVMLAAESEVTGGASPRVIPFADVREVGGLLQRA
+GFALPVVDSDSYTVRYDSLFALARDLRAMGMANPLTGRSRTPLPRKVLMRAAELYATRYA
+DPDGRIRATFTLIYASGWAPHESQQQPLKPGSAKMRLADALKVKED
+>tr|A0A1Q9AGD3|A0A1Q9AGD3_9RHIZ
+MLPAFLKPPVTRASALQREVEVDGRVLPLTINPSLRATRLTLRIEPGGRALKLTVPKGLP
+QREVDAFIERHRGWLASKLARFSGESELVEGGTIPLRGVVHRIERSGRLRGLPEVLVINE
+EPVLRLSGEPEHLRRRLVEFLKKEARLDLERLVAVHAGRMGGTVKSLTLKDTRSRWGSCT
+SEGALSFSWRIVMAPPHVIDYLAAHEVAHLREMNHGPQFWALCEMLCPRTAEARHWLKRN
+GSMLHAIDFS
+>tr|A0A1Q9AKF0|A0A1Q9AKF0_9RHIZ
+MAKPATSSHQPNRPTARVVQLRKGATIEMVRLTCPDETQALRIAESFGTAILDSDGIRDM
+HERLIVETATGLSDGLGERAMEIHLQRIVGAYVGSAHGAGQFYSKAVIEARDATAKSAAD
+ARDEDLDGPVGYDSAAQRKREFAADMGIQAHALRMAAEGAVSAYEQIVGEVWKPFDRPVD
+NPGQALDRKAAEAQLAALG
+>tr|A0A1Q9AI72|A0A1Q9AI72_9RHIZ
+MSSRGAAESGPSAGSETLAAGSVRFEGVGKVYTSSAGRVEALQEISIDIAAGSVFGIIGR
+SGAGKSSLLRTINRLEQPTVGRVLVDGEDIAAYGESALVALRRRVGMIFQHFNLLSAKTV
+FGNVALPLLVAGVGTAEIEARVGEVLKLVGLEGKERTYPSRLSGGQKQRVGIARALVSRP
+DILLCDEATSALDPETTLSILSLLKDINRRLGLTIVLITHEMSVIREICDEVLVLEAGGI
+AETGPVWQVFGNPRHEATKALLAPLTRGLPEEIASRMTSSPASDTALALIDFTYTGEGGR
+EPDLARLVALLGSQLRIVQSQLDRIDGHLSGRLIVSAPAAGDLPSRLSGQDLAHGARIIG
+YVPANA
+>tr|A0A1Q9AIP4|A0A1Q9AIP4_9RHIZ
+MSVDSRIAAITQRLIERSKPTREAYLERVRNAAAKSVHRSVLGCGNLAHGFAVCSPAEKQ
+ALAGDTVPNLGIITSYNDMLSAHQPFETFPAIIREAAREAGGVAQVAGGVPAMCDGVTQG
+QPGMELSLFSRDLIAMAAGIGLSHNMFDSTVYLGVCDKIVPGLMIAAMTFGHLPAVFIPA
+GPMTTGLPNDEKARVRQLFAEGKVGRDELLEAESKSYHGPGTCTFYGTANSNQMLMEIMG
+FHLPGASFINPGTPLREALTREATKRALAITAQGNEFTPAGEMIDERSIVNGVIGLHATG
+GSTNHTMHLVAMARAGGIQLTWADIAELSDIIPLLARVYPNGLADVNHFHAAGGMGFLIS
+QLLKQGLLHDDVRTVFGHGLASYAIDVRLGENGSVQRLPAPEVSGDPKVLATIDQPFQAS
+GGLRMLSGNLGKAVIKISAVKPERHIIEAPAKIFHDQSELQAAFKEGTLTGNFIAVVRFQ
+GPKANGMPELHKLTTVLGILQDRGQMVALITDGRMSGASGKVPSAIHMTPEAVEGGPIAK
+IQEGDIIRLDAVAGTIDVVGNAEDFAARTPVIADLSANEFGMGRELFAPFRAATGPADHG
+ASVFFH
+>tr|A0A1Q9ACV7|A0A1Q9ACV7_9RHIZ
+MSTSTKTPASIRQGGPGASHENAKAPLDIKKPPADSDQRSHSAVSGGGGEKDRHHSHDPD
+GKGAARTH
+>tr|A0A1Q9AHF6|A0A1Q9AHF6_9RHIZ
+MTASYLRMPATHILTRSDLDDTELPPAEVIGLVEDAYLSYARGNSRCPTKLMMPLPNEAR
+DAVSYSMLGYDGALQQVGFKTSYRQGSESAEKYYTTISLYDDTTGLPFAFMDCHRVGGSR
+TPATTAIIAKHCAKQDARSALMIGTGAQGVNTLPYLLTALPNLETLRLFRTHPDGIALSL
+STFARHFPDRRIELVEDVPDAVATSDIVVAASGRAAHHKVQTAWMKPGGLLISVASKGVE
+AGALGQADYAIATNEGQMGVTGKRLAGPDGVPHVDAELPDIVAGLKPGRRSQTDRVFAFS
+SGMIITDIPVAHALATRGIAAGRGRRVELWK
+>tr|A0A1Q9ANL7|A0A1Q9ANL7_9RHIZ
+MAEAEAALIVTRALVYAAGLFLWGTTAYLAAFVGEPLRGAIAGRLAGITRLSALLLWLML
+LASLPLRASLLAEGGEAALSLPLLSALLWETAIGFAWQVQMLAATLLAAGALMRPRRPAL
+IAPLAALFLITLPLGGHAAMLGLTLTGLAHRANDALHLLSAGAWAGALLPVLLILPRLRE
+GESRPAAQAALLNFSTMGHIAVALVLITGLINAWLILGAGSGNGMGAEAGPDGLMKLVAG
+LWTSPYGRLLALKATLVALMVTLALVNRYALVPRLAASPPAGRALMLGTLAEIGLSALVL
+ALVAAFGTMDPS
+>tr|A0A1Q9AEW0|A0A1Q9AEW0_9RHIZ
+MAQGQSLSRSRLINRRTFLRGAGAAWAATLAPAEAFALHQAPAVYASAFMAPDGRFGLAT
+LTEEGALIDRVLMPARAHGLAVSPADGTLVAFARRPGIFALAVDPTLSRPPVTMAAVEGR
+HFFGHGSFSRDGRRLFATENDFDGNRGMIGVYDATDGFRRLGEFPSYGIGPHDMVASEDG
+RFLAVANGGIETHPDFGRAKLNLEQMAPSLALIDTDSGALVERHALPAALNRLSTRHLDL
+GDRGRIWFACQYEGPRSDRPPLAGSFAPGEALSFLDLPDETTQALANYVGAIAINRAEGL
+IGLASPKGGVVVVVEANSGRVLDTRSRKDAAGIAASSQGFAVTSYDGLFAATDRAGGVKS
+PVAWDQHVVRLRG
+>tr|A0A1Q9AI73|A0A1Q9AI73_9RHIZ
+MKPRGFEDRRPARRDRKGGFTLVELLVVLVILGLVMGLVGPRVLSYLSSSRTRAAALQIS
+AFKSSLDLFYLDMGRYPTRAEGLAALVTRPGGAQGWNGPYLQQPSVPLDPWGHAYQYSVP
+GTKGPYRILSYGADGVAGGTGADADIVSE
+>tr|A0A1Q9ALB6|A0A1Q9ALB6_9RHIZ
+MADRVESVIATDQKDGPAQERKPERAAPNLGLAYRLGVMFSAFWSSSVRVKVLSLGPAMI
+MVILATAYMTVILNNWNAPFYDALQRRDLPEFFHQLKIFVLIAGALLLLNVIQAWLNQMT
+ALYMREGLTRDLVDQWLKRKRALRLTAEGLIGVNPDQRLHEDARTLAESTTGLTIGLVQS
+TILLISFIGVLWELSSGFVFHLWGHSFSIPGYMVWAAIFYAASASVLSRIVGSTLVKLNG
+DRFSKEAELRFSLMHASESISAITVVRGEENERLRINADITSVLRVLKRLALANTNLTWV
+SAGYGWLVVVVPIIVAAPAYFSGGLTFGQLMMSVGAFNQVNTALRWYVANFAPIAEWRAT
+LMRVTDFRLALTEMEDEMTSRHALQYHDTPSDRMTLENVEIACRVDAPVETCGGFRLVET
+PVEIRAGEKIMVNGDHNVNRRLLFQALAGLWPCGAGQIGLPPQDDMLFVPQTAYLPGGTL
+REALSFPEAPDHYTTEEIAEALEAAGLSDLLARLDERARWEKVLDSDAQKALVFAHLLLA
+KPRWVIFEEVLEGMEPERAERMTEIMTRLPQAGMIYIGRSETYLKALSPRVLHLKAVAAD
+PEHVDAELKAQAESIPAKRDAGR
+>tr|A0A1Q9ALM1|A0A1Q9ALM1_9RHIZ
+MATRTILLVDDDDDLRQTLVEQLSLYEEFTILQEPTATKGIQAARSETVALLIMDVGLPD
+MDGREAVKLLRKGGFKPPIIMLTGHDTDSDTILGLEAGANDYVTKPFRFAVLLARIRAQL
+RQHEQSEDATFIVGPYTFKPGQKLLTLENGQKIRLTEKEAAIIRYLYRAEQKVVTRDVLL
+EEVWGYNSGVTTHTLETHVYRLRQKIERDPSNAEILVTENGGYKIVP
+>tr|A0A1Q9AIA4|A0A1Q9AIA4_9RHIZ
+MNDDDRPRKRHIFLRIDAWIDSTVWAAGFRFAEWWEDITIFFRRFRMRGWKRWLFELLGE
+GMTWGTVGSVLLLALALPAFQETKGNWRAQSDFAVTFLDRYGNEIGHRGIIHEDSVPVDQ
+LPDTLVKAVLATEDRRFFDHYGIDFLGLARALTENARAGGVVQGGSTLTQQLAKNLFLSN
+ERTIERKIKEAFLALWLESNLTKKEILGLYLDRAYMGGGTFGAAAASQFYFGKPITDVNL
+AESAMLAGLFKAPARYAPHVNLPAARGRANEVLTNLVQSGLMTEGQVIAARLNPATVADR
+ARRLEAPDFFLDWAFEEVQRIATPFAQHSLIVRTTIDMGLQKAAEDAVETALREYGESYR
+VKQGALVMVENGGGVRAMVGGRDYGESQFNRATKALRQPGSSFKVYTYAAAMEKGFTPES
+VISDAPITWRGWSPQNYGRSYSGKVTLLTAIAKSINTVPVRLAKDELGIDRIVKMAKDMG
+VETPIRADKTIPLGTSELTVLDQATGYAVFPAGGVEARRHGISQILNYDGDILYDFNRDA
+PPARRVLSEKATSSMNRMLTQIPVIGTARKAALDHVLSGGKTGTTQAYRDAWYVGFTGDY
+TTAVWYGNDDYTSSNNMTGGSLPAMTFKRLMDYAEQGIEHRPIPGVDMPAPGKKDKTPAT
+ATVAESEALPAIPLRPRMLSNEATTLLKTLADRFTAAPALHPVPLAPGKVAAARP
+>tr|A0A1Q9AJ17|A0A1Q9AJ17_9RHIZ
+MNLFTDFEDRIKKLLETLDIVREKDGGVDLSRVTVEAPRDAAHGDVATNAAMVLAKPLGT
+NPRALAGLIAEALGRDADVAEVSVAGPGFINIRLSVAYWQKVLKAAVLAGEDFGRSRIGG
+GKPINVEYVSANPTGPMHVGHCRGAVVGDTLANLLAYAGWQVTKEYYINDAGSQIDVLAR
+SVFLRYREALGETIGEIPPGLYPGDYLVPVGQALAEEYGARLAAMPESEWVPIVKNRAID
+AMMAMIRDDLAALNVHHDVFFSERTLHEGNGGPILSAINDLTFKGHVYKGALPPPKGQLP
+EDWEDREQTLFRSTEVGDDIDRPLMKSDGSFTYFAADVAYFKNKYDRGFEQMIYVLGADH
+GGYVKRLEALARAVSGGTVTLTVLLTQLVKLFRDGEPVKMSKRSGDFVTLRDVVEEVGRD
+SVRFMMIYRKASEPLDFDFAKVTEQSKDNPVFYVQYAHARCRSVFRQAAEAFPGFSPSVE
+EMVAALPQLNDSNELQLVAKLAEYPRVVEAAALAQEPHRIAFYLYDLASAFHGHWNKGKD
+NTSLRFVNDKNRELTIARLGLVHAVASVLKSGLSITGTDAPEEMR
+>tr|A0A1Q9AKZ0|A0A1Q9AKZ0_9RHIZ
+MAGLSQAASSLFLKEFVGAFFLSMRYFFKPKATVNYPYEKGPVSPRFRGEHALRRYPNGE
+ERCIACKLCEAICPAQAITIEAGPRRNDGTRRTVRYDIDMVKCIYCGFCQEACPVDAIVE
+GPNFEFSTETREELYYDKARLLDNGDRWEREIARNIGMDAPYR
+>tr|A0A1Q9AJ90|A0A1Q9AJ90_9RHIZ
+MASRNTASVSSRKTGSKSIDEFAPGAIVEFDRDQELKAYREMLLIRRFEEKAGQLYGMGF
+IGGFCHLYIGQEAVVVGMQLALKEGDQVITGYRDHGHMLACGMSARGVMAELTGRRGGLS
+KGKGGSMHMFSKEKNFYGGHGIVGAQVSLGTGLAFANAYRQNDNVSLAYFGDGAANQGQV
+YESFNMAALWKLPVIYIIENNRYAMGTSVARASAGVDFSQRGTAIGIPGLQVDGMDVRAV
+KAAADAAVAHCRDGKGPIILEMQTYRYRGHSMSDPAKYRSKDEVQKMRSEHDPIEQVKAR
+LLEKGWASEDELKAIDKDVRDIVADSADFAQADPEPDVSELYTDILL
+>tr|A0A1Q9AC86|A0A1Q9AC86_9RHIZ
+MPSVVSLAVNPAHGFSKVPVERVEIIENFGIRGDAHAGVTVKHRSRVAVDPSQPNLRQVH
+LIHCELLDELAAQGFSIQPGGLGENVLTEGIALLDLPRDTVLRIGPEVALRVTGLRNPCA
+QIEAFRSGLLKAVLPLDATGQPVRKAGIMAVVLKGGTVHKGDRVDVILPNGPHQPLERV
+>tr|A0A1Q9AHV9|A0A1Q9AHV9_9RHIZ
+MSDARQKLKDAQGRIGLLAKASPDLFAGFTRVSKAAAASGRMTAAQKELVAVALAVSKGC
+EDCILYHVDAALRHGAEEADLVEVLDVAVEMGGGPAVMYGAKALEVLRALREGSKT
+>tr|A0A1Q9AGS5|A0A1Q9AGS5_9RHIZ
+MSVSHDINTLRELKDGKLSFEKLHGLISGFKDADRFDKMVQIWQESVEWDDPILLPLAEH
+LFVVRKPDGRRVVKSTWGYEYCEAQENWKLHAKVFVRDTEELINEIYPDKLGCDPEWMQL
+REYYDPLSGTLLEVEVVPPGYPIVHDFKPDIDTFYRDWLGRPVP
+>tr|A0A1Q9AK96|A0A1Q9AK96_9RHIZ
+MNDGEGRPAPAQPAGAVALWIEAAGRCGLRAETLPAPSGDEVLVRMLYSGISRGTESLVF
+KGLVPESEHERMRGPNMGGSFAFPVKYGYAAVGVVEEGPEDLTDKAVFVLHPHQDRFVVP
+AASIRPLPAGLPPRRAVLAANMETALNIVWDAVLQPGDRVAVFGAGVVGTLVAHIASRIA
+GTQTVLVDRDESRSGLAGDLGLAFAPAEALTGEFDVLVNASAAPEALESAIAHAGFEARI
+VEASWYGGRMVPVPLGGAFHSRRLSLISSQVGALPAARRARWSFDRRMATALALLGDARL
+DRLISGETHFTDLPDDYPRILSASDTLCHAIRYS
+>tr|A0A1Q9ALX3|A0A1Q9ALX3_9RHIZ
+MNTISQQAVAATSAKRKLPSELNILLVLIGISLTFELLGWILQGQSFLLNPQRLSIMILQ
+VSVIGIIAIGVTQVIISGGIDLSSGSIVGATAMIAMSFAQIGTFERALYPGLTDLPVVIP
+VAIGLIVGVLCGAINGALIAYTRIPPFIATLGMMVTARGFAKWYTKGQPISFPTDSFAAL
+GKGMMPVVIFLIVAVIMHVVLRYTRYGKFTYAIGANAHAARVTGINVERHTVKIYAVAGL
+LSALAGIVVAARGLTAQAGMGQMYELDAIAMAVIGGVSLSGGRGSVLGTCIGMVIFGVII
+SGFTFLRLDAYYQEMLKGLIIVAAVVADMYRQKKRVKRS
+>tr|A0A1Q9AL56|A0A1Q9AL56_9RHIZ
+MSTFDFLLQGLLVAMQPMNLIYALIGVTLGTAVGVLPGIGPALTVALLLPVTYRLDPGGS
+LIMFAGIYYGGMYGGSTTSILLNTPGESSSIVTALEGNKMARAGRGGPALATAAIGSFVA
+GLIATIGLAFIAPAIVKLALVFGPREYFALMVLAFVTVSSAFGDSTLRGLTSLFLGFALA
+IIGIDQLTGQTRMSFGVPDLLDGVEVTTLAVAMFAIGETLYIAAQGEQGPDKVEAVRGSV
+WMTGQDWARSWKPWLRGTVIGFPIGAMPAGGAEIGTFLSYATEKRLTKHPEEFGHGAIEG
+VAGPEAANNASAAGTLVPLLTLGLPTTATAAIMLAGFQQYGLQPGPLLFATNPQLVWGLI
+ASLLIANFMLLVLNLPLVGLWVKLLTIPRPWLYAGILTFATLGTIGANPSVFELGMLLAF
+GLMGYLMRVFGYPIAPVVVGLILGPLAEQQLRRALAISQGDPSVLFTSPIAAVLLAIAAL
+ALIVPAVLRARGKGQVLSQLAASED
+>tr|A0A1Q9AGL5|A0A1Q9AGL5_9RHIZ
+MALTGLSPSAAARGLRLGQPLAEARALFPGLDVRQEDAAADRQWLEQLADWCDRYTPLVA
+CDRPDGLLLDITGCAHLFGGEASLLAQVLREIGALGLHAKAAIADSAALAGAVARFGPGG
+VIAPGGGRAALAPLPVAALRLEAGVVTALHKLGLRQIEALLDAPRAPLVRRFGPDLLRRL
+DQALGAQGEPISPRRPVAPVSAERRLLTPIDTVEAILSLLAPLAEAFLPQLEERGTGGRL
+FELVLFRVDGIVLRLSAGTSAPLRSPARIAALFSARLANPQTVLDAGFGFEIVRLNVLHD
+GPYKTEQGRLQGASGEAEAGELSLGAFLDSIAARFGDHFLLVGTHRESHLPERAVETLPA
+ARALLAPAQGRAAGQTLSPVFARPHRRPIRLLDPPELMEAFAAEVPDGPPAAFRWRRLRH
+QVRHAEGPERIAPEWWRDGQGAATRDYFRVEDEEGYRFWIFRDGFYDAAHLPRWYMHGFF
+A
+>tr|A0A1Q9ANN5|A0A1Q9ANN5_9RHIZ
+MNAEILRRAQAGHRRAWRALGRARSLLLAGLLACAPHFGQAAHAQGFAGLGTTAEGFAVP
+QPGVALSFPADHGPHPDFRIEWWYLTANLKGDDGKDYGVQWTLFRSALQPGERPGWESPQ
+VWLGHAAVTTPTAQHVAERLARGGIGQAGVAASPFSATIDDWAMRERTSDQTGGQASEQT
+GEQAGAAAGTDPLNRLTLSASGKDFRYALDLTATGPLVPQGQNGYSVKSAAGQASFYYSQ
+PFYRVAGRLDLPEGPVTVTGEAWLDREWSSQPLSADQTGWDWFSLHFDGGEKLMGFRLRD
+KGAGYTSATFIAADGTPEPLPAGALVLTPLENAMVAGRRVPVGWRLQLPQKGIDITTTAL
+NPEAWMATRTPYWEGPIRFSGTRSGRGYLEMTGY
+>tr|A0A1Q9ANJ5|A0A1Q9ANJ5_9RHIZ
+MIVAGAGEPRAGRLADAIDPSDLMQALYADNPDPILIVGADGRVRSANAAARCLFATESL
+TARPLEHFVISPDEKSDSVRLLRPDGSSAVCRHRRHALADGASLYVFRDVESGTSPFDLR
+SAHIVWAALQAITEGVAIYDEQEKLLAFNEAYERLCEIAGLTPRPGLSVRELIGDWLHLG
+GAPAGVDEAMIEIIIDRYMQEFREPTLRTRIMPFGDGRWMRVENIRTPSGAVVGIRADVT
+ELREAEIALERQRFECKTLIEHIPDFLLRFAPDGTITFVNENFTRFRGSSAEAYLGHRVQ
+EFLKGGEDDPLWLALTALTPTQPITRYEDRMKSINGEEIWIFWSSIAAFEDDHLLEYVAI
+GRDISMLKEQQQRIEEQARELKRKNDALNQFTGTVSHDLKAPLRHVSMFSEMMCEDIQRG
+EYASAPVYADHLRQAVRRMRKMIDSLLDYARVADAIVTPERLNLRQPVEEALINLASSIA
+DAEAVIEIGELPDVIGDQALLARLCQNIIGNAVKYRRQDAAPYIRIRSGTGTKDTVRILF
+EDNGIGIEPRYAQKIFEVFQRLHRDESVYPGTGIGLALAQRVAESHRGTIELDTDYQGGT
+CFVLTLPAIKSTARR
+>tr|A0A1Q9AMI5|A0A1Q9AMI5_9RHIZ
+MSTAPGPAPASGLARLARPVQWGLLLVASAALAAILEWFGLPAALLMGPMLSGIAFGLSG
+ATIRLAKPSVIVAQALIGTMIAGAITGNILVTFLGNWPLFLAIIVAVIAMSTLSGWAISR
+LNILPGTTAIWGCSAGAAGTMMLMAEAYGADARLVAFMQYLRVLFVAGCAALVAHYWVGL
+SGREPAPIDFFNPVEPLAFAETIVMMVATTALGLALKLPAGGVMAPFIIGGILNATGVIT
+VVLPNWLLTIGYALLGWNIGLGFNRAIVAHARRALLPTVLSIVVLIGLSGLLAALLSKLA
+GIDPLTAYLATSPGGMDSIAIIAASSDVDVPFVMALQTARLILVTLIGPALARMMANRTQ
+PLDG
+>tr|A0A1Q9AI18|A0A1Q9AI18_9RHIZ
+MRHTIFVAAMLLSLPAKAADIRRDSGSGGIDLISVSGTFTEGDDSAFRKLAAATDRAVVV
+LNSGGGNLQAGLEIGKAIRLRGFATAVPPDALCASACALTWLAGTPRLMDARSKLGFHAA
+YRLVNGRASESGAANALVGAYLNQLGLSDKAVVYVTSAPPEGVEWLTSQTAASVGIGYET
+ITVKAPRAVETEKSVPYDPIFAATAFYTALSAADGEAAASLVVPEKRGKGPFNEQSIHTF
+YGAMSAKLKLTGTSLSGKDTVRVSYEYRTDQGRQCRGRADVQTVYTYGRTLISRIKALDG
+C
+>tr|A0A1Q9AJE0|A0A1Q9AJE0_9RHIZ
+MLNLLEDHAVVVLGGAHLDRRGRIGGQTVMGASNPGSLFEEAGGGGFNAARNLARLGAAV
+TMVSPRGGDAAGEMVAQAALDAGVTDKPFVFLDRRTPSYTAILEADGNLVIAIADMDLYR
+LFGPRRVQQRQLREQIAAADALLTDANLPAETLLAALLLAEAEGRIKAGIAISPAKVLRF
+QPSLDALDLLFMNRAEAAALVAAQTGLDGEADGAGIDPASVDPASWPARLSALGLKGGVV
+TSGAGPVIAFSHGQAVLLQPPKLPALADVTGAGDSLAAGFLAARLAGLDLGQSLRHGVAA
+SLVTLASPLAVSSQMSPPLLAGALAHVPDVTHLPPVRGSSAASIAAF
+>tr|A0A1Q9ADS1|A0A1Q9ADS1_9RHIZ
+MKIASQTIDFSHHRRVDTRAIDEAREAIGRIFCPHFLDVTDRARARFHARHAVADGPGYS
+VNLVSYGAEVEIDPGELSRFFLLQLPLKGHARVRCGTAMVEAAAGRRASLLSPTLATRMR
+WMEGCEKLIVLIERAAVECHAAAFDGGRDGPVEFSPEIDLTAPVGRAALQHAVLMAAAAV
+SPLPLPEAYRLLLRDGLISLLFNGLGHNRSAPSPRPGTVDAPAPVRRAQAFIEAHAAHPI
+TTAEIATAAGLSLRSLQDAFRKARGMTLIEALQAARLEKLRAKLLRPEEALTVADAVFDC
+GLGHLGRAAAAYRDRYGETPSQTLRRGLPQARHGMRT
+>tr|A0A1Q9AIE2|A0A1Q9AIE2_9RHIZ
+MRQSIALMGCLMASLFAAISVAGAQDGNEAARAVFAPVVKEHAIPGLVVGITRNGKHSFY
+LSGLASKADRRAVTPDTLFELGSISKIFTVTLAALAEERGKLRLDDTLAQHLCAGACTIS
+GDLTLMDLATHRSGGLPLQVPDGVKTVDGLARWLKSWQPPKPGARSYSNISIGLLGHVTG
+KALDMPYKQAVQTVLFPAFGLENSWIDVPKRQMALYAYGYDWRSGAPIRVNPGLLDAEAY
+GVKSSARDMLQLLDVELGQADAPKELRKAIARTREPQYRTAFFTQDMIWEQYPWPVGLER
+MVAGNGPDMIMTPQPVEALDPAARAGDPVILNKTGSTNGFGNYIAMVPSERLGVVMLANK
+NIPIEARVRATYALIKALLGP
+>tr|A0A1Q9ANQ9|A0A1Q9ANQ9_9RHIZ
+MSMQHAERTASAAVRAGFLSEATARRIETAILPLAALLAGMIAFSIFLAFLGKPPLDFYL
+LVYKAGFGTAFSWTNTLARAAPLLLAALCVALPARLGLVIIGGEGAIVLGGVAAGAVATL
+MPGLPGPAGILLMALAGALVGGLWIGGVGALRHLRGVNETIASLLMAYVAIALMNHLVEG
+LLRDPASLNKPSTAPLPAAWRIGEIPGLGVHWGLAVGILGCILSWVLIERTTWGFAARIV
+GGNLRAARIQGLPAGRLVIGFTALGGAFAGLAGMFEVAAVHGSANASLAAGYGYTGILIA
+FLARHNGLAIVPAAILLAGLEASSGLIQRRMALPDATVLVLEGMVFIAILLSDTFQDRLK
+FLSFLERRQK
+>tr|A0A1Q9AGB8|A0A1Q9AGB8_9RHIZ
+MSETNGNGAAQSPSLNILAQYVKDLSFENPGAPRSLQARDKAPSININVNVNANPLSETE
+FDVILTLNAVATEGDRTIFNAELAYGGVFRVTGFPQEHMLPLLFIECPRLLFPFARQIIA
+DATRNGGFPPLMIDPIDFAEMFTQRMAEEKVRSQVSANTN
+>tr|A0A1Q9AGD1|A0A1Q9AGD1_9RHIZ
+MSEDLSRRRLGRGLAALIGEMDQPLPAAAERPTVSADRKVPIEFISRNPRNPRRTFDEQE
+LQDLAASVRQHGIVQPVVVRTMPEDRYEIIAGERRWRAAQLAGLIEIPVIIRDVDDRTAL
+EIAIVENVQRSDLNPVEEAMGYEQLMAEHGYTQNDLGEIVGKSRSHVANSLRLLKLPDPV
+RDMLSSGTLSAGHARALIPTSDPIKLAQAVIAKGLSVRDTEKLAQNDIKAQNDPNGGRPQ
+LKPAKDADTLALERTLSDSLGLEVSVSHKASGGQLKISYRTLEQLEDLCRILERR
+>tr|A0A1Q9AMB1|A0A1Q9AMB1_9RHIZ
+MFALKRRRTARLRESDLLEADDKIVLPRPLRRVTRFLLCLCTGRIRFPAYTGTISALALF
+GATGLYGMNLGGHSQTVAQATTSAAGFAIEDVKIAGNEQTSDIDILQQLGLDGTTSLVAL
+DVETARDLIAKMPWVEHVTVRKVYPRTIQVTLKERQAFGIWQHGTELSLIEKSGSVIAPL
+RDNKFAGLPLFVGRDAETAAAGFYQSFSRWPDIQKRVKAYVRIAGRRWDLVMDNGVTVKL
+PERDLERAMEVLSTMEEGQQLLERDIAAVDLRLEDRTTIQLSAEAAARRGSLVDARNKQL
+MKLEKQESAL
+>tr|A0A1Q9AG90|A0A1Q9AG90_9RHIZ
+MTSSITTLRALLAATIFFAAAPSWAENVLYRGNAGEPTTLDQHHTSINIEEFILKDLYEG
+LTLYDAKGVIVPGAAESWTLSKDGLTYTFKIRENAKWSDGSPVTAEDFVFSFRRAEDPKT
+AAAYANILYPIKNAEKVNKGELPIDQLGARAIDAKTLELTVERPTPFFLELLAHQTALPL
+SKASVEKNGADFVKPGVLVSNGAFKLAEHVANDHLTLVKNPEHWDAANTKLDKVIFYPLE
+DQAAAVRRYEAGELHVDYNFSADQLPRLRQQFGGEVHVSPALATYYYTFDTRSEPMNDVR
+VRRALSMAVDRDFLANEIYKGAQQPLYSWIPPGIASYGTPEKADFADKGQLDREDEALKL
+MKEAGYGEGGKPLTLEIRYNTNPNHERVATAIADMWKTTFGAQVSLVNLDVSSHYSYLQQ
+DGKYSAARAGWTADYADAENFLSLNISTNKTFNYAHWKNADYDALMAKSYDEQNPEARQK
+LLHQAEAILMKEQPVAPFLVNNDLWLVSKKVQGWYDNANNQHLSRFLSVSN
+>tr|A0A1Q9AMC8|A0A1Q9AMC8_9RHIZ
+MMEKGATMALAGLILLALILAAGLLLARFGLPDDPRILLPVLGAGLLCALAGTAFLIRRA
+GRRAAPAVAIKETAGPAKTATSFKERRLINALSGLADRRALERDVRARTENWGKPILVLD
+VLGFEKIAGRANGESSARLLKALCDRLGQNCRVFGRLFQLSDTRFAVLVEGQPSAGKVAD
+ICHFLRLLVREPFVLPDGEFSLDLAVGATVIGSHDQHIREVLARAERGAARAAGEMQGQP
+VYEPVPPPAPGRSRPRPAAGA
+>tr|A0A1Q9ADN4|A0A1Q9ADN4_9RHIZ
+MTTSVAQTPEKAKDPIFRSAAIGVALLLIACVASRAPTQFDGKLPFVGQFVPFQLNAVYL
+IVFGPIAATLLAAYFWYQTTARPIQSAERPSREIVRLGGLFLGITILTFFLSAQYFIELA
+PEALCATRPHYDFLWTSTPGVNQIFHCMSGTQALNKGSPYYIEPQIVQSWGHVFWPVLTG
+YFLYRAWRRWRPIS
+>tr|A0A1Q9AG70|A0A1Q9AG70_9RHIZ
+MIDFDSVSRLYGDRPAVADVSLRVGTGEIAVIVGTSGSGKTTLLRMVNRLVEPSSGRILI
+GGRDNRTLPAHALRRGIGYAIQGHGLFPHRTVAENIATVPSLLGWDAKRISARVDELLSL
+FHLDPALFRDRMPHQLSGGQQQRIGVARALAAEPPVLLMDEPFGALDPIIREKAQEDLLA
+IQKAYGTTIILVTHDMDEALHLGTRIGVMDAGRLVQYDVPHAIVAAPATDFVRSLLGAGD
+RAFHLLSLSTVEEMIESGEAPGAAIPADMSMRAALSESLWSRREALPVAKDGRVIGRVTR
+AALERRGAGPQ
+>tr|A0A1Q9AQF2|A0A1Q9AQF2_9RHIZ
+MDNLRPIECFVRAAELGSIAAAARKLGITPAAASQNIARLEETLGTRLMRRTTRRLALTE
+AGRVYLERVAPLLEALERAGDAAVALGGRPRGRLKIACSIAFGRHVLARLLPRFLAAYPE
+IAVELALGDISADHLGDDIDVSIRFQNQLEPGLISRRLLTVPIHLVASPAYLARAGTPKT
+PEALKDHDCLAFRFARNGRILPWGFVRDGARFEPPLGVKIVANDIDTLATLALAGQGITR
+LGAFLADPLIEEGRLVSLFARPGDGAALGTAAEGAPSFADPEPLEIYVCVVDRLAETAKI
+RAFIDFAVEMLKGPWPPRSLSGG
+>tr|A0A1Q9APH9|A0A1Q9APH9_9RHIZ
+MIDKTYPRDLVGYGRNSPDARWPGGAKVAVQFVLNYEEGGESCILDGDPASENLLSEIVG
+AAAWPGQRNLNMESIYEYGSRAGFWRLHRLFTGLNLPVTVYGVTLAMARNPEAVAAMKEA
+GWEIASHGYRWHEYKDYPEDLERQHILDAVRIHTELTGERPYGMYQGKPSTNTLKLVMEE
+GGFLYSSDNYSDDLPFWVPDLQGKPFLIIPYTLDTNDMRFATPQGFNSGDQFFTYLKDAF
+DELYREGEEGSPKMMSVGLHCRLVGRPARVAALRRFLEYILSYRDVWIPRRIEIARHWHA
+HHKPSW
+>tr|A0A1Q9AEF1|A0A1Q9AEF1_9RHIZ
+MTARSFVSSALRHTALLLIAAFALLPFAVMVSTSIKPADEIFSETLRWWPQKLAVIENYT
+EAFSAAPLMLYLMNGVVVTAAIFFLQVLVTLPAAYALAKLHFFGRRLAFGFVLFCLLIPY
+QAIAVPLFILLYYVGLLDSYSALVLPFTISVFGIFLMRQFFMGVPDDLVDAARMDGMSEL
+SIVWRVMLPAAIPALTAFGVFSIVTHWNDYFWPLVAVSSDKYFTPPLGVMAFRNAEAGND
+FGPLMAAATIIVAPLLCLFLLAQRRFIEGIAFTGIK
+>tr|A0A1Q9AHD1|A0A1Q9AHD1_9RHIZ
+MSRIPFPPMRYPLVAILRGLKPEEAEAVVGTLLEAGLRAIEIPLNSPDPFRSIEIAAKMA
+PKDALIGAGTVLTTEDVDRLDQVGGRLFVSPNVDAPVIAHAASKGMVTLPGVFTPTEALA
+AARAGATGLKFFPASVLGASGISAIRAVLPKELEIAAVGGVSETDFADYAKIGVKSFGLG
+SSLFKPGMTATEVRARADATIKAYDAVYGA
+>tr|A0A1Q9ALJ5|A0A1Q9ALJ5_9RHIZ
+MATAAIGVAALADTYSEAVKTAATVSDRVLAGSALAIADRVVVAEDGSLDVDVPYVALEM
+LTSAAQDRVFYRVEGPPGHFITGYESLPSVGDMAGRTAVYADGEFRGEPIRLAALERSAS
+TGVSSVPFVVTVAETTIARQQLAEALLLRSAIRLGLTILAAAAVVWLAVTVSLRPLTRLS
+EAIGARNPDDLQPIDPVVPREIRRLVDTVNGFMVRLKAALDALRRFNGNASHQLRTPLAI
+VRTQLALAARAQDLGEAKAAAQRADAAVAHAERILAQLLLLAKIDAAGSEMPPQPVRLDL
+TRLAQELTADHVPRASDAGIDLGFEGEAGVMLSAEPILVGELLRNLVENALAYAGAGAEV
+TVRVGEGTDGVFLEVEDNGPGIAPERLASLRQRFVRGSEAAPGLGLGLSIVEEIAARFSG
+RLILRPGAGGCGLKARVVFAGQGADPVELHAPAAAPA
+>tr|A0A1Q9AH18|A0A1Q9AH18_9RHIZ
+MTQTSGLMAGKRGIIMGVANNRSIAWGIAKAIHAQGGEIAFTHQGDALKKRVEPLAAEIG
+AVMAGHCDVSDEASIDAVFDNIEKLWGKIDFLVHAIGFSDKDELTGRYVDTSPDNFAKTM
+QISVYSFTSVARRAEKLMTEGGSLLTMTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDL
+GPKNIRVNAISAGPIKTLAASGIGDFRYILKWNEYNAPLRRTVTIEEVGDVGLYFLCDLS
+RSVTGEVHHADSGYHVVGMKAVDAPDISVVKD
+>tr|A0A1Q9AJT4|A0A1Q9AJT4_9RHIZ
+MTVLTIEALAEALAPRTAIAGLDLGTKTIGLSVSDLGRRFATPRTVIKRQKFTLDAEILL
+DFAEKEKIAAFVIGLPMNMDGSAGPRVQATRAFVRSMEQKTTLPFVYWDERLSTVAAQRT
+LIEMDVSRAKRAERIDSAAASFILQGALDRLTALARAVSEDASD
+>tr|A0A1Q9ANX3|A0A1Q9ANX3_9RHIZ
+MKTMLARLALAGFVTLSGFAATQASAGNLTVGIYAGEAMPVQYRDERDWRGGPPPGPRHG
+WRPERAGRCAPWLAEDKARAYGLRRTRVVAVTPRRVIVEGRRFGDFRRISFANVRGCPAL
+R
+>tr|A0A1Q9APF3|A0A1Q9APF3_9RHIZ
+MNSGTVKWFNSTKGFGFIAPDNGGADIFVHISAVERSGLGTLSDGQKVNFEIVRDKRSGR
+SAAENLQAA
+>tr|A0A1Q9AE10|A0A1Q9AE10_9RHIZ
+MKLLRHGPAGAEKPALLDADGKIRDLSGIIPDLAGDVLSDAGLDRLRALDVRSLPVITPE
+RIGACVAGTSKFICVGLNYADHAKETGKAPPEEPILFMKATTAIIGPNDPVEIPRGSKKA
+DWEVELGVVIGTRAKYVSEADALSHVAGYCVINDVSERAFQSERGGQWTKGKSHDTFGPT
+GPWLVTRDAVADPQKLALWLDVDGQRRQTGNTDTMIFGVAYLVSYISRFMTLLPGDIIAT
+GTPPGVGMGIKPEPVFLREGQVMTLGIEGLGEQRQTTIAARD
+>tr|A0A1Q9ADM0|A0A1Q9ADM0_9RHIZ
+MDRLTGLSAFVRTAELGSFAAAGRVLGLSPSAVGKAVSRLESQLSVQLIQRTTRSLRLTE
+EGRDFHERCRRILDDLDDAQESLLRTREAPRGPLRLSCPIIAYYLLLPILPAFMERYPEI
+TLDLDFTDRIVDLIEEGVDVAIRSGQLPDSRLMVRTLRPFRLLLMATPAYLARHGTPRCP
+RDLANHCSIGFRYPNSGKIQTWPLRRPEGEPEPRLRYVLTCNNMEALRGAVLRDLGIGCM
+PDFLAEAPVLAGDLVPVLLDHLDAPSQFNLIWPSSRHLSPKVRVLVDFLAERLFLSTPCL
+SHQQGQTGAGSKA
+>tr|A0A1Q9AML2|A0A1Q9AML2_9RHIZ
+MTGQTIARRPNQLFRNLNAKIASIPMILTAVVIFLGGTLWTVVYSFTNSKLLPRLSFVGF
+DQYERLWAATRWTVSITNLAIYGVLTLIFSLVIGFVLAALMDQKIRFENTFRTIFLYPFA
+LSFIVTGLVWQWVLNPEFGIQSVVRSLGWTSFTFDPLYNADIVIYGILIAGLWQGTGLVM
+CLMLAGLRGIDGEIWKAARVDGIPTWKTYLFIVIPMMRAVFVTTLVIIASGIVRVYDLVV
+AQTSGGPGIASEVPAKYVYDYMFQAQNLGQGFAASTMMLVTVAIIIVPWAYLEFGGKKRG
+>tr|A0A1Q9ADU9|A0A1Q9ADU9_9RHIZ
+MADLLLSYYGDDFTGSTDVMEALAAHGVPTVCFLGIPTPELRARFSDCRAIGIAGTSRSQ
+TPDWMAAELPPVFSWLKDQGAALTHYKLCSTFDSAPATGNIGRAIEIGRQVFAQALVPVV
+VGAPELKRYTAFGHLFAAYQGRTYRIDRHPVMARHPVTPMDESDLTLHLARQTALPIGLV
+DLPMLAGDGAGAIAQARDEGKAILFLDVDGAESQAAAGRALWQGRDAAPFLAGSSGVEYA
+LLRAWRAEGLAGERIAFDPPGAVERLAVVSGSVSPTTERQIRAALDDGFEGIAIDPLALT
+EGDGASAIETAVTQGLAGLKAGRSVILYTALGPSADRGGEIDRVADARHRLGARLGTILR
+RLVEAEGLTRAVIAGGDTSSHALKELRIDALTTRLPLPQTPGSPLCTGHGAHAPTNGLEI
+ALKGGQVGADDYFSQIRAGRAG
+>tr|A0A1Q9AK47|A0A1Q9AK47_9RHIZ
+MIRIENISKQNSHRLLFIEASAALNKGEKIGLVGPNGAGKTTLFRMITGQELPDEGQVSV
+DKGVTIGYFDQDVGEMAGRSAVAEVMDGAGPVSQVAAELAELEAAMSDPDRMDEMEAIIE
+RYGEVQGRYEELDGYALEGRAREVLAGLSFTQGMMDGDVGKLSGGWKMRVALARILLMRP
+DVMLLDEPSNHLDLESLIWLESFLKSYDGALLMTSHDREFMNRIVTKIIEIDGGSLTSYS
+GDYEFYEGQRALSEKHQQAQFERQQAMLAKEIRFIERFKARASHAAQVQSRVKKLDKIER
+VEPPRRRQTVAFEFQPAPRSGEDVINLKNVHKAYGTRVIYEDFSFIVRRRERWCILGING
+AGKSTLLKLVAGASAPDAGSVALGASVKMGYFAQHAMDLLSGDQTVFQWLEESFPKAGQG
+PLRALAGCFGFSGDDVEKRCRVLSGGEKARLVMAAMLFDPPNLLVLDEPTNHLDLDTKEM
+LIKALAQFEGTMLFVSHDRHFLGALSNRVLELTPDGVHQYGGGYTDYVARTGQEAPGLHP
+>tr|A0A1Q9AM24|A0A1Q9AM24_9RHIZ
+MKKYVLTVSCKSTRGIVAAISGFLAEHGCNIVDSAQFDDLETGTFFMRVSFLSEEGADRA
+VLAQAFAPAAETFAMRWNVFDEQERMKVLLMVSRFGHCLNDLLYRWKIGALPIDIVGVVS
+NHFDYQKLVVNHDIPFHQIAVTKENKPQAEAQLLEIVERSGAELIVLARYMQVLSDRLCA
+KMSGRIINIHHSFLPSFKGANPYKQAYMRGVKLIGATAHYVTADLDEGPIIEQDTVRVTH
+AQSPDDYISLGRDVESQVLARAIHAHIHHRTFINGNKTVVFPPGPGAFASERMG
+>tr|A0A1Q9AK00|A0A1Q9AK00_9RHIZ
+MRRSGLASFLLWIGLTLLTLLPVWWMLVVSMRPRVKLYSKSVLIDAVYWDNFLAVLNSAT
+FLRYLWNSMLVATSNAALVCALGLLAAFGLSRYRISGGDNVFFWLITNRMAPPAVFLLPL
+FLLFTKWFVFGDAMLFDTKIGLILLYCVFNLPFAIWLLKGMLDGIPLELDEAARVDGATT
+AQVLSNVILPLARPGLAVTFILTWIFAWNEYLFAATLTSSANARTVTTALAEYVSVTGTN
+WGEMAAMAFLTTLPALIVLGFVQKHIVAGLTFGALKG
+>tr|A0A1Q9AHZ4|A0A1Q9AHZ4_9RHIZ
+MPSSPADRRLPVTVLSGFLGAGKTSLLNHVLHNRENRRVALIVNDMSEVNIDADLVREGG
+AGLSRTEEKLVELSNGCICCTLRDDLLAEVRNLAEDGRFDYLLIESSGISEPLPVAGTFS
+FRDESGQSLSDVARLDTMVTVVDAVSLLHDYGSHELLADRGEVAGEGDERSIVDLLVEQI
+EFADVVVINKVSEVSPVERGQVRAIIRGLNADCRIVETDFGRAPLSDILDTGLFDEDKAE
+RHPMWFKELYGYKDHVPETEEYGISSFVYRARAPFDPTRFAAFIQSTWPGLIRAKGHFWL
+ATRPDWVGEFSLAGSIARTTPLGRWWASIDKREWPDHPEWHRHLMKRWDESWGDRRQELV
+FIGHGMDETALRAALDSCLVENAQDFRPAAWARLPDPFPRWGRSEAA
+>tr|A0A1Q9APN9|A0A1Q9APN9_9RHIZ
+MAQKIKLSTIAETLGVSTATVSLALRDSPLVAAQTRDKIKEQARALGYIYNRRAASLRTS
+RSGIIGVVVHDIMNPFYGEILKAIEAELDRDRQTFILSNHYDSVEKQRVFIETLLQLGGD
+GVIMSPAIGTPPEDIRLAEDNGMPAILIARSVEGLDVPIFRGDDAYGIALATNHLIGLGH
+RCIAMVGGTDQTSTGRDRYQGYVTALRKANIEVDPELRIPGPRSMQGGFEAAVHLLSLPQ
+RPTAVVCWNDLVAIGMMNGIARAGLVPGRDISVTGYDDLEEASLSTPALTTVWNGQSDVG
+RSAARALLDKLAGSHDPDGIHLIKPEMRIRQSTGPLRQAAAQDIA
+>tr|A0A1Q9AMH6|A0A1Q9AMH6_9RHIZ
+MLSRIFVAVGGLLVVALFGALIAPLFIDWTNFRQDFEREATRIIGQPVTVHGSVDARLIP
+FPSVTLNDVRIGRGEDGAPLVSVAHFSMDAELAPFLSGEALIFDMRLDQPKARLKLLPDG
+TLDWARGRQASIPAKSVVLEKVSVTGGEVAFIDEQTGRTRRLTGLDADLSARTLAGPWQV
+EGRGALDGEAGRFSLSSGEPDSEGALPLRARLIPDKRPFGFDLEGLLKIVDFRPLYQGKF
+TLTENRGQQAQDAKGADVQAPRITGTFELTNERIRVPDYRLEVGPRDDPYLVTGEATLDT
+GKVPQFLLLANGQQIDVSRIGNRGGEAGKTNRNPDVSVRQRLQAMLNILADIPIPQVPGR
+ANLRLPAIVIGDTTVRDVRLDLRPDRAGWLVDNAVAQLPGRTQLEAKGRLTLVGQRAFRG
+DLLMASTQPSGLASWLAGSVDPALRRLPTAGFSASVNLTDSLQQFERLEIAAGPATLHGR
+IERQSLADAPPTLTVQLKGNRIDLDALRALTGLVAGDTSTETVLAHTIAADISAEEFSAF
+GETARDVQLIATLKNGQIQAERVSVGDLAGAQLALSGRMSGQLSSPAVAAKMKIAAEDLT
+PLLQLIARHAPAHPAFERLVRAGPYYANAALDFTLTTGAKDGAATANFGMVGTANGSRIA
+VNYQAPDLAKALKGEGLLLEATIENPSSLVVLGQAGFDPLPFDPDGNGQMSLRLQETDGS
+KANGTLTFNTQNTALSLTGEADLAAADFLAGQGKLSLESRDLEPLLLLQGISLPQMGMGL
+AAQLKADVTVSREAVALANLQGQAAGDNVSGTLNFSRTTPGKADGKLAVDTVSLPWMAEG
+IFGPLTEPAAEQLSDAKLPAAPWTGLDMTVALTAKQFWPGLYGAIDNFSGTLAWRGDQLA
+LTDAKGDWLGGKASGQLTTGSNGGSGFLQGKLMIAGGDLGRAVWQRQGAPVARGLGDFAV
+AFNASGKSPQAMAQSLTGSGTLAVKDLTLRGLNTRGFNALLAAADKLEGDVTSAQAGEIA
+GPLLFGGEAALSSVTIPFSLAGGTLRAQEITAGDAAAAVKGNLELRLPEDRINGVLSLTY
+KAGDATLAGAEPAVDLRVAGRLQDPGVSVDYSPLANYLSLRAFERERRRVETLQANVLEK
+QRLRREAALLRAQQAAREAERLRRLEEERRRAEAEQQQRIQAEQARAAEEARRQAAAAKA
+EADRRAAEAAAKAEAERRANESQAPVLPVSPSDSVERGRTLAPPQDAPGLGLDPPGRRPD
+LDFQSLPGVPSP
+>tr|A0A1Q9AP88|A0A1Q9AP88_9RHIZ
+MQLSDYQNHDATGLAECVARGDVTPDELLDAALAGVAAVNGRLNAVVATFEEEARRFIRD
+ELGDGPFRGVPFLLKDLTAHYGGQPTGAGWPPRARIKPAADAELVRRFKKAGVVIFGKTS
+VPELAMDWTTRSRIHGVTNNPWDPSRTAGTSSGGTAVSVAAGIVPMAHGNDGGGSIRVPS
+SVCGVFGLKPSRGRNPVAPSGSTWQGMLVEHVLSRSVRDSAAMLDATHGHHRGQFYNNPP
+GGNFASEVGRDPGRLRIAVSTRAPYGAPTHPDCVQAVEQTVRLLESLGHICEPYDIDLPA
+DGWSAFETFILAEYATDMRLEEQVLGRRLTADDFEPLLWDMIEAGNRISAVEVNVATTRL
+HAVAAAVTATFDRYDVFLSPTLAQPPLPHDAFPQATSMRGHYEFYLSWMPYTHIFNVNGS
+PAMSVPLVWNEAGLPIGVQFAAAPAEEGLLYRLASQLEIASPWKNRRPPVSIA
+>tr|A0A1Q9AQ13|A0A1Q9AQ13_9RHIZ
+MPARAEILRSGLGALVGIGLTGLLAQGLGGLLPAPLPPALIPPMGASAVLLFAVPSSPLA
+QPWNLMAGNLVAALIGVSLAALLPAPVPAAAIAIGLAIAAMMVLRCLHPPSGAVALTAVL
+GGPAVHGLGYGFVLWPVMGNSLLLLGAALAYNRLAGRLYPHAPRSLHRTEDPPAFDRVGF
+TSADLDQALKDYGQFLDVNREDLENILRRTELKALRRRGGQILCGQVMSRDVIAVAPDTA
+LSEAHALMRAHHIKALPVTDDQARILGIVTQTDLLDRADWRGGRPGIGFSRRLALALRGA
+SAPNGTAKDIMTVPVKTVTPDMAIVEAIVLFAEAGLHHLPVVGDAGRLVGIVSQSDVLVA
+MLAERQGAA
+>tr|A0A1Q9AM44|A0A1Q9AM44_9RHIZ
+MNERTEIDGLLALEGIRKEFPGVLALDNVQLRIRKGSVHALMGENGAGKSTLMKIIAGIY
+QPDAGEIRLRGEPVTLKSPLDALEQGIAMIHQELQLMNWMTIAENIWIRREPRNRFGLID
+HGKMAEMTRALFARLNLSLDPDTQVSELTVAQKQMVEIARAVSYESRILIMDEPTSALTE
+REVEHLFAIIRDLKARDIGIIYITHKMNELFEIADEFTVFRDGKYIGTHSSKDVTRDDII
+RMMVGREITNMFPKIDCAIGDVILDVKNLTIPGVFHDISFSLRRGEILGLAGLVGAKRSN
+VAEALFGVTPADSGQILIDNKPVTIKSPNEAMAHGMAFLTEDRKETGCFLTLDCLENIQS
+ALITRSHVKAGFVDQKRVTELAEGMAKKLRVKTPNLHEIVENLSGGNQQKLLIARWLLTK
+PRILILDEPTRGIDVGAKSEIHRLITGLAAEGVAVLMISSELPEVLGMSDRIMVMQEGRV
+SGFLDRAEADQIKIMDLAAR
+>tr|A0A1Q9AHH0|A0A1Q9AHH0_9RHIZ
+MTIQNLEIAAGGVVLVRDVSLTLAPRRTVTILGETGSGKTLVAEAAMGTLAPELSAGGRI
+GLGGEISDASDRAARRGAWGRRIAMLPQEPWVSLDPTMRSLAQVAEGHRFVRGLGAAPAR
+RQARADLAALNLAAGDDRYPHQLSGGMAQRVAFASARAGGAPITLADEPTKGLDVTMRDA
+VVALLGKAVEEGGSLLCITHDIAVARALGGEVIVMLKGEIVERGAAEAVLTAPSHPYTRR
+LVAADPENWPRAGGKAPGELVLEGAGLAASRNGQRLFSDLDLAVRAGEWIGVTGPSGCGK
+TTLGNVLLGLMPPTAGRVRRREGLARTRFQKLYQDPVATFSRHVSLRTALSETAARHHVP
+FGHVMRFLERLRVPEALLDRRPGQVSGGELQRVALARVLIADPVFLFADEPTSRLDPITQ
+QETMEVLREVTRERGCGTLLVTHDGAMADRITERRIVLGPVSK
+>tr|A0A1Q9AMS4|A0A1Q9AMS4_9RHIZ
+MRAHGDEGRIMPQAVGSRITIKAVERAMARRSWRLRFSAALEEAFLESYVGQRLAHALVW
+CLTAMVIYDLMLVKDALLMPEHFPAMFVMRCIVFTAACLWLTYVKLRWRQPDLHDLLSVA
+IFLLAVLLPLLVMVWSDSPYRVVYQVGTVAMMIYFTLVVRLRFVPTLCALMIATAIQISA
+TLVSGMLTMAAFVSFTTIVLCLAASAYILERAERRDFLRFWQERLLQQSLREEAERDGLT
+GLRNRYGLAADVIGLWQTAIPQCIFALMIDIDHFKAFNIAEGSARADRCMQRIAARLCEF
+ANQRVRIYRNGGDRILVLALDMTIDEVFGLAEQLRAAVEGLAIPHQALGRGQVVTVSLGV
+AAADAPHTSIDTLLDHAAFVLHEAKRHGRNCVWPPQLPSLLAARAAAPVSLTSSGMEECG
+VVEGRLALRA
+>tr|A0A1Q9AP28|A0A1Q9AP28_9RHIZ
+MLHHVEIYVSDLDASFDFWSTLLAQLGYEETAFWGEGFTLGNHRDAYLTFVQVKERYREQ
+TYHRCGVGLNHLAFRVEGRDAVDALRAFCLSSGIVSLYDERYPFAGGETHYALYVEDPDR
+IKVEFVAV
+>tr|A0A1Q9AD85|A0A1Q9AD85_9RHIZ
+MTSARVETSHATIAVSMTDGPGLPVLMIHGNSASGIVFRQQMEGDIGRQWRLIVPDLPGH
+GVSSDAIDPGRTYSMEGYAQAMVELLERLGTAQAAVFGWSLGGHVGLEMIKRFPGLRGLM
+ITGTPPLTRETLGEAFLAGEAAGLSGKEHFSPEDVALYARATCGEPFKEAFLAMVARTDG
+RARRMMVEAFLAGTGDDQSRLAREAPVPLAVVNGADEPFVNLDFVARAAYGNLWDGRTHV
+IPGAGHAPFRGRSAEFDGLLARFLRGVGPR
+>tr|A0A1Q9ADI1|A0A1Q9ADI1_9RHIZ
+MKTLLIATALAAILGAAGSAAAADMVFTSWGGTTQDAQKAAWADSFAAASGIKVVQDGPT
+DYGKIKAMVEAGNVTWDVVDVEGDYAVQAGKAGLLEKLDFSTIDKSKLDPRFVTDYSVGS
+FYYSFVIGCNKDAAGTCPKSWKDLFDTAKFPGKRAFYKWSAPGVIEAALLADGVPADKLY
+PLDLDRAFKKLDTIKADIVWWDGGAASQQLLASGEAPFGSFWNGRLTALAATGVTVETSW
+DQNITAADALVVPKGTKNKEAAMKFIANATAAKPQAEFAAVTGYAPINLGSPDLMDAAIR
+KTLPDMQAASQVNADMSYWAEHRDAIGKRWYAWQAK
+>tr|A0A1Q9AEV3|A0A1Q9AEV3_9RHIZ
+MAPERIEQMATDREATLPEGLIDLAALKSRVEFIASVHADQPDQRRQALMALLKEANLKG
+REVARRMLMEDGSGLACAARISRLQDELITVLHDFALAHVFNGLATPAAQRIAVAAVGGY
+GRGTLAPGSDIDLLFLLPAQKAAWSEPAIEFILYALWDLGFKVGHATRTIEQCITLSRED
+MTIRTAILEARCICGNRPLAADLEQRFDHEVIRNTGPDFIAAKLAERDQRHQKAGDTRYL
+VEPNVKEGKGGLRDLHTLFWIAKYYYRVRDAADLIKLGVLSRQEYNLFLKSDDFLWAVRC
+HMHFLTGKAEERLAFDIQPQIAESFGYQAHPGLTAVERFMKHYFHVAKNVGDLTRIFCAA
+LEDQQAKELPGFAATLARFRRRTRKIPGSLEFVDDGGRIALASPDVFRRDPVNLIRFFHI
+ADVNGLEFHPAALKQITRSLGLITPSLRENEEANRLFVSMLTSKRDPGLILRRMNEAGVL
+GRFIPDFGRIVSMMQFNMYHHYTVDEHLLRALDTLARIDQGKDKDIHPLAVELMPHVEDR
+TALFVAVLIHDVAKGRPEDHSAAGARVARRLCPRFGLTPKQTELVAWLIEEHLTMSMVAQ
+TRDLNDRKTIVDFAERVQSLERLKMLLVLTVCDIRAVGPGVWNGWKGQLLRTLYYETELL
+LSGGFSETPRKERAAHAARRLEQALTDWDPAARSAYVAMHYQPYLLSVALEDQLRHARFI
+READIDGRALATMVRTHEFHAITEITVLAPDHPRLLAIIAGACAAAGANIVDAQIFTTAE
+GRALDTILVTREFPVEADELRRAANIGKLIEEVLAGRKRLPEVIASRTKGRRRNKTFTLA
+PSVTLSNTLSNKFTVIEVECLDRTGLLSEVTATLADLSLDITSAHITTFGEKVIDTFYVT
+DLVGQKVTNENRQAHIAQHLRTILAGETDEARARLPSGITPPQPATRVAARKAKA
+>tr|A0A1Q9AKY3|A0A1Q9AKY3_9RHIZ
+MTVEDFSQAYQSRFVTRPEGIRLHLRDYAGPHDAAPVIVCLAGLTRNSRDFHLFALQARA
+QARIIAIDSRGRGQSDPDPDPSRYTIETETDDVLAVLTALAIGRAAFIGTSRGGLILHRL
+VALRPELLSAVVLNDIGPEIPAPALCALIAGLTARSGETSYEAAADALRLAQADAFPALD
+AQDWQAMAQAIYRPDAATGGVVPDYDPALLTGFGGLTPDMVLPDLWQAFALFAPLPLMVV
+RGEHSAILPATVLEAMTQRHPRLRSLVAPGQGHAPLLDRAEIAAPILDFVGSATTPPP
+>tr|A0A1Q9AM51|A0A1Q9AM51_9RHIZ
+MTDIRTIVRFLSATLVLLALLAFAARPAGATDYPVTLTDSHGRSVTIPARPKAILLGTGF
+HLVALSLVDPDPVSRLAGWSEDMKADNPELYARFAAKFPALDRLSRIDDGSGPGLSLETL
+LTIPADLAILANWQADTDAGKQAMTVLEQSGVPVLVLDFNSAPLDKTPEAMRLLGRAIDR
+ERQADDFARLFEERIARIRERVARADTPGPSVLMDAFPNPGRCCYAYGTGGLGAFLTLAG
+GRNVAEGLPAPGGMVSAEFLLAANPEVYIATSAPAGGYSDVVIGPGVAEETARDSLKKAV
+SAPILAELAAVRSGRVHGLWNFFNAVPLNVVAAEAFATWLRPHLFPDLDPAATLREINDR
+FAAVPFDGAYWISLEQTR
+>tr|A0A1Q9ADB9|A0A1Q9ADB9_9RHIZ
+MSVAFVKEESAEAAAETLLPDRPISPHPNLVTEAGLAVLEAQLAEARAAYAVANAMEDVN
+ERRRQSAGPLRDLRYLTERVRTAQVMPAPEDGAAVAFGSRVTFRREDGRTQTYRIVGEDE
+ADPKAGSISYVSPVARALMGKTVGDLATAGGQELEILSIG
+>tr|A0A1Q9ALE8|A0A1Q9ALE8_9RHIZ
+MPNPPDAAPQPERPEPMAVLLRTLDLEKLEENLFRGRSPQVGWQRVFGGQVIGQALVAAQ
+RTVSAERFVHSLHAYFLRPGDPAVPIIYDVERIRDGGSFSTRRVVAIQHGAAIFTLSASF
+QGDEDGFDHQIPMGDFPAPESLLGEAELQARFLEHAPPAIRRYWQQPRPIEIRPLSFKHY
+LSAEKLEPAQTVWVKTVGAVPQDRAVQAAVLAYLSDMTLLDTSLHAHGTTIFDPALQAAS
+LDHAMWFHRPSALDDWLLYTQDSPSASGARGMNRGALYDRSGRLIASVAQEGLIRKKAIA
+>tr|A0A1Q9APA3|A0A1Q9APA3_9RHIZ
+MTSSPIMTMFDRAVSQGRGAPLDVLKSVYGYPAFRGQQADVVSHVTGGGDAVVLFPTGAG
+KSLCFQIPALCRRGVGIVVSPLIALMRDQVEALKQLGVRAAALNSALSREEYAEIRRAIS
+DGTLELLYVTPERITTPGFMELMSGLDIALFAIDEAHCVSQWGHDFRPEYRALGLLREAF
+PGVPRIALTATADPHTREDIIERLGLQGAAVFSTSFDRPNISYAIAEREQPRQQLLRFLS
+RHEGASGIVYCLSRAKVEETAEWLNMQGIKALPYHAGMDRALRDAHQDAFLKEEGLCLVA
+TVAFGMGIDKPDVRYVAHLDLPGSVEAYYQETGRAGRDGLPSEAWMFYGMADVMQRRRMI
+DEGNAADEIKRVERGKLDSLLAICETATCRRQAILAHFGEAHPGGCGACDTCLNPVETWD
+GTEAAIKALAAIYRTGERFGVGHLIDVLTGVENEKTQRFGHTSMPVFGAGKDLAPKVWQS
+VYRQLLAAGLVRVDHTAYGALKLEEDARSVFRRERTVLLRKDRAVATGKRAAKGTKGADS
+ARSTLSGRDLALFEDLRALRAKLAKEMNVPPYVIFPDTTLIALAQARPASLSALTGIPGI
+GETKRARFGDAFLDAIRAAS
+>tr|A0A1Q9AGF1|A0A1Q9AGF1_9RHIZ
+MTSLQLLGFGPGGWGALLLLGALITLAVTATALAIGAVLGALVASMKLSRNLPLAAIGHA
+YTTVFRGVPELLIIYLIYFGGSSAVTAIGQALGYEGFLGLPSFLAGALAVGIISGAYQAE
+VYRGAYLAIAPGELEAALAVGMSRRLRLRRIVMPQVIRFAIPGLGNVWQLSLKDSALISV
+TGLAELMRTSQVAAGSTRQYFLFYIVGGSLYLILTSLSDRIFRRAERQADRSQSVAMIGR
+G
+>tr|A0A1Q9ACW7|A0A1Q9ACW7_9RHIZ
+MLKFLKNIVSELRAARGGRAQPKIWMFGPMPPPLHGQSNYNATIAAFFRTQASLTILSTG
+GTAAEKLVAGLILPFIALLFIGKSDKIYTSPPGQSGLWLFMPCILVFRLRGMEHVIHHHS
+YRPINIGPTRSNRVLTRLGGPKQRHVFLSERMREQYAAIYLSAPQKAGSFVLPNAFFFYE
+EQAEPQRREGPVTIGHLSVITREKGAPYLIELVEALARERRDFRFVLAGPVRDPALKAEI
+DAFCKRNEGIASHIGPVMGQDKRQFYQSVDLFVLPTRLIDEADPLVLLEAYSFGCDVLAS
+STGCIPERVRSPDRLLTFDLAQDVIRLNLAIDAAQQNRAETSIACMAFVKDLYERSRADA
+ERFFGYFGCSIHAHASDRKK
+>tr|A0A1Q9ADR1|A0A1Q9ADR1_9RHIZ
+MTPLLDIRDLNVYFDTYRALDDVSLSVGKGESFGLVGESGSGKSTLLRAVAGLAPVAGGT
+IAVEGEEIKGRRRSRDFHRRVQMVFQDPYGSLHPRQTVDRQLLEPLAIHGIGDTEPRIRR
+ALDEVGLGPSFRFRFPHQMSGGQRQRVAIARALILEPKILLLDEPTSALDASVQAEVLNL
+LEQVRKEHGLTFIMVSHDLGVVTHLCERLAVMQHGRVVETLSSTDLAGGRMRADYTRHLM
+TASLGFAR
+>tr|A0A1Q9AHS1|A0A1Q9AHS1_9RHIZ
+MGRLPLAVGEPEPARLLLSLEGVAKEFPGVKALQGVSFDLRAGEVHAVCGENGAGKSTLM
+KIISGVYQRDAGEIVYKGQTVHFTSTLQSEAAGIAIIHQELNLVPHLSVAENIYLAREPR
+RGFLIDRRKLFADAKRCLDRLGVDIDPHAQVRTLSVAQCQMVEIAKALSLDASVLIMDEP
+TSSLTEQEAQLLFRVIRDLKAAGTGIVYISHRLDEMAEIVDRVTILRDGRYISTDDFSAI
+TVDTIVARMVGRPLEEKFPAPTRQPTRDVLFSVSGLTRHGVFSDISFEIRRGEILGFAGL
+MGAGRTEVARAIFGADPFDAGTITLDGRTLSISDPRSAIEAGIAYLSEDRKGQGLAVKMP
+VDANLMMANMEAVASGAGVIDRERHRAASQRYVDLLSIKTPSLGQPVRLLSGGNQQKIII
+GKWLFREPKIMFFDEPTRGIDVGAKFAIYQIMDELAARGIGIVLISSELPEILGLSDRVA
+VFHEGRITATLSTRETSQEDIMLYASGRSRHGE
+>tr|A0A1Q9AJF9|A0A1Q9AJF9_9RHIZ
+MTAIIDIVGREILDSRGNPTVEVDVYLEDGSFGRAAVPSGASTGAHEAVELRDGGSRYLG
+KGVERAVEAVNGEIFEAVGGLDAEDQIHVDQTMIELDGTPNKARLGANAILGVSLAVAKA
+AAESSGLPLYRYVGGPNARILPVPMMNIINGGAHADNPIDFQEFMIVPVGAETIRDAVRM
+GSEVFHTLKKQLAADGHNTNVGDEGGFAPGLASAPAALDFIMSSIEKAGYKPGEDMFIAL
+DCASTEFFKDGKYVLEGEGRTLESEAMAEYLAELVGKYPIFSIEDGMAEDDWNGWKILTD
+KIGAKVQLVGDDLFVTNSARLRDGIKMGVGNSILVKVNQIGSLSETLDAVETAHKARYSA
+VMSHRSGETEDSTIADLAVATNCGQIKTGSLARSDRTAKYNQLIRIEEQLGPQARYAGRS
+ILKG
+>tr|A0A1Q9AKV1|A0A1Q9AKV1_9RHIZ
+MSLTTSIRNTLVPIHKAGYPFIAIFFVVSLLLGLFWKPLMWIGFVLTLWCIYFFRDPVRV
+TPLDDDLVISPADGRVSSIAEIVPPAELGLGAEPMLRISVFMNVFNCHVNRAPMAGRIAR
+IAYRKGQFVNAELDKASHDNERNGLVIDTAHGEIGVVQIAGLVARRIICWSQTGERLQPG
+ERFGLIRFGSRLDVFLPAGARARVSLGQTAIAGETVLAEFATDKGPVISRRG
+>tr|A0A1Q9AG16|A0A1Q9AG16_9RHIZ
+MTDFTARPEHGCAWVTGASSGIGRAVALKLAAAGFTVAATARDQAKLAALVAEGAGRIHA
+FPADVTNAEAVLESVAEIEAQCGPLALAVLNAGVFLPVHGEAMKQADFDKTFAVNLNGTV
+HCLLPTVEAMKRAGRGQIAIVSSVTGYGGLPTSAAYGATKAALINMAESLRFDLDKLGIR
+IQVINPGFVDTPATEQNEFPMPALVTPDVAATEIVKGLAAKGFEITFPKRFTYGLKLARL
+LPYGLYFALINRTTGWKTRPLATEAAQTRRE
+>tr|A0A1Q9AQ62|A0A1Q9AQ62_9RHIZ
+MESLTSTEFAEGLMHIESLRLRNFRCFGDEAQTISFDPALTAVVGANGAGKTAIIAALQK
+LFATRAEDRRLTREDVHFGPDETPGTVEDANASSEYELDDRSGELGLPDDQIRSVDRREI
+EIEVILAFPELSDGIDEDKADSVPEIFRAMSSSGPGQPLKARIRLEARWIYGMDEDDISS
+QMFWITSLDDVPFGERDIAKLPFSANDRRRFQIRYLPATRDSNAILKLALREMLNWLERH
+GDWEGGRASMAKQWETLQNMFDAMPAIKKISEELSINWGRLFEGRHLRSPRLTVLARELQ
+RALRELSLTLGPGPGGRHRSVQELSEGQASLFYIAIVVTLFKLDDELTRTKPEGFLAVEV
+ARPWLTVIALEEPENHLAPFYLSRMVNLMREQAQSESVMAILTTHSASALRRVDPNQVRY
+VRQDPLTLTSRVKEIPLPGADSDARKFIQEAVASHPELYFARLVILGEGRSEEIVLPRLA
+RSLDPEMDLDPAFVAFVPLGGRHVNHFWRLLDGLKIPYVTLLDYDLGRSGAGPRRLKYAA
+DQLEKIGVNAPPLPRPRKAGEWDSLTGIEVGFWMSWLRFNNVFYSSQLDLGSGLINHNQK
+ITVAAMHMLEKKVCA
+>tr|A0A1Q9APQ0|A0A1Q9APQ0_9RHIZ
+MTTARIADFLKTRRPEGPCLVVDLDVVRDNFRAFRHALPDSAIFYAVKANPAPEILRLLA
+GLGSNFDCASVAEIEMALSAGATPARISYGNTIKKERDIARAHALGISLFAVDSHEEVEK
+ISRAAPGARVFCRVLTDGEGAEWPLSRKFGCVPQMAVDVLVYAHQLGLVSHGVSFHVGSQ
+MTKLDAWDAALADAKRVFVQLAKQGIELKMVNMGGGFPTKYLRDVPSAEAYGQAIFASLR
+KHFGNQLPETIIEPGRGMVGNAGVIKTEVVLISKKSDNDHHRWVFLDIGKFGGLAETMDE
+AIRYPIRTERDADTMEPCVLAGPTCDSADVLYEKTMYPLPISLSIGDEVLIEGTGAYTTT
+YSAVAFNGFEPLKAYVI
+>tr|A0A1Q9AEM8|A0A1Q9AEM8_9RHIZ
+MTIKSLIILPDPVLRQISAPVETVDDAVRRLADDMLETMYDAPGIGLAAVQIGVPRRMLV
+IDVAKEGEEKAPRVFINPEILTSSDARSVYEEGCLSIPDYYAEVERPAAITVRHVDLEGR
+EQVLEADGLLATCLQHEIDHLNGVLFIDHISKLKREMVIRKFTKASKLRGTKAI
+>tr|A0A1Q9AE22|A0A1Q9AE22_9RHIZ
+MRYASITDRLADLGSGKWALHHQARRMKAEGVPVIELTIGEPDVAPDPALLAECQRAMNA
+GRTRYSSGRGEPAVLQALAARYARRQADVTAENVLCFPGTQAALYAVMCGLVEAGDGVLV
+GDPLYATYDGVIRATGAHRVTVTLRPEHGFRMQPADLEAAITPDCRVLLLNSPHNPTGAV
+LTSDAIDAIGALCRRHDLWIVCDEVYEQLIFSGTFDSPFDRPELAERTIVVSSISKSHAA
+PGFRSGWAVGPKEFCTRLLPVSEMMLFGVQPFIADMTAYALTHEIGTAAEMRQRYRDRAL
+TLAEALKGVSGVRPMVPDAGMFLLLDVTETGLSGEDFAWALLKEEHVAVMPGGSFGENAR
+GFVRISLTVPTADLVEAGRRIAALAARLIERPQAATA
+>tr|A0A1Q9AHK3|A0A1Q9AHK3_9RHIZ
+MRASPPDDHPQSRSSDTRPGDAAGLARLAARVQEDLQAIEAGPRAWVPERHDADGQILCD
+VVIVGAGLSGLSVAFGLRRQGVERVRLIDAAPAGREGPWVTTARMRTLRSPKTLSGPDLG
+VPSLTYRAWHEAVYGLESWQALDKIDRTDWMAYLRWFRAVLGLTVENDTRLLAIMPEGEH
+LRLLVERADGPTSISCRKVVLATGLEGAGELNVPWAVRDAVPRACWTHSGEDLAPGCLKG
+KRVGVLGAAASSFDWAVAALEAGAAGVTVLARAPSLPRTELLDWSNFPGFLNHFADLSDR
+DRYRFTRRMFAFKTPPTTEMYSRAMASPTCRLVMGAEIRGVAMAGDTVHLDTAAGVFDFD
+HLLLGTGYRIDVAARPELRDHAAEIATWADRFTPPPGEEDATLLGYPYLGPAFELQEKRP
+GSLPMLAHIHIFNNMAVPSLGPICNGITGLKSGVPKLVAGLCRSLFVSELDHFYRALDGY
+EKVHFQPQPTPV
+>tr|A0A1Q9AFD7|A0A1Q9AFD7_9RHIZ
+MTNVVVVGSQWGDEGKGKIVDWLSERADVVVRFQGGHNAGHTLVIDGVSYKLSLLPSGVV
+RPGKLAVIGNGVVIDPHALIAEMERLAKQGVTVTPESLRIADNATLILSLHRELDGIRED
+AASNSGTKIGTTRRGIGPAYEDKVGRRAIRVMDLADLDTLPAKVDRLLTHHNALRRGLGE
+AEVAHAAIMEELSSVAERVLPFMETVWALLDQKRRKGARILFEGAQGTLLDIDHGTYPFV
+TSSNTVAGQAAAGSGMGPGALGYILGITKAYTTRVGEGPFPTELHDEIGQFLGEKGHEFG
+TVTGRKRRCGWFDAALVRQSVAVNGITGIALTKLDVLDGLDELKICVGYKLDGEEIDHLP
+AAQAAQARCEPIYITLEGWKESTVGARSWADLPAQAIKYVRQVEELIGAPVALLSTSPER
+DDTILVTDPFED
+>tr|A0A1Q9AKL9|A0A1Q9AKL9_9RHIZ
+MLQDQDRIFTNLYGLHDKSLKGAMSRGHWDGTKQILEKGRDWIINEMKASGLRGRGGAGF
+PTGLKWSFMPKESDGRPHYLVVNADESEPGTCKDRDIMRHDPHTLIEGCVIASFAMGAHA
+AYIYVRGEYMREREALQRAIDECYDAGLLGRNNKLGWDMDVFVHHGAGAYICGEETALLE
+SLEGKKGQPRLKPPFPANMGLYGCPTTVNNVESIAVAPTILRRGAGWFSSIGRPNNVGTK
+LFMVSGHVNRPCTVEDAMGIPFRELIERHCGGIRGGWDNLLAVIPGGSSCPVVKAEHIID
+APMDFDGMRDVKSSFGTAAVIVMDKSTDIIKAIWRLAAFYKHESCGQCTPCREGTGWMMR
+VMERMVQGRAQKREIDMLFDVTKQVEGHTICALGDAAAWPIQGLIRNFRPEMEKRIDEFT
+RNATPHGAVMQAAE
+>tr|A0A1Q9AH59|A0A1Q9AH59_9RHIZ
+MPQPETDRTFIPLGIAVLTVSDTRTLADDRSGDTLVARLGDAGHRLADRAIVPDDRERIA
+QTVLAWSKDPAIDVVITTGGTGFTGRDVTPEALEPLFEKTMDGFSAIFHRISYEKIGTST
+IQSRATGGVVNATFVFVLPGSPGACRDAWDGILAQQLDYRHRPCNFVEIMPRLDEHLKRG
+>tr|A0A1Q9AF89|A0A1Q9AF89_9RHIZ
+MTRWNWMAAGLLAAGAASAPAQGADLSYEQVPEVVVGKASDSPALYLRGDIGFTVKSEGG
+DATLKAFDGHGTRRIGFDEVRFGEPIAGSIGVGARINDMLRTDLTAEYFRGTFKGESKVL
+GACSGEPSGPDGTNCQHSHRADYEGISLMANGYVDLATISGITPYIGAGVGATRLSYGTV
+KERWTCLPGGQSCTGNALAGETYSGDASWRFTYALMAGASYSLSDNLALDVGYRYSDIAA
+GKIFDYKGWEAENGATGDKTRDDGLRRHELRAGLRYTFN
+>tr|A0A1Q9AQ69|A0A1Q9AQ69_9RHIZ
+MTAEQPLLKVSNLSRFYGGRIGCLDVSFDLWPGEVLAIVGESGSGKTTLLNCVSSRLQAQ
+AGRVEYRMRDGRLRALSDMGEAERRFLMRTDWGFVHQNPADGLRMTVSAGANVGERLMAV
+GARHYGHIRETAVDWLQRVEINTDRVDDPPRAFSGGMRQRLQIARNLVTAPRLVFMDEPT
+GGLDVSVQARLLDLLRGLVSDLGLAVILVTHDLAVARLLSHRMMVMKDGRVIEAGLTDRV
+LDDPREPYTQLLVSSILQV
+>tr|A0A1Q9ADR0|A0A1Q9ADR0_9RHIZ
+MGKSSLKARCAALLLAGASVLATSAAFAGEIKVWCWDPNFNVAIMKEAAARYAKDHPDTK
+VTVVDFAKADVEQKLQTALSSGTTDGLPDIVLIEDYGAQKYLQSFPGAFAPMSGKVDYAG
+FAPYKVQLMTVEGQVYGMPFDSGVTGLYYRSDYLEQAGFKPADLENITWDRFIEIGKTVT
+EKTGKKMIGIDVNDAGFTRILMQSAGRWYFDKDGNLDITKNPALKAALDVQQKIFRAGIH
+RPASGWTDWVSGFTSGDVASITTGVWITGTVKAQAEQSGKWRVAPIPSLGIDGATHASNL
+GGSSWYVTESSKTKDEAIDFLNTVFAKDVDFYQKILTERGAVGSLMAARKGEAYNLADPF
+FGGEKVWQHFSDWLAKVPPVNYGVFTNEVDTAVNAHLPELAKDGVSVDKVLSEIESQAQG
+QIQ
+>tr|A0A1Q9AED6|A0A1Q9AED6_9RHIZ
+MPREAKPENGAKRLKTERWRAGQRAIRRPEAAHVDVALAAAFAATLVELGQRNEAPAPLF
+DVVTTAISMLEARGFDSKAAKRKTHERLQFRKDLPKLRGMLAPSKIVTTGS
+>tr|A0A1Q9AFR9|A0A1Q9AFR9_9RHIZ
+MIAGFNAGQLARVATELTIGPVPSGLEPFALAEIARARGPVAYLLSDGQRLSDLEQMLGF
+AAPDIPVLTLPGWDCLPYDRVSPSAEVSARRLAALSSLVTHAKKPHPAIVLVTVNASLQK
+MAPRSVIETMTFSARPGGVVRMDDIAHRLERNGFERVSTVREVGEFAVRGGILDVYVPGA
+AEPLRLDFFGDTLESIRSFDPASQRTTGQAKSLDLNPMSEVMLTPETISHFRKEYLSLFG
+AATRDDALYQAVSEGRRYAGMEHWLPLFYDGLETVFDYLDGFTLVTDHTAREAAAERFRL
+VEDYHEARRDAGGGKGQMAQAAPYKPVPPDRLYLTRDQFVAALISRRAIRLSPFLEHQGE
+ARAVMEVDARIGVRWAKNATEAQAEEREAERVNVFDQAVKYIADRRAAGAKVLITAWSEG
+SLDRLLQVLTEHGLGNIKPVSKLSEVEKLKPGEAGSTVLSLEAGFETGKLVVIGEQDILG
+DRMVRRSRRRKRSSDLIAEVTGLDEGSIVVHAEHGIGRFVGLRTIEAAGAPHACLELVYA
+DEAKLYLPVENIELLSRYGAEGSDAILDKLGGVAWQARKAKLKKRLLDMAGGLIRIAAER
+LTRHAPVLTAPEGLYDEFAARFPYDETEDQLTSIESVREDLGAGRPMDRLVCGDVGFGKT
+EVALRAAFLAAMNGVQVAVVVPTTLLARQHFKSFAERFRGLPIRVAQASRLVGSKELALT
+KREVADGKVDIVVGTHALLGSGITFANLGLLIIDEEQHFGVKHKERLKELKSDVHVLTLS
+ATPIPRTLQLALTGVRELSLITTPPVDRMAVRTFISPFDSLVIRETLMREHYRGGQSFYV
+CPRLSDLAEIHDFLQENTPELKVAVAHGQMAAGELEDIMNAFYEGRYDVLLSTTIVESGL
+DVPSANTLIVHRADMFGLAQLYQLRGRVGRSKVRAFALFTLPVNKVLTTTAERRLKVLQS
+LDTLGAGFQLASHDLDIRGAGNLLGDEQSGHIKEVGFELYQQMLEEAVAELKGSPEEIID
+TGWSPQIAVGTPVMIPDDYVPDLHLRLSLYRRLGEITELQEIDAFGAELIDRFGPLPIEV
+QHLLKIVYVKSLCRTANVEKLDAGPKGVVVQFRNREFPNPAALVGYIAKQGPGAKIRADH
+SIFFQRDFPTPEKRLAGAALLMTQLAGLAKAG
+>tr|A0A1Q9AK53|A0A1Q9AK53_9RHIZ
+MRIFTSIDLQRQTGDVQRAASHEGVVITSHGKPRNVILSVEEFCRLKRMAQEPVPPDLLS
+RKPLVIRHRADPLGYDVSDFSRAADRMARDALDGAHEEAVQAELADVRSRFKEERQ
+>tr|A0A1Q9AN84|A0A1Q9AN84_9RHIZ
+MLSAEAVRLLAVETLLPTASLPDGPFPTMARGRVLDSRPAAIADLDRAAPYTPVVSLYTP
+ESGARLRGPHAPAGDTEADCILDVVCELAVVASDPQSGAPDYVAAMAETDPTARLVLAAL
+AAQVRHLLERSAAGGPWRRIVRQVREIEIKTYGVPEYGLRWHGMVLRFHLSIPDDDFDLA
+GGLPQPLRQIAEALPAGSYAKAKLAELADAFAAEAPAALTEMRGVTAAEGIVFGVTD
+>tr|A0A1Q9ANC1|A0A1Q9ANC1_9RHIZ
+MTAHTASPMTAAETALMDAYTQQLGDLPGDGAVLSARDTLISELKASGLPTRRVEAWHYT
+DLRALLRSIPAFDATAFARGVEPLVAGSAVLRVVGGHADGSNAPEGLTVTTYAQSLLSGT
+AAGDLAARGNDDAIGQLNGSFVRDGLEISLADDSALAQPLELQIVQGAGQSHLRFPVTFG
+MRSRATVIERHLSQSETGALVSSVSDLIIEDGADVTWILVQEQGAADTHLGQLNFELGAD
+AQFRLFVINAGGKLVRQEVHGVVNGEGSDFKLRAVNLMGGESHTDLTFTLGHDVPNTTST
+EIIRNVVFDRARGVFQGQIRVAQDAQKTDAKMACNTLLLSDEADFSAKPELEIFADDVQC
+GHGATVIDLNPTHLYYLQARGIPEKRARQMLINAFVDEVVEELEDEALVAALEGIIEGWL
+DSHA
+>tr|A0A1Q9AJM4|A0A1Q9AJM4_9RHIZ
+MSGEQDESRAISKRGRAARLMLCLVLCLSASCGLPRLALAEALTAAPAPVAKQQPAPGAE
+QPALAVSGRIAGDEARARLVLEFDRKPTFSVHYAREPVRVIVDLPHVAFGIRPDDLAPRG
+LVKDIRYGAMSDQLARLVITAGKPAGVAHAEVMPIEGGRYRLVVDVERVEQAAFTKLLSG
+QDWTSSVTGRKTDRVKGADVAAAQKGGPFIIAVDAGHGGIDTGAIGADSKVLEKNVTLAF
+AKALAERLDKLPGVEAVLTRDSDEFLSLSERVQIARQKGAQLFISLHADTVKQADIRGAT
+VYTISDKASDHLAASLAERENLSDAVAGLTLSDEPAEVADILIDLTRRETQLFSINLARA
+VVSSFEGQIRLINNPHRFAGFRVLQAPDVPSILLELGFMSNKEDEALLLDDAWRGKVADR
+IVEAVGRYRGAVAANGG
+>tr|A0A1Q9AHP7|A0A1Q9AHP7_9RHIZ
+MTNRHPAQPVLARPAAPPQAIPHRIASDAEAIAVAQDFAETLRAGASKRDAERHLPWDEL
+DAFVATGLWGISVPRAYGGAGVSAGTLARVTAIIAAADGSLSQIPQNHYYSLEVLRVGGS
+EAQKRFFYDRVLAGERTGNALAEIGQKDFKRRTRLYREDGGWRVDGTKYYCTGAIYAHWI
+PTLVSVEEDGAARTQIVFIPRTAPGVSILDDWDGFGQRVTGSGTVHFDAVSVEPECIVPF
+QSSFERPTTIGPVAQIIHAAIDLGIGEGAYRDMLAFVRERARPWIDAKVESAGEDPLTLS
+EIGKVRVRLRAADALLRKAGERVDAAMANPTEETVAAASIAVAEAKILATKAGLLAANKL
+FELSGTSATMAEDNYDRHWRNVRTHTLHDPVRWKYQAVGQYHLNGRHPPRHGAI
+>tr|A0A1Q9ALM2|A0A1Q9ALM2_9RHIZ
+MEGQPPATGAEATPAGRPVETRAANAPDQKPAFAGQTRAPQPAKMPDIAHKAVAVGLPQL
+WAMEFLPDGRMLVTAKKGTLHLVAKDGASVMAVAGPPKVVSSGQAGLLDVALAPDFAQSK
+RIYLSYSEPREKGNGTSVATAVLTEDKQGARLEDLKVIFRQMPGYDNTKHYGSRLVFDRD
+GALYVTVGERSDAETRVFAQDVDSGFGKVFRITPEGKAAEGNPFAGRDKAQAEIWSYGHR
+NLQSAALDGQGRLWTVEHGPRGGDELNRPEAGKNYGWPVITYGLDYSGKPIGEGITAKEG
+LEQPVYYWDPVVGPSGMVFYDGDRIPEWKGAFLIGGLVSTGLVVLHIDADKVSHEERVPL
+EARIRDVQVGPDGAVYAVTEDPDAGTSSILRLDKAG
+>tr|A0A1Q9AEL5|A0A1Q9AEL5_9RHIZ
+MSPSESELQARLLAQALPFMQRYENKTIVVKYGGHAMGNAELGKAFASDIALLKQSGVNP
+IVVHGGGPQIGAMLTKMGIESKFEGGLRVTDAKTVEIVEMVLAGSINKEIVALINQTGEW
+AIGLCGKDGNMVFAEKAKKTVTDPDSNIERVLDLGFVGEVVEVDRTLLDLLARSEMIPVI
+APVAPGRDGATYNINADTFAGAIAGALNATRLLFLTDVPGVLNKSGELIKELSVAQAQAL
+IADGTISGGMIPKVETCIDAIKAGVQGVVIMNGKTAHSVLLEIFTEHGIGTLIVP
+>tr|A0A1Q9AED1|A0A1Q9AED1_9RHIZ
+MNMMTEAAVEKALDQKMTAAPYKMIGKDVSVYYGEKRALFDVNLNIRENTVTALIGPSGC
+GKSTFLRTLNRMNDTIDHCRVTGKITLDTDDIYDPQIDVVELRARVGMVFQKPNPFPKTI
+WENVAYGPKIHGLARSKADLDVIVEQSLQKAGLFNEVKDRLHEAGTGLSGGQQQRLCIAR
+AIAVSPEVILMDEPCSALDPIATAKVEELIHELRANFTIVIVTHSMQQAARVSQRTAMFH
+LGHLVEENDTDKMFTNPDDQRTQDYIMGRFG
+>tr|A0A1Q9AK91|A0A1Q9AK91_9RHIZ
+MAFRPKYISFDCYGTLIHFDMAGAARDLYGDRLDEQAMQTFIRNFSAYRLDEVMGAWKPY
+AEVVHNALSRTCKANGVTFKDEDAQMVYERVPTWGPHADVPAGLAKVAKEIPLVILSNAM
+NSQIMSNVEKLGAPFHKVYTAEQAQAYKPRFKAFEYMFDMLGCNPEDMLHVSSSFRYDLM
+SAHDLGIKNKVWVNRGHEPANPYYGYTEIADISGLPGVVGL
+>tr|A0A1Q9ANM1|A0A1Q9ANM1_9RHIZ
+MSFAAENICWKIRSKTVLDGVSFTVRPGEMLGLLGPNGSGKTSLLRLMAGLKRPHAGRVT
+LEGEDLQAIARRRVAQRVAFVEQHATTNASLMVEDVVRLGRFPHRGLFSSWSGEDEACVE
+HALAHAGMAHKRRDRWQTLSGGERQRAHIARALAQSPRELILDEPTNHLDVQHQMALLAL
+IARLPITSIIALHDLNHAALFCDRLVVLKEGRVVAEGTPEAVLTEALMRSVFQVEARIAP
+SLYHGRPHIQFLPG
+>tr|A0A1Q9ANA5|A0A1Q9ANA5_9RHIZ
+MLKFTEEHEWLKIEGDVATVGITRHAADQLGDLVFVELPEEGASFEKGASAATVESVKAA
+SDVYCPLDGEIVGINPAIVEDPALVNSDPEGDGWFFKLKLADPSAANALLDEAAYKELIA
+>tr|A0A1Q9AK02|A0A1Q9AK02_9RHIZ
+MRRSNIGWLFLAPATLILFVVGFIPFLYILYVGFFDWNSNAVDPTLRWAGLQNYRNLVFD
+ATFLNSLARTLVFAFIVVVSELLLGYVLARALMADRLWGRQFFRTIHTLPIVVAPIAVGA
+TWRLLCVPGFGIIPYYLKLWFGIDYNISTNAYHAFGTAIVMDLWHWTPFVTLSLMAGLTA
+LPKEPLEQAQIDGGNKLQIFWYVIVPMLKPVLLTTVFIRLMDALRSVDEVWMLTKGGPAE
+ATRFIGLHIWINVFPKTDYGYGAAMSLLTLYVTIVLSWLLFVAMTGRKGGAQ
+>tr|A0A1Q9AE86|A0A1Q9AE86_9RHIZ
+MFPRPKLTVCVPSRNRQRTFKETIRALLQRPRVDVQFVFADNSDDPTIMDTFMADRLADP
+RIVYLSSPPETLSMVLNWERSIEAAEGEFICMIGDDDYVDVKVIDMINRVQALDPALDVL
+GWHRMSYNWPGMPRPPANVAVSLETNVRKIPRELLYTEFFGWRGVPNTPRIPIGFYHGAV
+SKALMDSFKERFGSYCGNPVVDFDNVCKVVSSAKALYFCGRPFSVMGACAESNSAAAYNT
+DIYKQSHKRFMKEVGRNTDEDDYLKDTPFRAEMGLMACILTVQIWFTKTYGYEMLPGWEK
+GFAEACSRNCEYMDTKESYDHTVRGYRRALRQWQGGKYIPFFKPEPFIDRYKARLKTGVI
+DGKLFLEERLPGISTPEELYAFVEQIIVPPEEVTIEAQPARVAKSA
+>tr|A0A1Q9AME8|A0A1Q9AME8_9RHIZ
+MLLTRIFGRAAQAVLLATALGAAAQAQDFKLTSPAFAEGAKLSTDQVFKGFGCEGGNLSP
+ALSWSGAPKGTKSFALTAYDPDAPTGSGWWHWNIVDLPADTTALKAGASGQPALPKGAVE
+LRNDYGVTGFGGACPPPGEVHRYIFTIHALDVEKLDLPKDASNALAGFMIGAHQIGAAKI
+TAVYNR
+>tr|A0A1Q9AIL2|A0A1Q9AIL2_9RHIZ
+MMARWARLTHLCGPAILASLAIFTSELMAATPAAANVCEQEISAAAARYGIPEGILYSVG
+LTETGRKGSLQPYAMNIEGKAVFASSAEEVLQLFRSARAQGARLIDLGCMQINYRFHGEQ
+FASVEAMLDPRLNVDYAARFLATLHARHETWTMAVARYHAGPNNNPAQKRYVCRVIANLV
+ATGYGQWTPKASTFCQ
+>tr|A0A1Q9APW7|A0A1Q9APW7_9RHIZ
+MTFRGLTFAASLALGVSTLALAASASEPTTVPEPPPFPAQGKITFVPRDSILEFKKLPAY
+QEPGWVTEKYVKTGKLPPVAERLPEEPMVFKTGNMPDGIGVYGDTMRHVIGGRPEGWNYS
+AGQTQGWGGIDIAMSECLTRTAPLYQVEAKDMEPLPNLAKSWTWSQDGHKLTMNLVKGAK
+WSDGVPFTADDLMFYWDDNVVDPNVSPLNGATRETFGEGTELKKIDDYTVEWTFKDAFPK
+QYLYAMAYGTFCPGPAHILKPQHPKYSKNTYNQYRNAFPPEYMNMPVMGAWVPVEYRPDD
+IIVLRRNPYYWKVDEQGHQLPYIDELHYKLSTWADRDVQAIAGSGDFSNLEQPENFVESL
+KRAASESAPARLAFGPRIIGYNLRMNFSANGWGDPDARMQAVRELNRNEDFRKAVTMALD
+RKKLGESLVKGPFTAIYPGGLSSGSSYYDRQSTVYYPFDLEGAKALLAKAGLKDTDGDGI
+VNYPKNIMNGADVEIVLLATSDYTTDKSLAEGVIGQMEKLGLRVVLNALDGTKRDATQAG
+GRFDWMIRRNDQELTAVVQNTFQLAPTGPQTSPHHRAGKDGKVDLMPHEKEMVETVNAFI
+RSSDNDERAKLMKQYQKLVTTHVDTVGLTEYPGALIINKRFSNVPPGAPIFMFNWAEDTV
+LRERLFVAADKQGDYQLFKDQLPGKPGTKGLLN
+>tr|A0A1Q9AJG2|A0A1Q9AJG2_9RHIZ
+MSLPHSMSPANHPAAGRKMPRLLGIDAARGVALIAMATYHFCWDLEFFGYVASGTAGTGL
+WKLFARSIASSFLFLVGVGLVLGHSPAIRWKPFFTRFARIAGAAAVITIATYFIFPDAFI
+FFGILHGIAAMSLIGLAFLRLPVLLTLLAAIGAFLAPSYLRSTLFDHPAFWWLGLSTMPI
+RSNDYVPIFPWLAALLTGIAAGRLALHSGVLDAMAAREARRTQGVGARLRQRLAWLGRHS
+LAFYLLHQPVLIGLVYLASLIHPAPRPDPAITYRASCMQGCTADQPEAFCSVFCGCTLTR
+LQDEKLLEPLDAGQIDVTRDPRIQALAEQCTSAALAPPAQDPSSMTAPPAPPQP
+>tr|A0A1Q9AQ61|A0A1Q9AQ61_9RHIZ
+MRYLITGTAGFIGFHLARRLLDAGHFVVGFDGMTPYYDVSLKEARHATLARSNGFKAVIG
+QLEDRAALERAGELAEPDVIIHLAAQAGVRYSLENPRSYVDSNLVGSFNILELARTLQPK
+HLMLASTSSVYGANEKIPFAESDRADEPMTIYAATKKAMELMAHSYAHLFKVPTTAFRFF
+TVYGPWGRPDMALYKFTRAILAGEPIDIYGEGRMRRDFTYIDDLVDSIIALSAVAPSEDN
+RVTTEGVIDTLSHQGPFRVVNIGGGQPVALMRFIEILEETLGQTALRNMLPMQKGDVPQT
+FAAPDLLLALTGSKPEIPLEQGVPAFVDWYKSFYA
+>tr|A0A1Q9AGQ0|A0A1Q9AGQ0_9RHIZ
+MLLGRTAYGLYWMFRYIERAENSARLVDAGLRMSLTRSHLNGDLWDGVLQTSGVGDVYEQ
+HYGKSSAEAIDFLMRDKANPSSVLSCIDTARHNARMVRTALTRETWEAVNECWLDLKTLL
+AKRLKPADLPEAIDAVKRKTGLIRGAFHGSMLRNDIFNFSRIGTFIERADNTARILDVKY
+YVLLPAVTQVGTSVDNVQWESILRSVSAHRAYGWVYEGEYKAANIADFLILNGRMPRSLA
+YCYEQIVNNLEHLQRDYGDRHAAHETAERTMKSLQDHSIKDVMDQGLHEYIEDFIGQNNQ
+LSQEISQGYRFV
+>tr|A0A1Q9ACF0|A0A1Q9ACF0_9RHIZ
+MTSTDTTLYDAIGGEETVKALTARFYDLMDTLPEAARCRALHPRDLTAGRDKLTDYLLGW
+LGGPPVYVEKYGHPMLRRRHFGAAIDAQARDEWLLCFHRALEETVAHPQLRAVILEPVTR
+LAHHMQNTE
+>tr|A0A1Q9AL36|A0A1Q9AL36_9RHIZ
+MDNQVSGVIVATRTAFTQITALAVQYSFSILGAIILLIIGWTLARLIHNWAYSGLKKVHG
+IDETLARFFSNIIRYALLLLVFITVLGQFGVQTASIIAALGAAGLAIGLALQGTLQNIAA
+GIMLLVLRPFRVGETIQTPQVSGTVREIGLFATELVTADGVYLLAPNSTLWNVPVTNYSR
+EATRKFDLSITVAREQVDQATTVLNDLARADGRVLDAPPPRVFVDSFSGSNATLILRVWI
+GTPDWWKTTRDLTHTAQARLAMENIAVN
+>tr|A0A1Q9AQK9|A0A1Q9AQK9_9RHIZ
+MADSDSSRTLSSVTRRTLLRMVTTTVGAHAAAAQPKGEGEGSPACGGDPALGLWFDWQAA
+NRKACALGRRQARLESRLVDTIGFPQIDLSVPGCAKPIIVSTTAEIEQWLGSKPERAAER
+ENAMSELAAHQRAWQEMDRRIGYSRARNAERDAQAAEEDLLETLWKSRASTLAGAAGKLH
+AMLKTGEPREGSQEFPWPQIRMVLADLLHIAA
+>tr|A0A1Q9AC58|A0A1Q9AC58_9RHIZ
+MLKGLNPLLSPELLATLRAMGHGDEIAVVDGNYPGLEHARRLIRLDGHALVPVIDAILSV
+MPIDDFVPEAIFRSTVKQDRDLLDPVHEEMIACCARHEPNQPVVPLIGEAFYGRVKAAHT
+IVQTGEPRLYANMILRKGVIYP
+>tr|A0A1Q9APL1|A0A1Q9APL1_9RHIZ
+MRPTVHDIAAEAGVSLATVDRVLNARVGVRAETRERVQAAVTRLGYVRDVAAANLAKSRS
+YAIRFILPDGDNPFMHALKAHVLQVGDPATRLGGLERLAVSLDPVPSLDAVALAAALDRA
+GEQRPAGIAVVAVDAPEVEAAIGRLTARGIPVATLVSDLPASGRRHFAGIDNIAAGRTAG
+GLMRRFLSGRSGPVAVIAGSLTLRDHRERLSGFADVLAQGAQALNLLPVLEGGDDPVRVE
+ALAGRLIAEVPDLAGIYSLGAGDQGLIRALSAAPERRPQAVLLHELSPHTRQALEAGLVD
+AVLAQDPGHIARSAVRVLRAFADGTSFDPAQERIRIDIFLKDNLPPG
+>tr|A0A1Q9AM64|A0A1Q9AM64_9RHIZ
+MPLSMNRDVFITCAVTGAGDTTGKSAHVPITPKQIAESAIDAAKAGAAVVHCHVRDPETG
+AAARGVDLYREVTDRIRAADIDVVLNLTAGMGGDLVFGSEEAPFPLNEKATDMAGATERV
+AHVAACLPEICTLDCGTMNFSLGDYVMTNTPSMLRAMARQMTALGVRPEIEAFDTGHLWF
+AKQLAEEGLIEDPVLIQLCMGIPWGAPDDLNTFMAMVNNVPRGWTFSAFSIGRNALAFPA
+AAVLAGGNVRVGLEDNLYLGKGRLATNAELVERAVTVVEGMGARIIGPAEVREKLKLVKR
+APRG
+>tr|A0A1Q9AGS0|A0A1Q9AGS0_9RHIZ
+MRLIDYLDTGASRGPDRPCLTMAGKDYSYEEVQALSYRIGRKLADSGIAAGDKVAILSAN
+DPVAFTCVFGLSRAGAVWCPINPRNEAGENRYILENFDCRFLIFHSAFADMVEKMLPDLP
+KLVQAVCLDADLPFARSLAMWLDSVEDSPFFRAPLDDVAMIPGTGGTTGKPKGVMLTDTN
+LEIMSALTLMGYPFEGRPRYLALAPLTHAAGVLCFPVLALGGQIVIMPHPDIGEFVRLIE
+AHRITHTFLPPTLIYMLLDSPYLEKADLSSLQCFWYGAAPISVARLKEALTRIGPMAQFF
+GQTEAPMMITMMAPVEHYHDDGSIAEERLRSAGRAGPLVRLGIMDGEGRLLPAGERGEVV
+LRSSLVMKGYYNNPGATEEAFAHGWHHTGDIGYLDGDNFLYIVDRARDMIITGGFNVYSV
+EVEQALAQHDDVLDCAVVGLPDDKWGERIVAVVQPKEGRSIDALALIAFVKTQIGSIKAP
+KQLEVWRDLPRSRVGKVLKAEIRVKLTQ
+>tr|A0A1Q9AEP5|A0A1Q9AEP5_9RHIZ
+MTREEILAVLGPVDETLLTEIAATGASAPELAQAWAWVNADEALVNDGRPLPSGRVAELV
+DLLSEPQQDEEM
+>tr|A0A1Q9AEY5|A0A1Q9AEY5_9RHIZ
+MTDSPLGAHPAADGTAFSVVSRHADRVDLCLFEGGHETRLPMQRGADHVWRTRTQAPAGT
+AYGFRADGIYAPERGLWFDPAKLLVDPYAVTLDRPFHYDPALSAHGVDTSGLVPRAIVTA
+LEEVPISPPFWTKGGLLYEVAVRPFTMLHPQVPEAQRGTVAALAHPAIIAHLRALGVSAI
+ELMPITAWIDERHLGPLGLTNGWGYNPVAMMALDPRLVPGGIVELRETVAALHQAGIGVV
+LDLVFNHSGESDRFGATLSMRGLDNLTYYRHASDLTLINDTGCGNTIDCAHPVVERLIID
+SLRHFVRFAGIDGFRFDLGSILGRDQFGFRREAPLFKAMLADPWLKNRLLIAEPWDIGPG
+GYQLGEFPAAFLEWNDRARDDIRCFWRGDAGKIGALAAALSGSSAHFSRHGERETRSVTF
+IAAHDGFTLADLVAYNGKHNEANGENNRDGHNDNHSWNNGAEGATGDPAILEARRRDLMA
+LLSTLFATRGAIMLTAGDEFGRSQQGNNNAYAQDNAITWVDWSAADPVLMAHAQELSALR
+ARFPALSDPGFLTGDGDVSWKRLDGGDMSGADWDGGSTQGLVMILVTRDARTGRATRLAV
+AINRAHAPTALGLAGQWQDGLSGSEPPAFLAARSIGFFVETA
+>tr|A0A1Q9AI39|A0A1Q9AI39_9RHIZ
+MTLFKSLFAATAIVASLVAGAAQADYPERNITMIVPFSAGGPTDTVARLVAESMSKDLGQ
+QILIENVGGAGGTLGAGRVASSKADGYTVLLHHIGMATSATLYRKLAYDTLNSFDYVGLV
+TEVPMAIVTRKTMEAKDLKGLIDYVKANKDKVTVANAGIGAASHLCGMMFMSAIETPLVT
+VPYKGTGPAMTDLLGGQVDVMCDQTTNTTKQIQGGTIKAYAVTSPQRLAIFPDLPTAVEA
+GLPGFEVGIWHGIYAPKGTPEAAVNKLSAALQKALKDPNVVSRFAELGTLPSPEADATPA
+ALKAKLETEVARWKPIIQGAGQYAD
+>tr|A0A1Q9AHI1|A0A1Q9AHI1_9RHIZ
+MTILAFAHSKGGVGKSTLCLLIASELAQSGRRVLIIDADQKQQSCLQWIARCHLAGSRPN
+TLTGEIATKPEDLKRLLRSTDAEIILIDVQGSMNDLLIAAIVASDITLVPTKANVMEMVE
+TVKLFDWAQTNLRRAPLHLVLNRVEGIDTNTAAFQDAVRMIREHQLPALSTFVRARKVYE
+QFARDAGSLERIGKDPSKSDQVTKARANIVSLIGDITAAISPPPTKDQAK
+>tr|A0A1Q9ANR2|A0A1Q9ANR2_9RHIZ
+MKATIIAHSKFTVSEIDPRLYGSFIEHLGRAVYTGIYEPGHATADEAGFRGDVIDLVKEL
+QVPVVRYPGGNFVSAYNWEDGVGPREERPVRLDLAWHTSESNAIGLHEFADWCDKVGTEL
+MMAVNLGSRGLDEARNLLEYTNHPGGSAWSDKRRANGREAPFDVKLWCLGNEMDGPWQIG
+HKTADEYGRLAHETAKAMRTFDSRLELVVCGSSNAHMPTYPQWEATVLDHTYNEVDYISL
+HMYFENRAKDTANYLARSLELDTYIATVAGVIAYTKAKKRSTKDVYISFDEWNVWYHSKE
+RDKAILEGAEGWPEAPPLLEDDYNFEDVLQVGCILNTFINRSDVVKIACLAQLVNVIAPI
+MTEPGGAAWRQTIFYPYYFASVFGRGTALKLMVDSPSYEVKDVGAVPYLDVSAVHDAASG
+HITFFLVNRHLTEALDLDVSLLDFGAASVVDDQVIAHSDLAITNTAQAPDAVKPVKGEGA
+AVSEGRLTASIAPLSYRMIRLKV
+>tr|A0A1Q9AH69|A0A1Q9AH69_9RHIZ
+MSEKQKKPQKLKARLPRGFVDRSAADIHAANAMIEKIRAVYERYGFDPVETPLFEYTDAL
+GKFLPDSDRPNEGVFSLQDDDDQWMSLRYDLTAPLARHVAENFQEIQLPYRTYRAGYVFR
+NEKPGPGRFRQFMQFDADTVGAPGVQADAEMCMMMADTLEALGIQRGDYVIRVNNRKVLD
+GVMEAIGLGGEENAGRRLNVLRAIDKLDKFGPEGVTLLLGEGRKDESGDFTKGAGLNAEQ
+IDKVLFFVGIQNYAESATALAAMVEGTSKGAEGVDELNMIGALVSGAGYESRVKIDPSVV
+RGLEYYTGPVYEAELTFDVTNEKGEKVVFGSVGGGGRYDGLVSRFMGQPVPATGFSIGVS
+RLMTALKNLGKLGQDEVLGPVLVTVMDGDVEAMGRYQRFTQELRSAGIRAEMYQGNWKKF
+GNQLKYADRRGSPVAIIQGGDERAEGVVQIKDLIEGKRLSGEIEDNAAWREARVAQETVP
+EAELVEKVKAMLEAQAEDRRRAGA
+>tr|A0A1Q9AM68|A0A1Q9AM68_9RHIZ
+MPELLSVNGLRIEATSYAPGEAPKTVTLVDGVSFSVEKGKVLGLIGESGAGKSTIGLSAL
+AYGRGGARITGGEVKLNGTDILALGRAGIRGLRGSKVCYVAQSAAAAFNPAHRLGEQVIE
+ASLRHGIMSRAEAEKRALHLFTILGLPNPETFGKRFPHQVSGGQLQRAMTAMALCPNPEL
+IVFDEPTTALDVTTQIDVLAAIKHAIEETHTAALYITHDLAVVAQIADDIMVLRHGKTVE
+YGSTRQIIEAPREDYTRALVSVRQTARPEAVDQSSPVLTIDHVSASYGNGFKVLHDISLT
+LPKGQTLAIVGESGSGKSTLARVITGLLPPTEGRIRFDGAELPRTLKGRSKEQLRRIQMI
+YQMADTAMNPRQTVREIIGRPISFYEGIHGAKKTERVRQLLDQIEMGDRFLDRYPAELSG
+GQKQRVAIARALAARPELILCDEPTSALDPLVAEGILKLLLKLQEDTHVSYVFITHDIAI
+VRAIADSVAVMHRGRLVRFGPKSTALSPPFDDYTDLLLKSVPEMEIGWLEKVLATRRMES
+AGN
+>tr|A0A1Q9AIQ4|A0A1Q9AIQ4_9RHIZ
+MKSVRDHFDVAVIGAGAAGMMAAMTAGQRGRRVVVLDHARAPGEKIRISGGGRCNFTNLH
+TAPAAFLSANPHFAKSALARYTPRDFLALVEARGIAWHEKTLGQLFCDGSARQIVSLLTD
+GMAEAGVDLRLGRTIETVTRREEGGFAVECSDGRVTATALIVATGGKSIPKMGATGFGYR
+LAESFGLPVLETRPGLVPLTLDPQQLAGFSDLVGVALPVRALAQGELSEAGEKGDTGRKK
+DKRPAFREAMLFTHRGLSGPAILQVSSYWREGEAITLDLLPDTDLMAHLKAARRQAGRQQ
+LRTVLAELLPKRLAQMLSPALAAAAGRAEEAMLADYGDAAFAAVARVLQGFSLKPAGSEG
+YRTAEVTLGGVDTRALNSRTMEAQAVPGLYFVGECVDVTGWLGGYNFQWAWASGFSAGQA
+A
+>tr|A0A1Q9AJ18|A0A1Q9AJ18_9RHIZ
+MQPDSLNHSAAEAPLWVPSPESIAAAPLTRLMAHCAERHRVHFADVDAFQAWSVADRASF
+WEAVWDFCGVIGEKGETLLIDEGHMTEARFFPQARLNFAENLLRGEGEGDAILFRGEDKA
+QDRWSHGRLRMQVSRLQQAMAALGIGVGDRVAAMMPNLPETLALMLATASLGAVWSSCSP
+DFGEQGVLDRFGQIGPKLFIACDGYWYNGKQQDVADKVVAIAGKLGCPVLVVPYAGDAPA
+LVARLTDGRSLEDFAAPFAPAPLAFARLPFAHPLYILFSSGTTGVPKCIVHSAGGTLLQH
+LKEHRFHCGIEEGEKLFYFTTCGWMMWNWLVSGLACGAVLCLYDGSPFYPDGRVLFDYAQ
+SAGFAVFGTSAKYIDAVRKADLVPARSHDLTALRLITSTGSPLSPEGFTFVYEGIKPDVQ
+LASISGGTDIVSCFVLGNPLKPVWRGEIQGPGLGLAVDVFDEEGRPVRGEKGELVCTKAF
+PSMPVMFWNDPDGAKYRAAYFERFDNIWCHGDFAEWTAHGGLVIHGRSDATLNPGGVRIG
+TAEIYNQVEQMEEVVEALCIGQDIDDDVRVVLFVRLAPGVALTEELQKAIRTRIRTGASP
+RHVPAKIVAVTDIPRTKSGKIVELAVREVVHGRPVKNKEALANPEALDLFADLPELKD
+>tr|A0A1Q9AMK8|A0A1Q9AMK8_9RHIZ
+MHEGSPVIDGQETGSDSASDRDRRDVLTPGNRFLGRVVACDGTKVVIAAEAQNGETTLTE
+LWSVGRLVSISVGTNRVVALVASMRTATSSWGEAANNVFLVDAELMGEVRMEAEGREIFS
+AGITRYPFIGAIAHRIRQADLRRIYDSGLPDSCAIGELTQDETIAATIHVPSMLSKHFAV
+LGSTGVGKSSSVSLLLRKAVEADPKLRVLILDPHNEFAAAFPDKAVTIDTDTLELPFWMM
+RLEEFAEVIFRGRPAAPEEYDVLREAIPEAKRAFRGGLDGALIRRQAERAGLTADTPVPY
+RMSDLLAQIDERIGRLEGRADKPALRALKTRLLAALDDPRYRFMFAAGTVEDSLQEILSR
+IFRLSGDGKPITAFQLAGIPGEVVNAVASVLCRMAFDIGLWSEGAVHVLVLCEEAHRYVP
+ADAALGFLPTRQAIARIAKEGRKYGVSLGIVTQRPSELDQTILSQCSTVFAMRLANLRDQ
+EIIRSAIPTSSSSTTTFLSAIGNGEAIAFGEAVAVPMRMRFTRLPPNRLPRPHQHGEEGW
+TAEGRPLDVNTIVARMRAVASPDITGFQQRYEAMSERATSEPPGILDRDASSGSQGFEPY
+SPSMLPGAGMPESRFGNPQADRFNALRRQILSTDSGPDRRPGGGTPRKG
+>tr|A0A1Q9AGC7|A0A1Q9AGC7_9RHIZ
+MRLLLLPLALFALPLLEIATFIYVGRHIGVGWTLLLVLVSAVSGALLLKHQGLDALKRIA
+AAARNGEDAGRELVHAAMIVVAGFLLILPGFLTDILGILLFLPPVRALAWKLVARRIVIV
+TTRTTRGPRPEGGARRNAQIIDLDADEFSTDRPKPQDGKADDEDFRRLP
+>tr|A0A1Q9ANQ7|A0A1Q9ANQ7_9RHIZ
+MNPQEIKQALGSGLLSFPVTHFDSAGAFQRDSYQAHVEWLSGFDAPVLFAAGGTGEFFSL
+KPSEVPEIVRAAKEAAGNTAIVSGCGYGTETAIEIAQGAQKAGADGILLLPHYLIDAPQE
+GLYAHVKRVCQSIDIGVMVYNRDNSVILPDVLARLCDECPNLVGFKDGTGDIGLVRQVTA
+RMGDRLTYLGGMPTAELFAEAYLAAGFTTYSSAVFNFVPALAVEFYGALRGGDRATCERL
+LNGFFYPFMAIRNRGKGYAVSAVKAGVRLQGFAAGRVRSPLVDLSAEEERMLDALIAPYR
+RDKAA
+>tr|A0A1Q9AKJ4|A0A1Q9AKJ4_9RHIZ
+MRQADRGADVVSLWDNLPIFFRQMAQPLRFLLEDPAVVEIMCNRPGEIWVERMDCARMVR
+HDVPSLDERAIRSLAQMIAGSTQQNVNEETPLLSAAMPHGERFQAVLAPVAALGGAFAIR
+KQVIRDMSLDDYVELGGLDCVKVIGPGAVDDVLSELDCELIDRLRDPTPKARRDWFRFTV
+ENRVTMLIAGGTSSGKTTFFNGLLQDVPEWERLISIEDTRELRPSQPNHLALVASKGGQG
+RAKTTIQDCLEAALRLRPDRIVMGEIRGAEAFSFLQAVNTGHPGSMSTLHADNPHGAYER
+LAMATMQAGLGLSKSELLEFVRFVVPVIVQVRRDPLTMKRSVSEIYLNKWPGA
+>tr|A0A1Q9APW4|A0A1Q9APW4_9RHIZ
+MAKEIERKFLVESDDWRKEVDEQSVIRQGYIASMEDRAVRVRILNQDRARLTIKIGRGGM
+TRDEFEYDIPVPDAEELLQAAFGTIIEKTRHCIRRGDYTWEVDVFAGAHQGLVVAEVEMD
+AEDEEPALPDWLGREVTGDDRYSNFALATAGLEGA
+>tr|A0A1Q9AHN6|A0A1Q9AHN6_9RHIZ
+MLKSIFAGCVLSIALAMPALAEVIPALHDALPQEYKDKGIKAAVFNDWAPDEFQDADGQL
+KGWSVDLAKEMEQRLGVTFTFEGTSFDAIIPGLQSKRFDAGFSSFGPTAERLKMLDFVSQ
+RRIGTSFAYPKESKLDIKSPSDVCGLTVAVLNGAWDIGILEKLNANECKDKPVIMQTHGS
+QAQAELAVRSNRAQANIGGSVKLAYMAKQTGDLKVSELALSPVNSCIGVRKGDPLGQVLT
+DAIQSMIDDGTYEKIMAKWGLNDSGMLSKALLITEERPADL
+>tr|A0A1Q9AN50|A0A1Q9AN50_9RHIZ
+MFGFEWVGGRHDRDLLLAIGGRHERQGRHGHPEGRGGRGHGDEGGRFTRLLGQGDLRLLV
+LLMIEKEPSHGYEIIRQIEAMTGGAYAPSPGVVYPTLTFLEEAGHASAQEDGNKKRFAIT
+DDGKAHLDEHRQRAQELLERLKMAGEHREKRERHDKHEGHRRDGHGHEGRPQAGAPLPPG
+VDAAMLHLRDVLARKLAEDEKRAGGLVRLLLQMADEVEAGERP
+>tr|A0A1Q9ANP8|A0A1Q9ANP8_9RHIZ
+MPPLSDQDYAALKADIAAHGVKSPVDYDEAGNILDGHHRVAICRELGLNDWPRFVRKGLS
+EEAKRDFALSINLLRRHLSLAQRRAIAAAELRAKPESSARAIAEKVGVDHKTVGAIRKEM
+ESTGEIPQSKTVVGRNGVRKPAVQPIRTMYLPEKANVREVKAVAKAIRTAEMATSRTIKK
+GLIRAIAEKGEIRAGHLPRAAFPVGYADPPWEQQAWSDETGQDRGLPYPPMPLDAIKGLC
+AGEASPFTRDAVLFLWVTTSRLADGIDVLRAWGFAYVSAITWDKELIGLGRWVRDRTEHL
+LIGKRGNFPGLTEGTQPASLFAERRQGHSRKPEAIARMIDRLFPDLPKIELFQRAESLAL
+DDVRRGDGWHLWGFEAGETAP
+>tr|A0A1Q9ACI1|A0A1Q9ACI1_9RHIZ
+MPAFLAGACFYYHILADLSLAAHEKKWCNAIASRHHESCLKMELHMEVRETPLSKIKADL
+KMFAQRERKRLSFPFALRMFLLTPGFQFVFSLRLQEMAARIPLIGRLLRRIIWWASCLCF
+SSEIAIGATVGGGFYTPHPFGIVVGTATIGRDVTILQNVTIGRTSPDSEHDAIIGDGVRI
+YAGAAVLGAITLGRNAVVAANSVVLKDVPDDCVAIGAPATIRPRKSAPTSTAAQPSELLP
+SASQDV
+>tr|A0A1Q9AM04|A0A1Q9AM04_9RHIZ
+MFAVTAATGRVGGNAAKTLLGAGKSLRVVARDVGKAQAFADHGCEIALATMEDHEALTDA
+FSGCEGVFLVVPPSLDQPEDLPKARAIVAAYKKAILAARPGKIVALSSVGAQAVERNTIS
+ELTILEEELADVDLPITFLRPAWYIENAEWDVGSAKNDGVIHSFLQPVDRALPMVSVADA
+GRTAGELLMEDWTGHHIVELHGPDLVSPQDIANAFGKALGRDVGVQAIPHEAWDGIFRGQ
+GIKDPEMWMKCLDGFNEGWLSFEDKGTIKRVGRIGVEEAVAALVGAHRG
+>tr|A0A1Q9ANX0|A0A1Q9ANX0_9RHIZ
+MPHAPFDVSAPSGIIIRAAEPCDAIGLARLSNQPGYRHGTLRPPFQSEEATRQWLTAGGA
+KRLALVAVEGESVVAAGGLHRFEGRRQHAAELGIGVDDAWQRRGVGRALLAALLDSAFNW
+LQIRRVELTVFTDNHPAIALYRRFGFVEEGRLRGYAFREGDYADVLAMALQVDGHAAAA
+>tr|A0A1Q9AC71|A0A1Q9AC71_9RHIZ
+MTTPMIVVVLKGYPRLSETFIAQELLGLEQAGLKLSLISMRRPTDTRRHPVHDEIRAPVL
+YLPEYLHEEPLRVARAWWKARKLPGYQLAWKAFWKDLPRDLSRNRLRRFGQACVLAAEWP
+EGGTWLHAHFIHAPAAVARYTSLMTGTPFTCSAHAKDIWTSPDWELAGKLADSRWTVTCT
+QTGHAHLQSLAQDPARVHLSYHGLDLDRFGLFAGERPARDGSDPADPVLIASVGRAVPKK
+GYDVLLKALAALPADLHWRFEHVGGGTETKRLKALAAALGLEQRITWHGALAQEDVLALY
+RRADLFALACRITPDGDRDGLPNVIVEASSQRLTVVASDISGVPELLTDGVNGYLTPSED
+PAAFAAALEQAIRDPQTRMRFGRAAEARVRGAFDYHQSIRQLKTLFETEWQTHHDR
+>tr|A0A1Q9ACR2|A0A1Q9ACR2_9RHIZ
+MPLKSSGVRLPEDRWATRIHQEFLFAGKIAEETRKSNIFLLAQTIAPAKFFDATHAAHLH
+VFEFRNIQMFTHVPKVPLAAPCNVFVRSLFQPISLNFVLFSD
+>tr|A0A1Q9ALX6|A0A1Q9ALX6_9RHIZ
+MTTTRQPLGGNSVHSGLNGTVESESTPSSQKPPDTFEALHQSILMRQARLPKRLAAVAKY
+IIDTPDAVALGSVASVAAQSRVAPSTLVRFAQLLGYEGFSQLQDVVREGVRGRYAKRLGR
+SIRESDTRIGHPENDLLNRTALAVHLSIETVCESIDRAAMIKAAELVKTARCVFIHASAE
+MRPLAEFFRNCLASVKIRSILFVGSDIDFLKLISGDDLLVVAEHSKMKETPVTASSLLDR
+AVPFIVFTDTEVSLSKSRAAASLKVVETSEAGLLRVAAGTAILETIALYSLDF
+>tr|A0A1Q9ANU7|A0A1Q9ANU7_9RHIZ
+MRQNRRSFGQALLAGAPFLAALAAIPFVIAISVGIGDLPIPVTTTFLAITNRLGWTAATL
+SRIHETVIWDYRLSRALVAAFCGAGLALSGAIMQSLLRNPLAEPYVLGISAGASTGAVGI
+VILGIGSGVASLSAGAFVGAFAAFLFVALLSNGTRGGSDRTILAGVAASQLFNAVTSYVV
+TTAGNAQQARDVMFWLLGSFGGVRWPEFMLVSVVVSLGLVACLAYARVLDAFAFGDEAAA
+ALGVNVGRARLTLFSITALLTATIVSMVGSIGFVGLVMPHAARFVVGPLHVRLLPACAIG
+GAIFMVLADIAARVLIPQQVLPIGVVTALVGVPVFSVILYRFQRGA
+>tr|A0A1Q9ANF9|A0A1Q9ANF9_9RHIZ
+MKSEGVQVANDHLRSFIERIERLEEDKKTIADDIKDVYGEAKATGFDTRILRKVIAIRKQ
+DASARAEQEAVLDSYLAALGMIESDGGEA
+>tr|A0A1Q9AEC3|A0A1Q9AEC3_9RHIZ
+MQYSTTNIFTADEAIAFVIENAQKPHTDKTRVSQAALKRMHPLVRRANILWKRVETNHRS
+RQATIPFWEERTTTPFQISGPHRDEHRRSGAAEAKERRKDS
+>tr|A0A1Q9AHW6|A0A1Q9AHW6_9RHIZ
+MKTATQNFVVSANGSVFGVYAGPDRNAALLAYVHDAGYTSVENAAAALEKSVEEFVDGTK
+VEPLAPLFARIEIVNAAVVIDENPHVAFDIAVDGNVVHSTLEWLDADRRGLVANDCHLDV
+SNDYLDAVEAALGDDGELYDQTSDDARSGVLGDIAHIVWEKLVAVVRELKKSAPEAA
+>tr|A0A1Q9AJB4|A0A1Q9AJB4_9RHIZ
+MFSSQHAQTAGPKVYEEGAFQRVTVNLSGRLMLANHEEFPCAAVDMSPGDVVLHSSARPR
+PGERIIAYVDHVGRLEGTVARLADQQFVVQLNATERKREKLAAQLTWIANRHELGLPEDR
+RHDRLTPRRTRTTLTLESGAVQHCRLIDLSLSGAAIDTELRLPVGTPVTLGAMRGRVVRL
+FQEGLAIEFVGVQTLETLREFL
+>tr|A0A1Q9AN73|A0A1Q9AN73_9RHIZ
+MSRDPGLASYTSVPTVLDGVVSAPLPWDTLSQPVNDDLIGAALSLWPQGAAFGSPDGQAV
+PLESRIARLTRALLSPFETLYQRAYRLALESTVFGADELLTEWEADYGLPDSCVSGETGV
+AERLRALEAKVNSVAAIAIGDFIRIAAAYGFKIFVREPAIWQCGFSECGGDHELGSPREE
+IYWIVQVVNSAVDYFRCGDSECGYDPLFSFADGERLLCIMRRIAPAWTIPVLSLDALEPP
+AELPPGLNWIVLDGTDPPEYLTLDDDYVFDAPPL
+>tr|A0A1Q9AFN5|A0A1Q9AFN5_9RHIZ
+MSTSVSPLAPKTFATVPPLRGVRMATAEAGIKYKNRTDVLMMVFDKPAAAAGVFTRSRCP
+SAPVDFCRKNLSGGTARAVVVNSGNANAFTGKKGRAATELTASSAAAAVGCAESEVFLAS
+TGVIGEPLDATKFAGVLSDMQGRASEDFWFEAAKSIMTTDTYPKVATRTAEIGGVTVTIN
+GIAKGAGMIAPDMATMLSFVVTDAAIAAPVLQELLSIGVGPSFNSVTVDSDTSTSDTLML
+FATGAAEADGQAPVTDVADPAIDGFRAALNDLLRDLALQVVRDGEGARKMVAVTVEGAES
+DASAKRIALSIANSPLVKTAVAGEDANWGRVVMAVGKSGEAADRDRLAIWFGDVRVAVDG
+ERDPDYSEAEASAVMKQQDIAIRAEIGLGSGRATVYTCDLTKEYVEINGDYRS
+>tr|A0A1Q9AL31|A0A1Q9AL31_9RHIZ
+MITLSGIEKSFGETVVLKGIDVTISEGSVTALVGPSGGGKSTLLRCINLLEVPERGSLTL
+GSETIRFEPGRRPSSERVQKLRRQTGMVFQNFQLFPHQTAIGNVMEGLVTVLKWPKDKAR
+LRAMELLEKVGMAHKAEAWPATLSGGQQQRVAIARALAPSPRVLLCDEPTSALDPELSEE
+VVDVLSRLAQEGTTMVMATHDLRLASRVAGQVLFLDGGTIAESGPPSAIFGAPQKERTKR
+FIASLGLSQTA
+>tr|A0A1Q9AD79|A0A1Q9AD79_9RHIZ
+MTLAGSNGEQAAAQNRATILAAIYRGAPISRTELARQSRLTKQGVTRIVDRLLDEGLVTE
+ARRRRGLRGQPAIELEIDPDGVYAIGANIDRDHLTIVAVDATGTVRARLHHEERFLMPER
+FIALMEDALSSFLRRKVIREERLAGIGLAIPDWLGEVPVIGRPDAYGRWSGFDVRGALGK
+ITSHPVFIDNDANAAALGEIEYGVGTQIRSFFYILVNACLGGSLVIDGVRHKGASGLGGE
+IGWLPVVMDEGPLAGHSRPLGDMFSLFILLDHLRAHGVAISTPAELVTLTGPARALVSAW
+LRRVSAKLAEAILDIGMIVDPDGIVIGGRLPVLMIDELLLYTNEEMTRLGRPSLTLHRAA
+SSDDAAALGAAAMPLAHRFGLPTAEPAQRERVPLASPGRLPPAALITSFSGEAAR
+>tr|A0A1Q9AGN0|A0A1Q9AGN0_9RHIZ
+MSFDPALTVSSSQQAPLDVLLITADQWRGAVLPGEPNPDFPVPTPNLDRLAAEGVRFARH
+FCQAYPCGPARAGLITGLYAHKHRVVQNGTPLDARHPTLFTEARRAGYRPTLFGYTDTMA
+DPRGRPAQDPALGDYEGVAPGLDIGLFLGEHAGPWLAHLKRKGYSVPDPARGRDGIFSAC
+RFGEPAVFAAEDSETAFLTDRFIDFVSVHEDRPFFAHLSFIAPHPPFTAAAPFADLIDPD
+TLAAPIPMAESVHPLVEVYRKAVGIEHFVPGLSGRVAEADPRTIAKVRAVYAGMMAEVDH
+HIGRIVEALKAAGRYERTLIVFTGDHGEQLFDHGLMGKLAFYDGSAHIPLILRHPHLVGG
+RGKTVSAFTQSIDILPTVLDAIGLSRPDNVDGESLLPFCRGEMPANWRDAAFWSTDFRDL
+ASRRLERHFGLPSERCGLQVVRTARFKYVHFAGLAPVLFDLADDPLEQVNRIDDPAAAGL
+RREGLERLLDQRLHHEERTLTGYQGMGGRLYTVSG
+>tr|A0A1Q9AIT3|A0A1Q9AIT3_9RHIZ
+MTSIVTNASAISALSTLRSISSNMETTQAHISTGLKVGAAKDNAAYWSIATTMKSDDRAL
+SSVQDALGLAAAKTDTAYNGLDTTIDIVSTIKAKLTAAREPGADKDKINKELTELKNQII
+STAQSSSFSGENWLYNASGATATAKTMVGSFTRSSTGVSIGTITFDATKSVIVDKNNAAN
+GALTKNVAGKDGSGGTGTFFLVNASSATSASGNEVTISSGTTDAQVEQMVSAVDTMLQGL
+TDVASTLGAVNSRIDTQNGFVKDLRDTITKGVGRLVDADMNEESTKLKALQTQQQLGIQA
+LSIANSSADSVLSLFR
+>tr|A0A1Q9AL30|A0A1Q9AL30_9RHIZ
+MAKTIRRWPGAALAALLLLAETAGAAGGGGTPVPSVRLSDATGSGRTGLMAQAEQPSSET
+TNAIPTRVAVQASTLKDGLDAISARDAAKALALRNSLAEGSLDRHILTWALVRSGLNGIP
+SYEIAGAQRELAGWPGLAGLRAASERALYREAPSTRDVLAAFGSSPPETPEGTIVLSRAL
+VANGEKTRAQTYLKRLWTQETLDVATENKILAEFPTLLTVLDHKRRMELLMYRGKQTQAT
+RFADLGKAQSLYRAWVAMTRNAANADQLIAAVDSSWRKDPAYLFVRIERARKKDDYETAA
+TLLASLPRERDALVDPGEWWVEQRIVSRGLLDEGKPRAAYRIAAQHVATDATDVVDAEFH
+AGWYALRGLKDGATAARHFERILKVSNRPLSVARAYYWLGRAAEAGGPGTASAYYQKAAA
+HGATFYGQLAAQKLGRATIDVGYPTPTAEDRERFEKREAVRAIDRLESAGHGWRSDSLYR
+ALAEALDSPGELAILSARAEKTRNHALSLQVGKIAFARGIDVPALAFPLGAIPASANIDA
+SGKALAYAIARQESGFNPAAVSRADARGLLQIMPGTARGIAGRHGLAFNAARLTTDPAYN
+ATLGAHYLGEQIETFGGSYILTFVAYNAGPRRVPEWIARYGDPRGQPLDEVVDWIERIPF
+GETRSYVQRVMENYQIYKARLGQRIDIANDLRVGRAGS
+>tr|A0A1Q9AIJ1|A0A1Q9AIJ1_9RHIZ
+MAALDLSMAIIEFDADGTILKANANFCSLMGYTPAEIVGQHHRMFLDPSYAASPAYAEFW
+AKLRGGQFDCDQFRRIGKGGREIYIRGNYNPIKGAGGKVVKIVKVANDVTAATLTAIDSR
+ASVAAISRAQAVIEFALDGTVVDINDNFLKTMGYERSEVVGRHHRMFLEPSYAASEDYKQ
+FWAKLMAGEYIASEFRRIGKGGRTVHIQASYNPVFDPEGRIVKVVKFATDVSCRVNNVER
+LSASLHELAAGDLNGRIDTAFIPELEKLRTDFNAASERLKAAMLTVADNAQVISGNSNEI
+RHSADDLARRTEQQAASVEETAAALEEITTVVADSSRRAEGAGTLVARTTAHAERSGETV
+REAIDAMDQIETSAREISNIIGVIDQIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVR
+ELAQRSATAAKEIKALISASSAHVANGVALVSKAGLALQEISGSVGEIRGDVDAIVKAMR
+EQSLALGNINQSVNTVDQSTQKNAAMVEEQTAASHSLAQQAEALFALLAQFRLGEAAPAA
+APAQPAPRAPAPVRMAATAASVKARPAPMRAAAPRRAAASAAAVAQDNWEEF
+>tr|A0A1Q9AP48|A0A1Q9AP48_9RHIZ
+MPQTLLTLQTRGAGLYEFTREAAQFVRDSSVQEGLLTLFVRHTSCSLLIQENADPDVRRD
+LDAFFARLVPPADDPGMGWIVHRDEGPDDMPAHIKAALTAVSLGVPVGGGRPLLGTWQGL
+YLFEHRDRPHRREIVAHLSA
+>tr|A0A1Q9AHR1|A0A1Q9AHR1_9RHIZ
+MTSKAKNWALWGAGLSTAALIAAASVYLELPRDASAAPATAAAPPPAVPVTVAVVNPRNI
+TTWQEFSGRLEAVDRVQIRPRVAGVIQSVHFREGGLVKAGDLLMTIDPEPYKAEVAQAQG
+QVASSEAKLDFATTELARGKTLAAKNIISQSDLTQRQSAQSEALANLQSAKATLTTAQLN
+LGYTQIRAPIAGRAGKLEMTVGNLVAAGSASTPLVTLVSSDPIYASFDAGEELVAKILAD
+LPVENGVPAIDRVPVEVSTLATDAPVRGKLQLIDNEVNAASGTIRVRAVFDNPGSRLIPG
+QFVRVRMGQPKAQDRLMVSEKAVGTDQDKKFVFVVDGENKVGYRQVELGSAVDGLRIVEK
+GLNPGDRIVVNGLQRIRPGAVVAPHEEAELANK
+>tr|A0A1Q9AHZ9|A0A1Q9AHZ9_9RHIZ
+MRLDPFYLIVDSADWIDRLIPLGVRLVQLRIKDRSEAEIAAEIRRAKATCAAHGATLVIN
+DYWRLAIEEGCDWLHLGQEDLAEADLSAIRAAGLKLGLSTHDPAELSTALSARPDYVALG
+PVYPTILKAMRWAPQGLERIAEWRAEAGTVPLVAIGGLTVERLPGVFAQGADSAAVVTDI
+TRNANPERRTLEWIAATQPYRAKAPHSEPEHHG
+>tr|A0A1Q9AN95|A0A1Q9AN95_9RHIZ
+MTHADIINGWPTIGDFASDIGVSYGAAKAMRRRGSIPSAYWVRAVDGAEKRGLDGVSYQR
+LAQLAAAALEAAE
+>tr|A0A1Q9AGK4|A0A1Q9AGK4_9RHIZ
+MAFLAMPEAFSGLFAPLTRNGAAPIYTQAPLLFLTLNHLALVAAGTLAATIAAVGLAIAT
+TRLAGLSFLPLARAVANIGQTFPPVAVLALTVPIFGFGPVPTLVALFLYGLLPIFETTLT
+GLTELAPEAREAATACGMTETQRLMKVELPLALPLILSGIRLSAVIALATATIGSTVAAS
+TLGEVIISGLLTGNTAFVLQGGLVVAALAILLNEGFMLLEAIAARRAGRPSAKG
+>tr|A0A1Q9AJS7|A0A1Q9AJS7_9RHIZ
+MDTQESLHIWAVQRAQQIVLREGMDLALSAQDFDTRRVHQRGKKLAMAIAESLIEAAKAR
+A
+>tr|A0A1Q9APM6|A0A1Q9APM6_9RHIZ
+MSLRIPDAYRNPTVRTTMLAIFAFGFSGAATGPYMSVVGIRELRLTDTQFSLLMGTASAV
+NVVISILVGNIADRLGDYRRMMLSVGLFGIAGYGAIYLLPAKSTFILSGLLLLPAYGALN
+SLLFANARAATNRMKREDVASVNAGVRAMISLSWVLVPGITGVLLTGSASMLPAYLFSTL
+AAIACLGLIIAFLPKVAPNDALVINHLSYWAALAHVATPRILLRVLGVSLVTSMLHVNGA
+VLSLIVTGPVKGGVADIGIVIGIVALLEVVFIIALAPLIRRIGAMATLALGTGLYVAYLA
+LLGLSNAVWQVYALSLISGAGAAALISIPITYLQDLIADRPGLGSALISVNMFLGAGLGA
+LIFGVGTSLSGYSGTAILSAVAGGGGILLLLALDGLKSRTPAHQAS
+>tr|A0A1Q9APU9|A0A1Q9APU9_9RHIZ
+MNFELQQVTRRFHGKTAVDQVTLTIPHGQMVGIIGRSGAGKSTLLRMINRLVDPSEGVIR
+FGDLDVSKLKGAALRRWQSDCAMIFQQFNLVPRLDVLTNVLLGRLNRRSTLSSVLGLFTR
+EERILAIAALERLGIEQTALQAAGTLSGGQQQRVAIARALMQEPKMLLADEPIASLDPLN
+AKIVMDSLRDINEREGITVITNLHTLDTARSYCERIIGMAQGRVVFDGPPDALTAQAVSA
+IYGTGRDGVGIDESMTSTALPASAIAAQVGATPSAREGSMANA
+>tr|A0A1Q9AMZ8|A0A1Q9AMZ8_9RHIZ
+MTEPVFLDRSIVEDLHDMQIHQFGGASGLRDEGALESALGRPMNKFHYGCDDIIELAAAY
+LFGLCRNHAFVDGNKRIAIVAAAVFLAENGYEIETDDTTLYDFVISIASAQMQEEDVVHM
+LRRIVVRRGP
+>tr|A0A1Q9AHV3|A0A1Q9AHV3_9RHIZ
+MTRITNLRVFDLRFPTSASLDGSDAMNPDPDYSAAYVILETDRPDLSGHGLTFTIGRGND
+ICCMAIEAMRHLVVGTDLAEVRAAPGKFWRKLTGDSQLRWIGPDKGAMHLATGAVVNAFW
+DAMAKEAGLPVWKFVSTMSPEEIADIVDYRYLTDALTREEALEILKKAEAGKAERIAMLE
+AEGYPCYTTSAGWLGYSDEKLRRLAQEAVDAGFNHIKMKVGRDLEDDIRRLTIAREVIGP
+DRYLMVDANQVWEVDQAIAWMKQLAFCKPFFIEEPTSPDDVAGHRKIREAIAPVKVATGE
+MCQNRIMFKQFIAEGAIDIVQIDSCRMGGLNEVLAVLLLAAKFGKPVWPHAGGVGLCEYV
+QHLSMIDYIAVSGTKEGRVIEYVDHLHEHFFDPCVIRNAAYMPPSLPGFSIEMRPESIAT
+YTHGKPEAA
+>tr|A0A1Q9AQ12|A0A1Q9AQ12_9RHIZ
+MARAFLFVLDSFGIGGAPDAAAFGDEGADTLGHIAEFCAAGAADRSGLRQGPLSLPHLSA
+RGLVHAAELASWRRLAGMPKPDAIDASYGAASELSRGKDTPSGHWEIAGVPVTFDWGYFP
+SEGEAFDRDFVDLFCREVDLPGILGNCHASGTEIIAALGEEHLRSGKPICYTSVDSVFQI
+AAHEESFGLERLYGICQTARRLLYDRNIGRVIARPFTGSSAADFTRTGNRRDYAVPPPEP
+TLLDRLSEAGRTVHAVGKVADIFAHCGIGRLWKANGNMALFDATLEAAKAAGEGDLVFTN
+FVDFDMVYGHRRDVAGYAAALEAFDRRLPEFDSLLKPGDLVIITADHGCDPTWRGTDHTR
+ERVPVLAYGPGIAPRSLGLIEGFAPIGETIARHLGISPGLHAKSFL
+>tr|A0A1Q9AJK0|A0A1Q9AJK0_9RHIZ
+MFDWQIGTMPALLSALCGYLSGSIPFGLILTRMAGLGDVRKIGSGNIGATNVLRTGNKKL
+AAATLLLDALKGTVPAALALHFLGVEAGVVAGLAAFLGHLFPVWLGFKGGKGIATYIGVL
+LGLAPWVVLVFAAAWLGTAKITRYSSLSALVATLIVPIVLAFVAPAPVAWLFAAMSLITW
+AKHHANIRRLMAGTESRIGQKG
+>tr|A0A1Q9ALT8|A0A1Q9ALT8_9RHIZ
+MKPRHIFLALLVATIWGVNFTVIRVGLGSFPPLLLAALRFAIAALPVLFLPRPNIRWPLF
+IGIGATLFLGQFALLFTGMAVGITAGLASVVLQSQAFLTILIASAFLRERPTFRQISGTL
+VAFAGLVIIADTAGGVDFTMTGLGLCLAAAFCWAVGNVLLRRVGSTTVDVFALVAWLSLI
+PPVPLLVLSLIVNGPEALGRAMHTMNWGGVGAVLYIAVLSTTLCFALWGQLLKRYPASAV
+APFSLLVPIFGAASAALFLGERFEAMRIIGMVMILAGLVVVVLPVKRTWRSQLS
+>tr|A0A1Q9ADH4|A0A1Q9ADH4_9RHIZ
+MLLDFDRLGPWKWVLITITTLVCLFLMLPIVFIAALSFGSSQWLIFPPPAWTTRWYGELF
+ADPRWLQSAFTSLKIAAIVTVLSVGIGFLAALALNRGTFAGREVLRALFLTPMILPVVVL
+AVALYAFFLKIGLNGTMLGFIIAHLLIALPFSIISIGSALDGFDKSIEDAAILCGASPWE
+ARMRVTVPAISHGLFGAAVFSFLASWDEVVLAIFMASPTLQTLPVKIWATLRQDLTPVIA
+AASTLLILFTMLLMIIAALVRRGSKQGTKP
+>tr|A0A1Q9AQK7|A0A1Q9AQK7_9RHIZ
+MTTTSKHVEPATPEAAVSVLKRLATRAMGLTGADIERIVRQARLKARREKRPICYEDLEE
+GIRMDRPQVPYDLRWRFAIHEAGHAVVHHALRLGPIHGLNIDTSGGGGYSQLGFTASGSD
+TLGYREDMLAMLMAGRAAEQIVVGKVSAGSGGSDDSDLARATKMALAMERSLGFGAIQPL
+LYREDRDPTAVLDSNPDLAARIHARLERALGRAVDVLSKNRDKLDALIKALFDAQALDGG
+AVAQLLRQGDRKHVDRTAGN
+>tr|A0A1Q9AI08|A0A1Q9AI08_9RHIZ
+MTLDQLRIFAEVARHQHITKAAKSMHMTQSAVSAAVIALEERHGVALFDRIGRSIVLNQT
+GAIFLEHALQVLAEAKAAEAALSDLAGLLRGELSVMVSQTVGAYWLPSRLARFHALYPGL
+GLDVAIGNTEAVADAVEAGRVELGVVEGGIDRSTLSSRVIATDEMIIVVSPTHPWAKGKK
+LGKADFADATWVLREHGSGTRLAFEAMMAKEKLKLQALKIAIVLPGNEAVLGAVEAGMGA
+TLTSRSAAQTELNSNMLVEANHPPLPRPFFLIRHKERYRSKAADAFETLLSEQV
+>tr|A0A1Q9AIH9|A0A1Q9AIH9_9RHIZ
+MDMNEIKEIFFQECEEQLAELESGLLRLNDGDRDPETVNAVFRAVHSIKGGAGAFGLDDL
+VSFAHVFETTLDCVRSGRLEPSQEVLKVMLKSADVLADLTNCARDGGSVDEARSKQLIRE
+LEALAHGQVLAPAEPAAPKAAAPKAAAAPKAAAAKPAPAPAPAAPAAANDEGFVPVAFSF
+DDFGDEMPVNAVLPAYEVIFKPKNDLYRKGNEAALLLRDLSRLGEMSINCNMDALPLLQD
+MQPEDAYFTWKVVIKTDKGEDAVRSVFEFAEWDCDLEITQLDEGSEQEGGDELPMTPVPF
+DLSVLYDEPEPPVGLVEEEERIAASEREAAAAAASNVVQLPGAKMNDAKAAPLPAPVAAA
+AAAAAAPAAAAGQTIRVDLDRVDRLINLVGELVINQAMLSQSVIENDTNGTSSINMGLEE
+LQQLTREIQDSVMAIRAQPVKPVFQRMARTVREIADITGKSVRLVTEGENTEVDKTVIDK
+LAEPLTHMIRNAVDHGLEMPEKRVALGKSPEGTVRLTAKHRSGRIIIELADDGQGINRER
+VRQKAIDNDLIAADANLSDEEIDNLIFHAGFSTAEKVSDLSGRGVGMDVVKRSIQALGGR
+ISIQSKPGQGSVFTLSLPLTLAVLDGMVVTVANQTLVVPLTAIVETLQPEANSIHSFGAN
+QRLISIRNSFCPLVDVGRILNFRYQQANPVEGVALLVESEGGGQRALMVDAIQGQRQVVI
+KSLEANYTHVPGIAAATILGDGRVALILDVDAVVAASRGQPLRHENALAAFG
+>tr|A0A1Q9AL97|A0A1Q9AL97_9RHIZ
+MDEVKIGEILLPGEESEQDAKARRVRKRFWPTLKRAIGHIPFARDLVASYYCALDPETPL
+RTRGILLGALAYFVLPFDVVPDFLAVVGFSDDIAVLTAAFAAVSGQIRERHYQKADAALK
+GPMPES
+>tr|A0A1Q9AIH7|A0A1Q9AIH7_9RHIZ
+MRLLAFAGLFAGFGATAGATDYPVTVTDLAGRSVEIKAEPQRIVVQDGRDLFALTLLDRE
+DPLKRVVAWNNIVSRSDPQTWNLFKSTWPESAAKALDMKFGDEGQINIEQAVAAKPDLII
+YQVRVRKALDDADLLKRFDSLGVPVIMIDTEMEPTVNAPKTVSLLGKVLNREKEAREYTD
+FYATRLAEIRKAIEGAPKPKVFVEAKAGQKGADFCCFTHGDVYWGKLISEAGGINLGSSL
+VKGRTGDVTIESVISAAPDVYVMTGSPFSSDGSVSPPFGFGADKQKVSAALGALERRKGF
+DLIKAVRDHKVYGVYHQLYASAMNLYAVELLAKAFYPDHLKALDPDADLHKIVSEFTGLP
+KGVPVVFGAKAPEASN
+>tr|A0A1Q9ACN4|A0A1Q9ACN4_9RHIZ
+MALRSSRSFRHLFAGALVAALLPLSAHAQDPTPAKQLFGAVTLPSAGATAPIGSYAKGCL
+AGGVQMPADGPTWQAMRLSRNRRWGTPELVSFIERFSGQAASLGWGRGVLVGDMSQPRGG
+PMLNGHASHQIGLDVDIWFRPMPAKTLSAEARETYPFASMLDKSKFLTVDSQRWTPTHAK
+LLLKAAAQPEVERIFVNPAIKKKLCDTWTGDRSNLGKIRPMYGHDEHFHIRLKCPAGDTS
+CKPQAAVAAGDGCDKSLAWWFTPEPWAKPKPQPKPAPDQKPVKPRFTTLADLPKACSAVL
+AAPAAAGVKVQPAPVKSGLVPPASVPDAEGGEE
+>tr|A0A1Q9AI57|A0A1Q9AI57_9RHIZ
+MTRALGLDFGTTNTVLALTDPASGANATRSMAFNSSAGTTDSMRTALSFMKEPGLGAQAL
+KVEAGQAAIRMFIDNPGDCRFLQSIKTFAASAAFQATQVFARRQSFEDLMEIFLRRLKAY
+AGEGWPGEVSSLVVGRPVQFAGANPDEALALKRYQAALERFGFPAVHYVYEPVAAAYYFA
+QSLTADANVLVADFGGGTTDYSLIRFERHAGRLNAIPVGHSGVGIAGDHFDFRLIDNLVS
+PEIGKGSHFKSFDKLLEIPSGYYANFGRWNQLSIFKTTREFADLQSLVRSATEPEKLELF
+VDLIEHDEGYPLYQAVSATKMALSAQDEAEFNFAPLGAAGRKTVRRADFERWIAPDLARI
+EAALDEVLEKTNTPASQVDKVFLTGGTSFVPAVRRLFTERFAADRVESGGELLSIAHGLA
+LIGESGEAERWAA
+>tr|A0A1Q9AP04|A0A1Q9AP04_9RHIZ
+MLDIDKLTLGFGGTPVLSEARLTLSRGQKLLVCGAAGSGKTSLLSVAAGLIPRLVTVPEL
+SGTVTLDGQPLGSIDRQALFRRIGFIGQNLEDQLWDLSVEDIIAFPLENRGMAKAEIRAR
+LKMLIDGFGLSALSGRRVLTLSGGERRLVAVAAALASGPDLLVMDEPTTGLDPAARRRLC
+SILDQAAQDVPSLLIADQDAVSLLPVVDRLALLHDGQLCAPQPPARCLENHAAWEEAGLL
+SPMRRRRLAPAGAIGRPLLAVSALITQLTRSVGDPVLNAVTFEIRTGEVVALIGRNGAGK
+TTLFKAMLGLTKAARGTITLDGAAADRWTVAARARKLAYVPQNMRHILFNMSAIGEVIFA
+ITAATAHSNDPEVVAKARAALARYDLGHLEEANPFSLSVRQQALLGLACADAAGALVAII
+DEPLLARDLRGRQLLERFIAAMRETGRAVMLISHDLELVDDLASRLMLLDEGRIAYDGPT
+DEGWRSQAFAKLGWSAPYASVPEETA
+>tr|A0A1Q9APS3|A0A1Q9APS3_9RHIZ
+MFLGIDLGTSGVKALLMDEAQRIVGSASASLTVSRPHHGWSEQDPADWIRATQEAIDGLK
+SAHPAELAAVKGIGLSGQMHGATLVDAADQVLRPCILWNDTRSAEQAARLDADPRFRALT
+GNIVFPGFTAPKLVWVKENEPDLFAKVAKVLLPKDYLRLWLTGEHISEMSDSAGTSWLDT
+GKRAWSDDLLAATDLSRAQMPALVEGTQAGGQLKADLAARWGMGASVVVAGGAGDNAASA
+CGMGTVAEGQAFVSLGTSGVLFAANDRYLPNPESAVHAFCHALPGTWHQMGVILSATDAL
+NWLSGVTGTPAAGLTAALGETLKTPGGVTFLPYLSGERTPHNDAAIRGALIGLSHESDPA
+ALTQAVLEGVAFAIRDSLEALKSAGTTLDAVTAIGGGSRSHYWLKAIATALGLPVALPAD
+GDFGAAFGAARLGLVAATGADPRQVFTAPATAQTILPDPALAEAFEEAYGRYRALYPAIR
+PLSH
+>tr|A0A1Q9AJ41|A0A1Q9AJ41_9RHIZ
+MIALPIRMQSEKDGGGEGGRSTSVITRTKPKTKKPSLYRVLLLNDDYTPMEFVIHILERF
+FQKDLEEATKIMLHVHHHGVGECGVFTYEVAETKVMQVMDFARQHQHPLQCVMEKK
+>tr|A0A1Q9AK90|A0A1Q9AK90_9RHIZ
+MSLSPFDHPFLSGLFGDAELAALFSAEADLEAMLRFERALAAAQGDCGVLPAELAGAIVS
+GLDGFLPDMEGLRAGTARDGVVIPEFVRQLRAVLGGAAAEKVHFGATSQDVIDTSLMLRL
+KAASALLAQRLAAVTEALEALSHRDGGRALMGHTRMQAAIAITVADRIDSWRAPLLRSAG
+RLAAQSFAVQLGGAAGTLEKLGQKGAAVRARLAERLGLADRPQWHSQRDALAELAGLLSL
+VTGSLGKFGQDVALLAELGSEIRLSGGGGSSAMPHKQNPVTAELLVTLARFNATQLSAMH
+QALVHEQERSGAAWGLEWLVLPQMVVATGVALQTAQRLTGQIERLGRDGQDDRR
+>tr|A0A1Q9AQ42|A0A1Q9AQ42_9RHIZ
+MSEWCIGIDGGGTSCRAAVATLQGQIVGRGLSGAANILSDSPTARRHILAAAEAACREAG
+LDPAVLSSMPALLGLAGANVGTVARDMAAALPFRESEIVSDGLIALEGALGPEDGTMAIL
+GTGTVYLTRRAGAVRTLGGWGFQLGDQGSGARLGHALLQESLLAFDGMRPGSPLTAAVLS
+DFGDDPGAIVTFARAAQPADYGRFAPRIFAALEEGDAVAADLVAAGARQIDQALDAAAGE
+GAAPICLLGGLSQAYQPHLAERHRFRLAPARADALSGAVSLCVAWQRGLSDPAGI
+>tr|A0A1Q9AFK8|A0A1Q9AFK8_9RHIZ
+MIKTVATTPYSDQKPGTSGLRKKVPVFQQENYAQNFIQSIFDSLEDFQGKTLVIGGDGRY
+FNREVIQIAIKMAAANGFGRVLVGRGGILSTPAASNVIRKYQAFGGIVLSASHNPGGPTE
+DFGIKYNIGNGGPAPEKITDAIYARTKVIDAYKIADVADVNLDIEGTHEIAGMQVSVIDP
+VADYAALMEELFDFNAIRALLQNGFRVVFDAMSAVTGPYAKEILENRLGAPKGSVLNFVP
+LPDFGGHHPDPNLVHAKALYDQMMGDDAPDFGAASDGDGDRNLIIGRGIFVTPSDSLAML
+AANAHLAPGYAKGLAGIARSMPTSGAADRVAEKLGIGIYETPTGWKFFGNLLDAGLATIC
+GEESAGTGSNHVREKDGLWAVLLWLNILAVRQESVVEIARQHWMIYGRNYYSRHDYEEVD
+SAAANGLMSALRDKLATFPGTKIGDLTIATADDFSYHDPVDHSVSSNQGIRILFEGGSRV
+VYRLSGTGTSGATLRVYIERFEPDAARHDIETQEALADLIQAADEIADIRERTGRQTPSV
+IT
+>tr|A0A1Q9AIJ6|A0A1Q9AIJ6_9RHIZ
+MSIAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITVAGDGEQGMKIMAQQPHHLVISDFN
+MPKMDGLELLHAVRNNPATKKAAFIMLTAQGDRTLVTKAAALGANNVLAKPFTMEKMKAA
+IEAVFGALK
+>tr|A0A1Q9AIN1|A0A1Q9AIN1_9RHIZ
+MNEADALDMVQAAIWTVLVSSGPAVAAAMVVGLVVALVQALTQVQEATLTFAPKIVAVLV
+TVAISAPFVGSQISIFTDMVFSRIQTGF
+>tr|A0A1Q9APR5|A0A1Q9APR5_9RHIZ
+MDLSFSPAEWTAIRLSLKVALVAMLASLPVALAVALLLARGRFAGKALLNGLVHLPLILP
+PVVTGYGLLLLFGRRGPVGAFLEQTVGLVFSFRWTGAALAAAVMGFPLMVRSMRLSIEAV
+DRRLEEAAATLGAPPLLVFLTVTLPLCLPGVIAGMILSFAKAMGEFGATITFVSNIPGET
+QTLASAIYSFTQVPGGDAGALRLTLVSVALSLTALMLSEALARLTARRIGLP
+>tr|A0A1Q9ACR6|A0A1Q9ACR6_9RHIZ
+MAKADHKHFGSGSQGKGDGSGAMTVLEDGILPDNMILSNRDKAQHSRERGLDGKNIQTEQ
+YRDHAGNRRNEL
+>tr|A0A1Q9AEQ9|A0A1Q9AEQ9_9RHIZ
+MALAGLLEQDAIIPALKVNSKKQLLQEISAKAARLTGLNEREIFDVVLQRERLGSTGVGN
+GIAIPHGKLAPLPAITGLFARLETPVDFEALDDQPVDLVFLLLAPEGAGADHLKALSRIA
+RVLRDPDMVSRLRGTDSASAIYAFLSEAHTSHAA
+>tr|A0A1Q9AIJ0|A0A1Q9AIJ0_9RHIZ
+MSAALDETAPFTLGATPLAALGTLAMRYGQTENATAAGGHVQAIAAGHYTVAGLSRQVRL
+GDFVAHKSETGIHLGEVVRVEQELVYVCPIEPGEPIGIHDVVIRKGAFRVAPDASWCGRA
+INALGEPIDGGLPLSHGPVARSISNTAPPSMTRRRVEEGFRTGVRAIDLFSPLCLGQRLG
+IFAGSGIGKSTLLSMLARAEAFDRVVIALVGERGREVREFIEDTLGEDMKKTVAVVATSD
+ESPMLRKMAPMTAVTIAEHFRDQGENVLLIVDSVTRFAHAIREVATASGEPPIARGYPAS
+VFTELPRLLERAGPGVEGSGTITAIISILVDGDNHNDPIADSTRGILDGHIVMERSLAEE
+GRYPPINPLSSVSRLARKAWTPDQEKLVARLKALIHRYEETRDLRLIGGYRPGSDPDLDM
+AIKQVPVIYETLKQSPGERPAFDAFTDLANALKAAANGGAAARGR
+>tr|A0A1Q9APU3|A0A1Q9APU3_9RHIZ
+MWHEIAPDERHEILVDGHRVVTYVFGEGPQTLLCLNGGPGLPCDYLREAHSCLKDHGFKV
+VAFDQLGTGASDRPTDRALWTIDRYVAETETVRQALGLGPVHLLGHSWGGWLAIDYALTH
+PDAVKSLILADTVADMPHLVSELERLRGALGAETVAMMQAHEAAGTFSHPEYQAAITLLN
+YRHVCRLPEWPAPVNRSLSDWNMGPYETMQGPNEFLYIGNLKDWNRIPDLPRITAPVLIV
+VGEHDELTPACALRMKNALPPGATVNVVRNASHMPFYENPEGYYPPLLAFLSQVSG
+>tr|A0A1Q9ACA6|A0A1Q9ACA6_9RHIZ
+MTIPSNGLHHVTLITRRIQANVDFYVGFLGLRLVKRTAGFEDAAQLHLFYGDRTGRPGSL
+ITFLAWEDGGQGRLGRGAPSEIALAIAPEAIGAWMTRALRFQIPFTGPESEFGEPVLRLK
+DPDGVIVKLTGTQALSDRNAPWSQPIDEEDPVGALPPVADADAVQGLRAATILTERPEET
+AAFFNRHFGLVELAREGSVRRLAFPRGDAIDIRDAAGFWEAAPGTGTIDHIALRAADNRA
+VAALRLALAAEEAGPTPVHDRRYFTSLYVREPGESLVEFATDAPGMTVDEPEATLGTRLF
+VPGHEDRIPPLETTVVLPQFALPGEPRRIARDLPFIHRLQAPEEEDGTTLFLLHGSGANE
+LSLLPLGRKAAPGALLIALRGRALEEGSPRFYRRITPFRFDQADVRAEADAFAAFITDSV
+AAYGVDLDHAAFLGYSNGANMIAATLFLHPGLIRRAVLLRAMNPLEEPPAADLAGTSVLM
+LSGSDDAYAAHAPALEEALRASGAEVEARRIAAGHLLTEEDTRQAGLWLAGKSPRLGSES
+ESRSSEDVGAKTIG
+>tr|A0A1Q9AH08|A0A1Q9AH08_9RHIZ
+MLYKAAFDPLVPDRIRIALDIRFSACSLSYGDRRVLEPLTLTLSEHRIGVIGLNGSGKSS
+FARLINGLQAPTSGTVTVNGIDTAADPAAAARAVGFIFQTPQNQVILPVVADDIALGLTS
+RGMPKAEAQARTEAILERFGIAALARRRVHELSGGELHLAALASVLVTEPDLVIFDEPTN
+QLDLKNRRRVIAAIAGLDKPAIVVSHDLPLIADFKRVLLFHEGRLIADGPAEAVIRTYEA
+VAAGSDEDGAAAKPEAAQAAANRAEGAAC
+>tr|A0A1Q9AE47|A0A1Q9AE47_9RHIZ
+MSKRFEIEATPLDGLLLLKRRPIADPRGSFARLFCAEELAAAGWHGPVAQINESRTRHRG
+TVRGLHYQKPPFAEIKLVSCVEGAILDVAVDLRPQSPTYLKTHAAELSAGNACALMIPEG
+FAHGFQALTDDVRMIYVHSAPYAAEAEAGIDATDPTLSIAWPLPVANRSPRDEALPRLSI
+PDERFSA
+>tr|A0A1Q9AGR5|A0A1Q9AGR5_9RHIZ
+MTTSPYRIAIVGAGPSGFYAAEALLRTGQDLAVDLFERLPVPYGLVRFGVAPDHPKLKQV
+TAVFDRIAAMPGFRFVGGVEVGVDVGIETLRNAYHAVILATGASLGRKIGLPGEGLAGIH
+QASDFVGWYNGHPDCRDLTFDFRGERAVVIGHGNVALDVARLLVKTPDELRHTDIARHAL
+EALAESRIREVHLVGRSGPAGTRFSAKELQEFGTLENCDPGVEPGDLGRDPFDPPHDADP
+ERRMAIGLLEGFSHRMWEKGKRCLFRFHLHPASFEGYDHVGRVMFRRMAPGEDMERELAI
+DTGLVFLSLGRRSAPLADVPYDGARGVHANVGGRVGGEEHGVPGLYACGWSKRGPQGTIG
+TNRACALDTVDKLLADLGSLPSPGADAADDLVSALWKRQGLRLDFDAWRAIDAAEVTRGR
+ALGKPREKFVSVEAMIDAARGRDIAC
+>tr|A0A1Q9AJF5|A0A1Q9AJF5_9RHIZ
+MTDLRHYDVILSPSITEKSTMVSEYNQVVFNVAKDASKPEIKAAVEALFGVKVTAVNTLL
+RKGKTKRFRGFVGRQRDQKKAIVTLADGQTIDVSTGL
+>tr|A0A1Q9ANF2|A0A1Q9ANF2_9RHIZ
+MRKLLWSRPIALNFHGKQADVNGPSEALDWMSRNWPDARGPCYVAARSLCRAAMSGRRSP
+EEAREMFLSAAEEARLSASVARNSLRQQEH
+>tr|A0A1Q9AC64|A0A1Q9AC64_9RHIZ
+MDKSRQIEGADADLRGQDPAEGARDIIDHELARSQGESDDQTEKGASDKKSLEKDSGGKA
+NDTPHPAGPHARPDLTDKSRTPGAGTLAEDSPDTDPGAG
+>tr|A0A1Q9AJH0|A0A1Q9AJH0_9RHIZ
+MGVKLDDFGAATAGTDLAVSTNRSGRILSGEAPIAVWGSFSGTSGSGLSRHASARLETRR
+GAFHGDIGRRRTIVLSTKTDLTLERELTLDCHLYSGRCQTVLLQQTARLLEVKSGTALVA
+RSRMDGLKFDLEQSLGVEQRLGRLTLRASLDDLQQQPQPSLSANMRLRW
+>tr|A0A1Q9AMY1|A0A1Q9AMY1_9RHIZ
+MTLSRPTRSTPLRKRAVGSLLAGVALFALAAPAFALDGADMVRKLNAAYSPSGGQIAYQA
+IEVEGDVVTLKGASLNPLNQPPIPLGDIAFEGVAEKDGGAYYVETVAFQDLDMTQEDSHI
+TARDMAIGGLQIPASTTGNTLDNLLYYQTAASGPVTVTVKGKTVFSMEATESNVSRQEGD
+KGLEFDGSATGIKIALDTVEDPKSRETIDKLGLSTLNGEISMEGNWEVGSGTLSLDNLEA
+DFDKVGKLSMTLGMSGYTPTFMNAIQQAVKAAEENPNKEQANQALGMSMLGLLQQLTFNT
+AEIRFDDASITQRLLDYFGAQQKVSGKQLAESLKGLTPLMVAQLNIPELQNQISNAVSTY
+LSDPKSFTISANPEKPVPFPMIAGAAMGAPNTLPKMLGVSVEANAGE
+>tr|A0A1Q9AHZ7|A0A1Q9AHZ7_9RHIZ
+MATLLANPIVEAMRSNTRSDLCQALRHYEAYLDYKNSLKKNPDCVKVRRIVIERPPTIDL
+AELMARLPARQSEAVEELY
+>tr|A0A1Q9AJW0|A0A1Q9AJW0_9RHIZ
+MKTYRDRQRSLEQLSRHMEVWADELGAFETLRRVPLGPLLARSPQGVETTLSPGDSWSDR
+FGVHHFTLTDPVALPEGPGIELRLDFGGETLIRLKDTAGRVIDSFAGNERHKRFDAPRDV
+AFTIEAQSVARGLFGVPNRAPVFKEAAILHFYPQVRALRRRIEILRSTADTVKDEALSRA
+LFEAGEVALSALRLPTATAEVGPRLATRAWTLDLWERSFEPTDTPAPLDAAALASVEVAT
+ADLDRLLADLRAAYPKHGRVLATGHAHIDYAWLWPQPETVRKIGRTFASVNSLMKKHPDF
+RFLQSSALYYRHIEEEDPALFEEIRARIAEGRWEAIGSMWVECDTNMPSAEAFLRQFMQG
+RAYFKEKFGVESRVAWLPDTFGFTGAMPQIMRHAGVDKMVTIKISWNETNRLDDNLFHWQ
+GNDGSRVLVHMFDAYDNDGYNMLMTPAALSEVWSKHAAKDMTDAVIASYGWGDGGGGPDP
+DQIECMPLLNLMPAIPTIEHARIETHIETLAEAAKTAAVPVWSGELYLEYHRATLTTQGR
+TKQLNRRAEYGLAAAEAASVIDRLDGGETPFPALDADWQLMLRNQFHDILPGSSIREVYE
+QTEPELEGVVERTDAIIAERLAAIAARHAGDGPSGLLIANLSGSAKTAVQIESPHPLPEA
+LQPQPTDDGFVTAIDRPLAPLALGFAATASARRAAASLEDGIGKLENELVAVRLDAHGRI
+ESLIEKASGRELMAGPGNRLMLYRNDLPRNFDAWDIEPGFELGEEEWLSLEGLTVTASGP
+HLAEITLARRHSASRIVQRMRLWSNSPRLEILTDLDWHDRRTYLRAAFPVTVHAEEAVYD
+QAIGVTRRATHTNTSWQRAQFEACGHRFVSLSETDWGCALLSADKYGFSARGNVMTLSLM
+RGPTFPDMLADEGEHRFTYAILPHDGRWWSEAVQAEADLLADPLRFVAATTSPDLTVRPV
+AFSGQQARFHALKPAMDGKGYVLRLSEAAGRRGPLHLDLPGTAHTVDAFEVRLEDGQPHI
+ERPFGLASFRFGQ
+>tr|A0A1Q9AD91|A0A1Q9AD91_9RHIZ
+MTWAIYDAPPFMIAEGADAESGIFDRIRNLLSHQLGDLPQAVLTAPFPRIVTALKAGADW
+CFIGGVKTPERETFAVFSKPVAMFYPLRVVINSADRVRFEALQPLSLLSLMRDHPELQTS
+VLRNRSFGPQFDALQKAYPAANQHSDFLEAFRMLMNRRLDYLVEYSNIATYNARRLGKPD
+GLVLLPMTEVSEPVYARVMCARTAQGLAVVDRIDHVLDQERNTPSYRAIVEAWSAPADQA
+KIRAIYDSQFLTAR
+>tr|A0A1Q9ALN4|A0A1Q9ALN4_9RHIZ
+MPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPA
+ACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRLPPAACRL
+PPAACRLPPAACRLPPAACRLPPAACRLPPAAEHTIHQRPNQAHPTGSPRQMRAPCPWHA
+AQSAGATPCL
+>tr|A0A1Q9AFJ2|A0A1Q9AFJ2_9RHIZ
+MSATDRITARLTEAFQPERLAVLNESHLHAGHQESFDGAGETHLRVRIVATAFAGMSRLA
+RHRAVNALVQPEFDAGLHALAVEAAAPGEPVRW
+>tr|A0A1Q9AHP3|A0A1Q9AHP3_9RHIZ
+MDDQANLLPLYEQVRRAIVAGIDDGQFAEGSFLPPEPDLMDRYGVSRITLRRAIGDLCAD
+GRLQRQQGRGTIVMPRKVRQTLVSLSGFSETMDGLGRKAGHRILARVDNPDTPVIRDRLQ
+AKALIRFDRLLEDDGRPMTLETLWFDAHRFPEVVEPVAAGGSFFAALREEAGIEPAHAER
+QIDVGLATSEERAILSVSATQPVYRIEKIVTDAGGRPLALSQLVTPSHLVTYTIKT
+>tr|A0A1Q9AEF7|A0A1Q9AEF7_9RHIZ
+MAQSFDREEQGDWRHLCVDMQRLFSEDTPWHVPWMARILPQVSAIAGRHAERSLFTRFIT
+PEKAEDMPGAWVDYYRKWPMMTRAALPAEMLGLMPELARFVPPGRLFDKAVYSPWADGRL
+HPLLQAEGVRRLVMTGGETDVCVMAALLGAVDLGYHITLIKDGLCSGTDATHDDSLELLG
+SRFSVQVEILTAEAFLSRAG
+>tr|A0A1Q9AE15|A0A1Q9AE15_9RHIZ
+MASDYGFRLHNRAAGYTINGFYTYQDGRWSDNWLTGRVRPGQAVDMDWFSNEGNCTVPFR
+VSWDDYGADDFKLDWCKGVSNLYMKDKGFSWD
+>tr|A0A1Q9AFK4|A0A1Q9AFK4_9RHIZ
+MGEQLVLQEKLRKAIAQELSERVSVHRKNIARLQSAQEGVRTLAAPLGNRPLVLLAEGDS
+WFDYPLVGNGPLLGDTDVIAHLRNIGAMPPTVLNLAVAGSTAVGEMSLTRQSALIAQLQD
+KSNWFHGKPDAILFSAGGNDIAGESFCIFLDFNDGKAAGLNTTRFSRALGMVEACYLNLF
+AIRDRVAPGVPVFGHCYDFPIPNGKHPLCVGPWLKPSLDYCNWSVGKGTAIVHEALTEFR
+TMLKGLEANPKNKFHLVDTQGTLDAEEWANELHPTPKGFKKIAQKFADALDAKLRPTFAS
+HAVAALTASSTEQQ
+>tr|A0A1Q9AGK8|A0A1Q9AGK8_9RHIZ
+MIGIARAEGVRTVPPGNRNAEQPPVPGASSRRTEAGNTTFNAKYKKVLALLQNDPKLIAK
+IKSTAAAYNIAPIHMIGAIVGEHTYNVDAYDRLQAYYVKAASYAGDSFRFAYNGESVDHF
+VDRPEFSACAAKKGSYDLWSCRDDVWNAKFRGKTVDGTAFPDNRFSAVFFQPFYAGQTFG
+LGQINPLTALMLTDDVARTSGYPRLDESKAAAVYEAIMDPDQSLAYMAAIIRRSIQAYRS
+IAGMDISDNPGLTATLYNLGDPETRAAALAARNRAGADRWPEENYYGWLINDKLPELKAL
+L
+>tr|A0A1Q9AN55|A0A1Q9AN55_9RHIZ
+MQVAIQKIDDAEGIVIPKEVLEELGLKAGDLLEIAAAKGVMTITPAESTRSRQRAAAQQF
+MDKYKVALKRLAE
+>tr|A0A1Q9AHK1|A0A1Q9AHK1_9RHIZ
+MEIAVDPIRAVEPAWAPAARQNLALLDQICQVVEGPFHLIHPATFAENLAAFQTVLRAKN
+VAGAVYFGKKANKAGAWLREVARLDGSVDVASVPEFVHVLANGIRGERIGVTGAAKNDEL
+LWLAARHDALVAIDALDELERAIQIAHDTGRLRVLLRVLPPRAPNSRFGFNEADLANALR
+RCAKAGDCLAMEGFSFHLDGYAVAPRAELAAQLIEQCRQARSHGLPASAISIGGGFACAY
+VAEEDWRAAAAALQADQFHAGETFAQFYPYFQTPTGAAMLADILETAFEGRTLASLLSEA
+QIQLFLEPGRALLDGAGMSIFPVQGFKRNDAHGIVTVAGLSMSLSEQWKNSEFLPAPFLI
+ERGPAQPRTPIRAAIGGSSCMEYDVLTWRKIVFPAPPRHGDLIVYPNTAGYQMDKNESEF
+HQLPLPPKIVISQQADEFTWRIDR
+>tr|A0A1Q9AK88|A0A1Q9AK88_9RHIZ
+MSDSKFPPENNLPAGYEPAKVWQWEAGNGGQFASINRPIAGPTHDKDLPVGQHPLQLYSL
+GTPNGVKVTILLEELLDAGHTEAEYDAWLINIGKGDQFGSGFVDVNPNSKIPALMDHKPK
+DGGAPLRLFESGSILVYLAEKFGAFLPADLRGRTEALNWLFWQMGSAPFVGGGFGHFFAY
+APVKIQYAIDRYAMEAKRQMDVLNRQLAANEFVAGSDYTIADMAIWPWYGRLALDDSYPR
+AGEFLATHEYEHVVRWAKQLGARRGVKRGAMVNRTSGDPSTQLHERHDAADFDTKTQDKL
+G
+>tr|A0A1Q9ADX1|A0A1Q9ADX1_9RHIZ
+MTDSIKTASSPPAPGRLRLVGAVALLALVAAMAYDTRVVTIGSEHDVREQGFSAEAFGAK
+TFPEVKADIEKRAVDAVELAKALAADKQAAAAKYGVAGGTGPVIPVTFTGVVGERKSNFN
+VVAVEGLPPELTVRVQTGPALNGTELRDATGTISFGQFTNQIEYQDAGSALNNEVKKQVL
+AGIDPNALTGKTVTVTGVFRLVNPKSWIVTPVRFEVKG
+>tr|A0A1Q9AHF5|A0A1Q9AHF5_9RHIZ
+MAEAANGRLVIVGGGQAGFALAARLRALGDLRPVTMLCAEASLPYQRPPLSKKYLLGEMA
+LDRLQFRPEAWYRDNAIELRLSTRVAAIDRAAACVVLDDGERVGYDRLALATGATPRQLP
+SAIGGDLEGVFTLRDFRDADRLSQAMAVVKAAGRRALIVGGGYIGLEAAAVARLQGLDVT
+LIEMADRILQRVAASATSALVAALHRGRGVDLREGAALSRLEGRDGRVVAAHLADGTVLP
+VDLVIAGIGVAANDALAREAGLATGNGILVDAFGRTQDPAIYAMGDCALVPFEDMAVRLE
+SVQNAVDQAEAVAAHLAGSAEPYRPKPWFWSDQYDVKLQIAGFGLGHDETLTRPGAREGA
+VSVWYFRGGRLIAVDALNDAKAYVTGKKLIEMGVTPERVRLADPATDLKSLLPA
+>tr|A0A1Q9AN04|A0A1Q9AN04_9RHIZ
+MTFKDRPPFSYRVRVGHVSHNPLEVHVEADDRERVAIAELWQVLSVEALTADVKLTRWKR
+DGVKMVGRVKARLTQACVVTLEPVESTVEEQVEAIFVPEDSRLARIAANDSAEMFVDPDG
+PDMPDTFSGDEIDIGAAVAEYAALGIDPYPRKPGVAFAPAPVEETKEEKRPNPFAALKDW
+KKD
+>tr|A0A1Q9ANV4|A0A1Q9ANV4_9RHIZ
+MQTSHRKHIRFRPPLDEGKIARRALLESLTQTRLRRLNLIVAPAGYGKTSLAAQWHAHLV
+HSGMTVLWVSLDPDDNDQTGFLLALIEMLDAVVADGASESDRGSLSVATMLAVLVTRLER
+LPGPVALFIDDYHLAQTDANESVLARLLARPELSHIKFVIVSRSAPHLPRSALRLADEFR
+QIGVAELAFSDAEAQALFAGSQTRLRGEDLIELNRRAEGWAVALQMVRLLVEDDGTDGKS
+ILEAFNGHNEDMGRYLAEQTFSGLPEALRRLLMETACLPAISRDLVAAVCDWDTTAAFGM
+LRDSALPLAVLDRDGRWMRCHPVFNAYLREAAEETGSPSRERLVRAARWFEKEGDLLSAV
+DHAFLAGSAALAADIIEAGGGWQRVYMTKRGGPGLFRRLADLADEVDLPRYPLTTLGLAV
+VSAKTGQLDAADHYMALARKTPDSSKEGVAQALRVIGVLLALYADRWVTAAELGALEADL
+LREGGLTLVHRGLSLNMLSYNFLIRSDLERAQHYGRLAMQTFRDGGAEFGAIHLYLHVGQ
+AAFFNGDAALAEECYDSLADEAVRLMGRGSDLDAMANVLKAEVLTARGNIPAAEALLSWA
+LPHVERHDAWHDLLAAGFCAQQRMLRLKGEIIAAHEAMDRARAVARRRGFDRLTRLIDSE
+RAGLLVVTGDIEEAVRFAEANGLGARLASDGPANDLSIRLRGGVPALLWVRIYLETGDLL
+QSRAAFTRLVTQQRQKPHAVRAIELDLVDIRLALAEGRSAAAADRLSDLLLTQPLTDYRA
+LVTLEGQAFTADLAALSRDADLPDLIRRRLEAVLAGNPDSSGDAAVPAATASGLTDREEA
+VMRLLSEGLGNKEIGRRLSLSDNTVKFHLRNIFAKLKVTTRTAAVSAARQSGILA
+>tr|A0A1Q9AQL1|A0A1Q9AQL1_9RHIZ
+MQGYVIRNFTPNWFATTMGTGILSVALAQFPGHPWLFAMGQALWLFNILLFATCTTLYTA
+RWLLYFHEASRVFSHSVVSMFFGCIPMGLATIINGFLIYGIPHIGDTAVAIATTLWWIDV
+TLSLACGLAIPFMMFTRQSHSIDQMTAVWLLPIVASEVAAVSGGLLLPHIADAQTQLTVL
+MTSLVLWACSVPLAMSVLVILFLRMAVHKLPHVNMAASSWLALGPIGTGALGLLVMSQTG
+PAVLSANGLASVAPAFGGASFLGAILLWGYGIWWLATAVLITLRYLREGLPFNIGWWGYT
+FPLGVFAVATLRLSTMVPMSSIAIFGAVLVTALVCMWLLVAAKTIKGTLDRSLFVSPCLK
+AD
+>tr|A0A1Q9AEM4|A0A1Q9AEM4_9RHIZ
+MRKLEDKVLIVASHNAGKIAEIRDLIGPLGFSAKSAADLSFAEPDETGTTFEENATIKAL
+ASARASGLPALSDDSGLVVDALGGDPGVYTANWAETPEGKRDFAMAMGKVEDALQKAGAT
+TPEARTARFVSVLCMAWPDGHVELFRGEVEGEIVWPPRGTAGFGYDPLFQPAGHTRTFGE
+MTAEEKHGWKPGDADALSHRARAFKLFAETCLGA
+>tr|A0A1Q9AHW0|A0A1Q9AHW0_9RHIZ
+MSTLSVLLVDDEEELRRSTAQALELSDYRVEALAQAEDALSRITYGFRGVVVTDIRMRGM
+DGLTLMQRIREIDHEIPVILITGHGEVQLAVKAMREGAYDFLEKPFSLQTLAGIVNRALD
+RRSLVLENRRLRSVAGKDDDLEARMPGRTPVIIDLRYRLRAIGATDADTLVIGETGAGKE
+VAARALHDLSARAGRPFLVINCAALPSGLIESELFGHEAGAFPGALRARYGKFEHGRGGT
+IVLDEIASLPVELQARFLRVLQERTITRLGSNEVVPLDVRFIATSKTDLEVEVATGRFRA
+DLFYRLNVVTVRVPALAQRQADIPLLFLQLVREAAARYGREDISVPPEVLVDLGQRDWPG
+NVRELRNAADRFVLGLDLPGTGTIAAEEKETLRLADRVAAYERRIIAGAIAAHGGSLRPV
+YEQLGISRKTLYEKMQKLSLDKRLLSGDGED
+>tr|A0A1Q9ACA8|A0A1Q9ACA8_9RHIZ
+MLTVDNVNLHYGAAQALRGVSITAPMGKITCVLGRNGVGKTSLLRAITGQQATSAGTIAF
+NGAGLDGLAPYRRAKLGVGFVPQGREIFPLLTVKENLETGYAPVARKDRFIPDDIFSLFP
+ILQTMLGRRGGDLSGGQQQQLAIGRALVTRPKILVLDEPTEGIQPSIIKDIGRAIRYLRD
+STGMAILLVEQYLDFCRELADHVYIMDRGEIVHEGPAETLDTPEARRHLTV
+>tr|A0A1Q9AJF0|A0A1Q9AJF0_9RHIZ
+MSLFPEPLERLAAEVIATYAARGLMVATAESCTGGLIAGLLTDVAGSSKVVDRGFVTYSN
+AAKQELIGVREETLARHGAVSRETALEMAAGALAASQAFAAVAVTGIAGPGGGSAEKPVG
+LVHLAAVNRQGEILHLEMRYGDLGRTGIRLATVETALELLVELIPER
+>tr|A0A1Q9AL63|A0A1Q9AL63_9RHIZ
+MNIKSLLLGSAAAMAVVSGAQAADAIVAAEPEPMEYVRVCDAFGKGYFYIPGTETCLKIG
+GYVRTEFRYRENSYPNGGDIDAYSRGYLTFAAKNDTEFGAVSSYINLQADTEGDAFVDGA
+WINVAGFDVGYFYNWWDDGLSGETDELGSNLFNAIRYTYDGGTFLAGVAVEELDSGVNNK
+WNDNIGVSGKLGFTLGAVKADVIASYDFDAEEAAFRGMMFADVGPGTFGLSGIYATNPNA
+YYSAAEWTVAAEYAIKATDKVTITPAAQYFGNVNTAYRAGTLGFIDTNPSARGSFSSSDA
+WKVGVTAGYKITEGLRTLATVNYVKFDDAPRNVDDSKWTGFLRLQRDF
+>tr|A0A1Q9AF95|A0A1Q9AF95_9RHIZ
+MSAALARALKLYKSNDPAAAIKALAPDLQAKKTLPLEVLLLAGQCFAKTEDWERASDYYN
+RAAKLAKANAPMLRALAANLLARTDKAYESMQTARTAARSGAFDAHAEEVYRRNLQEYLL
+LEESRQENERFLAALERGDKDMIGVEYPFMNINWCDDERINAMMTNIKLSAPLTELSRAA
+RRARPHTFNKPLKIGYLSCDFYSQHATMLLFRGVLEHHDPDVVDVTLFCYSDPKSYSYDD
+GWRSLQDNLVVIRDLSDEEAAAAIREAGIDILVDLKGHTRGGRGGILNLGGAPVQVAYLG
+FPGSGCGIDCDYIIGDHFVLPDSSQPHYHEMFCRLPESYQANDNTRRADPPAATRASLGL
+PENRFVFASFNAVRKITHRTATLWARILREVPDSVLWMMCPSVFAQDNFLVWMTEQGIAR
+ERIIFAPFADYAQHVARLKAADLGLDTFPVNGHTTSSDKLWAGLPVATIKGRHFASRVTE
+SLLNGVGLPELVAEDDEAYVALCVALARDRMRLDALRRKLADGRDSAPLYDTARFTRHLE
+EAYRIMAARAEAGLEPDHFDVPLLS
+>tr|A0A1Q9AJU5|A0A1Q9AJU5_9RHIZ
+MIRPTGGAPKLKPRDAASLILLDRSATPLRVLVGRRATRHVFMPGLHVFPGGRRDAADLR
+QPLARPLPAQVQERLLAALGPRGSGRLAQAIAIAALRELKEETGLCIGRLRPGEGPAPVE
+GGARKSATNSRPGLGFLPDAANLRYIARAVTPPGHVRRYDTHFFAAFADEVGLSGQAARD
+SHELEELQWLALNMAHMVPMADITRIILADLEQRLAADPALALASPIPFYHSQRGRLVRD
+LM
+>tr|A0A1Q9AKK7|A0A1Q9AKK7_9RHIZ
+MGTSAVQNMYQALANHLGPLFLAGLAVYVVWWGYEMLFGRAPMTAGAFVWKFGRAFLCYS
+MIVSWATYQPLIVTPLVQAPDAIATVVCEAAGGEGCGTGGASVGQGLSDIWHAGMQGASS
+MVAQGGVFGWFLYLLAGGVLLFTLILCVTAAVILIMGKMTMFVLLGIGPIVMCCALFNVT
+SGVVDGWIRSLATYALLPVLVYTVLGLMTSLLGNTVTALQAGEPTLSTVMPFLFMCAATT
+LLLKEVVGLAAAIAGGGPRIESSTSLALFNARRFGIVGARGAYKGGRYALARLMAGGTVT
+DGAADRALVTSAALNGRR
+>tr|A0A1Q9AF71|A0A1Q9AF71_9RHIZ
+MSDPVVSDAPAGDPVIAAAHCFLSSLSRPSRLLVALSGGSDSMGLLRALHAALPDYPGVT
+IEACTVDHGLRGESAEEARQMGALCRRLGIRHHTRLWEGVKPASGLQAAARLARYRLLAD
+IAAAQDIPIILSGHTADDQAETVAMRRLRSTPDQPGLSGMAPATLLFGQVWLLRPFLSLR
+RAQIRWFLQAIGQDFIEDPSNDNPRFERVRLRQARAGADPLAHAADMAAIERAGAARLAE
+DVAIATLLAAHARRIGEGRVGQWIVRLSPELLLPESLQLHGPALSRACGLLAAALGGRTT
+VSGRDTLARLMAFLDDQTPGRMTAAGTVFDRRRQGLYLYREARGLTGAILAPGATLLWDG
+RLSVTSQADHPLILSAGLQGLIVADVDVPPGVVARAARAQLRVSRRSGEPADPASWQAEP
+CLGLYDTFLPCFDLRIASEIARLVGRKPFPELPQSLSLRMSKPAEMA
+>tr|A0A1Q9AGU3|A0A1Q9AGU3_9RHIZ
+MGSTSDRVSGAANQAAGKIKQAAGNLTGNDRLEAEGKGQELKGKVQSASGKAKDAAKDVV
+DRM
+>tr|A0A1Q9ANU9|A0A1Q9ANU9_9RHIZ
+MLPALDHETYLRQAFAVARRAREGGDHPFGAILVGPDGAVLMEQGNGYTAEGRDMTAHAE
+RLIATRASKAHPPVFLADCTLYSSAEPCAMCAGALYWAGIGRLVYGQAETGLKEETGNHA
+ENPTLDLPCRTVLAAGQRKVEVIGPMLEEEAAALQEGFWERAET
+>tr|A0A1Q9ADD6|A0A1Q9ADD6_9RHIZ
+MSITLFDLTGKRALITGSSQGIGLALARGLAAAGAEIILNGRNREKLEAAVQDCGAAHSL
+AFDATEPAAVHAAIDRFEAETGAIDILVNNAGMQHRAPLDAFPADAFELMMRTNVSSVFH
+VGQAVARHMIKRGAGKIINIASVQSALARPGIAPYTATKGAVANLTKGMATDWARHGLQC
+NAIAPGYFETPLNAALIADPAFTGWLEKRTPAGRWGQVEELVGACIFLASPASSFVNGHV
+LYVDGGITVSL
+>tr|A0A1Q9AP99|A0A1Q9AP99_9RHIZ
+MAFLADALSRVKPSATIAVSQKARELKAKGRDVIGLGAGEPDFDTPDNIKDAAIEAIKRG
+ETKYTPVSGIPELRKAIAAKFKRENGLDYTPEQTIVGTGGKQILFNAFMATMNAGDEVVI
+PTPYWVSYPEMVSLCGGTPVFVATTQENKFKLTAEDLDKAITPKTKWFIFNSPSNPSGAA
+YTHDELKALTDVLMKHPHVWILTDDMYEHLTYGDFKFATPAEVEPGLYERTLTMNGVSKA
+YAMTGWRIGYAAGPLALIKAMDMIQGQQTSGACSIAQWAAVEALNGTQDFIPENKKIFEG
+RRDLVVSMLNQAVGIECPSPEGAFYVYPSCKGLIGKTAPSGKVIATDEDFVSELLESEGV
+AVVHGSAFGLGPNFRISYATSEALLEEACKRIQRFCAACR
+>tr|A0A1Q9AFV9|A0A1Q9AFV9_9RHIZ
+MQRSCLAIVLAAGESTRMRSSVSKVLHPIAGRPMIAHVMDSLAAAGVTDAVLVVGRDGAA
+VAKAAQRTDMRIETVEQTERLGTGHAVLAAADIIARGYDDLLVVFGDTPLVTPAPLKEAL
+AAIASGSDVATIGFESANPGGYGRLIVEGGELIAIREAKDASEAERAITFCNGGLMAVDG
+RKALDLLRRISNKNAKGEYYLTDLVELARTAGGRAVAVRATEEELGGCNTRAELAFLESL
+WQARRRQALMLSGVSMVAPETVFLAFDTEIAPDVLIEPNVVFGPGVRIERDAVIHAFSHL
+EGAHVESGASVGPYTRLRPGAHLAENAKVGNFCEIKQAEIGAGAKVSHLSYIGDAFVGAE
+TNIGAGTITCNYDGVNKHVTRIGAHAFIGSNTALVAPVAVGDGALVASGSVITEDVAADA
+VAFGRARQEVKPGRAPILRARYQAMKAERQKK
+>tr|A0A1Q9AMD1|A0A1Q9AMD1_9RHIZ
+MTKDIIMLAAGGTGGHLFPAEALAHELTARGYEIHLVTDSRAERFAGKFPAAAIHVVPSA
+TVSAKNPVKAARALWTLWSGLRVAKKIMRKIRPKAVVGFGGYPTVPPLMAASSLSIPTMV
+HEQNAVMGRANKALAARVLAIAGGFLPETEGPYAAKTVTTGNPVRPAVLAAAERPFVAPG
+PEDPFQLVVFGGSQGAQFFSKAIPNAISLLDENRRRRIVVTQQARPEDMDMVRGCMSRLA
+LEASVSPFFSDMAERIGKAHLVISRSGASTVSELSVIGRPAILVPYPYALDHDQAANAAT
+LAAAGGAKVIPQADLSDEKLSAIITRAMDDPAALATMAANARKAGRPHAARLLADMVEAI
+AGGMSIAEFKEKRT
+>tr|A0A1Q9ACJ6|A0A1Q9ACJ6_9RHIZ
+MLFSELFNKKIEMPAPSAALPGREVPIATADIHFVNGKPLHGPYPQGLKSVLLGMGCFWG
+AERLFWKIPGVYVTAVGFAGGYTPNPTYRETTTGLTGHTEVVRVVYDPAKVSFAALLKTF
+FEEHDPTQGMRQGNDVGTTYRSAIYVEDAADLEEAKAARAAYQAALDEAGRPARITTEIA
+QAGPFFFAEEEHQQYLAKNPGGYCGLRGTGVSCAL
+>tr|A0A1Q9AMP6|A0A1Q9AMP6_9RHIZ
+MASPRKPARPLVAMTIYVPEQALPTLDRQGRARGLSRTQWAGQLFDAGFAAACAREKSMP
+VLDSDLDAILGATLLLRAREGWDVPALAKALGVPEATIERILDGWSDYRRASL
+>tr|A0A1Q9AE98|A0A1Q9AE98_9RHIZ
+MEYSDDFSDSRHKAWCIYCGKAIAGLDVNRDHVPTKSLLSKNLRDKGRRFDAGEDVPDGY
+LPQVVVCKECNSGFSLDETYLLCVLHAVMAGSLYPNPATHAEAATILRSNRTIVRSLKQH
+PDGQLQLFDNLQPFTLYPDAQRISRVVLKNAQGHAYHELGEPKLDPPAQVSFLPVSQMSQ
+EQRDSFEEIGGGSDVWPEVGSRMLLRVIDGSSMAGGWVVVEEGRYRYALDWSDGLTVRTV
+IWEYLATETIWEV
+>tr|A0A1Q9AIL6|A0A1Q9AIL6_9RHIZ
+MKRCSYSEEREKIVADAIRPVATELRLIDAADFIALLRFESHASIADLVSSAAELYFLPG
+TVNFGIGGNYRLDWGQAPEIVLDLELKPDGVTVYAQLQLGKDKAGLEISHIAFNRPAEDP
+NENTAFLARSLEAAKFSRSLPTAIAC
+>tr|A0A1Q9AIC4|A0A1Q9AIC4_9RHIZ
+MTTDKDATDKDRPQTAARISEADRQAAARRERQAQTLRENLLRRKQQSRARRLGAADETD
+GLPAAAGADSERAPD
+>tr|A0A1Q9AFI5|A0A1Q9AFI5_9RHIZ
+MEQQDPETTPVRTIRVELGARAYDILIGPGLIGTAGLEIALRLKGRRMAIVSDENVAPLY
+LAPLVESLTAQGIEATPVILPAGEKTKSFEHLVPVVESIIGARIERNDAVIALGGGVIGD
+LAGFAAGIVRRGSRFIQIPTSLLAQVDSSVGGKTGINSPQGKNLVGVFHQPDLVLADTAA
+LDSLTPREFRAGYAEVAKYGLIDRPEFFAWLEAHWREIFSGGEARIEAIAASCAAKAEVV
+VADERENGRRALLNLGHTFGHALEAATQYDSARLVHGEGVSIGMVLAHRFSARMNLAGIE
+EAERVERHLREVGLPTRIAEIPGPALSAERLMEAIAQDKKVKSGQLTFILTHGIGRAFIA
+DDVPGSEVLSFLTEQLRAGDAPGA
+>tr|A0A1Q9AHU0|A0A1Q9AHU0_9RHIZ
+MLPQKIIIDTDPGQDDAVALLLALASPELSVEGVVTVAGNVPLDRTTYNARQVLELAGRT
+DVPLHAGAARPMRRDLVTAEHVHGPTGLDGPSLPVPTMPVRDKHGVDFLIESFRAATPGE
+LSLVTLGPLTNIAMALVKAPDIAARIGRIVMIAGTRLEGGNITPAAAFNEYVDPEAADLV
+LRSGLPITMVPMDVTHRCLSTKARLDALRALGNRAAVAAAEMLSFSEAFDMQKYGWEAAP
+LHDPCAIAFLLRPDIFTGRKVHVGIELKGELTYGMSVVDWWRVTDRVPNVDFLHDIDAHA
+FYALLTQRLARLP
+>tr|A0A1Q9AJT5|A0A1Q9AJT5_9RHIZ
+MTDQVPPPLPSAADTDTPAQKPRVSILYCTQCNWLLRAGWMAQELLQTFSDSLGEVALIP
+GTGGAFEIRLDGALIWERKRDGGFPGPKELKQRIRDVIDPTRDLGHTDRIKP
+>tr|A0A1Q9AL73|A0A1Q9AL73_9RHIZ
+MATDLHAPLGQNRRPPPRRRGGALTSGRLLAGLAVCALIGGSAAVALMRPDGLLDAAPTA
+LQQAKAPEAVTPAGPAKAQAKRADGIEHTTNPDGSTITKYTPRRQGLDGPAMIEVGPNGT
+QDPRMAATPNAALYEETADGRLPIIADNGTRPMDFYARPWSGARGTRIAIVVGGLGLSQT
+GTDRAIRTLDPAVTLALAASGNSLMRWTQDARRAGHEILLQVPMEPFDYPANDPGPRTLK
+VRAGGETNLANLHQAMGSITNYTGIMNFLGGRFLSSSAALEPVLREAGARGLLFLDDGTS
+AQSLTGRLAEALSVPHAFGDLVIDGALDRAAILKKLDELERIARRNGTAIGTASAFDETI
+DALADWMPEAEGRGIEFVGVSALTRDPAKEPLKSAATP
+>tr|A0A1Q9AF31|A0A1Q9AF31_9RHIZ
+MALSRRSRSHRTIDYWPGFVDALSTLLLAIMFLLSVFVLAQFLLSREISGKDDVLNRLNS
+QINELTQLLALEKSGKQDLEDSLASLQASLSASESERSRLQTLLSQGSGSTDTANQKIGE
+LSGELDAERQNSARALSQVDLLNQQIAALRAQIAAVESALQASEAKDAASQTKIADLGRR
+LNVALAQRVQELNRYRSDFFGRLREILSDRENIRIVGDRFVFQSEVLFPSGGNELNPAGQ
+EEMSKLAAALIDLAKEIPPEIDWVLRVDGHTDYVPLSGNGRYVDNWELSSARATSVVKFL
+ISKGVPADRLVAAGFGQYQPIAPGDSKEARDQNRRIELKLTEK
+>tr|A0A1Q9AHA8|A0A1Q9AHA8_9RHIZ
+MAAPLDLDQLQTFVAIADTGSFTKAADRVFKTQSAVSMQMRRLEERIGKQLFAKDGRGNR
+LTAEGEKLLNYARRLIRLNNEAVASFDDNRLEGTLRIGTPDDYADRYMPEIIMRFAKTHP
+NVELFIVCEPSTSLTERLARGELDIALVTHNPRERQSDVVRTEPLCWVASANHPLAEGQA
+VPLAVGRRDCCWRQLAAAALDAAGRDYQILFTSWSSTVVASAVLAGMAVSVLPESALRPG
+MRVLSQAEGFPALPAVQIGIMKRPGLSPSLSNAISNHIVACLDNMNTVALTDESEAEIKI
+ANRNRLRNAPALQPGW
+>tr|A0A1Q9AD35|A0A1Q9AD35_9RHIZ
+MTNSGATLTTDDVLAGRDLRGKRVLITGTSAGLGVETARALVAHGAEVVGAARDLDKAER
+ATQAVRAAATAGGGGFSLVALDLASLASVRACADSLLADARPFDIIIANAGVMAPPFGRT
+AEGFETQFGTNHLGHFVLINRIAGLLGPGGRLVNLASAGHRFADVDLDDPNFERDAYDPW
+VGYGRSKTANVLFAVEFDRRHRARGVRAAAVHPGGIRTELLRHMTPAEEEALISSINAGH
+AAAGMPPFVFKSIPQGAATSVWAAVVAEAEAIGGRYCEDCHVAEIQDGEGIRGGVRPYAL
+DPDRARALWAKSEELVGERF
+>tr|A0A1Q9AIS8|A0A1Q9AIS8_9RHIZ
+MKNKLPNWVYVNRKMKNRIVSFPVSHERRRTMMDMFLISKIIDTETQTLRERSLRGPSEM
+EIIAGRIAQARRRARLSRRLMLWLRQLLRRRRRQRMAADQLAASASGRRPHHREGCIAQQ
+VATVRPPGACGRPCHPH
+>tr|A0A1Q9AQ05|A0A1Q9AQ05_9RHIZ
+MTLSASCRALLLCLPVAMVFFAPAPMPARAEGQAPMRVFLNHARVLKLDRPVSKVIVGNS
+AIADATVADPRTIVLTGRNAGMTNLVILDSDDQPVVDERILVAHDEDYVLRLYRSVVPTI
+QTCTPVCAPLPVVKNN
+>tr|A0A1Q9AQI0|A0A1Q9AQI0_9RHIZ
+MPDTRAVAPLLLSWYDRHHRSFPWRVPPAEGQHGLRAQPYHVWLSEVMLQQTTVQAVIPY
+FERFRTLWPRVEDLAAAETEDVMKAWAGLGYYARARNLKKCAEAVARDHGGRFPDTEEGL
+RALPGIGDYTAAAVAAIAFNRPSAVVDGNVERVISRLFRVEESLPAAKREFRALTASITP
+KERPGDFAQAMMDLGSTICTPRRPVCALCPLNGHCLAYRTGAEIETYPRKAPKKEKPVRR
+GAAFVARAADGAIFLRRRIDSGLLGGMSEVPSTAWSARTDGATEADAAPFAADWQACGSV
+THVFTHFSLELTVFAADRLEAIRRNDGWWEPAASLSGAALPTVMKKAIALAFPQALAS
+>tr|A0A1Q9AHZ5|A0A1Q9AHZ5_9RHIZ
+MPDPIALIDCNNFYVSCERSFDARLVGKPVVVLSNNDGCAVARSEEAKLLGIKMGEPAHF
+FRSRVKDMGVRVLSSNYCLYGDMSRRVVSTINDFSPSIEVYSIDETFVDLSGFGDRMVGH
+ATAMRAAVREATGIPTCVGIAPTKTLAKLANHAAKKNPLFSGVADFMDSDIAKWCMDRID
+VGEVWRVGSATQAKVRALGINTVAQLRDMPRELARELGTVVLERTVAELQGVRCMEIEDV
+EPQRKGIAVTRSSGTPMTDLDTLTAALTAHATRAAQKLRDHGLVAGHMSVFYHTNPHNGS
+AKSSVSRAATLSPPSNSTFALVRAALSAAERGYRGPRTGNGFAYTKAGVILEDLVAEELA
+PKDLFAEELVKEGRLSAALDAVNDKFGKKTMVIASEGFRRKHETKFDHRTPRYTTRIDEL
+PVAIA
+>tr|A0A1Q9ADN3|A0A1Q9ADN3_9RHIZ
+MDWFYTFPHMNDDMLRDLKKTIDEGFRGFTRSYGDVIESLFTPLQHFLISAERFMLKTPW
+PIITLLILAIAYAATRSLRIVAGCLVTLLLIGYFDMWEDTMRTVSMIFVCTVLSIVIGLP
+IGILMARSNRMQRIVNPILDVMQTMPSFVYLIPVVMLLGIGKVPGLIAVVIYAIPPMIRL
+TDLGIRLVDKDVLEAADAFGADNRQKLFKVQLPLALPTIMAGINQTIMMALAMVVIASMI
+GVQGLGQPVLKAIANQYFTLGIFNGMAIVGIAIMFDRVSQAYGKRLQKHREIAHG
+>tr|A0A1Q9AKU2|A0A1Q9AKU2_9RHIZ
+MADVSSAPARRPFHRRRKTCPFSGANAPRIDYKDIRLLQRYISERGKIVPSRITAVSQKK
+QRELAQAIKRARFLGLLPYVVS
+>tr|A0A1Q9AN21|A0A1Q9AN21_9RHIZ
+MTNLLDIIRGAARPGAPELVLDEAAFLADQAGTPTAAAPPAPAAADAPPAVAASLAALSA
+SAAQPQSTYADGYTAAMTRMGAVLGADGIKGNASRMAAAFDLATAAPGMAADAVVAFVTA
+NVAAAPVAAGAAETAAAPAAAPAAAAVPAAPVATYEQQRLAAAQLAMPGAAQPAKAESGL
+RKAVNAEISAIKAR
+>tr|A0A1Q9AC74|A0A1Q9AC74_9RHIZ
+MLLKDEVQMLRRVPLFSGVEPGKLKLLAFTSDRVSYSVGETLFHQGDIGDAAYVVLDGKA
+DILVESSTGPIKVAEVERNSIVGEIAILCDVSRTATVTATTGVEALRIRKDHFLKLLTDF
+PEITIQIMRVLADRLSHTTSELTEARSRVRQLE
+>tr|A0A1Q9AFP4|A0A1Q9AFP4_9RHIZ
+MGIFESILLTIATAATPLLIAAIGELVVERSGVLNLGVEGMMVMGAVCGFAGASLSGSPW
+IGLVAGVAAGAVFSQLFAVLTLSIATNQVATGLSLTLLGLGLSGMIGEPFVGEAGSKLPN
+LFIPGLSELPLVGRLIFGQDPIFYLSVILTVGTAWFLFRTRTGLTLRSIGDNPASAHTLG
+IPVIRYRYLAVLFGGACAGLAGAHLSLVYTPQWVENMTAGRGWIALALVVFASWRPARVA
+AGAYLFGGVTIGQIHAQALGFGIPSQFLSALPYLATVVVLVMMSRNKRLMMVNTPASLGR
+PFVPDR
+>tr|A0A1Q9AGP7|A0A1Q9AGP7_9RHIZ
+MPRVDQALRQRIAGRGICSRLAYQDAFAGKRGPVQYALAGKPMAVRKRDEELFGPERRDL
+ASRPRLRSRDKRDIET
+>tr|A0A1Q9AEQ7|A0A1Q9AEQ7_9RHIZ
+MIKRMCTRLAAALMAGAVLAPPAFAQAPGLVPAAQATIEDACKAVTQNLLLAATLHTGVV
+QAFPELKPPGVRMTYSTRDGVEPKNMVDTIECQFQNTKAPFNIQRFCVSSTCYSPDERNA
+ENKRRFEEVRTILQRAGY
+>tr|A0A1Q9AG42|A0A1Q9AG42_9RHIZ
+MGKAGIVPAEISRGKSLLVVALCWLAIFAEGYDVGVLGAILPALSTDPIWQLTPLELGAM
+GSYTVIGMLIGGIVVGTLSEIYGRKPLFIACLSLFAACMVGSALAPTPLLFGISRFVAGL
+GLGGIIPVAAALTVEYSPKSRKSFNYGLMYSGYSIGILTAALCSKALLADHGWRAVVVLG
+ALPLLVVPVFMALLPESVEFLVLRGRKDAATRTAARMGIAVPAAVLKDRTSPNLASVLRA
+IFSPQKAFETICFWVALFMGLLLVYGLAQWLPQIMRKNGYDLGNSLMFLAVFSFSSAIGG
+ILLGSWADRFGVKKTIAASYLVGAAGIALLALGGPLIVNYLFVAVAGFGTVSASLILTGY
+LAQKLDPSIRSAGTGFALSFSRLGALTGPLVGGYIASINAAPQWNFYVFAGIALLAALAT
+ILIPAARAERA
+>tr|A0A1Q9AJX9|A0A1Q9AJX9_9RHIZ
+MRERQMLDESITGVRSFERQLADNIELIELGEAEGDAEIVKDAEEALKALRTEAARRQVE
+AMLSGEADGNDTYLEVHSGAGGTESQDWANMLLRMYTRWAERSGYKVELLEIHDGEEAGI
+KSATLLVKGHNAYGWLKTESGVHRLVRISPYDSNARRHTSFSSIWVYPVVDDSIQIDINE
+SDCRIDTYRSSGAGGQHVNTTDSAVRITHMPSGIVVQCQQERSQHKNRAKAWDMLRARLY
+EAELKKREEAANAEAASKTEIGWGHQIRSYVLQPYQLVKDLRTGVESTAPSDVLDGELNE
+FMEAALAHRVSGGADAGVEDIA
+>tr|A0A1Q9AP35|A0A1Q9AP35_9RHIZ
+MSDSTTKPKTTTRPKLEKPKLYKIILFNDDYTPREFVTLVLRAVFRLNEETGYRIMMTAH
+KLGSCVVMVCAKDIAETKAAEAMDLAKEAGFPMLMKTEPEE
+>tr|A0A1Q9AMG6|A0A1Q9AMG6_9RHIZ
+MHFPDLRLRLKSLVGALYLSATVPAVADAACRIVQHAGVDYAVCRFDPARDAIGLYHTGS
+NGQPYGGFAALAQDLRREGRYLRFAMNAGMYEEDLSPVGLLVIGGRTHKPAALGEGWGNF
+YLRPNGIFYLAGGEAGVMETGRFISSGLRPDAATQSGPMLVIDGAIHPAFRPQSDSLQIR
+NGVGVDAEGQVAFAISLSPVRFYDFATLFRDELHCANALFLDGHISSLYAPALGRFDGVH
+PMGPIVAVTAAMPGARD
+>tr|A0A1Q9AHG7|A0A1Q9AHG7_9RHIZ
+MGRLAAVLGQRLVQAVTVAVVVSLLSFALVQLLPGDQALLIAQRRYGDDRVTTAAAEAVR
+AELGLDRPLALQLAEWIGQTVSGDLGRSLLSGAPVWEEIRDQLGATLTLAGAALGLALLL
+GPVFGGLAGLRPGGLADRTGMAAAAAFRAVPSFVLGLVLMVGCTVLFGWLPVGDSSDGLS
+LLLPALTLGLGLAATSARIARDGVVATLRSPFFAFARLKGLSRTAAILRHVPRNAAVPLI
+AYLAVSFAFLIEGVVVVEQIFAWPGIGHALTHAIEGRDVPMIQATALTLSLFLVLLNALT
+DLALLLVDPRRRG
+>tr|A0A1Q9AKT6|A0A1Q9AKT6_9RHIZ
+MTDLLGSYIPIAIFIGISLVIGLSLLIAPFAVAFKAPDSEKLSAYECGFNAFDDARMKFD
+IRFYLVSILFIIFDLEVAFLFPWAVAFKGMGWFGFWSMMVFLGVLTVGFIYEWKKGALEW
+E
+>tr|A0A1Q9AQ68|A0A1Q9AQ68_9RHIZ
+MKPARKRSLVDKVRSDWKISIRRACAVLKIDRSLYVYKSKRGEQAELKLRIRDICQTRVR
+YGYRRVHVLLKRDGWPVNPKRIYRLYKEMSPQLRNKVPKRRVKAKLRSDRTAATHFNHVW
+AMDFVHDQLATGRKIRVLTVVDTFSRFSPVVDARFSDKGEDVVQTLERTCRQIGYPAVIR
+VDNGSEFISRDLDLWAYHKGVVLDFSRPGKPTDNSFIESFNGKFRAECLNAHWFMNLDDA
+RVKMEDWRRDYNEFRPHSAIGNKAPISLMNGSSAPPPT
+>tr|A0A1Q9AER7|A0A1Q9AER7_9RHIZ
+MLALYLTHPQVQIDPAVPVPLWGLSPKGRERCMAAAAHAPWVRQLGRILSSAETKAVETA
+AILAEAAGVTPEAVEAMGENDRSATGFLTPDLFEAAADQFFAAPEESYRGWERAVDAQAR
+IVGAVEAALSGHDPAIPVLFVGHGAVGTLLKCHLQGAPISRTGDQPGGGGNLFAFRLADR
+QVLCDWTPIEAWQEKSL
+>tr|A0A1Q9AEW5|A0A1Q9AEW5_9RHIZ
+MREEAARAARNRAAAPRAARLIAPLLVFLLLAAGWQWVAFNLKSILPSLQSVGLELLARP
+GFYLGHLWVTLSAALSGFAIGSAIGILLAILIVHFSVLRAAILPVALMLNVTPVVAISPA
+LIVAFGFNAVPHIIVAAISAFLPMLINALTGLRAIDRDAQDVFRSLSASKMETLWHLRLP
+SSLPHLFAGARLAIAAAMVGSIVSEFMGTSKGIGATIIMATAYLNLPQMWVSIFVSAVTS
+LLLIGLVDLAERALIRWS
+>tr|A0A1Q9AQI8|A0A1Q9AQI8_9RHIZ
+MKILYERPVSAAARWSRRIGRFSAGLLVITGLAHWLHTVTTPHMIALALLAAGLATVAAL
+LGVIGLVRLWQVAAVGGIAACVGLAYALIPLGVAGYGLYRFLDRPALTEVSTDTTEPPPW
+IAPPVAAQGWLPRPVVPLAPERQAEAYPTLTGRRYDGALDRVFAAVNTVAAASHLKITEE
+RGTENAAADLEDMPANPDPKPAPRRRGAPRAAPAGDADPGNVPIPSARPDPGSEILMPGQ
+RASDILLQGEWRSPVTAPLTAVPFDVAIRLREEAETTFVDLRVSVRYGPHDLGFGAAYAE
+TFLRALDAELLGIAGS
+>tr|A0A1Q9AM92|A0A1Q9AM92_9RHIZ
+MVADQGDGSNGADGGPVRHIPVLLPEVLTALQPAPGKIVLDGTFGAGGYTTAFLEAGAEV
+IALDRDPNAIAGGQALVAEAGGRLRLVHSRFSDLAAHAPAEGLDGVVFDIGVSSMQIDEA
+ERGFSFQRNGPLDMRMSAAGVSAADVVNRAKVGDLIRIFGFLGEEPQSGRIARAIEKRRE
+QNPFETTRDLASLIETVTPRKAKDRIHPATRVFQALRIFVNDELGELARALFAAEGALKP
+GGRLVVVTFHSLEDRIVKKFFQDRAGKASGSRHLPLAVERPATFAPVGKPMVSATEQEAS
+INPRARSAKLRAGERSAEPAPASDMSIFDLPTLANLERLGG
+>tr|A0A1Q9ACH8|A0A1Q9ACH8_9RHIZ
+MLSRLVLVLLALSALQQMAQAAPDQIRIPAGGSISAEGDSLTYGMDASPAGRQTQINGAT
+FPRSQHPYPETLAELLGGCARVVNRGFPGDRSVDGLVRWQAVSGDHLVIMMYGSNDALNY
+GGAPTGIVSLDMFHAVMRLMIERRQAQGAQVLLLVPPPIGDPQADARIAPYREVVRALGR
+EKDLLVIDPRQALTPGAPVFTPDWVHLSAEANIAIAKAIAAHLRCQ
+>tr|A0A1Q9AF76|A0A1Q9AF76_9RHIZ
+MSEPSLNTVSFAGHAAASTQFKSLYAEGMALVEETATYLDGPGRTASKMLPRLASVLYAA
+ESMRLTTRLMQMASWLLLQRAVNNGEMTRDQVLSEKNKVRLDSFNVDRTAPGWNDLPESF
+RELIDRSLRLQNRVALLDREIYRPQDAASFAPDNQNAVKAQLTLLQTAFGGN
+>tr|A0A1Q9AEP1|A0A1Q9AEP1_9RHIZ
+MTQNAVLLGTSRQLRIISALTIREVRLRNSKHAFTQLFDLGEALVFIMVHWVIFTVMHRQ
+LLIGDSLLIFISTGIMPVLLFRTISIRAASAVEASKGVTSIPLVGALDYSIARSFVEFLS
+FTLTFCLFFTLAYAFGMSRFALPFDYQPIIEFAILISLFSFGMGLINSFITYLFPLWKFL
+WGGFSRVQIFFSAVFYIPEYMPPELKYYVSFNPIMHFVSLFRTGFYPTYPTHLISMTYMI
+SCTVAVLVLGLALERSLRNHRHQ
+>tr|A0A1Q9AEB5|A0A1Q9AEB5_9RHIZ
+MPIDFNAILDENLGMELPPKMRRFLTPRKNPGAYGQSWGYYAFAFDRAFEIMAEDYCRRY
+PSQEYLLIPLMQLARHSMELALKHALNECTFFANAPLKTDGHSLIVLYDRLNDFLLEKGM
+IEGDDEWSIHVRKVIVHINKVDPTGEVFRYPTALGGDPFEAMDIDLKGLIEAHHHITSLA
+DATVTMLQDVGNYPSERDWYSI
+>tr|A0A1Q9AF86|A0A1Q9AF86_9RHIZ
+MFIVSLTYRNGPEAADAHLAAHIDWLKDGYAQGLFLASGRKVPRTGGVILAEGDRATLDA
+FLAADPFAVYGVADYDVTEVAFSMAVEGLERLKD
+>tr|A0A1Q9AG41|A0A1Q9AG41_9RHIZ
+MKALSTYKLGRALWGLQLLLCVFYAPAVLAESKLGSGELPPDQAAIATYWHNKLDVQLAP
+TEVADPKVPGGTIKVFSADDMVRFMDATLAELNFWIDKVDPERRAGGGKSSGLGGALPPM
+SPDELQLLVGRVEDLMRRMDAVEAKVDALMKGEHKAPFKVVSAGGKTLFQVDAYGNSLFQ
+GATGEGLIHIGFVGNGGSISAISPDGGFAASIGASGGMLQVQSAEAKTSAYVIASDKAGL
+HLTSGEKHTDLAADEDLFGLKLSDGEKPAASLGTVPGKGVALRLFNEAGEQVMSAGANPA
+KNNAGLVAVGSGGQTVAWISAEADGSGLAQVFAADGSPAAALVGKERAAVAYNQAGNPVA
+TISKSGKSEGGTVVARNPDGDGIFAAGFAAEYGGGEACVWRAKRSNTFCLGLGMPGMGVG
+K
+>tr|A0A1Q9AJ12|A0A1Q9AJ12_9RHIZ
+MSFSNPNQRFGASAQQAAYLDESLRQHMLRVYNYMGLGLVLTGLVAFIVGTTPALYVPIF
+NTPLKWVVMLAPLAFVLFFSFRIQTMSAGTAQAMFWAFCAVMGLSLASVFLVFTGVSIAR
+TFFIAATMFGATSLYGYVTKRDLTNMGGFLMMGLIGVVIASIVNIFLGSSALQFAISVIG
+IVVFVGLTAYDTQNIKEQFAENMDQESQQKLAVFGALSLYLNFVNIFQLLLNFTGEREG
+>tr|A0A1Q9AF04|A0A1Q9AF04_9RHIZ
+MFKTIALCVTLAATPIAAQAQYKNYEVTPTGRCGAQGTYGNQNFQLDCSGTSRSLQLGGA
+KVDSQRLPPAARRNNNAGKTHSRCYVDGNGTSYCK
+>tr|A0A1Q9ACN5|A0A1Q9ACN5_9RHIZ
+MSGTLVLVRHGQSDWNLKNLFTGWRDPDLTELGVEEAKTGGKALAETGIKFDIAFTSALT
+RAQRTCQFVLDAVGQSDLETIRNQALNERDYGDLSGLNKDDARAKWGEEQVHIWRRSYDI
+APPGGESLRDTGARVWPYYMTDILPRVLSGQKVLVAAHGNSLRALVMVLDRLSREEILKL
+NLATGVPMVYTLNADSSVATKTVLGDMSGAH
+>tr|A0A1Q9AP22|A0A1Q9AP22_9RHIZ
+MKLKTVLFSLALAGLAAGAVTAAEPQKVREGMMKQIGGSVGALGAIAKGQKPYDAAVVKT
+SLETISKNIKAFPDQFPAGSDANSEASPKIWANMDDFKAKADHLAKEADTLLAQLPADQA
+AVGAAVGKLGPLCSDCHQTYRLKK
+>tr|A0A1Q9AL39|A0A1Q9AL39_9RHIZ
+MVDLAKTRNDPLQQLWDVVENIHAGMLGVEDSHQHMQPMAPFLEKETNSIWFYTKADTDL
+VQAVRTGDRAHFCVVGKDHDYHACLAGPIDEELSREKVDKFWSPLVAAWYDESGKDDPLL
+TMLRLRVEDVSIWASTGSSVRFGWEIAKANLTNSEPDVGVHTQLTLPH
+>tr|A0A1Q9AHR3|A0A1Q9AHR3_9RHIZ
+MTLTANSHLAELYRTMRRIRTFEERVGELFVRGQSAGSMLHLSIGEESSAAGVCDVMKPQ
+DTFTTHHRGHGIFLARGADPKRMMAEIGGKETGYCHGKGGSMHIADMALGHLGANAIVGG
+GIPAVVGAGLSSKYLKQDAVSIAFFGDGAMQQGILYESMNMAALWSLPVLFVCVNNQYGM
+GTRIDQATRNTAFDERARAFGLNGAVVNGLDVEDVRDAARWLIDEARAGKPGFLSVEVYR
+FFGHARMDKSPYRAEAEELEGRKKDPVLFARAKLLDSGLESEAALDALDREIAAEMDATI
+DFAVESRAPALSSMFRDVYAVGEPEPEPVRARIDRVLAREDV
+>tr|A0A1Q9ALS2|A0A1Q9ALS2_9RHIZ
+MKHFLMTTFLSAALALPAFAADYTIIAPANPGGGWDQTARSMQQVMQQAGISGNVQVQNV
+PGAGGTIGLAQFSSQGQGNPNTLLVGGYVMVGAILTNHSPVTLRDVEPIARLTGEYEAIV
+VPASSPIQTMADLVAELKKNPGAVSWGGGSAGGTDHIMAGLIAKAAGVDPKAINYIAFSG
+GGEALAAILGAQVTAGISGYGEFESQIKSGTLRLLAVSSAERLPGVDAPTLKEAGLDIAV
+QNWRMVAAAPGLSAEQKAAVSADVEKLAKSPQWAEVLKTKGWQDTYLAGEAFKEQLDKDI
+AATETILKDIGLVQ
+>tr|A0A1Q9ACH0|A0A1Q9ACH0_9RHIZ
+MSKTLRWTVGIGLSIGLHAVAGAVMLLPRPEVPDMAEGGPAVEVATLGNAFADTLQAGTP
+SEVLSPSETPTETAAIDPVTPTEPLQEAVPPETVESESPPEVTPDPAAQAEAAVSPDAPV
+PSANADVILPQESLPPPAQTPPEVVAALPPVEHVVPLEKPDPPKLAPAKPAVAKKAEPKP
+EKPPEKPRRVRPAAGEGGKAAASARKGAADGEETASAAATSAGGAGQSSAAGQAAASRYK
+SIVQMRLQRVTRYPSEAQRARLKGTALVSFVVGRDGSVLRLSIKSSSGAPVLDQAALDAV
+RRVKLPALPEALGQSFTITAPMDFTR
+>tr|A0A1Q9AP24|A0A1Q9AP24_9RHIZ
+MIRLATDVGGTFTDLVGYDERNGALFTAKSLTTVHDQSEGVLNAIAASEAADGLATRNVT
+FFAHGGTTVINAITERKGVRTALITTAGFRDVLEIGRGNRPDLYNLQFHSPQPFVPRRLR
+FEVRERMNAAGEVVIPLHEEDIAAIVATCKAEQIEAVAILFLHAYANPAHEERCARLIAD
+ALPEATVCASHEVSRQWREYERSNTVVLNAYVQPIIRRYFERLEAALARRDLTCPYYAMQ
+SNGGISTFDQATASPLTLVESGPAGGVAGAARIGLALGEGEVLHLDVGGTTAKCSLIHDG
+RPTLNVEYKLEHSRIAPGYPVQVPVVDIVEIGSGGGSIAWMDERGALRVGPQSAGSTPGP
+ACYGRGGMQPTITDALLTLGIFDPTSFAGGSMQLDREKAAAAIRTVGDRLGISVEDAALA
+IVEIAHASMINALKLVTVQRGHDPRDAVFVISGGAGPALAARLGRELSVKATIVPPHSGI
+FSAWGMLAAEPRADFRATWFSALSPTALPEAQRRFAALGRQAVAYFGKGDTAPIRLTHRL
+EARYRGQEHGVVADFEPADTVETFSERFHAAHEKAYTFRLPSAAIEITTLHLEAVLNGPV
+ITLPALDRDGKSLEAARKGQRAVYFGSEIGWRDCPVYERDRLPLEEEIAGPALVEEPTTT
+SLVQIGQTMTVTAEAIMVLRDTPSASGQEGR
+>tr|A0A1Q9APB2|A0A1Q9APB2_9RHIZ
+MFQKKHDLVYLTEDATHSDAIDLINREAFGPGRFTRAAARIREQGPHDRSLSFVCADDGE
+TIASVRMTPVMAGTVRGHLLGPLAVRPSHKNKGIGRELVRIAVEAARRKGSEAVFLVGDP
+PYYGPLGFEPVAYGVLEFPGPVDAARILVAPLADNVHARLPGLIAWRPI
+>tr|A0A1Q9ADR4|A0A1Q9ADR4_9RHIZ
+MRQMESFNAGWTFRQGFDAAKAGARQAGETVRLPHSAVELPYNYCDETSYQKAFTYQKVL
+AYDGRFEGHEVSLVFDGAMADSVVFVNGQQVMAHPDGYTPFEARLTPYLKPGDNLITVKI
+DGSENPAIPPFGGMIDYLCYAGIYRDVWLKVAPKLAIAHLKIETPEALAQTKSVTARVDL
+AAHDGAALEGTLTVTLTDAEGATLATAQAQVDGARMLLTLDGLTGLSLWDIDNPVLYRLT
+VELESASGRDAVSSRFGFRTAEFTPTGFLLNGKPLKLRGLNRHQAYPHVGYAFGRRAQEL
+DANVLKFELACNIVRTSHYPQAKSFLDRCDEIGLLVFEEIPGWQHIGDEAWQQESIRNVR
+RMIERDWNHPSIIIWGVRINESQDNHAFYAETNRLARELDSTRQTGGVRFITNSELLEDV
+YTMNDFILGNEEMPGNNRGRVVLRDRVETTGIARPIPYMITEYNGHMYPTKRFDQEQRQA
+EHVTRHLLILDKIAGEETISGGTGWCMADYNTHKDFGAGDRICYHGVLDMYREPKFAAYA
+YASQGDPRKKPVLKPVTYWARGERNIGGVLPLIILTNCDYVEVAFGDAAPKRFEPDRATY
+PHLSHPPVILDERNVDPKEFGTWGRVWREGTIVGYVDGKEAIRVMLPGDPLPTRLEIAPD
+DTRLKAGEKDAVRVILRALDQGGNPLPFFDDPVALSLEGPGRIIGPELASFKGGGTGLWI
+EAGDEAGTLTLTVRSAPFGEQTVAFTVEA
+>tr|A0A1Q9AQF6|A0A1Q9AQF6_9RHIZ
+MLDIKFTCPNPRCEGFEIQAEIDDIQYDIAKQEDRDSVLTMQSRVICGCGDEPYMVELVA
+MGGEKTVSVLEHPDIRVKFNDNSGDYTSEMIDLFYAPPDK
+>tr|A0A1Q9APZ3|A0A1Q9APZ3_9RHIZ
+MSTPLVVSEVRKSFTMHLRGGLVLPVVDNVSFSLKAGECAVLGGPSGVGKSSILKMLYGN
+YAIDAGQILIEHAGGFVDLATASPRAVIDIRRATLGYVSQFLRTLPRVAAIDVVAEPLIA
+RGEAAETARDKAAELLSRLNLPEALWRLPPATFSGGEQQRVNIARGFITDHRILLLDEPT
+ASLDAVNRAVVVEMIEARKQAGTALLGIFHDDDVRARVADRIIDVSAFSARKDAAA
+>tr|A0A1Q9AFH9|A0A1Q9AFH9_9RHIZ
+MSASYGPHDGERPAPPTLAPPSISRGPRMRDYHRPVGRPGRELCLYPAQAGYDLQTELDF
+LSNRAIESNIFFCARFLAPAMPRLEERAVRLALIRDQGDGRSRLRFLMPFRIERPGFGIG
+PSILRAWANPYAPLGIPLLDQEDASETLDNLLEGLADPVAGLPGVLVLPQVRLAGPVASI
+LRAVALDRNLPVTVAEVSGRPMLNSREDGPTYLRRVVSAGHLRELKRQGARLSEQGRLVH
+HVARQPAEIRLRMEEFLALEAAGWKGEARTALISDRLRAAFAREAITNLAEADAVRIHTL
+DLDGAAVASMIVFLMRGDAYTWKTAYDERYARFSPGKLLVAALTGWHLDDPNIDRTDSCA
+VADHPIMSRFWAEREEMGTLVIGLSPNRDRDVRQVAMQLHLYRNTRNMAKLLRERIRTLA
+RR
+>tr|A0A1Q9AHL1|A0A1Q9AHL1_9RHIZ
+MVFDCFGDRKKVVIAMAHIGALPGAPLYDKDGGLQKLIDDVATDVEKLQAGGVDAIMFGN
+ENDRPYVFKGSPESIAAMTAIVQAIKPSLNVPFGVNYLWDPLSSVAIGAVTGASFVREIF
+TGLFASDMGLWEPDCSSAARLRAQLGRQDMKMLFNINAEFAHSLDQRPIALRAKSAVFSS
+LADAILVSGPITGQPASQSDLRDVCETVKDVPVFANTGVNIDNIRDVFSMAQGCVIGTHF
+KVDGNTWNPVDAARVKRFMDVVATLR
+>tr|A0A1Q9AL20|A0A1Q9AL20_9RHIZ
+MPRAYGQSRCKARNRRQTDRKRGPAGLRHVHEKLLAISALFDKRSAITLLPFLSFSLTLT
+KARCLLGA
+>tr|A0A1Q9AG30|A0A1Q9AG30_9RHIZ
+MTDQSTPGGKDTPGIEPISIMDEMQRSYLDYAMSVIVSRALPDVRDGLKPVHRRILYGMS
+ELGIDWNKKYVKCARVTGDVMGKYHPHGNLAIYDALARMAQPWSLRLPLIDGQGNFGSID
+GDPPAAERYTECRLEKAAHALLDDLDKETVDFRDNYDGTLSEPVVVPAKFPNLLVNGAGG
+IAVGMATNIPPHNLGEVINGCIALIDDPAIELHQLMEIIPGPDFPTAAFIMGRSGIRSAY
+ETGRGSVIMRGRATVEPMRGDREQIIITEVPYQVNKATMIEKMAELVRDKRIEGISDIRD
+ESDRQGYRVVIELKRDANAEVILNQLYRYTPLQTSFGCNMVALNGGKPEQMTLLDMLRAF
+VAFREDVVSRRTKFLLRKARERAHVLVGLAIAVANIDEVIKLIREAPDPATAREQMMTRR
+WPSADVESLIRLIDDPRHRINEDGTYNLSEEQARAILELRLARLTALGRDEIGDELNTIG
+AEIRDYLEILGSRLRILQIVKDELIAVREEFGTPRRTEIVEGGPDMDDEDLIAREDMVVT
+VSHLGYIKRVPLTTYRAQRRGGKGRSGMATRDEDFVTRLFVANTHTPVLFFSSRGIVYKE
+KVWRLPIGTPQSKGKALINMLPLEPGERITTIMPLPEDEASWENLDVMFSTTRGTVRRNK
+LSDFVQVNRNGKIAMKLEEEGDEILSVETCTDRDDVLLTTALGQCIRFPVDDVRVFAGRN
+SIGVRGISMGEGDRIISMTIVGHVDAEPWERAAYLKRAAVERRATTGEEEEIALVGEEVT
+EEGQLSDSRYEELKAREQFVLTVSEKGFGKRSSTYDFRTSGRGGKGIRATDPSKIAEIGA
+LIAAFPVEEADQIMLVSDGGQLIRVPVNGIRLASRATKGVTIFSTAKDEKVVSVERISEP
+EETEEVAAPEAEGAEPPAV
+>tr|A0A1Q9AQA1|A0A1Q9AQA1_9RHIZ
+MSTPVFEGRFRDKVVVVTGAAQGIGLAVASRVVSEGGEVLFVDRAEIVRETVADLRTERA
+AACIADLETHAGAETAMRHAADEFGRIDILINNVGGAIRMRPYEAFEPGQIEAEIRRSLM
+PTLYCCHAVLPHLFKRGAGTIVNVSSNATRGIHRVPYSAAKGGINALTQSLAMEVAEHNI
+RVVATAPGGTEAPPRRVPRNAEGDTAQEQGWMRDVVTQVKHSSFMKRYGTLSEQVAPILF
+LASDEASYITGSVLPVAGGDLG
+>tr|A0A1Q9ACH5|A0A1Q9ACH5_9RHIZ
+MELDWIFGIARRQWRVVAICVFLAVAGGIAYLVTALPLYTAQTSLLIGSMKNQFVEQLAM
+NGNGSIVEDENALLSQIEVLNSEAVGNAVIDKLKLDQDPFFMKEKPSLISTLLAPVRAAI
+TALMGSKPEDNSPEKLRQDALKKLSDNMSVVRVGKSYVLNVGFTSPSPEFAARVANAIGD
+AYVLDKLNSKYDSARRAGDWIQERVVELRQKVLESDMAVQRFRAANNLVSTGTQLVSEQQ
+LTELNTALITAQSETARARARLARIESILSNGQSDAIVTDVLDSSVSTELRKKYLDAAKM
+EGEISKKLGPDHQQAVRLRAEMAEYKRLMFEELNRIAESYRSDLKVAEAREQSLQDSVSQ
+ASSVSASANETQVQLRELERENETYRNLYQNFLQNYQVAIQQQTFPVTEDRIISRAMPPE
+KASFPKKPLVLAVFLVMGAAVGTGIGALREFRDRFFRTGTQVRSELGLEFLGNAPLLKGD
+SNADQAGAPADPRLISKGNAVSNYVLDHPLSAFAEALRSAKISADMSITGKNCKTIGIVS
+SLPGEGKSTISINFAELLANQGARTVLIDADLRNPGLTRAIGRHATVGLLDVLLADKDPM
+QAMLVNPTTRLSFLPAVVRQRVPHSSELLASAAMGELLQKLSHHYDYIVMDLPPLGPVVD
+ARAAAPRIDGFLYVIEWGRTSRRLVRNTLRTEQAIADKCLGVVMNKVDLDKMRLYATEGS
+DEYYHAAYSAYYQKG
+>tr|A0A1Q9AKM1|A0A1Q9AKM1_9RHIZ
+MGVATGNTLVAPQPKGIIDPNTGKPVGSDDAFFGEINNELADKGFLVTSTDELINWARTG
+SLMWMTFGLACCAVEMMQLSMPRYDVERFGFAPRASPRQSDVMIVAGTLTNKMAPALRKV
+YDQMPEPRYVISMGSCANGGGYYHYSYSVVRGCDRVVPVDIYVPGCPPTAEALLYGVLLL
+QKKIRRTGTIER
+>tr|A0A1Q9APJ2|A0A1Q9APJ2_9RHIZ
+MSPDEKQLLSALFDRVRTAANTPRDRDAESLIEQAVRAQPSAPYYLAQAVIIQEEGLKAA
+SARIEELEAKVRTLESSARPREEPEQGGGFLSSIFGSGNRPQPQPQRDDYRAAPPAPAGG
+PWGPRPGNYGAAPQPAYGGQQGYGAPQGYAGNSGPAPWGAAPQQPSAGGSFIRGALGTAA
+GVAGGMLLANSLSGLFGSHMAQQGLTAPGEMLAGTPIEETTIVNNYYGEDGAQNASDAGN
+VADAGWGQDNGNQDNAGQDWGGQDDGGWQQADAGDSFGDDGGFGDDSSNV
+>tr|A0A1Q9AF12|A0A1Q9AF12_9RHIZ
+MASTRSITDRRRPRKGGLLAFAALAGSVTLSGGVATVLAQQALQPAATQPAAQTGRTDPA
+TASDLQQPAPALAATPAAGNADGEDNGLTTTTLQAATQARVAQEVPPGTRIGRVSDAPAL
+NEDMSRLNLREASVDGLRPRLDPTRNDAPGIRLGSFTLKPSINQSVNAENRRDGTSGQHR
+GYVETGVNATLTSDWSRHQLTVTGQGAWQKNISGKGSTDPFADVQADLRLDVSHLTTAHL
+RAGYRADREDASDPNAVANATSQSVVQQFSLGSSVEHDFGVLRGSARLDGTRYSYGDVDL
+DNGTVLSMKDRNRNVGVATARMGYVLSPALIPFLEASVGRGVYDERRDMLGYARSYTSWG
+GRAGLQVDFGEKLGGELALGYGRYAFDDARLRDIGALTIDGLINWSPQRGTNIATSLTTA
+LEPSTTAGESGAIAYTLTSRATRELRNALVARLSGGLTLRNYPSGSTTPDERVWSAGAGL
+TWDINRALALTGDVSYERTLRDSGVDSSIAKVGIGLTMRR
+>tr|A0A1Q9AIG7|A0A1Q9AIG7_9RHIZ
+MTFSRAHPPLLRLASVLVFVGLPALCLALGVINLLQAAEDRDRLGQSALQAAALEQRIGR
+PVSGAATPDQALFLAAGSRTAAMAGLQQALLDAIAQAGGRVLETAAADEAAAEGADAGRV
+TVRTTLDIDNDGLLTLLYRVESGLPLMDVASLSIRRLPSAGGAAGEGAGTGADGGTQPIM
+LRVDLSVSARWKPAGEAAP
+>tr|A0A1Q9AFQ4|A0A1Q9AFQ4_9RHIZ
+MPAYRSRTTTHGRNMAGARGLWRATGMKDGDFGKPIIAVVNSFTQFVPGHVHLKDLGQLV
+AREIEKAGGVAKEFNTIAVDDGIAMGHDGMLYSLPSREIIADSVEYMVNAHCADAMVCIS
+NCDKITPGMLNAAMRLNIPSVFVSGGPMEAGKVVLHGKTHALDLVDAMVAAADDKVSDED
+VKVIERSACPTCGSCSGMFTANSMNCLTEALGLSLPGNGSTLATHADRKRLFVEAGHLIV
+DITRRWYEQEDASVLPRNVANKQAFENAMSLDIAMGGSTNTVLHILAAAYEGGIDFTMED
+IDRLSRRVPCLSKVAPAKQDVHMEDVHRAGGIMRILGELERGGLINRDSPTVHAASLGDA
+IDRWDITRTNSETVRTFFRAAPGGIPTQVAFSQEARWDELDTDGETGVIRSVEHPFSKDG
+GLAVLKGNIALDGCIVKTAGVDESILKFSGPAVVYESQDAAVKGILGNEVKAGDVVVIRY
+EGPKGGPGMQEMLYPTSYLKSKGLGKACALITDGRFSGGTSGLSIGHASPEAAQGGAIGL
+VKPGDIIEIDIPNRTINIAISDAELAARRAEQDKLGWKPVAPRKRNVTTALKAYAAFASS
+ADKGAVRILPGEE
+>tr|A0A1Q9AD76|A0A1Q9AD76_9RHIZ
+MIDRLMSRIRIQTKVLVLVTPFVLSIAAVGLTGLYISGQLQGRMEISNGIMQALTGFKQV
+YSGMSRFLIQPSTETHQAARAALEAQIADLKHMANTMRAETDVAPLDDVAAQSDALFANI
+DRLWSLHQDREAATGDVNARLDALQAIQAAVGKQAFALLGAAKQVEKKAKTGLRSALAIA
+TLSDQSEALATAAMMLPRAEDQIKAIAAGLPGVQEALTQAQDSIAGDKPAPLARLEASLA
+TLARAVDAFKADPSAPHDVADAAAETRMAARAVKDLANDTLRKSVGDLAAAEAQIAKADI
+VGNKLRGIVGNGNQLRVLFAELGAKPSEANAKLIEQALYSYGQALSGLASALPGEKAMAE
+IPAQAKDALAALSAQALAIVDLVTKRQAEFTVAGGKIDQLWGMLSQFAESQKQSAGAERV
+QANSISVGAMVAGMLIAMLAGAILVMTLKGPIAQITATMRRLADGALDTDVTGEARSDEI
+GDMARALSVFKQSAIVKLSMEEEAERSRRQSEAERQRNEAERQEAARQSAFVVETLAGAL
+SRLSRGDISFSIDTPFAPHLDRLRHDFNASVAGLRETLTEVSGLTGAIHDNGVQMAGSVN
+DLARRTEQQAAALEETSATLSEASSLIGEAASRAHDVRGIVQQAREKAGSSADTVRKAVD
+AMSRIQEASQKIGQIISVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQR
+SAQAAKEIGELIRRSSSEVAAGSHFVQDTGTAVTEIADQIIAIAGQVDQMAVTSQDQSGS
+LGSITSSVNALDQMTQQNAAMAEEASAATQQLASDITALSDLLSRFRLVSEENRGRWAA
+>tr|A0A1Q9AJZ4|A0A1Q9AJZ4_9RHIZ
+MSDAALAVLPDPLLDDRIRGFPPAHPPLRLGAIGAQNWAPYDGRMALPLLSLDEAAFARN
+VETMMAYVRDKEVEIAPHAKTPMVPALAEVLVKAGAWGTTVADIRQAGVLLRSGQRRLIL
+ANEIGGLSAARRLAALLAGFADAELHIFVDSVEAVEALHQAWSERGDLPPLGLLIELGAG
+RAGARTIEAGLRILERILAVETAQFRLTGVAAYEGAAATADALETAQRIDALMQLTGDFL
+AQLRARIGKVRALILTAGGSVFFDRVIAGLGAAVAADPNCRLILRSGAIFFHDHGVYERG
+MAALDARGGFVIDGAVRAASAAFQPALKVWAEVLSRPEPDLAICGMGLRDVANDQGLPRP
+LSLYREGQKVANLDGCAVLRLNDQHVFLRLDPASLVNVGDIIVFGISHPCTCLDRHAILY
+GLDPEQRVSGAYLTCFG
+>tr|A0A1Q9AN98|A0A1Q9AN98_9RHIZ
+MRQILIQIETELNWVPSWVFSLVILAVFFAFGLFVHRVTYRILTRLVATRDLFWRSLVQR
+TERPARLLILVMALAFAVTLAPLSYDQASVLRHGLLIAFIAVVAWIAKTALHIWTIVYLR
+RYKLDAEDNLMARKHVTQSRIMERIASLIIVVVGFAAALMTFPAVQQYGVSLLASAGVAG
+IVLGLALQPVLKNLLAGIQLAITQPIRIDDALLVEGEWGKVEEITSTYVVVKLWDWRRLV
+LPLSYFIEKPFQNWTRETASLIGTVMVYLDYDVPVAAIRSKAEEIVAASPLWDRDVINVA
+VTDLKEQTMEIRILCSAPNSGMAFDLRCEMREKMIDFIRTHYPGALPRMRTEIAATAAGT
+GAGIPMAAAAAAS
+>tr|A0A1Q9ACM9|A0A1Q9ACM9_9RHIZ
+MTGSVQDARIPMRLTLILAAACGLIVANLYYAQPLVGPISRDLGLSPAASGLIVTLTQIG
+YGLGLLLIVPLGDLIENKRLILTMLLLDALAVLGAGLFNQAAPFLSAALLIGLCSVSVQI
+IVPYASAMVAPEARGRVVGNVVSGLLVGIMLARPVSSLIAGIVSWHAVFFLSAAVLLGLA
+LLLARTLPERRPAGSLGYFALLASMKDLALHTPVLQRRAAYQAGLFSAFSLFWTVTPLEL
+AGPEFGLSQSAIALFALAGAAGAIAAPIAGRLADRGLSRIATRVALVMATLSFALTYLVP
+SGSLVSLALFTLAAILLDAGVSTSLVLGQRAIYTLGEAERGRLNGLFMATFFLGGALGSA
+AGAYAYAHGGWLAASLLGLALPAAAFLFSLTEKR
+>tr|A0A1Q9AK93|A0A1Q9AK93_9RHIZ
+MRFERRDHRPLALVIATSVLAVIAALALSGILIALAGAPVLEAYRRILIGAFGSRLSTTE
+TLTRTAPLMLTGLAAAVAFRARLWNIGAEGQLYLGAITVAAASSHLLGGLPSAVQIPLLL
+LLGAMAGMVLLLVPLWLRLRFQVDEVVTTLILNFVALLFVSMLIDTVLKDPTAFGWPQSQ
+SVADAAMLPKLLARSRLHIGILVAAALAILIHLVQSRTVFGLQSRAAGLNPAGAVFAGVP
+LGATLVKVACLSGGLAGLAGAIEVMGVKGYVTTDLSPGYGYSGIVVAMLAGLNPLGVVLA
+ALFSAIMFVGADGMSRALRIPSYIADVTVALSLLTMLVALFFTQYRIRR
+>tr|A0A1Q9AN80|A0A1Q9AN80_9RHIZ
+MTSKGKLIVLAAFDKDDEGNLLQAFDPRQVDTEERAKREARAIADKHTGVVAWSREADPT
+LGEYGPPIVLFQSGEVPELE
+>tr|A0A1Q9AEM7|A0A1Q9AEM7_9RHIZ
+MKWKRTIQLLDVHCEGEIGKVAIGGVPKIPGNSIAEQLNHINTVDDSLRRFLCLEPRSGS
+IGSVNLLVPAKRPEADFGFIILQADQAHAMSGSNSICVTTALLESGMVEMKEPETVVMLD
+TAAGLVKATATCRDGRCERVTLTMVPSFVEALDVEIDTPQWGRIKVDLCFGGIFYALVDV
+GQIGTTIEKANARTLVEAGMVLKDLVNKAVPLVHPEIPEIRGVAYVMFRDREPDGAVRTC
+TTMWPGRADRSPCGTGSSANLATLHARGLAKVGDVFTSRSIIGSEFQAGIESVTEVAGRP
+AIVPTISGRGWTFGLHQVSLDPFDPLADGFAMTDTWGPQAGEIR
+>tr|A0A1Q9AN30|A0A1Q9AN30_9RHIZ
+MSDLLEPRTETLAALQRLLPDDPDEALYLVLVLAALLSVQRGESDDATLVRFLRAFRDVR
+ARGLFGEPQ
+>tr|A0A1Q9ALU2|A0A1Q9ALU2_9RHIZ
+MFNRLKQFRRVATRYDKTRKSFSAFLALAAAKIWLPYFVNRT
+>tr|A0A1Q9AIW4|A0A1Q9AIW4_9RHIZ
+MDQWMQTRFRVGGMDCASCAAKIDTAVRRHAGVQDVRVSVTSGTMTLSHEPEADLPAIEK
+QVTRLGYRTERLAPLQARTVAADAATPVAACCAGHAHPPHGEDDPAQHVHDHHDHKHHAH
+DHDHDHDQDGGHDHPRDHDHAENHGPGQDHAGHAHAAARGEEAASALPAGLHGHDHGPSD
+GPWWKSAKGRLTVASGAALALAYALGHAVPALGPAAFLLAMAVGLVPIARRAVLAAMAGT
+PFSIEMLMTIAALGAILIQATEEAAAVVFLFLVGELLEGVAAGRARASIQSLTTLVPKTA
+LRLDGDRMEEVPAETLGVDALILARPGDRIAADGVIVAGESAVNEAPVTGESVPVTKRVD
+DTVFAGTINGDGALTIRVTSAAEDNTIARVVRLVEEAQESKAPTERFIDRFSRYYTPGVV
+ALAALVAVLPPLVLGGGWGEWFYKALAILLIGCPCALVISTPAAIAAALSAGARRGLLLK
+GGAVLEQAGKLQLVALDKTGTLTRGKPEVTDILAFGREPAEVLRLASALEAGSSHPLALA
+ILERAKADGIVPPAVTEARALGGKGVAATLEGQALYLGSPASVGAQTPLAADVTERIAAL
+NDAGKTVSLLLIDGQLVGGLALRDEPREDAKAGLEALTALDVRTVMLTGDNARTASAIGR
+ALDIEVHAGLMPEDKQRIVGDFQRQGLVVGKVGDGINDAPALAAADIGIAMGGGTDVALE
+TADAAILHGRVSDVARIIRLSRRTLGNIHQNITIALGLKLVFLVTTVAGITGLWPAILAD
+TGATVLVTMNALRLLRLPD
+>tr|A0A1Q9AM59|A0A1Q9AM59_9RHIZ
+MTSTVTAAAVSKNFGAYQDAAVREPVIITKNGRPRTVLMAYEDYLRLARRDRRVDLTAAI
+SDDELAAIEASTMEPGLDHLNAELLMDKNAAD
+>tr|A0A1Q9AN44|A0A1Q9AN44_9RHIZ
+MATNIPGDIVAPLLAFDVESAGLFSSETRMILLGHGLAGAALAAGAIALCTTVDQARYLA
+GRGSMLESMFIRARQNAPAQEIYLARVDDSGTAEVRTVTVGTPPAAGGQGILQVAGERVA
+VQIAASSSASTVAAQLAAAINGFFNALTKKSLPFTATVVGAVVTLTARHRGAYAGGLDLF
+VPVTDGVNAFSGLLTFATATAGAGAPDLAPVLAAMGDDPFEIMVSAFGDDTSRLLLDQFL
+SSVSGRWSYAQQLYGHAFYPRTGTVAELTTWALARDSWHLTMIPVFSNAGNGTPAYEFVT
+ALVARIASFLGSGVDGRVSANQSGLVVEGVLAPRDRNYWPDYATRDALLKNSVSAWKVDV
+SGNVLIDKIVTQQQTTNGVPDTALRDIQAVYQITYALKYVRAQLAFEHSNKAIVDDNPAD
+LPTLVTARDIQATLVTSTMELARRGVIEATEAAFAEIRVTRNADNRNRVDMVLPLDRANP
+LDIFAGLARVYA
+>tr|A0A1Q9ANT0|A0A1Q9ANT0_9RHIZ
+MSRLALVLTEGFADWECALLMALARQDCGMEIAVATPGGKPVTSIGGLRAAADLDCRKLT
+AGKFDALVLCGGTLWTTQQAPDLTGLVGSFDRERKVVAGICAGVLPLLDAGCLKGRGHTS
+NFPGFLREARPAYGEAATYRDVPHAVRDGHVVTAPGTAPVSFAIKVLEALGADGTALSQE
+LMCFSAEHISVKAAAAAA
+>tr|A0A1Q9AM33|A0A1Q9AM33_9RHIZ
+MATGPRNRPHFLLKDNGTVEPYRRPNRKIDPPALPLRNRQAHAQALAQAVGTAVAAAEHQ
+LAAPGVTAFETRGFYLEFDLPASERAGIDQLANRQQKMEVVAVREADGDGGGLKAAVFVP
+ERAKNYFLNKIEQYRTTDTDKGRPRNEPLISRIDTAQLASARSLFTDEDELFPQHADVAV
+WWEVWLREGRRERFEAMAAALEIQMRQHAIRFPEREVVLALASTVTMDRVVASSDTIAEL
+RRAKDTPAVFTGLGGAEQKAWTDDLADRVQVSEAADEVAICLLDSGVRRTHPLIEPVLSV
+DDWHTINPDWGADDTPAWQGHGTRMAGVALYNDLIGPLAAQDPFEIRYRLESVRILPPGD
+AEENRPDLYGAITGEAIARAEIQAPHRSRVITTAITSSNHSRGRASSWSSSIDQLCFETD
+AQRLVLISAGNIRIDLTPADLLVRNDIEPLDDPAQAWNAITVGAFTNKVDVIDAAFAGYI
+PIAPAGELSPASRTSVSWDRQWPVKPDILMEGGNLAHDGENPGEPIDDLRILTTHFRPEN
+RYFSTIGDTSSATAQAAKLAAEIIVGRPGLWPETVRALLVHSAEWTPVMAARIANCHGNK
+TQLQALLRRYGYGVPDLGRALLSANNDLTLMIEDEIRPFQREGTGSVKMRDMKLHMLPWP
+KEDLLSLGAEPVEVRVTLSYFIEPNPGERGWTRRHRYASHGLRFQMKTATETVGEFRARI
+NQAARNEEEGAPVNVGEGWLLGTFRDSGSLHSDFWRGTAADLAERDAIGIFPVGGWWKEK
+PYLDRYNDHARYSLIVTIRAPNAEVDLYAAVETILTTEIVAEA
+>tr|A0A1Q9API3|A0A1Q9API3_9RHIZ
+MNTKRNGYLFTLLAIVIFTIQDAVSKHLGAIYPPVVITMIRYWAFAIFVVLMAMRAKGGL
+KAAIRTRRPLLQLTRGVLLAAQIVTVIFSFTLVGLAHTQGILAGGPIFIALLSMVLLGER
+VGWRRWSAIGAGLVGVLIIINPVGTLEPAILVPLLCSAFFAFYAVATRLVSREDSAATSF
+FYTGIGGALVTSLVGPFFWQPLAMHDWGWMGLLCLTGMSSHFFLIKAYEYLDASEVQPIS
+YLQVVLASIVGVTVFGETLTANMLVGTAIVVGAGIFTIWRESVVARRTAPPAQVKATADL
+>tr|A0A1Q9AMZ5|A0A1Q9AMZ5_9RHIZ
+MSKKTEREPVSRRTFLRSAAGLGAVTVAGSAFAQDSLQDVIDAPRRGMWDDQFDAKASRA
+AVSVTSNNPIFGLDTLSNTQAAIGQYQSIVTNGGWPAVNPQVKLQLGVTDPSVQALRKWL
+IIASDLPREAGISNSFDSYVDGAVKRFQVRHGLPPDGVMGEYSIKAMNVTANVRLQQLNT
+NLVRLQSMSGDLGRRFVMVNIPAAYIEAVENGRVVQRHTAVVGRLSRPTHIINSKIYEVI
+LNPYWTAPRSIVEKDIVPLMRKDPEYLKRNAIRLIDGSGNEVSPESIDWNADKAPNLTFR
+QDPGKINAMASTKINFHNPNNEYMHDTPQQGLFNKLARFESSGCVRVQNVRDLATWLLKE
+TPGWSRQQIEATIRGGQNQPIKLAEEVPVYFKYITAWAAKDGVVQFRDDIYQLDGAQELA
+LQTTTGIEPVTGGSDGLPQ
+>tr|A0A1Q9AJX4|A0A1Q9AJX4_9RHIZ
+MPRSDRQRFSIGYHLNSWDLTGQPLRPALEFLAKEGFGWFEILAFTSLSDQFVRKFMQLG
+DVAPPGVTTDTDILRRYALLSDAQSDLGIRLSSLYVNATFVNPVLWAYERDCLLTLARLL
+KGFGAPVLVLGGGPSEASGNPHGPEDYRAFCRALEDIGRRTADLGISTVYHPHLDTFVER
+RDQLDRMMDELDTRHAGLCIDPAHLAQTHSDPVDALRTYVSAVRYMHLKDTRVDDSLVGP
+ERYAAFCELGAGVVDLAGLVDVLIEARYDGLAIVELDASQKTAEQSAQESIAYLRDTLGL
+ALSPAAA
+>tr|A0A1Q9AKS1|A0A1Q9AKS1_9RHIZ
+MTRILYGLCGRDAGRPFSPHVWKTMMAMAHKGLDYRLEPVPFTAVPEIEGGATRTVPYLA
+DGAKRIVDSFAIAAYLDQAYPDKPSLFAGAEGPARLVESWSQTVLHPAIARMALLDIHGL
+LAEKDQAYFRESRERAFGRTLEEVAAEGEGERTAFAGRLEPLRRTLGYQPFIGGQTPLFA
+DYIVFGALQWLRIAGGPVPLEAGDPVALWFERCLDLHDGLGRSVPAA
+>tr|A0A1Q9AIL1|A0A1Q9AIL1_9RHIZ
+MMSKTTRAIAAFGLIVALLPGCQSVGPNTAVGAGLGAALGGLGCAAVGGRAGACLAIATA
+GAIIGGAIGAQIDERDRAEREAALRRAARENRRVSWRGSKTGNRGTITPLRAVVQNGRNC
+QMVQETYFKDGEPVSGQTTVCS
+>tr|A0A1Q9AD71|A0A1Q9AD71_9RHIZ
+MSSEPVLSAAIAAPGAPGIAGRWTSSAKSGLGTALSAASPVWFTLSHGIVNEVYHPRVDL
+ACTRDLGLLVTRDDGYFSEEKRHAAHACHWLHDGIPAFHLENVARDGAYAIDKTVLTDPR
+RPVLLQKIRFRPLAGSIADYRVHALLSPHLVNAGAGNSAWTGHYKGFPMLFASGKGQFLA
+LASSLPWAAMSAGYVGQSDGWRQLSETGRLAPYGRALDGNVALTGLIGFGPQEDAALLAL
+AFGASEAEAGYHALASLQDGYEGAARAYVAGWQAFQRDLLPLESGGRKGAHLYRASTAVL
+GLHRSLAFRGPAVASLSIPWGFNKGDDDLGGYHLVWPRDLVETAGGYLACGLTENALEIL
+AYLRTIQEEDGHWPQNAWLDGTPYWTGVQMDECGFPLLLLDALHRMGTLTGEDLAAYLPM
+AERAVAYLLQNGPVTGEDRWEEDAGYSPFTLAVEIAALLAAADTLEACGRAAGAALARET
+ADCWNEQIERWTYVRDNGTARALSIEGYYVRIAAADTADAASPSHGFVPIKNRPPESGTY
+AADAIVSPDALALVRFGLRAADDPRILATVKVIDAKLCAALPQGPVWYRYSEDGYGEKAD
+GGPFDGTGIGRPWPLLTGERAHYEIAAGRLDRAGDLLETFAACAGPGGLLPEQVWDGEDL
+PERELMRGGPSGSAMPLVWAHAEYIKLLRSLKDGRVFDMPPQGPRRYLRDATGSAIRIWR
+FNNRIREIPPGKALRLDLTAAATLRWSADDWTSVQESRTAAPLFGLHSVTLPVADLPAGT
+RIAFTFFWTEAQHWEGEDFAVEVVAEPEAPSAVG
+>tr|A0A1Q9AIR7|A0A1Q9AIR7_9RHIZ
+MQQLFMAIVTMAAGVLACAAYFFVSNWLLDQIFPSRGRVGAEASRNMRIANQIRPWLFLG
+PAFTLLAIYLIYPVIESVWLSLHDRTGQTFVGLANFNWMIHDGEFRQSIFNNFLWLLVVP
+ALATFFGLVIAALTDRIWWGNIAKTLIFMPMAISFVGASVIWKFIYDYRAEGRDQIGLLN
+AIVTAFGGAPQAWITLPFWNNFFLMVILIWIQTGFAMVILSAALRGIPEETIEAAVIDGA
+NGWQIFFKIMIPQIWGTIAVVWTTITILVLKVFDIVLAMTNGQWQSQVLANLMFDWMFRG
+GGDFGRGAAIAVVIMVLVVPIMIWNIRNATREMKG
+>tr|A0A1Q9AJH2|A0A1Q9AJH2_9RHIZ
+MSPLVLVALGGALGSVARYLVGLMMVRLIGPNFPWGTLTVNIVGCFAIGAVAATLARMGG
+NEPLRLFIITGILGGFTTFSAFSLETAALLEAGRMGAAFAYVAASLAASGLAVFSGLALM
+RAMG
+>tr|A0A1Q9AG06|A0A1Q9AG06_9RHIZ
+MPDSQALDLQAILDDIYTALSPRRGEGKVADYIPPLARIDPKKFGMAVVTIDGQVASVGD
+AAEPFSIQSISKVFTLTLAMGKHGENIWRRVGREPSGSAFNSIVQLEQEGGKPRNPFINA
+GAITISDLILAGHTPREVIGEIVRFMRYLANDEDIAIDPAVARSEAATGFRNSALANFMR
+SFGRLDHPVEHVLGVYFHHCAIAMSCVQLARAGLFLANAGVTPLSGHTVVSRERAKRINA
+LMLTCGHYDGSGDFAYHVGLPGKSGVGGGILVVAPGKASIAVWSPGLNHNGNSLLGSLAL
+EMLAHRTGWSVFGA
+>tr|A0A1Q9AH31|A0A1Q9AH31_9RHIZ
+MTSKLEQLRSMTTVVADTGDIEAVARLKPVDCTTNPTIVLKALGTDMFAESVDEAVRWGT
+RQGGDSDAAVAAVADRLAISVGAKLVELVPGRVSTEVDADLSFDTEASIAKAHGIIAAYK
+ERGIERDRILIKLASTWEGIRAAEVLQKEGIDCNLTLLFSKAQAVACADAKVFLISPFVG
+RILDWYKKSTGKDYSAEEDPGVVSVREIYDYYKSHDIKTIVMGASFRNVGEIEALAGCDR
+LTISPNLLDELDKAEGTLARKLSPDQRGTQKTLSVDEKTFRWMMNEDAMATEKLAEGIRS
+FAKDLTALRSMVREKMQRAAA
+>tr|A0A1Q9AMP3|A0A1Q9AMP3_9RHIZ
+MLLNALGFWLMAEPAHAAFVAAIPAFLTAIGSTAIGKLVLGVIAMAAHSLLGKALAPKQK
+ARTGVKLDIEIGDDRPVSAVLGYYAAPGRRKYAGTWGSSNRHFVDVIEIASLPSAGLRGM
+WIDDERCTILWNEPDEDGRGYPIKEFRKDDKDHAWIIFHDGTQTAADAYLVEHFGTHEKR
+PWTSAMVGRGITYAVMTYRYSDKYWSGVPACIFEPQSIPLYDIRKDSTAGGNGSHRWDNP
+ATWEPSVNPVVLKYNIIRGIFHKGEWFYGGRNVAAHRLPASNWIAGANEAGRLLVIPGQD
+TEPQFRAGIEISGDIEPLELVDDLRAAANARIAEVGGIFKVQVGGFGAPVLAITDADIVI
+TKGQSFEPFPRIEETVNGINATYPNPDEKWKSKDAPPLYDADLEADDGDRRLTADVQFPA
+VPFARQTQRLMRAMLKEERRFRVHQFFLPPEAWVLEPAVDVITWTSARNRYVNKRFLVVD
+IEGELTMNQLVTLKEIDPSDYDPDAAAVLPTPSGWIGRIEEPVQIMQGWTAEAETILDAD
+GRTRRPAIRVRCATNLDDVRAVHVKVRLKTSGAVLFDSDAQRYDPASASWLLSGAWCLPA
+TDFEVSGRLIPISARDTAWGAWLPVRTPDVRLSIEELAAEVQAQLTTLKAWIDDGLADKA
+TATAEALAEEARERAAAIEAQAEALAQEAEARAQAIHAQADALAVESAERAAAISAETDQ
+RAAAAFASARLVRGAMDDIAAIRSYVTELSYDGSLQRDELRRSLSLRIGEVSASFNERIT
+VALSQTSAIAERVTTLEVTAGNLSAAITEVDTARVNDNEAFAQRLAALTLGTDNQFDPAR
+LWAFETGAEGWAGSPAVPVAADGWLRPANGAADPYITSPTGLGISANAYRQLRGRLELTG
+APTWEGRLWWRGPADTTWTLARSVTIAAPTVDSNGVGLFTFNPSWSGTIDAIRLDLVEAQ
+TASDGVRIDWLAIGSPSPGASRAELLAEQKARIDSDSAMATSITWVRADLTSIETDVTGI
+ASGVQALTSDVEAIDGRVTAQGEQLVTLTAEVDGKASSEVVDQLQATAQALSGITNTMLA
+QGSSVRAIRSVVDPLAMAGIEAGFARLLGDQDNREATAQATQTLNTRIEQTGSSLAILAE
+ATTKVQAALGNKAESSALASLSSDVQAVAGRVDTSGRAVTGLRSTLDPIAMGLIEAGFAR
+ALGDQENREVVAEATQTLTTRIEATQGNIDVLAEAVTAVRARIGQLAEASAVATLATRVT
+ATEGSISSQASSITALNSAVANKAEAAAVSSLSQTVTVQGNTIASQGTAITSLNNAVAGK
+ASSSALSSLASTVSQQGDALATQSTAITNLNNAVAGKASSAALSSLDSKVTQQGDAIATQ
+SMALTNLSNEVAGKASSSALSSLASTVSSQGDALATQSTAITNLNNAVAGKASSAALSSL
+DSKVTTQGDTIASHSAALTSLGNDLAGKASASALSSLSNTVSQQGNTISAQGQAITSLTG
+SIANKAEASAVSTLSQTVQDQGGQISANAFALTQVQASLNGVTANAKLKIEAVAGPEGYS
+RIGFYTSVDSNGQTRAQGLYLDQPTDPSKKARVVVDAEGFAIIDGSGGNPNTFFAVENGV
+TVIPEARIGTITTDKVIILDNAVKEDAIDNQAVAQIYTWQAGNVMTHSSGVTNIAQTEDL
+PKDAQDVLVILGDVRVRASVLDAANAPMNVTVSLYWGSTYISEAYVELDRVTPRGKTVQI
+QGVLKDGAGSQPLYLKLSKDVTGTVTIGLRTLNTTRNKKALPR
+>tr|A0A1Q9ANR0|A0A1Q9ANR0_9RHIZ
+MTGIQDLDRRIGARIRLERDLRGWSLTDLAGRAGVSRAMINKVERGESSPTAQLLGKLSG
+AFGLSMSTLMARAERGQGRLARRAEQPLWTDPETGYLRRQVSPPTELPLELVEIMLPPRA
+EVAMPAAAFAFQRHLIWVLEGALIFTEGSLRHALQAGDCLELGPPVDCRFDNETELPCRY
+AVMLLKLAL
+>tr|A0A1Q9AHE5|A0A1Q9AHE5_9RHIZ
+MTGAIKSPLATSPNASRRAEELDALHAILPSDRHDQLAILLTDEDVATLTQALGYDNSGE
+RKMGRAARLVL
+>tr|A0A1Q9AKN1|A0A1Q9AKN1_9RHIZ
+MPDTQKDRTNALHVRLAETQLAAAIISDPDTVAYYAGYWNYLGIEFGRPTLLIVTAEAAP
+ILLTPLMESDMCARMTWIGDIRPWTDGGTEWRGPLADILAQLPAGPIGIEARTIPSLVRN
+AIEPLLGGRAMTDVGPIIARQRMIKSADEILTMRQAGQVAIAMMDGARLMIHEGAPEFEI
+TLAAMVAGTREAASLLRDPEDRFVSPIIQNVQILQSGTDTCMVHRRASTRRLAKGDPVYL
+CFCGMVSFRGYKLGFDREFFVGEVSAEQARVQGVAIAAQKAALSSIRPGITCEEVNAAAE
+VVYAEAGFAPGYRTGRSVGMSLLEAPELKRGETTPLQAGMTFAVDGGITLAGTFGGRIGD
+SIVVTETGFDYLTPYPNEITVLG
+>tr|A0A1Q9APG0|A0A1Q9APG0_9RHIZ
+MRIEDWLRGCAALACGMALALAPLAAQTATAQQLITPVDGPAPQAEDAAGACTRADIVVY
+GGTPGGIAAALQAARMKKKVLLLEPTQHIGGMMTSGLNKTDASPRRGVYGGIVKEFFNRA
+SAAYGLGDTVRVYFESKWAERTFAAMLREDGVKLVRGQLITSVKRSGKTIASLTTVAGRS
+FCGSTYIDASYEGDLMKLSGASTVVGRESRAKYREDAAGVQKLNFPNVGDKNNPDYVKID
+PYIVPGNPKSGLLPGISPIGQQPIGAADKSLMAFNYRLCVTQSPGNITPFTQPADYDPMR
+YEALARFIAALKAKGTPIGPGYFVGDGDTVKGKLDVNSNPYFSTNVWNISYGYAVGTEVQ
+RVQIRQSVRSYIQGLLWFAVSDPRVPAKVRAFTAKYGYCADEFVDNGNFPYQMYVRQARR
+LLGQYVLTENDLEKKTVFNDAIGLGYYPMDQHGMIRTVLNGFIGEDIRQSISVGPYQIPY
+RSMLPKRNEVTNLLVPVALSTSHVAYTSVRVEPTYMVLGQAAGAAAALAPGGNVSNVNIV
+QLKSQLAKAGQVMNWN
+>tr|A0A1Q9AQ41|A0A1Q9AQ41_9RHIZ
+MPELPEVETVRRGLAPAMEGAVIARAELRRPDLRFPLPEGFAARVEGRRILGLKRRAKYL
+VIDLSDGAAILAHLGMSGSFRVEEPAALADALPGETGDTPGLFYLPRGKDARHDHVVFHL
+EREGRILQVVYNDPRRFGFMDLAEGTALDAHPFFRGLGEEPTGNGLSPDYLAARFKGKGQ
+PVKATLLDQRVIAGLGNIYVCEALWRAGIAPTTAAGALVRGDGAPGARLVALNTAIHQVI
+AEAIEAGGSSLRDHIRTDGTLGYFQHRFSVYDREGEACPRPACTGTVARIAQGGRSTFFC
+PVCQT
+>tr|A0A1Q9AF33|A0A1Q9AF33_9RHIZ
+MNIEAHLATLEKKHGVLEEELHSALLQPSTRDDYISSLKRRKLRLKDEIAKLKASFH
+>tr|A0A1Q9AFZ4|A0A1Q9AFZ4_9RHIZ
+MTAHLASLAQGLLTGAVKVVDLSAPLGPETPVLYLPPQFGKNTPKVKVHTISTYDQDGPF
+WAWNWLELGEHTGTHFDAPCHWITGKDHPENTTDTIPPQNFVAPVNVIDRSKEAAENPDY
+LLTADSIRAWEAEHGEIEAGSWVLLRTDWYKRNGATETFLNADETGPHSPGPTVDAIEYL
+LSKGIIGWGQETIGTDAGAAGGMEPPFPAHNLMHKANRYGLASLCHLDQLPPKGAILIAA
+PLKLVKGTGSPVRALALIG
+>tr|A0A1Q9AFJ7|A0A1Q9AFJ7_9RHIZ
+MTAEGPDADTLDRLLATARQAFAAAGLAEPAREARRLIGELLGLSATALMTRGGEALAPE
+EAARLSEAIARRAGGEPLHRILGWREFYGLTFALSPETLEPRPDTEVLVDRLLPPLRATA
+ARKGTCRIIDLGTGTGAILIALLSQIPQATGLATDISEGALSMAARNARANGLENRVETK
+KSDWWEKISGKYDAIVSNPPYIVSSVMSTLERDVLDFDPHKALDGGADGLDAYRILAEGA
+EGHLEDEGVIGVEIGYDQRLAVTALFVERGFRLLEAVRDFGGRDRALIFAR
+>tr|A0A1Q9AEU1|A0A1Q9AEU1_9RHIZ
+MDRAAAGHERDLPEEGDGARTPARLTLGVHIQAWKQAIVRRYFPERRFVFLPFHLSEAQL
+RRDWLTPALAAQKPDILVWSLNLPPALDAFARAEQLSVLVMEDGFIRSARPNASRTPPLS
+LALDSRTAYFDARQASDLEVLLETHDFDADPALMARAVTGMRAMVERGLSKYNGAAASAP
+GALYGPKSRPRILVIGQVDGDASIRFGCTDMRRQDDLVRLAVAEHPDAEVIFRPHPDVVA
+GVRPTAVDWKALARICRISTAPAPIAEALSTIDRVYTLTSLAGFEALMRGIPVTVAGYPF
+YAGWGLTDDRASLRRRQRHLSIEALFAGAYLLYPRYFHPRTGAAIDFEQALRWLVQPERD
+ETPSGTVSPFEGAPALGAWTKLRARLLSPVIARVGTAEDAAYFRAFPKNFFQERPEVSLR
+RLGRCLFP
+>tr|A0A1Q9AQD5|A0A1Q9AQD5_9RHIZ
+MMIDPVRRLIDFHAAINALDFATIEAAFAEDAVYASGKVGALEGRAAIMAAFRRYFAQYP
+DQVAEDSLVEAVSPLAARSVWRLKAHDATSGAPLIREGEETITFNHEGRILSVAVTDYAA
+L
+>tr|A0A1Q9AHV0|A0A1Q9AHV0_9RHIZ
+MSSLQVKNAAKAYGTVQVLNDINLNIASGEFVVFVGPSGCGKSTLLRMISGLEDITSGEM
+RLDDRVINDVDPAKRGIAMVFQSYALYPHLTVFENMAFSLTMARAPMAERKQKVERAAEI
+LRLTHLLDRRPAQLSGGQKQRVAIGRAIVRQPKIFLFDEPLSNLDAELRVQMRAELIQLH
+SRLRATMIYVTHDQVEAMTLADKIVVLNGGKIQQVGRPLDLYDDPDNKFVAGFIGTPTMN
+FLSAQVTEVAQDHVVVTGLGGDPEARFLRIPFKGFDPSIRTVELGIRPEHATIATAPATP
+AGLRAKVTLVEELGDLTSVHTVLTNGERLVAQSHGRRHQGAMETSVHIAADKALVFDTSG
+RRLRSAAL
+>tr|A0A1Q9AMC7|A0A1Q9AMC7_9RHIZ
+MTDRKPVADLTDADAAEELAFLAAELARHDALYHGQDAPEISDADYDALKRRNQAIEARF
+PALRRPDSPEGHVGAAPSGLFAPVVHARPMLSLDNVFSDEDVQDFLASVYRFLGQIPDGS
+IAFTAEPKIDGLSMSLRYENRRLVTGATRGDGTTGENVTANIRTIAEIPETLPEDAPDVV
+EVRGEVYMARSDFFALNAQMEAEGRQTYVNPRNTAAGSLRQLDATVTATRKLRFFAYAWG
+EMSAMAAETQYEMVAALGRWGFPINPLMARLSTLEDLLGHYRAIGLARADLDYDIDGVVY
+KVDRLDLQARLGFRSRSPRWATAHKFPAEQAFTHLTAIDIQVGRTGALTPVARLTPVTVG
+GVVVTNATLHNEDYIKGIGNAGQPLREGRDIRIGDTVIVQRAGDVIPQIVDIVLEKRPED
+AVPFAFPRVCPVCGSHAVREKNEKTGKLDSVTRCTGGFVCRAQAVEHLKHFVSRNAFDIE
+GLGARQIDFFFTAEDPALSIRTAPDIFTLERRQQASLTKLENIDGFGRVSVRKLFEAING
+RRQVALHRFIYALGIRHVGETNAKLLARSYGDYDSFATAMIAATPGSEAWEDLNRIEGIG
+EVVARALVEFYREPRNLDVVGRLLQEVTPLAAEPVAAASSPVSGKTVVFTGKLEKMTRDE
+AKASAERLGAKVSGSISAKTDYLVAGADAGSKLDKARGLGVTVLTEDEWLAMTAG
+>tr|A0A1Q9AHZ3|A0A1Q9AHZ3_9RHIZ
+MLRHIRLVPKIVGVLACLGIFGLGGVIVSGIQMQAVDANYSTILAKDQQGVLYTVRANRA
+TQTLRALTAEIIFSTDPEQIKVLQAQMETTRADLVKFFDTALAAVPEDKGIQALKAEAYK
+IAFETCVPLANRGAQATTARAVDAVAADYFKTCQPELVRLTKTYAEQTTRLVEGAKAQSA
+QQTASVRSMTMWLVGCMTLATLAIVGLAILLVRKGITGPLADLRESMRRLAGGDLSTIVA
+ETDRRDEIGDMARTVQIFKDQAGHAEALETETRKAREVTEEERARNQEREKRHAESMAVA
+TQGIDEALQHLSRGDLTFRLERPFSEEFEGLRQNFNAAIAQLTETIRAVSHATASIDGGT
+QELSASANDLSKRTEQQAAALEETAAALDEITSNVASSTRRTDEARAKAEQANESARHSG
+AIMTDAVNAMQRIEKSSAEIGNIISVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQ
+EVRELAQRSAKAAKEIKELIRTSVDEVSTGVRLVTETGAALQVIESHVVDINEQLNAIAT
+AAKEQSVGLQQVNSAVNQMDQSTQQNAAMVEETTAASAGLAHEAERLRSLIGQFRIDGDP
+ARATARPAQATAASPARQMMNRVANAFTPKKRAGGGSKDGWDEF
+>tr|A0A1Q9AQ84|A0A1Q9AQ84_9RHIZ
+MTRSAALLIALMASTPAFALPESKDRVYAADQNSNTVSVIDPSTNTLLGLIKLGDPRPNV
+LSPLYKGEVNVHGLGFSPDHRTIVAVSTVTNSVTFIDTATNKIKGVAYIGRNPHEAFFTP
+DGKHVWATVRGEDYLSVIDAKTFKETDRIKTESGPGMTIFTPDGKRAFVANSFNPVVQVF
+DVASKKLLASIPVVSPFSPFIQVTPDGKEAWLTHKDVGKVTRIDTKTLKVKGVIDSGPIT
+NHLAFAKTSAGTLAYVTIGGENVVKVYTLNDEAKLIATIPVGALPHGVWGSGDGSRVFVG
+LENGDAVDVIDTQKNEKIAHIPSGQAPQALIYVPDAVPTGDGRQNLEPRKDMPENITLML
+KPAADAQGGGMVVSRNLGLIDIVDLSVSKLKPDTAYALLFEGQPEPIVAFKTDAKGAAMA
+SATSPTRSIVKPGEASKTPKVILVEGTEPLANAVLQSN
+>tr|A0A1Q9AE17|A0A1Q9AE17_9RHIZ
+MLHIRVDDDLREDATAVFASLGLSMSEAVRLFLHRAVASQGLPLELKVPNAATQAALLEA
+RQRREARTTRFETAEALLADLAQDRDED
+>tr|A0A1Q9AJK7|A0A1Q9AJK7_9RHIZ
+MSLPPSGASAPVEEIHWPSLIAAISAITAVGIAIGLGLPLLSIIMEKRGISSTMIGLNSA
+MAGIASMLAAPLTTAAAHRFGVASTMLVAVVVAAISALGFYYIENFLLWFPLRFAFHGAI
+TVLFVLSEFWINVTAPPSRRGLVLGIYATVLSLGFAMGPLLFSILGSDGIRPFAFGAVVI
+LCAAIPIFLARGESPVLDEKPELHFLRYVFLVPTATAAVFVFGAVEAGGLSLFPIYGTRA
+GLTESHAALLLTVMGIGNVIFQIPLGLLSDRMKDRRNLLTLMTVIGFAGALCLPLIEHNW
+LLMAVVLLFWGGCVSGLYTVGLSHLGSRLKGSDLAAANAAFVFCYAVGTVAGPQAIGASM
+DVTGNHGFAWAIAGFFGLYVLLSLVRIVMRPK
+>tr|A0A1Q9AMF6|A0A1Q9AMF6_9RHIZ
+MPWSNQNGGGPWGGGGGGNKGPWGQGPNRPRGGGGGGRGNGGPPDLEEILRRGQDQLKGI
+VPGGFNGGAVAIIALVLVGFFLLNAIYTVQPDERGVEMRFGKPKDEISMPGLHFHLWPLE
+TVELVKITEQQQNIGRRSGMGDQNSSGLMLTGDQNIVNVQFSVLFSVTDPRAYLFNVENP
+AQTLQQVAESAMREVVGRRPAQDIFRDNRQAIALDVKSTIQATMDAYGAGLSVNTVSIED
+AAPPREVADAFDEVQRAEQDEDRFVEEANQYANQVLGRARGQGAQVREEAAAYKDRVVKE
+AQGEAQRFVSVYDAYRLAPEVTRTRLYLETMQEVLGKSKKIIIDESKGQGVLPYLPLNEI
+NPRPAPQQGGAQ
+>tr|A0A1Q9AN02|A0A1Q9AN02_9RHIZ
+MPEQRGSCVDEAMMRRALVLARTHLGATGSNPSVGCVIVSPDGQTVLGEAVTARDGRPHA
+EPQALSLAGPAARGATAYVTLEPCSHFGKTPPCADALIDAGIARVVVGLQDPDERVAGRG
+LARLEAAGIAVTRGVLEAEGRHLLAGYLLRKTAGRPLVTVKLAVSADGTIGRRGGGQVAI
+TGPEARADVHRLRAESDAILVGIGTALEDDPMLDVRLPGLEDRSPLRLILDRGLALPVES
+KLAQTAGRVPTRVVTAPGARALQPERVAALASAGVAVQEVEGLMTLLDDLGAEGLSNLMV
+EGGAQVIRSFLEADRIDRLRLFTGRVRIGPEGVETPFPESLLAERFALVQEEQVGADTAR
+HFERIR
+>tr|A0A1Q9ANT5|A0A1Q9ANT5_9RHIZ
+MAELWEPYDEELEKARVAWLYFIGGRTQQEIAQEMNITRLKVNKIIGAVRESGNVKVSVS
+LPLSDCVELAEAVSARYRLIEAVVVPDLEDFVEQKRVIGEAAGTMASGLIHEHDMGVGVG
+SGRTLSFAVRTLRARPKPESWVVGLMGGVTRGSGTNTFEVATTFARALAVECHYLAAPIY
+CANPESRNALLLNDELTDVLARTEIADIGMVSCGPIMEETSLTHIRVVKDHLDAVLKLGA
+VGEFLGCFLDAQGRPVDHFLNESIIALPPDKLKLKPVSMLVSGGRSKIPIIRAILRAGYV
+NRLVTNESVARALLQGPR
+>tr|A0A1Q9AM39|A0A1Q9AM39_9RHIZ
+MQFHQCSEGIDGIEHILIAYRACCFVLAFDNDAGYADAFEMPLYENIDLLPTKWHVGLNV
+IPQYRIQACDISFEFGWTSDPAF
+>tr|A0A1Q9AQQ9|A0A1Q9AQQ9_9RHIZ
+MDLLRPLAEPMGLQITEEDDLPGIAQYIVNMSAGSRTSLFARIQTAIKQSKSKPNHYHQS
+LARSAIDLVWTTNYDDLLETAYPVGAPVVHSRDTDIAHHHEPGRREIIKAHGCINRSSAD
+ELVITREDFEDYFVKHPLMAERLRSDLQRKTFLFAGYGYGDPNIASILVEARRLAHKVPK
+QRYMLQRKADASKAPDAIQRQQQWAMDLRRIGIDCAIVNNFDEYAAALDSIALRSRGPTM
+YVTGGHTANSKLAEEVGRELAKRTDVSVVLFDGQSTGASRSFIQAFVDQAAKDRIDFRER
+IRYFPNPYAQVPALSNDPELLPRLKEWRAEMLRAANTVLAFDGGMGTRAEVELAADLGCN
+ILLCAETSTGSSASLAQIAHIRKLLPYDHGYLSSTDSGTPMQPAEIVDLVLTKMPQWKSW
+>tr|A0A1Q9AGQ9|A0A1Q9AGQ9_9RHIZ
+MALAIFIGLIAGLFAAPVDVAYPWIKALHIIAVISWMAGLLYMPRLFIYHSDAAPGSAQS
+ETFKVMEQRLLKVIMNPAMMITWVLGLYLAWRVYGFTGGWLHAKILAVILLTLAHVHFAN
+AVRLLAKDGPRRSPRYWRLMNELPTVLMIVIVILAVVKPF
+>tr|A0A1Q9AL28|A0A1Q9AL28_9RHIZ
+MRRASALADLPAASLEHLRQPDLDALRPAFSSHKPRILILYGSLRSVSYSRLLALEAGRL
+LEHFGCEVRIFDPAGLPLPDAEPVTHPKVQELRELTQWSEGQVWVSPERHGAMTGIMKAQ
+IDWIPLAVGSIRPTQGKTLAVMQVSGGSQSFNAVNQLRVLGRWMRMVTIPNQSSVAKAFQ
+EFDADGRMKPSSYYDRVVDVCEELVKFTWLTRDASTYLTDRYSERKEEAEKLEQRVSLKS
+I
+>tr|A0A1Q9AFE6|A0A1Q9AFE6_9RHIZ
+MIHFENVGLRYGMGPEILRDLTFDIPQKSFQFLTGPSGAGKTTLLRLLFLSLQPTRGLIR
+MFDRNIATIPREEFPMLRRRIGIVFQDFRLLDHLTTYENVALPLRVRGKEEASYRADVLE
+LLRWVGLGERINVLPPVLSGGEKQRAAIARALIDRPEVLLADEPTGNVDPPMARRLLNLF
+MELNRLGTAVVIATHDLTLMDQVEARRMILSQGQLEIYG
+>tr|A0A1Q9AJW9|A0A1Q9AJW9_9RHIZ
+MIYDLAVIGGGIVGLATALSVSTRFPDLSLVVLEKEDQLASHQTGRNSGVIHAGVYYQPG
+SLKARFCKEGAEATLAFCRMHDIPFDQCGKMIVATGTDELPRLAALEGRCRENGLTVERL
+DAAELQRREPQIIGVGALFVPSSGIVDYAAIARTMAGLLAKRGVEIRTGTTVTALSESAQ
+DVRVETTNGEVSARCVIACAGLMADRLARSCGLALDFQIVPFRGEYFRLGSDKDRIVRHL
+IYPVPDPALPFLGVHLTRMIGGYVTVGPNAVLALAREGYHRTHVAPGDLAEMLAYPGFRR
+FLRHNWRSGLEEMANSLSKRRYLALCQRYCPELVLGDLHPYRPGIRAQAVFVDGTLAHDF
+VIRETARTVHVCNAPSPAATSAMPIAREITDRAAARFGWSARDGV
+>tr|A0A1Q9AMS1|A0A1Q9AMS1_9RHIZ
+MERKFTPLDEVDISSDDRTVRGYASVFGGIDSYRDTIVKGAYASTIKAIGARGLPMLSQH
+DPSRVIGRWTGLAEDDRGLIVEGVLTPGHSIANDVYASLKAGHVDGLSIGFRIPPGGASE
+RADGVRVLKKLDLQEISIVTFPADAAARTTAVKADFRKMTIRELEAWLVSRDEDRPPMPA
+SVAKALLAGGFKTMSAERDAGGDQSGDFKQSLLHAIRTAKE
+>tr|A0A1Q9AGN5|A0A1Q9AGN5_9RHIZ
+MIILGILLSIAAIGFFWWLLFTLAVFALPFFVGVSAGSWAWHTGAGWLGAIVVGTVAAGL
+TFGIGQILLVLVRPTWMKLAIALIFVTPAVLAGYHAVHGIVKHTVPSETWQIVFSVIGAI
+AVGVTAFLHVSGMAATDLSTGTAARA
+>tr|A0A1Q9AK55|A0A1Q9AK55_9RHIZ
+MANLPEMTKHRGFPSGMPGTGIQFTIRRANPKGVTPLKALPRKGRPGTKEYRIDAAFLHA
+LWHHFGTEPFERGNLDAARLNLLFGREVVAVDKSFDPLSYETLLQINERVARQNFPDSFD
+DVFEV
+>tr|A0A1Q9AEM0|A0A1Q9AEM0_9RHIZ
+MELSGEERIPLPRDAVWAALNDPAVLKSCIPGCETLAWTSDTTLDARVRVKIAFIPMTFG
+GTITLSELRPPEGYKIDAQGHGGLAGFAKGSADVDLQESGGDAQAETQLTYRIHAALGGK
+LAELGASLAQSSADRIARRFFADFTAAARRRMAEG
+>tr|A0A1Q9AGB1|A0A1Q9AGB1_9RHIZ
+MSDSRETFVNHAFVTGFPVRHSRSPLIHGHWLKALGISGSYRAVEVTPEAFPAFIAALKD
+GSSGFAGGNVTIPHKELAFALADRPDDLSEELGAANTLWLEDGALRATNTDGAGFTRNLD
+QRAPGWADCDSAVVLGAGGASRAVLQALRDRGIARIHVLNRTVARAQELADRFGPALSAH
+PMEAYDEVAQGAGLVVNTTSLGMDGAPVPDFDFSRLAPEAIVTDIVYVPLMTPFLQQAEA
+QGRRTVDGLGMLLHQAAPGFARWFGAMPEVDERLRDLVIADMAAH
+>tr|A0A1Q9AEB9|A0A1Q9AEB9_9RHIZ
+MFDSRNPAGVAALQLGLISTVIATTMTDALAAGFQAADERRECRAAYKYACELEEARGRA
+DDLGRVAVRAVRHVASLEAEVRHLRNALQQRQDLIDGIKSGKIAVAR
+>tr|A0A1Q9AIC9|A0A1Q9AIC9_9RHIZ
+MTETANTTDIVSVEISERIAWVKLNRPEKRNAMSPALNRRMMEVLDALEFSEDVGVLVLT
+GEGSAWTAGMDLKEYFRETEAKGLAGVRQSQRESYGWWRRLRWYQKPTIAMVNGWCFGGG
+YGPLFACDLAFAADEAKFGLSEINWGILPGGGATKVAVELMPFRQAMYHAMLGEPIDGQK
+AAAWGLVNESLPLVSLKERVTEVAKVLLAKNPVALKATKDAVRRVGVMTYDEAEDYLVRA
+QEAANSYDNEGRKEGIRQFIDEKTYKPGLGAYDKSKKHG
+>tr|A0A1Q9AIJ7|A0A1Q9AIJ7_9RHIZ
+MNEILLEVCVDSAEGLEAAIEGGADRIELCAALECGGLTPSPGLMRLAAEAPVPIYAMIR
+PRPGDFLFSPQDEAVMRGDLDAAGAAGLAGVVLGANRPDGALDSDLLARLSEAAGPMGRT
+LHRAFDLTGADFAGAIDTAVALGFERILTSGGALAAPQAIDTLERLFALTDGRITIMPGS
+GLSPETIAPLIRRLPLREVHASCGRAPTIRDDGAKALGFVHSGTKVTDRATVAALKALLR
+AA
+>tr|A0A1Q9AM21|A0A1Q9AM21_9RHIZ
+MPPGFHLTDDPDPERLRQLGSALAGFNTADVGPSGHRPLVLFLADDQGVLLAGLSGYTAW
+GWLYIQWLWVAETMRGQGLAGQMLEAAEAEAARRGCHGAWIDTFSPTALRTYQKAGYTAF
+GALDGFPQGRVRSFLQKALAPPPVSEEDGGQSHGGASKAG
+>tr|A0A1Q9APK2|A0A1Q9APK2_9RHIZ
+MQAFAELLDRLVLTPQRNAKIRLMADYFRTTPDPDRGYALAAIAGTLDIAAVKPALLRQL
+MLERMDPILFQYSYDYVGDLAETISLVWEAVEPEDAQVADLSLGAVIHRLQSAGRADVRG
+LVRDLLDRLDGSARYAFLKLITGSMRIGVSARLVKQALAEMGGVEAGEIETLWHGLSPPY
+LSLFAWLEGHSERPALSMPAVFHAVMLATPVAEGDLTNLDPKDYAAEWKWDGIRVQLANL
+DGTRRLYSRSGDDISAAFPDILEAVNFEGIIDGELLVGGTARTNRATRTFSDLQQRLNRK
+TVTHKTIEDYPAFVRGYDLLFSREGDLRALPFSERRTALAGLIEEASPTHFDLSPLVPFA
+SWEEIDRLRTAPPDPVIEGIMLKRWDSPYLAGRAKGPWFKWKREPFNVDAVLMYAQRGHG
+KRSSYYSDFTFGVWTTSEGKDMLVPVGKAYFGFTDAELEILDRYVRNNTIERFGPVRSVK
+ATPDHGFVLEIAFEGINRSSRHKSGVAMRFPRIARLRADKLPRDADRLETLLAMIPAGAH
+DDIDG
+>tr|A0A1Q9ANA7|A0A1Q9ANA7_9RHIZ
+MLPSAGPIALPPIRSLRDGAAQAIAAADLDLKTELAQETARRWTARRLSLRSPLDAPVPE
+RPGRPERPELIPPRNVPRRSLHTPQGRVALLHAIAHIELNAVDLALDIVARFADQPVPLS
+FFEGWMRVAFEEAKHFRLVRARLRAMEADYGDLPAHDGLWQAAHDTRNDLTARLAVVPLI
+LEARGLDVTPALQAKMRETGDTESAAVLDVIYEDEKGHVAVGAKWFRFLCQRERRDPVRA
+FQDLVRANFRGPLKAPFNDIARAEAGLTPAFYRSMTTSANI
+>tr|A0A1Q9AF14|A0A1Q9AF14_9RHIZ
+MPMTTRRALLGYSAAALVTASLPLAARPAFADAGFQSWINSFYPTAAKAGITQATYRQAF
+AGVRTPDPDVLRKATYQPEFTTKIWEYIDSRVNPFTQRTGQEMAAKHKRTLDALERHYGV
+DRTILLAIWSMESNYGAVLQKDERLHYVPRALATLAYADPKRAKYARTQLIAALKILQNG
+DVTPRELVGSWAGAMGHTQFIPTSYLLYAVDADGNGHRDIWSSVPDALATAANLLKSNGW
+QTGQTWGYEVVVPAAASRYSGQSKSLKQWADLGLRRPNGKSFRDGSQRAMLKLPGGAGGP
+GFLMTKNFFVLKRYNASDSYALGVGLLADEIAGFGGMQQPWNRPDGSLDVRQKMEIQTRL
+KELGYYNGEVDGNFGSGSKAAIQAFQSQAGLSPDGEPTQHVLRALRR
+>tr|A0A1Q9ACL3|A0A1Q9ACL3_9RHIZ
+MPDRFNAHAPSMTGPATRGFAITPSDSAALPEITRAVYVGVSGTLALRLSEGQTVTLANV
+PAGSILPLRADLVLATGTTAGGLVGLL
+>tr|A0A1Q9AFE7|A0A1Q9AFE7_9RHIZ
+MAGRGDNSKPKSGGPVDVEPFRRALTGCVRSIAGDGEVEVVFANERPGMTGERIRLPDIS
+KRPTRHELAVTRGLGDSMALRRACHDARIHATMAPQGTEARQIFDAVEQARVEAIGAKAM
+DGVALNITSMLEEKYARANYGAIERQQDAPIEEAMALLVRETLTGQKPPEAAGKVLDLWR
+SFIADNSAGGVNNLASVINDQQAFARVIRDMLTAMNMAEKYGEDESEPDDTETPSDEDQP
+RSEQENEEAAEDEAGQDAAPAEESETADDEMEDGEMDGAEISDEEMSDEGEEDSETPGEV
+KRPNHPFDDFNEKVDYTVFTEAFDEIVTSEELCDEAELERLRAFLDKQLAHLQGAVGRLA
+NRLQRRLMAQQNRSWEFDLEEGYLDPARLTRLIIDPMQPLSFKKEKDTKFRDTVVTLLID
+NSGSMRGRPITVAATCADILARTLERCGVKVEILGFTTKAWKGGQSRETWLSSGKPQAPG
+RLNDLRHIIYKSADAPWRRARRNLGLMMREGLLKENIDGEALIWAHDRLLARPEQRRILM
+MISDGAPVDDSTLSVNPGNYLERHLRAVIEQIETRSPVELLAIGIGHDVTRYYRRAVTIV
+DADELAGAMTEQLASLFDDESTSRRRVAPRRRAG
+>tr|A0A1Q9AIS7|A0A1Q9AIS7_9RHIZ
+MGIMKLFPKTSVYPPRRAIFNLPICDFGWKEALAFADEAASRPIGQTVISFVNANNANFL
+QSDAEYRAILARHVILPDGHGMDIASRAFHGTAFPANLNGTDFIPALFTYMTRPRRVAMI
+GANPDVLKRAAEAFHRHAPWHEFIPVADGYIDHEGSLRAMAEISALRPDILMVAMGTPRQ
+EKWVDRYVGPGHARLVVSVGALFDFVAGEVPRAPQVVRQMRLEWLYRLVREPRRLWKRYI
+LGIPLFFLNILNGLWKGPKAVEDGRVIIDRRGPRPQGSLDK
+>tr|A0A1Q9AQ44|A0A1Q9AQ44_9RHIZ
+MTNLFNRFLKDESGATAIEYGLIAALISVALIGGAKALGTQLNTTFTNLKTTLANNS
+>tr|A0A1Q9ACG9|A0A1Q9ACG9_9RHIZ
+MPYRSTEVLSPGPADLAPIAILTLAHDQRHVRRKLIHLPDDDVVMLDLRQAVMLSDGDLL
+VLEGGGHIRIEAAEEPLYEVRGHDARHLTELAWHLGNRHLPAAIEADRILILRDPVMLPM
+LEGLSASVREVVEPFQPARGAYHHGGHDHGHGAGHSHG
+>tr|A0A1Q9ADS3|A0A1Q9ADS3_9RHIZ
+MKTPLIDIRRLTRDYAGGGLFARPSLTRALDDLTMTVEAGTIHGIVGESGCGKSTLARIL
+MALDRPTSGDVILDGASLFDLSPKELMRKRRDFQMVFQDPFGSLDPRQRVARIVAEPLHV
+LDEKPSRAARRERVMAMLEAVGLNAAQAERYPHEFSGGQRQRIAIARALITEPKLVVADE
+AVSALDLSVQAQVLNLITRLKRERGVTFLFITHNLAVVDAVADQVGVMYRGRLVESGPAR
+AVFERPLHPYTRVLADAEPSVTKFGRPPARPAPPAAALAAPLTHGPPGQGCAFLPRCPLA
+GPRCAAEAPVLRQVLPGRQTACHHAEQMLCAPA
+>tr|A0A1Q9AHB7|A0A1Q9AHB7_9RHIZ
+MNTRVTLSMPEEMHHLILKHAAEAGAAPDAYMIEVLEQHLEDLHDIALAEAALERIKQGE
+RIYTLEEVKRELGLGD
+>tr|A0A1Q9AIM5|A0A1Q9AIM5_9RHIZ
+MSLSSVQAFFAEHAPDIAVIELAESTATVAQAAAGHGVEPAQIAKTLAVRVGEEIVLIVT
+SGHMRLDNKKFRALFSAKPRMLELDAVERETGHPVGGVCPFGLARPLPVYCDLSLKEHAV
+VVPAAGAIHAAVHIAPERLAALTGASWIDVCSA
+>tr|A0A1Q9AMQ8|A0A1Q9AMQ8_9RHIZ
+MIGGNVKLELLYPTVKEAAIEPVSAPVSDTAVEFTAKDLHPTGRAPVAVQHDITGSVYTF
+TVTENRYWFFDFRSGGDAANTYKLTFDALGGSNSLSLLNADILRNDMGFKATDVVAGDNA
+LSVNLSGKPYGPATELSVQLGFLVKGTAGNDTLEGMAGRDQLEGGDGKDTLIGGAGADAL
+IGGAGIDIASYRTAGSGVTVDLVKTAGNTGDAAGDSFTAIEGLEGSNFDDALTGSAGANT
+LTGLDGNDKLFGLGGNDSLYGGNGNDTIDGGAGNDRIIGDLGKDILTGGAGKDTFFFRNV
+ADSTTSAAGRDTILDFNGKAGDKISLSLIDADTTHAGNQAFTFIGTKGFSGDAGELRYKK
+LGGDLYVYADINGDKKADFSLHLDGVSDLQKGYFIL
+>tr|A0A1Q9AN87|A0A1Q9AN87_9RHIZ
+MRMAEGSLAPTSASPVLLFDSGIGGLTVLREARVLMPERSFLYVADDAGFPYGDWPEEAL
+NARLVTLFGQLIETYRPEICVVACNTAFTLAGAALRAAYPAMRFVGTVPAIKPAAERTRS
+GLVSVLATPGTVRRAYTRDLIQSFASRCTVNLVGSAHLARMAERAIRGEPLDEAAVLAEI
+APCFVETEGARTDIVVLACTHYPFLANLFRRLAPWPVDWLDPAEAIARQARRLVPLTEEG
+WNDENEDRAVFTSGDPDFATRRLLHGFGLRLAPPPPFA
+>tr|A0A1Q9AN93|A0A1Q9AN93_9RHIZ
+MSRARIYMDWNATAPLLDEARAAILSALDCPGNPSSVHAEGRRARQMVEAARRSVASLCG
+TLPAHVTFTSGATEAANQVLTPDFRMGRTPLAIGRLYVSAVEHPAVMAGGRFSPDRITVL
+PVNGDGVIDLGQLDEALQAHDATSGLPMVAVMLANNESGVIQPVAEVAGSVRCAGGVLVV
+DAVQAAGRLALSIEALGADFLILSAHKLGGPKGVGALVSRGEMLMPAPLMRGGGQEKGHR
+SGTENPAGVAGFGAAAHVATRDLEPRMAQVTALRDRLESGMRAAVPGLVIHGAAAARIGN
+TSLVTIPGLKSETLQIALDLEGIAVSSGSACSSGKVGRSPVLDAMGVKGEEGALRLSLGP
+QTNEDEVERVVAAIGRIAARKREAGVAA
+>tr|A0A1Q9ACK2|A0A1Q9ACK2_9RHIZ
+MQNEFRTNEFKIFSAVQTELREAMMRNDRRTAYLAMEELRGIQEHSQWRAMRARCAAVLS
+EFSVH
+>tr|A0A1Q9AL52|A0A1Q9AL52_9RHIZ
+MTAYLKLDHIDKHFDRGGSRTEVLKDINLTIDKGEFVSIIGHSGCGKSTMLNLIAGLTKV
+SAGAVLLENREVNAPGPERAVVFQNHSLLPWLSVYDNVNLAVTKVFGATKTKAEQHDWIM
+HNLDLVQMAHARERRPSEISGGMKQRVGIARALAMEPKILLLDEPFGALDALTRAHLQDA
+VMEIHARLGNTMVMITHDVDEAVLLSDRIVMMTNGPAARIGEVLSVPIPRPRDRIALAAD
+RTYLKCREAVLKFLYERHRFVEAAE
+>tr|A0A1Q9AIZ9|A0A1Q9AIZ9_9RHIZ
+MQVIETRSEGLKRELKVVIPAADMAARMVERLEEVKGKVRINGFRPGKVPFAHMKKMYGK
+SVMAELVNDLVRDKPSEILSGRGEKSATQPEVGMTEDQAEAEKILNAEADFEFTLNYEVI
+PSIELKDVSGISVTREVVAIDDKEVEEQILKIAENARTFEDKDGAAENGDRVTIDYLGKL
+DGEAFDGGKDEDAELVLGSNRFIPGFEEQLVGLKAGDEKVITVTFPADYPAANLAGKDAT
+FDIKVKTVAAPGAVEINDELASKLGLESADKLREVVRSQIEGQFGQITRQKVKRQLLDQL
+DALYSFETPERLVDAEFDNIWRQINTDLEQAGKTFADEDTTEEEARAEYRKLAERRVRLG
+LVLSEIGEKAEIQVSDEEMQRSLFEQLRQFPGQERQIIEYFQKTPGAAASLRAPIFEEKV
+VDHLLGQISVTDKTVSKDELTAEDEDDLLSAKKAAKTKAAKAEGEDAAQSEEATSSEEAP
+APKKKAASKKKSAEDDAAAE
+>tr|A0A1Q9ALR4|A0A1Q9ALR4_9RHIZ
+MTTVHAKGSVTRIFPPRTDSSKIAADRALTVVLGSLEDSKAEDIVTIDIAGKSALADYMI
+VVSGRSNRHVGAIADHLLTDLKEAGLGTARVEGLEASDWVLIDNGDVIIHIFRPEIREFY
+NIERMWSEPDIEDGTVH
+>tr|A0A1Q9AN78|A0A1Q9AN78_9RHIZ
+MSTFVQKPAEVEKKWIVIDAEGLVVGRLASIIANRLRGKHKPTFTPHVDDGDNVIVINAE
+KAVLTGKKYTDKKYYWHTGYPGGIKERTARQIIEGRFPERVIEKAVERMVPRGPLGRRQM
+KNLRVYAGTNHPHEAQQPTVLDVAKLNSKNVRSA
+>tr|A0A1Q9AF15|A0A1Q9AF15_9RHIZ
+MEMLFGTPRSRREAPRVYDDGLGVETRPAPQRRRPKPAAKAKPRPTPSVTVIETQPVVEK
+AADAKTVLVTGDFVASSLADGLTEAFAEAAGLRVESRTDGSSGLVRDDHFDWLAEFPAAI
+QAVKPQLIVISLGANDRQMLRFGEAREKFRSEGWTAEYTRRVDRLARQAQAAKVPVLWVG
+MPPFPSSMMSADMVTLNALYRSAAERVGAEFVDVWDGFADEEGKFVMTGADINGQQVRLR
+GQEGINFTPAGKRRLAFYLEDDIRRLLGIDQGEGGGVLNEKLVPAPAGNEAILRTAPIAL
+TDPELDGGSTLLGGLPVAVKDGKSPRDLLVEKGEMAPAPAGRVDDFRLSSPAIATTPAPA
+PSQPTPQADAQGDTETPAATPLDKAALRP
+>tr|A0A1Q9AG33|A0A1Q9AG33_9RHIZ
+MGGHAAGPDGEREPTRRDFLFLTTGMAGAVGVAAVAWPFIDQMRPDASTLALASIEVDVS
+SLQPGMSLTAKWRGKPIFIRNRTPEEIEEANAVALAQLKDPVARNANLPADAQATDIDRS
+AGKGKENWIVMIGSCTHLGCVPLGQAGDFGGWFCPCHGSHYDTAGRIRKGPAPQNLAVPT
+FSFVSDTVIKIG
+>tr|A0A1Q9AM15|A0A1Q9AM15_9RHIZ
+MAQMKELQIETHNLARDWEVLLENILSQKEIGDAALLKPDEGPSSQEEWQSYRLVPDLRF
+QPKGMKFKAAVDIKMFRWQNEWRRRVRDATSHMREILATSDFERGIIILTLELPDHTLAH
+LVSPADSGIEIWDISKLRELVEGNEELSNELEELVAETILDDRTPLPVRVAHEVRQGSLL
+ATRLRQSAPGSGGWREFELLSEEAIRLLFGRELLNLTAQLRTDDGLNRMDLVGRIKSEGS
+SFWSMIASDFSTRYIVFDAKNFEEPITQSEIQITEKYLFAKGLRTVAVVIARNGADRNAW
+KLAETQLRENGKFIMVITLADLCSMLEGADAGDPPENLLFQRMDEMLMRMGR
+>tr|A0A1Q9AND7|A0A1Q9AND7_9RHIZ
+MCGFVYMMSDKPRGVIYTGVTSDLQGRIWEHRNEVREGFTSKYQAKNLIWFERHPNIVLA
+IQCEKSLKRYRREWKIRLIEELNPTWLDLYEEIDRIDNPYMPHRNTTRWNDYN
+>tr|A0A1Q9APS1|A0A1Q9APS1_9RHIZ
+MKPDSPAEFQCFATFLLDELTILRMSGRSMRLLVQDKASEGGQGLSAPAFPDRRNLQARA
+FAADTVP
+>tr|A0A1Q9AQA0|A0A1Q9AQA0_9RHIZ
+MSKVINKHAALQDLLANAVEDDKQRGVFRCRRDIFTNPDLFELEMKYIFESNWVYLAHES
+QIPDINDYYTTSIGRQPVVITRDKTGALNAVINACAHRGAMLCRRKHGNKGSFTCPFHGW
+TFSNTGKLLKVKDEKTTQYPEQFGKDGSHDLTKIACFQNYRGFLFGSLNPDVAPLEDFLG
+ETKVIIDQIVDQAPEGLEVLRGNSSYIYDGNWKLQMENGCDGYHVSSVHWNYAATMGRRK
+EEGTKAVDANSWSRSTAGVYGFDNGHILLWTNTMNPEVRPVYNRREEIRERLGSDKADFI
+VNQTRNLCIYPNAFLMDQFSTQIRVTRPISVDKTEINIFCFAPKAESAADRTLRIRQYED
+FFNVSGMGTADDLEEFRACQSGYAGTAALWNDLSRGAPLWIEGPDENASRMGLKPLLSGE
+RSEDEGLFVRQHEYWASVMRQALALEQEGAAA
+>tr|A0A1Q9AF56|A0A1Q9AF56_9RHIZ
+MTETAPFILFRDDAADTTLVFAEPVEIVTVWTPEDFERGFARLQAAHERGLWIAGLMGYE
+AGHLFEAKLAPLAKGGRETPLFSFGLFETPLTDHPLAMPRQRVENEPFLAEPQAAWDLAA
+YRRRFDRLHRHLAEGDCYQANLTMPIMARWSGDPLAAFWSLTARQPVRYGAFVALEGPMV
+LSRSPELFFKVDADGMIETHPMKGTARRGASAAEDEAIVAALVDDPKTQAENRMIVDLLR
+NDISRITEVGTLEVPALFAVETYPTVHQLVSHVRAKLVPGLTLRDIFAALFPCGSVTGAP
+KMRAMEILATLEVGPREAYCGAIGWIAPDGTMRFNVAIRTITLFDDGQARFHVGGGIVFD
+STAEAEYEECLLKARFALGDSPIAALSPDTAPDTGPDTGGDAP
+>tr|A0A1Q9AEL1|A0A1Q9AEL1_9RHIZ
+MNGHELVSSSPRQSKTSATDVNHFVLTFENNRFASALFGQFDENLKLIEQTLHVEARPRG
+NSVAISGDVVATNQARRALDYLYGRVQKGGSIEASDVEGAIRMAIAADDQLQLPTMEKKA
+KLNLAQITTRKKTIAARTPTQDAYIRALERSELVFGVGPAGTGKTYLAVAYAAQLLERGV
+VDRIILSRPAVEAGERLGFLPGDMKEKVDPYLRPLYDALYDMMPGDKVERAITAGVIEIA
+PLAFMRGRTLANAAVILDEAQNTTTMQMKMFLTRLGENGRMIVTGDPSQVDLPRGVTSGL
+VEALQILREVEGVSVIRFKDADVVRHPMVARIVRAYEAQTAVPDASLSPSPRNG
+>tr|A0A1Q9AP47|A0A1Q9AP47_9RHIZ
+MSIEHWLAFVAASAVVLAIPGPTILLVISYALSHGRRAATATVAGVALGDFTAMTASMLG
+LGALLSTSAALFTALKWVGAAYLIYMGIKLWRAPVRDPGQADGSEGAAAMRPWSIFAHAY
+VITALNPKSILFFVAFLPQFLDTRQPLALQMLIFEATFLVLASLNAALYGLTASAARRSI
+RKPSVQRIVNRTGGSLMIGAGLLAAGWRKAAS
+>tr|A0A1Q9AJD1|A0A1Q9AJD1_9RHIZ
+MLDAQTRLHDTPATGGAAPAAPAIPHPPLMTVADAKAMSVADMNSLFKDHINPGQLHFMK
+LLGFNKIKVERAEGMYYIDQNGRKILDFFGGFGSLAVGHNHPRLIAQRKAFQDEGRHEIA
+IAFMSQYAAALAKNLAAISPGDLDMVFLGSTGSEAMEAAVKVAERAAGPKRPKIVYAENS
+FHGKTKGVLSITDSPLYRGEFRLVDRTVRVPFADIDAIRNAFESDPEIGVIVLETIQGGG
+GIITAPPEFWQELRRLCDKHGVIWVADEVQCGVGRSGRFYAFEHAGVVPDVTALAKSLGG
+GKTAMAAMIARREIYMKAYGSPKTAMIHAQATFGGIGEACITAIEALNILYDEKLIENSA
+VQGAYLLERLQGLQAKYPKIIKEVRGQGLMIGLEFHDFSQTLPLVLRPVVSMLDDKLKGS
+LSGFIGALLLRDYATLVAFTEYNRNVIRLEPPLICGREHVDQFVEALDDLLNRGIIRIVK
+DFVGSQIG
+>tr|A0A1Q9AL25|A0A1Q9AL25_9RHIZ
+MIIGIGSDLIDIRRIEKSLDRFGERFATRCFTEIEIAKSERRANRAASYAKRFAAKEACS
+KALGTGLAQGVFWKDMGVVNLPSGKPTMALTGGAAQKLAELTPPGHRAAVHLTITDDFPL
+AQAFVIIEALPVAERDGSE
+>tr|A0A1Q9AN32|A0A1Q9AN32_9RHIZ
+MDIHDRRERFEVRGLREQEIVDLLALYRHLDPQDAETRPADALARWRALKTLAGSDILVG
+CLEGRLVASCTMVLVPNITRGGRSYALIENVVTDGAYRQRGFGRAVLHATAERAWEAGCY
+KVMLMTGSKRPEVHRFYERAGFVQNKTGFQMRRLERRSE
+>tr|A0A1Q9ANW2|A0A1Q9ANW2_9RHIZ
+MSPPRTAQGVLDRLRLTRRASLLQQHRLCLVHAPAGSGKTTLLAQWHAALDAAGVNTVWY
+SSSETDRDPLGFADGLLQAVAASARRSGASIAPQEQTDALTRLVTLMARCAALSPLALFV
+DDYHLAEAGDGGETIHSILAARIPQLTIILASRNRPSIPIGRLRVSGEILEVPVDDLFFD
+EVETQAFFEASSGLSLTAEQSRQMHSYTEGWPAGVRLASLVLGRLPGAFSVTPPTGSHRA
+FAEYFLEEVILGLPERVYRFLTRTSILDALNASLCDAVTGDTDGTEILSFLEEAQLFVVA
+LPGSQRWHKYHHLFQEFLQARLYAESGNDLAELHSRAARWFIDNGSPMDAVRHAFLARRP
+DWAAEMIESYCLFDYLSHGRFEVFSRWMQQLPRDAQEERPLLLFLQVWRSINMRRFLQAE
+QTLRTITTLASDRDSGISVIARETGLDIEGRLHLMRALIGAYGGDLAAGLDHIAALEGRT
+LDRLAFGQVDLDSIHSYLALQTGSLELAEKLTFRAKGIYDETAVHWGGLHSRSIAAMCYI
+ARGLMRDADIIATDALQIARSHFGEHSYMVALPSVLLGLVAFDRGDFDKAEELWLRAMPA
+EANTDVSGLCERMLVATVGLARVYDATGRCDEATNLLVRASRRAYETEDFRLEFQLAIER
+ADRCFRLGNPAEGLREWERLSLHLPEAQRRFPPSIWQVWEAYQVLKLRVLMERGQQEVAL
+KSLVDVVERALREGRLLSAVQVHRLLATVSDVDLSVPAMQPHPELGRLTDIYLDITRIVD
+APSTANRRRSISPDASGWGLTSREEEVLELMRWGLSNKEIGVRLAINLNTVKSHTRSLFH
+KLGVKSRTQAVLLAIEN
+>tr|A0A1Q9ADY7|A0A1Q9ADY7_9RHIZ
+MQRADATPLFLLTGFLGAGKTTLLNRILADPRFADSAVIINEFGAVPVDHDLVRHGAQRV
+TITASGCLCCTVQGDLRGALFALQEERAKGSGAAFSRVIVETTGLADPAPVVAGLIPGTL
+PAFGLRDHVVARRFRLARVIAAFDLEHGAGPLENHFECWKQLAFADEIVLTKGGRAAADP
+WLAELAALNPAAGLHVAAEADFDLAALLRDGAYQAASKPEDVAGWLALEARATGEGGALS
+ASHAAPSSPSLPGDRHGGIVSLSLTHDGPLDRNGFSAFLHVLATGQRGEMALLRAKGIVA
+YSDAPDRPEVVHMVGQKLCPALPLDRWPSADRRSRLVLIGRALREEPLRKLFAVTRR
+>tr|A0A1Q9AMV7|A0A1Q9AMV7_9RHIZ
+MAEPASTIAFDAPPCDGARTPSQARPIDLDHLARQTMGDKSLEIEVLQLFARQARQVVKE
+LAGCDPARFPFLAHQLKGAALAVGAQQVVAATRALEEGPVGAEALATLHARVLDCELFIL
+KLCR
+>tr|A0A1Q9ALJ3|A0A1Q9ALJ3_9RHIZ
+MKEIRERKRRRRAGWAVFLSALLLVSLAIGLTVLLAQDMRNLKLLMQRFGLDPQKVFAQI
+ESLTTTPAEPPAFPLLEKTARLPAPRVQLPARLMGELNAPEQSFVRRILDPPAGLCEAFD
+KAGFSPMVWAPSASGLGGLGAAGFECSVIVPVGEPPAPSTAPPARDENGEEIVDDGPQQS
+SVFVYVHGPRMDAFDTFRIKMNIENPADREAVLALASKAAALFFKQVQWEDAGEIARRIL
+KAEIFDQRDFGSRLQLRKEFGETPRYNFLAAEARRPQARTPYERFFDREQWLPLARTSPL
+FETGTVDLRALTGPVPTDTKAR
+>tr|A0A1Q9AN09|A0A1Q9AN09_9RHIZ
+MLLFVALDSADLHILRVAQRVTGDGHDIPAATIRRRYEICFEKLAKALPLCDIGVLFDNS
+GQQPVKKLELQGSMLQHAVLDETRMLDRRFASAVEMAHPDLRESLFAGHGQ
+>tr|A0A1Q9AFF5|A0A1Q9AFF5_9RHIZ
+MIAVDTNVLLRFLVDDDPEQNRLARDFMAARTIEDPAYVSALVLAETVWLLRKRLGYPWA
+SILNLLRALLAAAELVIEHAEDLDLLVEKAETLRADLSDHLIVWAARKAGCRKTVTFDRE
+AAGTIAGMELLT
+>tr|A0A1Q9AJQ1|A0A1Q9AJQ1_9RHIZ
+MTVQAAQPDAGSATKLALPASMSIREAVNTRELILAALQESGAILLDLPEDAQVDLSFIQ
+IIEASRRHALSQGGSVALAQPARGSLLSTLERAGLLTEMAAEDQLFWLHRKEAA
+>tr|A0A1Q9AQ38|A0A1Q9AQ38_9RHIZ
+MAEANPHAPLERHDLGTRTDAPILDARHVAVRFKVEGGEVAAVKNVSFQLYRGETIAIVG
+ESGSGKSVTARTIMGLLGKRARVEGDATIAFNGENVLAFSERRRRSLRGNRISMIFQEPM
+SSLNPVYTIGSQIVEAIRVHQRLSGAQARARALDLLKKVQIPDPEARLDQYPHQLSGGQR
+QRIMIAMALANDPDILIADEPTTALDVTVQAQILNLIRDLQKSLGMAVILITHDLTVVRQ
+FSDYVYVMSQGEVREHNTTEALFAAPQHPYTRHLLGSEPRGRANPLPEGAAPVLEGRDVR
+VAFMLKHGGFFRPRFKPLVAVDNLSLMLRRGETLGLVGESGSGKTTFGQALVKLMRADGG
+EILFDGVPIQDRTREEMRPLRSRMQIVFQDPFSSLNPRMSIGQIIEEGLIVNGLGATKEE
+RHARVRKALEDAGLPGNILQRFPHEFSGGQRQRIAIARAVALEPEFILLDEPTSALDLSV
+QAQIIELLRKLQAERGLSYLFISHDLKVVRALCHRVVVMQHGKIVEEGPVEEILSRPKTA
+YTERLVRAAFEVAA
+>tr|A0A1Q9AFT3|A0A1Q9AFT3_9RHIZ
+MAEIKDPENTLIMETTKGRVVIELRPDLAPGHVARIKELVGEGAYDGVVFHRVIEDFMAQ
+TGDVQFGKQGGASFNPARAGMGGSDKPDLKAEFSAESHVRGTCSMARSQSPNSANSQFFI
+CFTDAPWLNRQYTVWGKVIDGMDNIDKIKRGEPVKDPDSIVSIKLASAA
+>tr|A0A1Q9AKD1|A0A1Q9AKD1_9RHIZ
+MGADFPTKPRAGERLSGLFERLAEQHGATTAVIGPDRSWTYAEMDAQANRFARLLVARGV
+RPGHRVALLLGRSAETYIAILGVMKAGAAFVPLAPAFPPERMALIVEDAGVSTVVTIADY
+AGRAAELSVPHLVIDANGPELAAESDRPLDLATIGDDLCYILYTSGTTGRPKGVAVRHES
+ICNFVRVAAASYGYRPGDRVYQGMTIAFDFSSEEIWVPFAAGATVVPASGPMTLVGEELS
+DFLRAHAITCMACSPTLLSSIESDVPSLRTILVGGEACPQSLVARWAAPGRQILNTYGPT
+EATVTATMTELAPERPVTIGRPLPTYSIVLLDPAAPKLVEAGEFGEIGIAGIGLAVGYLN
+RADLTAEKFIEDFIGLPNNPSKRIYRTGDLGRINEAGEIEYHGRTDMQVKIRGYRIELGE
+IEAALLDQPGIAQAAVTTWEIEPGRVELVGYYALKSGCQPVARATLAQELRRRLPDYMVP
+AFLEELPALPMTVSDKIDLRKLPKPSSLRIETVRREILPSTDDERFMAEVLAEVLKMEAI
+YAEDHFFDDLGANSLLMARFCARLRTRKGWATTSMRDIYMHPTIAALARHLRGPEEAVEA
+VAEPVLTHRASNFAYWACGAGQLAFYGVYSYLALWFLNTGLNWVYEALDEPLNLYLRCAG
+LSAAAFFGLSGFSVAMKWLLIGRWKPESIPIWSLGYYRFWVVKTLIRAAPVVLFRGSPLY
+TLYLRLLGAKLGRDAVIECRAVPVCTDMITIGDHTILRKESLILGYHARAGMIHIGPITI
+GRDAFVGVGSVIDIDTEMGDRAQLGHASSLQRGQSIPADAHWHGSPAVPTTADYCALPQM
+TLSKTRHVIYEAIQLFTLFAVVTPLPLLFHSFWENVSDNYDETIGIVAIGTTVTLFAVIV
+LGLFAALGLPRLFRILLKPGETHRLYGLHFWLQSVIEVCTNFRFLNVLFGDSSAIVHYIR
+ALGWNLNTVVQTGSNFGSNQQQDHPLMCEIGSGTMVSDGLYMINMQKSASAFRLEHTKVG
+ERNYFGNNIFFPPGGRTGENVLLGTKVMVPVDGPLRENVGLLGSPPFEIPRMVKRDKDLI
+QGVSDEERRARLPHKNRHNFVTMSLYLVVQWVALFVTLAILDRALNYYTEWGATALFGEV
+VLTATLTILFYIIVERASLGFRRLKPRTTTIYDRDFWQHERHWKLADSPIVQLFAGTPFR
+PMILRALGVKVGRRVFDNGANLTERSLVEIGDDATLNEGCVIQAHSLEEGAFKSDYIRIG
+NGCTLSPSAFVHYGVVMGDGSVADTDSFVMKGEMLEENTVWRGNPAKLHRFVAPVEA
+>tr|A0A1Q9AFD9|A0A1Q9AFD9_9RHIZ
+MAPKIGWSGVFPAVTTQFKPDLSLDIDATKKVLDGLVRDGVSGLIVCGTVGENTSLTRSE
+KVAVMEAAKDAAKGRVPVICGVAEFTTQGAAEVAGEAARVGLDGVMVMPALVYSSKPHET
+AAHFRGVAKATDLPVMVYNNPPIYKNDVTPDILASLADCETIVCFKDSSGDTRRFTDVKN
+MVGDRFVMFAGLDDVVVESVMLGAVGWISGMSNAFPREGETLFRLAKAGRYAEALELYAW
+FMPLLHLDARPDLVQCIKLCEEIMGRGTALTRPPRLALSEAERAEVQAIMDHALKNRPAL
+PDVGLTPAA
+>tr|A0A1Q9AH90|A0A1Q9AH90_9RHIZ
+MQSLAISLLTICGIEELPAKAQARVSHVLSIVDPDLPDIEAFSAFDPHHRVILRFNDIID
+PRPGMIMPQEKDVADIIAFGEGLVTDKDQRVDGHLLVHCHMGVSRSTAAMTTLMAQADPE
+TEEDAIFARLREIRPQAWPNSVMIAMADEALGRKGRLTEALRRHYGIQLKNQPDYGDWIS
+SLGRAREVDMAL
+>tr|A0A1Q9AGX2|A0A1Q9AGX2_9RHIZ
+MNWDDLRHFGALVQAGSLSEAARRLNVEHATVARRIAALEAELTLTLVDRRGRRWVPTAD
+GLRIAEIARRMETEAQAIRRAAQGAQRALMGTVTISAPPALGAARLAAPMVALQNTHPGL
+TIRLIGEVRSASLARAEADMAIRLSRPQEGDLTITRIGRMGFRLYAAPSFLAAHGPEEWR
+FIGNDGALTATPQQEALETAAAGRPITITASSVEIQHAVVRAAGGIALLPDFLGAEDPAL
+IPVPPGKEMLSRDIFLLVHSELRRAAPIQAVASAIKTAFRQAPSGGNEEDGPSEDGSASD
+RQS
+>tr|A0A1Q9AJ14|A0A1Q9AJ14_9RHIZ
+MLDKTYDSAAVEPRIAKLWDDNNAFRAGAGASEGADPFCIVIPPPNVTGSLHMGHALNNT
+LQDVLVRFERMRGKDVLWQPGMDHAGIATQMVVERQLMERQLPGRRAMGREAFVDKVWEW
+KAESGGLIFNQLKRLGASCDWSRERFTMDEGLSKAVLEVFVTLYKEGLIYRGKRLVNWDP
+QFETAISDIEVENRETDGHMWHFKYPLAGGETYTYVEKDADGNVTFQEERDYIAIATTRP
+ETMLGDGAVAVHPSDARYQPIVGKLCEIPVGPKAHRRLIPIITDEYPDPTFGSGAVKITG
+AHDFNDYQVAKRNNIPLYRLMDTQAQMRADGEDYATYAAQAQEIARSGRLPSEAEIDEIN
+LVPEDYRGLDRYEARKRIVAAINAEGLAVTVKDGEGNDIAYVENKKIMQPFGDRSNVVIE
+PMLTDQWFVDAKTLAEPAIASVREGRTNFVPKNWEKTYFEWMENIQPWCVSRQLWWGHQI
+PAWYGPDGQVFVEKTEEEALDAAVQHYLAHEGPWKAWVQEKLENFQPGEILTRDEDVLDT
+WFSSALWPFSTLGWPDQTRELDRYYQTDVLVTGFDIIFFWVARMMMMGLHFMKDQDGNPY
+EPFHTVYVHALVRDKNGQKMSKSKGNVINPLDLIDEYGADALRFTLAIMAAQGRDVKLDP
+ARIAGYRNFGTKLWNATRFAEMNGVASDPAFVPEGAVLTINQWILTELSRTVAEVTEALE
+TYRFNEAAGSLYRFVWNQFCDWYLELLKPVFAGEDEAAKKEAQACVAYVLNAVYRLLHPF
+MPFMTEELWAATAGEGVERETLLCHAAWPQAGFANAHAADEINWLIDLVTGIRSVRSEMN
+VPPAAMAPLVVIGANALTAERLARHDAAIRRLARIETIAVAETAPRGSAQVVVGEAIFCL
+PLGNLIDLKAESARLTKALDKVEAERQRILGKLSNEKFVANAKPEVVEAERERLAELDGQ
+AASLKLALSRLAEAV
+>tr|A0A1Q9AFJ1|A0A1Q9AFJ1_9RHIZ
+MTDAARTTIDQSEVDRFSALAAEWWNPHGKFKPLHKFNPVRLAYIRDKASEAFGRDAKAP
+RPLEGLRLLDIGCGGGLLSEPMARMGASVVGADASEKNIKIAQTHAAGSGVSVDYRAVTA
+EALAEAGETFDIILNMEVVEHVSDVPFFLSTCASMLRPGGLMFVATINRTMKAAALAIFA
+AENVLRWLPRGTHQYDKLVRPEELEAPLAASGLTISDRTGVFFNPFANHWALSKDMDVNY
+MIIARRPA
+>tr|A0A1Q9AC61|A0A1Q9AC61_9RHIZ
+MSSQIDDPVAATGRQGGSSAVFDPAGGANQIRVRAYNERLVLSLVRLHGELSKAEIARRT
+GLSAQTVSVIMRALEGEGLLLRGPAVRGRVGQPSIPMRLNPDAVLSFGVKIGRRSADLVL
+MDFVGTIRQKLRQTYAYPQPEVIADFVQSAIEAMETGLDDRQRRSIAGVGIAAPFELWNW
+AHEVGAPDGAMECWRHVDLQLMISQRLDHPVYLQNDATAACGAELVFGVGPAYPDFVYFF
+IGSFLGGGVVINSAVFSGRTGTAGALGPLPVRGPKGENRQLLEVASIFVLEKMLRAEGID
+PEPLWYSADDWIDFGAPMTAWINEAGKALAQAVVAAASVIDFSAAVIDGGFPAWVRKRLV
+EATIQETVRLDLQGVLLPEIVEGAVGPHARAIGGASLPIFSRYLIDTNVLFKDPI
+>tr|A0A1Q9AH36|A0A1Q9AH36_9RHIZ
+MTLGKRTFLLLFPTVLFGYMLAAVLVYNAQSRAMLALEQARLSQKLDHAAALFANTVSQA
+RNFYYTIAESDAVHQFVSEPDAAYRSRSLGMRLQQSIRQLLDDPKVFLSFTVLRPDMEEA
+YYFENSNNPFAELSPQQIELGRKLQEGGEVRTFAYLADAPTQPIIVYSALLDPITLTRPI
+PSARSQALLMQVGTEPKEFLRLVRQIETDYGSRAVFSDEAPPKVADTLSSVQLPTGQYLS
+VTIAPQHISAAMRRLKWLLVTGVLAMAFVSIGLTLLLMRRFVIRPITALDQEVTRVMNGE
+IDAIGETGATVEVGRLTRNIRALHEQSQQSMNLIQRASWTDSLTGISNRSHFQTLAAKAI
+ERAMTYGGHCSLLFIDIDNFKFVNDKYGHGVGDELLRHLARSISEAVSRITVARALPPPI
+LARLSGDEFAVMILAPPGEGATRAACDAILDLFEGGFLLRDKSYPVTASIGVALCPHDAQ
+SLNELVANADAAMYQAKTSGKNRSSRFSRVLQDKRDRVRQIREELQQIDPDDEFHLVYMP
+VVDPDGKVMGCEALLRWTSPILGRVGPDEFVPIAETSGLFSKIDHWVIDRAIRDHAALAG
+LFGSDTILAINISSAELHQDDIADRFIEAVARHGVDPHLIEIELTETYSVSLSATAERVL
+SRLAGKGFGISIDDFGAGYNSLQQLIDYRADAIKLDRGIVEKLAGTGQIEALTALIALCH
+AREMSVVAEGVDTHEKFSALRHAGCDLFQGYLISRPLVLTELAAWALTRSSSYGIIATEP
+QAPLLIA
+>tr|A0A1Q9AEM5|A0A1Q9AEM5_9RHIZ
+MAALDGILETALYAEDLDAAAAFYGGLLGLDEIARVAGRHVFFRCGPSVLLIFNPEATIR
+PPSPEVALAAPPHGAKGPGHACFRASPPVLDAWRARLIDKGVPIETEITWPNGARSLYFR
+DPAGNSLEIAEPKLWDLG
+>tr|A0A1Q9AKP0|A0A1Q9AKP0_9RHIZ
+MVESEAQGRLPGIAPVSVVDIGSNSVRLVVYEGLNRNPAVLFNEKVMCGLGKGIDATGRM
+DEASVERAIAALHRFRALSVQARARTTFVLATAAARDASNGPDFIRRAEAILHHSVRVLS
+GEEEAYYSALGVISGYHDPDGIVGDLGGGSLELVEVKGPAIGKGITLPLGGIRLSEHSGG
+SVTKARSYARRHFKDADVLKVGEGRTFYAVGGTWRAIAKLHMELRGYPLHMMQGYEIPFA
+EAMSFLSEVAESKDSKEPAYAAISKSRRLLIPFGAVTLQEAIAAAKPALVSFSALGVREG
+YLYALLSESMQKEDPLLAAAEELAILRARSPEHARELAAWTGPAMQALGLDETDEESRYR
+QAACLLADISWRAHPDYRGLQALNIIAHSTFSGISHAGRAYIALANYYRFEGVRDDDATG
+PLAMIATPRMMQRARVLGALLRVLYLFSASMPGVVRELRLEPSAKEEGAVDWIVPAGLQD
+FAGERLDGRLQQLAKLTGKKITLQFQ
+>tr|A0A1Q9AL89|A0A1Q9AL89_9RHIZ
+MPPIIDARTVSKVFRQRQSTGGFSGALRGFFAPVTKEVRAVEEISFAIEAGEAVGYLGPN
+GAGKSTMIKMMTGILAPSSGSLSVLGRRPIEERIANAREIGVVFGQRSQLWWDLPLNDSF
+DLARHIYRLPEAQFKASRAEMVAMLSLESFIDRPVRQLSLGQRMRAEIAMALLHAPKILF
+LDEPTIGLDVVAKDVVRKFLARINRERATTIILTTHDLQDIEEICPRLIMVDDGRLLFDG
+PLPALRTTFGARRRLTLDFSADPGELILDGARPLPSEGLRRDFEIADDERSLIDLIRALP
+AGAPLSDARLHEPGIEEVIRTHYQGRSA
+>tr|A0A1Q9AHE3|A0A1Q9AHE3_9RHIZ
+MPPVLRPARPDDIATILRFIRELAVYEEAGHEVEASAEDLAASLFSPGAVAHAILAEEQG
+QPVGFALWFYSFSTWQAKKGLYLEDLYVTPEARGSGAGRAMLQHLAKLALAEGCGRFEWS
+VLDWNEPAIRVYRRIGAEPLDEWTRYRLSGAALKAFAEG
+>tr|A0A1Q9AL07|A0A1Q9AL07_9RHIZ
+MAGMPTLRLYNTLTREKAPFAPIDACDVRMYVCGPTVYDFAHIGNARPVIVFDVLFRLLR
+HLFGADHVTYARNITDVDDKINARALRDHPDLPLNEAIRAVTEKTAARFAADTAALGALT
+PTHEPRATDNIAGMVTIIGALVARGHAYAAGGEVLFDTASMPTYGQLSRRPLDEQQAGAR
+VAVDAHKKNPADFVLWKLSSDNEPGWDSPWGRGRPGWHIECSAMSNRYLGEVFDIHGGGL
+DLIFPHHENEIAQSCCAFDTQAMANVWMHNGFVQVEGRKMSKSEGNFITIADLLDTERFG
+GRRWEGEVLRLAMLMTHYRQPIDFSVKRLEEARGLVRRWADAKLAILAAHPEAASAPFAL
+AQDSPVLDDLNLYPALTGLNGLASEAMKGDLAAASAFLGLLDLLGFESIERHAQATADLD
+LSLAGEGEWADVAEQVEARRQLLIAKNFAEADRIRDALSARGIQLKDGKDPQTGERVTSW
+EVKR
+>tr|A0A1Q9AC83|A0A1Q9AC83_9RHIZ
+MGCRILVVEDEVFVATEIEYVVEELGHHAVGIAPDKPTALKLAPYADVAFVDLNLLDGTT
+GPEIGRLLAEQHGLTVLFMTANPGLLGNGIPGTVGVLPKPVGEDQLKQAVEYTVALRKAQ
+AARAPRGLRVFN
+>tr|A0A1Q9AK07|A0A1Q9AK07_9RHIZ
+MTWSNRDALKFAYWVPNVSGGLVISNIEQRTSWTIDYNRELARIAEKAGFDYALSQIRFT
+AGYGAEYQHESVSFSHALAAATTKLTVIAAILPGPWNPTLAAKQIATINHLTNGRIAVNV
+VSGWFRGEFKAIGEHWLDHDERYRRSEEFIRALRGIWTQDNFTFRGDFYRFDNYSLKPKP
+IDPQPEIFQGGSSRAARDMAVRVSDWYFTNGNTPEGLAKQVDDIREKAKENGHAVKIGVN
+AFAIVRETEEEARAVLNEIVEKANPEAVNAFGHEVKNAGKASPEGEGNWAKSSFEDLVQY
+NDGFRSNLIGTPRQVAERIVALKRAGADLILLGFLHFQEEVAYFGEHVIPLVRELEQQEA
+TAAIAAE
+>tr|A0A1Q9AP73|A0A1Q9AP73_9RHIZ
+MSFVADDGITIEPIREDHVEGFHKALDIVARERLYLTFLEAPPLESTRAFVRDNIASGHP
+QMVALAQGQVVGWCDIRRVDRPTRAHCGILGIGILPGFRDRGLGRRLILRTIAAGWEAGL
+SRIELECHHDNPRAAALYCKVGFREEGLARKAILIDGRFIDAIQMALLREEASAE
+>tr|A0A1Q9AJZ6|A0A1Q9AJZ6_9RHIZ
+MNSFIKAVGVGCLSLGLWCSTALAQDSWWKTAAQPYQGATIRGISESTPASKYVEQVLGP
+KFTQETGIKVEFEATSWDQMYDKAIKDMEANTGIYDFVYIEQDIVYTYLARNFLVDITKS
+LADNAKIASPDFKPENFTTFLNYFKDPKSGDVMGVPMEAFIKPYLYRKDLFDDPAIQKSY
+KDKTGADLKPATTHEEYTRIAKFFAEYGADKELWGTTVQASSSHPAAFYEFFESVAPTFG
+VYNWGIDGKTFAATEAHGGQMNSAASKKALNYWVDLLKYAPPESTSSTWDEVAGTFAAGR
+AAQGLVYGENAAWIATDESKSTVVGKVGVALPPVEAGVMEAAKAGKGYIGYYDGGAFGIP
+HSSKNKDASLLFLQYIGQTSVQTDWALAGSRIVMNSTYDDPKIVEQDKKVSGYYTLMRDD
+GKLFAGAPPFPFHAQVLQVVAPFIYKAIVGEIKPDDALDQAATAAEAELVKLGYRK
+>tr|A0A1Q9AN92|A0A1Q9AN92_9RHIZ
+MVRIIPIEPEQEPYRAPDLVWDGIAGDLAVNALTHPQAPGDLKAEQGLATQVLICLMTDV
+RVEASELPDGVENRGWVGDGFDLAQGESPMGSRLWLLRRRPIFDGIETVVEDYVRMALQP
+LLDQGVAVSLDVTVTADRPRNRVDYAVAIKGRSGALVYEQKFQLLWSQIDGVDHPLTR
+>tr|A0A1Q9AHJ1|A0A1Q9AHJ1_9RHIZ
+MAETGTRKKQRTGNVTSERDGLYDRELADLPPGLRWREWMLRVEAVIFASAEPVGRETLA
+RVVGKDCSIDLLIDDLQEELKDRPYELVSIAGGWQHRTRPRFAETIRASSAPTRGGAAAL
+SQFETMVLMAVGYFQPITRGELSKIFGKEVSRDVIGSLRGAGFIGSGPRSPTPGAPYTYV
+TTPHFLSAFGLQSLRDLPDMEALEDAGLVSRQIVQNEQLAPETEADEE
+>tr|A0A1Q9AN18|A0A1Q9AN18_9RHIZ
+MISFARHGRMLAAALVLTTALGAGARAQDVTDAQLKAARAAIAAIGATNNFDNILPNLAE
+RLKQGLIQSSPNYEALINKTVDEKALALAARRADLEREAATIYAKTFTVDELNAIAAFYS
+SAAGKKLLNDGPIATREMLKAADIWAAGVSRDLQTATSKALDKTLTPPAAAAKP
+>tr|A0A1Q9AKU1|A0A1Q9AKU1_9RHIZ
+MTNLNRTSVLVGLLAGVTAAFLSLGASSPSAFAIVLYAASALPVLIAGLGWGNAAAILSV
+LTAAAIGAIAVSPLFSLLILAVTLVPAAWLSHLANLGRPAEEIGGPAGALAWYPLSDILT
+QLAILVTLGMIVVGMVIGYDGAASDRMIDMLIDTLKESDPLYAPEPDALAQMKALFALVL
+PLVQGAIWVLMLFAAYYFASRVVQTSGRNLRPREDMPSALRMNRYAIFIFLAGLAMTFLG
+GMAAIIGALLCGTFGAGFVLSGFAAFHFRTCGKSWRLPALFFAYLSVLLFTVPLIFFLVS
+GLVDTRRAIALSPAGSPSKETD
+>tr|A0A1Q9AQL2|A0A1Q9AQL2_9RHIZ
+MPNHRTESLTAAAANSKRGSGGGDGGTSITVTIAGNAYGDGHLEKVIHQGVRSGLAAKSQ
+ADRRGGAGALYQSYQKQKA
+>tr|A0A1Q9AM97|A0A1Q9AM97_9RHIZ
+MIAVKSFAGQRVALFGLGGSGLATALVLKAGGADVVAWDDNPVSVDKAAGEGIATQDLRG
+ADWARFTALILSPGVPLTHPKPHWTVEAASAAGVPIIGDVELFCRERQSVAPDAPLIAIT
+GTNGKSTTTALIAHILSASGRDAQMGGNIGRAVLTLDPPAPGRVYVVECSSYQIDLAPGL
+NPTVGILLNLTPDHLDRHGSMEHYAAIKERLVAASGTAVIGVDDAWCEAIADRVALSGRS
+VIRIARHRPIGDGFYVEGSRIIRAEGGLPQLFVDLDGISTLRGTHNGQNACAAIAACLSI
+GVSPDEIRAGLASFPGLKHRMQPVGRRGGVVFVNDSKATNAEAAAPALSSFARIYWIAGG
+VPKEGGIESLRAFFPRIARAYLIGQAADAFAATIGDAIPVDRAGTLEAAVAHAAADATAA
+GEEAAVLLSPACASFDQYKNFELRGEAFVAHVATLEGVTMLI
+>tr|A0A1Q9AHE9|A0A1Q9AHE9_9RHIZ
+MTDHPETPDGRYFVVRGRLWRRSNPALDEAGRTNWVKALMTARRAVRDSKGDAAATAQAR
+QRVDAAKIALGERGPVWWQDGAPDFNRRMVRNTPYADWFAAQDVDDGGKG
+>tr|A0A1Q9AHM5|A0A1Q9AHM5_9RHIZ
+MTTVTEQTKPPAAAASGLRLLQETARRGAVFILLAALLVLFSIAQPAFLTIGNLMSILQA
+VAVVAIIGAGVTVTLAIGGFDLSVGAVAASSVMAASYAMIVLDLGAGATVALVLAFGALV
+GAFNAFLIVRLKIPDLLATLAVMFLLTGLQLIPTAGRSISAGLVLPDGSKATGKVDAAFL
+LIGRSSLGGLVPLPVLLMLLAALLLHVLTEHTRTGRLLFAIGGNEVAARLAGANTARLKA
+LAYVLSGTLASLGGIIVAARVGRGDVSSGASLLMDSVAASLIGFAVLGLRRPNVLGTAVG
+AVFVGVLLNGLTMLNAPYYTQDFVKGAVLVGALALTYGVSRSANA
+>tr|A0A1Q9AL96|A0A1Q9AL96_9RHIZ
+MPDRLLFRLAILGSALLLGAASSRAGETVPLGVVELFTSQGCASCPPADAALRKLVESGK
+VIALGYHIDYWNFRGWADTLATKENTARQYAYSRSFGKNGVYTPQAVLNGREHMNGGDLA
+GINRRLDEMQQDREGLDLAVAAIRRGDEIDIEVGAQAGGATAATKANVVAVYFAPQKVVT
+MHRGENNGRTISYMNAVRDVQTIGMWDGTHASFVLPATVLKEEDSGGVAILVQQMKDGDT
+PGPILGATVLTNATTQPSDMVQVKR
+>tr|A0A1Q9ADW7|A0A1Q9ADW7_9RHIZ
+MPSLNGPILIGIDSGLTVTKAVVFDAATGAALAIARRRVPQSIPAPGHIERDMDGLWAAS
+AAAIREALSACGRPAGDVLAVAATAHGDGIYLLDAAARPLGPAIVSLDTRAAALADHWND
+GAVADAALSLTGQRPHASAPSALLAWIKAHQPERYARIGHFFAAKDWLTFCLSGTIGTDR
+TEASTSFTRVDTQDYDDAAFALFGLEDMATRRPAAAGSVEIVGRVTAQAARACGLLEGTP
+VVAGLHDVTASALGIGGYGTGVAAVIAGTYSINETVSTVPKVDPRWFCRNGILPGEWNAM
+SISPASTANYDWFIDQLCAADSAAAISAGDSIHARLAVEFDRARARPSSVLFHPYLFGSP
+FGGASSAGFYGLNAWHERADLVRAVLEGIAFNHRIHVEALVDGFQPTSVRLTGGISRNPA
+IAGLFADVLGLPVTATATEEAAAWGAALCAGVGAGVYASPTADPRDLKAIETVTQPDPEA
+QAAYEERYQLFCEIARTMQPLWPKLRALGAPPLQPGSDEQGAAR
+>tr|A0A1Q9AHN7|A0A1Q9AHN7_9RHIZ
+MSLVREPVTSPATFTSSARAVFKRLIAVGQATRPQLCEDLNLSRPTLSAAMAELSRFDYV
+EVIGQAQGHTGRTAAIYQIGKGAGHTIAVDAGSTVIRYRVAYLDGRLLLAGTYALSSGQR
+HMSAEISRMVDQAISKALSAAAPDWGPLRAVGVAVPARVTGQSRLMQPGREILTFDGFSL
+PAGVPLVLENNVNCAAIAEYNYGAAIGRPDFAFVQVGLKIGMGMVLRGELIRGRNGAAGE
+VSHLPFPWSASETPQPETLEDYLGVEAFMARVRADWPDDDIPRDSVDLFDRASKGDAAAT
+AHIRRHGHDIGRLVSAGIAVIDPGFAVLGGGVGSLPLLLPYVREEVARLSYSTDIETSTL
+GADATLLGIGKLAAARAQTDLIDTVNG
+>tr|A0A1Q9AIV5|A0A1Q9AIV5_9RHIZ
+MRLGFVGTGTITEAIVTGLCTGGSDDRITVSPRNAERAAQLAAAFPEVSIASDNQTVVDA
+GADMLFLAIRPQVAEAVIRPLTFSPGQTVVSLVAAMDRESLLSWIGVDVTLVQAIPLPFV
+ARRDGVTAIYPGNEQVSALFDRLGRAVPCDRKEEYDVLAAASAIMGTTFGVMERLTGWMQ
+MQGMRDETARAYLAPLFSSLAQTALSSPDMSFTALREEFSTRGGLNEQVFRDFDTRGGTQ
+ALTEAMDRVLARIRTGIAPQD
+>tr|A0A1Q9ANT1|A0A1Q9ANT1_9RHIZ
+MAQIDIRAVRKSYGKTQTLHGVDLIFPTGEFVVILGPSGCGKSTLLRMIAGLEEITAGEI
+AIGGTVVNKLEPRERGCAMVFQNYALYPHMSVADNIGYALKVSGVPKAERRRRVEETAAI
+VGLTDYLDRRPAALSGGQRQRVAMGRAMIREPKVFLFDEPLSNLDAKLRVSMRAEIRKLH
+QRLNATSVFVTHDQVEAMTLADRLVVMNKGRVEQVGQPLDIYHRPASTFVAAFIGSPAMN
+LIDSRVEGGAVRLGSAVIPLAPAFAGLEGRTVTVGIRPEQVRLAAPGTGLVAIADFVEEL
+GAGRVVHAVMEGQPFAAAIGAEVRIAPGQPIAFDLPAEHLHLFDRETGRRIEIDGEPAQS
+RAAAATLAPALS
+>tr|A0A1Q9AK45|A0A1Q9AK45_9RHIZ
+MSTPLLEIAGVSKRFGANLANDDISLTLAKGEIVALLGENGAGKTTLMSILFGHYVPDAG
+TVSVDGAVLPPGKPRAAIRAGIGMVHQHFALAPNLTVLENIMTGTEPLWSLSARKGQARA
+KLAALSARFGLKVDPHARLGDLSVGEQQRVEILKALYNDARILVLDEPTAVLTRAEAEHL
+FATLKDMARQGLSLIFISHKLDEVMATADRIVVLRGGRKVAERRAAETSKAELAELMVGR
+TVVRPVREPATPGPVVLEAVGVTLRQSGVDRLKAVDFRLRAGEVLGIIGVSGNGQAELAR
+LLCGTARPTSGDLLLFGKPVGEPGVAGLVEAGIGRVPEDRNKEGAIGDMAVWENAVLERL
+PRFSRHGLVARKAGMAFAQDIIARFDVRGGGPSTRIRLLSGGNMQKLILGRNLIDRPQIL
+IAAQPARGLDEGAVAAVHERILEARRAGTAVLLISEDLEEVMALADRIQAITGGRLSPPI
+AAEAADTRTLGLMISGEWTAAKETAHAL
+>tr|A0A1Q9ALE3|A0A1Q9ALE3_9RHIZ
+MEDRMRRVDPKLLELLVCPLTKGRLSYHAETDELVSEKARLAYPIRDGIPIMLISEARKI
+EM
+>tr|A0A1Q9ALP6|A0A1Q9ALP6_9RHIZ
+MGEMTVRIDEKLLTRIESLARNHRRSLDQEVEDLLLTAVEGKVGPTASKESLYEASRRIA
+AMTPRDVIQTDSVDLLREDRNR
+>tr|A0A1Q9ANC2|A0A1Q9ANC2_9RHIZ
+MADLSSLKDLAATQQTETSAPVHVKKVDAQGRSYATGKRKNAVARVWVKPGSGKITVNGK
+PFTGYFARPVLQMILRQPIVAAARDGQFDIDATVAGGGLSGQAGAVRHGISKALTYFEPG
+LRGVLKKGGFLTRDARVVERKKYGKAKARRSFQFSKR
+>tr|A0A1Q9AIF0|A0A1Q9AIF0_9RHIZ
+MSGARAPGFAALKRFGEDWALTGRLAQMPPEGDWRIWLLMGGRGSGKTRAGSEWVHQHAC
+AARAPLRIALVAETLGDAREVMIDGVSGIIRIARRARPLFEPSRRRLVWPNGTIAQLFSS
+EDPESLRGPQFDLAWCDELGKWRHAQETFDMLQFALRLGANPRSLVTTTPRPTPLMKALM
+ADPDTVIARIRTADNQAHLSPGFLKAMAQRYGGTRLGRQELEGELIADREDALWSRSQLE
+ALRCRQPDALTRILVAVDPPAAAGRHSCCGIVVAGLNAAGQAVVLADASVESRSPAGWAR
+AAVEAYHRFSADRLVAEVNQGGDMVAALLKGIDAALPLTSVRATRGKWRRAEPVAALYEQ
+GRVLHAGAFAALEDQMCDFGPDGLSSGRSPDRLDALVWALTALLIDGQGLPRVRSL
+>tr|A0A1Q9ACK3|A0A1Q9ACK3_9RHIZ
+MDGVTVINHPLVQHKLTIMRKKDTSTASFRRLLREISTLLCYEVTRDLELKQETIETPMT
+TIEAPVLEGKKLVFASILRAGNGLLEGMLELVPSARVCHIGVYRDHDTLEAVEYYFKAPE
+SLAERLTIVVDPMLATGNSSIAAVEKLKERGARNLRFLCLLAAPEGVRNFQAAHPDVPIY
+TASIDSHLNDKGYIVPGLGDAGDRMYGTK
+>tr|A0A1Q9AQ57|A0A1Q9AQ57_9RHIZ
+MTSPSPVLYDYILSPSCYKARLMAALAGVRLALRPVDFHPGVEHRGPELLALNPAGSIPI
+LVAPDADGDLILTESAAILVYLASKAAPAFLGSGKPAESARIQQWLAFSARLTASLGGAR
+LHEMLHRPGDLAGLRASGIAALRELEAALFEQRLKGEAFLVGNRPTVADIACFPYVALAP
+DGGVSLDAYPSIRLWMRAVRALEGFIEMPGIHRLHELKPDPHEAPATAEA
+>tr|A0A1Q9AE05|A0A1Q9AE05_9RHIZ
+MDIRRVTIDGRAYVQIAEEDFEDLVDGLQTDVILARIAAGEETWPMELVEELIDTDSRIR
+TYRNLTVSELAAAAGISQPYLSEIEAVKKTGSVDVLKRIAGVLKVDLDDLVVERDAHQ
+>tr|A0A1Q9AHY1|A0A1Q9AHY1_9RHIZ
+MRLIVNGEAESLEVATLTELLSRLDYEGDWLATAVNGELVHREERAIFALTEGDRIEILS
+PMQGG
+>tr|A0A1Q9AKB4|A0A1Q9AKB4_9RHIZ
+MLQKTVLRAGAAALVLLPGAAFAHTGVGHASGFVHGFAHPVSGLDHILAMVMVGLFAARL
+GGRALWLLPITFVAVMALGGALGVAGVTVPFVETGIALSVLVLGAVVALNVKAPTAAAMG
+LVGLFAIFHGHAHGAEMPEDAGGLAYAAGFMLATALLHGAGLALGLSLGRFEGRKGALAV
+RSAGGLVAVAGVGLLAGVL
+>tr|A0A1Q9ALK0|A0A1Q9ALK0_9RHIZ
+MASVSSSAGASPAYRYVDHAYDVVVVGAGGAGLRATLGMAEQGLRTACITKVFPTRSHTV
+AAQGGIAASLTNMTPDCWQWHLYDTVKGSDWLGDVDAMQYLAMEAPKAVYELEHYGVPFS
+RNEEGKIYQRPFGGHMQNYGEGPPVQRTCAAADRTGHAILHTLYGQSLRNNAQFFIEYFA
+LDLIMSDDGRCTGVIAWCLDDGTIHRFSAKMVVLATGGYGRAYFSATSAHTCTGDGGGMI
+ARAGLPLQDMEFVQFHPTGIYGAGCLITEGARGEGGYLVNSEGERFMERYAPSAKDLASR
+DVVSRCMTLEIREGRGVGKGKDHIFLHLDHLDPAVLHERLPGISESARIFAGVDVTREPI
+PVLPTVHYNMGGIPTNFWGEVLNANSENPERLAPGLMAVGEAGCASVHGANRLGSNSLID
+LVVFGRAAAIRAGQVIDRNEAIPTLNTAACDRIMARFDGLRHAKGSTPTAVLREKMQRAM
+QEDAAVFRTQESLASGCQRLSAIWKEMPDIKVTDRSLIWNSDLVETLELHNLMANAITTV
+YGAEARKESRGSHAREDFTDGPFGGRDDVNWRKHTLAWVNDAGDVTLDYRPVHTELIADG
+IDPKKIEPKARVY
+>tr|A0A1Q9AQF9|A0A1Q9AQF9_9RHIZ
+MTSDITPDVPPRIRCEAIKSPSTSLNPVCHHSHGTVLRYPGPARHDPPIDDPAFLIGLAL
+GHVRQGDGLTGTVPDTVISRLQTQAERGNPACRLMLDWLAHRNRDLLASARPDPSQPHPT
+QHCLGRRRIRECRQAAPGSLKKHTSKKAGSSDPKTAIIAAMTEGRIDE
+>tr|A0A1Q9AIG9|A0A1Q9AIG9_9RHIZ
+MTVAASPHRLCDVTLDETIGRSTPDVEHERAVAIFDLLEENSFAPAGHPGGPYRLKLSLV
+EAKLIFSITTEDGAEVATHILSLTPFRRIVKDYFLICESYYQAIRSATPSQIEAIDMGRR
+GIHNEGSQTLMDRLQGKIAVDFDTARRLFTLVCVLYWKG
+>tr|A0A1Q9APL2|A0A1Q9APL2_9RHIZ
+MKGISFKIRLSRKVFILSLVGVVVLSSAGAGAAFYFGRSGDGIDEEAKTAAISGLDCSIL
+EVVKIHRNGQRFLRKYVTVNKGNGQERVRTALRVAGLMAKQEKADLYQVVILSDAGPQKR
+ADWRGTAIGAEALFAPDPTRVADMPQPIVASYRDGDVNEAGRFSGDEKALSFDDIRGIMT
+TMADPKDCIDPKAIAAAAAAAEAAAAAAAHGGGHGAAKPEGGGHGDSSGHGEAAAGEHGA
+PAEGGHGESGHGESAKGEAVTEGGHGDGAKDGEGHGGSPTASAESGGWFSSITGMIFGSK
+SADPAKAEEHAAAEGEAKSSGGLLDKVTGLFGMGSSSTPEPAAPAHDAPAGHDAPAGHEA
+ANGHDAAPEHAGAPQAANAATHDAPPDQEAKAAPAGAPEDAAHHGDGAVPAVHAPEAPAA
+ADPAPAAHEAGAAHEAGAAPAPEASGPSHEITGDSGSGAAAKPADEAAHRNSPGADATAD
+SGVTGH
+>tr|A0A1Q9ANX4|A0A1Q9ANX4_9RHIZ
+MKRIVEPETDEVYQELVAELAYTSVPTALMTFILLIVGVHAWSLLGQPLVLVAVILGVSA
+GFAKSVMLELHLRDLDRQAADLMRSRRWERRHAILSLIMALSVGVISSVIFMEPDLALQV
+VATCTVFGYSAGVASRVSVRPRIAIASIATASLPAILAMAWQGGEAHWLISFIFAAFLIA
+ASQSVMHVYSTTARHICIRQQMAKQAHRDALTGLANRRALYDAFDHPAGRENPSARAKAM
+TAIHCFDLDGFKSVNDRFGHLVGDELLIQIADRLKGLVRAPDLVVRAGGDEFILWQAGLT
+APEEAERMAQAVIGLLTVPYRLAGTELTIGISLGYALSARKDVDLKALISRADKASYRAK
+ARGGGIEQDSG
+>tr|A0A1Q9AE46|A0A1Q9AE46_9RHIZ
+MRVADYIMQRLEEAGIGHVFLVTGRGALFLTDALAKNTALTPISVHHEQSAAFAAVAYAH
+QREGIGACLVSTGCASTNAMTGVLCAWQDGVPCIFISGQNTLKETTRHTGLPLRTYGQQE
+ADIVSLVTPITKYATMITAPEQIVEAMDKALTLANSGRKGPVWIDVPLDLQSAQIDPAAI
+ARAEIVLERPAPSDEDIQAVLSALSSAERPVVLIGSGVRGAGAQKAFQRFVERHRLPVTF
+AASAPDTYGSGHDLSIGSVGAMGCSRAGNFAVQNADLVLVLGCRLTSLTTGPDFCKFARA
+AKTIVVDIDPAEHGKETIRIDRLVHADLAIFLDRLEAAEPASDAARHAGWVETCRRWKAL
+FAEVEPAFRHEEKVDLYELAERLPAHLPPRATLVTDSGLNEVILPSNMRFGAEMTCVHPA
+LQGAMGFALPATIGASFAGGSDAVVAVIGDGSIMMNLQELETIRFHALPVKIIVINNNVY
+SIIRRRQQDMFRKRVIGTDPETGVSCPDFSKVADCFGLAYLRIDHRDDLDQGLAAMMERA
+GPVLCEIMGRPDQEYIELGQARSLADRRFVRRPLEDQIPFLDRELFLREMIVEPIDQ
+>tr|A0A1Q9AJ71|A0A1Q9AJ71_9RHIZ
+MALPDFSMRQLLEAGVHFGHQTHRWNPKMKPYIFGERSNVHIIDLAQTVPMLSRALQVVS
+DTVARGGRVLFVGTKRQASDIIADAAKRSAQYYVNARWLGGMMTNWKTISNSIQRLRKLD
+EILASDAQGFTKKERLNLEREREKLNRALGGIRDMGGVPDLMFIIDTNKESIAIDEAKRL
+GIPVVAIIDSNCDPDQIDFPIPGNDDASRAISLYCDLISRAALDGIARQQGAAGRDLGAS
+ADLPLEPALEEGVEA
+>tr|A0A1Q9ACJ4|A0A1Q9ACJ4_9RHIZ
+MRSSTHCCHAATLYNDRTMTLTILRTAAWTALAAIIFVTVSPIGWRPHDVMPVNFDRALA
+FTIMSALFVAAYPRHSVAIGIALIVCAGLIELLQFFSPTRHPRFIDAFVKATGALVGVLI
+GSTYNMIERRGRTKSV
+>tr|A0A1Q9AJB3|A0A1Q9AJB3_9RHIZ
+MADRPVLTVGVVAGEVSGDLLGGDLIRALKRQTDRPVRLVGVGGEDLQREGLASLFDYSE
+LSIMGLSQVLARLPTLIRRIRQTADALIAARPDVLLIIDSPDFTHRVARRVRAALPGVPI
+IDYVCPSVWAWKEYRAPRMRGYVDHVLAVLPFEPEVMARLGGPKTSYVGHRLAQDAAVLA
+VRARQSARERERERDGEAKDAPRTCLLLPGSRGAEITRLLPEFQAAMLFLKERHPTMRFL
+LPTVPRQEARVRDLVANWPHKPEISVGAEAKWEAFAEADAALAASGTVILELGLCGIPVV
+STYRADWLIKLMHSRIRIWTGALPNLIADYPVVPEYFNESIRPGALARWIERLAFDTDQR
+RAMRVGFDLVMARMQTPVPPGEAGAAIVLAYAEGRSAGI
+>tr|A0A1Q9API1|A0A1Q9API1_9RHIZ
+MRLGALATVLCLLSYWAFAMPAPRWRNSMPPPPLPRADESGYAAVNGIHMFYEIFGKGRG
+DPILLIHGGMGSSDAWGFEVPELAKTHEVIIADSRGHGRSTRLRMTYTYDLMAEDYVALL
+DRLGIDKVALVGFSDGGIIGLDMAIHHPERLSKLFAQAANASPDGLFEVSSSVNGHDFTR
+DLDDEDDFRAFRAAIETMWRNEPNFSEDELKSITVPTEIVVGDHDEFIRPEHSRYLAETI
+PGAKLVILKNVSHLALAQDPAQYLHAIRKFIGS
+>tr|A0A1Q9AK97|A0A1Q9AK97_9RHIZ
+MLANSLIELDRAHLIHPVSSYRGHERQGVRVLKSAHGATVTEANGHQLVDGFAGLWCVNA
+GYGHDSIVEAATRQLRELPYATGYFDLGSEPAIRLAAELAERAPGDLNRVYFTLGGSDAV
+DSTIRFVRYYWNAKGQPQRDQFISIQQGYHGSSTVGAGLTALPAFHAGFGLPFDWQHKIP
+SPYPYRNPVGMDDAAITAASLAALKAKIEEIGADRVAAFYAEPIQGSGGVIVPPRGWIKA
+MRDLCKEHGILFIADEVITGFGRTGPLFACADEGIVPDLMTVAKGLTSGYVPMGAVFMSD
+GVYDVMAEGAGMAAIGHGYTYSAHPVSAAVGLEVLRLYEGGLLENGVKAGARLKEGLTSL
+ADHPLVGDIRGRGMLYGVELVTDKAKKTPLPAESQPARHIFDRAWDNGLVIRAFPQGVLG
+YAPPLCCTEADIDAIVERTRKTLDQTLEDPAIRQAMA
+>tr|A0A1Q9AN62|A0A1Q9AN62_9RHIZ
+MSELQLRIDTRLDHLEAAWRALEGGDHVSLHQGFDWCAAWVACFSPELALVSGRLEGRLL
+FILPLEIVSGRFFRIARFIGTPHSNGNTGLFAADWTQHLPDLGLRLAKALPDALKGRADL
+ILLDKVPALWGGQAQPLAALSTTRHQNDSYQLSLCARFDETLRQLNAGNRRRKFRVSDRK
+LQALGGYRHLIARDQHEKARLLEIFFAQKAARFARQNLPDVFAEPGIRAFFHALAAAPAR
+ETGEALRLDALIVTRAEGDEIAAVAGLSQKGSHLLCQFSAIDEAIALEASPGEMLFHLII
+ERAHSEGLTLFDFGVGDQLYKRSWCNRETALFDVTLPVSRRGRAAMAHHRLSVALKTRIK
+QNPRLYGLLQAARRRMGASATKD
+>tr|A0A1Q9ADV2|A0A1Q9ADV2_9RHIZ
+MIRHCVFIRYSASVAAEEKAAILAGIEGLKAHVDGMLTVQSGPNVSPETGMDKGYSEGFI
+IDFADAAARDRYLVHPLHQALGARIVAAATGGVEGVFVYDLEIAG
+>tr|A0A1Q9ADZ5|A0A1Q9ADZ5_9RHIZ
+MREATLLDKIIAHGGVMSIALFFIVCCLFFSLTTGAFLTAPNLLNIVRQSAPLLIVAAAM
+TFVITTGGIDLSVGSVLALTATLSAAALQAGIPWPVTILLMLALGAVVGIIQGYFIAYER
+IPAFIVTLAGLSIIRGVALLITGGYSIPIEPTSPFVAIGRAWVFGIPAPALIAIIVLAVA
+YLAFNETPFGRYVTGVGANNEATRRAGVDTRRVVLWVYVLSGMAAASAGIILAARLGSGS
+SNAGQGFELDVIAAVVLGGTSLFGGRGSLVGTILGALTVAVLANGLILSHLSPFFTPIVT
+GFIILVAIWLNFRLFKGGARRR
+>tr|A0A1Q9ACY9|A0A1Q9ACY9_9RHIZ
+MAVNRKDALRSLFSGGALKPADLQPLADAAGETAPQTTQPHDTPLTAVNPSTDKPVLSAP
+APRSASGAVKAMGLSLGAMTREAEEARHLRQALAEGERVVLLDAGLIDGSFVTDRLADGE
+SGDPDFEALVKSLEESGQQVPILVRPHPVSQGRFQTAYGHRRLAALRRLDRKVKAIIRPL
+TDDELVLAQGKENAERRNLSFIERAVFAKTLVQRGFARKLAGDALGIDKTELSRLIQVAE
+SVPDALARAIGPAPKAGRNRWMALAAKLGDDTACGLALTTAESEAARRLDSDGRFAAVLK
+ALEEPSEGETGEALLDGEGRAMARLSRGRTLRIAFSPSLSAEQLAEITDAVAALVAERLK
+TG
+>tr|A0A1Q9AD25|A0A1Q9AD25_9RHIZ
+MTAQIELTEVNKHYGAYHALKNINLSIAKGSFVALVGPSGCGKSTLLRSLAGLEKITAGR
+LTIAGDEMTSVPPRKRDIAMVFQSYALYPHMTVEENLVYPLRMRGVSKTEARARAQDVAG
+FTGLSGLLTRYPRQLSGGQRQRVAMGRAVIRSPKAFLFDEPLSNLDAALRVSMRKEIRAL
+HDRLGATSVYVTHDQIEAMTMADHVVVMKDGVIEQQGAPLTLYDRPENRFVAGFIGSPAM
+NFVAAHGIDSASIALDLPGRPQIAVSRHGEAPLKAGQAVVAGLRPEHLRIVEGEGAGQTG
+IGRFTLPVRLIESTGSLTYLSLGETGEIALVEHGREQLRPGDRLTLSIDPALVHLFDPQT
+GRRV
+>tr|A0A1Q9ANA0|A0A1Q9ANA0_9RHIZ
+MPVRLRKFVGTILIIVLVVTYALVATTVASAILGASPWWVHLLYFFFSGLLWILPAMLVI
+KWMEKPV
+>tr|A0A1Q9AP25|A0A1Q9AP25_9RHIZ
+MYLGTQLPARHDDDYLVMKQLGVDHVSANPDGNWRSWTRPALERLREKVESFGLILDMLQ
+LPMYSVSVDKAPCPDVLLAGPNRDAELDGICRLIEDCAAAGIPSVRYNFNYIGIPRTPME
+PGRGGYQAEAFRWDLVDQNEPGPAGVLSEETIWERVDYFLARVVPVAEVAKVRLACHPHD
+PATPPGYKGVNRVLGTVEGMKRFVQMHESPVHGLNFCIGTLGEMVEDVAEVPEITRWFGA
+RGKLMNIHFRNIVGKRYSFRESFPDDGDIDMAAVIDVLRETDYAYMVMPDHAPTLSGDNQ
+QQVAFAYCYGYIAALLKTR
+>tr|A0A1Q9AMG5|A0A1Q9AMG5_9RHIZ
+MIIARTERLTLRNWEEKDRDLFFTINSDPQVMEFFSRRRNRAEADALFDQNRARIAETGY
+GFYALALSQDDAAIGFCGLARADLAPLLPEETIEVGWRLARPFWGHGYVTEAAERLLAYG
+FKERGLPEIVSFAVANNDRSTAVMRRIGLSHVPDGDFDHPRVADSHPHLKRHVLYRMTAE
+HYAAGKVAD
+>tr|A0A1Q9AG04|A0A1Q9AG04_9RHIZ
+MLILIAGPYRSGTNDDPALMAQNLKKLEAPSYALFQAGHVPMIGEWVALPVWHAAGGAAV
+GDALYEEIFHPVAGRLLALCDGVLRLPGASKGADNDVRIARERGIPVWTRLEDVPGVTAS
+IAAKIAL
+>tr|A0A1Q9AN61|A0A1Q9AN61_9RHIZ
+MFTGIVTDVGTVAETSPLDAGVKLRIATAYDPETIEIGASIAHSGVCLTVVRLPEQGSNE
+RWFEVEAWEEALRLSTIGDWSEGTRVNLERSLKMGDELGGHLVLGHVDATAEILSVEQEG
+EATRFRLRAPEHLARFVAPKGSVALDGTSLTVNAVRGTDFDVLIIRHTLEVTTWGLRQAG
+DRVNFEVDTMARYAARLAEFPAPKPEA
+>tr|A0A1Q9AI32|A0A1Q9AI32_9RHIZ
+MATDTLALLIDGDNASPKNIAGLLAEIANYGTASVRRIYGDWTKPNLAGWKECLLEHSIQ
+PVQQFAYTTGKNATDGAMIIDAMDLLYTGRFSGFCIVSSDSDFARLASRIREQGITVYGF
+GERKTPRPFITACDKFIYVDVLGGVKEADQTTLASPSKGKSQAETVVETFKLEPEKGQAT
+QGGAASGKLDQAALVMLRKAVEASEEEDGRANLARVGAHLAKQSADFDARNYGYARLSDL
+AEASGILLVERAGEQSKVVTVKLKSL
+>tr|A0A1Q9AIY6|A0A1Q9AIY6_9RHIZ
+MAAKAALSTTPADVFGFSAFDPNKMNAGFREAAEKSISQSREAAQKLKALTEDATKTLEA
+TMETAKTGSVELGMKTLEVVRANTEATLSHIEALMGVRSVSELVELQSAFVRRQVEATIE
+QTKALHEAGKDVAERVAKPTTEAARKAMSAFSL
+>tr|A0A1Q9AKF4|A0A1Q9AKF4_9RHIZ
+MFQSRALPCDVIADPFAGSARPMAMMRPKRVPPARIPAGRWGDPSDLAGACVFLALPAGA
+YVHGHVLTVDGGWMAR
+>tr|A0A1Q9AGK5|A0A1Q9AGK5_9RHIZ
+MDSLRHGFCALVIGASGGIGGALVGALGRDPACGGVIALSRREDGLDITREDLVAQAAGR
+LSAQGAVMDLVIDATGALEIGQDRPEKSLRALDPDAMARQFAVNAIGPALLIKHFSPLMP
+RDRRAVFATLSARVGSIGDNRLGGWISYRAAKAALNQIVRTAAIEIARNRPQALVLALHP
+GTVETRLTASYGQGHDKMTPDEAAARLLGIIDGLPQAATGGFFAYDGQPIEW
+>tr|A0A1Q9APK7|A0A1Q9APK7_9RHIZ
+MPATNPNDLDEAEVAAEFLSAMANPKRLMILNYLVKEEIAVGALANQVGLSQSALSQHLS
+KLRAQNLVSTRRDAQTIYYSSSSQAVMKVLRTLTEIYGQENKPESRAEDMKKRTA
+>tr|A0A1Q9AEG3|A0A1Q9AEG3_9RHIZ
+MAALPRILYSQSERVAAGAQKDVFNLARFIDAQNHVYPTVLAELQAGRKQTHWMWFIFPQ
+LAGLGRSSTARHFALSGAAEALAYLAHPCLGERLIACTEAVLAQDDTATALTIFGTPDAL
+KFHSSMTLFAAVAETAGLDADRFKMAIRRFYNGKPDVMTIDLLNQHR
+>tr|A0A1Q9AJ43|A0A1Q9AJ43_9RHIZ
+MADALKLGVAGLGTVGASLMRILTERRESLATTCGRPIEVVAVTARSRGKDRGIALDGIT
+WYDDAATLAREAEIDVFVELMGGAEDPAYSAVKIALGRGLHVVTANKALLAAHGMELAAL
+AEEQGALLNYEAAVAGGIPVIKAIRESMTGNTISRVYGIMNGTCNYILTRMEKEGLTFDA
+CLKEAQRLGYAEADPTFDIEGNDTAHKLAILTSLAFGTAIAPDDIYLEGISNISIEDIQA
+AADLGYRIKLLGVAQRTESGIEQRVHPTMVPIASVIAQVDGVTNAVAIEADILGELLMVG
+PGAGGNATASAVLGDIADIAKSRPGAQRVPAFGRPTDALLPYRRAQIQNHEGGYFIRLKV
+QDRTGVFASIATAMAANGISLESIMQHSKKPVEEGAQTIILVTHATHEESVRKAVGVIRG
+EGYLMGEPQVIRIERPKDV
+>tr|A0A1Q9AKI8|A0A1Q9AKI8_9RHIZ
+MKRFEKIALIGLGPFVAAAALFCAWSANYAAASFFLLKSTAMWNAFTGDDLLLPVKQAWT
+YLANSNVRRLIVIASMATGIDAILATIGIVLLTFRPWEVRPPKDGSRFATRKDLEVAGLL
+GGEPGRSILLGTFGRGRSAVDVRYSGDSHFYVNGPSRSGKGRGFVMTNLLEFQGSVVVLD
+VKLENYTLTGPARLALAQKCFVFAPGSAKSHRWNPLDFVRAWPERATDLLNLATSLLPIG
+EKEDAYWKQTARGLMAALIGYVMESETMEGQRNLRCVLRMLSTGLPFSDLLKRILAEEPD
+LNDFILAGFRQHLGRDEEQRPSFEGHVITALAPFNNLLMAQACAASDFDIRELRRKPFSL
+FIASPVSDFGTVEPLIRLLIQQIHDIMLRQLPGPDEQHRVLMMLDEFYQFERLPEVVKRA
+PLVAGYGLTIALIAQNLPQIDERYGTKARDALIGNMDVKLYIGVGDEATARFVSASLGRK
+YEEREGWGRNRGVLTAKTPSQGRFELVPLLDPDAVQRLDDAKTILQVRSGYGAILNKLNF
+YSDDRFVSRRQAVARFCKDLRIPDLTPRSERPLFTPRPAELEPAGEITVLQSDQGDEHDA
+AVASRARDVFADPAPFIHAYHRTLEAIGDEAITELLLRLRTAPHTIGRLRGDRSLFGRKG
+RRERRAALDAVWPLREAMVAARWNMVRQRLDTEVPSSGLYFSRGSSPAIDTDIAGDAVEA
+DADEDEDNRLELSFEDGNRILGAISNLVSGEIRDGRVTDASALARALNDICVGFHQSMTD
+ITENNRLASREGQAPEQERQTMEACAT
+>tr|A0A1Q9APW3|A0A1Q9APW3_9RHIZ
+MSQTTHDAATRPLDLITIGRASVDLYGQQIGTRLEDVASFAKSVGGCPTNIAVGTARLGL
+KSALITRVGAEQMGRFIVEQLTREGVETGGIVTDPERLTALAILAVENSHSFPLLFYRDH
+CADNALCEDDIDPAFIASARAVLVSGTHFSRPNTDAAQRKAIRIAREAGAKIVFDIDYRP
+NLWGLAGHDAGDNRYIASERVSAHLKTVLADCDLIVGTEEEVLIASGESDLLAALKTIRA
+LSAATIVLKRGPMGCIVYDGPISDNLEDGIVGKGFPIEVYNVLGAGDAFLSGFLRGWLKG
+EPHATSATWANACGAFAVSRLLCAPEIPTWVELSYFLEHGSKERALRQDEAINHVHWATT
+RRRDIPALMAFAIDHRSQLEDMAGGDAKKLARVPAFKVLAVKAARQVAAGRPGFGMLIDD
+KYGREALFAAGSEKDFWIGKPIELPGSRPLQFEFSQDLGSRLIDWPVDHCIKVLSFFHPD
+DPAELKATQIAKLRSAYEAARKVGREILIEIIAGKHGALDDSTIARALEELYDAGLKPDW
+WKLEPQASRAAWAAIDAVIEARDPLCRGVVLLGLEAPYEVLKDGFAAARSARSVKGFAVG
+RTIFAEAGRAWLDGTMGDEEAVADMAGRFRALVDLWLGLDASKAA
+>tr|A0A1Q9ANP2|A0A1Q9ANP2_9RHIZ
+MRVPALDPSPPQHAIAVETLGMTMRFGSFTALKDVSIRIPAGSFHVLLGENGAGKSTLVK
+CMMGFYKPTSGQMTVDGREVAVPDPRAAHDLGLGMVYQHFTLVPSLTAAENLVISRKDVP
+ARIDWEKERADLAAFMTRMPFSVPLDVPVGRLAAGEKQKLELLKQLYLGRRFLILDEPTS
+VLTPAEADELLGMVRGLTTDGTLTCLMISHKFREVTAFADEVSVLRRGEHVGGGKVADLS
+TAEMAAMMIGEKELVRPAARLAVNGKPVMTVSGAKAADRSGLKTIEIGDLKVKSGEIVGL
+AGISGNGQMELMEILSGQRPLMEGAIKVCGLPFHATRSEARQFNVRYLPEEPLRNACAPK
+MSVAENIFFRDFDFAGGKPKFWLNGRRMAELAARLVGEYKVKTASLATPIAALSGGNVQR
+AVLSRELNGAVDLLLIANPCFGLDFSAVAEIRTRIMAARNAGAAVLLISEDLDEILELSD
+RILVMSEGRIVFETPAAGADIGEIGKHMAGHH
+>tr|A0A1Q9AJ25|A0A1Q9AJ25_9RHIZ
+MEGERQSPRETAWADAPQAPATDIGSANLPAVVTQGRALVRSQDLLGIERPSLLRRLTLW
+LRDCLALEAGYGHGFLFWPLLIGLGALLWFSQANPSDLAQNASLACVLCMAAYGARYRYP
+LLQAVALAAGLLAVGAAAAALQTWRLDTVLIDAPVTTTITGVVQGREVDARGFWRYEVAL
+LGTRAPAIFRRPERVMLLSRGRGPPVAIGRQIEGRARLSPPSGPALRGANDFAYDAYFAG
+IGAVGYFYGTPRDLGPAPAQGLLRETLMRIAILREAVGTHIRGLVGGPTGALAAALVTGE
+ERAIDPALVEAMRLSGLGHVLAISGLNMALAAGTLLVGLRTGLSLLPGFAQRRPVKKIAA
+AGALLMVTLYMMIAGGAVSAVRSFVMIVVMLLAVFVDRPSISLRNIALSGLLILLVTPSA
+ITGPGFQMSFAATLALVALYRRLDSPAEGREASALPVLRLVSPVWTGFVGLVLSSLIGGL
+STLIYSAAHFHRLPAYGLIANVLALPVVGTVVMPGALIAMLLMPFGLDGPAWMAVALGLD
+WMNAVARTVAGWGGEVDTGRLAPMAFTLVAVGGVLLCLLRTALALSGLLLILAGAAVAVL
+AQPSRPAMLVSEDGRLVALLSGGTAGVNRTKPPDFIYQQWRRALVIETTAAPLMLPALSL
+AIKAAAGPEHPEAQAKRQEGDQPASPKARREPPPLDLAAADQRLVALLAAAPPGRFACVA
+REWCAAVSVEGWRIVTLEDLRLSQAACLGADLVIAPGALRETPLCQAGPAAAATGATLRR
+SGALEIRAGPAAEPSAGGKPALRVFASVPDLAAPWARHRLYDWRTRQFAPAAPPDLATKN
+HDENNQDNLAPADGFAYDSQVE
+>tr|A0A1Q9AKT0|A0A1Q9AKT0_9RHIZ
+MGLQTLFFYLFAFIAVASAFMVVSARNPVYSVLFLILTFFNAAGLFLLTGAEFLAMILLV
+VYIGAVAVLFLFVVMMLDVDFAQMRAGFLEYAPVGALVGLILAAELIIVVAGSVFSPTIA
+KNVPMPIPAVTQRTNTAALGDVIYTHYIYFFQIAGLVLLVAMIGAIVLTLRHRQHIKRQN
+ISQQVGRTPETAVQVVKVRPGQGV
+>tr|A0A1Q9AJX5|A0A1Q9AJX5_9RHIZ
+MDDIYSSRILDYAGNVGRLGRLEDADAAAQAHSRLCGSKVKVYLKLDADRVTDFAQEVKA
+CALGQASSAIMAKNVVGASAAELRAARAAMLAMLKEGGEGPDGRFEEMRVLKPVKDFKAR
+HASTMLTFDAVVDCLDQIDARRTAAE
+>tr|A0A1Q9AC72|A0A1Q9AC72_9RHIZ
+MITRRLTLSLLAGAALTPAFTRLSRAAGTPGDEPQPLAEAVTKGEMPPMAERVPKAPRVI
+NLAAMGRKPGVYGGTVRMIIGSQKDIRLMTINGYARLVGYTQELQFQADILERYEEEEGR
+IFTFHLREGHRWSDGHPVTSEDFRYTWEDVVLNEDLRKGGVQRELLAEGKPPRFEVIDER
+TVRYSWDAPNPDFLPSLAAASPLTLLLPAHYMKQFHKKYVSEDDLKAKMKAARVKKWADL
+HIKMSRQYRPENPDLPTLDPWRNTTALPAEQFIFDRNPYFHRVDENGRQLPYIDRFVLNI
+SSAGIIPAKAGAGEADLQVSGIDFIDYAFLKDSEKRYPVKVNLWKRTLGSRVALLPNLNC
+GDPVWQGLFRDVRMRRALSLAINRHEINMAAFYGLGKESADTILPESPLFRPEYAKAWSS
+YDPATANRLLDELGLTDRDGDGMRLLPDGRVARIVVETAGESNLDTDVLELITDHWAKVG
+IPLFIKTSQREVFRNRAMGGDIMMAMWLGLDNGVPTADMNPGELAPSADSQLQWPVWGMH
+HLSLGQFGHAPELPEAQKLVDLLKEWKRTTTTLERAAIWHEMLAIYTDQVFSIGIVNGTL
+QPLVYSARMNNVPENGLYGFEPTCYLGIYMMDTFWYGDSVS
+>tr|A0A1Q9AMN0|A0A1Q9AMN0_9RHIZ
+MSETDPSRRDAAAAGPSPGPGSRPRATGNAAAGAKAATGAYTPAAVSPNRRGQRRYTIRL
+WAVRHSRLLEWVYHRFAHAFLLLHPLWKAIGYARAEAPVTAVERRVKGVLFDCRMCGQCI
+LSSTGMSCPMNCPKQLRNGPCGGVRANGNCEVEPDMPCVWVKAWEGSRQMAGGDAILAVQ
+KPVNQSLRETSSWLRVTAAAAMARDDEKDAGGTR
+>tr|A0A1Q9AIX0|A0A1Q9AIX0_9RHIZ
+MRNLITAVLSADPGVSVVGQAADAMQARAAIKQLDPDVVTLDIEMPNMNGLDFLEKIMRL
+RPMPVIMVSTLTHRGAEASVAALEIGAFDCVGKPSPGDPHPFADLAEKVKAAARSPRKQM
+ISANRAAVPSPANANHAATDYRSGRRIIAIGSSTGGVEALIAVLQKFPANCPPTVITQHM
+PHTFTKSFAERLNRLCAPTVEEATDGARLDVGRVYLAPGGERHLTIVNPSAPCCRLIDKE
+PVNGHRPSVDVLFDSVADLAGRNGIGIILTGMGRDGASGLLKMRRAGARTFGQNEKTCVV
+YGMPRVAYELGAVEFQLPLNAIGEEVLKRAAARREGME
+>tr|A0A1Q9ANY1|A0A1Q9ANY1_9RHIZ
+MAAAAGSYTPALVALTSLFFMWGFITCLNDILIPHLKNVFELNYTQSVLIQFCFFGAYFI
+VSIPAGALVKRIGYKGGVVAGLMIAAIGCALFIPAASMRVYGFFLGALFVLASGITILQV
+AANPYVTVLGDPKTAPARLTLTQAFNSLGTTVAPMFGAMLILGGSDAAASAADGADAVRG
+PYMMLAGAFFVLAAIFALLKLPVIQEEAPAVRVHGQASIWSYRHLVLGAVAIFVYVGAEV
+SIGSFLINFMADPAIAGLPEASAAHYVTYFWGGAMVGRFIGAVVMRTIDGGKVLAFNAVI
+AGLLLAIAVLTTGPLSMWSVLAIGLFNSIMFPTIFSLALNGLGDRTSEGSGVLCLAIVGG
+ALIPLAQGALADAIGVHHAFVLPIVCYIYIAYYGLKGCKPAA
+>tr|A0A1Q9AQD3|A0A1Q9AQD3_9RHIZ
+MFKQASTRHCRLVAAAAFAAAALMATLTIAQTAPAPGGTNCTGAPSSTGTGANPNHGSAS
+LTERLDNCNGVLAPPATGDGDMVSPPPQQGTTPVIKPGDVAPKANPG
+>tr|A0A1Q9AEZ5|A0A1Q9AEZ5_9RHIZ
+MLLIHCPYCGEARAELEFRAAGDAHIDRPANIAAISDEEFAEYFFLRDNPKGLIYERWRH
+IHGCGRFFNAVRDTVSDKFVMTYKAGQPKPDLSPAPGAAPALPADSRPVETYEATEGRAE
+>tr|A0A1Q9AH43|A0A1Q9AH43_9RHIZ
+MSIKTMLTKTPARRSLRAAFLAAGLAVPLLATPAFAEEMKDHSAMGASAAQAPSTQAFKK
+ANMAMHEEMAIDYSGKPDVDFVRGMIPHHEGAIAMAKVELQYGKDPEIRKLAEAVIKAQE
+AEIAEMKAWLAKHDK
+>tr|A0A1Q9AIT8|A0A1Q9AIT8_9RHIZ
+MVHAYLSMVGGSAVRLVLSLIYFICIANVLPISEFGLFASASATGVMVSRALAFGFMSPL
+YRVATVKHRLIGTYTTGFLVGALFSLPLIVALCALIYFLLFAEDMAGPVFLRFMLAEIIC
+WRGLEVVSNVLNGTGQFARSALMVVIGQALRTLSAVAFYALSFNTLSDWSSFYLASNIIS
+LAIAIVVFYPRVRLRWRPELYIRRWVDSVSVAGAEILFYVQSEFDKLVVLAAGGPEVTGI
+YAIVMRLADLTALPVRSFNTLLVQQIMRSPAILKRGRTKPMIEAIIAGVSLLAIAGMAGY
+LTLFPRGLGNNVAEIAPFVAMVLLVPGFRNLVEYHSELLYATGQTVRRVVNLACLGAMKV
+GLLWLLLQETTAPTGWVPMLNLVFLAVYATSMALTYPSVQRWAAQR
+>tr|A0A1Q9AFJ0|A0A1Q9AFJ0_9RHIZ
+MAVKRIVANIAARDLDAARSFYCGILGLETVMDHGWIITFAAPAIEMQPQLSVASEGGSG
+TVVPDFSIEVDDLENVEKRARDAGCAIEYGPADEPWGVRRFYLRDPFGRLINVLSHRTIS
+>tr|A0A1Q9AG34|A0A1Q9AG34_9RHIZ
+MTSDPPRRPAAFSLDPEEARPQPSPAAPRRPAAFDDGVTLTPVSEDPFAETTLPLEPIEV
+TEARVLPRRRRFSFAGLAAGAFGVLVSLALGLWLDQLIRDLFSRSDALGMVAIGAVALLV
+LGVMVVVGRELAGIFRLANVQTLKADALNAAGQPAAGPARKVVDQLTGLLKNRAQTASGR
+AALKATEGEIIDGPQLIELAERELMSPLDRDARLLILGAAKRVSLVTAVSPRALVDLGYV
+IYESARLIRAVAELYGARPGTLGSIRLMRDVLAHLAVTGSIAAGDSLVQQVLGHGLASRL
+SARLGEGVINGMMTARIGIAAMDVCRPLPFRALRRPGIGDFLGDLAPGERRPSAEQG
+>tr|A0A1Q9AIM6|A0A1Q9AIM6_9RHIZ
+MINALHSISSAISGSSGVDTLGSTSSASAAGLAGGLMGTTPGMPAAPSFSAVMADMATDT
+ISSLKNAESLSLDGIRGKADTRQVVDAVMSADQTLQTAIAIRDKVVTAYLEIARMAI
+>tr|A0A1Q9AKN9|A0A1Q9AKN9_9RHIZ
+MDGFFSTYVWPAAIMIGQTLLLLVALLIFIAYILLADRKIWAAVQLRRGPNVVGPFGLFQ
+SFADLLKFVVKEPVIPAGANKVLFLLAPLVTVTLALAAWAVVPLNENWVIANINVGILYV
+LAISSLEVYGIIMGGWASNSKYPFLSALRSAAQMVSYEVSIGFVIVTVLLCVGSLNLTDI
+VNSQRDGLGTMMGLPGSFLDWYWLPLFPMFVVFFISALAETNRPPFDLVEAESELVAGFM
+VEYGSTPYMMFMLGEYAAICLMCALTTILFLGGWLPPVDVWFLNWVPGIIWFVLKSTMVF
+FMFAMVKAFVPRYRYDQLMRLGWKVFLPLSLVMVFLVAVTLKLGGWA
+>tr|A0A1Q9ACN6|A0A1Q9ACN6_9RHIZ
+MSLSDMKLVVTGAAGRMGQALIRVIHQTPGVVLHAAVARSGSAFVGRDAGELAGLGPIGL
+AVTDDPLKAFLDADGVIDFTKPETSVDFAGLAAQARIVHVIGTTGCSQTDDAAFEAASRH
+ARLVKSGNMSLGVTLLAALTQTAARALPARDWDIEILEMHHRHKVDAPSGTALLLGDAAA
+RGRAISLKEQSVRVRDGHTGPRPEGTIGFATLRGGSVVGEHSVYLAGEGEEVILSHRATD
+RAIFARGAVAAALWARDKKPGLYTMPDVLGLN
+>tr|A0A1Q9ANX6|A0A1Q9ANX6_9RHIZ
+MRLLLLGTGGMANRHATEFSTVPGCQLVAAVDVDIAKVRAFAARHNVAETFTSLDEAIAW
+GQFDAVANVTPDRVHYPTTLQLLSAGKHVFCEKPLAENYAKADEMARRAEAAGLVNMVNL
+TYRNVAPVQRARQMVLAGEIGRVRHIEASYLQSWLVSKAWGDWATEDQWLWRLSTKHGSN
+GVLGDVGIHILDFAGYGAATEIDRIFARVKTFEKAPGNRIGDYDLDANDSFTMTAEFSNG
+AMGVIHASRWATGHLNELRLRMHGDKGGIEVIHTPTGNSLRACVGEDVEKGLWRDLDAGT
+MATNYERFIEAVAENRTREPSFRHAAELQKVLDLALVTEAERREHDVNPPAVLQAISA
+>tr|A0A1Q9ADU2|A0A1Q9ADU2_9RHIZ
+MSVHDLAAEAALLDRQLAPLSLAERLALVGSLDGRAVFTTSLGIEDQVITAAIGGHCRSI
+AVVTLETGRLFAATLALIDETEAAYDLEIVRFHPEKADVDAYAAQYGLNGFYDSVEARHA
+CCGVRKVKPLARALEGARFWITGLRRGQSGNRADTPFAEADFDRGLIKINPLADWDIETV
+KAYVAEHDVPVNPLHARGYPSIGCEPCTRAIKPGEPERAGRWWWENDMKRECGLHVAEAT
+PITARPAEKVPTPA
+>tr|A0A1Q9AKJ3|A0A1Q9AKJ3_9RHIZ
+MQAGNDIAAVGTAERARTDTRIDPRYYQEGERWEKSVYRSVAASRAVWRTIAALLAVALI
+AMTGLLWATLPLRTFDVVVLEVDKTTGYVEASRPLRDSGDLTQNEAVTRANIVRFLRARE
+TYDPKSLRDNFDLASLYSTGKTADDLANTFSGANPNNPVKLYGADTTVSVAVKSIIFLNE
+QTAAVRFSTTRTGRGASSETNHWVANVRFKYTSEPMRNDWRFDNPLGFQVTEYRRDQETV
+TIGEDGR
+>tr|A0A1Q9ALP0|A0A1Q9ALP0_9RHIZ
+MIPPARRFASLSFRGGEVVKAERLVPEEVPVAFSYGGSTHAVMMATPDDLTDFALGFSLA
+EGIIARASDILAIDLVEAGEGIDVQITLADSTAEALTARRRRMAGPVGCGLCGIESIEQA
+TRTVPSFAEGALRLMPEEIAEAMQALGAAQTLNRETRAVHGAGFYRPGGQGLFAMREDVG
+RHNALDKLCGAVLRGGLQGSEGAVVVTSRLSVEMVQKAAALGSPVLIAISAPTALAIRTA
+ETAGMTLIGIARDEDFEIFTRPDRVSMEGSRHVA
+>tr|A0A1Q9AGY4|A0A1Q9AGY4_9RHIZ
+MIPARSNFTQWPPEKTLFPLEDVTVNIVAGPHPYAVEAEEAIAANWALEFARNPRLFDGQ
+MVVNRAIHIEEGRIRTAAHLAPFSAFLLWRKTRPLDKAVHLFVLPVILSSDGALIAVRMG
+AHTANPGKVYCASGSLDAHDIVDGLCDIPGNMRREVLEETGLDLAEAEADPHYVGRHENG
+AVMVARIFRFSDDAETLVTRIAAHVAADPDPEIDGAVAIIDTDPARYDYTSFMPDVIAWA
+LQR
+>tr|A0A1Q9AJ84|A0A1Q9AJ84_9RHIZ
+MAERSQNLQDLFLNTVRKQKISLTIFLINGVKLTGVVTSFDNFCVLLRRDGHSQLVYKHA
+ISTIMPGQPVQMFESDDSTS
+>tr|A0A1Q9AG20|A0A1Q9AG20_9RHIZ
+MIPRYSRPEMVAIWSPETKFRIWFEIEAHACDALAELGVIPAESARTIWEKGGAATFNVD
+RIDEIEAVTKHDVIAFLTHLAEFVGPDSRFVHQGMTSSDVLDTTLNIQLVRAADILLADM
+DRVLAALKARALEHKDTVRIGRSHGIHAEPTTMGLTFARFYAEMARNRTRLVHARAEVAT
+GAISGAVGTFANIDPRVEEHVCEKLGLTPEPISTQVIPRDRHAMFFATLGVIAASIENVA
+IEIRHMQRTEVLEAEEFFSPGQKGSSAMPHKRNPVLTENLTGLARLVRMSVTPALENVAL
+WHERDISHSSVERAIGPDTTITLDFALNRLAGVIEKLVIYPDNMLKNMNKFRGLVHSQRV
+LLALTQAGASREDSYRLVQRNAMKVWEEGKDFLTELLADDEVRARLSEEELREKFDLGYH
+TKHVDTIFARVFG
+>tr|A0A1Q9AM10|A0A1Q9AM10_9RHIZ
+MDPELLKRFGITRIGDVTDLDIIGVPVWFATRPNSRGLSVAQGKGLTVEQARISAVMEAI
+EGAVAEDTQSHIVSIDSLEAMRARGVDVIPLETLGRVNVDNLDGHQERAWVRGRSVRHGN
+DVFAPYELIGLDFRADFPWDRRAFHMSSEGLAAGFDYDRAILHALLELVENDACFLIDAF
+ETRIAASGPITLKRAVNPALDLLMAHISERGLSVDFFNLTTDIGIPVVMASLRRSILTVE
+GPTVRHSAGVACRLTVHDAALAALLEAIQARLTDISGARDDLSPNRYQMDHEIDAKRPPR
+DPVENGFPCVTFTSKLAAPMWQPLADHLFAVGVDDIYLFPLTTGVEGLHVVRTLAKGLNA
+TGPGLQRMKPAVLEQFLFRRARP
+>tr|A0A1Q9API8|A0A1Q9API8_9RHIZ
+MSEGPDRPLYLYRLVPTAAPDYPRWDNAPSHGEVLVRAHSPADARITAAEAELDFTEIDA
+KPAEGTDTRMASAFRDEKLYTVIEAGEECGFAAAGARGVVQGLVRVDTIKPTQV
+>tr|A0A1Q9AEL0|A0A1Q9AEL0_9RHIZ
+MVSTRLSRAEGHRRKFLAVIDDTPECSRAVHYAGRRAKHSSGALVLLYVIPDGDFQQWLG
+VEGIMRAEARAEAEATLARIAQTVRETIGIEPEMAIREGLATEQINKLIDEDRDIAILVL
+AAGSAKDGPGPLVSSIAGKAAAFPIPVTVIPDALTDAEIDALT
+>tr|A0A1Q9AH45|A0A1Q9AH45_9RHIZ
+MIPEALNYAASAALTPASFRPFIGGSVRLWARARRCAKAWAPHEAQCHAAVEAMVAEMKQ
+RRTVVVLGSGLLRDVPVKALSRAFDTVVLVDLVHLASIRAWLALNGIRNAKLISRDLSGA
+QAILAGLPTEPLAFLRQVPALDLVISANILSQMPIGLRRSLEGQRRPIEEATLSRIVEAH
+LEGLAGLPCRRLLLTDCDYTVRDRAGTVVETADLLLGHTLPPEEAEWIWPVAPFGEEGRD
+IEILHRVVAVRDPGAGTRPAVR
+>tr|A0A1Q9AFV6|A0A1Q9AFV6_9RHIZ
+MPSHILVIDDDPVQRRLLAGMVEQLGHVAHHAENGRVGLSLLEELGDQVDVILLDLMMPE
+MSGHAFLEEVAQRGIDTPVIVQTGQGGIETVVHAIQAGAFDFVMKPVSPERLTIALHQAM
+KVERRHAPWAGERADAGEDIGFASIVSASPAMIRALDLARRAAECDIPVLIEGETGVGKK
+RLARAIHQESQRAERPFIVVDCAALTPVHAEAILFGRERGLGPAGAPRLSGKFRDAEGGT
+LLLSDIAALPMTVQAKLLRAVQFGEIEPVNANHPIKVDVRLMVASGRDLIAEVREGRFRE
+DLYYRLSVFPIALSALSRRREDVPALVRRLVQRLGAEYGHGSGQGIDAGALALLTAYDWP
+GNIRELEATLYRALLLAEGRELTVRHFPEITARTGPIGLRSMAADGMSARLAAATPEVEA
+ETPGRVAVLGAPEAEPRTARSDGLIATLDSTGDVRKLAEIEEDIIRFALKFYRGQMSQVA
+RKLGIGRSTLYRKLKDYGIDPDNPLSSAA
+>tr|A0A1Q9AFY3|A0A1Q9AFY3_9RHIZ
+MKGAQLDTVDALMAQYAAGMLPEPMRVLVSSHLELQPQQRGKVAAYEALVGDMLLSAPPV
+ALDDADAALARIFAAEAPSAQARPLLEDPLFPAALREFIGFGSGEVPWRRKLPGFKEHMI
+GKIDDCEVSLFWIRPGRKIPAHTHEGMEISLVLCGAFRDGRGRFARGDISIADDSVEHRP
+VAEDEAPCIGLSIVDAPLRFTGSIRQFLGDLIG
+>tr|A0A1Q9ALF8|A0A1Q9ALF8_9RHIZ
+MRLKESGARGLKLFASSLAVLIALLFSVIPAAAAPVSLVGFGDSLMAGYQLPPEDAFPAR
+MEKALRDKGLDVTIANAGVSGDTTAAGLARIAWSVPDGTKGVILELGANDALRGIPPEET
+RKNLTAMIEALKARGIDILLVGMLAPPNMGGDYGARFNAIYPDLAKTYGLTLYPFFLDGV
+VENAALKLQDGMHPNAEGVATMVDRMLPAAEAFVRKLAE
+>tr|A0A1Q9AM00|A0A1Q9AM00_9RHIZ
+MSVDKMLSRYSFQTKVILLLLPFVLSISVVGLTGIWASGLLQNRIETSNNVLQTLTGFRD
+LAASMHRFLSETTEAALVEVKDRIARQQDTLSLMLNEAQLDGGASDLAKARTTIEETGKY
+VDELWALHSNKTDLEARMQKSVSIIVSSQANIGEALRKVQRGVQDDENVAKGLLRDAGSI
+RALQAVALATQEAFASASDSASKRKVVEAALPELRKRIRMTAMALSESERPVVKSLDALL
+NDLQKTFQANDFSTKAVSDVAEKLRQFREFSATFSPIALRKLNDATDRFAAFSVPGEKAM
+TVLADGRQLMTSGYSIQIIFARFVLQPTPENQTRLMQEIASMRKDLAKLKQNAGVFPIYA
+ELDARLVPALAVLEEASLRLVDISRERLSTFAQAAAEIDTVWRTLVSFAERQKESAGRDR
+SDANSISLGTTTIGILISIFAGAGLVVTFKRPIGQITMAMRRLAEGILDTQIVGDTRPDE
+IGDMARALGVFRANAVSKLQIEQESDRQRAAVEEERQRSEAAKRAFDRQIEHAVEALGAG
+LELLAKGDISQPIDTVFEGRLEQLRINFNQSLQRLQATIQQVKNTTVVIQRNASEMSAAV
+DHLAHRTEQQAASLEESAAAVDEVTSIVRASAVRAQEVDEIVRNARHSAVASLSVMEQAI
+TAMGRIEGASDEIVHIIQVMDEIAFQTNLLALNAGIEAARAGESGKGFAVVAHEVRELAQ
+RSGEAARQIKKLIDRTRGEVSVGADLVQQTGTVLSNISTDIETVCELVGSIAMASRNQAT
+ALAEVNGTINQMDNTTQRNAAMVEETNAATRLLAEEAAALMEIVDRFQLEGQSSSTRRAT
+RTAA
+>tr|A0A1Q9ANL8|A0A1Q9ANL8_9RHIZ
+MAEIRLHQVRKSFGALEIIKGVDMEIRSGEFMVFVGPSGCGKSTLLRLIAGLEDITSGTL
+AFDGQTVNALPPAKRGIAMVFQSYALYPHMTVFDNMTFGMKLSGADKAERDRRVRQAAEM
+LQLTPYLERLPRQLSGGQRQRVAIGRAIVRDPRVFLFDEPLSNLDAALRVATRLEIAKLH
+RSMHKTTMIYVTHDQVEAMTLADRICVLNAGRVEQVGTPLELYENPNSLFVAGFIGSPKM
+NILKGGLAQPYAAPTIGIRAEHLAISGEHGAWRGEVVHAEMLGSDSFVYVDIGAEEPVVA
+RQNGTASFQPGERVSLTPDLGAIHRFGEDGRALGRLPARGAA
+>tr|A0A1Q9AN57|A0A1Q9AN57_9RHIZ
+MSLDSVQLPKVSLAETLFALFLRLVALGCFWSGLNYWALLVGYSYGGIARFDLLPVPWRV
+VATTLAVTYPVAALGLWLLVSWGPVIWVVAAATEIVMYGYYTQVFGEKPLILILHGMVAV
+VFVLFRAVIARQRYRQAHAARNDLP
+>tr|A0A1Q9ADG2|A0A1Q9ADG2_9RHIZ
+MNTISIRAARDADIAFIMATERLPGYAERVGAHDAAVHRQKMGLRDYRYVIGETPQGAFG
+FAVIKQNDDGKGIANLNRIAVRQAGNGIGTRFILGVTDLVFADPQIERLWLDVLPDNAIA
+RHVYAKIGFVEEGLMRSALRFPDGRRADLLLMSLLRHEWLNARGADRKATALPV
+>tr|A0A1Q9AEI1|A0A1Q9AEI1_9RHIZ
+MSDLIVVGFDTKEEADNVLLKLNSLSKEYLVDLEDAVVVVRDESGKVHLKQSMNLTAIGA
+TSGLLSGSLWGGLVGLLFLNPLAGFAIGGAIGAGAGALSGSMADYGIDDDFIKSLGETIP
+NGSSALFILVRKVQPEKVMAELTGFRGRVLKTSLSPDQEAKLQAALSGTSLPTPAGV
+>tr|A0A1Q9ADH8|A0A1Q9ADH8_9RHIZ
+MPATPQRSETASGTAYAVAGSGAPLVLIHGVGMRLEAWAPQIAALSERFEVIALDLPGHG
+ESRPLPKGARLPDFVARIATFLSEIDRGPVSVAGHSMGALIAGGLAAEVPGQVARVALLN
+GVHRRDPAARQAVEARAAEISTGGFDREAPLARWFGAAGEYDAARVLCRQLLAEVDADGY
+ATAYGAFATGDAVYADRWPDVACPALFLTGEGDLNSSPAMSRAMAAAAQNGRALIIPGHR
+HMVNLTAPDQVNAALIDWMGWTVSQRKEACHDA
+>tr|A0A1Q9AGD8|A0A1Q9AGD8_9RHIZ
+MTIRHVGTLLLLLLGCLAIPTAAAAVQPEACPAAFPASAFARPAEARDVRPCAQALLSIL
+FRRLPPPPETEIHVVDTLYGKDEAGAHNAFITFQIATPNRRRLCRDSAEPADMQVNFVRD
+PVDGWIDLDSRGSYDPAACGQWTYWADEDIAEILHPPHFTRLPAAQRAGIREVAKGDPER
+KAILDAVREANADLNRRTPIVFVVGRLRSDGETAYFRGAVRRKLDGRPIDPALWGECEQD
+PETAVLEALLEKNNGRWHAIKANRCADDLFLTGAERSRYRLFLMDE
+>tr|A0A1Q9AHC7|A0A1Q9AHC7_9RHIZ
+MIVLYDARGESLALDPAHPIDALPEDIVWIDLLRPSREEDALAERLLGIEVPTREDLKDI
+EPSSRLYMTDRAIFMTASLVCRAEGEHPVLTDVAFVLTGNRLVTVRYDEPRAFALFRAAM
+PRIQGGCPSGVILAARLLETIVDRTAEILEEAVAKLDALSFKVFDRNTGRKRRPPQYLEA
+RLLDVALHHRLIAKTRDSLASLARLVVFLQSAPFMEKEKEAQALVLVVARDIQSLSEHAG
+FIFGNITFLLDASLGLISVEQNAIIKIFSIASVVFLPPTLVASIYGMNFEIMPELHWHLG
+YPMALMTMLISAIVPFFIFRWKGWL
+>tr|A0A1Q9ANJ0|A0A1Q9ANJ0_9RHIZ
+MQTFFTPAQRADPALAESEAILRRCVHCGFCTATCPTYVTLGNELDSPRGRIYLIKDMLE
+NDRPATAEVVTHLDRCLSCLACTTTCPSGVDYMHLIDHARMHVEKTYARPLPDRAIRALL
+ARILPYPARFRLALSLARIGRPLAPLFERIAPLRPLAAMLRLAPKGRPAAAPSDVSAKPL
+ASSAAGSKRAIPYGNSTPASLSAAGAEAAPPARRVAILRGCAQRVLDPGIDAAARRLLSR
+LGIALVDVPGEGCCGALVHHMGREEEALGFARRNVDLWTARIAAGGLDAILVTTSGCGTT
+LKDYGHMLKRDPAYAEKAARVSALARDITEYLAECDLPALPARGLTVAYHAACSLQHWQK
+VTLAPKRLLAAAGFSVREPAEGHLCCGSAGTYNILQPEISAALQARKVSNIEATRADLVC
+AGNIGCLTQIGAATSLPVVHTVELLDWAYGGPVPARLAASARFAAAE
+>tr|A0A1Q9AGZ6|A0A1Q9AGZ6_9RHIZ
+MTIAIGDKLPPATFKEKTPDGPVEVSTDSFFSGKRIVLFAVPGAFTPTCSLNHLPGYLEN
+RDAILAREVDDIAVVSVNDVHVMGAWATASGGVDKIHFLSDWDAAFTKALGLDIDLSAGT
+LGVRSKRYSMLVEDGVVKMLNIEESPGQATVSSAAHMLEQL
+>tr|A0A1Q9APC4|A0A1Q9APC4_9RHIZ
+MKPSVALEQNREAIRAVVGRFRAANPRVFGSVLRGDDRDGSDLDIIVDALPGATLFDLGG
+LQVTLETMLGVPVDLLTPGDLPEMFRADALKDACPV
+>tr|A0A1Q9AFQ8|A0A1Q9AFQ8_9RHIZ
+MRIELEKRARPSQLHSLLSPIIALLLTLVTGAILFAALGQDPVRALYVLFIGPLTEVWSL
+HELAVKSAPLIMIGVGLSVCYRCNNWNIGAEGQLVAGAITGSIIPVLFNDWHSPLVLPLM
+LVMGMVGGALYAAIPAFLKAQTNTNEILTSLMLVYVAELFLDWLVRGPWRDPQGFNFPVT
+KQFQPEGILPELLDSGRANLGIVFAILAALAVWFMMRFTLKGFEIKVLGASERAGRFAGF
+SRKGMIWFSMMLSGALAGLAGICEVSGVINKLQPEISPGYGFTAIIVAFLGRLNPLGVIV
+AGLVLGLTYLGGEGAQIELGLSDKVVRVFQGMLLFFVLACDTLAIYRVRLSLAPAAKEA
+>tr|A0A1Q9AF98|A0A1Q9AF98_9RHIZ
+MRHVDFSPLYRSTVGFDRLFTMLDSLGQPDQSQSYPPYNIERTGENTYRITMAVAGFDET
+ELSIEAREHTLTVKGEKGEDKTPENQFLYRGIAKRAFERRFQLAEYVEIQSASLKNGLLH
+IDLLREIPEAAKPRRIEITAANSAPKQIEASTIQGAAV
+>tr|A0A1Q9AIN2|A0A1Q9AIN2_9RHIZ
+MAPLNRSEKLQRLVAVQRHLERMAEFDLAETARQRRELAETIDRVADAMGSAKPLHAMFS
+GHYASQLGRLAQKDSMLHGLQQVHESRVIKERAKGDRLAEHVKDARDQEERAAADEAVFD
+ILDQRLLLPPDPY
+>tr|A0A1Q9AKU0|A0A1Q9AKU0_9RHIZ
+MPISPETSLVRRLDRDLVLALALLCLWVAVLELFHAEPGIDLWIQGLFFSHGACPAGSQA
+GLVCGSFPLGDIGLLQSLRKILFYLPFILTAAVVARLVWALARPGRLAIADLRDTITVLA
+TMAIGPGLIVNGILKAYSGRPRPMQTELFGGNMSFMPAGSFGGACTDNCSFLSGEASGAA
+WLVCALVLLPEPLRRRLTRPVIAIAVLTSGMRVAFGRHFPSDALLGFLLTLVVFALLRLA
+MRSLPLPAAVHPSPKSHQ
+>tr|A0A1Q9AFE0|A0A1Q9AFE0_9RHIZ
+MTLAAVTGFLTLYGPAIAVIALCLLLVALFTGAETALTLAARRRGQEEDGAGQSTLLVER
+LMARRDRVLGALVIGSRLAGIVAVAFGASVFIEAYGAHGIWPAIGVLTLLVVIFGDVLPR
+ALAVAAPERFAARVSGPLRPLLFLLGPLSSAVNGLVRGLLALFGHAPPAEAPILTAHEEL
+RSAVAQLHREGGVVKADRDRLGGVLDLDELEVSDIMIHRLTMRMVNADEPPGVVVRQILD
+SPYTRMPLWRGSTDNIIGVIHAKDLLRALADPAVQPDTIDITRIAQKPWFVPDTTRLKDQ
+LNAFLRRRTHFALVVDEYGELRGLVTLEDILEEIVGEIADEHDIAIQGVRQEADGSIVVD
+GTVPIRDLNRALDWTLPDEEATTIAGLVIHESRIIPQERQAFTFYGKRFIVMKRVKNRIT
+RLRIRPAEAAPAVE
+>tr|A0A1Q9AHX2|A0A1Q9AHX2_9RHIZ
+MVCAGETMTQADEGAAIAGNDPALTPEQAEEARKAYLLKRFWTSARGYWSRQGDRLAWPC
+CIGLLVLIGANVAFQYGINVWNRGLFDAIEQKNAGQVYSLGALFPPLVLGSVLLVTTQVF
+VRMLIQRRWRSWLTKALIGRWLDHGRYYQLNLIDGDHKNPEARISEDMRIATEAPVDFVS
+GVISAFVSASTFIVVLWTIGGALTLPIAGESITIPGFLVIAAVLYAAITSTSIAVIGRNF
+VRVSEAKNQVEAEFRYTLTRVRENGESIALLGGEEEERNDLDRTFADVRKQWRKLALQHM
+RTTVVSHGSMLIAPVVPVLLCAPKFLAGSMSLGEVMQAASAFTIVQGAFGWLVDNYPRLA
+DWNACARRVASLMMSLDGLENAENSDQLGRIKRGETNDQIMLRLEDLSVSLGDGTAVVKE
+TEVEVGPGERVLVAGESGSGKSTLVRAIAGLWPWGGGRVDFHADKSLFMLPQKPYIPSGT
+LRRAVAYPRGADSWSPEEISSALDKVGLGQLKEKIEEEAPWDHTLSGGEKQRLAFARLLL
+HNPDIIVLDEATSALDDKTQDKIMEMMIAELPDATILSVAHRAELEAFHTRKITLERREG
+GAKLVSDVDLGPYSRRRNVLSRLLTRTSRRADSRTS
+>tr|A0A1Q9AKY5|A0A1Q9AKY5_9RHIZ
+MRLSALHVHPLKSARAVALAEAEVQPLGFTGDRRFMLVDTAGHLVSQRDLQALAQVTARL
+GAEGLVLEKDGERLIVRLDPVRRIEVKIWTSFVDVVLADAATNDALSRWFGQPLRLVYQD
+AQAERHVGAAWAGGPVPVSLADGYPVLLTTTGSLDALNRTLAEQRQPAVGMDRFRPNLVV
+DCAIPWDEDAWEAIEIGGIRFDLVKPCERCIMTTQDQMSGERIGGNPIQGLAVERMSADP
+RVRGVLFGWNLVPRGTGRIAVGDAVKVLGRRGETWPMRRREAR
+>tr|A0A1Q9AFW9|A0A1Q9AFW9_9RHIZ
+MTFKSTLTQKAALAAIAGAVAAATMPAAAFAQDAGGRPPQGWFKVCTKQEDNDVCIVQNL
+LTANNGQLITAAGLITVTGKVSRKILQVSVPSARMIPPGIQVQIDGGKPAKLDYAICMPD
+KCVAEAPLTDQMLASLKKGTEVVFTSVNFQRAPNPIKMSLEGFTGVFDGEPIEQSKLQER
+QRLLQEEMQKKAEDARKKLEDAQKAAKQN
+>tr|A0A1Q9ACE3|A0A1Q9ACE3_9RHIZ
+MEQLRDVPIFVEAAEAGSFSQAAERLHLTRSAVAKAIGRMEARLGTRLFHRTTRRQSLTE
+EGRFFYERCLKAVAEIRAGEALIESGRREVRGRLRVSMPVVLGRSCIAPILACLMREHPG
+LELDLSFSDRVVDLVEEGFDLCIRNGVLKDEPELMTRRIVFQRMTVCAAPSYLAARGVPR
+RLEDLAAHDGLLYARGPAVRSWIFPTPAEPMRAVIPRTRLRVDDLEALLDAACAGLGLAW
+LPCWMVRTAVAEGRLVQVMSDVESIAFSSHAVWLKTPVMLPKLRIAIDRLAADLPARVGA
+LVDPACAAVP
+>tr|A0A1Q9AJ03|A0A1Q9AJ03_9RHIZ
+MRRQILTAFLLPALSLLALPAQAEGNRLKNQDIKEKIVGRTIYLAAPMGGEFPLNYRTNG
+QVDGDGQALGIGKLVKPSDSGRWWIAEDRLCQKFKTWYDGNSMCFVLSDAGPKKVKWIRD
+NGETGIARIGD
+>tr|A0A1Q9AE72|A0A1Q9AE72_9RHIZ
+MALQAVDDGLRLEGDVMPPKAAMVDSYLADWAGQDGAKVEVAGVIRALLEASRRLAARIA
+EGALPGDPGLPAGSNTDGDTQKRIDVASHDLFVELLTEAGVAIILSEEAEAPVIGKAGGR
+LAVAVDPLDGSSNVGTGAPLGTIFSILPAEGDDPFLVPGRRQIAAGYVSYGHTVDLGFSV
+GHGVVLATFSPSQQTFLITGSATSLAGDAKELAFNASVTPHLAPAMRRFVEDCWTGKAGP
+RGKSYNMRWLGALVGDLHRILKRKGLFFYVGDARPGYAQGRLRHVYECNPIAFLVEQAGG
+KATDGVTPLLDLVPTGHHARVPLVFGAAAEVDAVADYLQAGTAQAAE
+>tr|A0A1Q9AN40|A0A1Q9AN40_9RHIZ
+MAADHPPHTPHSINPPGNAEEAIRREFSMVERQGTREAYERFIRRHPRHALAAQAKLRLR
+SGKIRYGD
+>tr|A0A1Q9ALX4|A0A1Q9ALX4_9RHIZ
+MRPAAASYAASIEPCNPAIGGGGDEVQRFVDLGQTLHAVPDWQTGQVDINREPRHVAIEQ
+IECSSALQREDLLSCDKGVKPYQQRNLGGI
+>tr|A0A1Q9ACX1|A0A1Q9ACX1_9RHIZ
+MVIDAAKSLPIFVNGRFLGRPVTGVERFARSILAAVDAMIDDTDAARWTILVPPGVPHDQ
+GFAKLKIRTVSPFSRGHLWEQTTLSWASRKGLLFSPCNSGPVLHPRHLVVIHDALVFRFP
+EGFSPSYAHLHRTLGRLLARRAHLATVSAFSRSELSSVLHQPAEDIAVLPNAVDHLDGTQ
+ADPSVLDRYGLEKGSYFLFVGSPAPNKNLGRAIEAYASLKRPDLPFVLVGKAARVFSQEK
+SGAAPEGLLPTGRLSDAEIKALYKNALALIFPSIYEGFGIPPLEAMSLGCPALCSDIPVM
+REICGNAAAYFKPLDQASIAQTMAEMADGRIDADRLRAAGYERKAAFSWEASAHLLLARL
+DAIAALSRTDGVQ
+>tr|A0A1Q9AH64|A0A1Q9AH64_9RHIZ
+MTSSPHSIAPLDPVDQKPPGSQLLPLALQHVLVMYAGAVAVPLIVGRALSLSPEEVAFLI
+SADLFACGIATLIQSWGVPGAGIRLPVMMGVTFASLGPMLSMANAPEIGLLGIFGSVIVA
+GLFGIVIAPFISRLLPLFPPVVTGTIILVIGISLMRVGINWAGGGQPTITKMVDGVPGAF
+PNPAYGQLQGLGIALFVLLVILALLKWTTGFLRNIAVLVGIVAGCVLASLLGLMHFEKVG
+QAAWVDIILPFHFGMPQFHLIPSITMCIVMIVVMIESLGMFLALGELTGRRVDKEALKKG
+LRADGLGTLIGGLFNTFPYTSFSQNVGLVGVTGVRSRWVTVTGGAILIVLGLLPKMAALV
+EAVPQVVLGGAGLVMFGMVAATGARILATVDFKGNANNLFIVAIAVGFGMIPIVAPAFFK
+ALPHDLHPLLESGILLSAIVSVALNAFFNGVKSIEDASTEAAGAAAAVEHG
+>tr|A0A1Q9AJD0|A0A1Q9AJD0_9RHIZ
+MANRKDTTVRRANRVRRHLKAVANGRPRLSVHRSSKNIYVQVIDDVAGKTIAAASTLDSG
+LRGSLKTGADVAAASAVGKLIAERATAAGVTEVVFDRGSFLFHGRVKALADAAREGGLSF
+>tr|A0A1Q9AD38|A0A1Q9AD38_9RHIZ
+MGGYILAIDQGTTSTRAMVFDGQMRVAGRAQREFPQHFPASGWVEHDPEDIWNSVVETVR
+LALADAGLGAKDIAAIGITNQRETTLVWDRQTGAPLHRAIVWQDRRSAPICEALKRDGLE
+PVFTERTGLLLDPYFSGTKITWLLDHVDGLKARAERGEICFGTVDSFLIFRLTGGRRHVT
+DATNAARTLLYDIGRNAWDAELAGLLGVPLAMLPEVLDCAADFGVTDPALFGAEIPILGV
+AGDQQAAVIGNACFEPGMMKSTYGTGCFALLNTGTDRVASTSRLLTTIAYRLDGVTTYAL
+EGSIFIAGAAVQWLRDEMGFIKVASQVSALAEQADPEQRVYLVPAFTGLGAPWWDAEARG
+AIFGLTRGTGPAEFARAALESVAFQTLDLLDAMQQDWQGHDGRTVLRVDGGMVASDWTMQ
+RLADILAAPVDRPLFLETTILGAAWLAGARAGLWPDAKGFAERWHRDRRFAPGMAAPERE
+AAIAGWRDSVRRCLSA
+>tr|A0A1Q9AMB8|A0A1Q9AMB8_9RHIZ
+MNHEKRTFEFYVLAAFFTLFVLFLYGPLSAVFILSFQGPNGGLTFPMNGASLHWFFNLFE
+KQAVGDFGASFSRSLMLGLMVMVVNVVVSLMAGLAFRRRFPGATLLFYGTVASLVVPSII
+ISLGIGVVFNQLGLQPAWYSSAFGAHLTWTLPFGVLIMFAVFNRFSPSYEEAARDLGATS
+WQTFRHVLLPMIAPSLIGVGLFGFTLSYDEFARTLMTSGTYNTLPLEIYGMTTNVTTPVL
+YALGTVTSLFSFSVILVALLVILGLRRRAARA
+>tr|A0A1Q9AKV7|A0A1Q9AKV7_9RHIZ
+MTRDRLYLFDTTLRDGQQTPGIDFSVEDKIAIAEMLDAFGLDYVEGGYPGANPTDTTFFA
+RRRTRKARFVAFGMTKRAGVSAANDPGLAALLQSASDAICLVAKSWDYHVAVALGCSNEE
+NLDNIRASVAAVVASGREAMTDCEHFFDGYKANAPYALACARAAYDAGARWVVLCDTNGG
+TQPSEIREIVAAVIAAGIPGDRLGIHAHNDTGQAVANSLAAVEAGVRQIQGTLNGIGERC
+GNANLVTLIPTLMLKAPYAERFTLGIDRERLQGLTALSHAFDERLNRSPDHQMPYVGASA
+FATKAGIHASALLKDPRTYEHVPPETVGNLRKVMVSDQGGKANFINALKRRGIAVDKDDP
+KLDRLIAIVKEREAQGYAYEGADASFSILAQRTLASVPDFFRVEGFRVMVERRYDANGQL
+RTVSEAVVRVSIDGETMMSVAEGHGPVNALDLALRKDLGPYQTEIADLELVDYKVRILNG
+GTEAITRVLIESGDSTGARWWTVGVSDNIIDASFQALMDSILYKLLKNRGEAGRAAAE
+>tr|A0A1Q9AJ66|A0A1Q9AJ66_9RHIZ
+MTDHSWLKTLPIAHRGYHDMNGHIWENTLSAFQRAVDKGFAIECDLHYTADSVPVVFHDD
+DTERLCGIAGDVRARTAGELGLLAVGGTKDRVPTFKQMLKLVGGRVPLMVELKGREGDDE
+GFAAAVLEVLEDYSGPVALMSFDAWLLADLKALDAPFPLGLTAWGETAEDFERHEKAMEL
+GLAFTSYHYAHLPNPFVDGVKARGLPVITWTVRDEAALRHSYAEGDQITFEGFDPTELPA
+SGLDNTARTNGKE
+>tr|A0A1Q9ACV8|A0A1Q9ACV8_9RHIZ
+MFPYLKTFGITRIARHTGLDRIGIPVWCAYAPNARSIVVAQGKGVTDEDARISAVMEALE
+RAVACAPATATVEASQAELEADGHKALSLAILLAVGKRPLDPAERIRWFCGTDLTTGEPV
+HVPADAVLLDRTIENNRYWQSSDGLASGNTLDEAVFHALMERIERDAYALFQLMPQAARL
+ARCVDPALLATPELEEMRARIADAGLCLTLFDITSDLKIPCYTAYLGPPPETLSAHARFT
+DVTYGAGAHPLAARAALRAVSEAAQSRMTFISGARDDLFAETYRRPLPDSTRRALEARPA
+GTPACETPAFADRAALLAHLAACRIGPVVAVPLSAPHLPFAVAKLMVPGLEHPEGARRQR
+HGLRALQAAIRA
+>tr|A0A1Q9AEL4|A0A1Q9AEL4_9RHIZ
+MSVSMSVTLRTASFAARTALAAGLSLTLAAAALAQGAAPSGGSSRMTGMKLSNDQPIQIE
+SDQLEVKDAESKAIFTGNVKVVQGATTLQAGTMVVYYKPASGSGAKNTPGGSLTGGNAQI
+DHIEVDKKVFISSGTQQATADSGVFQMDAQTLVLKGKEVVLSEGANVFTGCQLDVAMNTG
+EARLQACGGRVRIQLDPKSQQQQQQPQRTTN
+>tr|A0A1Q9AG96|A0A1Q9AG96_9RHIZ
+MNIATNPLDLKSETVALLAALGVDAAAFTRGDMASRTPVTGEVIAQLPTDSAEEAKAKID
+AADAAFRAWRQVPAPRRGELVRLLGEELRAHKADLGRLVSIEAGKIPSEGLGEVQEMIDI
+CDFAVGLSRQLYGLTIATERPGHRMMESWHPLGVVGIISAFNFPVAVWSWNAALALVCGD
+SVVWKPSEKTPLTALACQAILARAIARFGKDAPEGLSQVLIGGREIGEVLVDHPKVPLVS
+ATGSTRMGREVGPRLAKRFARAVLELGGNNGGIVCPSADLDMALRAIAFGAMGTAGQRCT
+TLRRLFVHESVYDQLVPRLKKAYESVSVGNPLTSSALVGPLIDKQAYDAMQKALEEAKSG
+TSGGSGSVVGGTRVDTGAPDAYYVRPALVEMPAQTGPVLEETFAPILYVMKYSDFDAALA
+DHNAVAAGLSSSIFTLNMQEAERFLAADGSDCGIANVNIGTSGAEIGGAFGGEKETGGGR
+ESGSDSWKAYMRRATNTINYSKALPLAQGVSFDIE
+>tr|A0A1Q9AGG1|A0A1Q9AGG1_9RHIZ
+MILFPAIDLKDGQCVRLKLGDMNQATIYNPDPADQARAFEAQGFEWLHVVDLDGAFAGES
+KNGAAVEAILAATRNPVQLGGGIRTLAQIEAWLAKGLARVILGTVAVRDPALVIEACRRF
+PGQVAVGIDAKGGRVAVEGWAEASELGVIELARRFEGVGASAIIYTDIDRDGILAGINWA
+STLALAEAVSIPVIASGGLASLDDIRRLAEPDAMRLEGAISGRALYDGRIDPAEALAILK
+AAKGEAA
+>tr|A0A1Q9ANA9|A0A1Q9ANA9_9RHIZ
+MADFSLWTAIVAGALSFLSPCVLPLVPPYLCYMAGITVDEFRGQGAVPVAVGGPSGSPAA
+GARKAVLLAALCFTLGFSTVFVALGAGASSIGMALRQHIDLLAQLGGLVIIAMGLNFLGV
+LRIGLFAREARFQGAGRPATLSGAYLMGLAFAFGWTPCIGPVLGTILAVAAVRETVGSGA
+LLLAFYSLGLAIPFLIAAAFSGAFMRFLTRFRRHLGLVEKVIGALLVLAGLAFVFGWVSL
+AAIWFQQTFPILTRIG
+>tr|A0A1Q9AMA0|A0A1Q9AMA0_9RHIZ
+MSFLTITKASKSYGANTVVREFDLSVGKGEFISFLGPSGCGKTTVLRMIAGFETPSAGRI
+TIDNRDVTLTAPNRRRIGMVFQAYALFPNMTVADNVAFGLKVAGADRATIDARVKEMLAL
+IHLDHLAERYPYQMSGGQQQRVALARALAPKPQVLLLDEPLSALDAKIRVSLREEIRAIQ
+KQLGITTVFVTHDQEEALSISDRIVVMNGGRADQIGTPFEIYNQPATRFVASFVGTLNLI
+DVTVVDPATGLVKIGEQTIALKDVLAASAGQTVTLALRPESGSILDGARGDTALTGEVVS
+SNFLGSVVRTRMRVGESLISFDMFNSPGFAPPALGERVTLRFSAADLLVIRD
+>tr|A0A1Q9AGN2|A0A1Q9AGN2_9RHIZ
+MRLTISHITEYAYGTPVSYALQRLRLTPVTTVGQTVLSWSTTVEGGAQQVSYDDHFGNRV
+ELMSIEGERDAIRIVASGEVETEDRAGVFGPHQSFMPLWLFLRDTALTKRTKAVRDLAKS
+VVQGDSDLSAMHALMGTVHQTIAFVPGETGICTSADEALEKRSGVCQDHAHVMIAAARAL
+AIPARYVSGYLLTESGAQQAASHAWAEMYLKGLGWVGFDAANNLCPDARYVRVATGLDYM
+DAAPISGLVQGAGSETLTVSLTVSDSGQWQSQS
+>tr|A0A1Q9AI35|A0A1Q9AI35_9RHIZ
+MTELFAEILRLWEGLKTILAVLSLIGISIVAIIGAAYAFFKYLGSKWIDNKFAKQLEAYK
+SEQTRELERLRHRINGVFDRTKRLHDREFEVLPDIWAKLVDARDWAGGYMAAFQQYADIG
+RMNEADLDEFLAGTRFSEGQKREIKTASDKQKTYIGTLERYRYADAMDKLREANVSLSKH
+GIFVLPDIRKDMKTLIDLIHSAVIEHQINLEHDVRPRMREGADKLKAEGEPLFKKIEEAV
+IERLWDSTTTTV
+>tr|A0A1Q9APF6|A0A1Q9APF6_9RHIZ
+MATIGQTVARTPSGEVLSRAQARARLVPDCLVEARRIANTVISGWHGRRRRGIGENFWQF
+RPYSDGESLSRIDWRRSARDDHTYVRDREWEAAHTIWLWADLSPSMMYKSTFGAVSKESR
+ALVIMLALAEILARSGERIGCPGVMEPVAARNAAERLATALMHADLSDGLPQTGMVRGFS
+DLVLIGDFLDPAERVMARLGPLARRGLTGHVVEIADPAEETFPYAGRTEFTDPETGEKLT
+AGRAEALREDYQRAYLARRSSLGEALRHLGWTFTPHRTDHLASEALVAVHMYLSGMPAAE
+RQAGIGRGQKASS
+>tr|A0A1Q9ACS8|A0A1Q9ACS8_9RHIZ
+MRAVAANTRVGCIFLALATIAFGPAAAARDALSRVIEQGCFARHYTMSHLSAHPRQRVKA
+VWLSHEDGRTADGGTELTIAFQIDGTTFGSTAYCKGSRCVLEADQGAFMLQTNGSDLRLA
+VGSRLSVEGAHGFSPDLGRSMDDRVFRLHPADRSVCAAVTF
+>tr|A0A1Q9AD09|A0A1Q9AD09_9RHIZ
+MSTPLSHLVLTDLAPAHRAGRPFGITSVCSAHPTVLRAAIRRARRDGQPVLIEATCNQVN
+HLGGYTGMTPADFVRFVEKIAAEEGLDRGQILFGGDHLGPNPWRKEPAETALVKAEAMVE
+AYVTAGFSKIHLDASMGCAGEPAALDDRTIAGRAARLAAVAEAAARKAGIAPPLYILGTE
+VPVPGGADHVLDTVEPTAPEAAEATIAVHKTIFAEAGLGEAFSRVIAFVVQPGVEFGSDN
+VVAYQPEKAEALSAVLATQPGLVFEAHSTDYQTEAALAALVSDGYPILKVGPGLTFAYRE
+ALYGLDMIASELVPGYGQRPLAAAMEALMRAAPADWQGHYHGEEAALRLQRHYSYSDRIR
+YYWNRPEADAAVAKLLQALDGVAIPETLLRQYLGGLPLAEIAGKSASEILVTAVDQVLGL
+YAAACRPAA
+>tr|A0A1Q9AGZ3|A0A1Q9AGZ3_9RHIZ
+MKLFSCTNCNNPVHFDNTVCVSCNSRLGFLAQSMKMYALAPAGVDDAGHEQWTIIGDNQT
+AVHFCENAAHDICNWLVPVSENQPFCIACRYNRIVPVTDNPEGLSNWQRISQAQRHLFYS
+LLRFNLPRPGRDVDPEGGLVFDFLADEVDANGNVIPAMTGHEDGLISLRAAEANDATRES
+VRLKMGEPYRTLLGHFRHEIGHWYFAVLVANNPEMLEKARALFGDEREDYAAALQRNYEQ
+GPPADWQNRFISTYASCHPAEDFAECWAHFFHIVDTLETARSFGLSTDPRRHEDMAAEVD
+FDPYRAANAQLLVDAWVPLSVAMNSIQRSMGQADSYPFILSQPVIDKLDFINELIRTAPH
+AAMSPDGQAAAPTQTPAAA
+>tr|A0A1Q9AKC6|A0A1Q9AKC6_9RHIZ
+MASIGFNELFFLAQGLKWTLALTLIGFVGGGIFGLLVALARTAEITWLRRVTAGYIAIFQ
+GTPLLMQLFVVYYGVALVGLNIDAWLAVAIAFTLHASAYLGEIWRGGIQAVPKGQTEAAK
+ALGLHYASTIKDVILPQAFKISLPATIGFLVQLIKGTSLAAIVGFVELSRAGQIVSNQTF
+RPLTVFALVGLAYFLICWPLSLWGARTERRLQTAAR
+>tr|A0A1Q9ALN6|A0A1Q9ALN6_9RHIZ
+MRIGIDWGGTKMEVVALDAAGAVRARHRHETPRDYAACIQTVQDLVALAEADAGERCTVG
+IGIPGSPNPRTGLVRNSNAVIINGKPLGRDLEAALGRPVRLANDANCLAISEAVDGAGAD
+QRVVFGVIVGTGHGGGIAIDKRVHAGFQGIAAEIGHYSLPWMTPSEYPGLTCWCGKKGCL
+DMYACGTGLELDYAEVTGARIKGRAIIEAKRAGDAVALAVYERFIDRLARSLALLTNIVD
+PDVFVLGGGMSNVDEVYTDLPGRILPYLFGDSFETPIRKALHGDSSGVRGAAWLWQDGDE
+DPRRPA
+>tr|A0A1Q9AJF1|A0A1Q9AJF1_9RHIZ
+MSRRHSAEKREINPDPKFGDLVVTKFMNAIMLHGKKSVAENIVYGAFDAVQAKLKQEPVA
+VFHSALDNIAPHVEVRSRRVGGATYQVPVDVRPERRQALAIRWLIAAARKRNETTMIDRL
+CGELMDAANNRGSAVKKREDTHKMADANRAFSHYRW
+>tr|A0A1Q9AKX4|A0A1Q9AKX4_9RHIZ
+MKSDNFQPERTGGIDDIVIVGGGLAGLFCALKLSPRPVTLLAAAPIGHGASSAWAQGGVA
+AAMSPGDTVDKHVADTLVAGAGIVDEKIARLMASEAADRIHDLLAYGVPFDKDLEGHLEL
+SREAAHSERRIVRVRGDMAGKAIMEALIAKVRATPSIRVLEGYVVEELVREGRFVSGVIA
+RPDAGQSLRRVAFPARAVVLCSGGVGHLFSVTTNPHEACGQGIGMAARVGAIVADPEFVQ
+YHPTAIDIGRDPAPLATEALRGEGAHLVNAAGQRFMAALHPDAELAPRDIVARGVFAEVS
+AGRGAFLDCRAAVGAHFPDAFPTVYASCIAAGIDPVHQPIPVVPAVHYHMGGVLTDADGR
+TSVDGLWAAGEVASTGVHGANRLASNSLLEAVVFGARIAEDIKTVLPVARIASWHENAGE
+SDDPVTLEDSPQLSTLRKLMSAKVGVIRTQAGLCDALAEIVELERANTRLRFGNILTAAK
+LMTVAALIRTESRGGHFRADFPAADPAWRHRSFLTLSDANRVVAERFGMRAA
+>tr|A0A1Q9AH21|A0A1Q9AH21_9RHIZ
+MTAVFLTREPKHAAASERDRLADGLTGLGNLGWMDQEVRRLAAERQDDPAPFTVALANID
+GFRPINDLLGQRAGDDILRQVANRLKACLPDGATVVRVGGDQFGFVLPLVFEQKGAEKVG
+LMLKDVLAAPFEIGERHIRLSASFGFAIYPFAGDDFDALMKSASTALYRAKRRGRAQITI
+YSEQIALEMRRRTQIEQALRNAIIADEVDVHFQPIVDLTGDRLVGFEALARWHDADLGTI
+SPSDFVPLAEDHGFIDRLTEVLFRKALRAALAWPKDIFLSFNLSSAQFVDLSIASTVVNI
+CRQTGFDPRRLIIEITETAVMADADTAQEIVAEMRAAGIHVALDDFGTGQSSLCRLRDFA
+FDKVKIDRSFVSRIANDHASEQIVKAIIAMCVGLNLEVVAEGIETPAEAMKLKALGCHMG
+QGYFYGRPKDIASTLKDLNGPFARGDTKA
+>tr|A0A1Q9ALC6|A0A1Q9ALC6_9RHIZ
+MRRLFLRDLALAFRAGGGGLTGLLFFLAVVAIVPFGIGPDLKLLARIGPSILWIGALLAA
+LLGLDRLFQAEREDGTLDLLLMQETPLVLIVLVKCLAHWAASGLTLALSVPFLGLLLNLD
+APAIGATMLTLACGTPALTLIGAGAAAVTVALPRGGLLVSVLVLPLAIPVLIFGVSATQG
+ALEAPASFLPPFLILLALNLLFAVLGPLAAAAALRSLED
+>tr|A0A1Q9AN08|A0A1Q9AN08_9RHIZ
+MMRRFIPLFAGAAFGASAMWAISTVMEPAQAASVATYRQLATFGAVLEQVERNYVTPQKE
+GDLVENAINGMLSSLDPHSSYMNAKDAEKAKSRISGEFGGLGLQVTMEDNLVKVVSPMDD
+TPGAKAGVLAGDLITEIDGQSVKGMKLEDAVGKMRGKVKTPVKLTLVRKGADKPIRLTIL
+RDTITVEAVRSRVEGDVGYIRIISFTEKTQEGLEAAIAKIKKEIPEDRLKGYVLDLRLNP
+GGLVNQAVSVSDSFLDRGAIVSMRGRNPEETRRYEARPGDLTDHKPIIVLVNGGSASAAE
+IVSGALQDLKRATVLGTRSFGKGSVQTIIPMNDGGALRLTTALYYTPSGKSIQGTGITPD
+IIVEQPLPPELQGKMETTGESSLRGHIQGRNETDAGSGSSAYVPPEAKDDLQLQAALKLL
+RGEKTDPAFPPRTDKAAALK
+>tr|A0A1Q9AE21|A0A1Q9AE21_9RHIZ
+MALTLSLNTNPLVNRYADPDDLIEMVARDLKLRDLQLTHEFINPSWPAPVIRRLTRQMGA
+ALQRTGVRVTSGMTGPYGRLNHFGHPDRDVRRYYVDWFRTFADIIGDLGGQSVGTQFAIF
+TYRDYDDPARREELIKIAIDCWAEVAEQAKAAGLSYIFWEPMSISREFGETIEACLSLQE
+RLTAANMAVPMWMMADIDHGDVTSANPDDYDPYAWARAVPKVSPIIHIKQSLMDKGGHRP
+FTAEFNARGRIQPAPLLAALEEGGAVDNEICLELSFKEREPNDRQVVDQIAESVAFWAPH
+IDTGAADLTL
+>tr|A0A1Q9AI07|A0A1Q9AI07_9RHIZ
+MARPRKGARHWHDEKTDTYFIRDIDADGKAIKFSLGFGKKEPDHGSKVELALAKYIAEKH
+VAAKVVIRNQDSSEVLVADAIRKYADVRIINFVPGSDKKKKEVARGHEALSRLKTVLEFF
+GEMSLDDLDVDARDDFVRFLRDKARARARATHARKVEAYLEKKEKWDAAALARAKSGRVV
+RELKRKPPVAPEPFDVSEVPFQPESALRYLQDLNSALTCAYERRLTRIHVKIPLTGKYDP
+RTTVFTDEQVIRLITHAHFKRGMGWIGKRPKQQVFIWRHLARFMLLAYFTGSRKTRMSLA
+SFEDEGDRPWIELKQVRDASGKLVWKGWLHRLGDDEIEYGNKSAPKIRMPSLLVRYCVKW
+KRQGLRYPCMYPYSANGKEEPGELQKSMRKCFREVLGEDTDAVIHTFRHTCATKLCQQPH
+LPLVAIAAYLGMTTETLVNVYAKHREEDLDKVADAFLDAGHTTARGAQNIGQKLTETDRN
+GIAWFDLELPENQKSSIRSIVRSGYAGI
+>tr|A0A1Q9AN24|A0A1Q9AN24_9RHIZ
+MADLPVPFTGAMVRALIEGRKRQTRRTIKRLRGGAAFCRIADLWPAPAVLDYRFEDANGV
+WHDINKDELLDRLPYRVGDRLWVKEKYLPDPPANDPSWDDHTCTYVEWSGCGSKVSDIPP
+ALRLPDHVLYATNPSFFGYQMRWRPGMHMPRWASRITLIVTEVRVERLQAIREADAIAEG
+IEPHKSGWMPYATMFYESDGVTPANYHVDPRISYMQLWESINGPRSWDENPMVAVYTFAP
+PILANIDSLPGAAP
+>tr|A0A1Q9AGB9|A0A1Q9AGB9_9RHIZ
+MRTPLSTLLLSPEAMTAVDRESAESGIDSYGLMVRAGRSVAAAALKYHPGALRFVVLCGP
+GNNGGDGFVAARALAESGATVAVHLMGEAQRLKGDAARAHADWIQTALQRPDEQMVALSN
+YRPQAGDVVIDAVFGAGLSRPVPDSLAQIIKAVEEAGLPVLSIDLPSGIDGHSGAVLGAA
+FQAERSITFMTRKPGHLLVPGRARTGTLEVVDIGIPERIVRAAAGPVQENGPLLWHEQAG
+ALDAATHKYKRGHLIVFSGNALTTGAARMSALAGLHSGAGLVTIAAPEAALAANAAHLTA
+IMLRKIEDAEALAGFLEDRRANSFVLGPGFGDLSKARDYVPLLAQRNLVLDADGITAFKD
+TPPLLFNAFAQGETRLVLTPHEGEFARLFPDLSADDSLSKVDKAIQAARRAHASIIYKGP
+DTVIAAPDGRAAINAHAPPWLATAGSGDVLAGIVGAHLAQGMPAFEAAAAAVWRHGDAGF
+RAGPSLSAETLTHHIHPLSQA
+>tr|A0A1Q9AL26|A0A1Q9AL26_9RHIZ
+MSLIERRKGQAVELVQDGADQWIRIPSDLALPGHSALLHREGERLVIEPVPATGLLDWLS
+TLTDWEGDFPELDEQAPPPRDVDL
+>tr|A0A1Q9AM48|A0A1Q9AM48_9RHIZ
+MSEKTMTPRPSRLPALSLPAVPLAILIGVVLGGLLVLVSGGNPLDAYWRILVGSLAPANW
+PDTLNWAVPLVGMTIAAAIPLRGGMVNLGGDGQLAIGGFVAAVLPVMLPQILPEAIALPG
+PVLAALAILAAMLASGLYAALAALGEVRFGIPMLISSLLLSYPAIGVTSYFVGFPLRDTT
+TGLSQTAMIPEGARLMTISGPLNIGLLMIVAVAALVLYVDRRTVGGYELRMRGLNPRFTA
+YGGVKPGPQMLRTLFASGAIAGLVGAIIVLGSLYRFQDGALLSPGYTWSGLMAALLAGGE
+PLGAITAGLFFAALQTGGFAMQRETEIPRVLTMILQAIIILFLAMRHGVGRRG
+>tr|A0A1Q9AM14|A0A1Q9AM14_9RHIZ
+MATYVLVHGACHEGHHFEDCAAHLRAAGHIVFLPTLKGNRPGDSRKTTTLEDAINSLVDY
+FDENNIDDAILLGHSWGGLPITGAADRLAPGRVRRLIYYSAFVPNNGESLMDMCPPHYQA
+LFPALAGDTGEVLFPFPILREAFINDASAEQAQALFDTLNPQPFNTMNDRITLSKNPAEM
+QIGKSFLHCTEDTSLPQSLPFHPRLSEKLGLYRLVSMPGSHSTFVTAPALLAQKIIEAGR
+D
+>tr|A0A1Q9AH77|A0A1Q9AH77_9RHIZ
+MRIVGGTFRGRALEGPKTDTIRPTSDRTRESLFNILAHAYSEAIDGTRMLELFAGTGAVG
+LEAISRGCRYAHFVELSAEGRGLLRTNIEALGLTGHTRIYRRDATDLGPIGTLEPFDFVF
+ADPPYGQGLGEKALTAALKGNWLVDGALAILEERADVLPMLPEAFAPIEVRIFGDTRMHF
+YRFRKQAP
+>tr|A0A1Q9ANK5|A0A1Q9ANK5_9RHIZ
+MFPVHQDKAILVTGAAGGVGRATAELLAAQGARLVLIDLDATALGSLAGTLGAPGHHLAI
+AMDLASEASVSDGFARAVEGFGTLHALVNCAAIVRHSEPLDIPRSDWERQFAVNLFGAYD
+IARLTARHMIDRGVRGALVAIASEAGKKGHVESLAYSASKAGVISMTRMLSEALAPFDIN
+VNCICPGGVATPMLREVAEAYSGYSGEAAPAIFDKMINTQLIRHIEPVEVARIASFLLTD
+DAMLIRGQAINADGGETPY
+>tr|A0A1Q9AMF8|A0A1Q9AMF8_9RHIZ
+MLIWLVELADKFQFFNLFRYITFRTGAAVVTSAMIVFLFGPVMISSLRVRQGRGQPIRAD
+GPQTHFKKAGTPTMGGLMILAGIVASSLLWADLSSVYVVSTLLVTLGFGAIGFYDDYLKV
+TKQSDKGFSGRARLAIEFMIAAIAVYFMMRTAQSAGTSGSTFGSSLTFPFLKDFTLNLGY
+FFILFGGFVIVGAGNAVNLTDGLDGLAIVPVMIAAAAFGLIAYLAGNAVFANYLQIHFVP
+GTGELAVILGAVIGAGLGFLWFNAPPAAIFMGDTGSLALGGLIGTIAVATKHEIVMVIIG
+GLFVMETLSVIIQVFWFKRTGRRVFLMAPIHHHFEKKGWTESQVVIRFWIIAVILALVGL
+STLKLR
+>tr|A0A1Q9API4|A0A1Q9API4_9RHIZ
+MNQDKDRSLEVRLKTPLGATRLDIGFTAGAGVTALFGPSGAGKTSVLRAIAGLLRPEEGL
+IRFCGQTLLDTGAGIAVSPHRRGFGVVFQEARLFPHLSVRRNLRYGAVFSQARGRPDSAE
+FARIVDLLGIAPLLERAPRHLSGGERQRVAIGRALLAAPRLLLMDEPLAALDENRRSEIL
+PYLERLRDETRVPILYVSHSVAEVARLADQVVLIDRGRVAGAGPAAETLGRASLMAGASS
+RERGVVLEGRVAGAQPETGVTTVEIAGARLRLAEEGLAPGAAVRLRIAARDVMLSLRPVE
+GISALNSLPMRIAGLTPLDGRTMEVRLEQAGGLHLLAHVTTVSAQALGLAVGLAVHALVK
+SVALDHFR
+>tr|A0A1Q9ANZ5|A0A1Q9ANZ5_9RHIZ
+MSATTPWTTETPTALLVLADGTVIEGKGVGATGVIEAEVCFNTALTGYQEILTDPSYLGQ
+IVTFTFPHIGNIGANGEDIEDLTPAARRGAVGVIFKADITDPSNYRSAQHLDQWLKTRGV
+IGLSGIDTRALTAWIRENGAPNAVIAHDPNGQFDIEALKARAKAWSGLEGLDLAKEATSG
+QSSQWNEKPWVWNEGYDEAKPEEAAYHVVCLDYGVKRNILRLFTGLDCKVTVLPASAKAE
+DVLALNPDGVFLSNGPGDPAATGEYAVPVIQELIKTDLPIFGICLGHQMLGLALGAKTEK
+MHQGHHGANHPVKDHTTGKVEIVSMNHGFAVASASLPEGVEETHVSLFDGSNCGLKITGK
+PVFSVQHHPEASPGPQDSHYLFRRFINLLREKKGEPALAERA
+>tr|A0A1Q9AEY8|A0A1Q9AEY8_9RHIZ
+MRRDELIAGEYVLGILSLEDRGKVEARMAADRRFAATVRRWQTNLSGLDDAYQPVTPPAH
+LRRRIERRVFGAPAPQPSLWHSLVFWRGCAFASIAVIAVLGGMVALSERAPRPAPAPTLS
+AEMAVTGTGIDLIAAYQAASGRLMVRPVAARQEGARSLELWLVEGGQAPRSLGILPESGE
+GGLIVPADLRRALGPGATLAVSIEPPGGSPTGKVTGPVIAQGPVARMP
+>tr|A0A1Q9AIV1|A0A1Q9AIV1_9RHIZ
+MAVSETKTAAPPSGLAEFWFYFSRNRGAVLGLVIFLVILCLAIAAPVVAPHSPTEQNRAV
+LLLPPAFAAGGQLTYLLGTDPVGRDILSRLIYGARFSLFIGLVVVSLSVVSGVLVGLIAG
+YFRGRIDTAIMRVMDIVLAFPSLLLALVLVAVLGPGLLNAMIAISLVNLPHFVRLTRASV
+MTERTKDYVIGSQVAGAGTMRLMFLTILPNCLAPLIVQATLAFSAAILDAAALGFLGMGA
+QPPTPEWGTMLAEAREFIQRAWWVVTFPGLAILITVLAINLMGDGLRDALDPKLKRS
+>tr|A0A1Q9AJN5|A0A1Q9AJN5_9RHIZ
+MNPLRIAKNWMNYRRTMAELASLSNHALSDIGITRYDIRNIASRSFQ
+>tr|A0A1Q9ALT4|A0A1Q9ALT4_9RHIZ
+MIYGTRQTKRPLRWAMVGGGRGSQIGYVHRSAALRDRYFDLVAGAFDIDAERGRAFGAEL
+GLDPSRCYADWRTLFAEEAKRPDGIEAVSIATPNNTHYEITKAALESGLHVVCEKPLCFT
+VAEAEDLQRIAAERGRIVGVTYGYSGHQVIEHARELVAAGELGEIRLVNLQFAHGFHNEA
+VELQNPATRWRVDPKFAGPSYVLGDIGTHPLYISEVILPDLHIKRLLCARQSFVKTRAPL
+EDNAMTLMEYDNGAFGTLWSSAVNAGSMHSQKVRIVGSKASIEWWDEQPNQLRFEVQGEP
+VRILERGMGYLHAKALADDRIGAGHPEGLFEAWANLYDRFAIAMEARNENDGDRLAGIRY
+PGIEAGVEGVRWVENCVRSADQGGVWVDYR
+>tr|A0A1Q9AQ82|A0A1Q9AQ82_9RHIZ
+MKPVRIIIMAIAVASAGTAGMLALNLKGTQTVISEKVVERAPTTQVLVSSRSLPVGARLT
+GADLRWMQWPKDGVIDGFITQDGRPGAITDLTGAVVRLPIFSGEPLRAEKIADSSSRILS
+SLLPAGKRAVSTNITVATGAGGFILPNDRVDVIMVRKNEGSTYSTETVLSNIRVLAIDQQ
+IEEARDGTKSVVGTTATLELTPDQAKVINVAQQMAERLSLALRSLADAQEPDTAAAEYLI
+NGGDRHAVQVIKSGTIVTTDQTTTASTAR
+>tr|A0A1Q9AKN5|A0A1Q9AKN5_9RHIZ
+MFKSLVTEVLGVGAEPVESGASLRDFEWKYRVLVIVQDKTGIEAAAQADSFMAQADALRE
+RDLVLISVAETSARVLFGPTEALTTTHLDAGALLSDLDAAPGSFHIALIGKDGTVKLTSD
+RPVDPSSIFSRIDQMPMRKDEMRH
+>tr|A0A1Q9APG4|A0A1Q9APG4_9RHIZ
+MRIFTAALATETNTFSPICIDKRAFEASLYAPPGTHPETPTLCTAPITVGRRVAREKGWT
+LIEGTASWADPAGLVSRATYEGLRDEILDQLKAAMPVEAVVLGLHGAMVADGYEDTEGDL
+LARVRALVGPDVLVAAELDPHSHLTEKRFTAADILVYFKEFPHTDFVDRAEDLWRIVVDT
+LEGRVRPVMSMFDCRMIDVFPTSRDPMRSFVDRLMAIEAQEAEILSISVVHGFMAGDVPD
+MGTKIVVVTDNAPEKGTELARRLGMELFSRRGTFLMPQIDEREAVDRAIAAEHGPVVIAD
+MWDNPGGGTAGDATVLLSELLARGVRDAAVGTIWDPMAVQICMAAGEGAEIPLRFGAKSA
+PGTGQPIDGFVKVVKLVANAEMRFGESFAPFGDAAHIVLDGIDIILNSTRAQSFDPSLFS
+VMGIDPTQKKILVIKSTNHFYASFSKIAAEILYCSAGTPYPNNPARTPYRRARRDIWPMV
+DNPHGMPDVA
+>tr|A0A1Q9AIJ9|A0A1Q9AIJ9_9RHIZ
+MIRLIVFLAALAAMSGTALAQGFPSNIFNTPIDGSAASWIIRTFGLLTVLSIAPGILIMV
+TSFPRFVIAFAILRSGMGLATTPSNMIMVSLAMFMTFYVMAPTFDRAWREGVDPLIQNQI
+TEAEALPRIAEPFRAFMLANTRDKDLQLFVDMAREKNLTLEQNGQVDLRAVIPAFMISEI
+RRGFEIGFLIMLPFLVIDLIVATITMAMGMMMLPPTSISLPFKVLFFVLIDGWNLLVGSL
+VRSFN
+>tr|A0A1Q9AM12|A0A1Q9AM12_9RHIZ
+MVTNTSFSQRAQDAADNDRLFRLVLLSDLEDDLVNVADSLLALKKGYESEQIFHEFLPQS
+AQGRLPYTKVDGQIDNILEATIEWIENFGEGFLTVLGDFGGGKTTLLRRLEYEFSSLFLQ
+KRTRHRPLYFTLKDYSFYEGLDEFIASSVRQKYQRNMPSNVFWTLAREGGFLFLLDGFDE
+IITGVDRSDRAKTFLSLHRIISSGSPVILTCRPAYFVSTEELNDLIRQVNFRDGQKNPGL
+PSRWDAHLFNIGETTALARTSQFLFEKYVDNATLDPLMNLSSTVTHLEVFQPAQIDEYLK
+KFDSDFRNVSNSGWNEVKAEIEKIYDLTDLMKRPIMLSMIKDTILQGQIDIRRHNVIGGA
+FSLYDAYTSVNLKRDWGKSKGRKLLSEKQRQEYAQLIALTMFKRANLNVDHSEIIKVAKE
+SPLSLGFSADLSQLDPEQLAADIQVTTFLSRQGSSFRFTHKSFMEFFVAKSVVDKLSDQR
+MAKTSLTEPYTREIISFIGEAATVNPKLLSKVSTILLAQTNAPKKRDDSDIIKRNAVGIL
+LSGTEVIATDYFSNNHVWELSVRKRTIDGLVVRGTQWDYCGWHLVTLSKTSISQSHFIGW
+RVEGGSWTDVSFNGRLQDSHFEDVQFSNCVVAASTQKTIFQSCAFSGGALTVRGEFQVNS
+SAFKAMNLSIDVGVGAISRLSFSNFENCELADIAGPHYRPVMIEHCIFTECQFVGFSPSS
+KFIERLLYEHQVFSKGLTVDEERTIILDRCAGILFIDEFDDWIKIGKQGFKAIGNVFLVA
+QGTLQSKIKARTAFVRTLSNRFGKEYPQLLGKLEAACPGIFKVPSDPSPKRQEGGQVAKR
+SLNT
+>tr|A0A1Q9AJZ1|A0A1Q9AJZ1_9RHIZ
+MKLVIALAALLSATAAHAGTIVVSTSKLDKFRALLVDAMKAAAQAKPGVTLIVESANGDR
+ELQLEQMRKSAGQKIDAMIVISSDGDQGPRMTEIGKQAGVPLVFVNTSPANLADLPDSQV
+YVASDEKESGTLQAQEVCRQLHGKGKAVVLIGEPFHFAARTRTNDVDAVFAQPDCSGIQI
+VERQAAYWSRDYASQQMQEWLKAGVTFDAVIANNDEMALGAIQGLKQAGRAPKDIVIAGI
+DATNDALMAMQAGDLDMTVLQDANGQGKGAVEAAIKLAAGQKVPRETYIPFQLVTQQNLP
+QYLPKSQ
+>tr|A0A1Q9AD48|A0A1Q9AD48_9RHIZ
+MTDAAPQIDFTFPLTGKVALVTGGGSGIGAATAEALSAKGARVAVLDINREIAEAQAARL
+TGEARAFVCDVADPASVEQAVADVLAAFGGIDIAVNSAGVALLAPATELTLAHWDKTIDI
+NLKGSFLVTQAVGRAMIAAGRGGRIINLASQAGTVAIEDHVAYCASKFGVIGMSKTFAAE
+WGKYGITVNTLSPTIVLTELGKKAWAGEKGESAKKRIPNGRFAYPQEIAAAAVFLASEGA
+AMINGADLLIDGGYTIL
+>tr|A0A1Q9AME6|A0A1Q9AME6_9RHIZ
+MLRTFDIVLVVIMTAAATVTYTIKHKAENKLEEIHKLDAEIKLEEDTIELLKADWALVTQ
+PSRLESLVRVYQQDLQIAPTPSTQIVQPQELPMLKADVPPPPAPDDKTAKAKKKPATDSI
+ATGSVAR
+>tr|A0A1Q9ALY6|A0A1Q9ALY6_9RHIZ
+MVARKVSITDVAKAAGVSIATVDRVLNNRGGVRTDKEDRVLAAARALGIDRALDRTPSRT
+LRVAVLIQPPTNPFHASLREGIDLASRMYATLNIKFFVKHIDPTKVEAIASLVHALGPYD
+GLIITSPDDERIREAISKISLKIPVVTLVDDVGGSGRSAHIGPDNRQCGRVAGDLMGLFL
+GNEGGQVLIIAGSKAITGHREREAGFREVISERYPLCSVYAVLETGEDQDNAGRIVELAF
+FKNRGIKGIYHFSSGALSIVNALQQMGNLERTVVITHELTSNRRMLLRARKLRAVIDQKP
+LLEARLAVETMAKLLGRLAGQASSISTDIQIFLTENA
+>tr|A0A1Q9ADK7|A0A1Q9ADK7_9RHIZ
+MTKKKILLAGESWVSTATHIKGFDQFPTVTYHTGADELLKALKDSPFDVTFMPAHEAQRD
+FPTTLGGLEAYDAIVLSDIGANTLLLHPDTWIHSRRTPNRLKLIRDYVAKGGALLMFGGY
+YSFQGINGGARFRNTAVEEVLPVSCLAFDDRVEVPEGFTPVVSGDASHPILKGITGELPY
+LLGFNEVTLKDGAEQLMTVSSEYGSLPLLVTGTYGEGRSLVWTSDVGPHWLPPEFIAWPD
+YKTLFEQMLAWATGLATD
+>tr|A0A1Q9AFY1|A0A1Q9AFY1_9RHIZ
+MTASAIVTAAMLAIGDELLSGRTKDKNIGHLAEVLTLSGIDLKEVRIVADDEAAIVAALN
+ALRGAYTYVFTSGGIGPTHDDITADAVSRAFGVECVHDPDAMTLLGDMYKRREMEFTEAR
+RRMARMPIGARHIPNAVSTAPGFIIGNVYVMAGVPQVFQAMLNAVLPQLETGAKVISRSV
+RSPFGEGDIGGPLGEVQKRHPETSIGSYPKFDGQSFSTELVIRARAEEALDAAEADILAM
+LATITAARSSGSADA
+>tr|A0A1Q9AIH5|A0A1Q9AIH5_9RHIZ
+MIARVIAVLLACLVLAVLPQTLRAQEGLTPSERGEMEAAIDMAIKTQPSGTPVRKPLSER
+TAMTIIPEKATSGRSGGICNSCTDPCRQFSLQIDTDGGAVMSIYQGRKCMIAQARDPHTA
+PWAYAEPLRLVATERAIAPALLAMLRSDLVALQYLSPGEDAPSSRVMAALDAFRADAFLS
+GRVGQAVGDIDVVTLKNTLARSRIPAMDGCAQAAAAARACGALGG
+>tr|A0A1Q9AKW1|A0A1Q9AKW1_9RHIZ
+MTDPVRTGGCQCGAVRFQVEGPLGDASVCHCRMCQKASGNFYLPLVSVRQARLIWTREVP
+RRFQSSNHVRRAFCPHCGTPLTYEAPDGMSVTIAAFDDPTDIRPTVQWGTENKLPYVDGV
+ADLPAHATLEDLTAASFIADIVSYQHPDHEVPGWTPRLDEEERETKDHWRPQEQGV
+>tr|A0A1Q9ANY5|A0A1Q9ANY5_9RHIZ
+MTQQAKTKKLINAPENIIAEMIEGMVGAHPDLLRVEGPTGRAVVAVDGPRDGKVGVVIGG
+GSGHEPAFAGYVGRGLADAAAVGNVFASPSPAHIADAARAADGGAGVIMLYGNYTGDVLN
+FTMAAEELAAEGMAVRHVAVADDAASAPIERKEERRGIAGDFFVFKIAGAAADLGEPLAR
+VEALAKAANEATRSMGVALSACSLPQTGRANFFIGDEDMEIGMGLHGEPGIRRQKLAAAD
+EVTDELMDRLIDELALSGGGRVAVLVNGLGSTTQIELYLIFRRVKQRLDALGVSIHASWV
+GEYATSLEMAGASITLMRLDQTLQALLDHPCRTLALTVGTVHDGAAAEIRSRKSEKAADT
+ARVAESTADLVAEGDVTPDIFRAMMKKVGEEIIAEKDWLSDLDGVIGDGDHGVTMEIGWK
+AVQSAMEDAPAEETIDGTCKRMAKAFLDAVGASSGPLYATAFLRAGSAVANRLNLDAGAM
+AAWIAAACQGIRDRGRAEPGDKTMVDAWVPAAAAALSTAQSGVSTLDTLKAARDAAEAGM
+KATATMEARRGRSAKLGARSLGHVDPGAASTFVVLRAMTLALEQVR
+>tr|A0A1Q9AFW5|A0A1Q9AFW5_9RHIZ
+MTKIVSLNAHRPAHGAGHQPRLKVAVIGSGISGSSAAWALNDVHDVTLFEKDARPGGHTA
+TVDVDYNGRMIAVDTGFIVYNEANYPNLTALFDLLKVKTHPTSMSFSLSLDEGALEWKGG
+PFSSLFAQKRNLVRPSFLLMLKEILRFNRVCLADRSAGRLEAMSIGEYLDWRGFSPGFTN
+NYLIPMAAAIWSAPPNRMMEFPAWHFVRFFDNHRLIYSRPHPWRTVVGGSRTYLNRLLTP
+LAGRIRLSAGLRAIQRDATGVTLIDAAGHAERFDKVVIATHSDQARALLADATPVEEEIL
+SAVPYQANRVVLHRDRTLMPRREKVWASWNYLRSSSAEGAHRVAVSYWMNNLQPIDAACP
+LFVTLNPEREPDPKLVFGEYSYDHPQFSGRSMQAQERLATIQGDNHTYFAGAWTGYGFHE
+DGLSSGLAAAEALGATVPWRSRAGFVQAAE
+>tr|A0A1Q9AQ97|A0A1Q9AQ97_9RHIZ
+MALLISLKSIRKTFTSGEVPVHALKDVSLDIEEGDFVAIIGQSGSGKSTLMTILGCLDRP
+TSGQYLLDGEDVSDFSPDELAERRRRMFGFVFQSYNLVPTASAEENVEIPAIYAGMPAEE
+RRDRAEALLERLGLGDRLDHLPNQLSGGQQQRVSIARALMNGGQIILADEPTGALDSKSG
+RDVLATLRQMHAEGHTIIIITHAPELAESADRVIEIRDGQIVADRRLRPLPKARQTTPQA
+LAPAQASAAVAADVLEAMRMSMRALRANLFRTVLTLLGIVIGVASVVAMLAIGNGAQQSV
+LSRIAAMGSDLLIVRPNMANFRGGEGGSIVSLIPSDADAILELPNVAFAVPEMSSTMTVR
+AGNRDTQTTVNGTVPQFPAAKSWEVGTGTFLSAADMTSYAPVAVIGQTVADTLFPEGEQA
+LGQYILIKNIPFQVIGIMARKGATAGGQDQDDAVLVPLSTGNLRLFGARNVRSITVQVQD
+DSAINVTQDQIQALLDARHKRQDTQITNMAAIRETFTETSNVLKIFLGSIAAISLIVGGI
+GVMNIMLVSVTERTREIGIRMATGARARDILTQFIVEALVVSALGGVIGIALGLSIGGVA
+QALGVPVSFAPGPVVLAFGSAFLTGLVFGYLPARNASRLQPAVALSST
+>tr|A0A1Q9AFU1|A0A1Q9AFU1_9RHIZ
+MQDVEIAVVGAGLAGALAALGLAAAGRRVALVGPEPAAADGRTTALMDRSIDFVRRLGLW
+EDGLADLAAPLSTMRIVDATGRLLRAPTVTFHAADIELPAFGYNMPNAAMLERLEARIAE
+TPDILRLPTVVESIEETQEGHRLVLGDGTRLATRLIVGADGRGSKARKAAGIEARTWSYP
+QTAVVLTFVHELPHQSISTEFHTAEGPFTQVPLPGLRSSLVWVRKPEKANALIAMAPEAL
+SRAVEDGMESLLGKVMVEGLPQAFPLSGMSAERVGRGRIVLVGEAAHAFPPIGAQGLNLS
+LRDVATVVEMLGTGGPIARDFGERYAARRRLDVATRTLSVDLLNRSLLSDFLPVQLARAG
+GLQALSSTGILRNLLMREGVHPGSAISALVDSLKPGTFRRPEAGGL
+>tr|A0A1Q9ADC3|A0A1Q9ADC3_9RHIZ
+MSAFVNPLAPRRPRAAEATSRIRSWLRARLALPEDVLIVVNEVACAEPGCPDVETVIGLL
+PPSGPSRTFKIERPIAEVTTADLERMLDGEAAA
+>tr|A0A1Q9AJ70|A0A1Q9AJ70_9RHIZ
+MKTRLTGTLLVSMMLATGAQAGGLERGGYNIDLLFDPGTYAAEATTTYVSPQRKYKDAVD
+TNRLNGLGSNGIGGGKTSVTDSPDYWVPRVGLKAGWEGVDCMVDYSQPWGIHSKPGADWV
+GANDNIETKVTSDNYAATCSYKWAMGPGQIRLIGGAFYQEVEGFKERLVAPDFAVPGTGV
+GRLDLKGDGWGWRAGVAYEIPEYAMRASLVYNSEVNLKDITGTLDLSQVNGRVFDVYGSQ
+KMPDTLELKLQTGIAPDWLAFGSVKWTDWSQLQTIPFCVKGVPSCSPATQITSLDLLYRD
+GWTVSGGIGHKFNEQWSGAVSLTWDRGTSTGILSQTDSWTLGTGVSYTPTKNVEFRLAGV
+VGILTSGESGAKEYNGRVYGNEVKYSFDNDFVGAISTSVKVRF
+>tr|A0A1Q9AKU6|A0A1Q9AKU6_9RHIZ
+MTIDPATLATILAMAAATLAARLAGAFLVRRITLGPKLEQALNTVPPAVLMAVVAPTALT
+TGPAETAACAVTALAALRLPMLAAATAGVVTVAVLRALGF
+>tr|A0A1Q9AN17|A0A1Q9AN17_9RHIZ
+MGQSLPPSGPDDHIQPVDLKAALEERYLAYALSTIMHRALPDVRDGLKPVHRRIVYAMSE
+MGLRSNTAFRKCAKIVGEVMGNFHPHGDQSIYDALVRLAQDFSVRYPLVDGQGNFGNIDG
+DSPAAMRYTESKMTPVAELLLGGIDEDAVDFRETYDESNREPVVLPGAFPNLLANGSSGI
+AVGMATSIPPHNVHELCDAATLLIKRPDATIEELVDKVPGPDFPTGGIIIDGRASIIEAY
+ATGRGGFRVRARWSVEDLGRGAWQIVVTEIPYQVQKSRLIEKVAELLIARKLPLLEDIRD
+ESAEDVRVVLVPKSRSVDPTIMMESLFRLTELESRFPLNLNVLSMGRIPKVMSIRDVLLE
+WLQHRREVLQRRSRFRLAAIEKRLEILGGYLIAYLNLDEVIRIIREEDEAKPALMAAFSL
+TDLQAESILNMRLRSLRKLEEFEIRTEFDNLTKEKAGIEALLDSPEKQWKTVSDEIADVK
+KRFSKATDLGRRRTDFAEAPQADVEAIQQAMIEKEPVTIVISQKGWIRALKGHIADTSSL
+QFKEGDGPKLAFPAMTTDRLLIVTTGGKAFTLGADKLPGGRGHGEPLRIMVDMDTDQDVL
+AAFVHDPARKRLIASTSGYGFIVAETELVANTRKGRQVMNVALPDEVKLAVPIKGDHVAV
+VGENRKMLVFPLAQVPEMGRGKGVRLQRYKDGGISDIRCFAIEEGLTWADSAGRSFSKTR
+EELIEWLGDRAEAGRLVPKGFPRSGKFTG
+>tr|A0A1Q9ANT2|A0A1Q9ANT2_9RHIZ
+MADPRFFECAGPFELAEVAARAGGTLVGEADRLIDDVAPLQTAGPREVSFLDNSRYLPQL
+GQSQAGAIIVHLAHADSVPPGTAAIVAKDPYIAWAQVCALFHPQPGARASIHPTAVIDPE
+AEVDPSCEIGAHVVVERRARLAAGCVLGAGSVIGQAVEIGENSRIGANCVVSHAVLGARV
+RLFPGVKIGQDGFGFAPAAAGYVSVPQLGRVILGDDVHVGANTTIDRGSARDTVIGTGTR
+IDNLVQIGHNVVLGRQCIVVAQVGIAGSTTVGDYTRIGGQAALAGHIEVGRGVQIGAQAG
+VISDVEPGAVLLGSPAQPKRDFFRQIAFLKRMAPRR
+>tr|A0A1Q9AJB2|A0A1Q9AJB2_9RHIZ
+MDVRAAVATQAGKPLEIMTVQLEGPKAGEVLVEIKATGICHTDDFTLSGADPEGLFPAIL
+GHEGAGIVVDVGPGVTSLKKGDHVIPLYTPECRECYSCTSRKTNLCTSIRATQGQGVMPD
+GTSRFSIGKDKIHHYMGCSTFANFTVLPEIALAKINPDAPFDKVCYIGCGVTTGIGAVIN
+TAKVEIGSTAIVFGLGGIGLNVLQGLRLAGADMIIGVDINPDRKAWGEKFGMTHFVNPKE
+VGDDIVPYLVNMTKRGNDLIGGADYTFDCTGNTKVMRQALESSHRGWGKSVIIGVAGAGQ
+EISTRPFQLVTGRNWMGTAFGGARGRTDVPKIVDWYMEGKIQIDPMITHTMPLEDINKGF
+ELMHKGESIRGVVVY
+>tr|A0A1Q9AEG5|A0A1Q9AEG5_9RHIZ
+MAEPVGIAGAIPILRIFSVEKAMAFYLDFLGFTLDWEHRFEPGMPLYCQITREGLMLHLS
+EHFGDTTPGTRIFVPVRDARALQAELAGRDFPFMRPGLETVPWGLEVTVTDPFANRITFC
+QRND
+>tr|A0A1Q9AGQ6|A0A1Q9AGQ6_9RHIZ
+MSVSTASSPSVGAEAGAAPLTVLFSFLSRADSTPRDQRSRAAGHLVGLDGNPLADPSANA
+FEPDPNINFEHWGEYWRKVHGVRFLHPDEADDRKSIDLLLRYDQIQRLAPGPASLNPPPY
+RPPLDSRGQLFDTIIGHVQPYRRPQWDGVAYLNFASLDDLAAVLGSERVRRKILPEDQAI
+FRDLAPLLACQFIILPNTAGNDAITLVKTHVQRDGLDRQAFQRLWLHEHAKVVLRQPDTS
+RLVRRYVQLHNIGPVIEGEPFYHPATSRIDGVTVMSFASMKDAEYFLLSDGYAEIEQAER
+SITVADAGEYWTGVTFSVVDRLTPERATSREA
+>tr|A0A1Q9AHG6|A0A1Q9AHG6_9RHIZ
+MSDRPTMTTSAGAPVPDNQNSLTAGPRGGIMLQDYQLIEKLAHQNRERIPERVVHAKGWG
+AYGTLTITGDISRYTKAKCLQPGAVTPMLARFSTVAGEQGAADHERDVRGFALKFYTEEG
+NWDLVGNNTPVFFVRDPYKFPDFIHTQKRHPKTNLRSATAMWDFWSLSPESLHQVTILMS
+DRGLPQTPMHMNGYGSHTFSFWNDAGERFWVKFHFKTQQGHKHYTNEEGEAIIGKTREGY
+QEALFGTIDKGEFPRWTVQVQIMPELDADKTPYNPFDLTKVWPHSDYLPIEIGVMELNRN
+AENYFAEIENAAFSPSNIVPGIAYSPDKMLQARVFSYADAHRHRLGTHYENIPVNQPRCP
+VHHYHRDGQMNTYGGIRTGNPDAYYEPNSFNGPVENKTAQEPPLRISGDMSRFDHREGND
+DYGQPRALFNLFDDGQKARLFSNIAAAMGGVPGEIVERQLAHFKQVHPDYEAGVRAALEA
+AHGYKADTISADKPQAAE
+>tr|A0A1Q9ALM6|A0A1Q9ALM6_9RHIZ
+MHFTIASVPEIRFGAGLHETIGAAAREMGATGTVALVIDSFLVRSGLAGRLEAGLQEHGL
+ASRRFSDFSGEPKLDHLRAADAVVRGGPGETPATLIIGVGGGSALDIAKIVACTAASGED
+AMHFALAAHPLPRQPVPTLLMPTTAGTGSETSATNIFTGPAGRKLWIWGPESKADLVVLD
+PALTLSLPPDITAWCGLDAFVHAFEAATNRKTHAGTQLYAHRALAMIAEALPAAIARPDD
+LAARGALLLASCYAGIAIDLSGTAIAHHHSHALAGLAPVHHGLATALAFELTLPWLVKAD
+TDDLRGAALACGLPSAGALPGFVSRLMDAAGIARRLPPAFATVTPEQLMAEMQAPEHQPM
+RAATVRPITETELARFSEGLLALT
+>tr|A0A1Q9APU2|A0A1Q9APU2_9RHIZ
+MLKKTLLAAVALAALAGSAVAQDLKEFRIGILGGENETDRLRNYACLADHLKKEFGFEKV
+SLFPAADYDGVIQGLLGGTLDFAELGASGYAKIYLKDAKAVTPILTTKQADGSTGYYSIG
+LARKDSGIKSIADAKGKTLGYADPDSTSGYLVPLTQIPKTTGMPNDKYFAKTQFNGGHEN
+NLLAAYDGKVDIAVDDSSGIGDFKDGFTSGTFHKVVAKGTVDPNKLVEVWRSPLIPNGPL
+VVQNKLDDQWKTKLTDFFMALPKKDAKCFNAVEGGDYVGYVKVEPGFYDAIIDVRKQSIG
+G
+>tr|A0A1Q9AQ26|A0A1Q9AQ26_9RHIZ
+MILQSARLSFTNLLAPETRAVFWKVIGLTILILVALWFLLRELFVAYATPLLEQWLPGMA
+GWEGWLIFVVAILASLGLALALAVMIAPATALVAGFFLDDIAEQIERRDYPGEPVGQALP
+LGTAIRGTIAFFGVVILGNIVALLLLLLPGINLVAFFLVNGYLLGREFFEFAAMRYRSPQ
+EARLFRARHGTTVFLAGLVLAAFLAVPLLNLLTPLFAAGMMVHLHKALTARDGARLAQAT
+AAGSLNPPA
+>tr|A0A1Q9AQB2|A0A1Q9AQB2_9RHIZ
+MLFHVRMNVELPHDLPEKDVADILQREKAYSQELQRTGKWRHIWRIAGQYANISIFDVAD
+NDELHQLLCGLPLFKFMDIQVTPLLRHPSAVRADDS
+>tr|A0A1Q9AQF1|A0A1Q9AQF1_9RHIZ
+MNDGLLIDTSVISLLSPDRKEKLSDAVKAWFHEQGAADALYLSAMTIAEIEKGMRSLHCR
+GGIERAKRLNEWLDLLVDSFADRILTVDPIVARIAGALEDAATAEGRHPGLGDILIAATA
+KAYGLTVVTANLMHFLPLGVDCDLPAVFRREGMR
+>tr|A0A1Q9AID3|A0A1Q9AID3_9RHIZ
+MRILVVEDDANLNRQLADTLKEAGYVVDQAFDGEEGHYLGDSEPYDAIILDIGLPEMDGI
+TVLEKWRADGKVMPVLILTARDRWSDKVAGIDAGADDYVTKPFHVEEVLARIRALIRRAA
+GHATSEIVCGPVRLDTKGSKATMNGVALKLTSHEFRLLSYLMHHMGQVVSRTELVEHMYD
+QDFDRDSNTIEVFVGRLRKKIGNDLIETVRGLGYRMQAPGAAGKDARP
+>tr|A0A1Q9AKC4|A0A1Q9AKC4_9RHIZ
+MTDAGPLLEARRVFKGFFGNPVLKGVDIALRPGRVHAVLGENGAGKSTLINLLSGALAPD
+EGLIAIDGRPVSRLSPATARAAGIAVVQQELSLAGELSIAENIGLGAYPRRFGLIDYGAL
+ARGVREVCDLVGLTEPLDMPVADLALGRRQMVEIAKALFRKPRVLILDEPTSSLSAHEAG
+VLGRVIATLRDRGVAILYISHRLNEVQALCSHVTVLKDGGVTADRSLAGIDGEGLVRLMV
+GRETGELFPPRRQGQAGRMRLDVEGFSAGLVRHARLVGRAGEIVGLGGLVGQGQEDLLLG
+LYGAIPAKADRAEIDGRSGLPANVAAANAAGMVYVPADRKHEGLVLPHSMASNILLPSLG
+RLARGGLRDRRAEAGLVADLARQLMIKGDVARPVQALSGGNQQKVALAKWLPLDPGVLLL
+NDPTRGVDIETKREIYLMLRRFAAEGRLVILASSDTPELVNLCDRVLVLREGQVAAELSG
+PSITEAAIVGAAMGVEQGTGPGRRAVQ
+>tr|A0A1Q9AM28|A0A1Q9AM28_9RHIZ
+MFRIVSLALWVLSSLALFIFVLQPVGADVQLVVAGLTIAFLFVITRFDGKGLLRYIALAT
+ASIIVLRYAYWRTTSTLPPIDDLLSFIPGMALYVSEMFCIVMFFISVFVVADPIERETPA
+LPADEDLPTVDVFVPSYNESAEILSLTLSAAAAMDYPRDKFKVYLLDDGGTDQKRNSNDP
+ETAAAAQRRGAELKALCADLGVHYLTRALNNHAKAGNLNAGLERTSGDLIAVFDADHAPE
+RRFLRETVGFFGKDPDLFLVQTPHFFANPDPVERNLGTYATMPSENEMFYTMIQKGLDRW
+NASFFCGSAAVLRREALEEVGGFSGITITEDCETALELHSRGWNSVYVDKPLITGLQPES
+FTSFIGQRSRWCRGMIQILILKNPLFKQGLTLAQRISYLSSCLFWMFPFVRATFLVAPLL
+FILFNLKIFNASAEDFLAYTVTYLVASEILRNYLYGRMRWPWISELYEYVQSVFLVRAIV
+SVLLNPRKPTFNVTDKGMSLTQRQLSSLAWPFFAIFAGLSMVLAVAIYRYQTEPALGDLI
+LITGAWNILNLVIAGAALGIVTEQPTDVEGISLPVARKAELDLGTQTLPVLVRQMSSNRV
+LIEVGKGSIPPLRPGDHGRLLLIDPPADVIIPSIPAFVGKPVNHDLRSYLIDLEPEAQHY
+AAVSTLLLSDLDLARQIRSDRQHRRNYILASLSLVRWAIVSPFAAVSALLSSRPEGGRIS
+RRRRQVQADKATIATKAA
+>tr|A0A1Q9AE83|A0A1Q9AE83_9RHIZ
+MVPRIAVVEDEEALSVLLRYNLEAEGFEVDAILRGDEAEIRLQERLPDLLILDWMLPGVS
+GIELCRRLRQRPETERLPIIMLTARGEESERVRGLATGADDYVVKPFSTPELMARVKAML
+RRAKPEVLSTLLKCGDIELDRETHRVHRKSREVRLGPTEFRLLEFFMSSPGRVFSRSQLL
+DGVWGHDIYVDERTVDVHVGRLRKALNFANMQDVIRTVRGAGYSLEG
+>tr|A0A1Q9AF42|A0A1Q9AF42_9RHIZ
+MTVKVAINGFGRIGRNVLRAIIESGRTDIEVVAINDLGPVETNAHLLRFDSIHGKFPATV
+VVEGDSIVINGGKPIKVTAVRNPAELPHKDLGVDIAMECTGIFTARDKAAAHLEAGAKRV
+IVSAPADGADLTVVYGVNHDKLTADHLVISNASCTTNCLAPVAKVLNDAIGIEKGMMTTI
+HSYTNDQPSLDQMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGFAMRVPTPN
+VSVVDLKFIAKRETTKEEINAAIKAAADGPMKGVLAYTDQPNVSVDFNHDPHSSTFHLDQ
+TKVMDGTFVQILTWYDNEWGFSNRMCDTAVALAKFI
+>tr|A0A1Q9AH49|A0A1Q9AH49_9RHIZ
+MSNTHALTSQALLLLGGAVVAAPIFKRLGLGTVLGYLAAGILIGPFLHLISGGEEILGVA
+ELGVVFLLFVIGLELNLGRLWQMRRDIFGLGTAQVLVTGGILSALIYEVGLFAWQGSVIT
+GFGLALSSTAFALQILEEHSDNNTRYGQRAFSILLLQDLAIVPLLALIPLLALQKPEDTT
+PPYQDFAVAIGAVLVLVAAGRYIINPLFQILARTGAREVMIAAALLIVLGAATLMQLAGM
+SMAMGAFLAGVLLAESSYRHELEADIEPFRGLLLALFFMAVGLSLDIEVLIEHPLLILLS
+VPLLMLVKAVVLYLLCRLTGSTHNDAVRIGLLLPQGGEFGFVLFSAAAAAGVMRQTDASI
+LVAVVTLSMALTPAAAMLARFLMAETAKEDEEIEENFEGAGADVLMIGFSRFGQIAAQIL
+LAGGREVTVIDHSAARVQQAATFGFRIYFGDGTRSDVLRAAGIERAKIVAICTHQVEMTD
+KIIDLVQSEFPNARIYARAYDRVHTLSLRARGVDYELRETFESGLLFGRRTLEGLGISEA
+QAEAIGDDIRRRDEDRLALQAVDGIMAGRHMLLHEPVKPEPLIKPKRDLVPTLDPDEDIS
+APVAQAAGS
+>tr|A0A1Q9ANH8|A0A1Q9ANH8_9RHIZ
+MTIRTLVWGENIHERINEVVRDIYPDGMHKTIADALNRDDAITAETATLQEPEHGLTEAR
+LADTDVLVWWGHKDHGAVDDAVVERVAARVHEGMGLIVLHSGHFAKIFKRLMGTPCALKW
+REAGERERVWTVNPGHPIAAGIPENFVLENEEMYGEFFSVPEPLETVFISWFSGGEVFRS
+GLTWRRGAGNIFYFRPGHETYPTYHDETVQQVIRNAVRWAYRPAPALTGIHTAPNVPVGE
+ALEPITERGPKLHKAGEAGYK
+>tr|A0A1Q9AMM1|A0A1Q9AMM1_9RHIZ
+MMQIRRDFDAAQALSLRAEADERNRITVSHLSMASRRIVEDYPESAHWYALQVWERRELA
+VEKSLQDAAVIAVVPVEEGEEVIRRGRKWRTPDRPWMPGYVLVKIVWSAAAAMALRRQKH
+VIGIVGGLERPVRIPDKNVRDFSADISQRIEAERQRKADWSYPFRLGQLIRINCGPFLGF
+TGELMIMRNGKPPHGQAIIGIFGRETPVDMPLACFDVL
+>tr|A0A1Q9AM53|A0A1Q9AM53_9RHIZ
+MATIASKLAETAQKPARRRALPPALLSYLQASPLVLILGFFFLLPILMIAVVSFWDYDFA
+GLYPDFLTMNYEETLGSWITWKTYLNTLKYTVVVWALTLAIGFWVAYFLAFHVRTTTMQM
+LLFLVCTVPFLTSNIIRMISWIPVLGRNGLINTALVDMGIIPAPIEWLLYSDFAVVLALV
+HLNTLFMVTPIFNTLMRIDRSLIEAARDCGATGGQILWNVILPLAKPGIAIGSIFVVTLT
+MADFSTVQVMSGGQSASVALMMKNQMSLLQYPAAAANAVVLLVVVLLMVAAILRVVDIRK
+EL
+>tr|A0A1Q9AH47|A0A1Q9AH47_9RHIZ
+MTSPLLHAPTADLLNRFASLVGPAYAVTDHAALAPYLKESRGLYHGTTPMLLKPGSAQEV
+AAILKLASETGTPIVPQGGNTGHVAGGVPREAGGDLMLSVERLTRIEDVDPVGNTLLCGA
+GCILADIQSRAEAAGRLFPLSLGSEGSARIGGLLSTNAGGTAVLAYGNMRQLCLGLEVVL
+PTGEIWNGLRRLKKDNTGYDLRDLFIGAEGTLGVITAAVLKLFPRPRGHQVAFAGLGSVA
+DALALFERAADHAGPALTGFELMPRIGVEFTSRHIPGVRDPMASVHPWYALIDLSTADSA
+EGAQALMAAILEEGHAAGLVRDAVVAANAAQAKALWHMRESMSPAQKPEGGSIKHDLSVP
+VAAIPAFMAAADAAVLQAIPGARICAFGHMGDGNIHYNISQPVGADTAAFLARWREINAI
+VHAIALDLGGSISAEHGIGQLKRDELAEVRGGIEITLMRRIKDAFDPAGIMNPGKLLAQR
+L
+>tr|A0A1Q9AKH8|A0A1Q9AKH8_9RHIZ
+MPGAGRKPVVGDAAVKLKVGFILAKSFTLSAFSLFVDTLRLASDERDRSGRVLADWEVLG
+STRLLIRSSCGVQVAPTCDFVAPTRFDVLVMCGGLLSVERPVDEETLRYLKDAARARVPL
+IGLCTGTFILAEAGLLRQHQTCVSWLHHDEFRQRFPDHQVRSDRLYNFDGQRGSCAGGSS
+SADMAAFLVRAKISRKAELNALEVLQIDRARKPTDTQSRKPLEDTLDTSTADPRIRAALI
+TMEQNLADPRSIDEIAESIGMSRRQMERIFQVSLAMSPAQAYTLMRLKKAHALMTQSQAA
+LIDIALDVGFRSAAHFARAFKRVYGIAPSRLRQTRPPLP
+>tr|A0A1Q9AHI5|A0A1Q9AHI5_9RHIZ
+MARFDGKTVVITGASRGIGAAIAKRFAREGAQLVVSANEEAVHQVARDIESSGGKAISVL
+CDVTDKASVIALYDRAEEAFGRVDVSIQNAGVITIARIEEMTEAEWDKVLAVNTKGVFLC
+AQEAIARMRRHGQGGRIINTASGQARDGFIYTPHYAASKMGVVGITQSLAKEVARDAITV
+NAFCPGIIETDMWAYNDEAWGKLLGNYAPGALMKEWVENIPMKRAGSGEDVAGLVTFLAS
+EDAAYITGQTINVDGGLIMS
+>tr|A0A1Q9APD7|A0A1Q9APD7_9RHIZ
+MGMLVDGVWKDVWYDTEKTKGRFQRQDSRFRNWVTADGSAGPTGEAGFKAEAGRYHLIVS
+YACPWAHRTLIVRRLKGLEPLISLSVVDPLMLERGWEFKNRDGGTADPLFDAETLAEIYV
+KADPGFTGRVTVPVLWDKAQGKIVSNESAEIIRMFNSAFDGLTGSTLDLYPADLRAEIDA
+LNARIYDAVNNGVYKAGFATRQDAYEEAVAALFSMLDELETRLSSRRYLMGDRQTEADWR
+LFTTLVRFDAVYVGHFKCNLRRISDYPNLQAYLKDLYQVEGVKETVVFDHIKRHYYMSHP
+TINPTRIVPAGPLLDLDSPHGRDALTER
+>tr|A0A1Q9AQ46|A0A1Q9AQ46_9RHIZ
+MSAFPHLVRRERASLSATVLAPLAALAIATLLNLALYAVMGKSPGAVFHAMLLEPFLSWA
+SFSEVLLKMGPLLLIAQGLAIGFRAKVFNIGAEGQFILGAIFASALPVWYPEATGGWIWP
+AMLLSGAIGGALWAAITAFWRVRLNANEILVSLMLSLVATQVLNYLLLGPWKDPAGFNFP
+QSVMFQYDAMVPILIDGTRVNWSFPLTILLSLAAYVFMQKSFMGYKLQVGGLAPRAAGYA
+GFSEGRAIWLSLLIGGFAAGLAGAAEVAGPLGQLQRSISTGYGYAAIIVAYLGGLHPLGI
+IVSALVMAAIYIGGDNAMVSAELPIAAVRVFQGSLLIAYLIAVAFIRYRLEWPKAADRRP
+A
+>tr|A0A1Q9ADU0|A0A1Q9ADU0_9RHIZ
+MLESWRWFGRNDPVTLSHARQAGAKGIVTALHHIYDGRAWSLEDVQAHKAEVEAAGLVWS
+VCESIPVPSAIKLRNADWRAAVDRWKDSLASIGRAGIPVVCYNFMPVVDWTRTQLRYPMP
+SGGLALRFDMVDFVAYDVLVLKRRGAEESYAPALIDAARARLAGLSEDEIAALETNIIAG
+LPGKEDSHSREGIRREIAAYDGLTPEDMRSHLVDFLREVVPVAVEHGVKLAIHPDDPPFS
+LFGLPRVVSTTQDIETILGAVDHEANGLTLCAGSYGSRPDNDLPAMAARFAERIHFVHLR
+NVLKDADGSFTESDHLDGDVDMVALVQALRREEHRRAAAGRADSSIPFRPDHGHLLIDDQ
+TKLVNPGYSCIGRLKGLAELRGVITAVDRLAAGQAAA
+>tr|A0A1Q9AI11|A0A1Q9AI11_9RHIZ
+MSEMELPERESMEFDVVIVGAGPAGLSAAIRLKQINPDLSVVVLEKGAEVGAHILSGAVV
+DPSGIDKLLPGWREEEGHPFKTAVTDDHFLVLNETKSLRLPNALMPKLMNNHGNYIVSLG
+LVCRWLAEKAEALGVEIYPGFAAAEVLYDEAGAVIGVATGDMGIEKNGEPGPNYARGMAL
+MGKYVLIGEGVRGSLAKQLIARYDLQKDREPQKFGIGIKELWQVKPENHKQGLVQHSFGW
+PLDLSTGGGSFLYHLEDNLVAVGFVVHLNYKNPYLSPFEEFQRFKTHPSIRGTFEGGKRL
+SYGARAITEGGYQSVPKVSFPGGALIGCSAGFVNVPRIKGSHNAVLSGLLTADRVAAAIA
+AGRANDEIVELESDWRDGAIGTDLKRVRNVKPLWSRFGTVLGVGLGGLDMWTNQLFGFSF
+FGTMKHGKNDAQSLEPAEKHQKIAYPKPDGVLTFDRLSSVFLSNTNHEEDQPVHLKVKDM
+SLQKRSEHDVFAGPSSRYCPAGVYEWVEKDGQPTFVINAQNCVHCKTCDIKDPNGNITWV
+PPQGGEGPVYPNM
+>tr|A0A1Q9AKM0|A0A1Q9AKM0_9RHIZ
+MAQGTRSSDQRRKWWNDSLGENLVDSRTILPREGHSRIKVLADQLGERVPILLGKFVMAS
+LSMFDLGRNEFPAIEGGDGEAQMPARAQQVILDEDVFQICAAITASRFPEDTGSTRMRQC
+AMMILIASETAAGRKPTMAGLARMTGSPTSPIIVLATSLEERGLLTRIRMAGVSNGKSGK
+VLQIRPDALQAINDAHLAQTGSPIVRIDEQSTTPTDEPSAPKTDV
+>tr|A0A1Q9AJE4|A0A1Q9AJE4_9RHIZ
+MKLNDISDNEGATKNRKRVGRGIGSGSGKTGGRGVKGQKARSGVAINGFEGGQMPIYRRL
+PKRGFNNIFREEYVVVSLGRIQTAIDAGKLDAAATIDADALKAAGVIRRPKAGVRVLADG
+ELTAKVSIQAVGASKAAVEKIEKAGGTIVLPAVEAADAE
+>tr|A0A1Q9ANL2|A0A1Q9ANL2_9RHIZ
+MNLTRSFSAWREYRQTVTELGRMSNRELNDLGIARSDIRSVARAAVKR
+>tr|A0A1Q9ACF1|A0A1Q9ACF1_9RHIZ
+MTETTPLSLATLGTISKTAAVPAYDRAELKPGIVHFGIGNFHRAHQAVYLDDLFNQGRDH
+DWAIIGAGVTPYDAAMRDKLKAQDYLTTVVEQDVGVSAARVTGAMIDSLDPMDRKAIVEK
+LSDPAIRIVSMTITEGGYFINPATGLFDPAHPAIAADAAAPDDARTVFGLILSGLKARRA
+AGTAPFTVMSCDNIPGNGHVTENAVTGLARLSDPEFADWIAANVAFPNGMVDRITPATGA
+REIEIAAQDYKIADQWPVFCEEFKQWVLEDNFPAGRPALEAVGVQFVDDVAPFEHMKIRI
+LNGGHAAIAYPGELLDIHFVHEAMEDETIAAFLAKLERSEIVTCVPPVPGVDLNDYIALI
+ERRFANPKIGDTIARLAQDGSNRQPKFILPSTADRLARGEDVQGLALVSALWCRYFQGTS
+DSGRAITFNDANAERLKAAAQKARENPLEFLALDDIFGQVAHSEIFRKRFSQALTSLTEK
+GTRATLAAYIDGKIGD
+>tr|A0A1Q9AFF6|A0A1Q9AFF6_9RHIZ
+MVKLNKIYTRTGDDGTTGLAAGPRRAKFDQRVMAFGTIDETNALIGMARLHLAGDAVLDP
+ILQRIQNDLFDLGADLATPESDEPLGYEPLRIVDPQVERLEREIDQLNAELDPLRSFVLP
+GGSPAATSLHVARTVARRAEREMVELAADLDERVSQSALRYVNRLSDLLFVAARFANDKG
+KADVLWVPGLTR
+>tr|A0A1Q9AEE7|A0A1Q9AEE7_9RHIZ
+MREVFVVDLIRFFIERHEAKIQAKSKTKLRDYLNMIERLIKFWGGKTVYQINEKTIDEYQ
+KKARAGKPLAASTTLRELAELKSIINYGIQKGLCELRGHIVDWELPPPPEPRMTFYTRSE
+IAKLVWTAYRRKNMAMGKPGIGIHTSKHIARFLLIAVKTGTRAERIEQASFKNHADRPWI
+DLENGIFYRAGVANKSPVNKRADPVRIPDDLLSHLRRWAKEGDDVIKSTRGVGSTRKGFF
+NLKHEVLSNERAKVVNRHTCKHTCASWLMQKRVPLSIIASYLSTTEEVILRHYGHFSPDF
+HKEIDDARRTARRQQIDKLAQKKAA
+>tr|A0A1Q9APX8|A0A1Q9APX8_9RHIZ
+MSAAALKSRPATLVTGLAILGAFVLVALLAPLIAPYDPIYQDAAARLQPPSFAHPFGTDN
+FGRDILSRVLYGARIDLQIALIGVAFPLVIGTVIGAFAGFFGGLIDTALMRLIDIILAFP
+FLVLMLSIIAILGPGLTSFYIAMALVGWVSYARLIRAQILVLKNSDYAMAAVSLGFSRLR
+ILFRHLLPNAVAGSLVFSMSDAVLVLLSGAAISYLGLGVQPPMAEWGVMVAEGQSFVTQA
+WWITLFPGLSIVVLAFGFSMIGDALGELMGVNE
+>tr|A0A1Q9ADL1|A0A1Q9ADL1_9RHIZ
+MARFLKRRETLLFLIIAAMVAAFSTRAAGFASPDNLGRIFNDTAILIILALAQMMVILTK
+AIDLSVAANLALTGMAIAMINAAFPAVPLPFLILAAIALGAALGAVNGFLVWRLEIPPIV
+VTLGTLTIYRGMAFVLSGGAWVNAHQMTPTFLDVPRAVVLGLPVLSWCAIAVVVFIAALL
+RYSPFGRAAYAAGGNPVAAVYAGIDVGRTRYRAFVLSGALAGLSSYLWVSRYAVAYVDIA
+NGFELDSVAACVIGGVAIAGGVGTVIGTVLGALFLGVIKNALPVIGISPFTQMAISGSVI
+ILAVLFNARRERARGRIILRDRAAAPRAQEVSA
+>tr|A0A1Q9ALE6|A0A1Q9ALE6_9RHIZ
+MNEILVIGTPELMAARSAWLSALMSERRLSDETVEAYERDTRQFLTFLTGHVGGPAGLED
+LRALRPADFRGFLAARRRDGAGARTLGRGLAGIRSFLRHLERLGEVNAAGARAVRAPRQP
+RSLPKPLSTGDALAVVSQEGQIAEEPWIAARNAAILTLLYGCGLRISEALGLTAEDFAGE
+PTALRIHGKGGKTRIVPLLPAARAAVATYRQLCPYQPAAPAALFRGAKGGALQPAIIQRE
+MQKLRGALGLPDSATPHALRHSFATHLLAGGGDLRSIQELLGHASLSTTQVYTGVDAARL
+LDVYDRAHPRA
+>tr|A0A1Q9AEE0|A0A1Q9AEE0_9RHIZ
+MVSVWSDKHGRYLNLAKLEDAVLDSENYFDECRRKQSEYLATLNGWQLRWERIKMFFGAG
+RYQA
+>tr|A0A1Q9AJB1|A0A1Q9AJB1_9RHIZ
+MDKYYTITELTREFGVSTRTLRYYEDEGLIHPERRGRTRLFRPMDRRLIQEILRGRRIGF
+TVAEIREIIQVYKDPTGESGQLKLIMKRVEDKRADLLQRRLDIEETLEELNNVEEACLTR
+LAEIGVGT
+>tr|A0A1Q9ACI0|A0A1Q9ACI0_9RHIZ
+MCNLYNVSTNQEALRAFRQALDRLGNLEPSIDIYPDRPAPVLRRTQDGEAWDRLTWGMPT
+PPSILGDKPDTGVTNIRNVTSPHWRRWLGPENRCVVPWTSFCEWEDTKPKKRKRWFAIND
+DKPLAFFAGIWTDWKGTRGSMKNPREGEHQLFGFLTTEPNAVVKPIHPKAMPVILTTAEE
+VDVWMRADWSEAKALQRPLPDDGLGLFPAEG
+>tr|A0A1Q9AC93|A0A1Q9AC93_9RHIZ
+MAASECLALFDGHDWAGTALGPFSAWPEALKTAARLVMSSATAMALLAGPQGVTIYNDAY
+ALIAGQRHPDAFGAEICASWPEAAGFNGQVLAQVFAGETLHFAEEAMTVMRNGAPEAVWF
+DLDYHPVYDEDGRVLAAMAMVSETTNSVRTARALVASREQLSLALSASAVVGIWDWRLDQ
+NRVYTDSHFADMYGVEGDTSDGGAPIEAFLDGIDPQDKPQLLAKIQNSVETGAHFSAEYR
+LRGADGAVRWVLAEGQPILNEHGICQRLPGIAIDITQQKRAAEEAARSEAGFRILADTMP
+QIVWSTRPDGYHDYYNARWYEFTGTAPGFTEGDGWNGMFHEDDRERAWAAWRHCLETGDP
+YQIEYRLRHHSGVYRWVLGRALPMRDEAGRILRWYGTCTDIHEAKLAQAERDVVNHELSH
+RIKNIFSVLSSIISLSARAAPEARAFADQLRRRIDAMGRAHDFVRPQSHSAAVAGQDITI
+FGLIRLLLEPYSADDAPLPVRFEGEDAAIGDGAATPLALLIHELATNSAKYGALAEQGGD
+LLIRGERIDSRYRLIWTEKLPRDDLVAPQRQGFGSRLMSISVEGQLSGTLTRRFESDGVT
+VEAQFPLTALARSSQMPKA
+>tr|A0A1Q9ADN1|A0A1Q9ADN1_9RHIZ
+MLYSLPLLAPLLLAGASLFAFRGPGLRPRRAIQVAEGAALAAFLVALLSGLVLALHGPGT
+SVPIGFGMLALSSRLDAVSLVMLLLVSFIGWAVLRYAGTFLDGEQRQGPFTGWMTATLAA
+VLLLVQSGTLLQFVIGWLLTSRLLHQLLLFYPERIAAQRAARKKRIVSRIGDVALIGAVL
+LLAKVYGTGDIATILAAARAGEGLPAVTVAAALLALVALLKSAQFPTHGWLTEVMETPTP
+VSALLHAGVVNAGGFLLIRFADVMLQAPVVLAVLVMVGGFTALFASLVMLTQPAVKTSLA
+WSTVAQMGFMILQCGLALFPIALLHIVAHSLYKAHAFLASGTAIETIAAIKRPGPIAIPN
+ARAVGRAFLLALAIYAVIGLLFGFADKPPQALALGAILIFGVAYLIAQGLADAAPWALTW
+RTALYAITAATTYFALQRIADALMIGTLPPTPEPGPLEWTLMLTAILSFGAVAIAQSLLP
+LWGHHPAAAGLRVHLANGLYVNALFDRLLGGWTLPRTAAVTADTAKD
+>tr|A0A1Q9ACD2|A0A1Q9ACD2_9RHIZ
+MHSLKRMLLGLLIIAAIAAAGTLIPRPLFSRSSLAADGAARQVLVLSNPIHTDLAFPVDD
+ETLARFPFLEASGLPVRHPLARWVIFGWGGRSFYLETPSWAELKALPVLRSLTVDQSVMH
+VEVLGEIDLNNPAVYSLSVGEDDFAHMAGTIAESFRMAGGKPEVIFGRSYGRSDLFFEAN
+GRFNALLGCNTWTARVLRDGGLRTGFWNPLPASLTLSLSLFNK
+>tr|A0A1Q9AJK4|A0A1Q9AJK4_9RHIZ
+MIGSAGDDSIAGLKGADLLDGGAGYDTLRYSRDERHGGTKGITANLSTGKVVDGFGTVDT
+VKNFEAVTGTFSGDRFIGDAKDNTFRGLAGIDSYDGGAGFDTVNLAGETGDGQTHGARVD
+LRLATGQIIDDGCGNTETLVSIEKIRGTQFGDDIILGAGDAKADGRGGDDRLTAGLGENE
+LRGGDGADTFVFQSAADSPAGTTKRDFIVDFRADEGDRIDLSALGVTLEFAGEAGLSAGS
+ARLAYAYNTDGNTIVSADLDGDGSANLQFLLQGKIALTQEDFILS
+>tr|A0A1Q9AN37|A0A1Q9AN37_9RHIZ
+MIRAVVRGFGAALPKRVVPNAELEKTVDTTDEWIVQRTGIRQRYIAGEGETTASLGEAAA
+REALERAGLEPQAIDLIIVATASPDNTFPATAVDIQARLGITGGAAFDMQAVCSGFVFAM
+ATADAYLRTGLARRALVIGAETFSRLLDWNDRTTCVLFGDGAGAVVLEAVEGEGTVADRG
+ILTAQLRSDGSHKAKLYVDGGVSTTGTIGHLRMEGREVFKHAVGMITDVIEAAFAATGTT
+VEDVDWLVPHQANRRIIDGSAKKLGIPLEKVVVTVDRHGNTSAASIPLALHAAASDGRIK
+QGDLVLLEAMGGGFTWGSVLLRW
+>tr|A0A1Q9AJJ2|A0A1Q9AJJ2_9RHIZ
+MAKLAKRIQKIREGIDPTKLVALTDAISLVKDRATAKFDETVEIAMNLGVDPRHADQMVR
+GVVNLPNGTGRDVRVAVFARGAKADEARAAGADIVGAEDLVEIVQSGKIDFDRCIATPDM
+MPLVGRLGKVLGPRGMMPNPKVGTVSMDVAGAVKASKGGAVEFRVEKAGIVHAGIGKASF
+DAAKLEENIRAFADAVIKAKPTGAKGNYVKRVAISSTMGPGVKIDPSTLTVA
+>tr|A0A1Q9AGC8|A0A1Q9AGC8_9RHIZ
+MTDTPLYTHHDPRFADLIQSHALPDLLYSGCRWAEGPVWFADQNLLLWSDIPNNRMLRFS
+PEADGLGSVSVFRGPSNYANGHTRDREGRLVSCEHGLRRVTRTEIDGTITVLADRFDGKP
+LNSPNDVVVSSDGAVWFTDPVYGILSDYEGYKSEIEQARNRVYRIDPRSGAVEAVCEDFE
+QPNGLAFSPDESRLYIVDSGSPRHIRMFDVQEGRRLSGGSVFYPLDAEHGPDGLRVDAAG
+HVWAAAGKGVQVFAPDGTSLGRIAFPQRVSNLAFGGPRRNRLFVTATQSLHAIYVAANGA
+LRP
+>tr|A0A1Q9AJX6|A0A1Q9AJX6_9RHIZ
+MRFKDKIVLVTGGAGAIGSAAARRFLAEGAQVAIADLDGDKAAMLAKELGAEAAGFAVDV
+SDPAEVEAMVGAVVDRFGRIDVLFNNAGISGTVAPVHRLPLEDWNRIVGINLNGIFHVLR
+ATLACMIAGKVQGAVVNMGSSMAGWDVLAGGAGYAATKHAVVGLTRIAALDSAPYGIRVN
+AICPGVIETRLGVPSMDEDAYQAGIRRFSDRIPLRRIGQPEDVAAAVAFLASDDARHVTG
+ADWLIDGGQTLQSWANAPDEPAFPRYVDSPDSR
+>tr|A0A1Q9AMF5|A0A1Q9AMF5_9RHIZ
+MQEETAPLPIPAPPPLVHNERVKLTAAAIDRLSTACVAAGFISPVVSLANGQIMISAFSL
+PIALSTMTWLFTALILDFAARRVLGKLRP
+>tr|A0A1Q9AG18|A0A1Q9AG18_9RHIZ
+MAGSVNKVILVGNVGADPEIRRTQDGRPIANLRIATSESWRDRNSGERREKTEWHTVVVF
+NEGLCKVVEQYVKKGAKLYIEGALQTRKWQDQTGNDRYSTEIVLQGFNSTLTMLDGRGEG
+GGGGGMSRGGGSGGEYESGYGGGYEERPASGGGRSGGGAGGGRSGGGGSGGGFSRDLDDD
+IPF
+>tr|A0A1Q9AEG7|A0A1Q9AEG7_9RHIZ
+MRQIAANGRHYFHHDLDERIIYHRVGFAWQWYDLLAAWDRFQRHQLLDCDDGFCAIADVL
+RGARRETFYVEDVVVDPRTGDTDVAVYAHPAALRELIAGCRELRDMMNSDAAGAFIGYQA
+PPLLNSDEEATVRQLIGVLEKSVDDTIVPFRQRAPEAA
+>tr|A0A1Q9AF97|A0A1Q9AF97_9RHIZ
+MANGNYTRNNDRFNDADRNRLSSQYGRESFGRDDDRRQGDYSAWGGAERDRSEDRYQSDR
+YQGGDRSTWRSDDMGYGDDGSFTGYRRDNRLSDDNSGYGRQGAPSRSSYGASYGSGGNYG
+ADSGRGDYGRSSGRDDRWSAGGYGGNYGEDRSSWRGNDDSRSRGEKRGFMDRATDEVASW
+FGNEEAEHRRMMDQHRGKGPKGYTRSDDRIRDDLNDRLADDGRLDASDIEVTVSSGEVTL
+SGTVTSRQDKRYAEDLAEAISGVKHVQNNLRVKSSVDLSSDSSRSSTTNVAGSTTGTTGG
+TTGASARLNS
+>tr|A0A1Q9AFL5|A0A1Q9AFL5_9RHIZ
+MDARPTIIITGCSSGIGAYCARALVADGWRVFATVRKEQDRDALTAQGIETFLMDYRDTG
+SIERLVAEVFALTGGRLDALFNNGAYGQAGAVEDLPTEALREQLETNVIGWHDLTRRVIP
+AMRARGRGRIVQCSSILGIVPYRWRGAYNASKFALEGLTLTLRMELAGSGIEVSLIEPGP
+IESRFTANALTHIRRVIDIEGSVHREEYHRQLKRLTGEGRPAPGKLGPEAVYAVLKQALT
+VPNPKPHYVVTRPAHQGVLLKKLLPARLFYKIIGRLG
+>tr|A0A1Q9AJS9|A0A1Q9AJS9_9RHIZ
+MLLTNWHVFPEAANARGAGANFLYEQGDSGLARGITFELDPDALFHADQKLDFAIVAVKP
+TAVTGELLSSLQFLSINGSGAKILPGMPIMMIEYPNGGAKRYATTNNRLLEIRDDGFLRY
+ETDTDGGSSGAPGFSDAWEVCALHHASIPKLRGNDILNKDGSVWNPGDPEDSIYWIANEG
+VRISFVVKALGAIKSANPTGQRLLEELLAGTIDPADEVAKLTAQGVPEAAPQGASTTLLP
+TTQSFTRNTMAVTMNFSGPVTIFVGGATPTAMDIVSPAPSVLEPEKALRFDPNYDDRKGY
+DPNFLGNGIAVPLPSVAPAHDREMYKEDGAIRVLDYYHYSLAMNAVRRMQMWSAVNVDYD
+KAKRMVSGRKFFGDDRWIGDPRIPAKVQLADHDVYAPAGQIDRGHIVRREDNAWGETPTE
+VEFGNSDTFHWTNCTPQHAAFNRSNPGKQWDNGAGLWGGFENHIQQNLQTGGDTRACILA
+GPVLADDDPSEDFGTGPVRYPLTFWKVVAVASQDAGGGRTLRTYGFLLSQADVVARFGVE
+FAAGEYARYQVPLATIAEKTGVIFDDVLLRADTKAA
+>tr|A0A1Q9AEZ6|A0A1Q9AEZ6_9RHIZ
+MTDETNKRPADGAEEHLAQTHAETAAETAAPEAGVQEAPAAAEASPDPAEALKAENAELR
+DRYLRLAAEMDNLRRRTERDVKDAKTYAVASFARDMLAVSDNLRRALEAIPTEALASGDP
+GFSTLVEGVDMTERSMLSALERHGVKKLEPVGQKFDPNFHQAMFEVPNPEVPHNTVVQVV
+QAGFTIGERVLRPAMVGVSKGGPKVAAAEAETPAAG
+>tr|A0A1Q9AI52|A0A1Q9AI52_9RHIZ
+MIEKKFATVTNEDISEVEASAAKADLDAQIADLKAEIARLTDSVSAIGNSAKAVVQSEAE
+VMADRLRERVRAEPISTLATIAGVSFVLGMLFRR
+>tr|A0A1Q9ANH5|A0A1Q9ANH5_9RHIZ
+MSEDFRFTDYEPYDFANRRHIGPSPEEMAEMLKVIGYPTLDALIDDTVPSGIRQKVPLSF
+GAPMTERQALDRLRATANLNKPFVSLIGQGYYGTITPPVIQRTILENPAWYTAYTPYQPE
+ISQGRLEALLNYQTMVCDLTGLDIANASLLDEATAAAEAMALCQRVAKNKATAFFVDANC
+HPQTIALLMTRAEPLGWSLKIGDPFADLDPTEVFGALVQYPGTHGHVSDFSGLAARLRQT
+GAILAVATDLLALTVLKSPGEMGADIAIGSAQRFGVPVGYGGPHAAFMSVKDAHKRSMPG
+RLVGVSVDSRGNRAFRLALQTREQHIRREKATSNICTAQVLLAVMASMYAVFHGPKGLKA
+IAQRVHLKAVQLAKGLEALGYTIAPDRFFDTFTVEVGRFQGVILKAALAEGINLRKVGED
+RIGISLDERSRPATIASVLRAFGGDGALIEVGEKDHRLPADLLRTSDYLTHPIFHMNRAE
+SEMTRYIRRLSDRDLALDRAMIPLGSCTMKLNATAEMLPITWPEFAEIHPFAPADQAEGY
+RVMIEDLSAKLCQITGYDAISMQPNSGAQGEYAGLLTIRAYHQARGEHHRDVCLIPTSAH
+GTNPASAQMVGMKVVVVKVRENGDIDMEDFRAKAEAHAANLSCCMITYPSTHGVFEENVR
+EVCEIVHAHGGQVYLDGANMNAMVGLSRPGDIGSDVSHLNLHKTFCIPHGGGGPGMGPIG
+VKAHLAPYLPGHPEQANSTTAGAVSAAPFGSASILPISWAYCLMMGGEGLTQATKVAILN
+ANYIAARLKGAFETLYASARGRVAHECILDTRPLAQSAGVSVDDIAKRLIDCGFHAPTMS
+WPVAGTLMVEPTESETKAEIDRFCTAMLAIREEARAIEDGRMDKANNPLKNAPHTVEDLV
+GEWDRPYSREQACYPPGAFRVDKYWSPVNRVDNVYGDRNLVCTCLPLEAYAEAAE
+>tr|A0A1Q9ALD2|A0A1Q9ALD2_9RHIZ
+MGEAEDLLRRYAAMPVPRYTSYPTAAEFSVTVGATEQERWLRRVDGDRPVSVYLHVPYCR
+DLCHYCGCHAKAYRRDSVIDSYRAALEAEIGTVAASARRRLKVGRIHWGGGTPSSLGAEG
+LASVMAVLARYFEILPDAEHAIELDPRLVDAPLAAALAALGVNRVSLGVQDTDPLVQAAI
+GRIQPEEQVVAAFAALRQAGIDAINVDLIYGLPLQTVKSLRRTCAKVAALRPARVACYGY
+AHMPHRRANQKRISAVSLPGPDDRVEQAATVAEALMQSGYAPVGIDHYALPGDALLAAQA
+TGRLHRNFQGYTDDDCAVLIGFGASAISHLPDGFVQNEPDTTRYVRIAQEGLLAGIRGCR
+VSEEDRLRGRIIEALMCQFAVDLDLIAPQKDFSDELALIRPMVRDGLVTVEGRRLWITET
+GKPLVRVVATLFDSFRRQTSGRFSLAV
+>tr|A0A1Q9AP27|A0A1Q9AP27_9RHIZ
+MQQQQTSNPLSSNASRRDMLKLMGLGGAALGLGSLNLGRRAMAQDMSVAFWATATLDIAD
+KWQKFAELTGVTPQFTDNGNDIGPVVARLAAGNANDLFDVGGFQGGAEKELAKQGHIAAW
+DLSKIPNYASVWQWAKDIPYLQLDGKQIGIPTVVNADSIIYRPDKLGKVDSYGVIFDPKL
+KGRVAMEDAWINSAIFTAMYLKEAENQPIKDPGNLSESELGLVMEFLIKHKTDGQFRTFW
+NGWEQGVQLVANEEVDAMTGWEPIVYEGRKRGLQVEYAAPVEGYEGWGNNTVLLKGAVDR
+GTSDAAHAFVNGLLGGFYGCELGATRGYMVPSDKNLEYAKAHPDEYKADEVEKLAKHVQA
+KFAGKVYWQNTRPDNFQLYEEWWQKLRNA
+>tr|A0A1Q9AQL3|A0A1Q9AQL3_9RHIZ
+MSDAAVGPGQELLVELTAEIVSAYVSNHNVPVADLTVLINDVHSALSGTGVPVPAPAVAE
+KPKPAVSVRKSVQDDQITCLECGGTFKSLKRHLMTHHNLSPEEYREKWDLAIDYPMVAPA
+YAEARSRLAKEMGLGQRRKRG
+>tr|A0A1Q9AH89|A0A1Q9AH89_9RHIZ
+MPRLAALLMVLAWMVLSAMPALAMHPPLTMPPGGLAQDWVQQGSEQKGRGQQGGGHEHER
+GMTSRHAAHHAASATDSVQMAEQPCNVMAQAGCTPPCCDHHQDGGHAGKCCWMAACAGCL
+TLLPQALPVAWLTLPRNVPDQSAVPMLADHPPRPAERPPRL
+>tr|A0A1Q9AMM4|A0A1Q9AMM4_9RHIZ
+MARLTTIKPRLSISPPRLGRAPGDEQARLRERDRNVTWRKWYKTARWERLRQEILIRDNY
+TCRQTGVICAGKHPAPDSPVVDHVVPHRGDEALFWNPDNLQCVSKDYHDRIKQQMEKASH
+EP
+>tr|A0A1Q9AMN7|A0A1Q9AMN7_9RHIZ
+MMARPDRFGPQPAAARQAERLARARAAERTARRRLLWCGIAGLVALALWMAGLLLFVGAL
+>tr|A0A1Q9ADR2|A0A1Q9ADR2_9RHIZ
+MWFLIKGGFWFALVLVLLPFLVPGENKAGHDLAQVDMGATVSAATEALSYIGALCVQKPD
+VCEKGSETVTVLGQRARDGARIAYEFLDKQFAGGEATVTTGTVPAGPAIKPHTAAPHGAA
+AQDAATREAHGEPARTAEADGGAEVEPANIPVPSRRIAPEGAL
+>tr|A0A1Q9AHT2|A0A1Q9AHT2_9RHIZ
+MTVFSRFDTTLWHATATPAPPTGPLEGPIKADVCIVGAGYSGLTTALELAKAGVSVVVLE
+REEAGFGGSGRNAGHCTPTFTHYTLPELRRMLGEPWAERLIERQTRANDRVSSMIRDYQI
+DCEWVQNGYVMGAPHKGAIAAIRQKVESYNAVGARTRFLERDEVAAITGSRRFHGGWLHE
+EAGHLNPLGYARGLARAVIQEGAKIFTRSAALSCERHAGGGWTVGTTGGSVTADKVIFTT
+GAYTVGGWPKLERTFKIQRVFVAATQILSDETRRTVLPENTTIHDGRGDIYVYKYNAEGR
+IVASMFPMGRRGRDMAYTRQVMSERLKWLHPQIREEIRWDYFWFGELDMQYRTVPRFYDL
+APGVVALTGLSGRGVPTGSMLGSILSEWALGKPQNELALKLEPLKAAPFYMAFGPALTLR
+YHRLRDNLAARLSGAPLPPHA
+>tr|A0A1Q9AMV5|A0A1Q9AMV5_9RHIZ
+MAHAKTSKNQAPDIAAQVTFAMRVMGVAPIPRNYELYYEAYLGSNPKLTQELAALGSKAT
+QEELDLIGARHFAHIHYPAGVERVHAHLARHLKELLSMMREEHVALESYTKLLDETTAQI
+NIKGHAGAEILRQAVDLLTSATTETVTQGRERAENVSQKSVEMEAIRQELDEYKRIANTD
+SLTRLANRRAFDERLATVYNSEQHRASTSLLIADIDHFKKINDSFGHPIGDKILATVGNV
+IRATLRRDTFVARTGGEEFAVILTDASTDESYQIAERIRQALANTPFKNSKTGVNYGPIT
+LSIGLCQATQAADYLDLYNKADIALYCAKNSGRNCSTVYEDGMKKESRRGWLIYRR
+>tr|A0A1Q9AI79|A0A1Q9AI79_9RHIZ
+MSSPLLIATLAAGLTGAPPHNVDVPPPILKVSASDCSAAAAQVISETGGELLSAQPTGDG
+KCIITVLIPGNGGRPKKMTVRVPM
+>tr|A0A1Q9AP71|A0A1Q9AP71_9RHIZ
+MNDAVIFGNVDIVFGERPERALAMVDQGKTRDEVSAATGLVLGVAGASLTVHEGEILVLM
+GLSGSGKSTLLRAVNGLAPVVRGNVSVRTAKGTAIDPYRASAKALRDFRMHTVSMVFQQF
+ALLPWRTVADNVGFGLELAGVPDGERRKRVGEQLDLVNLTKWADRKVQELSGGMQQRVGL
+ARAFATGAPILLMDEPFSALDPLIRTRLQDELLEFQRRLKKTILFVSHDLDEAFRIGNRI
+AIMEGGHIIQCGTPQEIVKNPANQYVADFVQHMNPITMLSARDVMAAGIVTTPQSQGVTA
+TAAPETPLIDILDALARQPGTIGVVENGSIIGTIESRNVIEGLTRHRQARA
+>tr|A0A1Q9AFH1|A0A1Q9AFH1_9RHIZ
+MVSLGGLARKLFGSSNDRRVKGYRTRVQAINALEEEMKALSDAALAGKTAEFRAQIEQGT
+TLDDLLVPAFAVAREAARRVLGLRPFDVQLIGGMILHERAIAEMKTGEGKTLVATLPVYL
+NALAGKGVHVVTVNDYLASRDSAIMGRVYGFLGLSTGVIVHGLSDEQRRDAYACDITYAT
+NNELGFDYLRDNMKYERGQMVQRGHFFAIVDEVDSILIDEARTPLIISGPLDDRSELYTA
+IDAFIPLLSEEDYEIDEKQRSANFSEVGTEKLENLLREAGLLKGESLYDVENVAIVHHVN
+NALKAHKLFTRDKDYIVRNDEIVIIDEFTGRMMPGRRYSEGQHQALEAKEKVQIQPENQT
+LASITFQNYFRMYEKLGGMTGTASTEAEEFGNIYGLEVVEVPTNLPVRRIDEDDEIYRTA
+EEKYKAIVEEIRHAREKNQPVLVGTTSIEKSELLAELLRRAGFTGFQVLNARYHEQEAYI
+VSQAGVPGAVTIATNMAGRGTDIQLGGNLDMRIEAELGDMEQGPEREAREQAIRADVQRL
+KEQALAAGGLYVLATERHESRRIDNQLRGRSGRQGDPGRSKFFLSLQDDLMRIFGSERMD
+SMLQKLGLKEGEAIVHVWINKAVERAQKKVEARNFDTRKNLLKYDDVINDQRKVIFEQRL
+EVMDSTDLSETVADMRREVVEDMVARRVPEKAYAEQWDIEGLTEDVRGTLNLDLPLAAWA
+AEEGIDENDIRERIMAAANAAAADRAERFGPEIMHYVERSIVLQTLDHLWREHIVNLDHL
+RSVIGFRGYAQRDPLQEYKSEAFELFQALLVNLRQTAVSQLMRVELVQERQEPEPTLPVM
+QAHHIDPLTGEDEFAPAGGDLAYVPPEHRDPNNPATWGKVPRNEACPCGSGKKYKHCHGA
+YEA
+>tr|A0A1Q9AJ15|A0A1Q9AJ15_9RHIZ
+MEIATWNINGVRARIETLVAWLKEAGPDIVCLQEIKTVDEGFPRGEIEALGYHVATHGQK
+GFNGVAILSKTTPDEVTNGLAGDPEDPQSRFLEAVYSIEGGALRVCALYLPNGNPVGSEK
+YPYKLAWMERLHRFAESRLALEEPLILAGDYNVIPHGHDCWNPEVWKDDALFLPQTRAAF
+QALEGLGLTDAVRATSDATGLYTFWDYQAGAWPKNYGIRIDHLMLSPEAADRLLETRIDK
+HVRGWEKPSDHVPVIGRFDFRFRER
+>tr|A0A1Q9AMK5|A0A1Q9AMK5_9RHIZ
+MARKSQKTWQRSLRPPRPPAVDDAEKQAIIHACEAFIRDVLKPRFLPEIRPTEWNYPIDI
+HGDWRGGRYRFLQRYRSGMADNLGEDFDAPFARLDRVGPDQFDIQWMRHTGTWWRLHSGV
+TLAQALKLLETDGHLHPV
+>tr|A0A1Q9ANB9|A0A1Q9ANB9_9RHIZ
+MILERVTAEGLPPIKTTRVSISAEEAARTATLDLLVLGPGLPVSIGTPVVLKASGEVLLT
+GYVRDVNPAHEAESHTLSVSLVSRTIDYVECSADHPSGEILDKDLSAIAKELDASGIGIE
+ADGDFPREPRHKLQPGESAFASIERRARGRGVLIHDTAEGRIKLAMKPEGTHAGGLVFGV
+NILAGSATFTEAGRYSHVKVRGQAGEGVGKAQLRGEATVVDDGVSRRRVLIVPHEGETTS
+DRMKTRALWQAKRAAGNGSTASITVSGWRDAAGRIWSPNWLVQVEDPYLGIDGLMVIKSV
+SLEQGDRTEAILSLADPRALGGENPRGRSASGYGAPGPVKPVFGDE
+>tr|A0A1Q9ACK8|A0A1Q9ACK8_9RHIZ
+MSAAIDHLRPHVAPLKPKTGIVLGSGLGRFVEALEVVHRISYADLPGFPVSRVSGHAGEL
+VVARAGGAPVIVLSGRVHFYESGDANAMRAPIETLAALGIENLILTNSAGSVREDLTPGS
+VLRTADHIAFSGRSPLIGVEGDGRFVGMTNAYDPGLAARMEAAAESLGLTLPSGVYMWFS
+GPNFETPAEIRMARILGADAVGMSTVPEVILARYFGLKVLAASVITNYGAGMTGAELSHD
+ETKEMAPKGGETLGRILLAMLASGDL
+>tr|A0A1Q9AIU0|A0A1Q9AIU0_9RHIZ
+MKSLELLIERIILSSRWLLVIFYLGLVAALAVYGVSFIYKFLKVASNVFVYSEADMILAM
+LGLIDAALVASLIVMVMISGYENFVSRFDEGEGEVSFLGKLDSGSLKIKVASSIVAISSI
+HLLQIFLNTQQYDQARLMWATIIHLAFVISALLLGYLERIMVEIKKK
+>tr|A0A1Q9APE7|A0A1Q9APE7_9RHIZ
+MPVFDLSNTPLRALNGALHGLSTGANDTEFEVVNPRGHHAVAVGIDSPVTVDVRGSVGYY
+CAGMNDGGTVTVHGSAGPGVAENMMSGTVVIEGDASQYAGATGRGGLLVIKGNAASRCGI
+SMKGIDIVVHGSIGHMSAFMGQSGHLVVCGDAGDALGDSLYEAKLFVRGSVKSLGADCIE
+KEMRPEHLEKLAALLEKAGVPHARPEEFKRYGSARKLYNFNIDNADAY
+>tr|A0A1Q9ACX0|A0A1Q9ACX0_9RHIZ
+MAVLVTGGGGYIGSHMVWALLDAGEDVVVIDRLSTGFRWAIAPEARFYEGDIADAELLRR
+IFSENSVDSIIHFAGSIVVPESVADPLGYYENNTVKSRSLIASAVEAGIPHFVFSSTAAV
+YGTPSVLEPVTEDLPLRPESPYGSSKLMTEIMLKDTAAAHDLTYTALRYFNVAGADPKGR
+SGQSSALATHLIKVACATALGKRASMNVFGTDYPTPDGTCVRDYIHVWDLAQAHLKALQR
+MRAGGGSLAANCGYGHGYSVLEVLDAVRKVHGSDFPVTFAERRPGDPAMIVANPGLARQE
+LGWTPELDDLEGIIASALDWERHLMRKNSAG
+>tr|A0A1Q9AQ94|A0A1Q9AQ94_9RHIZ
+MMNTGSPIGEDDLQAYIDGKLPPDRQALVDAYLAGHPEVSARVTQQLADREALRVRLSEK
+FAEPIPARLRIANLQSNAALRRQGWYRSAMTACIFLGIGLAGGWWLKPEGVQINAARLSE
+AGFAANASDAYRTFVVEVAHPVEVGADDEAHLVTWLSKRSGRALTPPNLSAFGYKLLGGR
+VLPGGGAAAAQLMYEDDKGERLAVYLRAGQSAQTAFTFEEKNGVSSFVWVDQGFDFAVSA
+SVDRAKLLPIATAIYQGMI
+>tr|A0A1Q9ALM4|A0A1Q9ALM4_9RHIZ
+MPVQLAIKRLIDIAVSLLALVFLAPVLLLVALAIKLESRGPVLFRQMRTGLNEVPFEILK
+FRSMYTDRGDSTGVMQTVDGDPRVTRVGRFLRKTNLDELPQLINVLIGDMSLVGPRPHVP
+DMLAAGRVYSDLVQGYEYRHLMRPGLTGLAQARGLRGPTVQRWKAIRRIVCDVEYVRRFS
+LMLDLKIVLRTIANELRGGTGF
+>tr|A0A1Q9ANP5|A0A1Q9ANP5_9RHIZ
+MNLTRSFSAWREYRQTVTELGRMSNRELNDLGIARADIRSVARAAVKR
+>tr|A0A1Q9AIF9|A0A1Q9AIF9_9RHIZ
+MTYLTFDTITRVDEIVTDVLAMDLLHSSRDFLELVLKVTGEAENATPVAIRRSVAETSLG
+ETDIELVVESDGGKCGILIENKVRSPLMDRQFARYRMRGEAGVRNGQWQWFKVILMSPRS
+YFDTLAVEHSSHIDANLSYEAVVEFLADRPEFAFKRHVFESAIADFRKGYVKSPDVAMME
+FYQNYWAVASSQFPQLRLLKPDVVGKDGSWIYFPPLYGGNSVKLIHKFKGIGCELAVTTK
+KPEELAESLGPLLQPDMIVRPMKSVAFINVQTPAINHLIDFDSIKSNVVASLHTLERLRK
+FAMDEQVRKIIMAVF
+>tr|A0A1Q9AEI4|A0A1Q9AEI4_9RHIZ
+MKDKSNPGTGAGDRSATKSDAAGQFAKGITSSDNNGVHSAKPTVITGSDDATANKRPDGK
+RVGTEFSPRYDERDMNEGEFRG
+>tr|A0A1Q9API5|A0A1Q9API5_9RHIZ
+MPGPRLDPVETDQNLPAKADVVIIGGGIVGVSTALMLAERGVSTVLCEKGVLGGEQSSRN
+WGWVRVMGRDRREIPLAIEALKIWDGLDARVKGETGFRRAGILYISETEQDVANRDRWME
+LARLHGLDTRQIGPTETAALMPGAKVHYLGAMVTASDARAEPQKAVPAIAAGARARGAIL
+LAGCAVRGIETSGGRVSGIVTEKGRIACSTAIVAGGAWSRLLLKGLGITLPQLKVRNSVL
+RTGPVDGGPQGAGATATYAYRKRLDGGYTIAGGSDNLHALVPDSFRFLRLFAPARKAEAG
+SVKIGLSARSFEELFEIRPVPLDRPGAFERHRILDPRPEEASALKAFAAARAAFPIFNGA
+APAQIWAGLIDVTPDAVPVISTVESLPGLVISTGYSGHGFGIGPGAGHLTADLALGDAPI
+VDPAPFRLQRFFDGTPLELAPPV
+>tr|A0A1Q9AKR1|A0A1Q9AKR1_9RHIZ
+MRILVTTLAASALSLASFSLAQAADAIDEVPAAPAADFTAPAAKNWSGAYVGGVGTWHHG
+KFKGTGDRTAAGFGGGLYGGYNMQSGKIVYGAEADINYQDTDAKTSQRSMEQGVNGSIRG
+RVGYDLNPVLVYGTAGVAAADVKARQGGGSDSNTMIGWTAGGGAEAMVTDNITARVEYRY
+TDYGKETFNVPRGNFSSGYDEHSVRVGMGVKF
+>tr|A0A1Q9APE8|A0A1Q9APE8_9RHIZ
+MKATIKTISLAAGAMIAAGLGCASTASAAEGGTSFYLLGLRGPMAGFTPPPGVYVQNDLY
+YYQGSAQKTISFDLGGRLIADLDASAVINLTTLLWVTPVDVAGGNLAFSATVPIGGPDIT
+GTLGRGGRSVSDSVTTIGDPVLGSFIGWHEGDFHWQVGTSVNVPIGDYQEGEIANLSFHH
+WAADLYTSGTWLNPNTGFELSGAMGITFNGEDNATDYKNGTEFHFEGAAIQHFSKAFDAG
+LVGYYYDQISPDKGDGVPKVLGGFEGRVAAIGATIGYTFQAGEVPIMTRVKYYHEFDAKN
+RLEGDSVFLTLTMPLAVAGH
+>tr|A0A1Q9AN52|A0A1Q9AN52_9RHIZ
+MPEKPRVKVPAGQRPVAPAGPSGVGGRPGFRSAYMRDSQSGVIAARPASLREHRDEIRRV
+WTRAAGLAIDLLQNSGRLRGAADQIIADTVGVELQLNPRPDLERLGYTPAESVELVRLIK
+AKWKTYAWNPRECDLRAKLTNAQQTDIGVRNWLAYGESTGVIVYLPRAQRLPGTRTGTKF
+LLISPHKLVQETMEFEGLYQGIFHDAYGRPQRYRFREDRDGMQATVDYAAWDAQGRQMVM
+HAFDPFSAEDVRGISPLVATFRKYLMAENVDDATAQVRFLQTIYAAVLKSDKPSAEAFEA
+LETLKDVGGGEMVSAIASDFANYFKAQLDRAAEAEIRLGAGAGVSHLAPGEDLEFKTITS
+PGPDNGAFMASLHRETARALGMSYGGYTLDYSQATYASTNMENSALWPIAQRRTDRIAAP
+HVLVPYASWLDEMIEEGDIPFRGGVEAYRANRDAVQWALCQGPSKPTADDEKRARASSER
+LANGTGTLEGENGELGQDPEEVFQSRLLWHNRYKEAGMPSPFERGQASKSANAAQENDNQ
+RGAKP
+>tr|A0A1Q9AII7|A0A1Q9AII7_9RHIZ
+MDETEQTADPASTRTSTPATDIIPHVAAGSDAPLKQVTERAAKFTSSALAATWSFSRKAA
+ADLNAKRLDYLARQQAEAAERQRHERLARFDGVNRVLRSHAEVLHPKDLASVDAYAEAVG
+RDDVALAAFADHPQVLALCQLAETKAEILAFDRAFNDPAHLVEEPVERLFTALGPDRVKP
+TLQAIAASYQVSNAGNIIAGSVMAARRNYGGLLLSVNDSVRTGHHNGAASGAFTEQIYGL
+HYSSALETLGRAHGQMLRYAYRLRHFDIGDAARLDRLIFSLVYNNGRASPRLPQPVNKFT
+PQFPLEFHNNFCADIFPVSQAIADLTGLREAGGTMARTLWQAADLAPVLSAQPSALPRAG
+VMGVGPD
+>tr|A0A1Q9ANA3|A0A1Q9ANA3_9RHIZ
+MLRRSPPSIVRSKPPDPTQCPETDMTEIQPMTARPSISTPETIDLTDRIRATDSGVVLDA
+LESLMTAGFSIPGNIRPDVVGKVYAYALDGLPAIALRSVARSLIRGECGQPENGYLPRPP
+ELAALVRAEARRLADDRRRAIETRDSLRLAKAQRPAASEEAKARVRALVESVVKARSAEE
+GAP
+>tr|A0A1Q9ALF6|A0A1Q9ALF6_9RHIZ
+MRETRRQETMVVLMGGPLTAGPRLDALLAGKRAVAADGGMRHAPLLSALPELWVGDFDSS
+AEDLIARYPHVHREPYPPAKNETDGEIAAEAAIERGATGLVLAGALSGERSDHALLHLLL
+GLSLTERGIDVVLTSGEEEAYPLLAGIRPLDLSLDLPKGSLFSILGFTALEGLTIAGARY
+PLEDFSLPFGSSRTISNVAEGPVRITLKHGRAILLARPYDMTGA
+>tr|A0A1Q9AF46|A0A1Q9AF46_9RHIZ
+MTDHTPFESIETAGAVKKAVAARQASGLPARQGLYDPTNEHDACGVGFVAHMKGQKSHQI
+VRDGLFILENLTHRGAVGADPLMGDGAGILVQIPDRFFREEMAAQGVTLPKAGDYGVGYL
+FMPQDEAQVEHFKKVIADVVAEEGQKLLGFRDVPVDNASLSKAPDIAATEPRHVQVFIGA
+GRDAATQDEFERRLFTLRKVISNRIYDAFEGAETGFYPVSLSSKTIVYKGMFLAYQVSAY
+YKDLADPRFESAVALVHQRFSTNTFPSWKLAHPYRMVAHNGEINTLRSNVNWMAARQASV
+SSPLFGDDISKLWPISYEGQSDTACFDNALEFLVQGGYSLSHAVMMLIPEAWAGNQLMAP
+ERKAFYEYHAALMEPWDGPAAVCFTDGRQIGATLDRNGLRPARYLVTDDDRVILASEAGT
+LPVPEERIVKKWRLQPGKMLLIDMEQGRIISDEEVKSWLAGKHPYRQWLDNTQLILEDLK
+PVEPRALRRDVSLLDRQQAFGYTLEDTKILMSPMATTGQEAVGSMGTDTPISAMSDKPKL
+LYTYFKQNFAQVTNPPIDPIREELVMSLVSFIGPRPNLLDHVGASHAKRLEVRQPILTNG
+DLEKIRSIGHTEDLFDTKTLDFTYEVSLGAEGLKDTLDRLCERAEAAVKGGYNIIVLSDR
+QIGPDRVAIPALLATAAVHHHLIRKGLRTSVGLVVESGEPREIHHFCLLAGYGAEAINPY
+LAFDTLIEMHKRGEFPKEVDESEVVYRYIKAVGKGILKVMSKMGISTYQSYCGGQIFDAV
+GLSSEFVDRYFFGTATQIEGIGLDEIAKETFARHQTAFGPDPVLTNTLDIGGEYAFRMRG
+ESHAWTPDAVASLQHAVRGNSQDRYREFAKMVNDTALRMNTIRGLFKIRSAEEIGRTPVA
+VDAVEPAVEIVKRFSTGAMSFGSISREAHTTLAIAMNKIGGKSNTGEGGEESDRYMPLPD
+GSMNPERSAIKQIASGRFGVTTEYLVNADMLQIKVAQGAKPGEGGQLPGHKVDATVAKTR
+HSTPGVGLISPPPHHDIYSIEDLAQLIYDLKNVNPEADVSVKLVSEVGVGTVAAGVAKAR
+ADHITVSGFDGGTGASPLTSLKHAGSPWEIGLAETQQTLVLNGLRSRVALQVDGGLKTGR
+DVIIGALLGADEFGFATAPLIAAGCIMMRKCHLNTCPVGVATQDPVLRKRFKGTPEHVIN
+YFFFVAEEVREILASLGFTKLDEIIGATDLLQKDELIAHWKSRGLDFSKIFHKVEAPKEA
+TYWTERQSHPIVDILDRTLIEKAKPALESKTKVAFEVPIKNVDRSAGAMLSGALAKRWGA
+KGLKDNTIDVTLTGTAGQSFGAFLARGITFRLIGDGNDYVGKGLSGGRIIVRPSEAAVIV
+PEESIIVGNTVLYGATSGECYFNGVAGERFAVRNSGAIAVVEGVGDHGCEYMTGGVVVVL
+GQTGRNFAAGMSGGVAYVLDEAGDFARRCNMAMVELQPVPEEDDMLEKLHHHGGDLMHKG
+MVDVTGDMTRHDEERLYQLITNHQHHTGSPRAKHILEHWAEYRPKFRKVMPVEYRRALED
+MERMKMAEAAE
+>tr|A0A1Q9AMS0|A0A1Q9AMS0_9RHIZ
+MSRPALSFFDDIARSIAFLSRLPVADRFFIGHDGRMSLTVRAFPLAGAVIAAPAAMLAGL
+LAAIQAPPLVTVLLALALMAAITGGLHEDGLADSADGLGGGRTAERALEIMKDSRIGSYG
+ALALIFTLGLRVASLAALMAVLPPLSLVILMMLAAGLSRFAMLYHWQALPPARASGTAAG
+AGQPDAGAVRTAGGFALAGALLLALTLHSAGAAGLALLACAGTTFLFTRHVRARLAGHTG
+DTIGATQQLSEAALLVALAVML
+>tr|A0A1Q9AJ09|A0A1Q9AJ09_9RHIZ
+MNVIRKFSPGGSVPAVANTAAFNDGKSRRVVLLCSTDDIDRTGDIVVQTGIDLQAYRQNP
+VILWQHDHGSPIARATDVRLSGNSLEAECEFPPAGVSALSDQIYALVRANVIAGVSIGFR
+PLESLPLDKGNPMKGPQRYTKSDLLEISLVSVPCNPAARVTWKYAEGDKKAKRKAEAEEL
+RRIGEVQKLRLKQLHQI
+>tr|A0A1Q9AID0|A0A1Q9AID0_9RHIZ
+MTLLTLDNLSKRYGSAVALSDVSLSIAPGSRTAVVGPSGSGKTTLLRLIAGFETPDAGRI
+VLKGEVLAQGGMAVPAHKRGIGIVAQDGALFPHLSIADNIAFGFERGTPEREARILELID
+MVELDRGMLTRRPHQLSGGQQQRVALARALGRRPRLMLLDEPFSALDTGLRENMRKAVSR
+VLEAAGIATILVTHDQAEALSFADQVAVLRAGKLVQAGTPRQLYLHPRDREAALFLGDAV
+LLPAIARGNVADCALGRVAIAAPARQGKVEIMIRPEQIRVVRDDAAPSPAGRVVEVEFSG
+ATSTLAVALDGVALPPIVIKTSSVALPSAGDRVRLDIAGEVHIFGEG
+>tr|A0A1Q9APF4|A0A1Q9APF4_9RHIZ
+MTHDLSAFAAERGIKYFMISYTDLFGGQRAKLVPTQAIADMQADGAGFAGFATWLDLTPA
+HPDLFAVPDAASVIQLPWKKEVAWVAADCVMEDKPVGQAPRTVLKRLVDEAATEGLRVKT
+GVEPEFFLIAPDGSKISDPYDTAEKPCYDQQALLRRYDVIAEICDHMLELGWKPYQNDHE
+DANGQFEMNWEYDDALKTADKHSFFKFMVKSVAEKHGLRATFMPKPFKGLTGNGCHAHIS
+VWDLEGKVNAFADKTMPFGLSAKGKTFLGGIMKHASALAAVTNPTVNSYKRINAPRTISG
+ATWAPNTVTWTGNNRTHMVRVPGPGRFELRLPDGAVNPYLLQAIIIAAGLSGLRTNADPG
+RHYDIDMYREGHTVTDAPRLPLNLLDALREYERDTVLQEALGTEFSAAYLKLKHDEWNAH
+CAQFTEWERQTTLDI
+>tr|A0A1Q9AHA4|A0A1Q9AHA4_9RHIZ
+MTTIFHRNETRQPLPEDLKGGVIAIGNFDGVHRGHQSVLERALKEAEARGVKALVLTFEP
+HPRSVFKPEQPVFRLTPAPLKARLLEAMGFACVIEYPFDRSFSELSAGDFVQRVLIDWLH
+AGHVVTGFDFHFGKGREGGPAFLMQAGQAHGFGVTLVDAFRDENTEVISSSRIRSFLQSG
+DVAGAAGLLGYRFTVEAEVIHGKQLGRTLGYPTANMRLDPATELKNGIYAVRFREADGTL
+HNGVASFGNRPTVTQAGEALLETFLFDWSGDLYGKVASVSFFGHLRDELKFSGLDPLVAQ
+MRQDDAEARALLAGVKPLSAIDAALCF
+>tr|A0A1Q9ACB7|A0A1Q9ACB7_9RHIZ
+MSSTVRITSKNQITLPSEVRRALGIAAGGRVQLIVEEGGKVSIVAKKTGLRHLKGLFAKV
+GAPVDVDQAIAETVERRAAGDRQEEDP
+>tr|A0A1Q9AE44|A0A1Q9AE44_9RHIZ
+MPTARRKSPGLRLATRPNLVIGGALVAFLLGIALVSLVWTPLPPTKMQIALKLKAPLEKG
+LFGTDHLGRDVASMLMAGAWNSLSIAVSAVALGAAVGTALGVTVAAKRGLFEAVAMRAND
+VIFAFPPILSAMMLGALMGTGRGTAIIAIATFMVPVFARVTAGAASQVWARDFILAARSA
+GKGVTRITIEHVLPNIANQIIVQVAIQLGLAILTEAGLSFLGLGMAPPAPTWGRMLADSQ
+TYLGTAPWLALMPGLAIALTVFGFNMLGDGLRDLLDPREKGRT
+>tr|A0A1Q9AMN4|A0A1Q9AMN4_9RHIZ
+MDVIFDLFGNPVPLGRGKRGRPEHVPTIENRNRVSMLLALGWSNERIANSLAITLPTLRK
+HYFSELKQRGAMRDRLEARRLELAWRTAEAGNVGAMKEFGRLVEKSDRMEIERELAQDRK
+QDAAPEKEARLGKKALEAQRALDADAELTSELEQEAARNARH
+>tr|A0A1Q9AF24|A0A1Q9AF24_9RHIZ
+MTDLTPEQQQAFEAAAFRRLLAHLSARSDVQNIDLMNLAGFCRNCLSNWYGEAAREAGVS
+LGKEEARALIYGMPYEVWREQNQKEASPQSQAAFERNKPPHQD
+>tr|A0A1Q9ACM5|A0A1Q9ACM5_9RHIZ
+MLRFGILSTAKIGRDQVIPAIQDAEGCVVTAIASRDLSRARAVADRFSVPHAFGSYEELL
+ASSEIDAVYIPLPTSDHAEWAIKAADAGKHVLCEKPIALKAEEIDPIIAARDRNGVVVSE
+AYMVTYSPVWTQVKSLIAEGAIGRLRHVQGAFSYFNRDPENMRNKPELGGGGLPDIGVYP
+TITTRFVTGCEPVRVQATTERDPAFGTDIYSSVRADFGDFELSFYISTQMAARQVMVFHG
+VDGVIEVKSPFNANRYGAEELELSSQNHAQSQIFRFPDSRQYKLQAEAFVKAVAGARDAV
+VSLESSRANQALIDAIYRASEKDGWEAV
+>tr|A0A1Q9ANL6|A0A1Q9ANL6_9RHIZ
+MTDDVHSVPERCSELTRRSLLVAGAALATLTALPAGLAFAASNPEPGEMTMGFVTAKDGT
+EIFYKDWGPKDAQPIMFHHGWPLSSDDWDAQMLFFLSKGFRVVAHDRRGHGRSAQVSDGH
+DMDHYASDAFAVVEALDLKNAVHIGHSTGGGEVARYVAKHGEPAGRVAKAVLVSAVPPLM
+LKTEANPEGLPIEVFDGFRSALAANRAQFFRDVPAGPFYGFNREGATVHEGVIQNWWRQG
+MIGGAKAHYDGIKAFSETDQTEDLKAISVPTLVLHGEDDQIVPIADAAHKSIKLLKNGTL
+KTYPGFSHGMLTVNADVLNADLLAFIKG
+>tr|A0A1Q9AEF9|A0A1Q9AEF9_9RHIZ
+MSGLETAIREALARSDRRSPEIRARIYQSARNALEAGLRKQNVTDAKVVEQQRHRLEVAI
+HAIEREERASAPQAPAGSKPAAPARTPPSAADLPFSASAPPAHPSAPRAAAPRQGMAPPS
+APMPEDPLAGLRAERGLSAGRSSDGDAGRLDMMPDVDQRRREAEDDGLEIASAIPPVRAA
+RPAPRRGAEPQEPSFDALDDDLALSDEDRAMAERLLAPEPAPVGPASRRIDKPGRRRRSR
+FFSFLLVLVTLVGTFGLAGWWAINGGLMKAAREGVIGQISVRGDDYDPSKGLRQLNSKSG
+FSADWKILFAPDQAAHGVTTGPRAVAAAVSDEGGQRLRITSSSPEDDGAVVVTIPVEIMR
+DLAGKSATIAVTVQADRGSSTQFSVECDFGALGNCGRHRFTINDERSDLLFKTVFSARAP
+TGPGRFLINSDVTGSGLSLNLYGVRVLADP
+>tr|A0A1Q9AKR2|A0A1Q9AKR2_9RHIZ
+MGEAGDRLERFGECLCGAVRFTLRADADMHACHCGLCRRWAGGAFMALSCSEPVFADSAA
+LKAYGSSDWAERLFCGACGTSLFWRLRDGSHWAVSAHALDDQEDVRFQAQLFTDEKPDFY
+AFANNTTMMTGADVFAAFSGDQQPEHRDGSR
+>tr|A0A1Q9AIY0|A0A1Q9AIY0_9RHIZ
+MSASFAGRGMFKNKTKVDLELQALLEREPERPHRSLLDLMVAWSIIGMFVIAMSVVIYLL
+EPILMPVTLAIVVGMVLGRAADQLSRFGLPPGAGGLILGLIFAVGLFLLINALIEPVSNL
+VAAAPAMIERSVDRMLPFLNRFEWARHVIDGANEKTISDMAMANAGAVLGALAAGLTPAF
+VQAAIFLAALGLFLLGRAHLRKTIIMALITRERRLTAIRIMNATENAVGFYFATASLIYL
+ALGTVTGLIAFIGGLSMAPLWGVFAFISSFIPYLGVTAMTIALLCAGLMTHDALLLAMAP
+AAGFFLLHLVMENLVTPAILGSRLEINPFLIFIAIIFWTWMWGAVGAMLAMPLSLIAMTI
+FNEVRSHPPERQLPG
+>tr|A0A1Q9AGZ5|A0A1Q9AGZ5_9RHIZ
+MTDHQHPLGSGCGAHTTAADVLAGIDLTGKRAIITGGHSGLGLETTKALAAAGAQVIVAA
+RNPEAARTATSDTPNVTVDALDLGDLASVDLFARRLLKAGHHIDMLINNAGIMACPETRV
+GPGWEAQFATNHLGHFALTNRLWPLLEGGARVVSISSAGHHNSPIRWDDVQFADGYDKWL
+AYGQSKTANALFAVHLDRIGRESGIRAFSLHPGKIFTPLQRHLTQAEMAAAGWLDANGNP
+ADPTFKAPAQGAATQVWAAISPQLDGLGGLYCEDCDIAVRAETAGKPFVGVKAYATDGNE
+AERLWNLSAEMTGRDYSRESW
+>tr|A0A1Q9AKD8|A0A1Q9AKD8_9RHIZ
+MNRGLMILTAALPLALAGCDEKKAEAPEVVRPLLSQTVALRPAATLRLPGLVEPRISTDL
+GFRVLGRVVARDVSVGDLVTKDEVLAAIDPLALELAVRSAQAEIANAQAQLTNAAATATR
+QRTLAESKSDSEASLETAEQAEKTARATLAKAEANLAKAREQLSYAQIHAEFDGVVTATA
+VEVGQVVSPGQTVLTIARPELRDAVIDVPEMEARRLSIGAPFEVMLQLDPSVRVSGEVRE
+IAPEADTTTRTQRIKIALVNPSDAFRLGSIVTVASTTDASPTLVVPASAILADKDGSAVW
+LVDEAAQTVSRHKVTLAQGAADGNGVVVSAGLEPGQRIAVAGVHQLKEGQKVKIVRETTP
+>tr|A0A1Q9APB4|A0A1Q9APB4_9RHIZ
+MDRAEILKALSNPARLDILAWLKEPEAHFSSQEHPLSMGVCASQFERCGLSQSTVSAHLQ
+VLQRAGLVTTRRVGQWIFYRRNEETIAAFLKDLGEAL
+>tr|A0A1Q9ANV6|A0A1Q9ANV6_9RHIZ
+MKRLAMLLACAAFALPIAVKAEDAAGTTKKDTYRFVIVPKVVHPWFDKVNNGAKAAAAAL
+KAQTGANIEITYSAPQAADVVQQNQILDSALATRPDGLAVDLLDPSGNRASLEEAQGQKI
+PLVLFDSVPPEGMNITYIGSDFCEQAKIAARRLVKLLDGKGEVAIMMGVPTAPNHSIRAE
+CHRKVFAENPGIKVVAEGIDNDSIQTAQQQAAAIMQAHPDLKGWVASDASGPTGIGQAII
+EAGKQGKVALVGLDNMPEMLDMIRNGVADSSSASQPEMQGYWSVMMLWAQATGAPVPNYI
+DTGNAFLTKENVGN
+>tr|A0A1Q9AM23|A0A1Q9AM23_9RHIZ
+MSISQQLLSAINELSTNPEQVAAVRETGHCVVLAGPGSGKTKTLTTAMARALSYDIIEPR
+GVACITYNNECAIELETRLARLGIESGDRAFIGTVHGFALSQVIAPYARCVPIGLPAEFQ
+VATRAQTRAAVEAAYATAIGGSDDPHRRWNFASEKRRRDVDRSRPDWLGRNPELAVFIEA
+YENELRRQGLIDFDDMPLLAYRMIKEHDWIRDALHARFPVLFVDEYQDLGHALHELVLLL
+CFGGGIRLFAVGDSDQSIYGFTGANPELLDSLTQRCDVRTIRLRFNYRSGGKIVRASLGA
+LGEERDYREAEGAPEGELTFWPVTLGLDVQAQAIADTVIPDLEKRGFALDEIAVLYRAAY
+LGDKIAEALKRAGTPFVRSDGNALVRRSSRLSRFIEDCARWVVGGWKSADPRYSRLLQQA
+LKIVYGAQVRPDEEQLLSDQLIGFLQATINSSDTTHTWLQLFDSELIAHWRTIARNAEQE
+WEVCAEMIRNTDPVADLDIPLAHLAGRVEGTGRVNLSTLHSAKGREFDAVVMYGVNASDF
+PSQRDRQSTVALREARRLFYVGVTRPRRELALVYQEHHHSPWVKELFDRSQI
+>tr|A0A1Q9AD06|A0A1Q9AD06_9RHIZ
+MFDLILRNANLPDGREGLDIAIRNGRIAAVERGIAAQAGAVIDASGRLVSPPFCDPHFHM
+DATLSLGLPRMNVSGTLLEGIALWGELRPLLTREALVERALRYCDLAVSQGLLFIRSHVD
+TSDPRLVTAEALLEVREKVAPYIDLQLVAFPQDGYYRAAEGVAALTRALDMGIEIVGGIP
+HFERTMEDGRRSVEALCRLAAERGLRVDMHCDESDDPLSRHIETLAAETIRFGLKGRVAG
+SHLTSMHSMDNYYVSKLIPLMAEAEVDVIANPLINIMLQGRHDTYPKRRGLTRVRELMTA
+GLNVCFGQDCTMDPWYSMGSADMLEVAHMGIHVGQLGGIEDKKRVYEAVTVNSARAMGLE
+GYGLEVGCKADLVVLQAADVIEAVRLKPTRLLVLKGGKVVSETPARVSTLTLEGRPASID
+MGLDYRPRAGVEG
+>tr|A0A1Q9AEL9|A0A1Q9AEL9_9RHIZ
+MSFFSSYHQGFVRVAACTPVVSLGDPAANAAATLALAEEGHRRAAGLMVFPELGISGYSI
+DDLLGQAVLHEAVDQALAGLVEKSRELMPVLLVGAPLVHNGKLYNCAVVIHRGAILGVVP
+KTHLPNYREFYEKRWFAPGRDIRGETITVAGRPVPFGVDLLFAARDRANFVFHVEICEDV
+WLPACPSDFGALAGALILTNLSASNITVGKSDTRHLLCAAQSERCFAAYVYAAAGPGEST
+TDVAWDGQACIYELGRLLAETSRFPAGAQMCVADVDVDRLALERLRTGSFNDAGLMNGRP
+ETTMRRIGFDLAPPEADIGLERSISRYPFVPADPARLDQDCYETVNIQVEGLMQRLRTTR
+LKKLCIGVSGGLDSTHALLIAANAFDRLGLPRSGILGFTMPGFATGDATKSNAWALMDSL
+GITAEEIDIKPLAHQLLKDLRHPFADGEKVYDITFENVQAGLRTDFLFRAANRYDAMVLG
+TGDLSEIALGWSTYGVGDQMSHYNVNASVPKTLIQHLIRWMIRTGLFKADTNEVLGAVLD
+TIISPELVPADENGQMQSTEDKIGPYALHDFMLYYTTRFGLKPSKVAFLAYHAWRDANAG
+DWPPGFPAESRQAYDLATIKRWFETFLFRFFTISQFKRSASPNGPKVTSGGSLSPRGDWR
+APSDGNARAWIDELKRNVP
+>tr|A0A1Q9AP50|A0A1Q9AP50_9RHIZ
+MALHFGDDEYAARLQRLTARMREEKLDAMLLFAQESMYWLTGYDTFGYCFFQTLVVKADG
+EMVLLTRSADLRQARHTSNIKRIEIWVDRVNADPTMDLKNLLSELDLLGCRIGVEYDTHG
+MTGRIARLLDHQLSTFGELVDASLLVGRLRLIKSPAEILHVEKAASLADDALDAALPLIR
+PGASEAAVLAAMQGAVFAGGGDYPANEFIIGSGADALLCRYKAGRRLLDDNDQLTLEWAG
+VSAHYHAAMMRTVVIGEPTNRHRELYSAARETIQAIEMVLRPGNSFGTVFDVHAKIMDER
+GLTRHRLNACGYSLGARFSPSWMEQQMFHAGNPQPIEPDMSLFVHMIIMDSDSGTAMTLG
+QTYLTTDGAPRALSRYGLDFIEV
+>tr|A0A1Q9AHK4|A0A1Q9AHK4_9RHIZ
+MKCLIVQPVHAAGRARLEHGGVTPVLCPDTELETIIGLIGDCDAVMTRDAGLCAEAIVAA
+DRLKVIVAHGAGHDAIDKAVASQRGILVCNTPGANARSVSELALGLAIAAARLIPAADRA
+VREGSKGFREAEHFHELFGKTALIVGWGATAQGLGRMLDVAFGMRILIHSPRSMGTLPYP
+RAASLEEGLGLADLISLHTPLREETRNLLDRRAFAAVKRGAILVNTARAGLIDEAALADA
+IADGTIAGAGLDVYTAGAAQGLLGASNRVIFTPHLGGTTGEALERVAFAAAGHVLTALSG
+ERPETTVTLPLVTA
+>tr|A0A1Q9AML1|A0A1Q9AML1_9RHIZ
+MTDHSKLTRNQSLVVSALRESDAPLSAYMILDRLREDGFRAPLQVYRALDKLIERGLVHR
+LESLNAFVACRHDHSHGHSHGHQGGVVAFAICEDCGSVAEIDDPTINARLMALATDRHFK
+TEKTTIEMRGHCSACAGESHTPQA
+>tr|A0A1Q9AQE1|A0A1Q9AQE1_9RHIZ
+MKTLKSLFWPLIGLLAIGFSLYGLFHELRDLSAAEFMASIKAVSLHGWIMAALSTLLAYA
+ALAAYDHLALEHLGRRISIPFITVCSFTAYALSHTIGASVFSGAVVRYRAYGSKGLTAGE
+TGILVAFCSMTFALGTLMLSAIVLLIEPEITTRFASFLPEGLSITTALVILAGIGLYLAG
+SFIGFRPLQTRWLKLEYPKPSLALRQLVIAPVELIGAAAIIYFALPVENNPGYLVVLGVF
+LASFSAALLSHAPGGIGVLELLFISALPELNPADVLAALAIFRLFYLIIPFLAALVVVII
+FERQQFILRRRQGL
+>tr|A0A1Q9AMM5|A0A1Q9AMM5_9RHIZ
+MTTALRSILPDEHETARLAALATQERWIDFSRGLVCGVAIVLPLALLPHALGALALVLR
+>tr|A0A1Q9AG54|A0A1Q9AG54_9RHIZ
+MSGPPRLSVRNIRKSFGTHEVLKGISLEARDGDVISLLGASGSGKSTFLRCINLLEIATE
+GEIFVDGEEIRMVKKGGHNQPASQKQVDHIRSELGMVFQSFNLWSHMTILQNVIEGPVHV
+LKRPRAECIAEAEALLEKVGIVDKRHAYPAHLSGGQQQRAAIARALAMKPKAMLFDEPTS
+ALDPELVGEVLRVMRALAEEGMTMLVVTHEMSFARNVSNRVVFMREGVVDSAGAPQDMFG
+SGASPAFRQFIGHFGQA
+>tr|A0A1Q9AFP2|A0A1Q9AFP2_9RHIZ
+MARIVMKFGGTSVADMDRIRNVARHVKREVDAGHEVAVVVSAMSGKTNELVAWTRDASPM
+HDAREYDAVVASGEQVTSGLLAIALQHIGINARSWQGWQIPIRTDNAHGAARILDIDGSD
+IVRRMGEGQVAVIAGFQGLGPDNRIATLGRGGSDTSAVAIAAAVKADRCDIYTDVDGVYT
+TDPRIEPKARRMKKIAFEEMLEMASLGAKVLQVRSVELAMVHKVRTFVRSSFEDPDAPGM
+GDVLNPPGTLICDEDEIVEQEVVTGIAYAKDEAQISLRRLADRPGVSAAIFGPLAEAHIN
+VDMIVQNISEDGSKTDMTFTVPSSDVAKAMKVLEENKARIGFDVAQTESGLCKVSVIGIG
+MRSHAGVAASAFRALAEKSINIKAITTSEIKISILIDGAYAELAVRTLHSAYGLDKT
+>tr|A0A1Q9ALC9|A0A1Q9ALC9_9RHIZ
+MKKSLNERLAILSDAAKYDASCASSGTAKRHAGGPNGAGGLGSTEGSGICHAYAPDGRCI
+SLLKILMTNFCIFDCAYCINRSSSNVERARFSVEEVVWLTLEFYRRNYIEGLFLSSGIIR
+SSDYTMEEMVRIARELRTTHSFRGYIHLKTIPEASPALIEEAGLYADRLSINIELPTDTG
+IAAYAPEKRPSEIRRSMGNVRLLIEEAGEPTLKTKSRKRFAPAGQSTQMIVGADAADDGT
+ILSTSARLYGSYGLRRVYYSAFSPIPDASRALPLVKPPLMREHRLYQADWLYRFYGFEMR
+ELLERRPDGMLDLSLDPKLAWALAHRERFPVDVNTADKEMLLRVPGFGTKAVKSILSARR
+LRRLGLDDLARLHVSVKKVKSFIVAEGWTPHRLIDRPDLKSLFEPKPEQLSLL
+>tr|A0A1Q9AFK3|A0A1Q9AFK3_9RHIZ
+MHTDIVDLRQFYHSRLGRAAEQAITMALATLWPRLPEERLVGLGYAIPYLDRFRADTERT
+FAFMPAGQGAVNWPPAEMSSTALVFDEELPLPDSSVDRVLMVHSLEFAENPRESLKEIWR
+VLAPGGRLVIAVPNRRGVWARMEHTPFGSGRPYSRSQLTALLRETNFTPGATADALFFPP
+SKLKTMLKLRRGFERIGRTIWPVFSGVIIVEAQKRLYQGLPVAARASRRVFVPVLAPQGV
+PTTYSPPKGARRTAEPGQG
+>tr|A0A1Q9APR1|A0A1Q9APR1_9RHIZ
+MAEPLPAQGRLIGVGTGPGDPELLTVKALRALESADVLAYFAKAGRRGNGRSIVDGLLKP
+SIVELPLYYPVTTEIDKEHDDYKSQIGDFYDRSAEAVAAHLVAGRTVACLSEGDPLFYGS
+YMHLHVRLAGTFSAEVIPGITAMSGCWSVAGLPIVQGDDILSVLPGTLSEAELARRLGDT
+EAAVIMKVGRNLPKIRRALASVGKLAEAVYVERGTMANAAMVPLAEKADDAAPYFSLVLV
+PGWKGRR
+>tr|A0A1Q9AFE8|A0A1Q9AFE8_9RHIZ
+MAAFALELFPCRTDNFGVLLHDPDSGETAAIDAPEEAAILAALERRGWTLTHILTTHHHG
+DHVEGNLALKTRFDARIIGPAEEASRIPGIDMTVPGGGSFSFAGHPVKAIETPGHTAAHV
+SYHFAEDGLLFAGDTLFALGCGRLFEGTPADMWASLSKLAALPDETTVYFGHEYTLSNAR
+FALTIDPDNMELRARAAEIEGLRAEGRFTAPTTIGLEKRTNPFLRANDPAIRRHLGLEEA
+EAAEVFAEIRRRKDQF
+>tr|A0A1Q9AD07|A0A1Q9AD07_9RHIZ
+MSTPAPPVIELATYPGLDPRIVLLRAGEEVDAAFVRTQRFDLLIDTLSTPDDCRTALALL
+GSRFPDLGTRPLTIVNSHMDWDHFWGNAALAGRGPIIAHAAARDRLAAPAARQTLAQKQA
+EDPRFAGVTLVAPEITFDGGLQLDGGDLTIELIHTPGHTPDHLAVWIPEIRTCLAVDAVE
+MPIPEVWSRTPGDLHQLRASLARIQALDAAFVVTAHGRSCDPALVAGNIAYFDALEQRVA
+ALATTAEAPAGHDLSGEGEALPLSPEGTGLRLEDLVSLPSGMDADTRAFYEGFHATNLAA
+TLAARRQAPGAA
+>tr|A0A1Q9AHL9|A0A1Q9AHL9_9RHIZ
+MTRPQAQTVPPATESERERRRSGPPRPVHRIREDGEALEIAHLLAERFQAGAADRDRERR
+LPWDEIEAYTESGLGAITVPKDFGGTGARYETLAKVFEILCAADPALGQIPQNHFGVLAL
+VHDIGTPAQKARIYADVLAGHRIGNAGPERKTRLITIATTRLEETGEGLRLTGERFYSTG
+SIFAHYIPTRAVDAQGRAVQVWARGDAEGVTVIDDWNSFGQRTTASGSVIFDRVAIDPLL
+VFPVHAFADRPGLAGPASQLIQAAIDAGIAQAAFDDACRFVRERARPWMDSGLERATDDP
+TILHSVGHLATELHAAQEILYEAGRVLDRVSAAPVTAQSSAEASVTVAEAKILTTEIALD
+ASETLFDLAGSAATRAAHNLDRHWRNARVHTLHDPVRWKYHLIGNHELNGALPARHQWN
+>tr|A0A1Q9AIN4|A0A1Q9AIN4_9RHIZ
+MNIIIGLVMTLGCILGGFIAMGGHLTVLNQPFELVIIGGAGLGGFIMANSMKTVKDAGKA
+LGEAFKHKVPKERNYLDTLGVLYSLMRDLRTKSRNEIESHIDNPEESSIFQQAPTVLQNK
+ELTAFICDYVRLIIIGNARSHEIEALMDEEIETINHDKMKSYNALATMGDAFPAIGIVAA
+VLGVIKAMGAITESPEVLGGKIAAALVGTMLGIFLSYCIVSPMIANIKAVREKQNRLYVI
+VKQTLIAYMNGSVPQVALEYGRKTISAYERPSIDAVEQEMMNPGGGGESKAA
+>tr|A0A1Q9ALW1|A0A1Q9ALW1_9RHIZ
+MKFRTMAVALAAGVALSLAGCQSLTYDQFRQNPKAVSKAQLCRTLVETQDIGFARLIVAE
+LARRGIDYRICPAMVMQQNQAAATVAAVALAGTAVAVCTNYDCSAPGYGPSSYRTYDGNC
+QHPWQRDIRGNRCGARSADSRPGGAVDVQQLQTNEP
+>tr|A0A1Q9APL4|A0A1Q9APL4_9RHIZ
+MCGIVGLFLKDPSLEPELGALLSDMLITMTDRGPDSAGIAIYGGASNGKAKITVQSARPE
+ADFDGLEAALTQAGLPVSLTVKSTHAVIACAADALGAVREALTKLRPDVRVMGSGESVEI
+YKETGLPKDVVSRFDVRSMSGTHGIGHTRMATESAVTTLGAHPFSTGADQCLVHNGSLSN
+HNNLRRELVREGMRFETQNDSEVAAAYLTAEMAKGKDLGEALTGALDDLDGFFTFVVGTR
+SGFGVVRDPIACKPAVMAETDRYVAFGSEYRALVNLPGIEEARVWEPEPATVYFWDHEKA
+A
+>tr|A0A1Q9AGB2|A0A1Q9AGB2_9RHIZ
+MAEPAFAASRRALIDPLGATLAAIVAIAFLFQPLMLLRPNRIAPAQGAFAWEALPGLQPM
+ACGIITALVVLILISRADARLRLAAAVAGLVGLGLAVGSGASHLLPPGSAYARVAPGAGA
+WLALFALSLATGDALVRLRLSPSGRIAALVVAAGVLAGFLASGLWSDLSVLREYASRSDA
+FLRELWVHAGLSVFSLLAAVVVGVPLAMLLRRVATLRRAALAALNVLQTIPSMALFGLLI
+APLAWIGAHVPGAAALGIAGIGVAPAFIALFAYSLLPIVGSTIAGFEAVSERTREAADAM
+GMTAWQKLLRVELPLALPVILTGVRIVLVQNIGLSVIAGLVGGGGLGVFVFQGISQTATD
+LVLLGALPTVAMAFAAGIVFDALIDLSRRQETR
+>tr|A0A1Q9APG3|A0A1Q9APG3_9RHIZ
+MSIKRYGTVQTGAGGKPLPFARAVEADGWLYVSGQVAMENGEIIEGNIVAQTHKTIANII
+AILEEAGYGLEHVVRCGVWLDDPRDFWSFNAVYQSYFGEHPPARACVQSSMMVDCKVEID
+CVAYKPKQG
+>tr|A0A1Q9AER0|A0A1Q9AER0_9RHIZ
+MRAIGYRTPGPIAADASLVEIELPRPVAGGRDLLVEVRAISVNPVDTKVRHRAGPEGEDW
+KVLGWDAAGVVAAVGEAVEGFKPGDAVFYAGALDRPGTNAEFHLVDERIVGRKPDSLDFA
+AAAALPLTAITAWEALFDRLVVERPVPGAAPALLVIGGAGGVGSIAIQLARARTDLTVIA
+TASRPETADWARALGAHHIIDHSKPLDAEIAALGLGAPGFVFSTTGTDGHLDAIARLIAP
+QGRFVLIDDPGAVNISPFKQKSVSVHWEFMFTRSLFATADMAEQGRLLNAIAAMIDAGTL
+KTTLGTHFGRIDAANLKRAHALLESGKARGKIVLEGF
+>tr|A0A1Q9AK99|A0A1Q9AK99_9RHIZ
+MTIRPTLRLQRFADHRLMPWKNGKGETREVASSEDAASGLLWRLSLATVSGSGSFSAFPG
+IDRTIAVMAGDGMVLTVGGESQPPLTTDTEPFAFSGDAEVTAESLGGETTDLNLMTRRGV
+WHHRLTRRRLTRRPLAAPLTLEVQASTAALVFSGAAQVSVNDAAFTGAFGDVLLGLTQGD
+RITLTEAKSEGYLFIAEFAPVAEGWAR
+>tr|A0A1Q9AMU7|A0A1Q9AMU7_9RHIZ
+MSLNTLLSWFEQRLDPYPQDASGLPPKGLLAFCWHYTRPAWPWLLVIGVCSMLIALGEVL
+LYQFLGNIVDWLTHANPQTFLSDEGLRLMLMSGLVLIALPIIGAIHSLTMHQVLAGNFPM
+IARWQMHRFLLRHSMSFFANEFAGRVATKVMQTSLSIREAVMKIIDVFVYAFSFFASMLV
+LVIAIDWRLVLPLVLWVVLYGVILAVFIPRLRRLSSEQADARSLMTGRITDSYTNIGTVK
+LFSHAGREEAYARDGMSGFLDTVHRQMRQVTLLNIWVDVNNAVALFAVGACGIGFWLNGT
+VSVGSVAVAIGLAMRINGMSQWIMWEVAALFEAIGTVYDGMSMMTRAHEVVDAKEAKPLA
+ASRGAIRFDDIRFHYGKAGKGVIEGLTLDIAAGEKIGLVGRSGAGKTTLMNLLLRFYDLE
+GGRITIDGQDIAGATQDSLRQAIGVVTQDTALLHRSIRDNIAYGRPEASDAEIIDAARRA
+NAWDFIEGLTDLQGRTGLDAHVGERGVKLSGGQRQRVAIARVFLKDAPILILDEATSALD
+SEVEAAIQENLFALMQGKTVIAIAHRLSTLTEMDRLIVLDRGRIVETGTHEDLVRQGRLY
+ADLWSRQSGGFLTEDEGDATEAAQ
+>tr|A0A1Q9AGZ9|A0A1Q9AGZ9_9RHIZ
+MRQNHFLRLMAGAAILALATVAAAPASHAEQKAEVKRSEPFDVNSVNSFSGAFLAARTAD
+VDQDLDNATKLYRTALEFEPGNREVKQRLMITLLMNGNLSEGVTLAEQLKSDGAVERITT
+IARGVEAIRKKEYRNAQKILQYKGPNDLDRLMNGLLVAWAKAGQGRPKEAIAAINAMDGP
+DWFGIFKNYHAGAIALAAGDKATARTRLNEAVTDRTGGGAAPDTFLRAVMALARLEAQDG
+NKQKALDAVAVGETFLNNYAPLSALRTSIEEGKPQEQQVRDATQGAAAVLFSIGAALNRE
+GAEDVVSLYLQTARALDPDSADILVMLGSIAENLKQPDRAISFYKMVPDNSPMRRLSEMQ
+LGLSLASIGQVEEAKTHLRTLIDLDPKDMRSYMAYGSVLSEAKDYKAMGEVYDRAVEALG
+PTPRKSDWSIFFQRGIAYERQKIWDKAEPNFKKALELNPDQPQVLNYLGYSWVDMNINLE
+EGLNMIRKAVELKPDDGYIVDSLGWAYYRLNRFDEAVTELERAVELMAGDPTLNDHLGDV
+YWRVGRRLEAVYQWNQALELKPEASEIPKIKEKIANGLPPLAEKVPAAAEASPTPAQQTA
+PTPPAPATPEAPATPEKKS
+>tr|A0A1Q9AEM2|A0A1Q9AEM2_9RHIZ
+MIQTPFCDKAFMANQLARMLWEIKAVHFRPEQPYKLASGMASPVYIDCRKLISYPRIRSA
+VMDFAAATILSEAGFEQFDVIAGGETAGIPFAAMLAERLALPMIYVRKAPKGHGRNAQIE
+GHMAEGARVLVIEDLTTAGGSMFTFINAVRAAGGIVDHGMALFYYDIFPAARGEMQDKGV
+TLHNIATWRDVLAVAREKQLFETDRLAEVESFLDAPLDWSARHGGVATL
+>tr|A0A1Q9AIB9|A0A1Q9AIB9_9RHIZ
+MIVTPHHDASEAGAAVLRRGGNAIEAVIAAGAALSVLYPHFCGLGGDAVWMLADAKGEVS
+CLLGIGQAAAVSDPARMEAIPMRGPGSTLTTACLVDSWDRLMAISSAQWGGREGLGDLIE
+PAIRLARDGFPVSRSQRFWFDFRAGESAGWPGFQRIFTGDGHQRQPDLARTLESIARDGA
+RSFYEGALARRIARGLAEAGSPLTAADLAATEARFAEPVHLDYRDLRLFAPPPPTQGITT
+LGILGALAAFDVAAMAPGRAAHYHHLVEAVKQAFLDRQLIADPDFAEEAGRAAMAGLLDP
+ARLAAKAARIDPVRAMAWPHLHRPGDTAFLGAVDGKGRCAGVLQSIYFDWGSGVVVGDTG
+ILWQNRGAAFSLDPDSPNRLAPGKRPFYTLNPGLGLKDGRPHLVYGTQGADGQPQTLALL
+LSLLIDHGLDPQDALSMPRFLLGKTFSDSRDSLKLEENAGPETFSALSALGHTVSAIGAL
+SPLGGQAGIIRIGADGALSGAHDPRSDGGAITVQGGSA
+>tr|A0A1Q9AKD6|A0A1Q9AKD6_9RHIZ
+MLKIRWALAALSLAASTVLASASAQATDVTLWVRTSSGAVLQGLADHYNAKHTDKITVTQ
+ITAEQMVPKLGAAIAGGEPPDGAVLDLIYLPTFAAAEGLEDITEFAKSRPYFSAMSPSHI
+RLATYEDKIYGVPALPDASIIAYNTDLFQKAGLDPAKAPASLEEIAADAKKITALGNETY
+GFYFVANSGSWLIYDFLPHLWAAGADILSEDGRTATVDTPAFRETVAAYRDMQKAGAIHP
+TSRSGNGNNAVEAFASGKVGVLMTGSYIVNLLTSKYPDVKFAVAPIPGPKGGVSSFAGGD
+TLAVMKGISAEKKKVLLDFVDFYMSPEEQVYITKESGMPSRTDLAADAYASFDKRNLVAY
+DVLSKARTPYTFSSDELFVSRTGPFLNLIQGTIFGDDVDGAIKKAQADFTKILERTNP
+>tr|A0A1Q9AKL8|A0A1Q9AKL8_9RHIZ
+MHRTALVTGASRGIGRAIAVGLARRGYDVAVNDIVRQRAALEEVAAEIEALGQRALPVFA
+DVSSKSDVVAMVETVESAFGHIDVIVNNAGILISGNVAGLKEDFWDSVMDVNAKGTFLVV
+QAALAGMKARKYGRIVNIASIGGKHGAPEQAHYSASKAAVMGFTRVLAQEVGVDGITANC
+VCPGIILTDMGRVNLDDPAIRKAWQEKTALRRIGDPEDVVGAVAFLASDDAAFITGQTLN
+VDGGIVLS
+>tr|A0A1Q9ALN0|A0A1Q9ALN0_9RHIZ
+MRTLPLAAGLVAILAMAGCQRTSMSEFSTAPAAPAPLQAQPVPSVSATQLPPPGAAGNAS
+QFPAAPVNTAAANPSPAANAAPPAASLDVTKESMVGNWRVSAGPSSCDMFLTLTNLGSGS
+RGGTRGCAGELTQMGSWEVAGKQVILKNRSGDPIARLYKSADSRFDGTTNSGQALSLSR
+>tr|A0A1Q9AJR3|A0A1Q9AJR3_9RHIZ
+MLSWQAGRSVARRGAAVSLALVLPMLLAAAPAAAQMRDVGTASADYPFANLPGVKPQEPL
+VGGPDQLHCRQALVPQRDTVFSSANPRYDTVNVCRKGDGPEFSSPRLPPSIYRQLRGLDY
+>tr|A0A1Q9APZ4|A0A1Q9APZ4_9RHIZ
+MANTTSAKKATRKIARRTEINKSRRSRVRSFVRKVEEAIASGDQTAAAEALRAAQPELMR
+AATKGVLHANTASRKISRLAHRVKTLSA
+>tr|A0A1Q9AE51|A0A1Q9AE51_9RHIZ
+MIAAAPPSPERQTDRSNGGAFTVSHRLVLSIAVPMTLGFLTTPLLGLVDTGVIGRLGEAR
+LLAGLAVGAILFDLIFTTFNFLRSATTGLVAQAFGQGNLREQQAIFWRSLAIALVSGVVL
+VALSPLFLKAGLAVLQPGDDVAEVTRVYFFYRILAAPASLANYAVLGFVLGRGQGTLGLV
+LQTLINGTNIVLSITLGLVLGWGVAGVACATAIGEAVGALVGVALVIRRFDRAYRPAWAE
+IVARDRLMALFALNRDIMIRSFVLLAAFLVMTRLGTAQGPVVLAANSLLMTIFLLAGYYL
+DGLANAAEQLTGRAIGARYRPAFERALKLTALWSFGLALLTTLFFLLVGQGVIDALTTAE
+AVRFEAYRYVPWAALTALTGALAFLMDGVFIGATWSRDMRNMMLLAFALYGLAAATLVPA
+FGNHGLWAALNLFLLARGLLLLARLPKRAAASFAA
+>tr|A0A1Q9AGI3|A0A1Q9AGI3_9RHIZ
+MWRPPDAVPLADLWSGEAGKRRAARRVWIADSLQDGFDILLFYAMRALPVAGCSGLGARL
+GRFSLPRFHKTAVARLTANLERLLPEAKAEMRAALMRRNWENQGRLMTEFSVVHRIARDP
+ERLRIEGGEHAQAAAGLGPVIFMGLHLGNWELIWPALVGFDLHPALNYAPPRSRARHWIA
+RRTRRQAGIDLLPPGMSAVRPALKRLQAGGQVIIFCDEGLHGKIRGPFLGRPAHLDGNLA
+LVARLARLTGAAICPVWTVRDEKDPTRFALTIRPALTLDPGAADMDQLTADVIRLNAEIE
+PVIRAHLDQWYFLDSAL
+>tr|A0A1Q9ALZ0|A0A1Q9ALZ0_9RHIZ
+MKFPERSLEVDHIHEPELEFAFGQKTAHPKDGLHLYGPHAKAKKASPIRVGVIGTSDGIA
+LFRAWSRELQSIVQVPPPGKGEKANRLHLANFPGLEETFGIYYEPDELSALSIPLEDIER
+ASRIFNQHEAVDKVSRLYIDRVNKHLRNEERAVDIWILVLPEIVYERCRPESKRTGLATE
+KGDFGKKQKKRESLPLLAGVIDQSDETIFDDVPDFHRRIKADFLNIAPTQLVRETTLAPG
+AFLNKAGYPIRKTQDRATVAWNLATGLYYKTQPRPPWRLATIRPGVCYLGMVYKSLPNDP
+DGHACCAAQMFLNEGDGVVFRGANGPWKTGDYEYHLKRGAAKDLLKLVLDSYVDTHGKAP
+KELFIHGQTYFNDEEWEAFAEAAPKGTNVVGVRIRSTGGETKLFRDGDYPVLRGTALLLD
+PQSAYIWTTGYVPQLDTYIGPETPNPLHIKVTRYKDSKPEIRDVLSDIMGLTKINYNSCN
+FNDGLPVTVRFARMVGDVLTMGSAGKGEKKQPFKFYI
+>tr|A0A1Q9AC32|A0A1Q9AC32_9RHIZ
+MTLRCRSLFLASVLSTVLWSVMIIAGAQAYQELKRDRSSIAIDSSGARAGAFIVRQVGNP
+LSAGSDGTPEIGSI
+>tr|A0A1Q9ACS3|A0A1Q9ACS3_9RHIZ
+MTGFMNGKRGLIMGLANNHSIAWGIAKAVHAQGAELAFTYQGEALGKRVKPLAAELGSDF
+VLPCDVEDIASVDATIAAIAERWGKLHFVVHAVGFSDKNELKGLYADTTRENFSRTMVIS
+CFSFTELAKRAAPLMTDGGTMLTLTYNGSQRVIPNYNIMGVAKAALEASVRYLAADYGPR
+GIRVNAISAGPVRTLAGAGISDARAILSWNQKNAPLRRTPTIEDIGGSALYLLSDLSNGV
+TGEVHYVDAGYNITSLPTLETLRGADTE
+>tr|A0A1Q9AJX1|A0A1Q9AJX1_9RHIZ
+MTKLLEGKIAAVTGAASGIGLATTRALVEAGATVVMVDYNKQALQTYQDEFGDAVVMQVT
+DLLDPVSCAAMVPDILAKVDHIDILHCNAGSYIGGDLIDTDNATIDRMLNLNVNAVMKNV
+HDIAPHMIGRGTGDILVTCSVAGHAPIHWEPVYSSSKWAITSFVQIMRRQLKGHGIRVGQ
+VSPGPVVSALLADWPAENLEKAKANGSLIEPTEVSEAILFMLTRPRNVTIRDMIVLPTNF
+DV
+>tr|A0A1Q9AM06|A0A1Q9AM06_9RHIZ
+MREPSLSLSTDELVSRRALQLDSIASVLPMDRRDALAALLTEQDIKTLRHLVNEGMGENT
+LRALTSDLAYLEAWSLAATGTFLPWPAPEALLLKFVAHHLWQPDQREIDPDHGMPANVEQ
+SLRTQGFLRSPGPHAPDTVRRRLATWSTLTKWRGLQGVFASLALKSALRLAVRATPRPRK
+RKSAKAVTGDILSKLLAACRSDSLRDRRDRAILMVAFASGGRRRSEIAGLRLEQLQAEEP
+IPVDGAPPLPSLAIHLGRTKTSRADNDEVVYLSGRPVDALNAWLTAAKIEKGSVFRAIDR
+WGNLSPRPLDPKAVTDIVKQRAAMAGLDPREFSAHGLRSGYLTEAANRGIPLPEAMEQSR
+HRSVQQASEYYNSATRRSGRAARLME
+>tr|A0A1Q9ACT3|A0A1Q9ACT3_9RHIZ
+MSETFYHAAPGRYDDMAYRRCGRSGLKLPAISLGLWQNFGGLDAFEEGRAILRRAFDRGV
+THIDLANNYGPPPGAAEEMFGRILSTDFKPYRDELVVSSKAGYLMWPGPYGEWGSRKYLL
+ASLDASLKRLGVDYVDIFYHHRPDPETPIEESMGALADAVRQGKALYVGISNYRAADAKR
+AIETLKTLGVPCLIHQPNYSMLDRWIETDGLLDVLEEGGAGAIVYSPLQQGILTNKYLGG
+IPEGSRAARGSRGGSMGADGVNEARLAKVRALAPIASRLGLPLAHLALKWVLRDPRVTSA
+LIGARTVAQLDDSLDALKGGALSEGDLAEIEAALTAA
+>tr|A0A1Q9AJR8|A0A1Q9AJR8_9RHIZ
+MLGLFSLPGMILLISFSGFAAFAAQSGIPMAQAVFMTGIIWALPAKVILVGSIVSGAPLI
+AAFLAVTLSSIRLMPMIAALIPEIRTAKTPSWALLLVSHLIAITAWVMAMERVQAVPRPH
+RLAFVAALGLTLTLSCMALVALVYPFVSTFPPLVAGCLFFLTPVYFLASIWSSARQRVIP
+VALVIGLFIGPFAALAVPDFDILVSGIGGGTLAWMIERAWRKREGKAA
+>tr|A0A1Q9ADR3|A0A1Q9ADR3_9RHIZ
+MSALLTVENLKVHYPTRSGLIQAVRGVSFTLGRERLGIVGESGSGKSQTGRAIMGLTAPQ
+ALISADRLEFQGQDLLTLSPRERRALRGRRIAMILQDPKYSLNPVMTIGRQIVETLRTHE
+SVTKAEAKRRALEMLEAVQIRDPERVFGLYPHEVSGGMGQRAMIAMMLICGPELMIADEP
+TSALDVTVQLEVLNILDGLVAKRGMGLIFVSHDLRLVSSFCDRVLVMYAGRVVEELSSGA
+LSEAKHPYTRGLLDCVPKVGESRHPLPVLDRKPEWAA
+>tr|A0A1Q9AF41|A0A1Q9AF41_9RHIZ
+MISRETHDRMANAIRFLSMDAVEKANSGHPGLPMGAADVATVLFSRYLRFDPKKPNWPNR
+DRFILSAGHGSMLLYSLLYLTGYEDMTIEEIKNFRQLGAKTAGHPEFGHAAGIETTTGPL
+GQGIANSVGFAIAERKLNAEFGPEFIDHHTYVLVGDGCLMEGVSQEAIALAGHLKLNKLI
+VFWDNNNITIDGAVSLSDSTDQIARFKSVHWNTIEIDGHDPEQIAQAIEAAHASDRPTFI
+AAKTTIGFGAPNKAGTHKVHGSPLGAEEIAATRKALNWESPAFEIPDDVLSAWRQSGARS
+VELRETWEKGLEQTDAGKKSEFLRRFAGDLPKGLDGAIADYKKKLAETKPSPATRKASED
+ALEVINGIVVETLGGSADLTPSNNTKTSQMVSISPTDFSGRYMHYGIREHGMAAAMNGIA
+LHGGLIPYSGGFLIFSDYCRPSIRLAALMGIRVIHVLTHDSIGLGEDGPTHQPVEQVAAL
+RAIPNLLVFRPADATETAECWQLALHNQHRPSALALTRQNLMAVRTEYVEENLCGKGAYE
+LVKADDAKVSIFASGSEIEIAVKAAEALSAKGVAARVVSVPCFELFEEQSDEYRAEVIGR
+APVKIAVEAAVRQGWDHLIGSDGVFVGMKSFGASGPYKDLYKHFGITVEAVVEAAEAKLA
+>tr|A0A1Q9AER1|A0A1Q9AER1_9RHIZ
+MNRLLVTLLFIAVVLGIGFLIGISNPPGEWYQSLVKPVFNPPNWIFAPVWSALYVMIGFV
+GARLFLDHPRSSAMRLWLAQLLLNFAWSPMFFGFHQVELALVVILALGVCILLFIAMAMK
+RDRLSAMLFIPYGVWVAFATLLNGAIMILN
+>tr|A0A1Q9ACP0|A0A1Q9ACP0_9RHIZ
+MLQGLKDADVETMLAALAGSSRRVQRVALSDRTIWIKRYGRRAPWRGHHLRLIAARLGPT
+ARALAPSPRVPAEAMVAREIRQIDRLTRAGFRTPEVLYRSPTALVLSDLGPNVLGQMKAL
+RLIDAQGHDALLVRSAGELGRLHSARLCHGRPHPRDFSLGAEGFGFMDFEEDPVAVMPLP
+LAQARDLWLLFLQVASRALLPETRWQALCAWRQHRPQDAETALARLVPMFARALPLARLV
+DRLRQGADITRFILATDFLRSALLTPIDHPCGHNGQNRFPS
+>tr|A0A1Q9AE62|A0A1Q9AE62_9RHIZ
+MAAPAGAGRTLNEAPGRPVRRLPLCATVKDEPAMPIRSRLTVSARFSSAFVALSLCAATA
+LPITALSSAAHAADGLVSDKMILLMRHGVRPQTDSKELAKLSPKAWPTWDVADGQLTAHG
+IQAVKALAPWQRGMLAAKGLVPAEGCPVQGTVFGWANRSVQRTIDTGKVLLTTMFPGCGL
+GVGYATMEGPDPLYDASETELGAIDVDQAKEAILKAAGGSFDGLKARAAPLLKELDAILG
+CETGAKGCPLSAQDWQIDVKEGEGDKPASVSLKGPLAKAGTLVQVFLLQYANGFPADQVA
+FGKASTAADIIRLSELRQLKYDVGNRVPYLAARDASNFLNQILIALAIDPTRDETAGGPP
+NAKVLLFMGSDTQQAEIAAILGLHWHIPPYLDDETPPTGALSFERLHDAEGKAYVRLGFT
+APSLDQIRTAGPIDAAHPPIQAISAVPGCEAETVEGACPLETFLTLSRPKLDMTAVAPYA
+YE
+>tr|A0A1Q9AIE5|A0A1Q9AIE5_9RHIZ
+MRPQSLTARVLLVSTIWAVSSLVVIGIVISALYRQGSERGFQDLLRAQLYNVINSIVVNE
+NQQLAGSPQLGDLRFSQPQTGWYWIVEPIGEFNTPPLVSTSLGTGKLPIVSVDKVPFDIR
+YERFYTTRDSFNNEVEVAETEVVLDIQGHTARFRVAGNRNVLESDINDFNRNLYLALSIF
+GFGGLGMNALAILFGLRPLDQARRSLEKIRAGESERLDGEFPREIQPLASEINALIESNR
+RIVERARMQVGNLAHSLKTPIAVLMNEARVLEAPHGELLRAQADAMQTQVQTYLNRARIA
+AQRESVLARTDVEAALERLVRVMRRLNPERSFVLTVSPPGLTLAMEQQDVEETVGNLLEN
+AARYAVNEVRITAMPAPEAPAGQDSARRSWIVIDVEDDGPGLTTEQIALAIKRGKRLDES
+KPGTGLGLSIVREIASEYHGAFGLARGEGGGLKATLVLPGVS
+>tr|A0A1Q9ADV8|A0A1Q9ADV8_9RHIZ
+MAEITQGSGTQASLPKGSLHGRLALVTGGARGQGEAESRLFAAQGAAVLIADVLAEEGRA
+LAAEMTAAGHEARFLTLDVTDPESWAGAVAEAKAWKGRLDILVNNAGIINRTLIGDTALD
+AWEKVLRVNLTGAFLGIQSVSALMAEGGGGSIVNISSNSAFSGHYDPAYTASKWGLRGLT
+RSAAMELAGKNIRVNAVCPGLVVTGLNAASPHLKPMIDMTPMKRSGKPEEIAELVLFLAS
+DASSFITGEDFVIDGGFTAGAAYRRVASETGIIRD
+>tr|A0A1Q9AJB0|A0A1Q9AJB0_9RHIZ
+MVDGVSMPAGQKEGAVIGQDRRASFALPGVMLASGALFCAIASLLILLGLTPIAPERNIV
+IASAAVNAVFVIGLAYLIGREITRLLKARHRGRAAARLHIRIVALFSIVAITPAILVAIF
+ASITLDVGLDRWFSLRTQAIVRSSLDVAQAYVLENASYLQGQTASMANDLERNRQLYSLD
+RTGFIELMTRQARARGMLGAFLVRKDGTAILQANIPTDRPLPAIPTDALNSTVAGQPTLI
+PPGVTNLVGAIIPVDNIPDTLLYTVRSVDPNVMRAMRQMEENAAEYSNLKAGRASLQLAF
+GVLYLGFALIVLLAAIWTAIAVADRIVRPIRLLIGAADSVASGNLHVVVPVHAVDGDVGS
+LSRTFNKMIVQIRTQRDQLLEAKDEMDNRRRFIEAVLSGVTAAVIGVEEDRRITIANPSS
+EDFLARPVLDMVGERLGDVAPEIDQVLSEAVSRPRADYRRQINIMRGGTERTLNVQVTRE
+ESHDAKDSFVITIDDITDLVIAQRSTAWADVARRIAHEIKNPLTPIQLSAERLRRRYGKQ
+IAEDGRPVFDQCIDTIVRQVEDIGRMVDEFSAFARMPKPTKERSDLRAILKDAVFLREMG
+NSHIQFQRDFGAAALDGLFDSRMLGQAFGNLIKNAVEAIEAVSGDAERGPAKILVRARAD
+AERHLYCVEVIDNGKGLPTENRHRILEPYMTMREKGTGLGLAIVKKIIEDHGGQLELHDA
+PADFDQGRGAMIRVLLPPATAEGAEQENKENRHGG
+>tr|A0A1Q9ANF4|A0A1Q9ANF4_9RHIZ
+MPGAQVPRRANWAWLGLLPFAFFAALFLILPIVYLVTGAFQTPDGAFTFDNLIALTGSAI
+AASYMLSIKLSLVSALFGAVAGLLLSWALVLGGLPRWVRGAFVTFSGVASNFAGIPLAFA
+FIATLGRLGIVTVLMRDVFGFNLYGAGFNLFSFWGLALTYLYFQLPLMVLIITPALDGLK
+NEWREAAESLGASHAQYWRMVALPVLAPSILGCFLLLFANAFGTLATVYALTGSQFDVVP
+IMLFAQIRGNVLYNPNLGYALALGMILIAGFSNILYLVLRSRAERWRA
+>tr|A0A1Q9AHW1|A0A1Q9AHW1_9RHIZ
+MPQNTPSFIAYDALVDLLQAVFTRAGTSDSVARTLAQNCAGAERDGSLSHGLFRIPGYLG
+SLKSGWVDGRAVPEVEDVAPGFVRVDACNGFTQPALAAGTPLLLEKLAENGVALIAIRRS
+HHFGALWPDVEPFARRGLVALSMVNSFACVAPVGGRKPVYGTNPIAFAAPRAGDDPLVFD
+QAASALANGDVRIAAREGRMLAPGSGIDREGQPTGDPAAILNGGALLPFGGHKGAAIALM
+IEILSAALTGGNFSFEVDWSKHPGAETPVTGQILILIDPERGTSGGFAARVETLLDRVID
+AGQPRLPGDRRYALRRASARDGIPVDGALLRDLQRMAGRSPAEPLFEVPLQAGAEANAAT
+ATI
+>tr|A0A1Q9AN16|A0A1Q9AN16_9RHIZ
+MSLYKRPGKDTYSYDFVVRGRRFSGDTGATKKRDAKAVEDNQREIAKALMAAEAALPSDR
+MGFEAAALRWYHEIGQHHKNYETTLKVLDWLKTQIGGNTDLMDIDDALVARIVAKRRGER
+VSRRHADGKIHEGKLVSPATVNRTCTQPLREIILRARKVWKIRTGDVRWGEHLLREPQER
+VREASIGEEDAIMSQLERGYDDAIRFAFLNGCRRMEILGLEWSHVDFFSRRFTVTGKGGK
+IRTIPMSQETFDILWSIKDHHPVKVFTFVAKRTVKKEQLVRGQRYPLSESGLKSAMRRAV
+PAAGVVNFRFHDTRHTAATRVLRASNLRVAQKLLGHADVATTAKYAHALDDDLRAALEAT
+ANPTKIPTKDDATVAKEFKIKRNSE
+>tr|A0A1Q9AGH3|A0A1Q9AGH3_9RHIZ
+MTHAVSTTKDLVSSDFIRSAFSRAMSAMYKTEVPAYGTLMTLVADVNAETLAARPELAAQ
+LSETDTLERISEERHGAIRLGTPQELATMRRLFAVMGMMPVGYYDLSTAGVPVHSTAFRP
+VGDAALKRNPFRVFTSLLRLDLIADPALRAEAEAVLSKRQIFTPGVLSLIETAEREGGLT
+EAEADRFVTEALETFRWHDRAIVSPALYKRLHGAHRLIADVVSFKGPHINHLTPRTLDID
+RVQALMPERGIAPKAVVEGPPTRACPILLRQTSFKALEEPVSFEAEDGRWVPGSHTARFG
+EIEQRGLALTPKGRALYDQLLDRSRAIVRPAADGSNAGEYEAALKQAFTDFPDDWEAIRK
+AGLGYFAYRLTPKGRAGVPVTGELESLIASGHIVADPIVYEDFLPVSAAGIFQSNLGDDA
+AQDFVASPNQVMFERDLGASVLNEFDHYAAIEQASIDACLAALAGARAAE
+>tr|A0A1Q9AFY4|A0A1Q9AFY4_9RHIZ
+MTCTAKDTAMQLPGLVGLDHVGLTVPDLDEAVAFFAGVLGCPRVLTFGPIADDEGSFMAD
+ALGVHPRARIERVAMIRTGRGSNIELFQYSAPDQQRPALKNSDIGAFHLGLYVRDITAAK
+AYLDAQGVATRLGPIPITEGPIAGQTILYFQAPWGLNLEVISYPEGMAYARDAEILLWDP
+RKAEG
+>tr|A0A1Q9AGC6|A0A1Q9AGC6_9RHIZ
+MPMTLALYRDDFYLSTVEATVVDVGEDGAITLDQTCFYATSGGQPGDVGFLERTDGSRID
+IVETRHGETKAIILHRPAEGAPRPAIGEVVVAHIDWPRRYRLMRMHTACHLLSVVCPYPI
+TGAAVGEEESRVDFDMSETIDRDAVTSDLMRLVNENHPVTLRWITDAQLAANPDIVKSKN
+VRPPMGLGRVSLVVIGEDAAVDSQPCGGTHVSETQEVGAIHIARIEKKGKENRRFRLRFG
+VPDTAG
+>tr|A0A1Q9AI50|A0A1Q9AI50_9RHIZ
+MVDVTAIAGPYDTPVELSLVVPLFNEEESVGPLIARIIEGMSAYTGRWNLVLVDDGSTDA
+TLLRAREAISRPDLEAVVVELQRNFGQTAAMQAGIDAADGRLIATLDGDLQNDPADIPRM
+AAELEARDLDLLVGWRKNRKDGLFLRKVPSWCANKLIGRITGVKLHDYGCSLKLYRSSVI
+KQVKLLGEMHRFIPAWVAAVVPSSRIGEMAVNHSARAYGTSKYGISRTFRVILDLLSVLF
+FMRYRARPGHFFGSLGLGIGAISLLILFFLAVEKYGFGEDIGTRPLLIIGVMLFLSSVQL
+ITTGILSEMIARTYFQNKDTGSYTVRQVFRRAE
+>tr|A0A1Q9APL3|A0A1Q9APL3_9RHIZ
+MAIESSNETKREAPIRLGMVGGGAGAFIGAVHRIAARIDGQFQLVAGALSSTPDKAKASG
+LELGLDPERTYSDFREMAIRESERSDGIEAVAIVTPNHVHYAAAKEFLERGIHVICDKPL
+TSTLDDARALQALVEKSDALFVLTHNYTGYPMVRQARAMVEEGAIGAVRLVQMEYPQDWL
+TEAVEKSGSKQAGWRTDPAQSGAGGSTGDIGTHAYNLGCFVSGLELDELAADLDSFVEGR
+ALDDNAHVMMRFKEKDGVRAKGLLWCSQVAPGNENGLQLRIYGTKGGLEWTQKDPNYLWY
+TPFGEPKRLITRAGAGAGPAAARVTRTPSGHPEGYLEGFANIYMEAARAIQAARNGVAVD
+ADVIYPTIEDGMKGMLFVDACVQSSKQNGAWVKV
+>tr|A0A1Q9ANM7|A0A1Q9ANM7_9RHIZ
+MIDPYELLGLEQGADAEAIRLAYRKAAKAAHPDTGGDADAFAQLQTAYELLQDPVRRRVY
+DDTGFDPELADPKALKGLMMLENLVNDMILDEREPGSFDPVAAMRRKLSDDIVKSRFHIL
+ELERHRTRVRHHIDRLGRRPETDVLGAMLTARAATITEAIRSAEQQIEAIEQAYEMLSGY
+SYELEHPPVAVPLERDEAEAQAAE
+>tr|A0A1Q9ANS3|A0A1Q9ANS3_9RHIZ
+MSRLLFSRFAHYLDSVARLGSIRKAAEELNISASAIDKQLIRAEEELGVALFERLPRGMR
+LTSAGEMLIHGVRGWQKDFGRIRFEIEELKGLRRGEVKIVLSQEAAVGFLPAALAPFLRE
+HPRIRHQVTVVDPDRVRQQVIDGTADFGLTFSPQPMPGVAVTCSTAFCLRALLPALPGTA
+PPDGIALESFFACPTLIPDASTHVRDAVDIAAARIGRRPQPVASTNSLDLMRALVREGCG
+YGLAVLPPAAPVVGADGLWQLPFADRGLPPLTLSLIVDPHRSPSMTSILARKTLEAGFAR
+LETGMTPAGP
+>tr|A0A1Q9APS7|A0A1Q9APS7_9RHIZ
+MTHYTPAADRYEVGQFRRAGRSGLDLPLISFGLWHNFGDTTTLDRQRQILFKAFDLGITH
+FDLANNYGPPAGSAEINFGRVLKEDLKAYRDELIISTKAGWDMWPGPYGRGGGGRKALLS
+SLDQSLSRMGLDYVDIFYSHRYDATTPLEETADALASAVQQGKALYVGISSYSGRKTREI
+AALLAERRVPLLLNQPSYNLFNRWVEGDLLAACDEVGAGVIAFTPLAQGLLTGKYLNGIP
+EDARVNRPGGDFLRPEHLKDENIARARALNEIAKARGQSLAQMAIAWVLRDKRVTSALIG
+ASSPEQVAENLGAFSNLSFSEEELKAIDVHAVEGGVNLWEKPSTEEAV
+>tr|A0A1Q9ACJ8|A0A1Q9ACJ8_9RHIZ
+MSAPLLFGLYPPKISDIPPGATIRPGCLLLHISTMPVFGRNRDETRFYNFPVYLPPPFNT
+PSQKNALLAFEYMRATSPTVRKAVEELQVLARTPASRAYARQHPEMSIK
+>tr|A0A1Q9AEP9|A0A1Q9AEP9_9RHIZ
+MQLNPQSDVLSDARLISDDSRASATPMMEQYIEIKAANPGSLLFYRMGDFYELFFQDALE
+ASRALGITLTRRGQHLGQDIPMCGVPIHAADDYLQKLIALGYRVAVCEQIEDPAEAKKRG
+AKSVVKRDVVRLVTPGTITEDKLLSPGDANYLMALARIRAGDEPAFALAWIDISTGVFRV
+AETTQTRLLADILRIDPRELILADSLFEDAELRPSIDPLGRVAVPQPAVLFDSATAAERL
+ARYFSVATMDGFGTYSRAELAAAAAAVAYVEKTQLAERPALSVPEREAGAATLFIDPATR
+ANLEIARTLSGERAGSLLKAIDRTVTGGGARLLAERLMSPLTDPEAIRARLDSVSTLIDA
+PRLVTDLRAALRQVPDMPRALSRLALGRGGPRDLGAILAGLSAARAVGAALAGADLPQEL
+HAARAVLDALPEALGTRLAAMLADDLPLLKRDGNFLREGADGELDEVRALRDQSRRVIAG
+LQLDYCEETGVKSLKIKHNNMLGYFIEVAAPQAGPLTEGPEAKARFIHRQTMANAMRFTT
+TALSDLETKIANAADRALAIELAAFDALSADVLAEGEAIKAAAAALAVIDVSSALAVLAE
+EQAYCRPVVDRSLQFNIVGGRHPVVEQVLRRGSGPAFVANDCDLSAKPKAGGDGEGHGAI
+WLLTGPNMGGKSTFLRQNALIAILAQMGSFVPAGQAHIGVVDRLFSRVGASDDLARGRST
+FMVEMVETAAILNQATERSLVILDEIGRGTATFDGLSIAWAAVEHLHEVNRCRGLFATHF
+HELTVLSEKLARLSNVTMRVKEWDGEVIFLHEVGPGAADRSYGIQVAKLAGLPPSVVTRA
+RDVLNKLEDADRKNPASQLIDDLPLFQVALRREESRRAEPSKVETALKALNPDDMTPREA
+LDALYALKRQMG
+>tr|A0A1Q9ALE0|A0A1Q9ALE0_9RHIZ
+MKRIYGAPDPDSYSAIGENADEIAAGQIEGRIEAPIWQSNFVIGPNVRFTRTPENAIPKR
+PRLEAPEDGDGDEMPGESVTAQAPQEEASPFSLFGQQPSLPSDLSFLHAAFSPPADSPLH
+EHAAARGALALALRLRRALEAEEAQNKGLVIDAEAHRTPVTDAAAEAPDQTLKPARADLD
+LICFPDAGESQATTEGWLNSRPAEATAQDEATASIPLQDTAPETHAAAQLQPEQTPENAA
+APLAMTLQAIPEHPLAAKPGTDPASAPAGTARAALAAALPDFLFFEALACNPDLGFDDLP
+EAAHGAAEPTSAEPAVAPEAAGPAEAARAFPQAEPAQADAPAPSTAEATHLPAWMRNPVE
+PVSSPVLDGSDVIALYRAIDCRASAPLFPLLSAPQPAPAPADAASTAVDAASVVADVAST
+AVDAESTSVEAAPGIAEAAAEAVAGTPAPAAQPAALAAPAEPQAPAARAAAPVDFNRLPF
+SIPRAALWADSGDDYDYPPVELLQEPPVQVTASMTQEALEQSAGLLESVLEDFGVRGEII
+DVRPGPVVTLYEFEPAPGVKSSRVIGLSDDIARSMSALSARVAVVPGRNVIGIELPNPVR
+ETVYFRDMIESASYGDTKFKLALCLGKTIGGEPVIAELAKMPHLLVAGTTGSGKSVAINT
+MILSLLYRLKPEECRLIMVDPKMLELSVYDGIPHLLTPVVTDPKKAVMALKWAVREMEER
+YKKMSRLGVRNIDGYNSRAALARAKGESVMTTVQTGFDRGTGEPVYEEQELDLEAMPYIV
+IIVDEMADLMMVAGKEIEGAIQRLAQMARAAGIHLIMATQRPSVDVITGTIKANFPTRIS
+FQVTSKIDSRTILGEQGAEHLLGQGDMLHMIGGGRIARVHGPFVSDEEVEKVVAHLKLQG
+RPDYLGTVTEDADEADEAPEEDTPVFDKSALAEEDGQDLFDKAVKVVLRDKKCSTSYIQR
+RLGIGYNRAASLVERMEKEGIVGPANHVGKRSIIAGTGREPAAPEAQMESED
+>tr|A0A1Q9AFF7|A0A1Q9AFF7_9RHIZ
+MMNQRVKTVAGPVAAGLLLAVSLAGGQARAGDIAHDTEYSISLSGLPIARARFHTELESR
+RYTISGTLESAGLADIFARTNGRTTVSGRVEADRLRAEDYSVRYQSGSKTRAIDVTFRDG
+NVVSATLTPKKPQPKNWIPVSPADLRGVLDPLSGLIIPEGTRVCPSTLPIFDGESRLDIR
+LVDKGSKPFTTKGFKGEAIVCGLRFVPKSGYRKGRRDVEYLRKLETMEIWFAKADAVKVY
+APVYARIPTTVGPVTVWATRFEGS
+>tr|A0A1Q9AMQ5|A0A1Q9AMQ5_9RHIZ
+MAGDGVFKWWAGEGKDPEVYRIGADDWSGIIEAAHKAFPQGNFTIVEADKAVLHYEIFSD
+FAGNGDLSEMIDDVNGGAFGEDGPDFFCTDDENAELDGLLNAVIADWIERHGLHPRAVAF
+GETRNQDYFPPSLKDDEDGLSCEGCRKAVRPGDLYCWGEENSLCESCAPTYRSMIDEPES
+WTDGQGNPQDPQALRASFEAHLAAGGKPEDKVVQRMEAFTPPQVEGDAA
+>tr|A0A1Q9AHG5|A0A1Q9AHG5_9RHIZ
+MERRTFLLSSAAGVAAALLSPLARATDSKTLTVTDDRGVKVDVPVDPQRIACVSYVAVDV
+ALALGLMPVATTYMTKGRDPDFLLGLTARMKPLGQRAKPNLELLSEVRPDLIVAMRRYTV
+ANAAQFEKIAPYLAYNMELFSQSDAEVAELASVFGHAERGAELNAGFAAQLADYAAKAPK
+STPTRFQIMWAGDTPFSFHDENTAASIVTRLGGVNVAGPMGTDGKFGVELSLETMLEKDP
+EVIFVYDSGPDRPHENNPIWQQLSAVRNKRVHYVADQWVETNGPIAREIVLKEAAHILYP
+DTFSAVDVRAEAARLIPAALQQ
+>tr|A0A1Q9ADS7|A0A1Q9ADS7_9RHIZ
+MSETGRDENETPETPQPTPRLGDHLCFSVYALAHAFNRAYKPLLDRVGLTYPQYLVLLTL
+FEASELTVKAIGDRLGLDSGTLSPLLKRLENAGIVSRLRDARDERQVLIRPTPAGLALKP
+AIVDIHRAIGRAVGCSLSDAEALQRQLRDLTARLEATSQTAAPGKGDA
+>tr|A0A1Q9AJT3|A0A1Q9AJT3_9RHIZ
+MDFDNPILDTDSYKFGHHLQYPPQTAAISHYIEARGANDLVDVVFFGLQMFLKGLLSRPV
+TRTHVEEAEAFATAHGQPFNRAGWMHIVERHGGILPLEIEALPEGICVRRGVPLVQVTNT
+DPACFWLPGHVETAMLRAVWYPSTIASQLRKIRRQLAEMLEKTADRPGEHLPYMLMDFGA
+RGVGAHEQAAIGGAAHLAFFASSDNVPAVLAARRFYRAVMAARSMPAAEHTTITAWGGDR
+EAAAYGNMIDRFARYGALSVVSDSYDINLAVTEVWGKALKEKVQACGATVFIRPDSGDPI
+ETPVHVVKQLDYVFGSSINSKGYRVLNPCVRVIQGDGLSVADMGQVLRRMEAFGFSADNI
+VFAMGGGILQKVNRDIYAFAMKANGRKDTDGRWHDVWKRSASMNVKPSKAGRQAVVDSVM
+GLEAVHLDKLRGRENHLRPVWRNGELLVDWSLDDIRQRLARMV
+>tr|A0A1Q9ADV5|A0A1Q9ADV5_9RHIZ
+MTLLSIETLTKRFGGVVALDRLSLTITAGEIHALIGPSGCGKSTALRLIAGFEQAESGAI
+TMNGRRIDGLKPEARDIGMVFQDYALFPHLTVADNIAFGLRRLDKSAREAAVRDHLALMR
+LQGLEGRRPDQLSGGQQQRVALARSLAARPRLLLLDEPFSNLDASLRETARREMRDVLRA
+SGMTALFVTHDREEALSLSDRVTVLKAGRVEQTDRPDRVYQRPASAFVAGFLGRTNLLQG
+MAEGGRARTVLGPLPIEPEAHGPVTLSLRPQGLALVAEGGAEATVTDRIYRGQEVTYLLR
+AADGTALQLDTTDAPATPAVAPGARVQLEAVAPGVVVG
+>tr|A0A1Q9ACA1|A0A1Q9ACA1_9RHIZ
+MKKSLLSAVAFSAIVAFSGTAWADVTIGVAGPLTGPNAAFGAQLQKGAEQAAADINAAGG
+INGEKIKIVLGDDVSDPKQGISVANKFAADGVKFVIGHFNSGVSIPASEVYAESGILEIT
+PAATNPKFTERGLWNTFRTCGRDDQQGGVAGKYLADKFKDAKIAVIHDKTPYGQGLADET
+KKAMNAAGVKEVMYEGVNTGDKDFSALIAKMKQAGVSIIYWGGLHTEAGLIIRQSAEQGL
+KATLVSGDGIVSNELASIAGDAVAGTLNTFGPDPTLRPENKELVEKFKAAGFNPEAYTLY
+SYAALQSIAEAAKASGSLDAEKVAAAMKAKGPFKTVLGEMSFDEKGDPKLPGYVMYEWKK
+GPDGKYSYFQQM
+>tr|A0A1Q9AJS8|A0A1Q9AJS8_9RHIZ
+MTTELGYVRQTFLPQQPAPKAKSTTLSWIRDNLFPSVGNSILTLIALALLVRYLPGLIDW
+LFVSAQWTGTDRAACATAVQGGVRPDGWSGACWAYVGDRFQQFMIGSYPRSEAWRPYLVA
+ALFVALLVPLLIPSVPRKGLNALLMLVALPIVAYILLLGGVFGLEHVETALWGGLMVTLI
+ISFVGIAVSLPVGVLLALGRRSTMPIVKTFCVLFIEFIRGVPLITVLFMASVLLPLFLEP
+GDTIDKFLRALVGVSIFASAYMAEVIRGGLQAIPKGQYEGADSLGLNYFHKMGFVILPQA
+IKLVIPGIVNTFIGMFKDTSLVSIISMFDLLGVVKNSFSDATWLTPVTPMTGLVFAGFVF
+WMFCFGMSRYSGFIERRLDKGHKR
+>tr|A0A1Q9AKB5|A0A1Q9AKB5_9RHIZ
+MMKILARFAAAGLVLAATALPSAAADKVHIAAISGYFAQGFGISIVNGLNKAKSDFGIDL
+KLVDTGNRALDYEEQFANLAKTGQYDLIFVMGWELVDALQKVSAAYPNQRFVFIDGVLDS
+KTMIYANFAEEQGSFITGALAGMVEDLGPAFDKIGDGKAIGFVGGRDIPVIRNFLGGYEH
+GAKYAAPDVKVNAVFAGTFDDPAKGSELAMTLYGQGADIVYNVAGPTGEGVMQASAAADK
+YSLGVDIDMCSSAPGNVLASMLKRGDVAVYAIIKDEVEGRKVTPGTRTFDLASGGVEVKL
+CDDVAAKLPAKIKDKLETIRKDVVDGKIQIARAK
+>tr|A0A1Q9ACM7|A0A1Q9ACM7_9RHIZ
+MKALIVLAHPLPESFAASVARAAEAALTRAGHQVSCLDLYAENFDPRLTVEERRTHATAT
+GASPDCQAMAAQLAEAEILVLVFPQWWFDFPAILKGYFDRVLAPGVAFETIEGGPIRPKL
+KGLRHLVALSSTGSPWWMARLVMGEPVRRLLKRGILSGCAPQARFRMLTLHGIEASTLKR
+RQAHLARVDRLLANLR
+>tr|A0A1Q9AIZ0|A0A1Q9AIZ0_9RHIZ
+MMPLSRRTLLKGSAAAACAALGAGLARHAGASAAPVPLTARPARLSIGAATGPSDVMTYS
+LDDTAEAAPPPVLRMRKGEPFAARFTNHLAEPSTVHWHGLRIDNAMDGVPELTQPYVYPG
+DGFDYRFTPPDAGTFWYHPHCNTLEQMGRGLTGVIVVEDPTDPVFDAEIVLNLRDWRLRP
+DGTFLETFKPRDAARSGTFGTLRTANWRDAPVIDAPAGGLVRLRLAATDVTRIYTLGLKG
+AAAVIISLDGHATPAPLPLDQLDLAPGQRADLVVHMPETEGTVVTLTNFRGSNPWTVASL
+RAVGAAARRDLRDVRALTPNHLTPFDASSAIRIPLDFTATAEHAPAPSLCGSIGYTFWAI
+NKVPWQGDTADPMGPLAELKLGKSYILEMANRTPHAHPIHLHGLAFTLLSSSKRTSLPPP
+TDTILLQPDEQAELSLVADNPGDWMLHCHIIEHQKSGMSAYFRVV
+>tr|A0A1Q9AIR8|A0A1Q9AIR8_9RHIZ
+MRLVVVSSLVPVRNPATGFDVANRALVDGLKALGHDVCVIGYLEPGQEPADGFDVDLLGH
+LQITNARVSAGQRLRWLMRALMRHTTVSSAKLLTVTPERFDAALRKLMPFDGLILNSVQL
+AGAFERVVAAYPSIYVAHNVEAASARENAQHAKGLVERLLFAREARHIHRLEQTLARRAA
+YVLAFVPQDLEAFGPEVAARSGVMPLVRHWQRPAPAREPAAYDLGLIGSWGWRPNRLGLD
+WFVRSVVPLLPREMEIAIAGVIDHPPESDHPGLRFLGRVPDATAFVRQARVVPLVARGGT
+GVQLKTIETFELGMPSVATPASLRGIAAVPENCVTAQTPEDFARALVAMVAAVRAGRQGV
+VAGGDFHDAQRAALVAALEQGLAVLAKAPVPAGAPQSRLPTRESLPLPAAAGKGALEPHI
+LGKQ
+>tr|A0A1Q9AK83|A0A1Q9AK83_9RHIZ
+MVEGRDMMGGLAKGLKVIEAFSAERPRLSIAEAAEIAGLDRATTRRCLLTLAELGYAAYD
+GKFFTVTPRVLRLGTGCLATMPLPRIVQPTLDRLSDEIGQSSSVSILDEGQIVYVARAAQ
+QRVMSIALMPGSRLPAYCTSMGRVLLAALPEGEARALLEASPRPARTEHTITEIDALMDA
+LGLVRRQGYATIDQEVEIGLRSIAVPLVNMRGRAVAALNVGLAARGEPMEALAARYLPAL
+KAVQAELAGMLT
+>tr|A0A1Q9AHA9|A0A1Q9AHA9_9RHIZ
+MAEIIDTHAEPERALQRGVAVLSEGRPVAIPTETVYGLAADATSASAVLSIYETKGRPRF
+NPLIAHVSDKAMAERHAVFDPISRRLAEAFWPGPLTLVLPIRPQADGAAGPSIDALASAG
+LDTVGLRMPEGFARRLISAFGRPLAAPSANTSGRISPTTAAHVAEDLGDRIALILDGGPC
+PVGVESTIVKVEGERIRLLRPGGLEAAEIERIAGRALERPEAAGAAIEAPGMLASHYAPE
+ALVRLEATEVRPGEALIRFGGTPLPGEDQAALVIDLSPAGDLRAAAARLFSALKEADAAA
+AKGIAVGPIPGEGLGEAIRDRLARAAAPRG
+>tr|A0A1Q9AQU0|A0A1Q9AQU0_9RHIZ
+MKKQPSTAASSNQARKLTSARGEKISAVEGMMLTPRMRTVLAQSQGKSGDERRALVRKQF
+AKTKA
+>tr|A0A1Q9AER6|A0A1Q9AER6_9RHIZ
+MSDETERDFRERIRRSFARQGAMRTIGAELMRVEQGMVEIEMPFSESLTQQHGLLHAGII
+STALDAAGTYAAYTLIDADASLLTIEFKVNLLSPGRGERFLFRGEVTKPGTTIIVFDGRG
+YAISQEAPAKLIASISGSMMVVRGRQGIQD
+>tr|A0A1Q9AHG8|A0A1Q9AHG8_9RHIZ
+MEEAAEKLAIARTVEAIRAATGVRPIGWHTRSAPSSNTRRLLIEEGGFLYDSDAYNDDLP
+YNLDVAGHRHVILPYAFDTNDMHYFHTQRFAGRDFADYVIDAADWLHREGGRMLSIGLHL
+RMIGRPGRIGALAMIIDHLAAKPDISVARRADIAWHWLSLAGEAPR
+>tr|A0A1Q9APM7|A0A1Q9APM7_9RHIZ
+MTLSRDPFRNPFPATDAARHAIWEMLVARDITAFLAADWSMVEHDFVEDGFIGIDGRKLA
+SPSDWRLTFPDLAAYRAEWLRQAQDFAGEQFAEDPRTAIFTTTTLEDIEIAGETALARKM
+FDGSILKADGSRDVLKWQTLYYCRLHQGRWKISGFTGYLPNPMG
+>tr|A0A1Q9ALJ1|A0A1Q9ALJ1_9RHIZ
+MAESAGSMSVSGSVKAAGRVTQVIGAVVDVTFEEGQLPAILNALETDNNGNRLVLEVAQH
+LGENAVRAIAMDSTEGLVRGQQVLDTGAPISVPVGDETLGRILNVIGEPVDELGPVPTQA
+RRAIHQAAPDYVEQSTEAQILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVLIMELINN
+VAKAHGGYSVFAGVGERTREGNDLYHEMIESKVNVDPHENGGSAAGSKCALVYGQMNEPP
+GARARVALTGLTIAEDFRDKGQDVLFFVDNIFRFTQAGSEVSALLGRIPSAVGYQPTLAT
+DMGALQERITTTTKGSITSVQAIYVPADDLTDPAPATSFAHLDATTVLSRSIAEKGIYPA
+VDPLDSTSRMLDPMIVGEEHYEVARKVQSTLQRYKALQDIIAILGMDELSEEDKLSVARA
+RKIERFLSQPFHVAEVFTGSPGKLVSLEDTIKGFKGLVNGEYDHLPEAAFYMVGSMDEAI
+AKAKKLAAEA
+>tr|A0A1Q9AEC1|A0A1Q9AEC1_9RHIZ
+MHGKFYPAMPPMATAVRTQSVADAVPAAEIPRFPATLLQEGADLLALGLPKPVIARAMRA
+ALEHGTSVESECCALGVAEELLYHQALAKALDLPFIAALRAGTLHDGAHLDTQLLRPEIL
+RLHHPGQAPTQVIVPRLADLDTIWRQLEAKPGLRRLLAVTTPRAVRQAVWEAGAERRLRA
+ATSHLFENWPLLSARIVLWGKQGFVAGVATGTLVAGCLALPTITLIATHLVLAIIHLAGF
+GLRLSALVAAQRLPAIAPPPPSAATGADLPIYSVMVALHREEAVVGQLIAALDRLEWPKS
+RLDIKLICEADDHETLQALSRMVLGGQYEIVRVPPGLPRTKPKALNYGLAGARGSIVAIY
+DAEDRPAPLQLLAAWAQFRHAPAELACLQAPIVITNGAAGALPALFALEYAALFRGLLPR
+LAAARLPLPLGGTSNHFRTEALRRAGGWDPFNVTEDADLGLRLARMGWRTGMIAPPTYED
+APTDIPVWVRQRTRWFKGWLQTWLVCMRRPRHLRAQLGWPAFITLQILIGGLLIAALSHP
+LILVFLAYFLWLLTLDAPAGRDLLTICLFTVDALNIVGCYAIQILLGLRSMREWERRAVG
+RRWALIPLYWLLMSYAAWTAVIELRSTPFRWNKTPHKPVQPA
+>tr|A0A1Q9AKD2|A0A1Q9AKD2_9RHIZ
+MSLAQYADDALFAPRKIVDALCTTSKEIGRTAGFGKDAIQRKDRLRSDRTQRRLREMIEI
+VNKVEPRFGSASIAYAWYRSEPLSGFSGQTAMQLIRNGRADEVLDYIEAVDAGVYA
+>tr|A0A1Q9AJD5|A0A1Q9AJD5_9RHIZ
+MASAAEQLASNLNFSTFSKATDLKKRLWFTLGALLVYRLGTYIPLPGLNPDAFAQAFRGQ
+SGGILGLFNMFSGGAVERMAIFALGIMPYISASIIVQLMTSVIPALEQLKKEGEQGRKII
+NQYTRYGTVLLGTVQAYAISVGLESGNGLVADPGWFFRVSTVISLLGGTMFLMWLGEQIT
+SRGIGNGISLIIFAGIVAHLPTALAGTLELGRTGALSTPLILFLIVMIVAVIALIVFVER
+AQRRLLIQYPKRQVGNRMYQGDTSHLPLKLNTAGVIPAIFASSLLLLPATLAGFAKSANM
+PAWATAIVSALGHGKPLYMALYAAMIAFFAFFYTAIVFNPKETADNLKKHGGFILGIRPG
+ERTAEYIDYVLTRITVLGAIYLIFVCILPEFLIAQTGVPFYLGGTSLLIVVSVTLDTVAQ
+IQGHLIAQQYEGLIRKSKLRGGKRGR
+>tr|A0A1Q9APH8|A0A1Q9APH8_9RHIZ
+MTITVKTGLAALALLGTTALATMTAVTTAQAADKEISWIYCGDKIDPIHEKYIKEWEGKN
+AGWTIKPEVVGWEQCQDKATTLAAAGTPVGMAYVGSRTLKEFAENDLIVPVPMTDEEKKS
+YYPHIVDTVTFDDNQWGVPIAFSTKALYWNKDLFKQAGLDPETPPKTWAEEIAFAKQIKE
+KTGIAGYGLPAKTFDNTMHQFMHWVYTNNGKIIDGDKVTADSPEVLAALQAYKDITPYSV
+EGATAYEQNEIRAIFLDGKVGMIQAGSGAASRLKKTNIHWGITTLPLGPSAKGPGTLLIT
+DSLAIFKGTGVEDKAIEFAKFITSPGPQGEYELQGDAGLTPLRPSPKVDEFVKADPSWKP
+LIDGIAYGGPEPLFKDYKGFQNVMIEMVQSVVTGKAEPKAALTKAAGELEQYK
+>tr|A0A1Q9AFV0|A0A1Q9AFV0_9RHIZ
+MSKLLVSTALAAGLFAALCPAMAADAAHPTHVAKAVEKVEGQSAESVLSPELAQVPVAKG
+AMKLDGATGIFHSYGYQGDGPLVPAAGDQQSKTHDVEAVKTEPDKNTYLVLEGQKGADPA
+YNYGTHFLFQGHESAVKVDGKSHGYFTRINLDADEAHRVTLMATQDVDGQPLQTYDGSTW
+NPFTKQLLLTAENGKEGGVWIATPDYPSKVTTLHGVFGHASYEGVQVDKDGNIWLVEDAG
+GKTSKTIEKAKQPNSFVYRFVPKDKTDLSKGGKLQALQYMAADGTPVTFHADDLDGDVKA
+AGLKELHTAGQVMKAKFITIHDTDKDGTEPFIAYERARAAGASPLKRPENGLFRPGKDFT
+EFYFTETGDTNVKTGAGREFGGFGAVMKIKVANPSADEAELSTVFLGDVAHSGVDNMAFW
+DGDTIAVVEDDGDTAHTQRKALDSGYLIDLKTDYAKGAEPVRFLAEGRDPSATIDSALSE
+KAEETGFKNDGDNEITGIHVSDGNATIEGLLGVKVPTPLANGWRVFYTQQHGDNITYEIV
+AKH
+>tr|A0A1Q9AKB7|A0A1Q9AKB7_9RHIZ
+MRRPVQTLAVAGALLVGVSLAAPASAEPPVTLGDLTIEQPVARAMLPGAKVGGGYVTIVN
+CGQTADRLVSAASPLAGSVQIHSMTMDGGVMQMREMKEGLEIPAGGTLALKPGSYHLMFV
+NPKAPFKQGDHVKASLTFEKAGTAEVEFLVGPAAGALPGADGKTMDHKSMDHGSMDHGAM
+NHGTMDHGAMNHQENGQ
+>tr|A0A1Q9AQG3|A0A1Q9AQG3_9RHIZ
+MSGLTQRDLESYLWGAATLLRGLIDASDYKQYIFPLLFFKRLSDVWDEDYQQALNETGDG
+GYATATANDRFVIPEGAHWNDVRAASRDVGRALLSAFLAIEAANPERLQGVFGNANWTDK
+AQMPDSTLKNLIEHFSKHDLTLAAVPEDELGNAYEYLIKKFADDSGHTAQEFYTNRTLVH
+LMAQMLEPQPGESIYDPTCGTGGMLISCLAEVKRRGGDIRTTGLYGQELITITAAIARMN
+LVIHGVDDFHIASGNTLATPAFVQGDRLRSFDVVLANPPYSIKKWNRGAWEQDAWGRNFL
+GTPPQGRADYAFFQHILSSMHPRTGRCAILFPHGVLFRNEEAEMRRRLVESDRVECVLGL
+GPGLFYNSPMEACVVICRLQKPEARKGRILFIDAVAEIARERAQSFLRPDHQARILSAYK
+AFADEPGFAAVAEVTDVLAADGNLSIARYVKRPNGAMAGGGATLAATWAAFDEDGREFWS
+GMDALVDMLDGLTPGEDADA
+>tr|A0A1Q9AHQ8|A0A1Q9AHQ8_9RHIZ
+MHVFDADAVHAALPWPFLIEALRHAHLGKTPASDVVVQSDPAGGEAQFVTLPGWAPGGPI
+VVKMVGVFPQNAALEPPQPAVQGLVALFDGKTGGPLLIADGAAMTARKTAADSALGASIL
+AREDVEELLIVGAGALAPHFVAAHLAARPSLRRVTIWNRTAARAHAVAAELRQQEIDAAV
+GEDLDAAVARADIVSCVTMSDKALVKGALLRPGTHLDLVGAYLPTLREADDTALARGTIF
+VDSRNNMKSSGDLSQAVASGSISWDAVKADLFELIQGKSEGRTGADQITVFKNNGGAHLD
+LFTASALSQTLA
+>tr|A0A1Q9AKX1|A0A1Q9AKX1_9RHIZ
+MLDTNIVSDLIRHPLGRVTQRIAEAGEQAVAISAIVASELRFGAAKKALLPLAQRIEGVL
+QRVAVLSYDERASVDYAEIRQDLESRGAPIGATDLFIAAHARALDLVLVTANTREFQRVP
+RLKLENWLETAP
+>tr|A0A1Q9AHB0|A0A1Q9AHB0_9RHIZ
+MTDRLTMGRRVLFGAAAATALAAPALLARAAQAAGEATKGTEMETRQVPLRKVKLGEMTI
+TVIQDGLRPSDKPEQTFGINQTPEAVAELLQANFLPADRFANGFSPVLIETGSELVLVDT
+GMGEGGRANGLGQLAEGIKAAGYRPEQVTLVVLTHMHGDHIGGLMEGGKPAFPAARYAMG
+QVEYDFWTNPARVGTPAEPGHQAVLKNVNPLAEKASFLADGATVLPGMTAMAAFGHSPGH
+MIFRLESAGKALILTGDTANHYVLSLQRPDWEVRFDMDKAKAAETRRKVFDMVSAERLPF
+IGYHMPFPSVGYAEKAGEGYRFVPHSYQLDL
+>tr|A0A1Q9AF19|A0A1Q9AF19_9RHIZ
+MSKELKERVASEGAIPLSWVTTGRGDDYLNLGDALSPVIVAMMSGLPVTHTAAKSGQTRL
+AAVGTIGHMFAGGDVSFWGTGTSPHLNPNQSTEAKVLYSRPANTRFTTYATRGPFSRRVL
+DADAPGPAIYGDPLWLLPRFHDAPVEKTCELGVILHLSELADRAHDAHPKPDSARHIIAP
+ADAAAVKLINTVTPVSIDGLRHRLDEILSCKRIVSTSLHGMVFAESYGIPCLYFSPRARQ
+AGLGRIDLMAEEGLDLRFVDLYRGLGHDHLDVWYQPRHQETDWAALIETIDRVWSQKVLD
+EDALISSFPLPLNMLGKGTGGSAFDHPLVRGLPTQRDHVVVQTVKEAKRTLLSRLLGRG
+>tr|A0A1Q9AG31|A0A1Q9AG31_9RHIZ
+MAKVLVLYYSSYGHIEAMAKAVAEGVISAGAEVDVKRVPELVPEDVAKASHFKLDQEAPI
+ATPAELANYDAIIFGCGTRYGTMASQMRNFIDQTGGLWASGALVGKVGSAFTSTATQHGG
+QETTILGFIPTLMHHGMVVVGLPYSFQGQMGLEEIKGGSPYGASTITGGDGARMPSQIEL
+DAARFQGAHVAKIAAKLSA
+>tr|A0A1Q9AQ22|A0A1Q9AQ22_9RHIZ
+MPTLLVKPKAESGLVQEITPESAGWTYVGFALHKLATGAAVSAETGEREVCLVLVSGKAK
+VTVEHQGRTEDFGEIGERMTPFEGAPFAVYAPKGSRFTVTATTALELAICSAPGGEGFPP
+RLIAPGRHPQMTRGKATNTRYVTNIMPEDDGAAQSLLVVEVITPGGHTSSYPPHKHDADN
+LPAESFLEETYYHRLNPAQGFAMQRVYTDDRSLDETMAVEDGDVTLVPRGYHPVAAIHGY
+DLYYLNVMAGPSRVWKFHNAPEHAWLFTGV
+>tr|A0A1Q9AGJ3|A0A1Q9AGJ3_9RHIZ
+MATERYNHRDAEPRWQATWDEQQVFKTDNADPREKYYVLEMFPYPSGRVHMGHVRNYTMG
+DVVARYKRARGYNVLHPMGWDAFGMPAENAAMERGVHPASWTYQNIASMKAQLKRMGLSL
+DWSREFATCDVAYYAQQQALFLDFLEKGLVYRKQSKVNWDPVDNTVLANEQVVDGRGWRS
+GALVEQRELTQWFFRITDYAEDLLSALDTLDQWPEKVRLMQKNWIGRSEGLSIRWQIVPS
+PLSGDATEVEVYTTRPDTLFGASFLAIAADHPLARALSEKSPEIDAFCEETRRSGTSLAA
+LETAEKKGIDTGLKVRHPLDPSWELPVWIANFVLMDYGTGAIFACPSGDQRDLDFARKYD
+LPVVPVVMPRDGDAASFTVGDEAYTGDGVMINSRFLNGLSTDEAFTRVAETLESTQLDGR
+PQATRKVNFRLRDWGISRQRYWGCPIPVIHCAACGVVPVPKADLPVKLPDDVTFDRPGNP
+LDHHPTWRHVACPQCGADARRETDTMDTFVDSSWYFMRFTAPWETQPTERAACDRWIPVD
+QYIGGIEHAILHLLYSRFFTRAMQATGHAGVSEPFKGLFTQGMVVHETYRRDNGAHGEWV
+SPAEIRIEEKDGKRRATLIDGGAEVTIGSIEKMSKSKKNVVDPDDIIDSYGADTARFFVL
+SDSPPDRDVIWSEAGVEGANRFVQRVWRLISEAEWLAATPARPAFEGPGLAISQIAHKTL
+KAIQGDFDHLAFNKAVARLYEFVNALAGPLTQSTAETDEGLRAALKDAVSILLRLIAPMT
+PHLAEECWSAIGGTGLVAMTDWPAFEPRLVMENEVTMPVQINGKKRGDLTIARDADQTAV
+EQAVLAMDVVQAALEGRTPKKIIVVPQRIVNVVV
+>tr|A0A1Q9AIM7|A0A1Q9AIM7_9RHIZ
+MHQTVAPLAGSSATTRYVETIATRVAIVLALALLAVVAFVIDILVGSGTLSLPDVINALI
+SPDSAEPSARFIVWELRMPMTLMAMLTGISLALAGLLMQTILDNPLAEPFTLGVSSAAGF
+GASLSLGLGFSLTGLFPALPPELSTATNAFAFALFAALLVLALSRGGASVQSITLLGIAL
+HFVFSSLLSLIQYLASVDQLESIVFWLMGSLQRATWLKVSITGAACMIFIPLVLLNAWSL
+TALRSFGAQAAVLGVNVKRLRMVMLVVSAMLAGLVTAVVGIIGFIGLVAPHVARLLVGED
+HRFSIAATAAVGAVFAVVASIATKVVVPGAVLPLGMVTSLTGLPFFIILVLRNIKGEGL
+>tr|A0A1Q9AMM6|A0A1Q9AMM6_9RHIZ
+MSRAVILVIGLLLDRLIGDPDWLWRRLPHPVVFFGAAISRAERLLNRGHASFATRRRAGV
+LAIVVLLLMAAGLGLLLHRLFALASPLGGGLLEGLVVFVLLAQKSLADHVLAVAEGLRRD
+GLEGGRQAVSMIVGRDPAHLDAPAVCRAAIESLAENFSDGVVAPAFWYLLAGLPGLMAYK
+MLNTADSMIGHKNERYLAFGWAAARLDDAANLVPARLSMFLLAAGAAWVAGRRAALNALS
+VGLRDSGLHRSPNSGWPEAAMAGALDIRLAGPRIYGGQRVEEPMMNGAGRGEATRADIER
+GVSIFYAACSLLTVTVLVLVLVLP
+>tr|A0A1Q9APU6|A0A1Q9APU6_9RHIZ
+MCFALAEPPAWTTIREERPIDIAALLLPVLVFAPLAGSIAAICLPSRQGTEAAWLSGLVA
+FLCLGISVFLYLQVSHRGVITWQMDWIPQYGLNLKLRMDGLSWMFSGLISAIGLLVVVYA
+RYYMSPSDPVPRFFSLFLAFMSAMLGLVLSGNLVLMAIFWEMTSIVSFLLIGYWYQNAQA
+RDGARMALTITATGGLCLLVGLMLIGHIVGSYDLDAVLASGDAIRNHPLYLVALILILAG
+ALTKSAQFPFHFWLPHAMAAPTPVSAFLHSATLVKAGIFLLTRFWPVMAGTDAWFWLVGL
+AGLTTLLLGAYFAIFQHDLKGLLAYSTISHLGLITVLLSLGSPVAAVAAIFHTLNHATFK
+ASLFMAAGIIDHETGTRDIRRLSGLFRYMPHTATLAMVASASMAGVPLLNGFLSKEMFFA
+EAIETHKVNLLDTLTPYVATLASLFSVTYSVRFIHSVFFGPPPRDLPKIPHEPVRWMRLP
+VEFLVLACLIVGVVPSLTIGPMLHTAVTAVLGAETPYYSLAVWHGWNLPLFMSIIALVGG
+VLLYVLMKPYLANSVEGPPYIRRLEGQRIFERVLVTLSWRWARLIEAKASTRRLQPQLRI
+LAAVSLLAAAVPLLHRGFQPAEIVLRGIDPAFAFVWLIGMACAVGAAWQAKFHRLAALVL
+LGGAGLITCITFVWLSAPDLAVTQLLVEIVTTVLILLGLRWLPKRIEQATKPEEMTFGVR
+LRRLRDFLVAVACGLGLTLISYTVMTRQMPGTISSFFLERAYSEGGGTNVVNVTLVDFRG
+FDTFGEIAVLCIVALTVFALLLRFRPASESLEKPEQQQVQNAYDDRHPDRAKGDSVSDYL
+FVPAILMRWMFPVIGMLAAYLFFRGHDLPGGGFAAGIAMSIGFILQYMAGGTRWVEERLR
+IHPLRWMSIGLLVCSATGLGSWALGYPFLTSTSHYLHLPVIGDVPLASAILFDLGVFSLV
+LGATVLILIALAHQSVRAPRAHIRAPRVGGKEVS
+>tr|A0A1Q9APM5|A0A1Q9APM5_9RHIZ
+MAGLFPGPPLRADLVMPSPRGQAPEIVSCCSLRVSGVNPDPFLFGELRAGKSARGASRTD
+DAGAGDGKQGMAFRQGLPFGMVLRAGHALPHGFAPA
+>tr|A0A1Q9ALZ8|A0A1Q9ALZ8_9RHIZ
+MNTVLLINQLLNGVQLGLILFLLAAGLSLVFGIMDFINLAHGVSYMIGAYVCATIAIATN
+SFILGMIAAIPATLVLGFAMEWLIARHFYKRDHLDQVLATFGLVLCADSAVKYIWGPRGL
+SVPLPAWLSGQIEVLGVTLPSYRLFIVAAAAAVAIGLWLVITQTRAGMMVRASASNEEMA
+RALGIETRWVFALVFAIGATLAGIAGIMVAPISGASIGMGSQIVILALVVIIIGGIGSIG
+GAFIAALGVGLIDTLGRAYLPTILAAVFSPAVASSAGPSLASILIYLTMTFVLIFKPSGL
+FPPANR
+>tr|A0A1Q9ALA1|A0A1Q9ALA1_9RHIZ
+MDFVPSFPVILAFTGAILLLALTPGPDMTLWMSRSMRDGRAIGLAVLAGTSTGVSVHTLL
+VAFGIAALIVASPTAFLLLKTGGAAYLAWLAFAAIRHGSSFSMRPETAAQRSLAGAFVNG
+LWVNLLNPKVIIFFMTFLPQFVSASDPHVAGKLVFLGLWSIVVSLPIGLAVVLGADALSG
+WLRANPKALRGLDYLIASVFSLFAVKILFTSAR
+>tr|A0A1Q9APL7|A0A1Q9APL7_9RHIZ
+MASLIACPHCGRRPKEEFTVKGAALARPEPQAGADAWFDHVYLRDNPRGPYQEFWHHTSG
+CRRWLVVTRDTATHEVEEARDAALWNRETAR
+>tr|A0A1Q9AEQ4|A0A1Q9AEQ4_9RHIZ
+MHLLILGAGFSGRAIAGAFKAEGARVTGTTRSADKARTLAEQGIEPVLFDGETIGPDLAA
+AMETATHLVQSIAPGAAGDPLMRPQSGALKARMPQLAWAGYLSTVGVYGDHGGAWVDEEM
+VCRPVSQRSRERVAAEAAWMAAGEEEGVPVAILRLAGIYGPGRNTFVNFREGHARRLVKP
+GQVFNRIRVEDIAGVTLFLADKGAGGIFNVTDDEPAPPQDVVTEAARLMGVAPPPEIAFE
+TAELSPMARSFYGENKRVSNRRLKEAGYVFRFPEYRMSLADLWLSGRWSG
+>tr|A0A1Q9AI59|A0A1Q9AI59_9RHIZ
+MSPGANLLSTFDPASLTGFRDRPLFSPTRRRPPAPEREPVPAPETEPEAAPAAEPDPPLN
+IRLLGIVGTPEGLTALVLDLDDETRHSLSPGETFHGWTVATLDGTEMVMTRGGESQDFPV
+FTPTDNAPEDATAPPAEDATP
+>tr|A0A1Q9AJL8|A0A1Q9AJL8_9RHIZ
+MANQETATKTVTIEQIGSPIRRPAVQRQTLIGLGLNKMHRVRTLEDTPSVRGMIRSVQHL
+VRVVDEK
+>tr|A0A1Q9ANU4|A0A1Q9ANU4_9RHIZ
+MAIAIDIKGVTRMFGPVAGLGGIDLSIAAGEFFTLLGSSGCGKSTLLKLIGGFDRPTTGD
+IAFDGKSVLDVPANRRPVNTVFQNLALFPHMTVAENIGYGLKLRGLSGGVLTKKVEDALD
+LVELGGFGPRKIGMMSGGQRQRVALARALVMEPGILLLDEPLTGLDERLRQQMRDEFGRL
+HKRTGATFILVTHNQDEALSLSDRMAVMHRGRIEQVDAPARFFERPANAFVARFIGIETL
+LKPERIETEAAGSLAIVAGQPVPLVGIVPAGGADLVVALRPDRLSVSTPDRPGDLKLTLR
+DVTFRGLTTDLRLAFADGQEVVLSVPSDAPAARHVIGSDVSLALAQGAAMAIPNSTIPTA
+VA
+>tr|A0A1Q9APY1|A0A1Q9APY1_9RHIZ
+MANQGGSHEQHVKAGQQSHKNQGGKQASGMDDKQMSSKSSSGKQGGSHEQHVNAGKQSHK
+NSH
+>tr|A0A1Q9AGS9|A0A1Q9AGS9_9RHIZ
+MVDDRTAADTASNTEKDPDDWVSGDEPMTGAQRSYLKTLSEQAREDEMFAEDLTKAEASK
+RIDRLRETLKL
+>tr|A0A1Q9AK35|A0A1Q9AK35_9RHIZ
+MNSTAQDKLSGARTSGFFAFFIDHPVATFLIMVGIFVIGAVCYPFLPVSALPQIDFPTIQ
+IEASLPGASPDTMAASVAQPIEQALSRVSGITEMTSNSSLGTTSITVQFALDQDIQTAAS
+DVQTAISEASGSLPKDMPSAPTVHKVNPADAPVMQLSATSDLLTLPQLDEYIERNVATRI
+GQVSGVAYVNIGGKQKPAIRIAVDPGRLAQADVTLEDVRTAIGYLSLSAPKGNIDDPTRT
+FPITTNDQITSSAEWNDAVIAYRNGGPVRIRDIGRAVDGAEDAKMAHWTNGQRGIALDVF
+RQPGANVIEVVNAIKAQLPALQAALPPSIKLELVTDRTTTIRASVEDVQFTLVLTIGLVV
+LVIFLFLRNVRATLIPAVTLPIALVGALAPMWLLGFSLDNLSLMALVVAVGFVVDDAIVM
+LENISRHIEEGVAPMEAARRGAGEIGFTIVSISLSLIAVLIPILLLGGIVGRLFREFALT
+LTVAIALSAFVSLTLTPMLAARFIRVVPKEAHGRLYRMGEAFFDGLLSLYARSLTPAIRY
+RYVTLAIFLATIGLTAYLFVTIPKGFFPEQDTGFIAGLSQASPDISYSEMAKLQEKVSAI
+ILKDPAVYSVFMDIGGGNGGNAMNQGHVNITLKPRGERDASAREVIDRLGTALNAQQGIQ
+LFMQSAQDINIGARPAKTQYQYTLQDGDISELAAWSGKITAALQAMPELRDVGSDRQAEA
+PTLAIRIDRAAASLYGVLPATIDETLYDAFGQRQVASYSTQTDTFHVVLEVLPNLQRDIA
+TLDRLSVRSSGGTLVPLSVVAKWSTDGVSPVSIAHQGQSPAVTVSFNLAPSVALGQATKA
+IEATVAALHPPAALQTSFSGSARAFQESLSTVPLLILASLFVVYLILGVLYESLIHPLTI
+LSTLPSAGLGALLALDWAGLDFGLVGMIGVILLIGIVKKNGIMLVDFAIQAEREGMSSEE
+AIVKAAHMRFRPILMTTMAALLGGIPLAIGHGAGSELRQPLGYAIVGGLIVSQLLTLYST
+PVIYLLLDGLRRRQPAPQADTAAA
+>tr|A0A1Q9ADK3|A0A1Q9ADK3_9RHIZ
+MSIQARVNGGRLIQALADFAAIGATPSGGVNRQALSPEDRAARRLLAERALARGFSVHQD
+NAANLFIRRDGTDHALPALMIGSHLDSQPTGGRFDGALGTLSAFEVLEALADAEIPTARA
+IEVVSFTNEEGSRFTPGCMGSMAFAGVQAVGDWQGATATDGARFEDELAATLAALPEARM
+RQQRAEIFAFVELHIEQGPVLERAEVPIGVVTGVQGTRWIEVTFTGEAAHAGTTPREFRK
+DAMAAAARAIAELQAEIMPCDPQARLTVGRFSLEPGSINVIPRQVSFTVDLRHPDGAALT
+EIEQRLGDTCARAGAQAGCTLAIERRLDMPPARFAPALAAATEAACRRLGIASRPMTSGA
+FHDALFVNRVAPSAMIFVPCRDGVSHNEAEFVADDHILHGAETLLELALDLANRREAL
+>tr|A0A1Q9AL69|A0A1Q9AL69_9RHIZ
+MSRVALVTGGTRGIGAAVSMALKNAGYKVAANYAGNAEKAKAFSEVTGIQTFQWDVSDYD
+ACVAGIAEVEAALGPVEVLVNNAGVTRDAMFHKMTAQQWNEVININLTGLFNMTHPVWSG
+MRDRGFGRVINISSINGQKGQMGQANYSAAKAGDLGFTKALAQEGAAKGITVNAICPGYI
+GTEMVRAIPEKVLNERIIPQIPVGRLGEPEEVARCVLFLASDDAGFITGSTISANGGQFF
+V
+>tr|A0A1Q9AQM0|A0A1Q9AQM0_9RHIZ
+MSLSADLNIFDLAPVAMWIEDFSGVKALFDQWRAEGVSDLKGFLEADPARVAQCSAQIRV
+LSVNAQTLALFEADSLDHLVANIDRVFRDEMLQSHISELSQLWEGHTRFISHAVNYTLGG
+RRLDIQLRGQILPGYEESFARLLLTTEDVTLREEARRAEARNRAYAEGIFEHSPVSLWVE
+DFSQIKILLDELRESGIEDLRVFTDVHPEFVQRCMSEIKVIDINQATLDMFCAPDRPTLL
+QSIGEVFRGEMEKHFREQLIDLWNGKLMHHREVVNYALDGSERYVLLQFSVLPGREEDWA
+LVQVALTDITARKKAEAYLEYLGRHDVLTKLRNRSFYMDEVKRLQRKTLRPVSALIIDLN
+GLKACNDTLGHDAGDGLLRRMGEVLNGVVSPPDTAARIGGDEFAVLLPGSDGQAAGKVAE
+TIQELIKINNQFYSDLPLSVAIGIATTEPGEPIESVLRRADAAMYEEKRALQSGGLGIRK
+DD
+>tr|A0A1Q9AFT8|A0A1Q9AFT8_9RHIZ
+METKANYAIVGFFAVAVIVAAFGFVYWMSQFGRSGEMVDLVVSIPGSANGLSVGSPVRFN
+GIPVGSVKSLAIDSNDPRYSVAVTEVSVDAPVLKSTTARLEVQGLTGAAYIELSGGRKGD
+ENILQKARDEGKSAQITADQSSVTSLLATADKILNRANDAIGDVQGFVSDVRGPLTNTIS
+NADRFSRSLADNAEGIDEFLKSVSALSNSINAASQRLDSTLASADALVKAVDPKSVNRIV
+ENVGKMSDDLSAASGNVAETVASFRQTADTYNRLGQNANVAIDRVNTLIAAVDPSKVGTA
+VNDISTATAEARSAIAGLSSFADSISTRQRDIDQTITDVTQMANKLNAASSRVDGILVKL
+DGFLGSADGPGISQDARATLASFRAVADNLNAQIGPIANDIRRFSGSGLRNIEALVNETR
+RTVDTLDTTINNFDQNPRRLLFGGETVKQYDGRARR
+>tr|A0A1Q9AJU7|A0A1Q9AJU7_9RHIZ
+MIIAIDGPAAAGKGTLSRRLAAHYGFHHLDTGLTYRAVARALIEAGQPLDDERTAEGFAE
+AVDLAGLDRSVLSAHAIGEAASRIAVMPAVRQALVRAQRRFAETPPGAVLDGRDIGTVVC
+PQAPVKLYVTASAEVRARRRFDEMTAMGQTADFLEVLADIRKRDQRDMERADSPLRPAPD
+AHLIDTSEMSIEAAFLAAKTFVDAALKP
+>tr|A0A1Q9ANS2|A0A1Q9ANS2_9RHIZ
+MPQTAAPDLNMSPAQSSPGWWRKAVIYQIYPRSFADGNGDGIGDLPGITAKLPELAALGV
+DAIWLSPFYPSPQKDAGYDVADYVDVEPMFGTLADFDAMREAAHGLGMRVIVDIVPNHSS
+SAHRWFREALAAPEGSPERARYLFRDGRGPNGDLPPNNWKSVFGGPAWTRITNADGTPGQ
+WYLHLFDSSQPDFDWSNRWVHDQFLDVLRFWLERGVDGFRVDVAHGLIKDPDLPDFDATN
+ADAFTVTPYWGLETVHEVYREWRKLLESYGPDRILCAEAWVAPLKRLSDWVRPDEMHQAF
+NFEFLTSAWSPVALKQVIDESIEAFQAVGSASTWVLSNHDVIRHASRLGFAPDSKVVHSD
+GLGPNSPDFPDPVLGLKRARAATALMLALPGCAYLYQGEELGLPEVIDIPDALRQDPTFI
+RTKGERYGRDGCRVPLPWAADKAFYGFGGGSWLPQPAVFGELARDRQEGDPASTLSFYKT
+LLAERAKRDLGGGTLYWVETGSEEVVGFTVGGVQVLCNFSAEPVALPAGAVILSSAPLID
+GKLPADATVWLEQQ
+>tr|A0A1Q9AEE8|A0A1Q9AEE8_9RHIZ
+MAITSTFGGVEIFITVVKAGSFTAAAAQFGITKSAVAKSVAQLEGRLGVKLLHRTTRRLS
+LTPDGQAYFVQAEAALDQLRSAEDLARSKASAVRGILRVDMPVAFGRRIAMPILLDILRA
+HPGLRLEASFSDRIIDPVEDGVDLCLRFGELPDRTDISARPLGTQRLVLCAAPRYLSEAG
+APTSLRDLQDHACILGGRPGRAAPWRFLEEGGRVKSLDPLAAHLVSDGEVVIDMAVAGFG
+LCQMPQSLLQPYIDGKELVEVLPDRCQVQSPFNAVWPTTRAILPRIRVVVDEFVRRANAK
+AL
+>tr|A0A1Q9APH5|A0A1Q9APH5_9RHIZ
+MSLRINDIAPDFTAETTQGPLSFHDWIGDGWAVLFSHPKNFTPVCTTELGAMAGLQHEFA
+NRGVKIIGISVDPVDSHAKWKNDIKTATGYEVDYPLIGDKNLEVAKLYDMLPAGAGETSE
+GRTPADNATVRSVYIIGPDKKIKLILTYPMTTGRNFNEILRAIDSIQLTARHQVATPANW
+QQGDDVIITAAVSNEDAITRFGSFDTVLPYLRKTKQPTA
+>tr|A0A1Q9AKU3|A0A1Q9AKU3_9RHIZ
+MAAIDGLPPLRDVIARHGLDAKKALGQNFLLDLNLTQKIARAAGPLAGVTVFEVGPGPGG
+LTRAILSLGAAKVIAVERDARCLPALAEIADHYPGRLEVIEGDALKTDFEALTATVDGPV
+RIIANLPYNVGTQLLINWLLPRTWPPFWQSLTLMFQREVGLRIVAEADDDHYGRLGVLCG
+WRTEARMAFDVPPQAFSPPPKVTSSVVHLTPIAEPMAARAETLERVTAAAFGQRRKMLRQ
+SLKPLGGETLLAKVGIDPQRRAETLSVEEFVALANAL
+>tr|A0A1Q9AHF3|A0A1Q9AHF3_9RHIZ
+MTRDNTLLLMVKLSGLKLLVRITRLSWDTDLVRNVHDVVTAVLHAFRIDLEALVGTFAG
+>tr|A0A1Q9ALJ8|A0A1Q9ALJ8_9RHIZ
+MIDKLEFFITLAQERHFGRAAEELGISQPTLSAALRQLEEQLGVSLVVRGSRFQGLTPEG
+QRVLEWARRIVGDTRTMREEMRAARKGLSGHMRIAVIPTALAMVPRLTEPFQARHPDVTF
+SVTSRTSLQVLSQIENLEIDAGITYLDNEPLGRVTTVPLYHERYHLITGAGTPLSDREHV
+SWAEVSHLRLCLLTPDMQNRRIINAHMAEAGVTARTTLESNSMIVLFSHIRTGQWASIMP
+RNVAESFGFSKEIRMIPIIQPEASHLVGLVATHREPHTPLVSALLHAARSGVAAARFDR
+>tr|A0A1Q9ADL4|A0A1Q9ADL4_9RHIZ
+MNATIPKPLAAPATQAAPILEMRGISQVFPGVRALDGVAVALYPGQVTALIGENGAGKST
+LVKILTGIYRPSEGEILIDGQPVRFANAQAALNAGITAIHQETVLFDELTVAENIFLGHA
+PRGRFGRIDWGRMMAEAARLLVALEAPIDPGLRLKELSIAQRHLVAIARALSTEARIVIM
+DEPTAALSRKEIDDLFRIVQTLKDAGKAVLFISHKFDELYEIAENFVVFRDGRSVGAGRL
+KETPQDAIIRLMVGRDVKNAFPKLPVTLGGPVLEVKAYTHPTEFRDISFTLRKGEILGVY
+GLIGAGRSELAHALFGITRPSSGALALEGRPLTVATPRDAIAAGIVYVPEERGRHGLALP
+MPIYQNMTLPSLARTSRRGFLRAAEEFALARSYAERLDLRAAALSVPVGTLSGGNQQKVV
+IGKWLATKPKVIILDEPTKGIDIGSKAAVHGFISELAAEGLSIIMISSELPEVLGMSDRV
+MVMKEGLISGMFDRESLSPETLVRAATGNA
+>tr|A0A1Q9AM67|A0A1Q9AM67_9RHIZ
+MYADNCKELQAAARRGEVELHAWTRGNYPGISLENRLPGIRTVGFWDARHSQSWGLGRHC
+NEGFKIAYLARGSLDLVVDDPTYTLKQGQFIVIRPWQLHAIGSPNVGPSRLLWIILDAGL
+RRPSETPDWPDWLIFSRDEAAQLSEILTQNNQPVWDGGPELCRSFEAIPSILLERSPADG
+ETRLKIAINAMMLSLIDRMTEQAPALDPNLSTSQHTVAIFLRRLAYVLDEEWSLEGMAEE
+CGLSRTRFSEYCKKLTNMAPRQYLQHLRLEQASRLLQEPRNASVTEIALSCGFNSSQYFS
+NAFKKRYGHSPSRYR
+>tr|A0A1Q9AC94|A0A1Q9AC94_9RHIZ
+MDSIQESTLVASSDTATVKRILVLEDNFIIAMEAEDILRSLGVDHVEIATNAQQARQLVS
+EHPFDFALLDVNLGAETSFAFADELSARGTPFGFVTGYGESAVFPPALRHLPRITKPFNE
+DMMATLLSAVAASR
+>tr|A0A1Q9AGY2|A0A1Q9AGY2_9RHIZ
+MLIYVIRHGQTDWNAELRLQGQRDIALNDLGRQQATGNGEALGRLLGADAAHFDYVSSPL
+WRTRETMERLRTAMGLAPDGYRTDARLKEVSFGDWEGLTLPEVEARDPQRLAARDASKWD
+FLPPGAEAESYEILSWRVASWLSEVDRPTVCVCHGGVIRSLFKLVGGMDGDEAALGAIPQ
+DRILLLRDGAIGWL
+>tr|A0A1Q9ANK2|A0A1Q9ANK2_9RHIZ
+MKAPSSDRRRGLAITGLGGLALSFDIPLMRSADGAFWPVLAARSLSMLVAALIIWLVLNR
+VLGRAQPLLPGRAGLLAALLYGLGSVFFVASLFHTASANVVFLLAFTSMFAALIAWIFLK
+ERPAPATLVTMAVMLAGVALIVGGGFEGGHLTGDLMAVASALSIAGAITLGRASMRPMGL
+VPLVSAALPAGLALAMMGDGWAIQAPQWVLLDGFVLLPLAFFCLATGPRYLSAPEVGMFY
+LLETVLAPVWIWLIFAEAPTGRTLAGGAILILALFAHALWQMRHRQAAEAALR
+>tr|A0A1Q9AF32|A0A1Q9AF32_9RHIZ
+MTVYLPIAELSVNILIILGMGAAVGFLSGMFGVGGGFLITPLLIFYNIPPVVAVATGANQ
+VVASSISGAITHFRRGTIDIKLGTVLLCGGLAGASAGIWIFALLRRIGQLDLVISLAYVI
+LLGTVGGLMLAESLRALRRAARNEPMPLRRPGHHNWVHRLPLKMRFKKSKIYLSVLPVIA
+LGFCIGVLTSVMGVGGGFIMVPAMIYLLRIPTNVVVGTSLFQIIFVSAYTVIIQATANYT
+VDIVLAFFLMIAGVVGAQYGVRVGQKLRGEQLRALLALLVLAVGIRLAVELVIPPAEIYS
+IVSGAASY
+>tr|A0A1Q9AKS5|A0A1Q9AKS5_9RHIZ
+MGGKIRVLIIDDSASVRQTLTSVLQSDPAIEVIGAAADPFIAAKRIQDEVPDVITLDVEM
+PRMDGITFLRKLMSQRPIPVVMCSSLTEEGTETLMQALEAGAVDVILKPKIGAADHLAEQ
+AQRICEVVKGASQARIGSRRVASARASGASASASGPAQKLTADVMLPPPPAGRAMAKTTE
+MVCCIGASTGGTEALRELLERLPANSPGIVIVQHMPEKFTAAFAKRLNGLCEVEVKEAQD
+GDPVLRGHVLIAPGDRHMLLERQGARYHVSVREGPLVSRHRPSVDVLFRSAARAAGSNAM
+AVIMTGMGDDGARGMLEMKQAGAYTVAQDEATSVVFGMPKEAIARGGVDKILGLPLLASE
+ILAEDHRRR
+>tr|A0A1Q9AQP2|A0A1Q9AQP2_9RHIZ
+MITFLWPFAFLLLPLPFVLRHFLKPVDKGLGGALKVPFFASLSQGLGSRADRMSISWWKL
+CTASLVWLLMVAAVARPAYVGPEVPLPAEGRDIMMAIDLSGSMAEQDFAVGGRPTTRLNV
+VKAAADAFIESRKGDRVGLVLFSDRAYLQAPLTFDRQAVRNLLDQAQVGLTGQQTAIGDA
+IAVSLKRLKDRPAEGRVLVLLTDGANNTGEMDPIRAAELAKKLGIRIYTIGVGGGPMAVD
+TPMGRQIVNPSSDLDEGALRKIAELTGGQYFRATDVDGLAQVYRSIDKLEPVGADPVHVR
+PEVALYFWPAGLALLLAALSVLIATVPALIANRRLSKGPVHKEA
+>tr|A0A1Q9AJV7|A0A1Q9AJV7_9RHIZ
+MSHILVTGSSGLLGRHVAQALCAAGHAVLGLDVAPPPAGAAWHHVTGEAGELAVVAELAK
+GSAALVHIAAIPRPTGRAAVDVFRANMAATYAAVEAARLSGTPRFVYASSFSVLGYPFFE
+APLVPPYLPVDEGHPIGAQDVYATTKWLGEELVEAMVRRGAFSAFSLRMPWIQTPETFSA
+AVGPRRRQAEAARDLWAYLDARDAAAAFVAAVERPVQGHLRLFLSADDTYMDQDSASLIA
+NAYPATPLRADLGGHAALIDTTAARTHLGFTPRHSWRTYPSLD
+>tr|A0A1Q9ANZ3|A0A1Q9ANZ3_9RHIZ
+MIGRNDMLKKMTTHLLAGAMLLAATGAASAETLKVWSRQTDESALILKTLTDAFTAKTGI
+KVESYNTGTDFEQRLARAAAARDLPDVVINDDIALGQMLKMGIIEEVDPSKIEGNDQIVP
+AAWNSAKAANGKIYSVPISAQAFALFVRKDWREKLGLPQPKTWDDLHKLAEAFTKNDPDG
+NGKADTFGLSVPASTVRGYASWYMSNFIWAAGGNFVKQEKGGFKPDLESKPVAAALGFMR
+SLFCEGLVQPGAINATTGDALPTFRSGQTGIFLSGPYHIAVLDEQPGKDKIEVLPPPAGP
+GGVAALAEGTSAYIMTGTKARTAAEKFIGYLISPEGQEIGMGEGTGHTPLVRLPTNKAVD
+VNAVRKDARWETFKEVFDKSGHYVPPVPNWTPIRMLTAEGFNKILASCSSDIPAELKAID
+QQMAEELRKQKALAE
+>tr|A0A1Q9AM65|A0A1Q9AM65_9RHIZ
+MKYVIRAALALMTSVATSALAAEPIKIGLITTQTTPAAVIGRDVEDAVKLSIEHAGGIAA
+GRPISLIVEDDALKPDVGRQKTEKLIRQDKVDFLTGYIWSNVLLASRKSALDSGTVLIST
+NAAPSDMAGKLCNGNFYTMRGQNDVMPMALGEELNKRDVKAVYTMAPNYAAGQDVVKGLL
+ATFKGKVAGQDFTKWGDDPQLDFSAEFSKVAASGADALFAFYPGRAAAFMTQFDQSGLKG
+KVKLYTVYTLDQIALPTLQKSNTVGALGSVLTDYWYPDLDNPENKRFVTDFRQKYGRDPS
+NYAAAAYDAIQLIKSAAEKLNGDFSNKAALRQALEAADFKSVRGRLVFGKNHMPLDNFYA
+LEVVNGKDGKWEMGSPRLVLERGQDPYAADCKMAAAN
+>tr|A0A1Q9AQ15|A0A1Q9AQ15_9RHIZ
+MKNRLSTFLQDRSGATAIEYGLIAALISVALIGGAKVLGTQLNTTFTNLKTTLENNT
+>tr|A0A1Q9AQ07|A0A1Q9AQ07_9RHIZ
+MTRERVSAEGGMETSYGFRQVGESEKQVLVNDVFHRVAKRYDIMNDVMSLGLHRAWKDAM
+IAALNPAKRTDYRTLDVAGGTGDIAMRIVEASGRQAHATVLDINGSMLAVGTERAKKAGL
+ADHLDFVEANAEELPFEPNSFDAYTIAFGIRNVPHIDVALKEAYRVLKRGGRLLVLEFSA
+VDQPFLEKIYDAWSFNAIPRFGKMVTGDGEPYQYLVESIRKFPNQRDFATMIEKAGFSRV
+SFTNYTGGIAALHSAWKI
+>tr|A0A1Q9ANA1|A0A1Q9ANA1_9RHIZ
+MSIHYGHIAQKVFNTPLLYDDRKAEAFLEGLGGRLAGSSVIITNGAGAVDHVGGGNGRPI
+AGKVGGRIERAYGAAGLLPFDMVQGVAIIPVEGSLVHKGGWLGASSGLTSYQGLQAQIAM
+AAQSPRVRGVAFEFDSYGGAVNGGFETAAMIARLSKIKPTISILTDFAYSAAYMQASQTR
+AIVAPKYGGAGSIGVIMIHADMSKKMEQDGVALTIIRAGKKKAVGNPYEALPADLAEQWT
+AQAEAIRGDFAELVAKGRRGRITKARAMATEADAYDATDALALGLIDAIADPLDAFNAFV
+AEVNRS
+>tr|A0A1Q9ACU1|A0A1Q9ACU1_9RHIZ
+MTIPETAEFFRASRGHIYNLLRRGDLDAVKVGGRTLVRRTDAEALIDRSAGAFRPGPKRK
+RRKMALKAAEVDIFG
+>tr|A0A1Q9AHN4|A0A1Q9AHN4_9RHIZ
+MAQISFEHVSKTYPGGKAAALTDFNLTIKDGEFLVLVGPSGCGKTTALRMIAGLEEISGG
+TLKINDRIANDLAPRDRDIAMVFQSYALYPHLTVADNIAFGLRVRGAKPDVIEKKVRETA
+ELLELTEFLERKPARLSGGQRQRVAMGRALVRAPNAFLMDEPLSNLDARLRGQMRAEIAR
+LQRLSAITTVYVTHDQVEAMTMGHRVAVMNRGTLQQLDTPRQLYDRPANMFVASFIGSPP
+INFMEGTLVAHQGGAALSCGPLLFPLGSHAQRLSAREGSKIIVGIRPEHLKVAPSGAGPG
+TLSARAAFVEDLGATLLLHLDQHGITIGHANMVDDDRDLMSIAPKLKALVDSAARVVRDD
+NVHLTVDPALILFFDPATGAAL
+>tr|A0A1Q9AFX2|A0A1Q9AFX2_9RHIZ
+MVNTYAILQQFSWAWEGVAPQADVWHGKKAEDFAHDELVRLETKELFDNADLFIITLGLS
+ELWYDKPTGEVFWRAVPADVYDSQRHCFRTASHAETLHNLHRIYELIRRYRPAARILFSV
+SPIPLTATFRPISCITADAVSKATLRSALDEFLQAHGEADGVYYFPSYEAVKRIFHYQWG
+EDRRHVRRDVLDFNMKLFEHYYCSPGIGADEVRAAYDHAWELDHNRAENQRQHDVVSYEE
+RRAITKQAKINARIEARRVEREKVLSERREQQLRQAQLHRRAKSWLQKAVKTKSGVYVQY
+AAQTAVALLALDGLTDWMDWIPLVFE
+>tr|A0A1Q9AL65|A0A1Q9AL65_9RHIZ
+MTGEVRAPAPPGINLALYWHLMRLRARTRLQYRASLVLAWISQGFGYAGTFASIWVILNR
+FGGLGGWSWPEMAFLLGFHTFAYAIGAVFTFTQFRGMDAMVREGEFDMLLVRPVNPWSFI
+VFSGVDLQYGSHFVLGAGLMITGAAALPLAWDAGLMLRFLASLLSAALLTGAMFTIIGAF
+AFVLGRSRYVFGLYFDLWELSRYPIGIYTAPLQIILFTVLPFAYMSFVPVSVMIGKPVPL
+LGGAAPVLALAAGPILALMAALFWRACLRRHQDIGG
+>tr|A0A1Q9AHC8|A0A1Q9AHC8_9RHIZ
+MRPKLLIANPNTSCSVTDRLVAVARRLAGPRAEIIGATAPFGATALVTTRDIEIAELAVL
+AMAGAHEEVDGILVAAFGDPGLSTLRAISRVPVQGLGEAGLLSAAQAGKRFAILTLGPSL
+KTAIEEKVRTLGLSSRLAAIRFLDCGVLDLAAQPARYHDDILHNVRLLKEETRAEAVLLA
+GAPFCGLAGELRSRACAPLYDGLDAGIGRFLLPFV
+>tr|A0A1Q9AQH0|A0A1Q9AQH0_9RHIZ
+MTAIRHIVFDIGKVLIHYDPNLPYQRIIPDPEERAWFFANICTHDWNLEQDRGRSWAEAE
+ELLVARHPEREAEIRAFRTHWREMVPHAYEGSVAIFKTLIEQGQDVTMLTNFAADTFREA
+QEIFPFLTLPRGVTVSGEQRLIKPDVAIYEAHAQAFGLTPAATLFIDDAPANVEGARSAG
+WQAVAFTDAETLRADLARYGFTV
+>tr|A0A1Q9AN59|A0A1Q9AN59_9RHIZ
+MNDNARTLQAAITTAVTRAVQDPDVNAAPEAAGPIIAAVTQTVLPDVLHATNNEPWYRSR
+VVLGSLMTILAAILALFGVGFDLEMQSKLIDLILAAAPILGAGYALYGRLKARRPIGR
+>tr|A0A1Q9AM79|A0A1Q9AM79_9RHIZ
+MSKAAEIDIVSVSKVYGATTAVHAISLKIPPGSYCCFLGPSGCGKTSTLRMIAGHESISS
+GDIRLGNVVVTDFPPARRGTAMMFQSYALFPHLDLVDNVAFSLKMKGVDKEARRAKALEM
+LKLMQMEPYATRRPAQLSGGQQQRVALARALITDPEALLLDEPLSALDPFLKIRMRAELK
+RLQKDLGITFVHVTHSQEEAMALADLIVIMNDGRIEQAASPREVFERPATAFVARFMGDH
+NVLSGRASASDMDGIVAFETAGGHVFRVRGPSIAPGMPVDIGIRTDRVRLGPAAADASGF
+NGVVSNVEYRGASVKLTVMGAGSDDFTVILSDADYFAAPAAVGDAVALSWALDDAVLLGS
+VAA
+>tr|A0A1Q9AP15|A0A1Q9AP15_9RHIZ
+MIPPMEIDERAVEVLETSFGATQDETINVIARGPGFRSTGGQLRDLIVSRIALKKVEGSV
+LERDGNLTLQATALP
+>tr|A0A1Q9AP43|A0A1Q9AP43_9RHIZ
+MEKRSVFKSTWLPILFAAPQLLLILLFFYWPVTAVLNWAFTLEPPFGGAAEFVGLDNFKE
+VFNDQLYWHSVMISIIFAICGPLTAIFIGLVLALAVDRELPGSGFFRFLYILPFAVAGPA
+GGMAFRFILSPERGLAAMLNEIQPDLWNPAKYGSHALAFVIIIFIWKWAGYTFIFLLAGL
+QSVPRSLIEAAAMDGSGPIRRAIDIQVPLLAPTLFFLLVTMMTEGFVGSDTFGMVHATTR
+GGPNHATELMVYRIVDEAFQGLNYSGASAQSLVLIGLIMIFTFIQFRFVERRVHYK
+>tr|A0A1Q9AK13|A0A1Q9AK13_9RHIZ
+MSLMSKIKIAALAAGISLSALAVTAPQVLADEQHFPLQSYRVGPYAAGGTGFFGGFIDYL
+NLINTRDGGVNGVKLTWSEAETQYEVERGVEAYERLKSHPGIAAWNPLSVGIAYAMIDRI
+TADKVPLITINHGRTDSTDGRVFPYVFPLLLNPYSETSGIVNYIASKEGGLEKLKGKKIV
+VLYHGSPYGKETIPIYELLAQKYGFTLQQIEVPHPGNEQQSQWLTIRRAKPDYVVLRGWG
+VMNPVALKTAAKTGFPVDHIIGNVWSNSEEDVIPAGDAAKGYTAITTQASGAEYPVVKEI
+VKTLYDQGKGNLEDKKRIGSVYHNLGIVNGILNVEAIRIAQAKFGKRTLTGDEVRWGFEH
+LQLDPARVEALGAKDLFHSINVTWDNHEGNGYVTFQQWDGKKWNVVSDWIAPDWALLRPI
+IEKSSEAYAAEKGIKIRTAADAEGAVN
+>tr|A0A1Q9ADB5|A0A1Q9ADB5_9RHIZ
+MAQGVRGTARALGAALGIWFMLAAAAPAADSTITVIVKPGDSDAAIAEAMRAAAATGLPV
+RVELSDADASKAPTASPAAADADADAPASQTTSATSPAAAPASGKAPAAAPAPEAAAPET
+ASAALGTGLDAGAALESLSENLGTSVGAAFAGVDRLDDVAGVVAAEIAASGHSPGGILLA
+FLTTLLAAGLPALALKHGLLRLFRPKLEARDALQKLRRAGGRALIAIAALMLFTALAYLV
+LQRLLPRDTVMIALARAPLVTVAIGLGYGILASFLLSPRHPALRLLPIDRARWHWFMLVS
+YGTISAFLTECVRFAGRFGLDRTAITGVILIGGTVLTLHKLIWFIGGRREIRAAFAGPNP
+GPLRRAIAFGLPEFYALSAVVLWLAGVLMLNGDHRGALGQAFSATQAILVILPILALGMH
+ALIGVIGKRRAEARAALDTAVTTNVALEAATIRSLQTALAGVVWLVGLNLVVGLWRPILS
+GHDRLGMLAFLETAQRFSFAVVACWVGCSFLWGIFEVYSPTPRKAMPGSEDELPPVQASR
+LSTVMPVIRNLAFGATLAITVLVVLSSLGIDVAPLIAGFGVLGLAISFGSQTLVKDIVSG
+IFFIADDAFRVGEYVDTGKLKGTVEHISLRSLRLRHQNGFVHTIPFGQLQSVTNFSRDWS
+TIKFQLRFDKEADLELIRKTVKKVGLAMLEDPELGPEFLVPLKMQGIQDVTETSLIIRLK
+FTCRPGQPTLIQRAAMKRLLPALREAGLQLASNAVVVRGGEAAADLSGAAAASRYGMQEK
+LLAEAEAVAEKR
+>tr|A0A1Q9AL49|A0A1Q9AL49_9RHIZ
+MTAVPADTAAEAAAKRPAGRPFSAFERMVAWRYLRSRRREAFISVIAGFSFIGITLGVAT
+LIIVMAVMNGFRTELISRILGINGHMIVQPLDGPLDNYADLAAKFSAIKGVTMAIPMIEG
+QTLASGTGGAGTGALVRGVRPEDFGKMSAVSGHIRSGDLTAFANGTGVAIGSRMADQLGL
+QAGGTITLVAPEGDVTPMGVNPRVKSYTVSAIFEIGMSEYDASIIFMPLSEAQLYFNAEG
+IAQSIEIFVEKPDMVDSLRKAVEDAAGRPVLITDWRDRNKTFFSALQVERNVMFMILTLI
+VLVAALNIVSGLIMLVKDKGSDIAILRTMGASSGSVMRIFFMTGAAIGIVGTLAGVALGI
+VVCLNIESIRQFFSWVSGTTLFNPELYFLSQLPAEMNPGETISVVAMAIGLSFLATIFPA
+WRASRLDPVQALRYE
+>tr|A0A1Q9ALQ4|A0A1Q9ALQ4_9RHIZ
+MEPEKPPRRQTSDKTPTTIDLTADRLPSQNGAAEDAAADTAAAAGKPEADKVSDIKPANP
+APTQSASTVLASDAASPADKTTDKGADKVAAKTASDPLKADPLKAGPSKAGDPLAAPSSG
+AQAAPVRAWDRPSDLPGASKPGTSASTAQKDASAKDDKAARTGPASTTGSASTTASSSVP
+PSGATATGAGRSGAGGSNGSGAKGLAAGILGGLIVLIGAGALQYGGILPSLSPDSRQNSE
+EIEALRGEIARVEQGAGQITALKGTVDALQAQIAALRQADDAMTARVEAAERKAEAPTSE
+VQLARAVAVAALKTAIDRGGPFQSELEAAKAVNPDEAALGELSADASGGLPSRRELVDSF
+PAVADRMLSAVRTPGSTDGGFLTRLMGSAESLVRMRPVGDPKGNEPADIVARIENRLSSG
+DLRGAQAEWQGLPEAAQAAGKSFKDQLDQRLRVEEIVGRLMAGATAAKQG
+>tr|A0A1Q9AQE6|A0A1Q9AQE6_9RHIZ
+MMMIKSYPDSYGKVASIDTPDDADSYKKSVFGKDGSGLDAYQAADRFSALELAQYDALFK
+SNSKPVSHVEALSNISSDKMKADCPEPLVAMFGRCQDLLSPYIRGDF
+>tr|A0A1Q9AK78|A0A1Q9AK78_9RHIZ
+MPQTTTQEPLIALNGVGKWYGAYHALKNVNMTVRKGEKIVLCGPSGSGKSTLIRCINHLE
+EIQEGKITVEGTTLTDSARAIDAVRREVGMVFQSFNLFPHKTIMENCTLAPMRVKGLSKA
+EAETIARKYLERVRIVDQADKYPAQLSGGQQQRAAIARALCMEPKAMLFDEPTSALDPEM
+VKEVLDTMIGLARDGMTMICVTHEMGFARQVADRVVFMASGEIIEEGPPETFFRNPQHER
+TRTFLGEILAHH
+>tr|A0A1Q9AEW1|A0A1Q9AEW1_9RHIZ
+MPVRSDDPTPPAFAAFAPPVSQPTALRAAITAAYRRDEAEAVAPLLTEASLPDTDKTAIR
+EIARKLIVALRAKHKGTGVEGLVQEYSLSSQEGVALMCLAEALLRIPDMDTRDALIRDKI
+AHGDWRSHVGGGRSLFVNAATWGLVVTGKLTSTVNDRSLSTALTRLIARAGEPVIRRGVD
+MAMRMMGEQFVTGETIEEAVKRARPLESRGFRYSYDMLGEAATTAADATRYYADYEHAIH
+AIGKAAAGRGIYEGPGISIKLSALHPRYSRAQAARVMAELLPRVRALALIAKGYDIGLNI
+DAEEADRLELSLDILEALRLDPALSGWNGLGFVVQAYGKRCPFVLDYIIDLARRSGHRMM
+VRLVKGAYWDAEIKRAQTDGLPGFPVFTRKVHTDLSYIACSRKLLAARDVIFPQFATHNA
+QTLATIHHLAGPDFKVGDYEFQCLHGMGEPLYDEVVGEAKLNRPARIYAPVGTHETLLAY
+LVRRLLENGANSSFVHRIADPNVSVDEMISDPADVVRAMARPGAGHEKIALPRDLYGARR
+NSAGLDLSDETVLGELSARLQDSAAIDWRAAPTGLAFDPARAVTVTNPGDRRDPVGQVQD
+ATPQDVEAAMARAQGAAARWAATPPAARAACLTAAADALEARMPILLGLIIREAGKSAAN
+AIAEVREAVDFLRYYAEQALKTFGPAHQGLGPVVCVSPWNFPLAIFTGQVAAALVAGNPV
+LAKPAEETPLIAAEAVRLLHAAGVPEDVLQLVPGDGRVGAALVGAAETAGVMFTGSTEVA
+RLIQRQLSERLSPAGRPIPLIAETGGQNAMIVDSSALAEQVVADVIASAFDSAGQRCSAL
+RVLCLQTDVADRVLAMLKGALHELVIGRTDRLAVDVGPVITEEARATIETHIATMAARGH
+KVERIALPEGTAHGTFVAPAIIEIATLADLEREVFGPVLHVVRFRRDGLDRLIDSVNATG
+YGLTFGLHTRLDETIAHVTSRVRVGNVYVNRNIIGAVVGVQPFGGRGLSGTGPKAGGPLY
+LGRLTPVAPLPPQINSVTVDPGLTDFARWLDGKGRAQDAEAAREIGGRSALGFVTELAGP
+VGERNLYALHPRGRILLKPKTETGLMRQLSAVLATGNEAVVDGAAGLDSSLAGLPESVAR
+RVSQATDWSAAGPFAGALIEGEGPELVEAQRRIASLPGPLLLTQAATSQALAADPEAYGL
+NFLLEEVSTSINTTAAGGNASLMSIG
+>tr|A0A1Q9APS4|A0A1Q9APS4_9RHIZ
+MFDPKKLLDQFLGSQVPGAGGSFGQRAGQLGQIARNNPLKTGALAAVLLGTGKGRDIAGT
+ALKLGGLAAVAGLGYAAYRNYQAGKAPAEVARQAPATELLPPPPESGFSIEPHVVRNDFV
+LVLVRAMIAAARADGHIDAQERARIMEKVQEVGLDSEAKTFLQEELNRPIDLDSLVAAAR
+TEEEKVELYTASRLAIEPESRAERGYLDQLAGRLGLPDALIDHIEATVASAKLPAPVPSA
+NFDPAI
+>tr|A0A1Q9AKA7|A0A1Q9AKA7_9RHIZ
+MTEDSGRERTLHQRILGDIEGRIVSGEWPPGHRLPFEMELAAQYGCSRMTVNKVMTQLAK
+SGLIERRRKSGSFVTQPQAQSAVLEITDIEAEVRSLNLAYGFRLTKRALRKAGEEELRLI
+DVAEGAPLLALSCVHMAGPRPFCREERLISLAAVPEAETADFSATPPGQWLIGQVPWSAA
+EHRIRAVNAGADMAAALAIAKGAACLVVERRTWSGQGAVTQVCLTYPGDSHTLMARFTPA
+SQ
+>tr|A0A1Q9ACV5|A0A1Q9ACV5_9RHIZ
+MGKPRKPKGRPVSGWLILDKPIDFGSTEAVSKIKWLFKAQKAGHAGTLDPLASGMLPIAL
+GDATKTVPYVMDGRKIYEFSVAWGEERTTDDLEGEVSQRSDNRPSEEAIRALLPNYTGVI
+SQIPPQFSAIKIDGERAYDLAREGETVEIPAREVEVFRLTLLGCLPNLAHFEIECGKGTY
+VRSIARDLGRDLGCYGHIASLRRSFVAPFAEDSMVPLAELVALEKIEDEAERLAALDAFL
+IDTSEALASLPHLPVNDDQAHRLRMGNPIIVRGRDAPVAEPEAYATARGRLVAIGEIAEG
+EFRPKRVFTEN
+>tr|A0A1Q9AC96|A0A1Q9AC96_9RHIZ
+MAPVSATPGRAEASTMARALREAVLAGIIAFGLFVLYVGLKTDQNISNELILVPRPGLLA
+IFVGLAMVARFLGVLYIQPAMKRRRDAKSAAADLELQPSYVKRNFSTIAIIALVLYPPLM
+VALFGTQGSLKWVDNFGIQILIYVMLAWGLNIVVGLAGLLDLGYVAFYAVGAYSYALLST
+HLGLSFWVLLPMAGILAALWGMILGFPVLRLRGDYLAIVTLAFGEIIRLVLINWTEVTQG
+TFGISGIAKASIFGIYSFDVGAPNNFAKVFGLPMSAAYYKIFLFYVILALALLTAFVTIR
+LRRMPVGRAWEALREDEIACRSLGINTVTTKLTAFATGAMFGGFAGSFFAARQGFVSPES
+FVFLESAVILAIVVLGGMGSLVGIAVAAVVMVGGTEMLRELTFLKAIFGPDFTPELYRML
+LFGLAMIVVMVLKPRGFVGSREPSAFLHARKSVSSSFTKEGHG
+>tr|A0A1Q9AL44|A0A1Q9AL44_9RHIZ
+MWTILLLSSTCLVTAVPALAQQAGSDAASLAATVPEDAKMLLQANELVYNRDSSRVIVRG
+AVQINYGGYQMVARQVEYNETSGRIIATGDIELIEPSGNKVYADHMDLTNTFSDGFVEQM
+RLETTDLTKLAAVNGERRNGNEFILNQAVYTACTPCATNPNHRSLWNIKAERIIQNGTTH
+TIRLEHAHFEMFGQPLVYLPAIEVPDQTVKRQSGFLAPRFRYTQKLGFGVSVPYYWAIAP
+DMDATVTATGLTQQGVLLEGEYRQRFEMGQHVLRFAGISQLDRSAFSAGTEDALKTERGM
+IASKADFQINPRWSFGWDVLVQSDNNFAKTYDLSTFDGTTLTNQAYLSGLGERNYFDLRA
+FYFNIQDADPGSAAERQQAIPQVLDYSATAPNPVMGGELTANLNLTNVKRSRLDAYTVAG
+DTRFRGLEGSDQRLTGELEWKRQVVVPGGLVLTPLLAARGDAIGLNVDRPVGYSGDFTNE
+DAVTRGMVTAGLEARYPMLFTTPHSSHILEPIAQIFVRPDEQYAGGLPNEDAQSFVFDAS
+NLFDRDKFSGYDRIEGGTRANIGFRYTGTLGNGYGLRAIAGQSYQLGGLNSFATDDLVNA
+GANSGLETKRSDYVAMFGVDAPLGFTGSLSGRFDKDDFSLKRTDLSAGYEGIRWQTALTY
+TSIQAQPLYGTNYDQDEIKTAASYKFQDYWSVFGSVTYDLNFKVITRDSFGITYDDQDTI
+FSIVYKNVRDPDKELANDWSIGARLSFRTLGDINVGNTSFTDLN
+>tr|A0A1Q9AP98|A0A1Q9AP98_9RHIZ
+MEPKLIRVADDAPHLLVVDDDRRIRDLLNRYLVDQGFRVTTASDAPEARRRLDGVDFDLL
+IVDVMMPGETGLSLTQSLRKIKTVPIIMLTALAEQNARIEGLEAGADDYLPKPFDPRELV
+LRINNILRRHAPAISPKVEQVIFGPFTFSVVRKELRRGAEHIRLTDREQEMMMLFSQRAG
+ETIPRHELVGDDAEVGERTIDVQINRLRRKIEDDPSNPIFLQTVRGIGYRLSVD
+>tr|A0A1Q9AMJ6|A0A1Q9AMJ6_9RHIZ
+MSLETSTARPVTIDLAGAWELSSADGKHQNTIRLPGDVHSALADAGIIPEPYHGRNEAEI
+QWVAQEDWVFERSVEIDADVLDGPWYLDLESLDTVASVFVNDQLVLEADNSFRRYRPDVG
+GVLKAGANRIRIVIRSAIAAGAELQAAQPFYVPVQELNSPIPNGNMLRKVQCHFGWDWNI
+AIAPLGVYGTLALRRLAPARIEHVQTQQIPRADGGVDLLVKATLFAEAPCVVGVDFGLDG
+KNDHVDCALGAGETVVSQVFTIAEPRLWWPAGSGEQALYALTVTVAGETVRRQIGIRTAE
+LLTDADAAGSRFALRVNGREIFCRGANWIPADALMSRATPEATEDLLRSAVDANMNMIRV
+WGGGFYEADWFYDLCDRLGLMVWQDFMFACNLYPSTPDFLANVEAEVDYQVRRLGSHPSI
+VLWCGDNELVGALTWFPESRKDRDRYLVSYDRLNRTIEVAMKKAAPDLIWWPSSPSPGYL
+NFGDAWHADGSGDMHYWSVWHENKSFDNYRTVRPRFCSEFGFQSYTSMPIVRQFAEKKDL
+NIASPVMEVHQKNVGGNERIAGTMFRYFRFPRDFESFVYVSQIQQGLAIRTAVEYWRSLK
+PHCMGTLYWQLNDTWPVASWSSLDYGGNWKAMHYMVRRFFQPVAVAVIPAEDKETLAFSM
+VNDTAEPVTIALETFLVSLSGERQPLMAVAGTCGPDAAATLTTISDRDIPADHLLFWRFT
+ASNGMSGEGHHVLSTYKALELQPSGLSVTPRALGDGSCELTVTSAGLALHVMIEADREGR
+YSDNAFDLTAGDSRTIRFTPRAAGEGMPVFHAYDLQASYAAEAPARVAAA
+>tr|A0A1Q9AFX6|A0A1Q9AFX6_9RHIZ
+MAGLMETLVKGVIDSVLKEVLKKTGAKRASRRTKRQTRDPKGRFTPSPSPKRVKARKQVS
+KRRTAAARSKQRSV
+>tr|A0A1Q9ANS8|A0A1Q9ANS8_9RHIZ
+MIPRFCIERPVATTLLAIGVLLAGLAGYNLLPVAALPKVDFPTISVSASLTGAAPQTMAT
+SVATPLIKQFQTIPGVSEISATNSLGNTNIVLQFDLNRNIDAAAADVQAAMSFANRQLPA
+NMTTPPSYRKTNPADAPVMLLAVRSDTMPRSKLDDIAENIISPSLSTLPGVAEVTVYGAQ
+TYAVRIEVDPDKLLTRGLSIDTVNKAVQAANSQLPVGALQTDQQSLTINANTQRTDAAQF
+RSLVIATPNGAPVHLSDVANVEDSVANDKTGSWYDGNRAILLAIQRQPGANTVEVVDAIR
+AKLPALHAVMPASVETFVMNDSSVPIREAISDVKFTLILTIGLVILVIYLFTGHLTATII
+PGLAVPLSLVATFGAMYVLGYSIDNISLLGLTLAVGLVVDDAIVMLENILRHVEAGMPVR
+EAALLGSAEVSYTIISMSISLIAVFLPILLMGGVIGRVFNEFGMVVSIAIIASVIVSLTV
+TPMLGARISGGHTRPPLVIRWFDAGFAATTRGYGASVAWCLRHRGFVMLTFFASLGLTVY
+LFMVLPTSFFPTEDIGRLNISTRARQDISYPAMVELQNKAADLVRQNPAVAHVMSIAGGS
+ARSPLNNGTMFVELKPKEERPPLDQTVTELRKAIAGVPGLQGYVTPQQNIRFGGRQTASQ
+YQLVIQALDAAKTNLWADKILQAMRRDGRFTDLVSDAQNKALQADIAVDNEKMAAYGISS
+DALRTTLRQAFSTYAPTQIQSTGSSYNVIVEYDTARDWDENSLSRIRVPAAGGALVPLSN
+FAHVTRTIGPVTINQTGQLVSTTVSFNLPDGVSLGDATAAIDRIKTEIGVPADVFTSYGG
+SAQIFQQSQGSMPILILAAVLTIYVVLGVLYESYVHPLTILSGLPSAALGALIALKVMGF
+DLSIIAIIGLLMLIGIVKKNAIMMIDVALETLRSGVGATPGEAIHEACVRRFRPIMMTTF
+CALLGALPIAMGSGASSELRQPLGVAIVGGLLVSQALTLFITPVIFVEMDRLSHLPARLF
+RRKKAAQHHDAPTAHDEPQPLAAE
+>tr|A0A1Q9AP51|A0A1Q9AP51_9RHIZ
+MMTVLSCIGTKHDPLLFGVAALICILGSIITTQLYARGRRTISLQRMSWLFMAGIIGGST
+IWTTHFVAMMSYEPTVRHAFAADLTLVSLVMAITATLLGMVVSTLTTKGPAIELGGLIIG
+LGIALMHFTGMAAYEVEGQKVWDLGMATASILLGATFGILMCNRIARPIWRFCRHGGTAA
+LILAIVTMHFTAMTALTIVPDPTVAVSSSFVPDDFMAVLVSAITIIIISFGTAAYFIDMQ
+TQRNTAERFRHLALHDAVTGLPNRSSLVDYIDSVITRDDEAGQFTLIKIGLSELKHVSER
+HGFSAADALLRTAAQRLRLALDSDTFLARGTADALVVCVSRHTKTEAQRLAHHLVKVLNE
+TMMWDGTHLAMGAHAGLATLSRAPGRDSQQLLTEATMALDRAKEAGAGAVRVYDRAIDDL
+TRAHVEMTMALQTGIERNEFFLVYQAQNDVESRAVVGYEALVRWRHAERGLIPPSEFIPL
+AESTGFIHRLGDWVLKTAALEAAGWARPLSIAVNVAPAQLADIAFPLRVQQILNETGLDA
+RRLELEITESGIIADQQKALAIIQQLKQLGVRIAMDDYGTGYSSLSMLQSFPFDKIKIDR
+SFVDAVAVSRPSAAIVRSTIILSHSLDIPVLAEGVETEEQMDFLRQEGCLCVQGYLFGKP
+QTAEQIAAVTGMAVSASAA
+>tr|A0A1Q9AEP2|A0A1Q9AEP2_9RHIZ
+MKTIIQLGRAGFLTAFLAMSAFATPSFAQDKPAPATGAENVAPATKPEKKRMTREERVQR
+MIARFDANGDGKITPEEFTKAADTAFAALDTNGDGQVTKEEFAKRAEAMKAARKSWTAAR
+RSDAADQDQKKAQFEALRAFPGWRARMFERADADKSGGLSRKEMEDRAAAYFKRHDRNGD
+GVLDASDFARKS
+>tr|A0A1Q9AFG5|A0A1Q9AFG5_9RHIZ
+MRQAAVDADFVELPPERAQCRPGGRWTPRLPLFPLILLLAGLPVLMAPRPMGEGDMALPV
+PAPSSPPVTVQDVSARLADANGLRVLIVYGRLVNEGRTPAALPALDIDLDDRRLIRPLDG
+AAWMLPGEGRPFALKFAHAGGAMPRVQVSAARGQGAAAALRP
+>tr|A0A1Q9AQ72|A0A1Q9AQ72_9RHIZ
+MDRGTVRLTMAQAVARFLTRQKTVIDGEIVPIFGGVFAIFGHGNVAGIGEALHGIRDELP
+TFRAQNEQGMANAAIAFAKASFRRRFMACTTSIGPGALNMVTSAALAHVNRLPVLFLPGD
+VFANRRPDPVLQQIEDFSDGAATANDCFRPVSRYFDRITRPEQIIPALRRAMQVLTDPAD
+CGPVTLALCQDVQAEAYDYPESFFAEKIWLPRRLHPDADELAGAIAALAAAQKPVIIAGG
+GVLYSEASAALSAFAERHGIPVVETQAGKSSLPHDHDLNMGSVGVTGTSAANALSEEADL
+VLAVGTRLQDFTTGSWALFKNSDLKILGLNIQPFDAAKHEALPLVADARVGLEALSAGLG
+VHRAPVTWTDKARHEKAGWIEAADRAIAPTNAALPSDAQVIGAVLRARGASRTTLVCAAG
+GLPGELHKLWRAEKPGSYHMEYGFSTMGYEVAGGLGVKLAKPEDDVIVMVGDGSYMMLNS
+EIASSIMLGAKLTVVLLDNAGYGCINRLQMATGGANFNNLLKDTHHVELPTIDFAAHAAA
+MGAVARKVASIAELEAALAETRAETRTTVIVIDTDPLITTREGGHWWDVAVPEVSTREPV
+NTARGAYEKALSAQRFG
+>tr|A0A1Q9AH03|A0A1Q9AH03_9RHIZ
+MTDGTQQTMQGKRRNDGLIVAACLAFVGGMIGMSYAAVPLYDMFCRVTGYNGTTQRVEQA
+SDTILDQRIRVTFDANIGGGLPWRFTPIDRAVEPRIGETVQVSFKVKNIASVPTTGQAVF
+NVTPMAAGAYFNKVQCFCFTETTLQPGEEREMPVVFFVDPEIVKPIETRGIRTLTLSYTF
+YPHTPSKPLASVKGAVVPPPQGG
+>tr|A0A1Q9AMF0|A0A1Q9AMF0_9RHIZ
+MRVYYDRDADLNLIKSKKVAIIGYGSQGRAHALNLKDSGHDNVAIALKAGSATAKKAEAD
+GFKVMTVAEAAAWADLMMMATPDELQADIYKADIEANIRDGAAIAFAHGLNVHFGLIEPK
+KSVDVVMIAPKGPGHTVRGEYQKGGGVPCLVAVHQDASGNALDLALSYACGVGGGRSGII
+ETNFKEECETDLFGEQVVLCGGLVELIRAGFETLVEAGYAPEMAYFECLHEVKLIVDLIY
+EGGIANMNYSISNTAEWGEYVTGPRIITAETKAEMKRVLKDIQTGKFTSEWMQEWKAGGA
+RFKGIRRVNDAHQIEEVGAKLRGMMPWIGKNKLVDKAKN
+>tr|A0A1Q9AF73|A0A1Q9AF73_9RHIZ
+MSRIPVPAAGRMQSIARNPVAIALFLTLSIAGCASKKNLPNSAGDLGLNGGAGGAATPGS
+QQDFTVNVGDRIFFDTDSSSVRADAQATLDKQAQWLQRYSKYPITVEGHADERGTREYNL
+ALGARRAAAARDYLVSRGIPASRIKTISYGKEKPVAVCDDISCWSQNRRAVTVLGGAGM
+>tr|A0A1Q9AIS4|A0A1Q9AIS4_9RHIZ
+MRLTKQTNYAVRMLMYCAANDGKLSRIPEIAKAYGVSELFLFKILQPLNKAGLVETVRGR
+NGGVRLPRPADQITLFDVVKVTEDSFAMAECFEAGEIECPLVDSCGLNSALRRALNAFFA
+VLAEYTIDDLVKARPQINFLLGLEPHPRPQTAA
+>tr|A0A1Q9AJW8|A0A1Q9AJW8_9RHIZ
+MFEKFLEQRVALKHYRAIAHSHALIWFTPDGVVQGANKKFCDAVGYELSEFVGKHHRIFV
+EEALRSSDAYVTFWKDLAAGKPQRGQFRRISKSGEDIWIEASYDPIIEHGKVTGVLKIAT
+DITATKIASLHNENLLRALERSVAVIEFSPEGVVVEANQAFCQAMGYQRAEILDKHHRIF
+CDATYTASKRYEEFWQRLRAGEFFSDTFKRVGKNGREVWIQATYNPVYSSRGQVYRVVKF
+ATDVTERMKSVGILSTAIGRLANGDLTAQVHVEMDKSMESTRQDFNAAVAKLETVISEIT
+GLSNGIVLTSSELLENAGGIAKRTEQQAAALEQTSAALEEITQTVNDASQRASEAGTMVR
+ETREAAEQSGQVVTSAVAAMGEIENSAKEISSIINVIDEIAFQTNLLALNAGVEAARAGE
+AGKGFAVVAQEVRELAQRSAKAAKEIKQLITTSSGQVASGVDLVGKTGKALESIVLRVQT
+IDRNVLAIVEASKEQSIGIKEINQAVTLLDQGTQQNAASVEEQNAASHELAERAKALAVL
+VEQFRTQPAGSQHPGHRGEVVAFSSRQVTKRVAGGSGHGWTEP
+>tr|A0A1Q9ANE0|A0A1Q9ANE0_9RHIZ
+MFDRRISLITLGVEDVARATSFYESLGWQRARASNPSITFIALKGIVLALFSRAQLAADA
+DLADPSPEARVFSGVTLAHNLDSEAAVDAAYAFALEKGARPVKRPEKVFWGGYSGYFADP
+DGHLWEIAYNPFAPLDAEGHMQLGD
+>tr|A0A1Q9ANE6|A0A1Q9ANE6_9RHIZ
+MDTHSLDKALLECGHKYVDALEHLGMKPECAFWAYDEELEQFFLVLITSMFDYAGPLKLA
+EKLFKAYNSHGLPAEIDPFQVRLHSPKQTIYRNIAPLLTQRITGADFALENPHVNIPESL
+LSQPIAIRSDGLYVHPDWIYRFAPVKRNEVGRQWNKFVTRVDSLAA
+>tr|A0A1Q9AQI4|A0A1Q9AQI4_9RHIZ
+MPGVNAVYEVVLFTRDARGHAVIAGPPEIMADAASACARAESLAAGHEGVAAIRRPVQPA
+IGETGPIEILFQSGRLGDLG
+>tr|A0A1Q9AFY5|A0A1Q9AFY5_9RHIZ
+MTAGIIEAVNGARAARRPVATVTDLSSGAMRMVLPETIAGDWLEPALADAFRTGKSCQAE
+DGRQFINVYLPAPRIVAVGAVHITQALAALAPVCGFALSVVDPRSGFATPERFAGVELLV
+DWPEDAFAAQPLDEFTALAAVSHDPGMDDPALIAALKARCFYIGALGSRRSHAQRVERLS
+AAGVSDEDLGLIHAPIGVDIAAATPQEIAVAILAEIIAALRRPDRAATGRIAAQAPRARA
+ACLVDG
+>tr|A0A1Q9AD67|A0A1Q9AD67_9RHIZ
+MNAANRERLGDVLSYIFMLVIFAFFAWPLLWLLSLALRTRREVFLGVSRFIPKNPTLENF
+TLILQSDKFIGYLYNALKLSCLSAIGCLIVALPAAYAFSRFEFKGKGAWMMAILSVQMIS
+PLVIMVPLYRYMAAIGLTDTHFGATMVYIALAVPTVTWILKGSIDGIPKTLDEAAMIDGC
+NRFTAFVRVILPLSTPGIASAFIISVIGGWSQFLVPFLLITKESLTPIGVGIFQYAGTQN
+DSSIQLLAAACLVSVVPAIVAFLALQRLILGAMTAGAVKG
+>tr|A0A1Q9AGD0|A0A1Q9AGD0_9RHIZ
+MNIMRTAMLLAVMTALFMGVGLLIGGRGGMMIAFLVAAGMNLFSYWNSDKMVLRMYNAQE
+VDARTAPEYYGIVAQLAERAGLPMPRVYVIDSPQPNAFATGRNPQNAAVAASTGLLNALT
+HEEVAGVMAHELAHVQNCDTLTMTLTATLAGAISMLGNFAFFFGGNRENNNPIGVVGTIV
+AMIVAPLAAMLVQMAISRTREYSADRRGAEICGQPLALASALAKISGYAHQVPNWQAERN
+PATAHMFIINPLSGERMDNLFSTHPNTENRIAALQQMASEPGFGGFASTGRTQAARAGFR
+AGRSVPSTGSSHSPNRPPRGPWNR
+>tr|A0A1Q9AQ14|A0A1Q9AQ14_9RHIZ
+MFGKRSGEGFGKAPATGSAPAAAPARAPQPAATTELVRETQAAPQRAPEPARRRPRDDDY
+YGTKAQVFSALIDTIDLSQLSKLDGESAREEIRDIVNDIITIKNFAMSIAEQEELLDDIC
+NDVLGYGPLEPLLARDDIADIMVNGAGQVFIEVGGKTLESEIRFRDNAQLLSICQRIVGQ
+VGRRVDESAPICDARLPDGSRVNVIAPPLAIDGTALTIRKFKKDKLKLDQLVRFGAITPE
+GATLLQIIGRVRCNVLISGGTGSGKTTLLNCLTAFIDTHERIITCEDTAELQLQQPHVVR
+LETRPPNIEGEGEVTMRDLIKNCLRMRPERIIVGEVRGPEVFDLLQAMNTGHDGSMGTLH
+ANTPREALGRIESMIAMGGYTLPAKTVREIIANSVDIIIQAQRLRDGSRRITQITEVTGM
+EGDVIITQDLMRYEIDGEDAGGRIIGRHVGTKIGRPAFWERARYFNEDKRLAVALDALSQ
+D
+>tr|A0A1Q9ALS4|A0A1Q9ALS4_9RHIZ
+MSAIDALFAEAAPQDRRADVRATLLSAARERILIMDGAMGTEIQQLKLEEDHFRGDRFVD
+CACHLKGNNDLLTLTQPQMIEDIHYAYAMAGADILETNTFSSTSIAQADYGMEAEVYALN
+RDGARLARRAAIRAEQTDGRRRFVAGAIGPTNRTASMSPDVNDPGFRAVTFDDLTTAYAE
+QIRGLIEGGADLLLIETIFDTLNAKAAYFAATMVFEEVGFELPVMISGTITDQSGRTLSG
+QTPTAFWHSLRHARPISFGLNCALGADAMRPHLAELSPIADTLICAYPNAGLPNAFGEYD
+QGPEQMAAQVLRFAEEGLVNIVGGCCGSTPAHIRAVAEAIAGRTPRAIPEVAPRMRLSGL
+EPFTLTAEIPFVNVGERTNVTGSARFRKLITSGDFTAALAVARDQVENGAQIIDINMDEG
+LIDSKAAMVSFLNLAAAEPDIARVPVMIDSSKWEVIEAGLKCVQGKPLVNSISLKEGEEN
+FLAQARLCRAYGAAVVVMAFDEQGQADTQARKVEICTRAYRLLTDKVGFPPEDIVFDPNI
+FAVATGIEEHDNYGVDFIEATRAIRTGLPHAHVSGGVSNLSFSFRGNEPVREAMHAVFLY
+HAIQAGMDMGIVNAGQLAVYESIEPELREACEDVVLNRRADSTERLLEMAERFKGTGAKE
+AKTRDLAWRDWAVEKRLEHALVNGITDFIAEDTEEARLNSERPLHVIEGPLMAGMNVVGD
+LFGAGKMFLPQVVKSARVMKQAVAVLLPYMEAEKAAARAAGTQAEGRSTAGRILLATVKG
+DVHDIGKNIVGVVLACNNYEIIDLGVMVPAARILDTARSEKVDIIGLSGLITPSLDEMAF
+LAAEMEREGFDVPLLIGGATTSRVHTAVKIDPNYRRGATVYVPDASRAVGVVSQLLSPEA
+RDGFIAETKAEYGRVAEKHRKNEADKQRLPIAKARANHHRSDWSAYQPVKPSFLGTRVFD
+GWDLAELRRYIDWTPFFQTWELKGSYPGLLEDERQGEAARQLYADAQAMLDKIVAEKWFV
+PRAVVGFWPANSVGDDIRLFTGEDRSETLATFFTLRQQMTKRDGRPNVALSDFVAPLEGG
+PGDYVGGFVVTAGFEEIAIAERFERANDDYAAIMVKALADRFAEAFAERMHELVRRELWG
+HAADETYRPEELIGEPYAGIRPAPGYPAQPDHTEKVTLFKLLDAEARIGVQLTESYAMWP
+GSSVSGLYIAHPEAYYFGVAKVEHDQVADYARRKGMTIEAIERWLSPILNYTPSNRSQAA
+>tr|A0A1Q9APR9|A0A1Q9APR9_9RHIZ
+MTSYRLSQGGLIDRARPLSFSFDGKPMSGFAGDSLASALLANGQRLMGRSFKYHRPRGVL
+TAGAAEPNALMTIGKGGRTEPNTRATLQELYDGLTARSQNRWPSLDFDIGALNGLLSPFL
+SAGFYYKTFMWPAAFWEKLYEPFIRKAAGLGEAAKESDPDSFEKCWAHCDLLVIGAGATG
+LAAALTAGRAGARVILVDEQAELGGSLLSETATIGGVPAAQFAREATAELEALPNVRTLA
+RTTAFGRYDGNVFGAVERVQKHVATPQVGRPVERLWRIVAGRALLATGAEERPLVFGGND
+IPGVMMAGAARSYLNRTAVAPARQMAIFTTNDSGYALARDLEACGVALTAIIDSRPEGAA
+PGLYKGQARILTDALVRDAHGGKSLSAITIARQGRTETLRLDGLAVSGGFSPVIHLACHR
+GDKPVWSDAQGAFLAEDRKGLALAGAAAGLSGLAACYEAGARKAVALLDQLGIAATAGSV
+PTVEGDIVAPATKPLWSIPGIRGKAFIDFQNDVHRADLALAVREGYAHVELAKRYTTNGM
+ATDQGKLSNVNAIGLLAEARGVSPAEVGTTTFRPFYTPVSFGALAGSSHGKHFQPVRQSP
+LHGWAKKNGARFVETGLWYRSAWFPRTGETTWRESVDREVRTVREAAGLCDVSMLGKIEI
+TGKDAALFLDRVYCNGFANLPVGKARYGLMLREDGFIYDDGTTSRLAEDRFFMTTTTAYA
+AGVLNHLEFCAQALWPELDVRLASVTDQWAQMAIAGPLARTILQEIVDEDISNEAFPFLG
+ARAVSLFNGALKGRLFRISFSGELAYELAVPAGYGESVADALMEIGKPKGLCAYGVEALS
+VLRIEKGHVTHNEINGTVVPADLGFGRMVSAKKADFIGKHMLAREGLTAGNRHQLVGVVP
+LDPAASFRTGAHILAKGAAATLENSLGHVSSSCYSPHVGSTIGLALVRAGSSRHGEEVMI
+WNGLRGEYTPGRLCDPVFIDPENAKLKI
+>tr|A0A1Q9AH04|A0A1Q9AH04_9RHIZ
+MSRTTVVGACPHDCPDTCSILTTLEDGKAIAVRGNPDHPFTRGRLCVKVNNYQDRVYSDQ
+RILYPMRRSGPKGSGQFTRITWDEALAEIAATFKEIIARDGAQAILPYSYLGTQGIINGL
+NVGDPLFNKLGAAVSERTFCDSGSCTAYMMTIGHTPGVDPEAFVHSKYIILWACNTLSTN
+SHHWPFIEQAKKNGAKLVVIDPVRTRTARLADWHIPIRPGTDGALAMAMMHIIIKEGLTD
+RDYIDAHTVGFAELAERVEDYTPEFASAETGIPVEDIYQLAREYAATPPAVVRIGVAVER
+HAGGGQTVRAIACLPALIGAWKHVGGGLLQLPIWAFPVNWGGLMRPDLQPETMRVINSWQ
+LGPALTGELALDPPIRSLFVYNANPMAMVSQQGKLEAGLAREDLFTVVSEHFMTDTARYA
+DILLPATTQLEQKDIMFSWGHLYLSYNNPAIEPLGEAVPNTELFRRLARALGIDDPFFHR
+SDDEMIAQSMDWGSPVMEGIDLETLKEKGYLRLNMPATGEWAPHRDGNFPTPTGKCEFKS
+TLAATGNFVVPLFRQGYNGGQSGEPVDPLPHYIAPNESPASAPDLAGKYPLSLISPKSHA
+FLNSNYGNLPAQLAQAGEEQAVILHPSDADVRGIVAGTPIRIFNDRGVFEAFATVSQDVM
+PGVVVAPAGYWQRSNRRGPTVHALTPPAFADLGRAPTFSDVLVEVAPS
+>tr|A0A1Q9AMU2|A0A1Q9AMU2_9RHIZ
+MTPEIARRLLPEIMEVHGLASIKWGEGYNAKTGRAELCRFDERTRSYEPIAHILSDCPYD
+DRQMMSKAPTYIAALLCLREESVRAYRALQAQLGPSDTSKPPPDFTTECAMRCQDAPFQQ
+FMLARHGAASAEKEDCAAAVRTALQISSRKALNTDPDAAGRWISLRAEFDNWMRDQ
+>tr|A0A1Q9ALC3|A0A1Q9ALC3_9RHIZ
+MASHTNVKKVVLAYSGGLDTSIILKWLQTELGAEVVTFTADLGQGEELEPARKKAEMLGI
+KEIFIEDVREEFVRDFVFPMFRANAVYEGVYLLGTSIARPLISKHLIEIAKKTGADAIAH
+GATGKGNDQVRFELSAYALNPDIKIIAPWRDWSFKSRTDLLNFAEQHQIPVAKDKKGEAP
+FSVDANLLHSSSEGKVLEDPAQEAPEYVHMRTISPEAAPDKATIIKIGFEKGDAVSINGE
+RLSPATLLAKLNDYGRDNGIGRLDLVENRFVGMKSRGVYETPGGTILLAAHRAIESITLD
+RGAAHLKDELMPRYAELIYYGFWFSPEREMLQAAIDLSQRHVEGEVTLKLYKGNVMVIGR
+ESEKSLYSDKLVTFEDDQGAYDQKDAAGFIKLNALRLRTLGKRGR
+>tr|A0A1Q9AKI0|A0A1Q9AKI0_9RHIZ
+MFLSGFVCLAPLAAAHEENKTAAEPPAIPVTAIAATNETLARVIDGIGTVAPLQSVTVRP
+RIDGLVLDVPFSEGQIVEKGAVLLRLDDSQLRSELNSTRAKRAQDEAQLKNAQADAERYE
+MLAQKGVAAAATLDQKRASLQQYSAAVDYDDAIIKNAETQLSFATVTAPFTGRAGFRQVD
+PGSVISASASTGIVTITQMNPIGVSFVAPGDRFGEIREAMREGIATVEVSTTDGTRRLAT
+GELKIMDNAVDADNGSIHLRAEFDNAGQNLWPGLPVATRLTVERRAGVVVPDKALARSPA
+GLYAYVVKDGRVEKRAVTTAFVTDARALVTKGIATGEQVVMDGQSRIGDGARVSVSPWKG
+TPEGELPAGAPQAGVSP
+>tr|A0A1Q9AC51|A0A1Q9AC51_9RHIZ
+MATEKTLNDLFIDTLKDIYFAERQIARALPKMARAAQSEELKAAFQKHKEETEGQIERLQ
+QVFELVGKPARGKTCEAIQGIIAEGEEIIEDYKGTAAIDAGLISSAQAVEHYEIARYGTL
+KAWAQKLGMNEAVELLDATLQEESATDEALTQLAEGSANDKGQKKGQKAA
+>tr|A0A1Q9AGE8|A0A1Q9AGE8_9RHIZ
+MSTASNSRQADHPIDAGFLNRWSPRAFDSSEISAEDLLTILEAGRWAPSAFNAQPWRFVY
+ARRGTPAWDTLFPILNDFNQSWAKTASALILFVSKAVSVSPGSDEKKPSYSHSFDTGAAW
+SAIAHQAERLGFQAHGMTGIHFDKAKEILGLTDDYRVEAAAAIGRQGDKSILPEGLQARE
+TPSPRRPLSEIAFEGTFIDQ
+>tr|A0A1Q9AH94|A0A1Q9AH94_9RHIZ
+MSRLEGKVAVVTGASKGIGAAIAKALAGDGAKVVVNYATSAAGAEAVVAAIAEAGGSAIA
+VQGDVSKAAEAEALIEAGVKEFGQLDILVNNSGVYAFAAIDEITEEHYRRHFDVNVLGVL
+LATKAASKHLKEGGSVINISSVVTRIHPAHSAVYSATKGAVNAITGVLANELGPRGIRVN
+TVSPGLVVTEGTHAAGIAGSEMEAGMVAQTPLGRAGQPDDIAGVVAFLASSDARWVTGED
+IAVSGGVV
+>tr|A0A1Q9AHQ9|A0A1Q9AHQ9_9RHIZ
+MTLFSRRAVTLLLSAAALLAPLAATPAWSAETTINIGYQPIVEPSRVPQADGTYEKATKA
+KINWKKFDGGADVIAAIASGSLDIGYVGSSPLAAAASRQLPIETIALVGLISEAEALAVR
+NIAKPEDLAGKKIATPFVSTAHYSLLTALKHWNIDPKSVEILNLRPPEIAAAWSRGDIDG
+AYVWDPVLSQIKKTGTVLATSADVANWGGPTFDAWIVSKSFADAHPDLVAAFVKVTGDAT
+AAYRAHPDAWSATSPEAEKIARLTGAKQDEVPALLKGYTFPTLQEQAGADLLGGGTVKAV
+AATSAFLKEQGKIPATLDDYSAYVSPRWVQDAAKLSF
+>tr|A0A1Q9AJ93|A0A1Q9AJ93_9RHIZ
+MHFKELSYANDSDRRLKRWFIRTVEGLGGRDRYARIYGRWRSEVVGQSAHVFGEMLSMVD
+IGLRVEGEWPPRDLPDTPLVIVANHPFGIGDGIAILSLAERLGRPFRVLIHNDLLKISEM
+APYALPVSFEESREALALNMRTRHEAVKLLKEGTTIVVFPAGGVATARRGFGRAEDLPWK
+IFPAKLVQAAQASVIPVYFEGQNGRLFHLVSKISLTLRLSLLIREFRRLSGKTIEARIGP
+VLPWATLAPLTDRKDLLARIYQSVFALRSPSGRRRRLGLKRRAKRAA
+>tr|A0A1Q9AEK1|A0A1Q9AEK1_9RHIZ
+MAHNGINPEQDINALRDEVARLSKIVSAQGAKAYSDTRAKAEEALEAAAPAARNAVRQVK
+AEGQAIAEVAREHPAATGSVLALTAALGLLVGYVIGAASQPQPSYTKWWR
+>tr|A0A1Q9AH17|A0A1Q9AH17_9RHIZ
+MTDIPAHMNPKRSFQALILTLHNYWADKGCAVLQPYDMEVGAGTFHPATTLRALGPKPWR
+AAYVQPSRRPTDGRYGENPNRLQHYYQYQVILKPNPSNLQELYLGSLKAIGLDPLLHDIR
+FVEDDWESPTLGAWGLGWECWCDGMEVSQFTYFQQVCGIECAPVSGELTYGLERLAMYVQ
+GVDNVYDLNFNGREGDEKISYGDVFLQAEQEYSRHNFEYANTEMLHRHFSDAEKECQALL
+AAGAPGDTDNQRLHKCVFPAYDQCIKASHVFNLLDARGVISVTERQSYILRVRTLAKACG
+EAFLLTDAGGANLERPAA
+>tr|A0A1Q9AF07|A0A1Q9AF07_9RHIZ
+MPSPLPYQAPAADARDSIAVKGLAKVYGAGADRVEALGGIDLTIPRGAFVTLFGPSGCGK
+STLLRILAGLEEKSAGAVTLFGQTPETAARAKNIAWVPQSSALLPWLTIRDNVLLSRRLN
+RRADRDPACVSRPEDADQVLRELGLAEFAHHRPAALSGGMRQRAAIARGFVQGAPLMLMD
+EPFSALDELTRDALRLRLLEVWERHRKTVVFVTHSAAEAVLLSDRVVVMTPRPGRIEAVI
+DIDLPRPRGRDAADSPAFDARVRAVKDTLRRGWEGEE
+>tr|A0A1Q9ALB8|A0A1Q9ALB8_9RHIZ
+MESPTITIRHLTADDAALFRSLRLEALEREPQAFASSHSDWSRMTEEDWRARLEAVDVFA
+AFRDGEPAGLMGLAREQGSKTRHRGLLIMVYVRASHRACGVGDRLIEAVIAQARAKGMRQ
+VELMASAENPAAIGLYRRNGFQPIGTMPAGMLHEGREIDEVIMVRRITSET
+>tr|A0A1Q9AMT0|A0A1Q9AMT0_9RHIZ
+MLRLILALLVSVAVAAPAFAGKDGLMEPKLALSGRQSGAPRVALTFDACMGAADQRILAT
+LVDNAIPATIFVTARWLKHNAATVAVLRAHPDLFQIENHGAMHVPAVDKPVSIYGIPAAG
+SPEAVMAEVKGGGDAIMALGLPAPHWFRGATAKYSTSSIAEIRSLGYTVAGFSLNGDEGS
+LLGARMAAHRIASARDGDVIIAHINQPTHAAGEGVVQGILALKARGFTFLRLDDAAETGS
+NATVN
+>tr|A0A1Q9AH48|A0A1Q9AH48_9RHIZ
+MSVLGLDHVQLAMPAGGEALARGFYAGLLGMAEEEKPEALAGRGGCWFQAGSARVHLGVE
+TEFRPARKAHPALLVDDLAALEARLAGAGVAVTRDVPLDGYDRLHVQDPFENRIELMQRL
+AR
+>tr|A0A1Q9ADN2|A0A1Q9ADN2_9RHIZ
+MFPAFLDLASLKAAYAGGLTPLDLVEEVLARIAAAADPAIFITPTPADELRAAAHDLLAR
+APEANSLPLWGVPFAVKDNIDVSGLPTTAACPAFLYHPTEDATVIARLKAAGALVIGKTN
+LDQFATGLNGTRSPYGAPRSVFDSAYVSGGSSSGSAVAVASGLASFALGTDTAGSGRVPA
+AFNNLVGIKPTPGLVPNVGVVPACRSVDVVTVFAGTVGDGVAVRKVMDGYDAADPFSRPA
+KPATLPASGLRIGVLAGAEREFYGNAAYEALYDAAIEKAKALGAEIVPFDYAPFRQAAEL
+LYNGPWVAERLAAVKDFLVSNADDFDPTVRTIISGATHYDAVAAFEGLYRLEALRQKTRA
+EWAGLDMLMLPTAPTTYTVEAMLADPIARNGHFGRYTNFANLFGYAAIAIPAGFDAEDHL
+PAGVTLFGPAFSDDALAPFADTLHRALAVGMGREKTVALPEASKVAEPEDGLVPIVVVGA
+HLTGMPLNHELTGPGGQLVKTCRTAADYRLFVLPNTTPPKPGLIRTPGFAGPGLAVEVWK
+VTPGAFGRFVQNIPAPLGIGKVTLDDNTQVSGFLCEAHAVDGAREITELGGWRAYIDTLK
+KQG
+>tr|A0A1Q9AEA6|A0A1Q9AEA6_9RHIZ
+MKIVHVTDIHLVPQPATLYGLDPCARFDAAIVSIHADHSDADLMVITGDLAHWGEVPAYQ
+ALRQRIDLLKVPVVMMVGNHDDRASLRTVFPEAMDDGNGFVQSSRIEGGHRLVFLDTKQE
+GSHAGAYCQTRLTWLAEELAQSNEPILMFMHHPPILTGISSMDAITQQDADALWQVLQPH
+SHRIRHIFLGHVHRPISGNWHGISFSLIPGLNHQVPLELSPHGEDIPGSHEPPAYSVVSI
+NADSVVVHLNYFLEESRRFPLDGYEIKGRDYALGFPAE
+>tr|A0A1Q9AEP6|A0A1Q9AEP6_9RHIZ
+MTKTDIARRVYDNAWKLDPVVRSLLDTDFYKLLMLQMIWRLYPEVDATFSLINRTRTVRL
+TEEIDEQELREQLDYARKLRFTKKEMIWLAGNTFYGRKQIFSPDFLAWLADFHLPDYELS
+RKEGQYELTFPGRWTHTSMWEIPALAIINELRSRSAMKDMGPFALDVLYARAKAKMWSKV
+ERLRQHPDLRISDFGTRRRHSFLWQRWCVEALKEGIGESFSGTSNVLLAMDTDLEALGTN
+AHELPMVAAALARDDEELKAAPYKVLQDWNRLYGGNLLIVLPDAFGTAAFLRNAPPWVAE
+WTGFRPDSAPPIEGGEKIIAWWNKMGRDPREKLLIFSDGLDVDTIIDTYRHFEGRVRMSF
+GWGTNLTNDFVGCAPTHITGLDPISIVCKVMTANGRPAVKLSDNPRKATGEPEEIARYLR
+LFGSEDFAEQALKV
+>tr|A0A1Q9AEG8|A0A1Q9AEG8_9RHIZ
+MFARCCCLAVLAGLTLALNQSVAIASHAGHGSSAEACDASAGDPRDLERNPSFAPITLGE
+IRIGEALSACREAYRERSGPRQTYQLARALYRSGAPGRALSMLREAASGGHRLSAQLLAA
+AKDDIAEIDTAFSDPLRTAAVTQSAAPASAISAR
+>tr|A0A1Q9AI22|A0A1Q9AI22_9RHIZ
+MATLLLQAAGAALGSVFGPVGSIIGRAAGAMAGSAIDRALFGQTQSMGPRLGDARLVGAE
+EGTAMPRAYGTVKLGGTLIWATRFEEETRVERQGGKGSGPRLETYRYHANFALGLCEGPI
+AAVRRVWADGRELDLTTIEMRVYLGTRSQLPDPLIEAKQGEGMAPAYRGLAYLVFEHFPL
+EAYGNRLPAIQAEVLRSVGTLESQIRAVTLIPGATEHGYDPNSVSESLGEGESRFVNRHV
+FQASSDWTASLDELQALCPKLERVALVVSWFGTDLRAGVCRILPGVETPKREGESSAWRV
+AGLTRSQAHPITGAGGSPAYGGTPSDASVIAAIADLKARGLKVVLYPFLMMDIPANNNLP
+DPYGAGAQAAFPWRGRITSAIAPGRPGTTDGTAALRGEIVRFMGAADASDFTIVDGEIRC
+SAQDEGYRRMVLHAAMLVKRAGGVEAMLIGSELVGLTVLRDSAGAFPFVEALIDLASDVR
+AVLGAGVKLTYGADWTEYFGYHPQDGSGDVLYHLDPLWASPMIDAVGIDNYMPLADWRDE
+DVAQGNPDGFRLAADRAAMTAMIAGGEGFDWYYPDAAARRERRRVPITDGGAAKPWTFRV
+KDIEAWWASAHYDRVNGQEVAAPTAWVARMKPIWFTELGCPAIDKGANQPNVFLDPKSAE
+SAAPYFSTGRRDDLTQRRFLEAHLAYWAGRPGPRAVDPAHIFLWTWDARAFPAFPQQTAL
+FADGDNWRTGHWLNGRLGAGTLPDILAVLLADHGFDAADTEAVSGDLIGYVKAEQGSART
+LIEPLMAAFCLDAVERGERLAFRSRLLCAGPPVTLDVLAEQPDEPAFIETRAHDSELSGA
+AVLDYLDPDTGYGRGTARALAPLAANSRVLALSVAGVLHAEAAAAAVEMALRDHQASGRR
+LSFALGPNVLAMEPGDCITLAPGPEGVFRIERIEDGAVRRVDTRAFVPAKPGAPERPQRR
+AASGRDAARGYAPLVVPMDLPPFEPGAPQDFARIAVFARPWRRAVLSVSPVREDFAVRQN
+LNRPATLGSLAEPLPSGVAGRLMPTTMTIDLRAGACESVVMLALLNGANRLAVQARNGAW
+EVLSFLTAEEVAAGRWQLSGLLRGLGGSTDAMAAGASAGARVIRLDAAVPPCGLTADEVG
+RPLWWVADGLGAASAAPAPFSFTGGLRASTPLAPVHLRAERQADGDVLISWIRCGRLDGD
+AWADGDIPFDEPQERYRVELLSDEGALRRTVTVTTPAFLYSQADELADWSGRQDRLRLRI
+RQVGRVVSAGLPAEAVLFP
+>tr|A0A1Q9AFH6|A0A1Q9AFH6_9RHIZ
+MRDLSAGPRVLLKRLRELMAEPLDPQERLDRIVRQIAQNMVAEVCSVYVLRSDGILELYA
+TEGLNKDAVHLAQLQMGQGLVGTIAASAQPLNLSDAQAHPAFTYLPETGEEIYHSFLGVP
+ILRTGRSLGVLVVQNRTSRVYRDDEVEALETVAMVLAEIIATGELKKITRPGLELDLSRP
+VSIEGASFGEGAGLGYVVLHEPRIVVTNLLNEDTDHELSRLAEALGSLRISIDDMLSRRD
+VSMEGEHRAVLEAYRMFAHDRGWVRKLEEAIRNGLTAEAAVERVQSETKARMMRLTDPYL
+RERMHDFDDLANRLLRQLTGYSLRPSNADFPADSIVVARAMGAAELLDYPRENIRGLVLE
+EGAVTSHVVIVARTMGIPVVGQATGAVALAENGDAVIVDGDEGRVHLRPMVDLQRAYEEK
+VRLRARRQAQFRSLRDVPPLTQDGQRIRLQMNAGLMVDLPHLAESGAEGIGLFRTELQFM
+IASTMPKMEDQEAFYRNVLKQAAGKPVTFRTLDIGGDKVVPYFRAAEEENPALGWRAIRL
+SLDRPGLLRTQLRALLRAAAGLELRLMLPMVTEVAELKAVRELLQKEVQRQSKMGEKLPR
+KLQFGAMLEVPSLLWQLDELMEEVDFVSVGSNDLFQFTMAVDRGNARVADRFDVLGKPFL
+RMLREIVRAGERNGTSVTLCGEMASKPLSAMALLGIGFRSVSMSPTAVGPIKAMLLALDA
+GKLAATLNPLLDDRQSSLSPRQMLIDFAEAHSIPL
+>tr|A0A1Q9ADX2|A0A1Q9ADX2_9RHIZ
+MLEAGKLYIGTSRTPDDKPAKGEYLDLRLANRHGLITGATGTGKTVTLQVLAEGFSQAGV
+PVFCADIKGDLSGIAAKGEPKDFLLKRAGEIGLDPYEFEAFPAIFWDLYGEKGHRIRATV
+SEMGPLLLARLMDASEAQEGVLAIAFKIADEGGLPLLDLKDLQALLTYMSEHASELSARY
+GLISKASLGSIQRALLVLEGQGADQFFGEPALAIADLMRVDARGRGLVSVLAADRLMMNP
+RLYGTFLLWLLSELFEELPEIGDPEKPRLVFFFDEAHLLFKDAPRVLLERVEQVVRLIRS
+KGVGVYFVTQNPLDVPETVLAQLGNRVQHALRAYTPREQKAVKTAAETFRPNPDFDCAEV
+ITTLGTGEALVSTLEGKGAPSMVQRTLIRPPSGRVGPISEEERRALLSSSGMGPLYDRDV
+DRESAYEILTERAARAQEQVQAEKAAREAEAAPPKSRWTLPGFGDRQEEETPAQKPRRAG
+YQRETVAEAAMKSIARSVASSLGQALVRGILGSLKR
+>tr|A0A1Q9ADT3|A0A1Q9ADT3_9RHIZ
+MADYNQIWNIWNSDYCFLITANGFKWLWLEILIALIPEKFFLDFWYLRFLKRPHNNAPPK
+RL
+>tr|A0A1Q9AFM2|A0A1Q9AFM2_9RHIZ
+MTRQEEKARLRAERLALRDAMGAEERVAANAALFAHGLEAIDFAPGTILSGFWPIRSEAD
+IRPLLEALRQRGGRIALPVVLDRETIVFRELLADAPVVKTGFGSYGPGPEAPEVAPEILL
+LPLSAFDARGHRIGYGGGYYDRATARLVAEGLSVTLIGVAFDIQEVASVPFEAHDRPMDA
+VLTEGGLRWFRQAKMDG
+>tr|A0A1Q9AKG8|A0A1Q9AKG8_9RHIZ
+MIEYVTSLAADVPYRGLTTFAGRGFALDQFALSHGFHSFAEWAASEFAKGHSISGIVKSV
+DDLEPRAPPEPGMCATTFGYEVSIFTVAMTDKF
+>tr|A0A1Q9ANL1|A0A1Q9ANL1_9RHIZ
+MAAVQETIDQVRLIDVDQYKYGFESAIEMDKAPKGLSEEIIRFISAKKQEPDWMLEWRLD
+AYKRWLTMEEPSWARVDYPKIDFNDLHYYAAPKSQSGPKSIDEVDPEILKIYEKLGIPLR
+EQEILAGVKTSKIAVDAVFDSVSVVTTFKEELKKAGVIFMSISEAIREYPDLVRQYLGSV
+VPTTDNYYATLNSAVFTDGSFVFVPKGVRCPMELSTYFRINEKNTGQFERTLIIAEEGAY
+VSYLEGCTAPQRDENQLHAAVVELVALDDAEIKYSTVQNWYPGDKEGKGGIYNFVTKRGD
+CRGHRSKISWTQVETGSAITWKYPSCILRGDDSRGEFYSIAVSNGHQQIDSGTKMIHLGK
+NTSSRIISKGIAAGVSQNTYRGQVSAHRKATNARNFTQCDSLLIGDRCGAHTVPYIEAKN
+ATAQFEHEATTSKISEDQLFYCLQRGIPEEAAIALIVNGFVKEVIQELPMEFAVEAQKLI
+GISLEGSVG
+>tr|A0A1Q9AGM5|A0A1Q9AGM5_9RHIZ
+MASAPLYINDRITIAGWELTEQFVLAGGPGGQNVNKVSTAVQLFYALATSPALPERVREA
+AIRLAGRRLSKEGVLMIEASRFRSQERNREDARERLKDLILKAAEPPPPPRRKTRPTRGS
+VERRLKEKSGRSDVKRMRGRPEGD
+>tr|A0A1Q9AHP1|A0A1Q9AHP1_9RHIZ
+MRGLPVVPKNKATITDVARAAGVSTATAGRVLGGYGHTSEDKKEQVLKAAQSLGYRPNAL
+ARSLITGKTRTLGVVAGDIQSPFYASVLRGISNVAEANGFGLLITNSDEAQSKEVRSVEL
+LAQKQVDGLIVTPSDTRKARHLHNLRAMGVPLVLIDRAVAGLMVDRVATDNIAAAEHAVR
+HLIAAGHRRIGIVAELVDEDGGGLAAFLNRAIAGDPIETETLYPSWQRLLGYVRAHRIEG
+LSVDPRLTLRAGSYSAQAAQAVVPSLMAAAEAPTALFTTDGTMSEGAMRALNELQISIPG
+DVSIICFDDLDWMSFHRPGITTISQPRLAMGEAAARMLLERIRGEEYPPRTVLMPAELIE
+RGSVARL
+>tr|A0A1Q9AJK8|A0A1Q9AJK8_9RHIZ
+MVRHVESIAFTASSAPEAQESLAELTALYGNVPMDQADVIVALGGDGFMLQTLHHSMVAG
+KLVYGMNRGSVGFLMNRYMSDNLYERLGEAVENAFHPLEMQTVDTEGNRFRALAINEVYL
+FRQSYQAAKLRVVVDGRVRLEELICDGILLSTPAGSTAYNLSAHGPILPLEAPLLALTPV
+SPFRPRRWRGALLPNRVTVDISILEGEKRPVNAVADHTEVKSVLKVRIAQAEGVTARLLS
+DPDYSWSDRILAEQFTN
+>tr|A0A1Q9ANS4|A0A1Q9ANS4_9RHIZ
+MQSSSLSQGEGNTLFPIVLSVVAAAATGVLWAYANPIQLVPGVIQWRIFAFLPPVVGILI
+GWRSGFICGYLGTIIWSLLAGTFIPAHSLIVDGIMVGLTGLVPGLLFDPAKTSFDRATLL
+RIALTCLVVGVVMVAAVSASLAYLGIFPFWWAFGYIGLSDIVPMVIGTPLLILPALKILK
+SAHPAGFKRF
+>tr|A0A1Q9ACR0|A0A1Q9ACR0_9RHIZ
+MSDRSTLCPEDRLRQFGLRPTRQRVALAELLFAKGDRHLTVEELHEEAVTSGVPVSLATV
+YNTLHQFTDAGMIRVLSVESSKTYFDTNVSDHHHFFIEGHNEVLDIPVSNISIGNLPEPP
+EGMEIAHVDVVIRLRRKDGEAPSAS
+>tr|A0A1Q9ACB8|A0A1Q9ACB8_9RHIZ
+MGGVAQSFGPFSVTRLIDGVFEAPVADLRHLGGSGPLAAFTAGVAGSTLPMDVNCFLLRS
+AEGLTLVDAGCGSAWGARYGHARAAMKEAGIDPGDIDRVLITHLHGDHALGLIEGESAYF
+PRAEIIIPARDFAFFTDEAQRAAVPAARRGGFDVAARVRRAYGDRIRLVGEGAVTEGIVL
+LPLPGHTPGQAGYRLGSGENALVIIGDALHLAEAQAADPDLGFIYDVDPVIAGDTRRRLL
+GEAAEQGWALAGGHLPGILRARATEGRFVLTAV
+>tr|A0A1Q9API9|A0A1Q9API9_9RHIZ
+MDGLSGLIARASEESGARGKGPPPVERWNPPFCGEIDMEIRADGSWWYLGTPIGRAPLVR
+LFSTVLRKDEDGVTYLVTPVEKLQIRVADAHFLAVEMHAEGSGEAQSLTFRTQVGDVVTA
+GPDHALRFTIDPGTQALKPYLHVRGRLEALLSRAVTHELMALGEEIEIDGAPVFALRSQG
+TVFPVLRMAELEASALDASGLDSRTA
+>tr|A0A1Q9APZ0|A0A1Q9APZ0_9RHIZ
+MVVATSEATRGGWQVWAVRALGALFVALGVMLAIGGTTLAFLGGSPYYVLAGLGLIASGV
+QLLRLKREGALIYAVVFALTLFWAFWEVGLRGWALVPRIIPPALMMMLVILALPTLMPGR
+VTARRSIGGALALAAVLVVGGVGISLRNAPVAPPLLTFPMAGIFRMDDPSLRMTGRDWPA
+YGGTEAARRFSPLDQITRENVGSLKRVWTAHTGDMPANPANSKYGAETTPLKIGDTLYLC
+SAKNILIALDAANGKERWRHDPGVSDAWIPYTAACRGVAFYEKPGTTYGEVCGRRIIEGT
+LDGRLIAVDANNGKPCADFGEGGEVDIKKGMGAVFPGMVSITSAPTIVRGVVVTGHQVLD
+GQERSAPAGVIQGFDAVTGALRWAWDMKQPEKTGLPPEGQTYARGTPNMWTTASGDEALG
+LVYLPMGNSAVDYWSGDRSPEEDRYATSLVAIDVTTGKPVWNFQTVHIDVWDYDLGSQAT
+LIDFPGPGGSSVPALLLPSKQGDLYVLDRRTGKPITSVQERLAPQGGVEPDRRARTQPHS
+IYHTLRKPSLSEDRMWGISPVDQMLCRIQFRMANYHGFYTPPSADKPWIEYPGYNGGSDW
+GGIAVDPSRGVIIANYNDIPNLNRLVPRAEADAKGWTPRSQARGGRSGSKAEGAGDPQAG
+APYAIDINAGWRLSGTGLSCKEPPYGGIRAIDVASGRTLWDRPFGTARRNGPFGIPSMLP
+VTIGTPNNGGAIITAGGILFIAAATDDLIRAIDLRTGETLWQDTLPAGGQATPITYEMGG
+RQYLVIMAGGHHFMETPIGDAVIAYALPER
+>tr|A0A1Q9AF85|A0A1Q9AF85_9RHIZ
+MSRNRGVVYLKPGQVEVRDIDDAKLEAPDGRRIEHGVILKVVSTNICGSDQHMVRGRTTA
+MPGLVLGHEITGQVIEKGVDVEMLEIGDIVSVPFNVACGRCRCCKSQDTGVCLTVNPARA
+GGAYGYVDMGGWIGGQARYVTVPYADFNLLKFPDRDQAMAKIRDLTMLSDILPTGFHGAV
+KAGVGVGSTVYVAGAGPVGLAAAASARILGAAVVMIGDFNKDRLDHAAKVGFEPVDLSKS
+DRLGDMIAQVVGTNEVDSAIDAVGFEARGHAGGEQPAIVLNQMMEITRAAGSIGIPGLYV
+TEDPGAVDNAAKQGSLSLRFGLGWAKAQSFHTGQTPVLKYNRQLMQAILHDRLPIADIVN
+AKIIPLDEAAKGYESFDQGAATKFVLDPHGELAKVA
+>tr|A0A1Q9AE24|A0A1Q9AE24_9RHIZ
+MRTPRWAIFAYIAITLFGIIAVIPNFLTAEQQQRYHAFLPVKPVTLGLDLKGGSHLVLEV
+DAAGLRRARLNTLLDDIRNLLRTERLSTAAARLTGDTVTVTLDDPAALARIQPKIQALAA
+PVGTLGFGTSSSDIAVTTNGNTITVGLTEAGLQERMTAAVDQSLEIIRRRVDQVGVAEPL
+IQRVGSDRILVQLPGLQDPTRLRQLLGSTAQMSFHMVDQSVDPNAPNPPRGVEILPGAND
+QNKYAVESRVAISGERLADAKAGFNPQTNEPIVSFSFDSQGARQFAEITREAVGKPFAIV
+LDGKVLTAPVIREPIVGGQGQISGNFTAQEATVLSALLRSGALPAPLTIIEERSVGPNLG
+SDSIRMGIYTGLAGFAAVCLMMLALYTSWGVIANLGLLLHTILTVAVLAMLGSTLTLPGI
+AGIILGIGMAVDANILINARIREETANGAGAMKALDVGFNKAYATIVDGNVTTLVGTLLL
+FLFGTGPVRGFAVTMMIGIVISMFTSITVVRLMMQQMVVRRKMKKIEIHSIFGKVPSMRS
+FSFMRGRYLAIGMSAFLSISSVILFFKPGLNYGIDFVGGIQVEATSQQALNMASVREKLE
+SLNLGEVALQDFDQGKSVLIRVQRQPGGEAEQTVALNAIKDAVAQAIPGAAFERTEVVGP
+TISTELARSGFMAVGLAMLAILCYIWWRFEWHFAIGAIVTLILDITKMIGFFALTQIDFN
+LTAIAAVLTLIGYSVNDKVVVYDRMRENLRKYKTMPFSELIDLSINQVVMRCIFTSVAIL
+ASLLPMAIWGGDPVKPFAWPMVFGVIVATTSSIYIGGPILLFLSRWWKDRETSRVGGAEA
+ATKS
+>tr|A0A1Q9AI86|A0A1Q9AI86_9RHIZ
+MSGMWRKTAIVAAAQLLLGAISAHATNIAWVHANAAAQSEQRVKAGFDAWLKSSGKDWNV
+SVLDSGGSGERTASNLQDAASRGVDAIIITMADLRASRAALDAAVAAKIPIVTVDSGYVP
+GVLADITTNNWAMSADVSPYLLNELGGKGNIIFLRMAEHHGTRKRGDVMATILKEYPDIK
+VLAEHNIKYTAFFEDTTSTMQDYASRFGDQINAVWAPWDEPAQASINALKAAGLSNVKVI
+GIDGHPSAIAEVCKPDGMMIATVSQPFEKMGAQAGEWIEDIVVKKEDPAKVIPSKTVYLD
+APLVTKQNCKDFLPK
+>tr|A0A1Q9ACC8|A0A1Q9ACC8_9RHIZ
+MAAPGENMRVNSDRLWDALMDMARIGPGIAGGNNRQTLTDADAEGRSLFQSWCEAAGLTM
+GVDKMGTMFATRAGEDPDALPVYVGSHLDTQPTGGKFDGVLGVLAALEVVRTMNDLNIRT
+KHPVVVTNWANEEGARFAPAMLASGVFAGVHTLDYAYSRKDPEGKTYGDELQRIGWLGEE
+EVGARKMHAYLEYHIEQGPILEAENKTIGVVTHCQGLWWLEFTLTGREAHTGSTPMTMRV
+NAGLALSRIVEMVQTVAMESQPDAVGGVGQVFFSPNSRNVLPGKVVFTVDIRSPDLAKLN
+AMRARIEAEAAEICSAIGVGCSVEAVGHFDPVTFDPGLVDTVRRSAEKLGLSHRDIISGA
+GHDACWAAKVAPATMIMCPCVGGLSHNEAEEISKDWASAGCDVLFHAVVETAGLVE
+>tr|A0A1Q9AIF3|A0A1Q9AIF3_9RHIZ
+MTRLSLSDFHVSIGRRHVVDTIGFDLKGGSIMAVLGPNGAGKSTFMKGLCGLRRARGTVR
+LDDVDLQALSAAERASLIGYVAQDTTHLSVRLTVFELLMLAQNGDRRAWKAAPESTRRAE
+EMLALLGLERFAGTMPSVLSGGERQMIALALALVRRPKLLLLDEPTSALDLANQLHMLEV
+VQDYTRRNAIITIAVLHDLNLATRYADACLLLARGRQVATGVTKEILSAAQIADLYRVEC
+RSVDVDQGRFSAIYPISVLSDGVGHR
+>tr|A0A1Q9AJV8|A0A1Q9AJV8_9RHIZ
+MTRLFSSTILALSILAPLAMPAAATEIGQTIGNPCPFGDCGAQIALAYAGEFVIPTGTVI
+DGVELGGLSGLDFDPATGHFIAISDDRSEKAPARYYELAIDADSAGIHDVTVLKRVTLQD
+KDGKPFAPKMVDPEAIRFSKAGIAWTSEGDAKQLLPPFVREMNADGSFRREFVLPVGFAP
+LADKSAGIRDNLAFEGLTFLSSGDLVVGTEETLNQDGPIADLLHGGLSRLIRYDADSGAP
+KAEYAYTIAPIPQAPSEEKGWKDNGLSEILALDDHRLLAVERGFAKGFGFNIKVYMIDLS
+GATDISGIASLAKAETPVIPVRRSLVMDMRAFGLTPDNIEGMTLARGKDGSDLLIFVSDN
+NFSPEQKTQFYAFKVLKKP
+>tr|A0A1Q9AH40|A0A1Q9AH40_9RHIZ
+MKVLLIGSGGREHALAWKIAQSPRLTELFAAPGNPGIAEEATLVALDIEDHAAVCAFSVE
+RGIDLVVIGPEAPLVSGLSDALRAAGFAVFGPSKAAAALEGSKGFTKDLCARYSIPTGAY
+RRFTEAEPAKAYVREQGAPIVVKADGLAAGKGVTVAMTLDEALAAIDDCFSGSFGAAGAE
+VVVEAYLDGEEASFFCLCDGKTALPLASAQDHKRVGDGDTGPNTGGMGAYSPAPVMTEAM
+TQATMERIIAPTIAGMAESGMPFTGVLFAGLMITDKGPELIEYNVRFGDPETQVLMMRLK
+SDLLPLLHAAATGTLEGLSAEWRPEPALTVVMASKGYPGSFERNTPIAALAREDASAKVF
+HAGTAMKDGQLVATGGRVLNVTAMGRSVRAAHDTAYAAIDRIVWDNGFCRRDIGWRAIAR
+EEG
+>tr|A0A1Q9APH1|A0A1Q9APH1_9RHIZ
+MKVGIIGLGFRLGYLGYVFKTLNEDFDIVGYCDPAPAGLPGLQEKGISAGKAYATPQDLI
+AGEKLDLLMIGSPNHFHLDHIRLGLEAGLKVFCEKPIVTTIADSIELARLMAKFGHERLM
+VGLVLRYSPLYKDLLAAQAKGTLGNVVSIEAAEHIYPYHGAFFMRDWRRYEKYAGSFMLE
+KCCHDLDLYNGVVGARPERVASFGGRRTFIPQNDPRLSGVNDMSMFHSKPSGWMGTDKVF
+DSDADIIDYQVAIVEYANGVGMNFHTNLNVPDQFRRFAIMGTRATAEGDFVRGYLDVTEV
+LSNEKVIATKYEATELSQHYGADEQMAADIMEHVRGGVHLPVSTLNALEAGILALSMDEA
+RIKKTVVDLRPIWDRFDEALHAAKAA
+>tr|A0A1Q9AIZ2|A0A1Q9AIZ2_9RHIZ
+MIRHSPRTRSRLILGLLASACLLSGCMTSKDSADKAADALYEAAQEEAAAKGPAKGAASA
+QAADAVVQPALAHPQAASAQPAVLAPQPATAATTATAAETPAPLNSPDGSGVVMQGTAVN
+AMAGSIFSSRQPGQGGAPRSLFEAPASPAAYPQTASPVAPAPAEPQAAMPESSIAPAPEA
+ARPGDSLIGLFAKSAKPGVAKAGAKAVVPQAGATPQQVAALSYHPLPGIRARSMFATVDD
+TDPEHDDNSPRITQASLPGLARLAARGFWLEQPQVDSSCFRPDLKAILKSVETRFGRKVL
+VTSGHRTPVHNARVGGAPKSRHLTCEAADIQVAGVDKLQLAGYLRSLPNVGGVGTYCHTQ
+SVHVDTGKRRDWNWGCAPRNV
+>tr|A0A1Q9ADS6|A0A1Q9ADS6_9RHIZ
+MRSAVHDRFGDPQDVLGLHESPQPVPGTGEVLVRMHLSPIHNHDLWTVRGSYGIKPPLPA
+IGGSEAVGVVEAVGPEADASLIGRRVAAAGLRGSWAEYFVAPARALVPLPDAISDEAGAQ
+LIAMPFSALSLLEFLEVQPGDWIVQNTANGAVGKVLAMVAAARGIHTVNLVRRDEGVAEL
+ESLGIANAVSTAGESWKDKVRALTGEAGARAGVDSIGGKASGDIAELLGDNGLFVSFGSM
+TGEPMQISSGPVIFKQLTIKGFWGSKVSAAMAPEDRARLMGELIRLVVAGQIILPVDSVF
+PLEAIGDAVRASLAPGKGGKVLLRP
+>tr|A0A1Q9AH11|A0A1Q9AH11_9RHIZ
+MVNTIVPIHVGGLDLSFTNASLFMVATLALAVGFLVLTTASRAVVPGRLQSVSELSYEFI
+ASMLREGAGSHGMKFFPMVFSLFMFILTANLLGMVPYFFTVTSQIIVTFALALFVIGTVL
+VYGFYKHGLHFLNVFVPSGVPGVLLPLVIAIEVISFLSRPISLSVRLFANMLAGHITLKV
+FAGFVATLSTLGALGIGGAILPLIMTVALTGLEFLVAFLQAYVFAVLTCMYLNDAVHPGG
+H
+>tr|A0A1Q9AEA2|A0A1Q9AEA2_9RHIZ
+METEELRKGIRKFFRETFHEDEAGLRRAVGGFKWGVYAFYDYDGEPIYVGQTKEKLSGRV
+GRHLTNQRTDAVAMSVLDPFEVAEIEVWPLPEFQGVGSKHPKYKEANDHLNALEHMIFTR
+LRQQSRFKVILNEKDPPAPKVEIEEPASFRGTILNEQIRDLRGHPDIRLARRALTVSKLA
+QVISERELKGLGLRRVLLAQASRMRWLAEQRFFALGGEAGVEEGHEDEETGETDE
+>tr|A0A1Q9ALF0|A0A1Q9ALF0_9RHIZ
+MKTLSADRRMIKIAMAAPYLERQEEQELAQAWKDNNDQNARNKIAMAHMRLVISMAAKFR
+HFGLPMSDLVQEGHIGLLEAAARFEPSRDVRFSTYATWWIRASMQDYVLRNWSIVRGGTS
+SAQKALFFNLRRLRAKLAQGDRQLTARAVHEEIAAALGVSLADVQTMDARLSSSDTSLQA
+PISAGDADGGERLDLLACAAPLPDEQVSDMIDQERRRTWLGHALKQLNEREMKIIRARRL
+TDESATLEELGVDLGISKERVRQIETRAMEKLKAALVAQAPMTALTSM
+>tr|A0A1Q9ACE8|A0A1Q9ACE8_9RHIZ
+MSLPDILPEPELVIFDCDGVLVDSEPLSVDVLVRMLRAAGLDISADEAMERFLGRSLKTT
+TEIIRADYGLEVDDTMLETMRRDLYQRFQDELQAVAGVAVAVDKLKELGVATCVASSSQM
+ERIRHSLEVTELLHRFEPHIFSATMVEHGKPAPDLFLHAAKAMGVHPEACMVVEDSPAGV
+EAAKKAGMRVFAFTGASHARHDRHIAALRALEPDGLFDDMRELIHFVRREQKVAQAN
+>tr|A0A1Q9AHF8|A0A1Q9AHF8_9RHIZ
+MKILPLALSALFVATSFQPSFAFTPVPTPAPAAATAPVDLVQYREDWRRDRDWRRHHRGW
+DRRADGYRRGNGYYYNGHRGYRERRPGYRYHNGLWFPLAAFATGAIIGGATAAPRAAYGN
+SHVQWCMNRYRSYRASDNTYQPNNGPRRQCVSP
+>tr|A0A1Q9AJE8|A0A1Q9AJE8_9RHIZ
+MCKACGGPHEHPAKDPAETAPRTKPTPRFSRNWRGPFRRTPGRLAGLGLIRLYQLTLSGF
+VGHGCRHIPTCSEYGYEAIARHGLWRGGWMALFRVARCGPGGTTGLDPVPERLAPRLGWW
+APWRLWQLGKH
+>tr|A0A1Q9AMU1|A0A1Q9AMU1_9RHIZ
+MSASGLPFDDFRALLRSLPGPDGAALSAARARDKELTKPPGSLGRLEEIAFWLAAWTGRA
+PAVTRPLVAIFAGNHGVARQGITPYPPEVTAQMVENFAAGGAAINQICVAYDLGLKIFDL
+ALDYPTGDISEEAALSERDCAATMAFGMEALAGGTDLLCIGEMGIGNTTIAAAINLALYG
+GSAADWVGPGTGSTGELLARKTAAVEKAVALHRDHLSDPLEVLRRLGGREVAAMAGAILA
+ARVQKVPVIIDGYVATAAAAILHAANPAALDHCLIGHVSAEPGHLAAIQKLGKTPLLALG
+MRLGEGSGAAIAAGIVKAAAACHSGMATFPQAGVSNAEV
+>tr|A0A1Q9AF25|A0A1Q9AF25_9RHIZ
+MVDGYNLALEKGTGIATYARNLSSQLTKMGHKVDLLYGLRRGVGKDKLLAEVNFFDPSTK
+PLKVHEVVRALSNSWIRPVPAREVPITGKVIARTAQGSIPDNDRIFNAKNLYRYSQWHFR
+VFGNFMTTQYEQPAAVAHWTYPLPIKLKGAANIYTIHDLVPLRLPYATLDDKREFLKTVQ
+TIAKKADHIVTVSEVSKRDIIDLLGVDESRVTNTYQAVSLPAAILNRGHDEVATEVSAIF
+GLENKKYFLFFGAIEPKKNVGRIIEAYLASQVRYPLVVVGQLVWKDAKELRLLGVPSTPP
+GRRASRDEPPPDPTLTHISRSSQVVRLDYLPLSLLASVIRCARAVVFPSLYEGFGLPILE
+AMQLGTAVITGREGANPEVAGESAYLVDPYNVGAIAQSLRDMQNDDAMVAHYEALGTQQA
+QLFSPERYEMRLAELYGKLV
+>tr|A0A1Q9AIK0|A0A1Q9AIK0_9RHIZ
+MMFRPFSSHRHRRGAKALAAGILLLLAAAGQAPVHAEGMTAVIPKATIYPGATIEPGQLE
+VVDVTNPNLTGDFAQTAAEVVGKVTTRTLLAGRVILISGLRAPYAVERGKAVRLVFNNGP
+LTITAGGSPLESAAIGDLIRVRNTDSGIVVSGTVMADGTVQVVAK
+>tr|A0A1Q9AFM9|A0A1Q9AFM9_9RHIZ
+MAASLGGLALAIALSVSPGRAEAQGTGRAGNNPPAATPGLPQGERIDVGGFKLNSVHVPR
+PKGADLPPLVFIHGASTSLLDPYGAFRVPLDGRAEMLFVDRPGLGFSDAGGPRNRFPDGQ
+ADAIATLMQKRGIRRAIIVSHSFGGAIAATFALRHKEMVAGLVFLSPATHPWPGGIEWYY
+SVAKSPVIGPLFTALVVPPVGLLSIDKATRAVFAPNPRPDDYVEKTRARLALRPGAFRNN
+ATDIANLLGYVREVAPRYREITAPTVIITGDRDGVVLPEIHSVGLHKAISGSRLIRIHNL
+GHKPDYVVTDVAIAAIETVAGRHPDLDGIARRAERRIAKDDAK
+>tr|A0A1Q9AC80|A0A1Q9AC80_9RHIZ
+MIVVITDEAEADLEHIGDHIAANNPRRAETFVQELTERCLRLAEMPRAYPLVPRYEQTGF
+RRRPYGDYVIFYRIGTETIDVLHVVHGAQDYEAILFPVA
+>tr|A0A1Q9AET8|A0A1Q9AET8_9RHIZ
+MTAAEKDAALSAVLRALTQHHRAACPDYARILDLLGTGENGMTHLADVPFLPVRLFKAFD
+LLSVPRDEVFKTMTSSGTSGQSVSRIYLDRETAALQGKVLARLMGDLLGPKRLPMLVIDS
+PAVLRDRNAFSARGAGILGFSLFGKDVTYALDDEMRLNLPAIEAFLARHAGERIFLFGFT
+FMIWQHFHRALEASGIRLPIDNGILLHGGGWKKLQDEAVDNAEFRAALGRSTGISRVVNY
+YGMVEQTGSIFLECEHGHLHAPIQAEVIIRDPLTFRCMEVGETGLIEVLSLLPRSYPGHA
+LLTEDLGRIEGVDDCPCGRHGTYFSVAGRIAKAEVRGCSDTYEARS
+>tr|A0A1Q9ADU4|A0A1Q9ADU4_9RHIZ
+MPKIGMEPIRRQALTDAALRAIADHGSLGVTMSQIARQAGVSPALAHHYFGSKDELLVAT
+MRMLLERLRADTVARLRRAESPRARLSTLIAVSFQADQFQPETVAAWLAFYGEAQRSAPL
+RRLLIVYARRLRSNLIDALVALTSRDDAARIAEGAAAMIDGLYLRQALEAVPLGPEACAA
+LVEDHVARQLAGPRTETAASGPANRDQGTQDPVLQDEDNRSGRNAR
+>tr|A0A1Q9ALR2|A0A1Q9ALR2_9RHIZ
+MTAGKTGKQDREARHSGIRILRERLRALYLGTGRGALRFQLAIAVVDLAIILFFLAGPYL
+TARNTYLAVDYTVAGVIALELVARGLVAQKPLRWLMRPMTLVDIAILATLLFPAMFSNFA
+FLRALRIWSLSQSRMFGILVARLGGRAYEDIIRAVINFVTFLFLVTGFVYTAFFYQDSGI
+NGFVDALYFTVATITTTGFGDITLPGTLGKLTSIVTMIFGISLFVRLAQAIVRPYKVTFP
+CPQCGLMRHDADAVHCKACGQVLNIPDEGS
+>tr|A0A1Q9AFU6|A0A1Q9AFU6_9RHIZ
+MPREIGLADVPALVGTEVGLSDWITVSQEMIDRFAEATNDHQFIHTDPERARAETPFGGT
+IAHGFLSLSLLSAMNYDCLPRVREQTMGINYGFDTVRFAAPVKSGARVRGRFTMAQARFR
+GASMLMITYDVTVEIENERKPALTALWQTIIQFDPKDRPEGV
+>tr|A0A1Q9AQ66|A0A1Q9AQ66_9RHIZ
+MEVRQLRYFVAVATERNFSRAAKLLHIAQPPLSRQIQQLEEELAVILIDRTKRPLTLTQA
+GGFFLEQASQILRRLEHVRDQTQRIGKSQRERFVIGCVGSTLYGGIPDLVRRMRQHWPDL
+DIEIREMMSTEQIVALKERHIDIGFGRVRFNDKEVERLTLRDERLVVALPLGHPRAGETE
+PMALRDLAGETLIVYPSMPRPSFADEVLNLFEEIRVRLQGIEEVREIQTALGMVAAGAGI
+CIIPAASQRQRPDDVVYRMVADENATSPIIMSYRRDDVRGRTEAIKQLIREMYADNPPWL
+QLSSVRLDKDDT
+>tr|A0A1Q9AH71|A0A1Q9AH71_9RHIZ
+MTQKMKAAVVRQFGAPLAIEEWDVPTPGPGQVLIRYRATGVCHTDLHAAEGDWPVKPNPP
+FIPGHEGVGEVAAVGAGVRHLKEGDRVGVPWLHTACGCCSPCRTGWETLCPEQKNTGYSV
+NGSFAEYGLADPDYCGRLPDNLDFGPAAPVLCAGVTVYKGLKETEVRPGEWVVISGIGGL
+GHMAVQYAKAMGMHVVAADIFDDKLALASKLGADVTVNGRAEDAVEAVRKATGGGVHGAL
+VTAVSPKAMEQAYGFLRAKGTMALVGLPPGFISLPVFDTVLKRITVRGSIVGTRQDLEEA
+LTFAGEGKVAAHFSWDRLDNINGIFDRMRQGGIDGRVVVDLAA
+>tr|A0A1Q9AKH9|A0A1Q9AKH9_9RHIZ
+MIPSIRALSFTFAALAALQPGGAHSEIQPRSVKTDERIRTVPFQRDNIVYLAGMLGVSTM
+IVFNEDERIATVAMGDTVGWQAVPDQSKRFLFIKPLEPNAVTNMNVVTTKRVYTFMLTGA
+RPGNTRTAVIKLRFSYPEDAGNAALLAAAKEQAATPNIKAALAGPAGLNVDYGFKGAVDH
+RPTAVFDDGNKTFFQISGELPAIFAVKSNGNETLVNFRREGEYIVVDEVSRQWTLRNGDI
+TTCVFNMKKMVQKPVVIVGAPGHGASHER
+>tr|A0A1Q9AFG6|A0A1Q9AFG6_9RHIZ
+MDGEARYEYREQGDGDWAVIDRLTGLPAATNGRDLSGLALEDARDIADVLNRSVTDGQRS
+PLL
+>tr|A0A1Q9AQ29|A0A1Q9AQ29_9RHIZ
+MLMRDEVPRIPVTARLRARAGRLLGDRGGAGAIEFAFIAPMLLVAYLGAFEASVGFSVSR
+KTARAAATISDLLTQSTLVSVDTLDGMPHVVRALMAPYVAANVKMKITGIAVDSSGQGQV
+RWSRDEAGGTPYAKDSSVSVPQDGSMDSSFVVRTELSVPYRMKMLDMMQGKGQAGAFSIS
+KTYYYRQRVGSGITCSDCP
+>tr|A0A1Q9AKH4|A0A1Q9AKH4_9RHIZ
+MSDARERLKEAQARIGLLAKASPDLFAGFSRVSKAATVPGRMTAAQKELVAVALAVSKGC
+EDCILYHVEAAIRHGAEEADLVEVLDVAVEMGGGPSVMYGAKALEILRALR
+>tr|A0A1Q9AIS5|A0A1Q9AIS5_9RHIZ
+MDPLISALKVSASGLDAESTRLRIVSENIANARSTGDTPGADPYRRKTISFRAEVDRVTG
+AAKVGVQRLGVDDSNFIEESDPGNPAADARGIVKMPNVNILVEMADMREANRSYEANLQT
+TRQARDLISSTIDLLKSQ
+>tr|A0A1Q9AGW7|A0A1Q9AGW7_9RHIZ
+MTTLLLEHSIFLQHLVPAGHPERPERLKALALALEHERFAPLKREEAPQANEDFVLLAHP
+ESHLRQVMSVIPEEGINSFEADTHASPASLQAALTGIGGAVAAVDAVFTGKADNAFVAAR
+PPGHHAEKEKAMGFCFFNNAAIAARHAQQVHGAERVAIVDWDVHHGNGTQDIFWDDPSVL
+FCSTHQMPLYPGTGAKDEEGQHGTIVNAPLSPHTAGDQFREAFKSRILPALENFRPDLIV
+ISAGFDAHHRDPLAQLNWVAEDYDWATGRLLDLAGKYAGNRLVSLLEGGYDLEGLAESAG
+THIFRMMRG
+>tr|A0A1Q9AJ88|A0A1Q9AJ88_9RHIZ
+MSGRRRQALGWLLTAALAVLLAFANPLADRAAGYNRDVTIGSTALYGTLRVMNSVMSVAK
+DADVTGGVGVASVTASPGQLLQPVTNTIDRMAELLFWLAILSGILSTIVLPVAKVAAVGL
+AAASALLALIAGLGRSLPEAGQRLMRGLVVLGLVGALALPLSYTLAFHAGEAMTNTAWKQ
+ATAVFDRLQTDYSDKAAEAAVVPPPAPTPEVAPPEQSLLGRIGTAIGASGAALSETVTSA
+SGVVERLSEGVISQAKVVADGVAISGDLFNASIAIAVSYLVRILVLPALILGACLYLIRL
+AFR
+>tr|A0A1Q9AK40|A0A1Q9AK40_9RHIZ
+MLDYPALAAVAAVVETGSFERAARRLSVTPSAISQRVRQLEERLGLILIERGTPCRATEK
+GAWLCRHMEHVGMLESALLKALPGLGDEAAPRPTLRLAVNADSLATWFLQAAADYAKAEH
+PLLDIALDDQEHTADWLRRGRVVAAITALGRPVQGCRRVALGALRYHATASPAFVARHFP
+DGVTPEAIAAVPALTFNAKDRLQGDWIKRAFGREIRHPTHWLPSTQGFVDGALIGLGWGM
+NPAPLVADHLARGRLVELLPGTVIDTPLDWQVNRLMAGELQPLTRAVLAAAKARLVPPEG
+>tr|A0A1Q9AMK3|A0A1Q9AMK3_9RHIZ
+MRNAESTAAPAFSTPFLLFAQYGGKAVIPIEDVCRDYFAHLTPEKLLRKASAGEIALPVV
+RMEGSQKCHKGVYLQDLADYLDARREAALKEFQQLHRS
+>tr|A0A1Q9AQ48|A0A1Q9AQ48_9RHIZ
+MNAIDYALDRQPSAAPEAPAGEDLAALRPLPRISIHAFCASDETQSAMEACGRDRRMTKV
+NLKITRGGVAAAASMFANLSTPNLIILETSTEPHSLLQELAPLAAVCDPSTKVVIIGRHN
+DIALYRELMRNGISEYLVTPVGMVEIMAAIAGIFVDPDAEPLGRTIAFIGAKGGVGSSTI
+AHNCAFDISHLFSSEVVIADLDLPYGTANINFDQDPPQGMSEAVFSPERLDEVFLDRLLT
+KCSEHLSLLAAPSMLDRAFDYPADAFSPLMDVLQRSAPVSVLDVPHAWNDWTRQVLANAD
+DLVITAAPDLANLRNAKNMVDTLRKLRPNDKPPHFILNQVGMPKRPEVAPADFAESLELE
+PAAIIPFDAALFGQAANSGRMIAETDRKSPAAETFAQLAHLLTGRVTAKKARKAGLSGVL
+DALRRR
+>tr|A0A1Q9AG63|A0A1Q9AG63_9RHIZ
+MSPRPITFLIVDDLEENLTALEALLRRDGLTVLKARSGAEALELLLVHEVALALLDVQMP
+EMNGFELAELMRGLERTRAIPIIFVTALPSDESRRFRGYETGAVDYLQKPIDSGILKSKV
+GVFFDLARQRQALAENSEQLARALAQLRAHTNNSPLAFVDFDRELTVTSWSQGAERLLGW
+TAREVVGRSFGQIGWMDDEEAGHFAKEAGRLMREAGDGRAVCEIRLSHRDGSDRITECYL
+SALGQGGSQEWARLSLSVQILDITERRRAEETQRLLMGELNHRVKNTLATVQAIASHTLR
+HVADPQDFAVTFSGRIQSLSKAHALLSATSWSGASLEELLREQLSLGSLDPTRFLAEGPA
+IQLKPQQALHLAMILHELATNAGKYGAHSVPEGQITLGWTLADERLDLVWRERGGPAMAE
+VTRKGFGTRLIQQSARAEGGDAEMQRDETGLTWRLRLILGPAGPLPAPGRLRERQEPPVS
+AAETTGAPVQAQQQQQPQSSLTVSGSTVPGVAPGPAGAQASAAPAPALGAADAGAAQTSV
+PKSTLQRAASQSDAPGGKGRILIIEDEPLVALDLAERLAEAGFDLAGSASDMASAMAIAR
+DCVADAVLLDGNLRGEAVDALAAMLTGRGIPVLFVTGYTQESLPQDFRHLPILSKPFTDR
+QLLQALAAVLPTGA
+>tr|A0A1Q9AL93|A0A1Q9AL93_9RHIZ
+MRILLVEDNRALSEGLSAILRGSGYAVDLVADGVSADAAAAAESFDLIILDLTLPEMDGL
+DVLKSLRARQNKAAVMILTARGSAEEKVRGLDLGADDYMIKPFDIGEFEARVRMLLRRQA
+GLRTSSITYGPVAFDMTSRSFSAEGAPLDIPAREVGLLEMLFMRAGKVVPKEAIMQSLAA
+FDDDLSANAIEQYVSRLRKRLSPHGLTVKTARGIGYYLVKTSEAP
+>tr|A0A1Q9AKJ8|A0A1Q9AKJ8_9RHIZ
+MRAGIPDRISGRFSFVASQIVEDDDIAGFQSWHQALPDPCFKGDAIDGAIEDEGGNDAVA
+AQTGQKGQRLPVTVRNFRDERL
+>tr|A0A1Q9ACQ3|A0A1Q9ACQ3_9RHIZ
+MVKVIASSVRKGNVLDVDGKLYVVLTAQNFHPGKGTPVTQVDMRRISDGVKVSERYRTTE
+QVERAFVEDRPHTFLYEDGEGFHFMNPESYDQLVMSSDDIGDQKAYLQEGMVCTLSTHEG
+VAIAIELPRHVTLEITETEPVTKGQTASSSYKPAMLSNGVRTLVPPHITAGTRVIIATED
+GSYVERAKD
+>tr|A0A1Q9AKK2|A0A1Q9AKK2_9RHIZ
+MSASRFLCATSVAILSACLSSVQAADALTIVSYGGQYTASQQKAQYEPFTRQSGVEIKSV
+DYNGGLAELVAQVRSGSVSWDVIDVEMQDLERGCADGLFERIDIGELPAGADGTAAREDF
+LPGSVHPCGVGSVVWSNVIAINDEAFTDSRKPQTVEDFFDLKSFPGKRGLPKRPNALLEW
+ALMADGIEPAAVYQALSTPQGLDRAFRKLDTIKEESVFWETGAQMIQLLVDGEVAMSSAY
+NGRIQRAISDDGKPLRILWDRQIWNADYYAIVRGTHDKDAANRFVRFATGTEALAAQARL
+IAYGPVRRSAEALIDPVIAARLPTAKANLRNALAFDAKWWMEHGDAVNERYAAWLAQ
+>tr|A0A1Q9AL76|A0A1Q9AL76_9RHIZ
+MIVRPNRNGFLTLFALRGSILPAIAPRLIVTTGVACLAVVFSRHHPSLFSGVGLTPFTLI
+GLTLSIFMSFRNSACFARWWESRQLWGAIVTEMRSMARQLGSLSLEERRPMLLGLLGFAH
+GLAARLRGHDEAHAIAAASGGEGYAGAPNPTDAVLRTVGLQAARLNAQGRIGDIALSLLE
+TRLGHLSAAQAGCERIATTPLPFSYSLLMHRTATIFCLLLPFALAGTLGWWSPAIVFIMS
+YTLFGLDRLGDELENPFGTDMNDLPLDALVRVIERDLLHAAELHPLPPPLEPKNFVLS
+>tr|A0A1Q9ANG5|A0A1Q9ANG5_9RHIZ
+MTPARDISGLIAIMRALRDPETGCPWDIVQTFASIKPYTIEEAYEVADAIDREDLDDLRE
+ELGDLLLQVVFHARMAEEQGAFSFGDVVEAITAKMIRRHPHVFARSAADTPESVKRQWDA
+IKQEEKAERAERRAARGLPPEPAKSHLTPVKAHGPALIEALELQKRAATVGFDWADPAPI
+LDKIEEEIGELREALAAGRQDKVADELGDLIFALVNLGRHVAADPEEALRGTNRKFRKRF
+SYIEHELSAAGETLDAASLDRMEALWQAAKQHD
+>tr|A0A1Q9ANG9|A0A1Q9ANG9_9RHIZ
+MPEVIFNGPAGRLEGRYQPSKQKNAPIAIVLHPHPQFGGTMNNQIVYQLFYMFQKRGFTT
+LRFNFRSIGRSQGEFDHGAGELSDAASALDWVQSMHPDSKSCWVAGYSFGAWIGMQLLMR
+RPEIEGFISVAPQPNTYDFSFLAPCPSSGLIINGELDKVAPEKDVNNLVEKLKAQKGILI
+THRTVPEANHFFNGQVETLMAECEDYLDRRLMGELTPEPAAKRLR
+>tr|A0A1Q9AGU4|A0A1Q9AGU4_9RHIZ
+MKSVGAEELGPFAQTVLDELAGLKLPFIMTRHGQPVAIVSPLSQVASGGEILGALKGSVL
+SYTDALSPVGEPGDWDSLS
+>tr|A0A1Q9AKM8|A0A1Q9AKM8_9RHIZ
+MRRFLSIILLSLLLLTASGCAGHKELKAPCASEEAARVSFSSAYAAPTPCGPLIRQNGVS
+VF
+>tr|A0A1Q9AMY7|A0A1Q9AMY7_9RHIZ
+MPAAFAAWWGRLKDALPRAVAAALAATIAYATSRWLLGHPQPVFTAVGAIICLAPGIASH
+VRQSVNVLLGVTLGILIGEAVLFIPGPAWEFRVGLAVFLSLAIGASFGQPAVFAIQAGVS
+AVLIQLMGPETAGLNRLLDVAIGLAVSLPFGAALYLTRKTDPES
+>tr|A0A1Q9AQC9|A0A1Q9AQC9_9RHIZ
+MRKTVLMALPLAFLMSTGAALAGPAMDMAKTRIEAIAKGDVATITKDYGKDPSLAWIGGP
+LDGSYASEKAIAEVWAKFSTAQGEQTATVGELWEAANPKGATVAANVVFAGKNKVPVLYI
+MTYRDGKLVDEIWQVNPPAK
+>tr|A0A1Q9AGE3|A0A1Q9AGE3_9RHIZ
+MAQQLLMPKATAVWLVDNTALSFDQIAQFCKLHPLEVKAIADGESAQGIKGLDPIATGQL
+SRDEIVRAEKNPAYKLKLSEPKVRVPESKRRGPRYTPVSKRQDRPNAILWLVRNHPELKD
+AQISRLVGTTKSTIEQIRDRSHWNSANLTAMDPVTLGLCSQIDLDLEVERAAKNRPLPTA
+AELGATLEAAQETEKLGFSYEREEEKEMDADAVFAKLKSLKSTHTEEEDEDY
+>tr|A0A1Q9AFK5|A0A1Q9AFK5_9RHIZ
+MPVVRGKTIDILYSADTIAERNRAIAAEIAGGNSDNLLVISVLKGSFIFAADLIRAMHEA
+GIAPEMEFITLSSYGTGTVSRGVTVLKDIDSDVAGRNVLLIDDILESGRTLRFARELMLE
+RGAASVQIAVLLDKRIKREIDFEADFVGFECPDYFVVGYGMDAAYAFRELPFVGIVTGEA
+>tr|A0A1Q9AK49|A0A1Q9AK49_9RHIZ
+MTLNGWLQILIFCGIVLALVRPLGGYMTRVFAGERTLLSPLLSPIERGLLALAGPAAREE
+QHWTAYAVSLLLFNLFGVVLLYALLRLQGLLPYNPAGMGAVGPELSFNTAVSFVTNTNWQ
+NYGGESTLSYLTQMLGLTVQNFVSAATGMAIAIGLIRGFSRASARAIGNFWTDMLRATLH
+ILLPLCIVLTLVYVALGVPQTLGPYIEATTLEGARQTIALGPVASQLAIKMLGTNGGGFF
+NANSAHPFENPDNLSNLLQMVSIFAIGAAFTNVFGRMVGNPRQGWAILSAMGILFLIGVG
+VVYAAEASGNPLLQSLHLAGGNMEGKEARFGIAMSSLFAVITTAASCGAVNGMLGSFTAL
+GGLVPLINMQLGEVIVGGVGAGFYGIVLFIIIAVFVAGLMVGRTPEYLGKKIEAKEMKMA
+VLAVLCLPLAMLVLVAISSVMPSAVASIGTAGPHGFSEILYAYTSAAANNGSAFGGLSGN
+TPWYNVTLGLGMLMGRFLVIVPALAIAGALVAKKTVPASAGTFPTDGPLFVGLLVGTIVI
+VGGLTFFPALALGPVVEHLVAVAGETF
+>tr|A0A1Q9ANV3|A0A1Q9ANV3_9RHIZ
+MESGPRLQAQRARAAWVFLAPTLLVLAIVAGWPLLRTIYFSLTDASLTSLDTARFVGLKN
+YLSWITLKSGRTVYTGLLADPAWWGAVVNTLRFTFLSVIIETVIGLVVALVLNANFAGRG
+LVRTAILIPWAIPTVVSAKMWAWMLNDQFGILNDLFLTLHLIDHKIAWTASPDTAMIAVL
+IVDVWKTTPFMALLILAGLQMVPKDIYEAARIDGVHPVKVFFRITLPLIRPALMVAVIFR
+MLDAMRIFDLIYVLTPNNAQTKTMSILARENLFEFDKFALGATASTMLFLIIAAMTAAYM
+VFGRVNLSGGDR
+>tr|A0A1Q9AE36|A0A1Q9AE36_9RHIZ
+MDSADPRSARHPRRPDLSRSRILDAAVAEFSQKGFAGARVDEIAAQAQIGKRMLYQYFGN
+KGQLFQAVIEKVYTDIWEAEASLDLQNLPPRDALVALVTFVWRYYIAHPEFTKLLNEENM
+LGARHFRSSKVLREGSVKSQFLTEQVLARGVADGTFRPDIDPVQLCLTKNAICYYYLMNH
+ATSSHVYGRKLMTREALEARLAFNIETILAIVLAK
+>tr|A0A1Q9AMS9|A0A1Q9AMS9_9RHIZ
+MDAYGSAASTVSEELMVSMIELASGFPVEIVARVVDRFRHGAVKGQSLVYPPSLPLLAEA
+LRDERPRAGEPGYESPRDYRRKLIEQNRVAAVVHSEAEKRAVRMKLQQFHAQRGIAE
+>tr|A0A1Q9AQB7|A0A1Q9AQB7_9RHIZ
+MTRLEILAKLGYGARGVVYLLVGGMALLAAFGAGGGNVEARSALDLILTQPFGRVWLALV
+ALGLVSFVLWRAVQAAVNPDRQPDNAKGYLIRAGLLVSAATYVSLAFYAGAHALAMPSGG
+GGGGEQGLASWLMGQPFGRWLAGIVGCCIVGAGIAQIVKGAKRGYRKYVALPPAHAEKLD
+LICAYGLFARGAVFLITGGFFLLAAVLVDPSQAGSLTDAMAWVRALPFGGALYGFAALGL
+FAFGLYSLIEARYRRIPDAGRFKLRAVGA
+>tr|A0A1Q9APN5|A0A1Q9APN5_9RHIZ
+MPATPALKPVLRVDFPADRLGHGKIRLLELIVETGSISAAGRAMDMSYRRAWLLVSALNA
+MFAQEVVSSQRGGRQGGGAALTPFGAELVARFRAMEARACEALAEDLAWLEAHRPAGPAA
+DGGRETAPAAQDAQGGKGGSQPER
+>tr|A0A1Q9AEI5|A0A1Q9AEI5_9RHIZ
+MSETRKKIYEALIDGATDGLSGQQLYDHVRKRVPKTTSKKLVRAALLALTDPDVNDKHVL
+DVIYALAIRHRLDTLQAQDGDQDDEPVATVPVLKKSKSELRGGVSGGGLEAGRRDDAG
+>tr|A0A1Q9AD21|A0A1Q9AD21_9RHIZ
+MTEIQDLDRRIGARIRIERDLRGWSLTDLAERAGVSRAMINKVERGESSPTAQLLGKLSG
+AFGLSMSTLMARAERGQGRLARRGEQPLWTDPETGYLRRQVSPRTELPLELVEIVLPPRA
+EVAMPAAAYAFQRHLIWVLEGALIFTEGSLRHELQAGDCLELGPPVDCRFENRTETPCRY
+AVTFLKMAG
+>tr|A0A1Q9AIB1|A0A1Q9AIB1_9RHIZ
+MLEVVLALVVLGLLATLGLPFVRPQSGTAALRAQAQQIAALLRAERNAAIASGTAATVLV
+DQKGGSIRSGQSSGVIVLPKAVSLRLSPANAAGIRFDPDGQSSGGQVLLQSGRETVEIEV
+SAPTALVRIKEAADARR
+>tr|A0A1Q9ANX1|A0A1Q9ANX1_9RHIZ
+MTDAQTLASRFMEALNARDFGAIATLLHEDAALDALAGVRVVGAEPFRLAVIQYLRHFDE
+SFGDIVVLHDAYGQRAAIDTTARGHYRETQDGFPPAADQSYSIPSLFVFEVEAGLIIRVS
+HYRNLRLFEAQLLR
+>tr|A0A1Q9APT7|A0A1Q9APT7_9RHIZ
+MTSSRAHHISPAVHSVHTEWSRMIFTRRLYTIIGLLILAYAFVASVQFADESNAGHFFDR
+LPHLFDFTSWLMPREWSDVWRALFDLPSVHDTGSEEYNFDVGRVYVFGSFYIPEYFQLMF
+VTLNVAMVATLISFFVAVPLSLLAAQNLSPSRPACFLARRTLEFLRAFPTIVIAGLFAAV
+LSIGPVSAIIAVSLHAIGALGKQFYEVAENIDMKAHEGVGAVGANWFERMRFAVLPQVLP
+NYLSYGLLRFEINVRSSTILGAVGAGGIGEELKLAISRGFGAKTLAMMLLLFLTVVAVDQ
+FSAWLRRRLVGDDLILQHV
+>tr|A0A1Q9AGP6|A0A1Q9AGP6_9RHIZ
+MRSPLTHDPLSRRGFLLGSGALAVAGLSGCASTPIQPVPVAVVAPPVDTSAYAMIYGAKP
+DEPYPLPPIPYQKIPGRFLRQVVQDPTGEAPGTLVVDTGGHFLYLTMEGGQAMRYGVGLG
+RAGFAWAGRGRIQYKREWPRWTPPDEMVARQPELAPYGVGTGGMEPGLKNPLGARALYIF
+QNGQDTLYRIHGSPEWWTIGKSVSSGCVRMINQDVVDLYNRVPGGTTIVVTDLSAPAQVV
+TAPSQAVFY
+>tr|A0A1Q9AQK0|A0A1Q9AQK0_9RHIZ
+MTFRMMAVIVGIALGCVTSAKAEPVQDLMNPAVFQDSFVGEKTAPVTLVVYSSPTCSHCI
+DFHERDLPKLHDTYVASGKLKIAYRPFVRNSVDAVIFMLANARGRDKFDETVSSFMTKFD
+EIAGAANAEDALREIAASMGIDRAGFDRAVADQAYLDKLNAATTEANKKFGVAGTPSFFV
+NGHQVRIEMSFNEVAKAVMKATASLE
+>tr|A0A1Q9AJT8|A0A1Q9AJT8_9RHIZ
+MKLVLFDCDGTLVDSARLIHEVMARTFEAFALPRPALEETKAIIGLTLDIAIARLMGRPH
+VDSQASAMAEHYKSIFAPVRSDGFAEPLFAGIAEMMAALRAEEHLLIGAVTGKSRRGLNV
+ISAAHGFDKTFTVSRTADDCPSKPHPAMVSECCAETGIDPRDTVVIGDAIYDMQMAKSAG
+AMAVGVAWGYASVPQLMEAGADRIVKDPQEITQLLLG
+>tr|A0A1Q9AKN4|A0A1Q9AKN4_9RHIZ
+MTAKPRYLSIQYLRAIAALMVVFHHLRDPKPWLYNPFENFSFGAYGVEIFFVISGFVIYT
+AARQEPVGEFVRRRIIRVVPLYWLATAGYIAIDAVSHGVAYQAASLETIVKSFLFIPHFH
+PLLTDQVLPYLIPGWSLNYEMFFYALFAVTAAFGAYRLGILLVLLVLLVALGALLSPLHS
+PLALTYTNPLILLFGAGLLIAYGERLGRLPKAAALLLFISAPAVLAIDWLSGSMLHLLPA
+IGLTLGFVALEHHRRLGEVRLLRLIGDASYAIYLSHFLIIRIVVVLVQHLPLSGPPQFII
+LLATGLAGSIVFGIAVHLLVEKPLIRLFNRRLLRKRQLPA
+>tr|A0A1Q9AH12|A0A1Q9AH12_9RHIZ
+MGRSITFGACVALIHSISRSPAETGLPAALTDMLTSALVMASGMIALVLSLSWLWRSSGA
+PATGRGNSS
+>tr|A0A1Q9AHG4|A0A1Q9AHG4_9RHIZ
+MWRADLDLITEAAQAAGATALGFFGANPKVRFKSEDRSPVSEADYAANDVLKEKLLVARP
+NYGWLSEETDDDPARLRCETLFVVDPIDGTRAFIAGKDVWCVSVAVVHRGRPVAGVLVAP
+ALRQLYQATAEGPALLDGAVLKAPGPAEERPLAVALPEDVLARLPEPARRLIHRVSHVPS
+LAYRLAMIADGRIDATVVKKNAHDWDLAAADLILARAGGALVDLSGQPLVYNRESVSHGM
+LLAGSLAAQRMLAATGLGQMPQLGT
+>tr|A0A1Q9AJV6|A0A1Q9AJV6_9RHIZ
+MSLKFGTSGLRGLVQDLQGAPAALYTTAFARHLLATGRIKSGDPFLIAHDFRDSSPDIAA
+TCTGALQRLGFHVVDCGALPTPALALYGQERHCASLMITGSHIPADRNGIKFYRPDGEID
+KADEAAILSTAEALRADAPIDATPGTADEQGEQEAARLFLARNKALLPAGALKGMRIGVY
+QHSTVARDLFVDILTHFGAQALPLGRSDVFLPVDTEAVSAGTIALLKEWAREFQLQAIVS
+ADGDGDRPLVADETGEPVRGDLLGLVAADFLKARVAVTPVTSNSGLEDCGLLRIRRTQVG
+SPFVIAGMQAAVAEGIGGVIGFEANGGTLTASEFVIDGTRISPLPTRDSFLPVLAILRET
+AERKGPMSALIRTYALPVALSDRVENMPVATSAALMAHLRGSQESLETFLAPVGEVGRVS
+DIDGLRVRLKDGRIIHFRPSGNAPEMRCYVEAREEAKAEALLAAGLELIRAFALAHPE
+>tr|A0A1Q9ACG6|A0A1Q9ACG6_9RHIZ
+MAGEIEQADIRALTHVLGHDEQGLFGRNTIGSIIAPRSLNIIAAIGDSTVEQMHLDSGVY
+RNRSAYNHFFIGNALAGNPVARAYNFGKSGERTDQTLARLSAALATDAGVLYISEGINSI
+AQAPYTHAVSGATVAADQVGAQAFADTLTKVDAALAKGMRVIVVLCHGAANYTAAQIKQL
+VIYNAALRRLAELRPNVWLLDAPSILHDPSTTPNSLAFRTGYMRTGEATLVHESATGAYF
+VGKLFAGVLRNILRLLPRNSVDGSNQRVNGLQLVNNPLFNATSGNAGTMGAGGSLASGTS
+ALPFEWNFRRVTGDSTTTFTVGVEPNAEGNGNDVVITYNVTTAGGGVRINQDLAGTSPNG
+DYWPPGTMLQAFGKTTVIAGATGLASVQPMIEMNGTLNGVSTTQVTHALLNDTSHGLYPS
+TEGFSMDHASEVLTVPAYSARAYLSFRALELVCATAGTGTVRVNMPQLAVRSTLIM
+>tr|A0A1Q9AFG8|A0A1Q9AFG8_9RHIZ
+MKIAFYGSSLTSAYWNGAATYYRGMIRALAGLGHWVTFYEPDVYDRQKNRDIDPPDWAQV
+VVYDGTIEALRAVAAQAAEADVVIKASGVGFEDDLLLAEVMAAARPQALRIFWDVDAPAT
+LADLAPAPDHPLRRALPDLDMVLTYGGGDPVVSAYRALGAKACMPIYNALDPETHHPVAP
+EPRFAADLGFLGNRLPDREARVEAFFLEPAARTPGARFLLGGSGWGGKPMSANVRDIGHV
+PTRDHNAFNVTPKAVLNISRASMAETGFSPATRVFEAAGAGACLITDYWEGIDLFLLPGQ
+EVLVARDGQDVADILSGLTPERAQAIGRAALARVLREHTYADRALQVDQLLTDAAVAKAA
+TAAAKAKTGLGAGERAA
+>tr|A0A1Q9AJM6|A0A1Q9AJM6_9RHIZ
+MTLDRQALGFGSAERARYASDPWRTRGRLYPEQPSLTRSDFQRDRDRIVHTTAFRRLKHK
+TQVFIAADGDHYRTRLTHTIEVAQIARALARALRIDEDLAEGVALVHDFGHTPFGHTGED
+ALHEVLKPYGGFDHNAQSLRIVTKLERRYAEFDGLNLTWESLEGLVKHNGPLVGADGQGM
+KGPVPQPITDYCAQHDLELGSFASLEAQVAAIADDIAYNTHDIDDGLRSGYLTFDMLEDI
+PFLAGLMAEVRARYPNLEPVRFTHEIMRRQITAMVEDVITVSQSRLRELRPETASDVRAA
+DRAVATFSPAMAETDRQIKRLLMTRIYRHPDVMRVRAAAADIVTDLYHAFMADPGQMEKH
+YWADQIAGMEIPAKARHVGDYLAGMTDTYAVSVHRRLFDHTPDLR
+>tr|A0A1Q9APU0|A0A1Q9APU0_9RHIZ
+MTQETIFTNATLVLEDRLIEGGTLVLRDGKIAEVNEGRVAAGEDLGGDYLLPGLVELHTD
+HLESHYSPRPGVRWSMISAIQAHDAQVVTSGITTVFDCLRMGSDEDGGFVPGEMREMADA
+LALAAREDRLRADHLIHLRCEVSSADVLEHFEAFHDVETVRLASLMDHAPGQRQFQTMDQ
+YTLYYKTKRGLSDEAFAQFVARRQAASALYAAHHREAIASECHRRGITIASHDDATLDHV
+EEAKRYGVRLAEFPTSLEAASASHAEGMSVLMGAPNIVRGKSHSGNIAARDLAERGVLDV
+LSSDYVPLSLIHAPFILADSGMDLPTAIRLVTATPARTVGLDDRGRIAPGLRADLVRVRH
+AGGMPVVRSVWRQGARVA
+>tr|A0A1Q9AGU8|A0A1Q9AGU8_9RHIZ
+MKHVEIYTDGACSGNPGPGGWGAVLRYGDVEKDMHGGEAATTNNRMELMAAITALNALKS
+PCEIDLYTDSKYVMDGISKWIHGWKKNGWKTADKKPVKNGELWQALDEAQRVHKITWHWV
+KGHAGHPENERADELARLGMAPFKKGGAALMEKAAG
+>tr|A0A1Q9ACM0|A0A1Q9ACM0_9RHIZ
+MAKVIGIDLGTTNSCVAVMDGKDAKVIENAEGARTTPSMVAFTEDGERLVGQPAKRQAVT
+NPENTLFAVKRLIGRRHDDPTVTKDKGLVPYKIVKGDNGDAWVEAGGKAQSPSQISAMIL
+QKMKETAEAYLGEKVTQAVITVPAYFNDAQRQATKDAGRIAGLEVLRIINEPTAAALAYG
+LDKKDGKTIAVYDLGGGTFDISVLEIGDGVFEVKSTNGDTFLGGEDFDMRLVEYLANEFK
+KDQGIDLKNDKLALQRLKEAAEKAKIELSSSQQTEINLPFITADASGPKHLTMKLSRAKF
+ESLVDDLVQRTIAPCKAALKDAGVSASEIDEVVLVGGMSRMPKVQEVVKQLFGKEPHKGV
+NPDEVVALGAAIQAGVLQGDVKDVLLLDVTPLSLGIETLGGVFTRLIERNTTIPTKKSQV
+FSTAEDNQNAVTIRVSQGEREMAADNKLLGQFDLVGIPPAPRGIPQIEVTFDIDANGIVQ
+VSAKDKGTGKEHQIRIQASGGLSDADIEKMVKDAEANAEADKKRRDTVEAKNQAESLIHS
+SEKSLKDYGDKVTEADRNAISDAIAALKSAVEASEPDGEDIKAKTQTLMEASMKLGQAMY
+EANQSDAAHADAARDAARDGDHVVDADYEEIKDDDRKKSA
+>tr|A0A1Q9AQJ1|A0A1Q9AQJ1_9RHIZ
+MSIANVSVQELKSALWDAANTLRGSAVDRTDWKGYILPLLFFKRISDVWDEETEEAREAY
+GEADPSMFPEVHRFVLPEGCHWKDIRQVATNVGSALQKAMQDIERANPDTLYRVFGSADW
+GNKEKFSDELLKDLVEGFTEIKLGNKAVTTDVLGDAYEYLVGRFADVTRRNKAGEFYTPR
+SVVRMMVEILDPTEGESIYDPACGTGGMLLGAIEHVIRKGGDPRTFYGKIYGQEKNLTTA
+AIARMNLVLHGIEDFEVAREDTLRNPAFTDSSTGGLATFDCVIANPPFSLKEWGRDLWET
+DPWGRALYGIPPESYGDYAFVQHMIASMASSGNSRMAVVLPQGALFRKAAEGSIREALLK
+KDMVEAVIGLAPNLFYGTQLAGCVVILRRKKAEARKNKVLIIDASSLFRKGRAQNFLDQK
+HSDQIVAWYRTFEDVEDRAKVATLDEIKKEGWTLNISRYVLPPIGQDIPALPEAVEAFKT
+ALADARAAEDHLRKVLTEGGWLQ
+>tr|A0A1Q9AFI0|A0A1Q9AFI0_9RHIZ
+MSLEDLDRIDRRILSILQGDGRITNLELAERIGLSPTATSERLRRLTKEGYVTGFSARLD
+PQKLGFGLLVFIEVMLDKTTPDVFDQFAEAVRKAPSVLECHMVAGGFDYLVKTRFADMQA
+YRNFLGQVLWTLPGVRETRTYAVMEEIKNDGPLPLD
+>tr|A0A1Q9AJC3|A0A1Q9AJC3_9RHIZ
+MADAVSLTFPDGSVRSYAAGTTGREVAESISKSLAKKAIAIALDGALVDLSDPVTDGRIE
+IVTREDDRALELIRHDAAHVMAEAVQELWPGTQVTIGPVIENGFYYDFAKNEPFTPDDLP
+KIEKRMKEIIQRNKAFTKQVWPRDKARQVFADKGEAFKVELVDAIPEGQDLKIYYQGDWF
+DLCRGPHMASTGQIGTAFKLMKVAGAYWRGDSNNPMLTRIYGTAWRTQEELDQYLNILAE
+AEKRDHRRLGREMDLFHFQEEGPGVVFWHGKGWRMFQTLVAYMRRRLAGTYQEVNAPQVL
+DKSLWETSGHWGWYRDNMFKVTVAGDETDDERVFALKPMNCPGHVQIFKHGLKSYRELPI
+RLAEFGNVHRYEPSGALHGLMRVRGFTQDDAHVFCTDEQLAEECLRINALILSVYEDFGF
+KEVVVKLSTRPEKRVGSDALWDRAEGVMMEVLKTIEAQSGGRIKTGILPGEGAFYGPKFE
+YTLKDAIGREWQCGTTQVDFNLPERFGAFYIDSNSEKTQPVMIHRAICGSMERFLGILIE
+NFAGHMPLWFAPVQVVVATITSEADAYGQEVAELLRDAGLAVETDFRNEKINYKVREHSV
+TKVPVILVCGRKEAEERSVNIRRLGSQAQTPMALDEALSTLIEEATPPDVARKRAARKAG
+>tr|A0A1Q9AC78|A0A1Q9AC78_9RHIZ
+MTLSLPEPGAPLSHYVSDKPFDPMSVEAMSQKQSEIYEASQLRLMWWKFKKHRLALASLV
+FLVAAYLMIMVVEFLAPYNLHTRNVERIYAPPQSVHLFHDGAFVGPFVYGRALTLDMDTL
+RRVYTEDRGKVEKLRFFCKGDTYRFWGLVEADRHLVCPAEGSDFFLFGSDRLGRDVLSRI
+LYGARISLTIGLLGVSMAFVLGIVIGGLAGYHGGIFDLIVQRVIEVLQSIPSIPLWMALA
+AIMPVTWSPIVIYLGITCILGLLDWTGLARAVRSKLLALREEDYVLAAQLMGARPGRIIG
+RHLVPGFLSHLIASATMSIPAMILGETALSFLGLGLRPPITSWGILLTEARSVSVIAFYP
+WLLIPTIPVILVILAFNFLGDGLRDAADPYK
+>tr|A0A1Q9AF57|A0A1Q9AF57_9RHIZ
+MTDVRKVRKAVFPVAGLGTRFLPATKAVPKEMLTVVDKPVIQYVVDEALEAGIEHLVFVT
+GRGKAVIEDYFDIQTELEQTLRERNKKAELTLLEGILPAAGTTSFTRQQAPLGLGHAVWC
+ARDIVGDEPFAVLLPDMIMKGEKGCLKGMVDLYEQSGGNVIAVEECAPELAHKYGIVGVG
+DAIGEGFKINQMVEKPAAGTAPSNFFINGRYILQPEIFKILETQERGAGNEIQLTDGMLK
+LLESQQFAGYHFRGETYDCGAKDGFIMANVAFALSRADIRGSVEAPLKALLSTL
+>tr|A0A1Q9ANZ2|A0A1Q9ANZ2_9RHIZ
+MNIFHFHFGKDGGAEKFFVHLVGALGRRGVKQTAVIRPNRIWRKDIDPHARIIESNFRNT
+TPDRLLLPIRVALMARREKPDAMLSWATRASRLMPAYRGCIKLSRLGDYPTHLGYFRNTD
+VLVCNTPGIADHVRRIGWTRGVEVISNFTDTQAVAPAARAAWNTPEQVPLVMSMGRFVRR
+KGFHTLIEAVARLPDAHLWLAGDGEERAALEALAAEKGMSGRMRFLGWQKDTRPFVAAAD
+VFVMPSTHEPLGNVILEAWAQKRPVISSRVEGPAWFMRDGENGLLVQSEDVDGFARAISA
+ALNDAGLAAGLAEGGHQTLMAQFSEEAIAGAYIDLFKRRP
+>tr|A0A1Q9ANM2|A0A1Q9ANM2_9RHIZ
+MIQRTPFANALTYAIMVIGFLLLIGPFLVVIAGASQTMQQVNAVPFRFVPGDQFLANATA
+AWTRGDLGHAMINSLIMTLMITFGKVALSACTAFAIVFFRSPLKHLFFWTVFITLMLPLE
+VRVVPTYAVAADMFTPFRLLIQFFTGIELKIEWNLLNSYAGLTLPLIATATGTFLYRQFF
+MTLPDELAEAARMDGSGPVRFFFDMLLPLSRTNILALTTIMFVYGWNQYLWPLLMVTDPS
+YQTVMMKLRMLLPPEDGGTPDWNVTLAGSLLIMLPPVLVVAVLQRWFVRGLVSSEK
+>tr|A0A1Q9AFG0|A0A1Q9AFG0_9RHIZ
+MNHFDYRDGVLYAENISVTDIARAVGTPFYCYSTATLERHFRVFSQAFEGTDALVCYAMK
+ANSNQAVLKTLAAAGAGADVVSGGELRRALAAGIPAEKIMFSGVGKTPQEMDLALEAGIY
+CFNVESEPELEVLNQRALRLGKRAHVSFRINPDVDARTHAKISTGKKENKFGIAYERARA
+IYAHAAILPGIEVTGIDMHIGSQITDLQPFADAFRLLRELVETLRADGHQIAHVDVGGGL
+GVPYKDDNNPPPPPEAYARIVKDALQGLGCRIVTEPGRLIVGNAGILVTEVLYVKDGGSK
+TFVVVDAAMNDLIRPTLYEAFHEVRPVRISAANAPRIKADIVGPVCETGDYLALDREMAM
+PKPGDLFAVGTAGAYGAVQAGTYNSRLLVPEVLVKGDQFHVIRPRRSYEELIALDSVPDW
+F
+>tr|A0A1Q9AG84|A0A1Q9AG84_9RHIZ
+MSLLRATLLAATAVITLLPAIAQAADPVGCAYPDTYRKHAAYHAHRHHHRHHIHRHHGQR
+HHARRVVVASWAPLECGLLRVTDAQGSRLVKVCHPPVF
+>tr|A0A1Q9AGG2|A0A1Q9AGG2_9RHIZ
+MSEDLMIEKLAKTREIELSLLLEAIYRASHYDFRGYSQASIIRRMDQACQHFGCSSLSML
+QHLVLHQPGVMTRLLDFLTVQVSELFRDPGYYRRLREEVLPHLRTYPSLKVWIAGCSEGE
+ELYSMAILFREEGLASRTIFYATDINPEALRKAEAGIYALDRMALFTDNHRASGGRSSLS
+DYYTAAYGAAVFDKTLRAQTVFSEHNLVADQVFAEVHLVSCRNVLIYFDRALQDRAIGLF
+DESLVRGGFLGLGLQETLAFSRHNDNFNEFAGREKIYRKRLAPRDDEGRHHVA
+>tr|A0A1Q9AHE6|A0A1Q9AHE6_9RHIZ
+MRRLALGLGITFAFPVASGHADIATFLSGINRGGENWRVVMTRSPAGSVHQVEIAFNDPL
+VTGALGDGAGLRLPDGERVALSPMEKQADATPDEERVNRKAKKGRIVAVTPVTPPKDFTA
+GSILERHSALTRPLFEGEERMVFAKARIKGQEIQIATAFYKKAPPKPDRSMSPVVASLVT
+SQKADVLATAYAPAAPDYARESPFDSILTRDESGGRFIPEISPEDHAWAATPLPAEVFGE
+AEQKCLTDAIYFESRGESAKGQAAVAQVVLNRVRNPSYPKTICGVVYQNKDWYNRCQFSF
+ACDRIPDIVWSRATWNQAHEIALAVTAGKIWLPEVGSATHYHATYVRPDWGPTMKRLTQI
+GKHIFYRTYGGGWS
+>tr|A0A1Q9AMA6|A0A1Q9AMA6_9RHIZ
+MTTETKTSKATAGLTRRSLLKTGAAAVGAVAGSGAITGFPTIWAQNPITLRQFGTGVSNI
+NAIAEKCKADLGITLEMTATDSDAAAQRAVTQPKSYDVADIEYWILKKVYASGVIQPMDV
+KKLKYFDKVVPLFITGKLKPDSVIAQGTAPHTVGFVEKPGDKKFAKEPTQWFTMMPTIYN
+ADTLGIRPDLVGRDISSWADILDPAFKGKTSILNIPSIGIMDAAMIMEASGKIKYGDKGN
+MTKAEIDKTIDFLIATKKAGQFRAFWKSFDESVNLMASGEVVIQSMWSPAVAAVRSKGIA
+CKYQPLKEGYRAWGGGLGLASHLTGAQLDAAYEYINWYTSGWVGAYLNRQGYYSACMDTA
+KAHMSPDEWGYWIEGKAAQGDILSPEGKVMEKAGAVRDGGSFEDRMGKVACWNSVMDEDR
+YMVRRWNEFIAA
+>tr|A0A1Q9ANR1|A0A1Q9ANR1_9RHIZ
+MRRLLILGSVFAALSSAPALAETPTKILNASYDISRELFVAVNKAFLPRYKAETGKNLEI
+DQSHAGSSKQARSILEGLQADVVTFNQSTDIDQLVKGGFVSADWRKSFPNEASPYYSFPA
+FLVRSGNPKNIRNWDDLVRDDVKVVFPNPKTSGNARYTYLAALAFAKQTYGDDEAKVTGF
+VKKLFDNVPVFDTGGRAATTTFAERNIGDVLITFEAETRGIAKELGTDKFTVIVPPVSLK
+ADFPVAVVDKVVDKRGSREIAKSYLSFLYTPEGQTILAENGNRVNDPKVVETFQSQFPAV
+KLLTVDEVFGGWDKVQKEQFASGGQLDKLYGQR
+>tr|A0A1Q9ANY9|A0A1Q9ANY9_9RHIZ
+MTSRHTKVLIIGSGPAGYTAAIYAARAMLQPVLIAGMEQGGQLMITTDVENYPGFGDPIQ
+GPWLMGEMLKQATHVGAEIVSDLVTGVDLSVRPFRLTTDSGTAWTADTLIIATGARAKWL
+GIETEETFKGFGVSACATCDGFFYRGKDVIVVGGGNSAVEEALYLSNLAKSVTVVHRRDG
+FRAERILQDRLFAKQNVRILWDHEIAAYQGSAPKPPMPASLTGVTLRNVKTGATTEMVVD
+GVFVAIGHAPATDLFKGQLRLKPNGYLWTAPDSTATDIAGVYAAGDVTDDQYRQAITAAG
+MGCMAALEAERYLAGHIPVAIAAE
+>tr|A0A1Q9AFM4|A0A1Q9AFM4_9RHIZ
+MFAPHTDYRHLYDGFRWDLPERFNMGVAISDAWAARAPDRVCLEHFDPAGPLRTMTYGEL
+SQASSALAKALRARGILPGDRVAILLPQGFEVAITHAAVYKLGGIALPLALLFGVEALAF
+RLKNAEARVVVTDRFGLSRLQEIRSSLPGLDCILVVGDAPPEGMLPFAALIRDAEGFSPL
+ETGPDDPALMIYTSGTTGPPKGALHGHRVLLGHLPGFAFHHAPLPQPEDKLWTPADWAWA
+GGLLNALMPALTFGIPVVSSPAQKFDPHVALRILAECRVRNAFIPPTALRLMRAVDNPRD
+RYDIRLRTVSSAGESLGRDTQEQASAALGVPVAEFYGQTECNMVLSSSAHYGVMKPGSMG
+KPAPGHRVVILDADGAVAPPGTPGQVAVESPDPVMFLGYWRNPQATAAKFAGPYMTTGDQ
+GVMDDEGYVTFFGRDDDVITSSGYRIGPAEIEDCLSGHPAVALAAVVGKPDPLRTEIVKA
+FIVLKPEVEGSEALKAELSAWVKTRLSMHEYPREVAFVDSLPLTTSGKVIRRALRESA
+>tr|A0A1Q9ACU4|A0A1Q9ACU4_9RHIZ
+MPVQRIGFYILLTLVTIAFVAILLPFYSAVFWAVVFAIVFFPLHEWVQDRTGGRRSLAAA
+ISVIICVVLVIVPGMMILSAIVQEGNQLYQRVTSGEIDPQALFEQARNALPDFLRERLTA
+LDSGAIADLGRRFSSTLMQGGGFFAGRALVLGQSTLQFFIMFGVMLYLLFFLFRDGRELT
+GTLRRAVPLSDAHSRRLGAKFTSVVRATVRGNLIIALVQGIIGGVTFWGLGIQPAFLWGA
+LMTMLSLLPAVGAAIVWLPVAIYFLLVGSYVPAVVLILVGVFVIGLVDNLLRPPLVGKET
+KLPDYMVLISTIGGISLLGMNGFVIGPLFAALFVAAWSIFSEERRRDEAEIA
+>tr|A0A1Q9AF08|A0A1Q9AF08_9RHIZ
+MRLRLSFRLSWPRRQAPPGPAARLLLAGFCALLPALVTGLVLSGGSVAQAGADTISAPIA
+LRPAGRPDLSAADRARIAAVLAPPADLARAQAFEAMPGGAATARADARHRPAANLGPEDE
+QRFHLGEALFSKLWVTAPSSTQATDGLGPLYNARSCATCHVGGGGGVALSAGPVPPSLLL
+RLARAPETPQEQAALESGMALTFDDPVYGHQLQTAAVPGLVAEGQLRLAFKTQPVTLSGG
+RVVLLRRPMVAIDGPGYGPLDPRTRPSARIAQPLVGLSLIEAIHPDDILALANDPVLKAR
+GLAGRPALLRDPQSGETVLGRFGWKAQAASLKAQAADAFSNDIGISTPLAPDSHGDCTAA
+ETACRSAPDGVQPRYGRYEASQTVLDLVTFYAGHLAPLPRPRAAMPQVLAGKALFSAMGC
+ADCHHPRFVTRRDAGDPADAFQLIWPYSDFLLHDMGADLSGGHPVGLAGAQDWRTPPLWG
+IGRRMAEPAAGAFLHDGRARTPEEAVLWHGGEGDAARKAYLAATEKDRADLLAFLESL
+>tr|A0A1Q9AL79|A0A1Q9AL79_9RHIZ
+MSDTSLTIRRFSDLANPSRFLALSARLLPWLCCLTALLFAVGLFFAVTSAGDYQQGETVR
+IMYVHVPSAWLAMMIYGVMSVSALGTLVWRHPLADVAARAAMPIGAAFTGLALVTGSLWG
+KPMWGAWWVWDARLTSFFILFLMYAGLIALNRALEDPARAARLSAILILLGFVNIPIIKF
+SVDWWNTLHQPASVLRLGGSAIDAEFLRPLLLMAAAFTCLFFCLHLAAMRNEILRRRVAV
+LRRQSARSAALNGPAA
+>tr|A0A1Q9AND4|A0A1Q9AND4_9RHIZ
+MQFAPQQDEALKAVDRWLKEGRRQLFRLFGYAGTGKTTLARHFAEQVDGDVVFCAFTGKA
+AQVLRSKGASNARTIHSLIYRPRGEEEVSDEETGKTSIAPMFSINRQSPVAKAALIIVDE
+CSMVDEALGRDLMSFGTPILVLGDPGQLPPVSGGGFFTNEEPDFLLTEIHRQARDNPIIQ
+LAMQVREGREIMYGDYGEGARVISKNEVTQALVLEADQVLVGTNRTRKRYNSRLRELKGF
+STDYPQSGDKLVCLRNDPAKGLLNGSLWQVMTSSKETVKPGINLMIRPEDDDMDRGAAKI
+KLLKAAFEESEGEIPWSTRKRYDEFDYGYALTVHKAQGSQWNNVVLFDESFAFRDSRERW
+LYTGITRAAETLTIVR
+>tr|A0A1Q9AK25|A0A1Q9AK25_9RHIZ
+MPNFTTAKCLTAACALVLIPLGAVATMTTATPTTAKSLSPAQLCEIDATSDDGLVKLDAL
+VHADSALSGSYSFRVEKSGGGGSSTINQGGQFDARAGETATLGSVSLGSGGARYKATLDV
+RIGAKTVTCAKQVGSI
+>tr|A0A1Q9AHX4|A0A1Q9AHX4_9RHIZ
+MTMIDMPKTSVFPQIQHGLIRTILVAGLAADVTWEVWARLITPLLVGGPLEPAALVQSVF
+GFDSLLLAEAIHAIVGIVFYPIGYLFIARPLQRLIFPALPLLLTGIGFGIGLWVFALYVM
+AHLIAGLPAFLGFIALTWASLFGHILFGVVVAFVVRLMER
+>tr|A0A1Q9AKE7|A0A1Q9AKE7_9RHIZ
+MRARIAGRSLGELALVYGLLAVVLIETLYPLIWVLSGSLKTKEEVIANVWGLPSGFVWQN
+YTEAWRVAGMGERILNSVIVTGTALAILVVAATPAAYAVSRLAFRGRTVVLAVVVAAMLV
+PPQVMAIPLFMTARDLGLINSRIGVALIHAASNLPLSVFILRSFFLSLPIDLEDAARVDG
+AGRFQSLWLIMLPLIRPGIALVMIFGFIEIWNDFFLAFLLLRDPALQTIPLGLVAFFQQY
+GSMWNLYFAALTITTLPVIVVFVLMQRQFIAGLTAGAVKA
+>tr|A0A1Q9AM11|A0A1Q9AM11_9RHIZ
+MVASYVSAVLLAQPLMAQTAPIPSGASLELTQEWDKIFPKSDKVDHRKVTFKNRYGITLA
+ADLYLPKEIGDQRLAALVVDGPFGSVKEQVSGRYAQIMAERGFATIAFDRSYTGESGGEP
+RNLASPEINTEDVSAAVDYIGLLPNVDQSRIGVIGICGGGGFALNAAAVDKRIKAVVALS
+MYDISRLMAQGYYDKMDLAGRTGMLEHISQQRWVDAKNGAPAPGPSFLPQTLDGVTDPVV
+RMYFDFYKTPRGFHERSLNSEGAFTGTMPLSFVNMPILTRIAEISPRPLLLIAGEKAHSR
+YFSEDAYKAAAEPKELLIVKYAIHTDLYDQDDKIPFDKIDAFFEQHLKP
+>tr|A0A1Q9AGY1|A0A1Q9AGY1_9RHIZ
+MSRSVFRFLSRQSEPVEIKDDTYLLRLPRRADYKAWYRLRSESRAFLEPWEPSWRADEMT
+EAAFRVRVLRNEQEFHCGQAVPLFLFERESETLLGGLTVGYIRRGAAQCCMIGYWMGVGH
+AGRGHMSAAVRLTIPYIFSVLQLHRIEAACIPENERSVRLLEKAGFRREGYLRDYLKING
+QWRDHLMFSLLPQDIAPNRNMSV
+>tr|A0A1Q9AJ36|A0A1Q9AJ36_9RHIZ
+MPAQPLYKRVLLKASGEALMGNQGFGIDVAVADRIASDIAEARAMGVEVGVVVGGGNIFR
+GVAVASKGGDRVTGDHMGMLATVINALALATSLRKLDVDTVVLSAIAMPEICESFSQRAT
+LHHLSLGRVVIFAGGTGNPFFTTDSAAALRAAEMGAEAIFKGTQVDGIYSADPKKDPHAT
+RFDKLTHSDVLAKGLAVMDVAAVALARENHIPIIVFSIHEKGGFTDILGGKGLYTIVSDN
+>tr|A0A1Q9AGT8|A0A1Q9AGT8_9RHIZ
+MSEIDLVIFDCDGVLVDSEIIAARVEAEILTEAGYPISAEEMATRFAGMTWHNTLLAIER
+EADIPLSAQLLTKSDEILDKRLREEVEAIAGVAAAVKQITLPKCICSNSTTERLQMMLGK
+VGLLGLFGNHIYSARDLGPDRVKPKPDIFLHGAAQMGVDPSRAIVVEDSVHGVHAARTAG
+CRVIGFTGGAHTHPSHADQLTEAGAETVIARMSALPGTIAALGEWSDALSA
+>tr|A0A1Q9ALR5|A0A1Q9ALR5_9RHIZ
+MVSETPATQKPATGTPAPKTPDELFAFLDGLGIAHKTLRHPAVFTVAESVALRDAIPGGH
+TKNLFLKDKKDNYFLLTVEENATVDLKTVHTLVGGASKFSFGKPEALMALLGVIPGSVTA
+FGVINDVEKRVTLVLDADLMAEEIVNCHPLTNEATTSIASADLLRFAEATGHRPLVLKVT
+A
+>tr|A0A1Q9AIE6|A0A1Q9AIE6_9RHIZ
+MSPSRLLSALACGLLFGAGLVISDMANPQRVLAFLDIAGAWDPSLAFVMAGALVPSSLAY
+WIKRRQARPLLDKEFHIPTSRTIDGRLVGGAVLFGLGWGLVGLCPGPAFAVLITGRWQAA
+LFVGAMLTGMLVFRLVRQSR
+>tr|A0A1Q9AN22|A0A1Q9AN22_9RHIZ
+MTPAPLAHALALLPNIVETAVLAAPRWTESRNEAAARLELCLYEEGTGKVTPIAVILPDC
+PFADRRLMTNAPVWIAALLTLLAEVWRRLEAQGQPCPLAIALPESLIDIDAAKGAWPVIR
+DTSGLVEGRWGEGFDTTTGKPGVERLDPMTGAFEPIATVLRACPFDDKRLLISAPEHIAA
+LVALVRDALRRLRALEPPPAPAPPRGRKGPADHAQLAGILCGQRIFQVFLAERHGVESAD
+ETRAANRVRSLCRVTSRAELNTNPAAAGAWRRLHDEFQLWRQGR
+>tr|A0A1Q9AQ89|A0A1Q9AQ89_9RHIZ
+MASAWPFDTADNCSDDHFLKFFDRSAAGCKQPIAGKHLLHRFRKHHTGRDYFRLRGRRIQ
+LVQSLKFAADRLDFSAPIVAFTCGGACQRRVHFEYGLKGVAEGTVANVVQETR
+>tr|A0A1Q9AEQ6|A0A1Q9AEQ6_9RHIZ
+MRAFLSFPRQRLAGLAAAALLVCGPAFFCGQAFATQDNQDPDPNFVPHLLQADHLPQVMA
+RAVDEVIRPGYRAMGASTAKLSQALGGLCAAPSPAHLAEARAAFAETVRSWAAIEFVQVG
+PVMEDARMERILFFPDRKGLGLKQVQRILAEKDQTALKPDTLRAKSVAVQGLTSLEFVLY
+GTGADSVATAEGAFRCGYGAAIATNVQRTADEIAAAWEAPDGVAKAWKQPGPDNPVYRDA
+SEAATGLLGVLVHGVENVRDQRIRPFLADGLQEGGGRPKQAIYWRSGLTMAAVSGNLNAL
+KRLFDISGAGTLLPQDKQTVAAEIDALFTRVTNAAEALNRPVEEVLSDRSARSQLDVLSL
+NVETLLDKLNKDFGGAIGLTAGFSFADGD
+>tr|A0A1Q9APL9|A0A1Q9APL9_9RHIZ
+MTDTPVRVRIAPSPTGEPHVGTAYIALFNWLFARKNNGTFILRIEDTDATRSTPEFEEKV
+LDALKWCGLTWAEGPDVGGPYGPYRQSDRKDMYQPYAQELLDKGHAFRCFCTPERLEQMR
+EAQRAAGKPPKYDGHCLNLTAEEVTTRMAAGEPSVVRMKIPTEGSCDFTDGVYGDVSIPW
+DSVDMQVLIKADGMPTYHMANVIDDHLMKITHVARGEEWLASVPKHILLYRYFGWDQPVF
+MHLSLMRNADKSKLSKRKNPTSISYYSALGYLPEALMNFLGLFFIQIAEGEEMLTMAELI
+EKFDPDNLSKAGAIFDVQKLDWLNGRWLREKLEPDQFVARVLEWAMENGRLTEGLKLAQS
+RISRLGELPPLAGFLLAGDVGLSPASFAGLKTSPAETLAILNAVQADLEKLIEWNVEAID
+GALRGVADGLGKKLRVVTPPLFVAISGSSRSLPLFDSMALLGRSVVRQRLKIATGVVASM
+VGSGA
+>tr|A0A1Q9AJT7|A0A1Q9AJT7_9RHIZ
+PARRDDRTARPQAGRPAPAAAPATPAPAGLRGRKADDEDDSKSRGGAPARGKVTRPEPAK
+VPARPKTEDERRKGKLTLTAALDDEGGARGRSLAAMRRRQEKFRRSQMQETREKVTREVI
+LPETITIQELSQRMSERAVDVIKYLMKEGQMMKPGDVIDADLAELIASEFGHTVKRVSES
+DVEEGIFDMADSGEQQPRPPIVTIMGHVDHGKTSLLDAIRQANVVAGEAGGITQHIGAYQ
+VEQNGHKITFIDTPGHAAFTAMRARGAQATDIAVLVVAADDSVMPQTIESINHAKAAGVP
+IIVAINKIDKHEAKPEKVRQQLLQHEVFVESLGGEVLDVEVSAKNKVNLDKLLEAILLQA
+EILDLRANADRTAEGVVIEAQLDRGRGAVATVLIQKGTLRPGQIIVAGDQWGRVRALVND
+KGEHVKEATPAMPVEILGLSGTPAAGDRFAVVENEARAREISEYRQRLARDKAVARQSGQ
+RGSLEQMMSQLQTSGMKEFPLLIKGDVQGSIEAIAGALEKLGTEEVRARIVHSGAGAITE
+SDISLAEASNAAIIGFNVRANAQARTAAERAGIEIRYYNIIYDLVDDVKAAMSGLLSPER
+RETFLGNAEILEVFNITKVGKVAGCRVVEGKVERGAGVRLLRDNVVIHEGKLKTLKRFKD
+EVAEVPMGQECGMAFENYEDIRAGDVIECFRVEHITRTL
+>tr|A0A1Q9AQ45|A0A1Q9AQ45_9RHIZ
+MVRGMLALTVLLFACLQAEAGRGACGGSVACPVPGGDYRIVVPAGEAKGAYVYFHGYMGS
+AEDQMRQTTLVDTVLAHHLAFVALDGYQGSWSVRGGPEKSRDDLAYLRHVLADLGRSHSF
+RPANTLIGGFSLGASMAWYAACDEGGRFAGMLTFSGVFWDPLPRPTDCTAALPPMIHVHG
+RADGTFPLAGRAIGASHHQGDTFKSIALYRQRAACDAPVPRRPLVADLDCTVASGCRRGD
+SMLCLHAGGHVVRVSDLDAALTALGYPVAR
+>tr|A0A1Q9AG19|A0A1Q9AG19_9RHIZ
+MDMLVKLYELTPDPALDRRMADEGIIIRRALAPELKPLTDWILPRFGAGWVGEATIALAR
+QPVSCFIAIKDGALVGFACHEATAKGFFGPTGVDESCRGKGVGQALLLRTLLDMRDQGYA
+YGVIGGAGPTGFYQRTVGAVAIEGSVPGIYRGMLQTAAPSGVAGNTK
+>tr|A0A1Q9AF88|A0A1Q9AF88_9RHIZ
+MPNRDPIPTPDAETPRGPIATPGIPDRAQDRPQDPPVLNPGDSKNPNDPSLKDPALLPIG
+DPAAMA
+>tr|A0A1Q9APX1|A0A1Q9APX1_9RHIZ
+MSQITAAHRQEIEARHAHLLKSKPLQRLMPLIVVMATLLYGVYALWFFDIPRIVSEAQWF
+RMGLYLRQWVSYDVQPEFRLGKDGITIRYPRFSPLGDDPHPDWVVTKPDGSKFIPFGSGG
+VTIATTGTTIVARGATVHIDVTSGKPVIEGKPPAWVTVYDEDVLADLGFSGDVSLSADRV
+KVRKRFFGWANFVFDTSSPFFGKSASETLGLIFSDARLDPSQSNLSLALDNIWNNSAWQH
+GDVWVKLAQTVVMAFLGTLLGAVLAFPLAFMAARNITPNHFLGSCIKRFFDFLRSMDLLI
+WSLFLTRAFGPGPLAGAGAIFLTETGTLGKVYAEGLENIDKKPGEGIQSTGASTILTHRY
+ATMPQVAPVMAGQTLYQWESNIRDAATIGAVGAGGIGLKLWEAMRTNSNWANVAYMVLLT
+LLVTFLFDVASSRLRQKLMGTDPRR
+>tr|A0A1Q9AP03|A0A1Q9AP03_9RHIZ
+MPPFRPAARASWRARAICAAVFFSALAPLSAAAAQTEPTAPVTVEQRLFPLGTPKAMTEA
+LADDGQSAAAALVGVVSAADRFAVDRTITGSIAPSRALWQERHVPADRHILFGAMLLAVS
+MMASTAFGLWRWQLRGWTAEA
+>tr|A0A1Q9APH4|A0A1Q9APH4_9RHIZ
+MAFELPNLPYDYDALAPYMSRETLEYHHDKHHQAYVTMGNKLAEEAGLADLSLEEIVKKS
+YGTNQPLFNNAGQHFNHLHFWNWMKKGGGGTKLPGKLEEAFASDLGGYDKFRADFIAAGT
+GQFGSGWAWVSVKNGKLEISKTPNGENPLVHGASPILGVDVWEHSYYIDYRNARPKYLEA
+FIDNLINWDYVLELYEKASA
+>tr|A0A1Q9APC8|A0A1Q9APC8_9RHIZ
+MTTFSDLGLSQDMVAHLSAQGFATPTPIQAEAIPLVLAGHDLIGLAQTGTGKTAAFGLPM
+IERMAADGKRADPRNIRALILAPTRELVNQIAANLKLFVKKQPLRIGVVVGGASVNRQAQ
+QLERGVEILVATPGRLLDLINRKAVTLTQARYLVLDEADQMLDLGFIHDLRRISKLVPKN
+RQTLLFSATMPKSIAELAGDYLTDPKKVEVTPPGKAADKVEQYVHFVPGKDQKTTILKQT
+LNENPDGRAIVFSRTKHGAEKLAKHLEAVGYSVASIHGNKSQGQRERALKGFRDGEIKVL
+VATDVAARGIDIPAVTHVYNYDLPEVPDAYVHRIGRTARAGRDGIAIAFCAPDEARLLRD
+IEKLMGISITVASGQPHVGALPAAPARGGRGQPRGGQGRGGQGRGEGGRGHGDRGDHANG
+GERRSQGGAGRPQAARAPSPFAGDELLDEAPRKKEHRKGQGPAAQAAHQAQQAKRNNNGS
+RRRARPSMGGAPSNGAPQGQRRDGGARREEA
+>tr|A0A1Q9AJ99|A0A1Q9AJ99_9RHIZ
+MPKFETKRVVPHSPEQMFDLVADVERYPQFLPLCEALAVRSRKERDGKELLVADMTVGYK
+AIRETFTTQVLLNAAAREIDVKYIDGPFRYLDNRWRFEPTPEGGCTVVFYIDYEFKNRIL
+GALMGSMFDRAFRMFAEAFEKRADAIYR
+>tr|A0A1Q9AFT4|A0A1Q9AFT4_9RHIZ
+MRPGQQNKRGRGRNNNNNNGNNGGGNNHNRKGSNPLTRTYDSSGPDVKIRGTAQHIAEKY
+AALARDAQSAGDRVMAENYLQHAEHYNRIIAAAQAHLQERFQRDDRVSYDDRDYGDRDTM
+DGDDLDGGEDIAPAPVQAPAPAPVAQQPREVREPRERREPRQPRVPREPREPRVAAPAAV
+AAEIPDEQPDAVFDGTGPQPVIEGVPVEVAMEDEAAAAAPTRAASRRRGTPRPRRTRRSD
+AAEGGSGEGEGSAEPALAVTE
+>tr|A0A1Q9ALH4|A0A1Q9ALH4_9RHIZ
+MARQEANEQFQLTSFLDGANASYIEQLYARYETDPASVSAEWQSFFKALADNPDDVVRAA
+KGASWKKAHWPIPEGGDLVSALDGNWGVVEKVIEKKVKAKAEEKAAASGEPVNPVDVHQS
+TRDSVRAIMLIRAYRARGHLHAKLDPLGLAAPVEDYNELSPKSYGFEEQDLDRKIFIDNM
+LGLEYATMREIVEILERTYCSTLGVEFMHISDPELKGWIQERIEGPDKGVDFTPEGKKAI
+LQKLIEAEGFEQFIDVKYKGTKRFGLDGGESLIPALEQIIKRGGQEGLKEIVLGMAHRGR
+LNVLTNVMGKPHRAVFHEFKGGSYAPDDVEGSGDVKYHLGASSDREFDGNRVHLSLTANP
+SHLEIVNPVVMGKARAKQDQIATTWDGDVIPLKERAKVMPLLLHGDAAFAGQGVTAEILG
+LSGLRGHRVGGTLHFIINNQIGFTTNPAFSRSSPYPSDVAKMIEAPIFHVNGDDPEAVTY
+AAKIATEFRMKFHKPVVVDMFCYRRYGHNEGDEPAFTQPKMYKVIRAHKPVVQLYAERLI
+AEGLITEGELEKMKADWRAHLEQEFEAGQSYKPNKADWLDGVWSGLRTADNADEQRRGKT
+GVPMKTLKDIGRKLSEVPKDFRVHRTIQRFMDNRAQMVETGEGIDWAMAEALAFGTLCVE
+GTKIRLSGQDCERGTFSQRHSVLYDQETEDRYIPLANLAPNQGRYEVINSMLSEEAVLGF
+EYGYSLARPGALTLWEAQFGDFANGAQVVFDQFVSSGERKWLRMSGLVCLLPHGYEGQGP
+EHSSARLERYLQLCAEDNMQVANCTTPANYFHVLRRQIKRDFRKPLILMTPKSLLRHKRA
+VSSLSEMAGDSSFHRLLWDDAEVIKDGPIKLQKDNKIRRVVMCTGKVYYDLLEEREKRGI
+DDVYLLRLEQLYPFPAKALINELSRFRNAEMVWCQEEPKNMGAWAFIDPYLEWVLAHIDA
+KYQRVRYTGRPAAASPATGLMSKHLAQLAAFLEDALGG
+>tr|A0A1Q9AL18|A0A1Q9AL18_9RHIZ
+MRDLVLYIGNRNYSSWSLRPWLALTAAGIPFRDEVILFDFPAGNPGLKAVSPTGRVPLLV
+DGDLKVWESLAIIEYAHELFPDAGLWPKDRAARADARAIATEMLSSFHALRNACPMNIRR
+PVKAIDLPEGVMDNVARIETIWHERLARSGGPFLYGAFSAADAMYAPVTNRFEIYALTQD
+PRSRAYMAAVEAHPAFRAWQEAALAEPWIVPEDEA
+>tr|A0A1Q9AMR2|A0A1Q9AMR2_9RHIZ
+MNGQAIKAIYLFEMARMRRTLLQSVVSPVISTSLYFIVFGAAIGQRIQEIDGVPYGAFIT
+PGLIMLTLLTQCVNNGAFGIYFPKFTGTIYEILSAPVSMAEVLIGYVGAAATKGMIIGLI
+ILATASLFVDIRIAHPVMMVVFFALTAITFSLLGFVIGIWAKDFEQLNLIPMLVVPPLVF
+LGGSFYSIKMLPPFWQAVSHANPVLYLISGFRWSFFEVAEVDPMISVAIILGFLAALSGL
+VTWIFRTGYRLRE
+>tr|A0A1Q9APF5|A0A1Q9APF5_9RHIZ
+MSALPDRLDPRHAQTIGFLLLPNFALMSFASASEPLRAANLLAGTELYTVSLFSADGGTV
+ASSSGLSMPCRSLAEGGEGCHTLFVCAGGGPQDWRAAEPAFPQLRRLARLGVRIGGISSG
+AFVLAACGLLEGRDFTLHWEHALLLKETFPHLSPRQARFVLDGDRITCAGGVAPLDMMHA
+LISARMGADFARRVSDWYLHTGLAQPEAAQRSTAAERFGTHHPALLTVLEKMEATIEQPL
+DRQAMARLAGISPRHLDRLFARHMARGFLETYRSIRLAHGRRLVEQSPLSVAEIAFATGF
+SSAGHFSRAFSEAYGMTPHALRHEGQER
+>tr|A0A1Q9ADX4|A0A1Q9ADX4_9RHIZ
+MTGWWAVGFALLLSCGTALAEPVTRAGAPAGAVIARKTGEEIRFVEKDGWQIVDLAQDVV
+NGDVLRTNATGQLAILFADRTQMRLGRNSTLLVRDVKSGGADAELSLQSGSLWARAERGG
+AGLKVETPAATAAIRGTDWTLSVDAGGRTSLNVLDGTVELSNSAGSVSVTRGEGAVAAIG
+QAPRKIIITNSDDREQMLYYLGLRDSFGMLPASPLSGPALLDRHRALTERPPEARSAADW
+LELAETRFSIEGYRAAEAALAEAERRGLSPALRPRADYLAGLIDASYGRYRQAAEKIGRA
+SGRLDAARRGAAAYAGYFARALAEPTRVEAPPAGAGGAQAVAAAALTTGFRQSIRAAIDV
+LKQGEARYPQDALLPAMRGKIALVLNDQAQAEEALGRALALDPDQPIALEARADLKASRQ
+GDLKGAEADLRRALAAYPGDTNLLNSLALLQSAKGEPLAAMETLRQALALDPGGALEHAN
+LAILLLDASRIPAARAEIDAATAADPGFDILLVARGRYHLQTGETDKALDDLLAGSVANP
+AYAQAQLMLALAHYARGERVAYEQAMDNAERIDPNDPAIASVRAAVAAQDFDSDAAVRQA
+QKYLKLERQRGGEFAALGAQQEAGSVLKTAFTLQGLTAWGNYYGDATFDPFTGTAYLDQS
+LRGSANPFANALLPGGNGVDQVTDVGGYSGFLQGLLLSPQMISSSALQHTLLPAPFLEGT
+LGAGLNLSRSGHQEWIKSAEIDGYSNLPFPISLSGSITWEDQGETREDPSGLNALDLSSA
+LRSANGFITASPTENDRIIALVQTSRSSTLNGGGSFLPDVPIDLTAATPAAIAILTQNEN
+KTEAEELKAALGWSHSFGDTNVLNAALFYDQSSSDSLSTSYAITDLLGTIDQNTSSNASK
+SYMAALGHLYGMGDLTLRTGVEGGFFDIDASTHYQSLLVSVDANDQPVFEPIIDTLSEVS
+FRVTAAKAYVDALYEATPHLKLEAGLFGRVYQGGPIDVQRLEPRLGIAWEPVDGQWLRAG
+YLREGFLSTTSTLAPLGVVGLQSNIVPLAIEGYKDTLAFRWDGQWTDRFFTAVDVQHQEA
+RQLSIDDPFLSPGTSLVAGDIARGSIDRAAITANYVIGYGFGLSGTYGRLHSRDDDSDSA
+THGGSLPYVPDEVGQVALTFVNPIGLSTTLAGNYTGTRRGRDGADLDGYWTLDAGLTYQT
+PDRHLDLTLAAYNLLDEDFAIATGVPGWGRSVKALLKVRF
+>tr|A0A1Q9AIZ1|A0A1Q9AIZ1_9RHIZ
+MPDQAGAPARRGWVLPHPSVHALAGLVALLSLLPLGFVAWVTYDVGWETVRALVFRDRVG
+GLLVNTALLEATSIPACILLAVSLAWLTERTDLPFARLWSLLSVAPLAVPAFVHSYAWIS
+LVPGMRGLWSATFVSTLAYFPFLYLPVAATLRRLDPAIEDAAASLGLDPWRVFFRAVLPQ
+LKLAIAGGALLIALHLLSEYGLFVMIRFDTFATAIVDQFQSAYNSPAANMLGGVLILCCL
+LLMGIEGLWRGSERYARVGAGAARPAQRRRLRGWTLPALLLVAGTAALSLGVPFYTLGRW
+LWLGGLSIWQAGPLGNAFVQTILLSLGGGILATLAAAPMAWLSVRAPGRLQRILEACHYY
+VGSLPGVVVALALVSITVRLILPLYQTFATLLVAYVLLFLPRAMVGLRASLAQAPVELER
+AAMALGRTPGQAVRQVTFRLAAPGAAASVALVALGITNELTATLMLAPNGVETLATRFWS
+LTSEIDYLGAAPYAVMMVVLSLPLTLALHAQSKRTAGQ
+>tr|A0A1Q9AQ53|A0A1Q9AQ53_9RHIZ
+MKHQEFRRHSLCLGGMEAVEARSPHVFGRHMHDQYGIGLILSGAQRSASGRGPVEAGAGD
+LITVNPGEVHDGAPIGGGRHWCMLYFDPAMLIEATRDLPGTSRGDYRFEAPVMARADLAC
+SFSMLYRRLLSRDAAALAAEEALLLLFGGLGSRTDGPSERNGSLLAQARAAIDDAPEEDH
+RLARLSAMSGLSRFQFLRAFAAATGLTPHAYLVQRRLMKARRLLARGEPPATTAIACGFA
+DQSHMTRLFRRAYGFTPARFAAASDRQVT
+>tr|A0A1Q9AQ88|A0A1Q9AQ88_9RHIZ
+MITAINRRTLLKGVALSGLASAIGTRITLAADKPLGIALVVPSPIGDVGWGHALAAGLDP
+IKAAYGDKVKITILENIPEGPDADRIMNKAVADGNKFLIAGSFGYQNGALQIARRNKDVT
+VLHASGFQVAPNFSPFAAKYFQGTYLMGMAAAALTKSGKLGSVSAFAIPELITSINAFAL
+GAQAVKPDIEVSVVWVNSWFDPAKEQEAAKALMAQGCDVIFSNAQDTPSVIAACEEAGVY
+AFNLNSSMKSYAPKTYLGCVATDWSPFFKASVDAHVAGSFKGANAFLGMSDKVVEVVDWN
+PAIPADTMTKIKDTEAKIAAGSVSPFTGPITKADGSEGVAAGKTLTDPEIVAMNWHVKGV
+TTPLPK
+>tr|A0A1Q9AI37|A0A1Q9AI37_9RHIZ
+MSDRFRELERAQGSRVKDVVLLATVTSYEALRQPRKADQRQFEELFVPLFAASSNEARRQ
+AASALSRCQHVPQAVAYQIGSAPIAIAAPFLTASPVIDDQTLIALVRTQSIEHAEAIARR
+DSLSAPLIEALVERRQRISRGGLDIATGRLTEMPARQETAAEADSQMDRDQRLRRELKAM
+VQRVQPQPAKAEPSLPAVDSTHAALLVRFARLGEINMLASCLSAVLNADLEVGERLVLDV
+SGQQLATALVALKLPIADQLTILSYLYPYLAEMVDGRTRAELLVDTLVPAECVARVAGWL
+ESAAGSARTPQAISYLAANREKDARRQGNYAAPASRPAPLRARTLPGKA
+>tr|A0A1Q9AMX4|A0A1Q9AMX4_9RHIZ
+MPQAFSEDALAARLLTVIEEDILPLTRRGVAAGNKVFGAAILRKSDLSLVIAETNNELEN
+PLWHGEVHTLKRFYEQAENRDTRDLIFLSTHEPCSMCLSAITWAGFDNFYYFFSHEDSRD
+SFAIPHDLKILKEVFTLEPGGYNRRNAFWRSAYLGDMVAASADAQKAALQAQMDRIHADY
+AALSDQYQASKADNHIPLN
+>tr|A0A1Q9AQ58|A0A1Q9AQ58_9RHIZ
+MASYRIALNFEDGVTRFVECQAGEKLLDAAYRSQINLPMDCSDGVCGTCKCRSEAGSYDL
+GDDYIEDALSKDEASDRLVLTCQMRPTSDGIVSVPTRSSACKTGQQKLSATVAKVVAHSD
+AAIVLELDVDVAVAPQFLPGQYVNIDVPGSNGATRSYSFTTAPGQSRLGFLIKRQPGGLM
+SSWLAHAKPGDQLTFTGPMGSFYLRERARPLLFLAGGTGLAPFLSMLEVLAQGEPGPPVH
+LVYGVTRDEDLVLVDVLEAYAERVPGFSFTTVVADTASSHPRKGWVTQHMPQDLLAGGTV
+DIYLCGPPPMVDAVRAWLSQTGITPGSFHYEKFTPNLPLKESA
+>tr|A0A1Q9AG00|A0A1Q9AG00_9RHIZ
+MSELFVIFLLLLVNAFFAMSEMAIVSASRPLLRQMARQGNARAELALALAEDPGRFLSTV
+QVGITLVGTLAGAYGGATIADQLAPVLNDIPWIAPYGSPVAVALVVSLITYLSVVIGELI
+PKQLALKNSEAVAMFVARPMSVLSRIVSPVVYLFEGSAGLFLRLVGAKEDKDAVTEEEVQ
+AIMAEGVESGAIEKSEHEMLRRIIRLGDRNVKTIMTHRTEVQFIDVDDSLEEVRAKISQS
+AHSRYPVMDMATGEVLGAVLVKELLNSPVAAGGFSVKTFVRELHTLPETASCLKALEAFK
+SSRINMAIIVDEYGSIEGILTLADILEAIVGVLPSNYDDVEHALIREREDGSYLVDGRTP
+IDEIILTFGIDEIETDGRYETIAGFLVQELRKTPEEGDVTEAFGYRFEVVDMDSRRIDKI
+LVSRVDPVA
+>tr|A0A1Q9ALV7|A0A1Q9ALV7_9RHIZ
+MTGATRESRRQGGLIVRASLLAGLTMLAGCQTALEQAYEPPAVQPSSTPQIVSEVQKNDP
+RAQMGAREHPRILASYGGEYKDEKTERLVARITGALTAVSENPSQSYRITILNSPAINAF
+ALPGGYLYVTRGLLALANDASEVAAVLSHEMAHVTANHGIQRQQREEAEVIASRVVSEVL
+SSDIAGKEALARGKLRLAAFSRNQELQADQIGVRMLGEAGYDPYAAARFLEAMAAYASFN
+AVDPENDQSMDFLSSHPSAPQRVDLARRHARAFGPEGTTGDRGRDYYLDGIDGLLYGDSP
+QEGYVRGQTFLHGKLGIRFEVPEGFQIDNKVEAVLATGPGEVAIRFDGVADSQGRSLTDY
+IASGWVTGLEPDTIRATQVNGLEAATARASADRWDFDVTVIRIGSQIYRFLTAVPKGSAA
+LDPTAKVLRASFRRMTAEEAASLKPLRVRVFTVKQGETVPTLASRMMGTDRKLELFRMIN
+AMGLTATVKPGDRVKIITE
+>tr|A0A1Q9ACF9|A0A1Q9ACF9_9RHIZ
+MGPIVAFLSSMAATDMSLTLARIKRNAILRGIAGFAFILAFIFGMIALSIKMAEHWGAIT
+AMLILGGVFLVIGIIVLITMSIMEARDRQIAAERKRKTQMQTNLVMATTMTLFRRKPLMA
+AGIAVLVGGLLGFTRLGFGKSDDEA
+>tr|A0A1Q9AE77|A0A1Q9AE77_9RHIZ
+MPTSASPQDALVYVMVMVAAADAVMADPELRRIGHIVRSLPVFDDFTDHRLVRAARDCAT
+LLAGPEGLDITLEVVREALPTRLHETAYALGAELAAADGRLRLEEMRLLDMLRERLGLDR
+LVCAALDRAAIARSRRAPSQTT
+>tr|A0A1Q9AF63|A0A1Q9AF63_9RHIZ
+MRLLFLGDMVGKTGRTAVWERLPGLVSDLRLDFVIVNGENAAGGFGITEDIFLETINAGA
+DVVTTGNHVWDQKEAVVFCGRHEQFLRPANYPAGTPGRGSGLYFARNGARVLVANIMGRV
+FMHPELDDPFKAAEAILEAAPLKEQADAIVFDFHAEATSEKQCFGHFVDGRASFVVGTHT
+HVPTADHQILNGGTAYLSDAGMCGDYDSSLGMDKEEPLNRFISKMPKGRFEAASGPATIC
+GVGVEISDRTGLAEAIAPLRLGPRLSETIPPFWA
+>tr|A0A1Q9AGJ7|A0A1Q9AGJ7_9RHIZ
+MARDTRLDVFRAICLIMIFINHVPGQYLEHLTSKNFGFSDSAEAFVLISGLSAGLAYGRK
+FVPGKRIATAIKIWRRAFTLYVAHIMTSIITLAIFAGGALYFGRQELVGEINIRPLVDHT
+EQGIVAMVLLGHQLGYNNILSMYAIVLLVLPGMLLLRNISAGLLMAVSGALWLSAGLFHI
+VPANFLDEGYWFLNPFSWQFLFAIGIVCMMRTKQGRPLPRHPLLIGLAGGYVLISLFWVA
+GSLWHYDMSFGLPAVLTGFDKTFLSAPRLLHVLAVGYLCAVIPSISGWARLPMDHPLVRV
+GRHSLPIFILGTILAMLGQVLMFVTGHDPLWGTLFVMAGIALHFAYARYLDWLSTLTKPA
+APLAA
+>tr|A0A1Q9AGK6|A0A1Q9AGK6_9RHIZ
+MRVLEGQTVSPPPLWLMRQAGRYLPEYRTTRAVAGSFLDLCYTPELATEVTLQPIRRYGF
+DAAILFSDILVIPDGLKRNVRFLEGHGPAMDPIDEDGIAALDPEPVLAHLAPVMEAVGRI
+RASLPAETTLLGFSGAPWTVATYMIAGHGTPDQAPARLFAYRHPESFARLLDLLADVSAD
+YLVAQIDAGADAVQIFDSWAGVLGEAEFERFAIRPVKRMIDSIRARRPQARIIAFAKGAG
+LMLKRYRQKTGADAIGLDWTVPLDFARELQKDGPVQGNLDPMRVVAGGAALEEGVDAILQ
+GLGSGPLIFNLGHGITPQADPATVARLVERVRGSAA
+>tr|A0A1Q9AJB6|A0A1Q9AJB6_9RHIZ
+MLRRFFAYYRPYRGLFLLDFSCAVLSGLLELGFPMAVKLFVDELLPSGAWPVILAASIGL
+LLIYIVNTGLMATVTYWGHMLGINIETDMRRLAFEHVQKLSFRYFDNEKTGHLIGRLTKD
+LEEIGEVAHHGPEDLFIAIMTFIGAFLLMLSVNWKLALLTAAVVPATAWVTSRYGGRMTR
+NFRALYGRVGDFNARIEENVGGIRVVQAFANEAHEKALFEKDNQNYRRTKLEAYKIMAAS
+TSLSYMSMRLIQMIVMIAGAWLVLRGELSNGGFVSFLLLVGVFFRPVEKINSVIETYPKG
+IAGFRRFTELMETAPDIADRPDAIVAPPLKGQITYRDVSFGYGEGDPVLSHIELTIAPGE
+TIAFVGPSGAGKSTLCSLLPRFYDVTGGAITIDGIDIRAMTLASLRSQIGIVQQDVFLFG
+GTIRENIAYGRLGASEAEIVDAARRARLESVIDALPQGLDTVIGERGVKLSGGQKQRLAI
+ARMFLKNPAILILDEATSALDTETERAIQQSLNELARGRTTLIIAHRLATIRDAARIVVV
+DRGGIVEAGPHQELIAAKGAYRRLYEAQFGAA
+>tr|A0A1Q9AF34|A0A1Q9AF34_9RHIZ
+MIPTAPSFRLPALLACLLTLASPAALRAQAIDLPGVTLEGQSSPPAAAPEAAAGAQAGHA
+DESFAGRVEQGTGPTGKRGRITPFNGAALPAEDLPRLGSSATPPPAPGAIAPSGGVNVLD
+RMGASLPALPKEKPFKGKPDEAYGAFQRGYYLTAMELALPRAQKGDAAAQTLVAEIFANG
+LGVARNTKNAAFWYEQAANAGDPVAMFKFALMLMEGRDVPRDRKRADALMRDAADMGNAS
+AQFNYAQTLVADTPGEKGLKAALPYYEKSAEKGIADAQYALAQIYMNVEGISDDKRATAR
+AWLLRAAASGFDTAQLDAGIWLVDGIGGDRNLEQGFRWMREAAIGGNVIAQNRLAHLYIN
+AIGTRPDPVEAGKWALLSLKAGLSDPTLDDFMEGLPDDQVAQARKAASLFRPQ
+>tr|A0A1Q9AQ71|A0A1Q9AQ71_9RHIZ
+MLHHASLGVRDIVRASAFYDAVLLPLGYVRVWSDLRPGEAGQAVGYGLPGGGDRLALKQA
+DEAHPPGPGFHLAFAAPDRKAVKAFHAAALATGGTDNGAPGLRPDYGPRYYAAFVIDPDG
+HRIEAVFKSS
+>tr|A0A1Q9AFD6|A0A1Q9AFD6_9RHIZ
+MSGVEPVPVSVLTGFLGAGKTTLLNRLLKQAALADTAVIINEFGEVSVDHLLVESSGDGI
+IELSDGCLCCTVRGELVDTLGDLMDRLQTGRIKALNRVVIETTGLADPAPVLQAIMGHPA
+LAQSYRLDGVVTVVDAVHGQATLAAHEEARRQVAVADRIVVTKRDLASGPQQLGLAEALG
+ALNPRSPVFDSGDPLAASAELFQCGLFDPGSKIADVGRWLQDEAEADHDHHHHDHDGHHH
+DHGHDHHHEHHDHAHHRHAQDIRSFAILHDAPVTPAAISMFIDLLRSAHGDKLLRMKGIV
+CTTDRPERPLILHGVQSIFHPPQRLAAWPDPTDRRTRLVLITKGLEEAFVRDLLDAFTGR
+PVLDRPDAAALSDNPLAVPGMRF
+>tr|A0A1Q9ADL0|A0A1Q9ADL0_9RHIZ
+MTAEVRLLENCWDDAYAATLDEPGKLLYRSNLLGADKRITNYGGGNTSAKVAETDPLSGQ
+TVEVLWVKGSGGDVGTIKLDGFATLYMDKLQALKGLYRGVEDEDRMVGFLPHCTFNLNAR
+AASIDTPLHGFVPFRHVDHMHPDAIIAIAASKNSKELTREIFGEEIGWLPWRRPGFQLGL
+DLEAFVRAHPQAKGVVLESHGLFTWADDAKDCYALTLEIINKAIAWFAAKTEGKTIFGGA
+VATSLDAETRRAMAARLMPEIRGRIGRQERKLGHFDDQPAVLEFVNSRDLQPLGALGTSC
+PDHFLRTKIRPLILDFNPANGDLDAIVAGLDAALEAYRADYARYYEACRHDNSPAMRDPN
+PVIFLMPGVGMFSFAKDKATARIAGEFYVNAINVMRGASTVSQYQGLPEQEAFDIEYWLL
+EEAKLQRMPKPKSLAGRVAFITGGAGGIGRATAARLAAEGACVVLADIDTQALDETHKAF
+AARHSADAVRSVTLDVTREEAVTDAFARACVEFGGVDILVSNAGIASSAPVEDTSLAMWQ
+KNIDILATGYFLVSREAFRLFRRQALGGNVVFVASKNGLASSPNASAYCTAKAAEIHLAR
+CLALEGAEAGIRVNTVNPDAVLRGSKIWSGEWREQRAASSKIEVTDLEEHYRKRSMLKLN
+VLPEDIAEAIYFLASDASAKSTGNILNVDAGNAQSFTR
+>tr|A0A1Q9AQH5|A0A1Q9AQH5_9RHIZ
+MALFDALPPAPIAPKKPVTDTRHGITRTDDYAWLRAENWQAMFKNPTILDPEIRAHLEAE
+NAYQKAAMADTEGLQKALFAEMRGRIKEDDSSVPVKDGPYAYGTAFVTGGEHPRFFRTPR
+EGGAETLLLDGDKEAEGKPYFDLGGIDHSSDHRLGLWAYDDKGSEFYTLRVRDLETGEDL
+ADRIENTGGDGVWAPDAKSFFYTVLDDNHRPSRVFHHILGQPQAEDRLVYEEADAGFFMN
+VGGSTLDDFIFIDINDHETSEYWLIPTSDLMAKPQLVARRETGIEYDLTEGGDVFYILTN
+ADGAKDFKIMETPVTAPGRENWRDVVPHTPGTLILAHEAYARHLVWLARENGLPQIRIRD
+RRSGEEHAIAFAEEAYALSLHGAAEYDTDVIRFSYSSMTTPSQLYEYDMATRERRLLKTQ
+EVPSGHDPDAYVTRRVFAPAQDGERVPVTLLYRKDTALDGSAPCLLYGYGAYGSSIPAGF
+NTGCLSLVDRGFVYAIAHIRGGKDKGFAWYEDGKMAKKVNTFTDFIACADHLVAEGFTAY
+DRIVAEGGSAGGMLMGAVANMAPEKFAGIIAAVPFVDVLTTMLDDTLPLTPPEWPEWGNP
+IESEAFYRIIASYSPYDNVDARPYPVILATAGLTDPRVTYWEPAKWVARLREKTTSGAPV
+LFKINMDAGHAGASGRFQRLEEIAFEYAFALKLAGKLA
+>tr|A0A1Q9AHH9|A0A1Q9AHH9_9RHIZ
+MLLACSKLTVTYSGRTALKSFDLTLKPGEVRALIGPNGSGKSTALQAMAGLLRPSGGHAL
+IDGLAVDAIPRRRLARQLAYLPQQPTAPDEMTVAQLVRQGRFAHVGLLRSYRAEDEAAIG
+WALESTRLLALADRPLRELSGGERQRAWISAAIAQEARILLLDEPTSFLDIGYQVEIIDL
+VHRLSRERGVSIVMAIHDLNQAMSVCDRISLLAKGETVFDGDPKDLAEAGLIETVFRVRG
+TFVPIAPNAPPHFDVELAHRQMRTGGLARQ
+>tr|A0A1Q9AP62|A0A1Q9AP62_9RHIZ
+MSNASYELKAQKRDRVGKGSSRELRRNGLIPAVIYGDKQQPISIALSTKDVTLKIHAGGF
+MTTVATIDVDGEKIRVLPKDYQLDPVRDFTMHVDFLRVSKGSSVDVDVPVHFINEDQAPG
+IKNGGVLNIVRHTVELTVPADDIPASLTVDLAGLNVGDSVHISQVELPKNAAPVISDRDF
+TIATIAVPDVLPEAEEGTEGEASA
+>tr|A0A1Q9ANA8|A0A1Q9ANA8_9RHIZ
+MNDWTRYLKNQVTLGAMNRREFMGRAAAAGLAATTAGTLFSTAAEAQEPKRGGHLKLGLE
+GGSATDSKDPAKFLSQIMFCVGRCWGDMLVESHPTTGAAVPALAESWEPSADAATWTFKI
+RKGVTFHNGKELTVEDVVKTLQRHTDAKSESGALGVVKSIKEIKADGDNVVLTLSEGNAD
+MPLLLTDYHLVIQPNGGYDDPFASIGTGPYKLLTFEPGVRATFERNKDDWRSDRGYVDSI
+EIINMNDATARVAALSSGQVHFINRVDPKTVSLLKRAPTVEILSTSGRGHYVFIMHCDKA
+PFDNNDLRLALKYAMDRETMVQKVLGGYGKVGNDFPINSTYALFPEGIEQRVYDPDKASF
+HYKKSGHSGSVLLRTSEVAFPGAVDAAVLYQESCKKAGIAIDIKREPGDGYWSNVWNVQP
+FSTSYWGGRPTQDQMYSTAYLSTADWNDTRFKRPDFDKILLEARAELDEAKRKDMYRTMA
+MMVRDEGGLILPMFNDFVNASSKKVKGYVHDIGNDMSNGYVATRVWLDA
+>tr|A0A1Q9ADG8|A0A1Q9ADG8_9RHIZ
+MASVDISGVKKAYGAVAVMHGVDIPIRDGEFVILVGPSGCGKSTLLRMVAGLETVTGGEI
+AIDGRRVNDLEPKDRDIAMVFQNYALYPQMTVAQNMGFALELAGRSKAEIKAEVEKAAEI
+LSLTALLDRKPAQLSGGQRQRVAMGRAIVRHPKVFLFDEPLSNLDAKLRVKMRAEIKALH
+QRLKSTIIYVTHDQIEAMTMADKIVVMKDGRVEQIGTPLELYDNPANLFVATFMGSPAMN
+ILPAIVQDATVLVAGVATLPIVAEAAPGTKIAYGIRPDEIAIDPASPVKAEVIVVEPTGS
+ETHVTARLAEHEITLVSKARLTLAPGDAIGLSFSPDKHQLFDAATGNRLAAAG
+>tr|A0A1Q9AQA2|A0A1Q9AQA2_9RHIZ
+MPETQLLQQEHLDGHVYEGGWRPSTFVRDVCEPATGRKLASVGMATPQEVSRAAEAARHA
+QPAWAETSYERRAEVLRAAARIAEVHSDEIANWLVRESGSVHPKAHFEVALTIKALYEAA
+AMPSQATGQVLPSAPGRISIARRRPIGVIGVISPFNFPLYLAMRAVAPAIAVGNAVVLKP
+DPRTSISGGQVIARLFEMAGLPTGCLSVLPGDGAAGAALCEDRNIGMIQFTGSTAAGRKV
+GETASRNLKKVSLELGGKNSFVVLDDADLDLAVKNAVWSVYLHQGQICMSAGRVLVHSAV
+AAEFTRRLTAHARSLPVGDPASGQVALGPLINQVQVDHALKAVSAAVEAGAILETGGKSN
+GLFFEPTVLTGVKPGNPAFEEEIFGPVAVVTTFDTDDEAAALVNATDYGLSAAIVSRSVG
+RAMALGEKLRVGLLHINDSTVNDEVVNPFGGVGASGNGTSIGGPANWEEFTQWQWVTVKS
+EAPAYPL
+>tr|A0A1Q9AFI8|A0A1Q9AFI8_9RHIZ
+MADDDFWTTVQDKDDVPTPYRRTGVLNLSLLFGTAVIALTLIVTPMLASKKTPSVLADAP
+VVLDDTVTGSIPKSDVDKRYTVRRSVMQPIPGAVCIIDANGQSSGC
+>tr|A0A1Q9AHE2|A0A1Q9AHE2_9RHIZ
+MPAQKGDGPRDAGRDLQKGRRRRAGSQDRATQRQSEKRGPQGRPLVSGEKRGRGEDARHG
+GGHASEDGARQAPRAEGGRRGDSARHAAGGRHDAASGRYAAGHSGASQAGPSSQSASGQA
+QQSGEARLHPHGGAHPGLANGPFPAHPAAQSGLHASSAAPGLAPRPAPRGADDARAPLYA
+ALDLGTNNCRLLIAQPTRPGQFRVVDAFSRIVRLGEGLAATGRLSADAMDRAVEALKVCA
+AKLKTRDIRRMRLIATEAARAAENGQLFMERVAEETGLTLEIINRETEARLAVSGCSSLI
+ERSARSVVLFDIGGGSSEIAVIRIGETRSNRLANHITHWTSLPVGVVTLSERHGGRDVTP
+ESFEGMVREVEGMLSRFECPPIFEREDGADGFHLIGTSGTVTTLAGVHLGLPRYDRRQVD
+GLWLSDEEVSAMQARLLSWDFAARAANPCIGPDRADLVLAGCAILEAIRRRWPSRKMRVA
+DRGLREGLLTDMMADDGAWRKFRAKRPGNQGQGGKSR
+>tr|A0A1Q9AG24|A0A1Q9AG24_9RHIZ
+MTPDPAPEFRLFLLRHARAAQAKPGLRDVDRTLDPVGEGDATHLALRLSGLGLIPEMVLC
+SPARRCRQTVMALQGVAGDTMPVQVVDALYSGGAEVYLHAALAQNCGSVLICGHNPVIDE
+LLRALVGEDLPAGLYDQGYPPAGLAVIDFDRPPGAGVTGRLAHWIDPHQ
+>tr|A0A1Q9AIW6|A0A1Q9AIW6_9RHIZ
+MKKRFLMGVAALAMLAGSAHAAELKFKPGEDSKFNWASFDSFKSGHDLKGQTLTIFGPWR
+GEDQALFESILDYFRAATGVDVKYSSSENYEQQIVIDTQAGSPPDVAILPQPGLIADLAS
+KGYLTPLGEETGTWLKDNYAAGQSWVDLSTYAGKDGKKQVYAFPYKIDVKSLVWYVPENF
+EDAGYQVPKTMEELKALTEKIAADGGKPWCIGLGSGGATGWPATDWVEDLMLRTQTPETY
+DKWVTNAIPFTDPAVLGAIDEFGWFAKNDKFVDGGVAAVSSTDFRDSPKGLFSSPPKCYL
+HKQASFVPSFFPAGTKVGEDVDFFYFPPYASKPELGSPVEGAGTLAMMTRDTAASRAFMD
+FLKTPIAHEVWMAQSSFLTPYKSVNKDAYANAAMKKQGEILLNATTFRFDGSDLMPGKIG
+AGAFWTGMIDYVGGKSSADVGAQIQKAWDAIK
+>tr|A0A1Q9AMJ8|A0A1Q9AMJ8_9RHIZ
+MSGLLIAAPSSGSGKTTVTLGLLRALRQRGVALAPGKAGPDYIDPAFHAAASGTLCLNFD
+PWAMRPALLRSNADRHAAGGRTLVIEAMMGLHDAAMDGRGSPADLAALLDLTVVFVVDCG
+RMAQSVAALVMGYSGFRQDLRFGGVILNRVGSDKHAAMLTGALDAAGVRVLGCLRTDPAL
+RLPERHLGLVQAGEQADLDAFIDHAAQRVAEGCDLQSILALAAGGREAATPVAGLAPPGQ
+HVAVARDLAFAFSYPHLLEDWRRQGAELSFFSPLADEGPEARADAVYLPGGYPELHALRL
+SGNGAFHAGMAAAKVRGARIFGECGGYMVLGEAIVDAQGVSHPMLGLLPVVTSFAQRRRH
+LGYRRLQPVDDSFFEGALMAHEFHYASIVSEGSAERLFLAQDASGQPIGPVGLRRDRVAG
+SFMHLIDRREEEGLAAAAPAFGHMTFGEMTPGGMA
+>tr|A0A1Q9AN51|A0A1Q9AN51_9RHIZ
+MAADRSIILAWVADLATTLVASPIDLADLLDRIEAARGLGRADFAGEVLDLMRVPAEWAR
+APDDFARFVAPAETDAATSEACRVLLAVGLSLAAPRIDWPSRPEARTARAALADALEAAL
+DIGSARGAAGVDLYAWLSDLGGVALRILSDLAANAVPMVRVETGVSLPASVLAWKLYGDA
+GRAEGLADVARSLTPMLMPVTFEALER
+>tr|A0A1Q9AGC1|A0A1Q9AGC1_9RHIZ
+MAELKAHEVDGALRRGLPSQKLILIYGPDRGLVSERAQTLARLSGVALDDPFSVIRLDAG
+DLQAKPGRLIEEVSSFGLFGGEKLVWLRAGGTEKTLQDELAELVKMPTSPTLVLIEAGDL
+KKGTGLRKIAETSSALLALPCYADDAKAVQALIDDELAQAGLRITPDARARLAESLGGDR
+IASRNELRKLALYVQGKQEIDEDDVMAIIGDASAVSVDDAVDAVLKGDVDGLDHALRKIA
+ASKTPLFLVLQGCLKQFQQMDVMRAEMDDKRLPAGQVIATLGRGLHFRRKPLIEAALKNW
+TGANLRREAERLHNAILQTRGRAALEEQIAMHTLLAVTVAGRRR
+>tr|A0A1Q9ANU3|A0A1Q9ANU3_9RHIZ
+MLSGTRTVDPVTQEIIEGKLMATVDEMGLVMARTSMSPVIYEILDFACGLLTTDGELVAQ
+MNGITLFTGTFGFQVRALIDRFGPRLVEGDILLSNDPYAGGTHSCDFAIVKPIFVDGRIV
+AYAINVAHYLDVGGSVPGSLAPNATSVFQEGLRLAGVRVVRAGAFDDDILHIIAENVRMP
+EIALGDLNAQIATVRVADRRIGELAAKYGAETVLAAFANLLDASEKQARASIAALPDGRY
+EASDIIDGDGVSDDPIAITVAVTIEGDRLVADFTGCPPTVAGPINCARGALQSAVKTIVK
+ALVGPQAPSNEGWFRPLTVICPPGTIFTAEKPSPTGWYYEGSVHASELMWKALAPLKPER
+FSAGSYSSLCVVYIAGKDAHGEPFIHIEPQHGGWGATPTQDGAGAIIALTDGDTYNYSIE
+VIEARFPLRVRRYGFNVEGGVGAGRRRGGYGVVREYEILGEDTTAYGSFGRTTVAPWGMD
+GGSEGTVNALEIVRAGGAVERHGRIAHLDLESGDVVRIVSGGGGGWGDPKQREPALIADD
+IRNGLLTEARAIDVYGTAGDAA
+>tr|A0A1Q9AQ06|A0A1Q9AQ06_9RHIZ
+MGNSMLKSLMAEGPVMRTVSLPRGRQSLHTMPTSTGYEIRNRGLYDWDGRKRGQTPFTVL
+QHTISGAGNLRYENRTYRVEAGKTLLVLVPHNHRYWLEEGGHWEFFWISMNGEEALRIHK
+AILDVTGPILTLQPGTVDHLASCAHRLIHQGGADRPGSASAIAYEAAMALYDDVFGAHPV
+IGQEYRAMQHVITHIMDNLDRALPVDELAAVSGLSRAHFSRVFAASEGMPPAEFVLSRRL
+QRATKLLARADLSIKDISALCGFDDPNYFAKVFRRHFGANPTEFRTTGMYASIEPSARTG
+ASRIDRDDAQNPQS
+>tr|A0A1Q9ALZ2|A0A1Q9ALZ2_9RHIZ
+MDFVLVHGACHDGGHFQAVAELLRGQGHRVWCPTLKGNRPEDDRRAATLEDAIASLIEYF
+EENALTDVVLLGHSWGGMVITAAADRLKPGTVRRLIYFSAFVPNPDESLLDMCPPHYQAL
+FRQMGEADGAVLFPWPVFREAFVNDGTVEQAKSLFDSLNPHPFHTMADPVRLSRAPAEMM
+VGKSFLYCTEDIGLPHSTPFHPRLSEKLGLYRLVTMPGSHSTFLTNPKLLASKIIEAGRD
+>tr|A0A1Q9AML6|A0A1Q9AML6_9RHIZ
+MDVTQFDIMQLESADATMLGRTAILAQAVGMILKTHQSGADILETLLNAARELKASAPET
+VAAGNENFDDFADGAFAAATAIAEEFQS
+>tr|A0A1Q9AIG2|A0A1Q9AIG2_9RHIZ
+MLSRFKRSLWLLLPVGLTVLCISLFNLGRLLDKHHPAIMHQLGYGLAAIILCGLFSLLIH
+QLRDEPEDDDRRWS
+>tr|A0A1Q9AD57|A0A1Q9AD57_9RHIZ
+MGKRLLLATTAAALLAFAAGAQAKTVIKMMHQGDPGWVAAYGDLAKRFEEANPDVDIELI
+YAPHDAYNEKFSAAVMAKQLPDIMELDAPFLANYVWSGYLSPIKDVIDADVLSDMTESNI
+AQGTYVIDKQLYGIGLTDSSVVLYGNRKYLEKIGARIPKSVDDAWTREEFEANLEKLSKL
+DGVKWPIDTFRGYGIKTEWITYAYSPILQSSGCDLIDRKSWKSEGTLDSQACVDAMTMMQ
+TWVNKGWIVPQSAGTNQFYAEGHPAALAFGGHWFYAEAAAAMKDDVVVMPLPKFGAKGAS
+PDGTWIWGITTASKHPDIAGKFISFMLKDKAYRDYAKSQSAYPGLKSFAAESPLYAAGGP
+LAVAFEQASKTAIPRPPHPAYPAITAAYMQAVDKIFNKGDVKSALSEAAQKIDEDITDND
+GYPPFNGAQ
+>tr|A0A1Q9AGF2|A0A1Q9AGF2_9RHIZ
+MAEPLLLASASPFRRMLLENAGLAIEWLAARVDERALEAPLAAAGIAPDMLAQALADAKA
+LEVSARRPDALVIGGDQTLSLGARVFHKPRSREEAKAHLQNFSGKTHLLNSAVTLALNGV
+VVWRHVSQARMSVRPLSEGFIEGYLDRVGESVYLSVGAYQLEGLGIQLFEAIDGDYFTVL
+GLPLLPLLAELRKQGRIDV
+>tr|A0A1Q9AND9|A0A1Q9AND9_9RHIZ
+MHLLLAQKGTIADGEEAIDLGQSPGDLLFLSAADTELSAVAAAHGALMAQRQSGLTLRVA
+SLLALKHPMSVDTYVARMVAKARLIVIRPLGGASYFGYLLEAFHAAARAHGVAIAVIPGC
+EKPDPGLAVFATVGDEDRAALWDYFLQGGEANMRGFLAYAEALVSGGDKPPAASPLLKAG
+IWWPGRGMIARAEWQALLAASHDHAASASAQPQGSMSRPLAALCFYRALVQSGETAAVAA
+LVEALRAEGLDVLPVFVASLKDAVSVATLETLFAATPPDVVLNATGFAVSAPGADRKPTV
+LEASDAPVLQVVFAGSSRESWEASGQGLLARDLAMNIALPEVDGRIISRAVSFKSAGRYD
+ERVEATLLGHEPVADRMAFVASLAANWARLRRTPRAQRRVALLLSNYPSGEGRIGNGVGL
+DTPEATAHVLAALSEAGYALENLPADGAALMARLTVEDGGRATYSIKDYKDFLRGLPVQI
+QDEVTARWGAPEADPSVVDGAFRLKLLRLGNVALAVQPPRAPGLDPKDSYHAADLVPPHG
+YLALYAWLRRQFKANALIHMGKHGTLEWLPGKALALSARCYPEAILGPLPHLYPFIVNDP
+GEGTQAKRRTAAVIIDHLTPPLTRAESYGPLKELERLVDEYYDAAGGDPRRLKLLTRDIL
+GLVRDLGLDSDAGIRPGDGEADALKKLDAYLCDLKEMQIRDGLHVFGRSPEGRLADDLVT
+ALARATRGEGTGAGSLQRAIARDLGLQADDGTAFDPLDCDAAAAWTGKRPEALAALADGS
+WRSAGDTVERIEALASRLVAGAMPVPEDWRETAAVIAEVETVLKPAVAACGPAEIDGLLR
+GLDGRFVAPGPSGAPTRGRPDVLPTGRNFYSVDSRAVPTPAAYELGRKSAELLIRRYLQD
+HGDWPTSFGLTAWGTANMRTGGDDIAQAMALIGTRPVWDPSSHRVTGYEILPLALLGRPR
+VDVTLRVSGFFRDAFPDQIALFDRAIAAVGALEEDEGDNRIAARMRADAARLTAEGLSER
+EARRRAAWRIFGAEPGTYGAGLEHLLGRNALPDRESIAKAYLDAGGFAYGAGEAGTQARD
+MLESRLRTVEAVVQNQDNREHDLLDSDGYFQFEGGMGAAVATLSGAGPRHYHNDHSRPER
+PVIRSLEEEIGRVVRGRVVNPKWIAGMMRHGYKGAFEIAATVDYLCAFAATTGAVSNHHF
+EAVHRAFVLDEAVRDFMEAHNPAARADMLARLDQAVEAGLWQPRSNSARFGLRAAAL
+>tr|A0A1Q9AFQ6|A0A1Q9AFQ6_9RHIZ
+MTTANDILKQIKDNDVKFVDLRFTDPKGKLHHVTMDVSCVDEDMFADGVMFDGSSIGGWK
+AINESDMVLMPDPATVHMDPFFAQSTMVVVCDILDPVSGEAYNRDPRGTAKKAEAYLKSS
+GIGDSVFVGPEPEFFVFDDVKYRADPYNTGFKLDSNELPSNDDTDYETGNLGHRPRVKGG
+YFPVPPVDSAQDMRSEMLTVLAEMGVVVEKQHHEVAAAQHELGVKFDTLVRNADKMQIYK
+YVVHQVANAYGKTATFMPKPIFGDNGSGMHVHQSIWKDGKPTFAGDEYAGLSESCLYYIG
+GVIKHAKAINAFTNPTTNSYKRLVPGYEAPVLLAYSARNRSASCRIPFGSSPKSKRVEVR
+FPDPAQNPYLGFAAMLMAGLDGIKNKIHPGKAMDKDLYDLPPKELKKIPTVCGSLREALE
+SLDRDRKFLTAGGVFDDDQIDAYIELKMAEVMRFEMTPHPVEFDMYYSV
+>tr|A0A1Q9AC81|A0A1Q9AC81_9RHIZ
+MQIAFYAPLKSPDHPVPSGDRLMARLLIAALSARGHRVTVASTLRAFGATPEAVMEGGAA
+ARAEVERLTALYESEGGPDLWFTYHPYYKAPDRLGPAIARRFAIPYVTAEASYSARRDRA
+GWAEAQALVRAAVSEAALNLCMTDRDRAGLIDAIPQARVARLAPFIDAARFLALPPRPEP
+GHLVAVAMMRAGDKMDSFRFLAEALALLDRPDWRLTLVGGGPLEAEVRALFARFGARVTF
+AGERPAEEVAAILSTAALYAWPGCGEAYGLAYLEAAASGVPAVAQAIAGVPEVVMAGQTG
+LLTPAGDVAAYAEALARLLAEPALRDRLADGARRFVTEERDLGRAADRLDALLRPLVSPL
+ARL
+>tr|A0A1Q9AGJ8|A0A1Q9AGJ8_9RHIZ
+MLFDCAAQPFFTVVTTFIFGPYFVARLAADPQAGQAWWSLMLTITGIVIAVLSPILGALA
+DQTGGRKRWIGALALVKIVSLFGLWFAAPGSGLMLGFVCMIFATLAAEFSIVFNDAMMPR
+LVPPAEVGRVSNLAWGIGYLGGMVVLIVVILFLAGNPATGRTLIGIEPLFGLDAAKGEDA
+RITGPIAALWYALFILPMFLFTPDPRIRGHRAGAAIRNGLSELKQTILSLRNRPGLTRFL
+VARMLFQDGVNGLIALGGAFAAGMFGWGTTELGLFGIILNVVAIGGCLAAGRLDRMVGAK
+RLVVASLICLVIATLGIVGTGPGFTAYELMPLSTDDLGGLFGTAAEKAYILYGLLIGLAF
+GPVQASARAYLARSVSPQEAGRIFGLYALTGRATSFLAPAAVGLVTVATGSARLGMATLI
+LFLVAGLILLATTPYPAERVKDGEGTVV
+>tr|A0A1Q9APU7|A0A1Q9APU7_9RHIZ
+MALGASHRLQDGVDAVETMTRFALAVLALASGVYTYLGVRSILDGSPTAVFFAALIYSSA
+VSVAIYAFWSYMARFYPHVTSASGRGAMLGVMALGCAMIIAMSSWLNAAALAGSAALEQH
+LAETLEDYTGDLDRAHQNALAAQSLLPDIQRTQERFNRLAEQERATGALTGTTGAGSVVQ
+LLSQMAAQLKELDTGINASRERVTTLFDQGRKHLETMRGLVSSPGAIGPRADQFASEAVA
+LTGVVTSLEQTSIAPSVKRAAEDLSLGFIAPVADGQEAGLADRQDKVMETIRTSVAAQSK
+VLSAAADEILARAPVGERRFVPLSSAEAVLRYAADFIPSWAGAISIDLLPAVLIFMLAIV
+HGAIRRQEERLPFAERITAAELLQALEVQKAVTAGGIDLAALAQGPAAPEGAEEDRSTNV
+TPLDAAPKTPRKSPPA
+>tr|A0A1Q9ADB4|A0A1Q9ADB4_9RHIZ
+MAVDTDITGPVRARRSWRDVDLRAVAPFVALALLILIGALVNPNFIGITNLANVATRAAF
+IALIAVGATFVISSGDLDLSVGSMVAFVASLMILFMNSGAIADPGMMIAAAMLLALVVGA
+LCGLANGLITTVGRIEPFIATLGTMGIYRGLTTWLSQGGAITLRSPEQQALYRPAYFGSV
+LGMPVPILVVLVVTAIAAIVLYRTRYGRHVTAVGSNRDVARYSGISVDRVRIAAFVIQGV
+CVAIAVMLYVPRLGSTSATTGILWELQAITAVVVGGTALKGGAGRVWGTICGAFILELVG
+NIMLLSNFISEYLIGAIQGTIIIIAMLVQRSLARKA
+>tr|A0A1Q9AJW6|A0A1Q9AJW6_9RHIZ
+MQISVRKFVVSVDEIFHEGGPVAETPLKRAAILAVIENPYAGAYVEDIMPMMEALKPIGL
+DMAARLIAALGGDPANVEGYGKGAIVGTAGELEHAALWHNPGGYSMRELLGDARAIVPSA
+KKVGAPGTRLDVPITHINASYVRSHFDAVEVGIGDAPRANEIVLALAMTTGPRIHARVGG
+LKASEIKGEDGLR
+>tr|A0A1Q9ANL5|A0A1Q9ANL5_9RHIZ
+MLLALADVTKRYQTAEGPLTVLDRLSLTLDRGETLALTGESGSGKSTLLHLAAGLDRAEG
+GRVLIDGADLGALNDAGRAALRRHTVGLIFQQFNLIPSLTVAANLAFHARLAGKSDPAWQ
+SALARRLGLDGLLTRYPEQLSGGQQQRVAIGRTLAARPKLVLADEPTGNLDEATGDQVIA
+LMLSLVAESGAALLMVTHSQRLAERLGRRIHLTGGRIL
+>tr|A0A1Q9AEP7|A0A1Q9AEP7_9RHIZ
+MTNERAGEGPGRVGQVKEITSLSNPIIKDIKALALKKTRDETGSFMAEGLKLVIDALALG
+WTIRTLVYSKEAKGKPQVEDVAVRTVAKGGLVLEVSAKVIGAITRRDNPQMVVGIFEQKL
+TKLDSLRPTLGETYVALDRVRDPGNLGTIIRTADAAGASGVILIGETTDPFSLETVRATM
+GSVFAVPVIRASQADFLAWRRKADVSIVATHLAGAVDYRTIDYKKKPVVLLMGNEQQGIP
+DELAKAADALARIPQAGRADSLNLAIATGVMLFEARRHLLSLEARG
+>tr|A0A1Q9AKS8|A0A1Q9AKS8_9RHIZ
+MDLFYSPASPYSNKVRMAAHHLELPVTYRLTDTAANPPDLLGNNPLGKIPTLVLEDGTAI
+YDSRVIMQFMDRETGGKLYPRRHDKRLKAEMLESLCDGICDSLLAIVYEKRFHPPEKVHE
+PWMDRQWDKVTRALDLLNADLPKPSAKLHGGHFALAAMLRYLDLRFEGKWEKGRKKLAKW
+PKKFAEHFPDYDRFKA
+>tr|A0A1Q9ANN7|A0A1Q9ANN7_9RHIZ
+MSTTPKIWNEAGFVSDDPWVIETEETKAGHNERPLLPLADFLAKAGDGERELGVLIAPAD
+DVIALQPFLDRIALVALSFPAFNDGRGFSHASLLRSRLGYHGAIRAVGDVLIDQIPLMLR
+CGIDSVAVTNATAIKRLEENCLPGIPHHYQPTAKPADKAGGYSWRRVS
+>tr|A0A1Q9AP95|A0A1Q9AP95_9RHIZ
+MRDIAWTGLRLAVLLPCYNEGPTILSVVTGFRTALPGARVYVYDNNSTDDTVLRAELAGA
+TVLREPRQGKGHVVRRMFADVEADLYVMCDGDGTYRPEDAPDLVRRLLSEGADMVVGTRR
+GVTADAGRQGHALGNRLFNRLYRGLFGADFTDIFSGYRVFSRRFAKSFPAVSGGFEIETE
+MSVHASRLKLPVAEMVLDYGRRPEGSTSKLSTWRDGAKILWMFAMLMKETRPFIFFAALA
+AALLGLSALLAVPVLIDYAETGLVPRLPTWMLSLVLSLMGCLMLMAGLILDSLARARAEQ
+LRLHYMQLPSPARLLDDLAAATAMEEREPTVVPIGKAGAA
+>tr|A0A1Q9ACJ3|A0A1Q9ACJ3_9RHIZ
+MLDVGVASAALTYERLTLDQVGRLLVIKGEFEPSDDPMRLVAEYAQFQPTLITFDSNGGS
+VVAAMKMGRAIRALNVNTIQIRSSQCASACALAFLGGVKRSAEAGSIGVHQAFFSDDVGV
+DQKTAVATVQALTGEIIGYLSDMGVSAKLLQLSLSIESSDMRYLTSAEMREWGIVTVDAA
+PAAAQAGFVSVVPAPGSSSSPPSEQAANLPAASSPADRAVEFVRRYHDAWSDGNSTALTF
+MRGAYEDQVDFYGKVVGRDVIIKEKTTFAQRWPERIYSLKSGSESVRCAENCNVSGVVEW
+FARSRERAKTSSGMAEFSFVWNPTSGKIESESGKVLATDKGAKAPDRVINQWHVENSKCR
+GSTNADSPKTQQACKRREEVGAMLDRIGWCYGHKEEYGYQMRWHVCDANSNRPQ
+>tr|A0A1Q9AEY6|A0A1Q9AEY6_9RHIZ
+MAVFVALGAHLGSSTSSYAASQGCGGASWYALGSRTASGEKMNAATLTAAHRNLAFGTKI
+HVINKRNGKSVVVRVNDRGPFIRGRVLDLSKAAAREIGMVSSGTANVCYNVIG
+>tr|A0A1Q9APR2|A0A1Q9APR2_9RHIZ
+MRRLLRPSYIPAVIALAVILTAAFFAERQNASVNEVRSRAMVAERLTAIRSKIERGITDD
+VQLVRGLAALIAARPDMIEADFPRVAREIASQSSYLRNLALAPDMVIAQVYPRAGNEQAL
+GKDYRLIPQQRETALRVRDENRMILAGPMNLIQGGYGLSARFPIRVEDGTSGGRFWGILS
+AVLKIDQLYRDAGLMESELDLALSGRDGTGAQGPVFFGAAEVLQRNPVRLTIDLPGGNWV
+ISGTPAGGWPHSPPNLWTVRMAIAFAGLLLLVPVYTLGRLMDERQQHITILTQKEERLSA
+LSHRLRIALDVSETGTWEWDLARDVVFMDRRMQEIYEFHEDEDPGAALWRSRLHPLDRED
+TTARVHEALRTRQPYQIQFRIIVPDKGVRHIRSIGSPYTDAKGIQRVAGVNWDITADVAK
+TESLEEARRLAETRSREIEAARHRMEFNALHDPLTGLPNRRYLDQKLNALSLESLAISIF
+HLDLDRFKDINDTLGHAAGDQVLRHAADILRSKMRAGDFIARIGGDEFVVIVTNNSLPDQ
+GETLAREIIAAFHAPLPYHGHECRIGVSIGIARQAEAETPEQLLVNADIALYEAKRDGRG
+RYRFFTPALKAAALTTKKVGDEILRGLERGEFIAYFQPQFSPVSLDIVGVEALARWQHPT
+RGLLAPAAFLETAEEIGVVSRIDDSILDCGLEALHSWDAGGVSIPKLSVNLSHSRLMDES
+LPERLEALDLPAGRLSFELLESISFDDWDNRIMATIKRIRAMGIELEIDDFGSGYASITS
+LLKLTPNRLKIDRQLVMPILSSNRQLRLVSSIIDIGRALGIDVVAEGVETRNHADVLRAL
+GAHALQGYAFARPMSKEALTAFVSEQSWKAA
+>tr|A0A1Q9AJS1|A0A1Q9AJS1_9RHIZ
+MASGAKGGRPLALTNLRVIDPSRNLDETGAVLIEDGRILAAGRDALNQGLPEGAQTRDCS
+GLLAVPGLVDTRVFVGEPGAEHRETIASAARAAAAGGITSFVAMPDTDPVIDDVALVEFV
+LKTGRDKAVVNVHAAAALTKGLHGEEMTEFGLLSEAGAVCFTNGREPVHDTLVLRRAMTY
+ARHFDAVIALETRDRYLGAGGVMNEGLLASWLGLSGIPREAEIIPLERDLRIATLTKARY
+HAAKISLPESVEAISAAKARGANVSAGISINHVTLNENDIGEYRTFFKVSPPLRGEDDRR
+AMVQALASGEIDLISSSHDPQDVDTKRLPFADAADGAIGLETMLAAALRLHHSGEVPLMR
+LIDALSTRPARIFGLEAGTLAPGARADLAVIDLEEPWVVAREHLLSRSKNTPFENARFTG
+RVVETYVGGKRVHDGRA
+>tr|A0A1Q9AH50|A0A1Q9AH50_9RHIZ
+MGVVIPLEDGKSKPASVKPLVDLTKADMERVNQLILSKAGSDVEMIPEVANHLISSGGKR
+LRPMLTLAAASMLGYEGDAHIKLATSVEFMHTATLLHDDVVDESDMRRGKSTARMIWGNQ
+ASVLVGDFLLGQAFRMMVDVGSLEALDVLSTAASVIAEGEVLQLSVAKNMETTEDDYLAV
+IRAKTAALFAAAAEVGPIVAKTDRAQRNALKSYGMNLGLAFQLVDDVLDYGGSSADLGKN
+VGDDFREGKITLPVILSYRRGSQEEREFWRRAIEGGETGDANLEKALGLINRYGALKDTI
+ARAEHYGTIARDALAPLPASAHKQALLDVIDFCIQRVN
+>tr|A0A1Q9AK50|A0A1Q9AK50_9RHIZ
+MIDWPAGADAKQPHVLIMDTTPLSVLAIIEGLDWLFAPGCPVMITDMVLAEATRDPGEGR
+NLRRRTRTYVAQWLEQNRHRITILSTVDGERYGREMQLWEKAGKPAELRPDWSDRGERSV
+LSAIQDLKRALAQNEEIIVIMDDRDGRDAVRAIRADITLMGTRSFIRWMEEDFGIAAAAT
+AWQTVRQATAGTADDGEEDDPVHIRPA
+>tr|A0A1Q9AP46|A0A1Q9AP46_9RHIZ
+MISLADEAWFKAAPLRRIFALLDAEGGEARIVGGAVRDALMGRPVSDIDMATTLLPQAVL
+ERAEAASIKAVPTGIAHGTVTLVIDGKPFEITTLRRDVTTDGRHAEVAFSTDWEEDAQRR
+DLTINALYADAQGRITDHVGGLADIESRTIRFIGDASARVAEDYLRILRFFRFFAWYGAG
+RPDAEGLRACARARDHLATLSAERVWSELKKLMTAPDPGRALLWMRTVGVLTALLPETEK
+WGIDAIPGLVEAERAFGWAPDPLLRLAAMLPPDAERIAALCQRLKLSKAETARLTRWAAC
+LPIPDGTAESALDRRLYREGPDGAIMRLRLDLALAHSKRETETAALPRIAALQRLLARAE
+RFEKPRFPLSGADVLAAGLAAGPKVGELLAGLEEAWVAENFAADRKTLLARLQAEADKAG
+N
+>tr|A0A1Q9AGS1|A0A1Q9AGS1_9RHIZ
+MDHGSRPKQRSALRLIEPELTLARRGDGPDPRMVELARLLARRAAREVYEEQMRERRPTR
+S
+>tr|A0A1Q9AM82|A0A1Q9AM82_9RHIZ
+MSMIAHDHADRMDRMYRYQRYVYDATRKYYLFGRDTMIGGLGVQPGQSLLEVGCGTGRNL
+VLIGRRYPRARLYGFDISREMLATAERNLAGLSDPAPVLRQADAGNFSADSFDVDGFDHI
+VISYALSMIPTWQAAIECSLDALAAGGRLHIVDFGQQERLPRVAGTLLKAWLQRFHVTPR
+AELFRQLEAACAARGMQVSARRLGGGYAWLATCHKP
+>tr|A0A1Q9ADK5|A0A1Q9ADK5_9RHIZ
+MHERERHRIILSAVQEKSVVTIQDISDLTEASEATIRRDIASLHVQGKIRRVRGGAEAVH
+PPQLGNLAGRPFKVSESVNIDKKRAIARAAVDLCDAGDAIIINGGTTTFQMVHYMLGHRM
+QVMTNSFAIAEHLIKHSKNAVTLPGGAVYREQSLILSPFENDAIRNFYARRFFIGAQGIG
+PLGIMEADALIIQSEQKLMQQADELVVLADSSKFRRRSSLILCPLERVTTLITDDQMPDD
+AAAMVEARGVKLIVASPAAQSAAGNEEDSSVA
+>tr|A0A1Q9AEN7|A0A1Q9AEN7_9RHIZ
+MVNRLRIALVLLTLVLVTALLLPAQLIFLWCDWPARRRLPRLWHRIACRLLGLKVHVHGR
+VETERPLMLVSNHVSWKDILVLGAIADVVFVAKAEVRDWPVFGVLARLQSTIFVAREEKR
+RAGEQANEIGRRMAAGEIVVLFPEGTTSDGNRLLEIKSALFGAATSALPASPTGIVHIQP
+VSIAYTRVHGMPMGRYHRPIAAWPGDVELVPHLLGVLREGAIDVEVDLAPALPYDAKSNR
+KTTSRMVEGAIRAMLTARLRGR
+>tr|A0A1Q9AD17|A0A1Q9AD17_9RHIZ
+MAKGWLRAVAEHEGLRDRVEIAGLVDLNLDTARALADEFGLSGAVIGSDLGQVIAETGAE
+LVFDVVVPVARAAVVETALAHGCHVLSEKPMAASLDEAEAMLERAKAAGRIHAVVQNRRY
+IPGIRRLKAFVESAAIGDLTGIHCDFFIGAHFGGFRDVMEHVLLLDMAIHTFDAARFVSG
+KAPLAVYAHETNPAGSWYRDDASAFAIFEMADNVTFTYRGSWCAEGANTSWESQWRITGA
+QGTLLWDGADSFIARRVAEDEGFLRAQEEIIVPGAPDLSETHGHASVIAAFLTAVETGTP
+PETAGDDNIRSLAMVFAAIESAERRARVVISPL
+>tr|A0A1Q9AFI1|A0A1Q9AFI1_9RHIZ
+MFVVVTHLRSEGNAGNIQDYPYGVLSIIKHNKGLADFDIIDVAVNNDNLPQLEERLRQKL
+QSFQPEILGISVMFDNAYFAIAPIIQLTKDVLPTCLVVCGGPAVSPIAKKILQNQPGLDA
+VCFSEGELPFQDLLMADDLFKAVDDHPSWVSRKDMDSAKGPQKKLLNDLDQVIDIDYSLI
+DVFDYERRVSFNPLDDRYLDNLRAFPIVTSRGCPFKCSFCWHSGENDKSMRYAGVDELIA
+HVEKIIALYGANCLIFYDDMLLLARDRAKEIFRRLAPYNLRIELPNGLSPTYMDEELVEL
+MYKAGVRSVRIAVESGDEWVIRNLVNKPMKIAHVQPVVDALRKYDIWVVAFIVVGLPGET
+DAHRKTTREKIIEWGIDLCSISVASPIKGSLLYEQCLKEGYIDPNAEFQVSGFLFGENVI
+NTKEFTAEYISDAAYLMNLDVNFVNAYRLQKGDYAAAASYFQYITRTYQNHAFGHYCLAL
+AKAHLGERALAEKHWLEARRIGESDPLWGGYFRHFDIAFDDRFEDFLSGISIQTLHSTLA
+DLRLVPEQGVLAGHVA
+>tr|A0A1Q9ACX5|A0A1Q9ACX5_9RHIZ
+MKLYTSTADVEQPEGFEAGYLDMQDVLAVLRRQGRMILLVILSCLCFGGLFLVVTQPFYT
+ATLTLLLDLDGDLKSETRNEADRGWAKININYNDPYIDTQVRLFQSYAILDKVIDRLDLL
+DNGEFVASADALDNSLFNLRFSLLARIGLLEGRKVRAEVQDKRSWARDALLNGLFIQRVG
+DSTILRVSFTAATPTLSAQIVNAFGKAYGEDILNARYEATQLASQWLQERLVELRKKAID
+SDMAVQTYRSQNKLLETYDKDIKDSQPLIDQELRALNEALTSARAEEASARARYDQIKGM
+IDGGAWQSQVAGSLANFISNDLRLRYLEASRREADIARRLGADHIQAQDLRRQMDIYRGQ
+MFDELKRVASSYLSEATISAQRVVSLEQGLQNAMASHSVSAQKEVQLRELENKAQNYRDL
+YEAALTNYRTALSLQGLPVSRSRIITPGSPPDSPNYPNRAMFMGMWLMIGVLTSLVVCGY
+REYRDRTFRTEEQVESWLSLPFLGMTPRITEGSGEERRDAGIEVLARQAIEAPLSLFAET
+LRSAKVTIDIELPEQSRVVGIVSTLSAEGRSTIAMNFARLLADQGHRVVLVDADLRRPRA
+GGVLAHRAKAGLVDVLIGRASLAQALAEDSGTPLKVIASGAAQRVPHSASLLESRQMQAF
+LSELSQSFDYIIIDLPPLRTAVDARAISPFVDRFIYVVEWSRTSRRLALQTLDVEQEIAA
+ACAGVVMNKVDASRAPLYLRPDFLTKHAATAGAPA
+>tr|A0A1Q9AHT4|A0A1Q9AHT4_9RHIZ
+MKLIQITDTHFSPTKRHFNGNWAPLLAWLETEKPDLIIHTGDLTIDGADQEEDIAFSLAL
+MRQASAPMLILPGNHDVGHLPGSPQPVDRRRLDRWNGLVGADRFVHDIDGWRLIGFNSLL
+LGMGDAAEEEQLDWLATAMAGAGTGGQARRIALFTHKPLFVDAPDEGDTGYWSIRPAPRA
+RLLALMERHDVGLFASGHLHWAWQGHYQRTALTWGPSAAFVIDKIEREMPGERLVGAVVH
+EFSGAALESRIVKVPGMVAHVFDDVIDEIYPRAAAPALEAAS
+>tr|A0A1Q9AIN8|A0A1Q9AIN8_9RHIZ
+MLATKRSPLVWVVHLSVLLLVVLWTLPTAGLLISSLRDKDQLAVSGWWTALSTSTQNLVY
+RAPGAEAQTQKDGKFVISGNVLEGSNAKVSAFGFSSREPAAFPAGQTATLGDGGQLTVRD
+DGSFDIVSDKSFEGGRGQRIFVTASVPPRFTLDNYREVLKAAGIGTSFINSLTVAIPATI
+IPILIAAFAAYALAWMQFPGRAVLVAVVVGLLVVPLQMSLIPLLRLYNSVGGMLGVPAKT
+YAGIWLAHTGFGLPLAIYLLRNYMAGLPKEIMESARVDGASDFEIFVKIILPLSFPALAS
+FAIFQFLWTWNDLLVAMVFLGAGDQELVLTGRLVNLLGSRGGNWEILTASAFITIIVPLL
+VFFGLQRYLVRGLLAGSVKGG
+>tr|A0A1Q9AHS8|A0A1Q9AHS8_9RHIZ
+MNSQDDKAENLKTAARLIEDAVRSDNPDLVILPEYFAFLGDNPAEMHASGEEFPGGEVYT
+LLSGLAKQHGITLHAGSIVEKEGNNFYNATLVFGPDGQQIARYRKIHLFDVDTPNGISYR
+ESDSVARGEEVVTYAVGDRTVGCAICYDIRFPELFRALRDKGADIIVLPAAFTLMTGKDH
+WEVLARARAIETQTYFMAVGQIGTHAAGRKACWGHSMVIDPWGHVVAQCSDRVGFTSASL
+DFDHTATVRANVPVAQHHVL
+>tr|A0A1Q9AIU7|A0A1Q9AIU7_9RHIZ
+MSIYGMMRTGASGMDAQVNRLSTVGENIANANTTGYKKASTEFSSLLLPSNGSYNSGAVE
+TKVRYGISQQGPTTTTTSATDMAINGGGFFVVSDANGANYLTRAGAFTQNSTGELVNTAG
+FTLMGYKYVEGQDPVQTVNGFGGMVPINLASEGLKAKGSATGSMGSNLPSGDATGAKYST
+SLSVFDSQGNARLMDFNYEKTADNTWQLNVVDRASSTVLGTNTLTFDANGKLVSGGSVTM
+NGSLLNNASGSIGGSGSVLGNIAIDLSRTTQLGYKFSPDGGTIDGNAPSKVKSVSIDRDG
+VVSVRYENDKLEPRFRIGMANVQSPDNLVPQPGNVYSQGVDSGVIVTGFANVGNFGSISS
+GALEGSNVDMANELTDMIASQRSYTANSKVFQTGSDLLDILVNLKR
+>tr|A0A1Q9AMT4|A0A1Q9AMT4_9RHIZ
+MTSAAAVVAAAFPSGDMTMSKLIVAQPYYDGRIRMVGDEVEIDNADDRKSLIARQIVAIV
+QGGTEGEALRTDGPTVAEYVAAGYRAANYPPSGYASRSTAEEIAKAIEDEKAAEEKADTA
+AENKMEPEAENKAEPVASDTAEPQAESTTAEESAPASKRTRKAD
+>tr|A0A1Q9AMF2|A0A1Q9AMF2_9RHIZ
+MKLPQSIGLVHFIGIGGIGMSGIAEVLHNLGHKVQGSDQSDSANVQRLRDKGIEVFVGHQ
+ADNLGEAEVVVVSTAIKKTNPELIAAREKLLPVVRRAEMLAELMRFRSSIAIGGTHGKTT
+TTSMVAALLEAGNLDPTVINGGIINAYGTNARMGEGEWMVVEADESDGTFLKLPADIAVV
+TNIDPEHLDHYGHFDAVRAAFRQFVENVPFYGFGVMCLDHPEVQTMVAKIEDRKVITYGE
+NPQADVRFLNIRMDGATSIFDVSIRRRRTGQTIDLKDLRLPMPGRHNVSNATAAIAVAQR
+LGISPEAIARGLAGFGGVKRRFTFTGEWNNVRVYDDYGHHPVEIKAVLRAAREACQGRII
+AVHQPHRYSRLHSLFEDFSACFNDADTILLAPVYAAGEEPIEGATSQELVSRIKAAGHRD
+ARFVEGPEALAPIVSAIAQPGDFVVLLGAGSITSWAAALPRELAGMAGKTE
+>tr|A0A1Q9AHK8|A0A1Q9AHK8_9RHIZ
+MFTHIMIGSNDIDRSQAFYDATFAALGGKPGEKDARGRLIYSHEGGRLMITTPIDGKPAT
+AANGGTIGIAAASAEHVRAWHDAGVAHGGMSIETPPTERPNGVFVAYLRDPDGNKLTART
+RAKS
+>tr|A0A1Q9AFV8|A0A1Q9AFV8_9RHIZ
+MNDRSFSLVRRLGAALLLSAAIALPVSGHAADEVSVGGKNFVNHGLVAIGRIPASQRDAL
+GETFGSGSGMAIDPSSWTRDGDSYKGTVYLLPDRGYNVEGTTDYKARLNKIAIEMTPVAP
+GAKPAAGQEQTGVKSKLEGLILFTDEKGQNMTGLDPVAVRPEQGAMPILPQAENGKISLD
+AEAIVRLPDGSMFVSDEYGPYIYRFDAEGKLLSATQPPKAILPMRKGQVNFSSNNPGKGQ
+TAPDPKDPDTGRQNNQGLEGLSLTPDGKYLIALLQSATRQDGGDSSSTRFTTRALVYDAA
+DPAKLKLVHEYAVLLPTFQNKDKTAVAAQSEILALSDKQFLMLARDSNNGQGVKGDTSKY
+RKIELVDLNGATDIAGTAFDGEKPLAPKGVLDTSVTPAKWADFIDINDNSQLNRFGLHNG
+APQDKNDLSEKWESMAVTSVLDPKAPDDYFLFVVNDNDFLTQDGHQVGADYKAEDGADVD
+TMFQVYRVTLPGVRQK
+>tr|A0A1Q9AJG4|A0A1Q9AJG4_9RHIZ
+MSRIGKKPVQVPAGVTAAVNGQTVTAKGPKGELTFVANDEVSVALENNAVVVAPVSQTKD
+ARAKWGMSRTMIENIFKGVKDGYERKLEINGVGYRASMQGKNLQLALGFSHDVIYQTPEG
+ISIAVPKPTEIVVSGINKQQVGQVAAEIREYRGPEPYKGKGVKYAGERIVRKEGKKK
+>tr|A0A1Q9ALJ2|A0A1Q9ALJ2_9RHIZ
+MLFQEFQKWISLIKITKSMTMRKYLMNQSFLVSCAIIKLKLFLFLMLLNLIFLMKIASGK
+RFISLRVGRS
+>tr|A0A1Q9AQ73|A0A1Q9AQ73_9RHIZ
+MRAGIRGDSQAYHRFLADVTPYLRAAARRGCARASVPVSEAEDVVQDVLIALHLKRGSWD
+PARPLGPWLQVILRHKLIDAFRRRGRTASVAIDDFAELIAAPQDEAIDDRRDAMRLLRQL
+KEGQQEIVRSISLEGQDVRETAQRLNMTEGAVRVALHRALKTLARLYHGGQNENG
+>tr|A0A1Q9AFZ3|A0A1Q9AFZ3_9RHIZ
+MLSEEGEAAQALTHVPLTWAIAEDGTYLAMLGAHLMAQVLPMSDGDGWRWRITNCNGEGQ
+SDFQSSSGLEEAKRSVQAGIETWFRDAGLLCEG
+>tr|A0A1Q9AJW3|A0A1Q9AJW3_9RHIZ
+MQRIILDVDSAGDDILAVLFAAAHPEIILEGVTTVTGAAGPIKQVTDVVLNTLSLAGRND
+IPVHAGAWRPIVGHAKAAMEAPVHFEKRLTARFGERLKLFNPPAPEPVRKANPGHAVDFI
+IETVRANPGEITLITTGPTTNAALAFLQDPALPSLLKNMLVLGGNFTTPGNMTPLSEYNI
+WADPEASRIVLNADVDKILVPLDVCEDNRVADSMLTRDDIADMAAVARDNPVVGMIEQVF
+PIYIDIWREFFGLVGFPMDDVITVALAFAPDLVVTTAPLFADVVIEKGVARGQVVAYRGF
+QILPGGDGARTTRIATGLDGRRFLSIFKSTMARYERASVCAA
+>tr|A0A1Q9AML0|A0A1Q9AML0_9RHIZ
+MNKADLKPLPKLTSDDEAERFVETSDLTHYDLSGFKPVRFEFERKSAQLNMRVPASLLTE
+VKRQAAARNIPYTRLIREMLEEGLRRVKKTNRDDAKD
+>tr|A0A1Q9AIG8|A0A1Q9AIG8_9RHIZ
+MTAPEIKTTPDTVAAAFEDFMSAFEAFKETNDRRLDELETKLSSDVLTREKMERINRSMD
+EQKRALDQLILRKARPAIGGGDASAGEMREHKAAFEAYLRKGDEQGLREMESKAMSVGSA
+ADGGYLVPRETDSEIGRRLAVVSPIRGLATVRQVTGAVLKKPFALAGMATGWVAETAARP
+QTASPQLAELSFPTMELYAMPAATAALLDDAAVDVESWIAAEVDLAFGLQEGQAFVTGDG
+VNKPKGFLSYDTVADSAWSWGNLGYVATGAAGAFSPAGASDTLVDTIYALKASYRRNAGF
+VMSRKTQAEIRKLKDSTGHYLWQPPASAEARASLMGFPLTEAEEMPDIAAGSLAIAFGDF
+AAGYLVVDRTGVRVLRDPYSAKPYVLFYTTKRVGGGVQNFEAIKLIKFAAS
+>tr|A0A1Q9AF80|A0A1Q9AF80_9RHIZ
+MARSALLNVMVQAAFKAGRSLSRDFGEVQNLQVSMKGPGDFVAQAARKAEKILREDLMKA
+RPTYAFLGEEAGEIEGTDGSHRWIVEPLDGATNFLHGVAQFAIAVALERQGEIVASLVFN
+PALDELFTAERGGGAFLNDRRLRVAARRTLSDCVIATGIPYLGRSNHGTYLVELRHVMGE
+VAGLRSFGAPALDLAQVAAGRFDGFWERGLDPWQIAAGMLLVREAGGWVSDIDGGNKLIE
+SRSIIAGNEYIRKALQDVVHRPIPGK
+>tr|A0A1Q9AMH1|A0A1Q9AMH1_9RHIZ
+MQHRPEIDGLRTVAVLPVLLFHAGIPGFAGGYVGVDLFFVISGYLITGIILSAERKAGFS
+LLAFYERRVRRIMPALFAVMLACLPFAWFTMLPDQMQSFGKSLVAVCLFISNILFYLQTG
+YFAADAELQPLLHTWSLAVEEQFYVVFPLIMIATHRMPVRRRMGLLLALAVVSLALAQWT
+VAQDTSAAFYLPHTRAWELLTGSLAAFWLADRRQDGHEILAALGLAAIAFSVVAYDGATP
+FPSFYALVPVIGALLVILFAQPGTAVARLLSMKVMTGIGLISYSLYLWHQPILAFARIHS
+LTEPSRGTMLGLVLLTFPLAYLSWRFIEQPFRSRAATTRRSGSSALGVTAASAACVIAVG
+LFAQRDNGLAFRVPEGAQDAILAGKTLDPAMTHCLFDKGEASLPHPIKDCLTPGIAESPT
+ILIGDSHAGALAGAALRGFAAAGEPLYAMSHSACVGFSGFVVSDPKYRLRCNSFFTGIED
+YIARAKISTVIMLSRWTLYIEGTPFDNGEGGVEHRRPTFVDLYDRRDDMGGEDDPARKQR
+VLDQYVADIKAYLDRGINVVLVYPVPEAGWNVPDTVARAVMNGDPHPLLTTATPRYQQRN
+TAVIAAFDALEHPRLRKVKAAPVFCNWLVNNRCLNAEGIKDILYLDDNHLSDTGAALLVP
+DILKAVKSLRGETSQSAASSAGPVGLKP
+>tr|A0A1Q9AEW9|A0A1Q9AEW9_9RHIZ
+MKDGIRERLIVSLDAPDIQEARAVVERIGEAVSFYKIGYQLAFCGGLDLVRALMGEGKQV
+FLDMKLLDIDNTVAKGVERIAELGVSMLTLHAYPKAMRAAVDAAKGSPLCLLGVTVLTSM
+DADDLEEAGYAGTPEALVLKRAAQAREAGMGGIVCSAEEAGAVRAIVGPDMAVVTPGIRP
+AGAEAGDQKRVMTPYDAIRAGASHLVVGRPIMNAADPAAAARAILDDMLRAAWPANR
+>tr|A0A1Q9AQ40|A0A1Q9AQ40_9RHIZ
+MLPQGGIDRGSGVALWRQIADRLRQAIVDGEFGEEGAMPGEMALSARFAVNRHTVRAALA
+GLVEEGLIETVQGRGTRVRSIKRYTFPISRRTRFSEGLAGQFRDRQVTVIEETTVPASER
+IAAELRLAPGHPLLRLVLVSRVDGLPLSNSTNYFDAKRLGQMGAQVRETGSITRAYAALG
+IADYVRRSTEITARLADERERALLELKPGAVVMEARAVNDTPDGVPLQFAITAFAADRVT
+LSLGAPLEEPA
+>tr|A0A1Q9API0|A0A1Q9API0_9RHIZ
+MKADLLHRSKTVLADGAIIDMLIWRVPQPVPGSRHDFKYSLFSGRAGERIVCFDNEKPKG
+DHCHLDGVESPYIFVDVDRLIDDFLSEVRRRRG
+>tr|A0A1Q9AM34|A0A1Q9AM34_9RHIZ
+MIAEIDQDTQHNTATVDETAAAIRSLKEDDGDLWAHIAATKGAAADEALRLKASRHQHRK
+QIRTDGVPAFRYGMQPLSMAIDLMGL
+>tr|A0A1Q9AMJ3|A0A1Q9AMJ3_9RHIZ
+MTDAPFSGLIPDLTPPPILHGGGLTAALRHYGGRRGDWLDLSTGLNPCPPGLPPIGPEAW
+HRLPDESAVLEARHAARDFYGTGALLPLPVAGTQAAIQSLPALLAGGGRVAILAPTYGEY
+RRVFQAAGHAVDLVTDLDMISAEHRLVVIVNPNNPTGRLLPAATLLALADRLSAQGSMLV
+VDEAFADVAPQESLAGHAGHRPGLIVLRSLGKFFGFAGIRLGFVLAEPALLLRLDHLLGP
+WSVSGPALAVGAALMRGDAGAIRARILRRSQGLDMALSAAKVRHLGGTPLFRLIEVPDAR
+LVHERLARLHILTRRFEEQPTWLRIGLAPSAQADLRFGTALCDALAAPGPVPASAQESAY
+>tr|A0A1Q9AP97|A0A1Q9AP97_9RHIZ
+MSYEALKSAADALLAQCVSATPAVPGVVAVATDRNGNIYEGAAGLRSLDGEQAMTADSVF
+AIFSTTKAITGTACLQLVEDGLLDLDAPARDYAPEIGALQVIEGFDERGAPRLRPPKRDV
+TTRMLLLHTAGFGYDFFNETYNRLAEHHGQPSIITASHASLRTPLLFDPGDAWEYGSNID
+WAGQVVEGITGKRLGTVMQERIFAPLEMHDTAFVMTASMEQRLATLHQRSKGGHLTAVPD
+FRLPDEPEVHMGGHGLYSTALDYAKFIRMWLNDGQGPGGAVLKPETVRAAEKNGLGDMKI
+KGLPGVIPSLSNDAEFFPGMPKSWGLTFMINDELAPTGRPAGSLAWAGLANLYYWIDRQN
+GIGGYWATQIFPFADPSSVGGYLDFETIVYRNTVRAAE
+>tr|A0A1Q9AM73|A0A1Q9AM73_9RHIZ
+MNLALQHNLTSETLAYASDSALCDALQQAAFNYFIDYTDAQTGLVADASSPNTPCSIAAT
+GFGLACLPVAVERGWMTRDAALERALTTLRFLAGSRQSRDADATGYRGFFYHFLEMKTGL
+RAWRCELSLIDTALLLAGALTAAAYFHRSGGEAELRELADMLYARANWQWAVDGEGALAL
+GWKPRTGLLPYRWEGYSEALILYVMALASRSYPAPPESYHHFARRCDWQEIDGKPFLYAG
+PLFIHLFSHAFIDFRGIADGMCRDQGVDLFQNTQTAIAVQRDYATRNPHGFKGYGAHCWG
+LTACDGPQRSRRLFDGRRLDFAGYLARGAPFGPDDGTLAPWAPLACLPFAPDAALAGTRH
+LLSTYPNILRDGQFLGSFNPSVPGPGPEGWLDDRTVGLDQGLLVLMLENHRTGLIWELMR
+GIPLIRRGLGVAGFEGGWLEQA
+>tr|A0A1Q9AMI0|A0A1Q9AMI0_9RHIZ
+MNMAFRHSLPLLELDVLKTFVAIAETGNFTNAAERVHRTPSAVSMQIKKLEEMLNGALFL
+RDARSVSLTPRGEVLLTYARRLLALNNETVARFLLPDLNGSVRLGVVDDIAEWVLPNVLK
+AFAQCYPNIMVDVRIANSGVLRKLVDERRIDIAIYNQCCGNTDGSELLLRETLVWAGARC
+GSAYLRDPLPVSMWDDGCPWRVSAVKALEKAGRAYRIALLSAHTSAQKAALRADLAVAPL
+PRYLLSSELVALGEADGMPPLDDNQIAMCVIEDATPPITALAVHVRDAFHAIASGEWTAD
+RAKDAA
+>tr|A0A1Q9AEE6|A0A1Q9AEE6_9RHIZ
+MIEIKVGRGWSAIILDAVVMASALGAWTLTRATRVHGALHLSHTGLVYLTDKELDNLEGW
+RQVARLRSYYTCEVCGRPGRLRIGKTRARVFCGGHAHLVGELWPEHDGKIFELDNACQRF
+SPPAGYGDEIQEREDILRRWSEGQAEMRDVCDFLRIDRAEVYYSSLELGFRIHLVEHPHD
+EEHDEELAQLLGSIPENTRH
+>tr|A0A1Q9AG80|A0A1Q9AG80_9RHIZ
+MARIDQTDDWRDRHAPTISAFESLTMEAYGHLPDEFRALAQDLIIEIEDFPSEDVFEDMA
+LETPFDLLGLFEGRGIGERFTLETGQLPNKIILYRRPILDYWAENDETLGDIITHVLIHE
+IGHHFGLSDDDMERIEASVEHVGG
+>tr|A0A1Q9AGS3|A0A1Q9AGS3_9RHIZ
+MEDFVHMMMQRFGATGIALLMFLENVFPPIPSELIMPLAGYRATQGDMSIVTVIIAGSIG
+SLLGILPWYLAGRLLGEHRVKAFAARHGRWLTLTPADVDAADRWFREKGMMAVLFGRLVP
+TVRTLISVPAGIARMPFLPFLLFSAVGTVAWTSLLALAGYALGQAYDTVAAYVDPVSTTV
+LVAMVLVYLYRVVRYQPQS
+>tr|A0A1Q9AHQ4|A0A1Q9AHQ4_9RHIZ
+MSDGDEELMVRAAWYYYVGGLNQEATASRLGLTRARVNKMLGEARETGLVSISIDHQRVG
+VMPVETEIEQRFGLEFCTSTPAFGFDAMKADAELRQQIALRAVGVAAANHLKRLLEENDP
+ITVGTGWGRTIEQMTLQLAGVRAPHARFISMMGSLTANNAYNPFEVVHTLARRTGGEGFF
+LPVPFIADSVEDRKVLVSQRSVVKAMEIARSAAVCFISAGELTEQSLLRRQGMISRADLD
+SLHAAGAVGDTNGIFFDDCGRQVKHDLNDRTIALGFEELKRLKVILLIAGEEKAQAARAL
+LRSGMVSGLIIDGDAALRLEALGG
+>tr|A0A1Q9AE33|A0A1Q9AE33_9RHIZ
+MDAGETIRIAEDDEHPFADARYFEHIKKINEVFYDQIKISDQKAAYIFTFMLAFLISSSE
+GRGVFTLGHYREAALLTVFASGALAVASVFSIICAIFVILPRRSAKTTTMFWGAWEQKRA
+VFTQAALKGDLGYLFREYLDNADVLAGIARDKYRFVTLAFRGLVVTVLSYVILLMVG
+>tr|A0A1Q9AGT9|A0A1Q9AGT9_9RHIZ
+MADSDSSIRRHRRLPPLAALRAFEAAARHLSFRKAAEELAVTPTAVSHQIRLLEAVLGRA
+LFVRHVRRVALTAAGERLYPVFRDGFDSFEQAISALDPQSQRKAVTLTAPTLFTARRLLP
+ALDAFRSAHPGFDLRLHAADEVVDLHAGLADIAVRYGPGPFPRLVAEPLMSERFGVLCSP
+RLGLCHPDDLRTAVLIHTEWKRPGMAPDWQRWRRLSGATGLAIGEGPRFTDDGHALQAAI
+AGHGAVIASLVLARPEIEAGMLFQPFGPEIVGETYHIVATPENIACADVRAVRDWLADHV
+SGETPLRENRKPILGRSGGPE
+>tr|A0A1Q9AJN0|A0A1Q9AJN0_9RHIZ
+MLQLQDDEPVRPAERPVVPAMMRGFKGRCPACGEGRLFGAFLKPVDHCSDCGEAIHHHRA
+DDFPPYIVVTIMGHVVIAGYMATDVLLPLTSWQHLAIWAPVTLIGSLALMQPVKGAVIGL
+QWALRMHGFGGHPDRPEDVLPPAPEPRRP
+>tr|A0A1Q9AEB3|A0A1Q9AEB3_9RHIZ
+MTKQMMIGVALGNGYGAQNSAWRMPWVDPANYTSFDSQVRYAQAAERGKFQFLFLPDYPA
+LKGDVAMEAPWVSLEPMLTLAAIARETNRIGLVATGSTTFNEPYNLARQFKTLDIMSHGR
+VGWNAVPSWDPAVAANFGRQLPPREEKYQRLHEVVQLVQALWGSWERDAWVLDTASGQFA
+DPAKIKPINLSGRHVGARGPLPLPPSEQGQPVIFQAGGGGNGLEVAGRYATGVMGAPQTM
+EDARHQRSELRAAAQRAGRDPDEIKYFAGIMTTVASDRRAGLDRRILLTEHTFADRVVYL
+GQMLGLRLESASLDAPLSPEQLAAARPSPADPRSVYALQVAREGWNLRDVLAHGVIEFHP
+AIAGPSIEIADFMQAWFEADAADGFWVVPDVFEDGIDAFVDGVVPILQERGLFHRDYEGH
+TLRHHLGAPAQYGTDTRVLG
+>tr|A0A1Q9AIT0|A0A1Q9AIT0_9RHIZ
+MAQPPVSLPIPQIASRSREIGFALGIVMILSILFLPIPPFLIDLGLAFSIAFSILILMVA
+LWIKRPLEFSSFPVILLIATMTRLALNIATTRVILSHGHEGHDAAGSVIAGFASLVMSGD
+FVIGLIVFLILITVNFIVITKGATRIAEVGARFTLDAIPGKQMSIDADLSAGMIDENEAR
+RRRRELEEESSFYGSMDGASKFVRGDAVAGLLITAINVFGGIVIGYFRHGMDIGQAADVF
+VKLSVGDGLVSQIPALIVSLAAGLLVSRGGTAGSTDQAVVGQLSGYPRALMVAAGLMLLL
+AIMPGLPFLPFAALGGGMGFLAYIIPRQLAAAAKQKLEEEQAVAQQVRETEKDSVKAVLK
+MPEVELLLGKQVSTRLLGAHQELAFRVGKMRRKFATQYGLIVPEIKVTDDIGIPDKAYHI
+RIHGTTIASNTVRVGEVIVVTGGGRRPSVPGDEIREPAFGMPAVSILETFTEELKREGFH
+PIDNVSVVLTHLSEVIRNNLPQLLSYKDVKILIERLDPEYRKLADEICTSHMSYSGLQAV
+LKLLLAERVSIRNLHLILEAVAELAPHVRKTEQIVEHVRVRMSQQLCGDLSDNGVLRVLR
+LGNKWDMVFHQALKRDAKGEIVEFDIDPRHLEEFSEQATRVIREHLDRGMPFVLVSSPES
+RSYVRMIIERLFATLPVLSHVELAKGLEIKIIGSIS
+>tr|A0A1Q9AM80|A0A1Q9AM80_9RHIZ
+MSYKRFPNPVRVIARQSQEIIISTAWDALEFLRRWPGSHDRAYRVAFQHCLDALDGIRTP
+KAAHRSFTAAAREAGILA
+>tr|A0A1Q9AQB5|A0A1Q9AQB5_9RHIZ
+MLDDPRSHGLWEKTAPPAPQAPALDEAITADVAIVGGGYTGLSAALHLAQAGLSVALLEA
+IDFGFGGAGRNVGLINGGMWVMPDDIPGVLGPVHGERALELLGGAPLLVREIVETHDIPC
+EIETNGTLHLAVGETGLKELRERHRQWTSRGAPVELLSAEETARRVGSDGYAGALFDPRA
+GTIQPLAYARGLARAAQTAGARLFAGSPVIATERAGENWTVRTARGAVTAAWVLVATDAY
+STGPFAPVRAEQLHLPYFNFATVPLSDNLRRSILPGREGCWDTKEILSSFRMDQSGRLVF
+GSVGALRNTGAAVHRAWAQRALATLFPQLGDIPFEAEWYGKIGMTTDAVPRFHRFDRQIV
+GFSGYNGRGIAPGTVFGKTLARHVLGELSEDELPLPVTDVKAQGFRTAREAYYEAGAQLA
+HLAGYRF
+>tr|A0A1Q9ACN9|A0A1Q9ACN9_9RHIZ
+MSLPTDEDLTAGLAFPILIGDIGGTNARFGLIPDAGSQPHLFPIVPTGGYKSIEEALISG
+VLPKDMARPRSAIIAVAGPIKGDEIPLTNAGWIIRPIDMIAALDLTEVIVINDFEAQALA
+IADLSDENRVKVGGGEVLADHSCAVLGPGTGLGVAGLVHARQTWFPVPGEGGHVDLGPRT
+ARDLAIWPHLETIEGRISGEQVICGRGLLNLYRAICAADGKPALYADPAEVTQAALAHED
+AAADETLKLFSTYLGRIAGDMAMVFMARGGVFLAGGIAQKILPALQGPEFRAGFEDKAPH
+SALLKTIPTFVVTHPAAALSGLSAYARAPQRFGLTTEGRCWRP
+>tr|A0A1Q9AEX2|A0A1Q9AEX2_9RHIZ
+MPGDEDTVDYPADGKTGGNGRLCIVTRESLPVEALIRFVAGPDGQVVPDLKRQLPGRGCW
+VTARRSMVDQAVKRKLFARGLKAPVKAAEDLGEVVDRLLCADLAGMINLARKAGQFTTGS
+SKVDQAVRGLAALAVFHASDAAADGVRKISQARKASSFAAEDGSEIPAFRFFTAEEGDVL
+FGSNSFIHAAALAGQAGEGVVKRATMLDKYRDTVAMGASRQLTS
+>tr|A0A1Q9ALF3|A0A1Q9ALF3_9RHIZ
+MKTIEDGEIFGHMPTGEAVHRYRIAGGGLTANVLTLGSVIQDLRLDDHAAPLMLGFEDLD
+SYVTSSPYFGATPGRNANRIGEGRFSIDGESYQLELNEKGVTHLHGGKDNIARRVWTLVD
+KGEDFIILSIVDPEGRAGYPGNCTVTATYRLAAEGILSVRYEATTDHATIANLCQHAYFN
+LDGGTDALDHEIMIAADSYLPTDERQVPTGEIRPVEGTVFDLRAMTSMRRQVEGEKVAYD
+HNFCLSSARVEKRPVAFVRSPASGVSLEVRTTEPGVQFYSGFKLNVAVPGLEGRSYGPFA
+GFCLETQIWPDAVNHEGFPEAILRPDGMLVQETDYVFTKTKG
+>tr|A0A1Q9AD32|A0A1Q9AD32_9RHIZ
+MAASLNDIARIAGVSVKTVSGALHGGSARMAEATRERILEIASELGYVTNLAARSMRQGW
+MPLIGLVADDLITSPFATEIIRGLDSAARSADMAVFAMTLGGRRDVGAVLEEVRRFRPRA
+IAYAAMYHKTVALPEGAGDVVGVMINCQEAQGRVLSLVPDEEGAAHEITRYLIEAGRRSL
+AFINLPGLLAGELREKGFRRALTEAGLNEGTMPVLPAVRRAIYSDRAPSLVAHHVAALLD
+GPNPPDALLCGNDRVAMEVYAALHRLGRRIPDDVAVASFDNQVDIASRLDPPLTTMALPH
+RLMGRMAADILLSTDPVPPEVRRLPFQMVERRSV
+>tr|A0A1Q9AJ51|A0A1Q9AJ51_9RHIZ
+MIASPEPTAAPGIAGAPAGLDPCLATLRENDRDRYLACLLAPEAARPSLAALYAFHAEIA
+RVRDVVREPLPGEIRLQWWRDVLDDPSGGKASGHPVAKALLQAVADHRLPLQVLHDMIDA
+RIFDLYDDPMESRHALEGYAGETASALIQLAGLMLDPAAVAGAADAAGHAGVAQTVAGLL
+LLAPIHRARGQVFFPLDLLAATGLDRERFLEGQDKQALARAVDAMIGLGREHLTKARAAA
+RGLSPALRPAFVTVALAEPVFERAARAGAAVFDQPVAPPQWRRQWRMWRAARSGRW
+>tr|A0A1Q9AFG9|A0A1Q9AFG9_9RHIZ
+MMKRVKFPRSLLLLPLLGMLAGCNMVVMSPFGDIAMQQRDLIVVSTLLMLLIIVPVIFLT
+LFFAWRYRSANTSATYDPEWHHSTRLEVVIWAAPLAIIIALGAITWISTHKLDPYRPLDR
+IDAQRPLPADVKPLTVQVVALDWKWLFIYPEQGFASVNELYAPVDVPITFEITASSVMNS
+FYIPALAGQIYAMPGMRTKLHAVINQPGAYKGFSANYSGDGFSHMTFTFHGASQADFDAW
+VAKSKAGNGTLDRAAYLEFERPSEREPKRQFASVEDNLFDAIVNLCVKPGQMCAKDMMHI
+DMMGGAGKESQENREKLLYDTRHAEEGAGTNAATFPAHGNEARSPEAPNKETPHAAPADG
+GTQGHDMQGHDMGTMGSGATPAPEGGIAPKQLNQSN
+>tr|A0A1Q9ALK2|A0A1Q9ALK2_9RHIZ
+MKKAIALVLVALGLASCTQTEKGAGIGAVSGAIIGGAVTGNVRGAAVGAAIGGVSGAVIG
+SVAEQPGQCYYRDRYGRRYIDACPR
+>tr|A0A1Q9AP61|A0A1Q9AP61_9RHIZ
+MRLLAGLGNPGAQYAGHRHNIGFMALDAIHRRHGFSPWSKKFKGEIAEGSLAGEKVLLIK
+PQTFMNLSGESVGEAMRFYKLSPADLTVIYDELDLAPGRARIKTGGGHGGHNGIKSLDAH
+CGTDYRRLRLGIGHPGAKERVNGHVLGDFAKGDRDWLEPLLEAVGDHADLLIRGEESQFL
+NKLALAVGAPAEAQGRPGKPAKEGPAREGQAKKPQGQSHIRQARGSGPKAVPETGPMAEM
+LKKMFGPRES
+>tr|A0A1Q9AF01|A0A1Q9AF01_9RHIZ
+MSAASGETMFEVLEPDQQRLPLVLNSPHSGRVYTADFLAQSRLDALSIRRSEDPFVEELF
+SAGLRLGAPMLKAHFPRAFLDVNREPYELDPRMFDGSLPSYANIGSMRVAGGLGTVPRLV
+AENMEIYRSRLPVDVALARIEEIYKPYHACLRKLIARTHVRYGFAVLVDCHSMPGNIRVA
+GGASRPDFIIGDRYGTSAAGELSRAAVEILEDLGFSVARNKPYAGGFITEHYGRPSRGLH
+ALQIEVNRALYIDEATLEKRPEFPFILKMISLFLESFTFHMMKYAESLPLAAE
+>tr|A0A1Q9AJ46|A0A1Q9AJ46_9RHIZ
+MRQQNGFPPISRWRVLLVWLIVGLSIAVAGLNLVPASMLDKAPAALADRRLHFGLDVVGG
+SQLGLRVERGAVMAQRLRVAVEAVGARLKAVRIAYRDLAGAGDRLSVTITDPAQLQPALD
+ALKALTGGGSDLALLPAAGATLSLQLTPQGVDQRIAALRDETIPVIRRRLAALGLEGGIV
+QPRGRDRLAIQVSGDIDAERLKTVLSTTGELTFHLIDKSVSVAEAEAGQVPAGSAVFYTA
+DDPPVGTLVRRQPIVSSHDVVAAEAVTDGSGAPAIDLHFAQDAGKRLADATEEAVGGSMA
+VALDGLIVTVPTVSGAITGGSVRLAPEMTPEGAQDLAMVLRAGALPTSVAVVEERSSGAG
+LRADALSLLIFAGLVATVLIGALMVGLYGLFGLVATGAVLLNVVMIIAVLTLTGLPLTLP
+GVAGVILTIGMAVDANVLIFERVREEARRRGNAVDAVRYGFQNAFAGIADANITTLMAAI
+VLLYLGAGTVRGFAVTLAIGIVTTLFTAYTVSRIVLEAGLGRKALSKAVAGIHTGFFATA
+AIRFMAARNIVFSTLSVLSLASLLLLANVGLNLGIDFSGGSVVELSARQGAADPDDIAAR
+LEGLNIGDVTVRPLSNPRDVLVRVQSRDSGDNAEQTPVILMRGELEDEYLFRRVDVVAPV
+VSESLASSAALGLAAAVAGIAAYVWMRFAWQFAVGAIIAILHDVILTIGLFTLTGLEFNM
+TGVAALLTIIGYSLNDTMVIYDRVRSVIRRFPMMPLPIVIDTAINQTLSRTLLTAATTLL
+ALLALAVFGGPLIRPFALVMFFGITVATFSSIYVAGPLLILFRLTRMRRAGRPESGEVAP
+GENSP
+>tr|A0A1Q9AK54|A0A1Q9AK54_9RHIZ
+MSPTDGKGPRAQRKAARPMEILEAAFEEFSAQGYAATRVEDIARRVGVTKGTVYVYFESK
+EVLFGEMMRHLSTPLADTRAHIRSLEGPYPQRIEAFVRYVYQRLVADRKTRELLRLVVAE
+GARFPHLADRQDEEFMQPLCDAAGEMIREGVACGAFRPTPLAEIPELLISPALLRAVEHL
+MFDDRRSTDLEDFIAAHLELLWSALLPCEERTGTNGRTARPDA
+>tr|A0A1Q9ADH2|A0A1Q9ADH2_9RHIZ
+MTHDPRQLRDAFGAFLTGVTVVTTINAEGQPIGFTANSFTSVSLDPPLLLFCLAKTSRNY
+AAVTEAAGFAVNILSEAQKDVSNTFARPVEDRFAAVAWQRGPFGSPVFDGVAAWFDCATH
+SVVDAGDHAILIGRVEAFENSGLTGLGYARGGYFLPALADKALISGQDMPQVLGAVAERD
+GQLMLTQTPDGGLALPGLELGSGEGVDALTAHLAALSGLTAQPGLVYSIYEDTRVRRQHV
+IYRVTLGEGAATGGVFFPVEALPLERIADAATRDVLKRYAAEKSLGNFGVYVGNQEKGRV
+HAQPVRS
+>tr|A0A1Q9AGF4|A0A1Q9AGF4_9RHIZ
+MNWITNYVRPKINSMLGRREVPENLWIKCPETGEMVFHRDLEENKWVIPASGFHMKMPAK
+ARLRDLFDGGLYESLPQPKVAQDPLRFRDSKKYADRLKDGRTKTELEDTIVAGLGTVRGV
+KLVAIVHEFNFMAGSLGIAAGEAIIKAFERAIAEACPVVMFPASGGARMQEGILSLMQLP
+RTTVAVEMLKEAGLPYIVVLTNPTTGGVTASYAMLGDVHMAEPGAQIGFAGQRVIEQTIR
+EKLPEGFQTSEYLYEHGMVDMVVKRHDIPDTLARVLRILLKTPVVSEATDDVVVEDELSA
+AAE
+>tr|A0A1Q9ANT9|A0A1Q9ANT9_9RHIZ
+MDIMQASLSTLYAIGVGTLTMAVIMTVWEQRFHPARSRALRFWAAGYAILLIGILILIAR
+DSMPRVLGYGVANLFIVTGYALVAAGSLPFAGWFMPRRLALAAIPAAPLWLTVGPLLPTP
+IWHAISGLFIASICVIVAIAFLRPRLPISGRADRLVAIVFAMHAAVYLLRVPLVPLVSWL
+GNQPALDLLALSTMFEGVLFSMAAPMALLSLAREESRAQLQRVSETDFLTGLDNRRAFFG
+KAETVRGARAQLVLFDLDHFKSINDRYGHDAGDEVLRIFARAVRGQLGPKDLIARLGGEE
+FAALMPDATSEEALARLEAVARRLRLDVRSQTALQQDVTFSAGLLTVTGSTSMTAALSGA
+DRLLYRAKANGRNRVERPHPLFDALGDRLRAQPEAISETAANRPGKAVA
+>tr|A0A1Q9AGT6|A0A1Q9AGT6_9RHIZ
+MKHFLLEGEHLVPFSELSDLVPLHHAFLQKGYDDGVFLFSGPQIPAHGGFLAARAESREA
+LDTILAEEPFVKAGKMRFSRVTEFDAAQYQPILQDWFREPSGDA
+>tr|A0A1Q9AMD0|A0A1Q9AMD0_9RHIZ
+MSEMRLFVRASEKQAERLLAAMTDAFEDEGYAIATMEMDEKADIWEASVYLMRDEEEEIH
+PRFAAIVEGVLPGTVIETEILPDLDWVALSLEGLKPVRAGRFLVHGSHDRDKRRTGDVAI
+EIDAGQAFGTGHHGTTAGCLEMIDSVMRARRPGRVLDLGTGSGVLAIAARKLAAVPVLAT
+DIDPVATRVARENIRRNGIASGIAVETAAGFQSPAFRRHGPFDLIIANILARPLMRMAPE
+LVAELAPGGSVILSGILAEQRWRVLAAYKGQRLRHLRTLWRNGWVTIHLDKPARG
+>tr|A0A1Q9AGZ1|A0A1Q9AGZ1_9RHIZ
+MSLTSLDNGRVADAPSKNWVYRALPRALWPHAQLARWDRPIGWQLLMWPCFWSAALAANV
+AAESGSSQPGRFLWHLVLFFIGSVAMRGAGCTYNDLVDHELDASVARTRSRPLPAGRISR
+RNAKIFILVQALVGLVVLLQFNGASILLGIASLVIVAAYPFAKRVTNWPQLVLGLAFSWG
+ALMGWSAEFSTIGLPAVALYLAAIAWTIGYDTIYAYQDREDDALVGIGSTARRFGERPKP
+WLTALYGAALVFMLVAFASAGVGFLAYLGLLAAAVVLAYQILALRIHDAEQCLALFRANN
+IVGLIIFIGLVAAWIVRLM
+>tr|A0A1Q9AL43|A0A1Q9AL43_9RHIZ
+MIRRASLVLIGALMGASAMGVVYSASVPAVAANASTYRELSIFGDVFERVRAQYVTPPQD
+DKLIEAAINGMLTSLDPHSSYMNATDAEDMRTQTKGEFGGLGIEVTMENDLVKVTSPIDD
+TPAARAGVLAGDFISKIDGQDVRGLKLEEAVDKMRGPVGKAIKLTILRKGADKPIELSIV
+RDVIAVRAVKFRTEGDVGYLRVISFTEKTFDDLKNGIEKIKAEVPADKLKGYVLDLRLNP
+GGLLDQAINVSDAFLDRGEIVSTRGRNPDETRRFNATPGDLTDGKPVIVLINGGSASASE
+IVAGALQDLKRATVLGTRSFGKGSVQTIIPLGDAGALRLTTALYYTPSGKSIQGTGITPD
+IKVDQPLPPELLGKVETTSESSLRGHIQGQNETQEGSGSIAYVPPEAKDDIQLNYALDLL
+RGQKTDPAFPASPLKAELKK
+>tr|A0A1Q9ADM9|A0A1Q9ADM9_9RHIZ
+MTLPDLKTSIASYEASLAKQFGPALNRDDLKLKHKKMRKSAFKFLRGTCWRWAEAAPSLC
+PDLVDAPRAGSVGDAHAGNFGLWRDAQFRLVWGVNDYDEAARLPYPLDLVRLGASLIMDD
+DGISDDGDAASVADNLLSAYQEGLAMPAPFVLEDRHLWLRDLFENGSEERAQFWEKLEAL
+DDHEAIPPEFEASLLAALPGGTTHPRFRHRQAGVGSLGRPRFVAFSTYRGGALAVEIKGA
+MPSCWQGREQPGLAKHLATGRFRSPDPTLRYEDAFVLRRLAPNNRKLTFSEIKPKLKVKL
+IAAMARELAAIHAADGEVKAISDDLRGRPEGWLADTIHRVAKWTVKEWDTFKDGD
+>tr|A0A1Q9AG82|A0A1Q9AG82_9RHIZ
+MALITLRQLLDHAATENYALPAFNVNNLEYVQAVMRAADATDSPVILQASRGARAYAGDG
+FLRHLILGAAEEYPHIPVCLHLDHGDQPSTCISAITNGFTSVMMDGSLLADGKTVSTYEY
+NVDVTAEVVKIAHAAGVSVEGELGCLGNLETGAGDKEDGHGFEGKLTREELLTDPEQAFD
+FVTKTGVDALAVAIGTSHGAYKFTRAPDGDILSIDTIAKINAKLPNTHLVMHGSSSVPQD
+LQDLFTTYGGDMKQTWGVPVSEIQKAIPLGVRKVNIDTDLRLAMTGTIRKSFKEKPDNFD
+PRNYLKPAVALMTEVCKERFIAFGTAGNASKIRAKRLAEMAKAYAA
+>tr|A0A1Q9AH26|A0A1Q9AH26_9RHIZ
+MINPVSRLTPVLRLARVALALLVAASAAEAGGARGETMPWRKDTRALVIDAYELNLIDWE
+AMTSDRRIAGFISKASDGLPEVFDCSGAHKGDSTNHCRTMWRKYAVSRELFQTRRLVARA
+KGLLWGAYHLGRPGNPVEQANHFLDYAQPRADEAMVLDIEGLDPAQFMSPEDAGLFAAHI
+KARTGRYPVLYTNHATARFIAENRARYPILSRLPLWYARYRPSTGEAFPMGNWDRYWLWQ
+FSADANCGRRRCPYRVPGTLSDIDVNVAPADRKALSAAWAKGELVPEKPLPPRPAPQPLL
+LMVSARAAVGSGAGLAMDMTVTGALPSPVLEAADVSRH
+>tr|A0A1Q9AM96|A0A1Q9AM96_9RHIZ
+MARQFIYHMAGLNKAYGTKKVLENVHLSFYPDAKIGILGPNGAGKSTVLKIMAGLDKEWT
+GEAWLAEGATLGYLAQEPKLDPDKTVFENVMEGVAHKKAIVDRYNELMMNYSDETADEGA
+RLQDIIDGQNLWDLENQVEMAMDALRCPPGDANVTSLSGGEKRRVALCQLLLRQPDLLLL
+DEPTNHLDAETIAWLEKHLREYPGAILMVTHDRYFLDNVTGWILELDRGRGIPYEGNYSA
+YLQAKAKRMQQEAREEAGRQKAISREQEWIASSPKARQAKSKARINAYNELVDSAAERRP
+SDTQIAIPIGERLGRVVIEAENITKSFGDRVLIDNLSFKLPPGGIVGIIGPNGAGKTTLF
+RMITGQEKPDSGTITIGDTVDLGYVDQSRDTLAANKTVWEEISEGNDILKLGKFEMNSRA
+YCGSFNFKGGDQQQKVGNLSGGQRNRVHLAKMLKGGHNVLLLDEPTNDLDTETLGALEDA
+LENFAGCAVIISHDRMFLDRLATHILAYEGDGHVEWFEGNFEDYEKDKVRRLGPDALNPS
+RMSYKRLTR
+>tr|A0A1Q9ADG1|A0A1Q9ADG1_9RHIZ
+MAPVIRKTLLHVETTLIEGDKAAATPLKLIAAIAVVKNPWAGRGFVEDLKPEIHDAAPVL
+GALLTKMILDAADSGEAVEAYGKAAVVGLDGEVEHASALIHTLRFGNHYRTAVGAKSYLA
+FCNTRGGANAPIMIPLMDKNDEGRRSHYLTIQCAIPDAPAADEIVVALGASIGGRPHHRI
+GDRYQDLKELGNDASNPAAV
+>tr|A0A1Q9ADT9|A0A1Q9ADT9_9RHIZ
+MQGTAHDTRQAERPSKAPLDPHLKALENEAIHIFREVAAEFERPVMLYSVGKDSSVLLHL
+ARKAFYPGRVPFPLLHVNTGWKFAEMITFRDEMVRQYDLDLVEHINPRGAAENITPFTHG
+SAFYTDVMKTETLRNALDAGKYDAAFGGARRDEEASRAKERIYSFRTPDHRWDPRNQRPE
+LWNIYNGMIRKGESVRAFPLSNWTEVDIWRYIQAEEIPIVPLYFAKKRPFVERDGMMILA
+EDKRLELKPGEVLQEDMIRFRTLGCFPLTGAIHSHATTLDDIIAELETATVSERQGRAID
+RDQSGSMEKKKREGYF
+>tr|A0A1Q9AJW5|A0A1Q9AJW5_9RHIZ
+MPGSPAPSKGRLAIIAGGGRLPVDVAQAARARGDEPLIIALTGESESDWAGFERVVLPIG
+DFRAITGLLQRERVDRVVLSGWVRRRPDFRQIRPTLRMIARVPAVVRTLISGGDDAVLKM
+AIALIETSGARVIGVQEIVPDLLAEIGPLGACRPDAEALRDIAAGRAAADLLGQLDIGQG
+AVAIGGRVVALEGAEGTDGMLERVAELRREGRISQRRRGVLVKMCKPQQELRADLPSIGL
+STIEKAAAAGLAGIAVEAGRALLLDRAAAVAAADAADLFILGIDRSLAKE
+>tr|A0A1Q9ADF5|A0A1Q9ADF5_9RHIZ
+MKNINDLFFDQESPAGRVVRGLAAFGAATAGQLSKSTGLGRSTISAALSELRDAGAVLDV
+EAKANGQGRPSQLLSLNPASGRCAGVLLGLGEIRIVICDMTHAVLSDVWIPIRRDYTPEE
+AADQVRDSLQGQCAALGIAIADLLGVGVAISAPLSYGGVVLNGDILPGWAGVDLAGIFSR
+RLDCPLHAENESHCGALAEMTWGAAVGESDFVLYKFDLGVGGAIVQNGVILRGVNGSAAE
+FGHVVLDPEGSYCRCGNRGCLQTYVGGYYLLRHAQQLTGRSETIEEFVAHAKEGRIGYRR
+LVEDAASKAGWAMGTTATMINPPLFIIAGKMATIGANFLEPLERSFRRSILPQPDFPDLK
+PPRIVVARFLGNDDTVMGAVALVLRQHGRIVSR
+>tr|A0A1Q9AJX3|A0A1Q9AJX3_9RHIZ
+MPVSLRCSFPPYSRPSRLSARLAAYAFGIAMLALPGTTLAEGVTLNVFGGSSLDVLAPRE
+TPEVQTRIRKEIVAGFLKSHPDVAAVNWDAQGPQSGSLQRMMTAKLSAQPIDLVACSAFW
+VNGAYVRRGLLRPITEEVKPFIDNVDPASLGAFTVNGKLYGVPISSLSTSTIFYNEDLFK
+RLGIPTPPSYEDLRSAVPKLKEAGVIPLLHQGANSVMWPMWYFETFSQSSGDPVGVTQLQ
+LEGKTPFNDPASVEAFRLIKQWVDDGILSKDSLSVDMEGMRAAFASGKNAMYYGGTWEVP
+SLKESVKTFSWNVFPFPKMPSTKGEPKHGGGADNGMCLSASIADDKVKPALDFIAYLTKP
+EVAKIYLEADRPIATSIKGVDGVNEAYAKALRETTFPATIKFLDWIWPSEVTTAVASGIA
+GVVGGTATPEEAAASVQTTFKALVDDGNWPPKD
+>tr|A0A1Q9AM88|A0A1Q9AM88_9RHIZ
+MEEAMRKRGIFSALAAGVAVILAGAAGWLAAAPPELLLVGDGYAAKIVCSNVFLAGREAG
+DVLADDVQAPGNPLLRLVRVTVDRERKTVTARMFGFAAPGHAIYREGLGCTNVSPGEFAA
+FPGNRSLRRRTPQLDDTKPWPDGNGTRIEPMLQALVEDDRLAGPGARALLVLRNGVIVAE
+RYGDGFGAATPLLGWSMAKTVTAALIGLRIRDGAMALDKASLLPEWRGDGRARITLADLM
+AMQSGLSFNESYGSVTDVTRMLFLENDMARFAAAQPLQADPGAQFRYSSGTTMILSRLWM
+DSLPSAREALTYPRAQLFRPLGMSSAVLEPDAHGTFVGSSYMYATARDWGRFAQFLAQGG
+QWKGEALLPPGYVEAMRRPTAASGGRYGGGQVWTRGPETVGPYPQDSFWMRGHDGQSIMI
+VPSRGLVVLRMGLTPRASGYSVEPLERAVLERLPALPAEGGNAP
+>tr|A0A1Q9AKG2|A0A1Q9AKG2_9RHIZ
+MAWNWGLAGWPNFELNPELLRVREQAFMENAAIAVGTMRHLGKDDREEVVIELLSSDALS
+TSAIEGEVLDRDSVQSSLRRQLGMSAAAFRSRPAEAGIAEMMADLYRHPLDPITEERLFE
+WHRMVMNGRRDIADIGSYRSHDEPMQIVSGAFGRQRVHFEAPPSDRLAVEMGRLLEWLER
+TSPEGPEQLAALTRAGIAHLWFESIHPFEDGNGRIGRAIAESALARAISTPTFSALSKSL
+LKHRKDYYAMLEAASTTLAIDDWLSWFADRALEAQKSADELVSFLIEKTRFMDRLRGALN
+ERQEKVLLRMLVEGPEGFTGGLSAGNYATITGAPPSTITRDLSDLVDKGALLRTGERKAT
+RYRLNIASGG
+>tr|A0A1Q9AKG9|A0A1Q9AKG9_9RHIZ
+MSNDPFTLDMFGSSALSSVLGVTACGGLATNDDTSYATPPARAPSVPIKTSRPLKPRRQG
+DCANFHFSDSEDRGLPPSWKERARLNLAAILTANEIEKQDRPATREEQAKLICFTGFGAS
+ELATGMFRRPGEVDFRDGWDDLGSALENAVSDGDYASLSRCTQYAHFTPEFIIRAIWAGL
+QRMGWRGGRVLEPGIGTGLFPALMPEAFRGVSYVTGVELDPVTARIARLLQPRARIIEGD
+FVHTDLAAIYDLAIGNPPFSDRTVRSDRQYRSLGLHLHDYFIARSINLLRPGALAAFVTS
+AGTMDKADVTAREHIAKSADLIAAIRLPEGSFRRDAGTDVVVDVLFFRKRKVGEPEGDQM
+WLDVNEIRPATDDVGTVRVNRWFARHPDFVLGDHALTSGPFGETYTCRSRSGVDLEAALN
+AAISRLPERCYDGEPDAIDVNLEEELGEIVDLRPDVSIREGSFFIDHARGLMQMVDGAPV
+EIKLRKGRSADGVSEKQLRIISKLIPVRDAVRAVLKAQEQDRPWKELQVRLRIAWSNFVR
+AFGPINHTTVSIMQDTQTGEVKETHHQPNLQPFRDDPDCWLVASVEDYDLETDTARPGPI
+FTTRVIAPPAPPVITSAADALAVVLNERGNVDLEHIAELLHRDPGDVVGELGDTVFQNPV
+DGVWLTSDAYLSGPVRDKLKAAEAIAALDPAYERNVRALQAVQPADLRPSDITARLGSPW
+IPASDVVAFVKETMGVEIRIHHMPDIGSWTVDARQLGYSAAGTSEWGTSRRHAGELLADA
+LNSRVPQIFDIIKDEDGSERRVLNVIDTEAVRDKLQKIKQAFQNWVWTDPDRTDRLARVY
+NDRFNNIAPRKFDGTHLKLPGASSAFTLYGHQKRGIWRIVCSGSTYLAHAVGAGKTMTMA
+AAIMEQKRLGLIAKAMLVVPGHCLAQAAREFLALYPNARILVADETNFTRDKRARFLSRA
+ATATWDAIIITHSAFRFIAVPSAFEQQMIQGELQLYEDLLTKVDSEDRVSRKRLERLKEG
+LAERLLALSTRKDDLLTIAEIGVDQIVVDEAQEFRKLCFATNMSTLKGIDANGSQRAWDL
+FVKSRFIETKNPGRSLVLASGTPITNTLGEMFSIQRLLGYQALQERGLHEFDAWASTFGD
+TTTELELQPSGKYKPVSRFASFVNVPELISMFRSFADVVMPEDLRAYVKVPAISTGKRQI
+VTAKPTSAFKAYQQVLETRIKAIEERHGPAKRGDDILLSVITDGRHAAIDLRLVMPAMAD
+EPDNKLNLLVRNAHRIWQETSGRTYLRPDGKSYDLPGAAQMIFSDLGTISVEKSRGFSAY
+RWIRDELIRLGVPASQIAFMQDYKKTETKQRLFADVRAGRVRFLIGSSETMGTGVNAQLR
+LKALHHLDVPWLPSQIEQREGRIVRQGNQHEEVDIFAYATQGSLDATMWQNNERKAKFIA
+AALSGDTSIRRLEDLNEGQANQFAMAKAIASGDERLMRKAGLEAEIARLERLRAAHEDDL
+FAVRRQIRDAERDIEVSTRRIAEIGQDIEGLVPTSGKDFAMTVSGKPCRERKDAGRALMK
+EILTLVQLQQQGEVHLASIGGFNLVYEGERFGRGDAYHYQTLLRRTGADYEIDLPVTVTP
+LGAVSRLEHALDDFDGERERHRQKLLDAKQRLGSYRSRLDGTFAFGDELAEKRRQLAQVE
+ESLAASVREDVEARKAAA
+>tr|A0A1Q9APV9|A0A1Q9APV9_9RHIZ
+MYVAVKGGETAIAEAHRLLADRRRGPRDLPALSLAQIAGQLSLAVDRVMAEASLYDPILA
+ALAVKQARGDMIEAIFLLRAYRTTLPRLAISQPLETAAMQIERRVSATYKDLPGGQLLGP
+TFDYTHRLLDPDLAGEEAEPETPARRAVSGEKVMRVSDILDGEGLVEGDGSFGPDHVAGD
+ITREPLDFPMPRDTRLQVLARGDEGFLLALAYSTQRGYGRTHPFVGEIRIGLADVEIELP
+ELGFSVPLGRIRITECQMVNQFKGSAKEPPQFTRGYGLVFGQSERKAMAMSLVDRALRAD
+EFGEDIVAPAQDQEFVLSHADNVQATGFVEHLKLPHYVDFQAELDLVRRMRAEYEAKRAG
+QAGDEDAITSEAAQ
+>tr|A0A1Q9AM37|A0A1Q9AM37_9RHIZ
+MIDREHKLSVVRQAKLLGFSRGSVYHSPRPVSDGDLALMRRIDALHLDYPFAGSRMLQGL
+LRGEGLETGRLHVATLMKKMGIEAIYRRPNTSKPAPGHKIYPYLLRKLAVTRPNQVWAMD
+LTYIPMARGFVYLCAVVDWFSRKVLSWRLSITMEAAFCIEAVEEALARHGRPDIFNTDQG
+SQFTSIDFTAVLKRADIAISMDGKGAWRDNVFVERLWRSIKYEEVYLHAYKTVSEARIGI
+GRYLNFYNTRRPHSSLC
+>tr|A0A1Q9AFB4|A0A1Q9AFB4_9RHIZ
+MTASPRKIVVIGLSLSSSWGNGHATTFRALLRGLKAEGQEVLFLERDVHWYASQRDLPAP
+DFCDLALYDSVEDMIARFAPALAAADAVIIGSYVPDGPAVIDAVAALGVSALCFYDIDTP
+VTMAKLRRGEEDYLARRQVPLFDVYFSFSGGRVLDRLEAEFGARRAEALYCSVDETRYRP
+TGATPDLDLGYLGTYSPDRQPTLERLLIEPARRLPHCRFAVAGPQYPDDIDWPANVERIE
+HLAPADHAAFYSRQRFTLNVTRADMIAAGWSPSVRLFEAAACRTAIISDRWEGLEELLPE
+GEAVRIAAEAADVVAALSEISPDGRDRLAANAMDRILAAHTGRARAGDLLHVLDSLPAQP
+LRRRA
+>tr|A0A1Q9AGU6|A0A1Q9AGU6_9RHIZ
+MTKHPPSRNNFALVAVCLSALMLGLEITSIPSILPTLERVLSADFQQLQWIMNAYTIAMC
+SVLMAMGTLGDRFGRKRVFLIGVTVFAVASMICGLATSAPLLIAARFLQGTSAAAMLACQ
+VAVLSHQFRDGAERGKAFGWWGIVFGVGLGFGPIVGGAIITLASWHWVFLVHVVIAILTI
+AFAQKGVEESIDPQATRIDVAGMVTLSLAVFGIVYLITQGRELGATSPPALTILALSLAS
+FVLFVVIEARIARPMFDFRAFRVRHFSGAILGSSGMNFSFWPFVIYLPIYLQAVLGYDAI
+AAGMTVLGYTLPTIVAPPLAERLLISRGPRFVIPLGLFTIGAGFILLMLATTSDHASWVT
+LVPGCVLAGIGLGLTNTPVTNTATAALPPERGGMASGMDMSARMISLAVNIALMGFILSS
+GVTAHLAQALPALPSDAVLRALADMISAGNLAASETLGVPIAVAREALAHGIGRVTLYGA
+LCAWGLALASFVVFGRPPASRPETLQH
+>tr|A0A1Q9AJP7|A0A1Q9AJP7_9RHIZ
+MKTAAVAQTVPQTTVPESRAEMQLSFSPLVKQTSGAVVNVYAEKTVRQRSPFAGDPFLEQ
+FFGQRMPNRSEKQSSLGSGVIVREDGTVVTNNHVIDGADDIKVALADGREFASTVVMKDE
+RLDLAVLKIKGNGPFKVLPLGDSDKVEVGDLVLAIGNPFGVGQTVTSGIVSALARNQVTE
+GSDFSFFIQTDASINPGNSGGALIDMRGRLIGINTAIFSRGGGSNGIGFAIPANLVKVFV
+ESAMGGGGKFARPYIGASFEPVTAEVAEALGLPRPRGALVTSVVEGGPAEKAGLKPGEVV
+LAVNGVEVEHPDALGYRLTTIGVGRTAQLQVSDNGREREMSLALEQAPEVPKRDARLLEG
+RSPLAGATVANLSPRVSEELRLPGRIRGVAITQLADGSPAARLGFAPRDIIVAINGVDIQ
+SSADLEKIVRAGASLWRIEIERDGQRIRQFFR
+>tr|A0A1Q9ANP7|A0A1Q9ANP7_9RHIZ
+MRAISDEHAHAIKAATAAGIEALGGVRQAASLLKVGSSTLSKYASTSPEWADSFIRLDLA
+VEIDRRTPHAFLHTAMSRLVQNKPVSGFGEVTASAILRLDGVLDDVVREIAQAIEDGHVD
+ARERQAVRAKIIAAKQELARLDALMVGGAG
+>tr|A0A1Q9AFT1|A0A1Q9AFT1_9RHIZ
+MSASSPASPSLIGEVPPPHFVPRMAFVFAAPLFANGFALPYFPIWLKELSMTDPQIAMVL
+AVPMFLRVFTAPVAGALADRMGERTRLLFVSAVLTLVATLALFVHHSFLFVLVVYTLQGA
+VLSPYMPIVEAVALSGVRRWGFDYAQMRLWGSISFIAATLIGGEMVARHGGAMVLPAMVT
+GFCLVVACTFLAPKVGRPRRPSTLTTLTTSPPKALRRRGVQLLIAGIGLVNGSHGMLYAF
+SAIYWTSAGYSGGQVGLLWSAGVAAEVAMFVFARRILQRISLSAAMLSGCVLAILRWMLF
+PLDIGFSGYFLLQCLHAFTYALMHTGLQNWLVRHVEEAQETAAQGMYFFYTGLFTAILTF
+LSGYFYRWYGVHGFVAMSVAAAIGLALVMLALKEEARPKAGVENA
+>tr|A0A1Q9AQ18|A0A1Q9AQ18_9RHIZ
+MVYRDTVHLKHAITHPRMEIGDFSYYTHSGSVEETAGILAPYLFESSREKLVIGRYVQIA
+RGSYFISADANHPMDGFTTYPFRIFTPETFGYPNLPYRDTIVGHDVWICHNATIMSGVTI
+GHGAIVAAEAVVSRDVPPYAVVGGNPARLIRMRYPQEVIDLLLQVAWWDWPLDKLEANLS
+ILESGDIDALKALA
+>tr|A0A1Q9ACY7|A0A1Q9ACY7_9RHIZ
+MLAAAAALGLAGPAPAADCSASPASGIDWSGCNKPRILLSSSTLDGANLSESDLNATDLS
+GSNLNGARFEKARMIRTSVAGSTAQGADFARIEAYRSNFSGIRANGANFSGAELQRAEFA
+GANLTGANFEKAELSRVDFSGATLNDTRFALSNLSRARLTGAKLAGQLGFDQAFLYLTRI
+EGLDLSQAKGLTQEQVDLACGDAKTKLPTGLTAPGGWPCADDQ
+>tr|A0A1Q9AJH9|A0A1Q9AJH9_9RHIZ
+MFYETASNRHGLPHDPFKAIVSPRPIGWIGSRGGDGSLNLAPYSFFNAIADTPKLVMFSS
+TGHKDSVSNIEETGVFTASFVSRSLMQAMNATSAPAPRGTSEFALAGLTPVMGRLVEAPF
+VGEAFAALECRVTEMLRPKDLEGQPTENYMVIGQVVGIHIRDEAIVDGRFDMATVRPIAR
+LGYRDYCDGGDVFEMVRPVSA
+>tr|A0A1Q9ACD8|A0A1Q9ACD8_9RHIZ
+MSTSHSRGLSRLMMAPSVGLLLIWMIVPLAMTLWFSFQNYNLLNPANVGFAGLFNYRFFY
+TDPAFFQSLWNTLAIVGGVLLITVVGGIAIALLIDQEIFGQGIVRIMIISPFFVMPPVAA
+LVWKNMIMHPSYGVLADMARGLGLQPVDWFAQYPLLSIVIIVAWQWLPFATLILLTALQS
+LDGEQKEAAEMDGAGIVSRFIYLVLPHLARAITVVILIQTIFLLGVYAEILVTTNGGPGY
+ASTNLAFLIYRTALLGYDVGGASAGGIIAVILANIVAFFLMRAVGKNLDR
+>tr|A0A1Q9AM93|A0A1Q9AM93_9RHIZ
+MSDSLTAAPIFPPAGDWPRQRSSLLDWLMLETSDERFIDNIFHELCLRLVKAGVPLVRSS
+LHFRILHPQWIGARILWQVDRDEPDIATFEHGVEDSAAYLESPINAIHQGAEEIRRSFWR
+TDYANPDFPFFADLRAAGITDYVAWPLKHTFGHRHVLSFATDAPEGFEPEHLQLLGDLMP
+ALALVSEIRLKNRLARTLLETYVGPHASGQILAGATTRGSGVTVGAAILICDLRNFTEIS
+DHWPRDEVIGLLNGYFDALCEPIEQQGGEILKFMGDGLLAIFPLDTPGACARALTALQEG
+RRRLEAANAESLAAGHPALAYGIGAHVGDVMYGNIGSRLRLDFTVIGPAVNTASRLETLT
+KEVGRPILVSEAFAVAAEAGDRVEPLGAFPLRGLDRPVEVYALKP
+>tr|A0A1Q9AQD6|A0A1Q9AQD6_9RHIZ
+MTSIITNASAIAALSTLRTISSNMSDTQGHISSGLKVQTAADNAAYWSIATTMKSDNKAL
+GAVADALGLAAAKTDTAYTGLNTAIDVVTQIKAKLVAAREPGVDKDKINKEITELRNQLL
+STAQSASFSGENWLYNTSTTAPQIKTMVASFTRSGSGSVSIGTIAYDTSTSTLVDTSNAQ
+RGQLTMDVAGYNSAGTASATYFLVNANSTTTASGNAIAVSSGTTDNQVEQMLNAVETMLR
+NLTNAAANIGAANARIDLQNTFINDLRDTITKGVGRLVDADMNEESTKLKALQTQQQLGI
+QALSIANSSADSVLSLFR
+>tr|A0A1Q9AHF4|A0A1Q9AHF4_9RHIZ
+MSMTVADLLAQSLADAGVERIWGVTGDSLNGLNDSLRRLGRIEWMHVRHEETAAFAAGAE
+AAVTGKLAVCAGSCGPGNLHLINGLFDCKRNHVPVLAIAAHIPSSEIGLGYFQETHPQEL
+FRECADFIELVSNPAQMPGVLHRALNTAIGRNGVAVLVIPGDVALSAAPVERAPAPALPA
+QPRLIPADAELAQLAAHLEKGKAITILAGSGCAGHHDRLVALADRLKAPIVHALRGKEHV
+EWDNPFDVGMTGLIGFSSGYHAMEEADTLLMLGTDFPYRAFYPEKATILQIDRDPGALGR
+RASLTQGLVGDVGETIDALLPHLPPRDERGFLDTALKHYRKAREGLDELATPTPAGRPIH
+PQYLARRISELAADDAIFTADVGTPTVWAARYLAMNGRRRLLGSFNHGSMANAMLQAIGA
+QAAAPARQVVSLSGDGGFSMMMGDFISLSQLGLPVKIVVFNNGSLGFVAMEMKAGGYLDT
+GTDLQNPDFAAMANAMGVKGIRVEASEDLDAALSAAFAHPGPALVDVVTAKQELVMPPKI
+KLEQAKGFSLYMLKAIISGRGSEVLELARTNVLR
+>tr|A0A1Q9AFR2|A0A1Q9AFR2_9RHIZ
+MQHLSIDVVSDVVCPWCYLGKARLDQAISALAGEVLLTVNWRPYQLNPDLPAEGVDHKAH
+LSAKLGGAEAVDQAHARLTDLGRADGIAFDFDAVRISPNTLDAHRLVRWAGTEGAAMQDA
+VVTALFKANFEQGRNLGDRGELVAIAEEAGMQGPVIRSLLDSGADREAVMEEIELAREMG
+VSGVPCFIIDNQYAVMGAQTVEAMTAALRDIAQMKRPN
+>tr|A0A1Q9AGC4|A0A1Q9AGC4_9RHIZ
+MLSGKVPDRVAQPRQNILTIPPGAPFLGTLVDALCAGDLVPDFRYDPADPLSLADVTIFV
+PTRRAARVLRSEFVDRLGGQSAILPVVRPLGETEDDSGYFDQESPATLDLAPPIVSTGRL
+IELARLILAWRNRLPQVVRDVHGESALIAPASPADAIWLARDLSAIIDSVETEELDWEAL
+KTLDAETFAEWWQLTLEFLDIARHFWPARLEELGVSSPARHRNAVIDFETARLRAGKVSG
+PVIVAGSTGSIPSTARLIAAIRDLPEGAIVLPGLDTVMSEAEWTAVAPEGALSGPLANPA
+TRSHPQYGLFRLLERLERTREEVRLLGMVEPDLALRAATVSRALLPVEKTSAWGEAPEGD
+AALLDQAFTDVALIEATNEREEATAIAVAMRLSLEASDSCQAALITPDRDLAARVCAELM
+RFGIEADDTAGTPLSATPAGTLARLLLDAALKPGDPVAIAALIKHPLARFGQMRDAMRQD
+PAAPDRLALAGRLLERLALRGGTQATRLDNLTALMTQRLAEVADERHVPEWRAALTPEAV
+EEARTLAEAITLSAAPLLALTDTEEAEPTLADWARATGEALEAVAADAEGNLAELWDSEA
+GETLSRLLTAVIETDGQIEATGGQWADAMEALMAGEAIKPRAMRHPRVFVFGALEARLQS
+VDLIVLGGMNEGVWPGQTANDPFLSRAMKTGIGLEPPERRIGQLAHDFQMACGTRRLVLS
+RALRKGSAPTVASRWLQRLAAVLGKPLSDAMRARGHDFIEYGHQLDERPSQPLAPRPQPR
+PDPELQPTKYSFSEVTRLRRDPYAVYARRVLRLAPLDDFNADPGAAMRGTLYHAIVERFV
+RADLVPSSPEARRRLAEIVEEAFDAARLPSHIDVIWRPRFHGVAEAFLQWEIARHGEILR
+SHLEVPASLPLGVGQLRLTGIADRIDILKDGAAVIVDYKTGSNPSPKEARALLDPQLPLE
+AAALKRGAFKGVDRRETTDLLYVRLKPGDRFEVDTVNNERGSGRGSDERKSAAELADEAV
+LQLTGLLAALLSGRRGFVSRVIVQKERDYGGEYDHLARVAEWATAEAAEGENG
+>tr|A0A1Q9AGV0|A0A1Q9AGV0_9RHIZ
+MAEAHQKNHDYHIIDPSPWPLLASIGAFVMAFGGVGYMRYLSGGSFHLFGLNLANPWIFF
+IGLAVVLYTMFGWWSDTIKEAHEGHHTRVVSLHLRYGMIMFIASEVMFFVAWFWAYFDAS
+LFPGEAIQATRATFTGGQWPPKGVEVLDPWHLPIYNTVILLLSGTTVTWAHHALLQNDRK
+GLITGLSLTVVLGVLFSFVQAYEYMHAPFAFKDSIYGATFFMATGFHGFHVLVGTIFLLV
+CLIRAVKGDFTPQRHFGFEAAAWYWHFVDVVWLFLFFAIYVWGGWGAPIAG
+>tr|A0A1Q9AIC3|A0A1Q9AIC3_9RHIZ
+MDRIRIRGGNELHGTIPISGAKNAALPLMIASLLTDDTLTLENVPHLADVEQLIRILGNH
+GADISVNGRRERQQGDSYARTIHFTSRNIVDTTAPYELVSKMRASFWVLGPLLAREGKAR
+VSLPGGCAIGTRPVDLFIEGLSALGAEIEIDGGYINATAPAGGLVGARYVFPKVSVGATH
+VLMMAATLAKGTTVIGNAAREPEVVDLANCLNAMGAKITGAGSSTITIEGVTSLSGARHR
+VLPDRIETGTYAMAVAMAGGDVVLENTDVALLDTALEAIRRAGAEITPTNNGLRVYRNGG
+GIKPVDVVTDPYPGFPTDLQAQFMGLMTRSSGVSHITETIFENRFMHVQELARLGAKISL
+SGQTAKIEGVPRLKGAPVMATDLRASVSLVIAGLVAEGDTMVSRVYHLDRGFERLEEKLT
+RCGAEVERVSE
+>tr|A0A1Q9ALP4|A0A1Q9ALP4_9RHIZ
+MTLFQVYIRALRYLGVHKVRVSAIVLANIVLAGITIAEPILFGRIIDAITNKTTVTPMLL
+MWAGLGLFNTIAFVLVAREADRLAHVRRSTLVTEAFGRIISMPLSWHSQRGTSSALHTLL
+RACETLFGLWLEFMRQHLSTAVALILLVPTAFAMDYRLSLVLVVLGALYVVIGKVVMNRT
+KEGQAAVEEHYHTVFGHVSDSISNVSVIHSYNRIEAETRELKTFTQKLISAQLPVLDWWA
+LASGLNRMASTISMMVILVIGTYLVQKGELAIGDVIAFIGFATLLIGRLDQMKAFVTQIF
+EARAKLEDFFGLEDSVRDREEPDTAGELGAVKGEVEFRDISFSFPNSTEGLHNVSFTAKA
+GQTIAIVGPTGAGKTTLVNLLQRVHEPSAGKILVDGVDIASVTRKSLRSSIATVFQDAGL
+LNRSIADNIRLGRDDASIDEVRDAAAAAAAADFIDARNTGFDTKVGERGNRLSGGERQRI
+AIARAILKNAPILVLDEATSALDVETENRVKEAIDNLRKDRTTFIIAHRLSTVREADLVL
+FMDRGRIVEMGGFNELSQSNGRFAALLRASGILTDDDVRRAQTAA
+>tr|A0A1Q9AI74|A0A1Q9AI74_9RHIZ
+MFQTVVATVSLKKPVCLAKIEHQTGPLANPVCTVSLARRPTVSLAKVLPTVSLAKRPTSV
+GTATEALLAFFGSQDELHRALGRTDADAARDIAMSCIEMEIAAGDYERLSGRQLNTRAAI
+HAAFGSQDINRGTWRMDGGKIVTFKEAMERVMRAA
+>tr|A0A1Q9AKS9|A0A1Q9AKS9_9RHIZ
+MAQTFQFSFADKAEIGGGTVVCLMAAGGAAAASATVDPAGVLARAGEAMKFKARALSVLD
+IVAPQGLAADRLIVFGMGEAEKLTAHDWLKAGGAAAAKLKRAETVTVFLDAPGLAVSAEA
+AADFALGMQMNAYRFDRYKTKKKEDDEAGEPTAPTAVTIVTAQATAAAEAATVAKSVAEG
+VFLARDLVNLPPNVLGPVEFAARAKELVSLGVDVEILTEAEMAPLGMGALLGVAQGSARP
+PRLVILRWNGGSEGEAPVAFIGKGVVFDSGGISIKPGAGMEDMKGDMGGAAAVTGLMHVL
+AARKARVNAIGILGLVENMPDGNAQRPGDIVTSMSGQTIEIINTDAEGRLVLCDALWYCN
+ERFKPKLMINLATLTGAVMVALGHHHAGLFSNDDALADQLLDAGRASQEKLWRLPLAPEY
+DKMIDSKFADMKNTGGRFGGSITAAQFLKRFVKDTPWAHLDIAGTAMGSPTDEINQSWGS
+GFGVRLLDAFVRASCETKA
+>tr|A0A1Q9ANL0|A0A1Q9ANL0_9RHIZ
+MTADTILLNGRFTTLDRANPQADAVAIEGGAFLAVGREAEVMTHAGPTTRIIDLKGRRAL
+PGLCDNHTHVIRGGLNFNMELRWDGVRSLADAMDMLKRQVAITPPPQWVRVVGGFTEHQF
+TEKRLPTLEEINAVAPETPVFLLHLYDRALLNGAALRAVGYTRDTPNPPGGEIQRDGAGN
+PTGMLIARPNAGLLYATLAKGPKLPFDYQVNSTRHFLRELNRLGVTSVIDAGGGFQNYPD
+DYAVIEKLAAEGQMTVRLAYNLFTQKPKEEKEDFLKWTASVTYKQGDDYFRHNGAGEMLV
+FSAADFEDFREPRPDMPPEMEADLEGVVRILAENRWPWRLHATYDETISRALDVFEKVDR
+DVPLHGLNWFFDHAETISERSIDRIAALGGGIAVQHRMAYQGEYFVERYGHRAAEATPPV
+ARMLEKGVPVSAGTDATRVASYNPWVSLAWMITGKTVGGLSLYPRANCLDRETALRMWTE
+NVAWFSNEVGRKGRIAAGQLADLIVPDKDFFACAEDEISFLTSDLTMVGGRVVYGAGDFA
+ALDDNPLPPAMPNWSPVNRFGGYGAWGEPEGAGRHSLRRHSLRHQAIAGCGCAQSCGVHG
+HDHAAAWGASLPVGDLKGFFGALGCACWAV
+>tr|A0A1Q9AGF7|A0A1Q9AGF7_9RHIZ
+MTTFSPREIVSELDRFIIGQNDAKRAVAIALRNRWRRQQLSDELRDEVMPKNILMIGPTG
+VGKTEISRRLAKLAGAPFIKVEATKFTEVGYVGRDVEQIVRDLVEVGIGLVREKKRAEVK
+AKAHQNAEERVLDALVGATASPATRDSFRKKLRNNELDDKEIEVEVADTASPAGGFEIPG
+MPGANIGVLNLSEMFGKAMGGRTKKVKTTVRESYGVLINDESDKLIDADEINREAVRAAE
+NDGIVFLDEIDKIAARDGGMGAGVSREGVQRDLLPLVEGTTVATKYGPVKTDHILFIASG
+AFHVSKPSDLLPELQGRLPIRVELKALTKEDFRRILTETEASLIRQYKALLQTEGVTLDF
+TDDALDALADVAVQLNASVENIGARRLQTVMERVLDEISFAAPDKNGETLAIDADYVRRH
+VGDLAANTDLSRYIL
+>tr|A0A1Q9ADE7|A0A1Q9ADE7_9RHIZ
+MDNARKFFIDGAWVEPLGTATLDVIDPATEQAFETIALGTVADAERAIAAARAAFRAWAA
+TAKAERLAVMKRIAALLEARNDEMGDVISREMGAPLAMARSDQAGIGLYHFQETIRAMES
+FAFDYMQGTTRILHEPVGVVGMITPWNWPMNQIAAKVAPALATGCTMVLKPSEIAPLSAV
+LFAEILEEAGVPKGVFNLVQGDGPTVGAVLAAHPDIDMVSFTGSTRAGIAVAQAAAPTVK
+RVHQELGGKSPYIVLRSADLADAVSLGVSKIMDNSGQSCNAPTRMLVPAEQMEDAIVAAR
+AAADAIRVGPPADPETQIGPLVSQAQFDKVQGLIRKGIEEGAELVAGGPGRPPHLNAGYY
+VRPTVFARVTNDMTIAREEIFGPVLSILGYETVEQAIEIANDTPYGLAAYVQGAPAEAKA
+VARQLRAGTIRLNRSAWDGAAPFGGYKQSGNGREYGKFGLHEFTEIKGIVGDGDA
+>tr|A0A1Q9AF54|A0A1Q9AF54_9RHIZ
+MLSALTPTKHLADADLLGRIGTLETRIARNAAEVDAAQAVRYQVFVEEMHAGVASDHAAR
+RRDVDSWDDVCDHLLVLDRAIEGDTTDQIVGTYRLLRQDVAERGAGFYSQSEFDVNTLIA
+RHPGKRFMELGRSCVLPAYRTKRTLELLWQGNWAYALKHRIDVMFGCASFHGTDPASHAL
+ALSFLHHHLTAQGEWEAHALPALAASMNLMPLDAIDTRKALSAMPPLIKGYIRLGAKVGH
+EAVVDHAFGSTDVLIVLPIESISGRYLSYYGADANRFGAQES
+>tr|A0A1Q9AGP3|A0A1Q9AGP3_9RHIZ
+MILLDTHVLIWALEDDRRLAGDARERLRQSAQLAVSAISIWEIAMLVERRRLVLTQDLEA
+WVAKVLSIPQLLLIPIDPAIAIDSVRLRPPFHPDPADRLIVATARFLRAPLMTADRAILA
+YADAGHVDVIAAE
+>tr|A0A1Q9AN74|A0A1Q9AN74_9RHIZ
+MTILMGVIACGLVSVVYAVWATRVVLAADQGNQRMREIAGFIREGAQAYLTRQYGTIALV
+GAVVFLAAWALLSAMAAFGFLVGAVLSGLAGFIGMHVSVRANVRTAQAASVSLAAGLDIA
+FKSGAITGMLVAGLALLGVSVMFLVLTGFLGLEPGSRAVIDTLVALGFGASLISIFARLG
+GGIFTKGADVGGDLVGKVEAGIPEDDPRNPATIADNVGDNVGDCAGMAADLFETYAVSIV
+ATMVLAAIFFAGTAVLQTAMLYPLAICGACILTSIAGAFFVKLGANGSIMGALYKGLIAT
+GALSILGLALATSVTVGWGTLGTVAGREITGANLFFCGLVGLIVTALIVVITEYYTGTNK
+RPVNSIAQASVTGHGTNVIQGLAVSLESTALPAIVIVGGIIATYQLAGLFGTGIAVTAML
+GIAGMIVALDAFGPVTDNAGGIAEMAHLPPEVRKVTDALDAVGNTTKAVTKGYAIGSAGL
+GALVLFAAYANDLAYFAANGDRYPYFADVGAISFDLSNPYVVAGLIFGGLVPYLFGGIAM
+TAVGRAGGAVVEEVRRQFREKPGIMQGRDRPDYGRAVDMLTKAAIREMIIPSLLPVLAPI
+LVYFGVLALSGSKASAFAALGASLLGVIVNGLFVAISMTSGGGAWDNAKKSFEDGFVDKD
+GVRHLKGSEAHKASVTGDTVGDPYKDTAGPAVNPAIKITNIVALLLLAVLA
+>tr|A0A1Q9ADJ9|A0A1Q9ADJ9_9RHIZ
+MSRSSASPIPGDSPDGLDLLNRAIELYYADITRAVRRRGLGLAMASDIVHDLYVKLAARP
+ETLRDKRSLKAFLCRAAMNLGIDHLRRETMEARLFSGDEQEALAVANPGPAPDHALEVEA
+RIAILRDAIAELPQRRRAVFILHRLHHLSPDEIALKLGISRNMVDRHLRRAFAHCLDRLL
+>tr|A0A1Q9AMP7|A0A1Q9AMP7_9RHIZ
+MSMKVPISAVVELGEVAAHRDHLINRNLLLAQLVADQQARIAELEAALQAATATEKENAD
+GAANVLR
+>tr|A0A1Q9AQ83|A0A1Q9AQ83_9RHIZ
+MGFVIVFLDAGVGGAVRHGVNLIVAHLLGLGFPWATLSINIIGSLLMGILTEIFVMRTGL
+PQELRLFLTTGILGGFTTFSTFSLDAVGLWERGETSAAILYASASVILAFIAVFAGMALV
+RGMVGGQTA
+>tr|A0A1Q9AMG2|A0A1Q9AMG2_9RHIZ
+MKTQARAVVIGGGVVGVSTLYHLARKGWTDSVLIERKELTSGSTWHAAGLLPLFNMSYSV
+GQIHKYSVKFYQELQEETGMNVGFSQVSNIRLARTKDRWDEYMYYAGIAETIGINVEIMT
+PEQVKEIWPLCETEGLLGAIRHPDDGYIQPADLTQALAKGARERGATIYRNTSVTGIEQL
+EDGRWKVTTDKGEIVAEHVISCTGSFARKTGEMVGINVPVIPVEHQYIVTEPHPAILERK
+AQGLPEMGVLRESDSAWYMREENGGLLLGPYEVGAPVCYVDGPSDESEYELFQEELERLM
+PYIETAMVRVPAFGEVGIKKVYNGAIAYTPDGNPIVGPAPGLKGFWLNEGHSFGITAAGG
+AGWQLAEWIVDGEPTLDMMGVDPRRFGPYATEGYLIAKNEEAYANVFTMHYPDEERSAAR
+PLKTTPVYDRLKKMGAVFGSVYGWERANWFAPEGYSLDKSELGVGVDVITSHNYAPPLED
+GRYVEKWSFRRSNYFEHVGNEVKNVNEKVGVLDMSAFAKMEVSGPGARAWLESIFANAIP
+KKRGRIALCHLLTVHGGVRAEFTVYEWAPNRFYLVSAGAYEAHDHDYLRKLAPQDGSVRL
+NAITQRMGVLVLAGPRSRDVLKKLTRTSLENKDFPWLSGKEISVGVATAHALRVNFVGEL
+GWELHHPIEMQNYIFDQLMEVGAEFGIKPFGIRAMLAMSVEKSYRLIPREMSIEYNAYES
+ALDRFIKPEKEFLGKEGLLAGKEKGLKWNFATLVVEGTTDVDARGSEAIYNEDGALIGRA
+TNGAYGWRLGKSLALAMLQPAYAAIGTKVKIKILGTIYDATVVEESPFDPQNAALRA
+>tr|A0A1Q9AN86|A0A1Q9AN86_9RHIZ
+MMMAAVSAMMLMQPALSPARAADMTAPVREIMTEAERGWSETPSGEPRDYFDAERLKRIY
+SADFNRAYAAAAKFPAYEDGGSPFDYDVIVSGQDSCTLKDIHIEEKPAAGGATPVEVSFD
+NKHCLAEEGAPPPDQSHLTFRMIEENGHVVIDDIIRPDAAGSLKGELDEMAKLAADEAGK
+DGKDGKDGKDGN
+>tr|A0A1Q9ACC2|A0A1Q9ACC2_9RHIZ
+MADIRNNFVGIKSPNPFWLASAPPTDKAYNVERAFKAGWGGVVWKTLGEEGPPVVNVNGP
+RYGAIWGADRRLLGLNNIELITDRDLQTNLREMKQVKMNWPDRALIASIMVPCVEESWKA
+ILPLVEETGADGIELNFGCPHGMSERGMGSAVGQVPEYIEMVVRWCKQYTRMPVITKLTP
+NITDIRQPARAAKRGGTDAVSLINTINSIVSVDLDNFAPNPTVGGKGSHGGYCGPAVKPI
+ALNMVAEIARDAETAGLPISGIGGVTTWRDAAEFLVLGAGNVQVCTAAMTYGFKIVEEMI
+TGLSDWMDEKGHRTLDDITGRAVPNVTDWQYLNLNYIAKARIDQDLCIQCGRCHIACEDT
+SHQAITSMVDGVRHFQVMEDECVGCNLCVNVCPVDNCISMVALEPGTLDERTGKIVDPTY
+ANWTTHPNNPMARQAAE
+>tr|A0A1Q9AFL3|A0A1Q9AFL3_9RHIZ
+MADGASDTPSNAPSTAQSNAMWGGRFAKGPAAIMEEINASIGFDKKLYAQDIAGSKAHAT
+MLAAKGIITEADRDQILKGLDTVLEEIESGRFEFSRKLEDIHMNVEARLATLIGPAAGRL
+HTARSRNDQVALDFRLWVKAEMVKTANALDALILAFLDRAEEHADTVMPGFTHLQTAQPV
+TFGHHCMAYVEMFARDKARVLHAIEHLDESPIGAAALAGTGFPIDRHMTASALGFSGPTR
+NSIDTVSDRDFALEFLSIAAISATHLSRLAEEIVIWSTPQFGFIRLSDAFSTGSSIMPQK
+KNPDAAELVRAKTGRINGSLIALLTVMKGLPLAYSKDMQEDKEQVFDAAESLELALAAMT
+GMVRDLTVNAERMRAAAGSGFSTATDLADWLVREAGLPFRDAHHVTGRAVAAAEAKGVAL
+EALSLAELQAIHPEITEAVFSVLSVDASVASRTSFGGTAPAEVRRQIGWWRARLAG
+>tr|A0A1Q9AF96|A0A1Q9AF96_9RHIZ
+MIVRRNFLRLAAGFLFASLSTTSYAVGVEPMLRMKTVTYRPRLPNWPDGLRLRLVLLADF
+HACDPWMSAARIASIAEKANSLQGDMVLLLGDFLSGMRLCTGHVPPEDWAAALSGLSAPL
+GVHAILGNHDWADDHEAMARGKGPLLAQRALEGIGVPVYDNRAVSFEKDGHRFWLAGLGD
+QIGPLRPMDDLPGTLAQVSDDAPVILMAHEPDIFPGVPARVAITLSGHTHGGQIRLFGRS
+PFVPSRFGSRYIRGHIIEGGRHLIVSAGLGMSGIPVRFGAPPEIVVVELGGDAAA
+>tr|A0A1Q9AHB8|A0A1Q9AHB8_9RHIZ
+MPAAFRQSIARGSQPAVVKLVSFAAGKTRVGKLLGYQSRDGELSVENETGETVEGRDWIK
+ALANEWAEEDGRKPSKDVLHLSLTLPPTSCLSDDEVGEVLKVALAGHRIAWQRHMAGAGE
+GRRVELVISAARRRLADEKRAGRIFDNRKSLRDLETRLKRAFGAEARVDVHGFSHGVEGV
+ARGLGQLQKDGRHPIIAVRMDKAGAFVAQHEVGGERSIADEARDWKQDLRSQQRRDVAHI
+VLSAKPGTAKEAFVGAARAMLASEFSGHRFLFTLHEDRNHLHVHAVVKMVSETGKRLHPK
+IEDLRRWRAVLAHEARERNIPMDAVSRFERANPPGFKMKDIRRVERGEASETVMRRVEAV
+RQQAVHIPTRAEGVRRAMASAAGWSGHLQTAETDPAEPPQRPGTTRLYRVQRDNDRSAAP
+LFTVDRAAAAQILARQGGTLRYIDVTSKQRQDIRPSRLNPEAVFVVPRELAAESQILSVT
+ALETAGLFRQRTLDAVLNGATAATERNARELLTAKEPGMADLETMSSAFAEMETNLDTLA
+KNLPPERLAEFDGLRQKLKVNQTKMIEAQTAIEAKRGRIEGETWVQPVPQNFVGFVAEKR
+GEDIRYSHRAPEGRIGAVAFTDHGDRVEVSRSRDRETVLAALQLGAEKWGAVRVSGPDRY
+KVLAVELAAEHGFQLTNPELQDKLASARDRIARERPEQASVLAGATPTLTLADRRYVEAA
+DAAHLDRAQAPDRRDTVQASSPAAAARQKREEQTIVPEAGAKGEVASAQTLDGPKTPLDK
+GDKVKPSDRDRASILEAMQVASEKWGVVAVNGSERDKTIAVEFAAEHGFKLSNPELQERL
+AAARSKVEERQERERARERKQLGFVDGAEAAPTVRRSDAEIGIALETVKEKTEAEAAREV
+KQAKRTAQIGERPIDGGGDDHTYRTKAEASAAVRAEKFIEQNPTKPIPADVAQSPEIERQ
+RLDQKELLSEKDANRQTQVRKQKPRQRR
+>tr|A0A1Q9ANP0|A0A1Q9ANP0_9RHIZ
+MTGDKHTSRAAKPAGPTSGDLDAQALFFHRYPHPGKLEIQPTKPLGNQRDLALAYSPGVA
+APCLAIRDDPQAAADYTARANLVAVVSNGSAVLGLGNIGPLASKPVMEGKAVLFKKFAGI
+DVFDIEIDAPGIERMVDVVSALEPTFGGINLEDIKAPECFEVERRLRETMNIPVFHDDQH
+GTAIIVAAAVLNGLELAGKKIEDAKIVTSGAGAAALACLNLLVNLGARRENIWVHDLEGL
+VYEGREVLMDPWKSVYEQKSDKRVLADSIGGADVFLGLSAAGVLKPELLEQMAERPLIMA
+LANPTPEIMPDLARAARPDAMICTGRSDFPNQVNNVLCFPYIFRGALDCGASTINEEMKM
+AAVRAIAGLAREEPSDVAARAYSGETPIFGPNYLIPSPFDQRLILRIAPAVARAAAESGV
+ATRPIADFDAYLDQLNRFVFRSGFIMKPIFTEAKNAPNNRVIFAEGEDERVLRAAQVLLE
+EGTARPILIGRPQIIENRLKRYGLRIRPDADFEVINPESDSRFRDYVDQYFALVGRRGVI
+PEAARTIVRTNQTVIGALAVKRGEADALICGVEGRYSKHLREVSQIIGKRDGVLDFSALS
+LLILQRGAIFLTDTFVTFNPTAEEIAQKTVMAAKAIRRFGITPRAALVSHSNFGSRASDS
+ASKMRRALDILREIAPELEVDGEMHGDSAISEALRRRVMPNSTLTGEANLLVFPNLDAAN
+ITLGVVKSMMDGLHVGPMLLGSAQPAHILSPSVTSRGVVNMAALAVVEATHPV
+>tr|A0A1Q9AK34|A0A1Q9AK34_9RHIZ
+MESVGIVLILLLAVVVSSMVVRLLPIGLPAPLVQIALGAALSSVTGSTITLDPEVFFLLF
+LPPLLFLDGWRIPKEGLFRDKGVILELALGLVVFTVIGVGLFVHWMIPAMPLAVAFALAA
+ILSPTDPIAVSAIAARVPVPKRLMHILEGESLLNDASGLVCMRFAVAAALTGSFSLVEAF
+ATFLWLALGGIALGFCVTWGVMVAKDAASRRLGEEVGSQILISLLIPFAAYLLAEHLGCS
+GILAAVSAGITMSYVEQRGQVMAATRVRRSIVWDTVQFALNGIIFVILGEQLPSIVAGAA
+QVVRETGHHDPVWLILYVLAINLALALLRITWVWLSLRLTLYRAARHGQAPPRPHWRLVV
+ATSLAGVRGAITLAGILTLPLLGADGGAFPARDLAILLAAGVIIVSLLAASIGLPPLLHN
+LELPPETENDRAEDAARIEAAEAALKAIAALQQEAAEQENGEAYAEIGGRLQEIYRRRIE
+GRSKTGSEAEALRRMEAAERRLRLAAIRAERDALFRASRARRLPDEVARKLIREVDLAEA
+RWGG
+>tr|A0A1Q9AQ91|A0A1Q9AQ91_9RHIZ
+MSRDAMIDEWYPVGLLSQLLPEGRETLLMGETIRVSLGADGRAKVATTAGHPLPVTERYG
+HVWSSLGQPARPLFDIPEAEHPGRRLVDVGVVRVRCSPLRAVENFLDIAHFPFVHTDILG
+AEPHTEVESYKVEIREEADEVWATQVKFYQPQAAKSASGGITTEYMYRVPAPTCSVLYKT
+CPPRPGEWDVITLFVQPLTEELCDVWPWMALYDDDTPMTDLIHFQQMIFLQDRSILENQI
+PRRLPLDPGMEIPTRADLTSVAYRRWLKRHGFTYGAQLVAQ
+>tr|A0A1Q9AJN3|A0A1Q9AJN3_9RHIZ
+MSVIFESLVPIFLLVACGVWLKRVRFIAPTLWEGLEQLGYYILFPALLFSTLATAQFGGL
+KTDATALATIGGVLAMSGLVLALRPLLAKRGVPASTFTSLFQTATRWNGFMALAAAERLY
+GTTGLTLTALVMTLIIVPINFVNIGVLIWFNGGPRSLSFFALRILSNPMVAASLVGIALN
+LAGITVYAPVMSAVRMLAESSLPLGLIMVGAGLRLADLVRPEPLVFLSSLLKLIVMPVFM
+VGFGAALGLSGDALLTIALGASVPTAMNGYLLAKQMGGDAPFYAVAATLQMVASFLTIPL
+VLSAAAYFAAG
+>tr|A0A1Q9AGD6|A0A1Q9AGD6_9RHIZ
+MGTEKGRAETSVSEKSRRVPLWTKLRRRYEARRTLHRRVPWRGFTLSALNLIAIAFFVLD
+TPLGQAAKSLPPPLIGFAGNVTDIGKLAYILAAVTTVLISLFLMGRRLSGVRRRFRMAYL
+GQMTLYAALSVLVSSIVVHLLKYAIGRSRPLLFEEDGVLSVHPFSGDFLHESFPSGHSAH
+IGALFMALALLFPRFRLVFIGLGLWLGATRIILGVHFPSDVVAGLALGAWLAFAVSILFA
+RFGLVFSVDRNGWPMPRLNRVV
+>tr|A0A1Q9ADJ3|A0A1Q9ADJ3_9RHIZ
+MQANPLQRHNIADIYPLSPMQEGILFHSISAPGEAFYMPQTALRLLGAVDGAALKAAWQA
+AIDRHAVLRSGFYWETRDAPFQIAFKHLSASFAIRDLPDADSAQGLERIFAENRAEPFDL
+QRPPLLRVQWIRTGQERSILVVCYHHIILDGWSIRALLEEVLALYRHETGAAGAALAPPR
+AYGDYIGWLKAQDRAAGLRFWQDRLDGAPKPFRLLAHEGSGPFARLSRNCPKGLHRAIRE
+AGARAGHTLNTLLQGALALLLARQSGRSDVIFGTTTAGRPAQLAEAASMIGLFINTLPVR
+VPIEGQTSVRGWLDRLQARQAETIAHEHVPLASIQGAGGALFDTLLVVENLNGPTGGPTG
+RTDVLPFAVEPVDFDERTHFPLTLWALPRAAGLTLMAGYCRDALDGDTAAVLLDALMRNL
+AKILAQPDSTLDALLERLGPPLSAPGLSTPADPLPTEAADAAPVSQPISPAGARALTATE
+QRIARIWQEVLKSGPLGPDAHFFALGGHSLLGARVISRLRQEIAVPVPVRSLFERPVLSD
+LAAEIDRRAAPAEGHIEIEI
+>tr|A0A1Q9AJG7|A0A1Q9AJG7_9RHIZ
+MAQTLSFNGRRRVRKVFGKIPEVAEMPNLIEVQKASYDQFLMVEEPRGGRPDEGLQSVFK
+SVFPIQDFSGASMLEFVSYEFEPPKFDVDECRQRDLTYAAPLKVTLRLIVFDIDEDTGAK
+SIKDIKEQNVYMGDMPLMTNNGTFIVNGTERVIVSQMHRSPGVFFDHDKGKSHSSGKLLF
+AARVIPYRGSWLDIEFDAKDIVHARIDRRRKIPVSSLLMALGMDGEEILSTFYTKSLYQR
+DGKGWRIPFQPQALKGQKAITDMIDADTGEVVVEAGKKLTPRLLRQLSEKGLKAIKASDD
+DLYGNYLAEDLVDMRTGEIFLEAGDEIDEKALGVILQAGFDELPILDIDHINVGAYIRNT
+LAVDKNENRQDALFDIYRVMRPGEPPTMDSAEAMFQSLFFDAERYDLSAVGRVKMNMRLD
+LDCPDTVRVLRKEDILAVVKMLVELRDGKGEIDDIDNLGNRRVRSVGELMENQYRLGLLR
+MERAIKERMSSIEIDTVMPQDLINAKPAAAAVREFFGSSQLSQFMDQVNPLSEITHKRRL
+SALGPGGLTRERAGFEVRDVHPTHYGRICPIETPEGPNIGLINSLATFARVNKYGFIESP
+YRKIVDGKVTNEVVYLSAMEEAKYHVAQANSVLEEDNSFAEEFVVCRHAGEVMLAPRDQI
+NLMDVSPKQLVSVAAALIPFLENDDANRALMGSNMQRQAVPLLRAEAPFVGTGMEPVVAR
+DSGAAIAARRGGVVDQVDATRIVIRATEDLDPGKSGVDIYRLQKFQRSNQNTCVNQRPLV
+TVGDVLNKGDIIADGPSTDLGDLALGRNALVAFMPWNGYNYEDSILMSERIVSDDVFTSI
+HIEEFEVMARDTKLGPEEITRDIPNVSEEALKNLDEAGIVYIGAEVQPGDILVGKITPKG
+ESPMTPEEKLLRAIFGEKASDVRDTSMRMPPGTFGTIVEVRVFNRHGVEKDERAMAIERE
+EIERLAKDRDDEQAILDRNVYARLIDMLRGHVAVAGPKGFKKGTELTNAVVSEYPRSQWW
+MFAIEDEKAQGEIEALRGQYDESKSRLEQRFMDKVEKVQRGDEMPPGVMKMVKVFVAVKR
+KIQPGDKMAGRHGNKGVVSRIVPVEDMPFLEDGTHVDICLNPLGVPSRMNVGQILETHLA
+WACAGMGKKIGELLDEYRKTMDITDLKTELTEVYASEAKDEVSAFDDAALVKLAEQSRKG
+VSIATPVFDGAHEPDVAAMLKRAGLHESGQSVLYDGRTGEPFDRKVTVGYMYMIKLNHLV
+DDKIHARSIGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVA
+GRTKVYEAIVRGDDTFEAGIPESFNVLVKEMRSLGLSVELENSRVDETAAAQPPLPDAAE
+>tr|A0A1Q9ADQ3|A0A1Q9ADQ3_9RHIZ
+MADVRLQAVRKTFGVLDVIKGVDLDIRAGEFVVFVGPSGCGKSTLLRMIAGLEDISEGTL
+TIGGQTMNDVDPSQRGIAMVFQSYALYPHMTVRENMGFALRFAGMDKQEIARRVQSAARI
+LELEPLLERKPKALSGGQRQRVAIGRAIVRNPKVFLFDEPLSNLDAELRVHMRVEIARLH
+KELKTTVIYVTHDQVEAMTLADKIVVLRAGQVEQVGAPLDLYDDPANLFVAGFIGAPRIN
+VFTGQVTARLPGAAEVRLDGFAERRLVIPLTGEAPAEGTEIRLGIRPEHLTEGGAESLPI
+EIDMFEHLGGETFAYGRSRSGETIIVSTRNGRHLKAGQVLAAGFDASKALLFDAAGLRIR
+>tr|A0A1Q9AJP9|A0A1Q9AJP9_9RHIZ
+MGPQDPQAADFERYDAPGYSDRPAREPAFNLPPVLVWILAALIAIHAARLYLLTPETDSW
+VVFTFAFLPLRYVYPLAEQGLAWLWTPVTYSFLHGGWDHLLFNGFWLVAFGAPVVRRIGT
+LRLALFWCLSAAAAAGLHAATNWGDDTVVIGASGVVSAFMGAAARFVFSADGSIRREIAH
+LNPRLSIAETFANRSVVFFVGIWAATNVLIGSGLLPLAGGQSIAWQAHIGGFLFGFLAFP
+LFDPIPRRPR
+>tr|A0A1Q9AF79|A0A1Q9AF79_9RHIZ
+MIISIADATQTQSSLPQEEIDAIVNGQHGDPFAVLGPHEGESGLIARCFLPGAETVSVES
+LDGAPLGTLTRIHDAGLFEGVLAADRFQPLVHRAANESGQWRVIDPYSFGPVLGPLDDYL
+IREGSHLRLFDKMGAHPLRHEGVDGFHFAVWAPNARRVSVVGDFNAWDGRRHVMRLRRDT
+GIWEIFLPEVTAGSPYKFEIIGAQGELLPLKADPFARRSELRPATASITAPVIDHDWQDA
+AHRAHWASADARRQPISIYEVHAGSWQKGDNGEFLSWDELGDRLIPYCVDMGFTHIEFLP
+ISEYPYDPSWGYQTTGLYAPTARFGEPEGLARFVDGAHKAGIGVILDWVPAHFPVDAHGL
+RHFDGTALYEHQDPRQGFHPDWNTAIYNFGRAEVFSYLVNNALYWAETFHLDGLRVDAVA
+SMLYLDYSRKHGEWVPNEYGGNENLEAVRFLQAMNRNVYGSHPGILTIAEESTSWPKVSA
+PVHDGGLGFGFKWNMGFMHDTLQYLSREPVHRKYHHHDLTFGLVYAFSENFVLPLSHDEV
+VHGKGSLIAKMPGDDWQKFANLRAYYAFMWGYPGKKLLFMGQEFAQWSEWSHERALDWNL
+LEYPLHAGMRRLVRDLNGTYRTKPALHARDCEGEGFDWLIADDRENSVFAWLRKAPGEKR
+IAVVSNFTPVYREHYSIPLPKTGQWREIVNTDAEIYGGSGKGNGGLIEAVRLGSGAIYAA
+ITLPPLATVMFEEVSTEEEADTPQAPGASGAI
+>tr|A0A1Q9AI04|A0A1Q9AI04_9RHIZ
+MTFSRRAFLLGATGLVAGCSQTTPSPFIQTSALNYGPIADEKFPLPAMPLDKIAPELRRQ
+EVAYPAPYKAGTIVVDTGARRLYYILGEGRAMRYGIGVGRAGYALSGNAYIGRKAEWPSW
+TPTPNMIRRDPHKNLRYAAGVPGGLNNPLGARAMYLYRGGNDTMFRIHGTNQPWSIGQAM
+SSGCVRMLNHDVIDLYERAKVGGQVIVIQGSHPAESFAAL
+>tr|A0A1Q9ACL4|A0A1Q9ACL4_9RHIZ
+MRALPQEIIRRKRDGAVLRAEEIAAFVEGMSDGSIGEGQVAAFAMATFFRGMAREETVAL
+TLAMRDSGRVLSWDPIDRPVADKHSTGGIGDNVSLMLAPIAAACGLAVPMISGRGLGHTG
+GTLDKLESIPGYDIAPEPARLTALVRDVGCAIVGQTADLAPADRRLYAIRDVTATVDSLP
+LITASILSKKLAAGLQSLVMDVKTGSGAFMRTQGEAEELAWALVEVANGAGVKTTALITD
+MNEPLADAAGNALEVAHALAFLRGEKAGSRIETLVLALAAEMLMSSGLAADAAEGAEKAA
+RALASGAALERFAAMVHGLGGPADFIEKASAYLPAAPVVRPITAPASGWLAACEARGIGM
+AVIRLGGGRLSPADAIDPAVGFSAIPPLGTKVEAGDSLAFVHAASDAAAERAMAEFQACY
+QIAEAEPAPRNMILSRITG
+>tr|A0A1Q9AJG0|A0A1Q9AJG0_9RHIZ
+MAQERRGSREDRQNREERDSEFVDKLVAINRVAKVVKGGRRFGFAALVVVGDQKGRVGFG
+HGKAREVPEAIRKATEAAKRELIFVPLRGGRTLHHDVHGRHGAGKVLLRSAKAGTGIIAG
+GPMRAVFETLGMHDVVAKSTGSSNPYNMIRATFDALKNQMHPKDIAAQRGIKYATLQGRR
+EAAGMVSAEE
+>tr|A0A1Q9ACH6|A0A1Q9ACH6_9RHIZ
+MADSDGAADVLTDEEYKALGRWRQGDFTLQRNHIPLIFETDDEGLDVGTIETCGWIVITQ
+TCDIVNYGKRKEYVSICPIVVVPPDVLKEVHAGVTPAYGKLDLAVADDHVVDFGMTATVH
+KRALLLLERRDGFSDDAARSVFQQSLERRYGRFAFPDWLSNGPLRQLRKRAREAHKSSGA
+NGNIYKAIDEFRVRGNPDLESKGSVIGFLAVVNRDKERETTRQAIRKELDTQAGKWDWPE
+DFIKEDEFIVVGTLDEFSGRDIKESYSVDLDFISMRPDERS
+>tr|A0A1Q9AGW6|A0A1Q9AGW6_9RHIZ
+MSSRDLVLIALFAAIVVVLGLVPPVTIGLLPVPITAQSMGVMLAGCILGAKRGALTFLLV
+ILMVALGLPVLSGGRGGLAILAGPTAGYIFGWVAGAFVTGLIAERLVRDSQGGARQILGF
+ALAALIGGVGVVYLFGTLWLAYAKGIALPAALLGQLPFIPGDLIKVAIAALAARSVMVGY
+PLLPQRG
+>tr|A0A1Q9AJK2|A0A1Q9AJK2_9RHIZ
+MDFTVTTLEGKDAGKVSLSDTIFGLEPREDIIARVVRWQLAKRQQGTHQTKTRGEVSRTG
+AKMYKQKGTGRARHHSARAPQFRGGGKAHGPVARSHEHDLPKKVRALGLRHALSAKLKSE
+DVIIVDSLVAADAKTKTLVGAFAGLGLTNALIIGGAELDNNFKLAAKNIPNVDVLPVQGI
+NVYDILRRGKLVLSKDAVEALEERFK
+>tr|A0A1Q9AGW3|A0A1Q9AGW3_9RHIZ
+MSLTTVKQPLTIRLCGPRGFCAGVDRAIQIVVLALKEFGAPVYVRHEIVHNRYVVEGLEA
+KGAIFVEELDEIPPEHRKQPVVFSAHGVPKSVPADAESRNLFYLDATCPLVSKVHKQAMR
+HNRLGRHVVLIGHAGHPEVIGTMGQLPEGTVSLIETIEDVDAYEPADPDNLGFVTQTTLS
+VDDTAGVIKRLHERFPNLTAPAADSICYATTNRQEAVKQAAPGCDLFLIVGAPNSSNSKR
+LVEVASRAGAKASFLVQRAAEIDWSQMDGVRTVGLSAGASAPEVIVNEIIEAFRERFDAR
+VELADTVEENENFLVNRELRHVPLTTSDMAFVNGE
+>tr|A0A1Q9AEU9|A0A1Q9AEU9_9RHIZ
+MNQAHDDLTLNDVLTDPMIRMMMRADGVTTSEMKTLLYSAASAMRSAQSQDGGARAVAHR
+LMTAPKRRLLSMVHPLAARGEVCMAC
+>tr|A0A1Q9ANK1|A0A1Q9ANK1_9RHIZ
+MWITDGTAAGTYQVADIFPFTRSQTGSDPSGFTAIGSPAGGPGDDQLTGGVGLDLIAGGT
+GHDTVNYALDRSQYVVTQTGALTTVRALTGSEGTDYLTGVETLHFANREISTLGLSGDFN
+GDGRADILLQSQTNLATWTMNGASLAGGGLLPGLSDGWSAIAAGDANRDARSDLLLQKDQ
+QLALWQMNGTQVTGGGVIGTLGDGWVVAAMSDLSGDGRADILLQNDRQLALWQMNGTQIV
+GGGLLSSILGDGWQLAGTADLDGDGRSDLVLQNGQSLAVWLMNGPQLIGGGFAGTLAAGW
+SIIGTGDLNGDGKADLVLQSGQNLAVWQMNGAQIAGGGLIGAMGSGWHVAGLGDVNGDGK
+TDIELQNGQQLAVWQMNGTQIAGGGLVNATLAAGWELV
+>tr|A0A1Q9ANC3|A0A1Q9ANC3_9RHIZ
+MAGLYTQLRDVVASGPLLMPDEIMDEGTLSVIDFMDPYTWPDYEIVTPVSTTKEYKQFDA
+RAFEQEGPPVKFNHPLTVAGGAIAFDGDKGENLVLPPAWKLDTGLKHFGMAFWVQMGPTI
+REGFNNRIAGFNAPGNVNQWYVAPTGDNTNKVAQLEFYCRPGDTTYGLASISGLSVANDI
+FNSSILLMGYEYEENQAGTHFDQRFYLGRGLRGARTAVPKVREFLPATTAGNALIGCPAD
+FTGGTFQGNFRRAWLQDFAKSKRTMEEMIAQDWDVNRARMGAV
+>tr|A0A1Q9AM47|A0A1Q9AM47_9RHIZ
+MRGHDRDFLAALLILFLLALAPFILNLAGQDFWLDVLLRAMILGIAAASLNLLIGLSGLV
+SLGHAVFLGIGAYSVGILADMDITNGAIQLAVAVTLSGLYAFVTGLIALRTRGVHFIMIT
+LAFAQIIYFIMVGLRQFGGDDGLTINFTSTFGDRIDLGQKPVLYYVVLGVLALVLLSFSR
+IIKSDFGLLLKAAKGSERRVMAIGFDPFRYRLAAYVAAGAVCGLAGFLDANFTSFVTPES
+MSWTNSAELIFIIIVGGLGTVSGPILGALIFLLLEEFLGGLTTYWHFWFGLFLIAVVVLA
+KGGLAGLLNGRGART
+>tr|A0A1Q9ACB6|A0A1Q9ACB6_9RHIZ
+MSGRFLFFLLLSIPIFLAGATASRAYVSSERWPLLALSLLLYCLGNLVMIRLMREGGLGL
+AISLSAIGQLVAINAIAFLVFGERMTGQQMAGVALGVVAMGLMLVPVGSKP
+>tr|A0A1Q9AKS0|A0A1Q9AKS0_9RHIZ
+MKKAFDVSDKLFELYHRVHRLLNESMTEEGVSLARSKFLFYLCKLGPCRSTDIADALKFA
+PRTVTEAIDGLERDKLVVRQPDPDDRRAKIVTITEMGRQALEAAEGPRKQMIGELFATLD
+DSELDQLHDIVAKLVEKAEDMRAKRKEEVSSAAE
+>tr|A0A1Q9AHX1|A0A1Q9AHX1_9RHIZ
+MSFSIQLEAAGRELHIDIRGRLFIVPVDDGVVQRRDVIDVACDARLEMQELGALYRHIEG
+FGVTLDGPVYTVRV
+>tr|A0A1Q9AQQ0|A0A1Q9AQQ0_9RHIZ
+MSTEQVNNEIRRFLKAEDKLALCLSGKWGVGKTHTWDTLLTAAFKDATVRPPRYAYVSLF
+GLETLSDVRRSVFENTVEAAAFSEKERLEATFSSVSERLAQLSSKWRAGIGMIRGIPVVA
+DYGGLVEAGFLDVRNQIVCFDDLERMSEGLDLKDMLGLISFLKEKKNCKVVLLLNSEALE
+GQNAEDFRVQLEKVIDIHLTFAPTASEAVAIAVPDRTTLLSQMVAEYAAKLEITNIRTIF
+KLLRICSRLEEVLEGYDERIIRQAFHGACLFGFAIYQPTEAPPIDAILKHRPYADLFGDR
+EERTPEEIQHSELLKRYEFLTADGLDLVVFDCIRSGFYDEVSLQREADVLTGRLELKDQD
+AAFSKVWDIYHGSFDDNADAFATELKQSIRDNAAAISPANLSASIATLKKLGHGDGLDDL
+IKDYVDSRDDGMDFWVGDPVSPRLNIEDPDVIAAFAAKAGAFADDRTLTGVATAIVRNRG
+WSEGTLEFLDKHSTDDFYAAMKSAKDEELRLVVYGLTYFRNIGNADERMKSISAKAVSAL
+QRIGQESAINRLRVEKFSVVVPQA
+>tr|A0A1Q9AD81|A0A1Q9AD81_9RHIZ
+MASVSIERVEKHYGSVPVIHGVSVDIEDGEFVTLVGPSGCGKSTLLRMLAGLEEISAGEI
+RIGGRVVNDVAPKERDIAMVFQSYALYPHMTVAENMGFALKLQGVDKASIEKRVREAADI
+LALGPLLDRLPRQLSGGQRQRVAMGRAIVRHPQVFLFDEPLSNLDAKLRVTMRAEIKDLH
+QRLKTTTVYVTHDQIEAMTMADRIVVMRGGVVEQVGRPLELYDRPANTFVAAFIGSPSMN
+LLEGRVENGAFRLTDGVTSLPLPQGFHGTPATYGFRPEDITLSDQGVPATIAVVEPTGAE
+THLVVRLGEENITVVTKERLALEPGQTVHLSPNLSRLHLFDAGGRRLAERGGVN
+>tr|A0A1Q9AC89|A0A1Q9AC89_9RHIZ
+MTALLQVKAVETYYGNIRALAGVDVEVQKGEIVCLIGANGAGKSTLMMTICGSPQARTGQ
+ILFEGRDITRMPTHEIARLRIAQSPEGRRIFPRMTVYENLQMGASLDNLKYFNEDVEKMF
+ALFPRLKERQSQRGGTLSGGEQQMLSIARALMARPKLLLLDEPSLGLAPLIVKGIFEAIR
+KLNETEGLTVFLVEQNAFAALKLSHRAYVMVNGQVTMSGGGRELLANPEVRAAYLEGGRH
+>tr|A0A1Q9ACL1|A0A1Q9ACL1_9RHIZ
+MKKTLLGLLAFSLMSGAAFAADVKPAIIYDLGGKFDKSFNEGAFNGAEKFKTETGTAYRE
+FEIANDAQREQVLRRFAGDGNSPIVMAGFNWAAALDKVAAEYPDTKFAIIDMVVQQPNVK
+SIVFKEQEGSYLVGILAGMASKSKTVSFIGGMDIPLIHKFACGYVGGAKSTGKDVKTLEA
+YTGTTPEAWNDPVKGGEIAKSQFAQGSDVVYHAAGGTGVGVLQAAADAGKLGIGVDSNQN
+GLQPGKVLTSMLKRVDVAVYNSFKSAADGKFEPGISVLGLKEDGVGYAVDDNNKALLTPE
+MTAAVEKAKADIIAGTVKVHDYMTDEACPY
+>tr|A0A1Q9AJR7|A0A1Q9AJR7_9RHIZ
+MPHAASPSRRAAILAILAITLYRILLLAFDTTDLFVDESQYWAWSQHLDFGYYSKPPLVA
+WVIRLTTELGGSNSRFWVRLGGPLCHMATALLLMQAAARLAGEKFAPWVGLSFITLPAVA
+LSSVFISTDTVMFVFLAGALVAYAGLIERSSLPRALVFGACVGMAMLGKYSMVFVVGCMG
+LAALLMPRARVSWRDGIVSALTALLVFSPNVWWNLTHDIATVRHTSENVNWQGLNLHIRG
+ALEFFLAQFAVVGPVLFGALIWAGVRALKRSDTPLERHLTLLTWPIVLAFVAEALISRAY
+ANWAVQAYAAGTILATILLLTQTKRGIVHSFRINLFATIVFPIVCIFAAHVALPGGDSVL
+KRYLGRAALSQEIAATAREAGATVIVAENRDILADLFYTLNDQGFTLAARREEGFPRHYY
+EQNFALDPATPGPILYASVGDLTCKSGQARALKTIRPESGYWRKREITLYLTDAACLAP
+>tr|A0A1Q9AM61|A0A1Q9AM61_9RHIZ
+MSARGFTVIENEWIRLKDGTRLAARIWMPDNAGDDPVPAVLEYLPYRKQGGTSLRDESTY
+PVFAAAGIAGVRVDIRGSGESEGVIDGEYTPRELSDGYELVEWIAAQPWSNGRVGMMGIS
+WGGFNCLQVAALKPPALKAVISIASTVDRYNDDIHYKDGTHLSAQLSWAATMLGYQSRSP
+DPALVGDAWKAMWLERLEGEPFFLEEWLAHPHRDAFWQHGSICEDFDGFPVPALVIAGWA
+DGYRNTPIKAVEGLGPKAKAMIGPWVHKYPHFAWPKPRADFHGEAIAWWNRWLRDEDNGA
+EALPQMRAFILDGPRPALRRAVEPGFWIAKQDWQAPEMQSFHVGPYGALTQGLPVPHPQP
+HAIFLRSPLDTGTQSGEWFTLKPDAEMAGDQRLDDAGSLTFETEPFAEGEAYLGRPEVTL
+TLTPHAPVANLIVRLVDLHPDGAATRITFGVLNLCHRDGNAAPTPLVPGAPITVRLVLDA
+CGYRIGEGHRLRIALSTAYWPMILPTPEDAGITIDAATLGLAMPLLGDHERITVPEPENP
+DPLPHYTELSPGRTERRVERDLATGTTRYIIVEDTGLFRHPDTGLAIRDLREECWSITQG
+DPLSMTGVSTWTCVTEREGWSARTVSTSRLACTRDEWLTSAEVTAFEGDSEIFAKRFEKR
+IPRALM
+>tr|A0A1Q9AGY3|A0A1Q9AGY3_9RHIZ
+MRPRERRDSRQADLFRARLDQIVDMNHPLAKLGRAIDWRFLETRCGSAYSDTPGHPPLPT
+RLMAGLAILKSMHNLSDEALCDRWVENPYYQLFCGEEFFRHDLPFDRSSMTRWRQRMGEE
+TLNALLDESLATAIRTEAAKPADFTKAIVDTTLQPKAVAHPTDAWLMHRARERLVRRAGK
+LGIALRQSYARVGKHALIKHQRYAHAKQFKRAGKSLRSLKTYLGRVIRDIIRKARGNPEL
+EAATANALMLARRVHAGNRNLNRIKGKDKDADLRVFSLHAPEVECIGKGKTHKPYEFGVK
+VSVATTLNRSKGGQFVTHIQAMPGKPYDGHTLETIIPAIETRVGATLTRIVADAGYKGHN
+APRTHRLKVFTSGQKRGVTDRIKREMRRRSAVEPLIGHLKAGHRMGRNHLAHAQGDAANA
+VLAAIGYNYRRILAWLRLLFAVLCVSVAGGRATNSSAQVG
+>tr|A0A1Q9AQ50|A0A1Q9AQ50_9RHIZ
+MPETKTILVLEDDGLLAMDMEDFLLDEGYAVLGPFSTITRALEALGKAAVDFAIVDLNLN
+GLFSFPVIDALQERGIPLIVCSGYAELPEIKARLSGLPLLPKPWNAARLSSLIETVFING
+TQAS
+>tr|A0A1Q9AIQ1|A0A1Q9AIQ1_9RHIZ
+MSVKAALLATLLAAASAGLAQAQERVVNIYNWSDYIDPAILEAFTKETGIKTVYDVYDSN
+EILENKMLTGGSGYDIVVPTADFMARQIAAGVYQPLDKAKLPNLSNMWDEIMKRAAQYDP
+GNKYAVPYMWGTDGIGYNVKKVNEILGEGKRPGLEVIFDPAVAAKFKDCGIYVFDSPRDV
+MGAALHYLGLSPESKSPDDLAKVEALLTATRPNIRKFHSSEYISALANGDICIAMGYSGD
+MLQARNRAAEANAGVEVDYSIPSQGAQVWIDSMVIPKDAPHVEEAHIFLNYMMRPDVAAK
+ASEYVFYANANKASQAVMSKEVLEDPAVYPDAELFAKLYTVTAWDAKTQRLATRIWTKVI
+TGQ
+>tr|A0A1Q9AN46|A0A1Q9AN46_9RHIZ
+MPMAVFKTTRPNQVSDLVKRELDPELGREVFTLLGGVGTPRTVRLGTPLGRIAASGALAV
+VAAAVAGNTGNGTLTLANPAFGTGVKVGDYAVTCSVGGADGTSKFRVEDPDGVVVGTATG
+GAAFSKAVRFTIAGGATAFAVGDTFTVTVSQGVGADDGKVKEWDPTAIDGTQHIWGFSIR
+EVTAAVGVDNTTDGLAIRRLSVLRAGAILWPTAATDAQKAAAIARIDERLALAIRT
+>tr|A0A1Q9AEV0|A0A1Q9AEV0_9RHIZ
+MEGVECGATGERSSQLSPSDGLVPSLSDLHAEMARRLAPLNMARWDARLKATGLPVPRHI
+DRKRREIEFVAQALGRLAAIPADYRDDLYWPALLP
+>tr|A0A1Q9AGX1|A0A1Q9AGX1_9RHIZ
+MTFLTYAAAALAEIAGCFGFWAWARLGRSVWWLAPSLAALASFAFLLTRVESDAAGRAFA
+AYGGVYIAASLLWLWAAEGQRPHGWDGAGAVLCLAGAAVILFAPRGA
+>tr|A0A1Q9ALB4|A0A1Q9ALB4_9RHIZ
+MADPRNFRMTPAGARAGAVVDEGLRAYMLRIYNLMALGLAITGVVAFGAVQLAFNDGGLT
+AFGQAIYLSPLRWVIMLAPLAMVMILSFRIQSMSVSAAQAMFWIYAGLMGLSLSSILMVY
+TGHSVAQTFFVTAAAFGSLSLYGYTTRRDLSGMGSFMVMGLFGLIIASLVNLFLHAPAMD
+FAISILGVLIFAGLTAWDTQRIKEMYFEGDAYETAGRKAIMGALTLYLDFINLFLFLLRF
+MGNRN
+>tr|A0A1Q9AIN6|A0A1Q9AIN6_9RHIZ
+MTPLSRTLSPALLAFGLLSSAAPSHAAGLGPIGDFMTMDVCVGADGKPVPGIPGEGACKR
+HRDIKPGEAPSYTLQNFGSPRSKCPTAPIAKINVPVVKDGNTRIVSSTIRQPACGKPAPG
+GDGEDGSQNGASIQWHDQGYGFIMGSYSPVALSTFESDRCLTDSASSERFFRGWVIGPAE
+VPGIGTTGYGVFPSKLKTGKAATLMGGCAERYNRALTTWSVNEITYKSGRKLVSIVSDHY
+AQGAPDGQSQGNAMQVEQTYWTREFGLSRWEKWAREDWVHPRSKKPAPELAQALYAAGRC
+SAPLSQPLAFGKNMQVIPAENAAGAYAKVIRNPATGEQHTWYMTLCEDYTNAAETPDAGR
+YVGMLSNLADDTYWR
+>tr|A0A1Q9AK26|A0A1Q9AK26_9RHIZ
+MRSRPDETKSLLDATRKLAAHLSQRALEENAKGHDLVQRFYWMEEMVNHIPDYLYAKDRE
+GRFLIANRVTARDNGFEDASQLVGLSDLDLHPREAVQAIIDSERHVIETGEAILDMEERG
+LVEPRGERWLMTSKVPLRDVSGNIVGIVGISRDITDKRRADKLVRDQSRLLEMIAKGATL
+TSFLDTLLLTAEDYVPGIYGSILLLSDDGHNLLTGAAPSLPPDYVQATSCVPIGPKMGSC
+GTAAWRGEPVEVSDIATDPLWDDFRHLVLPLGLRACWSTPIINHLGQTLGTFAIYSKTTG
+LPTTELRELINMTVHLCGIAIERHRTEQRIAYMAHHDVLTGLPNRMMFDSALSETLLRAR
+MNDDVVTLAFLDLDEFKLINDSLGHHVGDRVIEAVARRIRRCLRQGDLVSRIGGDEFTVM
+LRSAADEPAQLTLRRTELIRRVIARPLTIEGSQLRMSCSMGVASFPEGGTTARELIANAD
+VAMYAAKRRGRNTLVQFRPSMALEAQAKLRNIEELRQAIAQQQFQLEYQPLIELETGHIF
+GVEALLRWMHPLRGRISPADFIPLAEETGLIVPLGAWILQTACAQAAAWSAKGLPPVTMA
+VNVSARQFREKGLQADVAAALASSGLPAERLELELTESAIMEDVGAATATMNALRGLGVH
+LAIDDFGTGYSSLSVLKTFPVRRLKIDRSFVHDIPADQDDIAITAAIISLARTLHLEVIA
+EGVETQAQFMMLKQMGCMAAQGFLIGRPMAAAAMAERLACDHASLTQR
+>tr|A0A1Q9AIT7|A0A1Q9AIT7_9RHIZ
+MYDREVAFPMEDTMNEARIEYTEKGIVHLSSRRCQVIRLSKSGAVLSMPTQFKLPQNFYL
+EFVSANVPMVGCLTKRVHADNKVEARFLRLLTDRDINRIFVYSTHPNHRGRVLDIYR
+>tr|A0A1Q9AH74|A0A1Q9AH74_9RHIZ
+MPSHSLPGLQDNGASLRAEPRIGLALGGGGARGLAHIHVIEALDELGLRPAAIAGSSIGA
+IMGAAMASGMGGAEIRAVALATVGRRADVIARLWKLRPTSLAEMRMGSFGLGPYSLERVL
+DGFLPEAIPRRFEDLSIPLTIIATDYYAQSETELTAGDLRLAIAASAAIPGVFLPVRVEG
+RVMIDGGIVNPVPFDRLADRADIVIGVDVVGGPEGDGTTVPGRMDVMFGATQLMMQAIIG
+MKSRTSPPTLMLRPDVGRFRVLDFLKAQEILARSEPVKDSFKRALEAELEEWAKGRRG
+>tr|A0A1Q9AKG5|A0A1Q9AKG5_9RHIZ
+MRLAARQPANTSFGEIVVFDIIPGVAAAQSSRILVFTGQRSGMRDVIGLAVPKRQGPASV
+SSPDLGPLHGTGKLFVKIRL
+>tr|A0A1Q9AEG9|A0A1Q9AEG9_9RHIZ
+MNAHPQPPFPDQQQPMPGLTGQMDPKPDHGETSYKGSGRLAGKKAVITGGDSGIGRAVAI
+AYAREGADVLIAYLNEHEDAEDTKRLVEEAGRKAVLVAGDIQTAEHCRRIIDTAVKELGG
+IDILVNNAAHQATFSDIGEIPDEEWELTFKVNIHAMFYLTKAAVPHMKEGGAIINTASIN
+ADNPNPSLLAYATTKGAIQNFTAGLAQMLAEKGIRANAVAPGPIWTPLIPSTMPAEKVSN
+FGKQVPMKRPGQPAELATAYVMLADPLSSYVSGATIAVTGGKPII
+>tr|A0A1Q9AI29|A0A1Q9AI29_9RHIZ
+MRAVVFSDLHLGFSFPDPVDLPDGTDVLIVAGDVSAPVGKSMAWLHKRFPGVPTIYVAGN
+HDYYSQIYSESMESGRRAAEEFPHIHFLENDEVVIDGVRFLGATLWTDYELYGDMKRAMD
+VAHHSMNDFVHIRDMNAVGHLQPWKPERTRSLHHESRAWLRGALCRTHDGPTVVVTHHCP
+HHLSVADKYRDDDLTPSFASDLDAEIQEFQPELWVHGHTHVGFDYVVPDTKTRVVCNPRG
+YVRDNFDRGRSVENPAFDMCKIVEI
+>tr|A0A1Q9AIJ5|A0A1Q9AIJ5_9RHIZ
+MNLLEQLSSVTKTLANLGQGKIVALISAGVIAVGLVLAAGLYVNKPAYETLYVGLETGDL
+NQISVALAEANIEFEVGTDGTSLKVPVGMVGKARLFLAERGLPNSNNAGYELFDKVGSLG
+LTSFMQEVTRVRALEGEIARTIQQIAGVSAARVHIVMADRGSFRKAEQKPTASVMIRASA
+TVGRNAAASIRHLVSSSVPGLSVDDVTILDSAGQLLASGDDPGNSALNQSLGIVQNVQNE
+IERNIEKALSPLLGMENFRASVAASLNTDAQQIHETMFDPESRVERSTRITKEQSNSKQQ
+QADNAATVEQNVPQAAPKGGAGGQSSDQAEKKEEQTNYEINSKTVATTRGSYRVEKLSVA
+VVLNKARIASVLGENADQAKIDAYTTEMQKIVASAAGLDTARGDVITITALDFVDNQLLT
+DPVAGPTIMETLTRNLGGIINAGSFILVAVLVIWMGLRPLARSVNGGAAQGEAGEGEAAG
+LELPDFSPAVGGAPAGGALMDGFGSDFGFDSTDDLLSLGSNSEEDFNRRVKEGPERRLAR
+MVEISEERAAKILRKWVTEKAA
+>tr|A0A1Q9ALT3|A0A1Q9ALT3_9RHIZ
+MNIIQQLEAEQAAKIEAKRTLPEFSPGDTVRVNVRVTEGTRTRVQAYEGVCIARSGGGIN
+ESFTVRKISYGEGVERVFPVYSPLVEGVEVVRRGKVRRAKLYYLRDRRGKSARIVENTGT
+RARKLNEGVRQLASDEKARIEAEKVAAAQALAAEKPQE
+>tr|A0A1Q9ALY5|A0A1Q9ALY5_9RHIZ
+MTVSPALSMTGISKAFPGVRALDGVDFECVAGEVHAICGENGAGKSTLMKILGGSYRPDA
+GTIEVAGRAIHFTHPRQAAEMGIAIIHQELSLLPHRSVTENIFMGREIVRRGFLDKAAMH
+RKAALLLKRIGAEIDPRTLVSSLSIALQQLVEIAKALLLDARILVMDEPTAALDERDSRT
+LLALVSTLRREGVAIVYISHRMPEVTAIADRITILKDGRKVWTRRADSAPVTEIVRAMVG
+RDLKEFYPPAPVSPPGKVLLAVAGGNNAALDEIAFEVRAGEIIGVAGLEDSGKGALASAL
+VGDAPFAGGTMMLGGKPTALRTPRQATAAGIGYLPGDRKREGLALRQSVRDNALLTLRSM
+AGLFTRPFKGALGNAKIDETLRTMDVRAADFGQEIGTLSGGNQQKAIIVRWLEQASQILV
+FVEPTRGIDIAAKAAIYETMRSFADSGRGIVVVSSDMPELIGIADRVIVMHQGRISGSVA
+RGAGEEDIMNLALGLSGPALGRTVA
+>tr|A0A1Q9AN20|A0A1Q9AN20_9RHIZ
+MDRPSLPQGLTADIEEKKAAAEAWFHGLRDRICADFEALEDALDGALSEGRPAGRFVRTP
+WARDGGAGGGGIMSMMSGRVFEKVGVHTSTVHGEFSPEFRGQIPGAAENPAFWASGISLI
+AHPVNPNVPAVHMNTRMVVTTSRWFGGGADLTPVLDRRRRQDDPDTQRFHAALKEACDAH
+AVADHPRFKAWCDEYFFLKHRNEPRGTGGIFYDWLHSPEEAGGWAADFAFTRTVGEAFRA
+IYPELVRVNFETPWTDADREEQLIRRGRYVEFNLLYDRGTIFGLKTGGNVDSILSSMPPL
+VRWP
+>tr|A0A1Q9APY2|A0A1Q9APY2_9RHIZ
+MPHVSMVLTPGFQFLALGVQAAFELANTLRGDSYYAMSIASVGGGPVVSSSGFAVPTTKL
+SDLDTVDTLLLLAGLVPPPQQDEATLDTLRATARQARRVAGLCTGSFLLGQMGLLDGRRA
+TTHWSYARQMRETFPNVQVEEDRIFINEGAVWTSAGLTAGLDLAVALIEKDLGRDMASAI
+ARRLVMHHRRAGGQSQHSELLELAPSSDRIQKALIHAKAHLSNPLTVDELADVAALSPRQ
+FSRAFRAETGQTPAKAVEQIRLDAARLMIEETRHSFDQIAQQAGFIDLRRMREAFMRQYG
+QPPQALRRLARAS
+>tr|A0A1Q9APB1|A0A1Q9APB1_9RHIZ
+MNKTDFIARFGGIFEHSPFIAERAITAEPDLALTADSVHAAMVTAFRAASREEKLGVLRA
+HPDLAGRLAVAGALTEDSKAEQASAGLDRLTVEEHGRFTALNDAYTSRFGFPFIIAVKGL
+GKDDILAAFEARIGNDAETEFQTALAQVEKIAGLRLAALLP
+>tr|A0A1Q9AD16|A0A1Q9AD16_9RHIZ
+MSLSVPAKRRIAVITPIFRHSGLVIEAIESIRRQTLADDILHVLVNDGCPFESTHETCAT
+YATAYPEATVYLRKRNGGLSSARNFAVRHILATRPEIELFYFLDADNRLHPQALERASAY
+LLREGVDWVYPDVDMFGLREGWDYGGDFSPLLMRNMNLCEAGSLLHRRVFEAGVFFDEAM
+RQGYEDWDFFISAFEHGFRGKHLENFGFLYRKRPESMLAESTKLDAMIRYSMQRKHRAFF
+SEKEIRAQEQREFPRYVIYLADEGRTVYASDPHDLSADVKDFPADFWRALIEPGRSSVPA
+FLAVTTAASLRVLQRARIASWLFWALEEKLNFAPIAAVRVEAALRQAGLAQDDDGEDYSI
+RPERVETVQDAHLIMMPFNTLADVARTDLGWLQTLVLHSGADLAQLSVTLSPRGAQTLGR
+KVGFDLLLVAERLCNSPYREAARMTWNWRKTLFRRVDAYHVERKSWGGVATFPPSRRQGR
+NIGFLLPLVEFGGVEKVVLNMARTMKAEGWGVHLYITERNNGRLTEEWQQVFDNIIFLLD
+PTQAPWSGPEEYFGTPLSAWNDPGQRERAVALMGWQDVVVNAHAASTNWLMGALRQRKVV
+TVASLHLTDLTATGRPVGHTFLTLAFEHAYDHIATCSEALADWCRGMGMPAEKLVPVVNA
+PTFAPPPQVIEEALAGRGRAERLRVLFLGRLDPQKGLETLADIVARTREMNLPIDWTIVG
+KSVVSDTRNPAVETLMPYLQPPVYDQDELIALYGAHDVLVLPSQYEGLPLVLLEAMQLGV
+VTLGNDVGAVREAIRDGETGFVMDPAGDVPAQAVAHLRALSQDRDKLRALSQAAVAAMEQ
+RNWGQAMKGLIQAIDKRLELRDKAS
+>tr|A0A1Q9AEZ9|A0A1Q9AEZ9_9RHIZ
+MSPARHLDRPDPNRQKARRRGALAEYRAALALMARGYRILGFRVRTPLGEIDIIARKGDL
+IACVEVKARRTVEMAVFSVTPAAQHRIRGAAGLWLSRRADAARLSVRFDIVAVRPWRWPV
+HLPGAF
+>tr|A0A1Q9AH22|A0A1Q9AH22_9RHIZ
+MPGFLASLLPQSLLPKRLRRDRVTIPVVRLHGTIMAGGSAFRPMLNLAAVASSLERAFAV
+KGAPAVAISINSPGGSPVQSRLIYQRIRDLAEEKKKRVLVFVEDVAASGGYMIALAGDEI
+IADPTSIVGSIGVVSGGFGFPELLKKIGVERRVYTSGENKVILDPFQPEKEGDIDYLHGL
+QRDIHETFIAMVKARRGALLKDEPTLFSGLFWTGTRGRELGLVDGLGDMRGELRRRYGDK
+AELKLISSQRGLFGRRQPGAETVLPALASGAVAGLAELAEEKALWGRYGL
+>tr|A0A1Q9ADA9|A0A1Q9ADA9_9RHIZ
+MTTPPSDTIIRLDGIEKSFGGAKALSGVSLAIERGTVHGLVGQNGAGKSTLIKLLAGLHQ
+PDAGTIEIDGQRLTHITPHAVESLGIHFIHQDRLLVPTFTVGEALFLGREPRIAGTPFLD
+RRQMQRRAREVLQRYFGLSLPNSALIADLSTAEKQIVQITRALLDQPKVLVFDEPTAALV
+KREADLLFQLIRRLREDGITVIYISHYLQEIEALCDRVTVLRNGRDVATKALSETSASEI
+AGLMVNREIGDLFPVREKAPGEPLLTVDRLSAPGRYHDVSLTLHRGEVLGLIGLLGSGAK
+EFLRTLFGLETAASGTVTVQGQAPWQASPVQAARRRLALVPEDRRRHGVALDLSVKENTT
+LASLSRFTRLGLIDRTAEESETDRLITRLQVKTEGREALLRTLSGGNQQKVAIAKWLSRQ
+SDIYLLDEPTVGVDIAAKVEIYALIAELAEKGAGVIVLSSDLNELIGLTDRILIFFRGEI
+LRTVTSETATVDALLADVTGSSELTRHAG
+>tr|A0A1Q9AI48|A0A1Q9AI48_9RHIZ
+MSSVATTEPILTPAKSTPIRTRLQNALPQIVLAPSFAITLVFVYGFIAWTAYLSFTNSKT
+FPSYALTGTRAYERLWRWTFENDPPSSWYTSITNMGIFGVLYVGICLALGLFLAILMDQK
+IRGEGVLRPIFLYPLALSFIVTGVAWKWFLDPGLGLEQTLHHFGWTSFHFDWIKNKDYVI
+YTVVIAGVWQASGFVMAMFLAGLRGIDSEIMKAAQIDGATTGQLYRRIIIPLLRPVFLSA
+FIVLAHMAIKSYDLVVALTSGGPGGSAWLPSNFMYEYTFKRNEMAVGSASAIIMLMTISA
+IIVPYLYSELKEKAR
+>tr|A0A1Q9AJQ7|A0A1Q9AJQ7_9RHIZ
+MTDDKDPVYKDALASAGMNTRLAHLGNHPFDFHGFVNPPVVHASTVLFPNAAAMETRAQK
+YTYGTRGTPTTDALCEAIDALEGSAGTIVVPSGLAAVTVPFLALLSAGDHALIVDSVYGP
+TRHFCNAMLTHLGVTVDYYDPEIGAGIESLMRPNTRLVHTEAPGSNTFEMQDIRAIADVA
+HRHGAVVTMDNTWATPLYFRPLDHGVDISIHAATKYPAGHSDILLGTVSANAAQWERLHE
+ASITLGICGSPDDSYQVLRGLRTMGVRLAHHGESALAIARWLETREEVAAVLHPALESFP
+GHALWKRDFKGASGVFSFVLKAEPGARKAKAYAFLDALRLFGLGWSWGGYESLAVHVNLN
+DRVIAKGPAEGTVIRLQIGLENVADLQRDLELGFAAASLL
+>tr|A0A1Q9AMR8|A0A1Q9AMR8_9RHIZ
+MTSSVSIRDLSLNFGAVSVLQHLDLEIADGEFLVLLGASGCGKSTLLNCIAGLLDISDGQ
+IFIKGKNVTWEEPKDRGIGMVFQSYALYPQMTVEKNLSFGLQVAKVPQVEIDKRVARAAE
+ILQIQPLLKRKPAELSGGQRQRVAIGRALVRDVDVFLFDEPLSNLDAKLRSELRVEIKRL
+HQSLKNTMIYVTHDQIEALTLADRIAVMKGGVIQQLADPMTIYGTPENLFVAGFIGSPSM
+NFFRGSIGRKDGRPVVDVGGVAFDLSRYPSRAPLKDGQAVVLGVRPEHIRVDEPVEGLVS
+HPATVEIEEPMGADNLLWLKLAGQPISVRIAGQRRYAPNTPVTLGFDMASASLFDAGTEN
+RL
+>tr|A0A1Q9AQD2|A0A1Q9AQD2_9RHIZ
+MTYRGPDTLWHEHRREKRLAALDSAHMQPLNAFREHLQLNSDRDMPNFDPYDGGISARLL
+ILLETPGPSPVERGRRFVSIDNPTGTAKNLRTALTGAGISRRDIVLWNTVPWVRATRGSI
+VASERREGIMGLAGLLPLLPNLRVAILAGAVASGAEGVLVDAGIEVILCPHPSPTLINTS
+PTLRDRLHAAFEAAAAKLDQSKTAIEIS
+>tr|A0A1Q9AE91|A0A1Q9AE91_9RHIZ
+MLSGSVIAAIAFAYLMLLFAVASYGDRRARKARAPEHGRPLVYALSLAIYCTSWTYFGGV
+GLAAERGFEYLGIYIGPILMFTLGLPVIRRIITLAKAEKITSIADFIAARYGKSQAVAAL
+VAIISLIGAIPYIAMQLKAVSGTVAAIVAETPMAQGATTAETMQAVGIFELPLLVTLLLA
+FFAAIFGTRHTDATEHQDGLILAIAMESLIKLVALVTAGLYVVFVLFAGPADLAAKVAQT
+PAAMAALSYETPWKRWVLVVALSAFAIILLPRQFHVTVVENRTERELRTAGLLFPLYLAA
+INLLVLPVALAGLIHFGGGGVPDLYLLTLPIAGDAPFFTLVTFIGGFSAATAMVIVASVA
+LSIMLSNDIVMPILLRRTLMGRSHYEDIASLLLKVRRTAIFVVLLLAYAYYRAADMSAGL
+ASLGLLSFAAISQMAPALFGGLIWRQATARGALAGMGLGFLTWAYLLFLPSLGGPDNSAL
+AESVLGFLFPFGSLFTGPQADPLVNATTLSLLVNGLAYVGFSLSRAPRPLERLQAGIFIR
+RRSRSQRAFRGRKTKVTVAELKGTVARYLGEERTQRSFRAHERQSGRTILDSEPADMALL
+NFSEQLLGSAIGSASARLVLSLVLQRADDASPDAAWLLDQASEALRHNQGMLQTALSQMD
+QGIAVFDSTHQLSLWNRRFRELLDLPESAGRVGMPLADIVGLLAARGDVAAGEETATIQA
+FLRLDTPFVLTLGGGRRMIELRSNAMPDRGIVTTYSDITARVAADLALKQANETLEARVA
+ERTAELTRVNHALAEARQSAEDANIGKTRFFAAAGHDILQPLNAARLYSSSLVERLGASP
+DRELVRNIDSALESVEAILGAVLDLSRLDTGAMKPRLQPVPLGEFLRRIETDFQPQARAK
+GLTLTVMPSSLTVRSDPNLLRRLVQNLVSNAIKYTPSGRVLVGVQRRGSEAVIQVLDSGI
+GIPASKYRTVFKEFTRLTEGARTASGLGLGLSIVDRIARVLAHEVSLNSLPGRGTRFRVH
+MPLAARAAQPAEPLTLAVEAAPPLQPLLGLKVLCIDNEPQILAGMATLLSGWGCRVETAA
+EASGWLSGRSALREEGPDIVIADYHLDEGTGLEAIAAIQRQLARPVPALLVTADRSPELR
+TAVEAAGVTLHNKPVRPASLRAWLTRFAPPQRQAAE
+>tr|A0A1Q9AJ33|A0A1Q9AJ33_9RHIZ
+MIRVLLATTALAAGLAVAMPNLQAQTATTPASTAPAATSAPGASDAANPPMLASNVIGKT
+VYTGVDEEGEAIGKVKDVVMNAAGTAQALVVGVGGFLGIGEKDVAVGFDRVSWSERDGQQ
+ILVVAMSRDDLKAAPVFKREAIMDPAATTDKAAAPNTAPRPTPESEATTPAGSELTETGT
+PAQPDVAAQAPAAGAQAEVPMTGTTPEMTDPEAPPPADTAEPQLRPVDPALVSTTSLIGT
+PVKVADDTEIGKVGDVILNREGKLDAYVIDVGGFLGIGEKPVAMSARDIQVMADAKGKMT
+IYSPFTKAQLEKQPRYDANAYKRDPRPLVLAPPAE
+>tr|A0A1Q9AK59|A0A1Q9AK59_9RHIZ
+MTPGIVLTGFGTGLGLIVAIGAQNAFVLRQGLKREHVFAVCLLCALSDAALVLLGVTAFG
+VVARVMPWLDPAFRYGGAAFLALYALRSLRSALKPQGGLTAQGGAPASLRATLMTALALT
+FLNPHVYLDTVILLGSVSTRFPADRLSFALGAMTASALFFFSLGYGARLLAPLFARPSAW
+RVLDGLIAAVMASIAVKLVTGG
+>tr|A0A1Q9AME9|A0A1Q9AME9_9RHIZ
+MLDDRDRAILAQLQADAGMGIGAIAEKVHLSVSACSRRIQRLEDEGYIARRVAILDRARI
+GLPTTVFALIRTAHHADDWIETFRRVIADIPEIVEVHRLTGTYDYILKIVLPSVEHYDVV
+YKTIVRRISLFEVTASISMETLKSGEALPVAYAR
+>tr|A0A1Q9AKR7|A0A1Q9AKR7_9RHIZ
+MNQRFLKMPRLGETMEEGKIVGWLVKPGEAFSRGDPILEIETDKTIAEFPALGDGRLNEI
+LVGLDETVEVGHPIASIEIGTGPDWTADEGDSEPASDAGTPSVPAVQETGLAETDLTMPR
+LGETMEERRIAKWLKAEGDSFERGEAILEIETDKTIAEFPALFAGRILTLLKGEDETVAV
+GAPIARILAPSESQPETAAAEALAPMTSDEPAGQVRQAQQGPAQSTRLRATPLARRLARA
+RGIDLAQLKGTGRRGRIERDDVLAFAPQGRAEPTLQAASSLADEVSMAALTRGRMAYLDS
+AAGQGVPLLLLHGFAGDHTTWATIAAGLKRAGRRVIIPDLPAHGLTEIKESDPFGLGSDL
+VEFLARLGVDQVSVLAHSLGAVAAVTLAKAAPDRVRALTLIAPAGLGREIDTGFVDGMAG
+ARHPGEVAHLLRRLSVQGNGPSESALAKLTTTLSAGRLTSLAGNLAGPLGQRIDIIGLLQ
+ALPARLAIRVLFGLEDRIIPWSQVAALPPRVAIHLLARAGHMPHWDQTREVLEILLSQGA
+DQ
+>tr|A0A1Q9AL95|A0A1Q9AL95_9RHIZ
+MMRQYELVERVQKYKPDVNEALLNKAYVYAMQKHGQQKRASGDPYISHPLEVAAILTEMH
+LDESTIAVALLHDTIEDTTATRAEIDNLFGEDIGALVEGLTKIKKLDLVTKKAKQAENLR
+KLLLAISDDVRVLLVKLADRLHNMRTLDHMRADKRARISEETMEIYAPLAGRMGMHDMRE
+ELENLSFRHMNPDAFETVTKRLDELSGRNEGLIKKIEDELRELLSAKGMVGASVKGRQKK
+PYSVFRKMQSKSLSFEQLSDVWGFRILVEDVADCYRALGIVHMRWRVVPGRFKDYISTPK
+QNDYQSIHTTIVGPSRQRIELQIRTRRMHEIAEYGIAAHTLYKDGTEATPGDVRLSPTSN
+AYSWLRRTIESLAEGDNPEEFLEHTKLELFQDQVFCFTPKGQLIALPRGATPIDFAYAVH
+TNIGDTCVGAKINGRMMPLVTRLANGDEVEIIRSGIQVPPPAWEEIVVTGKARAAIRRAT
+RAAIRKQYSGLGFRILERTFERAGKSFTREALKPALARLGQKDVEDTIASVGRGELSSLD
+VLKAVHPDHQDERVTVKPQADEGWFNVRSADGMLFRLPETGKEAAGGGATLPIRGLSSGI
+TVSFSEAGAVPGDRIVGILEEDKTITIYPIQSPSLQKFDDQSERWIDVRWDLDQANNTRF
+KARIQITAINEPGTLASIAQLIAGADINIRTITMGPMAADFSEVLLEIEVWDLRQLNHML
+VQLRELPVVSTVTRLFS
+>tr|A0A1Q9AFU2|A0A1Q9AFU2_9RHIZ
+MRVDLFDFDLPESAIALRPAEPRDSARLLLVHPQETERELADHGVLELPDFLQPGDALVF
+NDTKVIPAQLQGIRRRGPDVATTVDFTLHMRVAPDRWKAFARPAKRLKSGDAVEFGPELA
+AEIVEKGDAGEVTLAFDRAGPALDQAIMATGHIPLPPYIAAKRPEDARDRADYQTIYARE
+EGAVAAPTAGLHFTDRLFAALDARGIERYFVTLHVGAGTFLPVKAEDTDHHVMHQEIGQV
+SAETAAKLNAVKARGGRIVCVGTTSLRLIESAAREDGQIAPWSGATGIFITPGYRFRAVD
+GLMTNFHLPRSTLFMLVSAFCGLETMHRAYAHAIASGYRFYSYGDTSLLFRKTS
+>tr|A0A1Q9AHU2|A0A1Q9AHU2_9RHIZ
+MDQLSAMRVFLRVVETGNFTRAAATLNMPKTTVTNMVQGLEAHLRATLLNRTTRRVMVTT
+DGALYYERAQQILAELDELDGSMSNSQTQPSGRLRVEMAGAFADLLVVPNLCDFHDRFPK
+IRLDIGVGDRLVDYIAENVDCALRGGTPTDQSLIARKVGQMTMQTYAAPSYIQKFGAPVH
+PQDLEQNHFCVGYLNATAGRVMSIAFEKGEERIEVDPHYVVSVNDARSYVNAAISGLGVA
+QAPSFLVRDALEKGELVEVLQPWRCEPLPLYIVYPHTRHLSNKVRVFVDWLAKLVQSARL
+DDNSGQTGKLGQGTIPPE
+>tr|A0A1Q9ALR6|A0A1Q9ALR6_9RHIZ
+MSIEQDLAVIAEQEARLVFPAFDTERALSLGLRLRQMALARQAPVVIDVSLVSMPLFFTA
+LAGATPDNPHWVRRKRACVFRFFRASYGVGLSLKLKGSTLAETFGLDDADYAAHGGSFPI
+TLAGAGCIGAVTVSGLPQRDDHALVTAALAEELGLDPASLALPG
+>tr|A0A1Q9AHM8|A0A1Q9AHM8_9RHIZ
+MALLEAHEIFRRYGSTQALAGASLVLERGEIVALMGANGAGKSTLVKILSGVERADQGTV
+RLNGREIAPKSPAEAARCGIVTVHQSTDVVGIPGLSVADSLLLNRYVTGKMPYFLSRSAV
+LRAARRVTAHAGFDLPLDRDFAELGAAERQLVAIARALSDKADVLILDEPTASLSGTECR
+RLYEILLSLKARGLAILLISHRTADLAAVADRVEVLRGGRNAGAFRRPLDLDAAVETMIG
+RSLARARPTQRADLGPPVLSLTGARLLPDRPAFDLTVHAGEVVAITGVLGAGKSRLLSAL
+FGIGRLAGGKATLDGAPYRPTGPADAIARGVALAAEDRHRSSLMPRDWPGSSIAATISLP
+HLRRWYPFDLMMSGRERQEADRAIARLGIKAAGADASVWSLSGGNQQKTVLARWEVVPGR
+FLLLDEPFQGVDVGARHDIIATIRSHRDRATLIATSDPEEAHEVADRVFVMDQHSLHSIA
+PRPALAPAPAPAFLLERSAP
+>tr|A0A1Q9AP12|A0A1Q9AP12_9RHIZ
+MQQTGDGPIVLIGAGNMGGAMLKGWLDSGVDPSGIVVVDPGGAKALAPLIAEKGARLETE
+APQDLTAGILFLAVKPQIMDDVLPPLKTLVGPQTTVVSVAAGRTLAYFESLLGPAAMVRA
+MPNTPAMIGRGVTGAFANAAVDAAARARVDALLKVSGPVEWVETEADIDAVTAVSGSGPA
+YVFYLVECMAEAGRKAGLQADLAMRLARETVAGAGELLHRSPDTAATLRQNVTSPGGTTA
+AALSVLMAEDGLQPVFDAAIAAARRRAEELGKA
+>tr|A0A1Q9AD88|A0A1Q9AD88_9RHIZ
+MRILHVTAEDQVRNLHLHEQGLRWIEQANEPILALERIYPAGFKVPRHAHKRAQLWFARR
+GVVLVSTDDRRWMLPGDHALFIPGGVAHQVEVVTDVEMHSIYVADTAERARVLEVTPLGR
+NLIAELVKGDWQPERRRRLELVSELLLDELRQFAERPLGLPFPTDARLARLCRQFLDAPS
+ANAGIDDWARALGIGRRTFTRLFRAETGVSFVTWRQQACLFAALPRLAAGEPVTTVALDA
+GYENIAAFSTMFRRVLGRSPRSYLDMPEA
+>tr|A0A1Q9AI55|A0A1Q9AI55_9RHIZ
+MQYVEVVYSGREVRLAPCPVPAGFPSPAGDDLEDVIDPVAWIVRHEAATFWWRVSGDSLT
+GIGILDGDLVAIDRTAKKRLGRVVLALHDGQVTLKVLGKRQDGRFILEARSFREYPPIVC
+TEATEIWGVLAGVARKTDID
+>tr|A0A1Q9AFH3|A0A1Q9AFH3_9RHIZ
+MPPSLDSDLLRTFLAVAERGNVTHAALAVGRTQSAVSMQIRRLEEAAGHPLLRRSSRGVS
+LTPAGQRLLPQARAVISLLDETAAMMRKPDIRGPLRVGIPDEYSRTFLPAALAAFGREHP
+TTEVSVFCGFSAQQLAALERDELDLAVMFDVHATEPRDVLGYDPTVWVTSTLHDCHRRSP
+VPIAVYWNSSWCRDYALRSLDQHAIAYRQAFSCDTASGMIAAVTTGLAIAPLARSTIPPG
+CRALGAEDGFPQVDASRVLLKRNPTRSSPAIDALAARIQAVFSPLRGEALPGEI
+>tr|A0A1Q9AMD4|A0A1Q9AMD4_9RHIZ
+MTLALETLVDVLKAAGEPTRFRLLKLLSSGDLTVTDLTEILGQSQPRISRHLKLLGEVAL
+IDRYQEGAWAYFRLSADGAAVELVRTMLLAARDDDAVLARDAERLTALKQARSERARDYF
+SRNAQEWDILRRLHVHEAEVEAALVSLVGDEPVDQMLDLGTGTGRILQLLQPVYRHAVGV
+DASRDMLAVARANLDRAGIGKATVRQGDIFNLPLEAGQFDLVTIHQVLHFLDQPDRAIAE
+AARMLAPGGRLIIIDLAPHALEYLRDDHAHARLGFAHQTMGDWLSQVGLTLEKAVDLSPD
+HGRERQLTVTIWLARARERARSAVSPVFASIGH
+>tr|A0A1Q9ACI6|A0A1Q9ACI6_9RHIZ
+MPKVYRIALDLVQDKRVAPSARAKLISDLFRAAGLYADTDDDRQKEPHEMTAGELEQAIR
+DLEGKTRPTLFD
+>tr|A0A1Q9ACE9|A0A1Q9ACE9_9RHIZ
+MSTEEPNFKREMLAALPSLRAFAMSLIGRHDRADDLVQDTIMKAWAKQDHFEMGTNMKAW
+LFTILRNELYSQMRKRGREVQDSDGFFTESLAQHPSQYGSLDLQDFKRALNMLPPDQREA
+IVLVGASGFSYEEAAEICGCALGTIKSRVNRARQRLQDILQVTGENEYGPDATSAPLTSR
+AFVS
+>tr|A0A1Q9ALS6|A0A1Q9ALS6_9RHIZ
+MTAENGITSQHDNGDEIMALGRMVSFACQRSKVLELGMSTYFLEMALLSLVTDIEQRARV
+SPNVEPAGMVADISEFH
+>tr|A0A1Q9APA4|A0A1Q9APA4_9RHIZ
+MDGLAAFLAANRDLALVEILAVKGSAPRETDAFMLVGRDTLFGTIGGGQLEYLAIDEARR
+LLDGDGTERLRDVALGPAIGQCCGGRVSLRLSRLEETDRVPLMARIAAEARTLPEVWLFG
+AGHVGKALASALAPLPFLTRVVETRAEELRGLPQGIDARLTALPEAEVDRAAPGAAIVIL
+THDHALDFLIATRALQRGDLAYVGMIGSATKKATFRRYAAGEGLSPQEIARLTLPIGGSA
+VRDKRPAVIAALTAAELLTVQSRAKNPVEIVARG
+>tr|A0A1Q9AJ28|A0A1Q9AJ28_9RHIZ
+MTRELKLRIISGIILAILALAVTWAGGYAFALFSVVIGALVFSEWSAMTRLVLRGRRGLA
+LGWASFALAAVALVLFGILWALAVVILGVLAAILLYRRDHASRWLPTGIFYSGLAMISLE
+AVRGSSSAGLMATIFLFAVVWSTDIMAFFFGRALGGPKLAPRISPGKTWSGAIGGTLSGV
+FAGACVQFAAGGQGLLRILLIAFVLSVAGQVGDLFESWVKRRSGVKDSGRIIPGHGGVMD
+RVDALVVAATLALAIVLVELALTGNLGQLDGQQASIGAILLGL
+>tr|A0A1Q9AEX0|A0A1Q9AEX0_9RHIZ
+MKILAICLGAPERLPGRRMKTGIFKHATRAGILVDENGLVGDAVCNGEHHGGQDQAVYGL
+GSVDLDGWSQELGRPLTPGTLGENLVVDGLDSRNVSVGDRFETDDVLMEVTSTRTPCATL
+SIRMEDRLFAKRFMAVSRPGFYCRVLKSGTLKAGDAVRYLPFAGEPVTMPELLALQPKRV
+NAQDRARYLASPLHAKLRASLQG
+>tr|A0A1Q9AHL3|A0A1Q9AHL3_9RHIZ
+MKPTALLSALLIAIAGAVAGPAMAETVKIGVVPGVYGDSVEALVPEAKAAGIDLEVIEFS
+DWTTPNEALQAGDLDLNYFQHVPFLNNAIKQKGYKIVPIGVGTLANIGIYSLKHKDFASV
+PEGAKVAIANDPVNQGRGLLLLEKGGLIKLKPGVGYLGTLDDIVENPKKVTFSEVEGPQL
+ARITADVDVALGYPHFIIAAKTFDPGSALIYSGIDDKQFAIVFAANAAKADNPALKKVVE
+LYQSSKAVRDAIDAGFAHNPKLYTIAW
+>tr|A0A1Q9ALF7|A0A1Q9ALF7_9RHIZ
+MDFYIPHDTGEFIAFCAALITMVLSLPFLFAPGFSLKLLGLMPREGRRGTYAEARSTLGG
+FPLGLGLAAVLLAQPMVYLALGAAYALAAFGRLLAILSDDAGTLANWLLFILQLGLALAP
+LAYVFGFL
+>tr|A0A1Q9AMS3|A0A1Q9AMS3_9RHIZ
+MDRLDRKILRLLQEDSTLAVADLAKKVGLSTTPCWRRIQKMEEEGVIRGRVALLDPAKVN
+TKVTVFVSVRTNAHSTEWLKRFSEVMVEFPEVVEFYRMSGDVDYLLRVVVPDIAAYDAFY
+KRMIAKIEIRDVSSAFAMEQIKYTTQLPLDYMILEQAKSAED
+>tr|A0A1Q9AGI4|A0A1Q9AGI4_9RHIZ
+MHRFPANLLDGYRNFMTGRYSEQQQRYKVLAETGQSPQTLIVACCDSRAAPETIFDCGPG
+ELFVVRNVANMVPPYEPDGQYHSTSAALEFAVQALQVSNIVVMGHGRCGGIKAALDPEAE
+PLSEGDFIGRWMSLLKPAAEQIASNSILTAAERQRALERVSIRNSIANLRTFPYIRDREQ
+AGTLSVHGAWFDISTGELWIMNGETGDFTRPGM
+>tr|A0A1Q9ANG4|A0A1Q9ANG4_9RHIZ
+MSDIRNEHEAPPPPAATPPATTPGAPGETGAGKGRTRRRRGWPARLFNGCLGLIVIVILG
+AAGLVAAMENGAFDSVLNERATAALDAAVGENFRAEVRSTVLRLSPDGGLALRARGVALI
+DNASNAQLMSADAVSIEVDMRALLSGRLAVTRIEADGATFDSALLPSGGPLDLTTLRIAS
+VPQGLDAVFKQMDAIETLISRSQTNVVRLSDVKLALAGPRNRVVSVDVERLDFARAPDGS
+MAIDGAFSIDGHEAELHLKAERGAGRIERLSGALSGLPLQALLYRPETDTEPAFGIQAEG
+GLSIEAIRGQGGAPGLTLSAHVAPGTFHAGDLQSDVLPSDLTASYDFDRRVIVLQPSMLR
+FGDAVYPLAGTLADLADPADPQAKGFAIDLGVIEGLAAATDVNEAPLPFNATIKGQFLTQ
+TRNLVLNEMAIHSALGSLVGSLSVQFGTTSPGITFAALTTDMASSAVKQLWPWWMGKNAR
+NWVVANIFGGTVKNGKIEVSIAEGRLAATPGPVDLDENELKLDFSIADARVNIAGDIPPL
+RDADGSLKLRGKRVEIQFDKAASYFPSGRKVMLDEGTLIMPDVHTKPLMAEMRLAISGQA
+DAVAELTTFKPIDALRRTPFKPDDFRGQISAHVGARIGLINDQHPPPPQWQAELQLDGVS
+LTRPFSGRTITDVEGALRIDPQQAQLDATGKVDSFPLDLTMVEPIGDNAKVKRLRTISGT
+LPSGALTKLAPELSSIVTGPMGLDMSLEDGGRQVINLDLAKATVTFPYIGWSKGPGVPAK
+AALTVTDKNGTTSVRGLKLTGDSFGIAGDMVLDKAGLVSAQFGTIRLSTEDDFALGLKRQ
+KGGYAINVSGDSLDARTVIAGMKEPGGKPTGVGDPQRISVTGNLNAMRGFHGEQLSNVNL
+SYAAKGREISGLTLSAVTGSSQAVVARMAADGDTVELTSGDAGAVARFADIYSNMRGGLL
+NLKLRARGAGSWRGTVDIRKFSIVDEARLQSMVSSPAPDGRSLGDAAKKDIDVKTARFER
+AFANLALDGGAISVGNGVVRGVDVGATFQGTVRDANGMMDMTGTFMPAYGLNRLFGAVPI
+IGDLLGNGRDRGLLGITFKLSGRFDKPDLTINPLSIIAPGVFRSIFEFQ
+>tr|A0A1Q9AHD9|A0A1Q9AHD9_9RHIZ
+MAETLRPYRDIIALSAPIAGIQFAQVALTSTDLLMMGFLDVKAVAAGGLALLLYNQLRTM
+CVGMVTGLGNLIAGAIGRGETRTGTKSIYDEAREEVHDLVRAAMLLATLMAIVAGLLLIS
+LGYLLPFLGQDAAIVALAKPIMLTLAPGLLPMIWLNVLRQFAVGMRRAGSLFAVTLVSIA
+VNAALNALFIYGWLGMPRLGLAGIGLATTLVQIWTFLIYLRTVRRDAVLRPLLSLDTWRA
+RPETVKRIARMGLPIALTYGSEAAITSVATVFMGTFGPVALAASNVVNQLAYIVYQLNIG
+LSHGASVLVSRMLGKGDHAQVGAIARRALTISFTIMGVIALAYVLIPDIVLRPFLGNRPD
+LTLSSAAATLLWFAIAHQFFKGSQNICIGLLRGLGNTKAGLTNTIIGYWLVGIPAMAICG
+YGIGWGSEGIWFGLCLGFGVTSALLWRQFSAQLDALDGKKSSQPVDTPSAMTGKA
+>tr|A0A1Q9AIP0|A0A1Q9AIP0_9RHIZ
+MSPSEPIAGVPGRTALMTASYAPDFERCALLCESLDSHMKGDWHHYLLVDTPDVGRFRTL
+EGARRSVIDQRALLPWWLRAVPDPTKPKRKLWLRPFGKPLRGWHVQQIMKIAFAATAREA
+AVIAIDSDVILVRDFDPARLWRDGACRLYRLPDEIDPSIRSDHVAWLGHSDRLLGIGPYR
+LPAAGFIDSMVSWRCDTVRAMIAHIERLHGMSWQRALTHSRAFSEYIVYGRFAEEVLKGE
+GHWMTDEPFCHVAWFKDSYETGPDGLRKLVAGMGPNQIGIGVQSFIGYEMNDIRRVVSEL
+RQAS
+>tr|A0A1Q9AKK8|A0A1Q9AKK8_9RHIZ
+MADSDSSRTLPSVTRRTLLQMATTTLAARVTAMQPARDREDASACKQDPALVLWRDWQAA
+NRKARALGRWQARLESRLVDAVGFPQIELSLGGRTKPMIVSTKTEIEHWLGGEPESAIRR
+QRAISELAARQKAWTEMDQRLEYSRAQNAEREALEDEEDLLETFWMTRARTCAGAAGKLH
+AMLTTGEPREGSEEFPWPQIRIVLEDLLHIAD
+>tr|A0A1Q9ANK7|A0A1Q9ANK7_9RHIZ
+MTQDARKSVTVVLVHGAWADASSWRAVIARLQAQGVAVLAVQNPTTSLAEDVAATSRVLA
+RIDGPVVLAGHSWGGTVITEAGADDKVKALVYVAAFAPDVGQSTGDQVGAHPAPPGLSEV
+SQDGFGQYWMSERGWTDCVAQDLPPEEARVLWACQPPLGASTFADAVSQAAWKDKPVWYL
+LCSQDRAVSTELQRALTKRLQARTTEIASSHLPLLSHPDAVAEVLLDAVATVAAG
+>tr|A0A1Q9AJU2|A0A1Q9AJU2_9RHIZ
+MPTPILYDCDPGHDDAIALVMAHRSPDIDLLAVTTTCGNAELDKTTSNAIRILDFIGAAH
+VPVAAGCVRPLARPLVLGTADGPSGLEGSPYLPMPQRAPVKAHAVDFLAEKLRAAPEPII
+VVATGPLSNIGLLVLKHPDVLPKIKELIWMGGVFYRKSEIITPTEFNAFCDPEAVRLVLD
+SGVPITMVGLDVTMQVLIEAPQYEELATIDTELGRLVMDWLRFYEKLHRNSMGVGGAMHD
+PLALALVIDPTLVRTRPAHIAVDLDGSFAFGATVADFWKERGEPDNARIAYEVDADRFFA
+LMFDLLRDPPQKDAAV
+>tr|A0A1Q9AID6|A0A1Q9AID6_9RHIZ
+MTLAELTPPGSEPLTLAEAKAHLRLETADEDALVTALIRTVRQHLERETGLALITRSLRL
+YLDDWPDTRIISLPVGPVTAVDGVTLYDAEGHPSEIGAAGFVLDGRAYPPRLLAPVLPSP
+DQPLNGIEIDLTAGFGPTGATVPDGLKRAMLQHLALLFAFRGVVAPQDQPAGVPLGYDRL
+LAPYRMWRL
+>tr|A0A1Q9AMX3|A0A1Q9AMX3_9RHIZ
+MTVLVLAAVALLVAILSHPKGARSVSGRAQVVDGDTLVLSGRRLRIRLVGIDAPERAQTC
+ILPENPAWDCGEAARHRLEQLIDGRAVTCEGEGQDRYGRLLAHCRAGETALNAAMVEAGF
+AVASGDFRAEEARARLEHRGLWASRFTRPQIWRRMQADNLKEPAALGAAVDSLFSAIGDE
+IADVLAQAIAWLWPERGDESAVRPGGG
+>tr|A0A1Q9AQ92|A0A1Q9AQ92_9RHIZ
+MRQDAYDLMTSTGSHEACRAFENAVYGLATHRPSTGIALSAALAADPDHVAAHALKGFAN
+LILARAELKPVAAGALADAARALTRRDGGTRDEQVLVAALEEACAGAFHAAVSVLETGFA
+DRPATFLPFKIAHALRFMTGDRAGMLASARRAAGAAPQNGPATGFIQGCLAFALEEAGHY
+DDALKAGERAVSLQPDDSWGLHAVSHVHEMRADTQRGIDWLEDSRGAWSRCNNFSFHMAW
+HLALLHLERGDHARVLELYDDEVRPQQTDDFRDMANAVSLLWRLNRMGVHVGRRWEELSA
+VARGRQTDTTLIFAALHTLAALVAIGDQQAAQALVVEIEAKALGSDDQARVASEIGIPLA
+RMLAGMGAPADRQMLDRMMLNLPKIGGSNAQRDFFILALAQALGQTGDHVGLSHVGMVRG
+SLKREDRLLRSIRRAAQMQPSA
+>tr|A0A1Q9AFH5|A0A1Q9AFH5_9RHIZ
+MKILVTVKRVVDYNVKIRVKADGSGVDLANVKMSMNPFDEISVEEALRLKEAGKASEVVV
+VSIGPAKAEETLRTALAMGADRAILVETDAVVEPLAVAKIVKAVAQAEQPGLVIVGKQAI
+DDDSNQTGQMLSALLNWPQATFASKVEIGDGKASVTREVDGGLQTIEVNLPAVVTTDLRL
+NEPRYASLPNIMKAKKKPLDKKTPSDYGVDVAPRLQVLKTEEPGGRKAGIKVGSVAELVS
+KLKTEAGVL
+>tr|A0A1Q9ACU9|A0A1Q9ACU9_9RHIZ
+MSPVTGPADADKAVKAPPKVKARPAPRRGAAKTRVRTAYGRAEIEEIFRRFSIQRPEPKG
+ELEHVNPFTLVVAVALSAQATDVGVNKATRALFAVADTPEKMLALGEEKVRDYIKTIGLY
+RNKAKNVIALSEMLVRDFGGEVPRTREELVRLPGVGRKTANVVLSMAFGQPTLAVDTHIL
+RLANRLKLAPGKTPDEVEERLIRVIPDHYLFHAHHWLILHGRYVCKARRPECERCIIADL
+CKADEKSCDVPAPLVEWTGANAAADEGQP
+>tr|A0A1Q9AIS9|A0A1Q9AIS9_9RHIZ
+MRLLLVEDSARLVELLSETVREAGWRLDAVHTIADAEHALSLREHDLVLLDLGLPDGNGL
+DLLRRIREQHKDLPVIVLTARGTVEDRIEGLDAGADDYLVKPFHHREFLARCRAMLRRSP
+VALQPVLEAGALRFNPATAELTCHAQVVPLPPRERALMELLMRDAGRVVQKRRLEQALSG
+FGEEMTPNALELAVSRLRKKLLPLDTRANLVTVRGVGYMLQALA
+>tr|A0A1Q9AGZ7|A0A1Q9AGZ7_9RHIZ
+MGTVTFSSKYGIDFYQLAQEDLSTILNYDKEQFLPSAITFSDASGDSMRFTGTKLVYIKS
+KGEVVGIKSGTITGLTMVEGGQKIVEAKGLSVKGVDLAKAIDSGSTQQFLDTLLSGNDTI
+KGSAADDRLWGADGNDRIDGGAGNDTLWGEAGKDTLIGGAGADWLWGGTGNDILTGGAGS
+DTFAFSLGKDKVTDFKAKGSSADLVDLRFDIDVNDFATLRSSHMKQSGANVVIYDGAGDT
+LTLTNVKISDLSESNFLF
+>tr|A0A1Q9AFU5|A0A1Q9AFU5_9RHIZ
+MKIRHLALAGALMVSAFASQAFAQAKDYLTIQLKDGPVVIELRPDIAPKHVARLKELAAE
+GAYNNVAFHRVIPGFMAQTGDVKYGNMEKNFQAGMAGMGGSDKPDLKAEFSKVPFERGTV
+GMARSQSPNSANSQFFIMFAPGSFLNGQYTVVGKVVKGMENVDKIKKGSEADNGSVSDPD
+RMISVKVGQ
+>tr|A0A1Q9AGI8|A0A1Q9AGI8_9RHIZ
+MLDNQTPLVEMRNISISFGGIHAVDNASVELYPGEVVALLGHNGAGKSTLIKILSGAYKR
+DGGDILINGEPAEIGNPRDAKKYGIETIYQTLAVADNVDAAANLYLGRELRTPWGTLDDV
+AMEAKAREVMGRLNPNFRRFKEPVKALSGGQRQSVAIARAILFNARILIMDEPTAALGPQ
+ETAQVGELIKQLKREGIGIFLISHDIHDVFDLADRVSVMKNGQVVGHARTEDVTKDEVLG
+MIILGKVPPKAIPGPGAMQMA
+>tr|A0A1Q9APT8|A0A1Q9APT8_9RHIZ
+MNPSYLLLYVTDVARSAALYREITGRTPVEQSPGFALFALDTVRFGLWRRDAVQPAVMAD
+PGALEIGFPLETEAELAVTLARWTALGLTLLQPVTTMDFGRTFTVADPDGHRLRAFVLSV
+>tr|A0A1Q9AI00|A0A1Q9AI00_9RHIZ
+MPKYSLTTPLGPNRAKLNGALSGARNKTMLTLIGNPRGNYSDDCRWPTNKKVLDLIIQKN
+VGPFKVSGLKPAVETLELIFADIRAHEPEIYAVLGTAGMLCCRYVRGSTTSISNHSWGTA
+IDLTLEGVLDKRGDERAQVGLLSIYKYFNAHSFFWGAAFPTEDAMHFEASEQLIRTWSAQ
+GLFGAHPPPLSDEIFELGDRGPNVKELQELLNHKLGLDLDADGIFGPATRAAVMEFQREQ
+GLPITGALLPAQLDRLAA
+>tr|A0A1Q9ALY7|A0A1Q9ALY7_9RHIZ
+MEASLVISALAEPRRREILRMMRNTPCSASEIRDALDITQQAVSQHLQILETAGLVWADR
+PGRGRRYTLAADGIDALDRFLSELWPDGLQRLKSAVEARRDS
+>tr|A0A1Q9AN26|A0A1Q9AN26_9RHIZ
+MKKHFLLATTFAASLAFAAQARADFTIGIIAPLTGPDAADGSSVKRTMQAAADAINSNGG
+IRGDKLVLKFGDDASDPLKSSSIAQDFLDSKINFVIEVRLSDLSEPLHVVSQSSTDIMAE
+AGIGIFLLMKEFPKIDLIDGGRTSNLSNECYRADARQGVIAANYVVKNFKDKKIAIVDDS
+RDYGKTLVDAFKTALNRDGVTEALEISLGYGSYDYIEEAEKAKKDAQKLKNAGVEVIYYG
+GVSGDIGVLQRQLEEISAKPQIIGGDALSDVNYQTFYKKESDGTVFTDAPRNTLITDLDS
+ARTALKEREIPIEDLTLRSFAAVHELASAIRDELCYGYSEFSLITDIEDGKPTIYIDPRA
+IQVRISSDPAIPAKIDKATGNRTLPSYSFYQWKAGKIVPIAEGSQSPTEN
+>tr|A0A1Q9AFJ4|A0A1Q9AFJ4_9RHIZ
+MVLRATLIGFSAILMWALLALFTAASGTMPPFQLSAICFAIGSLPGLFVFAVKPQRLRLL
+KQPAPVWALGIIGLFGYHFLYFTALRNAPAVEAGLIAYLWPLLIVVGSALLPGERLRWYH
+VAGALAGLAGTVLIVARNGVAFDGAYALGYGAALACAFTWSAYSLMTRRYEAVPTDTVTG
+FCLATSVLSLLCHLALETTVWPSSAGQWLAVLGLGLLPVGAAFYAWDHGVKNGNIQMLGV
+ASYSAPVLSTLILIAFGFAEPSWRILVACLLVTGGAVLASKDAIFGRRKQAAPSEEGAAS
+LS
+>tr|A0A1Q9AIP1|A0A1Q9AIP1_9RHIZ
+MTSQNVTSTLPAVDRDWWRGAVIYQIYPRSYQDSNGDGIGDLKGITARLPYIAGLGVDAI
+WISPFFTSPMKDFGYDVSNYKGVDPIFGLLADFDEMIAEAHRLGIRVMIDLVLSHTSDQH
+PWFVESRSSRFNAKADWYVWADSKPDGTPPNNWLSIFGGSAWAWDPTRLQYYMHNFLTSQ
+PDLNLHNEEVQNALLDVERFWLERGVDGFRLDTINFYFHDKELRDNPALAPERRNANTAP
+AVNPYNYQEHLYDKNRPENLAFLRRFRGVMDEFPAIAAVGEVGDSQRGLEIAGEYTSGGD
+KVHMCYAFEFLAPDPLTPARVAEVLHDFERAAPEGWACWAFSNHDVVRHISRWGEGIQDH
+EAHAKMLSALLMSLRGSVCIYQGEELALTEADIAFEDLQDPYGIQFWPDFKGRDGCRTPM
+IWDSEKPAGGFSEGKPWLPVPAEHLARAVSVQEHDMRSVLHHYRRFLAFRKQHACLAKGE
+IHFRPYAAPVLGFMRQHGSEEMLCLFNMSGEPVTVERPAERIEAALGHGFDSHLGETRIT
+LPAWGAFFARVL
+>tr|A0A1Q9AM18|A0A1Q9AM18_9RHIZ
+MTQPYQRADDVGYAITEFLWSKGRPFYPVSALAHARVSEVNLASVACTRYDDDNLDLIFQ
+MPKSGGGHFFEIVLRSNESTAYGGWAWGEKLSFVDRFVNGYRVLTAFIEGQEVSFEYSSR
+WHRYRANCDIPVSKSLRYSGREVTEEANYSKNVVRQATF
+>tr|A0A1Q9AJH4|A0A1Q9AJH4_9RHIZ
+MQKLPVQSRIIDSVYFSPENGQLQIRFRNGEERRFEGLAESDATALCAAPSPGHHYLEHI
+RKRFRRLAA
+>tr|A0A1Q9ACK5|A0A1Q9ACK5_9RHIZ
+MMTEADRIQALEETVAHQNRTIEELSEQLAEQWKTVEQMRTKLERLTERFLTLEEQTLDA
+PAITRPPHY
+>tr|A0A1Q9ADF6|A0A1Q9ADF6_9RHIZ
+MALPIALGGTELLAWRLDQTIHATTWDSGEGAYRVGGRWNSKGVRAVYSSLDPATAILEV
+AVHKGFRTLDTVAHALTALVIENPSAIHIVRPADVPNPNWLRPGIPSSRQQAFGDALLAT
+HRFVALPSAVSTHSCNLIFLATARPDGYRLKFQERFAMDTRLSPPG
+>tr|A0A1Q9AH42|A0A1Q9AH42_9RHIZ
+MTNVSSFRHLDELQPWNDRQHLLECIAATVETPDVMTFTFKSDRDGWFRYLPGQFVTLEL
+PVTPDDPVMRTYTLSSSPSRPFAVAVTVKAQATSIGTRWMFENVRPGTKLKAFGPLGDFS
+FVRHPGAKYLFISAGSGVTPMMSMTRWFADCAPGTDVAFVHCARKPEDILFRAELQALSA
+QMPNLSLGFIVEGHGPHNAWHGLRGRIDAAMLPLLASDFRERTVFCCGPEPFMRGVRGLL
+EAAGFPMGQYHEESFQPAAAPAAEELAIRAGGGTDGEQASASATVSFTMAGKQALCPPGQ
+TILQTARKAGVRIGAACEGGICGTCRVMKVSGQVEMNHQGGILDEEVDEGYILACCSRPI
+GDVAIEA
+>tr|A0A1Q9AK51|A0A1Q9AK51_9RHIZ
+MMPRFLAPLALALLLATPALSAPVTVKSCNREVTFDAPPKRAVSNDVNLTEMMLALKLQD
+RMVGYTGISGWKTIDERLRAGLKALPELSPKYPTKEVLLNADADFYFAGWNYGMKVGGEV
+TPETLAPFGIKVYELTESCIHIMPKAKPTMEDMFVDLLNLGRIFQVEDRAEALVKGYRDQ
+LAALQARLPKGAAPVRVFVYDSGTDKPFTSGAYGIPTAMIEAAGGVNIMEDVAKSWTEVS
+WEPVIERNPEVIVIVNYGEVTAEQKIAFLKDNPAFKNLDAVRNNRFVVLDYVAATPGPRN
+IEAIEKLAAGFHPGAL
+>tr|A0A1Q9AJN7|A0A1Q9AJN7_9RHIZ
+MTDLTRLTIAEARARLAAKDFTALELTDAYLGAIEAANGALNAYVTVTPEQARKMAATSD
+ARIAAGEAGALEGIPLGIKDLFATEGVHTQACSHILDGFKPRYESTVTANLWADGAVMLG
+KLNMDEFAMGSSNESSYYGPVKNPWRAEGANRDLVPGGSSGGSAAAVAAHLCAGATATDT
+GGSIRQPAAFTGTVGIKPTYGRCSRWGIVAFASSLDQAGPIARDVRDAAILLKSMASTDA
+KDTTSVDLPVPDYETALGGSLKGMKIGIPREYRVDGMPDEIEALWQKGIAWLKDAGAEII
+DISLPHTKYALPAYYIVAPAEASSNLARYDGVRYGLRVEGKDIVDMYEKTRAEGFGQEVK
+RRIMIGTYVLSAGYYDAYYLRAQKVRTLIKRDFETAFHAGVDAILTPATPSAAFGIADQD
+LAADPVKMYLNDIFTVTVNMAGLPGIAVPAGLDASGLPLGLQLIGKPFEEETLFKTAYAI
+EQAAGRFEPKRWW
+>tr|A0A1Q9AET3|A0A1Q9AET3_9RHIZ
+MTTIAHPDSILIIDFGSQVTQLIARRVREAGVYCEIHPFNSADAAFAAMKPKGVIFSGGP
+ASVTAEGSPRAPQAVFDAGIPVLGICYGQQTLCTQLGGTVEGGHAAEFGRADLEIRKESP
+LFEGFWEVGGRYPVWMSHGDRVTQLPHGFEVVATSENAPFAIAVNESRRYYTTMFHPEVV
+HTPDGAKLLSNFVHKIVGLKSDWTMAAYRAEMIRKIREQVGSERVICGLSGGVDSSVAAV
+LIHEAIGDQLTCIYVDHGLMRLGESEQVVGMFRDHYNIPLVHVDASDLFLTQLAGVTDPE
+VKRKTIGRLFIEVFEAEAGKIAADGKGAPAFLAQGTLYPDVIESVSFSGGPSVTIKSHHN
+VGGLPERMNMKLVEPLRELFKDEVRALGRELGLPESFIGRHPFPGPGLAIRCPGAVTREK
+LDILRKADAIYLDEIRKAGLYDTIWQAFAVLLPVQTVGVMGDYRTYDFVCALRAVTSVDG
+MTADFYPYDMNFLGRTATRIINEVRGINRVVYDVTSKPPGTIEWE
+>tr|A0A1Q9AES9|A0A1Q9AES9_9RHIZ
+MREHLFCRTDDEAHLTDDDLAGKVLRYLRYVSMIDTSDVRVIALGRTVVLSGEVANDNEI
+GCLEECAASVIGVHLVENQLRVRVRH
+>tr|A0A1Q9ACB4|A0A1Q9ACB4_9RHIZ
+MSDPRDIVLIVDDSPETLGFLTEALEQSGFSVLIATSGRAALNVVDRITPDLVLMDAVMP
+GMDGFDTCRTLKRQPAIAPVPVIFMTGLTETEHVVHALESGGVDYLTKPINIDELRARIR
+VHLTNARSAQSARVALDAAGRHLLAAHGDGSVNWSTPQASRLVNAAIETEDGMAALTGHL
+RSWMAARAAGSTEAGLTIARHGAPVLQLAFLGAIGADEFLFRLTGVRAGSEEDLLRSRFG
+LTQREAEVLAWIAKGKANRDIAEILGLSARTVNKHLEQIYMKLGVENRASAAIKAVEVLR
+EG
+>tr|A0A1Q9AEF4|A0A1Q9AEF4_9RHIZ
+MADTVLSSAPPVRSTMMSPAEFALTLGGFGIGTGEFAIMGLLPDVARDTAVSVPAAGMVI
+SAYALGVVVGAPVIAVLAARFSRQHVLLALMAIFALGNFASALAPDFLTLIAARFFTGLP
+HGAYFGVAAIVAAGLAPPHQKARAVARVMMGLTVATLIGTPLTAWFGQMVGWRAAFAIVG
+LISLITMAMTLRFVPRDKPETGASPLRELGALANPHVWLALAICAVGGGGMFAVFTYITP
+AMTEVAGVPLSGVPLMLALFGAGMIAGNLLGARLADRSLKYGLGVALLFNLGAFLLFAFT
+MGNPAIAALNIFLVGCGFLLVPGIQLRLINVAGEAQTLAAALSHSAFNLANALGAWAGGV
+SIAHGYGWTSTGLVGAAVTLAALAVWGVAIASDRRRW
+>tr|A0A1Q9AHL6|A0A1Q9AHL6_9RHIZ
+MGEITLNAPRLFDLSGNVALVTGAGSGIGQRIAMGLAQCGADVALVDRRTDDGLATTAAF
+IEKAGRKAIQIAADVTTKVAMAEAVARTEAELGPLSLAVNAAGIANANPAEEMEEEQYQT
+LMDINLKGVFLSCQAEAQAMLKHGRGSIVNIASMSGVIVNRGLSQCHYNASKAGVIHMSK
+SMAMEWVGRGIRVNTISPGYTATPMNTRAEMVHQTKLFEEQTPMQRMANVDEMVGPAVFL
+LSNAASFVTGVDLLVDGGFCCW
+>tr|A0A1Q9AKG4|A0A1Q9AKG4_9RHIZ
+MTLRRSAIVMAVVLAAALPRLSTGQDGYRFELKLTTPDARHDPDGVWSDDDLAFIRQLGQ
+SPSIYTARMTTPAGEWLLSQTNGDCNMQGMCTTLLLLRKAGTTPVEMANPQLPLGGSATL
+SLNYKKLFTRELDQNGNLFDGAYDVAPIQ
+>tr|A0A1Q9ALF9|A0A1Q9ALF9_9RHIZ
+MNIHEYQAKALLKGYGAPVAQGVAILKAEEAEAAAKQLPGPLYVVKSQIHAGGRGKGKFK
+ELGPDAKGGVRLAKSIEEVVAHAKDMLGNTLVTAQTGEAGKQVNRLYIEDGADIARELYC
+SLLVDRSVGKVAFVVSTEGGMDIEAVAHDTPEKIHTIAIDPEAGVTADDVAKIASALALE
+GVAVEDAKALFPALYKAFNEKDMALLEVNPLIVMQDGHLRVLDAKMSFDGNALFRHDDVK
+ALRDETEEDAKEIEASKWDLAYVALDGNIGCMVNGAGLAMATMDIIKLYGKEPANFCDVG
+GGAGKEKVAAAFKIITADPKVEGILVNIFGGIMKCDVIAEGVVAAVQEVGLKVPLVVRLE
+GTNVELGKKILNESGLAITAADDLDDAAKKIVAAIQA
+>tr|A0A1Q9AHV6|A0A1Q9AHV6_9RHIZ
+MTREPVLTIRDLHLAFGRWGRKSNVLHGISLHVGAGEKVALVGESGSGKSVTARLAMGLL
+QESRATHATGSIRFDGIEAVKGGPEIARRRGNRVAMIFQDPTSALNPTFKIRGQFREVLR
+SAEPRLSDAEADRRAEAALAEVSIPDPARALDSYAFQLSGGMNQRVMIAMALANRPELLI
+ADEPGTALDVTVQAQTLKLMGDLAATRGTAVLLISHNLGVVREFADRVYVIYRGRMVEHA
+TTKQLFAAPRHPYTQALLSAIPKISGGGLPDLPERSPDFERPLIVHEGCGEPAEVV
+>tr|A0A1Q9AD86|A0A1Q9AD86_9RHIZ
+MAALEQPDYANLTVQLLSVYLTGNTVSPQELPALVRATRAALSADPSEPTPTPAAAPVEE
+PAAAPAPPEPPVYRPAVSVEESLASRDVIISLIDGKPYRAMKQHLARNGLTPADYRARYG
+LPADYPVVAPAYSELRRETAKRMGLGRRGAGSDAAQAASVEGDTVTDAPEAETKPAPKAR
+KTAAQGKTSGKAAKPAKSGRGPGRPAKAAAEPAEAPIPEAHDQEATAE
+>tr|A0A1Q9AQ51|A0A1Q9AQ51_9RHIZ
+MAGHLLKNCAAVIVDDGTGMTVRRNVDLLTEGPAIKAIGEGLAAGPLPEGTQVTDATGWF
+VYPGLVNTHHHFFQCFVRNRADLDWTKLSVIEWLDRIYPIFARLTEDCFYHSSVTAMAEM
+IKHGCTTAFDHQYNFPRHAGKRLIDRQFEAADLFGMRFHAGRGGNSLPKSEGSTIPDEMR
+ETTDEFIADCARLIDAYHDAAPFSLRQVVVAPCQPVNAYRETFVESVRLARDKGVRLHTH
+VGEGESPVILARHGLRTVDYLHEMGFAGPDTFYAHCWELTHDELRTLAASGTGVAHCPEP
+VYLVGAEVTDIPAMSAFGVPIGLGCDGAASNDNSNLMHCIHSAYMLQCLVASTRSHPVPP
+PADFLGYATTGGAQLLGRTDIGRLAPGMAADLFAIDTRRMDYVGTRHDPLSLIAKVGIGA
+PTDMTMINGRIVWAKGEFTGLDEAKLFAEAEATLATLDL
+>tr|A0A1Q9AFP7|A0A1Q9AFP7_9RHIZ
+MTETSPTPAPGPRRRGPRLRGVIATLILIALVYSGLWYLAAHQMETRLATLLSSDRLGVG
+CRDMTVGGYPLRLTVACSMVTVDNRERGTSASLGAIDARAPVYNPGRIDATLSGPAEFRM
+APDLVASSRWTAADLSLRTGLSGISNATLSATGLQGSITASAGITPSLHFTLAEGASRVT
+RDGTVLTSAMQLKGLALLTPEDTAILPPFDATLNASLTAQEPIQLGRGSRLPLRGSQGQL
+DGLTVDFGNGLTGKASGPFNIDEEGLLSGEFDLSIDNVDGWRDAVIAAFPQTRSMARNVA
+GMLRALSGNRDQAHVKLNVRKGTAFLAFIPVGVLPRF
+>tr|A0A1Q9AGT4|A0A1Q9AGT4_9RHIZ
+MDPLSDVLSLLRPKTAISAGLNAGGEWTIRFPAHDGIKFNTVMRGACWVSVEGEAERVRI
+EAGDCFLLTRGRPFLFATDNPPPPIDSATIYDHATDGIATCNGGGDFFLIGGRFSFEGDH
+AGLLFGALPAIVHIRDASSQAAVLRWALEQLALELKQGSPGGALMADHLAQIMLLQVLRL
+WLASGKQSGWLGALADQRLTRALRAMHAEPQRRWTLVELAGLAGMSRTTFAERFRDVVGQ
+TPLDYLASWRMRLAADRLRRSADSVATIGFSVGYESEAAFSTAFRRVMGCTPMQHRRIVS
+A
+>tr|A0A1Q9ADZ4|A0A1Q9ADZ4_9RHIZ
+MEIGDVADADLGQLHALSISVGWPHRAEDWQFLRAVGKGVVATDEIGRIMGSAMWFRQSA
+ELATIGMVITSPRLQTQGTGLWLMEYALKDLSGVDLRLNATRAAQRLYLSLGFRPDKTVY
+QCQGTAALAPEQPPVPGELRALTPEDLAAVTALDARAFGVPRAALLERLSAQSRGYGLFR
+DRALKAFSLCRRFGRGHVVGPLVACGDGDAMAVLAPHIRDHQGQFLRLDTHFETGDFALF
+AVRSGLAVFDTVLTMSLGRSLADFALPEPDAPVTYSLVSQTLG
+>tr|A0A1Q9AE30|A0A1Q9AE30_9RHIZ
+MMKTPAECRSMPEIRAEIDRLDAALMQLFAERWGYIGRAAEIKREIGLKADIPERVDEVR
+RNARTHAARHGLDADFYDRIWEQLIRHAIAHEQAALGETAEDAR
+>tr|A0A1Q9AHD3|A0A1Q9AHD3_9RHIZ
+MITLRQMHYFDALATTRHFGRAAEWVNVSQPALSAQIMEMERHLGVKLVERARGGILLTP
+MGEDILIRVRRILAEVDALKLAVENGIAPMEGTLRLGIIPTVAPYLVPRLLPSLQAAYPA
+LRLELKETVTDRLIADLREGRLDGAIVALPIDEQGLKARPLFRDRFFMAVAQEEARLLVS
+PLTQMELDVDRLLLLEEGHCLRDQALDVCGTGRRSLVDFGATSMATLLQMVAHNMGVTLI
+PEIAVPTETARNAIRVMPFADPAPAREIGLIFRASHSRPQDMETMAVAISACVQPLLQPH
+AGTV
+>tr|A0A1Q9ALU7|A0A1Q9ALU7_9RHIZ
+MFVRKLTLALALAVTGAGIAAAQSPTRIQQFNAWGAYSYQSGKSKVCYVLSVPKEKTPAS
+VDHGDVFFLVSQRPGQNISYEPQVMVGYPLQENSKVTVTIDQKNFTLFTKGNSAWVENAA
+EEPALVTAMKSGKSLKVAAKSRKGTATSYTYSLSGISAALKQIESCK
+>tr|A0A1Q9AE81|A0A1Q9AE81_9RHIZ
+MSSSWRPATQLVHGGTTRSNHGETSEAIFLTQGFVYDTSAAAEARFKGETDGFIYARYGS
+PTNDMFEKRMCLLEGAEDARATASGMAAVSAAILCQVKAGDHIVAARALFGSCRWVVETL
+APKYGVECTLVDGRDIANWEAAVRPNTKVFFLESPTNPTLEVVDVAAVAALATSVGAKLV
+VDNVFATPLFQKPLELGAHVVVYSATKHIDGQGRCLGGVILSSKDWIDENLHDYFRHTGP
+ALSPFNAWTLLKGIETLPLRVRQQTANAAAVADFLAGHPKVAKVIYPGRADHPQADIIAR
+QMSGGSTLVAFEMKGGKAAAFALQDALDVVKISNNLGDSKSLITHPATTTHKNLSEEARA
+ELGISAGTVRLSAGIEDSADLVEDFARALDAVA
+>tr|A0A1Q9AEY1|A0A1Q9AEY1_9RHIZ
+MEKRTQPLARDAMAYVLAGGRGSRLKELTDRRAKPAVYFGGKARIIDFALSNALNSGIRR
+IGVATQYKAHSLIRHLQRGWNFFQPERNESFDILPASQRVSETQWYEGTADAVYQNADII
+EDYGVEYMVILAGDHIYKMDYELMLQQHVDSGAEVTIGCLEVPRMEATGFGVMHVDENDR
+IIDFVEKPADPPGIPGNPEVALASMGIYVFHTKFLMDILRRDAADAKSSRDFGKDIIPYI
+VEHGKAIAHRFTSSCVRSNFEREAYWRDVGTIDAYWQANIDLTHITPELDIYDSTWPIWT
+FAEIKPPAKFVHDDDDRRGSAVSSLVSGDCIISGASLNRSLLFTGVRVNSYSRVENSVVL
+PDVKIGRHAQLSNVVIDARVVIPEGLVVGEDPELDAKRFRRSEGGICLITQPMIDRLML
+>tr|A0A1Q9AGA8|A0A1Q9AGA8_9RHIZ
+MKGDTRVIERLNEALHLELGAVNQYWLHFRLLEDWGYTLLAKKERAESIEEMQHADKLIA
+RIIFLDGHPNLQTVAPLRIGQNVKEVLEADLAGEYDARASYKTSRDICHEAGDYVTMKLF
+EELLIDEEGHIDFLETQLQLLNTIGPEKYGQLNAASADKAEVGSEDA
+>tr|A0A1Q9ALJ6|A0A1Q9ALJ6_9RHIZ
+MSSSKQSISLGRVALLGATLALATPLLAFAQDAAPAAADAAATAAAAAPVPDKGDTAFMF
+LSTILVLFMAVPGLGLFYGGLMRTKNMLSVLMQCTVVASVIMIAWVLYGYSFAFGGSTSP
+FFGGFAKVFLSGVTKDTTAATFTKGVVIPEYIFVMFQMTFAAITPALIVGAFAERIKFSA
+TVLFCLLWVTFVYFPIAHMVWDANGYLFGLGALDFAGGTVVHINAGMAGLVGAIMVGKRT
+GYGRDMMAPHSMTLTYVGAAMLWFGWFGFNAGSNLEASSGAMLATVNTFVATAAAILSWS
+AAEAFTRGKASMLGAASGMIAGLVAVTPAAGIVGPMGAIVMGIIVSPLCYFFVSVIKNKF
+GYDDTADVFGVHGVGGIFGALATGIFASASLGGVGYAGEQTMSGQFMVQVQAVVITLIWT
+GVGSAILYKIVDIIIGLRVPVEAEREGLDLASHGEAAYHS
+>tr|A0A1Q9ACC6|A0A1Q9ACC6_9RHIZ
+MGRPRELTGDERAELLRQGYRPVEIWVPEAEDTLLNARLSAEAERIAAADQTDDVTGWIE
+AAGPSEWDKP
+>tr|A0A1Q9AG51|A0A1Q9AG51_9RHIZ
+MRVIPLGALMALAAIALPACQASAPAPKAPPAQNTAALPTMERIALAANRCWFKSGDAAF
+KPYRMAPELNSFSGRPRILLVHRGAPEARPLAVVQAEGHPARLQAFGPLFSQDVGPRMTG
+DIRRWANGDTGC
+>tr|A0A1Q9ALH0|A0A1Q9ALH0_9RHIZ
+MWYFSWILGLGLACAFAILNAMWFEMREDNLASALPETADDKALQRAQVKSAPRGAR
+>tr|A0A1Q9ALK1|A0A1Q9ALK1_9RHIZ
+MAYDIIVIGTGPGGYVCAVKAAQLGLKVAVVEKRTTYGGTCLNVGCIPSKALLHASEMYH
+AAHHLDGLGIEIGEARLNLDKMMAHKDATVKSNVDGVAYLFKKNKIDAFQGTGRVVSAGK
+VSVTADDGATQELEAKAIVIATGSDVAGIPGVAVEIDEEVIVSSTGGIALKQVPGHMVVV
+GGGVIGLELGSVWARLGAQVTVVEYLDSILGGMDGEVSKQFQRLLAKQGLTFNLGAKVTG
+VTRTETGANVTFEPVKGGEAQTIAADVVLVATGRKPYTAGLGLEEAGVALDNRGRIEIDK
+HFQTNVPGIFAIGDVVKGPMLAHKAEDEGVALAEILSGQHGHVNYDVIPGVVYTQPEVAS
+VGKTEEELKAQGIAYKAGKFPFSANGRARAMLATDGFVKILADAETDRILGGHIIGFGAG
+EMIHEIATVMEFGGSSEDLGRTCHAHPTMSEAVKEAALATFFKPIHM
+>tr|A0A1Q9AN06|A0A1Q9AN06_9RHIZ
+MVFGLFGKKNGNAAIVARQYQLLTASARQPRLYAELGVPDTVMGRFEMISAVLILYFRRT
+RQSARAGQEIAQEIVDAFFQDVDHSIRELGVGDLSVPKRMKRLAGMFYGRLESYSAALDA
+GDAEALRAALARNLYTQAGAEAPDMGGLAHYMMEAEARLAATAEAEVETGSLTLISGTNE
+A
+>tr|A0A1Q9AIF5|A0A1Q9AIF5_9RHIZ
+MADTATSLRVYDSWQQVALVEDRLRPQVLLASSSAFRLRVRNQLYLVAPGAPLAVDFAGA
+SLVEIKAVSGLAEVSIIRSAGGAQP
+>tr|A0A1Q9AL01|A0A1Q9AL01_9RHIZ
+MFAVIKTGGKQYRVAANDVITIEKLEGVAGDKIEFTEILMVGVGADAKIGAPFVEGALVS
+AEVVEQGRAKKVLSFKKRRRQNSKRIRGHRQHQTTVRIVDIAGAGSKAAE
+>tr|A0A1Q9ALI3|A0A1Q9ALI3_9RHIZ
+MDIRRQSEDLRRWLTEQALPLWSATGYDTARGGFVETIALDGAPTQAHRRARVQPRQVYC
+FAEAGRRGWTGDWARIATDGLAYFDRVYRREDGFYGALASAGGQMIDDSFDIYNQAFAFL
+AFAYLARVFPARLEEMAGRSNALRVALEQRVRHPVAGFEEDQPPRLPLCSNPHMHLFEAA
+LASEEVEGFDQAAWANLADEIAQLAMDRFIDQDSGALREFFDHDWQPMPGEKGRIVEPGH
+QFEWAWLLTRWGERRGHAGALAKARRLFAIGEAHGICPTRKVAVMQLLDDFSVHDPVARL
+WPQTEWLKSAIRFAALTEGAEREAYLVSAGRAIAALMPFLDTPVVGLWRDKQKPDGIFID
+EPAPASTFYHILCAIYELEDCLRRF
+>tr|A0A1Q9AHL8|A0A1Q9AHL8_9RHIZ
+MHDWLAPDPVGLHAQARPDKLALVDLASGRRWTYRAFDRAIEQARAVLDALGLRPGDRLA
+AIARNSADLVIAQQACLRSGLIFTPLNWRLAAAELDAILADCTPALILADGSAAGFTAPA
+GARLMEVAAFAARYQTAAPGPRGPARNAGEPCVILYTSGTSGLPKGVILTPQTLFFTGVN
+FGVLGQVSANSVFLAESPMFHVIGLVTSIWPALVQGGTVLVSSGFDPAMTNARLADRALA
+ITHYFCVPQMAQALRDAPGFAPDTWSLAALFTGGGPNPPANIRWWLEHGVRMVDGYGMTE
+AGTILGMPLDPALIGAHAGAVGQAGPATAIRIIDEEGGDVPDNAAGEIIVKGPHITPGYW
+NRPKEHESAFTRDGWLRTGDIAVRDAEGFVTIVDRRKDMFISGGENVYPVEIESVLAEHP
+AVALAAVIGVPDPRWGEVGHAFILLAPGHEGSESELRAHCEARLARFKVPKHFRIVEDLP
+RTSTGKIRKNRLRESLVV
+>tr|A0A1Q9AHU9|A0A1Q9AHU9_9RHIZ
+MIDFIVAVLRSGTPLVYVALAGMIAQRAGLWHLGLEGIMIIGCCATIIGIVLTGSYALAI
+LIACVLCILASMLLWFVIEKLKANPIIAGLGLTGFGVGGTALAAQSIFGSQAAVTAPFGA
+PRLGDSFGAFASLSIFVAAMPAVVALLWVLLRRTRFGLQLAACGEHPFAARSLGIDPERI
+RLFALCVGGVLCAIGGAELASGSLQIFAQNMTAGRGFMGFAAVVFGAAHPVWTALAALFF
+SLVGAIGIRAQILFGDAVPHDLLLALPYLATVLGVWISGRLRGGAKGANGFSELRDY
+>tr|A0A1Q9AFU3|A0A1Q9AFU3_9RHIZ
+MTDITRRRALGLGAGSLLAAILVGNVRLAGADSSTLTIAFNSNLPSFDGTVGPSAVNPTI
+QAIYRAVFDQYIGQAPDLSFKPGLLTAWGWNEDKTRVFMEVRSGVTWHDGTPLTPEDVVW
+SLERAGKPETGNPVSGVWASIGNFTVNGQRIEGEVKSFDPTIFKWMAYLTGYVMPKAYYE
+KVGAEGFEKKPIGTGPYKVDAYEGNAFLRLKANPDYWGEKPAFETVIFKFVTDATSRVAE
+IESGSSDVTLEIPFEEFDRLKGKSGLKGVSTPISDIGMIFITNRDVMLDKNVRLAAHHAI
+DKDGIIKKLLRGYGQAIDTLEAPQYIAYDPSIKVGYDPKKAAALLAASGFSKDKPARFTI
+QTTRGLKPKDYEMIQAIVGMWRKVGIEAEIEVYEIAKHYELRAGHKLAPAAFYNWGNAIG
+DPATSTGFSMFSKSPHSAWKSDDLDAKIGPLWTEKDEARRIAGWKAVDAYIAQEGYVIPL
+LQYVQPIVFKAGLSVTPNVSSALEPGLVSKAKV
+>tr|A0A1Q9AI76|A0A1Q9AI76_9RHIZ
+MGAPSRDPRRANRQRGEIEAVLGGERRVLCLTLGSLAELETAFGVAGLAALAARFGQGQL
+AARDLIHLLGAGLRGAGADISDEEVAAMTMDGGLAPAADAVSALLAAAFGLPASPETSPD
+PVPDPPQDP
+>tr|A0A1Q9ADG0|A0A1Q9ADG0_9RHIZ
+MAAAAGVSISTASKALNGTGRMGMETRERVKRVAHELGFRPNALAKGLLSKRSFTIGLLT
+NDTYGRFTLPVMAGVAEALVDRGVSVFLCAIEDDPALGQIHVEAMLDKQVDGIIATGKRV
+DRSLPIDLSNLPVPVVYAFTEGAAGSVSFRSDDAQGARLASEWLIRQGRHRLAHITGPES
+FFSVRERAEAFRLVAGGEAPVLHGTWSEGWGHEAVAHLWDAAVARAQDVPDAIFCGNDQI
+ARGVVDALRERGLKVPQDVSIIGFDNWEIVAAQMRPPLTTVDMELKELGRQAGLTVLALA
+EGQVVEPGVRTLPCRLVVRESCGGGEPHS
+>tr|A0A1Q9AP49|A0A1Q9AP49_9RHIZ
+MPTPLARKIANLIRTNGPISVTDYFSLCLADPEFGYYKTREPFGLQGDFITAPEISQLFG
+EMIGIFLIEVWQRHGTPEDVHLVEIGPGRGTMMADILRVIARLAPELFERLDVQLVETSE
+RLRKVQAQTLIENKFKVTWHDSFESLPEGFTLLVANELFDAIPIRQFVKTATGFKERLVG
+LDSEDRLTFAAGIATLDPALLPSPAQNVPLGTIFEIAPARDAVMQALCTRLRDNGGTALI
+IDYGHLATSFGDTLQAVRDHSYDPPLAHPGEADITSHVDFEQLARRAVTEGLTVNGMGHQ
+GDFLLALGLSERAGALGRDKDSGVQDGIRQDVERLVGVGEGKMGELFKVLAVSYPKVPIP
+PFRNRD
+>tr|A0A1Q9AHP9|A0A1Q9AHP9_9RHIZ
+MFVINSMPEQIDAELVDLLEKVEVATIGHVLHSGFVDPDIKSVLPNKRVAGTAVTLRIPN
+ADSTLLHYLTQHVRPGDIVVIDRCGDRRHACWGGVITNAMKLAGVKAGVIDGPATDFSEF
+TKIDMPMWCRGPSPITTKLLGLEGALNVPVSVGGQTIHPGDAVLCDESGVVVLRPAEARA
+IAERAIAMQEAEIVLLDRLRAGEKLPDISGANKLVEAKRSA
+>tr|A0A1Q9AEV1|A0A1Q9AEV1_9RHIZ
+MNEKCWRRPVIIELRGIGDFEAVCDTREAAEILLRRWPGEGKGPAYDIALRTCNYVLRGE
+QAPDYARHDFIAAAHEALIYVRQDQPN
+>tr|A0A1Q9AKU5|A0A1Q9AKU5_9RHIZ
+MQTARQTTDQTTRAGGDIVAGLKTILPMLVAVAPIGLVFGAVAVGKGLSPLEAMAMSALV
+FAGGSQFVAMDLWTDPPAWAALGFAALLVNLRLILMSASLERAVADFAPAQKLAAFAIMA
+DENWALAEARSRRQKLTPAFYFGLSLPFYGMWLVSTAAGALLGAVIGDTRPLGLDFAFPA
+VFIVLLMGFWKGRQTGLVLAASALASILVHALLPGAWYIAAGALAGLAAAFIPLSREQVA
+>tr|A0A1Q9ANE1|A0A1Q9ANE1_9RHIZ
+MPHRRAHADGLGDAALEAAEKVIVINGRAFSMENCPVRDVLSNVGGKWNTLMVQALGNGP
+MRFSALRRLIPDISQRMLTQTLRDLERDGYIVRTVYPTKPPSVDYQLTDLGRSFNQVLEP
+LVDWSATHHLAIRAARARFDQG
+>tr|A0A1Q9AFA2|A0A1Q9AFA2_9RHIZ
+MKRFDYLKAGSVAEAVSALAAHPKARLIAGGTNLVDLMKYDVEAPGLLVDINGLDLKRIE
+ESENGTRIGALVTNSDLAYHPGINRRFPLLASALLAGASPQLRNAATAGGNLNQRTRCYY
+FYDTATRCNKRQPGSGCDAIGGVTRIHAILGASDSCIATHPSDMCVALAALDAVVEVEGP
+NGRRDIPILDYHRLPGETPERDNTLSPGEMVLGIRLEGEASPRHHTYLKLRDRLSYAFAL
+VSAAVDLKIEDGVVRRARVALGGVAHKPWRDLEAESLLVGRVPSADATDAFIARLLSGAK
+GQGGNDFKITLAERVIRRALRQAAAGTPQLQHEKAIA
+>tr|A0A1Q9AHC1|A0A1Q9AHC1_9RHIZ
+MNDLSDIRRGAFAPGNSTDVAEALLMETGLRVDETRRRGRGAGINASGRFEALSRESEDD
+GWNVLEDLAPFKTEVQIEKPRTIISRNESPDIPFDRSVNPYRGCEHGCIYCFARPTHAYM
+GLSPGLDFEARLFAKPDAPRLLERELAKPGYKVRPIALGTNTDPYQPIEREWRIMRQILE
+VLKAADHPVMIVTKSALVTRDIDLLAPMAEKGLVKVGLSVTTLDRKLARLLEPRAATPAL
+RLEAIRDLSSAGIPTSVLVAPIIPALNDHEIERILESAKTAGASEASYVLLRLPLEVSPL
+FRDWLLRHYPDRYRHVMSLVRSMRGGKDYDADFTKRMKGAGPYAWQIGRRFDMAAKRLEL
+NLTRRALNCDLFVPPLGMGVQLSLL
+>tr|A0A1Q9AL32|A0A1Q9AL32_9RHIZ
+MTTAAPAAAQSTSHTAMAEFVGKDGKSNGRAMLTAGKNGVLIEMELTDLPPGKWVAFHVH
+ETGRCDPAGGHESAGGHFNPTKAEHGFLAANGPHAGDMPNQYVGQDGVLRAQVFNGMVKL
+DDSTTGIRGRALMIHARSDDNRSQPSGDAGERLACAVIR
+>tr|A0A1Q9AIR1|A0A1Q9AIR1_9RHIZ
+MTKLTRNSHDLVDTRSLRVRAAWLYYNRGLTQKDIADNLGISRSTVIRMLDEARKRGEVQ
+VWINQTPGECTDLELQLEERFCLDEAIVVPGEGTAEETAREVGAALGMFLSEVVSDNCVI
+GVGWGRTLNASLATFRPALCQNVKVVSLLGGLLEATAINPIDYSWRVASAVGADCLLLLA
+PLVVDSADTKRRLIERCGLDALFQRAETLDIAVVSCGEVGKAGSSLSAGFLPHDLQDQLV
+AAGAVADTLCQFLDAEGRSVAHPIHDRVMSVDLDTVATARHIVLASGGRKRVPAIRATLK
+RMACHTLVTDEAAARLLLEP
+>tr|A0A1Q9AKI3|A0A1Q9AKI3_9RHIZ
+MRSHPDRVFGLIAVLVAVFLLLPIFVIIPLSFNPEPYFSFTRKMILLDPQGWSLRWYREV
+AESAQWRMALRNSVTIAAIVTPAATVLGTCAAMGLRRLSGRQRTAVALVISSPLIIPVII
+VATGTYLFFAELGLTQSLVGIVLAHIVLASPFVVVTVSSTLKAFDARLLQAAATLGACPI
+RAFIRVTLPLMSQGILAGALFAFATSFDEAVVTLFLAGYDQRTIPLQMWSGVRDQLSPAV
+LVVASLLVLTMSGVVALAKIVERLLFQQRKA
+>tr|A0A1Q9AN48|A0A1Q9AN48_9RHIZ
+MTIDPFAPRDWALAHGRSLTLGPKALIMAIVNVTPDSFSDGGAHLDPGAAVAHGKACLAA
+GAEILDIGGESTRPGAAPVSAEEEQARILPVIAALAAETDAILSIDTYRAETARLAIAAG
+AHLINDVHGLWREPEVADVAAKAGAGLCLMHTGRDRTRHDDVIEDQTLFFAHSLAVARRA
+GVAEAAIVLDPGFGFAKETAEINLALMDRLPELFSLGFPLLVGTSRKRFLGTLTGREAAA
+RDVATAATSALMRMAGAAIFRVHAVEANRDALLVADALLARRHGAPKS
+>tr|A0A1Q9AIQ3|A0A1Q9AIQ3_9RHIZ
+MGQQISAEQSRRAQAGSLLERLRFADLDEGAGDAVRGHRQALLPSIEIGLRDLFQRLQTH
+PEAARHFTSDRQLDRLHDLCAAHWSVLTDARFDSLYAERVKVLSDACGKMGLDPRWLLSG
+HGIVLEHMVGAIVDEAWPRSLLSGGKSRRQEVLDLLGALIRLVFVDAEVAVSLRFNDQRQ
+QHHRQLAEARRDEEAAVEGLFAPLVEALRAGQLSARLPEEVPEAYQPMVRGMNEALAAAE
+AAVVSARGEIAVMAPAAQAVETHSHSLAGAATAQREAVTAALEGLGETGERLKRVADQTR
+LAEKDAGLTRQAVEDTGTVVSQAISAMADIERSAEKIGQIIGVIDEIAFQTNLLALNAGI
+EAARAGDSGRGFAVVAQEVRALAQRSGDAAREIKQLVGETKEQVAAGVARVARTQDAIGQ
+VVSRIHGISDAVAEISEGTAGRMEELGAVRASLADAATCGAAMQRDGQEAQAQAAQLGER
+LGALTAILAGLETGKPSGKPAAQASLAVAPGWRPRPVPPAANRPAEDGADDDDDVLAVPS
+PARRAGWGR
+>tr|A0A1Q9ALG5|A0A1Q9ALG5_9RHIZ
+MTQDVGATAWPIGGGTTGALIRAFDWAATPLGPMDGWPQILRVHIDTLVNSPIPQALLWG
+RDAVMLYNDGYSVIAGGRHPQALGRRVDEVWPEVRDWNSRILEAGFRGEVQSFRDQPMTL
+HPNGQAEDMIFDLFYTPIHNDAGGVDGVLCTVLDNTEQVRTTQALAESQAETRRIADALP
+LLVGYFGQDGIYRFANRSYVEWFGRTPEEVIGRHLREVIGPGFYENRKALIARGLAGEAI
+VTDTVIERPDGTQRAAEVRYVPDRREDGSVEGVHVLIIDIAERKQVEADLTRSNARFAAA
+VEAVHGILWTNSADGRMVGPQPGWSALTGQSFADYQNYGWANAVHPEDRAPSIATWRAAV
+AAKQTYVWEHRLRRHDGAWRIFAIRAVPILDDGGEIAEWVGIHTDITDQREAESSLKRHA
+VDLERQVRHRERAEEQLRLLNETLEARVEEEIAVRRAAQVALQQAQKMETIGKLTGGVAH
+DFNNLLQVVSGNLQLLSKDVIGNERAERRVTNALAGVARGAKLAAQLLAFGRRQPLEPKV
+TNIGRFLNGMDDLLRRSLGEAIEIETMVAGGLWNSFVDPLQVENAVLNLAINARDAMEGH
+GKLTIEVGNAFLDDRYARIQGDVEPGQYVCLSVSDTGSGMTPEVLEQVFEPFFSTKPEGK
+GSGLGLSMVYGFVKQSGGHVKIYSEVGQGTTVKIYLPRATDGEDREVEVQSGPVVGGNET
+VLVVEDDDEVRATVVEMLTDLGYGVLKATNAQNALSVIESGIAIQLLFTDVVMPGTLKST
+ELARRARERLPGIAVLFTSGYTENAIVHGGRLDPDVELISKPYTREMLARKIRHVLANTA
+QRHQAEAPRAAPARPVTAATPSRMLTVLVVEDDALIRANNREMIEDAGHHVIEAASAEEA
+QQTIGTSDIDVLVTDLGLPGASGGTLAQFARQLRPSLGLVFATGNDRLPDGAEQGAVLLM
+KPYDGERLVCAILASLERDAGHG
+>tr|A0A1Q9AL11|A0A1Q9AL11_9RHIZ
+MAGAAASHSGAASGSAAAGATNPWLIAVVVSIATFMEVLDTTIANVALRYISGGLAVSAD
+EASWVVTTYLVSNAIVLVASSFIAKRYGRRSFYLACLATFTLSSVLCGLAWNLESLLIFR
+MIQGFAGGGMVPISQSILADSFPPAKRGQAFALFGVAVVVAPVVGPTLGGWLSDNLSWHW
+CFLINGPVGILAFTLVYLLVKEPEGLKQERAEMKRRGVRFDITGFLLVATFLGALELVLD
+RGQTEDWFGSNFIIVATAICGLAFLLAIPWLLTAGNPVIDVRLLASRQFGSCFIVMMATG
+AILIATTQFVPQVLQENFGYTATWAGLALSPGGLVTMVMMFVAGRITGIIQPKYLIAIGC
+AIIAAAMWDLTRLNGDLNFGFFAWSRMILGLGLPLIFIPITSASYDGLRPDQTDQASALI
+NAARNTGGSIGVSIASNVLAHREQWHQSRLVEHVIPSDPGYQQALQGWKAYFLQHGTGAA
+DAQAQAMAAIGRQVAEQASYLAYIDVFYTLSMISLAVIPLALILRRVDPGRQGGGAPGH
+>tr|A0A1Q9ADF7|A0A1Q9ADF7_9RHIZ
+MAGHDEFDRDLERAKEAASEGPVIIMEEDQPSYVFMTYSHFERLRAKARSLIDRLSMPGL
+SDIELDVDRDRKG
+>tr|A0A1Q9AER3|A0A1Q9AER3_9RHIZ
+MVSRISLVTLVVDDYDRAKSFYCDALGFECRSDVMLDDGKRWVVIAPTGAESGLLLARAD
+GASQEETIGRQTGGRVSFFLETDDFARDHAEFLARGVRFEEPPRHEAYGTVAVFVDLYGN
+RWDLIEPRYAETPPAS
+>tr|A0A1Q9AGE6|A0A1Q9AGE6_9RHIZ
+MSTTHDYLVADIGLADFGRKEIAIAETEMPGLMACREEFGATKPLKGARISGSLHMTIQT
+AVLIETLVALGADVRWASCNIYSTQDHAAAAIAASGVPVYAVKGETLEEYWTYTDQIFQW
+ADGGLSNMILDDGGDATMYILLGARAEAGEDVLSTPGSEEEEILFAQIKKRLEASPGWFT
+KQRDAIQGVTEETTTGVHRLYELSKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIR
+RGTDVMMAGKVAVVCGYGDVGKGSAASLQGAGARVKVTEIDPICALQAAMDGFEVVQLED
+VVSSADIFITTTGNRDVIRLEHMRQMKDMAIVGNIGHFDNEIQVASLRNLKWTNIKPQVD
+MVEFPGGNRMILLSQGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTKPGEYKNDVYVL
+PKHLDEKVARLHLAKLGAKLTELRPEQADYIGVSAQGPFKAEHYRY
+>tr|A0A1Q9AE79|A0A1Q9AE79_9RHIZ
+MKPIFVQLQCAPGKTYEVADAIYRKEIVSEMYSTSGDYDLLIKIYVGEGQDIGKFVNDNI
+ALVPGVQRSLTTLTFNAF
+>tr|A0A1Q9AJS0|A0A1Q9AJS0_9RHIZ
+MHSLFSLPRLVPAALLSAALALPGPALALDAKEKTEIGAYIREYLIAHPEVLIEAQQALK
+ARQEAEQAKLAMQAITDNKTAIFNSKYDVTLGNPKGDVTIVEFYDYNCGYCKRALSDMDA
+ILKSDKNVRFVLKELPILGPDSLAAHRVSAAFRAVAPEKYGDFHRKLLGGEERATEESAI
+AVAESLGVKEADLRAHMGGDGPDDSVRESYTLANALGVTGTPSYVVGNEAVFGAVGADTL
+AEKVANLRACGKTAC
+>tr|A0A1Q9AQ43|A0A1Q9AQ43_9RHIZ
+MTKLSIEPLIDPTARVSACTLGRYTEVAEFCRISETELGDYSYIMEGGRVWCTTIGKFVN
+IAADVRINATNHPMDRATMHHFTYRAGDYWPDAENEADFFAARRAKRVVIGHDVWIGHGA
+TLVAGVTVGNGAVIGAGAVVTRDVAPYTVVGGVPARPIRPRFAPEIGARLDRLTWWDWEH
+DRLRAALEDFRSLSAEDFLIKYDG
+>tr|A0A1Q9ALU3|A0A1Q9ALU3_9RHIZ
+MAAGAADAVDAWLLLLARLAALGPLVLLGMLVFVLAIAGAARAGDCGGADLMERWQATAP
+DRIAAIKAEAARVPNSHGTFWKITRDGAAPSYLLGTMHVSDPRVLAMPKGAAEAFQQAKT
+VVVESDEIADDRKAAVALMARPELTMLDDGKTINDYLMPQDQARLRDGLAARGLSLDLVS
+RMRPWMLASFVALPPCELQRKAAGEAFLDKQLADRALAEGKALKGLETLAEQVEAMNSLP
+VAFHLKALLETLAMGDKAQDVLRTTTDLYLSGAIGMILPMMEAAGADAGQADDKGASADF
+EKRIILDRNQVMATRAAPMLADGGVFMAVGALHLPGEGGVIALLRQKGFEITPVE
+>tr|A0A1Q9AM87|A0A1Q9AM87_9RHIZ
+MQMVELETAGIVKRFGTLVANDGIDLSVARGEVHAVMGENGAGKSTLMSILYGMQAPDEG
+SILLRGQEVRFRSAVDAIDHGMGMVHQAFKLFNSLTVWENVVYGREPRRGPALDRRAAIA
+QVGALAERFRLSVDPTARVGDLSVGVRQRVEILKALYRDARILILDEPTAVLTPQERDGL
+FDVIRTLKADQRTILFVTHKLHEVMAITDSVTVLRQGRVTERMATRDTTPAEIIRAMTGR
+VVNLTVDRKPATPGAAVLDVQGLTVGTGAKPVVDKLSFRLHAGEIVGIAGVAGNGQTELI
+EALTGLRRPDGGRVTLSGRDVTEADVEAHRAAGLAYVPEDRAVTGTARAASAADNLLMGY
+QRKAPFTEGLRLNAKAVAEHARRLIGRFGVKIADETVLVGTLSGGNLQKVVIARELTHQA
+PLLIAEQPTRGVDVGAIEFIHAELVAERDRGRAILLVSAELSEILALSDRILVMYEGRIL
+ADLPAGAADEDRLGLLMAGRTGQAA
+>tr|A0A1Q9ADE9|A0A1Q9ADE9_9RHIZ
+MNTPIHPKGWIEGKTANGTRHLNWGIKAGNQIFVAGILSTDPYDGSIIGVGDIEVQTRRV
+LDSIKEVIETAGGTMADVTFNQIFLNDLDDYHKMNAVYVEYFPEILPARFCVKLDMVRPE
+FLVEIATTAVIS
+>tr|A0A1Q9AFA3|A0A1Q9AFA3_9RHIZ
+MRGSLATSAALHVLVLAWALISLGSPAHFEVSDTEAMPVDIVPVEELTQIQQGEKTAPKA
+EKSAPAPTKRPDVVENAENMGDNSVDLKTPPRPSVKPVEKEASAAPKATETPVPTPEPTP
+QDKPDLVDEKPPATPATEVAALPAPKAEVTPQPRPEPPKPEAKTETPPPPQEQPEQAEEK
+PAEKPDAEALPDKVPAPMAKPKVEPKPEPPKPVEQAKTTPPAQTAKTPDRKADEGKKESK
+KSASSKQSDFNADEIASLLNKQESSGGGAKRSTQTAALGGKKATGGSTLSQSDKDAIKQQ
+IQNNWSIIPGIADTAGILIKVTLHLDRDGNIIGQPEISASGGSDSARRTHEGGVRRAIMK
+SLPLKGLPPDKYDDWSEMVLNFDPSEMGF
+>tr|A0A1Q9AI67|A0A1Q9AI67_9RHIZ
+MVAHMKILMIEDDLEAAAYLTKAFREVGILCDHASDGESGLFMARENSYDVLLVDRMLPR
+RDGLSLISELRASDIHTPALILSALGQVDDRVTGLRAGGDDYLPKPYAFNELLARVEVLG
+RRKGRPEQDMVYRVGDLELDRLSHTVRRQGREIPLQPREFRLLEYLMKNAGQVVTRTMLL
+ENVWDYHFDPQTNVIDVHVSRLRGKIEKDFDTPLLRTVRGAGYMIKDEGRAEA
+>tr|A0A1Q9AG35|A0A1Q9AG35_9RHIZ
+MTSPRLHRRTVLAGSLATIILPPLAFGQQRRDPANQEPTDMKVRFSFDRHTVNATLYDNP
+SARDFASMLPLDLTIEDYSNNEKIAYLPRKLTEDGSGPFGNERPGDVCYYAPWGDVILFY
+APYRYSSGLIRLGRVDGGIEPMLTRGTFPLRIERAE
+>tr|A0A1Q9APF0|A0A1Q9APF0_9RHIZ
+MSNAYLTYAGKRLGQAVIVILLAYIFTFVVVSILPGDPITSVLRNPQNGFSEQEIAEIIA
+AQGLDQPVLVQLWHSLSAFLTGDLGMSMRSNRPVATLIAEVLSSTLILASSGLAVALFLA
+FTVAYGTQVVPKKYGQGLLRAFPSLFLSTPNFVIGLFLIHLFGFQLRLFRVIEPDGFWAT
+FFAAITIGIPFSAQIAEVLIANLDHEAEQDYAAVARSRGIAPRRLFATHLLKPAALPVVT
+VIALTVGELLGNSLITETVFGRTGIGSLVQRSVSTQDLPVLQAIVSLGAVIFVLVNLIAD
+LLYPLLDPRVKIVVGRKRRHAAADDAALGLEAGAKP
+>tr|A0A1Q9AI45|A0A1Q9AI45_9RHIZ
+MFLSRKPNYDKIFSSTSSIFDHLYSDRSKTASILADKDFLDAWLESAHVGQITGVIRGEA
+VKGDLPSIKQMIWVTDLYFQNADSFSSNPDERKKMKTHFLQERVLFAEKAVSLGLRDRSY
+QAMVASVNLYRLISSPSSKPTDVDIRTALNGIITNANTYLSLKDDDEGMNEDARNVLEEF
+GKYVDIINAFNRYS
+>tr|A0A1Q9ALB2|A0A1Q9ALB2_9RHIZ
+MRKYKSTGGQRQKQGVVTLRKAPGSATRGHLRFGPVTVPAAIGRSGRSARKREGDGATPI
+GSLPVLAGFVRRDRIAPPPSRLPLTPIAKGLLWCDAPAHAAYNRPVRAPFGPSHEEMMRV
+DGLYDICLVLDWNITERRRNRGSAIFLHLIRPGYAPTEGCIALKPGDMRRLLGFIRRGTT
+IRIF
+>tr|A0A1Q9AMZ7|A0A1Q9AMZ7_9RHIZ
+MYRYDEFDHAFVSERVAQFRDQVGRRLSGELAEDAFKPLRLMNGVYLQLHAYMLRVAIPY
+GTLNSKQLRMLAHIARKYDRGYGHFTTRQNIQYNWPRLADTPDILAELASVEMHALQTSG
+NCIRNVTADHFAGAAADEVADPRPYAEILRQWSSVHPEFSFLPRKFKIAVTGAERDRAAI
+QVHDIGLHLKKNEAGEIGFAVYVGGGQGRTPMIAKKIRDFLPEEDLLSYTTAIMRVYNLH
+GRRDNKYKARIKILVHETGVEELAGQVEQEFLQLKDSELKLPDADIAAITAYFAPPELKN
+RPEGWEALARWKKADAGFARWVDQNVAPHKHPDYGMVTVSLKPIGGIPGDASDKQMDAVA
+DLAEEFAFDEIRVSHEQNLILPHVALADLEPLYRGLLAHGLETANAGLITDIIACPGLDY
+CALANARSIPLAQELSTRFGAAERQAEIGELKIKISGCINACGHHHVGHIGLLGVEKKGA
+ELYQITLGGSGDENSSIGEIIGRGFEPEKVTDAVETIVDTYLGLRLEQSETFLEAYRRVG
+PQPFKDALYGATQAAA
+>tr|A0A1Q9AN90|A0A1Q9AN90_9RHIZ
+MTQTARETMTQASFPGNPDAEGSRPATQSVAAGHPAPAATGTSTLNPFALRIAEQFRSET
+YRPTLVPGLARLMDFLLLVAVGSGATMVLEGDSLAAWLRFAPVFTGGALLAVLFLQLADA
+YQRPALKGVRRTLMRLLLAWVLAFALATPTLILLPSEQGPPLRWLAAWLCGGVLMLCFGR
+VALSAAISRWARKGQMERRVVIIGGGEPAKGLIRALEAQRDGDIRICGIFDDRRSDRSPE
+IIAGYPKLGTFAELVEFCRLARVDMLIIALPLSAERRILTLLRKLWVLPIDIRLAAHANN
+LRFRPRNYSHIGQVAMLDIFDKPIADWDSVAKRIFDVTFTLLALMLFWPVMIAAAIAVKF
+SSPGPVFFKQKRHGFNNEEIEVLKFRSMYTNQADPSARRAVTRGDPRVTPIGRFLRKSSI
+DELPQLFNVLKGDLSLVGPRPHAVAGQTADRTYVEIVESYFARHRVKPGVTGWAQINGWR
+GEIDSDDKIRFRTAHDLYYIENWSLWFDLKILLLTPIRLLNTENAY
+>tr|A0A1Q9AP38|A0A1Q9AP38_9RHIZ
+MNGGRRRTSETPKGKATLVTQLVEKLREAIRSGAFEPGARLPSEAQMTADYAVSRTVIRE
+AIAALKSDGLVEPRQGSGVFVLDAPAPVSLPFQNVDRERVSSVIELLELRTAVEIEAAAL
+AAQRRSPQQEEAILARHRALFMLIEAGEPTAEADFALHLAIAEATNNPRFPEFLAMVGRS
+VIPRAALNQSEDPASQQSYLMQIHGEHAAIVEAISNGEEAAARAAMKLHLRGSLSRYRQA
+HQRSLSRI
+>tr|A0A1Q9AHU3|A0A1Q9AHU3_9RHIZ
+MNWKFTLPRIGAALIALIGISMLIFAIARVMPGDPARIALGPNATEEQVATLRAERHLDA
+ALPVQYWEFVKALSRGDLGRSLYTNRPVTTDIAQFLPATLELVLVSVIIMVVVGLPLGAL
+SAHFRGRFPDHLGRLIALLGICTPAFVWGVILQLVFGYFYPIFPIEGRLLESTPVPPTVT
+GFYLIDTLLSGNLSAFGDALHHLILPATALALAGIGQTARLTRSNMIEVYAKPYVEMASA
+YGFRPWRIATRYAFRPAFIPTLTILGLECAAMLGNAFLVEKVFGWPGISRYGVEVIIRKD
+LDAIVGTVLIIAAAFLIMNILVDVLVSIINPRIRLSQRKS
+>tr|A0A1Q9ANP9|A0A1Q9ANP9_9RHIZ
+MGKVIVVTSGKGGVGKTTSTAALGAALAQRGERVAVVDFDVGLRNLDLVMGAERRVVYDL
+VNVIQGDAKLPQALIRDKRVETLFLLPASQTRDKDNLTPEGVERVIGELKEHFDWIICDS
+PAGIERGATLAMRHADVAVVVTNPEVSSVRDSDRIIGLLDSKTVKAESGERMEKHLLLTR
+FDQARAERGDMLKVEDVLEILSIPLLGIIPESMDVLRASNLGAPVTVADSRSAPAMAYFE
+AARRLAGETLPVTVPGEKRASGGLLSKIFSRRAA
+>tr|A0A1Q9AD78|A0A1Q9AD78_9RHIZ
+MLDRRAFLLTGLLAAPALVGRAWAAETAYPLWPSTPPGAGGPSGAPEISARGAITNVARP
+FITALRPGKANGAAMLIAAGGGYKRIENAKEAMPAARWLVAQGITAFILTYRLPREGWSE
+PPVAPLQDAQRALRLIRAMAPSQDIDPDRLGALGFSAGGHLMGMLATRAAAPLYPQADPA
+DALPARPAVLALAYPIITMEPPYDDTSARRSLIGRHPSARQSREWSVETHVRATCPATFL
+AQAADDPIADPAHSAIMADACRKAGVPVERHLFSAGGHGFAMGRPGTPTTQWPEMLADWL
+ARQGFSRG
+>tr|A0A1Q9ALC5|A0A1Q9ALC5_9RHIZ
+MPLSIATWNINSVRLRLPLVEHFLKSWAPDILCLQETKCPNELFPREALEALGYRHIEIH
+GQKGYHGVATLSRLPLQELSERRLYCGISDARHLSVVFSHGARTIRLHNFYVPAGGDEPD
+RTINVKFGHKLDFIEEMKLLHAEAEAGISSILVGDLNIAPLEHDVWSHKQLLKIVSHTPI
+ETEGLTSVLSGGAWVDLMRQHKPEPEKLYTWWSYRARDWQAADRGRRLDHIWSSADLAAH
+LNHVEILKEARGWERPSDHVPVVATFDL
+>tr|A0A1Q9AMW7|A0A1Q9AMW7_9RHIZ
+MTIIDRPNLAPKKRRRRKLTGLRHLLAATSYSIGGARRLFGEAAFRHELIGFCVAMVGFV
+ISGATLFQYVAMGILFLMMIAFEALNTAIEEIVDRVSPEISDMGRNAKDLGSLACLCLVL
+ANSGYAFYVIFISHFLPH
+>tr|A0A1Q9AI23|A0A1Q9AI23_9RHIZ
+MRARITVLIATAFGIGLGSLSPALSEQQHQHQHHQPEPAGKSEEAKAFSGSMKAAMEKMH
+AGMMSVPESGNPDRDFLAQMIPHHQGAVDMAKAVLVSTKDQQIRNLAQSIITEQTYEIQL
+MHAMLDQSGNQPAATPETVK
+>tr|A0A1Q9AF06|A0A1Q9AF06_9RHIZ
+MIGGRSYRIGQVGSFVRIPQGYHDLYGIISDVGATATPETLVDSGARGDRWIKVQLVGEV
+LEATFERGISQYPAINDQVHLVVEEDLARIYGTADTGQVTIGRLSGAESIPVRVDLDKLV
+TRHSAVLGSTGAGKSTTVTSLLRSLSVGQGDHSGFSNARVLLMDIHGEYGRALGEVAKVF
+RVNPLENEERLYVPYWALNLDDLLTFLLGKTEEKALTAIQDRILRAKTAVSAQMNYPGVD
+ANSLTADSPLPFSLKSLWFHLIDPEIKTWMENTQQNSAQTAPGDAETLTAPTYPLPGQGN
+TPPFANKTNVLSIRRQLEQFRSRLLDRQYDFMLHPGPWEPSLDGAPQNDLPQLLESWLGH
+DRPITVLDLSGVPSSTLMRLIGGILNIIYEALFWSREMPEGGRARPLLVVMEEAHRYLGR
+DDANLARDAVQRIVKEGRKFGLGAMIVSQRPSEIDETILSQCGTFFSLRLSNSSDRSKVQ
+AALPDSLSGIVDSLPVLRTGEAVITGEAAKLPVRCRITLPEEGKRPTSEDPRVAHNWSKE
+RGNENYVNVTAAWRSQNPRWTEE
+>tr|A0A1Q9AII3|A0A1Q9AII3_9RHIZ
+MATRFDSRAPDFDARFSAFLTTKREVSEDVDQTVRAIIDDVRRRGDAALADYTRRFDRLD
+FSSVPMLVSAEEVDAAIDSVAPEVLGALKVAAVRIESHHARQRPKDDIYEDAMRVGLGSR
+WTAIEAVGLYVPGGTASYPSSVLMNAIPARVAGVERLVMVVPASDGKLNPAVLAAARLAG
+VSEIYRIGGAQAVAALAYGTETIAPVAKIVGPGNAYVAAAKRQVFGTVGIDMIAGPSEVL
+IIADGENDPDWLAADLLAQAEHDTGAQSILMTDDAALADAVEQAVARQLKTLPRSETASA
+SWRDFGAIILLESLAEAPALANRIAAEHLELAIADPDAMVPEIRNAGAIFLGRHTPEVIG
+DYVGGSNHVLPTARSARFSSGLGTLDFMKRTSLLRLTPETLRDLGPAAIALARAEGLEAH
+ARSVAIRLNLGDAG
+>tr|A0A1Q9ANC4|A0A1Q9ANC4_9RHIZ
+MEPTPVPASPEGGQAGFTALFVRRPIFALVVNLLIIVAGLAALNGIEVRELPQVDRPVVS
+VTTTFDGASPETVDREITSVVEGAVSRVQGIKNISSTSEYARSRVTLEFSDATDVSQAAN
+DVRDALGRVTNTLPETADAPQIVKADADSQPILRLALTSDRLSTEDLSLLAENEVTDRLA
+AVEGVADVQLNGQQEKIFRVDVDQNKLAARGLTVANLRNALATAALDVPAGSLTSANQDI
+SVRATADLQRPEQFERLLLADNIRLGDVATVTIGPDIGTSALRSNGSPGIGLGIIRQAQS
+NTLDISEGVRRTVGEINAVLPEGTRLQITSDDAVFIEGAIHEVEIALVAAVLAVTVVIYL
+FLLDWRATLIPTMTMPIALIGTCAAIYLAGFSINILTLLAIVLATGLVVDDAIVVLENIV
+RRRSQGVGPRAAAVLGTLEVFFAVLATTATLAAVFIPLSFLPGQTGGLFREFGFVLAFSI
+LLSAFVALTLCPMLAARMLKPHAASHGRKGPLARLGGLLSGAYRRALAACLNAPFVVLVV
+AGLVAAGGGIAFTALTSELTPTEDRSRILLRIQAPQGVSLDYTQAQMRRIEDGLKPLVER
+GEIANVYSVSGQGAAVNSGFMVLSLAPWSERSRSQQEISRDITRITAAIPSVRAFPVQPN
+SLGIRGAGNGLQVALVGNDYGKLGTAAAALVRKLEDSGRFENVRLNYEANQAQLSVTIDR
+ERASDLGIDITGLSAALQAMLDGNSVVDVFVEGEAYPVKLVSTTRPVNDPTDLGNLFLKT
+GEGRIVPMSTIASIEERAVAPQLERQAQLRAVSLSAGLREGFGLSEALTFAQEAAAPLLP
+PGSRLVPLSEAATLGENANGLVITFGFALVIIFLVLAAQFESFISGVVIMFTVPLGLACA
+VFAMLLTGTTLNIYSQIGLVLLVGIMAKNGILIVEFANQLREHGQGLREAIENAANIRLR
+PVMMTMIATIVGAVPLVLASGAGAEARIALGWVLVGGLGLATVVTLFLTPVAYLVIARFS
+KPQADEERRLAQELALARQLEPAS
+>tr|A0A1Q9ACI9|A0A1Q9ACI9_9RHIZ
+MRTAGAKAQDNARSDRGENVQRVMIGALDMIDKAPYRTLAEASALMKVVQLLLQNLATSE
+AMAQPELHRSFLEFAVRHKDAALAFMADAGPRLDARVYGALSVN
+>tr|A0A1Q9AI44|A0A1Q9AI44_9RHIZ
+MAVQKGRDLLLKIDKSGAFVTIGGLRAKRLAFNAELVDVTDSESSGRWRELLGGAGVQRA
+AVSGQGLFKDQEADALVRTAFFAGSLLSWQLILPDFGTITGLFQIAGLTYSGAYNGEVQF
+DIALESAGALTFVAL
+>tr|A0A1Q9AEF5|A0A1Q9AEF5_9RHIZ
+MSTRERDFPAEPRLFGRPAYDRSALIGPISAARWLLAFVLLAGVYFFHGFLVPVLAALVI
+GFASWPLYRRLLAAIGGSRTLGATIALVLVIAFIIAPVSIAAIYAVDEFRAWAVWAIQAN
+ANGAPVPPWVLALPAGGPWLGEQWARYIGHPGALGELVQLVSGSNIGNIYRGLVVVGASA
+FNSFLTLLFMLITLFFVYRDGEGFVAQLDRLGERILPMRWERVSRIVPLTISSTVTGMGV
+IAIGEGIVLGLAYWAAGVPSSVTLGIITGFMALVPGGAPLCFILVSVYLVASGSPFHGLA
+LFVWGTVELFIVDKTLRPRLVGGPIKLPFLPTFFGLVGGVKTMGFLGLFVGPVLMALIVA
+VWREWLHEVTTQPDPMRPSPAIITSSSSSEPPLTR
+>tr|A0A1Q9AE71|A0A1Q9AE71_9RHIZ
+MSASDLSETTPASWGRMDKASRASLSEAHATIHVPKGGTWFRRFLAFVGPGYMVSVGYMD
+PGNWATDIAGGSQFGYTLLSVILLSNLMAILLQALAARLGIATGQDLAQACRAHYSRPVG
+FVLWLACEAAIIACDLAEVIGTAIALKLLFGIPLLAGALITAADAILVLMLMSRGFRYLE
+AFVIALLTIIAVCFIAQMVAAQPPVAAVLSGFVPSSEVVTNPAMLYIAIGIIGATVMPHN
+LYLHSSIVQTRAYERTEPGRREAIRFAVADSTIALMLALFINAAILIVAAVAFHDTGRTD
+VAEIEQAHELLSPLLGFGLASTLFAVALLASGLNSTVTATLAGQIVMEGFLHLRIPNWAR
+RLITRMLAIVPVVVVTWLYGEKGTADLLILSQVVLSMQLPFAVIPLVSFVTNRRIMGTLV
+APRWLAIPAWLIAGLIVVLNVKLLIDTFFGTGGLTH
+>tr|A0A1Q9AF23|A0A1Q9AF23_9RHIZ
+MQNFFGKPDGSMLRDACGNVVRKIPRLLASLLIASALVTPGFTPTVEAAGQTRTLKLYFV
+HTGEKAQITFKRNGRYDPKGLQQINQFLRDWRRNEPTRMDPRLLDLVWEVYQKSGSHEYI
+HVVSAYRSPATNGMLRSRTKGVAKKSQHMLGKAMDFYLPDVKLATLREIGMKFQVGGVGY
+YPTSGSPFVHMDVGGVRAWPRMSRNELVRLFPDGRTMHLPADGGPLPGYEAAVADYKRRV
+GADAIQVAGGGSTATGEKDVKRRATLFAMLFGGGDEDEEPTAIASADEGGEAPAPARSRG
+KPAAAPAQPVLAGVETGEEAPAAAAPAAQKPLAVANAPVPAVRPGLAALPGGAVETALVA
+PPRNAAAEALAAATPQPNPEFADLSTYKIPVPQTRVVPEAVAAIDPALAEETELAFVPVP
+ALRPAGQDALTSLAAAEVGEQQKVAEQQAQPEQPQLTEVAAADPDAQEDAAEPAQMVIPS
+PRALAANPHPAVAQAETRIAMAVPTPSASQRPAQATAKPANARDALQAPVEMAAYQPAKA
+TRPDAFAVLEPQPEAPVKGKRPKKEQAESHAPAAKRTEPKLTEKIIAEWALSNSRMATLS
+EPVKAPRFVSKALRASPTTVYSAGFSAEPQKPVDTARFSGSAVNFLEVKKFSTN
+>tr|A0A1Q9AFP8|A0A1Q9AFP8_9RHIZ
+MPVSGVSADATVLSVRQLTKLFGSFAACNGIDLDIKPGEIHALLGENGAGKSTLVKMLFG
+VLAPTSGTILWNGQTVRIASPAAARKLGIGMVFQHFSLFEALTVAENIALSLDDKLPLAQ
+IAARASELSHAYGLPLDPHAHVADLSVGERQRIEIVRALLQNPQLIILDEPTSVLTPQEA
+DRLFETLFKLRAEGRSVLYISHRLEEVQRICDRATVLRHGKVTGACDPRQETPASLARMM
+VGAEVAHVSAAGTTTRGEVLLEARHLSAAARTPFAVALKNVCLKVRAGEVLAIAGVAGNG
+QGELFDALSGEYPVEEAQTVQLRGKAVGRSGINDRRSMGAGFVPEERHGHAAVSALPLSD
+NLVLARYWSDRKAFLSGPLGLIRSGAVKAAAKRICVEMDVRKSGEDPAAGSLSGGNLQKF
+IVGRELDRQPSVLVVNQPTWGVDAGAASRIRQALVDLAKSGSAVLVISQDLDEIFEVASE
+IAVISEGRLSDAYPAGELTREKIGLLMGGLYGKTEGAHAH
+>tr|A0A1Q9ANI8|A0A1Q9ANI8_9RHIZ
+MPPATPADPSAPVSGSPLSGPSMSGPNAWRRFVRRHPLAGLILQRLGLSVALLFAVSVMI
+FGGIEALPGDFATTYLGQSATPQAVANIRADLGLDRPVTTRYFEWLGGALQGDFGTSWAS
+RNSVSEQIGKRLGNSLFLAFFAALVSIPLAVGLGMLAVQYRNRLPDKIINIVSLAAISLP
+EFFVGYLLIMVFAVQYGVATFPATVYDGMGFLDRLSAIALPVATLVLVVLAHMMRMTRAA
+ILNVMSSAYVETAELKGLSAFRIIARHAAPNAVAPVVNVIALNLAYLVVGVVVVEVVFVY
+PGMGQYMVDAVTVRDMPVVQACGLIFAAFYIFLNMAADIIAILANPRLRHPR
+>tr|A0A1Q9AP85|A0A1Q9AP85_9RHIZ
+MPSLFDPITIGDITLSSRVVMAPLTRNRSPKAVPNTLNVTYYEQRATAGLIITEATAITH
+QGQGYADVPGLYTPEALDGWRKVTEAVHKQGGKIVVQMWHVGRISHTSLQPDGGQPVAPS
+AIAAKSKTYLINEDGTGTFAETSEPRALEASEIPGIVEDYRKAARAAIDAGFDGVEIHAA
+NGYLIDQFLRSSANKREDNYGGSVENRARFLFEVVDAITQEIGAGRTGIRISPVTPANDV
+SDDDPKPLFTYVVEGLARYGLSYIHVIEGATGGDRAFAGFDYDALRKAYEAAGGKAAWMV
+NNGYDRQMALDAVESGKADLVAFGKPFIANPDLVRRLKENAPLNALDQENMYGGGAKGYT
+DYPSLTQEAAE
+>tr|A0A1Q9AER5|A0A1Q9AER5_9RHIZ
+MALRLKDKLGRKFDEEIRFFKGWISNTKAVGAILPTSGITARRMASVIEPHSGRPVLELG
+PGTGVITKAILGRGVRPENLYSIEYSTDFYLHLKRSFEGVNFINGDAFDLDTTLGDARDT
+TFDCVISAVPLLNFPMSRRVALIEDLLARLPVGRPVVQISYGPMSPVVAMPGRYIIQHLD
+FVVRNIPPAQLWIYRRTH
+>tr|A0A1Q9AJ08|A0A1Q9AJ08_9RHIZ
+MPKSSALPQKLILASGSPRRVELLAQVGLTPARLMPMDLDETPGRAEHPRSLAWRLSGEK
+ARAALKVLKGDADCAGAYVLAADTVVAVGRRILPKPERVSDASDALALLSGRSHRVYTGI
+CLATPDGSLRQKIVETKLRFRRLSPHDIESYLASGEWRGKAGAYAIQGIAGSFVVKLSGS
+YTNVVGLPLTETVNLLAGEGFNIHDAWLEG
+>tr|A0A1Q9AKE0|A0A1Q9AKE0_9RHIZ
+MLAPLPAEERALLKPHLEHVDLPRGFVFIEAGEVIEHVYFPDQGLASVIAVSPGGRKAEA
+GMIGREGFTPVAPLAGAQVSLHRVIAQIAGHGWRLPIDVFREVLPSCPHLTARLMRAAHH
+LAMQVSFTALANASAPVEERLARWLLMCHDRLEGEAMHLTHDFIALMLAVRRPSVTTALH
+ILEGRGWIRAERGVILMRDRAALETFAGDIYGQAEAEYRRLLGAF
+>tr|A0A1Q9AIN7|A0A1Q9AIN7_9RHIZ
+MFQSDETNRKRPTRSLLDLAEDDASRAPAATPSPAPQPVAAPEAREAGAAPLIDVVTVFQ
+AIWDFRKLIMVTTILGGLAGIGFAMVAPSHYVSESKLYIDPREVQLTDSDLSKQTLATEG
+ILALVDSQLEVLRSRTVLERVARELGLARDPEFAGKTEAPAEGGSVAENQTEIDPRVLEK
+LSDALTVGRDPKTFIVTVQVKTRDARKSALIANAIVSAFLDEEQQAQSSFFKRTTNQLDS
+RLADLRKELDTAEGAVEAYKAKHDIVNVSGQLISDQQLLSLNQQVGEVRNRIAEARAKAD
+LANQIRLNDILSGAFPEEIASPTLQELRKQYAQARSQLSALETSLGPRHPQRLAAAQALE
+SARTEIGNELRRIAASTQTELQRALRTEQDLLQQLATRKTQQLENSSSFIELRELERKAN
+ATRAIYESFLKRAGETGEEEKLTSRNIRVIAQAEPALKPTGLSRKIIAVAGLLGGFALGI
+GFAVLVGLFRSTRALLVAARARPQAAASAPTPARVQADPPAEPPPSPPPPPNPGPFDFGP
+SGGLPAERAAPAPQAVSRAPTSASVAAERLQAAVTAERLKAAAVSEHSEGPDGHGAKAAA
+EGAPASLPETKADAVRFAPLRAPDARRDPAPSLAVDTAPEPMPDARDEAGDSNQTGDDAG
+WMASADHLRAASAARAAARDDAQAGALDFDGLSPEEARAIEPVLKLRADLRRLRARVEDY
+ARTQSSSL
+>tr|A0A1Q9ANZ0|A0A1Q9ANZ0_9RHIZ
+MLRAELDAIDLKILRELQEDGRITNVDLAERVGISAPPCLRRVRKLEEAGIIRGYRALLN
+GPALGYDLVAFCMVGLKHQAEADLKAFAARTRDWPMVRDAWMVSGDSDYLLHCVAENLAA
+FQDFVLERLTATDNVDTVRTMLTIRKVKETVPVGL
+>tr|A0A1Q9AF68|A0A1Q9AF68_9RHIZ
+MAKRRMVRIKPKNAGEPLFQLRIAGLAFRDGYVLVHRAVHESFWTFPGGRAEIGESSDIT
+LKREMMEELGVDVTVGRMLWTVENFFHYEGVDVHELGFYYLMDLPESFPFHPTDIVHRNL
+DGKSELEFKWALATVESLRALDIPPYFIAETIENLPETPRHLIWHDGDLDRT
+>tr|A0A1Q9ACD3|A0A1Q9ACD3_9RHIZ
+MKHNIGARRQADLPVRLDNAHAQIASKLRALYLSVQEEAIPDRFIDLLEKLDAVERQSLS
+DVAE
+>tr|A0A1Q9AFK1|A0A1Q9AFK1_9RHIZ
+MNAEKTMMRTLGNEPPLLADGRRAPDRREISLRWLCGTFLTGITSSLLMGVALFAAVDGR
+QQLAIPAEAYAALDQNAHGEEKTRRGGRILSPSIVAKPSDRTILEVATMIKQGEREVVRR
+QPFAHVKMTLAANHQTNDSYPPFDPLTIFSNDDRETAAPASKTGTIYGSEVESEVALKTV
+DFPLKGAGLTFGPSMTLEEVEENVRTNGSLLTEDSTQLASLFYVDPRRFASENNDLDLMG
+LTARIVEQNMTVSPLEQITQASTDYADDVIPVHRDAPIAAVLSGAGYGRAQAVDVAKALA
+EGLGRDTLSEGDILRMGIIQNEANEASEAKVVRMSLYGRSGNHVLTMALDDKGRFVKGNE
+PAPLAAVASAFDEDGSQPVASGHDLPRVYDGIYRAALSYGMNKEMVARIIKLLASSVDFQ
+AQLKPTDKLEAFFSVADESGRATPDSELLYVNARFGDAALRFYRFQDPTDNSVDYYDESG
+KSIRQFLLRNPVPNGRLSSGFGMRRHPILGYSRMHPGTDWAAPRGTPIIATGNGVVIKAG
+WDSGGYGNQTLIRHANGYVSSYNHQSAIAKAVREGAKVTQGQVIGYVGSTGLSTGAHLHY
+ELIVNGTKVDSMKIRLPGGRSLEGKELASFNDERQRIDALLAKDNRGEEVAATQ
+>tr|A0A1Q9AP41|A0A1Q9AP41_9RHIZ
+MGFKCGIVGLPNVGKSTLFNALTKTAAAQAANYPFCTIEPNTGEVAVPDPRMRALADVAK
+SKEIIPTRISFVDIAGLVRGASKGEGLGNQFLANIREVDAVVHVLRCFEDDDITHVEGRI
+NPVADAETIETELMLADLDSLERRTEQTRKRATGKDKDSLAALPIMDASLKLLQEGKPVR
+TLLSKLDAEDTRILQGLNLLTAHPVLYVCNVAESDAVDGNVHTQAVAEMAKAQGAETVII
+SAAIESEVAQLPEDEAKDFLSALGLEEAGLDRLIRAGYKLLDLITYFTVGPKETRAWTIQ
+RGTKAPQAAGVIHSDFERGFIRANTIAYEDYIRLGGETGAKEAGKARDEGKEYVVQDGDV
+IHFRFNT
+>tr|A0A1Q9AIT2|A0A1Q9AIT2_9RHIZ
+MTDFYTLVPGAPAGRFDGIDRPYGPEDVRRLRGSVEIRHTLAEMGAKRLWQLINTEDFVN
+ALGALSGNQAMQMVRAGLKAIYLSGWQVAADANTASAMYPDQSLYPANAAPELARRINRT
+LQRADQIETQEGKGLSVDTWFAPIVADAEAGFGGPLNAFEIMKAFIEAGAAGVHFEDQLA
+SEKKCGHLGGKVLIPTAAHIRNLTAARLAADVMGVPTLVVARTDAEAAKLLTSDIDERDQ
+PFVDYEAGRTVEGFYRIRNGLEPCIARAVAYAPYCDMIWCETSKPDLEQARRFAEGVHKV
+HPGKKLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNFGMYELARG
+YKERQMAAYSELQEAEFAAEVRGYTATKHQREVGTGYFDAVSMAITGGQSSTTAMHESTE
+HDQFRPAAE
+>tr|A0A1Q9AD53|A0A1Q9AD53_9RHIZ
+MLCDPLTPTRRAVLGASGALFAWAFMPRLASAAATRDPRFVTIILRGALDGLTAVPPTGD
+PDYADLRREIALGGQGPGAALPLDGFFGLHPSMPQFHRLFHAGQAAIIHACATGYRDRSH
+FDGQDVLESGFPMPGHVETGWMNRLIGALPAGERVAPRAGLAAGATSGGTLGLAVGATPP
+LLIRGAAPLLGWAPSVLRPADGDIAARLADLYGQSDPLLAGLLQQGIDTGKIASGLNGKA
+KGGPGDPDGMEQMAMGTARLLAREDGPRVAALAFEGWDTHAQEVDRLGKLLGGLDRAFAA
+FEAGLGPVWKDTVILVATEFGRTARINGTEGTDHGTATVAFLAGGAVRGGRVLADWPGLK
+QSALYEARDLAPTTDLRAVAKGVAVELLGLSATPLGQTVFPGTEGLAPLKGLIA
+>tr|A0A1Q9AD95|A0A1Q9AD95_9RHIZ
+MPAYRPPHIASKEITPKSAYLSRRSLMAASAGGALATLFGPGAAMAEALKAVPSPYKVDD
+KLTPKKDVTSYNNFYEFGLDKADPAALSGDFKPRPWTVVVDGMVAKPQRFDIDALIKEFP
+VEERVYRMRCVEAWSMVIPWDGFPLAALLDKVEPLGSAKYVAFETVVRPAEMPGQKGLFQ
+SLPWPYVEGLRLDEARHPLTLLAVGLYGETLPSQNGAPIRLVVPWKYGFKGIKSIVRITL
+TDKQPVNTWQAANPQEYGFYANVNPAVDHPRWSQASERRIGEGGFFGAGRHPTLPFNGYA
+DEVASLYSGMDLKANF
+>tr|A0A1Q9AGM1|A0A1Q9AGM1_9RHIZ
+MAEKLIRTGHQDNQLGLGIFRSGVKMSHLQLVLAIEEHGQISAAAEVLGISQPAASRMLT
+EIEGVLKAPICERVARGVELTRYGRALARRARAILLELRETTREIAELKAGNSGKVSLGS
+VTGPALSLAVPAIRQVTTAYPGIEISVQIENSNVLVRELIAARHDFVIGRIPDDVDPKQF
+NMVVIGEEDVRLIVRDGHPLLERGAVEVADLPGFDWVFQPTGTLLRRAVEDSFMQAGIAL
+PATVINTSSIILTLAMVRNSNVIAPVAHDVANVIAGSGGQLGGICVLPNRFPIKIRPFGL
+ITARDRALPPSAKLLYDLILQQGAATSASNHQDMA
+>tr|A0A1Q9AJY3|A0A1Q9AJY3_9RHIZ
+MSTLDLIDVTKNYGIVTAIEPLSLSIGDGELVCLLGPSGSGKSTLLRIIGGFETLTAGRV
+LIDGIDVAFAPPEKRPTAMVFQSHALWQHMTVFENIAFGLKLRGFDKTEIRRKVETGLSL
+VGLQDYGGRHPAQLSGGQRQRVAIARCLVLEPKILLMDEPFASLDQHLRDRLREEVRQIQ
+KTLGITTVFVTHGQDEAMSVADRIVVMSMGRIEQVGTPGDIYATPATPFVAGFIGDMNMI
+PVMVSNGHATIGGLRLAASVADGPATLAVRPEDLTLGGLDAAGFGAAQVTRMVNYGSFFK
+VTALLAGTEWKVQAPKTAAVAQGQSLPLSVGRYQLFRDDRMVFRSDVG
+>tr|A0A1Q9AJZ7|A0A1Q9AJZ7_9RHIZ
+MRSLVLERKNELRIRDLDPKETLGPTDVRIAIKTVGVCGSDVHYYTHGAIGPFVVREPMI
+LGHEAAGVIEEVGSAVDTLKVGDRVCMEPGIPDANSRASRLGLYNLDPAVRFWATPPVHG
+VLRPSVVHPAAFTFKLPDNVSYAAGAMVEPLAVGFHAISKAKLTPGAIALVTGAGPIGMV
+TAIAALSAGCAKVIVTDIVDEKLDVARKLGPAIMTVNIRSQDLKSVIARETDGWGVDVVL
+ECSGAAEVIADSLHHACPGGAIVLVGMPVKPVAFDVVIAQTKELRVEHVFRYAHVYPRIV
+ALLGSNQISVDALITDTYAFEQSVEAFDYAVRPKPSSVKIQIELGR
+>tr|A0A1Q9AG47|A0A1Q9AG47_9RHIZ
+MAKQFQKIEPHLHRFIAAQRMFFTASAAETGRVNVSPRGTDMFRVIDDTHVLYLDRTGSS
+NETAAHLMADGRLTIMFCAVDGPPLILRLYGRGRVLHRNSTAYAERLATLFDNKAPLGAR
+QMVELDIDMVQSSCGYGVPLFTYEGERPQMDAWATAKGEDGIDAYWREKNQRSMDGLPTG
+LFDEA
+>tr|A0A1Q9AJT9|A0A1Q9AJT9_9RHIZ
+MGLALALPLSGPASGQTAQSGKPLLSPEVLFVTSTGFWQEMEDPNALLDPQGSATPDGPP
+SGPKGYYKLIALRQPDGTAQIHLQQIALEAQGPRIVTSAELEEFTRMHAYVTDIRPENSD
+GITRQPGLFATVYLKTDPQQTETESWTVLIDDIGDIRIERETN
+>tr|A0A1Q9ALW5|A0A1Q9ALW5_9RHIZ
+MKRPAPQKITILGATGSIGCNTLDVIAQLGGREAFEVEALTGHANIGLLAEQAKAVGARL
+AVTADEGLYGALKSALAGTGIAVAAGPSGLLEAAEREADLVMAAIVGTAGLAPTLAAAAR
+GADIALANKECLVSAGPLFVAAVAEGGGALIPVDSEHSAIFQSFDESQRHAVERLVLTAS
+GGPFRKMSREEMAHVTPERARAHPNWSMGLKISIGSATMFNKALEMVEAHHLFGVAPEAI
+EVIVHPQSIIHSMVGYSDGSVIAQLGAPDMRTAIGYALAYPRRPALNVERLDFAKLARLD
+FEAPDDVRFPALRLARLSMERGGVQSAVMNAAEEVACAAFVAGRIGFLAMAEVAEAVMDE
+MTGWPPAETIEAVFAADAEARSRAADRISRLERAA
+>tr|A0A1Q9ACT1|A0A1Q9ACT1_9RHIZ
+MLDANNRQIAALSLSLLDLTDLGETTTPEAIDALCDKAVTPYGTVAAICIWPRFVAQARA
+KLGPQHPVRIATVVNFPSGDLPVDAVVAETLQAVADGADEIDLVIPYRALIAGDEQAVTD
+MIAAVRAAAPHPVTLKTILETGELKDKALIRRASDLAIAAGADFIKTSTGKVAVNATLEA
+ADLMLNAIRQQGGKVGFKPAGGVRTVADAQLYLKLAATILDPDWPMPSTFRFGASGLLGD
+ILAVLDGRESAVPNAAY
+>tr|A0A1Q9AJN4|A0A1Q9AJN4_9RHIZ
+MKAADVRALSADQLNEELAKLKKEQFNLRFQKATGQLEKSSRITEVRKDIARIKTIARQK
+AAEAKA
+>tr|A0A1Q9AL23|A0A1Q9AL23_9RHIZ
+MRLSRYFMPILKENPKEAEIVSHRLMLRAGMIRQQSAGIYSWLPLGKRVLDKVNAIIREE
+QNRSGAIELLMPTLQSAELWQESGRYDDYGKEMLRIKDRQERPMLYGPTNEEMITDIFRS
+SVKSYKDLPLNLYHIQLKFRDEVRPRFGTMRSREFLMKDAYSFDLTREGALHAYNKMFVA
+YLRTFDRLGMRAIPMRADTGPIGGNHSHEFIILADTGESEVFCHKDFIDFDIPGIDTDFD
+DAAALQGVFEKWTSRYAATSEMHDEAAYDAIGEGDRVSARGIEVGHIFYFGTKYSEPMGA
+KVLGPDGKEHLVHMGSYGIGPTRLVPAIIEASHDENGIIWPQSVAPFDAVVINMKAGDAA
+CEAASLKIYGELGTAGLDMLYDDTDDRAGAKFATADLIGVPWQVIVGPRGVAAGEVELKN
+RRTGERETLPIDAAIAKLGAVR
+>tr|A0A1Q9ACE0|A0A1Q9ACE0_9RHIZ
+MTSTIIKNGTIVTADLTYKADIRIEDGVIAEIGPNLKGGTELDTTGCYVMPGGIDPHTHL
+EMPFMGTYSADDFDSGTRAALAGGTTMVVDFALPNPGQSMLDALTMWDNKTSRAACDYSF
+HMAITWWGEQVFDEMETIVRDKGINTFKHFMAYKGALMVDDDEMFSSFQRCAELGALPLV
+HAENGDVVAQMQAKLMAEGNDGPEAHAYSRPPEVEGEATNRAIMIADMAGCPVYIVHTSC
+EQSHEAIRRARQKGMRVYGEPLIQHLTLDESEYFNKDWDHAARRVMSPPFRSKAHQDSLW
+AGLASGSLQCVATDHCAFTTAQKRTGLGDFRKIPNGTGGLEDRLPMLWTYGVSTGRLTMN
+EFVAVTSTNIAKILNIYPKKGAILVGADADLVVWDPKRGKTITAGAQQSAIDYNVFEGKE
+VMGLPRFTLTRGQVAVEEGAMKSQEGHGRFVSRPPLTAPAKALSTWKELTAPRKVERTGI
+PASGV
+>tr|A0A1Q9AFG1|A0A1Q9AFG1_9RHIZ
+MLALRSALFNTLFYANLILQMVVLTPVYFLLPRKKAWIVPKTWARTNHWLMRVVAGTDFT
+VEGLENLPADGIYILAPKHQSFWDVYALLPALPDPFFILKKELMRIPLFGWYVAKQRMVP
+VDRSARGRAMAAVLERAKAEMATGRQLIIYPEGTRRPPGAPPEYKFGVARLYRDLGVPVV
+PVAMHPGLFWPRKSLMRHPGHFTVRILPPIQPGLKPDLFLETLIRETEAASDALLVKTVS
+DNPHLPLPETARARLAVLAQRKADAS
+>tr|A0A1Q9APM1|A0A1Q9APM1_9RHIZ
+MSTGFFGDIQKIKFEGPDSTNPLAFRHYNPDEMVMGKRMEDHLRFAVAYWHSFVWPGGDP
+FGGQTFERPWFKDTLDAARLKADVAFEFFQLLGAPYYCFHDADVRPEGRDFKENTANLNA
+IVDHFEKKQAETGVKLLWGTANLFSHRRYMSGAATNPDPDVFAFAAATVKTCIDATHRLN
+GENYVLWGGREGYETLLNTNLKQELDQLGRFLNLVVEYKHKIGFKGTILIEPKPQEPTKH
+QYDYDVATVYGFLKTYGLENEVKLNIEQGHAILAGHSFEHELALANALGVFGSIDMNRND
+YQSGWDTDQFPNNVPEMALAYYQVLAGGGFTTGGTNFDSKLRRQSLDPEDLLIGHIGGMD
+CCARGLKAAARMIEDGALSNPLAERYAGWATDEGKKRLTALSLEDLTQLVESSGLNPQPR
+SGKQELLENIVNRYV
+>tr|A0A1Q9ADI0|A0A1Q9ADI0_9RHIZ
+MTHAETPKPEAIDQEAILAVLREARARLETLQGQRDERVAIIGLAGRFPGADTAEALWDL
+LEDGRSGLRPVNAAELARAGVAPERAGQADYVPVWGSFPEPTAFDAAFFGYSPRDAALLD
+PQQRVFLECAWAALEHAGYDGRGGSAGRIGVYAGAALNHHFSELRANPTLREETDPLQAG
+LGNVIGMVAARTAYHLDLKGPTLGVQATCATSLVAVHLAARALLAGEADMALAGAVAIGQ
+TRPEGYVYRSEGIASPDGLCRPFDADARGTVFTNGVGVVVLKRLSAALADGDTIHAVLRG
+SAIGNDGAAKVGLTAPSVSGQVEVLEAALADARIDPCEIDYVEAHGTATAMGDPIEIAAL
+NKVYGPDFAKAGRSCAIGSVKGNLGHMDVAAGMGGLIKTILALRHRRLPASLHFTAANPA
+IDFAGGPFHVVAKAQDWAAPANRPRRAAISAFGMGGMNAHLIIEEGPSASPATVTTPNAA
+QLLPLSARSADALAAARKALAIALEKGADPAPCLGDIAFTLQAGRRPMPHRAVVLARDRA
+EAARQWAAGAGADYRSGQVLGGEPSLVFLFPGQGAQHRRMARGLLEAEPAFRAAIEDYLA
+AFPPELDLAAALFGEESDRLDRTEVTQPALFAVDYALARMWQAKGVTPRAMLGHSLGEYV
+AACLAGVFSLPDAARLVCARGRLMQACAPGAMLSVMLSEAEARAFVSPDIDLAAVNGPRS
+TVLSGKSAAIDALAARFDRSGIGSKRLRTAHAFHSAMMEPALADFAKVLADVPLHPPGID
+ILSNLTGDWLRPEQATDPAYWVAHLRQTVLFGPALAKALALPHALLLEVGPQETLTRLAR
+QQAGADARAIATLPDAASPRLPADHLRLAAADLWIAGMELDWSAWRAEGPHRRVGLPTYP
+FQRIAFDIPPAAREAGSQSEAGRASFEKWFYQPVWTRGPVTAPPPAKEAVWLLLGGATLA
+ERIGPLPEPIRTIEVEAGATFAATGRGYAVAPADRESYRALFAALSGRGLMPDQIVNGFA
+LIPGSAPDVAYASTLALGQALNEALALLPEAGASSPMPPMTAPLVTVLAEGLHSVTGTER
+LQPHAAMVLGTLRVLPQEIAGLACRSIDLTSSGAGAGAGAGPVPALRESLLRPFQPAHAV
+SALRAGFVFTQTQATAPMTEAGDTLQPGELAQKGSPGHPLRAGATYLVTGDLVDGLALVY
+ARALVTRLGARVIFAGQKGLPPEQDWERWLASHSPQHPVSRMIRALRDIGRPGTDYLLLS
+GDLADAGWLRRDLAQAQASFGPIHGVFHTSGMGDAYHCPLAELEPARTASLFATKIGGIE
+ALAQVLADSTAAFVLVQSSLSTLVGGAGLAAYAGANSFLAAFAEGQRGSAVPLWQAIDWD
+TCLADGEARDSANGLHAHAFDSDEVWRVTQAVLARPDLPRLAVTAEGIERRGRAATDAPR
+GATVLPTANGTGRQRVTAAFVAPGDPVEQVVAEVMGELLGITPIGIDDNFFELGGHSLLA
+VQVVTRLRKQFSTELPMRALLFDAPTIRGLAAILRERIAEAEDEAAAVAALLDDIEAGGR
+RREA
+>tr|A0A1Q9ADZ6|A0A1Q9ADZ6_9RHIZ
+MLTASPLDGRHALVTGAGSGIGAAIARTLASAGARVTLAGRQREPLDALAEEIGEASFVA
+DGFDVTDAAAIARGLDAARAAFGPVSILVNNAGQAPSAPFEKTSAEMWNHVIGVDLTGVF
+QVTQAALPALKAHGEGARIINIASTAGLTGYAYVSAYCAAKHGVIGLTRALALELAKKGV
+TVNAVCPGFTDTPIIRRSIATIVEKTGRSAEEALAEFTRSNPQGRLVQPQEVADTVLWLA
+SPGAGSVTGQAIAVAGGEIMAG
+>tr|A0A1Q9AGQ7|A0A1Q9AGQ7_9RHIZ
+MIVLVGLAIVLAAIRVAAASAPAMAALVAALGALTYAAVPAMQARVIGIAEPHAPKALAA
+AAGLNIAGFNSGIALGSLIGGRVIGAFGLATTGVVGAVAAGLRIVMLVTGKR
+>tr|A0A1Q9ALX5|A0A1Q9ALX5_9RHIZ
+MTSKTTNKFSPEVRARAVRMVVEHEAEHPSRWAAVSSIAAKIGCSAHTLNEWVKKAEVDS
+GKRAGLPSDVAERMKALERENRELRQANEILRKASAYFAMAELDRPLKR
+>tr|A0A1Q9AN43|A0A1Q9AN43_9RHIZ
+MPAESVVLRDWHAGVTPVQMAARYGVARKTVMKYLAARTPFWRAERTRPLIADERRILVE
+HIERTAQSDQISLISLPRNSMHLAQRRDSGTMRGLHV
+>tr|A0A1Q9AP01|A0A1Q9AP01_9RHIZ
+MGKRIIFTGGSGKAGREVVPYLRDRGHEIFNLDLVPLDCPGVNTLVTDLTDSGQVFNALS
+MHFDFAGLETGKGPAPVDAVVHFAAVPRILLRPDNTTFAANTLSTYNVIEAAVKLGIRKV
+IIASSETTYGVCFAEGDKDFHEFPLTEDYDVDPMDSYGLSKVVNEKTARAFAMRTGADIY
+ALRIGNVISPEDYANFPGFLADPPSRKRNAWSYIDARDLGQIVDLCIDKDGLGFQVFNAV
+NDTITAREPTRDFLAKYAPGTPITGPLEGFAAPISNAKIREVLGFREAHDWRRHVPQAEG
+ER
+>tr|A0A1Q9AGC9|A0A1Q9AGC9_9RHIZ
+MNETPKLNSFRSGPDEDGRFGIFGGRFVAETLMPLILDLQAEWDNAKTDPTFKAEMDTLG
+KHYIGRPSPLYFAERLTEHLGGAKIYFKREELNHTGSHKINNCIGQILLAKRMGKTRIIA
+ETGAGQHGVATATVCARFGLPCVVYMGATDVARQSPNVFRMKLLGAEVKPVTAGNGTLKD
+AMNEAMRDWVTNVDSTYYLIGTAAGMHPYPEMVRDFQSVIGIEARAQMLEAEGRLPDLVI
+AAVGGGSNAIGIFHPFLDDESVKIVGVEAGGKGLEGDEHCASITAGAPGVLHGNRTYLLQ
+DGDGQIKEGHSISAGLDYPGIGPEHAWLANVGRVEYVPIKDDEALEAFQLLTRLEGIIPA
+LEPSHALAEIIKRAPKMGKDEIILMNLSGRGDKDIFTVGKILGMGQAGE
+>tr|A0A1Q9ACQ4|A0A1Q9ACQ4_9RHIZ
+MPPETRDPIIIADARPLIRLAAADLLEAIRLTNRQIVLVDRVEDEVCGDPSKPFASEVAD
+WLSRMQDAVIRAPTLEGLAIATLRQQSAQGNAAAAERLKKALRHSGERAIREYVEMIEPS
+DVETALVLYEDGAVPNLMSAANVPMVLMTTRAFVREVIDRGYNGDALQALESTGYHLKPP
+IRTVIEGGFEESSL
+>tr|A0A1Q9AJU3|A0A1Q9AJU3_9RHIZ
+MPHPDLALMIAAFDRLAAAGFVTGSHWAAVHDVCQAHEGEAAFDWGHALCHRIEGDDWNA
+GYWYRRAGKPKPSGTFDEEWAAMRAALAADAG
+>tr|A0A1Q9AJD2|A0A1Q9AJD2_9RHIZ
+MKPEEVKKLEAYFKRNLNQEIVIKPRPRKDESAEVYLADEFLGVIFRDEEDGELSYNFSM
+AILAIDL
+>tr|A0A1Q9AP81|A0A1Q9AP81_9RHIZ
+MLKRPILAALLLAGAAGTAKTAGPAPVLDISFQNGQPVPQVWGSEGLNPKTTAQAICVDV
+PAGGSPWDRMIGINGLQLRGGQTYRLSIGLESSTAVTVPVLVQVDAPPYQAHGRLDAHVE
+ANKPGSFSTNFVAQDSRPTQFVLHLGGAAADYSLCLTQASIVSVVPKSGRKVVSTVVVNQ
+SGYGRGAPKRATFIGGDETPVDFSLIDAAGKTLLTARSKPLGYDASAGAPVHVLDFSSVE
+NTGQDFRLKVGTTESDPFPMGQDVFAALRIDALSWFYPQRSGIAINGRIAGAGYARAAGH
+IGVAPNRGDTDVACLKGKVAQTLYPGWSCSYRLDVSGGWYDAGDQGKYAVTGAISAAQLM
+AAFERGAHFAGGSSPVFSDSLSRSPENGNGVPDLLDEARWELEFLLKMMVPDGQPLAGMV
+HHKVHDTRWTAVPMLPAADPMERALHRPSTAATLAVAAAAAQGARLFGAYDAAFAARLSQ
+AAQKAWKAAGANPVLYAPVSDGQQGGGDYDDDDIEDETYWAAAELYLTTGTPAFLDRLKR
+SPHWNDDVFFRSNTAFDWRSTAGLGRVQLALFGKNLPAADQAQVQASVVAAADRFLALQA
+EEGFGQIYRPGDGKYDWGSNQMMLQNMVVVAAAYDVTGRQSYRDAAREGMDYLLGRNAMN
+LSYITGYGTRFSRNQHSRWYANQVDPSLPHPPAGTLAGGPNSTLVDELARAKLKNCAPQL
+CYLDDINAWGSNEMAINWNAPLVYMASFLADAR
+>tr|A0A1Q9AIF1|A0A1Q9AIF1_9RHIZ
+MLSNLDPGALSARLAWEHPVEAPDGQGGVSIAYQTAGALWARIEPVQARWEEAGNEAGAE
+RTHRIWLRHRDDLKAGDRLRLGARLFTLLSLHDPDETRRMLVAEARELVS
+>tr|A0A1Q9AJ50|A0A1Q9AJ50_9RHIZ
+MKAGSRFLTAVSAVALSAGMVTTGAGVAMLASASVAMAATVSRIEVRGATRVSPETVRAN
+ISIQPGKAFSGADIDASVRRLYQTGYFSDVTINVAGSTLVVSVKEAQLINQVVFNGNSKI
+KDDKLQTIVKTKALGPYNEATVQADVQTIKDAYAAIGRSDVTVEVKTAPIAEGRINLAFQ
+INEGERTKIKDISFEGNSAYSNNRLRSVILTKESGIFSFLTRKDVYSPEKLQADEEALRQ
+FYYNRGYADFRIVSSSADLDPASNQYNIKFVVEEGPRYDFGAINVESTVQGINADELKGL
+VVSKQGQIYKAKDIQDTMSAISRRVAANGYPFARVTPRGNRDFNNHTVAVDYLVDQGERA
+YVERIDIRGNTRTRDYVIRREFDISEGDAFNQEMIASAKRRLEALGYFSSVNITTQQGSA
+PDRVVVVVDVQDQSTGSFGIGAGYAAGANGGVLLEASVEEKNFLGRGQYIRLAAGRGQAT
+KTYNLSFTEPYFLGYRLAAGFDVFKNENDSTSGQNYSYEDQGFTLRVTAPITERLSTTFR
+YTLTQLDYSGDLTDISSPFRHVVKESPWTRSAISQTVTYNTLDDAQLPHGGILASATQEY
+AGLGGTSDYYKLSGKAKIYYTLNDEADLIGSLAGSAGHMFNTGGPMEVFDQFQFSNSDVR
+GFERMGIGPRSLQYGDAIGGTTYFTASAEATFPLPGVSRDAGFRGAIFADAGTLYGNDVA
+VTKADRVVGTDASLRASVGIGLIWASPFGPLRVDYAVPVVKKDYDRVQNLKLGISSAF
+>tr|A0A1Q9ADN8|A0A1Q9ADN8_9RHIZ
+MRLRSDLFVSALVRRVFSQGGYAAVLHKGTPEAGAIFLRQRRRDGRETVAGPAPQSLFGE
+EDTLGRLFELRLVEAEAEAADALLARERRFDSDCWIVELECESLDGLVDFAPES
+>tr|A0A1Q9AFR5|A0A1Q9AFR5_9RHIZ
+MAQAKTFSLGDSYDAMLDDFVKNGRFETETDAVRAGLRMLADYESRLQTLRRTINDADRE
+IESGLGKEYSSGAELLRDVMSESSDH
+>tr|A0A1Q9AH27|A0A1Q9AH27_9RHIZ
+MSFFSGEDPAPGDAAASQAIEQIVIPRSSDIGGFSVRRALPTVKRRLVGPFIFFDRMGPA
+LMKAGEALDVRPHPHIGLSTVTYLFDGEITHRDSLGTEMVIRPGDVNLMTAGRGIVHSER
+SPQNMRGTVRGLSGLQTWLALPDGMEEIDPSFRHEAAAALPRFEAEGASGRVVIGHYEGL
+SAPVKGFSETVYVDLRLAPGAKAPFSPLFEERALYVLEGTVVIDGAEHGANKLIVLKPGA
+AMALTGGAQGAHLMLFGGAAMNSPRYIWWNFASSSKERLEQAKQEWATGRFDIVPGDEEE
+FIPLPSG
+>tr|A0A1Q9AJS2|A0A1Q9AJS2_9RHIZ
+MVTIQIAKAGIALALVLGLSSASLAETIAGAMAKAYANNPDLNAARASLRAVDEGVPIAK
+SGYRPRISANATGTAVRFDSNSIAKPLDYTNRSAGITITQQVFDGFQTLNSVRVAEASAF
+AERESMRANEISTLLSAAEAFANVARDQDVVAIRKQNLSFLRQQVDAAGSRQRLGEGTLT
+DVNQAETQAAEAKALLAAAIAQLRQSEATYLQIVGSPASGIKQAKPAVRNLPRTLDLAVA
+TGIKEHPAIAAALHRVDAADYRVKQAEGTMLPGVTLQGSISRSLTDQPGEVPNSSNAAVT
+ARIEIPIYQGGAEYGQIRQAKERAGQQAILVDSIRAEVRQTIMQAYAQLDGARATILATR
+ERIAAATRALSGVIEERKVGQRTTIDVLDAQQSVLAARETLAAAQRNAVVASYSLLAATG
+RLTVAGQGLPVAEYDAERHYNAVKNKAFGASIDSAR
+>tr|A0A1Q9AEM9|A0A1Q9AEM9_9RHIZ
+MKDRTKRDGKGRDAKSRNGQSASAKGPGSRGAGDKPAGSKGRSDAPAALRGPGKAFSPSL
+SEPKVPKPARGPRPDAPIAAEAKGRPEQGHAPETREAMPPLPPRRLWTGDKPAERVPVIL
+ETVADGNGEGAGYHLIDSGDGLKLEQYGPYRIVRPEAQALWPKGLDEAVWARADAVFTGD
+TDEDGMGRWRFLDAPLGETWPMRLLDTDFLGRFTAFRHVGVFPEQLAHWRWVKDQVEAAK
+TRRARPVRVLNLFGYTGVASLIAAKAGAEVTHVDASKKAIGWARENQALGRAEELPIRWI
+CDDAMKFIQREERRGSGYDIILTDPPKFGRGPNGEVWQLFDHLPGMLDLCRAILSPEAIG
+LVLTAYSIRASFYSIHELMRETMRGAGGRVESGELILREAGLAGDEPGRALSTSLFSRWI
+AHDE
+>tr|A0A1Q9AP68|A0A1Q9AP68_9RHIZ
+MDFLTEHRVPIGLAAKAFVDWLTTNFELFFQQLSNLLLAVVNALLFVLQTPHPLIVVAAV
+TGLSWWLRRSVGITLFTLFGLLLIINQGYWKETTQTLALVLAASAVSMAVGIPLGIAAAR
+RAWFYAFLRPVLDLMQTIPTFVYLIPALILFGLGMVPGLIATVIFAIPAPIRLTRLGIIS
+TPPSLVEAAVSFGATQGQVLRKIELPFAMPQIMAGLTQTIMLSLSMVVIAALVGADGLGV
+PVLRALNTVNVAKGFEAGLCIVILAIILDRLFRSSDAGDA
+>tr|A0A1Q9APY4|A0A1Q9APY4_9RHIZ
+MSLTSLFAYAAALFIAAAIPGPGITAIVARALGSGFRPTFFMGLGLILGDLTYLTAVVLG
+LAFVAQNFTTPFLIIKFLGVLYLLYIAWKLWTVGLLGQTIEAERMPHIGLSFLSGLLVTL
+GNPKTMLFYVALAPTLIPLRDITLTDYLTLVAITAVVLLAVLLPYILLASRARLLLKRPR
+ALQALNRSAAGILAGTAAYIAAR
+>tr|A0A1Q9APZ9|A0A1Q9APZ9_9RHIZ
+MGKKSKAEKQKTKGVKKKLELSRLPEAIDEEPSGQAVGAILVQAARSMRTVMSRNLVESG
+LYAGQDGVMLALAEEDGMTAGGLAARLGVKAPTMTRTIGRMEAQGFLHRRADDEDARLTK
+VYLTEEGRARLDAIAEAGRQTGEQALKGFSDKQIKVLMKLLRTLDANLQHGVADD
+>tr|A0A1Q9ACV4|A0A1Q9ACV4_9RHIZ
+MAAATLTTLTALTQAGLVPEADHAALAPVTARYALAVSPDIAALIDPSDPEDPIARQFIP
+QAAELDTLPEERADPIGDHAHSPVEGIVHRYPDRVLLKAVHVCPVYCRFCFRREMVGPGG
+EGTLSGAALEAAFAYIADHTEIWEVILTGGDPFVLSPRRLADLMRRLAAIEHVKIVRFHT
+RVPVVEPARIDAALIAALKESGKTVYVALHANHPRELTPQARAALARLAEGGLTLVSQSV
+LLKGVNDDPEVLAALMRGFVEARVTPYYLHHPDLASGTSHFRLTIEEGQALVAALRGRIS
+GLCQPTYVLDIPGGHGKAVIAASSVQPDGEGGMLVRDFRGQVHAYPPKGA
+>tr|A0A1Q9AJS3|A0A1Q9AJS3_9RHIZ
+MSESKSFISGCKGLSLTADEKAFFADERPWGFILFGRNIAEPGQIADLVASLRESIGDET
+APVLIDQEGGRVQRIRPPIVPAYPNGAALGAVYGQDAEKGLRAAWLHGRLIAHDLQRFGI
+NIDCLPVLDVPLEGGSDVIGNRAYGRDVETVVAVARAVADGLKAGGVQPVIKHMPGHGRA
+FVDSHHKLPIVDAPRALLEETDFKPFVAMKDETMAMSAHMVFTAIDPERPATTSRKVVDE
+IIRGHIGFKGLLMSDDVSMNALDGDMATRARNIIGAGLDLVLHCHGIMEEMTAVAAVVPP
+LAGEGLARATAARAAFRPAEPADEPALREEFASLLALA
+>tr|A0A1Q9AK42|A0A1Q9AK42_9RHIZ
+MEGAIIPLQSGRLKDPVLAQFSIDAVADMIIWLDQDGRYVFVNKATTQLLGYSSEELTTR
+TVCDMDPDVDAARWSAHWDELGRLGSVMLETTNRAKDGTVIPVEVRATMVTYRGVKYNCA
+IVRDITERRRAEAERRALTERIRQMSMTDGLTGVANRRCFDERLAAYVEEADAMGRPLSL
+IMLDVDHFKSFNDRYGHLAGDDCLRRVAGAVEDTLRPAGGLAARYGGEEFACILPGVDGV
+EALRWAQRVRGALHALAIPHEGAPAGCVTASMGLASARPSFPLKTPGPWTVALVAAADAC
+LYRAKSEGRDRIVAGGGR
+>tr|A0A1Q9AD59|A0A1Q9AD59_9RHIZ
+MKTGRRLSRTRAAPERDGTGISPGDIADHNGRTALALLRAHGAMTRQELSAHLGLTEPAV
+TGIMKRLLADGLVLERKRVDAGRYTPAEFALRPDGAHALGLSLRPDGAELILLGLGGEIV
+AARSLPTPPSQDALAEALEALTTESPTPPLGLGVALAPGCAVDLPVIAGMIGDMPLFSMP
+DTEAVVNAERLFGLGEPEGGLVVVLIDETVRAGLFIGGKVFRGMHGRAGQIGAMRPGRNH
+ASLNEVAGLAAYRQAEAEGEAALEAWIGRAAGRLLDAVVAISGFVSPGAVLVGGALPDYV
+IDRLIDQAARDREKQEAYFVAASWIPPIRRTTRDGGGVTLGAAGAPFIERLLPKTM
+>tr|A0A1Q9APN0|A0A1Q9APN0_9RHIZ
+MSDLSNWTPRPSPQPITLEGRFVRLLPYDRAVHLAALWEAFGGLEINARLIYFAQPDFAG
+IEDFDRWLTACQAGGWVTELFQSVETGALVGMANYMRADPANGVVEVGGVAHTLAMARSP
+LSTEAHYLMARHVFDDLGYRRYEWKCNNDNAPSKATALRLGFTFEGVFRQHMLSKGGNRD
+TAWFSMIDGEWPLIKAAFEAWLAPENFDAEGRQIRRLEEIRAQLAHEEVAPSGLAPSGVS
+S
+>tr|A0A1Q9AEE4|A0A1Q9AEE4_9RHIZ
+MTVAIRRTSRELLHAAIERHVQHLLDVHVEDFGKEDDVVLRMVGWHLINSGDREAFRSGR
+KLLDKAANGRLHPPPHPRWWVGPSAGALDLAGLLDPYSVELMWIDGRPQCRVGGRLWVRD
+DDRDWRWYPLLHVDRHADAARTDVFWIRLGRRMHHAV
+>tr|A0A1Q9AFX0|A0A1Q9AFX0_9RHIZ
+MDHSPFRVSARPGDRIAELSTPRPIIDETRLAANIERAQRYFDEHGIAFRPHIKTHKIPA
+LARAQVEAGARGINCQKITEAEVFAEAGFDDILITFNIIGDEKIARLKALNDRISALKVT
+ADSAETVKGLADAFTAERPLAVMVECDTGAGRCGVQTPEAAAELAALIASQPSLRFAGLM
+TYPRPAGHEAVQAFFTRALVLLAQAGIDCPVVSSGGSPSLFEAHLAPVVTEHRAGTYIYN
+DRSLIRAGHCSQGDCAMHILATVVSRPTADRAVIDAGSKALTSDLLGFADHGLVIGYPEA
+VITGLSEEHGVIDLSACGAERPRIGQKLLIVPNHTCVISNLFDEMVFHRDGVVTRVEPVA
+ARGLVW
+>tr|A0A1Q9AHN0|A0A1Q9AHN0_9RHIZ
+MPVASLAMYAAPEPVAAANAAWWADLRARLVATGVTALPETLDTDLGYDEAWHRPDLVLA
+QACGYPYVNKLQGRVRLVATPCYAYEGCYGPFSGSLIVVRRDAAFGDIGALFGSRVAING
+KDSNSGMNLLRLMIAPHAIKGRFFSACLETGGHRASLAAVAGNRADIAAIDTVTFGHLRR
+FAPEEVANVRILARTPIGPGLPLITRGSASDAFVAALRQALRQFVDDPSTADLRETLAIR
+DFALLDDSHYERLRDFEREAQRLGYPEIA
+>tr|A0A1Q9AP54|A0A1Q9AP54_9RHIZ
+MIVQAAGGAPGAEDLPLAVSMTGISKSFGGVRALDNVSLKIRRGEVHALLGGNGAGKSTI
+LKVLNGVHRPDAGTIAVCGTELRDVTPEAARAAGIAMNFQELSLIPTLTVAQNVFLTREA
+KGGLGLIDDRVAERQAAELFAMLDVDVDPRALVGDLGSGQKQLTEIAKAISQDARVLVLD
+EPSTALAVSDVDRLFVFLRKLKARGVAIIYVSHRMDEIARISDRATILRDGRHVITAPLS
+DLPIDTMIEHIVGKRSKGLSDVARAAVHRGEALLELRNVSGRHKPQDITLTVHRGEVVGL
+AGLLGSGRSSLARVIAGIDPVRAGEIRINGKAVAIGKPADAIAAGIALVPEARATQGIIP
+AHSVASNMVLAVLDRMTRAGLIKGADVKSVADAQIQRLAIKTASRDHAVSTLSGGNQQKV
+VIGKWLATDPDLLVLDEPTAGIDIGSKSEIIRLVRDLAAAGKGIVFISSELSELLTACDR
+ILVLSEARLFADLPREAFDDPAIPADDTAHRLQAAEQRLQIEIQEALKQGQKV
+>tr|A0A1Q9AQP9|A0A1Q9AQP9_9RHIZ
+MTKWVYSFGGGTAEGRAADIEMLGGKGANLAEMCTLGLPVPPGLTIITQACNEFYKAGRH
+LNAELKAQVTSGIARIEALTERSFGSNDHPLLLSVRSGARASMPGMMDTVLNLGLNDETV
+AGLARDAGDERFAWDSYRRFIQMYGDVVMGLGHDLFEDILEDEKARCGRELETEMTAEEW
+RAVVARYKQVIEEEAGEPFPQDPQTQLWGAIGSVFASWLNPRATTYRMLHNISQEWGTAV
+NVQAMVFGNLGNSSATGVAFTRNPSTGENLLFGEFLVNAQGEDVVAGIRTPQNITEAQRI
+ASGSEKPSLEKLMPEAFAELLAICRRLEAHYRDLQDIEFTIERGRLWMLQTRAGKRTAKA
+ALKIAVDMVEERLISRDDAVARIDPASLDQVLHTTIDPQARRTVIGSGLPASPGAASGAI
+VFTSEDAVRARKEGRDVILVRVETSPEDIHGMSAAVGILTSRGGMTSHAAVVARGMGLPC
+VTGAGNLRVDLRNGLLIGGGLSLKAGEIITIDGSSGQVIKGAVPMLKPELSGDFARIMEW
+ADASRRMRVRTNADTPADARTARAFGAEGIGLCRTEHMFFEGERINVMREMILASDEAGR
+RAALAKLLPMQRSDFVELFSIMHGLPVTIRLLDPPLHEFLPKAEDEIAEVATRMGLTPRE
+LSERIDALHEFNPMLGHRGCRLAISYPEICEMQARAIFEAAVEAARQTGAAVVPEIMVPL
+VGLKAELDYVKSSIDAVAREVIGAAGLPIDYLVGTMIELPRAALRAHVIAESADFFSFGT
+NDLTQTTFGISRDDAAQFLETYMRKGIIEKDPFVQIDYDGVGELIQIAAERGRRTKNALK
+LGICGEHGGDPTSIRFCEERGLDYVSCSPFRVPIARLAAAQAAITVPRVA
+>tr|A0A1Q9AKA3|A0A1Q9AKA3_9RHIZ
+MSLIAVTELKKRFGANEVLKGINLDIMPGEVIAIIGKSGSGKSTFLRCINGLETVDEGSI
+LVAGAQLLPDEVHLKALRLKVGMIFQQFNLFPHLSAGRNVMLSQMVVKKTGKAQAEAMAR
+RQLERVGLAHKFDAYPDELSGGQQQRVAIARALAMEPIALLCDEITSALDPELVAEVLAV
+VRELAAEGMTLMMVTHEMKFARDVCSRVVFMHEGRVHEVGPPEEVFSAPKTVELQRFLGH
+GHA
+>tr|A0A1Q9AHS6|A0A1Q9AHS6_9RHIZ
+MPAMTYRDALRQALDDAMTEDKSIVVIGEEVGRYGGAYGVTKDLIKVHGPERLIDTPISE
+PAIIGAAVGAAMTGLRPVAELMYIDFLGMTMDQLANQAAKIRYMFGGQIGVPMVLRTQGG
+TGRSAGAQHSQSLEAWIMHTPGLRLAMPATVADAYHLLRQSLTKPDPVVFIEHKALYTRK
+EEVDLSADPLPWGKAAVRRHGDDLVIVTYSRQVLYALEAAEALARNGIEATVIDLRTLNP
+LDFDTIRTHVERVGKAMVVSEGVMTSGVAAELCARISEECFDFLEQPVIRVAGEDIPISV
+SQELESGSVPSARIIAEVAERLTA
+>tr|A0A1Q9AEH4|A0A1Q9AEH4_9RHIZ
+MTSIPPKKTAGRLKSRPEFLAVREGERRKGPFFLLEVLDRKAPETGPRVGFTVTKKHGNA
+VERNRMRRRLREAVRLSADDAMKPGHDYVIVARRDVLSVPFDRLKRALVERIDGKTRQTR
+PEKAGSRKD
+>tr|A0A1Q9AEF6|A0A1Q9AEF6_9RHIZ
+MVKLDQKSPQPGMPGTTAQSPVWEGPPETRPSGYLKATDDPIHDRDALGETLEDPERRNL
+SEAVKVKGDDDTGERTGAAQAETRNGKPQAQGTIRADVAGKTGS
+>tr|A0A1Q9AK14|A0A1Q9AK14_9RHIZ
+MKKLIAAAVFTALMAGTALADTTLKLVEVITSPERTETLKSLTAKFEAANPGTKVEIISL
+PWNEAFQKFATMVSAGDVPDVMEMPDTWLSLYANNGMLESLEPYLAKWQYTAGLTPRALE
+LGRDVKNTAYMLPYGFYLRAMFYNKKLLAQAGVTEPPRTLDTFAEASKKVSALPGKYGYC
+LRGGPGGLNGWVMFGASMAGSNAFFTEDGKSTFDSPGWTKGLTWLVDLYKNGYAPKDSVN
+WGFNEIVAGFYSGTCAFLDQDPDALIAIAQRMKAEDFGVMTMPKGPDGKTFPTIGFAGWS
+MMASSANKDLSWKLIETLEGPEGNIEWNKKTGALPVHLSAEKDPFYASPQFKGWFDELAD
+KNAVPTKMPTYLEEFAFFKDSLVIKTSQEALLGDITPEELAKQWAEYMTKAQQKFLASK
+>tr|A0A1Q9AQI6|A0A1Q9AQI6_9RHIZ
+MAKAILTTKVDPTYDDLPEQRYHFPRTYLRQVEAARGDWIVYYEPRRPSGDLMKTGGKQA
+YFATARITDIIEDPSKADHFYALIDDFLPFDHAVPFKEADHYYESGLRKEDGSTNKGAFG
+RAVRNISDAGYDLILAAGFAHVLGRRDRERPAPDPVEEARIGFGDNPQIPYEVDSTDRRI
+VSQVVQRPFRDRAFSVAIKAAYQDTCAVTGLKLINGGGRSEVQAAHIRPVADRGPDSVRN
+GLALSGTVHWMFDRGLISVDDDYNLLIASGGVPDTITRLINPERRLLVPSRPDERPHSQF
+LQYHREKVFKG
+>tr|A0A1Q9AE29|A0A1Q9AE29_9RHIZ
+MSGYGAQDMALPLRRVLMRRPGESLRKADPAVWHYGARFNAEQAIADYDGLVRLLMDRHV
+EIAWLGERDDGLADSMFTADLSLVTAKGAVVLRPGKPARAGEAALHEAAFRAAGIPLLGR
+IKSPGTVEGGDCLWLDAETLAVGRGLRTDEDGIAALSELLAPEGIDVLGYDLPLWRGADA
+CLHLGSVATFLARDLALIFPPILPVSFYRLLEEWGVSMIEAPAEEFRDSAGMSVGVLTLG
+PRDIVMLDGYPRTRAAMEEAGCTVHLLSAEALCIGCEGGLGGLVCPILREA
+>tr|A0A1Q9AEP3|A0A1Q9AEP3_9RHIZ
+MPQLEEVGIYLKGLWLLILGKSEGFGWLDISVSGVWRSFAAILWCLPAMMVSWASWRLAY
+LSDMPAGTPTGLAFIAKLMIVDLLSWIVPLLLVAALSRPLGFDTLLAPLIVATNWLSVPT
+YYAMAVPSALRLLLPEAQGLSGLLSLLALIGALLALFRVVRAVTGEQALLSWALSALLVL
+PSLMLGDLLQRSLGLLPG
+>tr|A0A1Q9AKY8|A0A1Q9AKY8_9RHIZ
+MFLTQGLGMNLLTANIYQLQGSFSATTTELAWLQAVYMAPYASFSVALFKIRSQFGLRRF
+AELGILCFVVASAANLFVSDYHSALVVRFISGCAAAPLSTIGILFMLEPFAPQRKLTLGL
+SLALMNTLLSAPLARVISPHLMDLGGFHALYTLEMGLALIALPFIYLLPMTPPPRVKVIQ
+PLDVLSYFILATGLGCLAVVLALGRFYWWLEAPWLGVTLAVSIGCLTLFGVIELNRASPF
+LDLRWVFSRQNMMLAAVLIVFRTVSSEQSTTASGLLQQIGLLNDQTMTLYALVMVGSVIG
+GLACAALMTTRHADIAHLIALVLIGAGAFLDSQSTALTRPEQMYLSQALISAGAAMFLPP
+AMSRGMTAAFARGAPFLVNFIIIFLFTQSIGSLMASAALGSFVTIREKFHSNHLVEHLVL
+SNPLVANRVSQLSATYGKVIGDPAILKAEGLQLLGQQATREAYVLAYNDTFFVIFVVCLV
+SLVVLIAHMAFRALKARRAPPSALAAAPSSA
+>tr|A0A1Q9ADI3|A0A1Q9ADI3_9RHIZ
+MSTQDQSDDILYRVVISDEERYSIWPTYKDIPLGWRDGGFEGPKQACLDHIAEVWTDMRP
+LALRRAMDQAGEAAPQGETGR
+>tr|A0A1Q9ANM0|A0A1Q9ANM0_9RHIZ
+MTGIISAIGFCNHTGRGDLSTLDASLRAVAGTGADACEIGIYGEEIVSGGRIIEERFART
+AEIVGGYSFKKLSLHGQVCSNFMDATNLHLQKKVVRAMLEMANRLGAGIVVHHSGAAQLG
+EGVNGEDLDKMEREALFEMADVAKTYGVRLVLENIFTTKSGQYRQTPAQVAETVKAVGHD
+NLAALIDFSHAYIESTFKGLDFREQLRAMAPVTGHLHVHDSFGLPYTTKEFFHPAEATAL
+GIGDLHLPLGWGDIAWEEIFSELTFLPDTTLIMEIGAERFAAEQPACLERARKLAALVND
+RQQAAA
+>tr|A0A1Q9AMT1|A0A1Q9AMT1_9RHIZ
+MSEAGRGWLRERRAEDADKVDFPELFFDLVFVISILQVSHRLATHYDALGFVETLLIMLA
+LWWVWIFTTWVTNWLDPDKLPVRLMLFALTFLGLLLASAVGKAFDEKALLFAGAYVTMQV
+GRSLFALYAFHGHSPDEFSHFRRVTIWLVASAILWIAGALLGGHVQLMLWIAAIGIEYAA
+PAAGFRVPGLGRSEGDDWDVLGAHMAERCALFVIICLGETILVTGRTLSDMPMEPLTFLL
+ASTAFLTTALMWWIYFHFGHDRAAEEIETAREPGEAARTIFTYAHIPIVVAIILSAVGEE
+FVLSHPTGETELKTASALIGAPAIFLLGNVWIKRAATGRIPPSHLIGLALLALAIPMSLV
+LQPYALFVLAMAILAVTAACEVYFLRRALAHLRGKEREKQSGEG
+>tr|A0A1Q9ANQ3|A0A1Q9ANQ3_9RHIZ
+MMAMVGLLSPAGFTLGHIILIVLPASIVAILIGAFTMNRIGKELEDDPEFRRRCAQGLIL
+PPPNALGDPAAAATKEGKRSALIFAFGIADIMASGFTGWKPIVVVGGGAMQPLDTTLFIQ
+MVMLATAALIGAACGVPASDIPKSPLLRLGLSAIVMLFGVAWMANTLLAAHGDLIEKTLT
+EGVH
+>tr|A0A1Q9ACC4|A0A1Q9ACC4_9RHIZ
+MGTSDTGIVAGRLPPAEIEANFTDLHAPLTRHEALVASDRCYFCYDAPCMTACPTAIDIP
+LFIRQISTGNAMGAAKTIFDQNILGGMCARVCPTETLCEQACVRNTAEERPVEIGRLQRF
+ATDTAMQANRQFYRRAAPTGKSIAVVGAGPAGLACAHRLAMKGHEVIVYDAREKAGGLNE
+YGIATYKAVDDFAAREVDYVTAIGGIDIRNRQMLGRDIKLADLTARHDAVFLGVGLAGVN
+ALSAEGEAAEGVEDAVDFIARLRQSPTKADIAVGRRVVVIGGGMTAVDAAVQAKLLGAEE
+VTICYRRGKENMNASEFEQDLAAAKGVTIRHWLQPLSIVTGESGTVAGIEMAYTQIVDGR
+LTTTGETTVIAADQVLKAIGQTFEPVGLDVLTLERGRIVADAEGRTSLEGVWAGGDCVAD
+GEDLTVSAVAQGRDAAESIHRTLMATAAPAIDAVA
+>tr|A0A1Q9AGA1|A0A1Q9AGA1_9RHIZ
+MTLQLDRSLTWQDVAAIAKGEDLALSDATWARIGHAAEIVDRLVETGVRAYGITTGVGAL
+SETVVDRASQAALSRNILFSHACGVGPLLPRESVRAIIAAQIGNFAHGHSGVRPVVIETL
+LSLLSHDMIPEVPSGGSAGYLTHNAHTALVLIGAGWARRGDRRFSGRAALAEIGRKPLVP
+GAKEGLSLVNGTACSTGLLALALSRAAHLLDWADAVACLTLEAAGAQMAAFDEAVLALRP
+SRGIATVGRALRQRLAGSGLIAASCGRRTQDALSLRSIPHAHGAARDLFDQVAATVDREL
+ASVTDNPAVSGSPEAPVVSSQAHAVAPALALCADGLAIALAQLSAMSERRLDRLVNPLVS
+GLPPFLASDAGSQSGFMIAQYTAAALANENRRLAAPASTDGGITSGLQEDFLAHPTAAAL
+KLHAVLDNAEQILAIEFLAGAQAHDLLAERAPRAPGTQALHALMRDQIPPYADDRPLADD
+MAAARALIREMAPPAVPV
+>tr|A0A1Q9AKZ7|A0A1Q9AKZ7_9RHIZ
+MTARLPIGAIAALGVTQIVGYGTLYYSFSILAPGMGASFGWSREWVFAALSVALLVGGFT
+APWFGSLIDRVGAGVVMTFGSVAAAAALVACAFAPGGSTYVAALIGIEVAANLVQYGAAF
+ALLVQLQPNSAQRSITYLTLIAGFASTLFWPLTSRLHAVLSWQDVYLIFAALNLLICLPL
+HAWLAKRVSRSRKQSASALPQPVIGTLPPERRRVAFVVMTLAFALQYLAGSAVLVHMVPL
+LAGLGLGASAAVVGSLFGPSQVASRLINMGLGRRLDPLHLALISAALIPFSAVILILTAP
+SVPGAMLFAVIFGMGNGLLSIVSGTLPLSLFGSDGYGRLQGRMMAARLVASALAPFVLAL
+TMSSFGISASIGGIIGLAVMAVISFASLLRFQRPR
+>tr|A0A1Q9AF52|A0A1Q9AF52_9RHIZ
+MIPFSILDLSPITQGASAADALNNSRRLAQEAEAHGYKRVWLAEHHGMRGIASAATAVVI
+NHVAAGTKTIRVGSGGIMLPNHAPLVIAEQFGTLEALHPGRIDLGLGRAPGTDMRTAAAL
+RRNMDAGAESFPNDVVELQALLAEPGENQGLIAVPGAGSNVPIWLLGSSTYSAQLAAMLG
+LPFAFASHFAPDMLMTALEIYRERFRPSESLSAPYAMVGIMGVAADTDAEADHLFTSMQQ
+SFVALRRNARGQFPPPVDSMEGLWSPAEKQFVEHAMTYAVVGGPERIRRQISDFLDMTRA
+DELIVSMPIFDMEARLKSVRLFAGAQQRLAQAA
+>tr|A0A1Q9AI81|A0A1Q9AI81_9RHIZ
+MADHAPPAYPRLAASGDRAVVIELSDEISEETNRRVVALAEDLDRHPIAGVVETVPTYRS
+LLVSYDPLILRGRDLRSLLLQRLATMRIDGTRGRRLIVPVLYGGGAGLDLAAMAEMKQMH
+AADLVALHGAADYRVYMIGFAPGFAYLGGLPEVLHTPRLAVPRQRIEAGSIGIGGRQASI
+NSVAGPSGWRFIGRTPLRLFDPAREDPFLLKAGDHVRFRAIDQSEAEALDAAVAAGTAQA
+DWEDA
+>tr|A0A1Q9AIB2|A0A1Q9AIB2_9RHIZ
+MTEEKNWYASRTVWGGIVAILASVAHLAGYTLEADDQLGLVDGLSTLAGAAGGILALYGR
+VRARHRLV
+>tr|A0A1Q9AH38|A0A1Q9AH38_9RHIZ
+MRPFFHPSIEDLRPEAILHALSDPDRAAIFARIATQGCVGSCSRLAALGERVIPKSSLSS
+HFKVLREAGLVRSERQGVEMRNSARCAEIDQRFPGLLPAILNAYAMSGGGDVKL
+>tr|A0A1Q9ALD5|A0A1Q9ALD5_9RHIZ
+MKSMIKALIATALMTGTAMAATSERPATKAEIEKIAVGHTVSGAMRYMPNGRYTYKGGNP
+GTYKILQGQVCVTFDNGGKRCDRIVTGDGKSFTLINARGERYPFK
+>tr|A0A1Q9APW0|A0A1Q9APW0_9RHIZ
+MLAIGVMAVVLVGGIGGWAATTSLSSAIVAGGTVVVENNVKKIQHLTGGIVGELKVREGD
+RVEAGQVLIRLDGTTVRANLSIVQNTLAQLYARRARLIAEQTGAETFDIPERIDALTDST
+SAKLLEDSERKLFESRRSALAGMKSQLEARKGQLRDEVEGLTVQLAAIADALTLIDQELS
+GVDKLYAQGLVSMQRVTTLKREKAQLEGDRGARIASRAQSAGKSSEIDLQILQLGEDRRT
+ESAKELTEVEGRIAEYEDRRVAALDQLKRLDITAPIAGRVYQLAVHTVNGVVNPGEQLML
+VVPEADNLTVEARINTTDIDQIHLGQPVEVRFSAFNQRTTPVIDAEVVNIAPDLVTDQRT
+GVSYYPLRIRPKPESLAQLKGLSLYPGMPAETYIKIADRTVVSYLAKPLTEQMQRTFRED
+>tr|A0A1Q9ACW5|A0A1Q9ACW5_9RHIZ
+MRILVTGGAGFIGSALVRYLVSEVGAEVLNVDKLTYAGNLASLSQVEKANNYHFLQADIC
+DRAAMDQALASFRPDRIMHLAAESHVDRSISGAGDFVQTNVIGTFTLLEAARFYWNGLPA
+DQKDAFRFLHVSTDEVYGSLGDEGLFEETTPYDPSSPYSASKAASDHLAIAWHRTYGLPV
+VVSNCSNNYGPFHFPEKLIPLVILNALEGKPLPVYGQGVNIRDWLYVEDHARALHLIASK
+GQLGEKYNVGGRNERRNIDVVKRICALMDEMRPRATPHEDLITYVTDRPGHDARYAIDAT
+RLETELGWKALENFDTGIEKTVRWYLDNEWWWRPLRDGVYSGERLGVLKQG
+>tr|A0A1Q9AIT4|A0A1Q9AIT4_9RHIZ
+MKKALLAVACILPLAACTQTERGAAIGAGSGAVIGGIATGNVRGAAVGAAVGGVAGALIG
+RANEPGRCIYRDQYGRRYTAAC
+>tr|A0A1Q9AJ06|A0A1Q9AJ06_9RHIZ
+MLDDEQAWPEGLQADASPEQPLAAPAAAQALPGEGEALVVDLAGFEGPLDLLLHLARNQR
+VDLARLSVLSLAEQYIAFVARARHLRLELAADYLVMAAWLAYLKSRLLLPLPKKQDDEPS
+GEEMAEALARRLQRLEEVRTLAQALGERPRLGRDVFARGAPEHAPVEGGRRFDAALFDLV
+EAYARLRQRPAETRVTIARRAVWSLAEARLTLARLLQEAPGRWTRLDAFLLDYLAEPQAR
+VTALASAFAASLELVREGRMDMRQSCAFAPIEMRGGRRRFSEEEIRRMEAAHEG
+>tr|A0A1Q9ALL8|A0A1Q9ALL8_9RHIZ
+MSLEGTDEKLVRMANQIATFFLSQPEEVRAEGVATHINKFWEPRMRKRFFEMIDAGEPGF
+LPLVVEASAQIRRPQAPAHTGAGLPVTEESLPGKGVAAGQSLSEPSIPESAAS
+>tr|A0A1Q9AK61|A0A1Q9AK61_9RHIZ
+MITGLNHVAIAVPDLEKAAAPYRALGAQVSAPQDLAEHGVTVVFVTLPNTKIELLAPFGE
+ASPIAGFLEKNPAGGIHHICLEVEDIAAAAETVTGLGARLLGDGRPKNGAHGKPVIFVHP
+KDFQGALVEFEQG
+>tr|A0A1Q9AG75|A0A1Q9AG75_9RHIZ
+MKRSDGLGRQGAKGEATPLYRGVKQAILDRIHSGEWPPRHRVPSENELVAELGVSKMTAN
+RALRELASEGELVRIQGVGSFVAERKGYSALFEVRSIAEEIAERGHVHEAAVVVLAQETA
+SPEVADALELEIGAPVFHSLIVHSENGVPVQVEDRFVCPEAAPAYLEQDFTRITPNAYLT
+AAAPLSGSEHVVEAAMPQPWECKLLTILRTEPCLMIRRRTWSANQVVSLARLIYPGNRYR
+LEARNGRMFEEQPR
+>tr|A0A1Q9AG83|A0A1Q9AG83_9RHIZ
+MLKPFLGLFLAAGLLPLAHAEQAAAAGLRLAVVAPTQGPFAQLGRQIIDGAKFEAEKRGS
+TIIVVPERCEEGNDDALRAGLAAAKPEAALGFLCTESLVSALPDLAKTGIPAITVSVRSD
+ILMEDALKNQWPLFRFAPSGRTEGEAAAQAILSRWRDQPLGLIDDGTIHGRELVAAVRAK
+LEQIGVTATFTDTFRPGQEQQIALVRRLGRSGASHVFVGGDRSDIAIIARDAASEKIPLT
+LMGGEALQAADAGVALAEGTLAIGLPDPAERADAAPVVGAMRAAGLQPDGYVLPAYAAAT
+LLETAKDRAASEGIPLAQALVRDPFPTVLGPVHFTEGHELARSRYRLLEWRGNRFQLASP
+AAD
+>tr|A0A1Q9AKT3|A0A1Q9AKT3_9RHIZ
+MTPVYGDQTAIAFKAPMAVNTDGAPTSYHPDDPAGGKGLAINTICNGANAKLPDGTVLDW
+RKCSQLIAAFNQAKDHWTEPGKPKIEFYAVATKASGVPCTISSGPHAGYFVSTTALAADP
+SKDRCDPAHWLDALTVPFIIYPGAENFTKRGVGVGDLAALYNPTNDTVVYAIVGDRGPRL
+GLSEGSIAVAKALLKRSDDPKSRRDTYGYAVRNAGVVILPKAAMKPPYTAERIRIAGEAA
+LAAWGGTERLKACTNR
+>tr|A0A1Q9ALW6|A0A1Q9ALW6_9RHIZ
+MTKNPIEVITSIERRRRWSREDERLVAACFELDAVVSEIARAAGIHVSQLFRWRKELCRI
+EEPQTETGTVLVPVIVSEAASKISPAMPEPPAPSHLRRKRSDVTIELGRGRRVRVDSDID
+TDALGRILDCVLGLR
+>tr|A0A1Q9ACW4|A0A1Q9ACW4_9RHIZ
+MFDTHTVEIEWAGRPLKLETGKIARQADGAVLATYGETVVLATVVSAKAPKPGQDFFPLT
+VNYQEKTYAAGKIPGGYFKREGRPSENETLVSRLIDRPIRPLFPEGYKNDTQVVVTVMQH
+DLENNPDILSMVATSAALTLSGVPFMGPVGGARVGYINGQYVLNPHLDEMDESSLDLVVA
+GTTDAVLMVESEAKELDEDVMLGAVMFGHKGFQPVIDAIIKLAEVAAKEPRDFQPEDFSA
+LEGEMLSIAEGELREAYKITQKADRYAAVDAVKTKVKAHFFPEGGEPRYTAEEVGAVFKH
+LQAKIVRWNILDTKSRIDGRDLETVRPITAEVGLLPRTHGSALFTRGETQAIVVATLGTG
+EDEQYVDSLTGMYKERFLLHYNFPPYSVGETGRMGSPGRREIGHGKLAWRAIRPMLPSAE
+QFPYTLRVVSEITESNGSSSMATVCGTSLALMDAGVPLAKPVAGIAMGLILEGDRFAVLS
+DILGDEDHLGDMDFKVAGTADGITSLQMDIKIAGITEEIMKVALGQAQGGRKHILGEMAN
+AITESRGQLGEFAPRIEVMNIPVDKIREVIGSGGKVIREIVEKTGAKINIEDDGTIKIAS
+SSGKEIEAARKWIHSIVAEPEVGQIYEGTVVKTADFGAFVNFFGPRDGLVHISQLASDRV
+SKTTDVVKEGDKVWVKLMGFDERGKVRLSMKVVDQATGKEVSGKAEGDAAE
+>tr|A0A1Q9ALQ2|A0A1Q9ALQ2_9RHIZ
+MDVFARISIWKAVYAGREDMAGISLAEMITYALVGSTFLSSWDAALIVREIGAAIRSGQI
+GATLMRPVSFPGMLFAEQLGPRLLQFAVVCLPVIAILASVYGIQPPASPGHFLLFVAHVA
+LSTTLLFLIAIFFGLLSFWVLEAHSLEWFMRGLTALLSGGLVPLWFFPPALGAFAHALPF
+AWITYYPMACYLGRADLFTSTLLFAAGVGWALVLGACIAVLWRLTTRRVTVQGG
+>tr|A0A1Q9AD26|A0A1Q9AD26_9RHIZ
+MNTFIRMLSSSVVGLGLMAGLAHAEEITVATVNNGDMIIMQKLSSAWEKETGNKINWIVL
+EENVLRERVTTDIATKGGQFDVMTIGGYEAPIWGKAGWLTSVDDLGDDYDYADLLDPIKK
+GLTVDGKLYAVPFYTESSFTLYRKDLFDAAGLKMPDQPTYDQIKEFAAKLTDKAKQQYGI
+CLRGKPGWGENMAFLGTMVNTYGGRWFDMDWKPQLTTESWKKAIGDYVKLMQENGPPGAT
+ANGFNENQSLFATGHCAMWIDATSAAGRVYDPKQSQVADKIAFTRSPVEVTPNGSSWSWS
+WNLAIPATTQKAATAKSFLKWATSKAYVKTVGETEGWVAVPPGTRKSTYALPEYQKAAPF
+AETVLKAIMSADPSKPTKDPVPYTGVQFVAIPEFQSIGTVVGQQIGAALAGQQTVDAALE
+AAQAQVQRDMMRAGYIK
+>tr|A0A1Q9ANK0|A0A1Q9ANK0_9RHIZ
+MKKLWITVAFIAVIGAGAWTWRAELPAAASRLQAQLPFEIPGLKALLPPAAPQTASAEGD
+SGGGGGKHHHGDKAADKSGDQSGAKDPTAQAGASGQGDSGQGGSGQGGSGKGGGRRGSTG
+PAAVLTVAAQTGVLPLDIPATGLATADQTTTLAAREQGIVTEILASDGQTVKAGDLIAKL
+DDRLARAAVAKDNAAILRDSATLEETETALRRAHDLFNAKAGTQQSLDQAQAARDTAAAT
+VEADKATRSADQVLLEHTEIRAPFDGRLGEVLVSPGAYLSSGASIVKIAKFDPIYVGFHL
+DERALRQLRLALAKEPVGVTTVPVSLKAPVRSGTISFFDNAVDPASGTILVKARFDNAAG
+GIWPGQAVNLVVHLKNDDPEVIVPTVAVGPGPDGSIAYVIRDGKVVVAPVTVGRVNGDFT
+SIIAGLAPGDHVVTEGQAQLYQGQQVKESFNDKQLDLASAEPLPATPRNASVELAR
+>tr|A0A1Q9ACV6|A0A1Q9ACV6_9RHIZ
+MTQAIRTADLALDERLLAEAEALKIDVPRAAAEGVAQAVKAEKERLWRIENAEAIAACND
+YVAKHGLPLARYRQF
+>tr|A0A1Q9ADQ4|A0A1Q9ADQ4_9RHIZ
+MGSDDFRAGMRKLAGGVTIITSLDLDGRRCGLTATAVCSLSTDPPSLLACVNRESSVAAV
+VEASGVFAVNVLGLDHQGVAEVFAGRAGLAREERFGAAGLWHRRVTGAPVLGDAAVAFEC
+RLAEVKPFGTHLILIGTVAATHLADCLDGPLIYGNGAFSRLAAMPAIA
+>tr|A0A1Q9AFG7|A0A1Q9AFG7_9RHIZ
+MPSFLSIGWKVIFDALWHFSEDDGWAMASHVALSTLLAIFPFLIFGTALGSFLGADKFAE
+TAVHLIFDTWPPSIAKPLADEIVQVLTTPRGGLLTVSVLAAAYFASNGVEALRVSLNRAY
+RVSETRPWYITRLASLGFVLAGVVVLAVLSILLVVVPLALRYADRWLPWLDQLLALVNNW
+GLVVALLMLIAGLSVAHLWLPDGRRKIADVLPGILVTLLLWSIGAYVFALYLKTFANYVS
+TYAGLASIMIVLVFLYMTGAIFIVGAEINAAIMKYKVKRMVIQRFRGTDEKTATEAAADP
+ATPAEEARAEAVLDASQKQVAHGLR
+>tr|A0A1Q9AMN3|A0A1Q9AMN3_9RHIZ
+MTLRILAAVMAASVALPLASARATDLEVTHWWTSGGEAAAVAELAKAFDATGNKWIDGAI
+AGSGGTARPIMVSRITGGDPMGATQFNHGRQAEELVQAGLMRDLSDVAEKEKWKDIIRPA
+SLLDSCTIDGKIYCAPVNIHSWQWLWLSADAFKKAGVGMPKNWNEFVAAAPALEKAGIVP
+LALGGQAWQSAGLFDVLLISLGGKDLYEKVYAQKDADAISGPEMAAVFKAADDARRMSKG
+TNVQDWNQATNMVITGKAGGQVMGDWAQGEFALAGKKAGTDYACLPGLGVNEYITTGGDA
+FYFPLLKDEAKSKAQAALASTLLNPATQVAFNLKKGSLPVRGDVDLAAANDCMKKGLDIL
+AKGNVLKSTDELMSADIQKQKEDLFAEFFSSSMSAADAQKRFAKIIASAD
+>tr|A0A1Q9AKU7|A0A1Q9AKU7_9RHIZ
+MSKVSGSNGGDSKNTLYCSFCGKSQHEVRKLIAGPTVFICDECVELCMDIIREENKTSMV
+KSRDGVPTPQEIIKVLDEYVIGQQQAKRILSVAVHNHYKRLAHASKGSDVELAKSNIMLV
+GPTGCGKTYLAQTLARIIDVPFTMADATTLTEAGYVGEDVENIILKLLQAADYNVERAQR
+GIVYIDEVDKISRKSDNPSITRDVSGEGVQQALLKIMEGTVASVPPQGGRKHPQQEFLQV
+DTTNILFICGGAFAGLDKIISARGEKTSIGFGAAVRAPEDRRVGEVLRELEPEDLVKFGL
+IPEFIGRLPVLATLEDLDEEALIQILSEPKNALIKQYQRLFEMEDVELTFHEDALREIAR
+KAIVRKTGARGLRSIMEKILLDTMFELPTLEGVREVVISDEVVKGSARPLYIYSERTDEK
+ANVSA
+>tr|A0A1Q9ALW8|A0A1Q9ALW8_9RHIZ
+MSQKLLVTGASGHLGQLVLLHLIATLNVDPANIVATTRRPDGLSAFANKGVSVRFADFED
+KASLGPAFEGIDRMLLISTDALDRPGRRLEQQLLAVRAAEEAGIGHVIYTSMPNADKASV
+MVAPDHARTEAAIEASSIPAWTILRMHWYFENLYMTLPAILHNAGQWFHAAGEGKLANLS
+RDDLALAAATVLAGHTEGKQVLTLSGEEALTTAEQADLVSRVLDRKITAISITERSLVEG
+MTKAGMPEHFARIFASFDVNTADGFAGTVTGDFRRITGVGPQSFSDWLANNKAALQALG
+>tr|A0A1Q9AH60|A0A1Q9AH60_9RHIZ
+MSKQTPTLEKATLDKELDKLTLAEQAVYHVRRPSAWLGFAAVFLVVSGLFAYSQAAGQPG
+TVMIIAAAAMAAYMAMNIGANDVTNNVGAAVGAKAISLRTALMIAAVCEVAGAVFAGGRI
+TSTIESGIVHMADMPSRDTFVWVMMAALTSAAICVNIATWSSAAISTTHSVVGGILGAGI
+AAAGIGTVDWPSLASITASWVITPFLGGGIAAALLAFMKIKVVYRQDKMEAAGFWIPIII
+ALMVGTFTVYFALICMDRVARVPANHALAIGLATGLVTYMAFAGRIRRQALLMGDGKHAM
+RRLFRVPLILSAALLSFAHGANDVSNAIGPLSAIVSASSGLAPEPYTVVPLWVTLIGALG
+ISLGLSLYGPKLILVVGAGITKLNPMRAFCVALATALTVLLAVAIRIPVSTTHTAVGAVF
+GIGFFREWFTRNSQLRLDYVRRKTGQTEFRQREEPGSDEMQRRQLVRRSHFMTMVAAWVV
+TVPASGALAALLYTVFIHIF
+>tr|A0A1Q9AGH0|A0A1Q9AGH0_9RHIZ
+MERQDLNDMLSFIAVAEERSFTKAAAKLGTSQSTLSHTIKQLEARLGVRLLTRTTRSVSP
+TDAGDRLLKAFVPRLRELDGELEDLMSARDKPAGAVRITLSDHALETVLWPKVRPLLLEY
+PDIKLELNIDNGFRDIVEERFDAGVRLGESLDKDMIAVRIGPDWRLVAVGAPSYFANRPV
+PRVPQDLVEHVCINTRQSRSGGLYAWEFEKDGRELRVRVDGQIILNSSIVQVEAAMAGYG
+IAYVPENLVERQIANGELIQVLDDWCPLFTGYYLYYPSRRQNSAAFLLIMNALRFRTE
+>tr|A0A1Q9AMC1|A0A1Q9AMC1_9RHIZ
+MVSRAQRGAVADWFWTIDRFFLALFILLMGIGFMLSFAGSPAVAERLGLDSFHFVRRHSI
+FLIPSLITMIGLSFLTPRQVRRTAVIMLAVMILLMVLVLFFGQEVKGGRRWIGIGALSLQ
+PSEFMKPAFIVTCAWLFSEHARQPEVPGNLFAILLYVMVVALLIAQPDLGQTILTTAVWG
+GMFFMAGMPWLWIILLGGFATGGLVVAYTLLPHVAGRIDRFMTGEGDTFQVDTAREAIIR
+GDWLGRGPGEGIVKRIIPDSHTDFIFSVAAEEFGILFCMVIVLIFALVVMRGLTLAMRER
+DDFTRLAVAGLVLQMGVQSMINVGVNLELLPAKGMTLPLISYGGSSMVAICVTAGFILAL
+TRHRPEKRAVERSMFRSGIGVPAE
+>tr|A0A1Q9ALH3|A0A1Q9ALH3_9RHIZ
+MIAVIQTVLFLLNIIWFFVIASAIFSWLYAFNVINTNNQAINMIGRSLYQLTEPLYRPIR
+RILPDMGGVDLSPLVVLVILYFLELFIKTTVAPALLGASMY
+>tr|A0A1Q9ALH9|A0A1Q9ALH9_9RHIZ
+MLAHIPLEAFRVFDAACRHMNFSRAGRELNVTQAAVSRRIKALEEHLGAALFHRSGKNLT
+LTPEGDHLFRRIRATLDYLEESLEPFRPQTGGTIALAASGSVSHLWLGRRLRSFSAQHPG
+ISLSLLTTDALPELAAESHDLVILYSTGDHPRWALTPLVPEVLAPVAAPAYLQRLGIAAP
+QRLSADEIARLDLIDYSRANAHWISFRQWFARLKTPPHAPPGRARVSFSLYSLAIEAALD
+GDGVALGSLGLIGDLVGEGRLVVLGRDLLETGYGYHLGLPRSRASTPEALRLHAHLIGAT
+GIQPPDLPAAPPEATQPGERPR
+>tr|A0A1Q9AFV2|A0A1Q9AFV2_9RHIZ
+MAERSFAREVEDLKLGAGEIFSGEGILAITKALLQAGVSYVGGYQGSPISHLMDVLADAK
+EVMEELGVHFESSASEAAAAAMLSASVMYPVRGAVTWKSTAGTNVASDALSNLASGGVTG
+GALVIIGEDYGEGSSIMQERSHAFAMKSQMWLLTPRPNLTAIVEAVEKGFELSEASNTPV
+MLQVGIRSCHVHGQFVAKDNKRPDFTLKQALENPVRDLSRIVLPPASFLHEKEKLEKRWP
+AAVQYVKENRLNEYFGPQDGEVGLILQGGLYNSTLRALQHLGLADVYGNSRLPLYVMNVS
+YPLIDDEIVAFAADKKAVLMIEEGAPEYIEQALHTLMRRRDLQTRISGKDVLPLGGEYTT
+PVLIKGLTGFLEAHAAHLLGNRPPVPDPSPILADPKVKALAEVVPARPAGFCTGCPERPI
+FAAMKLVEKELGPHHVSADIGCHLFSILPPFNIGGTTMGYGLGPASASAFNVEAEKRAIS
+VMGDGGFWHNGLTTSVGNAVFNKQDGVTIIVDNFYSSATGGQDVLSSRAINPRRKTNNSI
+VNAVKGIGATWVRQIDRTYDVAKMRDTLKEALTTSEKGPKIIVASSECMLNKQRRVKPQF
+AKAVKDGKRMVKERFGVDEDVCTGDHACIRLSGCPSLSVKHTDDPLKDDPVAAIDNSCVG
+CGNCGEVSEAAVLCPSFYRADVIHNPTGLDRFLYRMRSAVIGWLQKRRASARVTFAA
+>tr|A0A1Q9AHZ0|A0A1Q9AHZ0_9RHIZ
+MPAYQAATDKDAFTDAVREWLSADAQRRFDEATNAIAAEGRFGGTDAWTSEIGMLEEATR
+LVREAREKEDPAAGD
+>tr|A0A1Q9AKW0|A0A1Q9AKW0_9RHIZ
+MAVERTFSMIKPDATKRNLTGAITKMIEDAGLRVVASKRVWMSQREAEGFYAVHKDRPFF
+GELVAGMTSGPTIVQVLEGENAILKNREIMGATNPANADEGTIRKTHALSIGENSVHGSD
+APETAAQEIKYWFADTEIVG
+>tr|A0A1Q9ACY0|A0A1Q9ACY0_9RHIZ
+MSLKRLPFDNPEVPYHSYNSAEHVARYAALRDSVAGKRVLDVACGEGYGCHLLRGWGARD
+VVGVEIDPDAVATAERLFGGEGVTLVEGDAERLETVLAGAEPFDVIVSFATVAHLGKPEA
+FLRALPGLLAEGGMIVISCPNDAAFQGHHNIFHIRPYSFADFRELAEAQLGPADGWLMST
+PILGMMNFVAGDAFVEVPHHDQMSMVKVKPVENAVQIPAQHNIVTTQDNCADYIGVWGGT
+LPGNVALSTLSVPGYFEPWRIMGALRARMAELEANQKTGPLESERLQAVIGEFERLSVEW
+RQAQFESRDSEIARLKSLCDGQAERLRASAARQTALQQRLDSLLPDPAAPQGAASADLLQ
+ELAAIRATTVGLIEKKGPPREQGPLEVTRLSVKAREMRFENEVQLLRKRLVSEAERAQLV
+IADLQKQLDESRRLINDWYVPEIGRLKETVETHEKVKREWWEPQLEIRAERIRVLEEALA
+ATAEDSGAADEAAPQESGAAGRSDRPE
+>tr|A0A1Q9AJ04|A0A1Q9AJ04_9RHIZ
+MVTYIEADSAPLRNTGAIRLYRPEDFEGMRRACAVTARCLDGLVDIVKPGVTTEAIDRFV
+FDFGMDHGALPATLNYRGYTKSSCTSINHVVCHGIPNDKPLREGDIVNIDVTYVVDGWHG
+DSSRMYPVGEIKRAAERLLEITHECLMLGIAAVKPGARTGAIGQAIQAHAEANRCSVVRD
+FCGHGVGRLFHDAPNILHYGRDSDGPVLREGMIFTIEPMINLGRPHVKVLSDGWTAVTRD
+RSLSAQYEHAVGVTATGCEIFTLSPAGLDRPGLPAAA
+>tr|A0A1Q9APL0|A0A1Q9APL0_9RHIZ
+MSDKPTETKTETALSSDVTEVRAQKLARLRETIGDVYPAHFHRSHTSAELAEKYADLVPD
+TETEDRVTVAGRVYSARNSGMFIDLHDASGKIQIFSHKDTTPEEARALLPMIDLGDIIGV
+TGVIRRTKRGELTINAQEITMLTKALLPMPEKWHGLSDIELRYRKRHLDIMTNEDSKLRF
+RQRSRIISGVRRFMEEDGFMEVETPMLHSVYGGATAEPFKTHHNTLKLDMYLRIAPELFL
+KRTLVSGLSDKVFEINRNFRNEGVSTRHNPEFTMMECYWAYADYEDMMDLVERLFASLAE
+TIHGSTDVAYGEQTLSFKGPFRRVPMPDAVKEATGIDFMAIGTDDEARAAAKAAGFEVEK
+DATWGECLAFIFEEKVEGTLIQPSHVTHFPKDISPFAKEVPGEPRLVERFETYCNAWEIG
+NAFSELNDPEEQRRRMVEQLEQAHARGEKEKQLDDEFLDAIDQGMPPAGGLGIGIDRLIM
+LLTNAPSIRDVILFPARRAKAD
+>tr|A0A1Q9AQE4|A0A1Q9AQE4_9RHIZ
+MNRRHFLIASSTVAGLALAPRLSFAAAGPIDVYCGSDKNVLDFWNNVILPAFAKAHPDIA
+VKVTDAGNNNGLRAIADRGLAALASNTDPQADMFETFDPLLPKGGIEAGLWVKAAEVKGH
+ERINPLAIDSDYSLPYRGSQVLLAYDATKLPAKDAPKTWEQLVAWIKANPGQFVYNRPDK
+GGSGGNFVRRAIHEVNGRDPKAFTVGNYSEEAAAKMLPPAWELLKDLAPSLYEKGAYASG
+NTQSIQLLAQGVVTMAPVWSDQVLQAINQGVLPETTGLVQLTDLALCGGFAHSTLFSNGA
+HKDAALTLASFLLTQEIQEAVITELGGFPGVSWDHLSDALRQKYADVIPATIPTFPSGDW
+EKAVNDGWYRNVAPTISRT
+>tr|A0A1Q9AQM1|A0A1Q9AQM1_9RHIZ
+MKILVAEDDETMAGYVRKGLLEQGFSVDCVSDGREALTYCLYNTCDLAIVDRMMPGLDGL
+TLVKALRASNSSLPVIFLTAVSDIEDKVEGLMAGGDDYIVKPFHFSELLARIHALSRRPK
+ENSHKTEFTCHDLKLDLLKRVAIRQGQVIDLQNKEFALLELLMEAEGRVVSRTMILERIW
+DFSFDPGTTVVETHISKLRQKIDKPFDTALIQTVRNMGYRIRAPH
+>tr|A0A1Q9AIQ9|A0A1Q9AIQ9_9RHIZ
+MKSTLRISLKSGERIFVNGAVLRVDRKVAVEFLNDVTFLLENHVLQPEDATTPLKQLYFI
+AQMILINPEGAEQSTAMFRKSVTMLLTCFKNEEVLSELKRVDALVVQGRAFDALKAIRGL
+YPIEDRILNNHEMAPTTVEQIRREIAPWR
+>tr|A0A1Q9AMK9|A0A1Q9AMK9_9RHIZ
+MTTILVTGASGKLGGLVLDHLLASGKVTPGDLVAGSRDPSKLSAYAEKGVQTRAVDFDGD
+LSQAFAGIDVALIISTDALGEPGKREAQHKAAVAAAKAAGVGHILYTSLPQAEQSVITFA
+PDHLNTELAMKASGLPYTLLRDGWYAENLFMSLPHAVASGQWFSACGEGRNSYLARTDMA
+AAIAGALLLPAENKTYTLTGEEAYTVREIAAMAGAVAGKEIAVIDVTEEQLSEGLKAAGL
+PEGFIPTLVSFDANTRLGHFEPVTQDAAILSGRKPQSLKSFLEENKAVFAG
+>tr|A0A1Q9AF59|A0A1Q9AF59_9RHIZ
+MSVHEGSAAVAIIPAGTRQAEDKQEAAGQRPVCSVKRNLGERMTCSAQRPFMPMIKTSL
+>tr|A0A1Q9AHS2|A0A1Q9AHS2_9RHIZ
+MASIDLRSVSKLYPNGSYGVRDVDLRIENGEFVIFLGPSGCGKSTTLRMIAGLESISAGD
+LFIGDRNMNRVPPRDRNVAVVFQSYALYPHMSVRANMGFGLKMRGATGEEIARKTEETAA
+LLGLGQLLDRKPAALSGGQRQRVALGRAIVREPDVFLLDEPLSNLDAQLRAEMRLELVKL
+HRRLGRTTIHVTHDQVEAMTMGDRICIMREGRLIQAGRPLDIYADPVNLFVARFLASPAM
+NLLPVRLSQEAGSLVIDGGEGLRFTVPARHVAAYAPHAGTQVIFGLRPEDIYEAPQGART
+QPFALRVTAVEALGAEIILSGTAGGGTARPLEITARLSRHARVQAGETVTLHADLLPAHL
+FDPVSETAIARPSLRGAA
+>tr|A0A1Q9AIR4|A0A1Q9AIR4_9RHIZ
+MTITETEIAARPLPAVQGRFVGTSSSNARRQMVARLIDHAERGHLAKALTLLTQHVGASH
+YLLARCDRAKNGGVDFAICSDWPFDLVRRIGRVMADSHAKSNELEKCLTVLQPAFMMLPD
+EAVLPRGVSRQYCQIAFAVGRVRLSLLLLFPQDVILSRESLREVALLTGYFACAAPEAHV
+EPDRECDLTERELECVFWIAEGKTSDEIAVILGISRNTINNYITSVMRKTATKTRSEAIA
+YSVRNNLV
+>tr|A0A1Q9AMQ7|A0A1Q9AMQ7_9RHIZ
+MSVVYPYPVEALSDQLRIESILWDIQRNDEISGDGEGSVWQAELAPPLWVGTISLVPMDS
+GEARRIAARLRKLHGMQEALFFVDPSTEYPQADPEGLILGNATINIASVSSDRDAMSFSG
+FPAGYRLTEGDKLQISYGSDPVRFAFLEISEAGAANGVGTTPQLGVFPHVPVGVGAGLSA
+RFAKPACRCVVMTGSHNPGTARKVVTEGAGFKLIEKR
+>tr|A0A1Q9AI03|A0A1Q9AI03_9RHIZ
+MANTGSREARDSCLVQAAAQTGSGSRKARLRQAGDIAKGQSSRHSGRQRQASPAFRPVFK
+P
+>tr|A0A1Q9AP30|A0A1Q9AP30_9RHIZ
+MATTRETCGASARTEPANNARPVSPGQRPAGRGWLDRLPPLALASLYALLSIALAALPHL
+LNPGDYVGADNDDVMRLIEVRDLLAGQSWFDMVQPRLGLDGGTLMHWSRFIDLPIALLIR
+GFSLFLAPLQAEAAALAVWPLCLILPVFWGLALGGRNLGTRDTVSIACLLGLFFIVGTAR
+FDPGAIDHHNVQIALVSLLTAMLLDPRRRAASHAIAGLCVALAMAVGAETAPLMAAACGC
+VALAWVWHGRDMARAAASFGLTLAAALSAAFFLTIPPSHYGMVTCDNLSIGFVSLGAAGG
+AMLPGAALTLSGRSRAVRASALGVAALVVLILARAIAPQCLADPLANLDPLLRRLWLDYV
+SEAQSLPALWHNAPELVPGAYAVGVIAVVACLVALVQRRRVEAHLTLLALLLIQLTVAAI
+QVRGGIFACFIALFPLSDALTRLRQTAQARPRTPAFRASALRTVAFLGLFAASVPFVWSL
+FAISLTRNPGAITTSMRGADKAIRKSCIAPAALAPLQAEPVGRVSASVDLGTAILRYTDQ
+RVLSAPYHRNQAGMLAQLRIGMAKPEDALALIRQAQVTLVLLCPGEGSDELLAREAPDGL
+SAALLAGRIPDYLTPVETVTESPIRLYRVKPA
+>tr|A0A1Q9AC69|A0A1Q9AC69_9RHIZ
+MARRRHGCVRSVTKSRFTVRFWGVRGSLPVSGAAFQTYGGNTICIEMRCGDHCLIFDAGS
+GLMPAGMALQAEGVSRFDLFFSHSHYDHILGLPFFPPIYDRQSCVTFWSGHLAGKMTTSA
+MIDEFMRPPWFPVSPDICCAALKTRDFQPGDTLSPVAGVTLKTGMLNHPGGAVGYRVDWD
+GRSVAMITDTEHEPDRLDPTVLALIEKTDLFIYDASYTEAEMPRYRGYGHSSWQQAVRLA
+KAAGAARVALIHHSPKRSDGELDAIHLSAQSEFPGAFVARDGQVLDL
+>tr|A0A1Q9ANE4|A0A1Q9ANE4_9RHIZ
+MFRSALLRSPHAAAAGTLLPALRRLTAVAALGLVLSGCLALEDVAQAPQLSSQVKAQMAA
+KGTTPESPVLVRIFKQESELEIWKADRSGNFALFKTYPMCRWSGKLGPKTKAGDRQAPEG
+FYSVSAGQLNPKSQYYVSFNLGYPNRLEQALGYTGEALMVHGACSSSGCYAMTDKGVGEI
+YAIVAKALESGQKSFQVQAYPFRMTAANMAAHRGDPNMPFWRTLKEGYDAFSITRRPPKV
+SACGGRYVFNKDFAGGEPENPVAACPPATDLLDATLTARLQAEESKVDTALAGGLPVSSS
+MSAYVDGGMHKSFRAILQQAGPKTMAAKVSGTKYPVSRPEAALADPFPGE
+>tr|A0A1Q9AQN8|A0A1Q9AQN8_9RHIZ
+MTKYKLEYIWLDGYKPVPNLRGKTQIKEFDTFPTLEQLPLWGFDGSSTMQAEGRSSDCVL
+KPVAIYPDPARTNGALVMCEVMMPDGVTPHPTNARATILDDEGTWFGFEQEYFFYQNGRP
+LGFPEHGYPAPQGPYYTGVGYSNVGDVAREIVEEHLDLCLAAGINHEGINAEVAKGQWEF
+QIFGKGSKRAADEIWMARYLLQRLTEKYGIDIEYHCKPLGDTDWNGSGMHCNFSTKYMRE
+VGGKAYFEALMAAFEKNLMEHIDVYGPDNDKRLTGKHETAPWNKFSYGVADRGASIRVPH
+SFIKNDYKGYLEDRRPNSQGDPYQIASIVLKTIAEVPTSGEASAAA
+>tr|A0A1Q9ACA5|A0A1Q9ACA5_9RHIZ
+MSSMPSLNALRAFEAAARHRSVTLASSELFVTHGAVSRQVKALEEALGVTLLAKTARGME
+PTPEGQRLAEGLTSAFKLIQESVARVRPEPLTLSCSSSIMMGWIIPRIGQFHELHPQIEL
+QFNLNFSRIDFVRDKIGMAIRSSIIEPPQDAVIRELGVEAIGPVCAPDYLEQAGIRQQTD
+LPAATLLASRTRPEAWRDWQGVAGLGGEALAAKTSFDHFYLLIQAAACGLGMAVVPRMLV
+MEQLSAGRLVAPFGFKPGPRRIVLWVARHLAGRPDAVALERWLTAEMRATSDALS
+>tr|A0A1Q9AF45|A0A1Q9AF45_9RHIZ
+MRTEDFDCQACGACCAYSEEWPRFSLESDEDLAKIPEAYVSADLSGMRCESDRCVALEGT
+LGLHVGCRIYAVRPIVCRDCMPGDPECLMARDRLTETLQQHLHGAAQETPGEPS
+>tr|A0A1Q9AM07|A0A1Q9AM07_9RHIZ
+MSTDICYNLEVRSKIGAAGELHEGEARVALMPDSAAQFHKLGHECLIEAGAGETAGFPDD
+A
+>tr|A0A1Q9AJ10|A0A1Q9AJ10_9RHIZ
+MQPIQLFDLASRQAQWLAVRQNVVAGNIANANTPGYAAKDVKPFESVLRETPFQLAATNP
+AHFLEGNRAAEVIETSRMDGNEVKQSGNSVSMEEELMKTGEIKRDFDLSAGLVKSFNRMM
+LMTVRR
+>tr|A0A1Q9AP11|A0A1Q9AP11_9RHIZ
+MISHPPLRIEGLRKRFMSHGREIHALNGVSLTLERGETLGIIGESGSGKSTLGRIAVGLD
+RPTAGQLSIKGVRVDTLPAAQRAEALRPCQMIFQDPYSSLNPRLTVGRQIGEGLFARGER
+DWGVIDGVVADLLDRVGLSRDHADRYPHEFSGGQRQRIAIARAIAPNPEIVVADEPVSAL
+DVTVQAQILDLLAELKAGRDLSYLFISHDMAVIARLCDRVAVMDRGRIVEYGPVASVIES
+PRHPYTQTLLNAVPRFGRRRAGLKPAAVALPQHDDDDCFVTVAHEHGVLEAKAGW
+>tr|A0A1Q9ADJ5|A0A1Q9ADJ5_9RHIZ
+MNMVNPTLAPDSLREDAIHSNPQRLGARLRLARQTRGLTLKALAQAADCSESLLSKIENG
+KASPSLPMLHRLVRALDSNIGWMFEETDTDEGVIFRAGQRPLISLDPLRRGEGISLERII
+PYSPGHLLQCNIHHIDVGGEGAGPIQHVGEEVGYVLSGEIELMIGDKTFRLASGDSFVFN
+SELPHWYRNVGSERASIFWVNTPPTF
+>tr|A0A1Q9ADD3|A0A1Q9ADD3_9RHIZ
+MRIGKKTPGRQARSVIWALIIVLAIAFLIGALATRVVSTMGEAADEIDSDRSVDAVEAAV
+LSVTARLAEANRDNAIWDTSYTALSPEAVSSGAAADWIDRTWGTASADYPLYDGVIVLDG
+EGRQVAAFFKGKPFAAEQALGSDLLTQSREAMRTSKSAVASFYLKDAQAGWQVALISTLA
+IQPERPERDRPPRYTLSFIKLFDEVFLHEIAQSFQVKDLSLAVQPRPGFLSVALNDWQGR
+PVAYLLWPPLQLGAALYHRVEPVLAGISVLFVLFVIVVVAAAGLEVRRLRQLAQAADHDA
+THDELTGLLNRSGLIRALAPGQRGVLHLIDLDGFKAVNDSWGHAVGDALLREVGARLTAF
+DPGRISPARLGGDEFALVQKDGADPALIGREIVALLARPFRIGARMIEIGASIGFATADS
+ALAPLEIIRRADMALYRAKDAGRAQVVAYDDELDADRQRLAGEEVALKRAIEGGEIAVVY
+QLLFSAQSGRPTGVEALARWMTPAGMVGPDRFIPLAERVGVIDALFKRVMRQALETLAPW
+PDLDLSINVSPIQLRNPGFSAEVLALMAAADFPASRLILEITEGVLLDQPERARRAIDKL
+KQAGVRFAMDDFGTGHTGIGMLRSFGFDTLKVDRTLIASGDDAVLTATIKLAAALSLPVT
+AEGIETEAQAQTARSAGCEQLQGFLLARPLDRASLDKVLAETLEPGAAPAARTAEANQSD
+MTAA
+>tr|A0A1Q9AEC7|A0A1Q9AEC7_9RHIZ
+MDNRKRDFITLADRLRLDREELAAFVGRPAATVKAWRSPSHPATPPQLVVDLLRGEVLDR
+IRKEVRAQGYDLIRQSAA
+>tr|A0A1Q9AH24|A0A1Q9AH24_9RHIZ
+MVIRQLPETLINQIAAGEVIERPASAAKELIENALDAGARRIEIATAGGGKTLLRITDDG
+CGMSPEDLTLAVRRHCTSKLDSDLNAIRTLGFRGEALPSIGSVSRLRITSRPQAAGEGAE
+ILLEGGRLTPVRPAAANRGTIVEVRDLFFATPARLKFMKTERAEAAAISEVVRRMAIAFP
+AVRFVLSGTDRTTLEFAATGDDRLERIAQVLGRDFRENALEIDAEREDVALTGFIGLPTF
+NRGNSLQQYAFVNGRPVQDRLIFQALRAAYAETIPQGRYPVAVLSIAIDPALVDVNVHPA
+KADVRFRDPGLVRGLIIGAIRQALATGGDRASSTGASGLMRAFRPEGAANSAAAQPARPF
+GFHRSEAPPGDWSLERSPYRPYAPAGATFAGDPAAATSASAPSGSPDPFGAGLSEASPAQ
+SYADSVQAAFSSLLTPSARADAPLAPPDPEALRHPLGAARAQIHENYIVAQTEDGLVIVD
+QHAAHERLVFETLRKGLRERPVTAQTLLIPDIVDLPEEDCDRLMEQAEAFRPLGLSIERF
+GPGAIAVRETPAMLGKVDVPGLIRGLADELAEWDTANGLSARLEHVAATMACHGSVRSGR
+RLRIEEMNALLREMEATPGSGQCNHGRPTYIALKLSDIERLFGRS
+>tr|A0A1Q9AMV1|A0A1Q9AMV1_9RHIZ
+MDAITAALEQLTTALDLFCGPAGVFTWFAGQSLLACGDAGWGDEIAGGFKITLFLALATL
+PFGLAFGFFVALAKRSREPSLRRSANIYTTLFRGLPELLTLFIVYYGLQILVQQALSAVG
+YDGPVEINAFAAGMVALGVVFAAYASEVLESAFNAIPQGQYEAGYALGLSKGRTMRLIVL
+PQLLRVALPGLGNLWMELLKNTALVSVIGLPDILRQTGVAARVTKRAFEFFGLACVLFIL
+LALATSVVFSLLEKRARRAEVVR
+>tr|A0A1Q9AEU5|A0A1Q9AEU5_9RHIZ
+MADLKNIAEVAPILFGLRPDVIAGGPPCQDYSSAGGRQEGDRAGLTAAYAMLIAIVRPEW
+IVMENVPGALKSKAWQQAEAILRNAGYGFTIQLLDAAFYGVGQTRERLIVVGRLGEEDGF
+LTDALVAAASRRPTTARDVLGDAIGDRFYVHPRYMHKKRIWSADEPAPTVRSTYARRVPP
+DYVPISTDAQGDGAPSELTRDLVAALQGFPADFDWSSCGLEDRDRMGGNAVPVPLARAIA
+TVILQRHRGETQPALERDFSSWLRDRGHAPSTVEDVRAKANRARRLLGGRIMSEIAAEVA
+KLEGAAAFQELPAKTQSALRVALRLHAEFRQERRQAPLKKAVKARKTSAKKAA
+>tr|A0A1Q9ANJ2|A0A1Q9ANJ2_9RHIZ
+MSIFRLFRKQSSAPVARERLQLLLAHERVSTGSDLVQLLREEILAVIAKHVELDNERVQV
+KMDRTENVSILEIDVEIPRDAVKQAA
+>tr|A0A1Q9AFW3|A0A1Q9AFW3_9RHIZ
+MSALLDGALPPAQNPRLFGHRSAEQFLAESYRSGKGHHAILIEGPEGIGKATLAFRFAYH
+VLSHPDPALAPAMLADPDPQSPVFRQIVSGASHNLLHLTRPVDEKTGREKSAITVEEVRR
+AGRFFSQTSGTGNWRIVIVDPADDLNRNAANALLKILEEPPRRALFLVLTHAPGKLLPTI
+RSRCLPLALRPLSPEDIAAALSALGVALPQGRAEQVIDAADGSVAEALKLVNHGGLDILE
+AFAALLAKEDAAARKDMHRLADVLSGRDSETIFDFFTALIETHVRDAARQAAMAGDLGRA
+DRLAQLSGTLTEKLATAAAYNLDRKQTVLSLIDAIRAER
+>tr|A0A1Q9ALG9|A0A1Q9ALG9_9RHIZ
+MIDFTVVDLARLQFAATALYHFLFVPLTLGLSFMMAIMESVYVMTGRPVWRRMTLFWGTL
+FGINFAMGVATGIVMEFQFGMNWSYYSHYVGDVFGAPLAIEGLMAFFLEATFIGLFFFGW
+DRLSKVGHLIVTWLTAFGANFSALWILVANGWMQNPVGARFNPDTMRMEVTNFAEVIFNP
+VAQAKFVHTVSAGYTTGAMFVMAISAFYLLRGRHVDLAKRSMAVAASFGLASALSVVVLG
+DESGYVATEHQRMKIAAVEAMWETEPAPAGLTLFALPGKDGNAYEVKIPWILGLITTRSL
+NTEVPGIRPLVEHAETRIRSGMQAAADLEAIKADPKNQAAREAFAANWKDLGYGLLLKRY
+RDDVQNATPEEIRKAALDTVPDVAVLFWSFRIMVAMGLYMIGFFALALVLSTLHRLRQTP
+AFLKLAFFSLPVPWIAIESGWLVAEYGRQPWAIEGVLPTFYAASGLSVVDLAISLGFFVT
+LYTALLGVMVYLMVKTIKAGPASYTLLEGLQGSSRFPEAAAANPSR
+>tr|A0A1Q9AK27|A0A1Q9AK27_9RHIZ
+MTRALLTFATGALLAATMAMPVPALAGGQVSFNVAPANARDAELFSTGLRVYSLFRGIKN
+GEIRQSGSRNAAGLAQDGRGNLGVIRQHGNGNRGTLRQTGNDNAYGLFQYGRNNDDAIVQ
+TGDNNSGATFSYGW
+>tr|A0A1Q9ANR5|A0A1Q9ANR5_9RHIZ
+MLGCAPIEYLTRWRMAIAKDALMRGDKTLDRIAEEIGYESASAFSTAFRKRFGCPPGKFA
+RAAA
+>tr|A0A1Q9AJA3|A0A1Q9AJA3_9RHIZ
+MDAIIKNFPAPEGVDDRPSQKEAEDAVRVLLRWAGEDPEREGLRDTPARVAKSYRELFAG
+YDLAAEDVLGRTFEEVAGYDEMVLVKDIPFFSHCEHHMVPIIGRAHVAYLPQGRVLGLSK
+IARVVDIYGRRLQTQESMTAQIATAIDETLRPRGVAVMIEAEHLCMAMRGVQKQGSTTLT
+TTFTGAFKTDAAEQARFMTFLRAQR
+>tr|A0A1Q9AD14|A0A1Q9AD14_9RHIZ
+MKLDGGETQARRAAFDVSILLTLRDEARHVLRTLLSLEEAVAYARQSGATFELVIVLDQA
+DRETSAIVQTYDYGAFDGASLVEVGHASPALSRNDGVRAARGTHIAMAEAGVLVSFDFYA
+RMLAAAGARERPAILFPDYVIGFGETAAIVKFYGPEQIGIGDFFAQNPYDGAPLFCHRSL
+FDDLRFADVGDDARFAYEDWHFNSECLARGHEILTVAGTVVFRRERAQVALARQARALAK
+PAVPPSRLFRPYTYLRLTAPAFDRHPPAGALPAALPAEAFMRQPGMVDLVAAANRIDPGI
+NLERLLRGTVRSNLPADRQAAEAYFHLCRAVAGLQFTDVFLLPFLTAGGGEKYLISIAEA
+LVDLEPGSRCLFLAGQPFGEAAWLDRLPEGSIFVDLTTLTATPISMDAIQLVTLRLLQNI
+VGVRRIHVKHSYYGDGFLKQSAAKIGGAEIYQYYFCDPAGEFFGQDFRNGYAFDVISEAA
+DVIHAIVSDHARHLADAVDRIGLPIAEKAHVLYALCEPFATEPLRGAQPPHKRLMWASRI
+DGQKRPDLLPLIARQLARERPDIVIEVFGTQTDARFDPAAFDGLPNLVHRGPFTRFDALP
+LEAYDALLYTAAYDGLPNIILEAAAAGLPVLAPDVGGIGEFIDEETGILIDSPVGREAVA
+DNYVKAIGALYDGWPEALERAARASDRLRRRHSRAAYRKRIGEIFKPVSALAGPPSDSIE
+PSDGHRLSEQAGS
+>tr|A0A1Q9AIY8|A0A1Q9AIY8_9RHIZ
+MLGTILLIILILLLIGALPTWGHSRSWGYAPSGGLGLVVIILLILVLMGRI
+>tr|A0A1Q9AN81|A0A1Q9AN81_9RHIZ
+MQKISIEVMRALDAAIVRGATLTLQGQMDRKLYAETNKVIEAAGGKWDRRARAHVFSGEA
+LEAIEPILLTGSYSRTKQDFGQFDTPEPLADEVVTRAGIMPGMTVLEPSAGIGRMAAAAR
+RAGAAVTCWEIDARRAEPLRAIADSLTIGDFLAAAPAVGFDRVVMNPPFARQDDIRHVMH
+AHRFLAPGGFLVAIMSAGVQFRENRLSSDFRAFVEAQGGAIEPLPDGSFRESGTHVATCL
+VTLPA
+>tr|A0A1Q9AI40|A0A1Q9AI40_9RHIZ
+MRPFFKLRARRLPDEAGQAPAPRAPRPDEAKSAAILAALSAGAPAQWTGRSYGALAREGF
+LRNPVAYRCVRLVAEAAGAVPLLLYTRQQELTEHPVLTLLARPNERQSGIDFLETLYGHL
+LLSGNAYVEGVAIDGRLRALHLLRPDRIRIVEGADGWPDAYEYRLGGRVRRHGAADGLLL
+HLRLFHPLDDHLGYPPLAAAQTALDLSNAAARWNKALLDNSARPSGALVYQPKEGGNLPP
+EQFDRLKSELDDGYTGPARAGRPLLLEGGLDWKPMGLSPREMDFVEARNGAARDIALAFG
+VPPMMLGLPGDNTYANYQEANRAFFRLTVLPMIGRTLAALSVWFGERFGEDLSLRPDLDA
+VAGLSAERGELWKRLSEADFLTEAEKRQAVGY
+>tr|A0A1Q9AG93|A0A1Q9AG93_9RHIZ
+MPPHIDQGPASDQGSQRIGLGFREFIITIALMTASIAFAIDIMLPALPHIASSLKVTNAN
+DAQLVIAVFFFGFGLSQLVFGSLADAFGRRRVLLAGLAIFTVTMLAAAWTESFTALLILR
+FCQGIGGAAVRICTTAITRDCFGGREMARVMSYIMIVFMMVPILAPTLGQAIITYGDWPW
+IFVLLGVVGAILFVWASLRMRESLPQAERQPLSFGSVASGFSTVLTNRVTSGYMLGLTLF
+TGVICAFIVTVQQVFGTVYGLGDWLPIAFAGTASGIAIANFANGYFVRRFGMRRISHAAM
+IGFTLLSAALYLMALAGTPPFIVTYLGISVLLMMFAAIATNFTAISLEPMGHIAGTATAI
+TGFVSTTGGAIVGGLIGQMFNGTVQPLFGGFTAFGALTIIAVLWAEGGRLFTHPGDETAL
+DPGAGHL
+>tr|A0A1Q9AKR5|A0A1Q9AKR5_9RHIZ
+MTRIKTRSGTELYVKDWGEGRPVVLLHGWPLTSDTWDDFAYVAANNGFRAIAYDRRGFGR
+SDQPWTGYDYDTLADDLADVMEAKGLDDAALFGFSMGGGEVARYLSRHGGKGVSKVALVA
+SVVPYMLQTDDNPEGTPQSTFDGMTEGMIEDRAHFFASFMKTFYGVGIFTGNVSDEVVEW
+SVNQSMMAGLKPTLACAEAFATTDFRPDLPAFRAPTLIIHGTGDQTVPIEAAGRAAARAI
+PGSTLIEYDGAPHGLFASHKQRLTDDLLAFLRS
+>tr|A0A1Q9AI26|A0A1Q9AI26_9RHIZ
+MKAHSVEQIIDAALDQYVPGIENDASRFQALVFQRALKSFLAMGASGYPCDGCNHVGSQQ
+LRQRAVALIEKARKQQIVDSGFVVDDGHTSGLRILTALK
+>tr|A0A1Q9AFJ5|A0A1Q9AFJ5_9RHIZ
+MRTTLAALQMCSGTDPHRNAEAMERLVRAAAAKGAHYVQTPEMTGALQRDRAALRAALKP
+EEEDVIVATARRLSAELGLYVHIGSTAIARPDGKIANRGFLFGPDGARLSHYDKIHMFDV
+DLDNGESWRESAAYTPGETARLVDLPFGRMGFAICYDVRFPELFKAQAQAGAEIMTLPAA
+FTRQTGEAHWGVLLRARAIENGMFVIAAAQGGVHEDGRETYGHSMIIDPWGRVLAEAGDA
+GEEIILAEFDRADVAAVRGKIPNLKNGRSFALDAPQARAKDDAA
+>tr|A0A1Q9ALA5|A0A1Q9ALA5_9RHIZ
+MAHKKAGGSSRNGRDSESKRLGVKKFGGEAVIPGNIILRQRGTKWHPGANVGLGKDHTIF
+ALTAGNVNFRTKANGRTYVSVMPKAEAAE
+>tr|A0A1Q9ADQ1|A0A1Q9ADQ1_9RHIZ
+MLDRRERMAWTALLRFVSRGGPFTLGPPDAQGRETLSDAKGKHAVARALLARAISCGLLT
+RRGGQILVRPEAAAHLRRQLAPQEEAFAAQHGARERLEIATEDGRATVTVNRAESPLALL
+SRLKEKSGGPFLPEEACAAATRLHADFTRGGLQPRLTMDYSPRMESRPGGAGAAAPEISD
+SAMAARLRVAAAIEAIGPELSGVALDVCCFEKGLETVERERQWPARSAKLLLRAALLALA
+RHYQPPPRRRGAHRWQAGAQD
+>tr|A0A1Q9AI82|A0A1Q9AI82_9RHIZ
+MREISAPLAAHLAGDATTLCHAWRVTRRDGVRIGFTDHDEDLAFGGLLYRAASGFASAEA
+LFAAGLSVEAGEVTGGFSSEAIAEADVAAGRYDGARVELLRVNWADTAQLLLLSVHEIGE
+VTRAGESFRAELRRITHRLEQVQGRLYGRCCDADFGDARCGIDATSPPLLAQRRVVAVAG
+ALDILVAAPAPPSSLYWRLGRLAVLDGAAAGWQAQIADQRAEPDGSTRLTLWLAPPVAIS
+VGDRVALTAGCDKRFSTCRDRFGNGVNFQGFPHMPGLDFAYGYADGDTEHDGRPLYQDDA
+P
+>tr|A0A1Q9AKZ2|A0A1Q9AKZ2_9RHIZ
+MSESQTAGRRRGGLALLVAGLALAASLPGPALALSDLQTIPGDPPQDAQAAQPGSPAEPT
+DPKAPAPKAPETSPAPKNAKDGARDAIPLPDPLVNKPAAPNAAAGEAQKPVEVLTDVSKI
+PAPVARMRQLLVEAAASGDVERMRPLIGKGPTQTIIGDGEEEDPVEALKGFSGDNDGIEI
+LAIMLDLMSTGFVRMDAGTPNEVYVWPYFVAKPLESLTPPEKVDLMRLVTAGDVMSMQEF
+GSYNFYRIGITPDGHWKFLTGGD
+>tr|A0A1Q9AMV8|A0A1Q9AMV8_9RHIZ
+MRAISDHHAQTIKAATAAGIEALGGVRRASDALRVGSSTLTKYASTAPEWADSFIRLDLA
+VEMDRRTHHPFLLTAMSRLVGDQPVPGFGEVTALAILRLDGVLDDVVREVARAIEDGHVD
+ARERQAVRARIVAAKQELARLDALMIGGAG
+>tr|A0A1Q9AP45|A0A1Q9AP45_9RHIZ
+MLHQKIVENPFKQKYGNYIGGEWRDALSGKTFDNTTPVTGGVLCQIARSQAEDVEAALDA
+AHAAKDKWARTSTTERANILLKIADRMEANLELLAKAETWDNGKPLRETMAADIPLAIDH
+FRYFASCVRAQEGTIGEVDHDTIAYHFHEPLGVVGQIIPWNFPILMAAWKLAPALAAGNC
+VVLKPAEQTPASILVFAELVGDLLPPGVLNIVNGFGLEAGKPLASNPRIAKIAFTGETST
+GRLIMQYASQNLIPVTLELGGKSPNIFFADVMAEDDDYLDKALEGFAMFALNQGEVCTCP
+SRALVHEKIYDRFMEKAIARVAAIKQGNPLDPQTMIGAQASSEQLEKILSYMDIGRQEGA
+EVLIGGERNTLEGDLAGGFYVKPTVFKGHNKMRIFQEEIFGPVVSVTTFKDDAEALEIAN
+DTLYGLGAGVWSRDANRCYHFGRNIQAGRVWTNCYHAYPAHAAFGGYKQSGIGRETHKMM
+LDHYQQTKNMLVSYSPKALGFF
+>tr|A0A1Q9AEV4|A0A1Q9AEV4_9RHIZ
+MALSASLFLRQSQTLAMTPQLMQSIQLLQMTHFELTHFIEQELEKNPLLELAGSDVGRGG
+DRMAESEAAEDFAPEAPAFDPLGDVFDSTRQDLGPGMGDQLDADFSNVFPDDGAPVRADA
+PELLGQWRSMPGSDGDGAEGYDLDDFVAQRRSLRDVLTEQMALSLRGERERLIGLHLIDH
+VDAAGYLQTTPEALAERLGCGQGEVEKVLARLQTLDPPGVFARSLAECLKIQLRALDRLD
+PAMEALVDHLDLLARRDFASLKRICGVDEQDILDMLAEIRALDPKPGTRYDTSPTEAIVP
+DIVVRPAADGGWAVELNPETLPRVLVNHVYYAKVARHAPGAGDDPAFLSECLQSANWLTR
+SLDQRAKTILKVATEITRQQSAFLTHGVEHLKPLNLKAIAEAIKMHESTVSRVTSNKYMM
+TPRGVFELKYFFTVSIGSAEGGDAHSAESIRHRIRQLIQTESADSVLSDDDIVDILKKAG
+VDIARRTVAKYREAMDIPSSVQRRREKRALAKISA
+>tr|A0A1Q9AL81|A0A1Q9AL81_9RHIZ
+MRSYLALVHKDPDSAFGLSFPDLPSVFSAADEEGDLIDKAAEALRLWAEDEELPEPTPID
+VLLARPDLREELAQGAFLIRVPLIEDDVRVVRANVTFEAGTLRAIDAAAAKRGLTRSAFL
+ASCARKEIERAG
+>tr|A0A1Q9ANG6|A0A1Q9ANG6_9RHIZ
+MRMTRLSFPASSDLAERIKRVAALQNVTVASLLCEMSERMVEEFEAFEKFRQSAQRGLVD
+AGDDRSQSGSATTPPVTGALTPVVPG
+>tr|A0A1Q9AQB0|A0A1Q9AQB0_9RHIZ
+MPLESALVWTPVALSADLPAASVIPARLADAALAVWRAQDGTVSAVADRCPHRGMRLSHG
+FVRGEALSCIYHGWRYGKSGRCLAIPAHPALTPPETIRVATYRAAERDGIVWVTASQEAG
+AVPAHDGFLGLRSVTVAASPARLAASLGGTLDGSVIDGTIGGVTARLLLASSGEEGVLLV
+HLLIASGAADAGKIAASRALEGLRRQAETATITGEAA
+>tr|A0A1Q9AKK5|A0A1Q9AKK5_9RHIZ
+MKISHCIKKITVSSRSRQVAVHGLALAVILVGQTDLAFAAGDVFQPIQSVFTTLLNFMTG
+TFATTAATIACAAVGYLALTSRIPWSWCFSIIVGIAFIFGGSQLVASMQSGLGG
+>tr|A0A1Q9AL42|A0A1Q9AL42_9RHIZ
+MSGNAIPSTRAKADKAAFGIALFLAALSALIFWDASRLQAVASYSRVGPATIPTVIAACL
+LGLAVWTAVAARAGDFPRRERQEIGPVAWVVGGLVLQMLCLKTLGFSIATGLLFAMTAAA
+FGKRKLHVTIPLGILLCLAIWLLFAGLLQLSLPAGPLEHLLRR
+>tr|A0A1Q9APR0|A0A1Q9APR0_9RHIZ
+MITRLSALSFSRRTLLLAASIAVSGALFTSTVVPLPVQAADGSREGGEITFLIDSLGDTW
+IPNNSAISSFQGHIWGHVADKLIYVDADGKVSPWIAEKWEQNDTATEFTLHLKSGVTFSD
+GEPLDAKAVVANLNIWYAGRKNEGINPIGLFPKTYDRAEAIDASTVKVFFKKPTLGFIPT
+LGYHGSILISPKTIAQPANVQADLGKTSGSGPYVVESWKEGDHVTLVKRKDYNWGPAAVG
+QTGPAHLDSITYKIVSEPSLRVASVQSGQADVAYNASPQELKSLKEEGFTVATPRYLGFV
+NGWAVNTKLPPYDDVKVRQALQAGINRQEIIDTVYTPDWKLATSFIQSNVPGATDHSDLL
+AYNPEKAEKLLDEAGWVKGADGIRVKDGKPLELALHSNPYLATSKSVDELIAQQLGKIGW
+KVTIRAYDVVTFGEKVKFGGPAIPAYEVTRSFIDAGTVASILTNANNGENWFALDERDTT
+LNALRDKIAGAGTVEERKPLLDNLQKYVLDQGYFIPRTQIVQRIYVQSPNLKGEVYNGVA
+YASYYTAYLAK
+>tr|A0A1Q9AK58|A0A1Q9AK58_9RHIZ
+MKAMLFEAFGQTPEVLTVPDPTPSRDGVVIEVKATGLCRSDWHGWMGHDTDIRLPHVPGH
+EFAGVVAAVGPDVRRFRVGERVTVPFIAACGHCKECHAGHQQVCEAQFQPGFTHWGSFAD
+FVAIDRADHNLVRLPEAMDFPTAASLGCRFATSFRAVADQGRVKGGEWVAVHGAGGVGLS
+AIMIAAALGARVVAIDVAEPKLALARALGATASVNSREVASVVEAVREITGGGAHVSIDA
+LGHPETCFNSIANLRRRGRHVQVGLMLADHAKPEIPMAQVIAHELEIYGSHGMQAWRYDA
+MLAMIEAGSLQPQRLLGETISLESAVTALTEMGRKAPDGITIIDPRL
+>tr|A0A1Q9AM13|A0A1Q9AM13_9RHIZ
+MANAIIILDEAQTLPRSLLLPMTRALVELVLRYGCTVVLCTATQPALARREGIDLGLPLD
+IDRELALDPESLARQLARTRIRHQSVLDDAALEAMLGAREQILVIVNSRRHALDLYRQVK
+PADFEGLVHLTTRRYASDRRRILAEVRRRLMTACPAG
+>tr|A0A1Q9AMD9|A0A1Q9AMD9_9RHIZ
+MSRNFRSFPALALAACLALPTLSAHARADTVGEVGVDWMGNDIKIDAVSDPKVQGVTCHV
+TYFDRGVLDRLKKGNWFEDPSNNSIACRQTGPITIGKIDLSRDGEEVFREGMSLIWKKLV
+VNRIYDKKNNTLIYLAHSRELVDGSAKMSISTVPLYGQQVTWTEGAPQ
+>tr|A0A1Q9AHJ3|A0A1Q9AHJ3_9RHIZ
+MGSAGGAEAGTVKKEDDRTPIAGILFDKDGTLLDYARSWVPVNYRIARLAARDDPALADR
+LLKACGMDPESGHVLPDSLLAAGSTREIAEGMVKAGAPFAVEALTAEFDGLFEEAAAAAV
+PVTELAPFFALLKAQGYRLGVASSDNEASIRETARRFGFAGDLDFVAGYDSGYGIKPEPG
+MVLAFCAATGLKPESVAVVGDNNHDLHMGRAAGVGLTVAVLTGTGSPASLAAASDHCLVD
+ITALPGLLERLGLGVGADTAQ
+>tr|A0A1Q9ADZ2|A0A1Q9ADZ2_9RHIZ
+MAKQAAPAPLEDAPALREALPAQEQATERKTALSLRGLKRRFGDKEVLKGIDVDIPEGQF
+VAIIGKSGCGKSTLLRLITGLDQPSDGTLTVGDGQQDKRIRIMFQEPRLLPWARIVENVE
+VGLTGISKGPAARETALALLAEVGLADRAGEWPAVLSGGQRQRVALARALAAKPAILALD
+EPLGALDALTRIDMQRLLERIWRQEGFAAVLVTHDVTEAVALADRVIVIDEGAIALDLPI
+PLPRPRRHGGAEMAALEGRILAALFDEA
+>tr|A0A1Q9AKG7|A0A1Q9AKG7_9RHIZ
+MGQGSSSVSEEPGRRRTIRDVAKAAGVSIATASNALNGMGRTNAETRERVRRIADEIGFR
+PNALARSLLTRRSHSIGIITNDTYGRLTLPMSAGVSEALVDHGVSAFLCATNNDPRLAQL
+HLEALLDKQVDGIIFTATRLDLTPPVDLTRLPIPVVYAFAIGPETAPTFIPDDAQGARLA
+VRHLQERGYRRILHITGQEDYLAARLRAEAYRDLAGEQAEVMFGAWSEEWGHEAVRRLIS
+SGRPRPEAIFCGSDEIARGVIDSLRDHGLKVPEDVAVVGFDNWQVVAAQTRPPLTTVDME
+LKELGRRAGLAMLDLTRGLPVAPGITRLPCSLVTRRSCGLA
+>tr|A0A1Q9APT2|A0A1Q9APT2_9RHIZ
+MLVLVTYDVHTLEGNGPARLRAVAKACRDYGQRVQFSVFEIEVDPAQWVTLKARLESIIN
+PDVDSLRYYYLGANWQRRVEHVGAKPATDLNGALII
+>tr|A0A1Q9AK74|A0A1Q9AK74_9RHIZ
+MSGFDKDWLALREPADRAARAKPMVEALRRHLRQERAPVIIDIGCGTGSTWRSLSPDFPA
+QTRWRLLDHDPLLLAEAARRIGETGTVSLHEFDLNQAESLALDGVSMVTASALFDLCSDA
+FCARFACLLAARGVGLYAALNYDGRMEWSIAHPLDRQVVEDFNRHQRIDKGLGPALGPEA
+TAYLVRQFEALGYRTEVESSPWELGPDEAALQAALLKGLEQPLGEIGSLTSSDIRTWLDF
+RLAAVGKAGSRCVVGHADFLALPGALPDTLPRE
+>tr|A0A1Q9AKA2|A0A1Q9AKA2_9RHIZ
+MRRSVSVDEDGKVRQAKRDPEGVRRDILSAAMEEFSLNGLSGGRIDEIAARTRTSKRMIY
+YYFGDKEGLYERVLEEAYAKVRGGESDLGLDALAPVAALTKLCRFTFDHHRANPAFIRMV
+MIENIHHGRHLLHSEAIRGLNRPAIEALESVLRRGQAEGVFRAGVEALELHWQISALSFF
+NVSNVATFSAIFGDSLFTADGQEQLSRHVAEMVLRYVLSPGHVGAISPSDG
+>tr|A0A1Q9APC2|A0A1Q9APC2_9RHIZ
+MHAHTGAMPRGGISDNSWWTHFRASLLLGLPFIAAQVAQVAIHTTDILMIGRLGTVELAA
+MVLSGQVFFTVFVFGSGFANAVVPMVAQAKGRGDPVSIRRSVRMGLWVVLLYGLLTAPLL
+WHAEHILILMGQQPDVAALVGRYMRIAQWGIFPALGFMVLRAFLSALERAGVILYITLAV
+LGLNALFCYILIFGHLGLPALGMEGAAISALLVNLMSLVLAVTYLRRLPETRDVALFTRF
+WRPDWSAFFEVVRLGLPIAITILAEVSLFTVASLLMGMIGTTELAAHGIALQFASIAFMV
+PLGLAQVATVRVGLAHGRRDGEGLVRAAVAVLVLGCLCALVGSLIFALFPVALASLYLDT
+SRSDAAEVLALAAPFLIVAGAFQLVDGLQALASGVLRGLKDTTVPMVLALISYWAIGFLS
+AWALAFPLGFGGIGVWYGFLIGLTAAAVSLNWRVYRFVRRERALLG
+>tr|A0A1Q9AQ00|A0A1Q9AQ00_9RHIZ
+MRRTKAEAEETRSRIIAAAEQVFYEKGVSTSTLEEVARAAGVTRGAIYWHFANKSDLFLA
+LADTVPLPQQDMVHGDCCGENCDVLAWIEQTVGGWIALMAGNAQRQRVLTILLRCDYSGE
+LAPVLARQQEMAKEHDALFEAAFREADTRGLLSPVWTPACATRTLHWMAQGLVTDWLLFG
+RHFDLEAEGRAALRRLFQSFRAMQAA
+>tr|A0A1Q9AFL4|A0A1Q9AFL4_9RHIZ
+MHGRFVWHELMTSDPAAAAAFYAQVVGWTVEDSGMPGLDYRIASAGKDMVAGIMDMPPHL
+AESGARPHWLGYIGVDDVDAAAARLTAEGGAVHRAPEDIPGVGRFAVVSDPQGAVYCLFH
+ASTPGAPTQPMATGHVGWNELMCGDVEEAMTFYHRLYDWQKDTAMDMGPLGTYQIFAVGG
+VGLGGMMRKPPEMPGPHRWQYYFTVEGLDGAGERVTAGGGQLLGQPMEVPGGAWIIPCLD
+PQGASFSLVSMAR
+>tr|A0A1Q9AFS6|A0A1Q9AFS6_9RHIZ
+MSASPRRLVLVAACALVDGDGRILLAQRPEGKSLAGLWEFPGGKVEAGETPEETLVRELE
+EELGIRTKIACLAPLTFASHAYPDFHLLMPVYVCRRYEGLPQGREGQALKWVRASALRDY
+PMPPADEPLIPILQDLL
+>tr|A0A1Q9ALW2|A0A1Q9ALW2_9RHIZ
+MSRDRLQTNGSETKTSTVQLFLQGVFADDPWVTPLDSRSPRFGSNGVKMNGKVFAMEWQG
+VLAVRLSAQRVSELASNGEGAPLEMGSRRMKEWLVAEGPATWPVLAMEARDRMISSLKLS
+QNS
+>tr|A0A1Q9ACJ7|A0A1Q9ACJ7_9RHIZ
+MSDIAIELKGIDKRFGLVHANKAIDLKVRKGTIHGIIGENGAGKSTLMSILYGFYQADSG
+EILIDGQPVTIKDPNAAIAAGIGMVHQHFMLVDNFTVLENVMLGAEDSQILNASIAKARV
+ELKRLEREYALEVNPDALIEELPVGLQQRVEILKALYRKADILILDEPTGVLTPPEADHL
+FRILAQLKAQGKTIILITHKLREIMAITDEVSVMRRGEMVATRQTKATSVEELAELMVGR
+RVLLRVDKGPASPGAVKLKVENLTVRDGRGVTMVDNVSFELKAGEIVGIAGVAGNGQSEL
+LEAISGIRRAAGGRVMLNGTAVDVTGKADPADLRQRGLAHVPEDRHHVGLVLKFEEAENA
+ILGYHREPRYGRGPFLDIPAIRREAEEKIGRYDIRPPNPRLKTANFSGGNQQKIVLAREM
+ERGPDVLIIGQPTRGVDVGAIEFIHKRIIEMRDQGVAVLLVSVELDEIRALSDRILVMFA
+GRVVGERGADAAEGELGLLMAGIDGKMEAAQ
+>tr|A0A1Q9AES4|A0A1Q9AES4_9RHIZ
+MLRRIVNIVVFVPLAILLIVLSVANRHEVRLALNPFDPSDQTLSVSGPLFAFLFLAVIVG
+ILIGGAVMWMEQGKHRRRSRLEAREAIKWQTLAEKRAVVAQQANPAPAPRATNGNAPALA
+PSAPQAALPSSSSH
+>tr|A0A1Q9AE19|A0A1Q9AE19_9RHIZ
+MIALAQTRIPDEGAETVRDVDVLILGAGINGAGLFRELCLQGLTCLIVEARDYGAGTSAA
+PSRLIHGGIKYIETGELSLVAQSTLERNLLLRNAPHCVEPLPTFIPAFSLMKGAFAALRT
+LFGSTTAPRSRGALLIKIGLALYDMYGARHRVMPRHRFFWRKAALKEMPAITPRIAAGGL
+YYDAKISRPERLVYELVADGLAAAPDAMALNDTHLIGREGGVLIFETGASGGNRPFRVRP
+KAVVNAAGPWIDRVNAALGKPTKMIGGTKGSHILLDHPELVKSLKGRMIYFEADDGRICL
+VYDYLGLAMVGSTDIKASDPDAVRCEDDEIDYFLASLRSLLPGIPVSRAQIVYAYSGIRP
+LPASDASQPGLISRDHSSPVLEAEGDRPFPIISLVGGKWTTFRGFGEEVADSLLKRLGRS
+RTTDTRHLAIGGGKDYPADETARAAWIAAQARASGLAPARLAALLSRYGTTAADLAATLA
+GRTDGAEARAPVLDTAPERMLEHVPGYSAQEIDWITRREQVAHLADLVLRRTTLAIEGRL
+TQAGLDEIAAIVGAALGWADSRRRDEVEAVSRQLTAVNRVRL
+>tr|A0A1Q9AEE1|A0A1Q9AEE1_9RHIZ
+MSQVKSKDTTPEIVVRRLLHSMGYRYRLHGAQLPGKPDLVFSGRKKVLFVHGCFWHGHDC
+KRGARIPATRQEYWLAKVARNRERDVRNVSSLVQAGWSVMTVWECELKAGLALEERLRSF
+LGERSRRIGSAAATEHVFGRGPE
+>tr|A0A1Q9ADX6|A0A1Q9ADX6_9RHIZ
+MNGPAEPIIRRKLSDEVFERLERMITSGEMRPGDEMPSERTLMERFGVGRPAIREAMQAL
+AGKGLVAISHGERARVLAVTAQSILRQVDLTAKIMLSQSQDGLENLKSARIFFERGMARE
+AALKATADDLDALAAIIAHQRAMTGQPEAFIEADMAFHARIARISGNPIFAAISEAMLAW
+LRTYHTHLLIWAGNEAVTLDEHAGILARLAAGDADGAEAAMRDHLERARALYTHERG
+>tr|A0A1Q9AJX2|A0A1Q9AJX2_9RHIZ
+MNVNASSSGALRRFLKATVAAGLALAAFSGAAHAASTCVKGDRKAPYTIGWANIYSVPTW
+MKQTEGTITAEVDELKKAGLVKDLMITDAQGNAQTQIQHIQSMIDANVDAIVVIAGSSNA
+LDRVISDACDKGIAIVNFDSLVNTDKVTAKINTDSSEWGGEAAKWLVNKLGGKGKIIVMN
+GPAGISVSDDRRRGAQPVLDANKGIEVITETNTEYNVAPAQEAMTSLLFANQEIDGVLSL
+GGALSAGSVLAFDRQGREQVPITGENARQFLELWKEKGLKGWATMQPNWLGALSVYTAVQ
+ALEGKSVPAFIKVPLPVIDDSSIDSYLARADKFPADGYIYSDYDKALFDKLLAQ
+>tr|A0A1Q9AE84|A0A1Q9AE84_9RHIZ
+MVMRTFLFLQGPSSPIFAGIADRLEERGHRCVRINLNIGDSLFWRRRGGHAYRGRPEGWP
+AFLDRFLVAHRVTDIVLLGEERAYHRVATQAARRLGIRVYVVEMGYLRPDWLTVERGGMS
+SNSHFPDDPEQVLAAAEGLPEPDWTRRHSQTFLAEAAYDLLYNLPNVFLNLGYPFYRRHA
+LFHPLAEYAGWVMRLAGEKRRGAAAAAAIAELTQAGAPVFVYPLQLQTDFQLRAHSPYRD
+QREAIAEVLASFARFAPIEARLAVKVHPLDNGLIDWKGLIGATALRLGIDRRVTYLDGGS
+LDRLLEGSAGVVTVNSTVGLHALQRDLPVKVLGAAIFRMERLTDQKPLDAFWAEPQAPDP
+ALCRAFFRLLAASVQVRGNFYSRSGADAGARAIAERLDRQTVNAPGAFIDPPPRARPAKT
+GRSG
+>tr|A0A1Q9AMA1|A0A1Q9AMA1_9RHIZ
+MKTRNNLDSNAKSASIDLLGGILADGIDLALITKQAHWNLRGPHFIAIHEMLDGFRGELD
+THVDTVAERVVQLGGTAKGTSQVVAGATRLAAYPTDIHAEEDHLKALAERYGDAANSVRA
+GIDEADEAGDANTADILTAYSRSLDKALWFIEAHFVKA
+>tr|A0A1Q9AM35|A0A1Q9AM35_9RHIZ
+MDYYVGLDVSLKSTHICVMDRDRQVVWRGSADTQPLMIAERLKRWKGHLAKVGLETGSLT
+PWLYHALKDLGFPIICMDARRAADALKARPEKTDKADAQALAEMLASGWYSPVHVKTMES
+HRLKALLGAREQLVNVKRQLYGQVRGLLRPFGIKISARAGGKRFDEEVRSSCNQHDALYI
+CIAALLDTLARVEVELAGLDKKVRQITAASKPCWHLMSVPGVGPLISLAFVATVEDPQRF
+GTSRSIGSYIGLTPRRYQSGDRDVTGSISRQGDEMLRHYLYEAAGCLLTTVTASSALRSW
+GLRLAKRLGPKRERTAVARKLAVLLLGLWKREDHFRAEPGAKGL
+>tr|A0A1Q9AMJ5|A0A1Q9AMJ5_9RHIZ
+MDVRVKDIRKEFSHLPALENLSLDIRSGELIALLGPSGSGKTTLLRLIAGLESPTRGTIY
+FGEEDASSKTVQERNIGFVFQHYALFRHMTVLDNVAFGLTIRPSGTRPPKAEIRRRALDL
+LDLVQLSGLEKRYPAQLSGGQRQRVALARAMAVEPNVLLLDEPFGALDAQVRKELRRWLR
+EIHDRTGHTTVFVTHDQDEALELADRVVVMSKGRIEQVGTPDEIYDAPNSPFVFGFIGES
+NCLPVRVESGQIWLEDRLIGLSAPGEADGSARLFFRPHDIELVDGCGGCLAGIVVQSRRV
+AGTRHVEIEIGAGRARVEIEVPPQKAIGEASRLAFRPTRFKLFRD
+>tr|A0A1Q9AET2|A0A1Q9AET2_9RHIZ
+MLRDPATMRERLSALDERSAEIFRRIVESYLESGEPVGSRSLSRLLPMSLSPASVRNVMS
+DLEDLGLIYAPHISAGRLPTQGGLRFFVDSFMQVSDLSQEDRASIDRQVRRSEPDRTVEG
+LLTQASQMLSGMSRGAGLVITAKSDTMLKHVEFVRLAPNKALAVLVGAQDQVENRIIELP
+SGVTSAQLTEAANFLNAHLAGQTLGELKRQMQKVKETIRRELDTLSQDLVERGLAIWSGG
+GEGDNPTRLIVRGRANLLEGLAGAEDLDRLRLLFDDLEKKDSLIEILNLAETGPGVRIFI
+GSENKLFSLSGSSLIVAPYRDEENRIIGAVGVIGPTRLNYSRIVPMVDYTAQLMSRLAR
+>tr|A0A1Q9AIM9|A0A1Q9AIM9_9RHIZ
+MFEPSSDVSLFFRRENGPPAAVRLVVTVPTFRRPQQLVETLESLRIQAPGLPFAVIVMEN
+DAEGGAGATAARNFMEHHGLDGLVVIAHQRGNCHAYNAGWTAALAHYPGLEALAVIDDDE
+LATPGWLAGLLAAQAATGADLVGGPQEPRFEAGRRPDLARHPVFSPAYATTGPVPILYSS
+GNVLIRRAVLDAMPRPFLDPLFNFIGGGDSDFYRRCKARGFRFAWSAEAAVVEAVPARRM
+QADWIRTRSLRNGAISAMLEHRAAPGAAGRLKTLAKSLALLAASPWRGIALWRRTGLAAA
+APYHLQVALGRLMAEAGIVGEQYRHPEKN
+>tr|A0A1Q9AJA8|A0A1Q9AJA8_9RHIZ
+MVYDWFTMFLQGRGLPVLRRWLQGCRPEADTSDKRAPLILSLAAMETGLAAELAPTGCAI
+IIEAKVEAIEQASTALAAYLPDAVLLAHATPVAVQRLHVALGVMEAEAGVAQGRTAILAQ
+LGADPAVFLGGARFKDLSTRLVALVFDGAQLRQRLSGPAVARQEEEKCGHDKGLEALVRS
+DSRQSWRGSLPAPDRETPLFPIAFAEAQTLLMAADAGLAALLQAPPGSDDGALAAQAEAA
+CLAGFRGLVL
+>tr|A0A1Q9ALJ9|A0A1Q9ALJ9_9RHIZ
+MPSAGNSISKRLEALIAEGRLQPDPRQMLIAARLDRVAADLTTSRAQRKTNALGWLFAAR
+RQAQPPVQGLYLHGGVGRGKTMLMDLFFETVPIERKRRAHFHAFMADVQERIFRHRQKLK
+AGETREVDPMPPVAAQIYGESRLLCFDEFTVTDIADAMILSRLFTELFARGCVLVATSNV
+APDDLYRDGLNRGLFLPFIGLLKTHAEVICLDSDTDYRMEKTEGIRVWNAPLNDATHAAF
+ESAWRQMIDGASPAPATVPMKGREIAVPLSAGRAARFDFVDLCQKPLGASDYLALLARYD
+TLFVENIPQLTADRRNEVKRLILLVDTVYDKGGLIVATAASNPDTLLLERRGTEGFEFDR
+TISRLTEMQSVEYREAHLQRAQIMTK
+>tr|A0A1Q9AFN6|A0A1Q9AFN6_9RHIZ
+MPASAVLSATGIVKTFPGARALDGVDFELRRGEVHALLGENGAGKSTLIKCLTGAYRRDG
+GRVELDGAPIDPRDPLDAQKLGIGTVYQEVNLLPNLSVAENLYLGRQPRRFGFVAPREMN
+RRARALLSAYEMDIDVTAALSSYSVAVQQVIAIARAVDLSGKVLILDEPTASLDAQEVRM
+LFRIVRDLQARGLGIVFITHFFEQVYAISNRITVLRNGRLVGTRETESLPRKDLVTMMLG
+HELHAAEQAGETKAESSGPVRYAFHGLGKAGRVKPFDLEIRQGEVVGMAGLLGSGRTETA
+ELLFGVETADSGTAECEGRRLSLSSPRAAIAQGFGFCPEDRKVDGIIGDLSVRENIALAL
+QARRGWMRPLSRKEQDALADRYIKALDIRTTDREKPIRLLSGGNQQKAILARWLATNPDF
+LILDEPTRGIDVGAHAEIIRLIESLCAQGMSLLVISSELDELVAYSSRVIVLRDREHVAE
+LVGGDVSTENIVEAIAGQERRRAS
+>tr|A0A1Q9AD51|A0A1Q9AD51_9RHIZ
+MRLRFILIAVDSDQSLIVFNAPVKRELVYLHAFWNRNCLDRNSISPCPQAIVATNGFRAL
+CRRM
+>tr|A0A1Q9AHR5|A0A1Q9AHR5_9RHIZ
+MPDHVPYRLPALAAQPYAWPFDGRWSAADTALLILGFQTGPVQALSAEAELAVACRLVEA
+AAGLGMTIVAVRRGHTDQESPIARRRRDLGDPIPAQGSAGWALDARLALPPAAILIDIAG
+DNAFFGNDLEERLRARGIRNLLVTGLPTEGLVHATQRAANDMGFECLAIADACKGTSPAR
+HAAQLRITTFGNGLFGTVASAAEVLSALHFA
+>tr|A0A1Q9AJ80|A0A1Q9AJ80_9RHIZ
+MAARTDIRSSETIQPMDPIWDSLREEAALAAEREPVLGAFLYATIINQTSLEKAVIHRIC
+ERLDHGDLSASLLRQAFAEMAADWPQWSSILRVDIQAVYDRDPACTRFMEVLLYFKGFHA
+IQTHRLAHWLFSHGRRDLALYLQSRSSSIFQTDINPAARIGKGIFLDHATGLVVGETAVI
+GDNVSILHGVTLGGTGKEGSDRHPKIGNGVLIGAGAKILGNIHVGNCSRVAAGSVVLKPV
+PPKSTVAGVPARVVGEAGCSEPARSMDQLVPPFES
+>tr|A0A1Q9ADX9|A0A1Q9ADX9_9RHIZ
+MSSTGFAHQTIAADHGATAEVTAFPATEAHRQIRDTRPLRLITCGSVDDGKSTLIGRLLW
+DTKAVKEDQAATLRRDSGQQNDLGLPDFALLLDGLQAEREQGITIDVAYRYFSTDKRSFI
+VADTPGHEQYTRNMATGASTADLAVLLVDARAGLLEQTRRHATIATLMGIRQFVLAVNKI
+DLVGYDQARFDAIAREFRELALSLGVRQITAIPMSALKGENVVLDGGAAMRWYDGPTLVE
+VLEQATVRSGQTVGFRLPVQRVSRPGESFRGYQGTVAGGSVKPGDSVVILPSGMVANVAK
+IVTFDLVRNAAVAGDAITLVLDRQVDISRGDMIVSLEGQPQIGLHFDAQLVALQAEGIQP
+NKRYWLKSGARRQRVTVQPVQKLDLQSGKWVGAEALAMNAIGKVHLSFDEQAIFDPYEAN
+RATGAFILIDPDTNNTVAGGMITAKRSSMGGLHQDDARVILSLPADLAEEILASALFAAR
+RDEVDIRRVTAAKASALLDEIDG
+>tr|A0A1Q9AQH8|A0A1Q9AQH8_9RHIZ
+MDQTKPADAGSLKVHKSEEEWRALLTPEQFRITRQHGTERAFSSPDFDSTKPGTYRCVCC
+GRALYDAKAKFNSGTGWPSFTQPIDAGAVTAHRDLSYGMVRTEIRCADCDAHLGHVFPDG
+PAPTGLRYCMNGVALTFEPAGSDPA
+>tr|A0A1Q9AK77|A0A1Q9AK77_9RHIZ
+MTHPAIRILVVDDEPPIRKLLRVGLSTQGYQILEAMNGKTAIEAVAAESPDLILLDLGLP
+DMAGQALLQRWRGEGLTVPIVILSSRTDEAGIVEALETGADDYVAKPFGMNELAARLRVA
+LRHRLQSQGEKPLFQAGDLQVDLVRRIVRVAEREVKLSPKEYDILRILVQHAGKVLTHRF
+LLEQVWDGLTDVQYLRVYVRQLRQKIEATPDQPRYILTETGVGYRLVEPG
+>tr|A0A1Q9ANY7|A0A1Q9ANY7_9RHIZ
+MSRILMPNRRQFLRSTAGLAGAAALSGLLPAGTARAAGLTVGFIYVGPKDDFGYNQSHAE
+GAAAVKAMEGVTVVEEEQVPETVDVQKTMESMIGFDGATLVFPTSFGYFDPHILAVAPKY
+PEVRFEHCGGLWTPDKPKNVGSYFGYIGMGQYLNGIVAGHATKSKKIGFVAAKPIPQVLL
+NINSFLLGARAVDPSITCQVIFTGEWSLAVKEAEATNALADQGVDVVTCHVDGPKVVMET
+GAGRGMFLCGYHANQSALAPEKYLTGAEWNWAKVYGDMVKTTMAGGKIDNFVRGGLADGF
+IKMSPLGPAVSDKARAQFEATKAEILKGGFAAIKGPLKDNKGNVVATAGQAFVETDVALE
+SMSYLVDGVIGSTS
+>tr|A0A1Q9AG73|A0A1Q9AG73_9RHIZ
+MTTKTPYYITTAISYPNGRPHIGHAYELIATDAIARFQRLDGRDVFFLTGTDEHGQKMQQ
+TAKRENMTAKELADRNSAEFRKMGQLLNASNDDFIRTTEPRHHEAVTAIWKRMAANGDIY
+KDSYSGWYSVRDEAYYQEDETELRADGVRYGPQGTPVEWVEEASYFFRLSDYQDRLLKLY
+EEQPDFIGPAERRNEVISFVKSGLKDLSVSRTTFDWGIPVPDDPDHVMYVWVDALTNYVT
+ATGYLTDETGPRAKFWPADLHMIGKDIIRFHTVYWPAFLMSAGLPLPKRVFAHGFLLNKG
+EKMSKSLGNVVDPVNLVEHFGLDQIRYFFLREVSFGQDGSYSEEGIATRINADLANGIGN
+LASRSLSMIVKNCEGAVPVCGDLSEADAAILATADALVETVRAEMNALAIHKALAAIIAL
+VSEGDRYFAGQEPWALKKTDPARMATVLYVTAEVVRQIALLLQPFMPGSSAKLLDLVAVP
+EEKRSFAFLGQAGRLVAGTPLSAPTPVFPRYQPPAEA
+>tr|A0A1Q9AE74|A0A1Q9AE74_9RHIZ
+MASSAQGHDPGGEKGRALAPWLQAGLFAFVGVLNTAVDVLAFAGLVWLGLAPLLANLLSF
+SLGAVNSLVLNKSLTFRGTGARYSLRLVARFAAVTALSLAVSQASLAAMIALGLSEIAAK
+LVSVVFTFAIGFGLNKFVTFRSATSHG
+>tr|A0A1Q9AJ97|A0A1Q9AJ97_9RHIZ
+MRVSGSSNVGMPVSRLMVAILLASAATGCSSDSSRFGGLFNRSDLVTTSSVNAAPVPQGD
+VGQGGMDMGRNQALAQPMPTQPGRVASASVAPVSRARAASQPIAVQRTELAEPTAVAPTR
+RPAETHQVAALERKPALADPIATGTTPSASAAAKNGWSSGANAPAVMLRQGETIATLSKR
+YGIPEKEILKANGLTSAAQAEPGQRIVIPTFGVSGSAAKASASTQAASLDVDKQKNVPDL
+PAQRDVAILPGQSQSREKNSSSKDLALGKQPEAGAGDKKGSYVVKPGDSLNRIAKQNGVT
+VEELRAANGMSNGTIRVGQELKLPAKTEQVMTASVKPMAAAPAAVAAAEPQPAAKKAAPA
+AAKHEAETPAAPAVAKQSVTEVAARDDGSDAPKATGISKYRWPVRGAVIAGYGANVNGNR
+NDGINISVPEGTPIKAAENGVVIYSGSSLKELGNAVLIRHDDGTVTVYGNASDLKVQRGQ
+KIQRGQTIADSGMSGTATQPQVHFEVRKSATPVNPATYLE
+>tr|A0A1Q9AM71|A0A1Q9AM71_9RHIZ
+MKTLLSLTFAMTTSLGLLAGGLFAATHLSNGEPTHHFDHLGAPLWTSIPHRVDPANIGYQ
+REAPDSQMIARGKASEVRLAELEREKSAEPDARTALASLPQASAGYNEAHLAYCRQRYRS
+YDPADNSYRPFSGGRQPCVSPYMNDQVQSASADIVAQDDGAVLEMGDTGGASMDAHAQWC
+SARYRSYDPVSDSYRSFSGDVRRCISPY
+>tr|A0A1Q9ANY4|A0A1Q9ANY4_9RHIZ
+MTDLSIGRARAVTAAPAASDLYRAVWRWHFYAGLLVLPFLISLAITGGLYLFRDEIDGLV
+HADLKRVEARQDAARVAPSAMVAAALAAQPGTAVKFTDPATPTSSAEITVATESQGKRAV
+YVDPYDGRVLGSLPDRGTIMWTIRTLHSLKYFGSVTRAVIEIAAGWAMLLVATGLYLWWP
+RGRSGGVVSLRGTPARRVFWRDLHAVTGLFVGGVIVFLALTGMPWSGVWGAKVNEWANGN
+NFGYPAGVRVAVPMSDEHLDHLAKTSWSLEQAQMPQSPVHDHGMAPIGLDRAVAILDGLG
+LHRGYAVNLPSQPTGVYTGSVYPDDLSRQRVVHLDQYSGKPLIDMTYADYGPLGKALEWG
+INVHMGQEFGLANQLVLLAACIAIVLLCLSAAVMWWKRRPKGGLGVPPMPADPRIFRGLV
+ALMALFGLLFPLTGLSLLVMLALDQIVQRFGRRARAQR
+>tr|A0A1Q9APQ4|A0A1Q9APQ4_9RHIZ
+MNEAKNTAKAESATRDDACGGRRVAGADPAKREQILAGAKTVFMRLGFDAASMNDITREA
+GVSKGTIYVYFDNKEDLFCRLIEEERTRFVRNVKDTLNDSAPIADMLTGFGIRFATHVCS
+ESTICAMRSVLSVQARMPHLTKRFFSATPENVYTVLKAFLDRHVAAERLEIEDTDLAARQ
+FIDLCTAGVFKRRLFNDLPAAPDAAEIARMVASAVRLFILGYAPASGVRPKEPALAEL
+>tr|A0A1Q9AF36|A0A1Q9AF36_9RHIZ
+MDRHAVDLWWWTVAVLLGLFVATSVLCWFDGRQIDGASVWAKPIKFQLSLALHFATLAAV
+TSCLGQAWRDGAFLWWVAVAAVACTAFEVGYIMLQAARQQPSHFNVGTPLYATLYAMMAA
+GAVVLTVAAGIVGLVVLLDRAAAFDQATRLGTGLGLILGTVLTLIVAFRMGGALSHHVGT
+ELPGAARMPLTDWSLSVGDRRVPHFFATHLMQAGPLAGLAAGSLLPRGPALAVTLVVLAA
+GTALTLWTFARANAGLPIPRIF
+>tr|A0A1Q9ALZ9|A0A1Q9ALZ9_9RHIZ
+MAKHDLSTHHFQRKISDFCEVRIAPIASKRVLESIRPYLVGLVIHRRPPPIVSGRMDWTA
+IGEACGVENQLTADLKKALRPGLDAIIRWLGEPPAADDIQSTKTRRKSRKTVQSKVETAT
+RSRARQILSDKTPATSSSVPRGPQPKPISPFPEPLFEATDDPASFSDALVYHMRRFGESY
+WQLYRAVVRLGETFDDKTLLSWVQGERVPRSLTSFEILSRIERRYRLGQGYFKAKLPHQS
+RSLYGHDMGDISAAERRRLAWHLPDNFSSLPFSKREEIIEWVRRVIISGSTDYRRYQAAA
+TKQRYAIRFPGITYGGGTLSPRPQMNPNSTSHNPEAFEDPDLLSGVVDALLRLAMEMADL
+IRFKTSTLTAIGFQRNGVWGEETASQKVEHLGLMFGALAASPASVVKGRGVPLSQLTFGL
+LIFPGVWDWYLQWREQRRGFYTKWEEDMLMLAQALTRAEVGWIRQHPELLKKVQPIEGLI
+APEEIEFAARDWHGACDAFHRHAANRSKEIQRVMRVHRDPFEPIMVVLEADSPLSEYRKI
+TDEILKRMPDENRYPRAAAEAVRSFLLLRLGLHLGLRQKNLRQLRLCPRGHFPTSERRLE
+DMKCGELRWSDRENGWEVLIPSIAFKNSGSSFFGQKPFRLMLPDLLDLYKYLEAYIDRHR
+GVLLGSAKDPGTLFVKTVKTTSPDAAYDSTKFYEAWRTVIQRYGIYNPYTGRGAIKGLLP
+HGPHNLRDILATHILKQTGSYEQASYAIQDTPDVVQQHYGRFLPQDKAALAAKILNQVWE
+AA
+>tr|A0A1Q9ANU6|A0A1Q9ANU6_9RHIZ
+MGEILDEIADCVPALRRYARALTHNRDGADDLVQDCLERAIRKRSLWRPIGPIRPWLFRI
+LLNLHRNELRHLRRNPTAAPLDEFTERLATPGSQFEHAALAETARAMERLPDEQREALLL
+VAVEGLDYRQAAEVLEIPVGTLMSRLGRARTALRQMTSENGRPVLKAIK
+>tr|A0A1Q9ADC9|A0A1Q9ADC9_9RHIZ
+MDGFLRHDRELEADEAAPGLLTIDLAALARNHQALAARVAPAACAAVVKADAYGLGAVPV
+TRALQAAGCRHFFVAQSGEADALLPVLDAGSRIYVLNGLLPGAEAACAARGVVPVINSLE
+QLDRWTETAREAGRRLPALLQFDTGMSRLGLPLDSLGEVVALVSAVPLDILFVMTHLASA
+DEPDHVQNGEQRAALARVRDAFPDIPISFANSGGVFLGAAFHGALVRPGIATYGGAPVSG
+RANPMEPVVRLDLAVVQTRTVPAGARIGYSGAYVTPAPRRLATLAAGYADGIPRALSDRG
+AVFFEGVRLPILGRVSMDSMTVDISALPEGTLTLGSQVEFIGPHQTLEEIAAQAGTIAYE
+ILTRLGQRYRRIHR
+>tr|A0A1Q9AM52|A0A1Q9AM52_9RHIZ
+MALFNLFKSRNESIEAKPVELRALLAGYSIEVMPRTASKIDDFQAILPEGTRVYIAHIDG
+TPIADMVATASRLAKDGFAVMPHIPARLIPNLSTLETWLRSYSGEAGVTQALIIGGGPAR
+PAGDLHSSLQLLESGLFDKYGFTRLHVAGHPEGAGHIDRDGSTRIVDDMLRLKQAFAERS
+GADMAITTQFAFDAKAVIAWAERIAAAGINLPIHLGVAGPARLQTLIKFAIECGIGPSLG
+VLQKRALDLSKLLAPYEPLDMLTEIAAYKASHPDSLIQQIHVFPLGGIRPSVEWMNSHGG
+IQPKRPTG
+>tr|A0A1Q9ADE5|A0A1Q9ADE5_9RHIZ
+MARALIVIDIQNSYFPGGELPLWQTEATEAAIIAAIAKARAAGDRVILVRHEAPAGAGLF
+AAGSLGAALRPAIVEAAGAAPQVVKHEADAFQDTDLSTQLAGIDSLILCGMMTQNCVVFT
+ALSRAADAYDITVAGDLCTAPNEIVHQIALRALGSKRDVRPSAELW
+>tr|A0A1Q9AGA9|A0A1Q9AGA9_9RHIZ
+MLSTKQEWTIDTDSAGKARADLDPALLFAHASQDDLEAYDGAMRSETAAIAAAEIAAYLQ
+DGQDGARIQVIHSDRIAPEGQPISVLAVTERNMPFLYDSVMGEVTGHYRDMLLAIHPIFD
+IDGQGRPQAFDPETSADPARRLSHIQLHLPRLGAEEAETLKAQVAKVLAQVHLAVGDWQA
+MIERLDDAISALKANAPAKRKADRKEALAFLKWLRDDNFTFLGMREYGYSGEGETAVLER
+GTGHGLGILSDPEVRVLRLGHDAVVTTPEILAFLQGPDFLIVTKANVKSVVHRRTYMDYI
+GIKRFDAEGRVIGELRIVGLFASSAYTLPAATIPLLRMKVEHVVEHFGFDPESHSGKMLL
+NTLESYPRDDLFQIDTDLLQSFCAQINELSDRPRVRVLVRADRFDRFVSVLVYVPREQYD
+SQVREEIGLYLKTVYDGRVSAFYPGFPAGGLARVHFIIGRSGGKTPSVPQRQLEEAIRDI
+VTRWTDRLERLTRQAQVKLEAGDAYQATFTPEEAFADLPAIRAVSPQDPIRIAFYQRSNK
+ESHFLELKIFHAAVPVPLSKRVPLLENLGFSVISEQTHELAVTDGQGLRVVIVHDMELTH
+RDGMALDLAKAGQRLEEAFLAAWNGLVEDDAYNRLVLLAGLTAREVTILRAYARYLRQAG
+ITYSQGYIAETLNKYAPLAADIARLFLARMNPQADPAAREEETATRLAALEEGLNAVPSL
+DEDQILRRHVNAVLATLRTNYFQEDAAGKPPAMLAMKLDPKLLDGLPEPRPFREIFVYGT
+EVEGVHLRFGKVARGGLRWSDRAQDYRTEVLGLVKAQQVKNAVIVPVGAKGGFYPKQLPA
+GGSRDAVFSAGTAAYKTYIRTLLSITDNIIDQTVVPPANTLRLDEDDPYFVVAADKGTAT
+FSDTANGLAQEAGFWLDDAFASGGSAGYDHKKMGITARGAWETVKRHFREMDIDIQTTPF
+TVAGVGDMSGDVFGNGMLLSRQIRLVAAFDHRDIFIDPSPDTETAFVERERLFALPRSSW
+QDYDRSLLSPGGMIISRAEKSVHLTPEAAERLGLATHVATPAQIMTAILKSPVDLLWFGG
+IGTYIRAASESDAEVGDKANDAIRIVAEDVGAKVIGEGANLGVTQRGRIAYALKGGRCNS
+DAIDNSAGVNSSDVEVNIKIALAPAMKDGRLPREERNVLLASMTDEVAHLVLRNNYLQSL
+AISLVERQGAANRTPLSRLMSRFEAIGRLNRKVEALPTDAALSERYQSGKALTRPEIGVL
+LSYSKIVLFDDVLDSDLPDDPYFRETLLGYFPSTMHEGHEGDILAHPLKREIIATVVVNE
+VINRGGPAFVTALVDRTGVLPSDVVKAAILARDGFDLGALYARIDALDNRIGGALQNSLY
+DDVGRIFAVVTERALRTRIVAGPLGAAVARLSQALGELKAVLTDSISDEALAFARSRAEA
+LTADGAPADLAEAIATLLPMTLLPDILQIADDTGVSLTRTAQSYFAVTERLKVGALLVAA
+DRVVVTDPYEAMALSRAIGDLAQARRAITIAALTAHKDEEDPVAAWQEHARERVQRVIGE
+LSTLTEKGEATLAKLTVAAGLLGDLVRLSA
+>tr|A0A1Q9AJ57|A0A1Q9AJ57_9RHIZ
+MTTPVSIRIETAFQAIDKQAWARLGGAARGQSGMAYNPFVSHAYLSALEESGSATAKTGW
+LGQHLLIEDEAGGLLGALVCYLKNHSQGEYVFDHGWADALERAGGQYYPKLQCCVPFTPA
+TGPRLLTALGTDPEATGAALTAGLQELTRRLGASSAHVTFLPEAELESFDDAGFLHRMDQ
+QFHFTNAGYGSHDDFLETLASRKRKALKKERRAALENGISIDWLTGSDLTEDIWDQFFAF
+YMDTGSRKWGRPYLTRRFFSLIGERMPEDILLVMAKREGRYIAGAINFIGEDALYGRHWG
+CIEDHPFLHFEVCYHQAIDFAIARKLARVEAGAQGEHKLARGYLPVTTHSMHHIAHPGLR
+RAVEAYLERERRDVEAMGDMLSEHGPFRKGARQLREGEEIE
+>tr|A0A1Q9AFY7|A0A1Q9AFY7_9RHIZ
+MANGLQAGARQFRKAARSLLFAASLAGMVGMGESAMAGPLADAAAQAEAQAAAGDAAGAR
+VTMETAFGAFSAGLPMSISRATFVRAEPSGYAMYEPRGDSAFKPGESLISYIEPVGLSWA
+PAPEAGKLETRFTVDFDILDPKGTVLAGQKAFGDFRFVSYQRNQEIYATLTIDVTGAPPG
+AYVLRFRFNDAKSDKTASVEQPFTIVAPPETPPAEPPAAAPAEPAAQPPVQASPPATP
+>tr|A0A1Q9AKG1|A0A1Q9AKG1_9RHIZ
+MTLTANSHLAELYRTMRRIRTFEERVGELFVRGQSAGSMLHLSIGEESSAAGVCDVMKPQ
+DTFTTHHRGHGIFLARGADPRRMMAEIGGKETGYCHGKGGSMHIADMALGHLGANAIVGG
+GIPAVVGAGLSSKYLKQDSVSIAFFGDGAMQQGILYESMNMAALWSLPVLFVCVNNQYGM
+GTRIDQATRNTAFDERARAFGLNGAVVNGLDVEEVRDAARWLIDDARAGKPGFLSVEVYR
+FFGHARMDKSPYRAEVEELEGRKKDPVLFARAKLIESGLESAAALDALDREIAAEMDATI
+DFAVESRAPALSSMFRDVYAVGEPEPEPVRARIDRVLAREDA
+>tr|A0A1Q9AFC8|A0A1Q9AFC8_9RHIZ
+MRTDRVIHVVGCHAEGEVGDVIVGGVAPPPGETLWAQSRFIATDERLRRFVLNEPRGGVF
+RHVNLLVPAKDPRAQMGFIIMEPADTPPMSGSNSLCVATVLIDTGIVPMVEPETHLVLEA
+PGGIVDVVAICRNGKAERITVTNVPSFADRLAAPLEVEGLGTLTVDTAYGGDSFVIVDAQ
+ALGFSIRPDEAADLAALGMRITKAADAQLGFSHPENLECDHFSFCQFAGPLTREAGVLTA
+ASAVAIRPGKIDRSPTGTGCSARMAVLHARGEIGLGDRFIGRSILGTRFDCRVEALATVG
+GRPAIRPSISGRAWITGTMQWMLDPEDPFPEGYRLSDTWPELV
+>tr|A0A1Q9AGV3|A0A1Q9AGV3_9RHIZ
+MRYVSTRGEAPALGFSDALLAGLARDGGLYVPETWPQLTKKEIRALRGKSYQEIAFAIIS
+RFTGGEIADDALKAMIDAAYATFRHPAVVPLVQSGPNDFVLELFHGSTLAFKDVAMQLLA
+RMMDHVLEQRGRRATIVGATSGDTGGAAVDAFAGRARTDIFILFPEGKVSPVQQRQMTTS
+KDANVHALAVKGNFDDCQNLLKAMFNDGEFRDRVALSGVNSINWARIVAQVVYYFTAAVS
+LGAPDRKVAFTVPTGNFGDIFAGFVAMKMGLPIARLVIATNANDILARTLKTGRYEMKSV
+KATTSPSMDIQISSNFERLLFEAYGRDAARVRGAMASLAQSGAFEIEADALKAIRRLFRA
+GRASEKDVARTIREVKAENGMLLDPHTAIGVFVAAKHRRPSEPMVTLATAHPAKFPAAVK
+SASGIDPTLPTWLADLMDREERFDVLEPDLKTIEAYVSARIRAV
+>tr|A0A1Q9AND6|A0A1Q9AND6_9RHIZ
+MQATGIDLALAFDRGSALDLGPARLDGVDLAPGLAIPSDGDPRIDHALQGLLFTCGPDHI
+RHPEPVEGRSAGDSGARYPLHGSLSATPVTAPQRTQAADGTLHLSGMAEIALADGGLARL
+HRRWQLAPDGTLSLSDSLENAGFAGFAPMMMYHINLGARLFGPQTRVAGAMLEEGGLGWH
+FGAGESSHVCLPAASGAQDGWASVRLGPLPGAGGASLRLDFALEGLPFLQMWRRQSGVAN
+VFALEPASHRIARRPVLREAGELVDLAPGDRRNFALRLAVLRA
+>tr|A0A1Q9ANJ9|A0A1Q9ANJ9_9RHIZ
+MAQQLALTDADLAPTERGSDGLQSFAPDLAFRTFSIVNVVFFGRPQSGEDWVLIDTGLPT
+SANAIRTAAEHRFGPDRPPAAIIMTHAHFDHAGSVERLAEEWDAPVYAHPLEMPYLQGQA
+AYPPADPLVGGGMMALLSPLFPRSPVNVGERLHMLPIDHSVPGMPGWRWLHTPGHAPGHI
+SLFREADRTLIAGDAVVTAAQESVYAVMTQRAEMHGPPAYFTPNWIEAEEAVRQLAALEP
+ETIITGHGLPVRGAGARARLHELAENFRAVAVPQGASYDLNPAVPGKSDNDAYR
+>tr|A0A1Q9ANX9|A0A1Q9ANX9_9RHIZ
+MTLQPLLDAPLAVQIHVATVLPAAVLGIVLLLGRKGTRLHRLFGRIWVGLMAATALASFF
+IHEIGGVFGFSPIHLLSVLTLFGLWDAVARARAGDLAGHRRRMRQLNLGAIGLAGLFTLL
+PGRRMGAVLFGDPSWPELGLFAGLGLLPALAAGVFLRSQAMRVRGR
+>tr|A0A1Q9AE41|A0A1Q9AE41_9RHIZ
+MTASRTLRLSPEDNVVVALADLPAGSPVDGLSPGILATARVPRGHKVAAEPISQGMPIRK
+FGQIIGFASADIRPGDWVHEKNVTMGEDFARDYAFAQEAKAAEGLKPGEVPAFFEGFRRA
+DGRAGTRNYIGILSSVNCSATVVDYIADEINRSGILADYPGIDGIVPLPHGQGCGMAGRG
+EAFDVLSRTQWGYASHPNFAAVLLVGLGCEVFQIPRMKERYAIAEGEHFQSLTIQEIGGT
+RKAVEAGVARIREMLPFAGRSRRTAIPASELTLALQCGGSDGYSGLTANPALGVAADMLV
+RQGGTAILSETPEIYGAEHLLTRRAESVEVGQKIVDLIAWWDDYTARNGGEMNNNPSPGN
+KAGGLTTILEKSLGAVAKAGSSTLRGVYRYAERIDRKGLVYMDTPGYDPVAATGQVAGGA
+NILCFTTGRGSAYGCKPVPSIKLATNSELYARMTDDMDINCGDIVDGVSLEDKGREIFDT
+ILAIASGRPSKSEELGYGRNEFVPWQIGAVM
+>tr|A0A1Q9AHG1|A0A1Q9AHG1_9RHIZ
+MARAPVLDDLLGYHLRRTSILDLAGFAEALGDEIKPVSFTVLCLIDEMPGITAAEIGRQA
+RLQRANLAPMLAEFDAKGLIERRADAEDQRIQLLHLSPLGATMLADWRERAMAQEERTFG
+ALTPGERALLRQLLARVWKET
+>tr|A0A1Q9ANQ5|A0A1Q9ANQ5_9RHIZ
+MIDILARLYRHHGWANKAFLDTLAALPENGPAEPRATALKRMRHIEIVGQIFAAHLTGRA
+HSYLSDSVEETPHLPSLRHDTEACDGWYIDYLSDRDPDTLSEEIAFTFTDGDRGRMSRGE
+ILLHVATHAAIHRGEITQLLSSAGIDAPWDTFAVHLHQIEPARRVAALAKAG
+>tr|A0A1Q9AGH8|A0A1Q9AGH8_9RHIZ
+MVLAAGLGTRLRPITETMPKPLVPISGRPMIDHVLDLLVEAGIETAVVNVHHFADRMEAH
+LAARAAPAIRISDEREGLMNSGGGLAKGLRLLSDPLVMVMNADLFWVGEDPHEPSNLSRL
+SAFFDAQAMDMAMLVVPLARTTGHNGRNDFSLLPDGRLVRYREDLGAGVVYAGAFVLRRA
+LFDDAPEGAFNLNVIFDRVIDSGRLFGLVMSGEWITVGTPEAIAEAEATIARCAGAAVAG
+TETPAGI
+>tr|A0A1Q9AL05|A0A1Q9AL05_9RHIZ
+MARDQNELLSGGCQCGAVRFRASHLGRPSICHCRMCQKQFGSFFGAFVTADPAHLEWTRG
+APALYRSSNKVRRGFCQRCGTPLTYHHPGGVELAIGAFDHPEKLEPEIQVNHHKRLPWID
+RLFDKPVLVSEEADAFFASIDSYQHPDHDTAVWPLEDDGAPAPRSRHGRHGSGEGVEE
+>tr|A0A1Q9AL33|A0A1Q9AL33_9RHIZ
+MNIKSLLLGSAAAMAVVSGAQAADAIVAAEPEPMEYVRVCDAFGKGYFYIPGTETCLKIG
+GYVRTQLNYKENGYGVNKDGDIDAASRGYLTFAAKNDTEFGALSGYINIEADAEGTTFLD
+GAWINIAGFDVGYFYNWFDDGINGETDELGSPKTLQNSIRYTYDGGAFTAGVSVDELSGS
+GSSFSNKWNDKIGLGAKLGFTAGAVNGWVIGNYDFDADEAAFKGVLTAALGPGSLQIGGV
+YATDPSYYWTASQWTVAASYELKATDKITITPAAQYWGEAHIKDNGSFGGADAWKVGVTG
+GYKITDGLRSLATVNYKKFEGNNGGDQWTGFLRLQRDF
+>tr|A0A1Q9AIN5|A0A1Q9AIN5_9RHIZ
+MTSIVTNASAISALSTLRSISSNMETTQAHISSGLKVGAAKDNAAYWSIATTMKSDDRAL
+SSVQDALGLAAAKTDTAYNGLDTTIDIVSTIKAKLTAAREPGADKDKINKELTELKNQIV
+STAQSSSFSGENWLYNATGSTGTKTMVGSFTRSTTGVSIGTISFDASKSVIVDKVAANNG
+ALTKGVAGYNAAGTSANFFLINASSSTAATTGTEVTISSGTSDSSVEQMVSAVDTMLQGL
+TDVASQLGAINSRIDTQNGFVKDLRDTITKGVGRLVDADMNEESTKLKALQTQQQLGIQA
+LSIANSSADSVLSLFR
+>tr|A0A1Q9AE69|A0A1Q9AE69_9RHIZ
+MERGDIWHVDLEPIKGREQAGSRYVLIVSQASFNRLGTPIVAPITTGGQFARFQGFAVSL
+SGTGTRSAGVVLCNQVRAIDLKARSARFMERAPDFIIEDVLARISTIFE
+>tr|A0A1Q9AQ35|A0A1Q9AQ35_9RHIZ
+MQFYGHSDKETPRDGWQTLVDHLASVAEMAGGFARASGLEQAAFIAGLFHDLGKYDPAFQ
+AYIAGIGESVDHSTAGARVLCDLAQGRDKAMAEIIAYAILGHHAGLPDRLNETGACFDMR
+MKKPLFLDPAWQAELGPDVARQIDGLARALPQPVDKDLQRYAFTLSFLGRMIFSCLVDAD
+FKDTESFYVSLGQRAVDRDWPRLQGLLPGFQARFDAHMGRFASRAVASETSQTLNALRAD
+ILSHVRAGAAKGPGFFTLTVPTGGGKTLASLGFALDHAGIHGHDRIIYAIPFTSIIDQTS
+AIFRSVLGEEHVLEHHANIDEERFDARERRDKLKLAMEDWAAPVVITTNVQLFESLFSAR
+PSRSRKLHNIANSIIILDEAQTLPRSLLLPVMQSLEELVLRYGCTVVLCTATQPALARRE
+GFELGLPLDADRELAPDPEGLARQLARTRIRHQGVLDDAALVETLGVREQMLVIVNSRRH
+ALDLYRQAKAANLDGLVHLTTRQYASDRRRILAEVRRRLHDGLPCRLIATSLIEAGVDVD
+FPAALRAEAGLDQIIQAAGRVNREGKRPRDDSVVTVFTPADHKPPREIAGLIGDMKRIID
+KHPDLTAPAAIADYFGEVYWRVGRVGLDAKDILGRFNLASGGTDFAYRKVGEDFRMIESG
+LAPVIIAIEDEAKLWVDKLGLADVPSGLLARKLQAFTVQVPPKARERLRVCGHVAFVAPH
+LRGDQFAVLQKASLYDPQLGLIWEDADYLAAEDLLW
+>tr|A0A1Q9AC90|A0A1Q9AC90_9RHIZ
+MRYSALSLLKNALGRNLGWSPVWREPEPKPHYDVVIVGGGGHGLATAYYLAKAFGVTNIA
+VLEKGYLGSGNVGRNTTIVRSNYLLPGNEPFYEFSMKLWEGLERELNYNVMLSQRGVMIL
+YHSDSERDALIRRGNGMWMEGVEAELVDREGVRRMMPFLNFDHARFPILGGLLQKRGGTA
+RHDAVAWGYARGADRLGVDLIQNCAVTGIRREAGRVVGVETTRGFIGCGRLGLAAAGHSS
+EVARMADLALPIESHVLQAFVTEGLKPCIDHVIIYGAGHFYISQSDKGGLVFGGEIDGFG
+SYAQRGNLATAEHVMEEGVAMIPGLSRVKVLRAWGGVMDMSMDGSPIISRTSIDNLYLNA
+GWCYGGFKATPASGFCFAHLIAKGEPHPAARFFRLDRFERGHLIDEAGAGPQPNLH
+>tr|A0A1Q9AID7|A0A1Q9AID7_9RHIZ
+MSVSDEPFLPQAVIRKKRDREELGEEDFRRFMAGAVDGSVSEGQIGAFTMAVYLNGMTAD
+ERVRYALAMRDSGRVLDWSAVGLSGATLIDKHSSGGVGDEKVSLIVAPLVAACGIHMPMI
+SARGLGYTGGEVDLLDAIPGYDIAPPTALFMEAVKEIGCAIIGPTPELAPADRPIYYVRD
+VAATVESIPLITGSILSKKLAAGISGLVMTVPYGSGAFMADKDDAMALAESLIAVAKGAG
+LKMTALLSDLSQILGDSVGSALQLREVIAFLRGDARERRLLETVLALSEEILLMGAIAQS
+RPEARRMAMTRLDDCSALACFAAMVQKLGGPDNFIVDPDAHLPRAAIIAPVHPDMEGYVA
+AMDCQAIGFALVAIGAGRKRPGDAIDHAVGLSGIAQVGTKVDKDKPLCTLHAVNQNDWHR
+AASAIRAAITLSQTRSAERKVIDGRM
+>tr|A0A1Q9AQ76|A0A1Q9AQ76_9RHIZ
+MSSIVSSQIDADKLDYLSRDAHHSGLEIGFDTDRLLSRLEILHVRESNVDASESELRARA
+SRSVNQTFHQLGIAASGFGSFEQMLIGRTFLYDRLYHHHKVRSAEAMAQRLMLVAERDRA
+SRFRLDEIFLSVDDDTMLRILAQEVTHPGFPLSPKPSAATALAKGILNRELLHRAFAFRG
+RFIASPPGLDGSTADQNREKLWRRIVKELDDIGVRFDIGAEIHRVAIACAEVLVAKGVDV
+DISRPCKEALDQIGPEQIIVDLPALKAEAIRILARYPNGAIKVPEFSFNPVKWSDAYELQ
+KRTGYVFCPRDVVPLVALASKIVFLGHFGVTMSEEADGYIKTATIVPRNWINALVDAEII
+DTDAAEHLSSKRHSLLALRADDLKVPGTWIQADPDFASRLALELNRLLRAGLTADHIEAL
+GRVLGAVYAFVDHWYKSGQLTRQLENEAELQKQVLAAFQLRGLPTQEGSVAGGGKLDIFV
+DGAVLVENKFTGRVADVANAAPAAGMQGRRYAIALGAQVVIVVLAYELPSGVVPAQQETI
+SVHEITRTDGNRAEIRVSLPYGVVTPSRESPQ
+>tr|A0A1Q9AMK6|A0A1Q9AMK6_9RHIZ
+MITTELAKARSAFEAGDYVDALMVLNGLMDETRDQQVLLLLSDVFEKLGFDMDAAELLAE
+LGKSQADDALTLRAAKLFFKAGDEARGQLHGMTLFERKAHDRDIAFLLAQSFRKGPDPRF
+AQVFLPSLHDSDEEAHLSLAIDLAMSNEHNPTTLSIFSRYADLAPEDPYRLFNLLFVARN
+FCDFDRIAAIEARIAEALRLGDAELLAGESPYANLLYCGDERINRLATNNGAPAQISPAA
+LARQRRSRPHRWGEKIRIAYLSSDFWEHHATMTLFQRVLELHDRDRFEITLYCYTPPHLK
+AFDEGGRERWGWPIVSLIGLSDAEAATLIRQNETDILVDLKGPTSDARLGILNQMAAPVQ
+VEWLGFPGSVVNIDCDYVIGDKVVLPGSARPSYHEKFCRLPDSYQPNDPLHRPLPAAKSR
+AEVGLPGDRFVFASFNTPRKISVPVIDAWSAILRGAPDALLWMMIDGETHRANVLKAMAD
+RGVDAAQILFAPKMAYADHLARLQAADLALDTFPYNGHTTTSDQLWAGLPVLSVKGTNFA
+SRVSESLLGAIGLPELVAKDTADFIAKAIELTTRPEEIARYKAHLQEQRFRAPLFDAERF
+CRHLETAYRTMAERAQAGQAPDHFDVPALPPRTEPFATRPI
+>tr|A0A1Q9AII8|A0A1Q9AII8_9RHIZ
+MSTLSPLWPLSGGLLIGLSAALYLLLNGRIAGISGLAASAFGWSGGGPRTAAIAFLAGLV
+GGAAFAQAFIRPAEMVLTGSPALLILSGLLVGYGTRLGSGCTSGHGVCGLARLSPRSIAA
+TLIFMGTAMATVLITRHGLALV
+>tr|A0A1Q9AKD7|A0A1Q9AKD7_9RHIZ
+MAKLELRDVVKSYGIYEAVRGIDLEIEDKEFVVFVGPSGCGKSTTLRMIAGLEHVTAGEI
+VIGGQVVNRLGPGKRDIAMVFQNYALYPHMSVRENISFCLEQQRLPKAEIDTRIARAAET
+LHIEELLDRRPGQLSGGQRQRVAMGRAIVRNPKVFLFDEPLSNLDAKLRVQMRTEIKRLH
+QILPTTTVYVTHDQVEAMTMADRVVVMKDGLIEQVGRPQELYHRPASRFVAGFIGSPSMN
+FLDGRLEQGAEGLGVRLADGTRLAVPPARAAAYAAGAGQPVVLGIRPEALSIRNDRPGFS
+PLDAAVDLVEPLGPSTMVYFTHGGASLCASIDPEAAPQAGRMLPLSVNMNQMHLFDAVTG
+RALAQAG
+>tr|A0A1Q9AFI7|A0A1Q9AFI7_9RHIZ
+MQVLVRDNNVDQALRALKKKMQREGIFREMKMRDYYEKPSQKRAREKAEAVRRVRKLARK
+RAQREGLVSAGRPGSR
+>tr|A0A1Q9AMA3|A0A1Q9AMA3_9RHIZ
+MAINRFSLKKPALTACAILSAGLAAGCSTAQHTSMADLTAVQTVTPIAKPGTEMTAYALP
+TPDGKPSAAVSALSQETATLKPGQSASAEQQPLSATTAMQPAATAASQASTASPAAHKGA
+RVVTEMASAQPVSSQPASSQSAQGQALAPEQRMASAQPASATNPLLNQASLGSKQAGVTI
+PGNAAALVTVETVSLSSPAGAGRPPVENMVSMAVMESTFDTGEPVGLETLVEKRMIVPVP
+VPKPGIINEAYSAAKSTLAELNPFESKPSGNSRVEIDRLITVYAKQNGIPEELVHRVVRR
+ESGYNPKAYHRGNYGLMQIRYATARGLGYNGPAEGLFDAETNLKYATRYLRGAWMVADNQ
+KDGAVRLYASGYYNHAKRKGMLDMLNMR
+>tr|A0A1Q9AJ69|A0A1Q9AJ69_9RHIZ
+MPHDLPVAIAGAGIAGLTAALSLARHGFQVDIVEQATELKEVGAGLQLSPNATAVLERIG
+LGHDLARVWREPEEIRLSDGASLSRVAAVPAGAYARQRWGHAYAAIHRAALQQVLSAAVA
+AHPLCRLHLGQRLDGGTISRLDAITGRRPAVLIGADGARSALRAVLPGAGARHFSGHVAW
+RMTLPFDKAPDVLDPQAVTAFMATRAHAVAYPLRDAFNLVVIGRGSADLAAGSPHQVPAD
+LLALWHPGLQAAIRQATPAVAWPLFEVADGAWDDGAQRVLIGDAAHAMTPFAAQGAAMAI
+EDAFELAGFLAQSRAPADAFAAYRRHRAGRIDKVRARAAFNRFAYHAAGPLRLGRNLVLG
+LRRGESLAADFDWLYGYQARG
+>tr|A0A1Q9AQ09|A0A1Q9AQ09_9RHIZ
+MGNGLTDTLVNPTVLLAACVSLAVLATIYTVVTPFFEGDTLKRRMKAVSHEREQIRARER
+ARLHAETGRARLRADQNGSVRQVVDKLNLRQLLVDDNTVGRLKMAGYRSQNALNTFLIAR
+LCLPFLFLVVALVYIFGLETMPDSELTTQLLAVIAATAAGFYLPSLVVTNQINKRQASLR
+RAWPDALDLLLICVESGVSMEQGMRRVADEIAEQSAPLAEELVLTTAELSFLPDRRTALD
+NLATRTGLEDVRAVVQALIQADRFGTPIANALRVLAQESRDQRMNAAEKKAAALPPKLTV
+PMIVFFLPVLIAVILGPAILQVMDTF
+>tr|A0A1Q9AG14|A0A1Q9AG14_9RHIZ
+MKASEADILIIPGYTNSGPDHWQTRWESKLASARRVEQAEWSKPVREDWVQRVAEEIAAA
+TKPVVLVAHSLGVTTAIHALEQAGTDKIAGAFFVAPPDVANAEIRPKHLMTFGPYPRNRL
+PFPSLIVASRNDPFGSYEHAEAIADAWGSLLVDAGESGHLNSESGHGPWPEGSMVFARFL
+SQLKPPQPVG
+>tr|A0A1Q9AG95|A0A1Q9AG95_9RHIZ
+MISFILRRLASAVPTLFIVVTISFFMMRFAPGGPFNLERPLPPQTMENLNRAYGLDLPLW
+EQYLRYLSNVVHGDFGPSYVYRDNTVDQLIAMGLPYSIKLGLLALLLALIGGVAAGTYAA
+LRQNSLTDLLVMSVSTVGVTVPNFVVGPVLTLVFAVILAWLPAGGWGDGSLRFLILPMIA
+LALPQLAVFARLMRGAMIEALHADHIRTARAYGLPARTVIVTHAMRAALLPIVSYLAPCA
+AGLLTGSAVIESIFSIPGVGRYFVIGAINRDYTLVMGTVVLIAIFVIVFNLVVDLLYGLL
+DPRVRHE
+>tr|A0A1Q9AI95|A0A1Q9AI95_9RHIZ
+MFLKASFSIAPVLAGMLVTTGVAHAQENVVLEYWVYSDFAQGEALKLQQTFINEFVAKHP
+GVTINIAGKGDDDLLSGQIAGAASGTGPDVFMNSTSAGSSLVEAGALKNIYAEWMATPES
+FRAQFNKDLIAMCTPKPETMYCIPYTGYGSLMFRNLTVLEKAGVDTKAPIRDWADWLSQM
+EKVKASGKYGVPDMAQNWASFLNIYSGVAEASEWGADFDTKKTLINPEKYAKAADFLQKL
+KPFSTGTNVNDQATRDLFISNELAFYVNGPWVNPPLEQAAKASGLKYDWVMVPGATEGKK
+AGVQGYEFIGVAPKANAKLAFEFAAFVTEKQQMIRWAAALGRYNSNVESLADPSVSGNPL
+LAATAQSARTALYNKPPFFLGTFPNSYWSAITDNASAVADGQMTPDEAAADLVEELNEIL
+ADD
+>tr|A0A1Q9AKB2|A0A1Q9AKB2_9RHIZ
+MERIRRNPTPPPLAERLSFWGFVIAGLVVSVIFLMPVVWSLANSFKPAAEALAHPAALFS
+KSFSLENYRRLEGVGAGWVVYATNSVLIALGTVVLTILVSVPAGYGFSKFRFPGQSLLFV
+IVMATMMIPFQSILTPLFLILKFLRLQNSLTGLVLIYVTFQLPFSIFMMRNAFDAVPRAL
+IEAARIDGASQATILRRIMLPIALPGVATVAMFAFLNSWNEFLAALIFLSDQNKFTLPIM
+LVNVSSGIYGIIDWGALQAGIAVTMLPCILLFLALQRYYVRGLTAGAVK
+>tr|A0A1Q9AF29|A0A1Q9AF29_9RHIZ
+MSEDDFHLFETMRHEPLQGILHQRLHLARLKRSAGRLGFAGADAADAFLSAREPDLPADG
+PSRLRLSLKRDGTLSLAHAPFTPHPPGTTWRLRIAATRADSRDRLLRHKVSRRGLYEAAR
+AEFTPEDADEVLLLNEAGLPCEGTITSLFLDDGTGILKTPPIGNGLLAGVLRTHLTCTRR
+ARVTRLTLDELKAGRIFMGNSLRGLIPAILVG
+>tr|A0A1Q9AQ32|A0A1Q9AQ32_9RHIZ
+MVARVRTLAFHGVEGLPVDVQVMIAPGRVGMQIVGLPDKAVAESRERVQAALHASGLALP
+AKKVTVNLAPADLPKEGSHFDLAIALGLMAALGALPGDALEPYVVIGELNLDGTIADVAG
+ALPAAIGAHGLGKGLICPAGSGPEAAWAGDGIDILAPRSLIALANHFRGTQKLARPAPAI
+RKSAGALPDLAEIKGQESAKRALEVAAAGGHNLLMVGPPGSGKSMLAARLPAILPPLSPA
+ELLDVSMIHSVAGQIAEGRLTDRRPFRAPHHSATMAAMVGGGLRARPGEASLAHHGILFL
+DELPEFSPTVLDALRQPLETAECVIARANHRVTYPAAIQLIAAMNPCRCGMAGEPGHQCA
+RGPRCAADYQARLSGPFLDRIDMRIDVPAVSAADLIRPAAAESSATVAARVATARARQSE
+RAAHFGFAPGLCNARLSTAMVERVAEPDAAGLTLLREAAERMKFSARGYHRILKLARTLA
+DLDGSAMVGRLHLAEAISYRLPGERLTAAA
+>tr|A0A1Q9ALW0|A0A1Q9ALW0_9RHIZ
+MVHSFDVAAVWCQDESPVIARVVVRSQPGSAVIACSRVQCSLIKAVNGVAIRCRKGEMHI
+APGSVTSSEPEIGLYVTPITDVIWNLTVSSVRHKPSYSQRSQSSIIECQSCFKIINRYTN
+VIHSNLRCLSRISRFLFDMSSGLLRR
+>tr|A0A1Q9AHC5|A0A1Q9AHC5_9RHIZ
+MVIDTSAVVAILRDEPQAERLERAIVADPIRLIPATCVFEARMVMVSRRGEHALAEIDLW
+LSKIAAEIIPVDAELVDLATQAWLTYGKGRHPAGLNFADCFSYALAKRVDDALLFIGEDF
+KQTDIEAA
+>tr|A0A1Q9AD98|A0A1Q9AD98_9RHIZ
+MLATRLMRVIFGCYLGVATLLTCLQMGLEYQAANRKLQQDIAGLEKTFSPGLSDAMWRYS
+TEVISGILSGMREMPVVTGIEVRDEKDALVARIGRMSGEPSADSAATGLADFFDQPLTQS
+FPLVHVDGNGVAHPLGQWTVYSDRAVVFEQLKRTLIIVFINSTMKTVMLWLIFAWVIRRL
+VGRPLAKIDAFVREIDADNLGARPLVLDADGNSELQTLAATLNKMVERLRATFAENAVLL
+EGMRDMNSTLMTKVAERTRELEQLAQTDLLTGLANRRKLDDVLERQIETARAQGAPLSVI
+LGDVDRFKAINDRHGHKIGDSVLVAFAAILGADLRAQDTVGRWGGEEFMLICPQTDLDDA
+LAIAESLRLRIETTPLPKVGCRTCSFGAATLRPGETADELVARADAALYESKHLGRNRVA
+ASR
+>tr|A0A1Q9AEG6|A0A1Q9AEG6_9RHIZ
+MTAESPIPCIANADLRRQIETFAEVLKTESHKLGDHGLDEKEFYNSGLFRGAVERVRGQF
+SATMSEKREFVRHVLNHMQDQGAIAEWQSAGEANRHDYVVELLDGRKAAIELKGCLDGNN
+TNIFDRPPHVQEFIIWSVCSNPGASPPHNAWSGIHTRLSAEIISRSQRVDGLIIWDWACG
+TIGRPCPKVAAGAAPVTTIGPYELPPPCIYLFPGTIPAPRNNPSPPPQTIDQVGILKAFH
+SCFGGNDHHLHQVGFTVEYQGVETVRTTTITRDGNVVKQSAPSPIKRT
+>tr|A0A1Q9AHW8|A0A1Q9AHW8_9RHIZ
+MASIASTPVVLIDLEAERQMRTGLLLAAPAILLILVFIVAPMLAVLVLGFTDFELGYGSF
+RFVGLENYAELFSDRTFLASLRNTAVYTAIVAPVSLLLGLGLALLIESEPVGRSFFRTAF
+FLPVASLLVAMATVWQYLFHPSIGPINAALRLVGVAGPNWLGASDMVLTSLAIIGIWQSV
+GFNMVLFLAGLTAIPRDLYAAAEVDGAKSARDRFFLVTWPMLGPTTLFVITISIINAVKV
+FETVKTLTEGGPNKASEVLLFTIYREGFVYLRVGYASAMTMVFLAVLVVLMIAQYRLLDR
+EVHYG
+>tr|A0A1Q9AD80|A0A1Q9AD80_9RHIZ
+MSQTDRRFHRPTGASATLGRTGFPTIVSATGGRLDIKTGVEEAGFNPLDLLYASLSACLA
+MSARSAAVELGLRDRLSEITVDVRGVKAPDDPARVTHFEIDMHLTGDLDAQTKQAIAHRA
+EESLCTVSNTLKGTPSFGLTIREC
+>tr|A0A1Q9AK38|A0A1Q9AK38_9RHIZ
+MADDRRDTDGRPSPDALLARAEREGRGRLKIFLGAAPGVGKTYEMLMEGRARRADGVDVA
+IGVVETHGRRETQALLEGFEILPRRGSDYHGQALAEMDLDAILGRRPSLVLVDELAHTNA
+TGSRHPKRYMDVEEILARGIDVYATLNIQHIESLNDIVAQITRVRVRETVPDTIIDRADD
+VEIVDITPDDLIKRLKDGKIYQEETARRAIENYFVPGNLTALRELALRRTAQRVDDQLLH
+HMQAHAISGPWPAGERVLLCLGHGPEGAGLVRTARRIAERLRAPWTVLHLDRPQAVLRSD
+AEKDRLAANLRLAEQLGGESVVLPGVHLAREILAYAQGRNVTHIIVGRPAHAGWSRLGLL
+GWGASVTEELVRRAGRISVHVVSGEAEEGPPRRGVKTAAPSEPFHILPYLISLVFVGLAV
+GAGALLDQVLNVQNLALGFLMAVLLSAVAGGLGPALCASVAGALSFNFFFLEPRYTFTVR
+DPESLVALFFYLGTALVASNLTAAVQRQAAAARARARTTEDLYLFSRKLAGTGTLDDVLW
+ATAFQIASMLKLRVVILLPEGDSIAVKAGYPPDDTLADADIAAAHWAWEHDRPAGRAADT
+LPGARRLYMPLRTGRKAIGVIGLDDDRQGPLLTPADQRLFDALADQAALAIERIQLVSDV
+DTARLAAETDRLRTALLTSISHDLKTPLAAILGSAGTLKDFDGQLDAESRGELLGTVIDE
+AERLNRFIANLLDMTRLGAGAMEPNHALHFAGDIVGSALARAAKIAAGHRVAVSLPVDLP
+MLKVDPVLFEQVLFNLIDNAAKYAPEGSLITLGGGRDAQGLFLSVMDEGPGIPPEDIERI
+FDSFYRVRKGDQVRAGTGLGLAICRGFVEAMGGTIHAANRTDRPGAIFTLRMPVEERALP
+STPPP
+>tr|A0A1Q9ANW0|A0A1Q9ANW0_9RHIZ
+MRSTPRSAFSRPFIALIALTLSAAVAPLGAAPALAHAHLQAASPADKASVTTSPEAITLT
+FSEALSLALSGITLTAEGKGAMTTGAARLGPDGKSLTVPLTAPLAPGAYQVDWHVLSVDG
+HKTRGTLHFTVAP
+>tr|A0A1Q9AJD9|A0A1Q9AJD9_9RHIZ
+MALHLIKLCVGADSIEDLREWVSERALSAIAAGLEPHSAHVTRMVPKRMDEILDGGSLYW
+VIKGQVQARQRIVDITPFTDNEGIGRCRLVLGPEVVETAFQPRRPFQGWRYLVEKDVPPD
+LAAAGGAELPAELRRELAELGLL
+>tr|A0A1Q9ADK0|A0A1Q9ADK0_9RHIZ
+MRFCLLLLALLLPVPLAQAACEGREISQGLQEGPVCIPQAPKRIVTLDPLITLGFLIEMG
+APVVGTPYMAIQDETVLKTVKEQGMADLGNPKEPSLERVAALKPDLIIGSAEVHGQIYAQ
+ASRIAPTLLFKHMDWKAYQALLAEVTNRQEIAGKQRAAYEQRAAAIRARMAEKPLTVSAV
+RLAPGRFVVFVDGPQAYAPYAVLHEAGVRRTPYETVTDDTIVKRPDWEELANLEGDVLLY
+VVASGFDSGPDDALEKEVTANPLWQLLPAVHKGRAHRVDRDAWQSFHGIASAQRILDDVE
+RYVLDAR
+>tr|A0A1Q9AIN0|A0A1Q9AIN0_9RHIZ
+MATKKAPDDVFPSLSEGDAELDQAIDDLRGVLKSDANNAIAGDDVFAGSMSGMDGMSSFS
+ASEELGGFGGDFAADTTSSNSLAGSGRSSRSRPLRAGAEIPANLELIMDIPIDVQIVLGS
+SRMQVSSLMSLTEGATIGLDRKIGEPVEVTVNGRVIGRGEITVLDEDDTRFGVRLIEIRS
+GRG
+>tr|A0A1Q9ADZ0|A0A1Q9ADZ0_9RHIZ
+MFTAPALALIGIFLVYPILRSLVLSFYAGKGMMLKPAGFSNIVRLWNDPIFLKALVNTTT
+FFVVQVPIMIVLALLLAGMLNSDRLRFAGFFRTAIFLPCVASLVAYSVLFKGMFAVDGVV
+NSTLMAIGLVDQPIGWLTDPFWAKVLVILAITWRWTGYNMIFYLAALQNIDKSIYEAARI
+DGVPAWARFLHLTVPMLKPVILFTTIISTIGTIQLFDEVYNLTEGRGGPADSTITLSLYI
+YNLTFRYMPSFGYAATVSYVIVVMVAVLSFLQFYAARDKA
+>tr|A0A1Q9AJD7|A0A1Q9AJD7_9RHIZ
+MARIAGVNIPTAKRVVIALTYIHGIGPKFAQEITEKVGIPADRRVHQLTDAEVLQIRETI
+DRDYQVEGDLRRETSMNIKRLMDLGCYRGLRHRRSLPVRGQRTHTNARTRKGPAKAIAGK
+KK
+>tr|A0A1Q9ADV9|A0A1Q9ADV9_9RHIZ
+MKAETTGFHTHMRQLCGICALQTFEPFHGKSDEDAVAQNDDKGMSPGVVACGCRNEIAAR
+LLTALYGRREITIRNLHEYASMLRKAQLCAHQAFWQGASARVWRSQNFLAAAPARQDSS
+>tr|A0A1Q9AFA4|A0A1Q9AFA4_9RHIZ
+MLFRSPSPRTVRWRSLDGEGLEHLDLLPKSDGSLLVRGVIIGGRGGEAYGVRYAIACDTR
+WHVRHFDIETTNGCSLSLSSDGEGRWFSDDGTPRPALDGCVDIDLAGTPFTNTLPIRRLA
+LRPEDGPRQLTMLYIPFDRFEPVIDRQIYTCLVPGALYRYQAADRSFSADLPVDADGLVT
+DYPTLFQRV
+>tr|A0A1Q9AFB2|A0A1Q9AFB2_9RHIZ
+MQISLAGELTETGHRLVQRVYYEDTDFSGVVYHARYLHFLERARTDYLRLLGVEQAALAV
+EGDAEGLVFVVHRMEIDFKAPARMDDILTIRTVTEKAGGAKMVLSQEIWREERLLIAARV
+IIAVINAAGRPRRLPDVLAERFLARARPDAPPV
+>tr|A0A1Q9AHE8|A0A1Q9AHE8_9RHIZ
+MAPLLTRTTKVGRPRLHRDHDVWNAIQYLAATGCQWAQLPRDFPPFTTVQYHFYRTRDSG
+LLDAINTVLVACARIAEGREAEPSAGIIDSQSVKTTEAGGPRGYDAGKKIKGRKRHILTD
+TRGNMLDAMVHSAGIQDRDGAPGLIERCRDTYPSIIRLFADGGYAGHKLETALGHLDRLA
+IEIIRRSDTKGFVVLPRRWVVARTIAWLNRCRRLAKDWEASVASSQAWLLIASIRRMTRR
+IAKFKLCVRL
+>tr|A0A1Q9AHS5|A0A1Q9AHS5_9RHIZ
+MNIKAGFMASAMLLAQPFLLGAAAHAERVLRLDEAPIGEIDPAKATDYADTVLATNIYDT
+LVYPKAGGPGVEPLLATEWSIDGTSYTFKLRDGVKFHSGNALTADDVVFSLNRMVAMGQG
+FSSLFAGRVAKAEAVDPLTVKFTLSEPYAPFLAALVRLPIVDSKLVMQNKADGKHGEFGD
+YGEAFLSAHDAGSGAYKVDSQNPQSETVMVKFAGYFLPFAEKAPDRVRYRYGIEAPTVRA
+LMSRGEHDIADLWLPPEVIRAASAEKGIKLVTEAGGATGEYIKLNTARAPLDDVHCRLAL
+TYAFDYATTLKILKINDKYAQGIAMKGPLPSGLTGYDKDLPDYKQDMAKAKEELAKCKYD
+PKTSPIDIAWIAEVPARERVALLMQSSFSKLGFPVKVIKTPWALVSDQVTKPATAPHAVE
+IAVAAVTPDPDSLLYNMYSSKVPPTWMSAEHLKDDKVDALLEAGRTETDPAKRDVIYKEL
+NKTLRDLAPAINAYEFTGVYTVRSAITVPKLEDKSKQTLDNFNLVFRDISVAE
+>tr|A0A1Q9AFQ3|A0A1Q9AFQ3_9RHIZ
+MGDSAPRVTRAAAAGLLLLGAALLSGCQTDAGSDMMKVDRAQGSDQNIASLTSVISANPN
+DPEGYNVRGSAYGRAGEFRRALADFNRALELNPRFYQAYANRALVERNMGDQASALKDYN
+AALQINPRYDVAYIGRGNLYRQAGRLDQAFADFNQAIQNETTDPRAYHNRGLIYQARKQH
+NQAIEDFSTAISLSSTSPEPYNGRGISYLALGDDDNAFSDFNTAINLNGNIAESWANQAL
+VYERRGDKAKAARSYSHALQLDPKYEPARAGLARVKGGA
+>tr|A0A1Q9AM70|A0A1Q9AM70_9RHIZ
+MAGGSFSFPVAEDRAAVLGEIHARPSALLECPRVIFQLAFMMTDGPSAHIASLAELSRAC
+GVSPPATDARHHTLPFATGTLRWERHTEFSTWFWDGPVPDNFGDTVNLHPFGDRFIPPGP
+MISGMRVEIRAEDFDQGSAVFDEVSTCASAVRRGQATIRTDFRQDGDGLTRFLLIDKGLS
+PAGRGSVVQRLCDIETYRTLAMLGLPLAQGLSPQIARIESEFAKLTEKMRRTAHGEADAL
+LSEVTELASELEAHAAASLYRFGASRAYYDIVQERLQSLGEVPTSDHETIGTFLEKRMAP
+AMRTCRSVEERQANLSRKLTRATSLIRSWIDVELERQNAGLLASMNRRATQQLRLQQTVE
+GLSVAAISYYVIGLIGYVAKALPHDTEWLDPSVLTGICVPFVVLIVWYGLKRMRKAHSVD
+>tr|A0A1Q9AI34|A0A1Q9AI34_9RHIZ
+MSRKQKRLALISGGVGFVALAVLLVLFAFSQAVAYFYVPGDLAKAHLAPGTRIRLGGLVE
+SGSLQRGAGTLVHFTVTDTIGAVPVTYDGILPDLFREGQGVVAEGRLAENGSFVADTVLA
+KHDETYMPKDVADRLKAQGVSLGGGETIR
+>tr|A0A1Q9ACR8|A0A1Q9ACR8_9RHIZ
+MAQIKGLFSVAAALAALVLSAGAAIPAPANGSLWMQTGSVTSQPIGHYEFCQTHQSECSI
+TSPSSPPPRVTEYGWKLIREINSSVNHAITPMTDMELYGREEFWTYPTTAGDCEDYALLK
+RRDLLERGFSPADLLMTVVRKPDGEGHAVLTVRTAQGDFILDNLDDEVKIWTKTPYRYLK
+RQASFNTGRWVTIENGDEVMVGSVGR
+>tr|A0A1Q9AI70|A0A1Q9AI70_9RHIZ
+MGQARPRTTDIRQATDQDIEALRAIDPLLLREGDRSRHLVHAVAAGQCHILQEGSAACAY
+GVLTDQFFHQRFIALLIVADERRNRGLGTIMLRHLRALCPTAKLFTSTNLSNVGMQRLLL
+REGFIQSGVILHLDENDPELVFHSPACSAGPFKAPEDGF
+>tr|A0A1Q9AG10|A0A1Q9AG10_9RHIZ
+MSHTPPIRIAPSILAADFARLGQEVQDAMAAGADWVHLDVMDGHFVPNITFGPDVIKSLR
+PLTDAFFDAHLMIAPADPFIEAFAKAGCDQITVHAEAGPHLHRSLQSVRALGKKAGVAIN
+PATPESAVEYLLDTVDLILVMTVNPGFGGQKLIEATLDKVSRVKAMIGDRPIQIQVDGGI
+ARDTIARAAAAGANVFVAGSAIFGAKEPGGYAREIAALRANAEAARG
+>tr|A0A1Q9AQ16|A0A1Q9AQ16_9RHIZ
+MIQAAIFVVVPLCLAFAAFSDLFTMTIPNRVSAILLATFVVVAPASGMDLSTIGLHLAAG
+ALVFAVCFVLFSLNTMGGGDAKLLTASAVWFGLDASLLDYLLLVSVCGGLLAVVILVLRG
+QHALLQAYGLRLPATFEAKNKIPYGIAIAIGGFLAYPASPLMQTALSIAAR
+>tr|A0A1Q9AJ81|A0A1Q9AJ81_9RHIZ
+MTPDVRPLVAGNWKMNGLRAALDEIKQIADGVDGSLSEKVETVLCPPSTLLYVATALAED
+SPLQIGAQDCHHHNSGAYTGDISAEMIADLFASHVIVGHSERRKDHAESDALVCAKAEAA
+LNVGLQAIICVGETQAERDDGQTLEVLARQIEGSVPEGARAENTIIAYEPVWAIGTGLTP
+TTGDIAIAHEFLRARLKERLGDEGARMRILYGGSVKPSNAREIVAIAHVDGVLVGGASLK
+ATDFLAIYGAYEGLLDLEAAA
+>tr|A0A1Q9AHI2|A0A1Q9AHI2_9RHIZ
+MEIHELERMARSIRRRDLEAVFAAGAGHIGGEMSVIDILTALYFRVLKIDPAQPKLPERD
+RFVLSKGHTACALYVTLAKRGFLPEAEIETFLAPHSRLNGHPNCNKVPGVETNTGPLGHG
+LPVAVGMAKAAKLSGARYHTYVVTGDGEMQEGSNWEAIMAAAQFGLDNLTLVIDHNRFQQ
+GASLADTNGLAPLRPRLEAFGWEVAEINGNAMAEVVPALEHRSGRPYCIVAHTNKGHGIS
+FMQDRVDWHHKVPNKEQYAIALAELSEAL
+>tr|A0A1Q9AHQ6|A0A1Q9AHQ6_9RHIZ
+MHPFAQRHAISDICVLVKDLEASIAFYRDRLGFRLLHRAPGFADFSGAGLTLALWEGTHI
+HAHAGVEVTEARPASLLIAVRLDSFAALDEAYAELVAAGVVFTAPPRDYVWNARCAYFAG
+PDGEIWELYAWLPGGAPGALNAGEGA
+>tr|A0A1Q9ACN8|A0A1Q9ACN8_9RHIZ
+MAEIAAPPVSRVLVGEGAESREIAYRFLPATEAANPPPEKPAIVWLGGYRSDMEGTKALE
+LEGFARAKGLACLRFDYSGHGISDGAFAEGTISRWREEAEGVIATTGIGRMILVGSSMGG
+WIALRLAEELRRHGQAERLAGLVLIAPAPDFTSDLIEPQLGEAERRALDEKGYFEEPSAY
+GADPYIYTRKLMEDGRDNRVLTGTIETGCPVHVLQGMKDPDVPYAHALKLMEHLACDDVV
+MTLIRDGDHRLSRPEDIERILAAVSAMLTEA
+>tr|A0A1Q9AHD5|A0A1Q9AHD5_9RHIZ
+MTIQPYRICIERIDAEKNMARFYAMSVEKTLFGEACLVRTWGRIGSNGQRMEHHFGREEE
+AVRLFLDLLRQKRRRGYRPRVTVF
+>tr|A0A1Q9AP84|A0A1Q9AP84_9RHIZ
+MRMELQRQSNPVDMIEFVAANNDWSFERSGEDEIAMAVAGTCADYHISFSWMEEFEALHL
+AVAFDLAIPDSRVSAVNELLSHINGQVLMGHFDLWRQEDVVIFRQSLLLAGGAEPTDRQV
+EVLLSSALDACESYFQAFQFVVNCGVDARTAVEAALFETVGEA
+>tr|A0A1Q9AH23|A0A1Q9AH23_9RHIZ
+MNRMEALTAKRQAERHGRARHAVDEIRKRAAEAGLSIQPVGSFARGDFRLHSDIDLLVRG
+PIDRCHRVAAERIVAESLRGVDIPYDLIFEDDLTAERLEEFLRDSL
+>tr|A0A1Q9AMU5|A0A1Q9AMU5_9RHIZ
+MPQMRQAHKDWPTFKDDSATKVERAFLALDEDDRKLALDRVSAFLRKREALGQNSGSFGD
+YLRRRLWEGLTEQDLRDAAPACLYSRFSRAWYGAVLATLLKPEAPLPRLTRFQQVEIAKG
+GPIAARILQDRRALYGWPAVHGLYAAKAVKVPAGIAEASRSFVAVPAGSDALATWEAAFR
+SRGWPWPDLGTHQWHHFPPLEGLRMQDVDAALAAFERALSGDRTGDDADQA
+>tr|A0A1Q9AIR2|A0A1Q9AIR2_9RHIZ
+MTEIGHFIDGKHVAGTSGRTSPVYNPATGEIQASVSLASDAELAAAVASAKAAQPKWAAT
+NPQRRARVFINFVNLLNAHMDELATLLSKEHGKTIEDAKGDIVRGLEVCEFVIGIPHLSK
+SEFTEGAGPNIDMYSLRQPVGIGAGITPFNFPAMIPMWMFAPAIACGNAFILKPSERDPS
+VPIRLAELMIEAGLPAGILNVVNGDKSAVDAILTHPDISAVSFVGSTPIARYVYGTAAMN
+GKRAQCFGGAKNHMIIMPDADLDQAANALMGAGYGSAGERCMAISVAVPVGEETANRLIE
+KLVPMVESLRIGPYTDDKADMGPLVTKEAQTRVRGLIDKGVEEGAKLVVDGRDFKLQGYE
+NGYFVGGCLFDHVTPEMDIYKTEIFGPVLSVVRAKNYEEALDLPMKHEYGNGVAIFTRDG
+DAARDFASRINIGMVGVNVPIPVPLAYHSFGGWKASSFGDLNQHGTDSIRFWTRTKTVTA
+RWPSGIKSGAEFVMPTMR
+>tr|A0A1Q9AMS7|A0A1Q9AMS7_9RHIZ
+MANVTFIGLGVMGFPMAGHLSTKGGHKVTVYNRTAARAEAWVEKFGGQRAETPAEAAEGA
+DFVFACVGNDDDLRAVTTGPGGAFETLAADAVFIDNTTASAEVARELDAAARARGAHFID
+APVSGGQAGAENGVLTVMCGGDEAVFARAEPVISAYARMVGLMGPAGSGQLTKMVNQICI
+AGLVQGLAEGLHFGAKAGLDIEHVVEVISKGAAGSWQMENRHKTMKDGRYDFGFAVDWMR
+KDLDIVLTEARRNGATLPVTALVDQFYGEVQAMGGGRWDTSSLLARLDKAKR
+>tr|A0A1Q9AJ65|A0A1Q9AJ65_9RHIZ
+MAAKLNENSDDLAENSEINVTPFIDVMLVLLIIFMVAAPLATVDLKVDLPQSAARPAPRD
+DKPAFVTLKADRSLAIGNETVSEQAFAAALQAQTGGNRETRVLLRADKSVDYGALMDVMN
+RIQRAGYQRIALVGLEGMPAR
+>tr|A0A1Q9AGP4|A0A1Q9AGP4_9RHIZ
+MAKPSLSIALRYLHYFLTAAEHGSFRKAGAALGVQESSISRRIRDLEDHLGASLFQRYNG
+GVRLTFAGQRFQRRAEEMVRHVMDSAEDVAAIGRAESGRIKVGILPSLAAGFLAELFRAY
+NQHHGGVHIDFVEGETAGHAAAIAKLGLDAAFVAGSRPWPECEVTPLWSEQLFVARPDLH
+RLAGQCVLDWPLLANEGVLIRQGAADPAAGDALTLRLIEAGHGIGLQQQGVGRDTLLPLV
+AMGRGLALVSEATGSIPFPGIVYRPIAGETLTFSALWSAKNDNPAMRRLLAIARRVAQSI
+EVKRLR
+>tr|A0A1Q9ACQ7|A0A1Q9ACQ7_9RHIZ
+MRRPFKSDAPVKDGPRSNKEIRVPRVQLIDAEGGNQGIVPTDQALRLAEEAGLDLVEISP
+NAEPPVCKILDLGKLKYATQKKAAEARKKQKIIEIKEIKMRPNIDTHDYEVKMRAMNRFF
+EEGDKVKVTLKFRGREMAHQELGMKLLLQVKEDTTAIAKVEAEPKLEGRQMMMVLAPR
+>tr|A0A1Q9AL24|A0A1Q9AL24_9RHIZ
+MDVTIYHNPACGTSRNTLEMIRNAGIEPTVVEYLKTPPSRDELVRMITDAGLTVREAIRQ
+NGTPYAELGLDDPALTDDQLLEAMLKDPILINRPFVVTPLGTRLSRPSEVVLDILPDTHR
+GAFTKEDGEQVLDAEGKRIG
+>tr|A0A1Q9AMD8|A0A1Q9AMD8_9RHIZ
+MNRFLSHATQRIDAKGRVSVPSPFRSVMAALDIRELYCFQDFVYPAISAGGPELLERFEK
+QIAEADPFSPEANEMSLLIHGGGVFMKLDAEGRLTVTDFIRDFTGITDEVTFVGRADHFQ
+LWSPSAFAQTQEAARRARRQRGLAAP
+>tr|A0A1Q9AH70|A0A1Q9AH70_9RHIZ
+MLDDAAPRARDSSMILDLVANGLGLAVLVWDRDDRLLFAARAVLGLFPISPSFLEPGTRL
+RDYLGALYDAGLGAGIPVEGNRRRVGREEWISNRLSLHWRERFESVERMARRSWVSISNR
+RLSNGIGIVLLSDLTQQKLHEEELQQDRERVELTERILDELPNAVCVKDRNLNYVAVNKA
+FCDMHGMSASALLGRSVWDLVDAEFAERYENSDRDVLENGTRHVAPQQIVTADGEDLWTI
+VHKFRVGKPADGLLVTYFSDVTPLIDGFGPLGMEGSGAALVPRGAIDRFEPAQNLYDPFK
+ALDVSSLVETPAIQLPVEVAYRLRILLVTTCPTLERRFADALAELSCDVGIVNSFAMLKD
+LNEALAGIALSPNLILYDESLGAPPPGPFDALPHLPVSLHLAPRDLAAQIMAAGLSSQEV
+VGDIHAQVAGLAPVAQPQTAIDVLVAEDNDINQIVFAQILEGLGLSFKIAVNGEEAVAFW
+RSHHPKLILMDLAMPVMDGHAAIRTIRASEEQEAQEPTPIVIVTTQAADMEAAEMAALAI
+PARLMKPVSPERVEALFHRFAAGQPAAERIAP
+>tr|A0A1Q9AHM0|A0A1Q9AHM0_9RHIZ
+MLSYLLNRLWQSLILLVLVSTIGFAVLNLAPGGPLSQFALTPGMTREALDRIAEQMGLNR
+PLPIQYLDWAWRLLQGDWGTSYRDQRPVLEIISGHLFATLLLMGSSTLISILVGTWIGIK
+GATKRYSLFDYTATIGAMVALSIPTFWFGLVAIYVFALKLKWLPAGSMYTIGDQSFSDYA
+IHLIMPSLVLALVNIAVWSRYMRTATLDVINQDFVRTARAKGLAPRRVLMKHVVGNALLP
+MITLAGLQLPTILGGALVTETVFTWPGMGRLFLDSLGYHDYPVVMGLLMFSAILVLAGSL
+IADLLVALVDPRIRLG
+>tr|A0A1Q9AJI2|A0A1Q9AJI2_9RHIZ
+MAREYKIEDYRNFGIMAHIDAGKTTTTERILYYTGKSHKIGEVHDGAATMDWMEQEQERG
+ITITSAATTTFWKGRDGKMRRFNIIDTPGHVDFTIEVERSLRVLDGAIALLDANAGVEPQ
+TETVWRQAEKYNVPRMIFCNKMDKTGADFYRSVEMIKTRLGATAVVMQLPIGAESEFKGV
+VDLIEMNALVWRDESLGAAWDVVEIPDDLKDKAEEYREKLIETVVEIDEEAMEAYLNGDM
+PDNDKIRELVRRGTIDVKFHPMFCGTAFKNKGVQPLLDAVVDFLPSPLDIPAIKGIDAKT
+EAEIERHADDNEPLSMLAFKIMNDPFVGSLTFARIYSGKLEKGAGVMNTVKEKRERVGRM
+LQMHSNSREDIEEAFAGDIVALAGLKETTTGDTLCDPLKPVILERMEFPEPVIQIAIEPK
+SKGDQEKMGLALNRLAAEDPSFRVKTDQESGQTIIAGMGELHLDIIVDRMRREFKVEANV
+GAPQVAYRETITKACEEDYTHKKQTGGTGQFARVKIIFEPNPEGEDFKFESKVVGGSVPK
+EYIPGVQKGIESVLSSGPLAGFPMLGVKATLIDGAFHDVDSSVLAFEIASRACFREAARK
+AGAQLLEPMMKVEVVTPEDYVGDVIGDLNSRRGQIQGQESRGVAVVISANVPLANMFKYV
+DNLRSMSQGRAQYSMVFDHYAPVPNNVATEIQAKYSGQK
+>tr|A0A1Q9ACZ0|A0A1Q9ACZ0_9RHIZ
+MSNPAQSIRIGTMISASGGEAAKRIGQIADLGFESFEPFFWQTTNGQDLAELGKRCREAI
+GARDITMSTLGMFGNPLETEAMDLETLQGWKDCIDNAHHFGATCVAGFTGRVRGKPLTDS
+LPRYKEIWSELSRRAADKGVKIAFENCAMDGNWQSGDWNIAHNPDAWELIFNETPEDHIG
+LEWEPCHQMVYLIDPIPQIRKWAHKIFHVHGKDATIRWDVIREHGIFGKLPFVFMRTPGF
+GDTNWTDVISELRLAGWSGSIDIEGWHDPVYRGELEMTGQVHGLNHLKRCRGGDFVTDPA
+>tr|A0A1Q9AE43|A0A1Q9AE43_9RHIZ
+MAALASERVAMRRSRRRSRCHVRQIAMYLCHVVLQMSLTDIGAGFGRDRTTAGHACNVVE
+DLRDDPVYDAFLSTLERVVQAVFPRAAQGGAIDA
+>tr|A0A1Q9AGP1|A0A1Q9AGP1_9RHIZ
+MHTGSATKPIVSASGRFEPPAPAPGTRPLRRLELIRTALRNPLELWSEDAYRLPWIETMF
+LTQRTLIINDPGLIRHVLVENAGNYEMSAVRRLILRPILRDGLLTAEGPAWKRSRKAMAP
+VFTPRHARGFARQMLAVSQAFAARYEQASAAGETVDIAGDMADLTYEILAETLFSGEIAA
+DTKAFTDNVERLLHRMGRVDPFDLLLAPPWVPRLTRIGGGRLLASFRAIVAETMARRRRQ
+IADSPAEAPQDFLTLLLGLEGPDGLTADEIADNILTFIGAGHETTARALAWTLYLIARLP
+DWRARMEEEIDHVLGEGADPVDWLERMPHVRAAFEEAMRLYPPAPSINRAAIEADSWTAP
+SGERVVIDKGVSILVMPWTLHRHELYWEEPRAFRPERFMPGARDSLHRFQYLPFGAGPRT
+CIGATFALQEAVIALACLMRHHRFDITPQTRPWPVQRLTTQPQGGLPMRVTRRLSPG
+>tr|A0A1Q9AKT8|A0A1Q9AKT8_9RHIZ
+MALAFTFPGQGSQSVGMGRELAEAFPEARAVFEEVDDALGEKLSDIIWNGPEDQLTLTAN
+AQPALMAVSMAIIRVLAAQGFDLSDRVAYVAGHSLGEYSALCAAGTFSLADTARLLRIRG
+NAMQAAVPVGTGAMAAVIGLEDAALAEICAEASAEGPCQIANDNGGGQIVISGAKPAIEK
+AAALASERGAKRALLLPVSAPFHSALMAPAADAMRAALAEVERHDPVVPLIANVRAAPVT
+SADAIVDLLVEQVTGQVRWRESVAWLAANGVTELYEVGAGKVLTGLAKRIDKTLAPKTLS
+SPAEIEAALNSLTA
+>tr|A0A1Q9ACA4|A0A1Q9ACA4_9RHIZ
+MAVQSLDTGAIERSAVRKVTRRLVPFIGLMFFINFLDRTAISFAGPNGMTNDLAMTAAQF
+GFAAGIFFFGYIVLEVPSNLALHKYGARRWLARIMVTWGIVALLFTWVSSVPQLYLLRFL
+LGVAEAGFFPGAILFLSSWVPLRHRNTVLALFYLAQPLTTVLGAPLAASLIQAHGLFGLE
+GWRIMFFGVALPAIVVGIISWFYLSDKPADAKWLTPQERNWLTDELAREDKAKVVAHGRI
+NGLALTDKRVWLLSALYFGLIYGLYAIAFFLPTIIAGFEGKFGTKFDVFDKGLITAIPYL
+PAAVAIYVWSRFVAKRGVQGWHIGLPAMIGALSIPAALLMGSPETTILMITITACAIFAA
+LPNFWAIPSRFLVGPAAAAGIALINTIGNIAGFAAPYITGLLKDATGLYQAPMFVVGGFM
+ALSAVIAFSLDRKTPKSEALQPHKA
+>tr|A0A1Q9AE38|A0A1Q9AE38_9RHIZ
+MAAAKALRAARARKGAIAYHTAGAAIVLFFAAPFVIAGLSSFRNGTEAQTAPLPPWPTAG
+FSVDSYRTLDSFGAGIWQHTVNSALVSLATVLLTVLVSLLAGYGFSRYRFPFKNALFVLI
+IATLMIPFQSILTPLFIILAKLGLNNSLFGLTLVYVTLQLPFSVFMMRNAFDAVPKEIEE
+AARIDGARDLRLLARVLLPLVLPGVATVAIFAFLNAWNEFLAALVLLSSNEHYTLPVLMM
+AVRAGRLGAINWGAVQAGVVVMTIPCLFVFLLLQRYYMRGLMAGAVK
+>tr|A0A1Q9AHR7|A0A1Q9AHR7_9RHIZ
+MAERVIILTDPGQDQAAAILMMLGAPEVFEVLGLVATAGNIDLAHTLRNCLKLLELTGCT
+DIPVFAGCPRPIRRPLVMAEHVHGPTGLDGPDLPEPWMSADPRHGVRFIIETILANPPDT
+ITIVSLSPLTNLAMALIEAPEITGRIRRVVAMAGAYFEVGNITPTAEFNVYVDPEAADIV
+LRAGLDLTLLPLDVTHKMLSTPQRLGAFAALGNRCGPALAEMLRFSEAFDLRKYGWEGAP
+LHGPCVPAYMMAPDIFSGRRINVSVETGSELTLGMTAADWWGITERPKNVFYVRDGDPVA
+YYHLLTHCVGRLP
+>tr|A0A1Q9AL67|A0A1Q9AL67_9RHIZ
+MAVETKTTCPYCGTGCGVIARREGDGQVSVKGDPDHPANFGRLCSKGSALGETVDLEGRL
+LHPEIGGRQASWEAALDLVAERFGAAVAEHGPDAVAFYVSGQCLTEDYYVANKLMKGFIG
+SANIDTNSRLCMSSSVAGHRRAFGSDTVPGTYEDLELADLVVLTGSNLAWCHPVLYQRLA
+AAKAARPDMKVVVIDPRRTMTCEIADLHLPIRADGDVALFMGLLAHLARSPALDRAYIAA
+HTRGFHAALAEAEALDDATLQALTGLTPAEIETFFRLFAGTTKVVTCYSQGVNQSTSGTD
+KVNAILNCHLATGRIGRPGMGPFSLTGQPNAMGGREVGGLANMLAAHMALEEPEHRDRVR
+RFWKAPVIADRPGLKAVDLFRAAADGRIKALWIMATNPVVSLPEADLVRAALSTCPFVVV
+SDMSGTTDTAREADVLLPSLGWGEKDGTVTNSERRISRQRAFLTAPGEARPDWWQMAEVA
+RRLGHGAAFAYQAPSEIFAEHAALSAFENDGSRDFDIGAFADMSNEAYEELPPFLWPRPA
+NRQGKERFFADGRFYHGDGKARFVAVSAQPAERRTADFPLTLNTGRIRDQWHTMTRTGKS
+ARLSAHIAEPFCEIHPRDAAALGIEDAQLVTVTSPLGRVILRALVTARQAEGALFAPMHW
+NDAYAAKARIGALIPGLTDPHSGQPATKNVAVSAAPFAAAAYGFAVLAQKPGDLDCAYWA
+LGKAEAGWRLEFALEEAPANWADWCRAAFGLDPSLEPIGYLDATGGDVRLAFFAGERLVA
+AVYLARGPVAAARGFALAQLGQSHGDLKARLGVIAGRPDAGRVDAGAIVCSCFSVGINQI
+TAAIRQGAQSVEAIGACLNAGTNCGSCRAEIKGILHACHAAAAE
+>tr|A0A1Q9ACC9|A0A1Q9ACC9_9RHIZ
+MIPGEIIAAPGEIELNQGLDTVTVTVSNTGDRPVQVGSHYHFAETNAGLDFDRAAAQGRR
+LDIPAGTAVRFEPGQTREVTLIPFQGKRAIYGFRQKVMGSL
+>tr|A0A1Q9AGT2|A0A1Q9AGT2_9RHIZ
+MATIEQYRAFVATIEAGSLTAAAQRLDCSLQTVSRSLISLEAELGVELVRRTTRRIQTTA
+AGISFYERIKAALVEIDDARREVLRGTSEIFGLFRVGASVQFAPRYIVPTTTAFIEHYPD
+VEIDLVLSDKIADLLEHKLDVVVRIGEPQSSSLKSRLLAKLRRVVVASPRYLARHGYPLK
+LTDLGEHSCVVRTFGPEGDLWPMTADGRVVRVPVKGRFRCNDAAAANAAVLQGAGIGLAP
+LWQVRSDIDQGLLELLLPEHEPPPVPVHALWPENSVTPARTRAFVDMLKQRMAGERI
+>tr|A0A1Q9AFM5|A0A1Q9AFM5_9RHIZ
+MSLPARRLVTTADLETALDALMRIDPRLEPIRAAAGVLPLRHLPEGFAGLAFVIVSQMVS
+RAAATAIWQRMEAAEATGAARLAQSSPQEHRAWGLSRAKAATLTAAAEASLAGHLDLKAL
+AVAPAEQAFSALTRLRGIGPWTAEVYLLLGLGHADIFPAGDVALQAAAQDVLGLESRPKG
+PDFAEIAKVWSPERSVAARLLWAHYARIKAAPLSAVPLP
+>tr|A0A1Q9AMU4|A0A1Q9AMU4_9RHIZ
+MKRYSLIGQQKDHGKEMKISETSQRTSIEISMPLLQPWELIPTFVNLRFAFRRPEQEDCV
+SMYLR
+>tr|A0A1Q9AMX9|A0A1Q9AMX9_9RHIZ
+MPPIVSVSGLVKTYGNGFQALKGIDLDIEEGEILALLGPNGAGKTTLISIICGIVNPSGG
+KALVGGFDVVRDFRKTRAMIGLVPQELTTDQFESVWNTVTFSRGLHGKPADPGYIERVLK
+DLSLYDKKDNKLRELSGGMKRRVLIAKALAHEPRVLFLDEPTAGVDVNLRKDMWKVVERL
+RESGVTIILTTHYIEEAEEIADRIGVISSGQLLLLEEKAALMKTLGRKTLAIDLARPIDT
+VPEALAGFNLRLEEGGRRLVYDYHASGARTGITTLLAALAEAGLTLKDLSTRQSSLEDIF
+VELVEAGR
+>tr|A0A1Q9AP23|A0A1Q9AP23_9RHIZ
+MTTANPSLARSFHANWRQYIIYIGFAVIFVVFALTLTDKGFLNPNNLLNIVRQTAMIAVM
+AVAMTFVLSAGEIDLSVGAVAGLATVTVAMAIAVAGPVAGVAAGIATGLAVGMFNGWLTT
+RIGIPSFLTTLAMMGIAKGVAMWVSNTAAVPILSPGYSWLFGGGALIGVPVLLFWMLLFG
+AIGHVVLRRTGFGRRVLATGGGEMAARYSGIDTKAIKFRVLVLSSTAAAFAGMLYAGRLQ
+SGRFQLGEGDELSVIAAAVLGGTSLFGGKGTIIGTIVGALMIGMINNGLILMGLEFSQQL
+IARGAIIILAVALSQKRS
+>tr|A0A1Q9AEC6|A0A1Q9AEC6_9RHIZ
+MSKKMAFSNFHVADYDDLAIISCCVEIDGDQFKASELYCPNRDILETGPESLLTTLGLYR
+PDGTGWPFLLLTKDLEEELEATAIEEAIIAQMRSFLDSRSLNEAA
+>tr|A0A1Q9ACT2|A0A1Q9ACT2_9RHIZ
+MSTTTRTPLDHIRNFSIVAHIDHGKSTLADRLIQTTGGLAEREMSEQVLDSMDIERERGI
+TIKAQTVRLHYKANNGETYVLNLIDTPGHVDFAYEVSRSLSACEGSLLVVDASQGVEAQT
+LANVYQAMDNNHELVTVLNKIDLPAAEPDRIKQQIEEVIGIDASDAVLISAKTGLGIPDV
+LEAIVNRLPAPKSDGGEAAPLKALLVDSWYDTYLGVMVLVRIIEGRLSKGQTIRMMGTDA
+RYTIERVGVLTPKMVAMDSLGPGEIGFITASIKEVADTRVGDTITDDKRPTAAALPGFKP
+AQPVVFCGLFPVDAADFEELRSAMGKLRLNDASFSFEMESSAALGFGFRCGFLGLLHLEI
+IQERLSREFDLDLIATAPSVVYQLTMTDGTEKELHNPADMPDVVKISEFREPWIKATILT
+PDEYLGGILKLCQDRRGIQTELTYVGSRAMLTYDLPLNEVVFDFYDRLKSISKGYASFDY
+NLSDYRESDLVKLSILVNGEPVDALSMLVHRSAADRRGRTMCEKLKDLIPQHMFQIPIQA
+AIGGKVIARETVRALRKDVTAKCYGGDATRKRKLLEKQKEGKKRMRQFGKVEIPQEAFIA
+ALKMGDE
+>tr|A0A1Q9AHC2|A0A1Q9AHC2_9RHIZ
+MAKDPDLKELVEKIEDIEDDTNELNVRKVGVYKRAKAGGYDVRALKEIIADSRRSRRGDP
+VKIAAHETTVQRYHALLD
+>tr|A0A1Q9AQ34|A0A1Q9AQ34_9RHIZ
+MDGTLINSIAAAERVWSRFAERHGLDVQAFLPTMHGKRGVDTISQLNLPGVDPVAEAARI
+TQEEIDDTEGVVPIAGAIEFLKGLPADRWAIVTSSPRALAFARLKAAGVTPPTLLVTAED
+VTKGKPAPDCYRLGAERLGVDPADCLVFEDVPAGVLAGESAGCDVVVITATHDHPFETSH
+PAIPGYVGLSVEADPEGLRILGEARG
+>tr|A0A1Q9AER9|A0A1Q9AER9_9RHIZ
+MPTLYHHPMSTASRFIRLVLSEYGYQPELTEEQPWEKRREFLALNPAATLPVFVDDNMRA
+LCGPMVIAEFVDETNGVLKRDRRLLAEDPFQRAEIRRLTEWFLQKMEGDVTRPLVRERIF
+KLQMTAAQGGGAPDSKMLRTSRANIRQHMKYLSWLAGSRTYLAGDRLSYADLAGAAAISV
+LDYMGEIDWNESPAAKEWYQRIKSRPSFRPLLAERVRGLTPVSHYADLDF
+>tr|A0A1Q9ALA7|A0A1Q9ALA7_9RHIZ
+MKLRNIAIIAHVDHGKTTLVDELLKQSGSFRENQRVAERVMDSNDLEKERGITILAKATS
+VEWKDTRINIVDTPGHADFGGEVERILSMVDGAIVLVDASEGPMPQTKFVVGKALKVGLK
+PIVAINKIDRPDGRHEEVINEVFDLFANLDATDEQLDFPILYGSGRDGWMNYNPEGPKDQ
+GLTPLLDLVLKHVPEPTVEEGPFRMIGTILEANPFLGRIITGRIASGSLKSNQPVKVLGQ
+DGRVIENGRISKILAFRGIERQPIEEAQAGDIVAIAGLSKGTVADTFCDPSVNEAMTAQP
+IDPPTVTMSFIVNDSPLAGTEGDKVTSRVIRDRLFKEAEGNVALKIEEAEGKDSFFVSGR
+GELQLAVLIETMRREGFELAVSRPRVVMHKDEETGQTMEPIEEVVIDVDEEHSGVVVQKM
+SERKAEMTELRPSGGNRVRLKFLAPTRGLIGYQSELLTDTRGTAIMNRLFHSYQPFKGQI
+AGRVNGVLLSNGSGEAVAYAMFNLEDRGPMIIEPGEKVYAGMIIGIHSRDNDLEVNVLKG
+KQLTNIRAAGKDEAVKLTPPIRMTLDRALSWIQDDELMEVTPKSIRLRKMFLDANDRKRF
+EKSRASGAA
+>tr|A0A1Q9AF03|A0A1Q9AF03_9RHIZ
+MSQDAELYPTPDNPLPGKATVGHFQGADGRRLRYAVFRGEVGPVRGTVVLLHGRNEAIEK
+YFELIGGFLQRGLWVATFDWRGQGASDRLIERLPRRGHVRRFADYERDLEAFLEQVVLPD
+TRLPFFLLGHSMGGLVALSQAPKLSGRIDRMVLSAPFVALGGQALNEGRVVALAGTASLL
+GFGTFPLTRDRGPRPFSANPLTSDPLRFARGEGLAEAHPHLALGPPSARWLYETLSAMRR
+VRRQEHLTAITIPTLILAPTRDPLVPYAALEALAAQFRACTLIPIVGARHEVLQEADRYR
+DQALAAIEAFFPGSVDSGLPQQIEEATAV
+>tr|A0A1Q9AMT7|A0A1Q9AMT7_9RHIZ
+MPHTASANPDKNIVDRTQSRPNRAVARAVRATRARLQTGRFSNAVFEKEMMRLHLDSVVH
+NSAGVALTILLAAAFGMWLAGDLALAAWMAMALSLQALCIVVAWRARKVTLTQEQVAPLR
+RQFILLQGLTGVSWAIFALQDCSACRPDLFEAYHGGALLIGLAATAMGTVLLRPALIATF
+LPVIGVLALRAVEGHDLSTAALAAAIAVALLFLLVMTNRMQQANLRILAIQSEKDDLIAE
+LEVAKSMSDEARRRAEDANLAKSRFLASMSHELRTPLNAILGFSEVMHTEVLGPLDNPIY
+KEYSGDIHRSGQHLLDLINEILDLSRIEAGRYELHEEAVHLLEIVEDCMGMVQLRARSKN
+IQIRHQAESAMPALWADEKAIRQITLNLLSNAVKFTPAGGEILVKVGWTAGGGQYVSIRD
+NGPGIPEEEIPVVLSAFGQGSIAIKSAEQGTGLGLPIVQALLAKHGGEFLLRSKLREGTE
+AIAILPSKRVLDSLPAVRQVQPVERRRRSFA
+>tr|A0A1Q9AMB3|A0A1Q9AMB3_9RHIZ
+MSSFEADFVGARVLASPNHGERIGTDAPDRLILHYTGMETGEGALAWLRNPDSQVSSHYL
+VHEDGRIDQLVPETRRAWHAGRSLWKGVEDNNSHSIGVEIVNAGHPGGLPDYPEAQIAAV
+AELCLDCVKRWSIAPEMVLAHSDIAPVRKVDPGEKFPWKNLYLTGVGHWVEPAPIGGGRF
+FQRGDAGQPVEALQSMLALYGYGLDVTGNFCERTEGVVAAFQRHFRPEKIDGIADISTID
+TLHRLLSSLPRFRA
+>tr|A0A1Q9ADW5|A0A1Q9ADW5_9RHIZ
+MTSAPKTGEVVLAARDIAKSYGFIQALKGVNFNVHRGQVTTLFGENGAGKSTLMKILSGV
+VKPTSGEILLDGAPVVFASSSQAREHGISIIHQELSLAPNMNVRDNIFMGREIRGPAGVN
+FAEEERLTRLLLEELEEDIDPLTPVEELRLGQQQIVEIARALSVNSRILIMDEPTSALSA
+SEVEVLFKVIRDLKARGVSIVYISHHLEEALQITDHAVVLRDGAMTAYAPRAEIDLEWIV
+RNMVGENFDLGSPPSGYSMGPVALSIEALTLRDRKADYNVVDQLSLDVREGEIVCIYGLM
+GAGRTELLESVAGRLAPTSGRVLLKGRDVTGHSIAQCIAEGLVLVPEDRQRDGLVQTMSV
+GRNLSLASIGTFTRGLFTSFSREAELVDGSIRNVHIKTDGGAAPIGSLSGGNQQKVVIGK
+MLATQPEVILLDEPSRGIDIGAKAEVFKLLAERARKGLAVVYTTSEVGECLSIAHRILVM
+RRGRIAAEFGPDATKEEIMAASGEAVVAHA
+>tr|A0A1Q9AP29|A0A1Q9AP29_9RHIZ
+MPLDWDKLRIFHAAAEAGSFTHAADKLHLSQSAISRQVSSLEQDVGIKLFHRHARGLILT
+EQGEILYRTAHEVLMKLESVRVQLTETTDKPSGKLRITTTVGLGQGWLTDKVQEFLALYP
+DMQVQLILDNEELDVNMRHADCAIRLRQPQQSDLIQRKLFTVHMHLYAAPSYINKHGEPH
+SIADLDNHRIITFGEPAPNYLLDVNWLEIAGRESDNPRPSHLQINSQTSIKRACLLGIGI
+AMMPDYIVGRDPGLIQLPIQADIPSFDTYFCYPDEMKNAAKLKVFRDFIVAKARNWSF
+>tr|A0A1Q9AHF2|A0A1Q9AHF2_9RHIZ
+MAWAIDFRDTARKQLGRLAPPDSARIIRFLEERLATHENPRKLGLALKGTERGGLWRYRV
+GDYRIICEIQDDRLVVLVVEIGHRREIYR
+>tr|A0A1Q9AFU9|A0A1Q9AFU9_9RHIZ
+MSETCAFPPPRNAALRWVAEIGETLPDEVQRRLRSAFFTSRMPLIFGAVNSILVALVVYG
+STQRPVFLLLALCDFVLLLVRIALVKRRMAPSGPIFATGLLWAMIQSTTLGLVILSGDVA
+LSIIVLASGLAAIGGITGRNFAAPRYAIAQVAMIDASFKIAFCFLHPEFLPLIAGQSVLF
+MLVSIGIIRQHRQVAIEAIQGEIDSRRKAFEDPLTGLSNRRALETVFGAMPVPSPGRALL
+YLDLDGFKQVNDRFGHAAGDRLLQDVGARLIAVAGIGATVCRLGGDEFLVLLPRTTGEAA
+CGLGRDIIAAIDAPFAIDETIVAGVGASVGAVIDEDGTATLKSLMSRADQALYAVKNAEK
+GAFRLYDGHLLERQLQRCGDMPRLGDHPEDGVASERAALL
+>tr|A0A1Q9AHH8|A0A1Q9AHH8_9RHIZ
+MTPVPEIARNRRSLSSLPALAGLLLLTLGLSVFLGVADLPVSDIMSVLAGHGSPEAQSII
+LDIRLPRIVTGALAGIHFAVAGLILQTITRNPLADPSIMGISQGATLSVTLFLLFSVFLR
+DPGTTARITEMPLEWLPAVGMVGGLIAGAAVYALAFRRDLGPLRITLCGIAIGAVLHAIA
+IGVIAGWGSARIEVLLEWLSGSLYARSWEHALFLSPFTIAGLLALLPIRRALDLLQFEAP
+VASSFGLAYRQHFSFALFLSCGLAASAVGAVGPIVFVGLIVPHLARALVATRTPLLLPVT
+VTLGAITVTSGDLLGRLAGQADEIPIGVVTAVCGVPLLIVFLRKIP
+>tr|A0A1Q9APH0|A0A1Q9APH0_9RHIZ
+MSARKLQAVFLMADGKMTWLATQTHCPDKASGAPSFVGFLAQILRWRGRRGARLDLEVMQ
+DHLKRDIGLMDGRDPPPDDQRF
+>tr|A0A1Q9AIB3|A0A1Q9AIB3_9RHIZ
+MSANLTFDISRNPNPMPPAERQKALEHLGFGTLFSDHMAIIEWDAATGWHSARVAARRPF
+EIDPAAAVLHYGQEIFEGMKAYRNGEGQLVLFRPEENARRFNASAERMAMPPIPEALFLE
+AVEQLVRVDADWVPAGEGASLYLRPFMFASEAFLGVRPSQKYIFSVIACPVGPYFSGGAK
+PITVWVTEDYSRAARGGTGAAKCGGNYAASLAAQARAYEEGCAQVVFLDAAEQKWIEELG
+GMNIFFVFDDNRIVTPELGTILPGITRQSLLTLAREEGLEVSERPYAFADWKADSESGRL
+REVFACGTAAVVASIGEAKFEGGSLRMGNGAIGPVTERLHHKLTGIQRGTEADTHGWVRV
+IS
+>tr|A0A1Q9AGH1|A0A1Q9AGH1_9RHIZ
+MTNSPTAAASAEYGADSIKVLKGLDAVRKRPGMYIGDTDDGSGLHHMVYEVVDNAIDEAL
+AGHADLVTVTLNPDGSVTVTDNGRGIPTDIHTGEGVSAAEVIMTQLHAGGKFDQNSYKVS
+GGLHGVGVSVVNALSVWLKLRIRRNGKVHEIAFTHGVADAPLAVIGEYEGRSGTEVTFLA
+SSETFTMTEYDYNTLEHRLRELAFLNSGVRIRLTDRRKPDIKEEEMLYDGGLEAFVRYLD
+RAKKPLVDKPVAIRAERDGIAVEVAMWWNDSYHENVLCFTNNIPQRDGGTHMQGFRSALT
+RQLVSYADSSGIMKKEKVTLTGDDCREGLTAVLSVKVPDPKFSSQTKDKLVSSEVRPVVE
+SLVSEALSIWLEEHPADAKTLVGKVVEAAAAREAARKARELTRRKGALDISSLPGKLADC
+SERDPAKSELFLVEGDSAGGSAKQGRSRENQAILPLRGKILNVERARFDKMLSSQEIGTL
+ITALGTSIGKDEFNPGKLRYHKIIIMTDADVDGAHIRTLLLTFFFRQMPELIERGHLYIA
+QPPLYKVTRGKSSQYLKDEKAFEDYLITVGLEDAVLELGTGEARAALDLREIINDALRLR
+SLIDGLHSRYNRAVVEQAAIAGALNPEVLRDGPRSAAAAAEVAARLDRIAEETERGWTGT
+VAEDGGLRFERMVRGVKDIAVLDMALIGSQDARYIDQTSARLKDIYAHVPVLKRRDAAVE
+ITGPRALLDAIFAVGRKGLSMQRYKGLGEMNAEQLWETTLDPTVRSLLQVRVNDATDADG
+LFSRLMGDEVEPRRDFIQENALTVSNLDI
+>tr|A0A1Q9AJ53|A0A1Q9AJ53_9RHIZ
+MQKGLNMASADARDGDGRRASLLYDPSVRAYAYQALTVLVVGWLIWQAWSNAAENLARAN
+MTAGFGFLSGRAGFDLGQALMAYSSDSTFARALTVGLLNTLLVGVLGIITATIVGLLIGI
+GRLSKNWLIARLCTIYVELFRNIPPLLVIFFWYKGVLSILPDFRAIRAGVEQAKAADPSV
+GDPLFIISNRGISFPAPIFQPGFGAVWIALAAAVLGAIGFTLWANKVQAATGKRPPALLV
+SVALIVLLPLAVFFAAGQPIAFDYPVLGRFNLSGGGLISPEFLSLYLALSLYTASFIAEI
+VRAGIRGVPSGQFEACSALGVRSDRAMRLVILPQAMRIIIPPLTSQYLNLIKNSSLAVAA
+GYPDLVQVGNTILNQSGRAIEVIAIWMIVYVTISLVTSVFMNWFNARMALRER
+>tr|A0A1Q9AD30|A0A1Q9AD30_9RHIZ
+MASAQPRSPRAGRSLAGRLTTIALVFVGATMAASAGVFWFAVSHVVREQVDQQLDVQITA
+LKGALSFDAGGRPMLSSAFDNPPFDRPGWLWQIDTPGGRLISPPPRRPHPPRGRNDAEGP
+DRPSAEGAGMPVEPASPTDAPGDRGERPRRPIDLAMEDHAGPALYLRRQDAMVEGRSVTL
+IASAPAGALTVPARDALGWLLPLTLLLGLMLTLGTLLQVRLGLRPLRRLTDEIQAIERGA
+RARLAPAQLRELQPLTAEINRLLDQNETRLAETRLHFANLAHGLKTPLASLTLALDREKD
+PDGALGRLAERMEQRIRRHLALARKAASAAGLGAATALAPVLADLLALLPRLHAGRRVTA
+DIAGMKDLFLRCEARDAEEILGNLLDNAFKWAASAIAVTAAREGGMITLLIDDDGPGIAR
+ERRAEVLRAGMRLDETVPGDGFGLSIAEELVTLYGGRLALETSPLGGLRVRLTLPAAISG
+EAG
+>tr|A0A1Q9AMW4|A0A1Q9AMW4_9RHIZ
+MGHVMTRRAGWIGAYADLIDETRSEPFAWGRNDCAVGLCARVVEVLTGVNPASRFAGQFD
+DAASAYRIMRAEGFEDLADLVASILPEYDHPSEAQIGDLVAVANDTPFRHALGVCNGERI
+FVLTETGLGTLDRRQAVRAFKVG
+>tr|A0A1Q9AE35|A0A1Q9AE35_9RHIZ
+MSKQVIEFNGEAVGVVVPDANALRFVAVKFHVWDLDAHHFASAEDAREAVRRLVMSKSNR
+AQVLPRETSARPAQAEQTAFDRPAGDLAA
+>tr|A0A1Q9AGE1|A0A1Q9AGE1_9RHIZ
+MTTAITVSEAGAEIDKLMALHPKGFDLSLGRITRLLDRLGNPQDRLPPVIHVAGTNGKGS
+FTAFARALLEAEGLAVHVHTSPHLVNWHERYRLGVKGGRGRLAEDAVLADAIRRVAAANA
+GETITVFEILTAVAFLLFAEHPADAVVMEVGLGGRFDATNVITRPAVAAIMPISLDHQAY
+LGDRVELIAAEKAGILKRGVPAVIGYQEFDGAREVLTDTAARLGCPVSVYGQDFLAYEEF
+GRMIYQDEDGLIDLPLPRLPGRHQLANAAAAIRAVKAGGFALSEQAIETALQQVEWAGRL
+QRMPHGPLLNLAPAGAEVWLDGGHNPGAGQVIAETMVSFEERDPRPLVLIVGMINTKEPV
+GYFRAFAGLAEKVFTVPVPASDAGLDPVALAGDAADAGCKAEPCGSVAEALTTVAALFKT
+APQPPRIMIGGSLYLVGAVLGENGTPPR
+>tr|A0A1Q9AL38|A0A1Q9AL38_9RHIZ
+MESESAIAALAALAQSTRLDTFRLLVRHEPEGVPAGELARLIGVPQNTMSAHLAILSRAG
+LIKGERHSRSIIYRAEIDALRDLTLYLVKDCCGGSAELCAPIISALAPCCTSPNQVA
+>tr|A0A1Q9ADZ9|A0A1Q9ADZ9_9RHIZ
+MTDQPIDAFAAALSPMTEDELFTALSRLERESEKGSGVEGDGSPQAETLARIALVEEEVE
+RRYPGQLLAPYRAWKSRDPLLG
+>tr|A0A1Q9AJN1|A0A1Q9AJN1_9RHIZ
+MTARILVVDDVPANVKLLEARLMAEYFEVLTASDGYEALAICEKVPVDIILLDVMMPGLD
+GFAVCERLKANRRTSHIPVVMVTALDQPSDRVKGLRAGADDFLTKPVNDLQLLSRVKSLA
+RLKAVNDELRLRAETARAVGLYDLDRFERPDEPGSILLVDARASSQERLSRALRPIGEIL
+AMSDPQAALFEAAEQAFDLIIVNANFEDYDPLRLCSQLRSLERTRHIPVLLVVEQGAEEL
+VVRALDLGVSDYVMRPVDPSELLARSLSQIRRKYCNDRLRASLRETIELAVIDGLTGLHN
+RRYLDTHLRNLMARALERGQPLTLCITDIDRFKAVNDTYGHDVGDDVLREFARRIRSAVR
+SADLACRYGGEEFVLVLPDTGPQAGLAIAERLRSAVEDVQVVVKREGITLPITASMGIAT
+LQGLQDTPEALLKRADSALYEAKKRGRNQVVSAAA
+>tr|A0A1Q9AL98|A0A1Q9AL98_9RHIZ
+MTPTDIDLVQSSFAKVVPIKEAAAELFYGRLFEIAPEVKPLSKGDMKEQGRKLMMTLGVV
+VNGLKDLPSIVPAAEALAVKHNGYGVKPEHYQVVGDALLWTLEQGLGPDFTPQTKSAWAT
+AYGTLSGVMIAASTRSAKDMEQTA
+>tr|A0A1Q9ANC5|A0A1Q9ANC5_9RHIZ
+MNEKTFGPLLRADGVLFRLWAPLQERVSLILEGGTPLQMERAGDGWHSLTVAEAGPGKRY
+QFALSDGLKVPDPGSVHQPEDAHGPSEVVDLTAYSWKNPDWTGRPIEEIVLYELHIGTFT
+PEGTFLAAIDKLKHLKDVGVTALQIMPVADFPGRYNWGYDGVLPYAPDASYGRPEDLMAL
+VDAAHGLGLCVFLDVVYNHFGPDGNYLPAYAPIFTDRHKTPWGNGINYDGESAAAVRAFV
+IENAIDWIATYRFDGLRLDAVHAIEDNSGEHLLHELARRVRAAAAGRHVHLVVENEDNDS
+DLLMRDGEGRPVFFTAQWNDDIHHILHIAATRETFGYYADYADDTGKIGRALAEGFVFQG
+EHMPYRGEERGKPSADLPPTAFISFIQNHDQIGNRARGDRMAETIDPAALKAIASVYLLA
+PQVPMLFMGEEWGSTDPFPYFCDFNEELNETVRKGRREELSRLPGFDSDDLMDPTAESTF
+KTGKLDWSQAEEEEGRAWLTFYRDLLALRHARLAPHLAGARSGRAQGDGRFVDVEWTLGG
+GATLRLLANLSASAIEGVPVPAASDEVLFTLGAVEDGRLGPWSLVWTLDRP
+>tr|A0A1Q9ACN3|A0A1Q9ACN3_9RHIZ
+MTLAATLDTEILPGAGDYETVCRIIERLTLDYRAQPGLEELARQLGQSPTELQKTFSRWA
+GLSPKAFLQAVTLDHAKRLLGQEGLPLLEASIELGLSGPGRLHDLFVTHEAMSPGEWKAR
+GAGLTIRTGFHPSPFGQALVMITERGLAGLAFADAGGEAACFEDMARRWPEARFVEDGPA
+TAPYVGRIFDPARWRPEEPLRVVLIGSDFQVRVWQALLDIPLGRAETYSAIAARIGSPKA
+SRAVGAAVGRNPVSFVVPCHRALGKGGALTGYHWGLTRKRAMLGWEAGALGA
+>tr|A0A1Q9ACP9|A0A1Q9ACP9_9RHIZ
+MELGKDTFEDSIDSRLGERLKALRQAQRLTLDALAERAGVSRAMISRIERGEASPTAQLL
+NRLCAALDTTLSRFFAEEETQEDPLSRRDRQRVWRDPATGYRRRSVSPERTGSPVDVIEV
+EFPPGGRVVFDPHVFDSGVSQHVWILEGAMRLTSGETTHALQAGDCLFMRLSDGQIFENP
+HAEPARYAVILHRHET
+>tr|A0A1Q9AJP5|A0A1Q9AJP5_9RHIZ
+MPKQVMIVEDNELNMKLFRDLIEASGYGTIQTRNGMEALDLARKHKPDLILMDIQLPEVS
+GLEVTRWLKDDSELHQIPVIAVTAFAMKGDEERIRQGGCEAYVSKPISVPKFLETIKIYL
+GDA
+>tr|A0A1Q9ANZ8|A0A1Q9ANZ8_9RHIZ
+MKQGIKALVLTVATAATVLPVTAAHADDWRYRHHRHGVSTGDAVAIGALGLATGLIVGGA
+VASQPQPVYQDRVYIDPPPPPPPVYRPSYTYVEESVPVYQQRTVVRTYGTLEPWSQSWYR
+YCADRYRSFDSRSGTYIGLDGRSHFCTAG
+>tr|A0A1Q9AJI5|A0A1Q9AJI5_9RHIZ
+MTVTPDNDNNFDGPMVFIIIGKAYEEADSEGADIHVVLRAPDDDSAVREALNALAEEGFI
+EADLDQIGVLEAAPEDEPHASAYQGALTGEVAIIRFG
+>tr|A0A1Q9AIQ7|A0A1Q9AIQ7_9RHIZ
+MESERVAVIVAGGSGMGAAAARKLAADGYRVAILSSSGKGEKLAEELGGLGVTGSNQSTE
+DLKRLVDETMAAWGRIDALVNSAGHGPRAALLEITDEDWHKGMDTYFLNVVRPVRLVTPI
+MQAQKRGAIVNISTAWTFEPSPLFPTSAVFRAGLAAFTKLFADTYAKDNIRINNVLPGWI
+DSLPATEERRDSVPMGRYGTSAEIAATIAFLASDGAGYITGQNIRVDGGLMRSV
+>tr|A0A1Q9ACS1|A0A1Q9ACS1_9RHIZ
+MLGRVFFMAGLLMAGLLVVVPAGAQATEPAEDGAPAPWKHLDGRNAGAVGTCSPDDDEDV
+TDCYLVRCEKGDLVFVMQAANLAEFGVRKITFEIGRYKQTIKLPAVKNEEQAISLAKEQK
+LLAALTSRSDWASLSTAGARLEYSTGFDLTGAATLISQLRGICRK
+>tr|A0A1Q9ADB3|A0A1Q9ADB3_9RHIZ
+MIKSGTLVLSSALFAVLGFHAGQYLGPPAMATGDDVLVTGSLPQLQTSTALQQPVAWRPP
+REDMPVLLAQAMPPAMPPVYETDAPAAQPAAAAMAAAAGRTDDKPANGVVDLAPAAPEAT
+PVVAAAASAMPDVDESALRFFAQRGDTVRLQAEIARLKALYPDWQPPADPLAPKATVDAE
+LDRMWKLYGAGQYDALHKAIAERQQKQAGWQPPSELASLLQLADARERLVAASDGKRYEE
+VIAEGAAHPGLLVCDEVDMLWRVAEAFAKTNRAQRAEDAYRYVLGHCDVTAERSATMQKA
+ASLLPPETVRGLLALERKTPAGTGEFDGVRDDLARQFMAAGAKDATAIVSPDDVTRMEKL
+AETEHRAGDALLLGWYNERRGKMTQAEVWFRKARAADDTAEAAQGLALVLIARKAPQEAE
+DILYRWRAASDDAHKTYLAAAANVLALDPPIVLQPDVLARMGREASEARDGALAEQFGWY
+ARAFNQQPLALQWFATSLTWQRDNEPAAYGLALTARELKMASVFARLQSDWGPRSARIAN
+IGKAGARAEATAHAMPVVLAEYLDGPRASAGDGAPARAIETVAPIASAQARETAVAGAPL
+ANAPLAGTPAAVAPAAPLAPVRSSAQRAPAAQQTASLAYVSDAEPAAQAAPRHRKVAGAH
+AAARKGCTGFADAQTLAPAAALQRGWCLMELNRPAEASRSFGAALKSSDSRTRGDAAYGQ
+SLAYLRMGLTENAAAAATKGPMDQHKASELQVALLTNKALAAFKARRYSEALLLLDRRAE
+LTPERADLMVLRGYAYMSMNQYGNAIQIFESLAATGNRDAIKGLAEAREAKNPIPGG
+>tr|A0A1Q9AJK3|A0A1Q9AJK3_9RHIZ
+MTLKQTPTSAPAIMARDRIAFIRQMLGELRSVAEGAQADMLCYLIEMAYVEAGDILSGRR
+AVTSIAEREGDAAAGMAMEPPGKVKF
+>tr|A0A1Q9AQF0|A0A1Q9AQF0_9RHIZ
+MTPPLLSLRGLSKSYGQIRANQGIDLDVAERSIHAILGENGAGKSTLMKLIYGVETPDEG
+TVTWQGAPIRLTSPAEARRQGIGMVFQHFSLFETLTVVENIALVVPGKKRELIERVRTLG
+RDFGLEVDPLADVHALSVGERQRVEIIRCLMTDPKLIILDEPTSVLPPQSVEKLFETLKR
+LREGGVSILFISHKLEEIRAICDRATILRAGRVTGHVDPREHDAHDLARMMIGRDMPEIT
+PAASVETGEKRLELIGLDHRPDDPFAVALKRVTLEVKAGEILGIAGISGNGQAELSAIIS
+GETRLGREARDRIFMMGQDVGRLDAAARRRLGFAFVPEDRLGRGAVPELSLVLNGLLTAH
+PLGLLKQGLIDRAGAKAFAETCIRDFDVRTPGPEAEAGALSGGNLQKFIVGREIMLAPKL
+LFVAQPTWGVDIGAATAIRQRLIALRNAGMAILVVSEEIEELFEICDRIQVLHAGELSPS
+LVTRETRVEEIGRYMIGAQPAGHGTATSPAEVSA
+>tr|A0A1Q9AIJ4|A0A1Q9AIJ4_9RHIZ
+MSTLSLDPPLAEAGGLIEAALAQPPRRPQIRSFFDPATFTVSHVVRDPASRACAIIDSVL
+DYDPASGRTRSTSAEALIAYIRAEDLDVHWLLETHAHADHLSAAPLLQAELGGKLAIGRD
+ITRVQEVFGKIFNAGTEFQRDGSQFDRLFQDGDRFKIGTLEATVLQVPGHTPACLAYIVG
+DAVFPGDTLFMPDYGTARCDFPGGDARSLYRSIRRLMQLPDAARMFLCHDYKAPGRDVYR
+WETTVGAQRSGNIHVHDGIGESDFVAMREARDATLSMPRLILPSVQVNMRGGRLPPAKAD
+GVQYLKIPLNIL
+>tr|A0A1Q9AH13|A0A1Q9AH13_9RHIZ
+MTEIGLTTGDFTDMDEPLSLFDLWLKEATSSELNDPSAVALATVDEDGLPNVRMVLLKEF
+DSRGFVFYTNFESQKGCEILATRKAAMCFHWKSLRRQVRLRGPVEVVSEEEADAYFRSRP
+RGSRIGAWASKQSRPLESRFALEKAVAEFTARHAIGEIPRPSYWSGFRIRPVSIEFWKDG
+AFRLHDRIEFRRPEPEGSWSKVRMYP
+>tr|A0A1Q9ANV2|A0A1Q9ANV2_9RHIZ
+MVTVLTDARSIRIKGRSFLAVVLSPDLPLDHWLTRLDDLAARSAGFFFGRPVVLDVTDLP
+INRDELKGLVTALAERNVSIMGIEGARPSLIGPGMPPALKGGRPASDVEVANAAPSIEVR
+SAAAETAEPEEPAMVEVSGEVRSTPQSLIIREPVRSGQSVIFTEGDVTVIGSVASGAEII
+AGGSVHIYGTLRGRAMAGAIGNASAQIFCRKLEAELLAIDGVYKMADDMAPGLRGQAVQL
+WLDGDAIMAEKLS
+>tr|A0A1Q9AH52|A0A1Q9AH52_9RHIZ
+MSNRPLARLALSTYRWAGAVAYPFMGAYLAMRAAKGREDSRRRDERYGFASVPRPQGPLV
+WFHAASVGETNAVIPLIKEIRARGIAVVVTTGTTTSAKLVSERLDASIIHQYVPMDFKPA
+VSRFLDYWEPDLAIIAESEIWPMTIVELGRRHIPQVLVNGRLSDRSFARWKKRLWLAEAL
+FENLALVIAQSEVDAERFRALGALPVLVSGNLKVDTDLPPYDKGSLGTYRQQLGSRRTWA
+AISTFDGEEAAAAVVHAALKPRTDLLSIIVPRHPERADAIEAMLTQRGLKVARRTRRDPL
+NTDVDVFLGDTIGEMGLYLRLTEVAFVGRSLTAEGGQNPIEPAMLGCAILSGGNVQNFRE
+TYQMLAKNGSAKIVRDVEMLAKGVNYLLVNEDVRHQMIDAGQQTVHEMRGALSATIRGLE
+PYINPLSVKARLQPHGDA
+>tr|A0A1Q9AKV8|A0A1Q9AKV8_9RHIZ
+MSKLFRSPVTLLTLVAGIAGILLVLYAWRLPPFVTSVETTDNAYVRGYVTMMSPQVSGYV
+VEVPVHDYQLVRKGEVLARIDDRIYRQKLAQAQATLQGQEAALANSRQQEASARASITSA
+EAQVSGAQAAERRAELASQRAEQLNARSIAATSEVEQAEATLQQARAATAQAGAAVEVAR
+QNLATIIVNRGSLEAAVEGAKASVELARIDLDNTRVTAPGDGRVSEVGVRLGQYVTTGTQ
+LMAVVPRDLWVIANFKETQLDGMRIGQPVTFSVDALKGRVLSGHIERFSPAAGSEFAVIR
+PDNATGNFTKVAQRVGVRIAIEPGQAQADRLAPGLSVVVRVDKAATPDPAFAEANENGPA
+IVSDGAGPVRR
+>tr|A0A1Q9ACE4|A0A1Q9ACE4_9RHIZ
+MVLPRAAKTQRRTRIQEEKEERILEAALEVFATNGFRGSTIDQIADVAGMSKPNLLYYFR
+TKEAMHRALIERVLDTWLDPLRAFDAEGNPVTEIRSYIRRKLEMSRDFPRESRLFANEIL
+QGAPHIEDELVGPLKQLVDEKAQVIRAWAKAGKIAKCDPYHLIFSIWATTQHYADFDVQV
+RAVLGEDLAGEGRFEDAARFLEQLFLHGLTPQGG
+>tr|A0A1Q9AP80|A0A1Q9AP80_9RHIZ
+MDQAEAKPAPVAARRGLMVVFAIMLLDIMGIAIIMPVLPTFLQELTGDQAAQAALDGGWL
+LFVYASMQFLFAPTVGNLSDRFGRRPVLLVSVLTFALDNLICALAGSYWVLFVGRVLAGI
+SGASFSTASAFIADVSDDRTRARNFGLIGIAFGVGFTLGPVIGGLLGSFGPRVPFFGAAA
+LSFANFCAAYFLLPETLPPHLRRAFDWRRANPLGAIRQMRSYPRILPVLAVFFLVYQAHA
+VYPAVWPFVTSYRYGWSEGQIGLSLGVYGICTALTMALILPRIIAGIGERRTAALGLIVG
+VIALMGYAFAWEGWMVYLVILATPLEAVADPPLRSLAAAQVPPSAQGELQGALSGLSSLT
+SIIGPLMFASVFELGTRTDLPWSTPGAPYALAATLVAVAFVVFLRRVGLR
+>tr|A0A1Q9AJW7|A0A1Q9AJW7_9RHIZ
+MMRVKAILRNPPLLTFLLVALVWLVAGLSLRGFGAYGHLRYLLELAAVIGIAAAGQTLVV
+LMGGIDLSVGAVITVTAILLPLLSPAWDPTGLVGVALVLAIAIGIGLLNGAGATFLKVPP
+IIMTLAMATFLQGMLVLVAGGSAVTVQNPAVLLLGQSRPLGIPAGVVLWVLVSIGMLLLI
+HRMPIGARFLALGANPLAARLSGVSTTRNTLILYALSGFFAGLAGLLLLGMNRQGYVGIG
+DPYLLTSIAAVVLGGTSILGGRGTYAGTIPGAILLVTTTALITVVNASPGWRSIMFGTLI
+LALLMISGREARR
+>tr|A0A1Q9AKI2|A0A1Q9AKI2_9RHIZ
+MIARPLIFAWMAISMDVIPLWAAETGQAGQPSTCVDAAMTVEAVQDLVRQESQRQGVDVK
+LALAVAGQESGFGQRVNSPAGARGVMQLMPGTAAHYGVADTCDAEQSVRAGVSYLKDLSV
+RFGGNIFLIVAAYNAGEDRVLRARGVPAIAETVNYVALVANAYFGFDNALQRSQRVATPV
+TAPMTAATGVDLLVTGSVGHRPLPINPKTPRSSNRAWIGGSVLYVE
+>tr|A0A1Q9ALY1|A0A1Q9ALY1_9RHIZ
+MGETLDVITIGRSSVDLYGAQVGGRLEDMGSFRKYIGGSPTNMAAGTARLGLRSALITRV
+GDEHMGRFIREELAREGVDVSGVKTDPERLTALVLLGIRDDERFPLIFYRENCADMALCE
+DDIDEALIARARSVVATGTHLSHVQTEKAVLKALDLARKHGARTALDIDYRPNLWGVAGH
+GDGESRFVESRRVTEKLQSTLHLFDLIVGTEEEFHIAGGSTDTIAALKAVRAVSEATLVC
+KRGAHGAVAFTGAIPATLDKGERGPGFPIEVFNVLGAGDGFMSGLIKGWLEDAPWPRALQ
+YANACGAFAVSRHGCTPAYPSLSELDFFLERGVKTNALRHDAELEQIHWSTNRHGDWSTM
+RVFAFDHRMQLETMAGAKPEKIGAFKQLCLRAALGVQNGQSGYGILCDSRLGRKALQAAS
+GTGLWIGRPVEWPGSRPLTLEPEIGPDFGGLDEWPLDNVVKVLCFCHPDDDDAMQAAQEE
+TVKRLFASARRNRLEFLLEIVPSKVGPVDEATTATLIRRFYEIGIYPDWWKLEPMASRGA
+WEQACAAIIENDPHTRGIVVLGLDAPEAELAASFAVAAEFPLVKGFAVGRTIFAKTAGEW
+LAGRLSDDDAVAEMQTRYRRLCDVWDAARGGLRQDETAQGAEQDKFATQKLQGRH
+>tr|A0A1Q9AHT3|A0A1Q9AHT3_9RHIZ
+MNIYFEIQRDATASSAANRSKPLSPDASIRGLTSREDVLERMRWRLSNREIAPRLEINLN
+PVRSHTKDLFHKLGVKSRTPAFLLITCHPAERVAESSHPQWRAETLRSAVT
+>tr|A0A1Q9AL59|A0A1Q9AL59_9RHIZ
+MRFSSELECQLAGYGLTTAHILYRMPDFTSVLQTYVWQDYDLAPDFPEMSRFLAFWQRTL
+DGPIHSVRYSHKRLIGPNEWRQVKGEIVLH
+>tr|A0A1Q9ANI9|A0A1Q9ANI9_9RHIZ
+MAHAMTSGSTATGNGANQPDLERAEIWQARVDLAACFRMAARRGLEEGICNHFSAVVPGY
+DDLFIVNPYGYAFSELTASHLLICDFHGHVVSGSGQPEATAFYIHARLHAQVPRARAAFH
+THMPYATALSMTEGEPLIFAGQTALKFYGRTAVDRNYNGLALDEREGDRIAAAVGDADIV
+FMKHHGVMVLAPTIAEAWDDLYYLERAAQVQTLALSTGREVLPVDPAIAEAAYRQMREGD
+PESARLHLEAIKRRLDRDEPDYKS
+>tr|A0A1Q9AID5|A0A1Q9AID5_9RHIZ
+MSPSATPLCPLSSETLILPGLFGSAPEHWQRQWARDRPASRVVEQADWDHPQRDAWLSRL
+EGAIAAAGEVWLVAHSLGCLLAAALAERPLAAKVSGALLVAPCDLAVAEERHPGAIDFGA
+MPARALPFPSLVVGSLDDPYMSADRLQETADGWGSGLVVLGKAGHINIDSGYGRWPGGYA
+LLDRLRGAQTQNQARRHLPPRANIASWSAAAPLGRD
+>tr|A0A1Q9AKN0|A0A1Q9AKN0_9RHIZ
+MTKKTSPATDSATYPVLPLRDIVVFPHMIVPLFVGREKSIRALEEVMGTDKQIMLATQIN
+ASDDDPEPSAIYQVGTIANVLQLLKLPDGTVKVLVEGRARAEIDGYTRREEFYEALAHAL
+EEPAEDPVEIEALSRSVVSEFESYVKLNKKISPEVVGAASQIEDYSKLADTVASHLSIKI
+VEKQEMLETTSVKLRLEKALGFMEGEISVLQVEKRIRSRVKRQMEKTQREYYLNEQMKAI
+QKELGDGEEGRDEMAELEDRINKAKLSKEAREKAEGELKKLRQMSPMSAEATVVRNYLDW
+LTGIPWGKKSKVKTDLNNAEKVLDEDHFGLDKVKERIVEYLAVQARSAKIKGPILCLVGP
+PGVGKTSLARSIAKATGREYVRMALGGVRDEAEIRGHRRTYIGSMPGKVIQSMKKAKRSN
+PLFLLDEIDKMGQDFRGDPSSALLEVLDPEQNATFMDHYLEVEYDLSNVMFITTANTLNI
+PAPLMDRMEVIRIAGYTEEEKLEIARRHLLPKAVADHALQAKEFAVTDDALRAVIQTYTR
+EAGVRSFERELMKLARKAVTEILKGKAERVEVTGANIADYLGVPRYRHGEAERTDQVGVV
+TGLAWTEVGGELLTIEGVMMPGKGRMTVTGNLKDVMKESISAAASYVRSRAIDFGIEPPM
+FEKNDIHVHVPEGATPKDGPSAGVAMATAIVSIMTGIPVNKDVAMTGEITLRGRVLPIGG
+LKEKLLAALRGGIKKVLIPEENAKDLADIPDNVKNSLEIVPVSMIGEVLQHALTRQPEAI
+EWDAAKQAASMKPVAEVDEASSSFAH
+>tr|A0A1Q9AEC0|A0A1Q9AEC0_9RHIZ
+MYRALTREIEVTVEPYYLEEQSDPEDSRYVWGYRIMIVNHSSKAVRLMTRYWNITDANGQ
+VDEVNGPGVIGKQPVLQPGESYEYSSGCPLDTPSGVMFGHYSMETTDGEVFEVAIPAFSL
+DTPGLSRVLN
+>tr|A0A1Q9AH20|A0A1Q9AH20_9RHIZ
+MAAGEKDDAGQDAAARSATGTLGKAMALLELVAMADRPLRLTDLLHRCGQPRGSLHRQLC
+HLVAEGLLRQRPDLSYEPGLRLLKLAHRAWSRNDVKTLARPYLSRLHDATGETVHVGILS
+GVEIVYIDKVESRQTVRMDSRIGRSAPAYCTGLGKAALSALPPAALDSLLSCMVFERFTA
+NTHSSRSSLLCDLEAIRRCGYAFDREEHEKEIRCVAAPVHSVQGNLVGGLSVTGPAYRVS
+MEQLEAWSGAVSSAARALSDDLSVALGPDMRGF
+>tr|A0A1Q9AM08|A0A1Q9AM08_9RHIZ
+MKSKLVMAALLAGMMAGTAQAQNVGVSMALFDDNFLTVLRNGMIDYSKEKDVKLQIEDAQ
+NDVGKQLNQIQNFVASGVDAIIVNPVDTDATAAMSQAASAAGIPLVYVNREPANVDQLPD
+KQAFVASKEIDAGTLETKEACRLLKAAGKKEAKVVVLMGELSNQASRMRTKAIKDVIATP
+DCSFMSIAEEQVGNWSRTQGADLVTNWLSAGVKFDAVLANNDEMAIGAIQALKAANIPMD
+QVVVGGIDATQDALAAMAAGDLDVTVFQNAAGQGKGAVDAALKLAKGESVEKKVYVPFEL
+VTPSNLKDYQKKN
+>tr|A0A1Q9APB8|A0A1Q9APB8_9RHIZ
+MLHALSPVQSPLLAERAGAVTRHGFFTREGGVSEGLYAGLNVGLGSRDVPQKVAENRARV
+AAWFGADIDHLATVHQVHSPRAVTVDAGNATERPEADALVTATPGIVLGVLSADCGPILF
+CDPQARVIGAAHAGWKGALTGVLESTIDAMVAIGAERRHIVACLGPSISAAHYEVGAEFV
+ARFLEADSANAGFFTPSIKEGHFMFDLPAYTLARLRRDGIQAESLADCTYGDPTRFFSYR
+RTTHAGEPDYGRQISAISLKEA
+>tr|A0A1Q9AKN8|A0A1Q9AKN8_9RHIZ
+MSVRRLAEESLQPQGFSFNADNAAWAQATIRKYPEGRQQSAVIPLLMRAQEQDGWVTKAA
+IEHVADMLEMPYIRVLEVATFYTQFQLKPIGTRAHVQVCGTTPCMLRGSEALIDLCRHRI
+HHDPLTPNAAGTLSWEEVECQGACVNAPMVMIFKDSYEDLTVERLEEIIDRFEAGEGASV
+PTGPQIDRVFSAPEGGLTTLTNESVAAGATPSNGSAAPGASVPPANAGRPTTDTPETDPK
+LKTPATDSEGAKASADVSGDNADKAKE
+>tr|A0A1Q9AH34|A0A1Q9AH34_9RHIZ
+MLDWEAIFATRSTRMRASEIRELLKLLDRPDIISFAGGIPDPALFPDVAFREAYADIFAG
+PAVSAALQYSVSEGYLPLRKWLVGEMARIGIPCTEDNILITSGSQQALDYLGKLFLSPKD
+TALVTWPTYLGALQAFNAYEPSYDQLNVTGNRTPEAYRAAAAAAGGRVKFAYMSADFSNP
+TGETMDRAAREKILDLGDELDIAIIEDGAYQSLRFDGTPVPPILALEIARKGTINETRTI
+YSGSFSKTLAPGLRVGFVVAAEPVIRKLVLMKQAADLHSSTINQMAICHVAERGFDAQVA
+KIRDAYSRRRDCMLAALAAHMPDGVSWTRPEGGMFIWITLPAGFDGADLLAKSLVSAKVA
+FVPGKAFFADGSGANTLRVSFSCANEAMIEAGISRLGQLIRSEQLAKVA
+>tr|A0A1Q9AHY2|A0A1Q9AHY2_9RHIZ
+MLNLKTLLSAAAVTLAIALPARADTVLTVHYPMPGFFKDVMDTISKKFMEENPDIKVQFA
+NPSPTYEEGIQTIMRQAGTAEMPDVTFIALNRLRMAEERSIPVDLAPMIAKDKQSMADQG
+FSDTILKLAQVNGKQVGLAFATSNPIMYYNADLVKAAGGNPDSPPKTWDEVIALGAKIKA
+LGNGVDSIDFRWQGDDWMFSALLFGAGGRMLSEDESKVAFNGPEGLKAMTVIDRMVKEAG
+MPVFTKAAGEQAFVAGKVGFAFQTTGALRNTIKNVGGKFDLRTAQIPLLDPVNGKLPTGG
+NAVVILTHDGEKQAAAWKFAKFAAGPYGASVVVPGTGYVPNNELAATSPAYLGDFYKQNP
+LFRAGLSQMPRMIPWYAFPGSNGVRVTQTIVDNISRVVDQSAGPQEALDDAAKEVKRLLP
+RS
+>tr|A0A1Q9ALG4|A0A1Q9ALG4_9RHIZ
+MAYWLYKSEPFKWSWAMQKEAGAAGTEWTGVRNYLARNHMRAMKLGDKGFFYHSNEGLEI
+VGITEVCALSHPDSTADGDARWDCVDIRAVCDMPKPVSLKAIKANPALASMSLVTSMRLS
+VQPVTEAEWDEVCRMGGLEPPPRSA
+>tr|A0A1Q9AMN6|A0A1Q9AMN6_9RHIZ
+MCARSPYHGDNSRTVSALGDLQPTVFGVEGRRLDLRTLERSPGPGRIVFSCGALIAHPLY
+GETWCVMTYELPRQKNAAKAALAELEACARDGRPTPARAAWDRYCAEKAAAKATRASAPA
+RHVHSTGQFDLLGALL
+>tr|A0A1Q9ALX9|A0A1Q9ALX9_9RHIZ
+MPCALASILPALVRFRDQTPLKIHDSGQHGQQFASVRCGRVGPYLGQRAQAGIGLIDPHR
+DRQKVASGSGKPIKARHRHHVAGA
+>tr|A0A1Q9AQE9|A0A1Q9AQE9_9RHIZ
+MSTNTVSVPYGEVLRSMIAATDAAAACGSRPRPLGFGRNAAPTAVREPAVLRRHPHLVRF
+ADVEADLDLLIDRAIAAVADGEPIEDAILGHYVHIASLVRAVSFREGKLLEQAVERLAKA
+NPNILVLTQSLKLPLVKAAMEAVAGNDWSSLDGVKLDCEAPAKGSYTPDLIIVNRVRHTA
+YILDLKRSLASYGDTSRLEELKLKMMASAMVLPDWLYKNQKRLMVDAVEVAIVDGASRPS
+DHATGIWALSEIDDLLEIDGVAACMAELRLRFGIRVQQLLEAEACKALGLDRAPVMDPAV
+MTTAATAALHPRINLNGPSRSYEEDLAARSCDDDDLRDRLDDDGFRDADETEDDEPVPMF
+VRVGFARRPRH
+>tr|A0A1Q9AI93|A0A1Q9AI93_9RHIZ
+MGNVRVTVVDIAKAAGVSKSTVSLVLQGSPLVNEATRAKVTAVMRELGYVYNRGAANLRQ
+SGANSKIIGVVVNDLTNGFFAELAVGVDMVVQSAGFVQFLANTSENLDRQREVIASMREH
+GISGLIVSPARGTKASDLKPLVAAGIPVVVAVRQVPGAKVSSIVSDNHDGLFAAVRHLVA
+LGHRRIAFLGGFRDTAVFMERLQGYRDAMAGCDLTPDEALVIDAGPSRAGGFDAIGRALA
+LADPPTAAVCFNDAVAFGACDGLRAAGIEPGKNFALIGFDDVIEAKTAVPALTTISVDPQ
+GMGRRAAQLLLKQISAGKPEAEAIVASVRLVVRESCGAPARPETAQAPQAG
+>tr|A0A1Q9AEK2|A0A1Q9AEK2_9RHIZ
+MTGSRAMFSRHPLAQGSLYVSCDDGWLPVIDDCLTRLESFGVPIEIRRIREKMGCLQMSI
+VAPTTLPTENKIRWADIIRAAEETALKTCEVCGAPGRLRVSETGTYATRCDLHEVI
+>tr|A0A1Q9AN28|A0A1Q9AN28_9RHIZ
+MRCPYCGSEDSQVKDSRPAEDGTAIRRRRICPDCGGRFTTFERVQLRELTVIKKTGRKVP
+FDRDKLMRSFEIALRKRPVDRERIERAVSGIVRRLESSGENEIASEQIGLQVLEALKGLD
+DVGFVRYASVYRDFSHADDFEKVIAEISAKIARDPGH
+>tr|A0A1Q9AHB3|A0A1Q9AHB3_9RHIZ
+MNRIVPLILAVALFMEQMDSTVIATSLPAIAHDLGVGPITLKLALTAYMVSLAIFIPLSG
+WMADRFGAKRVFRLAILVFIAGSILCAIASSLFGFVGARFLQGMGGAMMTPVARLVLVRS
+TQRSELVGAMAMLTIPALVGPLAGPPLGGFITTYFSWHWIFLINVPIGVIGFILSGLFLP
+EIEASRPPALDGKGFVLSAVAASGTMFGFSVISLPALPPIVGILSVVLGFVCALLYWRHA
+RSHPSPILDLKLFSDSAFRAAAVGGSLFRISIGAVPFLMPLMLQVGFGLTPFQSGMITFA
+GAIGAITTKVFARRALALMGFRTTLIVAGIAGAVLTFVNGLFTPATPSIVMIAVLVVAGL
+IRSLFFTSVNALSFADIPDRDASKATSMSAVLQQMSLAFGVATAGSILEIEGWITGTHLE
+LSDFHLAFMLISAITLVSILPFIGMSKDAGATVSGHRRPGERQAEAVGGAQG
+>tr|A0A1Q9AD18|A0A1Q9AD18_9RHIZ
+MAAATGRRETISRPFLSSRSIVFPAAFFDYSQEEIRTFILSRRTPFTIRSFCTMVKLETV
+DADEFGIEGVMLDYPLLHGAMITHTLIACMQRHQGLKAATLAYAQAQRDIFKVFVDDVFA
+RYGVQPGHTTLYAVDVGWTGKSQRLLEKVLRACGYDVTLHGLYLASDAGCIEEQLAGLRA
+KGWLYNAGQPQRSELLGLHCKEIIEQVCSSELGAVKTYSADGDPVFGEDTKTLQQRIDLR
+RLRNAARRAIALYGQVSQQARDNGLAELLIDPVDYRNAYGGLVAFPTFDELTMIGRWSHD
+ENNLSRNVEGLSSPYWETFARYATVQQFLESRSYWKVPELRRSRPALADSLVIRMMGGRH
+TQQEYSYPVRLGVMAEGEPAEFVDRQIFFSADGCAIVPNARICLLTSSFIFENTGNDMLR
+VEAVLISYYNTATRARIEKVIMPLFMDKPETAHMPSDLPPGGSFVVRAEGKQSAIYDSLF
+GMLSPVSVICCVRKI
+>tr|A0A1Q9ADC4|A0A1Q9ADC4_9RHIZ
+MGSVSIWHWLIVLAVICLPLVFAFRQAPAGPNRFGPAPGRPMGLYDAVESFFRNYVTFSG
+RASRSEFWYAYLFLFITTVAISLADQNGIVGSLWSLGTLLPAFAIAARRLHDINRSGWLQ
+LLSWLPPIGFIVLLVWWCTPPRDAAANESDAQGVATPPAGLSLNQLELIERLARLKDSGA
+ISAEEFEAEKRKLLGGPSVRASD
+>tr|A0A1Q9AQ74|A0A1Q9AQ74_9RHIZ
+MNQTFRCTEITAAVTRAQGAPFTLEKGRIRAPEGTEVLVRIVATGLCHTDLIVRDQYYPV
+PLPAVLGHEGAGIIEAVGPNVATLQTGDHVVLTFGSCGHCDLCAQGHVCYCQNFFGLNFG
+GADKDGKTAIEDMDGKPLHDHFFAQSSFATYAIATESNTVKVPKDAPLEMLGPLGCGIQT
+GAGAVMNSLKVGPGTAFASFGAGAVGLSSVMAAKAVGATTIIAVDVVASRLELAQELGAT
+HVVNSREQDMVEAVRNITGGGVDFALETTGRAEVLAQAIECLGSLGTIGVIGAPKLGTKA
+EFDINNLLLLGRSIRGIVEGDSVPQIFIPQLIELNRQGRFPFDKLIKFYPFDKINEAVKD
+SESGVTLKAVLKIGDIPA
+>tr|A0A1Q9AGJ1|A0A1Q9AGJ1_9RHIZ
+MLTRKQQELLLFIHERMKESGVPPSFDEMKDALSLASKSGIHRLITALEERGFIRRLPNR
+ARALEVIKLPDVYGAPPPKRGFTPSVIQGSRDAAAGQREVARPAAARPVESATMTVPVMG
+RIAAGVPISAIQNNTHDIAVPAEMIGNGSHYALEVRGDSMIEAGILDGDLVIIRDGSTAT
+QGDIVVALVDEEEATLKRFRRKGDSIALEAANPAYETRIFGPDRVKIQGKLVGLIRRYH
+>tr|A0A1Q9AG44|A0A1Q9AG44_9RHIZ
+MPISGDLALPIEGEDLAGQQPAIFAGMPSSVSFNKLRKRLLRQVRQAIDDFGMLERQKRW
+LIGLSGGKDSYSLLALLIDLQWRGLLPVELIACNLDQGQPNFPKHILPDYLASIGVPHRI
+EYRDTYSIVKEKVPEGATYCALCSRLRRGNLYRIAREEGCDALVLGHHREDILETFFMNL
+FHGGRLAAMPPKLLNDEGDLMVLRPLAYAAEEDLAKFAAAMQFPIIPCDLCGSQDGLERN
+AMKTMLADLERRMPGRKDRMLRALGHVNPSHLMDPKLFDFKSLFPEPSA
+>tr|A0A1Q9AJY9|A0A1Q9AJY9_9RHIZ
+MHFWNRLGIRTQITLGFLPLILLMSILSANAISGMNGLSSIFSSYRDTAGQTMAIAGSSN
+SLHEIQMAAERFRVAPGDETVSQFRTGLDAFLKGDPRLSNDPKLASGLQAINADMRAYGE
+AFAEIISLQARRDALLGKVTEYGPWTVIALKDVLRSAWRQNDIALMHAAGDTLDALNRSL
+YFSERFVHADDLDAYDSAQAALSQALALNAEAAKVARNELQNKRVLGATQLMQNYTARMA
+ELRDVLLASGKIRKEKLDLLAPKISSGFAGLQAAVSTSQTTLDGSVQDMVASATTTTLII
+SALLIVIGLVLAYFTGRLISGAVRKMAASMERLAHGDETIVIEGAEHRHELGAMARSLQV
+FQETGRAKLVAEANAERARLAGEEQRLRQEAERLADAKTMEQAFQEISKGLDALSHGDLT
+LRIGAVDPRYAPIRDHFNSSMDSLEQALGSVIGTIAAIRSGLAEISSASNDLAHRTEQQA
+ASLEETVAAISEVTRGVNGTAEGAGQAQQAVAAARDNAQKGGAIVNRAIEAMAEIQGSSA
+KIGNIIGVIDEIAFQTNLLALNAGVEAARAGEAGRGFAVVAQEVRELAQRSAQAAREIKS
+LISTSTAQVETGVNLVSQSGVSLAEIVQQVADMSSTISDIAASARDQANSLREVAAAGDQ
+MDKVTQQNAAMVEETTAAAQSLSQETERLADMVQRFRVGGRPSAHRQEYRMAS
+>tr|A0A1Q9ANH4|A0A1Q9ANH4_9RHIZ
+MGSPHRPRFSSTLSQRGILAGLLALGLALPAGPGFAQAPAAPQPPASEPQALPAPPTGKP
+LQPGLAPSARHAAQGPASVADLAAGLLDAVVNISTSQNVKNDDDTPSPKVPEGSPFQDFF
+NDFFNGQGGENNAGRKVESLGSGFVIDPAGFIVTNNHVIEGADDIEVNFANGSKLKARLV
+GRDTKTDLALLKVEPRKPLVAVPFGDSRRMRIGDWVMAIGNPFGLGGSVTIGIVSARGRN
+INAGPYDNFIQTDAAINRGNSGGPLFNMYGEVIGINTAIISPSGGSIGIGFSVPTELAQN
+VVQQLKEFGETRRGWLGVRIQPVTDQIAESLKMDTPRGAMVAGIIDNGPIKNGEIKPGDV
+IVKFAGEEIEEMRDLPRIVAESPVGQAVDVVLFRDGKEMTVKVTLGRLEDSEPAADKDAA
+GKNKAAPGADEPDDTPDEGADNKGDGNKGEGTDQAEPPAATLPAADAVLGMKLAALTPET
+RKQFSVVQTVEGVLITEVTPQSPAADRRLQPGDVIMEIGQEGMKTPEDVVARVEELKASG
+RRNALMMVANKAGELRFVTLRIE
+>tr|A0A1Q9AFD8|A0A1Q9AFD8_9RHIZ
+MARLFFSIWAGDFFRRFFDDRFGNLAVLFAFLLPCLVLAMGCFTDVANAFSLRQRLQGAA
+DAAILAATADYQQDTDRSTLISKIETYLKLDSAGLGRLTSGPDLIDGKGLCITAGAEAQT
+AFMRLAQIDSVPVSVSACARAGQSGSIEISLVLDVSSSMIEDKRFTPMKKAVRSFLKKFT
+SGGKLADNVKVAIVPFSSRVNFGMPYKDWFIRYDNKEAIPKRWRDPQSYYTNMTFSKWID
+DTTWLAQNSDNYYWMGCAEPRVDVEMRSNGTLGQESLDDRPPDVLPFVAMDSNAQSGTSF
+CPPPLTELTNDINLLTNAVNEMTSEGATRLDAGIIAGWYTLSPRWASAWSSGKPRNYGND
+VKKYIIFMTDGEMNVKYGPSNTDKLDWICDKTRTKACNNLALNALQTICKGMKDAGITIF
+SVSYSPDADRTNLKQCASGEKYFFEASTSTIEAVYQQVASQVMGDTLRLTR
+>tr|A0A1Q9AK76|A0A1Q9AK76_9RHIZ
+MFSSIRTKTLLVLLFGLMTALALLQGSFAIYSVMGLRERTSDMSFRIDRAHQMAELDRLF
+GDVRRGYALLAGAKTDEQRTAMLYTLQKSRDDRRKAFDAFGATIKTPEMREKFGPAVTAI
+DEYERLGAQLISAAMAGDTDGVQKKVSEMIAQGGRAVSLFSAVLAVNRNNAEVVKNEAMG
+MADNTLMLTSVLSLIVLLIGLGAAIYCFRRIARPIAGITAAMTTLSQGDLAQEIPFTGRK
+DDIGDMARAVGVFRDNALERSRLEREAEANRSLSEQERLEREAQKAREADDLQFAVRNLG
+AALDRLAHGDVGQHLPEPFVGQLDTLRVNFNQSLERLQGVLRAVGETASTIDAGTQEIRS
+ATDDLSRRTEQQAASVEETAAALEQLTTTVKEAATRAGKVSALVDQTREGAERSGDVVRR
+AVSAMTEIEKSSAEISEIITVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVREL
+AQRSANAAKEIKGRITRSGDQVRNGVALVGETGAALETIVTEVQEINRNIAAIVSSTREQ
+SVGLSEINSAIAQVDQGTQQNASMVEQTTAATHGLAGQAAALNELLGQFQLGEDRAPRAA
+TERTPPAASPARTLHGRLASAFAGNAARALPQESWESF
+>tr|A0A1Q9AH68|A0A1Q9AH68_9RHIZ
+MTKKLTASVAAGALFAGLVAFAPASFAQDAAQPAQPNAMQPAPMTNDATTGQMGDNAAKP
+LAGQAADAGAKTGNYITEQGANQVSANRYIGQSVYNSNDESIGEINDVIFSTDGSVEAAV
+IGVGGFLGIGEKNVAVPLETITIAEVPNSNDMKLTTQETSDSLRNAPEFKTRSQQMAESN
+NGNVDASTTSSTAAPAGGAAPAPAAPATNN
+>tr|A0A1Q9AJ54|A0A1Q9AJ54_9RHIZ
+MFAFDEANKRNKEAMDLVLKSYASMAKGFQAIAAEATDYSKRSFEESVAHIERLSSVRSI
+ETAVELQTNFVKSAYEGYVAEATKLGEMYADLARSAYKSYEAPVAKAAANVKAAAAQAAA
+AA
+>tr|A0A1Q9ANN4|A0A1Q9ANN4_9RHIZ
+MAENLPDMGDLRAFLLVARAGGFREAARMSTLSASALSDAVRRLEGELGLRLLHRTTRSV
+LPTEAGRGLIARLDPAFREIADAVDHLRSLRDRPAGTLTLNVPASAARLILPAIVPPFLA
+AYPDIRLEVMTDEQFVDILAAGCDAGIRYDERLEQDMIAVPIGPRRQRFALAAAPGYLSR
+HGNPQHPRELMRHACIRGRFAGRPVETWELERDGEVIRIDPPGQLLVQNGAGSDLGVAAA
+LTGLGIVCLFEDWLRPHLDSGALAPVLEDWWPAFPGPFLYYSGRRLVPAPLRAFIDFLRT
+HPFDPPAVPAV
+>tr|A0A1Q9APK1|A0A1Q9APK1_9RHIZ
+MAALIFIERSQGSSIAGRPLGDHMVLSLPAGGEVKASMREGAVYRGLVVPVDQWLAIQQQ
+AVGFVQDDHDAPAIMTLDTATASALFEETVRLGDRLDEHLARDTGDGEAGRRLPLAMVDC
+LAHLADLQARARGSHEAINRSVDARLRQALRAKDFILAHLADDISVERLCAVVNVSRRQL
+EYAFRTTFDCSPYDFIQSVRLNEIRRQLQLGDGRTVTEIALENGIQHLGRFSAAYRALFG
+ELPKETVRQAIAGRSRNDRGGARRR
+>tr|A0A1Q9ALW3|A0A1Q9ALW3_9RHIZ
+MWPVFSLTVTTRTGSAKGLDLELTRRSGSWPIASSMTPSVFRAGLAKRACSTSVTDVLIL
+SRVTKRASA
+>tr|A0A1Q9AG62|A0A1Q9AG62_9RHIZ
+MTSAPSAEERSLETPAEAMAAIGAAWPLIVADCRKVLGGELHYQAMIYHCLRLTGVPIAQ
+LGMNVKQWIANPVSPLFQKADLRKHEAFRGGFEPIPDLVLFSRQVGADWRRRSHDSTLLT
+MRAAIEVKASERKGLCLGSGEIIADIEKLAAHRDEVSARGGAMIPVMMVIDTAPIDSERM
+RHTAIKGCRERARELGVVWFYLSPDVEQSPTIENAAASSIIVPAARHGRGG
+>tr|A0A1Q9AGW4|A0A1Q9AGW4_9RHIZ
+MFGSSQVTRSQLASMEVITANVMIADEKLNILYLNAAARELMKEAEGELKKELPRFDSKA
+LIGANIDIFHKNPSHQRNMLAALTQQHRTTINVGPRVFDLIVTPLRKNGKTTGYVVEWAN
+SKERLQNLDYRNQMDAIGRVQAIIEFLPTGEIVTANQNFLDLLGYRLDEIKGRPHSMLVD
+QVYAGSPEYQQFWSALRAGRFQAAEFTRFGKGGKRVIINASYNPILDEKGRVAKIVKFAT
+DVSERVHAVQTIGGALSELAQGNLTVSLDRPFGAEFESLRNNMNNAVRELSQTLASVAQS
+TGEIDTGTREISHGAQDLSKRTEQQAAALEETAAALDEITANVSNSSKRAEEARHASEQA
+DNSARRSGQIVSDAVSAMARIETSSQQISNIIGVIDEIAFQTNLLALNAGVEAARAGEAG
+KGFAVVAQEVRELAQRSAQAAKEIKELIRNSSDEVRSGVKLVSETGDALKLIQENIVTVN
+DHMNAIANSAREQATGLAEVNSAVNQMDQVTQQNAAMVEETNAASATLAQETERLRQLIS
+RFQLDQPSTRRNEPARARPVAAAPAHAPAAPRAPAAPR
+>tr|A0A1Q9AK08|A0A1Q9AK08_9RHIZ
+MRSSHPTSGRIEGYNAGAMILHWAIALAIFFQLAVGFSMSQLQIFPRDMRFSLIQWHKTV
+GITILALTLARIAWRLFNPPPAHGPMPRAEAALAGLVHGLFYALMIAVPLSGWILVSGST
+TKIPTLLMLSDALPWPNLPLPAFLLNHQGHEVIETAHAVLAYSFVVLIGLHVAGALKHSI
+IDRAPSFSRMLPIGGLHRQQAALIALPVAAAAAVAFLSGGVAIGRSGAAPAPAAQLAQAP
+AQAPAAAAAPSAAGWAIDKAASKLGYSVTFSGKTVTGTVGNWDAAVNFDPAQLAQARAEV
+TVDTASITIDDAFIRSNLAGADGFDTAAFPKARVELTSFAKTETGYLAKGTLTLKSVTAP
+IALPFTFEQAPDGTATVTGTAELDRATFQLGQQQDAKGEWLAPTIKVELSLKARRAGAGA
+>tr|A0A1Q9AK62|A0A1Q9AK62_9RHIZ
+MSHPPTVQSPRTGKSALRRFVDAAEPWFYSAPVLVLILAVMLVPLILGLSYAFRDIQLLN
+PFSGGFVGLKHLQALSQDQAFYRALRNTLWWTGASVFLQFLFGLILALLLDKPFAGRGIA
+QALVFLPWAVPTFLAGLNWAWLFNPVIGPLPHWMAALGILSAPDNILADPHLAMWGPIIA
+NVWWGIPFFAITLLAALQAIPRDLYEAAEIDGAGPLQRFVSITLPFLAPTIAITILLRTV
+WIANFADLIIVMTNGGPADRTQIVASYIFTQAFRRLDFGYASAIALVLLVLLLAYSMVIV
+IIRQRLIEKD
+>tr|A0A1Q9AMP5|A0A1Q9AMP5_9RHIZ
+MQTVFAPPAPVLLPVAGSQALFPVRRIYCVGRNYAAHAREMGSDPTREPPFFFQKNPDNA
+LPAGQDFPYPACSSDVHFEVELVVALKDGGENIAPDDANGCIFGHAVGIDFTRRDLQAEA
+KKAGKPWAAAKSFEQSAPIGPIVPLDAVSPSPEARIWLSQNDILRQEGHLSDMTWSVPEI
+IVELSKLFRLAAGDLIMTGTPSGVGPVVRGDVVSCGIDGLPELTVTVA
+>tr|A0A1Q9AMT3|A0A1Q9AMT3_9RHIZ
+MVATPLVALAFLNFFLADARDGLGPFLDAFLATQGWTPFALGTIATFGGVLGMVATPLFG
+ALVDNSPRKRLLVIVPVILVTAAALWTLAMPNMVVVVGGQTVTAIVGAVIGPALMGLTLG
+IVGEAAFPHQVSRNEFWNHAGNVVSLAGVYFAATFYGLSGIVVLMVVTAIGAVAAALAID
+PAKIDHKVARGLGHDEGEEGPSGYSVLVGSRGLIVLAVVMLVFHFGNAPISRLVAQQFSV
+ELGTPFRTTALITGVSQLTMIGAAIAAPFLIRRFGLASIFIIGLLALPIRGAIAGSFDQF
+WMIYPVQILDGLGAGLIGIATPVAAERILSGTGRFNVGLAAVMTVQGIGASSSNIVAGTL
+TQDFGFHAAYWLHGAVALLALIPFLIFRRDVAPHARDTTG
+>tr|A0A1Q9AFX3|A0A1Q9AFX3_9RHIZ
+MRRKGRRHAQPEGRPLLPRRTLLAYALPAAPLAALGLPLYALVPTYYVETVGLPVAAVGW
+VVLMIRLVDAVSDPAVGLFADRIRPRFGRRRSLFLSGLPVTALAAIMLYRPPDGAGLVWL
+GLWGALVSIGFTLVQVPYSAWGAELVRDYHGRTRLAAWRESVTVVGTLIAIALPFSIGFA
+PGQSGLALLGFVTGGLLILTGLLAVASVPEPEAVGTAGMRPQEGLRLLAENRPFRRLILA
+YFVNGLANGIPATLFLIFVSARLDLESLRGPLLFLYFLSAIAGVPLASAAARRFGKHRAW
+CAGMVLACLIFALTPLLPAGAALAFGLICFSTGLLLGFDLALPPAIQADVIDADGAGPGR
+AGFYFAAWGLATKLSLAAGAALTFPLLGLFGFDPARGSANDATALMALAMLYAWLPVVLK
+FIAIALMWRFPLDETAHRNLQG
+>tr|A0A1Q9AKC2|A0A1Q9AKC2_9RHIZ
+MLNPHHQTGRRRIGPLAAGVILSVLIILIAGLPEHPDALQWRSFVRLPIEWPLLLLLMLV
+TPRPLRRPFLMVSGLALFLVLFLKLADLGTQAAFQRPFNPYLDGKMLADGWNILSGTLGS
+FVALVAVVAVLTAFGLLLFLFLRAGLLFCAAPRPARFRLVTALAIIALIGLLAPSSFATP
+ALPAYLTERLALMVRSARDMQHFETTLAAGIGPKRGEGLFSGLKGQDVVLIFFESYGRSA
+IEDPRYAARTGARLSAVETELGAVGLASASGWVTSPTVGGLSWLAHGTLLSGLWVDSQAR
+HDRLMISGQPSLNRLFAQAGWLSAAVMPAITRDWPEAAYYGYDRILAAGDLGYRGKPFNW
+VTMPDQFTLAAFERLVRAPAHAAGKKVMAEMALISSHAPWTPVPTLIDWDAVGDGTVFNP
+QTEGDATPPVVWADPEKVRQHYIATIDYSLQTLGSYIARFGKQTVFVILGDHQPAAIVTG
+PDASRAVPIHIVTADRDLIARFQAAGFAAGLHPGTAGREWRMDALRQLLIDLFSGNRAS
+>tr|A0A1Q9AG68|A0A1Q9AG68_9RHIZ
+MKLSAHLLSAVCALTMLAAPAAHAKDWKTVTITLEGAYAPWNLTNADGSLGGFEPELAKV
+LCERAKLDCKLVASDWDGMIPALNAGKFDVIMDALSITEERKQIIDFTIPYAATPAAFAT
+AKDSPLAKAAGTGETIQMTPGQTGVKEIEALKAAFKGKTIGIQAATVYAKFIYDNFGDIA
+EIREYKTGADRDLDLQNGRIDLGFDDAVYFNNAFAAANDTLAFTGPEIVGSIWGEGEGLG
+LRKADTDLRDKFNAAIKSALADGTVKTLSMKWFKIDVSPR
+>tr|A0A1Q9APH3|A0A1Q9APH3_9RHIZ
+MRALVWHGKEDIRCDTVTDPEIEHPRDAIIKVTSCAICGSDLHLFHNFVPGMMPGDIMGH
+ETMGEVVEVGSGIGGALKKGDRVVIPFTITCGECDQCKRGNFSVCERTNRRKDLAEKVFG
+HTTAGLFGYTHLTGGYPGGQAEYLRVPYADSTHIKVPDSMSDEQALFLSDILPTGWQAAV
+HCDIEPEDTVAIWGCGPVGQMAIRSAILLGARQVVAIDCLPERLSMAEAGGAITINFREE
+SVLERLKELTKGKGPQKCIDAVGLESHVSMSHPDSLLDRAKQMVMLESDRPHVLREIIYV
+CRPGGIVSIPGVYAGLVDKIPMGAAMNKGLTFRMGQTHVKRFTDDLVRRIEEGQIDPSFV
+ITHTAELKEGPEMYKLFRNKQDNCIKVVLKP
+>tr|A0A1Q9ACC1|A0A1Q9ACC1_9RHIZ
+MNLTPREKDKLLISMAAMVARRRLERGVKLNHPEAIALITDFVVEGARDGRSVAELMEAG
+AHVLTRDQVMEGIPEMIHDIQIEATFPDGTKLVTVHEPIR
+>tr|A0A1Q9AKW2|A0A1Q9AKW2_9RHIZ
+MAELGSGESLKPAASESGDSPRGVLLALIAYLLWGLLPFFMKAVAHIPAPEIIAHRVVWS
+LPIVGGYIVWLGRTADLKRALTNPRMLAMACLTAALITVNWGIYVWSIAAGRALEAALGY
+YINPLLSILLGAVLLKEKLSRAQMVAIALAVLAVAILTIDAGGLPWVSICLALSWAFYAF
+FRKTLPVGPNQGFFLEVMLLSGPAVAYILWLETTGQGHFGDTGPADVGLLLACGAVTAVP
+LLLYANGAKLLKLSTIGIMQYIAPTMIFFIAVFAFGEPFGLVKLAAFALIWSALAVYTGS
+MYVSARQARRTAG
+>tr|A0A1Q9AQH7|A0A1Q9AQH7_9RHIZ
+MTLLTPDRRLVFYDREGLPYRPVRDGGTGRSIFKIKPKGASNRADEAIHTEHWLEVARAM
+LIDGLAARCQGFSGGSVNYLTFGAQKLVRYELDPEIAQELGIPPEGGTNVQPSNFSRAAI
+EAACDAFEAFRSRGAHAEIFSAFGEPRDYWVRSTRGRENRLYPTKPIVAFLLGTTDIHGG
+WNQPSGPVSLLHNSGFIIVDGDDTPSEIPKEEHVLRGADRIRLCALNYFIEPAREQGATE
+VSVRAGDLAATMGLQDAFPNICQALGGEKFQQLAQVPPPIHTEPNPSSSTIFTYKLASQA
+KAATVTEESTASTRSATNLILYGPPGTGKTYRTAWEAVRLCLGEQVAAALQGGEKRNALM
+VEYRRLVSEGRIEFVTFHQSMSYEEFVEGLRPSTGDEAGEGPEDVEVSTGFRLKSHDGVF
+KRISERARLDQVAEGSPHRLERSARVFKVALGNRQIEQDRYRIRFGLDNNLIHVGWGGDI
+DWSDERFDDFDEIQSEWRAKKDPNATGHDGNIVITFSFRADMQVGDYVVVSDGRDRMQAF
+GRVTGEYFYDPEAAFHPHRRHVEWLWREDAGAERSRFYARGFRRHSVYKLNQSLVDWDAL
+EAIVFGDETPRANQSARDHVLIIDEINRANISKVFGELITLLEPDKRLGMPNEIRLVLPY
+SKKPFAVPANLHIIGTMNTADRSIALLDTALRRRFTFCELMPNPLVLPTNTGGIDLRKLL
+TTINDRVEFLFDREHQIGHAYFTGCATRGDVEEVMRHKVIPLLAEYFYEDWSKVAAVLGD
+TGQGRPRFLEARRLAAPASIAEDDLSDEKLRWRVKDSFDFSEFEV
+>tr|A0A1Q9AJ02|A0A1Q9AJ02_9RHIZ
+MTHQDTPSPLPAPVHVIGGGLAGSEAAWQIASAGIPVILHEMRGVRGTEAHKGDSLAELV
+CSNSFRSDDATSNAVGVLHAEMRLAGSLIMACADKHQVPAGGALAVDRDGFSEAVTQAIA
+AHPLITLTREEVTDLPPEDWDQAIVATGPLTAPSLAAAIQARTGQDALAFFDAIAPIVHK
+DTIDMDICWYQSRYDKIGPGGTGRDYINCPMDEAQYNAFIDALVAGDRLGFKEWEGTPYF
+DGCLPIEVMAERGRETLRHGPMKPMGLTNAHNPEVKPYAVVQLRQDNALGTLYNMVGFQT
+KLKYGAQADIFRMIPGLEQAEFARLGGLHRNTYLNSPTLLDPTLTLKGRPGLRFAGQITG
+CEGYVESASIGLLAGRFAAAERLGQALRLPPATTAFGALLGHITGGHLVAEEEEEPGKRS
+FQPMNVNFGLFPPLEPGALTRPEGVKRFRGKEKALAKKHATAARALSDCAAWLEAVTSDV
+NRQDLSA
+>tr|A0A1Q9AFB9|A0A1Q9AFB9_9RHIZ
+MSGAARQSARILMTLDAVGGVWRYAMDLAGALKGQGTATVFVGLGPGPAAAERRQAQALG
+ELVWLDQPLDWMVDSADALSQVGPTLSLLAEAYDVDLLHLNLPTQAVGLETGRPVLVVSH
+SCVTTWFAAVRGSGLPPGWGWQAERNREGLLRADAVAAPSHAHAKALARAYGDGICVDVV
+ENATLLQETMLPKEPRIFAAGRWWDEGKNGAMLDRAAALAEWPVEMAGPLVGPHGQALAL
+SHARALGSLPHAAAMARLTSAAIVASPSLYEPFGLAALEGARAGAALVLADIPTYRELWE
+GAALFAAPDDATAFADCLNRLAADADLRRALGAAAQARARRFTPQAQGQAMSALYGRLLD
+GTEGDRRRPAGTASAGLSSHITAAE
+>tr|A0A1Q9AMQ0|A0A1Q9AMQ0_9RHIZ
+MERLAKIESVWSRFGSMINTLLLVGILFGGAVSVGSYKTEMEGKISTNASEIKQLEKRQD
+DKWTNHDNLHKERQTDIGTQNGRNEERFRALERDVQKIDKLDYRLTSTETITTNTAQAIK
+ELQALISQQAGDLREVRAILQRLEASEQRRVR
+>tr|A0A1Q9AP09|A0A1Q9AP09_9RHIZ
+MTTGTNRIMDDFAKLMTDAAGAAQGVRREMETAFKAQTERFLNSLDVVKREEFEAVKEMA
+LKAREENDALTARLAALEAKLAAAEPAQPTEGGTATPL
+>tr|A0A1Q9AGL9|A0A1Q9AGL9_9RHIZ
+MFVLSGVCLAQAETPSSSGSGFAITSDGWILTNAHVVKDCRRIEVPGQGVASVPRLDAAN
+DLALIKVDAARPLAPLQLRRAPVRLGEDIIAIGYPLSGLLSDSIKITTGNVNALAGLQND
+TRFLQISTPIQPGNSGGPVVDRDGFLLGITTATFSKKVADEIGITAQNVNFAIRASVADM
+FLQAQSVSVQFGERAPEQAALSTADLADRIAPSVFQILCYGSAEGQPSAAVSSPQPAGAG
+LIERAGYDAIGFDYQLIRETSYADCRASCVGDGRCQAITYNVKHRACFLKNNVMALIHNT
+DAQAAYSTAKAASVVVSEFTSYSGIDMPGGDYGRLNQTTYLDCFVACLGDNACRAFAYIA
+KKKECWLKERLGSAEPKSGVDLGVK
+>tr|A0A1Q9AJN2|A0A1Q9AJN2_9RHIZ
+MVLRHVLGSGLFSALLLLSSTALSAEIKPPLQIVVSTERQSLTVYDGDKVVATSRVSTGK
+RGHATPTGIFSILEKRRTHASNIYSDAPMPFMQRLTWSGIALHGSNHVPGYPASHGCVRL
+PDSFARDLFKLTRGGLHVIITPDMAAPERVDSAALFAPPSTLLSDVPLRPAVLQQAGQAM
+QGPSLPAADPDTSVKLAMNDTAHATSSDMSAPQPLAAMSTASPQTTPSSPAPASSSAASS
+APVSPDPISPKPASSSPGLTVPPASLQPAGTGSPIPGLTATASPIRILITRRGQRETVMS
+AQEALNALGYDAGLADGRVGTQTLAAIAAFRAAESLPGQDRLSEDLLSVLFSKANLPPPP
+EGHLLVRRDFKPLLEAEIGIRQPEQALGTHFLQYHAADANEPQGGWYGMSLPDRLPAAMQ
+KRIGITDPTPPATLTAVLDRLDISQDLRNAINALITDGASLSISDRAMSLETGKGTDFVT
+LTQPG
+>tr|A0A1Q9AKK9|A0A1Q9AKK9_9RHIZ
+MNHASYRFAVSAVVVVGLLIAIGALALSTVMTMRDAANDLDERRLVNAVSAAVSSVKKRL
+AGTVRDNAVWDDAYAAARSGNADWIKDNWGAVSTDYPLYDGVVVLAPDGRQVAAYLKGKP
+IDAAALFGPELVRRSLVASKRENVRTLLDLHQINQGIVVMATLGIRPTNDPDIDKAHYTL
+TFFKTLTSTYIDGISEEFQIRALRIQPEPDPKQSWRLITNYQGEPLGYFVWPKSDPGTAV
+YNTALPKLQALGSLLFVIVVIVVFSFRIALKKESMLARQAIHDATHDHLTGLHNRAGMLA
+AISRAPTEAILHLIDLDGFKGVNDVWGHAAGDRLLRAVADTLRMTTPKALAIGRFGGDEF
+ALLHAGEHDPSGIGNAIVRALGQPFLIDAHHVEIGASIGYASVVKSKDALETVHRADLAL
+YCAKDAGRGQVQSYTAELDEQRKSLFVLEDKLRAAIDRDEIGVVFQPLVCTLTGRTRGVE
+ALARWSPRTGPVSPAVFIPLAEKSGLIERLSMKVLEAALTALAKLPKLDLSVNISPMQLA
+NPRFVFEIETALEKHGVAAGRLILEVTEGALISHPERACRSMTALRAKGVRFAMDDFGSG
+HASIGTLRQFAFDKVKIDRSLIASDEHAVVRATIDLANALGIPVTAEGIETTEQAAFARE
+AGCELLQGYLLGRPMSFDQLLAHMAGPEQQALWA
+>tr|A0A1Q9AKM2|A0A1Q9AKM2_9RHIZ
+MAGNLHVRNLDDELIAKLKTRAARHGRSAEAEHREILRQALETEVEPSFDDLAAQLRRLT
+AQRKQTPSEVLLREGRDER
+>tr|A0A1Q9ANB4|A0A1Q9ANB4_9RHIZ
+MSEFEGVVPAIADALAKRGYSTLTPVQKAVLSPEMDGRDALVSAQTGSGKTVAFGLAVAP
+TLLKGEGRFGRAGAPLCVVVAPTRELAMQVKREFEWLYELTGAEIASCVGGMDVRTERRA
+LERGAHIVVGTPGRLCDHVRRGALDLSKTRAVVLDEADEMLDLGFREDLEFLLDSAPADR
+RTLMFSATVPKAIANLAASYQRDALRLATQAEQKQHVDIDYQALVVIPADRENAIINLLR
+YHDAQNAIVFCSTRAAVNHLTARLHNRGFAVVALSGELSQSERTHALQAMRDGRARVCIA
+TDVAARGIDLPGLELVIHADLPTNPETLLHRSGRTGRAGSKGISALVVPTSARRKAERIL
+REARIEANWTRPPSADEVLKRDDERVLADPSLLEPIGEDEASLAAEIVARFTPEVIAAAF
+VRRLRAGRSAPEDLVEVSAAAAPRERGTRDRAEGSFEPLPRAPRENFGDAVWFELSAGRR
+DKVEPRWLIPVMCRIGKITKQEIGAIKMQQDVTYVEIARDWAERFSSALGPKGQLERGIT
+VKELSGAPDLSDSRRPAAKKPFQRDGASDFRESPKGGKPAWKSDRREGEGAKPWSPKGPR
+AEEGGRFERKAADSRSFEKKGYEPRGEKKAGGKPFKKGPKA
+>tr|A0A1Q9AJZ9|A0A1Q9AJZ9_9RHIZ
+MINPSLLALAIGAFGIGVTEFTPMGMLPLIAGDLGVSIPAAGLLVSAYALGVLIGAPLMT
+LAFARTGRRRLLVGLMGIFTLGNLLAALSTSYEMLMVARIVTSFNHGAFFGVGSVVAASV
+VPAEKRASAVAAMFSGLTIATVGGVPLAAWVGEALGWRAAFWGIAAIGALAMLALRLSLP
+VLPAEKGGDIRRELAVVTRGPVLAALALTVLGASAMFTVFTYIVPILTTETGASAGFVTA
+MLVIYGLGLTAGNWVGGRFADRSVDGTLAASLAGLVVVLLLFAGLAGSAGAAAVLIFLWG
+IASFALVPPLQMRVMEEAGAAPNLASALNIGAFNLGNAVGAAAGGLVIDAGLGTAMVPVA
+GAAMALAGLLFLALLRRRAPARVAGQAC
+>tr|A0A1Q9AP40|A0A1Q9AP40_9RHIZ
+MAISDTVSTGVKPPSGFGPYRRATRWLRRQLPMGLYARSLLIVIIPMVLLQSVVASVFME
+RHWQLVTERLSAAVVGQIAGIIELIESSPPQEYDNIVRIAREHMNLTVIIEPIQPFPPER
+PRPLFGILDRILGDEIEDQIKKPFWLDTFGDTVQIRIRIDDHRMARVFVRRNQAYASNTH
+IFLVWMVGASLVLLTIAILFLRGQIRPILALARAAESFGKGQKIDDFSPRGAEEVRRAGF
+AFIQMRERIERQIEQRTAMLTGVSHDLRTILTRFKLQLALAGDNPDLQGLNEDVADMQNM
+LEGYLAFARGEAEEDVGELRLSDVMTRLKVEAELHGKDLTVDVEGEDLIAVRPNAFTRLV
+ANLASNAYRYADRVHVEARHSARWLTITFDDDGPGIPESARDDVFKPFFRLDEARNLDSS
+GTGLGLAIALDIARSHGGNVTLGDSPLGGLRAVVRVPA
+>tr|A0A1Q9AFH2|A0A1Q9AFH2_9RHIZ
+MSEQNGDTGEDGTGALLRRRHVSRGRQLVRIVFYMLLVMAGGLLASFLYFADQVASLTPP
+ADPKADAIVVLTGGFQRIDQAVDLLKDGAGARLLISGVHPTTTGSQIRRNTQSSAALFRC
+CVDIGYDAIDTVGNANETAAWIRAHRYRSVLVVTNNYHMPRSILELQRANPGIALTPYPV
+VNSDLKTSNWMTNPMVVKTILSEYGKYTVARLRDLMGAAAGSGLRTDPRNAGIDR
+>tr|A0A1Q9AEJ1|A0A1Q9AEJ1_9RHIZ
+MTETDRPTDDKPLFGNPWIFIRGVPSMQFLPPEGPAEVAFAGRSNVGKSSLINALTGQRG
+LARTSNTPGRTQELNYFVPDGFSGEGADLPPMALVDMPGYGYAQAPKAQVDAWTKLVFDY
+LRGRATLKRVYVLIDSRHGLKKNDEEVLALLDKAAVSYQVVLTKTDKIKAGAVPHLMADT
+QARILKRPAAFPEVIATSSEKNEGLDALRDAILTAIAR
+>tr|A0A1Q9AMY5|A0A1Q9AMY5_9RHIZ
+MTLKKTATLLALAAGCGLSALGAPQAHALTLMDLFRKRSEPVQQQVTLPGVYQPGEGAVA
+APPAQKRVAEPLPKVTAPKYYTYKADAPRRIDAARLLDPVITGSIAQGTDAADPASPGAM
+LRAVLPTVSVSATSDIAKAVESFYAESGHFLWIDDHGVTDKARAALATLAKADAVGLDAR
+DYAVALPEESADPSAREKALATFELKLTVAALSYVQDTIRGRIDPNRISGYHDFKRKDVN
+LAGKLKVMAASNDIAAYLDSQTPDGPQFQALRAELARLSTEAGGGAQSAPVRIAPGTLIK
+PGDSNAELANVIAAMQQRGSDAFKARHADLLASYAGSPDYTPELVDMVEDFQAEHGLARD
+GVIGRGSIRFLTGGAAESASGRIDKLKIAMEQARWLPDDLGNRYVFVNQPAFEVYYHDKG
+QEQFAMRVVVGAKAHQTFFFEDEIQTVEFNPYWGVPQSIIINEMLPKLRSDPNYLDRLGY
+QVEVGGRAVASSSVDWYGSTKNVAVRQPPSSDNALGELKILFPNAHAIYMHDTPSKSFFK
+RDQRALSHGCIRLADPRKMAAAVLGTTQDDVAKQIASGKNKGVSVPSRIPIYVAYFTAWP
+NKDGKVEYFDDVYDRDLYMNKAFEATRLARQTRG
+>tr|A0A1Q9APT1|A0A1Q9APT1_9RHIZ
+MATLGTALITGASTGIGAIYADRLAARGYDLTLVARNADKLQALASAISDKTGRAVDVLA
+ADLGRPVDLARVEKTLREDASITMLVNNAGIGTHATLLDSDVERMDAMVRLNVTALMRLT
+YAAVPGFVARGGGTVINISSIVAVAPELLNGVYGGTKAFVQAFTTSLNHELADKGIRAQA
+VLPGATRTDFWALGGLPVEHLPSEIVMQADDMVDAALAGLDHGETTTIPALRDVDLWRAF
+EAARRALGPQLSATQAAPRFRSTL
+>tr|A0A1Q9AHV4|A0A1Q9AHV4_9RHIZ
+MATRIGVDIGGTFTDLVYYDDETGETVEGKVPTVPHAPEEGVVAAVSGHVPRAVIEKAEF
+FLHGTTVGLNALLERRGAKVGLITTEGFRDVLEIRRGDRAEMYNLFWKQPEPLVARHLRL
+EVGERVRADGTVFRPLDEASVAPALKALMDERVDTIAICLINAYANPAHELRVEALLREG
+GFTGGISLSHKISGEYREYERTSTTVIDAFVRARMSNYLKRLDARLRELGFKGTSLITRS
+GSGSMTFTEAEERPFETIMSGPVAGAQGASEVAKMLGIEALITADVGGTSFDAALILNGE
+PQVLYEGTIDNMPIQTPWVDVRSIGSGGGSIAHIDVGGLMRVGPRSAGAAPGPACYGKGG
+TEPAMTDAAAFLGMLGPGRLASGITLDFAKAEAAIAPVAAAIGQEVEATATGILRIAASS
+MANAMREVSVEQGLDPRRMVLLPFGGAGPLMATLLADELKMTQIVVPPLAGNFSAWGLLG
+ADMVQSAARTRIMDLGEEAVASANALLAALFADIAGRGEHGARETVLSARLDLRYKGQEH
+WLSVEVPLSGEAIAATAEEIAESFEAEYRRAFGGVMSEAIEIVSVRATLRAPLPRRGQST
+RPAAEEGAEEETIPAYSFERKTRLPFRVVPRATIAAPLKGPAIITESTTTLYLDAEWTAA
+TGAHGELVLTRSEA
+>tr|A0A1Q9ALJ0|A0A1Q9ALJ0_9RHIZ
+MDPMMFDASPFPALLAWSVVLLFVHISLQAMLATRELGSTWNAGPRDDGRKPEGKLAGRA
+ERASLNFRETYPAFVALAVAQMFTGDPTDWGFYGGCFWLVMRIAYVPLYLFGIPYIRSLA
+WLGSVLGLVIMAFHLIF
+>tr|A0A1Q9APN6|A0A1Q9APN6_9RHIZ
+MSVQRNAIIFAWILLLPALLYVTAIVAYPLVDTFILSFTDASLKKTTNWVGWANYEKIFN
+ETFAEVIIRTFVWTFFSVSIKMIIGTFGAAMLNAAVPGRALFRVLTMPPWIVPMAIGIFM
+WGWMYNGQFGMISGMLQRFGVVDGPIAFLAQGSTAFWATVITDVWIGVPMVTLYMLAAMQ
+AIPQDLYEAAWTDGAGRFYRFRRITLPLLVPSMVTMSMLSLISTFNSFDIIWILTRGGPS
+GETTTMIIDTYKTAIGSNKYGEGAARAVLICIFLSIFCLCYFRVTSRLSGGDKR
+>tr|A0A1Q9AP05|A0A1Q9AP05_9RHIZ
+MKLVSVFRPLPCAALLMAGVMAFSPAAHAEPERPVIAVTGTGQASAAPDMAMVSFSVVTQ
+EKEARAALSGNNAAMAKVLEAMKAQGIEPRDLQTSGFAINPQYVYPQNKEGDNHPPQLVG
+YQVANTLSVRVRQIDKLGEILDQAVTLGVNQGGGIQFSIDKPEALQEEARKAAVADAMAK
+ARTLAQAAGITLGKVVDVREQAGRMEPVPMMARAMAKDMAAEAVPVAAGESSVTVNVDMQ
+FEIVN
+>tr|A0A1Q9AQ04|A0A1Q9AQ04_9RHIZ
+MIGPFDSLDAYKRYLVGIGAFRAPIEARLRQALWPAALETFPLQEFSLLIQRDQEDLGIV
+LPVSPAVADTASDGQEHSAATLLGTLYVLEGSALGARLLYQRAQALGLSEVYGARHLAVQ
+AMRSDRWSRFLHTLEAADAIEIDEVALASRAAFAEAREAFRQALHGA
+>tr|A0A1Q9AJP6|A0A1Q9AJP6_9RHIZ
+MDAPDPVPRAFLNVEQSVTGQRWVARLDQAGLNRSLAIAQVHGLPELVARVLAGRGVVQD
+DALRFLDPTIRDLMPDPRSLTDCAKAAARISEAIERREQVAIFGDYDVDGASASALMFRL
+LGHFGLDSRIYIPDRIFEGYGPNPAAINQLIDEGARLIVTVDCGSTSHESLEAAAARGID
+VVVIDHHQVGVDLPPCHALVNPNREDDLSGQGHLCAAGVVFLVLVEVLRQRREAGDARAR
+DFDLLGLLDLVALATVCDVVPLKGLNRAYVVKGLIAARHMKNPGLAAIFRQAGIGGPVTP
+YHFGFVVGPRINAGGRIGDAALGSRLLTLDDPHKAAEIAALLEDLNRERQAMEKAMLAEA
+EAEAMVEYGDGSTAGVILTAREGWHPGIVGLIASRLKERFRRPAFAIAFNPNGTGTGSGR
+SISGFDIGRLVRAAVSERLLVKGGGHAMAAGLTVEKAKLGALRNFLEDRARAAVSELAAS
+EVLKIDGALAASGATFALMDQIDSAGPYGAGHPQPIFALPAHRVRDVRPVGESHVKATLE
+AQDGSRIDAMAFRAVGGPLGDFLLGARGNLVHVAGALSADTYQGLRRVQLRIIDAAVAR
+>tr|A0A1Q9AKA6|A0A1Q9AKA6_9RHIZ
+MQVSDTSTSAPATIDDVIVQSVLARRIRPGARLGESELATVFGVSRTLVREAMMRLEARG
+IVEVRPRRGWFVIEPSRLDAAQVFQARRALEAGLMRVMPPLTEAARAKLHAHLDEERRAI
+AEGDHPRLVCLMGDFHICLVELIGNPVLADILRDLTARTILISMLYQTDEHAEESHRGHC
+RIVEALERGDPAGAADLAILHLDEVEAGLDLDMATDPLADLRRSLNLAAAPGLSATAAPL
+SPSPLELSSPPHPSSSSPPPSPALKRTSSE
+>tr|A0A1Q9AQC3|A0A1Q9AQC3_9RHIZ
+MAQTGIVPGDEAENEAQDLREPAQAGRGRQAEAPHQIPIRGLKDVFWRVVHEVSDDRVTL
+IAAGVTFYMLLALFPALGALVSLYGIIADPQSIGASIGFLNGMLPAGTMDIILNQLGALT
+AQKTSSLSIGFLVGLGVALWSAHNGTLAVFDAMNVAYNEKEKRSFLKLTLMSFAFTIGFL
+VIAMVLVALIGVLPAVLAYLWLDRWTELLARTLRWPFLLVLVSAAVVMVYRFGPSRERAK
+LPWLTWGAAFATLAWLVASLGYSYYIDNFADYNATYGTLGALIGFMIWTWISVIILIVGA
+EINAELEHQTARDTTTGAERPLGQRGAYVADTVGRSMD
+>tr|A0A1Q9AEY9|A0A1Q9AEY9_9RHIZ
+MIDPKTTHVARRQGRLLILMVTVLLMGLPLAVWLDISALSRNALSRQAHDMSSLISSIRG
+YYSTNVVGRIQAAHASGIGQETVLSHNYAAIPGAIPIPATLSLELGDVIREQQSNITYRF
+VSDLPFKNRAPHNLDGFEDQALRALRADPKQTPTELTRSGMTNTLRFVTPVIMGAACVAC
+HNTHPESPKTDWKVGDVRGIQEVVIRQPLATNLFAFKFLLGYFVLMAAFGATVVFLQKRQ
+TATIRAVNRELETTNEFLAAISLKISRYLSPQIYKSIFSGQKDVVVQTERKRLTIFFSDI
+KDFTATTERLQPEALTEMLNDYLTEMSAIALKHGGTVDKFIGDAMLVFFGDPETRGPVED
+ARACLRMAVDMQQRLGELKERWRRRGTEQPFVVRMGINTGYCNVGNFGSNDRMDYTIIGA
+EANLAARLQAIAEGGRIVMSYETYSLVSDIVIAHPLAPITMKGIPREVVPYAVDGLSEAR
+EATRVLSEHVNGLDLHLDLSRLDPGERARARAALKAAIAALETEGEPSARPAP
+>tr|A0A1Q9AMM2|A0A1Q9AMM2_9RHIZ
+MTKPLTPKRSLVFFLVPNFSMLPFAAAIEALRIANRMLGYQAYSWRLASVDGQKVMSSSG
+IAMDVDSALADERKALGGGMRPSMVLVCSGVHVEEFQNKSVNAWLRESHNRGVAIGSLCT
+GAHILASAGLLNGKRCAIHWENLPGFSEAFPQADVYADLYEIDGNIYTCAGGTASLDMML
+NLIDEDFGENIVNRVCEQALTDRVRGSHDRQRLPLRARLGVQNAKVLQIIELMEANLAEP
+LSLIDIADGAGLSRRQIERLFRQEMGRSPARYYLEIRLDRARHLLVQSAMPVVEVAVACG
+FVSASHFSKCYRELYNRSPQQERADRKLTLQPVR
+>tr|A0A1Q9AHG9|A0A1Q9AHG9_9RHIZ
+MASMTIRNIDETLKQRLRLRAATHGRSMEDEARDILRSALAAGEKPARNLAETVRVRLTN
+VGGVHLELPAREPIRDVPDLGP
+>tr|A0A1Q9AKE3|A0A1Q9AKE3_9RHIZ
+MKFVSYWHDTAPVFSGGETGPVSGRYDVAIIGAGFTGLAAARQLAKAGAKVVVLEAERVG
+FGASGRNGGHLNNGLAHSYLGAKAELGQERAIALYKALDDSIDTIETLIAEEGIDCSFRR
+AGKLKLASKPKHFEGIARNFEALNRECDPDTALLSPEDLRAEVGAPFHGAMLSKKSAMMH
+MGRYVAGLAEAAARHGATIFEGAAVTAHSQANGIHTLNTARGTVMASDVIMATGAYTSKN
+FAWFRRRIIAVGSFLIATRPLTEAEVQAVMPGNRTCVNTMNIGNYWRLSPDNRLIFGGRA
+RFSASSDQRSDEKSGEILRESMERIFPQLKGIAIDYCWGGLVDMTADRYPRAGFHDGLWY
+AMGYSGHGAQLSTQLGMMVADAILGRADRNPMRDYPWPAVPGHFGKPWFLPLVGQYYKML
+DRFQ
+>tr|A0A1Q9AP59|A0A1Q9AP59_9RHIZ
+MPTTGSSLALRLSALIDGEVDDAERRELERLVESDDEARRLYQRLKAGGAAGTQAFDAML
+SDPLPLALVRQMRQGTDQPSATPERVATPAATAKPKRVKLWPRFVAGGVGLVLIGGSTGF
+LIGRTMNDEMPADILAPARSWRDDIVDAYRIHTRQQGHLVEMTATEPDRLVAWLSQGAGL
+SLTLPTIKDRPLTLEGGRLIVAEGKPVATLLYRTEDGDVIALCLMKAPLGTPDDNARTLS
+ETMRDNLAMLSWNAGGVTYAVLGPSSDPKLRALAEEIADQM
+>tr|A0A1Q9AEC4|A0A1Q9AEC4_9RHIZ
+MPFSSAGPAPQAPGLNGPVPLFERILIQGVEALCDPSGALFLPAQAMLIVSDLHLERGAA
+FARRGSLLPPYDTLAQLARLEQVIARHDPKHVLSLGDTFHDRRGAAMMPTHFREQLDGMM
+RGREFIFILGNHDPDGVADLPGVVASVLHLDGLTFRHEPSAGQAPGEIAGHLHPSASVTR
+RGGTVRRPCFASDGQRLIMPAFGTLAGGLDLDHKTMRGLFDRRRLTAHLLGRDRVYSVRY
+DSLAG
+>tr|A0A1Q9AKY6|A0A1Q9AKY6_9RHIZ
+MITISNLSARIAGRLLIDGAHLALPDGTKAGLVGRNGAGKSTLFRIITGQMDSETGFVSI
+PRNARIGQVAQEAPGTEEPLIEIVLKADKEREALMTEARSATDPNRIAEIQTRLADIGAH
+SAEARAASILSGLGFDHEAQLRPTSSFSGGWRMRVALAAVLFSEPDLLLLDEPTNYLDLE
+GTLWLEDYIRRYPHTVIVISHDRDLLNTAVNSIIHLEHQKLTFYRGSYDQFERQRAEAIE
+LQNKARAKNEAQRKHLQSFIDRFKAKATKARQAQSRVKALERMGTVAAVIEDHVQGFSFP
+DPEKEAASPIIAVESGAVGYEPGKPILSRLNLRIDTDDRIALLGSNGNGKSTFAKFISGR
+LEAMAGSVKTAPGLKIGFFAQHQLDDLVPQDNAVEHVRRRMIGAPEAKVRARVAQMGLAT
+AKMETPAKDLSGGEKARLLMGLAAFDAPNLLILDEPTNHLDIDSRNALIQALNEYSGAVI
+LISHDRYLIEATADRLWLVRDGTVTSYDGDLEDYRSLIVAAPKPRKSKAEAAREEEKPRE
+KRGNPVVMKKRADELQVLIGKIETLIKGIDTELADPQTYARDPNRAGDLAKARVNAAQKL
+ASAEEEWLTLSMELEGLE
+>tr|A0A1Q9APY7|A0A1Q9APY7_9RHIZ
+MTSFSFPVFDLGAFEASEGPARAALGAEVDRICRETGFLAIRNHGVPQAVIDGVWQAARA
+FFDLPPEEKQAARAPYKGYPYGYLGPELEALARSRDVDSPPDLKESFNGGPLSVPEGMRD
+EKALSFCYAPTIWPQAPDGFVAAWTAYYQAMEDLAARIMRLFAVALNLPEDYFAPFIDAP
+ISALRALNYPEQHVPPREGQLRAGAHTDYGSLTILLPQEGSRGLEIITPDGQWIAVPPVR
+GAFVINIGDLMARWTNDRWVSTLHRVVNPPSQEGGMDRRQSLAFFHQPNWPAEIRVLDAC
+TNGEPAKYPPVLSGPYLMSKFTATAA
+>tr|A0A1Q9ANQ0|A0A1Q9ANQ0_9RHIZ
+MTALNTRLLESRPRGLRAVLTLALGVSMMTLAAKVQIPFWPVPMTLHLAAVMAFAVLLGP
+QRAVAIFLAYLAAGAAGLPVFSGTPERGIGLAYMAGPTGGYLAGFLIASALTGWLAAGRG
+MIGRIGAMLAGLAVIYACGASWLALFVPAEKVMAIGVVPFLPGDLVKIALVACGAALLSR
+GKQKDRG
+>tr|A0A1Q9AED5|A0A1Q9AED5_9RHIZ
+MTYVRKFYTSDTHFGHTNILTMQPRLFASIEDHDEFLIDRWNAVVGEDDIVFHLGDFAMA
+LHERADRVRWIFSRLNGRKFLIVGNHDVDRHGNAHETLLSLAWEAPPTGFRFTDDGGRRI
+VMAHYAQRSWQHQMKGAVHFYGHSHGHLPETGLSRDVGVDMPDVAYTPRTFKELTAHWGL
+K
+>tr|A0A1Q9ANY2|A0A1Q9ANY2_9RHIZ
+MAYLEIRGLGRDFPGVVALNDVDLKIELGRTHILAGENGAGKSTLVKILTGADRPTRGEV
+RIDGRDPLVDPSAYRSVAYVPQELTLFAQMTVAENLFMPFDRSGHGGRLFNRRALMREAQ
+TYLERFGIEARPSDLVAHISVSDQQLLQIARASTNNEMKVLILDEPTSALTRIEVDRVFR
+VIRDFLDRDHAVVFISHKMEEVFEIGDDYTVLRNGEKVESGRVADITEADLIRAMSGRHL
+AIDDHFRPGVPVGDAIMEVRGLSGARFQDVSFDLRRGEILGFAGLVGAGRSEVMQSIFGY
+LKASAGRVTVDGKDWPLNDPSRSVANGMLYLSEERKHHGIFPMLSLRENIGISIFELTQG
+PLGISQRREREAVTKIIEDYGIKTAGMGKRISNLSGGNQQKAIIGRAMATRPRILIFDEP
+TKGIDIRTKTEIYRIMKELAEDGVGVILVSSEITELRRCASRIITMHTGHITGEFDTATT
+ETETLVGAIFGTEARADAI
+>tr|A0A1Q9ACG4|A0A1Q9ACG4_9RHIZ
+MSPLTLYSILVIAIVFEVLGTSALQAAQHFSRLWPTVMVVVCYGIAFFCLSYTLRAIPVG
+IAYAIWSGLGIVLVSLVGFVVFRQTLDLPAILGLGLIIAGVLVLNLFSKSTFH
+>tr|A0A1Q9AGN9|A0A1Q9AGN9_9RHIZ
+MGMGRSMKTEADGSPAPRARDKISSVAADLFYREGIRAVGVETIVKQAGVTKISLYRSFP
+SKDDLVVAYLEERSRTFLDNWDEMFDRHRDDPRAQLRAIMTYLAERTTTEGYRGCPFINF
+CAEFPDPEHPGRKVAHETKAALRERFRTIAEALDVPRPQKLADGLLLLIEGAYAISQTFG
+GGKDGPGHALVSAAEAMVGGWS
+>tr|A0A1Q9ADA2|A0A1Q9ADA2_9RHIZ
+MTLVTPLFFPAQPLPPVEDHADALKAAMRHVAATVSVITAGTQDRTGATVTSATALSVEP
+ATMIVNINRTSSSWPVIARHGHFCVNILQESQQAIADRFAGKGGLKGAERYQDAEWTVLS
+SGAPVLADALFAIDCVLEEAIERHSHAILIGRVVAVSGEGGTPLLYRQGQYSGYKP
+>tr|A0A1Q9AL94|A0A1Q9AL94_9RHIZ
+MDGDERRQFALLADAVAKNRDKAAFAQLFTFFAPRLKSFLMRQSMSAMEAEELVQEVMVV
+LWNKAHLYDPAKSSLSTWLFRIARNRRIDAARRKRAAKLDEHDMALQPTAPPAPDEVVDM
+TDREDVVQRVIKKLPQEQLHLVQLAFFLGRSHSEIATETGLPLGTVKSRLRLAFGKLRTL
+LGEQGIESAS
+>tr|A0A1Q9AFC2|A0A1Q9AFC2_9RHIZ
+MIEYALLFALGFLTAALLCLLVAPLIQRRIVYFAEKRLTATMPISPQEVRAQKDAVRAEH
+AAEAARLSFAVRRERERATAEMLKTAEVEKALFEARERQAALETDIAGMKTTIETLESEL
+DAARQEIEALRPVEAPAQTEPAQAGDTAAEETPNAGPTPEDEQQRLRQEARARAEALRRQ
+AEDAEAADGHDVPASEPAARTAEIAADADRLADLKARLNAFAPLRLPASRQPQTLHAEEQ
+TVTDTVQSPPQEPHSSQAVAPSTEEIDHFVERLMAADPDEDDGLRLDLAALAARSVAGTA
+AREGEASPIPGLIGKETLRLRQDRESLADRIKILLETDERPRPA
+>tr|A0A1Q9ALE2|A0A1Q9ALE2_9RHIZ
+MLKSFTAAGLALAIAAGTAGFAVPAAAQDVELRIGPDGVRPVIRDDREMRGMRGHRCGQR
+EARAAARDAGLRDPEIVRVTDRRVVVEGMTRRGPERITFANMRGCPEM
+>tr|A0A1Q9APN8|A0A1Q9APN8_9RHIZ
+MTEKSIFRLPNRRILPLLLTAALLSPALPAAAVSASASQAQAAFPMEQRLTPILDRAKAL
+PALKTIIVARDGETVVERGYHGHGPGESANIKSASKSIVSALVGIAIDKGLIDGPDQTVA
+SILKNDLPRDPDPRLAKVTVGHLLSMQAGLQRMSGPNYGRWVASGNWVRTALAAPFDGEP
+GGDMLYSTASTHLLSAILTKVSGRSTLALAREWLGPVEGFRIGAWERDPQGIYLGGNQMA
+MSARSLAAFGELYRNGGRTKDGRQIVSQNWIHQSFQARTQSRFTGDDYGYGWFTREISGE
+TVHYGWGYGGQMLYIVPSQRLTVVMLSDETAPSARTGYRDALHGLLGEIIGAAKAV
+>tr|A0A1Q9APQ3|A0A1Q9APQ3_9RHIZ
+MADYDYIRDGDAIYRQSFAIIRAETDLSRFSAEEAEIAVRMVHACGLPEAARDFVFSPGF
+VAAARAALAAGAPILCDAFMVADGITRARLAAGNSVLCTLRDPETPTIAAAIGNTRSAAA
+LDLWRERMDGAVVAIGNAPTALFHLLELLRDGAPKPAAILGMPVGFVGAAESKEALAEHS
+YGVPFAIVRGRLGGSAITAAAVNALARPGL
+>tr|A0A1Q9ACQ9|A0A1Q9ACQ9_9RHIZ
+MSAKEALAALPDLAGILLDCIDGGASVGFMAGFSQAEAEAYWREVAAGVDAGAIVLLGVE
+WAGHMVGTVQLGLKQPPNQPHRADLKKLLVHRSARGACLARRLLAAAEARARDAGKSLLV
+LDTATGSPAETLYEKLGWRKSGVVPNYALWPDGRFCDTTIFYKAL
+>tr|A0A1Q9AES5|A0A1Q9AES5_9RHIZ
+MTVRALLLASSAALMLSPAAHAADAIVAAQPEPMEYVRVCDAFGVGYFYIPGTETCLKIG
+GYVRMDSTFGEEPYEGVDVGWAALSRGELEFDARNDTEYGTLRSYIELRADATREGSSSE
+LYSAYISLAGVRAGYTDSRFDTWLNSAGAVINDDVIDYTGDRTNQISYVYGDEDKGFSAL
+IGLEEGAGTYTAGGATVAYQKRNTPFFIGGAKYQDSWGGVFGIIGYDSQAEAIGTKVRVE
+LAVTDKVKLFAMAGYQSDWDNTDGPNNSRRRNYYGDWLGDWAAWGGFTATLNEKSALNGQ
+VAWEEDGTIATALNVEYKITKELLLLPELNYTKFHGLRGNGEAFGGTLRLQRDF
+>tr|A0A1Q9ALY9|A0A1Q9ALY9_9RHIZ
+MKVAFNLLVIGAEIGEQHACQLERLKALGYDAVEIPVFSGNEHHYRSLGKLLSDIGLSAG
+AAAVATAEANPVSPDAAVRLKARDRHRWIIDCTAAMGGEIIAGPIHSPVGIFTGLAPTAA
+EFDHCVEAMRAMAEHAAPAGIRISAEAVNRFECYLMSTIAQASAIHQAVNHPNYGYMFDT
+FHANIEEKDPPATFERHHREINHYHVSENDRGVPGTGHVPFAAHFDALRRCGYDGWLTVE
+AFGRALPELAGATRVWRDLFDDLDALFADSIAFIRREWAAAGDRLA
+>tr|A0A1Q9AGL3|A0A1Q9AGL3_9RHIZ
+MGDTILRIATDVGGTFTDLVYFETDLATGRQTIRTAKSDTTPPNFETGVLNVLDKAGVPL
+SQADFFAHGTTVVINALTERKGARTALLATKGFRDTLEIARGNRPDFFNLMYEKPEPFVE
+RYLRREIPGRIDYRGRETEALDLTGLPAILADFKAEQVQAIAICFMHAYANPVHEQAVAE
+EIRRLWPEVSVVASHQITREWREYERSSTAVLSAYVQPAAERYLARLETGLKDKGYQGRL
+YVMQSNCGVDSFQSTRAIPITMVESGPASGFWGAAELGRIIGEPNVLALDIGGTTAKCSL
+IENGQVRIKTDYWIERDRKSSGYPIMVPVVDLVEIGNGGGSIAWVDDFQKLHVGPKSAGA
+LPGPAAYGRGGTQATTTDANLALGRISADYFCGGTVTADMAAVNAALEDVAGKLGATPIE
+AARGIVRIANSNMVNALKLVSLNRGYDPRDFTLVAFGGGGAMHAVALGQELGVKKVVVPR
+GASVFSAWGMMMSDLRRDYFVTRLMDETDLAGLNALITETVDHAIAQFAAEEVAADKVAV
+EPFLKVRYRNQEHSVEVPVDPDGLDAAAVARMVEAFHAIYEKEYTYRLDAPVEIVGLHLI
+ARAEVGKLEIVALPVTGLALADAVKGRRMVDYATEGAHEATIYDAEKLEPGMTFSGPAII
+EDPGTTIVIHPKNRVSIDAFGNTHIEIRG
+>tr|A0A1Q9AIS2|A0A1Q9AIS2_9RHIZ
+MCEACEGGSWNRRGFLRLAGTGVLTATAGMAAPALAGEDPPPSPDEALDRLIKGNKRFIQ
+DAEACAAGFIDRRAEVAKGQKPWAIVLTCSDSRVVPELIFGGVTLGEMFVARNAGNVVDT
+DVLGTIEYGTEHLHVPLVVVMAHKRCGAVAAACDAALKGTKFEGNIGRMIEGIAEIAVKD
+KDRREGFPERIARSHAIRGVKRILMESEPVGHLVHAGRVKVVPAYYDLDSGAVEFLNQTI
+PG
+>tr|A0A1Q9AD29|A0A1Q9AD29_9RHIZ
+MTKLSFYSLTSAFRRAAGESTQASAPPAAPRAGTAGTLLICGTPGEGRAQLAKALADEAG
+LTWLSPKAQQSPQGDAQQSWTIEQSEDEAGETPLARLEALIMADLVLLAVDVRESNRDAM
+GNLLIRHHLFRRGGLVIVLTGLDAIEDGRASVETIRAELATLCGDRAMPPLVPLFNALSA
+RSEGRERTAATPEWFAGPTLGAVIEAETARFMQQEDQPFRLAVTAFDRSRPEAPAVEGTV
+CQGRIAAGESIRILPGGMLSSVGALVSLEPAPRRVTGPAALRLTLSEPVACQPGQIIVPA
+DRPCEVTDQFEAAIAWFDSEPLLPGRSYGLDLGGQSATASVTRLRAAADLDMADPVEAES
+LGCFAMGMAHMALETPLAFDVDSNGLSCFYLTDSATGRIVGLGRIHQALRRADNIHWQAL
+AIDRSRRAAMKHQAPLVVWMTGLSGAGKSAIANLAELKLAAAGKHTFLLDGDNMRHGLNR
+DLGFTEPDRVENIRRVAEVARLMSDAGLIVLCAFISPFRSDRQMARKLMAPGEFIEVHVK
+ASVELAESRDPKGLYRKARAGELKNFTGIDSPYEEPETAELVLDTAILSAAAAADLLVDF
+LLDRLMRNTPTPVDPFRPR
+>tr|A0A1Q9AI27|A0A1Q9AI27_9RHIZ
+MKTVSAHDLADATPVPQGVQFEDGFQQELQTLFRWRRDVRRFQRQPLPAGLFEELIAIAA
+QAPSVGLSQPWRFVEVESPVRRAMVRASFARCNETALAAQEGQRAELYARLKLEGLSEAP
+CQFALFADRATQQGHRLGRQTMPETIDYSAVIALHTLWLAARARGIGLGWVSILEPEVVT
+AALDVPQDWHFLGYFCLGYPASEDDVPALESAGWEARAEPQSMIVRR
+>tr|A0A1Q9AFK9|A0A1Q9AFK9_9RHIZ
+MIEQFLTVHPLSQIGFLALAALVGGLARGFSGFGGALIFVPVASRLAGPQIAAPLLLTID
+GLLTLGMLPNGWRKADRGEVATLLVGALAGVPAGTLLLRHAPTLTLRWIICAIVAALLVL
+LISGWRYHGKPRPHLGVTTGLVAGLFGGVAQLSGPPVVAYWLGGAIAAAQVRANLVVYFA
+LSTLLTATSYLWSGLLTGEVLLLSLAVGPAYGLGLFAGARLFGLADEGTFRRICLGLIAC
+AAVIGLPWLDHLLG
+>tr|A0A1Q9AI64|A0A1Q9AI64_9RHIZ
+MSQSLHLTAFMRPVSLHTGAWRYPGAYADANFNFTHLKAFAQALERAKFDAFFMADHLAV
+LNMPVEALKRSHTVTSFEPFTLLSALAAVTERIGLAATASTTFDEPYHVARRFASLDHIS
+GGRAAWNIVTTSNPDAARNFGLSDHVEHGERYKRAREFFDVVTGLWDSFADDAMIRDQES
+GIFFDPERMHVLDHKGEEFSVRGPLNIARPVQGWPVIVQAGQSEPGKQLAAETAEVVFAA
+PRDFATARALYADIKGRMPAVGRNPDHLKILPAAMIVIGETVEEARDKRARLDSLVHYDS
+AIASLSIALGHDASGFDPDSPLPEIPETNASKSGRAQVLRLAEEEKLTVRQLAQRYGGYA
+GLAFVGTKETIADEMERWLHEKAADGFTCVFPFLPQGLEDVTGTLVPELQRRGLFRTDYE
+GATLREHLGLPRPANRFFP
+>tr|A0A1Q9AE61|A0A1Q9AE61_9RHIZ
+MSQNEQRPFSPKMSTSLKENLIDRMRNTHQSSERNRMARSEREAPVTVRRKQPRFEDMPE
+YKQVLTQQLASQQLHIDNPFYRAHETAAGATTVIDGRKLINFASYDYLGLNRHPAVLAQA
+KKAIDDFGISASASRLVAGERPVHAALEERLAGFYGVESAIAFVSGYLTNVAAISCLLGP
+QDLVVHDEFIHNSALAGIKLSGATRRLFKHNDVADLDHVLRTVAGDYRRILVIVEGIYSM
+DGDVANLPAILKLKAEYGFWLMVDEAHALGILGSKGRGTFEHFGLDAKEVDIWMGTLSKT
+TSSCGGYIAGSAALIAILKAQAGGFVYSVGLAPTLASAALASVEILAREPERAAALRRNG
+ALFLKLAQEAGLDTGLSGGFSVVPILVGDSLRAVQLSNDLLAAGINALPIIHPAVPEGQA
+RLRFFITSDHTEAQIRETVAITAERLKALTDRNFGLASINVEQMMKLLATQ
+>tr|A0A1Q9AK82|A0A1Q9AK82_9RHIZ
+MDKTIASLAEAVAEIGDGATVMIGGFGGSGAPIELIHALIDRFQKTGSPKGLTVINNNAG
+NGRIGIAAMIDAGMVKKMICSFPRSSDPRAFTDRYLAGQIELELVPQGTLAERIRAGGAG
+IPAFYTPTGFGTELAEGKVIAEFDGRSYVQERWLKADVAIVKGHLGDTMGNLTYRLAGRN
+FNPLMCIAATRTIAQVSRLVKPGEIDPEQVITPGIFVDGVVEVAEPQQEEALIRAGVAYA
+>tr|A0A1Q9ADM4|A0A1Q9ADM4_9RHIZ
+MADHAFGGIRIRNLYKIFGSNPGAYVEAVRNGLTKTELNVKYGHVLGLRDINIDMPSGSI
+QVIMGLSGSGKSTLIRHINRLIDPTAGEVLVDGTDVVKMSETELRTFRRQETAMVFQKFA
+LLPHRTVLDNTVFGLELQGVGRAQRIDTAMRWLERVGLKGFEQKYPNQLSGGMQQRVGLA
+RALANDAPVLLMDEAYSALDPLIRTDMQTVLLDLQKEIRKTIVFITHDLDEALRLGDQIA
+ILRDGEVIQQGTSQDIVLRPADDYVANFVKEVNRGRVVHVEAVMTPLAPGNGAPHGPTIA
+AGVTIEEAVRLLASAPEGDITVVDATGKPLGRVTFRQLAGAMVNAQETGHRAVA
+>tr|A0A1Q9ALH8|A0A1Q9ALH8_9RHIZ
+MSAQKIVPVIMAGGKGTRLWPLSRAGAPKQFLQFLGEHSLFQKTLQRVGNSDLYAPALIV
+TNTEFRFLVAEQAQTVGAPLSAILLEPVARNTAPALAVAALAIARDFGPDALMQVLASDH
+EIDAGAVYFDCIRLARDTAQAGKLVTFGIQPTEPATGYGYIETGDALPGGACTVARFVEK
+PNRARAEELLASGRYLWNSGMFMLPVGLFLEEIQRFEPAVHAAAEAALASARRDLDFDRL
+DEASFARAPDISVDYAVFERTAHAAVVPSAFAWSDLGSWDSVWATGDKDENGNVLGQKAT
+VSATRNSLVLSRDIHLAIHGMEDIAVIASEDAVYVGRLADSQQVGQIVKTLAASPATRPL
+TEAHPTSYKPWGSVASVLSGDRFEVKRLVVQPGRKISLQKHHHRSEHWIVVRGTAEVTIG
+EETRLLHENESIYVPLGVLHRLENPGKIPLELIEVQTGSYLKDDDTIRLQDEFGRT
+>tr|A0A1Q9APQ2|A0A1Q9APQ2_9RHIZ
+MTVLDLPAWAAIPVCLLLLLGAGNALAGAIGLLRLKSFYARLHAPSLMVSGATILICLAS
+MLTFAVLQNRWVFHELAIIAFMIITTPVTLMLLGQAALYRDRAEGSQEVPHKEEGLKTEA
+AVEE
+>tr|A0A1Q9AJM0|A0A1Q9AJM0_9RHIZ
+MSTLLQIFTWWNGQTLGTRFHTWRFGKKVGQDELGNVYYEGGKKDSEGRTRRWVIYNGYS
+EASAIPPGWHGWMHHRTDVPPTQENYQVRDWQKPHKPNLTGSAGAYRPQGSIYSKGERPQ
+VTGDYDAWTPRS
+>tr|A0A1Q9ACZ6|A0A1Q9ACZ6_9RHIZ
+MKITMIGAGYVGLVSGVCFSDFGHDVICVDKDTAKIEALEAGRMPIYEPGLQQIVAENVR
+DGRLAFSTDLAESVRDRDVIFIAVGTPSRRGDGHADLSYVLDAARQIAEHVTGFTVIVTK
+STVPVGTGDEVERIMREANPSADIAVVSNPEFLREGAAIDDFKRPDRIVIGLEDDRARPV
+MSEVYRPLYLNHSPLLFTARRTSELIKYAGNAFLAMKITYINEIADLCEKVGANVQEVAR
+GIGLDGRIGAKFLHAGPGYGGSCFPKDTLALVKTAQDYESPIRLIETTIAVNDTRKRAMG
+RKVIAAAGGDVRGRKVAILGLTFKPNTDDMRDSPSITIIQALQDAGALITAYDPEGMDNA
+RKLLEDVTYADSPYVAAQDADALVIVTEWNEFRALNLARLKAAMRTPLFVDMRNVYQVSE
+VTRHGFSYVGVGRAGG
+>tr|A0A1Q9ANJ8|A0A1Q9ANJ8_9RHIZ
+MLLQMLGTSPSLTKRGLCASPKTLPTSRSDQADFVQARDRWSFGSRPDRTGEVKLTLIES
+LCGRRSRRAQWKADIAG
+>tr|A0A1Q9ALS3|A0A1Q9ALS3_9RHIZ
+MKTDPEHFIRANTGIACPPHVPEIRLHLADEAHELWLKTEEELEAIGLPPPFWAFAWAGG
+QGLARHLLDHPALVAGRRVVDFASGSGLVAIAAAMAGARSVTAADIDPWTETAIRLNAGL
+NGVAVDFTGRDLIGQPLDAEVLLAGDVFYDKGFADRLLPWLEQLAGSGILVLVGDPGRAY
+CPRDRLVERATYQVPVTRALEDSEVKRTTVWQFAGKAPARPG
+>tr|A0A1Q9AK05|A0A1Q9AK05_9RHIZ
+MNIVAINGSTSKPSRTGDVVTILADAVSRRLSAPVDRVDLADAAPVLFRALKSDGLDAEG
+RAIIDKVETADVLIVASPVYRASYTGALKHLFDLVDYRLFSGKIVVLAATGGTPLHGLMI
+DHQLRPLFAFFNTIVVPTSIYATVADFVDHRLVNDAVAARVERVAEEVQALAGRLGPAAQ
+PDGKPVRPFGTVQKDSRDLVHP
+>tr|A0A1Q9AFU7|A0A1Q9AFU7_9RHIZ
+MRLSAFVLALTSASAPAFAALQPPADYAREQATTVTAYDTADASGQVCVPPDPQYVPNFI
+RAPNGDIVGVSYTIIQYQC
+>tr|A0A1Q9AJ60|A0A1Q9AJ60_9RHIZ
+MSVHSITPEDAARRLPDCQRILVIGCSGGGKSTLSLALCRRFGLPFLSMDRDFFWLPGWV
+KREKAGERALIAEAVAQQRWLMDGTGSSSMDLRLPRADLVIWVRMPRWLCLYGVFSRALR
+HRGGTRPEMAPGCLEQFPDREFLSYIWHFEKRFSPLILKALQHYAPDCRVLILKSRGETA
+RLLDLISHPD
+>tr|A0A1Q9AD04|A0A1Q9AD04_9RHIZ
+MSDTALASRPLTPAAKVPALRRRRFNAYRAVQAACMLIIALVIVSPLFLLAVASLKDDRF
+QILADMGTFRAFWVSNPTLNNFAEVAHFSGELAFGRYLLNSLIILFCTVVGGLVVNSMAG
+FVLAWGSLRGRAVVLAIVIALYVIPQESIIMPLVIMVSRAGITDGFAVQIVPWIASPLYT
+FLFYQFFAQLPKDLFEAAEMDGASVFRVYRSIFLPLSLPALATVSILMGIEAWNQYLWPI
+LVTQTDYARPISVAIATFFGQDSIFWDRAMAASVLMMLPILAFYLAFQRWFVSSFVGSAI
+KG
+>tr|A0A1Q9AIZ5|A0A1Q9AIZ5_9RHIZ
+MRRPIEVRNAHFPGRAPIDSYGNGGFRFAGMSHRGSLLLLPSGIYGWDVEEGQALDAGLF
+ARLFDEVEPIEFVLVGTGADIRPLPAPLRTAFRARGMNSDPMSTGAAVRTYNIMLAEERR
+VAAAVIAV
+>tr|A0A1Q9AHK0|A0A1Q9AHK0_9RHIZ
+MTETVFTQARLADGRLVDITVREGRIAAIETAGASPAAGGVDLGGALVIPGFVEGHIHLD
+TSFYGDAWVPHRPCTNGFDVHERVTLQAENMAKAAPMAERAANQLDLCIAKGSTSMRSHV
+MVDGSVGLASLETILAVREAYRDRIDIQLVAFPQSGILKSPGTPELLDAAIGLGADLVGG
+LDPGSFDRDVTAHLNVVFGTAEKHGVDIDIHLHDAGTLGAFTIEEICARTVAVGMQGHVA
+VSHAYGLGDLPPDAARKIADLIALSGVAIMTNAPGAHNFPPVALLRHAGVTVFSGSDNIR
+DSWWPYGDGDMLRRAEIIGYRSGFYRDDELAAAFDVVTSAGAKALRLEGYGLAVGARADF
+VTLEAEHVPQAVVAVPPNRRVFKGGRLVAENGKVLP
+>tr|A0A1Q9AJE5|A0A1Q9AJE5_9RHIZ
+MIQMQTNLDVADNSGARRVMCIKVLGGSKRKYASVGDVIVVSIKEAIPRGRVKKGDVMKA
+VVVRTAKDIRRPDGSVIRFDNNAAVLIDNKKEPIGTRIFGPVPRELRAKNHMKIISLAPE
+VL
+>tr|A0A1Q9AD99|A0A1Q9AD99_9RHIZ
+MLAETAFVTPATPYHPGEEAAVPARSQIGLHAAKLGLQGGAFAVFALVLLIFALSSPIFL
+SPFNLGNILAQSAISGVLAIGLTVVIIAGGGNVVTGGIDLSLAANMGLSAAVYASLSQAG
+QPDAVAAGAALATGLVIGAVNAVAVTRFAIVPLLATLAVMNIVGGLELVLTQNTVIPAVT
+PLLETLSGAGPLGVPVLAYGLIGFALVTALAVQATPLGLRIQAVGSFPEAARASGLAVNR
+FVAGSFLFSGLSGGLAGIFSAAYLSGSTTGAGELLLPVVVTALLGPVFSRRLVPSITGTL
+LSALFVGVLINGFQLLNLSSTLVSGIQGLLILLVVSATTLLKRKEG
+>tr|A0A1Q9AED7|A0A1Q9AED7_9RHIZ
+MTKTTPTAAEIRAKLDEMARPLQRAHVPPFLRPLLSDAGKEEIDRLYVILRRYTEDHLPG
+YLKSWMNTLVSGWPDRFPAIHAADIALDGILSKSLLSLSEGRRVPWYIVHGSYSWIDELR
+LGRPNAVSLRIRAAWILSHGGGRLSADEEIAASLPDTVYTGEYGSRREKKDLAKLARQTT
+PSTRLDEDLKRVAQIERHIQDDSQRRRYEQRIAALTGRPFSAGSRPEPELKAILREAYFG
+ANPDRVGQPLMRHELWGWGE
+>tr|A0A1Q9AGH7|A0A1Q9AGH7_9RHIZ
+MDGDGPDENDLDAIGPDPSLLLVDDDGPFLRRLARAMETRGFSVHTAETVAEGIAIATRE
+PPQYAVVDLRLSDGSGLDVIETIRRRREDTRIIMLTGYGNIATAVNAVKLGAIDYLAKPA
+DADEIVSALLQRAGDRAELPENPMSADRVRWEHIQRVYELCERNVSETARRLNMHRRTLQ
+RILAKRAPR
+>tr|A0A1Q9AKX3|A0A1Q9AKX3_9RHIZ
+MTDAFFPSDDDAGFDEDGFDAACLRATIDLGAIKANWLEMQRLSGRARTAAVVKANAYGM
+GIEPVAETLYAAGARDFFVATAQEGAELRPFAPDARIFVLSGLWPGLEPVFFDYELVPVI
+NSEEQLAFFMALLAEHGEYPCALHVDTGMTRLGLSPEEALALADDPARPASFSPVLVMSH
+LACADTPDHPLNARQLALFRQVTEAFDGVEASLANSAGVHLGPDYHFDLTRPGIATYGGQ
+AVNGATNAMVPVVTAEARILQIRAAKAGESVSYGAAAILARDSRIAIVGAGYADGFHRSG
+SSAGVPLRGALEQGAHGVLHGRRVPQIGRITMDLTMFDVTDVPGARAGDYVELFGPNLSI
+TQAAAAAGTIDYELLTSLGHRYDRLYLDPED
+>tr|A0A1Q9ADX5|A0A1Q9ADX5_9RHIZ
+MTALLLVLLPQTAHALSNERLNDQLMKLDPQTRLEQTCDTEVMDQINRERSTFNVDKVIA
+YTFHDPVIQDDLLTAPGAVLRSNGRWYRLSYRCQTGPRHLDAHQLNYRIGSEIPRAQWPA
+LYLYD
+>tr|A0A1Q9AGB7|A0A1Q9AGB7_9RHIZ
+MRLRWKPCLFVAVNIVLIAALLFDRPQATDGLPQGVRRLGAFFSGFGDSSWSIIGAFVLL
+MQGRVGYRLLRAPRARAVALRISWLGAYLLMTVVVSGLAANLLKRAIGRARPSLFAEHGA
+AFFQPFAGHSVFESFPSGHATTIGALCMAGALILPRARLFFAMAALWLGLSRVMVGAHYP
+SDVVAGLIFGGWSALAFALLFARSGRVFDISAQGWPVLRPLKCPAPLRKTGETQKPGLAG
+RPGLAQAAAAESEPLLAGAEGARPMALATGRLSIIRSR
+>tr|A0A1Q9AJ39|A0A1Q9AJ39_9RHIZ
+MATHWEDSDRNRKTGDSVRLNATEARQGRLGRPVLKVLIGGLVLAALAWGVAEYVAGEGA
+DNDAATTRTEISPPAAPQATTPAQPTVDNTPRPGEPAQMAPADRDPTPQGGTGGPSQTRA
+SDGTVQ
+>tr|A0A1Q9AMB2|A0A1Q9AMB2_9RHIZ
+MPVSPSPSEAEILAFQAICDGFYPPDAVDAPIDTQRRYYDALCARFDQPSPAGLRREEGA
+VGAVPIRRYHPANVRGPALVLYLHGGGFVVGSLDSHDAICAELADRTGREVVAVAYRLAP
+EHVWPAGFEDCHAVLESLLQEERPLVLAGDSAGGNLAAGLAISARDRGLAGICGQALIYP
+GLGGDLVSGSYAEMADAPGLTTADVRYYREILKAPEDLPAAMPLRAPSLAGLPPAFITAA
+HFDPLRDDARLYAGRLAADGVDVTFREERQMVHAWLRARHMSPGAKAGFSALCEGLAALC
+QRGEAGGA
+>tr|A0A1Q9ANW5|A0A1Q9ANW5_9RHIZ
+MTTIHADPYLWPYNGDLRPENTAFIIIDMQTDFCGPGGYVDTMGYDIALTRAPIEPIKTV
+LAAMREKGYHVIHTREGHRPDLSDLPPNKRWRSQQIGAGIGDAGPCGRILVRGEPGWEII
+DELKPLAGEPIIDKPGKGSFCATDLELLLRTRGIENIVLSGITTDVCVHTTMREANDRGF
+ECLLLEDCCAATDPGNHAAAIKMVKMQGGVFGAVSNSAAFVEALP
+>tr|A0A1Q9APV6|A0A1Q9APV6_9RHIZ
+MKASKFSEAQMAFVLKQAQDGTPIGEVCRKAGISDATFYNWRKKYAGLMPSEMKRLRQLE
+EENAKLKRIVADLSLDKAMLQDVLSKKL
+>tr|A0A1Q9ADX3|A0A1Q9ADX3_9RHIZ
+MAVLRLTLLAFLVIYCLPALASAGLWSLRDRPARWSEADWSSAGILPRAADDPQAAIYVF
+SAATGGMKGAVASHSWIVVKKPGASRYERYDKVGWGQPIRRNAYAADARWYSNPPELVVA
+RRGPQAEALIAKVEAAIAAYPYATAGAYRLFPGPNSNSFVAHVLRSVPELDAVLPPHAVG
+RDFLPECRFLAVDADGRDMHMTLYGLLGFSAGQRSGFELHVLGLVAGLDLRHPGVKVPAF
+GRIGF
+>tr|A0A1Q9ALL1|A0A1Q9ALL1_9RHIZ
+MIKILFYVLIVLGLAAGFSWLADRPGDVTLVFDGQRIETSLVVAAAALILLVVAIIVAIW
+LVRTLIGSPGAVSRFWRRRRRDRGYEALSAGLVAAGSGDAVQARKMGAKARSLLGARREP
+LVHLLEAQTALLDGRHDDARRAFEVMSEQDETKALGLRGLYLEAKRLGADEAARQYAAKA
+AEGAPQLGWAVLATLDERARAGDWDEALRLLEVSRRHRAIDKREFRHKRATLLTARARAE
+MDNDPRTARDDALTALKLDPGLVPAAVVAASVFYRQSSPRRAASVLERSWRHMPHPDVAE
+TYLRARSGESALDRLKRARKLEAIRPGNPVALLAVAKSALEARDLQLAREKAEAAARLEP
+TESVFLLLADIEQVETNDDGRIRHWMTQALKSLPDPVWTADGLTSQEWLPVHPVTGALGV
+FEWKRPTRAFSGRIEEGRALSGEEAIRSLPPLTPAAKTPYAAPQPAETRATSEVAKGEHV
+ASAPAPAEKEPAAPSTAPKPQEPAAKPVAAVPVPSESVIVPEPAPAAEPVGKPAVDPAAK
+AAPAQLKPQPAQPYDVPSRRDGQGGSKNGAPVEPFFGRPPDDPGVRTEKPLENASMRLF
+>tr|A0A1Q9AGE7|A0A1Q9AGE7_9RHIZ
+MIGLVLVTHGKLAEEFRHALEHVVGPQKSIETVCIGPEDDMDQRRQDILEAVMAADAGNG
+VIILTDMFGGTPSNLAISVMQSGTVEVIAGVNLPMLIKLAGVRAESTMDKALLEASEAGR
+KYINVASRVLSGK
+>tr|A0A1Q9AMG9|A0A1Q9AMG9_9RHIZ
+MSNGFDDIPFFDEEPPARAPRGRATGGPAEAPRPDETRHQPAASPRPAASGIAARAMAAR
+GGPSVPDYLSGLNPEQRQAVETLDGPVLVLAGAGTGKTRVLTTRIAHILASGRAYPSQIL
+AVTFTNKAAREMKERVGVLVGGAVEGMPWLGTFHSIGVKLLRRHAELAGLRSDFTILDTD
+DVVRLIKQIIQAEGLDDKRWPAKQFAGMIDGWKNKGLLPADIPEGDARAFANGKGRELYA
+AYQARLKTLNACDFGDLLLHPIAVFRAHPDLLREYHDRFRYILVDEYQDTNTAQYLWLRL
+LAQRPRARRPAPANASAQGFADAGARFIPAGEAVEAVDQRVNICCVGDDDQSIYGWRGAE
+VDNILRFEKDFPGAVVIKLERNYRSTAHILGAAAHLIAHNEGRLGKTLFTDRADPEDVKV
+KVHAAWDSEEEARAVGEEIEQLQRQKHPLNNMAILVRASFQMREFEDRFVTLGLNYRVIG
+GPRFYERQEIRDAMAYFRMVCQPADDLAFERIINVPKRGLGDTTVRLIHDQARARDIPMF
+QVSGEMIETDELKPKARKSLFDVVTMFRRWQGLLETTPHTELAEIILEESGYTDMWKADK
+SADAPGRLDNLKELIRSMESFESLRGFLEHVSLVMDAEQNENLDAVNIMTLHSAKGLEFE
+TVFLPGWEEGLFPHQRSLDEGGRSGLEEERRLAYVGLTRAKRRCHLWFVSNRRIHGLWQS
+TIPSRFLDELPEPHVEVAESESSYGGYGRGGYGQSRFDTQDAFANSYSTPGWKRAQANRT
+DATRSNWGNRSGVGVERVGYGESGPRARTIEGELVAKSTVDTPSRFAIGDRVFHMKFGNG
+TVAVIEGNKLTIDFDRAGQKRVLESFLEAAQ
+>tr|A0A1Q9AD39|A0A1Q9AD39_9RHIZ
+MIDLAKYAALALVMAGCLSLLITQLRTGVPAMSSSRKEALQVVALLKAAGLAEDAVIYEL
+GSGWGAMASVLAESFPQARIRGFELSPLPYWISRLRLRHHPHIRLMRQDFFRADLTDADA
+VVSYLMIRPMPKLGLLLDRDLKPGTPVVSLAFWFRDRQPEAVGRAGTAALYRWPARVDTS
+RLEETARVEETGRA
+>tr|A0A1Q9AFZ0|A0A1Q9AFZ0_9RHIZ
+MANDNEPDLEYSELSGEVTEDGLTVLVDISRPAGTQLDWHLAVITPEDDVTEWEEPFATD
+REAYEEFLATLQRDGIRSFFLGDEAPRLQ
+>tr|A0A1Q9ALV2|A0A1Q9ALV2_9RHIZ
+MPFSRALALSIPLDEAPDLRSLPVRRHVASHPFIEKLRAAVPFDFFAVSGLDLDGYRFGS
+GHSIDTDVPPAFLDAYYGDDLLKTDPFVIASMQAKTVVIEEEVYAETPPPQRLQYLARTF
+GVLNRTLFPIRRGEVVFGAVTFSRATPFSGEEIEFLVEIAETTHRVLTRPIMDKFSAQTL
+KLIEGEITCLKFASLGKTTDEIAVASGYTPDTVNSYMKIAIRKLKAENRVHAIAEAIRRG
+LIT
+>tr|A0A1Q9APB6|A0A1Q9APB6_9RHIZ
+MKVFSGNSNRFLAEAICNYLNLPLGRATVRRFADQEIFVEVQENVRGEDIFIIQSTSFPT
+NDHLMELLIMIDAMRRSSAKRITAVLPYFGYARQDRRTGGRTPISAKLVCNLITEAGADR
+VLTLDLHAGQIQGFFDIPTDNLYAAPILARDVKEHYDLGNVMVVSPDVGGVVRARALAKR
+LDCLLAIVDKRRDRPGESEVMNIIGDVAGKDCILIDDIVDSGGTLCNAAEALLKNGATSV
+TAYITHGVLSGGAVARVASSKLKELVITDSIQPTTAVQSAHNIRVISTAGLLGEAINRTS
+EEKSVSSLFD
+>tr|A0A1Q9AH02|A0A1Q9AH02_9RHIZ
+MNLVSSEIPGLVWAYHFLPGESRCRRIPADSPVSALKPDEGWVWVHLALSDARTPALLER
+ICDLPAGALATLGSHDTQAAIAIEDDVVHGTLVDFERTFDTETKTIAWLHFAVAEKIIVT
+TRLHPLRSIDRVKAAIEKNPRCAKPIHLFEMMVVEFQRTLIGLVLELTEDLNVIEDAVYG
+EAGHNEQPRLAPLRRTAVRLHRHLRTLLALLRRAATSEEDEVPEGFIDVAERLSDRLESV
+DRDVFALQERARLLHEEIDSKLSSETNRHLYILSLLTAFLLPPTLVTGFFGMNTSDMPLA
+GTLHHGTSAAAFFIILSMVVAWIILRRVGIL
+>tr|A0A1Q9AMD2|A0A1Q9AMD2_9RHIZ
+MTLALRFCLPRLAAALALGLTLGLSPALAQDRFIRISPNAVLVTPQGEILDYMPEAGSVR
+AMRDERGRTVLIDHWGNVVATVMGERHPQANQARGQGRVAPPNPDDEFGTSQPGYYGDPR
+EAANGIPDYRDPRYRSQNYGRGYGATTIPPGVEREPLPDALPPADENQQAALPPSDENDQ
+LALPPVEAGPRSEPMPAAQSIGKKSSAEIMALQVFLDREGFSPGAIDGKTGSNVTKAIEA
+WQKATGETLDPNDTDGILERLRLNGGMPLTSYTITAADAAGPYVAAIPEDYAHKAALPHL
+SYTSTAEMLAEKFHMDEDYLRSINLGVDFTVPGTIIKVVALGAPRTGKVTRVVADKARKQ
+VLAYDAEGKLLAAFPASIGSADTPSPSGTVTVERIAFNPGYTYNPKINFKQGNNDKVLTL
+PPGPNGPVGTVWIALSKPTYGIHGTPEPSKIGKTQSHGCVRLTNWDATILAKMVSVGTTV
+EFVD
+>tr|A0A1Q9AQ36|A0A1Q9AQ36_9RHIZ
+MSLEFLLTALVIVLLPGPGVVYTLSLGLKAGLRAGLIAAFGCTLGILPHLVAGVLGLSAV
+LAASATLFRAIQIAGVLYLLLMAWRTWRDREAFSVEAAEDRPAAFGIVLAAIGLNLFNPK
+LPLFFLAFLPQFIDPLDPRPILRMVELGAGFMGLTFAVFAVYGAFAASARNLLIRRPAIL
+VWLRRSFACAFALMGLRLALAGR
+>tr|A0A1Q9AQG4|A0A1Q9AQG4_9RHIZ
+MKNNTKASALASAASAFYVANSIAEDVKPELEEAAKLFIGARRRSTEEAFECGGRFEKLA
+LLLPEGTLEKWAVECCGYTARHVRTQRAVHRNLAPYKAVLIELAVGPTVLGKLSAATPEQ
+IEQAIGFASTHDRLRVQDVTAIMSGSKQDLEEKPELDPYDVGGPAGLKAIIAIKVRDGMK
+SFVGHIEEIRAHVLEALPKHNIVKKDLAAKTHLTARLAHRELQSLIQFVTPHPNDKHDTT
+VTVLPEKSGWEKVSRLLYKMGSETSWPDKAELRTWLETEVVPLLNWAAPEKGEATRPEVK
+ADVAKGVVASAKVVADASAPAKTSASPKAKALSRPSLEENLATLTDGFAAIMTGDFKVPA
+SDDDAIPSVAEALAKPEKRFQRPAFMDKIKRTSPPTTAA
+>tr|A0A1Q9AGS6|A0A1Q9AGS6_9RHIZ
+MDMIMDSIFITGAASGIGRHTASVFSARGWRVGLADTNADAAAALAAELGANAKAYTVNV
+TDHASIERALADFAGTGGSLKAIFNSAGLLDMTPFAEADLARLSAVFDVNVKGVINATKA
+ALPYLERHGDARVITMGSVSGIYGIPDLAVYSSSKFAVRGLTEALNIELEGKGVWVCDIM
+VAFVKTPMVTAAASKAKSVEILGVNVTPDQVADTVLKAVDGRQVHWFVTPDDAGVATQVD
+SMPWESRRDFVKQITGY
+>tr|A0A1Q9AH57|A0A1Q9AH57_9RHIZ
+MKGWLLDTNVLSALIAVRGAPSVKSWAASQPEESLYLSVLSLAEFDKGIAHLDPHDPARH
+RYIAARDALEARFGNRVLSVDDDIVRLWGTISGEIKRTTRQAPPVIDCLLAATAIRYRLY
+LVTRNVRDVKLCGAAVFDPWNDDAAAFPIRPKTAP
+>tr|A0A1Q9ALE1|A0A1Q9ALE1_9RHIZ
+MTQKLVIIGNGMAPGRMLEHLFEQAPGLYEVTIFNAEPRVNYDRIMLSPVLSGEKTFEDI
+IIHGDGWYIDNNVTLYKGHRIVSIDRNARTVTSDHGVTESYDRLVIATGSVPFIIPVPGK
+DLPGVITYRDLDDVDAMLLAAQSREKAIVIGGGLLGLEAAAGLALRGMDVTVLHVMPTLM
+ERQLDPAAGYLLQKAVEERGIKVITKANTKRIIGTDRVEGIELDNGTIIPATLVVMAVGI
+RPNAGLAKDAGLAVNRGIVVDAGMRTSDGDILAVGECAEVDGMVYGLVAPLYEMARIAAA
+HLAGDTKPAFVHSDTPTKLKVTGINLFSLGDFADGDDREEIVLRDATAGIYKRVVIKDNR
+IIGTVLYGETSDGAWFNDLKKKGADISAMRDTLIFGQAYQGGSPLDPMAAVAALPDDAEI
+CGCNGICKGKITSAITGKGLTTLDGVRAHTKASASCGSCTGLVEQLMSLTLGDAYNPAAV
+TPMCTCTELGHDDVRRLIKAKGLKTIPAVMQELEWKTSCGCAKCRPALNYYLVCDWPADY
+ADDYQSRFINERVHANIQKDGTYSVVPRMWGGVTNAAELRAIADVVDKFEIPMVKVTGGQ
+RIDLLGIEKEDLPAVWADLGKAGFISGQAYAKGLRTVKTCVGSDWCRFGTQDSTGLGIRI
+EKFMWGSWTPAKLKLAVSGCPRNCAEATCKDIGVICVDSGFEIHFAGAAGLDIKGTEVLG
+LVKTEDEALEHIVALTQMYREQARYLERIYKWAKRIGLDEIRRQILEDGEKRRAYYERFV
+FSQQFAQVDPWSERVSGKDKHEFKPMATVGFEAAAE
+>tr|A0A1Q9AJH7|A0A1Q9AJH7_9RHIZ
+MGKAKAERRLADNEAQAVARTIRVSPQKLNLVAAMIRGKKVDRALAELEFSRKRIAGTVK
+KTLESAIANAENNHDLDVDSLVVAEAFVGKSIVMKRFHARGRGRASRIEKPFSHLTIVVR
+EVEAKGEAA
+>tr|A0A1Q9ALI5|A0A1Q9ALI5_9RHIZ
+MRQTRIRIMHPTAYSLPQRVLHWLMALLIFFNLIFSDGMEHWARLMRHGQPVTPDDVGSA
+NIHAYVGIAILVLALCRLALRLVQGAPQPPADEPPILRLVAKATHGLLYFLFFAMPLSGI
+ARYYFGVEAAGFLHGGPMKLALWALIAAHIAGALAHQFLWKSNVLARMTRG
+>tr|A0A1Q9AMH5|A0A1Q9AMH5_9RHIZ
+MAHEATLPATLAASSRPVRSATTESHLARLTLIAVSLLFVALFILAPLVLVFAEALRNGT
+GEFLAALTDSDTLSSIRLTLLVAAISVPLNVVFGIAASWAIAKFEFKGKAFLTTLIDLPF
+SVSPVVSGLIFVLLFSSHSLLGPWLQSHGIKILFAVPGIVLATVFITFPFVARELIPLMQ
+EQGTADEEAALSLGASGWQTFWYVTLPNIRWGLLYGVLLCNARAMGEFGAVSVVSGHIRG
+VTNTMPLQVEILYNEYSFVAAFAVAALLALLALVTLVVKSLLEFRYSAQIAASRRH
+>tr|A0A1Q9AEF3|A0A1Q9AEF3_9RHIZ
+MSASFLFLLVLLIGFGAYLMARARAIAASQGRSASLHSLPGYHGAYVAIWTILPATLVLI
+VWSLVGPQMIDREARLSLPTEVLQQGAAPVELAMGQVRAVARGLPLLTDTERAALEAGTL
+DVRATLATKGVALAGDTQPYMIKSAQKLNALSGTSTIAMTAVVLALSVAGALWSLRSISQ
+RFRARNRVERVILAALVVASSIAILTTVGIVGSMLSEALRFFQSVSPTSFFFGTVWDPRF
+AAAGSTGSSGQFGLLPLLAGTLYIAFVAMLFAVPVGLFAAIYMSEYASRPVRSIAKPLLE
+ILAGIPTIVYGFFALVTVGPFLRDISAELNGLVTGNYTNFIQAQSVLTAGIVMGIMLIPF
+VSSLSDDIITQVPRSLRDGSLGLGATRSETIKRVVLPAALPGIVGALLLTASRAVGETMI
+VVLAAGVAARMQLNPFEPMTTVTVKIVNQLTGDLEFTSPQTLVAFALGITLFTITLCLNI
+YALYIVRKYREQYE
+>tr|A0A1Q9AQV9|A0A1Q9AQV9_9RHIZ
+MMPALAWLQECLVSETGRKYLNDQMEGAKLSSALWRAYRNFQVRMRKLLPLARLLTDAQS
+QGTKVASTVARGRKTEGISRVFL
+>tr|A0A1Q9AJX7|A0A1Q9AJX7_9RHIZ
+MPNSSDRLLIRNLGRILTGDLTAPLLEADTILIEDGKIAAIGRESELATDGVGTIIDANG
+SAIMPGMIDNHAHPVMGDWTPRQNQLGWIESTLHGGVTTLVSAGEVHLPGRPRDVIGVKA
+LAITAQRAFSAFAPGGMKVLAGALILEHGLVEADFVELAAAGVTLVGEVGLGTVKDGPTG
+RRMIGWARQNGMTSMTHVGGHSIPGSARIGAETVLEVDADVAAHLNGGPTALPESELRLI
+CEESKRGLEIVHNGNMRAGLFVLDVVRQVGALDRLVLGTDGPAGSGVQPLGMLRLVTMLA
+SLGDIAPEVAICFATGNVARLRGLNDRGRIAVGLAADLVFIDQAMGGAGQDVLDSMVLGN
+MPGIGMILVDGVPRISRSRNTPPSILVPEKRVA
+>tr|A0A1Q9AM17|A0A1Q9AM17_9RHIZ
+MTRVPQTTPSRRRAGRIALNAGLVMFIVLYAAIVLFQPTYLEPGLFMNFLRRAAPLVILA
+CGQLYVILTGGFDLSMGAVATLVVLAASILINGDPEITWAVIGVLYGMGIAVGLMNGLVV
+AFLKVPSIITTLGTMLLVNGLALAWSGGAARGDLPDNFRNLGRLVWRDVPGLGTLPVAVV
+VLVGFVTLAWFGLNGTVYGKRALAVGDNPRASELAGAPVAATRIIAFVVSAVSAVTAGIL
+LGGFSGVSVNAGEGLELQAIAACVIGGAQLLGGRGSIWSATFGALSLFALFTLLNLLGLP
+QAFRDSIQGVILIAAVAVTAWRRRRRT
+>tr|A0A1Q9ADA3|A0A1Q9ADA3_9RHIZ
+MKIRAGFQLDYECQHDTPMLLTLNIHPSRRGDLLSDQTLTFSRPIEAWGYTDVFGNACSR
+VVLPPGLTTLSTEFEIYDSGLPDPWPEDAVQHNIQNLPDDVLVFLLGSRYCDSDRLADFA
+WKTFSHVPSGWPRVKAILDFTHHQIAFDYMKADSTRTAFGGFTERVGVCRDYAHLAITLC
+RCMNIPARYCTGYLGDIGVPADPNPMDFSAWFQVYLSGRWYTADARHNHPRIGRILMATG
+RDATDVALTTAFGPALLTRFVVLTEEFS
+>tr|A0A1Q9AEN8|A0A1Q9AEN8_9RHIZ
+MTDASAPLASSDDLLTQARDLAAAQPEAPASALLVALANEVRALRAQLADSRREGFKEGI
+RGAAKVIRNRQAAEGSALAGLMNRSQEDIERFSREVEQAAEGGPITLTDLRRLRSKINAV
+TVGDDELDDGIRRLYYSVVHTRTPGADDIPPPGSPSRSLDVASFIVERIMQEGWWTLGKS
+GMRVEEKPVSKVGMYAQHNPGSHSASDGPLTLLLALVMTLIENVKRQQGA
+>tr|A0A1Q9AHF0|A0A1Q9AHF0_9RHIZ
+MNNTETIKALYAGFVAGDLPAILVNMAPDIAWTEAEGYPYAGTFHGPQAIVEGVFIRLAT
+EWDGYQAVVDRYVSEGDEVIALGHYSGTYKATGKHFRAPFVHAWTVRDGKIVRFVQYVDT
+VLVQRAFDPH
+>tr|A0A1Q9ALA8|A0A1Q9ALA8_9RHIZ
+MAKPALFLDAETAAQRLGVSKATLYAYVSRGLIQASDAEADPRRRQYSAHDVDALCKRKS
+VGRRPKAAAQATLDWGLPVLTSAITLIDGNRLFYRGQDAALLSDAATLEEVACLLWDCGM
+KDPFADPAALPAPLASVPPAFDDLPLIERLQALLPLFAAGRAIAWQRDPKKLWIGAAALL
+RAITATASRSQPGDQPVHRHLAAAWQLDARGADLVRRTLVLLADHELNASAFAVRVVAST
+GASLGACLNAGLSALSGPLHGGTTSLVELLFSEMEARGDAQSVIEERLRRGDGVPGFGHP
+LYPQGDPRARAILDHLPLTKVSRDLIAAMEETSGRLPDIDFALVALRRELGLPMGTALAL
+FAIGRTVGWLAHALEQAGTGRLIRPRAQYNGPLPTEHRSAS
+>tr|A0A1Q9ALR9|A0A1Q9ALR9_9RHIZ
+MSERPLDANSVAVIGAGAFGTALAVAALQAGGPTPRRVILLSRRESQVEDFKASGRNEDA
+LPGIALPEGLIVTAEPDAIEQAGTVLLAVPSQAQGDMARALLPVIARRADVVVCAKGLER
+ETGRLLTEVVGEQLHRDDIAVLSGPGFAADIARGLPTAMTLAAASAEQAHAIATRLSGPT
+FRLYASTDRVGVQLGGALKNVLAIACGIIEGAGLGESARAAMISRGLAEMSRLVTARGGV
+ADTVRGLSGLGDLVLTGTSHQSRNLRYGIALGRGGAAREAAGRELVEGALAASVAAQDAA
+ARGVEMPITQAVAAIIDGGFDIRAAVDALMSRPITQE
+>tr|A0A1Q9AP57|A0A1Q9AP57_9RHIZ
+MTGERPSPAGRRDPQAHDHAFLGADHARNERRVWWVIGLTAAMMVAEILGGQILGSMALT
+ADGWHMSTHAGAMLITALAYRYARRQIGNPRFTFGTGKVGDLAAFASAIILGLIALIIAW
+ESALRLIEPVDIAYDEAIAVAALGLVVNLVSAWLLGADHHGHAHSDDHGPSPAAHDHAPQ
+ISHGSHGGHGSHADHGAHAGQGMHGGHHGHRGHHGGHGGHAGHGGDSNLKAAYLHVLADA
+LTSVLAIAALIAGRVYGWSWLDPAIGVVGAVVIARWSIGLIRQSALVLLDTADTAGDLPA
+AIRRRLDCDGARITDLHVWQVGPGHHAAIIALSSPAPEPPASYKARLATLPGLSHVTVEV
+TAA
+>tr|A0A1Q9AE18|A0A1Q9AE18_9RHIZ
+MTADIIGRACLAPGADSPQGLFRLLRQGKCTVTQIPAGRWDLARFWHPVMGNAGKTYSFA
+AGVLDSIYDFDPAVFGMSQREAMYMDPQQRVLLQLAWRALEDANIPAASLRGQNVGVYVG
+ASSLDHANLTVEDPAAAGPYFMTGNTLSVVSNRISHIFGLSGPSMTVDTACSSSLVALDQ
+AMRALNNGEIDTAIVGGVNILAHPLPFVGFAQARMLSPEGLCRAYDNDGVGYVRAEGGVV
+FVLRRSDRVRQERDRSYARIVASGVNSAGRTNGISLPSREAQAALLSSIYDGHGIDANQV
+AFVEGHGTGTKVGDPAEVWSIGTVIGAKRRAPVPIGSIKSNIGHTEPASGLFGMLKAMMA
+LENNYLPASLHFETPNENIDFDGLNVRVTSSPIELLRGKKARLAGINSFGFGGANAHVVI
+SDPEPLPEERQRASASGHVFMASAHTASALETLLSSYKSSLAKAGREEARAIVAASGANR
+APMRHRFVVRSDDPAAIQRAIADHLETAGKGIGEAGEALGREAKIAFVFSGNGAQWAGMG
+VDAFRENLHFRQCFTSVSALFKFHADLDLTELLTDPALETRLSDTKIAQPLLFAIQAALS
+DSLIAMGIKPAAVFGHSVGEIAAAYAAGALSLVDAVTIVAKRSLHQDMLAGQGTMAAVML
+GEEAAQAFAEAHGFSQICVAAINAHNSVTISGPVAEVGAFRDAARKAKIPAQVLDINYPF
+HHPIIDQAKSAFLGDLPDIAPRKSELTYISTVSGTPLDGAELDADYWWKNVREPVRFEAA
+THSAIALGCTLLLEISPRPILSSYLKETVKQAGVPAAVVATLQRGAAEPNVDPVARSMAR
+AVANGAAIEAARVFGKRNAFVRLPVLPFEPSELRPATTSDSTDLFGRGARFPYTLAGWRA
+DLNSGSWKNHVDAHLFPDLAEHVVDGKAILPGSGFVEIALSAARQFYDNAEIEVTNLDIV
+RPLELSDSKIMELSTVISPETGDLEIRSRERLSEDDWAVHAVARLRKPTGEPEGAARPSF
+LGMERTAVVEGAAAYETARQFGLDYGPAFRLLAKAVAYDDRLIDVTLKAPAQALHPFVTY
+ALNPISVDATFHGMVALFGRLTGESGGAPYIPVRFGSIRLSRPGDTVARAVAEIERISPY
+SIKAAFRFYNEAGALIASFSDCRFRRTFLRQHKTLDDLSYHYQTVAHPRAPALSGAAARA
+PLSLPLTAAMAEEDVDSTTLLLNAAIYRAAHEIALALSRGGARIDMVDLPGDFAFRCFLA
+SCLLTLEDAGLARHTGETWTITTEYSLPPVGDILKEVYAETSGRVVEAVLINNVHGEALE
+RIARLRAAETADGEVLTFPVPVASDATLDHQAVHSTAVEHRMDIVRAALAAALGQAGEGR
+GLRILEAGTLSPAFSQQLAALAKAHGATLTLFEPRDNAHRNLELAFEQAPHVAVIKAEQL
+ANIGSVDLIVSASDAIATLLDEDTALRGVIRAGLLQGGALVCATSAPSIFADFCHGLSDS
+WFARSQTAEFPVGRLATAQQWQSTLSDLGLKAISVEEREARTGGLMVVQAMGAALPIYNE
+ETGDAQGLMLITLAGEEAAVKPGAGVQRVTAQGELAADQALFAQSLNGLHGRRPRALFVF
+PAADGDKAADVLQVRVMALSAFARAMRDHFGTSDPAGDARPQLVIALPGGAPTAGDRPVS
+AVNSGLWTFARVLQNEYDLIDLHLIDTGSADALEAGLEVLSLADGEREWIVDPRDGLCLL
+RAVPGPVPSAIRETTDFVAATIRQRIPSQVGSIAWEETSVPAPGPGEIVVEVAATGLNFR
+DVMWAMGLLPEEALEDGFAGATIGMELSGHVVAVGREITDLSVGDPVMAIASAAFSTHAV
+VAREGVARLPRSLDPVAAATVPVAFLTAYYAMVELGRIRAGETILIHGAAGGVGLAALQI
+AKLFGATVVATAGTREKRRFLQMLGADHVFDSRSMGFVSAVRAATDGKGVDLVLNSLFGD
+AMEQSLGLVKPFGRFLELGKRDYYADSKIGLRPFRKNISYFGIDADQLLVNQPDLTRRIF
+TEIGALFDDGRLMPLPYRAFHHDEIGHAFRLMQNAGHIGKIVVRPPVAGRDHVARLPARP
+AAVSGKGVHVVVGGIGGFGLMAAQWLVDRGAKRLALATRRGQADAETLAAIARWDKRGVK
+ASVHACDVTDATATAALLDSLRAEAPIASVIHAAMVLDDALIANLDAKRNKPVIDVKAKG
+AAVLDRLTREDRLESFLMFSSATTLVGNPGQGNYVAANGFLEGLARRRRAEGLPALAVGF
+GAIADAGYLTQNAEVNEILSKRIGKTALKAAQALNEVAAYMARDPGTPEAAVVMISDFDW
+AAARSLPVVRGPLFEVVLRGADQYSGSSDGAALDLVALIEGKSAQEAEDLLFDIVAGEIA
+AILRVAKDTITRNKILKEIGLDSLMAVELGISFQQNTGFDMPLSGIAETTTVGDVTRKLY
+EKVSKRDQDTGEEPQGDDKMVSELAKRHIAGGVAEKEAAGA
+>tr|A0A1Q9AKW5|A0A1Q9AKW5_9RHIZ
+MSGLLRSRDPSIVDELWSDGFRLVGSEVGEMATSREQLVALFRKLFTRTVRYAFDFPIVE
+VDVDGNVAWLFAEGALLADDGEKSERLPYRLTAVFTFADERWRWRLFSGAEPAPSLEAP
+>tr|A0A1Q9APW8|A0A1Q9APW8_9RHIZ
+MCRWAAYRGEPLYLEELVSSPAHSLIAQSHCATRATTATNGDGFGIAWYGDHPEPGRYRD
+ILPAWSDCNLKSIARQIRSPLFLAHVRAATGGGTRRDNCHPFTHGRWSFMHNGQVGHFDT
+LRRPMEAMLDDELYSQRQGTTDSELLFLMALQFGLDRDPIGAVGETIAFVERLAGHLGQE
+VLVRFTAAFSDGETLYAIRYASDWRAPTLYAAPMGPSGGYCLVSEPLDDDHNAWVEIPDG
+TAVIVSENGVDVRLFSPGEPAEPARTQQV
+>tr|A0A1Q9ACN1|A0A1Q9ACN1_9RHIZ
+MGLLFDSDAPSNLTEFSVSELSGAIKRTVEQAFDQVRVRGEISGYRGPHSSGHAYFTLKD
+DKARIDAVVWKGTMSRLRFKPEEGMDVIAVGRITTFPGSSKYQIVIETLEPAGAGALMAL
+LEERRRKLAAEGLFDPERKRPLPFLPRIIGVVTSPTGAVIRDILHRINDRFPLHVLVWPV
+RVQGEGSGEEVARAIAGFNALTSDGPMPRPDVLIVARGGGSLEDLWGFNDEAVVRAAAAS
+RIPLISAVGHETDWTLIDHAADRRAPTPTGAAEMAVPVRAELESLVSGLGARLQAAMRRQ
+MDNRRQAARALARALPSLDQLLALPRRRFDEAAAGLGRALQMNTAAKRRSFERVGAHLRP
+ELVSVRLRDRRRHVSERMALAERLVERIGERAGRRLSAADVALRGFPARATGQIRHARER
+VVTLSAKGERAVEADLRRLRGLIQAQDRMLQSLSYVNVLGRGYVLVRDEAGAPLKTAAET
+GPGRAVTLQFADGSLAALTEEDALIPPDLQPAAPPSADAAPPAKPARSRKRKAEEETPQG
+SLF
+>tr|A0A1Q9ADA7|A0A1Q9ADA7_9RHIZ
+MSQSSSPLRRAPDAPHAARITSEAEALQTARQLAKTFAEGAAKRDRERILPHAELDALSA
+SGLLALSVPKAYGGLGASNATLAEVIAILAEADGSIGQIPQNHFYILEALRHDGSEEQKR
+FYFERALAGDRFGNALSEIGTKTVGQYNTRITADGEGFRINGRKAYSTGVLFADWIVVFA
+KDENDQLTMSFLPRGTEGVEIIDDWDGFGQRTTGSGTTILTNVPVPAGAIVRHHKGFERP
+GTIGAVGQILHAGIDLGIARAAFNETVTFVRTRSRPWTNAGVERASDDPLTVSRVGQLAI
+RLEAATAVVEVAGRKIDLAQADPAEANTVAASLSVAAAKALTTEIAIEATNALFELAGTS
+ATREGLNLDRHWRNARTHTVHDPVRWKYHVVGNFHLNDTAPPRSGAF
+>tr|A0A1Q9AEP0|A0A1Q9AEP0_9RHIZ
+MQRSMAGWGSGLLGVMIFSGSLPATRVAVVDFNPIFLTSARAAIAAILGAIFLFLFRQKR
+PAKSDLSSLAMIAAGVVVGFPLLTALALQQITAAHSIVFIGLLPLSTAIFGVLRGDERPK
+PAFWLFSLLGAATVAGFALSREQGGALEGDLLMIAAILLCGLGYAEGAALSRRLGGWQVI
+SWALLLSLPVMTVIALASLPASLPVLTAPAWLGLAYVSIFSMLVGFIFWYRGLALGGIAG
+VGQLQLLQPFFGLLLAAIFLREPIAWTMIASTLIVVLCVAGAKRFS
+>tr|A0A1Q9AHW5|A0A1Q9AHW5_9RHIZ
+MSASGKPAKKSATIDMPPPPAGEPIAAILRRLRRSAGLTLQELADRCSLASSTLSKIENG
+QMSPTYDTILRVAQGLRIDVADLFTGAASHDVGGRRTVTRAGQGIVRSTEQYSYEMLAAE
+LSGKQFIPLLTTVTAGTLSDFPSLVRHNGEEFFYVLSGQVVLHTEHYAPTVLNAGDSCYF
+DSTMGHALVSASEASAQILWICSRVGAPLTETGLA
+>tr|A0A1Q9AGV6|A0A1Q9AGV6_9RHIZ
+MNFVDLLMLGFSEALTPTNLGFCLLGALLGTLIGVLPGIGPTATIAVLLPITFYLPPLAG
+LIMLAGIYYGAQYGGSTTAILVNLPGEASSVVTAVDGYKMAQQGRAGSALAVAALGSFFA
+GTVATFGIAIAGPTLSSFALSFGPAEYVSLMLFGLLAATILARGPVLKAIGMILLGLLLG
+MVGIDASSGEERLTFGAVELFDGIDFVVIAIGLFGFAEIIENLENVEARGILVSKLSRLW
+PTREDFRRAWPAVLRGTGVGTLLGVLPGGGATLASFCAYSVEKKVSKRPQEFGDGAVEGV
+AGPEAANNAGAQSSFIPLLTLGIPSNNMMAMMLSAFIIHGITPGPTVLATQPEIFWGLVA
+SMWIGNLMLVVINLPLIGVWVKLLTVPYRLLYPAILLFCCVGVYSINNRIFDVALAAGFG
+LLGYAFRKAKCEPGPLLLGFVLGPLLETNIRRALTISHGNPSVFVERPISLVLLIATAGV
+LLLMILPSFRKTREEAFQEEEA
+>tr|A0A1Q9AC59|A0A1Q9AC59_9RHIZ
+MPLPSVADPLLRELDRWHARGAVAPLWLRDDDAVSATASLERLVEQTERFSVPVTLAVIP
+AEEEPSLRNLVASEPHVSVAVHGWRHADHAAPGVKKQELGPERPAETVLAELSSGLGRLR
+AHYGEHLLPVLVPPWNRIDAALLPALPGLGFQALSVYGREKPGPIPAINTHVDLIDWHGT
+RGGRPPERLFAEIAARLSEVAGTGATMGLLTHHLVHDAAAWSFLETLFKVTAAHPACRWE
+PLSAHLQR
+>tr|A0A1Q9AHE7|A0A1Q9AHE7_9RHIZ
+MAQIALAAGLIAASALPAFSAERYGDRPPVIVSPDLTAPWLMQLGGAPDAPAAVSRANPQ
+RAMPQRQVYQRQVTQPQLVQPQVSQPVAGPAPAARVRPQQQAAVLRPQVQASRFDPQYLP
+QMVVYETKEKPGTVVIDTNNRFLYLVTGPGQARRYGVGVGKPGFEWAGEHKVTRKAEWPS
+WHPPQDMVSREAAKGHYLPASMEGGPANPLGARAMYLGSTLYRIHGTNAPWTIGYAVSSG
+CIRMRNEDVVDLYERVKVGTRVIVQ
+>tr|A0A1Q9AHT9|A0A1Q9AHT9_9RHIZ
+MSATLTILLRTAIFILVALALCGLIFQAAGYSALDMFASILDGAFLRKGGLSQCLRWALP
+LFITATGVVLSFRCGFFNIGAQGQFYMGAIAATAMASWLNGMPVAVLVPVSILSGMAGGA
+LWALWPGILRFRWGTDEVITTLMGNFIAGLILVYVTTGPLKDPSGSGQQSSSKPLAAAYR
+ISNSMGLSPTIIAISLVVGIGMWLLINRTAFGVLGGLAGRNPEMLRWQGARMWKFGLASF
+MVSGALAGLAGAIEVFGPNGRLVGGFLPTHGFTAVLIALVANLSITGTAVAALFFGGLAS
+AALYLPIMAGLPSAAIDIINAAIALFITAKSRMIDRMFSARGKTP
+>tr|A0A1Q9ALA9|A0A1Q9ALA9_9RHIZ
+MPKQEGPITIKKYANRRLYNTGTSTYVTLDDLAVMVKKGEEFTVQDAKSGDDITHSVLTQ
+IIFEQESKTGNTLLPISFLRKLISFYGDQMQMVVPSYLEHSMQAFVEQQSQMREQINKAF
+GDTPLGKNLQVPLQLVEEQVRRNTEIFQQAMQMFSPFMTPPVAKETRKAEAKDIDELKEQ
+LRALQTKLDKLG
+>tr|A0A1Q9ANP6|A0A1Q9ANP6_9RHIZ
+MSEIDRQRAARLMQAEGLEALVLFQPDAFRYATGAPAGVAAMWGRAGAAIALVPADAALP
+IAAVISDHAAPALARLAPAVERRVHGIWIDQLTLGPVSSLAGVEAAYAAQGLGRSRPETF
+DRAACFVLLGDLLQTHGLSSARIGVDLAFLPAADFTALEAALPRVRWVDGSLCLMRLRAV
+KTPREIARLRQASQAAEAGLRRMAEAVADGVPLATLSAAWKAGAADAAARGGFTLTGTWD
+YLSVGPDLADPGARVAPGALIKADVGTLVEGYSSDGARTYSFGRPPDLARDIFAVLEEAF
+EAGLAAIRPGARFGDVHAAMSTVVHGHGLTRYARGHFGHSVGGGMGIEEAPFFSTGNPER
+IEPGMVLAIEAPFYGQGLGALMIEEMVLVTETGTERIDSLPRGLVELG
+>tr|A0A1Q9AJ20|A0A1Q9AJ20_9RHIZ
+MIGIVSSRIVLFTVLAMLLELGIVLVQYWTDNDELGAFLINEETEILSGGLSAPGGRPRF
+DLSPQLAERYQLKPAEAEGAIYVRVRTGSGRVLFSSCAEACERHFLPVAINPPDFWQRQI
+AAGKPLSVAGGRTFRVGEEEVFVELAVLRDPHDFVNRVLAHELRDHLIIPMPLMFGLVAI
+GTILSVWAALKPVVAAGRAADQIDPRADLSALSTEGMPREVATFVHAVNRLLARVRDLIQ
+AQKVFSTSIAHEIRTPVSIIRMELERIDDPRARKAERDLEALTHMLEQLTALAKLDVVDP
+KSFQTVDLFALAEESVARLAPFVFANGHSIELVGEGAPMVRAVPALLENMLRNLVENAVK
+HTPAGTNITIQVLEEGALKVSDDGPGFEPQTADTLEAGRIKSSDQLGIGLRIVERIAALH
+QGRLSVESAPGQGTRIRLDLNPA
+>tr|A0A1Q9AJ79|A0A1Q9AJ79_9RHIZ
+MPALLGLGGNIGDSRALLAEALRRLDALDHCRVLAVSRLFRTPPWGVTDQAWFTNACAAV
+ETDLAAEALLEACLATERAMKRERIARWGPRTVDIDLLTYGDLRLDTPALTLPHPRMAER
+AFVLLPLADIAPGFILEGRSIAERAARTDAEGIAPLTETGDWWR
+>tr|A0A1Q9AMY6|A0A1Q9AMY6_9RHIZ
+MATKGTVKFFNQDKGFGFITPEGGAKDVFVHISALQAAGLQTLKDGQQVTFDTEPDRMGK
+GPKAVNIRAA
+>tr|A0A1Q9APZ6|A0A1Q9APZ6_9RHIZ
+MAETLAEAVSRRRTFAIIAHPDAGKTTLTEKLLLFGGAIQLAGEVKAKKDRIQTRSDWMK
+IERERGISVVTSVMTFEYDGNVFNILDTPGHEDFADDTYRTLTAVDAAVMVIDAAKGIEP
+RTLKLFEVCRMRDIPIITFINKMDRESRDPFEILDEVEEKLALDTAPVTWPIGRSKTFCG
+SYNLAENTVRGSDTEVAGTPVNGPQAVAGRLPENERDDFVNEVELAREACRPFNRQSFLE
+GHMTPVFFGSALRNFGVRDLINALGDFAPPPRDQVADVRTVHAAEEKMTAFVFKIQANMD
+PNHRDRIAFARICSGKLERGMKARLARTGKQLGLTAPQFFFASQRQLADTAYAGDVVGIP
+NHGTLRIGDTLTEGEALVFQGVPNFSPEILRRVRLEDAMKAKKLKEALQQMAEEGVVQLF
+SPEDGSPAIVGVVGALQLDVLKERLSAEYGLPVSFDIARFSVCRWISADKPEDLEKFITA
+RRGDIARDLDGDPVFLAQDSFSLRYEAERYPAIKMVAIKEYHVAKAA
+>tr|A0A1Q9ANV0|A0A1Q9ANV0_9RHIZ
+MRWPVAVLAFVMAFAVRYVLQHQLPPGFPFLTFFPAVILSAFLCGTLPGIFVATASTLAS
+WYFFISPLNSFGLNGAVALALGFFIAVASIDIAIIHYLIKWMEHLDRERQRSRELATARD
+LLFREMQHRISNNLSVISALLRLQQRALKDEAAKRALSDAAMRLSLISKIQRQLHDPEGQ
+ELAFGTSLQELCQDIVEASGTRQRISVRVEAPPLFLGAERAVPLGLIIAELVANALEHAF
+EGREEGRITITLTETPEGLAIRVADDGHGVPEGFDLTQAKSLGLTVARQLAQQLGGELLL
+ASGAGEGARFELVLAEG
+>tr|A0A1Q9AL46|A0A1Q9AL46_9RHIZ
+MPVTPLPQSETASAEGRRARMAPLAKLPVFVGLEGRRVVMAGGSDGAAWKAELLLACGAE
+VHLYCPAEALDETMAHLIAEESAGPGRLVHHAHPWHVGLFSGAALALADCETREEAQAFF
+CAARAAGVPVNVIDKPDFCSFQFGSIVNRSPVVVSISTDGAAPILAQAIRRRIETLLPPG
+LTRWGEAARSLRERVAERLQPGPARRRFWERFVDRALSTEPGSREEAVAKLLGDLDATAI
+EAPAGRVTLVGAGPGDAELLTLKAMRALQSADVILFDDLVSAEVLELARREAKRMLVGKR
+GGRESCRQEDINDLMVRFAKDGKHVVRLKSGDPMIFGRAGEEIARLRGEGIAVEVVPGIT
+AASAMAARFTVSLTHRDHAQSVRFVTGHSRKGALPDTLDWQGLADPRTSTVYYMGGRTAG
+GIAEKLAAFGLPPTTPAVIMSAVTRDKEQRWAGRLADMPAAMQAIGVDEPVLIGIGAAFA
+EAACLPLPEALPVMKEHPAPARRLA
+>tr|A0A1Q9AF49|A0A1Q9AF49_9RHIZ
+MTGERLDDIAGAMMSKGQGLLAADESTATIARRFDTIGLASTETSRRDYREMLFRASDAM
+KPCISGVILYEETLFQKAEDGTPLVDLIRAAGAVPGIKVDLGAKPMAGFPGETLTEGLDG
+LPDRLARYYEAGARFAKWRGVIAISETLPSPGAVKANAQALARYAALCQAAGLVPIVEPE
+VLMDGTPGDHSIARSEEVTEATLRIVFEELASQRVALEGMILKPSMVIDGKHARKAKVDE
+VAERTVGVLKRTVPAAVPGIAFLSGGQSTEEATAHLSTMVSGFTLPWTLTFSYGRALQAE
+ALAAWKGKQENIAAGQRAFTHRARLCSLAALGGWRRELELAA
+>tr|A0A1Q9ANS5|A0A1Q9ANS5_9RHIZ
+MSGQEQDITDNDVLAYADGQLDGDARDRVERHLTADPAATALVREWQRQNGLLEALYGPV
+ARESVPERLQPQRLARLRKASDASSWRQLAAALALLALGTGSGWLAHGFLAGDRGMAEPL
+VAQAVEAHDLYSGDVLHPVEVKAEDSAHLQTWLSKRLDRKLSIPDLRSDGLNLVGGRLLP
+AAGGEPAALIMYEDDSGQHVSLYVVPTDDGGETALRYNNVDGLEAISWTDEDVHCALIGG
+LPRARLEAIAKAAYAQLI
+>tr|A0A1Q9AE09|A0A1Q9AE09_9RHIZ
+MTDDEQSLAVRAAWLHYVGGLTQSAVAKKLGVPSVKAHRLIARAVADGVVKVTIDGEIAE
+CVALEAEMAAQYGLAFCEVAPDLEDDAQVLAALGQMGASFLRREIERGERRVIGLGHGST
+LSAAVHLLPRLSAGSTKFVSLLGGLTRNYAANPYDVMHRIAEKTGAQAYVMPVPFFANTE
+EDRQVLLAQKGVREVFRLAENADLKLVGIGTVDYAARLFQSGMLEKDEIDDVAKRGGVGE
+MLGHFFDRHGRMLDTSVSHRTLAARFSPGRDDSIVAIAGGQAKTEAIRAVLHSHSLYGLI
+TDEGTARRLLGR
+>tr|A0A1Q9AQ28|A0A1Q9AQ28_9RHIZ
+MGLFARAERGQLEAFLKREASDVAVHPVRGPETGLVMVRGRIGGGGAPFNLGEATMSRAS
+IRLEDGTIGHGQLLGSDRAHARLAAILDALGQTAAFTARVAALTQEIEARLTADDEGRAE
+ETAATRVDFFTMVRGED
+>tr|A0A1Q9AD62|A0A1Q9AD62_9RHIZ
+MHRQTSCPSPRLVARVANLRRAPAVANRREGEATGATGPDKWQLLRALTECRAAFGLGDR
+SLLVLEALASFHPARQIDPRQPAIVFPSNAELILRARGMAPATLRRHLAALVTAGFIARR
+DSPNGKRYCRRGESGAGDQSFGFDLTPLALRADEILAGAALAARDKRAVQRCRAEITVSL
+RQIAQHVASALEQGLEPQLWQSFAARLGALSGRVSRSAALEALNDRRTRLAALLQEAEAA
+WGQALQSAQMSANDAQNEHHKQKAESEYSFEKVQEIVPQALVDGAEVPDDRNESGKTDEG
+RAETDRVEKQRSGPVAARTAQSPGLSLERLLRLCPDFAAYAVNGLSSWHEAARVAETVRS
+MLVIPATAWMRAIRGFGRDGATIVLGVILQRADAIRSPGAYLQALVAKAERGLFSLDQLL
+DGLMSPERSRP
+>tr|A0A1Q9ADR6|A0A1Q9ADR6_9RHIZ
+MDISTVLLLQKTSYIAGAIVLLFMRRTLPNTDGVVAIAACFALLSIGSTIAAGLDPQAWN
+YAILAWTTLLMGVAAYALWAMGLTHLSGQSRRISLWHVFGVTLAVMAPATLAGLHAVDSV
+RGALFMGMACASLIFSAIVVWRDNAVEPLRVRPLLAGVTGASGLLCGVAAVEFLTNEFWL
+ISPASIFFLLIVTKFLFTYLVTVLISERQHIKLQRLADTDGLTGVANRRAFERSVGPQLK
+ADDVILLIDVDRFKSINDRFGHAGGDDVLKSIAETLRHLTPRNGLVARYGGEEFCVHLPV
+EAGDAAQIAERMRAAIERRQLESEMGEIVHVTVSIGLARVRESEDDLRSACSRADKALYH
+AKNAGRNRVLSFDDGRTITRMRSAR
+>tr|A0A1Q9AFX1|A0A1Q9AFX1_9RHIZ
+MITIAPAGDPDQFAAAAALLSAFAAWDAAQAAQVGLEPQLVLDLFHADEDQVSLMQKFAA
+QDAALLLAYQDGDCLGTLGIAPFDTGRMELHSFYIDPAARGQGIGRRLIEAAVDFAVSQG
+QQTLLVQTTVYMQAALSLYHATGFAPAPPFRQIPDAVTATERFFSRPLPGAAS
+>tr|A0A1Q9AM31|A0A1Q9AM31_9RHIZ
+MPVDAKYKTKATASGGGRDGRTKLEDGTMDLQLVVPKELGGPGGEGANPEKLFALGYSAC
+FLGAMRVAAGQLKTKVPEGTTVTAEIGIGPRSEGGFGITAELDVTLPGMPEDEAKQLVET
+THGICPYSNAIKASVDVKTTTHA
+>tr|A0A1Q9ALV3|A0A1Q9ALV3_9RHIZ
+MRLSKLSVRNFRNFQSVDIALSDNVVLLGENRVGKSNLLFAIRLILDSTLPDSARQLKLS
+DFWDGAAAPYEDAIEVHLELADFASDLGLLAMLSEFRPEDNPTIARLTYIFRKKADIKGA
+PQSSDDCEFLVFGGGVESRTVPSKVRRRIAIDMLDALRDAEGQLGTWRSSPLRPLLEDAI
+AGVTRAELNAVAVELDKVTKALEAFPTIKDLEEELRTGILNLSGKAHDIDARLRFAPSDP
+LRLFRAIAMFIDGGRRGIAEASLGSANVALLALKLAEFAWRRKKNERNFSLLCIEEPEAH
+LHPQLQRSVFKKLLAGGDAGQSLIVTSHSPTLAAVTPLRSIIHLRTRDQSTRAFSLAELP
+VTPDELDDLENYIDATRAELLFARGVIFVEGDAEEALVPVFSSALGHGLDDLGISICNVA
+GTNFSPYVKLAESLGMPYAVITDWDPLDGTKLPLGKTRTLDLWDDILKVRKQPAVNPVQR
+GQWEALDFAAFASMVAPAGIFLNEQTFEVSVANTPSLLSPLLDILGAQGFGSIRTKRIAS
+WRSGTASVDPAQLLAMIADIGKGRLSAKLSKKAVGLTPPKYIADAIAYVVSRVH
+>tr|A0A1Q9ADM2|A0A1Q9ADM2_9RHIZ
+MDINRSEHQLRQKDDLKIGVIGGAGWLGAAIAAALIEAEVVTPDRLTLSYRSTRSDAVPG
+AFWTTDNQELADRSDILLLCVRPADWAGLHVDASGKLVLSVMAGIGLAALAQRHGTARVV
+RTLPNAAVTVRKSYTPWLAAPAVGEADRAIIRRIFDACGTQDEVRSEAEIDYLTGLTGSG
+PAFPALLAEAMMLDAIDRGFDRDVARRAVNAVLIGTGRLLERQDDCPSDTVRTFLDYRGT
+TAAAIEAMTSSGLRAAVANGLAAAHEKSVRLGEPS
+>tr|A0A1Q9AQF5|A0A1Q9AQF5_9RHIZ
+MEDKEQVAPARRPRVKSAITRALAAEICDGVFAAGQLLPRENDLGQRYGVSRTVIREALK
+VLESKGFVVGRSRIGTRVCARGDWKILDPQVLDWIGERIFDADLIAAILEARRAIEPVAA
+ELAAERASVQEIADLDAAWRRMRDGEGDLLAFTEADVAFHAGLLKASHNRIFSELSGVIE
+AALRFSLKASNAAVATHEEALDVHRRLVEALRLRDGAAARQCSQTMLDLAERDLAGARHR
+PPQSGA
+>tr|A0A1Q9ALG3|A0A1Q9ALG3_9RHIZ
+MRVLVTRPAPACARTAARLAERGHHPILLPLTEARHDAAAVQSALSQPFPALALTSGEAV
+AALSILPDAASRIGARPVFCVGAATARAARTLGLSQVITGPGDGEGLAHEILARETLARS
+SIAARHAEGAPPLLYLAGRPRAPAFEAALAEAGLAVVTVEAYAMQACPIDAGRLRAAVVG
+QAPQAALFYSREAPLRLAALAVEQALVPAFCRILCMSPRVADAVPAAWGPVLVPPSPDED
+TLLALLA
+>tr|A0A1Q9AMM7|A0A1Q9AMM7_9RHIZ
+MSDTSALEIQRAIERLSALSPDDREAFNLAVTLATLLGLRRGLPDQQMLVALHAAMRHLR
+TRQSHEVH
+>tr|A0A1Q9APT5|A0A1Q9APT5_9RHIZ
+MRTGTIIERRQDFSAALAPKLEALPNAQRKKIEALAHLLYSACAWEVVKDYGGLDGTQAG
+EAASWALELILSAISSGETAADATIAAKGDGR
+>tr|A0A1Q9AKJ9|A0A1Q9AKJ9_9RHIZ
+MSSERQLASDLGGIKHDFAPTYDQAWPHDYLQAHLGLDYVIPQNAKPTFERLIAACMKAK
+RKDSLKIVDVGCSYGINAALLKCAMTLDELYAAASRSGTLRRRNIASHRSFFAERLRRHD
+LIIVGIDPAVRAAGYARETGLVDAVITADLEQCALNEREVDLLADVDLIISTGCVGYVTE
+RSFDRLYGAVAQFRPWVACFVMHPFSYDNIGNTLSRYRLATREIKSWCQRQRRFSTLKEK
+RAILATMKSSGVDDRLERTTGYVYASFHLSMPEEMMPKELDVWGIQFA
+>tr|A0A1Q9AGA7|A0A1Q9AGA7_9RHIZ
+MTTRNLFLLPGDGIGPEAMAEVRKIIAYMNEEMAAGFTTDEGLVGGAAYDAHGAAISEAD
+MAKALAADAVLFGAVGGPKWDSVAYEVRPEAGLLRLRKDLELFANLRPAICYPALANASS
+LKPELVEGLDILIVRELTGGVYFGEPKTITDLGNGQKRAIDTQVYDTYEIERISSVAFEL
+ARTRQNRVCSMEKRNVMKSGVLWNQVVTETHKAKFADVKLDHMLADAGGMQLVRAPKQFD
+VIVTDNLFGDMLSDVAAMLTGSLGMLPSASLGAPDAKTGKRKALYEPVHGSAPDIAGQGL
+ANPIAMIASFAMCLRYSFNMVAESDRLEKAIANVLDKGIRTGDIMAEGCRKVGTTEMGDA
+ILAEFKALSA
+>tr|A0A1Q9APB5|A0A1Q9APB5_9RHIZ
+MRSVSAVSAQSDLDDLLDTVADGGEPVEIVGGRHSAVLVDKRDYDSLIETLHLLSSPVNA
+ERLLSAAADVSHGRNLIQAAPRPTEE
+>tr|A0A1Q9ACC0|A0A1Q9ACC0_9RHIZ
+MIRARSRPSLFSPVRWRLAAACRLFVLALVLTAACGFSPAAAQEALRPLVNALGTGGFPE
+RAEAVKALAATGDPKVPEILTYLNDGELYAPKAGGAVYRIASGNTVIDPLTGAPVEGVAA
+GGLQKIRLNNTLRGAITTAMSQLTLLSPDRDKRFSAAQDILKSADPAQLALVDGALAQEK
+DNAIKGLLGAARAVMVLRSDHSVEEKKAAIETVAARGNRDALTILTTALAGAPADLVPVI
+EGKIEGIERQMALWDVAQNIWYGLSLGSVLLLAAIGLAITFGVMGVINMAHGEMVMLGAY
+TTYVVQQAVATYAPALSTYGLAIAVPTAFLVTGLIGVAIERGIIRFLYGRPLETLLATWG
+LSLILQQAIRSIFGPTNRQVDNPPWMSGTVDVGGLAVTWNRLWIIVFSIAVFFALLTLLK
+RSRLGLQMRAVTQNRRMASSMGIRTPYVDALTFGLGSGIAGMAGVALSQIDNVSPNLGQN
+YIIDSFMVVVFGGVGNLWGTLVGALSLGIANKFLEPYAGAVLGKILILVLIILFIQRRPR
+GLFALKGRAIEQ
+>tr|A0A1Q9APT3|A0A1Q9APT3_9RHIZ
+MAYRLHADKPLSRSVRRIATAELDHALLLLRDQPEGEAHAIHKSRRALKKTRGLYRLIAP
+AAPFFQREENARLREIARGLSATRDSAVLIETAARLEADSTGEHSAAAARAGDALKARHA
+ALAGSAEAVDLPATLAALEEAREAASRFVMTTAGAPHALLAKAWHKSIIRAQAALKRCRE
+APEADAFHDLRKRAQDWRFFHLLLRDAWPGPLNAREGRLKALSEDLGAVNDLAVLHEVIG
+HDTQLLSEHDRPLLLAALAETLKARREKVLVKAEALYEIDAEIDRRRIKRLWKDAG
+>tr|A0A1Q9AQ10|A0A1Q9AQ10_9RHIZ
+MFAYLLMRIASAVPVLFVLSVVTFAIIQAPPGDYSDYIRSQLINQGGASFEAADAQAQAY
+RVEHGLDKPLPLQYVNWITGIVTRGDFGQSLYYNKPVADVVAERLPRTLALALVCHILAS
+VIGISFGILAATRQYSWVDSLLSGISFLGMTVPRFLMALIIVYVLVFHFNVSEIGAFNSA
+RYGGAPWSWGKFVDLLQHVWPVIAIATFGGLAYNMRVMRGNLLDTLNAQYIETARAKGLS
+EGKVILRHAVPNALHPLIMYQGVVLPYMLTGEIETAIIFALPTVGPAIVGSMWVGDVYVT
+ATFMLVLSATLIVGNIIADMLLAALDPRVRLGGAPA
+>tr|A0A1Q9AKV6|A0A1Q9AKV6_9RHIZ
+MAITILDGIVLGVALFSAVLAMVRGFSREVLSVASWVAAAGAAYYLHPYLVPYAKQYTES
+ATIALVGAAGVIFLVALIIVSFITMRIADFIIDSRIGALDRTLGFVFGAARGVLLIVVAM
+LFFNWLVKPEQQPAWILQAKSKPVLDNLGAKLVALLPENIAEDVRQRLTGAGRGENDAPA
+VEQPPQDDAPATEPRSNNGG
+>tr|A0A1Q9APJ0|A0A1Q9APJ0_9RHIZ
+MSTASPETLSDVIRPGAGRLIVIGTGPGAPEQMTPQAQAAVAACDLFFGYGPYLDRLALA
+PHQARIASDNREELARARQALDRAREGHRVCMVSGGDPGVFAMAAAVCEAIDRDPAAYAG
+VDLEILPGVTAMLAVAARAGAPLGHDFCAISLSDNLKPWSVIVRRLQLAAEAGLVIALYN
+PISRARPWQLGQAFDTLRAVLPASVPVIFGRAAGRPDEAIRVLALETADPALADMATCVI
+IGSAETRIVARPGQGDLVYTPRFSAGAGGYTP
+>tr|A0A1Q9AQ75|A0A1Q9AQ75_9RHIZ
+MTVTIFNRPDIQDFLKVLSGLDQTNGNPRVKQIVHRIVSDLFKAIDDLDITPDEYWIAVA
+WLNEIGAAGQAGLISPGLGLDHFLDERLDAIDEALGIKNETPRTIEGPLYVAGAPECHGF
+ARLDDGRDTDGHTLIMHGTVYGSDGKPMPGAKVEVWHCDTRGFYSHFDPTGQQAPFNMRR
+TIIADDQGRYKFQSIVPHGYGVPPGSPTEKLLSALGRHGQRPAHVHFFISADGHRKLTTQ
+INIAGDPLINDDFAYATRDGLVPDVIERTDDASIKANGLNGPFAEIVFDIKLTALVNGVD
+NQVNALRKRAAA
+>tr|A0A1Q9ALV9|A0A1Q9ALV9_9RHIZ
+MTMTADALPDELNALKVILLSRELENDRLRQIIKELQRHRFGRRAATLAEDQLLLGLEEA
+NRSRRTVWKIRSKRRTICAGNGLRSGR
+>tr|A0A1Q9AFA1|A0A1Q9AFA1_9RHIZ
+MPSAPPSLQTVPVTLHINGKRHDLDVAPWTTLLDLLREELKLTGTKKGCDHGQCGACTVL
+VDGVRINSCLSLAVMRNGAEITTIEGLGTPERMHPMQRAFVEHDALQCGYCTPGQICSAV
+GLVAEGHAESRAEIRELMSGNLCRCGAYTNIADAVEDVLNQQQKAAAE
+>tr|A0A1Q9AH32|A0A1Q9AH32_9RHIZ
+MRGGFMDRALKQAEAAAARGEVPVGAVVVLDGTIIAEAGNRTREKLDVTAHAEIEAIRQA
+AQIIGSERLTDADLYVTLEPCAMCAAAISFARIRRLYYGAEDVKGGAVDNGPRFFAQATC
+HHAPEVYSGLAASDAADLLTAFFAARR
+>tr|A0A1Q9AMP1|A0A1Q9AMP1_9RHIZ
+MTERLTLVLGGARSGKSRFSEALAEACGLERHYIATAQAFDPEMEERLAHHKARRDQAWT
+THEEPLDLVGVLRDVALPGRIVLVDCLTLWVTNLMMAERQVDAEGERLAAALSTLSAPVI
+LVSNEVGLGIVPDNAMARVFRDHAGRLHQAIAAVADTVYFIAAGLPLTMKGG
+>tr|A0A1Q9AK85|A0A1Q9AK85_9RHIZ
+MLKLDRTDIKILYELQKNGRITNVELAELVHLSPSPCLMRVKRLQAEGYIEGYSAQINLA
+KLGQTLTVFTEITLKNHRQVDFARFLAVADKIDQVIECHLVSGGYDYLLKFVTAGIGEYQ
+TIMERLTDMDIGIDKYFSFVVLKSPIVKSHLPLTSLFPV
+>tr|A0A1Q9AL40|A0A1Q9AL40_9RHIZ
+MPKRDFLEFHAVDAAVIDHLIDRAITLATLWTERRMPQSLTGRRVGLISDDTGWRNMTAF
+DLGIQAMGGLCTHAPVHLGQREATADLAGYLQNWFDLLVIRTRELYNLKALAASAVIPII
+NARTSSNHPCETLGDLAYIKQQRGSLEGLKVCGIAPDANILRSWVEASLILPIEVVQVYP
+RLWHVRDPALANANFRVSEDMDEIRDADVILTDSWPQEREAADLAAYRVSAAQLDRAKSD
+VVFLPCPPVERGEEVSDDALLHPAYKSLEAKAFLLHAQNALVEWVLEER
+>tr|A0A1Q9AJ42|A0A1Q9AJ42_9RHIZ
+MQVDSRSNPGQTGENRNARQVRVAGAAETSTRPTTTVQVGGVTSGFDPSSRVALSAEAML
+FLSYGTKRAPVAEKYPPLTHDEWANKLSPQLAAREYQAFGRYTETGDYKAYYRAFIDYYD
+NLRPEDQTSLRYFGTRDAAVAGLRSMDYSDGTETGTKVFTTLVSALLDGEKTDLDTPERP
+ASNMIAGDMFGWEAPAFSYDDGSERRGPLSEIEKFYTEDF
+>tr|A0A1Q9API2|A0A1Q9API2_9RHIZ
+MTPSVYVFDAYGTLFDVHAAVRAHAQALGPQAEAFSALWRRKQLEYSWTHALMGEWRDFW
+QLTEQALDHALAAYPALPATLRDDLLASYWTLDCYEDVPAVLHALKAHGARVAILSNGTE
+AMLEAAVKRAALDTLVDDIFSADAVKTYKTDPALYEMVATAYRLYPQSVSFQSANRWDIA
+GASRFGFRTVWINRTAAPDEYPDHAPHLILPGLKSLELHI
+>tr|A0A1Q9AI30|A0A1Q9AI30_9RHIZ
+MDISIPFPKDLYDMIVIRSGGRLDPVALAVSQVEQFVDRNRHDPNFWTDEGLGAFADEEP
+EIAADYGDPDKGHLWNPLFLRNGTELRMQYKAKTAYARIVHDMVTSGEGAYGSVSQWVKH
+VADGTSRNAWLDVWVRRPGEKDFSPANSMR
+>tr|A0A1Q9AQ33|A0A1Q9AQ33_9RHIZ
+MTAAHPLLSVRDLTVTVEDGDTPRTLLDTVSLDLNRGEILGLVGESGSGKSLFCRSLVGL
+LPSRSLKRTGGAVLLDGQDIAGASAVELQAIRGARIGMIFQNPTSHLDPVMRIGDQITEG
+IRFHQGLGGVEARTAALEIMAQVGFTDPPRQFSNYAHEFSGGMRQRAMIAIALACNPEIL
+IADEPTTALDVTIQAQILTLLLEIRKARGLSIILITHDLGVVAQTCDRIAVMRHGRLIEV
+GEKRRILSAPAEAYTQALIASHPSMPAEVAPGRSPQSEIVSPRPRALVEIDDLHVRFPVG
+GGLLSRRKTFSAVGGVSLQILPGETVGIVGESGSGKSTLARAMLGLTPLSEGHVTFDGHS
+LSLKRAETLKALHSQAAMVFQDPYNSLNPRLTIGETLAEVLRVHRKVPDAAINARVGELL
+DLVELDRSFAARKPRSLSGGQCQRAGIARALAVEPRLIVADECIAALDVTIQAQIVALFR
+KLVATMELTLVFIAHDLAVVRSLCQRVVVMHHGRIVEEGPSDRVFSAPSQAYTANLIAAI
+PDIDPDRPLSGAPLSSPLTKGQPA
+>tr|A0A1Q9ADG4|A0A1Q9ADG4_9RHIZ
+MQDALSTRQDLFADFKHVDFWIFDLDNTLYPQDLNLMVQMRTRTYDYIRQLLDTDHTGAA
+ELYERFETVYGTAFNGLIIEHGIDPHVFLDYVHDIDHGLLVPDLQLADAIRSLPGKRVIY
+TNGTVGHAENVLKRLGITDAFDCIFDIVWADLDPKPHRAPYERLFAQMGADPKRAAMFED
+VARNLEIPHVLGARTVLVSPEFLCRSRHTDRAAADVAPGYIDYITHDLRGFLAGVLNALP
+DNRHNEDDRPGTF
+>tr|A0A1Q9AG71|A0A1Q9AG71_9RHIZ
+MASFFSRLFGGGSRQEPDAAPADSASLQEQDMTIRARPMKEGGQFRLAGVIEKTVDGTLR
+TRSFIRADVFTSETDAADAALRKGQQIIKEQGRLLFADAEDSRAV
+>tr|A0A1Q9AH67|A0A1Q9AH67_9RHIZ
+MALIDLPDFAGTLLDEFAARRTHRVDTPVIQPAAPFLDMAGEDLRRRIFLTESETGESFC
+LRPEFTIPVCLRHIETATGTPKRYAYLGQVFRQRREGGHEFYQAGIEDLGDPDLAAADAR
+IVADALGCLARILPGRSLTVTIGDQAVFEAVVAALGLPAGWQKRLVRAFGQQEVLDAMIA
+RLARPAPMAGLPAEVEALLQAGDEAGLIAHVEAEMARTGTLTNASRAPQEIVRRLKEKRQ
+LADASLDKAKLDALKEFLSLNVSLRYAPGVLADFARAAGLPLDGAIAGFDARVAAFANAG
+APLADITWRAAFGRPLDYYTGLVFEVTERGQHKVLAGGGRFDRMMTLLGAPDHIPAVGFA
+LWLDRIAAALSPAGERTAP
+>tr|A0A1Q9AMY0|A0A1Q9AMY0_9RHIZ
+MALPTYYGDGTATVNANDVQVTGQGTQWIAAGADGNDYFQAAGLSVRIASINSATSLTLA
+RPWPGASRNAATYEIMYAPEATRAFAAANKVLGALGNGNIQAIAGLETVADKIIYWTSAG
+VAALTGLTAAARSLMAATSFSDACAAIKAVFSENPVITGSLRYKIGAAGQGVIIDDIART
+DGVSRYRRYFNTDNSVSFAPHDANGNWLGTAHRIAQDRSNIFVSNSLVMPGYGTGPGVGI
+DANGRLSNAVPSTMENAYYQRGAVGEYARFFYGDIYQTPTRVGQISTDGLSVSYGTASDY
+RLKTDVSPLVSFAIDPDEFAGMDNALLRVMGMRPVSYRRVDDPAAALQTGFIAHELQSVA
+PHAVTGVRDALQDVGRLEIDETEHTPAATYENVPADNAAGGRWTKTGKSAVYQTVDHSKI
+TPDLTAALQALTLMVLDQEKRIATLEAPTASA
+>tr|A0A1Q9ANH6|A0A1Q9ANH6_9RHIZ
+MAFAVMSMTDAAAARVRKIVDNSGEPAKGIRVSIRKGGCAGMEYAIDLVTEVQPKDDLIE
+HQGARVYVAPEAVLYLLGTRMDFETTTLRSGFTFSNPNQTSACGCGESVELKPADLAALA
+ARGEAVVRAS
+>tr|A0A1Q9AQ21|A0A1Q9AQ21_9RHIZ
+MTDLTPVLKQADDGLSASLERLFELVRIPSISTDPAYKADCRKAGEWLVAALSELGFDAR
+LDDTPGHPMVLAKDLSAGEATPHVLFYGHYDVQPVDPLALWEAPPFEPALKELAPGKTVI
+TGRGTSDDKGQLMTFIEACRALKAVHGRLPCRVTILFEGEEESGSPSLKPYLEAHAQELK
+ADYALVCDTSMWNAETPAIAAALRGLVGEEVTIEAADRDLHSGMFGGAAANPIHVLATIL
+AGLHDETGRVTLPGFYDGVEETPSQIKASWETLGETSEKFLGEVGLSVPAGEQGRSILEL
+VWARPTAEVNGITGGYTGDGFKTVIAARASAKVSFRLVGAQDPQAIRAAFRAYVEARLPA
+DCKAHFHEHGASPAIQLPYDSPLLQSARTALSDEWPKPAVIIGMGGSIPIVGDFQRMLGM
+DSLLVGFGLSDDRIHSPNEKYALTSFHKGIRSWIRILDAIGA
+>tr|A0A1Q9AQ77|A0A1Q9AQ77_9RHIZ
+MVVQPAKTPTKADARQHESYGALVWRRLKRSWTGMIGLVLVCLLLFMAVFADFLAPVDPK
+ATGVGFAPPQAIHITDRDGNFVSPRSYPLADGQDLDPITFQPVIGPDYDNPQVLGLFVKG
+APYHLFGLIPAERHLIGAVDGTPVHFLGTDKFGRDVLSRIFYGSRISLMIALTVVTIVTV
+IGTTVGMVSGYFGGRFDAWTQRLVELILAFPQLPFYLALTSLIPVTAPTHVFIAFVILVM
+SGLGWAQMSREVRGKTLALARIDYVRAAIAVGATDRRIIFQHILPNVLSHVIVAVTLAIP
+SVVLLESFLGFLGFAVKPPLISWGLMLQDTATYSVIGSYPWILSPVAFVLVTVFAFNALG
+DGLRDAVDPY
+>tr|A0A1Q9ACS4|A0A1Q9ACS4_9RHIZ
+MKILMTVSRFCLILSAMPALLVPVAQPRAAEREVVKTYAITGTTGAELYASIGDRGPVLG
+HGQRVIAHTSFKLTWKRDYREEAGGCRLAGAIPSLVITYTLPKPSGPLSPAMAESWKRFS
+DGVRRHEIEHGRFIREMVAEIEAASFGLAATPDPGCRQVRQMLNARLKAISDRNTARNAA
+YDRVEMSEGGAVHQLILALVNGP
+>tr|A0A1Q9AEW4|A0A1Q9AEW4_9RHIZ
+MSTSAKLDTGKNKQGEGSLVLRLDEVRPNRIPAKRQTAPELPSARPRKTVVTYKTEKITG
+FVKAASGGISGTAISFFLMVVLPTVIGAMYFAFVASPQYVSEFRFSVRPSSTNGSMAAEA
+ALIMSNSYIVSDYAISRDAVEALDKMVGLRQIYSNENIDALSRMSPDASIEKMVTYWKRR
+VSTSYDLTTGINIIEVSAFRPEDAQRIAAGLKTLSEKLINEISEKARQTQMSVSKTELDR
+AAERLRDLRREQTALRIDQGTIDARKEADAKLQITSKLRSEQAALKSEYASLSSYMDSKS
+PKLSVLRSQIKANDDQLKQMQSQITTSDDKNGALDGASLVTRYDELETDIDIATKYYQSM
+LTNFENARMQASNSQIYLATYVQPGLPQIASYPRVVFDTILVLLSAIGIWVVLTLIYYSI
+RDHA
+>tr|A0A1Q9ALI7|A0A1Q9ALI7_9RHIZ
+MRIDAIQIGKNPPDDINVIVEVPVGGHPIKYEMDKEAGTLIVDRFLYTPMTYPGNYGFVP
+HTLSEDGDPIDVLIASTRPLVPGCVINVRPIGVMMMEDNSGKDEKIVAVPNYHLTKRYDK
+VREYTDLPEITLQQIEHFFEHYKDLEPGKWVKIYGWKDAEFARKQIVEAIERAKKAEA
+>tr|A0A1Q9AMR1|A0A1Q9AMR1_9RHIZ
+MANREKGEVSFSCEGKTYTMKLGTGAMCAIEDATGKSIGEVGKALGNPETATLTMVRIVF
+WASLQGHHPGTSLADCDELIDEIGVSRAGELIGQAFQAAAARKSPDARPRTATAAP
+>tr|A0A1Q9ADA1|A0A1Q9ADA1_9RHIZ
+MLIIFGGLPASGKSTIAGALARSLGACYLRVDTIEQAILAHAPLAERDVGPAGYVALYRL
+AADNLRLGNMVITDSVNPLDVTRDAFRSVAIAAGRPFIEVEVVCSNAAIHRHRAETRQAL
+PGESVPSWAEIEARRFEAWSADLRLDTFQLSVEDCVAQIAALTRSRADQA
+>tr|A0A1Q9AEH2|A0A1Q9AEH2_9RHIZ
+MTQDGLALLIARIGLRDREAFALVYRQTSAKLFGICLRILKDRADAEEALQDIYVKIWER
+AVSFVPGETSPAGWLQAIARNHAIDRLRARKPVADAIDEAYDLADSTDDPEACAVAAGER
+RRIDVCLGELAAARAEAVRRAYVEGASYQELADHFAVPLNTMRTWLRRSLLTLRKCLER
+>tr|A0A1Q9AEM6|A0A1Q9AEM6_9RHIZ
+MAPRKIIIDTDPGQDDAAALLLALASPDDLDLLAITTVAGNVPLTLTTRNARVVCEVAGK
+RDVKVYAGCDRPMKRQLVTAEHVHGKTGLDGFEVDEPTMPVEEAHAVDFIIETLRSAEPG
+TITLCTLGALTNIATALTRAPDIAPRIRELVMMGGGFFEGGNITPAAEFNIYVDPDAAEI
+VFKSGVPIVMMPLDVTHQVLTLKRRVDRFRTMGTRVGDAMTGWLDFFERFDVEKYGSDGG
+PLHDPTVIAYLLKPELFSGQACNVEIETVSDLTVGMTVVDWWQVTGRPHNALVMREVDAE
+GFFELLTERLATL
+>tr|A0A1Q9AP87|A0A1Q9AP87_9RHIZ
+MNEKNPTPPAGADGSPAARAEDIALARRLLADAPDAALAVLDDSGHPFVSRVLVATDRDG
+TPFLFVSALSHHTRALIRDGRCSLLVTETGKGDPLAHPRLTLQAMAAPVARDAPERDRLR
+QYFLDRHPKSALYIDFQDFLFIRLMPIKGHLVAGFGSTAMLTAHAVLNET
+>tr|A0A1Q9AME2|A0A1Q9AME2_9RHIZ
+MTDLASTELPASSQHRGKNAKLKSALLRHRALSLQGLSERTFGLLFSGLVYPQIWEDPIV
+DMAAMEIAPHHNIVTIGSGGCNMLAYLSGGPRHIDVVDLNTHHVALNRLKLAAFRALPGH
+GDVVRFLARDGLSSNIAAYDRFIASALDAETRAYWEKRSPSGKRRIRVFSRNIYKTGLLG
+RFIGLGHLVARLHGVDLTELTQARSLRDQRRIFDTRIAPLFDKPVIRWITSRKSSLFGLG
+IPPQQFDELARLSDSRSVADVLRQRLEKLACHFPLRDNPFAWQAFARRYPNGEEGVLPLY
+LRPESYEAIRNNTDRVQVHHASFTDLLATKQAGSMHRYVLLDAQDWMTDAQLNALWSEIT
+RTASPDAVVIFRTAGEDSIVEGRLAKVVRDQWFYDTARSAELSPQDRSAIYGAFHIYRKI
+A
+>tr|A0A1Q9AQS9|A0A1Q9AQS9_9RHIZ
+MKNIALLALLLFLAAIGLFLAVVWNGYEWHQKLTVTVDTPNGPLSASSVQQMRLSDKRGP
+WNPPEGSGVSFTLSGEAVVMELSQGRYLFALLSGTPSLGEQLYPKMDVIDAAKLLERGEA
+EAYRSVTLSRRDHPLLVTFGDINDPASVERVDPANLEASFGPGYRLQSMTLALTEEPVTK
+GKVKKVLLWLGPYPEPTLSPATGDISNIPFSSKVAQGDFIRGKR
+>tr|A0A1Q9AE65|A0A1Q9AE65_9RHIZ
+MSYKNFTIETDADGIALVTWDMPEKSMNVFTEEVMNEIDAIVDATVKDEAVKGVVFTSGK
+STFSGGADLTMIRGMFSLLQDEQAADPDQAMQKLFEVAGRMTWLWRKVETNGKPWVSAIN
+GTCMGGAFELSLACHGRVASNAKSVKIALPEVKVGIFPGAGGTQRVPRLTNAQDALQMMT
+TGQTLTPQRAKAMNLVHQVVEPDQLIPAAKQMIKDGLKPVAPWDERGFKVPGGGIWTPAA
+AQLWPAAPAILRRETAGNYPGALAILKCVYEGLQLPFDTALKVEQRYFTQVLRTTEAFSM
+IRSLFISMQELGKGARRPAGIEKQKLAKIGVVGAGFMGASIAYVTAAAGIAVTLIDRDEE
+AAAKGKAVSEKLVADSVGKGRMTKEDGEKLLSLITPTADYATLSDVPLVIEAVFEDRQVK
+KDVIEKIEALLPEGAIFASNTSTLPITGLAENSKRPEQFIGVHFFSPVEKMMLTEVILGE
+KTGDKALAVALDYVAQIKKTPIVVNDTRGFYVNRCVFRYINEAYDMLIEGVPAAMIENAA
+KMAGMPVGPLSLNDEVAVDLSQKIMKASIADLGAASVKPEHMTLIDKMVNELDRRGRKNG
+KGFYDYPAKPAKKSLWPGLKELYPQKSPGDVDVTVLKERLLVTIALEAARTIEEGIVTDP
+READVGSILGFGFAPYTGGTLSYIDGMGVKAFVALCEKLAASYGDHFQPTPLLKEMAEKG
+ETFYGRFDPYGAEKKAA
+>tr|A0A1Q9AHA6|A0A1Q9AHA6_9RHIZ
+MAPGETLDAFHRGAFHLLQPARQGHRSGMDAMLLASLVAAEGPFQLADLGAGAGAAGLAV
+AARLPRAQVMLVERSPIMAGFARRSLDLPENAHLRPRLSVIEADVTLTGRARQAAGLADD
+HFDHVILNPPFNHGADRRTPDRLKAEAHAMEAGLFEDWIRTAGAILKPGGQMALIARPES
+IAEIIGACGRRFGGLEVTALHPRDGADAVRILVTAIKQSRARLRLRAPLIMHEAQSHRFT
+ALVDDLNNGRAAYPRNG
+>tr|A0A1Q9AH75|A0A1Q9AH75_9RHIZ
+MRANFRMQRLFLQAALAPDAAIEATGDQFNYLANVLRLGEGAEVLVFNGRDGEWRARLAF
+PTRKRIQMIPVEQTRPQPQAGDLHYLFAPLKTGRLDYLVQKAVEMGAGRLVPVMTQHVQG
+RITSLDRLRANVIEAAEQCGILSVPAVDEPVRLEALLEGWDPGRRLIFCDEGAAGDNPLP
+LLGAIEERALALLVGPEGGFSEGERQLLHSLPFVTAIPLGPRILRADTAAVAALAVIQAT
+IGDWR
+>tr|A0A1Q9ALD6|A0A1Q9ALD6_9RHIZ
+MLSDAAGIGLWEALLHEGDAMHAKSQWTWSNEMRRIMGFSGLSDFPDVVQSWSDRLHPDD
+VAGTFAAFGASVTDKSGKTGYDVRYRLKCKDGQYRWFRATGGCRTLPDGRTVLACGSLMY
+IHDQVVLEESQRANSEADKLIFSALQAGLTALASGDFGHRIDQVPEKASSLKENFNRTAA
+LLGGVIAGVNSTAGTIVDTSNQITHACDDLSRRTEQQAASVEQAAAAIEEITQAVSNTAQ
+NAGRVSSLTTQARQATETSGTVVQDAIAAMAQIAGSSDQIGQIIGVIDEIAFQTNLLALN
+AGVEAARAGEAGRGFAVVAQEVRELAQRSAKAAKEIKTLISTSASQVKGGVDLVDRTGHV
+LGEIAGQIRDISSLIENIASSSREQSTALGEISSTISQIDQVTQQNAAMVEETTAASHNL
+VSEAGELMRSIAHVKIETAPSQTYRTARAA
+>tr|A0A1Q9AIP6|A0A1Q9AIP6_9RHIZ
+MGRVIDGKQVAATVIDKVKQAAGALEAAGGPRTGLAVVIVGDDPASHAYVSAKSRMAKEC
+GFASVQHTLAGETTQEELAALVETLNNDPAIHGILVQLPLPGHLQAEPIIQSIRPEKDVD
+GLHVVNAGKLATGDLKGGLISCTPAGAMVLLREVHGADLSGLNAVVIGRSNLFGKPMGQL
+LLAANATVTMAHSRTRDLAAVCRQADILVAAVGRPQMVKADWVKPGATVIDVGINRIDAP
+ERGEGRSRLVGDVDFAACEPVSAAITPVPGGVGPMTIAMLMANTVIAAHRASGRPSPSF
+>tr|A0A1Q9AIQ6|A0A1Q9AIQ6_9RHIZ
+MQRAISAVTRRLVILIPYGWLLFFFLIPFLIVLRISMSTSAVAMPPYTPVFDWSEGWARI
+RSALSELSFDNYVWLAGDPLYLNAYLSSLWIALVSTALTLLIAYPMAYGMAKAPTTLRPT
+LVMLVILPFWTSFLIRVYAWIGILKPEGLFNQFLLSMGVIREPLIILNTNWAIYIGIVYC
+YLPFMVLPLYSALEKMDHSLTEAALDLGCTPIQAFWRVTFPLSLPGVIAGCLLVFIPAVG
+EFVIPDLLGGSETLMIGRTLWNEFNGNRDWPVSSAVAVVLLLLLVVPIMLFQTAQARAER
+AEREGR
+>tr|A0A1Q9ALX8|A0A1Q9ALX8_9RHIZ
+MTTSRHIVTLLKSHIAGDEERFLSTALQLAAHEARQGHGKLAQEVKDLVDTAKTREPSMR
+RPGGAVALVQPKGELAGLLSARYPDIRLADMVLAHPLRQRLDRILAEQRQQANLRSHGLQ
+PRRKILLVGPPGAGKTMTASALAGELHLPLFTILLDGLITKFMGETASKLRLVFDAMTAT
+RGVYLFDEFDAIGAKRGDRQDVGEIRRVLNSFLQFVEQDESHAVIVAATNHPELLDRALF
+RRFDDVIEYSLPDVSLIEAILRNRLDRFATSDMSWSDVAAAAQGLSPAEISRVADDAAKS
+VILDNSGTVTADSILDAIAERRTAAETMDASNRP
+>tr|A0A1Q9AQK8|A0A1Q9AQK8_9RHIZ
+MNFNRLKTTVSAAALSLALAVPAFAAGLSAHVNSGTVAEGDTFQLTLTANGQADAIPDLA
+PLQKDFDILGTSQSSSTQIINGQRSQSESWIVSLSPKSKGTLEIPAIRAGGLSSSPVAIT
+VVDAGAMPKATGASGIAVSASLKDGSPFLFQETPLTVRIETSAPIKSAELVAPQSSAFEL
+VQRGEDRVSQATRNGQTVNVIERTYMLKPQEKGAIEIPPFVLRGSVEDPSARAHNPLADF
+GFGDFPGFPSSMFSDMFDSGKAFAVRSEPIKLTVRADPNAGSGQHQWFLPAKNVRLTANW
+SPEHPLFKEGEAVTRRVSLLALGASAAQLPDLSFENTDGARIYLDDVKTGEDQTADGTVA
+RKDFLLSVVPTRGGEITLPEIKVNWTDSISGQAKTVTLPSEVIKAEGTIMRAQQAAGSAP
+KAAPASPVVSQARQKGGEALPVSLLAGLGGAAVLAAFGGAALYSRRKQRPGESLRRPVAA
+NTSSQERPDTRPERRKQLELAVAKGKSGDLRGSYGCVLAWRRLAGGDPAMTDAAREAIAG
+LERAAFAPAAEAAEAKTRDWLTVLAGEDRKIGHVQSNISSKLPSLYPA
+>tr|A0A1Q9AKT5|A0A1Q9AKT5_9RHIZ
+MAPILRNARRDELDTIIDWAAREGWNPGLADAPAFWAADPQGFFVAEEAGVMAAALSVVR
+FGEAYAFLGFYMAHPDFRGQGIGYALWNYALATVGGRTVGLDGVVAQQDNYRRSGFAYAH
+ANIRYGGEVSLAEPSAKELTEVAPVLMSAIIDYDQRICGARRETFLKEWLKPSDQRLSFA
+YLRGTAVAGYGTIRACREGHKIGPLFADSDTVADLLFRKLVASAGGGLVFLDCPEPNPAA
+RDLCTRYNLVSVFETARMYRGPAPDMMLPRVYGITTFELG
+>tr|A0A1Q9AG21|A0A1Q9AG21_9RHIZ
+MKHVLSGLLSAAFLTLATDTVLAQENAPAPAASHDAAAPAGEHAGAEGEAHGGTPHFPIK
+KPAQMSWSFAGPFGHYDKAQLQRGLKVYTEVCSACHSMNLVAFRTLRGLGYSEAQVKAFA
+ANYEVQDGPNAEGEMYTRKALPSDHFPSPFANAEAAAAANNGAAPPDMSLLAKARGIERG
+FPTFVFDIFTQYQEGGPDYIHALLTGYQEPPKGVEVAPGTHYNPYFANAAALAMAKPLND
+GQVTYDDGAPATVDQYSRDVAAFLMWAAEPHLEERKRTGFMVMIFLVIFTGLIYLTKRAV
+YAAKDH
+>tr|A0A1Q9AL50|A0A1Q9AL50_9RHIZ
+MWEAGKHRNNVTGFLYDLYEMMPQKEFSAFSQEMLDDLVNGLRRRGNSNATINRKLSALS
+KLLRKASKMGDIGTLPDFSRQKEKAGRIRFLEVGEEDRLFGALRETSDLYYRLCIFLVDT
+GARLGEALGLRWNDLQGSMATFWITKSGRSRSVHLTTRAREAVAASKGKGLGPFEGIDQQ
+QFRAAWKKAKAQIGLAHDDELVPHVLRHTCASRLVRGGIDIRRVQMWLGHQTLQMTMRYA
+HLASQDLAVCLPVLERKGARG
+>tr|A0A1Q9AQ79|A0A1Q9AQ79_9RHIZ
+MTINSALFDRVSALLKTQVGPEVYASWFGRLKLHSMSKSVVRLSVPTTFLKSWINNRYLD
+LITSLFQQEDPDILKVEILVRSATRGARPGIETDAAAPGLPLQGEAQPAPAQPRRATSQP
+ASLGQHASAILPGSAAQIPPRPAPAGSPSGPLFGSPLDTRYTFDSFVEGSSNRVALAAAR
+TIADAGASAVRFNPLFVHSTVGLGKTHLLQAIANAAISGPRHSRVVYLTAEYFMWRFATA
+IRDNDALSLKETLRNIDLLIIDDMQFLQGKSIQHEFCHLLNMLLDSAKQVVVAADRAPWE
+LESLDPRVRSRLQGGVAIEMEGPDFDMRMEILTRRLEVARQEDPSLDIAPEILTHVARSI
+TASGRELEGAFNQLLFRRSFEPNLSIERVDELLGHLVNAGEPRRVRIEDIQRVVAKHYNV
+SRQELVSNRRTRVIVKPRQIAMYLAKALTPRSFPEIGRRFGGRDHTTVLHAVRKIEELIA
+GDSKLSHEIELLKRLINE
+>tr|A0A1Q9AD46|A0A1Q9AD46_9RHIZ
+MAKIVVISPAPIKGSGGVRTILNYAHALMRNGHEVTVSFLADGKPIGTNVSQLVEAYFGI
+SGLHCGQFPFGLHNADLAVATRWDTPPMIRRHFGGKMVHLIQDIEGWFNPVGDAFLYAEN
+NFLFNSSFITLGHWLAKRQQKQYGVNSYTMDFCYDDEVYSLSQPYAERPKRVCFIYQPEK
+PRRCAQLGLEALGIFKSFHPDYEIVLYGSDAPAYLWYPTVNLGIVSPKELNDLYNASRAG
+LCISASNPSRIPFEMMGCGLPVVDIYRANNLHDYKSNQLLLAHQTPESIAHALSSLVVDE
+QLGARLSRLGHESVSGLSLQHEMQQFAAFVEKVANGEQPQPRTDMAPRYRSAPVIAPAYE
+VDRVRAFCEDQTREFQSEKATISQASTSVEPSAALFATAKLTSTKPAGFIWDMVTLEVDG
+SLQLNSHQATATTAVLPHALPAGTLSAIAVVRLAHPKASPTEFAMAAVPAIDDEDIIRRP
+DEQIWSSPMGSGWTEVTPGADVLLQLQLPEPSAVPLDLHIAVRLPEGSPQDFGWCRWVNI
+IHLQAHQ
+>tr|A0A1Q9AFW2|A0A1Q9AFW2_9RHIZ
+MTMTDAYHDPRDKTVRLSAENIARFVRDLPARAQMVLRGLIHMQTGSLMLTLPDGRTVMI
+NGRTPGPAAEVTLHNWNLPQRALTGGTIAVAETYMDGDWESPDVGAFLELFLVNAEVGRH
+FPNGARGLLLMIEKLRHWMNRNTKSGSRRNIAAHYDLGNSFYSLWLDPSMTYSSALYADG
+IEDLEQAQRAKYRALAEAAGIGPDDHVLEVGCGWGGFAEYAAGEIGCRVTGLTISREQLS
+FAQARMEKAGLSDKVTLKFQDYRDETGVYDKIVSIEMFEAVGEKYWSTYFSQLRKCLKPG
+GRAGIQVITIKPESYREYRANPDFIQKYVFPGGMLPTREHLVDVAAAAGLSMVGDMGFGR
+DYARTLAAWRDRFHAVWDRIEPMGFDLRFKRLWEFYLYYCEAGFRARNIDVRQVIYE
+>tr|A0A1Q9AM27|A0A1Q9AM27_9RHIZ
+MMLTVRNVASGYGRSQILFDMSFEVGAGEAICLMGRNGMGKTTTIRTLMGLLPPWEGRIE
+FAGQPLSGLPAARVARQGLGLVPEGRQVFPNLTVHENLRVAAANRQDHADPWTLDRVYSL
+FPALRERSKSYANLLSGGEQQMLAIGRALMTNPRLLILDEATEGLAPVVRDQIWACITAL
+RGLGQSIIVIDKHIQRLSGIVDRFYVVEKGRVVWTGDPERVLREEQTVRAFLTV
+>tr|A0A1Q9ADW6|A0A1Q9ADW6_9RHIZ
+MALKAKLLLIILDGQPWRVARRFMGNLEGWVQAGEARVWRMRSVVPSTSASCYASIHTGV
+TPQVHGVLSNDTLFRVAEPDVFSEVAKAGGRSGAVTHSFWSTFFQRAPFDAVSDIEYDEP
+TGPIHHGRFHTMAGYNHDNQMTPSDFDLFATLSMLTQRFAIDYGILHTCTLDSMGHRYGH
+DCAEMDAACFTIDAQLARFLPLWRKAGYEVIVTADHGQTDRGHHGGRDPEMQDVAFYWFG
+GGQGPEEDTLLDQLQLAPTILSRLGVPVPETMKAAPFLR
+>tr|A0A1Q9AHJ9|A0A1Q9AHJ9_9RHIZ
+MSFFKNASIRMKICSIIAPICIVGMACSSYMANNYKDADNSYSDLVAQDGVAAVMTSRAV
+SSMIFIPYGIYQAASDHAGADELKTAHKNLADSKPNIIARMEEAATLVPDTAATLKPLLD
+SAGSLITTYQKAMDLVDAGKRKEALAILKDADPALIAWREALRQFNTQRQKHIIAESDAL
+TDQTNSTILVSLAMIVTIFLLGVVIALFVASFAITGPIAKLARRMGSLAAGDTAADIDGI
+DRKDEVGQMARAVEVFKENAVERLRLERSVEADRSLSEQERMERDREKARQAEDIQFAVD
+SLADALARLSDGDVSHRLPHPFVANLDKLRNDFNLSAARLQDALKSVAQNARGIDAGANE
+IKNAANDLAKRTEQQAAAVEETAAALEQITTTVRDSTKRALEAGQLVARAKAGAEHSGEV
+VREAVRAMEQIATSADEISSIIGVIDEIAFQTNLLALNAGIEAARAGEAGKGFAVVAQEV
+RELAQRSARAAQEIKTLITTSNGQVSRGVRLVGDTGAALTTIVSEVQEINRHVAAIVEAA
+QEQSSGLQQINTAVSQMDQDTQKNAAMVEESTAASHGLASEVSSLNNMLSRFKIDREASS
+SRGRPAPGSAAPAPVKGSAPRRAAFEGNAALDLSKDQWQEF
+>tr|A0A1Q9AI21|A0A1Q9AI21_9RHIZ
+MIFWVLVALLTAVVAMALLMPLLRGRPASGIEMRGDIAVYRDQLAEIERDRAAGLIAAED
+AERARAEIGRRLIAATDAQARQTNSDRRPRAAKAAQAVIVLLLPALCLGIYLSKGSPDLP
+DQPLAARLASPDGDVEVLIARVEAALAANPADGAGWEVLAPVYARRGRFPEAVEAYRKAI
+QYLGETPERLTSLAETLIAAAGGQVVPEARQALERSAALSPDDPRTRFYLALGLEQNGQA
+AAARDAFTKLAASAPVDAPWLPLVRQHLARLGPADASPSTAVTAPGPGEQEIAAAAAMNE
+EDRRRMIEDMVGGLAARLKARPDDAEGWQRLVRSYMVLGRPEEARSALKEGLARFPADGE
+AGQALIALAKSLGLSQEGP
+>tr|A0A1Q9AK69|A0A1Q9AK69_9RHIZ
+MTRALTFAYPGNLQLKTGGYGYDRRVIEGLRALGWQVDLLALGEGFPVPDESVLSAAQQA
+LSALPDGSLLLIDGLAYGVLDDWAEKEGKRLTIAALCHHPLALETGLAPEMQARFRQSER
+RALAFAHSVIVTSPMTARELSAHFDVEPGRITVALPGTDRVAATRADNAVAQILSIGTLS
+QRKGHDVLIAALKGVEDLEWQATIIGSRDLDPATAAALERQIAALGLQARIDLAGAVEDP
+APALARADLFALASRFEGYGMVFAEALAHGLPIIACHAGAVPEVVPSEAGILVPVDDVTA
+FSAALRTLLSDPAERQRRADAARAAGAELPGWDDTAAIISKLLDGMARDGVA
+>tr|A0A1Q9AME7|A0A1Q9AME7_9RHIZ
+MRTIGLIGGMSFESSAVYYRLVNEAMRTALGGLHSAEVLMHSVDFQSIVALQKAGRWDAA
+ADRLASVARGLERAGADCVLICTNTMHLVADAVQAAISVPLLNIIDETAAALSAAGRRRP
+LLLATRYTMEHGFYAERMARHGIEILVPGEAERGDAHGIIFEELCAGQVVDASRARMMAM
+IETARRQGADSVILGCTEICLLLDPDALPLPGFDSTRIHADAAVRFALADVRRAAA
+>tr|A0A1Q9ANL3|A0A1Q9ANL3_9RHIZ
+MSGVSPPNPSQPNPSQPAGSGSLGPLRQPVFAVLWAATVLGNTGSFMRDVASAWLMTDLS
+AAPAAVALVQAAGTLPIFLLAIPAGVLSDILDRRRFLIAVQILLGSVSLALMLLASSGMM
+SVSALIALTFLGGVGAALMGPTWQAIVPELVDRGEVKAAVALNSLGINIARSIGPAAGGL
+LLASFGAAVTYGADVASYVIVIAALIWWPRPKNADDALSEGFFGAFRAGMRYARASRPLH
+RVLIRAAIFFAFSSAVWALLPLVARNLLGGDAGFYGLLLGAVGAGAIGGALLMPRLRARF
+DSDGLLLGAALVAAVVMAALAFSPPKPLALALLLFLGGAWITALTTLNGAAQAILPNWVR
+GRGLAIYLTVFNGAMTAGSLGWGAVGEAAGVPATLLIGAAALAIAALVMHRVKLPQGEAD
+LVPSNHWPEPLVADPVAHDRGPVMILIEYRVPRDRHAPFLDALTRFSEERRRDGAYGWGV
+TEDAADPDVMVEWFMVESWAEHLRQHKRVSRADADLQAEVLAHHAGTERPLVRHLLAIDR
+PGRARGET
+>tr|A0A1Q9AHJ7|A0A1Q9AHJ7_9RHIZ
+MRTTFSDRRKIFLFLMAAPAVLYVAAVGLWPLAQGIGYSFYKYNLLRPARTQFVGLQNYV
+DIFADASTRTAILNTFQFTLFSVALQLVLGFALALLLWRDSRFNRIVLAFLLIPSTITPL
+VVGLIFKAMLGADYGIIGFFLAEAGIGPRTGLLTDASTALWVLILIDCWEWTPLMTLILL
+AGLKALPGDVLEAGRVDGATGWQRFHMLILPLMLPSIFLALTLRSMDAFRVFDSVFVTTG
+GGPNDSTNTLMMLGVKEGLQFFNVGFASAVGNVTLLFIALIATGLLLVVRRADVRINGK
+>tr|A0A1Q9ADX8|A0A1Q9ADX8_9RHIZ
+MPLSNVKISTKLIATSALSMTLVIAMLVNQQISSNAILASNDVVKRELIILDGVSSADLA
+FARIEGAVNPLLDHGANPQQVTAALAEVKKHADIGWAALETPISIAAKPQVLSDIRTSLR
+SYEKTLQDAAASGQDLATVAPRLNAIDKDIHKAIDQSLLNARGFSDKAKQNLFDTISAAN
+VTALSIGALILLIMTLSALFLARTVSRPIRRLTGLMNRLAGGDLDVAVEGADRRDEIGEM
+ARAVQVFRDNGVKGRELEQVAQATRSQSEAERARVAEIDQQRAAEMSQATNGLGQGLQRL
+SEGDLAFRLTESFAPDFERLRTDFNGAVENLRRTMGSVINTAGAIDGGAQELSQAATDLA
+KRTEQQAAALEETAAALDQITSNVQNSSKRTEDARGMAKEANDAARKSGEVVANAVDAMQ
+RIEVASSQISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEVRELAQRSAQ
+AAKEIKELIRNSEQEVGNGVDLVKATGSALKVINEHVLAINGELDAIATSSREQATGLSE
+VNTAVNQMDQTTQQNAAMVEQATAASNALANEAERLRQMMTQFDLGQPSARPAAARPASA
+AKGAAPVASPARRLVQAVAGGMRASANDWQEF
+>tr|A0A1Q9ALK5|A0A1Q9ALK5_9RHIZ
+MSATVPAIQLQAVRLAFPARTLSFDLEIAQGGITAVLGASGSGKSTLLNLIAGFETPDQG
+SVALMGQPMAAVPPAGRPVSVIFQDNNLFAHLDVATNIGLGIDPGLRLSQADRTSIEAAL
+ARVGLSGFGQRRPPSLSGGERQRVALARALVQTRPILLLDEPFAALDPGLRAGMAGLIAA
+LKVELGLTVLLVTHHPEDVRRLADQVLFLEEGRILLHVPRDVFLARTDLPEVARFLGA
+>tr|A0A1Q9AGF8|A0A1Q9AGF8_9RHIZ
+MTSPLALINGLRVSRETRERLDHFVQLFQRWQKSINLVAPSTLPQLWDRHIADSLQIFTL
+NPAPQKWVDLGSGGGFPGVITAIALAERAEGWVHLIESNNKKAAFLRVALLETGARGSVH
+PVRIEEAPKLVPSCDAISARALADLPQLLEFCLPWAAANENLRTYFHKGRDFDLEVEKAR
+GRFGFDLVKHQSVIEPDSVVLEVSRIALLPRITG
+>tr|A0A1Q9AN89|A0A1Q9AN89_9RHIZ
+MSEFKSDFLRTLKERGFIHQISDETGLDDLLSKEMVTAYIGYDPTASSLHVGHLTQIMML
+HWFQATGHRPISLMGGGTGMVGDPSFKEEARKLMTVEMIEENIASIKRVFSSYLDYERPG
+NGALMINNAEWLRSLNYLEFLRDVGRHFSVNRMLSFDSVKTRLDREQSLSFLEFNYMILQ
+AYDFVELARRYECRLQMGGSDQWGNIINGIDLGHRMGTPQLYALTSPLLTTASGAKMGKS
+ASGAVWLNADLLPVYDFWQYWRNTEDADVERFLKLFTTLPMDEIARLAALGGAEINEAKK
+ILATEVTAVLHGRAAAEEAAETARKTFEEGALADSLPSIEVPRSELDAGVGLLSLVVRAG
+LAASNGEARRHVQGGAVRINDAAVSDERAMIGTSEVTADGVIKLSLGKKKHILVRPA
+>tr|A0A1Q9AEK7|A0A1Q9AEK7_9RHIZ
+MTRLPPFTSPFLVGFDAMGQTIERVAKGNDGYPPYNIERIRGDQNEADRLRITLAVAGFS
+EEDLEVSTEENQLVIRGRQTEPGIERDYLHRGIAARQFQRMFVLADGMQVVKAELRNGLL
+SIDLIRPEPQRMVKKINILVPD
+>tr|A0A1Q9AKC9|A0A1Q9AKC9_9RHIZ
+MDRRDFLRLSAAGAAFVAASGAQIGVSSAAEGTLDIFFNSDTNIIDFWTNVIKPGFEAAN
+SGVTLNLVPGGGGSGVNALADRAMAAFQAKKDPQIDMLEATTPFYPAGSIEAGLWVNFET
+SGLSNQPKVNPVTVQSPFLLPYRGSQVVLMYNADQVKDVPATFPALVEWIKANPGKFTYA
+RPDLGDSGACFIERALQEVTGQKPDLFQPENYTDAYANPMFEKLWPLLKEIQPALFNGGE
+YTSGNTASIQLLASGAISMTVAWSDMALQAMSQGVVPETTAVAQLQDLAFTGGFSGVVVP
+TVARNKDAAIKLADYIISADVQEKVVTDLGGFPSIGWDNLSKELQEKFAKVAPKSIPVFP
+GTWEPKLFEGWYRNVASNIKQ
+>tr|A0A1Q9AP86|A0A1Q9AP86_9RHIZ
+MSFTVAIVGRPNVGKSTLFNRLVGKKLALVDDTPGVTRDRRPGEARLVDLRFTIIDTAGL
+EQSGPETLQGRMWAQTEAAIDEADLTLFVVDAKNGLTPADETLAEMLRRRGRPVVLVANK
+SEARGSDAGFYDSFTLGLGEPCPISAEHGQGMLDLRDAIVEAIGEDRAYPQASEEAETDI
+DLQPLPEGEEDEAEPVYDETKPLRVAIIGRPNAGKSTLINRFLGEDRLLTGPEAGITRDS
+ISVEWDWRGRTIKMFDTAGMRRKAKVQEKLEKLSVADSLRSIRFAESVVIVFDSTIPFEK
+QDLQLVDLVLREGRAAVLAFNKWDLVDEPQAVLADLREKTERLLPQARGIRAVPISGQTG
+YGLDKLMQSIIDTDKVWNRRISTARLNRWLESQQIQHPPPAVSGRRLKLKYMTQVKARPP
+GFMISCTRPDSVPESYMRYLTNGLRNDFDMPGVPIRLHLRASENPFENRKKQR
+>tr|A0A1Q9ANF0|A0A1Q9ANF0_9RHIZ
+MPSIPTLETERLVLRPYRRDDFPAYVHLFADAEVTRFIGGVPFSREQAWARFLRQIGMWH
+YFGFGFFAIQERATGTFIGEAGFHDLHRVITPSIEGTMETGWALVPPAHGQGYATEAVAA
+ALAWAKQSFPTLRRTCLIDVSNKASLRVATKLGFREVARTVYHGATVVILER
+>tr|A0A1Q9AK56|A0A1Q9AK56_9RHIZ
+MTGFVRRFGTLAALLVLIAAFSLVSPGAFGSAGNLINITQQMTLLAIVAIGATVVMAVGE
+FDLSTAAIVSFGGILAVTLFKLGVPPPLACLAVLLAAAAFGALSGFVVARFEVLSFIATL
+SVGTIIGGVTFWLCQGATLFGDIPAGFRDIGRGTLFGLPTLTWWLIATGLAAWLLLDKLE
+IGRRLYAIGGNREAARLAGVRIVPNTMFAFTVSAVLSALVGILLTARIGSANPTGGGGYL
+LSAYAAVFLGMTAFREGEANVPGTLVGAAIIAVIGNGLTILGVSTFLQDIITGSIILAAV
+LVRRVGRQGG
+>tr|A0A1Q9AGV4|A0A1Q9AGV4_9RHIZ
+MAERTWTAGGFDRNAASDTLGVEQRLLKIRRLSSIARLMDTAVGIPGTRVRFGADSVLGL
+VPILGDGAGALVGLYIVNEARRLGLPSEKLARMMGNLAMDSVVGSVPLLGDLFDVYFKSH
+RRNVQIILDHFGVQPEELRRKR
+>tr|A0A1Q9AHR6|A0A1Q9AHR6_9RHIZ
+MKLLRFGAPGAEKPGLLADDGTIRDLSGHLTDFSGAALAPDALASLSAIDLSGLPVVDAG
+TRLGPCVAGTGKFICIGLNFSDHAAESGMAVPPEPVIFMKATSAIVGPNDNVIIPRGSEK
+TDWEVELGVVIGKTAKYVSEAEALDYVAGYCVSHDVSERAFQTERAGQWTKGKSCDTFGP
+IGPWLVTKDEVADPQNLNMWLKVNGETMQNGTSATMVYGIAFLVSYLSQFMSLHPGDVIS
+TGTPPGVGMGMKPPRYLKAGDVVELGIEGLGTQKQSFVADR
+>tr|A0A1Q9AMM8|A0A1Q9AMM8_9RHIZ
+MNMEHLTQIVEVSLKRGNERQDVGIMTVRQALELPVPGRFEYTNPERSSRRGPARISREE
+LQAYAWG
+>tr|A0A1Q9AD96|A0A1Q9AD96_9RHIZ
+MLGFSREAYLLLDAAVTIIGLIVLITRFKVHPFIALTLAAGFLGLTSGMATETVMKSFQT
+GFGDVLGFVGIVLGLGTMLGKLMAESGGADQIAQTLIRTFGRERVHWAMMLAAFLVGLPL
+FFEIGFVLLVPLVYIVARRSGVSLVKVGVPLLAGLSVVHALVPPHPGPLLAISVFGADIG
+KTIFYGLIVGLPTAAIAGPIFAAFISRHIPGTASPELMQQFVREGEAEHLPSFGATMGTI
+LLPVFLMLLKALADISLPDHHVIRVWMDLIGHPITALLLSLLLGFYTFGVSVGLTRERML
+GLLNDSLAPVASIILIVGAGGGFKQMLIASGVGDIIGKMAVQAQLSPIVLAWLVAAVIRI
+ATGSATVATITGAGIVVPVVSLVPGVNRELLVLATGAGSVILSHVNDAGFWLVKQYFNMT
+VAETFKTWTALETIISVMGLVFILLLGMVV
+>tr|A0A1Q9ANW7|A0A1Q9ANW7_9RHIZ
+MMVHEGVFNRLLIWTLAILALLVIYAPPLYLVAISFNASLQPGLPGLSDLTLRWYAALPK
+ETALINALWQSLVIAFFTALFATVLSLLAALSYFELKMARSLWFLAMVLPMFVPGVIQGL
+ALSAIFTHSGIKSSAMTVVAGHLLWAMPFAFIVILTSFSAVKPSYLMAADDLGASRWRQF
+RDITLPLIRPGLTSAFIFAFLLSLNEFTRAFYLSGRQNTLPVALFGKMNSGASPVIYAIS
+GAIFLLSILIVVSVLQKAGRARAR
+>tr|A0A1Q9AK86|A0A1Q9AK86_9RHIZ
+MTTTPRYQQGMQTRRAVLGDAHVDRASAQTTAFDAPFQTLITEGAWGSVWSGTHWTRRER
+SMVTIALLAALGQDEEVAMHVRATVNTGASAEDIREALMHVAIYAGVPAANHAFKIAKRV
+LAENGRLEDGPAEQGLAGHAGAEQEEQDR
+>tr|A0A1Q9AL13|A0A1Q9AL13_9RHIZ
+MHSVSQEQATHQRPPSGQEQARFWRDPRFGNMECMAATFVTHEFPPHAHDTFSIGAIEAG
+SQVAMIRGEREATGPGALYLINPGETHDGQPGSEGGYRYRMIYPDARFFSTILEEATGKA
+FAGTPSFSRQLLTDAPLAAAFNRAHQALEAGASALEGEESLYSVLLSTFARHGSAVLTPS
+GGAEPVAVARARDYIAAHFTEEIGLEALAATAGLSRAHLIRAFRRHYFITPHAYQTDLRI
+RLARRLLGEGTTPLETALACGFADQAHLTRQFKARTGLTPAVYRAG
+>tr|A0A1Q9AGJ5|A0A1Q9AGJ5_9RHIZ
+MSEHNPYGTMHATTIITVRKGGQVVMAGDGQVSLGQTVMKGNARKVRRLGKGEVIAGFAG
+ATADAFTLLERLEAKLEQYPGQLMRAAVELAKDWRTNKYLRNLEAMMLVADKSITLAITG
+NGDVLEPEHGTIAIGSGGNYAYAAARALMDSDRTAEEVARRAMEIAGDICVYTNGNIVVE
+TLDAA
+>tr|A0A1Q9ANG0|A0A1Q9ANG0_9RHIZ
+MTDDKPDEKPDVRANLVHSAIPADELARLSDDIVAALKTVYDPEIPADIFELGLIYKIDI
+EDDRTVKIAMTLTAPGCPVAGEMPGWVENAVGAVEGVSGVEVTMTFDPPWTPDRMSEEAQ
+VAIGWY
+>tr|A0A1Q9AM01|A0A1Q9AM01_9RHIZ
+MPRPCAISPCLTKLAVILFKAFIFLAMSLGRPARLPLSTSAFFTHSLSVCAEKPIFAAIE
+HTFDQQMHVQLRTR
+>tr|A0A1Q9ANP4|A0A1Q9ANP4_9RHIZ
+MTLAGVAAGHHGPLATQARDRRQLRIWLGVVILTLFALVLVGGATRLTESGLSITEWKPI
+HGVVPPLSQAEWEQEFDLYKRIPQYSQLNSGMDLDGFKTIFWWEWAHRLLARSIGLIFAL
+PLLAFWLKRKVEPRLKAPLLGILALGGFQGFVGWWMVSSGLVNRTEVSQYRLATHLTIAC
+LIFAACVWIFRSLKVERRRDRPPTRYSVHVAALITVLALVQIYLGALVAGLDAGLSYNTW
+PLMDGALIPGDLFLREPAWINLFENPKTVQFVHRCGAYLLLIVTFGHMIASQALAPGSTH
+ARGATHLAMAVLLQASIGVATLLFAVPIGLGVLHQAGALMVLAAAVMHWRGFLGSLALPG
+AVPAKG
+>tr|A0A1Q9AJB7|A0A1Q9AJB7_9RHIZ
+MNTEDIFALCYFGLLWFSYNWATDRHTILGRISLTRLMAEHRRRWIMNSLHRDLKMIDTQ
+IMAGLQAGTAFFASTTIFALGGCFALLGQTDRVQAIFNDLPFAFPGDRTAFELKVGGLAC
+LLGYAFFKFGWSYRLFNYCSILIGAIPMTQHVERDRPAAERAAERAVVMNVQAGMHFNAG
+LRAIFLSIGYLGWFVSAYIFMATTSFVIFVLLRRQFFSPARLALAPDPPAGAGPAG
+>tr|A0A1Q9APZ7|A0A1Q9APZ7_9RHIZ
+MRAGLTTILSPQALDAAGPGPLYRRLRHVLEQAVATGALAPGDALPPERDLAEAVGLSRV
+TLRKAVDELVRQGLFERRQGSGTFVARRATPVGKPVSRLTSFTEDMARRGLISRQEWLER
+GLFPPSPDEMMVLGLAADAQVARLSRLRIADDVPLALEWASIAAEFLPDPMQVTGSLYAE
+LTRIGARPVRAVQRMFAQGMKEADAALLQVAPGSASLVIERVAYLASGRVVEFTRSIYRG
+DAYDFVAELTLPETA
+>tr|A0A1Q9ADK1|A0A1Q9ADK1_9RHIZ
+MTDTSVSRVRMAGISKRYGALKSLDNASLDLKPGEVLGLVGDNGAGKSTISKVLSGAVIP
+DSGTIEIDGKAVSFASPADARAARIEMVYQDLALCDTIDVAGNLFLGREPKRRIAGVPFL
+DKTLMHERARDMLSNLGIVIPDTRMKVENLSGGQRQSIAIGRAASFNPSVLIMDEPTAAL
+AVAEVEAVLELIRTVSRRGVSVILITHRLQDLFLVCDRIQVMYEGRNVAERRIAETNIEE
+VVNLIVGRKFAARSAGHATERSVSA
+>tr|A0A1Q9AD72|A0A1Q9AD72_9RHIZ
+MGVSGCGKSSVAAAVAQQIGGRLIEGDAFHPEANLRKMTLGQPLTDDDRAGWLDRLSGLM
+TAEIGQGGLPVLACSALKARYRTVLRRAGPGIGFLFLDLDRDAAAMRVATRPDHFMPASL
+IDSQFAALERPSDEPAVLTVDATAPIDAIVRHTENWLQALAETPQEGAEAMSAARALV
+>tr|A0A1Q9ALT0|A0A1Q9ALT0_9RHIZ
+MPDNNAAERAIRPIALGRKNWLFAGSDKGGERAAAILSLIETAKLNGLDPEAYLRDVLTR
+IADHPINRIDELLPWNLEIPSERA
+>tr|A0A1Q9ADK4|A0A1Q9ADK4_9RHIZ
+MLDHLFAEGPRERHPIGVATGCAMTVTGPVPVDDLGITLMHEHIFLDGARSWICPCHPDE
+KAIAEQKVSMEIIGELRMNPYMNRDNVSLDDGDLALSELKRFQALGGCTVVETTNFGIGR
+DAEGLARIARMSGLRIVMGTGFYLEHTHPDWLKAMDVEAVTDFIVQDVGGGETQPEIMAG
+IIGEVGVSRNFTAEEEKSLRASARASRITGLPLSIHLPGWERLAHRVLDVIEEEGADLRH
+TVLCHMNPSHDDLDYQMALARRGAFLEYDMIGMDYYYADQDAQSPSDEQNARAIATLADR
+GFADRLLLSQDVFLKIMLTRYGGFGYGYILKHFLPRLKRHGVDQATIDRMLVENPKTVFS
+SGR
+>tr|A0A1Q9AJ96|A0A1Q9AJ96_9RHIZ
+MANRILAVLIGAAVMGIGAQASAGTLEDVKAKGFLQCGVNANLSGFGSQDSSGQFAGLDI
+DLCKAVAAAVFGDATKVKFTPLSAKDRFPALQSGEIDMLARNTTWTASRDSQLGFDFRAV
+NYYDGQGFMVRKELNVKSALELSGAAVCVQTGTTTELNLADYFKSHNLQYNPVVFEKQEE
+VDAAYNAGRCDVYTTDQSGLYSIRLSLSNPDDHVILPEIISKEPLGPAVRQGDSKWFDVV
+SFSHYAMVAAEEFGITQANVEEMKKSPNPDIKRFLGEEQGSTIGADFGLSKDWAVNIIKA
+VGNYGEAFERNVGQGSPLKIKRGLNALWNQGGLQYAPPIR
+>tr|A0A1Q9AGL2|A0A1Q9AGL2_9RHIZ
+MMNQTNETSRRARGQAALEAIDGEAGEKVVTALKDIAPDFATYLLEFPFGDIYTRPGLSL
+RDREIATIAALCALGHATPQLKVHIAAGLNVGLTRDEIVEILMQMSVYAGFPAALNGLFA
+AKEVFGLHGEGNGASD
+>tr|A0A1Q9AF05|A0A1Q9AF05_9RHIZ
+MSKQQMIPFQTTLLVKDTCLCLHAQRAARALARLFDDALKPHGLTNGQFSLMMSLNRPVP
+AGMADVASLLAMDRTTLTAALKPLERRGLVLVAADEKDKRRKVLRLTPAGEALLAAALPA
+WRKTHATLDERLPDIERLRADLRAVS
+>tr|A0A1Q9ADW4|A0A1Q9ADW4_9RHIZ
+MFKKGMRVVLAAITVAPLLASVAWAEGLVTIIVNDPSNPYWYTEGEVAKKTAEKLGYKAS
+VSAHKGDTNTESNLVDTAITNKSVAIILDPANADGSVGAVKKAVAANIPVILVNAEINQE
+GLAKAQLVSNNAQGAALGAQAWVEAVGEKGKYAELFGNPADNNAATRSNGYETVLTQYPD
+LEKVAREVANWNRTQGHDKMQSMLQAHPDINGVISGNDEMALGAIAALKEAGKLANIKVG
+GFDGSPDAVAAIKAGELQYTVLQPVAIFSEEAVKQADNVIKTGKTGAASEKQLFDCLLIT
+KDNVAKYSAPFVLDK
+>tr|A0A1Q9AN64|A0A1Q9AN64_9RHIZ
+MHAMPEMTTDRLILRPHRGDDYQAFCDLWADPDVVRHISGKPFTAEECWIRLMNRPGMWH
+FMGFGFLAIEERVTGRFVGEAGFHEVRRDMTPSLIGTLETGWVLLPEFHGKGYAFEAMDA
+MIAWADVHFASRDMTAIISPGNEPSFKLAAKLGFSEFARTDYHGEVVVLRRSAARKAT
+>tr|A0A1Q9AJA2|A0A1Q9AJA2_9RHIZ
+MRMKSRLVSTSESVGSARPGPVPFLKKASRFVLVSIVAAAAMTSAAYAAQYAGIVVDAKT
+GKVLYSEDADGLRYPASLTKMMTLYLTFEALEAGKIRKDTPVPFSKHAASEPPSKLGVRA
+GQQVTVEQAILALVTRSANDCATALGELLGGSEERFARIMTAKARALGMTRTTYRNANGL
+PNDEQMTTARDQARLGMALRQHFPQYYGYFSTRSFAFGRQVIGNHNRLLGNVRGVDGIKT
+GYTRAAGYNLVTSAQAEGRSIVGVVLGGKSGGARDAQMRALVAKYMPAASTRGGSGNVVA
+EAPPAPTLSATTARSAPASTGGSFNLPSAGPVPEGRYDEGITNSLSMNSYAEPRKAASEN
+PVLKPAPGTLQAQAARMAGGSDVGVVDQQVTSSVARAASGDEGAGAPSGWVIQIGATPNR
+GEAMSMLADAKEKGGKALSGAQAFTTSVASGDSQMYRARFGGFVNQTKAVSACKTLKARG
+FACWASAQ
+>tr|A0A1Q9AGZ2|A0A1Q9AGZ2_9RHIZ
+MGIRNYLIDGVSCSGKTTVATALARRGHHVIHGDRVLARRGDPKTGAPLDKAQERDDPAW
+RHAHHIWPLDRVAALCTDPAHPVTFFCGGARNSHQFLALFDRIFVLALDRQTLIDRLATR
+PADEFGATPAERALILRLHETGEDLPAGATLVDATLPLAQVVDAILQGCRLET
+>tr|A0A1Q9ADA8|A0A1Q9ADA8_9RHIZ
+MSPLHALRKPAASDAASVPSRDQLFARAEALAADLTARGAELDRDGQPPSAEIAALKAGG
+LLNALHDPEIGGGGLGWVDGLRLTRILARGESSIGQLLGYHYVNSQYVLWAVADADKARR
+IAQETVEKSLYWGAAVNPRDPGLTLTREGDHFRLNGRKSFSTGARISDWINVGATLDDRI
+AQFAVPTDRAGYIAHDDWDNIGQRLSDSGSVEFRDFPVYESDFLFAPTAPDAPADVRASF
+NTPLIQLVFANFYIGTAEGALDTALDYVRTTTRPWITSGVERAADDPHILERVGEFRASL
+RAAAALADVAAEAAETALARPGVTARERGEAAIAAYESKVNATHVSLEITSRIFELMGAR
+ATAGRHRFDRYWRNVRTHTLHDPVFYKAREVGDFALNDRIPPVSLYS
+>tr|A0A1Q9AEH7|A0A1Q9AEH7_9RHIZ
+MSIAITAPQKFAFQDLVCIEIMLRFCGHDDATLLVEPDGGEDAELRFTAYGRPVHCEIQV
+KGAAGTVALADVAACLAHAPPRRTAPTLLERVISNSDRLVLLVMTGRADDASAVYRGSST
+WHGEQHTVSRIKATDAAELLAAFAIAEVAGSDGGALYAKRQAHNAAFAASADLAAIREAL
+RRTLIFDQTDEDGLETRCAERLRRDHGIPSDRTAAVLLELRAAIGEAKTNKTDAFPLLRS
+ILARASPPSICPTDYLARGDEAALVDALSRDNVLLLSGTPRVGKSYTARYVAAEFTPHGY
+DVQEFVDVESAERFLLEPGAAPRLALLDDPLGGSQVEAQATRSLARLSKLIDRTRPQRKL
+LVAQGLEPLLATSRTASLAQTITAQRRWRDIGDLEAAFLASLWQALVATFAIDDALAARV
+TDALVTGELVLEPGCLEHLAANADRLRLAASIADITRLAREDAAQLGQMLAADGLEDLAV
+SLAVATAPREPIKLSDLAYVRGSGGAGLPGKRTALGTIIAIGGPPILPATAPAYDEPPKL
+AVADQTGLDDLERRRLVTIDAKPTVGFAHPFYRAAAETLLEAPTHHAAQAIGHALQRGLF
+CLSPHTSRATARNLDWIFDRLQARPTARASLVEQATEGLRSFFPATRDLCFGFLVNRLSD
+LPAETQRELPRWISSVTSVTLDDVEWSDGEAHLPYGEQLGTDYFERAFRIVHRREVAAEL
+ALLDAPEGLVGPERAAAVLRFLAASPEAMTLTMAGRLLSYDEAALRAEATKLWLSRPRTG
+DDEILDRIFADDHPSGALAALKGTVLGWEASTADRRARHLDGLATLAHNVAAAAAMLDFL
+VVFDREEHTGEHPPWPIFERLMPIVMAALPHNAAFIDARLFAVARSALGALSPTSLVALC
+DGWIDWLERNERAGRLPSEFSLGVAEILLQATAAEPERRETLVTRLLDFTGTGAKITFIA
+DLIDHWSLLRDDERAAVFERLKSGRSDDRWLQAVTLTRSEVPDAVVVTLLPEGIDLSQPP
+TRLIDMAPPSLIEAAIHVYCGQPQPLWWLGTHHSGEAVWEPVVEIIACRPDHPLFELAWD
+HITYNGDGKRVARIVGALGATNAERTLGVMLRLKVRCTGNFMPEAWATLLRLAADSDEYE
+LWLDRMAEASPAILDDIYDLRDWLSDDGDLHGMLDRLQNDFRPLEMAKIVFDPPHDVDAR
+EMQDNAVKVLAFLVHERPPLLFGTCDRLLRWLEHATVDTAELVTLLRERRAAIFAEREAI
+EQAMNQPDPQLDGWIDP
+>tr|A0A1Q9AJA9|A0A1Q9AJA9_9RHIZ
+MTDAGRKDTEKRVDDSLPMAVLNAIRNPVIMVNDKGLVVFANWQAESFFGASANYLARHD
+ISAFIPFGSPLLTLIEQVRERRAAVNEYRVDLSSPRLGADKLVDLFVGPVASEPGCVVVV
+FQERSMADKIDRQLTHRAAARSVTGLASMLAHEIKNPLSGIRGAAQLLETSVDDEDRALT
+RLICDETDRIVSLVDRMEVFSDERPVDRHPVNIHSVLDHVKAVAKAGFARRIKITENYDP
+SLPAVFANRDQLVQVFLNLVKNAAEAIGDKPDGEIMLTTAYRPGIRLSVAGTREKISLPL
+EFCVHDNGPGVPADLLPHLFDPFVTTKTNGSGLGLALVAKIIGGHGGIVECDSQNHRTTF
+RVLMPASKGKAEDADPSSVRGSSR
+>tr|A0A1Q9AGW8|A0A1Q9AGW8_9RHIZ
+MKREDVAAFWEANAEAWTQLSREGYDIYRDALNTPAFLAMLPPIAGLDGLDVGCGEGTNT
+RQLAALGARMQAVDLAPTFICHAQETEAGAPLGITYQTADAHALPFEKERFDFVTAFMSL
+MDMPEQDRVLSEIARVLKPGGFLQFSILHPCFVPPYRKTLRDAEGNVTGATIAGYFDASE
+GQVDRWIFSAAPPERQAAFAPFAIPRFHRTLSWWVDAIVGAGLTITRFGEPSASKELAEA
+VPTVADTRVVGIFLHVQARKP
+>tr|A0A1Q9AM42|A0A1Q9AM42_9RHIZ
+MADLSVFIGALAVAYLVPGPDMVLILQTGALQGRVRALAVAIGLALARAVHVFLAVVGLA
+ALLSASPWAFEIVRVAGAAYLIWLGVGILRSRSLLPEGVVLPASDNGRSWSAAMRRGLLT
+NLLNPKALLFCSVLLPQFIRPENGSVPGQFLLLGMILVAVGLVFDLVYAGAGAMLGRWIA
+LHPLVQLLQRWVFAALLIGFGVSLALSQRPL
+>tr|A0A1Q9AMM9|A0A1Q9AMM9_9RHIZ
+MNRLSFLAKFVVVLTILSIVGIGAVAFLTYQMVNISANYNELASGKLYASQRLTRANRAI
+QGLRAASGDSMNADTPAGFAAAAKEAKEARTTVEESFVHALQAVPGHGELLAQQKLAMEV
+LQQKCAPLWVFLDGQGTPSEQQSFAKNGLPECRKGLIDVSQTLGTVGVSFVNESFKELGV
+LGDTTYRATATAVILVSVTLILAFAGSLFMLRRSIVMPTLRLARTMESLAGGDLSAEVEG
+TTRQDELGVMARALQYFKDRTQEAGALARDAERMRAEADAERQRNLDADTRRAAAMGEAT
+RGLGQALEHLAGGDLSFRLKTPFAPEFEQLRANFNRASEHLGEVIASVSEVATLIDVGTS
+EINQGSQDLARRTEQQAAALEETAATLGQITSGVSGAAKRLEEARAFTQRASSGATQSSS
+VVAEAIDAMRRIEESSNQVSSIISVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQE
+VRDLAQRSAKAAKEIKALIHTSSEQVEGGVRLVNVTGDALTVIGGHIDEINRQMEALAMA
+AREQSVGLSEINNTVNSMDQVTQKNAALVEESNMASAALAGEAARLRSMVESFRLQNQHM
+AHRKVA
+>tr|A0A1Q9AQ93|A0A1Q9AQ93_9RHIZ
+MTHYLLDKLRLASPAQRDALLAGGFEYDGDLEKIYGKAWREARAAGADVAKMLFVLGFVE
+GRIEPTLLARWLSSQAVDQAFRMAHHLIDYAGDAWRVFHNSFRLFLRQQAIELYGKPDPA
+LAEETIYRELASLAKVAPSGSDQRFLAFRYCFLAGDRDQAAALASRRYFVGQFIDGRRSL
+DVAKDIEDAFRCIGPTPAPETLFDLMLAKDEIWRRQDALGTAQQLLEAQIAAGALDLAEG
+QLESHHVVGDEWHVINALLDADLPERARRLFDRKSPWKWFDDGVGEDGADAVATWTDLAV
+ILLDDEQIERRIRMPAGKEASDKDVYSNTTRGEYLAKLRFALARATLRHGPDRDVTETAT
+RFGASSNAELAILLLDGAQARMLAGQAAEALRYLADYKTRSEGEALHESWHLHAARLALA
+ADDVDRAKRFFARARVPDLTNLEHKCEEVADAVDRLYDYASLAARLGQEEIHPAAPSEFL
+FRGAQNQIIRLGKTIGGIKAGGLVDAAEVTSTLKGALTFLAGAVATRLDDVLLGYRVRRI
+DKPLFNAICDLVGTVPSVAPEFAAAFDACLQLQICSFRDNAYIHGRFAETMFAADGDAVA
+AVARLERAQSAFNDARSPQDVIDQLAELTIAYGAIGFRDRARALLGEMREKSLGSYLAAK
+KDGQYHAWEGLLTAANRADPAGAADRAFTMLRQVAGVEETHANDQASRIAKSVLVEAIAS
+GPTPAWDAYDWAVASAGPWRWPALVDAVTRGILRRRHDLALPLAVTWTALCLPYYDEAYN
+SVTRFGQFLHDVAALAPDEDLSAIERVIVDGLARDAMPSKRTALVCAFRDALADRGVENS
+AAHEAARHLTEWVAPTDDDDDGLPDYFDLNSWEEVEQAVAADRARRDARTNTHYGTFVNT
+TLGKRIGRILRAKPWAEARSFAARHKQLVGDRPVRDALARAALAAGDRAFAETLLLDGAK
+DCQGWGGWADSKLLRHHQARHLLGLNDAHQQARNDFLRDLAVGGHGTGSALWSVDEIFPL
+LFEQVDWPAMWDRLAEQLQGYVEFQKVAAIPRNPDQARDDLDLIARLFLDAARFGASDPR
+EQAGDGLLALVRAGDLEIFRRACARLLDGDSRDALLGLRLLFEACDNQPVADAFRDALIP
+LAAHEDGCIAALAESLSHAWGGAALIPDVGLPAIYILELPPLDRTDRSLRYAGSLAPVID
+DPGAWTEGFESCIDMLSRYASVPTANIRHSVARLINGWGGSARFGAKATKDLEHRLRPLG
+LLLPFARPHIVVAVRALRVVIGDFWRADRLSQAQFELLLHRLDGGPVLPPRDAPLARPTD
+ATWPTLPSNTWSSRADDWLNGVDLRRSAGGERVVGEWCRYTFYELSSLFREDMLSTRGVG
+LDDDVDFEVAVNQMPRALWADGTITLFQDSHAISALTLNLRVSGIGERSEVLIFNPVIAT
+RLGWRQSESDPLAFSDDNDVLMVQTASWRDGWPQEMQHGREMRWADGQRVELTDAGLARL
+SKGEQLPPLVTARWRTVTTRNPTTTNMSRWRSDDVSDGEHLADPQSPH
+>tr|A0A1Q9ACI2|A0A1Q9ACI2_9RHIZ
+MMISVEDKLQENRWIGPGFNLLRHALALAILLHHCRVAVFGLFGRAELVKDESQPGMAVF
+LPKAVPGDGYESLKGTGLWAMDRMHLSDIVTELLRPGLFSLVGMFFVLSGFLVAGSAMRN
+SNIPSFVGNRVLRIVPALAVEVTLCALILGPIFTHLPLQDYLSNGQFFRYFGNILGHVTF
+ELPGVFVTNPWPLMVNANLWTLPWELWCYVLMLSMMVLGLFAPQGRYRRAMSAIALVIIL
+AMTLWNYLNPEMFNVRQDTTRFAGWYIVFLFLVGVYLRLIARHLPLHGGLFLVAAAAYYV
+MTVMNVLGPLSGVFLAYCTVYIGMMRFDWFDRIMKHDLSYGIYLYGFPITQMLVALIVPM
+VSGSRVVSFALIAPLVVVLTASFALISWIYIERPALRLRRLYQKPAL
+>tr|A0A1Q9AHQ3|A0A1Q9AHQ3_9RHIZ
+MKTAIFLSGALLLATTALPAHAQQTVTLLAYSGLFQERYTKAVIEPFMAAHPDIKVEYFP
+QPGSAAMLGVLRAQKAAQQTDVAIMDVSVAKTGTDEGLFDKVDESVTKNYADLYPNAKFE
+GVAGVGVTFDNLVLIYNTDAIKTAPTSWNALKDPALKGKVAMMSAPDIVGIGTTIIMDRM
+NGGKDFIQNINAGMNAMAEVAPNVQTWEPKPEVYPTVINGQVSLGVGWNARSQVNADKSD
+GKMKVALPQEGTILQVNTINLVKGGPSSDAARKFVDYALSPQAQSAFSAAMYYAPTNSAV
+KLAPDVANRTVIGAMDKVIPVDWIALSTVRDRITQDWRRKVIPLSR
+>tr|A0A1Q9AL12|A0A1Q9AL12_9RHIZ
+MSAPRAWQRMLSGRRLDLLDPSPLDIELSDIAHGLARVARWNGQTAGPHAFSVAQHCVVV
+EEIFRRLNKASPADRLIALLHDAPEYVIGDMISPFKAVVGGGYKTVEKRIEAAIHLRFGL
+PASATAALTEKIKKADRVAAFFEATLLAGFSPTEAAGFFGRPRAITAEMLPMAPLPAPEA
+QALFAERFHAIDAERLAASPRAGQSRSTRPV
+>tr|A0A1Q9APB7|A0A1Q9APB7_9RHIZ
+MTAEFISVSFPNASNDLNPIPDAPVDPLFLQRYARALDDYGFNYTLIPYASSSFDPFTLG
+ATVLAHTKQIKIIVALRPNTVYPTVAAKSLATLDQLSGGRVVVHFIAGGSDDEQAREGDF
+LNKEERYERQEEYIRILRLAWSSTEPFDFDGKYYQFKQFRSAVRPTKGLIPISLGGSSDA
+AYRIGGSLCDIFGLWGEPLKETKEQIDRIYAEAAKAGRPDRPRIWVTFRPIVAQTDDLAW
+EKAHRVLDQLNANRQKGLSRAPLNAAAPANVGSQRLLDIAKRGDVHDRALWYPTVTATNA
+SGATTALVGSPRTIADSILDYIDLGCDLISIRGYDNFNDAVDYGRYVLPLVREGIREREE
+AKNKAAA
+>tr|A0A1Q9APY8|A0A1Q9APY8_9RHIZ
+MMAGSSLCSLAFLLQMGALCPVDLVESIYDRIDREDMDGVFVTLTRERALAEAHAARLRL
+REGRSHGLLDGVPIGWKDLFDMHASVTTAGSTVLADQPKARIDADVVATLADAGMVSIGR
+TNMSEFAFSGLGINPHYGTPINPHSIDEPLIPGGSSSGSGVAVATGLLAVAMGSDTGGSV
+RIPAALTGIVGYKATRGRYSMRGVFPLAISLDSLGPLTRSVRDTVMIDAGLRGCLLALPV
+RRACPTRLVVPTNIVFDNCEPAVVHAFDAAIGRIADSGIPVERRPMSCFSTIFELMGRHG
+ALASAQAFVLHRERLSSPNVVEMDRRMVARARQGERMALSDYMTLQAERERLITEFNSLL
+APGELLAHPTVPQLAPPLVPLLLDDDLFNHTNALMLRNTLIGNFLDMCAISIPCGPEGSL
+PIGFQLAAPRNEDDRLLRVAMELEQLIRAAG
+>tr|A0A1Q9AG07|A0A1Q9AG07_9RHIZ
+MTRDGGVFVTFEGGEGVGKSTQIRRLAEALTRRGHDVMITREPGGSPGAEAVRHVLLSGA
+AQAGGPRFEAILFAAARSDHVEEVIRPALDAGRVVLCDRFMDSSRVYQGMTGDLDPDFIA
+ALERVAINGLRPDCTIIFDMPAEEGLERARARAGIPAGASGELDRFEREDIELHRKRRDG
+FLDIAAADPERCHVVDARPAPAAVAAMVLSIVEPRLPDPALKAGRGGA
+>tr|A0A1Q9AE60|A0A1Q9AE60_9RHIZ
+MLTKKGKYGLKALVDLARLEPGETAFITEIAVRNNIPKKFLDTILLELRNVGILKSKKGP
+GGGYSLARPASQIRIGHVIRTLDGPLAPIRCASRTAYEICDDCADPESCEVRRSMTVVRD
+AVADILDSMSLDDFVNNPEMAGRTTETAPAVVQRAG
+>tr|A0A1Q9AMZ2|A0A1Q9AMZ2_9RHIZ
+MLNAKLKAQPAPVKDPQEEAILALYMESLHLVERLHRRLLDVIKDEFDRQGRSDVNPIQA
+LLLFNIGNAELTAGELRSRGYYLGSNVSYNVKKLVDLGLINHQRSRIDRRAVRISLTDDG
+QEIAETVAKLYERHIGSIQKVGGIGTDEFSQMNRLLQRLDRFWNDSIAYRM
+>tr|A0A1Q9AKA9|A0A1Q9AKA9_9RHIZ
+MTVKASVSISDQQDAFARRLVEEGRYASVSAVVQRGLELLRKETERKEAEIKALRALIEE
+RSKGPFLTMEESRQRIDEMLVRKKAALGL
+>tr|A0A1Q9ALR8|A0A1Q9ALR8_9RHIZ
+MTRAEPTPVTLIGVPLEEGSGRRGCVMGPTALRIAGVDRVLGELGFSVADKGDLAPKPVE
+GLEAQLSPGCQAKNLAAVAGFTRAIEAATFEAAQAGTLPILLGGDHALSMGSVSGMARHA
+AALDRPLFVLWLDAHADFNSVETSPSGNMHGMPVAFFCGEAGLGGILPEDRPLVDPRRVY
+QVGIRSVDAREREEVAEHGVNVYDMRALDEMGASAIIREILAAVEAEDGLLHVSLDVDFL
+DPDVAPGVGTTVPGGATFREAHLIMEMLCDSGRASSLDLVELNPFLDDRGKSARILVELT
+ASLFGRRIFDRPTRSA
+>tr|A0A1Q9APS6|A0A1Q9APS6_9RHIZ
+MSEKQALAYRSDQQALLIALLVFVSGATNAAIVPFMGFYIVEVLGHAPVTIGLYSLSAMT
+ISILSSRLYGEWVDRGARIRPLLFACAFAAFLASAAALVGSLPLLVLVTAPGMGLTNAAS
+TLVFSYGRHYGRMQGLEPVGYNAFLRMTVSLAWMVMPAAAYLVADFAGARFVFVNAMLIV
+LIWVAIAMAVIPRGQTCPMEKRDQDAPEGRNVGLWLAAGISFCLSFAHSLCASALPVFFV
+REAGLPAYAPGLSLSVKCAMEVIFILVAPWMARRISPRLILGGATVLAIIAFNIIASVHS
+VPMMLVGAALEGSYYGLFAGTCLSFVQSFSRGRLARATALYMNSMFLAGLFAVPAMGLIA
+QLHNFGMAIRLASFGAGASLLLLFLTRHRRTDT
+>tr|A0A1Q9AF10|A0A1Q9AF10_9RHIZ
+MREVKDRPANLREACVEEARAIVAEDGLEKLSLREVARRLGVSHGAPYRHFPSRDHLLAE
+IVARAFAAFAEALDTRSQKSEPPQDFGAMGRAYLTYALEQPLNYRLMFGTPLPAPADHPE
+MMRQARHAFALLRENLKAAHAAGHRPVDAEELDRHALFIWATMHGTASLLASDAIRQIDL
+SDSVLAGAPEHSLTMIGRALALC
+>tr|A0A1Q9ADU8|A0A1Q9ADU8_9RHIZ
+MAQDFTDKTAVVTGTTGIGRAVALHLARAGARVAALGIDAEANAALQALAEGEGLALSVR
+RTDVADPEAVALAFAEIGAGGPGIDIIVNAAAVHPYGTAETSDFASFLRCMTVNVGSIHL
+TAQFGVPEMRRRGGGVIVNLSSVQGHACQSGVSAYVASKGAIHAMTRAMALDFAADRIRV
+VSISPGSVRTPILALAARTFEGPDADIEAVFQRFGAAHPLGRIGEPEEVAALVAFLASDD
+AGFITGSDHRIDGGLTAGIGVR
+>tr|A0A1Q9AJ23|A0A1Q9AJ23_9RHIZ
+MDLPVEWSWLIVIGAASAAGLFYLRMTQRAEEEQRMPDPGLAIIEFGRAFPEEAIRAIHA
+TQNGQATFLRLHDERVGLMVSHGAHYACYRFEAGQIRLDHAPDTQTLAIVFPQFAKLDGL
+YHFTTPEAAADVSLWLLGSFRT
+>tr|A0A1Q9AP74|A0A1Q9AP74_9RHIZ
+MKGGALRNSSAAAALRDWHAFRAVITAGDDHVLERSEQSIYAMTVIVHWTKLFPMAVPLE
+HRTQK
+>tr|A0A1Q9ACM1|A0A1Q9ACM1_9RHIZ
+MADTPCIALIAHDQKKQDLADFARAHEAVLARYRIVATGTTGGRVQEACPSLVVTRLKSG
+PLGGDQQIGALIATGEVDMLIFFTDPLTAMPHDVDVKALMRLATVYDIPMALNRATAEQL
+IVFAQS
+>tr|A0A1Q9AF81|A0A1Q9AF81_9RHIZ
+MRARVYEKARGAVRRQLEGMKPRPSDDMIQRQMTKLEAAITDVESDFSEAVVEEAPLDEA
+AVEEVVAAQDVSADQPIAEPEPAAETQHEADPAHGPTSSQAYSAAEDHQTVADRPVADQQ
+GPVGEPPADAWAAPASDATAPDAVTHEAAVHHAAVADDAARAEDELAHVAPTWQEAPAET
+APAYEHQPAAAHDASAPIADHHAYDPVEAGPVDGYVPIEQTEAAAEDAPAGHDADSHEAV
+ASYDEATPSSHWQDEPHDVSQTDHSAWQAHEDAVHARAEDHAAQEAYAPHNDPEAVYAAE
+HPLGPAEPETGWDAHPAAAEPWQDPHHDAGQQAEEAPSWPEPVSHPAGDAAADDAARALA
+EEYDDLSGATPAPVFETRDHGTVAMPAAADLQDVWAAPAQPLAPEVYAPEPHTAERHTSE
+FHATEAYAPEPAPDHARDNAQAVASAEDDAAAALAQAYGRETDDPAPQAASDKAQAANWE
+LPEWTASAGPVHAHVEPEWHQSAGHVDYAVEPDAVIIPAPASPATATGAEPVTAQDNTQA
+SAAGWSWDDKDPFAAAPDGEKRAAPEEKSDEAIGWAWPVEAQPADPKVEAEQQNWEAIDA
+LLSARGVTPEGVVSPAAVAEAPIAPARPISYRAEPKPPRFSIKKAVSLLVLLGLLGGGGY
+AYWSHRDVVDGWVGKLMASASVPAPSQAPGNGTQANGSGQSATTDTAAVINKFTQRLQAD
+GSEIDEGVAPAAGRSTADEGRSVSPQTEASKPVETAQASPAPTPGSAAPAATGSAAPADA
+PAPAAPPSATTPAGTPATVEVPAGAQKMFLYEERLGQAAPTAIEGSVAWTLKEETPDGAS
+RPEPVIQAQITVPNRGLTALMTIKRNSDTSLPASHVIEFVFSLPANFEGGSIAGVQRVSM
+KRTEQDRGDALIGVPAKITDDFHMIALNDFPEAVKTNLDLLANRSWIDIPLTYRNGRRAL
+LTLDKGSAGADAFSRALKTWAAIKPSAG
+>tr|A0A1Q9AFF9|A0A1Q9AFF9_9RHIZ
+MATHRPDRTDMTQPAGRSPLARMLDRKRLFARLVLTLERAAPHLLAPLSILLIFLSVSWF
+GLFRMLPAALHIALAIGFAVAFIGALVPLARIRLPSAGDADRMLESRNHLPHQAIAVQED
+RPATTGAFGQALWAEHQARMARRIHDLETGLPQPDIARFDRHGLRALPVLIACVAFGFSF
+SNRAGELTDIAHTPQAVSDRPDVRIDAWVTPPAYTGRAPLFLTGREAGPTGEAVTVPQGS
+ELTVRITSASGDVPVTYRTASAAEPQPVPRDTEKAEGEKGAGGPQAPEGSSASNAGTNSA
+GAAAATAGVTHQMRLTENGRLDVAGSAWSFTVTPDHAPTIAFEGKPRPTVNAALEIGFTA
+KDDYGIDTAWAEIKPVDPPAPDARPLYPAPEYRLDLPRRNAKEVKGTASRNLSEHPLAGK
+RVTITLVARDAAGQEGRSQPENMILPARRFTEPLAAAVAEERQVFALDANALPRALDLND
+AVTLRADETIPNLTHYLLIESARGRMMMAQNEEMLRDTAAYIWDIALGIEDGDLSLAEKR
+LRDAQQNLSDALERGASDEEIAKLMQELREAMKQFMQAMAEQAMKNPQMARPNPQNMLNQ
+QDLDRMMNQIENLARSGSKDQARQLLSEMQRMMNNLQAGRPQPGQQQSGDNSQMRQQMDK
+LGRLLQDQQKLMEQTFQYDQALRDRMQGGDPMDGDELFDQQPMPGQEMNPQQGQQGQDGQ
+QGQQGQNGGKPTDQMTEEQLRQALKDLKAQQDALRKQLGELQKGLQGMGMQPGKGFGEAG
+REMQGAAGALGQGRSDQALGGQGRALQALRQGAQEMMQQMQSQQGQGQGPGQGIPQYGQN
+GRDPLGRRQQNVGPEFGDQVKVPDEIDTQRARQILEEIRRRLGNNLSPEVERRYLERLLD
+IQ
+>tr|A0A1Q9AJY0|A0A1Q9AJY0_9RHIZ
+MIRLGLLGLGEVAQLIHLPILQRLGDLFTLAGAYDPSPSVSKAIGARWGIETLYETPEAL
+FAAADIDAVMVLSPDQFHGRHARAALEAGKHVLIEKPCCLALDDLAALAEVAEKSDKVAM
+VGYMRRFAPAFLAAKENLPPAEEITYVRVRDVICEGPWYFNQTDTVVTPQNDLPAELLST
+GAALRKAMLDSVLGDDAPTDLRTAYTVMTGLSSHSLSAMRDLFGPPKAVSAASIKQGGTQ
+ITALLDYGHFTAIYECMIGDVVRFEAGFEINTRWKRLAFEYPTPYIRNLSMTLDIQTSTE
+TGNSVTRIGPFHQDPFDVELRAFHAAVTQGGKNRTPPSESTDDLALFKAIIEAARAA
+>tr|A0A1Q9AK68|A0A1Q9AK68_9RHIZ
+MFKKILIANRGEIACRVIRTARAMGIATVAVYSDADAEALHVRMADEAFRLGPAPSAQSY
+LSIERILEAIRQTGADAVHPGYGFLSENAGFAAALKAEGVAFIGPPAGAIEAMGDKITSK
+KIAAEAGVSTVPGHMGLIEDAEEAVKIASAIGYPVMIKASAGGGGKGMRIAWNEAEAREG
+FQSSRNEAKTAFGNDRIFIEKFVTQPRHIEIQVLGDAHGTMLYLGERECSIQRRNQKVIE
+EAPSPFLDPATRKAMGEQAVALARAVGYASAGTVEFIVDGQENRFYFLEMNTRLQVEHPV
+TELVTGIDLVEQMIRIAAGERLALTQDDIRLNGWAIESRLYAEDPTRNFLPSTGRLTRYR
+PPQEGARPDGTIVRNDTGVTEGGEISIYYDPMVAKLCSWAPDRRQAIDAMAAALNDFEVE
+GIGHNLPFLSAVMGQERFRSGRLTTAYIAEEFPESFSGVRPDAASSQKLAAIAAVLHHRL
+QTRAARISGGIDHHARAVGRDWVVRLGAASHAVTLSGDPQAQAVTFTDSGESLTVEADWH
+PGRTHAPFRLNGETLGVKVDLVGSAIRLRTHGMDVLAHVRSPRVAELAKLMPVKLPPDTS
+KMLLCPMPGVITSVAVKAGETVEAGQTLATVEAMKMENVLKAERRGIVKRVAVAAGQSLA
+VDELIMEFA
+>tr|A0A1Q9ALX7|A0A1Q9ALX7_9RHIZ
+MKPIVFAGPSIFGLDTARLDIAFRPPAASGDLLAAVQAGAKVIGLIDGFYGNSAAVWHKE
+ILYALTEGVVIVGGASMGALRAAECAPFGMIGIGEIFEAYRDGRRVCDGDVAISHAPAEL
+GYRPLSIALVDAEATIADAADILGAADVDLLLKAARSLHFHRRTWRSIVAQAGLGKGHLA
+ILAANTVSVKRRDAERLVSMLADCAPFPQASRAWTFQNTIFFDELRRRMSASDAAR
+>tr|A0A1Q9APG6|A0A1Q9APG6_9RHIZ
+MTLSFLAALTAPWASAAPVDLTLYTEVYPPFNYNNSGRLTGSSVEQLKLILAETGLSYTI
+EILPWARGYNLAEMEPSTCVFSTMITPRRAKRFKWVAPLYRETQVLARRQQDHAAPVTLA
+QARRSVVGVYINDVAAELAQSDGFEQIDTSPSMNTTVEKLLNGRVDFIYMAHSTVDRLRE
+QGVAIETAVEAYHAVGGLACNAQTPDAVIAPLQSALDRMIADGRQAEILTRFGVSTTP
+>tr|A0A1Q9AQG0|A0A1Q9AQG0_9RHIZ
+MRHWSWLFERVAKRLWVRASLYCLAGIATALAGLVLGRFIPSDLSAKLGADSVGSILTII
+GSSMLTVTTFSLSTLVAATASAASGGTPRATTLLLEDETAQRALSTFLGAFLFSLVGLIA
+LRSGLYDDGGRFVLFAATLLLVALITLTLLRWIDHLTSLGRVGETIARVEAVALKEIAAH
+RDAPFLGGRPLGRVSEDTIRICPEEIGHILHLDMARLQALGETHQARIHVLRRPGALAGP
+GQPILAIEAGTPLDAAAEAAFREGFVLGARRSFKEDPRFGLVVLAEIGMRAHSAAVNDPG
+TAIDVLTALTRLLSQTAPRQDREAGIRYDRVFVPAITAQDLFEDAFLGMARDGAGNLEFS
+IRLQKAMALLAAGPDAEIAAAARRLAREAAARSLEVITFEPDRQRLLAVCARGSA
+>tr|A0A1Q9AJ89|A0A1Q9AJ89_9RHIZ
+MTKVPPLLHDLPEAEDERGFFADQPARRPKAKAERAPAPSPDRPAEEAHYHGHRDRLRAR
+YRENGDTALADYELLELLLFRLIPRRDTKPIAKALLDRFGTLSGVLGAPIGLLTEVKGVG
+EAVALDLKLTATIAHRMLKSELKGKTVLSSWSQVIDYCHAAMAHETREQFRILFLDKRNA
+LIADEVQQTGTVDHTPVYPREVVRRALELSATAIILVHNHPSGDPTPSRADIDMTRTIVE
+TAKPLGVTVHDHIIIGREGHASLKGLRLM
+>tr|A0A1Q9AJ77|A0A1Q9AJ77_9RHIZ
+MAADILVVDDEEDIREIVSGILSDEGYETRTAFDSDSALAAISDRLPRLVFLDIWMQGSR
+LDGLALLDEIHSRHPELPVVMISGHGNIETAVSAIRRGAYDFIEKPFKADRLILIAERAL
+ETSKLKREVSELKKRSGDPVELIGTSVAVSQLRQTIEKVAPTNSRIMILGPSGSGKELVA
+RMVHRKSSRATGPFVALNAAAITPDRMEIALFGTEGTAGQPRRTGALEEAHGGILYLDEI
+GEMPRETQNKILRVLVDQQFERVGGSKRVKVDVRIISSTAYNLESLIAEGLFREDLYHRL
+AVIPVRVPPLAERREDIPFLVDMFMRQISEQAGIRSRRIGDDALAVLQAHDWPGNIRQLR
+NNIERLMILARSDGPDSVITADMLPTEVGDSLPKISAQGDQHIMTLPLREAREMFERDYL
+IAQINRFGGNISRTAEFVGMERSALHRKLKSLGV
+>tr|A0A1Q9AM98|A0A1Q9AM98_9RHIZ
+MILDDLLSPFVPAAALGPATHGLEIAGLTSDSRKVEPGFLFVALAGNKADGRTFIRDAEG
+RGAVAILTETGSAIDTALPVITVDNLRRVLALAAARFYGRQPATMVAVTGTAGKTSVASF
+TRQIWAHAGHASAMIGTTGIVSPRGSSYGSLTTPDPVTLHRILAELTDEGVTHAAMEASS
+HGLDQHRLDGVTLAASAFTNLGRDHMDYHPTVEAYFAAKMELFHRLTPKGAPAVIFADDA
+WSEAAIKAATEAGLDVRTVGRNGSFLTLKRVEHFRHKQIAEIHIDGAIFEVHLPLAGDFQ
+ISNALVAAGLAIATGTAPAIAMAALERLQGASGRLELVGQTKDGALAYVDYAHKPDALAH
+VLASVRPFTTGRVVVVFGCGGDRDKGKRPIMGEVATRLADCVIVTDDNPRSEIPEAIRAE
+ILAAAPGATEIADRAEAIRAAVAGLKAGDTLIVAGKGHEEGQTISGVTLPFSDHAEIRKA
+LGGAVA
+>tr|A0A1Q9AK67|A0A1Q9AK67_9RHIZ
+MSALNPENFEFSTDAIMVERATSELRYGRPVLISEGARKLAAVAIDCVAPSLYDQFAAVV
+GNRHQLLLTAPRAQRLGLPLAQDVITPLAGVGFDEAARLSYALGAEAPQQWQPADMLARQ
+SAELARLALLLPAMVVADVSAQAEKFGGCCEIAASRLKGADVARQRFERVVRTRVPLKDL
+GDADFVVFRGGLAQKDQVAIIVGNPDLTATVPIRIHSSCLTGDLCGSLKCDCGDQLRNGL
+TLLRQAGGGVLLYLDQEGRGTGIGAKMRAYGYQHLGLDTIDADAELGLSEDHRRYEAAVA
+MLRDLGIAKVAVYTNNPSKIAALRASGILVDARAAVIGRVTAENQNYLRTKTLRAGHMLD
+LDKLVAAE
+>tr|A0A1Q9AN72|A0A1Q9AN72_9RHIZ
+MCNLYNVSTNQEALRAFRQALDRLGNLEPSIDIYPDRPAPVLRRTGDGEAWDRLTWGMPT
+PRSILGDKPDTGVTNIRNVTSPHWRRWLAPENRCVVPWTTFCEWEDTKPKKRKRWFAIDE
+DRPLAFFAGIWTDWKGTRGSMKNPREGEHQLFGFLTTEPNAVVKPIHPKAMPVILTTAEE
+VDVWMRAEWAEAKALQRPLPDDGLLLLPAED
+>tr|A0A1Q9AJ49|A0A1Q9AJ49_9RHIZ
+MISRRQTLAALAAATATLAAPAISRAAGGGTFRIGWQKNGVLALAKSAGVIEKRLEPLGF
+AVTWAEFSSGPPLLEALGAGALDFGPTGDVPPLFAQAAGGKLLYVGTYAGAPSGSAILVA
+KDAPIHTLADLKGKRVAFKRGSSAHNFTVKALRKAGLTVADIKPADLSPADAAAAFKSGG
+IDAWAIWDPYFAVAEADPQTRVLTTAEGIVDSWSYFLGREGFVQEQPQIVLAVLDTLKKT
+GVEAQGNLEATVPALARITGVPEAVTRTALTRPGADLGRVSTVSDAVIAYQQSLADEFYS
+LRILPKKLSVADIVWRPKAS
+>tr|A0A1Q9AJU4|A0A1Q9AJU4_9RHIZ
+MRTLLATGWARTLAGQLFAIAIALALGSVIILLIDESPVRVFVTLMRGAFGDSEKIAGTL
+LQTTPILICGIAACIGLRGGMFNVGIEGQLFLGGFAAAWVGFAFSLPPVLHVLAAMALAV
+VAGAAWVAIPAFFRVRFGTNEVVSTILANYIATLLTSYFTIFLFKRPGGWSETPPILESA
+YLPELFSFSRLNLGLLIGLALAIVTAAFFRWTSAGYAVTMVGSAPKFAEYGGIDVRRVGF
+GVLLVSGAVGGLAGGVETLGVHHRFMEGFAPGFGFDGLIAALLANGSPVGTIFTALFFGA
+LRAGSLLLEVDTTASREIITVIQALIILAVSADLIMRRRGDRTGERRWKF
+>tr|A0A1Q9ALQ7|A0A1Q9ALQ7_9RHIZ
+MTYVVTDNCIRCKYTDCVEVCPVDCFYEGENFLVIHPDECIDCGVCEPECPAGAIKPDTE
+KGLDMWLKLNAEFAPQWPNITVKRDPLPEAKEMDGVDGKYEKFFSPNPGTGDA
+>tr|A0A1Q9AG94|A0A1Q9AG94_9RHIZ
+MACDDAFAVGELYEAYGRLIGHRYVLHERMAQTGDSSFSNISVLDACATRFQGGVLRFDM
+SANQDGLDLVILSFALSGQALYYRQNGVDCVALPGNAILHTTDVPLHAQADRAGEVMAVA
+LPRAKLSAMLADRDALTTRVLPGDNPALSLFSGHARSFLSLSGLPDATLADLVGDQLCDL
+AAVALGANGTGKDKVMSGEAVTDVRFNRAIRYIHRHLADPTLGDADIARHLGLSVSSVRQ
+IFARKQTTPARTIRKARVELAARLLRQTSHPPRKVLSIAFDCGFHSVSAFYDAFRDQYGL
+HPSDLRPLPRKSSLD
+>tr|A0A1Q9AIK6|A0A1Q9AIK6_9RHIZ
+MTTTYTSYKQITGDITSSLKRVSEQPDVARETAYYLSKIGSVKSVDEFMADSRLYDYALK
+AHGLEDMGYAKAFIRKVLTEGNESKDAFANKLQDSRYSDLVNSLNFAKYGTAATSKDGAT
+TGVTAKFNRQTLEEKVGEDDSGVRLALYFERMAPSITSPFGLLADEALSQVTRTLLDVPD
+EFAASDIDAQAAHIKSKIDIASFKDPQKLSKLMERFTAMWEARKAPSDTGTLSLYGASTG
+ISADLLLSINNLKLGGR
+>tr|A0A1Q9ANA4|A0A1Q9ANA4_9RHIZ
+MDDHASLKQTPLAALHRALGARMVPFAGYEMPVQYPAGVLKEHLHTRAAAGLFDVSHMGQ
+IRILPASGKVEDAAAALETLVPADILGLGVGRQRYALFTNAAGGILDDLMVVNRGDHLFL
+VVNAANKHADFAHLQAALSESCSVEMLEDRALIALQGPRAEAVLAELWADVTAMRFMDVA
+EAALHDIDCLISRSGYTGEDGFEISVPAASAEDLARRLLEHPDVLPIGLGARDSLRLEAG
+LCLHGNDIDPTTNPVEAALTWAIGKARKPAGARAGGFPGADVVFAALEAGPKRLRVGLAP
+EGKAPVRAGVTLFASEDGQEPVGSVSSGGFGPSAERPVAMGYVDSAHAKPGTALFAELRG
+KRLPVAVAALPFVAPTFKR
+>tr|A0A1Q9AQK3|A0A1Q9AQK3_9RHIZ
+MFKNTDFSDLDLAQLFDAAPNPYVILDQSLTIVGMNAAYCAVTMRGRDELIGRNIFDAFP
+SDPQSVSGRLLRNSLEAVLRDSALDHLPLIPYPIARPDGQLEERFWSATHTPIADRSGTV
+RWILQHTVDVTELHQLRRTASALGVESDILARADAVADANLSLGAERSYLRTLFDQAPSF
+MAVLSGPDHVFDLANSAYSALVGGRPLLGKPLLEALPEIRDQGFIALLDNVRASGHPFIA
+HGAEVQLHRGGTIERRYLDFVYQPLRNGEGDVAGIFVQGHDITDMKLAQQSARDSEARFR
+LLAQSIPNHAWAATPEGVIEWCNDRVYEYCGLSEQDLKGRFLGSTVHHDDRDSVTRIWDG
+CRKAGEDFHAEVRLRRADGSYRWHLSRAVPSYDADGAIERWIGTNTDIDDQKQTEAQLEH
+LAETLEQRIEERSHELEQTQKALRQSQKMEAIGNLAGGIAHDFNNLLQVVTGSLELLGKQ
+LHQDERAMRRIDNALSATQRGARLAAQLLAFGRRQPLAPRVVNLARLVRDTDQLIRRAIG
+EAIEIENIVGAGLWNTMADPTNVETALLNLAINARDAMNGNGRLTIELANAELTSHYART
+DEEMVPGQYVLLAVSDTGSGIPRDIIDRVFDPFFSTKPEGKGTGLGLSMVYGFVKQSGGH
+IRIYSEVDSGTSVKIYLPRALAPEDDLSSPQVESVGGTETILVVEDDDGVRETTTALLQA
+LGYRVLKARDAASAWALIESGVAVDLLFTDVVMPGPMKSTELAERAKSVMPGLKVLFASG
+YTENSIVHGGRLKRDVQFLSKPYSEEQMARKIRQVLTA
+>tr|A0A1Q9AP00|A0A1Q9AP00_9RHIZ
+MAETGIVKFFNTDKGFGFIKPDNGGADIFVHISAVQASGLNGLSENQKVSFDTEPDRRGK
+GPKAVNLQIAG
+>tr|A0A1Q9ADD0|A0A1Q9ADD0_9RHIZ
+MYDLLITPFVDYVFLQRALAGCVLLCISSGPVGVFLMLRRMSLTGDALAHGILPGAAVAF
+LFFGLELAPMTIGGLAAGLLLAMLAGAVSRLTLQKEDASLAAFYLISLSAGVLIVSMHGS
+NVDLMHILFGSVLALNDQALTLIAGIFVVSTVGLALFWRGLVAECLDPLFFRSVSRLGTP
+IHFAFLFMVVLNLVGGFQALGTLLSVGLMMLPAASARFWVNRVGPMCALAILFGIVSSVA
+GLLLSYHAALPSGPAIILFCGGIYVLSILASPRGLAVTYGRRTRPHRAT
+>tr|A0A1Q9AC82|A0A1Q9AC82_9RHIZ
+MGFSTIVHELSHAVGLSHPHDGAQTFPGVEYGNAFRDYGDYAMNQQIWTNMSYNPGWTVE
+ELGIELDYGYASGLMALDIAALQKIYGVNTSTRTNADVYQLPQYNAAGTGWVCIWDAGGE
+DTIGNAGSTKNSVIDLRDADLVGPYAGGHVSWISGVSGGYTIANGVVIENAVGGVGSDKI
+YGNEQDNRLDGDAGNDEIHAGEGNDILIGGRGSNVLDGGDGQDRAIFAGLESYYMISGEA
+GGEQVVTNLATGETDYLSSIEIIQFGTQTFLNAPIADTDGPYAGVEDVTLVVNAANGVLA
+GDSDVDGDPLVAQLVTGPDHGTLMLNADGSFVYTPVANYNGRDSFVYQAFDGTLVSAPIT
+VSLNVDAGNDAPVADDDGPYAAVENVALTVDAAKGVLAGDGDVDGDPLVAQLLTGPEHGT
+LMLYEDGSFIYTPVANYNGSDSFTYYAFDGARGSNAVEVSLNVGAVNGAPVARDDVGLKI
+APGWKTYKIAAATLLYNDEDGDPETQQSLSIVAVGNAKNGKVELKGGDVYFTPKKGYVGP
+ASFTYTLYDGEGGTATATAKLAMADKKGGYVLVGTQGDDDLFGGLANDKLDGKGGDDWLS
+GDLGQDVLTGGGGTDYFAFVTKLDAKKNVDTITDFKSGLDWIVLDKTIFKTLSKGVLSDA
+AFAANSKGAAKDASDRIVYNTKTGDLFYDADGSGKGGAVLFAKIAGHGTVNADDFFVL
+>tr|A0A1Q9ACU2|A0A1Q9ACU2_9RHIZ
+MSILSFLDYAGVAVFAATGALSASRKQLDIIGYLFFGAVTGIGGGTLRDLILGQAPVFWV
+RDPTYLVITTGAAIAVFLSANRFESRYRLLLWLDAAGLALFCVMGAEKGLAATGSPLLAL
+VTGILTATFGGILRDLLAGEPSVLLRPEIYVSAALAGSLVFVISHALGAEPWLASLIGTL
+AAFLVRGGALRFGWTLPRGKAKPGRDPDVVMPPRRRDRKAASDFLEKN
+>tr|A0A1Q9AHN9|A0A1Q9AHN9_9RHIZ
+MPGPYVVPVHGDADLPKAVDVVVIGGGIIGTSTALELADSGLSVALCEKGGIGHEQSSRN
+WGWVRISRRDPREVPLMAESLRIWADLNRRTGRETGFKRAGIVFTCADEKQFAQHERWNR
+NLEGYQIESRMLSAAEFNAKYPGNTMKIAGALYTAGDCRAEPQKAAPAIAEAARERGAHI
+LTECAVRGLQLSGGRVSGVVTERGEIACQQVVLAGGAWSSLFMGNNGLDLPQLKVLNSVL
+RTKPLEGGPEEAIWASGFALRKRQDGGYTIADGAQNIVDIVPASFRYARKFMPAFSHEWR
+SLRFRVGGRFFDEARMPRRWSLDEPSPFEYHRVLDPIPSKAMSDTALKRLSVAFPVFKKA
+EIAQRWGGMIDVTPDAVPVIDAIDAIPGFHVATGFSGHGFGIGPAAGRLMADIVIGRHPI
+VDRQDFRFSRFFDGSKIELISGF
+>tr|A0A1Q9ACS2|A0A1Q9ACS2_9RHIZ
+MFLLSKILWLLAQPLSLVFLLLLLALLLLLFGLSRLGLTTLSLATLLLFVALFTTTGSVL
+LQRLEDRFPKPAALPADLGCIVVLGGAFENEVMAARGGIEFNQAADRFIEAARLAGLHPQ
+AKILVSGGDGSFSGAYQGDADVASRFFALFGIAPDRLVKENASRTTFENARQTQALLKEA
+GLERCALITSAFHMPRAMGLFRKQGLEMIPWPTDYRTTGQARPGLDFTQPSLNAQLLTTA
+VREWTGLAAYYATGRTTALFPQ
+>tr|A0A1Q9AFZ2|A0A1Q9AFZ2_9RHIZ
+MSKRASSKYKIDRRMGENIWGRPKSPVNRREYGPGQHGQRRKSKLSDFGVQLRAKQKLKG
+YYGDIREKQFRAIYDEANRRKGDTSENLIGLLESRLDAIVYRAKFVPTVWAARQFVNHGH
+VTVNGVRVNIGSYRCKVGDVIEVRQKSKQLASVLEAVQLAERDVPDYIEVDHNKMVATFA
+RVPGLADVPYPVIMEPNLVVEFYSR
+>tr|A0A1Q9AHS4|A0A1Q9AHS4_9RHIZ
+MPTIHRTVLVTGASRGIGRAIAIGLARRGYDVAVNDIDRQRAALQEVAAEIETLGQRALP
+VFADVSSKSDVVAMVETVESAFGHIDAIVNNAGILISGDVAGLKENVWDSVMDVNAKGTF
+LVVQAALAGMKARKYGRIVNIASIGGKHGAPEQAHYSASKAAVMGFTRVLAQEVGVDGIT
+ANCVCPGIILTDMGRVNLDDAAIRKAWQEKTALRRIGDPEDVVGAVAFLASDDAAFITGQ
+TLNVDGGIVLS
+>tr|A0A1Q9AJZ0|A0A1Q9AJZ0_9RHIZ
+MATIELDKVDKHYGAYHALRDISFDIADGEFVVLVGPSGCGKSTLLRTLAGLEDITGGTI
+RLGGQRVDNIAAKDRDVAMVFQNYALYPHMTVRENMAFALKLRGDTLPDRNAKVDKAAEM
+LRLTPYLDRYPKALSGGQRQRVAMGRAMVRSPKAFFFDEPLSNLDAALRVDMRSEIKALH
+QRLGATSVYVTHDQIEAMTMADRIVVLRDGKVEQIGAPLELYDRPANIFVAGFIGSPAMN
+KLSVKIDLKSNAARLADGSSFSLPPGTRARDGQDAIYGIRPDHWILSRGDQGAPATVELI
+EPTGAEILVAAQLAGQRVLCAFRERHALKAGDTIALAVDPATAHVFDKQTEQRISP
+>tr|A0A1Q9AKH6|A0A1Q9AKH6_9RHIZ
+MAEQDKPQVAPLVVALTRPRMMWGIPIGLFVGELMVVVMTFLNTKQLATFLLFLPLHAAA
+YVMTVRDPHMADVVRLRFAKCPWVRNRHFWGGNSYRA
+>tr|A0A1Q9AMY2|A0A1Q9AMY2_9RHIZ
+MPKLTIVAFDGTRYDFDVANATTVMENAVRNAVPGIEAECGGACACATCHVYIDAAWTAA
+VGGPEAMEEDMLDFAYDVRPTSRLSCQIKMSDALDGLVVHVPERQA
+>tr|A0A1Q9AI43|A0A1Q9AI43_9RHIZ
+MSINCEIFDLRAFQAVVDLESFHRAAEALNISQPALTRRIQKLENAIGAPLLDRTTRHVA
+ATATGQELLPLVRRMLEEFDGSLFALKDGGSQRRGLITMACVPTAAFYFLPTVIKRFGED
+YPHIRLRIRDLTANEGLQAVARGEVEFGINLMGNSDPDLSFEPLLDDPFVLAMRRDHPLA
+QYDEIHWRQLDGHPLVVVDRSSGNRALLDGALAKHNLRLNWFYEVTHLNTSLGLVEAGLG
+ISVLPRLATPQEEHPFLVTRPIIDPVVTRTIGIVRRRSAPLSPAAERFVDMLLKVWKR
+>tr|A0A1Q9ANJ6|A0A1Q9ANJ6_9RHIZ
+MAVLSACTSDGLELEPSARLDPDRAAPARASSGLAPVAEPPPGPAAAPLAEPEPDGAIGP
+AASSSGYPARHHRALSAASSASFPSASASSAAPSAGVDVDGMLGAPAVKGLAEEEAEQIA
+EGRSSQPVVDGIGGEVHAVAPRRLPEPESGPPPAIDPDLPPLPPRAGAARAERRSDARPP
+TRAGEDQVAFIPRLVPKSDAPMSLPAPPDGTMPADEVACRRQLKALGVTYREVPRITNGP
+TCGIEHPVKVSGLSGNIAVSPAVTLNCQTSVAFASWVKNELAPAARLRYLSGVAVVKPMG
+GYSCRPMNNRRGNPMSEHAHGNAIDIGTFILKSGKEIDVRKPGFFAFREKGLLKAVRADS
+CKYFNTVLGPGSDPQHKDHFHFDLRDRRCGYRHCD
+>tr|A0A1Q9AJJ3|A0A1Q9AJJ3_9RHIZ
+MALKSFNPTTPSQRQLVIVDRSQLFKGKPVKSLTQGLSSKGGRNNLGRITVRFQGGGHKR
+TYRLVDFKRRKFDMEATVERLEYDPNRTAFIALIRYEDGTQSYILAPQRLAVGDKVIASD
+KAVDVKPGNTMPLQAMPVGSIVHNVELKPGKGGQIARSAGTYVQLVGRDQGMAILRLNSG
+EQRLVHGTCLATVGAVSNPDHGNINDGKAGRSRWRGKRPHVRGVVMNPVDHPHGGGEGRT
+SGGRHPVTPWGKPTKGKRTRSNKSTDKFIMRSRHQRKK
+>tr|A0A1Q9ACT0|A0A1Q9ACT0_9RHIZ
+MQILRFLAALLVVVAHVGIEVEHISETSGRPFALFHPLDWGVGVDIFFVISGFIMFYLMH
+DRFARPGSPARFLRRRLIRIVPLYWICTTLMLLSILIAGQLVRNDGLNPAHIIASYAFIP
+WPRADGQMGPLLSLGWTLNFEMFFYVVFAFALLLPRRLGLTSMFTGFCALMLIAPHVPAD
+LWMIRFWGDTIIGEFLLGIVLAMAFLGNRRLGIVAMIALIVMGFGLAVLFFQTGSYEVVP
+RLVTGGIPAIVIATAAILGPSAPNNAFSRFLALGGDASYALYLTHPFTIKLLGALGLKMG
+LSLTGIFWLGLLLTVIVALLVHLLVERPITRFLNRTFDQPGPRPLAEKASLP
+>tr|A0A1Q9AFS2|A0A1Q9AFS2_9RHIZ
+MIAPVFIALVFAFGLPQKAAAQSSGSQYSLQEIVDAGHGFFGSASGGLAKVVERAFQSYG
+LPNGYILGQEGSGAFVAGLTYGEGKLNTKNAGQHNVFWQGPSLGLDAGGQGSRIMMLVYN
+LPSVPALYKRYGGVSGSAYVVAGVGMTVLTDDNVVLVPIRTGVGARLGINVGYLKMTEQP
+TWNPF
+>tr|A0A1Q9AJY8|A0A1Q9AJY8_9RHIZ
+MGGFQPEQSERDGFLPIRTNGFDRGFISVVILILVHLLWMRFLEGLLPLWVATVLCLALA
+VFIIRKG
+>tr|A0A1Q9APE2|A0A1Q9APE2_9RHIZ
+MTKTIDYFFSIGSPWAFIGLEAFAALAARQGAAIRPHVIPLIEENGGIYSRNRPEARRAY
+WIKDLKRWAALRGKVLSFDNRASLCDPAPAGALVAAAIEAGQDWLALTLALQEAFWVRGE
+DIGKADIRRAIADAAGFDGAALDERGQSEAITAFRTASYETAKAAGVFGVPTYRYEDELY
+WGQDSLPFLERHLKGERLAA
+>tr|A0A1Q9AQI1|A0A1Q9AQI1_9RHIZ
+MVNNLFIYFRCGATSWDMSYIAGLSLKNDVFNSRIHQLTFEYLEDSSGTSFVILFYLDGQ
+LVATSTAFPTTDGNPFVAKATAGKAKIGCPSGYTGKTFAGDFRRAWFQNAELSDRPVIDL
+VKLDWDVNKKRMGAA
+>tr|A0A1Q9AHY3|A0A1Q9AHY3_9RHIZ
+MAEAAGGVAGAPQLRPRVLVVAGTDSSGGAGIARDVETLAAFRVSASLAVTAVTAQTHAE
+VRAVEILKPALVAAQMRTALEAGPIGAVKIGMLATADTVAAVAECLEDWPDLPVVLDPVI
+ASSSGRPLISEEGIALLLARLLPRAALVTPNLPEISILADALPGTPDPARAGLDPDDAAA
+RLLAQGCRALLIKGGHAEGREAVDRLLRPGVKPLIFRAPRHAGSMRGTGCMLASAIAAGL
+ASGQDLPMAIAAGKAYLSARFAEAGEQSLLHSFSGQSVPAL
+>tr|A0A1Q9AFW1|A0A1Q9AFW1_9RHIZ
+MIRFIPMPTQLARAYQDGAADAYGCAPERREAAESGLPCRHCLRPIEAGTRYLTLAYRPF
+YGLHPYAETGPVFLHAEPCAPYDDGATLPPVLSSSPDYLVKAYGEDERIVYGTGRITASA
+DIADHADTLLQRPDIAFVDIRSARNNCLLCRVVRAE
+>tr|A0A1Q9AFY8|A0A1Q9AFY8_9RHIZ
+MGAVCLSRLLILRPRLAKRSPEALTLSRPDKESYRDAMSRLAGHVHIAAVDHAGERRGVT
+ITAACSVSDDPATLLICLNTKNPKNRLFLEAGVFSLNLLGADQLALAQVFSGSEPIEGDR
+FDHGRWTKLATGAPVLEDAVAAFDCRIVESRVVATHMVLFGAVEAVVLGQRNPALVYLDR
+AYRSL
+>tr|A0A1Q9AK66|A0A1Q9AK66_9RHIZ
+MRSILEQLELRRAQARLGGGKKRIDAQHAKGKLTARERIEVLLDEGSFEEMDMYVTHRAV
+DFGMAEQKVAGDGVVTGWGTINGRQVYVFSQDFTVLGGSLSETHAQKICKIMDMAVRVGA
+PVIGLNDSGGARIQEGVASLAGYAEVFRRNAEASGVIPQISVIMGPCAGGAVYSPAMTDF
+IFMVRDSSYMFVTGPDVVKTVTNEIVTAEELGGAATHTKRSSVADAAYENDIETLEAVRQ
+LFDFLPLNNREKPPTRPFYDDPARLEMRLDTLIPDSATKPYDMKELILALADEGDFFELQ
+EAFARNIITGFIRLEGQTIGVVANQPMVLAGCLDIDSARKAAKFVRFCDAFSIPLLTLVD
+VPGFLPGTAQEYGGVIKHGAKLLFAYSEATVPMVTLITRKAYGGAYDVMASKHIGADINY
+AWPTAEIAVMGAKGAAEILYRAELGDPDKIAARTRDYEERFANPFVAAERGFIDEVIMPH
+SSRRRIARAFAALRGKRVETHWKKHDTIPL
+>tr|A0A1Q9AD83|A0A1Q9AD83_9RHIZ
+MTLTNAQRLERLQVRMAELEFWRARKTAVVDGWQFNGAPLAIGADWPQKDGVQKFSGEVT
+VPEGWPLDEVRLFLHLGGESLITITAQDGTAKSFGLDPYHREFTPPSRQFKVTSDTVARL
+PFGEPVRKPFLERAELLWIDGPVEKLWILLRQISEAVSALQGHEAVPYMLEAAEIALRSL
+DWPSATADYIARTAPAVMQQKIWRLPELKKDPEGLNDAQRESVVAAYDALMDRLATLQKR
+FPPQGKVALTGHAHIDLCWLWPYDETRRKMRRTFHTALSLMDRSEDFRFNQSTAHYYAQI
+AEDDPELLERIRERAASGQWETVGGLWIEPDTNMPTGESLTRQVLYGQRFFEKTFGHRHT
+VCWLPDCFGFSGALPQLLVQGGMKSFFTIKVNWSETNRVPSDLFWWEGLDGSRVLAHSFD
+NPMEGYNGFVRPDCIVPTWKNFRQKDRHDTTLLCVGYGDGGGGPSPEMIVREEQLRVFPA
+IPEARWTRVHDFFEAAHDTAKATAMHVWQGEIYLELHRATLTSQSAVKRLHRQAERGLIV
+AETLSGLAHLMGAERPRSMEAEWRVVLKNEFHDILPGSSIAEVYVDAANELNQSIADGKA
+AQAAALDALTPLLPKGEDGAVLVVNPTLSERPIRLHLEEGVIAAEGTIAPLGIAVLPKSA
+LAPKGGLSATARSLENDTIKVTLAEDGTIESLFHKPTGREAIEGRGNRLMAYTADKPRNW
+DAWDVEDDYAARGEEITGIESIELVENGPHRAAIRIARVWRHSRIVQTLSLTANAKRVDI
+HTEIDWHERRVLLRSISELAVKSKHATCECAYGVVERPTGSSNSWEEAMFEAPAHRFVDL
+SEPGFGVALLNDAKYGHSMRGSVLGLSLVRGPVYPDPLCDEGYQAFTYALMPHAGTWYEG
+GVREEAEELNQPLIARAVSGLSAGSCQPIVASGIEAGFSALKPSEDGTDMILRVYEPAGA
+RGAFDVALPEGWSNQGVVTVLEEPMADTSATGLMPFEVKSWRFSKA
+>tr|A0A1Q9AFN1|A0A1Q9AFN1_9RHIZ
+MSDLVEPKAAGLMAAGLAERAKAALGRRNLVFVGLMGAGKSAVGRLVASTLNINFIDSDH
+EIERVSRMSVSELFAAYGETEFRALETRVIRRLLRSGPRVVSTGGGAYINEETRRLIKKN
+SVSVWLDADLDVLWERVSKRDGRPLLKTDNPKQTLENLMRVRYPIYAEADLRVKTRDVKK
+DVIVEEVLTALAATKA
+>tr|A0A1Q9AG65|A0A1Q9AG65_9RHIZ
+MSKDWNKPVSLALGEPGTVTTIRNIQEASWALIEDWPLEEGKALDSALQTLEAAMKGKAS
+AEAARLAFIAAAHEAGIEIRE
+>tr|A0A1Q9ACB5|A0A1Q9ACB5_9RHIZ
+MTPSPASVVSARKLGLTFATADGPVTALTGVDLEIAKGDFVSFIGPSGCGKTTFLRVIAD
+LERPTEGTITVNGTTPEDARKNRSYGYVFQAAALYPWRTIEDNIALPLEIMGTPKEERKK
+RIERVLALVNLTGFGRKFPWQLSGGMQQRASIARALAFDADLLLMDEPFGALDEIVRDHL
+NEQLLKLWAQTDKTICFVTHSIPEAVYLSTKIVVMSPRPGRVTDVITSTLPKERPLGIRE
+TPEFLEIASRVRDGLRAGHSYDE
+>tr|A0A1Q9AC98|A0A1Q9AC98_9RHIZ
+MSAHRLLTGGLIDRGKPLSFTFDGRRHSGFAGDTLASALLADGVSLMGRSFKYHRPRGVM
+TAGSAEPNALVTVGGGTRREPNLRATMVELHETLTAVSQNRWPSLATDFGALNDRLSALL
+SAGFYYKTFMWPSAFWEKLYEPLIRRAAGLGRATLKRDPDAYEKAWAFCDLLVIGAGPAG
+LMAALTAGRAGLRVILADEDFRLGGWLLSETRLIDGRPAHDFAAILVEELAALPNVTLLP
+RSTVFGWYDDNVFGAVERVQKHLPIPSDKQPVERIWRIVAKRALMATGAEERPLVFGGND
+RPGVMMAGAALTYAARYGVAVGKRVAVVTASDSGRQTAAALARRGVEVVALIDARTASAQ
+ASPMPEGARTLTGAHVVDTLGRLSVEGLVTVRAGFEERLDCDAVAMAGGWNPRVHLACQH
+GAKPVWSDVHQAFLPPDVGPDFQAAGAAAGLSTLAEALGDGVRKATAVVADLGRSAPTVP
+LPEIDAEEAASGAAASPVWLMPGARSKAFVDFQNDVHAGDLALALREGFGHAEHAKRYTT
+NAMATDQGKLSGVNASGLLAAMKGLSPAEVGITTYRPFYTPVSFGALAGTARDEEAVPHR
+LSPLDGWAKAQGAMFVEAGLWHRPAYFPRPGEKDWRASVDREVRTVRAAVGLCDVSTLGK
+IELFGPDAAEFLNRLYCNPMLRLPVGKARYGLMLREDGMVFDDGTVSRLGHQHYLITTTT
+AMAAKVMSHLEHAAQVLWPALQVRFASVSEQWAQMSLAGPKARQVLQAVVEDDLSAEAVP
+PLAAQAVTLRGGLRGRLFRISFSGELAYELAVPAGHGRAVAEAIMAAGRAHGICPYGLEA
+LNVLRIEKGHVTHAELDGRTTPDDVGLGHMLARQKPDFIGKRLSERYGLTAADRGQLVGL
+VPVDRQRMIRAGAHLLREGAKPSTLNDQGHVTSACYSPTLGHPIALALLKSGRERLGERV
+LVWDRLHKEEFLAEVVSPVFVDPDNRKIEPKEPA
+>tr|A0A1Q9APT9|A0A1Q9APT9_9RHIZ
+MKSQMTKAKLAAFATLLSLSASYAEAAGVLTIGRNEDSTTFDPIKSAQNVDNWVFSNVFD
+VLVRVDRTGTKLEPGLAESWTISDDGLTYTFKLRDAKFSDGSPVTASDAAFSLTRIRDDK
+GSLWSDSFKIIDTATAADDKTLVVKLKGKSVPFISMMALPNASVLPKGVVEADPDGFAEK
+PIGSGAFTVEEWRRGDRVILKKNPGYWDASHVSLDGVEWIVVPDDNTRILNVQAGQLDAA
+INVPFSRVSELQKNADLTVRMDPSTREDHMLINHEHGALAKKEVRQALDMAIDKKAIVDA
+ATFGIGEIANSYIPKGALYHYADNLQRPYDPEKAKEMLKAAGAEGLTLNYLVNAGKETDE
+QIAVLVQQQLAKAGVTANLQKVDPSQSWNMLIDGDYDISVMYWTNDILDPDQKTTFTLGH
+DTNMNYMTRYKNDHVKDLVAAARLETDPAKREAMYVELQKIAKDDVNWIDLYYSPYINVM
+RKNVTNFYQNPLGRFFLEDTVKN
+>tr|A0A1Q9AN85|A0A1Q9AN85_9RHIZ
+MTKALQRITDAERTTREMADHMRAYPGCTTGDLACHFPAGDIALYGDAAAKLALAGDTKR
+IDGRRSAQ
+>tr|A0A1Q9ALJ7|A0A1Q9ALJ7_9RHIZ
+MARNKIALIGSGMIGGTLAHLAGLKELGDIVLFDIADGIPQGKGLDIAQSSPVEGFNANL
+TGASDYSAIEGADVCIVTAGVARKPGMSRDDLLGINLKVMEQVGAGIKKYAPNAFVICIT
+NPLDAMVWALQKFSGLPKNKVVGMAGVLDSARFRLFLSQEFNVSVQDVTAFVLGGHGDTM
+VPLARYSTIGGIPLTDLVKMGWVTEERLEQIIQRTRDGGAEIVGLLKTGSAYYAPAASAI
+EMAESYLKDKKRVLPCAAYLSGQYGVNDMYVGVPTIIGAGGVERIIEIDLNESEEQAFQK
+SVGAVAGLCEACVNIAPSLK
+>tr|A0A1Q9AHQ7|A0A1Q9AHQ7_9RHIZ
+MTSRLTFDAVSLAYPDRDCGSSGTRVLEGIDLSVSSGDFVVVIGRSGSGKTSLLNLAAGF
+QQPTAGAVLLDGQPISGPGAERAVVFQDDALYPWLNARDNIAFPLALKGVAKDARRKAAE
+ELLARVGLAGSGDRRIWELSGGMRQRVGIARALAAEPRFLLLDEPLGALDALTRSKLQLF
+LLDIWKTSGAGALLITHSIDEALLLATRIVVLQPAPGRIGAILDSGFAGEILSGADPRKV
+RQSVLFRSMHDGLTALIHDNAHEELAA
+>tr|A0A1Q9AQF4|A0A1Q9AQF4_9RHIZ
+MLASCSDEKKEGAASRAPAATQSTAQATTPATPAAGQSTPASTAATAAPATTGSTTPATT
+AEVPKADGEVDVAKLMAPGPLPEMSIGKADAPVTVVEYMSMTCPHCAHFHNTTFDAVKQK
+YVETGKVRFILREFPFDPRAAAAFMLARCAPEGQYFPMVSMLFRQQTQWAAAENGRDALL
+QMSKLAGFTQESFEKCLTDQKLLDNINAVMQKGAKEFGVNATPTFFINGKRYSGDMSLDT
+MSALIDPLL
+>tr|A0A1Q9AF50|A0A1Q9AF50_9RHIZ
+MGAFATMTINGELAIPKEVREKLRLAPGTQFYVTVREGHLVAIPKTGRLRDLGGFLGAPP
+NGRALGVDEMDDALMDALVEDEERIRSDRSVR
+>tr|A0A1Q9ANI0|A0A1Q9ANI0_9RHIZ
+MMDKSPDAFRTISEVADELDLPQHVLRFWETRFTQIRPMKRGGGRRYYRPEDVDLLKGIR
+HLLYDHGYTIKGVQKLLKLNGNKFVAAIASGDLATVEALAAASNEDGTSKIAHGEDDQIV
+GRAKPPASRRFFSFGGSQEDMADVSIGKGSINKEDRALLQEALYDLLECKRLLDQVR
+>tr|A0A1Q9AEL8|A0A1Q9AEL8_9RHIZ
+MIVLALDTAGADCRAALFDADAGRMLAVAGERIGKGHAERLLAFIDAALDSAALDLSAVD
+RIAVAVGPGSFTGIRVGVAAARGFALALERPVVGISTLSTLAWTAQKQQEAGDVLVAIDG
+RREDLFCQTFGADGAPASRPALWPLAQARDYFAGYQGSVVGSGAALLAGAPDVVSGQTVQ
+DSVEIEALARLGALADPAAAPARPLYLRGPDAKPQEGFAIARQPSAQQEGGA
+>tr|A0A1Q9AK20|A0A1Q9AK20_9RHIZ
+MTLSPLAKLAAAVTALFVAALVGVMIWVSADDVRPGRFQARFALVNDRGQPVDETIFHRA
+PSLVYFGYTHCPEVCPTTLFEMADWLNALGPSGESLQALFFTVDPSRDTPEVMNGYVNAF
+TDRITGITGSDAEMKKVVEGWMVHASRLPGEIDDYHMSHTTALLLIGADGRLKDMIAYGS
+DRDEALEKLRRLLRQSGGATSRPAPSASAPSASAPSGSATSGRAAQAGGXSAPSGSATSG
+RAAQAGGDA
+>tr|A0A1Q9AMP4|A0A1Q9AMP4_9RHIZ
+MDIALHLVAFLFLAAFLAGFVDSIAGGGGMITVPAMLLAGFPPLETLGTNKLQSLFGSGS
+ASLAYGRAGHVDLKKQLPLALLSAGGAALGAIATTYLPADILRIGLPFLLIAVALYFALK
+PNVGDIDRERRLSVAAFSATVVPVIGFYDGMFGPGTGSFFMLAFISLAGFGVLKATAHTK
+LLNFGSNVGGFLVFVVFGVVHWKIGIAMGICQFLGAQLGSRFAMKSGARIIKPLLVITCL
+GLATRLLLDPTNPLRLWLSW
+>tr|A0A1Q9AGJ6|A0A1Q9AGJ6_9RHIZ
+MRVAIIDYGSGNLRSATKAFERAARESGLDHAEIDLTNDAARVASADRIVLPGVGAYADC
+RAGLDGLPGMREALIEAVEKQAKPFLGICVGMQLMASRGLEKSVTSGFGWVKGDVVKMEP
+KDAALKVPQIGWNTLTLARPHPLFAGIETGPDGLHAYFVHSYHLAAELPEDVVATSDYGG
+AVTAFVAHENKAGAQFHPEKSQKLGLALLSNFLTWKP
+>tr|A0A1Q9AKE8|A0A1Q9AKE8_9RHIZ
+MIEFSTWDILRNLIFAARWTVLLSLVSFAGGGVVGLMILFARISKSKALRRFAIGYIELF
+QGTPLLMQLFLAFFGLGLLGVDVPAWLAAGSALILWSAAFLAEIWRGCVEAVAKGQWEAS
+ASLGMGRLQQLRYVILPQALRVAVPPTVGFSVQVIKGTALTSIIGFTELSKAGTIVTNAT
+FQPFTVYGLVALIYFALCWPLSRYAHSLERKLHVAHRGH
+>tr|A0A1Q9AQF3|A0A1Q9AQF3_9RHIZ
+MSMKMARQRQKALRDANRRARRPDRDDVARVALYWLIRRAVDKGQEAELETFQGVIVSML
+TEQGFDERECDAVFDDLVAKYRSGGLPFRRKLHLLFPDRNERET
+>tr|A0A1Q9AET4|A0A1Q9AET4_9RHIZ
+MRDIMGMMGKVKEMQAKMEKMQEEIAALEVDGTSGGGLITVRLDGKGNLKSLKIDPSLFK
+EDDVEILEDLIVAAHKDAKDKAEAVTAEKTRELTAGLPIPPGMKLPF
+>tr|A0A1Q9AEK3|A0A1Q9AEK3_9RHIZ
+MPLRMDLRRYLPGDDDYFYDDGRPDGDSDLVDVDAEMAAVAEEFDRIAQRDEDNMREAFD
+LVEVIRRSLDEPKLREPHESEPLSIAEACCLPELGGKLYVEHEGIPSRHITAKALYEEIK
+AGRLRRVPPFKAGKFLVSRQTIKEWTECQDDASLRISFGSSRSTTKTPESSGRTATGPSP
+MERPELAQASALNVVNRLRQRGSSTK
+>tr|A0A1Q9AH91|A0A1Q9AH91_9RHIZ
+MLKTLSQPAWLETTLRIDPRRFPQKISYAIRSSAGDVTIHLDERGAVMRKRLPTSGLPIS
+IALPARAFRGIAARAIDHGDGEVTVTLELHHSDPELSVPLLVAHDLCDIAADWRAWSQAY
+GIPMLMVEADGIARPLEDHLEEPRMHDLRQRRRHSLIGMRRPRFLMRRTPGSLGVAMRLE
+GREIIARN
+>tr|A0A1Q9ALL4|A0A1Q9ALL4_9RHIZ
+MCAHCTVRQLSVCAALPDEDIGRLEAIMRTRTIEPGERLVEEGAPRRHVFTLTSGMLRLS
+SDLPDGRRQIGDFLLPGDYLGLADETIYAQTAEAVTASTLCSFAVKDMEALMASSSPLRD
+RLYSLTRRALQEARESQMMLGRLAPVEKVASFLLLLSRRLQRHGQPGNPLSLSMSRTDIA
+DHLGLTIETVSRSFTKLKMQGLIVLPEPHLVEIRDRAALIAVAGLSIEA
+>tr|A0A1Q9ALQ6|A0A1Q9ALQ6_9RHIZ
+MDFESFFKSEIDGLHQEGRYRVFADLKRQRGEFPKALRHTGEEAGEVTVWCSNDYLGMGQ
+HPAVIEAMKQAIDECGAGAGGTRNISGTNHYHVLLERELADLHCKEAALLFTSGYVSNWA
+ALGTLCSRIPGLIVFSDAGNHASMIEGIRHSKCQRVIFQHNSLEDLRAKLIAADPAAPKM
+IAFESVYSMDGDIAPIAEICDLADEFGAMTYLDEVHAVGMYGPRGGGIAEREGIMHRLTV
+IEGTLGKAFGVMGGYVAASTALCDFLRSFASGFIFTTALPPALAAGALASIRHLKTSHGE
+RFAHQSRVRRLRHCLDKNGIPHLDNASHIVPVIVGDAAKCKWISDLLLDNWGIYVQPINY
+PTVPKKTERLRITPTPLHSDADIDHLVGALHALWSRCALARAVA
+>tr|A0A1Q9ACT4|A0A1Q9ACT4_9RHIZ
+MNSRQPPVPPANRAPHGAKPEQPNDTQGQISSQTVDPDKIGQQGNSKINTTHQGYQQDR
+>tr|A0A1Q9AET9|A0A1Q9AET9_9RHIZ
+MTQSGAAESASEPRLITETGIERRVADIIEPVLVPMGYRLVRVRLLALNGTTLQIMAERE
+DGSMTVEDCEAVSMAISPVLDVDDPIDKAYHLEVSSPGMDRPMVRKSDFVRWTGHLLKCE
+TSVLVGGRKRFRGTIVSTDEDGFTLDRDQPAPGEDARIVIPYTALAEGKLILTDDLIRDA
+LAADKKAKAAREAANENFEDEDEDALD
+>tr|A0A1Q9AHA7|A0A1Q9AHA7_9RHIZ
+MLPLFDMMLQAQNGHAMDVMARQFGLAQAEMVKATAALMPAFSMGLKQNAASPYDFGALM
+QTMAARSYVQYFEDMTKAFTPRGMDDGTVAMERIFGSNDVARAVAAQAAQVTGITQDVMR
+QMMPVFANALMGGLFKQTSGQMPPPATPFDAMPFAAMMRPWMEATGLMRKPEPPPRMPFE
+TPFTQAMQAYFQALSQGTQPPKPAPEPVQDLFAANPFFKAFQQMMTIGMAKPEPTPPPAP
+EPEPTIETATTPFRQMVNTMFESGLEAQKEYGRAVDRIFTSYRTGKGE
+>tr|A0A1Q9AIX6|A0A1Q9AIX6_9RHIZ
+MLIDKVLARFKIQTKVTLLVAPFVVGITVVGATGLYATSLLQARMETSNSILQSLSGFKD
+VYGGMSHFLREPSASARDALSGTLATQQAVLKQTMTTVEEEAGRAGLQAAIDDSGKIAGS
+IGDLWTLYENETELHRSMTASLGNLLGVQVKILEEATKMERSVRQNEEAAKSLLREADRL
+TSAADLLSDVMSAYARAATPQDKLAVVEARYGDLTKVQRKIASALPAAQKAVAETFKSTL
+GEINALMERKDTSPETADAMSRLIGRFRQSGAQFLTAANVKMRDATVTFGKLDAPLVKAS
+SVLNQTRKLVSSVYSIRIAAAGFLEKPDQSGRERLLREFKVVSGDIQGLASSAGDLDFFR
+DLSGSIKPILDRMESDSLALVTITDKRMAQFTAAAGEIDGIWTKLARFADSQKMAAETER
+VWAQLVSLIVIAAGVALALLAGAALVMTLKGPIGRITGSMRRLSEGDLSVGIEGEGRRDE
+IGDMARALVVFKDNALAKTRMEAEARARSAEAEAERARNDAEKTEIDRQIDFAVGALAQG
+LGRLAQGDLTETIATPFQGRLEQLRVDFNGSLLRLQDTLVQIRANAMAIQKSGNEMHGSA
+DALSKRTEAQAASLEQTAAAVDEITVTVRSSAARAQEAHVAVDETRRSADSSAAVVADAI
+AAMGRIEDASNQIQQIIEVIDEIAFQTNLLALNAGIEAARAGEAGKGFAVVAQEVRELAQ
+RSASAAQEIKALIGKSTAEVGVGAQLVHKTGAVLSGISQQIVSVNHHVESIATASRDQAA
+ALNEVNGSVNHMDQMTQQNASMVEQTTQASRRLAEQADTLMMLVEQFRLNADGTAARTRL
+AA
+>tr|A0A1Q9AJ64|A0A1Q9AJ64_9RHIZ
+MAQNSLRLVEEKSVDKSKALEAALSQIERSFGKGSIMKLGGKDSVVEIETVPTGSLGLDI
+ALGIGGLPKGRIVEIYGPESSGKTTLALQTIAESQKKGGVCAFVDAEHALDPIYARKLGV
+DLENLLISQPDTGEQALEITDTLVRSGAIDVLVVDSVAALTPRAEIEGEMGDSLPGLQAR
+LMSQALRKLTASISKSNCMVIFINQIRMKIGVMFGSPETTTGGNALKFYASVRLDIRRIG
+SVKERDEVVGNQTRVKVVKNKMAPPFKQVEFDIMYGEGVSKTGELVDLGVKAGIVEKSGA
+WFSYNSQRLGQGRENAKQFLRDNPNAAREIEMALRQNAGLIAEKFLENGGPEAGESDDDD
+AALG
+>tr|A0A1Q9AGK1|A0A1Q9AGK1_9RHIZ
+MTKKAEWPRRLRSYDWFGGTGKNAIMHRSWMKNQGLPADTFDGRPIIGICNTWSELTPCN
+AHLRDLAERVKRGVYEAGGFPVEFPVFSVGESTLRPTAMMFRNLAAMDVEEAIRGNPVDG
+VVLLGGCDKTTPSLLMGAASVDIPVILVSGGPMLNGKWRGKDVGSGTAIWQFSEMVKSGE
+MSLDEFMDAEQGMARSAGSCMTMGTASTMASMAEALGMTLPGNAAIPAVDARRRVISQLS
+GRRIVDMVKEDLKPSDILTKEAFENAIRVNGAVGGSTNAVLHLLALAGRIGVDLSLDDWD
+RLGRDVPTIVNLQPSGKHLMEEFYYAGGLPVVIKAVGEMGLLHKDAITVTGDTIWNGVKD
+VVNYNDDVIVPRENALTQSGGIAVLRGNLAPKGCVLKPSAASPHLMQHTGRAVVFESIED
+YHARIGRDDLDIDETCIMVLKYCGPKGYPGMAEVGNMGLPPKVLKKGITDMIRISDARMS
+GTAYGTVILHTAPEAAEGGPLALVQNGDTITVDVPARSITLNVSEEELAQRRAAWVKPDM
+PVVGGYGKLYIDTVTQADEGADLNFLVGKRGSEIPLNRDSH
+>tr|A0A1Q9AD82|A0A1Q9AD82_9RHIZ
+MASAQMSFMKRWQPQLIWVLYGVGLLPAVWAFYQGATGGLGADPVKSFEHLLGLWALRFL
+ILTLAVTPLRERLRINLLPYRRALGLLCFYYAAFHLAAYMVLDQALDLAVVLEDVLKRPF
+IMFGMAAFVMLVPLAVTSNRASIRRLGRNWIRLHRLIYLAAAAALLHYALSTKVLTPEQW
+IYIGLILVLLLYRGVRPLLPRPMPARSRAG
+>tr|A0A1Q9AP32|A0A1Q9AP32_9RHIZ
+MIKTFLLANLLLISAAPLANAAEDAGGAIKEVETAKGDVLADAKGMTLYTFDKDKNGEPA
+CYDACARKWPPLLAAKGAEASGEFTLVKRHDGTLQWAHEGMPLYLFQNDAKPGDITGDGF
+GGVWHVAKD
+>tr|A0A1Q9AKC7|A0A1Q9AKC7_9RHIZ
+MTQLTLLDGGMSRELQRLGAELKQPEWSALALMNSPEIVQAVHEEFIAAGADVVTTNSYA
+LVPFHIGEERFEADGARLIALSGALARAAADGCGDRAIRVAGSLPPIFGSYEPQNFDPSR
+VQHYLKVLVDNLAPNVDVWLGETLSLIAEGEAVRQAVAGTGKPFWISFTLDDRTDRPAPD
+VPKLRSGETVEAAARWAAQSGAQALLFNCSRPEIMRAAVETANRVIKEAGSDLRIGVYAN
+AFEGEQGEAAANEGLHATRDDLNDDAYSRFACSWVEAGASMVGGCCGIGAAHIHRLKQTL
+SGLAV
+>tr|A0A1Q9ANK3|A0A1Q9ANK3_9RHIZ
+MKLKEFAREIGLSPTTVSRALSGYPEVSAATRQRVSAEAVRLGYRPNINAVRLATGRAGA
+IGLVMNQAGEFQLTEFLRGMTEQLVRDEMDILVTPVVEDGTEAEVNAYRRVAEAGKVDAM
+IILAPQPNDPRIPLLQGLGMPFLVHGRSEGSAPHAWLDIDNEGAIFRATSHLIDLGHTRI
+GMINGRKGMTFSLHRDIGYRRALEERGLTFDPRFVAHGNFTDEVGFTFARDMLEQGLRPT
+AFVAGSMMTALGIYRAARALDLVVGRDMSVIAHDDVFPYLTADNMVPSLSTTRSSMRAAG
+GRIATLLLQIIAGRPAEEIHELWPVELILRESTQPVPGG
+>tr|A0A1Q9AH25|A0A1Q9AH25_9RHIZ
+MKNVPILGKFLILLAAFGLFTIATAFYSGSKLMDIDANYTRLISKEANTATLVARGSRNL
+QAARSAIAELLIARTEEDDKKALADLQDARDRYLNRMETAQALMPEDARIGAMKAEGQRI
+INQICAPVIKAGTAGFSDEEVKSAQALFSDACQPAFRDLSTKMSDVTNDVIAVMLSRSDK
+MTDVSWTVSRNNVLGVVAGLVLVLIASFFSIRAWIVRPVNHMVGTMSRLAGGDLTAEIAD
+DVRRDEIGQMARAVGVFKENGLKARRLESEAEASRSESDRERQRNAEAEARRAAAMAQAT
+NGLGEGLRHLASGDLGYQLSETFAEEFESLRADFNGAVAQLRQSMSAVAQAASSIDSGAN
+EVSRGADDLSKRTEQQAASLEETAAALDQITANVANSSKRADEARRVAREANDNAARSGT
+VVADAVNAMQRIEQSSGQIANIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQE
+VRELAQRSAQAAKEIKELIRNSSGEVESGVLLVSQTGEVLKAIETSIVDINQHMEAIATS
+AREQSVGLAEVNSAVNQMDQVTQQNAAMVEETNAAGASLASDATRLREIISQFRLGEGAT
+VAMAAGAGAGSRTTWQAPAARPASSPKSPAAKPRSATPVAASSTHAAKPSPARALTNKLA
+AAFSGGSSGSKTTSAQDNWEEF
+>tr|A0A1Q9AEZ2|A0A1Q9AEZ2_9RHIZ
+MTTAFRLITYNVHSCIGTDRRHDPERVAEVIAAARPDIIALQELDVGRLRTKGVDQAQRI
+ADHLKMTAHFHPAMHVEEEQYGDAILTALPSRLRRAGSLPSIGEPRGAIWVEIAVAGRPV
+QVINTHLGLRGRERSLQAQALLGPDWMGHADCQAGPAILTGDFNAVTRSPAFRRLNRALP
+AAADPRTGRLAPTFPSRFPLMRLDHVFPNSGLTVTACAPIANAQTRLASDHLPLLATLDF
+AEAADRQRDQANGTSQASAR
+>tr|A0A1Q9AKE6|A0A1Q9AKE6_9RHIZ
+MNPVDIHQGSSPIILGLPHTGTHVPPEIWDRLNDEGRRLADTDWHIHRLYDRLLPEATTV
+RATFHRYVIDANRGPEDESLYPGQNTTGLISRTDFDGRPIWKEGAAPDAAETQGRLAAFH
+APYHAALAAEIARVKALHGVAVLYDCHSIRGTIPFLFEGRLPDFNIGTDSGRACDPRIEA
+AAAEIAGAADGYTSTVNGRFKGGWTTRHYGRPDDGVHAIQMELAQATHLESEAEPFAYDI
+AKADRLRPHLKAILERIESIALTLNS
+>tr|A0A1Q9ALH6|A0A1Q9ALH6_9RHIZ
+MFDNLQDRLSSILNGLTGRGALSEADVSAALREVRRALLEADVALEVVRSFTDRVREKAV
+GAAVLKAIKPGQMVVKIVHDELVAMLGEEGVPIDLNAPAPVVIMMVGLQGSGKTTTTGKI
+AHRLTHREKRKVLMASLDTRRPAAQEQLRQLGAQTSIDTLPIIAGQSPTDIAARAVQAAR
+LGGHDVVILDTAGRTHIDEPLMLEMAEIKRRSNPHEILLVADALTGQDAVNLARNFDERV
+GITGLVLTRMDGDGRGGAALSMRAVTGKPIKLIGVGEKVSELEEFHPKRVADRILGMGDI
+VSLVERAAETIDAEKAKAMAEKMAKGKFDLNDLADQLRQMQKMGGMGGIMGMMPGMAGMK
+DKIAAAGLDDRMFARQLAIISSMTKAERANPDLLKHSRKKRIAAGSGTDAADINKLLKMH
+RQMADMMKMMGGKKGGGMMKQLMGGLGAKMGLGGGMGGMPDLSQMDPKQLEALQKQAEAA
+GLGKGMPGGLPGLPGKLPGLGGGKLPGLGGLPGLPGFPKKK
+>tr|A0A1Q9AHQ2|A0A1Q9AHQ2_9RHIZ
+MTMPIYNIADDIDLTPAMPAEGRESGSYRRPIWQDEIENGTIVAVWKAEPGIYTYPGRDL
+EETFVVVEGEAIYSQAEEPPVKIGPGTIVSIAKGVPSRLEILSPFRKLATVVPKP
+>tr|A0A1Q9AQP6|A0A1Q9AQP6_9RHIZ
+MSGIGATTTRVTATGDQYIDGLLAGDKWADQTIFYAFSLSSAAYNYSSSGVTDLPAHFRA
+YTTQQKIAASFALDGDQNTASVGFSFKGFTAANVQSLGDVNATSGTQIRFAGTTSSSLGT
+AQVADFPGNYISSDRSDNGDVWAGAAYDNNSIYDLRTPQAGNYAWFTQIHEVGHALGLKH
+PHETNWSFGSVPLDGDMMEFTVMSYRSYENANVNGGVTNHQWDFAQTYMMLDIAALQAMY
+GADYTTNADATVYRWTPGSGDTLVNGAVGIDAGGSTIFMTVWDGGGNDTYDFSAYSSALS
+IDLRPGKWSVLDTAQLANLGGGHTARGSVFNALEYHGNTASLIENAVGGTGNDTLVGNEV
+SNILWGNTGNDTLSGLDGNDVLRGGAGADILDGGAGLDRVLGSKGHDTLNYGFARSQYVV
+TQTGALISVRALVGSEGTDYLTGVETLHFADQDVSAPGLFGDFNGDGRADIALQNQTSLA
+AWVMNGATLTGGGLMPALTDDWSAIATGDTNGDLRADVLLQKDQQLALWQMNGVQVSGGG
+LIGTMGDGWTVAAMSDLTGDGRADILLQNDRQLALWQMNGAQIAGGGLLSTSLGDGWQLA
+GTADLNGDGRSDLVLQNGQTVALWLMNGTQMTGGGFVGTLGAGWSIFGTGDLNGDSKADL
+VLQNGQILAVWQMNGFQIAGGGMINTMGTGWHAAGLADLNGDGRTDIALQNGQTLAAWEM
+NGANIAGGGLINAALGSDWELA
+>tr|A0A1Q9ANJ1|A0A1Q9ANJ1_9RHIZ
+MADAALSSPANRAAPAKARVQNVQAPLWRNALFVLPFLVVFVALLVVPLVWGIWLSLHKA
+DAFSSGRFVGFANYVRLYNDKIFWQAIGNTFYFVLLTVPALAVIGLMLALALNSRTRTAA
+VLRTVFFASSVLSVTIVTLIWRIVFVPGFGLLATVYGWFGAAPPAFLSDPDLVMIAIAIA
+TIWWCIGLPMMLFLSALQQIPGDIYEAAALDNANRWRTFRYITLPSIKRTFVLVVVIQIV
+LQFQLFGQAKLMTNGGPNNVSKPMVLYIYEAAFTKWDLGLGAAASEVLFVLILIAAMVQF
+LVSRRKGESA
+>tr|A0A1Q9AE55|A0A1Q9AE55_9RHIZ
+MSLHAASLTSGDLLADRRAEYAAMLAESGDAEGAADLMRQALELAPDWAAGWFRLADYAE
+KAGARDAAAAALERVLALSPEDVFGAGLKRAMLGAAPAPAQPPSAYVAQLFDDYADRFDA
+ALVERLGYSVPQKLARLVAAQLKGALGCVVDLGCGTGLFGAEIRAEATRLEGFDLSANML
+AKARAKALYDHLGQADLTQPPAHSGLFADDLAPSRADLAAAADVLMYLGDLAPAFTLASA
+LLRPGGHFAFSVEDADAVPAAPGPREGVVLRPSLRFAHREAYVRATAADAGFAILQDMRT
+GIRKDGAQEVQGILFLASKTA
+>tr|A0A1Q9AIV7|A0A1Q9AIV7_9RHIZ
+MAISPPSDLVLDVVRAADPTQVQEAQAKLRANRAAFRATSLAEAGHGFSSTLHANNPHQG
+STGLGDINNRAKAEKVPAQYRKFEGMVLQKFVADMLPKDNTEVFGKGTAGDVWKGMMAEQ
+IANVIAQGNGIGIARTLMVNRIPVTGENDRQASVDPSDQTRASGMVQQVQRQTLAELLGM
+KDDDMATTKSDVAGKSQATART
+>tr|A0A1Q9AK72|A0A1Q9AK72_9RHIZ
+MKGELTLGTAGRFWDWIGPPPGRDALFDDSLTILSSLLAGTAVVAGAATFLPHFDWTFVA
+WVLAPLAWIYLLTLRGLRAYPHDRFGPANVVTAFRAALVCLVAATFFRFQGLAHEQAMLW
+CLVATVVVTLALDGVDGYLARRFRQESAFGARFDMEVDAFFILILSGAALFLHKAGPWVL
+LIGLMRYGFVAAGWFVPRLNGPLFPSLRRKAVCVLQIACLCAILMPIVAPPLSSAIAAAA
+LGGLVYSFAVDIRFLLSWTTTG
+>tr|A0A1Q9AI91|A0A1Q9AI91_9RHIZ
+MLKWILAVCIAIVAVFPIWWMFNVVFSEPGVPISINPRLYPTSLGAGLNNILIIFTETDY
+LRAYYVSVMYTLLTIAGILLFSSMAAFEFAQFEFPGKKLLFGIVMLSLMVPTAVTIIPTY
+LLTVQLGWLNTMQGLIVPGLASAFGLFMLIQFMKNIPSEMIEAARLDGANHFQIYWHVAL
+PLSKNALITLAILTFMKTWGNYIWPLIVAPSPHMYTVGQVVGLFNAPYSHTTVDIVMTAN
+LLAAVPPLVFFLIFQRQIVEGIAHSGTKG
+>tr|A0A1Q9AP39|A0A1Q9AP39_9RHIZ
+MSRMTGLVAQGLLIATTLSACNTTDALIPKVDVGESSINSPPVTQSDLAAVEHQPEVVHA
+ASRRAAASMAPISESPLAPVSTGSVQPLPPSDVAYAAPSTGYRDPAGSLEAQAARLQRGP
+DRLDTQETAPRRGPVRETAALAEPAAAEDLPPARRQASPPAAEQAPADQTAALAPAESGD
+AATVRFLPIIGAPVGAVEPLSRALGADARSNGLKLKTSADPNARHMLKGYLSALSDGGKT
+TVTYVWDVLDASGNRLTRLQGQESVRGTARDPWSAVPAETMQAIGSKTIAAYLSWRSGNR
+G
+>tr|A0A1Q9ADZ7|A0A1Q9ADZ7_9RHIZ
+MPQASQSARPERQGYVLLAPALIVYLLFAVYPMIDVVRMSFSSWNGLSPGANFVGLANYR
+AIFTQDPVFWGALRNTIWWTALAVTLPNLVSFGLALALNQNIPGKSGLRVVFYLPVIIAS
+IAVATIWKWMYDPFFGLFNNLLMQFGLDGWILDWLGDRKVALWSVFVAHLWQSVGFSMVL
+FLAGLQGVSATLVEAARIDGAGRWGVFRYVTLPALKPTLMVVFVLSLINSLKAFDIVYGM
+TGGGPAQSTQMLAMWAYTQSMQLGVFGRGAAVSVVLLLITLVIVLPYIRWMFRREEMSR
+>tr|A0A1Q9AQ81|A0A1Q9AQ81_9RHIZ
+MNATFPPPLAAIAAAPTVESIETMLVDLPTIRPHKLSVATMTGQTLMIVRICCSDGIVGI
+GEGTTIGGLAYGGESPESMKLAIDRYFSAVMIGQDASRVQALMARIGKMIKDNRFAKSAV
+ETALLDAQGKRLGVPVSELMGGRRRDRLPVAWTLASGDTGRDIDEAEKMLSRRRHSIFKL
+KIGLRSVREDVAHVAAIKRAIGDHGTVRVDVNMAWTETDARLGIAALAGAGCELVEQPVQ
+SAAALGRLVRRFPIALMADESLQGPESAFEMARNNSADVFAVKVEQNGGAFNAQRVAAIA
+DAAGVELYGGTMLEGAVGTIISAQVFSTFANLQWGTELFGPLLLTEEILETPLDYSDFSL
+LVPSGPGLGITLDEDKLAHFTRDGSLTVTRAAD
+>tr|A0A1Q9AF51|A0A1Q9AF51_9RHIZ
+MTATIRIIGIDPGLRRTGWGVIESVGHSLRFVESGTVTSDGDMDLASRLCQLHDGLADVV
+HRLQPDEAAVEQTFVNKDAVATLKLGQARGIAMLVPARAGLRVAEYAPNAVKKAVIGVGH
+GEKQQIHMMLKVLMPRATFQGNDAADALAIAICHAHHRQSVTGRLAAIMAGG
+>tr|A0A1Q9AE13|A0A1Q9AE13_9RHIZ
+MKKLVIAALSSVLLAGTLVPATQAAAQDHRRFDRVEKKVVVVKHGWKRGHRLSPAERRHL
+ADVRDYRRYRLSAPPRGTRWVRADRSFLLISLGNGTIRQVVTVR
+>tr|A0A1Q9AI71|A0A1Q9AI71_9RHIZ
+MTLSPRYGLAALLLAGILFAGPAGAVNPEERLADPVLENRARALSAQLRCMVCQNQSIDD
+SNAELAKDLRLIVRERLAGGDSDQAVLDYVVSRYGEFVLLKPRLEGKTLMLWGAPALLLV
+VGAGGLFWAARRRRRVGQTERLSEAEAARLDAILRAQD
+>tr|A0A1Q9AG91|A0A1Q9AG91_9RHIZ
+MRATVLYSPGDIRCVEVEDPKIIEPTDAIIKLSASCICGSDLWPYSGLQPVNQPAHMGHE
+YCGVVVEIGSAVSTVKPGQFVVGSFVLSCGQCLNCLGGWPSSCVVRQFMSGGQAPIARIP
+NADGTLVATAEMPPEDLIPSLLAASDVLGTGWYAADAARVQPGCTAVVVGDGAVGLMGVL
+AAKQLGAERIIAMSRHKSRQNLALDYGATHIVTERGDEGVAKIRELTKGIGADSVLECVG
+TQESMMQALNAARPGGSIGFVGVPHGMSLEGQMLFFAQKNLLGGPAPVRRYLPQFFDLIL
+SRKIDPGKVFDLELPLEDVAEGYKAMDDRRAIKTLLRL
+>tr|A0A1Q9APD0|A0A1Q9APD0_9RHIZ
+MPRLARFFSLMRKSASGDTAERPMKSIRARKEALGLRAHGCRRGLADSTGRPSCHAKSLQ
+EISMKVRTLLAGALLGIALSGAVDAQAQVTFDMNRVTCADYNAMATDGQRDLAAWMSGWF
+KQKAGQTEVNFKIYAANFEKVHKWCAANPHARLLSTIEHLTSKPQKTAPGAGAIDVTKMS
+CQDFLGADLDAQYLLQAWMIGYLHSEKKATRIDVKSLLVNQERAHLACAKTPKDNFGATV
+RKAWN
+>tr|A0A1Q9ALY2|A0A1Q9ALY2_9RHIZ
+MSQALAAEVKDFGIKVTLVEPMPYATDWSGPSAKQAETMKEYDDVRRGILQMFGKMPPGD
+PQDSVTSLFKLVDTENPPLRVFFGRGAVEVIEAEYFSRIADWKWA
+>tr|A0A1Q9AHF7|A0A1Q9AHF7_9RHIZ
+MISEDGVGDTDLPQAVASPPLPQHLQDLTDRARGYVEASSSSNTRKAYASDWKHFSAWCR
+RSGLSPLPPHPQTVGLYITACASGAADRGMKANSVSTIERRLSSLSWNYAQRGLILDRKD
+RHIATVMAGIRKSHARPPAQKEAVLADEIIAMIETLDRGTLRGLRDRAMLLIGYAGGLRR
+SEIVGLDLKAEQTEDGRGWIEILDKGLLVTLRGKSGWREVEIGRGSSDATCPIAAVEMWI
+TFAKLAHGPLFRRVTGQGKAIGSERLNDKEVARLVKRTAMAAGIRGDLSEIERALRFSGH
+SLRAGLASSAEVDERYVQKHLGHASAEMTRRYQRRRDRFRVNLTKAAGL
+>tr|A0A1Q9AGK2|A0A1Q9AGK2_9RHIZ
+MIKLIDPDHPFYRPLWRRVLIVAVCCAWTGLEFWNGSQAWGTMFLVVASYAFATLILFFK
+PKPPAAETTAPDGTPPAA
+>tr|A0A1Q9AGR4|A0A1Q9AGR4_9RHIZ
+MLMETPSACALVDRFGRRVSYLRLSVTDRCDLRCVYCMSERMTFMPRRDILSLDELSRVA
+RAFIRFGVRKIRITGGEPLVRKGVIDLFQDLSACLQDGSLQELTLTTNGTRLARHARDLA
+LAGVRRVNISLDTLDPHRFAALTRGGSLATVLEGIDAAQEAGLAVKINTVALRGSTEDEI
+DDLISFAHTRGMGLTLIETMPLGETGEDRLDQYLPLTLLRRQIEARWSLTDIGLRTGGPA
+RYARVAETGGVIGFITPMTHNFCETCNRVRVTAAGVLHTCLGQEDAADLKAVLRSSDSNT
+PLMETIAHALKHKPKGHDFVLDRASVPQIVRHMSATGG
+>tr|A0A1Q9AC50|A0A1Q9AC50_9RHIZ
+MAQEPILTARGLVKRYGRVTALNNADFDLMPGEILAVIGDNGAGKSSLIKALSGAIRPDE
+GEIRMNGKPVSFSSPMDARQNGIETVYQTLALSPALSIADNMFLGREIRAGGFMGKVLRK
+LDHKAMERIAREKLSELGLMTIQNINQAVETLSGGQRQGVAVARAAAFGSKVIILDEPTA
+ALGVKESRKVLELIQSVRARGIPIVLISHNMPHVFEVADRIHIHRLGRRLAVIKPKDYSM
+SDAVALMTGAKTLDQAA
+>tr|A0A1Q9ADR5|A0A1Q9ADR5_9RHIZ
+MSIVPLGAVALVSAYLQGAAGLGAGRTVVLAPQRAHLLMVYRADAWHCDLLPDGQQAPAR
+LYPAGSICLVDLRDGAAIALRSDLEVLAFIIADDLLSELVRTADLPPVYGLRCRRAALDP
+VLVHLATAWLALMQAETLSDAVLCHVARGICLHLVQAYGLAAMAGPAAGGPPTSRLWH
+>tr|A0A1Q9AEQ3|A0A1Q9AEQ3_9RHIZ
+MLFFRRTVLALSATVSLLAVAPASAADPAAVVRHYAEVGHAKYADALKGAEALQKAVDAF
+LAAPSEKTLAAAREAWLAARNPYMETEVYRFGNKIVDDWEGKVNSWPLDEGLIDYVDPSY
+GTESDENPLFTANVIANKSITIGGKTVDTSKITPELLSESLQEAGGIEANVATGYHAIEF
+LLWGQDLNGTGPGAGNRPYTDYDLKACTHENCDRRAAYLKAATDLLVSDLKEMTENWAPK
+GEAAKTVEADPKEGLTAILTGMGSLSYGELAGERMKLGLLLHDPEEEQDCFSDNTHNSHL
+HDAIGIRSAYTGIYKTLDGKTLTGPSLHDLVAAKDPALDKEMSEKLDASVKAMEAIAERA
+RTTEHYDQMIAEGNKEGNALIQAAVDALVSQAKTVERIIAALDLGTVKLEGSKSLDDPNA
+VFK
+>tr|A0A1Q9AG60|A0A1Q9AG60_9RHIZ
+MNKNSHHSSGSAGPSPVILWLRKDLRLQDNHALKAAADCGAPVICLYIREPQDGLGPLGA
+AQAWWLHHSLERFAEAIEGLGNRLILRSGEAGAVLGALIAETGARTIFWNRRYDPEAAAV
+DKALKAHFEGEGLQVKSFAGQLLHEPTRLKTKSGGPFRVYSPFWRAFEASGEPDAPLEAP
+AALPAPDRFPKSETLADWALLPVKPNWAEEFDGIWTPGEAGALTRLDRFVAERLKTYRAG
+RERPALDGSSGLSPHLAMGEISPATIWQATMGLSDRIPVEEIIAFRREIVWREYSYHLLF
+HHPDLPRENLNRRFDRLGWQGSEEDFARWCRGETGYPIVDAGMRQLWRHGAMHNRVRMIA
+ASFLVKDLLIDWRRGEAWFRDTLVDADPASNGVNWQWVAGCGADAAPFFRVFNPILQGEK
+FDPKGDYVRRFVPELARLPDRYLHRPFEAPSSVLAEAGITLGKTYPLPQVDHARARDRAL
+TAYRSVKDAS
+>tr|A0A1Q9AKI1|A0A1Q9AKI1_9RHIZ
+MTAQARPLVEAQEASSRKSRDQWLLKYSTLLALFLLFAGFALTVDRFLTASNLLNIVQQI
+SMLTIVGAGLTFGFAAREMDLSVGYTVGLSGILVPLMLISGVPLPLALLGAVAAGFAVGA
+INSMLVTLVGIPSLIATLATGSILYGINFMSTGGRAIYGGLPDSFLFLGQGQILGIPVLA
+YAMLLFVLVAWFLMERTIFGRYIYAVGGNLKAAELSGVNGRFYRSAALVVCSLFAAMAGA
+LLAARLGSGQPNAGERYLLDGLATVFIGMTMIRPGTATVTGTFFGALFIGVINNGLNLVG
+MDTYVQSIVKGLIILVAVAIVSRTTKLKLL
+>tr|A0A1Q9AJR0|A0A1Q9AJR0_9RHIZ
+MSSSDALFSPPPSDKALLEEGQAFTPRFGADGLITAIVTDAGDGALLMVAHMNAQSLALT
+LSTGIAHYWSRSRGQLWKKGETSGNLQSVVELRTDCDQDALWLKVTVAGDGPTCHTGRRS
+CFYRVVETRDGAPVLLSDGPAPHDHG
+>tr|A0A1Q9ADU6|A0A1Q9ADU6_9RHIZ
+MTGDPFPLFGTRETETPPLRLAAGRLTADLSDGNLRAIRYDGVEVLRALAYLVRDRDWGT
+IAPHISDLSIDQQADRFAVTYTAHCDGHEGERLAVTVSIEGREDELVFAATALSPTGFTT
+NRCGFCVLHPILGLAGAPARVEHVDGRLVETRFPELIDPWQPFKDMRAIAHWPMADVEAL
+CRMEGDTFEMEDQRNWSDASYKTYVRPLALPWPYRIPADEPQAQRVSLRITDRRAARPAL
+KGEAVAADPVALSFGDESGRLPAIGLWISAEEAKASLSEARRLAALAPQELIFSLDPGAG
+HGQDALADFAALAARHKGRSTLELALPCRRPPAEELTDIAGWMKAAGFAPQAILVSPAVD
+RQSTPPGSAWPDCPPLETVYAAARAAFPGIRLGGGMLSYFTELNRKRVPADDLDFISHCT
+CPIVHAADDLSVMQTLEALPFITRSVRAIYGEKPYRIGPSMLAMRQNPYGSRTMPNPHFT
+RLPMAARDPRHHGGFAAAFALGYAESVLPAGLECLTLSALTGPFGLIAGPGEPVREGDLR
+PLAAPIAQLARLAGRPWRACHSADPARLRAFTVTGDGGEADHLLLANLTALPLTVSLGQL
+GMPAGKDTHSLSPFEAAVVTLR
+>tr|A0A1Q9AGR7|A0A1Q9AGR7_9RHIZ
+MAIGAGVGVANVYYVQPVIPLVRAAFGITPEAASLVPAVSQAGYAAGMLLLAPLGDLLDR
+KRLILTKSALLVVALLTAATAPALSVLLAASVALGLLGSVGQDFIPLAAQHAPQERRGHT
+IGLVTTGLLCGILLSRTIGGIVGDLLGWRAMFGIAAAMVTLLALAVWRLLPHQSATATGT
+YVGLLRSLATLTCRHAMLRKALATQALLATTLGAFWSTLALMLAEPPFQLGAGVAGAFGL
+AGAAGAFGAPLFGGFADRSGPLTAIRVGCQLVAGAFAIMLMLPHSFAALIAGAILFDLGV
+MAGLVSHQTIVTAIDPDARSRLNGLLMTAAMIGMSIGAVVGGWAWSRHGWTGVCLTGTIA
+GLLALLHSFLPPIIRPVFKESAS
+>tr|A0A1Q9AM85|A0A1Q9AM85_9RHIZ
+MRPAFDAGIALTRLDERIARSPVGAGLLERQNFADACASLWIDGELVHLEDLVLHDATRD
+IRTPTHELTIARDVLRTRRRIAGQSPDWTLSAEGIRILRQTSDINPVGAGAMEPAGFNRP
+AAAAKNPEGEGDDDLTDLSGVDYAAIDATLARSSAAIEDATRPGGARGRVAAEKDPMIYD
+LDWDEDARLDEWRGVLRQAENLPAVLQAIVAFDAWNELAVLQHAPWLGRLFAASILRQGS
+ITTGAHLAAINLGLKTIPVDRRRHRDRETRLLAIAQGLLAAAEIGIKEHDRLALARTLFE
+RKLEGRRTSSRLPELVELVMAKPLVSAGMVAKTLDVTPQAARRIVSELGLREMTGRGRFR
+AWGVV
+>tr|A0A1Q9ALU6|A0A1Q9ALU6_9RHIZ
+MAFASLLLVVLASFIHASWNLLAKRAASVGPVFVFAYNVIACIAYAPWVFYLLIQGDGIA
+WSWIGVVLLLLSGLIHLAYSLCLQRGYQVADLSVVYPVARGTGPMLSTIGAFFILGEMPS
+GQGLAGLLLVVVGIGLIATQGDLSAFQRPGGQTGVRWGAATGGLIASYTVVDAYAVKALG
+IAPVVLDWFSNLLRFFLLAPLVIANPGRAIEAMRGYWWIAIGVGLLSPLSYILVLEAFTS
+GAPLSLVAPMREMSMMVGALLGMLILREKVGPWRITGCGVLIAGVILLSGA
+>tr|A0A1Q9AC60|A0A1Q9AC60_9RHIZ
+MFYTDGRLQFPVRVETPDPQFARALQQAIGGVEGEIRVAMQYFFQACGARGNPKFRDLLM
+NTAAEELGHIEMLATAVALNLEGAPVSVKEEVAADPVGGAVLGGLNLKNILSAGLSAMPV
+DSDGVPFNMSHIYASGNIAADMTCNIAAEATGRTLAVRLYNMTQDPGMKEMLSFLIARDT
+MHQNQWVAALEELGGPTQVFPIPNSFPQEMEKTEFSYAFLGFQADGSAPVAGRWSQGPSP
+DGKGEFTANPMSPLGEKPVLGPAKPMSGAQTEQITPA
+>tr|A0A1Q9AMW2|A0A1Q9AMW2_9RHIZ
+MVHLDDAAHRLFGKPLEALGSAERRVLHKTKTRQPVSEDLNVSFEAQQSVGDRLADGIAR
+VGGSWSFIIGFLLFLAVWAFANTVLLTKDAFDPYPFIFLNLVLSMVAAIQAPIIMMSQNR
+QASRDRLDAAKDYEVNLRSEIELISLHNKVDTILLAEIAKLQEEVARLHLRLDAEKTGGE
+RL
+>tr|A0A1Q9ANN8|A0A1Q9ANN8_9RHIZ
+MNQEQSARPAAQTVYVVDDDPSVRDGLDSLLRSVGYRAACFASTAEFLAALPRARPSCLV
+LDIRMPDANGLDFQDELVRRAETVPVIFLSGHGDVPMSVRAMKAGASEFLLKPFREQDLL
+DAIRQALAGDRTRQAQDEALSSLRERYQTLTSREREVMALVALGRLNKQIAGELGLSEIT
+VKVHRGHAMRKMQADSVADLIRMAESLGLLRPMG
+>tr|A0A1Q9ANN9|A0A1Q9ANN9_9RHIZ
+MTQAKDDPLAMRISRVLAERIIAGALAPGARLRQGPIAEEFGASHMPVREAFRRLESQGL
+VVSEPRRGVRVAGFSQAEVKEVAEMRAALEVLALRHAAPHLTRAILDAAEEATRAGDHAG
+DVEAWEEANRLFHRTLLAPCAMPRLLRTIDDLQAASARFLFSGWRAEWEAPTDRDHRAIL
+AALRAGNVDLAALVLGRHVQWIGPRGQDQAGRPAGRRAGP
+>tr|A0A1Q9AID4|A0A1Q9AID4_9RHIZ
+MSSAALSPERLYADAAVAEPLKALIAKVGQRSGEFPVCLANHLPMVLEAMARLGAGPERL
+EAYAGIYTASHSVPFPPAPVAPLDAESWRFALGRREREADLRRFFEGLVAELGGAEAVRQ
+TMPVLAPGVAASATHGLMRLAYAILRADDREIAASLGYWAATYLCYEDVPASRIADLDDP
+LAHLLSMREEPSFYGVEAPTHLLWKWIEAMGHMPEFRDRLGRMRAGPDFLDRSRPAALAL
+YAGTMSFEALHAVTGCHWLRLVSPVIDEPQTLARHFWEVVMALYTKIGMPPVPTPALLDE
+WRSLPLPDDNAIASAAVASDDEHDHSLVFSAFEEFRYTGDRLYKVVAARRVGLIA
+>tr|A0A1Q9ALM8|A0A1Q9ALM8_9RHIZ
+MTPKSTTGRVLRWLAAALGLLLVLLVFAVALLGLTTPGTRIVAGLVERLTATPDLKIAIS
+EPGPLLTGNFRAGRIVISDSRGPYATIEQAELAWHPLALLSGRLEADRLTAERASFERQP
+VTTQPSAPSSGGFSLPIEIKADAIDIRELLIGKALVGQDERLSLTGSVDARSSLIAAKID
+AAELARPEARLTADFAWQPNEEALRLDAAVSEPKDGVLARLMQLPGNPAVALTLKGNGPL
+RDWQGAITGALDGQTVLSLSGRHQLTAEGVRSFTLAGGGRFAGLLPPATRPLFEGETVID
+LAASMDATTPLRIERGRIMTGALSFNASGAVTTAGENNLQAELTGPNGPLSLSLPVEGGQ
+ADITLDRATLSITGRPQAARIDLSAALAGAALPQARIEAATLSARADAFDLTAQRGRLDL
+ALAAERSAFASADLDRLIKAPLSLSGPVDVTPEVIRFDRLALASQALNGTLSGFYGRADG
+KLEAAFDLDIAGNGLPAAVESRTGGPVALSGRLSRTNDGALDLRDLALNSPGLTAAGSAT
+LARGQLTAALTGTLPDLGRLAPNSSGAAQFSANLSGPLSQLALKARIGAQRAVVAGRAID
+TLAIEADGLVTPDQALALKATGALNGQAVEATAELKRADGTLALPALSARIGSNTIDGAL
+AFTPDLVPQGSLAFDLPDLGAIGALAGQTGEGQALSGNLKGTAQFAAKGGRPTVALVAEG
+EAIRRGAVVIDQPRIDVRVSDLSALAAEGRITAKTLAQGDNKVADATITLQHPGAGAPTG
+AETAFAVDGTYDSAPLALRGTIDLGGDKAAEGKATAGAASAGGAPSLTIQSLKAAPRGIP
+LDIDRPTTLSLGGNGLDLPSTVIALKGGQATLSGRIGETLDITLKVEGKPAVEFATPMAG
+GETRVAIASALATIKGTMSAARIDATADVAWLATPQARLEAIRLKAESPSFDLTGRQGTL
+TTRIEAARLRSPNADLARLMAGPLVVQGKIEATPEQIRFAPVTLDTGGLDGRVTGAFTLS
+DGTLKADVALTAPPAALPPALSSRLDTPLALKATVSRAATGALAVSGLTLDSGSVRAQGE
+VSLEGETLAADLKGSFPDLGKLLGNAKGTAGFTLSAKGPVAAPAFDARLNAAEATLAGRP
+LRDLAITATGTASRTAPQATIKGTGSIDRQPVAIDVAVQSAETGGPRVPTLNVTVGPNRI
+DGALAFTSEFHPSGRLTFTLPDISLLAAMAGQQASGDLSGAADIATKDGITSLVLKANGS
+GLKRGDLLIERPVVDLTVSDLSKLAINGKLQIATLAQGENRVSGLAADFDRSGDTTRFAV
+NGRYDDAPLVLRGTVAAAGDRLTINLAELRAAPRRIALNLAAPTAIRIENGTVTLANTRI
+NASGGTVSVTGSTGQTLNLDIKLNAVPARLINSFAPTLGAEGAISGTIAARGTAAQPDVT
+FDLGWRDASLDQTRAAGVSGLAITAKGQLAQQVLRLDTRLTGNGGLSFSGGGTLGLSGNR
+PLDMRFAGKLPFGLAEPILAAQGFTASGTADLNITVRGTASAPDISGTVNTSGARLTDVR
+RNQTINNLAAAIVLEGQQARIVRLTGRLATGGSLSVTGTVGYAPGTNYPADLALRMDKAT
+YVDGTLVTADLTGALTLRGPLLGQPTLAGQINIEKAAITVPQRLPGTLSEIDIKHRDAPP
+GVRRMEKVLAKDQGQPAERSDRGIALDIKISAPGRLYVRGRGIDAELGGDLTIRGTAAAP
+AVSGGFTMRRGRLDVIGRRLVFSQGTIAFGGGLIPTLNLSATSTTDTATVTVTVAGEAND
+PQIVFSSSPALPQDEILAQLIFRRSLSNLSPVQIAQLASAVAQLAGGGSTSLLESLRNQL
+GVDDLDVSTDAAGGAQVSVGRYLNDRTYLELKQSADEGAKAVINLDVGKGVKLRGEAGSE
+GGGAGVFYEREY
+>tr|A0A1Q9AQH4|A0A1Q9AQH4_9RHIZ
+MIRNTLQTAARPNNALVDALRDHMNKRIVGQETFIDSLLLGLFGDGHILLEGAPGLAKTK
+AVNTLAELIEGEPCRVQFTPDLLPSDLTGTEIYRPEKGTFEFHPGPLFHNLILADEINRA
+PAKVQSALLEAMAERQVTVAGQTYRLPKLFMVMATQNPIEQEGTYPLPEAQLDRFMLHVK
+IDFPSAEAEREVLRIVRGEAMAQTVTSSFRVSQQDIFEARQAALKTHVSDALTDYIIQLI
+QATRRPQIYGADLASQISYGASPRSTIALDRCARVHAWMNGADFATPSDVQAVLHEVLRH
+RIILSFEAEAEGKTADAFIDALIDRVPVA
+>tr|A0A1Q9ADF3|A0A1Q9ADF3_9RHIZ
+MAGGANIVCFTTWRGSTYGCRLDPSIKLATNSKLYGRAEFVPWQIGAGMGDPITRLETTC
+VTCHIFDDR
+>tr|A0A1Q9APG1|A0A1Q9APG1_9RHIZ
+MKRVAVGGIHTECSTYSPVLMQPEDFRVMRGEDLLAADYFSFLATEGIAALPLLHARAVP
+GGPVARATYEGFKAEFLERLKAALPLDGLYLAMHGAMNVEGMDDAEGDWISAACALVGPD
+CVVATSYDLHGNVSQRIIDQIDIFAAYRTAPHIDTHETRLRAWSMLVEALKTGVKPGVAW
+AKVPVLLPGERTSTEDEPTASLYAALPGYDARPGILDANLMIGYVWADEPRATACAVVTA
+SDKAAAEAVAREIAESYWNAREDFRFGPVTGPLAEMLDIAEKTETRPIILADSGDNPTGG
+GVGDRADVLAALIERGFRDVIMAGITDRPAVEACFTAGEGAEISLSIGATLDPASRPVSV
+SAKVIRLQKGATPADHQAVVAIGGITLVLAAKRRPYHDIADFTLLGLDPKVARLVVVKSG
+YLSPELAPIANPNLMALTDGVVNQDIPALSSHRRQRPAFPFDRDFGYSPDVAFSARWA
+>tr|A0A1Q9AMQ3|A0A1Q9AMQ3_9RHIZ
+MGTISERKRANGTKAYTAQIRIRRDGKVVHTEAQTFDRRPAANAWLKKRETELNAPGVLL
+RPKGTDITLAQAIERYERETVRDFGRTKLQVLKAIKGAEIAQKKCRDIASHDIVAYGREL
+GETRTPQTVDNYLSFLSSVFAIAKPAWGVELDAAAMADARKVLKHIGAISKSRQRDRRPS
+IEELDRLLAHYADRSIRSDLKMPMQDIIIFALFSTRRQEEICRIQWEDLDRPNSRVLVRD
+MKNPGEKMGNHVWCDLVPEALAVIDRQPMGNGRIFPVNEKSVSASFTRACALLNIKDLHF
+HDLRHEGISRLFEMGWTIPHVAAVSGHRSWVSLKRYAHIKTRDTDKYQGWQPLRAHQALH
+AAWTHHADK
+>tr|A0A1Q9AH76|A0A1Q9AH76_9RHIZ
+MMTALKKRAYALENKFAYDQTFMFKAEARRNALIGLWAASEMHRQDADAYAQEVAVAHVT
+SPDGAFERVRDDLTAAGLPVDEDELRNRMVALLRDVAREMYDGR
+>tr|A0A1Q9APC7|A0A1Q9APC7_9RHIZ
+MGVIASTESLLDEKAVIAAAEKALEEIAVVRREVGKVIFGQESVVERTLLAILSGGHALL
+VGVPGLAKTKLVTTLGAVLGLDASRVQFTPDLMPSDILGSEVMDQDETGRRSFRFVSGPI
+FTQLLMADEINRASPRTQSALLQAMQEYHVTVAGQRNDLPRPFHVLATQNPLEQEGTYPL
+PEAQLDRFLLQVDVDYPSLAAERQILLETTGTGESAVRSVMTARQLLEIQQLIRQMPVSD
+SVVDAILALVRSARPGQGHAETDRHVAWGPGPRAGQALMLCARARALFDGRLAPSIDDVA
+ALAEPVLQHRMALTFAARAEGMSVRDVIGGLVKTIRAS
+>tr|A0A1Q9ACG3|A0A1Q9ACG3_9RHIZ
+MGLFVGLCIGLTASAAHADDRRMAYDRTMMETFFAGRTQASGTFHAINGLTRKLTITLQG
+RVMRDGLILREDIAYDDGERQTKTWHFRRTGPDTYRGTREDVKGYATVRVTGRVARFSYD
+VDLDPGQKEAIYRFYDRLEMAPDGRSLVNTATVFKALFPVARVKIDFTKGAGR
+>tr|A0A1Q9AET1|A0A1Q9AET1_9RHIZ
+MSQVFLNVVPIFLLILVGYGLIRLRYLKPDVGEALGDFVFRVAVPLLLFRTIAEADFSAS
+GSPWPLWLAYFGGVAVTWSLGHLAATRAFGRDQRVGVLGGVSAAFANTVFIGLPLVSRVV
+GADGLVALSILIAVHLPIMMISGTLLMERAERRVNGRPPQPPLVLARGVLRSLARNPLVI
+GLFAGALFHLLGLPLGGPVKVALDQLVAMAAPAALVSIGMALDRYGLKGNLGLASVASFL
+KLVLMPAAVFGLATLLGLPADWRAALVLTAAVPTGVNAWLIANHFNVGHALASSTITLTT
+ALGVLTVSGWAYLLL
+>tr|A0A1Q9AGK0|A0A1Q9AGK0_9RHIZ
+MAKDKTLSPEDRILWGKVARTTRALPGRMERLSVEEELFAPPPPPAKEEVKPPKPAKPVP
+APVEKPAMRQVQKIHHPLEKPVHRKLARGRLNIEARIDLHGMFQGEAYDLLLGFLTRAHQ
+HGLRHVLVITGKGTSMGSDGALKRMVPMWFCLPSFRVLISSYDNAARGHGGEGALYVRLA
+RNPGLPHHDDDPFR
+>tr|A0A1Q9AHQ0|A0A1Q9AHQ0_9RHIZ
+MTTDTLFRRMNPISGEIASEAPAQTPDDARAAVDAAASAMPAWARLGPNARRAALLKAAD
+AVAAKGDAFVAAMMAEIGATEAWARFNIMLGASMLREAAALTTQVAGEVIPSDKPGCLAM
+AMREPAGVVLGIAPWNAPVILGIRAIATPLACGNAVVFKASELCPRTHSLIVEALGEAGL
+PEGVVQLVTNAPEDAAEVVGALIDHPAVRRVNFTGSTAVGRIIAVRAAQNLKPCVLELGG
+KAPLLVLEDANLDEAVKAAAFGAFFNQGQICMSTERIIVVDAVADAFLEKFAAKARTLVA
+GDPREGAAPLGAVVDVKTAEKLSGLIEDAVAKGANVIAAGEASGVLVPAHIVADVTAGMR
+LYAEESFGPVVAVIRARDEADAIRIANDSDYGLSASVFSGDAARGLKVARQIRSGICHVN
+GATVHDEAQMPFGGVGASGYGRFGGKAGIAEFTELRWITVETEPGHFPI
+>tr|A0A1Q9AN38|A0A1Q9AN38_9RHIZ
+MVYKERMFHEVPAEEGAANGVAALEARIADALAADRALDATGITVIARGTEILLGGQVGS
+TEEIETALEIAKRVDGVTTVVNEIALAKTGAH
+>tr|A0A1Q9AH61|A0A1Q9AH61_9RHIZ
+MEAEAAKFIGAGLACFGMAGTALGLGNIFGSYLSGALRNPSAADSQFGRLVFGFAVTEAL
+GIFSLLVALLLLFAV
+>tr|A0A1Q9AP06|A0A1Q9AP06_9RHIZ
+MRDAISEALKTAMKAKDALRVSTLRLVQAALKDRDIANRGAGKEAASDEELLQILAKMVK
+QREESARVYDEAGRPELAAQERAEIAIISEFQPEQFSEEKIRDVVQAAITDAGATSPRDM
+GKVMALLKERHAGQMDFSKASGVLKELLK
+>tr|A0A1Q9ACD5|A0A1Q9ACD5_9RHIZ
+MARAVSPRRKIAFTLLAWSVALLLFFPILYTLITSIKTEGEAISGFNLIPSFTLENYVEV
+QTQRDYWKPFSNSVILSLLSTLVALVIAVPAAWAMAFSPTPRTKDILMWMLSTKMMPAVA
+VLVPIYLLFRDWGLLDTRTGLTFMLTMINLPIVVWMLYTYFREIPGEILEAARMDGAGLW
+GEIVHVLTPMALPGIASTMLLNIILAWNESFWTIRLTTTNAAPLTAFIASFSSPQGLFWA
+KLSAASTLAIAPILIMGWFSQKQLVRGLTFGAVK
+>tr|A0A1Q9AIW7|A0A1Q9AIW7_9RHIZ
+MSLFHPRSISTKLVLATTATISMLFVVCGLFQVNDTRKRVDALVERQARTQAEAIAGSIA
+GQVGQIDGGARTMAGVIGRAHETKALDRTGVLAILKANLEQHPNAFGSWFLEAPNAFDGR
+KAEMKGQEAFGGNKDGDFAPYWSKSQKGELIFSTFGAKYNEEWYSVAASTGKPWITKPYL
+AEGTDVPTAMSSLSYPVVSGGKLVGVSGMDLSLGMLSKQLSTLHPFETGRVFLVSQDGKW
+LAAPSANQLMKPYDGVSPEIIQATLTDNTIKRIEDVASDDGATFQRLVYPFALNGLGVRW
+ILLVDIPNAALTGPVNDQLWMTVLSGLVLLGAVIVGVTWSARSMVRRPLRGLIGDVARLE
+SGQFEQPIAGLETEDETGEVARALEALRHKLARTHALEIEAETQRRSAEAGREQTERERA
+IHLATQQTVVGALAEALADIAAGNLSARIRTDFPGDYGALKSHFNQAIQSLEEAISVVGK
+STVTINGGVNEIAAAAGDLSRRTEQQAAQLEETAAALNEITEQVQASAENARVAANVVKK
+ASVDAETSGQIVQSALNAMQGIEQSSSKITNIIAVIDEIAFQTNLLALNAGVEAARAGEA
+GKGFAVVAQEVRELAQRAGQAAKEIRALIAASKDQVTDGVGLVARTGEALQAIASQVIEI
+NGLIQMISVSSSEQASGLKEMNHAVHQMDQVTQQNAAMVEETTAAANNLGHEADSLRDLV
+ARFHTTGSTSHGRADPMRRAA
+>tr|A0A1Q9AD94|A0A1Q9AD94_9RHIZ
+MREANKGGWFQRRDILKWSAVAGVAAAGTTLLSGTMAFAQEGSLKGKRIGISTAGTDHFF
+DLQAYNAQIEEVKRLGGEPIAVDAGRNDGKLVSQLQTLIAQKPDAIVQLLGTVSVIDPWL
+KRARDAGIPVLTIDVGSSHSLNNSTSDNWGIGKDLALQLVSDIGGEGNIVVFNGFYGVTP
+CAIRYDQLVNVVKYYPKVKILQPELRDVIPNTVQDAFSQITAILNKYPEKGSIKAIWSAW
+DVPQLGATQALVAAGRTEIKTYGVDGSPEVLQLVADPKSPAAADVAQQPAELGRTAIRNV
+ARLLAGETLPRETYVPALIANKANVGEVSKKLGIG
+>tr|A0A1Q9AGJ0|A0A1Q9AGJ0_9RHIZ
+MIALPRREKGLASAERAFLPAALEIVETPASPTLRVTSGVICAIFVATLGWASIGKVDLI
+ATAPGKVVPVGRTKEVQAFEAGTVRRILVDDGTPVKAGQPLILMDATLAGADRARFRDAA
+MRADLDIARLAALVTAPAPGIDPFAGVTAEPEAIEAARGRYSADRAGRDAKLAAADREIA
+ARRLDAVSYEAEIARIDAQAPLAHERTTIRKKASDQAFGSRIDYLNAAQSEAELVNQRRV
+MLEKQKAAEAAMQAQLADLERLRAETERDWLADLQKAMRERSEAASELAKAERRNQWTSV
+VSPVDGTVADLSIHTEGGVVQAGEQLLKVVPSSDHLTIEAVIENQDIGFVHPGDLAEIKV
+DAFPYTRYGLLAGRVAHIARDADAGPDAARQHAVSSPRDAAATTEALRRSSALVYTARID
+IDDPTLMIDGVKTRLEPGMAVTVEIKTGQRTVLDYLLSPISRHAHDALRER
+>tr|A0A1Q9AD28|A0A1Q9AD28_9RHIZ
+MQRFINNPDEVVEDTVKGFVKAHADLLALSPANLRVVVAKGAPVAGKVGVVTGGGSGHEP
+AFIGYTGRNMLDAVAVGELFSSPTAKSFHDAIRAANGGKGVVCLYGNYAGDNMNVKMAIK
+LAAKDGIEVATVVANDDVCSAPKDEREKRRGVAGEIFMWKVGGAKAAQGASLEEVRATAQ
+KAIDHCRSIGVGLGPCTLPAVGHPNFQIEAGTMEVGIGHHGEPGVRVEPLKSAGEVGRDM
+ARIVLDDHDLPAGTEVAVLVSGLGATPLNELYILFDTIEEEITARGLTIAKTYVGNYFTS
+LEMVGATLTVMALDAELKALLEAEARCTMVL
+>tr|A0A1Q9ADN6|A0A1Q9ADN6_9RHIZ
+MEQAAADTGWRGSQEGWLDAAYEALLESGIDAVKILPLAKRLKLSRTSFYWFFKNREELL
+DALLARWRDKNTGNLVKQTEAYAETVVEAMLNLFDCWLDRALFDSPFEFAVRSWALQSPP
+ILAEVQAADQSRMEAIARMLMRFGFDESAADVRARTTYLVQIGYISMQSQENVALRMRRI
+PEYIAIYTGQIPQRRELDRFYARHGYQPE
+>tr|A0A1Q9AID9|A0A1Q9AID9_9RHIZ
+MAAAVLALMASTAGASAKSLDGVTLTIASMNDGFSKVLTELAPKFKEETGADLKVEIMDY
+GTLLTKTTADFIGDTKGYDLVTMDIVWAGAYAENKYSLDLTDWVKRDAAELDLDDIYPVA
+LESLGQYQGRYVAYPFAAYANVLAYRKDVLQAAGLKVPATMEELVADAKKVNDPAKKLYG
+FVANGQKGPAVAQDWMQYNNQLGGSILDKDGKPALNSEANIKSLAVYKELFTEAAPPGAI
+EYDWGGREESFRQGMAAFMQTWSVGAAAYSDPKVSNIVGKVGIAVAPVAKGMTPQYGVGG
+WGLAINADVDKAKQEAAWTFIKWVTSKKIHKEFNMLGAGGFMRKSEMTDPDLLAKYDFLP
+VIAETYEHGNGEFRPRIPEYPEIQDLLGTAVNAVLAGAATPEEALGKAQDAAKKLF
+>tr|A0A1Q9ALD1|A0A1Q9ALD1_9RHIZ
+MSTVEVITFGCRLNTYESEVIRQKAAEAGLKDAVVVNTCAVTGEAVRQARQAIRRAKRAR
+PEARILVTGCAAQAQAADFAAMDEVDAVLGNEEKLTSAAYRALPDFGVSAEEKLKVNDIM
+SVRESAPQMVELIEGHVRAFLQVQNGCDHRCTFCIIPYGRGNSRSVPMGAVVDQARQLVE
+SGYRELVLTGVDATSYGADLPGTPTLGLLAKTLLKQLPDILRLRLSSIDSIEVDRHLLDL
+LGDEPRFMPHLHLSLQHGDDLILKRMKRRHSRAEALAFVEQARRLRPELSLGADIIAGFP
+TESEAAFEQSVSLAEEARIATLHVFPYSPRPMTPAARMPQLDRAVIKARAARLRAVGETL
+ARRHLDRLVGTRQMLLVENNGFAHTQDFTRVATPGLAPGRLVEAAILGHDGRDLTIDGPA
+A
+>tr|A0A1Q9AQ98|A0A1Q9AQ98_9RHIZ
+MVKMPEALLRDTCLIDGDWRKARSGDEIIVTNPADGSEVGRVPSLSAAEVEEAVAAAGRA
+FALWSKKAARERSAILKRWFELMVEHADDLALMMTLEQGKPLAEARGEALYAASFIEWFA
+EEGKRIYGDVIPSPQTDKRILVLKQPIGVCAAITPWNFPAAMITRKAGPALAAGCTMIVK
+PAEQTPLTALALAVLAEKAGLPKGVLQVVTGEAKVVGGVLTGSDVVRKLSFTGSTEVGRI
+LMAQSAPTIKKLSLELGGNAPFIVFDDADLDAAVEGAIASKYRNAGQTCVCTNRLYVQAG
+VYDAFTEKLAARVAALTVGVGTEPDVLIGPLIDEDAIAKVEAHVADAVEKGAQVLAGGRR
+HALGGTFYQPTVLSGVTQAMRVAREETFGPVAPIFRFDTEEEVVAMANDTEFGLAAYFYT
+ESARRVWRVAEALEYGMVGHNSGLISNEVAPFGGVKQSGLGREGSHYGIEDYLEIKYLCS
+AIG
+>tr|A0A1Q9AN45|A0A1Q9AN45_9RHIZ
+MVDWAAARAFTEHACSGIFDLTPCRLVGMRTGQSVNHPEAEDPGRPPFDFLGSIDLQPPP
+RTMMRALPSDPGTTGGIVSYDAVLSARMTEWPWRPVKRDVVLSGGKSWRIETIDRDGSDR
+ATCYLMEVRHALG
+>tr|A0A1Q9AQJ8|A0A1Q9AQJ8_9RHIZ
+MNMATSLEALDFGQEILRQGELISDNLNMLRLEQYPPDAQKGLRSFSLAEVADYLGVTQN
+HIKKLHLEGKGPVPATTASGRRTYTAEQMLELRQFLDKNGRSDFKKYVPHRRAGEGLQVI
+SVVNFKGGSGKTTTTAHLAQYLALTGHRVLAVDLDPQASLSALHGIQPELDKNPSFFETL
+RYDEGRKPITDIIQGTNFPGLDIIPANLELQEYEYQTPLAATSKTSAEGRMFFTRISNAL
+KDVEDRYDVVVIDCPPQLGYLTLTALTASTSVLITVHPQMLDIMSMSQFLLMLGGILDSI
+RGAGAKVNLNWFRYLVTRYEPTDGPQAQMVGFMQAMFSTRMLQNHMLKSTAISDAGITKQ
+TLYEVEKNQFTRATYDRAMECLNSVNGEIASLIHKAWGRRG
+>tr|A0A1Q9AMW0|A0A1Q9AMW0_9RHIZ
+MAVRVRVIEPPAPIVTLEEVKTFLRVSDDDADTVITSLIVAAQAEFDGPTGWLGRCFGLQ
+KIEAITDPLCADLRLPYADVTSVISVERYSAGQWSAIPSGEYQIEGNVLSAIDGTPWPAM
+DRARIVYTAGMNAGDPRLQQLRTAIFFHVKIHFDDGDGSDRLRRLISNLVSTLRDYACP
+>tr|A0A1Q9AN58|A0A1Q9AN58_9RHIZ
+MNTQTAPSPQFYLTAPAACPYLPHEMERKVFTHMVGERAPELNDLLTQGGFRRSQNIAYR
+PACESCRACVSVRILAGEFKPSRSMRRILSTNSDLVSAEYPAEPSNEQYSLFRRYLDHRH
+QRGGMSDMSVLDYAMMVEDTHVHTKIIEYRLRVEGSGISDTAKGPLVATALTDRMGDGLS
+MVYSFYDPELVDRSLGSYMILDHIRRAQERGVPHVYLGYWVKGSRKMDYKIKFLPQEHLM
+ARGWERYDGEPYAPPEPGGRPAVPR
+>tr|A0A1Q9ADS2|A0A1Q9ADS2_9RHIZ
+MTSLLDLSIRDLTAAFADKSLSPVTYWDQVEARVAAFEPAVAALYAYDPEGARAMARASE
+ARYAKGAPLGPLDGVPVTLKELIATKGTPVPLGTAAVELVPAAADAPIAARMREDGAVIF
+AKTTCPDYGMLSSGLSSFHPLSRNPWDVTQNPGGSSAGAAAAGAAGYGPLHIGTDIGGSV
+RLPAGWTGLFGFKPSHGRIPVDPYYVGRCAGPMTRRVEDAAFAMATLSRPDWRDGTSLPP
+NDLDWLDFDLDVKGLRIGVMLDAGCGLEAEPEIRAAVLAAARRFEDAGAIVTEVGPVLSR
+AMLDGLDLFWRAKFWGDIEKLPAVRREKILPYIYHWAQKGADVTGVQAAQGFGQTIEMRK
+TCGALFQTVDVVLSPTNPIVSYPADWASPTNDPERPFEHIAFTVPWNMSEQPAASINCGF
+SSQGLPIGLQIVGPRFDDLLVLRLSKLFEDWTGGITRWPQPKAKTTA
+>tr|A0A1Q9AF58|A0A1Q9AF58_9RHIZ
+MTGAQGSLPLDPAIKPAHLPPGVLYRRDILSLDDEQAIRERLDAGEWSTVLKRRVQHFGY
+LYDYRAPAVTAEAYLGPLPNWLQSLGERLCAEGVLAVMPDQVIANEYLPGQGISAHVDCV
+PCFGEAIVSIGLLSLCEMIFRERSGARTLPLLLEPRSCLLLTGAGRYDWTHEIPPRKSDF
+VGGVRVERGRRISLTFRKVIPAAGSNSAAMTQT
+>tr|A0A1Q9AGD2|A0A1Q9AGD2_9RHIZ
+MTTTPFGEAMQRLRQARGVTQKQMAAAIGVSGAYLSALERGQRGAPSFDLIQKISGYLHV
+IWDEQDQLFEVASLSHPKVTLDTSGLPAGHMAFANRLAQAIRTLPPDLIAEMDELLEKAR
+NPAKQP
+>tr|A0A1Q9ANS0|A0A1Q9ANS0_9RHIZ
+MNVTLFLRGPRALFARALPGFGLPVGAAPARERPVLRATWHRDAATGRLVCRWSRETGGQ
+NDNEAEEPLARLPQAA
+>tr|A0A1Q9AQ25|A0A1Q9AQ25_9RHIZ
+MLARFSGIFSALIYSGANFLLVFLLQSQVSRLEFGVFALSQVFLQFGGSLCMALFATPIQ
+VHAARPEAWRANFGSFSKANLLCAVLFGALSAAIVEGLGAGRGFAALFLLLVVLSAVRLF
+LRSAELARENYRPAMLADAVYGVVVLAGAGLLLVSGRMSNVSVVIVQILGCLTVCPILPA
+ASRLALETLGAASLTPYLHSLRDHGRWLLLNVLTTEATANAHSYLVGFLLGPSAYAPIAA
+LTLLYRPANIVVQAMTQYERPRMAAALLERQRDVLRGAVRLFRGVSLGICFVNIVLVAAI
+LWLLPGLIGTGAYDRDELVLAAAFLAVITLARSLRGPETAALQAGAHFRALSMASVYAAP
+ISLIGTTLIVLALPPGHAALSLAGIAIGEFALTFLCARLYARRFA
+>tr|A0A1Q9AH41|A0A1Q9AH41_9RHIZ
+MDVTRQDRGALEIASRTEPPTTEADIFTTLQSLVMAHRFRHFLVMALPGATVRQLSEVVM
+MTDWPATLLRRYDAASLFTGSPIIKRLRRSTVPFVFDIGLLPRKDEKSDAALEFFAHARL
+KRGIYIPVHDARGQCGVVGFGGDREPVSHEEMKILTFTAADLFARLCAIRREQIAGERLS
+RREIECLSWAAAGKTTLEMAQILNLSEYTINHYLNRASRKLNTVNRVQTVAQAMRAGLIH
+>tr|A0A1Q9AD02|A0A1Q9AD02_9RHIZ
+MQQLLDQMCRRVLRHGGGETAPGLASPDVGLPGVSIGIARQGHHSVMTLYQPMACLVLRG
+AKEVTIGDRVLRYDPATCFVASLDLPAAGCVIEACENEPYIVASLALDSDLLSELLADLP
+PAPEAMPAAGFGVAPVTLSLLEAWDHLLALIDRPADIAFLARSRQREVLYQFLQGAHGPM
+LRQLVREDSRLAQVRRALLWIRDHYDQTIRTETLAGLAGMSVPTFHRHFKAVTAMSPLQY
+QKALRLQAARRMLATSGDATRVAYAVGYESPSQFSREYARLFGAPPLRDAARLRGGRAEA
+GAMA
+>tr|A0A1Q9AIP9|A0A1Q9AIP9_9RHIZ
+MILSFPSTLKTARPLALAGVILGLGLMPGAFAQEVGAPAAASGEGGEIQRFCSNIADGAR
+DQRYVLQKKQLEDLQTEVNTRIAELEKRRNEYQDWLKRRNDFLDQAQNGLVGIYKSMKPD
+AAAAKLQEINPEIAAALIMKLPPAKSSLILTEMANDKAALITAIIASAQDPNTSKEPS
+>tr|A0A1Q9APD2|A0A1Q9APD2_9RHIZ
+MTETHDLIASDKVEGTAVYGLGGEHIGTIERLILEKRSGRVAYAVLSFGGFLGIGGDHYP
+LPWEKLTYDPDLSGYRTDLTREQVENAPKYHSDEEYKWNEENGRQVYDYYGVPPYWM
+>tr|A0A1Q9AGM2|A0A1Q9AGM2_9RHIZ
+MKIGELARRSGLTAHTIRYYERIGLLPFADRDNGRRRDYDASILTWIAFLGRLKETGMPI
+RDMLLYASLREQGPKTGRDRRLLLEAHRTRVHARLEELSACLTVLDSKIAGYRAAEERTE
+ADDEPDKRDEPARARTSGA
+>tr|A0A1Q9AKI6|A0A1Q9AKI6_9RHIZ
+MGEAVFASFLGITFGCFILYPGRSWMCQAARDVIQNPVAAPLYTLLACAIWLCAGGVLLW
+AVRRSLLVVWRVARAIAYFVEDVAYLIAARFERVREAIGSIGGRR
+>tr|A0A1Q9ALK6|A0A1Q9ALK6_9RHIZ
+MLFAFLCTDKPDALQLRMDTRPEHVAYLDGLNAKGILKMAGPFLSPDGAPVGSLVIVEAA
+DAEAARALADGDPYAKAGLFAAVEIKPFNWVFNKPGA
+>tr|A0A1Q9ACZ3|A0A1Q9ACZ3_9RHIZ
+MKRIDEALPGVVRVVPARFGDSRGYFSEVFKDAWFRENVADVSFVQDNESLSATVGTVRG
+LHFQLAPFAQGKLVRCIAGALFDVAVDIRVGSPTYGKWVGVTLSAENGEQLWVPPGFAHG
+FATLAPNTVISYKVTAPYSAAHDRGLLWNDADVGIDWPLAGDGAILSDKDKVQPKLADLP
+HSFDYQA
+>tr|A0A1Q9AM43|A0A1Q9AM43_9RHIZ
+METSLSQPVKTFLETLGFEVKGEIGGCDLLGVKPGEPDLVVVCELKLRFNLELLLQAVDR
+AAIADEVWIAARISAKGRGREADRRYRDLCRRLGIGMLGVSDTGLVSIVVSAVSPMPRTN
+AKRRSRLVTEFRRRQGDPVTGGSTRAPVMTAYRQQALLCAAEIDAGRCRPKEIAARVPGA
+GRLLQANVYGWFQRIDRGVYVLTDAGRAALSKWPQVLLTASD
+>tr|A0A1Q9AE26|A0A1Q9AE26_9RHIZ
+MNAKSNQEDLHSRDALQASIGRTIATTVSAVAAFSACFATDPAFASSLVDAVELIGERRG
+RTIVAGIGKSGHIGRKIAATLSSTGTSAYFVHPAEASHGDLGMITEEDTLILLSWSGETV
+ELASIITYARRFQVPIVSITGNADSLLARNSAVAIVLPKVQEACPHGLAPTTSTLLQLAV
+GDALAIALLERRGFSPEDFRTFHPGGKLGAQLQRAIDLAHTGAAMPILPVGSPMSLAVIE
+MSSKGFGVVGIVDGAQRLIGVITDGDLRRHMSDGMLSEPVEAVMSHSPRVIRGDILASAA
+LKSMQTAKRVTVLFVVDETGAPEGILHIHDLLRAGVA
+>tr|A0A1Q9AIS1|A0A1Q9AIS1_9RHIZ
+MAGLELKDIRKSYGAVDIIKGIDLSIDKGEFVVFVGPSGCGKSTLLRMIAGLEEISSGDM
+FIEGERVNDVPPSKRGIAMVFQSYALYPHMTVYDNMAFGMRIAKESKEEIDRRVRAAAEI
+LQLTKYLDRLPKALSGGQRQRVAIGRAICRNPKVFLFDEPLSNLDAALRVATRIEIAKLH
+ETLADTTMIYVTHDQVEAMTLADRIVVLSAGHIEQVGAPLELYDRPANLFVARFIGSPAM
+NILPAKILETGERTTVELPGGLRQTLPIATAPTEKGKTASFGIRPEDLTIATGADHVLAG
+KVSITEALGEVTLIYLDDPAGGEPLIAKAPGHAPVERGTELRFAADPAKMHLFDPNGVSY
+RRL
+>tr|A0A1Q9AL00|A0A1Q9AL00_9RHIZ
+MGLIVVSPLARIAEMAVRHRCGGMLSLMGAQQHFHRPACIPRERHLLLALNDIVKPTGPL
+ITPEAHHVAAILDFARGWDRSAPLLVHCWMGVSRSPAAALLIALALAPDQDEVALAQRLR
+AASRFATPNARLIELGDAALGREGRLVAAVEALGRGAEADGNAPFLLPVTAEDAARPIPA
+>tr|A0A1Q9AFF0|A0A1Q9AFF0_9RHIZ
+MRGLKCPLPALKTRRRLRDLPPDARLTVLTSDPLAVIDIPHLCREEGHMLLSSEALADAA
+GHRFVIAKAPGVREDAD
+>tr|A0A1Q9AC67|A0A1Q9AC67_9RHIZ
+MESDMTDQRPIEDEASLLEQPLPDGISRALAHTGASASRRIVIVGGGFGGLACAQALGNS
+DATVTVIDRRNHNLFQPLLYQVATAELSPADISEPIRRTLGRYENIHVMLAEVTGIDTAR
+RLVKTGDGPSVPYDTLVLATGSVYNYFGHDEWREFAPGLKTIHEARQIRQRLLTAFEKAE
+VATDPEEKKALLTCVVIGGGPTGVEMAGAIAELGRFMITRDFRALAPDYLKVLLVEAGPR
+ILAQFPENLTDYARRTLEKMGVEVRTGEAIEAIGADHVVMAGRTVKVGCVVWGAGVKASP
+AARWLGKEPGPGGRLPVEPNLAVKGIEHVYALGDTALGVGEGGKALPALAQVAKQQGRHL
+GRELRRIGRGPGAVRPFHFNNRGNTAVIGRNAAIFDFGRWTLKGRLAWVLWAIVHVYLLV
+NFEKKLLVSLQWFWRYLSRQRGARIIDEEAQGLVVERRPQPAGGQTREQGA
+>tr|A0A1Q9AD90|A0A1Q9AD90_9RHIZ
+MTRLAERIETIMSENGLAPGDRLPSERQLAFTLGVSRSSLREALQMLISRGRLVSRQGGG
+TYVAAKADPQALPAIAAALSPLTERAAGEPGYWLDVMELRRSLEGDAAAHAALRATPADR
+LRLQAALDQVTDAGPQDPEAQARADADFHMAVAEASHNIVLRQVMAGLFDLLQASISESL
+RALYRQPETTEPLARQHRAIAEAILAGDAERARAAALTHLDHVALSLRPLAEADARHRRA
+AAVLADHAGADHARADHRSL
+>tr|A0A1Q9APH7|A0A1Q9APH7_9RHIZ
+MADPLALERLTLEPLTAEAFAPFGSVIQADPAAMRLINGGTTERYHALAEAEAYGEDARV
+ILNIFRGAPRAFPYALTMMERHPLGSQSFSPLTPRDWLVVVAPDEDGRPGRPRVFRACGD
+QGVSYRANVWHHPLMAVGAATDFLVVDRTGAGNNLEEFFYDTPFLIAEP
+>tr|A0A1Q9AGM7|A0A1Q9AGM7_9RHIZ
+MTNILLEMRGITKTFPGVKALDNVNLQVREGEIHALVGENGAGKSTLMKVLSGVYPAGTY
+EGDIVYDGEVRRFATISDSEHLGIIIIHQELALVPLLSIAENIFLGNEIASGGVIDWRQT
+FARTRELLLKVGLKEPPSTLITDIGVGKQQLVEIAKALSKKVRLLILDEPTASLNETDSD
+ALLTLLMEFRKQGMTSIIISHKLNEIKKVADKITVIRDGGTVETLDCHKEDISEDRIIKG
+MVGRAMEDRYPKREPKIGEMLLEVKNWNVFHHQHRDRQFLHDISFNVRAGEVVGIAGLMG
+AGRTETAMSVFGRSWGHKITGEVKMRGQPVDVSTIRKAIDAGLAYVTEDRKHLGLVLMNN
+IMHNTTLANLPGVSTSGVIDERREAKVATDYRSRLRIRSHSIYQEAVNLSGGNQQKVVLS
+KWLFTNPEVLILDEPTRGIDIGAKYEIYSIINQLAGEGKGILMISSEMPELLGTCDRIYV
+MNEGRIVAELSRQEASQESIMRAIMRSGEKH
+>tr|A0A1Q9AKK0|A0A1Q9AKK0_9RHIZ
+MSDSFRLDGKIALVTGAARGIGRAIAERLADAGSTVILADRDVNEAERAAAAIRKTGGRA
+TGLLLDVTDRAGVTAAAAELHARFGALDVLVNNAGIVRNAPAAEMTFEDWQAVIDIDLTG
+VFTCAQIFGRAMVQAGRGAIVNISSMCGEIVVQPQPQAAYNAAKAGANLLTKSLAVEWAE
+AGVRVNAVAPGYIATELTLSGRSNTAWFSAWMAATPMRRLGEPREIADAVLFLASPAASF
+VTGAVLSVDGGYTAL
+>tr|A0A1Q9ALI2|A0A1Q9ALI2_9RHIZ
+MSNVTNGRPLSPHLQIYKFVPTMAMSIVHRITGGALYFGTILVAAWLVAAASGKESFDWV
+NAIYGSFLGQLVLFGYTWAMIHHLLGGLRHIAWDLGYGFEKHFANKLARLSVISSAALTV
+LVWIAILIVR
+>tr|A0A1Q9ALL3|A0A1Q9ALL3_9RHIZ
+MAGERQRLDKWLFFTRLQKSRSIAQKAIEQGLVRVNAVRVSQSSAQVKPGDVVTLSLDRQ
+DRIVKVLASGTRRGPYEEARLLYEDLTPPQDPENRPTLYEIATRERGAGRPTKKERREID
+ALTPYPDED
+>tr|A0A1Q9ADG3|A0A1Q9ADG3_9RHIZ
+MLDAFSASGQFYKGNIHGHSTRSDGLKTPEQVAAYYQSAGYDFIAITDHFREKYGYPIVD
+TTPLRNGGFTTLIGAELHAPALANGELWHIVALGLPFDFAPPAADETGAELAARAVRAGA
+FVQIPHPEWYGLTVEDAETIAGAHAVEVYNHGCAVDSARGGGSELIDQLLARGNRIGIVA
+SDDSHFWFDWFDEGCGGWVMVKAEENTPDSVLAALKAGHYYASQGPVIDHIERRGNMLHI
+ESSDIFAAVLVGPASLAARKLGPSMSAIDLPLDQFEGKWCRLVLRDSRGRNAWTNPLWLD
+G
+>tr|A0A1Q9AL91|A0A1Q9AL91_9RHIZ
+MSKSLDSFNCRSTLSVNGTDYVYYSLPKAEENGLPGVSKLPYSMKVLLENLLRNEDGRSV
+TKQDILNIAAWLQDKGTAENEIAYRPARVLMQDFTGVPAVVDLAAMRDGIKSLGGDPEKI
+NPLVPVDLVIDHSVIVDEFGSANAFARNVELEYERNGERYRFLKWGQQAFKNFRVVPPGT
+GICHQVNLEYLGQTVWTKEEDGETIAYPDTCVGTDSHTTMINGLGVLGWGVGGIEAEAAM
+LGQPVSMLLPEVIGFKLTGKLKEGVTATDLVLTVVQMLRKKGVVSKFVEFFGPGLDNMPL
+ADRATIGNMGPEYGATCGFFPVDGETINYLNMSGRTKDRIALVEAYSKAQGMWREGDGSD
+LVFTDTLELNLGDVVPSMAGPKRPEGRLALETIAPNFATALENDYKKPGQLTNRYAVDGE
+EFDLGHGDVAIAAITSCTNTSNPSVLIAAGLLARNAVAKGLKSKPWVKTSLAPGSQVVAE
+YLAKADLQKDLDALGFNLVGFGCTTCIGNSGPLPAAISKTINDKGLITAGVLSGNRNFEG
+RISPDVQANYLASPPLVVAYALAGSVQKDLTTEPLGEDQDGNPVYLKDIWPTSAEVQEFI
+QKYVTRELYETKYADVFKGDENWQNVQVPDGQTYAWDDDSTYVQNPPYFVGMGKSGSGIS
+DIKGARVLGLFGDKITTDHISPAGSIKAASPAGAYLLGHGVSVADFNQYGTRRGNHEVMM
+RGTFANIRIRNHMLGPNGKEGGYTIHYPSKEEMSIYDAAMKYKEEGVPLVIFAGVEYGNG
+SSRDWAAKGTNLLGVKAVIAESFERIHRSNLVGMGIVPFVFEPGTTWASLGLKGDETVTI
+ENLGNVQPREKRTAVITYGDGTVKEVPLICRIDTLDEVTYVNNGGILQTVLRDLAA
+>tr|A0A1Q9ACC3|A0A1Q9ACC3_9RHIZ
+MSTAPRFRDKILPVATILVAIVVLWYGAAAWLNAPFERDTAARAGTTIALTDLLKNTMAQ
+ERPVLPAPHQVFAELWDTTVNKPITSKRSLVYHAWVTLSATLLGFAIGTVLGILLAIGIV
+HNRAMDRSLMPWVIASQTVPILAVAPMIIVVLNAIGLSGLLPKALISTYLSFFPIVVGMV
+KGLRSPEQIQLDLMRTYDASAAQVLTKLRWPAAMPYLFTSLKVAIAISLVGAIVGELPTG
+AVAGLGARLLAGSYYGQTVQIWSALFMAAGLAAVLVLVVGMLHAMVLKRMGARP
+>tr|A0A1Q9AGY0|A0A1Q9AGY0_9RHIZ
+MRLRIKLEILVWLVLVLGLSLITIVFDLHRLMDDYLETGGHSYLQDLFIALNMTGIIGLI
+YSALRIRDLNAEIDRRITAEDRAEWIACHDPLTNLPNRRALDAKGGAIGLAHAQGMGLVV
+YSIDLDGFKRANDLWGHDFGDLVLKTVAQRLLDIFPDDHVLRLGGDEFLIVAKRAGCLDL
+DATGRTILQRIGEPVRIGHRSADIGASVGYALYPEDSTDLLTVIQGADNAMYEAKRRGRN
+TVTPFQAEIRAVTLRRARMEGELRAAIRMHRIVPYYQPLVDLKTGAIIGFEALARWEITP
+GQFIAANEFIALAEETGQIAELTDSLFRQACRNALTWPAGTVLSFNISAIQLSDRLLGLR
+ILTMLAETGLPPTRLELEVTETALVQDPQTARLILEQFVGAGISIALDDFGTGHSSLSQL
+STYRFDKIKIDRSFISTFEHSEKQDKLVRAIIALGAGLGVKVTAEGIETESQMAKLSALG
+CDIGQGYLLGRPAPLPASGQGVVNHYAASAGASALSA
+>tr|A0A1Q9ANH1|A0A1Q9ANH1_9RHIZ
+MRFAQSFELVPLLDTTLAFLTAFVLGTLIGAERQYRQRTAGLRTNVLVAVGAAAFVDLGM
+RVAGATEAVRVISYVVSGIGFLGAGVIMKEGMNVRGLNTAATLWCSAAVGCCAGTGQIAE
+AVLLTAFVLAGNTLLRPLVNRINRIPIDDRTTEATYEVSIISSREAMPQLRDLLVERLEA
+AKYPVSDVTIIDRSDETVEIVATLVSTAVHPHEIEAVITVLEQQATVINASWDGSTKT
+>tr|A0A1Q9AD00|A0A1Q9AD00_9RHIZ
+MRKTAIVICLAWAALLLASGAKAAEMRNLVVLKQELMPRPAPLIAGVGVHFGIGGEHHYE
+MKPAAQRLDELGVDSYRDDLPWPDFELWSRTPAASHLARLFSFMQMTTKRPLLILGHGNP
+MLPNADPPLNDPARRAFSDFAVRAVRATHGFDPIYEIWNEWNLRFTFTPPWIIGAGGPDD
+PRAAVHYVDLVRTVLPDLRKAAPEATLLAGAVGVDQDWQWTRAIASGLEAPLSVHVYNHC
+EPDESRRTATDVIDRLETLQAMLSAKGGPQPLYLTEFGWPTARSPCVISREAQADNVAQV
+LFWSAATPWLKGAWVYELKDQDRNPDALEANFGLYDVDGAPKPAVCAVREAVALIKQADG
+FKLERPFPHVFVLTMGGPFGLRIVSWTTSPAFSASLALEEEATVRARSLCAAQLQDARRF
+ALGPRPLILDLPPDRQEVRLVVQE
+>tr|A0A1Q9AF20|A0A1Q9AF20_9RHIZ
+MIFSSDNWAGAHPRIAESLLKAAGGFAAAYGTSDLDRKVEGLFSELFEREVAVFFVGTGT
+AANSLAFASVSKPGGHVFCHREAHVNADECNAPEFFSLGARMAAVDGAFGKMDAGKLAAE
+IGRFTPGVVHSGQPMAITLTQATEAGTVYTLTEIEAVSTIARRHRLPLHMDGARFANALV
+ALDTTPAEMTWKRGVDILSFGATKNGCWCAEALVFFDPAMAEGFPYLRKRSAQLFSKTRF
+VSAQLEAYFEGGLWLDMARHANAMAARLAKGLKGSNSARLGWAADANELFVIIERSRAKA
+LMDQGAVFYDWHPPRDMAHEIGPDEGMYRLVTSFATQPDDVDRFLSAL
+>tr|A0A1Q9AE70|A0A1Q9AE70_9RHIZ
+MATLTLRNGRVIGDYRAPYVIAELNTSHFGDMDIARAMIDRAREAGCDCVKFQSWSTESL
+YSESYYRQNAIAKRIVHKFSMDEEALKALSVYCASVGIDFASTPYSRREAAFLVEDCNVP
+FIKIASMELNNLPYLTYLGELGAPLVLSTGMGTLEEIITAVRTVEATGNRDIVILHCTSV
+YPAPPETIRLQNILGLRSEFPAYPIGYSDHSIGIEIPAASVALGAGVIEKHFTLDSSRIG
+MDNQMATEPEEMARMIAACHTVHKALGGTGRILDPAERDQIPKMRRSLIAARPLKAGDLI
+AAEDLDAKRPGTGLPPGDMAVLIGKRLTRDIEADAAIAASDVEAP
+>tr|A0A1Q9AHW2|A0A1Q9AHW2_9RHIZ
+MFVRKFYVSDTHLLHERLLDMQPRPFLSIEEHDEHIVKCWNSVVGDHDHVYHLGDFAFAL
+SRNGDRVRELFSRMKGRKYLIIGNHDVTKKGDLHPTLAALDWAARPEHALRTRDGGRDVY
+MSHYAGRTWPSQHHGAIHFYGHSHGRLPGYGLSRDVGVDVEDVAFTPRSFTELTKNMELP
+DVK
+>tr|A0A1Q9ANQ4|A0A1Q9ANQ4_9RHIZ
+MSHTIRSKDKLVARVRRLKGQVEAVERALEAEAGCGQVLQLLASIRGALNGLNGELLEQH
+LHEHVLHARDEAERQAAAEELAAILKTYMR
+>tr|A0A1Q9ADQ6|A0A1Q9ADQ6_9RHIZ
+MTQPASVPPLADILENCAFLDDWQDRMSYVIELGRGLPPLPEADRTAENKVQGCASQVWL
+VSRAEPSGDAGDPVLHFKGESDAHIVRGLVAIVLAIYSGKRASEILATDALALFSQMGLI
+EFLTAQRANGLRSMVNRIKAEAAAAQAA
+>tr|A0A1Q9AIK4|A0A1Q9AIK4_9RHIZ
+MTSIITNTAALSALATLRTIAGNMENVQSNVSSGLRVQTAADNAAYWSIATTMKSDNKAL
+SAVSDALGLAAAKTDTAYTGLSTAIDVVTTIKAKLVAAREPGVDKDKINKEITELKNQLT
+STALSASFSGENWLYNTSSTAVGTKQMVGSFTRSGNGVSINTINFDASTSVLIDTNNATR
+GQLTNGIAGRDSSGGTGTYFLINANSTTTASGSVISITSGTTDAQVEQMLSSVEGILQNL
+TNSAATLGATKSRVDLQDNFTSNLMDTISKGVGRLIDADMNEESTRLKALQTQQQLGIQA
+LSIANSSSDSILSLFRS
+>tr|A0A1Q9AK03|A0A1Q9AK03_9RHIZ
+MSPFLPAFSHFGSLPLPSEIVEHLLDRSAERSAQRERQAATGPAPVLALEDITLSFGGVT
+ALSGVDLSVRSGEIKAIIGPNGAGKSSLINVISGIYRPDRGSVAIDGRRLRSVPTERLAS
+LGIARTFQNLALFKGLSVIDNIATGRAYRSRTSFLSQIAGLPAARREREAARERARQLIA
+FLHLDAYADRLAGALPYGVLKRIELARALAAEPRLLLLDEPMAGMTVTEKNELAEFIAAA
+RREFGLTVVLIEHDIGIVMALSDSIAVLDYGRKIADGAPAEIAADQKVIDAYLGVAPENE
+NGDGI
+>tr|A0A1Q9ADH3|A0A1Q9ADH3_9RHIZ
+MTSAFIEIRDIKKHYGPITAVKDVTLDIRKGEFMTFLGPSGSGKSTTLYMLAGFEYPTAG
+DIKLNGRTLLDTPSHKRNIGMVFQRYTLFPHLTVGENVAFPLRIRRMPKADVERKVKEAL
+RLVRLEGFEDRKPALMSGGQQQRVALARALVYDPPVLLMDEPLSALDKKLREEIQFEIRR
+IHQETGVTILYVTHDQEEALRLSDRIAVFSQGKIDQIGSGQTLYAEPATRFVAGFIGDSN
+FIDTDVVSVEGSHATLALPGGKLVSGVPLHSAGPGKTAALLLRPERIDIRAADGGPDGAL
+KGTIRDITFLGNNTDVLVEIPAGKQLSVRIPFGHPMLGGLKPALPVALSFNPETVHAFQG
+>tr|A0A1Q9AJQ9|A0A1Q9AJQ9_9RHIZ
+MTLVPRDAVDLDAAHRDPIALGDRPLVVLDVDDVVLQFLAPFEAFLTSLGHRLVPRSFRL
+HGNILSSATEEALPDETVSQLILDFFEAQERWQTPFAEAVEALEALSRRADIVFLTAMPP
+VYALKRRRLLDRLGLCFPLIATESPKGPVVASLHGGRPLPVAFVDDMVYNLSSVASHVPD
+CLLLHMRPESPMHRHAPETPDPALRARDWREAQRILEAHVGAPADPRVTPI
+>tr|A0A1Q9AMJ7|A0A1Q9AMJ7_9RHIZ
+MTKAIMLQGTGSDVGKTVLVAGLCRLAARRGLKVAPFKPQNMSNNAAVTADGGEIGRAQW
+LQALAAGIPTTVHMNPVLLKPQSETGSQVIVQGRMFGSARGRDYQALKPTLMQAVLDSFA
+RVGEGRDLVIVEGAGSPAEINLRAGDIANMGFATRAGVPVVLVGDIDRGGVIASIVGTKA
+VLPAEDAAMIQGFLINKFRGDVSLFDEGVAAITRHTGWPCFGVVPWLRSAGRLPAEDSVT
+LERLVEGQARALKIAVPVLPRIANFDDLDPLKAEPAVELVFVKAGSPLPADAALVVLAGS
+KATISDLQVLRDNGWDADLARHVRRGGRVIGLCGGYQMLGRRIVDPLGLEGVPGTVEGLG
+LLDVETELSPEKVLHDGAGWSVEFDLPLQGYEIHLGVTRGPDCARAPVLLRGQPDGAASP
+DGRVSGTYLHGLFSSDGYRRALLARFGVTSSIDNYRQQVEDALDQVASELEAVLDSSWLE
+RLFALKPLFS
+>tr|A0A1Q9ADH6|A0A1Q9ADH6_9RHIZ
+MAGLRARVASLPKTERETLRRQLEARGIAWERVAPPEDDTRESLKRLPLTPGQRHFWVQQ
+RLYPESSAYHVAYRWRLKGPLDVEALARSLDHVVARHAALRTAFPLKEGEPWQQVQDAAP
+LVLARDDVSGSEAALEAAAAAVAVRPFDFTSAPLMRAHLLRLDDHDHVLAITFHHIIADG
+WSRGVFLRDLTRCYRALQAGIPPDLPPLTLDYGDHVRAQQHWLESPACARARRFWQDRLS
+GLKVMDLPSDRSRSLSMDMTGATVTRTLPLARSGQVEALAARLGTTAFGILAAGFLLLLH
+RYSGQRDLAVCVPVAGRGPSEADLIGLFTNTVVLRAEIDPRLTFAAWVERVQERFSDALD
+HQDFPFPLLAEALGMERDARQSPLTQIMFQHQSGFYREQNAQVVDFGVAGLSVQQEPAPL
+REAKVDLSWTVMEREAGLFLNIEYRTALFDAWRIERMALHFETLLGSILQAPETLLPALA
+YLPADERDALIAEGTPAHRPLPEITVDQAIAEVAARHPEAEALVAVDGVWTYGALMQAVD
+RLAQRLVQLPDPVRPGDRVAVSLPGRGQSVIAFLAILKAGAVYVPLDPDHPAERVAAVLA
+DSGVTMVLTDQPHIYPGRAHLDPACLRPDAGHAVLPSSNPAGIAYLLYTSGSTGRPNGVP
+IEHLSLYNHLRAMADCLALMPGHRMLAITTPTFDISILEMLLPLFVGATTVLHGQDLLLA
+PQRLAGLLAEQRISHMQATPAYWRMLIDSGWEGSPDLTALCGGEALDAPLAGRLLARTGT
+LWNVYGPTEATIWASARRVTLKDAESGRVPVGGLIDNTHLHVLDAYLEPLPRGIAGDLYI
+GGACLSPGYWNRPALTASRFLPNPFCDPDHRAPRLYRTGDAALRGEGGAIEFLGRTDFQV
+KLRGYRIEIGEIEDKLLRESMVEQAIVTLDEAHERLVAYVLVKDAQDCERRLRQALTAQL
+PRYMVPTAIVLMDAFPLNANGKIDRKRLPVPQVSGISEAAVPARTAGEAKLLAIWKAALR
+RDDFGVEDNFFDLGGDSIIGVQIVARAEQAGLRLAPTQIFELQTVAAQAAAATRIDSLHN
+AGDGRSAEPATEAPPAAPRLRSPEEEADTLAQDALPPADTLAMTPMQAGLLLHSLMAPES
+GTYFEQCWCVLDGPLDEAAFRAAWQRVMARHEMLRAACRWRDSDEPLLVIPAHAEPEWQE
+ADWRALDGDSQARRFQRFLEADRRRGFALDRAPLMRFALMRLSETRRRFVWSFHHLLMDG
+WCTALILDEVLRTYRGQSLPPPPPSYRRYLDWRARQDRGAAEAYWRAALADPPPPSFPWS
+AEVSAEPASVEIRTSLDPAVAGRLRAMARRERLTLATVLQGAWALLLSRYGGTRDVIFGA
+VLSGRPAELADAERMVGLFLQTVPVRLRLRPAEKAADWLRALQAEHPQRVRHGHAALSQI
+QRGTTLFETLLIVENLPLSLLEAVRDPGEGLSITETGSYERTHYPLSLRVFPGEAVTFAL
+TLDPSRIAPAAARRVLDHYATLLSRLAQDAHQPLGAIDMLAPPEHRALIAAGRGPERGAT
+EPIPARIFAHRAERPDRTAILFQGREGAEELSYRALAARVDALAGGLQARGIGRGAVVGV
+CLERGPDLVAALLAVLRSGAVYLPVDPDYPAERIRSMIADSGAVLVLTDRQSCPVSCDAP
+LLRVEDAAATDAAFSPVALRGDDLAYLLYTSGSTGRPKGVAITHAALANFIAAMLERPGI
+DAEDRLLALTTIGFDIAGLELYAPLVAGGTVILADAAINRDGRRLAELVVAVRPTVMQAT
+PAGWRMLIEAGWAGDPQLRLLCGGEGLDSRLAAALMARGRALWNLYGPTETTIWSAALDV
+EPSMLSGALVPIGGAIDRTVLQVLDPEGRPVPEGAEGELHIGGAGLSPGYWRRPGLTAES
+FVPNPFRQGPEDGLHLYRTGDRVRRRTDGLFDFLGRIDNQIKLRGYRIEPGEIEARLAAH
+PLVAQAVVLVEEQGAGPQLVAYLRWRQAMDAEPALVLRDHLAAALPAHMIPAAYVALAAF
+PLTPNGKVDRRALPAFRPAQSPPPAPQALDEPAASLAEIWRQLLKVDHVAPSDNFFSLGG
+HSLLLMSLQTMVRARLDLSVDITAFFRFPTLESMADHLAGIATGRAEAKTEDRGRSKRAG
+RDRLADRRQLRSHPVAADR
+>tr|A0A1Q9AN14|A0A1Q9AN14_9RHIZ
+MSDIWPTELSVSKDRRAMTVSFTDGARFVLPAERMRVLSPSAEVQGHGPGQKVTVPGKRD
+VGIRAVQPTGNYAVRIAFDDGHDTGIFTWSYLRQLGEEGEALFAAYEAELAEKGLSRDPR
+AGGR
+>tr|A0A1Q9ALC1|A0A1Q9ALC1_9RHIZ
+MTIVPSSPVSPAAGAPSGLDQVVAAETLLSHVDGAAGRLILRGHDLANLADWRFEAVLSL
+LWADLVPDAGDTDAVTKMLAAARPVAFALLPALLPATDGLSEVEALRLLLAALPDRADLP
+HHGLAVAATPVFAAAIARRRRGLAPVAPAPHLGLAADFLRMLHGEEATPEKVRGLETYLV
+TVADHGLNASTFATRVIASTKAGLFSAVLGGLCALKGPLHGGAPGPVLDMLDAIDGEAAI
+MPWLTAALDRGERLMGFGHRIYRVRDPRADVLKRAVSSLSAQDGRIRFAQSVERQALALL
+AARKPERALQTNVEFYTALLLEALGFSRESFTNVFAAGRMAGWTAHVLEQEKTGRLIRPQ
+SLYVGPWPEGVAA
+>tr|A0A1Q9AEV7|A0A1Q9AEV7_9RHIZ
+MARQKFQGLLFFGVLICLCVPGFAKAAEAVRALPMTFDSRERITKPDLSGLTRLRFLTTV
+DFPPFNFIDQDGRLAGFHIDLAREICRVLAIEARCQVQALTFDELLPALSEGQGEAVLSG
+VKVTPALRRGYGFSRPFMMLPARFAGNRTRMGETLTVAALQGKPVGVVAGTVHEAMAKAF
+FPTLDRRPFPDRAALMAALKDGSVAAVFGDGVQLGFWTASAEAGGCCAMLPGAYLSEDFL
+GEGLTVALRKDDAVLKQAIDHALLELSRSGRLNELALRYFPMGLY
+>tr|A0A1Q9AI92|A0A1Q9AI92_9RHIZ
+MHEQNGARPLCKASFFETARAALFAGKMTADQEAGIETILARWRSLGPHVDRRFVAYGLA
+TAHHETGRLMQPVRETFAASDAQAIARLERAYRRGRLPQVTEPYWRTDAEGRSWFGRGYV
+QLTHRANYAVLSKATGLDLLGNPDLALQSEPAATILVTGLVEGLFTGRRLGDYLRAGAVD
+WRGARRTVNGTDRAELIAGYARAYEAALLAGGF
+>tr|A0A1Q9AEN6|A0A1Q9AEN6_9RHIZ
+MSIIFSHVHKTLRRKTDRTPVLVDASAEFPADQITGVLAPPGSGKTTLASLCTGKFNADK
+GRISRNSLVSFPVASGGIFNGLLTGRENLAFLCRVFGFDPVPIIRFIIDFAEVGKAIDKP
+FNSLNRDERTRIMFTAVYAIPFELYIVDGTLVGGRANFRQKCEELVAERMRTSGFLMISS
+SPSLLGKHCANFLVMDNMALHPAASIQDAQDRLGADRLRDGDGYAEGVEGVDNTALH
+>tr|A0A1Q9AD42|A0A1Q9AD42_9RHIZ
+MATARAIAPEALGPTITVGEILVEIMATTVGDGFLAPQPLIGPFPSGAPAIFMSQVARCG
+GAAGIVAAVGADDFGRLNVERLARDGVDVSAIATIAGKPTGSAFVRYRADGNRDFVFNIA
+HSAAGDTAMTGEAQALIARAGHVHVMGSAFAIDGAGAILREAIAEVKARGGSVSFDPNLR
+KELVSGAEGRRLVDDLLSVCDLLLPSGEELFVASGQDTEEAAIEALLAAGIAEVVLKRGA
+AGSSHFSRAHGRIDAPGLKVEEVDPTGAGDCFGAAYLTCRRLGMAPPQALAYANAAGARN
+VTRQGPMEGVGSLAELDQFIASVSAKG
+>tr|A0A1Q9AM57|A0A1Q9AM57_9RHIZ
+MFRFSASSALLLSSIALATLAGPARADTISPFRFKSAGQVAQPAPAQAPALPALDNGDLR
+RIAASRYGLFFGGEFAGRTLPFFALPDEASSSTKLVLTAQTSISAAPERSRMIVKINGTE
+IGTSALRAGDPRRMVFDVPAGVIQPGYNAISMEVDHRHRVDCSIDATYELWTQVDPAQSG
+FVFNALPRTALSLVDLMPLSGLADGRTNLRIVLPSGATMSDHDRALKAVQALTILGNFNH
+PHVEFANKPGTGPGIDLIIGTQADLKPLLGANSPALTSSETVSVEPGDTAERKRLILTGA
+NAGEIEERLARFIRTAGAEQPVGTPEGLAALANTRGRLLTPGEKVTLAELGYNTKRFDGR
+FTSNQVNFTMPADFYPGDYASMYFHMSALYVGGLAPDAALTVKANDKVVATISLSSAREG
+AIRDQRLPIPFNALRPGQNTLKIEARLPSRLDAACESVDKASSSVRLAIDERSYLDMQNY
+ARIGRYPDIGVLTSGLINDATAGTNPATTLLVPGYDRRGMDAAATFAAKLAYASNQVKPL
+QYASILPPLDNSNVIAFGAFDTLPSELTTRMRLDLVNLRAATSGRPQLLEIAALQPTAIR
+SDAQDGTIGALLDKPLEKVGSFAGRLQGKIQDAADTLDISRLRVMMGAESGNRRFAPAAN
+AALVVAQDVGKNGGLWTVVAARDMDSLTARTDTLTDINLWNKLGGAVQSFSETGEMLQQQ
+ISPREQMFQTQPLTFSNARLVAAGWLANNAAFYIAALLIAAILLGIGTFMMLISGRRPHG
+>tr|A0A1Q9AH46|A0A1Q9AH46_9RHIZ
+MEELIRTNDAVVLSFAESLLRDAGIVCFVADQGMSILEGSLGLLPRRLMVDGERAGAARR
+LLIDAGLGDELREAAP
+>tr|A0A1Q9AL45|A0A1Q9AL45_9RHIZ
+MAAMSSPSASSPPKAFPWLIILAGSVVAMLTFGPRSAMGFFQLPMLNDRGWDRSTFGLAM
+ALQNLSWGLSQPIFGGLADRFGTWRILALAGLIYAAGLLVMAHAQAPLWLHVGGGILVGL
+GVGAGSFGTVLSAFARHVTPAQRSMAYGIGTAAGSAGMFLFAPLSQGLINAYGWSDTLVF
+LAALMLIVPLAAIPLAGNSASGTQGASLYPQTAGEALKEAFGHRSYLLLVTGFFVCGYQV
+AFITAHFPAYIGDLGIDARYAVIALALIGFFNIIGSLASGVISQKNSKPHVLALIYLARS
+VVVAGFLLLPQTPVSIIVFSMLMGLLWLSTVPPTNALVAIMFGTRHLGLLGGMVFLSHQV
+GSFLGVWMGGVLYDRFGSYGPVWWVSVLLGLFAALVHLPIRERPVARPAAA
+>tr|A0A1Q9ALV5|A0A1Q9ALV5_9RHIZ
+MSQSAVKLNVGMPVALLLALMSIGLFVVVALSTGETAQLSWQGATGLLQRMVALGLVALG
+QTFVILVGSIDLSVAALISAVAVLASHLMQGDPAMIVPAVIACLGLCAIVGFVNGALVAY
+GGINPLIATLGTGLIIQGVLAASFGALQGTVAREFQILAYGGVLGIPYPLLLLASLSLAA
+AFVLDRTLFGARIYAVGGNPDGARLAGIRTERVTLSAHMVASLFAGAGGLYLAARLQSGT
+PWIGRDGLYDLESIAVTVIGGTILAGGKGGVAGTLAGVLLFATLDASFNMLGIDAFLKQV
+LRGVIVIAAVAVHAVRAKGHVA
+>tr|A0A1Q9AH33|A0A1Q9AH33_9RHIZ
+MSEDNKMSHRLDQLLLSRGLVASRARARDAVERGTVRVDGRVITKPSANVAGNATIEIDD
+PAQAYVSRAALKLKAGLAHFGLSPEGLCCLDIGASTGGFTEVLLEGGAEHVVAVDVGHGQ
+IHPRIENDRRVTSHEGLNARVLDEEHLEGHPIEAIVSDVSFISLKLALPPALDMAEPGAF
+CVLLVKPQFEAGREAISKAGLLKEPETAPDVAAELERWLVEEMGWESLGLIPSPIAGGDG
+NVEFLLGGRKPAEETE
+>tr|A0A1Q9AD73|A0A1Q9AD73_9RHIZ
+MAPQYLVTHSGGFHADELLSSVVLTRLFPEAEIVRSRAPEWITPADDRIIYDVGGAYDPA
+RTVFDHHQRGAPLREDGQPYSSFGLIWKHYGRDYLAASGIPADAVETVHASFDAGFVLPI
+DLVDNGAVGTDTAGILASLTLPALLESLKPPFDDPDPEATTIAFHGALAIARSFVEARIG
+GMAAKLRAEATVLAAITAAGAGRVLELPMGMPFRSAVLKAGAEQLLFVVHPRETDWCLTG
+IRRTDEGFELRADLPAAWAGRTGAELEAVTGVPGASFCHNGRFIAAARTREAILALAALA
+VKDVEAAA
+>tr|A0A1Q9ANF3|A0A1Q9ANF3_9RHIZ
+MSDKVLTANRLSDGISVWLDASGQWVENLQDAFVARHAEAVAALEASGKAAVADNKVVDV
+NVIEIEEKDGVLRPLRLRERIRAEGPTIDYAPGYRGLLGPFEAA
+>tr|A0A1Q9AII1|A0A1Q9AII1_9RHIZ
+MSIQASKAFEACEDSLPDVLMRIVSELHDVAYLIERIEPMLAHAHEEAILAAADRMKVLQ
+GIDLAVQKTRGIAEFIDTMTAGIPKSQLVDITTALNLMTLADMKAALSRGQVRHGHSQPL
+TNAAGDMEFF
+>tr|A0A1Q9AJQ6|A0A1Q9AJQ6_9RHIZ
+MKRFLPDSFTLMLVATVALASVLPVSGVMAGYFGTATNLAIALLFFLHGARLSRDVVVAG
+LLHWRLHLTIVLTTFAIFPLLGLAIGFVPASILPPELYMGILFLTVLPSTVQSSIAFTSM
+AGGNVPAAICAASGSNLFGMFLTPLLASLLLTTTGEAGFSADALEKIALQLLLPFVAGQV
+LEPWIGRWVRSHKKILTPVDRGSILMVVYAAFSEAVIEGLWHTYSIADLGVVLLINLALL
+AVVLCLTMFGSRLLGFSKADEIAITFCGSKKSLASGVPMASAIFAGQNIGAIVLPLMLFH
+QVQLMACAVIAARYARAAAAKDSAKAPGGAEAAA
+>tr|A0A1Q9AGL0|A0A1Q9AGL0_9RHIZ
+MVSARHLILLLGDQLSPEISSLRDADPARDHLLLCEVMEEATYVRHHPKKIGFLFSAMRH
+FAETLEAKGFSVDYVRLDDPDNSGSLAGEVQRALRRMRADRLIVTEAGEYRLAEAMAGWQ
+RAFNLPVEIREDDRFLCSKAEFAAWAEGRKQLRMEYFYRDMRRKTGLLMQGDQPEGGRWN
+FDADNRKPAAQAAGDLFSAPRRRSIAPDRITQEVLALVGARFSHHFGVLDGFDLAVTAED
+AVRLLDDFVTHHLPDFGDRQDAMLAGDPVLSHSLLSFYINAGLLDPLAVCRKVEAAYRAG
+RAPLNAAEGFIRQIIGWREYVRGIYWLKMPGYLDSNALEATRPMPAFYWTGETEMACIAT
+VVRQTRDLAYAHHIQRLMITGNFALLAGIDPQAVHRWYLEVYADAYEWVELPNVIGMSQF
+ADGGLLGSKPYAAGGSYINRMSDYCSGCGYDVKKKTGEGACPFNALYWDFLARQEARLKG
+NRRLATVYAAWGRMTEAQQAAYRQSAAAFLKALDALPAYGEG
+>tr|A0A1Q9AD10|A0A1Q9AD10_9RHIZ
+MKLLAVTILSCGLATGALAQSGTGNGGTTGTGGTTMGTDGTGTNEGGGTGSGTGTSGSMG
+SGSGTTGGTMGGNGTNMGTGTGGGGATGTSPDSGATGTKTDANRNCPEGNTSDDGVERNC
+>tr|A0A1Q9AIT1|A0A1Q9AIT1_9RHIZ
+MSVMIDTQETTQEDLHNGRSPWGLQHSPPQRRRLTDSMTTEVLIIGGGITGSLLAEHLVA
+RGHEVTLIDSEQPGLGSTAASTAMLQWEIDQPLHRLSELYGFDAAAEIYRKSFSAVQGLT
+RLVADSGIDCQFSPRATLYIAADGVDHRVLQAESALRARAGLPGEFVDGAHLQAHFDLRR
+DGAILSPGSADADPLLLAWGLLHRAERAGLRLIDAKAELFDADSRRVAVEMADGRVIEAR
+HVVLATGYIMPDFVKTELHSTVSSWALATVPQAPQGLWPGRPLVWEASEDYHYMRSTADG
+RIVIGGEDDDTQDPDERARKTAQKRDRLLQVLGELRPEANRQVTHAWAGAFGTTQDGLPL
+IGAVPGHSRIFAAYGYGGNGITFSYMASRMLAAEIAGKREAWFDGFALDRPVPE
+>tr|A0A1Q9ACI7|A0A1Q9ACI7_9RHIZ
+MVTKATRFQNRRTSTPGKVFTSTELLEAELGVNTADRKLYSKDAAGTVFQVAGQGGRNPG
+DYLQFENFDGAGLQGVAIKDGGRLWVKKDNAAVNDFADVWITRDIKTTTPGLGTAGQVSS
+TMRIDHAIRKPIDSFEWAFVVNMLYQPDAGAAARAGEHCAVYPRVEKRGDGRVWCVCSEY
+RDFTSNPTTGSVNMEVGCGATGPDPNNQRIGIHLVIGSANDTAGTNIVSDGIAIFAQPGY
+AQSKRHIRLQGQAGVGVDMRELDTVYSDIGVAMATNQFIKWSDTQSTPWRGSIGFSGINK
+TMALGGVPVNQGLVTEDRRLTLEINGVRYDINCGLSTTSP
+>tr|A0A1Q9AIX3|A0A1Q9AIX3_9RHIZ
+MPDHRNSKRSGVLRPGNVPIDPNSQVAAKLKAFYSAVEQEPIPDMFLDLLEQLDRAEKVG
+KS
+>tr|A0A1Q9AQG8|A0A1Q9AQG8_9RHIZ
+MVSPRQKKGQRVHKQDLQDSLVVSCQPVPGGPMDTAEAVVGFARAALAGGARALRIESVA
+YVRAVRAAVSAPIIGLVKRDLSDSPVRITPFLSDVEGLIEAGADIIAFDATDRPRPVPVA
+ELAAAVRAAGRLSMADCACVEDGRRALALGVDFLGTTMSGYTGGPEPVAPDLELIAAFRA
+MTPDVIAEGRIRTPEQAAAAVAAGAAAVVVGSAITRTEHATGWFLEAVTGAWRRRAAGDQ
+PVLAVDLGGTKTSLALVRGAEIVASRTFATERAAGPDAWLDAVAAEATRLGGSYGAVGLA
+VTGFVDRGTWSAMNPATLGIPEAYPLIAAAKARFDQPVMAVNDAQAAAWGEFRFGAGQAQ
+MHEPGSLADENGAESGTDLVFLTISTGLGGGIVAGGRLLTGLSGHFGILGLGSGGARPLE
+DEISGGFVAGQARAAGHALDAANVFAAAQGGAGWAEAIVQRSAARAALLTGDLQLALDPA
+VIVIGGGIGLATGYLDRLAALHAARPARQRPRLVPARLGAEAGLIGVAALARDRLA
+>tr|A0A1Q9AFN7|A0A1Q9AFN7_9RHIZ
+MSKVDLDISNLPDTTVSVREVFGIDTDLTVPAYSKGDAYVPDADPDYLFDRETTLAILAG
+FAHNRRVMVSGYHGTGKSTHIEQVAARLNWPCVRVNLDSHVSRIDLVGKDAIVVKDGLQV
+TEFKDGILPWAYQHNVALVFDEYDAGRPDVMFVIQRVLESSGRLTLLDQSRVIRPHPAFR
+LFATANTVGLGDTTGLYHGTQQINQAQMDRWSIVTTLNYLPHEKEVDIVAAKVKGFTAKR
+GRDTVSKMVRVADLTRAAFINGDLSTVMSPRTVITWAENAHIFGDIAFAFRVTFLNKCDE
+LERSLVAEHYQRAFGIELKESAANIVLEATA
+>tr|A0A1Q9AP18|A0A1Q9AP18_9RHIZ
+MTIEFSPLLPWIAIGALAALAALLAALGLVQRVRGTLVRAVALAVVALALANPILSQEER
+APLSTIVAVVVDRSQSQQSPERIRMTDAALQGLKDRLAQFPQIEARIVEAADDPDTESPS
+TRLFTALNSALSDVPPARVGGAIFITDGQVHDVPGINQPLGFDAPVHALITGRPDEFDRR
+VEIVSGPRFGIVGEEQVVTYRVIDDGPTPDGPAEVTISLNGQEIARQPVTPDTDIPFRFT
+VPRGGNNILEVAVAPLAGEVSAANNRAVHVLDGIRENLRVLLVSGEPHSGERAWRNLLKS
+DAAVDLVHFTILRPPEKQDGTPINELSLIAFPTRELFVEKIDQFDLIIFDRYQHRGVLPI
+IYYDNIAQYVEKGGALLIAAGPEHAGPDSIATTPLAAVLPASPTGSMTNEGFYPRLTDEG
+KKHPVTRGLEGADSEPPHWGRWFRTVDVDRPQGQTVMQAADGRPLLVLNRVGKGRVAMLL
+SDQGWLWSRGFEGGGPSVPLYRRMAHWLMQEPALEEEALTAHATGRMLEIDRQTIKGDPG
+PATVTLPSGRQETVTLGEAEPGLYRTRLQTAETGLFEIANGDLNTLVHVGAVDAPEFKAT
+VSTTALLQPWADKTKGLVHRVAGEGNQVDLPSILPVRGAVRVADAQRLSLRMTDETVLKG
+VTSLPLFAGFLGLAALLLVLSATWYREGR
+>tr|A0A1Q9AP08|A0A1Q9AP08_9RHIZ
+MHRLLITGAAGGIGRIMRQKLASLATIVRLSDISDLGEAAPHEEIMPCDLADSQGMRDLV
+DGCDGILHLGGMAGEAPSSQIVGINITGCLNLYEAARAHGMPRILLASSQHAMGFYRQDE
+QLDATMPMRPDGLYGLSKCFSELTAQMYFDKFGQETAIVRIGSCFEAPRDRRMLATWLSY
+DDFAALVRRVFKVPRLGCATVWGVSNNDARWWDNRTANFLGWQPKDNAADHRDRIEATQP
+MPDRTSRASIYQGGPFVEKPIVHDL
+>tr|A0A1Q9ADD7|A0A1Q9ADD7_9RHIZ
+MKPTLICLMITSPDGSLHPSRWTTSPDGTKADWHRLYEALHARHQGNAWLVGRTTMAEMS
+KAGPHPVADAPAPERPAHFADRTATSFALAIDRSGKLHFKEGTLYGDHLVVLLGPDVPDS
+HLAELAADGVSYLVSETSDMDVGAMLEVLNRELGIARILVEGGAATNGALMAAGLVDELS
+LVVAPALEARTGSDRVVEHGPEGLAGKASLSLIACEKLDHGAVHLHYKVLPPV
+>tr|A0A1Q9AGP8|A0A1Q9AGP8_9RHIZ
+MLGSFTFDEVDMDATTMVVIGTEQLSKKPRCERWQEANRDPTALRSADRGNILGTVSHMP
+KHFLGLASEPLPGKS
+>tr|A0A1Q9AGS2|A0A1Q9AGS2_9RHIZ
+MTRYLLDTNIISNVVKPQPSEQLLAWWAEQRDEDLFIASLTIAEIRRGILEKPRGKKRDA
+LDAWFTGAEGPQALFAGRVLPFDDKAGLIWARLMADGKAAGRPRSGLDMIVAAVAGANDC
+VVVTDNEKNFAGIKFINPMRNEAGEETA
+>tr|A0A1Q9ADB7|A0A1Q9ADB7_9RHIZ
+MSNSKGQREIRLNAFDMSCVGHQSPGLWRHPRDRSADYKTLDYWVNLAQTLERGKFDGLF
+IADVLGVYDVLNGNADAALRHSAQVPVNDPLQLIPTMAYLTEHLGFGLTASLSFEHPYPF
+ARRISTLDHLTKGRVGWNIVTSYLNSGALNIGQAGQRQHDNRYDLADEYLEVCYKLWEGS
+WEDGAVVRDRETGIFTHPERVHPIGHHGQNFTVPGIHLSEPSPQRTPLLYQAGASSRGKD
+FAGRHAECIFVAAPSKPVLKRYVANVREAAEKAGRNPRDILAFNLQTVILGETDAEAKRK
+FDEYRRYVSYEGALALISGWTGLDFGQFSPDEVLRHRQTNAVQSAVETFTTIDPGREWTV
+REMADWVGIGGFGPVFVGSPETVADLLQEWVEDTDVDGFNLAYAVTPETFEDAVNLLVPE
+LQKRGVYKKDYRPGTLREKLFGRGDRLAAPHPGAGYRDLARWAAQAAE
+>tr|A0A1Q9ADF1|A0A1Q9ADF1_9RHIZ
+MKALLCDEPGRLTLVERPKPARAAHEVLVRIRHVGICGTDFHIYAGKHPFLAYPRVMGHE
+LSGTVEEAPEGSALSAGDPVYIVPYLSCGTCHACRKGLTNACQNIQVLGVHCDGGMAEYL
+SVPAQNVIPTGAIPLADAAMIEFLAIGAHGVKRGGIGAEDRVLVTGAGPIGMSAIIFAKA
+RGADVTVMDTRADRLAFATDQLGADRSLMADDQAEATVQAITDGNGFDVVIDATGNAGPM
+QRGFAFLAHGARYVLLSVVRSDITFSDPEFHKREATLFASRNAQPDDFAEVVRQMEAGKV
+PTRALNSHTGRLSDAVSLFTEWSKPEAGVIKAILEV
+>tr|A0A1Q9ADZ1|A0A1Q9ADZ1_9RHIZ
+MTSIALFGAGGKMGYRLAKNLKGARFDVRHVEVSEAGKTRLKTDLGLDCLDQAQALDGAE
+VVILAVPDTAIGKVAAGIVDQLKPGTMVIALDAAAPFAGHLPARADLTYFVTHPCHPPIF
+NDETEMQAKKDHFGGLFAKQHIVSALMQGPEEAYALGEEIARTIWAPVMRSHRVTVEQMA
+LLEPGLSETVCASLLVVMRQAMDECVARGVPAEAARDFLLGHMNVLGAVIFKEVDGVFSD
+ACNKAIEFGIPALMRDDWKKVFEPQEIAESIRRIT
+>tr|A0A1Q9AMI1|A0A1Q9AMI1_9RHIZ
+MSPVRQILTRLVLGARRARAWTIAQLAFLPLVLMKLLPADTALNLMDWLARKIGPRLKRH
+RLIMINLRNAFPEKSAAEIEAIALESWGSIGRMAAEYVFLDELFDFDPDKPGGRVEVVGI
+PQFLELRDRPRPFIVFTAHTGNFEMLPVAGSAFGLDVTVLFRPPNNPYMAEKIFDFRQKR
+MGTLVPSHAGSSFALARQLERGGGIGVLVDQKFKKGLHTQFFGQKVQTNPLLAKLVRQFG
+CDVYPARCVRLPGNRYRLELEPPIAIPLKPEGAVDVEATAQLLNDKVEQWVREYPGQWLW
+YHDRWRIRRNLKL
+>tr|A0A1Q9ADP2|A0A1Q9ADP2_9RHIZ
+MITSDDLAFFAVLAQSRSLAESARKLNVTPPAVTQRLRALEEKVGVRLIDRSGRRLVLTE
+EGSLVASQGAIVSAAIEVLGEALADRRGAVRGHLRVAAPHGFGRLYVAPVVEAFARAHPG
+ATASLQLSDHPAALLIESYDVVVHIGAPGPMDQLVTTLAPNHRLLCASPGYLARAAPILS
+PADLARHRCLAIRENEEDVTLWRFTGPDGENATVRVTPTMASNDGAVIREWALADQGIMI
+RSEWNVVEDLAAGRLRQVLPGWRLPSADIVALLGARHGRSARTTAFLSLLRQSLKPLPWQ
+SMG
+>tr|A0A1Q9APQ1|A0A1Q9APQ1_9RHIZ
+MISRFFLCFAMMLMLAACASRPGPDVLAVQRINTRPPGARTVTVYVATMRERAKPNSNIF
+TNEPSDTLNYASFTISIPPKHKAGEIEWPKKDAVDPKTNFVMVAQQVLDRDSFYKAVSRK
+PPGGKPSHVGVFVHGFNTNFEEALFRQAQINADSDDGSRTPVLFSWPSQASITGYLADKD
+AATASRDGLTELLDTLGRNRAVNKVTLIGHSMGGWLSAEALRQLRLSRKTAIFSKLTVFL
+AAPDIDAQLFKAQLSVIGPLSPPMTVLVSKDDRALAASRLLAGQRGRIGALDVKDPRVQE
+AAQVGHVQIIDISSLSSGDSFNHNRFAQVSSLAPILVPVEAQPPGLTRGPGAFVLDTIGA
+TLNAPINLLNGE
+>tr|A0A1Q9ADP8|A0A1Q9ADP8_9RHIZ
+MNATEILEKLVSFPSVVGTPNAEIVAWIRAYLAAQGVAVTVLPGPEGDRSNLFATIGPVD
+VPGYILSGHMDVVPAEPSEWSCAPFQLKRDGERLTGRGTTDMKGYLATVLAAVPQLVAAR
+LQQPIHIAFSYDEEAGCRGVPHLLARLPDLCAPPLGAIIGEPSNMRAVLAHKGKAAARVS
+LRGRAGHSSRPDLGLNAIHAMADVLNAAVEQAAALAQGPFDAAFEPRYSSLQAGVVAGGK
+ALNIIPDLCTLELEARAIAGIDPAGLLAPVRARAEALQAQGFQVEWTVMSAYPALALGPD
+RPLAGLVAALSGQTPLGAVSYGTEAGLYQAAGVDAVICGPGDIGRAHKPDEFILESELAA
+CQRFIEALGARCAA
+>tr|A0A1Q9AFH4|A0A1Q9AFH4_9RHIZ
+MPAKIVAPPASPVRKSLTHRTISSAVMEALRERILDGSFEGGMQLRQDALAEEFGVSRIP
+VREALMQLEAEGLVKILPHRGAVVSELSLDEINELFELRSLLEPRLLRLSAPKLRAEDFA
+ALDAILAEFEAESAAGHSRRWGPLNNALHMRLYAHAERPRSLALVSNLLQECDRHTRLQL
+SLSGSMERAQAEHRLLVKLCAAGRIGEAVTLLSEHIAHAASSLAEFLSARQG
+>tr|A0A1Q9AM77|A0A1Q9AM77_9RHIZ
+MADGFTRGLWVYLAASPLLWLTVTLMVWLLALRIAALSPRNPLLNPVLLSVAILVALLLA
+SGIRYDSYFAGAQFIHFLLGPATVALGIPLYEKLALVKANLVPMLVALVAGCLTAVGSTL
+LLCHVFGFPPVITASLAPKSTTAAVAMAISAGLHGDPALTAAVVILTGITGAIIVTPLMN
+ALRIRDYSARGFAVGLASHGIGTARAYAVDPIAGLFSGLAMGLNAILTALVVHLFF
+>tr|A0A1Q9ANB2|A0A1Q9ANB2_9RHIZ
+MANRKIKAELEFQGRDNSGPAFRSVALRMGQVERQMAQFNRTAASMDRRIGEITKRTGAV
+QRAAQGVETAMSGVKTGLGALAAYGVGKGIKDAVFDFAAAERQMTRMGTTSGATAEEMES
+AFADMQRIAKDLRYDSVAPAVEAMDTMVASGKSIKESLEFLPSVLATAQASGAATNDIAN
+TGLKTASALGIEARNMQDAFDVMVTGGKAGQFELKAMSQYIPGLANSFASLGYKGESGLK
+QLVAILQTIREDTGDDSSAATYAQNVFAKIYSTDNIKKFKDLGIDLNKELDDAARNGEDV
+VSAFTRISNESIKGDLKKLPQLFTDEQFRLGMQSLITSQDSLKRFLEAMNAPDVKGTVWR
+DVQRVMHDTQASIDALSNSWSQLKTAFGKGVAINGGTEAIDALTGVIDYHTAVNRGLEKN
+GVNGFWNRTKFGLTSDQIEKDRMAIAGGYKDPAFVEDYNKRIYEAQRAKPSVGRHSSSTP
+VPAKPEVNPAFLSPDAGQAIQRFFSPPSADQVRDALKIVPGKGEREWERAGENLAEGGRE
+AGKHIDDSASAFRVAGYDVAAAISRAAQALLQAGRSSMAFNSDGSSYRPRVNADTGRSMP
+PTTFGPAGGR
+>tr|A0A1Q9ACB0|A0A1Q9ACB0_9RHIZ
+MDSKITNSILYLDNVSVSFDGFRALNALSFVIEPGELRAIIGPNGAGKTTMMDIITGKTR
+PDQGEVYFDGAIDLTRKDEAEIAQLGIGRKFQKPTVFESHTIWDNLELALNRKRGVFSTL
+FYRLTTEDKARIEHILETVRLTARKNDYAANLSHGQKQWLEIGMLLAQEPKLLLVDEPVA
+GMTDAETSETALLLKDIAKTRSVVVVEHDMGFIRDLGVKVTCLAEGSVLAEGSIDFVSND
+PKVIENYLGR
+>tr|A0A1Q9AHY5|A0A1Q9AHY5_9RHIZ
+MSKPAQSTPSSPQAPLDRSDVRMRHDDSIADMLRASLDKIRSGDLGMLPVVIGLIVISVV
+FSVLNPVFLLPNNLVNLLFDCATVGIISLGIVCVLLLGEIDLSVGSMSGLASAMIGVLWV
+NLGLPLPVALFAGLAAGACVGALYAVLYNRLGMPSFIATLSGLLALLGLQLYILGPTGSI
+NLPFASVLVRFGQIYVMPGWLSHLLALVPGAVIVLRGLRTRAGRQAAGLSAPPLSALFLK
+AGLLTVGLEFAVFYLNIGRGVPWMFGLLIALVVLLDYALTRTQWGRSMFAVGGNREAARR
+AGINVRRVYMSAFMLCSTLAALGGMLSAARLASSSQQAGTGDVNLNAIAAAVIGGTSLFG
+GRGSAYSALLGIIVIQAISNGLTLLNLSSSLRYMITGAVLAIAVIVDSLARRSRVSHGRA
+>tr|A0A1Q9AG03|A0A1Q9AG03_9RHIZ
+MPMSPGDIEDMIKAGIPGAAVTIRDLAGDGDHYAAEVVAEAFRGKSRVQQHQMVYKALQG
+NMGGVLHALALQTSVPD
+>tr|A0A1Q9ANQ1|A0A1Q9ANQ1_9RHIZ
+MQSNLSVLLRNPLAGVFVVLVVIFVLSSLISPYFLTSYNMTVLARGLAFVGLVTIGQSML
+MVLGELDLSLGVNGGLCGVMAGVFMVQLGFNPALALGLAIAFGAFLGLINGLLVTMLRLH
+SLVLTIGTAGIFGGANLVLTRGVAITGIPTSVQFLGRGDVLGIPVPFVIMLAALFIAGFV
+MLKTPFGRYMYAIGNNPQAARMLGIKVDRVRLILFVVAGALAGLAGVLMVARLGTAQPSI
+GDTWVLAPIAASVIGGVATTGGVGSPIGAIFGAGIIAMIENIIVLFGVSPYWQGIVSGAI
+VVLAISFDAISRRYLRRDLA
+>tr|A0A1Q9AL60|A0A1Q9AL60_9RHIZ
+MTQPDLTILVIDENAIRSSIIEEGLREAGHLRVTVIHEVSGVARVIETLQPDVIIIDIEN
+PNRDMMEHLFQLTRMVSRPIAMFVDRSDTAAIEQAVEAGVSAYVVDGLKKERVKPILDMA
+VSRFNAFSRLQRELADAKSALEARKVIERAKGILMKMRGLSEEEAFALLRQTAMNEKKKM
+VEIAQSVVTAAGLLM
+>tr|A0A1Q9AMW8|A0A1Q9AMW8_9RHIZ
+MRSSVEIHDVDSGETQVVFQTDRLIEAPNFTPDGSALIVNGNGRLYRLPLAGGGLEAIDT
+GFAVTCNNDHGLSPDGAWLAISDKTEHGKSCIYILPSAGGTPRQVTTNLPSYWHGWSPDG
+QRVAYCGIRDQVFDIYTIGIDGGPEMRLTHGEGRNDGPDYSHDGAWIYFNSSRSGRMQIW
+RVRSDGSAVERITDSPYGDWFPHPSPSGRHLLVLSYDGDVFDHPRDLSVRLRLMRPDGSD
+ARELFPLFGGQGTMNVPNWSPDGRRFAFVRYSPA
+>tr|A0A1Q9ANI2|A0A1Q9ANI2_9RHIZ
+MTLPAVGSPAPDFTLPRDGGGTISLADHRGRHVVLYFYPKDDTSGCTVEAIDFTARAPDF
+EAAGATIIGMSPDPVKAHDKFIKKHNLGIALASDEEKTTLEAYGVWVEKSMYGRRYMGVE
+RTTILIAPDGTVARVWEKVKVPGHVEEVLQAVKAAG
+>tr|A0A1Q9AN07|A0A1Q9AN07_9RHIZ
+MTVLRERVTKRTWQAKAGAVALVGLVLTGCGTQAKNDTFSLSAMPAIEGPASTRRQILVP
+EPTAIKAIDSENIVVRLKGSELQYLAQSQWSDRLPRLVQAKLVQAFENTGKVGGVGKPGE
+GLAIDYQVVTEIRTFEINTVGGSHATVEIFAKILNDRNGTVRTQKAFRATVPIRGSDHAG
+MVAALDGAFAKVAADLVAWTLVSI
+>tr|A0A1Q9ADF9|A0A1Q9ADF9_9RHIZ
+MTLFSQAFRPVGSAKVDPVLIALWVSLILLALIWITPFVFIVFTALKSNATVMGASAFMP
+PTELAFENFAAAWWRGNFSTTAFNGVVITVIKVPLGLFISAMAAYALAKVPMRMNKALFA
+LFLFGTMLPFQVMLAPIFRQVNAFGLINTYPGIILPYLAFGIPYQVFILYCFFSAVPKEL
+SEAARIDGASHFTIFRRIFLPISLPVLSALLILDFVATWNEFAMALVILQDPKMWTLPLG
+LMSFQSQFSSDYGELNAATIMTVLPAAIVYLMFQRYFVAGLTSGAVKE
+>tr|A0A1Q9ADS4|A0A1Q9ADS4_9RHIZ
+MTTGLDTPVLSRREWLLSDRPASRLQAQLGRAYMVWLRFSANRLALAGLGIILMLIVVAL
+FADVLAPHNPVQGDLRNARLLPPGTGSYLLGTDDQGRDILSRLIHGSRLTLAVVVLVAII
+AAPLGLLVGTVSGYAGGWVDAVLMRITDIFLAFPKLVLALAFVAALGPGIENAILAIALT
+SWPPYARMARAETLGVRHSDYIAAVRLMGASPFRIVLRHVMPMCLSSLIVRVTLDMAGII
+LTAAGLGFLGLGAQPPLPEWGAMIASGRRFILDQWWVATMPGIAILIVSLGFNLLGDGLR
+DALDPREAGQ
+>tr|A0A1Q9AM56|A0A1Q9AM56_9RHIZ
+MGNVAYDVAVVGAGFSGLSAARICQAAGLSVVVLEARDRVGGKVERHEDQTGRLWDGGGQ
+FVCQDMTELNALVRDLGFDTAETRLSGAYRFHPPHSEALVEAADTASQALRARLRMLDPE
+DPALSGLSVADWLQSRPTTELGKQAFRSMIEGLWCRPLREIPLWFLASNDRRNTNEENEL
+ARFLPAGMQALAEAMAEALGPGTVRLRQRARAIRRGEGVSEILMDQGEALSARQVIVALP
+PVVARALAFEPALPPALQGALAAWSSASVVKLMLRYATPFWRSQGASGMVTAPGFGFFSC
+DGGLASEPEGRLIVFLGGPLARDWQGRDAAGQRTLVLERLSVLGPDAAHPLEIAARPWMD
+DPLSSGGYGDVITDKTARDAERLLRAGAGDLHFASSELAMAFPCYIEGALLAGRAAAAAA
+VSALATLAGETGR
+>tr|A0A1Q9AG45|A0A1Q9AG45_9RHIZ
+MSVNFGHLQGISPELYRLGTLAERFFAEDANTSLIKSRQFGEYMVKEIAALSGVYDSAAR
+ETTHDLLRRLTTQQVLPREVADVFHAIRKRGNDAAHSMAGSPAEALAALKFCHALATWYR
+RSYGRDPGFRPAPFVPPRPSGDIDRETKSELEALRAQVREAEAQLAAARASADELARARA
+AAEALAAQATADSASWEQTAVAMEANQAALSRKLAELQKAAEAQPEQIQMQFKQAGLEAA
+SRLELDERQTRRLIDVQLTDAGWEADSDRITHRKGARPEEGRNLAIAEWPCEGGRADYAL
+FVGLACVGVIEAKRASVDVPSSLQQAERYARMIALAPEEIHPHGPWKHGLDDPFRVPFIF
+ATNGRPYVRQWLTKSGIWYRDVRRETNHAIAMTSWFSPKDLIDKLTTDVGSAAQGLADES
+FGKGRMRPYQEEAIAAIEDAVAAGQRDILISMATGTGKTRTAIALMYRLLKHKRFRRILF
+LVDRKALGRQTSDALETTEIEGMLNFAQIYKVAGLEQKLPEDEDQVQVATVQSLIARILN
+EPDPAKRPTPGTFDCIIVDEAHRGYTLDAELRETDIGFRNIDEYQSAYRQILDYFDAVKV
+ALTATPALHTREIFGHPVFHYGYRQAVVEGYLNDHLPPRRITTALSEAGIHFDGGEEVEI
+IDRKTGQIDLFELPDEVSLDYDLADFNRRVYSESFNRIVCRAIATEIPPSRPGKTLIFAA
+RDAHANDLVQLLIQELQDEYGKENVPHGMVTKITGAVDKVDDLILKFKNDPYPKYVVTVD
+LLTTGVDVPKICNLVFVRRVKSRILYDQMIGRATRLCPDIDKEYFRIFDAVDLYAELQEM
+SDMRPVVVKPDIALGQLVSDLEKAETQEDKSWVAAQVIVRMRSLVKRMDAETRESFERHT
+GESPESALQHLATRSGAELAGWLSAHPRAVELLERRPLRLDRNDGVVISTHEDELLRIEE
+IFGRNTTPEDYITGFERFVRENMNQVPALIAVTQRPRDLTRKELSELAGLLDEKNYSEAM
+LRAAYGRARNADIAAHIIGFVRQAALGDPLIPYATRVDNAILKIEASRPWTQKQKEWLRR
+IGRALKDKPVADPTLLDQGAFADKGGFKRISQEFDGALDEVLHAFNEAIWAPPAA
+>tr|A0A1Q9ADY6|A0A1Q9ADY6_9RHIZ
+MTSSLRLSLLALAGLIAAAPAHADDLTVYSGRGEAFMAPILKVFEEQTGIKTKARYGTTA
+ELAALLREEGAKSPADVFIAQDAGALGATADLMEPLPAGLFEGQMAAYRGGNDSWIGTSG
+RARTLVYSSERVAADKLPQSVYDLVKPEWKGKVGFAPKNASFQAFVTAMRVKDGEDKARA
+FVKGLVDNGARTYANNVSQVQAVADGEVDVALVNSYYLTRFKLRDAKFPVSQTFFAKGDI
+GNLLFVSGAGVLKASDDKSDATKLVEFMLSPVAQQYFSASVGEYPVIKGVIANDTLGPVA
+KPEDFAPDVKLEALNDTEGTKKLLTELNLL
+>tr|A0A1Q9AJ73|A0A1Q9AJ73_9RHIZ
+MPVEILMPALSPTMEEGTLSKWLKNEGDKVTSGDVIAEIETDKATMEVEAVDEGVIGKLL
+VAAGTENVKVNTPIALLLQDGESADAAAAPKADADTPAAAADSTGGKAREAAAETPVAAK
+VPAAPKVDVAADPDIPAGTEMVPTTVREALRDAMAEEMRRDPDVFVMGEEVAEYQGAYKI
+TQGLLQEFGDRRVVDTPITEHGFAGVGVGAAMAGLKPIVEFMTFNFAMQAIDQIINSAAK
+TLYMSGGQMGAPIVFRGPNGAAARVGAQHSQDYAAWYSQIPGLKVIQPYTAADAKGLLKA
+AIRDPNPIIFLENEILYGQTFDVPKLDDFVLPIGKARIHRPGKDVTIVSWGIGMTYVVKA
+LAELEKDGIDAEVIDLRTIRPMDLPAVIESVKKTGRLVTVEEGFPQSSVGDFIANRVQQE
+AFDYLDAPVITIAGKDVPMPYAANLEKLALPNVGEVVQAVKAVCYK
+>tr|A0A1Q9ANK4|A0A1Q9ANK4_9RHIZ
+MRQRVLPGLPLSLGLTLLYAALIIALPILALVFKAASLGPAAYWQIVSSERALASYRVTV
+ACALAATAFNLVFGLALAWVLVRYRFPGRRLLDAVVDLPFALPTAVAGIALTTLFAPGGW
+FGHVLDPLGIRVAYTPLGIIIAMAFTSLPFIVRTVQPVLEELDPALEEAGLSLGASDREV
+FTRVVLPLLAPAVLAGLSLSFARSLGEFGAIIFIAGNQPMSTEITALLVFIRLEEYEYQA
+AAAIASVLLITAFVMLAVTNLIQRRALRYLQKD
+>tr|A0A1Q9APP0|A0A1Q9APP0_9RHIZ
+MAKHSDGPAEIGAPMDYAEHEKTYSGFLAATKFLTIFCVALLIAMAALFFTNAGAITAIV
+LFILLNVAGHYLMR
+>tr|A0A1Q9ANP1|A0A1Q9ANP1_9RHIZ
+MSEDIGLWGVPLAILGGAIRVSTPFIFVSTGECLTERSGRINLGLEGTLVFGAMSGYAVA
+YHTGSPWLGTLAAAFAGLLFGLLHGVLCSLPRVNDIAIGIALMIFGTGLAFFFGKPYVQP
+VAPHLPAIPLGFWSPLPQVQAALNVNVLFLAGIALAFATAWMLKNTRIGLTIRVAGDSAD
+AARALGIDVNRVRLWSTAAGGALAGIGGAYLSLYYPGSWNEGISSGQGLMAVALVIFARW
+NPVNCLYASLLFGGAGALGPALQSVGITSGYYLFYAAPYVLTLGFLVATSSRTRALPSAP
+GELSIIK
+>tr|A0A1Q9AFR6|A0A1Q9AFR6_9RHIZ
+MCGIVGIVGSEAVADRLVDALKRLEYRGYDSAGVATLVNGKLGRRRAEGKLVNLERRLAG
+EPLAGTIGIAHTRWATHGAPTENNAHPHFVDGIAIVHNGIIENFAEIKQELIAEGATFQT
+QTDTEVAGQLLARLIRDGMTPKEAMQAMLKRVTGAYALAVLFESLPDTIMAARNGPPLAI
+GHGNGEMYLGSDAIALAPFTNEITYLTDGDWAVLTRDGVVIFDGEGRAVSRPRTTSMAAA
+FRVDKGNHRHFMEKEIYEQPEVISHALSAYIDFIGNKVSPAATAIDFSAVPSLAISACGT
+AYLAGLIGKYWFERYARLPVEADVASEFRYRNIPLPKEAAAFFISQSGETADTLASLRYC
+REQGLTIGAVVNTRESTIARESNAIFPILAGPEIGVASTKAFTCQLTVLAAMAIGAGRMR
+GVLSEAEEQALVRHLAEMPRLMASVLRSVQPQMEGLARELSRCRDVLYLGRGTSYPLAME
+GALKLKEISYIHAEGYAAGELKHGPIALIDENMPVIVIAPYDRFFEKTVSNMQEVAARGG
+KIVFITDEKGASACDLATLATIVLPSVDELIQPMIFSLPIQLLAYHTAVFMGTDVDQPRN
+LAKSVTVE
+>tr|A0A1Q9ADI6|A0A1Q9ADI6_9RHIZ
+MRPQASVAALLEDLSRQEIRVWAEGDRLRCAGPQAALTPELSERLRRLKADILTHLARET
+EGTTIPARNDPAPPLSFAQERLWFMERMMPEAGIHHMALAAEALGPLDLDRLAQALAAVI
+RRHAILRTRIGLQDGAPVQVIEAAGPAGCLSVFQVIDRRDRPLSLQERESLLHAEARRAF
+DLARQSPLRLSVVRLAPERALILLTLHHIAGDGWSLEILLRELADAYRHKGQETKPPLPI
+QYGDFAAWQRDHLAGPAAEPALAFWQQHLAAPLPATRLAGDFPRPAVQAHQGALEPVKIG
+RETADRLRALSSATGATLFATLFTAFAVLVHRLTGQTDLVIGTPVANRRHIETEGLIGLF
+VNPLPLRLRLRPAEPFRESLRRTQDTLWQVLAHQDLPFERLVEIANPARDPSMHPLFQLK
+FQLDAPSPDTIDLPGVTLTRLARADGIAKLDLSLNLQETGAGLHGAFEFDTALFRPQTVA
+ALARAFETLVEGLAAHPETVLATLPLLSADDHARQIRSWNATQTAYDRAAFFPALFEAQV
+ERDPDAIALVQAVDGQRRTESYGALNRRANQIAHRLRAQGVGPEQVVAIALERGFDMVAA
+WLGVLKAGGAYLPLDPAYPPGRIADMLEDSGATLVLTTSAIPLPDPLPSTARRIDLDLDW
+PQDASTEDPVSVSHQGDLAYLIYTSGSTGRPKGVMVEHRGLVNLVKDKIRVCAVGPDDCV
+LQFFSFSFDASIPEMVMALSAGARLVLLAPDEVLPGPALARRIEEERVTHLTMTPSALFA
+LPAGAYPALRLVLTGGEAPTPELIARWGAGRRFINAYGPTETTVNASMVACAAGEMAEAV
+LRPAANKQLYVLDAHLEPLPPGVPGELHIGGLGIARGYHKRAALTAERFVPDPFATKDAP
+GLLYRTGDRACQLPDGRIRLLGRMDDQVKIRGYRIEPGEIEAMLLAHPQLAAAAVTVREL
+EGEKRVLAYAVARDEDGLDPLALRAWLAQRLPRYLVPDAVIPLERLPLTVNGKVDLAALP
+VPATLGEGTGRPPRGAMEEAIAACFSAVLGDRPVAATDDFFAIGGHSLLATRLCALAKER
+FGLEIAILDLFNAPTVEALAHHLAGGQDRAIADAPELEQDIRLDPAIRPAATEAGLYPPR
+TVLLTGATGFVGAYLLQALLRDPAREVTCLVRGADGLERLRRALSAYGLWQQDMAARLRV
+VAGDLASPGLGLSRQETARLAESVDAILHNGAEVHHLYPYQRLRAANVLGTAELLRLAAA
+GRGRPFHLISSLSALTRKGAGGPIRESDPVTAFPPPAGGYNRTKWASEHLVEAARARGLV
+ATLYRPGAISGASDSGAFNADDILCRMMQGYLHSGAAPEGETLLAMLPVDYLARAVVWLM
+DRPDAAGQTFHLLHSTPVSSARLFEAAAQEGLDLKRLSRPEWRALLAQIAREDATHPLAP
+LMGLLEQDVTGEDGPGGNGARPIDHARTRAALAEAPFAEPPLDTALLRLYLRAFLRAGAL
+DPSRKEEHRHG
+>tr|A0A1Q9AKK1|A0A1Q9AKK1_9RHIZ
+MDSKRNRATSRGTGLVDIHVGERIRIRRLALRVSQGDLGAEVGVTFQQIQKYELGTNRVS
+ASRLQKLAEVLGVSVSYFFEDLPGQGEQAAENWKAEERHRILPTLEGIRFNQAFLQIQST
+EVRRRIMALMKALATEDEQDDRPLQ
+>tr|A0A1Q9AFA6|A0A1Q9AFA6_9RHIZ
+MTMTPSLPDRLQRYRDDLEVIEKDEPETARALAETMMSIAYKTYEDGGHAIRTVHAKSHG
+LLEAEVEVYPDLPAPLAQGIFARPGRYRAIVRLSTTPGDILHDSVSTPRGFALKILDVEG
+ERLNPEEDSRSQDFVMANGKQFNAPSAKAFLKNLKLLAATTDRAEGLKQTFSKVLRGVEG
+LVEKLGGESAALKALGGQPETHILGESFFGQLPMRYGDYVAKLAIVPVSPELTALTGTHL
+ELDDDKDALRHAVEEFFRMNGGTWELRVQLCTDAERMPIEDASAAWSEEESPFIPVARIH
+AEPQTAWSEEKALSIDDGMSFRPFNGLSAHRPLGSMMRMRKLAYRRSAGFRSERNEPGID
+ELSKTGEALHPDVARRVTTPSQAPIAAGGVAR
+>tr|A0A1Q9AF22|A0A1Q9AF22_9RHIZ
+MADAHEVARDQLRSFIERIERLEEEKKTIADDIKDVYGEAKATGFDTKILRKVIQIRKQD
+KDERAEQEAILDTYLAALGMIELPQDDD
+>tr|A0A1Q9AF60|A0A1Q9AF60_9RHIZ
+MSISADPEGLRRAKLAASAHAIITLVTNGDYAMGATALLHSLRQTGTPADLVVLHTGGVE
+PDALTPLAALGARLIACDHLPLSDGFNARHARGALHGAAPFTKGRKPLFHSPLDNFCKLR
+LWQLTEYESVIFLDADTLVLKPIDRFFAYPEFSAAPNVYQSLADFHRLNSGVFVARPSDA
+TFARMLARLDQPDAFWPRTDQTFLQSFFPDWHGLPVTMNMLQYVWFALPDLWDWASIHVL
+HYQYEKPWETDHPKSAQLKPLIDLWHRVHKGEPIGDLALLPQPGAKADGHQAAAS
+>tr|A0A1Q9AFL2|A0A1Q9AFL2_9RHIZ
+MIRVGENAWRSVKAERLAFLIDAARYYQVLDESLRRAEREILIVGWDFDPDICLRPDLPD
+SPTLGTILESLVDANPLLQVRILVWAMGPIYSGKSLKLFRRSGWPQHPRIELRFDGRHPI
+RGSHHQKMVSIDDRIAFLGGIDLTARRWDDDRHLPDNPLRVTPKGEAYEPVHDMQAMLSG
+PAAIGVGDLIRLRWRGAVGPIEAPGLAAPDAVEAADIWPDSIKPDLTDCRVAIARTEPDG
+PDHDGHQESISLLKDALKAARKHVYIEAQYLASFGIADIIARHLENPEGPEILIVVSRIS
+HGFIEKIMMGNNRDRLIRQLKRRDPYDRFRVMYSVVPKAGGGEQEVLVHSKLVVVDDVFL
+RIGSSNLNNRSEGLDTEADIAVEAVSETHRQAITALRDRLLAEHLDVTPEAVSRSIAETG
+SLLDGVEAVNHNLRGLRHFDVDVAKGAVDPIPGTAIVDPHRPFRPVKAVLTGMSQLARKL
+RTAVF
+>tr|A0A1Q9ACI8|A0A1Q9ACI8_9RHIZ
+MKPLSLPKIEPDVIEDVLAWHGGDARTAIFALLNDCQHLRLQLALTEAAASSGFTRGWRP
+RFDRQDNA
+>tr|A0A1Q9ACX7|A0A1Q9ACX7_9RHIZ
+MPFKVAIIGAGWYGCHIGSSLASLGFEVKIFEAERRTLHCASGNNQFRLHMGFHYARHHG
+TRQQSRDGFLRFLERYPDLSAPIEQNIYAVPNRDSLMDFPTYKMIMASSGIDFIETTQTK
+PWLDNISGAVLADERVLMIKHAREHFEQRLANILQLNARITSLKRFDTHVEVDGERFDYV
+IDATWGHFSDIPRDIFFEPTMLLYYEATAPHPAITLVDGPLCSVYPTEDPSIFTLSSVVH
+TPLGQYASSPEAWAKLHSVDGELVAMKRAAMEEQIRRYVPHFSDAFRYSGVQLAIKTKPA
+GKEDDRSCAIYRDGRMFSVLSGKIDTIFYATERILSLLEENNSKGPVARSFAIRDDILMP
+GLVGASK
+>tr|A0A1Q9AIX4|A0A1Q9AIX4_9RHIZ
+MPTTFNAFASGAELAGALAERVAAALRDGIAARGAASLAVSGGSTPKAFFAALSGHALDW
+QKVTVTLVDERFVPPDSDRSNHRLVAENLLQNEAARAHFVPLYHPAENVEIAAAEASIET
+AAIAAPFDVAILGMGGDGHTASFFPGGSRLSEALAADTPRGVITMTAEGAGEPRLTFTFS
+ALNDARLLVLHIEGEAKKTVLAAAQAEGEETEMPIRAVLRRAISPVEIYWAP
+>tr|A0A1Q9AL41|A0A1Q9AL41_9RHIZ
+MTTRRKPLDRHRRIVIKIGSALLVDRATGLKAAWLRSICADIAALRKAGVEVMVVSSGAI
+ALGRSVLNLAPGTLKLEESQAAAAVGQIALARAWSECLSADALVAGQILLTLGDTEERRR
+YLNARATLNQLLKLGAVPIINENDTVATSEIRYGDNDRLAARVATMAGADLLVLLSDIDG
+LYTAPPHLDPKAEFLPLIEAITPEIEAMAGGAASELSRGGMRTKIDAGKIATTAGCAMII
+ASGKVDHPLRVLGEGARSSYFAPSRAPVTARKTWIAGQLQPAGRITVDAGAEAALKAGKS
+LLPAGLSEVSGSFSRGDTIAIHGLSGRELARGLAGYDADEMRQIAGRRSGEIAEILGHAG
+RSAVVHRDDMVMTMAHATSISAHERSPADA
+>tr|A0A1Q9AFJ3|A0A1Q9AFJ3_9RHIZ
+MDIEKYSERVRGFLQSAQTYALAQGHPQFVPEHVLKVLLDDDQGMASSLIERAGGRVRDA
+KVANDAALAKLPKVSGGNGGISLSGPLAKVFTTAEEAAKKAGDSFVTVERLLLAMAIESS
+AATAQILSKAGVTPAGLNQAINELRKGRTADSANAEAGFDALKKFARDLTADAREGKLDP
+VIGRDDEIRRTIQVLSRRTKNNPVLIGEPGVGKTAIAEGLALRIVNGDVPESLKDKRLMA
+LDMGALIAGAKFRGEFEERLKAVLSEVQAEAGEIILFIDEMHTLVGAGKADGAMDASNLL
+KPALARGELHCVGATTLDEYRKHVEKDAALARRFQPVMVEEPTVEDTISILRGLKEKYEQ
+HHKVRISDSALVAAATLSNRYITDRFLPDKAIDLMDEAASRLRMQVDSKPEELDELDRRI
+IQLKIEREALKKETDRSSRDRLEKLERDLTELQEQADALTARWQAEKSKLGLAADLKKRL
+DEARNELAIAQRKGEFQRAGELAYGEIPRLEKELADAEGQDGATANPMVQEVVTPDNIAH
+VVSRWTGVPVDKMLEGERDKLLRMEDDLAKWVVGQGDAVQAVSRAVRRSRAGLQDPNRPI
+GSFIFLGPTGVGKTELTKALARFLFDDETAMVRMDMSEYMEKHSVARLIGAPPGYVGYEE
+GGALTEAVRRRPYQVILFDEIEKAHPDVFNVLLQVLDDGRLTDGQGRTVDFRNTMIIMTS
+NLGAEYLTSLGENQDVDSVRDQVMDVVKAAFRPEFLNRVDEIILFHRLRRSEMGAIVDIQ
+LARLRQLLADRKITLELDSDATTWLAERGYDPVYGARPLKRAIQKFVQDPMAEKILSGDI
+PDGAHVKVTSGSDRLLFRTSGAGEKVAA
+>tr|A0A1Q9AE85|A0A1Q9AE85_9RHIZ
+MATATPLYETYMRAPLRFERGEGVWLIAENGSRYLDFAAGVAVNSLGHAHPHLVEALKDQ
+ADKVWHLSNLYEVPGQEKLAGRLTAATFADKVFFTNSGAEALECAIKTARRYHYSKGNPD
+RSTIITFEGAFHGRTLATIAAGGQAKYLEGFGPKTPGFVQVPFGDLEAVKAAIDENTAGV
+LIEPIQGEGGIRVASREFIQGLRALCDETGLLMILDEVQCGVGRTGKFFAHENYGITPDI
+MAVAKGIGGGFPFGACLATADAASGMVPGTHGSTYGGNPLAMAVGNAVLDVVLGEGFLEQ
+VRDTALVLRQGLASLADRFPDVIEEIRGEGLMLGVKARVPAAELLGAIRAENMLAVPAGE
+NVVRILPPLITTAEEAREGLNRLEKAASRLQAAQPMRATA
+>tr|A0A1Q9AMY9|A0A1Q9AMY9_9RHIZ
+MRLSKRFAMAASAALLALSAGSAMADGEKIVIATEGAYPPFNVLAADGTLSGFDVDIARA
+LCTQMKADCTFVTQEWDGAIPALTAKKFDAFIASMSITAERKQKVDFTDKYYNTPPAIAV
+PKDSKITAATGDAFSGKTLGAQSSTTHSNYAEAHLKGADLKLYPTADEYKLDLANGRIDG
+AIDDVVVLSEWLKTPDGACCKLLGTLPIDPVINGEGAGIALRKGNDALREKFNAAIKAIR
+ANGEYKKVNDKYFTFDAYGN
+>tr|A0A1Q9AHT6|A0A1Q9AHT6_9RHIZ
+MTDKLQGKVVVITAAGQGIGRASALAFARAGATVHATDVNEAALSSLAEEASIKTRKLDV
+LDGAAVSAFFAETGAVDVLFNCAGVVHNGSVLEITDKDLDFAFDLNVRAMISTIQAVLPG
+MLERGEGAIINMASVASSVKGVPNRCAYGLTKAAVIGLTKSVAADYVAKGIRCNAICPGT
+VESPSLEGRMRAQGDYETARAAFIARQPMGRLGTPEEIADLAVHLAGATYTTGQAYCIDG
+GWSL
+>tr|A0A1Q9AN03|A0A1Q9AN03_9RHIZ
+MTKTTPESDGASAVKQVNQRGAARLAAVQALYQMDVGGTGVLEIVAEYETHRLGQDIDGE
+TYLKADAGWFRSIVSGVVRDQRTLDPMIKAALQDDWALSRLDSTVRAILRAGTFELVERR
+DVPVAVIITEYVEIARAFFEDEEPRLVNAVLDRIARQFRTDVRK
+>tr|A0A1Q9ADS9|A0A1Q9ADS9_9RHIZ
+MINHFAPARRRLLCAVFGLSAALFLPLGMLPAEAAPKTSLVLGMNPEPQGLDPTIAAPVA
+IGQVTWQNVFEGLVAIDRTGKVVPQLAKSWDISADGLTYTFHLQEGVTFHDGEPFDSAAA
+KFSLDRARGKDSVNPQKRFFAAIDTIETPDASTLVLKLKTRNSSLLSWLGWPASVMLGPK
+SAADAKTKPIGTGPFKFVSWAKGDRVELAANPGYWNKAVKLGLDKVTFRFIGDPQAQAAA
+LKSGDVDAFPEFAAPELMESFKGDEKLATVIGNTELKVVAGMNNARKPFNDKRVRQALMM
+AVDRATVIEGAWSGLGQAIGSHYTPNDRGYIDTTGVHPYDPAKAKALLTEAGYPDGFSFT
+IKTPQMAYAPRSAEILQAMFAEIGVTMTIEPTEFPAKWVQDVFKGTDYDMTIVAHAEPMD
+LDIYARDPYYFNYKNPAFNDVLAKIEQTTDTAEQDKLYGEAQTILADDVPALYLFVLPKL
+GVWNAKLKGLWENEPIPSNVLTDVHWEE
+>tr|A0A1Q9AFA0|A0A1Q9AFA0_9RHIZ
+MIGKLKGTVDEIGEDHVVVDVHGVGYVAHCSARTLSRLNTGEAAVLFIETYVREDQLRLF
+GFLSTLEREWFRLLQSVQGVGSRVALNVLSVLTPGELANAIALQDRTAIARAPGVGPKVA
+LRIATELKSRAPAFAGETEAATIGFKQELGEGVASAPVSDAVSALTNLGYSRDQAANAIA
+AALKNGGEDADSAKLIRLGLKELAR
+>tr|A0A1Q9AIK8|A0A1Q9AIK8_9RHIZ
+MNDLTRIPCVLMRGGTSRGPFFLERDLPADRAARDAALLSIMGSGHPLQIDGIGGGNPVT
+SKVAIIGPATVPGADVDYLFAQVRTDRQTVDYSPNCGNMLAAVGPFAIEAGLVKAQTAST
+LVRIHNVNTGKIIEAKVPTRLGEVIYLGDASIDGVPGLAAPIALTFLDAAGAKTGKLFPT
+GRPIDVIDGIEVTAIDCAIPMVLMRAESLGVTGYEEPAALTANRDLIARLAAIRIEAGRQ
+MGMGDVSDMVIPKPVIISPARKGGTLSVRYFMPNDCHPALATTGAVGIATAAATVGTVAA
+FPAGPAALPALIRIEHPSGRIDVQLEKRNGTTVAGLVRTARRLFEGYAFAKPNERVEHAA
+>tr|A0A1Q9AMS2|A0A1Q9AMS2_9RHIZ
+MSVCDIMGDSRAAQAGVAVFAPPARHIGLSNLYWLNWANVLTGQRMSINRLFASSGKRTD
+EYINLFKSARVASDAGWAIWNYPLVNNLAQAEAGYTHAVTGATITTANVAAVAFADLQAE
+WESDLAAGKRLILLTEPGATNLSAASVQALHDFNLRLKCWAEGKPGVYLFDFCALLWAAT
+QSGSLIRFKPGVLQPSDPTHYSALGAYTVGKAFADFLRSNLPARDRAIAGVHEARPANPR
+QIVANPFFITTSGGATGANMTVSSGTVPGNTAISATAACSVAISNADADSGNIYGGKAIT
+YALTAGAAATVARIAADSPPTSYWSVSDILETGVEIDVAANAGGAHVYSTLEINTDKGSK
+NAWSMYGLTSQGAGPTEAYHMSMRTEPEPPIDGSVTVGYAAPIIYVALAANATCSISVQR
+QWGYRRYPATPLPAVPVA
+>tr|A0A1Q9AQ39|A0A1Q9AQ39_9RHIZ
+MLPFSLIDRPSPFHAADLKSLPVFAVTPQQVEAGSIDPVALDWARKAGFKAEAGALLLVP
+TADGRLGGALFGLGATIADTPFLTGKLARLLPGGHWHIETAPIDHGQLALGFGLGAYRFE
+RYKTAQAPEPTLTLPRDIDAAEIRRLVAGTYLARDLINTPANDMGPAALEAAFRALAAHE
+GAEVQVIAGDALLERNFPLIHAVGRAAAEAPRLLEMRWGKGKRKITLVGKGVTFDTGGLD
+IKPAASMALMKKDMGGAAHVMALAAMIMNAKLKVELRVLVPVVENAISAAAFRPGDIYRS
+RKGLTVQIDNTDAEGRLILADALAYADEEKADLLIDMATLTGAARVALGPDIAPFYTDSN
+PLAEALTAASLATADPLWRMPLFKGYEKDVTARIADLTNAPSGGMAGSITAALFLKRFVE
+QANEWAHFDIYGWSATNRPHGPQGGEAQAIRALYHLIAKGKS
+>tr|A0A1Q9AHW4|A0A1Q9AHW4_9RHIZ
+MTTLQQVAERAGCSLASASRVLGCSGPVSEQMARRVRRAAAELGYRPERLAATSRSTRRP
+VVGILIPSITNPVFAASLSSIENRMLLSGHGVLIAQSHYDPEREVSAVHALLNDRPTGLI
+LTLCDPESSRVLDLPLPPTVLLNNPPTPRQPAAVTVPNRAAGATLAGHLLDLGHRRILFV
+SGNFAASDRARLRHQGYLDALARRGVAPLPPMQVPFIGSYDQLDLTAILAQEAPTAVIAS
+NDLLAFGVIGALRRQGLGVPQDLSVAGFDGIAIGQMMTPALTTIEMPDASMGAVAASLLL
+DMAENAAVARHLQLAFSLRAGGTARAV
+>tr|A0A1Q9ADN9|A0A1Q9ADN9_9RHIZ
+MTAFIQTAPSRTLENAVEDHVIPAEKPFSTVIRKGQTVRIEDSYGQQAIDTLFYRADDYS
+ERYSSQETMRAQNGAYLSAGTKIQSSEGRTMLTITADSCGRHDTAAGACSCESNTVRFGH
+GTKYLHACRDNFVAEVAKYGMGKRDIVPNINFFMNVPISPNGGMTIVDGISAPGDYVELK
+AEMDVLMVISNCPQINNPCNGFDPTPIRVLLWNEEA
+>tr|A0A1Q9AJD6|A0A1Q9AJD6_9RHIZ
+MTVEIAQETPRQPEVEELLALSDAYAAALYPAESNHMVDLATLEKPEVRFFVARHQGAIV
+GCCALVEAGDGTAEIKRMFVHQSARGLKIGRRLLDRLLEEAQGAGLDALRLETGIYQPEA
+IALYRSAGFEEIAPFGSYQPDPLSLFMERRLAA
+>tr|A0A1Q9ALC7|A0A1Q9ALC7_9RHIZ
+MPSTVTVTLDDDLLALAQELVDRGWFGSVEEVLLGGLRRLEREAEELCALHDTLMEEGEE
+DEDEALDAMMAPAPRRQRDAV
+>tr|A0A1Q9ANN6|A0A1Q9ANN6_9RHIZ
+MDKRDRFIAELRQEAKIRGVFFRVSKSRGKGGHATVWFADRFTTLPSREIDPKTAAKIRK
+ALGLT
+>tr|A0A1Q9APD4|A0A1Q9APD4_9RHIZ
+MMHSVERRFVATICAAVAIVATPLIFLFLSLSAERIAHERIDNAKALLATSASAVAKPLW
+DFDREAVETVLSALVKHDDIANAALTDASGGLSMALPEAGSRVSTDVETLSLPVTYETPK
+GQKAIGRIEIGVRKLGMIGRLGLSDLGAFAIFLVALCAIFLAAVVSNRITIMRPLARLAD
+AIDATRLSGSHHQVLWDSDDEMGRLASNFNDMQARLKRDEAELLEAHRRTTEIYNMTPAM
+LFSIGQGNRLTAVSDYWLQATGYEREAVRGSIFTDFLLPEAHEAYIAHRLAVMSQSCDLC
+QVTVPFRKADDTIMTVLIVERRQPDGIDGEHSTLSVMTDVTALKQAESRNHLQAMTDHLT
+GQLNRQGFEIALGDTIRAADTLGVSLACLFIDLDRFKWINDQLGHAMGDIVLRETSQRIR
+SVLRDQDKLARLGGDEFAILILDRDAMVIAKTLGERICERLAEPLELGSTVATISSSIGI
+AVYPDHTNSAADLLLKADMAMYARKHDGKNGVLVYHPSLMDAVRERLEIEAAIERGLRED
+LFDVYLQPIIDLGTGRIAGFEALMRLDQPEESAFASSRIIEIAEETGLIGKIGERVLEKA
+AQHLKRLSALDGIESTYLALNFSPLQFEPSLPTRLAALLLKYEIASTRIVIEITEAVLLA
+DNAEMHTVMAQLSAFGCRIALDDFGTGYSSLSYLNRFQVDIVKIDQSFTRTLASDQPEVR
+RKSRMLIKGIRTISQQMGCTVVAEGIENNEQWLSLRRLGIDHGQGYLFSAPLSIDEMMGM
+LEEKSEVKNQNSARSTERHYRDKANASA
+>tr|A0A1Q9AQJ5|A0A1Q9AQJ5_9RHIZ
+MTDQDLKGIVATLPELVRVRPQRGLTGFAPSGRVATHQWGANRSIYRGRGMEFAESRLYQ
+PGDDVKSIDWRVTARTGHVHTKLFQEERERPIVILTDMRSMMQFGTRNRFKSNLAAEVAA
+MMAWTGHDGGDRVGGLIMTRDGLRDFPAARTRRSVLGLLEALAQETRLERPSGTEMTLAH
+ALRRMRHRNRPGTLAFVISDFSDFGDEAETELRHLAVNAHVTNIQISDPFDAALPPRGGR
+LTDGEHALAVSALGGRTLERYAQEFEARKERLERVSRRHGMVCHALQTPDDPSWILHPHL
+NVRMAA
+>tr|A0A1Q9APJ5|A0A1Q9APJ5_9RHIZ
+MTVHFIGAGPGAADLITVRGRDLIAASPVCLYAGSIVSKDLLAYCPEGARIVDTAPMSLD
+EIEAEYVRAAEAGQDVARLHSGDLSVWSAVAEQIRRLDARGLAYTLTPGVPAFAAAAAVL
+GRELTQPARAQSLVLTRVSGRASPMPEGETLAGFGATGATLAIHLAIHALDRIVAELTPL
+YGADCPVAIVVKASWPDQRVLRGTLATIEDQVRAEPIERTAIVFVGRGLADGAEFRESAL
+YDAGYQRRFRGRGE
+>tr|A0A1Q9AEU2|A0A1Q9AEU2_9RHIZ
+MEYINVILLGIIEGITEFLPISSTGHLIIAEQWLGERSDTFNIVIQAGAILAVTIIYWRR
+LMELLLNFHKPENRDYALKLIVAFGITAVLGLLVKKLGFELPENAEPIAWALIIGGFWMI
+AAESLAARKAPTEHISWTAAILVGIAQVVAGVFPGTSRSGATIFVAMLAGSASRAAAAEF
+TFLVGIPTMYAASAYSLLKTLKEQGTAGENWTLLAIAFVVSTITAFVAVKWLLSYIQSNR
+FTVFAIYRIILGAILLGMAYMGLIA
+>tr|A0A1Q9AJF8|A0A1Q9AJF8_9RHIZ
+MIQKNWQELIKPNKVEFTSSGRTKVSLVAEPLERGFGLTLGNALRRVLLSSLRGAAVTAV
+QIDGVLHEFSSIPGVREDVTDIVLNIKEIAIKMDGDDAKRMVVRKQGPGVVTAGDIQTVG
+DIEILNPNHVICTLDDGAEIRMEFTVNNGKGYVPADRNRSEDAPIGLIPVDSLYSPVKKV
+SYKVENTREGQVLDYDKLTMTIETNGSVTGEDAVAFAARILQDQLSVFVNFDEPQKETEE
+EAVTELAFNPALLKKVDELELSVRSANCLKNDNIVYIGDLIQKTEAEMLRTPNFGRKSLN
+EIKEVLASMGLHLGMEVPAWPPENIEDLAKRYEDQY
+>tr|A0A1Q9AGU2|A0A1Q9AGU2_9RHIZ
+MTQVIRLRAPLHAVVSRLLALVLCCLTLLAGLSTPAGAVEPVKISREDTALDLTATTEIY
+TGRGDAFQVSTAPGTDGIVRRIEVRSSGGNHQGDWAVFALANVSEEQLERVIVAPHFRLV
+NSKLFWPDLGSQRILSITPSEGFALDRLPSEEDDVFSITLNPGSVVTFVAELTSPDLPQI
+YLWEPDAYKDTVNAFTLYRGIVLGIAGLLAVFLTILFVVKGTSMLPATAALAWAVLAYIC
+VDFGFLSKLIAITAADERIWRAGTEVFLSAGLVIFLFTYLNLNRWHQHLAYATLAWVLGL
+ALLFGVAIYDPSIAAGIARLSFALTGTAGTLLIAYLGFKHYDRAILLVPAWMLILVWLFG
+AWLTVTGRLANDIVQPALGGGLVLIVLLIGFTVMQHAFAGGAYGQGLFSDLERQSLALTG
+SGDTVWDWDVARDRVVTMPDISAHLGLAPGSMHGAARNWLPRLHPDDRDRFRATLDVLLE
+HRRGRLNHEFRVRAEDGHYHWLAIRARPVLGANGEIIRCVGTIVDVTEQRNSIDRLLHDA
+LHDNLTGLPNRQLFLDRLQTFLMLAPATGVVRPTVITIDIDRYRQVNELLGIAAGDNILI
+ALTRRLRRLLKPQDTLARLGGDSFGVLLLSERDPAKVAEFAAAVSQAIMVPISFAGREVH
+LTASIGLVSWVDQQESAASLLDDAELAMFRAKKAGGNRVEPYRPAFRASGTERMQIETDL
+RKAVDRKEISLVYQPIVRLSDGEIAGFEALMRWDHPKRGSIPPSEFIPVAESCDVINQLG
+LFAFERATVDLSEWQMASGDLPIFISINLSSAQLLNNDLYDDVRAILSKNRCETHKIKIE
+LTESLVMENPEQARLVLGKLRDAGLGLALDDFGTGHSSLAYLTRFPFDTLKIDKALVTDP
+SDKRAALLRSVISMAREMEMQVVAEGIESEADAMQLGQMGCDYGQSFLFGPPIATDAVQR
+LLRERFPIVRRAS
+>tr|A0A1Q9AL75|A0A1Q9AL75_9RHIZ
+MAVPKRKTSPSKRGMRRSADALKSPTYIEDKNSGELRRPHHIDLKTGMYRGRQVLTPKTS
+A
+>tr|A0A1Q9APX2|A0A1Q9APX2_9RHIZ
+MKKLLNTIYVTTEGAALRKDGENLVAEIEGVERSRVPFHMLSAVVVFGAIHVSPPLMGAL
+AAAGITLTFLDRNGRFQARLEGPVSGNILLRRAQYRACDQPEEVVRSLLIGKIANQRAVL
+MRSLRDYGDDHAPQDRAKVVDVTDRLARILRRVELSDDTLDRLRGSEGEAANLYFSVFDT
+LIRSPDHEMRFAARSRRPPLDPVNALLSFLYTLLTHDCRSALESVGLDPSAGFLHRDRPG
+RPSLALDLMEELRPVLADRLALSLINRRQLRAGDFERQEGGAVLMRDEARKTVLTAWQER
+KREERLHPFLEEKAPLGLVPYLQAQMLARHLRGDLDAYPPWFWK
+>tr|A0A1Q9AFR8|A0A1Q9AFR8_9RHIZ
+MSAPAALSIPARSARLLVPAVLVTLGMAVTIGTALGFEHLGGYIPCALCLMQREPYYFGL
+PVGLAAIITAGLRLPPAVPRLLLGLVAILMLVGAGMGVYHAGVEWHFWAGPESCGGAQGV
+SANVNDLLSDLNTKHGPSCTDAALRVLGLSFAGWNVIASVILAGIALKGALGGLRR
+>tr|A0A1Q9AF47|A0A1Q9AF47_9RHIZ
+MKADIHPAYHMIKVVMTDGTEYETRSTWGSEGAVMNLEIDPKSHPAWTGGNQQLMDRGGR
+VSKFKKRFEGLGL
+>tr|A0A1Q9AKU4|A0A1Q9AKU4_9RHIZ
+MTDHHSATWNDELDGDTLHEECGVFGILGHEDAATLTALGLHALQHRGQEAAGIVTFDGR
+QFYTEKRMGLVGDHYTDPAILAKLPGFIGMGHTRYSTTGEVALRNVQPLFAELEVGGIAI
+AHNGNLTNGLTLRRQLIADGAICQSTSDTEVVLHLIARSKQVGSGERFIDAISQIEGGYS
+MLAITRTKLMAARDPHGIRPLVMGELDGKPIFCSETCALDIIGAKFVRDVENGEVIICEI
+QPDGSISIESRKAEKPQAERLCLFEYVYFARPDSVVGGRNVYVARKNMGINLAREKPVEA
+DVVVPVPDGGTPAAIGFAQESGIPFELGIIRNHYVGRTFIEPTQQIRAFGVKLKHSANRA
+MIEGKRVVLIDDSIVRGTTSVKIVQMMREAGAREVHIRVASPMIYHPDFYGIDTPDADKL
+LANQHADLASMCAYIGADSLEFLSIDGLYEAVGGAPRDAAKPQFTDHYFTGEYPTRLIDQ
+EAANNVRKLSVMASNG
+>tr|A0A1Q9AFZ9|A0A1Q9AFZ9_9RHIZ
+MNDLFPPIHLAYSVLIARFCGAAIAGAMIGYERQARNKTAGLRTHILVALSACVFAILAL
+EIIALAESRADPVRIDPLRVIEAVTAGVGFLAAGTIVMARGRITGVTTGAGMWLSGAIGL
+CIGFGYWPIAGLAMLAGLVTLAVLYHVERFGQMRRSGSATSSGQETPEARPGRRSGL
+>tr|A0A1Q9AGN4|A0A1Q9AGN4_9RHIZ
+MMVELVSQVDLRKSIRPEDVIRFAPGEIVAEADAGDAEGRSLFFRDIAYGASTVAAPGID
+GVLMVVYRSGQTRMRRKVEAKWHESYVTPGAISLLGVDRASDWEWDSNIEVSHFYLSKDL
+MSKMALRAFESEYHHFHAINDLCIEDPSLLALTDALEAELRNVASGSRLLTDLLSQALTL
+HVLRNHHICDRASRDSANAAMAFTGAQRQRVIDFVEANLAKNFSLADLANTAGMCEHTFP
+RRFKAAFDQSPWQYVLMRRVHRAMALVKDTRLSLAEIAFLTGFSDQAHMTRVVKKATGQT
+PGHLRRA
+>tr|A0A1Q9AN19|A0A1Q9AN19_9RHIZ
+MTHITILLDEATEARLRQAAEEHDRSPEDIAFLTLAEGLHHAFVTREDDPGADLPAPHPD
+YARARAEAATGLLS
+>tr|A0A1Q9AI19|A0A1Q9AI19_9RHIZ
+MTDTRRLYQQIADQVRQLMQNGQYPPGARLPAERELAQQLGVSRPSLREALIALEIDGSI
+EIRMGSGIYATSPSRPLPANRSLGESPMELMQARAVIEGAVIVQAAAAVTPEALSGLTDI
+LVAMRREIDEGRKPMEQDRQFHLAIADCAGNAVLGAVVAQLFDERHSPMSDRMRGRFETP
+ETWRAALNEHEAILACLDARNPLGAQAAMHAHLTASGRRWLES
+>tr|A0A1Q9ANE3|A0A1Q9ANE3_9RHIZ
+MPALLSRYATPLTTGLFLVSLISGIGLFFHWSEPAFKGMHEWLSMVLILPFLLHLWRNWR
+PLTAYLKRPPMAAALGLSMVAAIAFAWPALTGSTVRRAPPQIVLAQALMASTPAELSVVL
+HRTPEDIVSSLTARGLQATAGKSLTATATEAGKSEREALAALAALLH
+>tr|A0A1Q9APL5|A0A1Q9APL5_9RHIZ
+MTTLAIVTGAAGDIGRAIAERLADSHDLILMVDIDAAAAEKAAALLGAPDRFIAHAADVT
+DEASVEAMAEVAAGLGAVKTLVNNAGAARAVSLQATSAEDWRKDMALNCEAAFLTLKALT
+EPLKAARGAIVNIASVNGMQIFGHPAYSAAKAALLHFTRATAVEYGKFGIRANAIAPGTV
+RTQAWNARADANPNVFEEAKRWYPLRRVVDPADVAHAVAFLASPMAAAITGVCLPVDCGL
+TAGQAELARTFSQSDDY
+>tr|A0A1Q9ALK8|A0A1Q9ALK8_9RHIZ
+MGLCLAAAGLALAGPLSVGEAHAFKLFGINFFGKSDEEQAAAEISDPVPYAVTIDAPGAD
+EDLTEALQNASQLYQEREQPASGDLGLVIRARDDRERLLAALYEQARYGGVVDMTIDGQS
+IDSLPPIPDFPRGQPIPVVVHVTPGPVFSVGKVHLTGDIAGSDPAAYDLAPGRRADSTVI
+LKAGRQAVDDLKQTAHPFAKMTERQAVADHSNDTVDVTLGAESGPQATFGAVGVTGTKRM
+NPEFVARYSRLDTRKPYSPEELRKAQERLRALGVFSSISVKEGTALDSLGGLPLTIEVSE
+GKQRYFGVGANYSSADGFGAQAYWGHRNLFGEAESLRIEGEVSRLGIKDVTDFDYSAGIT
+YVEPGAFGPPTSFTASLKAAALDPEGYTAKTVTGLGMASYELNDTDTVSAGVEVAWATIE
+DAFGNRDYLTPSLPIEFIRDARDDKLNPKSGYRASLAIKPSYEIYGQTPFVSTEGSITGY
+RGFGTKESTVLAARLAAGIVGGGDDTLDDIPATRRFFLGGGGTVRGYAYQEISPVNAKGD
+ELGGRSYVNINLEARIGVTETISVVPFIDAATVSAKAVPDFNDIRAGAGIGVRYNTGFGP
+IRVDVALPLNPYPGGTRYGIYAGIGQTF
+>tr|A0A1Q9AFS5|A0A1Q9AFS5_9RHIZ
+MRGEDVLVTWGRGLFRVWIVVTTIWIVVVALFTWQSVAKPYILWGGFKMGQGEPEYLEPY
+GEKIAAARELKSRKLLVEYEIAYEKPSLRETAFFFPAASVHEDNLKAIEAYIPKATALQD
+AKVREARLEVLEGALWGAVLPPVILLVLGLAIRWALLGFRA
+>tr|A0A1Q9ACZ4|A0A1Q9ACZ4_9RHIZ
+MRVLLVEDDDDLAARIAAHLKTENFVVDRAANGEDALHAGTTETFDVAVLDLGLPKIDGV
+TVLKGWRAQAANLPVLVLTARDGWPDKVASFKAGADDFLTKPFKVEELVLRLRALVRRAS
+GHAGAQIACGPLIFDAQLGTFERDGLPLKLTALEWRVLSCLMLRKEIVIDRRELMERVYD
+GDAEVDSNSLEVIVARLRRKIGADHIETVRGRGYRLTAGAEAS
+>tr|A0A1Q9ALZ5|A0A1Q9ALZ5_9RHIZ
+MTFRLHNFFRSSTSVRVRAALNLKGLDYEYIPYVLRRGDTRQPDYLAMNPAGLVPVLERE
+DGSHLTQSLAILEWLEEKYSVPPILPADADGRARVRALSLMIACEVHPLNNLRVLGYLGS
+RFGADEAAQKDWFTHWVELTFDALEAELAGHPHTGTFCHGDMPTMADICLYAQVWNNRRF
+DIATEKWPHIDRIFKRLDAIPAFNNAAPPSQPDAG
+>tr|A0A1Q9AEW2|A0A1Q9AEW2_9RHIZ
+MTALAAWLGLSALPAAAQDAVSPERCARNKAAGTITFLTSFAYAASAGILDVVAARDLGY
+FKALCLDVALEPGSTNTQLVSAGTAQMAGLGGASDVLVAVDHGADLVGVATYGNVGAIEL
+LTMADSDIKTLKDFAGKTVGYKGAIPPQFLAMFLDAGLAGDAVNWVSVGYDPIILPNGNV
+DGLAAYKSNEPKALAAKGYKIREWDPDAFGVHSTFNTLVANRRFAEANQTAVEDFLRATF
+KAFAWINESPANLDKALAAAAALSTSGYDLETSKVRWGVEMDLIAKSLPKGMAVGQQSIA
+QWTPEAETLARFKLIGTPDIARAQDNRYIDAVVKDGAVVWPAP
+>tr|A0A1Q9AG28|A0A1Q9AG28_9RHIZ
+MTKSGTIRVGIGGWTYDPWDESFYPAGLPKKRQLEHASRALKVIEVNGTYYSSQKPETFA
+KWASEVPDGFVFSLKASRFATNKKVLAEAGPSIERFLNQGIAELGDRLGPILWQFMPTKK
+FDAADFGAFLALLPSSLAGLTLRHAVEVRHPSFQTPEFIALARAHGVAVVCADHADYPLI
+PDVTADFVYARLQTGKETEEACYEPERLDQWAGRLKDWAQGRDGASLPLIHAEQPAAGQP
+RDVFAFFIHEGKSRAPAGAQALQARVD
+>tr|A0A1Q9AN53|A0A1Q9AN53_9RHIZ
+MAWIIRSPAEISGRLRGAFRQYLPGTDTALKNNVLTVIVKVLALLAHEFELRMAALSRQM
+FLTTATDLRWVRLHASEIGIYQRQPSAAAGLVTGSGAAQAVYPAGIRLVSGDMTYLTTAP
+ALSGADGSLSFAVACEIKGVAGNREAGGLLGLADPALHPSLSLEWTVGAGGLGGGADVEG
+IEELRARALARKRNPPGGGTLTDYERMATDVPGVLKAWAYRPQNAPGMLVVYFLFAGRAG
+SIPQPSDVAVVQAAIDARRMIRLDDSVAVAPIARPVNVTIGGLQSDTDEIRAAIAAGIAA
+MYVARCRPGYPDDSFTLPISWISEVISGVAGEERHRLVAPSADIVLTSGQFPVNGTIAYV
+A
+>tr|A0A1Q9APK4|A0A1Q9APK4_9RHIZ
+MHKVIFDTDPGVDDAMALLFLHQHAEIHLVGITTVFGNASVETTTRNALFLKREWQIEAP
+VAKGIPETIDPARAHADWPTFVHGEDGLGNIGVPETIDLPIDPRPAHRFIIDTVRAYPGE
+VTLIAVGRMTNLARALKEDPEIVGLVKGVIIMGGAFDTNGNVNPAAEANIHGDPEAADQV
+FTAAWPLTVVGLDVTTKTVMTRADLAAIVERGGARTKLLSDISQFYIDFYETRVPDGMLV
+HDSCACVYLVAPELFTIRKGSMRVVCGGIADGQTIQKPDDLGCGPSVWDGLPSQAACMEV
+DAPAVLKLIADTLANTGANTGGKTGA
+>tr|A0A1Q9AFE5|A0A1Q9AFE5_9RHIZ
+MEANIGWGEALLRGAIIGIGATVLMDLWGLLLARLGLTGAANWAPVGRWFWHLKSGRIFH
+TDIAAATPFAGENALGWAGHYAVGLAYGVLLLVFTGPGWLSSPTLLPALLWGLVTVAAGW
+FLLQPGLGLGIAAARTPQPGKVRLLNLAAHIVFGLGLWLSALLIA
+>tr|A0A1Q9AL72|A0A1Q9AL72_9RHIZ
+MSRKRLDEAAIADGIARLNLGLDPAESWQRDADGLSIARSFRFDSFAEAFAFMTRSALVA
+EKLDHHPDWSNSYRTVSVRLTTHSAQGLTALDLALAEAMNAAARRP
+>tr|A0A1Q9ALW4|A0A1Q9ALW4_9RHIZ
+MTLRTLLATTVALTFAGHALAQDFNDPAEFKKQRELLAMTPQGPEGQPWAQHLGDSMVDT
+AKYKKDGQVTLCFSNAGVFNPWRVVGLNNLTAEAELHKDRLKELIVVDAEGKDDKQISDI
+EALVSGGKCDALIVSPNTTAALTPAVEAACAKLPIIVFDRGVNTSCPVTYIHPVGGYGFG
+ITSGEFIASKLKKGDNVLALRIVPGVDVLETRYSAAKTIFDEAGLNVIGSEFTGSDRAKT
+KAVVEDYINRGEKIDAIWMDAGDTATAALEAFEDAGLPYPVISGEDQQDFLRKWKADKLT
+AIAPSYPTYQWRTAVIAALDVLDGKSVPGPEWVLPQPAITEDVLTQYIDERMPPLHYSLC
+GCQDLPGYPERWGGKK
+>tr|A0A1Q9ACG7|A0A1Q9ACG7_9RHIZ
+MSDKRAGKKMKRKETARPAETAQESAQTAHGLEGRSFLYVGGRDCQVAHLREIAAQFGAE
+LLHHDGGLREAVSRIDRVLPSVDCVFCPIDCISHDACLRVKTGCKKFGTAFVPLRNGSKS
+SLQRALEDLKTSPPARDA
+>tr|A0A1Q9ADW2|A0A1Q9ADW2_9RHIZ
+MPFTISKPMRFGDCDMTGIAYHPAYLSMLVDVNEAMFASFGVTWKEIMFERKLGLPTVTL
+NLEFKKPAVYGDVLDFAVHVRAIGRASLDLETIVTVAGDVIWTVRQRIVMTSLADHKSHP
+WPDDVRAGLTRYLEPSHDA
+>tr|A0A1Q9AFQ1|A0A1Q9AFQ1_9RHIZ
+MKKLIIGLAVALAASTAAVSAHAADKTKACFVYLGPKTDGGWTQAHDVGRQYVEKELGDK
+VETAYVENVPEGPDSERVIERLARSGCSIVFTTSFGYMDPTLKVAKKFPKVKFEHATGFK
+TAENVTTYNSRFYEGRYIIGQIAAKMSKTGVAGYIASVPIPEVVMGINAFEQGAKSVNPN
+FKMKVVWVNTWHDAGKEADAAKALIDQGVDILTQHTDSAAPMQIAEERGIHAFGQAFDQI
+KAGPKAQLTAIEDTWGPYYVKRIKMVMDGTWKGGESSWDGLKDGILTMAPYTNMPDDVKK
+MAEDTEAKIKSGAIHPFTGPIKKQDGSVWLKDGEKADDGTLLGMNFYVEGVDDKLPQ
+>tr|A0A1Q9AKP8|A0A1Q9AKP8_9RHIZ
+MPDPVYSITGGVGVIDLRASEYVYENGDKLSQLNWHTRHALLYTLGLEGTVDADWTLSTQ
+LRLGAEGDGHMVDYDWVDPYARDGGMTGWSDRSISPDTQLDHYVDLSLEAKRRLADRDGL
+SLSAFGGFRYTDVKWTSYGGGYIYSEDGFRNSVGHFPEGERGISYRQKIPVPYLGLESQA
+SFGGWSLGARAGLGLTFGIKDIDDHWMRNLRFFDSMDAAPVAMLGLTASYAISDHVALTL
+AGDVENVARRRGDMRLIDTKTGESGSDREAAGASFRSLSVSFGLKGSF
+>tr|A0A1Q9ANI5|A0A1Q9ANI5_9RHIZ
+MATGTVKWFNSTKGFGFIQPDNGGADAFVHISAVERAGMREIVEGQKLAYDLEQDRKSGK
+MSACNLRAA
+>tr|A0A1Q9AER8|A0A1Q9AER8_9RHIZ
+MKITKKTVGPLAISLSLALSSCTGLPSSGPSASAISSASSERTAPYVLIPVTATTLSLMS
+TADPEKLSATFGSGRQQSASLIGIGDIVMVSIWEASDNGLFSNGTGGKSGGTQIPEQPVG
+TDGMISVPYAGQVRAAGRTPQQVKLDIEKALTRMAVEPQVLVHVSKNVANTVTVTGEVAQ
+SGLVSLSPRASRLLDVIALAGGPRSESQALAVQVTRGSRSQTIALEKLISDPRENIFVQP
+NDIVALIRQPRSFTVFGAAMANSSVQFDEPELYLNQALAKVGGLSDERADAKGVFIYRTE
+QASAVARIAPGRTYAGAGPFVNVIYQIDLKDPNGFFLLKSFRVQNRDLIYIANSSLAEIR
+KFSTLVSTTAAPVAQAAAIGSVVNNLATK
+>tr|A0A1Q9AG79|A0A1Q9AG79_9RHIZ
+MANVTSVSGAKAAPMTAEERKVIFASSLGTVFEWYDFYLYGSLAVYIGATFFSAYPETTR
+NIFALLAFAAGFLVRPFGALVFGRLGDLVGRKYTFLVTILIMGISTFTVGVLPGAASIGI
+AAPILLLVLRMLQGLALGGEYGGAATYVAEHAPHGRRGYFTAWIQTTATLGLFLSLLVIL
+GVQLIVGKEAFAAWGWRIPFLVSVALLGVSVWIRVKMNESPAFQKMKAEGTVSKAPLTEA
+FGQWRNAKVALLALFGAVVGQAVVWYTGQFYALFFLQSILKVDSQSANLMVAAALLLGTG
+FFVLFGWLSDRIGRKPIIMAGLLLAMLTYFPLFKTLTWAGNPALAEAQASSRATVTADPA
+DCKFQFNPTGTAKFTTSCDVATAFLTKNSVPYDVVAGPAGQPATVSIGGATIQSFDVIAA
+GADAKARTAAFEKQVNVALHDAGYPLQRSAAKVPDAKLDGFIAANPELGLNAAAVRAGEH
+ATMTGQQLVDAKLMTADEAAGVTGMPVYTVAGGGSFTMVADPQRVNWAVIIAVLTVLVIY
+VTMVYGPIAALLVELFPTRIRYTGMSLPYHIGNGWFGGLLPATAFAMSAAKGDIYYGLWY
+PIVFAGITLVIGMLFLPETKDRNINAIE
+>tr|A0A1Q9AGR0|A0A1Q9AGR0_9RHIZ
+MGSRNILVTGPAINEHAVNLIVSKGYRVSYVPPYTSEDDLIRIVTDLDPVGVVVRMGRFG
+EAAIEAAPSLRVLSKHGVGVDNIDVDAASRRDIAVVVAAGANALSVAEHAMALLFAVVKR
+IVPLDGSLRAGRWEKPGFSGKELAGMTIGLVGFGAIARHMAAFAKAFALEVRAFDPFADE
+AAFAAAGVQRVTDLDDLIASSDIVSLHCPLTPDTRDLIDDRRLGMMRTGSFIINTARGGL
+IDEDALLRAVQSGQIAGAGLDSFQKEPPADNHPFWQDQRIVVTPHIGGVTQEANGRVGVD
+AVEGIFAIVEGRPLGRERIVNHRSLAHGSAAKTPA
+>tr|A0A1Q9AN10|A0A1Q9AN10_9RHIZ
+MSNRSRLFASVALPILAATVGLQPALADSLHAPFQVAQQDAVEGGQGGDNPEELRRKRRE
+EHQREQQGEPGRAEQPQRRQAAPDAGQDGGPSDQQRQREERRKQREADQQQGGEQPQRRQ
+AAPEAGQDGGPSAEERQRQREERRKQREADQQQQNGDEPAQGRPKPAAAQDGQQPSDAER
+QREERRKQRQAEQQQNGDQPAAEKPAPDKPVQTKPAQTKPAQEKPAQGKPAADTAAPGQD
+GGLSDAERQRIREERRKQREADQQQQNGDQPAPQKPAAGKPAPAGDKPVAPKPAPGQPVP
+QPAPDAGQDGQQPTDADRQRIREERRKQREADQQQQNGDQPARQPEGQPAQQPDGQAPRE
+RPRPDQAGQNGANPGDARRPGGRGADELTPEEARDLEQMTPQQREQLREERRVRRDLPDI
+SEQDRQRIARDPAKSDDTVVLPVENGAAVLDSDKDADSRGGREARERRRAEREQLREERG
+NVPLPKNDADAQAPMRERGFDRDQIDEALRERGRRVERAPQFDLQDAIDAFVGANQPRPR
+IEERRNNRTVIDFGDEIVVRGDDRARLRRDSQDTYYEELPRGRSREVIERPNGVRIVTIY
+NSYGDVIQRTRIDRDGREYLMVYADDMDDDRPRPPIYDAGEDLPPMRLRVPLNDYIVDTS
+SQPDRDYYSFLSEPPVERVERTYSIDEVRNSARLRDKVRRIDLDTITFATGSAEVPMSQA
+KTLRRVADAMMEVINKDPGETFLIEGHTDAVGSDESNLILSDERAESVASLLTEVYNIPP
+ENLVTQGYGERYLKVLTNGPSQENRRVTIRRVTPLVRPVAQR
+>tr|A0A1Q9ANC8|A0A1Q9ANC8_9RHIZ
+MDVEANSAGAHVYGNMQINTNKGSKDCWAMYGQRGQGPGPTDAYHLSLKTEIETPYSDST
+STGYIAATINVALDANATCAISIQRQWGYRRFPATALPN
+>tr|A0A1Q9AID8|A0A1Q9AID8_9RHIZ
+MDTRAKAEAFWPLGGPISRTRMALVIIDMQVDFCAPGGWVDQLGEDVSNTRSVIAPIREA
+LSAARAAGLLVIHTREGHRPDLSDLHPNKQWRTRVHGLGIGDAGRDGGRILVQGEPGWQI
+IPELAPEDNELVIDKPGKSSFHRTQLAAELARRGIDRLVITGVTSDCCVQSTLRDGYEHG
+LECVLLEDCTAAVESPNHEATLEILKAYGGRWGGVADLPRFHAMLEAADA
+>tr|A0A1Q9ACP3|A0A1Q9ACP3_9RHIZ
+MREAMQLVPMVVEQSSRGERSFDIYSRLLRERIIFLNGEVNDTVAALVCAQLLFLEAEDP
+TRPIHLYINSPGGVVTAGLAMYDTMHYIRPPVHTLCMGTARSMGSFLLMAGEPGQRAALP
+NASLHVHQPLGGFQGQASDFMIHAEEMQQTKRRMIRLYAQHCGRSEEEVERTLDRDCFMT
+AEQALEWGLIDRILDRRALELPAA
+>tr|A0A1Q9AIU2|A0A1Q9AIU2_9RHIZ
+MSGQKTKKTVEAQGHWIEWATGLISGLLVIAMIGIVALDALTASDAAPDLKVTIINQRPT
+SGGTQVSFIVSNLGKRSAAGVPVTGLLSREGRVVERREVIFDYVPAQSQEKGALIFSENP
+DGAQLELHTSGYRDP
+>tr|A0A1Q9AE53|A0A1Q9AE53_9RHIZ
+MMDSETLDLLVIGGGINGAGIARDAAGRGLKVLMCEKGDLAEGTSSRSGKLVHGGLRYLE
+YYEFRLVREALIEREVLLNTASHIIWPMRFVLPHSPSDRPAWLVRLGLFLYDHLGGRKRL
+PGTRSIDLRRAPEGAVIDDKYVKAFEYSDCWVDDARLVVLNALDAAKRGARILTRTACTS
+IRRDNGIWRAELRDTRTGAVTKVTARAVANAAGPWVNDVIGRVAGANSSRSVRLVKGSHI
+IVPKFWRGEHAYLVQNHDKRVIFINPYEGDKALIGTTDIPYEGAPEQVSADEREVEYLLA
+AVNRYFKEKLRRSDVLETFSGVRPLFDDGKGNPSAVTRDYVFDLDETGGAPLLNVFGGKI
+TTFRKLSEHALQRLAKTFPGMGPDWTAGSALPGGDLPDADFVAFFETLRAAYPWMPRELV
+HHYGRLYGTRTRELVGAATSLEGLGRHFGGHLYEAEARYLVAQEWARAPEDITWRRTKER
+LRMSPAEQTAFADWFEAELAQAA
+>tr|A0A1Q9AIH0|A0A1Q9AIH0_9RHIZ
+MNQGEWESLCDGCGLCCLNKLEDWETGEIAWTEIHCTLLDGESCRCRDYPNRQETVPDCI
+QLTPEAVRTLAWLPPSCGYRKVRDGEDLSWWHPLVSGDPDTVHQAGISARGRTVSEDEVD
+LDDFEDYVVDWPLDPSDGKEK
+>tr|A0A1Q9AP19|A0A1Q9AP19_9RHIZ
+MMLLIAKRLLIACSTIIAVIILSGLLIHVVPGDPVTAMMAQSVTATPEAMADMRSRLGLD
+LPVWRQVMLYLWHVLQGDLGTTIRGNEPVSRLLLQRLPNTFALAVAGLATALTIGIPLGF
+LAAINRGRIADTAVMIIAVLGVSIPAFWLGLVMIQVFSLKLGWLPVAGSGWRNIVLPALT
+LGLTYCALVARMTRSALVEVLAEDYIRTARARGLREHQVLLVHALRPALISLVTVIGLVF
+AYLLGGQVIIENVFSWNGIGRLAVQAMLERDYPMIQGFIVLFATSVVVVSMLIDILYTLL
+DPRMRQR
+>tr|A0A1Q9ADP5|A0A1Q9ADP5_9RHIZ
+MDHAMMETAAETATRLETLQTPCLVLDADKMERNIARLRHRLDGLGVSLRPHLKTAKSVE
+VARRVMTTPQGPATVSTLKEAEQFAAAGVRDIVYAVGITPSKLGRVQALRAQGVDLVVIL
+DTVEQARMVAAASLASGHPIPAMIEIDCDGHRSGVAPGNAARLVEIGEALSAGGALRGVM
+THAGDSYKGGGDAAQQLYAEAERAAVVEAATLLRKAGLSCPIVSVGSTPTAHHAADLTGV
+TEVRAGVFVFFDLVMAGIGICQVDDIALSVMATVIGHQREKGWIITDGGWMSLSRDRGTA
+KQAVDQGYGLVCDLDGALYPDIIVADANQEHGILAVRPGSGAMLPDLAVGDRVRILPNHA
+CATGAQHEAYHVVRGSSHQVEARWSRFGGW
+>tr|A0A1Q9AF75|A0A1Q9AF75_9RHIZ
+MGKVTGFLEIDRQLAKYQPASDRIRHFREFVLPMSDQEVQKQAARCMDCGIPYCHGPTGC
+PVHNQIPDWNDLVYSNNWDEAIRNLHSTNNFPEFTGRICPAPCEEACTLNLEDAPVTIKT
+IEQAIADKAYEMGYIVPKPAVTKTGKSIGIIGSGPAGMAAAQQLARAGHNVHVYERESRP
+GGLLRYGIPDFKMEKNFIDRRVEQMKGEGVTFHCGVNVGVDRTVDSLLAEHDAVLYCGGS
+ETPRDAGIPGVEFAGVHDAMPYLVQQNRRVGRENIDSVGWPSDPILAGGKHVVVVGGGDT
+ASDCVGTAFRQGAVKVTQLDIRPQPPEKEDKLAVWPYWATKMRTSSSQAEGAIREFQVAT
+LEFVGDEDGLLSGVKCCQVDDRRKPVPGTEFVIKADLAFIAIGFRGPLTTGVLAEYGERL
+AINTDSRGSSNVIANDQDYRTSVDRLYAAGDVRRGQSLVVWAIREGRQAARAIDEALMGA
+SVLPR
+>tr|A0A1Q9AHL2|A0A1Q9AHL2_9RHIZ
+MTKPTAKPPTRPQDIDIDVLEDTLSFYIRTINLAVSRDLDQRLEGLEVAKGTGKITTLLL
+VDDYPGIRPSLIAHMIMRDRSAMGRLIDQMEHQGLIRREVSPEDNRAQELYITEAGAALA
+EKIREIVPQQSRDFFSFIPQDEQALVIDILRRAYRRIVGMS
+>tr|A0A1Q9AF91|A0A1Q9AF91_9RHIZ
+MLQSAIIWIGLDPHPALPFCARGAAVSGAGLPVSGQRLGAIWNATDARARKSRPAQRHQP
+AETFKP
+>tr|A0A1Q9AHR8|A0A1Q9AHR8_9RHIZ
+MSSYILNRRRCVPFPTRQTKKTTIYDLAELAGTSASAVSAVLNGTWKKRRISAKLAEKVT
+RLAEEQGYAVNMQASLLRREGSRILGMIVPKYDNRYFGSIVETFETMARERGLFPIVTCT
+RRDPELEVEAAREMLAYQVGWLIATGATDPDRITDLCLSAGVRSLNLDLPGSRAPSVISD
+NFAGAYGLTRRILDNCRERLGETIPLMFVGGRASDHNTAERLRGFTAAHQDAGLAVDPTL
+LLPCGYAPEKAEAALEARRSAGLAMPRGMFVNSTISLEGVVHWLKRAGHAGQDMPVMGCF
+DWDPFVTLLGGGIEMVRQDVPAMLRTVFSIIDSGVAPEPMIKIPPIDMHEWVES
+>tr|A0A1Q9AE68|A0A1Q9AE68_9RHIZ
+MTGAKPNILVIMVDQLNGTLFPDGPADFLHAPHLKALAGRSARFANNYTSSPLCAPARAS
+FMAGQLPSRTRVYDNAAEYVSSIPTFAHHLRRAGYYTALSGKMHFVGPDQLHGFEERLTT
+DIYPADFGWTPDYRKPGERIDWWYHNMGSVTGAGVAEITNQMEYDDEVAFLANQKLYHLA
+RENDDPARRPWCLVASFTHPHDPYVARRKFWDLYEDCAHLEPEIGMLAEQDPHSRRILAA
+CDYASFDITQEDVRRSRRAYFANISYLDEKVGELVDTLSRTRMLDDTLILFCSDHGDMLG
+ERGLWFKMNFFEGSARVPLMIAGPGVAAGLHAAPVSNLDVTPTLCDLAGISMDEIMPWTD
+GESLVPVITGAAPRSAPVLMEYAAEASHAPMVAIREGKWKYTHCPLDPDQLFDLEADPHE
+LNNLALAPPDAATAATLEAFRQMREARWDMEAFDAAVRESQARRWVVYEALRNGAYYPWD
+HQPLRDASERYMRNHMNLDNLEDSKRYPRGE
+>tr|A0A1Q9AQC4|A0A1Q9AQC4_9RHIZ
+MRLTKTLLVVTGLILSTTGLPGLAQAKVTVLGWPGGSEETALRAVAEAYNAEPGRAEADK
+VELIFFNRDGFFDKLQADMAAGSDAFDINLVATYSIGRYAPYMDTIDLGADAQKTFGDSV
+LKTMQFEGRQYGVPTDLSLHFMYYRKDLIDALLQDEAAKAKYAEIAQKYLGKSLAPKDPD
+SWTWDDWAATALYFSKQVNPASPTRYGTVLQMKNLLFNMMVFQSLPRSYGGDWMDKDGKI
+TVDSAAYRTGLELYKKLYDAGASPKDSLSYEYAETNAAFGAGQAATALQWNAAAGDLTSA
+EKSPAVAEVTGMVAPPAGPDGRADHIHGLGLGLNKAAKNKEGATRFLKWLATENAALAYA
+KAGGSPALAPEVVAKVAAERPDLVKLGDFAGKYGYVMTGATSAKALSVYELQAKEFTGYW
+SGQQSLDEALKKTETGMAELLKK
+>tr|A0A1Q9AFC0|A0A1Q9AFC0_9RHIZ
+MAMARGYAATDASKPLEPFTFERREPRADDVVIDIKYCGICHSDIHQVRDEWGGSIYPMV
+PGHEIAGVVMAVGSDVTKFKVGDHVGVGCFVDSCVGCAARDVDLEQYMPGLVPTYNGREA
+DGTPTMGGYSDQIVVKEGYVLSIPANLPLDAAAPLLCAGITLYSPLKHWKAGPGKKVAIV
+GMGGLGHMGVKIAAAMGAEVTVLSQSLSKKEDGLKLGATHYYATKDAETFQTLAGQFDLI
+ISTVSADMDLNAFLGLLKVDGAMVLVGLPEKPASIHAFGLVGGRKSLSGSMIGSIKETQE
+MLDFCGEHGILSEIELISADQINEAYERVLKSDVRYRFVIDMATL
+>tr|A0A1Q9AI53|A0A1Q9AI53_9RHIZ
+MTDDCNATSLEGLRILDLSRILAGPTATQLLADLGAEVIKVERPAAGDDTRGWGPPFLTG
+KDGADSDLSAYFLAANRNKKSIAIDLSSAEGVELVRRLAATCDVIVENYKPGDLARRGLG
+YEAIRAVKPEIIWCSISGFGQTGPFADRTGYDFLIQAMGGIMSITGESDRDGGRPLKVGV
+GIADVMCGMYATVGILAALRHRDRTGEGQSIDLALYDSQLAWLVNAATNHLVSGRRPGRI
+GNRHPNIAPYQTFATADGEIAIAVGNDQQFIRFAAAIGLAHLADDERFARNRDRVVNIDA
+LERIVTEALRDDTAESWEQRLVTAEIPAGRVATIDQVMAHPHTLARDMVVEMQAPDGQAV
+RLLGNPLKMSATPVRFERAPPHLDQDREAVLQELLEIERGHRAATADRKSG
+>tr|A0A1Q9AFR4|A0A1Q9AFR4_9RHIZ
+MLAGAALAVAWIGTAHAQFPERTLTLVVPFAAGGSTDVVARIVANKMSEDLGQQVIVQNI
+GGAGGNVGASNVARAAADGYTILMGTVATHALNPLILKTKPYDPEKDFAPVSLLVLVPNV
+LVVNPQFPAKTVAELVALLKAEPDKYAYASSGNGTPLHLSGELFKSMAGVSMQHIPYKGA
+GPALNDVIGNQVPIMFDNLPSSSGHIKSGTLRALGVTTAKRAASFPDLPAIAETVPGYET
+YTWNALFAPAGTPADVVARLNAASKKAMADPEVIKRMNDFSATIVASSPEELGAHVKAEV
+AKWTPIVRDAHITLD
+>tr|A0A1Q9AHS9|A0A1Q9AHS9_9RHIZ
+MQRMGMMIGLQPGKVDEYKRLHAAVWPEILDLISRCNIKNYSIFLREPENLLFGVWEYHG
+SDFEADMAKMAADPKNQEWWSFCIPCQKPLDTRKEGEWWAMMDEVFHMD
+>tr|A0A1Q9AI17|A0A1Q9AI17_9RHIZ
+MNARILPLASLALSTPEPFAAQTFDDPVAAVDALEALYARNTGFLTDAFVALGKSGKANT
+RYRACYPQVSIETTSYGHVDSRLSYGYVSAPGVYTTTITRPQLFRHYLKEQLGHLIRNHN
+VAITVSESATPIPLHFAFGEGAHVEATLAENIEVPLRDLFDAPDLTTTDDEIANGSYEPG
+PGEPFPLAPFTAQRIDYSLARLAHYTATSATHFQNFVLFTNYQFYIDEFCAWARQQMAEG
+GHGYTAFVEPGNIITHAGADKPETDLALARLPQMPAYHLKRKGHGGITVVNIGVGPSNAK
+TITDHIAVLRPHAWLMLGHCAGLRNSQALGDYVLAHAYVREDHVLDDDLPVWVPIPALAE
+VQVALQDAVAEMTGYEGYDLKRIMRTGTVATIDNRNWELRDQRGPVKRLSQSRAIALDME
+SATIAANGFRFRVPYGTLLCVSDKPLHGELKLPGMATAFYKNQVSQHLQIGIRALQKLAA
+MPPEKLHSRKLRSFFETAFQ
+>tr|A0A1Q9AIY9|A0A1Q9AIY9_9RHIZ
+MEEFHKVRRLPPYVFEQVNRLKAAARAGGADIIDLGMGNPDLPTPQAIVDKLCEVVRDPR
+THRYSSSKGIPGLRRAQAAYYARRFGVKLNPDTQVVATLGSKEGFANMAQAITAPGDVVL
+CPNPTYPIHAFGFLMTGGVIRSISVEPDDSFFPPLERAIRHSIPKPIALIINYPSNPTAH
+VASLDFYKEVVAFAKKHELVILSDLAYAEIYFGDVPPPSVLEVPGAMDCTVEFTSMSKTF
+SMPGWRMGFAVGNDRLIAALTRVKSYLDYGAFTPIQVAATHALNGDGSDIAEVRAIYKRR
+RDVMVEAFAKAGFEVPPPEATMFAWAKIPEKFRHLGSLEFSKLLVEKADIAVAPGIGFGE
+QGDDYVRIALVENEHRLRQAARNLKRFFSSADDTLHNVISLNARR
+>tr|A0A1Q9AHQ1|A0A1Q9AHQ1_9RHIZ
+MKISTVLMASAVTLSAVCGASAASAADTVAFLMPDQASTRYEQHDFPGFKAEMSKLCAAC
+TVIYQNANGDASLQQQQFNSVIAQGAKVVVIDPVDSSAAAGLVEIAQSQGVKVVAYDRPI
+PGKPADYYVSFDNEKIGYAIAKSLVDQLKATGVKEGAGVLEINGSPTDAAAGLIRDGVHR
+ALKESGFKTLAEFDTPEWAPPKAQEWAAGQITRFGAEIKGVVAANDGTGGGAIAAFKAAG
+VKPVPPVTGNDATIAALQLIISGDQYNTISKPSEVVAAAAAKVAVQLAKGEKPDAKTTLY
+DTPSELFVPAVVTAENIKAEIFDKKIQTAAEVCTGEYAAGCKKLGIQ
+>tr|A0A1Q9AG97|A0A1Q9AG97_9RHIZ
+MENRKTYFHLHLISDSTGETLIAAGRAATAQFQAYHAVEHVYPLIRNRKQLMQVIESIDG
+APGIVLFTIVDRELAQLVTSECQRLGVPCVAVLDPIIDLFQSYLGTASRRRSGAQHVMDA
+DYFARIDALTFTMDHDDGQLPVDFNEADVVLVGISRTSKTPTSIYLANRGIRTANLPIVP
+GVPLPEGLLGATRPLIVGLVATTERIAQVRQNRVLGATTDYHGADYIDRAVINEELRYAR
+QLCGRHGWPIIDVTRRSIEETAAAIVALRPRLR
+>tr|A0A1Q9ADN7|A0A1Q9ADN7_9RHIZ
+MHIRRSPEEIAANRARYEEHQRKGLDFAPKALPGFSPLPAPAIDAASIIHREVIPGGWYD
+AMKVKAGESLRISLEHGFSSLALIAWSAADPSERLNLPDTVKMQWTTGLSKGRVIFSDMG
+RVMFSITEDSSGAHDCLVGGSSAASNACYGDPMLRDTRDNFVKLALKIGLNRRDIPAMLT
+LFAPVRVDAEGRFFWNPALLNGADYIDLRAEMDMTVGFSNCPHPLDPNPAYAPNPVTITR
+FNAGPVAADDLCRTATAEAVRGFENNALASL
+>tr|A0A1Q9AH10|A0A1Q9AH10_9RHIZ
+MRPLLLAASLTVGLAAPGQAQAETLNLLIWESYIDQSLLDSWSARTGISVKQSYYDSGDM
+RDEMLADPESKADLVVIGEGGGAIFGKRGLLEPLSVETIPALESYEPSWRQRCGGYGVPY
+LWGTMGILYRSDQVTSAPTSWEDLLLPSSGMRKHIAMYNDHSEAFVPALVYLGQSINTND
+KPVLKAAFELMKRQAPFVLTYDYVISSVQDPKLGDRIYMALGYSGDQKTLNDKTGQKNFW
+RYAVPKEGTLSWLDCIAVMAHSPRKALALDLVEFLSQPRQAAQNAVALRMPVVSQAALAF
+VPPAQRGDPEIYPPDEALARIQFQTELSAQSIQLRRRIITAVASFQ
+>tr|A0A1Q9AM41|A0A1Q9AM41_9RHIZ
+MTTSTPHSAPQTTDMRKFLVLLLGSIGVVYGDIGTSPLYAFREALRPFSHDGVSHEEVVG
+LISLMVWTLTIIVTFKYVLFLLRADNDGEGGTLSLLALLMKKASRYNKVLFFAGIIGAAL
+FIGDAMITPALSVLSAVEGLKLVTPALSDYVLPISVAIMVALFMVQSRGTAAVSNFFGPI
+TVLWFLVMGIGGAVHIADDYTILHALNPLHAIGFLGHAGFVGLIVLGAVFLTVTGAEALY
+ADLGHFGRRPIQVAWFILVFPALALNYLGQGALVLDQPEKIENPFYLMFPEWALLPVVIL
+ATLATIIASQAVITGAFSLARQAIHLGFLPRLEVCFTSETNTGQIYVPAVNTLLLVGVLI
+LIFTFGSSESLATAYGISVTGAMVVTTLLAFQFLRVVWGWRPVTAAICLLPLFLLECIFL
+AANLLKIHDGGYVPVLIAAAIMIMMWTWRKGTMLLREKTARHEIPLEAFIASIERKSDHA
+PVQVPGTAVFLTSVPDKTPAVLLHNLKHNHVLHQHNVILTIKTAGVPYLPDDQRFTLTKI
+SERFTKLELKFGFMETQNVSRALGQCRKAGFKFEIMSTSFYLGRRKLVGDAKSGMPQWQD
+RLFIALAGAAIDPSDYFHLPANRVVEIGEQVVI
+>tr|A0A1Q9AF69|A0A1Q9AF69_9RHIZ
+MDNSGAFERIEGDFAAGLVLLGDHATRRLPDDYGHLGLPHAAFERHIAYDIGIEPLLRRL
+CQLTGAPGVMSCFSRLLIDPNRGEDDPTLIMRISDGAIIPGNHPITPDEWQRRIARFHRP
+YHMAVDRLIRQVEAAHGAAPLVISLHSFTPAWKGVPRPWEAAVLWDSDDRVARPLIEALE
+AQAIHTGDNEPYDGALKGDTLYRHCMMRGLPHALIEIRQDKIGDAAGVEDWAQRLAPLLM
+DLNRRPDLHRHERHASRTGPYPATDELESKASPDLGKVLPALRPAAI
+>tr|A0A1Q9AK11|A0A1Q9AK11_9RHIZ
+MTGAPKLLEVTGLKATYGHSITALDGVDLSLAEGEILALLGGNGAGKTTTLKAISNLLPA
+ERGQVTEGAVRYQGETVLSRSPAALVRAGLVQVLEGRHCFKSLSVEENLVSGGLGRSASR
+AEIAEDLERVYSWFPRLRDKRRALSGLTSGGEQQMTAIGRALMARPRLLILDEPSMGLAP
+IVVQDIFRALRRLNTQEGLSILVAEQNSAIALTYADRAVILENGRTVLEGDARELKARGD
+VRAFYLGQKAAPTGLAAH
+>tr|A0A1Q9ALS8|A0A1Q9ALS8_9RHIZ
+MADEADQMQLRLFGLPHYGGTSAEFFPAKAYILLAALLLAPHQTLSRQTAASLLWEDVEH
+KRALGNLRQLILRMRNLTGSSDGFVKGDGNNLLAGHLAETSDLGRFLRSLNFDAPAERSD
+ALLAVGGELLQGLDVGQHHLYLWLLSERRRLKDLFFSAYVQLMDELTRFGAGKGADIAKL
+TAAAVRLEPDREETYQAAMSAYARAGNVLESNKIFEALQHELRADGRVPEAATFALHRRL
+RSASVSSYDKDRDGNLGDRPRRKLARVAFLRPARLDGRPPAGGIRAFMEDVANSLARFRS
+FSVLAPHSTFAFETDTCDDRYSLLRVDYRVVARVFDDARLSVSLIDEQGGEIVWSLEIVL
+AERHIHSAFRVLSKQVAIALAHEIERIQIEPGRQHNGEAYRLMLEGQQLLNGRCDLPFIR
+RARSLFRRAIDLDHSLAAARARIAQTLQLEWLMLGGNDPHLLHRAKAEAEASREIDPALG
+VGFWMEAVVALYQRDFDRSAEKFFEAEALAPNSADLLLQHADALAHFGDCETAWEKFQSA
+IDLNPLAPDIYWWAGASIAFDRKDYIGAVNLCSHMNNDEPALRILTASHALSGDLDNARR
+CAGRLRENYPGMSARDIAALSPDRDPAANENFCNALRLAGIK
+>tr|A0A1Q9ADB2|A0A1Q9ADB2_9RHIZ
+MTDNPIRAGARRGIRRLRMLAVLIIAVIGAVASCAITVPWSLLDLRAYDYLSTLAPPPLP
+ADGPIVVAIDEPSLSELGKQWPWPRAMHARLLEALRAAGARAIGFDIIFSEPAADPVNDA
+VLAGVLGPDVVLAGDESVIVTPQAEQFLRTEPLPAFLQTGAQTGIASVQLQADGALRRLP
+EQADSFAAVLARAAGHAITAPEGERLIRSFGPARTYPTVSYYQALDPASFLPPDLFKGRT
+VIVGLSLQNTPTLQAGGADSFATAFTAWTGRLTAGAEVQATIYDNLVHGLSVHPADGVLK
+LGSIVLAALLGGLAVLRSTGRRTAAAALLAPALMVAGSFAILHVSSLFVPPGAPVVAFLL
+VVLAQSAFDYAAEQRMRRDITRAFSSYLSPDVVRQVAEDPSQLQLGGQRRTLSILFCDVR
+GFTTISETLKDNPEELTRLINRLLTPLSDIVLESGGTIDKYIGDCVMAFWNAPLDVPDHA
+SRAVKAALAMLASMDGLNAALEEEARAAGRPYFPLRIGVGINTGDCVVGNMGSSRRFDYS
+VLGDAVNLASRLEGESKNYGVPLLLGPETARQAGGEVPLVELDSITVKGRNTRSPIFTAA
+PDASAETLARHAQLIARRYAGTLSADDAEFAALEAAMPELKAYYRLTRERLAYTA
+>tr|A0A1Q9ANV1|A0A1Q9ANV1_9RHIZ
+MELLHAQAAIVSAIIADAPSPAWEHITVRVAAEGAAPQIEASALCWQATGGLAEIALQPG
+AQSAAALAAWLALDAVRQNPQARRLMLEIDYPGRYRLLSGAAIKGAAI
+>tr|A0A1Q9ADF4|A0A1Q9ADF4_9RHIZ
+MTMTKGLISAVSALAVSACLTAGPAAAGEVKIWTLTFDNNSANLAWDKTIKEFEAANPGI
+TVTREGRSVDEHKAALRVAAQSSQGPDIYFMWAGLGLGGEFVKAGLSKPLDAYYQQYDWD
+KRIVGTAGSFSKLYEGGRHGVPYTFHGEAIYYNKSLFQKAGIAELPKSYDELKAVAAKLK
+EAGIMPMTFGGTVNWHLMRLMDVILEAKCGAEKHDQLMDMKLDWGTEACATASFNELADW
+SQNYILKPFMGIDNSQSFNLFLANRAAMMVEGDWLVGQLSDAKKIDNFDLFPVPTGTDRL
+YGFAEYLYVSSKSRNPDEAAKFLDYLLSDKVQQENLGAFGSISVNSNVKYSKISALDQKW
+LDIFGEYTKIYVNGDQAFPLDVTTEYWRVINEVASGNIKAGDAGKTLQTFISNRG
+>tr|A0A1Q9AIQ8|A0A1Q9AIQ8_9RHIZ
+MNVQTRVKERAEEQASAMSNDQQSAIRALANDLHRLNHSVMRAVEAGVSVELVRSARHHG
+GDGQWGDLMIPVILTRAS
+>tr|A0A1Q9AKX7|A0A1Q9AKX7_9RHIZ
+MSDIAERVKKIVVDHLGVDAEKVTEGASFIDDLGADSLDTVELVMAFEEEFGVEIPDDAA
+DSILTVGDAVKFIEKAQA
+>tr|A0A1Q9AP94|A0A1Q9AP94_9RHIZ
+MTLLILGLLIFFGSHLVHVLAPGVRATAIARLGLGPWRGLYSLISLAGFVLMIYGFGQAR
+AVTGLLYNPPVAMKHVTLLLMVPAMICLVAGFLPAGRIAVAVKHPQVLAVKIWALAHLLA
+NGETSSVILFLAFLAWGVVLRISLKRRERRGEPVLPVFKSSRYDTMAIVLGLLLYGLMVW
+RLHEWLIGVSPLPMA
+>tr|A0A1Q9AQ02|A0A1Q9AQ02_9RHIZ
+MDGFAEQDLGSLSGRRILLIIAGGIAAYKSLDLIRRLRAAGAEVRPIMTAGAQAFVTPLA
+VGALAADKVFTDLFSREDEQDVGHIRLARDCDLVLVAPVTADLMAKMAHGLADDLASTVL
+LATNRPVLIAPAMNPVMWAKAPTRRNLMQLKADGIHVVGPGIGEMAEAGERGEGRMSEPA
+EIAAAAAALLRPAGAGDARRDRPLAGRRAIVTSGPTHEPIDPVRYIANRSSGRQGHAIAA
+ALAELGADVTLVSGPVTLADPAGVTVHHVETAREMLDAVLAALPADIAVMVAAVADWRVD
+TAAGEKIKKKAGEGAPLLSLTENPDILKTIGHHAQRPAMVVGFAAETQSVLDNGRAKLAS
+KGADLIVANDVSPGTGIMGGPRNQVAILSAAGVEHWPELDKSAVADRLALLIAQRLSPAP
+GQEASAAQDA
+>tr|A0A1Q9AN63|A0A1Q9AN63_9RHIZ
+MGVIYSMIVWLMLIAISMLLIARCAGAVEICSGGHRAERKVTCVVDGDTIWQRGLKMRLL
+DIDAPETFGAECPREKALGEKAKLRLQELMGGGYRIANSGLSDRTTDHRALVRVFIRNGR
+DAGQELVKEGLAQPWPNKGNKWCGR
+>tr|A0A1Q9ADD8|A0A1Q9ADD8_9RHIZ
+MKIHHVFAAVLLATTAVGGAYAADQAIKPETTPVVAAERVADKDVGKLSQDGAQAIQDVH
+AARLAIFNADPQQAKTLIHKADAAIEKAQKDDAVYLKAEAKLDAKLNQIADKTKPAPKTV
+TDDPAKEIAWLPIDGQLTLGEDFVSTPAKADAIKKANDSVQKGDRKGAIDTLKLAGVDVN
+FTMAVLPLDKTVSDIQQATSMIDSGKFYEANALLKGTEDRMRFDIVDVTGVPVAAHQTKA
+GAPANQNAAATPAKPETVTK
+>tr|A0A1Q9AJ74|A0A1Q9AJ74_9RHIZ
+MASHGIPHFQNDGGHAVIEIGVKEFMCTGASIPFDHPHIFIDMGDDNEKVCSYCSTLYRY
+NPALKAEETVPSGCLFSVKAA
+>tr|A0A1Q9AKE5|A0A1Q9AKE5_9RHIZ
+MPAMTYRDALRQALDDAMTEDKSIVVIGEEVGRYGGAYGVTKDLIKVHGPERLIDTPISE
+PAIIGAAVGAAMTGLRPVAELMYIDFLGMTMDQLANQAAKIRYMFGGQIGVPMVLRTQGG
+TGRSAGAQHSQSLEAWIMHTPGLRLAMPATVADAYHLLRQSLTKPDPVVFIEHKALYTRK
+EEVDLSADPLPWGKAAVRRQGDDLVIVTYSRQVLYALEAAEALARKGIEATVIDLRTLNP
+LDFDTIRTHVERVGKAMVVSEGVMTSGVAAELCARISEECFDFLEQPVIRVAGEDIPISV
+SQELESGSVPSARIIAEVAERLTA
+>tr|A0A1Q9AMK1|A0A1Q9AMK1_9RHIZ
+MSRREEIRARIMARVRIDEETGCWIWTGPTSGEEGRGAGYPRMSLSGQTVAVHKAMWTNE
+HGLIPSTRELDHVCRNRLCVNPDNLNHVQLVTRKRNKLRMWEARRAAIICEETTDAQR
+>tr|A0A1Q9AJ47|A0A1Q9AJ47_9RHIZ
+MILLFETYWPHVLAVLSVVLGVPAAVHATMTKQEVRAALGWVGIIILSPVLGAAIYAVAG
+INRMRRSSIGQLRDNMRWARADGLDGFLVERAAIEDAYGHRFGALTLLGDRVSRHALHAG
+NRITLLDGGDAAYARMLAAIAAARRSILLETYIFDRDPVGLRFVEALKAALARGVEVRVL
+IDAVGARYSVPSIVQALRDGGVTVKTFNGNIVMGLRLPYANLRTHRKILIVDGETAFTGG
+MNIRAGFTREFSGDDQARDTHFELTGPVVASLFQVAAEDWLFSSGETLAGPAWTLTLPRE
+AVPNAPTILRVVPSGPDKANESNHKMLIGAFSVARRSIRIMSPYFLPDRELISALVTAAL
+RGVTVDIVVPAVNNLQLVDRAMQAQFDQVLKGGCRVWRAQGPFNHTKLLAIDGRWAYAGS
+SNLDPRSLRLNFEVDLEILDREMAQALEARVDKAIADALPVTLEQLSQKPFATRLLNRIF
+WLGSPYL
+>tr|A0A1Q9APB9|A0A1Q9APB9_9RHIZ
+MTLTLLRGRTLSFTRLPQDLTDTGAFAYESDGAVLVENGLIVASGAYERVRADLGAREAV
+EIDHRPHLILPGFIDTHLHFPQMQVIGSYAANLLEWLNTYTFPEECRFVESAHAERIATH
+FFDEMVRHGTTTAVAYCSVHKASADAFFAEALKRDMRMIAGKVMMDRNAPQGLIDTPEMG
+YDETRAVIEQWHGKGRNHVAITPRFAITSTPEQMSAAQALAREFPDLHIQTHLSENRDEI
+SFTASLYPDAVDYTDVYARYGLLGPKTLFGHCIHLSEREMDAMSETGSVAVHCPTSNLFL
+GSGLFPLKRLTGRERPVRVSVATDIGGGSSYSMLRTMDEAYKIQQLLSERLNPFESFYRM
+TLGNAEALSLEDRIGTLAPGSDADLVVLDVAATPAMALKAEVIRSLADELFLLQTMGDDR
+AIAETYVAGKPAKAGLAAA
+>tr|A0A1Q9AMF4|A0A1Q9AMF4_9RHIZ
+MALVATLVAAPSNPVLTPALGERAAEAASASGLYWLADGIACDLALKDGQPAEEAEAALR
+AALDGAPVDIVVQVADDRRKAFLVADMDSTMIQQECIDELAAEVGLKDKVSAITARAMNG
+EIAFEPALIERVALLKGLPLSVIDDVLAKRITLMPGGPELIATMKAKGCYTALVSGGFTL
+FTGPVSKILGFDEHRANRLVAEGGQLTGAVERPILGREAKVEALVEIAARLGLTPEDAMA
+VGDGANDLGMIQLAGAGVALHAKPTVAAQARIRIDHGDLTALLYIQGYRKTDFVQPVA
+>tr|A0A1Q9AEU3|A0A1Q9AEU3_9RHIZ
+MSKSAIVLAGRVLMSIIFVLSGFSKITSLAGTAGYFAAQGLPVPMVTAVIVSLVELGGGI
+AILLGVFTRPVAVLLAAFCVATAFIAHANFADQMQLINFQKNLAMAGGFLILSAFGPGAL
+SIDARRAGASFA
+>tr|A0A1Q9ANY8|A0A1Q9ANY8_9RHIZ
+MVFHSLDRPAQSDMAALSRSRLLPNLYDLIAIAFVIALGALAAHGVAEMRAPMNVLAGDP
+ISLDPARLPEYALRTTLRMLAAIVASLLFTFIVATMAAKSRRAEMLIVPALDILQSVPVL
+GFLTFTVTFFIGLFPGSQMGAECASIFALFTSQAWNMTFSFYQSLRTAPRDLDEVCRGFR
+LSAWQRFWRLEAPFAAPGLVWNTMMSMSGGWFFVVASEAITVGNTTVQLPGLGSWLAVAI
+DRQDFKAVAWAVLAMGVVILLYDQLIFRPIVAWADKFRFEQTASGQRPGSWVYDLIRRTR
+FLRILTAPLAGLWDGLMMLRLPVPALPASVRQKGRDLSRLFDILWFGAVGALGIWGVWSL
+VTYVSASLGWADLGQAFAGGLATLVRVIVLIALASVIWVPLGVWIGLRPHVAQKVQPVAQ
+FLAAFPANVLFPVAVLAIVSTGASPNIWLSPLMVLGTQWYILFNVIAGASAFPSDLREAA
+AVYRLRSWTWWRRVILPGIFPYYITGALTASGGSWNASIVAEVASWGNTKIEAFGLGAYI
+AKATEAGDFPRVILGIAVMSLFVTLFNRVLWRPLTVFAEKRMRIN
+>tr|A0A1Q9AP60|A0A1Q9AP60_9RHIZ
+MRLLLDTHILISILMGSTSRLPANIRAILDPLTSGRLGDEDEIFVSVATLWEMAIKVRLG
+KLGLGVSIDILPDVIARLGLTILPVEASHALFHVQPEPPTRDPFDRLLLAQCAIEGLRLV
+TTDHAMADHPLSATHNG
+>tr|A0A1Q9AGG6|A0A1Q9AGG6_9RHIZ
+MRYALYFTPPADDPLTLAAARWLGRDAFSGAVLEQPAVPGLDRERFFDLTADPRRYGFHA
+TLKAPFALKDDASETALLDAFERFAGTQPAFDIPELALTRIGSFLALVSAEPCAPLQDLG
+AAAVRHFEPFRAALSEADIARRKPETLSERQRLALMDWGYPYVFEDFRFHMTLSGRVPEA
+EQPALQAAAEECFAGFIGRPLTVKTVGLFVEPAPGAPFTARALLPLAGLG
+>tr|A0A1Q9AII5|A0A1Q9AII5_9RHIZ
+MGIESILIFLLIGAVAGWLAGLIVAGGGFGLLGNIVVGIIGAFIAGLLFPSLGFRLGGGV
+LAAIVHATLGAVILLALIRVLKRA
+>tr|A0A1Q9AK84|A0A1Q9AK84_9RHIZ
+MSYTLDFSAVIERLPELLLASLATIGLALAGMSLATVIGVLGVIARRSRFKLLRGLVIGF
+VEAIRNTPFLVQIFFIFFALPQIGVRLNPTVTAIIALALNGGAYAIEIIRGGVDAIPKGQ
+VEAGLALGLHRGQIFRHIILKPALRTVYPSLTSQFVMLTLTTSVCTSIAAYELTSVAQKI
+EADTFRSFEVYFTITLIYLVISSLMMGVFGLISRISFSYPVK
+>tr|A0A1Q9AL51|A0A1Q9AL51_9RHIZ
+MSAFAFAPQPRRTTVGVSVGGVTVGGGAPVVVQSMTNTDTADIDATVAQVAALHKAGSEL
+VRITVDRDESAAAVPKIRERLERLGLDVPLIGDFHYIGHKLLADHPACAEALAKYRINPG
+NVGFKDKKDKQFAAIIERAIAFDKPVRIGVNWGSLDQELLTRLMDDNQAKGFPLTAEEVM
+RETIVQSALISAELAEEIGLPRNRIILSAKVSNVQDLIACYAMLSARSNHALHLGLTEAG
+MGTKGIVASSASLGILLQQGIGDTIRISLTPEPGGDRTREVQVAQELLQVMGFRQFLPVV
+AACPGCGRTTSTVFQELAQKIQEDIRRNMPVWRAKYPGVEGLKVAVMGCIVNGPGESKHA
+DIGISLPGTGELPAAPVYIDGKKAMTLRGTNIAGDFETLVGDYIEKRFGNGQAAAE
+>tr|A0A1Q9AGU5|A0A1Q9AGU5_9RHIZ
+MTYVVTDQCTGCRYTECVTVCPVECFHLDDEMTYIDPENCIDCGGCVPACPVGAIQPAYL
+LPPEQQKWIEINRRRAAETPVITSRLAPLPGADQRKMALGR
+>tr|A0A1Q9AEQ5|A0A1Q9AEQ5_9RHIZ
+MSDEQRGSRSTEAFFGRRKGKPLRPMQASHLETRLPDLKLDLSTPAPGDLATLFPVPVSR
+LRLEIGFGGGEHLIHRAITEPDTGFIGVEPFVNSMAKLIGHIEEAGARNIRLYDDDATQV
+LDWLPEGVIDQIDLLYPDPWPKRKHWKRRFVSSVNLDRFARVLKPGGLFCFASDIDTYVN
+WTLLHCRDHEAFAWTAKASPDWLTPFENWPSTRYEAKARREGRSSAYLTFKRV
+>tr|A0A1Q9AQL7|A0A1Q9AQL7_9RHIZ
+MTEQRGETTAAVEDAMQRLSSAYDAMPPEDIRAHALALAGVIASQNVAFASTVGTIRGMV
+DLRRQERAFFKSVLLEIRRAASMQATHRQKDARRQIASLADAVGPLLQAMNGEDLDAMTV
+QLNHFLDLRDAWPDVLLGFSFADDVLPSATLRLRKPAVPGTQFETRLRQHGMQYA
+>tr|A0A1Q9AF90|A0A1Q9AF90_9RHIZ
+MKSRESLVRLKEFQVKEKQRQLSQLQMMMAEFDRMSKELEQQIAFEEKKSGISDPAHFAY
+PTFAKAARQRAENLHVSIRELKVQQDAAELALEEVKAEFARASALEERDGSARARA
+>tr|A0A1Q9AI13|A0A1Q9AI13_9RHIZ
+MSSGFLSVLPLMLSVFLMMTGFGLAGYVIPVRSLAEGWSTLTISVIATGYTLGFTLSCII
+TPIFVRRVGHIRVFSALVTLLSIAILLCGLVVDWRAWIFFRATLGFAMSGSYLVIESWLN
+ERVTNENRGMLFSLYLITTMIGTVAGQYLVPLGDPKTSALFMLCGIIFSLALLPTALSTS
+PSPAPPSRANFNLPALFRRSPVAVVGSLLAGAMAGAWFNLGGVFTQKIGLTTAQGATLLA
+SLLIGSAISQIPIGRASDRIDRRKVMVACGALGVLSCLAMLAFSSAGAPTVYVLGACVGA
+MVFPIYALNVAHANDLADPDDYVSVSSGMMITYGLGTVSGPLMVGPVMDRFGPNALFFML
+GLYFLAYAGYAGWRILRRREEVGLVSKTEFQANTVPTPGLDVATAMSQPAPVLETSEEPD
+RSPGV
+>tr|A0A1Q9AJ82|A0A1Q9AJ82_9RHIZ
+MNHIIFGGDGFVGRHLAEKLIADGENVVIADIVKSDLPLYQRARYVRCDVTDFAQVQAVG
+IAPDDMVYNMAAKMLSPLQVRAKRWEFFWPVNYYGAENIMKATHEAGCTRLVQFTTDMIY
+GHTVQSPQTEDHPAAPLGEYGKSKWATEQLAFDWRKKGLNITIFRPRLIIGPGRLGILEK
+LFKLIDANLPVPMIGSGKVPYQFISVFDCADAAYLGWKGGVPNAEYNLGSDNPPSVRKLL
+GDLIKHTGSRSILVPTPAFAVKKTLAFFDLINLPIMDPEQYLIADEMCVRETGRLKRDLG
+WAPRYQDGAMLIAAYDEYRAKKAGQTRASGAAVAAE
+>tr|A0A1Q9ADY0|A0A1Q9ADY0_9RHIZ
+MAELRLQIPDEVVAKLQARLGSKTKVTDIARDAITLFNWAVDERAKGRMVMSSEENGSDP
+ARLIMPSLDMAAARAGK
+>tr|A0A1Q9AGY7|A0A1Q9AGY7_9RHIZ
+MSDDQALWPPVDPVKSGLTGHCPRCGQGRLFQGLLAVRPACTACGLDFGFADSGDGPVVF
+VILIVGFIVVGLALWAEINFAPPLWLQIALWGPLAIVLSLVATRLMKGVLINLQFRHDAR
+SGKLDRPDPETRP
+>tr|A0A1Q9AQ11|A0A1Q9AQ11_9RHIZ
+MSTPATYARLIRIGWVLLREGVISAIPSENLPPAARLAQSAAKLFERRHAQNEERSQRLS
+RAVARLGPSYVKIGQFLATRPDVVGAELAADLAFLQDRMSTFSPAEAHQAVEASLGRSVT
+ELFENFGEPIAAASMAQVHPGLVRKGDALAKVAIKVIRPGIRQRFTRDLEAMYLVARMQE
+RFLPHMRRLRPVEVTKTLEQTTKVEMDLRLEAAALSEIAENTKDDPGFRVPAVDWERTGR
+DVVTMEWIEGTRMADVAALKAAGHDLERLATTLIQSFLRHTLRDGFFHADMHQGNLLVEA
+DGTIVAVDFGIVGRLGKKERRFLAEILFGFITRDYLRVADVHFEAGYVPAHHDMASFAQA
+IRAIGEPIHGQPAETISMAKLLTLLFEVTELFDMETRPELVMLQKTMVVVEGVARTLDPR
+FNMWKAAEPVVGDWIRTNLGPKRVMADLRDGLHAAIRVAEAAPEIALKTERLSRDITAMA
+EKGLRFDPETAEAIGRAEARHARSGRVALWVIAITLIVIAWELL
+>tr|A0A1Q9AIN9|A0A1Q9AIN9_9RHIZ
+MIQNVLRCLVAFAAMLLLAVEPAFAISRIKDVASLQSGRENQLIGYGLVVGLQGTGDSLR
+SSPFTEQSLRAMLQNLGISTQGGESRSKNIAAVLVTANLPPFASPGSRIDVTVGSLGDST
+SLRGGTLVMTSLSGADGQIYAVAQGSVVVTGFSAQGQAASVQQGVTTAGRVPNGAIIERE
+LPAKFKDGVNLTLQLRNPDFSTAVGMADTINRYASHRYGGRIAEARDSQTVVIDRPKMAD
+LAKLMADIENLEIQTDTPARVVVNERTGTIVIGQDVRIAPVAVSFGTLTVQVTETPTVVQ
+PAPFSRGETAVEPNTNIQAQQTGGTVAMLNGSNLRSLVSGLNSIGVKPDGIISILQGIKT
+AGALQAELVLQ
+>tr|A0A1Q9AMF3|A0A1Q9AMF3_9RHIZ
+MSSFLSRIMVGKSKAHFSAGANGRAPGAPSAFQGTRKRRGNQARNRVVIMICAFSAAYVV
+IAGRLVQYAMIDDETVASIGRSDNLMASRPDILDRNGEVLATDIRTVSLYAEPHKIVDAD
+EAVEQLSTVLPNLNVADIYNKLKSKSRFQWLRRQLTPKQQSQILALGIPGIGFRPEKRRF
+YPGGHTASHVVGHVNVDNRGIAGMERYIDAQGLADLASVGMTSDAKMEPVRLSIDLRVQN
+ILRDVLVEAQGKFKAIAAGGVIMNVHTGEILAMASIPDYDPNNPAAGAEEGWMNRMSNGT
+FEMGSTFKSFTIAMALDSGKVTLKDSFDARYPIRIGGFTIKDFHGKGRVLSVPEIFQYSS
+NIGTAKMADLVGIAAHKEFLTRLGLLTRVPTELPEVKMPSQPREWKKINSITISFGHGVS
+TTPLQTAVAGAALVNGGHLIEPTFLPRSAEEAEASSVQVLKAKTSADMRFLFRWNGINGS
+GKSARVPGFDVGGKTGTADKVVKGRYSSDHNFNAFLAAFPINDPQYVVLTFIDDPRSESG
+RAAIAGTTAAPMVHDVIARAAPLLGVEPKFGSDGSAMLVSY
+>tr|A0A1Q9AHI3|A0A1Q9AHI3_9RHIZ
+MSATAWSDATGSLDLTTLRRGYEDGSLTPSRVVNAIYDRIAARGDDHVWIHLVARETALE
+AARKLETEGYDGRPLWGIPFSVKDCNDIVGLPTTNALKEGAYVATSSGQALDRIFEAGAL
+LIGKTNMDQFGIGLVGMRTPYGACSSVFDERFISGGSSSGSGVSVAAGLSSFSIANDAAG
+SGRVPAGFNNIVGIKPTPGLVSNACVSGGGCVKTIETLSVFALTVEDGMAVLDLMAGYDP
+TYPFSRPEADGVTLTPSAPPPRFRFGVPKGEALRFFGDTEAERLFNEAIARMTAMGGEKV
+EIDFTPFDETQRILYEGPWISERALSLDSVLAKYGEAIHPVTRQILSRSGNFTALDTFAA
+IHRIAELKRDTRPVWEDIAVLMVPTTPTIYTKAEIAENPIELNSRLGIYTNFVNLMGLCG
+IAVPNGFRADGLPLGVTFLAPGFEEARAAGIAAAFHRETGLTLGKSDNPYPPAEPSALPE
+GYREIAVVGAHLSGMPLNHELIERGGIFLRAASTLPAYRLFALGGTVPPKPGLIRVADDG
+AAIAVEVWALPVEGFGDFIGRIPAPLGVGKLALDDGSEVTGFLCEGMAVAGQADISHFGG
+WRAYRAAGA
+>tr|A0A1Q9ALH1|A0A1Q9ALH1_9RHIZ
+MTQLPLDYETLRLVWWLLLGVLLIGFAIMDGFDLGIGALLPFAARTDEERRTLINLVGPT
+WEGNQVWLILGGGAIFAAWPALYAVSFSGFYLAMITILLALILRPVGFKFRGKIADPRWR
+ALWDWALFIGGFVPALIFGVAVGNVLLGVPFGLDGTLRPSYEGTFFGLLRPFALVSGLVS
+VAMLVAHGAAVIALRTEGPVAERAGAYGRMAAAAGFVLFLLAGLWVAFLLPGYVVTSVQD
+VFGPSNPLNKTVTLAAGGWMANYAAHPWMIAAPVLGLGGLLVATLTLGRSALVGLAATTL
+AITGIIATAGLSLFPFLLPSSLDPAVSLTVWDASSSHMTLFIMLVSTLIFLPIVLAYTAW
+VYRVMRGPVTPASIGRNPNAY
+>tr|A0A1Q9AGF6|A0A1Q9AGF6_9RHIZ
+MQCFAPAMLSAQRAGRLPAIGPEPTGADLTGDGCAMMAACPGMTAIAMRAASMSAPSEGR
+HEALRRLSLDWAVHAPLADGAWRCRKHHAAAARLERAARQMEQAGG
+>tr|A0A1Q9ANC7|A0A1Q9ANC7_9RHIZ
+MAISLLDALDLRAAPAREKLDLDSAALFPEEHFARRSDLNIPGIDGLQNRLQDIDQAIET
+ERDERAADDAELRQDLDGFRGDLQFEADERERQDAMIRTSVVSEREAREAGDNALDGRAD
+ALELEVTTARNGFPSLDGRLDAGDQALADEVAAREAADHALDGRTDALELEVTTARNGFP
+TLDGRLDAGDQALADEVTARLAADAIHDDKISGYGSRDILDLAKKYVRAGYDNVVFGINW
+RILSAYRERDDTSIIGTRALEMAAYRVDNDPRFLRSGLAAAVLDRLGRIVTGLRLRDDTF
+LIGATGLETGGGWRMAKERRLGRSGLIAPVIDSARRLISAYRLRDGAHVFFGRRLDVAGI
+RLDRGDKYARSGIVGALFDRAGHLIRGQHPRLDREMIGAAGIQTRFQAWNGIDPRALARS
+GFLRADVDPARNILTAVKADGTRYAEGEVQPDPPDHGFELTLEGGAVISNDRKTGARLKL
+SRTGQVASAPLIAPDGMARWTADGTTWFSPVDVAKSHRVMPMREVLGVGDSLMEADWGAE
+FATMSGIPFRNIGRSAATSRNCAARVGAVPLRLYSVTGEIPASGTVQVSTLDKLGFASFY
+AEGSVSGIPALWGGVAGMLSWDRPSGVMRWTRTTPGAAIPLTGSLPCIWPPIENITGAAL
+PDLLERRLILDWGRNNPDEPERILADFEATIAAQPTAVKQFLVCPFMPERDEVLTNHPRA
+RNRAWLLAECRKRWPDNTVDKLAAFIAAGNPADPDDAAAIAAGYPPPSLMQPDRIHPNAA
+GRTVTATFYVNIFQAKGWA
+>tr|A0A1Q9AP96|A0A1Q9AP96_9RHIZ
+MLLVWHRNAWEDYLYWQEHDQTLQGRVNELIKDILRHPFQGIGKPEPLRQNLKGYWSRRI
+SGEHRLIYTVSGAGDQQAVTIIQCRFHY
+>tr|A0A1Q9AHV8|A0A1Q9AHV8_9RHIZ
+MRILVKGAGVGGLAAAFALHRAGHQVTVCEKAADFSAAASWLAGGMLAPYCERESAPERV
+LADGLGAADWWAQAVPGSVTRAGTLVVAPARDEGELERFARRTRGFEWLDAEGVAALEPA
+LAGRFRRGLFFREEAHLDPRRTLLALRDRLVAEGAVIRFGMEVGEAGLSPASHDCVVDCT
+GAAARGRLPGLRAVRGEMLMLETPEVTLSRPVRLLHPRHPLYVVPRAGGRFMVGATMIES
+ETQGLVSARSVMELLNAAYALHPAFGEAHLAETGAGLRPAFADNLPAITGEGGQFQINGF
+YRHGFLLAPSIAEALAARLAKTPAPATLAPETSGPEKLGHFLQGEVA
+>tr|A0A1Q9AIL9|A0A1Q9AIL9_9RHIZ
+MYQFSYAEIMEDGVADSKDRERQVLERSIALLEAAKEQKGYSREAIEAVYFTRRVWIRFI
+EDLSAPDNQLDDELRANLISIAIWILGETEKIRKRESNNFQGIIDITTIIRDGLK
+>tr|A0A1Q9ALK3|A0A1Q9ALK3_9RHIZ
+MLRRHPLWILFGLLAVAAICIVGYFVWLVYFHPYESTDDAFVEARSFAIATKASGYVETI
+DVTDNQHVDAGARLMTIDPTDYQIALDQAKGQVESARAAIESAEAQIAAAGAAIDEERAQ
+QTSAAAALQFAQEEANRQQDLAKSGAGTVQTAQQATSSLRQAQANAAQTQASVVSAMKNK
+AVAEAQRANAIASLHQAEAGAAAAEQKLKDTVIIAQQAGRVVQLSGAKGQFVTEGQSLAM
+FVPDEVWVVANFKETQLTDMRPGQAVALSIDAYPDHPLTGKVESIQPGSGTAFSLLPAEN
+ATGNYVKVTQRVPVKITVDRWPADVPVGPGMSVVPTVTVRPRS
+>tr|A0A1Q9ALH7|A0A1Q9ALH7_9RHIZ
+MAETSELISGVAERYASSLFDLALEAGSVEAVGADLDRFQALIDESADLKRLIVSPVFTS
+EDQFKAISAIVEKAGITGLVANFLKVVAKNRRLFAVPGIVRSYRETAARHRGEIAAQVTT
+AHALNDAQLDELKAALKSVTGKDVAVNVTVDPSILGGLIVKVGSRQIDTSLRTKLSSLKL
+ALKEVG
+>tr|A0A1Q9ALR7|A0A1Q9ALR7_9RHIZ
+MPAALGEALIRKCQGNLSLGLRPLIVTTEDGVGGAKALSKQAGVDDRLDVIEIEQFIATN
+VYEWSVFERDARPTAVQDIIERYNRIVADVESDPSLRIEFEG
+>tr|A0A1Q9AG64|A0A1Q9AG64_9RHIZ
+MAEIAPKLIALPPDLAERVEAKLRSGRYDTEESVLRESLSALDERDDAMEAWLRDEVAPA
+YDAAMADPGRAVGLDAVRDRLHAHIGTILSKSRQ
+>tr|A0A1Q9AKD9|A0A1Q9AKD9_9RHIZ
+MTTIYLAGPEVFLPDAPAIMAEKRRLARAHGFEPTGPGSDENQAPQHPASGGVLTADAIY
+RRNDLAMRCADICLANITPFRGISADPGTVYEIGFMIALEKRVWAYSNHPADYGKRVAED
+WYRGAALDRSDGRPRGPDGLAVEDHGMADNLMIDGGIAATGGRLLRAAALPADPARDLAT
+YAAALAALAEAVAKG
+>tr|A0A1Q9AKR6|A0A1Q9AKR6_9RHIZ
+MRNPVDTAMALVPMVVEQTNRGERSYDIYSRLLKERIIFLTGPVEDHMSTLVCAQLLFLE
+AENPKKEIALYINSPGGVVTAGMAIYDTMQFIKPAVSTLCIGQAASMGSLLLAAGHKDMR
+FALPSARIMVHQPSGGFQGQASDIERHARDIIKMKRRLNDVYVKHCGRTYEEVEQTLDRD
+HFMTADEAQAWGLVDKVITSREAMEAAPPAA
+>tr|A0A1Q9APE6|A0A1Q9APE6_9RHIZ
+MTKTDVSGLSLLGQKTDLPAGPDEAVLERVPSGHQGTNFVVRFTAPEFTSLCPMTGQPDF
+AHIVIDYVPDEWLVESKSLKLFLHSFRNHGAFHEDCSIDIAKRLVDLLAPKWLRIGAYWY
+PRGGIPIDVFWQTGAPPEGVWLPDQGVQPYRGRG
+>tr|A0A1Q9AF13|A0A1Q9AF13_9RHIZ
+MVIEAARQFLGLKTEPAHGVLVQAERRAAKRIRLSWVWTTDKHPDANLGDALSAVIVSVI
+SGRGVERAAFNNTSERLAAIGTIGHAQQGACVHLWGTGFDLGRHVDGTPGDYALPENTEL
+VVHAVRGRRTAEGLRARGIQVPDIFGDPAWFLPRIFPFAGLEKTHDLGVIVHISELEEAR
+AGALVRATIERYKLPPEMAERIRIINTYCGADMAGMEDKLREMVSCRRILSTSLHGLVIA
+ETYGIPCAWFSTGHGEPGALSLEGPVPIDHRMVDFYSGAGREAVLSYLQPLAQPTDWEAA
+MAFIDAQWRPLDYTGEALFAAFPLPKAVKFKQPVWALPTAVLESNRY
+>tr|A0A1Q9AKS7|A0A1Q9AKS7_9RHIZ
+MSKLKNARVEILKDETLSKNWYHLRNITFRYVGSNGQEKILKREAYDRGNGATILLYDPA
+RDMVVLVRQFRVPAYVNDDDGFLLETPAGLLDGENPAEAIRREVAEETGYRVHSVRPLFK
+LFMSPGSVTEIVHFFAALIEQQDRVTDGGGLAEEDEDIERVELPLDEALAKIATGEIRDA
+KTVILLQWAAMNRESLKA
+>tr|A0A1Q9AD31|A0A1Q9AD31_9RHIZ
+MTEQSPSLSAAVTATLAPGSELHLWLKALDAGRPARVTLTLDGRPAGEAVADNAQEFTFR
+TLKAEAGGAAVIAYDPAVTALSAAYAFQPDKVMEEGIAPLFHGPLNPPPAHLPLYHFVPP
+FGWMNDPNGFGRFGGRPHLFYQHYPHSLRWNTMHWGHAVSEDFLRWRHLPIFLFPNDALS
+KTADGLGGAFSGSAIPTAEGGIRVFFTEQVKDREPEEQNQWSAVSTDGVTAGPAELVVPG
+RPEGLNLTLDFRDPYVIKGPDGRFKMLLGSRDREGGIVLLYETDDVEGATGWRYVGLLHR
+ENRFGMTAAECPCILPLGAPEDPKTRWALIFALLTSRCPDTGRRNLTIATVGRFDGARFT
+PEFEQELDFGTDAYAFQGFRDGDETVMIAWLANWTDVSKKIDFHSAMTLPRKLVLDGKAL
+LSPPLDTAETLRQAPLDATALHRPEGMALGSGAAEILLTLPQAGTAFRLDIDHPELALGV
+EQTADGLAILYGVSGEKPSPRYLARQAAASEIRIFLDCGSIEVFADGGRWSGTKRLKSFA
+PATAARLAEGGEALSAKAFALSL
+>tr|A0A1Q9AEL3|A0A1Q9AEL3_9RHIZ
+MSILENMRIQTKILAITILFFAGGCTGASLISYRFYKADEAYSDFISQDATVTMLMARAG
+QRIFATAYSAYEIMVYDGASAEAAAAQKAYIDHKEALGKLLRRLPELLPQEAGAFSTFEK
+EANTILALTDKAVAVSLLNKDEEGKALLGEADPLISQLTTQMRKWNDDHIARVQKDSDAM
+SDQTVFTIKTTLGGLLTIFSLGLVAAILVSRRGITQPVHALRARMAALAAGDADSTVPGL
+ERKDELGEMAAAVAIFRDAAVTQKRMEQEATDTRQQSDRDREQRDVLRQREAAQIRFAID
+NIASGLTALSDGDLDYRLDTAFAEDLDQLRQDFNRAMNTLRQTVQGVSESARGIDAGARE
+IRTAANDLAKRTEQQAASVEETAAALEQITTTVRDATARAEEAGALVARARAGAERSGEV
+MGQAVSAMVEIEKSSAEISNIIGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQEV
+RELAQRSAQAAKEIKALISTSGNQVQNGVDLVGRTGQSLRQIVTDVEQIDRNVRAIVESA
+REQSTGLQEINTAVNTIDQNTQQNAAMVEESTAASHNLSQEIDTLTGLLAHFRMQGGGGQ
+TGGRREPGLAAPARGETAPHAYQQKLRAAFSR
+>tr|A0A1Q9AFZ5|A0A1Q9AFZ5_9RHIZ
+MIKARVTVTLKNGVLDPQGKAIEGALGALGFDGIGQVRQGKVFDLTIETADREKAEADLK
+AMCEKLLANTVIENYTIALD
+>tr|A0A1Q9AGG0|A0A1Q9AGG0_9RHIZ
+MDELSIQSEDYGPREPSSEGWRSWTTEKQKEASDPRRSAWVMANAGSGKTHVLTQRVIRL
+LLSGARPSAILCLTYTKAAAAEMSNRVFERLARWVTLDEATLAAEIAALEGGAPSRQQLE
+EARRLFARALETPGGLKIQTIHAFCEALLHQFPLEANVAGHFSVLDDRAAAVLMTDARRL
+LLNAAASRYDPALADAFATVLELADDTGLDKLLSELVAARAEVQGFLQGTQAEGGPGLRL
+RRSFALGPQETAETIVAGLWPFPTLSGATLEAYIALARSAGGAKAGAFAEGLAAAARIED
+PLGRLQALKPLFLSASTGKPLADSTFFTAKMTKAAPELEPAVLAARDHLLATLDRLNRLT
+MVEASEAALTLADRLNRDYEALKKSRSQLDFDDLIRRAAHLLTRDRVSAWVHYKLDRGID
+HVLVDEAQDTSPVQWTIIRALTGDFFSGHSARSLHRTLFAVGDEKQSIYSFQGARPEQFA
+GESEAAARRVEGSGQDFSAIRLQLSFRSTEDVLSAVDAVFADPNHARGLSARGEPVVHAS
+NRSGQAGIVEVWEPIVPAPEPDLDDWTAAFDATPEDAPANVLARRIAAVLEAEIGKATVI
+EKGVARPMRPGDVIVLVRKRDAFVGALTRALKARRDIPVAGADRLVLTRHIAIQDLVALG
+RFLLMPEDDLSLAAILKSPLLNLGEDDLMALAARRPQGACLWAAMREAGENAPKAVHSAR
+RRLENWQAMLGRLSVHDFYARVLAHDGGRAAFLARLGSEVGDVLDEFLTFALDHEKNSLP
+GLQAFIASLETEAPTVKREQDKERDEVRIMTVHAAKGLEAPVVFLVDSGGQAFSNQHVPA
+FRLMRDPAGAEDAVLPVWKAPKSAGNSLVEADMARLKGAAEEEYRRLLYVGMTRAADRLV
+VCGYQGKRPNPDSWHAMVTAGLSADPAGRAVPASFSAGDMDWEGLRWHATPPDQPAAAAL
+PVAKEPTGPKKTLPPALKTPLPPFPRLPRPLSPSGTGAVIEEQDRSGLIANSIFSRKAPV
+PSLLRGALLHRFLQVLPGMAEDEREPAGMRYLSRAVPHWPETRRRALVADVLRLTRLPEL
+ALLFSPKGRAEVSVMGTLTLGSRSVAVSGRIDRIAVEEGVVTLADFKTNRVVPNEAAFID
+PVHRAQLALYRAVLAPLYPHHAFRCLLVYTEGPAVFRLDEAELDEALDALSRQA
+>tr|A0A1Q9AJR9|A0A1Q9AJR9_9RHIZ
+MVFSISNRLARTATAAAIGLMLAAGPAAVCAQTQSAPSAPGSLEGQATPAPATPAAQPDA
+PAPDLSAQEGATPSAQSLDAQGEVQARDPALPHDLSPLGMFLAADWVVKGVMIGLALASV
+ASWAILVAKTAEIAAAKRRARKALARLAAARGLSDLADGSGLAGPGAQMVAEAREELTRS
+ETVIDLVPSAGLRERVASRLARVEAGAGKRAAAGTGILATIGSIAPFVGLFGTVWGIMNS
+FIGISQSQTTNLAVVAPGIAEALLATAIGLIAAIPAVVIYNYFARSISGYKAILADLTAS
+VERLVSRDLDQRLARRLSAERPLGERGLSSARGN
+>tr|A0A1Q9ADA5|A0A1Q9ADA5_9RHIZ
+MKLLPAIATLCAMTVVAGCAPTQQQFLAMQETVRGSAKARQLALESCMKDARPGDIKAAA
+IVTDSSEKAAPRLVCSRLIEALRSGRMTYADLVDLKQGRPTPKLIRIFQGR
+>tr|A0A1Q9AH80|A0A1Q9AH80_9RHIZ
+MILRSLASLATVLATLAWVAPAAAEEKLVLYTSQPNTDAQQTADAFMAKHPGIKVEWVRD
+GTPKIIARLRAEIEAGQPQPDLLLIADVVTMEGLKKEGRLMAYPGADTAAFDPAIMDRDK
+TYFSTKLITTGIIYNTKAPFVPKSWQDLTDAKARGLIAMPSPLASGAALIHAVTLTENLP
+GGWDYIKALGANQAQASGGNGDVLKAVSGGDKLYGMIVDFMAIREKAKGAPVDFVFPAEG
+VSAVTEPVAILKTAKNPEAAKAFVDFLLSPEGQALEVSQGYIPARNDVALPAGYPARQTI
+KVMPFDAAKALSAEKDNKEKFADAMAQ
+>tr|A0A1Q9AK22|A0A1Q9AK22_9RHIZ
+MFRTSFVATALVALVGLSAAVPAMANDVSIEQYGWRNSAGGAQEGYSNRIRTYQNGDYNR
+LSSRQHGRRNLSAVGQEGYNNYGVTYQRGNRNTAGIGQFGSNHTTILTQDGNGNIAAGVQ
+VGHGCAANVTQGGNDNVAAFVQACP
+>tr|A0A1Q9ANI6|A0A1Q9ANI6_9RHIZ
+MSNATSHAAEGPGCAPIAFLPPRPDVLARRDEIMAALTELVSAGGVVRAPLALKPFETDA
+FVAYRQPPLAVVLPQTTAEVSAVLAYCHSARVPVVARGAGTSLSGGAIPQADAVVLGLSR
+MNRILEIDLENRTARVEAGVTNLSISEKVAAQGFFYAPDPSSQLACTIGGNIAMNSGGAH
+CLKYGVTTNNLLGVTLVLIDGTVVTLGGKHLDAGGYDLLGLVCGAEGQLGVVTEAVVRLI
+ARPEGARPVLFGFDSSEEAGACVADIIAAGIIPVAIEFMDRPAIAICEAFAKAGYPLDVA
+ALLIVEVEGAEAEMAAMLAEIVTIARRHGVRTVRESQSATEAALIWKGRKSAFGATGRIA
+DYICMDGTVPLSQLPYVLKRTGEICAGFGLEVANVFHAGDGNMHPLILFNANDPAEAAKA
+EAAGNEILKLCVEAGGCLTGEHGVGLEKRDLMRFQYSEAELAQQMAVRAAFDPLWLLNPS
+KVFPLEGRPA
+>tr|A0A1Q9AFY9|A0A1Q9AFY9_9RHIZ
+MPQAIVIRELGGPEVLKLEGTTLSPPGPGEVQIRQVAIGVNFIDVYFRTGLYKSAAGLPF
+IPGKEGAGIVTAVGAGVLNVSVGDRVAYATSDGAYASERNVEASQLIVVPDDVPLETAAA
+MMLKGMTAQYLLNQTYKVGPGTTLLFHAAAGGVGLIAGQWAKALGATVIGTAGSPEKIAL
+ALDHGYDHVIDYRNDDFVARVEEITGGRRVDVVYDSVGKDTFPASLDCLKPRGLFVTFGN
+SSGPVEGVNLGILAQKGSLYVTRPTLYSYTASRAALEACANSLFDVVRSNKVRININQTY
+ALADAPQAHKDLEERKTSGTTLLIP
+>tr|A0A1Q9AK28|A0A1Q9AK28_9RHIZ
+MASVCLSLIKHRHKDQIVVGGDIARRTMYRHDGEGGLGLGYILESWVPRFIEQANEAGYD
+GQALFRAFFIDNPRRAFVFKP
+>tr|A0A1Q9AN12|A0A1Q9AN12_9RHIZ
+MSGKTVTRADLAESVFRKVGLSRTESAELVETIINEICNAIVRGESVKLSSFATFQVRDK
+NERIGRNPKTGEEVPISPRRVMTFKASNVLKQRVLKAHLARKAKTKPAPPAP
+>tr|A0A1Q9AIB8|A0A1Q9AIB8_9RHIZ
+MPSGSVDIAIDGAVAVLTLCRPDKLNALDIDMLKALHSAADAVEADARVRVAILTGAGKG
+FSAGGDIKAWGGMRPEEFGHAWVRHGHRVFERLATLRMPLIAALNGHALGGGLELAGIAD
+LRIAEEQIRIGLPETGLGMVPGWSGTQRLVRRFGAQVVRRMALGGEVFTAREACALGIVD
+SVAPTGEALQAAREQAARIAARGPAANEIVKLMIASASGEDNGGAVEALGSILAAKTGDL
+REGVAAFSQKRAAEFKGEWS
+>tr|A0A1Q9AKJ6|A0A1Q9AKJ6_9RHIZ
+MEKQKLEDLRDCVPCAALLEQAGFRIDLKESTRKAFKYRRRSEIVIVIHGGRGWFDPLSD
+AKGDVFSLVEHLDRVPFVEAMERVASLVGFVPQEPLWKRAARETKPETSIPERWTKRLRP
+WPGSMTWRYLSRERSLPDTIIRATIRQDGLREGPQGSMWAAHVGDAGVVTGWEERGPHWR
+GFSTRGSKVLFRLGEADGSRFCVTEAAIDAMSLAAFEGLREGSVYLSTGGGWSPATEAAV
+RKLAACPGAVLIAATDANCQGETFASRLRDIADETGCEWLRLKPPAEDWNDALKAREKER
+KEWKMRAGRGGLPRVRRPHQG
+>tr|A0A1Q9ALL0|A0A1Q9ALL0_9RHIZ
+MVELALPKNSQMTEGKTWPKPAGAKTVREFRVYRWSPDDGRNPSIDTFYVDVDDCGPMVL
+DALLYIKNKIDPTLTLRRSCREGICGSCAMNIDGTNTLACTKGMDEVNGTIKIYPLPHMP
+VVKDLVPDLTNFYAQHRSIEPWLKTVSPTPAKEWQQSHEDRLKLDGLYECILCACCSTSC
+PSYWWNGDRYLGPAVLLQAYRWLIDSRDEAKGERLDNLEDPFRLYRCHTIMNCAQTCPKG
+LNPAKAIAEIKKMMVERRV
+>tr|A0A1Q9AKP1|A0A1Q9AKP1_9RHIZ
+MNKNELVSAVADKAGISKNDAASAVDALFDVIQTELKNGGDIRLVGFGNFTVSRREASKG
+RNPSTGAEVDIPARNVPKFTAGKGLKDAVN
+>tr|A0A1Q9AP90|A0A1Q9AP90_9RHIZ
+MRGGLGRASLRLALTACAGAIAMAVAMGFGRFSFTPILPGMMSGTGLSAADAGLIASANF
+VGYLLGAVLAGFGWGEGREKTIGLGALLATSLLLGGMSLAASLPLFALLRFLAGMASAFA
+MIFLSQIVLTRAVEAGTPHVQSVHFSGVGLGIALSALLVYLVTERPNASWPSWREAWAGC
+ALVAITGTALVGLFLPDGVQRGSHDGSARERPLVWSRAFGLVALSYGLFGFGYVVTATFL
+VVMVRGQADAGGNAQLVEFVCWLVTGLSAAVSLFAWRPLLVRLGAVTTYLVALLVEAAGL
+ILTIALPFPLAPILGGLLLGITFMVITAFGLQIGRALSPGSERKALSVMTAAFGIGQIIG
+PLMAGWMVEHTGSYTPATLAAAAALGLAALLLVLGGGSVRAGLKG
+>tr|A0A1Q9APP7|A0A1Q9APP7_9RHIZ
+MDDAETRLVAPWLTLVGLGEDGLAGLGDEAKRRIAMAELVFGGARHLALAGPLIQGTAQA
+WLSPFSRSVEAVLAARGRRVVVLASGDPFLYGVGATLSAHVDTREMHTIPAPSAFSLAAA
+RLGWPLQEVTCLSLHGRPLDLIRPHLHPGRRILALTSDEKGPAELARLLSATGFGGSRLT
+VLEALGGARERITRHRAAEFALEDVAALNLCAIKVVAGPDARILPFTPGLPDHLFAHDGQ
+ITKQAVRALTLSALGPRHRELLWDVGAGSGSIAIEWMLADPSLRAVAIEADAVRAERIGE
+NARAFGVPGLQIVPGTAPEALGGLARPDAIFIGGGGSVAGVMPAVLDALRPGGRLVANAV
+TLEMERVLLDHHARLGGALTRIALASAAPVGGMTGWRPAMPITQWVWTKPEQETETIWV
+>tr|A0A1Q9AE08|A0A1Q9AE08_9RHIZ
+MPPGRKHRKTEKILLDIGRFLVVLVTTYLGLLAVTFFIGRVIPIDPVLAVLGDRAPASAI
+ARVREEMGLDLPLWQQFFLYVRQILSGDFGTSVLTTNPVLTDIARVFPATLELATFGTVI
+GTLLGIPLGVLAAVKRGTLIDQLVRLVGLVGYSVPIFWLALLSLLLFYAKLGWVAFPGRI
+DIVYEYTFTPITQIFLLDALLQRQWDVAWDVFRHIVLPGSLLGYFSMAYISRMTRSFMLN
+ELAQEYVVAARAKGLSESRIIWSHALRNAAVPLVTVIALSYAGLLEGSVLTETVFSWPGL
+GLYITNSLQSADMNAVLGSTLAIGSAFIALNLLSDLLYRTLDPRTRTR
+>tr|A0A1Q9AN56|A0A1Q9AN56_9RHIZ
+MDTNVGAHVPGIIYGEDKGAREEIEAFDHLPKMLRKALASAPFDLCATRIADAYLAGKIG
+LVEVLAEVDRLNRNALRAAYQERGMSP
+>tr|A0A1Q9AH84|A0A1Q9AH84_9RHIZ
+MRMPLRFAAALALSVGIALPVLPAHAFPAAPVAARANSAVIKASAQERKPARQFWRTKVR
+LRTDEAPGTVIVDTNNKFLYYVEGNNRATRYGIGVGREGFGWSGIVQVGRKSEWPSWRPP
+AEMIARERKKGHILPEVQEGGVNNPLGARALYLYKGGRDTIFRIHGTNQPWTIGQNMSSG
+CIRMMNEDVTDLYAKAPIGTKVIVIGPGNKQGEVSYDDRGVDVLRTLFGG
+>tr|A0A1Q9AHI8|A0A1Q9AHI8_9RHIZ
+MSLNIKNPATVALVDELARRQGISKTAAIHQALTERLHRLGYSDVPKDHMLDELRAIRKR
+LARLPELEKRTDEEIVGFDDQGIPN
+>tr|A0A1Q9ACS6|A0A1Q9ACS6_9RHIZ
+MAGSYNFFLVGLSLLMAIAASLTALDLVARVPAAASRTAGLLWLGAASLAMGGGIWAMHF
+VAMLALSMPGMEARYDPWLTGLSLALAIIATGSAFFLMNRPRRGPLALPLGSLAMGLGIS
+AMHYTGMAAMSLPMTVHYDGAWVVISILIAIAAAFAALALAFGGRHAPVHLAMAGPGATQ
+GARRADAPSQSVGDLMRHDLTRLAAGVILGIAIAGMHFAGMRAADFHAGVNAGHAPTMGV
+DHSPLALGVTAVTFVILFAAMIAAMVDRRVAVKAARDAEALRASEAQFRLFYRATPLPLH
+ALDAQGRIEEVSDAWLELLGHGRDAVIGQPLTRFMTGESARRRVQEDWPRLLDSGSLANR
+DYAFITRDGQVLDVVSTSRVHRDSAGRFVWAVGGLIDVTARKRVEEALRQAQKMEAIGQL
+TGGIAHDFNNLLAVVTGNLELLRRRIGGDPQSERLLDHAMNGARRGAALTQRMLAFARRQ
+SLRPEAVSLPALIDGMEDLILTSLGDRMRLRRDLPADLPLVEVDGPQLELALLNLAVNAR
+DASGAEGEIVLTARAVASGDPSLPAGLPEGRYVCLGLRDEGEGMDAETLSRVCEPFFTTK
+EVGKGTGLGLSMVHGFAEQSGGKLVLKSRKGEGTTAEIWLPVALDGAQEAAQQGAQGQAK
+TLPAAPQGDSIRPSAVSDAPGQPAEEEGAPAVPVVTLPSGPLSAQGPTAPAGDAPVRPLT
+ILAVDDDALVLMNTEAILEDLGHHVLVAHRGREALDILARTPEIDLLVTDQSMPGMTGLE
+LASAARAARPDLPILIATGYGDLPALMPSMARLGKPFLQADLARAIAGLLPAPGQSAPHA
+AA
+>tr|A0A1Q9AFL8|A0A1Q9AFL8_9RHIZ
+MHHYLDFEKPISDLEGKIHELKKIASEDESIDTSEEVERLEARAREAMAEIYAKLTPWLK
+TQVARHPQRPHFVDYAARLFSEWTPLAGDRKFAEDAAIQAGLARFNGLPVALIGQEKGND
+TKSRIKHNFGSARPEGYRKAIRVMEMAERFGLPIVTLIDTAGAYPGIGAEERGQAEAIAR
+STEMCLNATVPIVSVIIGEGGSGGAIAIATGDRVYMLQHSIYSVISPEGAASILWRDSAR
+AKEAATTMKITAEDLKGFGIVDGIIEEPVGGAHRDHEAVIDRTGAMIASALDELMPVERA
+TLRKNRREKYLAIGRSL
+>tr|A0A1Q9ACF2|A0A1Q9ACF2_9RHIZ
+MTLGADLLRIEDLTVSFSMFGGAVEAVRGASLRVLPGKVTALVGESGSGKSVISQAVMGI
+LPPSASAGGRILFDDPSLSGGPIDLIPLPRDGQPIRGLRGNRMGMIFQEPMTSLSPLHTI
+GNQIGESLALHKGATKAEQRERTEEMLSLVGFTNPKRAIDMYPFELSGGMRQRAMIAMAL
+ICGPSLLIADEPTTALDVTIQAQILHLLRGLQQQFDMAMLLITHDLGVVANMADEVVVIY
+HGEIMEAGPVEDIFRRPSHPYLKGLMAAVPHFDMKPGERLKALREVPVKAEALLGRTAGA
+RPKAPAAAAGDVLLSVRGLAKTYTTRKSGWFGKGEASAMRAVDDVSFDIRRGECLGLVGE
+SGCGKTTVSKILMRGVTADSGSVTLHSQDGPIDLLAARGAALDRLRTRVQMVFQDPVSSL
+SPRMTVQNILTEPLEIHGRGDAPARRETAKALLKAIGLDKRHLNRYPHSFSGGQRQRIGI
+ARALALGPELLICDEPVSALDVSVQAQILNLLKDLQAELGLTYLFISHNLAVVDYMADRI
+AVMCAGRIVELAPRERLMRNPVHPYTKALLAAVPFPDLDKPLDFDALKKSGAASQQRWEK
+AFSDEDEGPLTKIEIAEGHWVLARPNADFRELCA
+>tr|A0A1Q9AGI5|A0A1Q9AGI5_9RHIZ
+MKSRTAQAATATGETILAVRQLKVVFDTPDGAVEAVKGVDLDVRAGETLAVVGESGSGKS
+QTMMAIMGLLAANGRASGSALYRDREMVGLPIKDLNTIRGDKITMIFQEPMTSLDPLYPI
+GRQIAEPIRHHRGGTAADARARVLELLELVGIPEPARRIDSYPHELSGGQRQRAMIAMAL
+ANEPDILIADEPTTALDVTIQAQILTLLQSLQKRFGMAVVLITHDLGVVRHVADRVVVMR
+RGEVVETGTTRAVFDAPKADYTRMLIDAEPSGEKAPPALDAPVILQGRKVRVDYKIAGGF
+LKKSGLFTAVHGADIHLRQGQTIGLVGESGSGKSTLGRALLKLTPSSGRVLFDGRDISGF
+DRKAMRPLRRDMQLVFQDPFGSLSPRQTVGEIITEGLYVHEPQLSKAERDARAVAALQEV
+GLDPTARNRYPHEFSGGQRQRIAIARAIILKPRLVVLDEPTSALDRSVQGQVIELLRGLQ
+ASHGLSYLFISHDLSVIRAMSDYVIVMQGGQIVEEGETAALFSNPREAYTRALLSAAYSR
+>tr|A0A1Q9AJG9|A0A1Q9AJG9_9RHIZ
+MSADFTSWGRIDPRLRASISVDAYEEARLTAGRDAFLPFGNGRSYGDSCHNDQGRLIDVR
+PRSRILAFDPGTGILRCEAGVTLRQVLERAVPHRFFLPVTPGTAFVTVGGALANDVHGKN
+HHSRGTFGRHVLSFTLLRSEGESLSCSRQDNADLFRATIGGMGLTGLIGEVELRLMKVPS
+PHVQQHAIRFDRLDDYFRMIDRIDGEHEYSVAWIDQLAAGRAAGRGILLAGDHADGACEF
+PDVPKGLRLAVPFRPPVSLLNRLTLKAFNLAYFRKEKPGETVTTVKWPGYFYPLDAVRDW
+NRLYGPRGLYQHQSVYPQAQAPEITARLMETARRAGHGSFLTVLKRFGDEPAQGLLSFAR
+PGFTLTLDFPNQGEATLRLLDRLDEIVMAAGGAVNPYKDARMRPDVFAASFPDWRQLEAL
+RDPALVSDFWRRTALRL
+>tr|A0A1Q9AJW2|A0A1Q9AJW2_9RHIZ
+MVKDKTDITGLNDSEMVEALAARPVLILPIGAVESHGDHLPAGTDNLLAARLAEELARVV
+DGRTPLLRLPVLPFGQVWSLGDAPVSFGVSNETVTRTIVEIARSAKAEGLSTLVVVNAHL
+GNAVAIRDAQRIAKEEGIVIANFFYPGAEAVIVTQREMPEAHAAYMHACEIETSYMLHLA
+PEHVAMSKAIANYPRFPADFSYVPDRWPEFSQSPVLGDARAAMAQKGRIILEAVLGPCRW
+RSFMLGRAKIRECRGQLAYFLCRPGSPAGLYSDCRDAARQDSVRLL
+>tr|A0A1Q9APY0|A0A1Q9APY0_9RHIZ
+MDRPLPTQFDDDHPAGNARFMQAVMSASDDCIKILSLDGKLMFMSEGGQRVMEVTDFDKL
+RGCPWPDFWAGDGNVEARNAIAAAQEGRSSRFLGAANTAKGTPKFWDVKVSPIRGPDGQP
+ESILSVSRDITELKTSEDEQRLLAQELRHRVKNILMLVRVIANQTIREDTPADEAREKLS
+ARLTALAESQDQLNSANGARAELHALLEGIAATHGGDRLHFSGPKLQLNSRCTLAMAMAL
+HELATNAMKYGALSNDTGHVEIAWTVARKDDAVETFQFIWQEQGGPSVCPPKSTGFGSRL
+IERALAGYFLGTARIDYRPEGLFFLLEAPLEALTREEG
+>tr|A0A1Q9AMC4|A0A1Q9AMC4_9RHIZ
+MSVFGSSHFGLPRLKPLSAKRTQIVSVLDIGSTKVVCMIGRLTPRAESQILPNRTHSIEI
+IGLGHHKSRGMKNGVIADLDAVESVVRLAVDAAERMAGLTIDSLIVNISAGRLQSDIYTA
+TIDLGGQEVDQADLKRVLAAAAQRSQRQDRMILHSLPTGYSLDGERGIRDPLAMFGDVLG
+VDIHMLTAERAALRNLELCVNRAHLSVEGLVATPYASGLATLVDDEVELGCAAIDLGGGT
+TTISVFAEGRLVHADAVSLGGHHITTDLARGLSTRIEDAERLKVVHGSAMPNGADEREMV
+SVPPIGEDERDQPTHVPRALLSRIVRARVEETLELIRDRIQRSGFSPIVGKRVVLTGGGS
+QLTGLADAARRVLARNVRIGRPLGVSGLPAAAKGPAFSAAVGLMIYPQVADQETHAAQGG
+LIASLAGNNSRIARVGQWLKESF
+>tr|A0A1Q9AKI7|A0A1Q9AKI7_9RHIZ
+MQHVVRKDLKFGSEIGREKPVSHHVPYLRHVDEATLRTRDGMLVSVVQLDGFCHQTADQA
+VIDAEAANRNTLLRALSDSRFAVYSHIIRRRIPPAINGSFSLDFCKKLDERYMEVLSQTR
+MYSNELFLTVIRRGFQGKVGLADSVLSRFRKASGVSDRSLDLEARQELRDHVANIVKGME
+GYGARLLKAEMRDGHAVSEPLEFLARLLNGVMPVRMLLPRMPLNEYLPTRRITFGRRLLE
+MRGNGKTDTRFAAMLSVREYPSFTAAGMADGLLKVAGEFVLTQSFALQDRAPVLAEMDLI
+ERQISVSDERGTSLESAIATAKDELVSGRAVMGYHHLSVMALGDSIRETEACSQAVTKEL
+QNAGLVVVREDLNAEPVFWAQLPGNFSYIARRALISSRNFCGMASGHNFALGRPTGNRWG
+PAIALLQTTSMTPYFFNFHKGDVGNFIVTGPTGSGKTVGLLFLLSQAMRTSPQPRCALFD
+KDRGGEIFIRACGGQYEVLKPGVPTGFNPLQIEDTPESRTFLYDLLSFLVRPRNDGDKHS
+AEQDRILTMAVEHIFGVPRAERRFHDVVHLLRGAEAAGRDDLASRFEVWCDTHGWLFNNP
+IDAWDGERGIFGFDLTAILDDSDIRTAALGYIFYRIGGMLDGIRPMMLFIDEGWKLLGDE
+KAAAFLNDQLKTIRKKNGIVGLGTQSPRDITTAKISHTLLEQSPTTLFFPNPKADRESYI
+GAFGLSETEFDWVKSTSSTSRQFLIKHDHDSVIAKLDLSALPEFIKVLSGRTETVAECER
+LRARFGDAPEAWLPHFCGWRDE
+>tr|A0A1Q9AGA6|A0A1Q9AGA6_9RHIZ
+MFYQWYEMNHAVMAPWRAATEAMRLAYANPLNPFSQTYIGRTASAALEVFERATRRYGKP
+EFGLAETLIDGKAVPVAEQIVWRKPFCNLIHFDRAVPRTRERDPRLLIVAPMSGHYATLL
+RGTVEALLPHADIYITDWIDARMVPLTEGTFDLDDYIDYVIQMLHHLGPDTHVMAVCQPA
+VPVLAAVARMEAEDDPLSPASMTLMGGPIDTRINPTAVNQLAKEKPIEWFRDNVVMPVPF
+PHPGFMRPVYPGFLQLSGFMSMNLDRHILAQRDFFEHLVKHDGDAAEKHRDFYDEYLAVM
+DLTAEFYLQTVETVFMRHALPKGEMMHRDKPVDLTAIRKVALLTVEGENDDISGVGQTKA
+AQTLCINIPDEMRQHYMQPDVGHYGVFNGSRFRREIVPRIAAFHRAHGRSGKPVRQVIVG
+GKTA
+>tr|A0A1Q9AFE9|A0A1Q9AFE9_9RHIZ
+MTETLTAREIIDQLGLERHPEGGWYRQTFRDEAGGARGYSTAIYYLLEEGDRSHWHRVTD
+ATEVWHHYAGAPLELSTAPPTGGPASSVTLGPDLRAGQRPQAVVPAMVWQSARALGAWSL
+VGCTVAPGFDFSSFEMAAPNWTPDKS
+>tr|A0A1Q9AEW3|A0A1Q9AEW3_9RHIZ
+MAGTARIIPLTEATEPGFGVYVHWPFCAAKCPYCDFNSHVRHQQVDQDRFVAAFKAEMAT
+TRGMSGPRTVTSIFLGGGTPSLMDPATVDAILQEIAWLWHVPDGIEITMEANPSSVEATR
+FRGYRAAGVNRVSLGVQALNDRDLKWLGRLHDVDDALKAIGLAREIFPRMSFDLIYARPG
+QTADAWAAELRRAVDLAVDHLSLYQLTIEEGTPFFGLHKAGKIVVPDGEASAALYEATQA
+ITAEIGMPAYEVSNHAIPGAESRHNLTYWRYGDYAGIGPGAHGRLSVGPDKIATATERHP
+ETWLARVEEEGRGFVDCTMLEREEQADELLLMGLRLREGVDLARWQALSGRELDPEREDF
+LIQQGFIERLGNSRLRCTPSGMLILDAVVADLAC
+>tr|A0A1Q9AK64|A0A1Q9AK64_9RHIZ
+MIKTLLPAALALSLSAGAAFATDVTILTPYISSIPTNEMAQSFKAEGEKRGWTVTIIDTR
+NDFGQLASRMEDTVNAKANAIVLISTDPAQVGDQVDMAAKAGIPVISLDGSKRDNVAVNV
+TSNNFELGTQLSEALFKAMGGKGNIVKFFHSAHPGVHQRELGLDATLKNYPDIKVIADHF
+VKVPGPVDDGRVAMENILRQHGDKIDGVWAAFDDPGIGAELATESEKPDSKLIIMGIDGN
+AQAVDMIKSCTHYKATFRQDFPKMAELGAAELDKILKGGRADKDEMYVPAVMITPETLGA
+KCS
+>tr|A0A1Q9APW5|A0A1Q9APW5_9RHIZ
+MKLTGNTIFITGGTSGIGRGMAEAFHKLGNQVIISGRRTALLKEVTEANPGMASIELDVT
+DPDSIKTAARHLIDTYPALNVVFNNAGFMPFDDVSGPIDDAVAQDLITTNLLGPIRVTSA
+FIEHLKSQPEATVLYTSSVLAFVPIASNAIYSATKAALHSYALSQRFQLRDTSVRVQEIA
+PPWVDTDLIYKSGDPRAMPLPQFIEQTLAALATDDPEVIVDAIRPLRDNPGSNEHTLFHA
+FNQSIVDNPIPVGA
+>tr|A0A1Q9AFC9|A0A1Q9AFC9_9RHIZ
+MTTHITHEEDAHHAHHGHSHGHEAGHGSMKSYMTGFILSVILTAVPFWLVMGDVFQSKAV
+TVALIMAFAVVQIIVHMIYFLHMNSRSEGGWTLLALIFTIVLVVIALSGSLWVMHHLNAN
+MMPVSPDMMRNAP
+>tr|A0A1Q9AM94|A0A1Q9AM94_9RHIZ
+MTHREEAMKASDQLQVQYDFRSGSVLLQCKNRSHVLREKFRTKESAEAAAVEFARENWDY
+PVKTAMPLAAH
+>tr|A0A1Q9ACF4|A0A1Q9ACF4_9RHIZ
+MGQITLSKVNKSFGATTVIPGIDLKIEEGEFVVFVGPSGCGKSTLLRLIAGLEDTSSGTI
+SIDGRDVTGEPPAKRGLAMVFQSYALYPHMSVYNNIAFPLKMAGTDKATIDTKVRDAARI
+LNLTNYLERRPGQLSGGQRQRVAIGRAIVRAPSAFLFDEPLSNLDAALRGTMRLEISELH
+QKLGTTMIYVTHDQVEAMTMADKIVVLQAGHIEQVGSPMELYNKPENLFVAGFIGSPRMN
+FATGAAAEAYKAHTVGIRPEHLALSPTDGVWTGTVGVTEHLGSDTFVHVDVKGVGPMTVR
+APGETALKHGDTVFLTPQESRLHRFDKDGKAVR
+>tr|A0A1Q9AKP9|A0A1Q9AKP9_9RHIZ
+MDAVSSESRKAEKMMLQRPVVTAAAAPAQASRPVFTPINRQECVSSGILRPAAENSDDDG
+EKIMNAGAVFKGENAPVRWRTVAAREA
+>tr|A0A1Q9AHP2|A0A1Q9AHP2_9RHIZ
+MPRPARILAFGDNVVDCYRDQNLMFPGGNCVNHAVFARRAGAETAYAGAVCDDDAGRLIR
+QALVEEGVDITSLRMETGQTAYCVIETQDGDRQFVGANLGVSIIAPSQADIARLSAFDAV
+HTGRSSHIDAWLPRFAGATKISYDFATVHDPERIAQVAPHCFLIAFSAGGTSRKEALALA
+ERARAAGARWSLVTRGIEGALLAGPCGIVEAPARPVDALDTLGAGDTYIANVLVGLLNAL
+EPAAILKKAADAAAQTCLMRGAFGHPAPMQIDLSTMMSLEEVYRTTRPAAGPDEMLPRRL
+A
+>tr|A0A1Q9AIR6|A0A1Q9AIR6_9RHIZ
+MKKLSMLVAATALTTLMAGAAWSKTLVYCAEASPEGFDPGLYTGGQTFDASSRTVYNRLV
+EFKHGGTEIEPGLAESWEISADGKEYTFKLRKGVKFQTTDFFTPTRELNADDVIYSFERQ
+YKADNPWNKYVAGASWEYLTGMGFPELIKSIDKVDDHTVKFVLNRPEAPFLANLGMDFAS
+ILSKEYADKLKADGQMELLNQQPLGTGPFSFVAYQPDAVIRYKANPDYWNGKQKIDDLVF
+AITTDAAVRAQKLKAGECHIMPYPNAADVAELKKDPNLTVLEQEGLNVAYLAYNTTQAPF
+DKPEVRKALNMAVNKQAIVDAVFQGAAKVAKNPIPPIMWSYNDAVQDDKYDPEAAKKMLK
+DAGVSGLKMKIWAMPVSRPYMLNARRAAELMQADLAKVGVEVEIVSYEWAEYLKLSKDKN
+RDGAAMLGWTGDNGDPDNFLDTLLGCEAVGGNNRAQWCNKEFDALVKKAKTTSDIAERTK
+LYEEAQVVFKREAPWMTIDHSVGFTPISKKVTGFKMDPLGIHRFDGVDIAE
+>tr|A0A1Q9AJE1|A0A1Q9AJE1_9RHIZ
+MGQKINPVGFRLGINRTWDSRWFADNAEYGQLLHEDLKIRKYLMSELKQAGISKVVIERP
+HKKCRVTIHSARPGLIIGKKGADIEKLRKTLSQMTSSETHLNIVEVRKPEIDSTLVAQSI
+AQQLERRVAFRRAMKRSVQSAMRLGAEGIKITCAGRLGGAEIARTEWYREGRVPLHTLRA
+DIDYGVAEAETAFGICGIKVWIFKGEILEHDPMASERRASENDSQGPGSRERGDRDRDRR
+RERENA
+>tr|A0A1Q9AKK6|A0A1Q9AKK6_9RHIZ
+MSNAAVRISPDDRLSEKNFKRLADFIFSYSGIKMPPSKATMLEGRLRRRLRATGYPNFDA
+YCDYLFKYDGLESETVHLIDVVTTNKTDFFREPNHFDFLTERVLPEFTQRGVGKLRVWSS
+ACSIGAEPYTLAMVLEDYRQKQRGMDYGILASDLSTDVLQRARKGIYTSDMMVPVPQELR
+KRYVMSAIDPERDEVRITPALRARVGFMRLNLMDASYRVGEPMHVIFCRNVLIYFDKKTQ
+LHVLTQLCECLQPGGYLFIGHSETIAGMTLPVRQIANTIFIRE
+>tr|A0A1Q9ACY4|A0A1Q9ACY4_9RHIZ
+MALDIDRLKQGQRWRAAAEAQAERVAGDLDQPAQWVQLGHALKESGALDAAAFAYRNALE
+ADETEWDAMLHLGHLLRSRGRLEEALALFEALARLPFTPAIDHEIDELTVFLHPKNRQAA
+LSSFPQDAPQAPEATAIVARLSGLLAAHRAAQGRGHRAPRGWALVRSQADRLVRLMLGRS
+FKAELVAKRDLIIRDGRYVAQTDHPQFAVRLPRGLPMGWVEILFEARAETARLTPVLFLA
+RRPPFRDVRIVPLEQAGVAGRFRAMFHLDGPPAALRLDPLHRRDSFTVTQFTLRPVKAAA
+APGEGEGAAAAGGTPALPASSTLALKRGDSLYAAWFAEQMRLLAADDSAGATGGSRAQPA
+VAVLIDGAAGPTGPAAASRLSLPAQPSGAIRVDGSPAEVLAGLVESFTLVLRPGGRLVPD
+AVFRFRAAARRHPDALLFYCDEDFSEGDTVFSPLFKPDWDIDLHLAADYVGPCVMVATAM
+LKRLADDHPEAALFELVQRLLLSAPPERIVHIDEVLHHRPGIAGKRPDLRQIVDRSPAER
+ALIERLLGERDIGLATDRDGLAHVVYPLPRSLPRVSLIIPTRDHLALLRGCIGSLATGTD
+YPDLEIVVVDNGSVEPATQAYLRDLSGQPDRKVLPAPGAFNFSRLCNLGVEAASGAFVCL
+VNNDIVAIRPDWLRAMLRHGLRPDVGAVGAKLLYPSGHVQHAGIAGGIGMVCGHVYKYET
+ADTAGPFGMLQVAHRVGAVTGACLLVDKARYRAVGGLDEQDLQVAFNDVDLCLKLESQGF
+RTILEPRARLLHLESFSRGRDVTPEKRARYDREGKVMIARWKPWIDRDPWYNRHLSRTLE
+NGAFNPGIGARPPVV
+>tr|A0A1Q9AK21|A0A1Q9AK21_9RHIZ
+MIEEQEAALAAAFRMTIDGLGPWWGQPIALPGLRLGCRAIRPGDEAHLLPGERERAGAAP
+STPGSPAEPLPAAAPLSPHRRAALRASGAARRLAREMMVASGHPAAPIPRAASGAPLFPS
+GLIGSLAHDEEMAVAALAPAGPGLSLGIDVEPFAPLTNEIAALVRQPGDIMPRELDPAHA
+ARLLFSAKEAIYKASFPLTGEVLGYEHIACDLTQGTALIASGQRLRLAFRLSPRIVVLAV
+AGMAEGPAARGWRRIFQRGG
+>tr|A0A1Q9AMS5|A0A1Q9AMS5_9RHIZ
+MSKTKAAVVETITKLHPVAEAICDKMRHYGEGCHESQLRAHFTKEQLDAHGDAARDLANS
+QWQREIAPRSAAR
+>tr|A0A1Q9ANN0|A0A1Q9ANN0_9RHIZ
+MPAAGNAPASPAADAAPANAPAQQAAPPDAAAKPQAQGSDATPASRASVALEASRAALAK
+LAEQAERARDDDNRLAELKASVDDVAGQIGDISAGLKPRLDQIKARLAELGDPPAGGASE
+PPVVSDERKRLIAERSEINAVSSAADDLASRASQLSGQITETRRTLFSSTLLRYTEINLD
+MLRDGISAIAGEGVSFYNAISAWLIFVFTYKRIALLSAIVLSMISALVLLTLTRRLFSPL
+IGRGRREVEPSYITKLSIAFWSTMVPTVASLTFASSSYFFLQIFKVLRPDIAPVVSATLF
+GGAALVFLWMISHAVLAPGHGAFRLVRVSDRGANRLVTLIVIMAVVNLLDYLLGAISVAL
+RSPIVLTVTKSFVASIIIGLILLWMAMIRPMLPPDAERHGATDVEGRPWPKFIRFLLVAA
+GAGLILCAVGGYVGLARFIAGQIIITGAILVTMYIGILTGKAIAKQDGLAKTVFGRYLQR
+RFKFEQVALDQTGLVVGLSIYGLVFFIFIPLILLLWGFKIADLEAGLYQILTNIQIGSIS
+ISLVGIFGGVLLFIVGFLFTRWFQRWLDSSVLARSRVDMGVRNSVKTGIGYLGMGLAGLI
+GISAAGLNLSSLALVAGALSLGVGFGLQNIVSNFVSGLILLVERPFKVGDWVISGTTEGF
+VKRISVRATEIETFQRQTIMVPNSLFINASVGNWTHRNKLGRVDVPISVHGSNDPRHVIA
+VMREAVAEVPNILRNPEPLIYFKDFSPDKLDFEVRVYLPDILNGLSVRTEVRIAVLEAFR
+KADVAIGGPAAPEVPVKISPETALLIASLVERGRAGEDTGGVDLSAAKAENDAPPTVRDW
+P
+>tr|A0A1Q9AFZ1|A0A1Q9AFZ1_9RHIZ
+MTLPNDIAITPELIASHGLKPDEYQRILDLIGREPTFTELGIFSAMWNEHCSYKSSKKWL
+RTLPTKGPRVIQGPGENAGVVDIDDGDCVVFKMESHNHPSFIEPYQGAATGVGGILRDVF
+TMGARPVAAMNALRFGAPDHAKTRHLVSGVVAGVGGYGNSFGVPTVGGEVEFDARYNGNI
+LVNAFAAGLAKSDAIFYSKAEGVGLPVVYLGAKTGRDGVGGATMASAEFDEQIEEKRPTV
+QVGDPFTEKCLLEACLELMATGAVIAIQDMGAAGLTCSAVEMGAKGDLGIELDLDKVPVR
+EERMTAYEMMLSESQERMLMVLKPEKEEEAKAIFVKWGLDFAIVGKTTDDLRFRILHQGE
+EVANLPIKELGDEAPEYDRPWTPAKVAAPLADDAVPQADIADALLKLVGSANNSSRRWVW
+EQYDTLIQGNSLQVPGGDAGVVRVDGHAAKALAFSSDVTPRYVEADAYEGGKQAVAECWR
+NLTATGALPLAATDNLNFGNPERPDIMSQLVHAIKGIGEACTALDFPIVSGNVSLYNETN
+GQGILPTPTIGGVGLIKDWKRMARIRFAAQGETILLAGAPEGWGTHLGQSVYLRDIHGRA
+EGSAPHVDLAHERKVGDFVRALITEGLATSVHDCSSGGLALALAEMAMASGIGATVSAPA
+DHDPLAVFFGEDQGRYVLTLREADLASVTERAKAAGVALPVIGRTGGETLKLGAARPVAV
+EALTAAHEGWFPAFMNGTAA
+>tr|A0A1Q9AQ55|A0A1Q9AQ55_9RHIZ
+MPYLERPHHRLHYRVDASGHDKAWLVFCNSLGTDLAMWDRQAEALKEQFHILRYDRRGHG
+LSSSPPPPFSMADLGADVLHLMDHLGIERAHFCGLSIGGLVGQWLALNAAHRFDKMVLCA
+TAARIGTTQSWTERMKAVSALGLTPLLAGTVERWFTPAFVAEAPDVIEACVAAFQATSID
+GYVGGCAALADADFHESLSSISCPLLAISGADDPVCPPSDLERIARGVANGCHLSLPGRH
+IVNIESAERFNQALSGFLGTETE
+>tr|A0A1Q9AEK0|A0A1Q9AEK0_9RHIZ
+MRYNQLGQTGLFVSELCLGTMTFGAAAEGSPWGAIADLDEAGATRIVERSLEAGVNFIDT
+ADVYSFGASERLLGQALKTLGVPRKDVVIATKTFGQMGDKPNDRGASRGHIMDSVEASLE
+RLQTDHIDLYQIHGTDTVTPIEETLRAMDDLVSRGLVRYVGVSNWQAWRIAKALGISERR
+GYARFETLQAYYTIAGRDLEREIVPLLQEERMGLMVWSPLAGGLLSGKYGPGAPGNGEGR
+RANFDFPPVEKDRAWACVAVMREIAEAQGTTVAAVALAYILAKPFVTTVIIGAKRLEQLE
+DNLKAVDVTLSDDEMRRLDEVSTLPPEYPGWMLARQGANRRPGPFTPPKKD
+>tr|A0A1Q9AMK7|A0A1Q9AMK7_9RHIZ
+MALTSARGWQFRQPSVLPGFGLALGVTLLWLTLIVLIPLSGLAWRSSALGWQTFWSLATD
+PRTLHALWISFGCAFLAALVNVVFGVMLAWVLVRYRFPGRRVIDAMVDLPFALPTAVAGI
+ALTTLYAPNGWIGAVLAPLGIKIAFTPAGIVVALIFVGLPFVVRTVQPIMEEIDREVEEA
+AATLGANRFQTVSRILLPDLLPAVLTGFALALARGVGEYGSVIFIAGNLPYVSEIAPLLI
+VIRLEEFNYPAATAIAALMLMVSFAMLLVINLIQAWSRRRYGYGA
+>tr|A0A1Q9APB3|A0A1Q9APB3_9RHIZ
+MPSLAPALVPGTPSIQEIVQQLAENPERVELIHRIGWPLTASEKRDPAFPSGPGEDPAAP
+ADRTEDDSARPNRDVEAVLEDLAAAGQALSWLRQEISTVRQQMESMRQDAWSLRDELTPF
+RSDMLARLNVLSGRLGDLETTLETGSVNLRGMRAEAMAHYNQSLTQQRQDDRPSIRDLSA
+RVQALEQRIASS
+>tr|A0A1Q9APS9|A0A1Q9APS9_9RHIZ
+MSILASLAKAYERLPNAPAFGYSSEKIGFVISLNEDGTVAQVIDWREGEGKKARPRLVEV
+PASYKRPGITPRAFFLWDNSAYVLGVSADDSKDCSARHAAFKDFHVLALADSVDPGLVAV
+RSFLEKWTPDQFQLPQWSEELKDQNIIFALESERQTRFIHQSAEARSLWARISASETSDL
+QICLVTGEKAPVARLHQAIKGVWGGQVAGGSIVSFNLDAFTSYGHEKGDNAPVSEAAAFA
+YITALNRFLERDSGHRIQIADASTVFWADAQDMETANLAEAVFGFLFEADAAACEEMKAE
+EKASTRRIGVTLEKIRQGLPLGDVEPELRKGVRFYVLGLAPNAARLSVRFYFEDDFGQLT
+ENYQRFIADMHIEPPPRGGTPPLWRYLQETAVLGKRENITPNLAGEWMRAILAGSRFPLT
+LMSSVLTRIRADGEVNALRAGILKALLIRNFKMEAPVALDADNTNRGYVLGRLFALYEEI
+QRAALGGKVNATIKDKFYGSASATPRKVFAVLESGSANHLAKVRKTNPGREVNLQRALRG
+VMDLMRPNDDPARDPFPVSLTAQEQAWFGLGYHHQRSDFFKKITETASEG
+>tr|A0A1Q9AG81|A0A1Q9AG81_9RHIZ
+MRKKLTTVLALAGALVGANAVSAADMIEAAPTYQDTDSRDGVKIGMLSCNVGGGVGYVIG
+SAKSVDCVFTSTRGTTDRYTGTIRKMGVDLGFTTQGRIVWAVFAPTAGYHRGSLGGLYQG
+ATAEVTVFAGVGANVLVGGTAGSIQLQTVSIGGQLGLNLAATGTSVTLTPAG
+>tr|A0A1Q9AP77|A0A1Q9AP77_9RHIZ
+MNEDEDEKKTELPLGKETEANLFKSRSIFIYGGITQELAQKVCSQLMALAAAGDEDIRIF
+VNSPGGHVESGDSIHDMIKFVKPKVWVIGTGWVASAGALIYVSVPKERRLCLPNTRFLLH
+QPSGGTRGMVSDIEIQAREIIKMNERLIKIFSKATGQPEEKIARDIDRDYWLSSEDAVSY
+GLVSRVVTNISEI
+>tr|A0A1Q9AFI2|A0A1Q9AFI2_9RHIZ
+MNARLIGVLCTLLTGSPVLAADLYPVQEAPPVAVAPIAGGWYLRGDIGYAFTDLRGAHYY
+QGPGRYVRDFDKADLDDTWTGGIGVGYRATEHLRADFTIDHLGKSDFSGSTSGSCGVATY
+CTSRDISSMTAWSLMANAYVDIATWGRFTPYVGAGIGGTRVKWDKLKNTSCETGNSGNCD
+GTVEHGGKESWRFTYALMAGTAIDITCNLQADVGYRFRHVMGGDMFGEKWHGGPGSDKGI
+YVHEARAGLRYNFGDCEQAVYVPPVPVEQPVYK
+>tr|A0A1Q9ACY1|A0A1Q9ACY1_9RHIZ
+MLAKAPRLSTANEFGALIRVRCHGCRTRRHYRPLDLIAVFDNIPVLDLAPRFRCQKCSSA
+EFVQAEIWLPWPNEWPGLEIRELVRVDTVRRPVWKDVKV
+>tr|A0A1Q9AG58|A0A1Q9AG58_9RHIZ
+MRQSQAELDGLSDVIGSIYETVLDETLWPQTLQMICVYTGGQASRIYWRDASNGIGETVY
+SWGIDPEFIRLYREKFVTLNPTYPASIFIKPGEVFASSQLVAHDAFQTSRFFREWAAPQG
+FFDAAIFNIQRYEASAAAFTVITGDQYGLVDERLRIRLRRLAPHIQRAALIRREIGRQEK
+RVRSLESALNQVEAAVFILGPDGVATWTNQSAQTLLARGDVVREGVQGLGLVDPAAQRLL
+RDALAGDVAEREVLLHTYPALIKMTDAEGTDWIAYLMLLEPNSSTKTAFEQVGRSARAAL
+FIRRAEAVPSSGIEACAVLYGLTPGEVRVLHAAVQTHTVAEMALTLDISPNTVKKHLQAI
+FAKMGVSRRAAMIRAVLAARQ
+>tr|A0A1Q9AFE1|A0A1Q9AFE1_9RHIZ
+MTELMRPRVKYVIGPDGSPLTIADLPPANTRRWVIRRKAEVVAAVRGGLLSLEEACERYT
+LTVEEFLSWQSSINDHGLAGLRTTRIQQYRH
+>tr|A0A1Q9AJR1|A0A1Q9AJR1_9RHIZ
+MLPPLAAALLALAGPALAENRVLLSYEATPSHGFDLPKMADATYADRAAFAGKMLETIVP
+RIAEAVGVAPGALETEVTPGGYMLKTNASLQSESEIDDPLADRLAAALGYVFRQDSVLVS
+RFDDPKGKTFYVTVSFPKDTLDAKTAQSFFEKADATAKGLGGGYTAFGDDQIFLNVTDDA
+GKPYSGLTDKAFLEGLTKTAEAFAPNKPAISQSGQVNARFVGNDWEKSAKGEDYVKALGG
+AGAAAVTALDAIEADYAKEVETAAKQYGWK
+>tr|A0A1Q9AFY0|A0A1Q9AFY0_9RHIZ
+MTTTSETAPLPTLSKTQFVALMAMLMSINAISIDIMLPGLQQIGASLGVADENERQLVIS
+TYMIGMGFAQLLFGPLSDRFGRRLPLLAGLGLYCACALAIVFVPSFGLMLALRFLQGVGA
+SATRVITVSIVRDVYGGRMMAEIMSLIMMVFMVIPVIAPSIGQLIMLFGEWHLIFVFIFI
+FGLVVAGLFAWHVPETLPAENRRPFTFSSIAAAFAIVIGNRIAFLYALAIAFIFGGLFGF
+INSAQQLLVDVYGFGVYFPVVFAAFAGLMAVASFANSRLVQRFGMRRLSHAALIGFCLVC
+LAWALTALFGEVPFWLFAVYYMLAMFQFGLIGPNFNAMAMEPLGHVAGTASSVLGFTQTV
+LGGFIGALIGQAFDGTGTPLAFSFLIVAIAALAMVLIAERGRLMRPHLAAS
+>tr|A0A1Q9ANE2|A0A1Q9ANE2_9RHIZ
+MQSPCIHICSIDARSGLCLGCARTLEEIGAWATLGDQGRAQIMTQLAARRVRTGLPDPSR
+LPLQSCKEETAS
+>tr|A0A1Q9ANG7|A0A1Q9ANG7_9RHIZ
+MPVLIKNTGFYALVALIVLVAVFPFYYAILTSFKSGAALFQITYWPTSFSLQNYRDVMSS
+GSFLRNLGNSVLISTTVVAISLALAVSAAYALARVRFRGRGLLLLTILSVSMFPQIAVLA
+GLFELIRAFGIFNTPLALIFSYMIFTLPFTVWVLTTFMRDLPVEIEEAAIVDGASPFVVI
+TQVFLPLMWPALVTTGLLAFIAAWNEFLFALTFLSSDTQRTVPVAIALLSGQSQFEIPWG
+AIMAASVIVTVPLVVLVLIFQRRIISGLTAGGVKG
+>tr|A0A1Q9ADW8|A0A1Q9ADW8_9RHIZ
+MKKTSADRRAPLPRRSDYTRAFRKDWAHYSKAGKADLNRAIELMALIILKKPLGAEWSDH
+ELSGKEWDGAREAHIGGDFLLIYLCDDDSVDFVRLGSHSELFGR
+>tr|A0A1Q9AHK5|A0A1Q9AHK5_9RHIZ
+MSQTSMSSDVVLSVRHLTVELPRGMERTHAVKDISFDLHAGEILCIIGESGSGKSVTANT
+IMGLLPPVIRVTAGEIHFKGMDILAAREDSIRRLRGRAVSIIFQDPLSALNPLMTVGDQI
+DEVLETHGYGTAESRKAKVLSLLEEVGLPDPPLMRLQYPFRLSGGQRQRVMIAMALALDP
+DVLIADEPTTALDVTTQAQILDLIRKIQKRKGMSVMFITHDFGVVAEIADRVVVMEKGHL
+VEQGRADQVLVHPAHPYTQRLVAAVPRMRAHAPATVAEAPPVVLEVEGLRKEYRSAGSFL
+RPGRVVKAVDGVSFRLHKGQTLGVVGESGSGKSSLGRLLLKLLEPDGGVIRFDGRDIAGM
+AEDSFRALRPYIQMIFQDPFASLNPRHTIGRILTVGPVAHGASVQEARVKALRLLKLVGL
+DDQAYDRFPHEFSGGQRQRIGIARALMFDPVVLVADEAVSALDVSIQAQILELLARVQAE
+MKVAMIFITHDLRVASQICDDVIVMHKGVVVEQGPPATIFGQPQHDYTRRLVAAIPGADW
+EPTAKAV
+>tr|A0A1Q9AJ29|A0A1Q9AJ29_9RHIZ
+MSAVHPIDAKLAELGITLPVAAAPAANYVPYVLSGTQLFISGQLPMEAGKVAVTGKLGAG
+VDVAAGQRAAELCAINILAQARAALDGDLSRIARVVKLNGFIASVPEFTEQHLVMNGASN
+LIAAILGDAGRHARAAVGMAALPFDAAVEIDAVLDII
+>tr|A0A1Q9ADP0|A0A1Q9ADP0_9RHIZ
+MTKFNTILSTLAAATLAVAGFCGSAQAAPKKDFKVAWSIYVGWMPWGYAADHGIVKKWAD
+KYGITIDVTQFNDYVESMNQYTAGAFDAVTLANIDGISIPAAGGVDTTAVIVGDFSNGND
+AVILKSKDKLEDIKGQNVNLVEYSVSHYLLARALETIGATERDVKVVNTSDADMVAAYQT
+PEVTAVVTWNPLVSTILQDPSAKKVYDSAKIPGEIIDLLVANTGTLKDNPDFGKALAGIW
+YDTMKIMAADSDEGKAAREAMGKASGTDLAGFESQLAVTRLFDKPADAVSFTASPELPKT
+MDRVRNFLFEKGLLGNGAASADVIGIEYPDGSVQGDKGNVKFRFTTTYMDAAAKGAL
+>tr|A0A1Q9AE25|A0A1Q9AE25_9RHIZ
+MPSDSRHARQIARRQLIAQAVIAEGSLRIEDLTERFGISLMTAHRDVDELVSRGLFRKTR
+GVVSAAPTSLIESSDVYRATRQAREKKAIAEAAMRFVEPGQAIFLDDSTTVQQMAALLPA
+KVPLTAITNSLVLINELKEIRDLTLIGLGGQLYNWCNAFMGHITTSEIRRLRADTAFISM
+AAITDDIVFHQSPEMVETKRAMFDCAARRILLADNTKFERRALHRFAELTEFDVVIVDEA
+TPIAHLSRMRSKGVNVIVAEGSPQA
+>tr|A0A1Q9ADX0|A0A1Q9ADX0_9RHIZ
+MKRTLLACLLATALPAILPTGLAAQTLKPFDMTPERPADVQPAPGIPAVVTAPAAPVIDP
+TTLRRPFLPFEKLTLAGEDDRRSFTVSLTAEQAAAAQTITLGYQNAIVIAPESSRLSVTI
+NNVTLGETPIASSDRVTGLALAIPAGVLQPGANVVTIAAHQRHRTDCTIQSTFDLWTDIR
+PQESFITFAAPLVGRLTQLNDLAAVAPDGKGRTAITIVAPAMASSGSADMLMRLAQALSL
+RVHGANQTVTVRADLPPVTQTSGLTVFLGTQSELADLVPTLPASAASGPALGYVPLPMAT
+AGSSGAGPTALVVSGPTPRAVQTALDRLLPPADAATERHSLATASFHAPDAPLLTGEAKL
+ALSRFGLTTTETTGRRMRTEFLVGLPDDFYASAYGQAELLLDAAYSSAVRPGSRVNIYVN
+GDITTTAPIAAGSGGLMQHLPIRLSLRHFAPGVNTVAIEAVLVTDEDAVCATGTPAQTKP
+RFALFDTTEFHMPDFARIATSPNLAATVGMSAPYGEDQPRPTALYLDRPTAESLSAAATL
+AGRLAMSAGKPIPLETVGSPEGLDNRNALIVGTLAQLPPALVAQMKVATAAQANWGDLPT
+HAIATAPSAIDSWRGQVSGTGLVESASRVNNWLRRNLDLSLDQLHILPQSETVYQPPRSA
+DLIMAQAESPQAGGIWTLATAPTPKDLERGMAALTAQALWNKVSGRVAALDSQTATVATL
+APQDIRLTPTQPFSIGNWRLIAANWMSTNILYFALLFLAAFAILGVITTLLLRGLGRRHG
+>tr|A0A1Q9AKQ1|A0A1Q9AKQ1_9RHIZ
+MNARLLSALIFALSASVAPLAAHAEEKAFPAKLAAQVVLPANTVIPAPADAPEALKTAGK
+FTTPDRKRAQGIGTVPGMDGVHPTGLSLPFDGQAVQGLSGIKTMADGTFWTLTDNGFGTK
+LNSVDAMLMLHHVKLDWAGGKFDRMETIFLSDPNKIAPFPIVMEGAEKRYLTGSDFDLES
+IQPVADGFWLGEEFGPYLMKVNLKGELEAVYPTTIEGKPVMSPDNPTLTLPSDPTKPLPA
+GFNLRRSNGFEGMAMSKDGSKLYALLEGPLYLGEGKFEQVDGQNALRIAEFDTKAKAWTG
+RSWLYPLSAGGTNIGDFNMIDGTAALVLERDGGEGTADKACADPAKPQVDCFEKPAKHKR
+VYKIEMTDENAGKAVRKIGYIDLMNIADPDKKASQGTKDGIYTMPFVTIENVDVVDATHI
+VVGNDNNLPFSIGRFIDKADDNEMVLLDVGDFLTAK
+>tr|A0A1Q9APJ9|A0A1Q9APJ9_9RHIZ
+MRYWFPFPFLSLGLLLFWVLISQSVSPGTLVLGGALSIALAWAMVNLGPHKSVPGRVRPL
+FRLAGAVLVDVVRSNIAVLRVMLGRRGKPATSGFLTVDLTLQDENAIALLACILTATPGT
+AWLEFDRTTRQLTLHILDTADGMDWQHIIKTRYERPLTEIFQ
+>tr|A0A1Q9AMR3|A0A1Q9AMR3_9RHIZ
+MKTYAYAATFEPTEREGGFTVTFADVPEAITEGEDMADARAMAEDALGVALLTYLEMGRT
+LPVPTATEGVMVAPAPEVAMKIALIETFRAAGISRSELARRIGKDEKEARRLLDPDTSTK
+LPLMAAALAAMGQRLVIGLEAAE
+>tr|A0A1Q9AES7|A0A1Q9AES7_9RHIZ
+MSIDEDKIRARAYRLWEEEGRPQGRHDHHWQQALSEVAGQSGSPQSEMTDQSAAAETSAA
+PEIASAAEETPAQPAERKARAVKAAAPKSSEPKAAKAKMGTSKAAAAKPASAKSATSKAK
+AAKDIVPAAVGVDVTADLTPSAPIAETVSAEAPQPKRRGKVATETA
+>tr|A0A1Q9AG61|A0A1Q9AG61_9RHIZ
+MSDPKPAADLKPFIAKVATGAALARDDARAAFEIIMSGAATPSQIGGFLMALRVRGETVD
+EIVGAVGSMRARMLTVEAPADAVDIVGTGGDGHGTYNISTLAALITAGAGVPVAKHGNKA
+LSSKSGTADALSCLGVKLDIGPALIARCIAEAGVGFMFAQQHHPAMRHVGPSRVELGTRT
+IFNLLGPLANPAGARRQLLGVFAPQWVMPLAEVLRDLGAERIWVVHGSGLDEITTTGETQ
+VVALEDGKLRSFTLTPADFGLSAVSLEALKGGDGAHNAAALTAVIDGAENPYRDVALANA
+AAALVIAGRAETLGDGMRLARQSLADGGTRRALDRLVATSNLAEEA
+>tr|A0A1Q9AE82|A0A1Q9AE82_9RHIZ
+MSDVTSSAFQARGAARPRRDIGIRKRYAAERRFRAYGVTAILVGVFFLAVLLWTVISNGY
+TAFQQTVITLPITFAESVIDPKNERAQNPAKLMAANYPLLVRDALIKELGIDPNDRTKVK
+LATDMVSASSRTQLRDIVVANPSVIGTTMSVALLAEGNIDSANKGQIDLTADEANRKVKN
+QQLAWMDQLRQKGDLTKEFNTGLFTYGASSRPEAAGIGVAALGSFYMMLIVLVLALPIGV
+AASIYLEEFAPKNKFTDLIEVNINNLAAVPSIVYGLLGLAIFINFAGLPRSASLVGGLVL
+TLMTLPTIIIATRAALKAVPPSIRSAALGLGASKMQTIFHHVLPLAMPGILTGTIIGLAH
+ALGETAPLLLIGMVAFVVDYPGSPLEPSTALPVQIYMWANEAERAFVERTSGAIMVLLAF
+LIVMNLGAILLRRRFERRW
+>tr|A0A1Q9AEG2|A0A1Q9AEG2_9RHIZ
+MRIRGKINVILAVMGIVTLLVAATAMMVVRLYDNHFDRYVSLTERVYNGERMNRLVTAVV
+MESRGIYAAKSLKDAAKFADGMEKALADIDLLLEGWRRLVPDAERPAFDAMLGKAAEFRT
+VRQETIRLGREVSPEAASVQGNNDANRANRKAFQATIDGIVDQDRRSLENIRKAGDELVS
+FATLLIALAAGLGLIVSMAIGLMMARRLSRPILTLSDTMKRLAGGELETPVPFAEQTDEV
+GEMARAVEVFKRNGLSMTAQAREEARQRARAQELQTHVASLVSAAVVGDFTRRVPERSGD
+PALDQFAASVNALVESVEAGIGETRHVIARLAEGDLSQNMTGNFRGAFAELQTNMNETLS
+QLRTTMQDLRSATDGIHGGAAGLRQASDDLSRRTEQQAAALEETSSAIEEIASAVRLSTD
+RAQEAAVVMTDAARSTEQSGVIVRDAVDAMQRIEQASAEIGQITNVIDEIAFQTNLLALN
+AGVEAARAGEAGKGFAVVAQEVRELAQRAAKAAKDIKGLIARSGNEVSSGVRLVQEAGRA
+LSSIDARVQSVDGYIREIATAAREQSTGLKEVSTAINAMDQVTQRNAAMVEEINAATHKL
+ASEADHVSDMVASFRLEEGAGARTGFAPAPHSADRTASPATAPRASQSPPPLSPTARSER
+AGFTPAPAAGRGTSSASSSSAAPAPGRPASGFGLRLGRAKAPRVAPASESSRAVVSPARQ
+MMKTVAKAFAPAQSAKPAEDNWEEF
+>tr|A0A1Q9AL74|A0A1Q9AL74_9RHIZ
+MPDWLQLMIQSLPSLLIAGLRFTVPLTLLSFVLGLALGLLTALARLFAPAPLSMIARFYV
+WVIRGTPLLVQLFVIFYGLPSAGILLDAFPAALIGFTLNIGAYSSEIIRAAISSVPRGQW
+EAAYSIGMSWSQALRRTILPQATRVAVPPLSNTFISLVKDTSLAAAITVPELFQTAQRIV
+AVTYEPLILYIEAALIYLALSSILSSLQRRLEARFARYGGFLEART
+>tr|A0A1Q9AC95|A0A1Q9AC95_9RHIZ
+MASLISCPHCGPRPKEEFAVRGDATLLRPAPEASDEAWHAYVYLRANPRGVHVEHWQHVG
+GCRRFLVVERNTLTHDVLSVADAAEVAQGGAA
+>tr|A0A1Q9AIE4|A0A1Q9AIE4_9RHIZ
+MTDQRQHPSNVPYVVGIDVGTGSARAGLFALDGTMLSTAKRDITLYREAGDIAEQSSREI
+WQAVCASVREAVARSGIDPASVVGIGFDATCSLVVLGEGGASLPVGGSEDPDRDIIVWMD
+HRAVAQAERINATGHPVLAYVGGRISPEMETPKLLWLKENRPQIFDAAWQFFDLADFLTW
+RATGDLARSTCTVTCKWTYLAHEKRWDADYFHKVGLGELADDGFARIGQTIVEPGSALSG
+GLSAAAAAELGLKPGTAVAAGMIDAHAGGIGTVGYGGRPEENMAYVFGTSSCTMSSTAEP
+VFVPGVWGPYYSAMVPGMWLNEGGQSAAGAAIDQLLALHPHAPKAAERAAERGVPLPVLL
+AELAQASVADPSQAVHLVKGLHVVPEFLGNRAPFADPHARAVIAGLGMDRDEESLVALYV
+AGLCGIGYGLKEIIDAQAQSGADIARIVISGGAGQHDFVRQLLADATGKPVVAPEAGEPV
+LLGAALLGALAAGSFADARSAMHALSAADRVYTPTDGAVAAVHAARYEAFRTLQEAARTV
+RGC
+>tr|A0A1Q9AMS8|A0A1Q9AMS8_9RHIZ
+MEFTLLVAGATLLVFGLYFVARHYPTSAYALVLIMGVTLLVMGVLRVSNAKIAFIGFELN
+FNVAVQDAVEAKNTANNVKDNDIPRLNIEIQKAQDALEKQADINRKLVDVINGMRNSSSL
+KVADINDQGALFKRNSGYTVLVFYRDSRRDDAVNLQSALTAAGYPASSIMTDLSEAKIAA
+PPQSTVIVPSQKGVSVSQDVLALTKSVLPPSEAASARLGDSYRLQRGDLQILLF
+>tr|A0A1Q9ANZ7|A0A1Q9ANZ7_9RHIZ
+MINSLSRLTATLVLAAAPAVLALQPSYAANHYRIDPASHIGFHVGQAGDGAGISGTFPEV
+SGSFDIDRNDLAHSSVAVTLRAGSITTGQGRIDTFLRSNAVFDATNHPEITFRSTRVVPT
+GPKSATIEGILTARGQSRKEAFQATLVDEGGARMAFHVTGDIFRMPYGMGIGVPIYSNVV
+TFDMQLQGRR
+>tr|A0A1Q9AHP5|A0A1Q9AHP5_9RHIZ
+MTQTQQAKPAKGETILRLSKICKNFGAVSALTDIDLDVRAGEVVALVGDNGAGKSTLIKV
+LAGVHQPSSGTIDFLGKPATLDSPGKALELGIATVFQDLALCENLDVVANLFLGHEMSPW
+ALDEVAMEVRAWTLLRELAARIPSVRQPIASLSGGQRQTVAIARSLLLDPRIIMLDEPTA
+ALGVAQTAEVLNLIERVRDRGLGVIIISHNMEDVRAVADRIVVLRLGRNNGVFTPDASNQ
+ELVAAITGATENSVSRRAERKAGHAQEQPGSPA
+>tr|A0A1Q9ANT8|A0A1Q9ANT8_9RHIZ
+MHVNLQPKAPFVGMSKESIQKAKIGDNPSYKFAEGDLAQRRRVVNDPLRVEDDPRQRHGG
+NRR
+>tr|A0A1Q9AG15|A0A1Q9AG15_9RHIZ
+MIDSHCHLDFDDFAAERDQVIARAGEAGVRQMVTICTKVKKFDRILAVAEAYDNVFCSVG
+THPNSAHEELDIETDDLVRLSAHPKVVAIGEAGLDYFYDTASPEAQRTGLLRHIAAARQT
+GLPLVIHSRSADEDMAAILTEETGKGAFPFILHCFTAGPELARVGVELGGYISFSGILTF
+PKSEELRAIAKTVPHDRLLVETDAPYLAPKPFRGKRNEPAYVAQTAEVLAETLGMTVEEA
+GQLTTENALRCFSKMPRL
+>tr|A0A1Q9AN82|A0A1Q9AN82_9RHIZ
+MKPKIFIDGEHGTTGLQIRTRMAGRDDVELLSIPEAERRNAQLREELLNSADIAILCLPD
+DASREAVAMVKGNETVRIIDTSTAHRVAPDWAYGFAEMDKGQADKIRAARFVANPGCYPT
+GAIGLLRPLRQAGLLPYSYPVSVNAVSGYTGGGKQMIAQMEDANHPDAISSPNFLYGLTL
+KHKHVPEMQTHGLLARAPIFAPSVGRFPQGMIVQIPLFLEDLGTGATLESLHAALTAHYA
+GQSIVTVVPLEESAKMARVDAVELAGQDTMKLFVFGTPGGAQVNLVALLDNLGKGASGAA
+VQNMDLMLSA
+>tr|A0A1Q9AKT9|A0A1Q9AKT9_9RHIZ
+MQVILLERVAKLGQMGETVKVRDGFARNFLLPTGKALRANAANKARFEAERATLEARNLE
+RKSEAQAVAEQLDGKSFIIVRSAGETGQLYGSVAARDIAEIVGAEGFTIGRNQVDLNQPI
+KSIGLHEVVVHLHSEVEVKVTINVARSADEAERQAQGESLTSADAIYGVDEDALRPEDFF
+NPEAEFDGDEE
+>tr|A0A1Q9AEC9|A0A1Q9AEC9_9RHIZ
+MSRLFDPLKVGALELPNRVIMAPLTRKRSGVERVPNAMMAEYYRQRAGAGLILSEATSVS
+PQGVGYWGTPGIWNDAQVQGWQHVTRQVHEADGRIFLQLWHVGRISDPELLDGQLPVAPS
+AIAAAGHVSGLRPKRPHPIPRALETNEIPGIVEDFRQGAERAKAADFDGVELHAANGYLI
+DQFLQDKTNKRTDCYGGTVENRARFLLEIADAVTEVWGADRVGVHLRPRGEEHDMGDSNP
+KAIFGYVADELARRKIAFIFVREIEAEDSLLGEIKRRFGGPVIANELMSKEDGERLIESG
+HADALAFGRDYIANPDLAERLQQNFPLNTPNKVFGISFGYPDATHAANTYRIGKAPIEES
+VTFHG
+>tr|A0A1Q9AEX4|A0A1Q9AEX4_9RHIZ
+MSGKRHHYTVDIVWTGNEGTGTASYRGYRRDHEIRAEGKPTIAGSSDPSFRGDPARWNPE
+DLLVASLYACHKLWYLGLCAGAGVIVLDYADHAEGIMLEETGGAGQFTAVTLRPRVTISA
+ESDAAKARALHDEAHAMCFIARSVNFPVHAEPVILVETAA
+>tr|A0A1Q9AGK3|A0A1Q9AGK3_9RHIZ
+MREIIFDTETTGLDNKLDRVIEIGGVELDNHFPTGRTFHVYINPGDRAVHPEALAVHGIT
+DDFLKDKPRFEEVVEQLVDFFGDARWVAHNATFDMGFINAEFARLGRAPVPADKVLDTLA
+LARRKHPMGPNSLDALCRRYGIDNSHRTKHGALLDSELLAEVYIEMIGGRQAALGLATAD
+QGRADRQEDGEVVTVASRRPRPLPPRLSEAERLAHAELVGKLGDKAIWARYEPPGT
+>tr|A0A1Q9AMW1|A0A1Q9AMW1_9RHIZ
+MGEHRAQNWTPTSWRQKPIQQVPDYPDAAALAATEAQLESFPPLVFAGEARRLKKALANV
+ADGNGFLLQGGDCAESFAEHGADTIRDFFRAFLQMAVVLTFGAQQPVVKVGRIAGQFAKP
+RSSNVERQGDVELPSYRGDIINGIEFTSEARIPNPERQLMAYRQSAATLNLLRAFAMGGY
+ANLENVHQWMLGFVKDSPQAERYRKLADRISETMDFMKAIGITSENNPSLRETDFFTSHE
+ALLLGYEQALTRVDSTSGDWYATSGHMIWIGDRTRQADHAHVEYCRGIKNPIGLKCGPSL
+TADGLLELIDLLNPANEAGRLTLICRFGHDKVAEHLPRLIRAVEREGKKVVWSCDPMHGN
+TITLNSYKTRPFERILNEVESFFQIHRSEGTHPGGIHIEMTGKDVTECTGGARALSGADL
+GDRYHTHCDPRLNADQALELAFLLAERMKGGRDEKKLVVNG
+>tr|A0A1Q9AEU8|A0A1Q9AEU8_9RHIZ
+MRITLERSNLLKSLNHVHRVVERRNTIPILSNVLLRAAAGDSLEMKATDLDLEITEATPV
+NVEQAGATTVPAHLLYDIVRKLPDGSEVRLATNAEGTAMTVASGRSKFSLQCLPEADFPD
+LTAGTFSHGFKMKAADLKMLIDRTQFAISTEETRYYLNGIYIHTVESKGDLKLRAVATDG
+HRLARADLEAPSGSEGMPGIIIPRKTVGELQKLVDQPDTMVTIEVSDAKIRFTIGSIVLT
+SKLIDGTFPDYQRVIPANNDKELRVDCQSFAQAVDRVSTISSERGRAVKLALNDGSLTLT
+VNNPDSGSATEELPVGYESDPLEIGFNAKYLLDITSQLSGGEAVFMLADPGSPTLVRDLA
+GEEALYVLMPMRV
+>tr|A0A1Q9AJM1|A0A1Q9AJM1_9RHIZ
+MTTNRTEQTLKDLNQPRPWSGINAFLSDPLLTDIASGMPREVRDDFDAVGRYATSPEAQD
+LARMANHNPPELRTHGPRGERLDVVEFHPAWHALMRRSMTSGLHASPWEQLAPEKGINHL
+ARAIKFYLTAQLECGHLCPLTMTNAALAAIGASQAVQKEWAPKILSRRYDSTNRAFMEKT
+AATVGMGMTEKQGGTDVRAITSTAERVGEGIYRMAGHKWFLSAPMSDAFVMLAKTREGIG
+CFLVPRLLEDGSANGLRYQRLKDKLGNRSNASAEVEFSDTFGFVLGPPADGIRTILDMVT
+LTRLDCALASAGMMRASLAEAIHHTRGRQVFGKALIDQPLMTRVLADMALDVAAASALCF
+RLARAFDRSRESAADAAYARVMTPVVKYWVCKIAPGLIAEAMECLGGNGYVEERPIARHY
+REAPVNAIWEGSGNVMALDVLRVMARGRENFDHLFQIIARDMGPAALKTIDVLRAALSLC
+ERDEGAARMLMEQLALAAAAAELYRLGAGRIADAFLESRLAAGWRSTYGMLDSRFDSAYI
+VDLLYPAAK
+>tr|A0A1Q9ALU0|A0A1Q9ALU0_9RHIZ
+MASSQFYIIGKKGSGVLFVRTSPLRVATVSHEAIIAYEAEHEGIDGYARVAAAAKAMLLN
+QDGKPETGLDDVQIQGIEALIAGGAVVSEADFAFVGDVIDAGWDFNRKSQSPLESALQAV
+GPSGPAAGELFEAILADTPNAAP
+>tr|A0A1Q9ACR1|A0A1Q9ACR1_9RHIZ
+MDVIRILLAILLPPVGVFLQVGIGLHFWLNILLTLLGYIPGIIHAIWVILRK
+>tr|A0A1Q9ALL9|A0A1Q9ALL9_9RHIZ
+MQTKPFRIGTRGSPLALAQAFETRDRLMAAHGLDDHMFEIVVMSTAGDRITDRALADIGG
+KGLFTQELEDKLLSGDLDFAVHSSKDMPTHLPDGLFLSAFLPREDARDAFIGRAGPKLLE
+LPEGSVIGSASLRRQALIRRLRPDLSVVVYRGAVETRLRKLDEGQVDGTLLALAGLKRIG
+RTDVVTEILDPHEFPPAPAQGAICIESRKGDARVGALIEPINDIATFEAVTCERAFLAAL
+DGSCRTPIAGFASSDGTTIRFSGMILTPDGSRHHRVEREGRASDPEAIGRAAGEAVKAEA
+GPDFFASWS
+>tr|A0A1Q9ADK8|A0A1Q9ADK8_9RHIZ
+MAIHVVGNVCVDMSFRLKRLPRAGETLNAQSAGEGLGGKGANQAVAAARTGAAVTLWAPV
+GNDPVGLWMGERLAAEITTLRLSRLDLPSDRSVVLVDGRGENLIVTAAACAEAFDPTAEG
+ALAAAWRSGDVLLMQGNLPIAATVACLRQARASGLFTVLNPSPLPEDVRDLAMVSLLIAN
+RPEAERLTGEADPQLAARRLRALGAEAVVITLGGEGALVQDGSSNLHIPARQAEVIDTSG
+AGDCFAGTLTGLLHRGMPLAKAAEVASAAAALCVGRPGTMAAFPTRAELFALVPSLKTDI
+A
+>tr|A0A1Q9ADU3|A0A1Q9ADU3_9RHIZ
+MRAQPPASHFIDGAYVEDEAGTPFDSIYPATGEVIARLHAATPAIVEKAVASAKRAQKDW
+AAMSPTARGRILKRAAEIMRARNRELSELETLDTGKPIQETIVADPTSGADAFEFFGGIA
+AVGLNGSHIPLGADFAYTKRVPLGVCVGIGAWNYPQQIACWKGAPALVAGNAMVFKPSEN
+TPLGALKIAEILIEAGLPKGLYNVIQGDRTTGPLLVEHPDVAKVSLTGSVPTGRKVAAAA
+AGHLKHVTMELGGKSPLIVFDDADLESAIGGAMLGNFYSTGQVCSNATRVFVHKAIKAPF
+LERLKARTEAIKIGDPMDEETQLGPMVSAAQRAKVLDYIAKGQAEGARLVTGGGIPNHVP
+GEGTYIQPTVFADVTDDMTIAREEIFGPVMCVLDFQDEEDVLARANASEFGLAAGVFTAD
+MTRAHRMVDRLEAGTLWINSYNLCPVEIPFGGSKQSGFGRENALAALEHYSELKTVYVGM
+GKVEAPY
+>tr|A0A1Q9ADS5|A0A1Q9ADS5_9RHIZ
+MSDLVTRVTENVGIAPAQAEKAIGMMLGFLQREAADGPVARMIEATPGAAELVARFNGEG
+KSGGLLGKIVGAFGGGVMALGQQLMSEGLSMGEITALAKEVIAYGKEHAGEDTVNEVIDS
+VPGLRQFV
+>tr|A0A1Q9AG37|A0A1Q9AG37_9RHIZ
+MTSPQPAEGPVRIQVTTLTMSAPPKQSLPMPVNIQTAIMRVPEIPLAYYRFLYLQVGRRW
+QWVDRLRLSDEELTAVLHDERNCVCVLYVNGAPAGFFETRTLDDETVELSHFGLFERALG
+LGLGKWFLLQALYACWSTNPRLVTVETNNLDHPRALQLYQQFGFSPVATREAEQCPLSEA
+DLLALLNSF
+>tr|A0A1Q9AH19|A0A1Q9AH19_9RHIZ
+MDQKIELIAPGGIEGLRLSACAPEEPGPGEIRLRHQGIGVNFIDIYHRLGLYPLPLPAVL
+GVEGAGVVEAVGRGVERLKPGDRVAYAGAPGAYAATRLLPAWRAIPLPDDLAMEQAAVAF
+LRGMTAHLLLTRTFPVGPGSLLLIHAAAGGLGAVLTRWSRRLGARVIGTAGTPQKADIAR
+ANGADHVIIGRDADLVAEVLALSNGRGVDFAIDGIGGTMLARSLAATRRFGTVASIGQAG
+GPIPPVAVEDIGPMRSLSLARPSVMAYAAEKETYAIAAGAVLAALKDGLLPAPAHRYALA
+DAAQAQADLEAGRTAGSILLLP
+>tr|A0A1Q9AHG0|A0A1Q9AHG0_9RHIZ
+MTSTNFRPLHDRVVVRRVESEAKTKGGIIIPDTAKEKPQEGEIVAVGTGARDESGKVVPL
+DVKAGDRVLFGKWSGTEVKLNGEDLLIMKESDIMGVIA
+>tr|A0A1Q9APS5|A0A1Q9APS5_9RHIZ
+MSAKQPGAPAPERTERSSLIAAGLILLIAGLGFAFLPRLMLALGTISPFLAAAVGTLFVA
+AFFLVFWLRARVQRRRDGG
+>tr|A0A1Q9AKW8|A0A1Q9AKW8_9RHIZ
+MTASTLASPAILTRRALLAGLGAASSLVLLHPFAARAAANQAHLRILETTDIHVHVYPYD
+YYGDKPNDTLGLSRTASLIDAIRAEAGNSFLVDNGDFLQGNPLGDYMAYQKGLKEGDVHP
+VIRAMNLLGYEAGTLGNHEFNYGLDFMFKALGGANFPYVCANLTKGQLASDPKKDDLFFK
+PFTIVEKTVTDGAGATSPLKIGLIGFVPPQIMLWDAKNLEGKAMTRDIVEAARAWVPVMK
+EQGADLIVALSHSGIDGTGQSDRMENASLYLAGVDGIDAILTGHQHLVFPGPKSFDGIAG
+VDSVKGSLQGKPAVMAGFWGSHLGLIDLLLERDGKSWKVVDFTTEARPIYHREDKKVVAD
+VVDRADILTAAKPEHEATLTYVRTPVGKSAAPLYSYFALVADDPSVQIVSQAQMWYIKDM
+LKETQWKDLAVLSAAAPFKAGGRGGPDYYTDVPAGDIAIKNVADLYLYPNTVQAVKINGA
+QVKDWLEMSAGLFNQLKPGEKDQPLIAAGFPSYNFDVIDGVTYEIDLSQPARFDNDGKLV
+HPEANRIVDLKFGGKPIDPAQDFVVATNNYRAGGGGKFPAIAADKVIFAAPDTNRDVIVR
+YIHDQGTINPSADDNWRIEALPGTTATFESGPKARGLIATVKGAKIEDAGDGAEGFAKFR
+LVL
+>tr|A0A1Q9AIW8|A0A1Q9AIW8_9RHIZ
+MNWDDVRVFLAVARTGQILAASKRLGLNHATLSRRLTALEAALSARLFVRRTHGCELTAE
+GELFLPAAERMETEMLAAQARLARTDTAAAGTVRIGAPDGFGVSFLAPRLGRLIERHPQL
+KIELVPVPRSFSLSSREADIAITLERPDQGRLVSVKLTDYTLGLYAARSYLEAEGWPETV
+EALKDHRRIGYVEDLVFTASLNFSGEILRRWDARFEISSATGQTEAVRSGAGIGILHDYI
+ARADPSLTRILPDISIRRSYWTTFHESARDLTRVRVVADFLQEIVRAEHHRFL
+>tr|A0A1Q9AJC0|A0A1Q9AJC0_9RHIZ
+MKSDQQPLFELLAFLDLKRIHYSLLRTRPDSIGILITLVGMRIEIFVFNDGHLEYSTFEG
+TEDVLSERSELLRLLSALGKSIGPKSGNRFSEKSDAKTKN
+>tr|A0A1Q9AIK7|A0A1Q9AIK7_9RHIZ
+MPKTKATTFPLAPVLDLNAATELHEKLMGLRGSDIIVDASKVERVGALCLQVLMAGAKSW
+QADNLSFVVSQASDAFSKTTQLIGVNMDHLMAKEN
+>tr|A0A1Q9ALB3|A0A1Q9ALB3_9RHIZ
+MALDFIKKVFTFGRSKPAEEAPRPEEEQTAPGPQEAADLPLATDPVLPEEMDTAGGPADD
+EEIDFEAITAAQDDPALLPPIEAIGDLGMVPLSLLEAEAEAGTQEAPLDPETLDAAVPIA
+EDDLDAMAQAPLSPAQEEAQPAPATEVLEPEAAVHVPPAEQAVAETADEAPALSDAAPAD
+TLDAAKAETFGATEAGEAEASTPDDESAAALAASPALPKGFAARSEAVEEVVAVQQKRNW
+FQRLRDGLSRTSSQLTGQITALFTKRKLDDDTLQDLEDLLIQADLGMETALRITDTLASE
+RYGRDVTGEDVSRIMADEITKVLTPVAKPLTLDLSHKPHVILVVGVNGTGKTTTIGKLAA
+KLSGAGLKVMLAAGDTFRAAAIEQLKIWAERTKSHIVATKLGADAAGLAYEAFEEARRQK
+SDVLIIDTAGRLQNRTELMAELEKIVRVLGKLDPDAPHTVLQTLDATTGQNALNQVEIFR
+NVAGVNGLIMTKLDGTARGGILVAISAKHKLPVYFIGVGEGIDDLEPFEARDFARAIAGT
+GA
+>tr|A0A1Q9AP56|A0A1Q9AP56_9RHIZ
+MEWKGRRQSSNVEDRRAEGPVGGGLGGGYRPGGGFRIPVGSGRGGGLSIGTIIFLVVIYF
+IFKAMGIDLLQVVSGEAPRPSGYEQSAQQSSNPGEEETKAFVSTVLAETEETWNGIFKAN
+GQTYSEPKLVLFRNAIRSGCGNASSASGPFYCPADQKVYLDMAFFDELSQRFNASGDFAQ
+AYVIAHEVGHHVQNLLGILPKVNQARERMSEAQSNQMSVRTELQADCFAGIWGKYTAQKG
+LLEQGDLEEALNAATQIGDDTLQRRSQGYVVPESFNHGTSQQRTTWFKRGYDSGKLSACD
+TFNNPV
+>tr|A0A1Q9AFB5|A0A1Q9AFB5_9RHIZ
+MTMQSTTIENAHWSTVPGAHIPRLETAKGQKGTRLAPSTRAKSLVGAMTVSAALWVGVAY
+AVKSIL
+>tr|A0A1Q9AM45|A0A1Q9AM45_9RHIZ
+MLDKTDKAHGNAMMPEDTPELRALYQAFEEQQLMPLWTQLGNLMPRHPMPRAAPHVWRWA
+DLLPLAQKAGELVPVGRGGERRALGLANPGLGGNAYISPTLWAAIQYLGPRETAPEHRHA
+QNAFRFVIEGEGVWTVVNGDPVRMSRGDLLLTPGWHFHGHHNDTDHPMAWIDGLDIPFCQ
+QMDVGFFEFGSDRVTDYSTPKFSRGERLWCHPGLRPLSGLRDTVNSPIGAYRWEFTDRAL
+TEQLLLEEEGQPATVEQGHAAIRYVNPTTGGDVMPTIRCEFHRLREGTETPVRREVGSTI
+FQVFDGKGAVVLDGVTHTLNVGDMFVIPSWIPWSLQAESQLDLFRFSDAPIMERLNFMRT
+HVTEPER
+>tr|A0A1Q9ACP5|A0A1Q9ACP5_9RHIZ
+MAAISPWWSRDRHADRRPFLMARGRIQAALRGFFARQDFVEVDPAALQISPGNEAHLHAF
+STRAIGPDGQGHPMHFHTSPEFACKKLLAAGETKISCFAHVWRNRERGPLHHPEFTMLEW
+YRVGEAYDQLMADCARLLALAAEAAGNEMLRWRGAECDPFADPERLSVAEAFARYAGIDL
+LATVSPTGETDREALSRALQAAGLRVAPDDLWADLFSRVLVERIEPRLGFGRATILYGYP
+VSEAALARRSAGDPRTAERFELYACGVELANAFGELTDPAEQRRRFLIEMAEKQRIYGET
+YPIDEDFLKALERMPEASGAALGFDRLVMLASGARRIEEVLWAPVADPADQPDQPELAP
+>tr|A0A1Q9AMF1|A0A1Q9AMF1_9RHIZ
+MAKHKVAMLTAGGLAPCLSSAVGGLIERYSDILPEAELVAYRSGYQGLLTADRIAITPAM
+REKAGILHRHGGSPIGNSRVKLTNVADCVKRGLVAEGQNPLQVAAERLASDGITILHTIG
+GDDTNTTAADLAAYLGANGYELTVVGLPKTVDNDVVPIRQSLGAWTAAEVGARFFDNVGN
+EQSAAPKTLVVHEVMGRHSGWLTAATARAYLQGLDSLEMVDGFMMDRSLKSIDGLYLPEM
+QFDMASEAERLRKVMEKTGFVALFVSEGACLHEIVAEREAAGETVKRDAFGHVKIDAINV
+GAWFSRQFAALIGAERAMVQKSGYFARSAPANAQDLRLIQGMVDLAVESALNGVSGVTGH
+DENQGGRLRCIEFPRIRGGKAFDTATPWFTTMMETIGQNWRSA
+>tr|A0A1Q9ACF6|A0A1Q9ACF6_9RHIZ
+MPKFDLDRLLQSIDSRTARAGVIGLGYVGLPLAVATAARGFFVTGFDIDPPKITAIEAGR
+SYIEAVTDAALQAEVAAGRFRAASDFDLLSDCDIVVICVPTPLTRHRDPDLSFVTATTRA
+IAARLRPGQVIVLESTTYPGTTREVLQPILEETGLICGRDFLLGFSPEREDPGNRDFHTT
+VIPKIVAGEGEAACRVLAAFYGAVVDKVVPVSTTQTAEAVKLTENIFRAVNIALVNELKV
+LFDAMGIDIWEVVDAAKTKPFGYMPFYPGPGLGGHCIPIDPFYLTWKSREFELPTRFIEL
+AGEINSAMPRHVVGRLAEALDIRSGKALSRARVLVIGLAYKKNVPDIRESPSLKLIEIIE
+ERGGKAAYHDPHVAEIPKTREYMALKGRQSVDLTPETLAGFDAVLVATDHDEIDYAALLA
+VPVIIDTRNAFARRGLASERIIKA
+>tr|A0A1Q9AM99|A0A1Q9AM99_9RHIZ
+MSAQTAERHLDLLIMPETNLILVASVIEPLRAANRIAGRRLYRWTLYSPDGAPIETTSGV
+PIAVSGAFSPSSSADPLFVLSSYHWRRGLTAALRRQLSQAARVRQLIAGIESGSWLMAET
+SLLDGASAAVHWEDAEDFAAAYPQITVASPRFVIDGKRITTGGPLPTLDLMLELIRREQG
+YSLALEVSRLFIYEPDRPPQSPSAEGLPLVAPMRLRDDRVKAALTLMAAQIETPLPLARI
+ARRVGVSARRLQDLFQENLGVAPHTHYLALRLNAARRRVIETSAPLADIAAAAGFNSAAA
+FSRSYRAHYRESPRETRRRLQP
+>tr|A0A1Q9AE11|A0A1Q9AE11_9RHIZ
+MVVTGGSSGIGLAIASAYAARGARLTLIARGSDALTEAVQRLKTDHPEASVAAEAADIAR
+NDAIAAALQRAEARLGPCEVVIACAGLVAPARFDVQPAEDFDRQISVNLIGTANTIRAAL
+PGLRLTGGRLMIVGSGAGLIGLYGYAAYCASKSALIGLADSLRLELAGDGISVGLCYPPD
+TETPQLAQERPLRPAEAEIMMGKVAAWPADRLAGKILAAIDRRRANLYFTLELGLLGYLG
+SSLRPLLYAWFGRRIAAASRKGMR
+>tr|A0A1Q9AJQ4|A0A1Q9AJQ4_9RHIZ
+MAGTLMSHAAPALAMTPLVPHRAVYDLQLQDATEQSGISNMYGRMVYEFNGSACAGYTVS
+FRFVTKVDGGEEVRTTDQQTTTFEDPKGSFRFLTRSFTDDKLDKEVRGTAHETEKGVSVD
+LEAPQKQSVDLTKAMFPTAHMIDVIERALKGEKLFEARLFDGSDSGDKTMLTTTVIGARE
+TPAGGGAGKAESDKNKEDKIESGKAEEGADDTDAEKAGTLARSPYWPVTIAYFEDHSTGD
+ATPTYRTSFKLYENGVTRDLTLDYGDFVLSAKLAKLDLYKADGCNSPAKQAK
+>tr|A0A1Q9APP8|A0A1Q9APP8_9RHIZ
+MDIFANLQDEKAKLSQSEVRIADIILSDFEFAVNASIIELAERAEVSPPTVTRFCRRLGC
+DSFSDFKIRLARTAYVGMRYLKPEPKSSDAADVAQDIVAKAQNALFLLHSQLDMPALERA
+VDRITAGEMIYAFGSGGNSSMIANELQNRLFRFGLRVTASCDHSMQLMLAAACGPRDVII
+GSSLSGRNTELVRTLKLAREQEVPTIVLTQSGSPVAAAAEIVLPVDLAEGVNIFRPTSTR
+IAYLALVDILASLVAYRVQGQAVTTLRRIKQQLVKHRDGDDRQPLGD
+>tr|A0A1Q9AES3|A0A1Q9AES3_9RHIZ
+MDDRDYHHLVRAGAPGAPAFFVFHGTGGDENQFFGFASRLLPQATIVAPRGDVSEHGAAR
+FFRRTGEGVYDMADLARATTKMVAFIRRLTSEHGAGAVYGLGFSNGANILANVLIEEPGL
+VSKAVLMHPLIPFQPAASASLKGTRVLVTAGRRDPICPVPLTEALAAHLAGRGAAVETEW
+HDGGHDIRPNEVAALERFLGGDGA
+>tr|A0A1Q9AG22|A0A1Q9AG22_9RHIZ
+MKIERRFTRAGQSAYADIAFRKAISEIRNPDGSIVFRLADIDVPEQFSQVAADILAQKYF
+RKAGVPARLRKVEENDVPSFLWRSVADEKALKELPEEARYGSETDARQVFDRLAGTWTYW
+GWKGGYFATEEDASAFRDELAYMLATQRVAPNSPQWFNTGLNWAYGIDGPGQGHFYVDPF
+TGKLTRSKSAYEHPQPHACFIQSVQDDLVNEGGIMDLWVREARLFKYGSGTGSNFSHLRG
+EGEKLSGGGKSSGLMSFLKIGDRAAGAIKSGGTTRRAAKMVVVDIDHPDIEAYINWKVKE
+EQKVASLVTGSKIVAKHLKAIMKACLNCEGDGDDCFDPAKNPALKREIRAAKKNSVPENY
+VKRVIQFAQQGYKDLEFKTYDTDWDSEAYLTVSGQNSNNSVSLKDDFLRAVEKDGDWNLT
+ARKDGRTVKTLKARDLWEQISYAAWASADPGLHFNTTMNDWHTCPAAGPIRASNPCSEYM
+FLDDTACNLASLNLIQFKDAATKRINIADYEHAVRLWTVVLEISVMMAQFPSREIAQLSY
+EYRTLGLGYANIGGLLMSSGIPYDSTEGRAIAGALTAIMTGVAYATSAEMAGELGPFPGF
+APNRENMLRVMRNHARAARGETLGYEGLSVDPVALIHGDCPDQDLIAHAVAAWDKAVSLG
+EQHGYRNAQTTVIAPTGTIGLVMDCDTTGIEPDFALVKFKKLAGGGYFKIINRAVPEALR
+TLGYSESQIAEIEAYAVGHGNINQAPAVNPSTLRAKGFTDEKIEAINAATKAAFDIKFVF
+NQWTLGADFLKTALKVSDEQLADVSFNLLDHIGFSKKDIEAANIHVCGAMTLEGAPFLKA
+EHLAVFDCANPCGKIGKRYLSVESHIRMMAAAQPFISGAISKTINMPNEATVEDCGKAYL
+LSWKLALKANALYRDGSKLSQPLNASLIEDEDDEDAIEELLQMPAAAQAVTVTEKIIERV
+VERVVRSQEKLPSRRKGYTQKAKIGGHTIFLRTGEYDDGRLGEIFLDMNKEGSALRAFIN
+NFAISVSLGLQYGVPLEEYVDAFTFTKFEPAGMVTGNDAIKNATSILDYVFRELAISYLG
+RHDLAHVDTSDFSATALGRGVSEGKADVVSKGLTRGYKPTLVSSAASSAAEPRGAANSAG
+SAKATGGATVTAISGNTVRKLETVVATSEVVAFKRDYEERARELAEEIAEEETGAMTALF
+TEQAAADAANAKVDAKKVENERRMRSIAQGYTGNMCSECQNFTMVRNGTCEKCDTCGATS
+GCS
+>tr|A0A1Q9AFF8|A0A1Q9AFF8_9RHIZ
+MQRSALFITYVGLMTLVVVSSNVLVQYPLPGVIAGINLSDLLTYGAFTYPVAFLVTDLTN
+RQFGPRIARRVVVCGFAVAVLLSIAAATPRIAIASGSAFLLGQLLDISLFNKLRAQSWWR
+APLVGSLIGSALDTTIFFSLAFAPIFSMLGPNEEFALQVSPFLGAFSAEVPRWISWAAGD
+LFVKMAVGLLMLLPYGALMSWLKPMPGVTASSQG
+>tr|A0A1Q9ACH7|A0A1Q9ACH7_9RHIZ
+MLIDWFATSMLRKYNTRLAKLVESFPTGSTNIANEDASKMTSMLLVAPLEDLEASQDQLP
+LIFIPSLPATQGAEGFVVSIGSKAVGKVYPC
+>tr|A0A1Q9ACV2|A0A1Q9ACV2_9RHIZ
+MKGIILAGGSGTRLYPITMAVSKQLMPVYDKPMIYYPLTTLMLAGIREILIITTPHDNEA
+FKRLLGDGSQWGISLTYAVQPSPDGLAQAFIIGADFVAGGSSALVLGDNIYYGHGLPELL
+RKGASATSGARVFAYHVTDPERYGVVEFDETMKALSIEEKPAQPKSNWAVTGLYFYDEQV
+VDIAANLKPSPRGELEITDVNQIYLDRGQLDVELMGRGYAWLDTGTPDSLLDAADFVATL
+ERRQGFKIACPEEVAFRMGYIDGEQLAKCAKALGKSNYGKYLSQLK
+>tr|A0A1Q9AF00|A0A1Q9AF00_9RHIZ
+MNRRVENENVPAAEPRASDPKILAQEIIERLTYRIGKDPKVAKPHDWLTAAILVARDRIT
+DNWMDSTRNTYETGAKRVYYLSLEFLIGRLMRDAITNLGIADALREALSTYGVDIDVIAQ
+LEPDAALGNGGLGRLAACFMESMATVDIPAYGYGIRYVHGLFRQQMADGWQVELPETWLT
+HGNPWEFERRESSYEIGFGGSVETVNIDEEVTRYVWKPGERVIATACDTPVVGWRAKRTN
+TLRLWTAYPIDPILLDAFNAGDHIGALRESNKAESLARVLYPADATPAGQELRLRQEYFF
+SSASLQDILRRHLQQYPDFTSLPDKVSIQLNDTHPAVSVAELVRLLTDVHGLSFDQAWDI
+ARHTFSYTNHTLLPEALETWPVPLFERLLPRHMQIIYAINAKILIEARKEKGSSDEAIRT
+ISLIDESGDRRVRMGNLAFVGSHSINGVSALHTELMKDTVFADLHRLYPERINNKTNGIT
+PRRWLMQCNPALFSLIREAIGDAFMDDAEELKALDAFAHDKEFQARFAAIKRDNKVKLAQ
+LVQTRMGIRINPAAMFDIQIKRIHEYKRQLLNIIEAISLYDQIRSHPEMDWVPRVKLFAG
+KAAPSYHNAKLIIKLANDVARVVNNDPAVRGLLKVVFVPNYNVSLAEVMVPAADLSEQIS
+TAGMEASGTGNMKFALNGALTIGTLDGANVEMRDHVGEDNIKIFGMTADEVAKARAEGHN
+PRAIIEGSRELSQALQAISSGVFSPDDRNRFAGLVDGLYSHDWFMVAADFDAYAKAQREV
+DALWTDTESWYSKTILNTARMGWFSSDRTIRQYAKEIWRAG
+>tr|A0A1Q9AMB9|A0A1Q9AMB9_9RHIZ
+MDIRQINEEYSVTGQITEEDLPAIKEMGFRSIVCHRPDHESPDQPEFDTIAARARALGLE
+ITHIPVGPMGVTADAVREMVDALDSFERPMLGYCRSGARSTAVYQQTQHLRG
+>tr|A0A1Q9AIP8|A0A1Q9AIP8_9RHIZ
+MSLSSAISTAQQIFSNTAQQTSVLSKNIANANNSDYARRMATLSTSAHGAEVVTIQRAQN
+DALLKQKIISNAQSTGQDTLMTGLDEIRIALGGNDYTSAPSSYLSKFRDSLQTLASTPSS
+RTTAASTVAAAGDLAKSLNTAADKLQDMRRVADADIADSVAKLNSLLSDFEIANHSVQGA
+LSAGADAGDALDQRDKLLSQMSEIIGISTVTRKDNDMVIYTSDGTVLFENKPRQVTFQQT
+NGFDAGTTGAAIYVDGIAVKGGQGANTTAQGKLPALLQLRDDVLPTFQTQLDEVARGLVE
+VFKEGSGQGLFKANSVVFGSVSNSSVATAIKGYANTISVNPAAVANPLLVRDGGFNGVVS
+NTTGSSGYTTLIDSFVTALGAKMAFDPAAGLTANTSLLSFSTESVGWLEQMRSTASSAND
+NKSALLTRTQESLSNLTGVNMNEELSLMLDLEQSYKASAKLLTTVDAMMTSLLDAVR
+>tr|A0A1Q9ADW0|A0A1Q9ADW0_9RHIZ
+MRIVCIGGGPAGLYFALLMKKLHPDHHVTVVERNRPYDTFGWGVVFSDQTMASMQVWDQE
+SAAEIKQAFNHWDDIEVLFKGTRQRTSGHGFVGIGRKKLLNILQARCEALGVELTFETDV
+DSDLDFPDADLIIASDGLNSKIRRKYAEIFEPDLVVRPNRYIWLGTNKLFDAFTFDFRKT
+DHGWFQAHIYKFDENTSTFIVETTETAYEAHGLGRMSQQESIDFCQSLFAETLEGAELMT
+NARHLVGSAWLNFSRLICGKWSHFNGRSHVVLMGDSAHTAHFAIGSGTKLAIDDAIELAN
+QFNKAGHDKARIAEVLKTYEEIRRVDVARIQNAARNAMEWFEVVGDRYADTLPPEQFMYS
+MLTRSQRISHENLRLRDKGWLEGYEHWFARQSGLKVSENERCLPPMFTPYTLRGTTLANR
+IVVSPMAMYSAKDGLFDDFHMVHLGARALGGAGLVFAEMTCVSPDARITPGCLGLWNDAQ
+MAGWKRFVDFVHTNSAAKVGIQIGHAGRKGSTRRAWEGIDQPLDEGGWPLISASALPYLK
+HSPVPKAMDRADMDRVKADFVAATKRAAAVGADWLEFHAAHGYLISSFLSPLTNRREDDY
+GGSHENRARYPLEVFAAVRAAWPDDRPISVRLSCHDWAEGGNTPEDAAIFAQMFKDAGAD
+LIDCSSGQVWKEEKPVYGRLFQTPFSDKIRNEIGIPTIAVGAISEADHANSIIAAGRADL
+CAVARPHLADPAWALHEAARIGLKSVAWPKQYMSGKGQYEANLERAGAAAK
+>tr|A0A1Q9AK92|A0A1Q9AK92_9RHIZ
+MSNHAPETGPFFARNRDLHPPAYTPWYKTSILRSPQRALISLEGTKSEITGPVFGHGMLN
+PLDNDLILNYARPGEMPVGPRILVHGRVLDERGRGVAGALLEFWQANAGGRYRHKKESYL
+AAIDPNFGGVGRTITDEDGGYWFKTIQPGPYPWPNGVNDWRPAHIHFSVFGHGFQQRLIT
+QMYFEGDPLIALCPIVRTIPDPQAIDRLIAPLDMNATIPMDMRAYRFDIVLRGRRSTFFE
+NRPEGN
+>tr|A0A1Q9APK3|A0A1Q9APK3_9RHIZ
+MSVFAHLPILPILIPLITAAALIPIDDRNRDLKGVVSVVSSAIVFLVSLSLMYAAADQPE
+GRPLVYLLGNWAAPYGIVLVVDRLSALMLVLSSLVALGAQTFSIARWHRQGFHYHSLFQF
+MALGVNGAFLTGDLFNLFVFFEIMLGASYGLLLHGSGPMRVKKGLHYIAINLAASSLFLL
+GVSLIYGATGTLNMADLALRIGQLNVENRMLMEAGAALLGMAFLVKAAMWPLGFWLAGAY
+AAASPPSAAFFAILTKVGAYILLRLSMLLFGAAAGPSAGFGLNVLLYGGLITILFGLIGV
+LASQALGRLAAYCIITSSGTLLAAIGIADKAVIAGALLYLVTSTLAAAALFLLIELMERA
+RDAGADVLAVTMEAYGDDDQVETEVGVAVPRTMALLGLCFVITTMLLAGLPPFSGFLAKV
+SILHGLFGSGPPGAALSFHGLDGAQWTYVVLLILSGLSTLIAMNRVGIRTFWTSIEGTVP
+RVYLIEIAPIMLLLGACLVLTLGAGSALSYLDATASALVNPQSYIEPVLSAPRVPSPGEP
+>tr|A0A1Q9AIC6|A0A1Q9AIC6_9RHIZ
+MRPLRGIGLKVLSVLVFVCMSTFIKAAGNEIPTGQITFYRSVFAIIPIVIFLVWRGQLRT
+ALHTRDPIGHLLRGFVGILAMSCGFYGLQHLPLPEAIAIGYAMPIFAVIFAAVFLKETVR
+LFRWTAVGIGLVGVIVISWPRLTLLRSGDMGAGEAAGALAVILSACLGAIAMILVRKLVH
+AERTQTIVLYFSLSASVFSLVSLPFGWEPLSMRAFLLLMAAGICGGIAQLLLTESYRFAD
+MSTIAPFEYTSIVLGLGFGYALFGDVPTPTMLAGTALVISAGIVIILREHRLGLKRRGAR
+KLMTPQG
+>tr|A0A1Q9AJK1|A0A1Q9AJK1_9RHIZ
+MKDLNDITYFVAVVRHRGFSTAARALGVPKSLLSKHVANLERELGVRLLERSTRTLRVTE
+IGQRFFDHCEQALASVETAEAVAASAQTEPKGTVRLACPNGFAPMVAQLMPSFHQRFPKV
+QVLIAVSNRRVDLMAEQIDIALRARAEIDMDAGLVVRRLGAARRYLVASPGLLAQLGPIA
+VEELAQLPTLSMNSEHATDRWTLVQPDGAATEIVHRPILGCDDFTVLERAAIEGVGIALL
+PEHMCRRAIQIGLLAPVLPEWSAIETIAHLVFPTRQGMLPAVRSLIEHLAQHLPTIMALC
+SEPEAAPRPSAHDIALPAGNAASRSAAGRHAG
+>tr|A0A1Q9AMJ9|A0A1Q9AMJ9_9RHIZ
+MGQDHIRYDILAQDALRSVIRKVLSEVAATGHLPGDHHFFITFLTNMPGVRISQHLKAKY
+PEQMTIVVQHQFWELKVTESQFEIGLSFSDTPEKLVIPFNAVRGFYDPSVNFELEFDVAS
+MDELQDAEITAYPVPTESASPSEPKAPAAEGDGEKKGGSVVSLDSFRKKN
+>tr|A0A1Q9AE39|A0A1Q9AE39_9RHIZ
+MTGVFPSQPTSLRLMDAIGDSESRALFLCEDGAELVLGQMLALAEHAGFRETRRRLVFCL
+SDNDPGGLLGYLALMRAGAVPAMLGTALPGERIAALINVYRPDFLWLPEKRVAEFADLVP
+VHDAHGYWLLAAQAGEGHALHPDLALLLATSGSTGSPKFVRLSHTNLHANAAAIVRYLAL
+TPKDRPVTTLPPAYSYGLSVLHSHLLAGSTIALTARTFFDRGFWDVLRSAGVTSLAGVPY
+HYEMLKKLRFASMDLPALNTLTQAGGRMDPALTREFATLCAERGMRFFSMYGQTEATARM
+AYLSPDKAIRKAGSIGQPIPGGRFQLIDAEDAPVEGSDLAGELVYEGPNVCLGYAEGAAD
+LALGDVFGGTLRTGDLAQRDAEGDYTIVGRLKRFLKLFGYRVNLEDIERALIADGHAVAC
+AGRDDLLEIYLVEGTPEIGKAIKSRLVSEIKVAPQGIKVHAVAALPRGDNGKIRYGDLDG
+LSRETLA
+>tr|A0A1Q9AF38|A0A1Q9AF38_9RHIZ
+MTFRLLLRAVMIVAIIAAVYLLVRTLREYSLDEILQALRSIPLSHFAASLAFAFASYFCL
+SCFDAMGVRYAGKRLAFHRTLLTSFVSLSIGHNVGVAALSSGAVRYRYYARWGLTAEDVA
+KIVLFCGVTVGIGLMTLGSLGLFLRPQEAVQMTGLSSSAVFTLAIVSALLPVVYVILAAT
+LRKPLQLRSWSFTMPSLRLALGQVLFGTLNFACVAASLHQMLSAFSEANYLKVAAVSIIA
+NVAAIISHVPGGIGVLEATVAHILPGAQSVAAVIAFRVAYYFIPLAIGLPLLIGSEMLIR
+KSDKARPRHEDEAPEGHAHPA
+>tr|A0A1Q9AGI1|A0A1Q9AGI1_9RHIZ
+MGKSTTAGFFAALGVPVNDADAVVHALYRGEAVAPVEAAFPGVTADGVVDRVKLAQVLTR
+DPAGFKRLEAIVHPLVRAREAAFLAEHRALGTPLVVLDIPLLFETGAQDRVDRIVVVTCS
+PEIQRARVLQRPGMTEEKFALILARQVPDAVKREGADYIIDTGLGLDAARAAVAAIVKEC
+ADA
+>tr|A0A1Q9AL61|A0A1Q9AL61_9RHIZ
+MQSELLMDDRLRSPEERPRPLRTGSDCPVLLSARLVLRAPHEDDIDALAHLANNSSVATM
+VSRMPHPYTVADAADFVRRSQAGTMGKCVYAITKAENGAFLGCCGIEPHRDPETVELGYW
+LGEPYWNRGYGTEAAQTLIDMAFRTRDIERIDARCRVMNIGSRRVIQKCGFQFQGSGMAH
+SLALGTMVPVEWYRLDRKIWMSLKSWGTGR
+>tr|A0A1Q9AD27|A0A1Q9AD27_9RHIZ
+MEVKMTRLIVKLQGRKLTGWAYEVGGSSHAYEIVLSQDGAAFARCLADMSLSQVEAFVAV
+DEAMGHGFSCLIDPDRLAPGRSPIIVSIVGTDIRREVAAGGRNAVTLRADLRIDHVDQIG
+FRGWCWNPAIPDDAPTVSLRATHPGSDAPAYEFTFKADQFRADLLSLGMNNGNVGFALRW
+PNSLPPVMRKLSRLHVADLTFDLGARYSRLLKGSTFELPGFITSF
+>tr|A0A1Q9AGV5|A0A1Q9AGV5_9RHIZ
+MDTRQLKTFIAIAEHGTFAKAAEAVGLTPSAVSQQIQALELEVRGELFDRSTRPITLNSH
+GLQMLEAARTLVRGADDIIDAISGRAVSGTFTIGSVRSSALSLLPLSIVALKADYPDLRI
+KLQVANTDELMSDVMSGRLDCAMVAEYSGIPSALRWHPFINEPLLVIAPRGTPQMSGLDM
+LSTMPYVRFNSRFKLAQIIETELAKTSVVPNLIAEIDTIASVVSCVVHGLGVSVVPWIAL
+RDITVPIVSAPFGEPQILRPIGLLQRRAGTRAAIIDRLHEHLSRLSAPYGIER
+>tr|A0A1Q9AIU4|A0A1Q9AIU4_9RHIZ
+MSEAKLFAGPRVRRIRNGLGLTQTAMAEGLGISPSYLNLIERNQRPLTVQLLLKLASVYK
+VDLEGLRGEAGGSVAELKAVFADPLLAGELPGDQELVEIAEAAPNATAGIIRLYRAYREQ
+AERLRDLSALLSAEGGALAGAIETRLPVDAVRDLFESRPNVFPELDTAAEAFHATLDSGD
+ELASALKDWLRREQGVAVRSLPVHVMPAHRRRYDRHSLRLFLSERLTAEDQLEEVAAEVA
+GLALSEAIGGVLARLPLEGPEARRIARRVLTRYAARALIMPLSAFHAACQRARYDLDMVR
+TRFRASFQQCAERMTTLKRPGLAAPGFFLLEVDQAGNRLQARGAEGFPRQRFGGHCPKLG
+LHRAFAQPGTLLAEIVDVAGGGRYLTLSRTVEGPQAGFGEQLRRTALLLGCEEGGAGETV
+YGAGALLKVDAGPACRLCERQGCLARAEAPVIRPLGLDERVSGLSSFDFE
+>tr|A0A1Q9AQ60|A0A1Q9AQ60_9RHIZ
+MIRYGTNPIAWSNDDDQTIGAHLTLEDCLTDCQKIGFDGIEKGHKMPTDPEALKAKLAEY
+GLVFVSGWHSTNLLTHDVEAEKRAIQPHLDLLKANGCKVCIVCETSNAIHGDDAKGLVAD
+KPVLPEDQWEKFGADLEAIAAYCAEQGIDLVYHHHMGTIVQTGEEIDRLMAVTGPATKLL
+LDTGHAWFGGSDPAELARKYMDRVRHIHAKNVRTAVRKQVEADGLSFLEGVRRGVFTVPG
+DAEGGVDFLPVLKIAAEHGYQGWLVIEAEQDSAVRNPFEYQSLGLKSLKAFAREAGLDRG
+>tr|A0A1Q9AGQ3|A0A1Q9AGQ3_9RHIZ
+MTAGELTRTRGSGTQSVYAALRNEILSMVLGPGSPLDEVRLSERFGMSRTPIREALVKLA
+ADGLVTTLPNRNTIVAPIDFAELPTYFEALTLMYRVTTRAAASRGNAQVMEEILAQQRAF
+AEAVTARDAYAMIEANREFHVAIARLGGNPYYTTFFARLLDEGRRILRLYYQTFDDRLPR
+QYVEEHEQMIAAIAAGDVEEADRLATAHAAQIVRQIQDYVARHMNRAVEMPGL
+>tr|A0A1Q9AME0|A0A1Q9AME0_9RHIZ
+MLSQISIRDIVLIERLDLSFDAGLSVLTGETGAGKSILLDSLSLALGGRGDGSLVRHGAD
+RGQVTAVFDIAGDHPARAFVRDNGIDDDGDLIFRRVQSGDGRTKAYINDQPVSVQLLRQA
+GQLLVEIHGQHDDRALVDADAHRTLLDAFGALHAEAEAVSGLYRQWRDSERGFKKHREKV
+EAAAREADYIRASVEELEALSPVDGEEDELAERRGRMMKAERIAVDINEASEFLNGHASP
+VPQIASLVRRLERKSHEAPGLLEETVTFLDTALNHLSDAQMAVEAALRKTEYDPKELERV
+EERLFALRAAARKYSVPVTELPALAQRMVANLADLDAGEETLRKLEAAVAAARETYDTAA
+SALSAKRHKTAATLSDAVMAELPALKLERARFTVQVSSDPTTPAAEGIDIVEFHVQTNPG
+TRPGPIMKVASGGELSRFLLALKVALADRGSAPTLVFDEIDTGVGGAVADAIGQRLKRLS
+SRVQVLSVTHAPQVAARAATHLLISKGPSEGQGDRISTRVARMDEKARREEIARMLAGAS
+ITEEARAAAARLLAGNG
+>tr|A0A1Q9AKX8|A0A1Q9AKX8_9RHIZ
+MAINLLKTCAQMSVVLSIAFGAALATPANAGADGGLGPVDGIPGCGGGTDPSPDGNFYVP
+GSLQKCNPGKADRQKLASVEFLEHCLKRTGSDFGTADLLQRLDDFRETLRGDERAELDHA
+LQRSSDGGIAQCGDADESMASCENGAYLGALTITGLLPRFVSGICPQR
+>tr|A0A1Q9APF1|A0A1Q9APF1_9RHIZ
+MREAISDHILAAAGSLFYREGIRAVGIDRIIEEAKVAKATLYRHFPSKEHLVAAYLEARH
+ERVIQSLHDVLSSASPPREQIRSIFERLYEKADSPDFRGCAFALAVAEHGDSEKVSAAAR
+THKAMVREIFTTVLSKAGATAGLAAAHLSLLYEGALATVAVGRDPGAVLIARDCALSVFD
+AASPLCQSN
+>tr|A0A1Q9AQG5|A0A1Q9AQG5_9RHIZ
+MISCDDAVSPVSDNERMILDIVRRSMPIGRSSIAPRTNLTQQSVHRLIEGLIERGYLRIG
+APLKGMRGQPSPTIELAASSAYSVGISVNTDRVTLCLADFRCHPVETITLDRSPQDRQST
+LAALGEALDTMMERHAIARSQLIGLGFAISGFFIEGGHAFNAPEPLRDWSLIDLRPCLKE
+AFGLPVWLDNNATTAAIGESLRGAGLWCSTFAYLSFNYGFGGGLILNGRPFHGFHGNAGE
+LSGIYEPEEVERRPALQFLLRAVQAEGVDVETVEDLCQRFDPDWPGVEGWLERTMPLINR
+LVATLVAVIDPQAIVFGGQLPRALGEKMISRVRLPSLRPQRYGIGPPDARLVMAETEGDA
+AAIGAALMPLKMIYFL
+>tr|A0A1Q9AFF4|A0A1Q9AFF4_9RHIZ
+MTIAVSPQALPALVLNADYRPLSYYPLSLWSWQDAIKAVFLDRVVILAEYDQQVSSPSFS
+MRLPSVVCLKSYVQPSRHPAFTRFNVFLRDRFECQYCGSTEDLTFDHVIPRCCGGQTTWE
+NVVAACSPCNLRKGGKMPRLAGMFPAQKPYHPTVQDLHNNGRLFPPNYLHESWMDYLYWD
+TELQP
+>tr|A0A1Q9AHC0|A0A1Q9AHC0_9RHIZ
+MSAEIDSGTLEARARELVERALKAGADQADAVVVRGRSRSVSVRLGKVEATESSESDDFS
+LRVFIGRQVASVSANPGFDLQTLAERAVAMAKASPEDPYAGLAAPEALARTIADLQLYDA
+TEVSSAALTEAALAAEAAALAVPGVTNSSGAGASAGAGGLVLVTSHGFSGSYLGTRFGVS
+VSAIAGEGTKMERDYDYDSKLYHAELKSPDEIGQLAGERAVRRLSPRQVPTQKNVTVVFD
+PRMSRGLASQIAGAINGGSVARKTTFLRDRMGEQIMARGIRITDNPLVVRGPASRPFDGE
+GVAGGPLVMVEDGVLNHWFLSSAIGREIGLPTNGRGVRSGPTVGAASTNFAIEPGTISPQ
+ELIRQVGTGFYVTELIGNGANLLTGEYSRGASGFWIENGEIAYPVSEVTIASNLKEMLMA
+ITLADDVDRAFGTAAPTLAIEGMTLAGR
+>tr|A0A1Q9AML9|A0A1Q9AML9_9RHIZ
+MSAPATDSTAYSPRQNDVLDSALRLLVEGGEKALTTAGLARAANCSKESLYKWFGDRDGL
+LSAVIEFQARKVRVPAEAEGLLNAAELRQRLEEFARELLAVLASDASLALNRLAIGQASG
+EGARLGRLLQERGRRGIGRRIEALLEAARDAGLLAFDEAGEAYATLYGLIVTDQHLRWLL
+GEKPDAASFGPRAEKAVAAFLRLHGI
+>tr|A0A1Q9AMB4|A0A1Q9AMB4_9RHIZ
+MSWLWTCADMIAAMRGRPVGNLPQGISGISIDSRSISRGEAFFAIKGDRVDGHDFAGLAI
+ANGAAMLVVSEGKLPALGRLIAPMIVVDDVLEALGRLACAARDRSGARVIGVTGSVGKTT
+TKEMLRHSLSACGRVHAADASFNNHWGVPLTLARMPEATDYGIFEIGMNHPGEIRPLTAM
+VRPHVAVITTIAPAHLGNFRDLDEIATAKAEIMEGLTEGGHLVLNRDIDQFDLLKRKADL
+LGIGNITTFGESAKADYRLIEYAPSPEGATLWAAIEGRTWEVPLGAPGRHIAENALAVLA
+AAHLAGGNLERLTAALATMVAEKGRGARHRLAVPGGAITLIDESYNANPTSMRAAIALLA
+AAEPDAGGRRIAVLGDMLEMGVASAEMHAELAGPLVEAGVDAVYLAGPDMAHLSDALPDP
+MDVVHRPDVNALLREVLMAVGPGDVVMVKSSKGTGCARIVAALLEKYPPVEKPESAV
+>tr|A0A1Q9ACX2|A0A1Q9ACX2_9RHIZ
+MIPHQVERYGAENVALLIPQTHMPFVEKSILDSGARIFTFARPRRLSGSIYLSFQYLRRL
+QSFKPDIIHAHSSIAGVIVRSLRMFTRAPIVFCPHGWSMDMKGSRAMLRMTEVAERVLGR
+LPDQIVVISAHEYQRALDIGIPTSRLTLIPNGIANIVPAVAPAPWDDDRIKVLYAGRFDY
+QKGVDVLMRAVEGLDDRLSVRLVGDAASGNRVLPAKLPACVTEVGWLDRKGVTAQMMSCD
+VLVVPSRWEGFGLVAIEAMRLAKPVIASAVGGLQEIIDQGRYGYLVQPENVQELHDRLLE
+LDRDELRAMGEIGHNRYLSKYTADRMVRQLDDLYARMLLTSLPAAAGAGTDE
+>tr|A0A1Q9AMD7|A0A1Q9AMD7_9RHIZ
+MIRKHSATLHGHRTSISLEEPFWAELHAMAAARGIALAQLIAEIDDTRPVDSNLSSAIRV
+QVLLWLKARRH
+>tr|A0A1Q9AN01|A0A1Q9AN01_9RHIZ
+MTDKTHLVDHITGHRRMRRNRKADWTRRLVQESRLTVDDLIWTIFLAPGQNVMDPIPAMP
+GVSRMSIDKAVEAVKEAADLGIPAIAPFPDIEMDLRDPTGSHILADNLINQFTRAVKKAV
+PGIGIITDVALDPFTSHGHDGILREGIIVNDETVEQVVRAAVLQADAGADIIAPSEMMDG
+RIGAIRRGLDAAGHQDVGIMSYATKFSSGFYGPYREAINTGGLLKGDKNSYYISPANGME
+AVRDAALDVEEGADMLMVKPGLPYLDICWRLKESFGLPTFAYQVSGEYSQIKAAAMNGWI
+DGDRVMMETLLCFKRAGCDGVLTYFAVEAARKLAKG
+>tr|A0A1Q9AJH6|A0A1Q9AJH6_9RHIZ
+MARSVWKGPFVDGYLLKKAEKVREGGRNEVIKIWSRRSTILPQFVGLTFGVYNGSKHVPV
+SVNEDMVGHKFGEFSPTRTYYGHGADKKAKRK
+>tr|A0A1Q9AMZ9|A0A1Q9AMZ9_9RHIZ
+MTRDDVQSPETVESSDWLDARNSIAFNALRNALYHTSRRLTFERWSRWCNLAVLLLGAGA
+FADLSRRLEIDSFALISGFLTALIGGLQLVFDFAGKGRDHQALQRDYYHLLADNEAVPVA
+NAADCAGWQSRLTRIAADEPPMLRALDAKAYNDALAGTRLYPEDQRVVIPWWHRILGQVW
+AYEGYDYRTRRELMEQGA
+>tr|A0A1Q9ACN7|A0A1Q9ACN7_9RHIZ
+MTAKKKPKVFITRKLPDQVETRMRELFEAELNIDDRPLSQPELVSAVQRADVLVPTVTDR
+IDAALIEQAGPQLKLIASFSNGVDNIDVDAAAAKGITVTNTPNVLTEDTADMTMALILAV
+PRRLTEGATVLTDRRHEWAGWSPTWMLGRRISGKRIGIVGMGRIGTAVAKRAKAFGLSIH
+YHNRKRVSAETEEALEATYWDSLDQMLARVDIVSVNCPSTPATYHLLSARRLQLMQPTSY
+IVNTARGGIVDETALIKCLREGRIAGAGLDVFENEPAINPKFFKLATEGRVVLLPHMGSA
+TLESRIDMGEKVIINIRTFFDGHRPPDRVLPSRV
+>tr|A0A1Q9AI15|A0A1Q9AI15_9RHIZ
+MLQKTVRTVDINNPAFIMTPFDKWAEAVAYVRAEIAWSNPISSIQAAVDFAIKRGIAAKE
+TAYERREALQNIILGTGWHLDRKNRVRRLSALVSIVEPSLSDEGGRPCVRFKIGTTIEGG
+KTSLSRETLEWLDADGSVVATGRHLDRNVEAIVESSRALDAYMTDVEAAVYRDLAFAVEE
+LRHKRVSIVITRASENSLRVVFELYVERKWVSTSVGARLVSADCVRIAALDADADTAIKK
+AARDIDVSPESLSEYVRKKLDAALCDYEYWNRDEELEQAELEGKCR
+>tr|A0A1Q9ANR9|A0A1Q9ANR9_9RHIZ
+MAPRNRTAPPLAGRMLPRPLAGALSSPAVTFVALLALCSAYLQGALTKLFDFNGALAEMQ
+HFGLQPAPLFAVGVILFELSMSALVLSGVLRWLGALALAGFTVLATFLAFRFWELPAGME
+RAMMTNGFFEHLGLVGAFLLVAIRDVAQRGGQP
+>tr|A0A1Q9AM16|A0A1Q9AM16_9RHIZ
+MSEPQLSIRSSKARDLAHALARRTGQPINKLVEQALERYDIELRSQNKAHPLDVVWELAA
+EGRRTVPTSTTSAHDDLYDENGLPK
+>tr|A0A1Q9APK0|A0A1Q9APK0_9RHIZ
+MKFVKTLLPLSLLLLSGCMVGPNYQEPPAVLPAKFSRGSSAADNVVMNPWWQAFRDKKLD
+SLMTRGMNENLSVKQALERINQANANVIIAGAGALPSLNSSSSATVQGQDGSLVRRQSNG
+QRDHSETKTATTSLPASWLLDLFGQYRRSVESANATLDAAYDNIGTARLAYLSDLATSYI
+DARYNQEALALARKSLESRRETLKLTNDIREAGAASSLDVVQAEGLVNSTLAELPAYESG
+FNVAANHIATLLGLPAASITSELTRSSGQPSPRYNTKVGIPADLIRNRPDIRAAERNLAA
+ATAEIGVAEAQLYPSLSLAGSISASRTLTNAVQGNVGAWSFGPDLVIPIFNGGRLRANVE
+VQRSAAQVAYLTWKQTVLKAVEDVENALISLKNNYETVAALRKVVASSEQALGLARESYR
+GGATSLLDVLDAERTLSQSRIQLAAAIRSLAANYVSLNVAIGGGSAIAVPVRGAPVVART
+TVVATK
+>tr|A0A1Q9ADY3|A0A1Q9ADY3_9RHIZ
+MPDLDLNLLVALDALLRERSVSAAARRLNLSTSAMSRTLARLRAALGDPILVPAGRGMVP
+TPHALEIADEVHALKEAVRAVLSPPSSVEMRAVRRNVTIRANEAFVLLYAAGLSAAVADG
+APGVRLRFAPRADKDVQMLRDGVIDLDIGVLPLDSGELRCQTLFEDRYVGVIRAGHPLFD
+KELIGLDDYLAWGHVLFSMQPEFAGPIDAALAERGLQRDVRLIVPSFPAVITVAAASDLI
+GTIPHSYRGSAAVSNIRSFELPVPVPGFEIVQAWHPRMDADPVHRWLRALIFETFRARS
+>tr|A0A1Q9APE4|A0A1Q9APE4_9RHIZ
+MAAPTSSVPAVPPPPPPDLTALISAAETITNRVVSGFWVRIEAIARIPAQADALAGSIRA
+AGTSVTMMVLLLVFVVALAVAVFVLVKARLRWMGLIGRLLLATLLATGAGLAAAALLTSD
+GTLQQTVRQGAVIAAVGCLVVTLLRHIMTAGLVNPGRRPSPRVRRLRRDLVISLAWPLMG
+TVLQMVLRLWQAGPALTDSLVTLMVSLPSVLLFSLVAWRHRRALALAVAGPHPRSALRAH
+LARRWPGTVIGFLLTALISTQTALTVGAPLPGPAVLLTSIIFVATPHLDALMGEWARHGV
+LSTRVSIPAVAARETLRFTVVIVALAMIGTLWVAPLAASLGVETRSVAADAVQTVLIALL
+AAYLWNLTGSFAARAVGHAQGGDEEEGLAAPRTRLATLVPLLSGLARAVICVLAALSVLL
+SLGVNVWPLITGFSVFGLAIGFGSQALVKDIVSGLFFLIDDAFRFGEYIEISGAKGAVEK
+ISIRSVSLRHHRGALATIPYGQIDKVQNYSRDWMIEKLIFRVAFDTDVEKVRRLFKKIGQ
+EISADPAIAADLIEPFKSQGIAQVEDGTLIIRGKFKARPGRQWMIRRAVLAAVQKGFREN
+GIQAVPKPLLNEPPPADEAA
+>tr|A0A1Q9AKW6|A0A1Q9AKW6_9RHIZ
+MTQPLRTFYPEIEPYESGHLDVGDGHVIYWEKVGTPGAKPAVFLHGGPGGGCTPTFRRFF
+NPEAYDVLLFDQRGCGRSTPHAGLEANTTWHLVADIERLRELMGVGKWQVFGGSWGSTLA
+LAYAETHPERVSELVVRGIYTLTKGELDWYYQFGVSEMFPDKWERFVAPIPPDERGQMMQ
+AYHKILTGPDKAAQIAAAKAWSLWEGETITLLPNPDYSAGFGEDHYALAFARIENHFFVH
+GGWMEEGQLLRDAHKIADIPGVIIHGRYDMPCPMRYAWALHKAWPKAEFCLVEGAGHASN
+EPGILDRLIYATDKFAGL
+>tr|A0A1Q9AF87|A0A1Q9AF87_9RHIZ
+MDKTEEEAQREAMFVELLAAARDPAVTTEYDVLRLMRRVMTEFGFSHFMIARLPFGEEQR
+FSERLLLSNWPSELVQRYDKAGVFATSKLVERLRQSKLPTFGASDALLNLAVADAVEDGE
+GTNLSALTYGVLFSTIDGELFLITLSGDRPEPVEGDAAWLHFILLHLFDRLCRSMENGLS
+PREKLSTREIECLRWAAAGKSSDEIAVILGISAYTVSSYFKTATRKLDSVNRMQAIARAM
+RLKLI
+>tr|A0A1Q9AHN3|A0A1Q9AHN3_9RHIZ
+MPLPFAFDPGVVAALSAFDATSVRHVFFVACGGSLSIMHPAKFLLDQHAPLPSDVYNAAE
+FVARAPRSLDRNSLVILCSMTGTTKETTAAAEFARSKGATTIGMTIAPASPLAKAVDHVV
+SFEAPYTTGVPIDAKNSNYARIYQIVMGLVALTGGEDLTEALIRSLAALQTAIDRAHSAF
+APMFEDYATRFAKEDVIYTVASGASYGAAYSFSICVLMEMQWINSQAIHANEFFHGPFEV
+LDKDRAFILLKGLDSTRPLEQRADEFLHRFGSAESILVLDAEKLDLSGIDPQFQGNVVPL
+IFFDTLWRFAYKIADLRKHEMLEGRRYMKKISY
+>tr|A0A1Q9AP72|A0A1Q9AP72_9RHIZ
+MICCELIVSVRQIQKGTDLTGDLFSPVFAGPFATKFQKLKFSVKIQPELLFGAKIFNDID
+FILHVIDRK
+>tr|A0A1Q9AD93|A0A1Q9AD93_9RHIZ
+MLSNLKIGSRILMVAAIPTVLLLGVVIDKNVGLLQSAQEAEQVAEIAAFAPVIGTMVHEI
+QKERGASSGFIGAKGQGDFGPLLEKQRLVVDAAIARYTALDLTGDAQAGDARLKDLARAV
+QGRLQSLAAMRQDVSSLKIGVPEAATYFNETIASAIATIDVMGEIATHSQISNRTLAFSA
+LLQGKERAGQERSVGTAAFAAGQFAPEAYQKFVRLGAMQSVHFATFRHNAAPDAIMALDA
+ALKGEAGKKIDALREIAVKQPFGGSLADVTGEEFYKAATDRINALKGVEDIAGAELAQFA
+TNTAAGERRFLYVTLGISLGIFMLLIVLVGRVIGSITRPVGRIVGAMRALASGRSDVTLD
+VQADRSEIGDMVRSVAVFKGNAEERQRLEAEAAANRSLSERERSERDARQAADAAEVQFA
+VDQLAEGLGALADGRLGHRIDPAFAARLDRIRVDFNAAIERLDAAMTEVGGNARAIAAGS
+NEIRSAADDLAKRTEHQAASVEQTAAALEEITTTVADTTRRAEEAGRLVEATRDSAEKSG
+LVVHSAIHAMQAIESSSGEISSIVGVIDEIAFQTNLLALNAGVEAARAGEAGKGFAVVAQ
+EVRELAQRSASAAKDIKALIAKSGGHVKNGVDLVGETGRALSHIVDQVKQVSVNVLSIVE
+ASREQATGVKEINLAVSQMDQNTQQNAAMVEQSTAASHSLAREAESLFSLVGRFETSARA
+PAPAPERTTRPASVSPAPVSPVSRSHAPAAPAASPARRLVGKLQASFAGNAAVKADSWEE
+F
+>tr|A0A1Q9AMW6|A0A1Q9AMW6_9RHIZ
+MNLDQSTLAHAASSLGAEIERLSNHAEYLKTELGKVTLDINQKQAALTAIKAQLPPEGEV
+TP
+>tr|A0A1Q9ACX9|A0A1Q9ACX9_9RHIZ
+MFPPHVLGGAEISAFNLAQWLQKQGHEIGVFMAAQTPEEQKSGEMVDGMKVWSVYVPRPY
+PIQKQGNVSQKYLKPLWHLQDHIDPRNPTLLGPVLDAFKPDFCNIHYVTGLGHNILQEIG
+KRDIPAMYVMHDMGLSCVRMTMFVDGKTCATQCGPCKVSARVKRRGIRSVPRIGFASPSR
+ANLEQNARFQPLRDYPMAAILDANKYPPPRVTRAPSDVMRFVYAGRLEETKGVGVLLQAA
+EAAHQRENFTLTVVGKGSAEEALRARYGHHPWINFTGHVTMQEAIDHIASGDMLCIPSIW
+LENSPGVVIQALGMSVPVISSNVGGLPELVRHDENGLLVPPGDAKAWEEALLMVLSDKAR
+LARYQENAAQRAGEFDQDYIGRRYLQFIEEIRTFKPATRAAS
+>tr|A0A1Q9AKF5|A0A1Q9AKF5_9RHIZ
+MRVEAHSPLRDVPYLIHTGFELPLMLDGLKPLAVFSDLSDSAVITDTRARFAPFVAQGRI
+VLVEQGRTMTFDGRSITMVDLFYYLPGEGWRVPVLGALRAEARPWSEAAEEIEGLLLGYS
+PAQNGWWRERNRREARK
+>tr|A0A1Q9ALA3|A0A1Q9ALA3_9RHIZ
+MTIGRKMIMVSLAILLLGIGAAGAGLWSAHRLDGTIEAAASTAGWLRNHMQADMMHDALR
+ADVLAAVLSSHQPGLATLDEIATDMKEHVRTFRAAIADNKAKVTEPQVAGLLAALDQPLD
+NYIRGAEALMVKVEAGQLDAQADLAGFMQQFSALEDRMEKAGDAIEALSEHMRAEGDAVS
+TQVTLILEIVLAATLLLSAGVAFVLRRVIVRPLVALSTLMRQLADGNTRIDLPQASRDEI
+GEMVAAVAIFRDSALAKQALEADAETARQRSDAERARMAAEAEAAADARMKAATGELASA
+LRRLADGDLAFVLERPLSPEFENLRHDLNGAVTQLGEALSAVSNATERMDHGTVSIRTNI
+DDLSQRTERQAATLEQTAAALEEVTVISSGAAQRADEARREALKANDSAKNSGTVVASAV
+EAMERIEESSSRIGNIISVIDEIAFQTNLLALNAGVEAARAGEAGRGFAVVAQEVRELAQ
+RTAAAAREIKELISRASTEVAHGVSLVNSTGQALEAIGHHIVVINDHIAAIATASREQAT
+GITEVNASIRQLDEVTQRNAAMAAESNMESGRLGEEAAHLRQLIARFRLQGAARASAPAR
+RVA
+>tr|A0A1Q9AJM3|A0A1Q9AJM3_9RHIZ
+MPDFALPSTYAITLANCAFFARHGVLAEEASLGQRFFVDCELEVEAGPALVDDRIDGTVH
+YGEVFQAIEAVVTATRRGLIETLAHDIAVRLLSTFPQIQRARITLRKPSVPIQGILDHAQ
+VCVEVRR
+>tr|A0A1Q9AKC1|A0A1Q9AKC1_9RHIZ
+MAYVFDFTWLAEYWPLLVKGVRITLQLILIGGVLGVALGIACAWVRALGPKALRVPVAIY
+VELIRNTPFMIQLFFIFFGLPALGLQMGEMTAAYIAMVVNLGAYGCEIIRAGIAATPRGQ
+FEAGASLAMTPFETFRHVVLVPSLQRIWPALSSQIVIVMLGSAVTSQIAVEDLTFAANFI
+QSRNFRAFETYLVSTALYLLLAIGLRQAMGLIGAAIFPKRSAR
+>tr|A0A1Q9AE31|A0A1Q9AE31_9RHIZ
+MAYASPRRSGDELAGVAAESAERRVAARYALADLPLKHFLDEALVPYETDEVTRLIQDSH
+DSEAFAPVSSMTVGAFRDWLLSWEADAPTLTRLAPGLTPEMVAAVSKLCRNGDLIQIAAK
+TRVVTGFRSTIGLEGRLSARLQPNHPTDDPVAIAAATLDGLLFGMGDAVIGINPATDNVD
+ACIRLLTMLEDLRLRFDIPTQSCVLSHVTTSIEAIERGAPLDLVFQSIAGTEAANAGFGV
+TLALLKESQEAALSLKRGTVGQNVMYFETGQGAALSADAHHGLDQQTVETRAYAVARAFD
+PLLVNTVVGFIGPEYLYDAKEITRAGLEDHFCAKLLGVPMGCDVCYTNHAEADQDDMDNL
+ALLLGNAGVTFLIGVPGADDIMLNYQSLSHHDIVRVRHLLGRRPAPEFEDWLVKMSLMDA
+AGRLPPLLPQAAPVTRLLQAGAL
+>tr|A0A1Q9AJA4|A0A1Q9AJA4_9RHIZ
+MTEASTQASITLSDSAARRIDQILRKEPDKTAMRVSVEGGGCSGFSYKFDLVGDATEDDI
+VLEKNGARVFIDSLSLVYMEGSEIDFVDNLLGQSFQIKNPNAVASCGCGTSFSI
+>tr|A0A1Q9ACL6|A0A1Q9ACL6_9RHIZ
+MTASTPIYLDTNVLILLLESQTPESKALQELLKRSRDHETPPFITSALTFSELLVRPYRL
+GQTIIAQEYRYLSHGNAWLSVAPVTASILDVAALLRAERRALKLPDAIHVASALSAGCSH
+LMTADTGIGPVSALTHPLVGAIQIEPLTLLRPDLPTLTSLLQSIAP
+>tr|A0A1Q9AKY7|A0A1Q9AKY7_9RHIZ
+MNEATRRLQAVAKEQASPMHREAPNNIEAEQALLGAILVNNDAYYRVSDFLKPVHLYEPL
+HRKIFEVAGDIIRMGKIANPVTIKTFLKDEKVGELTISEYMARLAGGAVSIINAEDYGRA
+IYDLALRRSLITIGEDMVNIAYDAPLDMPPQSQIEDAERRLFELAETGRYDGGFQSFNDA
+VALAIDMAGAAFERDGHLSGISTGIMSLDSKMGGLQRSDLIILAGRPGMGKTSLATNIAY
+NIAASYEPEVQPDGSYKARNGGVVGFYSLEMSSEQLATRIISEQTEVSSSKIRRGDISEA
+DFEKLVACAQMMQKVPLYIDQTGGISIAQLSARARRLKRQRGLDVLVVDYVQLMTGSGKS
+NENRVQEITQITTGLKALGKELNVPIIALSQLSRAVESREDKRPQLSDLRESGSIEQDAD
+VVLFVFREEYYVKNMEPRDEFDPKYEEWKMQMEKVKGTADVIIAKQRHGPTGTVKLAFQS
+EFTRFADLADPSFTQYEEH
+>tr|A0A1Q9ALC4|A0A1Q9ALC4_9RHIZ
+MSKSPSAADRAARRQQLKKLARPGGWALHAALILPLVAGLLLVVQATLLAHVLDRAIAGS
+VSADVLVSPIAAIGALILLRAGLGLAGERCATAGAERIKTRLRALLFSRLLARDVRARGQ
+GSGTLASVIIDQVDHLDGYFARFLPASLQATLLPLAFAVAVFRVDLVVALLFLVTAPLIP
+LFMALVGWGAEAAARDQANALSRLSGHFADRLRGIRTLKLFGREISETAAVKSAGEDLRL
+RTLRVLRIAFLSSAVLEFFAALGVAGVALYVGLGYLGYLPGHAGSLTLEEGLFCLLMAPE
+VYQPLRLMAAHYHDKKAAESALAEIAARLDETQFDDGPQHAQAQDRDGPQAAREKPGPWE
+ADATDGVGAIASREEPFDGRAFPRQAGGLEIDAFTLWTPDRGRRLLHSQAWSLKAGAQIA
+LLGESGIGKTSFLQALAGLRPFDGTVRLGGQPIDQIAPARLRRSITLLNQRPFFLAGTVA
+DNLRFAAPDASEGAMLDAAQKSGLLDDLARLPRGLDTAVGPGGQGLSGGQAQRLALARVF
+LTDPALLLLDEPTAHLDGETEQRVMDALMVFAMGRSLVIATHSQNLAARLPRAWRLSRCG
+LWPSIAGRGPGAAISTENAA
+>tr|A0A1Q9AH44|A0A1Q9AH44_9RHIZ
+MTEQFRQNVTQGAALASLLTAFFILPPANAAQSDPVRAEGVDIRLVASAPEADGKIPAML
+DIRLAPGWKTYWIDPGSSGLPPQITVSGPGLRFDGVRFPAPKAFEEGSARSVGYADGVTL
+PLVLSHEAGAMPARVTAQVMIGVCKDICVPVQASLSADLSGPAAANPLDKARIALAEESL
+PGPPQPDLTVTSARVKDAKLVLELTAPAGEPPQIFLSSSKGASFGTPKIVPAGPGRFRAE
+TTLRLPRAAAAPAEAGITAVLVSGRRAVEMPLVFE
+>tr|A0A1Q9AN91|A0A1Q9AN91_9RHIZ
+MASEKTFAVIADIHGNLLALDAVLADIDRQGIDGIINLGDHLSGPLDPFGTAERLMQRPM
+MAIRGNHDRHLLTIPPDEMGPSDRFAAARLTDGHRAWLAGLPATLDLGDLFACHARPQKD
+DSYLLEEVQEDGTVQPRSLPEVAASLEGITARVVLSAHSHCPRLLRLDDSRFVLNPGSVG
+CPAYQDDTPYPHRMETGHPLASYAVIDWTAGRDLDVAFRHVAYDHLAASAHAARHGRPDW
+AEALRTGRIGRG
+>tr|A0A1Q9ANR6|A0A1Q9ANR6_9RHIZ
+MAGPDGTLRCDWSVAEIAALHDLPLLELVGRANAVHRAHHDPNHVQKASLLSIKTGGCPE
+NCGYCPQSAHHREVKLTRDRLMAPQKVLAEATAAREAGAERFCMGAAWREVRDGPDFDAV
+VEMVKGVRGLGMEACVTLGMLKAHQAARLAEAGLTAYNHNLDTGPDFYPQIVTTRTYQER
+LDTLATVRAQGIALCSGGIIGMGETVRDRAAMLQVLAALDPHPESVPINALVPVAGTPLA
+NRPPVDPLDLVRMVATARLTMPRSIVRLSAGRASLTREAQILCLIAGANSIFYGDTLLTT
+PNAGISADAALMAAIGPRMRDDEDCQATQAAE
+>tr|A0A1Q9AFD0|A0A1Q9AFD0_9RHIZ
+MSVMKLDSKYFDSVRTRRRKAPKPEPVAPTCQWDGCTNPGVHRAPVGRNAENAYFLFCFE
+HVKEYNKGYNYFSGLSDGEIARFQKEALTGHRPTWTIGVNKNAKNGPAQAQVRSGSAGAF
+NRMKDPFGFVDQTRPEPRQRKLKTLEAKAYETLGLTASATAADIKAAYKDLVKKHHPDAN
+GGDRASEDRFREVIQAYQMLKQAGFC
+>tr|A0A1Q9AFT6|A0A1Q9AFT6_9RHIZ
+MAEADFIIIGSGINALVAAALLGKKGRKVTLIERNAEIGGCLRTEEITVPGYRHDVMATT
+MVLFLTSPAFAVLGKDLEAWGLEFCHSPTPTGVLRPDGSHAILSMDRSRNIAHFDALAPG
+DGAAFDREMGRFAGNAGFVFGLLGGNLWSSGTARLLAREAWKRGLRGLLAFFGDALAPAR
+GYLETTYRAEELKALWAPWALHCGLGPESSYSAEMTRVIGFAIEAAGCPIVKGGAANLLR
+AFERLIRDQGGEILRDADVERIDLDASGRASGVRLGNGRQLRATRGVIASVTPHQLYDRL
+LADAARPPAVSEGLAAYRYGKGNMQIHYALKAPPRWRDGEDLAKVALLHLTPGLDGVSRS
+ANEAERGLLPAEPTVCVGQPTALDPSRAPEGGAILWLQLPDTPRRIKGDAAGQLDRPEDG
+RWTEALREAFADRVEAMLRHHIENFDEIVLARRAYSPADLEATNINLVGGDPYGGFCGLD
+QFFLWRPFKTSVNHKTHVPGLYHIGASTHPGPGLAGGSGYLLGSSLK
+>tr|A0A1Q9AK98|A0A1Q9AK98_9RHIZ
+MTNSRHNIREIRADRGTTLKAKSWLTEAPLRMLMNNLDPDVAENPHELVVYGGIGRAART
+WEDFDRIVAALTDLNEDETLMVQSGKPVGVFRTHKDAPRVLIANSNLVPHWATWDHFNEL
+DKKGLAMYGQMTAGSWIYIGTQGIVQGTYETFVEAGRQHYQGNLTGKWILTGGLGGMGGA
+QPLAAVMAGACCLAVECDETRIDFRLRTRYVDEKAKTLDEALDMIDRWTKAGEAKSVGLI
+GNAAEIFPELVRRMETGGPRPDIVTDQTSAHDPVHGYLPLGWSIAEWRAKQESDPKAVAA
+AARAAMRIHVEAMVDFWNAGVPTLDYGNNIRQVAKEEGFENAFAFPGFVPAYIRPLFCRG
+IGPFRWAALSGDPEDIYKTDAKVKELLPDNAHLHNWLDMARERIAFQGLPARICWVGLGE
+RHRLGLAFNEMVRNGELKAPVVIGRDHLDSGSVASPNRETEAMKDGSDAVSDWPLLNALL
+NCASGATWVSLHHGGGVGMGFSQHSGMVICCDGSEEADRRVERVLWNDPATGVMRHADAG
+YDIALDCAREKGLRLPGILGN
+>tr|A0A1Q9ADQ0|A0A1Q9ADQ0_9RHIZ
+MKAAGARSQKPAGRQKGRADRPGLFLRLLQGIVWLAGRRPGAFGGSALFAIVFAFVAANA
+LWYQPGQHPAPWLRTRLPFTHPQPERLASTQATPDNVTTFLIEREDGHSDDAKNSALKPA
+RPAAPASGPQTAVQEAVSYETVAPDQSAAGPATPATADDRDLVQRVQQALKTAGFYSGPV
+DGRRGPRTEAAIRSFERQARLPETGAPSEDLLVSLAASAPAPAGPVVTPRERPMQSPDLK
+TGGIDPVAAAIRAAENNPPAPAKIAASASKADLPPDPGLVMQIQRGLINLAYGDVTADGV
+AGDQTRAAIRHFEKHYRLPETGEPSQAVLKKMKAIGAV
+>tr|A0A1Q9ALI9|A0A1Q9ALI9_9RHIZ
+MFERLRHFIDSLTGPAAPGPLLSEDYRVAIIALCLQVMEADGIVSAAEQAVMRQKVMEAY
+QLDAPTFEALLAAGESAESVAIDYFRFTSEIKRHLDEDQCVALIGMLWEIVYADGSRSEM
+EDHVIWRVADLLGVSGRDRIMKRQEAARTHEHAEDDSSLVQQ
+>tr|A0A1Q9AM50|A0A1Q9AM50_9RHIZ
+MTISLPSPAAPLLEGGEPQDAAITTLSISGMSCASCVGRVERALQAVPGVSRAAVNLATE
+RATVTAEEGLASDLLVAAVAKAGYEARALKAAGARKAAEDGDSRRAAERKSLARAFWIAA
+VLTLPLFVLEMGSHVSPALHGWIMEEIGIRQSRVLQFLLASAVLFGPGLRFFRHGLPALF
+RLAPDMNALVVLGTTAAWAYSSLSTFLPERLPAGTDHVYFEAAAVIVTLILLGRLLEARA
+RGRTSQAIRRLASLQAKSAEVLRDGGFREIPLAEVQLGDTLRIRPGARLPVDGTVLDGSS
+FVDESMISGEPVPVEKTPGDRVVGGTVNTTGSFTFRATHVGEETLLAQIVSLVEDAQGAK
+LPIQTLADRVTAWFVPAVIVVAAVTFLAWLLLGPEPALPFALVNAVAVLIIACPCAMGLA
+TPTSIMVGTGRAAELGVLFRKGESLQTLSGVTQFAFDKTGTLTEGRPRLTDIVTASGVDE
+DRALVLAAAVEQASEHPIARAIVTETLERGIAVPPSSHFAALPGLGAEAMVEGQSVMIGA
+DRALAARGLDLTPFEAEARRLAAEGCTPVYLAIDGRAAAMLAVTDPIRPEAAEALAALRA
+QGVSLAMITGDNRVTAEAIARRLGIERVMAQVLPSGKLEAIRSLQQKGGPVAFVGDGIND
+APALSAADVGIAVGTGTDVAIESADVVLLQGNPLGAARALAISRATLANIRQNLFWAFAY
+NVVLIPVAAGLAYPAFGLMLSPVLAAGAMALSSVFVLANALRLRRLTP
+>tr|A0A1Q9AE12|A0A1Q9AE12_9RHIZ
+MPDTPQSDSACAVPGTDLVRQSAILERITAALWIYDIDHCRVIWANEAGLAVWAAESLEE
+LRARDLGRGMASAVARRLRQYREDFCRKDARFCDLWTLYPGGRPTPLTLHLSGYRLADGR
+MAMLCEAQENDARTPDMRRSTDVLLHTKLMISIVDAQTDDVLYLNPAARTAFGQKADCFR
+ERFARSGDYAQLLKNAKETGDGNGIARIHTEQGLRWHEVTVNTCLDPVTGRPALVVSETD
+VSDLREAEERARRAAYVDALTGLPNRLALTAIMSRMIAHAEKRGSEFGVIFIDIDQFKTV
+NDLLGHTSGDRLLCEIADRLRAIARRGDSIIRLGGDEFLFLAPRRSGTAQTMPVLANEIL
+SLLSITVPFGERAMTLTPSIGVALYPEHARSEPALMQYADLAMSEAKASGRNALRLFTPS
+MHLAFEARETMLADLRVSMEENHFEVYYQPRVSTADLSIVGAEALLRWKHPRRGMVSPAT
+FIPICEESGLIRGLGLFVLSSALRELNRWHKAGHRIAVSVNVSQRQLADPDFAALVEDVL
+AESESPGHFLELELTETMILEETAAIQANMTRIRRTGVRLSLDDFGTGYSNLARLRQVEI
+DCLKIDRSLIKTLPENAAVTSMIVAMARLMNVKVVAEGVETPEQVAWVRDAHCQEMQGFY
+FARPMPAAEFAALLSQERTRTKSNSAA
+>tr|A0A1Q9AHA3|A0A1Q9AHA3_9RHIZ
+MEISRQMRSGALMLAVVGFGPLLSGCVGGPTYGTDKTAGEHLMDDLGNVVSLEGEKPKNL
+KYQPRPNLVMPPSSQRTALVQPQTSVASKDNPQWLESPEETRQRLRDEATENANSSTYVS
+PLAKGPANGRALTADEQQAAYRAARREQMGAYSDKRRFLSDPPLAYRALPEDQINDLGEP
+EQDKERRRKKEAEVDGTGRKWWQVF
+>tr|A0A1Q9AG59|A0A1Q9AG59_9RHIZ
+MTIMPDRVRAFENKFAHDEELRFKAEARRNKMVGLWAAGLLGHPEPDLYAREVAAADFEE
+LGHEDVVRKLKADFEAAGVAIDEADIRARMDELMHDALSEVDEF
+>tr|A0A1Q9AIE7|A0A1Q9AIE7_9RHIZ
+MISTGLIATSLTAADARAAEPIVGNWKTASGETAAIAPCGGNFCITLKTGKHAGKKIGTL
+TGSGAAYTGEITDPANDKTYSGSAAVGPGSMKLQGCVMKVLCRSQSWTKL
+>tr|A0A1Q9AJG1|A0A1Q9AJG1_9RHIZ
+MAKKVAGHLKLQVKAGSANPSPPIGPALGQRGINIMEFCKAFNAATQEMEKGMPIPVVIT
+YYQDKSFTFAMKQPPVSYWLKKEAKITSGSKTPGKGAKAGTLTQAQIRTIAEAKMKDLNA
+ADIEGAMSMIEGSARAMGLEVVA
+>tr|A0A1Q9AN27|A0A1Q9AN27_9RHIZ
+MRDWVKLLRAASYRGVPFYVESDTHDGGKRLGLHELAGGYTAYVEEMGARAERVSVTAYL
+LGDVADLQGAALRAACQMPGPGLLCLPVDLPRMAYVEEFSRMRERDRMGYIAFGLTAVPA
+GAGAVAALGLGNLAAAFQSGVSKAAASFAGLF
+>tr|A0A1Q9AI01|A0A1Q9AI01_9RHIZ
+MVSLYGTEIASRLLLGTARYPSPAILEEAVRRSATGIVTVSLRREMAGVKKDGDRNRGGA
+FFEMIRALGVRVLPNTAGCHSVEEAVLTAKMAREVFSTDWIKLEVIGHHDSLQPDVFALV
+EAARILIAEGFQVFPYTTEDLVVGEKLLAAGCKVLMPWCAPIGSAMGPVNPAALRAYRAA
+FPEVPLIVDAGIGRPSHATAVMELGYDAVLLNTAVSGAGDPAAMAEAFGQAIAAGRMAYL
+ADPLSPRDMAVPSTPVIGKAVFDLPPDLPASTGRAVA
+>tr|A0A1Q9AL48|A0A1Q9AL48_9RHIZ
+MTEPDRLFLADLARAAQAVEACLDGLLSPEPGADEIARPSRLLAAMRHGVLNGGKRLRPY
+LVLESARLCGGDHLAALRIAAALECIHCYSLVHDDLPAMDDDDLRRGQPTVHIAFDEATA
+ILAGDSLLTLAFDIAAAPETPLSGESRAALVVALARAAGIGGMAGGQALDLAAELSPPDE
+AGIVTLQAMKTGALIRFACEAGALIAGADAATQASLRRYGEVIGRAFQIADDLLDITSDA
+ASLGKATGKDEGRGKGTLVGLRGIDWAREELGRLVAEAEDLLSPFAEKGETLKAAARFVA
+NRKN
+>tr|A0A1Q9AQA9|A0A1Q9AQA9_9RHIZ
+MKITKLTTYIVPPRWLFLKVETDEGIVGWGEPVVEGRALTVEAAVHELADYLIGKDPFLI
+EDHWNVMYRGGFYRGGAVHMSAISGIDQALWDIKGKALGQPIHSLLGGQVRDKIKVYSWI
+GGDRPADVANNAREVVARGFKAIKLNGCEEMQIVDTWEKVEKAVETIAIIREAIGPHIGI
+GVDFHGRVHRPMAKVLAKELQPYNLLFIEEPVLSENREALKEIANHCSTPIALGERLFSR
+WDFKGVLADGYVDILQPDLSHAGGITECRKIAAMAEAYDVALAPHCPLGPIALAACLQVD
+AVSYNAFIQEQSLGIHYNKGNDILDYISNKEVFHYADGFVSIPQGPGLGVEVDEAYVIER
+AKEGHRWRNPIWRHEDGSVAEW
+>tr|A0A1Q9AIE1|A0A1Q9AIE1_9RHIZ
+MEKDTEVLIRPSRDGDVDAMLAIYRRHIRHGVEFGVDEGDTPEPDDLRDRRKNLKNRRFP
+HLVATRDGEVVGYAYVVLFRKRPAYRYAVKHSIYVHHEHLGQGIGRLLMRGLIDACAAAG
+FRQMIGYIDADNTASLGLHESFGFVRVGHLPAVAFRHGRWSDSVMVQRSLGPGATTPPPP
+PPLSTR
+>tr|A0A1Q9ACD4|A0A1Q9ACD4_9RHIZ
+MTLSPAIRRWSLSAYGQQNLSLSSASPSDAWGRAPEGAEIRVRVEAVSLNYRDKLIVENG
+MGAALAFPFVPASDMAGTVEAAGPDATRFKPGDRVISTFFPSWIEGRAAGNALMPPYRAL
+GGAFPGVLAEQVTFPEDWFVAAPATLDAAEASTLPCAGLTAWTALVETGAIKAGDRVLIK
+GTGGVGLFALQIAKAHGAEVFLTTGSAEKGERARALGADHILPRENWVQPLLQASGDHGA
+DHVVDLVGGPTLAQSLQAVSVGGRISVIGVLEGFDLQASAGPLLMKSATIQGISVGHRRA
+LEDLVRAVDRIGLKPVIDARYPFEAAQDAFAHLEHGPFGKVVITL
+>tr|A0A1Q9AN31|A0A1Q9AN31_9RHIZ
+MDLDEENTERARANADLRGRVSLLHAAITNLIAIHPEKDALLAGLEQVAREMVDLAFEMP
+PGQESFADFAHGFRSSAKEIANAVELLAKKQAPSRTH
+>tr|A0A1Q9ALE9|A0A1Q9ALE9_9RHIZ
+MADDHPVLLVTGASRGIGAAVARSAAARGWQVMVNYLSNVAAAEAVVQSIAATGGKAALV
+QGDTGTEEGIAAIFAGVDRQFGRLDGLVNNAGVVDSTSRVEDMSRDRLERMFAINVIGKI
+RCASEAVRRMSIRHGGRGGAIVNISSMAAVLGSAGQYVDYAAAKGAVDTFTIGLAREVAA
+EGIRVNGVRPGIIDTDIHASGGLPDRARDLAPTVPMQRPGTAEEVAGAVLYLLSPEASYV
+TGTIMNVSGGR
+>tr|A0A1Q9ADE6|A0A1Q9ADE6_9RHIZ
+MKTNVIYRRAYNHSLDHLAGQAPGVALPSEPALAALLGVSRTTVRAVLAALEAGGIIGPE
+GRQRRLIRPPRRSDYLDAAGLEPLPEMLERKFMAWMVGPDCRPGAVINGLDLARQFGVST
+SAIRECLNKFSHFGLLERQSNGRWRALGLTIDFVEELFDMREVMEFRAVDRFVALPADHA
+AWAALAAIREEHEALLSDFARRYRDFSELDHRFHRLVNGVAPNRFLGNIHGVMSVIFHYH
+YQWNKKDETERNHVALHEHLDYIDGLASRDIDKARAASRLHLETARSTLLTSIEVAG
+>tr|A0A1Q9AP36|A0A1Q9AP36_9RHIZ
+MTSAHAPTPASDVGRGAPSGMVGRTTGDRIILGLTIALAIVMMAPLLWVVALSLKDNKEL
+MVSMNAVFHAPYTVQNYINILATSSVFRWILNSLVVAGGLTVGTLVLSSLAGYGFARLNF
+PFRNVLFVIVLMGLAVPEQAVLIARHQLFSWLKLHNTYPGLILPGLSAPFGVFLMTQYFR
+AIPKELDEAALLDNASRFKIFWKVLLPLTLPAQATLGIFTFLGAWNDYLWPLISGTKKEM
+YTLTVGIASTQTNFAQSEGLGFLMSQAVFAGAPILILYLFFQKYIVTAVSGAAVR
+>tr|A0A1Q9ALU8|A0A1Q9ALU8_9RHIZ
+MSISQLTLEFSDEEPVRRFEVFTGTGRRREWSNEQKAKIVSESYERGVKVCSVARCHGLT
+PQQLFPWRPLARKLLGAVPDVDVGMFAPAVLNVPTTPVVKEQESPSATRRSSIDAIELEL
+GGAIMRTAFGVDAAKIAAVIQAVKATS
+>tr|A0A1Q9APJ3|A0A1Q9APJ3_9RHIZ
+MQAHPHLLILGGTTEARQLAERLVHLGHDRITLSLAGRTEQPRPLPVPVRMGGFGGAEGL
+AAYLREKAVDLLVDATHPFAARISANAEVAAAQTGVPLLVLRRPGWKAMAGDRWHRVGSI
+SDAVAALGAGTRRVFLAIGRQEAALFERAPQHAYLIRSVDPILPPLALPDARFIEACGPF
+AEADERALLTTHAIDVIVAKNSGGSATYGKIAAARALGLDVILVDRPPEGAAPVFETVEA
+ALAAIAHGVYPPAPAEKRGV
+>tr|A0A1Q9AMW9|A0A1Q9AMW9_9RHIZ
+MRCSHPFLGRVSLGLALLLLAGTAVVTDPGRARSEENAPESDRSRHEVREYRINPDLTME
+SWITIDETPIKPGEKAENTRHSLSYSPETETLDVAEAWTVKPDGTRMSVPPEDIFTRSKE
+QSKNAPGFNADQKVTVLFPQVGPGTKVHIRWHTVRRQPQLFGVNILEVAPRDRRVEDETV
+LIDAPADLALRWFADPGIETEDRTTGNRRVIRAHLTGIPKLRVTYPTVADAQFRPRFMAT
+TLTRLEENGDRIAGQTEEHLDPATAERVKHLADSIVGEKKGLDAAAAIHDWIRQNIAYTA
+LDLNPNDGWVEHPVGKILDNGFGDCKDQSALMRALLQAEGIRAERAVVQWGSLYEPMPIP
+VAWQFNHVIVYLPDFDLFDNPTDKQAPFATLDDGLVNKQAMIIGKPSRLMRLPDAQADKV
+HITNRSDLTLGADGTLTGHATVTVSPWAVRYYQFETEDKAAFLTRNLASNGQYGEGKLTV
+KKPASWRDDLTMTASWTAPAVVDLSQTDAVLPLQAGFDTEPLSGKANLLHTDVKVAPFTS
+EVGTFDWNMTIALPEGFKAESLPASVHLANPAGQFDSTVEAQGNRLVITRRLVMTRLVTA
+PKDYPELKALMSAAVKAGRSYAILTHLPPAQRG
+>tr|A0A1Q9AND8|A0A1Q9AND8_9RHIZ
+MIQNPILPGFNPDPSICRVGEDYYIATSTFEWFPGVQIHHSRDLVSWTLLTRPLTRASQL
+DMRGNPDSCGIWAPCLSYADGLFWLVYTDVKRYDGSFKDAHNYIVTAPAIEGPWSDPVYV
+NSSGFDPSLFHDEDGRKWFVNMQWNHRPESLFGVANSPAFDGIILQEWDAQAGKLTGPVH
+NIFAGSGLGLVEGPHLFKRNGFYYLTVAEGGTGYDHAVTMARSRAIEGPYTLHPNAHLIS
+SKDAPEAALQRAGHGQYVETPDGEIYHTHLCGRPLPPHRRSALGRETALQKCVWGEDGWL
+YLTQGGMVPATEVEGPAFAPDAPAAERDREVVTRFDGATLPIDFQWLRTPFPDRIFSLTA
+NPGHLRLYGRESIGSWFEQALVARRQQHHRVRVEVEIAFEPELYQQVAGLTHYYNRHKLH
+ALGITRHERLGRCLTILSCPGDYPESRLTFPAGSGIAVPDGPLTLALEINGNGLQFFWRG
+AGMGEFRAIGPELDASVISDEGGRGEHGSFTGAFLGVFAFDISGQAQPADVSRFVYRPLP
+>tr|A0A1Q9APD9|A0A1Q9APD9_9RHIZ
+MASQIALNTAPPRTDFKGPALVQARPLLKVRNLSISYGRQQVVHDVGFDIGHGESLALIG
+ESGSGKSTIAKAVLRLLPNGATASGQVVFDEQDILSLSERRFRPLRGRDIGFVPQDPGNA
+LNPVRTIGSQALEAAALTDERHPAARKALILETFAKVGLDNPQRVYESYPHQLSGGMLQR
+VLIALAILPRPSLLVADEPTSALDVTIQKRILELLSRLQEELDISLLLITHDLAIAGERA
+GSLVVLKGGVVQEAGRTSAVFSSPTSPYARKLHADVPALNPDRYAKLRDPGFARLADDRQ
+AKISVEGVTKRFSVDGKVLTAVDDLSFSVAAGTTHALVGESGSGKTTTIRLLLALEEPES
+GSIRVSHDTVTSPGVSSLRSVWRHLQLVYQNPFTSLDPSWKVEQLIREPLDRFRIGSAAE
+RSAAVQEALANVGLSADLLQRKPSALSGGQRQRVAIARALVLKPDVIVLDEPTSALDVSV
+QADIVEVLLSLQAKLGLTYVFVSHDLALVRQLAHTVSVMQRGRIVEHGTVHEIFGKPKHD
+YTLSLLSSIPSVRGEKVSAPAVRRVAQKELAL
+>tr|A0A1Q9AHH6|A0A1Q9AHH6_9RHIZ
+MKKAIVILMSLTLGVSAVSAQTASSTSALPGYAEGAEVIRLTGDRPQIDEVGGVVYAQVT
+TMRANRQMRMSLLVPRTEDLKPAILYLPGGGFMTTDYLKFQEMRSALAQAGFVVAAADYR
+VVPDVFPAPLEDGKAAVRYLRAHAADYGIDPRRIGVIGDSAGGWLAQLLATTGTEKAYDK
+GDFLDQPSDVQAAVSLYGISDVRNIGEGFPPELQKAHDSPAVTEALLVNGPAFDTFAGAP
+VNADPAKALAAGSMGHLDGPKPPMLLMHGSADRLVSPVQSRQLFEALRTRGDQVDYVLVE
+GAAHGDLPWYQPDLIDRVTAWFKKSLGAPIKGAAHTGPQSHL
+>tr|A0A1Q9AJW4|A0A1Q9AJW4_9RHIZ
+MLSSGPDPAEGENAVFFDLGANAQVYRHRHLVSANGRPLAVVDTCLNLTLLEGLELFHLD
+SSLYRTLRHQFNRTIVQAEDQYVPAVAESDVASLLGLPEGNPIFIAIRRARDQTGAQLKP
+SRK
+>tr|A0A1Q9ADE3|A0A1Q9ADE3_9RHIZ
+MVAVMEKKATASEAGGDLQKVARLLGGSRVLARRLSSPLDAHELLLAGLPASALDHLVGQ
+LVSIDKARSLEKAVGMSLRTWQRRRDTPSKPLSREQSGRTWKFAEILSRATDVFGSLAEA
+EQWLERPATGLDQRRPIDLLATPAGVELVEDHLTRLEFGVYA
+>tr|A0A1Q9ADJ7|A0A1Q9ADJ7_9RHIZ
+MCVSRRTSVCRGAGAALRAALMTSAAFAALSPAVPMMVRPAAAQAKQLAVSVPAGPLTPA
+LNSLAAQTGLQILFDASLAQGKTSRGARGTLTPDQALSAVLSGTGVKARFAGSNQVSLSA
+DTTTTGAVTDNGDTLLDTITIYGARNATTLQGTTSSVGVVSAEAIEQGEIRTLQDSYRRL
+ANVLDSATVNSGFVIRGMSSEGLVPSGGPAGSVYIDGILQTRYNARFGARNLWDVEQVEV
+YRGPQSTLSGRAAMTGAVYVKSKDPTFEKEAEVSTTVGSDHLFGTAIMVNTPLVEDQIAL
+RIAGAFERSDAYVPYDHFRNYAGYDDLTTDISRSIRAKLLITPAEMPDTRALITYQYSKD
+RPNDALVGYDTLADGSPNPNAGRGDFNFPSFTEFRATATHNLGAEITHDFSNALRFTSMT
+GYQYGINTRASVDYGTPGNVNGSHGEDDDSIFTQEFRLNYDEGPWKWVAGVYGSHQIWNG
+TTDFVVLDQLQQSDSQHRKTTNLAVFGEATYEFVPTWFATLGGRLDYLKDTNTEKNYFGA
+ITSSPVLTGDPATFNEVNFVPKVGISKELDANQTLGLTYSQGFRSGGSYIDRQDPANTKL
+VTYQPEYSQNVELSYKGTLLDDRLTLNANLFYTHYEDQQVEIRPSSPIPGYRVTQNAAKS
+RAWGFEIEPNYRFTEQFSAFASLGYLNTKFLDFSHGAIGDQSGKSFPEAPEWTLGLGGRY
+EFENGFFLGADAKYTSDYNSRFGSKGMYKIDSRVIVNTQAGYKKNNWEITAFAENLTDEK
+YYTLIDPDYANFLGAYPFGQAGKPRTFGLNVRAKF
+>tr|A0A1Q9AFL7|A0A1Q9AFL7_9RHIZ
+MSSTPLDTKGEPVFYLKEDHHPENSTLLGFWLYLMSDCLIFAVLFATYAVLGRNYAAGPS
+PADLFDLTLVAINTAMLLFSSITYGFAMLAMEKNNKKATLGWLAITGIFGLAFLFLELYE
+FHHLILEGAGPNRSAFLSAFFTLVGTHGLHVTFGCIWLVTLMVQVSLHGLIPENRRRLMC
+LSMFWHFLDVVWIGVFSLVYLIGVVG
+>tr|A0A1Q9AKN7|A0A1Q9AKN7_9RHIZ
+MRDRICLLDYPPGTALSETELARQYGVSRTPIRRVLQMLEADGLVETKPNVGSIVTTVDL
+KALRDAFALRIRLSELLGDMNPVSDFAPVLATLDALLQQCQALACEPDNAALCAASHRLQ
+EALLSLSGNSEYRLVTDSLYFKTVRSYYMILPDLDWSMEARAQLEEVQDIIVSLRANDIR
+AVGLIRRNHIARTLSRIMSFMMGGALTIAEATA
+>tr|A0A1Q9AMC0|A0A1Q9AMC0_9RHIZ
+MKRSTVATAAACLVMPIFWTASSFAGSLDESFKTSSIMPDLRASLPSGNALKQEAPAPLL
+PDTDAAIEEPEASSPEIGRYNALLHSYARQYGVPFELAQAVVKVESNYNPKVRGSAGEIG
+LMQIKPATARMMGYSGGARGLFDPETNIKYGMKYLAGAHRLSGGFTCGTILRYNAGHGAK
+RMNPVSRRYCGRVQSIMDS
+>tr|A0A1Q9APE3|A0A1Q9APE3_9RHIZ
+MLMHRLSVLPALFSALLLAPAIGTSAEAPRGPQLVIVSFDGAHDNALWARSLALAERTHA
+HFTYFLSCTFLMTRKEGGQAYVAPGHGPARSNVGFAQSREEIAERVRHIWQAHQGGHDIG
+SHACGHFDGKDWTAADWTREFSAFETALNGAWEAGGIKAEEPEDWRRFVREDISGFRAPY
+LSTSPGLLPAERKAGFRYDASLVTKGPALPVTEDGLPRFGLPTIAEGPSSRPVIAMDYNL
+FVRHSMGVENKKESAQFEERALSAYRAAFEAQVQGDRLPLQLGFHFVEMNGGAYWRALDR
+FLTETCGRQEVACVSYKEALERLKGETGQRPAVGSL
+>tr|A0A1Q9AII2|A0A1Q9AII2_9RHIZ
+MSEDSDKESKTEAPSEKRVSDAIDKGNIPFSREITMFASVAATYVFVVFFLPRGFTDFAE
+ALKDIFEQPEAWRLENATDVTTLILFLFNRSAGLVVPIILLLVSFGVASSVLQNLPRLVL
+DRIAPKAERISPVAGFKRIYGMPGMVEFAKGFVKIAVISTIIAFTLRDDFYGSLDAMFSD
+PVTIFTRISNDLNQIMVVVLLCSGVIAIADFFWTRHHWLSELRMTKEEVKEEFKQSQGDP
+IVRARLRSIARDRARRRMITAVPRATLVVANPTHFAVALRYVREEGDAPVVIAKGQDLVA
+LKIREIAEEKGIPVFEDPPLARSMFAQVSVDSVIPPVFYKAVAELIHRVYAAKQKRTS
+>tr|A0A1Q9ADQ9|A0A1Q9ADQ9_9RHIZ
+MRGLNGKTAIISGGATLIGRGVAEVLASYGVTPVIADINAAGGRAVAAAVPGAHFIETDI
+TSDASVAALVAKVVETTGRLDFLVNVACTYLDNGAETTRADWLKALDINLVGSVVLMQAA
+RPHLAKNRGAIVNFGSISARLAQTGRWVYPVSKAAILQLTRNQAMDLASDGIRVNAVSPG
+WTWSNVMVELTGDVREKADKVAGAFHLIKRTGGPDEVAEAVAFLLSDHASFVTGTDLRVD
+GGYTAMGPERAEPAIPLLME
+>tr|A0A1Q9APS2|A0A1Q9APS2_9RHIZ
+MPARDSLPALDSLKDQARRLRQALAESGETIGHSRALELIARQYGFRDWNTLHARLGNRP
+PFDPWRIGSRLQGHYLGQAFQADVLGVQQVSGDPPRYRLTLHFDEPVDVVTFDSFSAFRQ
+RVHCTVDETGRTVERTSNGRPHVELDW
+>tr|A0A1Q9AE54|A0A1Q9AE54_9RHIZ
+MSHPAGSEATAAAPSPSVELVDVCKSFGALQVIHGINLTIPEGSFAVFVGPSGCGKSTLL
+RMIAGLEEVSDGLIAIKGREVTDLDPSERGIAMVFQSYALYPHMTVRDNLAFGLKMAHTP
+AEEIAARVAAAAAILKIEPLMDRRPGQLSGGQRQRVAIGRAIVRKPDVFLFDEPLSNLDA
+ELRVSMRIEIARLHRELGNTMIYVTHDQTEAMTLADRIVVLRDGRIEQVGSPREVYQDPD
+NLFVAGFIGSPRMNMLTASMQGEERLLLAKTVLPSPARAASGDVVTLGIRPEHLRLVPDN
+EEGLSAQVDFCEYLGGTQYLYCRLPDGQAIVAEHRDRATVFAGAPVRLGWSTGDARLFDS
+QGQRLR
+>tr|A0A1Q9ANU8|A0A1Q9ANU8_9RHIZ
+MTRPALLRYLSESPLLWLAITLMAGLIFVADTLTKLEIAFAVLHVVVILLAVRSGRVGAI
+LTVAGICIVLTLTSYGLTRHGNRDSGLANAALSLLAIGASTWLAVRLERLQARARHAQSD
+LARMSRIMLMGELSASIAHEVSQPVTAIAANGNAALRWLSADPPNEEEARRALTRIVADA
+GRAGDVVARVRRLVARAGPQAEPLDLTETVAEALAVMRGELRRNEIHLRTELDDALPQVM
+GDRVQLQQVVLNFVLNAIEAMAERPAEERDLLVSAAGDGKSVTVSVRDSGTGLGGEAQQR
+LFEAFFSTKPTGMGMGLAISRSIVEAHGGTIYAAPNYPTGAVFGFTLPAVRTQGEAGTA
+>tr|A0A1Q9AII6|A0A1Q9AII6_9RHIZ
+MDKGKTAFDVIGQLGALRRYARALTRDPHDAEDLVHDALVRAYERRPTFRTGENLGTWLR
+AILHNVHIDGIRRKRSQASRAEGAALVAEQTGGPVQEEAVRLGQIRDAFASLPEEQRAAL
+HLVAVDELSYAEAAKVLGIPVGTLMSRIARARARLRALDEGRVPAPDAEDESSNPGLAGP
+AVGGKAPALKIVGGKDNDAD
+>tr|A0A1Q9AND1|A0A1Q9AND1_9RHIZ
+MKSLRVLLWLLVAILAGALGWVTYEVSNRGQAQPVASDGPFGVPFTLTSGSGATVTREAF
+MGKPTLLFFGFTHCPEVCPTTLFEMNGWLHQADPQGGKLQAFFVSVDPERDTPEVLGRYV
+ANVSDRITGLSGKPADVMEMVKGFRVYARKVPVDPAQPNGDYTMDHTASVFLLDATGRFR
+GTIAYGENPETAVQKLKNLAAG
+>tr|A0A1Q9AGM9|A0A1Q9AGM9_9RHIZ
+MGNAAQTRATRNYRARLTQRGFTRFEIMALESDRDLIRSLAKRLAEEGPEAEQVRAAVKT
+VVAGEPPKPGGILSALRRSPLIGADLDLSRPREEGRPVDL
+>tr|A0A1Q9AP13|A0A1Q9AP13_9RHIZ
+MQAVLRAPRFWGTFLTIVALFAVTGPYGTREMMQPAERLGYWLAVHAVTWTIAIGASILA
+DLALKPHLEGPVLRMMLGSLLAALPIGLALVGLDALMRGVPPMLDNVLWRAVQALPLCAL
+FCILTILTLRPEPERRSSGSLLDWPMAEQETAGKRPEQAAAASSPVSPSTALPPAAAASP
+AVPLLDRLKPEHRAALLRLSVQDHYTEIVTARGRELVLLRFSDALREVGGTPGLQVHRSH
+WVADAFVADLKREDGRLFVVTRDGGSLPVSRSFQESVRQRFARA
+>tr|A0A1Q9ACY2|A0A1Q9ACY2_9RHIZ
+MALACAASLLGVAVSAPRAETRTEQFAPLSPEQRHFHAPIIGVNVYYGPGQINGYINPDL
+GIRQIDELGADSTRDYLIWQSFKFPPSGIVLAGAGRMMRFLPKSPFLPLINLGHTNSFVP
+GGVPPITDEGLTYFGQYLDKAVELTRSYHPIYEIWNEWNMTIGTGIRQPPLVGAGTPDDP
+RAAVHYVRVAKFAVDRIRSQDPEARILVGAVGEDPGWQWASAIVRDGALKGADGLSIHLY
+NQCMPRATQRNARELIDRARDLQSRLKAIRGGAETPIYITEYGWPTSKGQCSMPVDQTAD
+NFAQFILQSAAIPWIKGIWIHSLKNISPNPTDLESNFGLFSYDDKPKDSVCFVRAATDLI
+KSADSIEIRQPFKDVFVARMTAGARQRLVLWTTNTEQQARISLASTASQGHRMCDKTPVG
+LQEATLGPTPLIYEFDAADPLSIEIDSDQPRL
+>tr|A0A1Q9AIR3|A0A1Q9AIR3_9RHIZ
+MGRWSRFNVASIAIGFAFLYLPIVLLVVYSFNESRLVTVWTGFSTKWYGTLLTNQALLDA
+AWVTLRVGVLSASAATVLGTLAALSLSRYSEFRGRTLFSGMIYAPLVMPEVITGLSMLLL
+FVAVGLDRGFWTVTLAHTTFTMCFVAVVVQSRLQSFDRSIEEAAMDLGATPVATFFQVTL
+PVILPAVLSGWVLAFTLSLDDLVIASFASGPGATTLPMRIYSQVRLGVTPEINAICTILI
+GIVACGVLIAALVTRRRELQRQRDERAAFAEGMSRAINPPPAAAGG
+>tr|A0A1Q9AL35|A0A1Q9AL35_9RHIZ
+MFKGSIPALVTPFTASGAVDFDAFAAHVEWQLAEGSHGLVPVGTTGESPTLSHAEHKRVV
+EVCIETAKRRVPVIAGAGSNNTVEAIELAQHAQTAGADAILVVTPYYNKPTQKGLYAHFS
+AIAEAVSLPIVIYNIPGRSVVDMNVETMAALAKAHSNIVGVKDATGKIERVSEQRMACGA
+DFIQLSGEDATALGFNAHGGVGCISVTANVAPRLCAQFQEATLAGDFKTALAFQDKLMPL
+HKAIFMEPGVCGAKYALSRVRDMGRAVRSPLLPSLEAATEAALDAALTHAGLIN
+>tr|A0A1Q9AIF4|A0A1Q9AIF4_9RHIZ
+MGTDEETRGMASFLRRHAAALISLSAVLAYCAFIEWMWGWGRILAAWGAIGAGPVALALG
+LMIVTHLVRCLRVFDYFRQDLSGAFLRLFRVTQVHNLANILLPFRAGEASFFVLMRSEFS
+MPMARSAASLLWMRVLDLHALLAVGLIGLVAAAPFPLLAWAAWVAYCLLPIAGFAFQRPL
+FSVVSRRFPGKVARLAESVLSGLPQSWAPFFRAWAMTVVNWSVKVATIAWILTLLGAPGL
+AAALGGALGGELSSVLPAHAPGGVGTYPAGIVAGALAFGAPAGEPALSALSQAAVNAHLM
+VLVSAAAGTLLSLLLAPRAAPARPTAS
+>tr|A0A1Q9AI12|A0A1Q9AI12_9RHIZ
+MAKLAEAQQAGAAGARMRPGLPIFSSLEKIALSQARLFAAPTSRRLQRAEPMLKRSIPIL
+ITAFLVIVAISRISGLMGDYMRMDMALRQATMLAATAAREAMTADAADLFDNARTDEVTR
+RLQRVLTPDMLPQGAFALAVRNDGRIFATTPEGRLYAMRTLSSIAPEAAAFQYFGERFTV
+VKTEIGGRTHLMTLSQVGDRAGTLVVAVPLDKSEKRWRDEVSLNVTLFAGISAILLVVLY
+AYYIQAKRARDADQIFAESNMRVETALLRGRCGLWDFDLNTRRLFWSRSMYEMLGMTPQS
+SVLSFGDAARLMHPDDKSVYQVARQIARGSERQIDHVFRMRHAEGHYVWLRARAQIIETG
+SDRLHLIGIAMDVTEQHRLAQRYAEADQRLADAIESTSEAFVLWDKDDRLVMCNSHYQQA
+YSLPAHVLVPGTERIVVAAAAARPIVERRIADPDGSNLSQTTEVQLADQRWLQINERRTH
+DGGLVSVGTDITLLKRHQVRLRESERRLMATIGDLSASRMKLERQKAELSIANANYQAEK
+ERAEAANRAKSEFLANMSHELRTPLNAILGFSEILKHRMFGPLGSEKYEEYTKDIHDSGK
+HLLNVINDILDMSKIEAGQMSITRERIDLAPLVEEALRLIKGPAQQKDIVVCQEIASGLT
+LHADRRAMKQILLNLLSNAAKFTNKGGRIALRARKVAGAVTLTIADSGIGIPRTALEKIG
+QPFEQVQNQYAKSQGGSGLGLAISRSLTALHDGRMKIHSVENVGTIISVRIPDNG
+>tr|A0A1Q9AIM0|A0A1Q9AIM0_9RHIZ
+MAYLAQNLTKGGRELIAFRIGDQEFCVDIMSVREIRGWSPATPMPHSPSYVLGVINLRGV
+VLPIIDLSARLGMGLTSPSVRHVIIVAQMGQKILGLLVEAVSDILTVTEDKIQPTPEVAS
+EFERSFARGILAIEGRMICLIEMGAIFGDRESEAA
+>tr|A0A1Q9AFL6|A0A1Q9AFL6_9RHIZ
+MTAPDASASPNASAPKPRAGLLDIAAYVPGKEHAPGVAKVFKLSSNETPLGASPRAIEAM
+QAAAGALERYPDGQALALRAAIAEVHGLNIDNILCGNGSDELLGLIAHAYLGPGDEAIIT
+EHGFLVYPIQIRAAGAKPVTVKERDCQVDVEAILAAVTERTRVVFLANPGNPTGTYVPAD
+AVRRLHAGLPPSVLLVLDAAYAEYVRRNDYAAGLELVSGADNVVMTRTFSKIHGLAALRI
+GWMYGPRPVIDVLNRIRGPFNLNSLAIAAGAAAMRDREFARTAAEFNAHWLDELTRALTA
+LGLQVTPSVANFVLIHFPDVDGKRATDADAFLTARGFILRGVKGYGLPNALRLTVGTEEA
+NRGVVEALAAFLKD
+>tr|A0A1Q9APR3|A0A1Q9APR3_9RHIZ
+MKSYVLTVSCPSRRGIVASISGYLAGQGCNIVDSSQFDDLDTGTFFMRVSVLSEDGADEA
+ALKAGFAPIAKEFSMDWALHDADRRMKVLLMVSRFGHCLNDLLYRWKIGALPIDIVGVVS
+NHHEYQKLVVNHDIPFHHIKVTKENKPEAEARLMEVVEQSGAELIVLARYMQVLSEKLCG
+AMSGRIINIHHSFLPSFKGANPYKQAFERGVKLIGATAHYVTMDLDEGPIIEQDVARITH
+AQSADDYVSIGRDVEAQVLARAIHAHIHRRTFINGNRTVVFPASPGSYASERMG
+>tr|A0A1Q9ADH5|A0A1Q9ADH5_9RHIZ
+MQRFQQYIDGAFDDGSARFDSIDPATGAVWAEMPEAREGDVDRAVKAAERALYDGPWATM
+TATQRGKLLFRLADLVAQRAPVLAELETRDTGKIIRETSAQIAYVAEYYRYYAGLADKIE
+GSHLSIDKPDMDVWLRREPVGVVAAIVPWNSQLFLSAVKLGPALAAGCTLVVKASEDGPA
+PLLEFARLVHEAGFPAGVVNVLTGFGPSCGAALTRHPGVAHIAFTGGPGTAAAVVRNSAE
+NLASTSLELGGKSPFIVFADADLESAANAQVAGIFAATGQSCVAGSRLIVERSVKDRFLA
+ILKSRAEAVKIGSPLDMATEVGPLCTDRQRKLIESVVTASVEAGAKLVAGGSRPKDDGYY
+YAPTILDCDGVSSPSVETELFGPVLSVLSFETEAEAVQLANATRFGLAAGVFTQNLARAH
+RMIRKIRSGIVWVNTYRAVSPIAPFGGFGQSGHGREGGLAAALDYTRTKTVWVRTSDDPI
+PDPFVMR
+>tr|A0A1Q9ALP8|A0A1Q9ALP8_9RHIZ
+MRRTVNRLMAAAIAVGLAPWWAAPAFAKDKITFAAAVFAEAGRGDRVKAWIESYNQSQTG
+VEVEPIAIPFSSLANTVFTQMGGGGGPDLIRLDQTDFFAAIPSGRLLPLGDVINDKDYPF
+LGPDRFMKVKDVRYGLLFDTTGYALLYNKDILPQPPKDFESFLAAAREKTRDGTFGYAYR
+ATMAERAGFWQDLCNYVFGFGGRWSDKDGNLTLNSPDVIKGVAAYKKVYDAGVTPKGADA
+ATYRRMFWEGKIAMNVDNGGVAAIFNRNAPQLPFAAAPSPFPDKAQGLIMTALVVNANTK
+HKDAAGAFIKWAYAPENQKTLQAAMGTSVGTRLDMSPEEQAKQPWLRVYEEQMQNALPQL
+VMGHEDKTPEIQQIVLEQVLKVLLENADPKDAMDRAQSLVERRVLR
+>tr|A0A1Q9AH73|A0A1Q9AH73_9RHIZ
+MRDPYATLGVRRNAGAEEIKAAFRNLAKTVHPDVNPDDPTAAARFAEIGRAYEVLRDPTL
+RNRYDEARRAADLRRMEEMKRRMGFKEQTVDAETAEEAVSRIFASESRVRARAAGGGAAQ
+PRHHAPAPEPERATASPQYQQGPATAQEAGPQPASVHAFNQQQQQQSGSQASRRSEPEVK
+TDAEFPAGEADAGDGERGTIGGLMRRLREGLQKPKPAGQPKAPDLFATVEVTIAEIMRRE
+KVDVPLPEDRVARVTLVPGTTDGSVLQLKEQGYRLPGHLPGDLVVYIRAMDDPRFEIDGY
+DLRTEVPIALGDAVLGCKLTVPTLSGDKVLTVQPWTGPDKPFRLAGQGLDDGHGRRGDLV
+VTLRLSLGDKPDERLIDLMRSQKNGLVL
+>tr|A0A1Q9AHB2|A0A1Q9AHB2_9RHIZ
+MAETKPTLTILPPGRPLIGRVSPPGSKSITNRALLLAGLAMGTSRLTGALKSDDTLYMAE
+ALRRMGVAVEEPDATSFVVTGTGRLTPPAAPLFLGNAGTATRFLTAAAALVEGTVVVDGD
+GHMRKRPIRPLIAALSALGVAAEAETGCPPVTVHGTGDLPGARVTIDAGLSSQYVSALLM
+AAAGASHPVEVVLDGTEIGARGYVDLTLAAMRAFGAEVEETGEGAWRVAPTGYRAADFLV
+EPDASAATYLWAAEKLTKGQIDLGVPADAFSQPDARAYAVMSAFPHMPAVIDGSQMQDAV
+PTLAVLAAFNETPVRFTGLANLRVKECDRVHALAKGLTAIRPGLGVEEGDDLLVASDPAL
+AGQTVSASIDTFADHRIAMSFALAGLMVAGIAIEDPACVAKTYPGYWDALASLGVAFSGE
+AP
+>tr|A0A1Q9AKA4|A0A1Q9AKA4_9RHIZ
+MTLILHPGQVALADLARIYWEGESARLDPAFDAGIARAARRIAAIAAGNEPVYGINTGFG
+KLASIKIDAADVATLQRNLILSHCCGVGAPLAENVVRLIMALKLVSLGRGASGVRLEIVR
+LIEAMMERGVTPVIPEKGSVGASGDLAPLAHLAAVMMGHGEAFFEGARLPGSEALQRAGL
+EPVVLAAKEGLALINGTQTSTALALAGLFRAHRAARAALVTGALSTDAAMGSSAPFHPDI
+HTLRGHKGQIDAGAALRKLLAGSAIRESHVEGDERVQDPYCIRCQPQVDGACLDILRQAA
+RTLEIEANAVTDNPLVLSDDTVVSGGNFHAEPVAFAADQIALAICEIGAIAQRRIALLVD
+PALSYGLPAFLAKKPGLNSGLMIAEVTSAALMSENKQMAHPASVDSTPTSANQEDHVSMA
+CHGARRLLAMSENLFFILGIEALTGVQGVELRAPLTTSPELTRAAAALRAIVPALEEDRY
+MAGDLAEAGAFIASGTLDAAISPGILPDLEG
+>tr|A0A1Q9ANA2|A0A1Q9ANA2_9RHIZ
+MAARTLSASTLWKRSLNAYLADINGDSRAAQGGVAVIPPARHIGLSNIHWLNWANALTGN
+RLRINRLFAVSGFRSDQYISYYRDSRLASNAGISIWNFPVVNDVSHAGAQTATGSIAGTT
+MTLVVNTVAGTFNPGGILSGSGVTPGTKIVSQLTGTPGKEGTYQVDTAQTVASTTITSTG
+YTDTITGVYVDVSNVVQVAYANLVAEWQLDLDSGKKVVLVAETGSTALNAAQVNAVLDFN
+LRQKAWAEAKSVHLFDFGPVVWAATQSGTLLRFKSGVLQPSDPTHFSSLGAFLQANAGPV
+DWIKANFVYRDKGVATAADSRPNNPRQIITNPFFLTLSGGITGANVTVSSGTVPANTKIS
+APAPSGPCSVAITSAAYDAADANSGNKVRFALTAGASAVVARIEFDSPPTTYWQIQDLLE
+AGVGVDVEANSGGAHVYGALEISTAGGGTKNAWALFGLPSQGPGPTSAYHIDLKTEIEGT
+LPGSTATAYAALVVYVAIPANGTAAVSLSRPWGYRRYDMPAF
+>tr|A0A1Q9AJI3|A0A1Q9AJI3_9RHIZ
+MAKTSAIEKNKRRRKTVANQAAKRAELKAIVMNQALPIEERFKATLKLAALPRDGSKTRI
+RNRCEVTGRPRAFYRKLKMSRIALRELGNFGKVPGIVKSSW
+>tr|A0A1Q9ADJ0|A0A1Q9ADJ0_9RHIZ
+MADHASRYDHWAWLYNQTLGPRYGAHKIGPIERVVLPHVPAGGAILDLCCGTGQLAAALQ
+ARQFHVTGLDGSADMLRHARDNAPSARFVLGDARHFDLGTPFDAVLCTSASLNHMEGPED
+LAAVFSSVNRALKAGGIFVFDVNHPAQMARHWHGRPSEGEMQPDFAWAITPQYDPAAGQG
+AFTVDIFRRANGQRRSRLRALAERLTRARPLRRLRLALLARPGLLHRGWEHNRVVNRVWG
+HDLDQVSALLAQNGFAPELRSTTGGPVDDGHAAYFFCRKIAETGSEPGAQPGNVLAEVSA
+>tr|A0A1Q9ALN9|A0A1Q9ALN9_9RHIZ
+MKAALMNASETARSAVLNEGLWILRGAIIRKYLDRTRFPAEAQVRHPISEQGEASCIERR
+NSGPAFHIHVCSFSGRASCHHVRSTDEPKLLSHQLISAGDNRLVGAQRQPKMPGYLGGRF
+TTGRSDDLGALSTLSASISNLYEILNPRACNRIQPVKDWDQFHEAA
+>tr|A0A1Q9ADQ2|A0A1Q9ADQ2_9RHIZ
+MSMKTDIETTKAPAPAGHYVQARIAGGHVYISGQLPIRADGTPLADGGFETQAGQAIDNM
+LAILEAAGGTPADLVRVTAYIVGVGNWPRFNRIYAERLKEARPARTVVPVPELHYGYLVE
+IDAIAVINDKA
+>tr|A0A1Q9AMJ4|A0A1Q9AMJ4_9RHIZ
+MSEYQYYEFLAIDRPLGRSDKQALRAISTRATITDTRFVNTYGWGDLKGDPAEFMARWFD
+LHLYYANWGTRRLMLRVPNRFIDVSALGPFLDEIDWVTVRKAGENVIFDIVSDDDPEDED
+TLDEYAEEEEAGMLASFVSLRTDLIDGDLRLFYLLWLKAVEDGAYEDDAVEPRLGVGPLT
+PLLTALATLLRLDEDLLQAAAEGGAAQTATSQDWDKAVAALSDEDRTAFLVRFLEGDPHA
+RTDLKRRLSSTSALGKTPQRQALRTVGMLRTRAESHRLDRQQACAKAEAVKRKRAMEEIE
+KQRRERIRAVAARGEAVWRDVEEEIARRNASGYAKAIALLQDLKALAAEKAEAADFRLRL
+MAIRKRHAQKARFIERLTAAEMASDD
+>tr|A0A1Q9AK57|A0A1Q9AK57_9RHIZ
+MPDFAPGTAREDATRDAYVIGFDIGSTAVKAGLFTLGGTVVDHWSRAYPTLRPGPGRVEQ
+DPQHWLDGVRDAIDGLLVGRDPGRVVAVGLCSQVNTDVFVDAAGTPLAPAIVWQDVRAAR
+EAQALDATITPAEKQAWWGAEMPIGASHALAKMMWFRKHHPDLWPRVAHVLSPKDYCLLK
+LTGQAVADPIASFGQVGLDLAYIAPLIARVEGAAERLPPLKFFTDIAGEMQLGSHPRRVP
+VTVGTMDAWGNLFGCGVFSPGQGMYVSGTSEILALAGAERIGAPGVVTFATVNGLVVNAG
+PTQSGADSLRWWSGTAGIEPGAVADLAARADRDGRPILFLPHLEGERAPLWDADIRGAFI
+GLDSRSGGPDFALAVLEGVALSARHLFQSLTKAAGYRPDRLLYGGGGARSDLWSQIRADC
+LGVALHRFAYQDVGCLGAAIIAAVGVGAFSTLEEAVPAMTSVERVFEPDPKRLKRYDRMF
+DAYCKTIDALRPLGIIDTDAQPAETAS
+>tr|A0A1Q9AJI4|A0A1Q9AJI4_9RHIZ
+MRLIFLGPPGAGKGTQAKLLTDKHGIPQLSTGDMLRAAVAAESDIGKRAKAVMDAGQLVS
+DDIVNEIVSQRIDSEDCARGFILDGYPRTVPQAIALGKILESKGLQLNAVIELKVDEAAL
+VRRIENRVKETLEAGGKVRSDDNPEAVRKRLVEYREKTAPLSEYYASRGELKTVDGMAPV
+ETVTREIDRILSEAAAVA
+>tr|A0A1Q9AMK0|A0A1Q9AMK0_9RHIZ
+MIDDDLIRDIRAFNRAYTNRLGLLGRDYLNSPYTLTEARILYEIGAADAGMTAAALCATL
+HLDPAYLSRIIKAFRNSDLVLSRPAPNDRRSQILYLTEKGLSEFRTLGDRSDAQIAEDLV
+RLDSEQLRRVAQAVTTLRRLIDPNMPAALPAPAIIRPCRTGDIGWLIEAQAIAYRRDQGF
+DHRFEGLVAQIAGDFLSRAPSPREACWIAEAEGERLGSIMVTEGDAQTAKLRLLFVERRA
+RGLGLGRALVRTVIDFARGQGYRQLTLWTNDVLKPALKLYETSGFHLAKEEPHDAFGVPG
+MSQTWVLDLLGDAPADLAGASASATASAA
+>tr|A0A1Q9AMZ3|A0A1Q9AMZ3_9RHIZ
+MSLVPSRAFSSRSSASLLRGCLVAALLTIPAAITHAETQMVKTITYFPIGGNTAEELDKA
+LSAHGPLMKSTGARHPGATKIKFGGTVSYVSQGNRCSVGTAKVTLATRLILPRWTRRAHA
+DKDLGLVWDTLSADIKRHEERHAEIARNYARDLERALTGLPPRADCAAMQADVAKATATV
+VEAHDKAQADFDRREAINFDRRMIRLLKYRLEQIREDEPK
+>tr|A0A1Q9AH00|A0A1Q9AH00_9RHIZ
+MRPLSILRKSFADLSRQRRRWQDGIARNLRISSRMLDSLHPDLPPEVLAPKPTSLVETTD
+FGSNPGWLKMLHYAPESLKPGAPLVVVLHGCQQDATLYDQCSGWSRLARDHGFAVLYAEQ
+QGGNNPNLCFNWFRPSNITRDRGEVMSIRQMISRLEQDLAIDPARIFITGLSAGGAMTAS
+MLSAYPELFQAAGIIAGLAHGAARDAHRAFYAMEHAPERTAREWGDLVREAAPAPVRYPR
+ISIWQGLADRTVHPSNADALVAQWLDVHGLTDTKPRETRIESHRRLAYPGHDGRIAVELI
+LLADFDHGVPLKPTRGGEKTGPFMLDAGISSTRRLAREWGVI
+>tr|A0A1Q9AMG3|A0A1Q9AMG3_9RHIZ
+MKDVRAFQVFHDEEFSVAPVFLLRAKADILENIIGKRLESTPLPIFLQAGPKGVGPRPQR
+LEKRRGERAAGP
+>tr|A0A1Q9ADD1|A0A1Q9ADD1_9RHIZ
+MKKILILSTALGLLMGTAARADDITFAVAAPLTGPLATIGDQFKQGAQAAADAINAKGGV
+MGRQVKLQLEDDQCDPKQAVSVANRIAAAGIGFVDGHACSGSSIPASAVYAENGTLMMTP
+ASSNPALTDDAAAKGWTNIMRLYTRDDAQGAFIGPWIAKEYAGKNVAVLHDKTAYGQGIA
+NAVRATMNANGLKEVMAEGINAGEKDYNALVTKLKDAKVDVVYFGGYHPEAGLILRQAAE
+QGFKFQLIMPDSIASPEFWQVAGPAGEGTLFVFPADPQAKPEAKEAVEKIKAAGFKPEGF
+TLFSYAVIQAFAQGIERAGSDDPSAVAKALKDGKPVETVVGSVVFDEKGDLKNASYDINR
+WSKGTYAPIGK
+>tr|A0A1Q9AGA0|A0A1Q9AGA0_9RHIZ
+MGVEDNLRDVREKIARAEQAAGRPAGSVSLVAVSKTFDAEAIRPVIACGQRVFGENRVQE
+AQGKWPALQAETDGIELHLIGPLQSNKAADAVALFDVIQTIDRPKIAKAVAEEIGRQGRP
+VRTYVQVNTGLEPQKAGIAPEETEDFIRLCREEIGLPVEGLMCIPPADENPGPHFALLDK
+LARACGLSKLSMGMSGDFETAVAFGATSVRVGSAIFGSR
+>tr|A0A1Q9AM36|A0A1Q9AM36_9RHIZ
+MIAIDTSVLIAIFLEEPEAEKFKLVMAENDIVIGWPTLFETRTVLAAKRFLNPSHIITSL
+SEASNVTCLAFDRQHYRVAEQALQHYGKGRHPAGLNMGDCFSYAVSAVAKAPLLFKGRDF
+SQTDLKLHPASSSA
+>tr|A0A1Q9ACM3|A0A1Q9ACM3_9RHIZ
+MIASTRADNPSERPVFTAELRPHRSLGPKGTRVLLVLAILLGLGHATLFLAIGAWPVLPF
+FGLDILLLLGAVWMSHRAGRRREEVSISRVDIRLRSFSPEGAMVEHRFNPLSARLEIARH
+AEICITALHIAERGRMVPVASFLNPQERESFAAAFSQALARVRR
+>tr|A0A1Q9AF44|A0A1Q9AF44_9RHIZ
+MADPIAIAARRPVLAPHASGAARAALSAAGPAARLSLRAKPDAVGALSAALGLDLPTAPK
+HAARNGARHALWLGPDEWLVIDEDEADLMAALSSAGALHSAVDVSHRNAGILVTGAEAAT
+VINSGCPLDLSLTAFPVGACARTVLSKSEVVVYRTAEDAFRVECWRSFAPYVLAVLAEAA
+AEA
+>tr|A0A1Q9ALQ9|A0A1Q9ALQ9_9RHIZ
+MTAARNDLRAAEGRGLIRRRTVVGGLALVTAAAAFGLDLRPAAAQASMQASLAQKIANHF
+ASVKTMAGEFVQFGPRGEQTAGKFYISRPGRLRFNYEAPSPMRVIADGKSVAIGNQKLKT
+WDLYPLSKTPLNLLLSNNIDLSSAMVRDVREEPDLITIVLGDRSIFGDSTITMMFDPKTY
+DLRQWTITDAQKKDTSVMIYNVQTGIPMDDAVFRIPYDDIRR
+>tr|A0A1Q9AQA4|A0A1Q9AQA4_9RHIZ
+MSSSPLAARATPRDLTDLPLLDLSNATILAIAHRGDWLDAPENSLDAIDGAIAKGAEIVE
+IDVQSTADGHLVIIHDATIDRTTTGQGTVSELDLATVRAARLRARDGGPTAAVTDRIVPT
+LAEALEAARGRVVLNLDTKYARDLDAVVAMVKQMGSEADVLIKSPINEAEERIALRSAAW
+YGTLPHMPLLTLRSGSIFEDLTLLDGFRAQMIEAKFTDFADLDLAGPELAARGIRVWVNT
+LDCSHNLDFNDSRALSAPDAVWGRLIEAGIGAIQTDCVEEFKRWLAARPR
+>tr|A0A1Q9AQE0|A0A1Q9AQE0_9RHIZ
+MPNPFQYCRSTPARESTEADWAAARRLADQLDRILEGYGSRKSAIDRAAAELRLSSRQIY
+NLLARYRTDRTVTALLPRTSGPRRKRISADVEAIVARTLQEQWLTLEAPPLAPVVAEIRA
+RCEEAGLSQPSYVTVARRIPELFSAETIARKRSANPKHLLRLKPRPGYIHATNPLDVCQI
+DHTPTDVNFVEVIDGAGVFVGRAYLTLVTDVATRAILGFCLSLEKPSVLSVALCLAQAIC
+PKDGWLASRDIRHDWPMYGRPRLLVADSAMEFKGHAFQRGCDEYGIRIRYRDRARVHHGG
+VVERLLGKLNGVLATLPGTTKRSVAARDEYPAEHRARLSFSELERCVVLAILDHNRHQNP
+KTLNIPVKEWEQRASGHPHIIDDQHHVLLSFLPAGQRQLSPQGISLFALHYYSSWIGRLV
+PERDRLSKLEVRYDPRNISQIFVRDPETQVFRAVERRDGVVASITLWEHRAERARRRDLS
+GRSSVEIVSLRREMTTIANTAGLSKRRLRNAARGIYAAPAEKRMAETSESVPIQTIQQER
+PKARLQVEDW
+>tr|A0A1Q9AQH6|A0A1Q9AQH6_9RHIZ
+MDFLTPEGITALLQVIAIDLVLAGDNAIVIGLAAAGLPADQRKKAILVGIAAATILRIAF
+AAVTVQLLSLVGLQLIGGLLLLWVCWKMWSELRSADNNADAHAQTEETHVKKTFLQAATQ
+IVIADVSMSLDNVLAVAGAAKEHPTVLVIGLAISIALMGLAANLIASLLHRHRWIAYVGL
+AVILYVAVTMCYHGGVEIWPYVSKLTA
+>tr|A0A1Q9AJR6|A0A1Q9AJR6_9RHIZ
+MTLKGAHVIRLPVLALFASLLIAPVTAAQDAAHGRQVFNACTSCHTVTSERHTFGPSLKG
+VVGRGIGTAPDYRYSDVMHQAGADGKIWDEATLSTFLANPSKVMPGTKMRFWGLWTDAEI
+KDVIAYLAAHP
+>tr|A0A1Q9AEZ4|A0A1Q9AEZ4_9RHIZ
+MTTSSTTTDHQTIRDWAESRDGHPAKVKGAKDGGILRFDFGEPEESLEQISWDEFFEIFD
+GNGLALVYQDETADGKTSRFCKFIDRH
+>tr|A0A1Q9AFT7|A0A1Q9AFT7_9RHIZ
+MRELERRFGEIEARMSAGPAADVYVKLASEYSELQPVVAKIRAYEKAQNELTDIETLLAD
+KATDREMRELAEMERPDVSERLEALAKEMQLLLLPKDAADEKSAILEIRAGTGGSEAALF
+AGDLFRMYERYASGRSWKVEILSSSDGEAGGFKEIIATVTGRGVFSRLKFESGVHRVQRV
+PETEAGGRIHTSAATVAVLPEAEEIDIEIRNEDIRIDTMRSSGAGGQHVNTTDSAVRITH
+LPTGLVVTSSEKSQHQNRAKAMQVLRSRLYDMERQKADSERSASRRSQVGSGDRSERIRT
+YNFPQGRVTDHRINLTLYKLDRVMEGDLDELIDALLADYQADQLAQLGEQQG
+>tr|A0A1Q9ALF1|A0A1Q9ALF1_9RHIZ
+MPIKIPDTLPAFQTLVKEGVRVMTETVAIRQDIRPLQIGLLNLMPNKIRTEVQMARLVGA
+SPLQVEFSLIRVGGHKAKNTSEDHLLAFYETWDEVRHRKFDGLIVTGAPVETLAYEDVTY
+WQEMQRIFDWTQTNVHSTLNICWGAMAAIYHFHGVPKHALKEKAFGVYRHQNRNPASVYL
+NGFSDDFQIPVSRWTEVRRADIEKVPGLNILMDSDEMGVCLVQEDAGNRLYMFNHVEYDS
+TSLQEEYERDVQSGVPIRMPHNYFPHNDPTLPPPNRWRSHAHLFFGNWINDIYQTTPYQL
+AEIGKDRAPLSRPVDLPPLAVGGRC
+>tr|A0A1Q9AF61|A0A1Q9AF61_9RHIZ
+MMQQVGENGRQMACTPVMAFPLASRRGVVRRCAAELDNVHGDEAVAYWRGTCRSLAEDLA
+RLGCDEEDVRLQILDFQAEVQLEMMRRYREAAALTVEEERWTPDRA
+>tr|A0A1Q9ADX7|A0A1Q9ADX7_9RHIZ
+MLIHQGAARNERINVYLACWLAGIAGALNAAAFYAVGFFAANMTGNVSALSDHLATRQTM
+ASLFYLAIVLTFILGATVSSLIINVGRRRGINGIYAYCILIEAFLLLPLGVADLWMVAAW
+RSTLLILGLAFLMGLQNATVTRISDARVRTTHVSGMATDIGIELGVAIDIIRGKDGMGDP
+ADNMSKLRLHAYTILAFLAGGLIGVLVYARAGGLLMLITGALLLALSLTTLHRARRADRS
+TGTRRG
+>tr|A0A1Q9AFG3|A0A1Q9AFG3_9RHIZ
+MPITPPRPTFRFAPSPNGLLHLGHALSAITNAEMAEACNGRFLLRLEDIDRTRCRPEFEA
+AILRDLAWLGLRWQEPVRRQSDHLPLYAQALERLKRMGLVYPAFLTRGEIRAAVTAVEED
+GRPWPRDPDGAAHYPGLERGWSAAERADALRSDKPHAWRLDMARALQAAGARLSWAESGA
+GPQGETGTIQADPAAWGDVVLSRSDAPSSYHLSVVVDDAAQGVTHVVRGRDLFHATSVHR
+LLQKLLGLPEPLYHHHRLILGPDGRKLSKSLGDTGLEALRARGLSAQAVRDLLL
+>tr|A0A1Q9ANJ7|A0A1Q9ANJ7_9RHIZ
+MNATFGYVPVILLAALATYATRIGGYLIVRRFERLPPRLMAALDAVPAAVLSTLVAPALI
+TGGRDAAIAIVVAFLAGFRLAPVPMLLLGWAVVMGLRQIGF
+>tr|A0A1Q9AC62|A0A1Q9AC62_9RHIZ
+MSTTDTRRDLFITGLRNAHAMENQALSIIKPQLKRIENYPEVARRLEEHQQETEGQIDRL
+EGVLSELGEDHSTLKDMALSLSGSMAALGHSMAGDEILKNSFANYAFENFEIAAYKSLIT
+LAELGGYTAALGVLQANLKEEEAMAAWLADNLHGVTTRYATLSEAGQTAKV
+>tr|A0A1Q9AD75|A0A1Q9AD75_9RHIZ
+MMAIDLNSDLGESYGAWTMGDDSAMLSIVSSANIACGFHAGDPQGILRTVQAAVQKGVAI
+GAHVSYPDRVGFGRRDMEVGHAALVADVIYQIGALKGLATAAGGTVSYVKPHGALYNRIA
+ADAVQARAVVEAILAVDPTLTLMGLAQAPILAQARAAGLATVAEAFADRAYLPTGHLVSR
+REPGAVLEDADLIAARMVQLVREGTLTAIDGSTIQLDAQSICVHGDNPEAVAIARTIRMR
+FEAEGLAIRSFI
+>tr|A0A1Q9AMA8|A0A1Q9AMA8_9RHIZ
+MVQTSERLPAGTAVPTHGVSFSQALAVWARIAALSFGGPAGQIALMHRILVDEKRWIGEK
+RFLHALNYCMLLPGPEAQQLATYIGWLMHGVRGGLAAGLLFILPGFLAILGLSFVYVLFG
+GTTLLGGVFLGLKAAVLVIVLQALLRIARRALKGRLQVAIAVAAFLALAVLRLPFPLVIL
+LAGLFGFLAAQLSLPGFAAKPAAADPAAGLEDHSLLGDGVPAHARPTVGWSLRMAAILAF
+LWAAPVVATWLVFGPGNVFTEIGLFFSKMAVVTFGGAYAVLAYVAQEAVGHYGWLRPGEM
+LDGLALAETTPGPLIMVLQFVGFLGAYRQPGILSPLEAATLGAVLTTWVTFVPCFLFIFL
+GAPFIERLRGNQSLSAALSAITAAVVGVIANLALWFAIHALFAEILTWQAGPVALDLPRL
+TSLQPIALCLTAGAAVLVFALRLSVMPLLGLAALAGVLVNSLA
+>tr|A0A1Q9AJ21|A0A1Q9AJ21_9RHIZ
+MRCGGRPGTGQAARNLTSFSPKVIDGRGLICRPLAKQEAGRAARAADIQDRRGMRLRMPP
+NEKRPHRLVPIGQGAAGNVMDRQPPTGNASRRAGGWA
+>tr|A0A1Q9AM25|A0A1Q9AM25_9RHIZ
+MISFIDEHRSVLGVEPICRLLPIAPSTYYEVIAKRTDVDRLSARARRDIAMKVEIRRVFN
+ENFQVYGVRKVWRQLQREGYDIARCTVARLMRALGMQGIIRGKPIRTTVSDKTAPCPLDR
+VNRQFYAPAPNMLWLSDFTYVATWQGFVYVAFVIDAFARRIVGWRASRTAHAGFVLDALD
+QALHDRRPVHRGGLVHHSDRGSQYVSIRYSERLAEAGIEPSVGSVGDSYDNALAETINGL
+YKAEVIHRRGPWRNFEAVEFATLEWVDWFNNRRLLEPIGNIPPVEAEERHYAMLDAPALA
+A
+>tr|A0A1Q9ANC9|A0A1Q9ANC9_9RHIZ
+MRFSPTFLEDLKDRVPISDVIGRRVTWDRRKTNVSRGDYWACCPFHGEKSPSFHCEDRKG
+RYHCFGCGVSGDHFRFLVELDGMPFVEAVRQIADMAGVALPQPDPESEKRERQRTTLEDV
+MDMAARFFEEQLQGPNGARARAYLRERGLTGRTIETFRLGYAPDSRNALKEYLASQNVSK
+EQIEACGLVVHGEGIAVSYDRFRDRIMFPILSAREKVIAFGGRAMAPDATAKYLNSNETE
+LFRKGEVLFNFARARRALSGAAGAETVIAVEGYMDVIALHQAGVENAVAPLGTALTENQL
+ELLWRMTGEPVLCFDGDGAGLRAANRAVDLALPHLKPERSVRFALLPDGKDPDDLVRTDG
+RAPFDRVIAQARSLSDMLWLRETQGGTFDTPEKRAALQARLKQAAATIADENVRFHYNQD
+IRERLAGFFQSPGRGNFGGREAGGWNSGGGGRSSGRDGGRGGRGANRASNAGLGEGISDR
+LTRSALVSGQAALPALRESALALTIVTHPELLFEEYDDVSGIEFESRDLQRLWSQLLNVA
+AARGPTLDAETLGADLIRLGFDPLLASLDQQIRFARLWTATRAAALDDAREGYAQALALH
+KRTKALLWQRRELETELARATEEEDGEAVGLLLRTLQEVQSEVTRLENQEAIIDGFGVLS
+GRMKGPARK
+>tr|A0A1Q9AK15|A0A1Q9AK15_9RHIZ
+MARAVLADLDAVLAIARLGSFRAAALDLGMSTTALSNAIGKLEQRLGIRLFNRTTRSVSL
+TEAGRTLVERVGPAMTDIHDAMQAARSLQEVPAGTLRINAFATAAREVMAPLILSFLRRY
+PQVHIDLVTEGRIVDIVAAGFDLGLRPADLVPADMIAVPLGLRRSNAVVASPEFLRVHGV
+PAVPADLHRFRCIRARLPNNALFRWKFEKDGEALQIDVQGAITLDESSLVRIAAQSGIGI
+GYVMEADVREDIAAGRLVRVLEDWTPELAPLALYYPGRKNPPAAFTAFLQAARAFANP
+>tr|A0A1Q9AFC3|A0A1Q9AFC3_9RHIZ
+MSKILVTGGCGFIGRHVTEELLDQGYEVRILDAMIDQVHGDAEAETPAAAEIIQADVRDK
+AAVSAALEGVESVVHLAAEVGVGQSMYEIARYVGGNDLGTAVLLEAMIDRPIRRIVVASS
+MSVYGEGLYTGPDGARFGAVRRRASEIKAGRWNPQGPDGEVLTPVATDEEKPVDLASIYA
+LTKYAQEKQVLIFGEAYGVEAVALRLFNVFGAGQALSNPYTGVLANFASRLANGQPPTIF
+EDGAQRRDFVHVRDVARAFRLALEQPHAGGHVINIGSGQAYTIAEVARLLADAMGVPEIG
+PEILGKARSGDIRNCFADIGKAHDLLGFEPQHRLENSLGPFAEWVRATGAIDRGAEMRRQ
+LEERGLVS
+>tr|A0A1Q9AM76|A0A1Q9AM76_9RHIZ
+MEYRNLGHSGLKVSTITVGTMTMGGKGWAAMVGSQGVDEARRLIDMCLDAGVNLIDTANA
+YSAGASEEIIGEVLGGKRKNDVLIATKARFPMGDGVNEQGLSRHHLIRECEASLKRLNTD
+VIDLYQVHEWDGQTPLEETMAALDTLVQHGKVRYIGCSNYSAWHIMKAMGISALDKRHRF
+ISQQIHYSLESRDAEFELLPLSIDQGLGVLVWSPIAGGLLSGKHRRDHTPEGSRQAAGWT
+EPPIRDVDRLWSIVDTLVEIAQARGVSAAQVALAWLIGRKPVTSVIIGGRTEAQFKDNLA
+AAELKLTDEERQRLDDVSKPKLLYPYWHQAQTASARLGEADLFLLGPHLQQA
+>tr|A0A1Q9AH09|A0A1Q9AH09_9RHIZ
+MRNKAIAASVAAGCLLTSSHAWADKPVPWQTGMQAAATGIMDEVRWFEQYTLWFIVPITL
+LVLALLIVVVLRFRESANPVPSRTSHNTVIEIIWTVAPVLILLFLAVPSLQLLTAQLTPP
+EKPDLTVKATGNQWYWSYEYETGENPLSFDSLMVKDTDRAGLGKEDREVYPRLLAVDNEI
+VVPVGKTVRMLVTAADVIHAFAVPAFGIKIDAVPGRLNETWFRAEREGLYYGQCSELCGK
+DHAFMPIAVRVVDQARYDRWLASAGSDLRGANRALMASIDGKKTVDVALNAAE
+>tr|A0A1Q9AKR8|A0A1Q9AKR8_9RHIZ
+MDPITLAVVGVGKIVRDQHLPAIAKNPDFQLICAASRHGKVDGIDNFPSIEAMLEAVPAL
+QAVSLCMPPQVRYSAAVAALSAGKHVFLEKPPGATLSEVEDLKALAEQKGVSLFASWHSR
+YAPAVEAAKRFLASTRIRSLKIEWKEDVRHWHPGQAWIWEAGGLGVFDPGINALSIVTHI
+MPKPLFVTQATLEFPENRDAPIGAEIHFSNADGVEALGEFDWRQTGPQSWNITAETDAGH
+MLLSHGGSKLAIDGREEDHGPEAEYPSLYARFASLVRAGQSDVDLAPLRLVADSFMLGKR
+KITDSFLD
+>tr|A0A1Q9AKL2|A0A1Q9AKL2_9RHIZ
+MTVRLSDIVMQYPGTRALDHVDVDFLFSEVHGLIGENGAGKTTLVSILGGSKQPTSGTIA
+IAGVETALASAGDALAKGIAHVSQEGSLVPGLTAAQNILLGDEPRLGLGIIDTRALKRRA
+TELLARWFPQVSIDLDAAVATLPVADQKVIEIVRALRGEIRLLILDEPTATLPAREKENL
+WRIIRSLPPRGVGVVLVSHFLSEVKALSDRITVLRDGRHVTTLPADEVSEAQLVDFMLQR
+AGKPTTAIAEDAESARATGETVMDIADWHVGGVRVERFAIRAGEIVGLIGLTGAGHFGFA
+RSLYTGEGFLSGRTVFAGQPLARPDARGMKARGVAFIPDHRMENSLIGEWSVRENLAMVH
+PQAGARAGVLSMGLEEKAARTAMALFNVKAHSPEQRIQDLSGGNKQKVSIGKWLYGAPER
+YRLMIFVEPTEGVDIGAKREIHRHIRRLAAEGAAIIVASSDLMEVADIADRVVPFVQGQA
+APALSRAEFSESRFIAAMAGDPQ
+>tr|A0A1Q9AJI8|A0A1Q9AJI8_9RHIZ
+MSKDRNGDKSAKDTHYATLRRAHRDAKRERGEIPTPPTEARRRKAQADWKAPPVPADTVQ
+LYGLHTVRAALANPAREKIRLMVTQNALGRLEIGDAAALGIPVETVAPAALDKLLGPDAI
+HQGVLLEARPLPVRRLSALSESPLVLVLDQVTDPHNVGAILRSAVAFNAGAVITTMRHSP
+SESGVLAKSASGALELIPYIQAGNLADALGELHEIGFQSFGLDSEGPLVLEETLAGDKVA
+LVLGAEGKGLRQKTRETVTALARLDMPGAIKSLNVSNAAAIALYAARRHLQG
+>tr|A0A1Q9AD61|A0A1Q9AD61_9RHIZ
+MTPKARLLSLLSAAAIAAPLATAMAQDTITGDTVGPADAANTLTFRMTTDGPRNNDPALA
+AKYGKLFNDFIANHKGWKIELQMMSGDIGQEQARMLEQAKSGNAPDCAAVDSFVLPLFKK
+AGVLKSFSPYFKKEEIDQLFPFVREGVTGKDGQIYAWWWSTDLRVLYRNKEIIKDGPQTW
+DETKKAALASVEQGMEGILFNGGRYEGTTFDWLANYWGEGGKLVDDAGKPIFGEGENRAK
+FVKAVAYYRDLVESGAAPKRVATIGNYDDFNAAAAAGTTALFVGGNWQLSQLKGALEPEE
+FAKWTFSPLPGATKDERSTGTGGWTVASFAKTDDKVAMCANLAREIYMGPANEIQEQLPT
+RADFYSKYPIFSNETNKAFGEALKVGQARPGAPVYPEISNQIQIMMGKVLTGTEATEAAV
+DEAYKASLAAFERL
+>tr|A0A1Q9ADI7|A0A1Q9ADI7_9RHIZ
+MAMTATAAPGERVARRRNAAFAWTLPALVLILLFFVTPVLGLMLRSVTEPTLGLQNYAEL
+IGTGTYARIFANTFLVAGVVTALSVVIGYPVAWALAVLPRPWGQLVFAIIILSMWTNLLA
+RTYAWMVLLQRTGVINKTLIGLGVIDKPLALVNNLVGVTIGMTYIMLPFVILPLVGVIRA
+IDPAILRAGALCGANSWQCFTRILLPLSLPGVAAGALMVFVMALGYYVTPALLGGTANMM
+LAEMVAQFVQSLVNWGMGGAAAFVLLVVTLALYAAQLRFFGTRRIG
+>tr|A0A1Q9ALL2|A0A1Q9ALL2_9RHIZ
+MPHAERGMVVGLFGGSFNPPHDGHQLVADIALRRLRLQQLWWMVTPGNPLKSRSDLAPLS
+ERIGLSEALVHDPRIKVTAFEASFPASFTAQTIARIRARNPAVRFVWIMGADNLVSFDRW
+QRWREIVGSVPIAVIDRPGATLGYLSSKMARTFDYARVDEEDAATLAFRRAPAWTFIHGP
+RSPLSSTALRAARKS
+>tr|A0A1Q9AFL9|A0A1Q9AFL9_9RHIZ
+MRSLLASNGGNFAITAALLLPVAFGAGGVAIDVTNMARARTHLQDAADAASLAASSGLAN
+KTMTVDEAKLAARDFFKTQMRNWFRSSQTEEQVAGETLAQDLDVNVSEEAIPGNGTRYTV
+TIASTMPVKINGLTRLIGASDAMVHARSVSKGSTVTKNALSMFLVLDQSGSMGEPTDQRD
+PAANCADGNKAAKCYLSKMASLKLAVADLFGQLNNNDANKAYVRTGAVSYSTAMMEPSAL
+DWGTSAAMTYTNALAPKGNTDSSGAFAAAYQALGAHSENEAHQNRTGLTPKKFIVFMTDG
+ENNYYNKKKDTSGASDNATLNSCSQAKKDGMEVYTVAFKAPDAGKKLLSACATDSAHFFA
+AENAASLIAAFKTIGMNAASLSVRLTQ
+>tr|A0A1Q9AC63|A0A1Q9AC63_9RHIZ
+MGWKIIRSRILHGAGITLMKKFTRMPRIRHAARREGSGLGRSDLHAGARAGATIPQLISA
+>tr|A0A1Q9ACL8|A0A1Q9ACL8_9RHIZ
+MASKRPDKQKIEPSFAQDRAQDDSRLDMVAGERLSAGGKTGAAKGPSGAKSAAPRAAPAG
+KQQKPQKPSRRRAAQRGGFAPLAWLRALVYWTVVAGIWGGIAVVALVVYFGLRMPSANSW
+AIPERPANVKILDLAGDVVANRGTTGGEALALQDMSPFIPQAVMAIEDKRFYSHFGVDPL
+GLARAFVTNLTSGRMVQGGSTLTQQLAKNLFLSPERTLERKVQEVLLALWLEQTYTKDQI
+LTLYLNRMFFGSNAYGVEAASWRYFNKSARDVNLGEAATLAGLLKAPSRLSPARDPDAAE
+ARAQVVLGTMREQGLITDEEVKTAMSQPPAKARSFWSGAQYYAADLVMDELTKLIGPIKE
+DVVVETTLDSTLEKAADKALNDVLKKEGGKLGASQAALVSVDGTGAIRAIVGGRDYAESQ
+FDRAVKAKRQPGSAFKPFVYATAMEAGSTPVSTIVDGPVRIGKWTPENYDQKYRGPVTLA
+YALANSLNTVAAQLVMQVGPSNVIQLAHRLGIESELQNNASIALGTSEVSLLELTSAYAP
+FMNGGFKATPHIIRRVTSTDGKVLYENSYDSPPRVLDPAVVAEMNQMMLGVVQHGSGKNA
+QIKGWQVAGKTGTTQSFRDALFVGFTADLTTGVWFGNDDGKSMKKVTGAGLPAKAWAEFM
+TVAHRGLTPRPLFGTDAVTPMLDPGAGQPVAAVPDGAVSPGGPVSGETVSGIPGADGMPD
+PQAGSAGSGAPRGDGWGGFDPSGPVPPADVGGAPPPAPRRNTLLDFLTGG
+>tr|A0A1Q9AC52|A0A1Q9AC52_9RHIZ
+MAWSAAQYLRFEDERTRPARDLLAQVPLETARHIVDLGCGPGNSTELLVERFGLAAVSGL
+DGDADMLAAARRRLPETPFVQADLAQWAPAPETDLLYANAVFQWLPGHLDILARLLEALP
+SGGVLAVQMPDNLDEPSHRMMEEAAKAGPWAERCRGLQRPPLPAAETYYDRLSPLTRRLD
+LWHTIYQHPMTDAAAIVEWVKGTGLRPYLQAAGEHHSQAFLKDYAARIDAAYPLRSDGRR
+LLRFPRFFLVATRA
+>tr|A0A1Q9AGN7|A0A1Q9AGN7_9RHIZ
+MAFDEMMTADNEPRLPYKTYNSWFESQDRSRLIAKSKEAENIFRKTGITFAVYGHADSSE
+KLIPFDLIPRIIAASEWRRLAQGIEQRVIALNAFLDDIYHKQEIIKAGRLPRELIERNDA
+FLPQMVGMRPPGGVYTHIVGTDIVRTGEDQFYVLEDNARTPSGVSYMLENRETMMQMFPD
+LFHENRVQPVENYPYLLRQSLASLAPPGCQGKPRIAVLTPGIFNSAYYEHAFLADQMGVE
+LVEGSDLRVIDGRVKMRTTRGWTQIDVLYRRVDDDFLDPLTFKPESVLGVPGIMDVYRAG
+NITIANAPGTGICDDKAIYSYMPEIVEFYTGRKALLENVPTWRCSEPDSLKYVMENLADL
+VIKEVHGSGGYGMLVGPTATRKERALFAEKLKARPGNYIAQPTLSLSTVPILVNKGIAPR
+HVDLRPYVLVSDKVQIIPGGLTRVALKAGSLVVNSSQGGGTKDTWVLED
+>tr|A0A1Q9AIF6|A0A1Q9AIF6_9RHIZ
+MSQSLNGKVAAITGAASGIGLECARSLVAAGATVVLIDRAEDRLKTLCAEIGERAKPLVV
+DLLNGPEVSGMLPRILDIAGGLDIFHANAGAYVGGPVAEGDPDAWDRMLNLNINAAFRSV
+HAVLPHMIAQKAGDILFTSSIAGVVPVIWEPIYTASKFAVQAFVHSTRRQVSQHGVRVGA
+VLPGPVVTALLDDWPKEKMDEALANGSLMQPKEVADAVLFMLTRPRNVTIRDLVIVPNSV
+DL
+>tr|A0A1Q9AIZ7|A0A1Q9AIZ7_9RHIZ
+MAGDNATGHADNAKAGGFAGFDPASLQAYMVKDPEALTVNFARAIEKAGQAASAWLQPRE
+AGEKVDHLADPMTDMVKTLSKVCEYWMSDPRRTLEAQTHLMTGMMGLWMRSMQRLNGEET
+EDPASGRPDAKRFADPEWAKNPFFDFLRQAYAVGAGWAERMVENAEGLDPHVRHKAIFYT
+RQMASALSPANFVTTNPALYRETVASNGANLVRGMAMMAEDILAGRGELRLRQTDTSKFT
+VGENIAVTPGKVIAQNDICQILQYDPQTETVLKRPLLICPPWINKFYVLDLNPQKSFIRW
+AVEQGHTVFVISWVNPDERHADKDWAAYAQDGVGFALDMIRQSCGEEEVNAIGYCVGGTL
+LSAALALQAREGDRRIRSATLFTTQVDFTHAGDLKVFVDEEQIQGLEERMKARGFLEGSQ
+MAMAFNMLRASELIWPYFVNTYLKGEEPSAFDLLYWNSDSTRMPAANHSFYLRNCYLENR
+LSRGEMVLEGAPVSLKDVTIPIYNLATREDHIAPPQSVFLGSSCFGGEVTYVLTGSGHIA
+GVVNPPDKRKYQFWTGGAPEGSYEDWLDKAEEHPGSWWPHWHAWIEKLDDTRVPARKPGG
+TLNTIEEAPGSYVRVRA
+>tr|A0A1Q9AED9|A0A1Q9AED9_9RHIZ
+MLTAVLTWFSTTIGKTVAKWMWFAAVAAAVYWKIHADGAAAERSKRIADDIAAQKDRETI
+DDKVRQMDNAAFDRELSRWVRHDG
+>tr|A0A1Q9AEE5|A0A1Q9AEE5_9RHIZ
+MTRESGILADGAIADLFAAGRLVSEAPLDEGQIQPASLDLRLGSIAFRVRASFMPGPSHL
+VADKLDRLKLHVIDLTQGAVLETGCVYIVPLMESLDLPEGLSASANPKSSTGRLDIFTRV
+ITDRAQEFDKVPSGYRGPLYLEISPRTFPIIVRRGSRLSQIRFRQGLALLSEAELMTLHA
+GETLVTSERPNISGGGVALSIDLRGTGEDGLIGYRGKRHTAVVDVDRKGQHGVYDFWEPL
+YSRGREDLILDPNEFYILVSREAVHVPPDYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAS
+AGGSGSRAVLEVRSHEVPFILEHGQIIGRLVYEHMLKRPDSLYGSGLGSHYQAQGLKLSK
+HFRSEG
+>tr|A0A1Q9AEJ3|A0A1Q9AEJ3_9RHIZ
+MIENKKKPNPIDIHVGSRIRLRRTMLGMSQEKLGESLGITFQQIQKYEKGTNRVGASRLQ
+NISSILNVPVSFFFEDAPGESNAASPSGMAEAASSNYVVDFLSSSEGLQLNRAFVKIADP
+KVRRKLVDLVKALASESDGE
+>tr|A0A1Q9APA7|A0A1Q9APA7_9RHIZ
+MRLFECGTLVPGCDWHTRADNDAEVVRRAVDHLRQTHGEAMIRETMVNNIKARIRDAAVE
+PAA
+>tr|A0A1Q9ACG0|A0A1Q9ACG0_9RHIZ
+MSPPGARAQRAWGSGRLSTKAGQGRTRLETFYQEGCAKLRLPEMFDGTMEAVLINSSGGL
+TGGDRMEWRFAAGPQTQLTLTTQACERIYKASAGTAEIDTRLTVGEGARLDWLPQETILF
+DRAALARSLEVDLAEDATFLAVEAVLLGRKAMGETVRTGAFRDRWRIRREGRLLHADQLA
+LEGEIAALARRQAVLGGGVAFASLVFCAAHCAHHVAPLRRLLGPAQGGVSHVTVGGQDKL
+VIRLIAEDGFSLRKTLVPMISHLRMGASLPKVWNL
+>tr|A0A1Q9AJU9|A0A1Q9AJU9_9RHIZ
+MILLDTNIISEIWKPSPDQRVIDWINTQAIETLYLSSVTVAKLRFGIAVLPEGRRRANLD
+RGLEKEILPIFDGRVLAFDLQATMAYAKLMAQAKRAGQAISTADGYIAAIAAAHNLTVAT
+RDVSPFRAAGLNVLDLWALC
+>tr|A0A1Q9AGH2|A0A1Q9AGH2_9RHIZ
+MTIIAKDIAGSSHAQPEVSAPADDHLDRNGYSPYHFFSAEEWSRFRADTPLTLKADEVKR
+LRSLNDPIDLEEVRRIYLSLSRLLSAHVESSQLLFKQRKRFLSMSGERKTPFVIGIAGSV
+AVGKSTTARILAELLKRWPSSPKVDLVTTDGFLYPNAVLKRENMMERKGFPESYDIGALL
+RFLSAIKAGEPNVEAPTYSHLTYDVLSDKVQLVDRPDILIFEGINVLQSRNLPVDGKIVP
+MVSDFFDFSIYIDAEEPLIHSWYVDRFMRLRQTAFKDPSSFFKRYADISEEEALAVAEGL
+WSRINLINLRQNILPTRPRADLILKKGPNHLIETVALRKL
+>tr|A0A1Q9AJH8|A0A1Q9AJH8_9RHIZ
+MADLAKIVEDLSSLTVLEAAELSKLLEEKWGVSAAAPVAVAAAGGAAAAAPVEEEKTEFD
+VILVEAGANKINVIKEVRAITGLGLKEAKDLVEGAPKAVKEAVSKGEAADLKKKLEDAGA
+KVDVK
+>tr|A0A1Q9ACU7|A0A1Q9ACU7_9RHIZ
+MSRNRHAPQLLPAEVAACVDRLVDEAARLHLAEDTDAPVAIAVPDVRVDGMPAGDYEIVI
+RRKPSALAERLEGLNNPWMRGFEGG
+>tr|A0A1Q9AMC5|A0A1Q9AMC5_9RHIZ
+MKGTMMSDFLNGVTRRGFLGGAAGLGLTATASGLLLPGAARAQEPKRGGTLKMGLKGGAA
+TDTLDPATYSASVLFVVGRLWGDTLVESDPKTGAALPALASSWESSPDASVWTFKIRKDV
+RFHDGATMTVGDVVATLKRHADEGSKSGALGLLRSIKTIEEKAGDLVLTLAEGNADLPLI
+LTDYHLIVQPKGGVDKPTAAIGTGPYVLKSFEPGVRATFEKNKADWRSNRGFVDAAEITV
+MNDATARIAALSSGQVHFINTIDPKTVPLLKRAPRVEILRSQGKGFYCFLMHCDTAPFDN
+KDLRLALKYAIDRQQILDRVLGGFGTLGNDYPVNGNYALAPEGIEQRAYDPDKAAFHFKK
+SGHSGPILLRTSDAAFPGAVDAAVLFQESAKKAGIALDIRREPEDGYWTNVWNVQPFSAS
+YWGGRPTQDSRYSTSYLSTAEWNDTHFKRPEFDRMLLQARSELDEAKRKALYHDMALMVR
+DDGGLILPVFNDYIMAASSKLKGFVDDIGNDLSNGYIGSRFWFDS
+>tr|A0A1Q9ACA3|A0A1Q9ACA3_9RHIZ
+MSDLSSLPVAFDWQHPLSAILTSDVRAVDHLEILARPSIARVIAAAGESVAVAAILGGMA
+GVRAAGPQEWIVLDDDPQAALPARLAERLGSLAFVLDAGDGEVCLRLSGPHCRRILAKGV
+GLDLHPDVFGLGDGGFVLCHAIRMHLSRTGDNLFEILAPRSYATSLLDALKRMGREFDLS
+VGLSG
+>tr|A0A1Q9ADK2|A0A1Q9ADK2_9RHIZ
+MTSTRIGADIIAADHERRGAALKTDYQALGEKLARSGIDIESVTAKVAAFFVAVPSWGVG
+TGGTRFARFPGEGEPRGIFDKLDDCAVIQELTRATPAVSLHIPWDKADPKLLIEKAESLG
+LTFDAMNSNTFSDAADQAHSYKFGSLSHTQAAVRAQAVEHNLECIALGKAIGSKALTVWI
+GDGSNFPGQSHFTRSFERYLAAMAEIYKALPEDWRLFSEHKMYEPAFYSTVVQDWGTNYL
+IANTLGEKAFCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPY
+RLFLVFNELVDAEHRGVEAFHPAHMIDQSHNVTDPIESLMASANEIRRAYAQALLVDRAA
+LSGFQEENDALMASETLKRAYRTDVEPILAEARRRAGGAIDPLASYRASGYRARMAAERP
+KVQGGGGGIV
+>tr|A0A1Q9AIQ2|A0A1Q9AIQ2_9RHIZ
+MSDNENHHGKHEIIIVKKHGGGHDGAHGGAWKIAYADFMTAMMAFFLVMWLINASNEKTK
+KAIAAYFNPVQLTESKPAEKGIKQPAKDAKGEETMSKSEVEGEMPKTGGTAMQGTDKSAT
+SGEETQYSDADFFENPYAVLSEISRESGKEANISQKGDGGAQAGGPATGASGGEAYRDPF
+DPDFWSKQVAVQNAGNATQGAEVTKNNKQTAPGTGPAQAAGTVQMAAASPADGKPKVGDG
+AADAAKTPEQKAAEALKGELQQALSGGAAGKLAEGLIVTPTEGGLLVSISEQSDVPMFTL
+GSAVPEKVMVDAMARIGKVLAERKGAVAIRGHTDARPFKKGYDNWRLSSDRAQAAFYMLV
+RGGLDEKRITQVSGFAATRPQVPGDPMAPANRRIEILLQTDQG
+>tr|A0A1Q9AJL1|A0A1Q9AJL1_9RHIZ
+MKGSRSRQPEVTPDLLLRAYSIGLFPMADSADDPELYWVEPEIRGIIPLDRFRISQSLAK
+AIRRAPFRITVDTAFDAIVSLCAEPAPDRPSTWINDQIKSLYGTLHRRGQAHSVEAWEGE
+ELVGGLYGVSLGAAFFGESMVSRRTNASKICLAHLVERLKAQDYELLDTQFTTDHLKTFG
+AIDVPKARYQRLLESAVSKPDRGF
+>tr|A0A1Q9APZ5|A0A1Q9APZ5_9RHIZ
+MSAVETREGFLPFRDYKTWYRVTGNLQSGPLPLVVAHGGPGCTHDYVDSFKGISALDGRA
+VIHYDQLGNGKSTHLPDKGADFWTPALFLEELDALLSHLGIRDRYAFLGQSWGGMLGAEH
+AVLKPEGLKALVIANSPANMHTWVAEANRLRRDLPAEVQATLLAHEEAGTLTHPDYIAAS
+RVFYDRHVCRVTPWPEDVARTFAAMDEDNTVYRHMNGPTEFHVIGTMKDWTIEERLPQIA
+APTLLISGAYDEATPEVVRPYRERVPNIRWVLFEESSHMPHVEEKAACLKAVSDFLKEHD
+>tr|A0A1Q9ACI5|A0A1Q9ACI5_9RHIZ
+MSALRSKPLGWGRGSSSHGGSFNLIIMDDQSLGNLAVIAQRATSSSSTIVALPTAGTPLL
+SGTASRANVLTVADDQKNVPMYLATIKRITGFSWERIGTLLGCTRQTVYNWTQGEPVKLE
+NARDVAQLHETLAYIDRGSQAETVSVLEGEVAGRSVISMIVAREFSVARRLAGKGRGRPT
+ATWTQMQPQKPSGRQDHWTDRIAAVDDEDVDRSAGFVPNKVIKRTKLKTR
+>tr|A0A1Q9AI69|A0A1Q9AI69_9RHIZ
+MRTDTGETIRLEDYRPTDFVLERVDLTFELDPAETKVEARLIFHRREGVDLAAPLVLDGD
+ELSLTALHLDQNELDAALYDATDEQLVIRGLPESAPFEIMIGTVIAPESNTTLMGLYRTS
+NVYCTQCEAEGFRRITYFPDRPDVLAPYTVTIVADKAANPLLLSNGNFLGSGNYDGTRHF
+AAWFDPHPKPSYLFALVAGDLGVVEDSFTTASGREVALKIYVEHGKEPRAAYAMDALKRS
+MRWDEERFGREYDLDIFMIVAVSDFNMGAMENKGLNVFNDKYVLADPETATDQDYANIEA
+IIAHEYFHNWTGNRITCRDWFQLCLKEGLTVYRDHEFSADERSRPVKRVAEVRHLKAEQF
+PEDGGPLAHPVRPTRYREINNFYTTTVYEKGSEVTGMIATLLGREGFKAGMDLYFERHDG
+QAVTIEDFVRCFAETSGRDFTQFSLWYHQAGTPLVTASSAYDAARQSLTLTLEQMVPPTP
+GQSEKAPMHIPLRFALILPDGTVATPSEGTGTDVTGEVLHLTERQQSVTFTGLPARPIVS
+LNRGFSAPINLHLQQSAEDKALIARFDPDLFARWQALTDLALADLVAATAAVKGGTAHTV
+SPLVVEALLSAIGDDALEPAFRAQILALPSESDIAREIGKSNDPDAIWTARLGVLHAIAE
+AGRATFEKLVAEMATDGPFSPDAASAGRRALRNIALTYLAHAEQSPLRAKAAFDAADNMT
+DRAHALALLAHVFPDAGETLVALQAFRTRFADNPLVLDKWFSIQAAAPGHGALERIKALM
+GDPSFNPLNPNRVRALVGAFAFGNPTGFNRPDGESYRFLADQVLEIDRRNPQLAARLLTA
+MRSWRSLEEGRAAAAQAALARIKEAPGLSADVSDIVERTLKG
+>tr|A0A1Q9AK06|A0A1Q9AK06_9RHIZ
+MAGSAFFRVRRDSDGLAAMLMLAPAALLFGLFVLWPFFRGLWLSLTRWDGFSAPIFIGAG
+NYLKLFRDGLFLGALENNAIFVVLILIFKNALGLGLAILLDRALFLRGPIRAAVFIPVTL
+SFAATGLLWSWIYNPIFGLLNAALDLFGLSGLKQSWLGDADIALYSIVVVDIWKWLGFHA
+VIYLAGLQTIPHELYEAAKIDGAGAWTRFRHVTLPMMMPVVLINVILGLSGAFVRNFDIV
+QVLTQGGPNHATEVVMTLMVKTAFQDGNMGYASAMGYALFLIVALTCVLLLGLMRRTKVA
+L
+>tr|A0A1Q9AKQ7|A0A1Q9AKQ7_9RHIZ
+MRTTKLAYSIPNLLTYGRILAVPLIVLCFFVEGKLSSPNFARWMALALFAVASITDFFDG
+YLARIWNQTSNIGRMLDPIADKLLVASVLLLVAADGTIAGWSIWAAIIILCREILVSGLR
+EYLAALKVSVPVTRIAKWKTTLQMLAIAFLLAGPAGDTVLPYDAANSALLPNTTQIGIIL
+LWVAAAITLYTGYDYFRAGLKHVVDE
+>tr|A0A1Q9ALX2|A0A1Q9ALX2_9RHIZ
+MKTSIKTQILIPTLSMMAVGLVVVGGFAAFSRADMQTDMFQKKVDLTAQLVLSGSANAMW
+QFDSGMAKETLAPATSDPDFRAGVIFDDKGTPFYSIGDAAIIDALAKSDEKGLDGSFVIK
+SIPLNRTEEGKLMTIGRMAIVFDTSTAAASSWSSMLAMGQLAGGVLLASCFALFMLLGRL
+ARPIALLSQVMRRMSEGDFNTDVPGVERRDELGDMANAVGVLRDNSLKALALEGETGEMR
+AREESNRRTEQQRIEREATQLRQATDLLGTSLAKLAIGDLTCRIDTVLAPEYEPIRVNFN
+AAVDQLSEAMNSVMASVRNIDLGTDELASGADSLSKRTEQQAAALEETAAALDQITANVS
+NSSRRTDEARIVSNRANGAAVHSTEVVSRAEDAMQRIEKSSQQISNIIGVIDEIAFQTNL
+LALNAGVEAARAGDAGKGFAVVAQEVRELAQRSAQAAKEIKALINTSANEVGSGVQLVRE
+TGDALKEISKDIAEINLHVDAIALSAREQATGLGEINTAINQMDQSTQQNAAMVEESSAA
+SSTLAAEATKLRELVSGFVIDQQVGALLETGLRMTRAVNSIESSKMMPAIHRTRRNATDG
+SWEEF
+>tr|A0A1Q9AQB3|A0A1Q9AQB3_9RHIZ
+MALLKPAQSRLFLTPLTGFLMLFLGFPALVNLVYSVSSVSFETLRNPQITGFGNYALVLA
+DGEFWRSVSFSGRFALVTALAECLIGLFLALFLAPLLRAHSVLMAPLMLPLMVAPAMIGL
+MYRLVLHEFAGPVPYYLFLWLGDSPAFLSVENAFTALAVVEILQWTPFAFLLFYMAYSGI
+SPDIREAAALDGAPWYRVLLWIDLPLMRPTLAIAFFIRFIDGFRVFDNVYALTGSGAGGS
+TTSLSIYIYQAFFKQGAIGKAVAASVLLFLASLAVLTLINLMAGTRRRA
+>tr|A0A1Q9ANB0|A0A1Q9ANB0_9RHIZ
+MPEILLPYTDVEMTEEVNRIPNTYGLLNALNIAPSERKGSRYVRIGYRDGQIYVLAQAPR
+GAPGDVGPNDSENSIILEIPHFPHIDFIAPDDIDGLLEIVNGQVTPASLDRELGRKLAKI
+RVKHAITREYIRLGMLKGLIKDGKGRTLYDLYDVFGISKKVVDLQLGTATNLMDKCEEIR
+DHVQTNLKGETSDGIEVITSPTLFSRLVSHPNAEKFWLNAQNANYQSQIGRSNLGNNWGR
+LFLFGDILWREYKGSLPVKTASGEIVSEPNVAAGKGHAYPTGTQNTMRTYDGPAFHIDLV
+NRPIEGEEPILITTKQLDHGAGYEIKSQSNFLAVNKRPETQVEIITSN
+>tr|A0A1Q9AM09|A0A1Q9AM09_9RHIZ
+MILYGTNPIAWSNDDDQTIGAHLSLDDCLSDCRKIGFDGIEKGHKMPNEGTALKAELGAY
+DLRFAGGWHSTNLLLNDLETEIAALQSFIDMTKAAGGDHINACECSNTVHGSDGTPVNDR
+PILTDAQWTRFSEGYEVLSRHAASQNVRMGYHHHMGTIIESAADIDRFMAMAGPHTRLLL
+DTGHCTFGGADPAEVADKYMDRVTHIHAKNIRADIMRQVREENLSFLEGVRRGVFTVPGD
+PEGCVDFAPVLKIAAESGYSGWLVIEAEQDSAVREPFHYQDMGLKALRAMAREVGLDRSA
+GAA
+>tr|A0A1Q9AFS0|A0A1Q9AFS0_9RHIZ
+MIEIDHLINALTTILVTIDPPGLAPIFLTLTNGLTRAERGHVARQGALIAFGILATFAIF
+GNGILNALGISIGAFRIAGGLLLFWIAFEMIFEKRNERKEKTGETATRRDHIQNIAVFPL
+ALPLIAGPGAISATVLLSSSFATGWQRLELLLVLAFSVLILYGALIVADRIDRFLGVTGR
+AILTRLLGVLLAALAVQFVVDGIRSVFLAT
+>tr|A0A1Q9AE03|A0A1Q9AE03_9RHIZ
+MPGKDATDAQRKRNREAADWILRNGDARRTEAQKRRFEAWLAADPENCRTYEAAERLMGD
+ARRAIESDPDLSTAPLNARTRTGPVLLSLLLLAGAGAGFVALDGPMRLQADLISGTGEMP
+VVTLEDGSVVQLNASSALALDFSETRRGVRLLRGQAFFQVAHDAGRPFSVEAGPTRVTAL
+GTAFDVRYGQAETDVAVTENAVIIERADGQGAPQRVTQGEQARIAEETGKAEVTPVDPLV
+ALAWRRGQIALDNVPLSFVVEEMNRHRAGRIVIAGSALAERRVSGTIAVADTDAALAFLK
+QALGIRFTRLGPLIVIRS
+>tr|A0A1Q9AD13|A0A1Q9AD13_9RHIZ
+MAGGKPSLSKLQQRADQANAARNWSEAASLYEQVLAIDPSRAALWIQLGHCRKEAGDIEG
+AREAYLEAAERAPGLSEPYFHLAHMVRHRGDLWQGFLAFHEAYKADGNAQAASELALMIG
+TTDSFDTVKADVQSVFDAADYLELNPDIAQAGVDPLLHYLMFGWKEKRSPSHIFDPWYYE
+QRYKSQIKPGELPLVHFARNRDKGFRGNLLSHERWFTPKAPSEAEWAALSPARLSSDTRA
+VVILPVYKGYDETLAAVYHALSARGDAPYSLLVINDCGPDAALNAVLSALGEKGLFDYHM
+STVNRGFVQTCNHAINELSGGLDVILLNSDAFVFPGWFERMIAHADRDPRAATITPLSNN
+ATLCSYPVRDKNNLLALECSPAALNDLAGQINAGRAVDAPTGVGFCFYMRRSVIEEIGAL
+DPVAFKLGYGEENDFCMRSLNAGYRNLIATDIFVFHVGSVSFSSTKQANFDAGQKALLEK
+HPNYPLLVQHHFKADPTRSGRRALDAARLIEAAKGATLILTHNWGGGIDTYLKDKKAEFS
+ANGRPVLLMTVQDRHFVSLFSDEGIFIPNLAGIDLRTEMPLVEALLSGLDLDLVHLNSFA
+GLSWRFHKALLSLIAGLPAKKTLVVHDYAAVSHHYQLIRPDQIYAGIPTLEDLRSWTAMT
+MEQAADPCDVDERQEAYRALFASGAVIEAPSRAAADIMAGFYPQAVIKVAPHREDWNAAK
+LPAILPRRPDGRLRIALLGAIGPHKGGDLLLSLARDARARRLPIDYSIVGYSSDDAALAA
+EGVKITGRYADNEEAMTHLASLQPDLIFIPSIWAETYCYTLSIALESGIPPVVFDLGAQS
+ERLRAAGRGTILDPRLINSPAALSDTLLALALPAKAEPKRA
+>tr|A0A1Q9AFH7|A0A1Q9AFH7_9RHIZ
+MNSFLTGLTLLVMGLVVIVLIRGLINMAKGGSGSRSNKLMQMRVLLQAIAVALIMLVLWI
+TGGGR
+>tr|A0A1Q9AG05|A0A1Q9AG05_9RHIZ
+MPPRLSTLAPVLAGLAALAGAALSSTPAAAQSDKIFFQSVNGQWSGPGEIVAGKYKGTKF
+TCDLTGTPMTGKDTGIKLDGFCRVGVFKQPMSATITQKGNSYGGSFLDGAEGKGLDIVSG
+AVTKDKAVVGITRKKLNGALIARLQDPSTMNVTISVKVDDSMIPVIGLSLSRQVDAMAVG
+AIKP
+>tr|A0A1Q9AHS7|A0A1Q9AHS7_9RHIZ
+MNSGSVAPPAWQCRAMTVAYGDFIALDGIDVGFERGRIHAVVGQNGAGKTTFARAIAGIV
+RPRQGQILVDGLEIEPGKVRAARDAGVELVHQSFALPPSFTIAEAMEFGTRKHGQLFTAS
+GLARRWTQHLAELDVTADVRSRIRDLPVETQQGVEIARALVTEADLLILDEPTAVLSPSG
+VERLFERVRRLKARGVTVILILHKIREVLAIADTVTVLRGGRLVAAGLARQALDPVALSD
+LIIGGPAAQGAEAAVGLAAGAPAEHAVARQTAAIEPIARLEDITTEGRAEAPALDHASVA
+LHAGEILGVAGVEGNGQRSLVEALCGLAKLKEGRIMMGGRDISREDLGERRKQGLRVIPF
+ERNSEGLSLSSALWENWAASRLLAGPLLSYIRPQRLRAQARAAFDRWSVRYAGPSQPAGA
+LSGGNAQKVIFSRELDGQVRLIIAAQPTRGLDIGATAFVWKALREARDTGAAVLMISSDL
+DELFDTADRLIVMLSGRVVAEFRPPYDMARVGAAMTGAVTEALSEPLTGARP
+>tr|A0A1Q9AFI4|A0A1Q9AFI4_9RHIZ
+MPVPEIFEDAAPTIDHCAQRLAEHVASVHQETGEFGVLSIVLKGIVVDGVAMGDYEVVVQ
+QTRPPQFLELEAER
+>tr|A0A1Q9AGP9|A0A1Q9AGP9_9RHIZ
+MVSSKDTGRASPLNAASDSLKINRRQFVGSAAAGLGAAALTSGAARASGATGKVDVLLIG
+GGIMSATLGVWLRELEPSWSITLLERLDGVALESSNGWNNAGTGHSALAELNYTPEKANG
+EIDISKAVEINEAFQISRQFWSWQVRNGVLKNPRSFINHTPHMSFVWGEENIAYLEKRYQ
+ALKASPLFAGMDFSTDPDAIAKWVPLMMEGRDPSQKIAATWTPLGTDMEFGEITRQFVAS
+LQSQPKFDLKLNAEVDDISRNADGSWRVTHRNTKDGREESIDANFLFIGAGGGAIHLLQK
+SGIPEADDYAGFPVGGSFLINENPDITMRHLAKAYGKASVGSPPMSVPHLDTRVLGGKRV
+ILFGPFATFSTKFLKEGSYFDLLTSTTTSNAWPMMSVGIDEYPLVEYLAGQLMMSDEDRY
+QALREYFPNAKKDEWRLWQAGQRVQIIKRDKDKGGVLKLGTEIVAAKDGSIAALLGASPG
+ASTAAPIMLKVLEKVFAAKVKTPEWQAKIRQIVPSYGTQLNDDPSKVQAEWAYTSEHLQL
+PTPPQITLAAVTPASQPVVQTASDAAKPVHDFAP
+>tr|A0A1Q9ALN1|A0A1Q9ALN1_9RHIZ
+MREQLASYRQSIDNIDAALVHMLAERFRCTKAVGVLKARHTLPPADPAREEYQIARLRRL
+AKDANLDPDFAEKFLNFIIKEVIRHHEDIAADLKV
+>tr|A0A1Q9AHE0|A0A1Q9AHE0_9RHIZ
+MCPRRARGASRQSLETDREAKTGGIRGTGMKKAVRGKVVHVRLSEDEFLALQAFSAKAGC
+SVSAVLRSLSQQAVGLGETRGRNSEIAIKSYIGELTAIRLLLEAIACDLQGPEEPRFDVL
+IDSMSRLALLLSDHASDVEAMCDASRHRNREGVAGDV
+>tr|A0A1Q9AD45|A0A1Q9AD45_9RHIZ
+METSADRVTSADRATSPDLEAALVLWRFGLGPQAGSLAALGRAARDLLKEEIAERAVPVP
+VGPRLQSSAALLEALRLYSEAVKAERERAPGSPGAAAAMAPPGQGAPASARPVQPASVDP
+AKMPPPVPVPAAGMAEGMSAQKQPATAPAPQMAAQPASKRRYLPQEILIAEAEARFSGTI
+HAPLIGFGERLVQFWANHFAVATGKGGEVHILAGAFEREAIRPHVFGRFEEMLQAVESHP
+AMLAFLDNQQSVGPQSPVGLKGKQGLNENLAREILELHTLGVAGGYSQGDVTALARIITG
+WTVARGEKQPDTVRGRFLFRAEAHEPGDQTVMGLTYAAGGVEQGRAALADLARHPATAHH
+LALKLARHFIADDPPPALTDRLAAAYTRSRGDLSAVYLALVEAPEAWNPALTKIRPPLDY
+VSLLLRTTGLKPKPEQVLQVMKALGQPLWDPSGPNGFSDKSENWASAEGLATRLDAASLF
+AGQALGQSGGQSGGQPGGDLDPRSFLADRLGPLLSPETLKTVSRAETRAQGLTLAFLSPE
+FQRR
+>tr|A0A1Q9AHE1|A0A1Q9AHE1_9RHIZ
+MMLMFRRPARMQCAALCYRLQKKTGKPEMLVITSRDTGRWVIPKGWPMEGKSSAQAAERE
+AYEEAGVKGVLSETMAGAYMYEKGMNGGLKVPCRVQVYPLLVTNMLKNFPERGSRRLEWV
+SFEEAAARVAEPGLKALIEQFGHELVQLERAGTSLSA
+>tr|A0A1Q9AQI3|A0A1Q9AQI3_9RHIZ
+MAQATPLPFDNSYAALPDRFFARVLPTPVEAPVVIAFNKALAAELGLDAEALAREAGAVF
+SGNRVPEGAAPLAMAYAGHQFGNFVPQLGDGRAILLGEVVDGKGRRRDIQLKGAGPTPFS
+RRGDGRAALGPVMREYLVSEAMHALGIPATRALAAVVTGEPVYRETVLPGAVLTRVAASH
+LRVGTFQFFAARDDREGLQRLTDYAIARHDPDLQQVEIPALALIERVAGRQADLIARWLG
+VGFIHGVMNTDNFSISGETLDFGPCAFLDTYDPRKVFSSIDRGGRYAYASQPGIAQWNLA
+RLAECLLPLIDADGDKAVEKASAVINAFPARFQAAWLATMRAKLGLTTQEDGDLDLIQAF
+LALLHEGEADYTLAFRALADAVTGDAAALAERFRQPVALSGWLEAWRARLAREPGDLAAR
+SAAMRKVNPLFIPRNHRIEQAIASAQEDGDFSLFEALQKALSRPYDDQPEHAPLAEAPRE
+EERVRRTFCGT
+>tr|A0A1Q9ALW7|A0A1Q9ALW7_9RHIZ
+MPLIKLHIHKDSRTTEEVGTLLDTVHAVMLAAFGVPERDRYQILFEHDATHFVAQDTELG
+FVRSDSFVMIEVVSRPRSREQKIDFYRRLASRLKGDCGVDPADLMISIVENNDEDWSFGD
+GVAQFVAGSL
+>tr|A0A1Q9AD97|A0A1Q9AD97_9RHIZ
+MTQRCMLLTGASRGIGHATVKLFQEKGWRLFTVSRQPVSDECPWPMARESHIQADLADLA
+GIDRLVATLRERLPGGALHALVNNAGISPKGPGGSRLGVAVSDAETWTRVLNVNLVSTAL
+LARALLPELETAQGSIVNVTSIAGSRVHPFAGVAYAASKAGLAALTRELAHEFGPRGVRA
+NAIAPGEIATSILSPGTDDLVEAEVPLKRLGTPEEVADIIHFLCSERSAYINGAEIHING
+GQHV
+>tr|A0A1Q9AEE2|A0A1Q9AEE2_9RHIZ
+MMKFALLANVAAISLFAGSAFAADAIVAASPEPMSYVRVCDAFGKGYFYIPGTETCLKVG
+GYVRFDSINGESPFDGINRGWAPHTRATLRFDAASDTEYGELHGFMEHRYDVQNGDSKFT
+LISTYIELGGFRAGYSDSRFDKWLDSAGNVVNDDVIDYSPPRTNQISYVYKGANGFSALV
+GLEEGNGSYKTGDAAEPTGYYRANDWPHTLAGLKLKQDWGGLSLIGGYDTEAETFAGKAR
+LDLTLTKAFSIFVMGGYQSDWDNERGPGNTRMRNFFASWNGDWAVWSGFTAKMTPKASLN
+GQVAYEEDGTFASALNVKYAVASGLSLQPELTYTKFHGLRGDGDAFGGTIRLQRDF
+>tr|A0A1Q9AK60|A0A1Q9AK60_9RHIZ
+MKTIVVCSGGLDSVTLAHRIAAEATLVGLLSFDYGQRHKKEITFAARAAERLGVPHDVID
+LSPVGRHLTGSALTDDVDVPDGHYAEETMKTTVVPNRNAIMLAVAFGLAAARGADAVAAA
+VHGGDHFIYPDCRPGFIDAFQAMQDRALEGYASVRLVTPYVTRSKADIVADGARLSVPFA
+QTWSCYKGGARHCGRCGTCVERREAFHLAGIADPTDYEDPDFWQAATSAYAAREV
+>tr|A0A1Q9AP78|A0A1Q9AP78_9RHIZ
+MSTALSALLSHWRRRPAQLALLMLGLSLATALWSGVQAINAEARASYDRAAALLGQDRLS
+TIARADGAPMAQSTFLTLARAGWQVSPVLEGSLRLEGGQRLRLLGIEPLSLPAEAQTLDL
+QPTGESGKGEGGTGENGEKGGGTGDLLAFITPPGLLYAAPETVARLQGVAGLPPLRAAPN
+LLPGMALADIGTVQRLLDRPDEISRLLILPNQPMGLLPLAQIAPELAVRQPEAGGDLARL
+TDSFHLNLTAFGFLAFAVGLFIVYAAIGLAFEQRRATFRTLRALGLSARALTAALLLELL
+VLALAAGLIGVALGYLVGAALLPGVSASLQGLYGAAVPGTLSFRPQWWASGLAIAVIGTL
+VAAAQSLWRVWRLPLLSPASPRAWARASEARLKRQAAGGLGLLLISFGIALYGHGLVAGF
+AVLGALLLGAALLLPVALALVLGLMQRRARGPVSEWFLADTRQQLPGLSLALMALLLALS
+ANIGVGTMVSSFRLTFTGWLDLRLASELYLTARNRPEAERLTAFLAGKVDAILPIWHVDG
+QLAGAPGAVYGAADHATYRDHWPLLASLPDGWDRVASGKAAMINEQLARRARLAPGDRLT
+LPEGWTVEIAGVYSDYGNPQGQAIVNSEALTAHYPEVERLRYGLRLPPAQVPALMAELEH
+RFALPPEAMIDQATVKRRSLEVFEQTFAVTAALNVLTLGVAALAMVASLTTLSAMRLPQL
+APVWAMGLTRRQLVRLELLRTLLLAALTFLAALPVGLALAFVLLAIVNVEAFGWRLPMHV
+FPTDWLWLGLSALLAALVAAAFPLRRLALTAPADLLKVFAHER
+>tr|A0A1Q9AC49|A0A1Q9AC49_9RHIZ
+MTTATAETSTADMSGEHHSFEADVSRLLHMMVHSVYSDKDVFLRELISNAADACEKLRYE
+AITTPGLNAGDGESRIRLTLDEEGRRLTLEDNGIGMSRAELIDALGTIARSGTRAFMERL
+QSGKPARAAEERESEGGKSEGDTAQLIGQFGVGFYSCFMVADRVDVISRRAGTDEAWIWS
+SDGKGSFDIRPAELSDAPARGTRITLQLMEEAKTYASRWTVERIIKAQSGHVPVPIELVE
+KPGEEPKRLTDGTALWTRSRSEISQDDYNDFYRGLSGQYDTPALTLHYRAEGRVEYTALA
+FVPTVAPFDLFDPDRKGRMKLYVKRVFITDDADILPRYLRFVRGLVDTADLPLNLSREMI
+QESPVLQVIKKGVTNRVLQALEKQLANARSDYETLWSTFGGVIKEGIYEDFERREQLLAL
+SLFKTTASGEGLRTLEDYVKDAKEGQDAIYYISGAQLDQIKASPQLEGFRARGIEVLLLT
+DSVDSFWAMNAPSFKEKSFRSITQGAADLKRFPLPDSAEGADKDVDKTAAADGFIGLAKT
+ILAQEVSDVRASDRLTESAVCLVAPEDGYDRQLEKILQGAGRLQETAKPILEVNPAHPLI
+ATLAAIGEDRAALREDAARLLLDQARVLDGDKPADPRAFAERLSRLLERALKA
+>tr|A0A1Q9APG2|A0A1Q9APG2_9RHIZ
+MSHFVLTVACQSTRGIVAAISGYLAKMGCNIVDSAQFDDLQTGRFFMRVSFLSEEGAGAA
+AIREGFMAEVASQFAMEAHLYHGSDRTKVLLMVSRFGHCLNDLLYRWKIGALPIDIVGVV
+SNHFDYQKLVVNHDIPFHHIKVTKENKPKAEAQLMDIVQATGTELVVLARYMQVLSDAMC
+RTMSGRIINIHHSFLPSFKGANPYKQAYERGVKLIGATAHYVTADLDEGPIIEQDVARIT
+HAQSAEDYVSIGRDVEAQVLARAIHAHIHHRTFINGNRTVVFPPSPGSYASERMG
+>tr|A0A1Q9ALN3|A0A1Q9ALN3_9RHIZ
+MGRRLIVALPLLVFAVLAVLFLLRLESGRNAQDIPSALIGTRAPALALAPLEGVAQPALD
+DAAIRGRLTLVNVFASWCVPCRQEHPLILGLSKDPRLQVVGINYKDQPDKARAFLDELGN
+PYAAIGTDPKGRAAIDWGVYGIPESFLVSPEGIILYKRIGPFDDEAIRKELEPAIVKALG
+GGT
+>tr|A0A1Q9AIL8|A0A1Q9AIL8_9RHIZ
+MKTTFVSSLAIQNAMRLTIQQSQTDIVATQYEMTSGQHYDLGVSLGGSTARSLDLDRELA
+RMDSLKSTNSVVTLRLSASQTALSSMATAAQTARNALTALSGSSDVTLIDNARLSVKSAL
+ANFTTAANQTSAGEFIFSGINTDAKPMIDYTTSEGAGAKAAYQNALNGFMASQTPPLTSL
+ADFSAAQMNDFISNTLEPMYLGNDWKANWSDASDQNMTSRISANEVVTSSTNINAVGARK
+FALASIIGMEMLSADMKSEARNVLSSKTISYFSEAEAGINAQRSELGVSEQRVKGANTAL
+DAQVKLMTTHKNDLDGVDTYQASLKMTSLKTQLETALTLTGRLQQLSLVNYL
+>tr|A0A1Q9ADR9|A0A1Q9ADR9_9RHIZ
+MQVRALIYFDEVVRTRSLRAAAERLNVAPTALARQIDHLEHYFGTPLLERSARGIRLTAA
+GELLAERAGRTLRELDNVRQLIDDLAGLKRGRVAIQASGAVVASLLAPALADFSTRFPGI
+RFDIAVTSARQSVEALVSAEADIAVTLFSEPHPGTKVRLKAEILYDMIASTDHPLAAQSA
+VSVADLARHPLALPDRAFGARQAFDALFAAEGLSLDPIFVTASLEMLKELTLSGVAVTLL
+PAFTVQRECRLGQLVARPVVGGKALRTPLNLAVASERQLPFAATKLLDHIDRFLRDSFAR
+PVKAT
+>tr|A0A1Q9AQJ6|A0A1Q9AQJ6_9RHIZ
+MKILIVEDEALLALELESELQSAGHEVVGHAMASDEARHLAERCRPDFAFVDIHLVDGPT
+GIDVGRHLRDQGIPYVFVTGNLKRIPEDFAGAIGAIEKPYTMNGLKNAVTFLEALVTHDG
+AIANAPPSLVVAPAFAC
+>tr|A0A1Q9ADD4|A0A1Q9ADD4_9RHIZ
+MENGFSGEVLGEADRPGTRLPSLGEIGLNNFAPYIMNRVVARWNANLAEELKTRDISTAK
+MRALAVLSVSPSLTINELSVFAVMEQSTMSRTVDALEEQGLISRTPRAGDMRVRDVAITE
+EGRALFDALWPTMYDGLKKMFNDIDDDEYRAFLTTLHKILRNIRKHDV
+>tr|A0A1Q9ANW3|A0A1Q9ANW3_9RHIZ
+MRMMRQILADRQTAGALAWVIALVLTLQGLVGQIGQSRMAAEALDPLHALCMTVGLDLAA
+PQPAAEPELATAPEDRQGAPHGKAPDCPCATLCRLAATTLALISLPPQLAAPRAPASLSA
+SRPFIPLFLRIERGLTGQPRAPPLSS
+>tr|A0A1Q9ANU1|A0A1Q9ANU1_9RHIZ
+MTADDERGGTVTRRAVMAGASATLATVGGMVAARQAAAQEPAAGTGATSGGAALRDPRTA
+YPKPPFPSQSQPFPGLASKMEPRPDHGETSYKGSGRLAGRRALITGGDSGMGRAAAIAYA
+REGADVAISYLPDEEPDAREVVELIQKAGRRALALPGDIRDEAQCRRLVEETVNTLGGLD
+ILVNNASRQQQRPALGDISSEDFDATMKTNIYAMFWMTKAALPHLKPGAAIIQTTSEQAY
+DPSENLVDYALTKAAMMNFTKSLAKQLGPKGIRVNGVAPGPIWTPLQVSGGATQEKLVSF
+GGDTPLGRPGQPAELASIYVQLAAADASYATGQIYGAAGGSGQP
+>tr|A0A1Q9AL64|A0A1Q9AL64_9RHIZ
+MVAFFTSKSQAKLDAIARSYAVIEFSLDGYILDANQGFLETMGYQLDEIRGKHHRIFVEA
+QDAASQAYAAFWAKLKRGEFDRGQYRRLGKGGREIWIEASYSPVLQGGRPVSIIKCATDI
+TARTLKSAEDAGKLTAISRAQAVIEFTPQGEVLTANENFLQTLGYELTEIVGRHHSIFCD
+PEQVGSAEYRLFWEALRAGEFVAREVRRVGKGGREVFIQASYNPIFDLSGRVIKVVKFAT
+DVTPRVKNVEMLRTALRLLSQGDLTQRLDRDFTPQLESLRLDFNEAIGRLSETMGAVGDN
+AQAIAASAEQIRVAADDLAERNDHQASSVEKTAFALSAITRSMADATRQAEEAGRMVEET
+RGYAEGSGIVVRRAIAAMGQIETSSREISNIIGVIDEIAFQTNLLALNAGVEAARAGDLG
+KGFAVVAQEVRALAQRSAEAAKEIKRLIQTSGEHVASGVALVGEAGAALDQIAAQVKDIN
+GNVAAVVEAAREQRESLGEINEAVNTLDHGTQQNAALVKQSNAASRDLAEEASGLFHQIG
+QFRTGGTASATLAETAARMRAPSSRLGSHGAPPAGLPASRSAPARSAPAQSARPATVERP
+RPAPPPRRLSSAGGAAAVAQEANWEEF
+>tr|A0A1Q9APX0|A0A1Q9APX0_9RHIZ
+MVPLALALTAFGAPAALAHPHIFAQARLEVVANDKGQVSELRNVWRFDDMFSASVLLEFD
+HNSDAKLDAKELAEVGQTVLESLGEYNYYTTIFDNGKSVKLSKPDVIHADFKDGQLLLMF
+AAKPAQPIPLKGTFSIGIYDPTMYTAMDFPTDNDLVAVGDKFKSCKHKVVRPDPDEVIAQ
+NQATLTSAFFNDPTGTNMSKLFATRIEFTC
+>tr|A0A1Q9AH65|A0A1Q9AH65_9RHIZ
+MSDNRSEDLEGRLKRLDAELSAKRGDAAHQAAQEGRAAETRKGYQVAVKLSSEFIAAIIV
+GALLGYLLDQFVGTGPWGMIILLLLGFCAGVLNVLRSAGMVASPHPADRHGGSKGP
+>tr|A0A1Q9AH79|A0A1Q9AH79_9RHIZ
+MRPFRLSTAFLSALLLSTGLAGAARADMVLSAYGGSQWAAPGTVETSDGTRFSADWKGRS
+FSAPPYYGFRGTWWLNDFGLSDFGVSLDYAHAKVYADDATFRRTPGWTTLEFTDGLNVLT
+LNGLYRFQDATRDWTPYVGLGAGINIPHVEVTRPSGRTFEYQVGGATLQAQAGVDYKITE
+HWSAFAEYKANYSFVDVDIDSGAKLKTDVFTHGINLGVSFHF
+>tr|A0A1Q9AEI3|A0A1Q9AEI3_9RHIZ
+MPRYRMTVEYDGIPYVGWQRQENGPSVQGAIEGAILRLTGETVSIRGAGRTDSGVHARGQ
+VAHADLARVWAPKKLCNALNAHLGQAGERVSVLEVMAVDDQFDARFSALRRHYLYRILCR
+RAPPALEAGRVWWVHRPLDAARMHEAAQTLVGKHDFTTFRSAHCQANSPVRTLDRLDVTR
+DGEMIEIRASAQSFLHNQIRSLAGTLKLAGEGKWSVADVRAALDACDRRACGPVAPPDGL
+YFMQVDY
+>tr|A0A1Q9APK6|A0A1Q9APK6_9RHIZ
+MAPLTSALTHSLQSLFGERYATSLALREQHGRGEAHHAAAIPDAVIFAQTTAEVSQIVRL
+CAAENVPVIAFGAGTSLEGHLSAVQGGVSIDLSRMSTVTRVSPQDLDCTVEAGVTREQLN
+THLRDMGLFFPIDPGANATLGGMAATRASGTNAVRYGTMRENVLGLTVVLPSGQIIKTGG
+RARKSSAGYDLTRLFVGSEGTLGIITEVTLRLYGLPEIISAALCSFESVEQAVAAAIQVV
+QLGIPVARMELMDRGLIRAVNAYSGLELKIEDTLAFEFHGSPAGVQEQVEMVSAIVEENG
+GRNFEWANAPEERNRLWKARHNAFYAVVSQRPNARGWSSDVCVPVSRLGDCILETRALLK
+DCSVPAAILGHVGDGNYHVVFAVDPSNAAELAEVAAINKKMVRYAISVGGTSTGEHGVGT
+GKIAYLREEHGDAVDLMMAIKQAVDPAGIMNPGKILP
+>tr|A0A1Q9AK70|A0A1Q9AK70_9RHIZ
+MTTATLDTRDDIKLTNAQIAWRAAQDIADGAYVNLGIGFPEMVAKFQPPGREAIFHTENG
+VLNFGEAPPAGEEDWDLINAGKKAITLKPGAAFFHHADSFAMVRGGHLDVAILGAYQVAE
+NGDLANWRVGSKGVPAVGGAMDLVHGAKQVVVITEHVTKDGKPKLVERCSFPLTGVGCIT
+RVYTSHAVIDIVDAKFVVREKLAAMTMDELQAMTGATLHTDGPVADLVVPAL
+>tr|A0A1Q9AJC9|A0A1Q9AJC9_9RHIZ
+MPLRPRRTRPRPESTTLPFRGLFIGAGLLACGCLAVALGASWYGGALRLAGQSEQRVPLD
+ILIGDDHLRLPANMIRFEDQRRAGMAERVDLYLAWPELEGYSAALRSRFDAPDDQGRLIF
+VQLSQSTMSRDMSGRVEPIYRHLLEGPARPGPAGLTAQTLKKTSGFGEDVLLTGTDADGA
+LYAVRCALPVAPGKTTNADCQRDVHVGRDLTMLYRFSSQLLPQWQAIDAGLRRFVSASLI
+SDMSQNDSGDALRP
+>tr|A0A1Q9AQ17|A0A1Q9AQ17_9RHIZ
+MQAEDDLTFRDTTGSDRAKDPPLFAALIDQPQDWALFLDIDGTLLELAETPEAIVVPPDL
+PDLLARISLRLGGALALVTGRSLDFASQLFPGLSLPIAGLHGAELRLADGSLQRAEATPA
+LDALKADLRARSAGWEGVLIEDKGAAVAAHYRQAPQHQQDVEAMMEAAATQIGAKWTLQR
+GKMVVELRPASASKGHAVSTFLKHPPFAGRKPLAIGDDITDEAMFRVSRSLGGRAIRVGQ
+PVTETTAEGTIASVPLLRDALRTLAEA
+>tr|A0A1Q9AGB3|A0A1Q9AGB3_9RHIZ
+MSLSDLAPRALRAGLLGLGLAGMLLASGCQVRPLYADGATGIPGTALAAIAIEPPKDRVT
+QVVRNRLIFLTSGGAGQPANPAYHLALTVKSNTEGVLYDQRSSRDTNSDMATAGRVTIMV
+DYNLTRISDGKTVASGHRTAVALVDFSVQEFAKLRAIRDGEDRAGKEVAEVIRADLAAGL
+AREPAPAVAPTKG
+>tr|A0A1Q9AIS3|A0A1Q9AIS3_9RHIZ
+MFKTALAGALTLAALSSLALSSPALADDDNAACTKEPKAKWMTTEAISAKAVAAGYKDVK
+KVKVEGTCYEVYAKTAKNERAEVVMNPMTGDVVKVETSE
+>tr|A0A1Q9AP69|A0A1Q9AP69_9RHIZ
+MSATSGHAAPRTWRRWRRKLLLRAVHAVFFLTRGMTLGVRAACFDAEGRIFLVRHGYVPG
+WHLPGGGVERGETAAQALAKELREEGNLVLGDAPRLLQVYFNRAASRRDHVLLYVCRNVT
+QTAPRKPDAEIREADFFALDALPPETTGSTRRRLAEIAGTLSPDDVW
+>tr|A0A1Q9APX6|A0A1Q9APX6_9RHIZ
+MSLTRRSLLGLMSSTLLLPLLPQAARAAGPGVDLIILSDLHSAYERMAELLLAVQARVAA
+ASRPQVILFNGDLFEAGNVAAVRSGGEADWAFLSALAKLAPVVFNLGNHEADLDNDLAHF
+VERARAAGVTVLSNIKDKRTGKPYAESGATLAAGDMTLRIAALATNALGTYPKATREMLD
+IPQPVDWARENLPVLLKAGDVNIVLSHAGVVPDRDILPMLPDGTLVVGGHDHLVFTHEAG
+NTRYVHSGSWGALLTVATIAAPGEAARIEQIAIDRGGPSAPELKAVIDAVLAKHLTAEDR
+AVVARTKRPFTLLETARFTAAAIAEKAGADVGFIGHTSFGTGLPEGDVSRFDYNAAVRFE
+GKIMKAQVDAATLAVLLARCNQEGDIPLAARTGDYLHAAPAPAAGKELYVIACNDWSAIN
+RKSYFGREDLAFTEVPDLKLKPLVIEALNKA
+>tr|A0A1Q9AD01|A0A1Q9AD01_9RHIZ
+MPTKSALNVVIVNYRTPDLTIRCVQSIIDQGVAKPEDIVVVDNRSPDNSEQRLTKELPGG
+VRFFQSGKNAGFGAGVNFGVRQTHSDYLLVLNPDTYFEFDSVSGVIDYLRTTPQVGLVGL
+DLINPDGSRQHSARRFYSFLDIAARRLPVIKTLFSSRNNRHLMLEKWKLDAPFDAEWVMG
+TGFIIRSDLYNRIGGMDESYFLYMEDVDLCARVWCEGLKVQCIPGAKLVHDHQRSSAASP
+FSFAGRAHIKSLLLFRQNFTLPLFRSPGVDKVVKSFGKGPAALHSGQSASESRS
+>tr|A0A1Q9AFQ2|A0A1Q9AFQ2_9RHIZ
+MSDILTRIEAYKRQEIAEAQVARPLAEVKAAAADQPAPRGFHAALKAKQAEGLFGLIAEI
+KKASPSKGLIRPDFDPPALARAYEAGGAACLSVLTDRPSFQGAPEFLTAARAACSLPALR
+KDFMFEPYQVYEARAWGADCILLIMASLDDDTARRLEETAMSLGMDVLIEVHDAQEMERA
+LTLASPLVGINNRNLKTFEVDIGLSTKLAPMVPEDRLLVGESGIFTHADCLTLKTAGIST
+FLVGESLMRKADVTAATRALLTGEESSAVA
+>tr|A0A1Q9ACS9|A0A1Q9ACS9_9RHIZ
+MKHLSRVALLAATLTAGLPALAQVAMAQEKPTYDTGSIPADHIMVPTKALTGNVVLISDA
+KGWSAEDETRAKALVDKGVAVIGIDLPVYLKGLKPEEGDECIYTISDIESLAHQIQRAAN
+SDSYRPPILAGIGEGGAMALAMIAQSPDATIGDAIAVDPLDSIPLTTQLCTPADKTLKDG
+RMTYGLTEGDLPAPVTVIFTPQAPKPGRDHVAALVKDHSDIATRDTTDPASDALDQAIAD
+QVAAANASEGDNPLGLPLALLPAKPAYDTMAVFYSGDGGWRDIDKEVGSELQDAGIPVVG
+VDALRYFWSKRTPEETAEDLARIIDTYRRQWKVKHVLLIGYSFGADIIPATYNLLSQQNK
+DRVSQITLLALSRAVDYEISVQGWLGVDSSDSEGDSLKDIAKINPKLIQCIYGTEEDDDP
+CVKLKSTGVEAIGIEGGHHFDEDYEALAAQVVASLKRRLGQP
+>tr|A0A1Q9AHC9|A0A1Q9AHC9_9RHIZ
+MATLHKTRERGMLDGQFLIAMPGMLDSNFARTVVFICAHSSDGAMGFVLNRSQQLTFPEV
+LLHLDIINSDQAIRLPDSTRDFQIQTGGPVETGRGFVLHSDDYLSESSIPINDEICMTAT
+LDIIRAISRGKGPTKAMLMLGYVGWGPGQLENEIAANDWLTSPPNEELIFDRTLVDKYDR
+ALALMGVAPAMLSPTAGHA
+>tr|A0A1Q9AEB0|A0A1Q9AEB0_9RHIZ
+MGEIKLSVVAPCYNEEAVLRDFHRRMSAACLAACGDSHEIVLVDDGSSDRTWPLIEELAD
+ADPHIVGVRLFRNHGHQLAVTAGLSIAKGSRVLLIDADLQDPPELLPQMMQIMDGGADVV
+YGQRASRSGETAFKLATASLFYRMLNRLSAVPIPRDTGDFRLMNRTVVDILRGMPEQHRF
+IRGMVSWIGGRQVAMPYAREPRFAGTTKYPLRKMVSFATDALTSFSTVPLQLAVWLGLMS
+AVFAFLILTYAVVQWMLGNVVPGWASSLVAISFFSGVQLVVMGVFGEYLGRVVQEVKRRP
+LFTIAAIRQAGVSTPLPADYYKMGAAEQGALLDTQLRKASC
+>tr|A0A1Q9AHV1|A0A1Q9AHV1_9RHIZ
+MDLFNNLVLGFATAATPANLLFCLIGVLLGTLIGVLPGIGATATIAMLLPITFQLEPVSS
+LIMLAGIYYGAQYGGSTTAILINMPGESSSAVTAIDGYQMARKGRAGAALAIAALGSFFA
+GTVSTFLVAIFAPPLTAVALEFGAAEYFSLMVVGLVSSIALAHGSIIKALAMVALGLLLG
+LVGTDIYTGTPRFTLGITEYADGLNFVALAVGVFGIAEILRNLEGEVSRTVLMKKVTGLM
+PTRDDFRQMVGPVLRGTGIGSALGILPGGGAILAAFASYTVEKKLSKRPEEFGHGAIAGV
+AGPESANNAGAQTSFIPLLTLGIPANPVMALMVGAMIIQGIVPGPNVATEQPALFWGIIA
+SMWIGNLLLVVLNLPLIGMWVKLLTVPYYVLFPTIMAFCAIGVYSVNGNVYDLYAVAGFG
+LAGYLLSKLRCEPAPLLLGFVLGPLLEENLRRAMILSRGDPSTFVTRPISAVLLLIALGV
+LVAVFLPSVRAKRETVFQEED
+>tr|A0A1Q9ACQ0|A0A1Q9ACQ0_9RHIZ
+MKFTLSWLKDHLETDATLDEICERLTAIGLEVEDVDDKAAFKPFLIAKVVSAEKHPQADK
+LKVLMVDTGAGQPVQVVCGAPNARAGLVGAFAAPGTHVPGLNVTLSVGTIRGVESRGMMC
+SEKELEISDDHNGIIELPEDAPVGTSFASYAGIDDPVIEINLTPNRPDCTSIHGIARDLA
+AAGLGRLKTTPAPALPLSGETPVKVTLDLDDPALCPGFALRLVKGVRNGQSPDWMRRRLT
+AIGLRPINALVDITNYMTFDQGRPLHVFDAAKVKGDLTVRRAKEGETVLALDTREYKLSP
+ANVVIADENGVESIGGIMGGEHSGCDETTTEVLIESALWDPMNIAKTGRSLGIITDARYR
+FERGVDPAYMIPGLDRATALVLELCGGSPCEAVIAGSGETAARVVDFPYSEVSRLTGLTI
+EPAQSRTILEKLGFTVEDQGARARVTVPSWRPDVEGKADLVEEVMRIHGVDRIRPVALER
+IDAVNGRILTLLQIRTRAAKRALAARGMLEAVTWSFIPKDQAELFGGGKPELSLVNPIAA
+DMSDMRPSLLPGLLTAAQRNADKGHGDVALFEVSGTYESDKPEGQRRVAGGLRRGTASLA
+GAGRSWSNGLKGGGKPIDVFDAKADALAVLEACGVPMANVQIEAGGPSWYHPGRSGTIKY
+GPKITLGYFGEFHPKVLAALDVSGALAGFEVFVDALPEPKKKATRTKPALDLSPFQAVRR
+DFAFVVDRAVEAGAILKAASTADRKLIASVNVFDVFEGGALGEGKKSVAIEVTIQPAERT
+LTDEDFEALTGRIVANVTKATGGTLRA
+>tr|A0A1Q9ADJ6|A0A1Q9ADJ6_9RHIZ
+MTVVPLHPSAKAAAEIIAAFNRKTPRSKAAAEESRRVLADKSAIGVPFSLLAKEALYPLV
+VRRAEGAHLVDLDGNRYVDILMGMGINLFGHNPSFIRQAIDAQLDKGFALGPQAELAGET
+AALFCQLTGHERVTFTNTGTEAVMTALRLARAATGRAKVAMFSGAYHGHSDQVLQRPAEA
+GSPRAIPAFSGIPAALSQDVLLLDYADPRALDLIAAEGDGLAAVLVEPVQSRNIDLQPGD
+FLHRLRALTEHTGTALIMDEVISGFRVAPGGAQAHFGITADIATYGKIAGGGLPLALIAG
+RNRFMNYIDGGPWSYGDQSVPPVQPTFFAGTYCRHPLALATARAAARHMLEAGPTLQAGL
+NAETDRLVARLNASLDAARLPAAFTAFGSFFALSATKSRIPPLALGLLSLTLLTAGIHLR
+AGDKGGFLSTAHRREDIDAIHDAFVNGLSGLAALGLIPLIDGATA
+>tr|A0A1Q9AKQ8|A0A1Q9AKQ8_9RHIZ
+MAQGYIVGLTDTHPFLEETPAGTVLATLTPIKPGDGTPIPGGTSGLGLTYEIRYQARVLA
+YYSGMGESTSEIQNGFSISGDQLVTKKVFDYETDGHSREGWLYYEVEIVARDAAGNETSS
+SYFNFDLRDVVETVKGTDKSETVAGDAGADRLFGFGGHDKLFGKQGDDILSGGLGSDMLS
+GGRGADTFLYKSRLESTTTAPDRITDFQVRVDHIDLSLIDANSRKAGSQDFTWIGSKSFT
+GHAGELRAITRDGDTFIYADVNGDRKADMTIRLDDPLKLHGYDFIL
+>tr|A0A1Q9ANG1|A0A1Q9ANG1_9RHIZ
+MTTTLTSYRREWFCNVRGDLLSGIVVALALIPEAIGFSVIAGVDPKVGLFASFAIACVSA
+FAGGRPGMISAATAATAVLMVTLVKQHGLEYLFAATLLMGVIQIAAGFLKLGRVMRFVSR
+SVITGFVNALAILIFMAQLPELIGVPPLTYVMIAAALAIIYLFPYVTKAIPSPLVAIVAL
+TAVAVFTGMDLRTVGDLGELPSTLPIFALPNVPLTLETLQIILPYSFGLAAVGLLESLMT
+AQIVDDMTDTGSSKSQECVGQGVSNIASGLIGGMGGCAMIGQSVINVTSGGRGRLSTFVA
+GAFLLVLILVLDDLVRIIPMAALTAVMIMVSIGTFSWRSILDLRRNPPSSSIVMLATVVT
+TVGTHDLAKGVLVGVLLSGVFFAGKVARLFHVRSELSADGRLRTYRVDGQLFFASTEAFI
+AAFDFAEPVPAVRIDVSAAHFWDISAVGALDKVVLKYRRHGVAVEVTGVNAASAPLLERF
+AVHDKEGQALPAGH
+>tr|A0A1Q9AFX9|A0A1Q9AFX9_9RHIZ
+MTVTHYPPPVQGAAPAAALYVGEVMHQRMRTVVRRFSYSVFSLVIDLDRLDEADRQARLF
+SVNRFNLLAFHEADHLPGDDAGLRARFDGLLAQAGLSERAARVDLVCYPRMLGWVFNPIA
+VYYAYRASGDLLAIVYEVRNTFGDRHSYVCPVMPGQVSPAGIRQEAAKRMHVSPFLGLEG
+TYHFRMTAPGESLRWRILETDAQGPILAATFSGRRQELSSRAIVSQLARIPHLTLKVLGA
+IHWQALKIWMSGVRFHSRPPPREGVSLWPRDAAARGQISPHPPVGGSADYG
+>tr|A0A1Q9AGT0|A0A1Q9AGT0_9RHIZ
+MLDTPFPVLLVDDDVDLLKATRQTLDLAGLEVTACSSAEEALAALPADFPGVVVSDIRMP
+RVDGLELFRRIQARDAELPVILMTGHGDVPMAVAALKDGAHDFIAKPFSTERLVHSVRKA
+GEARRLQLENRALRASASMVDDGMPLLGQTPAMERLRHTLRQIADTDVDVLVLGETGSGK
+EVVANLLHRWGKRARGAFVALNCGALPENVIESELFGHEAGAFTGAQKRRIGRIEHSSGG
+TLFLDEIESMPLATQVKMLRVLEMREVTPLGTNEIRPVDLRVVAATKVDLGSPSLRQSFR
+EDLYYRLNVVTLAIPPLRERRDDVPVLFGFFTERAARRFGRPVPPLSASVSRYLKTHDWP
+GNVRELSHFAERFVLGLSDLSAGLRQSDETLLTLPERVERFEADIIRATLAEHGGDVRRT
+IEALGIPRKTFYDKLQRHGIVRGDFEEGARSV
+>tr|A0A1Q9AMI2|A0A1Q9AMI2_9RHIZ
+MSDGLFAGMPVLEPGHVWLVGAGPGDPGLLTLHALNALRQADVIVHDALVDSACLAHARP
+DARLEFAGKRGGKPSPKQRDISLRLVELASAGLRVLRLKGGDPFVFGRGGEEALTLVEHD
+IPFRVVPGVSAGIGGLAYAGIPVTHRDMTQAVTFLTGHDAHGIVPAQIDWQGVARGSPVI
+VMYMAMKHLDRIAAELLKAGRRPEEPVAVVCHASTAQQRVLETTLAAAAEAATAAGLEPP
+AIVVLGEVVRLRGALDWLGALSGRVLSAEGFTQTTGSSRA
+>tr|A0A1Q9AJF2|A0A1Q9AJF2_9RHIZ
+MLDWNFLRMPAANGHGAAGHGLAKPQPAKAKAKIALALGGGAARGWAHIGVLRALDEEKI
+EIGMIAGTSIGALVGGCYLAGKLDELESFARSLTMRRIASMLDFAIGGGGLFGGLRLTKR
+MQEHMADLTIESLGRPFVAVACEIQTGHEVWIAEGSLITAIRASYALPGIFEPVKCANRT
+LVDGAIVNPVPVSVCRAYEQPLVVAVNLNYDLYGRSAVVKLKASQPPAAALSPGTEAVSR
+LGVTSVMVQAFNIIQDRISRARLAGDPPDLSLHPRLNDIGLSEFHRAGEAIERGYTEARA
+RIADLKRLQDVVLR
+>tr|A0A1Q9AK94|A0A1Q9AK94_9RHIZ
+MSLFFILSGPNLNLIGQRQPEIYGRDTLADVEARCGALAQAAGHTIFFAQSNREYELIDW
+IHEARTKAAGIVINPGAFTHTSVAILDALHAFDGPVIEVHISNIHKREAFRHHSYVSMRA
+EGVIAGLGVEGYELALGHLIRRSGR
+>tr|A0A1Q9AQ47|A0A1Q9AQ47_9RHIZ
+MAEAYPKIVENQPEPPAQEAARPSTGRRPARQRRRPGRLIAGLVILALIGVGGAYGLQRY
+RSLEKTEAVVTQAVARGDIENSVTATGLLTPIRDVDVGAQVSGQLKSVRVEIGDQVKEGD
+LVAEIDSASIETQIEIAEAEIANLAAQMLDKRAQVVLAKANLARQQTLVAGNTAARSALD
+EAVAALATAEANVAALEAQTRKQQASLKDARISLGHTKIFSPLSGTVVDIAAKEGQTLNA
+NQSTPTIATVADLSTMTVEAEVSEADIGKLTPGMEAYFTLLGQPGKRYEGRLRQIKPTPQ
+TENNVILYYALFDVPNPEGRLMMNMTAQVFFVRDHVENVLTVPVAALKGKPDGGEARVTV
+VKPDGSREMREVTVGVRNRVVAEIKSGLAEGETVVVGTGTGGASPASARGNGGRRGMPPP
+PF
+>tr|A0A1Q9AIV3|A0A1Q9AIV3_9RHIZ
+MLSMTEASARHVPPRQPARSRRIVIIGGGFTGAALARRLALSEADLQITVFEPRARLGAG
+LAYDTRDPALRLNVAAARMKAFPEDTLAFERFLQRTGRLATDGPAEAGGAIYARRSDFGD
+FMHDALAPLIASGRIVHHREAVTGVHRQNGGYRILGDKGTALSADLLVIATSHPLPCCPQ
+AAMALAGDPRVIANPFETDHLNRIGREDPVLVLGAGLTAVDLLASLRARGHTGVVTLLSR
+SGALPQPHADRQLTTTIAAPAQAASLRGWLKAVRSAVERAEAEGLPWQSVFDALRQQSQA
+IWQGLPLSERKRFLRHLRRRFEARRYRMPPQIAALLDSDMAAGRVRSIAARVTAAEATRD
+GLLLTLRQAGGTARIETPWLAIATGPDHCGIIAQHAYLRQMADQGLIRADGLGLGLACNG
+ASRAIGADGAPVETLFIAGPLARATFGELSGVPEIAAQMDAIARTLLAEQPLHSADRAQP
+VLS
+>tr|A0A1Q9AC99|A0A1Q9AC99_9RHIZ
+MAFPKISSSKQTPCEACPLRKMPTFRDFTLEELDFVSSFKTGELTLNAGTTVLSEGAQSA
+HLFTVLSGWAFRYKMLDDGRRQILNYAMPGDLVGLQATLMAEMQHSVEALSSLTLCVFER
+ERLGHLYRDQPDLAFDITWIAAQEERILDEHLLSIGRRTAMERAAYLLAFLTQRGRASGL
+FRDDPTVVPLTQQHVADTLGLSIVHTNKTLKKLAERGLLRWGERGCEILDEEGLLKAAGW
+EGMPESKRRFI
+>tr|A0A1Q9AIB5|A0A1Q9AIB5_9RHIZ
+MAVGLFPSLAEAASGYSTANVNMRSGPSTRYPAVTVIPAGASVEIHGCLAEVPWCDVSFR
+YGRGWVAGRYLQTIYRERRVYLAPEYYRPLGIPTVTFDVDTYWTRNYRSRDFYRERDYWR
+EWRGGWRDDRPLPPRPRWEPDRPRWEADRPRWEQDRPRREPDRQNWERDRQQNWERDREN
+RERDRMNRERDRENRELDQRNRDLDRQNRERDRQNFERDNRQREWDNHQRDRDQRGGDQR
+ERDYRGEREMRDRDRQNWEGNPERDGAERARIRRPENGACMPGDPACAR
+>tr|A0A1Q9AQV1|A0A1Q9AQV1_9RHIZ
+MSTQLTPQMQAQLDQLRDIHLPQPIGWWPLAPGWWALIALVCAFLVAALVWTWMRRRSAR
+FLALRELEAISPERQDEFLTQISSLLRRVARRRSAGADVLTGAAWSAFLMEGKYGMSGTS
+AALLATGPYGPPANENFEPEALRAETATWIRRHG
+>tr|A0A1Q9AEI2|A0A1Q9AEI2_9RHIZ
+MALRIVFMGTPAFSVATLEALVRAGHEIVAVYSQPPRPAGRRGLDLTPSPVHQAAETLGL
+PVRTPLNFKAEEDRAAFRALDADVAVVVAYGLLLPEAILSGTRLGAYNGHASLLPRWRGA
+APIQRAIMAGDRETGMMVMQMEKGLDTGPVALTARVPIDDATTYGLLHDLLMTTGAELMV
+EAMARLEAGDLPLTPQSEAGVLYAAKIAKEETRISFARPAEEVLRHIHGLSPSPGAWFEV
+EAGGKRERVKVLACELETAGGETGTALFDDLTIACSEGSVRLTRLQRAGGKVLDAEDFRR
+GLPIPAGTRVF
+>tr|A0A1Q9ALB1|A0A1Q9ALB1_9RHIZ
+MTILTMLSLFIAGFLSGAVNAIAGGGTFLTFGAMTLAGLPPIVANATSSIVQFPGYVTSA
+HAYRRELWQDRRLVLLLGLLSTVGSLIGALILLSLSNPSFRALVPWLLIAATAVFAFGPL
+LRPKARAEGAPLGLVGLVLQFVTAIYGGFFGAGMGIMMLAVMTLTVGGGYHRANALKNML
+AMVIAAVAIVVFASGDVVAWPQAAVMVPGCALGGYAGVWLARRVPQGMLRALVIACGLGL
+SVYYFVTG
+>tr|A0A1Q9ACB2|A0A1Q9ACB2_9RHIZ
+MIGLDTNLLVRYILDDDPHWSPIVTRFLDDNLSPERPGYINPVTLAELVWVLRRQPGYDR
+ARLADVIDGLLVSDSLILGEADAVARALSGFRAGTAGFADHLIAELNQAAGAVRTVTLDR
+AAAKNPPFVPLSQEA
+>tr|A0A1Q9ADM1|A0A1Q9ADM1_9RHIZ
+MRNLKISQQLLILVAGLILAFGVAMGLQLKTSSDSLYKERYEMLRTEVESALSILQVYYK
+RQQAGELSEADAKAQAFAMLNSMKYSPDGYFFGYDYDVRMMFHFDPAKVGQDLRNKPDPT
+GKLYREELIKLARAGGGRTDFYGPKPGADPSQLFRKSAYAQAFEPWKVVVVTGLYLDDLE
+AQMHEITMKMLAAGFGILLLAMAAALYVIRGITKPLQAIHDALGDVADEDVNRPIPHSEM
+RNEVGLMAKATLSLQNKIKERNALAASEAEHREVANQERQRNQDQQRADAALQARVVATI
+GETLEGLSRGDLTVRCGDLGERYQALRENFNGALGKLESAMIHVSGRGRDIGISKEEIRN
+ASNDLAQRTERQAASLEETSAALDELSVTVRHTAEGADEAARKVKAVSEEARRSDTIVAR
+AIAAMSSIEGSSVEIGKIIGVIDEIAFQTNLLALNAGVEAARAGESGKGFAVVAQEVREL
+AQRSAAAAKDIKVQIARSTGEVDEGVRLVGEAGDALKRIAGQIDDTRSIVQAIADSAGEQ
+NTTLRAISETLNQLDTATQQNAAMAEETTASVQVLANDTEELLQLIAAFRVNRQLAPERQ
+RDDWRTPSARGTRAAA
+>tr|A0A1Q9AM03|A0A1Q9AM03_9RHIZ
+MAYDSRLLTGVTVLMAVVEAGTMARAAEALGMTASGVGRAIARLETRIGIRLLERTTRSL
+RLTDEGRKFYEQVGPHLDGIEDAALEASGSAGVVKGRLRVNVAPIVSQTILSDRMGAFLA
+AYPELRVEMIMRDAVGDLVADGFDMALRFGDPPENLIARRLADMRVITAASPTYIARRGR
+PSHPSELIDHETIDFWDPVKGRAYDWEFHRDGETLPVKTRARLMTSDAATMLASCLAGVG
+ICQIPPIGAHHLFARGDLIDLFPDWPGERFPLYALYPPRQKHSAKVRAFVTFVEGLITEE
+G
+>tr|A0A1Q9AGP0|A0A1Q9AGP0_9RHIZ
+MKLLTSLLAAAAIGVASFVAPAMAQDKGVVGIAMPTKTSTRWISDGETMQKLFKDAGYTP
+DLQFADDDIPNQLAQIENMVTKGAKVLVIGAIDGTTLSDILAKSHEAGVKVIAYDRLIRD
+SGNVDYYATFDNFQVGVLQATSLVNGLKAKFAGVKPWNVELFGGSPDDNNAFFFYDGAMS
+VLKPLIDSGDIVVKSGQQGMDKVGTLRWDGAVAQARMENLLSSNYTDAHVNGVLSPYDGL
+SIGIISALKGVGYGSGELKMPVVTGQDAELPSVKSILADEQYSTVFKDTRELAKVTVGMV
+DAIMGGKEPQVNDTKTYDNGVKVVPSYLLKPVAVDKSNAKDVLVGSGYYTAAQLGN
+>tr|A0A1Q9AL53|A0A1Q9AL53_9RHIZ
+MQPDLLSRERQSQIRLRLEAEGRVIAADLARAFSVSEDTVRRDLRELAAAGHCTRVYGGA
+LRREAAMPMAARLREKPERKAALAQALVPLFQPGMLVFLDVGSTNLAVARAIPYGLSLTV
+ATHAPVIAAALAERTDLTLILIGGRVSPAIGAALGGPAEREAARLVPDICILGACGIDAA
+GGVSAQDHDDASFKRLIAERSASVASAATSDKLGTRAPFAVLPPGGLDHLAVEADAPDAD
+LAALAEAGIGLIRARRPAAK
+>tr|A0A1Q9AGU0|A0A1Q9AGU0_9RHIZ
+MLPKLNRSLLVLPVLLAIAGCNKTDTGGALAAGGSATAPTPAVIQGACPQAYISDDKAVT
+TTYAKAGSTDPKDVVRQGSLVDITRQCVQTESQLLITVVVKGRLVEGPAGGSGGTVTLPI
+RVEATDDQKTLFAETVNFPVQLAPNAPATQFIFTKASIPLPGGAGSFAKVTVGFDTAPKA
+VAAKGKRKK
+>tr|A0A1Q9AL04|A0A1Q9AL04_9RHIZ
+MKTHRLGRTDLVVSEICLGTMTWGTQNTPQEAFRQMDYALERGVNFFDTAELYPTTPPGP
+ETYGDTESIIGDWLSTRRREDIILATKVAGPGRDYIRDNAPISPASINAALEESLKRLKT
+DYVDLYQLHWPNRMHYHFRRAWTYDPFADPGAARARDEMLENLEALDAHVKAGRIRAVGL
+SNDTVWGTQTMLTLAERHDLPRIATVQNEYNLLYRPFDLDFAELSRHEDVGLLAYSPLAA
+GLLTGKYLDGAVPEGSRLSINGDLGGRYTPRQEPAVRSYVELARKHGIDPATLAIAFCLT
+RPFMTSAIIGATTMEHLSKAIDAADITLSDDVLAGIAAIHRDYPMPI
+>tr|A0A1Q9ACT8|A0A1Q9ACT8_9RHIZ
+MKLLFVGPTLPDAPRLGLKLDLRAPVLQGDVYRAVEEGASVIGLIDGGFEYTAPVWHKEI
+LYALSKGVRVLGAASMGALRAAECHGFGMIGIGEIFRSYRDGLLIDDADVGQSHAPAALG
+WTGITEPLVNVRATLANPALAALLPAQTLKALEASGAALHFKDRTWRRLVMNAALPHETD
+RTRLLDLLLAHRIDQKRRDALDLVSLAEALPDARTAPPSDWQFQPTSLWREMIERTTPV
+>tr|A0A1Q9AK89|A0A1Q9AK89_9RHIZ
+MTKLVDIRNLRVEATTDAGRRIEIIKGVDLDIAKGEIVALIGESGSGKTTIALTLMGHTR
+PGCRISGGTVLVDGKDMAALPERERAALRGCEVAYVPQSAAAAFNPSQTIMDQVIEVTQI
+HGSMPRDKARQRAIELFKALSLPSPDTIGGRYPHQVSGGQLQRLAAAMALIGDPKLVIFD
+EPTTALDVTTQIDVLKAFKSVMKSGGIAGVYVSHDLAVVAQIADRIVVLKGGEVQEEGRT
+QAILATPAHPYTQELLAAFEPKETQFAAAPAEKARPLLEVENVISGYGVVQSDGLPLVKA
+VRSVNLSVEKGRNLGIIGESGCGKSTLARSIAGILPASAGNIIFNGHELDYAARRRTHDQ
+LREMQIVFQYADTALNPAKPIEEILGRPLTFYHGLKGQARSARVDALLDMVRLPKSLRHR
+HPSELSGGQKQRVNFARALAADPRLIICDEITSALDTVVAGAVIELLKELQRELDLSYIF
+ISHDLSVVEAICDEVMVMYRGEKVEHLTREDIASPRHPYSKLLFASVPKLDPTWLDNLVL
+EPELVRQYGGA
+>tr|A0A1Q9AI42|A0A1Q9AI42_9RHIZ
+MTGVILQASTWTGSCLRRWRLTFAGLSTVLAFSLFFTAAAAEAQDASSTSVTVADTAIRI
+DGGITSDSANLFAALMKSHPELKTVSLNSPGGRVFPALEIARTINASGLMTSVPSGEECY
+SACALIFLAGKERVAQGKLGVHQVSGVNDPSLTQTAIGRIYEDLVTFNAPSYLVSRMLRT
+PPSDMYVFSPEELERNSINIRDASKAIGIPHLLAVETWLRQSWLVGVFINTHTNQPFVAL
+ESSNMEPLLRIAHYPHRSQTFVEIMVPEGSISGKTTKLELRFAHGKDQPFSIYVNADIES
+NAYAFDLPVDPVEAKTFWAAFNAGTQLTIFNSFGAEVGRYSLAGSRAAIADFMRVASGLQ
+>tr|A0A1Q9AK87|A0A1Q9AK87_9RHIZ
+MAQPLPYLQESASQTAGPYVHIGCTPNFVGIHGVFDKDLGAGPLYSEAARGTRIIIRGAV
+IDGGGYPLKDALVEIWQADAEGLYNSPAETRGAADPHFAGWGRSPGDMDTGEFRFDTIKP
+GCVPFRDGRPMAPHITFWIVARGINLGLHTRMYFPDEAEANAQDPVLARIEHKDRIPTLI
+ARPDGEKAYRFDIRLQGEGETVFFDI
+>tr|A0A1Q9AP63|A0A1Q9AP63_9RHIZ
+MTILPLIEAEGQLRELARRVEAGERITLTLDGKPVIELVPPEKPKEAASLPGLEAFRAYK
+REKGIDRFFTYIAEDFDDPLPEDFLITPLPPLDGEK
+>tr|A0A1Q9AQ90|A0A1Q9AQ90_9RHIZ
+MPSFFIDRPIFAWVVAIFIMVAGALSIPQLPISQYPQVAPPQITVSATYPGASSSDTYQS
+VTRLIEDELNGIEGMLYFESTSNASGASEITVTFAPGTESGQAAVDVQNRVRRVEARLPA
+AVNQQGVQVEEAGSGFLLIISLTSTDGSLDAIGLGDYLNRNVLSEIQRVPGVGRAQLFAS
+QRAMRVWLDPDKMVGLKLTSSDVTAAIQAQNAQVAAGSIGAQPNPITQQIAAPVLVKGQL
+SSPEEFGAIVLRANSDGSLVRLRDVARVEVGAESYGFSTRLNGQPSAAIGVQLSPTGNAL
+ATSEAIKARMDELAAFFPAGVEYSIPYDTSPFVQVSIEKVLHTLLEAVGLVFLVMFLFLQ
+NIRYTLIPTIVVPVALLGTCAIMLAMGFSINVLTMFGMVLAIGILVDDAIIVVENVERIM
+SEEGLTPKEATRKAMHQITGAVIGITLVLCAVFIPMAFFPGAVGVIYRQFSLTMVVSILF
+SALLALSLTPALCASFLKQVQKGHHHEKRGFFGWFNRGFDRASHRYSGWVSWLIRRTGRF
+MAIYLVVLIALGYLFVRLPSSFLPDEDQGFVIVLMQLPSEATGHRTDEVIEQAEGIFGKE
+QGVSRIVAINGFSFFGAGQNAGLAFVTLKDWGERGPQDAAQAIAGRATMAMSQIKDAISF
+ALSPPPIQGLGTTGGFSFRLQDRAGLGTAALAQARDQLLGLAAKSPILAGVRVEGMPDAA
+QAVITIDREKANTFGVTFADINATISTNLGSTYVNDFPNAGRMQRVTVQADQNQRMQTAD
+LLNLNVRNANGGMVPISSFATVDWIKSTTQIVGYNGYPSMRISGDTKPGYSSGDAIAEMQ
+RLMGQLPRGFGYEWTGQSLQEIQSGSQAPLLIALSCLLVFLCLAALYESWSIPVSVMLVV
+PLGVIGAVLAVTLRDMSNDVYFKVGLITIIGLSAKNAILIIEFAKEQMEAGKSLADATIE
+AAHLRFRPILMTSLAFTLGVLPLVIATGASSGSQRAIGTGVMGGMISATILAIFFVPVFF
+VFIMKVFGRRKTEPAASTPPASHGQPAE
+>tr|A0A1Q9AMI8|A0A1Q9AMI8_9RHIZ
+MSNTIKQSGAYLEIVSFHLGDQEFCIDIMAIREIRGWAPVTPMPHTPPYVLGLINLRGAV
+IPVIDMACRLGMKMTEPSERAAIIVTDIAGKLVGLLVEQVSDMMTIRAEDLQPAPEIIPE
+EQRAFCRGIVALEKNMVCFLNLDTVIADELAQAA
+>tr|A0A1Q9APQ6|A0A1Q9APQ6_9RHIZ
+MARIGIAGAGVIGAAMAVQLIERGHDVTVFEKDGESLPASVGNASILAIPEIDPIARPDM
+VFSAPKWLMDPLGPLTLRWQDLPALTPWLLALLAAARPSQVEASRQALTVLMREALSEHA
+ALGEQLGLSGHIRHTGALHVYDSQTALDKGYAHDRQAARILGFEVERLDAAATRARVPAL
+EGHLAGAVFSGGYHTLNHPQTFLDRLREVIRARGTLVDQAVTAVVPTASGVSLRSRAGDH
+AFDKVAVAAGVWSRELVRGLGLRVALETERGYNTTWTDPAVTLPMPVFFSEHGFVATPLD
+GALRVGGAVELAKPEAPANFARAQAMRTRMRRYVPALPEAGGVEWMGRRPSTPDSVPVIG
+LSPQDPRIAFAFGHGHLGLTLSAITGRHIADLLEGRSLPELAPFSISRFQ
+>tr|A0A1Q9AEC8|A0A1Q9AEC8_9RHIZ
+MPIYKAPTDDTLFVLNDVLGLERYNNLPGFADATPDMLEAILGEAAKLAEDVLFPTNQDG
+DREGCLRHEDGTVTTPKSFTDAYAAYCDGGWLGLAVPEEFGGQGLPYTLHSAVGEYMSSA
+NMALMMYPGLTQGAIAAILVHGTPEQKQTYLPKMVEGRWTGTMNLTEPHCGTDLGLLRTK
+AVPQGDGSYRISGQKIFISAGEHDMAENIVHLVLARIEGAPEGTKGISLFIVPKIAVEAD
+GSLGARNAVTCGAIEHKMGIHGNATCVMNYDGATGFLIGEANRGLAAMFVMMNEARLGVG
+LQGLSIAEIAYQNAAQYARERLQGRALSGAKEAGKAADPIIVHPDIRRVLMTIRAFNEAG
+RAFTLWTALQSDIAHRSPDAAARQQADDLLGLMTPILKGVMTDKGFEHAVMAQQVYGGHG
+YIEEHGMSQYVRDARIAMIYEGANGIQALDLVGRKLGLNGGRAIMALFKEVGDFCETHRN
+DEAMAPFTKALKKGLNDLQAATMWFMSNAMAKPDNAGAGSTDYMHLFGLVVLGYMWARMA
+KAAQDGLANSDPRQAYLEAKLVTARFFMERLMPETSLRKARVEAGAETMMTLSAEAF
+>tr|A0A1Q9AQG7|A0A1Q9AQG7_9RHIZ
+MARKHTLLARTAGEAEPTQADTGARSEYTRRGASRSMLQSLDEMAETSMRMLEGETVVAL
+DPALLEGSFVADRIGDDEEEYALLREAIRQSGQSTPILVRPHPEASGHFMIVFGHRRARV
+ARELGIPVRAVVKQLEDIAHVIAQGQENSARTDLTFIEKALFAARLVGNGMGKDVAKAAL
+SIDDTLLSRMLSVVDTVPREVIEAIGAAKGVGRDRWEELKKLMQMPVQAERARTFVASPG
+FAEAAADQRFNLLLDELKTVRRPKKQESSPSVRRFDVAEKAVAVSTRDAGKTFTIALTAK
+DASDFGAFVSEQLEALYEAFQAHNRPSTGD
+>tr|A0A1Q9AD89|A0A1Q9AD89_9RHIZ
+MASITATGHQIERTTFSIIFAASFCHMLNDIMQSLLTSLYPLLKENYALDFLHIGLLTFA
+FQVTASLLQPAVGIVTDRWPMPFSLPAAMLSTCAGLIILAFAGHFSVLVLGACLIGIGSA
+IFHPEASRVARLASGGRHGLAQSFFQVGGNTGTAIGPLLAAFIVIPYGQGVLSWFSLIAL
+LGFCVLSGVSTWYARHRRSAAGRPAPSRALPLPAAQVRWTLLILIVLTATKNAYLASLSS
+YFTFYAIHKFGVDVQQAQLMLFLFLGASAAGVFFGGPIGDRFGSRAVIWFSILGVIPFAL
+MLPYANLFWTSVLVVVIGFIFSSAFSAIVVFAQELVPGRVGLIAGLFFGFAFGFGGIGAA
+VLGVFADRQGIEFVYSVCSYMPLLGLLTILLPRLPSHKRR
+>tr|A0A1Q9AMC2|A0A1Q9AMC2_9RHIZ
+MKQYLDLLAHVMEHGTDRGDRTGTGTRSVFGYQMRFDLSEGFPVTTTKKLHLRSIIHELL
+WFLRGDTNIAYLHEHGVTIWDEWADETGELGPVYGRQWRSWATPDGRQIDQMALLVEGLK
+TNPNSRRHIVSAWNPAEVDDMALPPCHCLFQFYVADGRLSCQLYQRSADIFLGVPFNIAS
+YALLTLMVAQVVGLKPGDFVHTLGDAHLYKNHFEQARLQLSRTPKPLPTMRINPDVRDLF
+GFRYEDFTLVGYEAEANIAAPIAV
+>tr|A0A1Q9ACE5|A0A1Q9ACE5_9RHIZ
+MAERLVMAVDVGTGSARAGLFDAAGALLARADHPIVMNRPDAHHAEHQSEDIWRAVCLAV
+RGALDRAAVSGSAVAAIAFDATCSLVVRDGAGAPLSVNRAGAPDWDTIVWLDHRALAEAD
+ACTATGHPVLDHSGRVMSPEMQMPKLMWLKRHLPGQWAKAQKIFDLADFLSWRACGSLAR
+SRCTLTAKWNYLSHAQPGWQDDFLAMIGLADLKARAGLTEETRPVGAALGTLTPQAAREL
+GLETHCRVAAGMIDAYAGALGVLGRHAGDPAELERRLAMIAGTSSCLVAFSRAPKPLFGF
+WGPYYAAGFPGSWLIEGGQSVAGALLDHLVRSHAAGGTPDAGTHARIIARIQALRAVEGP
+QLASRLHILPDFHGNRAPLADPHALGVISGLDLDSSFDALCRIYWRACVAIALGIRHVLA
+TLTDKGYRVDVLHITGGHVRNPLLMELYGDVTGCPIVVPETHDAVLLGTAMVAAVGAGFY
+PGLGEAGAGMAPPERLHHPNPAMKPIYDRDFEKFLLMQRHRAELERV
+>tr|A0A1Q9AFP0|A0A1Q9AFP0_9RHIZ
+MSKGLLETVISGEATRTSHGQVVLALGQAIVSGEYPVGSILPGDAELALRFKVSRTVLRE
+AMKTLAAKGLIVARARIGTRVTPRASWNLFDGDVLTWHFHAGIDEEFLRHLREVRLAFEP
+HAAALAAQNATEAEISNMMRLAVAMGDPNHTASSLANADLKFHLAVADASGNPFMRTVGS
+LIETALASVFKLSSPASGRERIDEVARSHIRIVEEISRRDEAGARLAMEDVIRVGHDRVH
+RAIAAAPEILPAS
+>tr|A0A1Q9AMX8|A0A1Q9AMX8_9RHIZ
+MSMRTDEIRLPPTEWTAYRGVLSRRVMAFVVDYILVAVLWIPASIVLAFVGVLTLGLAWL
+LYPALFAIVAMLYFGLTVGGRGQASPGMRMMGLRIARTDGRPMDFLTAIVHLVIFWLANA
+LLTPFIVLIGLFTERGRLLHDFLIGTVTIRSDSY
+>tr|A0A1Q9AGG4|A0A1Q9AGG4_9RHIZ
+MKKSLLTALAALVLASAPAYADVVVSSKIDTEGGVLGNIILQALKSRGIAVSDKIQLGAT
+PIVREALLQGQIDIYPEYTGNAAFFFNEAASPVWKEAQAGYEKAKELDYAANKIVWLEPA
+SANNTWAIALKQAVADGASLKTLSDFGKYVQGGGAVKLVASSEFITSPSALPAFQTTYGF
+QLKPDQLITLSGGDTAATIAAAAQGTSGANAAMVYGTDGGIGEAGLVVMEDDKGVQPVYR
+PAPIIREAVLKEHPEIAEILKPIFEKLDLKTLQGLNGRVQVGGEPAAAVAADFLAKNGLA
+K
+>tr|A0A1Q9ALK4|A0A1Q9ALK4_9RHIZ
+MRGGLSGFYIFLACIALGVAAIAGVNSVSRSITGAIESQGRDLLAGDIRFELTNRIASPQ
+ERDFLESYGTVSLTTGLRSMARLPDGSNQALVEVKAVDGAYPLYGRLESTPAAPLSDLLA
+ERDGAFGALVAPLLLDRLGLKPGDRLLVGNAAVIITGTIVNEPDAVSDGFGFAPRLMLSQ
+AGLAASGLVQAGSLVEHAYKLKLADPAQLPALRQAAETRFPQAGWSVRTSNNAAPALTAN
+VTRFSQFLTLVGLTALVVGGVGIANSVRAFLDSKRNVIAAFKCLGAPGSLVSLIYLLQIG
+MVALLGIVIGLLLGVMIAPLAGLALKGVLPVTEGFAVYPAALGLAALFGLLTALAFAFLP
+LGLARQVPATALIRDIKGSGRRLAPWPYIVASAACFLALAAISILTAEDERVAWTFLAAV
+AGAFVVLRLVGAGVAFLARRAPRVSSPALRLAIGNIHRPGALTPSVVLSLGLGLALLVTL
+ALIDGNLRRQLTGTLPERAPNFFFVDIQSSELTGFRDLMKREMPEGKLIEVPMLRGRILA
+FNGQDVTKMTVAPGARWVLRGDRGITYARNLPENSRLVEGEWWPADYSGEPLVSFAEKEA
+RELKLKIGDTVTVNVLGRNITARIANFRTVEWESLSINFVMVFSPNTFAGAPHAWLATVI
+DPKATPAQEAATLNAITRAYPTITSVRVKDALDIVNTLVAQLATAIRAAAAVALVASVLV
+LAGALAAGNRARLHDAVVLKTLGATRATLIRAFVYEYAILGLSTALFSLAAGGVAAWFVV
+SRIMTLPSSFLPDVALLTLAGALVLTIGIGLIGTWRVLGQKAAPVLREQ
+>tr|A0A1Q9AM75|A0A1Q9AM75_9RHIZ
+MSAVGNPYHSAQAESFMKTLKVEDVYIAGYETFADVAERLPRFIEEIYNAKRLHSALGYM
+SPAEFETQLAQQAA
+>tr|A0A1Q9AGB6|A0A1Q9AGB6_9RHIZ
+MNRPVLFSPEAITDLSDFLDYLVPLAGEAIARRTVDRLINHCRESSLFPERGQAYDDIRP
+GLRIVGYRRRASIAFVVMTDRIMILRIFIGGRQIRLDGL
+>tr|A0A1Q9AKP2|A0A1Q9AKP2_9RHIZ
+MTTTAAGDGARKRVVVMISGGGSNMLALVKAAGEPGFPAEIVGVISDKRDAGGLAKAAAL
+GLPALALERRDYDSKAAHEAAVLEALAGFSPDLICLAGYMRLLSGAFIQRYEGRILNIHP
+SLLPLYPGLHTHSRAIEAGDAEAGCTVHFVTEGMDEGPAIVQARVPILPGDTPETLAARV
+LTEEHRVYAQALRDVAEGRVRMTAGT
+>tr|A0A1Q9AHC6|A0A1Q9AHC6_9RHIZ
+MISRISEFRDITARYDIALCDVWGVLHNGVAAFPGAGEALAAARARGMTVVLITNSPRPS
+PGVIAQIRGLGVPDEAYDRIVTSGDVTRALIAAGPKKIYFIGSDRDLPLIEGLNVQMVSC
+EEADAIVCAGFFDDESETPEDYRATLKTAAARKLPLICANPDLVVERGHRLIPCAGAIAK
+LYGELGGETRIAGKPHKPIYRAALTEAKAVRGSVDFSRVLAIGDGMPTDVRGAIDSGLDL
+LYISAGIHAKDYMTGEKTDESKLKAFLKAEGASPKWWMPRLA
+>tr|A0A1Q9AML8|A0A1Q9AML8_9RHIZ
+MKTLLASTCLAAALFALSGTGARAAACGEVSIAEMNWASAGVAAYVDKIILENGYGCSVS
+IVAGDTMPTFTSMNEKGQPDMAPELWVNAVRTPLDAAVKEGRLIEAAKILSDGGVEGWWI
+PKFLSDAHPEIKTVQDALKHPELFPAPEDPSKAAVYNCPSGWNCQISSANLYRALKAEEA
+GFELVDTGSAAGQEGSIASAFEKKKGWLGYYWAPTPILGKYEMTKLSFGVPNDKAEWDAC
+TAVPDCPKPKVNAYPISDVYTVVTKQFADKAGVAMDYVKARKWDNGTVNKVLAWKDENQA
+TNEDAAKYFLKTYPDMWKGWVKPEVAEKIQSSL
+>tr|A0A1Q9AMV4|A0A1Q9AMV4_9RHIZ
+MTRLRIALYQPDIAGNTGTILRLAACLGLGVDIIEPAGFDTSDRNLKRAGLDYIATAALT
+RHVTFARFEEWRLAEGRRLVLASTKAAQPYTAFAFAEGDVLLFGRESAGVPDAVHEGADA
+RILIPMQPGQRSLNVAVSAAMIAGEAMRQLVWSV
+>tr|A0A1Q9AKC0|A0A1Q9AKC0_9RHIZ
+MMTEQGVLRISIAMTLVVAAFGIVFGLLSGSFAIVFDGIYAMTDAIMTVVALFVSRLIAA
+AAGPAQGRLMDRFTVGFWHLEPMVLALNGLMLMTAAIYALVNAIGSLMSGGRDLAFGEAI
+AYAVFTLAITISMALFARRANRTIGSELVALDVKAWIMSASLTAALLIAFLIGALVQGTS
+LEWISPYIDPAVLILVSLVIIPMPISTVWHALADILLVTPAELKAQVDRVAEATVARHGF
+LTYRAYVAKVGRGRQIELYFIVPGGWPPRPLEAWDALRDEIGAELGEASPDRWLTIVFTT
+DLEWAE
+>tr|A0A1Q9AFW8|A0A1Q9AFW8_9RHIZ
+MSLPEKAFPVSWDQFHRDARALAWRLAGLQRDFRAIVCITRGGLVPAAIISRELNIRLIE
+TVCIASYHDYVNQGDMVMLKGIAEPLMADGGEGVLVVDDLTDTGKTAKEVRALLPKAHFA
+CVYAKPQGVPVIDTFVTEVSQDTWIYFPWDMGFTYQEPIAKGHMG
+>tr|A0A1Q9AP26|A0A1Q9AP26_9RHIZ
+MNPMEPSWDHYRTFLHVLREGSLSAAARTLGLTQPTVGRHIDALEAAAGAPLFLRSATGL
+TPTDAALTLAPFAEEIAASAAAFLRTAASARGPMAGRVRISASEVMAIEVIPAILAQLAE
+QHPQLVLELSVSDMVEDLLRHEADVAVRMVAPQQEALVSRALGTLEVGLFAHHRYIARHG
+LPQTEADLADHRVIGFDRNSAFLQAVRRRVPILDQLSFALRTDSNLAQLSAVRAGFGIGA
+CQVRLAERDPDLRRVLGEHFSFPLPTYLVMHENLRTVPRCRAVFDALAEGLSVYIAGRTA
+GAREGLEAGR
+>tr|A0A1Q9AGI0|A0A1Q9AGI0_9RHIZ
+MVSYLVLIPPGRPASDPGVRFIADRFHRLAFLFPGLWLLARRQWLAGLAILALDLALSAA
+MALPQAALAALVAELALRLIVALEGGAFVARQLERQGYRLAAMIDAPDLDTAEEIFFAGV
+EPPRDLPLQRLSAAFAARLPKAAGMTLFDHYGGR
+>tr|A0A1Q9AQ24|A0A1Q9AQ24_9RHIZ
+MAVEEQEPIPLSALQHAVYCLRQAALIHIERAWAENRFTAEGNVLHAVADKGGKRKVRGV
+RRVMALPVASARLNLSGIADVVEFLADGEAETAYPLEYKRGKPKLHRADEVQLCAQALCL
+EEMTGRLVPEGALYYAETRRRVVVPIDDDLRRLTEDTVGALAEVFRSGSTPPPTTRRERC
+RACSLIEICRPDAVQRPVRAWRTRMVERSLAGEGDG
+>tr|A0A1Q9AG26|A0A1Q9AG26_9RHIZ
+MTRIVYEIVEHDDGWAYKLGDVFSESFPSHDAALKAARQAASEQQVGGEDEEISFQDARG
+RWHQEHADGGDRPEVVVDDRSGA
+>tr|A0A1Q9AKX2|A0A1Q9AKX2_9RHIZ
+MSILERYILRRVFQMFLTALLPVLGIIWTTQALQRINLVTDTGQSIGAFLQLATLILPTV
+IPLVLPFALAIGVTQTLATMNNDSELTVIEAGGGSRGIVMRPVLMLAAALCAVSFFVDNV
+IEPISRHKVREMIASANADLLGSIVQENSFRRVGDNLYIQIGGRRGGGVLTGIFVADSRD
+PNVEFIYYAREGAVDEKSSALVMKDGEVHRKLPDGGVSIIKFDSYAFDLTEMTRKAGNAT
+LRAQDRDLFYLLHPDPEDEQFQRKPLTFTAELNRRLTEWSFPIIFALISLVVASDARSHR
+EARLHPTATVLMLALLFRWMTFYSANGAEDTLYFVPLMYIIPLLTAALCIRQLMSNKRLT
+MPRTWQDKSAGLMARLRGRVSRTPQEPGA
+>tr|A0A1Q9AQ78|A0A1Q9AQ78_9RHIZ
+MIRQFSSLRLQQIQSIGKWVAVTVPMAMIVGSLVAFFLWSLDRATELRFAYPWLIFLMPI
+AGFAMVWAYGRFGGTAEAGNNLIVDQIHEPGGGVPLRMAPFVLVSTVLTHLVGGSAGREG
+TAVQLGGSIASALAKLFKLSTADIRILLMAGIAAGFGAVFGTPIAGAIFALEVLTIGRMQ
+YEALLPALMAAILADWTCHAWGIGHIQYHIAYLSNFDIGGAFNLDGWLLAKVSLAGVIFG
+LVAHLFAEASHDLSALLKKVIRYAPLRPVLAGLVLIGLTYLLGTRAYLGLGVWSPDPADP
+TILGFFRPDHVDYWSWLWKALFTIITLSAGFKGGEVTPLFFIGAGLGSALGGLLGAPVDL
+MAGLGFVAVFAGATNTPLACMVMGIELFGATHGVYIATACFLAYLFSGHSSIYLSQRIGV
+VKSAGSDLPTGVPVRAIRTKGGRTPAPVATHANSLSIHSNLTERPIVMTHTVSSREFGMV
+RIYLRPGEKVKAAKRWFGSKPLYRELVIQAKAAGIINAVAHHTTFGYSNHGKMQSEGVEI
+QNPNLTMCVELIAPKQDLETFCRTHGELLCRKVVIYKHIEQWEVLGEEIAAQDALSGRLS
+SSSTF
+>tr|A0A1Q9ALI0|A0A1Q9ALI0_9RHIZ
+MADFNFELVSPERLLVSETVSEVVLPATDGEMTVMANHAPTMTTIRPGIVTVKAAGKTTR
+YVVFGGFADILPSGCTLLAESAVPVEEFDRTMIERRIEEARSHLANGDHADEHKTRLEQF
+LSELTHLNGVLVAA
+>tr|A0A1Q9AEI0|A0A1Q9AEI0_9RHIZ
+MTNGFPKGFDPDQHRLLRTLYGDLVPPLEMISVRSGLYALVDHMFAQIGRLPHRRDLRVV
+RIESRNAGWLEIVTTGGAAGAGDIIADAEEAARRTCEHCSKPARMVVKVGLESLLSAPDV
+VLGDRLLCTDCADAFRKEIG
+>tr|A0A1Q9AME4|A0A1Q9AME4_9RHIZ
+MSETDNRMTGAEIVLRALKDNGVEVIFGYPGGAVLPIYDEIFQQEDIKHILVRHEQGAGH
+MAEGYARSTGKCGVMLVTSGPGATNAVTPLQDALMDSIPLVCISGQVPTTLIGSDAFQEC
+DTVGITRPCTKHNWLVKDVDELAGIIHEAFRIAQSGRPGPVVVDIPKDVQFATGTYRPPE
+AARVQKSYQPKLSGDSARIEEAVALMCSARRPIIYSGGGVVNSGPEASTRLRELVALTGF
+PITSTLMGLGAYPASGENWLGMLGMHGTYEANMAMHDCDVMVCIGARFDDRITGRLNAFS
+PNSKKIHIDIDPSSINKIVHVDVPVLGDVGRVLEDMLRLWRASADQADADRKAQLADWWS
+SIQRWRARNSLAYKPSSDVIMPQYAIQRLYALTKDRDTYITTEVGQHQMWAAQFYGFEKP
+NRWMTSGGLGTMGYGFPAAIGVQVAHPESLVIDIAGDASIQMCIQEMSCAVQYGLPVKIF
+ILNNQYMGMVRQWQQLLHGNRLSNSYTEAMPDFVKLAEAYGGVGIRCEDPAELDDAIRMM
+IDTKAPVIFDCRVANLANCFPMIPSGKAHNDMLLPDEATDEAVANAIDAKGRQLV
+>tr|A0A1Q9AC70|A0A1Q9AC70_9RHIZ
+MTSSDPGFLSGCGRLGALIAQFDWSKTSLGPIGTWPQAVTSTLSLILHSPVAIVTLWNED
+GVMIYNDAYSEFAGARHPALLGSKVREGWPEVADFNDRVMREGLAGNTLSFKDQALTLYR
+AGRPGQAWMDLDYSPILSQEGTPIGVMAIVIETTAKVMAERRLAESAHHAKQILDGAIDY
+AIIALDRDGRITRWNEGARRILGWSEEEARGADAGLFFTPEDRKAGWPAQEMAEALEQGV
+ANNERWFVRQSGDRFWASGEMSPIRNEAGVAVGFVKVLRDRTEEYLTEARLNEAERRLRR
+AQEVGGVGLFILDAQEDRMQVTGPFCRIFGFAEAETLSVHAVEACVVPEDRTVASTPESR
+KDGSAPMDVEYRIRRADTGEERIISRRGEFERDANGRILRLVGAVQDVTERRRAQRELRE
+SEAKLRALTETLEQRVNERTADRDRIWRLSTDVMLVADFASRIVAINPAWTRLLGWQESE
+LVGRSFLDFIHPDDLAATMAETERLSEGATVFTFLNRYRAADGSYRRFSWTAVPDENYIH
+AVGRDVTAEVEAAENLRRTEAALQRAQKMEAIGNLTGGVAHDFNNLLQVISGNLQLLSKD
+MAGNERAERRIGNALAGVNRGSKLAAQLLAFGRRQPLDPRVVNIGRLLQGLDEMIRRSIG
+EGIAVETVLSGGLWNTLVDPTQLENALLNLAINARDAMENYGRLTIEVMNTVLNGNHVAQ
+GEDVEAGDYVAITVSDTGTGIAPEIIDRVFDPFFSTKVEGKGTGLGLSMVYGFVKQSGGH
+IRIYSEPGSGTQVRMFLPRALAEEDATDATEQAGVTGGSETILIAEDDEGVRTTVVEMLQ
+DLGYRVLKSSDAASALSVVESGLPIDLLFTDVVMPGPLKSTEMVEQARRLIPGLAVLFTS
+GYTENSIVHGGRLDAGVQLLSKPYTRQQLARKVRAVLDQRLQASQSTPAPVFTLRPSAPE
+AVPPQAPEAQAPETQAAAPPSSTAPSAPPSGSAGRQVLVVEDDALIRMDTAEILEVEGLA
+VLEAATARQALDLLEGPKGGEIGILFTDLGLPDMSGGELARQVRERWPDIAIIFATGEAQ
+APKIDGGRVAFLQKPYTPQRVLALLAELSG
+>tr|A0A1Q9AD60|A0A1Q9AD60_9RHIZ
+MVALGILALGLAGGAAAGMTLARGPEDTTPAKPATVATLSDSGVMSLKGKVVEIYGNKFV
+LQDGSGRALIETGRAGEDGDLVKANEEVTVEGRFEHGFLHARSLTHADGTVATLRLPPPP
+PPHHGPRPGGPGPDGWGPEGRGPDGRGPDGWGPGRADCGPAGPRHAAGPKHGPVEGPDRG
+PDQAGMQPPPPPLERGETPDAAPPAAPPAAPAAAEPAAPAPAPAQ
+>tr|A0A1Q9AEA3|A0A1Q9AEA3_9RHIZ
+MKCRHCGAQRMVPFLDLGTAPPSNSYVEPAERDQPELWYPLVVRCCQACRLVQTEDFAAR
+ETFFSPRYAYFSAISSSWVAHAERYVAAMQERFALGARSHIVEIAANDGYLLQHAVARGI
+PCLGVEPTASTAAAARARGIEIVEAFFGEALGAELAEKGLAADLTAANNVLAHVPDINDF
+VRGFARLLKPSGVATFEFPHLLNMVREGQFDTTYHEHYSYLSLTAVERIFRENGLTVFDV
+ETTPWHGGSLRVFAMRSDAAAHAVSPAVADMLASEEAAGLLTDGFYTGFQETAAGVRDGF
+LSFLIDCRRQGLKVAAYGAAAKGNTLLNFSGVKQDLLSFVVDKNPAKQGLLLPGSRIPIV
+TEERLRAEKPERVVILPWNLQSEIMQQLQYITDWGGRFVTAVPKLTVHP
+>tr|A0A1Q9AEY4|A0A1Q9AEY4_9RHIZ
+MPAKPRHAQMDCSPGCPVEATLSLIGGKWKGLVLYHLMDGTLRFNELRRRLPNVTQRMLT
+NQLRELEADGLISRTIFAQVPPRVDYALTERGRSLRTVILALKEWGEEHAAA
+>tr|A0A1Q9AGB5|A0A1Q9AGB5_9RHIZ
+MSSPSSTDRRRLLYLYTHEAWRRVSHRLLLGRRTVLRFSGPAPDRLIVAPTDLRVVDPYA
+AQEILEGRFPLAGRVLETEGRSPFEIDLPSRAFAVSLHSFGWVRHMRTLTEEEDYAALRE
+IFNDWFRTHGRRFAGSPSWEPETIARRVIAWLSHSPVILKNAERNFYRRFLKSLSFQLRF
+LRHIADTAPEGQARLRVRIALAMASIAMPASPAAIRKAARQLDHELDRQILPDGSHCSRN
+PRSAMDLLFDLLPLRQTYVNLGHDVPARLIPCIDRMYPALRFFRHRGGELALFNGATATL
+ANELMSVLRYDETGGAPFKALPNGRYERLSFEDVVVIMDVGTPLSPALSRTAHAGCLSFE
+LSSGQHRFIINSGAPSFAGERYRQMARSTAAHSTVTLDDQSSARLSRSAFLGPIVTGGLT
+HVDSRREQTSGGADSVVAVHDGYYKLFGLKHERDLALHSAGTLLRGRDRFLGRRGAAPGP
+DCPHMAVARFHVHPAIRLERQGDHEVALVAPDGDCWIFSCVDLPVEIEEDVFFADPSGVR
+PSQQLTLTFALSELAEIQWTLERDV
+>tr|A0A1Q9AGQ1|A0A1Q9AGQ1_9RHIZ
+MLNKVQAVDSRIENIGWEGKTLRQMLKESDDIFERTGHYQGLKDLKIRTGQPILYEKIFS
+HLRGGLVNARSTALNISASPIVKEIGELSFALYTPEGESVALSTGIIVHVHTMADAIKYM
+IRNNYEQNPGIAPGHVFCNNNSMIGDVHTADVHTLIPIFWENELIGWAGGVTHEIDVGGI
+QPGSMCYGHADRYGDGLLVSAELVGTNDLFHEDYLQRCRDNVRAEMYWVLDEKTRLTGCQ
+LVREQVYRTIEEVGLDTYKAFIREAIEEGRRTLVGKVRQMGFPGEYEAPTFIDLPWKNDE
+TVHPLARKDTMMHAPLRMKITGDGHLGLSFDGANQWDYHSFNCAPSPMQGAMWVQLTQTL
+WNSDKINDGAYYATSIELPKGSWCNPDYDKVSTTLTWFFLIPSFTGFVRSLARSYFARGY
+LEEISASYPCTWNLLQGGGINHFGKPSAFTNFEISCQGTGAAYVKDGEATCAAMWNPEGD
+MGEVETWEHLEPLLYLGRGRKANTSGAGKYRGGCGAESLRMLFKTESQILFSAGEGHVFA
+SAGVFGGYPGNSGYRHNVHHSNMKELAANKAPYPTLDGDPENSAISALVKGDEVFDLNQM
+TGPHPFGEYDLYASVQRGGPGLGDPLERDPAAVAADVNGGELLERFAKPIYGVVLTRGAD
+GRLAADVAATRAERAAMRQRRLERAVDAKDFVARERERVLAGNINAPVRAMYQSSMKLSS
+RWAAHFRTFWSLADDFSF
+>tr|A0A1Q9AKR9|A0A1Q9AKR9_9RHIZ
+MAGNPGFNTLAVHAGAQPDPTTGARATPIYQTTSFVFEDTDQAAALFGLQAAGNIYTRIT
+NPTQAVLEERVAALEGGTAALAVASGHAAQLLVFHTILRPGDNFVAARKLYGGSINQFAH
+SFKSFDWQVRWADTDHPESFEAEIDDRTRAIFIESLANPGGTFVDIAAIAEIAHRHGLPL
+IVDNTMATPYLVRPLEHGADIVVHSLTKFMGGHGNSMGGILVDGGTFDWAASGNYPALSE
+PRPEYAGLVLSQAFGNVSFAIAARVLGLRDFGPAISPFNAFMILTGIETLPLRMQRHCDN
+AREVARWLKQHPKVAWVRYSGLEDDANHALQQRYAPQGAGAVFTFGLKDGYDAGKRFVEG
+LEMLSHLANIGDTRSLVIHPASTTHRQLTPEQQAAAGAGPEVVRLSIGIEDVADIIADLQ
+QALDKA
+>tr|A0A1Q9AL78|A0A1Q9AL78_9RHIZ
+MFVTPALLSHLKHPALIEAAVAALPPFASSFDVLDPATGDLLATLPDMGAAGAEAAVAKA
+SAAQADWAGQTAGARSRILRRWYELILAHAEDIAAILTAEMGKPLAESASEVAHAAAYVE
+WYAEEAKRIYGETFPAPGNDRRMLVIKQPVGVTGTITPWNFPASMVARKVSPALAVGCTI
+VLKPAEQTPLVALALHALAREAGFPEGVFNLVLSSEGEPVGRVLCSHPKVRKISFTGSTE
+VGRHLMRQCADQIKKMSLELGGHAPFIVFADADLDAAVDGAIQAKFRNGGQTCVSANRLF
+VEAPVYDAFVERFAAATRLLKVGNGFDPGTAIGPLIDRAAFNKVAAHVDEALADGARLMA
+GGQRVGDEGTFYAPTVLSAVTPAMRVAREETFGPVAPILRFDDPAEVVAMANETEYGLAA
+YFYATELKKVWRVAEALDYGMVGINTGRMSSEAAPFGGVKQSGMGREGSRHGAEEYLDMK
+YLCMGNI
+>tr|A0A1Q9AN70|A0A1Q9AN70_9RHIZ
+MERVVGVMSFGFSSDASAVLAAMSRSQAIIEFDLTGKILSANANFCAAIGYELSEIVGQH
+HRMFVDPTEASSTEYRQFWRDLADGKFDKRQYRRIGKGGQEIWIEASYNPVFKRGKPYKV
+VKFATDITAIKLKSADDAGKLDALSRASAVIEFTPAGEILTANENFLSTLGYQLAEIKGK
+HHSMFCDPTYTNSEDYRRFWTRLAGGEFIADEFMRLGKNGKKVYIQASYNPIFDMKGKVF
+KVVKFATDVTKRVENVDQLASALRGLAEGDLTQKLGMPFLPTLEKLRTDFNGAASKLLSA
+METVSQNASAIAAASQEIRAASDDLSRRTEQQAASVEETAAALEEITTTVSDSSTRAREA
+GQLVRKTKESADRSGSVVKQAVEAMGKIEASAAEIANIIGVIDEIAFQTNLLALNAGVEA
+ARAGEAGKGFAVVAQEVRELAQRSAKAAKEIKDLIGASNGHVKNGVSLVGETGKALEEIV
+GQVVHVDSNVGAIVEASREQATGLKEINMAVNTIDQGTQQNAAMVEETSAAAHGLAKEAD
+ALFHLLSQFNIGETHSQRGALKSASTTPCPAANAVRQMTAKVVHAFQGNAALAGGDSWKE
+F
+>tr|A0A1Q9ADC8|A0A1Q9ADC8_9RHIZ
+MLAGLLFGLSTCALWGLTFVAPRAVAPFTPLDLAVARYGVFGLASLAFLLRGKTRRALLD
+IAPSRRLLGLLLGGAGYIGYFLAVARAVNAAGAVLPPLITGLMPVILPWLAHRRSQTLSR
+RSLLAPLGLILIGLILVQLGTAAQTGTQMQPMTGAGLAFSVLALAIWIAYAQLNAMVLQA
+GDPPEPLAWTCLQGLGAAIGALVLLPWTSLSGGHHFSDAEVGSLVLWSLLMGLAGSFLTT
+VFWSEAARRLPLALAAQLIVAETVFGMAYGLIYEMRRPTWAETAGAACQIFGVCLAIARF
+AEAAQALQPKGNTKCR
+>tr|A0A1Q9AI75|A0A1Q9AI75_9RHIZ
+MGFHEIRFPLRVALGTSGGPERRTDIVSLSNGRETRNQRWARARRRYDAGSGIRSIEDLY
+AVLTFFEARAGRLHGFRFRDPVDFRSCPPGRTPQAGDQTLGTGDGARLRFSLRKTYGDAG
+GATQREITKPVAGSVLVAVDGRPVPAAEVSCDPATGMLEFAAGKAPAAGAIITAGFEFDV
+PVRFDTDRIDVDLAQFQAGRIPTIPLIEIRP
+>tr|A0A1Q9ALI4|A0A1Q9ALI4_9RHIZ
+MTRKTIDSGQRPGKRPVLAVLHQERSSAGRVGQILAERGFALDIRRPALGDPLPQTLAGH
+SGAIVFGGPMSANDPDPFIRAEIDFIGVALKENAPFLGICLGAQMLVRQLGGLVAPHPDG
+LTEIGWYPLEATERGRQILPAWPAMVYHFHREGFALPEGAERLATAEHYPNQAFRYGENA
+WGIQFHGELTRAMMHRWVVYGASRFELPNAQLGARHLEGRFDYDAPLRQFMESFLQLVFE
+RAEAGCAAA
+>tr|A0A1Q9AI10|A0A1Q9AI10_9RHIZ
+MIRALARAGYLRTEIASLMGIRYQHVRKVLVDAGITEGFKPREEVRLEREPVVVEVGDED
+DQEGSSDTSWEVLLRAGFRFLGEWKGENEDFQIDAKAPADAGVYAFVVDDVVMYVGLTQR
+GLRARLDGYRRGYERQKTNARVKALILEALASGKRVKVLVAVPEPGEWNGLPVNTSAGLE
+AGLISMIQPTWNILGVSGG
+>tr|A0A1Q9AEH3|A0A1Q9AEH3_9RHIZ
+MFTSIKRTTLVAGLIAALAAPVAVQAKNPMVGGAPMYANKNIVENAVNSKDHTTLVAAVK
+AAGLVSTLEGKGPYTVFAPTNEAFDALPAGTVETLLKPENKAKLTKILTCHVVAADAMSK
+TINKMIADDGGTHPVKTVGGCVLQAKKDGKSITLTDENGTVAHVTIADVKQSNGVIHVID
+KVLLPKS
+>tr|A0A1Q9AJ37|A0A1Q9AJ37_9RHIZ
+MANTHNAAGATPSRFARPHLARPHSLISLLALSLALVSSAGCTTETGPRTPQPAYTAAML
+RTAPTNVYPVIEGKLPAATTQMTNDEAAAQQARLSALSKQRAGGQISEAEYERRRKALTN
+LAETHGQATLDEIGRE
+>tr|A0A1Q9ACB3|A0A1Q9ACB3_9RHIZ
+MSARQRIIPIRRDYNRWVANQTLEDYALRFTAKSARRFSSSRISQTAIGAISFLALEAIG
+GTITLSYGTTNAAIAIAVAAVVMLVIGLPISRYAIRHGVDIDLLTRGAGFGYIGSTVTSL
+IYASFTFMLFAIEASIMTGALELAFGIPPWIGYIISAVVVIPLVIYGVRLISRFQLVTQP
+FWITLNVLPFIFIAFADWGKIDLWRAFAGIGHSNIGAGGPAPFNLLEFGAACAVILALMP
+QIGEQVDFLRFLPPEGGRKWRHRLAVFLAGPGWVVVGVPKLLAGSFLAVLTLSTGVPSGQ
+AADPAHMYLAAFGYMIPNDTAALLMMSAFVVVSQLKINVMNAYAGSLAWSNFFSRLTHSH
+PGRVVWLVFNVAIALLLMELGIYRLLEATLGIFSIIAMAWLCTISADLFINKPLGLAPDG
+IEFKRAHLYDINPVGTGSMLLSATIALAAHFGLFGPVMASLSTFVTLIAFLLSPLIAWGT
+GGRFYLARKARANWKTMPAITCSICEHPFEPEDMAWCPAYAAPICSLCCSLDSRCHDVCK
+PQARMNAQASVVARRLLPERLVESLSSRLGRYAIAVVLSVSLLGAILLLVAHQIALAAPE
+AAGVVERTVGVVFFVFAVIAGIVCWFYVLAHDSRVVAEEESSRQTTLLLKEIAAHKKTDA
+ALQQAKETAEAANRAKSRYVVGLSHELRTPLNAVLGYAQILERDAAIPRERQPAVKVIRR
+SAEHLSGLIDGLLDISKIEAGRLQVYSNEIHLTEFLDQIVDMLRPQAEAKGLTFTHKRAA
+SLPAYVRTDEKRLRQILVNLLTNAIKFTETGEIRFEIGYRSQVATFTVSDTGRGIAAEEL
+PRIFEPFQRGKTEAVLRLPGLGLGLTITRLLTQTMGGEIAVDSALGAGSTFRIRLMLSAV
+DRPAATARPAQRPVCGYTGARRTIVVVDDNEDHRDLMRELLVPLDFVVLTAAGGSECLAL
+IEGVRPDLFFIDISMPDINGWQLVSRLRAAGQLAPIIMLSANIGDGSAAGGEDGHNDTLA
+KPFDIRRVQDKLALHLGLEWIYEEAAPAQPAPAPAALMPPAADHLAELRRLGEIGYVRGI
+EAKLTELARDAALQPFTQAARAYVQAFDLDGYAAFLARTGAAPPRKTEHRTET
+>tr|A0A1Q9AJZ5|A0A1Q9AJZ5_9RHIZ
+MILAVLGGVFLAAFLSATLLPGASEAAFLAAVTRDAAPPVSLLVAATSGNVLGSLVNALL
+GRFFLRFEDRRWFPVSPAARARAERLFHRFGHPVLLFAWLPVIGDPLTLVAGFLRMPLLP
+FLVYVTLGKAARYAALLWLADAGRSFF
+>tr|A0A1Q9AM20|A0A1Q9AM20_9RHIZ
+MSIAVTTAPCCWGVDDVRNPNLPAWELVFDEVNDAGYDGMELGPYGYVPLDIDLVSRALV
+SRGLYIVAGTIFNDLLDPGNRKNLLRQTEEICALITSLPKPPQSAGQRFAAPYLTVMDWG
+HDERDFAAGHPDKAPRLDDAAWASMMDNIRAIADLAREKYGVRATIHPHAGGYIEFEDEI
+ERLASDIPQEVAGFCLDTGHTFYAGMDPVETLRKYADRLDYIHFKDIDKAVFDRVMGERI
+RFFEACAQGVMCPIGNGCIDYPAIRILLGDLGYEGFITVEQERDPRNAGGSLADVKLSRD
+YLKSAGF
+>tr|A0A1Q9ACU8|A0A1Q9ACU8_9RHIZ
+MLAGILLGGIVSQAPLAKPAAAQATRGASGLPLPRFVSLKSRSVNLRVGPSLDYAVSWRY
+LKAGIPVEIIQEYENWRRIRDAEGTEGWVNQALLSGERTALTAPWMRGKGSGVFVNMRRE
+PASGAGIVARMEPGVIVHVRECNGDWCRAETQGVSGWIAQNELWGAYPGEAFK
+>tr|A0A1Q9AHH4|A0A1Q9AHH4_9RHIZ
+MGRCSRTLAPPSVMPHTPPRAAIARIKKDNAIARLPDGALLVRNFANIDLPETLRRFGQR
+AIGSLEAATV
+>tr|A0A1Q9AG89|A0A1Q9AG89_9RHIZ
+MQTIKGWATKLAAVAAVALLPSVAAAQQCGNTAAGFDAWVQNFKAQASGRFSPSLLDQAF
+ANVTYNKATIRADRGQKSFKLSLDEFMEKRGANTIISRGKKMKAQNAALFSSIEQRFGVP
+AGPVIAIWGMETGFGNFMGNEHTLSAVSTLAYDCRRSDYFLEQLNAALTLVQRGDLSPNA
+RGAAHGEIGQTQFLPLNVIKYGVDGDGNGHVDMVRSRADALASTANFLRGHGWRAGAGYQ
+PGEPNFAAIQGWNAASVYQQAIAKMGAAIDGR
+>tr|A0A1Q9AGI2|A0A1Q9AGI2_9RHIZ
+MTSDTPEPLRRPSLPELPVSAVLPDVAAALAENGLAVLSAPPGAGKTTLVPLFLLDAPWR
+GEAGRILLLEPRRLAARAAAARMAGLLGEPVGATVGTRMRLDSRISARTRIEVVTEGVFA
+RMILDDPELKGVAAVLFDEFHERSLDADLGLALALECREALRPDLRLLVMSATLDVDGVA
+ALLGDPPVIESHGRSFPVEIAHQDRRPDERIEDAVTRTILSALESQEGSVLVFLPGQAEI
+LRVAERLDGRLAPDVAVTPLYGALGQSEQDAAIRPAPSGRRKVVLATSIAETSITIDGVR
+IVIDSGLQRLPVFEPATGITRLETVRVSRASADQRAGRAGRTQAGVAIRLWHSGQTAALP
+AFTPPEILSSDLSRLALDLAEWGVSDPSTLSFLDPPPAPSWAEARALLQRIGALDGEGRM
+TARGRAMRALALPPRLAAMVAGAAEDGYGLSASRLAVLLTEQGLGGPAIDLDERLSRWRN
+ERGARASAASGLAERMAQQAGATRDTAAAPGAGVLLLDAFPDRIALARGKTGAFVMANGR
+GAELPETERLARAPMLVIADLTGKAAGQRILAAAAISRAEIEASRPELITKGEEVFFDRA
+AKAVRARRVVRIGAAVLEEVPLPRPQGPAVAMALAEGLRQIGLSALPFSKEALHLRERLD
+FLFRTLGDPWPAVDDAALLDRLDDWFVPFQGETTSIDALRPGALSEGLASLVPTDLQRRM
+GELAPTHFEAPTGQRHPIHYDGEEPTLSIRVQELYGLTRHPTIGGGRRPLLLELLSPAHR
+PIQTTRDLPGFWAGSWKDVRAEMRGRYPKHPWPEDPAAAQPTTRVKPRGT
+>tr|A0A1Q9AKH1|A0A1Q9AKH1_9RHIZ
+MTVFSLAPILSHVRPNRRDLGANVGLALGLVASLALAGESAVSLIAAGMPADCAEYAANV
+TSSEGSFRSVSPVVNGVRCYGAFQFCDSGTLQHYWLGTKEGFLADPSAQVAAWRQYQQDE
+WSKVNRLGMTSLIGQQVCYKGTCAVISQSSILKACQFGCGKGGKLYNLMQSALDCSAAGT
+RDGAGTSVCSYLISGAGYSVACITGSNDGIDCLPVTPRGG
+>tr|A0A1Q9AH05|A0A1Q9AH05_9RHIZ
+MLTVILQNRDAEAGLAYTLAGLVPGAVEGLVSDVMVLDQGSRDQSRAVADAAGARFLEVW
+TLQQALAEARGSWVLFLEAGARPMGRWIEDVAEHMALRGGTARFTRSRLHRRNLLDRLLR
+RGSPLALGLLLPIATARAEARDETPEAFAARLSARRSLACELVPAGILKD
+>tr|A0A1Q9AIA8|A0A1Q9AIA8_9RHIZ
+MAAFFGNPLSVLGLAIVTVIVLLSVFADWLTPYPEHVGPIGDFAAMNMPPDETYRLGTDT
+MGRDLFTRIVYGYQLSLIMAVVVLSIATPVGVVVGLVAGYKGGWIDYALMRITDIFLAVP
+PLVLAMAIMGFLQPTLMNGMLAITAMWWPWYARLIYNVTRAEAQEGYVLAAETVGASTAH
+ILFREILPNCWPSILTKMTLDIGFVILMASSLSFLGLGVQPPTPDLGSMVAEGAKYMPDA
+WWLSVWPAIAILIVVLGFNLVGDGLREAFEAES
+>tr|A0A1Q9AGP5|A0A1Q9AGP5_9RHIZ
+MLISQVKAADGSIIVAVREDGGAARAVKGADSLYALAMEAANSGRALKDVIDAHGLGETV
+DLEAAAAAKAFLPPITHPDPAHLHLTGTGLTHLGSAATRDAMHAAVSKVEEGTTDTMRIF
+RMGLEGGKPAAGQVGVQPEWFYKGNGHCSVAPGADLVSPAFADDGGEEPEMAGIYVISDQ
+GQPFRIGFAVANEFSDHVMERVNYLYLAHSKLRPASFGPEIRLGPAPEDIRGTSRILRDG
+QVVWEKPFLSGETNMSHSFANLEHHHFKYGLFRAPGDVHVHMFGTATLSFGDGFRTVAGD
+VFEIEAEGFGLPLSNRLTIASVDDVTVEQL
+>tr|A0A1Q9AP70|A0A1Q9AP70_9RHIZ
+MTGSLKDESRDRCHFLSRSRSVRAGCGQSDHFQRMTDRPRPARDVQSTVVSMRRAMIMGR
+EWRRLLVFVKQMPGKEEGAAPAERSQALPHVIRERSLDVP
+>tr|A0A1Q9ADH1|A0A1Q9ADH1_9RHIZ
+MSNQDPTLADLRIETPPATLREIALDRLRRAIISGLFEPGQRLVERTLCDQLGVSRSVIR
+EVIRHLESEGLVDNVAKQGPTVARLSWDDARQIYEIRAALESTAVADCARRADEAVKLRL
+KTVLEELDRTSKNSSPPAVLDATHDFYEIIFRTSGHNIAWDIVSRLNSRISRLRVMTLST
+SNRTVSGPARIREIYEAICRNDADGAAAACQAHVAEAARIAEQLLA
+>tr|A0A1Q9AIU1|A0A1Q9AIU1_9RHIZ
+MSVDIGSRLRHLRLRHNLSQRALAKRAGVTNSTISLIESNASNPSVGALKRILDGIPIGL
+AEFFAFEPEPSKKAFFAAAELTEIGKGLISFRQVGDDLFGRSLQILKECYQPGADTGRVL
+LTHEGEEGGVVLSGRLEVTVDDERRILGPGDAYYFESRRPHRFRCIGPVPCEVISACTPP
+SF
+>tr|A0A1Q9AL19|A0A1Q9AL19_9RHIZ
+MEPNLSDIDDMIVHEKMQAAMEHQNEAWADGMADGIEPEIIADAAIALAMRETIRLRGED
+GAEAMLVAVRERMLAGEFSPPRSLQ
+>tr|A0A1Q9AFM8|A0A1Q9AFM8_9RHIZ
+MKFFNYRRVPYAEIRAFSVHVLTASGSFLAFLGVVAAAEHRFVDMFWWLGLALAVDGIDG
+PIARKVRVKEVLPNWSGDTLDNVIDYVTYVLLPAFALYQSGMIGEPWSFFAAGAIVVSSA
+IYYADMGMKTDEYFFSGFPVVWNMVVFTLFVTHASELAASIVVFVSVLLTFMPINFLHPV
+RVKRLRGLNLTVFAAWSALSIYALLLHFQSPDWVIAGVVATGLYLYCIGFILQIFPRLGR
+ATG
+>tr|A0A1Q9AJ75|A0A1Q9AJ75_9RHIZ
+MSKATHQTVPQHVAIIMDGNGRWANKRGLPRTLGHKKGVEAVREAVRTAGDLGIDYLTLF
+AFSSENWRRPEAEVNDLMGLLKVFIRRDLAELHRQNVRIRIIGDRVHLRGDILPLLEEAE
+ETTARNSGITLVIAFNYGARDEIARAAQALAAEVAAGRLAPEEITAQRLASRLDTAGIPD
+PDLVIRTSGEERLSNFLLWQAAYAELVFVPEFWPDFDREVFLRALDAYSRRERRFGGVTA
+AQTLAVGS
+>tr|A0A1Q9AFJ9|A0A1Q9AFJ9_9RHIZ
+MNSLDFDRRPEDTRVVVAMSGGVDSSVVAGLLAREGYDVVGITLQLYDHGAAVHRAGSCC
+AGQDIDDARRVCETLGIPHYVLDYEQRFRETVINPFAESYVAGETPIPCVACNQTVKFAD
+LLATARDLGADALATGHYIRSRPHPQPGAPGRRALYRPADSDRDQSYFLFATTQEQIDYL
+RFPLGHLTKAETRQLAEEMGLVVAKKADSQDICFVPQGKYSDIVSKLKPNAALAGEVVHL
+DGRVLGRHEGILHYTIGQRRGIGVATGEPLYVVHLDARSRRVIVGPKEALATRRLHLRDV
+NWLGDGPLAEVAARGFACFAKVRSTRAPAPAMLYADETGIRVELEDGEAGVAPGQACALY
+SGIGENARVYGGGFILRSEREPAAEAALQDLLQQAAVA
+>tr|A0A1Q9AHJ8|A0A1Q9AHJ8_9RHIZ
+MSCAEADGETGAAARREARLRDLLFVLRCSAAATVSILLAQAVGLPHPVWAAMSGVIVSQ
+ERLGDTQQATIGRFLGTLLGVAIAVLVGLVARWAEAGTTAEVAIAVALAAVAARRWPLLK
+VCMWTCPIVFLTATPGLPIWEVGLLRGAEVLLSGVVGILLHVAAEWVIRLLLRRENR
+>tr|A0A1Q9AJL6|A0A1Q9AJL6_9RHIZ
+MTTHVVVVESPAKAKTINKYLGPNYKVLASFGHVRDLPAKDGSVRPDEDFAMSWEVDSAS
+AKRVNDIGTALKASDELILATDPDREGEAISWHVLDLLKKKKLVGDKPVKRVVFNAITKK
+AVLDAMANPREIDAPLVDAYLARRALDYLVGFNLSPVLWRKLPGARSAGRVQSVALRLVC
+DREAEIERFVSEEYWSLVAELATPRGDTFEARLVAADGKKLAPRAITNAADAGRLKTLLD
+GAAYKVESVEAKPVKRNPSPPFTTSTLQQAASSKLGFSASRTMQVAQKLYEGIDLGGETV
+GLITYMRTDGVQMAPEAIDAAREAIGEQFGTRYVPEKPRIYSTKAKNAQEAHEAIRPTDF
+SRTPDSIRRFLDPDQIKLYDLVWKRGIASQMAAADIERTTVEILASKGGETAGLRAVGSV
+IRFDGFIAAYTDQKEDGEQADEGEDGGRLPEINRAEALDKRDVTATQHFTEPPPRYSEAS
+LIKKMEELGIGRPSTYAATLATLRDRDYVTIDKRKLMPQAKGRLVTAFLESFFHRYVEYD
+FTAALEEKLDRISAGELDWKDVLRDFWRDFFAQIEDTKELRVTNVLDALNEELAPLVFPK
+REDGGDPRQCQVCGTGKLSLKLGKYGAFVGCSNYPECNYTRQLSSEGGADAEAQVSAEPQ
+ALGKDPVTGEEITLRSGRFGPYVQRGDGKEAKRASLPKGWTPASIDHEKAVALLSLPRDI
+GAHPETSKMISAGIGRYGPFLLHDGKYANLETVEDVFSIGLNRAVSVIADKASKGPAARG
+SAAQTALKQLGDHPDGGAITVRDGRYGPYVNWGKVNATLPKGKDPQSVTLEEALPLLAER
+AAKAGVKTPAKKAAKPAKAAASKTKAAAAGEDSEAAPKKAPARKKSAASAAKTPTARAKA
+AKAEKD
+>tr|A0A1Q9AKZ9|A0A1Q9AKZ9_9RHIZ
+MTVRTGAPLALTMGDPAGVGLDLTLALWTRRASLGLPAFLFLGDPQALAERAALLRLDVP
+VRAAGPGEAAALFAEALPVLPLPCPQPVVPGHPDSANAEPVIEAIRRAVALTLAGETAAV
+VTNPIAKSVLYAAGFGFPGHTEFLADLGEKAVGAPLLPVMLLAGPKLKAVPVTIHIPLAD
+VPAALTPELLERTIRVTARDLVTRFALPAPRLAIAGLNPHAGENGTIGREDDAIIRPVIE
+KLLAEGMAISGPLPADTMFHDRAREAYDVAICMYHDQALIPAKALGFDDSVNATLGLPFI
+RTSPDHGTAFSLAGTGTARPDSLMAALMIARKLADNAAGRAPSGAQR
+>tr|A0A1Q9AEA8|A0A1Q9AEA8_9RHIZ
+MSIALQKAVEHYQRGRPAEALALLLPVFAQSGMIDAQTYVLAGQCCVKTGQEMKAAFYFE
+RAAALGGPSEDMLRNLAIKLLEGTAEVRAEAAALRAAALCYGAEPAAQAHYRRWLRASLL
+LTEAVMENQRLRDRMLHRADPLSFAVDHPRDHLLWSGDDGLNARQVLVDSDLAPSEPARV
+ARRALCLERTGSVRLAYLLGPLSLAPDLLRSLLPVLQHHDRHRFLLSVICQTKADAEAVR
+KQGKAACVNVELVSLDGLDDVAAAASLRERAFDVLVDLSGHAAGGRPGILNAGAAAVQAL
+WLGVPGPATGMDVDYRIADPIALPPEAQGAYAEKICLLPEGFMAVEPATVSPGQTRPVLP
+EGSVLFAAFAAPERITQQTAVLWRSLLQRCAQGFLWLDRASTFAQINFLRFMDAGGVADR
+VIFGDPQPRLRAARAAAADIGLDTLAASGGEETIDLLMAGVPVVTLKGESFAARCGASLL
+TAAGLPVEPAESEDGYLTLALDLAEDPERRKALQRAAKGHRQPPPLFNPKRLTAHLELAF
+EAMARQARAGQAPAPLRIHAL
+>tr|A0A1Q9AHN8|A0A1Q9AHN8_9RHIZ
+MSEFPRGAVALVSGASRGIGNHVAAELLRQGWSVSLGMRQPILPDWAAGHEDRVQLAAYE
+AGDPAAEQQWVDAALARFGRIDALVANAGIMIPKTVIEAEEDDIEAMMSVNLKAPRRLAK
+AAWEALCATGRGRVIILASLSGKRVKSAGAGSYSLSKFAAVALAHAIRQAGFDQGVRATA
+VCPGFVATDMGTALSERPAELMTQPDDLARIIAMLLTLPNSASVAEFAINCQLEEFF
+>tr|A0A1Q9AJD3|A0A1Q9AJD3_9RHIZ
+MAVNENGSDVTPEQKRKRAPRSALLPIHEAAMRIAEIGALPRSKTRDLVSLLLTHGARAW
+RSSQPEVSVHVHVRTPARRQALRIRFK
+>tr|A0A1Q9AMB7|A0A1Q9AMB7_9RHIZ
+MPSRIRHLAALALLLASTSPLAALPAAAQAASPQTPETNGPKPPCGGDLATFLAGVKQEA
+VAAGVPASVADQALSGARIDEKVLARDRAQGVFRQTFQEFSSRTVSKARLEIGAKKIKDY
+AEVFARAEKEYGVPAPVITAFWAMETDFGAVQGNFNTLNALVTLSHDCRRPEMFRPQLIA
+ALEMAQHGDLDPATTTGAWAGEIGQVQMLPKDIIAHGVDGDGDGHINLKQSAPDAIMTAA
+NFIQSLGFRRGEPWIQEVEVPEELPWEKTGLQPGLKASDWFGLGVTPRDGDTSHGDLDAS
+LILPQGRKGVAFLTYPNFNIYLAWNQSFIYTTSAAYFATRLAGAPAYRPGNPEQGLTEEG
+MKALQMRLDALGHDVGKIDGILGSGTRAALQKEQLRFGLPADGWATQAVLDALNKQP
+>tr|A0A1Q9AMR4|A0A1Q9AMR4_9RHIZ
+MPKPTGELTLRTLAMPADANPAGDIFGGWVMAQMDLSCGIRAAERARGRVVTAAVKEMAF
+ELPVKIGDTLNIYTEITRAGRTSITLHVEAWAQRSRHRDLEKVTEATFIMVALDDEGKPK
+PLPAE
+>tr|A0A1Q9AN99|A0A1Q9AN99_9RHIZ
+MLEIKNLHARIAEDGTEIIRGLNLTVKAGEVAAIMGPNGSGKSTLSYILSGREDYEVTEG
+DILYNGESILELDASERAAKGIFLAFQYPVEIPGVATMQFLKVAMNEQRKYRGEEELSTP
+DFMRRVKEAAAELKIAPDMLKRPLNVGFSGGEKKRAEVLQMALLQPKLCVLDETDSGLDI
+DALKIVADGVNALRSPDRAVIVITHYQRLLDYIVPDTVHVLYKGQVIKSGPKELAHELEA
+NGYADIIGAAA
+>tr|A0A1Q9ACM6|A0A1Q9ACM6_9RHIZ
+MPVDLSATQALTLWHDVSLEQVHVDPHDLTLRQMAILLHIYLKPPPHTVRGLAATLGVSK
+PVITRALDTMGALGLVTRARDERDLRNVVIKRTVAGALYLEKFGDLIIDRGRTLPPM
+>tr|A0A1Q9ADT8|A0A1Q9ADT8_9RHIZ
+MLKLRKPGAESQVVPSVLSFGSLVAGSLSVAIGLTVLTLWILQPAFVIERYPVFFGTGLL
+SAGCFVLTGLSFIMTLIRRKRIGVLLSSLTILLAGDSLIFQISGLDLGLDAMMPILFSEA
+TLQPRHIPGATSLSFILLNLSILGLALRERPLPWGLLLPGVVFMISASTLLTYTLRLGIL
+PRWLPLTQIAPLTMLCFLALSLAMIVIHVRILNYHRQTVAALLAAASYLLLLLLTLLGLN
+NSVEGGIPLLSEANTRDILAAILLVSGIIFTALIVYAFRNAQRHAEVAEQLAESQQRLVA
+IIETAMDGFITIDERGTILSINTACERIFGYSAAEMLGENVRILMPEPYQSEHDGYMNNY
+RATGRAKIIGSGREVEGRRKNGTTFPLDLAVTRIELPHQVLYSGIVRDISVRKRQERELL
+EANAEMEEFSYRTSHDLRSPITSALGLVAIAREMIGDGAPAAEVAPVIERIDGGLRRLDR
+LIQDIIALTRTKLLEEPDVRLPLAETVRETIERMRFIGAGRRIAFKVEIAETLVIDVKAS
+RVQMILDNLISNAIKYCDPREEAPFVRVEAQMENGMLALTVSDNGLGIEEEQQRQLFQMF
+RRFHPTHSYGSGLGLYILRKSVEHLGGAASYRRLDKGSAFSVRFPARISP
+>tr|A0A1Q9AHA2|A0A1Q9AHA2_9RHIZ
+MSKIRYYVSGGRAGFLQAPRAVHSEFLRTGRIDRTMRRKPAAERRYISHEEAAERTGRRL
+EAAGEVTHQRLNNFHPSIRLPKLIFHDIIDGRPHLGYCHVTASRTVFDKFGIVPWSFYFA
+NFFAEIGDEAQFFDRISMSNGRMFFAVATKTDDKQAKLVIDTTVHHDGVLFRTVDSKVAL
+KNVLQLGARNAALRAIIRAL
+>tr|A0A1Q9AIA7|A0A1Q9AIA7_9RHIZ
+MNKTSFYRPSLKTVLKASTLAGLAAVMVTTGVPATITHSFAAPVSVQAPGVPSFANVVDA
+VSPAVVSVRVQSQVQPAAADGNGMNFDFGGQGFDDLPDDHPLKRFFREFGGQNGERGQRG
+ERGERHADRGPKHLRPTAQGSGFFISDDGYIVTNNHVVNDGAAFTVVLNDGTELDAKLVG
+KDSRTDLALLKVTDPKRKFTYVSFADDSKVRVGDWVVAVGNPFGLGGTVTAGIVSARGRD
+IGSGPYDDFIQVDAAVNRGNSGGPTFNLQGEVVGINTAIFSPSGGSVGIAFAIPASTAKT
+VIADLMKDGTVQRGWLGVQIQPVTKDIAESLGLSDASGALVVEPQAGSPGEKAGIRKGDV
+VTAVNGDPVKGPRELARKIGGMQPGTTADVTLWRDGKSMDVKLNVGTLPPADSEKAADDQ
+TGRNEDRKPSSEKALANLGISVTPSDDGAGVTISSVDPDSDAGDKGLKEGEKIVSVNNRE
+VKSADDVLKAMDAARKEGRTKALFQIQAEKGSRFIALPINQG
+>tr|A0A1Q9AK73|A0A1Q9AK73_9RHIZ
+MFILRILAPLVLLALVLWFLKTADLAPLERALSQVSPLPVIAGLILVQIQIVASALRWRF
+TAARLGQAIAPGRAIGEYYVASLLNQSLPGGMAGDAIRAYRMRRAGGWQASAKAVLFERL
+SGQIAFFTLALGGVFAWPSLLAGRAPGAPSELVSVEVLGLGALALVLVIAAGLMLAARCF
+ARAASLVAEIRQVFLDRGAWAVQAGLSVTIVLTYVVTFFIASQAVGAQLGWQGALTVIPL
+SLLAMLIPAGLGGWGTREAAAMALWPLSGANPQQGLAASLVYGLLSLAGALPGLAVLLAD
+ALQRRSAA
+>tr|A0A1Q9APD8|A0A1Q9APD8_9RHIZ
+MHPAAESHNFMKDLVALLPRLRRFAMTLCPSPSAADDMVGAVTLRALAHGQPAADIRLDA
+WVYRLMRALRQETVDQGYEPPDAVAAVSRSIPLPVGTAPAFLLVNVEKFRYEVAADVLGI
+AREQVIRQVAEARLSFAAAETKTFEKRA
+>tr|A0A1Q9AH96|A0A1Q9AH96_9RHIZ
+MQGLPPETEAFLSDLARQFHVSDQAVRAMLDAVRRGQGTMAQFDISELGGNGQWMLGGMT
+MVGDMFNHGLKANVDGLCNALSMALANGQIAPLATLWGQQASWWPAELGQPSSSGGQNDS
+AYAVFPGSQRLAIREGGEVAIYDTGSHMISGVSQQQGGGQSLSFSSQLGTFPVSSLRRVD
+RDAAQPAPVQAPTQAPMHAPVQQAPMQPSTPAAAAPAAPFSAPSPASAGVDAQEVLGLIE
+KLASLRDAGILSDAEFAAKKTELLARL
+>tr|A0A1Q9AIT5|A0A1Q9AIT5_9RHIZ
+MDIKRIDVGPRMSQAVIHNGTVYLAGQVGEPSGDVSEQTRQVLEKIDRLLAEAGTDKTRI
+LSATIWLKDMADFGKMNAVWDGWVPAGHTPARATGESALATPDYLVEIIVVAAL
+>tr|A0A1Q9AJK9|A0A1Q9AJK9_9RHIZ
+MPWIFLFIAGLLEVGWAVGLKLSDGLTRPWPALATLCALVVSLGLLSVALRDLPLGTAYA
+VWTGIGTIGTVIVGIVLFGEAATVWRLTCLGLIVAGIAGLKLAQ
+>tr|A0A1Q9AKH2|A0A1Q9AKH2_9RHIZ
+MKLFSALIAGAAFALTAFSAQADVRFGVMNESYPPFFAKDASGKWHGWEIDLMDAVCAQM
+KEKCSVVELSWDGLIPALQSKKFDVIWSSMANTQERSKIIDFTDKYYNTPSTLIGPKDQK
+TGATADDVKGKTIGIQVSTIQSDYFKKYFSKVAEDKTYQTLDEAFQDLQAGRIDYVFGDS
+LALQAFLDSDAGKDCCAKMGDVADDPEILGAGVSGGLRKEDTALKAKLNAAIAAVRASGQ
+YDEITKKYFTFDIYGAK
+>tr|A0A1Q9ANW4|A0A1Q9ANW4_9RHIZ
+MRPVKSLAAAFALLVASVAPALAATTYPLTIENCGKSVTFEKAPQRAIGLGQNSAEILLM
+LGLEDRMAGTAFWPSKVLPELAEANAKVKLLTVEFPTFESILAQDPDFVAAALPSLLGPD
+SKVAKREDFEKVGVPTYLSPSTCLGTAGAKDVYGSRKQLWSMETLYQEIDELSRIFDVAD
+RGQALIADFKAREAKLRASVPHDGQKLSYVFWFSSPSPSADAYLGGKNGASGFIADVLGG
+VNAISSEAEWPAMGWEGIIAANPSVIVVASLDRNRWELDKPEAKIKFLTTDPATSQMPAV
+KNNAIVTMDGQAMNPTVRTLLGAEQVAEQLKARGLLK
+>tr|A0A1Q9AFE3|A0A1Q9AFE3_9RHIZ
+MSRSCELTGKGVQSGNNVSHANNKTRRKFLPNLCSVTLISDALGQRFRLRVSAHALRSVE
+HRGGLDAFLLKADERELSMRARLLRRQIVKKTAEAA
+>tr|A0A1Q9AH63|A0A1Q9AH63_9RHIZ
+MRATETHCDPIPSRGAFAASLHGLTNMVVTLVRLVRNRQAAGSLGDLTDAQLDDIGITRK
+DLSSAVTSRFFEDPTQHLSQAARRRSRERYERLRR
+>tr|A0A1Q9AIX9|A0A1Q9AIX9_9RHIZ
+MTALPSSQDARGTGGITPPGRSVPVWDLVVRLFHWGVVTGCALNLFILRPGKLPHRYVGY
+GIAALLALRVVWGFIGSRHARFADFVRGPRTVAAYLDEVVKGREKRRLGHNPAAAVVMLL
+LMALLAGTALTGWMQTLDAFWGEDWVSDLHETLANAIMVVAGFHIAAALFESLRHRENLI
+WSMVTGRKRPL
+>tr|A0A1Q9AG43|A0A1Q9AG43_9RHIZ
+MTDHNEARRTFLKLTGVGVAALGVASAAAAPAFAQGSADWDKTFPRSEVVDHEKITFKNR
+YGITLSGDLYLPKNRGGRGLPAIVIGGPFGAVKEQSSGLYAQTMAERGFITLAFDASFTG
+ESGGEPRNVASPDINTEDFSAAVDYIGLRPEVDRERIGVIGICGWGGMALNAVAVDKRVK
+AVVASTMYDMTRVMSKGYNDSVTLEQRTQALEQMSRQRWIDAEKGSPAYQPAYNATVSAD
+SPQFMIDYHDYYSTPRGYHKRAVNSRNAWTQTTPLSFMNMPILSYIAEISPRPVLFVHGE
+KAHSLYFAKTAFEAAAEPKELIVIPGASHVDLYDRTDVIPFDKLTQFFNQHLAV
+>tr|A0A1Q9APG8|A0A1Q9APG8_9RHIZ
+MAEEPAKTKAAKAALTQNPHAVREPRAKNLELAIGHEVRTQRKKLGITVADLSAATGISV
+GMLSKIENGNISASLGTLQSLSEALAMPITAFFRGYEEPHSASFVKAGQGVNIERRGTRA
+GHQYSLLGHIANNSTGVEVEPYLITLNAESDVFPTFQHEGMEFLYMLEGEVVYRHGDSLY
+RMEAGDALFFDADAPHGPEELVTLPARYLSIICYAKG
+>tr|A0A1Q9AKW4|A0A1Q9AKW4_9RHIZ
+MIFLDTNVVSESLRKQPEEAVIAWLVRHDAELALSSVVIAEIAFGIEKIRPDQRATRLQQ
+GLQEWCRRFRNRIFDLTEEAALAYGEIMAEAARSGQGMSVPDGMIAAIARVNNGQLATRN
+LKDFRTTRLTLISPWDVQEDA
+>tr|A0A1Q9APN3|A0A1Q9APN3_9RHIZ
+MTGLTTHVLDTARGTPAEGLAIDLYRIEGEDRTLLKRVVTNHDGRIDGGAILVPGADFLA
+GTYELVFHAGAYLRGLGASLPEPAFLDVIPLRFGIADETAHYHVPLLISPYGYSTYRGS
+>tr|A0A1Q9AC85|A0A1Q9AC85_9RHIZ
+MQGILYEEASFAQFMMITCIIGGWTAWRTGKSVADSWKGYGLVLIYTALLGLAIRFVHHA
+LFGGTMFSLHYYIVDTIVLLLFSTAGFRFYRTQQMTTSYYWLYEKVSPFSWKAK
+>tr|A0A1Q9AIL0|A0A1Q9AIL0_9RHIZ
+MMKVSLAVYPGPPAGSARGFGLRALPAHEAGAGARSIMSRAEARSWPRQCAWSGPEGQAR
+VFKFRLGTVMGCGRSFQKLLDTALCGKPDGPRRHGIAAMPEGCLSGFAVLRAGAATLRAS
+PGDER
+>tr|A0A1Q9AKH0|A0A1Q9AKH0_9RHIZ
+MPDLEDAFYRVVDILDDETASPESVPDLLRTVCSLYGLNSAAYFGVNVSEQEQGEPYLAV
+TYSSEWVAHYRIQKFVDIDPVIREGFSSMLPIVWSAYDARSPRLKRFFGEAAEFGVGKRG
+LTIPIRGRSGDRALFTITSDQNLVDWSGSQRRFERDFQMLAFHLHQRILRARGVERPVPK
+LAPRELECLKWRAAGKCNWSTAQIMGISAKTVACYLETARVKLDASNTTHAVAKAITYNL
+FTIAH
+>tr|A0A1Q9AJ91|A0A1Q9AJ91_9RHIZ
+MSNAYDVIIIGSGPGGYVTAIRSAQLGLKTAIVEREHLGGICLNWGCIPTKALLRSAEIL
+DHANHAKSFGLTLNGTMTADVKDVVARSRGVSQRLNGGVGFLMKKNKIDVIWGEAKLTKP
+GEIVVGASSKPVVQPQNPVPKGTLGHGTYTAKHIIVATGARPRALPGIEPDGKLIWTYFE
+AMKPDFMPKSIVVMGSGAIGIEFASFYRSMGVDVTVVELMANIMPVEDAEISTFARKQLE
+KRGLKIITEAKVSKVEKGGNSITAHVETKDGKVQQIVADRLISAVGVQGNIEGLGLETLG
+VKTDRGCIVIDGYGKTNVPGLYAIGDVAGPPMLAHKAEHEGVICIEKIAGLPHVHPMDKA
+KIPGCTYCNPQVASVGLTEAKAKEQGREIRVGRYSFAANGKAIALGEDQGMIKTIFDKKT
+GELIGAHMVGAEVTELIQGFVVAMNLETTEEELMHTIFPHPTLSEMMKESVLDAYGRVLN
+A
+>tr|A0A1Q9AEB7|A0A1Q9AEB7_9RHIZ
+MPSEIVHNPDQYMTALRTIIAGGRKRIGLLLGAGASAGMKKADGTYPLIPAVAGLTKLVL
+DELEKDFGKQIAELMKELAPKNDIESLLSRIRSLAKVIGPAKIHELDGPGYAQFGERVCE
+EIGKVVTVTLPASGSAYSDIVTWITGAGRDNPIEIFTTNYDLLLEEAFERVRAPYFDGFT
+GGREPFFDPVTVSNNDLPARWTRLWKLHGSLGWCSNSKDEVIRSGKDNARHLVFPEHLKY
+EQTQKAPYAALLDRLRAFLATPDTLLISIGFSFADAHISARIDEGLAANPSASVFAFQFQ
+KLANETCARELGRRLPNFSVYARDAALVNGSEGPWRVPSELPSKDWGPIRSSYWSEPLGG
+GPHEFTLGAIEPFARFFSASRSTQVFVTPAAPPAAAAPVSTVA
+>tr|A0A1Q9AGW9|A0A1Q9AGW9_9RHIZ
+MAKARRTPGKTTTARAKSPRGKTRSGSRGGVGLAGWLGVGLVALGGIVAYDHRDLLPDGL
+LNSASRQVAALAVSMPAGKASAPNTDTSLPTASIPKPAARPAAQAGAGIQSVAAHGAITL
+PAARAPLQAAANPVPGAVPGPRPPMPIDAAPTAVGIAPAQVAAVAPATLSPVMTPEAAEA
+AALPKTFYFCGIRTDNCVINGSTFVYRGNKIHLADIDAPNAAAPKCEEERKRGFYAKERL
+MALLNAGPIEIASAGGGPIVTRSGRSLGQQMVAEGLARPAGTRTSWCGGA
+>tr|A0A1Q9AKB0|A0A1Q9AKB0_9RHIZ
+MINRRTLLAAAGLAFATLASAAPAFADALSTITERKVLRVAVPQDFPPFGSVGTDMAPQG
+YDIDMAKLIAEKLGAKLELTPVTSANRVPFLQTGKVDLVISSLGKNPDREKVIDFSTAYA
+PFYNGVFGPADLAVKDAAGLAGKTIGVTRGSVEDLELTKVAPADATIKRYEDNNGTISAF
+LSGQVPLVATGNVVAAAIIARNPPKRPEMKFLIKNSPCYIGLPKGETALKEKVDAIIAEA
+KKDGSLNKISQTWLKSDLPTDL
+>tr|A0A1Q9AET6|A0A1Q9AET6_9RHIZ
+MSRFDIQLSREADAWAPEEALEALATRVIEAAADHLAVAEGQPFQEAPSELSLVFTDDES
+VRAINAEWRGQDKPTNVLSFPAFPVEPGDMPGPMLGDIVLAQETIAREAIDLGKPFEEHL
+SHLLVHGFLHLLGYDHIDAEEAEEMEALESSILIGIGLSDPYGDSDPV
+>tr|A0A1Q9AIL7|A0A1Q9AIL7_9RHIZ
+MGTIIRKALVTGLLSLAASLAISFTLVPMLGGRVEGAGLIMTILCPLVISIPASAVHYHH
+LEKLRAAQAATARALEELAAANATLRILARTDGLTGLLNRRTFHEELAVYSRSGRTGGLL
+QLDLDHFKSVNDTHGHAAGDLVLERVGRMLRAQCGPEDLAGRVGGEEFALFKMGLNEDAV
+FDWCEDLRLSLSALEIRAPSGALLRMSASLGAVHCPPGFNPGASLITADKNLYLAKSRGR
+DKVVA
+>tr|A0A1Q9AIB0|A0A1Q9AIB0_9RHIZ
+MAGAGVETGARAQTLTRSDWLALALETLVAEGIDRVKIQVMAKRLGVARSSFYWHFESTE
+ALHRAMLDEWLQKNTGPIMERAMRPAPDIVRALSSVFECWFDGQLFDPKLDIAVRLWARR
+SEVVHAVVEQADAMRVEALTKMFLRYGTPPTEATVRARVVYFTQIGHDTLETVEAPNIRF
+SYSAEYIHAFTGHRPDERQIAELHAKIRQVYPDFQPV
+>tr|A0A1Q9APP4|A0A1Q9APP4_9RHIZ
+MIPIPGGTFLMGSDHFYPEEAPVRRVSVGPFLMDATAVTNRAFAGFVTATGYVTLAERPA
+PAELYPDVPAEALAPASAVFHPPPAALDRGNAYQWWHYVPGADWHHPEGPESHLDGREDH
+PVVHVAYEDALAYAIWAGKSLPTEAEWEFAARGGLDGADYVWGDEFSPGGVHQANTWQGH
+FPWENLLEDGFARTSPVGSFPANGYGLYDMAGNVWEWTEDWFGPHRPAAKSCCTIDNPRG
+GAMESSVDPDMLELAIPRKVLKGGSYLCAPNYCQRYRPAARLAQAIDTTTGHVGFRCVVR
+PAAAMTLER
+>tr|A0A1Q9ACF8|A0A1Q9ACF8_9RHIZ
+MQAVFDGHNDVLLRLWASARKGEDPLAEFRDGTTRGHIDAPRARAGGLAGGLCAIYIPSG
+DLILRQPDEKGHYQTPLAAPLERLPSLDIALDFAAIALRLHRAGIWRLCTSTAEIRAAIA
+DGVFAAVLHMEGCEPIDEDLSALETFYAAGLRSLGPVWSRHNAFAHGVPFAYPMNPDTGP
+GLTESGIRLVKACNRLGILIDTAHMTEQGFWDVEKVSDQPLIASHSNVHALTPVARNLTD
+RQLDAIRAGKGLVGLNYATTMLRADGQENADTPLSDMIRHIDYLVERMGIDCVALGSDFD
+GATIPGSIRDAAGNQALVAALADAGYGQSELDKICRENWLRVLGQAWHEG
+>tr|A0A1Q9ACS5|A0A1Q9ACS5_9RHIZ
+MNAMVSDPAIVAPIPDGGRRRGLSPVSRRRWENFKANRRGYWSLILFLILFGLSLCAEFI
+ANDKPILASYKGELLVPVLIDYPEEKFGGFLAQTDYRSDFIRAEIEANGWMIWPPIRYSY
+RTANSNVPHSAPTAPFWLMSPEERCAGYAGGVSDPQCILGNLNWLGTDDQARDVAARMIY
+GFRISVLFGLALTLLSALIGVTAGAIQGYFGGWTDLLMQRFIEIWSSMPVLYILLIIAAI
+LPPGFFVLLGIMLLFSWVGFVGVVRAEFLRARNFEYVRAARALGVGNATIMLRHLLPNAM
+VATLTFLPFILSGSITTLTSLDFLGFGMPPGSPSLGELIAQGKSNLQAPWLGLTAFVVMS
+VMLSLLIFIGEATRDAFDPRKTFR
+>tr|A0A1Q9AJJ0|A0A1Q9AJJ0_9RHIZ
+MDISRREQRILHRLAQGGRIAIERDERRKIAKIALLTRDGWLAPGLDLETFRKLKRLRAI
+ASRSGEPYRITQRGLELVRAEQDNR
+>tr|A0A1Q9APN7|A0A1Q9APN7_9RHIZ
+MPTLAPLDLSGHVVAVAYLGDVPVFAEASGLVHRLDEGHKTVEAHDGLLTALHDPLTDTV
+LTGGEDGRVLRIAGDGAVQELASVPRRWIAQVAAGPQGAVAYASGKSAFVRLADGTVKEF
+TEERTVEGLAFAPKGLRLAASRYNGVTLHWVAIPGAPVDLDWKGAHNAVTFSPDGRFLVT
+SMQENALHGWKLDSKPGADARHMRMTGYPAKVKSLSWSAKGKWLASSGAPAAIVWPFQAK
+DGPMGKAPLELGTRGNVMVTSVACHPAEEVVAIGYSDGMILAARLSDQREVVLRRQGKGS
+VTGMAWHKSGQRLAFASETGDCGVIDISA
+>tr|A0A1Q9AGD7|A0A1Q9AGD7_9RHIZ
+MTARMDKKFADLASEGRPALVTYIMGGDPDFETSLAIMKALPSAGSDIIELGMPFSDPMA
+DGPAIQMAGQRALKAGQTLGKTLELARRFRQDDPDTPIVLMGYYNPIYIYGVDRFLKDAV
+DVGLDGLIVVDLPPEMDDELCLPALEAGISFIRLATPTTDDRRLPKVLENTSGFVYYVSM
+NGITGSALPDPSLVGAAVRRIKSHTSLPVCVGFGVKTEEHARAIGAAADGVVVGTAIVNQ
+IASSLTAEGHATEATVPGVAALVRGLSAGTKAARLAAAE
+>tr|A0A1Q9AHC4|A0A1Q9AHC4_9RHIZ
+MKAGESAKSGRRILVRLDGLNECSAVFGAVAAAVGLPNTGGQPYVDAIVQWLRETRLCLV
+LDNCEHVADPVVILVRALLSGTQGVRVVATSRTPLGIAGERHLRLLPLNEAEAQDLFLAR
+CQERVHGFEQDDAALKAIKAICQAVDGLPLAIELATGWIGALPIQDIAIHIAQGLDLLQR
+PRAQTARHATLTDTIAWSYTLLSPPARLLLQQLAVFPGSFGMEAVSGICMAREQTREDLW
+LALRELVEHSLVQFDLPSGRYRLLNTVRLFAIRLAQDAGAFNATREAHAKFFAALGMQAR
+GVDFVPEDQWLPRLQVEIDNFQVALRTMLDARRGIEALALAAALTTFWWTASRHREGIGW
+ILAASGQAQDAPPILQAAAQFSLGFLGAHDTGDWAMAAIELDRGLNLLASSDDAEAERLR
+GYLLCLRGECDIMAGAPEAGLESALEGAKLIARFAQDQWGQGFAAWNVAFGYERAGDWRQ
+AVTHYERVVASQREGSLVVRMIGCQSLASALESQGSPAEAVPLFDEALHLCRQVGLTRLG
+DVHGSLARLLADCAHVRVAADIDLANARPLALEAQAAAEALQDMAAAAMAAAVLERLSAP
+SPVNGIFKRQGSIWVVGLQDNTVMLPESRGLRQLWHLLQQPGQEISAGELAVAADGQCRE
+VISGDAVLDPKAVAQYRKRLRLLDQALALDSETLDDERRAAVRREHAFVSQELARSTGLD
+GRVRRTSSFAERMRVNVTRTLRAAIAEIETAHPALGQHLADSVRTGNFCSYQPSARMCWQ
+F
+>tr|A0A1Q9AGD5|A0A1Q9AGD5_9RHIZ
+MMEQRTMQTIALVDDDRNILTSVSIALEAEGYKVETYTDGASALDGLLARAPQLAIFDIK
+MPRMDGMELLRRLRQKSDLPVIFLTSKDEEIDELFGLKMGADDFITKPFSQRLLVERVKA
+ILRRSANREAAAAGNSAGTAAPKAKDDAPSRSLERGQLVMDQERHTCTWKNEPVTLTVTE
+FLILHSLAQRPGVVKSRDALMDAAYDEQVYVDDRTIDSHIKRLRKKFKMVDNDFDMIETL
+YGVGYRFRETA
+>tr|A0A1Q9AMN5|A0A1Q9AMN5_9RHIZ
+MPTIKIKIDGLRELDQALGQLPRSTAKSVLRRVLIEAGEPVARKARANAPKLTLHLQETT
+DVGTKLTRRQAALHKKETKDDRAFAEVFVGTSDPAGMQDEFGNEHQASQPWLRPAWDSTK
+QATLERIANSLWGEIEKAAGRLARRAARGR
+>tr|A0A1Q9AEA0|A0A1Q9AEA0_9RHIZ
+MLMFRRHLLPWLKVLLCQGLALAIVLALLPMLPEGWRFGPGWVLLFEGALAALIGLVLRL
+PRIFLPIQLFLPLLVLYSDALPGWAYLVAFLLCLLLYWNSATEQVPLYLTNGRTAAALAA
+LARERGARSLADLGSGLGDVVVRVARACPDVAVAGIETAPLAFALSRLRVALARAGNARI
+HYRSLWDEDLAAYDLVYCFLSPVPMPRLYEKALREMRPGTLLVSNSFIVPDVAPERVIEV
+EDGRRTRLHVYRMRG
+>tr|A0A1Q9ACX8|A0A1Q9ACX8_9RHIZ
+MSDLLDRRLHAYRPDLAEEALRGRVEALAFVEGNPGMITVPVVQLRSTPDLFAGTDTELL
+LGETLRILDVAQGWAWIKADRDGYVGYVPDYAVVSDGPAPTHIVTVPRSFVYSGPDLRLP
+TVQALSMGCRLTLVGEHSTRGTLYRTLPDGSAVVAAHVAPLEAPPAPDYVAVAARFLETP
+YLWGGRSGFGIDCSGLVQLCLMMAGQAAPRDTDMQEAGLGQAIAREALRRGDLVFWKGHV
+AIMEDDTTILHANGHSMTVAREPLIDAIERVERLYGGPTSYRRPRASE
+>tr|A0A1Q9AIE3|A0A1Q9AIE3_9RHIZ
+MSDTPRSPASALPSAKVEPLRKTRPCPECGRPSERGHYPFCSDRCRNIDLNRWLSGSYAI
+PAAEEPDPEDGSGEGFDPQR
+>tr|A0A1Q9APJ6|A0A1Q9APJ6_9RHIZ
+MSYDPTALEAAVRIVAEAAPEADQTGQFPWAGIRAVHKAGLLESTVATRYGGPGGTLSTA
+GHILAALGRGDPSVALISAMTIFNHLGQATKGHWPEDLYRDLLSQARTRPLLLNAARVEP
+ELGSPARGGLPSTRARRTANGWALSGRKRFVTGAHGLTHFLVWAHTDEVLSRVGTFVVPN
+GLPGITVIENWKSLGMRATGSHDVEFTDVEIPTEHVLELVDPSVAQQDNRGHAAITLALT
+ALYLGVAEAAQERFIRFAHERVPGNLGRPVAETDRFVALSGEIDLLVSGARQIIFGALDG
+DLRDAERVIRARLLAGRQIREAVQIAVRGIGNPGLNADLGLERHFRDVQSVLVHAPQEDT
+SVAILGRAAFERWNRTESEAAQTPSRAIRKTA
+>tr|A0A1Q9AGA5|A0A1Q9AGA5_9RHIZ
+MDKFVKLTGVAAPLPVVNVDTDMIIPKDYLKTIKRTGLGTGLFAEARYKEDGSENADFVL
+NKPAYRNAQILVAGDNFGCGSSREHAPWALLDFGIRCVISTSFADIFYNNCFKNGILPVV
+VSPEDLDKLMDDASRGSNAVLSVDLEAQEITGPDGGKISFEIDAFKRHCLLNGLDDIGLT
+LEKRDDIDSFEKANAAARPWAA
+>tr|A0A1Q9AKA5|A0A1Q9AKA5_9RHIZ
+MVDPRIKFRHLQTFVEVARQKSVMGAARALNVSQPAVTKTIRELEEALGVTLFEREGRGI
+RISRYGDVFLRHAGATMTALRQAVDSVSQAAAQAGVPVRIGALPTVSVRIMPQAMASFLK
+EKTGSRVKIVTGENAVLLEQLRLGELDLVVGRLAAPEKMAGFSFEHLYSERVRFVVRAGH
+PLLKDAGAIFARLHDYPVLMPTRQSVIGPVVEQFLIAQGVPAIATPIETVSDAFGRAYLR
+ISDAVWIISEGVVAADVADGTLAILPVDTGDTSGPVGLTMRADTQASLPLALLMQAIRET
+AGNLAPVEGPVTARRPPRGAEI
+>tr|A0A1Q9AE01|A0A1Q9AE01_9RHIZ
+MHEIIQPDGWAKPIGYSNGISARGRIVQVGGQIGWDAHCQFHSDDFVDQVRQTLINIVSV
+LEAAEARPEHLIQMTWYFTDRVAYKSRMKEIGAVYREIIGRHFPPMAAVQVVALMEDRAK
+IEIQALAVVPD
+>tr|A0A1Q9AFC4|A0A1Q9AFC4_9RHIZ
+MSHVLVTGGTGLVGRFIVEDLLENGYRVTVAGRNAPADGLFSRPVGFRPMRLDPAEDMLA
+LFDDVYHLVHAAFSHVPGRYRGGEGDDPEGFLKANVEGSIRLFEAARDAGQRRCVFLSSR
+AVYGAVPGDAPLRESDPPRPDTLYGRAKLAAERNLASLCSHAFITSSLRITGVYGAPRVG
+MEHKWAEMFTDFRAGRPVPARAGGEVHGTDVAAAVRLMLTADPIRINGESFNVGDIVTDT
+RTILAIARDAVPCDHPLPPPADPANYRDMATDRIRGLGWQPGGLDQLRQTVAELASGEAT
+>tr|A0A1Q9ALJ4|A0A1Q9ALJ4_9RHIZ
+MLTRPATTSFSQLAERIALVSQGQPGHIVDTLIAERGGRIISSPFWPVMRPFLYSLLHYR
+QAIGFAEGVANLPGFQAFEFLSQLLSLDILVDRPDRIPERGGFLMVSNHPTGIADGIAVF
+DLLKHRRPDMMFFANRDAIRVNPRFVEMIIPVEWREEHKSKLKSRETLKITNHAIAEQKA
+TILFPSGRIAYWADGRLNERPWKTSAVSFARKYDLPILPVHLSARNSGLFYWFAKWSTEL
+RDMTVFHELLNKKGNSFQFTIGQMIQPDALEGDPVEVTRALERHTVHDLARSGDAIFNAR
+G
+>tr|A0A1Q9AK32|A0A1Q9AK32_9RHIZ
+MLLDYLAGGAVTVFLTVYLTYALIRPERF
+>tr|A0A1Q9AJ59|A0A1Q9AJ59_9RHIZ
+MTARTAPRPFDKTLLARMTGLLADREPVEKFATELGQVFGEFLPDLLQAETGFPVEIGFA
+GFDTGLKQELVAALGDKVALCDGTLRNWCDFVIACDSPIVMGMVEMLLGAAPETIAPPQP
+RRLSAIELDVAAMLFDKIGHVLKSAVSATGGFEPTLERPTNAGDRTQPEEAAEIHAAAVK
+IALTAGPIKAVFTIVIPHQALLKTKIVFPKGIGQARRSKSGWSDQLEHQVHRSAVQLEAR
+IRLEDLTLNDVSRLQPGDVIAFMDTKEVRVDVNANGRDLYVCEFGRSGERYTVRIMDTYG
+SEKEILDHLMG
+>tr|A0A1Q9AJY5|A0A1Q9AJY5_9RHIZ
+MSQAAPTRDDFAALLQESFAQHDLAEGYVTKGIVTAIEKDVAVVDVGLKVEGRIALKEFG
+AKAKDGTLKVGDEVEVYVERIENALGEAVLSREKARREESWIKLEAKFEAGERVEGVIFN
+QVKGGFTVDLDGAVAFLPRSQVDIRPIRDVTPLMHNPQPFEILKMDKRRGNIVVSRRTVL
+EESRAEQRSEIVQNLEEGQVVDGVVKNITDYGAFVDLGGIDGLLHVTDMAWRRVNHPSEI
+LSIGQQVKVQIIRINQETHRISLGMKQLESDPWDGIGTKYPTGKRISGTVTNITDYGAFV
+ELEPGIEGLIHISEMSWTKKNVHPGKILSTSQEVDVVVLEVDPTKRRISLGLKQTLENPW
+QAFAHSHPAGTEVEGEVKNKTEFGLFIGLEGDVDGMVHLSDLDWNRPGEQVIEEYNKGDV
+VKAVVLDVDVDKERISLGIKQLGRDTVGEAASSGDLRKNAVVSCEVIAVNDGGIEVKLVN
+HEDIISFIRRNDLARDRDEQRPERFSVGQVVDARVTNFSKKDRKVMLSIKALEIAEEKEA
+VAQFGSSDSGASLGDILGAALKNRGGAE
+>tr|A0A1Q9AKF8|A0A1Q9AKF8_9RHIZ
+MGVSGCGKSSVGAGLSARSGLPFMEGDRLHPKANVDKMAAGTPLTDEDRWPWLDRIGAEI
+HKAQRDGAAVIVACSALKLSYRDRLRAAAGGSLAFVYLEGSFELLKQRMAARTGHFMPVS
+LLESQLQTLESPTGEPGVVTVNIDAALDAIIEAACLGLTAL
+>tr|A0A1Q9AL06|A0A1Q9AL06_9RHIZ
+MSDEIPSGPESAPESAVDTPTHSGFVALIGATNAGKSTLVNRLVGAKVTIVSHKVQTTRA
+IVRGIAIHERAQIVFMDTPGIFKPRRRLDRAMVTTAWGGAKDADLVVLLVDSERGLRGDT
+EAILEGLKEVRQPKILVLNKIDRVRPEDLLKLASAANETVAFDRTFMLSAATGSGCEDFL
+DYLAKTLPEGPWYYPEDQISDLPMRQLAAEITREKLFLRLHQELPYASHVETEKWEERKD
+GSVRIEQVIYVERESQKKIALGKQGEAIKAISTAARKEISEILEQPVHLFLFVKVRENWG
+DDPARFREMGLEFPRG
+>tr|A0A1Q9AFS9|A0A1Q9AFS9_9RHIZ
+MSGEHSTYTPTSGLERWVDSRLPLPRLLHDSFVAYPVPRNLNYAYTFGAMLSVMLLVQIV
+SGVVLAMHYAAETTVAFNSVEKIMRDVNHGWLLRYMHANGASFFFIAVYLHIARGLYYGS
+YKAPREILWILGVVIYLLMMATGFMGYVLPWGQMSFWGATVITGFFSAFPLVGEWIQQFL
+LGGFAVDNPTLNRFFALHYLLPFMIAGVVVLHIWALHVTGQTNPTGVEVKTKTDTVPFTP
+YATLKDALGVSVFLIVFAWFIFYMPNYLGHPDNYIPANSLKTPAHIVPEWYYLPFYAMLR
+AITFNVGPIDSKLGGVLVMFGAIIILFFLPWLDTSKVRSAVYRPLYKLFFWLFVANAILL
+GWLGSRPAEGVYVILSQLGTLYYFGFFLVVMPVLGFVEKPKRIPNSITEAVLQKRPGGTP
+AAL
+>tr|A0A1Q9AEJ4|A0A1Q9AEJ4_9RHIZ
+MTKTAFAPGPVGSLLKALGMPGQIMRVAPESPRPVELLSSLTVTGGTTMTADDAALHELL
+ISFAYEIDRGMNGETSAIPMSHVLRYLGQDARRDHVKASLNRLKMTTVTFRHDGAVFEDV
+PLLVSWLRTTDTADDIVFQLPEPLRIVMSDRARYAYVELAALPAMSSTYSSRVYRRLVAA
+IAESGKRWEAGGDNVFQVTVTPAELAEWVSFPRSRDGSLHVGKLRERVLSVLPRDFAAVN
+AFKLSLLTHAGKGRGNPLERIEFRLELAAPSRFKTRLTVEKEDLRYVGGRDVEDLHVESL
+LWIKAAAQFDVPGRKLLTPRDWWELWLAALNEMNSGVPLSRQCDQRVYRGESLRERIAAV
+GADTAAWGFVAEEAAEPDLSLRSRDQIRDLGAVGREARASRLTATTTAPEESVTSPVAVG
+FDEAREIIINVDPRLDAASQTALVFKPITDHVWLGRSAGADKKTLRVRFLDAGQQDEWEV
+EQPMIEDDVTAILGKIGPYLVGQQEYAA
+>tr|A0A1Q9ANW8|A0A1Q9ANW8_9RHIZ
+MPAQRAANDDAPMRAPLVRIRAAQATDLPALSDMIGELAAFHGDACAMSAEILERDLFGA
+APWITAIVAEAEGRLIGYALLVPLYRAQEGRRGMDLHHLFVRAAHRGTGIGRHLVEAARE
+QARRRGCSFLSVSATTGNVQAHRFYESEDFLPRPVTGMRYIQPLV
+>tr|A0A1Q9AIZ6|A0A1Q9AIZ6_9RHIZ
+MAERSAKTTTREEDYRDYEHRDIDQGWPYADEISGSPTDPANGAYGEGAESFDEQGNPGF
+QTADDTRIDSANGPDLVADDVEGDLDDDAIEAQLVERLEDRGLDLSALEIRVSDGEALLT
+GAVETREDRMMIERLALAQPGINSVRNDLTTLAVDAALPSDLDS
+>tr|A0A1Q9AN39|A0A1Q9AN39_9RHIZ
+MATKKPNESMDDKAFQALEDALKIDFDELKSALDDQSTEPKRAAPSQKPRSGQQRQPQAA
+RREDAPRQAETGARNQAFKPANDDARRNEASLRNADLRAGRSTMRTAFFLSAFWLLAGLI
+ITFMIYGDRLAGLRSLSDLAANPGLIGAAVCLILPIFVFFGFGAMMARAQEMRSAARSMA
+EVAMRLAEPETAATDRIMSVGHAVRREVSAMNEGIERTIARATELESLVHTEVNALERSY
+SENELRVRTLLQELSLERESIVGHAERLRTSISGVHSQLTTELAIASEDFSQRIAMTGEA
+FASLIETRAATLTDRAGVASKALDSMLADRTNSMMTHLSAATISLNEEFDQRLETVTRRG
+EQLLSQFETRAVALDASTEKLNIALNDRARQLNETLLARTRDLNESLSIGHEAINSGLED
+LIHSLNNTLDEKGATFRQTLKSAGDDAIVDLDLRSGFFSEKLEATIGQLSTEFDSRFEDF
+ANAFDRRASLLDAKIQDGLSRMETTVGEGSAALGTLLDRSIDHIQTAVSEREQTLVDLID
+TAGERLDQTLTARTEALSQAVSVVPERVEAALTAGSGSLIGALTAAQERVEASLGERAAA
+LDATLTASERRITETLDSRTGQVIGSIDAAQTRLDETLTERAIDMAGLLAANADAIDSTL
+QASSERIDGILARRAEALSATLGQSAELVDQAVTTVSDRLASAMSESVGQAEIRLDAVAN
+RVGQSLAEREASLSTLMAERANAMDATLSGGTERLNTLMAGHADDMNRMLSTTTATIEGA
+LRDNGAALGTLMEDQTGALSSMLALSAASIEQTLEANSTRLDGLFSAHGEALDATLGRNA
+ETLRNTLETSGADLGRVLEDRTGALSGMMALSAASLEETLDGNAQRLDTLLSGHSERIGT
+TLASNTEALQSTLDSTSGQLGQMLEDRTGSLSGMLALSASSIEQTLEDNATRIDSTLSRH
+VDSLGTTLTGGREAFESTLASTGAEIGRLIEDSTGALSGMMALSAASLEETLDGSAQRMD
+ALLAGHAERIDTTLSTGNQAFANTLETTGTTLDRMLEDRTGALSGMLALSAASLENTLDG
+NAQRLDTLLTAHGDRIGTTLASNTEALQNALDATSGQLDRMLEDRTGALSGMMALSAASL
+EETLDGNAQRLDTLLAGHSERIGTTLASNTETLQNTLDTTSGQLGQMLEDRTGSLSGMMA
+LSAASLEETLDGNAERFDTLLATHGDRIGTALSAGRDAFANTLETTGSALERMLEDRTGA
+LSGTLALSTAAIEQSLEGNGERLDTLLSAHSERIGTTLASNTEALQNTLDTTSGQLGQML
+EDRTGSLSGMMALSAASLEETLDGNAERFDTLLTAHGDRIGTALAAGRDAFANTLETTGS
+ALERMLEDRTGALSGTLALSTAAIDQSLESNAERLDGLLSQHADRLTTAQDALETGMARS
+TEAAREAILAAGASVDNALSTGAAALEHSLGTATGAFDSLLGRHTGSLSTLLDERAQALD
+GTLGAGAARLDTMLTGHAQGIGTSLSGATETIDGSLRATAADLGQMLEDRTGSLSGVLAL
+SAQHIEETLDGHAGRLGEAVARHEQLVSDATQTIETSLRQSTDELGRTLEDRTGSLSGVL
+GLSSAALETTLDGHAERLGDLVGRHESLLSGTTQTIENSLREEADRLSGLMEERTGALSG
+VLALSSQSIESMLEDSTGRLDGLLGRHTETLAATAQGIEGNLRDSATELGRMLEDQTSSL
+SGVLALSAHQIEETLDGNSQRLSGLVNRHADILSGTTQAIEGHLMATAARLDGALEERTD
+ALSGMLGRSIDAIDSRLAGSTERLDGLLARHTETLEHTTDTVEGSLQAAGDQLARTLEDR
+TGTLSGVLALSAQQIEQMFDTGADRFERLGQVLEEQTGSLSGVLALSTQQMEETLEGGAG
+RIDALLARHQDALGQSANRAETALDQRAARLAGLVSETGALLDHNSRLIDGVLSSNTQAL
+SATVARSAETLEGVFAGKAEGLEQRFGEQADRLDAMLAQRTGAITSAMARSTADIEQTVS
+GSAERLEQTMAAGTRVLRDSVANQAVVLNGVLAHHTAEISGAIASRTQDMVEKITTRGEE
+LADTMSLRAATIAETMADHVGEIDRALGDRVAGIAQDMTSRVSGLADELTGRTADIAESM
+TSRTSSLAADMTSRVSGIAADMENRATGIATHLSRQVDETARSLSIASGESVSALAVQTN
+ELTQALASRSVEIGQTLSARSSEIAERLDGADRSIRNAFDAGLKAFETVVADTTSRLSES
+FEEQTTSMATTLATSGSMLEMTLEERQEQLRQAIDTSVEALDDRLRSSAGQVAQKLGETA
+GEIGRAADLLSARMDASAAGINSRLDETGQRVETTLSGLETRIGDSVSGVAGLLDRAGRE
+IGEAILVNSQALDRAGQQAAGRVVETLQGSMETVDRTSETVANRIADSLALHATEIGRAG
+DLATGRVSDAMAQHGERIDRTSAEAAQRIAAAADAHTARIGERLDTMDRALNVGLDAVSR
+TIEGKASEFVGNLRGAVGDVSSQLDAESRRSAEQMARTGDAFSEALAARQAAFQTELDQT
+TAAAAIRSAELARNVAEATDGAVRRAATAQNQLADQSALFERSVTEAEKALAARGDAIRT
+TLDERTRDINSLLAGRTAELSRLIEQQAIPMVERYAATGREATEQLSAAAETSAQRLRSE
+SAAMVDAITTRTDETINALVGRAEGTADTMRAMEGRLQSVASGLIDRLSANNAAIGSVLE
+QSTARLSEIDEKLGATRERVSATTEQTAGVLSAAIQLVDERIGRLADVSTGTLSRLGGIS
+QQFDQQAQILSQASDLLGAAQSNLASTLDERQEALRTLTEGLVRRSDEIQTTMRAVEGFV
+NGAFERAEQRSTEVAQNLRDGIHSSFGDVGRMLSQTEQRAQAAAEVLRQQLAQASEETGS
+SVENVFARAEGRANQFASHLTGTVAQAYDQVRGTLSEAEREALIATDALRQAMEQAVGRF
+ADASDELRRSAAEIRHELDSTREELRRGAFDLPEEAKESAGAMRRAVSEQIKALQELSDI
+IGRSSTQLEVGLPRGAAAASASASAAVQAALRPAPAPQIAAPAPQQQPYLGQSAYAVAPA
+QSRPAPAPMAEPDLRQRAPAEPARRAAPAPQPAEPAPRQAAPVEARPTPGASGTLRSASQ
+QPAPPRPAQPAADPRRDAADAAFLRGSLGIDPRAGTQAPRGEEAGDSGSGWMRDLLRAAS
+REDQGLDAAPAPRMAEPARAEPQRAQADSRNPRHVMESLNSLSVDIARAIDHEASIDLWR
+RYQRGERDVFTRRLYTLKGQQTFDEIKRKYDREPEFRTAVDRYIADFERLLADVARNDRD
+RTMTQTYLTSDTGKVYTMLAHAAGRFS
+>tr|A0A1Q9AHM7|A0A1Q9AHM7_9RHIZ
+MNAPLSSPKLFDCRDAFAETLEALAAADETVVAVCNDSVGSSKLGGFKTKFPERLVNVGI
+AEQNMVGVGAGLANGGRLPFVCAAACFLTGRALEQIKADLAYSNANVKLVGISSGMAYGE
+LGPTHHSIEDFAWTRVLPNLPVIAPADRIETAAAVKWAASYAGPCFLRLSRVGVPDLLPE
+GHVFELGKANLLRDGGDVTLIANGTLTHRIVTAAGILAERGIAARVLNMATVRPIDETAI
+IAAARETGAILTAEEHSIFGGLGSAVAEVVVDHAPVPMKRLGVPGVFAHTGSAEMLLDEY
+GMTPAAIADAAAALVQRKA
+>tr|A0A1Q9AKC3|A0A1Q9AKC3_9RHIZ
+MKRPPLPIAAIIAGEINARPQQVTAAVELLDGGATVPFIARYRKEVTEGLDDTQLRILAE
+RLTYLRELDARRAAILESIRGQGRLTDELEDKIATVTTKAELEDLYLPYKPKRRTKAEIA
+RERGLGPLAEALLADRSLVPADKAAAFLTAEVPDVKAALEGARDIIAEGIGENAELLGRL
+RAHMRDVAMIRARVVEGKKEAGAKFSDYFDHTERWATIAGHRALAMLRGWNEEVLSVDIT
+VDESDTATVKPVERIIAASLSIGRGPADAWLMEVVGWTWRVKLSTSLSLDLIRELRERAE
+EEAIRVFARNLKDLLLAAPAGSRPTMGLDPGIRTGVKVAVVDGTGKLTETATVYPFPPRN
+DIRGAQEVLASLIRKHKVELIAIGNGTGSRETEKLVADMLAAFPAGSAKPTKVIVSEAGA
+SVYSASETAAAEFPNLDVSLRGAVSIARRLQDPLAELVKIEPKSIGVGQYQHDVDQGRLG
+RSLDAVVEDAVNAVGVDLNTASAPLLSRVSGLGKTTAEAIVVYRDTNGAFSSRKDLLKVP
+RLGPRTFEQCAGFLRIPNGKEPLDASSVHPEAYGVAKKIVAACGRDLRALMGDSAALKQL
+DPKRFVDDRFGLPTVKDILAELEKPGRDPRPSFKTATFAEGVEDIKDLKVGMMLEGTVTN
+VAAFGAFVDIGVHQDGLVHVSQLADRFVKDPHAVVKAGDVVKVRVTEIDVPRKRIGLSMR
+SSAAAGADTAPPRDNREKDRRPSGPTKASPPPAKGGGAGQGTLGAALMEALKRK
+>tr|A0A1Q9AH99|A0A1Q9AH99_9RHIZ
+MQTALSQFFDADVLAVAPGLIGAVFTVDGVGGVIVETEAYRADDPASHSFAGPTERNRAM
+FGPPGTAYVYRSYGIHWCFNIVCRPGSAVLLRALSPVLQPERMALRRGRTEPKLLCSGPG
+RLCQALGIDLAQNGLPLDRAPFTLRLPEEAQSIEVGPRIGITKAADRPWRFGLKGSPFLS
+RRFAATPPQQ
+>tr|A0A1Q9AH01|A0A1Q9AH01_9RHIZ
+MPNLFLLLIIALVAWLGYRKFLADAEKLARQRERVRREREAGAQGTLVKDPATGEYRVKQ
+D
diff --git a/Exercise11_files/Problem1/Roseobacter.fasta b/Exercise11_files/Problem1/Roseobacter.fasta
new file mode 100755
index 0000000..c13d291
--- /dev/null
+++ b/Exercise11_files/Problem1/Roseobacter.fasta
@@ -0,0 +1,27930 @@
+>tr|B7RSE9|B7RSE9_9RHOB
+MNLPIDLPPLKGFRYPREIIALAVWAYHRLALSTADVEDLLAARGVIVSREAIRLWVNRF
+GSHFADCIRRERPRPNDKWHMDEVVITIRGKKHWLWRAIDADGDVLDILVQTRRNAKAAK
+RFFQRLVSQFGEPRVVITDKLRSYIKPVKTQAPNADHRAHKGLNNAIEVSHRPTRKREKI
+MGRFKSHRQAQRFLSAHDQINLIFRPRRYQLTATSYRHARNDAFSLWADYTAEMTA
+>tr|B7RQN3|B7RQN3_9RHOB
+MGTHYCHLKLDERRKLAKWLEAKMPISEIADRLGRDPSTIYRDIKRNRYTDDELPELNGY
+HALVAQDKYEQRRAIHRKMIIHPDLKAAIEDRLKAGWSPEQIAGRMRLERHPIRVSHETI
+YRFAYSKDGREEQFYRHLPEHRRRRRPRGYRRHNRTHIFDVQSLSHRPERVSERLEFGHW
+ECDLMMFRKEHGKVNVTSLVERVSRYAVVMRNEDRQSKPIMESLINGLAPLPADARQSIT
+FDRGTEFSAWKHLKAGIGADAWFCDPQAPYQKGSVENTNNRLRRYLPRSTAPTALTNRYL
+RSICHRLNATPRKCLGYRTPAEVFESNLMEIQNRLE
+>tr|B7RI25|B7RI25_9RHOB
+MAMNAVAQHGVSIALACRAFQISETCFRYSPVLSDENEEIADWLERLTANKRSWGFGLCF
+LYLRNVQGYGWNHKRVYRIYCELELNLRIKPRKRLKRDKPEPLAVPDRPNETWSMDFMAD
+QLADGRSIRTLNVLDDFNREGLCIEVDFSLPAERVVRSLNQIIEWRGQPQTIRVDNGPEY
+VSGKLMEWAEKRNIRLEYIQPGKPQQNAYIERYNRTVRGEWLGQYIFETIEEAQDQATEW
+LWTYNNERPNMGIGGMTPAMKLKTAA
+>tr|B7RSC0|B7RSC0_9RHOB
+MISFKGSHYPNDVILYAVFFYVRYAVSYRDLEEILADRGVHVDHATLNRWVVKYASQIAS
+EAQKRKTRTGRSWRMDETYIKVKGQWMYLYRALDKQGQTLDFMLSETRDEAAATRFFRQT
+IVNNGWPDKVVIDKSGANKAGLDNKNIELILHGWYWLIEVLQVKYLNNLIEQDHRFIKKI
+TRPMKGFKSVEAATATLAGIETAHMIRKGQLGTTKLSAFQQFAALAG
+>tr|B7RGF2|B7RGF2_9RHOB
+MTDAPELLLANHLKTLRLPTFQREHDKLARICAAQGVDHVRYLARLTELELIDRERRMVE
+RRIKSAKFPAVKSLDSFDFKAIPSLNKMMVLDLARCDWVERRENVIALGPSGTGKTHIAL
+GLGLAACQKGMPVAFVTAASLVNELMEARDEKRLLRLQRQLAKVSLLIIDELGFVPLSKT
+GAELLFELISQRYERGSTLITSNLPFEEWTETFGTERLTGALLDRLTHHVNILEMNGESY
+RLNQSKSKRTKT
+>tr|B7RLB7|B7RLB7_9RHOB
+MMGPKQEAQAALFYEFSLEDHVPQDHLLRSIDRFVDLSDIRQYLAEFYSHTGRPSIDPEL
+LIRMLLVGYCFGIRSERRLCEEIHLNLAYRWFCRLDLSDPIPSHSTFSKNRHGRFRESAL
+LRHLFEKTVARCIADGLVSGQRLAADASLIEADANKQNSTPKEDWDHRAIDPSDAPRAVK
+EYLDVLDDAAFGAASEVEPKFTSHSDPSSQWTAARKGPAFFAYSTNYLIDTDHSVIVDVE
+ATRSIRQAEVRSVRTMLDRIKDRHDLAPERLIADSAYGSGPMLGWLVDRKINPHIPVLDK
+AGRTDGTWSRADFEWDAENNQYICPEGEPLKQFRRNYSDPNRGPTGKGVAKYQALKHTCQ
+ACQSKMKCCPNADARKITREEHEDARQVARDIAKTKQYAISMRLRKKVEMLFAHLKRILG
+LGRLRLRGPCGANDEFLLAATAQNLRKLAKIFPAPQQTRKA
+>tr|B7RGF3|B7RGF3_9RHOB
+MDAYIDQIDRWLAEDKMRPRKQRHTSKRIFERLRDECGFNGGYTIVKDYVRNKKRGSREM
+FVPLSHPPGHAQADFGEALVVIGGIEQKAYFFALDLPHSDACYVRAYPAANTEAWLDGHV
+HAFAFFGAVPQSVLYDNDRCLVAKIMPNGERQRTQRFSAMLSHYVVRDRYGRPGKGNDKG
+KVEGLVGYSRRNFMVPMPRFASWAAFNDYLEEQCCKRQADILRGYKISIGERLQADLAAM
+QGLPDAPFEACDLRSGQVTSTSVVRYRGNDYSVPVAFGHREVWIKGFVDRVVIGCAAEVI
+AQHVRSYDKDDITFDPVHYLRLIERKIMAFDQAAPLQNWNLPDAFSTLQRLLEARQGKAG
+KREYVQVLRLLERFEMEVLHNAVKDALQMGAISFDAIKHLVLCRVERRQPRLDLDLYPFL
+PRTHVATTSAASYMSLLDGGGA
+>tr|B7RHI5|B7RHI5_9RHOB
+MARLYDSRKRILITGGAGFLGSHLTDRLLEQGHEVLCADNLFTGTKRNIEHLHANPRFEF
+IRHDVTFPLYVEVDEIYNLACPASPVHYKHDPVQTTKTSVHGAINMLGLAKRLNCKIFQA
+STSEVYGDPFIHPQTEDYWGNVNPIGPRSCYDEGKRCAETLFFDYHRQHDLNIKVARIFN
+TYGPRMHHADGRVVSNFIVQALAGKSITIYGDGSQTRSFCYVDDLVEGFIRLMATDDDVT
+GPVNLGNPGEFTIKELAEKVIEMTGSKSRLIFEDLPTDDPKQRQPDISLARSTLDWEPTV
+RLEEGLQKTIAYFETVMPQLEVG
+>tr|B7RMH9|B7RMH9_9RHOB
+MKNGRYSDAQIMAILKQAEGGVPVSELCREHGMSSASFYKWRAKFGGMDASLMSEMKDMA
+DENRRLKRMYAEMSMQNDLLKEALGKKR
+>tr|B7RI24|B7RI24_9RHOB
+MKNGRYSDARIMAILKQAEGGVPVSELCREHGMSSASFYKWRAKFGGMDASLMSEMKDMA
+DENRRLKRMYAEMSMQNDLLKEALGKKR
+>tr|B7RSC9|B7RSC9_9RHOB
+MKLYQVDWALYPRRIAIYLVEKGIDSVEPVNFDVMKVWPDPVVKELSPMGTLPILDIGTG
+QMIRSSSAILGYLEDRFPTLDMIGPTPEARARTRELMEVADDLSAQLVLWAKGASPLFTR
+NGAQDLKAATTAANAYHDRLALMERLIGETDGPYAAGPQITMADCALMAILQFAQQVYSV
+PIPSFCPRLLAWHEVFSKRPSAALPTYPKPVLELSRGLPSICPPATVASP
+>tr|B7RG59|B7RG59_9RHOB
+MAAKSFDLIVIGAGPGGYVAAIRGAQLGLSVAIVEREHLGGICLNWGCIPTKALLRSSEV
+FHLMHRAAEFGLKADNIGYDLDAVVKRSRKVAGQLSGGIGHLMKKNKVTVFMGAAKLAGK
+GKVSVKTDKGTEDLTAKNIVLATGARARNLPGLEADGKRVWMYKDALQPPHMPKKLLVIG
+SGAIGIEFASFYNTLGADTTVVEVMDRILPVEDEEISKFAKKQFEKQGMKIMQKAVVKQL
+DRAADKVTAHIEVGGKAEKHEYDTVISAVGIVGNVEDLGLEEMGVKVDRTHVVTDEYCRT
+GVDGLYAIGDIAGAPWLAHKASHEGVMVAELIAGKHAHPVKPESIAGCTYCHPQIASVGY
+TEAKAKELGFDVKVGRFPFIGNGKAIALGEPEGMIKTVFDAKTGELLGAHMVGAEVTELI
+QGYIVGRQLETTEEDLMNTVFPHPTLSEMMHEAVLDAYGKVIHM
+>tr|B7RM06|B7RM06_9RHOB
+MAPKVLISDSLSEAAVQIFKDRGIDVDFQPNLGKDKEKLAAIIGDYDGLAIRSATKVTET
+ILANATNLKVIGRAGIGTDNIDKDAASKKGVIVMNTPFGNMITTAEHAIAMMFAVARQIP
+EASASTHAGKWEKSKFMGVELTGKTLGVIGAGNIGGIVCDRARGLKMKVVAYDPFLGEEK
+AKKMGVEKVELDELLARADFITLHVPYTDQTANILSKEALAKTKKGVRIINCARGGLVDE
+EALAEALKSGHVAGAAFDVFKEEPATENPLFGLPNVVCTPHLGAATTEAQENVALQVAEQ
+MSDYLLTGAVSNALNMPSVTAEEAKVMGPWITLSGHLGAFIGQMTDEPIKAINILYDGQV
+SEMNLNALNCAVVAGIMKRANPDVNMVSAPVVAREKGIQISTTNQDKSGVFDGYVKVTVV
+TEKRERSIAGTVFSDGKPRFIQIKGINIDAEIGAHMLYTTNEDVPGIIGTLGQTLGANGV
+NIANFTLGRSVAKGEAIALLYIDDVLPATAIKQLQDTGLFTQVKELEFDVS
+>tr|B7RFY5|B7RFY5_9RHOB
+MLFGLDGVEIGLIIVFVCLFGGILSGFPVAFAIGGAGIISFAIIAALDSAGLMVHQAIDQ
+SSQAYRDLVNSGVPNDAVSKFRYPDLPRIGESVFPLGWETALDRNVSFIVNRMNERVLAG
+QSIETLLAVLMFVLMGITLERSKIANDLLTTMARVFGPLPGGLAVSIVVVGAFLAASTGI
+VGATVVTMGLLALPTMLRNGYSPELSTGVIAASGTLGQIIPPSIVIVLLGTLAGDLYSAA
+QEARATSLGCTDALTYLGEPAVVSVGTLFQAALLPGIMLALLYALYAFGYALLNPDKAPA
+VPMGSTNAEPITRGESFTWFLGAPILLIVGTIFLGNMNIVGGQSTVVSSFSDISEGASLR
+TNVGEECQAAMIDLHGQEAWDTAVAEQAAIEAAGGQVASEKLTEEEYAQAQADKIANAAP
+IGTGVAILLIMLALVLTTARGVSPSSDPRPLIIGGIGIVLAVLVDILFVGPATSSGVMVL
+MMVIPFIAVMYGVLTGLKRCAGNELIRVVFPPLVLIVAVLGSILGGITNPTPAAALGAGG
+AIMLAAYRKLQDLDRSPKVIIWSTLAIVICILVGVNFDLRINQEDVSFESWFAFFVAYGA
+YLYAVFGLLFSCWILYTSGVLSPVVRETAKVTSMVFTILIGSQLLNLVVISFGGEHYIQQ
+WLKSFDNELTVFLIVMLVLFVLGFVLDFLEIIYIVIPIVGPVIYGGTFDPKWVTIMIAVN
+LQTSFLTPPFGFALFYLRGVAPASVTTGHIYRGIIPFVLIQVGALALLWVFPSVVTIVPD
+LIPN
+>tr|B7RIH0|B7RIH0_9RHOB
+MMAEMKITILGCGSSGGVPRLGGHWGACDPANPKNARRRCSILVERITKDGTTSVLIDTS
+PDMRSQLLDAGVSRLDAVLYTHSHADHVHGIDDLRMIVISMRKRLQVWADAPTTAALLDR
+FSYVFVQPEGSSYPPILDLNPIEGDVTIDGPGGALTFTPFLVNHGGMDALGFRVNDVAYL
+PDVATIPDPVWPHLENLRCWIVDALRRDPHPTHSHLAQTLNWIKAMAPETAVLTNMHNDL
+DYETLADETPDHIQPAYDGLTLTFPA
+>tr|B7RKH5|B7RKH5_9RHOB
+MDTASEKLSLVPLLAAWEALGPEARGRPKYLRLAQAFTSCIQQATYGPGGHLPGETEIAA
+ALPIGLSTVQKALSLLVEQGMIIRRRKLGSFIADARHQVPEVHVYRFRDADTGQWKMPYT
+RVVDIQRVPTAEFGPLLIGFEAEHAIRIDRLVWVTGSQPAFGTMFLRCEHADSLLERPLD
+DLHGISYHRMLWEDFRVRTATVRHSSRAELLSGQACAHLDLAAPHVGMIWDAYEHDSQDK
+LQLIQRFELPRGHRPMEIVETKPGF
+>tr|B7RH87|B7RH87_9RHOB
+MASHGYEGGRLDLPFVGISTFGKRPYQPDWKALDADVAILGAPYDAGTQWRAGARFGPRG
+VREASTLFSFGHAGAYDHEDDAVYLPGDVNIVDIGDADIVHTDTEQSHANIETGVRAILD
+TGALPVVIGGDHSINIPCIRAFDGQGDFHILQIDAHLDFVDERHGVRHGHGNPMRRAAEQ
+VYVTGLTQMGIRNVSSTAREGYDDARAMGSDIISVRQARKMGTLGVLGHVPDGARLYVTI
+DIDAFCPSIAPGTGTPSHGGFLYYEVLELLQAAAKRHEIIGIDLVEVAPDYDPTGSTSIL
+AAQVLLNFLGFIFHARAMNEV
+>tr|B7RGL7|B7RGL7_9RHOB
+MIQPKPTRKTEPVRSRDAARTQAEILSVAVQEFSEHGFHGARIERITNAAKCNSRMIYHY
+FGSKEKLYIAALDTVFAAIRNQEARLDFSAGDPVETARQLVELTFDYFANNASFLKMTRN
+ENLLDGKYIQRSQMIRDMSQPLITAIGKLIDRGYGSGAFTRKADPVQLYLSIVALSAHHL
+NNGPTLGVVVGKDLTDAGWQADRRTHAVDVILSYLGIAQDR
+>tr|B7RH43|B7RH43_9RHOB
+MKVLIVVSPYYSDIAAGLLKGAKAEIEAAGAEWDVVEMPGALEIPTAIGISDRKSNFDGY
+VALGCVVRGETTHYETVCNDSSRALQLMGLQGLCIGNGILTVENHEQAAVRADPDGQNKG
+GGAAAAALHLIALSRKWGDIRKDIGFKPRSEDYLMAGDNDGPTTA
+>tr|B7RHQ2|B7RHQ2_9RHOB
+MNALKNGLDYKQVLRDAGLRVTPQRASIITILSEADDHPNVEDLYEKTRALDDTVSVATV
+YRTMSVLENAGLVRKLMLDDAPARYEMMPQTDHDHLVDVESGDLVEIPGTEIAELMGRVA
+AELGYEIVSHHTVIRARKT
+>tr|B7RFW9|B7RFW9_9RHOB
+MTDLSPSSKALVPFVSVHNMMQLIHHIGIEPMLVELGDYIEADFRRWELFDKTPRVASHS
+EKGVIELMPTSDGEVYGFKYVNGHPSNTVDGLQTVTAFGLLANVDNGYPVLLSEMTILTA
+LRTAATSAVVARLLAPKGAHVMAMIGNGAQSEFQTLAMKAIVGIDEVRLYDTDRAATAKC
+AANLAGYGIKVVACDTAEEAILGAQIVTTCTADKQYATILTDNMVGAGIHINAIGGDCPG
+KTELAPAILHRAGIFVEYPEQTRIEGEIQQLAPDHPVTEIWQVLTGQAKGRVDDKQITLF
+DSVGFAIEDFSALRYVRDQITGTGFFDSLDLLADPEDPRDLFGMLQRAG
+>tr|B7RI72|B7RI72_9RHOB
+MIGKITGRIDYRAPDHVLIDVRGVGYLVYCSDRTLAALPGVGEAVALFTDLVVREDLMQL
+FGFQTLAEKEWHRLLTSVQGVGAKASLAILGALGPDGVSRAIALGDWNAVKVAKGVGPKI
+AQRVVLDLKDKAPGVMAMTQTLAEAHGEVEAVQVIEAPEAKRRPATAPNHSAQSEALSAL
+GNLGYGPGDAAGAVAQAAGDMPDADTPTLIRAALKLLAPKG
+>tr|B7RRQ7|B7RRQ7_9RHOB
+MSELAEPHDMALPSFMEYLKKLEAAKLVTTKKDGREYALSHPMPSSPQRTG
+>tr|B7RKL1|B7RKL1_9RHOB
+MTSPASKTIKLGLIGDNISRSKSPRLHRTAGQLAGLDVTYDRLIPKDMGLSFDDVFAQAQ
+SGGFCGINVTYPYKELVTSKVTVADPLVRAIGAVNTVVFDADGPKGFNTDYTGFMHAYRA
+VRGAQNPGIVCLIGTGGVGKAVAFGLGALKAQTIRCVDLDPTKADALADALRALGSDTTV
+ETSTDAIQAAKGADGLINCTPLGMVGIGGTALPAEAMQGASWAFDAVYTPVDTQFLQDAV
+QASLTVISGYELFFGQGLDAWKIFTGVEIDPSDLRNAIQGEEV
+>tr|B7RIJ5|B7RIJ5_9RHOB
+MTINGKSVSRDVEGQTLLVSFLRDDLHLTGTHVGCDTSQCGACTVHVDGKSVKSCTMFAV
+EAEGAEVKTIEGMANADGSLNVMQQAFQDHHGLQCGYCTPGMVMSATALLKDNPKPTEAE
+VRKHLEGNICRCTGYHNIVKAILAASGQDVSAIAAE
+>tr|B7RM60|B7RM60_9RHOB
+MTETTDTPKTGHEVIQSYLKTIDSSPGVYRMLDSESRVLYVGKARNLRARVSNYARSSGH
+SGRIARMISNTASMMFLTTKTETEALLLEQNLIKQLKPKFNVLLRDDKSFPNILVTADGD
+YPQIKKHRGAKKEKGNYYGPFASAGAVNRTLNQLQRVFLLRDCSNAMFDSRTRPCLQHQI
+KRCSAPCVGKISPEEYRKTVQDAQKFLNSKSTDIQVRLAADMAAASEAMEFERAAALRDR
+IKALTQVQTAQGINPQGVSEADIIALHLDQGQACVQVFFIRANQNWGNRDYYPRVGPDVD
+AAEVLEAFIGQFYDTREPPRQLILSNEIENPDLMADALSGKLGRKVELLVPQRGEKAELV
+DGALRNARESLARKLAETATQTNLLKGLADAFELPASPQRIEVYDNSHIQGTNAVGGMVV
+AGPDGMMKNQYRKFNIRGDELTPGDDFGMMKEVLTRRFKRLLKEDPDRKLGMWPDLLLID
+GGAGQVSAVASIMREYGVEDIPMVGVAKGVDRDAGKEEFHRVGKRPMALRHNDPVLYFIQ
+RMRDEAHRFAIGTHRAKRAKAVGATPLDEVPGVGAARKRALLAHFGSAKAVGRANLSDLL
+AVDGVSRALAERIYAFFHERG
+>tr|B7RKT5|B7RKT5_9RHOB
+MDNAGWHHLPRGNGKGDKMNRISVVTGAAGGMGRAIVERLIADGSHVIGLDIDAAGLADM
+KGDGFEGICVDLTSAAAISDAFAKIKETHGGIDALVNNAGTCFMSEFPDIPEAEFEKQMA
+LNFSGAFHCCQAAIKLMAGRDGVRKIVNISSNGAYNFDAFDPPHYRASKAALDTLTKDLA
+RRYATDKIAVNSIAPAMTETPLFGVVSQEVLDKAIAQMPHGRAMQPSEIAAWVGFLISPA
+GDISSGNVIILNQGRDVR
+>tr|B7RJM0|B7RJM0_9RHOB
+MTDTTETRNISDALGKCLPFLRRYARALTGSQTSGDAFAAASLEAILTDRSVLDGVEVRT
+GVFRVLYSIWASAGAPIEEGESGMRAKAQKHLAKLTNHSREALLLHSIEGFSFEEVGIII
+GVSTDEANELVQIARREMADHVTGSVMIIEDEAVIAMDLESIVSDMGHRVTGIARTQAEA
+VKLGNEDVPDLILADIQLADNSSGIDAVNDLLGDLGLRPVIFITAFPERLLTGNKPEPAF
+LISKPYTVDQVLSAVSQAMFFSSTETLHS
+>tr|B7RLX5|B7RLX5_9RHOB
+MGPAAWNDILGPQPVARPLENDGTADFVVVGGGFAGLAAARRLTQLQPRARIAVLEAGRI
+AQGAAGRNSGFMIDLPHELTSEDYAGAGDETEMIALNRQAITFARSAVEDYGIDANYFDP
+AGKVNGAASATAEAHNRSYAHHLASLGEASQMLDRQQMFEMTGSRHYHSGLYTPGMVMLQ
+PAGYIRGMAAGLVREGVDLFENTPVTGFTRQGKDWLVKTPSGTITTPRIILTVNGHLESF
+GFARGRLMQLFFYAVMTPELDDEALARIGGVSRWGITPSDPMGTTVRRIDTGQGGNRIIT
+RTCATLRTSAIPKRSDMDRAARVMQHKFDQRFPALAGLPMQYKWAGHLCLSINGVAVMRE
+LDDGVFSGCVQNGLGTARGTLTGIGAAELACGVTSAITSHFAVEAEPKRLPPWPLSQIGA
+NAVLRWREWRAKDE
+>tr|B7RMV7|B7RMV7_9RHOB
+MRVHICAVGRLRAGPEKDLIDDYLTRFDRTGRALGLGPIQIVEVEDKKNGGMPAEAALLR
+RAIPDGAVICVLDERGKVEQSPDFASRLGGWRDQGRGDVAFVIGGADGIAKDLRQEADHA
+LSFGKMVWPHMLVRVMLAEQLYRAASILAGGPYHRV
+>tr|B7RLR1|B7RLR1_9RHOB
+MITGASRGIGAETARVFAKAGANVVLMARSQDAIGNLAGEIGQKAIAIPCNVARYGEVSA
+AVDFTLQAFGSVDVFINNAGVIEPISHLATSDPDDWGQAIDINLKGVYNGMRAVLPVMKE
+AGGGSILTISSGAAHHAIEAWSHYCASKAAVNMLGRSVHLEEAANGIRAIGLSPGTVATQ
+MQREIKQSGVNPVSELAWEDHIPADWPARALLWMCSAEADRFCGEEISLRDEDIRKTVGL
+I
+>tr|B7RRL2|B7RRL2_9RHOB
+MLLQISHTTRYSYDQPVDYALQQLRLTPQVVPCQKIIDWDVTLEGGVIEAFYTDHHGNDV
+HLVNVDAGGQSISITAAGTVETTDTAGIVPLPKNGPPLWYFSRPTALTTPGAEISALASQ
+TGKEPNTLNRLHSLSNLIAEKVSYGKDGTYVATTAEEAMQGGTGVCQDHAHIFISAARAS
+GIPARYVSGYLMMDGQIDQDASHAWAEAYVEGLGWVGFDVSNTQSPDARYVRLAVGRDYH
+DAAPFSGLRVGDAKETMIVNLQVQQ
+>tr|B7RS00|B7RS00_9RHOB
+MHQVEVSNVTKKDADAMDQISQVSLGDAIYERVCRDLVGGKLRPNEKVTIRGLAAALGTS
+STPVRDAVQRLLRDEALVQRSVRDVRVPVLTSAKYLEIASIRRELEGFAAGRAAELAGPK
+DIQRLKRIVDKNEAAASAGRWPQAVQYNQQFHFALAEIADMPTLLGILGGLWLRMGPLIA
+GYYGHEKIPLVQHHQAIIAACENRDSVAAAAEMRADIDDSKEGIIRYIESFAEKE
+>tr|B7RIU5|B7RIU5_9RHOB
+MSIWFRISEALSALTAGEGLSAVFDRLRSPPERSVAFTIAVIALGAKMAKADGLVTRDEV
+TAFREVFQIAEADQQGAAKVFNLARQDVTGFEDYAARIARMFQDQPEMLRDLIEGLFHIA
+MADGTYHPNEDAFLTRVAEIFAMDDGDFACLRARFVPDTSPLPHTVLGIAPNATTEEARA
+AWRRLVRKNHPDALVARGLPEEAIAMAQKRMIDINRAWETWSGKAR
+>tr|B7RQC6|B7RQC6_9RHOB
+MCMARRTKIYEGTAKILYEGPEPGTIVQYFKDDTTAFQSEKRATIEGKGVLNNRLSEFFM
+TGLNNIGVPTHFIKRLNMREQLVRQAEIVPLEIVVRNYAAGSFASRLGIEEGIQLPRPIV
+EYHFKNNDLGDPLVTEEHIAAFGWAGQQDMEDILSLSLRVNDFMSGVMMAVGIRLVDFRI
+EVGRVYDGDFQRLIIADEISPDSCRLWDIETGQKLDKDVFRRDLGSLTDAYTEVARRLGV
+MPKTSTPMMKPTLIN
+>tr|B7RR44|B7RR44_9RHOB
+MQYHLNGFKSGSPDISAPSGTPHSDEPPGKVDVLIVGCGPAGLTLAAQLAAFGDISTCII
+DQKSGPLQMGQADGIACRSVEMFEAFGFSERVLRESYWVNETTFWKPDADQPAHIARSGR
+IEDTEEGLSEMPHVILSQARVHDFYLDVMRNGPRRLEPHYDRQFVSLARDDSAEYPLTVT
+VSHSPDGMPVRTEAIQARYVVGCDGARSGVRRAIGRELVGDAANQAWGVMDVLMETDFPD
+VRLKSVIHSANEGSVLIIPREGGYLVRLYIELDKLNPDERVSHKNITQDQLIAAAGRIMP
+PYSLDVKEVVWWSVYEIGQRLCDRFDDAQDGADPRVFIAGDAGHTHSPKAGQGMNVSMGD
+AFNLGWKLAAVLRGQSAPAILHSYSTERQAIAQELIEFDRAFAKMFSARPQTGDKVGEDT
+VDPKEFQRYFQKQGRFTAGTSVHYAPSLVVAEGAHQHLAKGFVIGMRFHSAPVIRVADAK
+PLHLGHTLKADGRWRILAFAGQDGDVSALCDYLGGAGSPITQVTPEGADIDSVIDLRAVF
+QQGHRTVDVGKLPSLLLPKKGRYGLRDYEKVFSADPRADIFEMRGIDRDQGCLVIVRPDQ
+YVAQVLPLTAHDQITQLFAGVLNPHR
+>tr|B7RLX7|B7RLX7_9RHOB
+MTDYVLSDDTRDKLARVSTASIATQLYKRGLRNQFIQGVRPVSDKDGNMVGQAFTLRYIA
+AREDRNQLEVFRNAGHPQRVAVETCPPGQILVMDARGDASAATAGSILVTRLAVRGCAGV
+VSDGGFRDAKGIGKLNMPAYCAGPSAPTNLTKHEALDINVPITCGEAPVFPGDVLVGDAD
+GVMVIPAHLANEIAEVCAGMESFEDFVLEEVLGGAPIIGLYPCTKDENMQKYEAWRQMND
+R
+>tr|B7RK97|B7RK97_9RHOB
+MWSEDAALQVYAARTLKRLDTDWARDLLEQLYLDDETQSWADNVAAPTDHKDSNGVPLAS
+GDTVVLIKDLPVKGGGFTAKRGTAVHRISLVADNPAHIEGRVEGQRIVILTEFVKKR
+>tr|B7RGU3|B7RGU3_9RHOB
+MTDPAQTPYPAHDPKEQLLDAALVHVAFDGWSEATFQAAIKDAGLDATVARAVCPRGAVD
+LAVAYHKRGDDQMIARMKSEDLSEMKFRDKIAAMVRFRLETVNDKEAVRRGTTLFALPQY
+AADGAKLVWGTCDAIWNALGDTSDDVNWYTKRATLSAVYSSTVLYWLGDTSEGHADTWEF
+LDRRIDNVMQIEKLKSQVNNSPTLSKLMAGPNWLLSHVKAPSRMPKMGLPGSWTSPRN
+>tr|B7RL11|B7RL11_9RHOB
+MSDSDGKKTLGLRGAPARPGNVKQSFSHGRTKNVVVETKRKRVVVPKPAGVKPTGGSNPS
+LGDPKKRPAGITDSEMERRLKAVQAARARESEEAEARAAEEKARAEDRERRRAEIDAKEA
+EEREREESLKAKAAEDERRKAEAEAAAVAAAAPAAVEQPSSAKMPNTKGGAPAPVVRKKE
+GDREETNKRNKAGDDSRRSGKLTVNQALTGGEGGRQRSMAQMKRKQERQRQKAMGGTVER
+EKVVRNVNLPPAIVVSELANRMAERVGAVVKALMNNGMMVTQNETIDADTAELIIEEFGH
+KVVRVSDADVEDVIKEEIDDPKDLVTRPPVITIMGHVDHGKTSLLDAIRKAKVQSGEAGG
+ITQHIGAYQVTTDNGQVLSFLDTPGHAAFTSMRSRGAQVTDIVVLVVAADDAVMPQTIEA
+INHAKAANVPMIVAINKIDKYEANPDKVRTDLLQHSVIVEKMSGEVQDVEVSATTGQGLD
+ELLEAISLQAELLELKANPNRAAVGAVIEAQLDVGRGPVATVLIQNGTLRQGDIFVVGEQ
+YGKVRALINDQGERIKEAGPSVPVEVLGLNGTPAAGDVLNVTSTEAQAREIAEYRANAAK
+DKRAAAGAATTLEQLMANAKADETVSELPLLIKADVQGSAEAILQAMEKIGNDEVRVRVL
+HSGVGAITDTDVGLAEASNAPIIGFNVRANASARATANQKGVEIRYYSVIYDMVDDVKAA
+ASGLLSNEIREHFIGYATIKEVFKVTGVGKVAGCLVTEGKASRSAGVRLLRDDVVIHEGT
+LKTLKRFKDEVSEVPSGQECGMAFENYEDIRAGDVIEIFTREEVVRTLD
+>tr|B7RQ90|B7RQ90_9RHOB
+MSFTLAIVGRPNVGKSTLFNRLVGKKLALVDDQPGVTRDLREGAARLADLRFTVIDTAGL
+EEVTDDSLQGRMRRLTERAVDMADICLFMIDARVGVTPSDLVFADILRKKSAHVILAANK
+GEGRAADAGVLEAYSLGLGEPIRMSAEHGEGLNDLYTHLMPIADGFSERVDTDTPETDVD
+LTEEEAELGDEDAPVPVPTNAKPLQVAVVGRPNAGKSTLINQIMGEDRLLTGPEAGITRD
+AISLRTVWEGVPMRIFDTAGMRKKAKIQEKLEKLSVSDGLRAVKFAEVVVVLLDAEIPFE
+QQDLRIADLAEREGRAVVVAVNKWDLETDKQGKLKDLRESFERLLPQLKGAPLVTVSAKT
+GRGLDRLHNAIMRAYDVWNRRVTTAQLNRWLAGMMEAHPPPAPQGKRIKLRYMTQAKTRP
+PGFVVMCSHPDKVPESYNRYLVNGLRIDFDMPGSPIRLWMRGQSDANPYKGRKKSKPSKL
+RKHTEGHRKDR
+>tr|B7RI78|B7RI78_9RHOB
+MTHLVTLEDAKHQPFWRRPVALLFLMALAMPIAFNTWSALLNNFVIEVAGFDGADIGLLH
+TVREIPGFLAVGVIALIIFVREQILGLVSLVLLGAATAVTAWFPSMGGILTITMLSSIGF
+HYYETVNQSLQLQWLKIEDAPRMLGWLMAAGSAATLVAYLAIMALWDTLSLSYNIVYLIG
+GGVTVAIALFALAAYPQFEAPTPQVKKMVLRKRYWLYYALQFMSGARRQIFVVFAGFMMV
+ERFGFDVHEITLLFLINLIANMIFAPLMGRAVGRFGERRTLGFEYIGLIIVFLAYGGVYY
+LGWGVVVAATLYVLDHMFFALALALKTYFQKIADPRDIAPTAAVAFTINHIAAVFLPVGL
+GLLWLVSPAAVFFLAAGMAGVSLALAMMIPRHPAPGNETIFAAPVPAVAE
+>tr|B7RJI0|B7RJI0_9RHOB
+MTPRQAFTGARIFDGSTLWDDHALLVSQTGTTQLVAPHAVPDGCPVTALNGGVVSPGFVD
+LQVNGGGGVMFNDSPDVETLTVMATAHQSLGTSAFLPTLITDTPDQTRAAITAVRQALGQ
+NIPGICGLHLEGPHLSVARKGAHDATLVRSMTADDLAMLLEAADHIDTLMVTVAPENVTT
+AQITALSKAGVIVSLGHSDCVYDTAMRAFDAGAACATHLFNAMSQATAREPGLVGAALDH
+DTVSSGLIADGVHVHPAMIRAALAANKGPGEVFLVTDAMATAGSDITSFTLNGRVISRAG
+GRLTLADGTLAGADLTLPQAVRYMVDVVGTPLTDALARATTFPAALLRTAHDTAHAHSMI
+WLSDDFTRCRWLTDL
+>tr|B7RLR8|B7RLR8_9RHOB
+MRPTEQVSVDQERLGTLYAQLGEAGAEDVVCRAMEELALRMSHCDRLFRESNWDELRKNS
+RSLIAIADQVGLQKLGLVASDVMSAIDQHDEVAVAATLTRLIRIGERSLTAIWDTQDMSV
+>tr|B7RM08|B7RM08_9RHOB
+MHAVWHKPENIARTPLDWLFTTALTRIGNSTMHSVTLLTSPERPKLEAALVDSLRNAWGG
+GDAVWLAPDEAASFDMSRMPGNRWDVWAECQGMGVDLIIVPSEGRRKKMLLADMDSTMIQ
+QECIDELADEAGVGARVKDITARAMNGELDFEGALRERVGLLEGLDEAVIGRVLAQRITF
+MPGGKALLATMKANGAYAALVSGGFTAFTTSVADALGFDENRANTLLAEGGKLTGHVTNP
+ILGKQAKVDALEDITARLGLAEDDVIAVGDGANDLGMLHRAGMGVALHAKPAVAAECDVR
+INFGDLTALLFVQGYAKDEFVV
+>tr|B7RN40|B7RN40_9RHOB
+MSFDMNFQAFTKLSRQADSPGAIWAIVQRYARAHEIRMIAYGSVEVQTYGETTFPGIQFG
+MPTAFKESYIKEQLYLDNPLPRLAMSRPDPFYWSDAQDLDDLQPAEIAYLDKLKEAGIWP
+GIAFQVFGPESRNAAVGMCFEPGAPRLSPDALLELQLASQCAHQRFCALTDGPKSPYARL
+SPRELEVLRWIAQGKSNSVMADIMGISRHTVDTITRRMFEKLEVTDRTRAAVRGISAGLL
+KQSVDDLM
+>tr|B7RG52|B7RG52_9RHOB
+MLGNWDDLRLFLAVAREQSLSGAGKLVRLDPATLGRRMARVEKGLGATLFVKSPTGYALT
+EAGTQLLARAEAAEQTMRMATAGVAEPTDHLGGQIRIGAPDGCANYLLPQVCARLVAQHP
+GLDIQIVALPRVFNLSRREADMAIGVSAPTAGRLVVQKIADYQLHLAAAESYLAAHDPIE
+GIADLQAHRLVGYIPDMIFDRELDYLAELGMTRVPLASNSVSVQVNMIRQGGGVGIVHDF
+SLPTTPGVKRILTDQVSLSRAFYLIRHADDRRNLRLSRFADALAQGVRAEVIRLEANT
+>tr|B7RPM6|B7RPM6_9RHOB
+MTQIQPRLEIKHLKRAYGGRAVVDDVSLKIMPGQVTCLLGPSGCGKSTTLRMIAGVEMQD
+SGTIHVDGNLICDTVFRIPPERREIGLMFQDFALFPHLSVADNVGFGLKTGTKAERRARV
+EELLARVDLLRFIDGYPHQLSGGEQQRVALARALAPRPKIMLMDEPFSGLDNRLRDDIRD
+ETLGILKEEGTAVLLVTHEPEEAMRMADEIALMRNGKIVQQGAPYNVYTRPIDRASVAFF
+SDANVLRAEVSGALAHTPFGRFLAPGVPDGTQVDIVFRPQHVRIDFDRGGKGPLPTATDG
+TAARAVVSRARFMGNESLVEFVMDHDGSSLRATVPNVFLPQPGAVMWLTIRRDRCFVFPA
+T
+>tr|B7RLG7|B7RLG7_9RHOB
+MYWIDQMNTRIIAKLSTVSLIAALATLAACARSNDPVYTQFYREAGSLSDLGTFGDATLN
+NRLVMTGERQYTFDLANRFAGEVQSTVTFDFNSSQLDAAAQAILRQQANWIRQFPEVRFR
+VYGHTDAVGSNRSNKALGLRRARSVVAFLTTQGISTSRLEAVVSFGETQPLIVTQGRERA
+NRRTVTEVSGFVGRHPTVLDGKYAQIIYRDYVASAVPPTQLTGGTATATTE
+>tr|B7RK13|B7RK13_9RHOB
+MKLTVNGTSHVVDVEEDMPLLWVLRDELGITGPKYGCGIAQCGACTVHVDGIAVRSCQLA
+AGDVSGDITTIEGLGTPAVLHAVQEAWIDLQVAQCGYCQAGQIMQAASFLDLNPTPTDDQ
+IDAAMSGNLCRCGSYPRIRAAVKSAATKLKGV
+>tr|B7RM81|B7RM81_9RHOB
+MPYRAAVEDYNFLFDHVVKLDAVRGTDKFEDATDDVIRAILEEAGKLCNEVLAPLQRPGD
+LDPARLENGVVRTSNGYADGFKAIADGGWIGISADPEYGGMGLPLSLASAVNEMMSGACL
+SLQLAPLMSQGQIEALEHHASDAIKDLYLPKLISGEWTGTMNLTEPQAGSDVGALASKAE
+DNGDGTFSISGQKIYISWGDNDFAENVCHLVLARLPGAPAGTKGISLFLVPKILPNDDGT
+LGKANSLKVVSLEHKMGLHGSPTCVMQYDQATGWLVGPEQGGMAAMFTMMNNARLGVGEQ
+GIGVAEGAYQHALAYALDRKQGKTSTADGTGSIVDHADVRRMLMTMKADTFAARAIALSC
+AVAIDMTNATGEADWKSRAAFLTPIAKAFGTDTGIAVSETGVQVHGGMGVIEETGAAQYC
+RDVRVTAIYEGTNGIQAMDLVARKMMDGGDAAYRLLDEIEADAEAAREAFPNMADAVWQA
+SETLREATEWLVSQTDLDNRFAGAVPYLRAFARVLGAHLHLKAALADKGGAREKLARFYI
+LRLLPEHVGLLTHAQAGKADLFAMTADELAV
+>tr|B7RKS3|B7RKS3_9RHOB
+MGQMLIGQVSANDRVRLVGAIERPGHAWVGQDVGVAMGGAALGVIVTDDPLEAIAPAQAV
+IDFTAPEATLEFAALCAQARAVHVIGTTGMTEEQIAALEPAARHAVIVRAGNMSLGVNLL
+TQLTKRVAAALDDDFDIEIIEAHHNQKVDAPSGTALMLGEAAAEGRGVKLADVSDRGRDG
+ITGARKRGDIGFAAIRGGDIVGEHDVLFAAAGERIILRHLATDRAVFARGAIKAALWGQG
+KAPGAYDMLDVLGLND
+>tr|B7RQA2|B7RQA2_9RHOB
+MSLWEYANPVKFLGLSARVQPYLWAAAAICVVVGLTWGFFATPDDYRQGSTVKIIYLHVP
+AALMAINAWFMMLVTSLIWLIRRHHVSALAAKAAAPVGLTMTLIALVTGAIWGQPMWGTW
+WAWDPRLTSFLILFLFYLGYIALWEAVEDPDTAADLTSVLCLVGSVFAILSRYAVNFWNQ
+GLHQGTSVPVATGGRTVADVFWYPLLISMVGFGLLFLSLVLYRTGTEIRLRRTRALLARS
+RKDV
+>tr|B7RN95|B7RN95_9RHOB
+MPNPTAAMIVIGDEILSGRTRDSNMHHLAGQLTSVGIDLKEVRVIGDEHGTIIAAVQAMS
+KAYDSVFTSGGIGPTHDDITADCIAAAFNKSIDVREDARAILAAHYAKSKTELNEARLRM
+ARIPQDATLIENPVSAAPGFKLENVHVMAGVPAVFEAMVATVLPTLTGGAPLLSATLRIE
+RGEGDIAGPLGQVAKDHPTLSIGSYPFQKDGRYGAHIVIRGSDQTEIDIAVQKLEEAFP
+>tr|B7RKA8|B7RKA8_9RHOB
+MDSIVVKGGGALSGQIPIAGAKNACLTLMPATLLSEEPLTLTNAPRLSDIRTMTELLRSL
+GAEVSTMQEGKVLALSCHGAINTRAEYDIVRKMRASNLVLGPLLAREGHAQVSLPGGCAI
+GARPMDIHTDSLALMGAEIDLRDGYLHAKAQGGSLKGAVIDFPFASVGATENIMMAATLA
+KGTTVINNAAREPEIVDLADCLRAMGAQIDGDGTSRIEIQGVDRLGGATHRVVTDRIELG
+TYMLAPAICGGEVELLGGRINLLQAFCEKLDAAGIDVTETENGLKVARRNGVISAVDVTT
+EPFPGFPTDLQAQMMALLCTADGTSVLEEKIFENRFMHAPELIRMGADIEVHGGTATVTG
+VKKLKGAPVMATDLRASVSLILAAMAAEGETRVNRVYHLDRGYEHVVAKLRGVGANIERI
+KEQ
+>tr|B7RIL6|B7RIL6_9RHOB
+MTEWQHQDVIDLFVIGGGINGCGIARDAVGRGLTVELAEMNDLASGTSSASTKLFHGGLR
+YLEYWEIRLVREALIERETLLRAMPHISWPMRFVLPYHPDMRFEGDTPTSKVLSVVMPWM
+KGRRPAWLIRFGLFLYDNLGGRKILKGMTSLNLPGSPEGAPLQDRFQKAYEYSDCWIEDS
+RLVVLNARDAQERGARINVRTKVVSAEQVDGLWHVTVEGQDTGEQRVIVARMIVNAGGPW
+VENVIRNTVRINSTEGVRLVRGSHIVTRKLYDHDKCYFFQGEDGRIIFTIPYETDFTLIG
+TTDADHADTNAKPVCTPEEQSYLLEFASKYLKNPVTADDVVWTYSGVRPLYNDGASSATA
+ATRDYVLKVDQSAGAPILNVFGGKITTYRKLAESALEKIAPFCPTTGQDWTAGVPLPGGN
+FPVDGVAALNDRLMARYPFLSERWAARLVKAYGIEAFDVLGEAETKADLGQDFGADLTER
+EAGWLVEKEFARSAEDIVWRRSKLGLRLTKQEIDRLDAWLADAAAVPSAPNAV
+>tr|B7RKV3|B7RKV3_9RHOB
+MKRKRLNKDDLSLWKKVTERTEKLDMNQLFRPEIDGPPPSAPQIRKSTSIILGKPSPKPR
+RNTHDLAPSLPDQLRQQPVQMDSKAFTRLKRGKLSPEGRIDLHGMTLDRAHPALTRFILN
+AHKNGKRLVLVITGKGKMRDEGGPIPVRHGVLRHQVPQWLAMAPLASAVMQVSQAHISHG
+GGGAYYVYLRRHR
+>tr|B7RLT7|B7RLT7_9RHOB
+MDNAKPLPSYLVQRYHGWKATSYAENQAWYRRLASDGQHPRAMVISCCDSRVHVTSIFGA
+DQGEFFIHRNIANLVPPYLPDGEQHGTSAAVEYAVQVLKVAHVIVLGHSSCGGVQGCIDM
+CQGKAPGLEEKNSFVGRWMDILRPKYDIVADIDDPKEQVRQLEKLSVMTSLENLMTFPWI
+AEKVKADELTLHGLWTDIGEGGLECYSADKKLFVQV
+>tr|B7RPN8|B7RPN8_9RHOB
+MTKTALITGASRGLGAALAEALCDSHHIIAVAKTTGALEELDDRIQARGGSATLAPMDIT
+NDAAMATLCRGIFDRWGSLDLWLHTAVHAAPLTPTDHIDAKDMAKSVAANITATSTLITY
+VSPLLGQAGQAVFFDDPVIATKFFGSYGATKAAQIALARSWQAETAQIGPKVHIVTPAPM
+PTATRARFHPGEDRAALHSPQSQADKIIASLSASLA
+>tr|B7RQF5|B7RQF5_9RHOB
+MISLFFYGTLRHLPLLEIVLGRPADDIDVTPDVLPDHAVLAVAEGPFPCIVPQAGAFAEG
+VLVKGLSPQDIERLNFYEGSFAYDLRDVTLQSGETAQVYFPQEGLWTPKTAWDLQQWEAD
+WGALSCFAAREVMDYLGRYSAAQVARMFPMIRMRAASMVNAAQSTQGQGTLHGKVDIARI
+NRVYTNYFALNEYHLSHERFDGSMSDVLERAVFLASDAALVLPYDPVRDRVMLVEQMRMG
+PVARGDRALWQFEPIAGRVDPGETPEQTAHRESMEEAGIALQSLEKVAEVYASPGCSTEF
+FYIYIGLADLPDRATGIGGLETEDEDIRSHLMSFDALMQMVDALQAANSPLVIAAYWLAR
+HRDRLRLGAPIATPEAT
+>tr|B7RGS9|B7RGS9_9RHOB
+MKFTLSWLKEHLDTTASLDEITYALTDLGLEVEGVEDRGAKLANFTLGYVKSAEKHPDAD
+RLRVCQVETDEGVQQIICGAPNAREGITVVVAKPGVYVPGIDTTIGVGTIRGIESFGMMA
+SERELELSEEHDGIIELPSGEVGDRFIDWLAKNDPAKVDPVIEIAITPNRPDALGVRGIA
+RDLAARGLGTLKPRDMPAVEGTFPCPISVSIDEDTLDQCPVFYGRVIRGVTNGPSPAWLQ
+DKLRAIGLRPISFLVDVTNFFTYDRNRPLHVFDADKVAGNTLRVHRAKGGETLMGLDEKE
+YTFTEGMTVISDAEKVESIAGVMGGLETGCTMETVNVFVEAAYFDPVRTAYTGRALKINS
+DARYRFERGIDPEWTPYAIEHATQMILDIAGGEASDVVIAGKVPDFSRAYKLDAARVQSL
+VGMTISEADQRKTLTALGFRLEGNMAHVPSWRPDVQGEADLVEEVARIASLTKLEGRPLP
+RLTAGVPKPVLSPIQRRESFARRACAALGYNECVSYSFIDQASAALFGGGTDETRLENPI
+SSDMSHMRPALLPALLQAAARNQARGFPDMALFEVGPVFTGGEPGEQHMQVSGLLVGRTG
+PKDVHGSSRPVDVFDVKADVEAVLSAIGAPAKVQINRNGAEWWHPGRHGQICLGPKKVLA
+VFGEIHPRVLAAMDVKGPAMGFTIWPAEVPLPRKTGSSRPALQISSLQAVERDFAFVVDA
+DVDAMTLVNAAMGADKALIDDVRVFDEFIGGALGEGKKSLALTVRMQPSDKTLKDADIEA
+VGAKVIEKVTKATGGVLRG
+>tr|B7RKJ0|B7RKJ0_9RHOB
+MKVLVAGATGKTGSRLMETLVARGHDPIALVRESSDTSKLPAQAEQRLGDLADLQDGVCE
+GCDAVVFAAGSGGDTGADMTDKIDRDGAMRLVDLAADAGVRRFVMLSSVGAGDPDPESDL
+AHYLQAKHDADEHLKKSGLDYAILRPVALTDDDGTGDMLFGDDVDVTAKAARGDVATALA
+DALESDAWTGKVKLMQSA
+>tr|B7RL32|B7RL32_9RHOB
+MTAKTILMTGCSSGIGYAAAHGMRERGWRVFAACRQQADCDRLIAEGFDSPLLDYTDTAS
+IHAALAQVLAATGGTLDALYNNGAHGTPGAVEDLPTDALRAIFESNFFGWHELTRAVLPV
+MRAQGHGRIVQCSSVLGLVTMPWRGAYNATKFALEGLTDTLRIEMRDTPIKIVLIEPGPV
+TSRIRANSIPHFERWIDWESSPRKAQYEAVLRKRLYESRGPDTFELPPEAVIQKLVHALE
+SPRPHPRYYVTTPTYISGILRRILPTRALDWVLAR
+>tr|B7RJ10|B7RJ10_9RHOB
+MTKVTQILTLGCGDDLYAVPVDRVQEILDPCPVSRLPHAPAHLLGVIDVRGDDVVLADLR
+IILGLPLCADTAATRIVVLWLNWEGRRAVIAVKADRVIEVTHLDDDTLTDVPEAGLFAWE
+ERLVSGIGRCKGKFVTMIDLDSMFQAVSAETLSKAVSTSSKNEQAA
+>tr|B7RIU2|B7RIU2_9RHOB
+MAEQTINNPPAPVPETGVADLGLFGKPLFQDPSARALARVGVVDVGSNSVRLVVFDGAAR
+SPAYFYNEKIMCALGAGMAETGHLSPQGRTRALSAMQRFKKLADGMGLSELTVVATAAVR
+DASDGRDFCDEVQRLTGLKIWVIDGEEEARLSAQGVLLGWPGAYGLVCDIGGSSMELAEI
+SGGRVGKRVTSALGPLKLRDIKGGAKARQAQIKDVIEGLALKMGAQRDRLFLVGGSWRAI
+ARIDMMRRGYPLHVLHEYRMTPKSVRETVRYIKESDLEELRQFSGVSASRMALVPYAAEV
+LSRLVKTFKPKDIAISSYGIREGMLYEQMPQRLRDRDPLIEACRFAEAKDARTPGFGKVL
+FDFISPLFKSASPQRKRLIKAACLLHDVSWRAHPDYRAEVCFDNATRANLGGLKHAERIF
+LGLALLHRYSNKRENTRFEDLYEMVDAQTRAEAEVLGKAMRFGAMLWMNKEDERGSLRWF
+PKKKLLELWLTDDMMPLFGEVAEARLKSLAASLGAEVQLKTAKS
+>tr|B7RHE6|B7RHE6_9RHOB
+MRLHLSGCKVETPLLAGFNPILRLEEAPARVYLLSSTLQNNQRTFIIARRPHNAPPQRDT
+GPRINENIRSNEIRLIGADGENVGVVTPGRAMEMAEDAGLDLVEISPNANPPVCKIMDFG
+KFKYETQKREAEARKKQKIIEIKEVKFRPNTDTNDYQVKMRNVFKFLDNGDKVKITLRFR
+GREMAHQNLGRQLLERVAEDTKEVGRVENFPKMEGRQMVMLIGPMPNK
+>tr|B7RHD5|B7RHD5_9RHOB
+MTYLARGHTDHYILLEYTQDGARPMPMQAPDIEALLRETFPNATIEVQGNDGVHMAAMVI
+DESFRGKNRVQQQRAVYAALKGKMDGPSGELHALALTTKAPD
+>tr|B7RFU5|B7RFU5_9RHOB
+MGIFILRRLGVMLLTALCLTFIVFWLTNLYPNLEKLAKTQGNFRMSDEAVESYLGNRGYL
+DPTPVKFGRWLGVVPGWVTETEDGKVFGRCFGDGTPEEDRPRFCGVIQGDWGFSTVFKED
+VGPTVLTRLGLTGKLMLCVILLMVPSALVVGVLAGMREGSRMDRSLSTFSIATTATPEYV
+SGVIFIAVLASSRFGLSPLLADWGWIDSKTLFLGSATSAMDDATFWNFFLPVLTISLYGM
+GYIARMTRASMTEVMTAQYIRTARLKGVKFSDIVLKHALRNALIAPFTVIMLQIPWLLNG
+VVIVETLFNYKGFGWLLVQAASNNDIELLLAVSVVSVIVVLVTQLISDIGYVFLNPRIRI
+T
+>tr|B7RL76|B7RL76_9RHOB
+MIQMQTNLDVADNSGARRVQCIKVLGGSKRKYASVGDIIVVSVKEAIPRGRVKKGDVRKA
+VVVRTAKEVRRDDGTAIRFDRNAAVILNNNNEPVGTRIFGPVVRELRAKNFMKIISLAPE
+VL
+>tr|B7RL92|B7RL92_9RHOB
+MRHILLFLALIAFPVHAQTVPTSAMQMQLSFAPLVNQATPAVVNIYTRTIVQSSRTPLQS
+DPFFERFFRRPGAGQPRVQNSLGSGVILSEDGIVVSNYHVVGMATDIRIVLADRREFSAK
+VLLSDAESDLAILKIENVDGLSYLPLRDSDEVEVGELALAIGNPFGVGQTVSSGIVSGLA
+RSGGMNGGGQGYFIQTDAPINPGNSGGALIDMEGALMGINTSILTRSGGSNGIGFAIPAN
+LIRAFVDQARSGAERFLRPWAGMSGQPVDADMAAPLGLDRPGGIIVSGLHPVSPFLAGGF
+LVGDVITAVNGQDVNTPAEMVYRMSVSGLGNEAVVTRLRDGEIQDLNVALIAAPETPSRD
+AVTLDERSLLPGLALARINPAVLAELNLSLEVEGVAVMEPGAYGLQVGLRPGDVILALNG
+RDVETPSQVRDALKGQRQVAMVVQRGTQRLSLRFRI
+>tr|B7RMW5|B7RMW5_9RHOB
+MADTMQFDLVSPERRLASMQVTAVQIPGADGDMTAMPDHAPTLTTLRPGVLRVEGPEGAT
+EYVVTGGFAEISAAGVSVLAERAVPKGEMTQEHLDEMMEEAKTMYSTAKSNFVNEPGPVD
+DAAKLLSDMVAMGDQIGLSSKQPSL
+>tr|B7RPV3|B7RPV3_9RHOB
+MNTATLQARTITQFSRKKITTMAVPVILLAYFTYIFVSFDMAGLGDRINLDNARTLLSDT
+YSYKTHVAQDNRDGTIALSIEGERKAQYPDGMTPDWVTLGAVPTVDLGQGHVITLGPQVT
+YEIPGYGRVTARPDGTGVNAVFPDGDLPDFINASKNRVMIATDAGRLTITRSRAEVFKYD
+YGWELFFFTLDSPYYGLGAGQLLSRAVTGEVGAIVSGFWNNTMWRHGDVLWALFETLLMA
+FLGTFGAAIIALPLAFLAARNFTPLGILRFAARRVFDFLRGVDGLIWTIVLSRAFGPGPL
+TGALAILLTDTGSFGKMFSEALENVDARQIEGVASTGATPLQRYRFGVIPQLTPVLLSQI
+LYYFESNTRSATIIGAITGGGIGLLLTQAIATQKDWEEVTYYIVLIILLVMSMDTLSGWV
+RRKLIKGDEGGH
+>tr|B7RP36|B7RP36_9RHOB
+MATVTGGTGDDTLTGTTGADSIQGNGGNDTISGGAGNDTIYGGQKGPPSYTAVSNGQTIN
+GTTGQDYFRWSAEDGSNATIRLDDGGGSDNDGDNVADYVLVGTTNTTNTLALRGFDYGKD
+KIVLQENYTGITSSVVQHSPTTYGVVYTITYANGHTQTFNIELNGTGPISPYQIFTTTQP
+TVSDDDSLSGGDDADTFVIEDDFGSDTIVGGEGGTDYDTMNLLSLTGPVTVTYTGAEAGT
+ITDGANTITFSEIEHLVLTDQADTVDGSADTAGMYIEARGGNDDILGGFGNDSLRGEDGN
+DTLSGQAGDDSVAGGAGDDLIYTGYGADTVWGDSGSDRFVIDDGDGSVTIYGSDEGGDTD
+TLDFNTGAATNGVTVTFGGWEFGAFNFDGTTGTFYEIEAVQGTDLADSLDASADMSGLDL
+SGAAGDDTILGGMGDDFIDGGTGDDSLKGGLGNDTITGDDGTDTFSYAAGDGTDTITDFN
+TGNTGTLNDGDSTNNDFINLSAFYDDIWELHADQADDGILNQSNDGVGGADYSNNAHFGS
+GGLIFSGASADNSSFTSENTGVVCFTTGTAIRTPRGDVLIETLRVGDLVVTADNGPQPIR
+WIGTRHLDHRALRAAPNLRPILIKADALGNVRPLFVSPQHSMMVGESNLVRAKHLAEYMP
+GVRVASGKRSVCYVHLMFDAHQIIFAENAPSESFYPGPMSLKMMGHEPRTELLTLFPDLR
+ADPSLRDFPARWYGGPAREVIRRRDLAEISMN
+>tr|B7RGP2|B7RGP2_9RHOB
+MIKTFTSRARLLLVFLFGMGLAACTDQAPKGGGDILVIGDSVMAWNGTADQAIPDVMAQT
+LGRQVINKAVPGALFNNGNAVYSAFGFDIQRQYPGGSWNWIVLNGGANDLGFGDCKCQDC
+RAKVDSLIGPDAMSGAIPAFLTRLRASGAQVLWMGYYKGNGKGSFEGCRDDLVLLEQRIN
+RFAAQTDGVIFLDSENVIDPQDDSQFASDNTHPSPKGAALVGRYLAKAISARDGRSQ
+>tr|B7RH10|B7RH10_9RHOB
+MTKIAAIIGGGVIGGGWAARFALNGWNVQVFDPDPQAERKIGEVMANARRSMPGLTDVAL
+PDAGAISFHDSISDAVAGASWIQESVPERLEIKHTTFGAIQQACDPDAVIGSSTSGFKPS
+ELQEGMARPDQIMVAHPFNPVYLLPLVELVPGNGIDGPMVDKAKATLTSIGMYPLHLKKE
+IDAHVADRFLEAVWREALWLVKDGIATTEEIDNAIRYGFGIRWAQMGLFETYRVAGGEAG
+MKHFMAQFGPALEWPWTKLMDVPEFNDELVDLIAGQSDEQSGAYGIRDLERIRDNNLVSM
+MRALKQQDWGAGRLMKQHEATLRAGTALAARADDIEDASQPVLTVRRAVPLDWTDYNGHM
+TEAKYLQAFADATDRFMELIGCDAEYIASGGSYFTAETHIRHVDEVHAGALIEVRTRVLM
+GAGKKMHLWHEMYEGDRLLATGEHFLLHVSLQTRKPSDPSDKIEAALVRFAQAHASLPMP
+EGVGRHVGAPR
+>tr|B7RLG9|B7RLG9_9RHOB
+MFSKYKKQGAAPAAKIAEVAKIAPVKQAEDAPAKPASMRRASQPATVAPLDKDLKRKQRM
+SEIKLELHRALLDNLNLAALEHATEQDLRQEINEISAEILAEKSIVLNREDRVQLNSELY
+DEVTGLGPLETLLKDDTVNDILVNGPQQIFVERSGKLQLTDITFKDEKHLLRIIDKIVSA
+VGRRVDESNPYVDARLKDGSRFNAMVPPIAVDGSLVSIRKFKKDKLGIDDLVAFGAFSEE
+MAAYLQAAVATRLNIIVSGGTGSGKTTTLNALSSFIDNDERILTIEDTAELQLQQTHVGR
+MESRPPNVEGKGEVSPRDCLKNALRMRPDRIIVGETRGEEVIDMLQAMNTGHDGSMTTIH
+ANSARDGVSRLENMIAMAGIEMPLKAVRSQISSAVNLIVQASRLQDGSRRMTSITEITGM
+EGDVISMQELFRYQRVGLTPENKIIGHFTATGVRSHFSERFKMWGYDLPSTIYDPIAAQ
+>tr|B7RQV2|B7RQV2_9RHOB
+MQSNQELEGFRIELRDWLEANCPAEMRGGEASEASICWGGKNFEFESDAQRDWMERAASK
+GYTVPTWPVEYGGAGLTRPQEKIFKEEMNRIGARSPLDSFGIWMLGPALLHFGSHEQKLH
+YLPPIARGEIRWCQGYSEPGAGSDLASVQTRGEDKGDHWLVNGQKIWTSYADKADWIFAL
+IRTDREAPKHKGISFLLINMEDAGVETRPIKLISGASVFCETFFTDVKVPKDQIVGTENR
+GWDVAKYLLTHEREMISGGGQGLSGGRALGAVLNESLGEGQEMETTLRADAMRCEVDALA
+IGLTLERYKDQAEAGTGAGDASAMLKYMGTELNKQRHELLMAAGGSDALEWDGPLGNRPA
+DWLRTKANSIEGGTSEVMLSIVSRRVLGLGA
+>tr|B7RR14|B7RR14_9RHOB
+MAGFLLRRLGQSIALLIIVSMIGFGILHLTPGGPLSQYALTPGMTQETMDRIAEQMGLNR
+PLPIQYLDWAWRLLQGDWGVSYRDQQPVLSVIGRHMFATFLLMASSTVIAIAVGTWIGIK
+GATHRYSLFDYTATVGAMVALSIPTFWFGLVGIYIFSLELGWLPAGNMYTIGDGSVLDYL
+HHLILPSLVLALVNIAIWSRYMRTATLDVINQDFVKTARAKGVSERRILMKHVVGNALLP
+MITLAGMQLPNLLSGALITETVFTWPGMGRLFLDSLGYNDYPVVMGLLMFSAILVLLGNL
+IADLVAAAIDPRIRLA
+>tr|B7RPK1|B7RPK1_9RHOB
+MLQDQDRIFTNIYGMHDRTLKGAQARGHWDGTAGILKNGRDWIIDQMKASGLRGRGGAGF
+PTGLKWSFMPKESDGRPSYLVVNADESEPGTCKDREIMRHDPHTLVEGCLIASFAMQANA
+CYIYIRGEYIREKEALQAAIDEAYDAGLVGKNACKSGYDFDIYLHHGAGAYICGEETALL
+ESLEGKKGMPRMKPPFPAGAGLYGCPTTVNNVESIAVVPTILRRGPEWFSSFGRPNNAGT
+KLFAISGHVNNPCVVEEAMSISFEELIETHCGGIRGGWSNLKAVIPGGSSVPMIPGAQMK
+DAIMDFDYLREQRSGLGTAAVIVMDNSTDVIKAIWRLAKFYKHESCGQCTPCREGTGWMM
+RVMDRLVTGDANPEEIDMLLDVTKQVEGHTICALGDAAAWPIQGLIRHFRDEIEDRIKHK
+RTGRVSAVAAE
+>tr|B7RMA8|B7RMA8_9RHOB
+MPFDLVTIPCLSDNYAFLLRDQASGAVALIDVPEAAPISAKLDDLGWTLTEIWLTHHHPD
+HIQGVPDLITEHPARIIGAKADAHRLPDLDHAVSDGETFQFAGHEVQVMDVSGHTVGHIA
+FYVPAAKCVFTADSLMALGCGRLFEGTAAQMWSSMQKLMKLPEDTTVCSGHEYTQSNAKF
+ALTVDPKNDALISRSREIDLARKNGVPTVPSTLVTELQTNPFLRPGDPGIRTQLGMKNAT
+DTDVFAEIRARKDRF
+>tr|B7RH32|B7RH32_9RHOB
+MDELRSRASLSQVVGRKVMWDARKSNQGKGDMWAPCPFHQEKSASFHVDDRKGFYYCFGC
+HAKGDAISFVRETENVSFMEAVEILAREAGMPVPQQDPRAQEKADKRTQLAQVMEQAVQF
+FRLQLQTGAAGAARDYLARRGLNAQALERWEIGFAADQWQGLWDHLKAKGVEDELIFGAG
+LAKPSTKGGRPYDTFRGRIIFPIRDARGRAIAFGGRAMDPNDNAKYLNSPETELFDKGRS
+LYNVKDARTAAGQGQPLLVAEGYMDVIALVQAGFGAAVAPLGTAITESQLQMLWRISPEP
+IITLDGDTAGQRAALRLIDLALPLLEAGQSLRFAVMPEGQDPDDLLRAHGAPALQKLLDN
+AMPMVRLLWQRETDGRVFDSPERKAALDKSLREKIMLIRDPSIRSHYGQEIKDLRYQLFR
+PQQAKKAFAPGARSAGQGRWNAAPQGPSPSAKSSILVTAAGLGATEHLREAVILCALLGC
+PQLVEEFETGVAAMACQDPDHAVIRDLMLRYAHRSPEALHEKICDALGAQALENMTTQRH
+VAITPCIRNPGNIEMTRMTVAEELGKLEAVRGLDAEIADAVEDLSGVADEGLTWRLSEAA
+RNADRAQRSGQEDTAEYDIGDNGAHISRDERSAFDALIGSIRGGDSKDKK
+>tr|B7RM49|B7RM49_9RHOB
+MKLLVVEDDATTGSYIARGLREEGHTVDLVPHGREGLFQASSGSYDVLVIDRMLPEVDGL
+TLVKTLRGAGNTTPVLFLTAMGSVDDRISGLNAGGDDYLVKPFAFGELSARVAALARRPQ
+VLEQDTVLRAGDLEMHLITRKVTRGGQDIDLLPREFALLEHLLRRKGRVQTRTMLLEAVW
+DISFDPMTNVVETHISRLRAKVDKPFDRELIHTVRGAGYRIDG
+>tr|B7RQF2|B7RQF2_9RHOB
+MWFRRDLRLTDHPALSAAAQTGRPVIPVFIRDDAVAGLGAAPKWRLGLGIGAFDDALREK
+SSRLILRKGDALEVLQDLIKETGAGAVYWSRLYDPQATARDADIKEALKGADVEARSFGG
+HLMFEPWTVETKTGGNYKVYTPFWNAVKNTGVDAPLSAPKNLTAPDTWPRSDDLAEWTMG
+GAMQRGADVVRPFVQLGEKSAQSRLGAFMAHGVADYKANRDLPGVDGTSNLSENLALGEI
+SPHQCWHAGQRALHDGKQGAETFLKELVWREFAYHLMHHSPRILTDNWREEWQAFPWNED
+ERLAEVKAWKHGRTGEPFVDAAMRELYVTGRMHNRGRMIVASYLTKHLMCHWRIGQKWFE
+DCLIDWDPASNAMGWQWAAGSGPDATPYFRVFNPATQLDKFDKNRDYTSRWIAEGRANPH
+ADALRFFDAIPKRWNLSASDDYPDRIVALDEGRERALENYKNRNF
+>tr|B7RPQ3|B7RPQ3_9RHOB
+MTQTLTLRRPDDWHLHLRDGDMLRAVLPYTSAHFARAIIMPNLVPPVVRGADAAAYRDRI
+LAALPEGADFTPLMTLYLTEDTDPDDVAAAHASGLVKAVKLYPAGATTNSASGVSDFDKV
+APVLERMAEIGLPLCTHGEVTDPQVDIFDREAVFIERVMDPIRTRHQGLKVVMEHITTAD
+AADYVRSAAQNLAATITTHHLVINRNHILAGGIKPHYYCLPVAKRETHRLALRQAATSGD
+ARFFLGTDSAPHTDANKLLPCGCAGCFSAPNTMSILAEVFEQDSALDHLEAFCALNGPTF
+YGLPVNEATLTLTRTPASYPAQIDTPEGPVTVFDPMMPLNWSVSAD
+>tr|B7RKV2|B7RKV2_9RHOB
+MAYLQFIRANWLFLLAGFLLTFTSSYGQTYFISLFAGEIKGSFDLSDGQWGGIYTIGTTL
+SAITMVWAGVLTDRFRVRRLSFWVMIALATACLAMAAVPNWIALIFVIYALRLTGQGMMS
+QLGAVAMVRWFEATRGKALSLSSMGFAMGQAVLPVVFVALFASFHWRSLWVLAACLVLIT
+MPVMLMLLRQERTPQSMAETTQVAGMDGHHWTRLQMMRHGLFWLMIPMIIGPAAWGTALF
+FQQVHLTEVKGWSLVSFVALMPLYTITSVISTFVSGWAVDRFGVNRVTPVQMLPFALSFA
+VLAYADTIAMAGVGLMIFGVGQGMQATATSVFWAEFYGTRYIGSIKAVAAALMVFGSAIG
+PGVTGLFIDLGVNFPEQMIPIAIYYVIAAIMATAGVLKYQGRLDQRRLGSFQR
+>tr|B7RP67|B7RP67_9RHOB
+MGQVFIKKGLTMAKITYVEHNGTEHVVEVANGLTVMEGARDNNIPGIEADCGGACACSTC
+HVYVDAAWVEKVPAKDDMEEDMLDFAYQPDPERSRLTCQIKVTDALDGLRVQMPEKQI
+>tr|B7RH03|B7RH03_9RHOB
+MRVLMSVTSWDATLVQKYLQEDGFLVTAAKDGTAIFESLSLMCRPIVILETDLPDVDWAN
+SIIKLRRQNRNMSILVLNRHKSAADQTKAFNLGADDVIAPDMDGREVTARIRAVALRRAG
+HSGVKINFGPMQMNVKDRRVYWGHQRVEMTPTQYNIFETICLAAPYAVSKDVIMAELYGV
+EEGSEPVAIHVFLSNIRSRLVDAGASRDVIETQRGRGYRLAKSVTSQAPMHRSDDLIDHM
+TEADFEHSEQVAKSA
+>tr|B7RH04|B7RH04_9RHOB
+MQRQERLALHRAMPDGASPAPKGDCAMIIYGLSTCSLCQKAIKALEADGKDVHFRDVRAD
+PFSEAELAELIAEFGDRLVDRTSNDYRALNDWLKNSEAEAQISAKPKVMARPVIRDADAF
+YLGWDDAVQKALLQG
+>tr|B7RH98|B7RH98_9RHOB
+MMEEKTMTIKTMIAASSVALAIGTAAFAANPTVGGAPMLVERNIIENALNSPVHTTLVAA
+VKAADLVDTLQGEGPFTVFAPVNDAFAALPAGTVETLLKPENKEMLQKVLTAHVVAGDWS
+AADIIAAARNSSDGFYHFNAVSGDALSAQVKGSKVYIYDENGNASLVTVADVDQSNGVIH
+VINSVLVPK
+>tr|B7RKM2|B7RKM2_9RHOB
+MFAHPELFDLSIAHMDCDAFYASVEKRDNPALNGKPVIIGGGRRGVVSTACYIARIKGVK
+SAMPMFQALKLCPEAIIIKPRMDAYVEASRAIRTMMEELTPSIEPLSLDEAFLDMTGTTK
+LHGAPPAVMLARLVRRMKTELGLTGSIGLSHNKFLAKVASDLDKPNGFSVIGMAETQSFL
+ADKPVSMIWGVGAASLATLNRAGIKTFSDLLRWERTDLVARFGSMGDRLWHLARGQDKRR
+VSSHEQMKSISNETTFNDDTSDPELLDGHLWRMAQKVADRAKAKDLAGRVVVLKLKRADF
+SLITRRVSLYDPTQLADRIYRTARGLFDQLNDPGPYRLLGCGISDLGPAAGADQSGDLLD
+PDAKRRGQAERATDAIREKFGDKAIVKGRALR
+>tr|B7RMC3|B7RMC3_9RHOB
+MDAMTGLLLVLMFVLTIFMVLQAVLTQRINGQEDELNSLSGEVAALAQALGMERRNSADL
+EMQVGALNTSLTAARDRATEQASLIAALTATRDSQAAELENAQTQITSFEAQVATLLSQR
+DDANAQIASLVSQRENADAQIAALSDQRDDAQARVATLEDAQAALISEQDALNLALAAAR
+SETDAQAEAARLAAARREALDALVADLRARNEDTQAQVAALTTAAEEAETALSEAESARI
+AEAAAAELLRNRLENADAELTAMTLSLEAQRKDAEDALTLLAAARAAEKDLDAMLAAALA
+DVGKLETQVADRAALREQLAEALAAKVAAEAQAQEQLTDAQKDAQKQAALLAAAQSALSQ
+ETATSAAAQRQTELLNQQVAALRGQLGELQSLLDDAVARDAVKEVQLQSLGSDLNTALAR
+VAAEERRRAELEAAERKRLEAETKNLEQYRSEFFGRLRDLLGNQAGVRIEGDRFVFSSEV
+LFPPGAAQLSTDGQREIAKVAEILRNIAADIPPEIDWVIRVDGHTDNQPLSGLGAFADNW
+ELSQARALSVVKYMINFLGIAPDRLAANGFGQYQPVAEGDSESARAQNRRIELKLTEK
+>tr|B7RMZ2|B7RMZ2_9RHOB
+MAETRKTKLLIIGSGPAGYTAGVYASRAMLDPILVQGIEPGGQLTTTTEVENWPGDSEVQ
+GPDLMIRMQDHAKAMGTEIIGDIITDLDLSSRPFHAKGDSGTTYVADAVILATGARAKWL
+GLETEEKFKGFGVSACATCDGFFYRNQEIVVIGGGNTAVEEALFLTNFASKVTLIHRRDE
+LRAEKILIDRLMKNPKIEPLWFHQLEEVYGTDAPLGVEGVKVKNVNTGEITDIACKGVFV
+AIGHAPANELVKDVLETHMGGYVVTKPDSTETSIPGVFAAGDLTDHKYRQAVTSAGMGCM
+AALEAERFLAEVGDDEGKDTSLPLGYGAEVKTDA
+>tr|B7RHS5|B7RHS5_9RHOB
+MNIAETASASSIKGLLFDKDGTLFDFAKTWEAWANACLLRLTQGDVARATVIGAAVGFDM
+AAGRFSKDSVVIAGTPGDVVAVLASHVPEMSQAALIDVLNEEAENAPQSEVTPLVPFLQV
+LRARGLALGVATNDAEVPALAHLNKAGVAHLFDFIAGFDSGHGGKPGPGQLTAFARSVGL
+DPSQIAMIGDSTHDLIAGKAAGMTRIAVLTGMASADDLAPHADVVLPDITHLPKWLDGQG
+D
+>tr|B7RPC2|B7RPC2_9RHOB
+MNAATKLPTDVGPIHFVGIGGIGMSGIAEVLLNQGYRVQGSDLKASKITNRLVELGATVF
+EGQRAENIEGAEVIVISSAIKPGNPELDAARFAGLPIVRRAEMLAELMRLKSNIAVAGTH
+GKTTTTTMVAELLVKGGIDPTVVNGGIIHAYGSNARMGQGEWMVVEADESDGTFNRLPAT
+IAIVTNIDPEHMEHWGNFDTLRQGFLDFVSNIPFYGLAICCIDHPEVQALVGKITDRRVM
+TYGFNAQADVRAVNLHYKAGVAHFDIQFQSEDITIKDCSLPMPGDHNVSNALAAVAVSRH
+LGIKGEEIRAALAGFGGVNRRFTKVGEVDGVSIIDDYGHHPVEITAVLKAARQATEGRVI
+AVHQPHRYSRLSHHFDEFCACFNDADVVGIAEVYAAGEDPIPGASRDDLVAGLIRHGHRH
+ARAVQSEEDLARLVKEQAGPGDMVVCLGAGTISTWANSLPATLEAMKKETV
+>tr|B7RG49|B7RG49_9RHOB
+MATKLAINGFGRIGRNVLRALMEQGADDLQVVAINDLAPLETNAHLFEFDSVHGRYGRTV
+TLGDGTMDVGQGPIRVTAERDPAALPWGDVDIVLECTGIFVSRDGAAKHLANGSKRVLIS
+APGKDTMKTIVYGVNHDLIDANDTVLSNASCTTNCMAPLTKTLNDAFGITHGHMTTIHAY
+TGDQPTHDTAHSDLYRARAAALSMIPTTTGAAKTLGKVLPELDGVIGGTAIRVPTPNVSC
+VDLVIEVSREVTAEDVKAVLQTAADGPLKGIMGMESRPLVSVDLNHDAHSCVVATDQTSV
+QGGTQVRVLAWYDNEWGFSNRMLDTSRVIAKFL
+>tr|B7RFZ4|B7RFZ4_9RHOB
+MNISPTDISAVRRPIAQANGLPNAHYTDPAVFAEERQAVLFNNWPGLAVASDVPEIGDAV
+PLDFLGMPLLIVRDRQGQVRVFQNTCRHRGMILVDAPRKIDGAIRCPYHSWCYSTDGRLV
+STPHVGGPGQNTHEGIDRALLGLVEIRSHVWMDVIWINISGTALPFEQANADLLARWAEF
+DKPLHHGGADSRFQLSVNCNWKLAVENYCESYHLPWVHPGLNSYSRLEDHYHIENTGKFS
+GQGTLVYRQLKGEDDKSFPDFDGLSDKWDTAAEYVTAYPNVLLGVHRDHSFAIILVPEGP
+EKTTENIHIYYAAPNTDPELRARNTDQWKLVFEEDIFVVEGMQRGRHAVQFDGGRFSPAM
+DGPTHMFHDWVASQLQDHRAVP
+>tr|B7RG98|B7RG98_9RHOB
+MALNNTAIRYGGVTKFFHWLTALLILTLIALGFYANDLPHETQAELTTKAWFFSLHKTLG
+VTVFFVALLRIMWALRQPKPGLLNADKKLESWLAETVHWLLYGALVIVPLAGWISHAAAS
+GFAPIWWPFGQDLFFIPKNTTVEHAFGALHEIAGKVLIGALILHAAGALKHHFIDGDSTL
+RRMLPGEPAIGPVPPQHHSYAPVAAAAAVWALAIALGLGLGLLQSDGKGAASDGPALEQV
+ASEWQVEEGSIGLVVTQFGSEVEGSFADWTAAISFDADAQSGKAGEVTTTVSVPSLALGS
+VTDQAMGADFFNAESFPTAVFQADINLTDAGYVADGTLTIKDQSIPISLPFDLTLDGDTA
+RMSGSTTLDRRAFAIGQSVTDAATLAFEVAVNIALVATRQAD
+>tr|B7RFQ1|B7RFQ1_9RHOB
+MSANSVRHDVIIIGSGPAGLQAAYYFAKKGISFKVLERSDKISAFLRQFPRHRQFISINK
+VHTGLSNPETRLRHDWNSLLNDEGLLFKDWSRKYFPSADDFISYAETFAKPLADHIVCNA
+DVRKIEKSGDTFVISCADGTTHQAGNVIVATGVSQAWDPGIEGFELAANYTEFDTDPERY
+ENKRVLILGKGNSAFETADSLLEHAASIHVMSPNPIKFAWQTHFVGNLRAVNNNFLDTYQ
+LKSQNAVIDAQALEITKQDGVYTVRAKMTAAEGHEIVLTYDHVIACTGFQFDNSIFDAAI
+QPRLRHFDKFPAMTGEWESENVDGLFFAGTIMQSCDYKKTMSGFIHGFRHNVKCLADLIS
+ARVQGGSYPTVTTPLSQPQLRDSIIERLSTASGIFLQPGFMADVITLDGPETGKTWQDIP
+LSWVQNAPLNAGTYLQVTLEYGDFGSDSLHVKRQNNVFGKEPDAFIHPVIRLVTDGKVMD
+EMHLADHLDADWRPRAARGGDQGTVLQMTFQDAGGVVDPADVASQQLDAFLRRIGMGDIA
+QSTAAE
+>tr|B7RJ02|B7RJ02_9RHOB
+MTRKPTFTLTITNGNQGRTAPANAPQPKADNINRMEDRLMARAQLAATYAGLLGVETAAR
+DVYETIATHTIEGAKTGQEADAIATGLESAGLLTQVRRIVGLSEDMWPALAFMTSGQVLL
+VMGQTRGDLIVYDKTCTDNRAMVPMADFQPFFAGVILRAEASLRTVAQIHQTDGAPAHWF
+WGQFPKFRRQLIEVAMGSFVANLLAVAVALFSLQVYDRVIPHQSEATLWVLAAGAGLALL
+MEAFLKMARARLMDGAGRQVELSVQDILMKRILGMRSDARGQAPNQQFSAMREFGSVREF
+FTASTIGTIADIPFIFVFLFLVASIAGNVVWVLVLGGLLMLVPGFFLQKKAIRLTQETQG
+AATKASRLLHEAIFERDTVKTQRAEDRIQRLWTELNTLSAVKSSEQRKLASFLTFWSQGI
+QQATYVAAVITGTYLVFAGQFTVGSIIAVGILTGRTLGPLTQLSGTMARWGNVKGALDGL
+DGIVSSAQDSDEARTYLRREKLQGQFELRDVIFRYEEDGAPTLDVKGMMIQPGQHIAVLG
+ANGSGKSSLLKLLSGLYAPTEGHILIDGTEMSQIEPRDLRRLIGYLSQDVRLFSGSLRDN
+LNLTMLERDDDRLMAALDFAGLGPFVRKHHRGLDLEIKDAGAGLSIGQRQSIGWARLWLQ
+DPAICLLDEPTAALDQQLEATLVARLQDWMKGRTAIIATHRAPILALTDRTLVLQDGRMT
+IDGPKEKVLAHLASHKGGAA
+>tr|B7RLN6|B7RLN6_9RHOB
+MIRTRAKYHLGQVVRHKKHPFRGVIFDVDPEFANTDEWYEAIPEESRPVKDQPYYHLLAE
+NDQSYYVAYVSEQNLVADYSGEPVDHPDIPDLFGPFTDGAYPLHFQLN
+>tr|B7RR63|B7RR63_9RHOB
+MEKEGMKRSIAKDENDKIAKILDEVADLLERQNASNFHITAYREAAAYVARSAPPLRDIH
+RSSGLQGLQDLPTFSFSIAQAVAKILETRITVDTGKNPWTFEARKPFLDRAKNRPQLRPS
+HRR
+>tr|B7RID6|B7RID6_9RHOB
+MQQIVAQGSVAVITGAAKGIGAAIATDLAARGMKLALFDRDGEALKALAAGLNTEVLTVT
+GDVSKAADCENLHGEVADRFGTPQLLMNNEGLMRRPGPWVSPEAWREVLDVNFTSALRLQ
+HLFVPDMIAADRPRAIVNLGSKEGITTPPGQAAYSVAKAGIKVLTEQLEHELRNATQGRV
+SAHLLVPGYTYTPMNFPDAKPEDPKPDAPWSAEQMVDYFMGRLLNGDFYILCPDNEVTPA
+MDAKRIRWAADDMILGRPALSRWHPDFKEDFAQWMKS
+>tr|B7RH84|B7RH84_9RHOB
+MEKRQPTEAGRDAVITHGIVTDNPEGLLRGKGWRGAWGVMREAGLRLWSDDAFGLAGNVA
+FRVLLAVFPFLIFTSSMTAFVGSQSMAEDLVSFLLAIVPETLIEPIVSEVKQVMTVQRGG
+VLSTGILLTIWFALGGVDGVRVGLNRAYGVRETRSWYVVYPVMVLMVIIASLVLVLVGYL
+LVLAPRAGSWLHVLFPGFDPASVTIRLVRYPAAAIILVFSLFLAHVFLPARRTRFSSIYP
+GVLFTVAAWTSLTVAFTFYLANFATYATYYGGLAGIVAALYFLYLAALVLIFGGELNRAI
+RIRRLARALRHDLDSN
+>tr|B7RII1|B7RII1_9RHOB
+MSLINPSDSLERQNEKLLQIAHALMRKVEQKHEDSGIAYAQFERAALLEVQVRERTADLE
+RTLDLLQKSNAQLATANVETEIAQANLTEAIETINEGFALFDTNDRLVLSNSRFCRDLCD
+ISKNLHAGMAFDDYVTVISQSRFLALPEDMTPEAWATARHERHRDDHVVFNVSLTQDRWL
+QISEHRTARGGTVILQTDVTNIIRLERLERDRMRDKQAQTLQATLDHLNQGVCIFDHEKK
+LVGWNKRMDRLLDLPPHQSALRLPFLTLLERLEHQLEFSADFDVDMLKRWAEHGAGRTAI
+AFEVTRSRNRILSVFGQEMPDRGFVISFTDVTVERESVRALAEMNERLEKRVQHRTHELG
+LALSEAKRANASKSRFVAAASHDLLQPLSAAKLFVASLADQIGETDLLNIANKAETALSS
+VEHIIEALLDISKLDSNEAVFDIKPVRLSALLRPLRDELTPVAMAKGLDLRILECGLTVC
+SDPGYLRRIVQNLISNAIRYTDKGRVIVGVRRVGGMARIEVWDTGCGISQADQQVVFQEF
+KRLDARTSHAGLGLGLAIVERACKSLDHPLRLWSEPGKGSCFSFDLPIRYGTEIQERSTA
+GRLGENASVRKGLVVLLVENDLQLANALIMMIEGWDAHVIHAPDGETALQLLSEIRLAPD
+ALVLDYQLGSGMSGIELLKHLKKDFGNLPVRLVSANRGKDLQNECDALDVTLLAKPIDRE
+RLYQFLSHLR
+>tr|B7RJI3|B7RJI3_9RHOB
+MNFAKLIKPEAVKVLTSASSKKRLLHDIGELAHNAYGLDAGAVVEALLTRESLGPTGVGH
+GVALPHARLEGLDEVLGAFVLLDKPIDFNAVDRQPVDIAFALFAPESAGVEHLKALALVS
+RTLRDASVCSKLRSNHDPATLYTILTEAQASQAA
+>tr|B7RLF0|B7RLF0_9RHOB
+MRYVSTRGSAPVLNFEDALLTGLARDGGLYVPEKIPTLSRGDLTEMATMSYEDVAFKVMK
+PFIGDTFTDAEFKALIAKAYAGFNHTVRAPLVQLDQGHFLLELFHGPTLAFKDFAMQLIG
+HMFQAVLSRKGERVTIVGATSGDTGSAAIEAFRGLDNVDVFILFPHGRVSDVQRRQMTTP
+AEKNVHALALDGDFDDCQARLKDMFNDHAFRDGVKLAGVNSINWGRVLAQVVYYFTAGLS
+LGALDRKVSFTVPTGNFGDIFAGYIAREMGLPIADLVVATNQNDILHRCLTTGAYHKGAV
+HASISPSMDIQVSSNFERALYFAYGQDSDAINGLMNDLADGGFDVGDNALRDLQNTYKSG
+RVSEEETSATIKEFYATTGELLCPHSAIGVRVAQEMRDPATPMITLATAHPAKFPDAVEA
+ATGVRPPLPDHMADLFDRDERLTRVPNDLEALKDIIKGGIAQ
+>tr|B7RNB0|B7RNB0_9RHOB
+MTFSKMTIAAALTSVLALSACEPGPIGGNPNDPNAKTRNGALIGAGAGAVIGALSKGDGN
+RAEGALAGALAGGAVGAGVGYTLDQQEADLRRQLDSNVIITNTGDRLIVTLPQDILFATD
+STTVQSGMQSDLAALARNVNVYSNSTLQVIGHTDSVGDASYNQQLSEGRANAVANVLIGN
+GVPRNRIQAVGRGESQPVASNLNASGKAQNRRVEIVILPNA
+>tr|B7RI68|B7RI68_9RHOB
+MEKTLESRPDSEPQESRSVTLTRFQKGLIVAGNASTGDPKNNMPLLVEFAGAIDNDRLRA
+AFSQVVKKHTALRTRIHDRDTAEVIPAAEFPVETDIIPLAKTDLQAWVKTASARPFDLTK
+RALRSTLLDHGDAGFSWFLIMHHAVTDGRSAVLMVTETAKAYADGVLEGSNLYAVTPTPP
+SAPMTFDTVTKTGPLYFPTSLGGTDATQLSFCLSSDEQDLLNTAAKGGLSVFSPDLSLLV
+LHATALCVWIGKLTGKPQLTIGVLLHQRNGTNMDVIGPLAEVFPVTISCDPDDSFRTRFR
+KTADAVLRMLRHALPGSSPQVPVDVLLNYLPHSQSDVQFGDVQARIAYLFSGALDSHQVA
+RYQIHKFATTVGSPVTAGDQVTHVIDLKTAPGQNGFAYPAAAHLKHALLAGVRSPDTPLD
+ALDLSPPDEAEFVRNWENTPPLLGPETDVAALLNTALQGRHAPVLEEKDASLSGHELWRA
+AWGFARYLHKHGCGAGDRICLERAPGMAYVIASYGAVLAGCSFVPLDLSLTPQRRATLID
+LAKPAMIIDMATNLDTISPADPIPDMTYQPTDEAYLLFTSGTSGTPKGVAISREGLSDYL
+RFALAAYFDAPAVAPLFGNMGFDLTITSLFCPILSGGRLIAIPDAGPAALSALAAQKDIT
+WLKATPSHLAILQKILPARHAINTIVVGGEALGLGLVDALQRVGRPIRIFNEYGPTETVV
+GCMIFSSDQPRPTGETNMPIGVPAPGVTLRIVDAQGNRVPPGVPGELLVSRSGMANGYLD
+GSTDAFITLDAKTFYRTGDLAYLNGDGQAVYLGRIDTQLKVGGVRLEPEEIEQALTAHPG
+VAQAVVRLWSPQPLAATRHCLTCGLPDNVPNVTFDADGICVVCRDFEQIVAQTESWFKTP
+QDMQAEINGRATDAPHDCLFLLSGGKDSTYALYRTVALGHRPYVLTLDNGYLSQDAKTNI
+KRAIRDLCVPHEFVTTSEMGTIFRESLSAHSNVCHGCFKTIYTLALQKAAELDIRAIVTG
+LSRGQLFETRLSPDQFRAGRFDANAIDDAVVAARKSYHRVDDTVRGIVDPDLLSDDSLFD
+RIAFIDFYRYHDVRLEQMLAYLAHHTAWQRPRDTGRSSNCLINVAGIHTHLIEQGFHNYA
+IPYAWDVRLGHKTRDEAIAELTDHIRSDEVDPILNDIDYAPAARKTLTAWVVLSEAEKGH
+LDPAALRRHLAGLLPAYAMPTAFVEIDAVPLSPNGKIDQALLPKPDRTVRAAAEIPLSFL
+TPTERTLIQVWEQVLKTSPIGPNDTFSALGGDSLSAVTMIITLSDRLGKRIPDQIAFAPN
+TLSELAATIDALDAVDSPLPPAMPSEGQDQPPTLSLQEKSILFEHRSQPASSRYNVCMMA
+RFSAPLNAERFGEALKAVARCHAPLIWTYGATRRRLPIDRAVDIRHVLHVPTREAAEKAA
+RDLQRYPFDLENGPLLRCLPMVLDGGDTVVALAVHHIACDHQSFAVLWQQLDDCYQDGIL
+PTLPSSYASVSAWQEDRQTTAHKDFWLVYPPATRTGYLDRPRPKLPEPDALLTHRLSSLS
+DVYRKNVDHTPVAVSIAAAVVALRPLIGGDDVSIGLVSSSRVHPDTADLVGYFLNPLPLV
+IHCPLDATYESLLAEVTRTLAQVLPLKDYPFAQIVADRKEAGTPLPQLDALVAIIHDNPI
+HFAGARIDGTFLSAGDAVAPLTFFHEVHDTSPTAMLEYSGTFTGSDDAQNLLGDFCKAIE
+QMIEDPNAAIFNARSDQDTGAMLIGPKPLKAPHILDAILSHVAHQPSASAVICGDETLSW
+QELDRQSGAIAAHLAAQGVGPGARVLISGARSVRLIAAIIGIMRSGAAYVPVNTQTPQAR
+IRRIVETLGVTYALTDQKNTQLGCPSDELNRDWARVEAPEADRDLNSEAYVIFTSGSTGS
+PMGVPIRHDQLAASTAARQVEYATPPCQFLLLSDIGFDSSMVGIFWTLSTGGTLVLPTDQ
+ERGDIDGLAARLASGQISHTLCVPVLYAGFLKRHRGKTWPTQVILAGDHCPEWLVKAHFE
+QAPDSRLSNEFGPTEATVWATVVHYEPGASDDSVGHPIPGVWLGILDDAGVLLPPCQQGR
+LAIGGPQVTSGYIGADPEKSGRFGSLADSPDPFGPVPMRYVLSGDNAMIRDDRLVLLGRT
+GAQLNVNGHRIGATEVEALVCATGEISHAILTTLDPRPLTQIMQSVPPAVLTAALDEVKT
+TADPDSALRLALGTRHSDHVDLALVVETPTQPDTDAIRAALARELPPYMVPTRIAWMPRF
+AVSINEKIDRNATVALALPKLLGAETTPSTPTFLQPRSPRIMASVEDLSAQILAVFRAEL
+RNDQLTASQSFFDHGGHSLMGLNAVMAIEKTGLSISTTQLYDTPTAHGLAYALLGDVPPA
+AVQPPQPRFHRAPLPLPEAGGYRTLNIPIQPNGTRPPIFAIHNLGENVEFFRHISEQLGP
+DQPFFGLGKPIKFSHHRKPSEMLHGKIDIHAVGHAYADEIMRMYPQGPIVLTAHCGGVPF
+SHATAVELTRRGRTPALNIMLNDLHAPRLNHRYDNVVKRVWRQRWNQLKRDKFDLFITLP
+QRLGGIVKLRQQMITRHIENHLVRRAEAAGKPLSPRLTSRKYVEDSIALLYDFEHVPYAG
+PSVAIRSTKEPKFWLKDGADRGWGGILSDWKEITIEGFGVEILFPPRVQDTAAEFRMMID
+NVVARCHPFDAQPQAVPPSVPVPDGTKADAYRIETADFSVELKLKHENAVAMPRIEQRNW
+LLNMAVRELAEEVDDLSRRGPKMIKTGGMAAMSDRATAALRPEEIMENWQIPLMEAMADS
+VCARGGDILEIGYGRGVSAAMVQSHEIASHTIVDCNPHVIADANRWKRQFRNREIQIIDA
+LWQDSLDQLAQYDGILFHTYPLDVEELVQNLRHCCTFAEEFFPVAARLLKPGGRFTYFAP
+ERDSLSRRHQRALHSHFDTVELRLIRDLGLPPESRDAHWFNEITCITATAKRV
+>tr|B7RKN8|B7RKN8_9RHOB
+MTRPLVTILDDEPEIRTLLAEVLEEAGFDTLSFGRARAFEAALATHTPDVCLVDLSLPDT
+DGLTLVHRLALEQGAIVIIISGRAQVQDRVTGLELGADDYIIKPFDPAEVVARIRARLRS
+PKPASQTGNVAAFNGWTAHFDRYTLEDDTGAETPFSHAEGEVLRLFLDAPKRLISRAQMQ
+TSLGGVASESFDRAMDVRISRLRTKLREDPKNPQLIKTIYGAGYIFLGDVTWS
+>tr|B7RNA2|B7RNA2_9RHOB
+MKLAATHPSTRKVCPMSDYPHLLAPLDLGFTTLKNRVLMGSMHTGLEETGDWNRVAEFYA
+TRARGDVGLMVTGGIGPNPEGSVAHGAAMMTSQKDVDNHSIVTQRVHEAGGKIAMQILHA
+GRYAFSPDCVAPSAIKSPISMFAPKELDAEGIEKQIADIAACALRAKQAGYDGVEVMGSE
+GYFLNQFLVTHTNKRTDEWGGSYENRMKLPVEVVRRVREAVGPDFILIYRLSMIDLIPNG
+STFDEVVQLAKAVEAAGATIINTGIGWHEARIPTIATSVPRAAFAWVTKKLMGQVGIPII
+TSNRINTPQVAEDVLAEGCADMVSMARPMLADADFVAKAAAGKADQIAPCIACNQACLDH
+TFGGKISSCLVNPRACYETELKVEPSHSVKTIAVVGAGPAGLSAAITAAERGHKVTIFDR
+ASEIGGQLNLAKQVAGKEEFWGLVDWYRAMVKERGVTVNLNTEVSANDLGGFDEVIIATG
+VVPRDPQIPGQNAGNVVSYIDILNGKVTAGKKVAVIGAGGIGFDVSEHLVHDGDSTTTNL
+PEWMKEWGVTDPADHRSGLAPEGPQPHAPAREVTMLQRKTTKVGKGLGKTTGWIHRASLT
+MKNVRMIGGVNYEKIDADGLHISFGEARETPQLIEADTIVLCAGQLSDRSLADALEAKGI
+PCHVIGGADVAAELDAKRAIDQGTRLAATL
+>tr|B7RJ04|B7RJ04_9RHOB
+MRAIRYSQLGEARDVLGLVEMDTPAPAAGEVCVRIALSGVNPSDVKSRKGRPGMTHPPFE
+QVIPHSDGAGVIEAVGEGVDPARVGQRVWIWNGQWQRPLGTAATHITLPEAQAVALADDV
+SFETAASLGIPGLTASHAVFNGGDVAGQTILIQGGAGTVGYLAVQLAKWAGARVIATTGK
+SGAARASSAGADVVLDYAAPDLAEQILAANDGAPVDQIIEVEFGVNIGLDAQVIKPNGRI
+AAYGSAKEMEPTLPFLPLLFKAVTIDIILVYLLTPTQRALAIDQVHRALAEHALECPVEQ
+TFSLADTALAHEAVEAGARAGAILVDCQS
+>tr|B7RJI2|B7RJI2_9RHOB
+MRYQISGKQIDIGDALQVHVKTELGEAVKKYAERPTDANVVFSKSSYEFVCEATVHLSTG
+LTASAKAHATDIYGSFDSCCAKMEKQLRRYKRRLKDHHRDRSEPVELFGASSYILASEPD
+TDAQEPETLQPMIIAEMQTKIATLSVGEAVMQMEISGSPVVVFRKDGKEGVNVVYRRDDG
+NIGWIDPS
+>tr|B7RK51|B7RK51_9RHOB
+MRDINLKATEYFEAVARLGTVTKAAQELGVSPSAVSQQLTSLESQLGVKLFRREKRRLIL
+KLDGDRLFQTTTQAFRALRNASSAIGRQRDMRNITIRVSPSFGVRWLGPRIATFAEQNPD
+WNIRVDATPDYSAFDTEAVDLDLRYGVGNWSGLTVEPVVNDLSLPMCNPDYLAWLQRQSD
+DPVEQLKHARLIDSVKTL
+>tr|B7RMF2|B7RMF2_9RHOB
+MSGTFGKGHHLHLIDGSAFIFRAYHALPPLTRKSDGLPIGAVAGFCNMLQRYVEGNHGPD
+APTHVAVIFDKGSHTFRNDMYDLYKANREAMPEDLRPQIPLTRDATKAFNIACKEKEGYE
+ADDIIATLAVQARAAGGRCTIISSDKDLMQLVGDGVEMLDAMKNKTIDREGVFEKFGVYP
+ERVVDVQALAGDSVDNVPGAPGIGIKTAALLINEYGDLDALLDRAEEIKQPKRRQTLIDN
+ADQIRLSRKLVQLDEDTPLDFTLEDLEVRDPDPDTLLGFLAEMEFRTLSKRIADVLGREA
+PVIEAPAVPDAPEAADIPFEAGNYEHVSDAAALQVWIDQIYEFGYVAVDTETTGLDEMVA
+ELVGISLCVQPGKACYIPLIHKTHTGDDLFGSEDLAEGQIPTEEALRMLTPMLEDPSIMK
+IGQNMKYDSKIFAQLGITVAPIDDTMLLSYVMHAGLHGHGMDALSERYLGHTPIPIKPLL
+GSGKSAVTFDKVPLAQAVPYAAEDADITLRLWQLFKPQLHRIQVTKVYETLERPLVPVLA
+AMERSGIKVDRDTLSRMSNAFAQKMAGLEDEIYELAGRKFNVGSPKQLGEILFDEMGLEG
+GKKGKTGAYATGADVLEDLATEHDLPGRILDWRQLSKLKSTYTDALQDHINKDTGRVHTS
+YSIAGASTGRLASTDPNLQNIPIRSEEGRRIREAFVAEEGKVLVALDYSQIELRILAHIA
+DIPELKQAFKDGIDIHALTASEMFGVPLDEMTPDIRRQAKAINFGVIYGISGFGLARNLR
+IPRAEAQGFIDRYFERFPGIRTYMDNTKAFAKEHGFVQTLFGRKINTPEIGAKGPRAGFA
+QRAAINAPIQGTAADVIRRAMIRMPAAIKDIPATMLLQVHDELLFEVEKGAEDALIKAAR
+DVMENASEPVVKLDVKLIVDAGKGANWAEAH
+>tr|B7RH17|B7RH17_9RHOB
+MTYRANIQIAVLSGLIALGGSALVAQETAKDAGPKMDRFAEMDTNGDGALTQDEMKAHAQ
+ARFAQADTDGDGFLTAEEMQAAAAARMTERAERMMAKLDKDGNGSLSVEELQAMGEGRMD
+KRSAKMMERMDANEDGKLSPEEMAGRHSPEEMFTKLDADKDGTVSAEEFARPGWVACAPD
+TVGMSSTGNMASAPGMVTIKCTARTTARITTTSPRRNKIMVQARLNGAPAPASRDGMTMH
+VSNDADDGGDPDADLLLRYAQGDAAAARLLTVQLTPRVFGHAFRVLGDSSEAEDVTQDAL
+MRLWKIAPDWRIGEAKVSTWLYRVVANLCTDRLRRRGRGVALEDIAEPTDPTESAEAKIQ
+RGARQEALQTALDALPDRQRQAVVLRHIDGLANPEIAAILDIGVEAVESLTARGKRALAK
+RLGGQRDALGYDDDKT
+>tr|B7RGZ2|B7RGZ2_9RHOB
+MKQILIIGASGGVGSAVADAYTARGDQVTGLSRSRDGLDLTDEASVERHIGGLEGPFDVV
+LVASGALEIDGAEPEKTIKSISQKAMMDQFALNAVGPALVLRHASDLLRRDGRGVFAVLS
+ARVGSIGDNRTGGWISYRSAKAAVNQIVHTASIELARSHKQSICVALHPGTVKTPFTEKY
+LARHPAVDASEAAENLVSVIDGLEPKDAGQFFDWAGKPVPW
+>tr|B7RMC1|B7RMC1_9RHOB
+MAMWVFGYGSLLWKPGFEVAESVIGRLPGYARSFCMRSIHHRGSVEQPGLVLALDAVTGT
+ACDGIALRVAPGTEGQTLEYLRERELISSAYVEKNLDVQMADGRTVQALVYVIDAEHDQY
+CGGLPLEEQAQIIAKAVGGMGPNTEYLFNTASHLAQIGLHDASLEWLHARVKELCR
+>tr|B7RM74|B7RM74_9RHOB
+MLAHMAAAAYNAPNRVGSASMSFAHRHLLGIEPLSQTDITTLLDLADTYVDLNRQPHKHS
+DALRGLTQINMFFENSTRTQASFEIAGKRLGADVMNMAMQASSIKKGETLIDTAMTLNAM
+HPDLLVVRHPQSGAVDLLAQKVNCAVLNAGDGRHEHPTQALLDALTIRRAKGRLHRLSIA
+ICGDIAHSRVARSNIMLLGKMENRIRLIAPPTLMPAQIGEFGVEVFDDMEKGLKDVDVVM
+MLRLQKERMDGGFIPSEREYYHRFGLDAEKLSHAKPDAIVMHPGPMNRGVEIDGTLADDI
+NRSVIQDQVEMGVAVRMAAMDLLARNLADSRKGAA
+>tr|B7RN03|B7RN03_9RHOB
+MENTRIAKDGLVLLGCGKMGSAMLAGWLARGLPKSSVWVIDPHPSDWLKDQGIQLNVDLP
+AAPAVVLVAVKPQMMGDALPTLQAMGNGKTVFVSVAAGTTIATFEKTLGAQTPIVRAMPN
+TPAAISQGITAIVGNAHVDAQALDEAEELLSAVGDVVRLDEEAQIDAVTGVSGSGPAYVF
+HMIETMAAGGVAQGLSPELALRLATATVAGAGALAKSADEDPTQLRKNVTSPNGTTQAAL
+DVLMNEEDGFPVLLKRAVAAAADRSRELSRD
+>tr|B7RLK9|B7RLK9_9RHOB
+MTATAQAPVVTVEDRLRADLYNYLGVMLAHPADQMLLDQTAGLSGDDSDLGQAINGLARV
+AKAMTPKKVETEFNALFIGLGRGELLPYASYYLTGFLNEKPLAALRTDMSAQRISRAANV
+FEPEDNIASLMEMMGGMIVGRFGAPASDAAQRSFFNKHIAPWAGHFFADLKAAKNSVLYA
+GVAEVGHVFMDIEREAFRMTAG
+>tr|B7RSD0|B7RSD0_9RHOB
+MNSDPDWTLYRTFAAVLDSGSLSGAGRLLGMTQPSVSRHIDLLEAALGSKLFLRTHRGMS
+PTEAAERIRPHVDILTASSAAIKRAASRTSEVAGTVRISATEVVGTEYLPPILATIRRAH
+PALEIDLSLSNFVEDLLQRQADIAIRMTEPKQLSRFCRKYFWE
+>tr|B7RK65|B7RK65_9RHOB
+MTNDFLFTNNGGDHLDLILATSEIGIWELDAVTGTAMRNERHDQIFGHDQLLDRWSGEIF
+LTYVFEEDRQRVGGLLEASLKDGVPWSFETRIRRADGVDRWISAKGMPKFSDTGVVTKLI
+GHVIDITEMKQNEDRLKLLSKELNHRVANTFTILNSMIRHASKKTDSVEEFARSLTERLG
+ALSRSNRVLVAEVAERSSLQDIIRMEMEAFAGWEARVSIEGDTNVWFSGEASEALALVLH
+ELLTNAVKHGALSVRGGQVGIKAVMGTGRRVHIKWTETGGPSLPAERTTGIGSTILQKAM
+RDQGAINLDFAPGGLVCDIVINDSFQREAAEVTAPPTAIFPVDQSQISNVSFSGQRVLVV
+EDDPIIGMDIADILEARGATVIGPFTTVASALKAIREKPDVAMLDVNLGQETTDAIALHL
+SELAIPFLILSGQIDSSDLGTAFKGAAILSKPYKEQDLVSHLNRVMH
+>tr|B7RP21|B7RP21_9RHOB
+MQKAVNTKLKSATTKAVIYCRVSGAKQVREGDGLGSQENRCREYAKYKGYDVLDVFTDDM
+SGKNSARPGMQSMLGYLHMTASKADPIVVVIDDISRLARGLTAHLELRTSLAAAGGKLES
+PSIEFGEDSDSILVENLLASVAQHQREKNGEQTSNRMRGRMMNGYWVFAKALGYKFEKRQ
+GHGKLLVRDEPIASIVIEALEGYASGRFETQAEVRRFLESMPAFPKDLPNGQIRQQKVSK
+MLQRILYAGYIEYEPWGISRRKAHHEPLISLETFERIQERAKARNIAPARQDINADFPLR
+GTLVCTSCSGSMTACWSRSSTGKRYPYYWCMTKGCDLHRKSISGKKIDSAFDSLLQSVQP
+TKGIIDLTTAMFKDAWSQREDQVKAVRDDIHKQMKDLDKQLDGLLDRIVETSNPTVIAAY
+EKKIMKLETEKQILLDKLDQKAKPNHTFEQMFELSMAFISNPWNIWKNGTLALRKTVLRL
+LFAVPLSYSRENGFRTPQVTVPFEFLGSFTEKCKLVRSERLELSRVLPHSDLNAARLPFR
+HDRTPWMVRIV
+>tr|B7RPR7|B7RPR7_9RHOB
+MIAVAVVALTLSTALIGYAMRDGINFFRAPSQVIAEPPGPNEVFRIGGLVAEGSLVRGDG
+ETIRFSVTDGGAVIPATYTGVLPDLFEENQGVVGTGRYINGVFEATEILAKHDENYMPSE
+VVDALKAQGLYVEPES
+>tr|B7RPE5|B7RPE5_9RHOB
+MRVERIHLEQDAGKSIHDMDPNMSFVDLNRTGVALMEIVSKPDIRGPEEAAAYLTKLRQI
+LRYLGTCNGDMQSGAMRADVNVSICLPGQYEKYQATQDFSHLGTRCEIKNMNSMRFIQQA
+IEVEAKRQIAIVEGGGEVVQETRLFDPDKMETRSMRSKEEAHDYRYFPDPDLLPLVIEQA
+WVDNINATLPELPDAKKARFINDFGLSDYDASVLTADLDSSSYFEETAKGRDGKMAANWV
+INELFGRLKKDEKAITDSPVTPAQLGGVIDLIASDAISGKIAKDVFEIAYTTGRDPAEIV
+ETEGLKQVTDTGAIEAAVDAIIAANPDQVAKARENPKLAGWFVGQTMKATGGKANPKAVN
+EIVAKKLNG
+>tr|B7RPD6|B7RPD6_9RHOB
+MRTELKIEGLDGFLVPRADAHQGEYVAPHDERLSWLTGFTGSAGFCAALMDVAGVFIDGR
+YRTQVKAQVADVYTPVAWPEVSLADWLRSELPQGGVVGFDPWLHAEGQIEQLGEALKGSR
+IEMRRCPNLVDRIWHDQPAPPMFPAKVHPLEFAGESHTDKCARLGKVLRDKGETAAVITL
+PDSLCWLLNIRGADIARNPVVHGFAVLHGSAAVDLFVAPEKVADLADHLGDSVTVHPPHT
+LLAYLGALPGRIRLDKTTVPVAVADAVGEHASWGDDPCALPKACKNAAEVAGSAAAHLRD
+GAALVELLAWLDAQAPGTVSETQVVAKLEDARRRDNALQDISFETIAGTGPNGAIMHYRV
+TEDTDSTLEEGHLLVLDSGGQYLDGTTDITRTVAIGAAPLEAKQAFTRVLMGMIAMSRLR
+WPSGLAGCHIEAIGRLPLWMAGQDFDHGLGHGVGAYLSVHEGPQRLSRISTVPLSPGMIL
+SNEPGYYREGAFGIRLENLLVVRPAPDLPGGDGHREMLMWETLSFAPIDKRLILADMLDT
+PTRDWLNAYHSDVAEKIGPRLSPAAKLWLDAATAPI
+>tr|B7RH75|B7RH75_9RHOB
+MSFSVLASGTAYFAPTQFLAVLLISIAGATAFVALCKLVSVGIRNRRSRNAQAVVVDFIA
+NDASPSMFATENGVLTAQNMAASAMFQDHGAQTVTALLSSQFANPAAIVFRLQTRATQTG
+SAREDIVTKDGQMRLSAHRVPAGFLWRLETIQEKTQQKRFANEQLLPMLMVGRSGAVLFM
+NDAARGLVGARVKTLDRLFKKLPVAHGTLAEVVTTHGSEVMMVADVPAGAGRRALYLLPG
+HPGHSADLGWQAFQQLPIPLIKVAPDGTILSYNTMASKLIGASLTSEGHLTDLMEGLGRS
+INDWLAETLEGRLVQKSEFLRLKRDDREVFVQVTLNLVTEQGAPALVAVLNDATELKTLE
+AQFVQSQKMQAIGQLAGGVAHDFNNLLTAISGHCDLLLLRHDQGDPDFSDLVQINQNANR
+AAALVGQLLAFSRKQTLRPETLNMRDTLADLTHLLNRLVGEKVTLTLSHDPILNPIRADK
+RQLEQVLMNLVVNARDAMPSGGEIRICTETVDLTEGLTRDRVTVPPGKYVTVQVADEGHG
+ISADKLQKVFEPFFTTKRTGEGTGLGLSTAYGIIKQSGGFIFVDSTVGVGTVFTLYFPVM
+AQTVVTEKQAIPAPLAVTTKHDDGIVLLVEDEAPVRAFASRALRMRGYTVLEADSAEVAL
+KTLEDETLNIDVFVTDVIMPGMDGPSWVREALKCRPGVPVVFVSGYAEDSFEAAQMAIPN
+SVFLPKPFSLTDLTNTVHRQMR
+>tr|B7RPR5|B7RPR5_9RHOB
+MAVGIFDSGLGGLTVWNAVQAQLPDVEFVYLADSAHAPYGVRTSDDIYNLTVAATQRLFD
+AGCDLVILACNTASAAALRRMQESWVPSDKRVLGVFVPLIESMTERQWGDNSPPREVDLK
+HVALFATPATVASRAFQRELAFRAIGVDVEAQACGGVVDAIEDGDXXXXXXXPIWWRIAL
+GITSSGIPI
+>tr|B7RPS1|B7RPS1_9RHOB
+MRGLVLALMLLVTPALAVQPDEILSDPVLEQRARELSKGLRCLVCRNESIDESNASLARD
+LRILLRERLVAGDSDAEAVDFIVARYGEYVLLNPPVSGSTWLLWGAGPLMLLLAGGLGYG
+YLRGRSSAPAADQTPLSAEEKARLDDILNG
+>tr|B7RFL2|B7RFL2_9RHOB
+MASAAARLRAAGVPDPARDARILLAHAASVDASRVTLIAPEEIAPEIAERFETLIALRAV
+RVPVSHLVGQRAFYGRDFKISRDVLDPRPETETLIELALSEAFDTVMDLGTGSGCILVTL
+LAERPEARGLGLDLSEAACLQASANAVLHGVAARADIRQSDWFAAAEGRFDLIVANPPYL
+AKSEMAGVAPELRLHEPEMALTDGLDGLSAYRVIASQAQGYLTATGRVLAEIGWQQGPDV
+AQIFRDAGWGRVRILPDLDGRDRVLWADTPA
+>tr|B7RLW9|B7RLW9_9RHOB
+MTLRRDDLSDLMAFLAVAEERSFTRAAARLGTSQSALSHVVRRLEERLDMRLLTRTTRNV
+APTDIGEQLIETLRPAFNGIEERLTQLDALRSEPSGTIRINAPRWAAQKLILPAVSSLMK
+AHANLSVEVEVDQRMVDIVRDGFDAGVRLGEEVEKDMIAVRIGPDIRMIVVGSPDYFARC
+GTPQTPHDLTDHDCNNLRFPTLGGLYTWEFERDGRELNVRVEGQFISNDPESLIAAAIAG
+VGLTCLPSDHLDDHVSSGQLVACLTDWCPPFLGYHLYYPSRRQALPAFRVLTKALRYRG
+>tr|B7RQD0|B7RQD0_9RHOB
+MFEPFYTTKQPGDGVGLGLAISSGIVTELGGRLTARNGQNGGAVFEMQLPILDSADNTQA
+AE
+>tr|B7RS82|B7RS82_9RHOB
+MRTLISGLAIMLAAPALAMTADDINTAQYTDGAIPNGQSAITVKLQVLLDQAGISPGVID
+GYSGGMSESALRGFEAREGLEVDGVLDPEVWAALGGSNGGAILQSYTLTQEDLSNLSAEI
+PDNVAEKAKMEMLGFTRVTEALAERFHMDEDFLKLLNPDAAFAEGDTITVTDTGPDLEGA
+GARIEIRKSEQRAVVFDAEGNMLTNYPVAIGSKETPSPEGSLEVTAVAIDPTYSYRPSVN
+FEADGVKEELTLPPGPNGPVGSVWIDLSKPTYGLHGTSAPAKLFSASSHGCVRFTNWDVK
+ELAHMVSKGVVVDFVE
+>tr|B7RGA2|B7RGA2_9RHOB
+MAAKPFFRRRKVCPFSGDNAPAIDYKDTRLLQRYISERGKIVPSRITAVSAKKQRELARA
+IKRARFLALLPYAVK
+>tr|B7RHT9|B7RHT9_9RHOB
+MFSRLFPRRKPDPKPLPQPTPQLALGALLVRVALADRTYRAEEVGQIDRILARTFNLKPI
+EAAKLRATCEALERHAPGTPEFARLLRQEVDYADRKALGDAMWSVALADGDRGERKEIQL
+LAIETALGLSDEDMAAARENALKTL
+>tr|B7RPQ8|B7RPQ8_9RHOB
+MDWDKLRIFHAVADAGSLTHAGDKLNLSQSAVSRQIRGLEEQLNTNLFHRHARGLILTEQ
+GELLFDATVAMTKRLDTASARIRDSEEEIFGELRVTTTTGFGTLWLAPRLPKLYEKYPDL
+KVDLMLEERVLDLPMREADVAIRMKEPSQADLVRKKLMMIKMCLYASPTYLAEHGTPQRL
+EDMSEHRLICQNTDSDQVNAGLQLIQQLMMYDVRSMLTVNNYFGVLQGVIHNLGIGVLPD
+YLTQDFPDLVQVLPDTESADVPVFLAYPEELRTSKRVAAFKDFVQDEIISHRKQQREKAN
+M
+>tr|B7RJV5|B7RJV5_9RHOB
+MEGDIVQMGAYIGAGLACMGMGGAAVGVGNVAGNYLAGALRNPSAAAGQTATLFIGIAFA
+EALGIFSFLVALLLMFAV
+>tr|B7RN85|B7RN85_9RHOB
+MSITETLNALGVTLPDAPAPAANYVPFVKTGNTVYISGQISNGPDGLIIGKLGENMDVAA
+GAAAARTCAISLLAQVKAACDGDIERLVRVVKLTAFVNSTTDFTDQPKVVNGASDFLVEA
+LGDAGRHARSAVSAASLPMGVAVEIEGIFEIK
+>tr|B7RIG8|B7RIG8_9RHOB
+MALSPLNQRRWRNFTRNRRAYWSLWVFAILFGISLFAEFVANDKPIVVSYGGEYFMPIFN
+FYPETAFGGDFQTEAVYRDPEVKCLIATGGMDACFDDPEALIEDAQDGQIDGQAIEKGWS
+VWPVIPYSFNTAVDRPGAAPLPPNAQNWLGTDGTKRDVMARVIHGFRLSVIFTLIVTGAA
+SLIGIIAGAVQGFFGGWTDLIFQRVIEIWSSTPSLYVIIIMFAILGRSFWLLVFLLVLFS
+WTSLVGVVRAEFLRARNLEYVRAARALGVGNVTIMFRHMLPNAMVAMLTMLPFIITGTIS
+TLAILDFLGFGLPSSAPSLGELTLQAKQNLQAPWLAFTAFFTFAIMLSLLIFIFEGIRDA
+FDPRKTFS
+>tr|B7RM04|B7RM04_9RHOB
+MSNQMKALCKSEPREGLWMTRAPVPEIGPDDVLIKINKTGICGTDIHIWNWDDWAQKTVP
+VPLITGHEFAGEIVELGRNVTDLSIGQRCSGEGHLIGKTSRQSRSGKFHLDPATRGIGVN
+EQGAFAQYLRLPAFNVVPLPDEVSDDIGAILDPLGNAVHTALSFDLVGEDVLITGAGPIG
+IMAAAVARHVGARHVAITDVNPARLALAEKVADVVPVNVAKEDLADVIARLKMKQGFDVG
+MEMSGNQAALDQMVEAMTMGGRIAMLGIPPGKSAVDWSRIVFKAITIKGVYGREIFETWY
+KMIAMLENGLDVSGIITHRFGADDFEQGFAAMKSGLSGKVVLDWTGV
+>tr|B7RP95|B7RP95_9RHOB
+MAQNAPIHIIKHDFSIFLTIDALSSSFCQINSNSDNGIGHRIGYNAHRFQRTRKDAPMRV
+YYDRDCDVNLIKDKKVAILGYGSQGHAHALNLRDSGAKNLVVALREGSPSIAKAEGEGLK
+TMGIAEAAAWADLIMFTMPDELQADTYKKYVHDNIREGAAIAFAHGLNVHFGLIEPKPGV
+DVIMMAPKGPGHTVRGEYLKGGGVPCLVAVDKDASGKALEIGLSYCSAIGGGRSGIIETN
+FREECETDLFGEQAVLCGGIVELIRMGFETLVEAGYEPEMAYFECLHETKLIVDLIYEGG
+IANMNYSISNTAEYGEYVSGPRILPYAETKARMKDVLTDIQNGKFVRDFMLENAVGQPSF
+KATRRINDEHQIEQVGEKLRGMMPWISAGKMVDKAKN
+>tr|B7RIB7|B7RIB7_9RHOB
+MDRLLSRRFFMGSAAASVLAPAAFAAPPDTSLRPVLRGADHFRSAVPKAADLIAQARLNG
+RVAFAVADAKTGNMLEEMSPSAGMPPASVTKAITALYALDTLGADHRFQTQLLATGGILD
+GEVQGDLILVGGGDPTLDTDTLALMAAKLKETGVRAVKGTFQVYEASLPVLDGIDPNQPD
+YVSYNPAVTGVALNFNRVHFEWKRASDGYAVTMDGRSAKYRPAVAMAAMQVSDRATPLYT
+YSDGGVRDNWTVAKPALGRSGARWLPVRKPGLYAGDVFVTMAGAQGIRLRGLAMIETLPE
+GAVLVTQQSAPLRDIMRDMLKYSTNLTAEMAGLAATMARGGKPDTLKASAAEMNRWAKGA
+LGMRNPGLVDHSGLGDDSRVSVRDMLSALIKVNGSGVLKPILKTITMRDAKRNLVPNHPI
+KVVAKTGTLNFVSTLAGYMTGPNGREMAFAIFCADEPRRATIARAQRASPDGGRAWNVNA
+KQLQQGLIERWGTYHAA
+>tr|B7RND7|B7RND7_9RHOB
+MTDLTPAHTIKRSGHWDNAHDCCVLTYDERFLRRKRLLTAHNEGFLVDLPHTESLNHGDA
+FQLQDGKLIEVIAAEEALLEITGDDLGRLAWHIGNRHCPCQVEPTRLLIQNDHVIRDMLG
+KLGATLRDVSEPFIPEGGAYGHGRTHSHAH
+>tr|B7RFW1|B7RFW1_9RHOB
+METTDMTLFLDSLSSLFFGSKTSTTTTTSTTSVAGSDGIVEGTRDGDLINVGYLGDPDGD
+LVDAFDAVFGNVGSNDDVIAALGGNDTVLAGAGNDSVLGGSGDDSILGQDGNDLLIGDGI
+VSGTASGGRESFEWSKAPDPSGNGTSIDEDDNLKAGFVQNTGTVNVMFELKSFSPYNGAY
+QQYTEDQQNVSGIDGDGSAINQNSAFDSLANNSGHTAFELRFDDAVGNVSFNINDIDNGG
+QVKVMAYDAAGNLIDVDLTGGSGVNLIDSDGMFGVDTAKSLGGDENAAGSKYSVNVSIDG
+PVSRIEFIHTATTSSNSGVNVTDVYFDNPASVIADDTVAGNDTLEGGEGDDIIFGDHGAQ
+SATVRENFEWEGVSGDQIDNGFTQDTGNVTVTYARTVDTGNHQSEAGGELLNTDGIVSNG
+DPVDNDSSLKSTTHGAGNVGEFQWDFSAPVSNVSFNVNDIDNDGLVKITAFDINGNAIAV
+NLTGGSGLTLKDTDLVAGADTADSKGGDAAVNSSAYNLNVDIPGPVSRIVLSHTQDGYNN
+SGINVTEMYYDAPTGELVAGVVGGDDLLLGDAGNDTIFGEGGNDTIDGGTGDDYIEGNNG
+DDVITGGSGNDTLFGDNNVAAPSTPTGGTVRESFEWDKAPDPSDSTAVDNNDNLSGGFTQ
+DTGNVDVTFSVTNTSKTPETTFSTDQQKVHSITGDSEATNPYSSLASLANEDGERATYKL
+DFSSAVTNVSFRINDIDNASKVVIVAVGPDGTRTPIDVSTGGGINAQNLDGVGGNETLLS
+GGGNGADTDPYHSALVNIAGPVDYLEITHTKVQNLSVGNDAGINITDVYFDAPEKVDVGG
+DAGFGNDHIMGEEGADFIDGGAGNDTLDGGIDNDTLIGGDGSDLLTGGEGADIISGGADQ
+DTIVGGTIGDVVDGGAGGFDPDAGLNTDTDTLDLRGLNFRLSDLTPDSNGNGQNGTVTLF
+DTSGNPTGTFTFTEIENILGTEMPELDGIVSGDATGNLIDENYTGDPEGDLIDRPDQVVN
+GTPIGTDGDVVQAGGGNDTVFARDGDDTVYGGTGDDVLNGEAGNDILYGESGDDTLVGGA
+DNDTLVGGSGSDSLDGGDGDDKITGDTPGVTGVPDADLPLITTPFDQDPNPDDNKDTING
+GAGNDTIDGGDDADLIDGGIGDDVIEGGIDNDTIMGG
+>tr|B7RJH5|B7RJH5_9RHOB
+MFRIFLAALTASLLTPLVASAADRTRIGYGRLITNDFLGDLEDRERTGAVASSRVWGSPW
+IGDLPDRFGDLIELRLGMEVLAPENIVNPGAGSRPWAGVLSAGLHTHYQYKSMELAMGAA
+VYATGPQTGLGSLQREFHDLVGDRPPSDQTLNAQIANGFHPTMIVEAARSYPIGTKTTLR
+PFVEGQAGIETMVRAGVDFTFGSIGRGGLLVRDSTSGHRYRVIPNAENTGFSFVVGADMA
+YVTDSTYLPEDRGLDLTDHRDRVRLGVHWQGDGASAFYGVTWLGKEYETQPEDQVVGAVR
+VNFSF
+>tr|B7RI23|B7RI23_9RHOB
+MSRIPFAEVNFFSEHALCSYQVGNRLKSFLSSYRKKTGSSKEILYLSEADNDKIERRAHA
+YVGALGRRSGMSHLQRKDKEWLDALSNGCVLHRVETEHRADEIASALHTEMPWMAPATER
+IWQDMRASFRRGDLGTVIRPLLLVGPPGIGKSHWARLLGKELQVPTTVIESTSEPASFSV
+TGSQRGWANAGPGKPLENILATGIASPVIVVDEIEKAGSVKSERGQSFALGDGLLSLLER
+STAASWGCPYFRVNFDMSWITWIMTANSTQGLSEPFLSRCPPMNLSALTVDHLQGFAVRE
+AGRRGIGANAVGSVLEVIEHAKELQLLSLRSVLRLLAVAERSTNRPLLH
+>tr|B7RGQ3|B7RGQ3_9RHOB
+MTNTVYQNDLPDGLDLGPIVAIDCETMGLHPHRDRLCVVQLSGGDGHAHLVQIGKGQTEA
+PNLCALLEDPEVLKLFHFGRFDIAAMQNAFGAKTAPVYCTKIASRLVRTFTDRHGLAKLC
+QELLGTDISKQQQSSDWGAAQLTQAQIDYAASDVLYLHQLRDKLNAMLIREDRMDIAQAC
+FDFLPMRAQLDLAGWPDTDIFAHV
+>tr|B7RMQ4|B7RMQ4_9RHOB
+MTISSSLNAGVAGLQANATRLASVSDNIANSSTYGYKRVVTDFNSLVLSEGSSSYTAGGV
+RASSQRLLGEDGALVSTTNSTDLAVRGRGFLPVTTATEFNANSETPEMMLTTTGSFRLDA
+EGFLKTESGLLLMGWPANADGSIPIYPRDTDDGLRPVQFALNLNGDPTTRVDMSLNLPAT
+ATAAGGSGEPQILSIEYFDNLGTSKSISMEFTPNVPATGTTNEWNVKLMDSAQGGLLVGE
+YTILFDDSRASGGTIASVTTITGNAYDPVTGDLIVDAQSGPIEFNIGAIGSSFGLSQLSD
+SFAPIALTKDGSPIGNMAGVEVDENGYVNAIYDNGLRNTIYQIPLIDMPNPEGMVSLDAQ
+TYLPSTKSGAYFLWDSGEGPTGDIKSYSREESTTDVATELTTMIRTQRAYSSNAKVIQTV
+DEMLQETTNIKR
+>tr|B7RMH8|B7RMH8_9RHOB
+MAMNAVAQHGVSIALACRAFQISETCFRYSPVLSDENEELADWLERLTANKRSWGFGLCF
+LYLRNVQGYGWNHKRVYRIYCELELNLRIKPKKRLKRDKPEPLAVPDRPNETWSMDFMAD
+QLADGRSIRTLNVLDDFNREGLCIEVDFSLPAERVVRSLNQIIEWRGQPQTIRVDNGPEY
+VSGKLMEWAEKRNIRLEYIQPGKPQQNAYIERYNRTVRGEWLGQYIFETIEEAQDQATEW
+LWTYNNERPNMGIGGMTPAMKLKTAA
+>tr|B7RN44|B7RN44_9RHOB
+MNIEMIRAAAARLEGHVRRTPLLNSPFLDDIAGRRVWVKPECLQHTGSFKFRGGWSALSA
+LDPDTRAKGVIAFSSGNHAQGVAYAAKLHGVPSVIIMPADAPRLKIENTRALGAEVVLYD
+RATEDRDAIGARLAAERGLTLIKPFDDTQVIAGQGTTGLEIAQQAAEQGITSADVIVCCG
+GGGLTSGIALALEADAPGLRARPAEPKGFDDVARSLAQGSIARNPALTGSICDAIVTPQP
+GDLTFPIMKRLCGLGLVATDDEALSAMAHAFNRLKVVAEPGGAIALAAALFRRDQIEGDD
+VIVTISGGNVDADMFTRALATLK
+>tr|B7RSH3|B7RSH3_9RHOB
+MKNQDRQKMLETPGRIEPCFFEEHIPAELADLSVDIQREASGLGQGLHPDSAAELADLVR
+VMNCYYSNLIEGHNTRPRDIEKALAGAELEEETRPLALEARAHVIVQRAIDEMHRNGTMP
+VPTSIEFLTWVHQSFYDEMPEEFRVIEHPNGTSEPIVPGRMRQQGDSEVSVGRHNPPSSA
+RVATFMEHFDKRFQIAARSASGRIIAIASAHHRLNYIHPFPDGNGRVSRLMSHAMALNAG
+IGGQGLWSISRGLARGLQDRGEYKRMMDLADSPRRGDRDGRGNLSEAALKTFSAWFLNVS
+LDQITFSAKLFDLAGLDRRYRRLVADTIDDKRAPDLISAVLRHGMLDRGDAQVVLKTSER
+TSRNTLKKLTTAGYLTSASPKTPVRLAFPLDYRERLFPNLFADADLPE
+>tr|B7RG70|B7RG70_9RHOB
+MGWKTLDDMDLHGKRVLVRVDINVPVEKGRVTDDTRIQRIVPTVQDILAKGGRPVLLAHF
+GRPKGKRVQDLSLLVVKPALEAALNRKVVLAETLEAVETGTEEITKADVLLLENIRFYPG
+EEKNDPGFAQRLAALGDVYCNDAFSAAHRAHASTEALARLLPCCAGRLMQAELSALEAAL
+SKPERPVGAVVGGAKVSTKIELLENLVNRLDLLVIGGGMANTFLGAMGADLGSSLSEPDF
+FETAKDIMLQADKAGCRVLLPVDGLVAREFKAAAPHEVVELGPDTTLAADQMVLDAGPAT
+VALVEAAFAGLKTLIWNGPMGAFEIPPFDTATVAAAQAAAQMTRDGALISVAGGGDTVSA
+LNQAGAAEDFTYISTAGGAFLEWMEGKTLPGVAALGG
+>tr|B7RM64|B7RM64_9RHOB
+MRLSVILIIALTFSAAAALSLVAANFSVTLIEENSEIGVRDALDEKGMVWAEVEADGLQV
+TLSGTAPNEVVRFNALSAAGSIVDAARVIDDMEVVSQATIAAPRFSAEILRNDSGVSIIG
+LIPTTTDRDAAISRFYSIVGSENVADLLESANYPAPDGWEDAFAFAILAMEKLPRAKASV
+SAGRIDITAISDSAAEKARLEEQLRRAAPPGLSMTLDIATPRPVLTPFTLRFQITEDATG
+FDACSADTEKASAKITAAAKTAGATGTIRCTVGLGVPSPRWAEAVEKTIKALTEIGQGSV
+NFVDADITLVAAAGTDQDLFDRVVGELENALPDVFALDARLTEAVDPNAGPPEFVATLST
+DGKVQLRGRLSDEELRELADSYAKASFGTDKVYTAARIVDDLPADWPTRVLSGLDALSKL
+ANGSVIVQPDNVSVKGNTGNPDAGSQIATLLAGKLGEGQQYDIAVVYQEKLDPVLGLPTP
+EECEAQIGEVVKAGKINFEPGSATIDASALSTMDQIAEILKPCGDIALEIQGYTDSQGRE
+EMNLALSQSRAQSVLNELRARRVLTASFVAKGFGEEAPVESNDTEEGREANRRIEFRLIR
+PEEGATTPETTLENAGDSGDTDEPANTTQEGN
+>tr|B7RNJ4|B7RNJ4_9RHOB
+MLLRLITALSLLVPIAPKAQAQVQTRQPSHCIALADATPGITYLTLASLPQVAPDTAHLH
+YIAHASFLIRSHGGLNMVTDFTGFTGTLPMIPDVVTMNKAHGSHFTAAPDPAIPHVLPGW
+GEFGLGIDHNLDLGEVLVRNVSTDIRSDFSGVEVEGNSIFIFEMAGLCIGHLGHLHHEPD
+AAQYAAIGRLDVVMAPVDGGYTLDQPSMIRVLKRLKSSIVIPMHWFSDFGLDEFLTGMAD
+DFTVINVEGPSLDVSLDRLPSRPTIMVLRPQYLRSDD
+>tr|B7RFL6|B7RFL6_9RHOB
+MALEDAKTQIDQAFTREELKGPSFENAFGGATSFLRRRYTKDLTGVDIAVTGVPFDQAVT
+NRTGTRLGPRAIREASTLQPYDPPYGWDFDVLSEFAIADYGDLAFDYGHTSQFPAALTKH
+IKGILDAGAASVVLGGDHYISFPILKAYAEKYGPISLLQFDAHSDTWPDDDMDRIDHGTM
+FYKAVKSGIVDPHTSVQVGIRTTNPDTLGVTTIDAREVHEKGPQAAVSKIKQILGDRPCY
+LTFDIDALDPAFAPGTGTPVWGGLTSAQCAMMLRDLAGINIVGGDVVEVSPPFDTTGATA
+IAGAHVATEILCLLGWRMRTA
+>tr|B7RIP0|B7RIP0_9RHOB
+MKHALIALLMLATPAMAHDQMAGTLHIIHPSIPLPAGMAKSAAGYVTISNEGESPEELVG
+VRSPFAASTTLHTTLFEDGIAKMRPLIGVTIAPGEVINLEPGGMHVMFMGLTGTVAEGDM
+IPATLIFRNAGEVAVEFMVDPADGVDHSTMDHSGY
+>tr|B7RK22|B7RK22_9RHOB
+MSFTRQTAEGDNICVIWIDDMIDIFTWRNAFGLTISTPNIDRFMAEGTRFANAYATVPLC
+APCRAELATGLSPFQTGLVDLNRFWRDILPPTTGWQFDLRRAGFRTFTTGKVDSNYKPMP
+EEYARILFHEQPEAKDAGKRSNVKKYLDKGPGIAGINHPNDDGSQDDKFYDNMVAQNAID
+YLGRADPKRRHLIQLGFKHPHYNLQCPDRFYQQYDVDRISWPTTAAPEDYFGPQEGMAVY
+EAAYIANGPWTPEKAGDQAWRQVVRAYFAAISHVDAEIGRFMEALRKSELGQNTTVVLLS
+DNGFNLGTHDSFHKMSQWDSAAHVPLGIWNARMEQGRVIDLPVSLHNVPKTIMDLAGLPY
+RPDWTSGQSLLPLVDDSFGQYNASKSPVTSVFGTLSVRSSEPDLSRYRYFRYPNGEEHIY
+DLVADPGETTNIVADAPLDELRATMVDNALELGLDLRGFENPQRGVNAMMALDGSVVLAG
+GNADNDYWAYGANAEKITEDEDGGNDTLWYMAGPDDYVLHMPAYIENIRIATVVSRKEQN
+ASEGKEIAIVAHPETPMNFETSERVAVNVQGSRGADVMIGAKYAGATFHGGAGNDLLIAK
+SGRGKDVHIFYGGAGNDTLYGGNGRDILDGGAGDDVIRGGEGSSKIYGGPGNDDISDGPG
+GSEIHTGPGRNIVRSAGGDDHIHVGSGHNTIEPGEGRVVFHVAYGGVTLITGWQDDYQLD
+LSAWPANPDIQITGSDRADIRLGVSFIRIDGRVSFKKLQAQIRQG
+>tr|B7RH51|B7RH51_9RHOB
+MANYANLPAPTPEGGLNRYMQEIRKFPLLEPEEEYMLAKRWVEEQDTEAAHRMVTSHLRL
+AAKIAMGYRGYGLPQAEVISEANVGLMQAVKRFDPEKGFRLATYAMWWIRASIQEYILRS
+WSLVKLGTTSGQKKLFFNLRKAKNRIGALEEGDMRPENVSRIATDLGVTEAEVVSMNRRM
+SGGDASLNATVGSEGEGTMQWQDWLEDEDADQAGDYEEREELETRREMLAEALEVLNDRE
+KDILTQRRLSDETITLEDLSSQYDVSRERIRQIEVRAFEKLQKRMGELAREKGMAVTA
+>tr|B7RH62|B7RH62_9RHOB
+MTYIVNDSCIACKYTDCVEVCPVDCFYEGENMLVIHPDECIDCGVCEPECPADAIRPDTE
+PDMEKWVEFNRKYSELWPVIITKKDPLPEAEERDGEEGKLEKYFSEAPGEGG
+>tr|B7RPM3|B7RPM3_9RHOB
+MTFSRPAPPQSVPVYRAAHFKATDGANMGDTLSFASELLLDDVYELKYLSDLHRLSILTP
+APGKFKIAPDTEIGTAGATLHLDCALTFMTPDGQTSDAILLVEVDTDGNAEDIFVVPLSG
+YTSSLEYRLVGIDTTSAHQKFAQVACVSFTRGTHITMASGEQRVIEDLQIGDRILTRDDG
+VQAIRWIGHSTVRAVGDFAPICISAGTLNNDHDLIVSPDHRLFIYQREDRLGAGRSELLV
+KVRHLVNGDTVRIQDGGFVDYFQLLFDGHQIIYAEGIAAESMLIDSRTKAVLPQELSDAM
+GDIIPGHSDLPHAGLDVSEPLLDRPDAAELLRKASMR
+>tr|B7RPY6|B7RPY6_9RHOB
+MSIKFARGRLLMKDDTARLTQTARSLPIALLRARETVMGPFRDMLSLSGISEQKWRVLRV
+VSESGPTEQTAIASAACLMLPSLTRILTAMEKDGLLRRQPDTQDRRKSIVMLLPKGQALI
+DDHASRSAAITADLQHRFGPKKMEQLLDLLQELHELDLAPK
+>tr|B7RHW8|B7RHW8_9RHOB
+MIIYGLKNCDTCRKALRSLPDATLVDVRADGVPDDVMARAFAQFGAALLNTRSTTWRGLD
+SQERDQDPLALIAAHPALMKRPLIDADGTLYLGWTKDVAAQVTAL
+>tr|B7RJ61|B7RJ61_9RHOB
+MAATALYGASSFGNWGKLAAQQALTQDKLLEFDTFGNVSLIHITDIHAQLKPIYFREPSV
+NIGVGSNKGAVPHVTGADFRKLYGIEDGSRSAYALTYNDFSSLAQAYGKMGGLDRVSTVI
+NQIRADRPDALLLDGGDTWHGSYTCYQTQGQDMVNVMNALKPDAMTFHWEFTLGSDRVNE
+IVEGLPFAALGQNIFDAEWDEPTELFPPYKFFETGGVKVAVIGQAFPYMPIANPGWMFPE
+YTFGIRDERMQEMVDEVRAKGAELVVCLSHNGFDVDKQMAGIVTGIDVILSGHTHDALPE
+PVLVGDTIIVASGSNGKFVSRVDLDVQNGRMMGFRHKLIPIFSDVIEPDKAITALIDEQR
+APYADQLSEVIGKTAEDTLLYRRGNFNGSWDDLICDALLSEREADIALSPGVRWGPSILP
+GQDITREDIWNVTSMTYPEAYRTEMTGEFLHVVLEDVADNLFNPDPYYQQGGDMVRTGGL
+GYRIDVTKPQGSRITEMTLLKTGELIDPAKTYQIAGWASVNQGTEGPPIWDVVENHIRKL
+GTVTLAENTSVTVDGV
+>tr|B7RKF0|B7RKF0_9RHOB
+MDGTGFTDEDRANAALSYVIEQGDFPWPLALQRRVLAEATLALAPTPADNVVPMTVNRTQ
+QTPPAQPATQPTPQPAPAPVAPATAPASPKMLALANDVVRSLLEFMDFSELAAKPRAEQE
+KLIRSGIEIVSTEKKMHMNGREIQELVETVLADMLGLGPLEQLLNDERITDIMVNGPDQI
+YVERGGKLELTQVRFRDNAHVFSVASRIASAVGRRIDESQPMVDARLADGSRVNIAVPPL
+AIDGPTITIRKFPSAPVMLQSLVDGGSLSLQMSRFLGLAAYLRLNILVSGGTGSGKTTLM
+NAMSAFIPEGERIVTIEDAAELRFQQGHVVRFETRPPNVEGMGEVTMRTLVRNALRMRPD
+RIIIGEIRGDEVLDLLQAMNTGHDGSMSTLHANSPTEALTRVESMAALAGFAPGGGVVRR
+QLVDAVHLIVQVSRMRDGKRRVTSISEIAGLAGDVITLQELFSFQPDENSTRAQVTGKHV
+YSGYRPKFASRAADYGVADELDAILGG
+>tr|B7RJQ3|B7RJQ3_9RHOB
+MYLIRSSVLLLAFSACIAHADPLPDPVADAAFTPADLDEAVLGQLLFYDPILSGNRNIAC
+ATCHHPNFATSDGVSLGLGEGGKGLGLERRGDPDNMPTHRIPRNSPALFNLGAAEFRVLF
+HDGRIEVDPTMPSGFRTPLEDDMLSGFASILSAQTMFPVLSADEMAGHGGENDVANAVRQ
+GLITGPGGAWDILSRRVADLPEYARRFSAVYDHINTPDDIGFTDISNAIAVFIDHEWRSD
+TSDFDAYLRDRTVGLPLAAEKGMELFYGDAGCSTCHSGPFQTDHQFHAMGAPQLGPGKAA
+AFEDNAHDTGRMRVTGDPADAFAFRTPSLRNVMQTGPWGHAGAHGTIEQFLSDHLDPVGA
+SERFAQGSTARNGVRLPPLEGDDWREMNDAAARESIVQAAMIRAPRGLDAADIAVLVSFL
+RTLDDETALNGRLGIPPTVPSGLDVGGVAAD
+>tr|B7RIA4|B7RIA4_9RHOB
+MAAPGENLKINPDRLWDSLMEMAQIGPGVAGGNNRQTLTDEDAEGRALFQKWCEDAGCTM
+GLDQMGNMFAQRDGTDPDALPVYVGSHLDTQPTGGKYDGVLGVLGGLEILRTMNDLGIKT
+KHPVVATNWTNEEGTRFAPAMLSSGVFAGIHTQDWAYAKTDAKGATFGDELKRIGWQGEE
+QVGARKMHAFFELHIEQGPILEAEGKDIGVVTHGQGLSWTQITVTGKDAHTGSTPMPLRK
+NAGLGMARILEKVDQIAWSHAPHAVGAAGHIDVYPNSRNVIPGKAVFTVDFRSPDLVVIE
+KMEAQLRVDAQKIADDMGLEIAFEKVGGFDPVTFDEGCVSAIRSAAERLGYSHMDIISGA
+GHDACWINRVAPSAMVMCPCVDGLSHNEAEEITKDWARAGADVLLHAVLETAEIVG
+>tr|B7RI54|B7RI54_9RHOB
+MSKQPLSVVVTRRLPEVVEKRLSELFTVTLREDDTPMTRAELAEAMKSADILVPTVTDEI
+DAALIAQAGDRLKLIANYGAGVDHIDVMTARQRGILVSNTPGVLTDDTADMTMALILAVT
+RRMAEGMAQMQSGDWKGWAPTALLGGRVGGRRLGILGMGRIGQAVARRANAFGMQVHYHN
+RRRLRPEVEENFGATYWESLDQMVARMDVLSINCPHTPSTFHLMNARRLKLMKPEAVIVN
+TSRGEVIDENALTRMLRAGELQGAGLDVYEHGTDINPRLRELKNVVLLPHMGSATLEGRI
+EMGEKVIINIKTFEDGHRPPDQVVPSML
+>tr|B7RGE9|B7RGE9_9RHOB
+MDTKSLTAGLSVSKQVTPEDMKAIKDAGFRAIICNRPDGEGADQPTFEEVSKAATKAGLE
+AAYLPIVSGKVTDEDAGAFDKTLTELPGPVLAYCRTGTRSATLWSLSQAEQRSLADILAA
+TKAAGYDMAGVVRRIVNGGKTPTDTGDANYEVVIVGAGAGGIAAAASLKARKPGLEVAII
+DPADIHYYQPGWTMVGGGIFEAEQTSRTMGSLIPKGVHWIKSAVAAFEPENNAVILDGCR
+VVKYKRLIVCPGIKLDWSRVEGLVDTLGNNGVTSNYRYDLAPYTWKLVEGLKGGRAIFTQ
+PPMPIKCAGAPQKAMYLSGDAWFRRGVLKNIDIQFNNAGGVLFGVKDYVPALMDYVKKYD
+ASLNFFHNLVAVDGPAKKAWFDVAKPGTPLERIEIEFDMMHVCPPQTAPDFIRVSPLADA
+AGWVDVDQATLRHKTYDNVWSLGDVMNAPNAKTMAAARIQAPIVAENVVADMRGGSPVAQ
+YNGYGSCPLTVERGKIVLAEFGYGGAMLPSFPKAIIDGTKPSRAAWFLKEKMLPPIYWQG
+MLKGREWMAKPEKVVVQ
+>tr|B7RJH2|B7RJH2_9RHOB
+MTDTTSNKMWGGRFAAGPDAIMEAINASISFDQRMAAQDIAGSRAHAAMLAAQNIITDSD
+ADAIGKGLLTVLSEIEGGTFQFSTTLEDIHMNVEARLKEVIGEPAGRLHTGRSRNDQVAT
+DFKLWVRDQFDAAESGLLALIQALLGQAEAGADWVMPGFTHLQTAQPVTWGHHMMAYVEM
+FGRDLSRMRDARARMNESPLGAAALAGTSFPIDRDMTAHALGFDRPSANSLDAVSDRDFA
+LEFLGAASICAMHLSRFAEELVIWSSAQFRFVTLSDRFSTGSSIMPQKKNPDAAELIRAK
+IGRIMGANVALMMVMKGLPLAYSKDMQEDKEQVFDAADNLMLALAAMEGMVKDMSANRDS
+LAAAAGSGFSTATDLADWLVRVLGLPFRDAHHITGSLVALAEKNGCDLPDLTLDQMKTAH
+DGITADVFDVLGVENSVNSRMSYGGTAPAQVRAQVARWKGIVG
+>tr|B7RS27|B7RS27_9RHOB
+MLRYGLIGAGNVGRVHLRWAARHPNVQVCAVADPELARGKALADNCGARLYADHRQMLAD
+ETLDFVSIALPHDLLASIGTECLLAGCHLLVEKPLARHIGEAGQLLEKARNLNLQVGTFF
+QYRNFATPKLIQSIIESGQIGTIRQIIWTWHELRPQSYFANVPWRKSWAGAGGGLLMNQL
+SHDIDLLRCFAGEVESVQASLATQAHDIPLEDSVSATIRFKPGAIATISASINQSRALTY
+RAIMGTKGLIVLPNAMNLADNPDDIVKLGIYADAVDTAICTYSDDHQQSEITWSVLRSKR
+PEMRRKIPLWLKRPLRRMADVLYPQRNDWKPGRKPMTGHGRILWDFVDAIQAGQPLADSI
+SSENAYRTLELVNAMIVSGFEKREVALPLDAKAYAAHFDRLVRGEIKLNGSSHATD
+>tr|B7RQY9|B7RQY9_9RHOB
+MSADIRKIAVWIEETHREMGQAISPATRKAVAVAVIKNPFAGSYTEDLTPLMDIGAELGG
+LLGDKCVAALGITPAQAESYGKAAMVGEGGELEHAAAILHPKLGAPLRVAVEKGAALVPS
+SKKMGGPGQVLDVPLGHKDAAYVRSHFDGIEVSLNDAPRAGEILVAVAVTDSGRPLPRVG
+GLTHAEAIGKDGLR
+>tr|B7RFV4|B7RFV4_9RHOB
+MDTAPAMLDGAFWISSGIIFCLLVLSGLFSGSETALTAASRGKLRAQADKGSKGAERALK
+ITEDNERLIGSVLLGNNLVNILATSLATALFTRLLGESGVALATLVMTLLVLIFAEVLPK
+TYAITNAETAAALVARPISFIVTIFSPMVAAVRFLVRGILRLFGVTIDPDSNILAVREEI
+DGALQLGRSEGLVEKEDRDRILGALDLRERMVEEVMLHRSGIEMIDAANDPSEILEQILE
+SNHTRLPVYRDDPENIIGVIHAKDLLRAMYKRIGDSERETTPLKDFKIADVAMKPYFVPE
+TSTLDEQMRQFLRRRTHFALVVDEYGSLQGLITLEDILEEIVGEITDEFDPDADHGVTKA
+EDGQYFVDGAMTLRDLNRTTEWDLPDDEANTVAGLVIHEAQMIPTPGQVFLFHGFRFEVV
+AREGNRITQLKIRPL
+>tr|B7RKK1|B7RKK1_9RHOB
+MHRAVMPQIGTAQAWRDAARQFLAAGIRPEDILWGDANTAPDLFGTDAPLRPNGQVSVPR
+SFVSMASSVVWHGDPERFARLYTFLWRLKDAPHLMTDRGDRDLSRLRQMEKNVHRCQHKM
+KAFVRFREIGEADAPRRSFAAWFEPTYHTVEPTADFFVRRFSDMDWRILTPDVSAVFENG
+KLSFHEGQEKPHLPEDASEQLWITYFQNIFNPARLMVKAMQSEMPKKYWKNMPEAAFIPR
+MIADAPARARAMAQAAPSLPPARMAQVQAQLAAHHSAWDGPSDALPAAIAACTRCPLHCT
+ATQAVVGEGPMDADLMIVGEQPGDQEDLSGRPFVGPAGQLFDQIAVQAGLDRSRAYVTNA
+VKHFKFTPRGKKRIHQRPNTSEIDHCRWWLDAEVAQVKPKLILGMGATAAEGLTGRRDAI
+LARRGKVEEAPDGTPVLLTLHPSYLLRLPDRAAKADATAQFRADLETAVRMLA
+>tr|B7RM95|B7RM95_9RHOB
+MATVTQHSRFGNALWPVLAWVVALIFFFPIFWMVFTSFKTDADAVKPENLFLFTPTLENY
+VNMTKDYDYWRFATNSVITSTFATLFALVVGVPAAYAMAFDPSRHTKDVLLWMLSTKMLP
+AAAVLYPMTFLTKNFLDMYDTRFLVILVLCLINLPIVIWMLFTYFKEIPKEIIEAGKMDG
+VSTWGEIKDILIPLAWGGIASTALLTFIFCWNEAYWTVRLTTIDAATLSKLIEGNRAPEG
+LFFGRLSAVSTAAVAPIIILGWFCQKQLVQGLTFGAVK
+>tr|B7RR15|B7RR15_9RHOB
+MTAALIQQNSHHWWNSRGMKRFARHRLAMMGVFMLLLLTSACIFGPYLLRYDSLYIDLPA
+RFSAPFTGDHYLGTDPLGRDIAARLLMAGRISLLVGFFAMVLSTAIGTVIGVVAGYYGGT
+VNSLLMRFVDAFLAFPSIFLLLALAAFINPSPVMITIIIAVTSWMEIARIVEAEVKSLRE
+RDFVLAGRMLGLSNVHIMFRELLPNLIGPIIVAATLTVARAILLEAYISFLGYGIQPPLP
+SWGNMLNGAQQYLATAPWLAIVPGIAITMAVTSFNFIGDGLRDALDARTDPA
+>tr|B7RPL8|B7RPL8_9RHOB
+MSSERLIYLPLGGAGEIGMNAYVYGYGKPGKERLIVVDLGVAFPDMDTSPGVDLIIPDIA
+WLEERRNQIEAIFITHAHEDHVGAIAHTYDRLRAPIYTRKFTANICKRKMSEHGHPDDAV
+TTVAPWPTQTTVGPFTVGFLPMSHSIPESSSLVIDVAGDRLIHSGDFKIDMTPGVGEAYD
+PDLWADVSKDGVKALICDSTNVFSLNAGRSEATVGPEIEKLLGTAQGMVVATTFASNVAR
+VKTLADAGERAGRSVVLLGRAMKRMVEASLESGVMKDFPPVISPEDARGVPRENLMLLVT
+GSQGERRAASAQLARGKYMGLEMKEGDMFLFSSKTIPGNERGVIKVMNAFSEMGVDIVDD
+SSGLYHVSGHANRPDLETLHDVVKPQILIPMHGEHRHLREHVKIANGKGMKGVLAVNGMM
+IDLSGNEPKVAEYVESGRTYLDGSTQIGAMDGVVRDRIRMALNGHVTVTVIMDENDEALG
+DPWVDAMGLPEQGRSKSSLVDILEADLGQFLGRANAKTLRDDDKLHEGLKRTVRQSANDE
+IGKKPEVTIVVSRLS
+>tr|B7RGF8|B7RGF8_9RHOB
+MRILIVEDATDMAEAIVTRLARSGMACDLAENIAKADEHLAVQRYDALVLDINLPDGLGT
+DLLRNIRNRADRTPVLMLTARFSVDDRVSALDLGADDYLVKPFDHRELEARLRALLRRET
+DQKSDVQKVAELSFYPATLSAEHSGNRIELTRREAALLGVLLRHARQTISKERLYEGIYS
+FDEVDVGLNAIELYIGRLRRKIAGSGAVIETQRGMGYRIIESE
+>tr|B7RNN6|B7RNN6_9RHOB
+MAAEDILKYLNLFVDGRGHAGKIEEYSAPDLTVSTEEFRGGGMDAPIDLDMGQEKMTTSF
+VLTSYDRDVLSLWGIKDGSLVQLTARGSLESLDGTKTAVAHHMQGKIISVARGTWGSGAK
+PSLTFTVSLRYYREVHGGVDINEIDVVNMVRKVRGVDQLAEHRANIGL
+>tr|B7RIY8|B7RIY8_9RHOB
+MSIDETTAARVAKLARIKVDPAALPALAQEFNNILGFIEQLNEVDVEGVEPMTSVTPQVL
+KQRDDVVRDGGQQDKILANAPDAREGFFAVPKVVE
+>tr|B7RLD0|B7RLD0_9RHOB
+MNLTSLTRAICAIFLLSAAPLAAQGMMVHDAYARSSTAESTSGAAFMMVMNHSGDDDRLI
+GASSDVAEKIELHQHAEDANGVMRMGEIEGGVAIASDEAHEFKRGGDHLMLFGLKRPLVQ
+GDIIKVTLEFEKAGPFEIDVLVDQDRKPGHGTMDHSGHDPKNHAKHGDMSN
+>tr|B7RS08|B7RS08_9RHOB
+MTRLGADGPEVSQFGIGAMSFAGIYGDATVGESHAVLDACRAAGVTHIDTANVYGGGKSE
+EIIGSWFANTRGAREQMVLATKAGITGNPDRPFNNDPKHLQESLDASLKRLGVDHVDLFY
+VHRYDRAHSPEDVAGTLKRLIDSGKTRAVGLSEIAPTTLRRASLECPIAAVQSEYSLATR
+APELGLLQTCAELGTTLVAFSPVGRAFLTDAPFSYDRGQGMAFTKNNPRFMAPNYAANIA
+QTDKLRALAAEMGEPTAALAVAWVMAQGKNVLPIPGTKNEAHLAELLRGTQIKLSAEDIA
+RIEEILPVGWAHGDRYNAVQWLGPERYC
+>tr|B7RLZ1|B7RLZ1_9RHOB
+MDQISRVGVFIAVVKAQSFAGAARSLGITSSAVSKQVQNLEQDLQVKLLNRTTRNVSVTE
+EGAVYYEGAARALEDLQEAQEQIYELKSRPRGPLKISFPLSLGNKYFGQAIASFAAQYPE
+VDLDVSLDERFVDIVNEGFDLAVRIGSLKDTSLVARRMASCPFVICASAGYLETHGTPQT
+PGDLADHNVLAFTGNSGLHEWRYQDATGQIGQVSLRGNFKADSGEILCSAALQGVGIAIL
+PVFYVAKHLKTRKLQAVLPDYVTSPKRDIYAVFQPNRFQSTRLRLFVDHLVSTSKQLPWE
+S
+>tr|B7RLQ8|B7RLQ8_9RHOB
+MYKVIGATKSRALRVMWMLEELGEPYEHIACGPRSDEAKQYNPSGKIPALVDGDDVLTDS
+VAIMQYLADKHGKLTAPAGTPARARQDAMTFWLIDEMDAILWAAAKHSFVFPEEQRVPEI
+KDSLKSEFARAAKILSDRLEGPFLMGDSITVPDLLATHCINWSIGAGFPSVDDKLGAWAK
+STRERPAFKAATSKEA
+>tr|B7RPB3|B7RPB3_9RHOB
+MIRTPLRPLARILEARQKGENPDAIERENTRIPARTDARFRTXXXXXXXLFAPRDMRLYP
+NGALAAHIMGGASFGKEGVHGAEVIGVAGAEKYFDDYLRNPANGNKPLELSIDMTVQAAS
+ERILYGGMKLMNAKGATSVLMDVHTGEVISAVSLPSFDPNDRPHVAVSGDASDSPLFNRS
+VQGVYELGSVFKIFAAAQAIDLGLVTADTVIDTSGPMKVGGFRIGEFHNKNYGKQTVTGI
+IVHSSNRGSGRLALQIGAERQQEFLKSLGFFEPTPFEIVEASGGKPLLPKRWEELSSVTI
+SYGHGLSSSPMHLAAGYSTIANGGKKIVPTLLKQYGPKMGERVMSESTASDARKMLRAVV
+TEGTASFAEVPGYQVAGKTGTADKPGPRGGYLEDKVINTFASMFPAHDPKYVLILTLDEP
+VETSGEKPRRTAGWTAVPIAAEMIRRIAPLLGLRPTVEPGSVAGITLSSSN
+>tr|B7RS95|B7RS95_9RHOB
+MQEEQEIPMKFLAYAQNGTEGLAIETDNGFRGLLSTDKKYPGSLLDLLKQGGTALEDAGK
+TLAGGQPVDEDQVTYLPPVSDPEKIVCVGLNYHDHTAESGFAEQPDYPTLFGRFNSSLIG
+HGAPIMRPDCSDQLDYEGELVAIIGHEARDVSEAEALEYVAGYSIFNDGSIRDYQFKAPQ
+WTPGKNFDDTGAFGPYFIPADALPDGCLGLKLKTVLNGKVVQEAMIDQMVFSVAQIVSIC
+SQFMTLKPGDVIVTGTPSGVGLARKPQRWMKDGDVCEVEIDQLGKLSNPIKDRVPAKTTE
+NA
+>tr|B7RPE1|B7RPE1_9RHOB
+MSVTQEIADKLEAAFAPSELNVVDDSESHRGHAGHREGGESHFNVKIRSSHFVGLSRIAR
+HRAVHDALGPELIGRIHALALDLDA
+>tr|B7RLM4|B7RLM4_9RHOB
+MRNPDTLSADQQTKSEDTPQGLGFAVGAYVMWGFLPLYMKAMAHIPAAEIVVHRIIWSVP
+VGALVLILLGRTATLREALRSPRTLLMGCVTAGLISVNWGIYIWAVNSGHALDASLGYYI
+NPLFSILLASVLLGERLSKLQMAAIALAAVAVAILTVESGKFPWVALSLTLTFGLYALAK
+KRLPIGPNQGFLLEVLILLVPALVYLGYLSATGQTHFAQGVWFDTWMLVGCGIVTAVPLI
+FYANGAKRLRLSTIGILQYIAPTMIFLCAVLVFDEPFGHARMIAFPLIWAALVIYSISLF
+QQMRHK
+>tr|B7RM21|B7RM21_9RHOB
+MTWLSIADHNDRRFSVLGLGKDQQDAPVCGIQPDDLLTSGSIMFETRQAPDGRPQLLFGY
+KSTYPWLRSLTFQAIPGGGIALVQVQGSDITHAAIKHEDSGRSDVLRITYSWDSAAKWGC
+LALEEPENNRTVTVPVPNPRPIAIEDLRNMMLGRGDQTFGQDVIFAALSNKIEPLGPMPS
+LLPSTPLATPWGYKPASHLQRGDTVMTEGAGVVPVLQRVSRTVPARGSYAPIRLRAPYFG
+LQQDIVVAPDQRLVIDGPEVEYLFSKEAVLIPARHLVNGFAALQETSGQTITYTQLVLPA
+HETMLAAGTPVESLYIGRLRRQPVQLASSVLAGEDRNLLPEHGQPAHSVLKWFEAITLAS
+RRAA
+>tr|B7RIW2|B7RIW2_9RHOB
+MEPIRRDALVKATIAEIGAAQSLDVTVGQIARRAGMSSALAHHYFGGKDQIFLAAMRYIL
+SEYSAEVRRELRQAKKPLERAEAIIRASFDESCFDPATVSAWMTLYASSRTNVETYRLLV
+VYQARLRSNLTHALRPISVQPEQDAETLAALIDGLYLRAALSDSGSSKQACAQAQALLAT
+LVGGQS
+>tr|B7RQ35|B7RQ35_9RHOB
+MSTIIDIHAREILDSRGNPTVEVDVTLEDGTMGRAAVPSGASTGAYEAVERRDGDKDRYM
+GKGVLEACAAVNGEIAEALVGIDATEQVEIDGIMIELDGTDNKERLGANAILGVSIAAAK
+AAADYCSQPLFRYIGGTSARILPVPMMNIINGGEHADNPIDIQEFMIMPVAASNISEAIR
+MGAEVFHTLKKELTTAGLSTGIGDEGGFAPNLSSTREALDFVMKAIEKAGFKPGEEIYLA
+LDCAATEYYDEGKYVLSGEQKKLSSAENVDYLAALCADYPIISIEDGMSEDDWDGWKMLT
+ERLGDKIQLVGDDLFVTNPARLSDGIQRGCANSMLVKVNQIGTLSETLQAVEMAHRAGYT
+NVMSHRSGETEDTTIADLAVATNCGQIKTGSLSRSDRLAKYNQLIRIEEALGITAKYAGR
+SILKG
+>tr|B7RFU0|B7RFU0_9RHOB
+MSDEFMLDTDDLERRMDGAIASLRTEFASLRTGRGSASMLDPIMVDAYGTKTPINQVGTV
+NVPEPRMVTINVWDKSLVGKVEKAIRESGLGINPQLNGTIIMLPIPELNEERRTSLTKVA
+GQYAEHARVSIRNIRRDGMDQIKKAKADGMSEDDQKVWEGEVQDMTNKYIAMIDEQLETK
+QAEIMQV
+>tr|B7RJ22|B7RJ22_9RHOB
+MPVNASIRTTKGRGRLYDTVLDTIGDTPVIRVNNIPTHGSTIYVKAEAFNPGGSVKDRLA
+VNIIEAAERSGALKPGQTVVEATSGNTGIGLAMVCAQKGYPLVVTMADSFSIERRRLMRM
+LGAKVVLTPRAAKGMGMYKKAAALAEKHGWFLAAQFETKANADIHEATTAQEILADFDGS
+KLDYFVTGYGSGGTVSGIGRVLRQKRPDTRIILTEPANAQLLGSKHAQEREANGAPAVSH
+PAFEPHPIQGWTPDFIPAVLEEAVEGGYYDELIPIAGPDGIKCAQDLARKEGIFTGISGG
+ATFAVALAVAEKAPKGSVILCMLPDTGERYMSTPMFENIAEDMDADEIAISQSTPDAQMG
+>tr|B7RPM4|B7RPM4_9RHOB
+MDLGIKGKRALVCASSKGLGLGCAEALAEAGVDLVMNARGAEALEAAAERIRQEYGVNVV
+TVVADIATEAGQKAVLDAVGQIDILVNNAGGPPPGMWHDWDRDDFIKALDANMLAPIAMI
+KALVPAMMERGWGRVVNITSQSVRAPIGVLGLSNSARTGLTGYVAGTSRQVAGKGVTINN
+LLPGIHATDRADALDGNVVKQKGITLEEARTERAAGIPAGRYGTREEFGAACAFLCSQHA
+GFIVGQNLLLDGGATNLTM
+>tr|B7RFR9|B7RFR9_9RHOB
+MKRLLAYIAGMTQTLHIIGGGMAGSEAAWQAANAGIQVVLHEMRPKVGTFAHQTGFLGEM
+VCSNSFRSDDSEQNAVGLLHWEMRAANGLIMATAEKHRLPAGGALAVDRDPFAESVTAAL
+MAHPNVTVEYGEITELPREGHWIIATGPLTSGTLAQAIAAETGAEALAFFDAIAPIIYHE
+SIDMTKAWMQSRYDKGDTEEERTAYLNCPMDKATYEAFIDALLSADKTEFKEGETAGYFD
+GCLPIEVMAERGRETLRFGPMKPVGLTNANDPENKPYAVVQLRRDNKLGTLYNIVGFQTK
+MKYGAQTEVLRMIPGLENASFARLGGIHRNTFLNSPTLLDDQMRLRSQPNIRFAGQITGV
+EGYVESAAMGLLAGRLAVAEIRGEAATPPPPTTATGALITHITGGAEAKTFQPMNVNFGL
+FPPVEGLKSGRRGRKDRYKAYTDRAKTDWQAWLNGSHVPA
+>tr|B7RK68|B7RK68_9RHOB
+MSDWIDIAALDDVPQRGARVVKTLAGCVAVFRTATDEVYALNNSCPHKGGPLAEGIVHGD
+KVTCPLHNWVFSLETGQAQGADDGRVETYPATVENGRILLDKAALNRRSAA
+>tr|B7RP77|B7RP77_9RHOB
+MTQPIDLYYWPTPNGWKISIALEEMGLHYTTHLINIGAGEQFAPEFLKIAPNNRMPAIVD
+PDGPDGAPVSIFESGAILQYLARKTGQFGGRTSREQIAVEEWLMWQMGGLGPMAGQAHHF
+LKYAPAMDPPNDLPYAKDRYRAETARLYGVLDRQLTLHEFVACDQITIADFAIWGWASLW
+EGQQQTLEDKPHMARWLDVMGARPGVQAGRALYAEKRADFRSDKGAQSTLFKSK
+>tr|B7RML2|B7RML2_9RHOB
+MSVADILLRKTWRSIAFETWKVNNPDVKSGPKAGEKTMADGRGASSYSGENLLFLTDEQL
+RQAIEAMFFAYRGFTADPDRILVDMAYGRAHHRAIHFINRAPGTTVNNLLGLLGVTKQSL
+NRVLRTLIADGLVKSQVGKTDKRERHLYLTEAGRALEQTLSDAQRVRMRGAFRDAGPEAV
+AGFRTVLEAMMDPEMRHSYTKLKENGA
+>tr|B7RNX9|B7RNX9_9RHOB
+MSRATNRLSASTIKNAPAGKHADGGGLWLVKRADGGAQWVLRVTPHGRRREMGLGAYPDV
+SLKEARASAEQWRALVRQGLDPIKERERQRREAARNIHQLTDIALDAFESRKAELKGDGK
+AGRWFSPLELHILPKLGQVPVADIDQKDIRDTLAPIWHTKAATADKAMSRLSIVLRHAAA
+LGLEVDLQATEKAKALLGKQRHTVTNVPSLAWQDVPAFYQSLGGSITELALRLLILTGTR
+SGPLRNIHVDQIDGDVWTIPAEGMKGRKDATKDFRIPLSAEAQHVIAEARKFARDGLLFP
+GVKRGVISDMTMTALMDRRGMKERPHGFRTSLRVWLAEATNAPHDVAEMCISHMVGSKTV
+QAYKRTDFLEQRRVLMERWAMHVHQTEKKAVPFASAV
+>tr|B7RLA4|B7RLA4_9RHOB
+MKQEDDVVPKSTESKPESLPPQKGRSGVADVISALRRHDGHLATQEQKVANYVKAHLEDI
+SAMTIAELAGHCDVSTPTVIRFCRTLGCDGFREFKLRLAQNLAVSMQYLSADPQPEPADG
+DTAINQILGGIYASANVMRRQIDPEVLDRAKSALLKTRHLLFAGIGGGSSNVSQEAANRF
+FRLGIPSFSTSDSYILQMRAATLQAGDVLFLISASGEADAIVGAAEIAGGYGATTICITK
+SGTRLANVCNIPILIDLPEDRDIHKPTASRYIHMIIVDALAMSVAQDLAHETTENLRRIR
+ASLTAYHGRTGPQPLGD
+>tr|B7RGX3|B7RGX3_9RHOB
+MTYDLYIGDRTFSSWSLRGWLMLEKFDLPYRSHMIGLYGGTMAQDMAPLAPAELVPALKL
+PDGEVIGETLAMAETLAERHPDTSMWPAAPSARARARWLCAAMVSGFSALRGECPMQLQH
+VNTGLPVSDALAKDLARLEQLWDHAAPASDGNGPWLFGSYSLADAFYAPVCARIIGYDLP
+VSEQARRYCDTTINDPAFKAWRAEGLKTTYAPFPYDMGVETRAWPTN
+>tr|B7RHR7|B7RHR7_9RHOB
+MARTTGSHSDITGPKVRTAALRLFAQHGYAAVSMRAIATEVGVQAGALYNYTPDKQTLLF
+NLMRDHMEELLAASQDDAAADPLDELRDFVYFHIRFHADRPDEVFISYMELRNLTPENFT
+AVEALRRQYENRLEGILRRGAQSGAFSIADTKIATLAVIAMLTGVNTWFRSGGRLSLDQV
+IAQYWDMVRKSVVVG
+>tr|B7RSB7|B7RSB7_9RHOB
+MMSDIDADLVIIGAGPAGMAAACEARALNLSVLLLDEQLTLGGQIYRNSEDAPPNLLEIL
+GKDYAKGRDLVEEFRKSGTQYLGGSTVWNICKNGKVDYIRGGSATSVKGFSVLLASGALE
+RPFPIRGWTLPGAMTAGAAQILLKSTGAVPTEPVVLVGCGPLLYLLAWQYLRAGVRIKAL
+VDTTETIGYLRAIPHSFAAFKGWRDLFKGLSLLATLKHYGVRVHSRVSALELLGETEVTG
+ISFREKGELKSIDTSLVLLHQGVVPNVQLSMSTDAPHRWDNVQLCWHPVVDAWGRMADTA
+VYVAGDSGGIVGAKGSVIQGRLAALSVAQSLNVISDLKKRSLPLQMALRQAKHIRPFLDK
+LYRPKDEDRIPCHDDVVVCRCEEVTAGQIRGYVKMGCTGPNQTKAFGRCGMGPCQGRLCS
+LTVTEIIAEASGRTPEDVGHYRIRSPVKPILLGDFG
+>tr|B7RMB1|B7RMB1_9RHOB
+MKERPKHRFANLPEGGENPLNYAVTQRDRSTLAMVTDAIAHKQTLLAYQPVMRNVADDKV
+AFYEGLIRVLDPTGRVIPAREFMPVVEDTQLGREIDVLALRAGLMALADNPDLRLSINMS
+ARSIGYKGWTTMLNRWLNRDATIGERLILEISEQSAMQVPELVANFMEQLQSRSICFALD
+NFGSGYTAIRYFKDLYFDILKLDGQFIRGISRNPDNRALVSVMLSIAENFDMITVAEQVE
+NEEDSRLLTSMGVDCQQGFLFGSPTTRPYWTVNTQERKKMTGFLA
+>tr|B7RI62|B7RI62_9RHOB
+MTAFPRTLFNKDHDSFRDTVRRFCETQIKPHMADWNAAHQVPPETWKQAGALGMLNAWLA
+EEYGGIGQGILFDIIVSEELGRIGATGPGFSLHSLIVTPYINNRGSDELKARILPRMVSG
+DAIGAVAMTEPGTGSDLAAIKTRAERHGNGWKINGQKTFITNGQNADVVVTACVTDPSKG
+AKGVSLFVIEREMAGFSRGRNLRKIGQHGNDTAELFFEDVFVPGENLLGEENKGFYYLME
+ELAQERLLISVQCQARAEAAFEMTVDYVNERKAFGKKILDFQNTRFVLAGLKAELMAGRA
+FCDALIALRLAGKLDAVQASAGKLYHSELLGRVVDQCLQLFGGYGYMEEYPIAQAFVDAR
+IERIYAGTSEIMKEIIGRSLDKA
+>tr|B7RL90|B7RL90_9RHOB
+MIHKNWAELIKPQQLDVKPGNDPARQATVVAEPLERGFGLTMGNALRRVLMSSLQGAAIT
+SVQIDNVLHEFSSVAGVREDVTDIILNLKGVSLRMEVEGPKRLSISAKGPGVVTAGDISE
+SAGIEILNRDHVICHLDDGADVYMELTVNTGKGYVAADKNKPEDAPIGLIPIDAIYSPVK
+KVSYDVQPTREGQVLDYDKLTMKVETDGSITPDDAVAFAARILQDQLGIFVNFDEPESAS
+RQDDDDGLEFNPLLLKKVDELELSVRSANCLKNDNIVYIGDLIQKTEAEMLRTPNFGRKS
+LNEIKEVLSGMGLHLGMDVEDWPPDNIEDLAKKFEDSF
+>tr|B7RHK4|B7RHK4_9RHOB
+MFHDRPRIFLLILSALGLGVGAALWLAGLPDLARLAWGGGVVPVLAALCVEMIGCLRKGE
+FGLDIVAALSMSAALFFGETLAAAVVALMYSSGTFLESFAEGRARREMSDLLSRVPRTAT
+RHRDGQLEKIALDAIRPKDLLLIRQGEVVPVDGTVASAQAMLDQSALTGEAMPVRLTRDM
+NVMSGATNAGEAFDLRATRGAADSTYAGIVRLVDAAQKSRAPMARMADRYALFFMGVTVA
+LAVAAWWFSGDPIRAVAVLVVATPCPLILAVPIALVAGLSRAARFGVLIKGGKALEAMAR
+ICTLIVDKTGTLTDGRPQIVSVTSAGDLTDDEVLYFAGALDQASQHPVAQAVVAAAQGKN
+ARLPVPTDVVETPGEGVTGTIDGRPVVVGGTDFVAARIAATAPEDRPQEPGAVLVSLGVD
+GKLAGGLVMADALRSDTPVLLAGLRRNGIERIVLATGDRRAVAEAVTRGLDLDGVQADLT
+PDQKVLLVLSERKNGPVMMVGDGVNDAPALAAADVGVAMGARGAAASAEAADVVLLVDNL
+ARLLPGLMIAHGARRIAFQSVVAGIGLSVAGMIAAASGYLSPVEGAVLQEVIDVAVILNA
+LRALRIDPGVLFEQTDQGDGPPEPKMTLETTA
+>tr|B7RJ11|B7RJ11_9RHOB
+MTSIATKSDFDSSSKRFERFSKLVKDEIGVRLPLNKRMMVESRLRRRMTQLNLVSVDDYF
+RYLFDEGRLAEELDVIFDAVTTNKTDFFREPDHFSILADVIVPERLKRRKANGRASMFKF
+WSAAASSGMEAYTTAMVLAQYEERAAPFEWGILGTDINLKMLERCHEAIFDTAEIAPVPA
+SLRTKYLMEGTGDRKGQWRVVPKLRSRTRFQKLNLLGVNYPVDRDIDVIFLRNVLIYFDA
+VDQAKVIERMISHLAPHGHLIVGHSESMIVRQPGLTQIAPAVFCKD
+>tr|B7RJ01|B7RJ01_9RHOB
+MTQIDTLTEILQSRYSCRAFRPDPVPDDVITRIVKAARHVPSWCNAQPWQLSITKGAATD
+RLRSALLAQAAEGSTPQPDLDWPKGYSGVYNDRRRTCGFQLYDAVNIDKSDREGRHAQML
+RNYALFDAPHVAIVTSPDELGTYGAMDSGGFVTAFTLAATALGVATVAQAAIAAYAPLLR
+DQLNIGDDRLILCAISFGYADTDAPINRFRTERAAPADIIDWNC
+>tr|B7RQG4|B7RQG4_9RHOB
+MILGAAGGAALLAAGRPHPLQAAAHATAPLPTFYDRMVGNLRVTTLLDGYFKLDQNLVTN
+LGDEQIAEGMKAAYLDPANPIPLAISTHVIRQGDQVSLIDAGAGGAFGPSAGRLLTSLES
+LGVAPEDVTRIVLTHMHPDHIGGLIGDNGPVFPNASLHVSETDHAFWTDETIASGAPESS
+QGFFALARAVSEAYTQRTEMFGDNTDLGGGLTTLAMPGHTPGHSGVRVSDGSDQLVIWGD
+STALASLQFSHPDAGIAFDADGVQAAETRRRVLDMVVADKIAVAGTHLPFPGIGHVEEKD
+GAFAWVPEEWQHI
+>tr|B7RMJ0|B7RMJ0_9RHOB
+MIQEKLELPGIERIRARFLDMLKDRQSAIAEHALIAWESDVLDEINGNLAGARTILHQIA
+GTAGSLGFKDLGVRARTCEVEIDAHLNGPDADLAICPATLIFVMDTFLQESEALIAANQQ
+TVSA
+>tr|B7RIU8|B7RIU8_9RHOB
+MTANTENWRNLAEAELRGRSIDDLTWHTLEGIDVKPLYTAEDVEGLDHMGGVPGAAPFTR
+GVKATMYAGRPWTIRQYAGFSTAEESNAFYRRALAAGQQGVSVAFDLATHRGYDSDHPRV
+EGDVGKAGVAIDSVEDMKILFDGIPLDKVSVSMTMNGAVIPILANFIVAGEEQGHDRSVL
+SGTIQNDILKEFMVRNTYIYPPEPSMKIIGDIIEYTSDYMPKFNSISISGYHMQEAGANL
+VQELAFTLADGREYVRTAIAAGMDVDKFAPRLSFFFCIGMNFFMEAAKLRAARLLWSRIM
+DEFQPKNPKSAMLRTHCQTSGVSLQEQDPYNNVIRTAYEAMSAVLGGTQSLHTNALDEAI
+ALPTEFSSRIARNTQLILQEETGVTNVVDPLAGSYYVEKLTSDLAEAAWKLIEEVEELGG
+MTKAVASGMPKLRIEEAAATRQAKIDRGTDVIVGVNKYRRETEDEIDILDVDNVAVRDSQ
+IKRLKTVRDNRDEAACTAALAELSRRAKEGGNLLDGAVEAARARATVGEISMAMESEFGR
+HRAEVKTLAGVYGAAYEGDSGFAEIQKSVEDFAEAEGRRPRMLVVKMGQDGHDRGAKVIA
+TAFADIGFDVDVGPLFQTPAEAAQDAVDNDVHVIGISSQAAGHKTLAPQLVKALKEAGAE
+DILVICGGVIPQQDYQFLYDAGVKAIFGPGTNIPKAAEDILKLIREARG
+>tr|B7RHL3|B7RHL3_9RHOB
+MAALTLAGCDAAGTFGFGKSDGQGAVTPAGSTKLVERDVEAPDVFSANDQGLWDGRPSLG
+GVWVAHPDVTDPERVIIRNEANGKFVIGALFRRERDLPGPKLQISSDAAAALSILAGAPA
+PLNVTALRRQEVDTPPQDAAPQGTVEAPAAMTETTLDPVMTTASAAIDTAPAAALPAQTA
+PKPAAPQTTSSLGTPFVQIGIFSVEANANRAANQMRSAGMLPTVKRSEIDGKAFWRVVVG
+PAKSKSELNALLKSIKTEGFSDAYAVSN
+>tr|B7RJD6|B7RJD6_9RHOB
+MSHPQKDRPWLIRTYAGHSTAEASNALYRANLLKGQTGLSVAFDLPTQTGYDSDHILARG
+EVGKVGVPVSHLGDMRMLFRDIPLDQMNTSMTINATAPWLLALYIAVAEEQGADVSALQG
+TVQNDLIKEYLSRGTYICPPAPSLKMIADVAEYCYTNVPKWNPMNVCSYHLQEAGATPEQ
+ELAFALATATAVLDALRPRVPEKDFPMLVGRISFFVNAGIRFVTEMCKMRAFGDLWDEIC
+LERYGVEDPKFRRFRYGVQVNSLGLTEQQPENNVYRILIEMLAVTLSKNARARAVQLPAW
+NEALGLPRPWDQQWSMRMQQIMAYETDLLEFDDLFDGNPAVDRKVEALKEGARAELANLD
+GMGGAISAIDYMKSRLVESNADRLGRIEAGETIVVGVNKWQQGEPSPLMTGDGGIMVVDP
+AVEADQIDRLNTWRANRDQAAVDKALADLRAAAAEGRNVMEPSIAGAKAGVTTGEWAAQM
+RAVHGEYRGPTGVGTGRSNKTEGLDTLREAVDAVSTRLGRRLSFLVGKPGLDGHSNGAEQ
+IAVRARDCGMDISYEGIRLTPSEIVAAAVAGKHHVVGLSILSGSHIPLVEDLVKQMRDAG
+IGHIPLIVGGIIPDDDSKRLLAMGVARVYTPKDFELNTIMQDIVTLADPQTVAAE
+>tr|B7RMK4|B7RMK4_9RHOB
+MSQAEDHAGTRRDFLYYATAGTGAVAVGAAVWPLVNQMNPSADVKALSSIRVDVSAVEPG
+TQLTVKWLGKPVFIRRRTEAEIEEARAVDVSALPDPEAENANIAAGAPATDENRAMAGQE
+EWLVMMGVCTHLGCVPLGDAGDFGGWFCPCHGSHYDTAGRIRKGPAPRNLPVPLAEFVDE
+TTIKLG
+>tr|B7RJY7|B7RJY7_9RHOB
+MKLSADLRAFEGRIGYKFSKPELLIRAVTHASMSSANRDDNQRLEFLGDRVLGLVMAEAL
+LMLDPKATEGQLAPRFNALVRKEACADVAREIDMGAVLKLGRSEMLSGGRRKQALLGDAI
+EAIIAAVYMDGGFDAARDLIIRLWGDRVQTVKQDARDAKTALQEWAQARGFPPPSYVQTD
+RQGPDHAPVFTITAKVQNGASAVAVAPSKRQAEQAAAKLLLAKLENNT
+>tr|B7RGI3|B7RGI3_9RHOB
+MKNTLTRTLLCSVAFLPSLAQAQSETTFDLAPILVYGGFLPTTLDATGATIEVVDSEDLK
+QGGASVADALAVLPGVSLSANGGLGTRSSIRVRGLDGTYLGVRIDGIEVTDPSSTQTSFN
+FGTLTSGTLDRVTLIKGTQSALYGSDAIAGLIDVQTWRPTQDGASGRATLEYGSFNTRTA
+TSSVGFRDDRVELAFSLSRVVTDGFSARASDTEDDGFEQSTANLFAAYQLTDAVRVGVSG
+LWSDGTSDFDRSASNSSGSTDEVRSGLRVFTEVTQGAWEHEFSLSAYRNDRFDAGGFTQE
+FIGDRLKAAYVGRVDLSTASALAFGIDWTEERASLDGTEFEASNTAAFAEIKLSPRDDLE
+LSANLRYDDFSDFEGQFSGRAALAWDATDATTVRASFGTGYRAPSLYERFGPYSGPVLEP
+ETSRSFDLGVEHRMGDTATLRATAFYIEIDNLIEYSTATSSYAQVPGTTVSKGLELSGNY
+SFSDRLSFTGNYTYTLGESDGARLARVPRHELSLAADFDVTDRLSTVLRATHVADVVDGF
+GTLTPLADYTVVDLSAQYDLTDRTNAYVTLRNLTDETYETVRGYNTSGRALYVGIQADF
+>tr|B7RGU8|B7RGU8_9RHOB
+MPQTATAADEIAGEFDYYVLALSWSPNWCTLEGDARRSPQCDDAQDHGWIMHGLWPQFHR
+GYPSYCRTVEISPSRGRTAAMADIMGTPGLAWHQWKKHGSCTGLSAQRYYATSRAAYETV
+VRPPVFRKVKTDIRLPASVVEDAFVKANPDMDRDGITVTCKSGFIQDVRICLSKDLVPVP
+CGRDVIKDCTMDNAVFTPIR
+>tr|B7RMF7|B7RMF7_9RHOB
+MINSATLRANAEDQAARFPALLARAEHLAGAVLLGAHGRRRAGVGDDFWQYRPAQQGDSR
+RRIDHRRSAMGDQEFVREREWQIAQSVMLWVDQGASMRFTSDPKLPEKADRARLLGLAVA
+ILLQRGGERVGLTGTALPPRSGTPQILRLAEAFCQDDAADYAPPEHRAMIPHARAVFISD
+FMGDLDGVTLALTKAADRGVRGVLCHVLDPSEEAFPFTGRTIFESMGGTIHHETLKANDL
+KSRYLERLAERKAELQRLCALTGWHYGLHHTNASAQSALLWLYSALDTRAGAAA
+>tr|B7RK43|B7RK43_9RHOB
+MTYPKAIIFDLDGTLIHSAPDLHAAANATLTSLGREALDLPTVISFIGNGVEKLVERSLD
+ATGGYDAAQRQTALGLFMDSYNQDMTTLTRPYPGVMAALAAFQDAGVPLGICTNKPTGPA
+REICERLDLTPYFQVIAGAEDGQAKKPDPAPLLACIDDLRAKPSETLYVGDSTIDYFTAR
+NADVPFRLYTNGYLNAPLPDLPEASRFDDWTAHGIPTG
+>tr|B7RGE7|B7RGE7_9RHOB
+MTYPVDMSVKPDVSAHFDEPTNTITYIVKDPNSDHCAIIDSIMDIDYAAGRITYDAADAL
+IAEIQDRGLTLDWIIETHVHADHLSAAPYIQEKLGGKIGVGEKILVIQETFGKVFNEGTE
+FQRDGSQFDALFKDGDTYQIGTMQAFAMYTPGHTPACMVHVIGDAAFAGDTLFMPDGGSA
+RCDFPGGSASELYNSIMKVLSLPDEMRLFMCHDYGPNGRAIKWETTVAEQKANNIHVGGD
+KTREDFIKFRSERDTQLAMPKLIIPSLQVNMRAGDVPTDKDGNPMLKVPINGL
+>tr|B7RLC0|B7RLC0_9RHOB
+MAGPKISAAGGKISSTSLSEITEIPKVERKWFGSELSINIDGSDHILRVRGANRSELDLF
+AHQLESAWRDHSLAQLDAQSDAISYVVKAITKLEAPTGYPAACYVQPILESARELETSLF
+SKLNENAIGIARFKNVKFITAFLSSPGKQRSRAIEKFEQTQLAKWSDFLDSFETNPLTPE
+QRLAVIADEDATLVLAGAGSGKTSVITAKAGYLLKAGIRKPEEILLLAFARDAAVEMSER
+IEQKCGEPVEARTFHALSYDIIGFVEGCKPALAAHATDNKAFLVLIRDILITIAAGAAEA
+SKAIINWFTSGRLEAKSEWDFKQKHDYYSYLEKEELRTLQGDQVKSYEELLISNWLYENG
+VEYEYEPDYEFDTSDPTKRNYCPDFRLSESGVYLEHFGVRKVVSRGEERLETAPWVDRDD
+YLEGMEWKRQVHKDNETILLQTFSYERQEGRLLDALAEKVAPHVTLNPRPPEMLFDRVME
+MNDIDGFVQLLANFLRNYKSGGYTLEHCTQKADTAKLGKRAQLFLTIFRPVFEAYEESLE
+GRIDFEDMVLRAAQHVESGRYKSPFGHILIDEFQDISRSRARLVKALLGQKHDTRLFAVG
+DDWQSIYRFAGSDIHLMRNFGAEFGGNFDGQSGVHRTVDLGRTFRSVDKIAFAARKFILK
+NPTQLTKTVIPAGTTETPAIKVIPTFKHDGDQKLENELLTLQTVAQESGQRASVLLLGRY
+RHSEPDDFRKFRRTYKDLDITFKTIHSSKGLEADHVILLQAFKGQIGFPSEIVDDPLLTM
+VSPEAEPFEHAEERRVMYVAMTRARKTLTIMGSAAKPSVFVEELVEDAEYGLLPTAMESA
+KVQTCGECQGHLQPIPKRDGGTFYRCEHVQLCGNIMPSCPSCGVGFPARKKGQTEAVCDC
+KESFPACPCCADGWLVERKGRFGKFLGCVKFPRCTGKAKVPKR
+>tr|B7RMM5|B7RMM5_9RHOB
+MKRTSWFTVTSLTLGFAFLYLPMVLLVIYSFNSSKLVTVWAGFSTKWYGELMQNEEFLDA
+ALVTLKVAVASSTLATLLGTMAAYVLVRGGRFMGRTLFSGMIYAPLVMPEVITGLSLLLL
+FIGVGLDRGVLTIVLAHTTFSMCYVSVVVSSRLVSFDRSLEEAALDLGCSAFDAFRLVTL
+PIIAPAVISGWLLAFTLSLDDLVIASFTTGPSATTLPIKIWSAVRLGVSPEINALSTIMI
+AIVTVGVISASLVSKRSAIKAQQDMQAAERGAT
+>tr|B7RQI9|B7RQI9_9RHOB
+MVVANGLAGSFTGPLDPQILAKWGIGVDALRGFDISRFMTAIFLSHDPSMLARQFFFAAG
+VIGLTEWIWGSWRAAALFFGLDIVSAAALIAVIAFFPVLDPLAEVTDVGMSLGGFGLIGV
+LLSMWRHRWIGLIGVSVLVATKYAFAPDPVADGGHVIALMIGFCVGLARFHIPGLSAFPS
+TQV
+>tr|B7RR81|B7RR81_9RHOB
+MLEAVVLTGVLVPGAVAVLTAGILAQLGVADFSDLVWFVAVGTFVGSGISFYLGRLSQQG
+ATGGLRFGGSRHAVAADRLLQRYGGFAVLLGRFFGPLSGFVPFSAAMGGMGLGKFIALNA
+ASAAVYAVILLALGYVCGIALGTMAAAAPHLFVFALVVLVAFGVLLLIWYRVSMLAPTLF
+DIAKSVGKGFLQTPLVRRLADRHPRLVGFFAARFGTDQFLGLTATMLGALLVYVGVAYAE
+SVYHFMGAQGNVASDTHLANLLFAMRDERLIAVLAWITDIGGRHGILPLLGGATVMLLIL
+RRYDLLGGLWITAVGNQITVTLLKSFFSRPRSTLGYFVETSGSFPSGHAAASVAVWGMLF
+YLAWQLRVLRADIAAFAAVAVAFLIGFSRVYLVEHYLSDVLNGYLVGGIWLILGIALCEW
+RRAAPKRNTTPLRRGLAVACFSVGAFTSGYLASTTSNPLGETTARMTQITAEPLKVLDSA
+GLPEMTEVLSGAPRQRVNLILTAQDASALTDTVQKLGWQPAPNPTLGMLARAFFDDWTGR
+PLPQPLVIPTFWDSRLMTIGYAHAVDPAEDERLHLRIWDSLFRTRDGQTVFVGTMTEEDP
+LAWALDETEPVDMGPRTRAGLQELTDTLNNAGLPATRP
+>tr|B7RH68|B7RH68_9RHOB
+MRQYDTTDRRILDELQRDASQSMDQISERINLSRNACWRRIRALEEDGVITARVALLDPD
+KLGLGLTVFMQIRTNAHEPGWLETFSKATKSMPEIQGVYRMTGDLDYLIRARVADMAGYD
+RLYQSLIRRVTLADVSASFVMEEIKETTALPL
+>tr|B7RKX7|B7RKX7_9RHOB
+MALVTAIGLGLVAQATKVKAAGTETLLVAGGCFWCVESDFEGVKGVKEAVSGFAGGTVKN
+PTYKQVVAGRTGHYEAVQIQFDPAVVSVDQLLAMFFRSIDPTDAGGQFCDRGDSYRSAIF
+ADGPAQKAAAEKAKSDAQAALGKTVVTPVLGKTAFYPADEYHQDYYKSDERLAFSSVGLA
+VKKSVAYKRYRKGCGRDQRVKQLWGSAAPFAG
+>tr|B7RRN7|B7RRN7_9RHOB
+MLDGMTRRSCVTPVSTLEGADIRTIEGLDTPEAEAVQAAWTAIDVPQCGWCQSGQVVSAA
+ALLYEIPNPTDEEIDQAMAGNICRCASYVRIRQAIKDAAKTLEG
+>tr|B7RS11|B7RS11_9RHOB
+MTTTLRERRKQQTSREIRLAAIELCFEEGFENVTTEAISARSGVSQRTFFNYFPNKEAAI
+IARPPPFPDDVVADFVNGSGTFLEDLEALVIAHLGQLEEDREIIRTLRNLIEMHPVLRAA
+HDASMRLLLAELSGFFARRSPDTDPVVMEMLASAVVMAIGGIIRSIDQDETPFAARVDEV
+FVRLRTMVDVVSQPPVAMG
+>tr|B7RG92|B7RG92_9RHOB
+MWRHIASNAVTFLILALFLLGGVVLWGRSQYDAPGPLAQAICLQVERGSNMRTVGSKLAE
+QQAVTSAPIFRLGADYEEKTGDLKAGSFLIEPQTSMKEIVDIVTRGGASTCGTEVVYRIG
+INRISTLVRELDPTTNRFVEKAEFTPGVDDVPEIYTQTKAKNDTRFRIALAEGVTSWQVT
+EALKSIDMLEGTVAEVPDEGALAPDSYEVRTGDDRSAVLARMQASQEQRLAEAWEARDPG
+LPVASPEELLILASIVEKETGVPEERQQVASVFVNRLNQGMRLQTDPTVIYGITKGQGIL
+GRGLRRSELRAETAWNTYVIPALPPTPIANPGLASLMAAAQPAEEDYVFFVADGTGGHAF
+AVTLEDHNRNVARWREIEAERGAAAAGNASTGGN
+>tr|B7RII3|B7RII3_9RHOB
+MTPHNILPDEHQAPSPTGNWALVIDDHPLFCDALELTLRSVAQFSEVLTADCLEAALELL
+EGAMAPELILLDLNLPDVSGLDGFLRLKRHAPGSPVIIVSSMTDNAIINAAINAGASGFV
+PKHSQRLVFKDALARVKAGGIFTPSGYVDGREPDGSDANLARLASLTNQQYRILQLICEG
+KLNKQIAFELSIAETTVKAHVTAIMRKLGVQSRTQAVLVAHEAKFSKVLASEE
+>tr|B7RQF0|B7RQF0_9RHOB
+MFDALMVTKDEESGKTSAAVTQIDLDQLPAGDVTVAVEYSTVNYKDGLCIGPGGGLVRKY
+PHIPGIDFAGTVEASEDDRYKPGDKVVLTGWRVGEAHWGGYAQKARVKADWLVPLPEGLD
+TRQAMAVGTAGFTAMLAVIALEDHGLKVGQGPVLVTGAAGGVGSVAVAILAALGHEVAGV
+TGRPETADYLKSLGATQIVAREEINETVKRPLEGETWAGCIDAVGGEMLARVLGQMKYGA
+SVAAVGLAGGANLPATVIPFLLRGVNLLGIDSVMQPYENRLRAWKRVASDLPMAKLEDMV
+VPATLKDLPQLGKDILKGQVRGRVVVDVNG
+>tr|B7RQH9|B7RQH9_9RHOB
+MQKMNARQGAAERHTIRVASYNIRKAVGLDWRRDPHRIADVLAEVDADVIALQEADKRLG
+ARAGVLPLQRLEAELGYRMVEVSMRPHSHGWQGNAILVRSHLRDYVAERISLPTMEPRGA
+VSVRLQEPELEIIGLHLGLTPGMRRKQMLNLQKLMAEREHPVLLAGDFNEWNTGRMPFAP
+PSTVVTPGPSFHARRPSAQLDRFVLGPGLRSVSSHVHQSPLSKRASDHLPIVVDIAFTGI
+FK
+>tr|B7RIC8|B7RIC8_9RHOB
+MTQADDFGFGTQIRKSPYFDATVRWGAKGFSVYNHMYIPRDFGDPEQNFWNLVNEAILCD
+VAVERQVEITGPDAAKFVQMLTPRDLSKMAVGQCKYILITNADGGILNDPILLRLAENHF
+WISLADSDILLWAQGVAVHSGLDVQIGEPDVSPLQLQGPKSGLIMQELFGESIMDLKYYW
+LREVDLDGVPLIVSRTGWSSELGYELYLRDGSRGDLLWERIMAAGMEHGLKPGHTSSIRR
+IEGGMLSYHADADNKTNPYELGFDRLVNLDMDADFIGKDALRRIKENGPKRKQVGLLIDC
+DPLKGPNTTFWTVNQGGKEIGKVTSAVYSPRLEKNIALAMVEVDAAVLGAEVEVVTKSGP
+TKATVVERPFYDPKKQIAAA
+>tr|B7RP86|B7RP86_9RHOB
+MPDLLIELFSEEIPARMQARAADDLKKLVTNGLVEAGLTYASAAAFSTPRRLTLTVQGML
+DASPSITEERKGPKADAPEKAIEGFLRGAGLTRDQLEERETPKGNILFAMIRKPGRPAAD
+IVAEVLETTIRNFPWPKSMRWGTGTLRWVRPLHSILCILSAEDGAQVVPMTVDGIDAGAT
+TRGHRFLAPGAITVSSFDDYTAKLKRAFVVLDPAERRDAIWHDATNMAFANGLEVVEDAG
+LLAEVAGLVEWPVVLMGRIGDDFLDLPPEVLQTSMKEHQKFFSVRNPKTGRIERFVTVAN
+RTTADDGATILAGNEKVLSARLSDAKFFWENDLRIAQSDAGMQVWVDRLSNVTFHNKLGT
+QAELISRMEALAGELAPMVGADADEARQAARFAKADLSSEMVYEFPELQGLMGSYYAKAA
+GKSGAIAAAAQDHYAPLGPSDDVPTAPVSIAVALAEKIDKLTGFWAIDEKPTGSKDPFAL
+RRAALGVIRILVENDLHVPLDHLHAAQLVRNKRKVMPGLEDHHVEDLLHEIAKHGVFASA
+FQAFIHRNDKKAPTDDIAKLETAVPAKSGDLLSFLHDRLKVYLKDKGIRHDIIDACIAMP
+GNDDLTLLVKRAKALNETLKTDDGENLIQGFKRANNILSQAETADGVEYSFGADIKFAET
+DEERALFAALDAAEAQINPAMDAQDFTAAMSAMASLRAPIDAFFDAVQVNSDNGTVRRNR
+LNLLSRIRTICTSVADLTKIDG
+>tr|B7RG73|B7RG73_9RHOB
+MATEILMPALSPTMEEGTLAKWMVKEGDTVSSGDIMCEIETDKATMEFEAVDEGVIGKIL
+IQEGTEGVKVNTAIAVLLEEGEDASAADNVSSDAPDAAPAPKAAESKPAEAKAPTAPETD
+TTPDWPEGTKLKQQTVREALRDGMAEEMRRDENVFLMGEEVAEYQGAYKISQGLLDEFGA
+KRVIDTPITEHGFAGIGVGAAFGGLRPIVEFMTWNFAMQAIDHILNSAAKTLYMSGGQMG
+APMVFRGPNGAAARVGAQHSQDYAAWYMQIPGLKVAMPYSASDAKGLMKSAIRDPNPVVF
+LENEIMYGKTFDVPDIEDYTVPFGKARIWREGSDVTIVSFGIGMTYALEAAEKLAAEGID
+AEVLDLRTLRPMDTASIIKSVMKTNRCVTVEEGWPQGSVGNYITSVIMQEAFDYLDAPVI
+NCTGKDVPMPYAANLEKLALLTTDDVIEAVKKVTYK
+>tr|B7RMQ0|B7RMQ0_9RHOB
+MPKAGYPQKGIAMVDIAARVWNHKWKIDPIVRSLIDTDFYKLLMCQSVFRNKPKTQVTFS
+LINRSKHIPLADLIDEGELREQLDHIRSLSLSRGESTWLRGNTFYGKRQMFRPDFMEWFE
+GLRLPPYHLERVGDQYELTFEGSWPEVMLWEIPALAVLMELRGRAVLDRMGKFELQVLYA
+RAMTRVWEKIEELRAFPDLSIADFGTRRRHSFLWQDWCVQAMQEGLGRAFTGTSNCKIAM
+DREVEAIGTNAHELPMVYAALAEDDAALAQAPYDVLQDWQDEHEGNLRIILPDTFGTKGF
+LDDAPDWLAGWTGIRIDSGDPATAAQIAIDWWASRGEDPSTKRLIFSDGLDVPKIKELHS
+QFAGKVHTSFGWGTLLTNDFRGLVPDDALAPFSLVCKAVAANGRPTVKLSDNPNKAMGPQ
+SEIDRYKRIFGVGDQTPQKVIV
+>tr|B7RJE6|B7RJE6_9RHOB
+MAYLTDRKRAVGMGSAKSGTAHFWAMKVSSVALLILIPLFVFTFGAALGGTYEEILAYYA
+KPFPALIAALTIAVGFKHFNDGVQVLIEDYVHGLSQKVAIILMTCLSYGAAAAGVFAIIR
+LAL
+>tr|B7RPH9|B7RPH9_9RHOB
+MAVAAAGANVAGMDRDVATQNLNKELQDKGFLLTSTEDIINWARTGSLHWMTFGLACCAV
+EMMHTSMPRYDLERFGTAPRASPRQSDLMIVAGTLTNKMAPALRKVYDQMPEPRYVISMG
+SCANGGGYYHYSYSVVRGCDRIVPVDIYVPGCPPTAEALLYGILQLQRKIRRTGTIVR
+>tr|B7RLH3|B7RLH3_9RHOB
+MLLCAVAGIAQAQQGPLRIEITEGVIEPLPFAVPSFQPESGEAGQMAVDLARVVSEDLVG
+SGLFREIPASAFISTVSDFNAPVQYADWKAINAQALITGAVNVSGNTLSVKFRLYDVFSG
+AELGSGLQFQGTVDGWRRMAHKVADAVYSRITGEGGYFDSRVVYVSETGPKDGRQKRLAV
+MDYDGANVRYLTDSTSIVLAPRFSPTGDRILYTSYESGFPRIYVLDIGSVQRRVLESADG
+TMSFAPRFSPSGQTVVYSLTQGGNTDIYTMDINTGQSVRLTNTPAIETAPSYSPDGSRIV
+FESDRSGTQQLYIMPASGGEAQRISFGEGRYGTPVWSPRGDLVAFTKQNKGRFHIGVMRL
+DGSEERLLTASFLDEGPTWAPNGRVIMFARETQGAGGSSSLYSVDISGRNLKPVRTQEGG
+SDPSWSPLQQ
+>tr|B7RLW5|B7RLW5_9RHOB
+MKATVMHGPGDVRFETVDDPKILKPTDAIIQLSATCICGSDLWPYRSAAPFDAPMHMGHE
+YCGIVIEVGPDVKTVRPGQFVVGSFVLSDNTCPHCQFGFPSSCEQREFMTGAQAPFARVP
+LADGTLLATQDMPTAEQIPHMLAVSDVLGTGYYAAEAAGVKEGSTAVVVGDGAVGLMGVL
+SAKLRGAERIIAMSRHPARQKLALEYGATHIVETRGDEGISEVLEITNGIGADAVLECVG
+LQQSMDQAMGVCRPGGSVGFVGVPHEVTFTGEGLFFQQKRLFGGPAPVRRYLPDLMDRVL
+KAEIEPGKVFDLELPLDQVAEGYRAMDERRAIKTLLRV
+>tr|B7RL49|B7RL49_9RHOB
+MADLKKLAEDIVGLTLLEAQELKTILKDEYGIEPAAGGAVMMAGPADAGASAEEKTEFDV
+VLKNAGASKINVIKEVRGITGLGLKEAKDLVEAGGKIKEGVDKAEAEEVKAKLEAAGAEV
+ELA
+>tr|B7RLY4|B7RLY4_9RHOB
+MDSYINVPVAPLAREARRTESIKLYGPDAFEGMRRAGALSATCLDGVTDLINDAPPLADI
+NTFVLDFAATHGATPATLGYEGYEYACCTSVNHVVCHGFPNGKKLRDGDIVNVDVTLILD
+GWHGDTSRMYAVGKPKRAAHRLIRIAHEAMMRGIQAVRPGARLGDIGHAIQSYAQSERCS
+VVRDFCGHGIGQVFHDSPNILNFGQAGTGPELREGMIFTVEPMINLGRGDVKMLADDWTA
+VTRDRSLSAQFEHSIGVTANGFEIFTLSPRGLDAPGIEIETVPV
+>tr|B7RQ84|B7RQ84_9RHOB
+MSADTTRAQDASKSTAATPPHQPMTEEEMTNAAERQSNLLVLQKVAPYLWPDDMPWVKKR
+VVWAMIFLLVSKLVSVVIPILYKGAVDGLAGEGVPLFALGAIGLTVAYGVARAMNVGFQQ
+LRDATFARVGQRALRMLALETFEHIHKLSMRYHITRKTGGLSRIIERGVKGVDFLLRFLL
+LSIGPLILELLMIGVILTVLFDFWYLLVVAVTIALYVWFTFAVTEWRVKLRRQMNDQDTD
+ANQKAIDSLLNYETVKYFNAEEREANRYDAAMAGYEEAAIKTNYSLAFLNFGQSLLITCG
+LVGVMVMAAIGVQNGTLTVGDFVMVNAYMVQITIPLNFLGTVYREIRQALVDMGQMFTLL
+DQPAEISDKPDAVDLKVDGGRVTLEDVHFGYDPDRQILKGISLEAAPGEMVAIVGSTGSG
+KSTIGRLLFRFYDVQGGALKIDGQDVRDVTQNSLHRAIGVVPQDTVLFNDTIGYNIGYGS
+GDATQAEIEEAAKSAQIHDFIQGLPKGYDTAVGERGLKLSGGEKQRVGIARTLLKNPPIL
+LLDEATSALDSETEYEIQDALRQAGKGRTVLTIAHRLSTVAEADRIVVLEQGRIVEQGSH
+DDLLARNGRYAQLWQRQQSEDMS
+>tr|B7RIV7|B7RIV7_9RHOB
+MDKTSPPHISTLILLSGIGALAMNMFLPSLPAMAEYFGTDYAVMQLSVPLYLLFSAGLQL
+IIGPVSDNLGRRNVLLWGLGIFMIASLGCIYAPTTGVFLFFRCMQAIVAVTMVLSRAVVR
+DMFTQDKAASMIGYVTMGMALVPMISPAVGGILDQAFGWQSTFWAMFAIGGIVFAVTWYD
+LGETALASGKSLAQQFGEYPELLRSPRFWGYSMAAACCSGAFFAYLGGAPFVGSEVFGME
+PAELGLYFGAPAVGYFVGNFITARTATTVGVNTLVLCGCLANAVGGSVSMLIFLAGYGSP
+VTFFGMMTLVGLGNGLCIPNATAGLLSVRPHLAGTASGLGGAIMIGGGAGLSILAGSLLS
+TETGAYPLLWIMLLTAVAGVASILVVIQRERKLGIR
+>tr|B7RFP4|B7RFP4_9RHOB
+MAFSDAAILLERAKARGVMFACSESCTGGMVAAALTDLPGSSGMFDRGFVTYTNAAKIDL
+LGVSPATLDQFGAVSQEVAREMAQGALARSMAQIAVSITGIAGPGGSEHKPEGRVCFGLA
+SRNILQAETCDFGALGRDRVRLAARDHALSLLLQAVS
+>tr|B7RG61|B7RG61_9RHOB
+MCLLMIGNGMQGTLLGIRGGIEAFSTFEMSIVMSAYFVGFLGGSRMAPGMIRRVGHVRVF
+AAVASMISAVMILYPTFPNIVIWSIGRVLIGFCFSAVYVTAESWLNNAATNENRGQALSL
+YMIVQTMGIVIAQALLLTADPSGFVLFVIPSVLVSLAVTPILLSISPTPAFDTTKPMSLR
+ALVTVSPLGCVGMFLLGGVFSAQFGMASVYGAEAGLSVAQISIFVATFFVGSVLLQYPIG
+WISDRMDRRLLIVITSIIGAAGSILGMMMGHVFPVLLIAAFVVGGMSNPLYSLLIAHTND
+FLEHEDMAAASGGMLFINGLGAILGPVITGWMMGTALGPGGFYLFTAVLFIVLAVYATYR
+ATVRPAVPADETGNYVPMSPAATTIAAEIAQDHAFEVDHAAENPS
+>tr|B7RJY5|B7RJY5_9RHOB
+MILGIGTDLANIERIQNTLDRFGDRFRNRVFTDVEQQKAERRRDVAGTYAKRWAAKEACS
+KALGTGLRMGIAWRDMAVSNLRTGQPVMQVTGWAAERLAQMTPPGHEAIIHVTLTDDHPW
+AQAFVVIEARPVPEHQSQGVL
+>tr|B7RJN1|B7RJN1_9RHOB
+MIRYTLKRLLSLCISLAVASLVIFTVIEVAPGDPASFMLGINSQPETLAALRTELGLDAS
+KVERYLSWVGGLLTGDFGTSYTYRTPVADMISARMWVSLPLALYALVLSTLIAFPAGIYA
+ASRRGGPGDVGVMGATQLGVAVPNFWFAMMLVLIFAINLRWFAAGGFVGWDKGLWAGLHA
+LTLPAIALALPQAAILARVMRSSLLDVLGEDYMRTARAKGLTARQALWRHGLRNALIPVL
+TIIGLQFSFLLAGSIIIEQVFYLPGLGRLVFQSISARDLIVVESVVMLLVFSVILVNFLV
+DLAYAAVDPRLRTRS
+>tr|B7RKV8|B7RKV8_9RHOB
+MREIVLDTETTGFDPESGDRIVEIGAVELMGHMATGKTYHQYINPERGMPDEAFQVHGLG
+DDFLRDKPKFAQIGQDFLDFIGDSKLIIHNAAFDIKFLNAELKWMGLPQIPWAQALDTLA
+IARKRFPGSPASLDALCRRFNIDNTSRTLHGALLDSEILAEVYLELIGGRQPDFGLSNQP
+QRKEGDTSVDWTPKPRPNPLPSRISQDEAAAHAEFVSKLGDGAVWKTL
+>tr|B7RFY9|B7RFY9_9RHOB
+MHDPIKVMPIKVMIVDDHPMVAEGIQSILESYDDVDVVACLSNGRAAIDQFEALDPDVIL
+MDLNMPEIGGLSATEIILERRPGTRIVILSMHDNPEYISSALSHGAMGYLLKDVPTDEIK
+LAIDTVMQGAQYLCTGAQGSLQPKDDERESLTEREQTILLQLAQGQSNKEVALTLDISVR
+TVETHRKNIKRKLGISSTAGLTRYAMEHGVLQGTGVRL
+>tr|B7RMU7|B7RMU7_9RHOB
+MLRDIVKGDDAQIDAVLGLIAGAAPDILVLQGVDYDLQGAALNALAGAIAQAGPDYPHRF
+ALPPNAGRQTGLDLDGNGKTGEARDAQGYGRFFGAGAMAILSRHPILTEGVQNYTAMLWR
+DLPGALLPMTKDGPFPSDDAQQVLRLSSNGHWVVPVDVPGLGAVTLLTFHATPPVFDGPE
+DRNGKRNHDEIMFWDRYLAGAFDPPPANRFVLLGGANLDPDKGEGLKSAITTLLTHPQFE
+DPIPDRKTAQFEEIGSMRVDYLLPSTDWRVVGTGSAEDPAASRHSLIWVDLDG
+>tr|B7RM18|B7RM18_9RHOB
+MTTAGVVIARKPSQLYRHWQHLTFSTRSYLMSNAQLETAIEAAWEARDTITSATTGETRD
+AIEATLAALDSGKLRVAEKTESGDWHVNQWAKKAVLLGFRIKDMEHQTGGPQGAGWWDKV
+DSKFKGWGDDEWKTAGFRAVPNCVVRKSAYIAPGVVLMPSFVNIGAYVDSGTMVDTWATV
+GSCAQIGKNVHLSGGVGIGGVLEPMQAGPTIIEDNCFIGARSEVVEGCIVREGSVLGMGV
+FIGQSTKILDRDTGEVMYGEVPAGSVVVAGSMPSKNGVNLYCAVIVKRVDEKTRSKTSIN
+ELLRD
+>tr|B7RQX7|B7RQX7_9RHOB
+MTKQRTPATPTLHSDDLSLAIRKSNLPDFTGYLIKRSWVTIQRDLRELLLGFNLSQRSMS
+VLSVVSANPDINQSDVAAALSIERSGMVVIVDELEDLDLIRRERALTDRRAYALRTTLKG
+EHLHDKVSAAIVAHENRIFANLSAAERESLHVILSKLVGN
+>tr|B7RHA8|B7RHA8_9RHOB
+MAFIDKHAILEKSPTLLLVASLLVVTVGGIVEIAPLFWLENTIEEVEGVRPYSPLELTGR
+DIYVREGCYVCHSQMIRPMRDEVERYGHYSLAAESMYDHPFQWGSKRTGPDVARVGGRYS
+DAWHVDHLSDPQSVVPESIMPKYAFLKETPIKPTHTQALMKTHRFVGVPYTDEQIEAAET
+DFRVQADPDADYDGMLERYPGAAVSNFDGQPGVSEMDALIAYLQVLGTMVDFSTFTPDAS
+R
+>tr|B7RHX4|B7RHX4_9RHOB
+MSRLKSSSVRARLIAFVLLAAIVLSAAIFLSTNVIRDLRLLNSASSDNVQWTLSQTEVEF
+LEFEMDLVTKLRDPEPDLGTLRREFDIFYSRITTLRQASIYAPLRELPDFSRNLRIVQTF
+LDRAVPLIDAPDAELIQALPSLIDLTADTRANVRRLSNSGLNFFANDADQRRQAVARTLT
+QMAAGVSILIVALLMFAVYLGYLNSQNIRRRAEAIEASRRMNIVTGTALDGVIVSDENGL
+ILEFNAAAEQIFGHAAKDAIGRDLGALIVPDHHLAAHESGMKRIREGGERRAVGKGRIKL
+EAKRSNGEVFPVEFAIQSAQTDEGEIFVAFLRDISHRVEAERELVMARDRALAGEKAKTD
+FLATMSHEIRTPLNGLLGNLSLLHNTRLSAKQASFVKNMDTSGKLLMSHITDVLDITKYD
+AGKLRLRSVAMNLSTLLQDIVDNQSGAASANDTTLEWGWIGPRVDWILGDPDRIQHILMN
+VIGNAVKFTHGGRVAVEMSVNGAPDADPVLQISVNDTGIGMDPDLQAHIFEDFLTGDTSY
+ERTVGGTGLGLGLAQRFVKALGGSIEVESEKGEGSTFRIFFPIAPISPPDVTAERRPGKK
+NLRPSHILLVEDNEINRVVAREMLSGAGHKVTEAPNGQVAVDLAAVNSFDLILMDISMPV
+MDGRAATRAIRAGHGVCAKTPIIALTASAMADEQEAFLADGMNNILTKPLSQESLNRVLA
+KHVPGQDGAAPDAGNQASAFEATYLDDLRDTLGVGALKSLLERFKQEVDGTLDFLNDPAG
+HSFGEIASQAHRIAGSAAMFGATALRSALIEVEQAAKRKDQARMEGAIAVLPEVWRVTRP
+LIQPE
+>tr|B7RM82|B7RM82_9RHOB
+MLDKKPVGLRYPWETPPAHDAAIEIAPGVLWLRLPLPMKLDHVNVYAFDEGDSWTIIDTG
+FSSKKAKAIWGDLMAGPLGGKPVSRVIVTHHHPDHIGLAGWFQTEHGAELVTTRTAWLTA
+RMLTLDAQEAPAAETLAFYKLSGMDRDLHDKRAAERPFNFSDVVDPLPLGFTRIKQGDRI
+TIGGRVFDVHMGNGHAPEHATFWSRDDHLVIAGDQILSSISPNVGVYATEPMADPIGEWL
+EACERLAPLAREDHLVLGGHKLPFTGLPTRMRQLIENHHGALKRLVKFIDTPKSASECFP
+TLFKRKIGEGEYGLALVEAVAHLSHLYQTGLATRSLRAEDGAWVYQAKD
+>tr|B7RP19|B7RP19_9RHOB
+MVEWIISDGLTDYRAAEAWMETRATRIAEGSADECIWLVEHPPLYTAGTSAKVQDLTDPE
+RFTVYETRRGGQYTYHGPGQRVVYVMLDVGKRGRDVRRFVQDLEAWVIATLDTFNIKGKI
+CEGRVGVWVERPDKPLTLNGDIAEDKIAAIGIRLRKWVSFHGISINVEPDLDHFTGIVPC
+GISDHGVTSLVDLGLPVTMDALDVALRAQFDAIFEN
+>tr|B7RMC5|B7RMC5_9RHOB
+MPSFSSTLEQAIHSALALANARRHEFATLEHLLLALIDEPDAVQVMKACSVDMTELRETL
+VEFVDEDLSNLVTDVDGSEAVPTAAFQRVIQRAAIHVQSSGRTEVTGANVLVAIFAERES
+NAAYFLQEQDMTRYDAVNFIAHGVAKDPAFGEPRPISGAPEHEEEAQGVTEGDKKESALE
+KYCVDLNAKSREGDIDPLIGRDAEVERCIQVLCRRRKNNPLLVGDPGVGKTAIAEGLARK
+IVAGETPEVLSKTTIFSLDMGALLAGTRYRGDFEERLKAVVTELEEHKDAVLFIDEIHTV
+IGAGATSGGAMDASNLLKPALAGGKLRTMGSTTYKEFRQHFEKDRALARRFQKIDVNEPS
+VEDAVKILRGIKPYFEEHHSVKYTADAIRTSVELAHRYINDRKLPDSAIDVIDEAGAAQH
+LIAASKRRKTIGTKEVEAVVAKIARIPPKNVSKDDVVVLKDLEASLKRVVFGQDAAIDAL
+SSAIKLARAGLREPEKPIGNYLFAGPTGVGKTEVAKQLADTLGVELLRFDMSEYMEKHAV
+SRLIGAPPGYVGFDQGGMLTDGVDQHPHCVLLLDEMEKAHPDVYNILLQVMDHGKLTDHN
+GRTVDFRNVVLIMTSNAGASEQAKEAIGFGRDRRTGEDTAAIERTFTPEFRNRLDAVISF
+APLPKAVIMRVVEKFVLQLEAQLMDRNVTIELSTKAAEWLADKGYDEKMGARPLGRVIQE
+HIKKPLAEELLFGKLAKGGVVKVGVKKGELDLTVLSSENPKLTGNKPPLLTAE
+>tr|B7RPG2|B7RPG2_9RHOB
+MTEQGIPASPIEADIETFGALVDKEPSKPPRSQWIDVWQQFRKHKGAVFGGGFLLFITLA
+VIFGPLLWDVDPKALDIRNKNWRPVYQLLFDSEAKAGWAHPFGTDQLGRDIMAQMIAGGQ
+VSMAVGWLAMALALVIGSAIGVISGYFKKLDFWLMRFTDLVLSLPILPLTLLAVTLFRQP
+LNSRFGPEGGMFILIVGIIGLTSWMQTARIVRGDILALKEREFILAARSIGTRSGKIIRR
+HLLPNVISPIMVSATLGLATAIITESALSFLGVGFPSDFPTWGKLLSDAVSRMQEFPERV
+LLPGIAISLTVLSVNYLGDGLRDALDPRLRGR
+>tr|B7RKR7|B7RKR7_9RHOB
+MRIMFWAGFVAFITDQLSKYLVIHTMELSRVMSIDVLPPLLNFRYGENRGINFGLFGDGT
+DASRWILIAVACVICVGVVVWAHRHALGVWAKISAGLLVGGALANVVDRLVYGYVLDFLN
+MSCCGINNPFVFNIADIYIFAGAIGLIFFTSTPKSAPKTSRKKGQ
+>tr|B7RMC8|B7RMC8_9RHOB
+MTNGPDHVRRGRKFGQVLAGAREVFLADGFEGASVDDIARVAGVSKATLYSYFPDKRILF
+IEVADHECARQAQEALDHIDTDAAPAEVLGQAGRHILRFLTSTLGQQMFRLFVAESDRFP
+QLGQRFYNSGPAVLRKEMVTYFKAAIARGELNIEDLVLAADQFGELCKADLWPRLMFGVV
+RSVSDAEIDRVVDGAVEMFMARYGV
+>tr|B7RH25|B7RH25_9RHOB
+MSLFKPTEAWVRSTLGVRLGRFARHEDGSITILTIFIIIMMVMVGGIQLDFMRHEMERTK
+LQAAADRAVLAAADLDQTLAPADVVDEYFAKSGMSDYLSSVTIENGLNFRTVTVKANNEM
+KTQFLGRFGFPTLDVPALSKAEERVEKVEISLVLDVSGSMKNNSKLTTMKDAAKTFIDTV
+LRPETKNNVSLSLIPYSEQVNVGPDIFNALWVDTRHDFSYCIDVPDGHFVQTQMTPGFPW
+DQTQHFQWNTYSIESGYQQNTLHDTVCPRAVYERVRPISQDGPSLKAQIDLFQPRAGTAI
+YMGMKWGTALLDPSFRETTASLVSDSVVESTFADRPADYSDRETLKTIVLMTDGQNSNSQ
+RISTAYYNSSSEVVHWSKWNFNYYLSQYIKEKDWHRYYYTRYTAEKGNTLMDNICSAAKD
+EGIVIWTIGFEVNDTGADVMKKCASSPSHFFRVEGVELTDAFSAIASQINQLRLTQ
+>tr|B7RH33|B7RH33_9RHOB
+MIRAHSLEEVFMAAKDTNEDTKSDDQEAGHSLDMSQAAVKKMIGDAREKGYITYDQLNTV
+LPPDQVSSEQIEDVMSMLSEMGINIIEDEDAEEEEAKGGTDLTTTDSNRDVTLSSGTSEK
+LDRTDDPVRMYLREMGSVELLSREGEIAIAKRIEAGRNTMIAGLCESPLTFQAITIWRDE
+LLSEDILLRDVIDLEATFGTQMGDEDETTPVVPVVSGTEAKTNEDTSEVDADGNPIANDD
+DDDEDEQANMSLAAMEAALKPQVLEALDIIADDYVKLSEIQDSRISATLNEDGSFSKKDE
+EEYQKVRSEIVLLVNELHLHNNRIEALIDQLYGINRRIMQIDSAMVKLADQARINRKEFV
+DNYRGYELDPNWMERMAEKSGRGWQMFIERSADKVEELRSDMAQVGQYVGLDISEFRRIV
+QQVQKGEKEARQAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYR
+RGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLVRTGRQMLHEIGREPTPEE
+LAEKLQMPLEKVRKVMKIAKEPISLETPIGDEEDSQLGDFIEDKNAVLPLDSAIQENLKE
+TTTRVLASLTPREERVLRMRFGIGMNTDHTLEEVGQQFSVTRERIRQIEAKALRKLKHPS
+RSRKLRSFLDQ
+>tr|B7RP70|B7RP70_9RHOB
+MDLIDEPAPGQNSPEFTVTELSSAIKRVIESEFGHVRIRGEVGRVSRPRSGHIYLDLKDD
+ASVISGVIWKGVAARLETQPEEGMEVIATGRITTFGGQSKYQIVIEDIKPAGMGALMALL
+EKRKAALAAEGLFAPERKRALPYLPDVIGVVTSPSGAVIRDILHRLRDRFPRKVLIWPVA
+VQGAKCAPEVARAIEGFNKLTFGGAIPRPDLLIVARGGGSVEDLWGFNEEIVARAAALSE
+IPLISAVGHETDTTLIDYVSDKRAPTPTAAAELAVPVRHELVALLDGQEARMTRALSQGL
+ARRDQRLRDMARALPRADSLLDGPRQRVDVLGGRLGPALTAGVQKRKVRLANISGVLRPG
+TLTRALQSEQRRLAGLSARFRPEALVQDQKRKAEAFQSLARRLSDAGLRQTAGWRKQIAG
+LDRVHEMLSYKSTLARGYAVVRGDGKLVTTKKAAQDATSLEIEFADGRMQVGGKAGPRKA
+AKKPPEQGSLF
+>tr|B7RHE8|B7RHE8_9RHOB
+MYDFDVEKPTSIADAVKALGREEAQPLSGGQTLIPTLKARLAMPSVLVSLKGIAEMRGVC
+LDDDGRVCIGGGTVHATVAKEVATHYPALAGLAARIGDPAVRNRGTIGGSVANNDPSACY
+PSAVLASGATVVTNAREIAADDFFQGMFATALDEGEIVTEVKFPVPEKAHYEKFIQPASR
+FPLVAVFVAKFADGVRVAVTGASEDGVFRWTEAETALSANFSAEAVSGLSVDGSSMISDL
+HGSGDYRAHLVGVMTKRAVAALA
+>tr|B7RNG2|B7RNG2_9RHOB
+MTQAMQQISSKWLSRAGLRPTRQRMTLAQLLVGDGQHRHVTAESLFDAAKGQGEAVSLAT
+VYNTLRAFCDAGLMQEVTVDGSKSYFDTNTHDHPHFYWEDEARLSDAPSDQLVIAQLPDA
+PEGAEIASVDVVIRLRRKS
+>tr|B7RS53|B7RS53_9RHOB
+MFERYAIFYTPTGPLAALGAQWLGWDNANGVAVAHLEIAGLDVEKLTAMPRKYGLHGTLK
+APFRLAATVSQTDLEQAAADFAARHGGVELQNLELRHDNGFIALRPQDNPAALQDFAAAT
+VKAFDPLRAPLSDADIARRRKARLTTRQDQQMLKWGYPFIFDDFHFHLTLTGGLPKTDAA
+TVIAALQPHVDALVPKPFFIDAITLMGQDETGMFHQINRYRLSG
+>tr|B7RGT1|B7RGT1_9RHOB
+MEFDYIIAGGGSAGCVMASRLSEDPDVSVCLIEAGGKGRSILVRAPALVATMVPGRPKIN
+NWAFHTTPQPGLNNRKGFQPRGKTLGGTSAINAMLYVRGHAGDYDEWANLGCDGWDWQSV
+LPWFKRAENNVRGGCDLHGAGGPLQVSDQSEPRAISHAFVGAAGQQQIRHTSDFNGPRQE
+GAGLYQVTQFHEGARRGERCSAAAGYLPDAVQARPNLTVLTRCQARRVILRDGRAVGLEV
+RQGGEMRTPKANREVILSAGAFGSPQLLMLSGIGPRDELAAHGIDCHHELPGVGQNLQDH
+LDYVVSYKSKRKDVISLGPRGLLDLARAGVRWRRDGAGLFATPFGEGGAFLRSDPGLDRP
+DLQLHFVIGIVDDHLRKIHLSHGYSCHVCVLRPHSRGTLGLTSADPNAAPRIDPQYLSDP
+RDLELLKKGARMMQDILDAPPLDPWRGKKLYDHDGSDSALEADIRSRADSIYHPAGTCRM
+GVDDMAVVDPAARVHGIEGLRVVDASVMPRLPGGNTNAPTIMIAEKIAGGMRGVPA
+>tr|B7RR16|B7RR16_9RHOB
+MHARTLLDAAPIPKGDCMTFLANMDRSRAVAVRDRFAELLPDLDVVIMGEEFDQAAVRYM
+LTWNVPEDINEGWPALEVIFSLGAGADQFDMASLPEAVPVVRLVAEDHAAMMQEYVTMAV
+LALHRDLPGYIDQQKRQVWKRVSVPPPAAKRRVGVMGLGHLGRKSLDALAPFGFSLSGWA
+RSPHEIEGVSTFHGSEGLGPFLAQTDILVCLLPLTNATRNILNKELFDQLPASAALVHAG
+RGQQLDHDALIAALETGQLRGAVIDVTDPEPLGSENPFWSDPRIILTPHIACITRIEECI
+PALCQNIQRHRRGEPLSDVVDKLLGY
+>tr|B7RH80|B7RH80_9RHOB
+MTPETLLNGVSQILDQSGVRQGAMPHTDSGTHLLRFEAPSGQNATVYRPLLCLILQGAKA
+VATSAKTITVHAGQSLIVSHAMPVLSRITEATPEAPYIALVFPLDLDLLRSLAPDVLPSS
+DSRPSDPFSIHLCDTDEGIEDALRRYFDQCETDAARRLLAPITAREIHARLLMGPQGDTL
+HKLLWHESTASRIFRATRGIQTNLSKAIVIKDLARDVGMSSSAFFEQFKAVTGTSPLQYQ
+KDLRLLRARDALHTSSAKVSEIAFGVGYESSAQFSREYSRKFGRSPRQDRDLAPVE
+>tr|B7RNY4|B7RNY4_9RHOB
+MTATLSAWRIGRYGAPEVLRPVTRPLPAPGPAEILIRIRASAVTRADGMMRAGTPLFARP
+FLGLRRPRQNLSGTGLSGEVIAVGEKVTRFTVGDAVFGEAGLRFGANASHICLDAGGVLL
+KKLEALSHEEAAVMCDGPLTSYHFLHKIAQLQFGQHILILGGSGSLGSAAVQIAAAAGAH
+VTATCSTRNVNFVAGLGAGRVIDYTKEDFTALPDRYDVIYDTVGVSSFKMARARLTETGR
+YICPVLTLPLFGAMLKSRMTGGRRARFAAAGLQSHELLRTHLKCLLAMVEAGTLSPVLSR
+VYPLADLIEAHRHMETGHKRGNVVVV
+>tr|B7RRH3|B7RRH3_9RHOB
+MKRSYDVVIIGGAVIGSAVAYYLTANPDFTGSVLVVERDPTYGQASTALSASSIRTQFSN
+PINVKISQYGSEVIRNFGEMMEVDGDKPDLNFHSGGYLFLARTDEQVQILRENHAAQKSC
+NADVVLWDRDQLADAFPHIRVDDIALASYGQSGEGWFNNTGLMMGFKTKARAQGAEFVTD
+EVIEIAREGDRVTSVLLKSGATIQTGTVVNASGPRAARTARMAGLDIPVEPRKRTLFVFD
+CAKTPEGTARVNAGRLPLMIDPSGVFCRPEGKYFLTAWAPAHDPCVDWDDFDPRYEEFED
+EIWPALAERSQSFEAIKVINQWAGHYAFNTLDHNMVVGRHPEVENFIFANGFSGHGLQQA
+PATGRGVSELIIHGEFRTLDMTQLGYERIVENRPFLERAVI
+>tr|B7RNK7|B7RNK7_9RHOB
+MTILITGATRGIGAGLAAHYKDQGHEVFGTGRSTLADIQLDVTHPEDHSAMAASLGDRAL
+DLLVCNAGVYLDKGDDLETGFGADLWAQTFATNVTGVFLAIQALLPHLRRAKAPKIAIMS
+SQMASSELAPGGSYIYRASKAAVLNLGRNLATDLKGDGIAVGIYHPGWVQTDMGGSTAAI
+TTDEAVRGLAARFAALDLGTTGCFETWDGRAHPF
+>tr|B7RNY5|B7RNY5_9RHOB
+MGRLSKKTCIVTGAGRGIGAAIARAFAREGATVVVTDMVAKSAASIAEEIGAHHQCLDVA
+SEADWAALAQRWPACDVLVNNAGITGFEDAMRPHDPEHATLADWRAVHRVNLDGTFLGCR
+YAIGAMRDKGAGSIINISSRSGLVGIPAAAAYASSKAAVRNHTKSVALYCAEQGLNIRCN
+SIHPAAILTPMWEPMLGNGADREARMAAFVADTPMRRFGTVEEVASIAVLLASDEAAYMT
+GTELTVDGGLLAGSAAAPTAD
+>tr|B7RLM7|B7RLM7_9RHOB
+MADFPTTARVVIIGGGVVGVSSLYHLAKMGWTDCVLLEKNELTAGSTWHAAGNCPSFSTS
+WAVMNMQRYSLGLYKGLAEEVDYPMNYHVTGSVRLAHGKNRMMEFERACSMGNYQGLNLE
+MMDLAAIKEKYPFIETHDLAGGLYDPDDGDIDPAQLTQALAKGARDMGARIERFCPATGI
+SRDNGEWIVHTAKGDIRCEKVVNAAGYYAQRVGEWFKPYGGRTVPMATMSHQYFLTDDIP
+ELKEWTQAQGHKVPLLRDVDSSYYLRQDKYGLNLGPYERNCKGHWMTPDDPMPDDFSFQL
+YPDDLERLEWYIEDAMARVPILGTAGVGRVINGPIPYAPDGLPLLGPMPGVPNAYEACVF
+TFGITQGGGAGKVLAEWVTEGQTEWDMWATDPRRYTDYTDQEYADQKAIEVYGHEYAMHF
+PRHAWPAGRNKKLSPVHDRIIAQGGQMGAYNGWERANWFAQPGDDVSEAATQTWDRSGPW
+AQRIREECEAVRDHVGVLDLPGFSRFRVHGAGAAEGLRGLCTGALPKVGRMNLLYFADDR
+GRIVTEMSCLRMADDEFLLITAATAQWHDRDVLVSGLPEDLTIDDVTTTRDTLIVTGPKS
+RDLLRGLTDADLDAGWLSHQSATVAGQPASLVRVSFAGELGWEVHALNDQMPAIYDAVIA
+AGAKPFGMWALNSMRMEKGYRAWKGDLSTDYTMLQGGLERFVKLDKPQDFPGKSALRNEQ
+QQGVAKRFVTLVVDAGDQDAPYMSTLSHNGEVVGETTSGDWGYRVNKSIAFGMVRSDLAT
+PGTALYVDIFGTKCRAIVQADQPLWDPENERLRA
+>tr|B7RS36|B7RS36_9RHOB
+MMQHLSDEHTALYSRILEGSAQILPNGLEQHDGQEEFDKSAWDKCGALGLCGLTVPTMLG
+GSGLDPLSAVIAMEAFGRGCADNGLGVSLGAHLWGCLTLLLAGDRARNVDIIRDLATGRK
+IGALAVSEPEAGSDLAAILTTAVAVDGGYRLEGRKCYVTNAPVADVLVVLAETRPGNLAF
+GLSAFCLERGTPGLTTPAPVSKMGLRTASMGDVELDGCLVPKSARIGAEGAGLSLFLKVM
+EMERAFILAPAIGSMERVFEATRHYAQNRKQFDQPIAEFESVYGRLAEMYRRTSLARLVL
+RDAAARKGSGGSITLEASMAKLTISDAWVANCQDALAIFAAKGYLSATGIERELRDALGG
+QIYSGTSDIQRRTIAKMLRVIS
+>tr|B7RFX8|B7RFX8_9RHOB
+MTTPPYASAPTDPAALPVVRLIPKANARAIRHGFPWVYANEMVVDRRTKGLAPGSLAILE
+DSARQVMGVVAVNPLSKIFCRMLDQNSEAVIDVDWFAAHIARALQLREQLYDAPFYRLIH
+AEADGLPGVVIDRFGDTAVIQPNAAWADVHIDALVAALVAVTGIKHVLKNAAGRTRTLEG
+LDDVSTVLQGEAPASAIPVPMNGATYMADLTGGQKTGIFYDQRPNHAFAANLCKGKRVLD
+VFSHVGGFGLAALANGAASVLAVDGSAPALALAAEGAAAMGVSEKFATRQGDAFDLLTTL
+RAEGAEFDVVICDPPAFAPGKPALEAGLRAYERLARLAAPLVAENGILGLCSCSHAADLT
+QFRTASVRGVGRAGRRAAMLHTGFAGPDHPQLPQLAETGYLKSLFFRL
+>tr|B7RR00|B7RR00_9RHOB
+MPDPATSGSGILAVPSAPPAETRSMRLRNFWSDYRQSWVAIGALIVIVALLVGSFGAPYL
+VPQDPYDLANLDWLDAFLRPGTVGSGGYPHLLGTDNAGRDMLSAILYGLRTSFMIGISAG
+VLALAVGITVGLTAAYFGGRIEALLMRIVDLQLSMPAILLALVMVAMLGQGVAQIIFALV
+VAQYAYFARTTHGAASVERRKDYIEAARSTPLPTWRIMFKHLLPNVLPPLIVVATVQVAS
+AISLEATLSFLGVGLPLTEPSLGSLISNGFKYIHAGRYWLSIYPGIFLMITVVAINLVGD
+QVRTVIDPRNSR
+>tr|B7RL96|B7RL96_9RHOB
+MRLVIFDVDGTLVDSQADILAAFAQAFAVVGRPVPEPKDVMAIVGLSLDVAVRRLVPQIS
+DADCAAVVEAYKDAYVALRASMPISHSSPFYPGARDVLDRLQAIPEVLLGIATGKSRRGL
+DHLIKGHGLEGLFVTQQVADFHPSKPHPSMILQAMADAGVDASQTVMVGDTSYDMEMAAA
+AGVAGIGVNWGYHAAEALGAARHVIDRFDELPGVLDKIWSL
+>tr|B7RPQ1|B7RPQ1_9RHOB
+MNEISSINGNQLTVQAAESMPHSIEAEQQLLGAILTNNDIYDRVASIIGPKHFYDPVHAR
+IFEIASARIAKNNLASPVTLKAFMEDDEGLKELGGPAYLVRLAGAAISAFAVRDYAQMIY
+DLAVRRDLIQLGRDISAKAAQVDVASEPREQIVEAEQQLYKLAEQGQAESGFQSFLKAVT
+DAVNVANAAYQRDGGLSGVSTGLIDMDKKLGGLHPSDLLILAGRPSMGKTSLATNIAYNV
+AKAYRRGTLHDGTEGAVDGGVVGFYSLEMSAEQLASRILSEAAEIPSQQIRSGDMTETEF
+RRFVDAAKALEACPLYIDDTPALPISQLSARARRLKRTHGLDLLIIDYLQLVRGTGKNEN
+RVNEISEITMGLKAIAKELHIPVIALSQLSRQVENREDKRPQLSDLRESGSIEQDADVVM
+FVFREEYYKEREKPGDHELDKMAIWQEEMERLHGRAEVVIGKQRHGPIGTVDLSFEGRFT
+RFGNLVKPWQSNDNDQEF
+>tr|B7RRW3|B7RRW3_9RHOB
+MQTMKETLKLSCLSCGQANRFPAAKLDASPKCAKCGALLVTGDVAAIGERQHDKATVTDD
+LPLIIDYWAPWCGPCRTMAPEFATAAKALRSKARFAKIDTQQFQAVSQRLQIRGIPLLIL
+YAKGKEIARLSGARPAADIEAFVRQHL
+>tr|B7RGQ2|B7RGQ2_9RHOB
+MPTDDFATAVADLKNLGGQRVWSLMISLFGDLARNEGDVIDGPILSAIMAAMDVRPEAAR
+VALHRLRKDQWITSLKRGRTARHSLTPEGRAQSQAASTRIYATPDELDRGWQMVLLEKDI
+PQEFDSAGFTMVQPRLYVGPAHLAAPKDGLVLESKDAPEWLMRQLEPVSLEESYVQLRHA
+LENAVRSLPKARDLTPLEIATLRCLIVHNWRRLALKHPALPRPLMRDDWAGLICHILVAD
+LLARYPRPATVQIAAP
+>tr|B7RID5|B7RID5_9RHOB
+MLALWGLGMVVGNTAGGWLADKALTRAILGFFVWTVATLALFAAVASSVWLAGLELFLVG
+IGFGLVPALQARLMDAAPRAQSLASAMNHSAFNLSNAIGAWTGGLAISAGLGWAATGYVG
+AALALAGLVIFIIALKLKERD
+>tr|B7RHE9|B7RHE9_9RHOB
+MPKDGGIGASSKRREDIRFLTGEGNYTDDINLNGQAYVFFLRSDIAHGVLNSVDTSAAEA
+MPGVVKIFTGADFEAVGSIPCGWQVTDKHGEVMQEPRHPVLAHGKVRHVGEPIAAVVAES
+LSEAHDAAEAIVVDITDLPAVIDMKEAVKEGAPKLHDDLTSNLCYDWGFVEENKGAVDKA
+FEEAAHVTTLELVNNRLVANPMEPRVAVGDYARGTGDHTLYTTSQNPHVIRLLMGAFVLG
+IPEHKLRVVAPDVGGGFGTKIFHYQEEAFCTFAAKACNRPVKWTSSRSEAFMSDAHGRDH
+VTKIQMALDKDNNFTALRTDTYANMGAYLSTFAPSVPTWLHGTLMAGNYKTPLIYVNVKA
+VFTNTVPVDAYRGAGRPEATYQLERLVDKCAHELGVDPIALRRQNFITEFPYATPVAVEY
+DTGDYVATMDKLEEISDIAGFAARRKESEAKGKLRGFGVNCYIEACGIAPSNLVGQLGAR
+AGLYESATVRVNATGGLVVMTGSHSHGQGHETAFPQVIAEMIGIPEDMIEIVHGDTANTP
+MGMGTYGSRSLAVGGSAMVRATEKIIAKAKKIASHLLEASEGDIELKDGAFSVAGTDKSV
+AWGDVTLAAYVPHNYPLEDIEPGLEETAFYDPSNFTYPSGAYACEVELDPETGQVTIERF
+SAADDFGNIVNPMIVTGQVHGGLAQGIGQALMENCTYDSDGQLLSASYMDYAMPRASDVP
+FYTVDHSCQTPCTHNPLGVKGCGEAGAIGSPPAVVNAVLDAMRSGGKDVGHIDMPVTPAR
+VWAAMNS
+>tr|B7RHZ8|B7RHZ8_9RHOB
+MSLDETPSFPRLSYSFAKSNGVILMAAPAGGPLGCHFRPGATVDVLMEAQRRAEQPIVFA
+PIGAEEFEAALGRIYRDSASEAAEAAAGDDLNALADTAAAVDDLLDQNDDAPVVRLINAL
+LLEAVKEGASDVHIETEERRLIVRFRVDGVMREVIEPKRALAGLLVSRIKVMGKLDIAEK
+RQPQDGRVSLRVGGYDLDVRVSTIPSQFGERVVLRLLDRSQTQRGISHLGMSTRDRETFE
+RILARPDGLLLVTGPTGSGKTTSLYAALGRLNDRSRNIMTVEDPIEYSMDGVGQMQVNSK
+TGLTFARGLRAILRQDPDVVMVGEIRDRETAQIAVESAMTGHLVLSTLHTNTAIGAVSRL
+VEMGVERFLLAPMLRGLVSQRLVRRVCPDCAAPHVITESESALLSGAIAAGETVQRGVGC
+EACQNQGFKGRLPIYEIIEIDRELEKLIHEGASEARLQDRARAKGPGILADGVDKLRQGK
+TTVEEVARAVRDDLVIPDMV
+>tr|B7RJG2|B7RJG2_9RHOB
+MSSYDVIIIGSGPGGYVSAIRCAQLGLKTACVEGRDTLGGTCLNVGCIPSKALLHATHML
+HEAEHNFGEMGLKGKSPSVDWNQMQAYKQNTIDTNTKGIEFLFKKNKIDWIKGWATIPEA
+GKVKVGDDIHEAKNIIIATGSEPASLPGVEVDEKVVVTSTGVLSLNKVPKKMVVIGAGVI
+GLEIGSVYARLGSDVTVVEYLDAITPGMDAEVQKNFMRILKKQGINFIMGAAVQGTEASK
+SKAKVTYKLRKDESEHTLDADVVLVSTGRKPFHDGLDLNGLGVEMTKRGQIAVNDHWETS
+VKGIYAIGDVIEGPMLAHKAEDEGMAVAAVVAGKHGHVNYGVIPGVIYTHPEVANVGMTE
+EQLKEAGRAYKVGKFSFMGNARAKAVFAGEGFVKIIADKDTDRVLGAHIIGPAAGDLIHE
+VCVAMEFGASAEDLAMTCHAHPTYSEAVREAALACGDGPIHM
+>tr|B7RRF9|B7RRF9_9RHOB
+MTDTHSEHPATSPTASKITRDPVCGMTVDPKAGKPTAEHDGHTYHFCSDGCRKKFVSNPD
+TYLTAKDPVCGMTVDRATAAHMSKHEGQRFYFCSSGCQSKFDTESEKYLGDQPAPEPMPE
+GTQYTCPMHPEIIQDHPGDCPKCGMALEPMTPSADAGPNPEFVDFKRRLWITAPLAFMVF
+ALEMGSHVGIPFADWIGHTAFGWVQFVLATPVVLICWPFFKRGWSSVVNRSPNMWTLIAL
+GTGAAYLFSVISLIAPQLFPDSMRDDMGMAPVYFEAAAVILVLVLMGQVMELAARERTGD
+AIRALMDLAPKTARRVSADGTERDVPLEDLRTDDVLRVRPGESVPVDGVVTEGRSSVDES
+MISGEPVPVEKVEGEPVTGGTINKTGSFLMKAQNVGADTTLNRIVEMVAKAQRSRAPIQA
+MADRVAVYFVPAVVGVSLLSFAAWAIFGPTPALSYAFVAAVSVLIIACPCALGLATPMSI
+MVATGRGAGAGVLIRDAEALERFAKIDVLIVDKTGTLTEGKPALTDAEPADGMDETTLLS
+LAAALERGSEHPLAEAIVAGAQERGAPKQDSSDFEAITGKGVTGVVDGRKVALGNAALMQ
+DLGIDTGAFADRAKALQSEGKTAMFVAGDGKPAGLIGVADRIKDTTPDAIRALHDLGMRI
+IMATGDAKATAEAVGKTLKIDEIHAEVSPEDKNALVRKLKGEGMSVAMAGDGVNDAPALA
+EADVGIAMGTGADVAVESAGITLVKGDLGGIVRARRLAEATMRNIRQNLFFAFVYNTAGV
+PLAAGILYPFFGILLSPVVAAAAMSLSSVSVITNALRLRSEKL
+>tr|B7RIW0|B7RIW0_9RHOB
+MHTQPTASHFINGAYVEDTSGTPIKVIYPATGAVIATVHAATPDVIEQAITSARAAQVAW
+AAMTGTERGRILRRAADIMRERNHDLSILETYDTGKPYQETSVADATSGADALEYFGGIA
+ASLTGEHIQLGEDWVYTRREPLGLCVGIGAWNYPTQIACWKGAPALACGNAIIFKPSETT
+PLCALKVAEILHEAGLPAGLYNVVQGMGEVGASLVSDPRVDKVSLTGSVPTGRKVYAAAA
+SGIKAVTMELGGKSPIIVFEDADIENAVSGAILGNFYSSGQVCSNGTRVFVHADIKEAFL
+KRLAERLDGAVIGDPMDPETSFGPMVSKRQLDIALGYIEKGKAEGARLVYGGKAIDGDGF
+YMQPTVFADVTDDMIIAREEIFGPVMSVLDFTDEDDVMARANDTEFGLAAGVFTRDLARA
+HRVAANFQAGTCYINTYNDAPVEAPFGGMKNSGVGRENSKAAIEHYSQIKSVYVRMGDME
+APF
+>tr|B7RQB5|B7RQB5_9RHOB
+MKTITTTAELEAYCLEAATHDYVTIDTEFLRERTYYSKLCLIQMAMPGTDDSGAVLVDPL
+AGDMSLEPLYALFRDTSVVKVFHAARQDLEIFFVDAGVFPEPLFDTQVAAMVCGFGEQVG
+YETLVRKIAHQAVDKTSRFTDWSRRPLTDAQAKYALADVTHLRQVYEFLARKLEETGRAR
+WVAEELEILTSPDTYITQPRDAWKRVKTRTNSSKFLALVRELAAFREAYAQANNVPRNRV
+YKDDAMVELASNKPKNHEELGRARLLLREARKGDIADGILKAVAAGLNCPASDMPQPDNS
+RDKLQVNPALADLLRVLLKAKTESAGVAAKLIAPAADLDGIAGGLRDVPALKGWRREVFG
+EDALRLCQGKIALTAVGSDVKVVEL
+>tr|B7RKI4|B7RKI4_9RHOB
+MNSQLRQLPQVDTLLHSPAIAKVIDACSRQEVIDALRDLLSRLRVDILAGHAAELPDFAG
+DRFAQGLHAQILKARAPNLRAVVNATGIIIHTNLGRARLAPEALAAMQDVGAQASNLELN
+LTTGKRGSRYDHAEALICELTGADAALIVNNCAAAVVLGLMGTAMGRKVIASRGELIEIG
+GSFRLPDVIAQSGAVLKEVGATNKTRIGDYADAIEDDVAVLLKSHTSNFRIVGFTASPAR
+EDLAKLAKDRDLILIEDLGSGVLIDLSPFGLADEPVVADILKAGVDLVMFSGDKLLGGPQ
+AGIIAGRADIIAQLRAHPLLRALRIDKLSLAALEATLRLYRAPNDPLTRIPVLRMLSEPL
+PTVQARADLLAGMLHDQGGCEVSVAPSAAYVGGGAMPQQDLASFAVSVSVPDLPADDLAK
+ALRHAHPPVIGRIHQGRMLLDMRTVTDDDLPRIAAAFNAVTAP
+>tr|B7RGY6|B7RGY6_9RHOB
+MRRSRADSEASHAKLSRRAALLGGVQLLFMGGLAARMNYLQVDQADQFRLLAEENRINIR
+LIPPARGEIFDRNGVRLAQNSPSYRIVMVREDADDVDAVMDRLAQIITLDPELRARTMAE
+IKRSAPFLPVTVADDVSWDDVSRVSVNAPALPGISPEVGLTRVYPRGSDFAHIVGRVGRV
+SQADLDALEDPDAVLRIPRFQIGKINVEAREESLLRGVAGTKQVEVNATGRVMRELARRE
+GQSGADLQLTIDSNLQNYVQARLGDESAAVVIVDCENGDLVANASSPSYDPNLFIGGISS
+ADYNPLLQSKYRPLVNKTVQGTYPPGSTFKMMVAMAALEEGIVGPDETVYCPGHLEVGGR
+RFHCWKRAGHGWVDLENSLKQSCDVYYYDLALKVGIEKISAMSNRFGLGIRHDLPLSSVA
+AGLAPTKLWKQQNKGADWVIGDTVNASIGQGFTLSSPLQLAVMTARIATNREVTPRLIKS
+IDGIEQPSGAGEPLGMNENNMRKVRKGMHVVVNDRRGTAYRSRIIADDMRMAGKTGTSQV
+RNITAAERARGVTRNQDLPWERRDHALFVGFAPYDKPRYAVSVLVEHGGGGSAAAAPIAR
+DVMLQALYGGEPPLDAYPTADRGRIKTQQNTLRDVRPQAAIDGKDQA
+>tr|B7RKX0|B7RKX0_9RHOB
+MRPSGRKLDEMRAVSVDTDFTKHAEGSALIKMGGTHVLCTATIEDRVPPFIKGSGLGWVT
+AEYGMLPRATNTRMRREAAMGKQGGRTVEIQRLIGRALRAGVDRSALGERQITIDCDVLQ
+ADGGTRCASITGGWIALKLAVNKLMKAGDVVNDPLADPVAAISCGIYAGQSVLDLDYPED
+SEAGVDGNFIMTGTGRLIEIQMSAEGSTYSRDQMNQLMDLAEKGVSELVEIQKAVTK
+>tr|B7RLP2|B7RLP2_9RHOB
+MQDWLKMTAADLGRGIAGGQIDPVALCKTYLDAIDTHPLRDRIYARVTADRAIAEAHAAS
+MRAKAGHRLSPLDGVPISWKDLFDTAGTVTEAGSMLLKDRMPDTDALVLQNATAMGLVCL
+GKTHMSELAFSGLGHNPSTATPPCINDTEAVSGGSSSGAAASVAFGLAAAAIGSDTGGSV
+RIPSGWNDLVGLKTTAGRLSLQGVVPLAMKFDTVGPLCRSVEDAGLLLAALEGTKPADLS
+GTDLEGRRFAILHSVAMEDLDDGPRAAFSDAVDKLREAGAIIEDITLPEIAQAMPLSGCL
+FTAEAYGLWRDVIEADPEAMYGEILERFRLGKSHSGPDYVAAWATLEALRKAYDRAVAGY
+DAVLLPTAPILPPKLARLESDHDYYVSANLMTLRNTRIGNLMGLCAITIPTGTASCGLMM
+MAAPGSEERLLRLAAAAEESLA
+>tr|B7RKZ4|B7RKZ4_9RHOB
+MIRLYSILIALTVALTACAPVPPAMGPDGKALPRAYRISRAESGKIQFRMLDSVNALRGA
+SGLSQLQLDAKLNAAAATHSRDMAVQNRPWHFGSDGSSPVDRIQRVGYQGSLVGEVISET
+YETELETLAAWMDQPDTRRIIMAPKATNLGFSWHQENNGKIWWTMVIGD
+>tr|B7RGB2|B7RGB2_9RHOB
+MTDQLQSAMRRKTQAGQALHQSRTVSVPKALRLTLSKVGNDLFSLPLATMGVTQHTVDNE
+ECRDILKDENLLILMDGPRGLCGAVMIDPALVGGLIQQQTMGKVLDAPAGFVRPMTGTDA
+ALAAPLIDALLERAAKLVETDEDRAVLTGYRFGAKSHNVRLLMLSLDAPEFHIIRMTVDM
+AQGARQGELVLCLPVPPRHAVAAPTSPDAGSAAADPVAPRTLSASVLQLKAELMVSLAQV
+TMSIRDAGGLHVGQVLPLGSVSFDAAQVRTKDGRILGVGSLGQSDGMRAMRLKHRVKTRD
+APKRRAADVGELAAQGAYDASFEAIYDPENLPALEHDGGGIDASDWQSDAPQMPDISDLP
+EMSQMADFSAMEGMSETPEMAEMPDMSDLPGFEDGFGMASEEEDDGPGQFKIG
+>tr|B7RGT3|B7RGT3_9RHOB
+MLQEFKDFIAKGNVMDLAVGIIIGAAFTAIVSSLVSDLINPIIGLVLGGVDFTDMYVVLS
+GTVPAGAGLDIARDSGAAIFAYGAFITACINFFIIAFVVFMLVKMVNRLKSIAEKPDDIA
+PEVKTGPSQLDVLLQIRDELAKK
+>tr|B7RL71|B7RL71_9RHOB
+MLQPKRTKFRKQHKGKIKGLAKGGSDLNFGTFGLKALEPERVTARQIEAARRAMTRHMKR
+QGRVWIRIFPDLPVTSKPTEVRMGKGKGSVDYWACRVKPGRVMFEIDGVNEDIAHEALRL
+AAMKLPIKTRVVVREDW
+>tr|B7RJM6|B7RJM6_9RHOB
+MTSILSAAIIAKRDDLIALTQDLIRIPTLNPPGRDYLLICEYLDKRLKQHGFETQLIRAH
+GTPGDSAKYPRWNIIARREGTRPGECVHFNSHTDVVEVGAGWTFDPFGAEISDGKIYGRG
+TCDMKGGLAASIIAAEAFVETHPDFAGAIEISGTADEESGGYGGVAYLAEQGFFNPQRVQ
+HVIIPEPLQKDRICLGHRGGWWAEIETKGEIAHGSMPFLGDCAVRHMGAVLSEFENKLFP
+AMAARHTDMPVVPEGARSSTMNINSIHGGQKENDEDFDGLPAHCVPDSCRITIDRRFLME
+EPLDQVRGEVHALLEGLRETRIDFDYELTELNSVLPSMTDRDAPVVQTVANAIQDIMGKA
+PEYVASPGSYDQKHIDRIGKLKNCIAYGPGLLELAHKPDEYIGIDDMVDSACVMGAALET
+LLLPKD
+>tr|B7RPJ5|B7RPJ5_9RHOB
+MSEQLNELGAYLEAKRPDCILGWDISHGELNMDVTKANLPGLVDFIKGDATCRFSSLVDI
+TAVDYPGRAKRFDVVYHFLSMYQNQRIRLRVAIREEDMVPSIVDIHPSANWFEREVFDMF
+GILFSGHPDLRRLLTDYGFRGHPLRKDFPTTGYTEVRYDEAEKRVVYEPVSLVQEYRQFD
+FMSPWEGAEYILPGDEKEAAK
+>tr|B7RFM4|B7RFM4_9RHOB
+MTNPPQGSSDKAMANSSYITLSGVPEGFDARALLDELGKHDVPVLHVARDDKRMAAMQSA
+LRFFAPDVPVVTFPGWDCLPYDRVSPNADISAQRMATLAGLVHGMPDKYILLTTLNAATQ
+RLPARDILRDAAFSARVGDRIDEAALRNFLVRMGFVQSPTVTEPGDYAIRGGIIDIYPPG
+DLGPVRLDLFGDTLDGARRFDAATQRTTEKLDQVELAPVSEVILDEGAITRFRQNYRIEF
+GAAGTDDPLYEAISAGRKHQGAEHWMSFFHAELETLFDYLPKATVTLDDQLTPQRLARWE
+SIADQYETRRIAMANRSKMDSVYKPAPPEGLYLADTAWEQALIGKRVIQFKPLPQPTGPN
+VLDAGGRIGRNFAPERQQESISLFGALATHIKAKLKDGPVVIASYSEGARERLTGLIEDE
+GLSEVIAIPNGTRIDKRGLHLAVWALEHGFEAPWTNAGKDGRLTVISEQDVLGERLIRSA
+KRKRRAENFLTETQSLTPGDLVVHVDHGIGRYLGMEVITAAGAAHECLLLEYAENSKLYL
+PVENIELLSKYGHDEGLLDKLGGGAWQSKKARLKERIREMADKLIRIAAERALRRAPIMD
+PPPGMWDAFSARFPYTETDDQMSAINDVIDDLTSGNPMDRLICGDVGFGKTEVAMRAAFV
+AAMSGLQVAVIAPTTLLARQHYKSFAERFRGFPLEVRQLSRFVSTKDASATREGMAKGTV
+DVVIGTHALLAKNIKFNNLGLLIIDEEQHFGVGHKERLKAMRTDIHVLTLTATPIPRTLQ
+LSLTGVRDLSIIGTPPVDRLAIRTYVSEFDTVTLREALLREHYRGGQSFYVVPRISDLAE
+IEAFLKAQLPELTYLVAHGQMAAGELDDRMNAFYDGKYDILLATTIVESGLDIPTANTMI
+VHRADMFGLAQLYQIRGRVGRSKTRAYAYLTTKPRAKLTATAEKRLRVLGSLDTLGAGFT
+LASQDLDIRGAGNLLGEEQSGQMRDVGFELYQSMLEDAIAKIRAGELEGVIDDDGQWAPQ
+INLGVPVLIPETYVPDLDVRLGLYRRLSSLSTKVELEGFAAELIDRFGKLPREVNTLMLV
+VRIKAMCKRAGIAKLDGGPKGVTIQFHNDKFASPEGLVSFIQDQRGLAKVKDNKIVVKRD
+WATDADKIKGAFAIARDLAEHVIAKEKQKKKAKA
+>tr|B7RK56|B7RK56_9RHOB
+MGLLDGKIAIITGAASPRGLGKATAKLFAEHGATIVIMDLDADQASAAAKDLPGEGHIGL
+AGNVVDKAACDAVAKATLDQFGRIDILVNNAGITQPLKLMEIGPDNYDAVTDVSLRGTLY
+MSQAVIPAMRAQKSGSIVNLSSVSAQRGGGIFGGPHYSAAKAGVLGLTKAMARELAPDNV
+RSNAICPGFIATDITAGKLTPEMQKTVLDGIPMGRAGEASDVAGCALFLASDLSAYCTGT
+EVDVNGGSLIH
+>tr|B7RPC5|B7RPC5_9RHOB
+MTDVETGAPQPEISFPDMRGKLTPQRPLNELTWLRVGGAADYLYQPADAEDLAAFMRAVP
+QDIAIFPMGVGSNLIVRDGGLRAVVIRLGRGFNGIEISGDRVTAGAAALDAHVARKAADA
+GLDLTFLRTIPGSIGGAVRMNAGCYGSYTADHFVSAEAITRAGDYITLTAEDLQFQYRQT
+ALEDGCVIVSATFHPPKGEPEELHSRMEEQLRKRDETQPTKDRSAGSTFRNPAGFSSTGE
+ADDSHALKAWKVIDDAGMRGATIGGAQMSPKHPNFLINTGNATAADLEALGEDVRKKVYD
+SSGITLEWEIMRIGEP
+>tr|B7RFW8|B7RFW8_9RHOB
+MDSGKRRLGCLMGPDAYRTAGLATALTDLGHSVTDRGNVLPAPYTPGQHPKLHALEETIA
+WTQSLADAAEAALADGTPIFMGGDHALASGTVLGAMRHAQAQGRPLFVLWLDAHSDFHTP
+ESTDSGNLHGTPLGYVTGREGFDAFPALPYALPHDNIAIIGLRSVDAAERAALQETTIQR
+VDMREIDETGIATPLNAFLSKVAAANGMLHVSLDVDFLDPSVAPAVGTTVPGGATVREGH
+LVMEILHDSGLMTSLDLVELNPFLDERGRTARLMVDLAASAFGRRVFDRPTRAY
+>tr|B7RRM4|B7RRM4_9RHOB
+MKRQDTEIPKDRLTGALRRGSVKKHVAAIHVSGKLTLLQRKLSNVLLLNAYDTLTSQQVH
+MIDARTLCLMIGYNSNDMDTLKQSLRGLAETVAEWDMLDEKGQQEWGVSSLLSYARLKGG
+VCEYAYSPALASKLNDPKVFALINLNIQRRFTSGHALALYENCYRFVRTGSTGWWSLDLF
+RRLMGVEDSAYYSVYKQLNAKIIKPAVSEVNKTSNIVITPEIRKRGRAVTDIRFKIAENP
+QLAILDLDDGAGVRKSDVYGQLQALGVSDRLARQWIAEHGEDHVGDKISYVAGQEGVQNP
+VGYLTAALRDDFKAEAVGVTPSSPRAKLLARVRDLVAARTPTQRDADRRLFMSIIASADA
+RADFERHGWMSALNTTAIKAFWEDLQPGSFDDI
+>tr|B7RFM8|B7RFM8_9RHOB
+MDKEKTMAKLAFLGLGVMGGPMAGHLQKAGHEVTVYNRTGEKARQWAETYGGKMAQTPRE
+AAEGADFVMSCVGNDDDLRTVTLGDDGAFAGMTSGAIFVDHTTVSAAVTRELYAAADAAQ
+ISFIDAPISGGQAGAENGQLSIMCGGDQGAFDRALPVMEVYSKICRRLGDSGAGQMTKMC
+NQIAIAGLVQGLSEALHFAQKAGLDGRAVVEVISQGAAGSWQMSNRYETMLDDKFDHGFA
+VDWMRKDLGICLDTADEIQASLPVTALVDQFYKDVQKLGGGRWDTSSLIKRFS
+>tr|B7RH11|B7RH11_9RHOB
+MKQVLITAGASGIGRAMGEAFADAGFQVWVTDVDAAGLADLPQTWHGRQVSATDEVAMAD
+VIAQMGRIDVLCANAGIAGPTARVEDVALDDFRACVSVNLEGAFIAAKHAAPLMKAARSG
+AIVITSSTAGIYGYPNRAPYAAAKWAMIGLMKTLAMELGPFGIRANAICPGSVEGPRMEG
+VLAREAVAKGHDTRSGL
+>tr|B7RIK6|B7RIK6_9RHOB
+MVKSVNMTQKNSASTFAKGLKVLSCFETGRRDLTMAEVSRLTGFDRATTRRLCLTLEDSG
+YLQKEDRAFRLTPKILAMAGGYLTANDFGRSVQPVLNQFAEAFEGEIALAMRDGDRAIYI
+ARSATSSARISFGFSIGSTLPLLPTAVGQMLLARGLASDVDLDLARLIPEKLTEATDMDL
+TSIRQKIERAASQGYAFVRNEFEMGAAGIAVPVGNIGASPAVLATTASINQFDKAAEFDR
+ALDILRRAAMNLRL
+>tr|B7RRM1|B7RRM1_9RHOB
+MKILVFGHSGQVATELRALDGNGIRITALDRAAADLTDPAACAAAIDAHAPDAVINAAAY
+TAVDKAESDHATADLINAQAPAAMSRACAARDIPFVSISTDYVFSGEGNAPWKPDDPADP
+QGIYGGTKRDGEILIEEIGGRYAVLRTSWAVSAHGNNFVKTMLRLGAEREALTIVADQIG
+GPTGAAEIAQACVTIAQTLVSEPEKAGIYHFSGTPDTSWADFARAIFDQAGITCAVTDIP
+STDYPTPAKRPLNSRMNCSATTVAFGIARPDWRASLSQIIAQLDISKD
+>tr|B7RML6|B7RML6_9RHOB
+MSINSFGHLFRVTTWGESHGPALGATVDGCPPGVPITESMIQQWMDKRKPGQNKYTTQRR
+EADEVRILSGVFEGVSTGTPIQLMIENTDQRSKDYGDIKDKFRPGHADITYFQKYGIRDY
+RGGGRSSARETASRVAAGGLAREAIKAIAPNVQITGYMVQMGPHKIDRDAFDWDQIEQNP
+FWVPDAKAAEDWAAYLDGLRKSGSSVGAIIEVTARGVPAGLGAPVYGKLDTDLAAAMMSI
+NAVKGVEIGEGMSAAMLTGELNADEISMGPDGPVYSSNHSGGILGGISTGQDIVVRFAVK
+PTSSILTTRKTITKSGEDTEIITKGRHDPCVGIRAVPVGEAMMACVLLDHMLLHRGQVGE
+NQGIIG
+>tr|B7RID8|B7RID8_9RHOB
+MSSFGHGLREELRGTGVSVTLLHPGTTATEFHHHAGMDATRFGDNRWKNDPVLVARHGVE
+AMLNGVSSVDQWG
+>tr|B7RGM5|B7RGM5_9RHOB
+MFALWPRAKTLSSPAYPRLRAIALRVAQSIPVVIGVVLISFLLTRALPGDPAAYFAGAAA
+DEASIAEVRTALGLDKPLIQQFFIYVGDLLEGDLGRSLSSGQAVAQDLAKRLPASLELTL
+TALILSCAIAIPLGILAATRPGSWVDHLCRVVVTAGVSLPTFFTGIVLIYVFYYLLGIAP
+APLGRLDFIYLDPDHVTGFYLIDAALMGDWETWSGAAKQLVMPAITLALFTLAPIARMTR
+ASMLTALSSDFIRTARAAGLSNGKVLYGYAFRNALLPVVTTLGMVFSFALGANVLVEKVF
+AWPGIGSYAVEALVVSDYAAVQGFVLAMALLFVVLNLVIDLLYTAIDPRIGFSSK
+>tr|B7RJ27|B7RJ27_9RHOB
+MTQTLEKLARQTGSMRGIRSVVHTMKTLSVINAAPYERAARAIELYHETVLEGLHAFLTS
+FGPIPERPPSKAPQILIVFGSDHGLCGNYNEALARHVSDQINGTPATHPRVLCVGAQMAD
+ALADQRITVDQTLFPAASVDGIGRLANLLTRRLEHLRNTAQAREIAVSLAYVTQDGRQKQ
+SPAVTSLLPIDDVLLSDLQTKPWVSRSRPSFSMPANALFMALVRSHLFATLFRAIAEALM
+TENAARLALMQQAEKSVDARLEDLMSETRRVRQDEITTELLDVIIGFEALKEGKVKLP
+>tr|B7RMG4|B7RMG4_9RHOB
+MSGAATLLRDVFGFDGFRPGQQEIVEAVTSGENVLAIMPTGGGKSLCFQMPALLRDGVTV
+VISPLIALMRDQVRALQELGVGAGALTSGNTPEETDAVWEGLEAGTLKLLYMAPERLAAG
+SVTGMLKRVGVSMIAVDEAHCVSQWGHDFRPDYLRIGELRRVLDVPLAAFTATADAETQV
+EIVQKLFDGAAPRSFLRGFDRPNIHLAFSAKNSPRAQILNFAAARKGQSGIVYCGTRAKT
+EGLSKALRDEGHVALHYHGGMEAEDRRIAERRFQQEDGLIVVATVAFGMGIDKPDIRWVA
+HADLPKSIEAYYQEIGRAGRDGAPAETLTLFGPDDIRLRRSQIDEGLAPPERRAADHARL
+NALLGLAEALECRRKSLLGYFDETDITCGRCDLCDAPAEVFDGTTAVRKALSAMLRTEEW
+FGSGHLIDILLGNETDKIRERGHTGLPTYGVGKEYDKRQWQAVFRQMMGHDLVRPDAERH
+GALRMTDAALPILRGEAQISLRRDSIRAAGALRRPAVKSMVSEEDAPLLSALKAKRRGLA
+EAGKVPAYIIFNDRTLIEMAEKRPENLDAMARIGGVGAKKLESYGRAFLDVINGASAEMH
+PTRRKLAGRDAGTVYDRLLEIQAELARGEGGTDKPLSCSASLLAKVAQLRNPDNTALERI
+LGDKRAERFGPAFLDALRQAG
+>tr|B7RPB8|B7RPB8_9RHOB
+MIPVQGLAGAKVAILGLGRSGLSAARALAAGGATPVCWDDNPAARDKAGAEGFECLDLMK
+AGAFDDVARLIVSPGIPHLYPAPNPVIVAAQDAGVAVDNDIGLFFQSFATQDWDGFDQMP
+KIIAVTGSNGKSTTSALIHHILKHAGRPTQLAGNIGRGVLDIEPAIDGEVVVLELSSYQT
+DLARNLTPDIAVFTNLSPDHLDRHAGMGGYFAAKRRLFAEGGPDRAIIGVDEAEGRYLAG
+QLSEGAADDRVIRVSVDRKLSGPGWQVFARKGFLSEYRKGKQVGSIDLRGVTGLPGAHNH
+QNACAAYAACRSLGFAPKVIEAAFASFGGLPHRSQTIGELRGIRFVNDSKATNVDSAVKA
+LAAFRNIRWICGGLEKDGGLGVLTAPLETVRKAYVIGREAAQFAMKLGVEAEVCGTMDVA
+VARAVAEAEAGDVVLLAPAAASFDQYDSFERRGEDFIAQVQTYL
+>tr|B7RIQ3|B7RIQ3_9RHOB
+MDFPDTPEDVPTLPSYKTTAADNLGSEEIAELQARGIDPYATAADGTACLQQAKLPLARL
+IFAARFAAIFKTPDMARSLVSPQAVTLLSIPDDEERQVFFDMFPDILEQTAKALDDFGIN
+VHGIAVAELPNVQAASSNRGRKDFNDKVDRLIAEGNNVIVCARTRDDLPPSGKLLWMRTA
+TLPPMTGDMVIEILRQTHSITGQVSEAAIRDRLPDDLALQALHMPLLKSAFTEQTTLMVA
+ARLYALTRRLDTGKVARGPTLDAIYLPPQAQQEMQHLLGDLAQWRTGHLPWSEVTSSVLL
+YGPPGTGKTLLAQALAGSAGIPLIATSYGICQKAGHQGDFLRTLSESVEKTIASAPCVFF
+VDELDSFSKRSVSHRNSGYVAAIVNALLEHITTLNNTAGVIVLGATNLPENVDPAIIRPG
+RFDRHTALENPDRAGIKRIFEIELGASAQDLDLAPAADRLLGMSGAQVAAVVRDARGQAR
+HSNTTLGNHHLKAAVDHVAPEGRQEDLHRIAIHEAGHAVVAHSLDLPLPDMVRITARGGA
+YHGKMPFAATKKTVCDQIAVTLGGRAAEAVLLGSVSNGAEADLEQATELAFKARYSWGLY
+ANNLLSVGSVKLAQLDPLDPLGSVVNSDIKGHYLRAKEIVEGNAKLVERVAEALLEQREI
+DGDALAEVLAAHDITNSDRPTEALVG
+>tr|B7RMJ7|B7RMJ7_9RHOB
+MISKGFLASASDALQALMIRLAQEKVLAKGEVLFEQGDTGDSLYAIATGALEFSVLSEDG
+RKLSLDVMRDGAMFGEIALFDPGPRTATVMAIEPTKVWGIKNADVLAALRNEPELGVDMI
+QLAGQRMRWMGQQLRDQVFLPLPMRLAQKILYLADGHKIQSSTIKLSQSELAEFVGASRE
+AVSKTLAVWKRDGTIDLGRGALRILDADNLRKISELPNI
+>tr|B7RNG7|B7RNG7_9RHOB
+MLNTISKGLRLFAGTLIAATFVFQTSAADAQTRSQGGRDKGQYIPTIWVDPDGCEHWVMD
+DGAEGYMTPHVSRQGIPVCRRGNVCGVMETDQFFKTDSYRIHPQGKARLAEFFKSTGAVS
+YIISGHTDSRASDAYNMKLSLNRANSVAAIAQQSGARIADVRGYGERIPAASNSTAAGMA
+KNRRVEIICIR
+>tr|B7RLA3|B7RLA3_9RHOB
+MRKQDMNRDWIATAQTLSQALPYLQRYADATVVIKLGGHAMGSDEAMEEFARDVALMRQV
+GVNPVIIHGGGPMINDMLRRLDIKSEFINGKRVTDAATMEVVEMVLSGLVNARIVQAITA
+QGGRCVGVSGKDSGLIICDQEDPELGLVGAPTEVNPRLLRDLADKGIIPVIAPLGMGRNG
+ETFNINGDTAAGAIAAALKADRLLLLTDVAGVKNAQGEVLTELTAAQIRDMIKDGTIAGG
+MIPKTETALNAIEGGVRAAVILDGRAPNACLLELFTEHGAGSIIRQG
+>tr|B7RP50|B7RP50_9RHOB
+MTIIVGQDTAKTRKTLTSGDQSIAYYSIPAAQEAGLGDFSKLPAALKVVLENMLRFEDGK
+TVTVDDIKAFAEWATKGGQNPREIAYRPARVLMQDFTGVPAVVDLAAMRDGLVALGGDAD
+KINPLNPVDLVIDHSVMIDEFGNPRAFQMNVDREYERNIERYTFLKWGQKAFNNFRVVPP
+GTGICHQVNLEYLAQTVWTDKDQNGVEVAYPDTLVGTDSHTTMVNGMAVLGWGVGGIEAE
+AAMLGQPISMLIPEVVGFELTGRMMEGTTGTDLVLKVVEMLRAKGVVSKFVEFYGEGLDH
+LPLADRATIANMAPEYGATCGFFPIDGETLRYLRTTGRDEDRIALVEAYAKENGMWRGDD
+YAPVYTDTLSLDMGTIVPAISGPKRPQDYIALTSAHTAFADYIKGVRNGENGTADAEVRW
+EGEGGQPEPRDIPGDVGNHKRGYVQTDDGHYQLHDGSIVIASITSCTNTSNPYVMIGAGL
+VARKARALGLTRKPWVKTSLAPGSQVVSAYLEAANLQEDLDAIGFNLVGYGCTTCIGNSG
+PLEPEISKAINDYDLIGTSVLSGNRNFEGRISPDVRANYLASPPLVVAYALVGDMNVDLA
+NSPLGQDKDGNDVYLKDIWPTTQEVAELVEQTVTREAFQEKYADVFKGDEKWQAVETTDA
+KTYNWPPASTYVQNPPYFQGMSPEPGVITNIEGAKVLAVLGDMITTDHISPAGSFKESTP
+AGKYLSEHQVPVREFNSYGSRRGNHEVMMRGTFANIRIKNEMLDGVEGGYTKGPDGNQTS
+IFDAAMAYQDAGTPLVIFGGEQYGAGSSRDWAAKGTALLGVKAVIAENFERIHRSNLVGM
+GVIPFEFTKGDTRKSLGLTGEETVSISGLDTIKPLQEVPCTITMADGTVKEIMIKCRIDT
+AIEIEYIEHGGVLHYVLRDLAKSA
+>tr|B7RMZ7|B7RMZ7_9RHOB
+MTLEILTSDSLGTVRHGFFTRRGGASSGVFQGLNCGSGSSDQREIVEINRARVAAAMNVP
+PSHLVGVHQIHSATVVTVDAPLSEKPRADALVTATPGLALSVLTADCQPVLFADADAGVI
+GAAHAGWRGALDGVLAATVDAMEALGAKRDNITAVIGPCISQRAYEVGPDFIDSFLAEDP
+YFARYFANGMDDRMQFDLPGFGLNRLRAAGVGHAEWTRHCTYSDPDRFYSYRRTTHAKEA
+DYGRLIATITL
+>tr|B7RN88|B7RN88_9RHOB
+MSEKLSEETRKTVLAPLFATGWEMTDGRDAITKTFKFNDFADAFGWMTRAAIWAEKWNHH
+PEWENVYNKVVVTLTTHDVDGLSALDAKLARKMDGLMGAAA
+>tr|B7RQK9|B7RQK9_9RHOB
+MDPNRLKGKNILITGAARGMGAANAEAFAAQGANVCLGDLDMEEAQKTADRINGAGNGKA
+IAVKMDVTKREDNEAAVTATVDAFGSINVGVFNAGLNKPRFFMDIDEDNWDMIMNVNTKA
+MWLGMQETARQMIKQGPMEGHPYKLINVGSIASRKPLVDVTVYCTSKYGCLALTHCGAIG
+LAEHNITVNGYAPGVVVTPLWEQLDKDLVDIGFKEREGQAYDDIVRDALQIKRVSYPKDI
+VGTASFLASDDSDYMTGQMVHIDGGWCIQ
+>tr|B7RI36|B7RI36_9RHOB
+MDITFRLNGEVVSLTGISPTTTLLDWLRETRHLTGTKEGCNEGDCGACSVMISDESGHRA
+LNGCILFLPQINGKSVTTVEGLSAPDGTLHPVQQTMIDHHGSQCGFCTPGFAVSMATAHL
+NGTTDHDTQLAGNLCRCTGYAPIIRAAKAAETQPVPQHLKNLRIPNGQKSSGGPAQPDGG
+RQPPHHIQPATTDDLAHWYAANPDATLIAGATDVGLWVTKQFRDLGATAFLNRIDDLRGI
+TDAGDHWRIGAMTTIADLEAHFASHHPSLATMLRRYGSAQVRNAATIGGNIANGSPIGDG
+SPALIAMGAKLHLRQGDTRRTLPLEDFFIAYGKQDRRPGEFVEAITVPKQPDTLRCYKLS
+KRFDQDISAVCGCINITRDGDIITDARIAFGGMAGTPKRASRTETALHGQPFTAPTMHRA
+MEALALDFQPLSDMRASASYRLQTAQNMLLRYLHEADGVQTDLQQVTA
+>tr|B7RJV0|B7RJV0_9RHOB
+MDNWDEIKTAYHVARLGTVSGAADVLGVHHATVIRHIDALEARLAVKLFQRHARGYKATE
+AGEDLLRVAAATNDQFSQLASRIKGRGDSVSGELVVTSLVELTRVVTPVLVAFQKQNPDV
+VVRFLTGERLFRLEYGEAHVAIRAGSVPQQPDNVVQPLMKMRVGLYAHKTYIAEFGLPER
+VEDYANHRFVVQDDPENRAPFSIWLRNILPEKAMTFRCTDMNALVDAITAGAGIGFLSLE
+DAANDPDLVEVHPPLAEWESSLWLVTHVDLHRTLKVQTFLTFLKNSMKGAV
+>tr|B7RSH6|B7RSH6_9RHOB
+MAVGLMIMSERELNRIEVLSQVTRGAMTAVTAANVLGLSRRQVHRLLKDFQTGGPCAIRH
+KARGRKSNNGIDPAVREFAVTLVREKYSDFGPTFAAEKLAEDHDLKVSRETLRKWMQDAG
+IWLSRKQRRTFHQPRLRRECLGELIQIDGSDHRWFEDRGPACTLLVFIDDATSTLMQLRF
+VTSESTFSYFEALDLYLTAHGKPVAFYSDKHSVFRVAQQGAKTGHGMTQFGRAMNELNIE
+ILCANSSQAKGRVERANRTLQDRLVKELRLAGISDMVAANAFLPGFMTRYNARFAKIPRR
+PDNLHRPMNIEPGRLRDVFCLRDERYVGTQLAFSFERQRIILTENEITRRLAGKYVDSYA
+FPDGRLEFRWQGVSLPYSVFDKDQRVTHAAITENKHLSAGYCQVVDSRLCFPVKGVDHAV
+ISAV
+>tr|B7RI11|B7RI11_9RHOB
+MDLLSLENPVFEVYAIAASIMVLKVMLQGWMTVYRMLKAGSGWASPEDLRQGPINKKPGP
+EQLDANDYVERSRRLHRNDLENIPAFLAAGLLFVIIDPTLWIAQVLMYGFVLARAAHFIV
+YATKGSHELRATFYTIGSLIVIYMAVHVLWTVML
+>tr|B7RFR1|B7RFR1_9RHOB
+MPKQGYHHGNLRQALIEGALQLIELRGPTGFTLSEAAKQAGVTPAAVYRHFDGREDLIAE
+GALQGYEIFAERMEAAYRSGQPSALKAFEATGRAYLAFARAYPGHYIAMFESGISVNRTP
+ELAAAANRANGVLEQAAADLSQHIPAHKRPPAAMFSAHVWALSHGVVELFARNSPGRASP
+FPADELLESGIGIYLRGLGLVDPDV
+>tr|B7RKL8|B7RKL8_9RHOB
+MDLSKFTERSRGFIQAAQTIATRESHQRLTPEHLLKALLDDDQGLASNLIAAAGGTPSRV
+VEALTLSMGKLPKVTGDAAQVYLDNATAKVLAEAEALAKKAGDSFVPVERILMALCMVKS
+AAKEALENGKVTAQGLNAAINDVRKGRTADTASAEEGYDALKKYSLDLTERAREGKIDPI
+IGRDEEIRRAMQVLSRRTKNNPVLIGEPGVGKTAIAEGLALRIVDGDVPESLRNKRLLAL
+DMGALIAGAKYRGEFEERLKAVLTEVTEAAGEVILFIDEMHTLVGAGKGEGAMDAANLIK
+PALARGELHCVGATTLDEYRKYVEKDAALARRFQPVMVSEPTVEDTVSILRGIKEKYELH
+HGVRISDSALVAAATLSHRYITDRFLPDKAIDLMDEAASRLRMEVDSKPEELDALDRQIM
+QLQIEAEALKKEDDVASKDRLEKLEKELGDLQEKADAMTAQWQGERDRLEGARELKEKLD
+RARAELDIAKREGNLAKAGELSYGVIPQLERELGEAEDSEADVMVEEAVRPDQIASVVER
+WTGIPAGRMLEGERDKLLRMEEQLHNRVIGQNQAVKAVANAVRRARAGLNDEARPLGSFL
+FLGPTGVGKTELTKAVAEFLFDDENAMVRIDMSEFMEKHAVSRLIGAPPGYVGYDEGGVL
+TEAVRRRPYQVVLFDEVEKAHPDVFNVLLQVLDDGVLTDGQGRKVDFKQTLIVLTSNLGA
+QSLSQLPEGGDMAQAKRDVMDAVRGHFRPEFLNRLDETIIFDRLARDDMTGIVDIQIGRL
+LKRLAGRKIGLELDASAKQWLADEGYDPVFGARPLKRVIQRALQDPLAEMILAGDVMDGD
+LIPVSAGVEGLIIGDRIAASNRPKPEEATVH
+>tr|B7RQ08|B7RQ08_9RHOB
+MIDDTRAKRNVAVLVTAQAFLGSQMPMYFVIGGLAGQQLSPNVCLATLPISMIVFGSMTT
+APWLSGVMQKFGRRAGFVTGAFGGMAGSAICAYALTIQSFTMFLLGSYLMGIYMSSQGFF
+RFAATDTASDEFRPKAISYVMAGGLVSAVIGPQVVGLLTDASPDATVMRFFPVYIAAIAL
+NGFGMILFAFLRIPKPPIPAVDAPKGRSRMELLKTPRIAVAVICGMVSYALMNLVMTSTP
+LAVVGCGYNIVDASHVVTGHVLAMYAPSFFTGHLIARFGVEKILGLGIAILAVAGLVALN
+GVELGNFYVALILLGIGWNFGFIGATSMLAGAHEPHERGRMQGLNDLLVFGGVTFASLAS
+GGLMNCSGGNPVEGWAAVNIAMIPFLVLAGGSLIWLMLRQRTSVR
+>tr|B7RRX3|B7RRX3_9RHOB
+MKDEVTREERVTNLKGLGCSRKRVEDARFTQGKGNYVDDINLPGMLTGDFVRSPYAHARI
+KSINTDAAMALDGVIAVLTAKDLEPLGLHWMPTLAGDKQMVLADGKVLFQGQEVAFVVAK
+DRYIASDAVELVEVDYEELPVIVDPFKSMQSDVVLREDLDPKAPGAHGPRKHHNHIFTWE
+VGDEDGTNAVIDDADIVAEESMYYHRTHPCPLEPCGAVASMDKVNGKLTLWGTFQAPHVV
+RTVASLLSGIEEHNIRVVSPDIGGGFGNKVGVYPGYVCSIVASIVTGVPVKWVEDRMENL
+MSTAFARDYWMKGKISATKEGKITGLHCHVTADHGAFDACADPTKFPAGFMNICTGSYDI
+PIAYLGVDGVYTNKAPGGVSYRCSFRVTEAVYFIERMIEVLAIEMNMDAAELRRINFIKK
+EQFPYNSALGWEYDSGDYHTAWDKALKAVDYEGLRKEQAERVAAFKAGETRSIMGIGLSF
+FTEIVGAGPVKNCDILGMGMFDSCEIRIHPTGSAVARLGTISQGQGHATTFAQILASEIG
+ISADSITIEEGDTDTAPYGLGTYGSRSTPVAGAAAAMVGRKIRAKAQMIAAYLLEVHDDD
+VEFDVDRFVVKGAPERFKTMSEIAYAAYNQAIPGLEPGLEAVSYYDPPNMTYPFGAYVCV
+MDIDVDTGVPTINRFCALDDCGTRINPMVIEGQVHGGLTEALAVALGQEIAYDDMGNCKT
+GTLMDFFLPTAWEVPNYETDFTVTPSPHHPIGAKGVGESPHVGGVPCFSNAVQEAFRPFG
+NRHTNMPHDHWRIWKTANDLGMHD
+>tr|B7RQF3|B7RQF3_9RHOB
+MILTTTEGQKGLPRYFARVFATAQAMENGRVDFVLPDGRRFRATGKNPLPVAELHIHNDD
+LFARLIREGDLGFSDAYLDEWWSTPDLQAFMDVAHANEDIYDSFPGMGLIRKYEALRFWL
+QSNSKKQAVKNISYHYDLGNDFYKLWLDETMTYSSALFEDGAQQSLEAAQTAKYASMVDQ
+MGVVAGDHVLEIGCGWGGFAEYAAKERGLKVTCLTISKEQFNYAKERIEKAGLSDMVEFK
+LQDYRDETGVYDGIASIEMFEAVGEKYWPSYFNTVRDRLKPGKSATLQIITVPDRRWKTY
+KRGVDFIQKYIFPGGMLASPGALREQVEKAGLAVVKSIEFGKSYDLTLRRWHESFNDKWE
+EIAAMGFDERFKRMWNFYLTSCASTFDSGNCDVTQITVTRPV
+>tr|B7RL94|B7RL94_9RHOB
+MISTLFLVAIGGAIGASLRFVSSVAVLRAFGPQDFPVAVLGVNILGSFLMGLFVVFATQK
+GLTQYSPFVMTGMLGGFTTFSAFSLETVTLIERGQIASAGIYVALSVGLSVLGLMLGLFV
+ARGVFA
+>tr|B7RKK6|B7RKK6_9RHOB
+MTKDPLLQPYQLKHLTLKNRIMTTSHEPAYPEDGMPKDRYRAYHEERAKAGVALAMTAGS
+AAVSKDSPPVFNNILAYKDEVVPWIQNLTDGCHAHGCAVMIQLTHLGRRTTWNKGDWLPS
+VSSSKHREPAHRAFPKLIEDWDIDRIITDFADAAERMKAGGMDGIELQVYGHLLDQFWSP
+LSNDLVGPYGADTLENRMRFPLDVLGAVRKRVGDDFIIGFRYTADEAQKGGITAEDGLEI
+SRKLAATGQLDFLNVVRGRIHTDPAMTDLIPVQGMANAPHLDFAGQVKKLTGMPTFHAAK
+IPDVATARHAIEAGLLDMVGMTRAHMADPHVVKKIIEGREEDIRPCVGATYCLDRIYQAG
+EALCIHNPATGRELTMPHEISPAAVKRKVVIIGAGPAGLEAARVAAERGHDVVVFEAQAD
+PGGQIRLTARSPRRREMISIIAWRMAQCAARDVVFHFNTWAEAADVMALNPDVVIVATGG
+MPNLELFETGKDAANVVSAWDIIAGDVKPAQNILIYDESGDHPALQAAEIAAFAGSKVEV
+MTPDRTFSPDIMAMNLVPYMRSLQDKDVTFTVTRRLLGVLRNGNQLTATIGTDYSDHTEM
+KDYDQVVVNYGTLPLDDLYFDLKPKSSNGGAVDHDALIAGTPQTMTRNESGTFQLFRIGD
+AVSARNTHAAIYDALRLVKDI
+>tr|B7RGN5|B7RGN5_9RHOB
+MVSNNRGDGMRYILVLVMGTLWAAGAWALPRDAQFASIDGGVLQMSDWAGQPVLVVNTAS
+QCGFTYQYEGLQALYDTYKDRGLIVLAVPSDDFNQELASAEKVKEFCELNFALDLPMTEI
+EHVKGSDAHPFYKAVAEETGFVPRWNFNKVLIGADGKVVATWGSTTKPQSAEVIHQIEKV
+LN
+>tr|B7RJJ7|B7RJJ7_9RHOB
+MGKNNSLAEPVFPFLHDEAVETVPVSGKQPSYIADHRQRLRARFMQGGAGAMPDYELLEL
+VLFRAIPRRDVKPLAHALMDRFGDFNRVITAPEARLRDVTGVGDAVIVELKIIEAAAHRL
+ARSKVMRQHVVSSWDALLDYCHTTMAHRETEQFRVLYLDRKNVIIGDEEQGKGTVDHVPV
+YPREVAKRALELNASALILVHNHPSGDPTPSQADIDMTQQILGACTALGLTLHDHLIIGK
+SRELSFRSEGYL
+>tr|B7RKW5|B7RKW5_9RHOB
+MFHVKHFDVIVIGGGHAGAEAAHAAARMGVATALVTMSRDGIGVMSCNPAIGGLGKGHLV
+REIDAMDGVMGRVADKAGIQFRLLNRRKGPAVQGPRTQADRKIYRTEMLLETERQENLTI
+IEGEVVDFMMQGEAVSGVVLADQSEVFAKAVILTTGTFLRGVIHIGDVSRSGGRMGDKAS
+VKLAERIDSFNLPLGRLKTGTPPRLDGRTIDWAKLESQPGDEEPTLFSFLSTAPTAKQIS
+CGITHTNEKTHDIIRENLSRSAMYGGHIEGVGPRYCPSIEDKVVRFSDKTSHQVFLEPEG
+VDDHTIYPNGISTSLPEDVQLAYVRSMEGLENVEILQPGYAIEYDYVDPRALDLTLKVRS
+VPGLYLAGQINGTTGYEEAAGQGLVAGLNAALASQGKDPVIFSRSQSYIGVMIDDLTTRG
+VTEPYRMFTSRAEFRLSLRADNADQRLTPLAIELGCTTTTRAEVFSEKMKRLKEATDLLQ
+SDKFSPKVIEESGIKINQDGSKRTGFQLLSFPDVKFEDLIPLDPRLEAVDEETRRQVERD
+ALYANYIARQQRDIDVLQKDEAHLIPDGFDYAPIDGLSNELKSKLIRVRPTNLAQAARID
+GMTPSALTLLLSHLKRDARKKSA
+>tr|B7RQD5|B7RQD5_9RHOB
+MNNEHILDATGLLCPLPVLKARKRLQSLSSGDTLTVQADDPAAIIDVPHFCAEAGHELVS
+SDLENPVQVYVIRKK
+>tr|B7RLW7|B7RLW7_9RHOB
+MTDRAPSRPGAVLALILTAYLMIALDLSIIFTGLPEIGETMGLDPVALSWVHNTYLLSFG
+GILLLAARLGDLVGRRRMLRTGIAFFTVASVWRSHP
+>tr|B7RMT8|B7RMT8_9RHOB
+MIDLTGRVAIVTGAGGGLGRAHALLLASRGARVAVNDLSVAQAQAVVDEITAAGGDGMAV
+AGSGSDFDAVEGMVAQVMDRWGRIDALVNNAGILRDKSFAKMALEDFRLVMDVHLMGAVH
+CAKAVWPHMQAQGYGRIVMTTSSSGLYGNFGQSNYGAAKMALVGLMQTLAIEGARHDIRI
+NCIAPTAATQMLEGLLPEAELDLLQADHVSPGLLTLLHDEAPTRTILCAGAGAFATANVT
+LTAGAYAGTGPDTPEKALAQWEKITDRTGECVPQSGAEQGRQELAHAGYTRDDVQPN
+>tr|B7RRD9|B7RRD9_9RHOB
+MTSDKENPDKGSRPAAGQVPSGQTASSQRPRPTSKTKTSLGDDERTIVGPRPVSPAKPAS
+RKLTLSDVLGRQARSGGSASNPMIAAANGVLELLGLLRTGLVEMDALRLQRHLHAALTQF
+EADARDAGLSDADINDARYALAATCDDIAQNLPGANQVYWKRHSLTAHFFADPNPGVGFF
+IRLHRMSGNPSRHAMTLELMFVCLGLGFEGQYRSARDGQVALSNLRTDLYHRIRSVVPRA
+YPDMSCNWAPVVLNGARRHHRVPLWIITGIGASMVVVLYGVLAWTLTKEAQAAQSAIIAL
+HDPTDPIAIERVALPDVPVEPQVTVYEAPKTGQVDRVRDQLADEIAAGLTTVSEEGDFIA
+VRLGEALQFGEGAAVLASESPIIARIATVLENEPGSIIVEGHSDNIPLSGRGRYKTNEEL
+SAARAAAVSDVLAQYMSDPDRMTVEGAGASKPLVRADTPEARSRNRRVDILLLKEQRL
+>tr|B7RQ44|B7RQ44_9RHOB
+MSDAAPKSMIQIARESGEAETAPPVDLGARVRELRKARSWTLEQAANQAGLARSTLSKIE
+NGQMSPTYDALKKLAVGLEISVPQLFTPPSAGQINGRMVVTKSGDGAAKATTTYEHELLA
+DTLRKKQMLPYRARIRARKMEEFDGWVRHDGEEFLYVLTGVIQLYTEFYEPVEMRRGDSA
+YYDATMGHNVISTSDEDATILWVTSLT
+>tr|B7RIF4|B7RIF4_9RHOB
+MNDQSALQRGTGFDIPDPADLPSLKGKVSETEWKLRCELAATYRLCALHGWTDLVFTHIS
+ARLPDEDGQERFLINPYGLMFDEITASSLVKIDLDGNICQETPYFINPAGFTIHSAIHSA
+RHDAGCVIHVHTPYGVAVSVQKGGLRRYTQFSMIVNNDLAYHDYEGIALNLDERDRIVND
+LGDKSLLMLRNHGTLTVGPNCALAFLRMYFLENACKTQIFAQAAGGEEHLHEETQDMADL
+VASQAAGAFTPGSGDNLVWPGLMRKLKRTNPGHDR
+>tr|B7RP76|B7RP76_9RHOB
+MPEALQNVQFLVYAAGACYVMGLLIINQIILRLLLMCGTGFYIVYYAFVADQPLWEAIYI
+SGLIGCANMFGLVGLLARNSRLAIPRAHSDIYHNFPGLPPGDFRTLMRHAKRYRLDAPTK
+LTTEGAPMTRMFYTLSGETWITKKHDSFMIRPGVFVGEVAYLTDQRASATTVMSKGSEIL
+EWSSADLRRLSQKSTRFKMALNATLSVDMAQKVAFSIAPSEVTSHPDQAKANVRSERA
+>tr|B7RH61|B7RH61_9RHOB
+MAVLGPTNTGKTTYAIERMLAHRTGVIGLPLRLLAREVYDKIVALRGPSVVALVTGEERI
+VPPRTQYWVCTVEAMPEGMGADLVAVDEIQLCADPERGHVFTDRLLRSRGLHETLFMGAD
+TMRGTIAALVPKAQFIKRERMSELTYVGQKKISRMRPRSAIVGFSVENVYAIAELIRRQK
+GGAAVVMGALSPRTRNAQVEMYQSGEVDYLVATDAIGMGLNLDVDHVAFSALSKFDGRRM
+RQLAPNELAQIAGRAGRGFKSGTFGVTGDAPPLDDGVARAIMDHSFTPQNKINWRNPALQ
+YGSIDRLIQTLEMSPDNERLYKAREADDLRALKALGEDAEVAARCTDGPSVKLLWDVCRI
+PDFRGISHAEHASLLETIFNYLHQRGTIPDDWLAGQINRIDRTDGDIDALSKRLAFIRTW
+TYVTQRKGWTVDESHWRDAARVVEDRLSDALHERLTQRFVDRRTSVLLRRLGQKEAMVAE
+VNETGEVTVEGEFVGKLDGFRFRQDKGAGVAEDKTIKTASLQALAPQFHLRADRFYNAPD
+TEIDFTEQGGLMWGSSAVGKLVAGPDGLRPGIEVFVDDVAGPEVAQKVQRRLQHFIDRKI
+AALFEPLVTLSKDEALTGLARGFAFRMVENFGILPRADIAEDVKALDQDARGALRKHGLR
+FGQFTIFMPLLLKPAPTRLRLVLWSLTKGLNEFPESPPPGLVTIPVDANAPEGAATMSGY
+RNAGDRAIRIDMLERLADMLRSEDSRGGFEAKADMLSITGMTLEQFATLMAGLGYKAEKS
+ERPKVKAVDTVVPHDGAPMAADTGADADTPVMDVAAEQPAGGIVADPAAVQADDVVDGTG
+DIPDDGIAPIAEELAETPEVDDHIPDTVAEETAIGVAPDEAIAAPEMETFYVFTWGRAAR
+ANQGPRRGGGDRPQGKGKPGPRGKKGGPRGDKGGNKSPNFSARPPKAEKPIDPDNPFAAA
+LMGLKDNK
+>tr|B7RI85|B7RI85_9RHOB
+MSFELPIDHVMPQVIDALRQTGRVVLQAPPGAGKTTRVPLAMLDAGLTSGRIIMLEPRRL
+AARAAAERMSATLGEDVGQTVGFRVRGASAIGPNTRIEVVTEGILTRMLQDNPDLPGVGA
+VVFDEFHERSLNADLGLALCLEVAGALRDDLLLVAMSATLDAAPVATLMDAPIVTSEGRS
+FPVTPRWLDRPVGTQRFEQAMADLVIHALETAPGSALVFLPGEGEIRRVESALKDRLPPD
+CTLAPLFGAMEFKAQRAAIAPAITGRKVVLATSIAETSLTIEGIQIVVDGGRARRARFDP
+SSGMSRLVTDRVTRAEATQRAGRAGRVSEGVAFKLWTRGEEGALAAFPPAEIEVGDLSSF
+ALELAMWGARAADLNFVTPPHDGRLAEAQGVLQMLGALDHAGRITDHGRALARLPLPPRL
+AHMVAKGGPRAPTLAAILSERDPLRGAPIDLALRMDAVAGKRTLGEVNHATLARIRQEAK
+RLARGQSVQGPDTLGVLAALAYPDRVALRRKGDAPRFVMSGGKGAVIQDNDPMAGERLIV
+ATDLDGDPREARIRQAVRLSDADLRDTFPDQIVWHDVCIWSRREGRVLTRQQERFGALVL
+DDRAWSDAPPEDIARAMLDGVRQLGMMPGKAAALFLARARLMGENFPNFSDAHLMETIQD
+WLLPHLTRVRSSGDWKAFDLLPALTARLSWDEQQMLDKAVPAHFTTPLGRKLAIDYDGAQ
+PQISLRLQEVFGVTRHPMIAGQPLQVTLLSPAQRPVQVTTDLPGFWAGSYADVRKDMRAR
+YPRHPWPEDPTQADPTLRVKPRGT
+>tr|B7RMP7|B7RMP7_9RHOB
+MALMTVIVMMILPMPSWVLDAGLAASFALAILIFTVTLFIDRPLDFSAFPTILLASLMLR
+LSLNVSSTKLIIGQGHTGTNAAGDVIEGFAQFVMGGSVFLGLVVFCVLLIVNFMVINKGA
+TRMAEVGARFALDGMPGKQMAIDSDMSAGAITHEQARERREREQLETTFFGSLDGASKFV
+KGDAVAGLLITILNLVAGLIMGVVVHGMPVGQAFETYAILTVGDGLVSQIPAVIISIASA
+LLLARGGTLGATDLAVFSQLGKHPAALGTVAVLMVMFALFPGLPFLPFLFGGAGLGVAAY
+LTYRSLQKAKLETSSTTVKDITPKQKPLGDILELDDIHVEFAPDLVNMVLDPGTGLDARI
+ANMRTHVASVYGVILPEIRLTDHPGLPVGTYILRIQGVEQARAQLNPDQILALAPEDNVL
+LPPGSDTKEPVYGAPARWINSRDQEEAALAGITLVTPTEILATHVLEIVKQNFSRLLTLK
+SLRRLLREMVNISNPARAEANRKLLDELIPDKVPIDVLHNVLRLLLDEQVSIRNLPLILE
+ATAEARAHNSQSEAICEHVRQKLGFQLVAEMRRPDGSLPLVQLAPEWEDTFETYQIDADR
+GLDIALPPDVFNRLADGMSASLSQASQNGIFAAIVTNTRRRRFLRTVMRAKGISNPVLSF
+EEIGLDARPSLVGMIAA
+>tr|B7RM50|B7RM50_9RHOB
+MTGRIAHLWRSMPVRLALLLVLLFSTVSLLSLAGSYAVTQNSFETAIRADLEQDIAGFRA
+APNARAVALLVEGESRDADPGRVILSYIMPSGRIYGNGAIARDDEGYHIVSLARDRAEYD
+GDYLSLTTRLYGGQLTVARSRAQIEALRTVFLNILLISLLPTVLIALSGGLYLARRSKHH
+VEVIGGTLDDLTNGDLSARVRVSPHWADDLVRIGNKVNQMASAQEAQTQMLRQVSSDIAH
+DLKTPIQRVAVHLDDLARTVPPETEDGALLAKAQDEVTGIASVFQSLLQIASVEAGSPKA
+HFKPVDLNRLCQTMTEVYEPAAMAKDQSLVCEVPKDPVLVQGDKNLLGQVLANLIENALR
+HTPQGSRISVSLCMSQGRPTLEVADNGPGIPEAEREKVLRRLYRLDTSRNTPGNGLGLSL
+VDGVVKLHGGALGLLDNAPGLRVRIVF
+>tr|B7RM16|B7RM16_9RHOB
+MTLTDVTISPDLTPDIASKIPAHQHVYAHLRTLILFGDLAPGQAVTIQGLTSLLNAGMTP
+VREALRRLIAEGALIHQGNRRVVVPSLTAADTEELGFIRKTLEPELARRATTRMTPEGLD
+RLTQTDVLLNSAIARGDIGEYLTRNYQFHAQIYSCADAPITSETVDRLWLRFGPSLRVVC
+GRFGTLNLPDKHADLLAAFQNRDAAAAAHAMAEDVAQGMRQIQASL
+>tr|B7RGZ9|B7RGZ9_9RHOB
+MSSEFASGHKDMGAIVTFTGMVRDLPGDPLQAMEIEHYPGMRE
+>tr|B7RI73|B7RI73_9RHOB
+MIRVIGIDPGLRNMGWGIIDVAGSRLSHVANGVCVSEGPDLGSRLLSLHGQLTRIIKTYH
+PQAAAVEQTFVNKDGAGTLKLGQARGIAMLVPAQAGLAVGEYAPNTVKKTVVGVGHADKG
+QVLHMVKMQLPGAEIVGPDAADALAIAICHAHHGGASTLAQAVARASA
+>tr|B7RNV1|B7RNV1_9RHOB
+MRDRLPLTVISGYLGAGKTTLINRVLAENHGLKLLVMVNDFGAINIDADLLASADDDTLT
+LTNGCVCCTMGADLYMAIGDVLDRGTRPDHLVIEASGVADPARIAQVAQAEPELAYGGIV
+TVVDGQTYARLSQDPQIGAQVAGQVNVADLVLISKLAVPDPAVQLRLGVQARAAVLDLTQ
+VDVLAPLLFGAGGKDIPTVSQSRHAPYLSWSAQGDLALSYEALKDRLKTRPEGLFRFKGF
+VGHDANSGWEVQCVGPSVSIKRLKQPRQTKVVGIGLRSQITADQIDDWWHR
+>tr|B7RNI7|B7RNI7_9RHOB
+MEKLDLPPQDLTLAAARFAALGSEQRLHVLRILVRAGPEGLTIGTIGRRSGISGSTLTHH
+VKLLVAAGLVQQQRQGRSIICAAVAHDAVHDLSRFLLTECCADADTPCPDHTHD
+>tr|B7RHB1|B7RHB1_9RHOB
+MTSPTTXXXXXXXXXXXXXXXFYFVAGLLIMAGLGLFLFTSALGRVWCGYTCPQTVWTDL
+FILVERWIEGDRNARVRLHHAKWTAQKWRLRLTKWAVWLIIAVATGGAWVFYFTDAPTLA
+RDLVNLTAHPAAYITIAILTATTFVFGGFLREQVCNYMCPWPRIQAAMMDPDTITVAYRE
+WRGEPRGKKHDGTTGDCIDCMACVNVCPAGIDIRDGQQMECITCALCIDACDDVMAKIGK
+PRGLIDYIALSDEAAERAGAKPKPLWRHILRPRTILYTVIWSLIGIGLVYALFIRSDIEL
+TVSPVRNPTYVTQSDGSIRNIYDVRLRNKSGDDRQFRLSLTSDEVLRIGLEGTDQLMLRV
+PADTTLLQRVYVTARAQDPAATAAATPLRIWVEDSEAQTRASKATTFNGKGN
+>tr|B7RQZ0|B7RQZ0_9RHOB
+MAETANSPRRAAPPYQLEDQVGFKLRLANQRHLEIFNKRMPDITPTQFAVLAKLRDEVCI
+SQNQLGRLVGMDAATTKGVVDRLRKKGLVQSTPSATDMRRLEISLTETGKEFSAEAITVA
+HAISAETVSNLTPREVDRLLTLLDKL
+>tr|B7RP97|B7RP97_9RHOB
+MIALDEIDHHLIRSLARDATQSAGALGRHLGLSQPATWRRIRRLEEAGILRGKRLRLNRE
+ALGFGVTVFLGVKLATKGRVSLEDFERAVSAIPEVQTVEHVLGLYDYRLRVVARDLADFE
+RVLRRRIMTLPGAGAVEANVLLSEERLPGPLGL
+>tr|B7RJ56|B7RJ56_9RHOB
+MLTNRRDFMLQGVAAGALMGLPNFLHAQMAIGEMTLDVVYDGHLTLPGSFIFETMPKDEL
+LPILERLGQDYDQLTPPCNLSLLRGDGRVVLFDAGSGAEFMPTAGKMLDALEALDVTPED
+ITDLVFTHGHPDHLWGVLDDFGDAMFTNATHHIGQAEWDYWTDPNTVNTIDSGRQAFAVG
+AERRLQVVADRMQFFNDGDEVLPGVGARLTPGHTPGHMAFEVRAGNTAAMIVGDSIGNDH
+IALARPAWESGSDQDPTLGAVTRAGLINDLVTAQMPIVGFHLGQGGLGRIEKFADGFVFV
+GQV
+>tr|B7RKP4|B7RKP4_9RHOB
+MLKLYYAPGTISIAVAITLEEAALPYEAIKIDFKTAEQTQPDYLALNPKGRVPALVLDDG
+TVLTETGALLEYIAAIAADKNLVPADPKDAAHMRSAMYYLASTMHVAHAHKMRGSRWATQ
+QSSFDDMTAMVLQTMSACAAYVDTHILRGDYVLGDNFSIADPYLFIVCNWLSGDGVDVAL
+YPKILNFMTEMKQRASVGTIYEKAML
+>tr|B7RI52|B7RI52_9RHOB
+MVQVTDLPRNETGIATALGILKQHFADRFHTGQAMRDQHAHTTTWIKNQAPDAVIFAQST
+EDVAEIVKVCATHKVPVIAFGTGTSLEGHVNAPAGGISIDMSQMDKVLEVNAGDLDCRVQ
+PGVTREALNSHLRDQGLFFPIDPGANASLGGMTATRASGTNAVRYGTMKDNVIAVEAVMA
+DGTVIRTASRARKSSAGYDLTRLMVGSEGTLGIITEITLRLQGIPEAISSARCSFPTVEA
+ACETVMNVIQYGLPVARIELLDAMVVQAVNGYSKLSLPETPMLLLEFHGSDAGVVEQAEA
+FSMLAGENGGSDYQATTTMEERNKLWQARHDAYWAMLALRPGCKAVATDVCVPISRLADA
+VGAANGKAAELGLIAPIVGHAGDGNFHASLLLDMDDADEVARAEAYVSWLNDLAISMDGT
+CTGEHGIGQGKRPYLVKELGAATGVMEMIKAALDPDNIMNPGKILPA
+>tr|B7RME0|B7RME0_9RHOB
+MSVQTSDAVLARMMALHPKIIDLTLDRMWRLLDALGNPQNDLPPVIHIAGTNGKGSTQAM
+IRAGLEAAGHRVHAYTSPHLARFHERIRVAGDLISEPDLTAVLDECYDANGGGNITYFEI
+TTCAALLAFARTPADYTLLEVGLGGRLDATNVIDAPALTVITPVSIDHQQYLGDTLAEIA
+GEKAGIIKRRVPCVVGPQQDAALAVIEAEAARHMAPVLAYGQQWHVGAEAGRMVYQDETG
+LLDLPKPNLLGAHQISNAGAALAALRHLGIASGPCEAAVTQAQWPARMQRLCKGPLVDTA
+PHAELWLDGGHNPAAGDAIAALLKDMPKRPTYLICGMLNTKDIGGYLRPLAAHADKLFAV
+SIPGEAATLPAAETAHAAESAGLTAVQSDSVQEALSAINALDSNARVLICGSLYLAGAVL
+RENS
+>tr|B7RQU1|B7RQU1_9RHOB
+MALERTFSIIKPDATRRNLTGAIAKKFEDAGLRIIASKRIHLTKAQAGEFYKVHAERPFY
+DELCEFMASAPIVAQVLEGDNAIAKNREVMGATNPADAAPGTIRAEFAESVGENSVHGSD
+APETAAVEIAYFFSGLELVG
+>tr|B7RH57|B7RH57_9RHOB
+MTTSPVLTFTENGIYCAAGDFYIDPWRQVDRALITHGHSDHARWGMGRYLATHAALPVMR
+HRLGEISAEGIAYGEVRRIGDADVSFHPAGHVPGSAQIRVAVKGEVWVASGDYKVVDDGL
+SDAFTPVKCHHFITESTFGLPVFRWADQADVADQINGWWAACAKEGKTAFLGAYALGKAQ
+RLLTMLDPAIGPVLTHTATEHTNRVMRDQGIVLPDTILADGDLKPKDHPGAIVLAPPSAL
+GSAWAKKFGPQETAFASGWMAIRGVRRRRAGDRGFIISDHADWDGLLSAIKVTEAENIYV
+THGYTDIFSRYLSDNGWNAQVVPTQFEGETLDKDATE
+>tr|B7RJ35|B7RJ35_9RHOB
+MTADAIAVAKPKTDGRIAAIRGGVVDVAFDGPVPQIHDLLFAGTVALEVAALVGEGLVRA
+IAMAPVRGLGLGMAVRATGSPIMVPVGEAVLGRMLDVFGAPMDGRPSPQAVERRSIHQAP
+PQLSDRVLHAQILETGIKAIDLLSPIERGGKTGLFGGAGVGKTVLITELINNTVQHYKGV
+SLFCGIGERSREAEELYREIGDAGVRDKTVMLFGQMNEAPGVRFLVGNTALTMAEYFRDD
+LGQDVLLLIDNIFRFVQAGSEVSGLMGRMPSRVGYQPTLATELAALEERITSTSQAAITS
+IQAVYVPADDFTDPAAAHIFSHLSASVVLSRKRASEGLYPSVDPLASASVMLTPAVVGQR
+HYDIARAVRRTLSEYEELRDIIAMLGLEELSSADRATVARARRLERFLTQPFFTTESFSG
+MSGKLVPIADTLAGCEAILGQTRFDLPESAYYMIGALDDLKEAAP
+>tr|B7RSJ9|B7RSJ9_9RHOB
+MNSDPDWTLYRTFAAVLDSGSLSGAGRLLGMTQPSVSRHIDLLEAALGSKLFLRTHRGMS
+PTEAAERIRPHVDILTASSAAIKRAASRTSEVAGTVRISATEVVGTEYLPPILATIRRAH
+PALEIDLSLSNFVEDLLQRQADIAIRMTEPKQLSLVTQRLRDLEVGLYAHRDYLARRGVP
+VSMAELLDHDLIGFDTQTAAARALAQRYPALSQAAFALRTDSNIAQYAAIKAGFGIGPCQ
+EPLARRTPSLVRVLPDISASSGIWLVMHEDLRATAVCRAVFDALELGLRNL
+>tr|B7RP03|B7RP03_9RHOB
+MHLDDTDSRLLSALQKNAHLTAQELGEQLHLSPSQAGRRRQRLEQEGFIEGYRAKLNPEK
+LGLAVQGFVQVHLGTHGPEYSASFARLLATRAEIVSAWTMTGDADYLLRVYCADLPSLNR
+LIHGVLLPHGAVAKVHSQIVMDQLKTDGPLPT
+>tr|B7RHJ0|B7RHJ0_9RHOB
+MKRILFVSAAMLWSGPALAQTERFALQTNLDHVWTMLAAGLVFMMQGGFLLLEAGSVRAK
+NSINVAQKNLLDFLLSTAVFGLVGFSFMFGHSICGFIGWSWDLALFNTEGDWNLTFFVFQ
+LTFCGTAATIVSGAIAERMSIGGYFMVTILIGAVIYPIAGHWSWGGLLSGSQEPFLARLG
+FIDFAGSTVVHSVGAWVALAAVIVLGPRHGKFDEHGKPVELHGHSPILSTFGALMIWAGW
+IGFNGGSTTAGTPEFAEIIANTMIAGGFGGLTAFFVGRWIKGYNRPEFIVNGTLGGLVAI
+TAGCDAVGLQSAILIGAIGSTTAFFLREWLEHQGLDDPLGAIAVHGGAGAMGTILAGVFA
+RPEAILATGRMEQIGIQAFAVCLYFAFAFGITFTALKLAAFITTRPDGSSGLRVPVEDEI
+EGLNISEHRAPLGMTSVVRAMQTIVENPQAEVSNITLDRGEETFEVAVLFNQIMADMRSR
+RDAENAQNMSIQHVNNFMNQLDAVMKRYARGDFSARLQTEKVPVEFTELSEGANAMAQSL
+QTIMDELDETVSAMAHGDLSRRIEGPQTGVFLALQRQLNASFSGISEVLGEVERAVAAAG
+KGDLTHEIKTLGRQGFLLALCEGVNSINRSTQTSLDDIKRVVSSVADGDLTLRMSADYQG
+VYADISRDINRMTDALVDLIGDVEASTNSVQSRATQIMQNSDLITAEARKNQELVGTLVG
+RLREIENKTSGNEARVLEALSVAQKAQDAAAHTQDVSRLTIERMSDADSAVTKIISALDV
+IEDISVQTHLLSLNASVEAARAQEAGLGFNVVASEVRKLAANSNETAEGIKRHVDDVKNK
+VAATAEGISLTNDALTQITEGARRTTDLVHEISEVGSAVITNIEQATKDLSIVDKRSAKS
+LHALTSAETAAQKLATDALEVMTKLVRFKRPAMPDKTAA
+>tr|B7RHJ6|B7RHJ6_9RHOB
+MTDLPPIVGIGASAGGLEALKEFITAIPNDSGIAYVVVQHLAPDQKSLMDELLRAHTPLP
+VNRINDGDAIAPDHIYLIPPGPFLEIAQGRFRLIENIRAPGVRTPIDRFFVSLSQEAGRR
+AFGVILSGTGSDGTLGVQAIKAQGGVALAQDSKSARFAGMPDSAVAAGLIDFVLRPRDMP
+PRILGIIQSWRALEFDNGRDAQLDDIERHLALIVGRIDASGEHAFSGYKPGTLVRRVARR
+MTLLRQSSALGYLQTLDEKPEERKLLVQDFLIGVTEFFRDADKFEALRQHVIKALFDRND
+SEFRVWVPGCSTGEEAYSIAMLIQEVIDETKDQRPWKIFGTDIDTDALRFARAGHYQDAS
+IAVLDEDRLKRHFISNGESWHINATLREMCVFAPHNLLTDPPFSKLDLISCRNLMIYLNA
+ESQALLLPRFHYALNPKGFLFLGPSETLGRSESYFETLDRSAKIFQRDDETDTSFTAMSL
+APPQRKGLPGAVAEMTIDTRLSNPGASEIETRSEQAFLQLHAPPFMTVNRQNQVIYVSEA
+MAAFVKPSRGATSTDLEDFLTMELRLPVHSAIDDARQNGMAAEIINVVVQVGTMPKMFDI
+TAEPFDTSSSLILVALTEVRQRNMGEIKDADDRSRSADYQQELLLTRRRLSGMQRQYAFA
+DQELRSANEELLSMNEELQSSNEELETGREELQSINEELETINAELTENNRQLMRANNDL
+KNLLESTDIATLFIDQSDHVRLFTPEVARLYGIQARDVGRSIHDLARKIDYVDLQQDAAQ
+VRQTLQPIEREVRIEATDETFAMRLRPYRTVDNRLDGVVVTFIDVTRRKRNALQLEENAK
+LLAEQYNELETLYDSAPIGLSLVDRDLRFLRINKTLAAINGFTVMEHIGRLQEQLLPQAH
+ADVSDIQKQVLRTGEAIIGLPVQTTMPAEPGQVREFMVDFYPVRDGADVFALGTCVREVT
+AERELERQIADSALRQRVAVDAAGLGVFEWNLREGHAIWENDRMFEIFGSDKADGPLHLA
+DATQDIMHPNDNDALLRNVTSEDGAVNFEMRIRRQDDGALRNLEYFGTLKKGVDGKAERL
+IGVVADVTEKTLARQRERNSLKRLQRLQNSLSAFVGILDTNGTLTEVNAAALERGGISRK
+DVIGKKFWDCWWWSFSVASQDRLRDAVNRALEGEISRYDVEVRVAGGQMAVIDFQLVPNF
+DDEGNVIEVVPSAVEITDRVAAERQKDILLAELEHRVKNTLATIQAITRFTARMSKSKED
+MSKSLIERLGAMSRTHDALTAQDWKGQNLRALVNSEIAPYVGSDKGRFTYLGSDMFLEPK
+TVLSLGLALHELATNAAKYGAFSNASGRIEFTADCPGPNRFKLEWREFDGPAVSPPDHQG
+FGTFLVQNLLEKELNATVKVLYDKSGVYWSIEKTES
+>tr|B7RNE7|B7RNE7_9RHOB
+MWIMKAEVVIIGGGPSGLLLSQLLNRAGVDTVILERTSRTRVLDRIRAGVLEDGTVQLLR
+EAGVGHRMDREGIPHEGCYLTDDDLMVRINFHELTAKKVMVYGQTEVTADLYAAQDAMGT
+NIIHNVEDVVINDVKTDAPYVEYTLEGERKRIDCKFVAGCDGFHGVSRQTIPADKRTEFE
+RVYPFGWLGVLSRTPPANHELIYANSRHGFALASMRNEKLSRYYVQVPLTDKVEDWSDDR
+FWEALKMRLPQETADAMVTGPAIEKSIAPLRSFVSEPLRWGSLFLVGDSAHIVPPTGAKG
+LNLAVSDVYYLHDALIAALKKKDPSGIDSYADRALARIWKAMRFSWQMTTMLHQFDGEDS
+FAAQMRKATLSHLSQSETARRDLAENYIGLPF
+>tr|B7RSD5|B7RSD5_9RHOB
+MDFTAVNNISLRQFEFLRAVIEAGSFSAAARRLSVSQPTLSTAIRRMEDMLGVTLFTSVS
+GRLVPSQVASKIAFESEGLADHLDTMRRKVLRIVDGSDTVFRFGASASLTGSVAPRVIKA
+LRQSQPQIQVHLDMLYVRNVPEYLARGPGSCVLSIYPMPDPVIENRKILDGSLVCIMPYG
+HHLTKNKTIRAEDLFEEKLISFDPNVIHGKLVESFFRPHGRMPDVPYRIEPAHAALGLVS
+EGLGVAIVDEFTAMAGDLKRIVVRPLEGATTVPVMILSNPLRGEAQFIDLFEDCVRAALR
+DRPHSP
+>tr|B7RNX8|B7RNX8_9RHOB
+MLVDFLGLGSMGLGMAKSLLEAGHQVRGFDPDAARVDLLCAQGGSGFGEGVPQADAVVSA
+VLNADQTRAALFGEHGAAARLRPGGVIISCATVAPAFAAEMEAEATARGFSYLDAPISGG
+AIKAAAGQLSIMASGSADAFAAADPLLDAMAETVHRLGDHAGAGSAMKAVNQLLAGVHIA
+AMGEALAFGASQGLTPAQVVDVVSVSAGTSWMFENRGPHVVEGDYTPRSKVDIWLKDLGI
+VGDIAATSGLPVPISSNALAQFRAASDAGLGDEDDAAIAKYFARQGGVTLPGDS
+>tr|B7RIL3|B7RIL3_9RHOB
+MNKTVNQKAWFLILPVLVLVAFSAVIPLMTVVNYSVQDTFGNNQFFWAGLEWFKELMSSE
+RMWDALGRQIAFSAIILFIQIPLGVFVALNMPKKGFWASVCLILMSLPLLIPWNVVGTIW
+QIFGRVDIGLLGYTLDAMGVDYNYTQNFYAAWITVVVMDVWHWTSLVALLAYAGLQSIPD
+AYYQAAKIDQASRWKVFRFIELPKIMGVLMIAILLRFMDSFMIYTEPFVVTGGGPGNSTT
+FLSIDLVKMALGQFDLGPAAAFSIMYYLVILLISYVFYTVMTNLDKRDGH
+>tr|B7RNP8|B7RNP8_9RHOB
+MSFAEKTVCVSGGTSGINLGIARHFARAGAKVFVFSRDPAKVDAAVVELRGLGAEAQGCS
+ADVRSADAVSDAIGQCADAFGPIDILVSGAAGNFVARAADISSNGFRAVLEIDVLGTHHV
+MHAAWPHLRKPGASVINLSAGQASVAMIGQAHVCAAKAGVDMLTRTLALEWGPHGVRVNS
+IVPGPIGDTEGVKRLMPDAASLDAKIQSIPLRRMGSTQDVADLCDFLCSDRAGYITGTVI
+PVDGGAILNPMPTRMEAFIDG
+>tr|B7RKI2|B7RKI2_9RHOB
+MIDEARSFTLDNLDGTAHAFDGTGPALVCFVKEDCETCNIAGPVLEGLFKAYGSGIDMIV
+LGQSGDKNADFAQRHVLSMPVLADAGCKASFDWDIEIVPAVFWIDADGKVVTKFEGFVRD
+DWQALSDQIATETRQPNAQIDWDSLPAWRPGCGSKHFDPEIYDKLRAEADGSVLRARKVE
+VASGDDVAEFMFDQGFSDGLPLVPPTPERVMRMLAGTHRDPQEVIATVPPNMGVGTVEKI
+AINAVMAGCKPEYLPVVIAAVEAVCTDEFNIHGVTATTMGAATVMIVNGPVIEKIGMNAG
+LGAMGAGNRANATIGRALRLVIRNVGGATTGGVERSVLGNPMKYTMCFAENEAVSPWEPL
+HVERGFKAEESVVTVFAMTGGPVHIVDQTSRKPDQIAGSLGQGLEGVFMPKLHNLPVDAL
+LVVCPEHINTLTVDGEYSKDRLRDRIQEVTSRPLSEMVQDDHSGAGIPQADAEKMGPEKL
+AQLAPKFAGKEYIHIVVAGGEAGKFSSAFHGWATGAVGSISVSRKIDLG
+>tr|B7RLK0|B7RLK0_9RHOB
+MGLDDFAHGQSWRPNSIILEVDPPDHTAVRKVMIRAMSPKVAAGYKQMFFDEASRLINDL
+LTRDGFDAVGDFAEVFPTNVFPKAVGMTDVNKRHLVDYGAMVFNSLGPDNDIRKATMVKA
+AEIIPWINAACARERLTGDGMGGILYAAADAGEITHDEAGLLVRSFLSAGVDTTVSSIGN
+ALVCLAQHPGEFEKLKADPSLARPCFEEVLRYTSPVHTFCRTAKADTQVSGITIAEHSKI
+LCVLGAANMDPDKWDAPQEFRIDRKPAGHLAFGVGVHGCVGQNVARAEMEAVLTTLAQKV
+DRIELLKGPVWRPNNAMRALDQMEIKLHGR
+>tr|B7RHB2|B7RHB2_9RHOB
+MTQVAACPACAVAPLAQETARHARPPDAILSIPALHCAACIGKVERALSALPGVERARVN
+LSLKRVSVHGPDVPDETITAAIKAAGYDAYPLDLTLLEEGQDPVGRALLIRLAIAGFAMM
+NVMLFSVAVWSGASDATRDLFHLISALISLPAVLFCGQPFFANAWSALRVRALNMDVPIS
+LAILLAAGMSLFEVLNGGAHAYFDAALSLTFFLLIGRYLDHQTRSSARSAAKELAALEVH
+TAQRIDAGHATKVPVSALRVGDRVLIPTGVRVPVDGTLDSASAVSDRSFLTGESAAQTLI
+KGFPVQAGEINQGAPFEMTATAVGDDTTLRRVANLVEMAENSRNRYTNLADRAARIYAPA
+VHLLALLAFVVWVWISGDIRFALNIGVAVLIITCPCALGLAVPAVATAAIARLYAMGFLV
+KSGTALERLAEVDIAVFDKTGTLTLSSSTGKLSTLSDTQASVARKLAQSSHHPMSRALLS
+VLPPVPLAEVTQMQEIPGFGMQAVLDGQPVRMGRGSWLGADFDGLGLRIGDGPAIPLPLT
+DIPRPGVKTALEGLRSLGIAPQILSGDGKTPVQALAAQIGVEDLQFNVSATEKHAYLTGL
+QKAGHRVLMVGDGLNDTASLAAAHASVAPASALDASRSAADIVLLRDSLAEFPMLMKIAR
+ATTRLSRENFAIAAAYNAIAVPVALLGYASPLIAAIAMSASSLTVLANAMRVRIVR
+>tr|B7RNU9|B7RNU9_9RHOB
+MRFTFKQLRYFDAALRYGSIARAAEEMNISQSSITAAIDLMEGNIGSTLFRRIPAKGIVA
+TDAGREVGQRVVAFLEQCRHFESELMSLQGSPTGTLRVACFEPSAPYVLPPILKRIAALY
+PSIRIDLKEGDMQEISQLLRDGGVDMALTYNVGLAADQPFRSLFFARPFALLPADWPLAA
+KPNLTLADMADLPMLMLDLPASQSYFNRLFSSQSLRPKIVHTSKSSSVLRGMVAAGLGYT
+LMNIHSRVDAQDLSGYVTKPLLGDLEEPDFGLAYSAGNEKSAVLQAVLKISDDLVSEGQF
+DSLELRPRTAG
+>tr|B7RJT4|B7RJT4_9RHOB
+MESANSADTDFPLNNLPYGVFSTNSLEPRCGVAIGDMVLDMAALEAEDLVLLHFDPVFDV
+PYWNDVMDLGPKTWATLRDRLTELLSSDSPDQAKVAPHLVPMSDIRLHMPLVVSEYTDFY
+AGRHHATNVGTMFRGAENALPPNWLHIPIGYNGRASTVVVSGTDIYRPNGQLKAPDADAP
+TFGPCKRLDIELEMGAIVGTSTEMGDTISVAEADEMIFGYVLLNDWSARDIQAWEYQPLG
+PFQAKAFATSISPWIVTAAALEPFRTSTPEREKDLLPYLQEPKPMLYDIDLSVLIQPDGG
+TQEVLARTNYNTMYYSAAQQLAHHASSGCAMNAGDLLGSGTISGPEKNERGSLLELSWGG
+KEPIALSDGTTRSFIEDGDTMILTGHAQGDGYRIGFGACSGTILPAKTQP
+>tr|B7RQY1|B7RQY1_9RHOB
+MICSRLAQTLPTGEAAMIDFDKIRAIDFHTHAEEPCGCHSDDGYDDLQSTMASYFGAPWK
+HPPTIQETAAHYREQNIAAVIFPVDAERETGYRRYKNEEVAAIAAENDDVLIPFASIDPW
+KGKMGVREARRLIKDFGIKGFKFHPTMQGFYPNDRIAYPLYEAIEEEGGIALFHTGQTGV
+GSGMPGGNGMRLKYSNPMYMDDVAVDFPDLKIILAHPSFPWQEEALSVAQHKPNVYIDLS
+GWSPKYFPEILVRYANSILKKKMLFGSDWPMITPERWLADFEKIAIKDDVRPLILKENAM
+RLLGAS
+>tr|B7RJU7|B7RJU7_9RHOB
+MTDAVTRAAEILKGHRASIDRLDAILVYTLGERFKHTQAVGKLKAEHDLPPSDPDREANQ
+IARLEDLAKEADLDPEFAKKFLNFIIAEVIQHHKQHQS
+>tr|B7RGH6|B7RGH6_9RHOB
+MSAASKPVQPGFAYQQVAGEIEAQILRGDLKPGDQLPGEEQMAVSFGVTRSTLREGLRQL
+ESDGLVHRPSPRRMEVTVPQADQLTTRAGRAMALMKVTFRELTQVTMVTEPLAARLAAQH
+GTEDEITALQTLHGALVAAEGNATRTIQIDEEFHTLIAEIGRNRVLGLAREPIALLLFRG
+FEQIAPFAPNFYKRQIEAHSNVIAAMRDRDEDRAEKWARKHIEDFWRGAQIAGLEDKIAL
+NPGALS
+>tr|B7RKQ0|B7RKQ0_9RHOB
+MPFEAIDPPLPDTLTGLRKIAVIGAGISGMGAAHMLGDDHRVTIFETEARLGGHARTRIA
+GKNGDQPVDTGFIVFNYANYPHLAALFKELDVPVIESNMSFGASIDGGRLEYALMTMDSI
+FAQRRNLANPKFLRMLSDILRFNNTATRIAQDRSLTIEGFLDKLGAGDYFRKYYLTPLSG
+AIWSTPVDKILDFPAYSMIDFFENHALLSHTGQHQWYTVQGGSIQYVRRLETSLIAKGTD
+IRLNAAVQSVRRTGLGVEVKTAGGAWEAFDAVIFATHSDDTLAMLSDPSPQEAAALGAVK
+YQPNNIVLHADASIMPKRRKTWASWVYAEEKGQKSERIDLTYWMNSLQPIPMDDPHFVTL
+NTTRTIREELIYDQVTLRHPVYDRGALAAQEQMRGFNGTNNTWFCGAWMKHGFHEDGLSS
+AVDVVQGIRGAAKVALAAE
+>tr|B7RL03|B7RL03_9RHOB
+MKSVEIYTSPLCGFCHSAKRLLNEKGVSFAEVDVLAQPDRKAEMVKRANGGRTVPQIFIG
+DTHVGGCDDLYALERAGKLDALLAA
+>tr|B7RJX6|B7RJX6_9RHOB
+MIRSFVVLAGTLNLSHAVKQLESTRQTVRRHIAHLEEIMGEALFEVDDRRYQLTERGHEV
+LPEATDIMARGKIWVQGNSRHVGGLLRLSHEAPNGWNFYQQQQPLTQIWDGESDMLRDVF
+TAWVNSKGELEHPNFQALRPYVLVYRDSPNGWICIELGQESFYTKWWGWKNARSSIGRPL
+GQFPGGPEFEAMLNAPFREVQANGGVRLDEVVTQIPRKEGAKPIPLAYKRLLMASRFPDR
+SFALIAAIDRSRYISIAGLDQSTLDVMPSDAIVAF
+>tr|B7RM59|B7RM59_9RHOB
+MKHALVTGAGARLGRAMALYLGDRGFDVAVHYNTSCEGADEVVAQLAAKGQRGVAVQADL
+LNESETQNLFPRALEALGGPITCLINNASIFEYDNVATATEESWHRHIGSNLRAPFVLTQ
+AMAAQGLVAETDDRGEPRGAGLIINMLDQRVRKLTPEFMTYTIAKMGLWAMTQTTAQALA
+PTIRVNAIGPGPTLKGANQTEDHFANQRARVILERGSNPEDISAALGYFLDAPSVTGQLL
+CTDGGQHLGWRTPDAQGLE
+>tr|B7RQ63|B7RQ63_9RHOB
+MVSRVIPVDPFDLVIFGGTGDLARRKILPGLFRRFCSGQMPENARIIGAARSDMDADGYR
+EMVSEAIAEFNADFVHEKPQLDAFLTCLEYVVIDAKGTDGWADLQKLMAGTDRVEAYYFS
+VSPALFGDLAERLQQWGMADAASRIVVEKPFGRDLTTARALNATLAKYFDESQIYRIDHY
+LGKETVQNLMAVRFGNMLFEPLWNSQYVDHIQITVAETVGVGGRGEYYDKSGAMRDMVQN
+HLMQLLCLIGMEPPARFDPDAVRDEKLKVIRALDPVLPHHIVRGQYQAEPCNEAQAPGYR
+TAVGDPRSRTESFVALKTHISNWRWAGTPFYLRTGKRMAARSSEITVVFKETPHSIFTED
+AGRHRNVLSIRLQPNEGITLGVTIKEPGPGGMRLVDVPLDMTFADALGPDGSEQVDAYER
+LIMDVIRGNQTLFMRGDEVEAAWAWTDPIIQGWEARNDVPKPYDSGSDGPTDAAELMRRD
+NRKWREVSS
+>tr|B7RMG0|B7RMG0_9RHOB
+MIRRFGLFALVMLLGTVGGLRDATDRWIASTVLPSMLVETSVEMRDRHGALLRVYPVENG
+RTRMALRLKDVDPGFLNMLIAYEDKRFYDHNGVDLRAGLRAAVQAVTNGGIVSGGSTLTM
+QVARLLENSGTGRWQGKLRQIRLALALERVLGKDEILTLYLAHAPYGGAVEGLRAGTLAW
+FGKEPARLTLAEAALLVALPQAPETRRPDRHPQAARQARARVLQRTKAPDQARLAPVPRR
+MTPFPRFAPHLTDLTLREVPKTQRIDLTLDAGLQEQIQDLAARAVRGRDDRLSAAIIVAD
+HHTGEILASVGSPAYSGADGALGFVDMTRALRSPGSTLKPFIYGIAFEQGLVHPETLIND
+APTAFGRYAPQNFDGEYRGELTVRSALLQSLNIPPVVLLNELGPSRLMALLRRGGAAPVV
+PGGKPGLAVALGGVGITLHDLVQLYGGIANGGQVQPLIWRKDAAARQPKRIMSDVAAWQL
+WDILADLAPPLHIGGPRRQIAYKTGTSYGHRDAWSIGFDGQHVIGVWLGRPDGTPVPGAF
+GGDLAAPILFEAFGRVSEKRAPGPLPPDETLMLRTADLPAPLQRFRSRGAIFDLATDSPM
+VSFPPQGAVLRRGGAGIPLKLRSGKLPLTVLVNGAPVLTGLRDRETWLPLDGAGFSRISV
+IDARGRSAEVEIRLQ
+>tr|B7RN80|B7RN80_9RHOB
+MMNKKYIIPTAVAAALLPTFALAQDAEFASASETAFIFNTLLFLIGGFLVFWMAAGFAML
+EAGLVRSKNVTTQLTKNIALFALAAIMYWLVGYNIMYPGDAWIIPGVFGTFATKDIKTAI
+DAGGYSNASDFFFQLMFCATTASIVSGTLAERIKLWPFLIFTVILTGFIYPIEASWQWGA
+GWLSDAGFSDFAGSTLVHAAGGFAALAGALILGPRIGKYKDGRVVPMQGSNLPLATLGTF
+ILWLGWFGFNGGSQLAMGSMIDADAVAQIFANTNMAAAGGAVAAMILTQILYKKIDLTML
+LNGALAGLVSITAGPLDPTLFGALWIGAVGGVIVVFAVPFLDKLKIDDVVGAIPVHLIAG
+FWGTLVVPVYTEGTSFVTQIIGFASIGAFVFIVSAIVWTILKVTMGIRVSQEAEIAGLDV
+SELGMEAYPEFSKS
+>tr|B7RQN6|B7RQN6_9RHOB
+MTSILILNGPNLNLLGTRQPEVYGSTTLADVEAMCRAHATAFDLSFEQSNHEGVLIDHIH
+AAKGVHAGIILNAGAYTHTSVALMDAIASVELPVIEVHLSNIHAREAFRHKSYIAPVAVG
+QICGFGAQSYLLAIDAIKGHLKI
+>tr|B7RJC5|B7RJC5_9RHOB
+MTDKTDMERQATAAPAIELKGISKAFGPVQANKDISIRVMPGTIHGIIGENGAGKSTLMS
+ILYGFYKADKGEIFVGGKKTDIPDSQAAIAAGIGMVFQHFKLVENFTVLENIILGAEDGR
+LLKPSLAKARKSLLTLADDYGLKVDPDALIQDIGVGMQQRVEILKALYRQADILILDEPT
+GVLTPAEADQLFRILGRLKSEGKTIILITHKLREIMETTDTVSVMRRGEMTATVKTSETS
+PAALAELMVGRKVLLRVDKTPAQPGDVILDIEGLRVVDEKGVERLRGIDLQVRAGEILGV
+AGVAGNGQSELLEVLGGYRTGTGSVRVKGQALDLTGKHSDGQSRRQHGIAHVPEDRQREG
+LIMDYQAWENTAFGYHNDPAYRSGILMNNAAIKADTVEKMERFDVRPPNPKLEAKNFSGG
+NQQKIVLAREIERNPDLLLIGQPTRGVDIGAIEFIHQQIVALRDQGKAILLVSVELEEIL
+ALSDRVAVMFDGQVMGVRDASATDEKELGLMMAGITHAGEGT
+>tr|B7RH26|B7RH26_9RHOB
+MTDSTEPSFRESVDMMFNRAVGLMDLSSGLEEKIRVCNATYTVRFGVRLRGGIHTFTGYR
+SVHSEHMEPVKGGIRYSLGVNQDEVEALAALMTYKCALVEAPFGGSKGGLCIDPRAYDEH
+ELELITRRFAYELIKRDMINPAQNVPAPDMGTGEREMAWIADQYKRMNTTDINGVACVTG
+KPINAGGIHGRTEATGRGVQFALHAFFKDAKGLAKAGLEGKLKGKRVIVQGLGNVGYHAA
+KFLSEEDGCLITAIIERDGALYDETGLDVEAVHHWIAKHDTIKGYHDSTLIEDGASVLEK
+DCDILIPAALEGVINLGNADRIKAPLIVEAANGPVTSGADEILRDKGVVIIPDMYANAGG
+VTVSYFEWVKNLSHIRFGRMQRRNEESRHQLLVDELERLSADSGVGWQLSPNFKDKYLRG
+ADELELVRSGLYDTMVDAYRSMADIWHNRDDVTDLRTAAYLVSITKVAASYRAKGL
+>tr|B7RRM8|B7RRM8_9RHOB
+MANPDIAQPPEEFDLEVETLIIGAGACGMVAALAAHEAGQDVLLVEADPVPSGSTALSAG
+LVPAAGTRFQTDAGIDDSAARFAADIQAKAHDENDPDLVMSMANTAGPVIEWLADTHGLP
+FSLVTDFDYPGHRRRRMHGLPTRAGQELIDALRARVEALDIPLICNRRASRLYSRENSVF
+GAQLTLPDGSTETIGCGRLILACNGFGGNRTMVSEHMAEIDNAVWFGHDGNRGEAISWGE
+ALDAKTRHLGAYQGHGNVAHPHGILITWATITEGGVQVNAQGHRFWNESQGYSEAARAVL
+AQPGGVAWVVFDHRIAGIARQFEDFKQAEKQGAVMTAETLEDLAVKAGLPSHELSQTIAD
+LPLGEVDEFGRKWTTPHLSEPFCAVKVTGALFHTQGGLEVDPLTAKVRRIPQGTFDNLYA
+AGGAACGVSGSGDSGYLSGNGLLAAVALGYIAGRG
+>tr|B7RQL3|B7RQL3_9RHOB
+MTGAAQGIGRAIGEALLDEGAKVCFADINGDKVAEVAETNRSRLNGQGGETTSIKVDVTD
+RDQVRAMIAHTVETFGRLDVKFNNAGVNKPMNFMDVTESNWNFIMGVNGLGCLIGMQEAA
+RQMIAQGGGGKIINTASVASRQGFDNVAPYCASKFAVVSLTQSGARDLAKHDITVTGFAP
+GVVATEMWEQVDKDLMQIGAAEQPGEAMEKFSAEILKGRVAKPVDITGTTTFLASKDSDY
+MTGQIVMIDGGMILV
+>tr|B7RJ66|B7RJ66_9RHOB
+MKLLKICLTALSLCLAGSAFSAELGDDGLHKTEWMRDTFKDLSDDLAEANAEGKRLMLII
+EQRGCIYCAKMHKEVFPLPQIDAYLKEHFFVVQINMFGDVEVTDFDGESLSEKDMVRKWG
+MLFTPTLVFLPQEVPEGQTAAEAAVATVPGAFEAGTIFNMLNWVVDKEYEGDESFQKYHA
+RKLAERDK
+>tr|B7RKW2|B7RKW2_9RHOB
+MSDILALAYPWTKSIHIMAVISWMAALFYLPRLLVHHTERVGLAGETHELFAMMEYKLSK
+VIMRPAMIATWIFGLCLVFTPGIVDWSMVWPWTKAAGVIAMTGFHEWLSARVKGFAAGQN
+SLTGRQYRMMNEVPTVLMILIVLSVVVKF
+>tr|B7RN10|B7RN10_9RHOB
+MPKRTDIKSIMIIGAGPIVIGQACEFDYSGAQACKALKEEGYRVILVNSNPATIMTDPGL
+ADATYIEPITPEIVAKIIEKERPDALLPTMGGQTGLNTSLALEEMGVLEKFGVEMIGAKR
+EAIEMAEDRQLFREAMDRLGIENPKATIVTAPKNSAGKKDLAAGVAMALEALEYVGLPAI
+IRPAFTMGGTGGGVAYNRDDYEFFCRSGMDASPVGQILIDESLLGWKEFEMEVVRDTADN
+AIIVCSIENIDPMGVHTGDSITVAPALTLTDKEYQIMRNHSIAVLREIGVETGGSNVQWA
+VNPADGRMVVIEMNPRVSRSSALASKATGFPIAKIAAKLAVGFTLDELDNDITGVTPASF
+EPTIDYVVTKIPKFAFEKFPGSEPYLTTAMKSVGEAMAIGRTIHESLQKALASMESGLTG
+FDEIEIPGAPDQAAVIKAISKQTPDRMRTIAQAMRHGMSDVDIHGVTMFDPWFLARIREI
+VDAEEGVRAAGLPTDEAAMRQLKMMGFTDARLATLTGQTEADVRDARLRIGVKAVFKRID
+TCAAEFEAQTPYMYSTYEAPAFGEVECEARPSDRKKVVILGGGPNRIGQGIEFDYCCCHA
+CYALTDAGYETIMVNCNPETVSTDYDTSDRLYFEPLTFEHVMEILRVEQENGTLHGVIVQ
+FGGQTPLKIAQALQDAGIPILGTTPDMIDLAEDRERFADLIQKLGLKQPHNGIAHSDAEA
+LEIAADIGFPLVIRPSYVLGGRAMEIVRDQASLERYIREAVVVSGKSPVLLDNYLSGAVE
+LDVDALCDGKNVHVAGIMQHIEEAGVHSGDSACSLPPYSLSREIIAEVEKQTKALALALN
+VVGLMNIQFAIKDGDIYLIEVNPRASRTVPFVAKATDSAIASIAARIMAGEPLSNFPLRA
+AYDADAAYDDVLPLGDPMTLADPNMPWFSVKEAVLPFARFPGVDTLLGPEMRSTGEVMGW
+DRDFPRAFLKAQMGAGNPLPREGCAFLSIKDMDKTDDMLTAARILLEQSFTIVATRGTAD
+WLTSHDIACKVVNKVYEGRPDITDMMKDEAIQLVMNTTEGAQAVEDSKSIRSIALYDKIP
+YFTTAAGSYAAALAIKAQAEGDVGVKALQG
+>tr|B7RNI6|B7RNI6_9RHOB
+MDPNSGDFKIALAVLINLGLTVAQIIGGIFAGSLSLIADALHNFSDAIALIIAYAARKIA
+RRPANANMTFGYGRIEAVAALINYTTLIVIGLYLIVEAVMRFADPSPVTGWIVIAVAGFA
+LLIDLATAALTYRDSKNSVNIRAAFLHNVADALGSVAVIIAGTLVLLFGWTWVDPLATLM
+IAGYILWQSATELPQVARILMLASPPHLETESIIAAMRAHPDVEDVHHVHLWMMQEHGSA
+LEAHVVVSEDVHHGGLRKSLKSLLVTQFDLHHITFELETASDGCTQSTLIGH
+>tr|B7RM75|B7RM75_9RHOB
+MESVEYHQALALLHWQIELGATEAICDAPVNRYEVPAAVEKPKPAKPGPGRVVPMAAGID
+PLAEATRFAAAAQTLEDLRAAMQAFEHCELKRGARNMVFSDGTPGARVMIVGEAPGRDED
+REGRPFVGAAGQLLDRMLAAIDMGRTHADAPVYITNVLPWRPPQNRDPKPDEIAMMKPFL
+IRHIELAKPEVLVIVGNWAAQALLGKRGITRLRGQWAQVQGLAALPMFHPAYLLRSPEFK
+REAWADLLELKARLARG
+>tr|B7RM51|B7RM51_9RHOB
+MRAMQVTAYDQPLTLQHLDVPVPRAGEVLVQVDTCGLNFGDLLVIKGTYQEKPALPVTLG
+MELAGTVTALGDGVTDLKVGQRIAAYSGFHGLAEYAAVPADICVPIPDRMTSVDAAAFLI
+AYGTSHVALDYKARLQPGERLLVLGASGGVGLTAVELGKLMGAEVIACARGQAKLEICRA
+AGADHLIDSDTDDIREIVKSLGGADVVYDPIGGDQFKAALRACNPEARLLPLGFASGEVP
+QIPANILLVKNLNVLGLFWGGYKKFKPSVLTDSFKTLIDWYVAGQLKPHVSHVLPLEQAN
+EALDLLRSRKATGKVVVQVAG
+>tr|B7RS44|B7RS44_9RHOB
+MTKKPQTSKDAADKVVKNIRRKTRQTYSAEEKIRIVLAGLRGEESISVLCRREGIAEGLY
+YSWSKEFLEAGKRRLSGDTARQATSPEVKDLRSEALALKECVADLTLENRLLKKSMTGAG
+EFEE
+>tr|B7RHN1|B7RHN1_9RHOB
+MTTIDSTPYAWPYDGNLRPDNTALIVIDMQTDFCGTGGYVDHMGYDLSLTQAPIEPIKAL
+LAAMRGKGYHIIHTREGHRPDLSDLPPNKRWRSQQIGAGIGDAGPCGKILIRGEAGWDII
+PELYPLDGEIIIDKPGKGSFCATDLELILRTKGITNLILTGITTDVCVSTTMREANDRGF
+ECVIVEDCCGATDTGNHAAAIKMVTMQGGVFGAVTDSQRLIAGLV
+>tr|B7RS05|B7RS05_9RHOB
+MDQQMDNAAQAGKTLLLTGASRGIGHATAKKFADKGWRVIGCSRQAFSPECPWPGGARDH
+VQVDLSDPNMTMEAVSRVKTLLGGSPLHALVNNAGVSPKAENGERLSTLDTDLRVWGEVF
+HVNFFASVVLARGLQHELSLGRGSVVNVTSIAGSRVHPFAGAAYATSKAALAALTREMAH
+DFGPLGVRVNAVAPGEVETDILSEGTDKIVAEVPMRRLGQPAEVANAIYFLCSDESSYVS
+GTEIEVNGGQHV
+>tr|B7RGX0|B7RGX0_9RHOB
+MKIAFQMDPIGAVNIDADSSFRLAEEAQARGHSLFYYTPDHLAFQEGRITARGHDLTVQR
+VQGDHATLGEEREVDLAEFDVVWLRQDPPFDMHYITSTHLLDRLRKTTLVVNDPFWVRNF
+PEKLLVLDFPDLTPPTTIARDFQTIKAFKAKHSDVILKPLYGNGGAGVFRLDENDRNLGS
+LYELFTGFSREPLIVQKFLPAVSKGDKRIILVDGEAVGAINRVPAEGETRSNMHVGGRPE
+KVGLTKRDLEICAAIGPLLKERGQIFVGIDVIGDYLTEINVTSPTGIQELERFDGTNIAA
+KIWEAIEARRA
+>tr|B7RNK3|B7RNK3_9RHOB
+MTPDAAAWDALRLSLWVAVWATVLVVPLALWVAWVLARREFWGKALLNAAVHLPLVLPPV
+VTGYLLLMAFGRTAPFGRALEAVGLQLAFHWSGAVLAAMIMGFPLMVRAMRLAIEAVDPK
+LEEAASSLGAPRWSVFARVTLPLILPGILAGTVMGFAKAMGEFGATITFVANIPGQTQTL
+PSAIWSALQIPGGESQAVIMVVMATAVAISAVLLSELLARRVAARIAGT
+>tr|B7RRG9|B7RRG9_9RHOB
+MTQAQEIRLGADIGGTFTDIALDVGGVMHSSKVLTNYKAPEQAILDGIAIVTEQAGIALS
+DIDIIIHGTTLATNALIERRGARTALVTTEGFRDVIEMRSENRFAQYDLNIQLPPPLIPR
+EDRFPVKGRIGAQGQELQPLDEAALEALADTLKAEGFAAVAIGFIHSYLNGTHEERAREI
+LAAKLDVPISISSEVSPQMREFERFNTVCANAYVRPQMESYLARLQTRVKEMGATCPVFM
+IHSGGGLISVETASAFPVRLIESGPAGGAIFAADVAQRFGLENVVSFDMGGTTAKICLIE
+DFQPQTARTFEVARTYRFAKGSGMPISIPVIEMIEIGAGGGSIAWVDAMGRIQTGPESAG
+SEPGPACYGRGGARPAITDADLVLGKIDPDNFAGGKIKLSVDAARAAIGREVGDKLQIDP
+QAAAFGIAEVVDENMANAARVHAVENGKNIGDNVMIAFGGAAPLHAARLCEKLSIDMCLI
+PQGAGVGSAIGFLKAPFGYEALASQIARLSEFDPDATNAMLAGLKTTAESFVRAGTAGEI
+VREITAFMRYAGQGWEIPVTMPDRAFTADDKAMIEETFRARYAQFFGRAVEGPEIEFVTW
+SVKAHDIRPAPAPVTLTDDGAVAGAALTRAVFDPATGAELTTTIVERDSLQSGARVTGPA
+VIVESETSTVVTSPFDAVIQPDGTILLIRKGH
+>tr|B7RQX3|B7RQX3_9RHOB
+MNHPSDEEIGAYIGAAGKAAWEVPDLPADTKLREIKSVGIIGAGTMGGGIAMNFATAGIP
+VTIVETTQEALDRGLKVVRGNYQRSSDKGRFPQDEVEARMDRFNGQLEIAALADCDLVIE
+AVFENMELKRKIFTELDRVMKPGAILATNTSALNIDEIAAMTKRPEDVIGLHFFSPANVM
+KLLEIVRAKHTADDVVATSMDLAQKINKIAVLVGVCPGFVGNRILFARQKQANKLLQQGL
+MPWDVDAALNAFGFKMGPFQMSDLAGLDIGWSKGAKTENPIRDALCEMDRRGQKTKAGFY
+DYDEARRPIPSDVVAGVIKDITGAEASTMSPDEIIETCIYPMINEAVKILEENKAQRPSD
+IDVVWLNGYGWPADKGGPMFYGDMVGAQAVLDVMERLGTEDPEFAPAQLLRDLAKNGGKF
+TEIDTGGLKT
+>tr|B7RS84|B7RS84_9RHOB
+MKQFDYSRATSTSDATRAASVHGSAIIAGGTNLIDLMKLEVMSPDVLVDINRLDLHQITP
+TQDGGLRIGALVTNSDLAAHETVRRDYEVLSRALLAGASGQLRNKATTGGNLLQRTRCAY
+FYDTAMPCNKREPGSGCHARDGFNRILAILGTSEHCIATHPSDMAVAMMALDAVVEVENT
+TGDTRKIALDDLYCLPGSTPDVETVLQRGDLITAVLLPQPKAGLHVYRKVRDRSSYAFAL
+VSVAAVAQMDAGKIAQISLAFGGLAPKPWRNQQVEAALTGQAPSEALFDQAADILLAEAQ
+GFGANDFKIPLSRRTLKAVLRTVTETSQ
+>tr|B7RN25|B7RN25_9RHOB
+MRFTRIIAIAVIMGSLGTGAAQAQSFDRQPSEFPPASYKGKQYVDSKGCVFIRAGIDGNV
+TWVPRVSRKREGVCGFKPTNVGTAVTTAPSTAVAAPMQITLNSTPAQTAPVAKVAPRPVP
+KVPAAPVVVRQTAPKSVRQTAPVVVAAPKAVPAPAAPVQSAAVCAGRSALSQRYSGSPTA
+KLAVRCGPQAEKILPSRAPVASATRTAAPGYGTKTVTAAPSAAAIGPHTRIAPLHVAQAR
+VHTNGNVSVPKGYKSVWTDDRLNERRAEQTLAGRSQMLLIWTNTVPRRLINPADGRDMTA
+QVPLVYPYTTIAQQERELGQVTFATRDGQLVKKIVRNRKAALVTRQPIYSTRSAPKTTRA
+APAKVQATDSTYVQVGVFASSANAQKTAHRIAKMGMGARIGKSTRGGKTYLSVQAGPFGA
+ARAPAALGKLRGVGFKDAYIR
+>tr|B7RMN6|B7RMN6_9RHOB
+MSDFSNALDVSSSGLRAQANRLRHLSENISNADTPGYRRKLVSFQTAFSLGDAPAKVQTG
+KVHLDQTALEKVYDPAHPLADDTGQYDGSNVNLLIELADAKEAQRSYEANLKMFEQTRKM
+SSGLMDLLRR
+>tr|B7RS20|B7RS20_9RHOB
+MTKNKKITLWIIAALQFNATLFFVAGVAITLFDLRLGVLTPEFFENQFIPQAIGLVLGVV
+MGWVAIRMSIRRADRAEEKLRHISTDFSDLLNEYFDKWHLTVAERDVAVFMIKGMRAKSI
+ARLRGTSDGTIKAQTNAIYRKAGVTGHTELLSLFIDDLMGETTVSSDKIAA
+>tr|B7RIG1|B7RIG1_9RHOB
+MGSATTQLRILATTDLHMNVLGYDYAFDTPGQRAGLSGLAPLIAKARADVAQGLCVLVDN
+GDFLQGNPLADWLSTQDVTPDHPLVASFNGLAYDAIGLGNHDLDYRTTYLEQFIAAVDAP
+VISTNLSDSGISGLHPSVLLTRQIETTDGPLPLRIGIVSALPDETAVWNKAMLPETAIVA
+DPLASLPAHVARLRQAGADVVLALAHLGLGHAGAPDSSADAGALALAEIPGIDAIVAGHT
+HRRFPDGTASENGYPSNVPVVMPGLRGSDLGVIDLDLARTPDGHWVVTKHGAQLWPQPVS
+AAPDPVIYARASQAHTAARADLAAPIGNPVDHLHSYFALLQPAKTMALSARAKAILIREA
+LQGSPHADLPLLAAAAARAVGGAGGVRNYIDVPKGFMMRRHLAGFAPFENRTCALLLTGA
+QLRLWLERSAHVYSHLGANIPRQNLLNPAEPSFIFDAIYGLTYTIDPAQPQGQRISQMAH
+AGAAVSPDQQFVLATNTFRAAGGGRYDTIDLPPPIAQSHATPTESLIRALKSDEFDAWTT
+QAPWQLKRHGLTAIYETSPKAAAYLDEIAALKPRILGQTDNGFDRIEITL
+>tr|B7RQJ5|B7RQJ5_9RHOB
+MNLKDKVCIITGGASGIGLGIAKRYVADGAKVVIADLKLDAAQKTADDLTATGPGEAMAV
+EMNVTDEKQVNDGVAKVIENWGQIDVLVSNAGVQIVHPLEDFPFDEWKKLLSIHLDGAFL
+TSKAVMPHMQKAGSGSIIFLGSVHSKEASALKSAYVTAKHGLLGLARVISKEGAKHGIRA
+NVICPGFVKTPLVEKQIPEQARDLGISEEEVINKVMLGETVDQEFTTIEDVAEVAHVFAA
+FPTNALTGQSLVVSHGWYMN
+>tr|B7RJV2|B7RJV2_9RHOB
+MTASLDAIFAALADPTRRAILAMLLEDDMAVTDVADPFDMSLAAISKHLGVLERAGLIAQ
+EKRGRLKWCKLEPRALKTPSVWMQGFGQFEPVNLDDFERFLAAEIPMVPSDAAEEGAEEK
+M
+>tr|B7RFQ0|B7RFQ0_9RHOB
+MRDLKIPEQRHPEKAKRPDNPQPKKPSWIRVKAPGGQGYAETARIMRDNKLVTVCEEAGC
+PNVGECWSQGHATMMIMGEVCTRACTFCNIATGKPPEDLDVFEPGRVADAVAKLGLNHVV
+ITSVDRDDIADGGAEHFAQTIRAIRKRSPDTTIEILTPDFIRCDPSVLEIVVEARPDVFN
+HNLETVPGLYPEVRPGARYFHSLRLLQRVKELDPSMFTKSGIMVGLGEDRQSVIQVMEDM
+RAADIDFLTIGQYLQPTPKHHRVDRFVHPDEFASYEKAAFGKGFLMVSATPLTRSSYHAG
+DDFARLRAARNAKLAKG
+>tr|B7RFS4|B7RFS4_9RHOB
+MSGRPEPLFPLFAGLETLEGVGPKTAQHFAQLGIQAPRDLLFTLPYSGIDRRLQASLKDS
+VLPATVTVAVTVGPHRAPANKGGAYRIHVEDSGTAFQLVFFHARGDYWKRQLPEGSRRIV
+SGRVELFDRMAQMVHPDFAVAEEDADQIPTFEPVYPLTSGITQKLMYKATRATLARVPPF
+DEWIDPSQKSQSGWPDFATAVAAAHDPENQSDLSAAAPSRERLAYDELMAHQLTLALARA
+RDRRKKGRASVGDGRLQGRVLAALPYKPTGAQTRAISEIAHDMASAQRMNRLLQGDVGAG
+KTLVAFMALLAAVEAGGQGVLMAPTEILARQHLEGLKPLAEQAGVVLEILTGRDKGAERR
+SKLAALEKGDIQILVGTHAVFQADVSFGDLRLAVVDEQHRFGVRQRLELGQKGKLADVLV
+MTATPIPRSLALAQYGDMDVSVLDEKPPGRKPIRTALVSTDRIDEVIGRLRAAIDEGRQC
+YWVCPLVEESEVSDLIAADARFKRLRAVLGEGIVGLVHGQMPPAEKDAAMRAFQRGETKV
+LVATTVIEVGVDVPNASIMVIERAESFGLAQLHQLRGRVGRGQAASTCLLMYQAPLTETG
+RQRLEVLRETEDGFVIAETDLKMRGTGDLIGTAQSGVPRFRVADLERQAGLMQIAQSDAR
+KLLADDPELVSPRGKAARMLLWLMRQDEAIRLISVG
+>tr|B7RHM0|B7RHM0_9RHOB
+MDKANMETTRNIAVVGAGPMAVYTVKGLLTGDLPVDLTVFDATDQVGCGMPYRAGMNADY
+MYCNAFSREIPSVTRPLVSWLHDQDDGFLDAWDLGRADIDARDFYPRVLLGEYLKSEFSD
+LCDAGRKAGHTIRVLPGHRVVDVMPTGGGVALEVSTPDGKSVFAFDDVVLATGHDWPSSP
+KLGKADLVSPWPYTNITDQPAGDIGVLGSSLSAIDVVVALGQEHGTFTEENDKVSWFADT
+GREALSITMVSHKGIIPEPDFYYPFPYERLTHLHSDAVAAEVEKGPEALLTRVFGLLLAE
+LNEVAPEYMAELGPDAQTIDGFSAAYFEHRETVGGLRALRETLGAAIKSKELKETQPERY
+ALLRGHENFEMILEHMNDADWKTFNEKLMPVFGDCYAAIPHISVRRVLALYDAGVLQIIP
+TGSESSLRNNAAGGVTVSTVDGDIEFAALIDARGQASADISDLPFPTLVDALADPAADLS
+APFRLDLSGAVQGSVYCLAMPQILTRHPFSQGLANCDELGRVVSKEILSSI
+>tr|B7RHU0|B7RHU0_9RHOB
+MAFFDGRTISTHMFADFLKRLIQPEPAQLPDADARLALTALLVRIAKSDNDYAPAEKVRI
+DQITGKRYGLDAQAAAALRTDAEELETQAPDTVRFTRAIKDAVPYEARLGVIEALWEVVL
+ADGTRADEENALLRLVANLLGVTDTDSAMARKRVESQG
+>tr|B7RIJ6|B7RIJ6_9RHOB
+MPKDTGIGASPLRREDVRFLKGAGEYTDDIKTYGETVAVFARSTVANGIIKSIDTSVAEG
+MPGVLAVFTGADFVEVGGNPAGWLINSRDGEPMKEPKRPVLAHGKVRHVGDAYAAVIAET
+DRQARDAAEAIEIDIEELPAIIDVKEALKGDNFVHDEIGTNQCFDWGWIEDNRAATDEAI
+KNAHHVTTLELVNNRLIPNAMEPRCSMASYKASGDEYVLHTTSQNPHLTRLLISAFVMGI
+PENKLTVIAPDVGGGFGSKIYHYGEEALVLAAAKRVGRPVKWTSDRTEAFLTDAHGRDHV
+TKIELATDAEGNFQAFRTETYANVGAYLSNFATATPTFLHGTLMAGNYTVPLVYVNVKAV
+FTNTAPVDAYRGAGRPEASYSLERVIDKCARELGMDPIALRRKNFIKPEQYPFASAAGLE
+YDSGNYDALMDKMEEVADVKGFAARRAQSEANGMLRGFGVNAYVEACGIAPSNLVGVLGS
+RVGLYDAATVRVNATGNLSVMVGAHSHGQGHETVFPQVVAEMLGIDAASIDIVHGDTSKI
+PFGMGTYGSRSLAVCGSAVVRATEKIINKAKKIAAHMLEAAEGDIELKDGQFSVAGTDKS
+VSFGEVALKAYIPHDFPLEDIEPGLEETAFYDPANFTFPSGAYCCEVEVDPDTGKVRVDR
+FAAVDDFGNVINPMVVTGQVHGGLGQGIGQALLEAARYNSDGQLESASYMDYAMPRADDL
+PFYTVDHSQGTPCTHNPLGVKGCGEAGAIGSPPTIVNAVIDALQSSGKNVTHIDMPLTPH
+RVWSAMKNA
+>tr|B7RL21|B7RL21_9RHOB
+MGKTPASRQIIHATTVAVDRRGLVILGGSGSGKSSLALQLIALGAILVADDRTEVSTVAN
+RLHANVPDTIKGRIEARGVGLLTLPFVSDIPIYLSVDLDHDEKERLPFAHEAMLLGQGVP
+CLHRCDGPHFPAALLLYLRTMKPQRDE
+>tr|B7RL79|B7RL79_9RHOB
+MAKKSMIEREKKREALVKKFAAKRAALKAIVSDQEKPMEERFRASLALAKLPRNSSAVRL
+HNRCQLTGRPHAYYRKLKISRIALRDLGSSGQIPGMVKSSW
+>tr|B7RN59|B7RN59_9RHOB
+MIAPRRFLPSINALLAFEAVARLGSATQAAQELSLTQSAISRQLKTLEEQLNVPLLDRQG
+RQLILTDAGASYVLQVRDVLNRLAQASISARTNPMAGALNLAILPGFGMHWLAPRLRDFA
+QAHPEVTVNLSTRLHPFAFQNTAFDAAIHFGKEDWPGVGYLHLMPETVVPVCAPELLDAP
+LEDARAILSYPLLHLDTRPRGWARWLAALGVTEEPPSGMMFDQFSTMAQAAVHGLGVALL
+PTFSADPYLRDGQLVLASTQTTQSIGNYYLVWPEERAETAALRSFKSWLAGQADRIL
+>tr|B7RRV0|B7RRV0_9RHOB
+MYVTIPNEHGTPCAFTPLVSTLPQTAETRLKTGAYLYYEGDEVEWLYQVNSGVLRLTRLL
+SDGRRQVIAFGYPGDIVGFPSANIHHTDCEALTDVRLQPFRRSALESGEGDPQLHTALLQ
+AALREISGMQDHFMMLGRKSASEKLASFLCVLAERVGIDLGAYRSVTLPMSRSDIADFLG
+LTTETVSRTFTQLRKSKIIAIDNIYTIIIQRPTALLELSMGDCD
+>tr|B7RPV2|B7RPV2_9RHOB
+MVEKAGTRADAAHPGAAYLAQVKAKRLMNFIMLVVFLALLGAGFHTADSRNAGGFWDGIG
+NVWDFPSAMFGEAIARAAMMPGYLVKYLPSLIETINIAAASTLLGAVLGLVLSLLVTRGL
+APVPLLVGPLRRVLDILRAVPEIVIALVLIFMLGGGPVPAMIAIALHTVGALGKLFSEVN
+ENASLKPVEGLASVGATWTQRMWLGVIPQVAPNYLSYALLRFEINIRASAILGFVGAGGI
+GYDLRNTMSWGVGKYDEAAAIFILLFLTIVLVDQLSSILRNHLTNGMSSAEVKL
+>tr|B7RR11|B7RR11_9RHOB
+MSDPDKPTPEDTPGAIGETFRQMRQNQGISLRELSEKSGVSVGTISQIERDLANPSMRVL
+TAIRRALNVPMQVMFGDDSGTTADSDADGDPPFLRRAAKRPRIDLGSLHKELLTSGGNHN
+LQIMILTIEPGGTSGNTTLSYPAEKGGLVLEGELMLSVDNREAHLEEGDSFVFDSAQPHA
+FRNDGDRPARILWVIGAVQFDRHL
+>tr|B7RHA7|B7RHA7_9RHOB
+MNYFKLVILALVALVAAMGVNWAHDLAYQVHAFLIMTVAAGMFVWILRGIDEPVATTAPA
+TGYADEVIRAGVIATAFWGIAGFLVGTFIAFQLAFPELNFDWGQPFTNFGRLRPLHTSAV
+IFAFGGNALICTSFYVVQRTSSVRLFGGNLSWFVFWGYQLFIVLAATGYLLGATQSKEYA
+EPEWYVDIWLTIVWVAYLVVFLGTIFKRRERHIYVANWFYLSFIITVAMLHIVNNLSIPV
+SFWGSKSVQVFSGVQDAMTQWWYGHNAVGFFLTAGFLGMMYYFVPKQANRPVYSYKLSII
+HFWSLIFLYIWAGPHHLHYTALPDWAATLGMVFSIVLWMPSWGGMINGLMTLQGAWDKLR
+TDPVLRMFVISLGFYGMSTFEGPMMSIRAVNSLSHYTDWTIGHVHSGALGWNGMITFGAL
+YFLTPKLWGREKMHSMSAISWHFWLATIGIVLYAASMWVTGIMEGLMWREVDDQGFLVNS
+FADTVAAKFPMYVVRGIGGVLYLSGALIMVWNMWMTIRGAKPVTTALPSNATPAE
+>tr|B7RKV4|B7RKV4_9RHOB
+MWAGLMVPPASADVTYTVMDFSDLKGWETDDHAAALQTFRNTCGDMRDVDWGNLCKFAQS
+DPDPRQFFELFFRPVLIDDGQDALFTGYFEPELDGDLSPSPRYRYPIYAMPPEAKESNPW
+LTRRDILGTDVMKGRGLEIAYVDDPVELFFLQIQGSGRIRLPDGNFLRVGYRGANGHPYR
+SIGVELVRRGVYEAHQVSADVIKNWVRRNPDEGRELLFHNPSYVFFREVSQVPADQGPLG
+AMNRSVTTKRTIAVDPDFVRLGSPVWIEKEGAKPLNRLMIAQDTGSAIKGAQRADVFFGT
+GDKAGREAGKLRDPGRMLVLMPIQRAYALLPESLL
+>tr|B7RPC9|B7RPC9_9RHOB
+MPGQSDLKPRITVFGVGGAGGNAVNNMIEKNLDGVEFVVANTDAQALQQAKAESRIQLGM
+KVTEGLGAGARATVGAAAAEESIEQIVDHLAGAHMCFITAGMGGGTGTGAAPIIAQAARE
+LGVLTVGVVTKPFQFEGNKRMRQAEDGVEALQKVVDTLIIIPNQNLFRLANEKTTFTEAF
+SMADDVLYQGVKGVTDLMVRPGLINLDFADVRAVMDEMGKAMMGTGEAEGEDRAIQAAEK
+AIANPLLDEISLRGAKGVLINITGGHDLTLFELDEAANRIREEVDPDANIIVGSTLDTEM
+GGMMRVSVVATGIDAVDVNTEMPVPRRSMSQPLPQKTVAPAPAAAEQAPAPVAAQVEYEE
+DQPQLFEDAASADQGGYSDDVFEDIAAEADDLPPPAYRPEVTSFEPRREVYEEETAQEAF
+VAPRAPAPGTPSPEALARLRAAAQKASPQAQQRTQPQAQQRPQPAAPEQGEKRFGINSLI
+NRMTGHAEAEAPQRPVRQQPPVQTRASSAAPQPRDMQDEDQERIEIPAFLRRQAN
+>tr|B7RKB0|B7RKB0_9RHOB
+MAGSVNQQQAVIYCRVSSRAQEEDGHGLQSQETRCREFAQSKGFNVAAVFPDTISGGGDF
+MKRPGMVALLSFLDAQPDTRFVVIFDDLKRFARDTRFHLDLREAFRARRASIECLNFKFD
+ETPEGEFIETIMAAQGALERKQNGRQVAQKMKARMQSGYWVHNAPVGYRYMTVKGHGKLL
+VPDEPHASVVREALEGFAAGRFQTQTEVKRFLETKPDYPHNLQGEVRDKRVSDLLRQPLY
+AGYVCSKVYGLSWLKGQHAPLISMATFDKVQERLKITGYAPERKNTGVDFALRGFATCGD
+CNASLRSSWSKGKYKSYPYYACHTKGCDSYGKSIPRDKLEDAFGEVVRTLEPSPKLFALT
+KAMFRQAWDARLAQAKDAKRSTQRQIVNIEKQIETLLGRIMNATSDPVIVAYESKLDQLE
+KDKARMRENLSKSEPKAGMLEEMIELSLKFLSSPWKIWESGDIALRRTLLRLAFTEGFAY
+HRNGAHRTPQKALPFKALGMFSGGQMINGAEGED
+>tr|B7RPI4|B7RPI4_9RHOB
+MKTVVFDLDGTLADTSGDLIAAANACFRDMGAGDLLEAGRDAGTALKGGRAMLRLGMERL
+GRADDVATIDRYYPVLLKAYAQDIDTHTVLYPGAMDAVEALKVAGYRVAICTNKPEGLAD
+TLLTRLGVRDAFGAMLGADSLAVKKPDPEHLYETARRAGGDPAQCCLVGDTNTDRKTAAA
+ANVPCILVTFGPSGEDMAALNPDALLEDYAHLPALVPTLIGAM
+>tr|B7RS72|B7RS72_9RHOB
+MKTLIGQAYHLYLDPKNWSNMELFPPLGSLYAAAVLREAGHEVHFSDSMIAESTDVWAAA
+LDAERPQLAVMYEDNFNYLTKMCLLNMRDAAQVMIAAAKKTGALVIVAGSDASDVPETYL
+DFGADVVINGEGEITLEQLVAALEQGGLQNIQHIEGITFFGSDGAVIKTPKRRSLRDIDS
+LPMPAWDLIDLSRYREKWKAHHGRFELNIATSRGCPFHCNWCAKPIWGRAYNARSPEKIA
+DEFAILAKQGNPDRIWVMDDIFAMKPGWARSFANALKDRNVQLPFKCLSRADLLLRKGEV
+EALADAGCQELWIGAESGSQKILDAMEKGTSLQQIDDATRLLKQHGIRVGFFLQYGYPGE
+TWADIKQTFGLLRRNLPDVIGISVSYPLPGTPFHDRVLDQLGSKKNWQHADDLDLMYRGP
+FKTSFYRVLHRFTHRLARYQRGTATPIQRDTAGKSNH
+>tr|B7RLI0|B7RLI0_9RHOB
+MGAPMLAALRAAGLPARGYDVVPMDAGHITDDIAVFSEDLTTLITVVRDIDQTDAVLFGD
+QNFSAIPSLRRIIICSTLSPRYVRDLRARVPAHITLIDAPMSGAQIAAEQARLSFMLGGD
+TEDIAAAQPLFNAMGKHFHHMGDFGAGMQAKVLNNLLAASNTAMTRLVLDWADAAGLDEA
+KLLNLIHTSSGQNWLASGFNDIEFARDGFAPDNTIAILVKDVASALDAAPTDADTTLPAL
+IQNMIKTLKPRP
+>tr|B7RGL1|B7RGL1_9RHOB
+MSDLDGRIALVTGSATGLGRSIAVKLAERGADVIINYSRSATEAEEAADLCRTAGSQVEV
+VKANVADPEGCQALAQAAQRRGRLDILVNNAGITRHARDHSDLDALTKADFMDTYEVNVV
+GPYLMLQATKTLLEAAYQTTGRSSTVLNTSSIAGIKGIGSSVAYAASKGALNTMTLSLAR
+ALAPAIRVNALCPGFIGTRWFRDTMDEDAFAKTVERIETATPLGVASGPDDIADAALFFL
+SDASRHVTGELLLVDAGLHLA
+>tr|B7RNZ0|B7RNZ0_9RHOB
+MASLTIDFFHDVVCCWCFNISSRMRDLAAEFDLDVRHRTFVLQASRDEMAARWGGPEQAR
+DTILGHWSVCRQVSDRPDLVNIDAMRAAPFDYPHGMTAALACKVAELAGGQSAHWDMFDR
+LQRAHLTEARNIADPETILQVARDLGFEAAAFAEAFDQPAAARAVEADRHYARTRQVRLI
+PALIVRETGTRLVNGPREDLAAQLRAALRIIA
+>tr|B7RRA6|B7RRA6_9RHOB
+MHKFNTDMETQSTGNVGYRHRITPKHSGYDCASVSRLPARSFDVEIHDAFGPDPVTVLQC
+FIALGLSDGEIARYVGLPEARVNSIARPLRAPDIGKYLE
+>tr|B7RQV4|B7RQV4_9RHOB
+MIVDIQTLFGLEGKTALVTGGATGIGRMAAEALVRAGATVLIASRKGDACEAVAKELNAM
+GASGKAIGFAGDVGTEPGVDAMVEAVKAHTDRLDILMNNAGITWGAPLGDFPFKAWEKVM
+AVNVAGLFDLTQKLLPMLKKHATIEDPARVVNVGSVMGEREMGDGAYSYSASKAAVIHLS
+KILAKELAGDAITVNALAPGPFVSRMTAFATHDEGMRSKVGQDVPLRRVGTDTDIAGCML
+FLCGTGGSYVTGAVIPVSGGINVMSGPNIFEQALH
+>tr|B7RG27|B7RG27_9RHOB
+MLSGSPADKSQGLIAAGSRLWQRLRGDKIMTSEILQIPEGNEMFEGYRAAFEKYGFSPAV
+KSKGFLFISGQIGARPDGTAPEDVAGQTEWALKRIEELLRIAGLDFTDLVDVVSYHVDIE
+NTLAEFMDVKQRFIKSPFPAWSIIGTSGLSRPELKVEIRAVAALRD
+>tr|B7RQP7|B7RQP7_9RHOB
+MKFLDLCKVYIRSGAGGGGCVSFRREKYIEYGGPDGGDGGSGGSVWAEAVDGLNTLIDFR
+YQQHFFARNGQPGMGKQRTGKDGDDIVLRVPVGTELLDEDQETVIADMTELGQRVELARG
+GNGGWGNLHFKSATNQAPRRANPGQEGVERTLWLRLKLIADVGLLGLPNAGKSTFLAATS
+NARPKIADYPFTTLHPNLGVVGVDNTEFVVADIPGLIEGASEGRGLGDLFLGHVERCAVL
+LHLVDGTSQTIAEDYQTIITELEKYGGDLADKPRVTVLNKIDALDEEEREIARTELEEAC
+GGEVMMMSGVAREGVTDVLRALRGQIDDDRLRFRTVEEEAPWQP
+>tr|B7RR07|B7RR07_9RHOB
+MQLDLRDKVFAVTGAAQGIGAAIVQGLVEAGATVAALDIDAKRMEHLAALPRVTCHSGDL
+GSQDDAHALCKDVIAQHGKIDGLVTAAGGVRGQVGRAIEEISSDDWHAIFAANVDAAMWC
+AQAFAPDMKKRGHGRIVTISSGAGLKASLTGIQAYASAKHALIGLTKQLALELGPAGITV
+NSVAPGFILSNPATERQWDAFGPVRQKEIIGNIHMRRLGRAQDIADAVTFLCSEKAGWIT
+GQTLQVDGGHA
+>tr|B7RJM9|B7RJM9_9RHOB
+MSTVIDLSRALGWLPSGQFITSPRAKPKALTQWHTPDYIAALNRVETNQHATDEDLRRHD
+IGSVTNPVFPEIFRRPATAVGGSILAGELLRDGGVIYNPAGGTHHGMPDRANGFCYLNDP
+VLAMKSLRHHGVRRIAYIDIDAHHPDGVEVGFGGDPDCLMISIHEDRLWPRTGPIENDAG
+GNAFNLPVPRGLNDTEMAHIRDHLILPRVQAFRPDAIVLLCGADAVEEDPLSHLSLSNNA
+HWAVLRGLMGMAPRLLVLGGGGYNPWSVGRLWTGVWGILNGQDLPDRLPAPAQAVLRGLR
+FDGNRRGKNPPDHWFTTLRDAPREGDVCDEVRQMVRLLAARDWG
+>tr|B7RPN5|B7RPN5_9RHOB
+MIHTAALRTFRLTVLAGGSAVLLAACDTPLDLDMRGGFGDGFSTADAATSALANRPLPDN
+RGVISYPNYQVAVARRGDTLTDVANRVGTDVASLARYNGIDPTVPLRKDEIIALPTRVAE
+PSPATGASGTGPITTAAVDIQSMAGNAINRAPQTPGVQTSALPSAQTATRPNPQKQTGRE
+PIRHRVERGETAFTIARLYSVPVATLAEWNGLGADFSIREGQYLLIPVPQQAAPARTAPV
+PQTATLPGAGSPTPTPPSAAKPLPPVDTTPAPAKTAATPVPAKPVADVGKTTKPTSNGRM
+TPPVQGSIIRAYSKGKNEGINIKGTPGAAVKAADSGTVAAITKSADGIPIVVIRHPDNLL
+TVYANVSNVSVAKGDSVAKGASIAKLRGGDDSFVHFEVRNGFDSVDPTPYLN
+>tr|B7RS07|B7RS07_9RHOB
+MPLGDTAVTARKTKMHERRIPEWLRHAPAPSVQGFALLAGAEAVARGMLISVFPLAMYLA
+LKDAAVVSAIYFAIGLASLAAGLMVPFVSRYISRRWVYVCGASMFVTGSLLATLGTPGTI
+VTGLLLTTIATVTTFVCFNAYVLDYIAKIELGRCETSRMFYSALGWTAGPVAGVVLYKWW
+PPAPFLVAALATTVMIAIFLVMRLGNGRLITKSRATPTNPLAFLPRFAAQPRLVAGWLFA
+VIRSCGWWVYVVYLPIFAIESGLGDQVGGIALSTSNAALFVTPLMLRWMQRRSIRHAVRT
+GFIASGLLFGLAAVVSGLPWVSVLGLMVASFFLILLDVSAGLPFLLAVKPSERTEMSAVY
+ASYRDVSGIATPGVAWVVLLMFPLAGVFAAASAGLLGAWLLSNGLHARLGQSGSGRYAPP
+APPARPVLAPAAP
+>tr|B7RL20|B7RL20_9RHOB
+MAIAERNFVRDMATPMRDGDVVLGDDWVAPDKAATDELRVKRSRRGLFSLRASPLTRKII
+TFNLIALNVLVAGILYLNSSRDSLAVQRGASLVSEAELIAGVFEAQLPSSAVTNLSDNAE
+VDVVASLDRLDLRSGIEVFVFDPNDSLLARSEGRMPKIASNPDRSDKTLLSDGLSWLWAT
+LSSPFGQDTTAEVVPIENQLKPLVADALANGTQIRDNLDAQGGTLFTVTTPILQNGVAVG
+VVAATSAAGEIDKLVRGERERVLQMFVIATLVSIGLSLVLASTIANPLADLAAAAELGRD
+KDARKMNPGRIRIPDLTARPDEIGRLSGALRGMVSALYNRIDGNEQFAADVAHEIKNPLA
+SLRSAVGTLRLIKRDDQREKLLDVIDHDVRRLDRLVSDISNASRLDSELVKEEEEPFDLL
+TMIGNLGQYLGEDARKQGIDFITDLPETPIIVHGLEARLAQVFVNLITNAVSFCEDGDAI
+RVWARQRENRVLVVVEDTGPGIPDQALSKIFKRFYSQRPDEHFGNNSGLGLAISKQIVEA
+HGGVIWAENIRPTEADITSEPLGARFVVGLPA
+>tr|B7RKU2|B7RKU2_9RHOB
+MISYIDVLPVVFATLISGSLAYLWLRVPALEQTPDQSSATDICYLFDNGVLQHATEAADG
+FLALEPGFHEWSDLYAKVIDRFADFPLTPQTFGSGNVTLAANDGNAPRQVNIAWNSGLCR
+VRLLTEVQESKVPETDEQALIHRLTTSLDFPIWHTDKDGKLLWSNEAHQQLHAATDPTAS
+QGDQPLFATEPALPSGRVFLRNVESGKKDWFELSQTEQDGVICHQAICINALVQAEETQR
+KFVQTLTKTFAQLSIGLAIFDRNSQLVLFNPALIDLTGLRAEFLSARPTVQTFFDKLRET
+RKMPEPKSYSNWRTAITEMIRAAHDGRYEETWSLDSGQTFNVKGRPHPDGATAFLIEDIS
+AEVSLTRNFRAELELGQSMLDTLDDGIAVFSASGILTFSNSAYQDLWQVDHETSFADVTV
+HDAIQDWKRKCAPHLMWKEIEDFIRDFGDRRTWHMPMYLANGTQLNCIISPIVAGATLIR
+FDIVKNAVAQSDQINAIGVKLDQ
+>tr|B7RRU9|B7RRU9_9RHOB
+MGNAKEDSAVLQAILEAAVDAIIVSDQDGTILRANPAAARLFRYDVAEMVGKSVNMLMPR
+AMADIHDGFMSHHLETGEKRIIGIGRDVEGKRKDCSVFPLHLSVGHSKIAGKRIFIGILH
+DLTHRKATEDALARSRRLDAIGQMTGGIAHDFNNLLTVIVGNLELLEMRGANPQQLALIR
+DALESAELGADLTSRLMIFARKSHLKPERSDLRQVCSDTLALLERTVGATFDIKIDFAEN
+LDTVMIDPVQLKSAVMNLALNARDAMGTSGELLVSLQNVTIDDTFMAEETDMEAGDYVRL
+SVSDNGAGMSLEAQRRAFEPFFTTKSDSGGTGLGLAMVYGFVRQSGGHVRLYSELGLGTS
+FGLYFPALAQAGGYQAGDARSNAVVPPARGNGETILVVEDNPKVRKLSIERVRDLGFLAL
+EAQSGDQAYQILKDGAHVDLVFSDLVMPGTLNGYDLAAKISLEFPQLKVLLTSGYASDVI
+KTSLARERPYDVLHKPYRQSELAQKLKVLFSDCSAA
+>tr|B7RP12|B7RP12_9RHOB
+MTYSDTLLKDVLTRAKRIAVVGVSLNPVRPSYFVARYLKLKGFDVIPVNPGHAGEMLFGA
+RVVAGLGDIEGRVDMVDIFRRSDAVPPIVEEALDAFPDLQTIWMQIGVEHADAAAKAEAR
+GVTVVQNRCPKIEYQRLFGELRMGGFATGIISSKL
+>tr|B7RQB3|B7RQB3_9RHOB
+MMTNSKNGITYADAGVDIDAGNALVERIKPAAKRTKRPGVMSGLGGFGALFDLKGAGYTD
+PILVAATDGVGTKLRIAIDTGNVDGVGVDLVAMCVNDLVCQGAEPLFFLDYFATGKLETE
+EAARIIEGIARGCEGSGCALIGGETAEMPGMYSDGDFDLAGFSVGAMERGMDLPSGVVAG
+DVLLGLASDGVHSNGYSLVRKLVAMSGLGWEANCPWADGTLGEVLLTPTRLYVKPALQAI
+RAGGVHALAHITGGGLTENLPRVLPEDLGAEINLDAWDMPGVFKWMADIGSMAEPEMLKT
+FNCGVGMILVVSADQAESLKSLLGDAGETVYEMGRVTAGAGIDYSGQLL
+>tr|B7RMM0|B7RMM0_9RHOB
+MDKTLLSIGHGYSARALAARLIPQGWRILGTTRSADNADEIAATGVEPVVWPGADLGALI
+AEVPNILVSAGPGPDGDPVLNAVADDIARAAPNLSWLGYLSTTGVYGDHGGDWVDETTPL
+TPSTKRGHARVAAEARWQAIPDLPLHIFRLAGIYGPGRGPFAKVRAGTARRIIKDGQVFS
+RIHVADIAQALDLSLHHPDPGAIYNLCDDDPAPPEDVIAHAAELLGLPVSPAIAIEDADM
+TPMARSFYAESKKVRNDRIKQALGWQPSFPTYRVGLAAMVASES
+>tr|B7RQY8|B7RQY8_9RHOB
+MPDVIIRKMVTSIEEIFHEGGPRANTPLKRGYVMAVIENPYAGSYVEDIQPFMEDLKPLG
+LTMAQKLLAALEVEAEQIEGYGKGSIVGVGGELEHGALWHAPGGYAMRDVLGGAKAIVPS
+SKKVGTAGVRLDVPVTHANASYVRSHFDSIEVGLNDSPRANEMAVILVMTTGSRIHNRAG
+GLDAKDIKGEDGLR
+>tr|B7RRJ2|B7RRJ2_9RHOB
+MVQFLRFALIRAALALFTLCLVSFIVFSLMELVPGDCAERYLAFKNSQGAQISIADIEAE
+RVRLGLDRPYLERWTNWIFNAFQGEFGDSCILRLNINQLLGQKVWLSIGICLGSLFLAYL
+IAIPVGIIAATSRNPFLNNSLRLVSYLGLALPNFLLALMIMLFSTVMFGNSLTGLFSPEF
+RDAAWDWAKIKDFLGHVWLPVFILGWSATAFAIQTVRALMSDEISKLYVTAAAARGVSGR
+RLLMRYPARHALSPIINSLGFDLNRIFNELPIVALILTLTEAGSLLIEALARSNDQQLAG
+AIIFFLTGSIVAINFITDIALALVDPRIRRSILG
+>tr|B7RLN0|B7RLN0_9RHOB
+MQHAASLNSQSLGADLRALRKARGLTLQGLADRLNRSVGWLSQVERDLSDPAITDLRQMA
+QALGVSVSMLFRHAAAPVHEAGFIVRKDARRPIGSSVAGLIEELLSPDLTDDFEVVHSTF
+LPHSRITDPVTRPTQEVGYVISGMLEIDIAGTTHSLNPGDSFRIRGEPFRWANPHPDPAV
+AIWVIAPPVY
+>tr|B7RM99|B7RM99_9RHOB
+MDAPLEKIPMTRAGHSALETELKHLKTVERPAIIRAIAEAREHGDLSENAEYHSAKEKQS
+FIEGRVKELEGAISLADVIDPAKMSGAIKFGAKVTLVDEDTDEEKTYQIVGEYEANIEKG
+LLNIKSPIARALIGKDEGDSVEVRTPGGVKSYEVLKIIYA
+>tr|B7RKR1|B7RKR1_9RHOB
+MADGYLTTHVLDTARGQPAGGLTITLYRIEGANRMKLAEMVTNADGRTDMPILPKGQFAT
+GTYELVFEAGAYLDATGNPPETPRFLDQIPLRFGISDSDAHYHVPLLLSPFGYSTYRGS
+>tr|B7RNA4|B7RNA4_9RHOB
+MDFAADALTAQTASEKHRMSVPNADPLCDRTPTMKNYALTVTCPSTRGVVAAIANYLADN
+ACNITDSAQFDDKETGNFFMRVSFESDGTVDLAALAEGFVATASPFDMTYDFHDQTEKMK
+VVIMVSRFGHCLNDLLYRWRIGALPIDIVAVVSNHMDYQKVVVNNDIPFHCIKVTAENKA
+EAEARIMAVVEDAGADLIVLARYMQILSDEMCQKMSGRIINIHHSFLPSFKGANPYKQAF
+QRGVKLIGATSHYVTADLDEGPIIEQDIVGVTHAQSANDYVSLGRDVESQVLARAIHAHI
+HRRVFLNGNKTVVFPASPGSYASERMG
+>tr|B7RGP5|B7RGP5_9RHOB
+MPEKRMPNLRREDFKEIYAEYADAKAKEQSSRCSQCGVPYCQTHCPLHNNIPDWLRLTAE
+GRLQEAYEVSQATNTFPEICGRICPQDRLCEGNCVIEQSGHGTVTIGSVEKYITDTAWEN
+GWVQAIKPHTERTESVGIIGAGPGGLAAADVLRRQGVQVTIYDRYDRAGGLLTYGIPGFK
+LEKDVVMRRNDQLAEGGVNFELNCDVGVDISFGDIRAKHDAVIIATGVYKTREIQAPGVG
+GVGLERAIDFLTVSNRKSFGDTVEEFESGRLNAYGKKVVVIGGGDTAMDCVRTSIRQGAT
+SVKCLYRRDRANMPGSQREVQNAEEEGVVFEWLSAPKGFVGDPVTGVMVQKMRLGAPDAT
+GRQAPEVIEGADYVEDADLVIMALGFEPEDLPTLWNTPELPVNRWGTIKADYVTGATELD
+GVYAVGDIVRGASLVVWAIKDGRDCAQAILEKMGTKAAIAAE
+>tr|B7RPM8|B7RPM8_9RHOB
+MTEQRIIIEMGMGNDLHGMDYTKACARAIDDALRHSSLPLFGVLELAHDAMRVQVTVAVQ
+APELVDIDALVAKLPRGRAQVRAVFGGLNVPSGDEVIVVAQASVEAFLPKQDGWRLRDSS
+>tr|B7RGG3|B7RGG3_9RHOB
+MFLVRMTMAIQFQMVAALSPVIEDAFAVSLADVGILIGLYFTPGIFIAAPGGALGRHFGE
+KQVVLAGLALMLIGGAMMSLSGVWAMQLYGRLVSGVGGVFLNVLLTKMVADWFAGREISF
+AMAVFVNSWPVGIAVALIGLPIVALSGGLTLAMGVVMGLIVVAFFCLLLIYRAPQDGTQP
+GVVSSGKVRGALFWAVLTAGAIWGIYNAALAVVFSFGPQLFVSRGMGLAEAGSVTSLVLW
+CLAIMGPIGGYLADRSGSRLLIIAIGNLSFAFFVVLGAVLETSVLCVIAIGLSSGVAVGA
+MVSLPSLILPPAARAVGMGVFFTVYMHALPQGR
+>tr|B7RKG2|B7RKG2_9RHOB
+MFWQRQIIFAAALGLQAYYYNFWLSVVILVGVILSEVHDYILVRQVLVWHGRGEAVMRMF
+MRRIYMGTVLSAGVIAFYAIAMAIEQGATTHFMSLFFLFAASLFAAMNNHQLLPVLLLRL
+AIYGGTFIFIPLYDIIRTSAPIDSQLWMQFFTVLFVVYFIVDCSRIYLNFYRSHLRQLEA
+LTAEHEKTKVAFIAKTEFISTVSHELRTPLTSIKAPLDMACAGALGELPEKAQKALLVAQ
+RNANRLSSLVNEILDFQKLEAGKVTMQVEPLELDDVIASAIEMNHAYAASVGVTIETGHI
+DNHLLVNADQQRLQQVMSNLLSNAAKFSHGKGRITVSTDLYKDFARVFVSDEGIGLDERD
+RVKVFEEFSQLDSTAQRRFGGSGLGMNISKRIMEALGGDIDYRKNEGPGTTFHIDIPLTP
+LENATGHPSPTRERHHESILSARTPKKASSPC
+>tr|B7RKR4|B7RKR4_9RHOB
+MRLFYAFVLTLLAALPARAEVNIQQVTSPGGLTAWLVEEHSIPFVALDVRFRGGASLDAP
+GKRGAINLMTGLLEEGAGDMDARAFARAAEGLASSFRFNVGDDSLSVSTRFLVENQDASV
+ALLKQALQNPRFDQEAIERVRGQVLSGIRSSAKDPNDIARKTMDGLLYGDHPYATSLSGT
+EESVTALTRDDLVAAHAEVMARDRIYIGAVGDITPEELGLLLDELLGDLPETGAPMPPRA
+DVKVPSGTTVVDFPTPQSVALFAQKGIAQKDDDFFAATVLNQVLGGGSFESRLMKEVREK
+RGLTYGVYSYLAPMDLAETYQGSVSSANDRIGEAIGVIQDEWAKMGREGVTQQELDDAKT
+YITGSYPLRFDGNQTIAGILVGMQMLDLPIDYIATRNDKVEAVTLEDVKRVAGELLDPEG
+LAFVVVGQPEGVVTTASD
+>tr|B7RK20|B7RK20_9RHOB
+MPLAPLDETITIADLTRDPYPIYKRLRTQTPVLRVKSVNRTFLTKAADTRAVKDNPALFS
+SNDPNTPMEKAFEAHTLMRKDGAEHMRERMAMMPTFSARNIKTIWAPSYEKHASDYLDRL
+PRDEVIDLFPMLAGPLAARILAEILGLPDASDTDMEHWSQALIDGAGNFGWADEPFARVA
+AANVAMNAEIARRVEILRAAPDQSALSVMINADDPIEMSQIIANIKIAIGGGINEPRDAL
+LTILYGLLTNPDQLDALKSSGDWGSAFEEGVRWVAPIQASSRVAVEDTEIRGFTIPKGDV
+VMTIQASANHDEEVFEDGHLFNIFRKSAPHQSFGSGPHHCMGTHISRHTVGKIMLPMLFE
+RFPNMELVDRDAVVWSGFGFRGPLNLPVRLN
+>tr|B7RJT2|B7RJT2_9RHOB
+MAYDYAPFPYTRPPGLTQQEQRHPVVIVGAGPIGLAMAIDLAQQGIASVVLDDNNVVSVG
+SRAICWAKRTLEIFDRLGVGERMLAKGVTWKVGRNFHGDNQVYAFDLLPEPGHKYPAFIN
+LQQYYVEQYLAERAQDFPDLIDIRFLNKVTYHTDHGDHVALDISTPDGTYTLEADYYLAC
+DGAGSATRARMALPFEGQTFEEHFLIVDVEMETSPFGNHDTPERWFWFNPPFHNGQSALL
+HKQPDNIYRIDLQLGPDTDPKEEATEAKVTPRIKAIVGDTPFRLDWMSVYKFRCAKLDRF
+VHNRVIFVGDSAHVVSPFGARGGNGGIQDVDNLGWKLAAVLKGDASAPLIESYNTERVHG
+SAENILNSARATNFMTPKSPIEALFRDAVLSLAADHPFARKLINSGRLSQPCDLAGSSLQ
+TPGDAPLRPGFPMIDAPLTGPDGPTWLLSQAQGAFTLMTAGTTPLPEIDKINRIGINQTA
+DYPCFASVDGHAETRYGKDKIYLLRPDGHVCAVFDTPDTAPIIAAHDRALGAST
+>tr|B7RQA4|B7RQA4_9RHOB
+MIAPPLIFVAFVALAAFGMFRPDPEGLPSTLIGQQAPALPEKTLASFPTASAADLKTGET
+TLVNFWASWCPPCRAEHPKLLEMQADGIAIIGVNFKDTERAATSYLTGDGNPFKGIAFDP
+QGRTAIDWGVTAPPETFIIDGDGTVLFRFAGPLVGSDYEQRFLPALNAALAE
+>tr|B7RQF6|B7RQF6_9RHOB
+MHVASDLAHAIGNTPLIRLRKASEDTGCEIYGKAEFMNPGQSVKDRAALFIIRDAIAKGT
+LKPGGTIVEGTAGNTGIGLALVGASMGFKTVIVIPETQSQEKKDMLRLAGAELVQVPAAP
+YRNPNNFVRYSERLANELARSTNEGVIWANQFDNVANRQAHIETTGPEIWEQTDGKVDGF
+CCAVGSGGTLAGIGMALQPKGVKIALADPDGAALHSYYTTGELAAEGSSIAEGIGQVRIT
+KNLEGFTPDFSYNVHDSEALPIIFDLLQHEGLCLGASSGVNVAGAIRLARDMGPGHTIVT
+ILCDFGTRYQSKLFNPDFLREKGLPTPSWLERAPMSIPGVFEDQ
+>tr|B7RHU4|B7RHU4_9RHOB
+MSCWETVQAYGLRSLGIGERLLPRSDFTLCDQFTLIGSGMIWNIYFGFFALISGFFFATA
+LGFAKAQPSPWLRKPAEWFIFIFRGSPLFIQFFFGYFLFLSLKSVHPFFDAFTSAWLGAL
+VVLFFNTSAYSAEIFYGALQSIPKGDTEAADAYGMSGWPRFKRVIWPTMLRLAWPAYTNE
+AIFLFHATTLVFFTGFPALQQRGDALYYASYFADKTFNPFIPYPILAGYFVLLTLVIIGI
+FGAINRRLNKHLPQEVRQKIRLRPNLIR
+>tr|B7RQY3|B7RQY3_9RHOB
+MDSAETLDTPFPIPAGVFAQTVTQVQHYTDSLFRFRITRPHSFRFRSGEFVMIGLPNAEK
+PVFRAYSIASPSWDEEVEFYSIKVPDGPLTSHLQKLQVGDTVLMRRKPTGTLVNDALLPG
+KRLWMFATGTGVAPFASIIRDPETYDKFDDLILCHTCRTAGELTYSRALVESLKADPLIG
+EFAQRLTLYDTLTREDWPRMGRQTDLMASGKIFDDLGVPPINPETDRGMICGSMEMLADT
+KLALEGFGLEEGANNRPATFVVEKAFVG
+>tr|B7RMA2|B7RMA2_9RHOB
+MTTDGAMLGLAASARAWAKVNLTLHVTGQRSDGYHLLDSLVVRAGVGDVLSVTPSDQLGL
+SVDGVFAEAAPLDGRNLVVRAARLLDDGVGRGAQIQLTKQLPAAAGIGGGSADAAATLHL
+LGAHWGLPVPADVSELGADVPVCLQDHPQRMRGVGEVLTPAGPLPPCWLVLVNPNKSAAT
+PDVFNQLETKLNPPMPDVLPVFDNVPAFAAWLGTQRNDLESAAMPIVPEIADCLGALQDA
+LLARMSGSGATCFGLYESEYLANRAAARIGKAQPGWWVAAGPVLS
+>tr|B7RPM7|B7RPM7_9RHOB
+MQTLMVEFGMGSSLRRADYTQAAERAVRDALWHNSINLAELFGFDKSEMKITLDVGVQQP
+DQVDADVLRAVFPYGDITVNVQRGGLDVPRPDGDGNPTIMANVALSVAFDMERAND
+>tr|B7RN70|B7RN70_9RHOB
+MKAALIEQEEMRLALLRGYNILDTAPEPGFDEITQLAAEICDVPISMISLVDDDRQWFKA
+KVGLDIPGSAIENSICAHAIAGDEYLEITDTTDDARTDRNDFVTGDDSIRFYAGALLEDD
+KKLPLGTLCVLDKRPRELNDFQRRALQTLANQAMRQIELRKALADAEILRKEVDHRVKNS
+LQSLEALIRLQVRSEKSPEARSALDAVQGRLATISRLHEALYLTDTGASVDISAFITKVV
+QSAQEQMPQGVTVNSTMENCDLPSRSASSVGMIVNEAMANASKYAYQDSRRGTFTVTGKH
+ENGFYHLSCIDDGPGLPEGNGSDTGLGMRILMAAAQQLGGEMTMPEREIGTEIKVVWPID
+H
+>tr|B7RQ60|B7RQ60_9RHOB
+MNETPETPENDDEIPAARPVFDGPSVTIEHEMRTSYLDYAMSVIVSRAIPDLRDGLKPVH
+RRIIYSMYEKGITHDKTYRKSAKSVGDVMGSYHPHGDSAIYDALVRMAQDFSMSLPLIDG
+QGNFGSMDGDSAAAMRYTESRLDKVASFMTSDLDKETVNFIDNYDGKEREPTVLPARFPN
+MLVNGAGGIAVGMATNIPPHNLGEVIDACQALIENPDLTSEELIEYIPGPDFPTGGIMLG
+RAGARKAYLEGRGSVIMRAKTRVEEIRKDRFAIIIDEICYQVNKASMIEKIAEQVREKKI
+EGIAHVQDESDRNGVRVVIELKRDATAEVVMNQLYRFTPMQTYFGCNMLALNGGRPEQLT
+LRKFLTYFIDFREDVVARRTAFLLRKARERSHILCGLAVAVTNIDEVVATIRSSADAAEA
+REKLMTRRWPAESILPYIALIDDPTHTANDDGTYNLSEAQARAILELRLQRLTQIGVKEV
+TDELEELAKKIKEYLEILGSRERIMSIISDELAEVKDQFAVPRRTEIVDWSGDMDDEDLI
+AREDMVVTVTSGGYIKRTPLVDFRSQRRGGKGVSGMQTKEEDVVTTLFVANTHTQLLFFT
+TDGMVYKLKTWRLPQGSRTSKGKAIVNILPIPVGVSIAAIMPVDRDEAEWDDLQVVFATS
+AGTVRRNKLSDFTNVMRNGKIAMKFEDDHAETTLINARIASNDDDVMLVTNSGRAIRFPA
+TDVRVFNSRASVGVRGIKLNGDEKSFPCRLSATSMRRRMNGRPT
+>tr|B7RI83|B7RI83_9RHOB
+MSSATNTLLISPAARDAMQTWLDHQRALKGAAENTITAYQGDVTDFLAFMTLHKGDSIGL
+GALANITISDMRSWMARTRGPDVGPRSLARKLSAVKAFYRWLAEREGFEPTAVLSTRSPK
+FPKKLPRPLAVDAAKAMIDCVELQSPRPWVAARDVAVLTLLWGCGLRISEALGLKGADAP
+LPDVLRIVGKGGKERVVPVLPAARDAVDAYLRACPHPQEHGTALFKAVRGGPLAARAIAQ
+VMADARMQLGLPATATPHAMRHSFATHLLDAGGDLRAIQELLGHASLSTTQAYTAVDTAR
+LMDVYNRAHPKATG
+>tr|B7RFP1|B7RFP1_9RHOB
+MALPDLPFTLDPPVLLAPMAGITDLPYRNLVASFGAGLVVSEMVASEDMINARPGTREKA
+ELGLGIEGTAVQLAGREAAPLAEAARMVEAQGARIIDINMGCPAKKVTQGYSGSALMRTP
+DYALTLIEAVVNAVKVPVTLKTRLGWDDAMLNAPQIAAAAEAAGITMITIHGRTRCQFYK
+GAADWAAISKVKDAVSIPVIANGDIIDTDSASTALNQSRADGVMVGRGSQGQPWILAEIA
+HQLYGTPAPVVPQGADFARMVGDHYEEIIRFYGVTIGLRAARKHLGWYMDTCATPRDLRR
+SVLTAPDVQTVQHLIPSAMHPGQELVAA
+>tr|B7RMM1|B7RMM1_9RHOB
+MDHWQERVDMAAAFRWTARLNMHEGVANHFSLAVNDDGTKFLMNPNQVHFSRIKASDLIE
+VDANNPDTLNGPDAPDPTAWGLHGGVHRACAHARCVMHVHSIHATVLATLQDSRLPPIDQ
+NCCTFFNRIVIDEDYGGLAFEDEGARCAGLLTDPKQKVMVMGSHGVLVIGDTVADTFNRL
+FYFERAAETYIRALQTGMPLRRIPEDIAEKTAQELEAYPEQDARHLAELKAILDEEGSNY
+AH
+>tr|B7RMW0|B7RMW0_9RHOB
+MEMPVPNPAIMACKARVVERLQAVLPDDAVIFDERETRAYECDALTAYKCPPMVAVLPSS
+TQQVSDVLRICHEEGVPVVPRGSGTSLAGGALPTADCVILGVARMNDVIETDYENRIIRV
+QTGRTNLSVTGAVEENGFFYAPDPSSQLACAIAGNIAMNSGGAHCLKYGVTTNNLMGVKM
+VLMDGEIIDFGGGHLDAGGLDLLGLICGSEGQLGVVTEATLRILHKPEGARPVLIGFDDN
+EVAGACVSDIIKAGVLPVAIEFMDRPCIEATEAFAKAGYPMCEALLIVEVEGSDAEIDHQ
+LELISEIARRHNPVELRQSKSAEESAKIWLGRKSAFGAMGQINDYMCLDGTIPVSSLPHV
+LKRIGEMSDHYGLKVGNVFHAGDGNMHPLILFDANKPGDLELCEEFGAEVLKLCVEVGGC
+LTGEHGVGIEKRDLMHVQYAHDDLDAQMAVKDVFDPAWLLNPAKVFPLDASESRRAVKLA
+AE
+>tr|B7RPH4|B7RPH4_9RHOB
+MSLAPAWADVYLGGMNAPLIDPFARAITYLRVSVTDRCDFRCVYCMSENMNFLPKKELLT
+LEELDRLCTNFVDLGVQKLRITGGEPLVRKGIMTFFESMTRHLDAGTLKELTLTTNGSQL
+ERFAKDLYAAGVRRVNVSLDTLDEQKFADITRWGRLPQVLRGIDAAQAAGLRVKINAVAL
+KGFNESELPSMTAWCADRGIDLTWIEVMPMGDLGNEDRLGQYWSLKDVRKSYEDHYTVTD
+LAESTGGPARYVRLEETGQKIGFITPLSHNFCESCNRVRITCTGEIFMCLGQEDVADLRA
+PLRNHPNDDAPLKEAIRAAINLKPKGHDFDYSRQKLDGQMPRHMSHTGG
+>tr|B7RRH0|B7RRH0_9RHOB
+MSQVDEIRMQVMWNRLISVVEEQAMTLLRTAFSTSVREAGDLSAGVYNAKGAMLAQAVTG
+TPGHVNTMAEAVGNFLAAIPRQNMFPGDTYVTNDPWLGTGHLHDITMVTPVFNGEELIGF
+FACTAHVVDVGGRGFGADGKSVYEEGIQIPIMKFAERGVVNEVLVSLLRANVREANQVVG
+DLYSLAACNDVGLKRLLEMLDEIGLPNLDKLGDFILSRTHAAVMERIAALPKGAWSNELL
+TDGYDEPVNLVAKVTIEESRVHVDFDGSSAISRWGINCPMIYAKAYACYAIKCVVAPDIP
+NNAASLAAFEVTSPVNIVNAERPAPVSLRHVIGHMVPDVVLGALAQALPGQIQAEGAGAL
+WNIHISARPAAGHEGRRSEVLMFNSGGMGARPTLDGLSATAFPSGVHTMPIEATEHAGPV
+VIWRKELRPDSGGDGTFRGGLGQRIEIAPADGHEFEFSAMFDRVGTAPLGREGGLPGATG
+SVALDDGTKLRPKGWQFVPAGKRLVLNAPGGGGYGDPANRTAESRAEDLRKGYVTEPGK
+>tr|B7RLP9|B7RLP9_9RHOB
+MAFGPDIIEQLARARADLRMGVPIVFLGDQPVLVLAAETLTAQRLTDLLALGGEPVLAIT
+ARRAETLKARAYDGDLARVLLPQDATPRWVQSLADPADDLRSPMKGPLSCARGGTATAHA
+AALQLTKSARLLPAALVLDLPDAPAFAAQHGLTTLDLSAALPALATRSPLHPVVNARLPM
+EVSEAGRLHIFRPDDGGEEHYAIEIGRPDRSKPVLARLHSACFTGDLMGSLKCDCGPQLH
+AALAQMGVEGHGVLLYLNQEGRGIGLANKMRAYSLQDQGFDTVEANHRLGFEDDERDFRL
+GSDILKSMGFSSTRLLTNNPRKVEMMEASGIKVAERVPLRVGENSHNTAYLATKATKSGH
+LL
+>tr|B7RHN7|B7RHN7_9RHOB
+MSKKKKIVVKIGSSLLANSDKLTLRYAFMNGLMNDLAHLQKEGHDIILTSSGSVALGLNM
+IGKRPEDAGILDKQAAAACGQPLLMNAYRQVASEYDMDVAQMLVTVGDMEERRRFLNIKN
+TMLRLFESDILPIINENDSIATHDLRVGDNDRLSAKVAQMINADLLIILTSVEGLYDRDP
+SEPGAQFISEIEDVSEHLESTTGISALGSGGMLTKMQAANMAQNAGVETIIADGIIERPI
+SSVLNNERRFTRCLVTGETLSPLKVWLSNRLKVSGTLVVPKAVASAVAEGTCGISRSDII
+SIQGDFSKGDVLHVYDEEGTEIARGLTNFSSEETMLMARNLDTPVEDVIGYKTKADVIAV
+ENILVLEDNHLLLDAPEDDQKIVAPV
+>tr|B7RNZ2|B7RNZ2_9RHOB
+MDDSAFLTAQTSPLEKVAHRSIKDEVAERFATLIASGVLNVGDALPSERELASTMGVSRE
+TIRGALLILSTKGIVATVQGARTKVVSVDVGDIGMSALSNGRVTDYGLDDVHEGRLMVEE
+RLAVLAARRIDAPTLRHLKELIKTQEAATGDPVRFLIADRAFHTAVYQSCGNAVLSDLAA
+TLYSYQLDHRRRAVSVAGAIERSIADHRVILAALEAQDADALVQALGAHERRIYDSTRAL
+LATSTKKATS
+>tr|B7RQ22|B7RQ22_9RHOB
+MGGVIPNQQISEMIGAGQIIGSPAVDTAQIQPASLDLRLGTVAYRVRASFLAGHGAKVSD
+RLTEFEMHRVDLTKGAVLEKGCVYVVPLMESLSLPADISAVANAKSSTGRLDLLTRTITD
+GGTEFDRIAPGYAGPLYAEICPRSFSILVRPGMRLNQIRFSTGDASLDDDALRALHAITP
+LVDGDAVIDDGLGFSVDLRLPGSTLVGYRAKPHTGLIDLDNIGFYNPADYWEEVHSDNGQ
+IILDPGAFYILVSREAVTIPPEYAAEMAPYLAMVGEFRVHYAGFFDPGFGHASSGGAGSR
+GVLEVRCHEAPFVLEHGQVVGRLVYEKMAHVPTQLYGAGIASNYQGQGLKLSKHFRSPA
+>tr|B7RGE5|B7RGE5_9RHOB
+MPRDVFDDLVAQSKLFRDFVFAAFSKRITDLFLMIDEVAFQRLDVRLADKLLDLSNGQEK
+VATTHQKLSVELGTAREVVSRQLQEFQRRGWIEQGRGSLNLLDRLQLQKLADHNS
+>tr|B7RK87|B7RK87_9RHOB
+MIFLRYAVWRFITMLLTLWVVSMLVFVIINLPPGDYLSNQIAELRATGQAEGVAKAEFLR
+REYSLDQPVWKQYMIWAGIAQGPQGFSGLIQGNFGWSFEFDRPVGEIVGDALWMTVLVNL
+AAVLFVYLIALPLGVLAAAKSETWVDYTAGFIGYLGLATPNFLLALILFYYGHKYFDLPI
+GGLMAPELEGEPMSWTKVQSILLHLIVPTFVIGTAGAAAMMQRLRANMLDELSKPYVDTA
+KAKGLAPARLLAKYPLRMAFNPFVADIGNLLPAMISGSVLVSVVLGLQTIGPSLLIALKS
+QDQFLAAFILMFVALLTLIGTMISDMLLVLLDPRIRFGARG
+>tr|B7RMJ3|B7RMJ3_9RHOB
+MTFGVYAQGMRVINNTAATELRRVTEDSLQTLQVRMNTYLQSLNAAAGMMHTAENVEYDD
+FEIFAGSLDLEKNLPGLGGIGFIEAVPRAQVADYVADLRKDGLTDFNVHPDTDSDVKYII
+KYIAPIATNAEAVGLDITFEKGRAEAAQRARETQLPQLTPRIVLVQDETKQPGFLLLRPV
+FYERGPRDGEFRGWVYAPFVGRKVMQNLTLNQSNIYDFQVYDGVGTDPDMLIYGSDLSDE
+AAGQYSTQYTANFFGRPWTVRYQSTKNFDDFFPGRAPLFLFLAGILLTGMLAVALREIRL
+RGDSMEEVAALRAKQISAREEENKSIMENTVVAVLILDEDRNILHANFAAIECFGCEEQG
+GMGGLPFSQFVTEAPDVPSNSGYNALGKTMSGDMLYLDLQQNGWVTLNGVRRTTAIVRNV
+TAEMGAVKELAITKQRYDMALAGSEIGVFEVDLRTGSSVVSQTWRKIMKVDDDEQDTQGI
+FMNRVHPDDLPDLFEADRKCIMGETDRSVSEYRMSFGDSWRWMLSDAVVVERDEAGAALR
+MVGTQTDVTDLRHSRNALEASEKRFRTVIEAAPVGMAILDDQGRFVEVNGAMCDLTGYTQ
+PEMLDELTMMRIVPGDDIKRMRKALLAATQMDIQEVYCEEHRIIHKNGGERWGLFNITWT
+YDKNADAHVYIAQVVDITDKKKLDQIKSEFVSTVSHELRTPLTSIKGALGLIDVSARDKL
+PETTMRLIEIARTNADRLTNIVNDILDLEKISSGEVDFDLMPVNIGEIVEAAVQEMMPFA
+QTHENKLVCELPEQPVFATADRGRTMQVLANLISNACKYSSDHTEVCIKIEQLEDIAIVY
+VQNRGPGVPESFRNRIFQAFSQADGSDTRAKGGTGLGLNITRQIVRRQGGEIGFESIPGG
+LTVFWFTCPIAKGIEAPEHTQFFGPENPTDRRLKILHVEDDEDFAEVIRAGLDGVADVKN
+VTRLTKARKMLGEGPLDVIILDWTLPDGDAAVLLEEIGRTQAQARIISLSSDASHNKDSR
+VNINLVKSQTEIAQLIACVSDLTQKAS
+>tr|B7RSI7|B7RSI7_9RHOB
+MADPHIITDDQIVNLLDTLDIRGCLERMFLSQAYGRAMQPPQTISLFPDDAGDFITYLGV
+LADDGVFGAKLSPYIPSGGDALVTAWTVLMSMKTGQPLLLCDSKRLTTERTAATTIIAAE
+KLARPDSRVLTIVGTGAVGMAHLRYAAGIRNWSELRLASPNALSREDLPKEVKGIPVHIY
+DNADLASAGADVVMLCTSSGEPVIDAAALASTTLITSISTNVSNAHEIDPALLHDLDVYC
+DYRGATPTSAGEMKLAAAAGWDAAQIRGDLPELMRGEAPAPSWQRPAFFRSIGLGLEDVA
+AAYAVLSALRN
+>tr|B7RJK2|B7RJK2_9RHOB
+MNILKTIATVGLTLTLVACGSADRFAVQSPPVTEKISISFAAVEVRDVSLPSYAAADEIH
+IRKSNGTLVSSADQLWADAPSRAVALELSENLARLTNRRVASEPWPFEAYPDARVEVRFS
+ELLASDAGQFRASGQYFVAVTDGRRERSGLFDLAVGYDPKGGPAAIAAARGQLILDLASF
+IAREGLK
+>tr|B7RQW9|B7RQW9_9RHOB
+MELKDKIIVVTGAASGIGKAMAIRFAAEGAKRVVCVDLNKDGAQEVADGIGGVAFGVNVG
+VEQEIADMIEAVETDIGPIDLFCSNAGILTAGGMDVSNDDWQRIWDINVMSHVWAARHLV
+PRMTERGGGYLLNTASAAGLLNQVGCAPYGVTKHAAVALAEWLAMTHGDDGIKVSVLCPQ
+AVRSEMTRGHEESVAALDGMLEPEPVAEACVETIRNETFLVLPHPQVLEYMRKKTDNYDR
+WIGGMRKLNRQYGDVRNPKKAPS
+>tr|B7RFS6|B7RFS6_9RHOB
+MRVLLVEDDPTTSKSIEMMLTHANLNTYATDLGEEGIDLAKLYDYDLILLDLDLPDMNGH
+EVLRQLRLSRIETPILILSGADDTESKIKGFGFGADDYLTKPFHREELVARIHAIIRRYK
+GHSQSVIQTGQVSVNLDAKTVTVDDKTVHLTGKEYQMFELLSLRKGTTLTKEMFLNHLYG
+GMDEPELKIIDVFICKLRKKLSTATGGENYIETVWGRGYVLRDPEPSSLSSPQRLAVGV
+>tr|B7RGP0|B7RGP0_9RHOB
+MARLFHVPLSPFCRKVRLSLAEKKIEVERVEERYWEQEPDFMRRNPAGKVPVLQLDGIIM
+SESAAICEYIEETRPEPSLMPTDPVQRLEVRRLVSWFDDKFHGEVTSKLLYERVNKKVMG
+QGFPDSRNVKDGAKAIKYHIDYMAWLLDHRRWLAGDVMTLADFAAAAHLSSLDYISDVDW
+NRSDVVKDWYAKIKSRPAFRSLLADQVPGFPPPKHYNDLDF
+>tr|B7RHG6|B7RHG6_9RHOB
+MRAICLGGGPAGLYFAISLKLRQLDAEVTVLERNKPDDTFGWGVVLSDETLDNLEQNDPA
+SAAEIRRNFAYWDDIALHHKGQVITSSGHGFCGIGRKKLLLILQDRARALGVDLQFETDV
+KAASDYMKDYDLVVACDGLNSKTRLEFADTFKPDIDVRRCPFVWMGTHQKFDDAFTFIFE
+KTDKGWVWVHAYQFDPDTATFIVECSQKTFDAYGFGEMTQQESIAVCEEIFKDHLDGHKL
+MTNANHIRGSAWIKFPRVLCEKWSHENVVLLGDASATAHFSIGSGTKLALESAISLAKHV
+SDDADLGSAFEKYEAARRLEVLRLQSAARNSVEWFEDVERYLELDPVQLNYSMLTRSQRI
+SHENLRSRDPEWLGGAEAWFMDQAGAGSNLPARAPMFAPFQLRDMTLENRIVVSPMAQYK
+AVDGAPTDWHLIHYGERAKGGAGLVYTEMTCVSADGRITPGCPGLYAPEHEAAWTRLTDF
+IHAETPAKICCQIGHAGRKGSTQVGWEKMDAPLPSGNWPLLSASAIPWSDENATPKAMTR
+DDMDAVKAQFVAAAEMADRAGFDMIELHAAHGYLISSFISPLSNTRDDEYGGSLENRMRY
+PLEVFAAMRDVWPAAKPMAVRISANDWAGDDGVTPEEAVEIAALFDAAGADIIDVSAGQT
+STQAKPVYGRMFQTPFSDRIRNDGGIKTMAVGNIFEADHVNSILMAGRADLVCLARAHLA
+DPYWTLHQGAALGDRQSVWPKPYEAGRDQAWRNADRLAEQEGRV
+>tr|B7RNX0|B7RNX0_9RHOB
+MFPIRDHNPSGRTPYVTYLLMAVNIAVFLSYVGMMGNERAINSFFFDWALIPALVTDGQG
+YTGIFTSMFLHGGWMHLAGNMLFLYIFGDNIEDEMGHVGYLVFYLACGLLSAGAHVFSAP
+YSPVPMVGASGAIAGVMGGYLLLYPKAKVDILIIFIFFFKIIPIPAWIMLALWLGMQFIG
+GVGADPDVGGVAYWAHAGGFFVGLALTVPLWLRLGGPRFWSRTEGHPPHPDADYPMVRSR
+IPKVRRK
+>tr|B7RRX2|B7RRX2_9RHOB
+MITMTVNGEKKEVLAEPRELLIYVLREKMGMTGPHVGCETSHCGACTVEIDGKSVKSCTM
+FAAQAQGAEITTIEGLGSPDSLHVLQESFKEHHGLQCGYCTPGMITRAHRLLQANPNPTE
+EEVRFGIAGNICRCTGYQNIVKSILSAAAELNAAKEAAQ
+>tr|B7RLI4|B7RLI4_9RHOB
+MTATIIDGKAFAARVREQVGEHVSRLKADHGITPGLAVVLVGADPASEVYVRSKGKMTVE
+VGMKSLEHRLEADTEEADLLALIAQLNADPAIHGILVQLPLPKHLNEDLVINAIDPAKDV
+DGFHISNVGLLGTGQKSMVPCTPLGCLMMLREHHGSLSGMDAVIIGRSNIVGKPMAQLLL
+NDSCTVTIAHSRTKDLAEVVRRADIVVAAVGRPEMVPGDWIKPGATIIDVGINRLDAPEK
+GEGKTRLVGDVDFASCVDVAGAITPVPGGVGPMTIACLLANTVTACCRANGLAEPEGLTA
+>tr|B7RKV7|B7RKV7_9RHOB
+MAEEATTAPTQAPQPQMRILGQFIRDMSFENIMAQKGAPSDVQPDVQVQVNLDAKKRSAE
+NQYESAIKLQVTSKAKDGDATLFLLEIDYVGIFHIENVPEDQMHPFLLIECPRMVFPFLR
+RVVSDITRDGGFPPLNLENIDFVALYRNEIARRQAENPPKADA
+>tr|B7RQ40|B7RQ40_9RHOB
+MQSNGTDFQMGRTEFIALIAMMFATIAFSTDAMLPALPQIAADLAPATPERVPLILTSFV
+FGLGLGTFFMGPLSDTFGRKNVVYAGVALYILAAFVAWASQTLEVMLAARVVQGIGAAGP
+RVVSLAIIRDLFSGRQMAKIMSFVMMIFVIVPAFAPALGAVIVSFTNWRGIFAAFVVFAV
+ILMMWLWARLPETLLKPDRRPLRLPLLWRALKEVFSNPMVCLSIMVQTLAMAILFATLML
+VQPIYDQVYDRAASFPFWFGVVAIVSGTSSLLNALLVVRYGMQRLVTITLAAQIILSGIM
+LGFGLGDLPEPFGFYFFVVWQACLFFQAGLVMGNLNALAMEPMGHIAGMAASVIGAVSTV
+LAAVIASPIGLLFNGTIMPLIASVVVLAAVGFCLMLVLGRVVRHQDAATSAPAP
+>tr|B7RHR3|B7RHR3_9RHOB
+MELEQAMLGRRSIRGFTKDPVSRELLEEIIALANRAPSSMNTQPWHFHVLTGQPLENVRE
+GNSTRMLQGVPPVREISDHGAYAGVHRERQVDIAKQLFAAMGIEREDKERRQDWVMRGFR
+QFDAPVSVVVCFDKSLDDNGTIAHFDLGAVTYGLVLAAWSKGLGSVINGQGIMQSPVVRE
+HAQIPDDQVIMTCVALGWPDESFSANDVKSVRRPVDAVARFVGFDS
+>tr|B7RIR8|B7RIR8_9RHOB
+MIRALALVLILGGAAQAEPCRQALALGLDVSGSVDAREYRLQLEGLAAAFNNVAVRSALL
+SSPGAPVSVMVYEWSGPSDQAVIAPWVSMVDGGVLDGFVETLRQTTRRDASPGTAIGVAV
+SLGALYLQEKSDCWKRTLDISGDGKSNLGPRPRDVKDAVVAKGITVNALVIGSDSSAAGG
+NSQAGIGELSSYFRAEVIAGQDAFVETALGFDDYEAAMTRKLLRELEVLAVSDLSLD
+>tr|B7RID4|B7RID4_9RHOB
+MLGLAAANVAGVPLVTWMGQVFGWRSAFGLVAAGGALLFVLLPIFVPTRPAGEGASPLSE
+LSAFRSLQVWLTLATAAIGFGGMFAVYSYITSTLT
+>tr|B7RGG4|B7RGG4_9RHOB
+MDKEQLSARETEIARAYASGGTYHRIAEQLGIAPSTVRTHLSSIYRKLEISSKLELFKIL
+AGDAIGPRDQTDQAAIISELALNLEESLGREQALGEVLRIISRSEGRIDDVIEALLGYAL
+ELCDAQFGLLLTYDPDAGFAARFMKGIPQAFQDWWDERDSYRPSPKTAIGRLEISHDVVN
+IPDVRAEPIFRQNDPLRHATAVLGGARSFTAIPMLAGKRLIGAFTIYRQQLRPFDERTVQ
+LARSFADQSAIAIENARMISALRSTIER
+>tr|B7RH56|B7RH56_9RHOB
+MKRFAKLFTTIDQSTKTNVKTAALAEYFAAAPDADRLWTIALFSGRRPKRAVTTTRLREW
+AAERAGIPLWLFEESYAIVGDLAETIALVLPPNTTQDDQSLSDWIAALREIYTQDEDARK
+AFVLSAWDRLGGAERFIFNKLITGGFRVGVSQKLMTRALARATDKPEAELAHRLMGNWHP
+DDTTWHALVEAEDASADASRPYPFYLAYGLEAEPQDLGAPEDWRAEWKWDGIRGQLILRD
+GQYFVWSRGEELMTDRFPELARALDFLPDGTVLDGELLVWPDDQPTPSSFNALQSRIGRK
+TVPKKLLTDAPVVLHAYDLLEWQGQDIRDLPFADRRATLERACADLPAQAPIRLSSQLPF
+ADWDALAATRSDARDAQAEGVMLKRADSPYLAGRKKGDWWKWKLDPLTIDAVMIYAQSGS
+GRRANLFTDFTFAVWNGNELVPFTKAYSGLTDAEFRQITAWVRKNTLERFGPVRKVTPHH
+VFEIAFEGIARSPRHKSGVALRFPRMLRWRQDKPLQEANTLADLEEFLRIYG
+>tr|B7RI45|B7RI45_9RHOB
+MIKIHHLNRSRSHRILWLLEEIGQPYDVIPYKRDAKTNLAPPELKLVHPLGKSPMLEIDG
+TLVAESAAITEVLCNRFAPELIPNRDSAAYLQHLELMHFAEGSAMTPILLNLYVSRLGEA
+GAPLHPRITDELHNHFSYMDSLVRPSGHFVQDSLSAADIMLSFPAEIAMRGGDGAAKYPA
+LAGFVEMIQARPAYARATERGAMNG
+>tr|B7RMN0|B7RMN0_9RHOB
+MDSLNDLLEAEKAALLAGDLERLTGMAERKEALIEALNSAEQADLELLKELDLKVKRNQG
+LLNSALDGIRTVARRMAAFRRVRGSLETYDAKGEKSIIEVDPETSFEKRA
+>tr|B7RGJ3|B7RGJ3_9RHOB
+MKKQIDIAGLEGARAIVLHPEHDRLAVLLRQLRAIGLDVEVAWPKVPASAITADFVLYDT
+DAGHDEQFPWPAGNAPMPMIALVGSEAPGRIEWASRTGADALLVKPLAASGVFAALLMAR
+QSFERRKALLAEIASLRERLSARQTIVRAVTILAEKTGSQETAYDGLRQLAMAWQTTMED
+AAVEIVKHNETTGAFRDCS
+>tr|B7RJ14|B7RJ14_9RHOB
+MTQKPLSLAQPSLVIGSGDMAQEILDFRWSNTPLGPIESWPVSLLSAVRIMISQQHASCM
+FWGPDLTMLYNDAYAPILGARKDGALGTAAREVWPEIWHDIEPFVKTALGGEGVFFKELP
+LTMTRNGYEEQTYWTFSYSPLHDDDGIICGMINIAFDETPNVDARSMQDAMRLELSHRMK
+NMLAVTSAVVSSSLRTSKDLGHARETVSARIMALGKAQQLLQLTKRLTSPR
+>tr|B7RLD4|B7RLD4_9RHOB
+MKHCSVVTQFGTLSLTEQTGAITRLSWGSADTEGRSDLLDRAADQLRAFDASQLTQFDLP
+LYVAGSDVLRAVCAEISAIPFGETCTYGDIAKKLGIPAQVVGQACGQNPIPVIIPCHRVM
+GAKGLTGYSGAGGIETKIALLRHEGAAALLI
+>tr|B7RN05|B7RN05_9RHOB
+MTKLLIARPAPDEVHAALAGYDVTYRDTSAPLGPDEMLAALRDYDGVLPTLGDQFSAEVF
+AQVTDPRCKILANFGVGYNHIDVDAARKAGVQVSNTPGAVTDATADIAMTLMLMAARRAG
+EGERLVRSGKWTGWHPSQLLGMHLTGKTVGIIGMGRIGQAVAQRCHFGFSMNVKYFNRSA
+KDLAYPAEHINDLKTLVGAVDVVVIAVPGGDDTQHLIDADVLAAMQPHGLLINIARGNVV
+QESALIEALQSRTIGGAGLDVYEFEPNVPEAMRALDNIVLLPHLGTSSQEVRVDMWMMAV
+ENLQAGVEGRSLPNGV
+>tr|B7RG03|B7RG03_9RHOB
+MTQAQGFRGKALSALTNQIGVYALCDLDQQPIYVGQSVDGIRTRVRRHLTSARSDVIANR
+QIDVWEIAFVWAWPVYTKAQVEPLERSIFAHYDAELPLMNGKAMVPGDDTIIWPDKQVVQ
+VIEEDERQSRLTPSSRLPRQIKQYDLLVDYILTVKGAPHLKRSLDAHFERMVRYHQRFL
+>tr|B7RGX8|B7RGX8_9RHOB
+MTSRFRITLGQLNPTVGDLAGNADLARDAWAKGKAAGADLVALPEMFITGYNAQDLVMKR
+AFQLDVMTHINALAADCADGPALAIGAPWVEGAELYNAYLILKGGKVASRAFKHNLPNET
+VFDEVRVFDSAPLAGPYSVGDTRIGSPICEDAWHPDVAETLAETGAEFLLVPNGSPYYRG
+KFETRLNNMVARVVETELPLIYLNMVGGQDDQVFDGASFGLNPGGKLAFQMPTFDAEIAH
+VDLEQGSEGWRIVDGPKAHLPSEYEQDYRVMVQGLRDYMRKTGFKKVLLGLSGGIDSAIV
+AAIAVDALGADKVRCVMLPSEYTSQASLDDAEAVAKALGCRYDYVPIKQGRAAITETLAP
+LFEGMKPDLTEENIQSRLRGLLLMAMSNKFGEMLLTTGNKSEVAVGYATIYGDMAGGYNP
+IKDLYKTRVFETCRWRNENHRDWMMGPAGKVITPRIIDKPPSAELREDQKDSDSLPDYPD
+LDAMLDILVDQDGSIADCVAAGFDRDVAKKVEHLIYISEYKRFQSAPGPRLTKGAFWLDR
+RYPIVNRWRDPS
+>tr|B7RK61|B7RK61_9RHOB
+MKTFPMFIQMAGRRVVIVGGAEQAAQKVRLMLKTDAHITVISDALEDELAALAATGRIRQ
+QRGQIRGDDFAGTALVFIATGCPGADRALHALAKTAGACVNVVDQPALCDVITPSIVDRD
+PVVVAIGTEGTAPVLARQIKTQLEQMLEPNLGDLAALAGRLRAGAAARLAPRVRRDLWRW
+VFGDAPRRSHARGAARETAQMIKQAIETGDFGQDMGGSVALVGAGPGAKDLITLRGVQRL
+QEADVIYYDRLVDPEILELARRDAERIYVGKRPGCHSWPQEKITQTMVAAARNGARVVRL
+KCGDPAIFARSLEEMDALRAAAIPFEIVPGVTAACGAAAASAQTLTERDAIDTLILTTGH
+FSGGYGVPDAIKNLAPGSCVALYMAVTAAQSVSAHLSAKEGADDICVTIVANAQSDAQII
+AICDVQSLPSVLAQHGIKNTATILIKWRKKGAQVQPLLRVAHSGPRDVIAAVPL
+>tr|B7RNU4|B7RNU4_9RHOB
+MTEPTVPEPYVAESPGREAWRMYSRNRTALFGLGLLFVILAITFYGSFFYAGDAYDIVWA
+PHEPPMVTPEFPLGTDYLGRDIVTGMLKGGGPTMAVGAAAALITMVIGVSLGALAGFYGG
+WIDTALMRFTEFFQVLPALLFAMVLVTLFSPSLWTIAFAIGVVSWPQTARLTRAEFMKIK
+ELEYVTAARAIGAKNTRIIWKVILPNAAPPLIVSAALTIGVAILFEAGLSFLGLGDPNVM
+SWGLMIGANRDQLLDAWWPVTFPGLAIFLTVLAVSLVGDGLNDAFNPKLRER
+>tr|B7RSI1|B7RSI1_9RHOB
+MAVKAVAMKGVSIALACRAFDVSETCYRYSPKLDDENEQISDLLLGLTKAKKTSGFGLCF
+LYLRNVQGHGWNHKRVYRIYRELELNLRIKPRKRLKREKPDELVVPEQPNEVWSMDFMAD
+RLGDGRQFRLLNVLDDFNREGLGIEVDFSLPAERVVRALNQIIEWRGAPKRIRVDNGPEY
+ISGTLMEWAEHKGIALAHIQPGKPQQNAYVERYNRTVRNEWLDLHIFGSIDEVQQIATEW
+LWSYNNERPNMGNGGMTPAQKLRMAA
+>tr|B7RI71|B7RI71_9RHOB
+MIESDPTLRPDPMPGDFDRALRPQLLDEFVGQAEARSNLKVFIQSAKQRGEAMDHTLFHG
+PPGLGKTTLAQIMARELGVGFRMTSGPVLAKAGDLAAILTNLEARDVLFIDEIHRLNPAV
+EEVLYPALEDFELDLVIGEGPAARTVRIELQPFTLVGATTRMGLLTTPLRDRFGIPTRLQ
+FYTEDELFIIVDRNARKLGAPADEGGAREIAKRARGTPRIAGRLLRRVVDFAVVEGDGRV
+TRELADMALTRLGVDYLGLDGADRRYLRMIAENYQGGPVGIETMSAALSESRDALEEVIE
+PFLLQQGLIQRTPRGRMLAQKAWTHLGMAPPKSQTDLFG
+>tr|B7RNT2|B7RNT2_9RHOB
+MKRALITGITGQDGSYLAEFLLEKGYEVHGIKRRASQFNTQRIDHIYEDPHAWNARFHLH
+YGDLSDSSNLTRILSEVRPDEVYNLAAQSHVGVSFECPEYTADIDALGTLRLLEAIRFLG
+LSQKTRFYQASTSELYGLVQQTPQRETTPFYPRSPYAVAKLYAYWITVNYREAYGLYACN
+GILFNHESPRRGETFVTRKITRGLSNIALGVEDCLHLGNLNALRDWGHAKDYVRMQWMML
+QNETPEDFVIATGQQHSVREFVTWAASDLGLTLSFEGEGLEEVARVVRVAGRYAPGVKPG
+DIILRIDPEYFRPAEVETLLGDASLARARLGWVPETTPRQMCTEMVTADLMAAQQTAALR
+DQGYAVPVASGQ
+>tr|B7RGD2|B7RGD2_9RHOB
+MTNALTFFEPTRTAGLERLRNFAPDAGRHYGERRNYLGTAKNPGAVSALSPYLRTGLVSQ
+SEVLRTVLDQHSAKDADRYIAEVLWRSYWQGWLALRPSVWDAYQADLKRLHNAVQTQSGL
+RQRWENACLGQTGIAPFDAWANELAHSGYLHNHARMWFASIWVHTLELPWQLGADFFLRH
+LLDGCPASNTLGWKWVAGIQTIGKPYLATQENIEKFTEGRFAKVPGLATQAAPIPAPPHP
+DRMPLWNTGQPDPALHSGLILHEDNLNPTHVLDAAGPIAGHVTVMATADQTPWQMAPHVQ
+AFRGQAAQNMQNLLADRIGPAGPAVTSALALKQWAQDHGFAQLVTADAPVGPTKALFDAY
+DRLPDAPPLVRMRAPLDADAWPLATAGFFKFRKHIPALLARLS
+>tr|B7RIM1|B7RIM1_9RHOB
+MQANTAREMVVDIPACTILRDRPLDPATDGWGPILDEDYLAAGDIAKADPAYVAAMAKRG
+ITNLDEVCCAPLSAGVFGHAEEIGKRMIRVLSFHAKEKTHSMFAHPIDGIVAHVNLTERK
+VMRLSDTGYLHVPQDSGDYLDPEVTGPMRDTMKPLTITQPDGASFEIKDNVLTWQNWHIR
+VGFNGREGLTLHDISFDDQGTRRKILNRASVSEMVVPYGEPSPNHNWQNYFDAGEYTFGR
+LAKSLVLGCDCLGKIHYVDATVVDDFCEPVPIRNAICIHEEDFGTLWKHTDFFTGQGTVR
+RQRRQVVSFFVTVGPKARMNSPPKWHRVWALRSTNTCSRRGWTWRSTASAIMWTRSRSSA
+CQ
+>tr|B7RH41|B7RH41_9RHOB
+MFTGIITDVGKIASLAQEGDLRARITTGYDTDRIDMGASIASDGVCLTVVDMGPDWYEVQ
+ISAETVEKTNLGGWVPGKRLNLERALKVGDELGGHIVSGHVDGVAEVVAMRDEGDSTRVT
+LRAPQALARFIAPKGSVALNGTSLTVNEVDGCDFGINFIPHTKEVTTWGDVAVGDLINLE
+IDTLARYVARLAEMS
+>tr|B7RRG3|B7RRG3_9RHOB
+MIRQKTIHRFAVLQGRCDDGCHARPKPRECHEGSILRRVIFATLLALAPIATQADHAFQG
+RDLDRGAQLYAGNCAACHGANLEGQPDWRSPGPDGVLPAPPHDASGHTWHHDTPLLLEYT
+RLGGQAALNARGVTGFNSGMPAFGDILSDAEIMDILAYIRSTWPEQARQVQAERTHALPA
+E
+>tr|B7RHV2|B7RHV2_9RHOB
+MFDLSNPPDGFTDNPFPQYDQLLADAPVCPQPDGSFLISSHADLSKIYRDTTNYISDKHA
+AFAPKFGVGSPLFEHHTTSLVFNDPPLHTRVRRIMTAALTPKALARMEPGLIAIVDQLLD
+EMPRDADLVEDFAATIPIQIIGNLLDVPLSERGPLRDWSLAILGALEPTLTGAQLERGHQ
+AVRDFKAYLQDLITRRKASPGDPETDVLTRLINGDDGGTLTEIELIQNCIFILNAGHETT
+TNLIGSGLALLHDHPDQRAKLLADPSLINTCVEEVLRFRSPNQFGNRETTAPVTLGGHDI
+PAGTNLHLCIGAANRDPAVFDDPTRFDITRHPNRHLAFAGGPHVCVGLTLARMEGRIALA
+RFLARYPAYEIGQGRQLGGRIRFHGPARLPTRLYSPVVG
+>tr|B7RK80|B7RK80_9RHOB
+MEPRPRSFYVLTGFFILFLLFLYGPTITIGILSFQGENGGLTFPMRGVSLYWFKDLFEQQ
+AVGDIWGSFRRSFVLGLMVMVTTVVVSVMGGLAFRKRFPGSGILFYLIITSLVIPSILIS
+LGVGLMFSQTGLTVHWSTSGFGAQLTWTLPFGLLIMFAVFNRFDKSYEEAARDLGASPWQ
+TIRHVVLPIIAPSLIGVALFGFTLSYDEFARTLLTAGSYNTLPLEIYGMTTNVTSPVLYA
+LGTLTTVFSLVIIGVFLALALVSNRRRAKAGTDAGKGLV
+>tr|B7RND3|B7RND3_9RHOB
+MPQNDALPRRTIETEDPFHWHPPSPYVELGVASCFSFLRAASDAVDLTATANLLGYDAMG
+IADRNTLAGVVRVYSEASKAKIRPIVGARLVLMCGTDLLAYPRDRDAYARLSTLLSKGKM
+ADVDGGWQEKGTTHLTLEMVADHAEDLELIVMPPEELQVFEAGLPRLLRALPGLRHMGAA
+YLYRGDDVARINQLDRLAKAHGLGILATNDVLYHGPSRRPLQDVMTCIREGRTIETAGFL
+LEANAERYLKPPSEMCRLFAAWPHAIAATRKLADACTFSLGDLKYEYPHEIVPEGRTAQE
+ELERLTWKGAAERYPQGVPDRIEAVIEKEFALIRSKKIARYFLTINDIVRFARQDAQPPI
+LCQGRGSAANSTVCFCLGITAVDPAEHDVLFERFLSEERDEPPDIDVDFEHERREEVIQY
+MYAKYGRHRAGLCATVIHYRPRSAIREVGKAMGLSEDVTSKLASTVWGSFEASVGDDRVK
+EAGMDLSDPYLRRVLMLAREMTGMPRHLSQHVGGFILTERPLTEMVPIGNGAMPDRSFIE
+WDKDDIDALGIFKVDILALGMLTCIAKCFDLMRAHYNDDKELATVPPDDDATYDMLCAGD
+SLGVFQVESRAQMAMLPKLRPRVFYDLVIEVAIVRPGPIQGDMVHPFLRRRQRQEGVSYP
+APGPEHPQDELLKILGRTLGVPIFQEQAMKIAIDAAQFTPTEANELRKAMATFRSRGTIE
+TLQTKMVGRMTKRGYDPEFAQRCFDQIKGFGEYGFPESHAASFAKLVYVSSWMKCHYPAA
+FACALLNSQPMGFYAPAQIVRDAREHGVEVRGVDVDFSDWNCTLEPSSDGFALRLGMRQV
+DGMREDAAARIMDARDRPYVDVADLKTRARLDRGQIRKLAEADAMRTMGIDRRQALWQAQ
+ALKDAPDLPIFTYADAVDEGAEPPVLLPAMPQAEQVVADYQTLRLSLKAHPISFFRSSLR
+KQGFIAAGDLPGLNHGRKVSLAGLVLVRQKPGSAKGVCFITLEDETGVANLVIWPKLFEH
+YRPVIMSARLLVVHGRMQTDGRVIHVVADRLENRTDRLDRLSTERVPQTTVRGDHPTHPI
+PGQVAPRQHPRDVRVIPKSRDFH
+>tr|B7RL50|B7RL50_9RHOB
+MAQSFLGQKRLRKYYGKIREVLEMPNLIEVQKSSYDLFLRSGDAETPTDGDGIQGVFQSV
+FPIKDFNETSVLEYVKYELEKPKYDVEECQQRDMTYAAPLKVTLRLIVFDVDEDTGAKSV
+KDIKEQDVFMGDMPLMTPNGTFVVNGTERVIVSQMHRSPGVFFDHDKGKTHSSGKLLFAC
+RIIPYRGSWLDFEFDAKDIVFARIDRRRKLPVTTLLYALGLDQEAIMDAYYDTVTYTLKA
+GEGWVAPFYPDRVRGTRPTYDLIDAATGEVLFEKGKKVTPRAVKQLVDEGKVSELVLPFE
+HIVGKFAARDIINEETGAIYVEAGDEMTLEYDKDGTLIGGTAKELVDAGITEIPLLDIDN
+INVGPYMRNTMAMDKNMNRDTALMDIYRVMRPGEPPTVEAASNLFDTLFFDGERYDLSAV
+GRVKMNMRLALDKEDTQRTLDRDDIVSCIKALVDLRDGRGDIDDIDHLGNRRVRSVGELM
+ENQYRVGLLRMERAIKERMSSVEIDTVMPQDLINAKPAAAAVREFFGSSQLSQFMDQTNP
+LSEVTHKRRLSALGPGGLTRERAGFEVRDVHPTHYGRMCPIETPEGPNIGLINSLATFAR
+VNKYGFIETPYRKVSNGVVSDDVQYMSATEEMRHTVAQANANLDENMKFVNDLVSTRKSG
+DYTLSPSENVDLIDVSPKQLVSVAASLIPFLENDDANRALMGSNMQRQAVPLLQAEAPLV
+GTGIEEVVARDSGAAYMAKRGGIIDQVDASRIVLRATEDLELGDAGVDIYRMRKFQRSNQ
+NTCINQRPLVKVGDTVVKGQVIADGPSTDMGELALGKNVIVAFMPWNGYNYEDSILISER
+VSRDDVFTSIHIEEFEVAARDTKLGPEEITRDIPNVGEEALRNLDEAGIVYIGADVEPGD
+ILVGKITPKGESPMTPEEKLLRAIFGEKASDVRDTSLRVKPGDFGTVVEVRVFNRHGVEK
+DERALQIEREEVERLARDRDDELGILDRNIYARLQSMIIGKTAVKGPKGVKSNSEITEDL
+LATLSRGQWWQLALADEDDAKIVEALNEQYEIQKRTLDARFEDKVEKVRRGDDLPPGVMK
+MVKVFVAVKRKLQPGDKMAGRHGNKGVISKVVPMEDMPFLADGTPVDFCLNPLGVPSRMN
+VGQILETHMGWAARGLGINIDEALQEYKRSGDLTPVREAMSHAYGEDVYEEGIAGMDEAT
+LLEVAGNVTRGVPIATPVFDGAKEADVNDSLTRAGFDTSGQSVLFDGRTGEQFARPVTVG
+VKYLLKLHHLVDDKIHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQ
+EMLTVKSDDVAGRTKVYESIVKGEDNFEAGIPESFNVLVKEVRGLGLNMELLDAEEDE
+>tr|B7RJW5|B7RJW5_9RHOB
+MVMKRNIILHPDPRLKKLCAPVTDMTDELRALADDMLATMYDAPGIGLAAPQIGVLNRLI
+VMDCVKEEGEKPRPLIMFNPEVIASSDIESTYEEGCLSIPDQFADVTRPAEVDVRWIDRD
+GNEHTETFSKLWATCVQHEIDHLDGKLFIDYLKPLRRQMITRKMTKLKRELARG
+>tr|B7RRI4|B7RRI4_9RHOB
+MRDLKAQLRLYLVTDADLCARLGVVETVRRAVAGGVTMVQLRDKTATTAERRALAIRLRH
+ALEGSGVPLVINDDVAAAVAADVDGAHIGQGDMSPERARALLGPDKILGLSCETPQTVRA
+ADPLIVDYLGLGPVFGTATKTDHAKPVGFEGLADLVALTRLPTVAIGGLKSAHLRDVQAS
+GADGMAVVSAICGQPDPCAAALAFGSTKTQVPT
+>tr|B7RJ60|B7RJ60_9RHOB
+MSDTFETKKPNRRAFLRGAATAGVGALAAGTARAQTPDPLITETQEWAQTFGDGVDATPY
+GLPIKFEDDVIRRNVEWLTADTVSSINFTPIHALDGTITPQGCAFERHHSGAIELKKEDY
+RLMINGLVDRPLVFTYADLERFPRENHTYFLECAANTGMEWAGAQLNGAQFTHGMIHNME
+YTGVPLRTLLEEAGYDTAGKWVFVEGADASSNGRSIPMEKALDDVLVAFKANGEALRKEH
+GYPVRLVVPGWEGNMWVKWIRRIEVTDAPVESREETSKYTDTLANGISRKWTWAMDAKSV
+VTSPSPQSPITHGKGPLVISGLAWSGRGAITRVDVSKDGGKTWETARLAKPGEKMALTRF
+YLDVEWDGEEMLLQSRAMDETGYVQPTKAQLREVRGLNSIYHNNCIQTWWVRPNGEAENV
+EVS
+>tr|B7RPF6|B7RPF6_9RHOB
+MREFDSHLAPAIPCPQHGRKSKEDFMDLNGKHALITGGGTGIGLAIAQDLAAKGAHVTIT
+GRRQEVLDEVAGDNMTGMAMDVRNEDDVVAKIATAVAAHGPIQICIPNAGIAEGKAVHKT
+DMDFWRNMMATNLDGAFLTIRESLKSMRETDYGRVIAISSMAGLRGLPGAAAYSASKHGM
+IGLVRSLAEDYMGKPLTFNAICPGYVDTPIVTRNTASISERAGISEEKARAIMVNSNPHK
+RLIDVSEVSAAAMWLVGPGSQSINGQCIQVTGGHM
+>tr|B7RSG3|B7RSG3_9RHOB
+MFDDTTTMIERVRAVLPQIKANADKADEGRMVPKENIDLLKGTGLHRAFQPKAYGGLEMS
+VPDFENCIALIATACGSTAWAFSLLAEHAHQIALYSKELQDEIWGDDPDTLSSSSIAPYG
+QATEVEGGVRFSGEFGWSSGCDHATWAILGFLRDDDELGKVYSFAIVPRADYEIKDNWFT
+AGMRGTGSKTLVVRDAFVPNYRIESVPALMTLTSAGGDLYPDSQIYHVPFIYVFASCFSS
+VSLGIAERMIELYTERTQSRVRAYTGAKVGQSIPACMRLAESTQQVAAGRAFLEKTWEDM
+RTHAETRTYPDETKMAFWRTNQAYAVKMFVAAVDRLFEASGGSAWFDDAEAQRLFRNSHM
+TAAHAYTDYDICAQILGRALMGLEPDPSLF
+>tr|B7RLC2|B7RLC2_9RHOB
+MSEKSVNTKKQIKHLRKGLSIYKTERSPYWHARVYISSQKKYVVRSTKETSRLDAAEVAE
+EILADLKSKQKNNHATAKDQSFEHFAQIYMNMARVQKRGVKNKYAFSDEAKILLRETDGV
+ISYFGKYDVGKITSGMVRDYLFFLDSRRDKPLAFSTKAKQCIMIRKVLMVALEDGVIDII
+PPMPKQRTKDAPRPTFTDKEYKHLMTTARRIASEGKTKVRGVLISHDHVHMWQFIVHSFV
+RPTETELFALRHCDIVVGGNPTHLELTLFGKTGHRISATMPFAQGLYQSVRSKSPNAEPT
+DYVFMSEYQNRTTAVNTARRLFNHVLEESNLRKDMSGNPRTPYSLRHYALQARLRGSKGK
+VNIYWLAKNAGTSVDQLERFYLKNMALSPEQIRNLQST
+>tr|B7RJG9|B7RJG9_9RHOB
+MDHFLYRDGALFAEDVAISEIAATVGTPFYVYSTATLLRHFKAFDDALEGMDHLVCYAMK
+ANSNQAVLRTLAQAGAGMDVVSAGEYLRAKAAGVPGDKIVFSGVGKTAAEIRLALEGGIR
+QFNVESEPEMEVLDTVARSLGKVAPITIRVNPDVDAKTHAKIATGKSENKFGIPIARARE
+VYRMAGAMAGLEVIGIDVHIGSQLTDLAPFEQAYDKVAELTEVLRADGHNIRRLDLGGGL
+GIPYERSNEAPPLPRDYGAMVQRKLGHLGCEVEIEPGRLIAGNAGLMISEVIYVKSGEGR
+DFLILDGAMNDLIRPAMYEAHHDIIPVVEPAPGAEQQPYDIVGPVCESGDTFAKQRMMPA
+LAAGDLVAFRSAGAYGAVMSSEYNSRALIPEVLVKDDQFAVIRPRPTFDEMINRDTIPEW
+L
+>tr|B7RG62|B7RG62_9RHOB
+METSLKLSDFDFDLPEALIATRPAVPRTSARLLVADGPVLHDKVVTDLPDWLRAGDRLVL
+NDTRVIPARLTGARHRDSAQGPVQARIEITLLEPRSDGTWAALIKPLKKLKVGEDVVFSP
+DLRATLIGTADGQGHLQFNCAGDDFDAALNAAGAMPLPPYIAAKRPADAQDLTDYQTVFA
+RNLGAVAAPTASLHFDDALLQTLADKGVTFSHVTLHVGAGTFLPVKVDDIADHKMHSEWG
+KVSAQAAAEIAATKAAGGRVIPVGTTALRLVETAARGGTIKAWEGDTDIFITPGFTFNVA
+DALMTNFHLPKSTLMMLVAALMGQEAIKTLYAHAISSNYRFFSYGDASLLIPEARKLA
+>tr|B7RGR6|B7RGR6_9RHOB
+MRTVYVNGEYLPENEAKVSIFDRGFLMADGVYEVTSVLGGKLIDFEGHAIRLSRSLNELD
+MRNPISKEDLLEVHRELVRVNEIDEGLIYLQVTRGSDGDRDFAFPDPETTEPTIVLFTQS
+KPGMADSPAAKKGAKIISIEDIRWGRRDIKTVQLLYPSMGKMMAKKAGCDDAWMVEDGFV
+TEGTSNNAYIVKGNKIITRALSHDILHGITRAAVLRFAKEAQMEVEERNFTIDEAKEADE
+AFTTSASAFVMPVVEIDGVMLGDGTPGRIAPRLREIYLDEMRKAAV
+>tr|B7RP87|B7RP87_9RHOB
+MTTLVTQTAPIATDTHGGRAKCLQRLVRLNLPVPRTVALPFDAVHDIAGGKMPDLQEVAD
+EFPQDALLCVRPSSQDPDWGGPGAVLNIGMNDDRYAEYCARMGEGPASALYTRFVQSYAV
+NVARLDPDMFDDVIGDGRDALEQSLRAYELETEETFPQDRVTQLTAVLSSMARAWEGTSA
+RLLRQAKGAPADAGLGLIVQQMAFGVGTGMCGSGVLQLVDSDSGLPQITGRYLSQSQGRD
+ALQGDADAMYLTRDPRGPSLEDHAPEAFETLKQHAELMRVKLRAEMQLEFVLSDGELFIL
+DGVRVSRSSRAAVRIAVALADEGIISREEALMRVQPRTLTELLHRQVDPRTKRDVIGRGI
+AASPGAATGKIVFNANDAQASASRGEACILVRRETSPEDIRGMHAAQAVLTERGGITSHA
+AVIGRGMGLPCVVGASSMRFDLAKGQIIAPDGRVFKAGDEITIDGTKGEVLAGAAEMLEA
+LLDATFQKLMDWAEETADIGIRANADTPADAQTARNFNAHGIGLCRTEHMFFDPSRLTVM
+REMIFADSGDERRAVLERLLPMQRDDFIQLFRIMQGQPVCIRLFDPPLHEFLPASRSGQR
+DLAEALALPLSVVTRRIEAMSEYNPMLGLRGVRLGVTVPEIYEMQARAIFEATIEASRDG
+DPVVPEIMIPLVSAKREVELVKTSIDRIATAVRNERGADFTYRLGVMVETPRAALRAGEI
+APHCSFLSFGTNDLTQMTYGLSRDDAGRFMSTYVQQGVFPEDPFHMLDQDGVGELLQLGA
+SRGRAARPGITLSICGEHGGNPESIAFCRAAGFDYVSCSPFRVPVARLAAAQLAISHKIL
+G
+>tr|B7RMY0|B7RMY0_9RHOB
+MSAKDVKFGTDARNRMLKGVNILADAVKVTLGPKGRNVVLDKSFGAPRITKDGVSVAKEI
+ELEDKFENMGAQMVKEVASRTNDEAGDGTTTATVLAQAIVKEGMKSVAAGMNPMDLKRGI
+DMATHKVVEAIRAAARDVTDSDEVAQVGTISANGEAEIGRQIADAMQKVGNEGVITVEEN
+KGLETETDVVEGMQFDRGYLSPYFVTNSDKMTVELEDVIILLHEKKLSSLQPMVPLLEQV
+IQSQKPLLIISEDVEGEALATLVVNKLRGGLKIAAVKAPGFGDRRKAMLQDLAILTGGQV
+ISEDLGMKLESVTMDMLGSAKKVTITKDETTIVDGAGEKAEIEARVAQIRNQIEETTSDY
+DREKLQERVAKLAGGVAVIRVGGMTEIEVKERKDRVDDALNATRAAVQEGIVVGGGVALI
+QAAKSLDGMTGMNNDQNVGISIVRKALEAPLRQIAENAGVDGSVVAGKIRESSDLTFGFN
+AQTEEYGDMFKFGVIDPAKVVRTALQDAASIAGLLITTEAMVADRPSKDGGAGGGMPDMG
+GMGGMGGMM
+>tr|B7RIB8|B7RIB8_9RHOB
+MNDDTSLTLSAQDCLVALMIAVSASDEDIRTTELIKIETAVNLLPIFAQYDIDRISTVSR
+MVFDLFEQEDGLDALFGLIKGALPDRLNETAYALACDVAAADGTLEETELRLLEEIRYEL
+DLDRLHAAAIERGARARHVT
+>tr|B7RKM4|B7RKM4_9RHOB
+MTYENDMLDAQKYLQQGNYKRSLKAALSASRKSPGSAVAANITGIATSATGRPGDAIKYF
+QKALKLTPDFPDAQKNFAQTLILIGRPGVALAQLAKLAIRTPADWKVWYLKAQAELALGK
+EKDGLASVDRALALTATSVTVHHLRSTINLSLGHIKDAIDDLYAALKINPEDVVALTNLS
+LPLARQTRFEEALEVVQKAVKLAPNNVAARYRLATQFVEMGRSEDGIFHYNAILDMQPDH
+AGALEQLTLLLSKAEVAALEPKIQMALKKVARNSEDRASLFYALSAALSAQEKPLDADKM
+LGLANKEMANLLPYDPVADADVTRAILGRFPAILESDGETSTAPYPVFVIGLPRSGTTLV
+EAVLGAHPHVAPLGERGTAGFLLRDIIEQNLPFTRNDAIKMIREDQRLMPDLPEGTVAYV
+DKMPENYRLVGFLKSAYPNARIINVRRDPRDIALSMWKSHFSGTALSYTYDWDRMAFRFN
+LYAQSMAHWKTILPGQILDVHYKDLVEDVEATGRSMAAFCDLEWHGAMARPDLNATQVLT
+HSATQLRRPVHTDSIEKWRKNPDLLTPFVKGFDRTLWSDYLSD
+>tr|B7RMQ2|B7RMQ2_9RHOB
+MYTIAALYHFTRFSDPDSLRAPLKATCEAHDVKGTLLVAGEGINGTIAGPAAGIDAVIAH
+IRALPGCSDLEWKRSTATEPPFGKMKVRLKREIVTMGQPDVDPLARVGHYIDPAEWNDLI
+GRDDVAVIDTRNDYEVAIGTFDGAIDPQTQSFGEFPAWWEANKNRFHNKKIAMFCTGGIR
+CEKSTNYLIGQGVEDVFHLKGGILKYLEDVPQEKSTWKGDCFVFDNRVSVGHGLKEGPHM
+LCHGCRRPILPEDTARPGYEAGVSCHQCVTETSEADKARFRERQHQILLSRARGEDHLG
+>tr|B7RS03|B7RS03_9RHOB
+MIGLVILTLVIATAILAPILFPQSPWKMVQRPFLPPFTQDGLMLGTDALGRNVLAGLAHG
+AYVSLLVGLVSTIVALAIGVPVGAMAGYFAGRTDDALMRFTEFFQTIPSFALAIVLLAIF
+QPSLTFVIIAISIVSWPPVARLVRGEVLSLRTREFVEAATLSGLGNLQIITRHILPNALP
+PIIVLASLMVAQAILLESSLSFLGLGDPNIMSWGYMIGAARTVIRTAWWLSFLPGMAILL
+TVLALNLIGEGLNDALNPRLMRKSE
+>tr|B7RHQ4|B7RHQ4_9RHOB
+MQPKAVALTKTNAMTPRIKLLMMGLLAVAFVMLQAVMSYAKPESLAPLAEQISPSVVNIT
+TSTMVEGRTGPRGIVPEGSPFEDFFEEFRDRNNNGEAPAPRKSSALGSGFVISEDGYVVT
+NNHVIDGADEITIEFFSGEELKATVIGTDANTDIALLKVEASNPLPFVSFGDSNAARVGD
+WVIAMGNPLGQGFSVSAGIVSARNRALSGTYDDYIQTDAAINRGNSGGPLFNMDGAVIGV
+NTAILSPNGGSIGIGFSMASNVVTRVVDQLKEFGETRRGWLGVRIQDVTQDVADAMGLAK
+ATGALVTDVPEGPAKEAGLLTGDIIMSFAGVDVEDTRGLVRQVGNSAVGAAVRVTILRDG
+KTQTLKVTLGRREDAEAPAPTEEEPAEEGTTEGPATDSMLGLTLTPLTDDLRAELGADAS
+TSGLAVTAVDELSEAFEKGLRVGDIITEAGQQSIMTFADLEDSVTLARDAGRKSLLLLVR
+RAGDPRFVALGLEE
+>tr|B7RN32|B7RN32_9RHOB
+MNYRAAEISGAFDGGLEAASHGLMAGTRVATMMGWRGVESLAKGDMVLTFDNGMKEITDI
+RRVTICLDAEQTEPALWPVIVPADALGNKEQLTLLPDQGVMLECEAASDLYGDPFAVVVV
+RALENVNGIHRAPPKTRIELISISFKDDQVIYAEGGALILCPSTTTTLDRLIDGTFSEYE
+VLGAGEAEQLVACFELESQNGTDIGYPVMAAAG
+>tr|B7RR26|B7RR26_9RHOB
+MDYSVNYQSYGGALLITQLFSSSQTILLGSFGPMNSSRTLTHDASVLYVGEEAVIDGVTY
+KMLGSGTAQPGIDVLGTTVPTGEAVDLLVLEDTDTGEIIFVYPEEEPSALAMVALVVDVS
+AVGYDFGTLNPICFLKGTHILTPHGWQTVELLRCGDLVTDVKGTVHPIIWIGSSKISADR
+ANQMKKAPIRIAKDAFGKGCPVDDVFLSQQHRIVLRETGDGTTEIAPVKAFVDGVRIQHT
+VARKEIEYFHVFTKEHALINAGGLPAETLLLAPMSMRSLGSDKSQSIFERLRATQPTMKR
+CQALSMRPVGHLLTVRQAREVLAKQRGHQSQTPFRLPGLRPARLI
+>tr|B7RGI1|B7RGI1_9RHOB
+MTDHTPEENKQHAERMAKVQAARKKMMAKKTKTKGLIIVHTGNGKGKSSSGFGMILRCIG
+HGFPCAVVQFIKGSMYSADRELLVDRFSDICQVHVMGEGFTWDTQDRERDIAAARRAWEK
+AKDLIRDPQNRMVLLDELNIALRYDYLDAEEIAEFLLSEKPEMTHVVITGRNAPDRLIEI
+ADLVSEMKEIKHPFRKQGIAAQAGVEF
+>tr|B7RR04|B7RR04_9RHOB
+MSVQLRGALEYGIATGDIAANTRLPSVRRLAAALKLSPVTVSNVYAGLQENGYVEGRIGS
+GTFVADRAPPSASRVQRLSNFERQIAELIQTGRELGFSRKDIAFRVSMATPAPMVSMNIL
+MLGTFRDATTAYADDLRPYLCATDSLSVASIADITSGDAPSVDIVVCPHTLTAEAQRLFP
+ELPVFGLTLIPNEQTRIALAGIPPEARVALVSYFDDFLPTLKGGVDRFAPHLGRVTAMPR
+GFDGLEKILNDVDVLIFSTGAEYLRDTLRPDQIAIEYRHTPDSHAVRSTLLPAIETARTD
+ISRKDTQDENQ
+>tr|B7RH70|B7RH70_9RHOB
+MDMRNIAIIAHVDHGKTTLVDELLKQSGTYRENQATTERAMDSNDLERERGITIFAKPTS
+VEWKGLRINIVDTPGHADFGGEVERILSMVDGVVLLVDAAEGPMPQTKFVTSKALALGLK
+PIVVLNKVDKGDAEPDRALDECFDLFASLGASDEQLDFPHMYASGRNGWADMELDGPRKD
+LSALFDLIVEHVQAPKQLKDIDKPFTMLATTLGADAFIGRMLTGRVETGQLKTGEQVKAL
+SRDGTLIENFRVTKIMAFRGLSQQPIEVAEAGDIVSIAGMSKATVADSIVAPSVNTALPA
+QPIDPPTITITFGINDSPLAGRDGKKVQSRVIRDRLMKEAESNVAIKISDTPGGEAFEVA
+GRGELQMGVLIENMRREGFELSVSRPQVLFREGENGERLEPVEEVTIDVDDEYSGAVIEK
+ITGPRKGELAEMKPAGAGKTRIIALVPSRGLIGYHGEFLTDTRGTGVLNRVFHSWAPHKG
+AIPGRRAGVLISMENGTSVSYALWKLEDRGKFFIGAQEAVYQGMIIGEHSRENDLEVNPL
+KGKQLTNVRASGTDEAVRLTTPVTLTLEQAIAYIDDDELVEVTPNAIRLRKRYLDPHERK
+RMAKSA
+>tr|B7RJ69|B7RJ69_9RHOB
+MCAEDLDKMANNAVRASNFLKAISHEGRLMILCHLASGEKSVTELEELLSARQAAVSQQL
+SRLRLEGLVIPRRDGKTIYYRLSDDRPKQIMEVVYDLFCRAD
+>tr|B7RG67|B7RG67_9RHOB
+MFSKSKINDPAPKSDADTSGTAASSSGAPSAPKSNEFKASAPKAKPPASILSSDLHVTGN
+MKTTGDIQVEGTVEGDIRAHLLTIGETATIKGEVVADDVVVNGRIVGRVRGLKVRLTSTA
+RVEGDIIHKTIAIESGAHFEGSVQRQDDPLNPGAKSAPVAKSNPATKPME
+>tr|B7RQ79|B7RQ79_9RHOB
+MSTRIATGGRLLNKSTPVNFSFNGKQLRGYEGDTLASALLANDQMLVGRSFKYHRPRGIV
+AAGPEEPNALMNLGHGGQFEPNQRATTTELFDGLDAASQNHWPSLEFDVGGINKHLSRFL
+PAGFYYKMFIHPRPFWKHVYEPIIRHSAGLGKAPKDKDADTYEHFHAFCDVLVIGGGVAG
+LEAARTAALSGATVILLEQTAHWGGRAPVDGGLVEGASVTDYIDALIAELSAMDNVQMRT
+RTMGAGVYDHGYVLGYERLKDHAPEIKGPRHRLWRIRAGHIITATGAIERPLSFAGNDIP
+GVMLAASVRDYLVNFGVSVGDRTVVVTNNDDAYRTAIALVEAGLTVPAILDARVLPEDST
+LMARAKGLGIRVMMGHAVAAVKGGKRVTAVDVCSQAGEGAVLETIQCEAVAMSGGWSPVV
+HLWSHCGGKLTWDAGLATFRPDVDNPPLGADGHGFVTAAGAAGGFFGLDDILHDAHAAAD
+GVVTTLGFKLPAAAASPNADRQQEAPLAPVWMMPQGANVKLREKTWLDYQNDVKVSDVRL
+AAQEGFVSVEHTKRYTTLGMATDQGKLSNINGLATLAGAMNADIPAVGTTTFRPPYHPIS
+MGAIGGEARGEVFQPLRRTPMHDWHDANGAEWEPVGHWRRPYAYKRSGETTHDAVMREVT
+NTRTNMGLLDASTLGKIIVKGPDAGKFLDMLYTNMMSSLKPGKCRYGLMCSENGFLIDDG
+VVARIDDDTFLCHTTTGGADRIHQHMEEWLQTEWWDWNVYVANVTEQYAQIAVVGPNARK
+CLEKLGGMDVSKDALAFMEWVDGELGGFKCRIYRISFSGELSYEIAVDAGVGQAFWDALM
+VAGHDLGVMPYGTECLHILRAEKGFIMIGDETDGTVIPQDLGLNWAISKKKEDYLGKRAQ
+ERSHMVDPTRWKLVGLETTDGSTLPDGAYAVGEGVNENNQRVMIGRVTSTYHSPTLGKGI
+AMGLVLNGPDRMGEVLEFPGTDGTTYSAKIVDPVFFDKEGEKQNV
+>tr|B7RQC9|B7RQC9_9RHOB
+MPLSVSWRVRLAIGILLVIAVCTISITNKLLTDRFTDSTRNRAELRIALYSGNLLAELRQ
+NAIVPQLLARDPALIEALTRSDYSLSTQRLISFVEEIGAASLMLYDIDGRTVAATDRNRL
+GSSHRLEPYFVDAVRANATVFSVIPRSTGGYRFFYSRRIQEGGATLGVIAAEVDLQRFER
+AWAGISDAVIVTDSTGDIIMATEPRWRGLTETEALSNQTPQSAIERAIKATADWTALPPD
+AYLQGEAVMRLSSRIPFRGWRITSYTTYSSVREKVNGVLALEVMGFAILLALTFYALSRR
+TAGRAALFQRESAELRALNVALQREIAERKRVQQTLAVAEQTLEQSSKLAALGEMSAAVS
+HELNQPLAAMKTYLAGARLLMRRNRLDEALSSFGRIDDLIERMGXXXXXXXRP
+>tr|B7RIR0|B7RIR0_9RHOB
+MASFGLSTPVLGRDLSDVIGGIAQSLIQQEVDRNAYVAAQNANTVSAYRDYLAKFENGRY
+RTNAENALARLGTPVEGSPASAAQAEARLGITFTQRVSVQRELTRMGYKTYGTDGVWGRN
+TRSAISNWQRDRGDKVTGYVTGEQLRLLARGTVVTPPSEDQSSGDLTPAQAEARLSTTVV
+QRVSVQRELTRMGYKTYGTDGIWGRNTRSAISNWQRDRGDKVTGYVTGEQLRLLARDTVV
+TPPSEDQSSGDLTPAQAEARLSTTVVQRVSVQRELTRMGYKTYGTDGIWGRNTRSAISNW
+QRDRGDKVTGYVTGEQLRLLARGTVVTPPSEDQSSGDLTPAQIEAALRLTRAQRITIQRQ
+LKAVGYDAGVADGLWGSRTRAAISAWQRANQGTPTGYVTETQVRLIANQAGTAAAAPDDS
+ASGPALEESLLGLTRAERVDLQRRLVRLGYKSSPTDGIFSSETRRAVAEWQAREGETATG
+YLTADQVRLIRVETGG
+>tr|B7RID3|B7RID3_9RHOB
+MNIIAAQIVLALGGLFLGTAEFAAMGLAPSIADTYEVDMPTAGHLVSLYALGVMVGAPLL
+TVVTARMEKRKLLMGLPLLILVGNAGSALAASFGQIGAARFISGLPHGAYYGTAGVARRR
+WWHPKSVRRRSAT
+>tr|B7RGZ6|B7RGZ6_9RHOB
+MRDTALREQICLLAKSMFDRGLTGGSTGNISARTDDGGLLVSPTGTSFGRLDPGRLSHFD
+ASGTLIGGDQPTKEMPLHQAFYETRSSAGAVVHLHSCHSVALSMLPDTDPDNFLPPLTPY
+GIMKLGRVKLLPFFMPGDPAMGDAVRGLAGKRSAVMLANHGPVVAGKDIEAACNAVEELE
+DTARLAMMLRGMNARGLSDDQVQALVTKFDIEWDD
+>tr|B7RLM5|B7RLM5_9RHOB
+MALPSHARVVIIGGGVIGCSVAYHLTKLGWKDVVLLERKQLTSGTTWHAAGLIAQLRATA
+NMTRLAKYSQELYGNLETETGVATGFKRCGSITVALTDERREEIFRSAAMARAFGVDIEE
+IGREEVKARYPHLNTDSVTGGVFLDKDGQGDPGNIALALAKGARQRGAQIFERVKATKAL
+RDGRRITGVEYVAEDGTQGQISCDHVVNCAGMWGHEVGRMLGTNVPLQACEHFYIVSEPI
+KGLEQLPVLRVPDECAYYKYDAGKIMLGAFEPVSKPWGMQGIPDSFEFDQLPEDFDHFEP
+ILEAAVNRMPMLADAGIHTFFNGPESFTPDDAYHLGLAPEMDNVWVAAGFNSIGIQSAGG
+AGMALAQWMEDGAKPFDLGDVDIGRMQPFQGNKTYLVERAKETLGLLYADHFPYRQKATA
+RGIRRTPFHTQLLEQGAVMGELAGWERANWFATPGQTPAYAYSWKRQNFFGNVAAELAAV
+RSNVGMYDMSSFGKIRVEGRDATAFLNHIGGGQYDVPVGKIVYTQFLNNRAGIEADVTVT
+RLSEAAYLVVTPAATRLADQTWMRRHQGGFNVVLTDVTAGEAVLAVMGPNARKLMQAVSP
+NDFSNEVNPFGTAQEIELGLGLARVHRVTYVGELGWEVYVSTDMAAHAYETFMAAGQDMD
+LKLCGMHMMDCARIEKGFRHFGHDITSEDHVLEAGLGFAVKTDKPAFIGRDAVLRKKETG
+LDRRLVQFKLTDPEPLLYHNEPVLRDGQIVGHLSSGAYGHHLGAAIGMGYVPCKGEAAAD
+VLASSYEIDIAGTRVTAEASLKPMYDPSAERVKV
+>tr|B7RND0|B7RND0_9RHOB
+MTQQQNTSWQITKPATRSRHGIVASQSRVAAQVGADIMAQGGNAVDAAIATSFALGAAEP
+WMSGMGGGGYMVVRMAGEKTAKVVEFGMKSPIGLEVEDYPIVGGKAGDLFPWPMVLEDRN
+VFGPKAIAIPGQVAGMGLAHETFATKPWADLMAPAIALADAGLPVDWYAQLILGGSAKDL
+APFPASAETFLDEGGFPKASGWTALGETKCDLSRLAASLRTVAENGPRAFYEGPLAQSII
+DDLQAAGGRHAMADLAQYQATLVDAMHYPYRDHEIIATPTLTAGPTMRRALEIMSDWQPT
+GDTPDAEAFIAYDRAIRQANQERYDTMGDTEHEPDPSCTTHFSVVDAQGNMVAVTQTLLS
+IFGSRMMLPQSGILMNNGIMWFDPEPGKPNSLAPNKRCLANMCPTLLERSDGAQFALGAS
+GGRKIMPAVAELTSLLLDYGMDLNTAFHSPRTDMSMADVTIVDQALPQDVITTLKDTLAH
+VVTAPRTIFPYHFACPSAVARQDGENAGATEVMSAWGDAISAG
+>tr|B7RQX1|B7RQX1_9RHOB
+MSEKAKPLLAAVIKHIRENVDPITDEYYALGEGRADRWSHAPGQLELLETAKKKARENGL
+WNFFLPNAETGEGLSNLDYAYIAAELGKSPLASESLNCSAPDTGNMEVLERIGTQEQKDT
+WLKPLLAGEIRSAFAMTEPDMASSDAKNISTSAVLENGEWVINGEKYYISGAGDPRCKIM
+ITMVKTSPNAEPFRQQSQILVPIDTPGVEIIGPMHVFGHDDAPHGHMHIKFTNVRVPEAN
+MLWGEGKGFEISQVRLGPGRIHHCMRSIGAAEKALDLMIERGLSREAFGKKIIDLGKNME
+TISRAKIEIEAMRLMVLKAAKAMDVLGNKEARIWVSMIKAMVPEKVCNIIDQAMQVHGAT
+GISQWSPLSNMYTSQRTLRYADGPDEVHHHVIARAEVKDYQESNLRTSRAREEIATGRSR
+GGV
+>tr|B7RI99|B7RI99_9RHOB
+MSQKVFEPGISAGRLEADAYAAQFSDLHPPLDPHAALVAADRCYFCHDAPCITACPTDID
+IPLFIRQIATGTPDAAAKTILSQNIMGGMCARVCPTEQLCEQACVREEAEGKPVKIGQLQ
+RYATDHLQEQGKHPFERGEATGKRVAVVGAGPAGLSCAHRLAMLGHDVVVHDARPKPGGL
+NEYGIAAYKTPDGFAQAEVDWLMQIGGITLKNGSALGADITLEGLKADHDAVFLGMGLGG
+VNALGATGENKAGVLDAVDFIADLRQAGDVAQVPIGRDVVVIGGGMTAIDAAVQAKLLGA
+LNVTLVYRRGRDRMNASVFEQDLAASKGVRIVNHAVPVAVHGNGAVREIEFEYVDADMKG
+TGQMLRLAADQVFKAIGQTLEGDALPALEGRKIKVDGTGRTSVDGIWAGGDCASGGDDLT
+VTAVAEGRDAAIDIHMALVG
+>tr|B7RL86|B7RL86_9RHOB
+MPPAGKRLGRRFCKERASIMVSAVESMAANTSWSALGKATDLRNRILFTLGLLIVYRLGT
+FIPVPGIDGTALRQFMESAGQGIGGMVSMFTGGALGRMGIFALGIMPYISASIIVQLMTS
+MVPALEQLKKEGEQGRKKINQYTRFGTVALATLQAYGLAVSLEAGDIAADPGMYFRMACM
+ITLVGGTMFLMWLGEQITARGIGNGISLIIFVGIIAEVPAAIAQFFSSGRSGAISPAVIV
+GVLVMVIVTIMFVVFMERALRKIHIQYPRRQVGQKMYDGGSSHLPVKVNPAGVIPAIFAS
+SLLLLPVTISTFSGNSTGPVMSVLLANFGPGQPLYLLFFVAMIVFFAYFYTFNVSFKPDE
+VADNLKNQNGFVPGIRPGKKTAEYLEYVVNRVLVLGAAYLAAVCILPEILRGQFAIPFYF
+GGTSVLIVVSVTMDTIQQVQSHLLAHQYEGLLERSQLRGKSGKPRKKRSPARK
+>tr|B7RJD7|B7RJD7_9RHOB
+MTINLDSMTHKELETLLEDVKKAIKSAYQRDRVEARKAAEKAAAQFGFSLDEVSGGTTGK
+KPAATKAPAKYANPEDPSQTWTGKGRQPNWYREMVAKGVSPDDLLV
+>tr|B7RLN9|B7RLN9_9RHOB
+MRFVTTTVLALGLGLASVLPATAEQLSLGAISKYLNAMKTAKGDFTQINDDGSISTGTIY
+IKRPGKVRFEYNAPDSGIVIAGSNTVVIYDKKSNQPAETYPLSKTPLSIILAANVNLGQA
+RMVTGHSYDGTATTVRAQDPQHPEYGNIELKFTDNPIELRQWIINNGNGDQTTVVLGDMQ
+KGVSLPNSLFDVSKSPARASR
+>tr|B7RIL9|B7RIL9_9RHOB
+MVRRALPFIKTTILLAFIVFACLPLVQMTIISFVATLPRPDTAVGSLTLGNYANILNDPN
+LRSAFGNSVAYVLINICITIPVAIPAAYAFSRMSFLGDKHLFFAFIAFRITPPVVLTLPV
+FQLFSALGISNSVFGIALAHCLFNLPISIWILQSFISAIPKELDETAFLDGYSKPRFIWT
+FLLPQIAPGIAVTAFFCFMFSWVEVVFARILTTTNGKPISMAINALFGFQTDIGLVMAVT
+LASMIPGAVLVFSMRHHLSRGFKLGRI
+>tr|B7RJ58|B7RJ58_9RHOB
+MHKMKLPLGALLLSLLAAPLAAQDHMVSYAYDGSFEDATFAVENAIIGKGLVIDYVSHTG
+EMLNRTAADVGSDVEIFKAADIFLFCSAVLSRKVMEADPANIAHCPYGIFVTDTKGEVAI
+GYRTYPEGPMQEVQAFLDEIVKSAADGS
+>tr|B7RLN3|B7RLN3_9RHOB
+MKLSARTEELLQIVTVIDDRIDAAVALEFKETMRQLTDGAPDTVILDLSRVTFIDSSGLG
+AIVATMKYLAPGRTLVLAGLTGPVDRVFRLTRMDSVFTLYPTLEAAVHDQALQ
+>tr|B7RPB5|B7RPB5_9RHOB
+MSLWTATEAAAATGGRAVGDWSCDGVSIDTRTLQAGDLFVALKDVRDGQDFVATALEKGA
+GAALVSRVPDGVADDAPLLIVDDVLKGLEALGAAARARTSAKVVAVTGSVGKTSTKEMLL
+AIFADQGRAHASVDSYNNHWGVPLTLARMPVDTDYAVIEIGMNHPGEISPLAILTKPDAA
+MVTTVAAVHLEAFDDVAGIALEKAAIFDGLEPGGVAVINADIDHAAILMAKAVDRRLRDI
+EFGENAYHFKLKDVQVQGDVTVVQADADGTPLLFKIGTPGRHFAMNALGALAVAQAMGAD
+LALAAASLGRWTPYKGRGVREVIHLDSVETRMTLSLIDDSYNANPTSMAAALEVLAASEV
+THDIGRVSKGRRIAYLGDMKELGPDEIALHAGLAHLDATKKLDVIHCVGPLMRSLYDLIP
+AHQRGDWAATSAELLPGLGAHLDSGDVVLAKGSLSMKLGLIVDAIRKMGHPVPNADAG
+>tr|B7RH36|B7RH36_9RHOB
+MRCPFCGNIDTQVKDSRPAEDHVSIRRRRFCPACGGRFTTYERVQLRDLVVIKSSGKRED
+FDRDKLERSIRISMQKRPIDPERIDQMISGIVRRLESMGETDIGSKQIGEIVMEALARID
+TVAYVRFASVYKNFQAADDFDKFVQELRPDVPPEE
+>tr|B7RIF1|B7RIF1_9RHOB
+MTKRALITGITGQDGSYLAELLLEKGYEVHGIKRRSSSLNTQRIDHIYQDPHVKNPKLKL
+HYGDLTDSSNLTRIMSEVQPDEVYNLGAQSHVAVSFEAPEYTADVDANGTLRLLEAIRFV
+GLADKTRFYQASTSELYGLVQEIPQTETTPFHPRSPYAVAKMYAYWITVNYREAYGMYAC
+NGILFNHESPRRGETFVTRKITRGMANIAQGLEECLYMGNIDALRDWGHAKDYVRMQWMM
+LQQDAPDDFVIATGVQYSVRQFIIWSAAELGITLRFEGTGVDERAIVDSVTGDNAPACKP
+GDVVMRIDPQYFRPAEVETLLGSPAKAKEKLGWVPQITTQEMCAEMVAADLKTARRHALL
+KEHGLDLPISLENG
+>tr|B7RMX9|B7RMX9_9RHOB
+MIIPDSAKEKPSEGEVVACGEGARKDSGELIEMAVKPGDKILFGKWSGTEVTLDGEELLM
+MKESDIMGIIS
+>tr|B7RPX1|B7RPX1_9RHOB
+MFLQAVGKISQTLVVLFFVSVASFGLLKLAPGDPIQIMLGSEYSQESYESLKTELGLDQP
+FLAQYADWALRFVQGDWGTSYVARAEIFTYAFKEALPVTLTLASFSLAFAILIGVPLGVL
+SAVKKDTIFDAGSAVLALTGTAFPSFLLGILLIWFFAVKLQLFPVMGYVSPWEDFWLGLY
+HMILPGLTLSTYFIAMITRLTRATLIEVMEQPYIAAARARGEPNWRVVWVHGVRNIAMPL
+VTILGLQLGVLLQGTVLTETVFNLPGIGQMLTSAVLGREYLVVQAGVMMTAALFIGVNLL
+VDLSYPFLDPRLRARK
+>tr|B7RIM6|B7RIM6_9RHOB
+MKLYVRQMAAFAVAFGCLTAPAEAHSKKEATQPADGAVLAMAPDLIGMTFTMPLRVTLVS
+LTDQTGTEHALTRNDNMQPVKNFTAEPDDLPPGEYKVDWRGLAGDGHPMQGAFSFEISD
+>tr|B7RP10|B7RP10_9RHOB
+MTKGAAMKKPKWVVQKEQEKKVEANQTVWLFGLHAVRDALENPAREKLRLMVTPNAQIKL
+EAAIAQAGITPEVVDPRKFRPPLDQGSVHQGAVLEVKPLSWGSLAEVCIGAEAPRVLLLD
+RVTDPHNVGAILRSAEVLGASAVIGMRHHAAPETGSLAKSASGALERQPYLRVRNLADSI
+KELQNMGYLVLGLDGEAEITVEAALEGKRDRPVALVLGAEGPGLREKTKETVDVLVRIDA
+EGGFGSLNVSNAAAIALYASRPHG
+>tr|B7RJL5|B7RJL5_9RHOB
+MLQANISIETNAQLAARRELAVPRGVASAAQIYAKYAENAELWDEDGNRYIDFVGGIGVL
+NTGHRHPKVVAAAKAQEDQYTHTSFQVVPYAPYIELAEKLNALAPGDMPKKTLLVTTGAE
+AVENAVKIARAATGRPGVIAFTGSYHGRTLLTLGLTGKVSPYKKDVGPFPADIFRAPFPS
+QRDGITVEDAIIGLKNLFLTDAQPERIAAIIIEPVLGEGGYTPVPFDMMRQLREICDEHG
+ILLIADEVQAGFGRTGTWFAIEHSGVVPDLITVAKSMAGGYPLAGVIGRADVMDAMAPGG
+LGGTYGGNPVACAAALAAIAAIEDEGLLARSTRMGEHLKARFAEIGARAAPFRMWDIRGL
+GAMVAVEFVTDFESAKADGDFTKRVIAHALKRGLLLLSCGMQGNAIRVMVPLTASDEIVE
+EGLAIFEDAVLAAVADEAF
+>tr|B7RNU5|B7RNU5_9RHOB
+MTASFFIRRIAYGLLLMLGVVILNFLLIRLAPGDPAVVIAGEMGGIDAQMLAAIRADYGL
+DKPLPTQLWIYLSNVVQGNLGESFFFNQPVATLISARIGPTILLVLTAQVLSIVIGMFLG
+VIAARKPNGPLSGFVSVFATIGYAVPVFWTGIMLVILFASVFPIFPVEGMRSVRLRDAGP
+IAQFFDVAHHLVLPAFTLAIIYLAQYARLSRASMMDVLGSDYIRTARAKGATEQSVLFKH
+ALRNAALPILTVAGLQFGNLISGALLVETVFNWPGMGRLAFDSILRRNYPTVLGVLFFAA
+AMVVAANILTDLSYRWADPRLRGRE
+>tr|B7RNE9|B7RNE9_9RHOB
+MTEQKKSDQTRQKILTAGRALISKHGFGAVGLARILKESGVPKGSFYYYFPSKEAFGHAL
+LTDYVSDYLARIDALCAGPGSARDKLTAFWTAWLAQAGSEGIASQCLVVKLGAEVADLSE
+DMRCVLDDGVAKLVDKIAALLVQGAKDGSLIPVDDPQATAQMLYAKWLGAAILSKLSRDE
+TPLRRALSETNSTLSTS
+>tr|B7RRX1|B7RRX1_9RHOB
+MIPAAFEYHRPSDIAGALSVLAEHGDEARVLAGGHSLIPMMKLRMADVPHLIDLQDIADL
+KGITIDGDTVTLGAMTTQHELIADEALFAACPIIREAALQIADPQVRYMGTIGGNVANGD
+PGNDMPGLMQCLDARFTLVGADGTRSVAARDFYESAYMTERDDEEILTQITFSATGAGYA
+YEKQKRKIGDYATAACAALITKDGDKVATAAIAMTNLSDIPVLSEAAAAALVGTSCDADA
+VKAAVAAALEDIDPTEDNRGPVAFKMHVAGIIISRAITRAWSGA
+>tr|B7RJH6|B7RJH6_9RHOB
+MSDPKSHPSRRIVSSRHLAEGEGWEASELEYGMIIAYNAFSRWMSRCMTAAGNPDLTPLE
+ILVLHNTNHRQRDKRLTDICFMLNIEDTHTVNYALRKLLKSGLIEAEKRGKEVFYRTSTA
+GADLIEAYRAVRNTCLIDSLGRTDIKGDDLRNIAAHLRAISGQYDQASRAAASL
+>tr|B7RNH6|B7RNH6_9RHOB
+MSSHATPIPMTSAACGPLSGVAQVPGDKSISHRSLILGAMCVGKTTISGLLEGDDVLDTA
+RAMRAFGAEVTDLGDGNWSVHGVGVGGFAEPDGVIDCGNSGTGVRLIMGAMATSPITATF
+TGDASLNGRPMARVTDPLALFGTQSVGRKGGRLPMTIVGAADPVPVRYVVPVPSAQVKSA
+VLLAGLNAPGQTVVIEAEATRDHTERMLAGFGAKITVKDTDEGRIITLTGQPELQAQHVD
+VPRDPSSAAFPVCAALIVPGSDVLVPGIGLNPTRAGLFTTLREMGADLTYENERTEGGEP
+VADLRARFSPDMKGIEVPPARAASMIDEYPVLSVVASFAQGQTMMRGVKELRVKESDRID
+AMAKGLRANGVEVDEGPDWWAVTGLGHGNVPGGATCASQLDHRIAMSFMIMGMAANAPVS
+VDDGAPITTSFPIFEPLMAQLGAKVTRGAL
+>tr|B7RR19|B7RR19_9RHOB
+MANEDQVRGKARDIGGKVKEEVGDAVGNDKMKRDGQADQVEGKAQKKVGDAKDQVSE
+>tr|B7RIN4|B7RIN4_9RHOB
+MLNQPHLSKRGNTYQWRRRLRRQSTGIVDIKLSLGTTDLRCAHILSRRISAESDIVMEQL
+IHQQITSDMARRWLASVISKEREKIENLKLLHRFDSRDLADDNHHDQATADAWAKVNADG
+LNGATSDQPLVSLNLDIIRNDLTSEARQNIIQRDFKALTGHPQLSAFDRAKLVSLLIAGK
+SAAWNRHEEALADIDTAADDLWDRASQLLAPEPEAPAAPLQLVPAPEVEADTLDPDMHAV
+VSRMNDMKRSEGIEEKTLRQYESFAGLFTTLTGIHDVRQIRQTDATGFRAALYKLPKSWG
+KSPADRNATREEIMARAAKLPPEKVGLSIGTINRHLEHLGQIVEWASDEGISVNPKLKPG
+KLRRKDTVRDCDKKQAFTEAELHRLFKSPVWTGSKSEYHQTDPGTNIYCNGVYWSPLIGA
+FTGARREEIAGLAPADIVERDGIPCLSIEDSEVRRIKNISSKRIVPIHSRLITLGFLDFV
+EEARAKGQAELFPDLREPATGKHGRKLGRRMRQIVDKTFGAEGAGLSFHSLRHYVQAVLE
+HVPEVTDKVLRDIVGHEGKDTHERTYSKPTPPAVLQAAIEKLPAVI
+>tr|B7RNN3|B7RNN3_9RHOB
+MLSLEDVSTPVHKQTSLSEDNNPIYQDIARFRAILFDSMLKPHDMTMSQGWVMVHLVREN
+GLRQSELAERLEVATVTTSKLIDRLEARGYVERRADPEDRRSNRIYATPQAKSLVKIMTR
+TIFEVDEIANEGISEAELETTLKVLRKMRNNLRRGLSKR
+>tr|B7RHI6|B7RHI6_9RHOB
+MSDIKVNAQRAENLIDATRELCTFDWLEEPSASIELSDAVREALVEFPRSDGFEIDLKMK
+KQMCKLPPLSFNSVLRALLENACKHHGSDVGIVRVTNIGTGGALHIQDDGEGIPECYQET
+IFDPFSALKPRDVVEGSGLGLTIARRRAELWGGTLSVVSDCDCKGATFRLTFAEGP
+>tr|B7RIU1|B7RIU1_9RHOB
+MTHADFLEAPFPEPQDLPGLDITGVGRFFNRELSWLGFNWRVLEEAENLRVPLLERLRFL
+SISANNLDEFYTVRVAGLRELAQAGNTTPAADGLTPAEQLVLINENARRLMMTQQRVLVD
+LMAEMDAQNIMLERAADLDKADLKYLEDVFLNQVFAVLSPLAIDPAHPFPFIPNTGYALA
+LQLERTSDKRSLQALLPIPAQIDRFVALPADEGCHRFLPLEDLLVLNIPGLFPGYKLKAH
+FEFRVLRDSDLEVEDEAEDLVREFEVALKRRRRGEVVRLTHSAGAPEKLKSVVMAELGVR
+PQDVIEIDGMIGIDDLSELVIDSRPDLLWPQFTPRIPERVTDHDGDMFAAIRSKDMLLHH
+PYETFDMVVRFLAQAARDPDVVAIKQTLYRTSRDSPIVEALCEAAEDGKSVTALVELKAR
+FDEAANIRQSRRLERAGAHVVYGFIDLKTHAKISTVVRREGNQLVTYTHYGTGNYHPITA
+RIYTDLSLFTCDQKLGRDATKVFNYLSGYAQPDTLDNLAISPITLKPRLLDMIAAEAKHA
+AAGKPAVIWAKMNSIIDADVIDALYAASQAGVKISLVVRGICGLRPGIKGLSENIRVKSI
+VGRFLEHSRIVCFGNGYGLPHKKARVFISSADWMGRNLTRRVETLVEIENPTVKAQITSQ
+IMAANLADVAQSWVMAPDGSFTRPPLEEGTFAFNCHRFFMENPSLSGRGSAGASDVPKLT
+HTED
+>tr|B7RIJ2|B7RIJ2_9RHOB
+MMSLTRTSVMTAALLAGTMGVALAAGLPLGISPVDTGNLPPTGDEWLSENPYRAEAAGEE
+VWLEALEIGESGYIQNCARCHGLEVISGGLAPDLRYLEASEYGDEWYVERFRSGYTQNGT
+TKMPAFGEVLGQDAAWAIRTYIETRPDSDAMEEASDELKAIRDELVAYAKDASAADADAI
+KARLNELAQGIGTMSEAPVADSIAFRAARMIDGSPEAYHLAAETLTIGLSAAH
+>tr|B7RM96|B7RM96_9RHOB
+MSKRSLPRLLQTPAVVLLLLWMLVPLSMTLYFSFIRYVLNSTRRPEWMTPSLSNWRGLGN
+YEYVLFKTKDFWFAIQNSLLIVGSILVLTVILGLAIAVLINRSFPGRGIVRVLLISPFFV
+MPAVNAVLWINMILDPVLGLNGLAVAGLNHIIDGLRAFPVIGNFFSMWPEIEPISFRATQ
+TSAYAVIMMVVWQWTPFAVLIFMTSLQSEDESQKEAATLDGANAWSKFRNLTVPHLARPI
+AIVVMIQSIFHLSLYAEIEIVSRGNGNKNLPYLIGEFTSNNIGAASATGIFAVILANIVA
+IFLLRMVGKSLMD
+>tr|B7RH52|B7RH52_9RHOB
+MKTLRWGILGAAKFALEHMGPAIHAARGAQLVALATSSAQKAEPFQAFAPGLTVHDSYDA
+LLADPTIDAVYIPLPNHMHVEWTIKALEAGKHVLCEKPMALNASEFDRLIAARDASGMLA
+AEAFMIVHHPQMIRAREIIASGTLGRVRHVGATFSFYNDDTTNIRNQAAAGGGGLPDIGV
+YTFGSVRFLTGQEPVSIPYAKIDYANGVDTFAQVAASFDGFDYSATVSIRMFPRQEVVVH
+GEKGVLRLSCPFNAGVHAQAELHLETATNVMTTERFPGANQYVLQVEAFGRSVTEGAAYP
+CPLEFSKGTQAMIDMAYAAGKGA
+>tr|B7RHY3|B7RHY3_9RHOB
+MTFTNRTILITGGNSGIGQALAEGLQALGNRVIITGRKQDSLQTVLDRNPEMTGYVLDVM
+DDIALSAFPDGVLAAHPDLDTVILNAGIMEAEDYTTDPVELDTAERTIATNLVAPIRLAA
+ALLPHLQSRPEAALITVSSGLAFVPKASNPVYSATKAAIHSWTQALRHQLRGTKVAVHEI
+APPLVATELTPGQSKVAAAMPLRDFTDEVLDIMSRDDVPDEILVSRVGFQRNAEAEGRYG
+AAFVAING
+>tr|B7RMG7|B7RMG7_9RHOB
+MAEISARKKIWGWYFFDWASQPFNTLMLTFIFGPYFAQTATAALVDGGMDLVAAKAQAQA
+YWGYGLTVAGISIAILAPTLGAIADSSGKRMPWIWLFSALYVVGSGALWWTAPQDFSILW
+ALFFFGIGLIGMEFATIFTNSYLPELNPDPDERGRVSGSGWAFGYVGGLVALVIMIALFQ
+AGSTGRTMAGLDPLFGLDPATKADTRIVGPLTAVWYAVFMIPFFLFTRDTPKPGLARYEL
+GKGLADLGRTLKNLPRHPSLLAYLGSSMFYRDALNGMYTFGGIYALGVLNWSITEIGVFG
+ILTLISGSIFCWLGGRVDRAVGPMPVIIACCIILTGTSFLIISLTPTSVFWFVVQDGSIL
+PDIMFYIAGALIGAAGGTLQASSRNMLTRQGNPDRMTEAFGLYALSGKATSFMAPALIAI
+ATDLTGSQRLGITPVAGLFIVGLVLLQWVKPNGDFAK
+>tr|B7RI50|B7RI50_9RHOB
+MGFGDMKTHVKALVVGGGAVGTSIAYHLARAGWDDVMLLERDELTSGSTWHAAGLLPYFN
+MSYATTHIHDYSIKFYKTLEEETGLNAGFAVVGNLRMAQTKERMDEYMLYAATAETCGVP
+YEWLTPDQIKAKWPLIRTEDLEGAIYHQTDGYINPADVTMAMAKGARQRGVAIERKWQAD
+AFHWNGDAWEVTVTKMVERGGNLVPSDEQVVITAEHVVTASGNHAQRTAKMLGIKMPAIP
+VEHQFIVMDQDPELVAFRKGEGNVEHPVIRDADAQSYVREERGGWILGVYEKHAPARFEY
+GVPDSFRADLFQLDLDRIEDQYMAMNHRIPSAESCGLKDDFNGPICYTPDGNPLVGPAPG
+LRNMWLAEGFSFGITAAGGTGYYLAQLMVNGEADIDMASLDPKRYGDWMTTEYAARKNEE
+AYEHVYILHHPDEERPACRPLRTSPAYDRQAARGAQFGHVNGWERPNYFAPMGFNDHDSR
+SFRRGGWWQYAVEEAKAIREGVGLIDATAFTKHLVKGPGATEFLNWFTCNKLPSVGRINL
+TYALTSHGTTRTEYTIVRLAEHEYYLVSAGAWTAYDSDYLRKAIEDKAPEFGYIECHDVT
+TQWGVFAIAGPKSRDMLKEIVKDADPETVLSNKRFPWLTTRNIELGMVPVRAIRVAYTGE
+LGWELHHPIEMQNHLFDLLEKAGEKHGMKLVGARAQNWLRQEKSYRAFGTELGRDATPLE
+ADLPRFVDLSKDFYGKEAMQDHGIRAQCVTLLIDGPEDADPWGREVLYHGDTRVGRLTSG
+GYSVAFGKSIGMGYVKPEQATVGTKLKVKMFDQLWDAEVVEDSPYDPKNATIRMDG
+>tr|B7RK62|B7RK62_9RHOB
+MTLAPFVRIVAQGKGRARALTLAEAQEAMTVILEGRAAPEAVGALLMVLRLRGEEPQEIA
+GFTAALRASVADMLPAADLDWPSYAAGRSRGAPLYLLAARLVAQAGVRISMHGHNAFQNA
+TMRAEDIRALVGPQVRYDPLVTLSPEAFRLLDLRADLGLRSCINTVLRMWNPSRAGATVQ
+GVFHPSYRSLQARAASMLGQHRLSIIKGGGGEFERHPSKDIICFGLRNGAHIQQPAPALL
+TETRRLHETGAAVDALALWQGRTQDAFAEATVTGTAALALWTVDPTTTVAQAQIKAQDLW
+ANRAAYEGCRV
+>tr|B7RM30|B7RM30_9RHOB
+MSDVNNATTALDAERAEKEYSGPMLAADGTPLKRSLNRALRRQKLRALLLIAPLLIFVLV
+TFIAPIADMLFRSVENEIVQDTLPRTTEALEQWSGEDGTTPDAPVYKALYQDIYIAQERK
+LHTRLGSRLNYELTGASSLFRKSGRGVDDIGEVYQDQFEDLNEFWKKGENWNEVLGSDAW
+LAQIKDWDKSAGTPQPAFEMRDGIADIFPQTAGYYMIFADFVQNEDEDNLYKEDPWPLIY
+SAFYDDLTGDTASVIASYSGPGATEIAEAAAAATGFETVDYKEAFTKIDKDWGASPIWGT
+IRAYSPRFTNGYFLNSIDMQKSADGAEFRPENERIYGTLFLRTLFMSVCITLSCILLGYP
+VAWILANLPARTANLLMILVLLPFWTSLLVRTSAWKVMLQQQGVVNDTLVWLGVVADDSR
+LALINNQTGTIIAMTHILLPFMILPLYSVMKTVPPSYLRAAKSLGATNWTAFWRVYFPQS
+VPGIGAGSILVFILSIGYYITPEIVGGTTGTFISNRIAYHISSSLNWGLAAALGAILLAV
+VLGLYYAYDKIVGIDNVKLGG
+>tr|B7RNW6|B7RNW6_9RHOB
+MTDTMKHIVLASRPDGAPTADNFRLEEAPVPTPGDGEVLVRVHYMSLDPYMRGRMDDAKS
+YAAPVPVGGTMEGGSVGEVIASNSPDFKPGDFAFGMFGWATHGVQPAKMLRKVDPAQAPI
+TTSLGVLGMPGFTGWQGLMEYGRPKSGETLVVAAATGPVGSMVGQIAKSLGLRVVGIAGG
+AEKCATAKDHFGFDECIDHRAYSDAKSLSAALKEACPKGIDIYFENVGGKVLEAVIPLMN
+PHGRIPICGMIAWYNAGGLGANAAEQALTAPKLWRTILVNFLSVNGFIISNHWGNFPTFL
+KEVAPKVADGSVAVQEDITEGLENAPQAFMDLLTGGNTGKAIVKVG
+>tr|B7RPD7|B7RPD7_9RHOB
+MSKPSDNPADAFKKALAEATKVMSHDPDLTVSYSVDPSGLSGDAMRLPQVSRRMTRDEVL
+LARGTADALALNRRYHNGQTHSKYLPNGDMARELYEAMETARCEAVGARDMPGTAGNIDA
+KIKYDSLRKGYDQAKQPSDVPLATAAGYLVRHLATGRDLPTGASNAMELWRGYIEEQAGS
+TLETLSDTLDDQAAFARFARKMIVDLGYGDQLGDDPDQSDEDQDSAEEEGTEEEQDPDST
+GQDDQDDEEAEASPEQSQEEQQDASQAQVSMDDMADQELGEEAEMPDGDAPMEPPAPPQA
+SDADPNYLVYQTDHDEVIGAEDLAEPAELERLRAYLDQQLEPLKGAVSRLANKLQRRLQA
+QQNRSWEFDLEEGTLDAGRLARIVANPTTPLSFKMEKDTEFRDTCVTLLLDNSGSMRGRP
+ISIAAICADVLARTLERCNVKVEILGFTTRAWKGGQAREAWLNEGRPVQPGRLNDLRHII
+YKSADAPWRRTRPNLGLMMKEGLLKENIDGEALEWAHRRMIARHESRKILMVISDGAPVD
+DSTLSVNPANYLEKHLRDVIAMVEKRKAVELLAIGIGHDVTRYYDRAVTITDVDQLAGAM
+TEQLAALFDTDPRARARVMGIRRAS
+>tr|B7RLU7|B7RLU7_9RHOB
+MEFDYIIVGGGTAGCVLANRLSANPKTRVLMLEAGKSDNYHWVHVPIGYLYCIGNPRTDW
+MMKTAAEPGLNGRSLSYPRGKLLGGCSSVNGMIYMRGQAADYDGWRQMGNTGWGWDDVLP
+YFLQSEDHHDEAKPLHQSGGEWKVSPQRLRWDILKAVQEGAKEFGVEPTSDFNTGTNEGS
+GFFEVNQKNGVRWNTAKAFLRPAMKRPNLKVMTQAHTHRITLDGKRATGVEFEHKGQIVH
+ATARAEVILAAGAINSPKLLELSGIGQPDRLSDLGVTPLHDLQGVGENLQDHLQIRTVFK
+VTGAKTLNETVNSLWGKARIGLQYAMTQSGPLSMAPSQFGMFTKSDPSLETPDLEYHIQP
+LSTDKLGDPLHPFPAITVSVCNLRPDSVGATHIDSTDINRQPDIRLNYLSAERDRMVAVQ
+SIKQARQLMTAEALARYSPTEMLPGAHIASDAELLREAGNIATTIFHPVGTCKMGSDDRA
+VVDTQLRVHGMDGLRVVDASIMPKIVSGNTASPVIMIAEKAAKMILAQAR
+>tr|B7RLE3|B7RLE3_9RHOB
+MNPDQPIVVAGAGAIGCFVGGLLAARGHPVTLLGRPRILDHIRSHGLSLTDFDGLDRVVR
+AADVTLSEDPTCLADARIILVCVKTGDTATVAQAIASHAAPTATILSLQNGMEAVQVLRQ
+YLPQFDLRAGMVPFNVVPKALGCYHRATSGGIVIEAGPKDIGKHLGSPDLAFAETCQIEA
+VQWGKLLINLNNALNALSGLTLQAQLLCRPWRCIMAAQMAEALRVLKAHGISPASTTPLP
+ADLIPWVLRLPTPLFSRVAAKMLTIDPTARTSMSYDLEAGKATEIDALQGAIIDMGAQKA
+VPTPICTRVSRRIKQARDAGQGLPDLMPSDLS
+>tr|B7RLJ8|B7RLJ8_9RHOB
+MSITLEEKARVMKEFATKEGDTGSPEVQVAILSSRIATLTEHFKTHKKDNHGRRGLLKMV
+ATRRKLLDYVKGKDEARYQDLIKRLGLRR
+>tr|B7RQB9|B7RQB9_9RHOB
+MSDEDEIILADLDDEELVQQMFDDLYDGMREEIEEGVNILISRGWAPYDVLTKALVGGMT
+IVGADFRDGILFVPEVLLAANAMKGGMAILKPLLAETGAPRVGKMVIGTVKGDIHDIGKN
+LVSMMMEGAGFEVVDLGINNSVEKYLEAMETEGPDILGMSALLTTTMPYMKVVIDTMIEQ
+GIRDDYIVLVGGAPLNEEFGKAIGADAYCRDAAVAVETAKEWVGRKHNSAKA
+>tr|B7RJ96|B7RJ96_9RHOB
+MSRTIKAAAVQIAPDLTSRDKTMARVLDAIDEAAGNGADLIVFPETLVPFYPYFSFVLPP
+CQQGKPHLNLYEQAVTVPSDDTRRVAERCAHHGVVVVLGVNERDHGSLYNAQLIFDANGT
+LLLKRRKITPTYHERMVWGQGDGAGLQVVDTRVGRIGALACWEHYNPLARYALMTQHEEI
+HVAQFPGSLVGPIFAEQIEVTMRHHALESGCFVVNATGWLTDDQIESITADPALQKALRD
+GCMTCIVTPEGRHVVPPLTSGEGILYGDLDMALVTKRKRMMDSVGHYARPELLSLHHKTD
+LTPTRHVSATGPQFQPIPLED
+>tr|B7RM27|B7RM27_9RHOB
+MSKIPSKPEILDWIAANPTLTAKRDIAKAFGIKGAARIDLKRVLKELEDEGHLEKRKRSY
+QDPDRLPPVSVLQITGPDDDGDLFAKPMEWQGTGKEPIVLVIPRVSDPALGAGDRILARL
+TLVTAQDHHYEARLIRRIGANPQRVLGVFRLRAEGGRIVPIDKGSDKEWVVAADAMYGAK
+DGELVEAELAGPKGRMGLPRARIVDRLGDPSAPKAVSLIAIHQHGIPDSFPDDVIAQADA
+AKPVGLKGREDLRDLPLITIDPSDARDHDDACFAHADEDPKNEGGHVIWVAIADVAAYVT
+PGSALDHEARKRGNSTYFPDRVVPMLPDRLSGDLCSLHEGVPRACIAVRMVLDADGQKIS
+HRFHRGLMRSPASLHYEEVQDAIDGRPNDRTGPLLEPVLEPLYAAYAALKKARAKRQPLE
+LDLPERRIELDPDGTVKSVNFKDRLDAHKLIEEFMVLANVAAAETLLEKKTPLLFRIHEE
+PSPAKLDALRETAQASGYTLAKGQVLHTRHLNKLLNDAAGTDDAELINISTLRSMTQAYY
+GPPHIGHFGLALRSYAHFTSPIRRYADLVVHRALITAHGWGKDGLSPHDIEDMEQTGAHI
+STTERRSMVAERDTTDRYLASYLSERVGNEFSGRISGIARFGAFVKLDETGADGLLPMRS
+LGREYFHFDQEAGTLMGSDTGLMISIGQRVTVRLTEAVPVTGGIALELLTLEGDALPKGG
+RGGPAGRTNPKRKATKAKRKTDKVKRKVKRSRR
+>tr|B7RL70|B7RL70_9RHOB
+MRLQVNRTWDSRWYADTKDYGDLLLEDLAIRAFIKKECAQAGIARVIIERPHKKCRVTIH
+TARPGVIIGKKGADIEGLRLKIAKMTKSDLHLNIVEVRKPELDAALVGESIAQQLERRVS
+FRRAMKRAVQNAMRMGALGIRVNVAGRLGGAEIARTEWYREGRVPLHTLRADIDYAHVEA
+MTAYGIIGIKTWIFKGEIMEHDPAARDRKAQEMQDGPAPRGAGGRR
+>tr|B7RLB1|B7RLB1_9RHOB
+MSSKNIERLGDDRTGAGGQALPFAPAVRAGDFVFISGQVAMKENGEIEAGGIESQTRKTM
+ENLIAALALADCTLEDIAKCGVWLDDPRDFWTFNKVYASYFPNGGPARSTVRSQIMVDAK
+VEIDAVVYKPLG
+>tr|B7RRK2|B7RRK2_9RHOB
+MNSVPPLSLLVFSDLDGTLIDHQTYSADAASPALDALESCGAGLVMASSKTGPEIARIRD
+ALGWSDWPAIVENGAGVLPPRDMGQGDTAQYDLLRGHLDTVPQPLRILFRGFGDMTETEV
+SEATGLSIDAAALAKSRAFSEPGLWLGTDAQRAAFLDHLDGRGVTAREGGRFLTLSFGRT
+KADRMAALIEHYRPDHTIALGDAPNDIEMLEAADTGVIVANPHRAPLPLLQGEATGRIQR
+TALAGPQGWNQAILALLDTLKLS
+>tr|B7RRU1|B7RRU1_9RHOB
+MWRDKFAGLAGLPGTATALLDRHARFVPLKQGTVIFGPGNPAKDLLLLVSGTVRVQQRSA
+DGREIVLYRVHAGESCVLTTACLLAFENYTAEGIAETFVEAILIPREVFDKLMSVSKEFR
+AFVFEAYSKRITDLFQVIEEIAFKRMDIRVAQKLLELQGTKSVLHLTHQQLATELGTARE
+VVARQLKEFERRGWVSMSRGEIDLRNGPAIRRLAQSP
+>tr|B7RKH1|B7RKH1_9RHOB
+MEIIVGFSRAVRVGNFIAVGGTAPVDTNGQTVGVGDVFKQTKQCFEIIKAALEQAGSGLQ
+NIVRTRVILTDIDNWKDAIEARKLYCLDARPVDTIMAINRFVNPEWLVEIEVDAVVPD
+>tr|B7RPI7|B7RPI7_9RHOB
+MFNASMKFDLGDDVNDLRDMVHRWSQERVKPMAAGIDQKNEFPPELWKEMGDLGLLGMTV
+DEEYGGTGMGYVAHTVAVEEIARASASVSLSYGAHSNLCVNQISLNGTPEQKAKFLPGLC
+SGAHVGALAMSEPSAGSDVVSMKLRAEKRNDHYRLSGNKYWITNGPDADTLVVYAKTDPD
+AGSKGITAFLIEKSMKGFTTSPHFDKLGMRGSNTAELIFEDVEVPFENVLGEEGRGVRVL
+MSGLDYERVVLAGIGLGIMAACLDEIMPYMAERKQFGQPIGSFQLMQGKMADMYTAMNSA
+RAYVYEVAKACDRGEVTRADAAACCLYASEEAMKQAHQAVQAMGGAGYLSDNPVGRIFRD
+AKLMEIGAGTSEIRRMLVGREMMGAMA
+>tr|B7RPX3|B7RPX3_9RHOB
+MIIRAAENIFESLIDEIMAGRMVPGEPLVEQTLAAQFGVSRTPVREALHRLEQARLAERG
+ARRAYVVRRMAPEDLAELFEATGEVESTLAALAANRMSEIERRRLTAVLDEGDACDDPTA
+YSEINSRFHEIIKSGARNSILAATLDELNLRTVAWRAANFREDSRRLASSRVEHRSITQA
+IVAQDADATRRLMCSHVASSYMVLADILSRRAP
+>tr|B7RRL8|B7RRL8_9RHOB
+MLSALSEIADNPADMIIDVRSPSEFAQDHIPGAVNLPVLSDEERALVGTIYTRESSFKAR
+KIGAALVAQNAAAHLNGPLADKTGGWQPLVYCWRGGQRSGAFATILDQVGWRVQLLEGGY
+RSYRRLVVDALYETPLPHRITLIEGGTGTAKTRLLHHLAAVGEQVIDLEGLANHRGSLFG
+SQPGGQPAQKMFDTRLAQAFGRLNPSRMTWVEAESSKVGARMVPAAVWHAMCAAPRIEIT
+ASTAARAEFLSTAYKDLTDDIGRLHSQIDRLRPFHAGSTIAAWHALADDRDWVALAGALI
+SHHYDPRYAKSIARSEKAVQTISLDDLTDATLLRTAQQLAQTVS
+>tr|B7RQ70|B7RQ70_9RHOB
+MAELMNPIKNRKSDVVRAARLSVAPMMDWTDRHCRYLHRLMSKQTLLYTEMVTSPALVRG
+GALHLLDHSPEEHPVALQLGGSDPAELAEAARLGAQAGYDEINLNVGCPSDRVQSGSFGA
+ILMEQPALVAKCVAAMSRAVDVEVTVKCRIGVDDQAPETVLPEFLAHIVGAGCERVTIHA
+RKAWLKGLSPKENRDIPPLDYDLVHRMKGLFSNLHISVNGGITSLDQAERFLDGGLDGVM
+IGRSAYHSPADILCQADRRIYGTGSDTTAEDAVQQMLPYIDAHIDGGGRLNQITRHMMGL
+FAGRPGARIWRRHLSENASGPAANRQVLLDALDAMQTLAAAQDQV
+>tr|B7RJL1|B7RJL1_9RHOB
+MTPFAIAGVQMYVHALESNVAGMLQRLDILMTRFPWTQMVLFSELAPFGPLDQFALPPEN
+ETLEIFQAAALKHRIWLIPGSLFLKDPEDGRVYNTSVVINPEGEIIRRYAKMFPFRPYEA
+GIAAGTDFCVFDVPEVGRFGLSICYDMWFPETTRQLSSQGVEVLLHPVLTGTTDRDAELA
+IARATAVQFQCYVIDVNGLGAGGIGKSCVVDPTSMVLHQSGGQEDMFPIEIDLSMVRRQR
+ETGMKGLGQVLKSFRDRSTDFSIYDRNSGTDAYLNTLGPLEVPQQGSRAGLFVDVPAQRV
+PDVPAFKGHDATPGFTQPQPEFAPEPLANETAGTAAIHAHAPAAVPAVPTAATPNPHVKP
+GTLAGTGEPSSG
+>tr|B7RJ59|B7RJ59_9RHOB
+MSKFLKSLTIGAVAAVLAVPAVAQTYGLGRPALPEEIAAWNLDIHPDGTGLPEGQGDAII
+GEEIFATKCAACHGDFAEGIGNWPKLAGGMGTLDHKDPLKTVGSYWPYLSTSFDYIRRSM
+PYGNAGTLTADETYAIVAYILYSNDLIEDDFVLSKETFLDVEMPNADGFILDDREETELA
+IWSGEPCMTNCKENVEVTMRALVLDVTPEETTTDASTEEAATEETAVTTETAEVAAQEEA
+VPAPEVAAIDPALIADGEKVFRKCKACHQVGDGAKNRSGPILNGVMGASAGHIDGFKYSK
+SLMEKAEEGLVWNAETIAEFLAGPKKYIKGTKMGFAGLKKEDDIAAVIAYLSTFSDK
+>tr|B7RRV6|B7RRV6_9RHOB
+MRIVVSLGGNVLSKRGEALTAAIQRASIRVAAQSLAGLLDAGHEVVITHGNGPQIGYLSL
+QGGSFPLDVLGAETDGMIGYVLQQELDNAYAPAANYATLLTQIEVDPKDPAFQAPTKFIG
+PIYTEKDAARLSAQRGWTIGQDEGHFRRTVPSPRPKRILELDVIRMLLRQKVVVICAGGG
+GIPVVQKPDGTLIGIEAVIDKDHASGLLARALHADAFLMLTDVEGVFSDWGMPDQAVINR
+ATPDGLADMSFPAGSMGPKVEAACDFVRATGGFAAIGRLSDCSTLVAGSTGTRISLATTV
+P
+>tr|B7RG41|B7RG41_9RHOB
+MPEVIISIGGRQFEVACQEGEESYLHAAAKMLDDEAQILSDQVGRMPEARMLLMAGLLLA
+DKTASVEDQVAEVRAELAEREAELAGLRNVVVEPTRVEVPVIPASVQDGMAEIAARAEAL
+AAEVEEKAAG
+>tr|B7RH74|B7RH74_9RHOB
+MATADLLTMDNKKQAEKQKALDSALAQIERQFGKGSIMKLGAPGAIQDIKSSSTGSLGLD
+IALGIGGLPMGRIIEIYGPESSGKTTLTLHCVAEQQKAGGVCAFVDAEHALDPQYARKLG
+VDIDELLISQPDTGEQALEIVDTLVRSGAVNMVVVDSVAALTPKSELEGDMGDSSVGVQA
+RLMSQAMRKLTGSISRSNCMVIFINQIRMKIGVMFGSPETTSGGNALKFYSSVRLDIRRI
+GALKDRDEVVGNATRVKIVKNKVAAPFKQVEFDIMYGEGISKMGELLDLGVKAGVVDKSG
+SWFSYGDERIGQGRENAKTFLRENEAMAMEIEDKIRAAHGLDFDGSEKDDIDILEA
+>tr|B7RK15|B7RK15_9RHOB
+MNIDPRLRLRHISTFLEIAQAGSIVAAASQLGVTQPAVSKTLRDLEDILGQPLFDRTARR
+LRLNSAGQRFQKLAGAAMTTLLRAQMQAKSKTQARTRLTIGALPTAATRLVPAATIRFRA
+THPHCLIRVTTGPNWLLLSQLREGSLDLVVGRMAEPDRMEGLSFRQLYTEDVVAVVRADH
+PLKDRFGPDALIQFPLVLPPPGAVIGPLVRSYLRSIGIDDIAPAFETVSLAFGRQILDQT
+DAIWFISRGVVAEELGTGSLRALSLNAPMMAGPVGISQRAGLSDSPEITAMITALHSAIS
+R
+>tr|B7RPH1|B7RPH1_9RHOB
+MPVKNRFAELHDDITAWRRDLHEHPEILFETHRTSATVAEKLRAFGCDELVEGIGRTGVV
+GVIKGNSTASGKVIGLRADMDALPIHEQTGVEYASKTPNAMHACGHDGHTAMLLGAAQYL
+AETRNFDGTVVVIFQPAEEGGGGGREMCKDGMMDRWGIQEVYGMHNWPGMPAGSFGIRPG
+PFFAATDLLEIEVEGLGGHAAKPNETIDTMVVTAQMITALQTIVSRNADPIGNIVVSITS
+IESSSKAFNVIPQRVNLMGTVRTLSNDLRDLAEKRVTEICEGIAATFGATAKVNYIRNYP
+VMVNHDEQTEFAAGVARSVSGQCDEAPLVMGGEDFAFMLEERPGAYILVGNGDTAMVHHP
+LYNFNDDVIPAGCSWWAGIAEQRMPMG
+>tr|B7RIV9|B7RIV9_9RHOB
+MRLKDKPRRCAVPHGILDPPETHEKELGMQAEFIIVGAGSAGCAMAYRLARAGRKVLVIE
+HGGSDAGPFIQMPAALSYPMNMKRYDWGYTSEPEPHLGNRRLACPRGKVIGGSSSINGMV
+YVRGHAMDYDHWADQGADGWGYADVLPYFKRMETWHHNGHGGDPDWRGTDGPLHVSRGPR
+ENPLFEAFVAAGKQAGYEATDDYNGEKQEGFGPMEQTVWKGRRWSAANAYLRPAQKTGNV
+EVIRALAQRVVIEDGRAVGVEVRRAGKREVLRASGEVILAASSINSPKLLMLSGIGPAAH
+LAEHGIEVVADRPGVGQNLQDHLELYIQMAASQPITLYKHWNIFSKAVIGAQWLFTKTGM
+GASNQFESAAFVRSRAGVKYPDIQYHFLPIAVRYDGQAAAEGHGFQAHVGPMRSTSRGAV
+TLASSDPAEDPKIFFNYMSQEKDWEEFRNCIRLTREIFGQDAFKPFVKHEIQPGAALQTD
+AELDGFIREHAESAYHPCGTCRMGRADDPEAVVDPQGRVIGVDGLRVADSSIFPRITNGN
+LNAPSIMVGEKISDHVLGLDPLAASNDAPWIHPDWETSQR
+>tr|B7RG47|B7RG47_9RHOB
+MTIKVGINGFGRIGRCTLSHIAASSRDDIEVVRINATGPLETAAHLIKYDSVHGRFPNDV
+KVGNGTLDLGRGPMEVMSTYDMKELNWDGCDVVLECTGKFNDGNKANVHLERGAKRVLLS
+APGKNVDRTVVYGVNEGDLVASDTMISNGSCTTNCLAPLAKVLHEAFGIEYGIMTTIHSY
+TGDQPTLDRRHDDLYRARAAAMALIPTSTGAAAALGEVLPALKGKLDGTAMRVPTPNVSA
+VDLTFRASRDVTVEEVNAAMQAAANGPMGRVLAYDPEQKVSIDFNHTEHSSIFAPDQTMV
+VANRMVRVLAWYDNEWAFSVRMADVAVAMGKLG
+>tr|B7RM92|B7RM92_9RHOB
+MNAAAQPPVHATQYDRSACQVGVVHLGFGAFHRAHQAVYIDDYMETSGDLRWGIAAVNLR
+GSESGHFDMAKADIARHDGYYLKSYSADGDEELRRVRPHVHFADWSVAPADAEALLAKPT
+VHLVTITVTESGYYTAPDGNLNPADPFLRAEIAGGAPRSVYGYLRAALGQRAAGSGSPLT
+IACCDNIRQNGKMLRRTLLAYLEACDDQTLATWVAANVAFPCSMVDRITPRSPAALGPEI
+SGQVGADVTAPVMAEDFIQWVLQDSAAAEMPDLAQAGVTVTPNVDPYEETKIRVLNGGHT
+ALTYMAALEGIETFDAAMRVPDLNAHFRNFETREVLPALTLDLPFSKEAYLEDIARRFGN
+RAIGDTVARICADGMAKFPIFIRPTILGCFEQGFVPVHAIRSIAGWYVFARHVAAGRIPF
+DYLEPGWDDLNAMLGSDAFVTNQQLWGDLPETYPAFAETLRHEIKELEIKWPV
+>tr|B7RH20|B7RH20_9RHOB
+MRLRFFPAGMRGKIWRAILLPMTGLIVVACIIPAFFYHDAAQTDLENRVDRLAAINAVPI
+QTHLWQYDLGTVQEMIDSYVELGVISAAQVTDGQGINLTAGRFGQSGAAYSLEVPLFGQG
+QSGARQIGTMRLKASKSEIWQTILFRLSATVLIALGFVFLTALVILRLLNRSLLRPILQI
+SDTLKDLPKDWQNLKLDLTDRHQVRQPDELTVLVDAIHAMRDQVLAAQMAGETSEKRLAR
+AAKLTRLGYASFDVAQDRFLECDEFFAESCNMTIEQVLAMDVRRDFVGNILRDEDPEKLH
+HHEQMFRNGRTVETVVKYSLGNNEVRFVRQILHPTPNPATDQPVVEIVSLDVTDQHIAEE
+QLLQAQKLDAIGKLTGGVAHDFNNLLAVISGNIELTLLTLESPSERSYLEVALSAVTSGA
+NLTHQLLSFARKQPLSPESFDAAMVIKQSSALLRTSVGDAIDLEIVAGGGLWKAFADPEK
+LKTTLLNLVVNGRDAMPDGGALSIEVSNTRLDRDYANHNAEVKEGQYVCITVTDSGQGMG
+DETIQRALEPFFTTKGVGKGTGLGLPMAFGFAKQSGGHLKIYSEIGKGTSVKLYLPRSKT
+QDEDKRPDRPTPLRAKFEGMTVLIVEDNTDLRKTYGAMLDRMGCRVHSAADGPSAVEIAQ
+TLPHVDLILSDEVLPGGMDGNQVARRLAEFYPKAAVIFMSGFTENSIIHNGRLDEGVTLL
+QKPFTANDLAAAILAVEG
+>tr|B7RK35|B7RK35_9RHOB
+MIKDAYKLTATEALALCASGKLTSVELVKSCLAQITATDDAIRAWAYLDQEAAIAQAQEC
+DRIRRAGMTIGALHGIPVGLKDIIDTADMPTARGTPIFAGRQTDHDARLVELLRGAGAVI
+MGKTVTTEMAFVHANDTRNPHNPDHSPGGSSSGSAAAVGAHHVPLAIGTQTNGSVIRPAS
+FCGTFGFKPTRGVVSRTGLLQTSVSLDQVGCFGRSLADVALLTDVIGGYDGSDATSFARP
+RPDMSAGAAEDAPVTPELVWFDLPFNDRLSADAQEGLEAVLEILDPQVTRMEPADTLSNL
+VAVQARIHEYEICQHQAEVFEGHWDQISETLKPVITRGNQITRAEYEDALAVKASAEAFF
+DNFFVEFDAIIAPSAAGEAPKFGAGTGDPIFCTLWTLAGLPCISLPLLVGETGLPIGVQL
+IGPAEKDNRLLRTARWLQTQLADAAE
+>tr|B7RK98|B7RK98_9RHOB
+MRITMAERPFQIDAFVVLPNHLHTVWTLSPGDADFSVRWRAIKSRFTREVRRVAVKDIKE
+QDVFMGDMPLMTPNGTFVVNGTERVIVSQMHRSPGVFFDHDKGKTHSSGKLLFACRIIPY
+RGSWLDFEFDAKDIVFARIDRRRKLPVTTLLYALGLDQEAIMDAYYDTVTYTLKAGEGWV
+APFYPDRVRGTRPTYDLIDAATGEVLFEKGKKVTPRAVKQLVDEGKVSELVLPFEHIVGK
+FAARDIINEETGAIYVEPGDEMTLEYDKDGXXXXXXXRAIAVKATQASGNGGFGSVPSSA
+PSFPFCWTH
+>tr|B7RP92|B7RP92_9RHOB
+MMLYYRPLVQIGPARPDAALTLAGGWGWFTHVEVLSRNAPARIIDADQVPAPILGRLTAA
+RPDIAGLSMGRPQIMGILNTTPDSFSDGGQHADIGDAVAAGQAMQAAGADMLDIGGESTR
+PGAADVAPQEEINRTAPVIAALRAAGMDLPISIDTRKAAVAEAAIGMGANLVNDVSGFTF
+DPGLATFCQKHGLPVCVMHAQGDPATMHLNPSYDDVLLDVYDALEGQIAALEMTGIPRGA
+ILADPGIGFGKTQEHNLALLARISLYHMLGTPLLLGVSRKKFIGTIGEAPEPRDRTAGSL
+AVGLAGLSQGVQMIRVHDVRETRQAVALWHAAYFGSIL
+>tr|B7RSK3|B7RSK3_9RHOB
+MHLLEQNPELSQRQLADALGISLGAVNYCLRALVEKGEVKIRNFRAADNKLRYAYILTPK
+GIRRKSLLTAGFLQRKLREYNALKDEIAALKSEAGTKDQGS
+>tr|B7RJG0|B7RJG0_9RHOB
+MTETTILAAYGLLVLLTILLQVLGGMQQLSLGYLMSSRDESRTVTGMTARLGRALNNSVV
+AMALFAPAVLILVLLDRTSSASLLAAQVFLIARIVYLPVYAFGIPAVRTLAWLAGFAATA
+FLYLLAL
+>tr|B7RLZ6|B7RLZ6_9RHOB
+MQATWTKIRERLLKTVGKNNFTTWIDPLAVGPVEDGISTLFVPTNFFGNYVSQNFADLIL
+HEMQSEDDKITRLKFAVNRSEKTARPDAPQPRAQAAAPAPASPPANAPLNTAPLDARFSF
+DNFVVGKPNELAHAAARRVAEGGPVTFNPLFLYGGVGLGKTHLMHAIAQELQIRKPELNV
+LYLSAEQFMYRFVQALRDRKMMDFKEIFRSVDVLMVDDVQFIAGKDSTQEEFFHTFNALV
+DQNKQIIISADRAPGEIKDLEDRVKSRLQCGLVVDLHPTDYELRLGILQSKVETQQKNYP
+GLEVEAGVLEFLAHRITTNVRVLEGALTRLFAFASLVGREINMDLTQDCLADVLRASERK
+ISVEEIQRKVSEHYNIRLSDMVGPKRLRSYARPRQVAMYLCKKMTSRSLPEIGRRFGGRD
+HTTVMHGVKRIEELKQNDAQIAEDLELLRRALEA
+>tr|B7RPV5|B7RPV5_9RHOB
+MTPRTPIWKAIATSLQSDIAEGLYGPGDKLPTEAVLAARFGVNRHTVRNALAHLAQDGLV
+HARRGAGVFVTMTPTDYPIGRRVRFHQNLRAAGRTPAKKVLLLETRLAHASEAEALNLEQ
+GAQVHVYEGLSLSEGRPIALFRSVFPATRFPTLLTRLGSDPSVTAALRHFGVADYTRAST
+RVNAKLATAIQALHLQISEHAPVLRTISVNVDPDGHPVEVGRTWFAGDKVTLTLADA
+>tr|B7RQH3|B7RQH3_9RHOB
+MPGGDPWDGRTLEWATPSPVPEWNFAFLPEVKCQDAFAVEKAQGKAYKIEREDFEDIELA
+PKSWIGLTIIVFGTLLGFAMVFWIWWLAVLSAVALLAHAIGLGFVRDEGEIIPADVVERT
+ERDWIAAARQGQCTDRTDEVSARNRGFSARITEA
+>tr|B7RRS4|B7RRS4_9RHOB
+MIKSGKTLTIVISILCFGAVVLGCGVIWTLRDRVYQIRTAEQSDPLWIASRLQFELLNFN
+AELAEYAIGSRTARDVSLRFDILWSRLNMMQKGKMAEVIKEAEADSTGLVEFEHVLQEID
+PLVQSLSGSEPLGIAKQNIAKRILLETTPYNLTFKELSLSMAQAKSRLMSDFRNGLVSLS
+RAIAYLGVVILVLASTVVVMLVADVRLNKRKSIELQQLVAEVEASARMKETFMSVVSHEL
+RTPLTSILGGIRIFDAKYGEELGEARMKLIKIAHRNSERLLSLVNDILDAQSLSEGKANL
+KMEYLNLETIISSTIEECEGYTAEKDIKISFKKSAPPTLVSADMARISQVITNLLSNAAK
+FSPSGSTVIVSTCLFGPDVRVEVTDQGVXXXXXXXLPFGLLCLCPKTPKTGWVRFSAITM
+I
+>tr|B7RM29|B7RM29_9RHOB
+MVALTPISRKPVSFYVPVVAAAGAVAGLFVGTANGSGLLGILIGAVIMGALAFVLTQIVK
+NEQISRWATIVALGIVGFLMGGIPAMLIGAAFGWFFSWFSFWLYEGRYRAKIPPYLTPGQ
+VLWHYAFRVICGAIFVFLITPILVVMPLSFNAENFFTFTPEMLRFDPAGYSLKHYQDFFN
+SSDWQGAVWNSLKIAPAATLLSVSFGTLAAIGLSQPHVPFRRAIMAVLISPMIVPLIISA
+AGMYFFYSRVGLQGTTLGVILAHAALGIPFVIITVTATLVGFDRSLTRAAANMGANPVTT
+FFRVQMPLILPGVISGGLFAFITSFDEVVVVLFVGSAGQKTLPWQMFTGLREQISPTILA
+VATILVGISICLLTVVELLRRRSERLRGMSPG
+>tr|B7RRX5|B7RRX5_9RHOB
+MSKVTRFAAADPGPAARVSGFMAHLREHGFRLGVAETETALQALSCVNPIVPSDARLALK
+SVCAGSVEDIAQFDLLFDAFWMAEGRVCQKVVPTDHVKPIENTKSSRTDTTQATQDTGAV
+HAPEDGAEGSESHSEGTGKLVASKVTNLMKKDLRELVSAEDIRAAELVAIRLGKALKDRR
+SRRRKAAKRGASIDLRRTMRQSLASGGEPLRLARRTRPDRPLKIVTLCDVSGSMMDYARP
+FLAFLAGLMRADSASDAYLFHTRLVRITNALRDDDPLRALNRITLLADGFGGGSKIGANL
+QQFADSYARHFVDGRSVVIILSDGYDSESPEVLGTALAKLKRRDCKIIWLNPLKGWKGYE
+PVARGMAAALPHLDAFAAATTLNDLAALEHTLARL
+>tr|B7RML8|B7RML8_9RHOB
+MVALVFAALAAVASRAEFGSGLGSADWAAIRFTAMQALLSALISTLLAIPVARALARRRF
+WGRGVLVTLLGAPFILPVIVAVLGLLAVFGRAGWLNAGLSAIGMPTVSIYGLHGVVLAHV
+FFNLPLATRLLLQAWHTLPAERFRLAAQLNLTPRAVFLSLEWPMLRQIVPGVAALIFVIC
+LTSFAVALTLGGGPRATTIELAIYQAFRFDFDLSRAALLSLVQLGLAGGAAVLALWIIPS
+VSLGGGRDRPLRRWDARGGWQRIPDILAIGTGAAFLLLPLCAVVWRGLLGLPATPTSVWL
+AAGTSIGVALTSVVILLALALPLAGWIASARQGGIEGVGLFGLAASPLMIGTGWFILINP
+VADPFALALPVTALVNALMGLPFVLRILVPPLRDTVQVYGRLSQSLGLQGWPLWRWVILP
+RLRPQIGFAAGLTGALSMGDLGVIALFADPDRTTLPLQMYRLMGSYQMEAASGAALILLG
+LSLGIFWAFDKGGRWHADA
+>tr|B7RS62|B7RS62_9RHOB
+MEKGGLVYYSSATGNTARLVAALGGNAMRIPIRPSDPMPLPAGPFVLICPTFADGAGRGA
+VPKQVIGFLNAPANRALLRGVIGAGNRNFGATFALAGDVIAQKCNVPVLTRFELAGTDMD
+IARIRDGLDKFWRTQCLMTV
+>tr|B7RKF6|B7RKF6_9RHOB
+MAALAEPNTSSTIVLEAQKLLNQSALQSRAPENGAFDKSTLNSIKQYQLESGLRPTGILD
+KTLLDNLRKSAKISNPKYQIIISGKIYLFTDSEYKQLVKRIAGDFKTPMFRLRGAVNEAR
+IYWDNHNALKKDQYIVCWCLEAYSGAKLPSEGLIKSAEKGVQACDKALSSGDLRTFAAVF
+PKAQKQANEARKKMKEYAAKIVDGGENIVTGLEFVSTSSFVIVGIIAAPVAAGYGAGAIA
+AGVVAGAGTSAVETLSHEVGKGISGQSKGFGDAAGNVLKDSFIGGSIGALVKGKGADKIL
+AKLGPMVAKKLSGEFFEKASEKLVTKFIIIYFKKNGSDILEGTMKECLKTYKSRPQNLTF
+DKFISIVSKEILTAGVFSKFAKIGGSSSSAVFKRLSGSVKKDLIKSLGDGAKEKDLLPIF
+GKAFEESYKESAGKVYDTVLGNLTGSEPPKVVEEKVLSAFATNSKLIARVKAEAEKNARK
+KQSKKK
+>tr|B7RMS5|B7RMS5_9RHOB
+MPGRLTHINVLGCTLFASVCGSSAATTVTVGRITAGELLKRGYDRDLVIGSLAGAGTLGF
+LIPPSTIMIIYGVMAEESILRLFMAGILPGALLAIAYMGYIGLRAVLSPEKIGEAPPPTT
+FVQKLRALTDLGPLLLLILFVIGSMYGGFASPTEAAAAGVIGSMVIGFAQRKLDLRGVLA
+ASRQAAENSAMIGLIMVGAMFLSTAIGYLGLPRYIAGLINGWGLSPLALIAVLLVFYILL
+GMVMEGLAIIVMTLPITLPLVEAAGYDKIWFGVFIVIVVEMAQISPPVGFNLTVIQRLTG
+DSIGKVTRATMPFFLIMAGFVFLIALFPQIVSIVPDLMRR
+>tr|B7RJW6|B7RJW6_9RHOB
+MSVLDIVIWPDARLTQVCQPVEGITPGITQLIADMFDTMYAAPGRGLAAPQVGRSERIFV
+FDAGWKDGAPTPVACVNPEIIDLSEGRLTGEEGCLSIPNTPMDIERAAQVTLRWTDPEGT
+HERTFTGAEAVIVQHEYDHLDGIVIYDRVEKDVKKDTGR
+>tr|B7RIN2|B7RIN2_9RHOB
+MFFVWLKRYMPRGIYGRAALILLLPVVILQLVVTVIFAQRNYEGVTHQMTDTVLREVALV
+LDVAAQAPSVDQIAPLVRQNLAPLQMQVTPLPTDAVPQGNKLTWYDYSGRVMIKRFQDRL
+PGFQTLDLIQPGRVELVTLTDLGPIRIGFDRRRISASNPHQLFVYTFVFGFLMTLISFVY
+LRNQLRPIKRLARAAEAFGRGRHVPYSPSGAVEVRAAGNAFVDMRARIERQIEQRTLMLS
+GVSHDLRTPLTRMRLSLAMLEDDEAGPLLQDVDDMQRMLDEFLDFAKGAAEGEPEKLDPR
+ALMTAAVAEAQRAGRNVTLLPFEGDGTGMVRLRKTAFLRAVDNLISNAVRYGTRAEVSVL
+LTDKTLRVRVEDDGPGIPADRRIEAARPFSRLDPSRNQNKGGGVGLGLAIATDIARAHGG
+VLRLGASDTLGGLRADIVIAR
+>tr|B7RKF5|B7RKF5_9RHOB
+MAALKTGLIVAFVLEPASADWATVTGLFAFFFALTSAVAYLCILQIQKYQGEQRKMRLAP
+GGGEPVAKESVIARYAPDWGLSQAEADVAMFVAKGFSNSEVAEMRGCAIATVKSQLSSIY
+QKSGLGSRYQLIAFVTDEVCASASIADTEKKTRAALVPTRRVLPLVGRSKFSDPERLRA
+>tr|B7RNE8|B7RNE8_9RHOB
+MKAALHDTFGEPIDVLKTTETDKPTPAAGEVLVKMTLSPIHNHDLWTIRGTYGYKPELPG
+VIGGSEALGTIEAVGEGVDAAMIGKRVTIAGVHGTWAEYFVAPADGVLPLPDAISDTAGA
+QLIAMPFSAISLLETLKAKKGDWIIQTAANGAVGKIMVTLAKARGINLLSLVRRQEAAKE
+LTDMGIENVLSTSDADWQKKARDIVGAGGAVSAIDSVGGDVSADLVDLLGTDGELVVFGT
+ATGAPMPLSSGALIMKHITVKGFWGARVSKDMDPEERKRLITELVTLTAKGELVLEDGGA
+FALDDVAQAMTAALTPGRAGKVMIRG
+>tr|B7RQR5|B7RQR5_9RHOB
+MIKEFVPIMMPPLQQTYFSHHPVLRTCDLDEARARVAQQFCDHRLELGSRNKPLSVSHNA
+VRGRNLSVNYLSYGAEVSVDPGQFNSFYMFQMPLSGKAHVKHRGSEMTADADTGTLLNPD
+RTARLRWGADCRKLLFQIDRTHLENVAQSLTGTPLPGPVRFDMRVDFTSTNGRKLQRAFA
+ACAMAIERGSLFQPQYSATELRIETDLVVALLTLQNSNVSHIISRAEGGAAPRDMRRALD
+YMHANLSEPITILDIAKAAEMNVRTLQKAFQRSFAKTPMQVLRDARLDAAHYLLSDRNDA
+PNVSETAYSCGFSHLGRFSSYYRSRFGHSPRDVRAQSLNSS
+>tr|B7RL87|B7RL87_9RHOB
+MNIILLGPPGAGKGTQARHLVETRNMVQLSTGDMLREAKDSGTEMGMMVADVMARGDLVT
+DEIVIGLIREKLEDKSEHGGFIFDGFPRTLAQATALGELLEATGQKLDHVIELRVNDDAL
+VKRISGRSTCGQCGEVYHDVTKPHPEDGKCVKCGASDFKRRADDNEESLRNRLMEYYKKT
+SPLLGYYYALGMLKRVDGLADMKVVQASIAAILDN
+>tr|B7RH81|B7RH81_9RHOB
+MKNVLITGIAGGFGKPTALALLAQGYAVAGSVRSRSGKNAATVAELEAAGAKIVEMDVTD
+TASTTRGVGDAVSQLGGLDILFNNAGIGAYGIQELMSPEDMARVFDVNVMGVQRVMRAAL
+PYLRAQGRGTVLYTSSLIGRIATPFYGTYSASKWALEAIVECFRTELSGFGIESCIIEPG
+AMPTAFFDGMVTPDDPTREAEYGDFAAVPAMSNTALAEMLKATPQQRPEQIAEAVAALLD
+MPFGEKPFRTVVDFVGVGPEIARYNDVLHDVTRTVLTNFGIEQMLDLNT
+>tr|B7RK10|B7RK10_9RHOB
+MEILHNTRPADVTGLDDIPMPSVDAKAAQTLVARCPVAAQTPLSDAEAIAVEAGVAQVWV
+KDERGRMGLGSFKALGAAYVIACDKERGDHRGRTYVTASAGNHGMSVAAGAQAFGAKSVV
+YIAETVPQSFATRLADQGAQVVREGATYEDSLMAAENAAEANGWALLSDGSWPGYTDRPH
+RLMEGYLVLMAEAIAQMPAPPTHIFLQAGVGGLAAACAALARQAWGDGPCIIVVEPDAAP
+ALHGSIKAGAPTLSTGPVSDMGRLDCKMPSLIALKGLARDADAFALITEEEGQAGAGTAM
+VAGLASTPSGAAGIAGLLALSVAQKADLGISAHSIILTVLSEGPAI
+>tr|B7RGP7|B7RGP7_9RHOB
+MSKLVTIYGGSGFVGRYIARRMAKAGWRVRVAVRRPNEAIFVRPYGAVGQVEPVFCNIRD
+DASVRAALLGADAVVNCVGILAETGKSTFEAIQADGAERIARIAAEEGVSHMVQISAIGA
+DGDAASEYAQTKAMGEAGVLRHMPDAVILRPSIIFGPEDEFFNRFAGMTRLSPAVPVIGA
+DTLFQPVYVDDVARAAEMAVVGDAAPGIYELGGPDVESFRALMQRMLGAIHRRRMVLGVP
+MFAARIMAFVFDMIEAATFGLVKNGMVTRDQVKNLGNDNVVSEGAKGFDALGISPVSMAA
+VLPQYLWRFRPSGQYDDIKESAKNLRT
+>tr|B7RJ81|B7RJ81_9RHOB
+MSELTKPVDFRGGGFAPKRRRGMGLLVFVLLILLAEWGTRTGFISNLTLPRPSDVVLTFV
+ELWDSGLLFKHLIPSLSRLAVGATIGASIGIAVGVMIGLFSYVRAGLVPLVAALFPIPKI
+ALLPLFVIWFGIDEASKFALIAFGTFTPTVVATYAAVDNVDRSLIRMGQSFGLTWWSIVR
+KIVLPGAMPGILSGLRISLAIAIILLVAAEMLGAEYGIGAYILEAGSLYDLERLFAGVVI
+LSVLGVGVSTVIGAIEARVLRWRV
+>tr|B7RLP3|B7RLP3_9RHOB
+MEFDTDIAIVGGGLNGPALGLALAQIGLRVTIIDRLQTQVRETPGFDGRSYALALTSTRL
+LDGIGVWDAVADHAQPMLEIKVTDGRAGEGPSPFFMHFDHAEIEEGPMGHMVEDRHLRSA
+LMQAVATTDGITVLDGETVTTQTVDASGVTLSLANGKSVRAKLLVGADGRGSGTATRAGI
+KRIGWGYGQTALVCAIAHEKPHDGVAHQFFMPPGPLAILPLTENRSSIVWSETAENAARI
+NALPDDAYLDVLRPRFGDFLGEISLAGARYTYPLSLSLAHSMVAPRVALLGDAAHGVHPI
+AGQGLNAGMRDVAALAEVIADARRRGQDIGSPTVLDQYQLWRRFDNTALALATDSFNRLF
+SNDNPLIRIARDMGMAAINAIPGARRGFIREAAGLTGDLPRLMRGERL
+>tr|B7RMT5|B7RMT5_9RHOB
+MPHSAQHLDRLRLRHLRLLELIQHQGSLRSVAEQLGLTQPAVSQMVKDLEFAFGVTLVSR
+SVRGVELTKMGALALQRARSGLAAFHTLAAELDEGLAPVVRVGTNPAMLFNVIPSALQIA
+ANDGTDVRYAVRSGLAKDMTRDLWDGKINCYVGRIDWEVVPPEMKNSLRHVHLFKTDLVV
+VCSIDHPLAKRAKPTPEDLQNATWALPPEDSKNRAGLTAAFRNNGLSEPRIAVEVAADPN
+GLVGIAREMPVLAVLPRLVLTSPAVKQQIVTLDTGFLRLPPIEIGFLTLIEHEHVVGLQA
+FRSALVSVSAGLDT
+>tr|B7RNC7|B7RNC7_9RHOB
+MIQTIADALAKQGYDSLTPVQEAVTDPALADADLLVSAQTGSGKTVGFGLAIAPTLLGES
+ETFGHAGAPLALVIAPTRELAMQVSRELTWLYGPAGAVVTTCVGGMDTRTERRALDRGAH
+VVVATPGRLCDHIKRNNINLNDIRAVVLDEADEMLDLGFREELEFILSEAPEDRRTLLFS
+ATVPAAIAKLAKSYQRNAQRVETIGEAKQHTDIEYRALTVHPRDTENAIINVLRFYEAKN
+AIVFCNTRAAVARLTTRFTNRGFSVVALSGELSQSERTNALQALRDGRARVCIATDVAAR
+GIDLPNLELVIHADLPSNSDTLLHRSGRTGRAGRKGVSALIVPAKLRSKANRLIGGAKLK
+VEWANPPSAEEVNAEDEKRLLADSAWSDPIPDDAKGFVANLVDQFSAEQLATAFVNLYRA
+RQSAPEQLAEPGTPADEKPRGDFGPSVWFSISVGRNQDAEPRTILPMICRMGDLTKDDVG
+AIRVQPSHTFVEILATSAAKFTNALGPDMKVEDGAIVTKLDKAPDLSRGPKPGGRGPKPD
+RGPRPERAPRPAYDPDAPTAPRKPRAAAAEEASVAVSDKPRSPKPYGDKPRGDKPKFEKP
+RAPKGERPPKSHKTERTPMKAGAAPKPKSNPKPDSFDKPKAKAVWKKDKPAGPRGDAPRG
+DAKPAADKPFKARAADPSKRFVPPNKLGKPGGKPKGGKSAGGGEGAPKRPKTSFRPK
+>tr|B7RJE7|B7RJE7_9RHOB
+MADVNRGNRPLSPHLTIYRPQLTSMTSILTRITGNAMLVAALLIVWWFLAAATSPEAFAA
+ANGFITSWFGDLIMFFSLLGLWYHTLAGIRHLIWDNGYGLDIQTAEKLGWAALVGSVLLT
+IITALII
+>tr|B7RPS4|B7RPS4_9RHOB
+MAESTKSATLTIDGNSFELPIYSPTEGPDVMDIRKLYAQANIFTYDPGFTSTAACDSTIT
+FIDGDKGILLHRGYPIDQLAGKSHYLEVCYLLLYGNLPSPKELEEFENLVTNHTMIHEQM
+INFFRGFRRDAHPMAIMVGVVGAMSAFYHDSTDINDAHQREVATIRLIAKMPTIAAMAYK
+YTIGQPFVYPRNDVDYAGNFLRMCFAVPAEEYVVDPILARAMDRIFTLHADHEQNASTST
+VRLASSSGANPFACIAAGIACLWGPAHGGANQACLEMLKEIGTPDRISEFIARAKDKNDP
+FRLMGFGHRVYKNFDPRATVMKESADEVLELLGVENNPILQVAKELEKQALEDPYFAEKK
+LFPNVDFYSGIILEAMGFPTSMFTPIFALARTVGWISQWKEQISDPQLKIGRPRQLYLGE
+TMRDYVDIEKR
+>tr|B7RRN4|B7RRN4_9RHOB
+MTLGTTSSKGRGLPEGGKARRVYLHLHEEIMRGVFAPGAVLPGEQKLAVTLDVSRVTVRR
+ALDALEGDGLIDRRAGSGTTVCAPRPHPSMAADFSTLMPQLVEMGENTTARLLSFSYGAA
+PGGVASALGLAPQDRVQAAVRLRLVEGEPFSHLTTWVPEEIAQNYTEAELATTPLFRLLE
+RSGVKVDAAQQTVSATLASPDVAEVLGLSIGAPLLSLDRVVRDAKGRGVEYLSALYRPDM
+FRLEMSLNHVGAGEGRHWEPVINPARKRAAE
+>tr|B7RLF6|B7RLF6_9RHOB
+MLASNGREAIFMTRLGIIRMSQTPFNPFGTDLDRDAALKVLRDAVAGADDGELFLERRRS
+EGLMFDDGRLKTASYDASEGFGLRAVRGEVAGYAHSSEISESALRRASETARLAVGDGGG
+TWADAPISTNQRLYTDADPIAGAAFPVKVETLREIDDFARSLDSRVVQVSASISASIQEI
+EILRPEGTSVRDVRPMTRVNVSIIVEQNGRRESGTAGGGGRVGLDGLLERSDWQAKAREA
+LRIACVNLDAVPAPAGVMDVVLGPGWPGILLHEAIGHGLEGDFNRKGSSAFSGLMGQQIA
+AKGVTVLDDGTIPDRRGSISVDDEGTPSAKNVLIEDGVLVGYMQDRQNARLMGVQSTGNG
+RRESYAHIPMPRMTNTYMLGGSMTPGDIVADLKDGIYAVGFGGGQVDITNGKFVFSCTEA
+YRVQNGVVGAPVKGATLIGDGATALKQIRAIGNDPTLDPGMGNCGKAGQWVPVGVGQPTL
+MIGGLTVGGAAA
+>tr|B7RP37|B7RP37_9RHOB
+MMPIDKQLAAACRDGLNLEFFCPEVGGNVIVNAGPTGYGTFDAGGSLFGHCHGGHKLRMA
+NFKQYWFKNCGLKYHGVLARNEKDVMGEAKFGAATPYPTLSAKAWYHLSFGVTDPAKEYF
+PGYLPIDVAQYYGFPTNLRGKGQSIAIISLGGKIDVDEVAGDFTKLGIRPLPAVTVIDVD
+TIPAAQDKLPTTETHLDIEIIGSICPRAKINIYRGSNPDGFGPAIERAVKDRNTVISISW
+GGKENSECKTSAVEAALEKAVLAGVTVCAAAGANGSAGQRKPTDNTAHVDYPASSPNVLA
+CGGTQIDYIEGTKTEVVWNNTEKGGGATGGGVSSIFATPKWQTAQGISIPSANDGKSTGR
+VVPDVASLAAAGDWDIYKTGGIKMGIGGTSAVAPMWAALIALANEKRSRAKPSKGSIGFI
+NGQLYQLAAKGGYFKNILHGDNRSTPNSPGYQAEPGFDACTGWGSPIATKLIDALAALPE
+QIRMGGGGHHHMIIEDVHLVAMNTNLVSGIGASPNFPAPEMRGGFSSTPGCPTAPSWRIC
+KPGINIDYTCSNCSKSPIINKGMVNNANAFDLVYGNACPTCHHTLKLTDYTGYWAYRCRF
+RYDGVLVEDEVDLKGDRTFNDDDLYKTVGQPTQYYTLKITTNGV
+>tr|B7RS24|B7RS24_9RHOB
+MQTVKISYKRHRFPPQTIAHVVRLYARFNLSLREVEELMLERGVDISYETIRRWTVKFGP
+LITHVLRRRQPRPGDIWHLDEVVVKIAGRSYWLQRAVDQHGAVLEEILQSKRDKRAAKRI
+LIKLMKRWSLVPKRIITDKLRSYGAAKREVAPSLDHWSHKGLNNRAENSHLPFRKRERAM
+QGFRSPGGLQLFVSMHSATHNRFSVPARRRSALSIRYHRLEAFEAWKSAANVA
+>tr|B7RN24|B7RN24_9RHOB
+MESALMSEYLTVVDHPLVQHKLTIMRDKETPTAVFRQLLREISQLLAYEVTRGLPMTTKR
+IDTPMQPMDAPTLDGKKLALISILRAGNGLLDGVLELIPSARVGFVGLYRDEETLQPVKY
+YFKVPEGLDDRLVIAVDPMLATGNSSVAAIDMLKEAGATNIRFLCLLAAPEGIQRMQEAH
+PDVPIITAAVDEKLNEAGYIVPGLGDAGDRMFGTK
+>tr|B7RGX5|B7RGX5_9RHOB
+MKAELLDAETELKLAYAWRDERDEEALHRLITAYMRLAISMAGKFKRYGAPMNDLIQEAG
+LGLMKAADKFDPDRGVRFSTYAVWWIKASIQDHVMRNWSMVRTGSTSSQKSLFFNMRRVQ
+ARLEREAQAAGETLDKHQLRQMISTEIGVPMHDVEMMEGRLSGSDYSLNATQSSEDEGRE
+WIDALVDDTAQAAERVEESHDIVTLRNWLLGAMQALNDREQFIVRERKLRDQPRTLESLG
+QELNLSKERVRQLEAAAFAKMRKTLETQSAEVHHFLM
+>tr|B7RG05|B7RG05_9RHOB
+MSLNHIRPWRNIYRRKSRQIMVGNVPVGGDAPITVQTMTNTLTTDAKATILQVLAAAEAG
+ADIVRVSVPDEESARALKEIVRESPVPIVADIHFHYKRGIEAAEAGAACLRINPGNIGDE
+KRVKEVIKAARDNNCSMRIGVNAGSLEKHLLDKYGEPCPDAMVESGMDHIKILQDNDFHE
+FKISCKASDVFMAAAAYQQLAEQTDAPIHLGITEAGGLTSGTIKSAIGLGNLLWMGIGDT
+IRVSLSADPVEEVKVGYEILKSLGLRHRGVNIISCPSCARQGFDVIKTVEALEKRLEHIK
+TPMSLSIIGCVVNGPGEALMTDVGFTGGGNGSGMVYLAGKQSHKLGNEAMIEHIVEQVEA
+RAAVLQAEEQAAE
+>tr|B7RRN8|B7RRN8_9RHOB
+MTITQSRRNFLASSLGLVIAVSLPMRGRAQSGAALAFQPDGSTPTFAPNAFIRVAEDDTV
+TVIIKHIEFGQGPFTGLSTLVAEEMDADWGQMRAESAPADDEKYKNLLFGLQGTGGSTAM
+ANSYTQMRKAGAAARAMLVQAAAEEWGVDASTISIAKGVLTSGSNTSTFGPLAAKAALLT
+PPEDPAVKDPKDFVLIGKDRPKLDSKAKSNGTAVFTMDMDLQDMEYVVIRHAPMLGGTVA
+SFDDTEAMKVTGVTAVRQIPQGIAVYATSTYAALSGRNALTVEWDDSAAETRTSAQIMDD
+FAKLATSGEMKNAEENGDIDATLSEAAQVIEMEFRFPYLAHAPMEPLDAVIQVKDGSAET
+WGGFQFPGFDKQAVAGNLGLPVENVKLNVMLAGGSFGRRAQPSAQIGNEIGAIAKAAGRD
+GAWKLIWTREDDLAGGYYRPMTVHKMRGALDADGNILGWHDIVVNQSIMAGGPMEQMMQD
+GKDPTSYEGATKMPYDLANLRVDWVRAESVVPVLWWRSVGHTHTGYATEVFLDQLLEAGG
+KDPVQGRLDLLKDDMGRDRAVLERVAKMAGWDGTKVKGDKGYGVALHESFGTYVAQVAEV
+EDRNGFPHVTKVWCAVDCGVAVNPNVIRAQIEGGIGYGLGSVLFNAVTLGEGGVVQEQNF
+DTYRMIRINEMPAVEVEIIESTMDPTGIGEPGTPPVGPAVANAWRALTGTNVTTLPFMTP
+AGA
+>tr|B7RK12|B7RK12_9RHOB
+MGRVKTIARRSFLIGSAAIAGGVAFGTYLYKREGTNPLLADLEPGQAAITPYVIIDANGV
+TLITPRADVGQGAWSMQAYLIAEELDIDPATATLSPGPASAIYYNGVVGAEAMPIAATSD
+SLLARTGRGAADVMGKLMGLHITGGSTTVPDMYDRLRMAGAVARETLIKAAMNQTGLPRD
+QLSTENGCIVLPDGLKLEYIDLAAAAAEIEPVQDVTLRDPAEWRYLGKPFKRTDMVAKST
+GTQKYGIDMQMEGMVIATTRTNPAIGGGLIGFDAETARTMRGVQAVLPITGGIAVVADNT
+WRAFQAAQAVECDWGPSPYIGNSADQFAAVAASFEDDMQDSRFKDEGDVAAALEGAEIIR
+AEYRIPYLAHAPLEPMSVVVRLTDARLDIWTGTQIPRFVQANMAKLTGLDADNIHVHVLM
+SGGSFGRRLEDDYIHQAVEIAMQLPDTPIKMVWQREEDFTHDFPRPLAMARAKGSTRDGK
+VDAFDLSIAAPSVAESSLARLGQPAIGPDVAIVAGAWDQPFNIPNYRVTGYRTPAMVPIS
+SWRSVGASGNGFLHESFVDELCHAAGADPLAERLRLCWHDPSRKVLEAVGEMSDWGSDPG
+PNRGRGLAFTLAFGVPVAEVVEVTSTDAGIRIDKVFVAADVGRVLDPVNFEAQLQGAVIF
+GLGHAMNCEITYQNGAAQQENFHVYEGMRLYQTPEIIVRGLENGDRIKGIGEPGVPPAAP
+ALANAIFAATGQRIRELPLSKQIDFV
+>tr|B7RNT5|B7RNT5_9RHOB
+MATTFEVFYLGQLASIDVNETDNNNERANDILGTYGSAGQPLYNQVQTFSSVDATTGSTA
+DAYDFQGANDRFSINGGAAQTVDGFAWYDAVLTYADGSTVVMNIGVVQDSAGHTYAVPTL
+TENTDIADALQAQPIRSLQLVTATNTTAVMGETRAALELAEQVDGTDGNDTIDNSVVDGM
+DDQAGSGNDVIHAGEGDDVIYDGAGNDTIEGGGGSDTIIGADGDDLIVGDGGTDVDPGNI
+FHWSDLEDPSGVPGDTVDNGDNLADQPLSVEAGGVTLTLTAPTQAGSATTYSTNANSTAN
+LNEASTHSSIHMVGTSDSSAMTRTLTFSEALANVSFNVADLDNGNKVQVLAYDSANNPVA
+VTYTLGGSMSESGGVVTGNGSNLAPSNPDGAATVTIAGPVARIEIIHLPVTANDLITVSD
+VYFDSPNATNVGNDAAGNDSLYGGAGADTILGGDGDDTIDGGTGSDSIDAGAGQDIVIVS
+DFDGTIEYMDGGTGADTLILAPGDARGFTIDMTATDGNGDWQVYDGLSGTQYARNFENIS
+TSDGADTVIGDSAGNVIVTNAGADAVDGGGGDDTLIGGKGDDTLTGGAGDDVFGYSRGDG
+NDTITDFNLGNTGALGDGNTANNDFIDLSTFYDSMGELRADFADDGVLNQSNAIENGGVV
+DYADNSRFAATDSLTFQGASQSSFTADNTGVVCFAAGTVILTPEGEVPIEALRPGDLVVT
+RDNGPKPLVWVGMRRLMADALTRMPHLKPIEIKAGAFGNHSPLVVSPQHGILLSLDREET
+MVRAKHLSELQGGAVRIKRGCKAVTYFHLMFERHQVVFSNGLPSESFFPGPQAVKALALP
+EYKELVSLFPQLNRTVDKKSISRMYGNPARVYLRRSNLPGTIREFRPT
+>tr|B7RQ86|B7RQ86_9RHOB
+MNGIVDWAAGRARMVMAFILLSLVVGGYAYSTLPKEGEPDIEIPALFVSVQFPGISAADS
+ETLLVKPMETELSDLDGLKTMTGTAAENYASVALEFEFGWDKTKIMADVRDAMSTAEAKF
+PDGYEKYSITEINFSEFPIIIVNLTGPVPERTMARVARDLQDALEGVDAVLEAGLAGDRD
+EMLEVLIDPLRLEAYDVTAGELINVVQNNNQLIAAGEVQSEQGSFAVKIPSSFDDPRDVY
+SLPVKTNGDRVVTLGDLATINLTFEDREGTARFNGEKTMALQVVKRKGFNLIDTSTRVKE
+VVAEQSATWPEGLKAAVKIGTSNDQSRIVDSMVQQLIGSVLTAIALVMIVVLAALGIRAA
+LLVGFAIPTSFLLCFAFLALMGISISNIVMFGLILAVGMLVDGAIVVVEYADARQQQGEG
+PMKAYVTAANRMFWPIISSTATTLCAFLPMLFWPGVPGQFMGMLPVTLIFVLSASLVVAL
+VYLPVLGGVTGRLERWMADNMTAIAGLRIYLHLLLFPVAIAMIVLLAVLSWPLFGVISAQ
+FAAMDGLDILGSVIPVFAIVFSCIAALCALAAIALSGGMLALLSFFALFTRMESGGRWMT
+TKLFRKTPDVINAGYKRSAFGRVIEFIAGNPVMPLVIAGTVFVFVGTTMIFFGNNSKGVE
+FFVESEPEQAIVYVLARGNLSLTEKDDILKQAEDIVLAHPGVSTAFAFAGKGGLDSNTGG
+ATAPKDSIGQIQLETIPWEDRALRPDLDGDIVIAELTEQLGAIPGIKIEILAQARGPASG
+KPVHLRLLSDSFDDLVLSTGLAREAFQKTPGLTLVEDTRPLPGIDWQIDVDVAKAGQYGA
+DVLTVGAMVQLVTRGLLLDTMRVDSSDEEIEIRVRLPEEDRVLSTLDTLKVRTADGLIPL
+SNFITRTPVAKLAEINRVDQKRHLDIKADVFPGLMKLVKPQVVDGTETTVTLATMRPAGA
+DADITALDGETFKITDRTNAAQGVDLQADLTSGALRLVPINANERIAEITKWLDTQPLPD
+GVSYEWTGDQEDQADSQAFLSSAFTAALGLMFIILLAQFNSIYNSILVLLAVVLSTTGVL
+IGMLVMDQTFSIIMTGTGIVALAGIVVNNNIILIDTYQEFSQYMPRIEAIIRTAQARIRP
+VLLTTITTMAGLAPMMFGLSLDFANGGYTIDSPTALWWKQLATAVVFGLGVATVLTLMVT
+PSLLAIRVWATTYARWIAQLLAKMSLGRASKAAQDWALEKDALRLKSGILIWEDEVIPPA
+QTTKLRAAE
+>tr|B7RFM3|B7RFM3_9RHOB
+MSLMKTLAKVAIGVAVAKGASAMMKNKSASAGGSSSGGSLQDMLGGLLGGGTSAGSSGGL
+GGLLNQLGTRRGTSTGGLGGLLGQMTGSSGNSAGASSGGLGGLLGGLAGAAGAGGLLAGL
+GGATGGKPEREEADFGAVLNSQFDSNSSPAITPSQDQEVLAALMIAAMIQAAKSDGTFDE
+AEREKLLNHLGDVDAQEAAFVQARMDAPIDIDGLVAQTPEGMGPQIYAMSLLAIDLDTQE
+EAQYLHKLCQAYGMAPAEVNEIHAQMGAPSLYT
+>tr|B7RJ57|B7RJ57_9RHOB
+MKTLGLILALTALPVLPAFASEDIPDQYPASMLYSKPVEFIPGVYSAIGATAPPTYENAG
+HNNNLSFIVTGDGVVVINSGGSYQLAKALHDEIKQVTDQPVKLVLNENGQGHAMLGNTYW
+AEHGVKIVAQTEGAEAFAEEGLASLRAAESRLKDRADGTDLTPPTETFEDEYVVDMGDFH
+IEALHLGPSHSPGDIVVWLPEQSLVIAGDMAFHERMLPIFPDTLTDEWLETWDGPFEALG
+ATYVIPGHGHPTNMAQVRRYTKGYLEYLRGKIRDHLDAGGSLADAYYVDQSPYAHLDTFE
+ELATKNAGRLFEQMEFE
+>tr|B7RK33|B7RK33_9RHOB
+MSEVDRKPRLWITRRLSDATLERAARDYDVVINYDDQPGTADQLIAASADFDAIIPCHSE
+HFSADVVAQFADRLRIVANHSVGVDHCDLPALKKRGIVVTNTPDVLSDATAELAMLLMLG
+AARNAVAGDRIVRTGAWDSWSPAFMVGKQVTGARLGIIGMGRVGRAFAAKARGFDMEIHY
+YNRSELPADQAKDAIYHDSVESLLEVADFLSLHCPATPETTNLMNQERFALLPPGAVIVN
+TARGALVDEAALLDALEKGQISAAGLDCFQTEPGGNPAFSAHDNIFMLPHIGSATRKTRD
+AMGFRALDNLDAFFGGQTPGDQL
+>tr|B7RND2|B7RND2_9RHOB
+MAVVLTRDGTHGPVIHAMNAAARACGIDVGARVVDVQAIFPDLHVERADPAGDYKLLERL
+AHWARRWCPWTVRDGQDGIVMDVTGAAHLFGGEAAMLRDMATRFKMQGLSVRLAMAPTRG
+AAQMLARHGPASVVCDRDTMMAQLAPLPVAALRLSDDMLRLLTRLGLKTVGALADVPRVA
+LMRRFSGLAEDRNPLVLLDRVTGRAADPLNAPPDAQVWLARVRLAEPVIDPVPQLPALAE
+ALCADLARAEQGARVLRLTIYRVDGEWRSRDVRTASATRDPAHLLRLLTGKLDGIDPGFG
+FDLLTLEALRIEPLSLHQDHLDGSRDAGRDVAALLDRLTARLGPEKITWSAWVQSHLPER
+VESRVPAISHRAAAAPVMTHERPLRLLDPAEEVTVLYAVPEGPPARFQWRRVAYHMARFE
+GPERIAPEWWRDKPGTRLRDYYKVEVQDGRRFWIYRQGVLGDRRGGDPLWFLHGVFA
+>tr|B7RQ99|B7RQ99_9RHOB
+MRLNEVVFTDAKPVEGYGPGFFRIGGEVVHGPVIAGPMGTLSWAGFDDVDALLALAGKID
+ILFVGMGADIAHLPADLRRQLEDAGLGLEVMSSPAASRTYNVLLSEGRRIALAMIPV
+>tr|B7RHQ0|B7RHQ0_9RHOB
+MKSVEPLPQAEHFAPEDSGIAAHDVTVTYRNGHTALYDASFEIPRGTITALVGVNGAGKS
+TLFKAIMGFVPAAAGEITLLGKSVRAALRENLVAYVPQSEEVDWAFPVLVQDVVMMGRYG
+HMGFLRRPKAADHAAVDEALHRVNMTEFRHRQIGELSGGQRKRVFLARALAQDGRVILLD
+EPFTGVDVKTEEQIIGLLRELRDEGRVMLVSTHNLGSVPEFCDRTVLVKGTILAYGPTET
+VFTHKNLENAFGGVLRHFTLGGSDLHDDDDGREVRIITDDERPFVHYGERLAPDEADK
+>tr|B7RPJ8|B7RPJ8_9RHOB
+MLRRLHPDQPTSFAFTPANQAWAEAQITKYPEGRQASAIIPLLWRAQEQEGWLSRPAIEH
+VSEMLGLAYIRGLEVATFYFMFQLQPVGSVAHIQVCGTTSCMICGAEDLIAVCKEKIAAK
+AHQISDDGKFSWEEVECLGACSNAPMAQIGKDYYEDLTTEGFAAMIDDMAAGKVPVPGPQ
+NGRYASEPLSGLTSLTDYDSGKTQYNASVQLAVDIGDSIKRIDGTEVPLTAPWQGKDQPG
+AAAKRDDQMPPAGPDGAQGGRTAAEEAAPRDVGDSSDQRSEAPGEAKGVDAIAKPAQGSV
+APQPKSPTPTTTVAASAEKNAETTGTKPATLDAPRDTGADNLQRITGIGPKLEKLVNSLG
+FYHFDQVASWTSEESAWVDQNLEGFKGRATRDAWVEQAKVLASGEATEFSSRAEKDDTNE
+K
+>tr|B7RIT3|B7RIT3_9RHOB
+MLLAAIGPMFAIFDPFGGDDDDQDTDASAVQDGPLVPSEEAAIQDGETLAPGATTPGFFQ
+GLGGDDTLTGSSLDDRLTGSFGADVISGGTGNDTLFSGGETLGEGEDGEADLLDGQEGDD
+VLMLGGGDTGLGGEGADSFTMLSDAQGNITVGDYDPTQDALVVETTREDVTILGQTFENG
+ALRVSLSTGLSITLPGIENPISDSAILFVMANPLRGIG
+>tr|B7RMI2|B7RMI2_9RHOB
+MTRHVVVIGAGIVGVSSAIWLQRAGAQVTVIDRAGPGKGTSHGNAGVLAASGVAPVTGPG
+LLRKAPFMLLDRDVPLYLRLAYLPRLLPWLMKYMGHANDADTRRISAGLVPIVSDSVEQH
+KSLTADLGLSDWVTDSDYVFAYRKRADFEAEAYTWALRAQAGFTPSLIEGRAVQEYEPAL
+GSEITCLATLKDHGFIRDPGGYVAALARAFEQAGGKVMQAEVKDFDLTGGSVTAVQTTQG
+TVPCDDIVLATGVWSKPLMAKLGLNVPLESERGYHVIFKDATGGPSRPIMIASGKFVATP
+MVQGVRCAGILEFGGLEAGPSKAPLALLRHQAKAAFPNLKAANEIEWLGHRPAPTDSLPL
+IGQVGTSRVYTAFGHHHIGLTGGPKTGRLIAGMIMGQPTNTDTKPYHPQRFGNV
+>tr|B7RM77|B7RM77_9RHOB
+MSRIDETIDFIPVRIAVLTVSDTRKLAEDRSGDALVGRISEAGHTLVQRAIVRDERDQIA
+DQLRAWCADPAIDVVISTGGTGLTGRDVTVEAHRDVYEKEIDAFGTVFTIVSMQKIGTSA
+VQSRATAGVAQGTYLFALPGSPGACKDAWDEILVKQLDYRHKPCNFVEIMPRLDEHKRRK
+>tr|B7RIY3|B7RIY3_9RHOB
+MVTDVIQHPSPNFGPRRDGLRPSFIVVHYTAMDNAAAALDRLCDTQAEVSAHYLISAKGE
+VTQMVAEDMRAWHAGQGEWAGLKDINSRSIGIELDNRGTHPFSEPQMSALETLLREIMDR
+WDISPAGVIGHSDMAPGRKTDPGPKFDWARLARQGLASLGQTAKGAPEARPDSYMAAARQ
+AGFTADADFDTLLQATRLRFAPWRTGPLCAADLNLCHVLCSKWK
+>tr|B7RME7|B7RME7_9RHOB
+MNEHMKKFVMAAVGGTLAGVIATTQIAGPLLAQETAKAGNVYDQLDLFGDIFERIRAQYV
+EEVDTEELIEAAINGMLTSLDPHSSYLSPKDALKMRDQTRGEFGGLGIEVTQEEGFVKVV
+SPIDGTPASEAGIEAGDFITHVDGESLLGLTLDDAVELMRGPVGSEIVITVVREGETEPF
+DVSLIRDTIQLTAVRARTVGNAVVMRVTTFNEQTYPKLKEGLEEQIEAAGGIDNVSGIVI
+DLRNNPGGLLNQAIAVSDAFLEEGEIVSTRGRDAVDGDRTNATPGDLAQGKPIVVLINGG
+SASASEIVAGALQDHRRAIVVGTKSFGKGSVQTIMPLRGEGAMRLTTARYYTPSGRSIQA
+LGVSPDIIVAQPPVKPETEEESTTSRRPLRSEADLRGSLNNDSLSEDQIEQIMEDRAKAE
+DAAALREEDYQLAYAIDILKGLSALGPKE
+>tr|B7RI79|B7RI79_9RHOB
+MPPPEFFHQGELVGVLTTQPLGRALDYKAPEGGCHLGAFVEVPLGPRKVLGVVWGAGQGD
+YDLSKVRSVIRVLDAAPMREELRSFLSRAAAYTLTPMPAMLRLATRAPGLGDPPSMRKIY
+RRGTAEPDRMTDARRRVLATLADYGDLSFTLKELAEMAGVTSSVIKGLVAQDAVIEQDSP
+RDVPFARMDPTLPSKELTADQAAASALLAKGVASETYATTLLRGVTGSGKTEVYLEAVAA
+ALKAGRQALVLLPEIALTEQFLHRIAARFGTKPAEWHSGATMTERRRIWRMVGQGNAQVV
+IGARSALFLPFQNLGLIVVDEEHDTSYKQEEGVLYNARDMAVLRASICGAQVVLASATPS
+LESWANAEAGKYTRVELTSRFGPAVMPKMGAIDMRAEGLPSDKWVSPTLRAEVDKRLERG
+EQAMLFINRRGYAPVTLCRACGHQIGCDDCDARMVEHRFLKRLVCHQCGESKPMPEACPS
+CDATGKLAAVGPGVERLGEEAAALWPDARVATLSSDMYGSARALKAEIAGIAEGAADIII
+GTQLVAKGHNFPNLTLVGVIDADLGLMGSDLRAAERTFQLMRQVAGRAGRAETPGTALLQ
+TYQPDHPVIRAILAGDEEGFWKAEAGERRQAGVPPYGRMAGIILSGPDVAAAFDAGNQLA
+RQDGPLRAVGAKVYGPAPAPIARVRGRHRVRLLVKADKSAPLQDALAKWVGQLRLKGDLR
+IAVDIDPQSFY
+>tr|B7RS26|B7RS26_9RHOB
+MMKRLTSYFWRTRPIRAVEPIYRPAPTTAFFAGQTAVIAGGAGKIGAAITRELLGQDSDV
+IVIDRCADALWSLADAEANPRLRTIQLDLTDAEGVRKLDLQACDILVLAAGVQFETDLFC
+DTDKQWSDSFQTNILAPARLTRTLIPHLKKNGGSIIMVTSIHAMLPSRWANYGAAKAAQA
+AMVREWAVDLAPHDIRVNAIAPGWVHPDDQVSKLSLLHGRPVPPEYIGRAVTFLASEYFS
+RFTTGSVLTVDAGASLYGGRVPFDRPARNET
+>tr|B7RGD9|B7RGD9_9RHOB
+MAMVLTMNAISAGADAEVLLCGPAGDIALRDAPASATAGQPPRDASPQGLMKMMMVQMGL
+KVQVCAIYLPGKSADASVLIDGVSTAAPDAMGDAIVAPNTSVMSF
+>tr|B7RLF7|B7RLF7_9RHOB
+MSTYKRLLIEHGTAQNALVALPEVARAAGVTNYEICPEGVVFAELRAAKAAGAQLIMHGT
+DAYPETLCDLNDAPPFLWAIGNLDLLHRPKISLVGARNASSLGTRMAKALAQGLGEAGYV
+VVSGLARGVDAAAHLAALGTGTIAVQAGGVDVMYPAENTQLAADIAASGLRLSEQPMGLQ
+PMARHFPSRNRIIAGLSHATIVVEAAAKSGSLITARDALDQGREVLAVPGHPFDARAAGC
+NMLLRDGATLVRNAADVIELLGRADAVQPRQAELGLPESAPAPTRSLRETAALHLQILSR
+LGPSPIAEDQLIRDLQASAAKVAPVLIDLELEGQILRQPGGLVSRTG
+>tr|B7RM01|B7RM01_9RHOB
+MRGPHNIWRLVRTGATLERTGAMNVVLDAFDATPALRFVAKALGKPFKFLGYAGDPSMPP
+ATRALTALGPAYIKFGQVLSTRPDVVGDELAVQLRVLQDKLPPFSIEQAKAEVEKELGLP
+VDAIFSDFSEPVAAASIAQVHRATIAETGEDVAVKVLRPGIEKAFRKDVDAFYLAARMVE
+LFSPGSRRLRPMEVIEHFDGVVRGELDLRLESSAASEFAANTKDDAGFELPAIKWEYSAR
+RVMTLEWADGVPMGDNAAIDAAGHDRVALGDRVLQLFLNHALRDGYFHADMHQGNLKVAP
+NGNIIAYDFGIMGHIDEYTRRVYAEILFGFIRKDYKRVAEVHFEAGYVPADKDVDEFARA
+LRAVGEPIFGMDATRISMARLLTYLFEVTERFGMETRTELILLQRTMVVVEGVARSLNPH
+INIWQVSSPIVTDYISKSIGPKAVIRDLTSTARVLARFGPRLPGLVESALLRQNNEIKIS
+RTGFKRWIFLAAIAGAGAAVSMMAAIEFLT
+>tr|B7RSE3|B7RSE3_9RHOB
+MSGNGGDDWIDGVSGSNFIDGGVGHDRLYAGSGRFSDSRELRYGDDASQVVMGGSGDDRM
+YGTRANDLMDGEDGDDRIYSYGGADILFGGDGDDYLSSSGYNNIVVGGAGHDAISGHRKS
+YDVFAFGDRYGRYTPSPYGYGGYGDYCNWSSRSNTYVGGDLDEDLRKMVTEQFLTSFAHD
+FARANLTFDVAGTSALRFALAPFILSISAP
+>tr|B7RJ91|B7RJ91_9RHOB
+MSASYYLCQAGVDHVVLERYERFHAWKEDRWDSFCLVTPNWQCKLPDFPYRGDDPTGFMV
+KEEIIEYVDGFCDSFDAPLHEGVTVTRVEKNRGVFEVDTDQGLWSADSVIVASGGYDRPI
+TPPFASQLDPAITQLHSKAYRRPSDIPDGTCLVVGTGQSGVQMMEDLTIAGRDVRLAVGP
+APRSPRWYRGRDATDWLHQLGYYETTIAEQPDPKTTEAKTNHYMSGRDGGHEIDLRRFAV
+EGLRMYGSVADMAGMTIRFLPDLEKNLDAADKSYVGIRQMIDDYIAREGIDAPLEPPFEK
+VWRPDAEITEIDAAAEGITSILWCIGFRPNYNWLLVDCLDARGRPIHTRGVCDEDGIFFL
+GLGWLHTWGSGRFLGVAEDAAHVAKTIANQHKPAGARIKTAV
+>tr|B7RMK2|B7RMK2_9RHOB
+MRRDLSRLLRPSSVALIGGGAWGAQIIKQTKRMGFGGAIHVVNPKLGIVEGIQAVASLAD
+LPDAPDAVFVGVNRQATVSVVGDLARIGAGGAVCFASGFAEARAEDALAGDLQAQLVAAA
+GSMPILGPNCYGFINALDGALLWPDQHGCRRVESGVAILTQSSNIAINLTMQQRGLPIAY
+MVTCGNMAQTRQAEIALALLDDPRVTAIGLHIEGFSDLGLWHDLALRAAEQGIPLIALKV
+GASDQAQQATVSHTASLAGGDAGAAALLTRLGIARLHDLPSFLETLKLLHSQGRLPSSAL
+SSVSCSGGEASLAADTAHGRKVEFPPLTEAQGRALRDALGPMVALSNPLDYNTYVWRDVA
+KMTAAWLPMAADHIGLTILIVDYPHTDASDWECATQAALNLRALSGRPVAVVATLPELMP
+HDVMDRLLAGGVTPICGLTEAILAAEAAAFDQDPDPVPPLPAGPERDAHLLTEAEAKAAL
+QGFGLRVPQGQVAQTPKEAARIALSFGGAVVLKGQGLAHKSEAGAVAVGLQPQDVEAAAA
+RMQAGSFLVEEMITDPVAELLIGVTRDPAHGFLLTLGAGGVLTELWQDTTSLLLPVTETQ
+IGDAVQALRIAPLLNGYRGKPGADIPAVIAAVLSVQAYVIAHLDTISEVEINPLICTTTS
+AIAVDALIRKA
+>tr|B7RGK6|B7RGK6_9RHOB
+MRLINQQLSPVAATALKFAPFLVLILAYLLGSSLRLAENPNDKLLPALTSIADAVDLMAF
+TPDRRSGDYLLWTDTWSSLKRLAAGLGISTALALVIGVCIGILPFFRALLAPFVSFVSMV
+PPLALLPILFISMGLGETSKIALIVIGVAPIMIRDLAQTVLALPREQIVKAETLSASSWL
+IALRIVLPQALPRLLGSLRLQLGPAFLFLIAAEAISADSGLGYRIFLVRRYLSMDIIFPY
+VAWITFLAASADFGIDRFRRWLFPWSQLEAGR
+>tr|B7RQ03|B7RQ03_9RHOB
+MAEQERMLEAILFATSEPITLRDIAARLPHGCDPAEAMVYLRKRYEGRGVQVVKVDDAYA
+MRTAADLGYLMQKETVEVRKLSRAAIETLAIIAYHQPATRAEIEEIRGVSVSRGTLDQLL
+ELEWIRFGRRKMTPGRPVTFVVTQEFLAHFGLETPRDLPGLKELRSAGLLESRPAFGTIP
+MLDGEEDEEEATEGQSELFED
+>tr|B7RPQ6|B7RPQ6_9RHOB
+MEHLPLELPENPKLAGNITHFARALRRAGLPIGPGRIVDAIRAVEAAGFTDKVDFYWTLH
+ACFVNRPEHRTVFAQLFRLYWRDPRYLEHMMAAMLPAIRGVQEDRPAQAAEKRAAEALLD
+GAQAPQQEEGEESEPEETLVEVDASLTMSAQERLRTLDFEQMSLAEMAQAKRMLARLTLP
+VKPMPSRRSMTSPQGRIDIQKTMRAALRRGGEMQNLALKKPRPRYPNLVVLCDISGSMSQ
+YSRTVLHFLHAVSNAKGAGWAKVHAFTFGTQLTNITRHLATRDVDAALKAAGAQAQDWEG
+GTRIGSCIETFNRDWSRRVMGQGAVVLLITDGLDRDNPDDLARHMQRLHLTARRLIWLNP
+LLRWDGFAPKAAGIRAMLPHVDSFRAGHSIASLEELAQVISRPDDTGEKSRLMGLMD
+>tr|B7RS77|B7RS77_9RHOB
+MSLLAVAATFEGKLPYEIVDANHLADPIETLSDKVVQTDARILALTVMPGPQTASSFEIT
+LALKRRFPDLVVVWGGYFPTMYPRAAMSCPAVDYGLKGYVNGDLGTFLQSVLDGTPDLSY
+PNLIYRDPQGEIIQNRMSKLVDINSLPEFPYKALDMEFYMRPTFLGSRTIGHHISLGCPF
+KCGFCGVVSMVNGKTSAETPDLGARGVARLVEEYGANAIEFHDNNFFLGEARTKSFCDQI
+AHHKIKWWAYGRGDTLLKYSEETWASMAASGLKMVYIGAETGSDATLKKMNKGGKQTVNG
+ILQLAETMRKFDIVPEFSFIIGNPPDPVTDMDETLEFIKKIKVMNPGSEIILYSYTPVPQ
+EGEMLQSAEDAGFVFPTEIEEWSSEHWQRICQRRDGELPWITEKIRRKLRNFRLVIDSTF
+PTVTDENLSPMKRTILRTAGRWRFATNFHYGPYELRLLNKLIPYQRPETAGF
+>tr|B7RR90|B7RR90_9RHOB
+MRITLVEDNQSLAKGITYRLEDAGHAVDTLHNGDAAQDYLKDDGADLVILDINLPGTDGL
+TLLAQMRKRNDARPVILLTARADTDDCVAGLDAGADDYLIKPFEMAELEARVRALLRRRA
+IPQQQLRAVGALHFDPVARQLFDQQTELDLPRREMSVFECLLAADGRLVSKSAVLDHVYG
+IGADIEETVVEVYISRLRGRLKPHGIVIQTRRGLGYQMSAKADP
+>tr|B7RPR3|B7RPR3_9RHOB
+MSELLKPLIDAAANGPLTRAQAEEAFGILFNGEATPSQIGGFLMALRTRGETVDEYAAAA
+YVMRARCNPVKAPAGAMDIVGTGGDGKGTLNISTATAFVVAGAGVVVAKHGNRNLSSKSG
+AADALTQMGLKVMVGPKVVEASLKEAGIGFMMAPMHHPATAHVMPTRSELGTRTIFNILG
+PLTNPAGVTRQLTGAYRRDLIRPMAETLGALGSEKAWLVHGSDGTDELTITGVSWVAALN
+PDGTVTEFEVTPEDAGLPVHPFEDIVGGTPEENARDFNALLDGTPSAYRDAVLLNSAAAL
+VVADAAPDLKAGVEMARTSIDSGAARDKITQVARITHSA
+>tr|B7RQM5|B7RQM5_9RHOB
+MVLRPHLPDLLAALPLPTLAVDRAERIVAMNPAAEALVGKGAIERHYINVLRQPTLVDAV
+ELCQKDATPREADYLANDGTNDITYRVHVRKVVGMDYVLLSFMDITQVTKASQMRRDFVA
+NVSHELRTPLTALMGFIETLRGPARDDAAARDRFLGIMTGEAERMNRLVGDLLSLSRVES
+DERVRPTDKVDLRYVLQSTLRNLNPLAVEADVTLVPRIGEEPLPLIGDTDQLMQVFTNLI
+ENAIKYGGSGKPVDLDVETTLRDPSLRGPAVRITVTDHGPGIDPLHLPRLTERFYRADDH
+RSRALGGTGLGLAIVKHILNRHRGRLKITSTLGQGAQFTVILPFDTAENR
+>tr|B7RJ26|B7RJ26_9RHOB
+MAFDQILPSLESLGLWSYWIIGLAAMLEAFFVTGVFVPGTLFVDAGGILVQQGAIDYFDL
+VWFVAIGSILGGEAGYWTGRIARRGLSTRWHLERSEYFQRAVRLFERHGGFALVIGRFLG
+PVSGLVPLAASVAGMDRRKFVLWNILSGFPYALGHIAFGYFLGEAASSLGPLITRLGLLA
+IAVLVLLAALWWGVARVIRLMPLAISILASMGRAVINHPDVQGWIQKYPRTSAFITRRFE
+RTSFWGLTATLLLGAALYIFVIWIGTIFDFLMLDPIVLADTHIAQLVDAFWTRGLLKVSA
+HITSLGDWRVVLPLAIAATAGLLAWRRYDLLLGLGVALVGQLASVTLLKQIFHRPRPDLG
+YFLETSGSFPSDHAAVSIAFYGFIFFILWRVKILKSLPATTATVTLGFLVGLSQIYLIEH
+YLTDVINGWLVGALWLVIGIAVAQWRQEYRMARHPDAAPRPARMAAVALMVLLVLGAIWQ
+IITYDHARNVTSPSAARSVWTNQPADSGTVTGSIPLRRSRSGPGQTLASAPWSSDGRARI
+FAFHEAGHGSKAPPAPIRTIRPASGQTIPFPTRK
+>tr|B7RJI8|B7RJI8_9RHOB
+MTNVLVTGGAGYIGSHACKALAAAGFTPVTFDNLVTGWRDAVKFGPFVEGNLLNRDQIDA
+AFAQYQPVAVMHFAALSQVGDSMTQPGLYWRNNVEGSLNLIEAAAEAGCLNFVFSSTCAT
+YGDQDNVVLDENSAQHPINAYGASKRAIEDILRDFDVAHGMQSVIFRYFNVAGADPEGEV
+GEFHRPETHLIPLMLDAIDGKRDALTVFGTDYDTPDGTCIRDYVHVCDLVDAHVLGLQWL
+LDGKGGRVFNLGTGSGFSVREVITHSREVTNRAVPIIEGNRRPGDCTKLVSGSSRAVAEL
+GWNPKRSTLSEMISDAWRWHQTGHYDT
+>tr|B7RI65|B7RI65_9RHOB
+MTPALQAQTRTVIRSYLGEGLRLGRDLTDDEDLLVSGLLDSLSVVRFVAMLETEFDLVIP
+PQDITLTNLASIDAVMIYLESRGL
+>tr|B7RKP5|B7RKP5_9RHOB
+MTAPHLWVRAEQRDNETRVGLTPAGAATLLAQGYRVTVEASDTRVIPTDAYAQAGCTIAP
+QNSWPDAPDDAIIFGLKELPDDGTPLKHRHIMFGHAYKGQSAGRILLKRFNAGEGTLYDL
+EYLTDDTGRRVAAFGYWAGFAGAAVAVKCWIAQRHGTSAAPITPYANADTLTAELKTDLE
+ALSARLPDALVIGALGRVGTGASDLCKRLNIPVTGWDMAQTAHGGPFPEILEHGLFFNCI
+LAGPQTPVFVPKDAAILPRNLRVIGDIACDPDSDFNPVPVYDRATTWEEPALRLHDAPPL
+DVTAIDNLPSMLPLESSEDYAAQLLDTLGSLSRPGAPVWLRTKALFDQHRNAL
+>tr|B7RMX5|B7RMX5_9RHOB
+MPRKPNYDRNELIDRARDLFWQRGWAGTSLKDLEAALQMKPGSFYAAFGSKDALFELALK
+KYASDGLERLIALAQEHGPIKALQRFPAMAIRNKSAPAKACMLSKTLLELQAHRHPLAHE
+ANLHLLRMEQQFAELFQQAQSDGAIDGSHDPRTLARRYQSDVLGLRVSAERDGVDANAIA
+AEIAEGLTRL
+>tr|B7RP42|B7RP42_9RHOB
+MNRRRHSLLNTLLKSIVLPGVLAAVLGVLIVHNLVEEEYDELLDISLTSKAQLLLTIFET
+TQTLPDAIDISTIMAFEDAAIEPDERTVFWFLDASGQIIVQSPGATADLLPATLTGGLFT
+QNDHRFAIFPAVSGDATVIVATPMKERNEAISDVLLGVILGFALLGILFVGAAFLVIRRS
+VRVIAKLSDNIAEKNEHNLSPIERQNAFAEIEPAIDTLDTLMARLDSALSAERAFATNAA
+HELRTPLAISLANVQRLKAVLTDPGPSASAAEIEQGLKRLIRLIERLLQMSRAQSGLGVT
+PVEADVRPVISLLLKDLRDRIPAEEKLVIKAPEGPWPSRIDPDALGIILNNLFDNALKYG
+AGPKPIVVDASVPGRVVVSNDCTALGAADLEAIKQRFVRKAPLSDGFGLGLSIVQALCQQ
+AGCSFDVMSPQPGQQRGFTAILTLPLGNAALA
+>tr|B7RJL9|B7RJL9_9RHOB
+MSAQDPRDQLVEHLPAMRAFAISLTRNGAIADDMVQDTLVKAWTNIDKFEVGTNMRAWLF
+TILRNTYYSSRRKANREVADVDGIFTESLAEKPAHDGHMQMTDFRKALSALKDEQREALL
+LVGASGFSYEEAADMCGVAVGTIKSRTNRARARIAELMGLRDDETLEMTDDATMSVISSS
+KVSSF
+>tr|B7RI59|B7RI59_9RHOB
+MPPAHASYDVVIVGGAIFGSSLAWWLTQMPGFDGKVLVVERDPSYQFASTSHTNSCIRQQ
+FTAAINVKVSQFGAEFVKNFRHFMGDDPEVPNLALQSFGYMYLADTPEFAETLKRNQQVQ
+MALGAGTKHLSRAEIAAAYPFYQLDDILAGNHNLIDEGYFDGGTMFDWFKRMARRQGVEY
+VHDEVIAMTKAPNGKTVDSVTLKSGAVIACGTVVNASGPRAQATAQMAGLSLPVEPRKRY
+TFVFDAADPLDRDLPLTIDPSGVHFRSEGKYYMAGCTPDEDPAVAYDDFGFDHSIWESKA
+WPAVATRVPQLDRVKVINEWVGHYAYNVLDQNAILGPHGEVGNFMFMNGFSGHGLQQSPA
+LGRGMAELIAYGEYRSLDLTPFAFKRIETGASMIEKAVI
+>tr|B7RKK2|B7RKK2_9RHOB
+MVKHTVEQKLAILSDAAKYDASCASSGSTKRDSRDGKGLGSNEGSGICHAYAPDGRCISL
+LKILMTNFCIYDCSYCINRASSNVTRARFSVDEVVKLTIEFYRRNYIEGLFLSSGVIRSP
+DATMSDMVQIARKLRHEENFRGYIHLKTIPDAAPELIAEAGLLADRLSINVELPTDAAIQ
+QYAPEKKPEQIRKAMADFRLRKDVSKDTSHTGKRPPRFAPAGQSTQMIIGADGSNDATVL
+GQSTRLYSSYKLKRVYYSAFSPIPDSSSKLPLIRPPLQREHRLYQADWLLRFYDFQLDEI
+TSVTADGNLDLEVDPKLAWALVHRAVFPLDVNRASREMLLRVPGFGLKTVNRILSTRRHR
+TLRYEDLIRMGASMKKARSFITAAGWSPGSLTDSVNLRARFTPPPQQLSLF
+>tr|B7RLW6|B7RLW6_9RHOB
+MGAAILAPSVLSILAATFAEGDDRSRALAWYSMVAGAGASLGLVLGGIFAGLLSWRIGFL
+INVPIGIVLWLLAGRVIPESTRQTAPLDLFGAITSTLGMVALVYGIVRSADHGWDDAGTL
+ASLACAGLLLLAFIRYEATAKAPLLPLSLFRDATRSSAYVSRMLFIGPAVAFFYFGTQLM
+QDVLGYTPVQAGLGFLPMTVVTFMVALALPRITARTGSAPVLAVAFLAMAAGLFWLASAG
+PQASYWSDLALPMAVIGVGNGGALAPLTSFGVYRVPEKDHGAASGLVNVAHQLGGSIGLG
+IFVVVFAAAATPTSPTGSLPQQIGAVFYSASFLCAIGLVLTLLFIQPAERRARSALSSST
+P
+>tr|B7RQ13|B7RQ13_9RHOB
+MKIATFNINGIKARIDALPQWLDEAQPDVAILQEIKTVDDAFPRELFEDRGYNVETHGQK
+SFNGVAILSKRPLEDVTRGLPGDDGDEQARYIEATVMGDKSAIRLCGLYLPNGNPAPGPK
+FDYKLEWMARLEDRARALLAEETPFLMTGDYNVIPQAEDAATPDAWRDDALFRPETRAAW
+RKLVALGLTEAFRARTQGPGHYSFWDYQAGAWNRNNGIRIDHFLLSPVVADMLRDCQIDK
+EIRGRDKPSDHVPVWVDLDF
+>tr|B7RR45|B7RR45_9RHOB
+MPGHLIRRLHQISNSVFAERMKAAGIDMTSVQFAALAILDENPGIDQATLAQEIAYDRAT
+IGGVVDRLERKGWVRREVNQDDRRARQVTLTGEGAAMLAVVAPVVAALQTDILAQLTAAE
+RAAFVALASKAVAQ
+>tr|B7RHU8|B7RHU8_9RHOB
+MNLLYANDKNGAYPDSWYAATATPLAAFAPLKGGMTADVCVVGAGYTGLSAALHLAKAGR
+RVILLEAQRVGFGASGRNGGQLGSGQRVEQDGLEKMLGADHAAKLWRMGEEAKALVKGLI
+AEHQIDCHLKPGVAWTGSSVGEVRHLHAYAEHLQARYGYDQITTLDRDQLQSVCPSPDYK
+GGILDRHAAHLHPLNLALGLARAAKEAGVQIFEQSAVHHIEEGPQVTVQTDGGRVTADHV
+ILACNGYLGNLNRKVAARVMPINNFIAATEPLGDRIKDVLPQDVAVADSRFVVNYFRLSH
+DGRLLFGGGESYGYRFPADIADKVRAPLSVVFPDLKDVRIDYAWGGTLAITLKRLPYLAR
+PSRNILSASGYSGHGVGTATHAGQLMARAIQGDTDGFDVMSTIPTHPFPGGAALRSPLLA
+LAMSWYSLRDRLGV
+>tr|B7RIP8|B7RIP8_9RHOB
+MSDLASDQSAAKRFGFGQAGAVSAALALLICLMVADLVTGPAGLPLDDVLRGLMDGPAAE
+DRRLAVILWHLRMPQTIMAALVGCTLGIAGLMMQTILNNPLASPYTLGFSAAAGFGAALV
+ILFGSALPVAMWIGVPLAAFAATLTAAALVYLVARYRGASPEMLVLAGIAVLFLFQSLQS
+LLQFMAAPEVLQQIVFWLFGSLLKASWTSVKVMSVILVVTLPFILREVWNLTALRLGDGN
+AASLGLNVEALRRRVLILVALLTAGAVSFTGTIGFVGLIAPHVGRALVGEDHRFGLPMAG
+IMGAVVLVAASVIGKAISPGAVIPVGIITAIAGIPMLLAIILLKGKR
+>tr|B7RM37|B7RM37_9RHOB
+MSGPPALAFLPAICLATFWFGGEGALLICAAAIPLAYLFLGGFHGPTASLLYARDGITGL
+LQRSAFEELTNQVFDRTEELGWKSATFAFAVEEFGELNDRYGKAAADQVIARTGERLIAA
+LRDRDCVGVLDDSRFGVCLDPVRHLDLELCIQMAGRLQRAMEEPVSVDGTVIYISVSVGF
+CQQSRTPEKNGDAWLEAASTALSAALRRGPSAIRAFSTKMLPQPEHSNALMEEVAQALED
+GQIMPWFQPQISTDTGEITGFEALARWVHPTRGVLNPSDFLQALERAELLERLAELMMYH
+SFAALKTWDTAGVKVPQIGVNFAGSELSNPRLIEKITWELDRFDLTPDRLAIEILETVVA
+SAPDDMITRNINALGKLGCRIDLDDFGTGHASIASIRRFSVNRIKIDRSFVMKADRDPEQ
+QRMISAILTMAERLGVETLAEGVESVGEHVILAQLGCDHVQGFGIARPMPIEQTLSWIET
+HCTKLREVPRIMDGKP
+>tr|B7RP01|B7RP01_9RHOB
+MSKSKKLDFRPNEFVVYPAHGVGQIVSVEEQEIAGISLELFVIAFEKDKMTLRVPTHKAT
+EIGMRSLSSPDTITHAMKTLKGKAKVKRAMWSRRAQEYEQKINSGDLIAIAEVVRDLHRT
+DDQREQSYSERQLYEAALERLTREVAAVAGGDELAAAKQVGDVLESRVAAA
+>tr|B7RFY8|B7RFY8_9RHOB
+MPMRRLYSHLALTYGQKLTLLASVPLVLAVAAIALVVALQAKALADREINTLETQLLDAK
+KIELRNYVTQARNGFYFIYGSAAPEDESAKAQVAQILSAMIYGEEGQFFVYDYDGTALVS
+PRQTDRINKNFSGETDSTGADVVDRLIQVARDGGGYHSYLWPKPSTGVEAQMITYVTSFP
+SWRWAVGTGVFIDDVLASVATARADVQNRVQRTFLYIGAITMSALLMVFGTGMLVNLRER
+RLADAKLKKLTQRVFDAQEEERGRVARELHDGISQILVGVRYALDNARRRLGPGDAKAAE
+PLGKGIDSLGRAISEVRRISRDLRPGILDDLGLGPALKTLVEEFSSRTHITCHFDTVVFR
+NRLDDDAKIALYRIAQEALTNIERHAGATDVRVDLRGHRQGATLTVSDNGRGLSGKARTS
+GGLGLRNMQERMEQLGGSLVLHDRAGAGTEIRATVPLTHMLPPQPNRPAPQAT
+>tr|B7RI61|B7RI61_9RHOB
+MKEMTMLKKLVLTGAAGRLGSYLREPLAAMCDELVSTDIADDIGTLYAGETYAKADIAVY
+DQIAPLLEGADMVVHFGAIVDEKPFMELLGPNFVGSYNIWEAAYQHGLQRVVYASSIHAV
+GMHKKADFIGIDAPHKPDTFYGLAKCFSEDLASMYWDKRGLEAVCMRILSCAQVNNPRAL
+GSWLSYDDLIQLVTRAVDTPSVGFSVVYGVSNNDRAPVDNAKASFLGYRPKDNAEQFAPE
+ILANAPPADLKDPGEMHQGGPFAKVDLGESGVASMNIVNDKKTT
+>tr|B7RQR1|B7RQR1_9RHOB
+MTVLIAGAGIGGLTAALMLHSRGIKALVIEQAPQVREVGVGINTLPHSIAELAELGLLDQ
+LDAVGLRTRELRYLTRTGQEVWRELRGTHAGHAHPQFSIHRGRLQKLLLDAVVERMGPEA
+VQTGLRLQGFVQDEAGVTAHFTDAHDGCSSRSFRSEVLICADGIHSVGRRQFFPNEGPPS
+WAGVVMWRGAAEWPVWEDGETMAIAGGLAGKLVLYPIAPAKDGRQLMNWVVNVRVADGSV
+SPPPPESWSKMAPLAKVLPYAKRFHVPGIDLEALVRGSGPIFEYPMADRDPLPRWTHGRV
+TLLGDAAHPMYPVGSNGAAQAILDARCLADHLARAEHPREALYRYELDRLPKTAEVVRTN
+RIGGPERVIDEVEKRSPAGFDDIDDVLSHAERNAIVKGYATMAGFGVTGETNNQNHQ
+>tr|B7RL91|B7RL91_9RHOB
+MAGSLIEHEQIKTTLPKAKELRPIIEKMITLAKRGDLHARRQAASKLKQDKYVAKLFEIL
+GPRYADRQGGYVRVLKAGFRYGDMAPMAIIEFVDRDRDAKGAGDKERVAAYEMAED
+>tr|B7RKQ2|B7RKQ2_9RHOB
+MAHPNPNIRDLAPVIRQLDDSAINRIAAGEVVERPASAVKELVENAIDAGARQITVEYAD
+GGKTLIRVTDDGCGIPAVDLPLALSRHATSKIDGSDLLNIHTFGFRGEALPSLGAVGRLT
+ITSRVAGQDGAEITVNGGQTGPVRPAALNGGTVVTLRDLFFATPARLKFLRTDRAEAQAI
+ADIIKRLAMAEPFVRFTLRDVSGDGQGRDVFRAEAEQGDMFAALHGRLAQVLGREFADNS
+LPIDAEREGLHLTGFAALPTYSRGTAVAQYLFVNGRPVRDKLLVGALRGAYFDLLSRDRH
+PAAALFLDCAPTLVDVNVHPAKSEVRFRDPGLARGLIVSGLRHALADAGHRASTTVADAT
+LGAMRPEQTGARVYQMDRPSLGARTAAYQAQSPGFAETAGMWGRVETPAAPVTEEPQETP
+DYPLGTARGQVHENYIIAQTATGMVIVDQHAAHERLVYEKLKRQMAENGVAAQALLIPEI
+VDLSASDCARLLDVADELTRLGLTIEAFGGSAIAVRETPAILGTVNAKAMILDVLDELAD
+QNESNTVQARIEAILSRVACHGSIRSGRWMRGEEMNALLREMEATPHSGQCNHGRPTYVE
+LKLSDIERLFGRT
+>tr|B7RP40|B7RP40_9RHOB
+MTLDTSTSKQDRRKPDRVTGSAHLFAAAGYSFGGLRRLWQETAFRHITLALPLSGVVLWW
+AGASIGEFCVLLVLFFSLVAVEALNTAIECLVDHLAPNWELFARDAKDLGSLATMCLLCA
+NGVFIGWIVLRAFIGPSAG
+>tr|B7RI84|B7RI84_9RHOB
+MDIDKLAKGIVAGDRRALARGITLVESSRADHRAQATALLAALPKDREALRIGLSGTPGV
+GKSTFIESFGMMLIRQGLRVAVLAIDPSSSRSGGSILGDKTRMDLLARERGAFIRPSPSQ
+THLGGVARRTREAVTLCEAAGFDVVLIETVGVGQSETVVAEMSDVFLLLLAPAGGDELQG
+VKRGIMEMADIIVVNKADGDLKPAASRTCADYAGALRLLRKRPQDPDGFPKAMMVSALEE
+NGLSEAWAEVQTLAGWRKDHGFWQRTRAAQARYWFEQAVKHALLAQLEAPKAKAALAALS
+DLVAQGGEDPTKAAQDFVAQLDR
+>tr|B7RIJ7|B7RIJ7_9RHOB
+MYAFDIERPTTVADAVEALKADEAQPLGGGQTLIPTLKARLAAPSKLVSLGNVKEMQGIS
+IDGDTLRIGGATIHATVATEARSRYPGLARLASKIGDPAVRNRGTIGGSIANNDPAACYP
+AAALASGATIITNTRQVAADDFFLGMFETALDEGEIVTAVSFPIPEASNYQKFVQPASRF
+PLVGVFVAKFADGVRVAVTGASEGGVFRWTEAEQALSGTFAPDALDGLNVSEDGMINDLH
+GDGEYRAHLIKIMTGRAVKAAS
+>tr|B7RL43|B7RL43_9RHOB
+MAKRWYSVSVLSNFEKKIAEQIRTTVAEQELEDQIDEVLVPTEEVIEVRRGKKVTTERRF
+MPGYVLVHMEMSDRGYHLINSINRVTGFLGPQGRPMPMRDAEVTAILGRVQEGEEAPRTL
+IHFEVGERVKVADGPFEDFDGMIEEVDDENQRLKVSVSIFGRETPVELEFTQVNKQV
+>tr|B7RMT1|B7RMT1_9RHOB
+MIKLIGQRLLAMLPLLLIVSVLTFSFTALLPSDPVDLIIGDRGSDAQYEMVRERLGLNQP
+FVARYFDWLGRAVQGDLGTSFFNSVRVTDAVLLRMPAALSLTTGVGADFDCRGPGRRHRR
+GIASAVLD
+>tr|B7RQV3|B7RQV3_9RHOB
+MANLVMTEDETMLADAARGFLDKSAPVKAFRDLRDAGKTHDAKMWKEMAEMGWAGVLVPE
+SAGGSDMGHAAAGVLAHEMGKTLVVSPFLSTAVIAATALRNVSDARAEKALAAIATGDVT
+YALAVDETPKFNPEAASMVATREGNGFRLSGKKTFVVDGALADRLLVLAKTDEGLTLFDI
+PADRAGINRTAQNMIDARDSARIDFDNVEATGDDVLGQVDSAMSILKPALEAGQAALAAE
+MAGLSAGAFGMTVAYLKERKQFGTVIGNFQALQHRAAHLWCDIEVTASAILNAGRMLDED
+PDNATMAVSLAKARATSTAQLAVQEGVQMHGGIGMTDAYDIGFYMKRARVGAEWLGDYGY
+HAAQVAKHRGF
+>tr|B7RGX9|B7RGX9_9RHOB
+MLAGKHILLIIGGGIAAFKSLDLIRRLRERGAIVTPVLTRAGEEFVTPLSVAAIAGQKLY
+RDLFDLGDEAEMGHIQLSRVADLIVVAPATADLMAKMAGGLANDLASTLLLATDTPVLIV
+PAMNVRMWDHPATQRNLKTLRGDGINVIGPNDGDMACGEFGPGRMSEPLEIVAAIEAHLS
+EGPLKGRRILVTSGPTHEPIDPVRYIANRSSGAQGTAIAKALADLGGEVVFVTGPADVPP
+PEGVQVIRVETALQMQAAVEAALPVDAGVFAAAVADWRVSSASDRKLKKSKDGLPALEFA
+ENPDILKAVSHLKEDRPKLVVGFAAETNDVVENATAKRVRKGCDWIVANDVSPATGIMGG
+SENAVVIITADGVDSWPRMGKDQVAKQLAARIAETLG
+>tr|B7RGM8|B7RGM8_9RHOB
+MTDLRMTIPDIHAAYAAGVSPRDVVAQVFDRISAVGDPNIFIALRAHQDVLADVATLGDF
+DTAKPLWGIPFVVKDNIDVAGYETTAACPAYAYAPETDAFVVAQLRAAGAILIGKTNLDQ
+FATGLVGVRTPYGAPLNSVDPEIVPGGSSGGSGVAVGHGIVPLSLGTDTAGSGRVPAALN
+NIVGLKPTLGALSASGVVPACRSIETISIFALTVSDAYAAYQVCCAYDPADAFARPISAP
+DLTAMGTPPVIGIPSPDTIEFMGDAVQSASFYAAVDLLRAEGATIREIDFKPLYAVAHML
+YEGAWVAERYTVIEDLLKRDPDAIHPVTRQIICKAEDLSAADAFRGIYRLKELARAAEPS
+LAGVDMLCVPTIPTFHTVAELEADPVTPNSNFGTYTNFVNLLDMCGIAVPVPARSDGRPG
+SVTLLAAAGKDAEIAVMAQSLEAAGQRSLGATDWAYTAPPALPAGETTTLRLAVCGAHMA
+GLPLNHQLTDRNAVFVKKARTTDAYRFYVLAGGPPARPGLVRGTAGSGAPIALELWDVPL
+AHVGSFLGGIPAPLGLGTIALDDGSQVQGFLCETVATTDAQDITDIGDWRQYIASLTA
+>tr|B7RJ84|B7RJ84_9RHOB
+MKLFSGKSRPVHLGPYPLERLRRSEPSTPPLPDLPFPPLSFDATDRPQSIINAMGPFQAM
+MDAVRAGQPNTQAVDIPKDPIERAQHLKAFGYYNDASMVGICALPPKAFLSEPRANPDTA
+ALGEDLKNRQTKTLASGVDAIMANLRDTAGADSAPIRHHTHAIVMLVAYPRDPAATEPGS
+DWIIGAQAHRAAIRATENATVLAEYLRILGFDARAHSATTSDVHLPQLSLAAGLTVLENG
+EANAPWLGTRFGLAAVTTDMALAADQPLRPLNQQPASVLRGHVWQLGTHGGASARSHDPY
+AKRNFVDGPHPFETLKRVEQPTTYIDAPNVPRVPKRTDMFARGQFGDMGPKVQDAMKGGQ
+HIVKSAPAAAQRRLLGAMILLQDGAIADAPQGDTPDRNAANIKAAAYFLGVDAAGLSACP
+DWTWYSHDATGTPVTPPHDHALSTVIDQGFDTMEGASGDDWISTAQSMRAYLRFAVLGGI
+LAQHLRNLGFKAKAHTVMDGDVLQPPLLLLAGLGEVSRIGEVILNPFLGPRLKSGVVTHT
+MPVTHDRPIDFGLQKFCDACNKCARECPSGAITAGPKKMFNGYEIWKSDSQKCATYRITN
+KGGSMCGRCMKTCPWNLEGLFAEAPFRWAASTIPAAAPLLAKLDDALGRGGLNPVKKWWW
+DIEQQRSGDVTKPSHPVNARGLQRDLDLRAKDQTMAVYPAPLAPHPWPYPDPMNREAGIK
+AHAALLSADEHRARSAMGQTDHLHLYDAGAESPVLDLRITAVQQLNDSVTLYDLAHPDGA
+DLPLWTAGAHLDLVVAPEYLRPYSLLGDPAERSRFRIAVLREDAGRGGSALLHRIFSKGR
+RVFVSAPVNHFELVQDALHSLLFGGGIGVTPMIAFAHRLHALGRPFELHYSAPTQTAAAF
+APLLADVAWADRVHLHISADGTRADMDTLMASAPNGTHAYTCGPDAYMQAVMSAGKARGL
+PDDALHLEYFAPPAQPEYTNHPFTLRLPDGRDIPVSADQSASDALIAADIKLDIKCADGI
+CGVCKCTLLSGQAEHRDFVLSAKQRESTLILCQSRAASPGGVLEIEL
+>tr|B7RKW0|B7RKW0_9RHOB
+MSLPKIPLAAVIGSPIAHSKSPQIHGHWLSTLGIQGAYIPMDVAPEDLEQVLRTLPKMGF
+VGANITIPHKEAVMEMVDVITDRAALIGAVNTLTFRADGKIMADNTDGYGFIENLRAGAP
+SWVPADGPAAVLGAGGAARAVIASLLDAGVPEILLSNRTRVRADRLKSVFGGRVTVYDWV
+KAGNMLDHAALVVNTTSLGMIGKPALRVPLDGLRPSMVVTDLVYAPLKTKLLETAEEAGC
+TTVDGLGMLLHQAVPGFERWFGTRPQVDRATRAAALR
+>tr|B7RNF4|B7RNF4_9RHOB
+MTGDEAVEHFIRESLSENTRQAYRADLAHFTVWGGTLPASPETIARYLAEHAEILAPATL
+SRRVATLSKAHEANGWPNPCRKELVRATLRGIKRVKGTAQAQARPLLREDLFLVLDALDD
+DPRSLRDRALLLVGWAGGFRSSELTGLDLSDIEEVREGLILHLRKSKTDQTGQGRKIGIP
+LGRTRHCPVAALSGWRQALPEPDGRVFRPVDRHGNVRGPMLRPDAVSTILRDRLATAGIE
+SEGYSGHSLRAGLATSAIKAGVPTYKVRAQTGHASDVMLARYVRDAGLFDGNAAGALL
+>tr|B7RR24|B7RR24_9RHOB
+MLFRNQTFRSLWIAALASNFGGLVQAVGAAWLMTSLSDSQHMVALVQGSVALPIMIFSLL
+AGVFADNFDRRRVMLIAQAFMFVVSISLTFMAFEGWLSPWSLLAFTFLIGCGTALHNPSW
+QATMGDIVSREELPSAVSLNSMGFNLMRSVGPAAGGAIVALAGVAAAFAVNALSYIAIIL
+ALLRWKSPPRESHLPREPMGSAFSAGLRYVAMSPNLLRVILRGFWFGLSAIVLLALLPVI
+VRETLDASAFVYGVMLGCFGLGAVFGALLNARLRARFSNEIIASGAFVGFAVSCGALAFS
+TNAFLSGAALMITGGCWVLALSMFNVTIQLSTPRWVVGRVLALYQTGTFGGMAAGSLIWG
+ALAERAGAETALLSAAVLLVLGALIGLRLPLPEFNGLNLDPLNRFKEPPTRFDLNYRSGP
+VMVMVDYEIAQEDIPEFLAAMSQRRRVRIRDGAQQWALLRDLHHPEHWSESYHVPTWGEY
+VRHNERRTHADADLADHLRRLHRGEGAPQVHRMIERQAVPLHDDMLVKGA
+>tr|B7RNR7|B7RNR7_9RHOB
+MIGIGIIGFGYWGPNLARAISESVVSRVEMIADGSEKARDRAGLRYPSSRVVANPSEMFR
+DPAVDAVVIATPVHTHFELAMAALKAGKHVLVEKPMTETVAQSLRLVEEAARRNLTLMVD
+HTFIYTPAVQKISGLIQSGELGDVYYYDSTRVNLGLFQRDVNVIWDLAVHDLAIMDHLLD
+QHPVAISATANGFLSGSPENMAHLTVQYDGGAVAHLNVNWLAPVKIRQTLVGGSRKMVVY
+DDMQTSEKIKVYDRGASCGDGPYEHLVSYRLGDMSAPALSSKEALLTEVEEFVRSIESGT
+VPLTDGHGGLRVVEMLAAASQSTKLRGHPIDLVTLKEAS
+>tr|B7RMR2|B7RMR2_9RHOB
+MDFGLTGKTALVLGASRGLGAASATLLATEGAHVIAASRSGTAPAAGIEGVALDLSDPAN
+IAALIARLKAQPVDILVNNCGGPAAGPAKGQTIAAWQTAFDTMAAPFFAISDAALPGMIT
+KGWGRIVTIGSSGIVQPIPNLALSNGVRGAIAGWSKTLAEEVAADGITVNMVLPGRISTD
+RFAELDGLKADKTGTPLEAVQTASRKSIPAGRYGTPEEFAAVVAFLCAQQASYVTGSLLR
+VDGGMIRGL
+>tr|B7RJN5|B7RJN5_9RHOB
+MRLTGKTAIVTGGASGFGAGIVRRFLQEGAQVMVADINGAAADQFASEMGDHAIAQQVDV
+GDGPSVQAMTDAALAAWGHIDILINNAGVSHMPAPLDTISEDDFDRVTRVNMKSVYLTAR
+SIVPHMKERGTGAILNVASTAGVSPRPNLNWYNASKGWMITATKTMAVELAPNGIRVNAI
+NPVAGETPLLTTFMGEDTPEIRAKFLSTIPLGRFSQPEDMGNAALFLCSDEASMITGIAL
+EVDGGRCI
+>tr|B7RQ89|B7RQ89_9RHOB
+MTNLQSVFNAHMTSGRARRGILCKRASLGMGAVVASLLLSACAEPEVILPGLRQDVRSVL
+QNDDSLLAPADLPIPANTTRAIALPKSVNNASWSQAAGTPSTRIGNAALSAAPRLAWTSN
+IGQGDSRKQRITATPVVSGARVFTIDSSALVTATSTSGAVLWTRDLTPASDGQGDATGGG
+LAVDGDTLYVSLGFGSVTALDVSNGGTRWVQDIEGTGSGAPTVYGDLVYFTSGDDLGWAL
+NKSNGRVQWQTGASTTIGNVLGAPAPAISPEIAVMGFGSGEVQGLFRQGGLDRWSTSVVG
+KRPGRALANISDVTSAPVIFGDTVYVGNQSGRLAALSLAGGARLWVAREGAIGPVWPAGD
+SVFAVTDLNELVRLDANTGQRIWGIPLPNFVKEKPKRQSEVFAHYGPIIAGGRVIIASND
+GKLRSFDPTNGALVGTAEIPGGATTAPVVAGGTLYVVSTKGQLHAFR
+>tr|B7RRC8|B7RRC8_9RHOB
+MAFDAFAYFKGSDVVGETQDDAMKKEKAFEIISFEIGAENNINIGSMTSGGGAGKATFKE
+FTITKKTDTASCAMFSKLCEGAHFDDMVVELRRSGGAAGVSGKTFLKWEFKLVMIQDISW
+SGSDGDDICEETVVLQYGAMKVTYTPQDKQGKDGTPKTGEWSRVLNKANLAV
+>tr|B7RQ54|B7RQ54_9RHOB
+METPDQPQLYLITPAEFDLEVFPDQLARVLDAQPIACLRLALGTRDEDRLLRAADALRTI
+TDARDIAFVISDHTLLAERIGLDGVHLTDAARSVRHARKTLGDDAIVGSFCAGSRHDGMA
+AGEAGADYVSFGPVRPSALDDGSYAELDLFKWWSEVIEVPVVAEGGLDDALVRALTPMTD
+FFGIGDEIWGTDDPVKALAELVAATK
+>tr|B7RIR3|B7RIR3_9RHOB
+MDVVVIGAGLSGLTAAAVLREAGASVQLLEADAQIGGRIRALRDPTSDHAVADLGPTWVW
+PNHQPVVARWLDILGATTFEQFNEGDAVVVGYGPTPLRQPLPGQDGMVRIAGGPSTLIDT
+LTNRVGQINIRRSAPVTEVSEDGPDHMAVHLGSGEIITAQKVIISVPLRVAAKTMHLPWA
+SSALIETMRGMPTWMSTQAKAVAIYNKPFWRDDGLSGRIVSRIGPLAEVHDHTGVDNAPA
+ALFGFVSWSPEQRRAEPERLRLAILEQLSDCFGKTAARPLDLAIQDWAMNPRIVNELDTL
+QPATHPYIGPANLRQPLLDGRVRFAVSEASERSPGLIEGAFAIGEKAALELLGTDL
+>tr|B7RND9|B7RND9_9RHOB
+MIPGEVFCADGDITLNAGRDAITLMVANTGDRPVQVGSHYHFAETNPALDFDRAAAHGCR
+LDIAAGTAVRFEPGQRREVQLIALGGDRKVFGFNGAVMGAL
+>tr|B7RJU4|B7RJU4_9RHOB
+MDRHYLRQFGAFAMSDKIPVGAISGSYGVRGELRIKSYCAVPEDIENYSPLTSEDGSRRY
+ALALVRPIKNGFVARITDVTSKEEADALRGTLLYADRAQLPSLPDDEFYHADLLGLEVYD
+TGGTLIGKVKTVQNHGADDLLETQLAGTSATVFLPFTKAAVPTVDLASGRIIADPPDGIL
+PDTKADADADHKGA
+>tr|B7RNB6|B7RNB6_9RHOB
+MQVMTRAFATLILVFSLALPALAERPRPLGWAMDAVRAGNWDTAALIAQRDGAVAVDVVE
+WHRLRAGRGTYGEVMDFLARRPDWPGEDYLRKQSEDAVIAEDDTAILEFFEGRSPQTARG
+VLAHAAALTRADRLGEAQARLVLAWRTMPMDRASQALFLTQHDALLKPHHAARLDEMLWQ
+RNHGEARQMFDLVSAADKALAETRIALQNRNGDVNEMIDALSPAKATDPGLQKDRFEWRI
+RKGFEDSAKDLLLSQSVSAAALGQPAAWANRRRALARDEMRSGDPERAYQMAARHFLDDG
+SHYADLEWLSGYIALRFLKDPKLALAHFKAHDSAVASPISQGRAGYWQGRALQAMGDAEG
+AAKAYAEGAKYQSSFYGLLAAERGGLPFDTTLGGLAQKQDWRSSALAQAPLFQAGMLLQA
+SGELSLAERFWTHLAEQLLADDAALLGQAAIDVDQPHLAVMIGKRVAQRGITIAAPYYPL
+HPAIKLDLNMAPEMVLAIARRESEFDPIVQSSVGARGLMQLMPATAKDVARDLEVSALHT
+TDRLTADPDYNALLGSVYLAQMAGRFNGNVVMVSAAYNAGPSRPPRWMDAYGDPREGDID
+VVDWIEMIPFRETQNYVMRVTESLPIYRARLGLDPLPRPFTEELTGSTLLPFSPKGE
+>tr|B7RHP8|B7RHP8_9RHOB
+MIDTLLFPFQFPFMQNAFWIVLLVAPPTALLSCFLVLKGWALMGDAVSHAVLPGVVLAWI
+TGIPLIVGAFAAGMSCALLTGYLSYNSRIKQDTVMGVVFSGMFGVGIIMYTSITTNQHLD
+HILFGNMLGVGTQDLWTAGIISLFVTGFLVLKWKDLLLHAFDPAQAQASGLRTGLLHYGL
+LAVLSLTIVATLTATGLILAVALLVTPGAIAFLVVRSFGPMLIVSVAVCTLSMLAGTYLS
+FFIDSAPAPTIVLILTAVFVLAFSNRLYVTRKAARRSVT
+>tr|B7RLT5|B7RLT5_9RHOB
+MGYRVVIAGATGNVGREMLNILAERHFPVDEIVALASRKSMGSEVSFGDKTLKTKDLDTF
+DFTGWDMALFAVGSEATKKYAPKAAKAGCVVIDNSSLYRYDADIPLIVPEVNPQAIHEYS
+KKNIIANPNCSTAQMVVALKPLHDRATIKRVVVSTYQSVSGAGKDGMDELWDQTKSIYNP
+TDDKPAKKFTKQIAFNVIPHIDVFMDSGDTKEEWKMMVETKKIVDPKIKVTATCVRVPVF
+VGHAESINIEFEDHLDENEARDILREAPGVMVIDKREDGGYVTPVECAGDFATFISRIRQ
+DSTIDNGINLWCVSDNLRKGAALNAVQIAELLGREVLKKG
+>tr|B7RFU1|B7RFU1_9RHOB
+MIDTLPKVTFERVMLKISGEALMGDQGFGLHPPTVQRIAREVKSVHDLGVEICMVIGGGN
+IFRGLQGSAQGMERTTADYMGMLATVMNALAMQSALEELDIHTRVISAITMNEVAEPYIR
+RRAVRHLEKKRVCIFAAGTGNPYFTTDTAATLRANEMACEAIFKGTKVDGVYDKDPAKHD
+DAKRYETVSYDDVLQKRLGVMDASAIALARDNNLPIIVFSLDEPGGFRGILAGQGTYTRV
+QG
+>tr|B7RR86|B7RR86_9RHOB
+MKVHILDDWFDTLRALPCFDKLAGHDVTVWTDHEPDPAKLAARVQKAEALVLFRERTMVG
+EDLLSRLPNLKLISQRSVYPHVDVAACTAHNVLLSSNMQSDTPSYAAAEHTLALILASFR
+QIPQQVASIKAGQWQAGVGRTLRGRTLGLYGYGRIAGAVAEYAKALGLKVQWWGSEAGRA
+RAQAAGETVAPSREAFFAGSDIVSVHVRMKPETRGLITAADLAQMQPGALFVNTSRSGLV
+ETDALEAEVARGSLHAAVDVFDHEPLTDTSHILLTHPNVLATPHIGFVTEDEFDLQFSDI
+FDQINAYASGAPIHMINPEVYP
+>tr|B7RKU8|B7RKU8_9RHOB
+MATVAVTDATFEAEVKNSDIPVVVDFWAEWCGPCKQIGPSLEELSAEMDGKVKIVKVNVD
+ENPNSPAQMGVRGIPALFIFKGGEVVSNMAGARPKAALQSWIEESI
+>tr|B7RN76|B7RN76_9RHOB
+MRRFLARFTVAAAIILFSSTITQAKEPLRILVMGDSFMTTNTLAGQAVPDQLKRFLGAQV
+KSRAVTGARYRYMLPITGALGLKISKQYRDGPWDWVVINGGGNDMWLGCGCTRCTRRMNK
+LISPDGTRGEIPALVSKARSAGAQVAYVGYLRSPGTWSPIEHCKAEGDALEARIAVMAQR
+DQGVTFVSLADMVPSGDRSFHAADMIHPSIKGSKAAAARIAQVVIGGQP
+>tr|B7RLZ7|B7RLZ7_9RHOB
+MANTPQAKKRARQNEARFQINKARRSRIRTFLRKVEEAIESGDKDASVAALRAAQPELMR
+GVTKGVFHKNTASRKMSRLASRVKALG
+>tr|B7RFT6|B7RFT6_9RHOB
+MDIFALIPQFSGIIWTLLAFVVALSVIVAVHEYGHYIVGRWSGIHADVFSLGFGPVIYAR
+TDKRGTVWQIAALPFGGYVKFAGDANAASGKDTTAMEQAQADPVRLRSTMHGAPLWARAA
+TVAAGPAFNFIMSILIFTAVALSAGVAKDPLTVGEMRALPFEGTQLEPGDEIISAGGVTI
+PSALEEGAFSDAFAAVPVAQPLDYEVRRDGQTITVQGPYLMPTLIKQVMPQSAAFEAGLI
+SGDVITAIDGTPVFAFKQLKEIVEASEGSALLLTVWRNGETLEFTMRPKVTDEPQPDGTF
+KTQMRIGIVGGTAFDTATTTPGVFEALWGGVENTGRIIQGSLSGLKHMIVGNISTCNLSG
+PVGIAQTSGAMASQGAQSFIYFIAVLSTAVGLLNLFPVPALDGGHLVFYAYEAVTGKPPS
+DGALRVLMTIGLTLVLGLMVFALGNDLFCP
+>tr|B7RRN0|B7RRN0_9RHOB
+MTPSSTALLTIDLQNDFLHPEGAYGRAGQGADSILALPDRIAPLKQALIRAGGTYISAQF
+TLVPGRDDEPLVAEHLKKLRPFLTKGDFAPGSFGHALTDTLAPADFTVEKVAYSAFYQTR
+LEYILRAMKIDTLIIGGIVTNGGVASTVRDAHLRDIHTILLSDGCAAFKDDVHDATLKSL
+GSVTEIMTCSAATALLGGAS
+>tr|B7RLP0|B7RLP0_9RHOB
+MAYQTRGRDPLLDSSMTQAIEKRGKELLGIGLIALGLMAAMMIGSYTPDDPNWMVSTDAP
+AQNWLGRMGASLAAPLFMIVGWGAWAVAAILLAWGARFALHRGQDRAMGRLIFAPIAVAL
+CSVYGATLTPGSEWLQTHSFGLGGLFGDTVMGAILTILPIGSTFTIKLMSLLMGVSILVF
+GAFVLGFTKLELTRIGRFMLVGVIMVYAGLMTLLGRGAAGAVSAAQTLQAKQSERRERNR
+IEAEENAEYAASQAYYEEHSYAAAPAVAPKTGLLSKMPALVKRAEPLPEPELVEDWSDVE
+VDETPSNDRIKSKIADVIKSRVRTASALHTPVTSPLTRGRGRGPDPLVLDTTPRIHSREE
+PPLTSPARVEPPLTSASMSPGLIRPAQAEAAADVDLILEEDDGLPLQDAAPSDTIQIPVA
+QPRKVVQQPTRKVIQPSKKAQAEAQPALTFDDTHPGFELPPLSLLESPDSVERLHLSDDA
+LEENARMLENVLDDYGVKGEIVAVRPGPVVTMYELEPAPGLKASRVIGLADDIARSMAAL
+SARVSTVPGRSVIGIELPNENREKVVLREILSARDFGDSTMRLPLALGKDIGGDPVVANL
+AKMPHLLIAGTTGSGKSVAINTMILSLLYKLTPEECRMIMIDPKMLELSVYDGIPHLLSP
+VVTDPKKAVVALKWTVGEMEERYRKMSKMGVRNIEGYNGRVRDALAKDEMFSRTVQTGFD
+DETGEPIFETDEFKPETLPYIVVIVDEMADLMMVAGKEIEACIQRLAQMARASGIHLIMA
+TQRPSVDVITGTIKANFPTRISFQVTSKIDSRTILGEMGAEQLLGMGDMLYMAGGSKIVR
+CHGPFVSDEEVEEIVNHLKAYGAPDYISGVVEGPPEDQEGSIDAVLGLGGNTDGEDALYD
+TAVAIVIKDRKCSTSYIQRKLAIGYNKAARLVEQMEDQGLVSPANHVGKREILVPEQG
+>tr|B7RQT1|B7RQT1_9RHOB
+MQIESQVIEIIAQQAMLDPADVTPDSTLSELGIDSMGVVESIFAIEETFDISVSFNANQP
+DASDFDISSVASIVAGIQRLKAEQG
+>tr|B7RGM4|B7RGM4_9RHOB
+MTDMPLKQSRKTSGGVDHLIYVLRANPVTLIAFGMFALIVLSAIFGPALVPYDPLETNAS
+NALQAPSWDHWFGTDNVGRDVFSRVIVATRLDLSMSLAAVALSFVVGSVLGSIAGYWGGW
+LDIVLNRILDTIMAFPLFVLAMGIVAALGNTIENIIYATAVINVPFYARLVRAEVNIRRE
+AGFAQAAKLSGNSDIRVLAMHIFPNALPPMMVQVSLNLGWAILNAAGLSFIGLGVRPPTA
+EWGIMVAEGANFIVSGEWWMAVFPGLWLMIAVFTFNLLGDGLRDIVDPRKRT
+>tr|B7RRN9|B7RRN9_9RHOB
+MKTLSILSIAALLSAGVVQAETVNGLRTVDEFDSIADDAKRSVALFEEMFVVIESPRCLN
+CHPVNNVPLQGDMMQPHQPPVVRGVGDFGATGMRCSTCHGSENVSFTTGQGSIPGHEPWQ
+LAPIEMGWVGLTAAQVCEQLKDPERNGDRTLAELHEHNAEDGLVGWGWEPGEGRTPAPGS
+QEIFGQLTQAWIETGAACPQM
+>tr|B7RGA1|B7RGA1_9RHOB
+MPLYEHVMIARQDLSNTQAEGLIEHFGTVLADNDGKLVDSEYWGVKTMAYKINKNRKGHY
+AFLRSDAPATAIQEMERLMRLHDDVMRVLTIKVDEHKELPSVQMQKRDERPERGERRERR
+>tr|B7RGT4|B7RGT4_9RHOB
+MKIGCPKEIKPQEYRVGMTPNAAFEAVKHGHEVIIETGAGIGAGFEDADYIQAGATIIAT
+AAEIFASADMIVKVKEPQAAERKMLREGQILFTYLHLAPDAAQTNDLIASGATCIAYETV
+TDRAGGLPLLAPMSEVAGRLAPQVGAWTLQKANGGRGVLMGGVPGVGPAHVVVIGGGVVG
+THAARIAAGMGADVTVLDRSLPRLRYLDDIYGGVFKTSYASAGNTIELARQADMIIGAVL
+VPGAAAPKLISRAQLSELKPGAVLVDVAIDQGGCFETSKATTHHDPIYEVDGIMHYCVAN
+MPGAVARTSTIALGNATMPFMLALADKGWKKACADDPHLKAGLNVHAGQLTYAAVAEALG
+MDAITADEAITG
+>tr|B7RNA9|B7RNA9_9RHOB
+MTQGIAPPPPTTDSATEHGYHYGIMRRAIDLIDHATDPMALDQIASEMNMSTAHFQRLFS
+RWVGVSPKRYQQYLMLDHAKTLLRDRFTTLGTAHAVGLSGSSRLHDLFLRWEAMSPGEFA
+RKGEGLVISWGWFDSPFGPSLVMGTDRGICGLAFAAETGEAPAMDDMRRRWPGATFRENS
+DLLRDWVQIAFATQDGSGAKAPLYLIGAPFQIKVWEALLSIPSGHVTTYSEIAQTIGTPK
+AVRAVGTAVGRNPISWLIPCHRALRKSGGLGGYHWGLPVKRAMLAFESARADA
+>tr|B7RFQ2|B7RFQ2_9RHOB
+MGRPIRALARSADCHASTILRQIRKIETRRDDPLVDDALETLGRVSRNKMIINKDKMPMT
+QAANPSMPDDETLTREARRILRRLCETGAVLAIAAEMEKAVVVRDGASGASTRTAVVDRP
+IAQAMALKGWIATNGGGRISRYYITAAGRTALEQLLEVDSPRGPDGFAEAQTSFQGQGYD
+DDDEPVKRGARRMRYNLAESPLAALARRRDKDGTQFLTDTLVQAGERLREDFELSQMGEK
+ITQNWERFLTPGGDGAPASFAGSAPSAARARVASALAELGPGLSDVVLRCCCYLEGLETT
+EKRLGWSARSGKIVLRIALMRLRKHYDETLGPGSAMIG
+>tr|B7RKX8|B7RKX8_9RHOB
+MQDHMTTHQAEEDARNDEILIYLNGKIVPKAQAVVSVYDSGFMLGDGIWEGLRLYDGCWA
+FMDDHFDRLFEASKAIDLDIGMTREALVSALLETQRANDMTTDAHARLMITRGVKTRPFQ
+HPSLSQSGPTITIIMEHSRPSIPRPIRLATVPHLRGLPMTQDPKLNSHSKLNCILACIAA
+EKAGADEGLMLDINGFVNTTNACNFFIVRKGAVWTSTGDYCMNGITRQKVIDLCRANDIP
+VFERNFSLVDTYGADEAFLTGTFGAQTPVASIDGRQIGSGEMGPMTGRLRDLYKDLIKQE
+CA
+>tr|B7RNC4|B7RNC4_9RHOB
+MALPVETFFLHPDAQGTLQQQIQQMIAQGILTGRFDTGEKLPSTRKLAAHLGISRITVTI
+AYTELLANDYLSSRGRSGYYVSENAPAPPQFTPAENTPDAVDWTRAIGQRFSGGVTPIKP
+QDWATYRYPFIYGQADPTLFDHANWRLCALQALGQRDFTALTTDYYDQDDPKLIEFIARH
+SLPRRGISARPEQILITLGAQNALWLTAQVLLTQRRRAALEDPCYPALRDILTQSRCHMS
+PVQVDQEGLIPDAIPDDTDVIFTTPSHQCPTTATMPMARRRELLDRARALDALIVEDDYE
+FEMSFLKSPSPSLKSLDQDGRVIYVGSFSKSLFPGLRLGYLVGSEPFIREARALRASVLR
+HPPGHIQRTAAYFLSLGHYDALVRRMSNALHKRRSVMEDAIKANGLQIAGRGAYGGSSFW
+MRAPDHVDTGDLAGRLQAKSVLIEPGAPFFNGDAPPQNYYRLAYSSIPSAQISTGIAHVA
+QAIKSCG
+>tr|B7RJ98|B7RJ98_9RHOB
+MKDWTPILRTDGAARYLQLADAIAEGISNGTLQDGVRLPPQRKLADRLGIDFTTVSRGYV
+EARQRGLVSSHVGRGTFVIGTKRADPQREQRRHADVDLTMNLPPEPDEPALLARMEAGVQ
+TVTANLIDLLRYQSSTGGQIDKEAASTWLSLRGLVPSLDRIAVTPGAHPTILAILMSLAK
+PGDVVLCEDVTYPGIRSICARLNLRLVGLPGDADGIDIDALNTAIREHRPKALYLNPTLN
+NPTTRTISLARRQSIADVIIAHHLPLIEDDAYGFIPPHPPAPLASFAPDLVWHIGGLAKC
+IGAGLRLAYTVAPNSHAARELAHQIRIISVMPSPLMMALATRWIIDGTADGIRRFVREET
+LARQAIASQALNGFRFESTPHAFNVWLHLPEGITRAEMIGRMAGTGVGIMPSDAFTVSGN
+PTEAIRVCLGGQIKRSQLHDAMGLLAYIMSSTD
+>tr|B7RNK9|B7RNK9_9RHOB
+MPDGIETESRKLLGRLRDAMASDEAGQARLDKITSLIAGSMGCEVCSIYLFRDEDTLELC
+ATEGLKSDSVHETRMKLGEGLVGRVAKRKRIINTPNAPQAPGFRFMPETGEEIYSSFLGI
+PVQRLGEMLGVLVVQSKAAREFSSDEVYALEVVAMVLAEMTELGAFVGEGAAMSARHSQP
+VLVRGTVGQEGVAEGHVWLHEPRVVVSNPVADDPERETERLNAAVDELRISVDQMMSMAG
+GDKEQRQVLEAYRMFANSKGWMRRMEEDISRGLSAEAAVEKEQSLARSRIGQASDAYLRE
+RLSDLDDLSNRLLRILTGQGSNTGAEMPVNPILVARNIGPAELLEYGRSLRGIVLEGGSV
+GSHAAIVARALAIPLIVHASRITNDALNGDRIMVDGEQGVVHLRPDDNVAAAFRDKIAMQ
+AAAQERYVSIRDKQAKTKCGQVIGLHMNAGLMADLPSLEGSGAEGVGLFRTELQFLVRSQ
+MPKRSELSALYSRVLDAAGGKRVVFRTLDIGSDKVLPYMKPNDEPNPALGWRAIRVGLDK
+PGIMRMQLQALIRAAKGRPLTVMFPFVAQFEEYRAARAEMDKTLAREERLGHVLPSKIEI
+GAMLETPSLAFAPKKFFEEVEFLSIGGNDLKQFFFAADRENELVRRRYDTLNVSFLTFLE
+GIASRCQETQTPLSFCGEDAGRPVEALCFAAIGITSLSMRPASIGPVKSLLRRSDLNEVR
+EVINAARDRGDQSVRAAVMEYLRNQNSEQRKLP
+>tr|B7RM90|B7RM90_9RHOB
+MVDWSGGNDTGARPRKDAIWAGVSRSGAADAPVYLRNRIDAETWIAALIDSEAQAGRRTL
+IGFDFPFGYPAGFAEAVTGDSDPFALWDWFEARIQDSPQANNRFDLAGELNLALGTGNGP
+FWANGLPNRDIPGLPRTKAGYENPFSDRRHAETLAKGAFTCWQMAGAGAVGSQVFMGLPV
+LSRLRKRFAGQVAVWPFEQLDAPVAFVEIWPSLTAGPAPDGMVKDAWQVQEVARQFAALA
+PADLARMLDVHAPEEGAIFGLGFEDRLKADPPLRNDCFALPPGVHWTPVDEALSLLRERL
+SVVTKAEDTPLDAALGRIVAQDVTARRANPPLPNTAVDGYGFAGGRGAGPHVLPVVSGRA
+AAGDAPGDVPEGHAIRVLTGAALPQGVDTVVLQEDVQIDGGNLRFTGPIKQGANTRKAGE
+DVVAGQTVLTAGRQVTAADLALLAATGLSSLSLRQRLRVGVISTGDEIVQPGETAADGQI
+FDANRPMLLGLIAQFGHTPVDLGHVGDDRAALRARLDGAAGQVDAILTSGGASAGDEDHV
+SALLKEAGALALWRIAVKPGRPLALGMWQGMPVFGLPGNPVAAMVCTLIFARPALAVLAG
+QDWTAPQGFDVPAAFEKRKKPGRREYLRARMRNGAAEVFASEGSGRISGLSWAEGLVELP
+DEGLDVRPGDPVRFIPYGSFGL
+>tr|B7RMJ2|B7RMJ2_9RHOB
+MLWYTVTAKVMTGFAAEAFPVIGAIIIAALTSALALRKSAPPSRPTGDVSLAQQLRLLRT
+HTMVNVVDTENLLVEVNDLLLEATGFSRDELIGQPVAKLYANDNVSLTDEIRSKLSNQQG
+WQGETLLRRRDGSICITQTTVTPLVDSDGKWIGSISARTDITKTIDLIAERDIGLTLHEL
+RDDVWIVDEQAETFKYMNRAAKRRFGWTSKAYADLTLSQMAQDQDCKAVLDACAALKSKK
+ETFEKLEACIFGTKFDVSIKWLHPNTPNGRFLIMLNDITDRMAEERKQADFVSMVSHELR
+SPLTSIKGAMGLLLSRAAGELSPQAVGLLEIAHRNADRLVLIINDILDMEKISSGRLDFD
+IKEFDVSEMVHEALRSNAATQQRSGVNIRCIGLDVPHMIQTDSNRIIQVLINLMSNAAKF
+SKPGATIEVMVERLASGVRVSVRDEGTGIPEKDHHKIFQRFADMANSDRGAKGGTGLGLS
+ICKAIVEGLGGTISFESREGEGTTFMFTLPTKISDNINEPSGPILRSVG
+>tr|B7RIC4|B7RIC4_9RHOB
+MAYAHSDSLPERKDAYLSNPAPDVRERPKLEGGKRFVLSTEFDPAGDQPTAIKELSEGVL
+SGERDQVLLGATGTGKTFTMAKVIEETQRPAIILAPNKTLAAQLYGEFKGFFPDNAVEYF
+VSYYDYYQPEAYVARSDTFIEKESQINEQIDRMRHSATRALLERDDVIIIASVSCIYGIG
+SVETYGAMTQDLKTGTSYDQRQVIADLIAQAYKRNDAAFQRGTFRVRGDSLEIFPAHLED
+RAWRLSFFGEELESITEFDPLTGEKTGTFDQIRVYANSHYVTPKPTMNQAVIGIKKELRM
+RLDQLVGEGKLLEAQRLEQRCNFDIEMLEATGVCNGIENYSRYLTGRAPGEPPPTLFEFI
+PDNAIVFADESHVSVPQIGGMYKGDYRRKFTLAEHGFRLPSCMDNRPLKFEEWDAMRPQS
+VFVSATPAAWEIEQTGGVFTEQIIRPTGLIDPMIEIRPVEMQVDDLLDEVRKVAADGYRT
+LCTVLTKRMAEDLTEYMHEQGIRVRYMHSDIDTIERIEILRDLRLGAFDVLIGINLLREG
+LDIPECGLVAILDADKEGFLRSETSLIQTIGRAARNAEGRVIMYADRITGSMERAMGETD
+RRRAKQVAYNELHGITPTTVKKNVDDILAGLYKGDVDMNRVTAKIDNPLAGGNLKTVLDG
+LRTDMRKAAENLEFEEAARLRDEVKRLEAVDLAIADDPMARQYAVDKAVDDAQKASGRST
+GGRGGMRGGKSRYGGKKR
+>tr|B7RSC4|B7RSC4_9RHOB
+MIAPLVSASGGCLSVLPGMVVMGVGMGLSMPPVTKAITSSLPANKQGVASALNDVTHEFG
+TALGVALLEAVFGTGYSAAIMPQLAGVPPELATIAARGIATALELANEGGIHAEILRQTA
+KDAFVSGWVQAMWAGVVVMGLLFAFVAIRGPKASTLTKETPNET
+>tr|B7RPR0|B7RPR0_9RHOB
+MISVEDALFHLFDLVSPIGSEQVPLRRAAGRVLAQDVTATRTQPPFAASSMDGYALRRAE
+VEPDAMFKVIGEAAAGHRFEGTVKPGQAVRIFTGAPIPDGADFVVIQEDTTRRGDLLMLG
+HDIDGKDNIRPAGGDFKAGDVIKAPRILRPADIALLAAMNVADVSVHIMPQVAIIATGDE
+LVQPGEDPGPDQIIASNSFGLAALLEQIGARCRMIPIARDTAGSLTQAFKIARTADLIIT
+IGGASVGDHDLVAPVAAELGMEQSFYKVAMRPGKPLMAGRLRDVPMIGLPGNPVSAMVCG
+VIFVAPVIRKMLGLPAQAAPRTSMPLACDLPQGGPRAHYMRATLRDGAVLPEGNQDSSLL
+SVLAQADVLMVRPPHDAPREIGDMVDCILL
+>tr|B7RK09|B7RK09_9RHOB
+MRGFARAEYEARLTKAQALMAAHDLSALLLTTEAEIRYFTGFLTRFWESPSRPWYLVLPV
+AGLPVAVIPSIGAALMAQTWVSDIRTWRAPVPLDDGVSLLTDTLNEVAGSGRIGLPSGPE
+TFLRVPQGDWARITAALNGVVVSDGGITAQLRAVKSHAEIAKIETACAIAGRAFARVPQI
+ARQGRALSAVFRDFQGLLLAEGADWVPYLAGGAGPDGYGDVISPASDRLLMQGDVLMLDT
+GAVFDGYFCDYDRNFAVGPASQLARDTHAHLIDAVDAAADIARPGTTAAELFHAMDKIVT
+GGAGGSDAGRLGHGLGMQLTEGLSLIVSDHTVLVPGMVITLEPGMDTGTDRIMVHEEDIA
+ITETGCRFLSPRADRTLTQLS
+>tr|B7RKE0|B7RKE0_9RHOB
+MKLKSIETFTNEFVGFVRVTAEDGAQGWGQVSTYHSDITCQVLHRQVAPWMLGQDTTDLD
+DLLDLVTEREHKFPGSYLRRAMAGVDTAIWDLRGKQQGKPVAELLGGSAGPIRAYASSMK
+RDITPADEALRLKKLRDTHGFDAFKVRAGSEVGRNKDEWPGRTEEIILTMRRALGDDVDL
+LIDANSCYSPDRAIEVGHMLQDHGFCHYEEPCPYWELDQTKQVTDALDIDVSGGEQDCDL
+TTWKRMIDMRAVDIVQPDILYLGGICRTLRVAGMAKAADLPVTPHCANGSLVTLFTMHLL
+RAIPNAGKYLEFSIEGADYYPWQDGLYVASPYAIENGHARVTDAPGWGVEINPEWLAKST
+YQISELP
+>tr|B7RH50|B7RH50_9RHOB
+MSHRRISFIIADTPPPRLDKALARDVPEDANLSRTRLGRLIADGSVQVDGIVVTDPRARI
+FEGQEITVDVEEAEDSHILAESIPLEVVFEDSDLIVINKPAGMVVHPAPGSPSGTLVNAL
+LAHCGDDLSGVGGMKRPGIVHRIDKDTSGLLVVAKSDAAHHGLAKQFEKHTVERYYQALV
+YGVPDANDPRLRGIKGTSFEPGNILKMTTQLARHRTDRQRQAVLFQGGRHAVTRARTISR
+YGTPPVLALMECWLETGRTHQIRVHMAHAGHSLVGDPTYGGKRKLPKTALPEIASDAVRA
+FPRQALHAAVLGFEHPVTGEMVRFEAPLPRDMTDLLDLVALAQA
+>tr|B7RSH9|B7RSH9_9RHOB
+MNRVFFIGISSFILPRKFYFRIPLRSGGITHWLWRAIDANGEVLDILVQTRRSGKAAKRF
+FKGLITQFGAPRVVITDKLRSYIKPIKTLAPNADHRAHKGLNNAIEGSHRPTREREKLFG
+RFKSHRQAQRFLTAHDPINLIFRPRRHRLTATSYRHARGDAFSLWADYTAEMAA
+>tr|B7RGC9|B7RGC9_9RHOB
+MVQRIYSGGEFEAKIGYCRAVVAGGFIHVAGTVGQGDTVTEQCSAALATIDAALKEAGAS
+LADVVRVNYYLPDRAEFEPCWPILSEAFGANPPAATMIETGLIDPKYRIEIEVTALAPAA
+>tr|B7RGT5|B7RGT5_9RHOB
+MTLDEIDRRILTALQQSGRMSNSELSEKVHLSPSACHRRVQRLESDGYIRGYVALLDARK
+MGVPTTVFVEITLQGQADEVLDAFEKAVARIPDVLECHLMAGSADYLLKVVAENTEDFAR
+IHRQYLARLPGVGQMQSSFALRTVSNTTALPVG
+>tr|B7RSI0|B7RSI0_9RHOB
+MNEEIPMKKTRFTEAQIMAVLRQMEGGVPAAELCREHGMSSATLYKWRAKYGGMDASLIS
+EMKAMAEENRRLKRMYADVSMQNDLLKEALGKK
+>tr|B7RNI8|B7RNI8_9RHOB
+MTDIRDRLQACTLCADRFAATATAHRPNPVVWFQPGARLLIASQAPGLRVHEANTPFWDQ
+SGKRLRDWLGLDEAAFYDRSRVAIIPMAFCFPGYDTKSSDLPPPPVCARTWRTGALATVP
+DIRLTILIGGHAMRYHLPDFTTVTRAVADWRDHPPGVFALPHPSWRNTAWLKKNPWFEED
+VLPRLRAAVKDVMHD
+>tr|B7RGG9|B7RGG9_9RHOB
+MSFVLDNSRMSERALKIADRVESFVRGTIAPYEKDDRKTSHGPTDELANEMKAKAREAGV
+LTPHILDDGQHLTHRETAAVLIRSGLSPLGPVACNVGAPDEGNMYLLGKEASPELQKRFL
+DPMVQGKMRSAFFMTEPAEDGGAGSDPMMMQTTCKMDGNHWVINGRKTYITGAEGAGMGI
+VMAKSDDGACMFLVDLPDPAIRIERVMDTIDSSMPGGHAVVSIDNLRVPATQMLGESGEG
+FRYAQVRLSPARLTHCMRWLGATIRANEIATDYANRRMAFGKPLVDHEGVGFMLAENLIA
+LKQAELMIYWCADILDTGVMGTAESSMTKVAVSELLMAVADRCVQVMGGQGVTGDTIVEQ
+VFREIRAFRIYDGPTEVHKWSLAKKIKRDWKKANGA
+>tr|B7RPQ7|B7RPQ7_9RHOB
+MTEPAITPELIASHGINADEYQRILDIIGREPSFTELGIFSAMWNEHCSYKSSKKWLRTL
+PTEGPQVICGPGENAGIVDIGDGQALVFKMESHNHPSYIEPYQGAATGVGGILRDVFTMG
+ARPIAAMNSLSFGSPEHHKTRQLVHGVVAGVGGYGNCFGVPTVGGEVRFDTAYDGNCLVN
+AFAAGLADTDKIFYSAASGVGMPVVYLGAKTGRDGVGGATMASAEFDDTIEDKRPTVQVG
+DPFTEKRLMEATLELMATGAVISIQDMGAAGLTCSAVEMGDKGDLGVRLDLEKVPTRETA
+MTAYEMMLSESQERMLMVLRPELEAEAKAVFDKWDLDFAIVGETIAEDRFLIVHNGEVKA
+DLPLKALSGNAPEYDRPWVETPAAEPLSDVPGIDPIDGLHALISSPNYASKAWVYEQYDT
+MVMGDSARTPGLGSGIVRVHGTDKAIAFTSDVTPRYVMANPFEGGKQAVAEAYRNLCAVG
+ALPLATTDNMNFGNPEKPEIMGQFVCAIKGIGEAVSALDMPIVSGNVSLYNETDGKGILP
+TPTIGAVGLLTHTDEIIGKDVRDGHVALVLGATTGHLGQSALLLEVFNRRDGDAPHVDLD
+AEKAHGTFIRENREMIKACTDLSDGGLALAAFELADAAGVGVSLDASDTPTLFGEDQARY
+LIACNFDQAEALMVAAANAGLHLESVGKFGGDQVNFGGSAAPLADLSAIYHGAFGAAFA
+>tr|B7RJL0|B7RJL0_9RHOB
+MNDYSSAIQLRSDRWSALREATMALTRDPKKEEIDFLRGKCHALFMSLSFIEPYWAFPGM
+PAFEHLQRMLNNSSFDDLSFAVNRITRALTTGAYRRRSIPLERDSIDHEEHDDEAMLSPE
+ARALTKPYFEVLIVDDVNEQQERWLKSNVSRMRRVEDPFHYEAVVVRSIEDALIAVMFNH
+NIQAIVVRPGLTLKSKTDEPILARSLARAGGQEEIDKLQPENYGPELCRMIAKVRPELDA
+YLVTERSVEDIAGLDLGICRRVFYNQEDFMELHLNILRGVQARNKSPFFTALVEYSKQPT
+GVFHAMPISRGKSITRSHWIQDMGAFYGPNIFLAETSATSGGLDSLLEPHGPIKEAQELA
+SRAFGSKQTFFATNGTSTCNKIVVQALVRPGDIVLVDRDCHKSHHYGMVLAGAQVCYLDS
+YPLNEYSMYGAVPLREIKHQLLALKAAGKLDQVRMLLLTNCTFDGLVYNVERVMEECLAI
+KPDLIFLWDEAWFAFARFNPTYRQRTGMNAANTLREKFKSAKHAEAYEKQQAKLKDADDE
+TLLNTRLIPPPKSRVRVYTTQSTHKTLTSLRQGSMIHVNDQDFKGEVEQSFHEAYMTHTS
+TSPNYQIIASLDVGRRQVELEGFEFVQRQIEAALSMRRAIADHPLLSKYFKVLTAGDMIP
+EEYRESGVTSYYDQEQGWTDMWDCWEKDQFVLDASRVTLLVGGTGWDGDTFKTDILMDKY
+GIQINKTSRNTVLFMTNIGTTRSSVAYLIEVLVEIAKSLDDLLDDASKMERRSFDNRVAN
+LMENYPPLPDFSRFHEAFRNDNVTSEGDIRTAFFLSYDEKNTDYLDLNGTLREAMDAGKT
+VVSASFIIPYPPGFPILVPGQVVSQEILSFMRALDVSEIHGYRPDLGLRVFTEAALKRVR
+KKNLSSSPE
+>tr|B7RJR3|B7RJR3_9RHOB
+MTQSFYTEKTRAAAWFRELRDQIVSAFEGLENNHVSGPMADAAPGAFEVTKTTRTSEDGS
+DAGGGLMSVMRGGRVFEKVGVNISTVYGTLGERAQHAMAARKGIPGMKDDPRFWASGISL
+VAHMQNPHAPAVHMNTRMFWTPHAWWFGGGSDLNPCIEYAEDTAHFHDQQKAHLDPHGDA
+FYPKLKAWADEYFYIPHRNRARGVGGIFMDDHCTGDWEADFALTHDIGRAFLPAYLPLVE
+KRKAQDWNEADKDAQLVHRGLYAEYNLVYDRGTKFGLETGHDANAVLMSLPPLAKWV
+>tr|B7RJ08|B7RJ08_9RHOB
+MALPADSLREILEPVAVTRVPQSRPFSNGLINVRGVVVPLTDLRVAFGMPPVDATEDTRM
+LVFDFPLDGDTVTVAITADKVHEVTTLDVSALDDVPSVGLRWPPEFVQGIGKQEDEFLLV
+PDLEAIFKQHAMRGTTQKQHDEGI
+>tr|B7RJS8|B7RJS8_9RHOB
+MSDTAQPIDPGEELIQRLAVRVREARKARGLPRRVLSEMSGVSPRYLAQLEAGEGNISVI
+LLQRVAQALDLRVEMLLAERPPLNRDVERVASLFSNASLDVQQQVRSLLSPQSPAMLRAG
+RICLIGLRGAGKSTLGKLAGAALDLPFVELNKEIEAESDMPLAEVMALYGQEGYREMEAE
+ALERVSATHDRMILAVAGGIVAEPTTYARLLQRFHTVWIHTSPAEYMQRVRAQGDVRPME
+GNPAAMTQLKNLLDTRTPLYERADAQINTSNRPVKTSLNDLLGVIQKRHFLDAADG
+>tr|B7RLC8|B7RLC8_9RHOB
+MIKKGVTLRGIEVFEALASCGSVAQAADITGLSQPAVSQQISNLETAIGVALLDHGRRPM
+RLTAAGESFLRRTASALTQLRLAQSELTVMDLANLTDLSLGVIDDFDNDLTPRLATMLAD
+SMAGCRFRMVTDSSKALIQAVQDKTLHIVIAATSGDAKDGLIELPLARDPFIMVTPSGYR
+GKPGDLLAGTSDLPFLRYESHQLIADQIANHLTRSNITIESQFEIGSHLALMSMVARGIG
+WAITTPFGFARAERFHTTLQAHPLPSPGVSRQISLFAGADWTGPVPQNIATAMRQMLHSH
+MIAPLHTQLPWLAGSFHTLEG
+>tr|B7RPA0|B7RPA0_9RHOB
+MRHGPKLSPCCHLRKITGLRKWPRGLRCANPDESDLMTAPRPGPTDAYSMILDAIDVGIY
+RPGSRLVESELAERFGVSRTPIREALQRLETQSLLARDGRSLIVASLDHNQMAELYVVRG
+ELEGLAARLAARHATAEEVRVLREMVEDDNALRDNPGALARANRRFHKQIHLASHNRYLV
+QQLDLVHRSMALMATSSLAVEGRGAIAQLEHDKIVQMIEQRNEDGADEALRTHISVAFMT
+RLKQEAARREEEG
+>tr|B7RJG4|B7RJG4_9RHOB
+MSFIFPPAPTPSVAIAGSTDRIPVRRIFCVGRNYAAHAIEMGKDPDRDPPFFFTKPADAM
+VEDGQTIPYPPETENFHYEAELIAVISTGGRNIAQADALDHVWGYAVGNDLTRRDLQLEA
+REKGRPWDWGKAFDRSAVIGPVHAASDVGHLAQGAIRLTVNGQPRQDADLAELIWSVPEV
+VSIISQSIELRPGDLIMTGTPAGVGPLLEGDTCVVEIEGLGQVTTHIGPRA
+>tr|B7RM24|B7RM24_9RHOB
+MQCPSVTPADAGALDILHDLLSGAGFDCAWADRGGIRNLFARWGNKGNTRCFGFNGHTDV
+VPIGNEADWSFAPFGAEIKDGVMYGRGTTDMKSGVAAFAAAAVDFVRDTPPDGSIVLAIT
+GDEEAEGIDGTRALLEYMEKAGERMDVCLVGEPTCPEKMGDMIKIGRRGSLNAHFRVIGK
+QGHAAYPHRANNPLPAMMRLMDQLAGHELDAGTDHFDPSTLAIVTVDTGNPATNVIPAEC
+RATVNIRFNDTHSGASLTDWLEAQTAAIADSFGVQIDLNVKISGESFITPPGALSDMVSK
+AVAAETGVTPELSTSGGTSDARFVKNHCPVVEFGLVGKSMHAVDENVEVAQIHQLKAIYT
+RILKDYFA
+>tr|B7RFQ8|B7RFQ8_9RHOB
+MPIKLPSDLPAYDVLKHEGVMVLDEHEADKQDIRPLRIALLNLMPKKIQTENQFARLIGA
+TPIQIEFSLLRMSDHQSRNTAADHLESFYRPVEEVWDEKFDGLIITGAPIEHLDFADVTY
+WDELTRVMDWTQTNVHSTFGVCWGGMAMINHFHGVPKHLLAEKAFGCFRHVNLAPSSPYL
+RGFSDDCVVPVSRWTEMRQAEVDAIPGLTTLLGSTEVGPCLVEDPAHRALYIFNHLEYDR
+DTLKDEYDRDAAAGTPINVPCNYYPDDDPAKPPLNRWRSHAHLLYGNWINEIYQSTPYDL
+NDIGT
+>tr|B7RGJ7|B7RGJ7_9RHOB
+MVHLTAFDDDMPGCRATVSRNYQGQTMTNRTLGLLELKKARRSGNKLLSAVFLFSVFVNM
+LMLTGPLFMLQVYDRVLGSRSEETLVALFALVVVLYGLLGVLDYARGRILARYGARFQTE
+LDERVFDAVLKQALMPSKRAAPSSGQRDLETVQTLFTSPVMIALFDAPWTPLFMGAIFIF
+HPWLGILALIGGALLVVIALLNNWLTRRKTLEAQSTASLAASLGEQARRSAEVVRSQGMS
+AAISERWHGLRDEALDQTIKASDWTGSFTALTKSFRLLLQSAILALGAYLVLQGEVTGGA
+MIASSILLGRALAPIEQSIGQWALVQRSIAAWGSLRTLLETTPVDPETLDLPCPKADLSL
+KGVSVFAPGATKLTLSNINVSVSPGQVLGVIGKSGAGKSTLAKAMLGLVPVAAGEVRLGG
+ATIDQYDPDALARFVGYLPQNVSLFSGTVAENIARMSTEPDDAKVVEAAKRANAHEMILA
+LPDGYKTIVQGDKSQLSGGQRQRIALARALYGDPVLLVLDEPNSALDNDGSMALNRAVRE
+FKASDRAVIIMTHRPTAISECDRLLVIEGGRIIADGPRDEVLKTMLTNVRSIRQTIAKAE
+TS
+>tr|B7RPF7|B7RPF7_9RHOB
+MDAAEVMGDSGLKIGTPKETFAGEHRVAMTPESALQLQKLGHDCIIETGAGVAAGFADDK
+YTAAGVEVVKTAAALWKAADVVAKVRVPDDAEMKRLRSDQTLISFFSPVADEAKMKAAAE
+KGATVIAMEMIPRISRAQKMDALSSMANIAGYRAVIEAGNNFGRFFTGQITAAGKVPPAK
+VLVVGAGVAGLAAIGTATSLGAITYAFDVRPEVAEQVESMGAEFVYLDFEEEQKDGSASG
+GYASVSSPEFREAQLAKFRELAPEVDIVITTALIPNREAPELWTEDMVAAMKPGSVIVDL
+AAEKGGNCKLTKMDEKVVTDNGVTIIGYTDFPSRMATQASTLYATNIRHLLTDLTPEKDG
+VINHNMEDDVIRGATIAHASEVTFPPPPPKVAAIAAAPKKAAVKELTPEEKRAAETAAFK
+AQTKSQVTLLAIGGALLLAVGLVAPASFMQHFIVFVLSVFIGFQVIWGVAHSLHTPLMAV
+TNAISSIIILGALMQIGSGSFLVIILAALSVFMCGINIFGGFLVTRRMLAMFQKS
+>tr|B7RQM7|B7RQM7_9RHOB
+MQGHDWGPLVGNFLNVAPTTLLVIGVLMLTALAYVTARRRAMTAAGGDARKLHSLPGYYG
+YNAAMLTAIPAFFVLVIWLLVQPMLIQNAVIEMIPQDAISDGSSVNLVMSDVRRVANGLT
+TAVDAGALSADAARDISVTDTDVRGLLADNGVALGSDVNADVLAAAQRYRSMQTTGQWLM
+IAVIAAVALGGAFVALRATTVDFRARNMVERFVLGLLMIAASLAILTTVGIVFSMLFESI
+NFFKLHPWQDFFLGDTWAPNFRGDSDLSILPLLWGTLYISIIALFVAVPIGLFAAIYLSE
+YANNKVRALAKPLLEILAGIPTIVYGLFALLTVGPFLVDLFGRGEDGILGVDWMSGATSV
+LTAGLVMGIMLIPFVSSLSDDIINAVPQSMRDGSFGLGATHSETIRQVVLPAALPGIVGA
+ILLAASRAIGETMIVVLGAGAIARISPNPLEAMTTITTRIVSQLTGDTDFASPETLVAFA
+LGLTLFVLTLGLNVLALYIVRKYREQYE
+>tr|B7RPA9|B7RPA9_9RHOB
+MIDTDYTIGQDNKEGQLGPFGFDIHNPVFQISGISIVAFVFYTLALPEQSGAIFSWLFSS
+VTTGFDWFFIGAANIFVIFCLLLIVTPLGNVRLGGAEAKADYNYLGWFSMLFAAGMGIGL
+MFYGVSEPLSHFSSSLGGAAVGEDGLRTDWAPLGAAAGDQAEAIRLGMAATIFHWGLHPW
+AIYAVVGLSLALFSYNKGLPLTIRSAFYPILGERVWGWPGHVIDILAVFATLFGLATSLG
+FGASQANAGLNELFGVPLSETTQVLLITGITAVALVSVLRGLDGGVKILSELNMGLAFLL
+LIFVLLVGPTLIILTTFGSSLLAYLEYLPALSNPVGREDVNFSQGWTSFYWAWWISWSPF
+VGMFIARVSRGRTVREFITCVLLIPSLVCVLWMSVFGGVAIQQVVQDGYTAAQEAELPRQ
+LFAMLNGLPLAGITSLIGIVLVIVFFVTSSDSGSLVIDTITAGGKVDAPAPQRVFWCVFE
+GAVAIVLLLSAGGLKSLQSMVISTGLPFTIVLLVMCYAVFKGLLAERANT
+>tr|B7RJ37|B7RJ37_9RHOB
+MMCQTLKPNLTTYDTHGIRSLDTMASVTSGTTTQINATLPVYSIDQIADYLTVGFWQDNN
+MSQRSFDVQTGDTLTVDLRALGTVAETTALRALDAWTAVSGLKFVQGSSADIVFSSANSG
+AYNSSTTMGTRIIESRVNISDSWQGYGDYYLQTFIHEIGHALGLGHSGMYNGSASFASDA
+HFANDSWQTTVMSYFDQNENPNTNATRLFLASAQLGDIAAIQKLYGAPTSVATGDSIYGD
+SANTGQWGMELGTNWSVAIVDNGGTDVINLTSRTHNQMLDLRAETYSNINGRTGNLSIGR
+NTVIENATTGSGHDYIFGNDAGNRISSGAGNDTILGNGGDDVLIGGQGSDILSGGVGADR
+FVYAALDEAGDTVTDFSLAQSDRIDLRDLLTSIGYTGTDAVADGIVALVATSGGSYLSVD
+SDGAGSGSAVQVAFLSGVAATSSVYDIIDASGAPTGPGTGPIPNGSVDTNYTISNTTMTT
+WSRDGGFIIDTDGGTDVLDLSLVTYAATIDLNSGVTGRIGSNKLIIDAGTIIENLILGSK
+NDRGTGNGSDNLIYGMGGNDRLYGMAGNDALIGGTGIDMLYGGDGDDILQGDDGNDRLYG
+GTGNDTLAGGAGNDQMRGEAGDDQMDGGARNDTLYGQDGDDTIAGGDGNDIVYGDLGDDD
+LRGNDGRDRLFGREGNDSLDGGADDDILDGGDGDNTVDGGSGNDKITTRSGSDIISGGDG
+NDRVGAGDGNDMIDGGTGDDYLDGDGGADGILGGDGNDKIFGDAGNDVISGGNGNDYIQA
+GRDNDLVSGDAGNDNIYGDSGDDTILGGSGNDYLKGDAGDDQIDGGADNDKIYAESGNDT
+VAGGEGDDYIAGGSGDDLVDGGAGTDRIYADSGNDTVSGGDGADYIKGGAGEDQIDGGAG
+TDRIYAETGHDTVTGGDGDDYISGATGDDVLSGDAGNDRVYGDSGDDLLDGGAGDDILNA
+GSGNDRLIGGMGADMLLGGSGADVFVFNTLDDAGDTISDMKLRQGDMIEVSNMLDDFGFS
+VSAAIAQGIVGLEAITSRDSWLMFDTDGLGANDPVELAYLQGIAATTELTEAWLI
+>tr|B7RPU9|B7RPU9_9RHOB
+MTQTGPMYASGKEPDMTNPLALPFDTDEMIEGLRPWIETESPTFDAAAVNRMMDVVQHDL
+AALGARVERIPGRMGLGDSVRAVMPHPKAGEGGILLLGHMDTVHPLGTLAKLPFKREGGI
+CYGPGLQDMKGGNYVFLDALRKLLAAGIETPLPVTVLFTPDEEIGTPSTRALIEAEAKRH
+KYILVPEPARADGGAVIGRYAIARFNLQTRGKPSHAGWALKDGRSAIAEMAKSVAQIEGM
+TNDDCTFSVGVFNAGQWVNCVSSVCDAEVLSMAKTQELLDEGVAKMLALNSDAGDVVMEV
+RRGVTRPVWEPDQPGTMAMLSLAQEISKEIGFEMTGASAGGGSDGNFTGFLGLPTLDSIG
+VRGAGLHTLSEHIEVDSLVERAKLAAALYCRLGA
+>tr|B7RMW8|B7RMW8_9RHOB
+MAHIDYFFATLSPYAYLAGNRLEEIAAKHGATITYKPFDLISGFGRTGGQPPKDRHPSRQ
+EYRAMELARQAKKLGMPFKLQPAFWPTNGAPSSYAIIAAQATGGDVGKLCQLIMHAVWAE
+DRDIAQDDVVRDCLVKAGFDPAIADKGLLQGADTFARNLEEAVERGVFGAPFYILDDGQK
+FWGQDRLEDLDLHLAGRL
+>tr|B7RR97|B7RR97_9RHOB
+MGIYEGQMTQTKFPQSLRSHSTSRKINLITAAALGATSPVALYPQSTTEPLLLPGIEVET
+SEPAAVQPKPTPSKKRTAAKPAVRTAPAPTPVAAPAPVTPSAPAGPVAGENGLSPFANPD
+AGYQAVRSGNSLLTQPLVDTPRTVTAVTQDVLRDKNATSVRELARTTPGITLGTGEGGNA
+FGDVLFIRGFRSSNDVFIDGMRDSGVAVRETFMAEQVEITKGPSGSIGGRSTAGGAVNLV
+TKQAQDTDFVKSTTTFGTADLARQELDWNKVWNDRFKTRIGSVAQVSGVAGRDDSKDDRL
+GLSLAAEYKATDKLTFDIEAYQLRMKQMPDWGVPWDGTNNVPFTEPGAGRLTLDRSTFYG
+DTDRDFQDATQSVATVGATYGIAPGMTFTNRTRISKTENDYIVSAPERPDTTDPDPKNWT
+LTASPKSRYQVNDVIANTSELSFGFDTGTARHEVVAGFALSREEISQQGYVGLSSEVGGG
+TATDRLEGCSISIYNPDTSGCSTAVPVLNPDATLTKVTTKSLYLNDTITFNPQWQLNLGA
+RVDDYSISRTGTAAGSTTLTRDDVMFNWNAGIVWKPRDNGTVYLSYATSSNPVGDELDAG
+GGSYNGLDTANAILSPEENTAIELGTKWQFGDLMATAAVFQTQKDKARESSGGRGQPVVT
+TDTGEYRVRGIELGFGGNVTDKLSVFGGATWMDSEILKSSVASNVGAEFANIAHEQFNLL
+ARYDYNDKWSFGGQATWRGKVRGGTFAATNSNELPSYWRFDLMADYHITDDASVSLRIDN
+VLDETYYDALYRSGTPFVYVAPGRSASISVSMKF
+>tr|B7RN69|B7RN69_9RHOB
+MYRFHNGEKSPLPFEAAEYEARLEELRERMDSAGVTAAVFTSMHNIAYYSGFLYCAFGRP
+YGLVVTETDCVTISAGIDAGQPWRRSFADNITYTDWQRDNYWRAVASVTGKGGVIGYEGD
+HLTLMQRDKLEDFLEPVVMVDLFETTMRQRMHKSEAEIALIRQAAQVADMGGYAIRDAVK
+VGAREIDIAMAGRDAMELEIAKRFPDAEYRDTWVWFQSGLNTDGAHNPVTARQLERGDIL
+SLNTFPMISAYYTALERTMFAGEVDAASLKIWEANVAAHEYGMSLLKPGSSCADITHKIN
+AFFQERDLLQYRTFGYGHSFGVLSHYYGREAGLELREDIDTVLEPGMVISMEPMLTVGAD
+QPGAGGYREHDILVITEDGNDNITGYPYGPEFNVVG
+>tr|B7RPP3|B7RPP3_9RHOB
+MAKTPVTFSCTSCGATYNKWSGRCDGCGEWNTIQQDKGISAGPPSKSLGTKRGSAMVLTD
+LSTKEAPPPRSQSGIAELDRVLGGGLVAASAILVGGDPGIGKSTLLLQAAAHFARSGLKT
+IYVSGEEASAQVRMRAQRLGLADAPVKLAAETNLRDILTTLEAERPDLAIIDSIQTMWAD
+NVESAPGSVSQVRASAHELTSFAKRTGVSVILVGHVTKDGQIAGPRVVEHMVDTVLYFEG
+ERGHQFRILRAVKNRFGPSDEIGVFEMTGQGLAEVTNPSAHFLSERGEPSPGSVVFAGIE
+GTRPVLCELQALVAPSPHSQARRTVVGWDGGRLAMILAVLEARCGIPFAGLDVYLNVAGG
+MKISEPAADLAVAAALLSAREDVALPAETVVFGEISLSGALRPATQTENRLKEAQKLGFT
+SAIAPAGGKPVGKNGIALNTMSDLTGFVGEIFGAG
+>tr|B7RL23|B7RL23_9RHOB
+MIVAHGGLAKEYLAAIEHVVGSQNGVRAISIHADHDRKAKEMEICEAADEVDMGQGVVVV
+TDLFGGSPSNLSLLACRPKNRRILYGANLPMLIKLAKSRDLEVPEAVRAALAAGRKYIDS
+QNVSKE
+>tr|B7RHC8|B7RHC8_9RHOB
+MIGRLVSLGQNTYRDTDMRRKLAAGNWKMNGTAAALSELVELAGHLDPNDAETLICPPAP
+LLYRACEKTRGTSIAIGAQDCHMQTEGAFTGDVSASMIADTGASYVIVGHSERRDAHEET
+NGDIRKKARAAWAAGLTAIVCIGESGDDREADNTLDIIAGQLSGSVPDGATGDNTVIAYE
+PIWAIGTGKIPTLAQIIEVHDFIRARLIARFGDVEGNAIRLLYGGSVKPDNAAEIFTAEN
+VDGALVGGASLKASDFAPIIKALSAS
+>tr|B7RLN4|B7RLN4_9RHOB
+MADTPAPTFAFEQTLDGTQEAVRGALAFFLNRLAPLNLSDDARDTIELVVAETLNNIVEH
+AFCDHPQPGFIWIRCHYRSGDLHLRITDFGNAMPDRALPQPKKFDAASPVSDLPEGGFGW
+NLIHELTGDVSYARSGPMNIINMRIPVGAH
+>tr|B7RJZ9|B7RJZ9_9RHOB
+MHPILKLIAQRLALGLLLLFAASILIFVGTSILPGDVAQSILGQSATPEALANMRRELGL
+NDPAITRYFSWLGGVLQGDLGTALTNGRDIAESLGGRLKNTLFLAFWAAAISVPLAIFLG
+LLAVRYKDRWPDKLISAVTLTTISIPEFMIGYVLVYWVAIKWRMFPSVSIINDSMTLGAK
+LNAIAIPVMVLTLVVLAHMMRMTRAAILNVMQSAYIETAELKGLGMLKIIRTHAFPNAIA
+PIVNVVMLNLAYLVVGVVVVEVVFAYPGMGQYLVDHVSKRDVPVVQACGLIFAAVYIGLN
+LIADIVSILANPRLRHPK
+>tr|B7RIC9|B7RIC9_9RHOB
+MSDLSIELHWQRAEPVFATGTYSNAHTVQMNRLYDITVDSAPDWGGDPSNTNPEQALASA
+LSSCHMMTFLALAAKAGWPVASYHDYAEAHLGKNPKGQMSVTRIDLHPVVRFDTGFTVTD
+TQMAEMQERAHRYCFIANTLADSVEINIR
+>tr|B7RLT4|B7RLT4_9RHOB
+MTRGIALLGLAYVLSQFFRAFLAVLSPALRADIGAGPEDLAFASGLWFFAFAAMQLPVGW
+ALDTIGPRRTAAGLHLLGAGGGAAIFALATTPLHIDIAMVLIGIGCAPVLMAAYYIFARE
+YPPARFVVMASVMVGVGTCGNLVASYPMAIAAETIGWRASLWGLCAITSLTALGIWTVVR
+DPVRPEGEARGSLLAVFKIKALWFIFPIMAVSYAQVGALRGLWIGPYLEDVFAADAHRIG
+LATLLMGSAMVAGTFAYGPLDRITGSTKWVVISGTTLNLVALFGLILYPSGSLFLAILLM
+AAIGFFGATYAIIMSHGRSFLPPHLIGRGMTLLNLCSIGGVGVAQFLSGRAYAASQPALT
+PQAPYVVIFTLFTGLMLAGLFVYLFARDTRH
+>tr|B7RMH6|B7RMH6_9RHOB
+MIGIVGIITIFVMVFGGYLAAGGKMGIILKSLPFEFTMIGGAAAGAFLISNDLPAVKHTL
+KDVGKVFKGPKWKHEDYRDLLCLLFELVRLARQNPIEIEPHIENPMESTIFSKYPKILTD
+AEAIAMICDTMRSASMNYDDPHQVEEVLEKRMEANLEHSLHSSHALQTIADGLPALGIVA
+AVLGVIKTMASIDQPPEILGKLIGGALVGTFLGVFLAYGLVGPFAAKVADVTKEDGHFYN
+LIREVLVANLHNHATNICIEVGRQNTPSHCRPTFSELEEAIKALKQGAG
+>tr|B7RMT2|B7RMT2_9RHOB
+MPALALGLSTSAAIARQVRSAMVGVLQQDYIRAARAQGLSARRIILKHALKNALVPVITV
+LSFQVTILLGGALIVEQVFAINGIGSLAIAAVRQQDIPMIQGIVLVLVLIVMAVQLVTDI
+LYGLINPKARPS
+>tr|B7RP66|B7RP66_9RHOB
+MIRNLCISLCALALSGCDLPATSDAIPEPGVREATTQGPAGAVPGSCWGRTVSPAVIETV
+TEQVQVQPAQISSTGEIQSLPIYRTETRQKIVTQRQDNWFETPCTDRLNADFVATLQRAL
+EARGIYKGEISGHYDDPTRAAMREYQIAEGGPDSPVLALTTARSLGLIAVERKPAE
+>tr|B7RQQ2|B7RQQ2_9RHOB
+MIIPKRGALSEVGQGPKTPMMGTTGCENSKGRRMFAVIKTGGKQYKVQSGDMLRVERLAA
+DAGETVQFNEVLMLGGDSPVVGSPMVEDAGVQAEVVDQIKGDKVIHFVKRRRKHSSKRTK
+GHRQKLTLVKIGEIMASGAGKSGAKAAIGTGSVSAAAVEAIEANAAAKFDAAKPVKKTKA
+EKKAAAPAAEKPAKAKAAAVEGADDLSKISGVGPVIVGKLHGEGITTFAQIAEWTEADVE
+AIEEKLSFKGRVGREDWIAQAKELSKG
+>tr|B7RLB6|B7RLB6_9RHOB
+MKNGRYSDAQIMAILKQAEGGVPFSELCREHGMSSASFYKWRAKFGGMDASLMSEMKDMA
+DENRRLKRMYAEMSMQNDLLKEALGKKR
+>tr|B7RMU2|B7RMU2_9RHOB
+MDITSEDALVDAVKGASGALAVRGGGTRGVPAVGDVLSVAGLNGISLYEPGALTLVAQPG
+TPVADIEAALAQENQRLAFEPMDHRGLLGTTGTPTIGGVMAANVSGPRRISVGAARDFLL
+GVRFVDGRGAIVKNGGRVMKNVTGYDLVKLMAGSFGTLGVLTEVSMKVLPRPETQATLVL
+LGLDDVGGVSALARALGSPFEVTGAAHDPAAQKTMLRIEGFETSVAYRLGQLRALLTTTG
+AEMDVLDEKASESMWMTVRDVAAFQGQSGDIWRVSCKPSDGPAIAARSGAEAWFYDWAGG
+LIWLRAAPGHDVRTQIGTFDGHATLVRADASTMAQFGMFHPETAGVARLTAGLRAQFDPK
+GIFNAGLMENAA
+>tr|B7RS83|B7RS83_9RHOB
+MNAHHKMDEKQTDVLSGMAQGVLGKGALRVDGPLKVTGQAAYAAEIGDGTEAVGVFVRAT
+ITKGRVAKIDEAAVRAMPGVLSLITDERLLRNPAQGTANEAPIQGARDVAYFGQPIALVV
+AETFEQARHAAQNIAITYDAEKAVTDPLDGAAQFDLPDAKQIEHGDVQTAMADAHVSIDA
+TYTTPSQSSAAMEPHASIASWEGDMLTLHGSYQMLKYNRNELADALGIDPANVRLLAPYV
+GGGFGAKLGLSSEAVAAAIAAKELDRPVRVVMTRPQVFETTMRRSSTHQRLRLAADADGN
+LTAIGHDATVSNLPGESFSEPVALATHFLYAGKNRAYAHRIARVHRTCAGSMRAPGEAVG
+MLALENAMDELAHKAGIDPVALRLRNIPEKHPESDKVFSSRRFADCLTEGAEHFGWSIRR
+ATPGQVREGEWLIGMGVASAARGNILSESKARVILHADATATVETDMTDIGTGTYTILAQ
+IAAEMLGLPLESVTVRLGDTDLPPAAGSGGSWGASSAGSAVFLACQSLRNDIADLVDADA
+ADITLKDGIITTGNVQRDLSDTLTNDITATGHIEPGETSNAVEQAGFGAHFAEVAVNSIT
+GETRVRRMLGVFSAGRILNEQTARSQCFGGMIFGIGAALTEELVHDHRDGHIVNHNLAEY
+HVPVNLDVPQLDVVFLEERDEWANPIQSKGVGELGISGAGAAITNAIFNATGVRVRDYPA
+TLDKILPDLPEV
+>tr|B7RFW4|B7RFW4_9RHOB
+MLVKISKVCLVILLAVGSIGIVKYLHESVISLQDYKMVQSLEALARSTTTWSDATVALSL
+ERSVTQVALSVAGPAPAAFRNIIRDQRSLSDSTFQEALAELDGIDFETKDQFIERAEDYH
+QTIKKLRSEVDAMLAVEITDRPRDRAQDLPYELKANISGLKSLSNLLVIENSLTSSTVAG
+LTMIESAAWEIREFGGRARTYYAIATLHGTPVPPDLKKLIEADSARAVQAWETLQAQVEV
+VDLDQDFSQRIDTAGERYFGTYLPVLERLDAVMAGVSKGAQVAYPVTFDEFFKLSNKALD
+DMAKISQDAGMQVRLYWEGDRQSHLYTLLFNAGLMILDILLVCAAVYFVATRLANRIAYA
+SQAIEAVTKGDLNQEIDERENDLLEIRNLTSSLKKLIASAREARKLSATLDDVEAQAKER
+LQMEKEREERRASEAEAAHDREMIAAQEKKRLAAFTGFQADMENVLGQAASGDFSNRISD
+DTQDQSLASLAMVINRLLDMIETNIADVVVSIDALSQGNLGVRIEGERQGSFLQLQEDFN
+AALSTLSQSMSRIMQNGQNVAATSSELEATSRSMAKRAEDSAAAIQQTSAAAEDIATSIR
+QVVENAKTADVATRKVRDSADQTKKVSDETEASMHAMTEASTQINRVVKVIEDIAFQINL
+LALNAGVEAARAGEAGRGFSVVASEVRALAQRSQDAVREISEVIEQNNRSVEAGVEQVEL
+SRNALQGIISDVEVASSQISDIAKAVEQQSHGIEEVTRAVRSIDSVSQTNAAALEGMTAS
+SVAMNDEAKSLSSALGQFHGVEVLPVIKKAGKVIPMAKSNQGPSPQGQPKSSPVARKNTA
+RNDDWAEF
+>tr|B7RNJ7|B7RNJ7_9RHOB
+MTHTKIAVIGGSGIYEIDGLEGAKWQTVDTPWGKPSDAILTGTLDGIEMAFLPRHGRGHV
+HAPSTVPYRANIDALKRLGCTDVISMSACGSFREAMAPGDFVIVDQFIDRTFAREKSFFG
+TGCVAHVSVTHPTCPRLGDACETAAKDAGITVHRGGTYLAMEGPQFSTLAESKMYRESWG
+ADVIGMTNMPEAKLAREAELCYASVAMITDYDSWHPDHGEVDVTEIIRILTGNADKGRDL
+VKRLPALLGAARHDCPHGCDKALEFAILTRPEARDPALVAKLDAVAGRVL
+>tr|B7RRT7|B7RRT7_9RHOB
+MPDLTHFGNLITARLQELDERVHELDHELGEPKTADLDDQSIDLEDDEVLESLGLAAQKE
+IMLLNRAITRIENGSYGICKKCGDQISKERLEAVLYTQLCKRCAAGD
+>tr|B7RIV8|B7RIV8_9RHOB
+MQSYFDANDHFAKLVFRVAIQKLYAGAKLREVRLRLNHTQKDFAAKLGVSLPYLNQMENN
+NRPVSTTVVLALASEFGMDVTELSSGDGERLISDMREVLSDPLFEGDKLPLADLQLAASN
+APGLARAFIKLHQSHRQTHERLASLDEALGREDARPTPSPWEEVRDFFHYCDNYIDSVDR
+AAEHFARKGADAAGLQRRAIDALKALDITVQFDDVEPLRRFAPETRVLHLSSRAPRETQT
+FQLLLQLALTQQNNLLEATLDLARFHSPAARDIAKIGLANYFAGAALMPYATFLESAQTC
+RHDLEVLAGKFGASIEQVAHRLSTLQRPGSKGIPFFFVRVDQAGTITKRHSATRLQFARF
+GGACPLWNVHSAFETPGRFLRQLAETPDGVRYISLARDISKPAGRFGAPVRRYAISLGCE
+VRHAAALVYADGMDTTRASAFEPIGISCRICERKACHQRSVPPLERQLVVDPNLRDVLPY
+QVE
+>tr|B7RJ12|B7RJ12_9RHOB
+MPNREIKVLIVDDSATVRSAFSSIIRADPGLGLFGTAGDPFIAVDRMKSGLPDVILLDLE
+LPNMDGLTFLKKIMAQRPMPVVVCSSYTEAGSQAALKALDLGAAEVLAKPHLDTQLARAE
+AAVRIGDALRAAVSSYKDHSARKPASLFTPGEKFTADVILPYRKPKQVPGTSPVVAIGAS
+TGGTEALREVLTALPDTTPAIAVVQHMPENFTRAFANRLNSLCHINVREAQNGDMMTSGT
+ALIAPGNHHMMLRRSGTSYRVDIVEGSYVSRHRPSVDVLFRSVAQAAGANALGIIMTVMG
+DDGAAGMTEMHAAGARTLAQDEASSVVWGMPGAAVQAGGVDRIVALSKLFKEIESHGASQ
+KNHGRPTK
+>tr|B7RHA1|B7RHA1_9RHOB
+MLDRDNHLSTVRRDVEQALYAATEQIQLRFFETVLVAKNVESILMQSGGVVETQIARLVG
+EFQRHNPAVLAVALAPKLQVTHSFPQNANNKTIGLKYWEVPAQMASIAQAYRRQSPVVDG
+PVALVQGGKGYILRYPVFLPNADLNLDQFWGVISIVIKADSLLVSEEHNLGDEDSYIFSL
+TELQTSGLIAASGKDRTALLSTDPVVTEFSMFGNKWQASASPKGGWPKYSPQSPYLIGFA
+VFSKLILIGGLLAYRRLAKKKENSHALLAEAVGCIDEGFIAFDDRERLMIVNDKYLAYHS
+EIADRIVPGMTMEEMLRLSRSHQNGPEELEKREAWIAERLRCFRNPGEPFLHSIGDDFWL
+KVTEAKTPHGYTVGVWTDVSAEKRAQQAAETADWEKTEFLNNVSHELRTPLTVIFGRATF
+IKNCEKLPQFKRIQAALDAEGNNSGDLTDAINDSRKFVSEQGVGIAESAKHMIRLVDDLL
+DWTKVARGTLELDVSTLRVDEVAETVVQDLQSDAAKKGLSLSYSGEGIVEAQADKIRLRQ
+ILYNFVNNAIKFTDAGSICLSVRKEVGKVVFSVTDTGRGISEENREKVFQRFHQVDGSMI
+RDNGGLGLGLAISKQLAELHDGYLTLESTLGQGSTFSLILPRAETAAEGARRTG
+>tr|B7RKK4|B7RKK4_9RHOB
+MPTRSPDEMAKELLHLQEELAAHNDETTARRNKARNASNRLSFLEAMMETVPIGVIMADG
+DGQILYGNSHVEKMVRHPVFHSESTDSYDEWVSFHEDGSRVQSHEYPLARVILENEDHSE
+IDVNYKRGDGTFFWMRIICEPVRDGEGQRIGATVALIDIEEERRLREAQNILIAELNHRV
+KNAFSVVKSIVSQSLRKMRVQIGLRETIDQRLNAYAVAHSKLVGTTWDRAAIGAVAADVL
+DPIGNGRIIMNGPQIEIPSRQALAFSMAFYELATNAMKYGALSVPDGRVNLSWEQTETEN
+GSAIELHWIETGGPGAEKPKETGFGSIITGRALQMETGGEIKTFFEPDGYKWHLRMPQQT
+EDHLK
+>tr|B7RML1|B7RML1_9RHOB
+MDAHLLIVDDDERIRTLLQKFLMRHSFLVTAARDAAHARRILAGLDFDLIVLDVMMPGED
+GLSLTRHLREKMQTPILLLTAKGETDNRIEGLEAGADDYLAKPFEPKELLLRINAILRRM
+PDTSVADTAPKVLSMGQIRYDIERGELWQGDDLVRLTATEVQLMRIFAAQPGAALSRSML
+VEELGRDRGQAQERAVDVQITRLRRKIEDNPKQPRYLQTVRGAGYMLAPD
+>tr|B7RN89|B7RN89_9RHOB
+MTISQGDTLPDATLMQMGADGPAPVQMADKLKGRKVVIFAVPGAFTPTCHSAHVPSFIRT
+KDQFDAKGVDEIICVSVNDPFVMQAWGDATGASAAGITMLADGNSAFTKAIGMDFTAEPV
+GLMARSKRYAMLVDDGKVSLFQAEENPGMCELSGGEALLDNM
+>tr|B7RQ16|B7RQ16_9RHOB
+MNLPPKVTSRAFDRLAEIGAAADGKALRVAVEGGGCSGFQYDIALDAPKDDDLILEGAGQ
+KVVVDSISLPFLTNAIIDFSEELIGARFVIENPNATSACGCGTSFSM
+>tr|B7RLM6|B7RLM6_9RHOB
+MAEITLLDGGMGQELVHRAGDKATPLWGTQVMIDHPGMVEAVHRDYFAAGATIATSNTYA
+IFRDRLDGTPYESQFAELNDAAMAEAKAAAADFEGARVAGAIGPIKASYRPDLHPDFDTA
+VKIYREKAQMTAPFSDLILCETVASILHARSVLDASLETGLPVWLALTVDDQDGTRLRSG
+EPLADLLPHVDKAAALLVNCSSPEAIAPALGILKTAGLPFGAYANGFEKITQEFLGDKPT
+VDSLNARQDLTPAAYADHVMGWIGQGATIVGGCCEVGPAHIEEIATRLRAAGHTIV
+>tr|B7RLQ5|B7RLQ5_9RHOB
+MSRYSPAEIESRWQAAWEKDSIFQAVRSADKPKYYVLEMFPYPSGRIHMGHVRNYTMGDV
+IARYKIATGHSVLHPMGWDAFGMPAENAAMAIGGHPKDWTYGNIADMRDQMKPLGLSIDW
+SREFATCDPEYYGQQQALFLDFLKEGLVYRKNAIVNWDPVDMTVLANEQVEAGRGWRSGA
+LVERRELTQWFFKISDYSEDLLNALDTLDNWPAKVKLMQANWIGKSRGLQFAFSTIDAPD
+GFDRIEVYTTRPDTLLGASFVGISPDHPLAKSLEKDSPEIAAFCAECRKGGTTEEAIETA
+EKLGMDTGLRVRHPFDTAWELPVYIANFILMDYGTGAIFGCPAHDQRDFEFATKYGLKII
+STFLPAEDADPKVAEAYVPAKSERVYYNGGFAGEKWQTGEEAIAAAIEACEAQGIGQGVT
+KYRLRDWGLSRQRYWGCPIPVVHCNACGVVPEKKENLPIELPYDVSFDVPGNPLDRHPTW
+RDCACPSCGAPAKRETDTMDTFVDSSWYFARFTSPHADTPTVMEDAEYWMNVDQYIGGVE
+HAILHLLYSRFFARAMQITGHLPEKAIEPFNALFTQGMVTHEIYQTRDENGRPVYHLPED
+VTDGKLADGTAVEIIPSAKMSKSKKNVVDPLGIIASYGADTARWFVLSDSPPERDVEWTA
+SGAEAAFKHLGRVWNISNRITEMGQDASGEGDDDLLRAMHKTIHDVTMGVESFGFNAAIA
+KLYAFTATLQKSKAGHAAQREAIMTLAQLMAPMTPHLAEEIWTAQGGTGLITTAPWPRAD
+AAMLVDDTVTLPIQINGKRRAEIQVPADMSKEEVEKIVLSHEAVIRTLDGATPKKVIVVP
+GRIVNVVA
+>tr|B7RGW8|B7RGW8_9RHOB
+MAAFGPENICTIIESAKGGSSLNYQKIPLQAGLYFVGVPIGTARDITLRALDVLASADVL
+AAEDTRSLRRLMEIHGVPLEGRHIVALHDHSGNAVQDKLLAAIREGKSVAYASEAGMPLI
+ADPGFELSRAVGEAGLMLTCAPGPSAVLTALALGGLPTDAFFFAGFLPNATSARQTALQK
+LKDVQGTLVFYESPKRLGAMLKDAASALGPERAGAVCRELTKKFEEVKRGTLQELCDIYA
+DKGPKGEIVVLIDRGRLQSVSETDVTSDLSAALLTHSMRDAVDMVAQAHNLPRRKVYQAA
+LELGKGNAS
+>tr|B7RQC1|B7RQC1_9RHOB
+MDREEHRYNLAGRGVSGNVAGRFERLTVDAVDDGWDLDEGPLPMMRTHVSEEAARSVITY
+NCSPDLPFDRSINPYRGCEHGCVYCFARPSHAYLGMSPGLDFETRLIARPQAADVLRREL
+AAKRYQVAPIAIGTNTDPYQPIEKKYKITRHLLEVLSEVNHPVAIVTKGSLIERDIDILS
+DMATRGLVRVGISVTTLDARLGRLMEPRAPAPGRRLQMIERLAKAGIPVRVMASPMVPAL
+TDPELEGILEVGRDAGARSASWIMLRLPHEVSELMQDWLAKHYPDRANRIMARLREMHGG
+KAYDANWHTRMRGTGPYADIIAQRFDLAVKRLGLSTLSPPMRCDLFRPPRQASAQLDLF
+>tr|B7RRN2|B7RRN2_9RHOB
+MTDTIDPITLAVLAGRMEQIADEMDATLFRAAFNPIIAEAHDASHGLYHAVSGDTLVQGK
+SGLPIFVGVMSFAVKAVIDKAAENGDLEDGDIYIFNDAHLGGTHLSDMRLVRPYFHDGKL
+FCYLASVGHWHDVGGAVPGNYNPAATDAFQEAFVLPPVRLAKAGAIQTDIIDILMRNTRL
+PQSAQGDLNGQLGALDLGVKRLDELLAEYGADTVRAALDALGNRAEVLMRSELTDLPDGR
+WEAEDFLDNDGITDEPLKIKVALEIKGDTMTLDFAGTADRCAGPVNIALPTAVATAYVAI
+KHIFPSLPANAGVMRPIDVKIPEGSLLSAPFPAPVGGYTETILRMIDVIFAAASQAAPDR
+VVANAYGTINALSISGKRANGQPWVMFSFYGGGHGGSIETDGLNHGNAPISTATIPPMEI
+LEAAYPVMFKQWALRPDSAGAGMHRGGMGATYEIEVLEEAATAFLFGERGRFAPKGAAGG
+GDAAMNVFAYEQDDGWQNPPMASKMVGIKLKRGQSVRLDTPGGGGYGAAADRAASDVARD
+VAGGLLTPDYATLTYGDAWKEVKQ
+>tr|B7RFZ5|B7RFZ5_9RHOB
+MGALAQSEALANGSLTAVALMQATLARIAAVNGAVNAIVSLRDKDVLLAEAATADTSPRK
+GWLHGIPMAIKDLSDAQGLPTSRGSPLFAGTIAEKDSVFVGRLRAAGAIIIGKTNTPEFG
+LGSHTFNPVHGATHNPYDLSRSAGGSSGGAAAALASGMVSVADGSDMMGSLRNPAGWNNV
+YGMRPSWGTVPGEPEGDMFLHQLSTSGPMATNPRDLAALLDTMTGADPRQPLGNSPKATL
+QTLGRDGPALKLGWLGDWGGAFPYADGIAGLSEAAVAQMAQLGHQVSELAPPFDAEAMWD
+SWITLRSFSVAAGLGDIYQDAAKRDHLKEAAQWEIERGLALSALQVHSASVVRSDWYRAA
+ARMFDDVDVVILPSAQLWPFPVEDVHPTEIAGRSMDTYHRWMQVVVPAGLIGLPVVNVPA
+GFGENGLPGGLQLIGRHGSDAQLLRLAQQWHAATAWPRKRPPVFD
+>tr|B7RK89|B7RK89_9RHOB
+MTSAAAAGVVTMLPYAAHAAAHGADMFPTPSGEIKVHPVDHASFVMETPAGVIYNDPVGE
+PANYADFATPDLVLITHEHGDHYNVDTLTAVVGENTQIITNPAVYEMLPEALKAKASMIA
+NGETAMFRELTIEAIPAYNTTEERLNFHPQGRDNGYVVNLPDFRVYISGDTEGTPEMRAL
+KNIDLAFVCMNLPFTMDAEAAAAAVSEFKPSYVYPYHFRGRDGGTQDPAEFAKMVATGTE
+VKIADWY
+>tr|B7RNV4|B7RNV4_9RHOB
+MSEVTYSSKELLKWLWDDYLKKHMGLLVVAIIFMSIEGATMGALAKLMQPMFDQVFVAGK
+ENALIWVGLILVGIFVLRAVAGVTQKVLLTRISLKSAADMRIDLLDRMMIQDGAFHQNHP
+PGFLIQRVQSDVNAIGAVWQAVITGTGRDLIGLIVLLGVAISIDPVWALLACIGVPLMVM
+PAALAQRFVRQRSREARDIGANLSTRLDEVFHGIVQIKLNALERYQARQYRDITKTYIRT
+EVRAAFGNSAIPGMIDIMSGIGFMAVILYGGSEIISGDKTIGQFMTFFTAMGFTFNPLRR
+LGAISGLWQTAAAALERIKELMDAPVNLRSPAKPMPVPTGLPDIELKGVSLSYGDAKVLD
+DLNLTAKAGQTTALVGASGAGKSTIFNLMTRLIDPQEGAITIGGVSIKDMDIPELRGLFS
+VVSQEALLFDETLRQNIVLGREDVSDAELQSVLEAAHVADFLPNLEHGLETPVGPRGSAL
+SGGQRQRVVIARALLRNTPILLLDEATSALDAQSEKVVQQALDRLSKGRTTIVIAHRLAT
+IRGADKIIVMDRGRVMDEGNHDELLSRGGIYADLYRLQFEDGKTVYDSRHARDLRVREKG
+LKPNRPNILQRFGQRLFGQA
+>tr|B7RRD8|B7RRD8_9RHOB
+MSSKNKFGFAPVDATAPVKRRTREPGPMGAAVRDVAENLQEATEAKIEQRRQNASDAKTF
+REAEAQGRVLYQIALAEIFTDDLPRDRLALEEVAQSDEMEELKASIRARGQREPVEVYVG
+PSGRYQLKKGWRRFTALSQLFTETKDDRFGTITARIEAGGEDRMSRYVDMVEENVVREDL
+TFAEMAQVAITAAQDESVDEIDPAELVSRLYSALHKTKRSYIKSFVFLLSALGESVQFPK
+AIPRNLGVDVARALRAPEQAQELRAKLDACSTAEEQNEALKSFIDVTQKQGRAPAARSEP
+KQKFEFFVGKTKVTARQGECRLVSEYDFATMPKKQLEDAVRAFEEVLNGGPRIR
+>tr|B7RQJ1|B7RQJ1_9RHOB
+MTAAPDISVPRRSTGEAVRWTIVLAVVLTAVLEVLDSTIVNVALPQIQAAFGITNDQTVW
+ILTSYIVASVVVMPLTGFFVRMVGRRRLITTAIIGFATFSALCGLSWSVEVMVACRLGQG
+IFGAFLIPLSQSILFESFPKEKRGQAMALFGLGVVVAPVLGPTLGALLTEYFSWRAVFYV
+NLPLAAFALMMMTGELEREDTKRLTVDWVGLALMIAAIASLQLMLDLGESRDWFASKLIQ
+IAALTLIACGAVFVWRGRGKADNIIDFSLLRDRSFAGANVAIMGFGVAMFGSIAILPLFV
+QGLLGYPVLDAGFLFIPRGIAAGASMILTGAVLVNRFDPRKLLMLGLILTGTGNILLAFL
+NLNADFWQLALPGMVSGLGMGLFFVPMSTLAFQNIGPERQDEASGIYGVTRSLGSSLGIA
+LVGWQLASRMQYHYATLAAGITPFDTTAQSYLAPLDLDPSSSEGALFIAGQIQQQGSLLA
+FQDAFLLTGIAAFLMLPVVLILQRPKAHAAPAMAH
+>tr|B7RQ12|B7RQ12_9RHOB
+MDGDFRTEFTRSPAGLKHRPALVLNADYRPLSYYPLSLWPWQDAIKAKWLDRVDIVAEYD
+DYVHSPSMEIRIPSVVVLKDYVKPQKRVAFTRFNLFLRDEFCCQYCGARGDLTFDHVVPR
+ASGGITSWRNVVAACSPCNLRKGSKALHQTGFQLRKPPRQPEAEELRNMGRKFPPNHLHE
+SWMDFLYWDAELQA
+>tr|B7RSJ7|B7RSJ7_9RHOB
+MISFKGSHYPNDVILYAVFFYVRYAVSYRDLEEILADRGVHVDHATLNRWVVKYASQIAS
+EAQKRKTRTGRSWRMDETYIKVKGQWMYLYRALDKQGQTLDFMLSETRDEAAATRFFRQT
+IVNNGWPDKVVIDKSGANKAGLDNMNIELILHGWYWLIEVLQVKYLNNLIEQDHRFIKKI
+TRPMKGFKSVEAATATLAGIETAHMIRKGQLGTTKLSVFQQFAALAG
+>tr|B7RM68|B7RM68_9RHOB
+MSIPQSGGGPIEHHDQLAQYLADGCKPKEDWRIGTEHEKFGYNKETLLPLPYEGECSILA
+MLEGLRDGHGWDPVEEGGKLIGLVKDGANVSLEPGGQLELSGAPVETIHETCDEVNAHLR
+EVRDVADRIGAGFIGLGAAPEWSHEQMDLMPKGRYKLMNEYMTKVGTMGQVMMRRTCTVQ
+VNLDFGSEADMVQKLRVALALQPVATALFANSPFFEGKPNGHKSWRSRVWRDLDPARTGM
+LPWAFEDGMGFERWVEYALDVPMYFVYRDGKYIDALGQSFRDFLKGRLPALPGEIPTLSD
+WADHLTTAFPEARIKKFIEMRGADGGPWRRLCALPAFWVGLMYDQTALDGAWDLVKGFDA
+ETREGMRVAASVDGLQAQVNGVKMHDLAREAVALSELGLKARARAGAGGLVPDETHFLNA
+LKESIETGKTPADELLDDYHGKWGGDLSRIYADYSY
+>tr|B7RK41|B7RK41_9RHOB
+MSELHTLIGKPWRKPSFIKRPWLRWALMLGFAAYLIAAYMTIDVNWSRVYEGLERGKKFI
+LAFTSPDFTTRSSDIYAGMVESIIMTIASSVVGIAISIPIALGAARNIAPLPIYLICRSI
+IAISRALQEIIVAILLVAIFGFGPLAGFLTLSFATIGFLSKLLAEGIESMDKVQAEAIKA
+SGARWTQWINYGVQPQVMPRLIGLSIYRLDINFRESAILGLVGAGGIGATLNTAFDRYEY
+DTAAAILMIIILIVMALEYLSGVIRARVQ
+>tr|B7RQ38|B7RQ38_9RHOB
+MSDFEMMGLPRRLVKALTNMGMTDPTPIQKQAIPHAMNGRDVMGLAQTGTGKTAAFGVPL
+VAQMLEMEARPEPRTVRGLVLAPTRELANQIMENLKGFCEGTQLKAMMVVGGQSINPQIK
+RLERGVDLLVATPGRLLDLMDRRAVLLHKTTFLVLDEADQMLDMGFIHDLRKIASVLPKE
+RQTMLFSATMPKLMNEIANSYLNSPIRIEVSPPGKAADKVTQEVHFIAKAEKKALLIELL
+AKHTEERALVFGRTKHGCEKLMKDLVKSGFKAASIHGNKSQGQRDRAIESFKKGDITVLV
+ATDVAARGLDIPDVKHVYNYELPNVPDNYVHRIGRTARAGKDGAAIAFCAPDEMGELKDI
+QKTMKIAIPVASGRPWEPMEEPAKPKGRGGRGRGGRPGGNGGGGRPGGGGGAGKPEGASR
+RRRKPSGGGNGGGQRAA
+>tr|B7RH54|B7RH54_9RHOB
+METPAEVTFKDIDHSDAIEARVRERVDKLEAMSPEIIRCQVWVRAPHRRHKGTEYIIDIS
+LQMPGSTLHIDRHPGDDHAHTDIYVAIRDAFNAMERQLRRWQDQHKGRPEIHAAPLQGRI
+AVLDGYTNSGQISTTDGRLVYFHRNSVVRNGYDDLNEGDTVELSVDAKDADEGPHASIVR
+PITKIRFVDKPG
+>tr|B7RIE7|B7RIE7_9RHOB
+MPPRAIMIQGTGSNVGKSMLVAGLCRAALRRGISVAPFKPQNMSNNAAVTEDGGEIGRAQ
+ALQAMACGRNLSVHMNPVLLKPETDTGSQVVIQGRAQSHLEARDFGGARGALLKPVLESF
+GILARSADLIIVEGAGSPAETNLRKGDIANMGFARAANVPVVLAGDIDRGGVIAQIVGTQ
+SVMDRDDAAMVKGFLINKFRGDVALFDDGYADIIQRTGWAGFGVLPWFNGAHLLPAEDAV
+DLARADTGSGFHIVCPMLSRIANFDDLDPLAAEPSVRLTMIPPGTPLPADADLVILPGTK
+STRGDLAFLRAQGWDIDLHAHVRRGGHVLGICGGYQMLGQGVADPDGLEGTAGDDTGLGL
+LDVHTQMAADKTLTRVTARHLATDAPIDGYEIHIGQTEGVDCQRPFCRIGDTADGAMSRD
+GKVAGTYLHGLFANDVFRKAWLAQFGLAAASVSYSQTVDDTLDQLADHMERHLDVTALLD
+CAGVIA
+>tr|B7RJW8|B7RJW8_9RHOB
+MRVIFMGTPEFSVPVLDALVLAGHEVVCVYCQPPRPAGRGKKDRASPVQSRAEALGLPVR
+HPVSLKTAEAQAEFAALEADIAVVVAYGLILPQAVLDAPAHGCLNIHASLLPRWRGAAPI
+HRAIMAGDAETGVCIMQMEAGLDTGPVLLREATPIRTSETTIQLHDRLSEIGARLIVEAL
+SRLPDLTPEPQPEDGVTYATKIDKAEARIDWTRPAAEVDRLIRGLSPFPGAWFETGGTRI
+KVLGSTLAEGSGAPGEVLDAGLRVACGEGAMQLTRLQRAGKAAQDVSVFQQGAQIAPGTI
+LGEG
+>tr|B7RHF4|B7RHF4_9RHOB
+MTDVATQIKETITTNDVVLFMKGTKAMPQCGFSSRVAGVLNYMEVEFADVNVLADEALRQ
+GIKDFSDWPTVPQLYVKGEFVGGCDIITEMTLSGELDALFAESGVAYDKDAADKIREANG
+>tr|B7RII0|B7RII0_9RHOB
+MTVPAPIAMLAELTHRCPLSCPYCSNPIALAQKDRELSTDVWSDVFRQAADLGVLQLHLS
+GGEPASRRDLVDLVKAARDAGLYTNLITSAIGLTERRLQELDAAGLDHIQLSLQGTDAEM
+ADHIGGYSGGFKRKMQAAEWITQIGFPLTLNAVVHRKNLHQLPRAIEMALDMKARRIEVA
+IVQFHGWALQNRAALMPTRAQAAEASRIVAEARVAHKGTLVIDYVPADYHSDYPKRCMGG
+WGTTGLNVTPDGSVLPCHAAETIKGLAFDNVQDKPLSDIWYQGTAFNAYRGEDWMQEPCR
+SCDRRKLDFGGCRCQAMAIANDPAATDPVCIKSPLHATMKQLADGFASDDDAALIHRKGP
+>tr|B7RME3|B7RME3_9RHOB
+MFIQSPWFGLAGVALIPLQAYLIPMLQRQINVLNKKRIIQVRSFSSEIGETAAGISDLRA
+NGGWRYRLAAFTDRLGRLFEIRFEIYQKKFFMKFLNNFITQLTPFFFYSVGGYLAIKGQI
+TVGALVAALAAYKDLSNPWKELLTYYNQTQDMSLRWDVVTERFAPRGMIDAKLFEGEPDE
+IPHLKGPISFQNVTLRNHDGTRILDDLNIEIPMGARVAIEIPNQTERTAIAELLTREVSP
+TRGHITMAGYDLAGLHQAVLAARIGYAHSHPYLFKGTIGDNLLMSLRTSPKTVLWDPKQR
+DMSAIEAARAGNSLDSTKADWLDPGLAGLDTLEDVNDWWYQLVKSVDGEDVMFQRMVTDR
+IDPESRPKLAAAIVGLREEVYEKLKEKGLDKVVHRFDPDKFNPALALGGNLMFAAPLRNI
+SQAGLASERGFLAMIIEQGLAEQGVAISQTLVETLHQTFGRDGTDHPLFTALGIDEELYE
+QLVDIAMRRRNKGDAALTEDEFSLLLTVPFAFTAEQIGPGFPETFKQEILAIRKHQGAAM
+REKAKDLFVPISPENYLPRLTILENVLYGRISAVAGLQADLVLDLVLEIFKAHDLQKAVA
+VTVFDVPTSIGGSNISQSFQERASFSRAAIKRPDILVFNQSLAGQDAEGFRRLRDRLGNL
+LPEMTQVYLDDHFSHPEDFDIFVKIRGGRVDGVAQSETPNQDDSISDDLRRKLRIIAGNS
+MFSNLDPRNQRLLAFAAQWFPVKKGERIFSTGQPADAVYLCLSGMGELYWTEPDGTKLHI
+STVEAGRLIGDLAVIMSEPRQLDFSATEDSQFLRIGADQFRSVIENDPVILLSLLRTVSG
+HLTGTAELLRTAGIHIPRDDAKRTPPTQDGQP
+>tr|B7RSK6|B7RSK6_9RHOB
+MVSSILCVCTGNICRSPVAEAALRAALPDVEVTSAGLHALVDRDINADSA
+>tr|B7RP99|B7RP99_9RHOB
+MTMDCDILISGGGIAGLTAAAAFGSAGFKVICVDPTPPITDGEAAGADLRSTAMLQPARR
+VLEAAGIWSHLQDHAAPLQVMRIVDAGGAEPAPRVTREFNAAEISDQPFGWNFPNWLLRR
+ALIDRLADLPTVDFRPGTGTTSLFTRTAQARVTLSDGSRITTPLVIAADGRESPMRKAAG
+IGVTKSGYGQKAIVFAATHPVPHENVSTEIHRTGGPFTLVPLPDRDGMPCSAVVWMDDAA
+ACTRRMALDAKSFSDEASTRSCHLFGPLTLVTARNVWPIITQHAARLSGERIALIAEAAH
+VIPPIGAQGLNMSLQDVATLLELAQRNPDEIGSQKMLDAYHKARYGDIMLRVRGIDLLNR
+ASQATTPIARDARASGLNALYALAPVRKMLMGMGLGMRQG
+>tr|B7RR21|B7RR21_9RHOB
+MTKVVKHRTRIPRHAAGENPDKRAAILEGAAKVFLQSGFDAASVNDICRAAGVSKSTLYV
+YFSDKEDLFAHLVEGERERLFEGLQQTLRGPGSLTARLTDFAVALAEIVCSEPVVQAQRI
+VISMAERRPDLGASFYDGGAQRGHAVLLETLEREIAEGRLSIPDPSLAAYQLVELSSAGL
+WRRRLFGKTPTPPTAEVIRATAESAVAVFMASYGRGVKSAMKPET
+>tr|B7RHV3|B7RHV3_9RHOB
+MQMPKPHDRTRPMPISPDQQAEIDALRSDAKPTLRAVSEGMEAYLYKAIPVLDHGFVRVI
+DYMGDDAAICQAARVSYGKGTKSVQNDEGLIRYLMRHWHSTPFEMCEIKLHVKLPVFVAR
+QWIRHRTANVNEYSARYSILDREFYIPTPEHTNAQSVVNNQGRGGVLEGAEAARVLEILK
+TDSNRAYDNYEAMISETGPDGQPQDGLARELARMNLPTNIYTQWYWKVDLHNLFHFLRLR
+ADAHAQYEIRVYADAICQVVADWVPAAYKAFEDYRLGGATLSHTSLDCIRRMLKGEEVTQ
+ETSGMSKGEWREFMGVIG
+>tr|B7RGA5|B7RGA5_9RHOB
+MQVNETLNEGLKRGYAITVTAAELEAKVNEKLAEAQPEVEMKGFRKGKVPMAMLKKQFGP
+KIMGEAMQESIDGAMQEHFEKSGDRPAMQPDVKMSNEDWKEGDDVEVTMTYEALPEIPEV
+DLSSITLEKMVVKADDAAVDEALANLAETAQDFKARKAGVKSKDGDQIVFDFLGKVDGEA
+FEGGAAEDYPLVLGSNSFIPGFEDQLVGVVADEEKDVTVSFPEDYQAPHLAGKEAVFECK
+IKEVKKPVAAKIDDELAKKFGAEDLEALKKQIAERLEAEYAGASRAVMKRGLLDALDKLV
+SFDLPPSLVEAEAGQIAHQLWHEENPDVQGHDHPEIETTDEHKALAERRVRLGLLLAELG
+QKAEVSVSDAEMTQAIMNQARQYPGQERQFFEFVQQNQQMQQQMRAPLFEDKVVDYVFEQ
+ATLNEKEVSKEDLQKAVEALEDEE
+>tr|B7RKT2|B7RKT2_9RHOB
+MKMSGADSLASLAMMLASGGVEVVDCTGTLGPDTPILQLPEDFAKNTPKVEIHKISEYDN
+DGPFFAWNWMKLGEHSGTHFDAPHHWITGKDYEDGFTDTLDVQRLVAPVNVIDCSAQSAE
+DEDFLLTADGVKSWEAEHGEIGKGEWVVMRTDWDKRANDEAKFLNADETGPHSPGPTPDC
+IEYLLSKGIVGWGTQCIGTDAGQAGGMEPAYPAHNLLHRDNCFGLASLANLDKLPAKGAI
+LVAAPLKIQRGTGSPIRALALVPKG
+>tr|B7RL56|B7RL56_9RHOB
+MSRRHAAEKREVLPDAKYGDLVLTKFMNNLMIDGKKSVAERIVYNAMTRVEDKIKRAPIE
+VFHEALDNIKPSVEVRSRRVGGATYQVPVEVRPERREALAIRWLIKASRSRNENTMEERL
+AGELMDAVQSRGTAVKKREDTHKMADANKAFSHYRW
+>tr|B7RNX2|B7RNX2_9RHOB
+MFHMTNDDVKMDRFDATILSVLAEDGRISITDLAKRIGLSKSPTQARLRRLEDAGVILGY
+RALLNPVRLGLDHVAFVEVRLNDTREPALKAFNEAVTKVPEIEQAHMIAGNFDYLLKVRT
+RDMDGYRRFLGETITTLPFVSNTSTYMVMEAVKEIMLADIT
+>tr|B7RPY5|B7RPY5_9RHOB
+MSDGGLKFDLACLGGSAITAFYHLWEPTMTDVANRIAHRIAKDIDARPEQVLATVTLLDG
+GDTVPFVARYRKEVTGGLDDAQLRLLAERLGYLRELEKRRASILGEIQTQGKLTDALARA
+ITAADTKAVLEDLYLPFKPKRRTKAMIARENGLEPLLRAILADRATEPAALAKRHLSEAV
+PTEKDALNGARDILAEELGENASLLGRLRQVMQQEALITARVNKGKEDVGAKFSDYFAHR
+EKWATIPSHRALAILRAAKEDIVTVDIGPDEDTTLPRVIGMIAAEIGIPGQGPGDRWLHD
+AAAWTWRIKLSLSMFVDLMTELRRRAHATAIEVFARNLRDLLLAAPAGARATLGLDPGIR
+TGCKIAVVDETGKLLDTATIYPFQPRNDLRGSEETLLHMIRKHGVALIAIGNGTASRESE
+RLIADVLKRLPAGVARPTPVIVSEAGASVYSASELASQEFPDVDVSIRGAVSIARRLQDP
+LAELVKIEPQAIGVGQYQHDVDQRHLALSLAAVVEDAVNAVGVDVNMASAPLLSHIAGLG
+PSLAQNIVAYRDENGAFPTRKALLKVAGLGPKAFQQCAGFLRITDGKEPLDASSVHPEAY
+GVARKIVQACGRDVRAIMGDSAALAGLNAEQFVDDSFGLPTVRDILAELEKPGRDPRPAF
+KTASFAEGIDSITDLKPGMSLEGTVTNVAAFGAFVDIGVHQDGLVHVSQLADRFVKDPHE
+VVKAGDVVRVRVTEVDVPRKRIGLTMRKDNSQEKSQAPRHAEKHKPRGKGPASAGPAASA
+QSHGALGSALAQALKRPADPKR
+>tr|B7RGD0|B7RGD0_9RHOB
+MANTSSSDSKNTLYCSFCGKSQHEVRKLIAGPTVFICDECVELCMDIIREETKASGLKAT
+DGVPTPKDICDVLDDYVIGQAMAKKVLSVAVHNHYKRLNHAQKGGDIELAKSNILLIGPT
+GCGKTLLAQTLARILDVPFTMADATTLTEAGYVGEDVENIILKLLQSSEYNVERAQRGIV
+YIDEVDKITRKSENPSITRDVSGEGVQQALLKLMEGTVASVPPQGGRKHPQQEFLQVDTT
+NILFICGGAFAGLDRIIAARGKGSAMGFGADVRDKDARGIGEIFTDLEPEDLLKFGLIPE
+FVGRLPVLATLEDLDEDALVTILTQPKNALVKQYQRLFEIEDTQLTFTDDALAAIAKRAI
+ERKTGARGLRSILEDILLDTMFELPGMDTVTEVVVNEEAVMSDAAPLMIHAEADKEPATA
+G
+>tr|B7RN94|B7RN94_9RHOB
+MRFQTELVPARLIRRYKRFLADCTLDDGREVTAHCANPGSMMGLAEPGMKIWLEPNDDPK
+RKLRYGWRLVDHENGHFTGVDTSLPNRAVKAALEGQKIHALADYGTVRPEVKYGENSRID
+FLLTDPGLPDAYIEVKSATLSRCPGLVEFPDSVTARGAKHLGELAQMARNGNRALLLYLV
+QRTDCTAFSVAADIDPAYAAAFADARAAGLETLVIGTHITPQGVTLANCMPLNG
+>tr|B7RN99|B7RN99_9RHOB
+MDRLTEMEAFATVVDQGGFTDAAKKMGISKSAVSKHVSSLEARLGARLLNRTTRRVSPTE
+IGLAYYDRARRVLNDAGEADALVTSMQSAPSGLLRISVATDFGVNHLSPALSGFLEEFPD
+ITVNMVLNNRYVELISEGFDMAVRIGELEDSTLRARKLTETTKRMIASPGYFEKYGRPEK
+IDDLNDHKLLHYSNQSSGNMWKLTSPSGEKRQVRTAGWLSVNDGQSLLNAAVSGLGIAYL
+PSFLYADAMEKGLVEDAIPDLPLETQGIYAVYPPGRFTQPKVRAFIDFLVHAFADKGPTD
+W
+>tr|B7RM22|B7RM22_9RHOB
+MREGTTARMLADSIFGNGVTVNSATYSGDIDSVGTYSNADTLMPGVAPGDSGIIMSTGNA
+EDITNSRGQPNKSDATSTNTSGVNNDPLLNLAAGTRTYDASILDVNFTPDTDLMTMQFVF
+SSDEYPEFQNSIYQDFFGVWINGQEVQLAVGDGDMDPGNINSTNNLNMFVDNTGGDYNTE
+MDGFTITMTLTMKVIPNVPNTMRIAIADVSDTGYDSNLMIAANSVQSSLIAVTDDVSIYP
+DGTKVIDVLGNDVASDSSVLSITHINGQPAAVGAQVQLPTGQIVTLNSDGTLSVEGDGDV
+EDFNFTYTVTDGTDTDVGMVSATSVPCFVAGTLIATPDGERAAETLMPGDLVLTQDDGPQ
+PLRWIGSRTVAATGKFAPIHIRAGTFGTHRDLLVSPLHRVLIRDSLAEILFGEAEVLVAA
+RDLVNDRSVTRREGGQVEYVHLMFDRHQVVFSEGLGTESFLPGPQTNDSFEPEIVDEICA
+LFPEIDRETGIGYSPTARPALKRYEAEILRSGMVA
+>tr|B7RR83|B7RR83_9RHOB
+MPDHELQDMSQGEVAYHRLHEAIRTGQFRPGDRLREVDVASKLSLSRTPVREALRKLESD
+GIVEHRARLGAVIRTLSTPEVVELYEMRLVLERTAAEMAAKHASTAEIDVMEDLNAQIEA
+AGHDSLRAAALNQDFHRCIYLATRNRFLVDSARALNNALMLLGPTTLDDEVRIKTVSSQH
+AQIIAAIRAGDQKAAGEAADAHLQTSLRHRLKVMR
+>tr|B7RGK0|B7RGK0_9RHOB
+MKISAEHLTALATSILIHAGGQPDAAQRIATRLVSANLTGHDSHGVGMIPAYVDGIFAGT
+LDPDASVDVVQDKGPFLLVDGQRGFGHIVAEQAMDLAIQRARTNHFAVLSLRNSFHLGRL
+GDWGAMAAEAGFICILYANVQSSRPLVAPFGGSDGRFVTNPYCTAIPATDTHPMFLLDMA
+TSKIAMGKARVAHLSGKQVPEGSLIDAQGNPTTDPSVMFDDAGGALTTFGDHKGFGLALL
+GDILGGSFSGGGAYLPEREVPLSITNNMLAILIDPDVFGMAQAFGVDMDRYTDWVKASPP
+APGVDAVQLPGDPERRSAQDRQANGIFVDAGTRAHLVETATRAGVPQDQIDALIAPAGVA
+P
+>tr|B7RS96|B7RS96_9RHOB
+MIETDVAISGAGPCGLMLANELGRRGVSVQIVDAEPGVGIAPQANATQARTMEHYRRLGL
+SNDLRKMGLPSDYPTDVAYFTTFTGHELARHKQPTSGDAAKRVRELADVWNGPELPHRIP
+QSMIEQKLCDEAQKLAGVEIAFFHRATRFEEDADGVTLHSEHVKTGAPLIIRAKYLFGAD
+GSLSKIREQMGIVYTGAGGVARDFMGGRMLSVYLNAPSFYEAVSAPRAWMYWTFNRRRRA
+LLAATNGKGRFVLQTQLREGEDHQTLTEDDCKGLFWQAVGQEIPVDITGTATWIAGRGLV
+AESFQRGRVILGGDAVHIFTPTGGMGYNTAVDDAVNLGWKLAAVIKGEAGPTLLDSYEAE
+RRPVAQRNTLFALAFADSVGLYRASPAIENEDEAGEIARARAGAYLAQHGAKEFFIPGFS
+LGARYDNSPVIAQDDSLPPPDQASVYVPSAKPGGRAPHVWLDQETSLFDRFGFDWTLLNL
+GGADSTAEAIEAEAKTRGLDLKRLDLPDHAILADLYEAPLALIRPDQFVAWRGDKVDAAE
+LFDRITGKTASQPILADTH
+>tr|B7RRH9|B7RRH9_9RHOB
+MGATAFALLLWQGVVWITGVPAFILPSPLRVAQAAIANRALIAENALVTATEVILGLMIG
+TVLGAITAVPLAGSARLHRVVMPLLIFTQAVPVFALAPILTLWLGYGVASKVVMAVLIIY
+FPVTSAFYDGLTRVPADILDMARTMGGTKGQIMRRIKIPHALPSLGTGLRLAAVYAPIGA
+VIGEWVGASKGLGYLMLLANGRAKTDLMFASLLALVVMTLLLHLAITKAADSLGRR
+>tr|B7RMN4|B7RMN4_9RHOB
+MKRVDEIDGLIGQLNALKAVQPFGRITLVDQGAVQVSGLGTEACLGDRVKIRRRSGSDLF
+GEIVQLDGTILTALLENAPDGVAVHDRVFLASAGEIFPSPQWIGRVIDSSGHPLDGKPLP
+CGPQAQPLRASPPGAAERKPLGQRLETGLEITNTLLPIVEGQRVGLFAGSGIGKSTLLGT
+LASKMQADVVVIAMVGERGREVRHFIDDVLGPEGLARTVVVAATSDQSALLRRRCAWTAM
+AVAEFFRDQGKSVLFLADSVTRFAEAHREIAVSSGEAPVLRGYPPSTAHMIMQLCERAGP
+GHLGQGNITGLFSVLVAGSDMDEPIADILRGVLDGHIILDRAIAERGRFPAIDVLRSVSR
+SLPAAATEGENKILKQVRKILGVYERNSMMISAGLYTSGSDPEIDQSIALWPELDIFFGA
+RESAEISQSFRKLEIILRRAKAVPT
+>tr|B7RQ45|B7RQ45_9RHOB
+MWADRVKRQLAAEALGTALLLISVIGSGVMGAALAQGNVAITLLANAIATGCMLYVIITV
+LGPISGAHFNPAVSLAFFLRGELPLRDLAGYIPAQVIGGLIGVWTTHAMFDLPIFQWSLT
+MHRTGGAQWFSEGVATFGLLLVIFGGLRANKEAVPTLVALYITGAYWFTASTSFANPAVT
+FARGFSDTFAGINPLHIPAFLLVQLAAVGIAHVALKALLDD
+>tr|B7RL24|B7RL24_9RHOB
+MPQISLKIINEKGLHARASAKLVEVVEAFDARAEVSKDGMSASGDSIMGLLMLAASKGTT
+IDIQTSGADAEALVEALTALVADKFGEGN
+>tr|B7RGM9|B7RGM9_9RHOB
+MQKMQRSGYFGTKTMKHLQTLRYIQGIVRAGSIRKAADDMNITASALNRRIQRFEEEFGS
+EIFERLPRGVRLNPAGELLMQHFRTQVSDLRRVQGQVADLAGERRGHVAIACSQALIPYF
+LPGQIASYRKDHPGVTFSVMVRDREAAERDLSLFNSDLALVFEPIHLVDFEVISHCPQTI
+HAIMRRDNPLAAKKEVRLRECLDHPHVLPSTNYGVRSLLELGAKAGSRPLRPSVESDSFD
+FMRHYVRHENAVAFQIPIGLDLGDDDTVVSRPVSARDVPVGSLFLGQLRGRSLPVAPARF
+AQGLTRALENLADD
+>tr|B7RIF8|B7RIF8_9RHOB
+MLKGLGAMGDMAKMMKAAQEMQGKMAQMQEDMHNIIVEGESGAGLVKATCTAKGELKTLD
+IDPSIFNGDEKEVVEDLILAAIKDAQTKATDRAQAEMSKLTEGMGLPADMKLPF
+>tr|B7RJA9|B7RJA9_9RHOB
+MANDLFNSFMTGPDENGRFGEFGGRFVSETLMPLILELEEQYEKAKTDDSFWAEMHDLWT
+HYVGRPSPLYFAERLTDHLGGAKVYMKRDELNHTGAHKINNVLGQIILARRMGKKRIIAE
+TGAGQHGVATATVCAKFGLQCVVYMGAHDVERQAPNVFRMRLLGAEVIPVTSGRGTLKDA
+MNDALRDWVTNVRDTFYCIGTVAGPHPYPAMVRDFQSIIGKEVREQMMAAEGRFPDTVIA
+AIGGGSNAMGLFYPFLDDKQVGIIGVEAGGKGVNEKMEHCASLTGGRPGVLHGNRTYLLQ
+DDDGQILEGFSISAGLDYPGIGPEHSWLHDIGRAQYVSITDVEALEAFQLSCKLEGIIPA
+LEPSHALAHVMKIAPELPKDHIICMNMCGRGDKDIFTVAKALSFDMKV
+>tr|B7RKS8|B7RKS8_9RHOB
+MTEFFNGIPTIAYDPDATHDFAYRSYNPDEVLMGKTMAEHLRFAVAYWHSFAWEGGDPFG
+GQTFDRPWFGDTMDHAKVKADTAFDMFKVLGQPYFCFHDADVRPEGDTFAESTARLHEIT
+DYFGEKMEQTGTKLLWGTANLFSNRRYMAGAATNPDPDVFAYAAATVKECIDVTHKLGGE
+NYVLWGGREGYETLLNTDMKRERQQAGRFLQMAVDYARKIGFKGAILIEPKPQEPTKHQY
+DYDVATVYGFLKDFGLENEVKVNIEQGHAILAGHSFEHELALASALGIFGSIDMNRNDYQ
+SGWDTDQFPNSVPEVALAYYEVLKAGGFTTGGTNFDAKLRRQSLDAQDLILAHVGAMDVC
+ARGLKAAAAMLEDGKLEAARETRYAGWGSDRGQGLLQSDLETINAQVKADALNPQPASGR
+QEALENLVNRYL
+>tr|B7RSE1|B7RSE1_9RHOB
+MNIYRHDYRGRIWFILQDLATGRSHRFSPAAYRMVGMLDGTRSLGEVWDIANEQLGERAP
+TQDEAIRLLGQLHAADALVADVSPDSRELFRRHQRHKRMEIKQKVWSPLAVRVPIWDPDW
+FLTATLPFVRPFLTKTFAVIWLLLVLTAAVFAAMNIGALTTNITDRVLNPGNLAVLWLVY
+PVVKAFHELGHGYAVKKFGGEVHEIGIMFLVLIPVPYVDASAASAFRDKHKRMLVGGIGI
+MIELLLASIALFVWLNAESGAVTAVAFNVMLIGGISTLLFNGNPLLRFDGYYVLADWIEI
+PNLSGRSTNYLTYLIQRYIYGMREADKVTSLWSERIWFVFYGIAAFIYRMFIMFAIIAYI
+AGRFFIIGVLLAIWAATTQLLLPIGKGIKFLSGSPKLRTNRPRALITTFAVIAFVLGALF
+LVPFPSYSIVDGVIWPSQQAQVRAGTNGFVTKVATTADQTVRSGDLMMQLDDPFMRARLE
+LIDTQLAGLEIQRSALIRTDRVQSALIAEEINIVLNDRTRMIEELGALDIRAPRNGTAVL
+PNSSDLEGTFVAKGSVIGYVVAQRDTQTVRTVVSQNQIDLVRNDTQSVSVMPVEWGAEPV
+KAVILREVPGATQQLPTPALGTAGGGKVPVDPSDPNGVQTLGRFFEFEILMVQPSEDILL
+GRRVRVRFDHGTSSLGVQAYRSLRQLFLRLYNV
+>tr|B7RLP7|B7RLP7_9RHOB
+MLPKPCFAMAADGHFGLGCARSELWGLSMAFTLATWNINSVRLREPIVLKLLQEQGPDIL
+CLQECKSPVDKIPTEAFAAAGYTHMVARGQKGYNGVAILSRLPLEDVGDQDFADLGHARH
+VAARLENGVTIQNFYVPAGGDVADREVNEKFGQKLDYLAGMRDWFRGDKPRKSILVGDLN
+IAPREDDVWGHKQLLKVVSHTPIEVEKLAETQDAGGFIDITRQDIPEGNLYSWWSYRAKD
+WDAADKGRRLDHVWATPDISNAAHSSRVLRDARGWEKPSDHAPVFATFDL
+>tr|B7RML3|B7RML3_9RHOB
+MDGAYDDRDGKIWMDGKMVDWRDANVHILTHAMHYASSVFEGERCYNGKIFKGREHSERL
+RKSAQYLDFEIPYTVDEIEAAKYEMLQANGWTDAYVRAIAWRGAGPDMGVSAARNPVRLA
+IAGWEWGNYYGDAKMKGAKLDISKWKRPSPETIPVHAKAAGLYMICTTSKHAAEAKGCSD
+ALFMDYRGYVAEATGANIFFVKDGEVHTPLADCFLNGLTRQTVIGMLKEKGLTVNERRIM
+PEELEGFEQCWLTGTAAEVTPVGQIADYTFEVGALTRDISEEYEKLVRS
+>tr|B7RLZ5|B7RLZ5_9RHOB
+MKFSIERAALLKAVSQAQSVVERRNTIPILANVLIEAEGSDASFRATDLDIEVVDKAPAQ
+IERAGATTVSATTLHEIVRKLPDGALITLTSDSAAGRLTVEAGRSNFSLATLPREDFPVM
+ASSEYQSNFSAPAPVLRRLFDKSKFAISTEETRYYLNGVYMHISESEGNKVLRCVATDGH
+RLARIDAPMPEGADDMPGVIVPRKTVGELRKLLDDDDMQIAVSVSETKIRFATPDITLTS
+KVIDGTFPDYTRVIPQGNTRKMEVDASDFARAVDRVATVSSERSRAVKLQLDEDRLILSV
+NAPDSGAAEEELVVAYADERLEIGFNAKYLLEIASQVDRENAVFLFNSSGDPTLMREGND
+MSAVYVVMPMRV
+>tr|B7RI33|B7RI33_9RHOB
+MAKPNKTPRPKAEAPKGFRDYFGAEVTQRAEMLRKIAGVYHRYGFDALESSGVETVEALG
+KFLPDVDRPNEGVFAWQEDADADKPGDWLALRYDLTAPLARVYAQHRNDLPTPYRRYAMG
+PVWRNEKPGPGRFRQFYQCDADTVGAPSVAADAEICAMLADCLEEVGIERGDYIVRVNNR
+KVLNGVMEVAGVLDPTDPDKFASERGIVLRAIDKLDRLGLDGVRALLGAGRKDDSGDFTD
+GAGLTDAQADVVMGFMQAKRDTGAETVARLRELVAGSSTGVQGVDELETIADLMAAGGYG
+PDRVEIDPSVVRGLGYYTGPVFEAELTFEIKDEKGRVRNFGSVAGGGRYDDLVKRFTGQE
+VPATGVSIGVDRLLAALHAKGRLTGDAIGPVVVTVMDKARMADYQAMVAELRQAGIRAEV
+YLGNPKNFGNQLKYADRRNSPVAVIAGGDEFDNGMVQIKDLILGAKIAENATLEEWKDRP
+SQYEVPRADLVAKVREILELNR
+>tr|B7RHR4|B7RHR4_9RHOB
+MKVGFIGLGNVGGKLSGSLLRNGIDLSVHDLNADFVAAKVAMGAKDGKSPADLMQNCDVV
+ITCLPSPAASAAVLDKMMPHVGRGKIWMEMSTTDAAEVERLGRTVIDAGGAAVDCPVSGG
+CHRADTGNISIFAGCDRTSFDRILPLLTIMGRRVLHTGDLGSASVLKVMTNYLATVNLIS
+VCEAMTVMKAAGMDLATTFQAISMSSGTSFVHETESQLILSGSRDVNFTMDLVQKDIGLF
+QKLADEFLVPLEVSPLIIDIMTDGQKRYGERAQSDRIIERLEDATGLKILADGFPQELVD
+DEPEERGYEVAARSSL
+>tr|B7RGS4|B7RGS4_9RHOB
+MAHSALPRPVDRPRPVNRPWLALAGLTLGVMVTNGFARFAYGLILPAMKSELGWSYAQAG
+WLNTANALGYVVGAVLTLLLIGRVAPSQLFSFGLVATTASLLATGVEATMGWQTFWRIAA
+GVFGAMSFSTASVLTARLFPGDPKRNALAIAILFGTGGGLGIMLAGASLPLMLEAWGPSS
+WRFGWYIIGGLSVIAIPLGLWSARALHVPAPRNTATGGLPLRRIWRELAGYAGFAMGYIV
+YLTFLGAWMADQQASAGLIAGVWIILGVALVLSPFVWRGVLARHNSGRPLAMILTGIAVG
+SALPVVLPAGGAVVISAIVFGLCVFMAPGAITSFIRQNLPPASWAAAMSLFTVVFAVAQT
+IGPFTAGAIGDATGNIGSGLLVAACILLTGAALAAFQRPLD
+>tr|B7RKW3|B7RKW3_9RHOB
+MTIETLNLADLKAQTPKNLLAMAEELEIENASTMRKGEMMFQILRERADEGWEISGDGVL
+EVLQDGFGFLRSPEANYLPGPDDIYLSPEMLRQHSLRTGDTIEGLIKAPDDTERYFALTE
+VTKINFEDPEKARHKVAFENLTPLYPDERMTMEVEDPTIKDRSARIIDLVAPIGKGQRCL
+IVAPPRTGKTVLLQNIANSIEKNHPECYLIVLLIDERPEEVTDMQRSVKGEVVSSTFDEP
+ATRHVAVSEMVIEKAKRLVEHKRDVVILLDSITRLGRAFNTVVPSSGKVLTGGVDANALQ
+RPKRFFGAARNIEEGGSLTIIATALIDTGSRMDEVIFEEFKGTGNSEIVLDRKIADKRVF
+PAIDILKSGTRKEDLLIDKVDLQKTFVLRRILNPMGTTDAIEFLLGKLKQTKSNSDFFDS
+MNT
+>tr|B7RFP3|B7RFP3_9RHOB
+MKFAKMIGTVLGVGYIRPAPGTWGSLVALPWGWLLHVIGGFPLLVAGVVIAFAAGWWATA
+QMTAGSTDHDPSEIVIDEVAGQWIALLPLSYAAWTMGLNILEMWPGWIAAFALFRLFDIW
+KPLLVGWADRRGDALGVMLDDVIAGLFALLGVIAMAGLYHGLL
+>tr|B7RK75|B7RK75_9RHOB
+MFSHAPQHYSRRMRKDLRILVVEADSAKAKNIINALLEAGWSDVHEIAQVSGLEQSIAKH
+APDIVLIDMANPDRDTLEHIGTVSDTKSRAVAMFVDQTDPHLTQAALAAGVSAYVVDGLQ
+MNRIKSVIETAIARFQMMRQMQSELDAAKQALEDRKTIDRAKGIVMRRRGISEDAAYKLM
+RKAAMDQGRKVIDVAQALVTASDLLT
+>tr|B7RIQ7|B7RIQ7_9RHOB
+MIRFINDHRADHGVEPICRVLPIAPATFYDHLAKQADPSRLSDRAKRDEELTPEIERVFE
+ENLKVYGVRKIWHQMRREGFDIARCTVARLMKDIGIEGVIRGKKPRTTMPDKALPCPLDR
+VNRQFYAPAPNGLWVSDFTYVATWQGFVYVAFVIDVFARRIVGWRASRTANAGFVLDALE
+QAIHQRRPAQDQLVHHSDRGSQYLSIKYTERLAEAKIAPSVGSVGDSYDNALAETINGLF
+KAEVIHRRGPWRSFEAVEYATLEWVDWFNNRRLLEPIGNIPPAEAEANFYAAMERSDMAA
+>tr|B7RNS2|B7RNS2_9RHOB
+MSQPLAINVPRSTSARTNSHVPGIISIVCELPFELDVLGNLLRRVFPEADIRCFKTAAEW
+DDAPDCDTSQEILLYSLGDNQISDNAVKAELRKFISDAGTRRVIVTSHSNDTMSVFEAIE
+CGAAGFIPANAGLDELLEAISADFAKCVVIPRASLEALRAEMPVTAPQNPGLERFFTERQ
+LDVARALQRGDANKIIAYDLGVCESTVKVHIRNIMRKLSATNRTQAAYKLNQLANGDPEL
+EKNLNDA
+>tr|B7RGF0|B7RGF0_9RHOB
+MPQSLPPLTLPSFSPDLLGQLLLPAFLISIIGFVESISVAQTLAAKKRQRIDPDQELIGL
+GAANIGASLTGGFPVTGGFSRSVVNFDAGAETPAAGAFTAVGLAIAALAFTPLIYFLPKA
+TLAATIIVAVLSLVDFSILTRSWAYSKADFSAVFATIVITLVMGVEAGVSAGVGLSILLH
+LYKSSKPHIAEIGQVPGTEHYRNILRRDVTTDPRIVSLRVDESLYFANARYMEDKIHNRV
+ADDKNVRHVILQCSAINYIDFSALESLETIYDRLHEMDVKLHLSEVKGPVMDRLKRANFL
+SELTGEVFLSQFDAIRTLKC
+>tr|B7RGV0|B7RGV0_9RHOB
+MSLILKSLFWLVVGILFLSSVLPLSKIPHGAIRGLAFPREQFFLLTLVMFVFALVFFDSH
+LRLYAVITLTVVAAIHLAYVVKFTPLWTQQSVDASQAELDDTDSHVTILASNVKQSNRDF
+GALIDLIKEKKPEIATALEVDQEWTDELHAALKDDYAHWVTVPKDNSYGMVLMSKLPLAE
+TQVRELLVEDVPSIRTTVRNANGQEWRLYIVHPEPPVPNHDTKGRDGEIALIGIEASKDD
+MPAIVTGDLNDVAWSTTTRRFQRLSGLLDPRVGRGFYNTFHAGIPMMRWPLDHLFHDAEF
+RLISMSRLRNIGSDHFPIMFSLALTQTEAAITTPEPSDAEERDEVREIVQDEKEKDREAI
+GTDWEK
+>tr|B7RS97|B7RS97_9RHOB
+MKFNQLRDFVAVAEAGSLRAASRRLELAQPAITRSIQELENSLGAQLFIRGARGVRLTPV
+GMVFLVRARNVLEEVRRAGEEVSQIQGSAEGNLVVGLSIAGHMGVLERVLRPFIRRYPRV
+RLHVIEGFLPTLESELLAGTVDFFIGPVSEDIVTPELDVSKLFDNERLVIARRDHPRSAS
+RSLSDLNDVDWLTTSITHDAKDELSAVFAEHGLPPPRLIAKCQSALSILTFLMSTDMLAM
+VPRQWVESPLMKDLLIPFPLKERFGAPPICLVHRKGLGLTPAAEHFVTLVRKASSAPLPG
+PR
+>tr|B7RMB8|B7RMB8_9RHOB
+MPVIYEKVALIGLGLIASSMFWSMKRAGNVGTVSGFARSAETRDTAREIGLCDEVCDSIA
+KTVEDADLVVLCVPVGVMGSVAAEMAGFLKPGCTVTDVGSVKADVITQVGPLLPENVHFI
+PAHPLAGTEHSGPRSGFAELFDNRWCLLVPVPDTDADAVARLRRFWESLGANVKEMDAEH
+HDLVLAVTSHAPHLIAYTMVGVADDLRRVTDSEVIKYSAAGFRDFTRIAASDPTMWRDVF
+LTNKDATLEILGRFTEELFALQRAIRTGDGDHLHAYFTRTRAIRRGIIEAGQDTDAPNFG
+RAPSKK
+>tr|B7RRA4|B7RRA4_9RHOB
+MTTINTRKTRSYAYVTEPLDAEAAMRLSGLDYMRALNSGAVTAQPSMIVTMGISDPMDLD
+YGKAAFEADPADFLLNPMGTLHGGFAATLLDTVLGVCVHTTLDAGIGFTTAELKVNYTRA
+ILPTTGRLRAEATIVHRGRQMATSEARVVGLEDGKLYAHGSTTCLIFPLKQKKA
+>tr|B7RRF2|B7RRF2_9RHOB
+MSGLLLARLGKIWLFCILVFLYAPILVMAFMSFNASQYYQLPFEFSLKWYEKLAGNAEIL
+DAATRSILIALVTTVIATVLGTAASVALFRFEFRGKRFLQVMLFPPIAIPWLITGTAMLI
+FFYGIGLGRGTPSVIIGHVALAIPYVIVVVSARLATFDHTLEEAARSMGASGWTVTRRVT
+MPWIAPGIIAGALFAFAVSFDQFVVSYFLSEPGDSTLPVLIYTSIRKGFTPEINAISTII
+ITVSMVVMLIAARFSNFGGER
+>tr|B7RNL4|B7RNL4_9RHOB
+MRCSLQNTQKFRDELTLELQKEVPDPKVIAELSDAILNETEGSVRFTVDAQHINRLGLEL
+VGKQETALSELIKNAYDADATEVNITFANFEKAGGELIIADNGVGMDIDTIRNSWMRLST
+NEKGENPVSEIFSRRRAGRKGIGRFAVQRLGTSLVLETGQKGQKIGLRVVFSWDQDFKAG
+ISLNQVWHKIETYEKDEVTSGTVLKIRDLRDRWTKPTLERVWKSVLFLQVPFEPGGNQSK
+DSENFLVSINGATNRQQRIDLNMKDNFLNNAVAQVSGWIDVSGIATFKVVSEKLGIDETF
+QSEDIYEFVGPLTFSSAYFIYLREYMSGISVRVAEKMGHSYGGIRVYRNGFRVLPYGEQN
+DDWLKLSFDSARRNLLVPANNFNFFGQVDVDGQSNPLLEETSSREGFIENEAFEELQVFC
+RRCIEWAAQRVGSVRKKKTSTSQQGFQPTYTRKPSEIILEKLAQEESKIERDDDNQIPED
+ELKPENTDRNENSGHNTEFLKELYSKQREYEQKTEERIELSIEYENMLRILASLGISISL
+FGHEIKSATTAVDNSLAVAEIDAERLKDSRERAQLEADLNSLKTATNRIFDLGSYVEALV
+SKTRSRELTEVHVDTAVRRFLGQFQSYMHKRNINFDVDVQPVDLLTPKMHASELDSALFN
+FLTNSVKAIEKAGVPNPMIRVSGRQQGDFVIVSFEDNGTGVPKEIEERVFDAFFTTTETD
+GDSISGIGTGLGLQIVADIASAYGGSVSLSDDVTHGYSARFDLKLRKSKQE
+>tr|B7RSI5|B7RSI5_9RHOB
+MMTNSRFYNVLAFVLAFVPFSVTAFTGTIAQSRRARSVADLVLVDPSALQISPNISYRDV
+IRIRGFDFFTYRMTLDGLSLVLSKLRVLTEIGERVELHKGPDTFVNGVATGQTVGGSINN
+VPKRVDDQRIRYLTQTDGSNSDQRKTCSIATIGPPPQMERPLGSRGGGGGTAQPFNLCRV
+LILSGIDLTKEQKYEQT
+>tr|B7RKH9|B7RKH9_9RHOB
+MTTTDAALAAFVARQGKGARYDAQAAPADALAMARRGTAYFARLLNGLGDADLDAPSARA
+GWSRRAVIAQTGYHARHLGLFIAAAQTGTGRDRPLAPSPAEIALGETLPPRALRHLIEHA
+SVHLNVAWRDMTDGDWGLTCNGIALRDTPVLRARVLWQNALDLNAGGRVKDVPDDLL
+>tr|B7RRZ9|B7RRZ9_9RHOB
+MKVFFDERQLRHAPALYFRRGAAMPHQEQPQRAEILRDMLIGEGFEISKPQDHGLEPIKA
+VHNPDYVDFLPTAHSRFVASAGPEALAIPTMHPGVRRGKEPKDIHGQLGWWMTDTSTPLT
+EGTWEAVYWSAQTAIEAAEAILAGERAAYALCRPPGHHAMRDCANGFCFFNNASIAAHHL
+TKKFKKVALIDVDVHTGNGSLDILYERGDIFFCSLHPDPATYPTFYLGHADETGEGEGEG
+KSLNILLEQGASQDDVLAALDKGIKAIRDFGAEALVISLGFDMAVDDPLAAVAVYPEGFG
+KMADRLAALNIPTALVQEGGYLGPSLADNAKSFLTTFREATQ
+>tr|B7RGY0|B7RGY0_9RHOB
+MSEIKFKRVAGNDSLPLPGYATAGAAGMDLRAFLPDGPLVFETGQISLISTGFCVEIPRG
+TEMQIRPRSGLALKHGFLIPNAPGTVDEDYRGVVMVGLYYIGAEPFTISHGDRIAQAVVA
+DVRRFACVEVTELSESGRGAGGFGSTGLK
+>tr|B7RKW7|B7RKW7_9RHOB
+MADVAETQTVTEKGSAEQYVPIEQISPNPEQPRKRFDPEDLNDLANSIREKGVIQPLIVR
+RREDGSFEIVAGERRWRASQMAQLHQLPVIIREFTDVEVLEVAIIENIQRADLNSVEEAA
+GYRQLMDRFGHTQEKMAEALGKSRSHIANLLRLLNLPETVLEMVRKGDLSAGHARTLVTA
+DDPLKLANQIIAGGLSVRAAEALVKKAQAGDAETPVRKVRSSAEEKDADTRALEGDLSAN
+LGLKVTLNHKPGQEAGQMVLTYKTMEELDEICRLLSAH
+>tr|B7RL05|B7RL05_9RHOB
+MSENRTSLAITLISELLSADQRMRNRLTRVLPKGMEISHFSVLNNLAWHEGEKTPAQLAE
+TFNVTRGAMTNTLNKLVWAGYVHIRPDWDDARRKMIAISPAGRQARDDAIRAITPLINNV
+ADELGEEQVRATLETLRALRTYSDD
+>tr|B7RQ20|B7RQ20_9RHOB
+MRFGATLLDATGLRLTADEKALFRAVKPFGFILFARNIDTPDQVRALCDELREAAGHDAV
+ITVDQEGGRVQRLRGPVWRDWTPPMSFVQAAGANAAEAMYIRFRLIADELYNIGIDSNCA
+PMVDVAGPQTHEFLYNRCYGTDAAQVATLGRAAADGMLAGGVLPVMKHMPGHGRATMDSH
+FNLPLVGADHTTLTAHDFAPFKALNDLPMGMTAHLVYDAIDPRPATLSPVIMDLIRREIG
+FDNLIMTDDISMKALDGPVDQISRDALAAGCDAILYCNASLTDRALVAEAAGEMTDASQI
+RAERALAARRTPDEIDISALTAKLDALLGGELHG
+>tr|B7RJP7|B7RJP7_9RHOB
+MSIAVLGAGAFGTALAISLAHKGPITLWARDAQGMDTLRENKARLPGCHFPDGLFVTETF
+EDAAKSDVLLVAVPMQTLRGFLTEHAALLDGKTIVACCKGIELETGLGPVAVIHETLPNA
+TPAILTGPSFAADIARGLPTALTLACADAMVGERLQKALTTQNLRLYRTVDTIGAELGGA
+LKNVVAIACGAAMGAGLGESARAALMTRGFAEMQRLAAHLNADPDTLSGLSGFGDLTLTC
+TSTQSRNYRLGLAFGEGRSFDSTTTVEGAATARAVHGLAQKHGLDLPITAAVAGLIENRL
+DVQSAMTSLLTRPLKEE
+>tr|B7RG95|B7RG95_9RHOB
+MSDVAERVKKIVVEHLGVEEDKVVENASFIDDLGADSLDTVELVMAFEEEFGIEIPDDAA
+ENIQTFGDAVKFINSAS
+>tr|B7RGR5|B7RGR5_9RHOB
+MRIEVSRDVFRLAQVFTISRGSRTEAQVLTVRVSDGGVTGWGECVPYARYDETLESVTAE
+IEGLPGAFTRTDLYDLLPAGAARNAVDCALWDLEAKQAGKRVWELAGLAAPGPEITAYTL
+SLDTPEKMQTQAALHAHRPLLKIKLGTPDDMPRLEAVRAGAPDAQIIIDANEGWSAEVYA
+DLAQHLVRLGVALVEQPLPAGEDDALIGMDRPVPVCADESCHDRNSLPKLKGKYDVVNIK
+LDKTGGLTEALSLRDAALAQGYEVMVGCMVGSSLAMAPATLVAQGAKVVDLDGPLLLAED
+RENALTFDAAGVHPPLAKLWG
+>tr|B7RI80|B7RI80_9RHOB
+MKFFVDTAEIDAIAELNDLGMVDGVTTNPSLILKSGRNILEVTKEICDLVEGPVSAEVVA
+LKAEEMIAEGRKLAEIAENITVKLPLTWDGLKACKVLSGEGKMVNVTLCFSANQALIAAK
+AGATFISPFIGRLDDINLDGMELIQDIRTVYDNYGFETQILAASIRSPNHVLEAARIGAD
+VMTAPPEVIKKLASHPLTDKGLEQFMADWAKTGQNIL
+>tr|B7RN63|B7RN63_9RHOB
+MRPAVVFIVLTVMIDAMGIGLIIPVMPDLIAEVQGKNLSRAALWGGVLATTFAVMQFLFS
+PLVGSLSDRFGRRPVLLMSLTVMALDYVVMAVAGSIWLLLLGRVVGGVSAATGATASAYM
+ADISAPEDRSAHFGLIGAGFGAGFVLGPVVGGFLAEFGTRAPFWAAAALATGNVAFGWFV
+LKETVRRETRRPLSLRRANPFGAVRHLGDLPGIRRLLLVYFLYHLAFAVYPSVWSFFGKA
+QFDWSPAMIGGSLALFGLAMALVQGVLIRPVLKCFGERGTVLVGYAFSVGTYLLIATVTS
+SMTILILTPLAALAGVIPVALQGIMSQAVAQNAQGELQGVLTSASALAMVVGPLLMTGTF
+AAFTAPQGAIYFPGAPFLLSMLLTLAALSVFLRWRVPSSGGTEDGRLPPCEP
+>tr|B7RJZ2|B7RJZ2_9RHOB
+MGSQIILEDLLKLTAEALPPVDEILEQAKTSVRALVSVDGRVSNGLVEANQTAAHGLAWL
+ATYAQALNQMQLWAEKLNADGVFGETEQLIHQIAFGEYLWQIYGGIQMNQGEILRLHDMG
+LGQDAQGGLTTPAIQQLTQHGNTQAARTRLVELMQEQSANITVGRSGLDEELEMIREQFR
+RYAIDKVEPYAHEWHLKDELIPMEVINELAEMGVFGLTIPEEFGGFGLSKASMCVVSEEL
+SRGYIGVGSLATRSEIAAELIIAGGTDEQKAKWLPRISSAETLPTAVFTEPNTGSDLGSL
+RTRAVKDGEDYRITGNKTWITHAARTHMMTLLARTDPNTTDYKGLSMFLAEKTPGDDANP
+FPTDGMTGGEIEVLGYRGMKEYELAFDGFHVKGENLLGGEEGKGFKQLMETFESARIQTA
+ARAIGVAQSALDISMQYAIDRKQFGKSLINFPRVSSKLAMMAVEIMVARQLTYFSAFEKD
+EGRRCDVEAGMAKLLGARVAWAAADNGLQIHGGNGFALEYKISRVLCDARILNIFEGAAE
+IQAQVIARRVLG
+>tr|B7RII4|B7RII4_9RHOB
+MNRFILALTASMMTASLATAQVTEADLANDTASTGDVLTNGMGRHLQRFSPLDILNKENV
+KNLVPAWAFSLGGEKQRGQETQPLVHDGIMYITGSYSRIYAIDVKTGQEIWQYDARLPEG
+ILPCCDVVNRGAAIYGDNVYFGTLDARIVALNGKTGDVVWNKKIADYKAGYSYTAAPLIV
+KGMVITGNSGGEFGIVGEVQARDAETGETIWTRPMIEGHMGTLNGAESTMTGTLNATWPG
+DMWKTGGGATWLGGSYDIDTDTLVFGAGNPAPWNSHLRNAGTPVEGNAGDNLYAASRVGI
+DPATGEIKWHFQTTPREGWDYDGVNEVVAYEDRTGNKRFATADRNGFFYVLNREDGKYVS
+AVPFVKDISWASGIDDTGRPIFIEEGRPGDPSAAADGKKGEVVFASPSFLGGKNWMPMAH
+SPKTGLFYVPSNEWGMDIWNEPITYKKGAAYLGSGFTIKPNYEDHIGSLKAIDPDTGETK
+WEYMNDAPLWAGVMTTAGGLVFTGTPEGKFIAFDDETGEELWSFQTGSGIVGQPITWEQD
+GEQYVTVISGWGGAVPLWGGEVAKTVSYLNQGGTLWTFRLPQQLASK
+>tr|B7RJD3|B7RJD3_9RHOB
+MAMTLTLDQILAALEKTDTLDGLQTATEALRTFLGVAHIVYHWVDSAGDQYGCGTYSPEW
+RSRYLDQNYLRVDPVVSGCFQRFHPVDWKRLDWSSKAARALLTEAIDHGVGNQGFTVPIR
+GPNGQFALFTVNDNCTDDAWQAFTQANRRDLILIAHYFNQKALEFEPGRTPEVAQALSPR
+EIDAMTLLAIGYNRAQVADSLSISEHTLRVYIESARFKLGAMNTTHAVARALSRGLIVV
+>tr|B7RNJ1|B7RNJ1_9RHOB
+MAFFKTGDTHGMVEKRGAGLWLTHVVMILGVLVIFFPIWLAFVASTVTQPEIVRPPMPLW
+PGDQFLENYSKALFSGVNVPVTTMLFNSLVMAIGIAVGKIVISLLSAFAIVYFRFPGKIL
+FFWMIFLTLMLPVEVRIVPTYEVVAGFGMLNSYGGLIMPLIASATATFLFRQFFLTIPDE
+LAEAARVDGASPMQFFWDIVVPMSRTNVAALFVILFIYGWNQYLWPLLITTDPEMNTIVM
+GIRQMFPSGDDVAEWPVIMATSILAMIPPVIVVVSMQRLFIRGLVDSEK
+>tr|B7RS78|B7RS78_9RHOB
+MKGVFFDLVKAVVVYSPRKSIQLFCLYLLAAALEGAGIALFIPFFAVMIGGQSVADRPPS
+VLDQWVGTGQTSPWVLVLFCLIFVVMIILRAIVSKNRDDAAFKLSTYFSDLLRVDLLGNL
+AQVRWSFMAGLKQAYVENILITEIVRVKSAVTLMSIALVDVTLLVCYGAILVYLSPVLAV
+LITLAIGVLFLWLRPIMRKARDLGRGVTETGQALHKITSEFLQNLKTAKAQQLEARYVFF
+FEKAVEASQHNSFDFKHRQLSTGVLLQGVMAGVTGLLLLVGTFLTQTPPELLLLILLMLA
+RLTPILQRFNQNVQSIENLLPAFDTLRAFGRDCAEARDGKLPATRCQNLQEGSSHPDCLM
+RFKDVAFAFDPEVPLLRDVNLDVKFGDFVAITGSSGAGKTTLIDLALGLYHPQSGEINHF
+ENTITPVAGRGYLNQISYIPQQTFLANTTIRQNLLWVQDDATDAEIDDALRLSGAMEFVA
+ALPQGLETMVGDRGCRLSGGERQRISLAQALLRRPRLIICDEGLNAISQDNLVPLLANLR
+KADPNMAFIYVTHRLFDTHLMDRVFHISSTSLTEIRSHETRVLKL
+>tr|B7RG96|B7RG96_9RHOB
+MFDLTGKTALVTGASGGIGADIARALHARGATVGLSGTRTEPLEALKAELGDRAHVLPCN
+LSDMEAVEALPKQAAEAMGSVDILVNNAGITRDNLFMRMSDDEWNSVINVNLTATFKLCK
+GVMRGMMKARWGRIVNISSIVGATGNPGQANYAASKAGMVGMSKSLAYEVASRGITVNAV
+APGFITTAMTDKLTDDQKSGIMTQIPAGRMGEPSEIAAAVVYLASAEAAYVTGTTLHVNG
+GMAML
+>tr|B7RFR4|B7RFR4_9RHOB
+MKTFSATPADIDKKWIIVDAEGVVLGRLASIIAMRLRGKHKPSYTPHMDCGDNVIVINAE
+KIQMTGKKREENFYWHTGHPGGIKERTKAQILDGAHPERIVTQAVKRMLPGNRLSRQIMT
+NLRVYAGSDHPHEAQSPEVLDVKSMNSKNTRSA
+>tr|B7RKQ9|B7RKQ9_9RHOB
+MPCISKDIRMNRYPRDFQGYGPTPPDPKWPSGARIAVQFVINYEEGGENNVLHGDAASEA
+FLSEIVGAAPWPGQRHWNMESIYDYGARAGFWRLHRLFTGADIPVTVYGVASALARSPQQ
+VEAMRDADWEIASHGLKWIDYKDHNAEAESADITEAIRLHCEVVGTPPRGWYTGRSSINT
+VALAAETGVFDYISDTYDDDLPYWMQVAGRDQLIIPYTLDCNDMRFATPQGFNSGDQFYA
+YLRDTFDALYAEGCDGAAKMMSVGLHCRLVGRPGRIQALRRFIDYIKGFEGVWTPRRIDI
+ADHWRATHPPQHPLRIDLMDRAAFVQKFGGVFEHSPWIAERAFDLELGPAHNSVAGIHNA
+LARMFRSATHAERMGVLTAHPDLAGKLAAAKRLTAESTDEQASAGLDALTDAERASFEAL
+NAAYVAKYGFPFIIAVKDHDKASILRHFEARLANETATEFTTACAQVERIARLRLETML
+>tr|B7RRM7|B7RRM7_9RHOB
+MNKYEEEFRRETPARSAAAPIAQVAADTAEAYESGTTAERTARARDSAEAQKFREADAAG
+LLIFELPIDTIEPLSMQRDRTVIDKDAMEELEFSINANGLRMPIEVYQLKGSAAGKQYGL
+LSGYRRLIAQQNLYARSGNDKFKTIKAVLRDPDQMGGAFVAMVEENEIRQDLSHYERGRI
+AAIAAQQGAFASTEDAVAQMFAAASKAKRSKIRSFAMIFEELGDMLEFPEGMREKDGLRL
+AGALRSGAEARLREVLETGQGTDAKAEWALIEGVLAEHADKPQDRSRGGRPKAPRDDQWA
+DNDTLNTTTGVTMRREADSDGFLIRFTGKGLSAQMIEAIMIDIRDKLEKP
+>tr|B7RQX0|B7RQX0_9RHOB
+MTLFDLAGKVALLTGASKGMGLAMAKALAEHGATVVISARKQDQLDAAAAEINALGKGKA
+FGVACNVGYKEQLQALVDETHKVAGKIDIVIGNAGVNPYYGPTSEIPDDAYQKTMNANVQ
+SNLWLAQMVAPDMIEKGAGSMAFTSSIGAFKPSVMLGTYGMSKLALIGLVRNLAAEFGPK
+GIRFNAICPGLVRTEFARELWDNPEVEERIKNDIPLRRLGEPEDFAGLAVFLASDASRYM
+TGQALTVCGGSNMWT
+>tr|B7RS92|B7RS92_9RHOB
+MKRSNPTLLDFQAVLILSQERSFRAAADQLGLSPSALSRQITSLEARLGSRLFDRDTRSV
+EITVAGSAFAQIAERIINTAEDGLAEFGSYQSAQRGRLTIAGLPSITASLLPQILRNFTA
+DHPEIDLKIIDALSGSVLDAVDSGQADIGFTAGTVTARSRLAFEPLMEDEFVALGMPDGP
+LAEDRAYGWEELVAMPFIVMETGTSVRELIDGTCQRFGHSLSPRFEVAHLATAGALVSAG
+LGITVLPRLTLAILRSETFVIRDISDFGTRRRIGLVRRSGRTLSPTATAFLKYVRVSSRH
+>tr|B7RL18|B7RL18_9RHOB
+MTRFGAALTSPYGRGLGAGSVLYLGAVRRLGKQIAPQIITSAGDCMLGFGTLAKKVFGTP
+NDRKIKATRPLVEKINALEDEFRALTDEGLIQKTEELRQRALNGESLDNLLPEAFANCRE
+GARRTLGLRAFDTQLMSAIFLHQGNISEQKTGEGKTLTATLAAYLNALTGKGVHIVTVNE
+YLVQRDADWMGKVFASLGLTTGAAVSGMTEEAKRAAYECDVTYATNNELGFDYLRDNMKS
+ELSQIFQKQHNFAIVDEVDSILIDEARTPLIISGPSQDRSDMYKIIDEVIPLLQDDHYEM
+DEKTRNVTLTDEGNEFLEIDLHARGLLEEGQTMYDPESTTLVHHVNQGLRAHKLFQRDKD
+YIVRDGEVMLIDEFTGRMMAGRRMSDGLHQAIEAKENVDIKPENTTLASVTFQNYFRLYD
+KLAGMTGTAETEAEEFMEIYGLGVIVVPTNVPVARVDEDDQVYRSALEKYQAMIEKVKEA
+NAKGQPALVGTTSIEKSEMLSKMLTEAGITHNVLNARQHEQEAQIVADAGKLGAVTIATN
+MAGRGTDIQLGGNVELKVLEALDADPDADPVAIRTKIEAEHADEKAKVIEAGGLYVLASE
+RHESRRIDNQLRGRSGRQGDPGRSSFYLSLEDDLMRIFGSERLEKVLTTLGLKEGEAIIH
+PWVNKSLERAQAKVEGRNFDIRKQLLKFDDVMNDQRKVVFRQRRDIMESADLSEITSDMR
+EQVIDDLIDEYMPPKTYSDQWDGPGFQAAVLAQLNLDAPVAAWCDEEGVDDEVIRERLIE
+ASEAAMAQKAEQFGPENMRNIEKQVLLQAIDGKWREHLLTLEHLRSVVGFRGYAQRDPLN
+EYKNESFQLFETMLDSLRTDVTQKLCQIRPMTEEEQRQMVAQMQAAQASAQNAAAVEPEA
+SAEGFDENDPSTWGNPSRNDECPCGSGKKFKHCHGQMV
+>tr|B7RN93|B7RN93_9RHOB
+MNEHRGRQTKDGIRIYDPSDFAGMHAAGKLAAQILDDVAAHVFVGQTTGAIDGLITQMVE
+DAGAKSATIGYKGYQHASCISINHVVCHGIPGDKKLKDGDILNIDVTVIVDGWFGDTSRM
+YVAGKLPRKAERLLDITHDALMRGIDMVKPGNTFGDIGHAIQSFVEGHRMSVVTDFCGHG
+LGRVFHAPPNVLHYGRPGTGSVLEPGMFFTIEPMVNLGRAETKVLADDWTAVTRDKSLSA
+QFEHSLGVTETGFEIFTLSPAGKFHPTYSQD
+>tr|B7RQV5|B7RQV5_9RHOB
+MMDIRFDNRVAIVTGAGTGLGRSHALGLAARGAKVMVNDLGVTTDGKGASSAAAEAVAQE
+IRDAGGEAMAHGCDVSDEAGVADMVAKVMEAWGRIDIVVNNAGILRDKTFSKMEMSDFRK
+VVDVHLIGSANVTHACWPIMRQQKYGRVVLTSSASGLYGNFGQSNYGAAKAAMMGLMNVL
+HLEGARDNIRVNTLAPTAATRMTADLLPEQAQALLAPETITPGLLYLVSEDGPSRVILGA
+GAGSFAQTRVYETEGVTLTGDDNTPEGVAAAFDKITDADGQQELTDAFSQTKKYALNAAK
+AQGLDLDWS
+>tr|B7RHU3|B7RHU3_9RHOB
+MLLLLAITAPAAMAFGFGGAMAARSRILPLSWLGRGYIAVVRGVPDIAFFLFFVIALDQG
+IEYLRHKIKCPDWDEPLRQGSDFIVCQAAKMPLGNSPQWVHETYGFSLAVLTFAIVFGAF
+AANVLYGAMRAVPRAQLETAEAYGMSPRQTFWRILVPQMWVYALPGLGNLWMVLIKATPL
+LFLLGVEDIVYWARELGGAKTPRFTDYPHPDWRMWYFLALLVFYLCFTRVSEIVLDRVMR
+KLTKGQATSGGEAQRKAIT
+>tr|B7RJN2|B7RJN2_9RHOB
+MNRNLILGGALTAVFVLAAVVSFVWTPFDHTAMDIPNKLQGLGGTHLLGTDHFGRDILSM
+IMVGARTSIAVALVAVGIGMGLGIPLGLWAAARRGSLVDEIIMRGNDLVFAFPSLVIAIL
+ITAIFGASAINAIIAIGIFNIPVFARITRGAALSLWEREFILAARVAGKSAARISVEHIL
+PNVTNLLIVQGTIQFSLGILAEAGLSYVGLGAQPPTPSWGRMLADAQTLVSIAPHMALMP
+GFAIILTVLGLNLMGDGLRDHLDPRLRVARA
+>tr|B7RRB0|B7RRB0_9RHOB
+MAGQFGAFGKIPALGDFLRLNVTAGFVQPWDEWMQAGMLGSREALQESWDDAYLSAPIWR
+FTLPRGVSGSSGMIGIVMASVDRVGRQYPLTIAAPVEVANIALCHFANTAVFEQLEQIAL
+DMLDDHSTRDMLTSALALVNPMPAISSEPAGLPYAGLFPIEHVLAGQALAARVGGTDVIW
+STAMDQDNRLMLTRGLPEGREMRALFDLHSPVWGNEDMAALI
+>tr|B7RJ62|B7RJ62_9RHOB
+MNKFTKGLGACMTAIIVASGAMAEPADDNLVINGDIEIVTRTAAPAHLSDVMDEVMSGWL
+FRGTETRAMESDDFDNPGMIFVEQAEDVWNTADGSEGKSCADCHGASSEMAGVRPVYPKY
+VEAAGEVRTMEMAINDCRENRMGAEKWKYTGGDMVNMTALMASVSRGMPVNVAIDGPAQS
+TWEQGKEIYYTRFGQLELSCANCHEDNYGNMIRADHLSQGQINGFPAYRLKNTKLNAVQD
+RFKGCVRDTRAETFAPGSPEFVALELYVGSRGNGLSVEGPSVRN
+>tr|B7RLI1|B7RLI1_9RHOB
+MNALPPKFTEWFATKGWDIHPHQQDMLDRADAPALLLIAPTGGGKTLAGFLPTLVDLAQG
+DHKGLHTLYISPLKALAADIKRNLTTPVTEMDLPIRIEDRTGDTSQTRKRRQRADPPHIL
+LTTPESLALLTSYEDAPRMFQGLKRVVIDEIHALADSKRGDQLMLALARLQSLCPDLKRV
+GLSATVEDPAAIAHFMARHPDPCPILLADPGPAPDIQMLRTTEAPPWAGAGAAYAIPTVL
+DQIRQHNTTLIFHNTRAQAEIFFHNLWLANDDGLPIGIHHGSLDRTQRERVEAAMVRGDL
+RAIVCTGSLDLGIDWGDVDLVIQIGAPKNVKRLVQRIGRANHRYNAPSKALLVPANRFEV
+VECVAALDAVLAGDLDGDPRGPGPRDVLCQHILITACAGPFDANALFAEVTSAGAYAALT
+RSEFDACLNFCATGGYALRAYDRWQRLLQTDGKWHLRDPRSSQRIRMNIGTIQDTDTLKV
+RMKRNRGGNPLGEIEEGFAATLTAGDTFLIGGQIVKYEGLREMTVEVSRDASKKPRIASF
+MGTKFATSTQLSARVQRMFTKETWPELPPHTAEWLELQRKVSQLPQPGRLLVESFPHDGR
+EQTVIYGFAGRNGQQTLGLLLTKRMEELGLAPLGFVSTDYATLIWGLNAVEDPAALLDPV
+ALNDGLETWLAGNAVMKRTFRASATIAGLIERNTPQARKSGRQATFSSDILYDTLHKYDP
+DHLLLDITREEALRGLVDFGRIEEMLIRIDGRIDHRKLSRVSPLSAPLFLEMGRVPVKGD
+AEERLLAQEAERLMQASGLANITPAPSNKPRWRVGY
+>tr|B7RRB7|B7RRB7_9RHOB
+MSIDLLNRAVWMEGDYASKPVNLKNARVVEGLSFLTETTIEFLSSNDALDLQDILGKTIC
+VGIKDADEKDRFFTGTCTSVEYVGLYQGLSHFVAETRPWLWFLTRRQENRIFQDKTVLDI
+IQQVLGDYGFWTMVEKKTTAKYEKRVYCVQYAETDFDFICRLMEEEGIYYYFVQDGKTLK
+MVLADSISAHKATPGKSEIDFHFKEAKYRRRDDHIFDWSEATGVTTGKITLNDYDFENPK
+ADQKTAKAIAKGDHSHKSYEHYRYPGHSRIAGTGDHLTKVRMEAEAVKHRVSRGAGNVRT
+IGVGQTFKLKEHPRKHNNMEYLLTRAVHHLQIETDYEDQESKKPLFDSTIPVDEDNKDTY
+RVVFDVIPKTEPFRAPQVTPWPKLLGLQTAIVTGPSGEEIHTDKYGRIKVQFYWDRVGKK
+NELSTCWVRCVMPWTGKAWGMISIPRIGQEVAIQFEEGDPDRPICTGMLYNGDTMPPYGL
+PANMTQTGIKTRSSKTGGEQNYNELVFEDKKDAEFIRLHSEKDYFQTIENNAEIKIGLDK
+MDPGDLTQTIYHTKTETIKTGDHIFKVETGNQSIFIKTDHTETIEGKSTETITGDTATTI
+KTGNYTQTISTGNVTREVSKGNEDVTVSMGDYTLDTSAGSVIITAATKISLTVGGNSITI
+SQSGIEISGTMVTVEGKATAEMSSPATTVSGSGMLTLEGGVVMIN
+>tr|B7RHX5|B7RHX5_9RHOB
+MSGRQFHAIRLLNLEKDVPMLRSIFYATALAALVSAPVFAQDLATPTGDVLLTVSGLVEN
+TNVDGTAQFDLEMLEALDGEEIETSTIWTEGTHTFKGVSLYVLVDALGITGENLRATAIN
+DYAVDIPISDAVENGPIIAYRMDGETMSVRDKGPLWIIYPYDDDADYRSEVIYSRSIWQL
+DRVEALE
+>tr|B7RJW7|B7RJW7_9RHOB
+MTVRKIVPWPNTCLRTAAAEVPEITDDIRALWDDMIATMDAMPGVGLAAPQIGVMLQVAV
+VDASQARNKRIRLANPVILDASAILNEHDEASPNLPGVSAKVKRPRGVTVRYLDETGVVT
+RRDFVGLEATSVQHQIDHLAGKMYFDNLSKTRRDMLLRKARKFKG
+>tr|B7RQE9|B7RQE9_9RHOB
+MARYNSWQNDQLMPVLLDMPTAELTMDRGAFFGSILGTANYLLCGDMLWLSRFDPSVQPP
+FEAFDKWPKFHKDARAWAADRHRIDGKIRHWAEALRELDLLGDLQCVPASGGKACTVPRG
+IAVIQLFNHQTHHRGQIHAMVTAAGQEAPVSDIVYMPETT
+>tr|B7RFP8|B7RFP8_9RHOB
+MPTPPYVIDEMISAKAIAARIEELCREIQTEFEGTNKLTVVGLLRGSFVFIADLVRELDL
+PIEVDFLEASSYGDGMESSREVRILKDLRGAIEGRDVLVVEDIVDTGHTLHHVRNLLISR
+EPARLKTIALLDKPSRREVDMKADWTGFEIPDEFVVGYGIDFAQRNRNLPYIGKVRFTS
+>tr|B7RMR5|B7RMR5_9RHOB
+MSRIVYLNGQWLPEDEAKVSIFDRAFLMGDAIYEVTCVLDGALLDYEGHAARLRRSAREL
+RLTLPLDEDALLQAHHEIVARNKMQSGMIYLQLSRGVAERDFAFPPADTPPTLVMFTQAK
+DVLANRAADTGISVALLPDLRWGRRDIKTVQLLYPSMAKMEARDRGADDAWLYEDGFVTE
+ASAATAHIVTADGHLVTRDLSHALLAGVTRAAVLSLAQTHGITVQERAFTPDESRAAREA
+FITSATNFVVPVVRIDNQVIGDGTPGALTRDLRTQYIATRRAAALAPA
+>tr|B7RJE8|B7RJE8_9RHOB
+MARPKIALIGAGQIGGTLAHLAAIKELGDVVLFDIAEGVPQGKALDIAESGPSAKFDATM
+SGANDYADIAGADVCIVTAGVARKPGMSRDDLLGINLKVMKSVGEGIAAHAPNAFVICIT
+NPLDAMVWALREFSGLPHHMVCGMAGVLDSARFRHFLATEFNVSMKDVTAFVLGGHGDTM
+VPLTRYSTVAGIPLPDLVKMGWTSQEKLDAIVQRTRDGGAEIVGLLKTGSAFYAPATSAI
+EMAEAYLKDQKRVLPCAAYVDGAYGLDGFYVGVPTVIGAGGVERVVEISMDKEEQAMFDN
+SVNAVKGLVDACKGIDGSLS
+>tr|B7RPJ3|B7RPJ3_9RHOB
+MITLHHVPQSRSMRTLWLLHELDVPFEVVQHPFDKSLRDPAYLALSPAGRVPSLEIDGEA
+MFETGAIAEYLCERFSPEGLGRMPGTPERKDWLVWMHFAETVSQHCAALTQQHVALRDDT
+MRSPIVMKLEAARIMKCYDALEARLEGQDYLLSSGFTAADIGVGQAVYMGQFFAKTDQHP
+RVAAWFGRISGREGFVKALPAGVSLFEQSFFEPWPVI
+>tr|B7RIA0|B7RIA0_9RHOB
+MGIKSPNPFWLASAPPTDKEYNVRRAFEAGWGGVVWKTLGIDPPVVNVNGPRYGAIYGAD
+RRLLGLNNIELITDRPLAQNLQEIKSVKRDYPDRAMVVSLMVPCEEEPWKYILPLVEETG
+ADGVELNFGCPHGMSERGMGAAVGQVPEYIEMVTRWVKASTRMPVIVKLTPNIADIRKPA
+EAALRGGADAVSLINTINSITSVDLDLFAPEPTIDGKGAHGGYCGPAVKPIALNMVAEIA
+RDPGLSQVPISGIGGVTTWRDAAEFMALGAGNVQVCTAVMTYGFKIVQEMISGLSEYLDD
+KGMTSVDQLVRRAVPNVTDWNQLNLNYVAKAKINEDLCISCGRCFAACEDTSHQAIAMSE
+DRTFSVIDAECVACNLCVNVCPVENCITMETMAPGTTDPRTGKVVEKEYANWTTHPNNPA
+ATAAE
+>tr|B7RQC2|B7RQC2_9RHOB
+MSFDTAGRTMMGMTSEAMVDMVHALDNMPLAYGANCGTGASDVLRTVLGFASKGKSTPIV
+SKGNAGIPKYVEGHIHYDGTPELMADYAEMARNCGASIIGGCCGTMPEHLVHMREALDSR
+PKGDAPTLEQIVEALGAFSSASDGTDGEGPVRGPRRGRRGAKPV
+>tr|B7RSH8|B7RSH8_9RHOB
+MDRDKKTSDGRDFNRINPKGYTPALELEDGTILTESLAILMYIAEYSGKLLAKEGDARWR
+TVEATEFMTTELHANFRPFFSAGSGEDEKNKAKEMLARRFATLESQLGENQYLIGKDLTI
+ADAYLFVMLSWARMMGIDVPERLGTYATNLLNVPSVTVALSAEGLA
+>tr|B7RGJ1|B7RGJ1_9RHOB
+MLAFIAKRLIQSALILLGVSFITFALLYLLPADPVRQIAGRSATPETVANIRAQLGLDQP
+FIVQYARYLGNLVQGDLGRSYLQKTEVSTLIASRLPASLLLMLGAIVCELVLGLTMGVVA
+ALRRGTTTDNALMIASFVGVSAPQFVVGLLMLYVFAVQLHWFPIGGYGTFAHLVLPAITL
+GVLGSGWYSRMMRSSMIDVLRQDFIRTARAKGLGRMRVLLRHALPNAILPIIAMIGIDVG
+IFMGGIVVVESVFGWPGIGQLAWQAIQRVDIPIIMGVTLVSACAIVIGNLVADIASLFAD
+PRIKVR
+>tr|B7RNW4|B7RNW4_9RHOB
+MTSPAVSFEVFPPKSVDASFRLWDTAQALAPLAPRFFSVTYGAGGSTRDLTHDSAHVLRR
+TSGLPVAAHLTCVGASKAETMDVANSFAEIGVTDIVALRGDPENGAKVFTPHPDGFADSV
+ELIEALAATGKFTLRIGAYPEPHPESADQAQNIEWLKRKFDAGADEAITQFFFDADTFLR
+FRDDCAAAGITKTITPGIMPITNWKSARGFASRCGTSVPTWLDDAFETAIRDDRHDLLST
+ALCTEMCSKLVDEGVENLHFYTLNRPEMTRSVCRALGVTAQTSLADVA
+>tr|B7RGD7|B7RGD7_9RHOB
+MSHKVIQPEGWAPAKGYANGMLSADGHLFVGGQIGWTADQKFEAHDFIGQMKQALLNIRT
+VVEAAGGVPEDIMRLTWYVTDKAEYVAAQADVGRAYREVMGRHFPAMAMVVVAGLIEDEA
+KVEIEATAVISKP
+>tr|B7RLM2|B7RLM2_9RHOB
+METEYSPPQDPLVILHEDAEVLLVDKPAGLLSVPGKGPHLADCLIARVQAVFPDALLVHR
+LDRDTSGVMIFALTPYAQRHLGLQFEKRMTRKTYVARVWGVPTENSGTIDLPLIVDWPNR
+PLQMVCHETGKSAQTDWRLLKNEGDTARVRLSPKTGRSHQLRVHMLSLGHPILGDPFYAT
+GPALNYPRMMLHSEELRFNHPQGGHSTKVRSKAPF
+>tr|B7RPH5|B7RPH5_9RHOB
+MTPAVAVPEATDVKETELAPVVTAPPPPPAARTAEALDTTTPEQRAAAAQPAEQGAQSLG
+TTVASLGSATEPGLWMKTPLVKSEIQGRVVNPATGKSSTVRLIPLDGPKTAGSRMSLSAL
+RLIGASLTDLTPVEVSTGG
+>tr|B7RH59|B7RH59_9RHOB
+MSVAFSKKGPQMSDIVNEAVTVLNGKLAGADFDGTAKFDIEGEGCVMMDSTGARAGDEPA
+DVTLSADVDTFQAILAGETNPTSAFMTGKLKIDGDMGMAMKLASVLA
+>tr|B7RKY9|B7RKY9_9RHOB
+MFRFFENLVDPYVDYPEQDTPPTGLWPFFRDYSKPFKKVFILTGIMSIVVAFIEIGLIYY
+MGRLVDLLDGSPADVWDSYGTEFILVALFILILRPAFQALDVLLLNNAIMPNYGTLFRWR
+AHRQVLRQSVGWFEDDFAGRIANRIMQTPPAAGEVVFQVFDAISYSLAYLIGAAILLSTS
+DWRLLVPLFAWFGLYALLMKWMIKRVGAASKASSDARSEVTGRVVDSYTNIHSVKMFAHH
+DSEIEYARTAIEKARNTFQKEMRIFTVMDVTLVVLNGFLIVGVVGWAFFLWTSGHATVGA
+VTAAAALTLRLNSMTAWIMWALSTFFQQLGVVSEGMETIAQPVTLIDDAGAKPLQLTDGQ
+IDMQGLTHHYGRASGGLDRVNLTVRPGEKIGLIGRSGAGKSTLVKLLLRFYDPEGGHILI
+DGQDITKLRQDSLRQRIGMVQQDSALLHRSIRENILYGRPDATEAEVIAAAKQAQAHGFI
+MDLADPDGRSGYDAQVGERGVKLSGGQRQRIALARVILKNAPILLLDEATSALDSEVEAA
+IQETLYGMMAGKTVIAIAHRLSTIAEMDRILVMDQGRIVEEGTHEMLLEKGGLYAGFWAR
+QSGGFLKTEDDET
+>tr|B7RFP0|B7RFP0_9RHOB
+MMDIENDTIFSSLPVPAVLIGPDDKILDMNPEAEGFLNASAKYAKGMPVWDMIAVDAPLE
+EAFARARENGTPLFVNDVDVGSGQRAPLQCALHLAALTGTDGDMIMMITPRELAGRMTQN
+NSVKSAAKSAIGMAEMLAHEIKNPLAGITGAAQLLSMNLNAEDLELTDLIVAESRRIVKL
+LEQVEQFGNLMPPERTSMNLHDVLDRARRSALLGFGARMRIIEDYDPSLPHALGDKDQLL
+QVILNLLKNASEAAGDQGGTIRLHSYYEHSFRMRRSDGTGQSLPLQIEVIDDGPGLPEGI
+RADIFEPFVSGRENGTGLGLALVSKIISDHDGWISVNSVPGKTVFRISLPRADTAQMGAA
+QIAPLAPQQER
+>tr|B7RSA4|B7RSA4_9RHOB
+MTQQRKLILVSLWGAALLALLAFSWFRVFDPQLQETAADQLGQGDYQLVTTDKAAFSKET
+LTGTPSAVFFGFTHCPEVCPTTLGDVAGWQEALAEDGETLRVFFITVDPERDTPEMLEDY
+VSWVPGVTGVSGSKAEIDKAIQAFRVYAQRVPLKDGGYTMDHSAFVLLFDEHGRFDQPIA
+YQEGFDSAMGKIRRLVAG
+>tr|B7RMW3|B7RMW3_9RHOB
+MPNLKDLKNRIASVKNTRKITKAMQMVAAAKLRRAQEAAEQSRPYTERFNAVMSRLAASV
+GGSDSAPKLLSGTGENKVHLLVVMTAERGLCGGFNANIAKLAKVHARRLISEGKEVKILT
+VGKKGRDSIRRDFAKNLVGHVDLTDVKRLGYADAQGIAKDVLGRFDAGEFDVATIFYAKF
+VNVVSQTPTAQQIIPASFDTEEAKDEASTLFDYEPSEEAILADLLPRGVATAIFSALLEN
+AASEQGARMSAMDNATRNAGDMIEDLTIEYNRSRQAVITNELIEIISGAEAL
+>tr|B7RJB2|B7RJB2_9RHOB
+MSTNPPNLRPDLAPQAKISTPSRPGQPTIGMVSLGCPKALVDSERILTRLRAEGYGVSPD
+YAGADAVIVNTCGFLDSAKAESLDAIGEALKENGRVIVTGCLGAEPDYIREHHPRILAVT
+GPHQYEQVLDAVHAAVPPSPDPFIDLLPAQAVSLTPRHYSYLKISEGCNHKCKFCIIPDM
+RGRLQSRPAHAILREAEKLVQGGVKELLVISQDTSAYGVDIKHAEDRGHRAHITDLARDL
+GSLGAWVRLHYVYPYPHVRNLIPLMADGLVLPYLDIPFQHAHPDVLKRMARPAAAAKTLD
+EIAAWRDTCPDITLRSTFIVGYPGETEAEFQTLLDWLDEAQLDRVGCFQYENVDGARSNA
+LPDHVPDEVKQDRWNRFMEKAQAISEAKLEAKVGRRMDVIIDEIDGDAATCRTKADAPEI
+DGNLFIDEGFEGLSVGDIVTVEVEEAGEYDLWGRVV
+>tr|B7RHL4|B7RHL4_9RHOB
+MIRIFAATIALILTTLPGHAFETRASAAYVIDQTTGTVLLAKNADDPLPPASMSKLMTLY
+MAFEAVERGKSNGGLDLTEELPVSQHAMSYGGSTMFLDTTDRVKVEDLLRGIIVLSGNDA
+CAVIAEALSPDGTEAGFARLMTRRAQQIGMTNSTFANSNGWPAAGHRMSMRDLGLVAMRL
+ITDFPQYYPLFSQREFLFDGRAPQNKANRNPLLGLGIGADGLKTGHTQEAGYGLVGSAKQ
+GDRRVIFVISGLETAAERAQESEAIVNWAFRQFAQREMGSAGTQIAQAPVALGAQTAVGL
+ELANDLSVLIPVSGGSEINAEVVYTGPLRAPILKGDPIGELVLTRGDLPEVRAPLVASDS
+VAPGGFFVKLQAAALHLLDRLNAGPEAAS
+>tr|B7RQK6|B7RQK6_9RHOB
+MEHILKGKTALVTAAANGIGRASAEALAARGAHVIATDIDGAAVEALAQTSPNITAHQLD
+VLDPQAVAALVASVPPVHILLNCAGWVHDGTILDCDEVVWDRAFDLNAKAMFRITKAILP
+GMLEAGSGSIINIASIVSSEKGAPRRFAYGASKAAIIGMTKAIAADFVKDGIRCNAICPG
+TVQSPSLNDRLTATGDFDKALAAFKERQPMGRLGQPEEIAEMVCYLAGDMSGFTTGQAFA
+IDGGWSI
+>tr|B7RQY4|B7RQY4_9RHOB
+MSYITATTLEDALYALAAGPASVIAGGTDWFPAQGDHHFDGTLIDISRLAELRGVSRTDK
+GWRIGAATTWTDIIKADLPAAFDGLKLAAREVGSVQIQNTGTIAGNLCNASPAADGVPPL
+LTLNATVELSSTDGTRQMPISAFLQGVRKTDRAAHEILTAIHIPDLPAESKGSFVKLGAR
+KYLVISICMVAVLVTIEAGLVSDIRIGIGAASPVAQRMTALEDALRGLPVTDLPDVVTDD
+LILGLTPISDVRASADYRQTAASHVIRRAIAQALEGAA
+>tr|B7RKD0|B7RKD0_9RHOB
+MLYDIRLTIAHRYAGSAGNGRHLLRVLPRPLTGRQRVTAHLVDVTPLPDQRHDSVDFFGN
+AVTTVTHLEAHSKMSIRMSSRVEITAPVAFSGPHLGLGDLHRSLTVHNALDAASPLHFLG
+PSPRLHPNADIAEFARMNCDPTATVTRIVAQLGEALHRLITFDSTATTVDTDAAEAFAQR
+RGVCQDLSHIMILALQSLGIPAGYVSGYLRTLPPPGGVRLEGVDAMHAWVQAWCGPDQGW
+VEYDPTNATFVGTDHIVVAYGRDYSDVSPVIGYLRSSGKQTNSQSVDVACAD
+>tr|B7RKI3|B7RKI3_9RHOB
+MTTACMIVIGHVDHGKTALVRALTGIETDRLAQEKQRGLSITLGFAHCVLPSGTLDLIDA
+PGHEDFIRAMVSGATGASGAMLVVSAAEGVAPQTVEHLRIAGLLGVPIALVAVTKADLVP
+VSAMVDRLDAIAAALTELGLAGVPVIACSALQTGGMEALTKELDAVLQTLPKGMSPGAAF
+LPIDRVFSLPGMGTVVTGTLLGGALTLDDPMVLHPEARPVAVRGLQSRGQACDAVAPGER
+VAVNLRGIAVDGIARGDVLCGAAAFAPSDCLDVCLSLLPDAKRPLKHMQDIRVLFGTAHA
+VATVRLMGGGQIAPGGTGFAQLRFGQRVVAFAGQTAILRSLSPAVTLGGCSILDPQALPV
+KSGDTAHLGVMQAGWAQDAGQIILALCKKGRGAARISDIVRIGRQSVEMVQADLPAGFTV
+VEGGWVIQDKALETVQGEMRARLTDFHAAQPVRQWAPQAVVQDRTVSEVVLKHAENGLIA
+DGVLRRQDDHIALAAHDPWALLTDAQRTRLDHMEGRIRHGAVTPPDIATVLDAPDDADLL
+ALLTGTGRVVAMVNVGLNQRLVFHADALARAARDLTAAFPPATRFTTGQARAALATTRKF
+IVPVLEHFDAQGITFRSDDTRQMAPPAQ
+>tr|B7RFT7|B7RFT7_9RHOB
+MRRISIFGATGSIGQNTIDLIARAPDAYNVVALTGAGNIAQLAQDARRLGADIAVTAHDH
+LLDDLREALHGSGIDCAAGTDAIREAATRPVDWVMSAIVGAAGLAPGIEALKQGATLALA
+NKESLVCAGSLMLHTAQAHGAAILPVDSEHSAVFQALIGEDMAAVERIIITASGGAFRDW
+PLEKLADATLEQASSHPNWDMGQRITIDSASMFNKAMEVIETREYFGIYPSQIEVLVHPQ
+SMIHALVGFNDGALMAHIGPPDMRHAIGFALHHPQRRTLPVERLDLAKIGSFEFRAPDEA
+RWPALRLAREVMARGGMAGAVFNAAKEVALDGFIDGHLRFPQMAQVVEDTLEQLNSDNNV
+IDATMTLDNVAQVDHLARQAAKAVIKKRAG
+>tr|B7RMD3|B7RMD3_9RHOB
+MKKRFGIFENSGTNTKGRPMKPKAVVFDIGNVLIEWQPERFFDSVIGETRRREMFAQVDL
+HGMNDRVDSGENFTDTIYATADAYPAWRDEIRMWHDRWIEMAAPVIPHSLRLMKALQTNG
+IPVFSLTNFGIQSYDLAARHYPFLREFDRDFISGHLSMIKPVPAIYEALEDQTGVTPSDL
+IFTDDRADNIAAAKARGWRTHLFEGPEGWAARLVSEGLLSAEDAA
+>tr|B7RKD3|B7RKD3_9RHOB
+MRKTFISENPSILWFIGLLGLFTLAVVVGSEATGTGLISTSMVKTLGKTLCLCLIAIAMD
+VVWGYCGILSLGHFAFFGIGGYAIGMWLMYARTEIIVLNSLEGQIIPPTSQEVTDAIGNQ
+IFGVVGSSEFPWLWALSDSLFLQLLMVALVPGLLALVFGWLAFRSRVTGVYLSILTQAMT
+LALSLWLFQNDSGLRGNNGLSGLQNIPGFEQTPQAVISLVFFLGSALALALGYLLFAWVV
+SGKMGSVVQGIRDNEARVRFLGYRVESYKLFIFTLTAVVSGIAGALYYPQAGIINPAELA
+TIASIYLAVWVAIGGRGRLYGAVIGAAFVSLLSSWFTGGGAPAIDLGFYTILWTDWWLVL
+LGVSFVCVTLFFPKGIGGLFDYLIRKPS
+>tr|B7RL16|B7RL16_9RHOB
+MGKALAVSPLAPAQFPDLPVIDGVRFATIAAGVKYQGRTDVMLAELAPGSTIAGAFTRSA
+TRAAPVLDCQAKIGGTSDAGAAILVNSGNANAFTGKGGVAAVEAITAAVADVCGVPQSRV
+FTSSTGVIGEPLPHDRITAVLSDLRGKLTVSGISDAAKAIMTTDTFPKGAKAEVTIDGKK
+VSIAGIAKGSGMIAPDMATMLVYIFTDAVVSQPALQAMLSKHTDSTFNCITVDSDTSTSD
+SLIMAATGASSVDASESNAFSDALHAVMLDLAHQVVQDGEGATKFVEIAVTGAATDADAK
+THAMAIANSPLIKTAIAGEDPNWGRVVMAIGKSGAAADRDRLSIRFGDVEVAKDGWRSPS
+YSETAAAAHMKGQNIVIGVDLGLGNGKATVWACDLTHGYIEINADYRS
+>tr|B7RK32|B7RK32_9RHOB
+MSISRRGFTIGLAALGLSACDSAGRGQVFASRSDGALPDDLRPQSNGAYDAWVAAFKPRA
+RAQGISDSTLRRGFAGAGYLPGVVKRDRNQTEFSRTLEDYLAIAASEERVSKGRAAFARH
+RDTLRQIEARYGVAAEVVTAVWGLESFYGERRGNVPVISATSTLAFDGRRGAFFEKQLIA
+ALKILERGDVSASGLTGSWAGAMGHTQFIPTSYQAFAVDFNGDGRRDIWSENPADSLAST
+AAYLAKSGWQSGQKWGGEMGTPAAGSATPVSVLQPDAGGPRFAVFRNFQAIKRYNNSDNY
+AIGVGHLSDRIAGGGPIQAKFGPDRYGLTIDDRKALQQRLTARGFDTDGTDGVIGPNSRK
+AIAAYQQSVGLSATGDPSRALLDRLS
+>tr|B7RMU4|B7RMU4_9RHOB
+MQTTFTPEQLKSPAIQRSNEILRACVHCGFCTATCPTYQVLGDELDSPRGRIYLIKDMLE
+NDRDPDAKTVKHIDRCLSCLACMTTCPSGVHYMHLVDHARDYIEQRYKRPFSDRALRWVL
+ARILPYPMRFRVALLGAKIGRPFARFMPDARLRAMIEMAPKTIPPVSRNDDPQSFAPQGA
+RKKRVALMTGCAQKALNTDINDATIRLLTRMGCEVVVAEGAGCCGALTHHMGKTTESHAT
+AAKNIKAWCAEMDGQGLDAIVINTSGCGTTVKDYGHMFRNDPLAADAARVSAIARDVSEV
+LIDLGDPEEGSMARQPAKDDIAGTDALEPRKPEHHGMVVAYHAACSLQHGQQIKTFPKDL
+LKNAGFTVVEPADSHLCCGSAGTYNLMQPEISKQLKDRKIKTLQAKNPDVIAAGNIGCMM
+QIGSAAGIPVVHTVELLDWASGGPKPPSLSAEIGAKPPIPMLR
+>tr|B7RNB8|B7RNB8_9RHOB
+MNILPLIADSVPELEAIFRDLHTHPEIGFTETRTSAIVADHLRSFGVDEVHTGLGKTGVV
+ALIEGKGQGNRRIGLRADMDALPIHETTGLDYGSVNAGVMHACGHDGHTTMLLGAAKHLA
+ATRDFDGTAVIVFQPAEEGLGGARQMLADGLFELFPCDEIYGMHNVPNGQPGKVGICKGE
+AMAGAAFFDIEVKGQGSHAAQPQNSKDALMIAASLATELQTILSRNMAPLEVCVLSITQI
+HAGAAYNVVPQTATLAGTIRYFKDEIYELAAGRMQAICAGMALAHEVEITCELRDVFDVL
+INDHDLSDAYMEAAADIVGADNLNYKTVPATGSEDFADMLKVVPGAYCTVGHAGTVALHN
+PGFVLDTSILPVGASIMARIVERRLAL
+>tr|B7RQI2|B7RQI2_9RHOB
+MDRGDILSGDAFAAVLRSALVFIVVLVVFGWVTLIYVERSLIAELGDDVQHRWDILAAEH
+ESEGQDHVVEAITNLSQRIKSAHHAVALFDEGDTLLVGNIQTIPNGTGLQIGPLDHAAAS
+PEDFTKEYIHFTGYLNDRKLTVGLRLDLLYRTQVLVFRTLMLSGFIVVLTMLAFGYFLSA
+KSLRRLKEIETALSLTSEGASDVRISEHGGSTQIDRIARQMNEHFDRLSRMIATTRNTAA
+ATAHDLKSPLGRAYLALERATSLAERNEDPTDALADTQSELENMRVIFESYLQLSRIEAA
+GTENLTTRVDLRELAIDMVDTFAPIAEDAGQTAQIEVEEGQDFVVMGDGQMLQQLMANLL
+ENAVTHGPEGNVISVQLSRAGTQIFLTVADRGAGIPDASKERAFEPFHRLDPSRSKPGSG
+LGLALVRAIVEKHRGSVALKDNHPGLIVEVSLPAFADKDGRQDHM
+>tr|B7RFX0|B7RFX0_9RHOB
+MDDKGQDMTVSNAIVIGAGIGGLAAAAALARRGMAVTLLEQAPVVSEVGAGLQISPNGMA
+VLRAMGLEAKLKERSAVRGQAVVLNDYKAGRQVARLDLMRGQADYPYMFVHRADLIDVLF
+GAAKRGNVSVELGAQVEKVVPGGPPTLLLADHARRRAELIVDAGGIHSKTRATLNGDDAA
+QFSGQVAWRALIPNRFDHPAEAHVTMGPGRHLVSYPLRGGKLINLVAVEERDTWAPEGWS
+IADNPANLRRAFGAFGGRAADMIAAVDHCTLWGLHHHPVASVWQQNGVALLGDAAHPTLP
+FLAQGANMALEDAWVLASCVLNQPIDQALRRYQSIREARVRRVIKTAAGNAARYHLHPGM
+TRTAAHLGLRLASRLAPGAMIGAFNWLYHHDVTTP
+>tr|B7RH88|B7RH88_9RHOB
+MAFVWRNLRYVAARVLRTDLMSNDPLVVFTPSGKRGHFPKGTPVLTAARQLGVDLDSVCG
+GRGICSKCQVSPGYGKFSKHGVTVQDDALSEWNSVEQRYKDKRGLIDGRRLGCQAQIMGD
+VVIDVPAESQVHKQVVRKRAEARDIVLNPSTKLFYVEVQEPDMHDPSGDLERLCIALKEQ
+WELENVKADLQILQVIQKVLRKGGWKVTVAVHLGDDENPPRIMHLWPGFYEGTVYGLAVD
+LGSTTIAAHLCDLQSGEVIASSGVMNPQIRFGEDLMSRVSYSMMNEGGAEEMTRAVRAGM
+NTLFDEICAEGGIDKGLIVDAVFVCNPVMHHLFLGIDPFELGQAPFALATSNALRMRAVE
+LDLTIHPSARIYFLPCIAGHVGADAAAVALSEAPDKSDDLVLIVDVGTNAEILLGNREKV
+LACSSPTGPAFEGAQISSGQRAAPGAIERVEIDPVTKVARFKVIGSELWSDDPGFDAEIG
+ASGVTGICGSGIIEMVAEMRIHGIVDAPGLIGTAEQTGSPMVFADGRTNSYLVYDGTANG
+GPKITVTNRDIREIQMAKAALYSGARLLMDKFGVDKVDRIVLAGAFGAHISTKHAMVLGM
+IPDAPLDKVTSAGNAAGTGARIALLNSSTRAEIEETVRNIHKIETAIEPRFQEHFVNASA
+IPNAVEPFPILNSIVTLPTATFNTGGSGGDGAGGGRRRRRG
+>tr|B7RN62|B7RN62_9RHOB
+MKLQDLEVIVTAPPAPGWGGRYWILVKVTTDTGIVGWGECYASSVGPEAMRAVIADVFDR
+HMHGENPENIELMFRRVYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALMGGR
+MNERVRAYTYLYPLPHHDISAFWTSPEMAAESAVDCVARGFTAIKFDPAGPYTMRGGHMP
+AMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYGPLWYEEPIPPD
+AVEQMAAVARAVRIPIATGERLTTKAEFAPVLRAGAAAILQPALGRAGGIWETKKIAAMA
+EVYNAQIAPHLYAGPVEWAANVHLAVSIPNILMCECIETPFHDQLIKGAIRVEDGYISAP
+TAPGLGIEVDEALARSHPYNGRYLHLQMQEAPCDYVNGNAFEGGAPTVKR
+>tr|B7RQN5|B7RQN5_9RHOB
+MAALKLSSADMVQAARARIKEIETPDLIAMLDDPDVVIVDLRDIRERQRSGYIPGSFHAP
+RGMIEFWVDPDSPYFKEIFAEDKTFVFHCASGWRSAITTATLQDMGFEAAHLREGFSTWE
+KHGGPVEFPEKKD
+>tr|B7RHF2|B7RHF2_9RHOB
+MKFGKVPTADALGALLAHSVALPQGRLRKGVVLDADHLAQLRAAGIDAVTVARLAATDVD
+ENTAAARLAQALLADHPHLSQTKAFTGRVNLLADGPGVAVLDVAALEAVNAVHPMITLAT
+VPPFQQMRAGGMVATIKIISYGVDEGDLIRACDAGRGGIRLADPQLPDATLIITEIDGGA
+GDKGRKAIADRLAALRVTLKDVVMVGHDVSALSQAIAAADTSLILILTGSATSDIDDVAP
+SALRAAGGQVARFGMPVDPGNLLFLGTLGARQVIGLPGCARSPALNGADWVLSRIVCGIA
+VTPGDIAGMGVGGLLKEIATRPQPRRG
+>tr|B7RQI5|B7RQI5_9RHOB
+MLEARSFSSLRPGVSAVIAGEVPCWAEGAVICKTDLARFRRLYIERLLEGERGELDELDR
+QVIASLELDRPISQNTEEVLSERISFGERLADKVSEFGGSWTFIVGFLVLLVAWMTTNAL
+LLGAKPFDPYPFILLNLLLSCVAAFQAPIIMMSQRRKDAKDRLRAENDYRVNLKSELEIR
+LLHEKIDHQLAHQWKRLAELQQIQIDLLEEAVNDRR
+>tr|B7RQU4|B7RQU4_9RHOB
+MTLKNPETLLRSLFDRAVEVADPMQSLARFLPPKPAGRVVVVGAGKASARMAEAVEAEWG
+PCEGLVITRYGYARPCQGIEIVEAAHPVPDAAGQDATLRMLALLQGFEDGDFVLALISGG
+ASALLVAPLGDITLAEKQAVNAALLASGAPIQQMNVIRKHLSRVKGGQLAAAAYPAQMLA
+LMISDVPGDDMAMIGSGPTVGDVTTTADACAILERWQITPPASVAAALAKGSQVIAPEDQ
+RLTQVKNQIYAAPAQSLDAAEALAVAEGLTVIRLGNDVEGEARHVAQEHAALALAVQAEL
+GPNDPPVVLLSGGELTVTRRGDGIGGPNAEYCLALALALDRAPQIWALACDTDGVDGAAE
+VAGAIVTPDTLQRAELAGTDPVRALAENDAHGFFGRIDSQVVTGPTLTNVNDFRAIIVQP
+KTSMT
+>tr|B7RR46|B7RR46_9RHOB
+MTQSDDLLTHLNFEQLTVRIMSQPHVLIAGGGIGGLALALTLDQIGVRSTVFESVRDLKP
+LGVGINIQPNAIRELFDLGITADDLDAVGLPAREWALVGQQGQEIYAEPRGTDAGYNWPQ
+YAAHRGKLHMMLHDKLIERAGPAAVQLGAKVTGYTKNGGGSVSAVVSRADGSESTETGTL
+LVGADGIHSAIRAQMHPDQPPIHWGGALMWRGTTRAKPIRTGSSFIGLGTHRQRMVIYPI
+SQPDADGFADINWIAEVTFDETEERKSGWYKPAKVSDFIHHFEGWTYDWLDVPALLNGAE
+VAYENPMIDRDPVPTWVDGPVALMGDAAHAMYPTGSNGASQAIIDARTIGAMMLDHGVTV
+EALKAYDDALCAPVSELVLRNRGAGPFGLLSMVNDICGGTFDNIDDVIPAAERDAFMARY
+KAAAGFAIEKLNAASPTIAPGSKISG
+>tr|B7RG54|B7RG54_9RHOB
+MRSFRQVLGGITAMDFALSEEQTAIFDMAYGFGQEHIAPFARQWEKDETIPKDLWPKIAE
+LGFGGLYVSEDAGGSGLTRLDATLVFEALSMACPSVAAFLSIHNMCAKMLDSFASDELKA
+RIMDDVLSMNTVLSYCLTEPGSGSDAAALKTKCDRTNDGYILNGTKSFISGGGYSDAYVA
+MVRTSDNGSAGVSTVYVEDGTDGLSFGGLEDKMGWRSQPTAQVQFDNCTIPAGNLVGEEG
+KGFKYAMMGLDGGRLNIAACSLGAAQTALTSTLDYMGDRKAFGQSIDQFQGLQWRLADME
+IELQAARTFLRQAAWKLDNGAPDATKFCAMAKKFVTEAGSKIVDQCLQLHGGYGYLADYG
+IEKLVRDLRVHQILEGTNEIMRVIVARDMLKNR
+>tr|B7RHR1|B7RHR1_9RHOB
+MSTYILHYAPDNASLIIRLALEASGQPYRAVLVDRATSAQTSDAYLALNPHGLIPVLECP
+DGAIFETGAILLWLADRQGGLAPETDSPERADFLKWLFFISNTVHPALRMTFYPEKYAGA
+DPAHQAALRSTMQAALSRHLKSLDERAAKGPFDMAIQFYLAALLRWCVLYPVQKDHDWFD
+LDDLPHLKAMCLSLETLPCTIAAQEAEGLGPTPFSAPRYATPPQGSAT
+>tr|B7RK11|B7RK11_9RHOB
+MRTLLIGLLLATPAVAQDQASRAVGLAAWEDIFAVASHPRCTNCHVGDDGVPMWNELGYG
+ADAAHGMYVHAGESRVGAETMPCRTCHISKISDNATPHAPPMIDDAWRLPPPELAWLGKS
+SEEVCAQLRNPDTNDGFAMDGLATHLETSAFVAWGFAPGAGRSAPPGTLDDMIAALDIWA
+AAGTPCADDP
+>tr|B7RN98|B7RN98_9RHOB
+MIWRAGLVWLICTGTAGAVDLSLPPAARQTVERNTGPDSYAAPVGVFADDAVETVIVEGT
+VDRAVWRLDASGLTPLQVVRPLRSQLEAAGYTVVLDCRAPACGGFDFRFATEVLPGPNMY
+VNIRNYQFVTAVLGRVDAPEHAVTVLASTAATSAYVQIIQARSLSDTAAEPTGAADTQVA
+EIRQPDALAATLVNTGRVVLSSLEFETGTSGLGPAKVAALDSLAAFLAGDPALRVALVGH
+TDTVGGLEDNVALSRSRAASVRQRLIDAYGVSPDQLEAQGMGYLAPIASNLTAQGREANR
+RVEAVLLPEPGQ
+>tr|B7RQP6|B7RQP6_9RHOB
+MATLSDGKRIVVKIGSALLVDRVTGKLRADWLHSLAQDVAWLKGQGKDVVLVSSGSIALG
+RGVLGLPPTTLALEQSQAAAAVGQIRLARAYEEALEPHGITTAQVLVTLEDSADRRRYLN
+SRATMEQLLSLGAVPIVNENDTVATDEIRFGDNDRLAAQIAVTVGADRLILLSDVDGFYS
+ANPNDDPTAIRYETVTTITPEIEAQAGDAGSGLSKGGMKTKLMAAKTATAAGCAMAISEG
+STFRPLSALENGANATWFIALSDPQTARKQWITSMKPRGSVTLDAGAVAAMARGKSLLPA
+GVTTVHGTFERGDSIAILTPQGHPIGYGLTRYGSKEADLIKGHQSSEIEAILGFPGRAAL
+IHRDDLALS
+>tr|B7RMW2|B7RMW2_9RHOB
+MGIQAAEISAILKDQIKNFGQEAEVAEVGRVLSVGDGIARVYGLDNVQAGEMVEFPGGIM
+GMALNLETDNVGVVIFGSDRDIKEGDTVKRTNSIVDVPIGNGLLGRVVDGLGNPIDGKGP
+IESTERGLADVKAPGIIPRKSVHEPMATGLKSVDAMIPVGRGQRELIIGDRQTGKTAVAL
+DAILNQQQVNAAAGDDESKKMYCVYVAIGQKRSTVAQLVKKLEETGAIEYSIVVAATASE
+PAPMQYLAPYSATAMAEFFRDNGRHALIVYDDLSKQAVSYRQMSLLLRRPPGREAYPGDV
+FYLHSRLLERSAKLGDEAGNGSLTALPIIETQGGDVSAFIPTNVISITDGQIFLETELFY
+QGIRPAVNTGLSVSRVGSSAQTKAMSSVAGPVKLSLAQYREMAAFAQFGSDLDASTQQLL
+NRGARLTELMKQPQYSPLTNAEIVCVIYAGTNGFLDKIDVKQVGRFEAGLLAHLRSKHAD
+LMTDITENDRKVKGELEDKIKAAIQSFAADFA
+>tr|B7RKZ0|B7RKZ0_9RHOB
+MKKATWIDPFAPADGDPPQTLLRFFHWTLKGCGAALGVASILSILAGVVEVLAALVLGWV
+IDAALSGEARSIFSDQTALLLGCMAFFMILRPLLFGVSSYMQSIVVGPNVFNIALSRLHR
+YTLGQAVTFFDNDFAGRISQKEMQTSRALTDVVIEMIHTLLFALASFVGAVMLLGTVDWR
+IAMGLVLWMVGYVFLIRHYMPRVRKFSQARAGARAMVTGQVVDTITNIKTVKLFAHADHE
+DRAALGAMRKFLDTSLDFGRVSVSFRFWLMTIAGLLPVLLVGGALWYWSLGLVTAGDIAA
+TGAVSLRLAQMTGWVSFTLMGLYANMGEVEDGMRTLTPRQQLRDLPGAQDLVVRDGAIKL
+DNIRFTYGRDQGGVDHMGLDIKPGEKLGIVGASGAGKSSLVSLLLRLYTLEKGRILIDGQ
+DIAKVTQESLRRQIGMVTQETAMFNRSAFDNIRYGKPDATEDEVIAAATKAEAHEFIENM
+QDHTGRKGYAAHLGERGVKLSGGQRQRIALARAILKDAPILILDEATSALDSEVEASIQH
+ALTRVMEGKTVLAIAHRLSTLTEMDRIAVMDAGRIVEIGTHDALLAKDGLYARYWQRQSG
+GFLDMKAAE
+>tr|B7RGN7|B7RGN7_9RHOB
+MQDLIRNRKGVVSTRVGYSGGDVPNATYRNHGTHAEAIEVIFDDDVLSYRELLELFFQIH
+DPTTLNRQGNDRGLSYRSAIYFEDEDQKAVALDTIADVEASGLWPGKVVTEVEPVSDFWE
+AEPEHQDYLERIPNGYTCHFPRANWVLPKRVAAE
+>tr|B7RHY2|B7RHY2_9RHOB
+MGFMTDGSLRQELLGLQANNPAVDRLVEEIIGRVADKWTMLLIEILTEQECCRFGELARA
+CTGISQKMLTQTLRAMERDGLVTRKVYAVVPPKVEYRLTDLGLGLSKAFCGVWLWAEGNL
+EMIEQARRSYAERQAAEGTSA
+>tr|B7RRC1|B7RRC1_9RHOB
+MTEISRVALFGKLNSLGFKAIEGATVFCKMRGNPYVEVVHWMHQILNNQDSDIHRIVQHF
+NLDAGKIATEMTSALDKLPRGASSVSDLSSHLEDVMERAWVWGSLLYSSNQVRTGHLILG
+MLETPNLKNILMTISPTLAGIKADALADDFHAITDGSPEDAMRPQDGSVTGGGAEPGEAS
+GAMSPSQMGKQEALDQFCTDLTEQARNGEIDPIVGRDEEIRQIVDVLMRRRQNNPILTGE
+AGVGKTAVVEGFALRIARGDVPPALRDVRLLVLDVGLLQAGASMKGEFENRLRQVIDEVQ
+GSTTPIVMFVDETHTLVGAGGAAGTGDAANLLKPALARGTLRTIGATTWAEYKKYIEKDP
+ALTRRFQVVHVEEPDIPKAVLMMRGIASMLEKHHKVQVLDEGIEAAVTLSARYIPARQLP
+DKSVSLLDTACARVAVSQHAVPAQVDDSQRRIESLATELEIIGRDETAGYDVGERRANVQ
+EAMAAEKERLVGLKANWEIEKTLVGEIIDLRAKLRAGGQPLEQTHTPEGAAANEVAQQEG
+IEAGLSDEERETVMAELKAKNAALEAQQGDSPLIMPIVDHQAVASVVGDWTGIPVGRMLK
+DELETVLNLEEHLAKRVIGQDHAMKMIAKRIQTSRAGLDNPSKPIGVFMLAGTSGVGKTE
+TALALAEVLYGGEQNVITINMSEYQEAHTVSSLKGAPPGYVGYGEGGVLTEAVRRKPYSV
+VLLDEVEKAHPDVHEIFFQVFDKGVMEDGEGRVIDFKNTLILLTSNAGTDLIMDMCADPE
+LLPDPEGMAKALRDPLLKVFPPALLGRLVAIPYYPLSPDMIGKITVLQLNRIKKRVEAAH
+GVPFEYSDAVVEEIVNRCQELESGGRMIDAIVTNTMLPDISAEFLRRMMEGGTIEKVAID
+ATDHEFTYRFE
+>tr|B7RRP8|B7RRP8_9RHOB
+MQKPLNLHPEIVSRLRQASAAQNDKLIEQRRTFHAFPELGWQEVETTAAIVSDLTEAGYE
+VASGPAFLGDVDRLGMSAEPIPGEGETGCIALFDTGRPGPTVCMRVDIDALPITEAGGNH
+APAAQGFASKNKGVMHACGHDGHAAIGLATARLLHPYLTTGIGRLKLLFQPAEEGGRGGR
+AVAEAGWMDDVDLFFAIHLGLGVPSDNAAFAVHGILANARYDVLLKGRATHAGKTPEGGR
+SALVAACQAVLGLHTLAQSSKPGIRVNVGLMQAGTAVNIVPEEARFTFEMRAQETEDLEA
+LEARCCAFIQATAQAHGVECVLSPGGGAAGHSNPASIAEWAEGVNTATGAFANILPDFFF
+GASEDAATLAHQVTQRGGTAGIFVLGADLADDHHTPHFDFDESALAKSVLLCGGLIASAM
+QLRLDQS
+>tr|B7RM94|B7RM94_9RHOB
+MTLNAAPTDLTGKVCLVTGASGGIGASAVAHLAALGATVYATDIADSFDGPATYRRFDLL
+DGADLTACTDWITQIKPDILFNNAALFGMGSILDDEGDLAQLDRLFGVNVRAFYAILQAT
+AKSMVAQGQRGSIINLASQAGHRGEALVAHYCATKAAVISYTQSSALALAPHKIRVNAIS
+PGVIDTPMWQTVDALFAKFEGKEPGQKKREVGAAVPLGYMGAPDDVARAAVFLASDQSAY
+MTAQTIGVDGGNVLR
+>tr|B7RNN2|B7RNN2_9RHOB
+MLEGKSVIVTGAGRGIGRDIALMMASHGAKVVVNDLGAASDGAGADATPAQEVVNEIIAA
+GGEAVTNFGNVAKPEDAKAMVEQSMDVFGGIDVIVNNAGILRDVIFHKMTEDDWDSVISV
+HLKGSFNMAHAVAAQFKMQASGCFINFTSTSGLIGNFGQANYSAAKMGIVGLSKSLALDM
+SRFNVRSNCIAPFAWSRLIGTIQAKTDAEKARVERIKEMTPAKIAPLCVALADPTCDTTG
+QVFCIRNNEIFLMSQPRPIRSVHRSEGWTPETVRDHALPAMKADFYDLDRSSDVFTWDPI
+>tr|B7RJJ4|B7RJJ4_9RHOB
+MTVLRLRGFEIHKGLLDRAEQLVLLDGVRAVVKAAPFFRPVTPGGQKMSVRMTSAGKYGW
+YSDAEGYRYAPTHPNGTPWPAIPDAALAIWDRLTGLERHPECCLINYYDSDARMGMHQDR
+DEADFRWPVVSVSLGDEGLFRIGGQKRGGKTDSIWLQSGDVVVMGGEARLHHHGIDRIRA
+GSSKLLPKGGRINLTLRVVE
+>tr|B7RIE6|B7RIE6_9RHOB
+MAKLPLNTPDALVTLRREYDIFFSRINTLKDASNYEALRAERYFSDSLQSVETFLDDTVG
+IIDAPDAELVARFSELQSKASEVGPAVRRLSNSGLSYFALLSDRRRTNVAVTLSQMAVGV
+TVLLLAMLFLALYLGYLNRQSNRQRIAAVEASHRMNIVTSTSLDAVIVADAAGKILDFNA
+AAEQIFGYQAGDAIGQDLGALIVPDDHRPGHEAGMQRMRENGARHVIGMGRVQLEAKRRG
+GACFPIELAVQSAQTEEGEIFIAFLRDISSRIQAEQELVTARDRALAGEKAKTDFLATMS
+HEIRTPLNGLLGNLTLLHDTDLTAQQSRYIKNMDTSGKLLMSHISDVLDITKYDAGKLLL
+RPTAMNISTLLQDIVDNQSSAATARGTTLEWAWTSPPVDWIRADRERVQHILMNVIGNAV
+KFTHQGRITVHVAVANREGGMPEIEFIVADTGIGIDPDLQCQIFDDFTTGDSSYDRNVGG
+TGLGLGIAQRFVKAFGGEIELESTKGVGSTFSIRFPIEPIAAPGALVAHRKTAGHAPSRA
+ILLVEDNKINRIVAREMITSAGHQVSEAHNGREAVEMAGAQAFDLIFMDISMPVMDGRGA
+TRAIRAGQGASAQTPIVALTANAMAEEQEAFLSDGMNYVLTKPLSRDDLLHVIALHTDNA
+HGKSSVPQCPTGDVAASSLDELRQTLGAEKLQSLLDRFGREFDALVTRLGNGSAVSLGDV
+AQTAHRIAGSAATLGAVELRSALLAVEKAAKAQDAGKVDSLVTDLCAIWVTTRPLLQAQN
+LGNPHS
+>tr|B7RJP5|B7RJP5_9RHOB
+MNKPMLILTRPAPNANAFLDMIAPDLLARVSVLISPLLQISGTATPVLMQGIEGVIFTSA
+NGVAFGPDGLGRTAYCVGAKTTQAAKEKGWRAQILGQNADELVTALIKTQPNAPLLHICG
+HHQRGDIASRLSQAGLRTTAVTVYDQTLLPLSDQAKHVLASGETCIVPLFSPRTATQFAR
+ECPDFHHVVVIALSRAVADALGYQKPQDLLIADEPTANSMRLVLETAVDWGRLA
+>tr|B7RHD3|B7RHD3_9RHOB
+MQGGLCKIDAMNTFLRGRIATLLVFLITVLGLATGVWRYAYLQGLDQLHARGEADLSLAS
+DRLVGQLQRYRDLAVFLADHPQVHDILSDQTPGRARDFLQDVADKSAALDVRVVDVQGRV
+LASPQSAPGAVLIDQPFVRRALRGALGWGHGPSLPLTDRAYFHAAPVFGDAGQIKGAVVV
+STDLNGIDYDWRGSNPAAFFTDNAGVVQIANRSELLFWQRPQGQPGLIPPDQSAVNFSAS
+FVQGNEIWKMGWGPYIPYEALHLTKSLPVIGLTGEVLLDIAPARRLAVAQASAVAALCLA
+FGALLFLATERRRALSQANIKLERQVAKRTAALNASNLELRHEAAEREEAQAALRRAQAD
+LVQAGKLSALGQMSAGISHELNQPLMAIRSFAENAVHFIARDKPERAADNLSRISEMAER
+MARIIQNLRAFARQESMPQKRVDVVRIVASAVELTETYLREVGVTLVYDAPPNAVWVHGG
+EVRLGQVFVNLITNASDAMAGRATRRLTIQIAEGDSVVVSFQDTGPGIEMPDKVFDPFYT
+TKSVGSSSGMGLGLSISYGIVQSFGGQIRGSNLETANPDANSLDGGGAMFSVQLERADEV
+EVAA
+>tr|B7RFZ0|B7RFZ0_9RHOB
+MTRKMTGAKMIVQALIDQGVDTVFGYPGGAVLPIYDEVFQQNSIKHVLVRHEQGAVHAAE
+GYARSTGKPGVVLVTSGPGATNAVTGLTDALLDSIPLVVLTGQVPTFMIGSDAFQEADTV
+GITRPCTKHNWLVKETDKLAGVLHEAFHVATSGRPGPVLVDIPKDVQFASGQYEPKKPSI
+SHYQPPLKGDMEAITELVAAMETAKRPVFYTGGGVINSGPAASQLLRELVEATGFPITST
+LMGLGCYPASGDKWLGMLGMHGLYEANMAMHDCDLMINIGARFDDRITGVVDMFSPKSKK
+AHIDIDPSSINKIIRVDIPIVGDVGHVLEDLLRVWKSRGRKTNAEGVAKWWKKIDEWRSI
+DCLKFEQKGKIIKPQHALARLEALTKKYDRYICTEVGQHQMWAAQYLNFEDPNRWMTSGG
+LGTMGYGFPASIGVQMAHPDALVINVAGEASWLMNMQEMGTAMQYGLPVKQFILNNERLG
+MVRQWQELLHGERYSQSWSESLPDFVKLADAFGAKGILCSDPDDLDDAIMEMLTYDGPVI
+FDCLVEKHENCFPMIPSGKAHNDMMLAGVDTQGVIDAKGSVLV
+>tr|B7RPU5|B7RPU5_9RHOB
+MFLYILKRVLATIPVMVIVAIFVFLLLRLTPGDPAAILAGDAATPAQLERIRDRLGLNDP
+LFTQFMTWMGQLVRGDLGTSLLSNTSVAGMLADRLGPTINIALMTITISVLLAVPMGVIA
+AWRHRTWADVLVMSFSVLGFSVPVFVIGYIFMQIFAIELRWVPVQGYKDPSAGFGAFFSR
+AILPSLTLATIYIALIARMTRASMLEVLGEDYIRTARAKGVRENVVLFRHALRNAAVPIL
+TIIGTGFALLISGVVVTESVFNIPGIGRLTVDAILARDYPVIQAMILLTAGIYVFVNLLV
+DISYSFFDPRIRY
+>tr|B7RFT1|B7RFT1_9RHOB
+MILIGNLGRDPEVRSFQNGGKVCNLRIATSETWKDRNTGERREKTEWHTVAIFQEGLVRI
+AEQYLKKGSKVYIEGQLQTRKWQDQSGADRYSTEVVLQGFGGTLTMLDGPSGGGSGGGGG
+GGGYDSGPSDPGGYGGGYDSGPASGGGSSSGGGGSSRDLDDEIPF
+>tr|B7RJP2|B7RJP2_9RHOB
+MALDQIHTLSVSGMTCGGCAARVDKALRAVPGVTEVSVNLADDTAMVTHAGRALTIDTLA
+KAATDAGYPATAATKKTAQDHASVKREETEEIGRAFTIAAVLALPVVVLAMGAHMIPGMH
+GLIGETIGHQGSWMIQFALTAILILGPGRRFYTIGIPALLRGVPDMNSLVALGTGAAFVY
+STVALFLPSLLPAIAREVYFEAAAAIIALILLGRWLEARAKGRTGAAIQKLIGLQPNTAR
+VRRGEDWVDVDIADLRVGDEILIRPGERLPTDAIILDGESRIDESMITGEPMPVRKSGGG
+SVTGGTVNGDGSLACRVTSVGDDTTLAQIIRMVQQAQGARLPIQGMVDRVTLWFVPIVLG
+LATLTVFVWAMFGPAPVLSHALVAGVSVLIIACPCAMGLATPTSIMVGTGRAAEMGVLFR
+KGDALQALSGIEIVAFDKTGTLTKGSPALTALVPADGFDRETLLVQAAAVEILSEHPIAH
+AIVAAAKGVALPQAERFQAIKGQGVAAMVDGVTIQIGNARLMKDAGIDTAVFAEEFDDRA
+SQGETVFFVSVAGELAGLIAISDPIKDDSKASIAALHARGLQVAMITGDDEKTARSVAAT
+LGIDHVVAGVLPDGKIAALDQLRGAGQKIAFVGDGINDAPALAHADVGIAIGTGTDVAIE
+SADVVLMSGSLTGVNSAIAVSHETLRNIRQNLFWAFGYNVALIPVAAGLLYPLFGILLSP
+ILAASAMAFSSVFVLTNALRLRRIKVQV
+>tr|B7RHE1|B7RHE1_9RHOB
+MYSYTEFDADFLAERNAQFRAQVERRIDGSLTEDEFKPLRLMNGLYLQLHAYMLRVAIPY
+GTLNGAQMHKLADIADTWDKGYGHFTTRQNIQYNWPQLRDVPDMLDALAEVNMHAIQTSG
+NTIRNVTADHFAGAAADEVADPRPVAELIRQWSTDHPEFQFLPRKFKVAVSGSAHDRAVI
+KAHDIGLQIVEQNGVLGFQVIVGGGLGRTPMIGKVLYDFVASEDLLPTLEAIVSVYNLLG
+RRDNKYKARIKITVHENGIEDIRARVDARYALIRPQFTGVDQQMLARIEADFAKPTFKTA
+PLDSYTQAYDSDPVFRSWADTNLSDHHAPGYAIVSISLKAHGATPGDASSDQMRVMADLA
+AQYGHDELRISHEQNVILPHVHRADLPALHAALKDAKLATANIGLISDIIACPGMDYCAL
+ATARSIPIAQEIATRFDALKLEHEVGPLKIKISGCINACGHHHVGHIGILGLDRAGVENY
+QITLGGDGTQDATLGERAGPGFSADEIIPAIERLVRGYLDLRSEPTETFLQTYRRLGLAP
+FKAALYPEARANAA
+>tr|B7RQN7|B7RQN7_9RHOB
+MAITASMVKELRDSTGAGMMDAKKALTETDGDMEAAVDWLRTKGLAKAAKKSGRTAAEGL
+VAVKVEGGHGVAVEVNSETDFVGKNADFQKMVSGIADVAVTVSDVDALNSADMGGKPVST
+VITDAIATIGENMSVRRMQSIDGDLVVSYVHNAAAPGMGKIGVLVAMTGGDEALGKQIAM
+HIAAVNPAALSEDDLDPAVVEKEKQVQMDIARESGKPDAVIEKMIVGRMQKYMSEVTLLN
+QAFVVNPDLTVGAAAKEAGATITGFVRLEVGEGIEVVKEDFAAEVAKAAQG
+>tr|B7RHL5|B7RHL5_9RHOB
+MKSQGFFISFEGIDGSGKSTQTKILKESLEALGYDVILTREPGGSPGAEEIRALVLQGDP
+DRWSAQTEILLFTAARRDHLERTIQPALDAGKVVICDRFADSTRMYQGLSRGDLRDAVDQ
+LHALMIGIEPDLTVLIDMDPAEGLSRALSRNTVEERFEDFGESLQVAMRKGFLALAEEFD
+DRFVVIDGARQIDQVAADVLAQTRARLDAR
+>tr|B7RRH4|B7RRH4_9RHOB
+MSDQTFRLPPLNALRVFWAVMRKGSFRSAADDLLVTPQAVSQQIKLLEDILGVHLFERKG
+RVVEPTEQAIVLSHFVEAGFDEFKEGVRRVTKATGRNRININISPYFATRYLMQGLVRLR
+ERMPGVDLRMTTMVETPDFARDEVDVSIQWGFGGWKDYDTALLVRDPKIICCTPEIAEKL
+RSPQDLIKQTLLHPVLSRDLWLRVLRHLKLEGVEAASVIEFHDAATMRRAAISGIGVGLI
+SRIDAIQDIRDGNLVAPFGIDALTDLPSEDVPGFFLIVPRSHKRVKMIATFCEWIITEDW
+DALLDAS
+>tr|B7RSA3|B7RSA3_9RHOB
+MTYSTTTLASLLALGLLAGSGHAHASLEQKEAAVGATTKITLRVPHGCKGESTHTVRIDI
+PEGFYAVKPMPKPGWTLETETGAYAQPYNNHGTEMTEGVRAVIWSGGDLPDDHYDEFTVR
+GTVGPQLEAGETMYFPALQTCANGVADWTDTSGSHDVPNPAPVLSLVSAAGDHAHGGHGS
+TPMPEKPKVLLGDLELTAPFVRATLPNQPVAGGFLTITNGGDTDDTLIRASSNVAARMEV
+HEMAMQDSVMKMRELEDGLPIPAGETVMLKPGGYHIMFMDLAGPLSEGDTVEVTLTFKKA
+GEVTLTMPVLARDGEGHDSHHKMSE
+>tr|B7RL04|B7RL04_9RHOB
+MKAALIQLNVSDDPARNLAGTVAMVRDAADQGATFVLTPEVTNCMSTNRAHQRDVLQHEG
+DDVTLVALQDVAREKSIWLLIGSLGLKTDDADGRFANRSFLIGPDGQIMARYDKVHMFDV
+DIDATESYRESAGYRPGDKAVIAQTPFGKIGMSICYDMRFPLLYQALAEAGADILTMPAA
+FSPVTGAAHWHTLLRARAIETGCFVLAPAQTGEHASDAHKTRNTYGHSLAVAPWGEVLLD
+AGESPGVYLFEMDLDRIADARRRVPSLANRRDFAAP
+>tr|B7RJV8|B7RJV8_9RHOB
+MPFHPVSSEKLSQAVVRQVEKLILRGILRPGERLPSERELAERLAVSRPSLRDAIAQLQE
+SGLLTAKPGAGVYVADVLGGAFAPSLIDLFARHDEAVFDYLSFRRDLEGLAAERAARLGS
+DIDLEVIQTVFNKMEAAHQKRNAEDEAQLDAQFHMAIIEASHNVVMLHMMRSMYDLLRGG
+VFYNRQIMFKQRTTRSALLDQHRAMNDALQRRDPAAAREAVEAHLNYVENALRDQQKTER
+NEEVARQRLEHATQSD
+>tr|B7RPT7|B7RPT7_9RHOB
+METRKGIFAGEDPFGIAKRWLEEAADSEINDPNAIALSTVDADGMPNSRVVLLKEIEPDA
+FVFYTNYTSAKAAELDQAGRAAFVMHWKSLRRQVRVRGLISKEDGPKADAYYKSRSLKSR
+LGAWASDQSKPLSSRAALMTEVAKVTAKKGANPERPPFWGGYRLAPLEIEFWADGEFRLH
+DRFVWRRDDLSARWTVTRLNP
+>tr|B7RMW4|B7RMW4_9RHOB
+MEKNDMAQAVGKVTQVIGAVVDVQFEDHLPEILNAITTENQGKKLILEVAQHLGENTVRT
+IAMDATEGLVRGQRVEDTGAPISIPVGNATLGRIMNVVGEAIDEKGEIASAERRSIHADA
+PEFAEQSTSSEVLETGIKVIDLLAPYAKGGKIGLFGGAGVGKTVLIMELINNIAKVHSGY
+SVFAGVGERTREGNDLYHEMIESNVINPDDLEKSQVALVYGQMNEPPGARMRVALTGLTL
+AEQFRDQSGTDVLFFVDNIFRFTQAGSEVSALLGRIPSAVGYQPTLATDMGAMQERITST
+KAGSITSVQAVYVPADDLTDPAPATSFAHLDATTVLDRSISEKGIYPAVDPLGSTSRLMD
+PSIVGEEHYNVARDVQGVLQRYKSLQDIIAILGMDELSEDDKLAVARARKIERFLSQPFD
+VAKVFTGSDGKQVPLEETIQSFKAVVAGEYDHLPEGAFYMVGGIEEVKAKAEKMAADAA
+>tr|B7RJ85|B7RJ85_9RHOB
+MTRTALVTGSSGFIGYFTSIALLDAGWKVIGLDCLSDYYDVALKERRQAMLNQHAGFSVI
+KDRLETPGTLMEIFEKHRPDAVVHLAAQAGVRHSIEAPRDYVEANLIGTFELLEAARAYP
+PAHMLLASTSSVYGSNTDMPYAETHKVDTQMSFYAATKKATENMSHSYAHLYHLPITMFR
+FFTVYGPWGRPDMAHFKFTKAILNGDPIDIYNHGDMKRDFTYIDDLTASILALIDTVPGD
+TPVENDSLSNVAPFRVVNIGNDSPVPLMDFIAAIEKACGRAAIKTYHDMQPGDVPATWAD
+ASLLQNLTGQRPVTPIETGLQNFVDWYRDYYKI
+>tr|B7RSB5|B7RSB5_9RHOB
+MIVGPRGHRRWPDAVKAQIVAETLAEGASVGAVARRYDMRANHLSEWRRMAREGKLVLPA
+VPEGPSFAALVVCDDVETAPEPAPPPLDLICGSVHVRLVANTSAARIAEIVRALNAPS
+>tr|B7RJ72|B7RJ72_9RHOB
+MDLSYSDEEKAFRAEVRAFLEEKLPKEMSDKIRKGEELGKAGQEEWHAILNAQGWLAPNW
+PKKFGGAEWNAVQRHIFEEEAAAHYAPRIVPFGLSMLAPVLQKFGSQEQNDYWLPRILSG
+EDWWCQGYSEPGAGSDLASLKTEAVLNEEGTHYIVNGQKTWTTLGQHANMIFCLVRTDKT
+VKQQEGISFLLIDMDTPGVEVRPIILLDGTHEVNEVWFTDCKVPVENLVGEENKGWTYAK
+YLLTHERTNIAGVGFSQAGLTAVKRIARAEMSGGKPLMENPHFAARVARVEIDLMAMSTT
+NLRIVSKAAAGAAPGVESSMLKVKGTIIRQEINDLARRAAGAYAMPFASEAIEGSNLALP
+DPLNAGPVAAQYFNNRKLSIFGGSNEIQRQIIAKTTMGGGA
+>tr|B7RPS7|B7RPS7_9RHOB
+MISGDARMLTKKQLDLLAFIHKRVQRDGVPPSFDEMKEALDLRSKSGIHRLITALEERGF
+IRRLAHRARAIEVVKLPDSMGGLPGSGFTPRVIDGDRPDMPPPAAAQPVSNASFDIPMMG
+RIAAGVPIEAISTMTHSVAVPGSMVSGRGEHYALEVKGDSMIDAGINDGDVVVIRETSVA
+DNGDIVVALVEDHEATLKTFKRHGSSIALEAANPAYETRVLPADKVKVQGRLVGLIRTY
+>tr|B7RGW0|B7RGW0_9RHOB
+MTTGFFMDERCFWHAGGNYAFTMPIGGLVQPLASGGLPENPETKRRLRNLMEVTGLMAEL
+DVRSAPQATHDDLLRVHPAAYLDEFKRLSDTGGGELGLRTPFAAGGFEIAALSAGLSIAA
+VEAVASGDIENAYALSRPPGHHALPDFPNGFCLLANIAIAIEAAKAKGLVNRVAVLDWDV
+HHGNGTEAIFYDRDDVLTISLHQEGNYPLDTGALTDRGKGAGEGYNINLPLHAGSGHTAY
+LHALDRIVIPALEAFQPDMIIVACGFDAAIVDPLARMQATAETFAAMTRKIKETSQKLCD
+GKLVLVHEGGYSEAYVPFCGHATIAALADSDTIAPDPHAENYRIRQPSPKFDAFLRDSID
+AMAQELNL
+>tr|B7RJC1|B7RJC1_9RHOB
+MHPVSPHIWINPIEEPAMFIQTESTPNPATLKFLPGQTVLEMGTADFPAPEAASSSPLAT
+RLFAVDGVTGVFFGTDFVTVTKADTIEWDHLKPALLGAIMEHFQSGQSVMEQGHEHASGH
+AEHTGEDGAIVGQIKELLDSRVRPAVAQDGGDITFHGFERGVVYLHMQGACAGCPSSTLT
+LKMGIENLLRHYIPEVTEVRPVA
+>tr|B7RKU1|B7RKU1_9RHOB
+MIVLRWVAIAGQLTAITVADRIYGLQLELALCYFAVGVSVTGNLVAILVFPENKRLSEYE
+NLSMVMFDLLQLGFLLFLTGGLHNPFSLLLLGPVTISATALSLRSTVVLCSTAIALATVL
+AIFHFPLITQSGGLLEIPQIFVFGNWVALVIAILFSTSYSRRVTTEIHSMSDALTATQMA
+LAREQKLTDLGGVVAAAAHELGTPLATIKLASTELLHELQDNPDLAEDAALIRDQADRCR
+DILRDMGRAGKDDLHLRHAPLMAVLEEAAEPHRTRGKTIEFSTDAFDDAMDQPEILRKPE
+IIHGLRNLIQNAVDFAQTTVWVDANWTDDQISVRIFDDGKGFPPHLLGRIGDPFMRRRRS
+ARSSTERPGYEGMGLGLFIAKTLLERSGAELKFANGSDAVTGQLGAVVEVVWPRQKLDLQ
+NGEARTALGKNKPIKA
+>tr|B7RLQ9|B7RLQ9_9RHOB
+MTTDPKTRAQAVVIGAGPAGLMAAEMLAQAGLAVTICDHKPSVGRKFLMAGKSGLNLTKV
+EPSEPFLAAFSGARGALAPMIEAFDNTAVQDWATGLGQTLFAGSTGRVFPTVMKASPLLR
+AWLARLADAQVQIKTRWRWTGWQGDDLAFDTPEGPQLLRADVTVLAMGGASWVRLGSTGE
+WAVPLADSDVPIAPFAPANAGIAMEWSPHMMAHFGAALKGIGLKSGPYRSRGEALVSAQG
+LEGGGIYTVSRGVREGHPLMLDLLPDQTEKALVEKLEKPRGKMSMANYMRKTLKLDVAKI
+ALLQEMARPLPQDAKALAKLLKALRITHAGLRPMDQAISTAGGVRFDAVDDTLMLRMRPG
+VFVAGEMLDWEAPTGGYLISACLATGRWAGRHAAAWAQKA
+>tr|B7RLR3|B7RLR3_9RHOB
+MSQSLDALTKALLHAAKQAGADSADSMAVRGTSVSVDVRGGTLEQAERAEGTDIGLRVFV
+GKRSANVSASDTSDRTIEEMAFRAVAMAKEAPENPYTGLADPDQLATTWDIDALELCDPT
+AEPSPEALQDDAARAEAAGLAVKGVSQVQSASAGYGAQQVHLAASNGFEGGYRRTDRGLS
+CVAIAGTGTGMERDYDGDSRIFQADLRSAEDIGTSAGERALARMDARKPPTGAYPVLFDE
+RISSTLIGHLLAAVSGSAIARGASWLRDAMGENVLPKGLSIIEDPHRPRTSGSRPFDAEG
+LPTGRRVIVEDGTLRGWTLDLATARKLGMAPTGNAARGPGSNPGPSVWNIELTQGDVTRE
+DLIKQMGTGLLVTSMIGSTINPNTGDYSRGASGLWVENGEITHAINECTIAGNLRDMLGS
+IVPANDARTHLSRVVPSLLIPGMTLAGA
+>tr|B7RFU6|B7RFU6_9RHOB
+MEALTWTGSMSWLNPVLWLAVGIMAVAYVVQIMLSFIPAAGVRTIGTGGVAAANQGITGL
+IGKVGAYGFFASLGLVVLYLLAGVVMGTGAGIIGGMSRQFVPVWIALIVTFALSIKFKRK
+LGLYGKLFDSTVGMIGFALVMFWVFTGILGGVFDLVITHDSLSQVSGMKNKLPGTALARA
+EPADYQWFLLGGDNLARDVFSRLIKGSWVVIQIAPMATIFAFMVGITLGLPAGYYGGKLD
+VFLSFLANLILAFPVILIFYLLVTPEIVLTGLPSYMAIVLFVFPLVFLAVLLNSRLYTQP
+SLRTPVMIVILGVIGWLYLSMISNDGALVKTLTYEIPGLPTFLDLFDIGPGLLVVFVAVV
+FVNAPTVFRIVRGLALDIKTRDYVAAAQTRGEGPWYIMLWEILPNARGPLIVDFCLRIGY
+TTILLGTLGFFGLGLESESPDWGTTINAGRRLLSLYPHAAIAPALALLSLVLGLNLLADG
+LREESLRD
+>tr|B7RKP2|B7RKP2_9RHOB
+MAETISFTLDGEKVEAEVGMTIWEVANGRGLKIPHLCYTPEPGYRPDGNCRACMVEIEGE
+RVLAASCLREPADGMVVTTNNARAENARKMVMELLVTDQPVQDVAHDKSSHLWDMAALNG
+IESSRFPKLEEGRIPLLDDSHVAMRVNLDACIQCNLCVRACREVQVNDVIGMSGRGHDSY
+PTFDMADPMGASSCVACGECVQACPTGALMEATVVDDAQVGDRADFDSEVDSICPFCGVG
+CQVSLKVKDGKIKYVEGINGPANEGRLCVKGRFGFDYIHHPHRLTKPLIRRDDAPAKGLN
+VDPGNWHTHFREASWDEALDFAANGMKKIGGRGVAGFGSAKCTNEEAYLFQKIIRQGFGH
+NNVDHCTRLCHASSVAALMENVGSGAVTATFNQIENADVAIVIGANPTENHPVAATFFKQ
+FAKRGGKLIVMDPRGQALKRHASHMLQFRPGTDVSMLNAIMHVIVEEKLYDQQYIEAYTE
+NWEIEKAHLKTFTPEKMAKICGIDAETLRDVARTFAGANAAMIFWGMGVSQHIHGTDNAR
+CLISLALMTGQIGRPGAGLHPLRGQNNVQGASDAGLIPMFLPDYQPVADDGVRSAFTEVW
+KSADFSNQKGLTVIEIMDAIHDGDIRSLYVLGENPAMSDPDVEHARDALAKLEHLVVQDI
+FLTETANFADVIMPASAFAEKTGTVTNTNRQVQMGRAAVVPPGEAKEDWWIEVELAKRLG
+LEWAYSHPSEVFAEMKLNMSSLNNITWDRLEGEGAVTYPSTSPTDPGQAIVFGDGFPRQD
+GRARFTPASIIAPDDAPDEDYPMILTTGRQLEHWHTGSMTRRSAVLDGLEPEANCSLHPS
+TLRKLGVAPGEHVRLTTKRGMIEIMAREDRAVSPDMVFLPFAYVEAAANILTNPAVDPYG
+KIPEFKFSAVKVEAAKGAVAAE
+>tr|B7RK76|B7RK76_9RHOB
+MPPLPISPPKPKDATEKVAHALALAIHEHRIAPGTKLGEDELGEIYDVSRTVIRAALQSL
+AHIQLVEIQRNKGAFVAQPSLREAREVFEARALLEPRTAGSAAARATPRDIAILKEHIAQ
+EHAAMDAGDHGRALSLSGVFHIEVARIADQDTIRQFIETLIARSSLIIALYWRRESALCE
+SHAHHALIDAIAKADAQNAEELMRSHLVDLNSALDLRDRPTQSRSLKELLQDPHP
+>tr|B7RIW8|B7RIW8_9RHOB
+MQETADKSDVAILGLVRDGARLYGQSRSVALRAGDALVLEARPDALDEFRSTLNLQVADK
+GREDLLNASGEGVEIIEVVVPNDSRLIGRSAQSIGLSWRQRTVLLGISRRGNRITSQLRK
+TEIETGDILLLLVPRDTSAHVVEWLGVLPLADRGLAVTENSKVWLAISLFAGAVTAASFG
+LIYLPIALGLVVVCYVLAKIIPLSELYTHIEWPVVVLLGSMIPLGAALETSGGTELIAGT
+LVGLTDGWPAWMVLTVLMVVTMTLSDVLNNTATTIVAAPVGIQMAQTLGVSPDPFLMAVA
+VAASSAFLTPIGHKNNTLILGPGGYSFGDYWRMGLPLEIIVVAVSIPAILVFWPL
+>tr|B7RJY0|B7RJY0_9RHOB
+MVLIALGSNQSTGVGGPKETILKAIELVKEKGLVIRKLSQLYVTPAFPLGAGPEYVNAAL
+EVSANLDPVHILGLLHEVEAELGRERSVRWGARTVDLDLLACGALICPDPETQGYWRMLA
+LEEQMKRAPEQLILPHPRLQDRAFVLVPLADIAPDWVHPVLGASVGQMLDALPKEDKDSV
+RLAE
+>tr|B7RQM8|B7RQM8_9RHOB
+MTDHTTPKNSLLRQDARTVKRNRAETRFKAYGIAAIAVGLLMLLILLTTIIGRGTGAFQQ
+TFLTLDVQLLEAKLDKKGNRDLEDIKKVSTFGYAPLMAAALEKKVADTGIETGLKPKDMA
+AILSKDAAAQLRDFVLENTDLIGSSVEFRFLTNSRVDGYLKGRVTRESIANDKNISTAQL
+DLVDALIADGALEKRFNLAFITGADASDARPEAAGMGVSMLGSLFMMLVVLALALPIGVA
+ASIYLEEFAPKNWITDIIEVNISNLAAVPSIVFGILGLAVFINYMHLPNSAPLVGGLVLT
+LMTLPTIIISTRASLKSVPPSIRDAALGVGASKMQSVFHHVLPLAAPGILTGTIIGLAQA
+LGETAPLLLIGMVGFIASNPPDGIASGLLDPNSAMPAQIYEWAKRADPAFYERAWGGIII
+LLVFLVTMNAIAVMLRRRFERRW
+>tr|B7RG26|B7RG26_9RHOB
+MPFNSRLKERTEMTRTVVESKTKSAIIGFDQPFCVIGERINPTGRKILAEELERDDFSRV
+EADAIAQAAAGANILDVNSGAVFSNKMAEDPRYADNNFVEPTLMRQLIEVVQRVVDIPLC
+IDSSVPGALENGLAAAEGRPLLNSVTGEEERLELVLPLVKKYNVPVVAISNDDTGISEDP
+DVRFDVAKKIVERAADFGIPAHDIVVDPLVMPIGAMATAGHQVFTLVRRLREELGVNTTC
+GASNISFGLPNRHGINNAFLPMAMGAGMTSAIMNPITLPVNQTKIAEHKALISAAGIILP
+DDIDDETFVSLFGLGSTKATPGKEMEAIRAANFLYDRDPNGTDWIKFNKVAPKAGQEGRG
+RAGRVGGRRRG
+>tr|B7RLI7|B7RLI7_9RHOB
+MKFTLQQLGLVDALPEPVYDNLTQLASDVLRTPVSLVSFVDFENDREFIKSHRGLGEPWA
+TEQETPLSHSFCQHVVRKNAPLVVGDAPNHPLVKDNLGISALGIIAYLGVPVYTLERLPV
+GALCVIQGSRRDWTDGEIASLQQLSNCVTDAIRLNASLITSEQLRQEQRDFTYAISHDLL
+SPANNLFMLLSELKEEGLSRDGRNFLDIGIETTVRMKQQVEDVLEYTQTIGNDDAHKTVD
+LNMLFDEIADDLKAELKTTAVLLERGDLPSVVGSEVQLRSLFRNLIGNGIKFRALNRSSF
+VRVSSHHDPSSQFRRLEFEDNGIGMAAENHERIFRLFGRLHVREEYPGTGVGLALCRRVC
+LNHSGTLRVSSEVGAGAVFTVSLPRRPI
+>tr|B7RPH7|B7RPH7_9RHOB
+MRILFTGGTGKAGRHVIPYLLAQGHQVLNVDLVPFDHPGVDNRIADISDAGQMADVMQSY
+ANLAELDAGTGMPRFDAVVHFAAIPRILLRSDNEAFRINTIGTYNVIDAALKAGIRKVIF
+ASSETTYGICFADGEIKPDYIPIDEDHPTVPHDSYAMSKVCNEVTARSFQARSGADVYGL
+RINNVIEPDEYAQIFPDFIHDPDQRRRNIFAYIDARDLGQMVECCLQKDGLGYEVFNVAN
+DDHSVDLTTSDLIDRYYADVPKTREMGENETFFSNKKARDMVGFAPQHSWRDQIGVTGK
+>tr|B7RPI2|B7RPI2_9RHOB
+MCGIVGILGQHEAAPILVEALKRLEYRGYDSAGIATINNGHLSRRRAVGKLVNLSDLLVH
+EPLAGKSGIGHTRWATHGAPSVTNAHPHQAGPVAVVHNGIIENFRELRAELTAKGVEFVT
+ETDTETVALLTQQHMAEGLGPIEAATKTLSRLHGAFALAFLFDGEEDLMIGARKGAPLAV
+GYGDNEVYLGSDAIALSPMTDRITYLEEGDRAILSRSSVEIYDADGNRANREIKTISLDN
+TRVDKAGHKHFMAKEIAEQPGVIGAALTHYLSAKGEISLPDPGLDFSTVDRITMVACGTA
+YYACLTAKYWFEQIARLPVEVDFASEFRYREPPIPARTLAMFVSQSGETADTLAALRFCE
+GKAAKIASVVNVTESSIARESDLALPIHAGVEVGVASTKAFTCQLTVLFLMVLKAAQDRG
+VISDDQLADHISGLRAMPSLINTALEQNTAIRDAAYKLASARDVLFLGRGPMFPLALEGA
+LKLKEISYIHAEAYASGELKHGPIALIDENVPVVVMAPKDNLFDKTVSNMQEVMARKGKV
+ILISDRSGLKEEAEGTWATIEMPPVADALAPILYAIPAQLLAYHTAIAKGTDVDQPRNLA
+KSVTVE
+>tr|B7RRK1|B7RRK1_9RHOB
+MADRYSVFYLGNVDSIDPTEGNSVTENAASLQSQSFGSSGDPLYDNVQTLSPGSTGYGNS
+SADAYNSNNSANGGPDTFRINDGADQTFDAIATYNATITYANGMPPQTVVAIVFQDTNGN
+LYLAPASSSNPSTSYQAALEAGPIQSITFGAPVSTNSNMSGSRVAAEYVQPDGWFDGSAG
+ADALNSGDFDSEADQIDASANAIDGGAGNDTINAGGGADTVFGGAGDDVLNGGAGADLLR
+GDSSIGAETSFSWASQGIGDGSSVTGGLTGTTASGDIRVAMTVAQEANFQSATMETTDQL
+YDYNGLNDRSSISVFGGAPGADPNTATISINFTALNANVSNEVSKVTFGIFDIDQANGFN
+DEIFVRAYDANNNRVAVNLTAGNSTTLSVDDATGRAYSTGAGVGNTDSMTGFVKVEIAGP
+VARIEIDYNNPNPGDTTHAMRIGDLALSPITTTGAGNDTISGGAGNDTIFGEAGNDSLSG
+GADNDSISGGAGNDTILGGTGNDTMSGGDGADLFVAQDGFGTDIVIGGEGGTDNDTLDFS
+ALTGAVSVNYTGAEAGTVTSGANSVSFSQVENLFLSNFNDIVDATRYAVSLDTGGGADTI
+SVGSGTYDINAGDGDDRIIRTEVTNSTEAASVIDGGAGTDTYVAGGALGINTINLAANQL
+EFQGASRGSLLNFENVELDNIDATVVGNDGANVITATGDFANLLSGGGGDDLISAGGGDD
+TVDGGTGNDTLDGGLGNDRLTGGAGDDVFIYSGGNDVITDFNTGNTGTLDDGDATNNDFI
+DLSDYYGNIFDLKADLSDNGILDQSNFATVDYTGKTLFSGGSLEFLGAGPSSFTAENTGV
+VCFGKGTAIRTPSGDVLVEDLKVGDLVTTLDNGPQRIRWINSRSYGPSQMAAATHIHPVL
+IKRGLFGAGRDLWVSQQHGILLGRAGDQFARAKHLAESTEGVRIARGKKSVTYIHLMFDA
+HQVIFAENVPSESFYPGPMALKAMTAQDRFNFSYVMPAFGLGAVEPGTVVKAYGTTARPF
+ITRKNLLKIAGPNADARAKLDWSKMKTPSPATLLESAKLAQTQAGQKNTCRRRFGQQAIA
+C
+>tr|B7RQK7|B7RQK7_9RHOB
+MGNPFDLTGRKALVTGGATGIGEGIALGLAGAGADVALTYRSHAPEGTLAKIEALGVKGV
+AVQADFNQMDQAAAEDVVRFASDALGGLDILVNNAGTIYREDSTDMPLADWHRVLSVNLD
+SVWLLSQAAGKRMVAQGSGKIVIVSSVLGSQGGLRVPAYASSKHAVIGLTKALCNEWAPH
+GVNVNSIAPGYTATDNTQALRDDPDRSKALLERIPAGRFAEPSEIAGAALFLASSAANYC
+HGSVITVDGGWLAR
+>tr|B7RMA9|B7RMA9_9RHOB
+MSRVALVTGGSRGIGAAIAVALKNAGYTVAATYAGNDEAASKFTEETGIKTYKWNVASYE
+DSKAGIAKVEADLGPVDVVVANAGITRDAPFHKMTPEQWHEVIDTNLTGVFNTVHPVWPG
+MRDRKFGRVVVISSINGQKGQFAQVNYAATKAGDLGIIKSLAQEGARAGITANAICPGYI
+ATDMVMAVPEKVRESIIAQIPAGRLGEPEEIARAVVFLVSDDAGFINGSTITANGAQYLV
+>tr|B7RML0|B7RML0_9RHOB
+MTETAVEEMSFEAAMAELEKVLGQLERGDVALDESIALYERGAALKKRCEAKLKEAEEKV
+AQITLDGDGNPAGVTAVGGI
+>tr|B7RG21|B7RG21_9RHOB
+MKLSTKGRYAMVALTDIALQPPGGLVSLGDIAERQSISLPYLEQLFVKLRRAELVASVRG
+PGGGYRLGRPASDIRVVDILSAVDEKVDAMHVGAGASGGSSGSRAQSLTNRLWEGLSAQV
+YVFLHQTRLSDVVANELAPCPAVPNLFAVVDEE
+>tr|B7RPU6|B7RPU6_9RHOB
+MAEIPTPRLSAFHMLTRLFSLPKGARIGIGPTIAAVILVVIVLAAVLAPLYVPYNPLSMD
+AMARLKPPSEEHWLGTDPYGRDTFSRVMTGGRVSLLIGVGAAVVSVAVGLMIGLVAGFFR
+AADGVIMRIMDSLMAIPAILLAIALVALNGPSLMSVIIAITVPEVPRVVRLVRSVVLSAR
+EEPYVEAAIALGSSMPKILVQHLMPNTFAPLIVQGTYICASAILIEAILSFLGAGVSTEI
+PTWGNIMAEGRTYFQIKPGLIFWPGLMLSLCILAINLLGDTARDILDPRMKKREG
+>tr|B7RGY2|B7RGY2_9RHOB
+MKRFALAAALALTPLAALAEGMAHKVAIHVDQNDPQVMNMALNNAQNVASYYESQGDTVT
+IELVTYGPGLNMLVADKSPVAQRISTMSLEMENITFSACANTMAGMKKKTGHDVVLMSEA
+VVVPSGVVRLIELQEDGFAYVRP
+>tr|B7RH35|B7RH35_9RHOB
+MNTDFEITTHGPGLYEFTRDVARWISGQGDGVVTLMVRHTSASLLIQENADPEVQTDLVN
+FFNRLVPPATDPAMSYLTHTYEGPDDMPAHIKAALLPVSLSIPVRAGKMALGTWQGIYLV
+EHRSAAHVRQVAAHFN
+>tr|B7RIT7|B7RIT7_9RHOB
+MRLSRYFLPVLKENPSEAQIVSHRLMLRAGMIKQSAAGIYSWLPLGFKVLRKIENIVHEE
+QQRAGHIPMLMPTLQSADLWKESGRYDAYGPEMLRIKDRQDRDMLYGPTNEEMITDIFRS
+HVGSYKDLPLTLYHIQWKFRDEIRPRFGVMRGREFLMKDGYNFDLTKEDALHAYNRHLVS
+YLRSYERMGLQAIPMRADSGPIGGDDTHEFLVLAETGESEVFYDSQITELKFGDREIDYD
+SVDQCQAVLEEFTSRYARTDETHDAALFSEVPQDRQRTARGIEVGQIFYFGTKYSEPMGA
+TVQGPDGKPTPVHMGSHGIGVSRLLGAIIEASHDDKGIIWPEGVTPFHVGIVNLKQGDEE
+ADSACQALYDSITALGLEPLYDDRNERAGGKFATMDLIGLPWRITVGPRGLKNGVVELTS
+RRTGESEEMAPEDAVQKIAEIYAKHR
+>tr|B7RIU4|B7RIU4_9RHOB
+MRIATYNVEWFAGLFDQEDRLYNDAGWSARHNVTRAQQTRALGTVFRALDADAVMIIEAP
+DQSGKQGTVAALEGFAAHFGLRTSAAIMGFANHTQQEIALLYDPAKITATHTPGGPVTDA
+NGARGAPRFDGILRIDLDIDAREDLVVFSKPPLELSIETASGFSFQMIGAHLKSKAPHGA
+KNEADALRIGIANRRKQLAQAIWLRGRIDEHLERGSPLMVMGDLNDGPGLDAFEDFFGRS
+SVEIVLGHRGAFALTDPHATRALGQRIGAMPTTSRFWIAPEKRYLQALLDYIMVSPQFTD
+NNARWRIWHPLDDPECWADADLRDALVTASDHFPVTIEFDG
+>tr|B7RQ32|B7RQ32_9RHOB
+MTYHPKSEFIRIMMERGFVADCTDYQGLDEALLKGAQPAYIGFDATAKSLHVGSLIQIMM
+LRWLQKTGGKPITLMGGGTTKVGDPSFRADERPLLTSEQIDDNISGIKKVFSAYLTYGDG
+PSDAQMINNAEWLDGLNYLDFLRDIGRHFSINRMLSFESVKSRLDREQSLSFLEFNYMIL
+QAYDFMELHRRYGCILQMGGSDQWGNIVNGIDLTRRVIDGEVYGLTTPLLTTSDGKKMGK
+SQSGAIWLNPDMLSPYEFWQFWRNTTDADVGRFLKLYTELPIDECDRLGALEGSEINEAK
+IRLANEVTALLHGADAAAAAEATAREVFEKGGVGDDLPTLTLSPSDIGDGMSIVQLIVKS
+GLAGSGKEAKRLISENGARINDEPLTDAGMMIDAAALETPIKLSAGKKRHALVQLG
+>tr|B7RRD6|B7RRD6_9RHOB
+MRLTGPEASVIKYDLLTALSVAGLNGSPTLQTTLMRLIAAVTARYNWRADELTVGQRDLA
+RMWSVNERTVKREIKRLIDGKILICKRGGVRGRVAAYQLNYAEIARLSEHCWSLVGPDFD
+LRMKGRYQGESPVKVVQLSDYAKPAEAGGDAASSAPGTWQRAMARLAKENADQFNAWFSQ
+LKYIGFEKGILQLRAPSKFAQRYIETHLMRPLVTAVETELGPVARVEFEA
+>tr|B7RJ90|B7RJ90_9RHOB
+MNSVPVDRKFANTLARGMAVLRAFRASDSGLTHAQIADRTGLPKPTVSRLTYTLCSLGYL
+SHGGRNDRFRLGPSAIALGSVASVAVNFLDLASDAMQQLADDTGTLGLVAVRDDARMMLV
+RTWRPQNASTIWLEPGHRIPILGSSSGMAVVASLSEERFEQLTADPDMRQFRAEGFKQLV
+AQGFASSLGDSRYANGVHAVSVPYFAEEFGEPVAFSMGATPGDLPDARIQNEVGPALRDL
+VRALETRTGRKPALSRRD
+>tr|B7RFX1|B7RFX1_9RHOB
+MGNDMKQEVFLADDYTPAEDEPFMNDRQVEYFRRKLLAWKAELLAGSRDTIEGLQDGTRN
+IPDVNDRASEETDRALELRTRDRARKLVNKIDAALRRIDEGEFGYCSVTGDPISLKRLDA
+RPIATMSLEAQERHERREKVHRDD
+>tr|B7RQB4|B7RQB4_9RHOB
+MTKRVAIFLSGGGSNMRALVEDMTGDHPARPCVIVSNVADAGGIAWAKARGIPTEVIDHK
+PFKGDRAAFEAELTARLMPHAPDIICLAGFMRKLTGGFTDAWAGRMINIHPSLLPLYKGL
+HTHARALEAGDVVHGCTVHEVTAALDDGPILGQATVPILPGDTPDALAARVLVQEHRLYP
+AVLRRFAGGDRSFLMLES
+>tr|B7RI20|B7RI20_9RHOB
+MMDTRQLETLLAIEQHGGFAAAAQVVNLTASAVSQQITALETEIGAQLFDRSRRPPMLTA
+KGVEMVRSARSILNIVSETKASVTAGRVRGTMAFGSLRTCANSVVPTALAVMRTTYPDLN
+FRLRVGKSEELMNNVASGQLDAALVADHVIVPSTLRWTPVIEEPLVVLMPTGCGHMSLED
+VVRNVNFIRYRTQVPLARQIDTEMARLGISPKQIASVNTMTAVVGCVRAGLGFAVVPQIV
+LKDVIAVSLDWLPFGTPPITRRLGVVQRFSSRQEEITSALIDALTEI
+>tr|B7RNF6|B7RNF6_9RHOB
+MNILSPKNQYLVRRGNIWHYSRRVPQNARKYIGTQFIKKSLGVSDVKEARRLRNIYSIQV
+DARFAASEHKISTDGDSSALPQASLRDLINYLRQYVAESDELAARHLVQKPPEDEEQRRE
+MLKENEIALQVLKTHEDPNGQQWLYSVSNELLERAGAHLEDKALIAEFAELIRRGLIEIQ
+SRALDRLEHNFAKTFHDVLFDPDRHPEITFGKLTDIFWEEKLEEYDQNSVSRKWVDKIQS
+NLSLLREAIGENLPLSKLNDDVVQGIRRILGRLPKNRNKLYKKLTIPAAVEAAQKDGHPT
+LDPTTQSQYLNTLVNVLDVGVRKGFLRHNPAAGVKPIKRQTLAASEKRLPWREDQIIKFF
+TGKFYQSCRPDSQNPYKKLDRDWRFWIPLVMLFTGARPNEISQLLVGDVKRTENGTWYID
+VLESEDDHEKSIKTLSSRRMIPLHPELVKIGFLQFVDKIKSVNPTGRLFPNLTPDQNGNT
+AHYATRRLREKFIPEEIILDNRQTLYSLRHNVRDALRRIKAPPETLRAIAGWSPGSTSVS
+DDYGTPGNPDFHINSVEKIAYSGLDLSFLHIDGPVPSGSEK
+>tr|B7RGB5|B7RGB5_9RHOB
+MSREALTGSRIRERRVMAGQKQADLAKEIGISASYLNLIEHNRRRIGGKLLLNIANALGV
+EPTALTEGAEAALIASLREAADDAGLSGPEAGRADEFAGRFPGWADVLASAQRRIATLER
+TVETLTDRLAHDPHLAASMHELLTTAAAIRSTASILADTKTLEPEWRDRFHVNIDQDSRR
+LADSAQALVGYLEADPEASSVANSPQEEVEAFLAAHRFSFATLEVAGLDAGAIEKLTQAA
+PELQSVAGRHIAANVLQQVARDANALSISALRGALDTLGPDPVALAMQLDQPVARILRRM
+AALPELGAGLLVCDRSGTVIFRKSIDGFVVPRFGACCPLWPLFSVLGQTGVVARERLHQL
+GRASSEFDCIATCETLGPSSYNTPPLVQAVMLILPAREIASARLDVGATCRVCPRDGCPA
+RREPSILYDGV
+>tr|B7RJ68|B7RJ68_9RHOB
+MHIFTLCYAKSIGISMTQLRLFLLSLLTSTLLAGAAFADATLVMIEEKGCVWCARWNEQI
+APIYPKTDAGKNAPLRRVDIADERPSDLTFARGLHFTPTFVLMKDGEEISRIEGYPGEDF
+FWGVLEKMMMDAKLLPSPKGS
+>tr|B7RKL2|B7RKL2_9RHOB
+MKTSIATVSISGNLPEKLEAIAAAGFDGIEIFEQDFIAHDGNPREVGDLIRSMGLEITLF
+QPFRDFEGLPAPLRAKAFDRAERKFDLMQELGTDLVLICSSCHPEALGGIDRAAADFHEL
+GARAAKRDLRVGFEALAWGRHVNDHRDAWEIVRRADHANVGLILDSFHTLARKIDPETIR
+RIPGDKIFFVQLADAPLIDMDLLYWSRHFRNMPFEGDLPVVDFMKAVMATGYAGPISLEI
+FNDQFRGGQPKTIAKDGHRSLIALMDDVRRDAPTAPADIAPMPARSNVDGVSFVEFATRG
+EEAEALEAILDTLGFQHSGTHIAKKLSLWTQGDIRIVINRETSGYASSAYTTHGTTVCDI
+GISVDAAAKTVSRAKSLGADPFEQAIGPGELNIPAIRGQSGSVLHFIDKTSGLSDVWSVE
+FIKTAADKAGAGLERIDHLAQTMSYDEMLSWSLFYTTLFQMQKSPMVDVVDPDGLVRSQA
+LETADGSFRITLNGAETHRTMAGNFLADSFGASVQHIALSTSDIFATADAMAQRGFKPLP
+MSENYYADLVARFDLDPDMLAALKAANILYDEDAQGAFFQFYSQPYAGGMFFEIVERRGG
+YKGYGAPNAPFRIAAQKRLMRPKRMPRR
+>tr|B7RQ06|B7RQ06_9RHOB
+MTRERLYLYDTTLRDGQQTQGVQFSTAEKITIAQALDTLGVDYIEGGWPGANPTDSAFFD
+TAPRTRARMTAFGMTKRAGFSAENDDVLAAVMNAGTDTVCLVGKTHDFHVTTALGISLED
+NIDNIARSVAHLVDQGREALFDAEHFFDGYRANPQYAIQTIKAAYDAGARWIVLCDTNGG
+TLPADVGRITAEVIAAGIPGSHLGIHTHNDTENAVACSLAAVDAGARQIQGTLNGLGERC
+GNANLTTLIPILLLKEPYASAYETGICLEGLAGLTQISRSLDEILNRVPMKQAAFVGSSA
+FAHKAGLHASAILKDPTTYEHIQPELVGNARIIPMSNQAGQSNLRRRLESAGLTIAKGDP
+ALGLILDQVKAREADGYSYDTAQASFELLARQALGQMPDLFEVKRYRVTVERRKNKYDQM
+VSLSEAVVVIKVDGEKRLSVSESMDADGCDRGPVNALSKALVKDLGQYSAMLEDMHLVDY
+KVRITQGGTEAVTRVIIDSEDAQGRRWSTVGVSANIVDASFEALLDAIRWKLIRDITA
+>tr|B7RKM5|B7RKM5_9RHOB
+MTDLPDYTPPAVWEWEPGNGGKFANINRPIAGPTSEKELPVGKHPIQLYSLATPNGVKVT
+VLLEELLAAGHEGAEYDAWLINIGEGDQFGSGFVDVNPNSKIPAMMDHSADKPQRLFESG
+SMMLYLAEKFGAFIPKDPAQKAECMSWLFWQMGSAPYLGGGFGHFYAYAPVKIKYCIDRF
+AMETKRQLDVLDRHLADNEYMAGEYSIADMAIWAWYGQLVLGRLYDAAEFLDVASYKNVM
+RWAQTIDSRPAVLRGRMVNRPFGEPEMQLHERHDASDFDTKTQDKIGTDS
+>tr|B7RR23|B7RR23_9RHOB
+MSDTALPAPGRGVPIKAIPKPETDEFALTPRRIAAFMIMVFGMFMAILDIQIVSASLPDI
+QAGLGASTDEISWVQTSYLIAEVIMIPLSGFLARVMSTRILFAVAAAGFTGASFMCATSG
+SINEMILWRALQGFLGGGMIPSVFAAAFTIFPPSKRNIVSPIIGLIATLAPTVGPTIGGY
+LSATMSWHWLFLVNVIPGIGVAIGAWVLIDFDRPNWKLFNKFDWWGLAALAAFLGGLEYV
+LEEGPANDWLDDEAVAILAVFMVVGGIVTFWRAFTREEPIVDFSAFRNTNFAVGSLFSFT
+MGIGLYGLTYLYPLYLTSIRGYDSLMIGQTVFVSGLAMFFSAPLAGILSSKIDLRLMLLI
+GFLGFATSTWMLTGMTPDWDFNELFWPQVLRGMSLMLCMVPINNLALGTLPRDKMKGASG
+LYNLMRNLGGAVGLAVINTLLSDRRALHYERLSEALNWANDAAVEQLNAMAANLTARGLD
+GETGALMQMAGRLRGQAAVMSFIDVFVLITLLFAGLAFCAVLMKTPPKGAAVSAH
+>tr|B7RMG2|B7RMG2_9RHOB
+MSLADKLTQERRGRLAAERMLELKQAELFAANRKLGQHAQRLTNEIVETRAQVETIRDEN
+QRVKSDLTAAREKIELTERRLWQSIETIKDGFAFFNANNEMIMANRAYLAIFDGLEIICP
+GVNYVTILQVLTDEGIVNTGNLCPKSWRRLMTERLQDTAPEPTVIHLWNGQHIKLIDQRS
+PSGDMVSLGLDITATVEYERQLQEAHSIAESANRAKSAFLANMSHEIRTPMNGVVGMADV
+LRDTDLTEDQRLYVDTIKNSGEALLVIINDVLDYSKIEAKKLDLHPEPFDLERAIQEVIM
+LLQPLAREKGLEMALDYDLFMPTTLVGDPGRIRQVLTNLLGNAVKFTSDGHVLVRVTGVP
+DKETGKVQVNIAIEDTGIGIAPDMVDHIFGEFNQVENERNRKFDGTGLGLAISQRLIQMM
+EGDIWVTSEEQAGSCFGFKLPLEAHGEITTPHPPLPRALRHIMVVEGETVNRSIVLKQLE
+QLGLKVTCCGSAQDALCQIDDSVDLVLTDHIMPEMDGFDLAAALRAAENEVAIIVVSSNT
+SLADNDPSRDLVSTVLKKPIPRSDLFAQLSAVKIVPPNRSDLPLRKMRILAAEDNKTNQL
+VFSKMIQHLDIDLMIANNGQEAVDMYQSYRPDMIFMDISMPKMDGKEASMAIRKIEGTTG
+IRCPIVALTAHAMSGDDKNILAAGLDHYLTKPLRKQDIISQIAQNQPHGTRPLEADAPHH
+ATG
+>tr|B7RGN8|B7RGN8_9RHOB
+MALLLGVDTGGTYTDAVLIRDEAVVIASAKALTTRNDLAIGVGNSVRAVLADAGVDAADV
+SLASLSTTLATNALVEGQGGRVALVYIGFKERDLAAHGLAEALKGDPHLVLAGGHNHAGG
+EAVPLDEAALTAFLETHKDDVSGFAVASQFATRNPAHELRAAGLVTQITGRPVSSSHQLS
+AKLNGPKRALTAVLNARLIGMIDRLIGRAEDVLIEIGITAPLMVVRGDGALISSAQARER
+PIETILSGPAASIVGARWMTGADHALVSDIGGTTTDVALLRGGRPAIDPAGAQVGQYRTM
+VEAVAMRTTGLGGDSEVHFLTEGLEGGVFLGPKRVLPVSLVAMDAPEVVHAALDAQLRAT
+TPGEFDGRFVRAVAGQTLEGIGPREQTLLERMGAAVHPLGDILRSRIETGALKRLVERGL
+VQVAGLTPSDASHALGRVDVWDADAARKALRLFGRRRTGAGDMLDPDPDAMAQRVIDQLT
+QQTALALLETAFAEEEPAFPGSPEVLARHVLLQRGLQGHRGLLRIDAALNLPVIGLGASA
+PAYYPAVGTALGAQMILPQHAGVANAIGAVVGRVTMRESGTVTSPSEGKFRVHLASGPQD
+FGDQEGALAMLESVLRDKAKADALAAGAADIQISVLRDIRTAGVESREVFIEAIVTVEAT
+GRPRVADG
+>tr|B7RIE4|B7RIE4_9RHOB
+MVKSLFAALQIFIVTALPVCAKDMKVPEGDVILTVWGAVGVTNVDEKAQFDLGMLEALGD
+RTVETSTIWTDGPQTFQGVSLDLLIERLGASGDVLRASAINDYYVEIPVSDAVEGGPIIA
+YKMNGNVMSVRDKGPLWVIYPYDADPEYRSEVIYSRSIWQLDRIEVMD
+>tr|B7RGZ1|B7RGZ1_9RHOB
+MTDTTKQDRVLIFDTTLRDGEQSPGATMTHAEKIEIAGLLDEMGVDIIEAGFPIASEGDF
+AAVSEIAKLSKNSVICGLARAQLGDIDRCWEAVKHAAQPRIHTFIGTSPLHRAIPNLTMD
+EMAERIHETVTHARNLCDNVQWSPMDATRTELDYLYRTVEIAIKAGATTINIPDTVGYTA
+PRESAELIRKLLENVPGADEIIFATHCHNDLGMATANSLAAVEAGARQIECTINGLGERA
+GNTALEEVVMALRVRNDIMPYQTRVDSTKLMNISRRVATVSGFAVQFNKAIVGKNAFAHE
+SGIHQDGMLKNAETFEIMRPEDVGLTETNIVMGKHSGRAALRSKLENLGYELGDNQLKDV
+FVRFKELADRKKEIYDEDLIALMRTATDPESDRIKLKSMHVVCGTEGPNVAKMTLIVDGA
+EHSTEQTGDGPVDASFNCIKALVDHSARLQLYQVNAVTEGTDAQATVSVRLEEDGRIVTG
+QAANTDTVVSSAQAYIHALNRLLVRREKGGTDKREISYKDAGW
+>tr|B7RFL7|B7RFL7_9RHOB
+MPVVNRIADFAPLMAEWRRHLHTIPELGFDCPKTAAFIKERLQEFGVDEIHEGIAQTGIV
+AIINGTGAGPTIGLRADFDALPILEETGVEYASTHPGKMHACGHDGHTAMLLGAAKYMVE
+TRNFAGRVALIFQPAEEDGGGAQVMCAEGMMDRFDIAHVYGIHNMPGAEFGAFFTTPGPI
+MAAVDSFTIQINGRGGHGAMPHETADPVVAACGIVQAIQTISSRNVLSAQEHVISVTQIH
+TGSASNIIPDTAMINGTVRTFDKDVQTLIRTRMEAIIQGQAASYGVTATLDYEEGYPSTV
+NAPEQTALAADVARSIVGDTHVDAEFARVAGAEDFAYMLEERPGAYLFLGAGEGAGLHHP
+KFNFNDDVAPVGASFFVQLVEQLQPAAGH
+>tr|B7RJL7|B7RJL7_9RHOB
+MDIGHRLRTIREERGLSQRELAAKAGLTNGTISLIEKNKTSPSVASLKSLLDAIPISMAE
+FFSPLEDAETPKVFYRQSEFIEISPSSEGQVSLRQLGNAEQHSLQVLHETYPPGADTGPE
+LLVHDGEEAGVVISGEIEVTVDNAVSVLAPGDGYMFDSRLPHRFRNIGTVTCVVVSACTP
+PSF
+>tr|B7RMS1|B7RMS1_9RHOB
+MSDLPTSASAPPRAVIAQTIARILERVNAISADGPGFTRPSYSALESQAHAVVEAEAVAL
+GCLVRRDAAGNLFATMPGQNRAARPLYIGSHLDTVSQGGAYDGQAGVIGALAVLTAFHSA
+GLTPPMDLVLTITRAEESVWFPVSYAGSRAALGRLNPEDFDAPRSDTGLSLAEHMALEGF
+DPEAVRSITPPEPARFLEFHIEQGPVLHDAGEAYAVVDRVRGGLRYRSAEVHGIWAHSGG
+APRASRADAVVALAELILSMDAVWDRFLDEGNDLTVTFGKVDAASPQHAMAKVPGHAEFC
+LDLRSDQTDTLEAANAALLREVARIEKARPGVRFDLGAQTRPAPAQLSGEMARFVTAGAA
+AQGDDPRHMLSGGGHDAAAFGAAGWDSVMVFIRNWNGSHCPEEGMDEADLARAVGAVFLA
+ILQEAAG
+>tr|B7RPG8|B7RPG8_9RHOB
+MTPFALMEKLISFPTVSRDSNIPLVDWVADYLSSHGIDSHRYIDPNEPKHALFAHVGPWE
+EGAVVLSGHTDVVPVDGQPWDSDPFSVVERDGRYYGRGTCDMKGFDAMAIWALVEAKYAG
+VSRPLQVALSFDEEIGCLGAPPMIQAMQPVLPKGGLVIVGEPSTMQAVTGHKGGIGFNTH
+VVGFEVHSSLLHTGVNAIMAGAKLIEWANEMNTENFARKPTELAAMFNPPFTTCHVGMIS
+GGTAHNITAKDCNFAMDFRVVPGEDKDAWGTAYLKKVREVEKQMQEVVPETYIEITPRFD
+VPALQPEKDGLAETFVRQITGDNASHKVSYGTEAGQFQEAGYSAVICGPGDIAQAHQPNE
+YIEISQFNAGHDFMRDLVERLK
+>tr|B7RG50|B7RG50_9RHOB
+MRVGLYPGTFDPITLGHLDIIRRATTLVDKLVIGVAINRDKGPLFELTERVALITSECAK
+LQEETGVEVVVHPFENLLINCARDVGAQMIIRGLRAVADFEYEYQMVGMNRKLDDSIETV
+FLMAEAEHQAIASKLVKEIARLGGDVSKFVTPTVNAELLKRFAK
+>tr|B7RHG8|B7RHG8_9RHOB
+MERSLFSFIWRHSKRDQIVLAVVTLMLFPLLYVTLELPKRIINDAIGAASNRVTVFGVEL
+AQTTFLLILCFGFLGFVILYGVMKMRVNTMKGVLAERLLRRFRFALIGRILRFPRAYQQQ
+TSEGELVAALTAEAEPLGGIMGDAIATPLLQAGQMLTILLFLFLQNFWFGVAAMAMFPVQ
+VWLIPQMQKRINVLNRSRVRQVRSLAAEVGEITTGAATLRQHGGWTARMATVSARLGRLF
+NTRFDIYRKKFFMKFVNNLLTQITPFFFFLVGGLLVINGSLTIGALVASLAAFKDLSAPW
+KELLTYYTTVQEVSQRYHMIVERFDPPDMLADFLAESPYDVAEQPMAGTVSLSNVIVQDD
+MGRQLLSGASLEVAAGDWLCIAAPEDEDRAMLAELLLRDIAPASGQVKIGGHDLTTIGQH
+HIARMIGHANATPYIFRGTVGDNVMVPLTMAPALHLSEADLHEAQRSGNMLGLTAPPHPT
+DAQLASARHDWQLLVSAIGAQKSLLSKALDRFLAHPEDSILQDQLTALRSTIPAQIDGLN
+LKDAIDSFSDDIYFDDLTLAENLLMALKAKEDWIGPRSTQKLRDLLVALDLLDLVIDQSL
+TLAKTLVESFDSDTTGSVLFRRLGIPGDILPQLQKVIEQTKITGETLKFADETLLLSLQF
+NVPARAFDRAFTKKVKNAIIAARPKVKTLADPSLANRYLPLQADHWNERLNVLENLVFGK
+VTPEGRQNMEQIRDQVVDALVAGVAEDALFDLIQRLPTGLRGANLSAQIAEHISLAQVVV
+KRPGIVILDRAMASFPDPVRHASFALLRKILPDATILQLEAALPEDGPHDNQLELRQGRL
+IAVGQDTDHAPDSSETSDLHKKRSALRKAPLFRELSRSQLRLLAFSARWVDIEPGQIVFR
+KNDLPDGAYLIYSGAIELYDEDETGTVTFSVIPPPGTLVGEVGLIRNDPRRLSMRAQSPV
+TLLRIDPEDFLSIIESDARTAFKLIQYLVGYIGTGK
+>tr|B7RMQ1|B7RMQ1_9RHOB
+MMTNALIVIDVQNDFCPGGALAVPDGDGIIPGINALMAEADAVILTQDWHPAGHSSFASS
+HAGKAPYDMIDMPYGPQVLWPDHCIQGSKGADFHALLDQTSADLIIRKGYTPSIDSYSAF
+FENDRTTPTGLEGYLRTRGITHLTMVGLALDFCVNYSAVDAAKLGFQVDVRRDLCRAIDM
+NGSLDAAVQAMTGAGVSLTGS
+>tr|B7RPM9|B7RPM9_9RHOB
+MRRSDRLFALLSTLGDHTLHRAEDLAAAQNVSLRTLYRDIGRLQSSGVPVTGTRGAGYRL
+DRATTLPPLTLTDPEIEALQLALAIVLETTDPDLKSAATTLASKIDQSLPLEGARQATDW
+QHIEHPFANAARGLGHLPVLRAAIRARQKLKIVYNRPDKTLHSLILHPVSLHHQARSWIL
+KGWSETTGTDIALRLDLIEAADALPELFTPRL
+>tr|B7RHN3|B7RHN3_9RHOB
+MMTKIDAAPFAFPFDRDKIALVVIDMQRDFIEPGGFGASLGNDVSLLGAIVPTVRRLLDG
+FRAAGLPVFHTRECHLPDLSDCPPAKRLRGAPALRIGDAGPMGRILIAGEPGADIIPELA
+PLPDETVIEKPGKGAFYGTGFGDMLAARGIAQLAIAGVTTEVCVQTTMREANDRGYDCLL
+ATDATESYFPSFKAATIDMIVAQGGIVGWAAPTDAILEALDG
+>tr|B7RPU2|B7RPU2_9RHOB
+MTSILRADIPLKANFQAEGDRLFVQSVGRAMQVLSAFHLADGPLSLTEVAARAGIDRSAA
+QRLIHTLLTLGYIRRSWDDRGYLPGLRLLDHTLDLLRLDPVIQKATPVLLELRKTIHERV
+DFSLFDQTRLIYALRMQSKRETFYATLVGHSVPTYCTAGGRAVLSALSDDAARDVIMQTN
+LKAYTTKTQTDPDAIIELVGQARKDGYAVVVDEFVQGEVAIGVAVTRRDGMPLGAIHVAG
+SLSEWTPEGFVSQAAPLATVAARNIIGSL
+>tr|B7RRZ2|B7RRZ2_9RHOB
+MIDPVDPKARTEVRRGWLLSAPALVLLAVGASGPLLIMLLYSFLEAGQYGNVEWVLSFKA
+WFNVIMTRDIFDGTLGFADAHLTIFWRSFKLALLTTVFAFIVGFPTAWFIATRNPGMRTA
+LLFLITIPFWTNLLIRTFAINQIIRNEGFLNTFLLWTGAIKTPIVMLYTDFAVFIGMTYV
+YLPLMVLPLFAAIDRFDMRLLQAGYDLYASRWQLLRHVIVPVVKPGIISGSILVFIPALG
+AYVTPRILGGGRNMMIGNFIELQFGQGRNWPLGAALSVVLLVVVSVALIVYIRFATGSQD
+KSNG
+>tr|B7RGB3|B7RGB3_9RHOB
+MVSLNQLIAVCLLYVVGLFIVAFAAERAAIRGRGDWLLRSPLVYTLSLSIYCTGWTFYGA
+VGYAARSGLEYVTIYLGPSLVMIGWWWLLRRLVRIGRSHRVTSVADLISSRYGKSNLLAI
+LVTVMAVIGVTPYIALQLQSVTLSLSIFAAPAGVANGVLDGRAEPINTAQAAFWIAIGLA
+LFTVLFGTRNLNVNERHHGVVIAIAVEAVVKLLALIAVGVFVVWGLAGGVTEAMTRIDQS
+AIGTWQVDGGRWAALTFLAAAAFVCLPRMFQVMVVENDEERHLQTASWAFPLYLMMMSLF
+VVPIAVVGLDLLPAGSNPDLFVLSLPLSQGHNTLAMFAFLGGFSSATSMVIVATLALSTM
+VSNHIVMPIWLALGQTSVQQSGDVRHVVILSRRVSILFIISLGYFYYRASGGSGALAAIG
+TISFGGVAQFLPVLLGGIFWRGATRMGALWGLGIGFGLWVFTMLLPSFGPDAVLSAATLE
+QGLFGIGWLRPQALFGVGGLDPTVHAVVWSLSLNTLAFILVSLFSFPSPVERLQGAQFVN
+IFDHSSPARGWTASVAASEDLMIMAQRILGAAEAQAFFRAQAQLQEKSEGLPEPTPAFVQ
+ALERELAASVGAATAHAMVSQLVGGASVSVQDLLAVADESAQMLEYSSQLEVKSRELSDT
+AEKLRRANDKLTQLSHQKDSFLSQVSHELRTPMTSIRSFSEILRDAEALSPQEKTRYASI
+IHSETIRLTRLLDDLLDLSVLENGEVTLNQQRGSLRDVLDLAVTTGQAANIREIKIDRDR
+DSEDVALETDLDRLSQVFINLITNAQKYCVSDAPCLAVRVHASGSTVAVDFIDNGAGIDA
+DARDLIFEKFTRVAGQGGEGAGLGLAICREIITRLRGEISYLPDSPGTGFRVTLPTPQPG
+KLQELNRFAASA
+>tr|B7RIY7|B7RIY7_9RHOB
+MADLNKLSLAEARDALRKGDVSSAELTGACLTEIEGAGALNAFVHHTGDLAMDQAKAADE
+RIKAGDAPAMCGLPIGIKDLFCTKNVPSQAGSRILEGFLPQYESTVSQNLFDAGAVMLGK
+LNMDEFAMGSSNETSVYGNAVNPWRRAGDDAQLTPGGSSGGSAAAVAADLCLAATGTDTG
+GSIRQPAAFTGTVGIKPTYGRCSRWGVVAFASSLDQAGPMTKTVRDAAIMLGAMAGYDAK
+DSTSADLAVPDFEAALTGDIRGKKIGIPREYRMDGMPEEINTLWQDGIAMMRDAGAEIVD
+ISLPHTKYALPAYYVIAPAEASSNLARYDGVRYGHRAKLDHGDGITEMYEKTRAEGFGPE
+VQRRVMIGTYVLSAGFYDAYYNRARKVRTLIKKDFEDVFASGVDSILTPATPSAAFGLGE
+MTDADPVAMYLNDVFTVTVNLAGLPGIALPTGTNAQGLPLGLQLIGRPWEEADLLSTAYA
+LEKAAGFVAKPAKWW
+>tr|B7RNT8|B7RNT8_9RHOB
+MTITKTKGALRNMIAASCIGFGLLAPVSATSETLADALVGAYNNSGLLDQNRAVLRAADE
+DVAIAKSALKPVVRWTGDLTQNFNRTISGGSAFALPGTRTSTDQLTTSINLIASLLVYDF
+GASRFSVEAAKETVLATRETLVSIEQQILLRAVDAYMGVIQAEQIVSLRENNMRLLTQEL
+RAARDRFEVGEVTRTDVALAEAQLAQARSGLAGAQGDLISAKAYYKVAVGRAPGRLSRPP
+SLPRVSSTIAAAKGLAVRSHPDIKAVQHQVAAADLLIRSSQAQMEPQVSVQGSFGLTETF
+DSQASSRNGSVSLQVGQTLYQGGALSSAVRKNRAQRDAQRGNLHVVVKDVERAVSDAYAG
+LASARAQIQASERQVRAAEIAFQGIREEAALGARTTLDVLDAEQSLLDARSSSVTAQTQI
+YVAAYSVLQATGQLTARDLKLPVQIYDPSAYYNLVKDGPAKFSKEGKQLDRVLRALQKD
+>tr|B7RKX3|B7RKX3_9RHOB
+MRARGFVDSTKPNGGVAVTDEKITPMMAQYLELKAQYAEALLFYRMGDFYEMFFDDAVAA
+AEALDIALTKRGKHGGEDIPMCGVPFHAAEGYLLTLIRKGFRVAVCEQMESPAEAKKRGH
+KSVVRRDVVRLVTPGTLTEESLLEARRHNYLAAFAEVRDQHALAWVDISTGAFHVMPLTL
+ARLGPELARLSPSELIVSDAKEAELHGLVSDFDLSLTPLARSAFDSTSAEKSICDLFGIG
+SLDAFGSFSRADISAMGAIIDYLEITQKGKLPLLRPPQKEAESRTVQIDAATRRNLELTH
+ALTGGRAGTLLSVMDKTVTAGGARLLERRISSPSRVLDTVHARLDAISFAHENPRFREDF
+RQHLRNVPDLDRALSRLSLDRGGPRDLAAIRNGLTEAGHLADKADSADLPDLLSNAVKGL
+HGHEALIDLLDEALIAEPPLLARDGGFIAQGYDADLDEVRTLRDEGRSVIAQMQQEFVTL
+TGISALKIKHNNVLGYFIEVTSTHAEKMLSAPLSEKFIHRQTTANQVRFTTVELSEMETK
+ILNAGNHALEIEKRLYETLKRAIIDQSGPIGVASAGLAEIDLATALAEIAQTENWVKPRV
+DNSRAFDIQGGRHPVVERALAQQSGAAFIANDCALSADADNAHIWLLTGPNMAGKSTFLR
+QNALIALMAQMGSFVPASGAHIGLISQIFSRVGASDDLARGRSTFMVEMVETAAILNQAD
+DRALVILDEIGRGTATYDGLSIAWATLEHLHDVNRSRALFATHYHEMTALSTKLDGVENA
+TVTVKEWEGEVIFLHEVKKGAADRSYGVQVAQLAGLPPSVIARARVVLEALEKGEREGGA
+TQKTLIDDLPLFAVTPTPPPQPQKTSKVEATLAGIMPDELTPREALDLLYKLKEAAKD
+>tr|B7RLP6|B7RLP6_9RHOB
+MMDLNLSPAPDADLIKDGSEATFMADVVEASQTVPVIVDFWAPWCGPCKTLGPMLEDAVR
+AAKGAVKMVKLNADEAQQIVGQMQIQSLPTVFAFFKGQPVDGFQGALPQSEVKAFVDRVI
+KAGGGEAPGETLNEAVAVAEEMLTDGAVQDALDTFSAILGEDPNHAAAYGGMVRAYIALD
+QLDAAEGHLNGAPIEISKSPELEAAHAQLQLARQAANAGPVAELQAAVDANPDDSQARFD
+LALALQASGDTQGAVDQLLTLFGKDREWNESAAKTQLFTIFDALKGNDPIALNGRRKLSS
+MIFA
+>tr|B7RP59|B7RP59_9RHOB
+MMLKTSLLSSAAVLAFSTTMGIAQETFALDEIIVSGGLSPIAAQEYGRSVSVVTAQEIQD
+RGISTVVDALRALPGVSVSSAGSGFVQVRMRGGEARHTLVLLDGVQLAGGEGEYTFSGLQ
+TTNIERIEVLRGPQSVVYGSNATTGVINIITRKGTVGKTYDGTFEVGGATAGSVFLSRRD
+ERGGISLSLSRRSDPSFDQSGDGGERDKLDRLTAVLSGDYLVTDTLKLGFVLRRSKEYFD
+FDATNFAATDADSYIVDDTTLMGHSKEVIGSVFAEYAMLEGRLVHRLAYERTENKARRDG
+APQTQTDADVVKYRLSYGLDGNTVAEADHLLNVMLETHADSSPMTPLYERSSKSVAVEYR
+ARLSGGLDFQAGVRHDDNDLFEDATTWNVALSYLVPNTDIRLHSSMGTGVLNPSYFSLYA
+NAFGYTGNPDLDPERNKSFDIGAEFPVLQGRGTVDVTYFDETLTDEISPVSLGGGAFTYG
+NQTGDSTRKGVEIAGNLQATDAVALRMSYTYLNAKNPDGSVEIRRPRHELSLGATVETFG
+GRGQVAVDLRHVSGNYDTQFFGTYETAELPAYTTVDVATEYEVNDTYTLTARVTNLFKDE
+AVDVWGYGSPDRAAYVGFRANF
+>tr|B7RFS7|B7RFS7_9RHOB
+MTLPDGSTFTQADLPDQTTRRWVASRKAAVVRGVVYGLISQSEALDRYQISNDEFMEWVR
+AVSEHGEAALRATALQKYRQL
+>tr|B7RRB2|B7RRB2_9RHOB
+MGIPTGSSASRESATEPSVEQGMTGMNKINAAAATLFSLVSRIRNRAQHMDPEKLRRSVV
+AEVREFENRALKIGIDAQDIKIARYAICATLDDVVLNTPWGGQSIWAQQSMVGTFHKETV
+GGDRFFDLLARLEKEPSNNIDLLEFLYMCLSLGFEGRLRVEQGGSDKHLQIRAGLSRIIR
+AQRGPVEKDMSPHWEGVEQPHKVLSIWRPLWITTASVAILLTAIFLTFSWVLNRSTDRVM
+GQMSVLDSGQVAELMRRAPPPPPPPPPPDVQLNRVKGFLQKEISDGIVEVFQDQQTITVR
+LAGSNMFGSGSDRLQPAFEEPLRKVAQALDETEGPVIVVGHSDNIPIKSSRFPSNERLSL
+ARAEAVMRTLEGKLAKSDRLEAEGRAEKQPIADNSTREGRAKNRRIEIVLVRKDTT
+>tr|B7RKU7|B7RKU7_9RHOB
+MTAHFDDATRAQIDAARPDASTWLGANAGSGKTRVLTDRVARLLLNEVEPQHILCLTYTK
+AAASEMQNRLFKRLGAWAMLKDADLRASLAELGVTDAFTPEKLRMARTLFARAIETPGGL
+KIQTIHSFCASLLRRFPLEAGVSPQFTEIEDRAADLLRAEIVDNMAEGRDAPLVTALARH
+YTGEDFSKLTNSIVGQREGFAQPMTWEGALVLFGQPANLSEETIASSVFLGSEQSILAEM
+IPPMIEKGGLDGKAAIKLQTLDKMDISALPVLEDVFLTGAGANNPFTAKIGAVPTKPTQK
+ILSHLMPQIDDLMARVESARDARLALRAAQKTLVLHQFADAFLKRYALEKQKRGWLDFDD
+LILKARNLLTNPAVAAWVLYRIDGGIDHILVDEAQDTSPRQWDVIERLADEFYSGDGARE
+DDARTLFVVGDKKQSIYSFQGADPREFDHKQALFEQKILEAGQIFQRRSLDYSFRSSSAI
+LQLVDTSFAPHASAGFQADTTHKAFKSALPGRVDLWPLVAKSDDADDREWSDPVDQKSEH
+HHTVILADQIARQIKTLVEGDHYIPVDGDSAGVFERRRIRAGDFLILVQRRSDLFSEIIR
+ACKTAGLPIAGADRLKVGAELAVKDLAALLSFLATPEDSLSLATALKSPLFGWTEQMLFT
+LSHYRSEDHLWQALRSSTEHPETVSILKDLRAQVDYLRPYDLIERILTRHKGRRNFLARL
+GPEAEDGINAMLAQALSYERGAIPSLTGFLVWMQTDDLEIKRQIDNASDQIRVMTVHGAK
+GLEAPIVILPDTGKRPLVIRDEIIKVDDTPVWKLSDADMPSAMRAALDERKEREMNERLR
+LLYVAMTRAEKWLIVAAAGDLPKDESSWYQMIGAAMGQAGAEPVGQTGVLRFQHGDWDGL
+PIRAKAQIPHVTPVLEPIFDQPVPAIPVREKTTSPSDLGGAKALAGEDGLAEEDAKSYGS
+LVHQMLETLPLMQSDRWDTVLKTLSDGYDAGVARAALDEAVALMQNADIRHIFDADALAE
+VPITATIADKRIHGTIDRLLVTESSVLAIDYKTNRVVPHTTEACPEGLLRQMGAYAAALR
+QVFPDHDIRTAILWTRTATLMALPDDLITNALTRALNLDDGTMAT
+>tr|B7RM84|B7RM84_9RHOB
+MAKHEHGSMDTTSQEKTFDNFMNWVKWSCIVIIGILVFMAIFAR
+>tr|B7RLZ4|B7RLZ4_9RHOB
+MTQLFISHLTLSHFRSHKRAIVDSDTRPVAIHGPNGAGKTNILEAVSLLSPGRGLRRSSA
+LDMTRRPEALGWKVTALLHSLGSAHEIEIWSEAGAARQVRIDGKATPQTALGRIARVLWL
+IPSMDRLWIEGAEGRRRFLDRMTLSFLPDHAEQSLAYEKAMRERNRLLKDMVREPSWYLA
+LEQQLAEAGAAIHANRQSALQAITEAQSQAETAFPTATLSLICDMPTTAQDLRAALADNR
+MRDLAAGRTLIGPHRADLEGVYAAKDVPARDCSTGEQKALLVSLILANARALAADFGAPP
+LLLLDEVAAHLDASRRAALYDEITALGAQAWMTGTGAELFDSLGPRAQMLEVTETDGISG
+TRMQP
+>tr|B7RQG7|B7RQG7_9RHOB
+MIDMGFLSVIRRWALRDKMPIREIARRTGLSRNTIRKYLREGAAEPTFKTPSRASKLDPY
+ADRLSAWLLAQTRKSRKERRNVKLMYEDLVKLGYDGSYERVAAFARAWRADRHRAEQTTG
+RETFVPLVFQPGEAFQFDWSEDWATIGGERVKLQVAHTKLSHSRAFIVRAYPLQTHEMLF
+DAHWHAFRVFGGVPGRGIYDNMKTAVDRVGRGKQRDVNARFKAMASHYVFEPEFCNPAAG
+WEKGQVEKNVRDARNRLWQVMPVFKDLSELNQWLEDRCIALWSETAHRELSGSIADVWEA
+EKPVLMVLPPAFDGFVEHSKRVSPTCLITFERNRYSVPASFANRPVSLRVYPERLVIVAE
+GQTVCIHERIIDRSHRKPGKVIYDWRHYLAVIQRKPGALRNGAPFTEMPDIFRQLQDHML
+RKEGGDREMVDILSLVLHHDESAVLRAVELALESGVPTKTHILNLLHRLIDPKQTDHPEI
+DPPDALALETAPKANVDRYDDLRQAGGKRNAS
+>tr|B7RR64|B7RR64_9RHOB
+MPHTTLRFCGAARTVTGSCYWFQTDQCNFLVDCGLFQGPKTLKELNYRPFPFDPAKIDFV
+LQTHAHIDHSGLLPKLAISGFKGPIYTTEGTRDLLTFMLPDSGYIQEMEVEQLNLRNLRH
+GKPEVQPIYTRQDAEDCLGLFKTIAYQIWTSVGKGVRARYWNAGHILGSASIEVEIDQEN
+SGPVRLLFSGDIGPDNKLFHPDPEAPSDFDYVISEATYGGRERADITPAARQDALRQEVL
+GALKHDGMLLIPVFAVERTQELITDLLALQEAGEIPKVPVFLDSPLAIRVTKVFQRHAGD
+LEDLGPVPRFINNPAIHPTETVEQSKQIAKISGGAIILAASGMCEAGRIRHHLKKWLWQD
+KATVLFVGYQAIGTLGRILLEGAKSVKIHGQEIRVKARIRTIDTYSGHADGSELTDWIME
+RRPIKQALVLTHGEEPQLRALKSALIGKGFNDQDILIPDLDDVITLGVKAAPILEPAVQK
+RLPPAALVGPDWHNDLTELVFELRDKFEEAADDKARGKLLRRIRRALQDEA
+>tr|B7RJW2|B7RJW2_9RHOB
+MGLLVDGVWQDQWYDTKSSGGKFERSAAKFRNWITADGSAGPSGDAGFKAESGRYHLYVS
+YACPWAHRALIFRALKGLEDHISISVVHPDMLGDGWTFDTDFDGATGDTLFGLPFARDIY
+TKAAPKFSGRVTVPILWDKAQNTIVSNESSEIIRMFNSAFDDITGNTDDYWPKQMREAIE
+PVNSRIYDTVNNGVYKAGFASTQDAYDAAVVPLFDSLEWIEGILSSSRYLMGDTLTEADW
+RLFTTLVRFDMVYHLHFKCNRKRIVDYPNLWAYTRELYQVPGVADTVVMDHIVRHYHYSH
+DMINPNRIIPINPVLDFMAPHGRG
+>tr|B7RNF9|B7RNF9_9RHOB
+MSDLLKGKRGLIMGVANERSIAWGIAKAMAEAGAELAFTYQGDAFGTRLKPLAESVGSDF
+MVDVDVTDDASLDAAFDQLGARWPTIDFVVHAIAFSDKSELTGRFLNTSRANFKHSLDIS
+AYSFIEIARRAYPLMKDNGGTLITLTYQGSNRVVPNYNVMGVAKAALESATRYLANDLGP
+EGIRVNAISPGPMKTLAGAAIGGARKTYKHTDQNAPMRANATLEAVGGTAVYLASDAGAC
+TTGEIIRVDGGFHVLGMPQAEHL
+>tr|B7RJJ6|B7RJJ6_9RHOB
+MAKRDYYEILGIAKGASADEIKKGYRTKAKELHPDRNSDNPNAEAQFKEANEAYEVLKSP
+DKKAAYDRYGHAAFEGGMGGGGQRPGGGFGGGQGDFSSAFSDVFDDLFGDFMGNQRGGGG
+RRAARGADLRYNLGITLEDAFKGMQKSINVPTSIACDSCNGSGAEGGAEPTSCPTCSGMG
+KVRAQQGFFTVERTCPTCSGMGQIVKNPCKSCRGAGRVEKDRTLSVNIPAGVETGTRIRL
+AGEGEAGMRGGPSGDLYIFIEVQDHELFERDGSNLFCRVPVSMSTAALGGSIEVPTIDGG
+RGRVQIPSGSQSGRQMRLRGKGMPPLRGGGTGDMIIELAVETPVNLTSRQKELLQEFEKE
+SENNNPESSSFFSSVRSFWDSMKG
+>tr|B7RJR4|B7RJR4_9RHOB
+MFNHNRLPSFNDYQEYTMTFTKKMMTATAALALTTGAAFADAHAMKNSMVGGAEMSTEMN
+IVENAMNSADHTTLVAAVKAAGLVETLSGEGPFTVFAPTNEAFDRLEPGAVEMLLKPENK
+EELTKILTCHVVSGEVMSEALLAMVAAGGGSHDIDTLGGCVIQASIEEGMLKLLDENSNA
+AFVEIADVKQSNGVIHQTGGVFLPKH
+>tr|B7RQY5|B7RQY5_9RHOB
+MDKSAATAITSFTLNGTIVQVDPAPGERLSHSLRERLDRKDVKIGCNAGDCGACTVLVDG
+APVCACLMATQQATGRKVETLAGLVKADPDAQALMESFQHHQAAQCGICTPGMMVSAVAL
+LRAEPQPTDAQVQDALGGVLCRCTGYRKIIDAVVGAHAADQMVKAPTELGHSARRFDGLP
+KVDGSEKFGDDVAPAGALVARVIRSPYPSASFTFGDIAAWQAQHPGIETVLTAKDVPGLN
+AFGVIPGFIDQPVFAVSHIRFRGEAVACVVGDADVMAALDLGSFPVEWTSQITLSDIDDA
+ITHDAPLLFDDRKGNIMCGGFVKCGDADAALDAADAMVEATYKTSFVEHGYIEPEAGFAE
+MVGGRLHVHACTQAPGMDRETLASVLNMPMADIRIVPTAVGGGFGSKIDVSLQPFIALAT
+LKTGKPVRMTYARNETMQSTTKRHPAQISIRIGAKSDGTLSGLSFDGDFNTGAYASWGPT
+VANRVPVHASGPYRIPDYRARSRAVHTHCPPAGAFRGFGVPQSAIAQETAFDLLAEKLGM
+DPLAFRLKNALTDGVPTVCGQVFDQGVGIKACLEALQPAWEAAKTDCAAFNTTSRTHKRG
+VGIASAWYGCGNTSLPNPSTIKAGLRADGTVVLHQGAMDIGQGSNTVIPQIFAKALGVSI
+DGLILLGADTDITPDAGKTSASRQTFVSGNAALKAGETLRSEILRQANAGPDARITLESG
+QVIVTEAGRTQALDLSRLDANTEGYVLMAQETYDPPIKPLDENGQGIPYAQFGYAAHLVV
+VEVDIALGLCKPLRFVAAHDVGRAINPLLVEGQVQGGIAQGLGMALMEEYIPGRTENLHD
+YLIPTIGDIPPIETLILEVADAHGPYGAKGLGEHVLIPTAPAIFNAIYHATGAKVTHAPA
+TPTRLRAALKEAGHA
+>tr|B7RSH7|B7RSH7_9RHOB
+MNLPIDLPPLKGFRYPREIIAFAVWAYHRLALSTADVEDLLAARGVIVSREAIRLWVNRF
+GSHFADCIRRERPRPNDKWHMDEVVITIRGKKHWLWRAIDADGDVLDILVQTRRNAKAAK
+RFFQRLVSQFGEPRVVITDKLRSYIKPVKTQAPNADHRAHKGLNNAIEVSHRPTRKREKI
+MGRFKSHRQAQRFLPAHDQINLIFRPRRYQLTATSYRHARNDAFSLWAHYTAEMTA
+>tr|B7RKK7|B7RKK7_9RHOB
+MGGSCDEASQNRKTSWKKNPEAVKENILTIATEEFAAQGLSGANINEIAKRTATSKRMIY
+YYFGDKEGLYQHVLERVYSSLRETEQALNVSDLEPVAALRRLTEATFDSHVNNPHFIRLV
+MIENIHNAEYVKKSEIIPKLNKAIIEKLADVCERGKASGVLREDADPLELHWMTSSASFY
+NVSNMATFSTSFGNSLYTKEGQKRMRQRVVDMVLGAVVVGYQPPPVS
+>tr|B7RH12|B7RH12_9RHOB
+MRSFVEARDVANMAVFLGSDGARLVSGQVIAVDGHTENPDPKL
+>tr|B7RKE6|B7RKE6_9RHOB
+MKLTSYTNYAMRSLQLAAIKAPDLVRVDDVAKIHNLSRPHIMKIVHELGKAGYLETVRGR
+GGGFRLARDPADIIVGDVVRITEGPLDVVECFNPEKNTCPLIGICILSRKMQEATAAFMA
+VLDDLTIADITANRGQLLDRIAPLEFPPMGKA
+>tr|B7RH27|B7RH27_9RHOB
+MGWENGMRFSGLRVLREGLTGNKGWAPHWRDAEPKAEYDAIIIGGGGHGLSTAYYLAKEH
+GLTNIAVLEKGYLGGGNVGRNTTIVRANYFLQGNSEFYSHSLKLWEGLEEDLNYNVMHSQ
+RGLINLFHSDGQRDAFARRGNAMINQGDDAVLLDRDGVRKHLPYLDFDNVRFPIYGGLLH
+PRGGTARHDAVAWGYARGASDRGVDLVQQCEVTGIDIENGQVRGVQTTRGAIRAKKVGIV
+VAGRSGQVAAMAGMRLPIESHVLQAFVTEGLKPCIDHVVSFGMGHFYISQSDKGGLVFGG
+DLDFYASYASRGNLPMAEHVMEAGMTLMPMIGKAKVLRSWGGIMDMTPDGSPIIDKTDTK
+GLFIDCGWCYGGFKAVPGSGFSFAHLMATGNHHAPAAKYRLDRFRNGVGLMDEEGTGSQH
+NLH
+>tr|B7RHK6|B7RHK6_9RHOB
+MTAKGPTKTRDPYEVLGLTAKATADDIKKAYRKLVRSSHPDLHPDDKDAEARFKAISSAY
+DLLKDPETRARFDAGEIDALGAERPQRQYYRDFADAPDNVYQQRRGGGPDVDPSDFFAEI
+LRNRGRAGGGFGFDTGFDRGFGGGFGGGTRSAAGADARYTLEVPFLDAARGTQTRITLPD
+GQGLAVKIPPGTQDGQTLRLRGKGAPGYGDGPAGDALITVSVLDHPVFKREGDDIVLTLP
+ITFDEAILGGKVTVPTIDGPVGLTIPAGASSGRVMRLRGRGLARKGQKAKGDQRVELKVV
+VPKETDADLRDFLTEWRKTHAFDPRTELMKGAAK
+>tr|B7RQN1|B7RQN1_9RHOB
+MSADQPQILLVEDEPAQREVLAYNLESEGYDVRRAENGEEAMLLVAEALPDLVILDWMMP
+LLSGIEVCRQLKTREDTRNIPVIMLSARSEEVDAVRGLETGADDYVVKPYSMRELMARVR
+TQLRRIRPAATGGQLCYQDITLDPERHRVNRATQELKLGPTEYRLLVTLLERPGRVFSRD
+QLLDHVWGRDIFVDTRTVDVHIARLRKALTQHGGDDPIRTVRGAGYALG
+>tr|B7RKC2|B7RKC2_9RHOB
+MTIKTAIIGLGIMGRRMLEHMVLHPDFTVVAIWDPDVDACHAAKAVAPDVQISADADAAI
+AAADLVYLACPPVPRKAYALAAAGAGKAVFLEKPLGVDIAESRDLVAQISALGVPAAVNF
+TQAAGEALTDVSASAQAGEMGDLMGADIVVTYAHWPRAWQQSADWLRFAAEGGMTREVIS
+HFLFFSERILGPLQLVWARADYPAGSDLCETHVAARLVAENGAPVTIMGAVGGAQPDRQE
+LTIKGAETSRRISEFYRDAKSDGGEFVPVTGDVADPRATSLRAQLDDLALLVAGKPNRLA
+TLDEALRVQILVEGILAGKTAG
+>tr|B7RLK5|B7RLK5_9RHOB
+MEKTLLLCDCLGSQTVDADGLSKAAGLACSKVHRSLCTDQINIAAEAIKAGDVTIACQQE
+RRRFEDLAEELEAEVPGFVDIRDRAGWHDGPGDATPKMAALVAEAHLASPAPRVLDVVSE
+GTCLVFGPADLALEVADKLADTLAVTVLVAAGSDVSIDPRFDVVRGKIRKAAGSLGNFNL
+TLDALEVMIPGGRGAADFTAPRDGALSQCDIILDLSGDTSLFPAPHKRDGYLRADPGSQP
+AVAEAVQQAMQMVGTFEKPLYVRLTESLCAHSRAEQAACSNCLDLCPTGAITSAGEHVAI
+DPLICAGCGSCSAVCPSGAITYDAPPVDTLFRRLSTLASTYRKAGGLAPRLLVHDEDHGA
+EMISLFARYGAGLPTDVIPLAVDALAGFGHAEMLAALGCGFTAVDVLLSPKTESDVIEAQ
+ADIARAISGSDAIRLLDLADPDALEGALMPGTLQPAHETLLPLGTRRQIARLAGKTLQPD
+AQVIDLPDAAPYGAVLVDTDACTLCLSCVSLCPSGALGDNPDLPQLRFQEDACLQCGLCA
+NICPEQAITLKPQMNLTDAAFTQVVLHEEEPFACIECGNLFGVKSTVEKITEKLAGKHAM
+FASSEAAKMIQMCDNCRVNAQYHAQNNPLAGKERPRVRTSEDYFSKRKDH
+>tr|B7RN22|B7RN22_9RHOB
+MNARTILAKLRHKQSPNRDELVWFAKALADGRVSDAQAGAFAMGVCHVGLSDVARVALTM
+AMRDSGRVLAWDLDGPVLDKHSTGGVGDCVSLVLAPALAACGAFVPMISGRGLGHTGGTL
+DKIEAIPGVSAQLDEAQFRHVVSEVGCAIVGATADVAPADKRLYAVRDVTSTVDSLDLIT
+ASILSKKLAAGLQGLVLDVKVGSGAFMKDLAQAQALASALTKTANASGCRTTAVISDMSQ
+PLVPSLGNALEVAEVMRVLTGQTTGPIVSVCAALGGVLLANSGLTQDVQAGADAIVRAIR
+EGHAAERFGKMIAAMGGPTKFVEDWSRYLPEAPIIGEVAAEHAGYVTAIDGEALGMAVVA
+LGGGRVVESDQINPAVGLSNVVRLGAKIGKGAPLAAVHALRPDDADGAAHAVRQAITISA
+QPVEVPELIIERIG
+>tr|B7RH85|B7RH85_9RHOB
+MFWTMKFQSFRGKRYYALTFVAMIWTLLMIGLEAASRTFPCQLQWATLAWLGNGLVPVAW
+CFFVFAYIDNPAWLKKRWVAIVLFVVPMASFLFAATNQWHNLVYTEASFIPPGKDYIEYA
+HGPGFFGIIAILYTFVLTALFCLVKTFTRAKRTAWPLLTMLIVITTIPLTANAAYVGLGF
+TIFGLDPTAFMFTLGIFAFTWMLVTNKAMDMAFVGQSVLFNTMSEPVVMIDRHRNITLMN
+TAAKRSGLPHESGPVLSKIIENIENLNTSEDVAHLTIGQRVYEPRIRELESPLDPSGAAL
+GWSITFVDITDRIAISAALEEALRQADEANKAKDEFISVVSHELRTPLTSLTGGLTLALS
+GRLGDVADPIRSLLNIAHRNGVRLSRLVDNILLVQKIDIDALILESKPVDLGHLLEESFE
+ENKMFASKRGVQLALGNIMPAVITGDAFAIRQIIDNLISNAIKFSNENSVVEGTLIAMNG
+QVRLSIKNAGRGIPEGMESQVFGRFEQVENSGQSSTQGSGLGLHISKKLAKQMSGDISYE
+SQLDVGTTFHVEFLLADQQAIEPAQLAG
+>tr|B7RKR9|B7RKR9_9RHOB
+MFSSRFQARKSRFLNHWHARAATRTRTQARGFVSAPEPRTIGSFARGRQLIAGNLLFSGN
+LIEAPDAETLWEVAIPELDFARELHGFAWMDDLAAVGDIRARATAQRWLWGWIDRFGKGR
+GIGWTPDLTGRRLIRWINHALFLLRGTDHEKSDAFYRSLVEQTNFLSRRWHGAAPGLPRF
+EALTGLIYAGLSIEGQEALADPAIKALARECDAQIDEQGGLPTRNPEELLQVFTLLTWAA
+AALSDAGRGTPKAHMAAIERIAPTLRTLRHSDGGLARFHGGGRGPEGWLDHALSTAKIKT
+TQPDGLSMGYARLAAGRTSVIIDASPPPGGAASVNAHASTLAFELTSGRRPLVVNCGSGA
+SFGAEWRRAGRATPSHSGLSLAGFSSARLSAPDRYTGQEALIACPTKVPVEIGALGDGTC
+FQGGHDGYVAGFGLTHARTLELTYDGRALAGEDMLLAIEEADKRQFDRQMDAVQLKGIPF
+EIRFHLHPDVDATLDLGGAAISMALKSGEIWVFRHDGNQKLSLEPSVYLERNRLKPRASL
+QILLTGRAMTHATRVRWSLSKAQETAIGVRDLSLDDPYDDQD
+>tr|B7RGY4|B7RGY4_9RHOB
+MPLNILFAARPERWTTYEKPLRAALKDEGIDAHLSTDIAPEDVDYIIYAPNSTLQDFTPY
+IRAKAVLNLWAGVENITGNPTLKIPLARMVDPGLTKGMVEWVTGHVMRYHLGLDTDILKT
+DATWVPRTPPLAQERNITILGLGALGTAVSETLVSLGFNVTGWSRSPKDVPGVTCLNGAK
+GLKQALSTAEIAVLLLPNTSATENTLNAETLALMPKGAFIINPGRGPLIDDDALLAALDS
+GQIAHATLDVFRIEPLPKDHPYWAHPKVTVTPHIAAETRATTASKVIVDNIRRGQAQEEF
+LHLVDRNLGY
+>tr|B7RM93|B7RM93_9RHOB
+MSIITPEIEKVDRSTRSIRYLEHGWPSDLCRWHAHEEYELHLITATRGKAFVGDYIGDFK
+AGDLFLTGPNLPHNWITDKVWSEPAPVRDMLVQFSHESVEKLAEGFPEFSQVLQLLQLAQ
+SGIVFEGFNPTFARGHMEAIRDNKGAERILAFIRCLVRLNEHAEKKTLSASKLIQPEGGS
+KQARIAEVVDYIVKNFSEGLSVGQAAERAGMTEVTFSRNFQTVTGHSFVDFLNRIRIGEA
+CGMLYASDEQITMISQEAGFKNLANFNRHFLKVKGMTPSQYRDTARKDLAPNMEQTS
+>tr|B7RN36|B7RN36_9RHOB
+MTIELYCFGESGNAYKAALALELSGLDWTPVKVDFFGGQTRSAEYRADVNAMGEAPVMID
+GDLRLTQSGVIQDYVTEKSGKFGGKDATERREVLRWVLWDNHKLSSNAGMTRFLMNFLPE
+DKRPQEVIGFMQGRLAAAYAVLNDHLEGRDWIVGDGITNADLSCCGYLYYPEPFGFNRKD
+WPHIDAWLTRLSETPGWKAPYDLMPGSPADRA
+>tr|B7RGR8|B7RGR8_9RHOB
+MPTQTEIELQAAAFRRLQQHLMQDRTDVQNIDMMNLAGFCRNCLSRWYQEAANERGIEMG
+KEEARELFYGMTMDEWKANYQTDAKPEQEEAFKVAFEENVGKG
+>tr|B7RGU0|B7RGU0_9RHOB
+MKLKFLTTAAALACLTLGTAAHAETLRLSHQWSNTDVRNKVAEIVANGVAEADVDLEIQI
+FGSQSLFKAREQYRPLSRGQLDMTVLPLSYAGGQQPAFNLTLMPGLVKNHDHAARLSESP
+FMAALEEKMADDDVMVLVHGYLAGGFVGKDKCITKPEDVAGSQIRAAGKSFEQMLAGAGA
+SIASMASSELYNGLQTGVLTAANTSSSSFVSYRIYEQVKCYTPAGDVALWFMYQPMLINK
+SKFESLTEEQQAALLAAAEKAQAFYLEEAKKEDASSEQVFRDAGVEIAQMSQADFEAWRA
+LAQKHPTSLHRRSA
+>tr|B7RJD8|B7RJD8_9RHOB
+MTIHIGAKPGDIAETVLMPGDPYRAKWAAENFLQDAKLVNDVRGMLGFTGTWNGHRVTIQ
+GSGMGMPSLSIYVNELITQYDAKTLIRIGSCGGMQPHVGIRDVIIAMTATTITSPSSGIF
+REMNYAPCADWSLLRAAVAAAEAMGTTTHVGGIYSSDVFYAERPDLDEQMTRHGILGVEM
+EAAELYTLAARHKRRALAVLTVSDHLQTGEALSAADREGSFGDMVEIALEAAFADV
+>tr|B7RL26|B7RL26_9RHOB
+MDIQTIGIVGAGQMGNGIAHVMALAGYDVLLTDVSADALQKAVDTITGNLDRQVGRGKVA
+EADRDAALARIVTTQTLSDLGQSDLVIEAATERETVKQAIFEDLIPHLKPTTILTSNTSS
+ISITRLASRTDRPEKFMGFHFMNPVPVMQLVELIRGIATDKETFAACRAVVDKLGKTAAS
+AEDFPAFIVNRILMPMINEAVYTLYEGVGSVESIDSSLKLGANHPMGPLELADFIGLDTC
+LAIMNVLHDGLADTKYRPCPLLTKYVEAGWLGRKTSRGFYDYRGDVPVPTR
+>tr|B7RPX9|B7RPX9_9RHOB
+MNGMIEHMQPDQSEIQPAKSDSRQQIIDAAAQCFMLKGLEKATMDDIADALGATKGRVYH
+HFRSKNAIYFAVHQQAMQYCFDAVAPVLALSIPSDKKLEAMAVAHARVMMDTLPYQRSIR
+LGVEIYLRGSTTEAERAVLTDLITQRNDYEDLYRDVLRAGVTQGVLRVPNIEIASRAVMG
+ALNGLVDWYRIRPEQTDADRDMIAQALAHAVVHGMTV
+>tr|B7RP17|B7RP17_9RHOB
+MADAAIHGQDHHDERGFFTRWFMSTNHKDIGILYLIVSALVGFISVSFTIYMRLELMHPG
+VQYMCMEGARFIADSSAVCTPNGHLWNVLITGHGILMMFFVVIPALFGGFGNYFMPLQIG
+APDMAFPRMNNLSFWLYVGGTTLAVCSILTPGGSGQLGSGVGWVLYPPLSVREGGMSMDF
+AIFAVHVSGASSILGAINMITTFLNMRAPGMTLFKVPLFSWSIFVTSWLILLSLPVLAGA
+ITMLLMDRNFGFAFFDPAGGGDPVLYQHILWFFGHPEVYIIILPGFGIISHVIATFSRKP
+IFGYLPMVWAIIAIGALGFVVWAHHMYTVGMSLNQQAYFMLATMVIAVPTGVKVFSWIAT
+MWGGSIEFKTPMLWAFGFLFLFTVGGVTGIVLSQAAVDRYYHDTYYVVAHFHYVMSLGAV
+FAIFAGIYFYLPKMSGRMYPEWAGKLHFWAMFIGANLTFFPQHFLGRQGMPRRYIDYPEA
+FAYWNLWSSIGAFLSFASFLFFFGVMFYTLTRGARSTAANPWNEYADTLEWTLPSPPPEH
+TFEIIPKQEDWDKQPSH
+>tr|B7RPZ8|B7RPZ8_9RHOB
+MRKAKGTDRQRDPDRIMRIIRGLDADIVVLQEADMRLGARPSALPLDAVQVQTGLIAVPV
+PGDVSIGWHGNAVLLHRQAEIVEVHHIDLPGAEPRGAMVVDADIHGVSLRIIATHLGLMR
+SSRRAQLSRLIAHLDERSRRPTLIAGDMNEWSQTVGLGRLAHHFTIYAPGKSFHARLPMA
+ALDRIAMDDDFQLVDGGVVETQDAKRASDHLPIWLDFTPMVFPRPPSDT
+>tr|B7RHE4|B7RHE4_9RHOB
+MTEHSPVTQTDAKPVPTLPDAQTVISVKHWTDRLFSFRVSRPASLRFRSGEFVMIGLMGD
+PDPKTGKQKPLLRAYSIASPSWDDELEFYSIKVQDGPLTSKLQHIQPGDEIILRPKPVGT
+LVHDALLPGKRLWLFATGTGFAPFASLLREPETYENFDQVIVTHTVRDVAELDYSRSLIE
+EIQNDEMMHELIGKDNLAKIVYYPTTTRQDSPKMGRITTLLQDGTVFADLGIDGITAGTD
+RGMVCGSLDFNKDIKEVLEGFGLEEGANSDPKHYVVEKAFVG
+>tr|B7RQS5|B7RQS5_9RHOB
+MGAAYFYHLTRRPLVETLTMLLGKAQGAGWRVAVRGTDAAVLAQMDAALWRQGPEDGFLP
+HGMAGGPHDAAQPILLTTSADIPNGASCVFSIHGAEVSAAEVAALDRVCILFDGEDDIAL
+NKARGQWKALKAAGASAQYWSEESGRWEKKAET
+>tr|B7RIX9|B7RIX9_9RHOB
+MTQQKLAELVGIKFQQIQKYETGANRVSASRLWDIADALNVSVAYFFEGMDSEQTKNQDV
+PDNIPADLIGDKEAMDLVRSYYAIPENQRRRLFELARVLSDVA
+>tr|B7RKP1|B7RKP1_9RHOB
+MRIEADRFLKDLHALRGFGASGVGKGVVRPAYSDADIAARRWLARQMEDAGLRVEVDAMG
+NLFGLAEGPSLLLGSHSDSQPEGGWLDGALGVIAALEVARAARDAGGPAVSVVSFQDEEG
+RFGVTTGSAVWSGQLTQKDADRLVDHAGIALGDARRAVADMVTGAVSAEQFTGFIELHIE
+QGPTLDTSGEQIGVVTDIVGIRDMKITFEGQQNHAGTTPMHLRRDAFQAVSAFNAVLNDR
+LRNVVTPQTVWTIGHLSLHPNASSIVPGRAVFSMQWRDADSDRLGRMETVIRTAASEIAE
+DRGMDLSYGPMLGLEPVSMDQRLRSALEAGAEAVAPGKWRTLPSGALHDATNVSRLMPVA
+MLFVPSIGGLSHTFEEDTGEADLVAGVQVLAHAVARLGSEA
+>tr|B7RQ74|B7RQ74_9RHOB
+MIYDDITDFAAALPPMQALIGLDLGEKTIGVAVTDSFLSVATPLETVRRKKFGLDAALLT
+QIIADRRIGGVILGLPRNMDGSEGPRCQSTRAFARNFDKLVDLPIGFWDERLSTVAAEKA
+LLEADTSRKRRAEVIDHVAASYILQGVLDRLSVLRAKGGLA
+>tr|B7RJ65|B7RJ65_9RHOB
+MKISILALVASVGLAANANAADIAPTAVTYVDGAVEASLTGTAGNPEEGAKVVGSKQLGN
+CVACHEVSALPDIAFQGMIGPALDGAGSRWSEADLRGIVANAKMMFEGTMMPSFYKDTGY
+IRPGKAYTGKAADDTLGPLLTAQQVEDVVAYLATLKD
+>tr|B7RH07|B7RH07_9RHOB
+MPHGKPLAMARALRECGRKSSRRDAMKMNKLGRTDIEVTDFCLGSMTWGTQNTPEEGHAQ
+IDRALEAGINFIDTAEMYPVNPIKAETVGLTEQIIGQWIAKSGRRKDFVLASKHSGEGAA
+VRDGAGISSKTIRDTVEGSLKRLQTDYIDLYQFHWPNRGSYMFRKNWTYDPSSQNRSETI
+AHMEDCMGALQDEVKRGTIRSFGLSNESAWGLTQWAEAAERTGGPRPVSVQNEYSLLCRL
+ADTDLAETCHNEDIGLLSFSPLAAGMLTGKYQNGALPDGSRMAINGDLGGRKTDRVFDAT
+AAYLDIAQKHGLDPTQMALAWARQRPFMTSIIFGATSLDQLEVALGAIDLELNDEILADI
+NAAHKAHPMPY
+>tr|B7RK71|B7RK71_9RHOB
+MSVTDPDTLSNEAKRARLFTRINKADNWFQVLGLAWITPVLKAAAGDNPRAQMGEIWRLL
+GVPLLAIVIFLLAWGILAPKVQTSLGAVPGPAQVWEQAISLNADAIRERKKEAAFYDRQD
+VRNAKLVADGRADDVKQREYTGRPTYYAQIWTSIKTVFFGFLIASLVAIPLGIAAGLSKT
+ANAALNPLIQIFKPVSPLAWLPIVTMIVSAVYASNDGMFSKSFLISAITVTLCSLWPTLI
+NTALGVSSIDKDLVSVSRVLKMNTWTKITKLVLPSALPLIFTGLRLSLGVGWMVLIAAEM
+LAQNPGLGKFVWDEFQNGSSQSLAKIMVAVFTIGIIGFLLDRVMFALQSMFTFSANR
+>tr|B7RKL6|B7RKL6_9RHOB
+MANRWINTLKDKDVTPEDMFLNRRQIMGGALAGVGLAGMGSSVSAAPEGLEPNSYEEITS
+YNNYYEFGTGKDDPARYAGKLTTTPWTVQIDGMVDNPGEFAFEDIMKAMTIEERIYKFRC
+VEAWSMVVPWNGFELADLLNMAGVQSGAKYVAFETALRPDEMPGVAYPVLDWPYVEGLRL
+DEAMHPLTIMATGIYGKDIPNQNGAPLRLVVPWKYGFKSIKSVVKITLTDKQPATSWNKA
+NAREYGFYSNVNPEVDHPRWSQASERLIGGGLFSKRVPTLMFNGYEGEVAGLYEGMDLAK
+DI
+>tr|B7RPR2|B7RPR2_9RHOB
+MSALDLTRLGAWRDLPFFTDTLPGICDALEADPRATLPAASQIFAALEQTRPDDVRVVIL
+GQDPYPTPGHAHGLAFSAEATTTPLPRSLSNIFKEMREDIGAAPDTADLRFWADQGVLLL
+NTTLTVPAGNAGGHSTLGWQELTAQILQRISDRPRVYLLWGAHAQKAARDVDPEINLKLE
+TAHPSPLSARRGFFGSRPFSRSNDWLRAHGQSAINWATPEAV
+>tr|B7RRX8|B7RRX8_9RHOB
+MTQGLEQNQIAILGAGLIGACWAALFAHHGAVVRVWDPTPEALVKLPDRMAGPLAQLLDI
+APDAGPLGNVTVSDDLETVVAGADLVQENAPENLALKHDLYRQVEPLMRADAILASSTSA
+LTWSELAPGLANPACMITAHPFNPPHLVPLVETYGQDMDRLDRAEAIYRAAGRVPVRMNK
+DATGHIANRLSSALWREAVHMVAEGIADVAAVDAALVNGPGLRWSAIGAHMAYHLGGGEG
+GMAGYLAHLGPSQERRWASLGSPSLTAEVREALVEGVAAEAAGRDIPTLERERDAALIAA
+IKARR
+>tr|B7RMJ8|B7RMJ8_9RHOB
+MTMIKKTIISAVVAMGLTSSAAYAAGGEAHVENFDFSFEGPFGAFDINQLQRGLKVYTQV
+CSACHGLEYVPIRTLSDDGGPQLPEDQVRAFASNYEVFDAGLDDFRPATPVDHFPGSALE
+TAPDLSLMAKKRAGFHGPYGLGINQFFKGMGGPEYIASLLTGYEEAPECAPEDFPGNYNK
+AFPNGGIPEECKDEHGHATIEGSWIAMAQPLYGDDVEFDDGHEATLESEAMDVSAFLMWT
+AEPKLMARKQAGFAGVVFLTLLSVLLYLTNKRLWAPVKRKED
+>tr|B7RNA8|B7RNA8_9RHOB
+MSVELTFSKASGFGPGAMIMTMEGELPVEWLESGDRLITRDHGAQPILAIKRSRAIGPDG
+LPLLPPLRLRPRENAATDGLQEPLRLSPHHQVLVNSPHVPLHLGKHEVMAEIGALSRRIA
+PRPEPDAPAISYHHIIMEHHELILTCGIWAETTGLETAAMLSVPPEIRRASKVFIEDAKA
+PRMCLNRVESRMIRDLLGPDETILHLLAA
+>tr|B7RPT6|B7RPT6_9RHOB
+MANDLMAGKRGLIMGLANDKSIAWGIARTLADAGAELAFSYQGEALKKRVGPLAAQLGSD
+LVIPCDVGSEESIDGLFDTLKESWDSLDFIVHAIGFSDKNELRGRYVDTSRANFTMSMDI
+SVYSFTAVMQRAEKMMKPGSSAVTLTYYGAEKVMPHYNVMGVAKAALEASVKYLAEDLGK
+DGIRVNAISAGPIKTLAASGIGDFRYIMKWNEYNSPLRRNVTIEDVGKSALFLLSDLGSG
+TTGENLHVDAGYHVVGMKAVDAPDMSKE
+>tr|B7RSA9|B7RSA9_9RHOB
+MDVNLSGAFHTMRLAMPQMAERGFGRVINIASVHGLVASVNKAPYVASKFGLVGLSRVAA
+LEYAHQGSRETGGITVNCICPGWTETAIIEPQVQARASAHGGDRAAGIADLLAEKQPSRR
+TSDPSEIGALALWLCAREAHNVTGTSIPVDGGWTAQ
+>tr|B7RSD4|B7RSD4_9RHOB
+MQTWYVDRYEEPNGLLTNIEAIREVAERAGMPVIFAAADPVQHVAERGIAADLWGPGIGV
+VTDARCEDDEMHPRLTPKPEDFIIRKRKYSAFFQTDLEALLRRLNRSQIVLTGNYANHGC
+TVTAIDAYMRNFKVFFVADALGAFDAASHEHALRTVTDICGYVTLTDRVVPQIISTK
+>tr|B7RMX4|B7RMX4_9RHOB
+MDRIMTQIINNLFEVSDRYEALFVDLWGCVHDGVKALPDAVTALQVYRKGGGKVVLVTNS
+PRPRAGVVKQLAHFGVPDDAWDDIATSGDSARAAMYRGTVGSNVWHLGPPSDKSFFDPID
+ILENPVDITRVALEDAEGIVCTGPFDATADPSVLRPQLLMAKQMGLKLLCANPDIVVDRG
+DKREWCAGAVAALYTEMGGESLYFGKPHPPIYDLARRRLFALGVDVADRDILAIGDGAQT
+DVKGAMGEDIDSLFISGGLAAAETDTKTQPDSEALTRYLEKEMSSPTYTIGHLR
+>tr|B7RQH2|B7RQH2_9RHOB
+MRRDMDYFLFGRLGWDDIAIFDVFRDPTVSNIVGSSAGWLAVIGGVVVAALLLIKGWWRP
+LLFEWLNTTDHKKIGIMYIVVGLVMFARGVAEGVVMRTQYVTAFEGGYLTADHFSELFST
+HGTIMIFFALMPLLIGFMNLLVPLMIGARDVAFPRLNQISLGFTIVGAMLLMISLVIGQF
+ATGGWTGYPPYTGVAFQPGTGPDYWIWSLGLSGIGSLLTGINFAVTIYKMRCPGMTYFRM
+PIFVWTALCTSILLIFALPPLTAVVIMQALDRYLDFHFFTNDLGGNMMNFANLFWMFGHP
+EVYILILPAFGLYSEFTAIFAGKRIYGYTSLVIATMAIAVLSFTVWLHHFFTMGQSPTIN
+VAFGIATMLIAIPTGVKVYVWIATLWGGRIRMRTPXXXXXXXXXXXFHRSQQSIRRRAFS
+QRAAARHSLCGTGRDLCLVPEVLRFSAERTLVRHNSVAVHHWLHLRFHAALHGWFDGPAA
+PQPGLRRSQLYPLYDCDDGRGTLRVCSALHLDRHLRCLCKAARRACGAGW
+>tr|B7RHG2|B7RHG2_9RHOB
+MTMSDRSFLDWPFFEDRHRALADDLDAWAAGALANVDHGDTDAACRSLVAMLGDGGWLRY
+SGAQGDDTLDVRSLCLIRETLARHDGLADFSFAMQGLGTGAISLFGTPEQQEAWLPKTRS
+GAAISAFALTEPQSGSDVANSTMTAERDGDDYVLNGEKTWISNGGIADVYTLFARTGEAP
+GARGLSAFILPAGLPGFEIADRLQVIAPHPLATLRFTDCRVPASAMLGAQGQGFAIAMSV
+LDVFRSTVAAAALGFARRALDEALKRVSTREVQGKPLADLQMVQGHIADMAVDVDASALL
+IYRAAWLKDQGAPRVTREAAMAKLFATDHAQIVIDKAVQLFGGDGVRNGMAVESLYREIR
+ALRIYEGASDVQRVVIARQTLGAM
+>tr|B7RMW6|B7RMW6_9RHOB
+MNGNTVGVESGETVLFSDFEDGGEMWTGTGQRERRQRVVFSTPFKEAPTVQSSLALWDVD
+NATVMRADLRSEDITDEGFDLVFRTWGDTRIARVRIAWFAIGPLHQEEDWDIY
+>tr|B7RN55|B7RN55_9RHOB
+MKRFLTATAALALTTGMAQADYSLTILHTNDFHARFEPISKYDGPCSSEDNTAGECFGGT
+ARLVNAIKEAKARTNNYVLVDGGDQFQGSLFYTYYKGKMAAEMMNMLGYDGMTVGNHEFD
+DGPEVLAGFMEALEFPILMSNADISAEPLLAGKLAKSAVIERGGEKIGLIGLTSEDTDEL
+ASPGENVIFTDSVAAVQGEVDLLTAQGVNKIIVLSHSGYKVDQMVAENTTGVDVIVGGHS
+NTLLSNTNERAEGAYPTMVKKTAIVQAYAYGKYLGELNVTFDDEGNVKEASGEPVLIDAA
+VVEDEGTVARIAELAQPLDEIRNKVVAETSDMIEGDRAVCRVMECPMGNLIADAMLARVA
+DQGVDIAIQNSGGIRSSIDAGDITMGEVLSVLPFQNTLSTFQVSGATIVEALENGVSQIE
+EVAGRFPQVAGMTYAVDPAAEVGSRISDVMVAGAPIDPAKVYGVVSNNYVRNGGDGYAMF
+KTAENAYDYGPDVADVTAEFIAMNGAYTPYTDGRITLK
+>tr|B7RNW2|B7RNW2_9RHOB
+MVIDPETGVVTVDRYTVVDDFGNLINPMLAEGQVHGGVAQGIGQAIQEHVVYDEDGQLLT
+ASFMDYAMPRAADVPFITFNSEPVPSTANLMGMKGCGEAGTVGALAAISNAVQDALWDQG
+VRQADMPFTPHKVWQLLNAQAMAAE
+>tr|B7RFT0|B7RFT0_9RHOB
+MAGIHPSAVIEEGAQIDPSASVGPFCVIGAQVVIHADVQIKSHAIVTGRTEVGAGTVIFS
+FAVIGEIPQDLKFKGEASRLVIGERNRIREHVTMNCGTEAGGGLTKVGDDGLFMAGCHIA
+HDAILGDRVIVVNNAAVAGHCIIEDDVIIGGLAGIHQFVRIGRGAIIGAVTMVTNDVIPY
+GLVQAPRGVLDGLNLVGLKRRGVARSDITALRAAFQMLAQGEGTFHDRARRLGDETGSDY
+VREIVDFVMADTGRHFLTPG
+>tr|B7RIW9|B7RIW9_9RHOB
+MDPFDLSQSTSAVLALTIVVIMFIMFLRESLPTEVVALTGAAVMLVLGILPYEDAQAVLQ
+NAAPWTIAAMFIVMGALVRTGALDVLTRLAERYAKTHPKTAVVGVIVAVMAASAIMNNTP
+VVVVMIPVVVQLSQSLGTKASKLLIPLSYAAIMGGSLTLIGTSTNLLVDGVARSQGLEPF
+GIFEILPIGLVVCAWGLIYMALFAPRLLPARDSMANMLSDRSKMKFFTEAVIPPESNLIG
+RDVLDVQLFKREGVRLIDVVRGDLSLRRDLAAVQLQVGDRVVLRTQMTELLSLQANKELK
+RVDQVSAVETSTVEVLITPGCKMVGRSLGALRLRRRYGVYPLAVHRRNQNIGRQLDDLIV
+KVGDTLLLEGAMGDIQRLASDMDMVDVSQPSARAFRRGHAPIAIAALTGIVVLAALNVAP
+ILLLAILAVALVLVTGCIDAEEAFSFVDGRLLALIFSMLAVGAGLQNSGAINLIVDNISP
+YLGTLSPFYVIFAVFLLTTVLTEIVSNNAVAVIMTPIAISLGSALGMDPRPLVVAVMIAA
+SCAFATPIGYQTNTLVYGPGGYRFTDFMRIGIPLNLSMSLLASAVIPLIW
+>tr|B7RKU0|B7RKU0_9RHOB
+MRRFYAIAAVVVAIGFLAVMLFMGNRPEEADKYAQCKNATVAGGADLGGPFELVNAEGKT
+VTDADVITEPSLIYFGYTFCPDVCPLDVDRNASAVDVLADRGMSVTPVFISIDPARDTPE
+VVGEFAANMHPKMIGLTGSPEQVAAASAAYRTYYKAHEADDEYYLVDHSTFSYLVMPDEG
+FVDFFRRDVTPEKMADKIACYIENQ
+>tr|B7RFZ8|B7RFZ8_9RHOB
+MFRLILSFFGGIFTTLTMSIGMVALTVGAVFWMYGRDLPSHESLAQYTPPTISRIYSVQG
+RLIDEFAKERRLFAPADTIPPLIKQAFISAEDKNFYTHDGYDLRGIGAAAIDAVRTRGRD
+VRGASTITQQVMKNFLLSGDRRAERKIKEIILAARLEESLPKEKILELYLNEIFLGQNSY
+GVAAASETYFNKTLSQLAPHEAAFLASLPKAPSDYHPVRRKERLMQRRNFVLREMKENGY
+ITPAVYETEVAQPLRSVQNGDFESFKADLPPRDYFTDEIRRQLSEDFGEGEFFTGGLTVR
+ATIDNEMQPIAAEALQRQLEEYDRGVGIWRGTGKRISVDQLDDETKWREALAGMRVSRDV
+NLENPWYPAVVLSTEGDSARIGIEDVPETAEGHYIPAKDVQWARKQLENGKLGSRAQVPG
+DLVEVGDVVLVRQMTDDKDGSFIRWSLRQIPEVQGGFVAMDVNTGRVIAMQGGFSYQASV
+FNRATQAKRQPGSSFKPFVYAAALDSGYTPATIVVDAPIEINTPQGMWRPRNSSNKYYGP
+TPLRTGIEQSRNLMTIRLAQEVGMNTIGTYAERFGVYDNLSPVLANALGSQETTLYQMVS
+AYSMFANGGERVEPTLVDRVQDRYGRTVYKHDQRICNDCQLASLEEGLGPRIISNRERVM
+DPITAYQLTSMMKGVVDRGTARGAVNLPVPIAGKTGTTNDAKDVWFVGFSSNIAAGCYIG
+FDNPRSLGKRAYGAGMCGPVFQRFMSEAIKKYGGGAFDVPPGGRFINIDRFSGARLSDSA
+SGDNVVAEYFRDGEEPIFGITFDGGFAMGADLPLVEEAGQGARQVTTSTGKKVKVGPKAS
+FGTISSGGLY
+>tr|B7RJX5|B7RJX5_9RHOB
+MIMSHPVDIHVGKKLKQIRTLRRLSQTDVAKQLKLSFQQIQKYEIGSNRVAASRLFELAQ
+ILDVSPSFFFEGLHDNTNDAPKSDPSIEIVSALASIKDDAIKSRIVTFIEDISGVTVARQ
+S
+>tr|B7RLA0|B7RLA0_9RHOB
+MSDTHAQTVTFVRDTMLPQAAPPSTAQGPVKWMRDSLFSSIPYTILTIAALYAIFVLLSG
+FLPWLLGGVWTTSNIRECREVLDGARGGCFSVLAERWNQLLFGIAYPQDGYWRPTLAFIL
+LFVAVSPVLFAAVPRKLLIVTLLYPFVAFWLIWGGSLLVPLAALISLCVGYLVYSKLVKT
+SFAAGLAAGVATAVFIWFIAGFITPGLSGVLALEEVASRNMGGFMLNMILGVICVSLSLP
+LGILLALGRQSSLPIIKLICVVFIEFIRGVPLITLLFVANVVLAYFLPPGTNFDLILRVI
+IMITMFASAYIAEVIRGGLAALPRGQYEGAESLGLDYAQSMRLIILPQALKISIPGIVNV
+AVGLFKDTTLVSIISMFDLVGMIRGPILASTDWNGVYWELWGFAAALFFVVCYGISQYSQ
+WLERQLQTDHR
+>tr|B7RR10|B7RR10_9RHOB
+MSSANAPLKTTPYWWEAAPVQPLPVKPLEKTVDVAIVGAGYAGLSAGITLARAGRSVAIF
+DRQHPGEGASSRNGGITSGNIRIDHATLVRKFGEDRATAIEAEGKKAREHLYRLIEEEGI
+DCDFKPVGRFSGAMGSNDYERIARSAEKLHRTLGIESYAVPQSDQRSFIGSDFFRGGTVR
+MDIGGLHPAKFIAEMLRVAQAAGVTVHADTPVENIKPDDDKFVVTTAAGQIVAGRVMICT
+NGYTDGVDPWLRRRIVPVRSRIIATEELSPDLMAQLMPRQMMMSDTRTLGFYFRPSPDGK
+RILFGGRDGTNLDNPTKPVAHLRENLLSIFPELGDKAITHTWFGNVGMHRDMIPRIFERN
+GMIYATGFCGSGVVWAPWIGRKAAQKLLGNTNEEPSAFDLRAPAAVPFYNGKPWFMPLFM
+AMYKMQDRVKLRRAGR
+>tr|B7RJ74|B7RJ74_9RHOB
+MDQSVVRALSAGVNQSGVRNHNERLLLTILQRHGRLPGMDLARLAGLSPQTVSVILRKLE
+NDGLLERGTPVRGKVGKPSVPMGLAADGVMSLGLKVGRRSADLLLIDFHGTIWQQAQITY
+AYPLPRTVFQFLADGIAQFREQMAPSLFERLCGIGVAAPFEIWHWAELVGAPAEEFQRWS
+NIDIVAEVAKCTDLPVSLVNDATAGCWAEHVYGRGKEFRDYAYFFVGAFVGGGIVLNNSV
+YEGQQGNAGALGSLRSIGPDGESLQLIDTASIHLLETMLTKAGQPAADLWVQPQDWSAFT
+EMVDPWIAQTARELAKASLSTCAVIDFEAIVIDGAVPPDVRTKLVEQIRAEVELQDTRGL
+KVPRIEEGTIGENARAIGAASGPIFQQFLLNTNTGGMP
+>tr|B7RNE6|B7RNE6_9RHOB
+MDQQRKDWYYSCMTKPAHIPDYSLFGETDTFPDVVHCEHIRDRAPDHGWIIAPHRHAQLA
+QVFFIEAGSAKATADGQSFDLRDGMMLFVPAQVVHSFAFAPQTQGIVQSFPLSILTSIGP
+VSGDIARALSRPFVGRPAQALIAQMALLDDALAQNGPFRAQIAVGLAHAVLSMTASLNDS
+PAGNGPAPDGRLARLDRLIAQHQGQNWTARDYAAEMTLSTGHLSRLCRAAKGVSASAYIE
+ATTVQEACRLLAFTQLSVAEIGYRLGFGDPSYFSRRFKSVQGQTPSVYRQKFTN
+>tr|B7RS30|B7RS30_9RHOB
+MNSTSHLPKLRDFFASLPASQSAADTLEHDTPLISHGVLDSLNLFMLITFIEDDLGIIID
+PDDVTPENFASMDAIAGLLKTSARVTPT
+>tr|B7RP20|B7RP20_9RHOB
+MSQDTPAQDTPTLQIDIVSDVMCPWCIVGYRQLEQALAAVGVGAFIRWHPFELNPDMGPE
+GQNLGEHITQKYGITAEQSAQNRANLVAIGTGLGIDFQFSPDSRMVNSFAAHQLLHWAQG
+QNLQHPLKLALFEAHFTQGRDVSDHAVLVDIAESVGLDRAAAAEVLASGSQAEKVRELQG
+VWTSQGISGVPSMIFEGKYLVTGAQGAENYAQILQKILSEKAAA
+>tr|B7RGR0|B7RGR0_9RHOB
+MNLNPRPLDANPLAHDRVYRQLRSRIMHGDLPPGHALTLRGIGKEYEVSMTPAREAVRRL
+AAEGALTMSTSGRISTPELSNERIEELAALRALIEVELASRALPRAHMALIERLQTINNT
+VSEAVAHRDAVSYIRSNLEFHRTLYLRAQAPAMLAMAETVWLQMGPTMCALYGRLRRTEP
+PHFHKLIIAALRAGDEPGLRLAVRSDVTQGLRMLAT
+>tr|B7RPK5|B7RPK5_9RHOB
+MSDIRKIIIDGKEVEVEGAMTLIQACEEAGVEIPRFCYHERLSIAGNCRMCLVEVVGGPP
+KPAASCAMQVRDLRPGPEGQPPVVKTNSPMVKKAREGVMEFLLINHPLDCPICDQGGECD
+LQDQAMAYGVDFSRYREPKRATEDLDLGPLVETHMTRCISCTRCVRFTTEVAGIHQMGQT
+GRGEDAEITAYLGQTLDSNLQGNIIDLCPVGALVSKPYAFTARPWELSKTESIDVMDALG
+SNIRVDTKGREVMRFLPRNHDGVNEEWISDKTRFVWDGLRRQRLDTPYIRENGKLRKADW
+PEALAAAAAAMKDKKVAGLIGDLVPVEAAFALQQLVKGQGGVVECRTDGAKLPAGNRSGY
+VGTATVEDIDSAKAIMLIGTNPAVEAPVLNARIRKAWARGADIGHVGPAADLTYDHEHLG
+DGPSVLTDLLKRDHSEMTEKPSLIIVGMGALAREDGAAVLASAMALADATKSGFMVLHTA
+AGRVGAMDIGATAEGGIVDVLAADVIYNLGADEGDIPAGPFVIYQGSHGDRGAHRADIIL
+PGAAYTEEAGLFVNTEGRPQLAARASFAPGQAKENWAILRALSAEMGATLPFDSLAALRK
+ALVAEVPHLGNVDQVAENDWQAAAQSKMDDAAFQPAIADFYLSNPIARASQLMAELSQNA
+KARQEKPLAAE
+>tr|B7RMJ9|B7RMJ9_9RHOB
+MAGIPHDHYEPKTDGQKWLHTRLPVVGLLYDTLMIPTPKNLNWMWIWGIVLTFCLALQIV
+TGIVLAMHYTPHVDQAFASVEHIMRNVNGGYMLRYLHMNGASLFFVAVYAHIFRGLYYGS
+YKAPREITWIIGMLIYLLMMATGFMGYVLPWGQMSFWGATVITGLFGAIPFIGESLQTLL
+LGGPAVDNATLNRFFSLHYLLPFVIAGLVIVHIWAFHTTGNNNPTGVEVRRGSKEEAQKD
+TLPFWPYFVVKDLFALAVILAVFFAIVGFMPNYLGHPDNYIEANPLSTPAHIVPEWYFLP
+FYAILRAFTAEVWVVQIASFVTGGIIDAKFFGVLAMFGAIAVMALVPWLDTSSVRSGRYR
+PMFKWWFALLVVDFFALMWLGAMPAEEPYASLSLIASAYWFGYFLVILPLLGVIEKPMAQ
+PDTIEADFAKNKAAKTGGSKTLVNPAE
+>tr|B7RKX5|B7RKX5_9RHOB
+MSKNRITSEEALAFHLEPTPGKFEITATVPMTTQRDLSLAYSPGVAVPCESIAEHPELAY
+DYTNKGNLVAVISNGTAVLGLGNLGALASKPVMEGKAVLFKRFADVNSIDIELDTEDPEA
+FINAVRLMGPTFGGINLEDIKAPECFIIEQRLKEEMDIPVFHDDQHGTAVICAAGLLNAL
+KISDKKIEDVRIVLNGAGAAGIACLELLKAMGAKHNNCIMCDTKGVIYQGRTEGMNQWKS
+AHAAATELRTLEDAMSGADVFLGVSVKGAVTPAMVASMADNPVIFAMANPDPEITPEEAH
+EVRPDAIVATGRSDYPNQVNNVLGFPYLFRGALDIHARAINDEMKIACAHALANLAREDV
+PDEVALAYGKNLSFGRDYIIPTPFDPRLIHRIPPAVARAGMDTGVARRPIIDMDAYELSL
+KSRMDPTANILRGINARARANQARMIFAEGDDPKVLRAAVMYQRSGLGKALVVGRSDDVK
+AKLASAGLEDAYRELEVVNAANTTHLENYKSFLYDRLQRKGFDRKDIHRLAARDRHVFAA
+LMLAHGHGDGLVTGATRKSAHVLERLNHVFDANAEHGAVGITALLHKGRIVFIGDTLVHE
+WPDEEDLANIAESGAKVARHLGLEPRVAFVSFSTFGYPVSERAEKMQHAPDVLDRRGVNF
+EYEGEMTVDVAMNVESQKNYPFSRLTGPANILVVPARHSASISVKLMQEMAGATVIGPIL
+TGLDKSIQICSTTSTANDILNMAILAACKVGE
+>tr|B7RL81|B7RL81_9RHOB
+MSRIGKKPVDLPGGVSASVSGQTIEVKGPKGTRTFKATDDVTMTVEDNVVTISPRGKSKR
+ARQQWGMSRTMVENLVTGVTSGFKKELEIQGVGYRAAMNGNTLRLNLGLSHDVDYMPPEG
+VTVTAPKQTEIVVEGIDEQLVGQVAANIRAWRKPEPYKGKGIRYKGEFVFRKEGKKK
+>tr|B7RHB0|B7RHB0_9RHOB
+MTMSKGKKDDVTGQSTTGHSWDGIEELNTPLPRWWLWTLYLCIFWGILYTIAYPAWPMVS
+GATKGVLGWSTRANVAADIKDHEGKNADLVTALLATDMDALPADPDLNRYATARGGAVFR
+ANCSQCHGSGAAGAKGYPNLLDDDWLWGGEMADIEYTVRHGIRNDQDGDARYSQMPAFGE
+MLNRAEIAAVVEHVVSLSNAEYDAELAATGATLFADNCAACHGETGLGDRAQGAPNLADA
+IWLYGGDRATLTDTVTNARFGVMPAWGPRLTEADVRAVSAYVHGLGGGE
+>tr|B7RRA7|B7RRA7_9RHOB
+MKDNAVLQHLLVRNLRILLREGNITLHLPDRKTVRIGDGSGRPVTVRLTHPGIISHLVWN
+PELALGEGYMNGDIKIDGDDLHGLLEIAVRNFDAQASSSWIRVVRAIRMLRRRFDQNNFA
+SVSKRNVAHHYDLSSALYDLFLDQDRQYSCAYFKHPDDSLDQAQAQKKAHIAGKLLLEPG
+MRVLDIGCGWGGMALGLARDYGVNVLGVTLSKEQHRIATERAHAEGLADRVIFQLRDYRH
+VSGPFDRIVSVGMFEHVGLPHYGTYFETVRNLLSPDGVALIHTIGRSAPPDATNPWISRY
+IFPGGYIPAMSEVLAPIENANLWLDDVECWRQHYATTLRHWYDRFQANSKKAASIYDERF
+VRMWRFYLAASEQTFRYGRQTVFQFQLSRRQDAVPLTRDYLYPSTQPPQLAQAAE
+>tr|B7RL37|B7RL37_9RHOB
+MQSFATLHRVRGRAILPPANAKDPLMSIAEPSRPVRVPLVNEPWGLLKSVQMARRNILSI
+IPEIATKQPMVSGRTGKRWHMLMDPPTIREVLLDRLEDYPKSVVTKNLLKPAIGESLCIA
+EGAHWRWQRRAAAPVFSARNMLNLSPIMTSAAERSCARITAAGPRAVNYLDEMVTTTFDV
+ISDVTFSGGGTFDRDAVHGAIDDYIAEAGKISLFDMLGFPDWVPRPGRALSGKALNEMKQ
+MADHAIEARAHRGPQGTPDLLDLLLDGVDPKTKRQMNTAELRDNLLTFIVAGHETTALTL
+SWSLYLMGFDQAAQDKARAQAQSVLQGRAATGADVANLPYIRQIIDEALRLYPPAGLISR
+TAQKPDTLAGTAIRPGDTVMIPIYALGHHEMLWDDPDAFRPERFADRTSIDRYAYLPFGD
+GPRICIGASFALQEAVIILATLLSRFKFTPVKGKNPEPVMILTLRPQGGVWLMAEPV
+>tr|B7RM88|B7RM88_9RHOB
+MKQPLGVILAGGQATRMGGGDKGMLTLGGQTILGHVVERLSPQVAGLALNANGDAERFAA
+LNLPIIPDSIDGFAGPLAGVLAGLDWAASLGADTIVTAAADTPFFPGDLVPQLLLASEGM
+DHPLVLAATPDAERGKARHPTFGLWPVALRDDLRAALQGGLRKVVLWTQAHGGREALFPH
+EQAFFNINTPEDLKTAEGML
+>tr|B7RG04|B7RG04_9RHOB
+MADTPDQTPKYAEFFCGGGMVRAALQDRWDCVLANDIDPMKCAVYERNWGQEALHQGDIA
+TLPDAKLRQPIDLYWASSPCQDFSLAGKGQGLSGARSGVFGHWADKIETAIDAGFAPRII
+AFENVVGLVSRNAGADLNTVLARFVRLGYKVGALEIDARRFLPQSRPRLFVICVRNDVDI
+AGLTDPKPSHAFHGKKLQKFLGVATRPVRSNWLWWKLDDLPPAHMPLETVLEKRSKMPWF
+SAADTDRLVSLMSPPSLERLQVARKAGRTVVGTIYKRGRPDAEGNVRQRAELRTDGLAGC
+LRTPAGGSSRQILMFIKGNQIKARLVSSREVARLMGLDDSYRMPDTYNNAYRVAGDGVAV
+PVVRYLDDVLFAPILQRRCLEAVA
+>tr|B7RGB8|B7RGB8_9RHOB
+MLDDFVMRAALAGIGVALAAAPLGCFVVWRRMAYFGDATSHAALLGVALALSLDLPVFAG
+VLVVAMAMALIVSGLSGRTVSTDALLGVMAHGALAIGLVAVSLLPNQRVDLSAYLFGEIL
+AVTKGDLVIIWGGAAVSIALLVWRWQALLSATLNPDLATASGVNPHREQLILTVALALTV
+AVALKVVGALLIAALLIIPAAAARPFSRTPETMAMMAAGIGMVSTLGGLAASFAFDTPTG
+PSIVTVAAVIFAVSTGLAPALRR
+>tr|B7RKY3|B7RKY3_9RHOB
+MIDWTQVNTLRDEIGRESFDEIIEIFIEEVEQVIDRLRSDPDPETLGDDLHFLKGSALNL
+GFSEFSDQCQIGESASSKGAAADVDVEGILASYENSKALFMAELPEALNA
+>tr|B7RJ31|B7RJ31_9RHOB
+MNLSPDQTIIFAAWGIAINATVFFTWIVMGILGLASFLITRNLRPDVPPNRWRTMLEVIV
+QRIQGQIEEIAQGPSRYLLYYAGTLFLFVAMSNLLLVVPGFQPPTASLSTTTALALSVLI
+AVPIFGITSRGIGGYLKTYLEPSFIMLPFNIISEFSRGISLAIRLYGNIMSGAVIAAILL
+SVAPFFFPVVMDVLGLLTGMIQAYIFAVLATVYISSATAPPSPQLEPQEDIS
+>tr|B7RHX8|B7RHX8_9RHOB
+MRVLIADDHVLLRDTLVMFLQAQGDIETSTAADLAGACKLIGDEERFDLVLLDLNMPGMN
+GLEGLKYALTLKDGQRVALLSGEATREIAEQALDAGAAGFVPKTLPAKSMINAVKFMAMG
+EQYAPVDFMTAVDDTPTHPLAEKLSSRELQVLKGLTEGKANKEIARDLDISEPTVKLHMK
+TLYRKVGAANRTQAALIAREAGLF
+>tr|B7RQ76|B7RQ76_9RHOB
+MPRGVSSFLHAHPERTQSAGLRESMPGTASMKKYSAFAIAREALRHHTGWTRAWRDAQPK
+KRYDVIIIGAGGHGLATAYYLGKNFGITNVAILEKGWLGGGNTGRNTTIIRSNYLQDPSA
+AIYEKSRSLYETMSQDLNYNVMFSPRGVIMLAQTHHEVRGYQRTAHANALQGVTTEFIGP
+EKVKELVPIININGPRYPVLGGLWQARGGTARHDAVAWGYARACSDMGMDVIQKCEVTGI
+RSEGGKVTGVSTNRGDIDCDKLGMVVAGHSGHLADMAGFRLPIESVALQALVSEPIKPCM
+DVVVMANTVHGYMSQSDKGEMVIGGGTDGYNNYTQRGSFHHIEETVRALIETFPMVSRLK
+MLRQWGGIVDVTGDRSPILSKTPVDGVFINCGWGTGGFKAIPGSGWAMAELIAKGRSPLT
+DAFGLNRFQEGRFIDESVAAGVAH
+>tr|B7RKB6|B7RKB6_9RHOB
+MPDLQPTEADIQIAKCIGEETSFAVIAGAGSGKTTSLIEALKKIRETQGRQLRERGQSVV
+CITYTNRAVDVISSRLEFDELYTVTTLHGFLWGEVSRFQAPLREALAEHVIPAHIEKAQL
+DDNGGNSKKAISARKKIERLHAELAELVENNPPVKYEETTVSDYSKCVLNHDDIIDVASH
+LIATKPILQKGLGFKYPYIFVDEAQDTFPQVMAALNSICAREGLPMIGYFGDPMQQIYDK
+RAGDFAGPEGSVTIAKQENFRCSVSVINLLNKFRDDVEQFPAGKNADVEGSVEITIAQAP
+NPEGPRKTYTPEQLDHVSGMFHQALENWEWQDIPSVKKLFLARQMIARRLNFSTLHRLFT
+GVYSSSRSQSDYEDGTHYLLKPFVEGVYPLVSASTKGDPKRVLEVLRQTSPAFFPDGVNK
+RKSLKQMLDRADEASEKLAELWVGATTKEIFKYCEDSGLLPISDRLSSQLGRDAREGFDA
+ENEDHQRDKGDWLADEFFKMDCREIGPYAEFLDENSPFSTQHGSKGEEYPNVLVMIDDIE
+ASWNTYSFGKTLTPGTAGEPTERQAELTRKLTYVCFSRAEVNLRILFFSLNPEAAGRELI
+EKGLFIEDQVTYI
+>tr|B7RP88|B7RP88_9RHOB
+MNDFDEMDAFEGASLSARAMAARPQPYLDGLNPAQRAAVEQMDGPVLMLAGAGTGKTKAL
+TARIVHLMNTGRARPNEILAVTFTNKAAREMKNRVGGMLGQSIEGMPWLGTFHAICVKLL
+RRHAELVGLKSNFTILDTDDQLRLLKQLIKAEGIDDKRWPARMLAGIIDGWKNRALTPDK
+LPSADAGHYNHRGPEIYKQYQARLKELNACDFGDLLLHMVTIFQTHDDLLKQYQRWFKFI
+LVDEYQDTNVAQYLWLRLLASGHKNICCVGDDDQSIYGWRGAEVGNILRFETDFPGSHVV
+RLEQNYRSTPHILAAASGVIAGNQGRLGKTLWTEAREGEKVRLIGHWDGEEEARWIGDEI
+ESMQRGTRDLPKFSLDDMAILVRASHQMRAFEDRFLTIGLPYRVIGGPRFYERLEIRDAM
+AYFRVVTSPDDDLAFERIVNTPKRGLGDKAQQNIQKTARENGVNLVEGARILLANGGIGG
+KGAAQLRLLIDGIERWGQMMRGPRLRVEIDDDSVIDDSAPTTRYEYGPPELSHVELAQII
+LDESGYTGHWQNDKTPEAPGRLENLKELVKALEQFENLQGFLEHVSLIMDNESDEGGAKV
+SIMTLHAAKGLEFPTVFLPGWEDGLFPSQRSMDESGLKGLEEERRLAYVGITRAEQICTI
+SFAANRRVFGQWQNAMPSRFIDELPEGHVDVLTPPGLFGGSFGAAMPKSNLHEKAAEANV
+YNSPGWRRLQSRSNDRGMGQPSEARNMTIDMTAVSSFTMGERVFHQKFGYGDVIGIEGDK
+LEVAFEKAGTKKVVSRFLTGSDDVPF
+>tr|B7RGS6|B7RGS6_9RHOB
+MDDLKQKYIGQIANAADEAALEDIRLAAVGKKGEVALKMRELGKMTPEERQTAGPALNAL
+KDEINSALAAKKAALGDAALDERLRSEWLDVTLPTRATRQGTIHPVSQVTEEVTAIFAEL
+GFSVAEGPRIDTDWYNFDALNIPGHHSARAEMDTFYMARAEGDDRPPHVLRTHTSPVQIR
+TMEAQGAPLRIICPGGVYRADYDQTHTPMFHQVEGLAIDKDISMANLKWTLEEFFAAFFE
+VDGIKTRFRASHFPFTEPSAEVDIQCSWVDGQLRIGEGDGWMEVLGSGMVHPKVLQAGGI
+DPNEWQGFAFGMGIDRIAMLKYGIPDLRAFFDSDLRWLRHYGFAGLDQPNLHGGLSR
+>tr|B7RSF3|B7RSF3_9RHOB
+MLSLARSNLYYAPKGESAENLGFMELIDKQFLETPWYGSRQMARHMQRHGQKCGRHRVRR
+LMRLMRLVPIYQTPNTSKKHPQHKIYPYLLRGLTIDRPNQVWCVDISYIPMRRGFLYLVA
+IMDWFSRKVLSWRLSNSMEAVNGGVTTCHWGGAKVGHLVTRLGA
+>tr|B7RJ97|B7RJ97_9RHOB
+MPAVTQEKHKDGDFFVDYEDKVFEDVKAEPGQKALVTFHTVAFEGSIGLVNMLNAIRLAR
+KGFETSILLYGPGVTLGIQRGFPTLGDAAFPGHQNFADNLKKFMAEGSKIYACRFALQAL
+YGHGEASLLPGIIPIAPQDVLDLKLLHIRENAVIVDTWTL
+>tr|B7RKW4|B7RKW4_9RHOB
+MDTIFAQATAQGRAGVCVVRISGPQAFDIAEKIAFPLPEVRQAAVRPIIGQDGGVIDSAL
+VLTFKGPSSFTGEDVVELHLHGSIAVVRAVLALLSTFPDTRLAEPGEFTRRAMENGKLDL
+TQVEGLGDLIEAETEAQRKQALRVLSGHLGQRVDAWREKLIRAAALLEVTIDFADEDVPV
+DVSPEVRGLLRDVNDDLLKEIAGTHTAERIRTGFEVAIIGRPNAGKSTLLNALAGRDAAI
+TSAVAGTTRDVIEVRMDLGGLPVTLLDTAGLRDGADEVEAIGIERALKRAADADLRIFLV
+EDDEDLPVAALPEDIRMRPKADLRDSAEGAISGTTGQGVSQLISTVQAILGARSLTAGLA
+THERHRVALQKAADGLSVSMSVLDHGPDQYDIASEELRHSIRALEALVGRIDVENLLDVI
+FSSFCLGK
+>tr|B7RP73|B7RP73_9RHOB
+MAFFKKLKTKLFKSSSKIDAGLEAIVEDGGAVQAPETIDEAPVDQVMETPQAAVEALPEA
+VDDEPAPLPADAEEAPEPVSICETIQPAVSDLDTENPAKPGPAKPGLMGRLLGRDTSAPV
+VRRVLDDEMLEQLEELLISTDMGVDTALRVTANMAEGRFGKRLSVDEIKRLLAAEIARIM
+DPIAKPLPLYSKTPQVVLVVGVNGSGKTTTIGKLASQFKAAGKHVVIAAGDTFRAAAVEQ
+LQVWGDRAGVPVLTAAQGSDPASLAFEAMGQAERDGADLLLIDTAGRLQNRGDLMEELAK
+IVRVIRKKDATAPHNTLLVLDATTGQNALNQVKVFQEISDVSGLVMTKLDGTAKGGVLVA
+LADKFGLPIHAIGVGEQIDDLQPFDPQEFADALMGLDPQ
+>tr|B7RJQ5|B7RJQ5_9RHOB
+MFEQVRAGGHMPRMDVARALDISPGSVTTITSDLIARGLLQEVEDSQRGPSRGRPPIALR
+VAPRSRFVIGMKLSDERHTAVLLDLAGTVIAEAQLTSAALRQTTKEVLAEVSTLTRQLLK
+KSGQPLESISAVGIGLPGIVDACLGVVKWSPVMTDTEIPLRDMLQDTLGLPVSLDNDTNL
+LTLAELWFGAGRGISNFAVVTIERGVGMGLVLNNRLFRGALGPGMELGHTKVQLDGALCR
+CGQRGCLEAYVADYALVREAGTALDRDPRSNSSAVTMIETLYEEANAGNEAALAIFQRAG
+RFLSVGLANIVQLFDPERIILSGERMRYDYLTTDDMLAEMNSMILPAGRTPTPVDIHAWG
+GSVWAKGAAALALSDVTTALLGETVA
+>tr|B7RNJ5|B7RNJ5_9RHOB
+MKLNPADPAFEAALRADLPSDVFRPVEPRYLEEPRGLYAGQSAILALPRDVQEVSTLIRH
+ANAARVGVIPYGGGTGLVGGQVAEKGPAPLILSLERMNKIRAVYPDENVLVAEAGVILSD
+VQDAAEQAGRLFPLSLAAQGSARIGGNLATNAGGTGVLRYGNARDLCLGLEAVLPDGQIW
+HGLTRLRKNNTGYDLRHLLIGAEGTLGVITAAALKLFPRPTQSGTALLVVPSPAAALKLL
+SLARDQLGEMVSAFEIMNKMGFDFLAETMPEVRQPFATPPAWCVLIELGLSGDLDPAASL
+EKLFEAALEADLVTDGLIAQSQQQADDFWAIRENIPHANRKIGSVSSHDISVPLGAIPDF
+IAQAGEKIAGLGDFRINCFGHVGDGNLHYNIFPAHGKSRQDHLTERDRIKTCIHDLTHAM
+GGSVSAEHGIGRLKVDDLERYSDPAKLSAIRAIKAALDPNGIMNPGAILPAPG
+>tr|B7RQ50|B7RQ50_9RHOB
+MIPLHRSAEVAAAQAAGTPVVALESTIITHGMPYPQNLEVARTVEADVRAAGATPATIAV
+VDGNLHIGLEDAQLSALAQATGVAKLSRADMAACIATGGTGATTVAATMIAAHLAGIAVF
+ATGGIGGVHKGAEDSFDISADLLELAQTPVTVVAAGAKAILDVPKTLEVLETQGVPVITY
+GQDSFPAFWSSTSPLNSPLRMDDATQIAGAHKTRALLGLPGGQLVANPIPAGHEIPAADL
+APIIARAQAEADQQGVSGKGVTPFLLQRIFELTEGQSLTANIALVRNNARLASKIAAALL
+SEPVNA
+>tr|B7RL31|B7RL31_9RHOB
+MVVLNKIYTRTGDKGDTALGNGSRVPKHNARVDAYGTADELNCFVGIARLAAKEETDAAL
+SRIQNDLFDIGADLCRPDMKADAEAEYTPLRIVPEQVDRLEREIDTMNASLEPLRSFILP
+GGSELAAHLHVCRTVARRAERLTVLLAEQEDVNEAAVRYLNRLSDWFFVAARIANNVGKD
+DVLWVPGANR
+>tr|B7RLJ0|B7RLJ0_9RHOB
+MTVDPARLLADGLLPDPPKTIGVAVSGGSDSLALLHLLHDFAVTHSCTLHVATVDHGLRR
+EAGAEAAMVADTCRSLGLDHEVLHWQGWDRSGNLQNEARKARYQLLADWGRRRQLDVIAL
+GHTADDQAETFLMRLARRAGVDGLSAMPDRFEREGMTWIRPLLGARRAALQAYLESNGIQ
+WADDPSNEDTRYDRVRIRNALSILEGIGVEAEALSVVAQNMSAAKDALNHQMQQTARAYV
+SLHAGAVAIDVAGLNAQPFEIRRRLIAHALKWVNGAYYAPRSAALGDVMAALATAPSATL
+QGCELRHRVGKLWVFRELRVVSRMTCDIRDLWDGRWRIAPPAQFSADTGDLTVGALGADG
+LKLCPDWRDLGLPRGVLLSSPAVWQGARLVAAPLAGTSQNWQAVLERGKDTFFAVHMTH
+>tr|B7RJQ9|B7RJQ9_9RHOB
+MTDHVTTIGFDADDTLWHNERFFVLTQGMFADLLRDHTDPDTLMDRLLEAERRNIPHYGF
+GIKGFTLSMIETAIDVTGGRVPASVIAEIMAAGRDMLAHPVELLPHAQETLESLQDHYRL
+VLITKGDLLDQERKLAESGLRGMFSAIEIVSDKTPEVYARIFDQHGRGPTQGLMVGNSLK
+SDVVPMIKAGGWGVHVPHGVTWALEHAPTPHHSDRFKQITQLAELEGVLDQIT
+>tr|B7RJV4|B7RJV4_9RHOB
+MAAEAHGEEAGGLVFHPMDQFIVEPFFGDGAVSWYTITNATVWMALAVLAVFALLVLGTS
+KRSVVPGRMQSVAELAYGFIYKMVEDICGKEGVKYFPYIMTLFMFIVFANFLGLLPMAFT
+PTSHIAVTALMAFAVFFGVTILGFVKNGASFLSLFWVSSAPLPLRPILALIEIISYFVRP
+VSHSIRLAGNMMAGHAVIKVFAGFAAIAAIAPLSIVAITAMYGLEILVSFIQAYVFTILT
+CVYLKDALHPHH
+>tr|B7RJY4|B7RJY4_9RHOB
+MAVQGKLRLGVNIDHVATVRNARGGAYPDPLRAARVAQEAGADGITAHLREDRRHITDAD
+IEGLLEVLTVPLNFEMAATDEMQKIALRHKPHAVCIVPEKREERTTEGGLEVAREENKLA
+HFIAPLREAGCRVSIFIAAEQRQIEAANRIGAEVIELHTGAYCDAFAEGHWEEAQKELQK
+LEEMAQYGHELGLEIHAGHGLTYDTVSSIASFPQVKELNIGHFLVGEAIFLGLGPAIHEM
+RRLMDSARDA
+>tr|B7RQ07|B7RQ07_9RHOB
+MIFDDDLTACAAMVERADPLRFRAAMAAPVAARRILFPLYAFNLEVARAPWVTQEAMIAE
+MRLQWWRDVCEEISEGRPVRRHEVATPLAAAVTAAGAKLLDDLVAARRWDIYRDAFEDTA
+HFDQYIDQTAGTLMWVAASSLGQADERVVRDAAYGAGVAAWLHAIPELVEQGRVPLLDGT
+DAGVSALARKALERLKKARKHRREVSGSARPALFSIGASAKVLQAAIDAPARVGDGTLPS
+MEAFSLPFRALSGRW
+>tr|B7RMB7|B7RMB7_9RHOB
+MKAFRDASYDLHRYPSSDHRGLRHAIASVHGLDPDRIICGAGSDEIIAFLCQAYSGEGTE
+VLHTEHGFGMYRISALANGATPVEVKENERVTDVDALLAGCTKKTRLVFIANPNNPTGTM
+IGLSEIERLAKGIPKQAILVLDGAYAEYVEGYDGGAALVEAHDNIVMTRTFSKLYGLGGL
+RVGWGYGPAHIIDVLNRVRGPFNVSQAGLNAAEAAIKDVAYAEHCRIENARWRTWMADAL
+AEIGVPSDVSCANFILARFKSKAEAEACDDYLQTQGLIVRRVAGYKLPACLRITVGDESA
+CRRVVHAIRQFKGD
+>tr|B7RR78|B7RR78_9RHOB
+MAAFDTSLEDGLSTEEAKARLRKFGPNRLARRRPARVARLLWHQFESPVVLLLIAAAAVA
+FFFWEWKEGIAIGLVLLINGAIGFVTELRAARSMEALRQLGNLTTRVRRNRRMLLVPAEE
+LVPGDIVLLEGGDIVTADVRLAASSNLSADESTLTGESVAVDKVTAAVCADSAIGDRACM
+AFKGTAITRGSATGVVVATGLDTELGLISKLVEDAAPEHSPLESQLHKLSGQLIKLTLLI
+VAILGTLGVLQGGDDLLIIKASIALAVAAIPEGLPVVATMALARGMWRMARHNALVERLS
+AVETLGATTVIFTDKTGTLTENSMQLQEIDCGDVVLEASPETHRFDAATPDGANGGAACL
+GKVLTASLLCNNAELSVDDDNHIGDPLEQALLAAGKAEGMDKQAMEQRFPRVREIAFDST
+AKLMGTVHLFDDAYVMWVKGAPEEVLGACSASIQPDGSHAGLSPETRAFWKSRTDMMAAR
+GMRVLAVASRCLKSPNDARYSGLTFLGLLGLHDPPRDDVQHAIAQCRSAGIRVIMLTGDH
+AVTARNIARSVGLTDNGPIILEGRTLRPMDDMTADELQEVYHADVFARVSPAQKLELVAA
+FQRNGEIVAMTGDGVNDAPALKQADIGVAMGLRGTQVAREAAAMVLRDDAFSSIVAAIRE
+GRVIFRNIQKFVTYLLSCNLSEVLVVGTAILVGLPLPLMPLQILFLNLVTDVFPAFALGV
+GEGSEEILDRPPRDPAKPIVTRPLWVAIVLHSLIISSATLGAFGLAQEYLDLTSQEAVTV
+SFFTLAFAQLWHVFNMRDPRSGLIVNEITRNRFIWIALAISSGLLFLAVFLPVAAAPLDL
+QILSPDAWILVAGMSLMPLCLGQITKAISRLRHE
+>tr|B7RRJ1|B7RRJ1_9RHOB
+MTETNIYDASVDQTAKDAYFTASQGQLIWTRFKKQKAAMVGAWVLVILILSGIFASFLTP
+YDPTIAGRDKDYLNGAPTIPKFCDDNGCSLRPFIYALERERSAKTNFRWVTTVNTDKRLY
+VQFFFEGAKYKYLGMTFNTHLFGIEDGYIHLFGTDSTGKDIFSRTFHAINTSLAVGTIGV
+FLSFVLALIIGGISGFYGGWVDSFIQMVTDAVRTIPAIPLFMALAAFIPDTWSAEERFFF
+ISIILGFIGWPTLARRVRTHLLTERNQEYVLAAQLCGASSGHIIRKHLLPSFTSYIIVDL
+VISFPYMVLSETALSFIGLGLKDPVNSLGVMLQNVTSADVLLNYQWYFIPVIFFIVLVMA
+FVFVGDGLRDAADPYGDTKK
+>tr|B7RHK3|B7RHK3_9RHOB
+MDRAAFSVDGTRLVVSGDLRIAAVDALDRSALLKKAAGVTVIDISGLTRIDTAGAWLLVY
+AQDRLAAPGKRVEITGTSDAQAQLIDVVRASMPPADIAEPKPKTLADQVETLGRMVTSGA
+RKTVELTSFLGQVVATMAGTLIHPRRFRLTSLVHHCQEVGLNAVPIVALMSFLIGVVLAF
+QGAVQLRQFGAEVFVVDLIAISVLRELGILLTAIIVAGRSGSAFTAAIGSMKMREEIDAM
+RTIGLDPVTILVVPRVLALMLMLPALGLLADISGLVGGAVMSWIELGVSPAVFQSRLVGN
+TDVWHFGVGMIKAPFFALIIGIIGCYEGMKVGGDAESLGRLTSTSVVLSIFMVIVMDAMF
+SIFFAIVGV
+>tr|B7RSE6|B7RSE6_9RHOB
+MPPRKNLFGGTMASIAAKSADQEKQNAEPKPSTSPNDQLTSNDSQGAARKTAPTVRYFQM
+GMQEELSRTAQDIDTALIDESRFADRLNIEDGIHDLANSIQTRGQQVPVLVRPKEDEGRY
+EVVYGRRRIAACRSLGKPVRAFVVQMSDEEALVTQGIENNSRLETSFIERAHFIHQMVES
+KVSYSVIMEALGIEKSLVGRMARIYQAIPYEVIKAIGPAHGIGRRIWESLRVAIDAKSDK
+NPAAISAMVDTSLPSEDRVKDLIERLRDKPSQPTKPRPTEIGSGQVTFLRRGSKLEIKAQ
+SKDSEAFLGFLEERMCVIYAEFAEIEKVNKE
+>tr|B7RSF7|B7RSF7_9RHOB
+MRILELMNRAPVVRVQYLSEETGLPAPTVVRLLETLMVAGYVRKIGRQAGYCVTEKVAAF
+GAGHHGLPQVFEVARAAAEDLTQRTRWPTALATLDVDALVIRFSTIPISPLSHYQSTINR
+RMTLLEYAHGRAYLGFCPAEERQHLVALLQKSASSEKEVEAISQRAASVVSLTRASGFGE
+RMGNVQPETHSIAVPLRMGEKLVGTLGITYFAKSQVDVNALKVELREAADACEAGRLPQS
+DATSLG
+>tr|B7RL10|B7RL10_9RHOB
+MVRGGVSKDREDGPERKCIATGEVQPKNGLIRFVVGPDMQVFPDILGKLPGRGIYVAADR
+AALELAVKKKLFARAAKQPVKVDEGLVDEVEKQLVRRVVDLISLQRKAGKAVAGYEKVKG
+WLQMEEAEVLIQAVDGSGRGKSKLSTPHFGHYIGWLTADELGLAFGRQTVIHGALASGGL
+TSRVVEEAQRLRGVRINEGGNGHPKG
+>tr|B7RNV2|B7RNV2_9RHOB
+MNDRRILKLTGADTLDFLQGLITNDIRKLEQGPIYAALLTPQGKFMVDFFLVAAGEAVLL
+DVAEPFADALVQRLNMYRLRADVQIAATELYLHRSLGAAPDDGYSDPRDAQMGWRAYRDV
+PQSDDTTDWDALRVAHSIPENGIELTPDSFILEMGFERLNGVDFRKGCYVGQEVTARMKH
+KTELRKGLAQINISAPVSVGADITADGKPAGTVLTQSGTSALAYLRFDRAKQAMQAEDAT
+ITLQSDG
+>tr|B7RGS2|B7RGS2_9RHOB
+MPKMKTKSSAKKRFKVSATGKVIGSQAGKQHGMIKRSNKFLRNARGTTALSAPDAKIIKG
+FMPYDR
+>tr|B7RHB7|B7RHB7_9RHOB
+MLEPLNASYPVLPLRDIVVFPHMIVPLFVGREKSVRALEEVMADDKQILLSSQIDPGIDD
+PDSDGIFKVGVLANVLQLLKLPDGTVKVLVEGQARVRITEFLENESFFEARAEYLTEMPG
+DETITQALLKTVTEEFERYSKVKKNVPEEALTAVIEASEPARLADLVAGHLGIEVEQKQD
+LLETLAVSERLEKVYGLMQGEMSVLQVEKKIKTRVKSQMEKTQREYYLNEQMKAIQTELG
+DGEDGKNEVAELEARIAETKLSKEAKEKVDAELKKLKNMSPMSAEATVVRNYLDWILSIP
+WNVKSRTKKDLVKAQKVLDDDHYGLEKVKERIVEYLAVQQRSTKLKGPIMCLVGPPGVGK
+TSLGKSVAKATGREFIRISLGGVRDESEIRGHRRTYIGSMPGKIIQALKKAKTNNPLILL
+DEIDKMGQDFRGDPASAMLEVLDPEQNATFVDHYLEVEYDLSNVMFLTTSNSYNMPGPLL
+DRMEIIPLAGYTEDEKREIAKQHLVPKQIKNHGLKAKEFVIEDSALTSMIRYYTREAGVR
+NLEREIAKVARKSLTKIIKKEAESITVSADNIEDFLGVKKYRYGLAELEDQIGVVTGLAY
+TSVGGELLQIEALRLPGKGRMKTTGKLGDVMKESIDAASSYVRSISPSLGVKPTKFDTID
+IHVHVPDGATPKDGPSAGLAMVTSIVSVLTQIPVRRDIAMTGEVSLRGNAMPIGGLKEKL
+LAALRGGITTVLIPEENEKDLPDIPDNVKEGLKIIPVKHVSEVLQHALVRQPEAIEWDQE
+AEDAAAAAIAKKSSGGDNATAH
+>tr|B7RLP8|B7RLP8_9RHOB
+MDDDDDLRDALSEQLLLTEDFDVFEAGTGADAKTRAAEALYDLVILDVGLPDIDGRDLCR
+ELRAQGVKSPILMLTGHDSDADTIMGLDAGANDYVTKPFKFPVLLARIRAQLRQHEQSEE
+AIFQLGPYTFKPSAKLLVTEDDKKIRLTEKETNILKFLYRSAAGVVPRDTLLHEVWGYNA
+GVTTHTLETHIYRLRQKIEPDPSNARLLVTESGGYRLVS
+>tr|B7RRR5|B7RRR5_9RHOB
+MRDDAEKEIAEGAGFDLSLLLPFQITKLSNRLAAQARAILARHDNLSLPQWRIIRVIAMG
+LSNRSTEIRKSTGIDKSQFSKTVNALVEEGYVVTVPCQEDHRQIELILTGKAIAAYELLA
+PEFAARQQHLLVALTPAQREMIFPAIHALARAAETIDFIDTPTSED
+>tr|B7RQN0|B7RQN0_9RHOB
+MADQHIASAFDRDLEAVQAQIMKMGGMVEDAIRLASQSLETRDAELAVQVRAGDKAIDAL
+EELINERAARIIALRAPTAIDLRLILSVIKISASLERIGDYAKNMAKRNTVLAQLPEVKD
+STGAIRRMCKTVESMLKDALDCYVQRDVDLAMDVIARDEDVDQMYNALFREFLTFMMEDP
+RNITSCMHLHFIAKNVERMGDLVTSIAEQVVYLVTGTQPDEDRPKADDTSTKLKG
+>tr|B7RIR7|B7RIR7_9RHOB
+MLRIASLVIALLSLPLAASAAGCRLALVLAMDVSSSVDAAEDTLQRKGLAAALISDNVRK
+AFFASDLPVALAVYEWSGRYNQELILDWLLIDSQAALLTAAETVASSKRSHNDFPTAMGY
+ALGYGAKLLARAPQCLYQTLDMAGDGQNNEGFGPQLAYAEFPFRDVTVNGLVVNAADFEA
+EVGLIAYYQREVLHGPGAFMIVANGFEDYARAIEIKLERELTPPAIGALTRQETAG
+>tr|B7RRG1|B7RRG1_9RHOB
+MNKIAIVAAAAILAGGAYYVTQLQTSDTAASEPKQGDPIVSVALPETLSAEATMGKRAFD
+ATCADCHGTNAAGKAGFGPPLVHKIYEPSHHGDMAFVLAVQQGARAHHWTFGDMPAQSGL
+TQADVKAITAYVRTLQRANGIN
+>tr|B7RG02|B7RG02_9RHOB
+MRRLALALCALILPVASSVAAQSDFGALTAKEKAAFGAELRALLLEEPQIVAAAMAPRNY
+AAEAMQDAADADLALIGALAEQVLEDADIALFVSADCVPCEKAITELQDISNTSSATFKL
+HDMSGPDAAALAAKLGMTEAPFYVLPNMILRGHMPSIVLTKYLTR
+>tr|B7RMD7|B7RMD7_9RHOB
+MELTPQFSRIGCKSKTPKDSDLEKNASIFTPVLIVSCLIIMVSFAVRASFGVFQIPIAAE
+FGWLRSEFSLAIAIQNLAWGIGQPFFGAMAEKIGDRRAIVIGSIVYAIGLVLSANSVTPL
+EHQTYAWLVGFGIAGTGFGVILAVVGRASSAENRSMSLAIVTAAGSAGQVFGAPVAEWML
+GFLTWQSTFLVFAGTVLAMTLTLPLMRAPAKATITELDESLGEILIKAFKDPSFTLIFVG
+FFSCGYQLAFLTAHFPAFVTELCGPILVGSALHSIGITTTSALGAVAISLIGLANIGGTL
+LAGWAGKRYSKKYLLAGVYTARTVVSALFILLPITPLSVIVFSIAMGSLWLATVPLTSGL
+VAHIYGLRYMGTLYGIVFFSHQLGSFVGVWLGGRLYDVYGGYTAVWWIGVAVGAFSAVVH
+LPIREKRLEGLVTA
+>tr|B7RMS0|B7RMS0_9RHOB
+MKCLIVQPVHEAGLDLLRRNGIQPVTCPGTDPDSIARAVMGCDAAITRDAGFPACAFEAA
+DRLRAVVVHGTGHNAVDKDAATARGVLVANTPGANAQSVAELTLGLAVALARGIPAADRQ
+ERAGQAGFRESASFAELSGKTVCVVGWGSIGSRFGQMAASAFGMKVLVHSPRARDIGAFH
+RADRLEEALAEADLVTLHTPLRPETHHLIEAERLAAMKPGALLVNVARAELVDEDALTAA
+LAAGHLGGAALDVYSPGAPQGPLAACRNVIFTPHLGGTTLEALRRVAIGASQHVITALRG
+DIPDTVLTPIPPAQAAPAKEVTV
+>tr|B7RNX5|B7RNX5_9RHOB
+MVGKPYKHKKRGAGRFVQLPEWVLATEAWATLPPGPRALYIELKRRYNGANNGEIFLSHR
+DAAIALHVHRNTVGPWFKMLEERGFIHLTRAPHLGPSGVGRASTWALAETATMDGRKASV
+AFKKWRNPA
+>tr|B7RJP1|B7RJP1_9RHOB
+MSSDAYVFTPPEQASLAVQGSDARFPVRRIFCVGRNYAAHAIEMGKDPTREAPFFFTKPA
+DAALDTPCTIPYPPLTENLHFEIELIIAIGKGGADIAEADVMDHVWGASVGIDLTRRDLQ
+NEAKIAGRPWDWGKAFDNSAPIAPIVPIADVPSVETARIWLAVNGDIKQDADLAELIWSV
+REHVSILSQAVTLAPGDIIMTGTPAGVGAIVAGDVVTGGVDGIGTLEVTIGPRA
+>tr|B7RPD4|B7RPD4_9RHOB
+MLGLLLLPALALFGAAGLFSDDNDDTDTTDQMQDDPEGVLNTATGTSGNDLLNGTGAMDD
+LNGLEGDDTINGFGNDDSLVGGAGSDSLSGGGGNNLVTGNDGDDTLNGGPQADTLDGGAG
+ADVLTGFGDDDLLQGGDGPDLLRGGTGNDSLSGENGNDTLDGGAGNDSLEGNFGDDSLAG
+FGGEDTLVGGNGADTLDGGDGADTLFGNGLADTLFGGKGNDVLRGGTNNDLLNGGSGNDD
+IQGNFGADTLFGGRGFDTLSGGEGFDYLAGNDGNDALYGNDGNDGLNGGGGNDSLFGGTG
+NDTLSGLSGDDLLDGMGGNDLLNGNAGDDTLTGGGLDDILNGGAGDDVLDGGTQSDLLNG
+GGGNDNLFGHSGADTINAGPGNDTLSGGEGPDQLAGNKGDDIISGGAGNDAIFGGPGNDT
+MMGDDGNDFLLSGTGADQIDGGAGNDVIRAYDFNFGTDVTGASDTLADTVMGGDGNDTIS
+ANDGDTVTGGAGADVINAIGYDQVGTAPVIVTDFNLAEDGLYLQETQSSPATFAPGDGNF
+VIRPAANGTDSEIVVGGNVVVILQNTDAAALSADTSWLLNV
+>tr|B7RR52|B7RR52_9RHOB
+MHKNALVRDLLKEKQSELTAAERKLSAVLLDDSLLSGLQSITRLAELAEVSSPTIIRLAR
+KLGFEGFSDMQGAIRNEIGARMKQPLAKLDAQAPTDSRGHIVSRFIEAVSGNINRTLERL
+DLAEFDQVAALLSDPSRRLYLLGGRITRSNAHYFFNHLQIIRPQVTLLDSSPSVWPQSLL
+DMDADAVLIVFDIRRYEKELEKLANLAVAQGASIVLFTDAWGSPIENYARFCFRAMVEVP
+SSWDSTLAINFLIEALVAEVQSRSSVQSADRIAALEQMIGESRIFRSN
+>tr|B7RHA5|B7RHA5_9RHOB
+MMLEEKIRPSCNACPIRHRAVCARCNEDELTMLEGIKSYKSFKAGDPILWRGDSLTYVGS
+VVEGVATLGKTMEDGRMQMVGLLLPSDFIGRPGRSQIEFDVVAVTDVTLCCFQRKPFEEL
+VTTTPHVAQRLLEMALDELDAARDWMVLLGRKTAREKIATFVEMLVRRQHLAGEQAPLPT
+LALPLTREEIASFLGLTLETVSRQFGAMKKDGILTFSDRRQFKVIDFDALHLATGDDADG
+GPLV
+>tr|B7RLL9|B7RLL9_9RHOB
+MSLRINDTIPDLTVETDQGTINLHEWIGDSWAILFSHPKDFTPVCTTEFGAVAQLADEWA
+KRGTKVMGISVDSAEEHKKWKDDIEGFAKAKAGFPIIADEDLKVAKAFDMLPAEAYLPDG
+RTPNDSATVRAVFIIGPDKKLKLSMTYPMTVGRNFAEVLRALDGLQMSSGKGVATPANWN
+VGDDVIIPTAVSDADAKAKFGEFTTVLPYLRTTKAPD
+>tr|B7RGK1|B7RGK1_9RHOB
+MTPPLHDTLRAILGDKGFLTGADVHSGYHTDPRGTVDARPDMVLRPASTQEMSQIMAACH
+GASQPVVIQGGLTGLVVGAMPQHGEVVISLERMNKVEAIDAKAGTITVQAGTPLQVVQEA
+ADAVGMVYPLDLGSRGSCSIGGNLSTNAGGNRVIRYGMTRDLTLGIEAVLADGTIINSLN
+GYIKNNTGYDLKQMFIGSEGTLGLITRATLRLYPKPKTQVVAFCAADSFDAVSDLMTHTR
+SGLGADLSAFEVIWASTYAAILSDVPGTKAPVPPGHAFYVLIEMMGSDSAGDTDKFETCL
+GDALERGMIVDAVLSRSNAEIDAFWNVRDGMAQAMGKQQPAVGFDISLSIPDMKTIEDEL
+LRRLRAALGDVRLFVGGHLADGNLHLVAKAVTDAPQPKEQIQQIVYGWVGEVGGSISAEH
+GIGTLKRAYLGQSRTAAELALMRTLKQAMDPKNLLNPGRIFHMQANDLG
+>tr|B7RPX0|B7RPX0_9RHOB
+MSIQTTDAPTALPPATPPGTAAKGRRSVFVRRPFFTIALIVAVAYVLAAIFAPYVAPFDP
+VQQDFMAMMQPPTTAHPLGTDSYGQDILSRVIYGARFALIIGIFSVLIGAVGGLVIGLAA
+GLAGGWSEWALMRLIDAILALPSLILAVAFIAILGQGVDKVVIAVGLSMIGPFARTVRSD
+VMQVRVQLFIEAAQLMSISYLRVVLRHVLPNVIFPLAVQVTIRISEAILVSSSLSFLGIG
+VTPPTPDWGLMIAEGRGFVSFAPWMSAMPGFALALLLIALSIVGDGIREEFDPKLRRDA
+>tr|B7RN26|B7RN26_9RHOB
+MLNFATRLALSPLLLAQGLSVRANALHLPEALGPRTGRLGSGPNLSLLILGDSSAAGVGV
+DYQNDALAGQLTGLLADRFTLDWQLVAKTGATTRTALQWLESHPPAPIDIIVTALGVNDV
+THAVPYPLWLRQQKRMFARIRMLFAPRMIYVSGVPPLGSFPILPQPLRWSLGKQAQRFDA
+GLSRLVHTSSYIRHVPFNRPLLPSQMARDGFHPGPEIYSEWAKEMASRIVSDWPQETEAV
+RET
+>tr|B7RP80|B7RP80_9RHOB
+MIQLAKGGLIMNVIAPVTVAPDRDAAVAALDTLRAWASDASQTEIDALDPSLARLLKNVE
+DYPDFSRVYPDDFAVGDNYKATLPDLQNGPSSLIKGAKQQIQHVGISNFRLPVQFHTRDN
+GDLTLETSVTGSVSLEADKKGINMSRIMRSFYKHGDATFSFEVMEAALDDYKADLESYDA
+RIQMRFSFPMKIKSLRSGLSGYQYYDIALELVERAGVRKKIMHLDYVYSSTCPCSLELSE
+HARATRGQLATPHSQRSVARISVDVNYDADCLWFEDLIEVARRAVPTETQVMVKREDEQA
+FAELNAANPIFVEDAARLFCEQLQADPRIGDFRVIASHQESLHSHDAISILTEGDTFAAQ
+SIDPKLFSTLFHVG
+>tr|B7RRD4|B7RRD4_9RHOB
+MISFEGRFYLRGARAIALSTTFLLTLSASTAMAQSSLEWNIGRASDDTAPAIGGNGTWEV
+GGGALNWLDATGTSVDFADGDDATLPAPGGYTLNLATDISVNDLTFAADGITVADSGGAE
+KLTIAGDVSVDSGLVGTITANVATSVSKIGAGELKLNGGAGGNVDVLDGTLTIDSGALSG
+AITAKNDSVTFGTIDINGGTLSGSLTNDGGIVTIDGGLIAALTNTTNAASSTTITAGQVT
+GATTVDGGALIVNGTTNGSRELGGTTTVNAGTFTLTKGDIDALVNSAATDGTTDITVTAG
+NVASLTNTSGETLLNGGTVAGTTTVTTGTVTVAGGTMSGNTTVDATGVLDLNSGSVATVS
+NGGTVDISGGTISGLVTNTGTVNAGGGQLSGGLTADGIINANGNTTTIALSYTNVNGITN
+TGNSTSTLSFGDTFENTGAVNAGTGAVTIQANNITIGAGNTVTGDVTFDGAVAGSGDLDG
+ADITGTVDIDDGDALTNIGTFTNDGLSEIGAGGAGASLSASAITNQDGATINVNANSTLT
+GTGNTTNNSGIVNVFGGGSLVETTGNYNNLSTGIVNFNDAGAKTFDVQTGVITNEGALNF
+NAGTTTVNSAGGAIQNNAGGTINVDNGATMDATGDTIVSDGAGAIITVDGTLTVTSVTNQ
+NGAQLIVNDDAGVLTTGVINGAVINSADFDLDGGSVGSLENNGGTADLNGGSITGTTTVA
+DGTVTNAGATLTGQTSTSGTGTFTQTAGTSGAVQNSGGTVNLDGGTAASLENTATAGTST
+VTDGQVTGTTTIAGGSVVVNGTTGGAVELAGTTTLTDGTLTLTAGDVAGLVNQGTTGGAT
+EITVTAGNVASLTNTSGETLLNGGTVAGTTTVADGTVTNAGATLTGQTSTSGTGTFTQTA
+GTSGAVQNSGGTVNLDGGTAASLENTATAGTSTVTDGQVTGTTTIAGGSVVVNGTTGGAV
+ELAGTTTLTDGTLTLTAGDVAGLVNQGTTGGATEITVTAGNVASLTNTSGETLLNGGTVA
+GTTTVADGTVTNAGATLTGQTSTSGTGTFTQTAGAANGGIANDGGTVNLNGGTTTSFAGN
+SGDSFMTGGTITGPTTIDGGSFSLSGGTIGNVTNNATFNIGSTVTGNFTNTGTLNATGTT
+GVITGNLSAASGTLNMQNGDPTSLLTINGDADLNGVVQLDVDLSDGSTQSDTIAVGGALS
+GNIILAFTNVGTEGDISDIDIFTYGTTNTLSFSSITGLPDTAAFEYFVQDNGAGSVLLQS
+RINTGITNLAATVGLTQTLVDAVINRPTSPFVSDFAGDKSVDPCGAGTWARMTGGSADVD
+GSFSDQTTGQSGTSPVSLNYSGLQLGGDFACFDGHYDGWDLAFGGLLGVNQGSTSNNVFA
+IDPNTGAATTQLLSFTETDILQRYAGVYMTAARGRFFGDLQYRYEATRFSSTNFEVVANR
+GFDLTDEKYDNRGQTLSGAVGYSWPVGDVPGLSFVSSAGFAFTNNETDTIDLGTDGTLTL
+KNSKSRIGFISGTLAKSKLLDDEVSILSYFGTATLYNDFGSDREAVFTSPTGTTRDLKIS
+NVGSYGEVSAGLNYVRLLSPNDAGGARQLNAAIRVDARVGKDIDSYALTGQLRLQF
+>tr|B7RHD4|B7RHD4_9RHOB
+MKTLNLSPLDPAFVQNPYRAYAQARLDGPVVYWEDYGMLAAFDAATVQALLRDRRLGREI
+PADQRVPVPAHLADFDAVDRHSMLELEPPSHTRLRGLVLRAFTSRRIAALAPEIETIAAE
+LLATLPQEPFDLIPAFCTQLPVRIIARLLGVPEDMWPDLLRWSNAMVAIYQAGRTREIED
+AANTAASDFSAFLRGYVDLRRKDPRDDLITQLIAAEEDGEKLSTDALIGTCILLLNAGHE
+ATVHALGNGVACLLTHDVARDALGPDAIAATVEEILRFDPPLHVFERFAYEDIDLDGITL
+EKGKKIALVLGAAGRDPAVYADPDRFDPARGAKPHAAFGGGLHFCVGAPLARLEIQIGLR
+ALFDHAPQLRLAEPPSFANSYHFHKLERLMVES
+>tr|B7RM28|B7RM28_9RHOB
+MLAALLGVGAMPVFAQASGAATAMAHAGNDAGLQTWLAGFRSRAVTAGIDAQVFDAAMTG
+VRYDADVIQRDRNQSEFTKTIWEYLKTATSDLRIANGKKALADNRAALEQIEKTYGVEKE
+VVVAIWGLESAYGTFRGGDNVLTSLASLAYDGRRRDFFESELLDALRILQAGDTQPDQMK
+GSWAGAMGHTQFMPSSFQRHAVDFTGDAKRDIWGDDPRDALASTAAYLKHFGWTQGQPWG
+VEVQLPEGFDYLLANRDVLKSPDDWAALGVVNMAGATVGDHGQASILLPGGAEGAAFMIF
+SNFEVIERYNTADAYVIGVGHLSDRIAGGRPIEQSWPVQDRALTFDERIELQTRLTALGF
+DTVKIDAKIGPLTINAVRRFQEAQGYLPDGYASLRLLDRVRAAG
+>tr|B7RQ18|B7RQ18_9RHOB
+MNLFADIRTLVLSALDALVAEGFLPEGLNFDAIAVEPPRDAAHGDMATNAAMVLAKPAGL
+KPREIAERLAVKLVDDARISSADVAGPGFLNLRLAPSVWQGIVGAVLAEGTDFGRGDLGK
+GKRVNVEYVSANPTGPLHVGHTRGAVFGDALASLLDFAGWDVTREYYINDGGAQVDVLAR
+SVYLRYLEAHGQEVAFPDGTYPGDYLIGVGEALKAKVGDAYIDQDESVWLEDVRNFATEE
+MMKLIRDDLASLGVEMDVFYSEKSLYGTGKIEAAIEDLKSKGLIYEGVLEPPKGKLPEDW
+EPREQTLFKSTAHGDDVDRPVMKSDGGWTYFAPDIAYHYDKVQRGFDMLIDVFGADHGGY
+VKRMKAAVSALSGGTVPLDIKLTQLVKLFKDGKEFKMSKRAGTFVTLRDVVDQVGSDVTR
+FVMLTRKNDAMLDFDFAKVLEQSRENPVFYVQYAHARVNSVLRKAAEAGVATDLAALQAA
+DLGLLDHEAELKLAAKLAEWPRLVETAARSNEPHRVAFYLYELAGDFHGLWNRGNDVPSL
+RFLQDDAAVSQAKIALAKATAIVIASGLGILGVTPAEEMR
+>tr|B7RSJ5|B7RSJ5_9RHOB
+MADKKGQKKRFWSDEEKVSICAQTCAPGVSVAQVARRYAMNTNLIHKWLRDPKFAPCPEI
+IEDEVAEAACFLPVEIVDWAQHKDTAPAPDANPAHSAIEIDIAGGHRLRIIGGYDPEALA
+RLIRGLSA
+>tr|B7RJS7|B7RJS7_9RHOB
+MNQPVKQHLIDPEICIRCYTCEMTCPVGAIEHDDNNVVVNFDTCNFCMDCIPVCPTGSID
+EWRVVDTPYSLEQQYEMDELPDQEDIEVATPSGDEADPIAALLAEAHKGAGGKAKAPATA
+SKPAVNMYNLGKPAKMKVQGNYRLTDDPEHDVRHIILDPGALPFPVLEGQSVGIIPPGTD
+AEGKAHLPRLYSISSPRDGERPGYHNISLTVKREDKGLASNFLCDLETGAEVEVTGPFGA
+TFLMPSDPQAHLLLICTGTGSAPMRAFTMQRQRSGATGGMTMFFGARAPKSLPYFGPLKK
+VPESLMKQHLVFSREAGKDKEYVQDRILAEQDSVAELLADDRTYIYICGLRGMEEGVEKA
+MTSIAESMGQQWATLRDAMREDGRYHVETY
+>tr|B7RRX9|B7RRX9_9RHOB
+MADHVLSNTYLDALKDQRTGFAMVFILSGLVNVLMLTGSVYMLQVYDRVLSSGSMVTLAG
+LFTIVVILYLFLGLFDFLRQRLLSRIAIRLDVALGKPSYKSWVQSGLPPQSASPEPLRQL
+SMLRQFLSGPTAVSLFDLPFVPIFLAALFLVHPWLGMMVLAGACVAGIAAILGRVLTRKW
+QEQAAIQNNTLQEFSRHSRQSAEVLTAMHMHDNLGNHWKTMHETRLALHQNASNPSEVIS
+AFSKTFRLLLQSAILSVGAVLVMQNQISAGMIIASSVLSSRALAPIDQVIGQWRAIGTAV
+AANRILRDFFAQIGADPQLVEFPEPTGRIAVKSLSKFSPQRGTQMRKALLQSISFDLAPG
+DGLGVIGKSAAGKSMLARVLVGAWQPDQGEVQLDGASLTKWQDGILGRAIGYLPQRIDLL
+PGSISQNIARFDPAASDADVIAAAQLAGVHDLINALPDGYASQVGGASGTPLSGGQVQRI
+GLARAVLFCPKLLVLDEPNAHLDGDGDDALDAAIMKLRTAGSTVIVMAHRPSAISAMNKI
+MILENGRMVRFDTKEAVLGGANVAPMVRTTGPTPIKPNGARPPLHPPHARGGVGTL
+>tr|B7RQF9|B7RQF9_9RHOB
+MSVIKRGNQWCLRRRVPVEFQQVESRSEVWISLKTDSRRLACEKAPAVWNEQVAAWKARL
+SGHDDDAVKHFEAVQDLAAAKGVRYMPLDQVVQLPINTLLERIETIANRDQRPDLVEAAA
+VLGAKQPPALTVTQALETYWTLAKDKTFGKSEDQKRRWENPRKKAVRNFVSVVGDKPMNH
+ITADDMLEFRGYWQERIEIGGLTANSANKDLIHLGDILKTVNSMKRLGFVLPLDGLAFKE
+GEKSERPPFSDDWIRTKLLAPNALMGLDPEARAIFLGMVNTGYRPSEAACAAPDQFCLDA
+DIPHLIIRSRPGRAIKNKNSKRVIPLVGVSLEVMRAFPNGFPTFRDNDAGLSSTVNKYLR
+ANGLMESDDHVVYSLRHSFEDRLLRAGVDDRVRRDLMGHSLNRERYGQGGGLAFKAEMVQ
+RIAF
+>tr|B7RIK2|B7RIK2_9RHOB
+MSNSLADEIKSGALASLGYRDGNSAILAQGIIEQVTANNIETVRLVFVDQHGILRGKTIA
+ARMLKSAFSSGIGVPSTLLLKDTAHRTVFDVWGGSASGSVSGIDALLDGASDVLLVPDPG
+CFHLLPWSPHSAILMCDVISRTGAAIGFSSRTVLRNAVDKLRDAGFEAVFGLEVEFQIFQ
+KTDAALGHEQATIPPAAISTRNLTQGWQYLTDTRYSEAEEILDTLRRFSDELGLAPRSME
+VEMGPSQFEFTFDPSGPMVQAERFVLFRTMVKEVCAQRGLHATFMAKPKLPNAVANGWHI
+HQSLLDINTGKNLFVSENSDLTPQASGWIAGLLQHASASCLLTTPTVNGYKRFTEFQLAP
+NRITWGADNRGAMIRALLYPGDNASRIENRVADTTANPYYAFAAQILGGLSGITSGASAP
+SPTLTPYANSAAQLPDNLSAAIDAFEASGLFKAALGDEFVQYLVHLKRAEWQRYLMTVSE
+WEQAEYFNLF
+>tr|B7RQC3|B7RQC3_9RHOB
+MSNPLIDLLAEKGTLLADGATGTNLFNMGLMSGDAPEMWNTDEPQNIIKLYKGAVESGSD
+IFLTNSFGANASRLKLHGAEKRAHELSRVSAELAREVADQAGRKVIVAGSVGPTGEIMEP
+VGPLTHALAVEMFHETADGLKAGGADVGWLETISAPEEYRAAAERVQTCRP
+>tr|B7RL99|B7RL99_9RHOB
+MTTMSDPQQGSFRLSMLLNDTRYRSYTFQFIALMLLIALMAFLGINLVRNLAEAGLNISY
+DFLGVPAGYDINQTLIDYNSQSTNLRAAVVGIINTLLVAFLACLTATILGVIAGVARLSN
+NWLVSKLMAVYVEIFRNIPVLIWILMIYTLMTAVLPAPNAFRGDNPSSSMLFDAFAFTNR
+GVYIPAPVWGPGSMIVVATFTLSIIAVFLYRRYAVKLLFETGKLLPLGWPTLAILIVPTL
+LVFFVMGSPIGLDYPALRGFNFQGGLQIGAPLIALWLALSVYTGAFIAENVRAGIQAISK
+GQTEAAASLGLRPKRVMNLVVLPQALRVIIPPLISQYLNITKNSSLAIAVGYADITATLG
+GITLNQTGRAIECVLLLMLFYLTISLSISAIMNVYNNNVSLKER
+>tr|B7RGL9|B7RGL9_9RHOB
+MTEKNRIRMMSFSLLFGFFLMWEVLCVLLNVSDLVLPRPSEILVTLWVKFPILLPHIIQT
+LYSTLTGFVLGVGIGVALGVIVGTSKVAYAVAYPLLVGFSSIPKVAVVPIFVLWFGSGTT
+PAILTAMVICVFPIVVNIATGLAATEPDLEDVLKTLGASKSEILWNVGLPRTMPYFFAAL
+KVAITLSFVGAVLSETVASNRGIGNVMMTASSNFQVSLVFAGLIILALLGVALYALFSVL
+ERRVTGWATRGNDLSIT
+>tr|B7RHB9|B7RHB9_9RHOB
+MEKFSFDLQARDGAARTGVISTPRGDIRTPAFMPVGTAATVKAMLPESVAATGADILLGN
+TYHLMLRPTAERIDRLGGLHKFMNWDKPILTDSGGFQVMSLADLRKLTEKGVTFKSHIDG
+SRHELTPERSMEIQKLLGSDIVMCFDECPALPADRDRIADSMRLSMRWAARSRDAFGDRP
+GHALFGIQQGGLERDFREESAKALVDIGFDGYAVGGLAVGEGQEAMFGCLDYATDMLPVD
+RPRYLMGVGKPDDIVGAVARGIDMMDCVLPSRSGRTGQVFTRNGVVNIKNARHADDPRPL
+DEACTCPACKSYSRAYLHHVFRSHEMISGMLLTWHNLHYFQEIMAGMRGAIAAGTFDAWQ
+AEFHATRAQGDIDPL
+>tr|B7RSJ1|B7RSJ1_9RHOB
+MIWPYLPQFAAGLKLTLLVSLGSFLIAMLVAILAVPLIMSGPKLVRMFLGGYVQIVRGVP
+ELLVIFMVFYGGTVVLSTISGSYFEVDALSAGIAALAAVAFAYLLEILRAALISIPAGQR
+EAGQVLGLKRHQVFSRIIFPQMLMRALPGIGNQWLISLKESALVSVVGLEELMRHSVIAA
+GATREPMVFYLLAALIYVAITGISTFLLRQAELRLSSGKQS
+>tr|B7RHE7|B7RHE7_9RHOB
+MCVALALPAGGFAQSTVATCAVEGTEAEAVFPCVLPDGTEVNDAEELDAQLQIALDQVVG
+AGDAVDEAAAEADAKAQEAAESVEDAQAAEDARAAAEAQAEEDAQAALDAQATADAQAAA
+EAQAAADASAAAEAAAAEEAAAAAQAAADASAAAEAAAAEEAAAEAKAAEDAQIAADAAA
+NEEAIAAQIAGDAEAKEAAEEAAATQDATATADPAQTEVTSEQQAEPIQVETTDSAAAET
+TVTPEAQAEATATEEAPKTEEQIAAEIAEQQAAEEARQEQRAAEAAAAAEAAAAADSGEA
+EAQVVTEEITAEETRSSDEEFSTEVTGEATAEAAPQEDDGLSKFEKALLLGLGAVAVGAV
+LKNGSKVVSNSGDRLVVEDQNGDLRVLKDDDALVRQAGDEVRRETFNDGSARTTVTKPDG
+SKVVTILGRDGTVLRRINIDPQGNEYVLFDDTQVEQRIVVNELPQVEQTNTLLSQQNEEA
+LRVALETQLRDTQAQRFSLRQVRDIQQVRALAPEVELDALRFETGSAAIQPEQARALAKI
+GTAITGAIRNDPRTVILIEGHTDAVGNEGYNLALSDRRAETVALALTEYFDVPPANLITQ
+GYGETALKVPSQTAQPANRRAVVRNITSLLKQ
+>tr|B7RID7|B7RID7_9RHOB
+MDEIVRPRALVTGGSAGIGLEIAKLLAANGHDLIITGRSTRVQAAAQELRGLGAGVVAVQ
+SDLSRPEGVQQVIDAVHAAGPLDVMVLNAASRSAVPSSISR
+>tr|B7RKX2|B7RKX2_9RHOB
+MAEPRENEFLDDIDDAEAEAYASEMEEIDDEALELDQLRAERDLLKDRFMRALADAENAR
+KRSDKDRREAENYGGSKLARDMLPVYDNMKRALETTSEEQRTVSSALLEGIELTMRELVN
+VFKKHGMEVIAPEVGDRFDPQLHQAMFEAPVPGTKAGDIIQVAAEGFMLHDRLLRPAQVG
+VSSMTAS
+>tr|B7RIL7|B7RIL7_9RHOB
+MVSNFRQQEILELARKEGKVTVDGLAERYDVTVQTIRRDLSELAETGRLARVHGGAVIPS
+GVVNIVYDERRRLNEDGKKAIAVACAASIPDGASVFMNIGTSTEAVARELLDHENLLVVT
+NNLNIANILAANHSCEIILTGGVLRRADGGLVGGLTAEMVKQFKFDFSVLGCSAIDEDGD
+LLDFDGQEVLVSRSAIQRSRKVMVVADHHKFDRKAPLTICSLSDVSRLFTDGKLPKKLIE
+DCKRWGTEVVNV
+>tr|B7RI09|B7RI09_9RHOB
+MSLFGFSLRPRRPKSAQTAKDRLQILLAHERRDGSDGPDYLPMLQADILAVIRKYTKIKE
+DDVDIRMERNDDISSLEINIEIPSEGPEKSIASALPGRRMKSRG
+>tr|B7RHC7|B7RHC7_9RHOB
+MMFAIPGKQAVTITPKAATQISKLMTSAGHAGLRIGIKKGGCAGMEYTMEYVNEPDANDE
+VVEQDGARVLIAPMAQMFLFGTEIDYETTLLESGFKFRNPNVTEACGCGESIKFG
+>tr|B7RKN7|B7RKN7_9RHOB
+MQLNDTQTNAMTAAGLNLIAQALTIYDADLNLVLCNAPFQQMFDLPRALVTPGATFQETI
+AHLARTGEYGDVADVAAFVNERVVQARAFEAHYMERTRSNGRTISVEGSPLPQGGWVTVY
+TDITRTKQHEALLRARSDALSGQVIAHAEELSATNRELAAMNTALEEAKRQLTLSEARTR
+LTTEMMPAHIAHVDADGRYTYSNRRLSSVMPGRPTDLIGRSIRDVLGAQAHDSIAPSLTQ
+AYAGKQSIVEFSDHATARRIRGAFTPDNNGGVYILSMDVTEETQNRTALQQTRRRESAAQ
+VISGLAHDFSNLLTIILGLQSRLGRLDALPATAHPLIEGTLAAARRGGALLSTIADMTGA
+RTLRPMATNIDTMLADLSVLARPTLPEALEMRIVNRMPERPVLLDSGLVQDGLLNLILNA
+RDACGTAGVVTLEVQLVHDTWIEFALRDTGPGFSPSALENGFTPFFTTKGAEGSGLGLAM
+VYDMVKSAGGDLRLANTDSGALVTMRLPYRPAVAATTGLVLLVEDADDLRALVRDMLMGL
+GHSVIEAASADEATALLADLPDIALILSDIQLVGEATGLDLAKRLGPDAPPLVLMTSLPT
+DDALFLEAQKRAPVLRKPFGPDDLTALINPKEMAAQ
+>tr|B7RJH4|B7RJH4_9RHOB
+MQSLKVGAAWAWRGDAIRVDGPNDVLRLDQADGAEDLRKRAARMVHRLVGAALDQDAPPV
+RKDRSDTQFSELMDNSFVVTDGGKSYTVTLIEVGRGSQPLLMFLDEMPPRNSDLWIVHHT
+LGSVALDKVAENGGGVICFTPGTLIRTADGADRIENLREGDLVQTKDNGMQPIRWIGKRR
+MSGARLFAMPKLRPVRFHANALGLARPDQDLLVSPSHRLLIKGEVARSLFNTSEVLVSAK
+DMINGSSVTVDAHTREITYIHVLLDTHQIMWANGVETESFHPASAALETLDGSDRARLVA
+QYPKLTFDPHTYGSYARRNLSVSEAAILHHAA
+>tr|B7RRA2|B7RRA2_9RHOB
+MTKAALVVGATGIQGSAIADKLVSHGCTVLGLARTPQDHDGVTPVAADLLDPKALAQALK
+GHAPTHVFLTTWLRQDTEAENIRVNDTMVRNLLDAVREAGSVEHVALVTGLKHYLGPFEA
+YGKGTLPKTPFREDQGRLDVANFYYAQEDEVFAAAERDGFGYSIHRPHTVIGKAVGNAMN
+MGTTLAVYAELCKATGRPFRFPGSQVQWESLTDMTDARQLADQVIWASTTPAARNEDFNI
+VNGDVFRWNWMWHRIGDYFGVEVEDFDGVERPLVEQMQDDAPVWAEIAKQHGLAKSDLSR
+LASAWHTDADLGRPIEVVTDMSKSRALGFTGYVATDSAFFDLFDRLRADNIIPKP
+>tr|B7RK00|B7RK00_9RHOB
+MKNIPISAMIGLFFTGIYFLMAVFAPWIAPYGMAEVVGDVWEPSSSEFLLGTDSIGRDLL
+SRMIYGGQTTIFIATAATILSFTLGSVMGFFAAVSGGWVDQALSRFVDLIMSIPSLIFAL
+VVLSVMPTTVPILIILMGLLDSTRVFRLARAVAVDITVMDYVEAARLRGEKIGWIIFRET
+LPNALSPLVAEMGLRFIFAVLFVSTLSFLGLGVQPPQADWGGIVKENKEGINYGIQAALY
+PAYAIATLCISINLVADWILNRTTSLKGGRG
+>tr|B7RMK5|B7RMK5_9RHOB
+MKLYYSPTSPYVRKVMVLLHETGQIDDVTLETMNTTPLKPDAALLSKNPLAKVPALERAE
+GPTLYDSRVICAYLDDRAGGMLYPAGARRWDTLTLEATADGILDAALSMVYEGRMRPEDK
+QMPEWIEGQWGKIERACAALNTRWVSQLSGPLDMGQIAVGCALGYLDFRHDARNWRKGND
+ALANWARSFDSRDSMQATAPPKA
+>tr|B7RQA8|B7RQA8_9RHOB
+MSTKEFLKKIKDEDIEYVDVRFTDTRGKLQHVTVVCDLVDEDFIEEGFMFDGSSIAGWKS
+IEASDMKLMLDVETAYIDPFYAEKTICVHCSIVEPDTGESYDRDPRGTAQKAEAYLISSG
+IGDTAYMGPEAEFFLFDNVKFSNTINKVSYEVDASDASWNTDTDYEMGNTGHRPGLKGGY
+FPVNPIDEAQDLRAEMLSTMKRLGMKVDKHHHEVASCQHELGLIFGTLTHQADELQKYKY
+VIHNVAHAYGKSATFMPKPIYGDNGSGMHVNMSIWKDGKPLFAGDKYADLSQEALYFIGG
+ILSHAKSLNAFTNPSTNSYKRLIPGFEAPVLRAYSARNRSGCVRIPWTESPKAKRVEARF
+PDPAANPYLCFSALLMAGLDGIKNKIDPGEAMDKNLYDLPAEELADIPTVCGSLREALEE
+LQGDMDYLLAGDVFTKDQIEGYIELKMEEVHKYEHTPHPVEFGMYYSC
+>tr|B7RG01|B7RG01_9RHOB
+MKHLIAPALIAPALMAFAVTGPALSMDLTELTAAERAQFRAEVRSYLMENPEVIMEAVNK
+LQQRDAEAQAQADFTLVSDNAAAIFDDGFSYVGGNPEGDITIVEFMDYRCGYCKKAFSEV
+EKLVNGDGNIRFIVKELPILGEQSMVASRFAIATKLVAGDEGYKSVHDALMTFNGDITPT
+SLGRLAESFDLDADAITEKMDSAEVTEEIAKTRALAQVMNISGTPTFVMDDELLRGYLPY
+DQMKAIVEEKRG
+>tr|B7RGP1|B7RGP1_9RHOB
+MAKRATSKKKKTTAPVTRRVKRRVIGYLFKAVVGVVAVMLAGILLFSVLNPPTTPYMFSE
+SRRLGGIDHQWVPLEDIAPVMARSVIAAEDANFCNHWGFDLAAIKNAIAEGSNRGASTLS
+QQTVKNVYLWHGRTWFRKALEAAITPLLEAIWTKRRIVEVYLNVAEFDEGVFGVDAAAQH
+YFGVIPSDLTATQAARLAAVLPSPKTRSASRPTAGLRKRSAQIRDGAATISKDGRASCFE
+S
+>tr|B7RR75|B7RR75_9RHOB
+MAVQKAPEDILSENRFVADKLDDVARLLEQQDASPFRVRAYRNAASYLRGLAHPVRLDYQ
+RAGRRGLDDLPTIGQSIAATIAEILDTGASSLLDRLRGTTDPEQVLQTVPMIGPELARRI
+HDDLDIDTLEALETAVYDGRLASIKGIGPRRVESLRHSLSDMLARRRPRRVPRNRQQPSI
+ADILAVDQSYRENVDTLPQIRPRRFNLSGEARLPILHAERDGWQFTALYSNSPAAHRFGR
+NRDWVVIYFERADQPEGQVTVVTEHGGPQDGQRVIRGQEKACAAYYQTLEAKQLQPH
+>tr|B7RRE6|B7RRE6_9RHOB
+MKSTFALSLSLVAFSGGAGLGLSAYHDFSTSVQSASLEQPEIINDGSSGFVIPNYVPAIN
+ASMSASVLAAPTRPAVFKTPDLSSQTEQPTLAALTGPAVDAETIAPLAAPKKSFVKQESA
+PKFIRQAKPQAASASTVAASGPQAFNDFEEFVPKNAPKYVVGVYR
+>tr|B7RJS1|B7RJS1_9RHOB
+MTDHLNLRPHKVIRTDREDGSILLQSGYALGPVARCTGDWLHHWADKTPDHVFLAERDGD
+GWRKLSYVQVLEAVRSIAGHLISRDLGPGRPILIVSGNSIDHALLSLAAQYAGVPTVPVA
+EQYSLIPAALPRLDHVVRLVNPGMVYAQDATQYAGAFALESLSSAEKLSSAPGASGATDF
+NDFLGPNGADVDSAFAKITPDTLAKILMTSGSTSDPKGVLTTQRMMTTNQAQLAQALPFV
+TARPPVLVDWLPWNHVFGGSHNFNLMLANGGSFYIDDGKPAPGLFDKTLANLRDVSATIS
+FNVPVGFAQLVTALKADKQLCERYFAELDMIFYAGASLPQATWAELERLALETCGQLPLI
+NSSWGLTESAPAALLQHEPARGAGIVGVPLPGVTVKLIPDADGRCDLRISGDTITKGYHD
+NPAKTAEAFDAEGFFISGDAMRLIDDADPSRGLMFDGRMSEDFKLMTGTWVRAGQLRLDL
+LAALAPYVTDLVLTGQGREQVGMLIVPNRATMAAKGWDATDDNGAMICAPLMQEIAARLT
+DLAAKTSGSANRVAAAVILTDPPSMGDGEATAKGNLNFPKILMRRAGLVARIYDVADPAR
+IAAL
+>tr|B7RMK9|B7RMK9_9RHOB
+MAGFDIPMQAELTRRPFEEALGKAADLATGQVLHGLGGVDGQIAEAMRYAVTGGKGLRAF
+LVIESARLHGVMDAQAAPAAGAIEALHAYSLVHDDMPCMDNDDLRRGQPTVHVKWDEVTA
+VLAGDALQALAFELAAQTGCSDAGRVALVAGLAHASGVRGMVGGQALDIAAESASVPLTL
+DQITTLQAGKTGALIEWAATAGPVMARDDPRPLQRYARDLGLAFQIADDILDIEGDAETV
+GKAVGKDAGAGKATFVSLLGLAPAKQRAQALIETACEALAVYGDDAETLRDAARFVIARK
+S
+>tr|B7RKZ5|B7RKZ5_9RHOB
+MSYNHSIFTHFRRQFMSDKKFNLSSRRAFLAGSAALLASPALAQSSVNSTDTTEVERDVT
+ESVRRNISSFRTLDWQPYFDNTRNGAVLVDIDSRAVHFWSEDQSIYKLYPSSVPLTDELT
+RRGRTSVIQKVVGPTWRPTPSMLKRNPEWPAVIEAGPDNPLGTHALYLSWTYYRIHGTHD
+TRKIGRRSSNGCIGLYNEHIAELFSYTKVGTQVLLI
+>tr|B7RNT1|B7RNT1_9RHOB
+MPDDQRVFDDGAGWRAALLLVRRKAVMILLLTVLISLAAVPFILSMPQQYHSETRFMVSP
+TPVFKFAEEVTGRMPKLDVESEVERLASQDVAAVVIEQFEIAGLPEFNPTLKPESGSQDL
+IQRATTSVRKALADMGIGVSPQADVNPEDPDRVPANFSNALSITQVGDSNVVRVGFTSRD
+PVLAAKVPGAMVAAYLAQTQAHWTSEIAVATDWLGSWIDVGRAQIKENEAAFERYRSRTA
+LKSGDTELVASNRLSQIEERLLAVRRERLDIAAILRSVEASKANPDLPSLSQPPQFLELR
+KEHQRELRELEKAASVYGANTSAIAFRKSRIAAITAEISAELDAQEHVLNLRDTTLAMEE
+DELLADSEKIRETLATVQNAGAQLSSLAESLRAHDEALSLLEYRKQSLHSQATVKPINLD
+ILASAEVPIRPEGIGRKIYLGGAAFGGFLCALLFAGISELRDTTVRSHEQLSHLAGVVPV
+GLWPRLSTPERRRMSRDISSMADTTGPNFLHDMILMLECANRGEFPQVLTVTSPCQSDSE
+SPVAAWMALQLAATGQKVQFIEARRDRPPGFLSKIAGNTSDAGENPHVLYRSLAEVADDL
+GGNPDKVLSMLLKKAKADDMITIINAPPLLSKGGMRYARTGDGLLLAMGWGRTPRAACDL
+AAGLLAKLGVNRVYSLITDANPKRHRLYGFTDRLSLEGSA
+>tr|B7RQR9|B7RQR9_9RHOB
+MALPQAAFACAQLSATVWMCDRGTAWETAKWDVIGDGTTRYLGEVILNFTEEWPGHEITD
+ISATLEEQFTTYAAWIAAENPTPPEVLQVDKIVTPQGHTLRHLQYDEIDGSRTMSAVMLS
+EVGAARIMLYLDTSDSMPLEEMEKMSFDVAMMLRDTCADEVSCAQDYTPPTSGTE
+>tr|B7RR40|B7RR40_9RHOB
+MLVQENQTTHELAEKVVFDRSKSDARLMAGLLPAPVNFGQIGVVENLIDNYIEGSDGQFT
+GVAVLNAKGEVLVEKGPQVDETLPDLGRTALSASDPVFFDQERITAYPLYAAGDRFVGVL
+VTRWSIEPLEAFLETRRISALSLAAFVGITALLVTLFAFRSLVLKPLASLNRTIGNLRLE
+EFSVPVENTKRGDEFGILGREVEHLRDSLVAGSAAARDARFKSEAFGSSSAALVLADETG
+QIFAINPAFEALCQKHIEHFERRFPGFEAGKLVGKPLDYFHPKNPELAKRVSALSEKAIS
+TTISMQDVRISLKIKSIRDENERHIGAVLEWQDVTEEWKNSALIREINASQLRADFLPSG
+QLCEENDLFRSLIATSHTQSGSAGLTTLITKDAETIFAQVKENGSFVGKMIFSGANGTDV
+IVEGSVTSVADVDGKPYRLFLLGRDVTEAVRSSEAARVERKQLDQERSLVVDSLRVGLKR
+LSGGDLRATLPEPFAQRYEELREDYNEAVTKLCQALGAIADRAETIRNESQDISGTAEVL
+SRRTEGTAATLEQAAAALDDLTGAVRGTAEGAQKANVIVTEAKANAEESGVVVLKTVSAM
+DEISTSSEKMASIIKVIDDIAFQTNLLALNAGVEAARAGDAGRGFAVVASEVRALAQRSS
+EAAREINDLIARSVAQVKIGVDLVGETGNSLHRIASSVNDISGQVSEIAVSAQQQSLTLE
+EINSSVTQLDRSTQQNAARLEETTAASDALNSVAMSLVETIGHFQISEKVVSISSRKITP
+KGVSSDNQNGVSDNPREQRKDGEIRAAAGTWTDF
+>tr|B7RKE1|B7RKE1_9RHOB
+MDQFDYVIVGAGSAGSVLANRLSQSGQFSVLLLEAGGADSSPWVQVPIGYGKVYYDARVN
+WKYTTEPVAGLDGQRSYWPRGKVLGGSSSINAMVYVRGHPRDYAEWNAAAPGWGWDDIEP
+VFRRMEDWDGPASDARGVGGPLSVHDVTDEVHPLTNTYLQAAAQAGIPTNPDYNGPVMEG
+AACYQITTKDGWRASAARSYLRPARKRQNLNIQTNAHVTRILFDGTRATGVEYRQNGQTK
+TASARAEVILSGGAINSPQLLQLSGIGPAAVLQDHGIPVLLDAPQVGRNLQDHLGADNYY
+VSKVPSLNQQLRPLWGKAIAAAQYALKRKGPLSLSLNQGGGFVRLSEESEGPDLQLYFSP
+VSYTRAPVGVRPLMNPDPFQGFLMGFNPCKPTSAGYLQIQSPDPMVAPELHPNYLDTDHD
+RAVMLAGTKLIRQIADMPALKSVIQSELSPGADVTNDADIAAYLRRTAWTVFHQCSTCRM
+GADASANVVDARLRVHGIQGLRVADASIFPTIPTGNTNAPAIMVGEKASDLILEDAKS
+>tr|B7RR01|B7RR01_9RHOB
+MTGCSSHAPAKRAKREVEMFGYLVGRLSQAVVVVFAMSVIVFVGVYAIGNPIDVMIDPGA
+TQEIRDNLIRQYGFDQPLWRQYFTFVGNVLHGDLGRSMVYNISVTSLVFSRLPATLELVL
+VSVTLAACIGIPAGLYAGYRPDSIGAKVIMALSVLGFSVPTFWIGMLLIMAFAVELGWLP
+SGGRGEVAEFLWFKTSLATSNGWSHVIMPAINLSLFKMGLLIRLTRAGMVEAMGAEYVRF
+ARAQGLPDRQIVFSHILRNISIPVITVFGLELGSTLAFAVVTETVFNWPGVGKLIIDSIL
+QLDRPVMVSYLVMVVILFVLINLIVDLIYARLDPRVRLKGGS
+>tr|B7RMF4|B7RMF4_9RHOB
+MKPAANLSLLWQELPYLDRFEAAARAGFAAVEVLFPYDIAVKETKRACLRHGLDLILINA
+PPPNYTGGPRGFAAVPELVDRFRADMVRVYRYAEALNVKFVHVMAGDGSGAAAADTFISN
+LVWASDAAPAGLTLTIEPLNPVAMPGYFLNDYQLAQDILEAVNAANVGLQYDSYHAQVIH
+GDAVKVFDQYQDLICHVQIGDGPDRTAPGTGTGIARIDFAALFSRLKSCEYGGWISGEYH
+PGPVTENSLDWMKML
+>tr|B7RPF3|B7RPF3_9RHOB
+MTQRTDKNGLQIANELVEFIETKALPGTGVSAEAFWGGFSDLVHDLGPKNRDLLQVREDM
+QSQIDAWHKERAGQPHDAEAYTAFLREIGYLVPEGPAFSIDTAGVDPEIASVPGPQLVVP
+ITNARFALNAANARWGSLYDAFYGTDALGDLPQGKGYDAARGARVVAKAKAFLDEAAPLA
+SGSWGDVTGIKVSDGGLSLAGAGGLADLGQFAGYSGAADAPTAVLVKHNGLHIEIQINAD
+HAIGKTDPAHVSDVLMESALSTIMDCEDSVAAVDAEDKVVAYGNWLGLMKGDLSETFEKG
+GQQVTRAMNPDRDYTAPDGSALTVKGRSLMLIRNVGHLMTNPAVLDRDGLEVGEGLMDAM
+ITTLIAMHDLQKTGGMRNSVAGSVYVVKPKMHGPAEVAYADEIFTHVENVLGLPANTVKL
+GIMDEERRTSANLAECIRAAKSRVAFINTGFLDRTGDEIHTSMEAGPMVPKGEMKNSAWI
+AAYEDRNVDIGLACGLQGKAQIGKGMWAMPDLMEAMLEAKIGHPKAGANCAWVPSPTAAT
+LHAMHYHQVDVLARQEEIKAGGPRGTLDALLTIPVLTGRNLSDDEIRQEIENNAQGILGY
+VVRWIDQGVGCSKVPDIHNVGLMEDRATCRISAQALANWLHHGVISEDQVMAALKKMAAV
+VDGQNAGDPLYRPMAPGFDGIAFKAACDLVMKGRVQPSGYTEPVLHARRLELKAAQG
+>tr|B7RKQ8|B7RKQ8_9RHOB
+MNYAFPPGGLPDQSQSPESTAVFTDAYAVIPASVQRDIVTSLLPGWSNTRAWVLARPLTG
+FAETFSQYALELAPGGGSATPEPDLDAQAVLFVAHGTAQLTIGRDAYDLVAGSYVYLPPA
+AVWTLWNSADVPCGIHWIRKRYVAVKGIQTPPALVTHEDDVPHTAMPDTDGVWATQRFMD
+PLDLRHDMHVNIVTFQPGGVIPFAETHVMEHGLYVLQGTADYLLNRDWVPVGPGDFMWLR
+AFCPQACVATGSTPFRYLLYKDVNRHMPLAL
+>tr|B7RP29|B7RP29_9RHOB
+MIAAATRFARNQSKIPLSAEAIICEIDGKPNIGSAKALTRNGFYHAERTRGKIEHSNSHF
+LLSDPKHVGTIAVHKLVASSNDLIEFGDWILKDWEEIPV
+>tr|B7RPN9|B7RPN9_9RHOB
+MNLATQQAALPKLTLLGTFGSLTNPGALIRDKHGAIHRVRLNDTIPDGIVAAIGNDSLVL
+ASRGRAITLKLPKG
+>tr|B7RRB3|B7RRB3_9RHOB
+MSWDSKVLWNEGLFLQPHHFQQADRYTESLVAGLARRIGPYIWGVNALEIDEEVLKFGQF
+AIKSCAGLTHDGTVFRVPSSEDHPPALDVPEGVKDCIIYLTVPQRRQGALEVDMTGAELS
+AARLRPGEIEVTDVTSTGKKAVTMGVGKLRLQFALAVDDLADRLCIPIARIIEVKPDKEV
+LLDKSFMASCLDCNAAGPLKDFMRELDGLLGHRKTALSGRLSEGGSTKGVAEISDFLLLM
+CVNRMQPLVKHLSQIENVHPQEFYRVCLCLAGELATFMAADKAAPEFPPYAHDNLTVTFN
+PVIKVLRQYLSSVLEQTAVSIPLDPRKYGISVGIIADRKLLSTAGFVLAVQADIPAENVR
+RHFQNQAKIGPVEEIRQLVNSALPGIPLRPLPVAPRQIPYHAGVVYFELDGDSAHWGKMS
+TSGGIAVHVSGEFPGLKMELWAIRQG
+>tr|B7RKX9|B7RKX9_9RHOB
+MWSGPRNLSTAMMYSFGNRADFTVMDEPFYAAYLAATGEDHPMQAEILAVHETDPELVGV
+QCQRQGTPHLYMKHMPHHMLDGFPMDWARDCVNIHLIRHPARVIASYTAKREAPGFDDIG
+FGQQTALYDRIGGLVIDSADIRADPEGMLRKLCAAIDLPFDPAMLTWPAGARPEDGVWAS
+HWYGAVHSSTGFAGAEGPLPTLPPSEKTLLDQALPHYKILYDQRII
+>tr|B7RLN1|B7RLN1_9RHOB
+MATITCEVHHADDRFDWTGFYRVTEPELLKIGPYQGGHGCLVIPFSRGVCGAAARTGQTQ
+LVPDVEAFAGHIACASSTRSELVLPVWNGAGDLIGVFDIDSNQPDAFTPDDANHLKAILK
+DCFANVT
+>tr|B7RM11|B7RM11_9RHOB
+MSATAPITQDVMTLPRKLPDGPMNLVGLTRDAMREVLIAQGTPEKQAKMRVGQIWQWIYQ
+WGTRDFAEMTNLSKAFRAELAEKFVIEVPEVVTKQVSEDGTRKYLVRIAGGHEVEVVYIP
+EDGRGTLCVSSQVGCTLTCSFCHTGTQKLVRNLTAAEIIGQVMVARDDLDEWPVPGTITE
+APRLLSNIVLMGMGEPLYNFENVRDAMKIAMDPEGIQLSRRRITLSTSGVVPEIARTAEE
+IGCQLAVSFHATTDEVRDKLVPINKRWNIAELIEALRSYPKVSNSERITFEYVMLNGVND
+SDADAYRLIELIRGIPAKINLIPFNEWPGAPYTRSSNNRIRAFSEIIYKAGYASPVRKPR
+GEDIMAACGQLKSATERARKSRKQIEADAGL
+>tr|B7RLB9|B7RLB9_9RHOB
+MAERNLPHIVLNGVSKSESFRGKGGGGTPSPSFIQNRQAHAQRLIASLDAIQVEETARAT
+YIAVQGRPGEPFLPEKFNVSGLSLLSMKEADTDQQVPGRAIVKASRSESGLSNLKGKLRQ
+FAGDLRPPNNNGVRNPYHADMANSVDLFAEIELRDLWRHPTKPFPEAIGPIPWEVWLEPG
+EVEQFVARAVLEGLTVYPDRLEFPEDIVVLVEGDVGQMARTAIGTGSVRSISPPGVPIDF
+VDGLEAEEQADWLQDVLGRTLFGPQDQQAASYVTLLDTGITLAHPLIQPAFDAADRHAAV
+DGWDLADLHGHGSRMAGAALFGDLRTHLNSTAAIYVPHRLESAKVIPDAGHNPYHLLGDR
+TQKAINAVEVKPDRLRTFALATTTDLDSPHSGAPTSWSTELDQLAAGRSGEVKQRRLIVT
+SVGNIDAQHDGNTDYLSKCDDLDEGEVQSPSQAWNSIAVGAMTEMNGVGGPTHGATLAEV
+GDLAPMSRTASWTKTWPIKPDVVLEGGNWYDDGYSTTPNQHSDLMLVATSRNFPERSFTH
+ISDTSAATALAAREIALLRASYPNLWPETIRALYVASARWTERMWSHIAAADRSRKGAFD
+VMFTRYGYGQPNLERALKSASSAVTLIAEDSIRPYENKGSGRKLNEMRLFELPWPTNVLR
+GLVGQDVTLRVALSTFIEPNPSEVARGRKNRYASHGLRVALKGADEDVDDFTQRIGRTAD
+EDQPDHNGPVGGEWDFGYNRRSVGSLHIDTMTVAASDLARRGVLAVYPVGGWWKENRSVD
+PERCVARFSLVVEIDATEAEVDLYAEVQQRVAPQAAIQV
+>tr|B7RJE5|B7RJE5_9RHOB
+MAAYDYETHEYDVVVVGAGGAGLRATLGMAEQGLKTACVTKVFPTRSHTVAAQGGIAASL
+SNMGPDNWQWHMYDTVKGSDWLGDTDAMEYLAREAPKAVYELEHYGVPFSRTEAGKIYQR
+PFGGHTTEFGEGPPVQRTCAAADRTGHAILHTLYGQSLKHNAEFYIEYFAIDLIMSDDGV
+CQGVLCWKLDDGTMHLFSAKMVVLATGGYGRAYFSATSAHTCTGDGGGMTARAGLPLQDM
+EFVQFHPTGIYGAGCLITEGARGEGGYLTNSEGERFMERYAPTYKDLASRDVVSRCMTME
+IREGRGVGESKDHIHLHLNHLPKETLDLRLPGISESARIFAGVDLTKEPIPVLPTVHYNM
+GGIPTNYWGEVLAPTADKPDNVSPGLMAVGEAGCASVHGANRLGSNSLIDLVVFGRAAAI
+RAKEIVDPSTPVPTPNTRSIEAAFSRFDGLRYAKGHVATAELRLEMQKTMQADAAVFRTD
+KTLNEGKVKMDEVAGKISDLKVTDKSLVWNSDLMETLELTNLMPNAVATISAAAARKESR
+GAHAHEDYPDRDDENWRKHSLVWFKGNEATLGYRGVHLQPLTSHNDGGIDLKKIAPKARV
+Y
+>tr|B7RRZ7|B7RRZ7_9RHOB
+MALNSDLKDQILQAVDDGFPDQIFFTQELVQIPSLRGHEHAIQDLLFRTLQTRGYAMDRF
+KMDRAAIEAHPGGSKYTEDHSDAPIVVGIHRPRKEVGRSLILQSHLDVVPEGLHDMWNDP
+PFSGKIDGDWMYGRGAGDMKAGAAANIFALDALRRIGLQPAATVYVQSVVEEESTGNGAL
+QSFLQGYTADAVFIPEPEEEMLVRANTGVIWFQVQVRGVPVHVREMGEGANAIDAATRVI
+TALREMEEDWNAAKGNHPHFEDEAHPINLNIGKIEGGDWASSVPSWCNIDCRVSIYPGRS
+AEDAAREITERVKAFAQTDGFLSNNPPQIVFNGFYAEGYVLEPGSEAEAVLERSHETALG
+EPLQSFMTAGYLDTRVYALYNQIPALCYGPKSRNIHGINESVSITSVKKITQAMALFIAE
+WCGTEEIGQ
+>tr|B7RN50|B7RN50_9RHOB
+MITLWHNPRCSKSRQTLALIEASGTKVKIRRYLEDAPSLAELEAARSALGLSPIAMMRTG
+EARFKELGLRKDSDDALLMQAMADAPILIERPIAFKGTKAVIGRPPEAVNALLSD
+>tr|B7RHM4|B7RHM4_9RHOB
+MEATAIAIDALVADVIDTMPERLRQSGRVKVEINRAFSDFLRERGKITDADVARCETILH
+EAMHRHGIEVADHRPAPAAPKPIDGPDISHCKDSLSTLVGAAFATTFDGSEHMAKAAADR
+AWRDVTYQLDRWALPPSIRTELESAARIDIEINPHGVVSPPNNAQGG
+>tr|B7RN09|B7RN09_9RHOB
+MIKRLVHRLVLRAETLLDPIFGRSGTGRHIDPFIGFATPEGVVLRGRVLSKLRHAKAGKG
+QSRLDNLRNMIGMFLTDEVRDATVSYGDLTARSDEEGYFTLMLPHDGKTGWQSAALTVEG
+STEIFNCPYFVPPADARFMVVSDIDDTMMLTGAYSLTRNLWTSLTGNALSRIIFPDAKQL
+METLSDGARNPVYYVSSSPWNLHNFLGNVFNNAGLVRGPMFLRDLGISETKFITEGHGGH
+KGGSIDQILRASPDLPVILLGDTGQHDAHIYLEAINRHPGRILAVGLRIPENGIDAADQR
+DLDALEQSEVPTFAAQDFSGFVELMRKVHPDLMERPTPPH
+>tr|B7RG07|B7RG07_9RHOB
+MDYTKQLDQAIERLHEEGRYRTFIDIERRKGQFPHAVWTQPDGEEKNITVWCGNDYLGMG
+QNPVVLQAMHEALDATGAGSGGTRNISGTTVYHKRLEAELADLHGKEAALLFTSAYIAND
+ATLSTLPKLFPGLIIYSDALNHASMIEGVRRNGGAKRIFRHNDVDHLRELMAADDPSAPK
+LIAFESIYSMDGDFGPIEAICDVADEFGALTYIDEVHAVGMYGPRGGGVAERDNLMHRLD
+IINGTLAKAYGVMGGYIAASAKMCDAIRSYAPGFIFTTSLPPAVAAGAAASVAFLKTAPQ
+LRVKHQEQARILKLRLKGLGLPIIDHGSHIVPVIVGNPVHTQILSDKLLEDYGIYVQPIN
+FPTVPRGTERLRFTPSPVHGPREMDGLVHAMDGLWSHCALNRAELAG
+>tr|B7RNU6|B7RNU6_9RHOB
+MIWSNTQSYANPKVDELLNAAAVELDLDKRKALYAEFQQVVAQDLPIYWINATPYHTAYN
+SKLVNPPKGIWGTMHPMDMVEISE
+>tr|B7RPJ6|B7RPJ6_9RHOB
+MVKILPFFGINKYWSVACVVPFGTIALLWWVGLKLTELERK
+>tr|B7RQ48|B7RQ48_9RHOB
+MKKPSQLPDRFGKNMKPFLKQSHSALVFLVEVLTVQAGVIKL
+>tr|B7RR93|B7RR93_9RHOB
+MSFAYAPSSGMGLYLGAGLSIGVHGALVALWLTQAAALEPPKETGIQGRELIDLAEVEMI
+IAAPETNLPDGAPAEDSKATLDSPAEREEAKASNDPILAQVPRAPDDPELQFKIANPDQE
+VETEKDATEVPSEIQEETQTENAPQSTAAAPEASAGQDEKSQTAAKKQGLTDAERAEITD
+WQKSLVLALNAGKDYPRRAREARAEGTTTVAFTVDHYGQIKAREVSKSSGWPVLDKAALD
+IFDRQKTLPAPPAAMGAGPFNLAIPISYRFR
+>tr|B7RRP7|B7RRP7_9RHOB
+MGRADDCFELRTLRAFRDGWLASHPEGHGKIAEYYRIAPALARAIESDYALLDHLYWGTI
+LPCVAAIRLGANGLAFRLYVRMVRRLRNDYPQAV
+>tr|B7RJT6|B7RJT6_9RHOB
+MTDENFDLTHFLPYLLNQAAEASSLAFQQIYKERYGMLRAEWRVLFHLGLYGQLTASEIG
+LRANMHKTKISRAVQKLTERRFVTRARDAGDRRLEHLALTPPGQAAYEDLHSVAQRYDAA
+LTEDLSAAEREALRKLLVKLSKTPLAGFT
+>tr|B7RRA9|B7RRA9_9RHOB
+MTQVRYSATTHLGLKRKVNEDSILALPDQQIWVVADGMGGHAGGDFASQAVVDSVAMIDP
+TLPPVGLLNALRDTLARSHELILSEAASRGGVTMGSTVVTFAIAEGHFATFWAGDSRLYR
+LQNGVLDMLTTDHSVVADFVLAGQMTWDEAEHHPQSNAITHAVGVGDKLELEKIRGQVFS
+GDRFLLCSDGLTKYATFDILTRYLSQEPIETIAERLQQLALDGGGADNISIIVIDII
+>tr|B7RMA4|B7RMA4_9RHOB
+MKELLRTNDPTIIAFASALLQGEDIDCFQVDVNMSVLEGGIGIFPRRLMVHDDDHTAALR
+VLADNDIPTGLPV
+>tr|B7RMN5|B7RMN5_9RHOB
+MAIHAGQRQAIASQNVANSDTPGYVAKDIAAFETLYQSSRDGTVQRATRTGHLNGSVDGM
+QVTEPFEVRDEASPNGNAVSLETEMLRSLDAKRQHDRSLAIYKSALSVLRSTIGK
+>tr|B7RQD9|B7RQD9_9RHOB
+MTESRMAQITAGTAPPDLATKIMTTVDPVDGDTFTTQEMVDQVAIFFLAGHETSASALGW
+ALYLMATHPDWQARLAQEAQQIDACDFTVMSKLRLSRDVFREALRLYPPVPMMVRETTCP
+EQFRERDIKVGSQLVISPWHLHRHERLWDNPDGFDPDRWHTENGQKCGREAYLPFSAGAR
+VCPGAGFAMVEGPLILSRLLRDFRVEPVDARVPVPVAHLTVRSKDGIWLRIVRR
+>tr|B7RIX6|B7RIX6_9RHOB
+MRALNDLRASKGVAPVVYSAKLEAAAQAHALDMAKHGYFAHEGRNGSSVGDRVKKQGFKW
+CFVAENLAKGQRDLNQVMQAWATSPGHYANLIHKKARALGLVEGPDRIWAMVLAAPC
+>tr|B7RGT2|B7RGT2_9RHOB
+MADLTAFPITKKWPAQNSDILQLYSFPTPNGVKASIALEEMGIPYEPHLVTLKDEDVKSP
+EFLSLNPNNKIPAIIDPNGPDGTPVGLFESGAILIYLAEKSGKLMGSTASEKAEIIQWVM
+FQMGGLGPMLGQLGFFYKFAGSEWEDKRPQQRYIAEAKRLLAVLDLALAGKDWVAGPHYS
+IADIAVAPWLRALDFYGAQDAVGWSDHRNLVDYVQRFEDRPAVQKGLNIPARPLS
+>tr|B7RHW3|B7RHW3_9RHOB
+MAQITLTLPDGNARQYDAGITAGDVANDISKSLGKKAISATVNGAHFDLAWPIDADASIA
+IHTMADEDQANELVRHDLAHIMARAVQEIWPDTKVTIGPVIKDGWYYDFDRAEPFTPEDL
+GVIEKKMKEIINARDPVRTEVWDRPRAIKHYQDLDELYKVELIESIPGDEPLRMYWHGDW
+QDLCRGPHLQHTGQVPGDSFKLMSIAGAYWRGDSNRAMLQRIYGVAFTGKEKLRAHLNML
+EEAAKRDHRKLGREMDLFHMQEEAPGQVFWHPNGWLIYTQLQDYMRRKQRAGGYVEVNTP
+QVVDRKLWEKSGHWDKYQDHMFIVEVDEEHAREKSVNALKPMNCPCHVQIFNQGMKSYRD
+LPLRMAEFGSCNRYEPSGALHGIMRVRGFTQDDGHIFCREDQIEEETLIYIEFLSAIYKD
+LGFENFKVKFSDRPDTRAGSDEVWDKAEAALLSATRKAGIEPEINPGEGAFYGPKLEFVL
+TDAIGRDWQCGTHQVDFVLPERLDATFVGSDGAKHRPVMLHRATLGSFERFIGILIEEHA
+GKLPFWLAPRQVVVASITSEADDYVREVIETLTAAGVRAEADTRNEKINYKVREHSVGKV
+PVILAVGAREVEEKTVSVRRLGEKQTSVQSLADVAAALGIEATPPDLR
+>tr|B7RPI6|B7RPI6_9RHOB
+MNTSLKEEFWDRIEDIRTGMLGTDEARSVPMSHYVDKDANALWFITANGTDLAKTAQSGA
+SAEYVIISNDEHLYARVDGKVQAVTDPAKLDELWSAIAGAWFEDGRQDDDVQLVRMDLST
+AEVWATGGSLSFLYEIAKAHLTDEKPDMGQHGTVRF
+>tr|B7RLK3|B7RLK3_9RHOB
+MTLLESWARHTLVALNRWSDDGPGPLHKEWTGLAWNIGKDVTHGDLSGRFTGVDQDFGLL
+LKSTDTTHLIPLTDLLEPAS
+>tr|B7RG42|B7RG42_9RHOB
+MSDIEEVQGRIMAAMERASRGLEKLAAAKEDVPDLSQELEEERLANAQLEERVKALKSQI
+ETLTADTQAQLEQTKAELAQAQAKLAEADGHAGQAAATHERISALDVELQRVRQHNSQLS
+DACAALRAANAEGVGDADLINAAMQAELAALRAARSVERAETAAILATLTPLVEAAQENA
+>tr|B7RGZ5|B7RGZ5_9RHOB
+MTITRFAPSPTGYIHVGNLRTALMNYLIARKNGGTFILRIDDTDPIRSKEEYVEGLKEDL
+TWLGLKWDRVERQSERLDKYRAAADKLREMGRFYEAWETPTELDLKRKKQLNMGKPPVYD
+RAALNLTEAEKTKLREERGPGVWRFKLDQERIEWKDGILGDISIDAASVSDPVLIRADGQ
+ILYTLASVVDDTEMGVTNVVRGSDHVTNTATQIQIMKALGGTVPEFAHHSLLTGPQGEAL
+SKRLGVLALRDLRARGVQPFALLSVLSRIGSSDPVELRTTMEDLVEGFDIGHFSSAPTKF
+DVEDLFPMTARYLQTLPLEAVADDIAALGVPEDKAALFWQVTHENITTLQDLKGWWDMFS
+QGAEPVIADEDRDFIAEAMALLPEGEFDETTWGTWTAAVKEKTGRKGKGLFMPLRLALTG
+QARGPEMAAVMPLLQVVKARG
+>tr|B7RIH3|B7RIH3_9RHOB
+MTQAIDPKWEYVADAVMGGVSQGQLTRETVQGHAATRLTGDVSLDNNGGFLQMAFDFSDG
+GGPVDASAWSGIELTLCGNAQTYDLRLRTTDLDRPWQSFRIPFTAPAQWTTMRCAFADLE
+AHRTDAQFDPHALRRLGLVAVGRAFAVDLAVRDVAFFA
+>tr|B7RM66|B7RM66_9RHOB
+MNAKIRLYVEHGLGQGQSVPLDKAQAHYLFGVMRQAVGAAVLLFNGKDGEWRAEVVEAGK
+RGGVLQCVAQTKPLQMPPDLWLIFAPIKKTRTDFIVEKAAEMGARRIVPVQTDFTNAGRV
+QRDRLQAHAVEAAEQCGATFVAEVTEMVKLDRLIDQWDAGRSLMFCDEALAGSDAVLGQS
+GRGAWGILIGPEGGFSDRERSRLRGLEYARSVTLGPRILRADTAAVAAMTVWQQAFGDWT
+>tr|B7RJ94|B7RJ94_9RHOB
+MIIERPAAFVTPEFLIRLATENWEIGGAASLRHRTFVTEQAIFADHDRDQIDHTALPLVA
+VSTMASEADEVVGTVRIHKDSPGVWWGSRLAVAPDYRRVGRLGAELIRLAVGTAHARGCT
+TFLAHIQMQNVALFEKLNWQPLGQEDLHGHPHMKMQANLDAYPPVTDPARGWLALTRRAA
+>tr|B7RK31|B7RK31_9RHOB
+MTAPNLRLRDWRSTAKTVFDCEKSPASGDQGMVVTNHPLATAAGTEMLAAGGNAVDAAIA
+ALFTLSVVEPMMVGIFGGGVAHIRMKDGDHVVLDGLSAAPLSASADTFQTIADSGPDYMK
+VAGRETEIGPKAVATPGNLRGWCDSLESFGTLPLDHVMAPAIRHAEQGFAVTPYLANCIA
+EAAAELAQDPEIARHLLPGGVPLLAGQRLVMADYARTLRAIAQDGPEVFYDGPLGQAVTD
+HMARVGGLITADDLAAVRTITRAPIRGSYRGYTLYGPPPPSAGGVHVLQMLNILEGFDIG
+AMGYGSPEATHLLGEVLKIAFADRAAATADPAFVDVPVAQLIAKDYAAQRRGMIDLDRTQ
+DWQAGVAPALPGESANTTHVSVADAAGNIVATTQTINGLFGARFMIPGTGIIPNNYMCLF
+DPHPGHALSIAPGKRVTTSMAPTIVMRGDAPAFAIGLPGGLRIFGSVMQALVNLIDHGMI
+LQEAVEAPRLWTQGQEIEVEEGYGDACRDALRSKGWQVLNVPHVGGGMAGIEFGPQGSKA
+GAACWRADGTAMAMGGGYARAGTRFWPDAPKPQPS
+>tr|B7RQ05|B7RQ05_9RHOB
+MTTIKLHNTKTRKREDFVPIDSDNVRMYVCGPTVYDRAHLGNARPVIVFDVLYRLLRHVY
+GPDHVTYVRNFTDVDDKINARAAESGRSIGEITAETTQWFLDDMAAVGALEPDHMPRATA
+YIPQMIEMIEGLIAKGHAYAAEGHVLFAVESYKEYGALSGRSIDDMIAGARVEVAPYKRN
+PMDFVLWKPSDGDTPGWDSPWGRGRPGWHIECSAMSYELLGAHFDIHGGGNDLMFPHHEN
+EIAQSCCAHPGAGFANYWLHNEMLQVEGKKMSKSLGNFFTVRDLLDHGVPGEVIRYVMLS
+THYRKPMDWTEKKADEAKRKLKSWYDLVKGVEASKASRIIIDNLAEDLNTAFTLRQLDQL
+AGDIVHNDKFDGQFEAGVPNAPQMARSSSELRSEFKASLQLLGLIGDEVPSWSEETAFDL
+SRFQRSLEAARSVAMQTKDFSGVDQIKNMLIGAGVQVQMSKEGVEVIAGPNFDPTKLEAL
+E
+>tr|B7RKP3|B7RKP3_9RHOB
+MSHITLIRHGQANSAATDEASYDMLSPLGHQQAAWLGDHLRHSETHHTRLYTGTLRRHIE
+TADGMNTGLTPIRDARLNELEYFTLATLLEQQHGVPLPDDQHGFSAHLPLVFETWKSDKL
+DNPPESYASFEARIQSVLEEIAAGQGPALVVTSGGLISMAMAQAMGLGVPAMARMALAIM
+NTSMHRLFPIGGHWSPVLFNAVPHLDTAERRTAQTHI
+>tr|B7RH40|B7RH40_9RHOB
+MTAAAPARRVFLFLQGPHGPFFNRLGKMLRLTGAEVWRVGFNAGDRAFWFHPRSYIPYRG
+TADAWKDTFVALLADKGVTDIVLYGDTRPIHAVAVAQAKALGLTVHVFEEGYMRPYWVTY
+ERGGTNGNSRLMDMTIEQMQTALANSDMEAPLPPGHWGDMRQHIFYGALYHWFVLFRNGD
+YRNFRPHRKIPVTKEFQLYIKRLFLMPALATNRLVATLRIRLGGFPYHLALLQLEHDSAF
+QDHSPFDTMSDFLRVVIEGFAKGAPRHHHLVVKAHPLEDGRVPLRRDIKRLARELGVSHR
+VHYVRGGKLAQLLNDARTAVTVNSTAGQQVLWRGIPLKVFGSAVYAKPEFVSDQPLTDFF
+AAASRPDNKAYKDYRRYLLETSQIPGGFYAARARTQLMRQVVDMMLAVEDPYDALESGTA
+APRQQLRAVT
+>tr|B7RJ63|B7RJ63_9RHOB
+MASGVKPRVKVPKSAAAGETITIKTLISHKMESGQRKDKDGNAIPRSIINRFTCDFNDQN
+VVDIELQPAISTNPYLEFDATVPEAGTFKFTWYDDDGSVYEDSKDISIG
+>tr|B7RKK5|B7RKK5_9RHOB
+MVLDMNANLSRQRGSRDIWLNAAYDLLISDGIEAVKIMALAKRLNLTRTGFYWFFKDIAE
+LHGAMIEMWEAKNTATLEARCQKDASNICEALFHLMDCWLDTALFDAPLDLAIRNWARND
+ADLQRRVGAADRRRIGAVSGMFTRHGYSPEQAEVRGLTVIYTQIGYISMQVKETVTERHA
+RVQHYVELFAGVQPDAHDVDRFLARQRHLTQPFGEASSAVE
+>tr|B7RQX5|B7RQX5_9RHOB
+MHEYPEGDETISFILWVIMVNFPKRPLSPRENLSNVSLRNNVPICGIGSAKFNA
+>tr|B7RJE3|B7RJE3_9RHOB
+MMDQIKAADMDTLRDRFRNGTSKERAAINATLSPVEIEFADIRMVVDPRDNYTETCIWLE
+GYPPELKSLLALVQLVEDRNVLVLDIGANCGAFTIPLGLASGDGSRVVAFEPNPVMIGRL
+ATNIQLNDLHSKVRIEGCALSDRDGEAVLNFRGHNYGQASLKRVQPRQRTGGLLVPTRPL
+SAFTDAAKNHDLTVIKIDVEGAEEVVLNPMLDGAADGGWLPDAILIEVRHAHQWQTDLCA
+KILAAGFEETLQAEGNALYIKKK
+>tr|B7RIU7|B7RIU7_9RHOB
+MENVMMELDHIAVAGVDLAAASDHVAGALGCRLQSGGEHAIFHTHNRLMGLEDGLYLEAI
+AINPAAPLPDRARWFDLDRFAGPARLTNWICRCDDLDAALAALPAGFGDPVDLQRGDLRW
+RMAVPHDGVLPFDNCAPALIEWQGDAHPVQRLDATGCRLTALRVCHPEAGRLGQILAPFL
+TDARVSFMDAEAGLEAAFETPSGPRILR
+>tr|B7RIU6|B7RIU6_9RHOB
+MIAGIWNAMIRDTLFTFTTDEKTVAGIEAMIAQRPGACWVAEADGVLGFVTYAQFRTGPG
+YATSVEHSIVLTEAARGQGAGRALMQRALQTAADQGLHVMVAGISAANPGGVAFHSALGF
+EHVGRMPQIARKQGQWLDLILMQKLLSAP
+>tr|B7RNA6|B7RNA6_9RHOB
+MTQYEVVGIGNAVVDVISHADDVFLGDMKIEKGIMQLIERDRAEELYGEMTERLQTPGGS
+VANSIAGIGALGLPTAFIGRVNDDALGKFYAQSMIDGGTDFVNAPVPGGDLPTSRSMIFV
+SPDGERSMNTYLGISTDLGPADVPDAVASSAKIMFLEGYLFDKDQGKQAFLEASRLTRAA
+GGKAGIAISDPFCVDRHRADFLRMIADELDYVIGNEAEIRSLFETDDLEDALARTAAMCG
+TVVCTRSGDGVTLIRDGERVDVPVTKITPVDATGAGDQFAAGFLYGMATGRDLETCGKMG
+NICAAEVISHVGPRPEADIMALFKAQGLV
+>tr|B7RI41|B7RI41_9RHOB
+MIRLEKRPQPSQAFSWATPLLAVLATMFFGGLLFAALGKDPVSSIITIFWEPLFGSNAFY
+YRPQLLIKGAPLVLIAIGLSLGFKAGIWNIGAEGQYIIGAIFGAAVGLAFYPAQSVFIFP
+LMILAGALGGWLWAMIPAVLKVKFGTNEILVSLMLVYVAEQFLASMALGVLKNPEGFGFP
+GSRNLQQYASAHNGELIAGSGMHWGVVAAFIAVIFAYVLLARHRLGFAIRVTGEAPRAAK
+FSGVNPTRLVLFCMGTSGLLAGLAGMFEVAGPAGQITIDFNVGYGFTAIIVAFLGRLHPI
+GILLAGGLMALTYIGGDIAQSQLGLPAAAIQVFQGMLLFFLLAFDLFTNYRLRFGHREVA
+>tr|B7RGA3|B7RGA3_9RHOB
+MQVILLERVAKLGQMGEVVDVKPGYARNYLLPQGKALSASKANIEAFEGQKAQLEAQNLE
+TKKEAEAMADKLNGQQFVVIRSASDSGALYGSVTTRDAADVATAEGFTVDRKQVVLRNPI
+KDLGLHDVNVILHPEVEATIQLNVARSPEEAELQAAGKSIQELAAEEEAAAEFEISELFD
+DIGSAANDDEDLADAVESQEDDSANA
+>tr|B7RKP8|B7RKP8_9RHOB
+MKPAARHLPAYALFAALLAAAGLPIYIHAPKFFVDEYGVSLAALGTVLFVLRLLDVVQDP
+LLGKLSEKLRDHRGIAVAVACAVMAGSMIALFAVPPLLPPLWWFAVTLTGVFSAFSFLTI
+CFYAQGVAKADAAALPGTGHLSLARWRETGALLGVCVASVVPVALGAVMDAPFTGFAVGF
+AVLSLASVVAMRGEWRSVGVPSATGFGTVLRDPVARRLLLIALLNAAPVAVTSTLFLFYV
+ESALQAPGWEGPLLLLFFLSAAAAAPFWGLLAERLGPKPVLLGAMVLAIVAFAGALTLAA
+GDIGAFALVCIGSGAALGADLTLLPAMFATRMAKIAPSAAEGFGLWSLVSKFTLAFAAVT
+LLPILHAAGFDSGALVTPPEALTTLVWLYAGLPCVLKSAAVALLVGANLQEDGP
+>tr|B7RP49|B7RP49_9RHOB
+MIRIFPSLFALGLLCATPLSAQDRPVVVELFTSQGCSSCPPADKILAELAQRDDVIALAL
+HVDYWDYIGWKDRFGDPNHAARQRAYAVASGRKSVYTPEMIVNGHTDVVGAKPMALSKAI
+AEHKNDRETVQLSLARSGNTLQIDASVLEGAQGPYTVHMVRYTPEATIEIKRGENAGHTF
+EYHNIAQNWTVLGEWDAQAPLDMATPLPGDLPVVIIVQQSGAGPIVAAARIK
+>tr|B7RGJ9|B7RGJ9_9RHOB
+MGGEDMSDALVADFDRRISRSELTRNAAKGAAALDAIGAGADVPVAIIMRNDLAQLEIMR
+AAAMAGTVVVALNWHAEAEEVAAICDDSGARFVIIHRDLIDAVRPALVDRTVIAVTPGAA
+LCTAYGIDAASAATDPDTLEWGSLMAADQPVETREMMRPLMRYTSGSTGKPKGVRRVGSG
+PRKDFEDVLARIGSEMLRLKPGSRFFTAAPIYHSAPSTLTSAALVTPGVSTFVAPKFDPE
+TFLETLQAQRITHVYLVPTMMSRMLKLPDAVKARYDLSSVEFCVSTGSPWPHDLKVAMID
+WWGPVFWESYGATEIGFMTMVSSQDALARPGTAGQMQMGGTVLILDPDGVELPTGQVGEI
+HARMDAFGGFDYSNDPESRLAAEKHGHFSVGDLGWVDADGFLFITDRKKDMIISGGANIF
+PVEIEAVLMRAPFIRDVAVFGAPDPEFGEQIVAAVEPAKGWNPDAQEVLDFLDGKLARFK
+HPRIIDFHDALPREDSGKIFKPRLRAPYWDGAGRKI
+>tr|B7RMB9|B7RMB9_9RHOB
+MIRAAVICILLSGPLMAGPDSSLRPVARLGPMMLDPSGSITATPRRIVGIQGNGPEVSLR
+PFLRSASVESGATQQRRLLASGAVCGDLSIQGKAIGRVKPKYEGCGVEDAVQVQSVAGVR
+LSQAAVMDCVTAKSLKNWIEKSAKPAFDRSGGLKGLRVAAHYVCRTRNNQPGGKISEHGR
+GRAIDISGFQLANGAEVTVLKGWHAAANGKTLRRMHKGACGPFGTVLGPNADRYHQDHFH
+FDTARYRSGSYCR
+>tr|B7RIW6|B7RIW6_9RHOB
+MAGHSKWANIQHRKGRQDKLRAKVFSKMSKEITVAAKMGDPDPDKNPRLRLAVKEAKSVS
+VPKDVIDRAIKKSQAGDGEDYEEIRYEGYGPNGVAVIVEAMTDNRNRTASVVRSTFTKNG
+GNLGETGSVGFMFDRKGEITYPASVGDADTVMMAAIEAGAEDVESSEDGHVIWCLDTDLN
+EVATALEAELGESDSTKLVWKPSITTEMDLESMQKLMKLIDALEDDDDVQRVTTNFEASD
+EVMEQLE
+>tr|B7RHT0|B7RHT0_9RHOB
+MNRLLAETDHQMDDLESSTRRSAISHLRAAVAARKADFAFGTLDNKDEDNVYRNDLAEVV
+KPRRPVSGPVRRERPAEGAPAPLKLVPAQRIDADAPARTAPVRPRRVATAAVPVAVAPVD
+GGFANFAAEMGAVKLPELLEAAAAYMSFVEGLDQFSRPQLMNTVRQVEKEEFSREDGLRS
+FGQLLRTGKIHKLDGGRFRASKDIGYQPDNRAAG
+>tr|B7RMZ6|B7RMZ6_9RHOB
+MKIKTRFIKSVVETAAKEDTVMPWTRGARRAAFIAKRNAPAATRKTA
+>tr|B7RQ41|B7RQ41_9RHOB
+MLTYGCFDGFSTHHAQWLGRLSALGSELIVGCATDAFCAEMDHQAKAPFEARRAVLESCR
+YVSRVIALESWDQRLTDIVNYDIAVFAVRNGVGPSCDTLNEIVQVVHLPSDLPPTWVEPF
+AKSA
+>tr|B7RSG1|B7RSG1_9RHOB
+MNLSAAEFLEVQDLVLRFWAVVDEVDDPSGDSLFTEDGALVIESFRAKGTKELTRYFTAR
+RDLSAERQRTTRHLCSNIRALPGDGTSLTATVTVFSGMGARPIALGAPTSLADFTFDCVA
+TPDGWRFREVRGALVFAGADTPDLTKAAAAAKGKTV
+>tr|B7RG45|B7RG45_9RHOB
+MTLNGDWQNMGAAYILYGIVCGSLGGLTCFGAGYGILAVFMAYAVTGQLAMLLLAAIYVR
+SQTRGTTTIRNI
+>tr|B7RKK9|B7RKK9_9RHOB
+MDPDFRGDIDHHDGTSDATPGGYVEKRRPGELAFALFLTAASLFLLYSAYGISGFEALSA
+PGAIPMATTLVMAISAFIVVLRTAGLPKVTTETLAKDILPGTVIVFIGFLILFGLLLQPL
+GFVLTAGLFLIVAIKVLAKRGWGYTLAVALGSLVLIWIVFRVVFTVLLPSGVLPEAEFIQ
+FFRNLIAAGAS
+>tr|B7RP23|B7RP23_9RHOB
+MRTVAATARRMDRDAQRRHKATVKQQISEEANDAVVSWETYLDELLSIHTNLTDHIDWHQ
+MLAKPQPRQPVLQTKHTDTASQALASFEPKMFDFLSGGSTKKKAALEQELQSAPDKDRAI
+NDQAMKDYDAALSDWENDRSLAKRLVDGDENAIKEVLTEFQTLTDQELIGSSVHFAIRDG
+VVHAMPSVHSDEVVPNFRRKQLASGKLSQTKMPVGEFNELYQDYVASVALKVAGDMFQML
+PLEEVYVTCECEMLNTATGHKEPTPILSVQFVRKTFEQLNLKNIDPSDCMANFNHAMKFS
+KTKGFAAVQPLVVFECG
+>tr|B7RKQ4|B7RKQ4_9RHOB
+MGETIRRALSEVLARGDVHDPELNRMSITVGEVRASPDLKIATAFVLPLGGEGRDEVLKL
+LARNKGELRRQLSKKLVLKFAPDLRFQLDETFDRMDETRRMLAQDVVRRDAEAPDTDVAD
+GDLYDTEASDRDPAAQ
+>tr|B7RN43|B7RN43_9RHOB
+MKLFDTGDVRLHYRVDGPDDGAPVVFANSLGTDMRLWDPILPLLPEGLRIIRFDKRGHGL
+STCPPAPYSMGSLVTDTEKLMDFLGVKDCVFVGLSIGGMIAQGLATKRLDLIRAMVLSNT
+AAKIGTPEMWADRIKAVQNDGIESLADAIMERWFAADFRAKPELELWRNMVTRQERNGYA
+GCSAAISGTDFYTPTAALRLPCLGIAGSEDGSTPPDLVRETVDLIPGSKFHVIRKTGHLP
+CVENPEEYAQVLTDFLKSVGHV
+>tr|B7RI86|B7RI86_9RHOB
+MLGGLAVLLLIGLPVAFAFIAVTTVGAYFVLGGDRGILQLARNSAQSVANFQLAPIPLFI
+LMGEILFQTGVAHRAIDAIERVVTRIPGRMSVVTIFGGTIFAALSGSTIANTAMLGSTLL
+PGMLKRGYHPSMAMGPIMASGAIAMLIPPSALAVLVGSLAGISIAGLLIAGVIPALLLAF
+LFVAYVVGRSILDPSVAPPDTQEKMSLRERWTPFALYVLPLSVLFAVVIGSLLLGIATPT
+ESAALGSLTAVAIGAAYRALTWAKLGRALMETLKLSVMILFIIAASQTFAQVLSFSGATN
+GLINAINSFDPTPLMVLLGMIAILLFLGCFIDQVSMLMVTVPVFVPLANAMGIDPLVLGV
+VYLLTMEIGLLTPPFGLLLFVMRGVAPPEIRMRDIYAAVTPFVLIKLFVLGLIVWLPELG
+TWLPGLMGR
+>tr|B7RKF3|B7RKF3_9RHOB
+MRHKTLRHLNNFRRDTSGAVAIEFVLIAPLLFALLFGIMTIGYYVGVSHSVSQLATGAAR
+ASVAGLDMQERVELAEAYLSRASVNYPLLTQSAVTPDIRTETTNPPGITIRVTYAVDGTV
+LDLANSLLKLNISDITGKSYLAY
+>tr|B7RNQ0|B7RNQ0_9RHOB
+MTDALQITRDGGVVTLTMNEPASRNALSDAMREGLSSAMQDLSVDADLQAVILTGSGGVF
+CAGGDLKKMLANHKAGLVTGAEDILPRMKYLHRWITLLRDLQVPVIVAVDGPAYGAGLGL
+ALTGDIILASERASFNASFCKVGAVPDGNLFYSLPRMIGLQRARELFYTGRTVHAEEAQR
+LGICMEVLAVDDLLPRAQAIARMMCDTSRTAFAMTKAISARSMELDSNALLELEAQAQAI
+CLSSTYHKDAIDRFTKKQPPRFDFR
+>tr|B7RQA6|B7RQA6_9RHOB
+MQAKRLRADLAAKGTQVTHAATLEMVAHQWGARDWNTLSAQTGAPTTGWTPGDRVSGHYL
+AQPFKGAVIAARLSTSGMWSLTLRFDQAVDVVTSKLFSNLRKQVNVTVDAQGVSPRKTSD
+GQPHLVLTPR
+>tr|B7RR47|B7RR47_9RHOB
+MINAGHHRTFGGALVSARLKNSLKNSAMLVDSMAKPA
+>tr|B7RFS0|B7RFS0_9RHOB
+MIFVTRFAPSPTGPLHLGHAYSALLAHDMARAAGGQFLLRFEDTDLERCKPEYTAQIIND
+LTWLGITWDADPLMQSDHFDIYNQSVSVLTSRGLTYPCGCSRKDIAAALAAPQEGAPHAV
+YPQICKARSIADRGASDALRLHMDLACAEISGTNLSFEETGDLKKGIYPIDKTYLMSDVG
+DIVIGRKDIQTAAYFLASALDDIRQGITHVVRGVDLFDFTQVQVLLLHLLGHKPPLYHHH
+LLIRDDDGKRLAKRDDARAISLYRREGASPEDIRSMVGL
+>tr|B7RJ20|B7RJ20_9RHOB
+MSARRTQRQLAAIISVDVVGFSRLMGADEDGTLAMLKRLLKTIVSPQIVRHRGRIAKLMG
+DGAIIIFASVVDAVAAAIAIQQEMHHFNEEIPPEKTVALRIGINLGDVILEGTDIFGDGV
+NVAARIQEVCTPGGVALSATAFEHVTGKVDAEFADVGERVLKNIARKVRVFRWPDTQARD
+APQRLALPDKPSIAVLPFDNMSSDPDQEYFADGVVEGLTAALSRIGSFFVIARNSAFAYK
+GRHLNVIDIGRELGVGYALEGSVQRAGGKLRITVQLVETTTGAHLWAEKYDGADSELFDL
+QDRITEQVAGALQPSIQKAEIDRSTRKRPHDMGAYDYAMRAMRHVWMQEKEESAKALVLL
+EKALQIDPEYPLALALSAWCWSQHSVYNWSDDIVAVKARALQMAEKPRGFRGMTR
+>tr|B7RFL4|B7RFL4_9RHOB
+MMVLFWIIVAVFVGLQAYVRLAPAQAADWTVSESPDAPGDYPSAGGFRAVRLVDGDGSDV
+ARKFDQAMLALPRTQKLGQAQGQTVYVTRSLLWGFPDFTTIATEDAGTQTRVVVYGRLRF
+GQSDMGVNRKRLEQVLTSIGLAA
+>tr|B7RQS3|B7RQS3_9RHOB
+MLTLDIAFMITAFATMIVIIDPFAIGPMFLALTPGMTPVQRRRIAWRGVFIAGLILLVFA
+AFGEAVLGFIGISMPAFRVAGGVLLFLTALEMLFDRRTKRREQNTTDPDHDPDDHDHDDP
+SVFPLAIPLIAGPGAIASVILLTGEKPGVEGFITVMGITFAVLVLMGITMQASGYLERAL
+GKVGINVITRLLGMLLAALSVQFVLDGLSAFGFGPGAG
+>tr|B7RR84|B7RR84_9RHOB
+MKAQIYAFAVAGFGVLAFKLLHLPLPWLLGPIFACLIAALAGLPMRGIKLVNEAMRTILG
+VAVGATFTTTLLVSMGGMWPTLLMIPVMTSCIGLLGVVYFQRLWGFDFATSYYASMPGGL
+QDMLVFGEEAGGDVRTLSLIHATRVMVIVVALPFLLSWIWNADLTNPPGAPAATIGASQL
+GLMVFCGLAGWQIAKRAGMFGATILGPLLLAAALALAGILQHRPPAEAIWAAQFFIGMSV
+GCKYAGVTMAEVRKTVTAGLGFCVILLMLTVVFAETIHLAGFAPPMETILAFAPGGQAEL
+TVLALIVGADMAFVVAHHVLRIFVVILGAPLFARLLTAKVPNTGD
+>tr|B7RRK5|B7RRK5_9RHOB
+MTAPKERMMTPEILKASVKTCHWGFFDASLAPAMTINSGDEVIIDTISGGPMSLPPASFH
+VPPELLEIHAAGVPAVPGHILTGPVAVTGALPGDVLQIDILDVSLRQDWGFNFIRPLAGT
+LPLDFPRLHHTNIPLDAERGVAKMPWGLELDLAPFFGVMGVAPPADWGRISTIEPRVHGG
+NIDNKELVKGTTLYLPVFAEGALFSCGDGHGAQGDGEVCVTAIETALRGHFRLTVLKDRD
+LTYPQAETPTHYITMGMAPDLDRCVEMALRDMIELVSERAGISREDAYMLCSLAGDLRIT
+QTVNREKGVHMMMAKSLLQ
+>tr|B7RHN6|B7RHN6_9RHOB
+MNMQVIGCGKTAHVGPRYRDDNEVSRLTVGSPFAVAGPVWT
+>tr|B7RJ33|B7RJ33_9RHOB
+MTRKSDKSAEDIARHAQRKKSARDNPGPSPLRGIGTFGMIGWSIAVPTVGGAFLGLWLDR
+VAPQSFSWTIALMLVGVVLGAFIAASWIKKEGDDK
+>tr|B7RJZ7|B7RJZ7_9RHOB
+MNTSSNTPLPLIEDPDMGITMSDGCRLSARIWRPENSGDVPVPVILEYLPYRKRDGTTAR
+DALTHPWFAERGYACVRVDMRGNGDSQGLMEDEYTPLEQSDCIEVINWLAQQDWCNGNVG
+MMGISWGGFNGLQVAAHGPEPLKAVITLCSTVDRFADDIHYKGGCLLNENLGWGATMWAY
+SSRAPDPALREDWREMWLERLEAEPFLPSLWLRHQSRDAYWQQGSVIEDYSAIKAKVLAV
+GGWGDAYKNAVPQIVEALPGAKGIVGPWVHKYPHFAIPEPRIGFLQEALRWWDRWLKDID
+TGVEDDPDYRAYLMDGMRPATWVLERPGRWIAEPTGATTHLPVETLHLTDAGLLPQTASL
+DATVASPAHCGASAGEYCAIWLGPEMPGDQRQDDALSTTFDTGPLTENMDIVGAPRITLK
+LSCDKPQGQIAVRLNHVHPDGSSARITYGVLNLSHRNSAQNPTAMEPGKTEEISFDLDHI
+AYRVPAGHSLRVSISTAYWPLIWPTPETATLSLSSGQIALPQRPTTGGDEYTFAPPTAAA
+PWETETLRPENHIRRQEIDMVTGNVSLVIEDDFGKVKDSDHGLINGSIARERWTINPDDP
+LSATGVCHWTEELERDGISLRTETHSKMWSDATTFYLTARLEAYENGALIYERDVEDGIP
+RHFM
+>tr|B7RKM7|B7RKM7_9RHOB
+MTYLDLAAPAYKGKVCIRSSSNEYNQTLLAAMVTHYGEEKATAWAQGVVDNMARAPQGGD
+TDQLRGLVSGECEIAVSNTYYFARALRTDVDGVSAEIDKIGWIFPDQEDTGAHMNLSGAG
+VAANAPNRDHAVKFLEYLSSDSAQVYFSTGNDEFPAVKGVELAESVAKLGEFKADEVNLS
+EVAENIPTAQKIFDAVGWE
+>tr|B7RPL3|B7RPL3_9RHOB
+MESIILFAPLVGALISGFGWKLIGERPAQYFATGMLFLSAFLSWIVFITFDGVTEHIQLL
+RWIESGSLSTDWAIRMDRLTAIMLIVITTVSSLVHLYSFGYMAHDENFKDSEPYRARFFA
+YLSFFTFAMLMLVTADNLVQMFFGWEGVGVASYLLIGFYYKKPSANAAAIKAFVVNRVGD
+FGFALGIFALFYLTDSIKFDDVFAAVPDLADTTLHFLWADWNAANLIALLLFVGAMGKSA
+QLFLHTWLPDAMEGPTPVSALIHAATMVTAGVFLVCRMSPLMEFAPEAMMFVTFLGATTA
+FVAATIGLVQNDIKRVIAYSTMSQLGYMFVAAGVGMYSAAMFHLLTHAFFKAMLFLGAGS
+VIHAMHHEQDMTNYGGLRKKIPYTFWAMMIGTLAITGVGIPLTHFGFAGFLSKDAIIESA
+WAGGSTYGFWMLVIAAAMTSFYSWRLMFMTFFGTARGDKHTHDHAHESPMVMLVPLGVLA
+LGAVFSGMVFYNSFFGHAEDVGEFYGIPMTEMAAAGDAKVEGAEDSHSAAASGEDQSAAA
+ADADHSAADSDAAHGDDAHHGPSFGGKPGEGAIYFGPDNTVLEDAHAVHWLVKVSPFIAM
+VGGLLMALWFYVWNPTLPARLAANQRPLYLFLLNKWYFDEIYNVIFVKPASAIGRFFWKR
+GDGNVIDGTLNGIAMGIIPFLTRLAGRAQSGYIFTYAFAMVIGIAILVTWMTMSGGAN
+>tr|B7RQ28|B7RQ28_9RHOB
+MRVAELPQNAQTPFSLRPDAEALREIALELGLTSVRRLSFQGTLTALGRTDWQLDARLGA
+TVVQPCVVTLEPVTTRIDADITRLFIKDYVEPDEPEAEMPEDDRSEPLTPWIDPAVVMIE
+ALALEVPEYPRADGAELGELVYTKPGDAPMTDADARPFAGLADLRQALKDDKD
+>tr|B7RQ97|B7RQ97_9RHOB
+MIRLKLVPDNTNIDFFKHAKLTFGASCVAVVLALAVWFTMGLNYGIDFRGGTTLRTQSDT
+VVDVAAYRNALDPLELGDISISEVFDPTSDGTKHVAMVRIQSQEGEEAATPEMIANVETA
+LKTVAPNIIFTSVESVGPKVSGELIQTAFLAVGASLGAILIYIWLRFEWQFSVGAVAALF
+HDVILTIGIFSILQIRFDLPVIAAILTIIGYSINDTVVIFDRLRENLRKYKKMPLRDLMN
+LSVNETLSRTLMTSGTTLLALIALLVLGGDVIRGFVFAITWGVIVGTYSSVYVAKNVVLF
+LGVKRDWSKKDPNTGQYANIDA
+>tr|B7RML9|B7RML9_9RHOB
+MLTLENVVITQDGFTLSADLSISPATKYAVIGPSGAGKSTLLGGLCGFIPITKGKLLWQG
+TDITDAAPGARPMTMLFQDNNLFPHLSVLQNVGLGLRPDLRLSKDDRAKVETALSRVGLA
+DLATRKPGALSGGQQSRAALARVLVQARPLVLLDEPFAALGPALRNEMLDLVHELVTETK
+ASLIMVTHAPEDVRRIADQVIFVANGHAAAPQPAAALMDNPPPELRAYLG
+>tr|B7RRL3|B7RRL3_9RHOB
+MLGKTAGGLYWMFRLLERSENTARMVEAGFRMALTRSTDSETEWKSVVTTSGVRRGYDEV
+YDHYGATEVIDYLLRDTRNPSSVLSVSKSARDNARLVRTALTTEVWEAVNENWMVLTDLL
+KTPVQEKDLPAALATIRQHSALVRGALHGTMLRNDIYDFSRLGTFIERADNTARIIDVKY
+YTLLPSVSFVGSSLDNVQWETVLRSVSAHRSFRWLNQGDMTASAIADFLILDRRLPRSLA
+FCISQVVDQLDALADDYGVRMPCNDMASALKKDMKSRDISTIFEDGLHEFISQFIGKNNA
+LGLQIETDFRFNK
+>tr|B7RKJ2|B7RKJ2_9RHOB
+MDSMKPGRRRFLGGLLAAGLVPAPTWADVGSPAYLSAAAKPDGAYVLCGISAALDVLFEI
+PLPVRGHAAAGHPARPEAVAFARRPGTVAMVINCATGTPKATLDAPEGRHFYGHGAFSAD
+GAWLFTTENDFEAGRGVVGVWDVAAGYKRTGEFDSGGVGPHDIKRLPGSDTLVIANGGID
+THPGSGRAKLNIATMQPNLSYAENGRITETTSLPADLHMNSIRHLDVAPTGDVAFGMQWQ
+GDTPVASLVGVHKRGAAPVLLDAPAEDARRLDGYIGSIAFSKDGKSIAATSPRGSVLHVY
+DAENMRLKASLDLEDVCGVATHETGFTLTSGTGLLSGLRGQNLQSGSRAKQAWDNHLVLL
+>tr|B7RKY1|B7RKY1_9RHOB
+MSAPKKVVLAYSGGLDTSIILKWLQTEYGCEVVTFTADLGQGEELEPARAKAEMMGASEI
+YIEDVREEFVRDFVFPMFRANALYEGLYLLGTSIARPLISKRLVEIAAETGADAVAHGAT
+GKGNDQVRFELAAYALNPDIKVIAPWREWDLTSRTKLLEFAEKNQIPVAKDKRGEAPFSV
+DANLLHTSSEGKVLEDPAVDAPEYVYQRTVSPEDAPDTPEYVEIGFERGDAVSINGEAMS
+PATILTKLNELGGKHGCGRLDLVEGRFVGMKSRGIYETPGGTLLLEAHRGIESITLDRGA
+MHLKDELMPRYAELIYNGFWFSPERTMLQAAIDASQTHVTGTVRLKLYKGHARTVGRWSD
+HSLYSEAHVTFEDDAGAYDQKDAAGFIQLNALRLKLLAARDKRLKS
+>tr|B7RPV6|B7RPV6_9RHOB
+MSDPNAARKGWLGLLAKSPATDVARLWTGLDIAPAHTVLRAPEIGGVMVRGKAGAVGAAF
+NLGEMTVTRASVKLSDGTVGHGYVQGRGKDHALQAALVDALMQTDAAGAVETRLLTPLRT
+AMMQAKADRAAKAAATKVDFFTMVRGED
+>tr|B7RP96|B7RP96_9RHOB
+MTGSSPGKVARRIVRMQEAGIVEGVGMVVDWAALGYTVEVSLRITLDKTQGNAFDRFLEA
+ARKVEEVIEVQTFLGRVDVRLSIIARDMGHYQAIYRGKILTLPHIADIEALMHVARIKSD
+EALPL
+>tr|B7RLS5|B7RLS5_9RHOB
+MRDTDDTSTLPRILLEWYDVHARAMPWRVGPTDRKAGLRPDPYRIWLSEVMLQQTTVATV
+RDYFQRFTARWPTVADLAAAQDADVMGEWAGLGYYARARNLLKCARAVVDQHGGEFPADH
+AALLKLPGIGPYTAAAVSSIAFDLPHAVLDGNVERVMARLYEIHTPLPAAKPEMMARAEA
+LTPRVRPGDYAQAVMDLGATICTPKSPACGICPWRAPCAARQAGTAAELPKKTPKTPKPV
+RHGTVYLAQREDGAWLLETRPDKGLLGGMLGWPGSDWIDSGAPRPQGTPPVDADWQVLPG
+EVRHTFTHFHLMLTVIYASVPSDLSPDTGEFFAPDRFRPSDLPTVMRKAFDLAR
+>tr|B7RM38|B7RM38_9RHOB
+MLDQPDDIHPLFHGAPQSTEFRKLRKRLVRQTREAIDQYGMIEPGGKWLVCLSGGKDSYT
+LLAVLHELQWRGLLPVEILACNLDQGQPNFPATVLPEFLEKMGVKHRIEYQDTYSIVMDK
+IPSGRTFCALCSRLRRGNLYRIAREEGCTAVVLGHHRDDILETFFMNLFHGGRLATMPPK
+LVNEEGDLFVYRPLAHVAEIDCEKFSKAMNYPIIPCDLCGSQDGLQRQQVKAILDGWETN
+SPGRRQVMFRALMNARPSHLLDPELFDFNALVRNS
+>tr|B7RQ69|B7RQ69_9RHOB
+MLGQMMNKPLTISSLIEHAQRYHAGGEIFSVKTEGGVEETTWGQVGANSRALASALTSLG
+LEPQARCGTIAWNNRRHLEIYFGASGGGFVCHTINPRLFPEQLVYILNHAEDKVLFIDKT
+FVPLVAAIMDKLEHLDHVVLMEGSDAEAAKQIPGLKFYDELVASGDPEFAWPELDENTAS
+SLCYTSGTTGNPKGVLYSHRSTVLHSFAINLADSIAISAKEVVLPVVPMFHVNAWGAPYA
+SAMVGARMVMPGPGLDGPSLVGLIDKYKVTLALGVPTIWLGLLGEAKKIGSKLDSLKRTV
+VGGSACPPSMMTSFREDYGVETIHAWGMTEMSPVGSINQPLAKHLELPEADQHRLRENQG
+RPVYGVDLEILDENGQPVAHDGKTQGDLVTKGFWILDAYFRKTRDETLTKDGWFDTGDVA
+TMDADGYVTIRDRSKDIIKSGGEWISSVELENIAISHAKLSDAAVIGARHEKWDERPILI
+AVKREGEDPSQEEILSHFEGKIAKWQIPDCVVFTDVLPRNATGKVLKRNLREAFGEVLIT
+G
+>tr|B7RIN0|B7RIN0_9RHOB
+MCCFHETFTVTQPVAVALLLPTRRVFDSGTVLASGPHTPQDRPPQII
+>tr|B7RQY7|B7RQY7_9RHOB
+MNAQAALLSGDRLHLSHGPIDLIIGANGARDAAFRAAYHRFETVLTELMAELPLLRQPVG
+TKPRGKIARRMYRAALPHADGLTTPMICVAGAVAEEVLAAMVDATDLTRAYVNNGGDIAL
+HLTNEAAFKIAVAAPDGHSLGTVEITSADPIRGIATSGQRGRSQSLGIADAVTVLARTAS
+MADAAATNLGNAVNLSDHPAIKRAPANSLRDDSDLGTAPVVIHVGTLSQTDVAQALQHGE
+TAANALRDAALIDGAALFLQGQSRTLGLPEEMKHIQKDPYPCLTS
+>tr|B7RJZ6|B7RJZ6_9RHOB
+MIRVERASGQSGDIMKTIDFVVRDQAGAVQRDVVADGSSFHVIQATSGQEISLNLRQTDL
+AGQQRVGKDLVLTLADGSVITIENYFNDVGAPNRLYISSDGYLNEVGFIEGEGGTLFAQY
+GPTEEWGKWSPSDDLIYLGHNDMAAANGGIIGSEDDEVSMFAAPLLGAGLLGGGGAAAAA
+AAVVGGAAVVGGIGGSGGGGGATATGPYVNDANSSATVGGDDVVKSVTVTGGGEPGSDVT
+VTIGDKTVETVIDEDGTFEVVFDGDNFPDDGSYDAIVDVTTDDTATTLDGPTFVIDTTAP
+TTTVTEGTKSASDFFNAETFEQGVKIEGQGEAGSTISITVGGVTQVTTVGDDGAWSVTYE
+NGTLAGGEYEQEVTIKSTDQHGNSTTTTDTLVVDTLAPSVAITSGAQSTGDSYNADSFGG
+GVTISGTGEPGAKVELTIDTFTRTATVAENGTWSVTWQSGVLPAGEYVKDITVKTTDSYG
+NATTTVEKLVVDTVSEVSVSQDTVAGDGMINGAERAEGVTLTGTTQPGSSVDVTFGSATH
+PAKVDANGDWTVDFAANEIPMGESTGTVIAVATDSFGNTSTAQGEVSIDTLVNRLSFGNQ
+AGGFDATINGPEAGDGIVMTGKVEAGSSVVVRMGDASRDAIVDTDGNWTVTFASADIPAG
+TYATSVTATATDAAGNTRTISQSVAVDTEAGLLTINSDAIEGDDVVNFAERSDGVVISGT
+ADAGALVEVSLAGVTHSVHADGNGNWTSFYAAGEVAQGVYTAQITATTTDAAGNTRFEQD
+SVQVDTRVDNLALNAVEGDDIVSGAERLANGGVLVTGTTEIGSSVVISLGNAIAGGTVDA
+NGNWSVTFAPAEVPQGTETVTVKVDATDRAGNTATASHQVLIDTVVDPLDMAQAGGSDGI
+VSAREAAVGIDLNGQVEAGSSVTVTFDGRTYAADVDGNGTWSVTVPASEIRPGTYDAEIS
+VAATDHADNMASISDTLAIDTYAPDGPVIASYTRDGDGIRGISTEISPDQLDVHQVNPDR
+SISEVEASSFNIDQIGERNFLFTTDVPDGSDLIVTATDAAGNSSGTYLALDDESANTQLG
+LTNPNLAQFNIETVDLQFAEEAQLTITEAALVNLSSNTNTLVINGHSDDTVTITGATRDG
+SEVKDGQTYDIYTLGAEGTLMIDDDINVVI
+>tr|B7RSH1|B7RSH1_9RHOB
+MRRVLTLAGIAVLIGLLAMWWSGSFDRLAYWVAGQQRAFQNAIASALRAARAEQPGAVFA
+LLSACFAYGLAHAAGPGHGKVLIGGYGMARGVPLLWLSLIALASSLGQAVTAVALVYTGV
+TLLNLGREAMVGVTEDIMAPVSYAAIALIGGWLVWRGLGHLRPVSAHDQEVAACASCGYA
+HGPTIAEVEKAGTLREALLLIAGIAVRPCTGALFVLIITWQMRIGALGVAGAFAMALGTA
+AVTIAVGLGAGTLRGGVLAGFAKSPRAAMLAAMVEILAGGIVVMLAVGLLFRAL
+>tr|B7RGG7|B7RGG7_9RHOB
+MEDEVMPHQAGKPDWTGGNPGLNPGNGGGGGQPTGAGTKKGELFGDQLVLYRDLDPTGGG
+GNGEPILDPYNDEGQPIAIGYDPDGLVQPGALDSLFPIYFTEVAEGDYEIDPLLLPFVQD
+VELERANVARAPEKVAEKALDAALTNVLTADEIKTDPAGRIMYSQDGGETFTTIDAPLEN
+LALYQYLMTNSNGSTGAWPDVTENWDDVFKSLLGEGGLTDPDWDPSSLLAAAWSKSGEIT
+LDAMIYENTTLGVNKVTGSGETLNIDYFDFSDPTGELYDYDRAGTYSDTWLRWVVIEDGA
+PVFAYGTVFDAVFDEVDWEDVTLSIQQNDPGPEDDEFIYVAATTSGVNDFAQSADDARAV
+IEFMHTFSAVEIDAGEVPVDALAIIG
+>tr|B7RJQ2|B7RJQ2_9RHOB
+MKVKIHTLFQYLLDTTDAAPEAIVGFSLSGSPKLGDYLADLDPDQSLDWNNRDFRGLPEL
+RDHVLAQAGLNGICAQSDVLITAGAAEANYLAIMQLLQPGDEIIIETPGWPQAEVLAKAI
+GAKITRITRQECDGWHLPIDRIADAVSDQTKMIFLTNPNNPTGDLLSTDEIGQLVRIADR
+VGAWLLIDEVYAGLEWDGPRAPSVAGMYARGITTGSVSKALGLQGLRTGWMICPDAQMIM
+DAVILRENSSEIMNIMGEVIAEIALRPDRYAPAMDTARRAGRENLAQMNAWVDAQAGLSW
+VPPRAGLIGLARLPDGIDSDDFARRLLAAPYRTFLLPGSAYDQPHHIRLGVGGGAAVNLH
+DGLTRLSQALRNWA
+>tr|B7RL54|B7RL54_9RHOB
+MPTIQQLIRKPRQPKIKRSKSMHLQECPQKRGVCTRVYTTTPKKPNSAMRKVAKVRLTNG
+FEVISYIPGESHNLQEHSVVLIRGGRVKDLPGVRYHILRGVLDTQGVKDRKQRRSKYGAK
+KPK
+>tr|B7RP25|B7RP25_9RHOB
+MTYSAAKATSHKRLAIFLDGTWNEPGDNTNVWRLRSLCAPIASDGTRQLHYYDPGPSGFK
+GGTFGDGVSANVTEAYEWLIDNYDDGDDIFIFGFSRGAFTARSLAGFITKYGLLQPGSPL
+SVPQMFKRYETAEEKTIWKLNAEVNQGACDDHSDLERWMVKYARCVKIKMVGVWDTVGAL
+GIPRLNITGISRSTFNWHHTGLRVPIEHGFHAMAIDEHRPPFEATLWTVRQGIKAKPRPL
+SSVEQRWFVGAHANIGGGYTNDLLGQPSLQWLADKAKGLGLELRYDISLDGNIHKATIND
+SYAAFLKGMYSKIYGRNFRKIGANPWDDKEGETHSTVNETIDSSVFARWQEDVRYRPKNL
+AEWAKRKRVILEEQKRSVLAVDGTPVGA
+>tr|B7RRW5|B7RRW5_9RHOB
+MNTVRRPGLRILVGAGSYADAAAGLRIIEHLPSTFFAGLGGILVEEVDIFATCQIPDQRI
+VLLSGKTALAPSHAQLHTLLRADARAFRRILARAAGPSGAQWAFMQDKGELVRTALRAAA
+GWDVLVLGYRQIHKIPGKIILLQNSGTPSAEMEEASSRLSHQLSAQRFVFSVRENGDDGL
+DAPPSTAFQFKTLDDALAALGRQNAQAVLMDFARGPIRDQTDLLRLLEAARCPVVVFSAS
+NNPSLLEHNTHIPPAPAKPERDDDG
+>tr|B7RGY9|B7RGY9_9RHOB
+MSIFDNFRGLFSSDMAIDLGTANTLVYVKGKGIVLSEPSVVAYHVKDGVKKVLAVGEDAK
+LMLGRTPGSIEAIRPMREGVIADFDTAEEMIKHFIRKVHKRSTFSKPKIIVCVPHGATPV
+EKRAIRQSVLSAGARRAGLIAEPIAAAIGAGMPITDPTGNMVVDIGGGTTEVAVLSLGDI
+VYARSVRVGGDRMDEAIISYLRRQQNLLVGETTAERIKTSIGTARMPDDGRGTSMQIRGR
+DLLNGVPKEIEVTQAQIAEALAEPVVQICEAVMTALETTPPDLAADIVDRGVMLTGGGAL
+LGDLDLALREQTGLAISVADEPLNCVALGTGKALEYEKQLRHAIDYDS
+>tr|B7RQC5|B7RQC5_9RHOB
+MSTFNDREKAFENKFAHDSEMQFKAEARRNKLLGLWAAEHLGKTGDEAAAYAVEVVKSDF
+EEAGEEDVYRKVSGDLGSRVEESDIRAKMAELMVEAKAQLMKEVD
+>tr|B7RIB3|B7RIB3_9RHOB
+MILPGLGDIAQQTKMQLIRGFPMAAFQYVYHMSGVSKTYPGGKKCFDNINLNFLPGVKIG
+VVGVNGSGKSTLMRIMAGQDKDFSGEAWVAEGAKVGYLEQEPYLDPALTVRENVMLGVKK
+KKDILDRYNELAMNYSDETADEMAALQDQIDAENLWDLDSQIDVSMEALRCPADDADVTT
+LSGGEARRVALCKLLLEAPEMLLLDEPTNHLDAETIAWLQQHLIDYKGTILIVTHDRYFL
+DNITSWILELDRGNGIPYEGNYSNWIDQKAKRLEQEAREDKSKQKTLSRELEWMRQGAKA
+RQAKSKARIKSYNEMADSSERERLTRAQIVIPNGPRLGSKVLEVEGLSKAMGDKLLVENL
+EFSLPPGGIVGVIGPNGAGKSTLFKMITGNEEPDKGSITLGNTVDLSYVDQSRDDLNPED
+NVWQAISGGAEIIKLGDAEVNSRAYCGAFNFKGGDQQKKVGLLSGGERNRVHMARLLKEG
+GNVLLLDEPTNDLDVETLRALEDALVDFAGCAVVISHDRFFLDRICTHILAFEGNAHVEW
+FEGGFSDYEEDKKRRLGDDAMEPKRLKHKKFSR
+>tr|B7RKI8|B7RKI8_9RHOB
+MWFSSSFWDKSTIIEIKPPFINSTLLCRVCFCIKWREGVMRT
+>tr|B7RFQ9|B7RFQ9_9RHOB
+MLAIFALVVVGFVVLVQWRAYQREVTANAAYPAIGQLLDVDGVTVHAKIQGSGPDLVLIH
+GASGNMRDFTFGMVEDLAKRYRVILFDRPGLGWSDDLPTKSGAWNSWAASPVEQVNVLQK
+AADQLGVTNPVVLGHSFGGAVALAWGLARPDQTAALVLVSAVSNVWPGDLGWQYRVTGST
+LGSALVIPMITAFLPEKTVNDSVDSIFAPQPAPSGYTEHIGTDLSLRRPSMRANAQQVNG
+LLPHIKAMVPRYDALTMPVELIHGDADTIVPLEVHARVLITQLADGALTVLPGIGHMPQH
+VERTAVRDAIDRAAARAGLR
+>tr|B7RGW2|B7RGW2_9RHOB
+MTDNAIPLQTGTTPAFALVLVAAAMFGTVPYFALSLTQSGMAPAAVAFYRYLIAAMIFLP
+ALWGARQEWRVLLWGVGTGMCMSLGWLGYVSALKVIPVSTAGVIYMSYPIFTLIIGWLLW
+GERPTRRAVVASGLVLAAAVLATGVARIGVGQAVWIAAAFAAPLGFGFGITVLVHKLTGV
+PAMARISAISLGSVLGLAPLILALETEQLIPQTMQGWSWVAGIALVTATVPQLIYTYFAP
+MIGSARTATAGSIELPTMFIIGWLAFDETIGPAQWAACGLILLSVLLVQARVTRPFFGRA
+ATEKTDV
+>tr|B7RH49|B7RH49_9RHOB
+MTVLTATMICGLLVVIGLLVIRFSGKAPDLPDVIALPGGEKPVAFTQGPDWYAVVTADDQ
+ILIFDRMSGTLRQTVDIQR
+>tr|B7RKK8|B7RKK8_9RHOB
+MSRKLIGALVAFGLSTSVAMAQEYPTKEIQGIIQWGAGGSTDTVMRSVTPHAEAALGGTV
+VMQNMTGAVGAIALNHVAGAKADGYTLLMGAENPLLYKVMGLGDKDYSEFTPINILARGT
+PILVANNDAPFDDYAGMMDYIAKNPGELRIGSTGPGGVPSVVTAMMNTVEGNLDVIAVPY
+DGDGPALTALQGGAIDVMPAVLGAAIESIRAGAMKPIAIFDVEQNPKLPEVPAVTSFNDG
+YSKYLPWGPFFGVFVPKGTADDVVAKLSAAYSEGAAHPDFVKLMDDRGFTMMGISGDDAT
+AFLSKWQQGTAWLLQDAGLAKTSPEEFGIARP
+>tr|B7RQR3|B7RQR3_9RHOB
+MQKIDWDDAFDNMGHVEGSGSLPAFWLERAAAYREALQSGQVDCDIAYGDGARQKLDIVW
+PDGPVRGLAVFVHGGFWMRLDKSYWTDLAEGARANGWAVCIPSYTLVPAARISAITAEIG
+QAITVAASRVEGPIVLAGHSAGGHLVTRMLCDDSPLSQAVTGRIAGCLSISGLHDLRPLR
+HTALNKTLHLDAAEAQSESAALHSPAGAMPLTCWVGGGERPEFIRQSRLMALMWEGLETP
+TRCHIDGNHDHFTILEGLKDPLGDITQALLGLADKGDDT
+>tr|B7RQU2|B7RQU2_9RHOB
+MLRISEINYSVEGRPLFEEASAVIPEGHKVGLVGRNGAGKTTLFRIIRGELGLDAGDISL
+PSRAKIGGVAQEVPSSDVSLIDTVLAADVERASLMAEAETTKDPARIAEVQTRLADIDAW
+SAEGRAAAILKGLGFDDHDQQQPCSAYSGGWRMRVALAGVLFAQPDVLLLDEPTNYLDLE
+GALWLENYLSKYPHTVIIISHDRGLLNRAVGGILHLEDRKLTYYQGNYDQFAKMRAEKRA
+QLSAAAKKQQAHKAHMQAFVDRFKAKASKAKQAQSRMKAIEKMVTITPPEEAARKVFTFP
+QPDELSPPIISIEGGSTGYTEGQPVLSRLNLRIDQDDRIALLGRNGQGKSTLSKLLSNRL
+VLFEGKAVNSNKLRIGFFAQHQVDELIINETPLQHMITARPGVMQSKLRAQLAGFGLGPD
+QADTEVGRLSGGQKARLSLLLATLDAPHLLILDEPTNHLDIESREALVEALTRYSGAVIL
+VSHDMHLLSMVADRLWLVSDGTVKPYEDDLEAYRKMLLTVEKPVSKNAKPIKEVPKPKRA
+SREDILTLRSEVRTAEARVTKINDMRDKLAKKLADPALYEKEKVGELEVWNKKYAEVMAA
+LERAESIWMAALEKLETASA
+>tr|B7RR70|B7RR70_9RHOB
+MAQEITTQDTQDLAAPNGETKRRAVTFMPAVDIFERGETTVIVADMPGVAPDDVDVTLDR
+QILTLRGKVKPHAPEGYSRLASEYRVGDYVRVFTLSDEIDQNKINAELKNGVLRLELPRS
+AETQPKKISVKAA
+>tr|B7RGE0|B7RGE0_9RHOB
+MFELSFIWAGIIAFAVLTYVILDGFDLGVGILFPLADGEREKATMMNSIAPIWDGNETWL
+VLGGGGLFAVFPLAYAVIMPALYMPIILMLLALIFRGVAFEYRWRTDRWKPVWDVAFFGG
+SIVAAFMQGIALGALVQGIEVADRAYAGGWWDWLSVFSILTGLAVVVGYALLGATWIILK
+TEGSLQRQMQGYAWWLAAGTLGFIGIVSILTPFQDPEYFNRWLNQPGSIFSVLMPSAVLA
+AAWALFTGLNAGKDRQPFLAAISIFVLCFIGIGISFYPNIVPPSLTIAEAAAPDKSLRFA
+LVGTVVLVPMILAYTAYAYWVFRGKIDPAEGYH
+>tr|B7RIT9|B7RIT9_9RHOB
+MALPMRDQMKYWGVAAAVFLVILWFTGNVLLPFLIGAAIAYFLDPVADRLESLGLSRAMA
+TMVITLIAILIFVLMALLVIPALVTQSVSLFNVAPKLADNFMAFLRDHFPTLFVEGSTLN
+TSLTNIAATVQERGGELLQTALASAASLLNIMLLFVIVPVVAVYLLLDWDRMVAEIDSLL
+PREHAPVIRRLAREIDRTLAGFVRGMGTVCLILGTYYAIALMLVGLQFGLVVGFIAGLVT
+FIPYLGALLGGILAIGLALFQFWGDWLSIGLVAGVFFLGQTLEGNFLTPKLVGNSVGLHP
+VWLILALSVFGSLFGFVGMLAAVPIAATLGVIARFAAEQYRESALYKGTEPPKDGTAK
+>tr|B7RMI7|B7RMI7_9RHOB
+MTTTLTIVQAGPALTIQDLGRAGWLAQGLTKGGAADPVAIHEGAALLGQSPDLAAIEMTG
+TGGTFTADADIRIALTGASMAAKIDGDPIAWNAGHLLPAGAKLTIGGATSGTYGYLHIGG
+GIASDPVLGARATHLSAGLGAALKSGDSFPVGPDKGRETGMKLPRDTRFDGGVVRVVASM
+QTDRFAPEERERFIATQFARDPRANRMGVRMDHDGAGFHAEGGLTILSEVIVPGDIQITG
+DGAPFVLMGESQTTGGYPRIGTVIPRDLPRVAQAPAGTKITFEFVTLEQAITLETQHRRD
+VKALPGQLTALVRDPATIRNLMEYQLVGGAVSAKENPFEKDA
+>tr|B7RNQ9|B7RNQ9_9RHOB
+MIDPGTDVRAYLACGGLHDLEGPMDLSRFDAVPLKALTATTKEAD
+>tr|B7RR96|B7RR96_9RHOB
+MVPPDTFSRKDTAMLVCVENILSPDEVSRIMAVLGDAAWADGRATAGTQSAQTKRNQQIP
+LDSPVLPDLQTLVLQRLMSNPTWVSAALPLHVLPPMFNRYETTETFGVHVDNAIRVNPQT
+GQRLRTDLSCTLFLNDPEDYDGGELVIEDNYGTQSVKLPAGHCVLYPSTSLHQVTPVTRG
+ARVASFFWVQSMIRDGGQREILFDLDQSIQDLSAAEGLNAPTAVRLTGIYHNLIRQWAET
+>tr|B7RJU3|B7RJU3_9RHOB
+MPRRIILHTGFHKTGTTSLTTTLRANRPALKSRLAMRLPPQMRELISATRGYSTWRDPLT
+LIKAETRFHALLDDLPPMPRRTLVITSEELGGHLPGRGDLMDYSAMPIMLYSFWSIAQQK
+FPAADIQIYLSTRNQADWLVSAYWQHVKSSSMTLDLDAFLGKFHGAGDLTHMVNEIASRV
+PCPTHHCALEDSRHRPLGPADPLLDLCDIPQDLRDTLQAAPAENIRPDMATLLDLLDVNR
+TVKDPEKRVATKKAIMAKANIT
+>tr|B7RRE5|B7RRE5_9RHOB
+MAFAQNAEPSISLELNRTIQSSEGVCQVVFFGENGLDQDFEEVTWRLAVFGADGVFRNLL
+ALPLGSLSAGKRRVVQYNLPSNCADLSEIIVNDVASCIIADGGSDESDVCLSKLIVTSRT
+DIAFGL
+>tr|B7RSK5|B7RSK5_9RHOB
+MHVFAASRLENTSQAATKKLRAKVLFGAFVMLAYSSRKVLRP
+>tr|B7RN46|B7RN46_9RHOB
+MTDKRLSFKEMCAEFDVTPRTLRYYEYIELLHPEREGRTRTYGPREIARMKLIMRGRKFG
+YSLEGIRQWLLIYENEGTEAQMRAWVLSADRQLIELADQRAQLDEAMEELQRLRNDTAQA
+LEKMS
+>tr|B7RRC7|B7RRC7_9RHOB
+MTVQADDLLKAGDLDGALAALQDDVRKSSANPALRIFLFQLLCVRGDWKRAIAQLKLSAE
+LDALATPMAQTYREGIICEVYREKVFAGEKDPLIFGEPQEWIALILEALKSNAAGRHDEA
+AKTRDLAFEAAPATSGKIDGAAFEWIADADMRLGPLLEIVVNGKYYWMPFTAIARIEFDA
+PADLRDAVWTPCTLTTANGGEVVGLIPTRYAGTLERGGNAEKLARATQWEDLGADTFAGI
+GQRLFTTDLGDTALMDVRLLEFDTADTRASDADGA
+>tr|B7RKF7|B7RKF7_9RHOB
+MIADICNRIADRNTPLQQALGLCGTAIDNGLFTAMRFHADLMEVERIYSTLPDVYPVSGR
+KPKRDTAWGEKVLVQQQVNNGFGPADIEWAFSDHETILGLGLTAVLNIPVVRGGKVLGTI
+NFLRGDQPFSLQDINSGQRLAAALVDRADL
+>tr|B7RPI8|B7RPI8_9RHOB
+MIRLVAAVALLATPVMAQELQYTDRVTQNCLEGAESYGTKIDCAGASAGQCMDDTPGGSS
+TVGMGGCLERELAYWDGLLNSHYKAAMAQAKSLDADRPASMKDLPGAATALRDMQRAWIP
+FRDKACAYEASLWSGGTGQGPAALSCLLQQTAKQALTLEPWG
+>tr|B7RPJ2|B7RPJ2_9RHOB
+MFDTILIANRGEIACRVMETAQTMGVRCVAVYSDADRGAKHVAMADAAVHIGGSAPAESY
+LRGDVIIQAALDTGAQAIHPGYGFLSENPDFVEAVEAAGLVFIGPSAKAIRAMGLKDAAK
+ALMIQAGVPVVPGYHGADQDDALLAAEAAKIGYPVLIKAVAGGGGKGMRLVEAADGFQAA
+LDSARSEAKTAFGNADVLVEKFVTKPRHIEVQVFGDGTNAVHLFERDCSLQRRHQKVIEE
+APAPGMTPEMRDAMGQAAVTAAEAIGYAGAGTIEFIVDGSHGLRPDGFFFMEMNTRLQVE
+HPVTEAITGVDLVEWQLRVAAGEALPKRQEALGIQGHAFEARLYAEDVPKGFLPATGTLT
+HLAFSDGCRADSGVRTGDTISPFYDPMIAKVIVHGATRAVALSKLRAALKGCDVAGTVTN
+LAFLGALAGHKGFGAGDVDTGLIGREIDSLTVAPDVQPRHAVLAGMAALDLLDPAGGAGF
+TLWQPLQRQVGLRWNDADHLLKVQVMSADAQLWQVDGAEIAAQRVGGHWKIGGHLAPKAH
+VSGDDVTVWDGYGLIFKVIDPLARAAGSHGDGNLIEAPMPGLVRAVDAQVGQAVAKGDRL
+AVLEAMKMEHSLLATRDGIVAEVLAAAGDQVEAGAALVRLEAEAEEAAA
+>tr|B7RPZ7|B7RPZ7_9RHOB
+MFDLIVKGGTLPDGRITDIGIAGGKITAIDQLGDAQAGEVIDASGDLVSPPFVDPHFHMD
+ATLSYGMPRINASGTLLEGIGLWGELKQVMTQDEVVARALEYCDWAASMGLLAIRSHVDT
+CDDRLLGVEALLQVREQVKDYIDLQLVAFPQDGFYRDPTARDNTIRALDMGVDVVGGIPH
+FERTMADGAASVRELCEIAEARGLMVDMHCDETDDPMSRHIETLSYETTRLGLEGRVTGS
+HLTSMHSMDNYYVSKLLPLIAEAQINAIPNPLINIVLQGRHDSYPKRRGLTRVKEMLAMG
+INVGWGQDCVLDPWYSLGTGDMMDVAFMGLHVAQMTSPDEMRKCFDMVTHANARTMGLAD
+YGLHVGAKASLVVLDAGDPIEALRLRANRLCVIAKGKVIARGPRSDTALHLPGRPASVVR
+RHRTAN
+>tr|B7RR18|B7RR18_9RHOB
+MFDPFKRARSKATKKIRRATVSAMTDAWGAMLEPAKARARKTPEAKGAARKVSGKSSVGK
+TASKSRIPTTAQSKLSVPRGATFRNETFKSEFGTRSYKLYVPAGVQAGPDLRPLIVMLHG
+CGQSPVDFARGTGMNALAEEFGFLVLYPGQAREAHNYRCWNWYRRGDQTRGAGEPALLAG
+MTRHIIGSQGIDPAKVYVAGLSAGAAAGLILATEYPDIFAAAGAHSGLAVGAAHDAASVP
+KAMQSGVPGQRHTVKVPTIIFHGSSDRVVNPRNGRFIAIRALEPFDRLDRSEKCGRTLRG
+REYMRTVHQVGKGRPYVEQWTVHGAGHAWSGGHADGSYTDPKGPDASRAMVQFFLKHRTT
+KKRRNYAGL
+>tr|B7RP06|B7RP06_9RHOB
+MRILKVAAVVCASFATGAFAQEAQTGITVSGQGVVAMAPDMATIRVGVTERADLASDAMA
+QTSEKVAAILAQLDTLGVTGPDRQTSGLYLRPVYDNRPRDDNASQQVIAYEAGNTVSVKV
+RDLTKLGTLLDAVIAEGANDFNGLQFSLQDNAEALIAARKAAVTDAMARAAQLAEAAGVT
+LGDVVRMSESSQGFQPMEMKSSQMRSMDMPIATGEIDVSAQVTMQFEIKQAE
+>tr|B7RR56|B7RR56_9RHOB
+MQMSYLDYLPTSWSKSRKADENPLITLRNEVDSLFDDFGTGFFGSRNEVSVRSNVSETDK
+EFSVTAELPGLTDADVDVSVTGDRITIKGEKKSEKDERGQEEGREFHRIERTSGSFQRIM
+TMPFKIDADKVEAVVKDGVLTVTIPKPPEAVENVKKIKVAHAK
+>tr|B7RPN0|B7RPN0_9RHOB
+MRPIPSRSTPAPHQLEAQSARKPIATASFLLPLYCPTNT
+>tr|B7RLU9|B7RLU9_9RHOB
+MIMDYLLFGIFLAACLGAGATGAMFPTGKWYERLKKPGWTPPNWMFPVMWTSIYLLIAFA
+GARVAGLEGSQYAMAFWAAQIAFNALWTPVFFGLRRLKGSLPVMACLWLAVLGATVTHFQ
+LDFWAGLAFVPYMIWVTIAAALNFTIARLNPHEKPLRPAEIEV
+>tr|B7RGV4|B7RGV4_9RHOB
+MTSIYDAIKADHDNHRTLLDKIADTSGDSKDRQHAWQEFFNDVKSHAAAEEETFYSKLMQ
+ETWGQDAARHSVSEHKELDDLMEELNVTDMSSPAWLQKFKTLKHDYEHHMEEEEEDVFKR
+AKEVIGEEHNDAFGKRFEERKKEEMKLVDEKREDSLED
+>tr|B7RMF3|B7RMF3_9RHOB
+MIAPRFAPILFGFILSGLMSLIVSGIATLRATGMVDGIFGLWMGAWGASWLVAFPTVLFV
+APLARRLVARMVKNA
+>tr|B7RQB1|B7RQB1_9RHOB
+MLKFDEETTKLLEIAYQGGDVTRRRRKAFDALHLAEGDTVFDIGCGNGLLTEEIARAIGT
+TGRVIGVDPSADMRALASARCAAIPSAQIKDGVAGRLKLRDGEADKAVAVQVLEYLPDIP
+SAIDEAHRILRVGGRFVAVDTGCKTLDWFSDDKDRMQQVQAAWDHHYTEPRVAALWPRLT
+REAGFSAIEVEPFTFCDVTLRPDGIAFMLMHLMSRYTSENGHMTEADTRAWFDEQVALAN
+EGRFFFSLTYYRMSAVKL
+>tr|B7RRE0|B7RRE0_9RHOB
+MTKAVSTSVYLLGAAALCAAIWFGLPILGVDMLAMPELRAGLIGAVLLVLLVAMVLRRRK
+RKRAARSLEQSLVASQVGDGEVLAERMQDALAQLKKSGGATALYDLPWYVMIGPPGAGKT
+TALVHSGLDFPGTDPRSVAGFGGTRNCDFWFAKDAVLVDTAGRYTTQDSDAQADRASWGA
+FLGQLKAARSDQPINGIILAFSCTDLMTAEEAELNAHADTIRARLAEVHETLRTHVPVYV
+IFTKADIIAGFRQYFGGFEEARRRGVWGVTFQTRSRKEQTWQTVPDEYARLMTRLSDEVS
+DRMAEELDSATRIAIYGFPNQMEMLEPKITGFLRGVFEGASQTKAILRGFYFTSGTQEGT
+PIDQVLGSIAANGAGGMQPAFMSGRGRSFFLHDLLKKVIFAERDWVGYDRRRMVRRTIFR
+GLAKTAIATACIAAAGAFGYSFWNNASLVREANAQTQAYAQRADLLLNNRYIENAATRPL
+LPALAAVRAIPAGYADPRPQTALEQFGLSRRDVLRGAAVEAYSDSLERLLRPRMMLLAER
+RLADALIREDHAEAYRALKVYILLAKEQNGRDDDLAIQSYFAQAWTEEYQVSGSDKDYRA
+INAHLAAMLALDDRVSPPIKPNKALVDRAREELFDLPLAVQVLTVARSEAAVLPQWHLAD
+VLAEADRLRLTDGRAAKTLVLPGLFTFDGYWDTFQKALSRAQETVDAEAWVLAKAITAAS
+ERARLTEDVHTLYAQQFAAEWNGMLGLVAGNSDVTMLAALADVIATQAQVARFLDPDPDT
+GQESDALRTVKGMWPQLSSIDLRRRAEEIAQGFKPWLGLVQGTMGARPVDTVIKDLTALS
+TDPERLQEVATRVAALPPLVGRMAGYAGLAGAETVLTRDVTDVCHEKIAPFYPFGGETAK
+PLPVADFGAFFGYGGQVDRFWQTYGGKGSVVLPVSESVQAEFGKLDALRAGLFEAGSSVP
+KMALNLRLGGVTKGVTSVDVDLGNGVQRLVSGGPGIVIDWPANINGMVWTVNGDLDDVGT
+LTLDAGPWSVIDLIRRGGDVQTEGANVDMTHRAGWHAFRISLGVEGGTKMPFLDPIWQDF
+TCPDRLE
+>tr|B7RH01|B7RH01_9RHOB
+MLIHLLPLLAAALFLGTAALIKYKPVSLPQTAARLAEASALGALLIAVLSLGMLIIHGAG
+TSPLLGMAGVGLSARVDVVSMTMLLLVTFIGWIVVRYARTYLDGEAGQINFTIWLLATLA
+AVVLLVQSGNILQFVGAWIATSLCLHKLLLFYPARVAAQRAAHKKFVTARAGDAALILAT
+ALLIAAYGTTEISEMLAAAQDGDGGGLASAAAALLALAAVLKSAQFPTHGWLTEVMEAPT
+PVSALLHAGVVNGGGFLLIRFADVVLLSPLVLAVLVGIGGFTALFGGVVMLTQPTVKVSL
+AWSTVSQMGFMILQCGLALFPLALLHIVAHSLYKAHAFLSAGGAVERVAASRKPGPVAVP
+DLGAVARAFAMAIAIYGVIYMGSGALVGFGSKSPQAVALGAILIFGVAYLLAQGLADAAP
+RALTRRTALMSVIATLAYIGLQRGAEWLTVGALPPAPIAGPLEWALILLALFSFGAVALA
+QSTLPLWSHHPAAQGLRVHLTNGFYINAIEDRLLRGWSRTTTNSGAKP
+>tr|B7RKR6|B7RKR6_9RHOB
+MRLVAALVLIPLLLGACANQGLRDIRGTSRGPDEFLVQPVKPLVLPTSYSALPPPTPGQS
+NLTDRDALAEGIVAFGGTPQSAGGPIPASDGALVQQASRFGVTQGIRQQLAETDAAFRKR
+KARFTQIKIVPTDRYNQAYRGQALNAASEAARWRRAGARTPSAPPAN
+>tr|B7RQB8|B7RQB8_9RHOB
+MQQPSDQHLTENGLALEAAKGRILLIACGALAREILDLKAANGWTHLDLTCLPANLHLYP
+EKITDAVRAAVAKHRDQYDDIFVVYADCGTGGLLQAACDEMGVQMVAGPHCYSFYEGNAR
+FAETAETEITTFYLTDFLVRQFDAFIIKPMGLDRHPELRDMYFGNYEKLVYQAQTDDPAL
+TEKAKTCAATLGLIFERRFTGYGDLKVALESL
+>tr|B7RPJ1|B7RPJ1_9RHOB
+MTRTLQQIVDANPDAETFRFGDNPKLCAEIIALVRAGRKTATCEAASAYGQGGDAYPEIG
+RRDIALNWDGTPAFMIETVEVSTRRFNEMDAEFVAAQGEFRDLDHWGASYEAYFRRSGGF
+APDMKLMCERFTLIEDYADV
+>tr|B7RHI1|B7RHI1_9RHOB
+MPLIPKLRGAFYAATAPLFVRRVGKGTMFFGNFRKANFGMNASIGAGCMIGYGVFMQVGR
+KAQVMIGDHSSLNTGCHVVASTKITIGSNVAIGEYVTIRDQDHLFTPKNGVRGEGFFCAP
+VVIEDNVWIGRGVHIGPGSVIRSGTIVAANSVVNGTVGPNELVAGAPAKAKRRIGPDGER
+LPMLKD
+>tr|B7RJP6|B7RJP6_9RHOB
+MAVITLATETAMIVLGLESSCDDTAAALVQFEPGQKAKVLSSVVDSQTDLHAAFGGVVPE
+IAARAHAEKLDLCVEDALAKAGLTLADVDAIAVTAGPGLIGGVLSGVMCAKGLSAATGKP
+LYGVNHLAGHALTPRLTDDVAYPYLVLLVSGGHCQFLLVHGPDRFERLGGTIDDAPGEAF
+DKVARLISLPQPGGPAIEQAALEGDAKRFAFPRPLLDRPDCDMSFSGLKTAVLRVRDKII
+QEKGGLTVQDQADLAAGFQAAVVDVMAEKTRRALKLYLDHDPETRTLCVAGGVAANKAIR
+ARLETVSQEVSTAFIAPPLSLCTDNAAMIAFAAAEQSQLRGPDDLTLSARPRWPLDTSQP
+SMLGSGKKGAKA
+>tr|B7RKM3|B7RKM3_9RHOB
+MPHSAYDVLHPDGALSCVVFASPHSGRDYSLSFLQASVLDSHTIRSSEDAFVDRLFNAAP
+QFGAPFLMARAPRAFVDLNRSCEELDPALIEGLRKQGHNPRVSSGLGVIPRVVANGRSIY
+HGKISQEEVQRRLDGYWHPYHAMQQKLLDNARRRHGQAVLIDCHSMPHEAMDGVARRGMK
+RPDVVLGDRFGSTASGDVVDRVEAAFVDAGFNVTRNTPFAGAYITQAYGRPSRGQHAVQV
+ELDRSLYMNESLVCPNDNFEAVQKALHVVVAQIAGIGEGRVPLAAE
+>tr|B7RLS2|B7RLS2_9RHOB
+MAAPLEGLKVIELARILAGPWAGQTLSDLGCEVIKVESPAGDDTRQWGPPFIERGEDKSA
+SYFHSANRGKASVVVDLTTGAGQAKMKELLADADILIENFKTGGLAKYGMDYASLSKQFP
+KLIYCSITGFGQTGPYAHRAGYDFIIQGMSGLMSITGEADGQPQKHGMAITDIFTGIYAT
+TAILAAVHQRSQTGVGQHIDMALLDCAVAVTGNQAMNYLTTGKAPTRMGNAHPNLTPYEV
+FESSDGHLIIATGNDGQFQRLCRMLGLDDMAEAADYAKNSDRVANRPEMIRRLNEATRMR
+TRDDLLAACEDKGVPAGPINDMADMFDDPQVIARGMKVELDGVPGIRSPFVFSGAELALH
+RAAPKLGEDD
+>tr|B7RHF6|B7RHF6_9RHOB
+MTEPLLKLSDLKKSFGALKATDDVSLTLLPGEIHALIGPNGAGKSTLIKQIAGGLRSNSG
+TVEFAGRDVTPLGTVARARAGLGRTFQISSLAMEYTVLQNAVLGALGHDGGVMRFFRPVM
+KNRPLVDRAMAALVRVGLQDQAAKRTADLSHGQRRLLEVAVALTLEPKVLLMDEPMAGLG
+ASGSKRLTGFLDDLRTQAPILLVEHDMDAVFALADRISVLVYGRVIATGTADEIRRDPTV
+REAYLGAEDAA
+>tr|B7RNN8|B7RNN8_9RHOB
+MSKNQRLNATITIGSVLEQSVKRNVSFLKTGLAQVGDAIKGVERRQKGLDRQRDVLRKQG
+LSVEHHDREYEKLERTLVDLRRAQERWNRAAAASRRVGSTFSNMASGIGRNVRQIAIGAS
+LAGGAIFGIANSTADLGDNVAKTADKLGIGLGVLQELRYAAERSGVATATFDGALEKMTK
+NIGLAMEGTGAQKDALDALGLSAADLASKLPEDALAMIADRLQGVETQAEKAALANDLFG
+RSGIGLLNMLKDGSKGLTQLREDARRTGYVLSDQAARDAEVFKDTLLDTQLVMKGLKNTV
+GSALMPVVTRSMRRIGDALIGNRDDVERWAEGFAASAERALPIIGEIASGIGSIGSIVFE
+VTERTAEMVGGWENFGMIVGAVLASRTIVRVGKFAGAVFSLGRAMLSLVSASPIVVGAIR
+AIGTALMMNPIGAAIGVIAGGAYLIYRNWETVGPWFRGLWSDTKTYFAGFGNFVGGVFSG
+DMRRAERGVRAMWSGTTSFFDRTLSGIGAVFSATYENLIKPATDAMGITAPIEAAWRKAG
+DVLAPVLSDIGSYYTGLGDVVAGVFTGDMERAALGVGRMWRSAASMFDRVLGRIGDRFVW
+VYDTLIKPVTDALGLTAPIERAWSAFSGAIDATFSSIGAVFDALWTGSAEPVIEGLKNTA
+GIGAAWDAVKSALDPVLTWIGDKFTTLMGLIKPVIEALKWGYENAQRAGNAIGSAVGSAA
+AAHVKPGKVSGLGNTASNANAAPMSDSDAQKLYGIKPQKNALGGPFRPGWHLTGELGPEL
+KFENRSGYVANNRAMRQLAGYADRVGSVMRPNATRAQSIVPGALRQALRKAPAQSVGMAK
+LGSARNSDALTAHAGQMAEAVRSLSMDRMEAVFAQPAAAAPTAAPVAGPQTVTNQYTIHA
+AGADAQEVIRLLRVEERRNSGNGLFDRAPTTGPFGR
+>tr|B7RR25|B7RR25_9RHOB
+MKTWQDLSPEQQHFLKSFLKTSVRDLFRDKYKTETNKGIIDAFGRFADLDALFDERAALV
+PDDYPEKANVVAQAETARARNQAGAFDDATQRMAPAIQAMERLRADLTAAADLLRAEVGP
+VAGVGFAEASITAIDQARQVVLRPLADPLPTKAQMDEAQATLATFEQAVNAAYVEAGALP
+AALAAMEKAKGMATARLAEVAAMDNTAFASTPQSGPLAAAVQKAKDLQTAITAVDQNDAV
+ALRTLAGH
+>tr|B7RL15|B7RL15_9RHOB
+MKMVLVSAVALIDVDGRVLLAQRPSGKSMAGLWEFPGGKVEHGETPEAALIRELQEELGI
+DTWASCLAPLTFASHAYDDFHLLMPLFACRKWGGTPQAKEGQTLKWVRPNALKDYPMPAA
+DIPLIPILRDWL
+>tr|B7RS09|B7RS09_9RHOB
+MLSGTLGLGLNAITAGSAFAKGEGGGNGGGNGGGNGGGNGGGNGGGNGGGEGSGQSAGRG
+SDGAGSGHSSAARSGGGGAGKANAKSETVAAKGRSTSVNGGAAKSRSQTATTTSSRPYSR
+PGPSKSSQGSLASALKGLNAAHASLNGLQNAAPNSMPGMLNTYRESSIAVSLSEEALAEA
+LLGVDAVLAAEAQAISDLADAETTLSEAEQALAEVEATAGATEEDIAAAEQDVTDATNEV
+EAAEATVEGTAAAVTEARAEVEAAEEEVAEAQVIAEDSFDALPGATDLSVEAKAELDDLL
+GLK
+>tr|B7RS22|B7RS22_9RHOB
+MKWVVSGVCTLFFGVSSALSAQETDLDGKIAVELNAVQTSDASCTLTFLVTNGLGAQVDR
+VVC
+>tr|B7RJC8|B7RJC8_9RHOB
+MQIYLPIAEISVNAFLLLGLGGIVGVLSGMFGVGGGFLITPLLFFIGIPPAVAVATGANQ
+IVASSFSALLAHLKRKTVDLRMGSVLLAGGLVGAAGGVGIFNYLKSLGQVDLLVNLCYVV
+FLGIIGGLMFIESVNALYKTRSGKRQPRKKHTWIQKLPFKMRFRVTGLYISVIPPLLVGA
+FVGLLAAIMGVGGGFIMVPAMIYLLGMPTKVVVGTSLFQIIFVTAFTTLLHATTNYTVDI
+ILAVLLLVGGVIGAQFGTTLGAKLKAEQLRILLALLVLIVCGKLALDLLLQPSELYSIGF
+SS
+>tr|B7RKV6|B7RKV6_9RHOB
+MAIVVLTAILGTSLMRTQGAMALGQIKASLSEVRDPTEPLVHGAMILFAGALLLTPGFFT
+DAVGFALLVPGIRKAAFQAVRSKIKVSGNVNMSGGFGQNPQRDPRRPMQGDIIDGEYHEL
+SEEERLSQHPSGWTKH
+>tr|B7RJR8|B7RJR8_9RHOB
+MGIAGAAFAVGMGATAAMAQDVTLRMHQFLPPQANVPKLVLDVWADKVEAASEGRIKIER
+YASMQLGGTPPELMDQAIDGVADIVWTVVGYTPGRYPSTEVFELPFMVTDARAASSAYWQ
+MFEKHMKDTEFKDIHILGTWVHGPGMLHTNKEIRTPADMQGMKIRGGSRLVNQLLEITGA
+TPVGMPVPAIPEGLSKGVIDGTTIPWEVTSSLKVPELVKNHTEFTGSALYTLTFVLAMNK
+DKYESLPDDLKKVVDDNSGLEFSIFAGGTQADSDGPARQIAVDLGNNIVTLNEEETAVWR
+ETSQPIYDAWVADMKEKGIDGQALIDEAKSLMDAYGK
+>tr|B7RQ21|B7RQ21_9RHOB
+MNQIVNMIMRRVMGRLINKGVDFGFHQASKIGKGKNGATQQPAVSPEEETRREHAGREQG
+KQSRQMLKNMRRLNRF
+>tr|B7RR42|B7RR42_9RHOB
+MLPIVGTVGDEWSTLEKIIQTSRKTINCWFCCVLLNDQCHGSRFLVRFFG
+>tr|B7RPI5|B7RPI5_9RHOB
+MDVFKGSFTQQEPIPEDAIEAAVAVMRHGRLHRYNTAGDEIAEVAMLEQEFATMVGAQYC
+LAVASGGYAIATALRAVGVKPGDTVLSNAFTLAPVPGAIAAVGAKPVFVGVTEGLVIDLD
+DLAGKLDQARVLLLSHMRGHICDIDALMALCDGAGVTVVEDCAHTMGAAWHGVPSGRHGA
+VGCYSCQTYKHVNAGEGGLLVTDDAETAARAILLSGSYMLYEKHLAGPPPEAFDRIRYET
+PNISGRMDNLRAALLRPQLRNLDAQVARWNERYFTIEAGLRDTPGLTVIDRAAGESIVGS
+SIQFLLQGWAPDKVRDVLGRCFARGVELKWFGAAEPLGFTSRYDSWRYAPSAPLPKSDAV
+LAGLIDMRVPLTFSIDDCTLIARIIRAEVNAVFQQA
+>tr|B7RS91|B7RS91_9RHOB
+MRTLISATILAGSAVTAQAQDLLIGSTSASSSHYGYFVAVGQLINENAEGVNTTVVETGA
+TMDNIRRMERGQIDLGLVTTNVVQHANAGTKEFEGNAQDLRLLWVYTGAPQNVVVRTDAG
+VDSLEGLADVKFNPGIKGSATESTTEAVFETLGLTADFVRGSTTDIVNSIKDNRVAGYVK
+SGSGNKLDGSTMDVATATDIAILGLSSAQADKLRADMPDISVVDIPEGAADGIPAYTTWS
+FGVGVAAPASMDDETAYKIVSAIMADKTAQANAMASLKGASIADMTVQFGTVPLHPGAAR
+WFEEQGIELPAKLMPARD
+>tr|B7RK54|B7RK54_9RHOB
+MSSGAQLQPDVENRKGRSRPFLTAATGLISALEWSGKIIAFAMLSLTFLTLLVNVILRYA
+TGAGIAWAYEIHAMTLPWLVAGGIVIAAARARNIAILLLPDALNANWQRALMIAVNIIIL
+VISVNVLVSSQPILRASKFQTLSTLGIKQIWGYSSLVYAFASMAVIAALSVVRVAYIAPE
+KSDPEHSSLS
+>tr|B7RLH0|B7RLH0_9RHOB
+MSAEPLIYGLIFIGVLVLVEGLYLVAFGKSISLNSRVNRRLEMLEKGTRREEVLDKLRKE
+MQQHMDNKSIPIYSMLAAKAQKAAIAFSPKQLIMLMGGLSVVAFMGLTIGTATEVPIRAV
+ISVAIGIGAVYFWISSKAKKRMSMIEEQLPDAVELMVRSLRVGHPFTNAIAIVSKEIQDP
+LASEFGIISDEAAYGRDIGEALKEMAERLDMQDLRFLAVAVTIQQQSGGNLAEILAGLAK
+VIRARFKLFRRVNAITAEAKWSGKFLSAFPIVALIVIKLGDPHYYDEVMTHELFIPGCIA
+VILFLSANLLVMRKLTDIKV
+>tr|B7RRJ7|B7RRJ7_9RHOB
+MTNADHAVTIAQFAAKAAMGYFRGPLGTQFKDDASPVTQADRGVETLVRDYLARHFPDDG
+IFGEEHGIEGADKEWMWIIDPIDGTRSFLSGHPLFGFLLAHLRDGMPQIGLIGMPALDEV
+FLGIKGQGATLNGTAIHCSARTDLDQAILFINEGEKIYAEHPEIFAALVQAGQTRRFSYD
+CYPHALLAAGHVDAVVDFDLQPYDYLPLMVVIEEAGGIITDWAGQPLTLKSDGRVLSAAT
+PEIHAGLLAMVGR
+>tr|B7RNP6|B7RNP6_9RHOB
+MMGDRPLPTIYPETEFYWNGAKEGKLLLNSCPSCDKAYFPPRPFCPVCGNRDVEIKQASG
+KGRLYSYIINHLPAPGYEPPFTVAVVMLDEGVKMVANLLDCPPDPEALILDMPLEVTFEQ
+RGDVAIPQFKPAGGVA
+>tr|B7RN18|B7RN18_9RHOB
+MVGARIHPERKFTAIVGWMSAKFTNQHGGECRIHADMSNMDQLALRGMITL
+>tr|B7RPP8|B7RPP8_9RHOB
+MHESLARETAHNSADRDAPPIDLRCHPVKTRLMTTATLTIDLHAIAANWHMLNRMSQGQT
+GAVVKADAYGLGIDRVAPVLAQEGARQFFVATTKEGVALRRVLGPGPAINLFAGHMPGDA
+EKIRSAQLTPMINSVDQLIGHVETLPGHPFGLQLNTGMNRLGMDASEWGALRDIALSQHP
+RLIISHLACADEPGHKMNAAQLKSFRDMTAGLKIPLSLGATGGILLGADYHFSLTRPGIG
+LYGGLPFVDAQPVVTLDLPVIQVREVPAGGSVGYACGWIAPRPSRIATVSGGYADGLIRA
+MGNGATMTHNGTKVPVVGRVSMDLITVDITTLTDTPGHLQLLGQHQSVDTVAGFAGTIGY
+EILTSLGPRYDRVYLT
+>tr|B7RL14|B7RL14_9RHOB
+MLRTITVGTTVSVQGIFLRELPNGNISVQVDDAVYTGKPITRKNKA
+>tr|B7RMU9|B7RMU9_9RHOB
+MDKFDKLSGIAAPMPMVNIDTDMIIPKQFLKTIKRSGLGVNLFDEMRFDRDGNEVPDFVL
+NKPQYREAEILVAGENFGCGSSREHAPWAIKDFGIRCVIAPSFADIFYNNCFKNGILPIA
+LPQEQVDVLMKDAEKGSNARIEIDLEAQTITSSDGEVIRFDVDSFKKHCLMNGLDDIGLT
+MEKAASIDSFEATASQSRPWV
+>tr|B7RQ71|B7RQ71_9RHOB
+MPDTTLLIEMIVLIMVIGAFAGVLAGLLGVGGGIVLVPAFFYAFQTLGYDGPQLMQMCLA
+TSLATIIVTSLRSVHSHNKKGAVDWAILRTWAPGIVIGAVIGMLVVAQLRTNVLQGIFGA
+LALIVGLYMAFGRADWRLGQAMPTGVARAALSPSVGFLSVLMGIGGGSFGVPLMSLFNVV
+IHRAVATAAGFGVLIAVPAVIGFLMVDAAPNSPPYTVGAVNLPTFAIVIAMTLITAPLGV
+KLAHAMDPKPLKRVFAVFLVFVALNMIRKSLGF
+>tr|B7RNV5|B7RNV5_9RHOB
+MPEAVLNAMHRAAPNIYSGALVDMMPPLMQGLRDIARTRHHVAMYIGNGHAAWEASLSNV
+IAPGDKVLVPATGRFGHGWGDTATGLGADVEVMDFGRQSAMDLDQIADRLEADTAHEIKA
+VLAVHVDTSTSVRNDIAGVRAALDAVDHPALLMVDCIASLGCDQFEMDRWGVDVMVTGCQ
+KGLMVPPGVSFVFFNDRAAEVRAKMPRVSRFWDWTPRANPQEFYQYHCGTAPTHHIYGLQ
+VAVDMIQTEGLEAVWARHEILARAVWAACDAWGADGSLAMNIADPELRSHAVTALRLEAP
+QATQLRDWVQENIGLTLGIGLGMAAPGSAESHGFFRLGHMGHVNGQMIMAMLGGMEAGMS
+ALGIKRGPGALDAAAKVIGGS
+>tr|B7RHV5|B7RHV5_9RHOB
+METMRTTNQWLGATTKAMASYPAFAAIPNPALNWMAAWGEVAERSFARMTVKPDWGIPPV
+VGSDGSDHPVLIEKEIKGAFGDLLHFVVQGRETPKRKILLVAPMSGHYATLLRSTVISLI
+PDSDLYITDWHNARDIPVSAGKFDVEDYTLHLVDYMRHLGPDVHVIAVCQPAPLTLAATA
+YLAEEDPDAQPSSLTLIGGPIDPDANATEVTDFGNRVNMGHLKEMMIQRVGFKHKGVGRK
+VYPGLLQLNSFISMNIETHSKAFSDQILRVAKGEASEHDKHNKFYDEYLCVMDMPAEFYL
+STVQRIFKDNEVGTNTFSVAGKPVDIGKITTVAVKTVEGTKDDISAPGQCIAALALCTGL
+PDSKKASHLEDGAGHYGIFAGSSWRNNIRPLVLEFIDANQRVPAKAPAKAEKSANKNAAA
+>tr|B7RJB5|B7RJB5_9RHOB
+MTDKTKVLYNASCAVCSREIDHYERLSQAQALAIQYDDLNDGSRLAEWGLTPDEAARRLH
+LRKDGQVYAGIPAFIVLWQEIPQMRWVARVVSLPGVHGLACVVYDHVLAPILYRWHLKRQ
+QKEEQR
+>tr|B7RN56|B7RN56_9RHOB
+MARLFFVRYAVIAGERVCNAMTGRDGRHVNTVQADARNFRPLAEVA
+>tr|B7RRI1|B7RRI1_9RHOB
+MTGSPYGTTFALWRAGCADPWHAYTRHAFVEGLRDGTLPRKSFVHYLVQDYVFLVHFARA
+WSLGVVKAETLDEMKICAGTVDALVNHEMALHVETCAAEGIDEATLFTASEAFENLAYTR
+YVMDAGLQGDFLDLMAALAPCCFGYGEIGLRLAGSAASETPYRPWIDTYADDGYQTVMVS
+VGQMIDAAVTRRLGADPSNAARWAQLQGRFTTATRLEVAFWDMGLRGA
+>tr|B7RR74|B7RR74_9RHOB
+MQDVKNPLPDIPKGPDPVKPEARVVMTQGDGRAETQKEVIDFLSSAEGHPGGGPVDVVQT
+HGALVFLSGEIALKIKRAVRYDYMDLSTLERREKMIRRELALNQPVAPEIYETVIPVTRE
+ANGGLALDGSGTPVEWVLRMWRFPAADELSVIAQEGRLDDALARDLGQAVFDYHERTPTR
+SADGATLMTDILNELDREFSQLHDQLDAAQIARFQAKSRAALNGLAPQLSERGAAGHIRR
+CHGDLHLHNLVMLNGRPVPFDALEFDEVLGTCDVLYDLAFLIMDLHHRGLGRAANIVLGS
+YLLAALGGEDDGLAAMPLFFGVRAAIRAMVLAQTAHATGTPMDDGASLYLNEALMALSSP
+DPALVLIGGLSGTGKTTVAQDLAPHIGAVPGSIHLRSDTERKALRGIDPATHLAASAYTP
+EARTAIYDRIFKRAGDILKTGHSVLIDATFLNPADRQSASAVALDAGVPLHRFWLDAPLD
+ILVNRVTARHGDASDADAKVVRIQHANAVLPSDWQRVSAAGSVADTVAQIKDVLKTVNTY
+QP
+>tr|B7RRV4|B7RRV4_9RHOB
+MAPVTGFHGPSSFGATIFDRAFLSRVCMALFCAVMMP
+>tr|B7RRB5|B7RRB5_9RHOB
+MRAAGNFWINTVAEPLAMGCGGKFAAGGAISPRHKSVTRAAGILQTNTVTQQGGMIGKGD
+PNVQGPVCMSATRA
+>tr|B7RFW2|B7RFW2_9RHOB
+MKITPSVINFRSEPFFARLTTVAHNFNENTGAVPFAASRHDISSGIQGRFD
+>tr|B7RH09|B7RH09_9RHOB
+MKYALLALTLLAGCAAPLAKDGLGYRDTTALIGATARYDADRFAGAWVVRGSFALDAPDR
+VALVDSTGGPAFQLCDDAGTCEALWLATATGQGRYALTQPDGTPRDLWVLWVDEGFRTAV
+VGNPAGDFGWILDRKPTGGADRITAAREILDFNGYDISQLRMRK
+>tr|B7RJJ8|B7RJJ8_9RHOB
+MSVDMSDTPIQATLSLTERDGLPDALRSLIKAYPRNGWEQNANYSQLIAFWLDRHLMFRR
+LLDQLDTDVKAALDGNEAQDGYKRKLSRFGGMLINQLHGHHQIEDAQYFPVMTRLDTSVA
+RGFDILDADHHSLDGILSDLANTANAVLQYQGKQPGFVDTAAAMKGRLDRFRPLLNRHLV
+DEEELVVPVLLKYDPPQFR
+>tr|B7RFS2|B7RFS2_9RHOB
+MTADTDLIKLYSARILGLAADIPHLGRLDHPDATVTWRSPLCGSTVTVDVVVADGKLVEL
+GQDVKACALGQAAAAVAGQAAVGATLAQVQTARDQLKAMLKGKGPVPDAPFDGFEVLTPA
+AEYKNRHASILLSIEAIAEAMQQTQTQEAAQNI
+>tr|B7RIX5|B7RIX5_9RHOB
+MTHQSLLLGQTLHFSGNPLTDSWDETVHIDSAGGVLIEGGHIAATGPAAKLRAAHPHAQV
+TDYGDALICPGFVDAHVHYPQTAMIASWGKRLIDWLNLYTFPEEMRLSDPAYAAKIAGRY
+LDLTLDHGTTTVCSYATIAPHSVDAIFEAASTRGQRIVTGKTCMDRNAPDGLLDTAQTGY
+DDSKALIDRWHGKGRASYAITPRFTPTSSADQLAALGALWAERTDCLMQTHLSEQVDEIA
+WVRDLVPHARDYLDTYEEHGLIGPRAVFGHAIHMTPREIDRLSETGAAVVHCPTSNTFIG
+SGLFDMAGLAARHIPIGLATDTGGGSSFSMLRTMAAAYEIGQLRGTPLHAAQLMWLATAG
+SARSLHLQDKVGTLSAGLEADITVLDLASTPAIAQRATTANDIWDNVFATIMMGDDRAIT
+DVWVNGQKRA
+>tr|B7RMH7|B7RMH7_9RHOB
+MPWPRDDYYNNVLNVCGVSPLPCSTGDHESFTRLVILAEDGVSWTARREATRIVVSVENN
+GDGFETRSAFDRIGKNRINIIENEKDTLEIGIACECQISTFLDSGRNIVIDISEFGSEID
+GQILEISPLAPPSKPLEVTKTSSENASNNENIFKIYSKLNLTDFQDRLTKNLGHLGTTKI
+LNSEITMNLVNSNVEPINKSYEILPRNLGVENNNILLPNFTEALLELGKPDVETMECHDA
+RHLSFKMNTKTGAAIRPFEGVADLTNDAGDIDIDRAIHHARELISLGMGAEANQILSLIK
+RESIEIKILSAISDILEYGTSNEFSVIEESSECVPDLVFWSILGSTGAVEVSRAKLKQSL
+LYFNELPPSLRKLTYRRLLENLRHSDNPSAVPAILENVDRLNLGENLGLKIEKISNKIYL
+DETDDVNTLLKEVKNGQAILESGDFIKVIDAKLRLEEEVSEFDMATLDSLIFQETDTSLL
+GMLYNKKFFALLGGNMFLDALNLVEEVDSLKKPEHYESLLHDATLKGNDRTFLEIWSSVP
+EQLFYDLRPETQRLLKDRLLELGLSSPSQASGLDTSQTPIEETDFPVKNTNQPTIYERFE
+SNENQEVGMSIGYAKEILAESRLRRLELENLLQ
+>tr|B7RPX7|B7RPX7_9RHOB
+MLRVRRGCGPRTLPAGQVCLAPRGSDNAPGGVTDHHIG
+>tr|B7RJ32|B7RJ32_9RHOB
+MLSALVRIAALLGVGWGTVAVGGPFALAGFALAFFSARTIATTFARPGAVEGPKP
+>tr|B7RIV1|B7RIV1_9RHOB
+MFNKILIANRGEIACRVIKTAQKMGIKTVAVYADADAQALHVQMADEAIHIGPSPANQSY
+IVIDKVMAAIKASGAQAVHPGYGFLSENSKFAEALAAEGVAFVGPPVGAIEKMGDKITSK
+KIAQEAGVSTVPGYMGLIADADEAVKISNDVGYPVMLKASAGGGGKGMRIAWNDEEAREG
+FQSSKNEAANSFGDDRIFIEKFVTQPRHIEIQVLCDSHGNGIYLGERECSIQRRNQKVVE
+EAPSPFLDEATRKAMGEQAVALAQAVGYTSAGTVEFIVDGDRNFYFLEMNTRLQVEHPVT
+ELITGVDLVEQMIRVANGEKLTMTQDDVKLTGWSIENRLYAEDPYRGFLPSIGRLTRYRP
+PMEIAAGPMQVNGKWQGDAPTGDVAVRNDTGVYEGGEISMFYDPMIAKLCTWAPTRAEAI
+EAMRVALDSFEVEGIGHNLPFLSAVMDHPIFIAGDMTTAFIEEQYPDGFSGVDLPEAELR
+RIAAATAAMHRVGEIRRTRVSGRMDNHERKVGSAWNVALQGQSYDVEIDADPKGATVTFE
+DGTSLRVAGDWTPGDQLATMTVNDAPLIFKVGKISGGFRVRARGADIKVHVRNPRQAELA
+RLMPEKLPPDTSKLLLCPMPGLVVKIDVEVGFEVQEGQNLCTIEAMKMENILRAEKKGVV
+LKINASAGDSLAVDDIIIEFE
+>tr|B7RMR3|B7RMR3_9RHOB
+MTLLTSDAKGVYVISVTPFTQTGAIDFDSLDRVVDFYFEKGADGLTILGMMGEAQKLTQA
+ESRAVAQRVITRAAGKPVVVGVSAPGLAAVGELGRAVMDMGADGCMVTTPGNLKTDPQIR
+DYFAQAARAVGETVPVVLQDFPLATGVQISDEVLGRIIDDVPQVVMLKHEDWPGLAKITA
+LRKAEAEGRRRISVLCGNGGVFLPEEIARGADGAMTGFGYPEMLADVVRLAGAGDMDRAQ
+DIFDAYLPLVRYEQQPGVGLAVRKYVLAKRGAIASAALRAPGAGLAPAAIAEVERLLVRQ
+EKRLKELN
+>tr|B7RQA9|B7RQA9_9RHOB
+MKKIEAVIKPFKLDEVKEALQDVGVQGLSVIEVKGFGRQKGHTELYRGAEYVVDFLPKVK
+IEIVLDDDQVDAAIEAIVNAAKTEKIGDGKIFVSAIEQTIRIRTGETGSDAL
+>tr|B7RQT5|B7RQT5_9RHOB
+MTRRALLGAFAATTVAAAPTFASAAGFLRGAGDIRRIKMFSGRTGERIDMIYWIEGDYVA
+DAVKEVNHFMRDWRTDGIKSIDLRTIDIMAAAHNLMDVNEPYMLLSGYRSPKTNAMLRSK
+SRGVAKNSLHMRGQAADVRLASRSVNQMAKAAVACRGGGVGRYSGSNFVHMDCGQVRSWG
+G
+>tr|B7RFW6|B7RFW6_9RHOB
+MSRNIYVLLATLGSAALLLGAFGFQHLGGMAPCKLCLWQRWPHGAAIIIGLVILGGGARM
+LAWFGAVATAITGGIGVYHAGVEWKWWPGPSSCTGGGMDLGALSGSDLLSMDAPSGLVMC
+DEIVWQMLGLSMAGWNALISAVLLCLWVAAARSKA
+>tr|B7RIM3|B7RIM3_9RHOB
+MFPCVTLIAALVGTAMISTAVVSTVFLAFGFMMGRSQSNLLSIGAAIALIGQAIAFTNAF
+QGHPWQIDSHMFFFALLACLVALRSVPALLVGAVVIAVHHASLTVFMPSLVYPSGGFAEN
+IGRTAVHAVIVVFETAALVIAVLELQRLNKEMEVKADALEQSLRLSDAARQDAQVSQTES
+ERAKEDAHSAKEKAEASLARLNETEANRVGLETERQKNQQVEMERDLARTQEQAGIVEAL
+RMGLAQLEAGDLTTRIVKEFPPQYNELKEGFNTAVQSLEDMVSEVANRSTQMDFEIHEIS
+TSTDHLAKQTEEQAMTLTNISNALKDLTKTVNDNVRTVAEVNTSSQHAQSSASKSGDVVS
+DASVAMEAIQNGSQEIGKIIEVIDSISFQTNLLALNAGVEAARAGESGRGFAVIASEVRA
+LAQRSSESATDIRALINRSEAQVAKGSKKIADTVIALKEVVTAVLGTTSKMDVIAQSSQT
+QSVEISTLNSSISDLGAATQLNAAKFEETNAACISLAKSATALRELTHRFQTSEPETRES
+KVA
+>tr|B7RH22|B7RH22_9RHOB
+MKGFAMNLEFPDNDEVLATVRASAGRRYTGLLSLGFLGVFLVYMAFTSSPGLGWQVVLII
+LGVGAIWMAERMRRATSSAIELTSTVLRDSDGTVIARVEDIEHMDRGVFAFKPSNGFLLR
+TKAGTGRDRVWRPGLWWRMGRRIGIGGMTPGRQTKYMSEAIATIMATRDL
+>tr|B7RHF9|B7RHF9_9RHOB
+MKLKSLIAAASIAALSAGMAYADAHGGKVKVGMITTLSGGGAGLGIDVRDGFMLAAKGNE
+NLELVIEDDQRKPDIAVQLADKLIQSEKVDVLTGIIWSNLAMAVVPAATAQGKFYLSPNA
+GPSALAGKGCSPLYFNVAWQNDAFNEAAGSWASENDIKKVFLMAPNYPAGQDMIAGFKRT
+YTGEVVEEVYTKLGQTDYAAEIAQMRASDADTVYFFLPGGMGISFMKQYAGSGVDKNVMG
+PAFSFDQGILGAIGDAALGVKNTSHWSKDLDNEANVKFVADFQAEFGRLPSLYAAQGYDT
+ALLLQSAMGKADVKDAAAFQAAMEEADFASVRGDFSFAPNHHPIQDIYMREVVKEGDVVT
+NKVIGVAASAHQDVYGADCKM
+>tr|B7RJ88|B7RJ88_9RHOB
+MSARIEDKGDRIIVWNGNAHKRGALSPELYACIKEAIELAAAPRIRAVILTSEGDFFCAG
+GDLNVLIARRELPEDVRRSKIDELHDVVRAIRNSPVPVIAAVEGGAAGAGLSFALACDLI
+VAAKGAKFTAAYVKAGLVPDGGLTASLARALPRQLAMEMCLLALPVTVDRMHDLGVVNAL
+AEPGAAMDGAMAYADRLAQGPRQAQSVIRGLVAQGYDVTEAAQLDAERNAMAHAAGAEEA
+AEGIAAFLEKRKPNYGG
+>tr|B7RJI9|B7RJI9_9RHOB
+MGKKVTKAIFPVAGLGTRFLPATKSVPKEIMTLVDRPLIQYAIDEARAAGIKEFIFVTSR
+GKGALEDYFDHSPVLEQELRAKKKTELLQILKNTNMDSGAIAYIRQHKALGLGHAVWCAR
+RLIGDEPFAVILPDDVIAAEKPCLQQMVEAYNETGGNMVAAMEVNPDRASSYGMLDVDED
+RGEMVKIKGMVEKPAPEEAPSNLAVIGRYILSPNVLKNLNQLKSGSGGEIQLTDAIAAEL
+SQGHEVFGYRFKGQRFDCGSKSGFLQATVSFGLAREELRDDLYAYLQDVMQIDKAAQ
+>tr|B7RNZ5|B7RNZ5_9RHOB
+MRYFLRLEDFTTGLALRLSIAFLVIAAGLALFQVITRFAFGAPSTWSEVITRSAMIWSVF
+LGVAVAFRHGAMISVDVIQNVLPPRLGLGLFLFANLGSLIFFAVLMWQGYLMTLRVMAQS
+LAALEISIAWVYAALPVGSAFILIAIIASMIRAVQGDWLAARDAEAAL
+>tr|B7RRS0|B7RRS0_9RHOB
+MIDGTGIKAVGEGEWNAQMPRRESRTEGPCCHSGCVANFSSFFSV
+>tr|B7RI28|B7RI28_9RHOB
+MEDNVVFTYLDAFNPDEAETENMKAHYRRGGLGDSKIKARLEDVLQNLIAPIRARRAAYA
+NDPGYVVDVIRQGTVSAREVTERTKREVFEGLGLFTL
+>tr|B7RL67|B7RL67_9RHOB
+MRRKGGGAKRLYRIVDFKRNKLDMSAVVARIEYDPNRTAFIALIQYEDGEQAYILAPQRI
+AVGDKVIASAKADIKPGNAMPFSGMPIGTIIHNIEMKPGKGGQIARAAGTYAQFVGRDGG
+YAQIRLSSGELRLVRQECMATVGAVSNPDNSNQNYGKAGRMRHKGIRPSVRGVVMNPIDH
+PHGGGEGRTSGGRHPVTPWGKPTKGAKTRNKNKASSKLILRSRHAKKKGR
+>tr|B7RP32|B7RP32_9RHOB
+MGGMAFDEAYLKTIWADMQRHQHIRAEITASAAYALHILLSEISFDAVFMNPSPFIIDDS
+Y
+>tr|B7RLR7|B7RLR7_9RHOB
+MSRPPAFWYLPRPDWRARLLQPLGALYAKATARRLAQGTPEKLDIPVVCVGNINAGGTGK
+TPTVMAVVEHLRNIYHTPHIVSRGYGGTEKGPLQVDPARHTAAQVGDEPLLLAAFAEVWV
+AKDRAAGARAAQQAGASVVVLDDGFQNPAVSQDLSIVVVDAAKGFGNGLCLPAGPLREPV
+QTGLARADLVLSIGSDSDQEGFDTTALPSGLPHVRAELKPLQTGMDWSDTRALAFAGIGH
+PEKFFATLKGLGAKIVHAEALDDHQALSTALLTRLEADAFAKGAQLVTTEKDAVRLPASF
+RMKVITLPVRLDLPPQNALFDALDRLPKPA
+>tr|B7RRP1|B7RRP1_9RHOB
+MKYTLFAGILASTALTSAAFAQDTITAVHAFPESLIYTKSFLEFVDKVNAAGEGVVQIEV
+RGGPEAIGMFQQPDAVRSGVVDMVYTPGSFYAGALPEKDALVTSNMTGAEVRANGGIELI
+DQIHQEKMGVKYLGWFDSGVCYNLWTRDEPTLDADGNLDVSGLKLRGNAVYNAFFTDYLG
+AQVIDLPTTEVYSALERGIVDATGWTQIGLIDLKWNEFLNYRIEPCFFSTDLGTIVNLEK
+WNSLSEESRKILQDVAIAHEAESAAKLGAVRDEDFAKLEEAGMKVITLEGDAADAYLAAA
+TQSTWDRMKGLMAESPQGDGNYDKLIELFYKK
+>tr|B7RSA5|B7RSA5_9RHOB
+MTGLSDDIHDLAADYVLGLLPEDESQLFEEILARDSDLAQYVGDLRDRLLPLDLSAAPRD
+LPEGMVARTRAALEQLDAPSPITTARKSLPNAAANTPQMPSGRRAGLIAAALVGIAVGFG
+AGWLRPSPEPLVIAVLLDDQGVPQAVVEDYGNDTATVRFVAEIDVPPDRSLQVWTLPTPE
+IGATSLGVLDRTAPTRLTFDHLPGPMAQQLYEVTLEPAGGSPTGRPTGPIIGKGFAAPQT
+>tr|B7RQ68|B7RQ68_9RHOB
+MADQVRFSDLDTNNHVNNTVYFEWFERLRIRYTQQLVEQGLIDAPGPRVVIRSGSIRYLH
+ELLERENYIVTCRCTGFRNTSYSLAQQVWVGSQLHATFDCVLVLLTRDGTGRYPLPDRLK
+HHFETVDQAVADG
+>tr|B7RPW3|B7RPW3_9RHOB
+MTKQTIFANATLILNDEVVRGSVRVSDGMITDIDTGTSVSTGATDLEGDYLAPGLVELHT
+DNLERHLSPRPKVDWPYRAAILAHDRELAGTGITTVFDAIRVGSIVSGASKRYGKYARQM
+TDEILAMRQAGLLRISHHIHLRAEICSETLAEEFAEFSPQDRIGIVSMMDHTPGQRQFAD
+LSKFETYVRGKYSFEDQEYRDYVDFLYGLQAQFGAGHEAATVEAAKRLGATLASHDDTTP
+DQVATSQAYGVTLAEFPTTVAAADACHAHDIATIMGAPNLIRGGSHSGNVAAAELARLDR
+LDILSSDYVPSGLLMAAVQLGDLWGDLPRGMATVTARPAQAVGLTDRGVLCVGQKADVIR
+FAVLDGTPVLKETWSAGARVF
+>tr|B7RFZ1|B7RFZ1_9RHOB
+MKIPATKSDEEDSQMSALKIKKGSTSHSAYNLRPNFSDVIERHTLAVLVENEPGVLARVI
+GLFSGRGYNIDSLTVAEVDHTGHLSRITIVTSGTPQVIEQIKAQLGRIVPVHEVHDLTVE
+GPCVERELAMFKVNGTGDKRVEALRLADIFRANVVDSTLQTFVFEITGAPEKIDAFAELM
+RPLGLTDVARTGVAALSRGD
+>tr|B7RH60|B7RH60_9RHOB
+MVNHIVNLKHTVAALGFWVLLGGVSFAQTTMPQADELLAKLRDAPAEEASRIEREVQTAW
+ARSGSASIDLLLKRGMDALAAGDTPLAIEHFTALTDHAPLFAEGYHARAQAYFRADLYGP
+AIDDLEMALALNPQQFNAIFGLGAILQEFGSLPAAATLYRRVLAINPHHENAQKALDGLR
+RDGIGRTL
+>tr|B7RJ76|B7RJ76_9RHOB
+MSDPTNYESAAKGSPEAVAEFADTGKSLINKLQHALHVTPSLVPLIVLVLSLIVFGILLG
+SKFFSPFALTLILQQVAIVGIVGAAQSLVILTAGIDLSVGAIMVLSSVVMGQFSFRYGLP
+PEIAVVCGLLCGTACGFVNGWLVAYMKLPPFIVTLGMWQIILASNFLYSANETIRSQDIS
+ANAPLLQLFGEKINIGGAIFTYGVIFLVVLVLFLAYVLRHTAWGRHVYAVGDDPDAAELS
+GVNVKRVLVSVYMLAGLICAFAGWALIGRIGSVSPTSGQLANIESITAVVIGGISLFGGR
+GSVLGMLFGALIVGVFTLGLRLMGADAQWTYLLIGALIIAAVAVDQWIRKVSV
+>tr|B7RKL7|B7RKL7_9RHOB
+MAALVALCAGTVVASPLKLKPADPQPESVSTGLAVDYAFPEDVKSLRDAYIALGIGAKPG
+EPLADIDYLSSESEPFALTSGQEMMVAARIKGYLRFDAPGVYTLETYSNDGLELSIGGRE
+VAKVDEKRGCDPIGAVEVSVPEAGWYELEALYWQRKGGSCLIMEWAEEGSALETVPAAAF
+GHN
+>tr|B7RKV5|B7RKV5_9RHOB
+MNSPMIQLLVLAGIAVFLILRLKNVLGTREGFEKKPEIDAKPQKPSGPAFEVIEGGPDLD
+ITDHAPEGSDTALALAEMKRVEPSFGVSDFLGGARGAYEMIVMGFEHGNLDDIKPFLSED
+IFDSFVDGIAAREDQGLTVESTFIGIREMELENATMDKATKEAELTIRFVAEMTSVVKDK
+DGMVIEGSPTEVKRQKDTWVFARVMGSDDPNWLLVSTDG
+>tr|B7RLY5|B7RLY5_9RHOB
+MGIVKIGDGLHEELRKSSTVMCRSINAQAEFWIKVGMLAEANPTLTFTEIMARQLKDADV
+QVPEIEAA
+>tr|B7RNE2|B7RNE2_9RHOB
+MGALRIASKTYGTASVIGDLYQSGCLKALFPRAATAELTGVFLNTSGGMTGGDRLTIAAE
+AGTDSRLTLTSQAAERVYLAQPGPPARLTTTLNVAKGARIDWLPQETILFNGAALHRRLD
+VELAPDATFLGVEPLVFGRVSMGETLTSGSFADNITIRRDGVPVFADAVRLSGDIAAQLS
+GPATARGQFAMASVIYAAADADALLKPLRALLPKTAGASLVRPGVLYARLLAPDSYILRQ
+SLVPIIARLQGAAPPKTWML
+>tr|B7RJB0|B7RJB0_9RHOB
+MAARNFQKFSIGKFEFPGHRIGPGRFVSNRRRVLVFT
+>tr|B7RKC4|B7RKC4_9RHOB
+MIFDSEIPDALACGLVLSTVGLVWIILLVRVFGLRSFSKMTNFDFVMTIAVGSLLAGVSQ
+STSWGSLVQSVTAITALFILQFTAAYLRQRSETFLTAIQNDPVMLLENGVICENALRTTR
+VSQGDLIAKLREANALEMSNVRAVVLETTGDISVLHGPEVDEIMLRGVTRIG
+>tr|B7RIX1|B7RIX1_9RHOB
+MKILFLGDVMGRSGRRAISENLPRLRKDWKLDFIVVNGENATSGMGLSGTHAKTLFEAGA
+DCLTLGDHSFDQKDMLSFIEQEQRIIRPLNFSKNAPGRGARLFTAQNGRKVLVVQALGQV
+FMKRPFDDPFSALEPVLKTHPLGGLASAVIVDMHCEATSEKMAMGHWCDGRASLVVGTHT
+HVPTSDAMILPGGTAYLTDAGMCGDYHSVIGMEKTEPMRRFITGMPKDRFTPANDEATLS
+GVYIETDDRTGKATRIVPVRQGGKLQQSAP
+>tr|B7RRE2|B7RRE2_9RHOB
+MQSRLPQRRKGAQFDSSLAIINIVLLLIFFFITTGSLMSSRTVEVSLPETTRLPLDLLPD
+PLLIIQADGAMLLDGEVIEKGALADALIDSPTVHVLTDREMTAANLLTILDEEALIAVEV
+RLVTLHLNAGGDEE
+>tr|B7RK21|B7RK21_9RHOB
+MALRLDPEKPLAGDIRVVENAILVPWGEGKRQGMARPAGVFTADGEYCADAQTYRSGGKP
+TTVEPHFPSEDQIDRTVAGTMLYAGMSYGHFGHALCESLARLWAVDVFDEPIDALAFIPK
+QQMTWPERSLSMVKNITDRFGDLPRHTAFNKPTRIERLVIAPQGFGTSGLMVGCPEMRDF
+TDRRLRQTVKPAGPDKIYITRSGLFRKRGRFLMEDYIEAKMEAEGFTIFHPQAHDLETQL
+AWYKGASVIVSTDNSALHLAAFVIPPDCRIGILLRRPGTIFEDFTLQLKWFAGVVPDVVD
+ACTRFWFRTGEKVQYNELYALIDFAKTSRALKDAGLIENADWVNPSEKDIKDAVKTLEAE
+SDIAFEEIFL
+>tr|B7RNS3|B7RNS3_9RHOB
+MIRRSFAFAISDRAISTVVAFLSMAVISRILTPAEIGVFLVASSLVFLIEAFRDFGVAAC
+IVQERDLTQKFVQTAFTIMTLLSLVLGGMIFLAAGWIAAFFDEPEMTLMIRIACLAFIAA
+PISNPLLALMRRDMAFGAVAWTNILSTIVNSGLSIGLALAGYGAFSLIWGSVGAAFIACV
+VALVARPDLWVFRLTLAEWRRVVPFGFWTTLVTILGMVFESFPRFILGRILGFTAVGIFS
+RALSLSQLVEKTLLSAVQPVIMSDFAARFRSGEQLAKRYLTGLELVATLQWPAMACLAIL
+ADPIVRLLLGSQWLEVIPILQIVAIAGMALFPASLTLPVLVAMGQIRDMAIVSLILFVIS
+TSIIYGASQISLIAVAWSLLLVNPIQAIGMMLAVHRHVPLKGADVARMLWKCLVITLAST
+LVPLLTVFVQGPELGVVGSCVAVAGAAVGWLMGLVLMSSPIVAEISRAWSFRPMRAKRSK
+AL
+>tr|B7RHY7|B7RHY7_9RHOB
+MRLRYWTALLVLGGITFVVSTQWDRQPQEEAALSDSAPAPVQSGDEPKSAPIQTDDPVTV
+SAVPSTEMPPQPDDAVIWTQVIGTGDSLSGLLSEAGLDTDASTEVTGAIGSQYDLRRLKP
+GHSLTLTIAPDGLPRTATLEIEDGTRILATFGAVPSVQKMAPDLDSVRRAGEAKIQSSIY
+AALDDADIPTRFATDLELILAGTFDLRTALSGGESIRLLWREYRSGDRVVGEPTIDFAQL
+DLADGRYEILWPDDTSRQTRIYKDGHLVQTFDQPIRGARLSSAFGQRMHPIHGYMRMHSG
+VDFAAGQGAVVAATQSGKITFMGERSGYGLLVEMEHEGGTNTLYAHLSAVNEDLQVGQRV
+AAGTGIGQVGSTGTSTAPHLHYEVRVDGQPVSPLADTRLRGPGGGAQAGASLVLMDSMQS
+ELDRLLGSRG
+>tr|B7RKU5|B7RKU5_9RHOB
+MRDTPNAVMMFAAGFGTRMKHLTQDQPKPMVKVAGRPLIDHALDLAESIVPDHIVVNLHY
+KPEPLQRHLLGRDVRTIVETPDILETGGGLRNALPWLGKGPVFTMNTDAIWAGPNPLALL
+LDAWDPSAMDALLIGIPVPQAVGHEGSGDFTMADDGRLTRGPGVIYGGVQIIKTTLLETI
+PQRAFSLNLLWDQMLEQQRIYGLAYPGHWCDVGHPEGITLAEDMLRTHCV
+>tr|B7RKV1|B7RKV1_9RHOB
+MTDLTPREIVSELDRFIIGQKDAKRAVAVALRNRWRRKQLGDDLRDEVYPKNILMIGPTG
+VGKTEISRRLAKLARAPFLKVEATKFTEVGYVGRDVEQIIRDLVDSAIIMTRDHMREDVK
+VSAHKAAEERVIDAIAGADAREGTRDMFRKKLKAGELDATMIDLEVTDTSSPFPTMDIPG
+QPGGGMGMMNLGDLFGKAMGGRKVKKRLTVAESYEVLIGEEADKLLDDETVNRAAIDTVE
+QNGIVFLDEIDKVCARSDARGGDVSREGVQRDLLPLIEGTTVSTKYGAVKTDHILFIASG
+AFHVAKPSDLLPELQGRLPIRVELRALTEDDFVRILTETDNALTLQYTALMGTEEVTVSF
+TDEGIKALAKIAADVNQSIENIGARRLYTVMERVFEELSFTAPDRSGETVVVDGDFVEKN
+LGELTRSTDLSRYVL
+>tr|B7RL97|B7RL97_9RHOB
+MSDWKAKRFWTTAQVVAAEGGYAVELDGRPLKTPAKRSLIVPTEQMAQAVAAEWQAQEGT
+IDPRTMPCTKTANAALDKVAIQHAEVADMLAAYGDCDLLCYRADSPQELVERQNALWDPM
+LDWAEEALEVRLAPRVGIMHVPQDAAVVARLTDRTHALDKFQLAAFHDLVSLSGSLVLGF
+AATLNARDTDTLWDLSRLDEIWQAELWGADDDAEALAAVKKASFEHAKLMFDLSSPPAP
+>tr|B7RQI6|B7RQI6_9RHOB
+METPIKARYIGERQMTLTEEQAAFIDSYILGRRAWDDARKAERQAELAALSGKIKAAEKR
+TDAEGDPEHLTRQQIVANLQTNLEKTGRLMTAAEIGAKTKEDKKKAKQAVAERQEAHLQD
+ILLKDEDGINIGRIVDAMVPPPDKKFRELATKPLTEDLDPRTRSEIETAKRYIDDYDTRV
+RAAQEQIAAEYEAQVLHETDASRTARDAKNAAMHALAESHGQRSLAHHASRHGAHTTDDD
+QVRRVATGFAPDNVPAKGTATMTETLRTGENVEVALMQEQGPNASNVGSRFASAFDEMQM
+IEELLIDVQGARRRGEIDEGASIKKEVVVDAAKPVIGHQAIPVHDGSKYVKLGTTDQLPS
+SGQLKTSKTALDNAATMRDRIKSTGIEKNVRAATMIMRGLPDGTYRLVTAYPNSSVTGES
+FLEENTATPLKSGKDAALADKSHSLARAEAELTEADQEVRDSAKAVEAASAQSDAAKDTY
+EKAILAEAASLPAWDSDNAAAHTTLAKLQSRARNWSRAKMAFDGMAQMESDFATVRMELG
+KDILNSNGVVAACQGQVGIEQGNVAAVPPAANNASNADKKLAKAALWAANDLLRAAQNAV
+LDAQRNHQFLLDTQTALNAQIQTFSAARKAALENADSALKPMDDAYAEAVVASSKEQADQ
+AKQAAIDSAKTAGEYTAAKIALEAAKVASDQAKLAQAIALEAVGQHDTKGPKSAATLLEE
+AAKEGPEALSAARKSWEEDMQAVAAHLEYERAELGKEAATLKAAKNKAAEVLLAAETAEQ
+EAAEALQKLIDDGVDQSSPEFNKAINLVVDLGGARNRAEANAREASNVAEGVVARFEASE
+REDKLMVGIGRAQLATAIARQESESDATNVNKKKALDLALAKEDALKKSLDHEQAAEGTR
+LANASLRVVEQELEAATDALDRLSPTSEKMKDPTIGDRVKSMIATIDKIAALREQQEQVV
+EKAVAAQKEKAEDAKAAREKLEALS
+>tr|B7RSD9|B7RSD9_9RHOB
+MMEKTMKSYTLTSAIALALVANAGFAREYDCLMDPSLVVEIGSAEAGIIESISVQRGDLV
+TQGQLVAKLESGAEQVALDYARARATDTSPIEIAQSRIDLLASEAERAKELGAKKLVPQA
+VVDSAVSQHEQAILELRQAEFEKRLAALDETRVAAQLARRDIHAPVDGIVITRMIGPGEY
+VFAQAPIIQIARIDPLHIEVFLPTDMFNTVKMGQMAKVKPAAPIGGHYEAEVIAIDRVFD
+AASDTFGVRLRLDNLGGALVAGIDCKIEIDD
+>tr|B7RNB5|B7RNB5_9RHOB
+MENQTAQIEWKDSGVPVSSQFDDPYFSLENGVEETRYVFLQGNDLPTRFRDGFRIGELGF
+GTGLNLLVAWDAWAQKGCNGTLQFTSFEAFPMSREDMAQAHQAFPEFNGKRDALLEAWTP
+EGGNMTFPGLDLTVVIGDARQTVPAWDGVADAWFLDGFSPAKNPELWEPDLLEDVARHTA
+HFGTAATYTAAGAVRRALESVGFAVERTKGYGRKRHMTRAVRV
+>tr|B7RIS6|B7RIS6_9RHOB
+MHNRIDLIRPDAPELALRGPHPIGVTTHEIDVAPGRTLTTEIWYPAHPDTVAGTVYHTLI
+RDGVTPAMLHGSASRNARPAQGNAPLIVISHGYPGNRFLLGHLAESLAAKGYVVAAPDHN
+GSTYDDQQDFAVTLINRPLDQRGVIDGMATLGGDMGALVDCDNVGLIGYSMGGYGVLVFG
+GAGLAASALKHPRAGTDAALAQHLAGSAHHDALRDPRLKAIMPIGPWGNAQGMWDAAGLA
+LMDTPMLMMAGTVDDVSDYPAMRRVFEGAASDRYLLSFENAGHNAAAPFPAPAESWAMSD
+GLEWPPFNHYADAVWDTLRMNNIAQHFAAAFMGLHLRGGDLRHYLDGTAWPGFGPGTHAG
+LTLEHLHARR
+>tr|B7RM47|B7RM47_9RHOB
+MGFGAPRARDFLLEIEVEDMTQLDMAFRFTATSDENVERLYTTVHQMVGEVDIALYRPFP
+DPERAERMALI
+>tr|B7RHJ3|B7RHJ3_9RHOB
+MDAALRATEILLALAFLQQSAEYIFGSRAAWMLFGVRAALSIGLLFGVYGAWVLLALCVH
+SIFVLHRFQGPYNGGSDRMGLLVLYCLSLSRWMPTAALQEVAFGYLAVQVILSYFISGQV
+KIINPEWRSGRALGDVFSFSVYPVALSLRALALRPRLLWIASWSVMLFELLFPLSFLNAG
+LLILALILAAGFHIANACLFGLNRFVWFWVASYPSLLWLQGRVFPGG
+>tr|B7RJU0|B7RJU0_9RHOB
+MNLIAEIEAEQIAELGKVIPDFRAGDTIRVGFKVTEGTRTRVQNYEGVCIARNNGHGIAG
+SFTVRKISFGEGVERVFPLHSTNIDSIEVVRRGRVRRAKLYYLRSRRGKSARIVENAHYK
+PKSGANA
+>tr|B7RPL2|B7RPL2_9RHOB
+MIGIEHYLTVAATLFVIGIFGLFLNRKNIIIMLMSIELMLLAVNINFVAFSHFLGDLVGQ
+VFTLFVLTVAAAEAAIGLAILVCFFRNRGTIAVEDVNVMKG
+>tr|B7RQM6|B7RQM6_9RHOB
+MGVIRNSKLTGDIMSLVKLTTSALAISAVCATAAVARDQVQVAGSSTVLPYASIVAEAFG
+ENFDFPTPVVESGGSSAGLKRFCEGVGENTIDIANASRKIKSSEQEVCASNGVTDIIEVQ
+IGYDGIVFASDIDGNTFEFTPEDWYKALSAEVVVDGAIVANPYKNWSEVNASFPDQPIQA
+YIPGTKHGTREVFEEKVILAGCEATGDFEAFKAANGDDKKAAEKACIALRTDGASVDIDG
+DYTETLARIESNKDGIGVFGLAFYENNTDKLSVATMSGVEPTVETISTGDYPVSRPLFFY
+VKKAHIGVIPGLKEFAEFFVADEIAGPDGPLAEYGLVSDPELATVQDTVANETVLGNGS
+>tr|B7RJV6|B7RJV6_9RHOB
+MATEPIDMEIAGTCVSEFGSAIGMPQLCGEWFGNQIFWLVVALVAIYFILSRVALPRIGS
+VLAERQGTITNDIAAAEDLKVKATEAEAQYDKALIDARAEAHRIITDAKADIQADLDQAI
+AVADADIAAKAAESEKAIAEIREGAKKNVEEVAKDTAQAIIAALGGSADATTVSAAVDAR
+MKG
+>tr|B7RR50|B7RR50_9RHOB
+MKAMRKYIAIVDGFNYGLGRIMMYGIFVLMGILLWSSYNKTFASPQIWTLEMAQFVMVGY
+YILGGPYALQMGANVRMDLFYAELSPRKKAWTDCITVLFLFFYLGVLLWGGIESTMYSFK
+YGWERSPTAWRPYMWPVKVTMCIGIFLMLLQALSEFFKDILFLKSNEDTRDAL
+>tr|B7RRQ6|B7RRQ6_9RHOB
+MEKRQDIVLGLIFVGIGIFAAWTATNYKGASGTYPMVLGLVLTLLGATVAIKALRKPINQ
+PRTLIDAPAKLVIAMLVATIYVALVIPLGFYTASFLLVLAMPLALGFRRVAYAMTVAVVF
+MSLVYLVFSVLLEKPLPRELILSVISVGG
+>tr|B7RH63|B7RH63_9RHOB
+MANQLAEECLAVQRETGNDRLFMEVAGVLGASSQTMEEAFVTAIRTRMATFQGRAFLNKA
+LAAHKAKEPKA
+>tr|B7RIB5|B7RIB5_9RHOB
+MTTSTIVVGLDGGEAGARALAFASKQAQLIGDCALKLVYVIEWSPFSFQTPEENDQRHKR
+REEELSLARARIMDPAVKSATDSGLTVEGIVKHGDVADILNDVAKKHGAQQIVVGRVGLR
+GLKERMFGRCRQRAGHDHSMKGRIMNKFLTTGLGAAAASALPAIASAQEAVGLDQRINDI
+FAGSTGWFVNLIFMSLPGTNFPWIVLWLVVAATVFTLYFGFIQIKAFGHAIALVKGDYSD
+PEDAGEVSHFQALTTALSGTVGLGNIAGVAVAVGIGGPGATFWMILAGLLGMASKFTECT
+LGVKYRNEYADGTVSGGPMYYMTKGFKERGLPLGGFLAIVFSIFTIGGALGGGNMFQANQ
+AHAQIAGIVGDFPGWITGVIFAAMVFAVIVGGIKSIARVTEKVVPFMGVLYVVAALIILI
+VEYDKIGWAFGQIFEGAFSGLGVAGGLVGALIQGFKRAAFSNEAGVGSAAIAHSAVRTKE
+PVTEGVVSLLEPFIDTVVICTMTALVITISGVLVTDPATGQFILNEAGTSIMTVDGSSGV
+QLTSAAFATGFSWFPYVLAVAVILFAFSTMISWSYYGLKAWTYLVGEGKTKEIVFKVIFC
+FFIIVGAAANLGAVIDFSDAMIFAMAVVNITALYFLMPIVKREMNSYFRRLKTGELKKFV
+D
+>tr|B7RN31|B7RN31_9RHOB
+MNTIYRKEEGGMIISKGRNYIFVHIPKTGGTSMALALEDRAMKDDMMLGDTPKALKRRKR
+LRDVPSAGRLWKHSTLADIEGLLTRDEIAGMFAFALVRNPWDRIVSYYHWLRGQSFDHPA
+VALAKKNGFADFLKTPFLQDSLKQSPYGAYLRDGAGHDQSNLFIRLEHFAQDAAPLFDHL
+GFKLSLPRENVSDRAEDYQSFYTPELRKLVEAICAEDIARFGYHFESAS
+>tr|B7RQ66|B7RQ66_9RHOB
+MTVLQIASLLIVMAGGFGAINYLFLKLPSSIGILVVALIASFGLLGLDLIWPSLEIADSV
+RGVVKGIDFSEALLEGMLGLLLFAGALHVKTSDLRREWGIVALMATLGVALSTAVVGFGF
+SWLTGMPLLTALVFGALISPTDPVAVLGVLREADLPKSLETKIAGESLFNDGVGYVVFLI
+LVGLAFPATGAHGAEGNTVFDGARLFFQEAVGGAVLGLVLGWLTFRVMRRIDDYPLEVLL
+TLGLAFGGYELAVALHVSAPIMAVCAGLLIGDVGTARGMSEETRRYVDAFWKLIDEILNA
+VLFLMIGFEVFAIAFDGDMFLTGMVAIILALLGRLLAVAIPIGMLHPFRDFNQGVIPIMT
+WGGLKGGISVALALSLPEGEWKPLILTCTYIVVVFSIIVQGLTVAKVANRMGRHPNLV
+>tr|B7RQE8|B7RQE8_9RHOB
+MATNKRPDADRLPISQRIDQRMPNPKRREATPTNWQIKGELFLNCSCEMFCPCVVSLGAH
+PPTEGHCHAWMAIAIDEGHYEGEDLSGLNVGLLVDIPGRMGEGNWKVAAYVDENASGKAY
+HGLLQIFSGAAGGTTGLFTMLVSEIIGAERAPVKIIRDGSKRSIQIGRKIAGEIEMIAGK
+SPDHPVMISNSKYWMGPDIIAAKGLKSKVRDYGRVWDFGGKSAEICPINWQGPNP
+>tr|B7RLF1|B7RLF1_9RHOB
+MRRTLFLLIVGLGGAAILISLGVWQIQRLAWKEAIISDINARIVAEPVALPDEVAPESDA
+YLPVSATGVIGDGELHILVSQKDLGAGYRIIAPFTLEDGRKIMVDRGFALTTAKTTSRAV
+GRMTIIGNLQWPQETDGFTPAPDLAANIWFARDVPAMADALQTLPILLVARSSTPAAADI
+SPLPIDTARIPNDHLQYAITWFSLAAIWLGMSLFFLRRRAPKVES
+>tr|B7RNP0|B7RNP0_9RHOB
+MEAVLAANPGLGALGAVLNAGVRILLPDLETSTPMETAQLWG
+>tr|B7RQC0|B7RQC0_9RHOB
+MPARAFALLSRKMIKHRAFCDTARIKCDATLSFQLALIRL
+>tr|B7RRQ9|B7RRQ9_9RHOB
+MQKPKDINPGWWKKNKPKSLPKAPVDALIVKYAKSSKKDKMGKIESLVTKETDLSKLNKD
+PVFTEGKVLLAELKRFRNIVMKEKHREFLDSIDIMIDILRLDIKEIDAFAQKKFDDHKEA
+KIKEKGAKNKKDRAKIDEEILKSRKEYAKFNADNIHAHVKKLDKEDKTLKDQVTRELSKL
+SRSVGKAKQEDEFKRAFGQYRWLLSWIKARISSMKKEVADLSKIMEKAGGSDADVKKYFE
+QAFDRNILSHTLKSWDVYKKQCQDADKAAVKQVVAKLGKKEGIACYNAAESLELPIKKPD
+AEGTVKLKIKKLK
+>tr|B7RQ72|B7RQ72_9RHOB
+MNSLGPDGFAVFDATYQVADWASAAHKLALKITADPTLRAQNLRHGDTWFVGVDALPNAS
+DGSIGGIPLAGPWQDHIKAPAAWHRAQLSVVYPGYPVQDATESDAAHRFRRNRFAAHVDG
+LLSRGPQKRRFLGEWHDFILGLPLNVTDAAPLMVWPASHLAMGQALRDAVGMQDPAQVDL
+TEAYQAARRDIFNQITPVEVLARPGQSILLHRHLLHGMAPFEDDQTAPPEGRMIAYLRPQ
+LAEGPKAWIAPD
+>tr|B7RNT4|B7RNT4_9RHOB
+MGLRRYFRKNSDDIIQPEERRIIDKCISSGDVVFDVGAHHGLWSKAALAHAGDIDLHVFE
+ASKKSHAEVMAQLDGRGTINHSAVSHTDGEIVFNTYQDDDRLSSIYRRTSVEDKLLPSGF
+DANVVPAVALDGYWTDPKRQINFLKIDVEGAEYDVLRGANRLLKAGQIDYIQFEYGGTFQ
+DAGYTLGNVWSYLRRSGYVVFKVGKRKFTEITRFTPAMEDYRFTNLLAVHERLRSKFVGK
+PENIEIYLDKMKHYGFQPKGVLHVGAHKGQELPTYRANKISPVVFVEANPDLAAALREKT
+AGDDDIYLVEGAASDSAGKATFNITSMDQSSSLLPLAKHSEMYPKIVVEKRIEVRTLTLD
+AAMTETGLDFEAINMLTMDIQGAELMALRGATRILKNIEAIQTEINYDELYDGCPHISDL
+DAFLEPHGFLRIKTVTPYDKDWGDAVYVKKPMIINSTLGSMGRFANKAFQYMFLRTYAAE
+HGFEFANLPWEGDDMYYVHPGVETLPTVGRTVSQTKYGLDECNIANATEPLADTDLQGYF
+QYNMKYYAPYRAEIQAEFAHKGIYLEAEKALKAAFDALNGPVAVVHLRRGDFGTGVFFQT
+PNSWYVDWLRQLQADEPDLQVYIASDDPAAAGNDFDEFNLVSADQFDLPQVEHGFFYDFN
+ALRLGKFVAISNSTFSFLATALNRHAALTVRPDPQVGKLVPYSAWTSDPMIRSHTAEDLG
+EEYMSERAKSRTKYKMRQVVKRLGLKKP
+>tr|B7RHP0|B7RHP0_9RHOB
+MDKTIPSAAAAVAQIPDGAVVMIGGFGGAGAPIELIHALIDHGAKDLTVVNNNAGNGRIG
+IAAMIDAGLVAKMICSFPRSSDPRAFNEKYLAGEIELELVPQGTLAERIRAGGAGIPGFY
+TPTGVGTELAIGKPTCDFDGRTYLQERWLKADFALIKAEQADRHGNLTYNKTARNFSPLM
+CAAAQTTIVQASQIVEAGMIDPEHVITPGLFVDQIIEIPNPQQEELLIRAEAVYP
+>tr|B7RRV9|B7RRV9_9RHOB
+MDIKEISDQFYIAPQITEADFALLRDKGIRSIICNRPDGEDAGQPRFQDLSNKAQKQGIE
+MRHIPVSGGIFNDESVAEFSNALNILPKPILAYCRTGMRSAALWSLAKAQDMPLSEILSA
+TRNAGYDVKDVVRQATDRGKPTG
+>tr|B7RGT9|B7RGT9_9RHOB
+MAGQSAAVVSRTGGNPFLKAVAALSTVAGWFSAAMIVAAVLITCQMIFIRFVLNGSTIWQ
+TEAVIYLAISSTLVGLPYVQRLRGHVNVDLIPLTMGPKLRYNMAIFTLSLSIVMVAIMLW
+YGFEFWHLAFERNWKSDTVWGVRLWIPYASLPVGFALFFLQLIADLVAVILKIDKPFGLE
+DA
+>tr|B7RJF0|B7RJF0_9RHOB
+MTLDFWFFCIAGPAVLFAGISKGGFGSGAAFASASILALVIEPGMALGIMLPLLMLIDVS
+TLRPYWGKWGASEVKLLVAGGVPGVILGALLYKIASPDFFRLLIGGISVGFVIWQLGRST
+GWIAAGKRSLPSSAGLFWGAVAGFTSFVSHAGGPPAAVYLLSRNLSKTQYQATTVLLFWT
+LNAVKFVPYAFLGIFTMETMTADLLLAPFAIAGAWIGVKAHRLISQKVFFGITYLLLMVT
+GTKLIWDGLT
+>tr|B7RKQ5|B7RKQ5_9RHOB
+MALALLIGWVAGLATAEVCRDEAYQGNSFSTCEVDLNADTLGLFLYAPDGSPYGYFNTLN
+TALGAQGKKLGFAMNAGMYHEDRAPVGYYLENGKELQRVISAAGPGNFGLLPNGVLCLRN
+GRADVVETKKFLKASLDCTSATQSGPMLVIDGKLHPRFLKNGTSRYVRNGVGTTADGKRA
+VFAISKGVINFYDFAVYFRDRLKLPNALYFDGNISRLRAPELGRNDLGFSPLGPIIGVVT
+SK
+>tr|B7RN71|B7RN71_9RHOB
+MLALVELIVVGFVVLTIIYVGLSLYSRRVRRGKLRRKWQNGPRLVDMDSFVRRGLRKYDT
+SIRRKLILGVYIIPVCLVILIIYLTNFS
+>tr|B7RNC3|B7RNC3_9RHOB
+MKMTTEEAFVKTLQMHGIDNAFGIIGSAMMPISDIFPDAGITFWDCAHEGSAGMMADGFT
+RATGKMSMMIAQNGPGITNFVTAVKTAYWNHTPCLLVTPQAANKTIGQGGFQEMEQMNLF
+ADCVAYQEEVRDPSRIAETLNRVIMQAKRASAPAQINVPRDFWTQVIDIDLPEIVAFERP
+SGGEAAIAKAAALLSDAKFPVILNGAGVVLAQGGIEASKQLAERLSAPVCVGYQHNDAFP
+GGHPLFAGPLGYNGSKAGMELIAKADVVLALGTRLNPFSTLPGYGMDYWPKDAKIIQVDI
+NPDRIGLTKKVSVGIVGDATKVASALLTNLSETAGDEGREDRKATIGATKSKWAQQLSGM
+DHEDDDPGTTWNERARADKPDWMSPRMAWRAIQSALPANAIISSDIGNNCAIGNAYPSFD
+EGRKYLAPGLFGPCGYGLPAIVGAKIGCRNVPVVGFAGDGAFGISVNELTAIGRGEWPAV
+TQVVFRNYQWGAEKRNSTLWFDDNFVGTELDEQVSYAGIAQSCGLQGVVARTMDELTAAL
+NKAIDDQMNHGKTTLIEAMINQELGEPFRRDAMKKPVSVAGISKDDMRPQTV
+>tr|B7RII6|B7RII6_9RHOB
+MKHLTLMLILLAVPVHAEDAIPLGQLNPDEMTWQSQIDKVRRGQTDMTICASGYMMTKSG
+DHATARAIFEACARDGYTGAMTWMSQLDNNGLGGEYNPDAAAAWDRRAAEAGDPVGKFNY
+GLDLMRGHGVAQNDVLGRRYIDTAAAEGLEIAKRLQGAGYDLDEVTPDADDWKYAPLF
+>tr|B7RL42|B7RL42_9RHOB
+MATLNPLQFIQQVRSEVSKIVWPTRREVMLTTVMVFILAALTAVFFAVVDILIRGGLQYI
+LSAFG
+>tr|B7RLD7|B7RLD7_9RHOB
+MSGVRIGDARVLDARVLADVMGQANAQLDWLPRVYSGAEEIGTLGDMIDAGWVRVARLDQ
+QVLGFIALRGGEIHGLYLCPSVQGKGVARRLVDGAKAGRDELGLWSFQANVRAARFYRKA
+GFVEVARSDGTGNDFGLPDIRFEWKKGTT
+>tr|B7RMH4|B7RMH4_9RHOB
+MTDTPEDTAEASPKKSKMPLILSLVLALVGGGGGFYLSWSGLIMGDKPETDVAETDGPAP
+IGDFVYVPIDPLVISLRQPAQSKHLRFRAQMEVPSRYVADVEKLLPRVTDVLNGYLRAVK
+VEDLESPAILVRLRSQMLHRIEVVVGPDRVKDLLIMEFVFT
+>tr|B7RPD1|B7RPD1_9RHOB
+MTSAKSRKRLVGAVLVVAALGACGSQDTGRFTKSFFNPQEVPLETYSAEQIFERGEFELN
+RKRPAEAAEYFSEIERLYPYSEWAKRALIMQAFAFHQDQDYPNSRSAAQRFIDFFPDDDD
+AAYASYLLALSYYDQIDEVGRDQGLTFQALQSLRQVIENYPDSEYARAAVLKFDLAFDHL
+AGKEMEVGRYYLRRKHYTASINRFRVVVEDFQTTSHTAEALHRLVEAYLSLGLTNEAQTA
+GAILGYNYQSTEWYAASYALLTGKGLEMKSLGNNWLSAIYRQSIKGDWI
+>tr|B7RPI9|B7RPI9_9RHOB
+MAEALPGLDMSGAWDLPARLNMAAQCLGQDAGRTAIIDLTGDARRDVSYGALSAMADGLA
+RSLLPRVQAGDRVGVLLSQSPWCAAAHLAIWKIGAISVPLFKLFKHDALKSRVQDAGITL
+VLTDAEGRDLLGDLAEAWMAETAGISGDPVPFADTGPDDPAVLIYTSGTTGSPKGALHGH
+RVLTGHLPGVSLSHDVLGRPGDCLWTPADWAWIGGLFDVLMPALALGVPVVAARLPKFSP
+EDCARIIADGGVRNVFFPPTALRMLKAAGATIPGLRSVASGGEPLGAEMLAWGQTAFGLT
+INEFYGQTECNMVASSCGTSYPARPGCIGKAVPGHTLAVLTKDGVPTTDEGDVAVRRGSA
+AMMLGYWQRPDATAEKFKGDWMITGDRGIWEGEYLRFIGREDDVITSSGYRIGPAEIEDC
+LLTHPDVATCGVVGKPDALRTEIVKAYVVRKPGSTVDGATLQDWCKSRLASYSYPREITF
+LDALPMTVTGKVIRKDLKAIAIAEQTP
+>tr|B7RRM2|B7RRM2_9RHOB
+MTQTRERKGIILAGGSGTRLYPITISVSKQLLPIYDKPMIYYPLSVLMLGGIREIAVITT
+PQDAEQFKRALGDGSQWGVSLTYITQPSPDGLAQAYLLAEDFLDGAPSAMVLGDNIFFGH
+GLPKILAAADAQETGGTVFGYRVSDPERYGVVDFDETGQARQIIEKPAVPPSNYAVTGLY
+FLDNTASERAKTVMPSPRGELEITTLLETYLHDGLLNVQRMGRGYAWLDTGTHGSLLDAG
+NFVRTLEIRQGLQTGSPDEIAYNQGWISRDALEERAKLFAKNDYGVYLEGLMK
+>tr|B7RH76|B7RH76_9RHOB
+MTPGARVSAAIEILNAMAEGLPAEQAMTRWARSSRFAGSKDRAAVRDYVFDVLRQRRTAA
+YFGGGETGRALMIGLLRAQGADLETLFTGEGHAPQPLADAEQTVPDAPTDTATLWNLPDW
+IIPDFNESLGDQAEAVAFALQSRAPITLRVNLAQSNPGSVSAQLSDLGIDTRANPRAPSA
+LTVVEGERKIRNSPLYLEGKVELQDASSQAIVAAMPKAGRVLDYCAGGGGKALGIAMYPG
+TEVFAHDIDPRRMSDLPARAARAGCVIPQIETEDLPAKAPFDVVLCDAPCSGSGAWRRSA
+EGKWTLTAARLEELTHIQDSILDAAAELTTENGCLVYATCSVLKFENEDRIKAFLTRHPD
+WKSTFEQRFDVDEHGDGFYTTHLMRV
+>tr|B7RN08|B7RN08_9RHOB
+MYTPAITGSGIFTPDQVITNAELVTAFNAYADLYNAEHAEAIAAGAITPKDHSSEEFIVK
+ASGIEQRYVIDKTGILDPHVMHPLLRQRSDDEPSLMAEMALDAARKALADAGKTAADVDA
+VICAASNLERAYPAVAIEIQDLLEINGFAFDMNVACSSATFGIQAAADMVRSGSIRSALV
+VNPEICSAHLEWRDRDCHFIFGDVATAVLIERIEDAAGPCFEIKSTRCATQFSNNIRNNN
+GFLRRSRPDGVADRRDMQFMQNGRKVFKEVLPLVADHIAGHMADEGVQADDLKRLWLHQA
+NKSMNDFIGRKVLGRVPEPGEQPNILQDYANTSSAGSIIAFSKYSSDLKEGETGLICSFG
+AGYSVGSVLVERHD
+>tr|B7RKT3|B7RKT3_9RHOB
+MTDPAYFLYHSIGQYPGKAKDMAAALADFSGIWGVPDDAQWPKVLGQREEFLALWRRLID
+APDGTLTSAENVTTALFSILGGLPKDRLRGKRVLIAADCFPSLHFLLNGVADRMGFTLHT
+VPIRTGEFWVRTEDILDAWGHDVGLALLTFVTSTSSHRCDLTALLAHGRDMGSLVGIDLT
+QGIGIIPFSLDAHPADFVISTSLKWLCGTPGAGIIQMRQDLIEQVTPELRGWFSQDNPFS
+WDLDAFDYAPDARRFDHGTPSVMACLGSIPALKWHASQTGLLTHNRQLTDLIIQHADDTG
+LRIATPRDVAQRGGSVMVQLPGHIDTQTVVQDLRSRSIHVDCRGQILRLSPGAITTQTHV
+DALFKALKGLV
+>tr|B7RMK0|B7RMK0_9RHOB
+MFVHQNMPGQYRELVQWLADTGEHQIYFLTQRQKPPHFKGVETRIYQSHHKPAKDAYGLS
+RNWEESAGNGLGAARAAKMIEKTEGFRPDIVVGHIGWGELTFFKEVWKDVPIIGFFEYYY
+SDSGGPVGFDPEEPVSENTPFLLHARNAVPLANIETVDIGLSPTFWQRDRFPQSFHDKLY
+VCHDGIRTDQLKPNPDVQLKLGRLDRALTRDDEIVTYVTRNLERTRGFHVFMRALPKLLR
+ERPDARVLVLGGNDTSYGGKSKHPGGLRAEMEAEVGKDIDWSRVHFLGKLPYDDYQKVIQ
+ISRCHLYLTMPFVLSWSLLEAMSMEATIVASDVAPVREAITHGETGLLFDFFDPQALADQ
+VIDVLATPAKYAHLGPAAREHVVKTYDFMTKCLPEHIAQMNDLLPQDKRITLPLNRS
+>tr|B7RHC2|B7RHC2_9RHOB
+MSAAIRLSPILCNHAIPAVSAVSGVLKPWARSAALSPARVIDVS
+>tr|B7RJA7|B7RJA7_9RHOB
+MVCGTDPVTGFFRDGLCNTCAADQGSHTVCAVMTAEFLAFSKYVGNDLSTPRPEFGFVGL
+NPGDPWCLCAGRFLQAAEEGCGPKVHLEATHKRALDIVPLQVLLAHAITAGDA
+>tr|B7RJC6|B7RJC6_9RHOB
+MDTMPKWAEVVLVPLISLLLAAILSALVILGIGEDPVAAVKLMVTGALGSTYGWGYTLYY
+ATNFMFTGLCVAIAFHARLFNIGGEGQAMLGGLGVALACLYIPWPHWSLALIGATAMAAL
+FGAVWAAIPAFLQAKRGSHIVITTIMFNFIAAAVLNYILVNMMRPQGSMDPATARFPDAT
+KLPTLHDLLAPIGINFSKAAPANISLLVAMAACIFLWVLIWRTRLGYEIRAYGHSESAAK
+YAGISPVKITMIAMIISGALAGMMAINNVMGEAERLVLNATEGAGFIGIAVALMGRSHPL
+GVFLAAILFGFLYQGGAELALWTSIPRELIVVIQALVILFTGALDNMVRMPLEKIFLSVR
+AARAPKPKRKPVEPAE
+>tr|B7RLE2|B7RLE2_9RHOB
+MTDAPKGQQWKTLDTDLHRISRVEQAASYVGRPMVGLGIALAFIVMAALAAAVFLGHAPS
+NFVVIAAAAFGAYMAVNIGANDVANNMGPAVGAKALSMGWAIVIAAVCESAGALLAGGDV
+VSTIAKGIIDPASVADTRIFIWAMMAALISSALWVNLATWVGAPVSTTHSVVGGVMGAGI
+AAAGMAAVNWTSMGMIAASWIISPALGGLIAALFLALIKAKILYQDDKIAAARRWVPILI
+GVMAGVFATYLALKGLGKVIDIDMGRALLVGLGSGALAYAASRPYVVRTSEGMENRNKSV
+KLLFALPLIFSAALLSFAHGANDVANAVGPLAAIVHATEFGGVEAKVSIPMWVMVIGAFG
+ISFGLFLFGPKLIRMVGSQITKLNPMRAYCVALSAAITVIVASWLGLPVSSTHIAVGGVF
+GVGFYREWHMERRLRRPGAIVGRVNKIAVEERRRRKLVRRSHFMTILAAWVITVPAAATM
+SAVIYWVLTSLVS
+>tr|B7RQH6|B7RQH6_9RHOB
+MIEGRSDEQLQRLLDTIQNCVVEAFGVPETDRYQIVHEHKPGRMVFLDTGLGFERSDQMI
+SIQFFTSPRTHVEKIKVYKLLSENLQKECGLDPNDLLISVFTNREEDWSFAQGEAQYVTG
+ELP
+>tr|B7RPP1|B7RPP1_9RHOB
+MPPAHPFDSSYLRDADDGDKLKEECGVFGVVGVADASNFVALGLHALQHRGQEAGGIVSY
+DPEAGFQSARRFGYVRDNFTSQKIMETLPGELAIGHVRYSTSGNKGQTAIRDVQPFFGEF
+AMGGAAIAHNGNITNANALRRELIERGSIFQSSSDSECIIHLMARSLQRNIPERMEDALR
+RVEGAFSIVAMTRTKLIGVRDPLGVRPLVLGKVGDGWALSSETCALDIIGAELVREIEPG
+EMVVITARGVESHFPFRRVPSRFCIFEHVYFSRPDSIIGGRSVYETREAIGRELAKESPV
+DADLVCPVPDSGTPAAIGFSLESGIPYAMGIIRNQYMGRTFIEPTEQIRNMGVRLKLNVN
+RALIKGKRVILVDDSVVRGTTSRKIKEMILDAGAKEVHFRIASPPTAWPCFYGVDTPQRE
+KLLAATMSEEEMREHLQVDSLKFISIDGLYRAVGEAEGRNAKCPQYCDACFTGDYPVKPA
+DQINQGFQMKPAAE
+>tr|B7RJT0|B7RJT0_9RHOB
+MSFLTRTGKPLPKSILDSAEAAKIDPVNRREFLALASAFGATTATAYAMIGMPAPAHAAA
+HKEGGTVRMQMEVRALKDPRTYDWSQIANFSRGWLEYLAIWENDGTFSPALLESWEINDD
+ATEYVLNVRQGVTWNDGTAFTAADVARNIEGWCDKSVEGNSMAGRFATLIDDESGKAIEG
+SIEVVDDHTVKLTLPRPDITLIPGMADYPAAIVPEGFDAETMLDNPVGTGPYLPESLEVG
+VKSVLVKNPDHTWWGTAVYGGPYIDRLEYIDYGTDPSAFVAAAEADEIDATYSIEGEFID
+VFSTLDGWNENSIASAATIVIRPNQLAEVDGKKPYADARVRQAIAMAVDNEVLLELGYAG
+RGIVAENHHVGPMHPEYAELPPRKVDPAAAKALMDEAGMGDYEHELFSIDDAWRKDTTDA
+VAAQLRDAGIKVKRTILPGSTFWNDWTKYPFSSTNWNARPLGVQIWALAYRSGEAWNEFG
+WSNPEFDALLTKALSVADVEARRALMAEGEALIQSEGVTIQPYWRSLYNHTKEGLVGAGH
+HIGFEYHPARMAWTM
+>tr|B7RIQ6|B7RIQ6_9RHOB
+MQVLRLLERFEMEVLHNAVKDALQMGAISFDAIKHLVLCRVERRQPRLDLDLYPFLPRTH
+VATTSAASYMSLLDGGGA
+>tr|B7RK96|B7RK96_9RHOB
+MNVLIVVTHLLGTGHLARALNLARAYGAAGHDATVISGGMQAPQLNSDGVTVLQLPPLRS
+DGIDFARLLDQDGALAGPEVYDARRAMLMDYLQDLQPDVLITELFPFGRRTLKAEFTALL
+EAAHDLPQRPLICASVRDILAPPSKPAKAALADDLIARFYDAVLVHSDADITPLSLSWPV
+SDAVQAKLRYTGFVAPPPAGPHPHGLGDGEIIVSAGGGDVGAHVFDTCRAAAARDPDRRW
+RLLLGGQNAAAPCDALMLTAPANVVIEPARPEFRQMLYHAAASVSLCGYNTALDVLQSGV
+RAVFVPFDAGNEVEQGLRADALAQMPGIGVLRNADLTPDSLLATLKTVLASPDRAARSAG
+LDGAAMTVTLTDEMRSELLRGTKA
+>tr|B7RLK8|B7RLK8_9RHOB
+MTRHTSFWDRRRAAVRAEEETALRAAEAQVEAEEQAALAEKTDAELLAEFDLPDPDTLKA
+GDDFTAFMSRAIPEHLRRRALRKLWVSNPVLACLDDLVDYADDYTQASAVTDFTTSYQVG
+QGLRRHVEDIAKKALALTEQESLQEDAPVVAEEPQAMADATPDTAQQDAPDTAAAPDTQD
+APIVTPRRMAFRFEEHST
+>tr|B7RNK1|B7RNK1_9RHOB
+MQIESNLPTVIDVEARLDQIARRYKGAGGVGINVLNVIGGSAEGLIDKLPNAVRNNLEAA
+TVKALGQAMKAATSTRSMVPDQKSWLNQAVSAAMGAAGGAGGLPTALAELPVTTTLLLRV
+IQGVAVEHGFDPHAENVQFDCIQVFSASGPLSDDDGADLGFLSARIAISGRAMQAVIAKV
+APRLAVVLGQKLAAQAVPVLGAVAGAATNYAYTSYYEDMAHVHFGLRKLAIDADVPQDEL
+VERLRLKVGHTRVS
+>tr|B7RNV6|B7RNV6_9RHOB
+MRDNNDRPAPDFTHACIVMFGVNIMWIFIVIWITWGMLAVALCGWAVKVFIDRIAQRRR
+>tr|B7RQW7|B7RQW7_9RHOB
+MTQTGGRYPGWHPGIELRDDWLGLVDEPIIDPDREIVDPHHHLWRHGTDENPAVYEMDAL
+WRDTASGHNVVQTMYIECRSYWDLEAPAHLQSVAETREVTRMAATAGEGQAKIAGIIGQT
+ELVLDPALLHEALDAHEEAGQGLFKGIRNSGARDPEPASLAIPGRGVPNQYGDPDFRRGA
+AILGERGLTLDSWHYHHQHQEFLDLARAVPGTTLILDHFGTPLGVGRFEGKRDEIFKVWK
+EHMAELAECANVMAKLGGLCMPDNGFGYMHRDTPPSSDEIVEVQGKWYAHMLEVFGPSRC
+MFESNFPVDRTAVSYPVIWNAFKKMSADLTEGEKTAVFSDTARRVYNLPPA
+>tr|B7RGA6|B7RGA6_9RHOB
+MSDSATNPESPDVVGDATYRVTANELRQFIERIERLDSEKKDLAEQQKEVMAEAKSRGYD
+TKVIRKVIALRKRDKDDIAEEEAVLEMYKEALGM
+>tr|B7RPR1|B7RPR1_9RHOB
+MTDTILDKIKAYKLDEIAADKAAKPLETVEAEARAASPVRPFADALFDAAREGYGLIAEI
+KKASPSKGLIRADFDPAALAEAYAAGGATCLSVLTDTPSFQGSKDYLVAAREACTLPVLR
+KDFMYDTYQVAEARALGADCILIIMASVSDAQALELEEAAADWGMDALIEVHDKAELDRA
+GALKSRLIGINNRNLKTFETSLDTTRTLSKHVDEKKMIVSESGLNTPEDLADMARYGARV
+FLIGESLMRQDDVEAATRSLLANPLRPGGL
+>tr|B7RQU9|B7RQU9_9RHOB
+MSALKDAVAHSETLIGTEVGVSNWITVDQEMIDQFAKTTHDLQWIHIDPERAAAETPFGG
+TIAHGFLTLSLASRFAYDCFSMMPGQVMGINYGMNKLRFLKPVKAGSRLRGRFTLQKVTA
+RNATDMLRENLLTIEIEGEETPALIAEWLGLAVFKD
+>tr|B7RSG5|B7RSG5_9RHOB
+MKITYILGAAATTLTLAATTAEAIDVGPGDYTILPGGTTLGMLYWQQLSSDKLKVNGQEV
+PGSEFNADIAILRSLNYFNLGDMPAAFHVVTPFASIDTANIGTVVQQTSDGIGDTTLGLT
+VWPVQPDNPETGTTLGVSLFATLPSGDYDPARLGIGEGTFTITPQVGLIQGLGGGFYFDG
+VLDVALQRDHDEGGVTYERDPAWQIQAMLRKQWGPATSLAIGYSGQRGGAQSIGGIETGL
+KAHRDQVRVYGTHFITPTTQIQAMYGKDFNVEGGFEYDSVLQLRLVKVF
+>tr|B7RJ83|B7RJ83_9RHOB
+MTVFNRRQALATLGAATAVGLAAPAIAQGKKITLGALRFTSHSGTFVAVQREYFKQAGLD
+VELKFFQAAQPMAVAIASGDVDYAVTAISGGLVSLADKGAIKVIGGALSEEPGIDGQKFL
+ASDAAFQAGVTAPGMLDGKSFGMTTAGSSFHYMGSKMAQAEGISMSFKPLQKVGAIIGAL
+KTGQIDAWSIVPHIAKPLAGSGAVHIIGNVSDYLPDYQVTTVFTSTKNATEEKQQTQDYL
+AAYSKGVADYNAAMIAKSGSDDGMAEMVKLIHNYVYTDKSLEDATPGIVNGTMRLNEGAA
+MNVGSVRDQLEWFQSEGLVDSDIALDALIDTSFVETIGA
+>tr|B7RJK7|B7RJK7_9RHOB
+MSHIFPRHTRNLPPVAVSGEGCYLTDASGKQYLDASGGAAVSCLGHGDTAVIDAIKHQLD
+QLAYAHTGFFTSEPAETLADLLIEHAPGDLDRVYLVSGGSEAVEAALKLARQYHVERGEP
+QRGRIIARKQSYHGNTIGALSAGGNEWRRAQFAPLLLDISHIDPCYEYRLKHDGETPEEY
+GLRAANLLEEELLRVGPETVMAFIAEPVVGATSGALTAAPGYFKRIREICDQYGVLLILD
+EVMCGMGRTGALFACSQEGVSPDILCIAKGLGGGYQPIGAMLCTAEIYQTIADGTGFFQH
+GHTYVGHPTAAAAGVAVVSAVLERDLLSNVQRQGDRLRAALNTAFGQHPNVGDIRGRGLF
+MGVEMVANRETKEPFDPSRGIAAKIKKHAFENGLICYPMSGTIDGKTGDHVLLAPPFIIS
+DAQIDELVEKLGKSITQALQ
+>tr|B7RLD8|B7RLD8_9RHOB
+MVLSKIADGIWRQVENVQDGVSEVFFEPVIRLGVTGLARSGKTVFITSLVANLLDRGRMP
+GLLAASEGRIEAAFLQPQPDDTVPRFEYENHLAALTGPTPRWPDSTRAISELRLSLRVRP
+KGLLAGFQGPRSVHLDIVDYPGEWLLDLALMDVDYAEWSAQVLKRIENREEAAGYRALVA
+DTDPTAALDEPTAQTLATSFAGYLQTARANGYSDCTPGRFLLPGDLAGSPVLTFAPLPGG
+DGARGSLLREMARRFEAYKRKVVQPFFRDHFAKIDRQVVLVDALGAINQGPRAVEDLRGA
+MSEILSSFKPGRNGFLTNILRGKRVEKILFAATKADHLHHSQHPSLTAIMEALTREARDR
+ARFAGAATSAMSLASLRATTEATMPHNGEPLDVVRGSLLETGKEAAFYPGELPKDPAHLL
+SPARAGAVKWLDQDYKIMRFAPARLNLRPGDGPPHIRLDKAAEFLIGDRL
+>tr|B7RJK9|B7RJK9_9RHOB
+MTTTVLKNISEIRRFFHRNEDPIYFISATNFNLLGLDEWVKNFKYICYIDCYGGKHPNVF
+CPSEQPHAEFQSIEDINNYLLQHKEVIDFIKRRGGKPKFVFLMFDEETERLSKELGADVW
+FPKAKLRQKMDNKIETVRIGNKAGVPSVPNVLAEVKDYEDLKKTCEKAGIGHDLVLQSAF
+GDSGHTTFFIKSEADFRRHESEIVGEGEIKIMKRIDCRGSAIEACATSQGTIVGPLMTEL
+VGFKDLTPYRGGWCGNEILSTAFPPKVRQKARELTFKFGEQLRKEGYRGYFELDFLIDKK
+TGDIWLGELNPRITGASSMTNHAAFAHADAPLFLFHLLEFSKKKFKLDTSELNNRWADPD
+MIDSWSQMVIKHTEDSVDICTEAPETGIYKMLEDGRVVFDRFDYHRRAVESENEAFFLRI
+LQPGDYRYEGADIGILVTRGRSMTKSFQLNERAKKWIHGIKQSVNGRPLPVAEAGPAMSD
+PAFKIL
+>tr|B7RQS8|B7RQS8_9RHOB
+MLGRHFARIGGALEDDDHVTKDIFIGGGGQDYGTQQFLNIGYANRHGLIAGATGTGKTVT
+LQILAEGFSAAGVPVFLSDVKGDLSGLAVAGSDTHKLHGPFMERAAKIGFDDFTYAAFPV
+AFWDMFGKQGHPVRTTISEMGPLLLGQLLGLSEAQEGILNIAFRVADEDGLPLLDLKDLQ
+SLLVWVGENASTLALRYGNVSAASVGTIQRRLLVLENQGAADLFGEPALALGDLMRTDTD
+GRGFINILAADQLMSSPKLYATFLLWLLSELFEELPEVGDPDKPKLVFFFDEAHLLYDDA
+PKALIDKVEQVARLIRSKGVGVYFITQNPADVPDDILGQLGNRIQHALRAFTAKDRKELR
+LAAQTYRENPRFDTEEAIREVGVGEAVTSMLQKKGVPGVVERTLIRPPSSQLGPIAPATR
+AALMAQSPMAGKYDTRLDRDSAYEMLKQRAEDAAKAAAQAEEDAEKADDTTPALREFNAA
+RRYAGKGVKRSTSKHTEKSDDSFGGALASVVIKELKGTTGRRIVRGILGGLFKGR
+>tr|B7RJ09|B7RJ09_9RHOB
+MRLTIKIKLAATFFVVLALAAAGQIMAIRDMGRLNHAISEIVEGSAERVQLTGVLVTQQL
+KVQRDIREYLLTTTPAQRREIANRTAALREEAQATFLTLYEIASPEGRVKLDELETSRNA
+IGAINDRAVEMSEAGNRDGGIRLLSTEGFEAWKSVETTLNEIVEMNDQMQTKTAAETDVL
+YTTSRTNLIVLLTIAIIVGVSAAAWIVMSISRGLNRAGQLMLAVAEGDLTQTAKLRGNDE
+LTDLMRTLNTMITRLLDVVTNVTSAARNVASGSEEMSSTAEQLSQGATEQASSTEEASAS
+MEQMAANINQSAQNALDTEQMARKSAADARESGAAVAKAVEAMQTIAERIMVVQEIARQT
+DLLALNAAVEAARAGEHGRGFAVVASEVRKLAERSQSAAGEISQLSGNTVRAAQAAGEML
+DGLVPDIEKTSALVAEISNASQETAAGATQVNTAIQQLDKVTQENTSASEEMSSTAEELA
+SQAEQLQSAIAFFKMEQSNTGAPLARTSPARKPARVPKAASGGFDFDMGSSEDALDQEFL
+AGSKSGRAA
+>tr|B7RLK4|B7RLK4_9RHOB
+MTRDAVLACLKTLNDPVSGKDIVELGLVKALTVDEGAVRFVLEVNPSHADAYAALRDQAD
+AAVKALDGVKTVSAVLTAHSKQAAPPDLKMGRKSEPTGPEKIPGVDRILAIASGKGGVGK
+STVAANLACALAAEGRRVGMLDADVYGPSQPRMLGVSGRPASPDGKTILPMRNFGVTMMS
+IGLMTNDDQAVVWRGPMLMGALQQMMMQVQWGALDVLIVDLPPGTGDVQMTLAQKAQVDG
+AIIVSTPQDVALLDARKGIDMFNQLKTPIIGMIENMSTHICSNCGHEEHVFGHGGVAAEA
+AKLGVPLLAEIPLHLDIRVAADGGAPIVVSKPDSPQAEAFRTVAKALVAGGHA
+>tr|B7RH77|B7RH77_9RHOB
+MLFHDENGLKIRGHLQFGLNAVTEDNLFWDLAATTAPAGGFDPDTAWLEGYIKPGISFEY
+QLDAGAVFYGKLSAVASYTWGKDAFDTGDTGTLTLEEAYLAMRGDLGSGLSYDLSLGPRE
+LTLGTGMLIANGATSGFERGALKLGPRKAWERAAIGRLSSANVTGTAFYLDPNELPSTDG
+QNALAGFDLRYDAPQGGYLGATYVDVVSSNSPYPQAAPGGVGPPAVTPGARQDTRTMNLY
+ASTNLFAEALENWVFTGDFAYQWNDRIDMKARAGRVTAGYTFAHLPSTPKLTFGYQTFSG
+DDPNTTTLERFDPLYYQGSPSAWATGSKSASTFINSNVNALTLALRLQPTRQDTWTLRYA
+HIRANELNSPVQFGQATRVDVNGNVVSGVTNAHLADDLFLEYSRIINRNTFLTAGVSVSF
+PGKAIDNVIGRSAAPWTGGFVNVVFNF
+>tr|B7RIZ6|B7RIZ6_9RHOB
+MSDTVREKASQSVALVDEVTTFVLPQPAPADAVIALDKADAPMSAEIKSRMAEIDMEDTQ
+SIIGFGSAAQAELQEISQAMLQDVRNKDVGPAGDSLRDIVTTIRGFSVSELDVRRERSWW
+ERLLGRAAPFAQFTAKFEKVQAQIDHVTGELLNHEHTLLKDIKSLDMLYEKTLQFYDELA
+LYIAAGEAKLADLDTTSIPTKDAAVAAAPEDDQVILAQELRDMRAARDDLERRVHDLKLT
+RQVTMQSLPSIRLVQENDKSLVTKINSTLVNTVPLWETQLAQAVTIQRSAEAAVAVREAN
+DLTNELLTSNAKNLRESNKIIRTEMERGVFDIEAVKQANADLIGTIEESLQIADEGKARR
+ALAEKDLQEMEGKLRDTLAAASAPKTAATAS
+>tr|B7RMT9|B7RMT9_9RHOB
+MCNRIEPRTDSPKGVQHMTQLKTTCPVLPVTTIQDIREIEAQPYDIHVTARNLYDLFRAT
+ALHGGTRKALTVLRSGDPDDVGVSLSHAEMLQAVTGAANLFRSLGLGPQKGGAAFLAPTV
+PALLLGAQVAGVASTINYLLSAEAIIDLLNAQAATILVIPAAYLDQTCWDKGNSIRQAVP
+TLQHVLVIGATEQADGLTPLDAVLRPCRTDELSFTPTDDPDAVSALFHTGGTTGSPKLVP
+LTHGNQIHAAFGFGQVFGYDDTDVVINGFPFFHVGGTMTVGLSVLAAGGHLVVPSPCALR
+PAEVIQSYWHLVEAFSATVVSGVPTSIAALTTAWAEGRDVSSVRMAVTGGAVLPAAVAKR
+FQDVTGVPLFETYGMTETAAAIAFNPGRGTAVLGNVGLRAPYSETRIVQVDDMQTVCTPT
+KSGLVQVRGPQVFPGYVDAAHNIGVLDGDGWLTTGDIGYLTADETLVLTGREKDLIVRSG
+HNIDPSAIEDVANRFPDVQISAAVGLPDQYAGEVPILFVVPNPAATIDVTALAAMLEAEL
+HEPPARPRRIMVIDAFPVTAVGKIFKPALRARAIVEKLRTEVAHHCGDSVSLDATVGTDA
+QQRVQVDAVLTGATPAQIAALQAALAPLPQAYRLTRADPCVRLDVSDGVALLTLDRPDSL
+NAASRALMHSLDARLHQIKAIPDLRVVILTGAGRAFCAGGDLIEFDQERAAGTLIDTLAY
+NQRVISMIEALEVPVIGAANGIAVAGGLEMLLCCDILLAASTARLGDGHAKFGILPAGGA
+TVRLGERIGPTRAAQLFFTAGMIDAPTAQAWGLVNEVVPADQLLERARELAGEIAACSPQ
+AVRRIKRLSRADVISPGRDARLAAEISEFAQHMAGTDLQEGLQAFREKRLPKYTKG
+>tr|B7RQP8|B7RQP8_9RHOB
+MTMAVVTTPVQTLIETERFDLRPVRLSDLGLIQHYAGDPRVAMNTVSIPHPLPPGVIEAY
+IKRATAEPRTEDVWVMDGLKSGGAEVMGVISLVKMDRDQCEVGYWVAPAFWNTHLASEAV
+HAIVQANPLGNQNMFASVFRDNPASAKVLTNAGFRYLGNAETYCLARETCVPTWTYSIKL
+>tr|B7RS89|B7RS89_9RHOB
+MSVLRIGAGAGFSGDRIAPAVELAEKGNLDFLVFECLAERTIALAQQARLKDPAAGFDPM
+LERRMRAVLPISARNGTRIVSNMGAANPLAAARLVRKVAQDLGLHHLKIAAVTGDDVLNV
+VGPFKLDETGATASSMGDRLISANAYIGIAPIVAALDAGADVVICGRASDPALFLAPLVH
+HFGWPMDDWTRLGRGTLVGHLLECSAQVTGGYFADPGVKDVPDLARIGFPLAEVAEDGNA
+VITKVAGTGGCVTRATCTEQLLYEIHDPENYIQPDVVADFSRVSIEQIGPDRVAVSGADG
+RAATGYFKISVGYRDGWKADGQITYAGANNIARAKLAADLVLQRLADAGIALTESRYDLI
+GYDSVPRAVTAENMAQPHEVRMRFAARCRTSEIANQVVDEVEGLYLCGPAGGGGVTRSVR
+EIIAIASTLMPSKDVQTSFEMLETQDAVA
+>tr|B7RLN8|B7RLN8_9RHOB
+MATIHQESKFIADARTPFRYVIGVIPMGRQSSAFGYGQALDATWDEYLSETGKRSAKRDR
+IRDASDFMGWYMTKSRAKNGIALHDARNQYLAYHEGNTGFSRQSYNGKPWLVTVASKVQQ
+RADMYQGQIAGCRLSRW
+>tr|B7RQT6|B7RQT6_9RHOB
+MRGVGWARAAVPQTLGQTTQARSAALDAKHHEFNPDGTPMIAYLGLFSAAFIAATFLPMQ
+SEALLVALMLNNQHSLTILLLVATVGNVLGSVVNWILGRVALRFKHKRWFPATDAQMARA
+ENWYRRYGRWSLMASWLPIVGDGLTVIAGVLREPLWSFMAIITIAKGLRYLALAVLTLAW
+FPPA
+>tr|B7RR02|B7RR02_9RHOB
+MEDRALIPTVILQTVWAAKADTLDMLPRVDQETRAYAITPE
+>tr|B7RFW5|B7RFW5_9RHOB
+MLAIVAFVESSVFPIPPDVLMIPMILARPSRAWLIAGVALIASVLGGLLGYAIGALAFES
+LGAPILAAMGKADAMAEFSTRFNDFGFWAVLVAGITPFPYKVITIMSGWTGMPLVTFIAT
+SILARALRFFIVAALLWKFGPPIREFIEKRLPLVFTACVILLLGGFFFVRYI
+>tr|B7RGA0|B7RGA0_9RHOB
+MTATSDLLTGGHPDTATTGKIDGSEVVLRCLQRIVGASLIVAAASLWVGSGVNLDADVVI
+MKVGLSALCCTMGYLVALSSLKTAQPDIEIDPARREVRVVHRGMPDFGRPASVGKGRLIQ
+RCCFSDLNRVERSGRTLSFWDAQGQFIADVHVGDQRALDKLVSGLREAGQTV
+>tr|B7RIH9|B7RIH9_9RHOB
+MAAGQLSISGARVTDKNTLLSDVPFIPRGVRLHFDKVRDLWVLLAPERTIKLDPIGLAIL
+REIDGTSTLSQIAENLSARYNAPVGEITSDISEFISGLMDRRILEVRA
+>tr|B7RNS1|B7RNS1_9RHOB
+MSGNCIEAFIALSDKYRIVAILDDSAQYKGTSFEGVPILPLSSADDFPHAQFLLLIGSPS
+SFRARADIVHRLGLPLDRFVCFEHPSASVSRFAQLGCGTVLYDGVLVTSNGQIGDHVLIL
+PHSIVHHDVSIGNFSLIGAGVILAGGTRIGNGCYIGSGSAISGVTVGDGALVGLGSVVVR
+DVPAGAVVAGNPARVLPQSPA
+>tr|B7RQ37|B7RQ37_9RHOB
+MKWPKPPSDLMTTALTVCVGTLGALLGWAVGAPIYLLVGPAVLVSLAGLAGLKMGISLSL
+RNACFVVIGLAVGAGFDRSALDAMIRWPLAFVVVLVMIWVMMVFSRWLLSRFFGFDRRSA
+LLAAAPGHLSFVLAMAAEAGDNVVRVSTTQSVRLLSLTLVVPFVALSMGVDLGGSIVPQG
+ALMGAGLTVVLLALGVGAGLLLGRLNVPAPMLIGPMLVSSLGHLTETAPGVLPMWLVLPA
+YLVLGALIGTRFSGVSMDDLSKGLAAGLAVTGVAVGLALLAAVPVTLALGAPLAHVLVAF
+APGGFETMIAMGAVLGVVPGFIAACHMMRIFVLSVLLPVMLARSGPR
+>tr|B7RRV8|B7RRV8_9RHOB
+MENNMKRRTILYVMTADTPDSQISDAAEAAAADDNRLLCLILGAAPVLPVYAYGVAPYGG
+MNIPDNWPEMVAEAKQAQQDRVQEVEALLARSNTSGDVQSALCVSVDFKHHVSQVARVAD
+EAYFADNLSDTPEILRESAAGILFHSPIGFRLNGSPSHSAKQIFVAWDSSNAAAASVHAA
+LPLLKEAQEVVIGCIDPVMTAERDGQDPGTDVAAWLSHHGCKVTVSQFPSGGLDVGQCIQ
+DRAKEVGADLVVMGAYGHARMIQTVLGGTTRSMIEQKALPVFLAH
+>tr|B7RS71|B7RS71_9RHOB
+MLQILVRGFWRLYRPFLLPRVRRPVVEKVDGFSFVVIPTVFNPVVFRAGVMLGRAAGRIT
+LEADERDKTMLDMGCGTGIVGAFAARNGFRVTSVDINPDAVRVAKANALLNDQTDRITVL
+EGDLFAPVTSQSFDLVCFGPPYFKGPPKGDPLSQAFWSEGLIERFCHALHNHLNPNGRAL
+VHLSTDGDNEGFLQFAHDAGFDISVFARKNYLNEIMSVYELRLPRATVA
+>tr|B7RKI7|B7RKI7_9RHOB
+MQVSVRDNNVDQALRALKKKLQREGVFREMKLKEQFEKPSEKKAREKAEAIRRARKLARK
+KLEREA
+>tr|B7RP62|B7RP62_9RHOB
+MTPQMLAFLNTGGPALWAIAVLSVLVLAIVLWKLWRLMLIGAWSRSGAEALLAGQSGAPK
+GLRARFVAEVFAARRLPDALAREEVMRIAARVLSQLRSGLRPLELIVTIAPLIGLLGTVL
+GMIEAFQALETTGGQADPSVLAGGIWEALLTTAAGMGVAIPAAVALSWFEAIADTVQGDL
+EDIATRIFTQGPQG
+>tr|B7RJ21|B7RJ21_9RHOB
+MDVFETACRRASAYRSEVAGKPVKPQLDYLQMLARFGVPLPEAGMPDCDVIDELADLGEA
+GLMPVTHPRFFGWVMGASAPVSVAADWMVAAWGQNAAMHSASPTAAAVEETAARWLLEIF
+DLPREAAVGFVTGATLGSFVALSAARGSLLRRVGWDCEADGLFGAPQVHVFVSDDVHASV
+LSALRYLGFGERRVIRVDTDDQGRMSADDLARRCAACDGPKLIIAQAGQINTGAFDPFDQ
+VAQVARANDAWLHVDAAFGLWARVAPDLHPLTKGIELADSWVVDGHKWLQVPFDTGYAIV
+RDPEALERSMAITASYLPAKKANHRSPSQLVPELSRRGRGVPTWAALKSLGRSGVIEMVS
+RHCRLARQIAAELAQVPGILVMNDVVLNQVILRFGKQSDGAEWRKVLAEAVIDRVIEDGH
+IFVAGGAWRGEWVMRISVISGPISTEDAYITTNAIRSAWSHVSAIQRDDAAG
+>tr|B7RKX6|B7RKX6_9RHOB
+MIWNLGSINADNFYYLRHLPAPGETIVAEDFRQGLGGKGANMSVAAARAGTRVMHIGAVG
+PDGKWAVERLLEYGVETQHITMVNTATGHANICVAEDGENSIVIFAGANHEVSDRMIGAA
+LSEASPGDFLLMQNETLGQEFAAPTAKTLGMRVAFAAAPFEPEVVAEAMAYIDLLVLNEG
+EADELVKALDRPLDSLPIDDIVVTLGADGCKWVSNKAKTTKDFPAYPVTAIDTTGAGDTF
+TGYLVAALDRRLAMEDAIKLAMQAAALMVTRQGTADVIPDLKDIQDHNFD
+>tr|B7RRZ0|B7RRZ0_9RHOB
+MKKLLTTVAILWTGAAQAEGELQLFNWGDYTSPELLTKFEEETGIKVTVTDYDSNDTALA
+KVEAGGHGYDLVVPSANYIPIWREKGLIAELDMSKLPNHGNIAKQWVDVPFDPGRKFSVP
+WQIGATGIAVNSDAYSGDINTSAIFLDTPEELKGKVNVTPEMNDIMSLALWYVGGEPCSE
+NPEELKAARDALIAAKPNWQSMDYGMTEKLAANDTMASVYWNGAVFRANLKNDKVQFGYP
+KEGYPLFMDSVALLSDAQNVDEAYKFIDFIMVPENAALISGYARYANGIEGSEEFMDEVM
+KTSPMVNIPPELAEAGEFLPTCSAKSLEYYTAIWTELQK
+>tr|B7RK03|B7RK03_9RHOB
+MSDPDYGVLLDDEIRAYMKRSDEFYPPDAVGLTIEDQRAVYNKMCAAFHQPHPDGVQTWD
+APFGGVPCRRYEVVASDVTVVYYHGGGFVVGGLESHDDVCAEICARTGYRVISVDYGLAP
+EVVFPGCFNDAYSAFENIAKTYSGDIVLAGDSAGGNLAAAVAHHARGRVDGRIKGQLLIY
+PGLGGDRTQGSYLRHANAPQLTVADMEFYQQVRSGGEPPKDDPRYAPLQDTDFAGLPPSV
+MITAECDPLSSDGEAYRDAILAACGQAVWVEEAGLVHGCLRARVMSRRAAAFFDRVVDAI
+SRLGAGEWPATRP
+>tr|B7RLI8|B7RLI8_9RHOB
+MPALIPTDHYAIITWLGIVPDRAAALKAQSRESLNLSFAGPEGEDHGGLTRPSCSRVLSQ
+HPRDTVIRNTRQMCVMSAEEIAAIAAGMGIASLDPVYMGATMVIEGISDFTHVPPSSRLQ
+GPSGATIVIDMENRPCTLPSREIEADMPGLGKAFKPAAKDRRGVTAWIEREGILQVGDRL
+RLHVPDQRAWAPSMI
+>tr|B7RLU4|B7RLU4_9RHOB
+MGLLRHKLVRFAIVGGGTALAYVLLYLMFLAMGVAQVSANGIAFLLAVLLQYAGQAAFTF
+GQPLKDRSQISRFCVMVGLGFANSAVITGPIAMMSGLSAWAAAAIVMVVLPVQNYIFMTL
+WVFASPISKTEIRT
+>tr|B7RGS5|B7RGS5_9RHOB
+MLMPAEGFSFTKGTPRQFTRSDLDNPVTREFCGDCGTHVLTRLPSRPFIVLKVGSLDDPT
+AYGGPQMAIWTQDQQPFHLIADGMPSVPQRPQG
+>tr|B7RKH6|B7RKH6_9RHOB
+MQDTTEGRVMNDNWAVATGHPIATGAATRILKSGGNAVDAGVAAGIALGVVQPDLVSFAG
+VAPIILYRADDGRVVSLDGVGVWPRAADVATMQRDHGDHVPEGLLRTVVPAAPASWIKAL
+TDHGTLGFADVSAEALKAARDGFEVYPLFADFVASRAEKYARFPSTAAIFLPGGRPPQVG
+ETFRQTDLAATLQSLIDAEAEARAAGGDRLEGLVAARAAFYTGPIANRILAFHAANGGLL
+RADDLADYEVREERTYAVPFRGTEIHCCGAWCQGISMAETLAMLELAGPQAVQQDGQIDL
+HFLLEVLKRAFADREAYVTDPRFMKIAPEDLLAPEFLAARLASIGETSDPLPAPAVPDTP
+PSGEAAVFEVGCADTSHVSVIDADGNIFSATPSDPSYDTVVIPGTGLSVSSRGSQSRAIP
+GHLNALAPGKRPRLTPNPILGLKNGKPWMAMGTPGGDVQVQAMAQVLINLLDLNMTPEEA
+VNAPRVSTYAFPGSFAPHDVHPNKVLFEADLPPHQVESLTARGHDLASWPARTWMAGGIC
+VALRETSGVTAIADPRRAGTAETGEAS
+>tr|B7RLY8|B7RLY8_9RHOB
+MSWNPTLEPNCPGIDDVDAIETLIVPRARDIGDFEVRRALPSAKRQMVGPFVFFDQMGPA
+EFITEQGIDVRPHPHIGLATVTYLYKGEFQHQDSLGTNQMIYPGEVNWMIAGNGVTHSER
+TSAQTRKGPSSLFGIQTWVALPEEAEDMNADFEHHKEEALPFIESEGKQVRLIVGNAWGE
+RAPTRTFTEMFYADAILKAGAMLPLPDNHEDRGIYVTGGSIEVAGDVFQSGQMMVFRPGD
+AITVKAGPAGARLMLLGGETLNGPRHIWWNFVASSKEKIEAAKEAWAAGDWEHGRFQLPP
+TDKDEFIPLPD
+>tr|B7RNT6|B7RNT6_9RHOB
+MSQKKTLKGTAEKSRDMMSTQKDIVATYHGIEVLNAPHLGSTMINNMNEGSYERREVQSA
+LHFIKKGDRVVEMGAGAGVVGAIAAKNCAPAKIVSFEANHKLIPHVKELYKHNKIQSKIE
+VRNKIVLSEPTPPKSVEFFIRGNFLGSGMTITKGQDRAEKVSVPVASWDEIKKKVKPTVL
+LMDIEGAELEFFRHADLSGIRVIIAELHRHIYHRPGMREIRDGIAAKGFVEDRDASGGGV
+FVFTAVPEQTKETGGTDLDQSA
+>tr|B7RH96|B7RH96_9RHOB
+MADLARQINVPTLVLHAEGDQIAPLEEGRRMAARIPGARFIALEGNNHALVEGSPAFKTF
+FREVDAFLAELER
+>tr|B7RQX9|B7RQX9_9RHOB
+MPRNLRYHTSSTKLHHQLWEETMNRRSLIKAVAAGVVASGMFAGTTASAETTTLRLHQFL
+PPVATVPKHILKPWAERVEAASNGSLKIEHFDGMALGGRPPELIDQAIDGVVDMSMTVVG
+YTPGRYPKTEVFELPFMMTDPVATSKAFWQLVEDDLQAGEYKDLKVLGAWVHGPGVIHTK
+EPVTKLEDLAGKKLRGPTRVINDMLSELGATPVGLPLPGIPEALSKGVVEGTVIPWEVTP
+SIRLAELVSNHTEFTGPEALYTATIVLVMNKDKYESLTDEQKAAIDQESGAALSEFAAQV
+MFDYDAPGREIAVKNGNNIIELDATEVARFKEAAQPVIQRWVAEAEGKGFDGQALIDQAK
+ALIKSKSDM
+>tr|B7RR66|B7RR66_9RHOB
+MDNSVSKRAQSGTALVPKWMPAVVDIAPRHKHQNMDRAIRAAVARVTGGISPHSVQAAWS
+DWALHLSRSPGRQLELAERAQINIFKTMTYSARALAGEDTTAPFTPKDYDHRFVDPSWGK
+APFNIWQQSFLAVQDWWDEATDNMRGLHKQDAERTRFQIRQLLDLVAPSNLPWMNPEIIA
+ETVRTSGKNLVDGASHFTQDMIQTMTQTHKPAPEGYKIGTDLACTPGEVVFRNDLFELIQ
+YTPQTDQVQAEPVLFIPAWIMKYYILDLSPDNSMINYLVQQGFTVFMISWCNPTADQSYL
+SLEDYRQSGVLAALDAINAIIPDRKIHANGYCLGGTLLAITAATMSRDGDDRLASITLMA
+AQVDFAEAGELLLFVDESQVAFVEDMMWDQGYLDRPQMARTFSAIRAEDLIYSRAVKRYF
+LGKEDLPTDIGVWNGDTTRMPARMHSEYLRGLFLENRLTAGRFAVEGRVIALKDISDPMF
+VVATETDHIAPWRSVYKTKLFTDCDLTFVLTKGGHNGGILSEPGHPNRHYRIGHRAAEAF
+YVGPDHWLAGQTTVPGSWWPDYANWLRDNSSDQETPPKMGNPSLGYPPLCAAPGTYVHQV
+>tr|B7RRP3|B7RRP3_9RHOB
+MEWFESLALLLGSILVLMAIGMPVALAFLAANIVGAWFFMGGAKGITLLLNNGFGGLTNF
+ALVPIPLFLLMGEIFFHTGLGARMFNAIDRLLGKLPGRLSYVTVLGGTAFSTLSGSSMGS
+TALLGSLMVPEMTTRGYKKHMSIGPILGTGGLAIIIPPSALAVLLATLARIDVGALLIAG
+IIPGLILASLYIATIYIQTKIDPSAAPAYDVETLSWGQKMGLLFGDVMPMLSVMVLIVIG
+MVGGLITPSEAAAFGALGVLILAVLFRCLTWEAMKKSVIGAMRVTLMAYLIVFGSATFSQ
+LLAFSGASSGLIRWATSFDLAPVAMLLVMFGVLLLLGMFMEQISMMLLTVPIFFPLAASL
+GFDPIWFGLIILLALEISFTTPPFGLLLFVMKGVAPKDTTMREIYMSAFPYMGCSMLLVA
+LLILFPQLALWLPGM
+>tr|B7RNS8|B7RNS8_9RHOB
+MQHPQNHPAPWTLRRVGLLGACLTFILLLQAAIGHAGTPVARGDVLRVEVLSAPELSREA
+AVDVDGRITLPLLGAVEVVDRDTDMIRKDLVTAFRERGLLTRPDVLVEIASYRSVYVGGS
+VGRPGAIDFVPGLTARQALIAAGGLRLGPANATVSPEDILSAMAQRRALEFRFAQTVAEI
+ARLRAELSGAQTLTDPTQDLLGIAPAETDDVVAAAAAFLSDVRHRKKVRKQHGSELIDLI
+GLELRTLEDQASLQIEESEVQKNEIENARDLVERGLLPRPRLIELLRVQSQLSQNQLANS
+AFAARARQAAETVRFEQLNETLQNRETVRRSLSQALAQKADIASDISEIDLRILAAGGEP
+DSSNVTARLTIFRNHDGTSVEIADAKLDDTVQPGDVLELAIDIPDEKGVSAPKTPAIGKP
+GGPRAQGFNLGMEIRP
+>tr|B7RI51|B7RI51_9RHOB
+MSHQHVLSVRQQQAAPRRFRGPLFLVAFVASATLLIAAYWGTIRLDQVASTGARVVTQAV
+LQETVNRLRSMTEDYAYWSFSYELIQDGDESAIFEHIGSGAAQSDLFDQLFILSPDFEIL
+HEFHSDGETYPDFAAMQPALQGALTRLKGLPPAQYQSVSGYAQLNGAFFAMTSAWITPDY
+IETLDTRLVPVLVGLVHLDPGWIKDLSTLSLQAGYDFTTAVPTGAFLENATALKGADDQH
+VGYLVWDSPVAGKMLRQQIMPAILGVCASILMACFCAARFFEGQHKSLQKAMRIATTDPL
+TGVLNRAGLRHVSQLKLTAAAIAGARVAVVYVDMNGLKKLNDAFGHAVGDSALTALAQAL
+EASVRDGDFVARLGGDEFVCIIFDQDPKDGAGHVAERIIQMTDNPFAAKVPDRKLELSIG
+IAVATGDIEWEELLRQADAAMYWGKHRGASRAAYFTESMDHQPLPPSNVEHAS
+>tr|B7RRE7|B7RRE7_9RHOB
+MSGFRKSFLFGLILGPLGAIGASAQGLDIQPIGIELAEEGDQLILAAMPVAGQAPVFNSV
+LIESATVTRAAVRQTGTLPKPSIILGLIAPGQEKTFGVERLLPATVEQIIFALDDLAARE
+ALRADNPDLFRRLVEEGHIDPDPDQLNRVLQTELKRMNCYRAGVDGAWGRGSRGSVDEYF
+SQLASVEWDDPAPTNSLFRSIILNGDVACPTPAAAAVAPRATSSAPKRATTTRRTTTTNR
+APATPKAAPAAKPKMSIGAQGVFR
+>tr|B7RRI2|B7RRI2_9RHOB
+MKPVVFATILSLFAAPLWAQDQVTLLLDWFVNPDHGPVIIAQEKGYFADQNLAVTVIAPA
+DPSAPPKMVAAGQADLALSYQPQLHLQIHEGLPLQRVGTLVATPLNCLLVLADGPIKTPA
+DLKGRKVGYSVGGVEEAVLGQMLKTHGLALDDVELINVNWSLSPALMSGQVDAVIGAFRN
+FELNQMDIEGVPGRCFYVEEEGLPPYDELIYVANKNTMNVDKIRRFLAATEKATQFIINH
+PAESWEMFANTAPELNDDLNRRAWADTQPRFALRPTAMDAGRYATFEAFLYDAGLIPVVN
+PVSDIAIDVTAR
+>tr|B7RHR8|B7RHR8_9RHOB
+MMMRPIYGLCALALLLPAACTQFPALDSRATPELLAAEYPALVPVDPLLAAARAGQVDTR
+QTEAALAGRVANLQARAARLRGAVLSGPEKQRLAQGLR
+>tr|B7RIL1|B7RIL1_9RHOB
+MEWMAWTWPTAAFFALIAVTLITFTVLAIKFPEVPRNGVLGIETTRGDRLFITLLGSAFI
+NLAWLGLLSAPQWGALVVCFFYAVAVFRWV
+>tr|B7RNJ3|B7RNJ3_9RHOB
+MLSPVAAMAETEVQFWHAFTGRLGELVKAQVEDFNASQSEYTVVESHKGNYSETLNAGIA
+AFRAGEQPHILMVFEVGTATMMAAAGAVRPVFEVMAQSGATFDPDAYIGSVKGYYTSTNG
+DMLSLPFNSSTPVLWVNRDAMAAAGVDPDTDLSTWQNVGAALDALKAGGEECPLVTAWQS
+WIHLENLSAYHDVPFASKDNGFAGLDTEMMLNGEAQVAHLAAMGQWAKDGKFIYTGRRNE
+GGANFRAGDCALFTESSAGYAGIKSEAKFDFDVRPLPYWEGVGNSPQNTIIGGASLWVME
+GHEEAEYKGVGEFLSFLSSSDVQAQWHQDTGYLPITTAAGEATRASGFYDANPGTDVAVI
+QMTTNEPTANSKGLRLGSFDQIRGIIDEELEGIWSGDKTAQEAMDSAKERGDALLRRFEA
+ANR
+>tr|B7RPE8|B7RPE8_9RHOB
+MPADYTYQRQHRSLGSFIILPTIWLALLAGWVLLDASPILLGIIAACTLPALWDLVRNPS
+ASLTLSREIINWHSGPHSADISLKEITLIRLDTRLDFSVRATVVLKNGRKIRIPFEATPP
+HHAFETALIAQNIKTERHHFSLRQ
+>tr|B7RPI3|B7RPI3_9RHOB
+MEVALILLAAGKGTRMQSDLPKVLHPIAHAPLLEHAMASGAALEPARTVVVAGHGADLVR
+AAAQEFDEEAVVVVQDEQLGTAHAVAQARHALAGFEGTAIVLYGDTPFVQSETLEAMCTA
+LTNNDVVVLGFEAAVPARYGRLVMDGDSLDRIVEFKDATDEERAITLCNSGVVACKSELL
+FDLIDAVGNDNASEEYYLTDIIGIARARGLKATAVTCIEAETMGVNSRADLAAADAAFQA
+RTRAQMLETGVTLMAPDTVYFARDTYIGRDTVIEPNVVFGPGVTVESGATIRAFSHLEGC
+HVSRGGIIGPYARLRPGAELSEDVRIGNFVEIKNAQIAEGAKVNHLSYIGDAAIGARANI
+GAGTITCNYDGVMKHHTHIGANAFIGSNTMLVAPVHIGDGAMTGSGSVITSDVEADALAL
+SRAPQVEKPGMARKLFEILKAKKAKQQRGS
+>tr|B7RFN1|B7RFN1_9RHOB
+MTIIILYCVTFAIFLGLDFLGLNFLIKPVFARDIGPLLLDSFRLLPAFVFYAFYIAVLLY
+FVSMPGLAQDKSLLWVFFNGALIGALGYGTYEFTNLATLKDWTPQMVATDFSWGVFLTGV
+SATAGVWITRVIA
+>tr|B7RNL7|B7RNL7_9RHOB
+MRTFDSRRKKDLGAFYTHQGLTDLICAWSVQTPETTVLEPSFGGCGFLRSTRDRLAKIGS
+TSSISQIYGCDIDTRAFLLLSDVFEQPVDLERYHEGDFLDQRFPSSWPKTFDAVVGNPPY
+LPYRKIDVSRRERVLDQLKDLGLTLDRRASLWAYFVALSIPFTSTGGRAAWVLPSSFLYA
+NFSAALRSFITENFEEVRAFELKERQFLLEGTEEKTVVLLCKGKLEKSRLPTQSDISLDQ
+CAGVEELKKAINSWELGQAKTTSLCGTSVFDSLSEGSRRLFVRLQKSPVCKKLGDFLGVR
+IGLVTGNNAFFLLSETERENLNLDTTELKRILPRFQFAQGMQFSLSDHGRLLENGGKGYL
+VSEDDPTNASPEMRAYLAQYSKSDIDGCSTFKKRSIWCRTEDEAAPDAFFPVMQHHGPRL
+VLNQTSFNCTNSLHRVYFDRQLTKSQRQLVSLSLLSTFSQISAEACGRSYGSGALKHEPR
+EAEQIEVLMPEMHPRTVSASFTRVDRMLREGNLEEARQFVDQLILNGIGLSNLPSNTALL
+RSGLEHLRFHRHR
+>tr|B7RIF6|B7RIF6_9RHOB
+MKTYPKIWFLRHGETEWNAEGRVQGQTESVLSSRGVDHAKSQAKLMAPILETNPPCFVSP
+LKRTRQTADIALGGRAYQTDDRLKEVFAGDWESQLRADIFKTLPDDMSPDMPHIEFYARA
+PGGEGFDTFQTRVRSFVETLTEPTVIVAHGLSGQLLRGEVCGLSREDLGKLSNRQGVVYV
+LENGVETILEL
+>tr|B7RFQ3|B7RFQ3_9RHOB
+MKLPFRSAGSFCGSKLPDAQAAYETANSLNMGLLSGVNFMLHACGWLEGGLVSSFEKFVM
+DADQLGTLHHLARGIPMDENAQALDAIREVGPGGHYLGCAHTQANFKQAFWKSDLLDYKP
+FETWADEGARDTQTLATARVEKLLGDYVQPAMEPAIVEALDAFVAARKAAEPDSFM
+>tr|B7RJB8|B7RJB8_9RHOB
+MFTIEHEFDASVITLVDEGKSILREDVIVHAFASVVTFEQWDPRTNTVSKINLSPEQLRD
+LTLALNMPEGIYRTSPKR
+>tr|B7RQG9|B7RQG9_9RHOB
+MNTPKKMNTETAIAAAQAARAEKEALAAENARKAEDARKTLLATDSGFRAYDRFLNMTGK
+RAVKSNEITKATLKAMGENLHHWLEHQPEDLCAEVFTAMEFGATQADAKRIAKHPLRPAI
+VTEMVAIKAAEAKAAKEAQALADAAEAARKADDNDTPEDA
+>tr|B7RPN3|B7RPN3_9RHOB
+MSTSDEIDDSAAPLIEHLAELRTRLIHSVIAFIIGMVICFTVWNPIFNFLTHPLCSAMAE
+RGQEDCGLILIKLQEGFFVAISISLLGGLVLGFPYISYQLWRFVAPGLYKNEKGAFLPFL
+ISSPLMFFLGASFAFYVVTPLAFDFFLGFQQAGTLVGDGDGANGIAAIAFQGSAQEYLSL
+TIKFIVAFGLCFQLPVLLTLMGKAGLVSSEGLGNVRKYAVVGILILAALVTPPDVITQVI
+LFVVVYGLYEISIFLVRRVERKREAQLREDGYYDDEDEDPMMAEFDEDDLK
+>tr|B7RK81|B7RK81_9RHOB
+MIVIINPNSTQAMTRTMVDTALDMGIKVEGWTSHDGPPAIQGPEDGAACIPPLLGLVRKA
+SDEGASAIIIGCFDDTGLDLARDIARCPVIGVGQAAYHMAVLAGQRFSVVTTLPQSIPVL
+EQNIHSYGFAPRLGRVRASNVPVLALETDLPGSAPKVIAEIDRAVVEDKVGIVVLGCAGM
+VGIPDLYGDRPDVRLVDGVKSAVQLSAILSR
+>tr|B7RLA9|B7RLA9_9RHOB
+MIFPELDTPAVLIDLDIAEANIDRFQAHCDAHDLNLRPHIKTHKLPMLAKRQVQAGAIGI
+TCQKVSEAEAMISEGGIDDVLITFNILGTGKLSRLRAIADKVRLSVVADNTTTIDGLAGA
+FSDADAPLSVLVECDTGAARCGVATPQAAGELATYIAGQPGLTFGGLMTYPPAEQERFVQ
+SWLTEAKDLIEASGLDVPVISNGGSPGMWQAQDVPVATEYRIGTYVFNDRSLQDRGVCTW
+DDCALNVLVTVVSVPARNRAVIDAGTKVLTSDLLGLDGHGHVLGRPDIEVAGLSEEHGVL
+MADSINLKVGDRLRIIPNHVCMVSNMLDEVQLHRGDTVVGPCPVAARGKVR
+>tr|B7RPT0|B7RPT0_9RHOB
+MDDTAPQDMTAAVPVDAIPPQPVVVDSTPEITRAPLAEMPIGDSSADAPKEMVTAPLAAP
+EIGQDVEIAMSAEETETTPPAMTPDAPIFPNPMALAPMEPDARDDVAIATDPAAFARPTA
+PVVAQPTVADPVVPEPTLEEETVAEEAPTVDVPVETADEAPQATPTEAQPKMPVTVIVEA
+APKKSEVTAMPAPKMAKIPSANRTADADTDPRGAPVTVNRLPTALSGERTEEDPQQAASE
+GAISRYARPFENPDDKPLMGILLIDQGTDLEDGEVGIAALRNFPYPISFAIDVSLPDAAN
+RMAIYRNEGFEVLAMVDLPEGAQASDAETTLAVALTRMPDVIGVLEGLGNGLQPDRGLAD
+QVTAILAQGGHGLVTQDKGLNTMPKLAIKEGVPASAIFRDFDSKGQTATVIRRFLDQAAF
+KAGIEGSVIMMGRLRPETISALLVWGLQDRASQVALAPISAVLLAEQAE
+>tr|B7RRU2|B7RRU2_9RHOB
+MTGVPLDICQSSGTGFLKDLTAWCGTARRSLQPPCEKN
+>tr|B7RKS9|B7RKS9_9RHOB
+MNALTPSKTPDARMAQITKLAVMAVGGQGGGVLTAWIETLARAQGYEVQATSVAGVAQRT
+GATIYYIEMTPKTDQQPIFALAPSAGDVDILIAAEMMEVGRAVLRGFVTPDRTTLIGSTH
+RALAVSEKSVPGDGIANAEEVRAAAEIAAQTLILADMEGLAVGQGSVISASLFGALAGSK
+ALPFPRAAFEDAIRQSGKGVDASLRAFAQGYDAAQHGVEPVEKVAAPASEIAGPQNLVGD
+WQKLIKRIETLPQDVQQMALAGLQKVVDFQDCAYGSAYLDRLDTVIARDSTEKDWLLSET
+AAKYIANAMAYDDIIRVADIKTRKPRFDRIRTEMGAQPDQVMQLTEYFHPRAEEIAGLLP
+AALGARIEGRPKAMARLDRWFGKGRRLRTDSLPAFAMLHILGGLKSYRLKTRRHAVEVAH
+LDAWLDRSLAPLATDYALSVELLRCRRLIKGYSDTHARGLTKFDSVMNGAAILKGRKDAA
+DWVARLREAALQDPEGKALSGALETIRSFTDPQTH
+>tr|B7RS47|B7RS47_9RHOB
+MMLSMVSTAPSLSGYALADELVAGPPEWSDWKSRFLSQDGRVIDDENGKISHSEGQAFGA
+FLAQAYGDRAAFECIENWTKANLLVRQDHLMAWRWRESEAVGGDDWHSATDGDLFRAWAL
+LRARRDFGWIGSDESAENIVRDIAALCLRPDPRAPHFLLLTPGAEARANPDRVLFNPSYV
+MPRALRALGAAFDEPRLIAAADHGESVLAELAALGPVPDWVDVTSDGFAPPQEHDVRSGY
+DALRVPLYLVWSGNQSHPAVERARQTFELSGIAGHLAVVVAANEDVLAQSNSPGYQAIAA
+LASCAADQDRDDAVHLQTYYPATVELLARIAGKEATPCNLP
+>tr|B7RFX3|B7RFX3_9RHOB
+MGQQRSFIGSTYVRWRLLFPLMLVVNACVPASDPGVVSRAAFETPTSSLPPMKSFAAHHA
+SPAPRSNNDLSLDFIELAFRMESGKDLTVFTRFEGPVTIRVIGGPPPTLGPDLSRLIGRL
+RSEANIDIRPTTAASANITIEAVSRSQIRQVLPQAACFVAPNVSSIAEYKKVRRSAQTNW
+SLLKTRSRVAIFLPNDASPQEVRDCLHEEVAQALGPLNDLYRLPDSVFNDDNVHTVLTGF
+DMMILRAYYDPALRSGMTRGQVASALPGILARINPRGTSTKARFVTRTPREWKTAVQGAL
+GPGRSDGQRQDAAYSAIKIAQSLGWQDHRRAFAHYAMGRALQAGDAEAAHKQYELADLFY
+ARNLGTDLHRAYVATQLGAYAISKGDGPQALRLIGPHIETARNRENAALLSTLLLLRAEA
+LELENRSAEARMVRLDSIGWARYGFGSDWAVRAKMREIASLNPLK
+>tr|B7RJF6|B7RJF6_9RHOB
+MRLTAFLLAGLALGTPALAQGQNAAIAAFNAWCFKAGQTESSIRSNMERSAGSPLPFDLV
+FWDVSLEPVSQDLPKGVERRCEVSFAGDHTDDAITGLRKQMATPPVFGTQIPLPDTHQAL
+AGTALIEGRELLAGRVAVVHVGQRDTKTFMAVDRLFDGLGQPGKGG
+>tr|B7RJT9|B7RJT9_9RHOB
+MKADTHPEYHTINVKLTDGTVLEMKSTYGKEGDQLSLDIDPSVHPAWNGGTSRLMDTGGR
+VSKFKNKYAGLGF
+>tr|B7RLA2|B7RLA2_9RHOB
+MKRLILMRHAKSDWPGPETDDHERTLNERGKSNAASLGIWLKEKDLRPDTVLCSTATRTR
+DTLALLKLEDQPDINFVKDLYLADAEKILATLQTADGDTVLLLGHNPGIADMAEQIVKTP
+PNRDGMHHYPTGATIAITFDVENWTDIDWHLGKVTHIVVPRDLPKPN
+>tr|B7RPV9|B7RPV9_9RHOB
+MSDYNFAYLDEQTKRMIRRAILKGLAIPGYQVPFASREMPMPYGWGTGGVQVSAAVLTPE
+DTFKVIDQGADDTTNAVSIRRFFQKTAGVAVTEATAEASVIQTRHRIPEQELRSDQILVY
+QVPIPEPLRFLEPSEVETRKMHSLEDYGLMHVKLYEDISQHGDIATAYAYPVKVEGRYVM
+DPSPIPKFDNPKLEMAGIQLFGAGREQRIYAIPPYTQVVSLDFDDYPFQPTKADHACDLC
+GATDSYLDELIMDDAGGRMFMCSDTDYCGTRRTQGHTGAQGVPYSEDAA
+>tr|B7RK74|B7RK74_9RHOB
+MTRTVLNCGYVPLVDSAPLIIAKELGFAAEEGLDLNLVRQPSWSALRDMLALGHLDAAQM
+LSPMPVAMSLGLGGLPARIDNLMGLSANGTVFGVSTGLADALGAVPFGDPDALLAALGTR
+GPQPLRVGVPFPFSMHRLLLSYWTASTPDLQVEIVTVPPPRMADAVMQGHVDAFWVGEPW
+GSAIVGRGAGKILMAGRHVWGFAPEKVLAARHDWIVENPDTTCHLMRAVYQSARWLDVER
+NKPLAVEILGRSEHLNLAHEVIEPAITGILTLEQGGTPTKVDRFLTFHDHAASFPWRSQA
+AWIAAQLGVDAMGIAQAKRCFRTDLYRKYLGPVGADLPGASEKVEGAMRDVTAVASSRGQ
+MILAPDAFFDGRTFDFDASNGE
+>tr|B7RMD6|B7RMD6_9RHOB
+MTKPITLLGYSMGGSIAACFAAANPDRIDRLVLLAPAGMGLTHHKLTNFIAKTQVIGDWL
+MLALFPTMFRRGIKAEQADSASVASVHKGQHAQLDYKRYVAAVLASRRGILREVLRDEHR
+AIHASGIPVLAIWGGNDQVIPQTAIGSLAEWNRAVEHEVISGAGHGLPYTHANEVIAKIR
+DHLFDAT
+>tr|B7RQ52|B7RQ52_9RHOB
+MTYLVDSVVLRPAPDVGETDTSPQWESLWASLTFAVPE
+>tr|B7RNY2|B7RNY2_9RHOB
+MIASLMMYQRPQLVQAHERYWTLIRKHLCDAGMDSPEALSQDAAEFDVWNHPELVLSQTC
+GMPYRMWLHDKVQLVGTPDFGLAGCPAGYYRSAIIVRADDARTELTAFKGAVFAYNQTFS
+QSGYAAPFWHLKPEGFWFEHRLHVEQHLEAARAVATGRADIASIDAVTWRNIEKYEPFAS
+GLRVLDWTKPTPGLPLITALGNDADLIFDAIQSAIVELDEQSRSQLGLKSVVKIPKGNYL
+NVPNPD
+>tr|B7RPC3|B7RPC3_9RHOB
+MSLSFILACLWAVIANILAMTPSSDNHWRNAYILIAVGIPILGLVTMHHGPWAGLLVLAA
+GCSVLRWPAIYLMRWLRRGALRGPAE
+>tr|B7RGK2|B7RGK2_9RHOB
+MFTKVLVANRGEIAVRVIKTLRRLGIASVAVWSDADRFSPAVRLADEAVRLGLSPAAESY
+LNADAVIAACTATGAQAVHPGYGFLSENTDFAARLADAGITFIGPRVEHLLAFGMKHTAR
+DLAMAADVPLLPGSGLLATAAQAVAEAARIGYPVMLKSTAGGGGIGMQLCADEAALTAAF
+ETVGRTANASFGDARVFIERFVADARHVEVQVFGDGAGRVIALGERDCSLQRRNQKVVEE
+TPAPGLPDAVRAQLHAAAKALCASVSYASAGTVEFIYDPLREDFYFLEVNTRLQVEHPVT
+EAVYGIDLVEWMIRQAAGEAVLPDVPLVLQGAAIEVRLYAEVPHAGFRPSAGRLTDVQFP
+DTARIDTWIETGTEVTPFYDPMLAKIIVTGADRPAAIAALQQALEETRVSGIETNLGYLR
+AIAASDILASGQVTTTALNRFDFSPTCIEVIAPGAQSSLQELPGRLGLWHVGVPPSGPMD
+AASFRNANRLLGNPPDTAALELTMTGPTLRFLSATRIAMAGAQMTLALDGAQVVGPVIDV
+PAGAVLAIGGIIGAGQRAYLAVAGGFDAPEILGSRACFGLGQFGGHAMGTLKTGDVLHIA
+SHPCAAPAPLEDMSLTTAWEVSVLYGPHGAPDFFRTSDIAAFFATDYKVHFNSDRTGVRL
+IGPAPQWARADGGEAGLHPSNLHDNAYAVGAIDFTGDMPIILGPDGPSLGGFVSPAVVAA
+EDRWKMGQFRPGDTIRFKPVQRADDPVTAPSLAGAGSPVMMRKDGAEVPVVYRRQGDDNL
+LVEYGDMTLDIELRLRVHLLMQAVRDAKLPVIDLTPGIRSLQIHYDSTRLSRDKLLAFLT
+EIEATLPPAEDITVPSRIVHLPLSWGDPQAELAMRKYQDLVRPDAPWCPSNIEFIRRING
+LQDEAAVRKIVYDASYLVLGLGDVYLGAPVATPIDPRHRLVTTKYNPARTWTPENAVGIG
+GAYMCVYGMEGPGGYQLVGRTVQVWNTWRRTPAFHKNPWLLDFFDQIRFFPVSHEELTEA
+RHAFPHGEYPLKIEETTFKWADHKRAFAEQAADITRFKNNQQDAFEAERQRWKEQGQDSF
+APDHGKVADAAPDDIPEGFIGIESAVPGSLWKVTVAPGDLVKAGDTVAIVESMKMEMAVL
+APASGRISDVRAAPGQALRAGQVVALMTPS
+>tr|B7RGL6|B7RGL6_9RHOB
+MVLRLENVEKSFRDSEGVVPVLRGVSFDLAAGQTLALRGESGSGKSTLLHIAGALEDADA
+GHVWVSGKDLTTLDDGARAAMRRTDIALVFQQFNLIPSLTVAQNIAFQAALSGPVDRAHV
+EQVSDALGLSRQMTKYPEALSGGQQQRVAIARAIAAKPKLMLADEPTGNLDEETANDVLD
+QMLKLVAQMGAALMVVTHSPAIAERMDRQLHLKSGRLT
+>tr|B7RNH0|B7RNH0_9RHOB
+MTALDIVEEDPRWAALDLETLAESALITTLKHLNLDPDVSEITILACDDARIADLNADFR
+GKPTPTNVLSWPADERGAAQDGGLPLTVTADFDGMLELGDIAISYDTCAKEARAAGKSMT
+DHVTHLIIHGTLHLLGYDHDRDADATLMEGIEVEILGKLGLDDPYREDAVQ
+>tr|B7RLE8|B7RLE8_9RHOB
+MLLVKRKLAIETERLTLRPPIHADFRSWATLRSESIEYLTPWEPSWAKDHLSRKAFTNRV
+YWANRSVSGGTALPLFLIRRKDNVLIGAITLDNIRRGPSQAGTLGYWTGEQFARRGYMRE
+AIEATVHHAFTRLDLSRVEAACLPENAASRGLLEKTGFKYEGVAQSYLQIDGRWRTHVLY
+AQLRNDRRGKTAVG
+>tr|B7RGQ4|B7RGQ4_9RHOB
+MIRTEADALVALADSLDDRFRQAIDLLIATRGRVIVTGIGKSGHIAKKIAATLASTGTPA
+QFVHPAEASHGDLGMITGDDVVLAISNSGEAPELANLIAYSRRFSIPLIGITSREASSLG
+AQCDVVLLLPQLPEACGTGVVPSTSTTMTLAMGDAVAIALMENRSFTAEHFREFHPGGKL
+GARLSRVADLMHTGDALPLVQVDAPMSEALMAMSSKSFGVVIVTDAAGTLQGIITSGDLG
+RHLDGLLSKTARDVMTATPVSIAPDALAEKAVGIMNARKITCLLVVEPDGANIPEGLLHI
+HDCLRVGLG
+>tr|B7RHN2|B7RHN2_9RHOB
+MKYEHDNGAISVEALNMTMKFGAFTALDEVSISIPAGSFHALLGENGAGKSTLVKCMMGF
+YHATDGELLVAGKQARMTDPKVAQTLGLGMVYQHFTLVPSLTAAENLVISRTDTPALIDW
+RRERTALDAFMAKMPFSVPLDQPVSRLAAGEKQKLEILKQLYLGNRFLILDEPTSVLTPS
+EADEVLGHVRALTRAGEITVLMITHKFREVSAFADDVSILRRGKYVGGGAVADLSIDEMS
+RAMMGEAPVVSERTRKGTQGQPLMTLHGLRTADRTGLKDIQIDDVTLHSGEILGIAGISG
+NGQMELMEILTGQRRIRSGTITVNGTAYGATRAEARAHAIRYLPEEPLRNACAPRMSVAE
+NLAFRMFDIGKDGTHVFWKDNRAIAGNATTLIDAFKVKTSSPAAPIASLSGGNVQRAVLG
+RELTGDVKALIVSNPCFGLDFAAVSAIRDRLIEARNQGTAILLISEDLDEIMELSDRILV
+MSEGRIAFETPIATADVAQIGQHMAGHG
+>tr|B7RL63|B7RL63_9RHOB
+MKLDVIKLDGGSAGSIDLDEALFGLEPRADILHRVVRWQRNNAQQGTHKVKTRSEVSYST
+KKIYRQKGTGGARHGARSAPIFRSGGIYKGPTPRSHGHELTKKFRKLGLRHALSSMAKNG
+NLVIIDDATSDGKTSALAKQVKSLGWKRALIIDGASVNENFLQAARNIEGLDILPSVGAN
+VYDILKRDTLVITKAGIEALEARLK
+>tr|B7RQE2|B7RQE2_9RHOB
+MSAPINLNKVKKERNRASRKARADENAVKFGQSKPQKDVIKARLEQISRNLEAHKRDT
+>tr|B7RPS3|B7RPS3_9RHOB
+MAVSQTQAGLLWDNATSFASKDALRQTAPLGSLVHDTRQNCDQIAVVYDKGQRPPHITIN
+RVSGSVHTVLADGIAVAVVASASRPVLNPDDVLLVERTV
+>tr|B7RIM9|B7RIM9_9RHOB
+MDLIPVYAGQEPSGDPAEVTLSPAEINAIGVRTAIARMSEVSRQIETVGIIAYDDHLTSH
+VHTRVDGWIEALNVRAVGDRVRKGDVLFEMFSQVIGSSSGDLVRALQAGDRRIIDAARGK
+LQSLGMSDDQIAQIESTREIARNIKVLAPQDGVVISLEAADGMFLQPGVRAVSLTELNAV
+WLIVDVFERDIARLTDDMRAVAQFEHLQGRRFEGKIDYIYPELDAKTRTLPVRLRFDNAE
+GLLKPNMFGTVTLTPNQTRMALTVPTEAIIRTGSAERVILKTGDGTFKPRLITTGLRDNF
+GTGGPTEIVQGLAPGEEVVASAQFLIDSESALSAGLMRMAPTDQDPARGSGELLALNAET
+RMATIRHGALDALDWPAMTSQFPVRADVALNRLQPGQQVAFRAARGADGLLGLIELGGDD
+GIAATGTGTVLAVTTDGKLTVSHDPIPELGWPSMQMDMPVAGVDAAHVPLDQPIEFDLTK
+GEDGLFTIVAVRGDAVAIKTKPVAQSTEPTKAAAIVVSGTIDAVDLATRMATISHGPIKE
+IGMPGMTMDFALDAAIDPAALVTGRDMTLTFARPDGMTMVLAAAAPVVPPIEVMGTINSV
+DPDSRMANITHGPMMQIGMPGMTMDFAIDPSVDAETLPTGGEQTLLLKQNPDFSMTLVGV
+AAAPEVTQ
+>tr|B7RPH6|B7RPH6_9RHOB
+MYETIKVSTDARGVAVLTLSREEKHNAMSALMIAELTAAAAQLAGDDAVRVVVLTGAGKS
+FCAGGDLGWMQAQRDMDAPTRSAEAGKLAAMLGALNTLPKPLIGRVQGNAFGGGVGMAAV
+CDVAIGVETLKMGFTETRLGIIPATIGPYVLARMGEGRARRVFMSARLFGAAEAVDLGLL
+SKVVPADGLDAAIEAEVVPYLSCAPGAVAAAKQLARDLGPRIDAEVVDHTIAALAARWET
+EEAAEGIGAFFDKRKAAWMA
+>tr|B7RRR4|B7RRR4_9RHOB
+MGPGGVQSAADETAGVQTAAIAMAIGLKSSFIVSSLMK
+>tr|B7RQ57|B7RQ57_9RHOB
+MNAFDDLMAFQRETEALAQVAGRLGWDQETMMPRGAAPQRGEEMAAMESVLHGRRIDPRI
+ADWLEMIDEGHLDAAGSAQLRHIRRSHARASKVPAALAARIARVTSEAQGTWAEAREADD
+FKAFAPTLSEVITLKREEGMALAAGGDVYDAMLDDYEPGATGAELEAMFGALRPELTRLR
+EAVRGAEAPPMLQGKFDESAQMKLTRQLAKTFGYDMSKGRVDKAVHPFSSGSGLDVRITT
+RTNETDPFNCFYSTIHEVGHACYEQEINQAYLLTPLGAGVSMGVHESQSRIYENQLGRSR
+AFAGWLYRQMRDAFGDFGVADEDTFYRIVNRVSDGFIRTEADELQYNLHVLLRFDLERAL
+MGGDLQVDDLEAAWNDRFRADFGYDVDRPSNGVLQDVHWSVGLFGYFPTYSLGNVYAGCL
+HAALRRDVPELDAQLAQGDTSHATGWLRQAVQTHGGLYQPRDLMTRAIGQAPTEAPLLAY
+MTEKFSDLYGL
+>tr|B7RIR1|B7RIR1_9RHOB
+MVGDTVEFHNVSAFVHSVSTRPATPEETASTELPAGAESFDSGEIPAGGIY
+>tr|B7RQL2|B7RQL2_9RHOB
+MHITGQPGYTTAIERAKGFEDRLPEVCPDVKVVDTQPGDWNREKSQQVMEAFLVKYDDID
+GVYAGDDNMGVGALNAAKAAGRDGIIFVGATNFAVGYEAMGAGDYWGSIYQSPVDDAKAA
+LQTAIDVLEGKDVPFLNYFDTPKITQDNMGDYTKPVF
+>tr|B7RKJ9|B7RKJ9_9RHOB
+MTHEFNSALRRASKLVRAGNPVGATEMIQAALGVGGLPGQGASTTTPLERFGRAKAGCSL
+RETLASLSNMPKSPMPAANVTEPPLPDGARFDSGTVTCAQGSREYRVYIPDLNGAAPTGL
+IMMLHGCTQSPVDFAKGTGMNQLADKHGLVVVYPAQSRGANMQSCWNWFAAADQARDAGE
+PAILAELAGQMQRDHRIPQGRCFVAGLSAGAAMAVILGQTYPDVFDAVGAHSGLPYKAAH
+DMPSAFAAMGAWGAHGQKAQPIPTIVFHGDTDHTVNAANGQRIAEDAATGPQVIDDGTIG
+KRRFTRSTVLATEGHPVVEHWTIAGLGHAWSGGNAAGSYTDPDGPDASTEMVRFFLDLPL
+KGA
+>tr|B7RNG0|B7RNG0_9RHOB
+MLPMRRVVVTGLGIVSSIGNNAEEVLASLKAGTSGIVASPEMTEHGFRSRVAGTLKIDVA
+DHIDKRALRFMGSGAAYAYIAMAQAIADAGLTEEQISNPRTGLVAGSGGPSTSALFTAHN
+VVRDTGATKRIGPFAVPKCMSSTVSANLSTAFKIKGINYSITSACSTSLHCIGNAAEQIM
+MGKQDVMFAGGGEELDWTLSCLFDAMGAMSSKYNDAPETASRAFDANRDGFVISGGGGML
+VLEELEHAKARGATIYAEVTGYAATSDGHDMVAPSGEGGERAMRLALQSLPEGRKVGYIN
+AHGTSTPVGDVGEIEAVRRVFGQGTTPPVSSTKSMTGHAQGAAGALEAVFCLLMLKHDFI
+AKSINVVDLDPKLDPSEIALERVDDAGLDSVMTNSFGFGGTNGSMILSKFKE
+>tr|B7RNG6|B7RNG6_9RHOB
+MHCKRTLALLDGRLAPLLSTDHAMTAPKKLFIKTYGCQMNVYDSERMAESLGDAYVETKT
+AADADMILLNTCHIREKAAEKVYSELGRLKPLKALNPDLKIGVAGCVAQAEGAEIMRRQP
+AVDLVVGPQSYHRLPAMEARVREGKTALDTDFPEEDKFEKMKGRGKAARAPSAFLTVQEG
+CDKFCAFCVVPYTRGAEVSRPATRVLAEACELVERGVREVTLLGQNVNAYHGVGPEGADY
+TLARLIREIAKIDGLERIRYTTSHPNDMDDALIAAHGEVDKLMPYLHLPVQSGSDRILKR
+MNRSHTAESYLRLIERIRDARPDIVMSGDFIVGFPEETDADFEATMDLVREVKYGYAYSF
+KYSTRPGTPAAERALVDAAVADDRLQRLQALITGHQREIQTSMVGRDLSVLVEKSGRDAG
+QMVGKSEYLHSVHIDNATASVGDVVRVRIVDAKTNSLTARQI
+>tr|B7RNS0|B7RNS0_9RHOB
+MIPIAKPCLGLLEAKAAEQVIASGWVSQGPQVAGFEADFAAFTGAKHACAVSNCTSALHL
+ALLGVGVRPGDEVITVSHSFIAGANTVRQCGGMPVFVDIEAGGYNVDPDQLAAAVSRRTR
+AILVVHQMGMPCDMRAIMQVANHERIAVVEDAACAVGSEIQFGSGWRRIGRPMGDVVCFS
+FHPRKVITTGEGGMLTTDNVVLDDKFRLWRQHGMSVSDTSRHASAQVIFEDYPVQGYNYR
+MTDMQAAIGREQLKRLPDIVRRRRELANRYRLALQDMDGARPPAEPVWARSNWQSYCVRL
+EDGIDQVALMQAMLDQGVASRRGIMNMHQEDAQRDVPLAFPLPRSEAARDRSVLLPLYAQ
+MTDEEHDTVLSVFSDALKTARQPARINLVQAV
+>tr|B7RGQ7|B7RGQ7_9RHOB
+MTTPSLTVEEGSGGLRIEHLRKSYRKKTVIRDFSMHLDRGEVVALLGPNGSGKTTTFYAI
+AGLVMPEGGTVTIDGKDVTSLPMYRRAQLGIGYLPQEMSIFRGLNVQDNIMAILDISVPD
+VRKRRERLEALLSEFSIEHLRRAPALALSGGERRRVEIARCLAADPKYLLLDEPFAGVDP
+ISVDDIRHLVADLKKRGIGVLITDHNVRETLEIVDRAYILHEGKVLMSGTPSEVVANENV
+RRVYLGDNFRIS
+>tr|B7RK73|B7RK73_9RHOB
+MVNKRAHSRAAGKLHAGVQNIVEAGAELFNPEYNTSGTAA
+>tr|B7RLG0|B7RLG0_9RHOB
+MKKVYGSAAEALEGVLHDGMLIAAGGFGLCGIPELLLNAIRDAGTKDLTFASNNAGVDDF
+GIGILLQTKQVKKMISSYVGENKEFMRQYLGGELELEFNPQGTLAERMRAGGAGIPGFYT
+KTGVGTVIAEGKEHKDFDGETYILERGIVADLAIVKAWKADDTGNLVFRKTARNFNPPAA
+MCGKICIAEVEEIVPRGSLGGDAIHLPGIYVHRIIQGDHEKRIEQRTVRTA
+>tr|B7RH34|B7RH34_9RHOB
+MRALILAAFCAGLPLAAAAQTYQAVNLLYVFPVAGGDFEVVEDHGEGPRGMWCAAASYAQ
+DRLGASGSARLYVKTARGPSVSVSGKSGAVFTLDEASLTVPPTRSYSVSVRTPGLNLPVG
+HAVEFCKDFILELQGL
+>tr|B7RKG5|B7RKG5_9RHOB
+MANLIRFDLLLTRIAAMIAAVAVIAMMLTVASDAFVRQVFNVRIPFVSVIVANYFMVAIA
+FLPLAMAEAQDRNISVDLVYGNLGPVAQRLVGLLVHVLAFATCCGLTSTMWDEAMRRYAS
+GSVAVEDGVSMAVWQGYFLLPAGFALLAMTYLLRIVLGIAGAKEARQPLVPDASETAGET
+GQ
+>tr|B7RQT9|B7RQT9_9RHOB
+MTDAQPADKTDAMTDPVSSIRNLGPAFEKSCISVGITTAQQLRDLGADTAYEMLLKVGQR
+PHFIGYYVLVMALQGRPWNDCKGAEKKALRVKFDALKARAHDPQASEFERMMDMIGVRSA
+KT
+>tr|B7RRD1|B7RRD1_9RHOB
+MDIEMLLQSRGEDEPSGEDLEYDPEFTELEIVAQPGEERQVGDEILAAEDPDYKDVSVKA
+LNILERSHDLRAGVFLAEAQLRLNGYVGFAKATSYIAGCLERYWDTCHPQLDADDDDDPT
+MRINAVLALTDDNRILRGVRRAPLTKSRTFGALSLRDIAVAEGEITPTSDMDVVPDAGQV
+SAAFQDTNEDELREIAAAAAQALADITAIDAVFAEKTPGSGPDLDPLLKFLRQANSKLSA
+ALGGEVEVAEEAEADSNQGAGARVGGGPVAGGGGGINSPTDVQNALDRIIGYYERCEPSS
+PLPLLLLRAKKLVNADFLTIVRNMAPSGIENVNLIGGLEDDDD
+>tr|B7RI94|B7RI94_9RHOB
+MSLKLASRFARREMRGGLRGFWLFLACLALGVAAIAAVGSVRSAIEGGLQREGAALLGGA
+AELDFTYRFATQEERAWIDAQATDVSEIVEFRSMAVVGDGAAADRALTQIKGVDDLYPLV
+GTMALDLEMPLDQALATSDGLPGAVMERALSDRLGLSPGDVFKLGTKEFRLTALILREPD
+SAASGFALGPRTLLHTDSLEGAGLLAPGTLYNSKYRLVLPPDTDLDQLKAAAQTRFENSG
+MRWTDARNGAPGVSRFVERLSAFLVLVGLSGLAVGGVGVSAAVRSYLNGKTEVIATLRAL
+GADRATIFQTYFIQIGLLSLLGVFIGVVLGAIAPLVFAPLISARLPIPAAFAIYPGPLFE
+AAIYGLLTAFAFTLWPLARSENIRAATLFRDAWDGAARFPAPRYIAVIALTVALLIGLAG
+WFNGSWRLTLWTLGGIAGALLILTLAAALVRWLAQRASLLARGRPRVRWALTAIGGNGEG
+ASAVVLSLGLGLSVLAAVGQIDGNLRQAISGNLPAVAPSYFFVDIQKDQIDGYTKRLTDD
+PAVQRIDSAPMLRGVVTEINGRPAKDVAGDHWVVRGDRGVTYAATPGDDAIITAGEWWAA
+DYDGPPLISFAAEEAEEIGLVLGDTLTINVLGRDITGTIASFQEVDFSTAGIGFILTMNP
+SALSGAPHTFISTVYADADAEAAILRDLATAYPNITAIRVRDAIDRVAGVLSGLAAAVSY
+GAAATLLTGFLVLIGAAAAGADARRYEAALLKTLGASRRAIATSFLLRAALLGLFAGAVA
+LLAGILGGWAVSRFVMETSFGIVWPSAIVIIVGGAVASVLASLGFAVKALNARPAQVLRA
+RE
+>tr|B7RL36|B7RL36_9RHOB
+MSTGFDAFGSAYFDGDRPVSQEISLHIANGNLQIGLDDGNTLFWPVKDIRVLPDSAGRQG
+RMLRMINEPLARLFVTDHSLIAHLPNATRAAPPKGRGRLAAWAMAAVAAVALQIAVLVPL
+LADRLAVFIPPAGERALGEATFDQIRKALDETGLAPLPVCENPAGLDALAQMAAALNGVD
+GAAGLSVQVLDHEMVNAFALPGGFVVIFRGLIDQAETPDEVAAVLAHEIGHVVSRDPTRH
+ALRSAGSIGVLGLLLGDFAGGAAVLVLAERLISANYSQQAETDADAFGHARLEAANVSPA
+ALGSMFERLRAEYGDGNALMAHFLSHPSLSDRIENARAATDENGDYAPILDDAGWADLQA
+VCD
+>tr|B7RQX4|B7RQX4_9RHOB
+MTLEEAIHHTTLTNPTFEVAEAEIRGVTYRTFKNIPGTVGALMLASREQQGNGAAEFLVY
+RDERWTYDEFCAEVHRISHALRDGLGIGKGDRVAIAMRNYPELMMLTLAIASVGAVTVFI
+NGWWTTEELDYALQDSGAKTIFADGPRVDRMLPLVDRLGLRIVGVRDGEGMVDLGLDALK
+ADMPDTPVEGIALDTDDDFAVMYSSGSTGKPKGVVQTHRSAVSAVFSWLIQAVAAPLVNP
+PQPGDPEAPRPSGLIVTPLFHVTATHPLFLLSLPAGAKISLLHKWDAEEAVRVINREKVT
+RFLGVPTQSADLLEAAKRMGETLPTLAWLGAGGAKRPAAQVAQLQGQFPAAEIATGWGMT
+ETNALGIGMVGEEYNKRPNAAGKLHPPLQDVRFLDDNGNDVPVGELGEITVKSPANMRCY
+LNKPEATAETMQDGWLRTGDLGVIDAEGFITILDRKKNIIIRGGENIACLDVEGALHTHP
+DVIEACAFSVPDERLGEIVGAMIQTRDGKKLSPEDMAAHLDGRLAKFKMPQQLWCQDGPL
+TRGATDKIDRRAIRAACLNL
+>tr|B7RHC3|B7RHC3_9RHOB
+MALTMSLIPIAEVFAKPLSRWEDKAVGAFLPDSFAAKKPKIVLVFQPKTAAMQIRRAAIF
+KT
+>tr|B7RMH2|B7RMH2_9RHOB
+MSLAHRYSEFSSAGSDVFEPDAKSTDANADEKLESFENGYQAGWQDAVEALEAEQRKISA
+DFAQNLQDMTFTYQEARGKLLTSLKPVLEAIMLKLLPGTLSASLRAHLIEQIHDLLAEST
+ENAIEFIVSPKNVAFLETLLKQQPAVPFLLKAEETLSEGQIFLKVDQAERYIDMDELGKN
+ILNLLDSFFQQSVEVPNNG
+>tr|B7RR54|B7RR54_9RHOB
+MADHPHTIPADCTMIARDYLRDEPAFLASLAFGPFVTQGCGPGPSVLIGDQSEISLLRSA
+SAARLDHRMALLAQNGDTVLVRHREPGFESYLADCLGLTDVTFVQVDQNPHRPVAAQVRL
+SPPQLTLLVRTARKNGGLTLKAYLTTDTVWRLAQAIGEMSETRIHVCGPSPRATLRANDK
+LWFTQLAHKTIGTGATPRTRAAYGPAAVTGLARTIGHTAEQVIVKVPDSAGSVGNVRLEG
+ALVRKMSPVDTRHYLLDRLRAKGWQDRYPILVGVWDDKVSHSPSVQLWIPQKSDGPPQVK
+GIFEQRVRGAAGAFVGAGRSTLPVPLLDRLSAEAGRITGVLQQLGYFGLCSLDAVICETS
+TGPDTIHWIECNGRWGGVSIPMLAAAQHLPDMHAIAIVQETLKGGVLTTEHLRRHLADLL
+VQQGQKEAGVVIISPSESTRGVSVNLMAIGDTQGAADDMLAMAMRRLVALHEDAL
+>tr|B7RJH8|B7RJH8_9RHOB
+MLNDTVARVTNRIIARSAQSREAYLGRMRRAAEDGPARAHLSCSGQAHAYAGAGPDQDAL
+ATKSAGNIGIITTYNDMLSAHQPFERFPEIIRDAARAVGGTAQVAGGVPAMCDGVTQGTP
+GMELSLFSRDVIAMAAGVGLSHNTFDAAVFLGVCDKIVPGLVIAAQVFGHLPAIFLPAGP
+MTSGISNDAKAAVRQRFASGEATREELMASEMAAYHGPGTCTFYGTANTNQMLMEFMGLH
+LPGASFVNPNTPLRDALTVTGAQRALAISHLGNNYTPVCDVLDEKAYVNGIVGLNATGGS
+TNLLIHLVAMARAGGIVLDWQDFSDLADVTPLLARVYPNGLADVNHFHAAGGLGYMIGQL
+ISGGLLHKDVKTVAGDGLDRYTQDPKLKDGAVEWVAGPTATLNDKILRPMGDPFQPTGGL
+KRLTGSLGNAVTKVSAVKPEQHVVEAPARVFHDQEAVKLAYKNGEFNEDVVVVVRFQGPK
+ANGMPELHSLTPVLANLQARGLQVALVTDGRMSGASGKVLSAIHVCPEALDGGPIARIQD
+GDVIRVDARDGLLDIVTPGVMDRPLASADLSGNEHGQGRELFATFRKTVGAADTGASSI
+>tr|B7RG25|B7RG25_9RHOB
+MKEKIMSLLNFRRKEAPAPDLPNPEVEAFLQDYSIEVMPRTAEKVENFRDLLPAGTRVYI
+AHIDGTPIEDMVATAARLNADGFKVMPHMPARIIKDKATLENWIAMYQGEADVKQALLLA
+GGVTTPHGDFSDSMQLMETGLFDKHGFERLHIAGHPEGNRDIDTDGSRLRVDDALRWKQG
+FSERTDAKMAIATQFAFEAQPIIEWADSLKHAGIDLPIHIGIAGPAKLQTLIKFAIACGV
+GPSLKVLQKRAMDVTKLLLPYEPTDVITALAAHKAANPDFNVTHVHFFPLGGIKTNANWA
+IENGGAAGQPANAV
+>tr|B7RR35|B7RR35_9RHOB
+MNQEILGRAQKLGLNNFLSKPFDTQKLKKCLETVTGPL
+>tr|B7RRI8|B7RRI8_9RHOB
+MWSCPTKAKTNGRATGSQARFDAARLEDGLDQRLCRSGQYLGGIPHLD
+>tr|B7RLP5|B7RLP5_9RHOB
+MIKQSELPDTIAIFPLGGALLLPRSRLPLHIFEPRYLQMIEDSLKTPGRLIGMVQPNVVP
+GREGPGLQTIGCAGRITQFSETEDGRYMITLGGVSRFRVVKEIEGFTPYRRCDVSWDGFE
+RDLGKDEDDVAFDRAAFLDTLGRYFDARDLSADWDTLKEADDELLINSLSMMLDFDSEDK
+QALLEAPSLSTRRETLLTLIEYALRGGHEGEMMN
+>tr|B7RGI2|B7RGI2_9RHOB
+MSVGAFAAQAADLPRVVSMNLCTDQLVLLLAEPEQIVSLSRLATDARSSSLAEQAKAYPR
+NAGRAEEIFLSAPDILLAGTYSDKTTLATLRSLGLRVEQFPITTALDQIPQQIRQMGEVL
+HQQGKAAARAAEVEAYLDAVVPPDSTAPVAAFYYPNGYSLGANTLGHDIITAAGFRNLTQ
+ELGMKGSGNLDLEQLVVQAPDVLISSPRYPGGSRSEEIMFHPAIAHYARDERLIFSSADW
+VCGTPITLRAVRDVRRARETIMHQEQDQ
+>tr|B7RJC9|B7RJC9_9RHOB
+MRALLVLITAGMLVGAAQAEEDIVLGLNQSEVSISTNFNGSEIIIFGAVKRETPIPDGPE
+LEVVVTVSGPSKPLVVRRKEKKFGIWVNVDAVEVDRAPSFYAVATSAPLREVLNRIEDLR
+YKISVPRAIRSVGAPMNIMNSAAFTEALIRIRRKENQYQLIEDGVTVDQQTLFRANVQLP
+AALIEGDYNTRIFLTRGGKVISQYETVIDVRKVGLERWLYNLSREQSLIYGLLSLAIAIA
+AGWAASAAFALLRR
+>tr|B7RPT1|B7RPT1_9RHOB
+MANQPPFEIAGQKVAPGTRTQIDLPISILPDHTPVGLSLEVIHGKRSGPTMFVSAAVHGD
+ELIGVEIVRRLLRAPQLKSLRGTLLVIPVVNSFGFLNRSRYLPDRRDLNRCFPGHPSGSL
+GSRLAHIFLTEVVLRCDFGIDLHSAAIHRTNLPQVRISPSDPITRRMAINFAAPVVLTSP
+LRDGSLRAVAASKGTPVLLYEAGEGLRFDEMAVRAGVAGILRVMRAEDMLPAKGIAESRR
+QSHVCSSSTWLRAPVGGLLRTFRAEGETVKEGDSLATVSDPFGKTEEDIKAPFDGILIGR
+AILPVVNEGDAVFHLAKLMPRAVADTVENMITQLESDPLFDEDEII
+>tr|B7RLA8|B7RLA8_9RHOB
+MRVFCASIATETNTFSPLRTDFSDFAQSFYAAPGDHPETPTLCSAVFPALRKRAQQGEVT
+LIEGTATWAEPGGLVNARTWSRLRDEVLAQLRAALPLDAVVLGLHGAMIADGCVDCEGAL
+IEAVREIVGPNVRIGVTFDPHSHLSARRVDNADIITVFKEFPHTDFVETGEACVDLTLRA
+ARGEIAPVLSVFDVRMIDVLPTSRAPMRGFVDKMMALEEDGTALSVSAIHGFMAGDSPDL
+GAKIIVVSDGDKPAGDALARDLGMELFSFRGTTKPEFLAVEDALAQARDAKTGPVVIADV
+WDNPGGGVAGDSTILLRTAIEMNMTSMALGTIWDPMAVRLCHAAGEGTVLDLRFGGKTSA
+FAGAPIDATVTVVKTASNAVQSFGASVVPLGDCAVIRVGDIEVVLNSNRSQAFSPDLFTN
+LGIDITTRKVLVVKSTNHFHGAFASVAAEILYAAVSGPYPNDPTRTDYTRLTRPLWPIVE
+APFDLETA
+>tr|B7RQV8|B7RQV8_9RHOB
+MSTDTQTLDIPTVSAYLEKHLEGFEGPLDVSKFQAGQSNPTFLLKTPSRNYVLRRKPPGV
+LLKSAHAVDREFRVQKALQDTDVPVSKMHLLCEDDDVIGSAFYIMDHINGRNFMDPRMPD
+ETNETRAGIMDEMNRVLAALHDVDIDAVGLSDYGPPGNYYERQVGRWTKQYRASETENLP
+DMNLLIERLTASIPADDGQRTLVHGDYRIDNMMFEKDGTKCLAVLDWELSTIGHPYADLA
+AVIMQWQMPAGTEGRGFGGADRKALGVPTDEEFIAKYCERRGLDGIDNFGFYLAFCFFRM
+AGIIQGVLKRALDGNASNPERAMKVGAYVPVFAANGLKALDSK
+>tr|B7RQ95|B7RQ95_9RHOB
+MLEQRLREHLCEIAKKAQPVTYQALAKALELSPPNTIHQLTVALESLIEEDAAAARPLIA
+ALVISKARGGLPGPGFFECAKRVGLYHGHHSGPEASAYHEAEFKRAVEFWQSPSS
+>tr|B7RJF4|B7RJF4_9RHOB
+MNIHEYQAKALLRSYGAPVSDGRVVLKAEDAKNAAGEMDGPLWVVKAQIHAGGRGKGSFK
+EADAGEKGGVRLTKSVEEAAEEAKKMLGRTLVTHQTGPAGKQVNRIYIEDGSGIETELYL
+ALLVDRQTARVGFVCSTEGGMDIEEVAESTPEKIISFSVDPATGFQPFHGRRVAFALGLE
+GKQVKQCVTLMGQLYKAFTDKDMEMLEINPLIVTDSGDLKVLDAKVSFDGNAMYRHADIA
+ELRDTTEEDSKELEASKYDLNYIALDGEIGCMVNGAGLAMATMDIIKLYGAEPANFLDVG
+GGATKEKVTEAFKIITSDPQVKGILVNIFGGIMRCDVIAEGVIAAVKEVGLKVPLVVRLE
+GTNVEQGKEIIKNSGLDVIAADDLKDGAQKIVKAVKG
+>tr|B7RG19|B7RG19_9RHOB
+MLVATAIGALTAAGIYMILRLRTFPVIIGMSLASYAVNVFLFASGRLAINAPPVLTDGID
+TYVDPLPQALALTAIVISFGMTAVAVMLAVGSYLSADDDLINDPDVTDGARADNLSQTDG
+GAS
+>tr|B7RHE2|B7RHE2_9RHOB
+MPRDTHIPNGQEILPEGPDRVAQLTAQVKALNDDLRHHSATDVLRAAIEHVPNLALVSSF
+GAESVALLHLASMVKRDLPVLFIDTEMLFTETLVYQQELGERLGLRNIQIIRAADIAEKD
+PDGTLHQRDPDACCAFRKTVPLQTALQGFDGWITGRKRFQSGTRASLPFFEVETPGDAPA
+RIKVNPLAHWQAGDVADYITENRLPRHPLVAQGYPSIGCAPCTSTVKPGEDPRAGRWRDT
+QKEECGIHFVDGKMVRTGAKT
+>tr|B7RSA7|B7RSA7_9RHOB
+MFRFIAARRFSPSMPRGHARSGFGCRKIEKDCIRHASRRVLPFERG
+>tr|B7RPD2|B7RPD2_9RHOB
+MLRGLDISDMLIIDRLELAFQPGLNVLTGETGAGKSILLDSLGFVLGWRGRADLVRQGAA
+QGEVTAWFDLPEGHAAHAVLEEAGLPSGPELILRRINGSDGRKTAWVNDRRCSGEVLRAL
+SETLVELHGQHDDRGLLDPKGHRAILDEFAANAALRDKVRKAWSALAAARKAAKLAAAER
+DAIAAEEEFLRHAVGELDKLNPEAGEEAQLDVRRRTMQSAEKIRSDVVNAYEMMGQGGAE
+TQLGDALRWLDGVADKADGTLEAPMAALSRAIIELDEAMEGVVAAIDTMSFNPLELEETE
+ERLFAIRALARKHEVAPDDLAGFADTLRNKLDALDAGEAAQAGLEKAVRDAQAAYDDAAD
+ALTAARAKAAGKLDKAVAAELAPLKMERAVFQTQITAEPAGPEGRDAVSFTVATNPGAPA
+GPLGKIASGGELSRFLLALKVCLAKGQTGLTMIFDEIDRGVGGATADAVGRRLAALSQGG
+QVLVVTHSPQVAALGAHHWRVSKSVSKGMTLSTVTPLSDPERVDEVARMLAGDTITDAAR
+AAARELLGDQFAN
+>tr|B7RPF4|B7RPF4_9RHOB
+MIAETLKKGREMGFKPLSVVVLDAGGHVQAFEREDGAAPGRFAIAHGKAYGAVMLGMAGR
+AQMARAEAQAYFMAAINGVYGGSVVPVPGGVLLRDDAGVVIGAVGVTGDTSDNDVEAALA
+GIAAAGLTAEA
+>tr|B7RRY8|B7RRY8_9RHOB
+MTANVPLRPQTDLGRLFLAGGLGAAILVAVLGGWAATTRISGAVAAHGQIDVAGKPKTVQ
+SLDGGVIADLAVANGDAVQAGQILARLDPTLLQINLDMARSRLAAALALRARLEAERAGD
+ATLAFEYADLSGTIRTLNLDMTKAEAGQRAIFAARAEMRRGGRAQAAGSVEDIKTQQRGV
+SDQINAIEQQLIYLALDLESLRSLEGKGLARRQQLSDT
+>tr|B7RS06|B7RS06_9RHOB
+MIYLQLALGFVLLVAGGEALVRGAVSLAARLKVSPLLIGLTLVGFGTSTPELVTSLQAAF
+DGYPGIAVGNVVGSNTANILLILGVAAMITPMSLARKGFLRDGIALAAATALCAGVVLYG
+ALDRSLGAIFLAGLFVYLGVAYLSDRENTARAAEIDGVSHIDALPGSNRMAFALAVGGIG
+ITILGARLAVDAAVVLAGLWGISETVVGLTIVAVGTSLPELVTSVMAALRREQGIAFGNV
+VGSNIYNILGILGVTAVVKPIAVPPQIAQFGIWVMGAATLGLIAVVGATQRISRGVGLLS
+LGAYAGYIYWLV
+>tr|B7RQF8|B7RQF8_9RHOB
+MTRQLYLVDAYHRDAPGRVTAITEEGGIVLDSTIFYPTGGGQPGDSGWLIWDGQRMPIAT
+TVKGQGDAIVLVPAEPLPLPGIGTHVTQTLDWDRRHRHMRVHTMLHLLSVVVPFGVTGGQ
+ISARQGRLDFDMPEAPDDREGIETALNNFVMADLRVSDRWITQAELDAAPELVKTMAVKP
+PKSAERVRLVQIGDQSSWIDLQPCGGTHIARTGEIGALRLGKIEKKGRNNRRIYVHLDS
+>tr|B7RP38|B7RP38_9RHOB
+MVRPTWLNEFLLVHKRKILRVRDWVWVALDHISVRFP
+>tr|B7RJ06|B7RJ06_9RHOB
+MTKTILAIDDSASVRLMVKMTLSGAGYTVVEAADGEQGLEIARSCRPDAVLTDQNMPRLD
+GIGFIRKFRQMQESEGVPVVFISTESDSGVVQQARSAGATGWIVKPFDQEKLLSVVGKLV
+KL
+>tr|B7RHJ5|B7RHJ5_9RHOB
+MTTDSPSQVTGYTAAWVIVFVWSFWLIVSRVANNSGLTVYDLAAMRYGLASVVAVPLCLY
+YKPWRGLSLTQMAVLSFILGPVYILSVFSGFLFAPAAHGGIFMNGILPLVGIILGLVLFS
+AKPSARQMMGAALILVSAVVLAWDGVATRSETAWIGDLLFIIGAVFFSFYMILSERWQLG
+AMQIIFCGTVVNAVLYLPVWALWLPSGIADAPTGPLLLQAVYQGFVPNLIGLLFIAHASR
+RIGNGNTSSILAAVPGVGGILGAVILGESLSLLSIAALGLLTVGLLFSVRKRQMLPP
+>tr|B7RHM6|B7RHM6_9RHOB
+MYNFFPDGFEPGEDDALFGWIFVITQIGFQAMPYVFGLRHFFTWEVEKPILWFFIGSGLS
+IVTTFGILTIISLAR
+>tr|B7RHZ3|B7RHZ3_9RHOB
+MTSAANGPEAGFTLLEVLVALAVLAVGAVSLLTATQTHVTRISDIENRTVARWVADNRLA
+ALRIGVQQPDVVEMLGQSWDVGVTRMETLDLDLQRVDVAVALSSENRNLFTLTGFIDTAG
+DGAQVPQ
+>tr|B7RIS8|B7RIS8_9RHOB
+MMSQTGDFIWRDAGISGRNTRSKVASMTDMPTPLETPLTTLRDAPDWRYMLQECDELYRY
+LPAGGSDKIKTHQRKAREAIARLIKRNAEVRLQPRAEKPVTAHLRRALDEGRQGALAPAV
+RALDAVAPQLSWQYGYEKIPKGLANSYAYAEIAGAQGPVISEDIILGVVLFAPGCTYPAH
+SHKGITESYVCLSGAVSENHQGVYVPGSMIFNPPEHLHRITVGDREPALLAYAWLGEPKD
+LHEQKMVFSRVKK
+>tr|B7RN67|B7RN67_9RHOB
+MTDAKTDLKSMLKDPSLLETRAYIGGKWVDGDDGTFDVTNPSRGDVIAKVANLSRAQVAG
+AIAQAEQAQKEWAKWTGKERAVVMRKWFDLMMANQDDLGAILTAEQGKPLAEAKGEIAYG
+ASFIEFMGEQAKRVYGETIPGHQRDKRITVIKQPIGVAASITPWNFPNAMITRKAAPALA
+AGCAFVARPAAETPLSAIVMGVLAERAGIPAGVFNVVPSSSSSAVGKEFCENPAVRKLTF
+TGSTEVGRILLKQAADQVMKCSMELGGNAPFIVFDDADLDAAVEGAILCKFRNNGQTCVC
+ANRIYVQAGVYDAFAEKLKTAVQKMKVGDGFGEGVDLGPLINPAAGEKVKEHIEDAKSKG
+ATVVMGADGGMDGNFLPPTIMTGVTQDMMVATEETFGPLAPLFKFDTEDDVIEMANDTIF
+GLASYFYAKDLSRVYKVAEALEYGIVGVNTGIISTEVAPFGGVKQSGLGREGSHHGIEDY
+LEMKYICMSV
+>tr|B7RGT6|B7RGT6_9RHOB
+MANPLFDSLFGQHLNNDAVFLHLPDGSAITYAAFLQTAAQYAGLLTRMGLEPGDRLAVQI
+AKSPQALAVYAACAQAGVVFLPLNTAYTPDEVSYFVENSGARLVLCDQAGADGLAPVAKA
+CGATLETLNADGSGSFTDQAKAMPTSFETVTRDGDDLAAFLYTSGTTGRSKGAMLTQNNL
+LSNAQVLMAQWRFTSQDVLLHALPIFHTHGLFVASNITLLAGGSMIFLPGFKLDQVIDHL
+PQATTMMGVPTFYTRLLGDPRFTRELVSHMRLFVSGSAPLLAETHVQFEKRTGMRILERY
+GMTETNMNTSNPYDGERRAGTVGFPLPGTELKITDSKTGETLPQGEIGEIEVRGPNVFKG
+YWQMPEKTAEELRADGFFITGDLGQIDPDGYVHIVGRNKDLIISGGYNIYPKEIELLLDQ
+EEGVLESAVIGVPHPDFGETVVGIIVPQGDTDPNLEQIMTNIAKSLARFKHPQKLIVLPE
+LPRNTMGKVQKKALRDQFQGLFSA
+>tr|B7RHK8|B7RHK8_9RHOB
+MLNDPKLIPFAAKGRNVQAKAKSIVPKPHDIPPEDAYEKLDRIAHASVATATSGLAPSVL
+AEAWMDWAVHLAVSPGKQMHLAEQAIRNSRAIWAACLGHAVPETPDDRRFASEGWQKYPF
+NVWAHAHQTGWQWWQDAMTNVHGVAPAHEDLLAFTAGLVIDTTAPSNFALTNPDVISATF
+SEKGENLICGAKNLFDDIARKTGIAHPSGPHPFEVGRNLATSPGKVVFRNKLIELIQYAP
+TTARVRPEPILIVPAWIMKYYILDLSAHNSLVAFLVAQGFTVFMISWKNPEASDRNLSME
+DYRELGVMAAIDAALSITQAAQLHAVGYCLGGTLLSIAAAAMGAKNDDRLASATFLAAQV
+DFTEAGPLRLFINDSQVTLIEDMMAQEGFLSTDQMAGTFALLRARDLIWAPAIRDYLLGH
+RGTSSDLMAWNADATRMPAKMHSEYLRKLFLNNDLTEGRYHVGKDAIAIADIRAPIFAVG
+TEDDHVAPWQSVYKLHLFADTGVTFVLTNGGHNAGIVSEPGHPGRHFRIGRTPANAAYRD
+PDDWLALHAPKDGSWWTPFADWLAERSGKPQAPPPLGAHSGACKAMCAAPGTYVMQP
+>tr|B7RMV8|B7RMV8_9RHOB
+MLKTVLSALFILTAQAAAADYATIKSVRATQKGGLWSFTVTISHEDRGWEHFSDAWRVVD
+KTGKQIAIRELIHPHVDEQPLTRSLSGIDLPDNMKEVGIQVRDTVGGWNPEIKRVPLK
+>tr|B7RR09|B7RR09_9RHOB
+MTDTHKFSLAVHGGAGTILKANLTPELEAAYHAGLRAALDAGYKVLAAGGAALDAVTAAV
+CALEDEPLFNAGRGAVYTSDGVQEMDAAVMDGATRNAGAVGGIFGPRNPIRAARAVMENT
+DHVMLIGPNALNVARDAGLDFAEAEYFFTQARWDALQSTLKMRKDGVEDDDPARRHGTVG
+AVACDAQGNVAAATSTGGMTAKAPGRIGDTPIIGAGTFADNETCAVSGTGHGEVFIRYTA
+AAEIAARMRHAGQSLEEAATHVVMHDLANNDGSGGLIAVDALGNITMPFNCEGMYRGMVT
+QEGLFDTFIYR
+>tr|B7RI93|B7RI93_9RHOB
+MTETLPAPLPPALTKAQQAHVINILRRAARAEVMPRFRNLAASDINIKSGPNDLVTAADL
+AAEAMITRALRHLFPTALIVGEEAVAADPSLPDKIGDAPLAFLIDPVDGTWNFANGLTVF
+GMILCVTRYGKPAFGVIYDPVIDDWVVADSAGPARLESPLKAPRDLRVSMGKPIEEMTGF
+VPLGVLRMDMRVKLAATLPSFGRANSLRCSAHEYRTVAQGNADFVLSGSTHPWDHAAGAL
+ICAQAGGHVEMLSGGPYDATLKSGYLLAAPDKTTWNRLRKVFSFLVE
+>tr|B7RFR3|B7RFR3_9RHOB
+MADEIKTLEGLEAAVTENAAAEVELTPREPVRDALGRAYATGKRKDAVARVWIKPGSGKV
+IVNGKPQNEYFARPVLQMILAQPFTITGTDGQFDVVATVKGGGLSGQAGAVKHGVSKALQ
+LYDPSLRGALKAAGFLTRDSRVVERKKYGKAKARKSFQFSKR
+>tr|B7RM19|B7RM19_9RHOB
+MTGLGWFAAIIVGGLAGWIAEKIMKSDMGLIMNIILGIIGAVVANFLLVAIVGATLGGWI
+GQLVVGVIGACLLIWVTRLVRGRT
+>tr|B7RPL4|B7RPL4_9RHOB
+MDHHLLSIITFMPSFAALILAVFLRGDDAAAARNAKWLALISTSVTFLISLFILFDFDPA
+DTGFQFVDEATWIMGLQYRMGVDGISILFVMLTTFMMPLVIAASWNVDTRVKEYMIAFLL
+LETLMLGVFMALDLVLFYLFFEAGLIPMFLIIGIWGGANRIYASFKFFLYTFLGSVLMLV
+AMVAMYADAGTTCIGGCEVSLLTNTFASETFTVAGISVVGGMQTLMFLAFFASFAVKMPM
+WPVHTWLPDAHVQAPTAGSVVLAAILLKMGGYGFLRFSLPMFPVGSDVIAPWVLWMSAIA
+IVYTSLVALVQQDMKKLIAYSSVAHMGFVTMGIFTFNQQGLDGAIFQMVSHGFISAALFL
+CVGVIYDRMHTREIDAYGGLVNRMPAYALVFMFFTMANVGLPGTSGFVGEFLTLMAIFQV
+NTWVAAVATTGVIFSAAYALWLYRRVVMGDLIKESLKTITDMSGRERWIFAPLVVMTLLL
+GIYPALVLDIIGPSVTALVASYDTALEAAGAAVQMASE
+>tr|B7RM91|B7RM91_9RHOB
+MAGLTLRNVRKKYGEAEVMHGVDLDINDGEFVVFVGPSGCGKSTLLRMIAGLEEISDGIV
+AIGDQEVNNVAASKRGVAMVFQTYALYPHMTVYKNMAFGLKQAKTDPAEIDRRVQAAAEI
+LQITDYLDRSPRNLSGGQRQRVAIGRAIVRDPKVFLFDEPLSNLDAALRVQTRLEIARLH
+QRLKTTMIYVTHDQVEAMTLADKIVVLRSGRIEQVGAPIELYERPANAFVAQFIGSPKMN
+FFTAADMTDTAALQLGRNVTPSEHAGLRPEHLVPVTGDAVVVEGRLELVENLGEYALVHL
+ITKTGVEFIAKTEKPPLAAKGETIGFGIRPELAHFFDRETGARL
+>tr|B7RGU9|B7RGU9_9RHOB
+MARATAVWLVDNTTLSFKQIADFVGMHELEIQGIADGDVAQGVKGFDPVANNQLTEDEIE
+KAQANPLHKLKLKFNAAAQGEEKRRGPRYTPLSKRQDRPASIYWLVKFHPELSDGQISKL
+VGTTKPTIQAIRERTHWNIANIQPIDPVALGLCKQSELDAAVQKAAAKKAAEGGLMSDDE
+RRRLVSTEQSLGMDTEPKIPTAIEELETFTLSGNPADDDDRDRGDYSDADSFFKLPENGA
+DDEDEDDDK
+>tr|B7RM05|B7RM05_9RHOB
+MSTPIYAIGDIHGQLEDLHRVLGLIETDGGKDARIVFLGDYVDRGPDSKGVVDLLMTGIA
+DGRNWTAIRGNHDRYFTRFLDDQTVYDPATRADLFWMNPRLGGDKTLLSYGVTGQDGAPV
+GPIHKAALQAVPQSHRDFLANLPNIHTTEHLIFVHAGLRKGIALQNQIEDDLIWIRSDWL
+TQPHDFGRIVVHGHTTVDYPEHHGYRINLDAGAGYFKPLQAAVFEGQDAHVITDKGRIPL
+RP
+>tr|B7RQK2|B7RQK2_9RHOB
+MRALDRTPIANLVEMARLFEETLFDGLDGAGSDLFDAWLRSEREDAETSRVAILRQLATH
+PDINEVAAKKWRHLWHEADPDAAEAYRSASSALVSSTQAGPQPANAHFRALEAEALKAQR
+IGFCEVRYGTKIAYAIVETGNPFAKGRKLAHAS
+>tr|B7RSG7|B7RSG7_9RHOB
+MYVEATRSIRQAEVRSVRTMLDRIKDRHDLAPERLIADSAYGSGPMLGWLVDRKINPHIP
+VLDKAGRTDGTWSRADFEWDAENNQYICPEGEPLKQFRRNYSDPNRGPTGKGVAKYQALK
+HTCQACQSKMKCCPNADARKITREEHEDARQVARDIAKTKQYAISMRLRKKVEMLFAHLK
+RILGLGRLRLRGPCGANDEFLLAATAQNLRKLAKIFPAPQQTRKA
+>tr|B7RJ36|B7RJ36_9RHOB
+MLHNDKLEQWDRENFFHPSTHLAEFARGNIPQRVIKTASGVHIEDRDGNRMLDAFAGLYC
+VNVGYGRTEIAEAIADQAKELAYYHSYVGHGTEASITLAKMVLDRAPDHMSKVYFGLSGS
+DANETNIKLIWYYNNILGRPQKKKIISRWRGYHGSGLMTGSLTGLDLFHKKFDLPLAQVI
+HTEAPFYFQRKNLDQSESEFVAHCVAELEAMIHAEGADTIAAFIGEPVLGTGGIVPPPAG
+YWPAIQEVLDRHDILLVADEVVTGFGRLGTMFGSDHYGMRPDLITIAKGLTSAYAPLSGS
+IVSEKMWAVLEKGTDENGPIGHGWTYSAHPIGAAAGVANLELIDKLGLVENAGTVGGYLN
+TQMRAALADHPHVGDVRGEGMLCAVEFVADKDSRTFYDASDKIGPQVAAKLLEQNNVIAR
+AMPQGDILGFAPPFCLSKQEADEVVAATHQAVTSVLG
+>tr|B7RQ29|B7RQ29_9RHOB
+MRKDRHVTKTLFAAALVGAGLTLGACAPQYKNHGYIPPQEDLDQITVGQDTRDTVAQTVG
+VPASAGLLTNSGYYYVRSRRKAIGFLAPQEVEREVVAVSFNAQGVVENVERFGLERGNVI
+ELDRRVTSSSVKDRSFIRQLLGNIGRFNPAGLAG
+>tr|B7RRV7|B7RRV7_9RHOB
+MKKTTLRSDTVEALSLQDLCRFCHADETWVVDLVEHGVLEPVGSTSGNWRFVGTNIVRAK
+KARRLNRDLGINTAGVALVLALLEERDTIMRRLAQHEPV
+>tr|B7RKN5|B7RKN5_9RHOB
+MKDQADGYITADGRQIGPVVMEMKNITLRFGGVEAIKDISFDIREGEIRAIIGPNGAGKS
+SMLNVISGFYVPQEGEVWYKGARRAPMKPFQVAEQGIARTFQNIALFEGMSVLDNVMTGR
+LTHMETGLFWQSLWKGKAEREETANREVAEKIIDFLEIQAIRKTPVSRLSYGLKKRVELA
+RALAAEPSILLLDEPMAGMNVEEKEDMSRFILDVNDEFGTTIALIEHDMGVVMDLSDRVV
+VMDYGKKIGDGTPHEVRNNQAVIDAYLGVAHDD
+>tr|B7RLS7|B7RLS7_9RHOB
+MPTCLIIEDSRFDQQRMTRMINKFAEDMQVYVATTLREARRTLAENRVSVILLDNNLPDG
+LGADFAIELADLKVFSHIPVVMVSDWPSPFMWEKAATAGVLHVVNKAEFGKHYLMDALRH
+AKTRQAPVH
+>tr|B7RMC6|B7RMC6_9RHOB
+MHLDVQDLRNFYYRSALGRAAQHALRSRMLELWPEAKGQTVVGFGFAAPLLRPYLADARR
+VMTLMPGPQGVMPWPAGMANTSVLTEETLWPIETGHVDRLVLLHGLETSERQGDLLEECW
+RVLGPGGRALFIVPNRAGLWARRDITPFGYGRPYSPGQLETQLRKHQFLPERQLGALYQM
+PSNRRVWMRSGKLFEKIGRHMPTMMAGGAFMVEVTKLVYPPKGKASRVPKRRSIRMLDGV
+GSNVPKPV
+>tr|B7RRY9|B7RRY9_9RHOB
+MLVICLIAGLLTGLASALVAFIAGYGVAGVVGFYTLGGALGLCICAGASVALRRSNRDPS
+HAPQNRTRQRAQENDH
+>tr|B7RR51|B7RR51_9RHOB
+MCEHASDHIPADLNDLGLDAAARRSHAAWDIGALDVAVGLSRILDAPLIAGGISRLVYDC
+NRPLAAPDCIPTRSEVHDVPGNVGLSVAEKQARFDRVHTPFHDAVASLLDTRNSPILVTV
+HSFTPVFNGVTRDVDLGFLCHSDAATAQALVAQEQTDGSFKSALNEPYAPTDGVTYTLEK
+HGESQGLPAVMIEIRNDLIDTPVKAQKMARHLGRSLIAVCPTVRNEAAQ
+>tr|B7RJW3|B7RJW3_9RHOB
+MEFQLPKEIQAGLDAARVDSLRKASRLWLEVDGDRYKVLRYWGTGFSMEAETAPHLRGLV
+DLHDGAAHLFQCLIVAAQEEGGEMQFEFKRATKVAEKAALDFERAADAPAGLIAHDASL
+>tr|B7RMK6|B7RMK6_9RHOB
+MHPNPIYHDADAARNISFARDRGFGILAASGAGAPMLSHVPFLLNEAGDMAELHLVRSNP
+IARALAEPLDVKIAVTSGDTYISPDWYGIEDQVPTWNYVAVHLTGVLELRPPEELLSLLD
+RQSAAYEGRLLPKAPWTTAKMQPETMEKLMRMIVPCRMKITGVDGTWKLSQNKSDAARLE
+ASQGVAAHGFGSDTEIIAALMRDTIGS
+>tr|B7RNX3|B7RNX3_9RHOB
+MKTIEHVTGYLDSLSLSVKTLRLVALVVGVGMSAVGYYFRGSEHPILSENADTIWLVGLS
+MLLLANLVLVFVDKQSVELLKSLHAKETEVEATEQTVSELSHDNTTLTAWLALTKLLSEL
+TDQAMAADTVDRETTIRLYKAAVEFIAEYKGRLFGFNDDYANIAIYEFDQSRGELVCVAC
+YRTRPSDAEVEHRSWKPGEGHVGKAYELQTELVCSDARVPDVSAWISAPPEKFREEDTNR
+YVSLAAIPIALEAERPLGVVIMTSSEPYRFVNFQQVDDDPLMQRAKYSVAALQDIAAQIA
+QLMFILRSKRNNQEGETDDK
+>tr|B7RHK5|B7RHK5_9RHOB
+MTEFFSEDDVVTTVPRLTRSQLVRFVEVDLVRPTRIDGQPLYRHIDIARLELLCDLSEDF
+DLDDTVLGILISLIDQLHAARRDSVVMARAIETLPTDLRSRISAALSQG
+>tr|B7RHZ7|B7RHZ7_9RHOB
+MNAFNRLSLRERILVLIALPLVILFAGYRFGWVPLSEARTAARVEIQGYQTLIEAAENQG
+NQPVEVATVAVVTTPLATRITDSAARAQVLVRRLEPEGALVRVTLDDAPYDAVIKWIAAM
+ETDAEIALVAIEMDRRTAPGIVAARLTLENAQ
+>tr|B7RIR2|B7RIR2_9RHOB
+MVYVTSQGALNAEQLTALRDLSLDLEFVEGVTAVASPFVLRRPPSVEAPSGMPLFGTQID
+ATFADDLTTFEALDTGLPTFVNHTLTAMLLSVSIDTDQTTIATAMTDIQAELDRALPAGL
+SASLTGEDIISNEIVSGLKDDLIALNVWGALVIALAAFALLRDLRLALLAVVPALLGASS
+VLALSVWLGYPITVLSNVIPILLLVLGVADGVHLTAHLKENGSLRGAIEDVGPACALTAL
+TTAVAFASIMFTGNAQLFEFAILGAIGTTLSFVFVIVTFALLGRIIPLSDEPIPQTSAVF
+ANKLTAIGASLPSATVATCILTLVAATWGFSETKAWFPLYQNLPDSSATLRTNDAIADDF
+GGVFQMIVETTGDWVQRQNLVAQLEAVSPSKTVLSEVNFARWLGHPNEQPTAEELETLPN
+ALVDQLRSENDTASIFVSMPEPMRSDESLAHFDLIYDTAVTAGADTIIGLPTIMRQEAVS
+LIEQLSYGLIVASLGATVLVAIAFRSARLIPVLIIPNTLPLMITGASLHFWAQGQLSPTA
+VLALTIAFGIAIDDTVHFLNRFYNAKANGETSAKAVTTAAKSAGQVMVLTTLLLTVGLSV
+TLFSDFTPIRLFGGMMIATLWAALLIDLLLLPALLTWKRTADVSV
+>tr|B7RN23|B7RN23_9RHOB
+MARAFLVVMDSAGIGGAADAGTFFNGEVPDTGANTVGHIAQACALGRAEDGRSGPLHVPN
+LVALGLGAAVELSSGLRADGLDGDVTGTWGAASEVSRGKDTPSGHWELAGLPVPWEWHYF
+PDVTNSFPPELVAQLAEFAGTEGILGNCHAPGTAIIEQFGAEHIKTGFPICYTSADSVLQ
+IAAHEESFGLQRLLDLCARMAPIAHEMKVGRVIARPFVGDEETGFVRTPNRRDFAIAPPS
+PVLSNWVQNAGGHVYAVGKIGDIFSMTGFDELRKGPDDVLIRHLGDLVETATDGSLTFAN
+FVEFDSLYGHRRDVSGYARALEWFDAEIGKLIGKLREGDIMVLTADHGNDPTWVGTDHTR
+EQVPVLVAGLGAGRLGLIGFRDVAALVAGHLGVAVPG
+>tr|B7RQB6|B7RQB6_9RHOB
+MRKTFSALLVSTLVLTGCATVRDSRVNPFNWFGTAQSEPRAQTAANTNPLIPQSAGLFAS
+ARAKTEVYLGQPMDQVTNLTVEKTPGGAVIRATGLAARQGIYKVQLTPANEDELPVDGVL
+TYRLEGIQPVNTSVGTQPTREVIAARAVTDQMLAGVRMIRIEGQRNALTSRR
+>tr|B7RMJ1|B7RMJ1_9RHOB
+MIKLLHVEDDADIREIAKMALEISGEFEVVQCDCGEAALKYVADYVPDVLLLDMMMPGMT
+GRQTLEQMRTNPALATVPAIFMTARAQNSELEELRAIGATEVISKPFDPMSLSDQIKAAI
+S
+>tr|B7RRU6|B7RRU6_9RHOB
+MVDKPQTQTPKTSSATDPFSAMTQIQKAGFGSMMGMGTAWVEALSDMSAEMADFVAERIK
+EDVKVQHELLHCKNVANLQHIRGQYLQRAIDQYQAETSKLVEMGTKALKLPDGEDRS
+>tr|B7RG18|B7RG18_9RHOB
+MTHWLVLPIVLPAMLAAMLVLAARYHLVIQRVVSLAGTTALLGLAIGLFWQASDGTISLY
+QLGNWPAPFGIVLVGDRLSTLMVLITCVLAPLVLLYAIGSGWDSRGRHFHPLFQFQLMGI
+LGAFLTGDAFNLFVFFEVLLIASYGLMIHSGGQKRLRAGSQYVLYNLLGSTLFLFALGTL
+YAETGTLNMADLAQRVATLDVGDSSGIRVAAVLLLMVFAVKAAILPLHFWLPASYAEAPA
+PVAALFAIMTKVGAYCIIRMYTLVFPPDLELTQGLFDVWLMPAALLTLMLGMLGVLGAKR
+IDRMVAFSVIGSMGMLLASVSVFTQTGITAALYYAIHSTFAAAALFLLVDVIRARRGAAA
+VSFGDAPPILGGALVAGMFFVAAIAMTGLPPLSGFIGKLLILDAARSSDLMWWVWGAILV
+GSLIAVVGFSRAGSVIFWKAHQARDEEIDVETPEAEPSTALAMVSIGGLLAVMIALTIAA
+GPVTRVLSATSAQLFNTAPYIDVVLTTPGKQINSDHDDDHEADGVKAAEDDHDGPAASDG
+HGSTVKDN
+>tr|B7RHW0|B7RHW0_9RHOB
+MTALPSFLETPGGRRLAYHRLEGDGPCIVFLGGLKSDMQGTKAVHLEAWARSQGRAFLRF
+DYSGHGESSGAFTDGCIGDWAQDTLAAVTALTDGPIVPVGSSMGGWQALLLARGLPERIA
+GLVTIAAAPDFTEDGYWASFTDAQKQQLDTEGQVELPSDYMEPYVITRRMIEDGRDQLVL
+RSALNLPFPTRFLLGTADTAVSVATAVRLLEHAQGPDMELKLVKDADHRFSDDKCLKLMV
+EALTEVLTKAA
+>tr|B7RLH4|B7RLH4_9RHOB
+MHTGHYISGAGHLGLIAFLLFGSIFTADPEPFEMQEVSVISGAEFDALVAASQQSDQATD
+QTPDQAPDISQPEAPAAPVEEPQVAATPDEEIQQPPPVQTETPPPDAVPEVAEQVPPPAA
+EVSDQAPESPEPPAEVAVLAPEVAPVAVPRPVDRVAPEAVAKPDPEARPDVVEQQAATPD
+APAETVVEESQQATAPEEATTEIVTEAAEAPKAAPNQSARPPARRPTPPAPQVAEKPETP
+VETPAKPEPKPTPKPAAETPAKPAVDTDAVAAALAEALGSQNTPAATAAAPSGPPLSAGE
+KESLRVAVSSCWNVGSLSSEALSTTVVVSVAMNQDGTPQNGSITMTGSSGGSQAAANQAF
+EAARRAIIRCGARGYQLPVDKFGQWQNIEMTFNPERMRIK
+>tr|B7RL52|B7RL52_9RHOB
+MSPNLIGALFMVGSMAAFTLNDTMTKTTGGAVPLFQLLFLRGLISISLILLLWGRLGPMH
+FRLSRRDWKLVAIRSGSEVAASFFFVTALFNMPLANLSAILQSLPLTVTLGAALFYREPV
+GWKRLSAILVGFMGVMLIVKPGTDGFNVWSVYALIAVLFVTIRDLSTRRLSKTVPSMTVT
+FAAVLSVTVFSTFAQLATPWAPVSATHWWAIAAAAVFVLMGYYFSVQTMRTGDVSFIAPF
+RYTGLVCALILGWFVFGDWPLPSTLIGAGIVAATGLFTLYRERKVSRYHVTALRK
+>tr|B7RMR4|B7RMR4_9RHOB
+MTRYLASRMSSVQPSPTIELALNLQQMKAEGHDIISLGQGELDFATPGHIAEAGIAAIRN
+GQTKYTASSGTPELKAAIAHKFLRDNDLQFSAAQIIAGNGAKQLVFNALLATLDPGDEVV
+IPAPYWVSYPDMVRLAGGTPIIAPTRAQDGWKLTPETLSEALSPLTKWVLLNSPNNPTGA
+LYSKADIAALCDVLADHHTLIMADDIYEMIVHEGSFATPAKVRPQLADRILTVNGVSKGY
+AMTGWRLGFAAGPEWLVRAMDILQSQSTSNASAISQAATVTALKQTPDFLPERNARLKAR
+RDMVIAAIADMPGMTAPTPPAGFYVFVDCSGLFGARTPQGTVLETDIDVADYLLVEGRIG
+VVPGTAFGTPGHLRLAYALEDDRLRAAMHRATDALRKLAIPVAA
+>tr|B7RR43|B7RR43_9RHOB
+MIQMPLLACNAFNSVIEYFRKFDLPRLWKSLEFLTSDIACDFGNPPVGQA
+>tr|B7RHQ8|B7RHQ8_9RHOB
+MSGELSPIDKAKFVAAKRAAQFVEDGMRVGLGTGSTAAWLVRCLGEMVRDDGLRIKGVPT
+STRTAQLAREVGIEVISLDEAKWLDLTIDGADEFDGELNLIKGGGGALLQEKIVATASDQ
+MVVIADIGKEVETLGAFPLPIEVIPFGWQTTQALVEETLISMDVLGRTSTLRMNGDIPFI
+TDEGNYIMDLHLNRIGNARQLSLVMNQMPGVVENGLFIDICDAVVIGFGDGRVEVRDINA
+GTVDRDRLDFVETDNLFTDLSD
+>tr|B7RLQ6|B7RLQ6_9RHOB
+MLALPLIALAACGFQPVYGPGGNGAALQNSVQVDAPDDAFTYTLVREIETRLGQSNAPRF
+ALAVNVVTREEGLAVDSADNTTRYNLIGSADFALRDLGTGQVETSGKVENFTGYSATGST
+VATLAAERDAQIRLMTMLADQIVTRLYATSLTP
+>tr|B7RRX7|B7RRX7_9RHOB
+MELKDEIIINAPRAVVYAALNDPEILRECIPGCEELIKHSDTELEAKVVLKIGPVKARFS
+GDVTLSPDAPPERFSLTGTGNGGAAGFAKGGAEVELEEHPEGTLLRYNASADIGGKLAQL
+GSRLIQSTAKKLAAKFFKKFAETVSEHEVS
+>tr|B7RH31|B7RH31_9RHOB
+MIFGELKMKFVSGVTVAALLGGAAPVWAQTAAEVDCGYQAAVVEAVRQARIERVKERKVP
+EHVAASAPTWPEKYNAVVPLVAPWVYEMKMRDVKANDLGAAWNEMCLAR
+>tr|B7RJC4|B7RJC4_9RHOB
+MALRQHPNIMKLGRPFMTLMTKFLGAAAVTALSAGAALAEPALIFDLGGKFDKSFNEAAF
+SGAQRWAEETGETFREIELQSEAQREQALRRFAEAGSNPIVMTGFAFGDALGQVAGDYPD
+TDFVIIDMVVDAPNVRSVVFNEHEGSYLVGMMAAMASKSNTVGFIGGMDIPLIRKFACGY
+AEGVKAVNPDATVIANMTGTTPAAWNDPVKGSELTKAQISQGADVVYAAAGGTGVGVLQT
+AADENILSIGVDSNQNYMHPGKILTSMLKRVDNAVYQAMADGPGMEKGFNVMGIANGGVG
+YAMDEFNKDLVTAEMQTAVDEASAKIADGSLMVHDYMSDDSCPALSF
+>tr|B7RKG6|B7RKG6_9RHOB
+MKHLKMTALAATAAIALTPMANAETLRHAIGSAGVSGLIDGTEAWADYIKEQTNGETEIK
+IYAGSLLNFTETFTGLRDGIADSGFVVPAYHRAELPYANLLSDMGTAGVDPVAMAGAANE
+FMFTCASCLAEFNAAGQIFLGNTVTGPYYMYNQKPVKALADFEGIKVRGFGPFARWLDAM
+GASTVSLGATDIYESMSQGHIDGNVHTLETLDTLSTGEVADYALNQPIAVFIGNTMFNVS
+AMTWAGLSAETKRAMIDGAAIGHAIATIDSVNQAEAILNEPQAHGVELLEPEADVKDKSE
+AFRTSDMDTVVTLNRDEYGISDAEAQVARFQELVAKWDALVKDIDTSDVKAVGDLYLREV
+FSKIDPASLG
+>tr|B7RNM2|B7RNM2_9RHOB
+MSEFALSQLMQAVERLIMVATVTARDGDRAKVKWADGAESDWLKIAQLGSAELKFWIPPS
+VGTQVVVLSPGGNTAHGIIYPGPFAGGVPAGNFAGTITGDGDVVCSGISLVSHVHGGIQP
+GPGDTGAPK
+>tr|B7RNT9|B7RNT9_9RHOB
+MSDPVTNAEVEDVLSSIRRLVSEERRPLNRAKPEAKFEDKLVLTPSLRVSNDAPLVDAYK
+KQAPDVSPTEWDDRAVVDVADKDVLEDRFAEAETAEGQTGAGAFDDLYPALDGDADADVQ
+AWQDHDDASAGGPDSFDFSNPLHNFDPTSDEFDIEPLKLHNPRKEVQADEPAKSAEKPLP
+SFTTSRSNILNLGDSELVEDVPPTPDRLSAKIAALESAISRIPENWEPDAPGDDDYSGSE
+APAMVWEDDVEFDAKGAPLRQVKTPQPDEAIESAVKDVQTDTTDDHSAEGARLAEEFRLA
+EASRFARDEDHFDEDEGTADAGIGLGPEEFLDEAMLRDLVSEIVRSELQGVLGERITRNV
+RKLVRREIHRALTAQDLE
+>tr|B7RRJ4|B7RRJ4_9RHOB
+MSFKVLSAEIIHETNTFNIHPTTLKSFEGRFLLDGARAIAERGDQNTELAGLLDVGRDHG
+WDITHTISAAAGPGGVVTRDAFDALVAPLITAANGTWDGVFLMLHGAMVTDLHEDGEAEI
+LRRVRAVVGPDIPVAVTLDPHANVTKAMCGLAQILVSYTTYPHVDIRATGRRTAEILHRA
+MSGDIRPVTLRARRPMLEEANGGRTDQGPMIERHALARAFEARKGVYAISINGGFPCADI
+ADVGPTVLVTCDGDTGPHRQIAETLADDIWERRNDALNSYLSSAQAAGIAKTWMPCAGPL
+VIADYADNPGAGAYGDGTNLLAALLDAGVRNACFGPMVDPDAAAFLNTQDIGANVSLKIG
+GTTAPDIGGGPLRVTGTVKWKGDGYVIGSGPMMRGLTRDFGATVVLDVAGIEILIVTLPH
+QMLDLRQFETFGIDPALKTVVALKSMQHFRAAFTPIAGRIIVCDSGALCTLNYGSLGYKN
+VRRPVFPLD
+>tr|B7RKA1|B7RKA1_9RHOB
+MKIKQQLGTVTVAALGLAVVPALAQAQSAGPVWDFYGQLNLGVVSVDDGVDSNSAFTDND
+NSNSRIGLTMTQALQNGSELKLTLETGLGLTGSSSLNGQDNDFDGEYRRTELRKLDLSYR
+TPTMGTFSFGQGSTSTDGSAEADFSGTGVAAYVGISDIAGGQSLRFADGTLSAVSIGNTN
+SSFDGSRRLRVRYDTPVFSGFSASVSAGQEVLKSGDDNDYYDIGTRYANDYGDYKVDARL
+GYSFRDSTNDLVMGSTAVLHEPTGLSLAVSAGRRVGGEGDYAYIKAGLTRDYLAIGSTWF
+SIDYYDGNDFVVAGSSTSSVGVAVVQRLDQYNTELFATHRTYEFDSASASYQDMDVTFVG
+ARWKF
+>tr|B7RPU1|B7RPU1_9RHOB
+MPLPQRKPKGFATDTGRVRSPLDDVQAAGN
+>tr|B7RK59|B7RK59_9RHOB
+MSQMIFADSLSRLGTESAFTVLARAQALAAQGHDIINLGIGQPDFQTPDHIVEAGIKALR
+DGHHGYTPANGIPALREAVAADLHKRHKVEVNPDNVVVVPGGKPTMFFAVLMFGQPGVEI
+MYPNPGFPIYESVIRYSGATPVPIALEESNGFAFSAEAVLDQITPRTRLIIINSPANPTG
+GVTPRAEIDKFVAGLADHPHVAVLSDEIYSQMLYEGREHVSLLQYPEIRDRLIVLDGWSK
+TYAMTGWRLGFAVWPDDAVGPATKLAINDHSCVNAATQYAGIAALTGPQDAVADMMVAFD
+ARRRLIVEELNSLPGVRCSDPGGAFYAFPNIEGTGMTAREAQDRFLDVAGVATVAGTSFG
+SYGEGYLRFSYANSTDNISEAIRRIREIL
+>tr|B7RGH8|B7RGH8_9RHOB
+MVHRRLAELKLAFMLFTRFPVGRLKDVIPDVGASGWAWPLTGFAVAVPASLVYLLLYTAG
+LGAQVSALGLVATLALCSGAMHEDGLADMADGFGGGRSKDQKLDIMRDSRIGSYGVLALI
+FAVAIHASLIARLQDPSLVIPAAIGLSMASRGCLPFWLRWMPPARQDGLGQTVSIVSKGT
+ALAAIAIGFAGLLAVGLLPAIVGFCAVMACGAAVSGLAMKQIGGQTGDVMGSIQKLSEIA
+GWTVITLLMASTS
+>tr|B7RPR4|B7RPR4_9RHOB
+MGQPKPLCTREISYAHSARSGPGRAMIRLMENTTGRLGLIRRAHGYETDMAGGGCFFDVM
+AQRYGLTLDVAGGSLANIPRTGPVIFMANHPYGILDGLMLGHMMSRTRGDFKIMAHSVFN
+RVPDLGGHLLPISFDETKDALALNLHTRKTALAYLGQGGAIGIFPGGTVSTGARMFAKPM
+DPSWRNFTARMIAKSQATVVPIYFDGHTSRLFQIASHLHSSLRMGLLIKEFRKRVDTPVR
+VVIGDPIGRNVLNPLAKDAKAMMDFLRKATYELSPDPVRSFDLGFDFEDRHRADR
+>tr|B7RNU1|B7RNU1_9RHOB
+MPKINGNEIRPGNVLEHNGGLWAAVKVDHVKPGKGGAFAQVEMRNLRNGSKLNERFRSAD
+KVEKVRLEQKDQQFLYEDAGMLVLMDTQTYDQVQLSAELLGDRRPFLQDGMMVVVEYHED
+EALNASLPQKVTCKIVETEPVVKGQTAANSFKPAILDNGVKVMVPPFVGPDEDIIVNTDT
+MEYSERA
+>tr|B7RRI0|B7RRI0_9RHOB
+MTPAPTIRLRGTYHIEGQQLFGPIDVTLPAGQWTCVLGRSGVGKSTLVRLCAGLPCTGEF
+DGQITASDGADLAERVSFMAQSDLLLPWLSVLENTVLGARLRGQAPDIQKAQGLLDRVGL
+SAHLHKKPSALSGGMRQRTALARTLMEDRPVALLDEPFGALDASLRADMQELAAEVLADK
+TVLLVTHDPAEAVRLGHQIIVLTPDAAEKWPTPPEMPIRDQYAVATISCQAGLLARLRQS
+P
+>tr|B7RJD1|B7RJD1_9RHOB
+MTTPALTYSDDQAAAFDSVAEMLRLAGIDLEDSLLMPPAGGKDQVMAVTGKAGSGKTLLL
+AELYKALEAAGVEIVSGDYESRKRKDKRSLAILAPTNKAASVLRLRGVPATTIHRILYTP
+VYDPEYERIAEWLAGNGERPVIEGMNEVSLDRAFAFYANNKSIPGALAAAGLRGSDFITG
+WKRREEPLDIGFVDESSMLDDKQFEDLKEIFPTLLLFGDPAQLAPVGQSGTMVFEKLPKG
+RVLNLSRIHRQQADNPILDLAHALADPDLTFEQFERMIEAASKKDDRVVWGQRVEVDLMA
+RSPVLVWRNATRIRLINAFRAVHGAPEDALLEGEPLICDGIELPLKHRKKRLDLEARGLI
+KGAQVIYLGNGRKPGFSRLHVMGAEDPQISAASIVKIEKPDEEEPFIPFAARMGATFLHG
+AAVTIHKAQGSQWDTVQVFAPDLYAAARMGRSEAGQPLWKRLAYVAITRAQERLIWVVRN
+RLSKPTGVLRVDDLRAAPAAPLRLAIETEKEET
+>tr|B7RK17|B7RK17_9RHOB
+MTDQNGAFFHRDRNWHPPALTPTYKTSVVRSPQKALISMNTTLSEQTGPVFGHDILGALD
+NDLILNYAAAGEMAIGQRIIVHGRVLDQNGRGIPGVLLEFWQANAGGRYRHKKEGYLAPL
+DPNFGGCGRTVTDAQGGYSFRTIKPGPYPWPNGVNDWRPAHIHFSLFGSGFAQRLITQMY
+FEGDPLIWKCPIVKTIPSREAIEQLIAPLDMENTVPMDARAYKFDMVLRGRRSTLFENRL
+EGN
+>tr|B7RFM1|B7RFM1_9RHOB
+MTFSAPFDNSFAALPAGFYTRITPTPVADPKLLAFNDSLAKTLGLADAGADDLAFTFGGN
+ELPQGADPLAQLYAGHQFGNYNPQLGDGRAILLGEVVDSDGNRRDIQLKGSGPTPYSRGG
+DGRAWLGPVLREYVVSEAMHALGIPTTRALAAVATGEDIYRETALPGAVLTRVASSHLRV
+GTFQVFAHRGEVENLRTLTDYAIKRHYPQADGPMGLLRAVCAAQADLIAAWMSVGFIHGV
+MNTDNCSISGETIDYGPCAFMDAFHANRVFSSIDRQGRYAFSNQPQIAVWNMAQLATALI
+QQMDVADDAIAEATEIVHAMPGLIEAAWLKRFAAKIGIAKAEPDDAALIEDLLALMQRDG
+ADFTNAFHALSGDAAQDQFADRDAFAVWQSKWLARIASEPDPKAVMQAANPAIIPRNHRI
+EHMIQAAVAGDMAPFDRLLKALATPFETTDADLHTPPTEQEIVPATFCGT
+>tr|B7RIR9|B7RIR9_9RHOB
+MRDIAADLGYSETAFACPKGDAWHVRYFSPESEVPFCGHATIALGAALAAQEGDGVFKLI
+LQGAEITVEGRTTDGGMHAALQSPPTQSEAAKPDLTEAALALFGLNPGDLDPRIAPAFAQ
+AGATHLILALKSRQTLAEMSYDLDAGRALMRAHDLVTIALVWAEGDQLFHVRNAFASGGV
+LEDPATGAAAAAFAGYLRDMAWPHGGEITVIQGEDMGAKSIIRAKIPPEIGSSIRVSGEV
+RQL
+>tr|B7RJ70|B7RJ70_9RHOB
+MGQLGTFLLERFSEPTLMALAGLFGGVLLGLAARLGRFCTLGAIEDLYYGASSVRFAMWG
+IALGVAIIGTFGLSAAGALALTDTLYLGIAWNPWASIVGGLIFGYGMALAGNCGYGALAR
+MGCGDLRSFMIVIVMGVSSYVALGGPLSAARLAIFPVNDAGPNPASLAHLASSFLPFDLH
+VTGITIGVLIILLTLFHAGLRNSPKSILWGAVVGVAIISGWGFTQWITAHGFDRSIIVSH
+TFTAPVGETLLYVMTSSGNSISFGTGSVCGVVLGALLGCLIKGHLRWEACEDPRELRRQI
+GGAVLMGIGAVIAVGCSVGQGLSAFSVLAYSGPVTLACIVAGAAIGLRQLIVGFSRIA
+>tr|B7RJY3|B7RJY3_9RHOB
+MIFKRRDPKPTLRAMAEFMWPRGGWTRAFHYVKHRMRRLPDTPERIARGIWAGVFTTFTP
+FYGMHFIVAALISRAMRGNLLAALMATFFGNPLTYVPIGLSSLSMGHWILGSPMVEGEHR
+SFGGKFFDAGHDLLANFIAMFTSQTADWSGLAAFWREIFYPYLIGGIIPGIICATICYYL
+SVPLLRAYQKRRKGLIKAKFEALKKKAAAKAEAKRIAEQEGRDHGSAR
+>tr|B7RK18|B7RK18_9RHOB
+MQELNHLKESPSQTAGPYVHIGCVPNFCDIKGVYPHDLGDTMVNADTRGDRITVKGTVFD
+GTGTALKDAMVEIWQADADGIYPNNDPRGAADPNFSGWGRKAGDYDTGEWVFDTIRPGAV
+PFPDGRMMAPHINLWIVARGINLGLNTRMYFPDADNSSDPLLTRIEHQNRVQTLIAVQET
+AGVYRFDIYLQGEKETVFLDV
+>tr|B7RLY9|B7RLY9_9RHOB
+MPKLLMFAGSARTASTNKKLAALAADIARQSGVEATLIDLKDFEMPIYNGDIEAETGLPE
+NAKRLKQLFVDHDGLFIASPEYNSSISPLLTNALDWISRPHTENEPPLWAYRGKVAALGS
+VAPGALGGLRGLVPLRMMLGNIGVTVVPNQVAVSNGFSAFDDAGALDNDQQSQMLKDTID
+QLILTARAMSGLVQKDERNAA
+>tr|B7RH78|B7RH78_9RHOB
+MLSSTSNLIALVISVTVALGSTSGASAQSAPLSAQDSDPNLMGWMQGFPPSEDKLITQPD
+ANYFSFPKLRWSVCHLREFLPTEEISRGLGGPAPLAYPSPPVFAQLARDIDAISFTPIGS
+DQEMTWEQSLYANYTDGLLILHEGKVVYERYFGCLEEDGKHAIMSMTKSITGLLGEILVA
+EGVLDDKLLVRDVIPEIGDSAFATATVREVMDMTTGVQYSENYADPNADIWVYSAAASPL
+PKPEGYEGPNGYWEYLQQVKPEGEHGAEFHYKTINSDMLGWIISRVTGKAVTDLASDRLW
+GRMGAEQDAYQTVDGKGVPFAGGGVTAGLRDLGRLGQLMLNKGELNGQRLFPAEVVEKIA
+AGGDQSKFDGFPTIPNGSYTSQWWVFHNDHGAYAARGVHGQTIYVDPTAKMVLVRLASYP
+RAQNGFIDPTSLPAYQAVAEFLIAKE
+>tr|B7RIN7|B7RIN7_9RHOB
+MVNLCYQTFIMERLFRIWPLRVAVTLLVLALASSGFAHRFATPDDQAAAAYMQAFGLDAG
+AICGDVEGDGAASDCEACRLHAAMSLPVRAISEIVIQLSLDPAEWTSAPPVPHALTAEAT
+RPARAPPTV
+>tr|B7RNP3|B7RNP3_9RHOB
+MLSKKKGEMVDLDLNGRIQHLEKESPDQAQTFHALRIIGNIGSHTTELSREVLLDALELY
+EDALLEIYSNRKLYLDALKQKIIKTKGQY
+>tr|B7RQ36|B7RQ36_9RHOB
+MLAPAASNDQMPPLLHIAQQVGMGLEKFLIRGIHMDNLRGAILMVLSMLGFAIEDMFIKL
+MGSEIPIGQIIFILGVGGSLCFGSVMVAKKQPLFERAMLTPPIVLRALGEIIGTLGFVSA
+IVLTPISSASAILQATPLVVTLGAALFLGDPVGWRRWSAILVGLFGVILIIRPGMESFQA
+LSLLAVLGVFGLSLRDLATRRVPKSTSSFQLSFLAFAALIPASLVYMLGTGTSFTPMTGL
+QCAFMGAALAIGMVAYYGIVAAMRVGEISFVTPFRYTRLLFAMVVGITIFGERPDMLTYV
+GATIIVASGIYTVWRERKVKLEG
+>tr|B7RMY7|B7RMY7_9RHOB
+MNAPSDLSMKNDDVLRVELEVFRREHRDLDEAIHALAEKGTGDQLTLQRWKKRKLRLKDL
+IAQIEDRLTPDITA
+>tr|B7RQJ2|B7RQJ2_9RHOB
+MKYLKPILLVATVAAIGGGLWLRWQYESIHPSTDDAYLQANVLTIAPQVGGTVDQIAVVE
+NQYVTAGDLLFSNKTDDLELAVQAAEARYDEAVQQAGAEITGLTSLTGQVDSARAALTDT
+QDTYDRTDALFKMGDVSQAALDQATTARDQAQAALDTAQAALKSGQKRAGAPGKENASVR
+AAQSQLTAAQINLARAQVTAPASGWIANFDLRPGAIVAAGVPQFSLVEDGDWWISANFKE
+TDLARLRPDQPVTVSIDMYPGLTLGGTVDSLGAGSGTIFSLLPPQNASGNWVKVTQRFPV
+RIRLDSRPDDPALQLRAGATVSVEIDTSGLDATK
+>tr|B7RLC5|B7RLC5_9RHOB
+MTFILGSGSPRRKELLAQIGVVPDDIRAPDINETPQKAELPRPYCARMAREKAAILQAGP
+DDIVLCADTTVAVGRRILGKPENADEAASFLRLMSGRRHKVITAVAVKRGDQLWERDVVS
+TVRMKRLSDAELNAYLATGDWRGKAGGYGIQGPAGALIPWISGSFTGIVGLPLAETANLL
+RAAGYIFDGETS
+>tr|B7RH71|B7RH71_9RHOB
+MVSVFSGDANTSRDIPVTGAAIRNVAMAGRCFLSLGVDQRKGLGSTRRKGQKYDQIWLRY
+RANQAADKFMPWPMLRTGQGMAKD
+>tr|B7RHQ1|B7RHQ1_9RHOB
+MMKRSFFGAFTAAVLMAAPAWADFKVVTTFTVLADMAQQVAGDAATVVSITKPGAEIHGY
+EPTPRDIVGAVDADLILWNGMNLELWFEQFLSNLGDIPSVTLTDGIDPISIAEGGYEGMP
+NPHAWMGLANALIYVDNIASAFVLHDPENAATYLANADAYKTRIRETITPLRERIADIPE
+DKRWLVTCEGAFSYLARDFGLKELYLWPMNADQTGTPQQVRKVIDEVRANDIPVVFCEST
+VNTSPAKQIARETEAVFGGVLYVDSLSAADGPVPSYLDLLRVTAQTVADGLTENLK
+>tr|B7RJG5|B7RJG5_9RHOB
+MTKPNATLAALFKGDRQADRVVPPSGFTAQLTLFAAATMAFLAVFALALSLASGRLANMW
+GQELARTATIRVVAPVDQRAAQTAAALRILETTKGVQTARALTDAEQQELLAPWFGPELA
+IDALPVPRLIEIIEDGDGMDADGLRLRLAAEVPGAVLDNHSRWRAPLVKAASRLKLLGWI
+STLLITATMAAMVTLAANAALSANAQVIAVLRLVGATDGYIAQAFIRRFTLRALTGSAAG
+TVLGMLAILLLPSTSDAGGFLTGLGFQGWHWLVPPLIPFLAGAVAFAATGAAARRTLKEL
+A
+>tr|B7RP84|B7RP84_9RHOB
+MSDPVQRPRSFQEIILALQTYWARQGCAILQPYDMEVGAGTFHPATTLRALGTNPWAAAY
+VQPSRRPTDGRYGENPNRLQHYYQYQVLIKPSPSNLQELYLGSLQAIGIDMALHDIRFVE
+DDWESPTLGAWGLGWEVWCDGMEVSQFTYFQQVGGHDCHPVSGELTYGLERLAMYVLGVD
+HVMDMPFNDPDAPIPLSYGDVFKQTEEEYARWNFDVANTEVLLDHFVEAENECQSILSQG
+ATDPKTGKRIIMAHPAYDQCIKASHIFNLLDARGVISVTERQAYIGRVRTLAKACADAFV
+QTRAGGWSEDAA
+>tr|B7RQR8|B7RQR8_9RHOB
+MIVVDDVHKHFGGFHAVDGASLTIGKGTITGLIGPNGAGKTTLFNVIAGVLQPTSGRVTM
+DGEDITGLPPHELFHKGLLRTFQIAHEFSSMTCRENLMMVPGDQAGETLWNTWFGRKRIA
+DQERALRAKADEVLEFLTVEHLADQKAGQISGGQKKLLELGRTMMVDAKIVFLDEVGAGV
+NRTLLNTIGDAIIRLNQERGYTFVVIEHDMDFIGRLCDPVICMAEGKVLAQGTLPEIKAN
+EQVIEAYLGTGLKNKTATA
+>tr|B7RPP9|B7RPP9_9RHOB
+MKRGVGLPQEIMVAGFGGFALGQRLDASAVTAISRFTCMAS
+>tr|B7RGC1|B7RGC1_9RHOB
+MNTKPDFSKNANHAATAPAYLSVWDIHAYYGESYIVQGVSFNVHEGEILALLGRNGAGKT
+STLRAIAQIGTPELRKGEVWLDHKPLHKMASYEAAANGLALVPEDRRIIAGLTVEENLQL
+AQIAPPIGWSLDRIYELFPRLKERRKQEGVTLSGGEQQMLAIARALARDIKVLLLDEPYE
+GLAPVIVDEIEKTLTLIKSQGITTILVEQNAVRALKLADRAVIMDTGSVVFDGSAEEVLN
+NAELRAEYLAI
+>tr|B7RJ43|B7RJ43_9RHOB
+MKTSARAIASTYLDGIRPKSPDTLPLFGNCICEKNDVTD
+>tr|B7RKS6|B7RKS6_9RHOB
+MMTPLVELKNISLSFGGVRAVDNVSLDLHAGEVVGLLGHNGAGKSTLIKILAGAYQMDEG
+EIWIEGKKVNIQSPRDARRHNIETIYQTLALADNLDAPSNLFLGRELTNRFGLVDDAQME
+AETRKIMARLNPNFKKISEPVSALSGGQRQSVAIARAVYFNAKILIMDEPTAALGVHESK
+MVADLIKELKAQGLGIFLISHDTREMLELCDRVSVMKNGTMIGTEKVGDVTEDDILSMII
+MGKARDAA
+>tr|B7RNY0|B7RNY0_9RHOB
+MIAYVTVGADDMVSAERFYSAFLHTLGYALEEYNGDLSYIPPAQPGQKSTSPDFYVKRHF
+DGGPSSAGNGCMLAFEASSQAQVRELHAAALAAGGADEGQPGFRASYGSHFYVGYLRDPH
+GNKLALFCDTPDEAERGN
+>tr|B7RGW7|B7RGW7_9RHOB
+MIAVLNTIRKPLRLLILPFVALALAACEPGIATNMNTGSGPKVDPNKPVPVALLVPRGGT
+PGDNQLAQELENAARLAIRDLSGVQIDLRVYGTGGNAAVAGTAAAQAVNDGAQIIIGPLY
+GEAANAAGNAVAAQGVNVLSFSNNPNIAGGNVFALGQGFGDTADRLVRYAKSTGKDNILI
+LHGQDLAGQLGRDAILRAIAENGAKNAGTIDYALSQESVIASVPRAKAAYDANGADAIFL
+TTSSASALPLFAQLLPEAGLPVASTQYIGLTRWDIPAQTLALPGVQGGWFALPDPAAAAA
+FSQRYSAAYGQAPTPIAGLAFDGIAAVGALVRSGKSNALSAGRLTQSAGFRGANGVFRLK
+KDGTAEHGLAVATIRNKSVVIVDPAPRAFGGVGF
+>tr|B7RIW7|B7RIW7_9RHOB
+MTQDQIILFTLFAAVFGMLLWGRFRYDLVAFSALMIAVVLGVVDSKSAFDGFGHPATLVV
+ALVLVVSAGLVRSGAVLLITRTLVDASRSLGAHITLMGMIGGVLSAFMNNVAALALLMPV
+DIQTARKAGRNPGLSLMPLSFATILGGMVTLIGTPPNIIIASIRQESLGDPSACSISPLS
+GASPRLRVLLLSRLLAGG
+>tr|B7RKE5|B7RKE5_9RHOB
+MPVASTSRAVFAEMAAAAGVIENRDLAGNDAVTPAKLTDRRGDVFAMLDQNDNGFLSVIE
+YALFDETRAADMENNAAGHGKGGHMQEGLTLGFNDTDADGAVSKAEFGASSGAWLAQVDH
+DGDGTITAADFGPQGN
+>tr|B7RP71|B7RP71_9RHOB
+MICYAIASLTPAVLLALACVFGGPWPLAALLSITVLVFFLDRIARLTPTRDDTGRGLSLI
+LAAAHFTLLPLAVWALAGNSGSGVSDKVMIYLGAGLFFGQISNSNAHELIHAGTRWPRRI
+GTAIYCSILHGHHVSAHLRVHHIHAATDADPNSARLGEGFYAYAFRVLRGEFLAGLRADT
+RHRARGSDQTALTHPYVGYLAGGALSLGCAALIAGGRGVAALLAIAFYAQMQLLLSDYVQ
+HYGLRRQRRSDGRMEPVGPQHSWNAPAWYSSAMMLNAPRHSDHHLRPARAFPALEVTPDT
+MPVLPRSLPVMAVLALVPPLWRRIMDRRVARWQKPA
+>tr|B7RI40|B7RI40_9RHOB
+MWGIDIPLTPLENATGHPSPTRERHHESILSARTPKKASSPC
+>tr|B7RNN9|B7RNN9_9RHOB
+MAEVMMQLGFFQFSLDNAAYQRLSRSTEYRWARQARIGTNDALQFTGLGPETVEVEGVIY
+PHFRGGLKQIDKMRTQASLGLPLPLVSGIGKVLGLWVVEGVTEGQEVFASQGIPHRQDFT
+MRMARYDGGARSLLRFF
+>tr|B7RSF8|B7RSF8_9RHOB
+MTRTLVILAHPDMTRSRISRKWADAIHSACDIKLHDIYACYPDGIIDGAAERQLITDHDR
+IVLQFPLTWYSCPPLLSVWQTEIMKRGWAYGPGGRALRLKTLGIAFSTGSNARDYAPGGR
+YGRTLEEVTVPFELMAVHTGMHYLPFFALTGVRELDDTTVDASTRAYIKHLRHAAPSIVA
+SGRDDNRTKTVYPKDVASD
+>tr|B7RN91|B7RN91_9RHOB
+MRIIAGRSRGTKLAEVGSGDVDAHLRPTSDRVRESLFSMLASHSVIQGARVLDLFAGTGA
+LGLEALSRGARQVVFVENGRVAQKLIDENIKKLRAEAETTLMRTDATLLGDWIAAPFDLV
+FVDPPYGKGMGQVALSKALAGGWLTPDAMIVWEESAAMDPPDGFTRIDKRKYGDTWITVL
+RVS
+>tr|B7RI89|B7RI89_9RHOB
+MADGRAKFLSGNLFGHVATMSLLASVGLVAVFLVDFVDMIFISMLGKAELAAAVGYAGAI
+LFFTTSFGIGLGIAAGALVARALGQGDMTLARERTTHALCYGAIFGIVFAVLVFLALDPL
+VHLVGAQGETAALAVHFLQIVVPSVPFLMLGMMGSAILRAHGDARRAMMATIAGGIVNAI
+LDPILIFGLDLDLTGAALASFVARVVIAYTALMPIVRHYGGIARPKLGGMWRDLFPVLAI
+AVPAILTQVATPVGQAYVTRAMAAYGEDAVAGMAIVSRMMPVAFAVIFALSGAVGPIIGQ
+NFGAGDLGRVKRTYNAGILFAALVIVSISALLFLTRGPLAALFDASGISLTLIFLFCGPL
+SLAFFFNGVLFVSNAAFNNMGHPYYSTVTNWGRNTVGMIPLVWLGSLLFGAPGVLVGQAA
+AGVLFGALAWVLAHRMIAQGGRPKGTGPDIFGREGRLMALLHLRR
+>tr|B7RHX9|B7RHX9_9RHOB
+MTLQDGFAPHDGSIYKLRRPKKRRPSLRRILAGGQISDMGRFPRYLAFAVLGGTMIWAPI
+TGYLRTAPLSFKSHTSLILPGSGASASLNLNGIGQASSYANSAFSSNSVSPTETYKRLIG
+ADRILETAATSMGLSREAFGRPRINLVDQTSLIQLEITGGSAEESQARGEALLAAFFAEL
+DALRADEQNTREDSGLAAIEDYRNSVAATRADIAMLQKETGLISSDQYDAIVETTRLLEI
+RVQDLAATLGEKTQSVAALEATLGIPAADAATTLKIYADAEFIALTDEMGIHAAKLSEAR
+SLYGEGHPKVQDARAAHAAATAAALGQAVQVTGLNAARLGNLDLAPAGARAELLAQLVRM
+DTERSGASQQYETLKARLLEDSTKQRNLAAAAARLQDLQRDFSVAEAVFATAIARTQSTK
+SDVYASYPLVQVLENPSLPDRPSSPNRKLAIAAGGAATLMMLIGLLLGWMRSALIGRLLG
+QGKAAA
+>tr|B7RRY4|B7RRY4_9RHOB
+MRIDTPALEIPLAVREDYHALVRTEVLKLVPEGENNVLDVGGGIGASSAYLKSTGKAVRA
+TVVDLVGTACLPQIDRAFGGDLEDPSLLEQVARDCGPFDVILCLDVLEHLSDPWTVVGRL
+SDMLVPGGVIVASIPNVRNYRLLGPLLFQGRFELVERGILDRTHLRWFVGGTAKALMSRG
+SLQVDVFQKFFEGPRKTLFNTLTLGLFHDFLTIQFYIRSVKQG
+>tr|B7RG86|B7RG86_9RHOB
+MNAYIRNGDDDGLRGLEMESKALSSAVNSDGGYLVDPQTSDRVKSVLNATASIRAIASVV
+QVEATSYDVLVDHADMAAGWATETNAVAETGTPQIDRITIQLHELSALPKASQRLLDDSA
+FDIEGWLAGRIADKFSRAEAAAFISGDGIDKPKGLLAHDKIDNDVWTWGNLGYVPTGVDG
+EVTADSVVDLVYALGAQYRAQASFVMNSKTAGHVRKLKDMDGRFLWSDGLAQGEPARLMG
+YPVLVAEDMPDNATDSFSVAFGDFASGYTVAERPDLRVLRDPFSAKPHVLFYATKRVGGD
+VSDFAAIKLLKFGIA
+>tr|B7RMI5|B7RMI5_9RHOB
+MGNDAMTELYAIVLFLVVLFFLLGTGVWVGLALMGVAWVGMELFTTRPVGDAMVTTIWAS
+SSSWTLTALPLFIWMGEILFRTRLSEDMFKGLSPWLAKLPGGLVHTNIVGCTVFAAVSGS
+SAATLTTVGKMSIPELRARNYPEKMIIGTLAGAATLGLMIPPSLALIVYGVTVNESITKL
+FFAGVMPGLFLAVMFMAYVAFVSLTSKDWNPTVERDMSFADKLRNSRFLLPVFALITVVI
+GSMYLGFATATEAAAIGVIGALMLALLQGSLNWGSFQQSLMGAMRTSAMIALILAGAAFL
+KLSMGFTGLPRALADGIASWELSRFQLLMALLVFYIVLGMFLDGISSVVLTMAVVEPMVR
+DAGIDLIWFGIFVVVVVEMAQITPPIGFNLFVLQGMTDHEMGYITKAALPMFAIMVVMVF
+VLIFFPDIATWLPDNIRQGPS
+>tr|B7RFN6|B7RFN6_9RHOB
+MNIYYKPGASVAVAQRQTTACKVDALAKVPVSTQIVREPPYYVPPRLQCNNEGQCVAIPG
+YFEPGEIYTVDRNLGLRKQVEVQCMADAGFAPVSIPPCPQGVAKAAPVRATATLPPLSEK
+SCVIRNRDGSFQIVNQG
+>tr|B7RJV3|B7RJV3_9RHOB
+MTDPDQQQRLKQLEAKIEAAKLSQAPKPRADEHYSQASLAWRMVIELCAGLGIGFGIGYT
+LDWFFGTMPIFMVLFVMLGLAAGVKTMLRSAQEIQKKKVADMADENKGA
+>tr|B7RNM8|B7RNM8_9RHOB
+MATTIEKLNSLVANYTDLKDYFEAQRPRWDDDVAAAEAAYAALSGNLKGVIRSLMDFTGT
+VDPDIANPTNLDGGTFNDIATLVDAAPYGAFIQAKLAADKTHVLTSLVSLAGKNLMILKE
+GEGFDPIFEPGSFVSSNQNQCYRFTNLMGGCLTLQNVDIRLPAKADPNLDWNVFYHVLVD
+STTAASVDVRLMNCAFSGSDGAAIVTVNRGSIVNLSLWGTSFDGPIFGVTHVGGWGIAHI
+ASQGLTLTNGALAQSGGTLGTDLLQN
+>tr|B7RSJ4|B7RSJ4_9RHOB
+MVDTINTLYDASEQRGRTLTIKEHLWNGNLHDGHVAIDALVMDLDEIETDYASIKALRKA
+ANEFQTYIANNAWMIPNYAERRRYGERVSTGFVESTVNTVVGKRFCKRQQMRWSKTGAHL
+MLQTRTRTLDGTLRAKFQQWYPGMKSDEKTKMAA
+>tr|B7RQZ2|B7RQZ2_9RHOB
+MNRNTFLKTLAGAAALSMTGLAAFAQSGEPIKVGEINHYKRMAAFAEPYKKGIELRLEEI
+NGAGGVLGRPLEFVFRDDQGDPGEAIKIAEELMTSEGTVMLTGTILSNVGLAISSVAAEK
+EWVYLASEPLADALTWSQGNPWTFRLRTSTYMQAAMLAEQAAKTDAMKYATIAPNYAYGK
+DAVAAFKEVLTQLKPGVEFVGEQWPALFKIDAGAEVQALERSKPDAIYNVTFGPDLAKFV
+REGNTRGLFDGRTVYGLLSGEPEYLEPLADEAPEGWIVTGYPWYDFTEADGDNKVFVDAY
+QARFNETPKLGSLVGYMTAETVAAAIHKAGSTESDAIRMAFEGLDVTTPVGDITFREIDN
+QATLGAFVGTTALRDGAGVMTDWTYMDGANYLPSDEEVSKLRPAD
+>tr|B7RNR8|B7RNR8_9RHOB
+MIPFLDLKRQYAKIGKDIESKVVDTLRSGHYVLGDTVERFEGHFAAYCGTRHALAVSSGT
+SALHLALLAADVGPGDEVITVPTTFVATVAAILYCGATPVLVDVDPDTLTMDPAQCAAAI
+TARTKAIIPVHFHGRMADMAAICAIAEENQLTVIEDAAQAHGAERDGKRAGSFGHMGCFS
+FYPGKNLGAAGEGGAVTTDDPQLAARIHMLRDWGQERRSVHSCLGYNYRMDAVQGAVLDI
+KLAHLEDWNKARRQVSLAYDASLTDLVGKPPGAGQADHVFHVYAITSAHRDTLRAALDTA
+GIGTNIHYPRPVHLQPGYANLGYGPGSLPVAESYATHTLSLPIFPELKPDEVAQVISAVN
+AFAAQTPQDAVEEMETVS
+>tr|B7RRL1|B7RRL1_9RHOB
+MTYCVALRLDKGLVFMSDTRTNAGVDNFSTTRKMFTFQVPGERLITIMTAGNLATTQSLI
+SLLEERSKKALERDPSILHAPTMFQVARLVGQTLREVIVEIQSKGQMTAASFQATVIVGG
+QIKDGLPTMFLVYPEGNFIEITEDTPFFQIGETKYGKPILVRAYEPHMSLQDAVKLLLVS
+FDSTLKANLSVGLPIDVQTYENDTFEVATRTRIEQEDPMYQSISKGWGDALKSAFQTLPS
+YDIESGKRAK
+>tr|B7RKC1|B7RKC1_9RHOB
+MGATRSASNLNQIAKAINQGTLYVDDELEADLKQACAEVAWMRATLMQALGIKS
+>tr|B7RLA5|B7RLA5_9RHOB
+MRNWAENASSKINTVVEAIVAALMLALVLDVWLGVADRYYFHWQLPWPEVLARYLMIWAA
+MLAVSSGIARRDHIGLTAFLLMLPYQVRRTVLIAIDIISLALFLYVAWFGISFAQSGAPR
+QAMIFGASLAPFYAAIPVAAALSSLQLVLVLLRDMGAHIDEPPFNDHLEEEAP
+>tr|B7RQC4|B7RQC4_9RHOB
+MIKDFMFKYRMRAVQLGASLAVGVACLWLILAQLAPDFWQEVFVELHGLHPMSFVLAAIC
+TCVSFLALGRYDATAHRHFRTGISARHASLSGTAAIALAQTLGMGILTGAVARWRMLPGI
+SMGMALRLSAFICASFMAALLVVTAVACLVLPAPAFTFWPALAVVLLLPVAVAAAFLHPT
+LTIGRLSMKVPSLSAFGSILFWTALDTLAAATALYLLIPGDVIAFTTLLPLFMLALGAAL
+VTGTPGGVGPFELVLFGSLPDASSVQLLSGIIAFRAVYYAAPALIGMIAMMRPLAKAVST
+GHATMMIPKNAVRAEVGVIRQNGGYLLQGDQTDCAVWPTGQALCALFDPLNRPTRQFLET
+VKTEARRKNLIPMLYKCSARTALLARSNAWFISHIADEAVLQPLSFNTEPAPFRTLRRKL
+RAAQKGGIIITQSSTLPLAKMAQIDAAWQQTNGRARGGTMGVFCADYLAHQQVFLAYHGN
+TLIAFASFHTSTHEWCLDLMRQQPDTPDGTMHCLIHHAIMCAAHRAIPRLSLAATPACPH
+PSSRWMVKLAQYVVQQSGGAGLRQFKSNFRPRWQPLYAAAPNRALLAISLADITRAVHRP
+DAPLIAAQPHHDDENYEVASRLAS
+>tr|B7RJS0|B7RJS0_9RHOB
+MTNLELGFWSFPVLLLMVFLRAPIGLAMLLCGFGGWYMAMGGNPTPLLAKLKSETYTTFS
+SYSLSIIPMFLLMGQFATLSGMSQSLFKAAESFLGHRRGGVAMAAVGACAGFGAICGSSL
+ATAATMSKVALPELRRYGYSGGFSTATLAAGGTLGILIPPSVILVIYAILTEQNIAKLFL
+AAFVPGILAALGYIITISIYVRLNPNSAGTRPAVPMAERFKALADTWPVLVIFFVVVGGI
+YLGWFTPTEGSAIGAAGTGLAALLAGSLNWSVLRESLLGTAKTTAMIFFIVLGAGFYNGF
+LALSGVPQFMADWVVGQGYSPWLVLTIILIFYLIFGCLMDSLSMILLTVPIFFPVISAMD
+FGMSTEHLAIWFGILVLIVVEVGLITPPVGMNLFIINSMDRETPMTETYKAVMYFVGSDI
+VRVIILVMFPAITLFLLPS
+>tr|B7RHT8|B7RHT8_9RHOB
+MPKGYWIANVEVHDAAVYDKYRAANAKPFADFGAKFLVRGATADVREGSSRSRIVVIEFP
+SLADAVACYESDGYQAAKDIRAKVSDGTLVIIEGYDP
+>tr|B7RIP9|B7RIP9_9RHOB
+MSLILEGFTVDAGRRRLLHIDALDLPSTGLIAVIGPNGAGKSTLLGALAGVIAHRGTKSL
+DGDWPAPERIGFMPQNFAVSAAMSAADCVLLGRRERLGWRVTAQDRAEVARALAALDLSA
+LSDRRMDRLSGGQQQRVLLAQRLIRDPRVLILDEPTSALDMHHQLEVLDHLRALASERLV
+LAALHDLTLAARHADHIVFLDNGELVIAGPTAEVLRPASLNHAYRIDSEILTDRNGGAVI
+VAHRTVSN
+>tr|B7RMZ9|B7RMZ9_9RHOB
+MVFNCQSRKVDFRSRAGSIGIMMAMIPFPDMSPEIFSINLFGMTFALRWYALAYIVGIII
+GWRIVVRAVSRDDLWAKGKPVMTKAQVEDLLFWVILGVILGGRLGYVFFYQASYYLSNPL
+QILRIWEGGMSFHGGAIGVILAGLYYTRRHKISPLSTGDMVCLGLAPGLFLGRVANFINA
+ELWGRPTDLPWGVAFPTVAAQTCPEVVGICARHPSQLYEALLEGLILGALLVYLAWRRGG
+LKYQGLICGTFLAGYGIARFIVEFVRQPDAQFVSPGNPLGLAWHVGGYGLTMGQLLCLPM
+IAVGAALIVRARRLA
+>tr|B7RP54|B7RP54_9RHOB
+MAAKAHVDAAKYDAMYKASIEDADGFWRDQAQRIDWMTPFTTVKDVDFTLGQVKINWFAD
+GELNVSANCIDRHLETRGDQTAIIWEPDSPEEGAQHITYKELHAQTCKMANILRDLGVGK
+GDRVVIYLPMIPEAAYAMLACARIGAIHSIVFAGFSPDALASRVNGSEAKVVITADYAPR
+GGKATPLKTNADQALLHCKDSVKCLVVKRTGGQTTWTEGRDFDYNALAKDAADTCAPEAM
+NAEDPLFILYTSGSTGQPKGVVHSTGGYLVYAAMTHEITFDYHDGDIYWCTADVGWVTGH
+SYIVYGPLANGATTLMFEGVPTYPDASRFWQICEKHKVNQFYTAPTAIRALMGKGREFVD
+GCDLSSLKLLGTVGEPINPEAWNWYNDVVGKGNCPIVDTWWQTETGGHLMTPLPGAHATK
+PGAAMKPFFGIKPVVLEPTSGEEIAGNGVEGVLCIADSWPGQMRTVWGDHERFEKTYFSD
+YAGYYFTGDGCRRDEDGDYWITGRVDDVINVSGHRMGTAEVESALVAHPKVAEAAVVGYP
+HTIKGQGIYCYVSLMAGEEPTDDLRTELRNWVRNEIGPIASPDLIQWAPGLPKTRSGKIM
+RRILRKIAENDFGALGDTSTLAEPEVVDDLIENRMNR
+>tr|B7RGL0|B7RGL0_9RHOB
+MLTGQNQGTYPFHRAEQRFIRKRGRQTGLHPENGAGSDF
+>tr|B7RIW5|B7RIW5_9RHOB
+MFDDKQKLEISQDELALIEAALHTQSKILGVQASAGGAKALTRLNDIKRVLAKIAQQKPV
+KTQKQKTGGVFLSMSRMFG
+>tr|B7RMA1|B7RMA1_9RHOB
+MIRNLLFSASVIALGLTTAMPVAAQSVSGSYLAGRHAAVRSDFAEAAKYYGQALARDTKN
+PEFLESTILAYLSLGDVTKAIPLAKVLEDRNEQSQVAYLVLTAGIAQDENFAGLLAQPAD
+DGGIGPWVNGLVKAWSHIGAGDMTAAIKQFDDLSKEPGMQGYVLYHKALALASVGDYEGA
+EAIFSSNLAGSAAQTRRGVIARAEILGQLDRKDQALALIKDSFGDTSDPELDALVTALQG
+DGPVSFTHIQDAKAGIAEVFFTFAAVLRTESAGDYYVLLYARIARFLRPDHIDALLLTAD
+LLESLGQYDLAIEELQAVPADDPAYHAAELGRAAALRQSDKPDQAIEVLQQLTRSHGDLP
+AVHSALGDALRAQDNWEAAIKSYDRAVELTSESNPQRWVLFYARGIAEERSGDGKGAEKD
+FRAALAINPEQPQVLNYLGYSLVEQGRNLDEALNMIERAVAASPDSGYIVDSLGWVLYRL
+GRYEEAVGQMERAVELIAVDPVVNDHLGDVYWAVGRHREAEFQWRRALSFVDPEDADSEA
+DPDRMRRKLEVGLDVVLQEEGADPLTKVSAGQ
+>tr|B7RQZ3|B7RQZ3_9RHOB
+MGLFIAQILTGLANAGALFMVASGLSLIFGVTRIVNFAHGSFYMLGAYVGYSLMQVLPGV
+VGFWGAILLAGLIVGLIGVIVEVCVLRPVYSAPELFQLVATFGVILVIQDLALMIWGPQD
+LLGPRAPGLKGVIRIMGEPVPQYDIALIIITPFVALALWYLITRTRVGVLVRAATQDREM
+VSALGVNQAWLFTGVFFLGCALAGLGGALQLPKGGADLLMDFTILGAVFVVVVIGGMGSL
+PGAYLAAVIISVLNVFGVTYAPQSTLVLMFLVMIVVLMFRPFGLLGKEEIAGEHGQVGEP
+ERPIKPAGQRVRLLVAFGLVILGLLPLYGSNFSVVLVTDIMIFCLFAASLHFMLGQGGLV
+SFGHAAFFGGGAYAAALFVTYADTPMELALILAPLCAGLAAIVIGWVCLRSTGVYFAMLT
+LAFGQLLWSLAFQWGDVTGGDDGLVNIWPSAWASDNSVYYYIAFILCVGGILLLRQAAHA
+PFGYAMRAARDSARQAEAMGINTKHIQWVAFTFAGTMAGLAGGLFVFSKGSIFPNELETA
+RSFDALIVVFLGGVKTLSGXXXXXXXPILSVRNLSRNFGAIKAVDNVSFDLAKGELLALI
+GPNGAGKSTCFNMLMGQLKPSSGTVQLMGKNIAGMQPRKIWRMGVGRTFQITATYASMTV
+VENVQMALISHHRRLYSLTTFAHKLYREEALALLDTVGMVDQAERHCAVLAYGDLKRLEL
+AVALAHDPILLLMDEPTAGMAPRERIALMQLTADILDAKGISVLFTEHDMDVVFAHSHRI
+MVLNRGQLIADGTVEEIRNNAQVQEVYLGGGTLFKAEEDAHA
+>tr|B7RHH3|B7RHH3_9RHOB
+MSDDMTNMPRNAVEFDNVSIVFGDAPEKALPLMDQGKDRAEIEVATGQVLGVHNCSLNVR
+SGEILVLMGLSGSGKSTLLRAVNGLNPMARGTVRVNDGTWTCDIAASSAADLRRVRRSCV
+SMVFQQFGLLPWRTVRDNVALGLELADVPKAERLERADKQLALVGLSDWADRKVGDLSGG
+MQQRVGLARAFATEAPILLMDEPFSALDPLIRTRLQDELLDLQRELKRTIIFVSHDLDEA
+FKLGGRIAIMEGGRIVQCGTPREIFSNPASDYVAEFVANMNPLGVLTARDVMGPVAQADA
+GAVAAETPVADLIEQMGGADVAIPVIEDGKNIGTVTAKSIVARLKAD
+>tr|B7RHV0|B7RHV0_9RHOB
+MQHATWEGSTVADTNKPLLIKRYASRRLYNTETSDYVTLEDISGFIRDGREVQIVDLKSG
+DDLTRQYLLQIIAEHESRGESVLPVDVLNDLVRSYMSPGTSVVPQFLQASFDMLRDGQSR
+VLENINTINPMSKMPGFEVMQAQQEAFMKAMTGKIPTAWPGIPTPEKSKPAKAEQGESLE
+AIKQQLADLQDKLSKLK
+>tr|B7RJA1|B7RJA1_9RHOB
+MTLEDPAAASARKIRIFRSGIFENSTPHSRGAPLISVVLLGIAKQPCKKAALMTRIDAKF
+ADLKSQGKKAFVSYVMAGDPDFDKSLEIVRGLPGAGVDIIELGLPFTDPMADGPAIQLAG
+QRALAAGMTLKKTLELATAFREQDDTTPIVLMGYYNPIYSMGVDKFLVAAKAAGVDGLIV
+VDLPPEEDNELCIPAQAAGLNFIRLATPTTDDKRLPRVVQNTSGFVYYVSITGITGSAEA
+NAGDVAPEVARIQNASGLPVIVGFGVNTPEKAEAISAVADGCVVGSAIVSKIAGGAPVAD
+VLAFVKTLADGAHRA
+>tr|B7RFY2|B7RFY2_9RHOB
+MTQTYTSAYAPRRSWIGRAEDFLDEKGKAAWIAAMVVGFVAFWPVGLALLAYMIWSKRMF
+KSSSCAKRNSYRNMTSRPTGNAAFDTYKADTLARLEEEQTNFESFLTRLREAKDKAEFDQ
+FMAERGAKSDDTQSA
+>tr|B7RIG9|B7RIG9_9RHOB
+MSDIYPITDSHCHLDFPDFQDELPDVIDRATAAGVTRMVTICTKLKNEPAVRAIAEAYAP
+VFYAAGTHPMSVATEPMASYDDLLALTKHPKMVGIGETGLDYHYTADSADIQQTSLRTHI
+AVARDTGLPLIIHARDADDDMARILTEEHANGAYPCVMHCFSSTEALGRAALDLGFYLSM
+SGITAFPKSQDLRDIFANAPLDRILVETDSPYLAPPPHRGKRNEPAFTAHTARRGAETFG
+LDYADFAARTQANFDRLFTKVAAFQEAA
+>tr|B7RKL5|B7RKL5_9RHOB
+MGSIIDRVNGLAGKVPTWPLYILYLLPVPWLLYLAQTGGLGVEPIKELEHELGEIALQLL
+IIGLAVTPLRRYVGVNLIKFRRAFGLLAFAYVSLHLLVWLVLDVGIPSQIWADIIKRPYI
+TIGMAGFLCLLPLAATSNNFSIRKLGPKWRKLHRLTYLAVILGGVHYIWLVKGFQIEPLV
+YMAVILGLLALRLPKRRKARAV
+>tr|B7RNG3|B7RNG3_9RHOB
+MHPLITQDHIDSYQRDGVVLVKGLFADHVDTLRAGVARNMETPGPYASNNDKAGETGRFF
+DDYCNWDRIPEFSEVIHGSAAARVAADLMQSRTVQLFHDHVLVKEPGTSMATPWHQDGPY
+YFVEGQQNVSFWSPLDPVTDATLRCVAGSHLWEKPVLPTRWVKGDAFFDPAPYMPVPDPD
+AEGMDVREWPMEPGDAVAFNYGILHGARGNQSAVRRRAFSLRLLGDDATYTQRPGPTSPP
+FPGHDMVQGQKLRTDWFPMLIG
+>tr|B7RQ02|B7RQ02_9RHOB
+MADTLVNEDQSAVAERLAAEALIVDVDGFEGPLDLLLTLSRTQKVDLRKISVLQLARQYL
+MFVERAKALRLELAADYLVMAAWLAFLKSRLLLPPDPTEEGPTGEELAAHLAFQLERLQA
+MRDAAARLMARDQLGRDFFARGQTQEVKRTRRVTYSATLLDLMQGYARIRTRDDFRPFVM
+DREKVFTMEQALERMRGLIGFAGDWGDLTGYLPEGWDGDPVMRRSATAATFAASLELVKE
+GHLDIRQTGLFAPIELRKRVEERG
+>tr|B7RRX6|B7RRX6_9RHOB
+MTLSHSEHSRLEAEMKALKAKGVPFAMATVVRTVNATSAKPGGKALLDLEGKILMGWVGG
+GCARGAVGKAAREAIRTGEPQFISLRPQELLETEGVVAGDIRDGVRFSRNGCPSQGTMDV
+FVEPVLPLPELVICGTGLVALALAELGARFDFKVSVHAAEDVETDADALRGFDFETRDYV
+VVATQGQGDKDALRAAVSGDCRYLSFVGSIKKFDTIAAKLIAENPELERPLAQVKAPAGL
+DINAITPDEIAMSILAEITQLRRANLTHRAAHEGENRTTATQGSHQ
+>tr|B7RM00|B7RM00_9RHOB
+MQIKGPQDPMTNDSDKTTHFGFETVAEGDKAGRVQGVFNSVASKYDVMNDVMSVGIHRIW
+KEAMMDWLAPRPGQKLLDVAGGTGDVSFKFLERAGSGHATVLDLTEPMLVEGRKRAEAAA
+MVDSLDWVVGDAMALPFEDNTFDVYTISFGIRNVTRPQEALNEAYRVLRPGGRLMVLEFS
+QLPNPMMQKAYDLYSFNVIPRMGKLIANDRDSYQYLVESIRNFPDQETFLGMVKTAGFEQ
+AKYRNLTMGVAALHSGWKI
+>tr|B7RHK1|B7RHK1_9RHOB
+METRANFILIGAFFLLSIIGTLGFFIWLASVQIDRQYATYGILFDDVSGLDPSGDVLFNG
+ISVGKVIGLEIYPQNPSKVLTTIEIDTATPVTSGTIAQLQSQGVTGVAYISLSGDALGTA
+PIEMPDTGLPMIASKRSTVQALVQDAPDLLAQANELLKQFQSLTSPENQVYVTRILRNLD
+TSSARLDQALTDFSSITSTVGEATAQITQFTGRLDSIGASVQTTLTKSNTALDAAQRAFD
+TADKTLIDSGAAIQSVEGTFTQAEQILRDRIPEILSDISAAVARTDAAIVDLQKRSADTL
+DGFGDTASLLNARLTELEQTLAEANIAFVAVTDASDSFDALVTGDGTMLVGDARAVLADA
+KVAIATIQNVVVQDVPVIMADIRAAVATASDAVDRVAQDVTGLTGRFDPLVAEAEQALAS
+ANALFVRAQGSLGTLDTALDSAQGALASAEAAFDGATDVLRTDVGPMLSDLRTASDRISV
+AVEDVTRDIPAIATDLRALIGRADAVVAQVQGAVSASAPGIGAFAKTGLPELTRLSAEAR
+SLVSTLNSLARRIERNPAGFILDNRVPEYRK
+>tr|B7RIW3|B7RIW3_9RHOB
+MTTALPHRPVIGIFWMVVTGLLFICVTALVKHMGPRLPSAEAALIRYSFGLVFLLPAIGS
+LRSAHLTRRQWTLFSIRGGLHALGVILWFYAMTRISIAEVTAMNYMAPIYVTIGAALFLG
+ETLALRRIIAVILGLLGAVIILRPGFRELSNGHFAMLIAAVVFGGAYLLAKVLTDEVKPA
+VVVAMMSIFVSLFLLPFALPVWITPTWEEIGILAAVACFATAGHYTMTLAFAAAPLTVTQ
+PVTFLQLVWATILGAVVFVEPIDIWVVIGGTVILGSVTFITWREAMLNRQITPPSPATKF
+>tr|B7RQW2|B7RQW2_9RHOB
+MSTPALELTGLKKSFGKAEIIRGIDLSIGKAERHAIIGPNGAGKSTLFNLITARFAPTSG
+TVKLHGENLAGLEPFQINRKGLSRSFQITNIFPAMTVFENVRCALLWAQGYKYSFWHLVN
+QKRDLTEGAEAILDQINLLERRNLPAGTLSYAEQRALEIGITIAGGADVIMLDEPTAGMS
+NTETDYITDLILKVTAGKTLIMVEHDMGVVFGLADRISVLVYGEIIATGKPADVRADARV
+QEAYLGAALEAEH
+>tr|B7RGH0|B7RGH0_9RHOB
+MMDTEGLINRARSQQLGDILRRSAARTPDKTALVFRDQTDSFAQLDRAVDCAANALAARG
+IGKGDRVALFTHNNRSFVVLRFALARLGAITTPVNFMLNAEDFAYILDHSGACMLIAEDA
+LCPIADQAITSLGLDLPKFAIPHAGTTLPEGWEQVSVLLDHENADEVWTDLNADDPVQMM
+YTSGTESRPKGALLSSSALYAQYVSCIVDGEMTSDAVSLHCLPLFHCAQLDCFLSPDLYL
+GVTSILHEKADPAEMLAAIEAHGVTKLFCPPTVWIALLRHPDFDTRDLSSLNVGYYGASI
+MPTAVIEELMARLPNMRLFNFYGQTEMAPVATILGPRDQMRKLGSAGRPALNVETRVVDD
+MDQPLPVGEVGEVVHRSPHLILGYYKDPDKTAEAFRNGWFHSGDLGRYDEDGYLYIVDRK
+KDMIKTGGENVASREVEEAIFRHPDVAEVAVFGVPHPTWIEAVTAVVVPKAGASVTADDI
+RSYCQEHLTHYKAPKHIEIADQLPKNASGKILKRELRQQHNDVYTQS
+>tr|B7RMR0|B7RMR0_9RHOB
+MQQQIAVITLGISDLARSKSFYQKGFGWNPVFENAEIAFYQMNGFVLGTWLKSSLEEDTK
+QQGLPPQGAVTLAHNVARERDVQVVIDKFVSAGATLLRQADAPSHGGRRGYVKDPDGHIW
+EIAWNPVWPIDQEGHVTFAN
+>tr|B7RIB4|B7RIB4_9RHOB
+MADLKALIEGYSQPGQVEWIGLRSARRKPMQPVDQVMVTEAGLEGDHGRPGKRAVTLIQA
+EHLAPIGAMLGQGAVAPDILRRNIVVAGINLSALKGRQVQIGTAVLSIDVICAPCSRMEE
+ALGKGGYSAVRGHGGWCASVIRPGLICLTDSVTPI
+>tr|B7RII8|B7RII8_9RHOB
+MNGLALSNVSYRYGPKTALDDVGFVVEKGQFCALLGPNGAGKSTLFSLLTRLVTSADGRI
+EVAGHDIAKQPRLALAKLGVVFQQMTLDMDLTVRQNLTYFAALHGMSGKSAQRAIDAALD
+QMDMLERAGEKARALNGGHRRRAEIARALLHQPAVLLLDEPTVGLDAASRQAITEHVHEL
+ASGGISVLWATHLTDEVRADDHLVILHRARILADGTARDIAGDMPLLDRFLSLTGAAQ
+>tr|B7RKE9|B7RKE9_9RHOB
+MAAYVSTDQGAEVARAVAAMIGANPAVLHGGGLSGAARVSTGTAIANTVLTEMGNMPLDA
+ACESVSEICKSGANVVVLGGRSDLSIYRALRNAGASEYFAFPVTAEEIIAANIQAAPSSP
+ASQPIPLAPSSTCIGVMGCTGGVGGSLLAQSLAFHAASPKGPALQTALIDADLRFGTQAI
+DLDRNDTPGLQEALSAPDRVDPTFLAATMEPLNDRLALYSQPSRGFENVDQLEASFAPLI
+QSMKGKFGALVVDLPRTTLVAQPELARKLDTLVLVIPAGYAGVNVASRLMALLKTEAPDL
+KILPVLSEFRQDAKLTAKDLAKAIHQDVAAILPDSGAIIHRAHRAAKPVIESQPRSAYAK
+ATRQLWALAVADHRAPAQKTKRRFFKRTPS
+>tr|B7RQT7|B7RQT7_9RHOB
+MSYTTTYSAPRAAGLMAKLGNAFEAYNSHRADQRAVRQTYKELSAMNDRDLADIGVARGE
+IRHIASQAKALR
+>tr|B7RRL9|B7RRL9_9RHOB
+MQTFRLGLGLYLSFQMRASSTNRMDASPHGQKQRPQKQSTGL
+>tr|B7RG91|B7RG91_9RHOB
+MTERGLTSGASWIGSADAALQDQFLNELDEGELLALPFLFEFWAMPHQLPPDGTWRSWVI
+MGGRGAGKTRAGAEWVRSMVEGARPLDAGRCRRVALVGETIEQVREVMIFGDSGILACSP
+ADRRPDWEATRKRLVWPNGAVASVHTAHDPEGLRGPQFDAAWVDELAKWKKAEETWDQLQ
+FALRLGEDPRVCVTTTPRNVDVLKKLLASPSTVTTHAPTEANAANLAGSFLEEVRARYRG
+TRLGRQELDGVLLADAEGALWTSEMLERGRIEKLPTFDRIVVGVDPATTAGAGSDECGIV
+VVGAQTQGAPQNWRAVVLADCTAQGATPSGWARAAVSAMEQYGADRLVVETNQGGLMVGE
+VLRQIDPLVPLKSVHASRGKVARAEPVAALYEQGRVGHVAGLVALEDQMCRMTARGFEGS
+GSPDRVDALVWALHELMIEPAASWRSPGVRLL
+>tr|B7RSF5|B7RSF5_9RHOB
+MSSIAKTHYGHAGRAFVTELVKDHDRLIDRARALREEIVSNLTDIADDPQVRRVAERFAL
+AGAAGILAVELGVLPMQSGSIQEATATCFDAWKAHRGGTKSEEELNALRDLKHFFEAHGA
+ARFERIVQKDPDMDCQKSDDFAVRDRCGYRVQNGDGSWLYYVLPEAWSREVCGDHAPSFM
+AKIANESGALLPGDGRHLQKKVKLPDYPSQTRVYALHPDLIP
+>tr|B7RRB1|B7RRB1_9RHOB
+MILHTLRKIRSGIVITILVAFAFSLMIWFLGPLLGFGDLHPWDSPVARLITIGIIVLLAL
+TAILLIIMRRTKREKQMEEDIVESLDDDDADSEEDELVKAELLELKGKLKEALGALRKSK
+LGKKSLYELPWYVMIGPPGAGKTTAIVNSGLNFPLADSVGKASIGGVGGTRNCDWWFTND
+AVLIDTAGRYTTQDSAEAEDNAGWQGFLRLLKKHRKRQPINGAILAVSLSDLSLQDEATQ
+KGHAAAIRRRLHELREKLGVRFPVYVLFTKSDLIAGFSEFFDHLGKEEREQVWGFTLPLL
+KKTKAEVSPIAAFDEEFNLLLGQINAQSLERMQQETDHQRRSLIASFPSQVASVRTTANT
+FLTEVFQDNRFEKRHLLRGVYFTSGTQEGTPIDRLMMGMARTFGIGRQAIGSGRGTGRSF
+FLTRLFEKVMFPEAGLVSADDKVERRYRWTKRVAIAAALVAGIAMTGLWARSYLGNAELL
+QQASESIDQYRTAAAQIPGSPIADSDLPGIVPALNILRAMPGNPAAGDPRPKGALTWGLY
+QGKVLGNQASQSYRAALNEHFLPRMLLRLEEQMQANMNNPDFLYESLKIYLILGQQGPMN
+QDLIKEWMALDWSVAFQGSGRDELRADLTRHLDALLDAPIDEIALNGPLVEQIQGLLSEM
+PLAQRVYNGIINSPRAKDLPQWRLTDIGGPAIGRVIVRSSGKPLNEGVEGIFTYDGFNTV
+FLDEALGVATRIQRESWVLGERGEAEQSETALVAMSRDVLDLYYTDYISRYDQILGDIDI
+IPMESLSHAVEVTNVLSGPTSPLVNILNAVSDETKLTEDRGGLDGSGLAEGAASVGALEL
+QSSLSSRSQLFISALSSGVTTDQGPAPKEPGSFVEERFAWLHELVAEIDNQPSQLAELMS
+RLTQVYQELNKLSFAGGVGAGSGDTTAIVRFQELANRLPGPIQRWSTQISSGSSGITADG
+TRASINAKWQSQVLPFCTQALDNRYPFSGGAKADVAMGDFARLFAPNGMIDGFFNENLRD
+YVDTRARPWAWKRVNDTDLGISPAVLQQLQYAAEIRDAFFSGGETPAVKFQITPEALDPK
+AQQLVLDIDGQEVEFAHSVAPKPSAITWPGAVGSARIILQPVINSTSNAITRDGPWAWFR
+LLSAAEVRRTNVSDRNRVIFNVGGRIAIFQLQSGSVLNPFALTALSKFSCPKSF
+>tr|B7RPD5|B7RPD5_9RHOB
+MADHIKILNAKGTWTVRAGGAVLAETKNALELREGDMAAVIYIPREDIAMAFLDKTEKTT
+HCPHKGDASYYSVVTKSRTLNNVAWSYEDPNDAVAGIKGHLAFYATVDEVAVEQI
+>tr|B7RRR0|B7RRR0_9RHOB
+MTENRWHETLTPGQLKLADSNLAGLGLGWDRQIGTSRFSYGFELQTVGHFGRQDHFEVNL
+PLILRYTPDHPVPKQLQSLAIGLGLSHATKIPRVELDRKGASQRNLVYWMAEIEFALREV
+ESNLYFRLHHRSDGYGFYDVSSGSTGLVVGWRTSF
+>tr|B7RS56|B7RS56_9RHOB
+MSFHYFDPPSTDRTVSRAVTTVAPSATTPPQSLARTPYRNGGKRLLDLALCILSLPFVVP
+LVAVLALVVTLTGHSPFYAQNRVGQPGRIFKMWKLRSMIHNSDLLLKAHLDENPSARAEW
+QRAQKLKSDPRITAFGLLLRRTSLDELPQIWNVLRGEMSLVGPRPMLISQEPLYPGRDYY
+DMRPGLSGNWQVSARNASSFKDRALYDAAYNEKMSFAEDLRILKDTFGVVLRAKGQ
+>tr|B7RM36|B7RM36_9RHOB
+MDDQNKNLIIATVLSFIVILGWFLLFPPPEPNTPLDGTEISATAPTDVTTPDAAVPAGTA
+LPATTADPEETRADSLEQAPRVPVETSRLTGSISLLGGRIDDLRLKDYRTTIEDDAPIVT
+LLSPAGTDDAYYALYGWAAGAGIAPEQVPGPNTLWSLASGDTLSVGSPVTMTWDNGAGQV
+FSRVISVDENFMFEVEQSVQNTSETSVTLAPYGIIARHGIPTDAQNFFILHEGMVAMNNG
+ELIETGWEDIPDLDPVGGVPSKRIDGVTNGWIGFTGHYFMTNLIPDPAQQSRLTAKYLPR
+TDIFQTEAVLPTQVIAAGSSASVSTQLFAGAKEWEALRDYEAAGVYKFVDSIDWGWFFFL
+TKPIFWVLHHLNILIGNMGVAIIGLTLLIKALLFPLAYKSYVSMAKMKELQPQMEKLKKD
+AGDDRQKLQQGMMELYKREKVNPAAGCLPIIMQIPIFFSLYKVIFVTLELRHAPFFGPFQ
+DLSAPDPTSIFNFYGLLPWGVPEAGSVMALIFIGILPLLLGISMFLQQKLNPAPTDPTQQ
+MIFAWMPWVFMFMLGGFASGLVVYWIANNTITFTQQYLIMRSQGYKPDLLGNITGGAKRK
+AKAAANDTKAPSKGKK
+>tr|B7RIR6|B7RIR6_9RHOB
+MPIKYLHTMVRVKDLDKSKAFYELLGLQERRRIDNEGGRFTLVFMCPPGQADGHADVELT
+YNWDGDDALPDDSRHFGHLAYTVDNIYETCKLLQDNGIVINRPPRDGHMAFVRSPDNVSV
+ELLQEGDALAPAEPWASMENTGHW
+>tr|B7RPA5|B7RPA5_9RHOB
+MTDFKKILIANRGEIAIRIMRAANEMGKKTVAVFAEEDKLGLHRFKADEAYRIGAGLGPV
+AAYLSIDEIIRVAKASGADAIHPGYGLLSENPDFVDACEQNGITFIGPRAETMRALGDKA
+SARRVAVEAGVPVIPATEVLGDDMDLVRKQAAEVGYPLMLKASWGGGGRGMRPIESEKEL
+EEKVLEGRREAEAAFGNGEGYLEKMILKARHVEVQILGDKHGEIYHLFERDCSVQRRNQK
+VVERAPAPYLTEAQRAEICELGRKICAHVNYECAGTVEFLMDMADDKFYFIEVNPRVQVE
+HTVTEEVTGIDIVQAQILIAEGKSIAEATGKASQADVQLNGHALQTRITTEDPQNNFIPD
+YGRITAFREATGMGIRLDGGTAYSGGVITRYYDSLLVKVTAKAQTPQAAIARMDRALREF
+RIRGVSTNIAFVENLLKHPTFLNNTYHTKFIDQTPELFTFKKRRDRATKVLTYIADITVN
+GHPETKGFERPAVTVRAPMPPAARAEPQMGTRNLLEQKGPQAVADWMGQQRQLLITDTTM
+RDGHQSLLATRMRSHDMIKVAPAYAANLPTLFSMECWGGATFDVAYRFLQECPWQRLRDL
+RAAIPNVMTQMLLRGSNGVGYTNYPDNVVQEFVRVAATEGVDVFRVFDSLNWVENMRVAM
+DAVIDNGKICEGTICYTGDIFDPDRAKYDLKYYVAMGKELKAAGAHVLGLKDMAGLLKPN
+AAKVLIKALKSEVGLPIHFHTHDTAGVAIATIMAASEAGVDAVDCAMDALSGNTSQATLG
+SVVEALKHTDRDTGLSMDAVREISNYWEEVRGEYAAFETGMQAPSSEVYLHEMPGGQFTN
+LKAQAASMGLDDRWPEVAKTYADVNQMFGDIVKVTPSSKVVGDMALMMVSQGLTRAQVED
+PEAEMSFPDSVIDMMRGNLGQPPGGFPAGIVKKVLKGEQPNTERPGAHLPPTDLEATRAE
+LKAQLEGAEVEDDDLSGYLMYPKVFLDYKGRHRIYGPVRVLPTRTFFYGMEPGEEITGEI
+DPGKTLEIRLQALSETNEDGDVKVFFELNGQPRVVRVPNRLVKATSAKRPKAENGNANHI
+GAPMPGVVASVGAVVGQHVKAGDLLLTIEAMKMETGIHAERDAVVKAVHVSPGGQIDAKD
+LLVELE
+>tr|B7RNZ7|B7RNZ7_9RHOB
+MTLDDLFATITDRKSADPSSSWTAQLLAKGPEKCAEKFGEEAIEAIIEAVKDDKSALTSE
+AADVLYHLLVMLASRDVALSDVMHELARRQTQSGITEKASR
+>tr|B7RPJ7|B7RPJ7_9RHOB
+MMDGTKGFEDALTGEQKIRNFNINFGPQHPAAHGVLRLVLELDGEVVERCDPHIGLLHRG
+TEKLMESRTYLQNLPYFDRLDYVAPMNQEHAWCLAIEKLTGVEVPRRASLIRVLYSEIGR
+ILSHLLNVTTQAMDVGALTPPLWGFEEREDLMIFYERACGARLHAAYFRPGGVHQDLPPA
+LLDDIEAWSHKFMSGFMVDIDKLLTENRIFKQRNADIGIVTEQDIQDWGFSGVMVRGSGL
+AWDLRRAQPYECYDEFDFQIPTGVNGDCYDRYLVRMEEMRQSIFIIQQAITKLREPEGQG
+DILARGKITPPSRSAMKTDMESLIHHFKLYTEGFHVPAGEVYCAVEAPKGEFGVYLVADG
+SNKPYRAKIRAPGYLHLQAMDYMAKGHQLADVAAIIGTMDIVFGEVDR
+>tr|B7RJA8|B7RJA8_9RHOB
+MKGRLLALALICAALPATAQQTLRPQEQSRLERFDQTAGRAMLQAFQTGSPADVDALTRA
+LSGTAQVAFDEGLGGEWSCRTMKLGGLTGLVVYSPFKCRLTFQGDGYLFEKLSGSQRTRG
+FIALRDGRAIYSGVGYVAGKTPPDYADLAADYAGDGEIQPDIAVFERVSNQRARLMFPAP
+VVESDFDILELTR
+>tr|B7RRV2|B7RRV2_9RHOB
+MFTFTHALAVLAALGMSTASLADTVSARNGDDTFFAGSQLSQSVDTVGDTFMAARSVNVD
+GATQGDLHIAGLDISVNTDVVEDLYAMGGTLVVRSAVAEDMTAAGLSLRTESSSLTQGNA
+RLLGNTVTIEGPVQGALSVIGRDVILNAAIGGDARILAQTLTFGPDAVVSGTLTYSTEGK
+IPVPDRVAPADRVVFEKIAGGRVWEEWQDMGKDMPAFPTFMSILFGFAIALLFFLVLGAL
+MLGFMPKRLAKMRRSIAEAPGQSLLLGVIGLSVLFGMVPITAMTIVGLPFVPVVLLAIVV
+LWTLGYALGAYSVSMRLWSALGGSDEPSNVARLLVFAAAIIFVALLNFIPFVGWVANFTL
+VLLGIGAMTRSVFQSLLGNPDVALDVDLKPLEE
+>tr|B7RMS6|B7RMS6_9RHOB
+MVLLLGSGLWIGLGLIATGATILALFRPQLPFVKLLAQQSWNVLSSPELLALPLFILMAE
+VLFRTNISASLFTGLIP
+>tr|B7RGL5|B7RGL5_9RHOB
+MALLSHWRRNPLQLFAYLAGLALATALWSGVQAINAEARASYDAAAATLGDGQFDVLVPR
+QGDSISLEQYVTLRRSGWLVSPVVDGRLGDVRLVGIDPVTSPTGLGAIETEGADNPFETV
+FATKETALKLDPAVQVTLDAGMAPGLAVGDIGIVQRLLQRDDLTRLVVLPGQPLDQPALS
+SVAPGLRVQPAQQVADVAQLTDSFHLNLTAFGLLSFAVGLFIVHSTIGLAFEQRRGMIRT
+LRSLGVPLKTLIAMIALEMMTLALIGAGLGIILGYLIAALLLPDVAATLRGLYGAEISGT
+LKLRASWWGSGMLLAVVGTAAALSSRIWQIAHMPLLASVRPRAWVTATASRFRLQSIGAI
+LLLGAAVPVALLGSGLLAGFALLGCLLIGAALALPAVAAAVLTVLERRTITPIWGWFWAD
+TRQQLPGLSLALMALLLAVSANIGVSTMVSSFRLTFVAFLDQRLAPELFVQTETADQSAA
+LATFLQSREVEVLPLLKTETTVANLPVELYGVRVGPTYRTSWVFLDAAPAAWDLVEKGEA
+VVVNEQFARRADLWVGDRLRLPSELTVPIAAVVGDYGNPQGQVIVSEQRFAGLYPDIYPD
+RFGIRTQDAALLRAAIVEAVGIDDGAFTAQEAIKALSLEVFEKTFVVTSALNILTLGVAG
+FAILMSLLTLADLRVPQLAPVWALGLTRRRLGWLEVVRAVLLAGIVFVCAIPMGLALAWI
+LLSVINVEAFGWKLPMYLFPFEYLRLGVYALIAAFLAAAWPALRLMRTPPATLLRVFASE
+R
+>tr|B7RHA4|B7RHA4_9RHOB
+MTHLKQLQTAGLFDTNAPRYTSYPPANHFGTGIGTARQAEWLAAVPDGAQVSLYLHIPFC
+KRLCWFCACRTQGTKTMRPVDAYVDTLLIEIDRQRALLPADVSLSRLHLGGGTPTILTPD
+IMARLLDRVFDRFARGAGFEFSVEIDPTEASAALLDTLIAYGMNRASIGVQDFDPKVQNA
+IGRQQSFAQTHATVAHLRAANLRSLNMDLLYGLPHQTGPGLTASLEQVMALQPDRLALYG
+YAHVPWMSKRQLMIDSAALPSPQARFQLAEQAREMLMLDGFVPIGIDHFARPDDGLSIAL
+ANGQLRRNFQGYTDDTAEVLIGMGASAISKFPQGYSQNYPSTAQYTSAIGAGDLAADKGH
+VLTQTDLWVARAIEQLMCRFEINTIDLRAQFPAEACAIARTLSNVAASFPQALHYREGIL
+TLDPMFEPLVRIIAGKLDLFKSEKTAHSAAI
+>tr|B7RNC1|B7RNC1_9RHOB
+MSDEIRKTTCYMCACRCGINVHMKANADGDMKVAYIEGNRDHPINKGVLCAKGSAGIMQH
+NAPARLRKPLKRVGERGSGEFEEIEWDEALQIATDWLAPIRSTAPEKLAFFTGRDQSQSF
+TSYWAQNFGTPNYAAHGGFCSVNMAAAGIYTMGGAFWEFGQPDWDHTKLFMLFGVAEDHD
+SNPIKMGIGKIKARGARVIGVNPIRTGYNAVADDWVGITPGTDGLFILSLVHCLMKAGRM
+DLDYLARFTDAPVLVNGDPASPDFGLLLRDASGKQQVICRKTGKLTAFDQPGVRPDLSAT
+HVVGDITHRPVFHHMAEKYLTDDYAPEAVADRCGIPAPRIRAIAAEIARVAFEEAFELDH
+EWTDFRGDVHNTMTGRPVSFHAMRGISAHANGFQTCRALHTLQIILGTVEVPGGFRFKPP
+YPKPASAHPKPHCGVTPGKPLDGPHLGFVQGPADLALKPDGSPARIDKAFTWENPMSAHG
+LMHMVISNAHAGDPYKIDTLFLYMANMSWNSSMNTGGVMQMLTDKDASGDYVIPHIIYSD
+AYSSEMVAFADLILPDTTYLERHDCISLLDRPICEADAAADAIRWPVVEPDRDVRGFQSV
+LCDLGARLGLPGFVDDEGRQKYDDYADYIVNHERRPGIGPLAGFRGADGTDTGRGAPNPD
+QLDSYIKNGGFFTHHIPDGAQYYKPWNSAYQDWAVQTGLFDAPQPYLFSLYNEPLRRFQL
+AAEGHGDHQPPDRLRDQIKRTMSPLPIWNESDQHGNDGFTITALTQRPMAMYHSWGSQNA
+WLRQLHGHNPLYVPTKLMRAHGLTDGDWATVTSPHGEITVPVLEMAALNDNTVWTWNAIG
+KRKGAWALDVTAPEATKGFLLNHLIHELLPPKGDGLRWSNADPITGQAAWFDLKVKIEKA
+PAPAESRPTAPKQKSPVPPAPKHLAWKITT
+>tr|B7RIT1|B7RIT1_9RHOB
+MTPETAQTILDENFAPWVMALAPTVTEIGTDRTILEIPISDALKRTGGIVSGQALGALAD
+TAMVMACMGHLDAMAPVSTVTLDTQFLRPATGETIRAEAEVTRAGRSMIFTRCTLIAEPS
+GKPVALATATFAR
+>tr|B7RM40|B7RM40_9RHOB
+MALPVKGYRLIFSPWVGHNCRYHPTCSAYALEALRKHGGLKGGWLAARRIARCHPWGDSG
+IDNVPD
+>tr|B7RFX5|B7RFX5_9RHOB
+MFLPFFDQLRRHKVPVSMREFLAFLDGMAAGLATYDVDAFYYLARVSMVKDERNIDKFDQ
+AFAAAFKGLENISLDDVLEAVDIPKDWLEKMAEKHLTAEEKAEIEAAGGFDKLMETLRKR
+LEEQKGRHQGGNKWVGTAGTSPFGAYGYNPEGVRVGQEGSRHQRAVKVWDKREFKNLDDT
+VELGTRNIKVALKRLRRWARDGAQEELDLGGTIRATAEHGYLDVKTRPERRNAVKVLLFL
+DVGGSMDPHIKTVEELFSAAKAEFKHLEYFYFHNCLYEGVWRDNRRRWAEQQSTHEILRT
+YGPDYKCIFVGDASMSPYEIAYPGGANEHWNPEAGSVWLGRAREQWNSSLWINPIPEKYW
+PYTQSIKMVQEIFGQDAMVPMTLEGLSRGMKALTR
+>tr|B7RHF0|B7RHF0_9RHOB
+MSRTVAFSGFILLVWRHPEPQGYAFSSFRRGVPASARASSHGRTHP
+>tr|B7RJG8|B7RJG8_9RHOB
+MTLFTSDDQRRGLAKIKWPLRLTWAGMWAEMLVQALWPVFGVILFVLAALMLGLHDLVPV
+EGVYAAAVVALIAAVGALVYAAWHFRIPRQFEALARLDASLPGRPIQALKDAQAIGAGDA
+ASMAVWRAHQKRMSDRAAAARAVPADLRVSRRDPFALRYVAVLFFATALIFGSVLRVGSV
+AGMAPGAGGLASGPVWEGWAEPPRYTGRPTLYLADLDAGAINLPAGTLITLRLYGEVGAL
+TVAQTVSGDPVASDAEPALVMDFTVAQSGEIRIDGPGGRAWDVTMLPDAAPEVEILGNPE
+VAALGEMRLPFAARDDYGVEAGEARISLDLAAVDRRYGLAIEPDMRPELVVPLPMPIAGD
+RTSFEENLIDDFSKHPWANLPVKISLSVLDASEQQVATPAREMTLPGRRFFDPLAAAVIE
+QRRDLLWSKANAARLAQVLKAVAYRPQDVFRSETSALRLRQQIDRLDIRARYGLTDEVQT
+DIAEDLWDLAIELEEGVLADALDRMRRAQERLTEAMKNGASKEEIAELMDELRRATEEYM
+RQLQRQQAQNGDPQDPQQGQQGESMQMTQDDLQRMMDRIQELMEQGRMAEAEQALRELQE
+MMENMRVTQGQPGQGGQSPGEQAMEGLAETLRDQQDLSDQAFRDLQDQFNPEGQQGQQGQ
+QGQQPGQQQGQQQGQQQGQQPGKNNGQNDGQTQEGQGQGSIADRQQALRDELNRQRGRLP
+GGGTPEGKAARDALDRAGRAMDGAEEALRRNDLSEAIDNQSQAMEALRDGMRALGDAMAQ
+EQQQNQPGQGTGEGNQQAKSRDPLGRNQSSNGGESTEGDLSMDNDAYGRARELLDEIRRR
+SGEAGRPEVERDYLNRLLDRF
+>tr|B7RJZ5|B7RJZ5_9RHOB
+MGHSFTWAGGLCAAALALSGCMSDIARVFDPADMVTRMKTPDASQAVKPTYAEKISADSQ
+IIQGLSLRASVLPVGTVSDQVASAVLAANSRTAEAELRAATLRSEAASKNWLPRIGPQVS
+LTSLGAVAANLVVDQVLFDNGRRKGERAFAVADVEVAAVSLAQDTNNRVATALKLYTAAA
+EARETAALDQMTLKDMTHFAWVMGERVKGGVSDMSDLTILRQKLSEIRASHDAAVEREAT
+SIAELNAMSVIPLGDLRGVPDVPVTAFSGAPLNVVRSEAEKTRAIAAAKVARAGQLPGLS
+AGGTVGEGSTLGLRIGSDQLLGFGTKASLEAIAQADETATRKLRQSVEDSNRNLRRLERQ
+ISAKTRQADEAATLAAQARRNLDIFQEQYDAGQRQVMDVVGVYETYARQQQTQVVLKYDV
+VRLKIEMAELQGVLADGSAI
+>tr|B7RPW5|B7RPW5_9RHOB
+MTMGRGVGNPEPMSDLANFDADIRGMHKRAYQEGNLDWLRLALDSLIVNPDGRIGDFAGQ
+QFPFDDAELVAIFKRAFETIWPDETLSEPGDEPDMEFEDMSVEDWTALVGPQT
+>tr|B7RH42|B7RH42_9RHOB
+MGPTMERGQKWRAFQWQKAREAAMPSAIPLMVVKMRVARARALGLDYKAYAAIRQATGRD
+ILALLFSSNALRVVRADAPQMPVRETEILTAVQGAQKLALVHRPLSGDAVQGANPVLDHV
+ASAPRFTDSWADMRDHLSGVMQGRRLVGDQVLIIGDTGLERDWSGAAKAAGYLEAARYFG
+RDVQA
+>tr|B7RL35|B7RL35_9RHOB
+MTDAALTFPTAEPEGLQVAFVGKRGALFWLAFKTGFWTILTLGFYRFWMKTRMRRWYWSA
+IRPGGHPMEYVGDPLEKLLGFFIAVVILTFYLGIVNLLLMFVSFSVFSSASLGYLASFAG
+VIPLWFYARYRARRYVLARTRWRGVRFGLEKGAWGYAWRACLHWMVTIASLGVLWPRMTF
+WLEKYVTDRTYFGSARLHQGGGWTMLYRAAVPFAVSLLVLGTGALWLFWIDPVVVSADIT
+LEGVTRSFDEMMDGGAPAMPVVGIERLLIFPLGFLGLIYGAIHYRFVSRRILADHKSSEG
+ISLASRLSGPRVVSIYVLGNFIAYLVLVLGVVALVLGAIGTFGAGVLLGVDVGPLSLGWD
+LPQGLGIAMFAMFYLTIFLMWNVLYNTFVTYPLMRHMANTLSLPTRYGLRYVSQRARDEF
+AEAEGFAEALDLGAAI
+>tr|B7RS32|B7RS32_9RHOB
+MSSVRRLGFFGFFVVGALSFGLRLSPTGWIRPYQIAFRGFRWTLERRLGQIWLRWRHPEF
+QSFLSEISYSGTDVPRRFALYYLGHCLEQGAKTPLFQTFLQRSFTAHSSDLIKCEFPIRN
+EAVVCVYAHQSITKLSLSRFTEEADILFIGRSLKQDGKKVLDPDVRASIMTRQLLEARRR
+LSKNMPVGILPDGQQGTRYLTASFFGKLRPFKPGLGTLATATNAPVVPIWNTLSQDGIIY
+INKGKVFASATNGDPEQRAMQYLTQYSTVLEHIYEKHPETVQRKSIRQFLELDFLSQTDN
+RKRSEG
+>tr|B7RH95|B7RH95_9RHOB
+MEAERMPEHKETDTFAALEKREWAKVDVAQSYAHVFAKAADMVVPYLVEAVSAKLGTKAL
+DLCCGHGNVASGLIRAGAQVTGLDFSAPMLEMARSAVPGAEFVEGDAMALSFDDGSFDAV
+TIGFGLPHVPDPRQVIEEAHRVLHPGGRLAFSVWCGPEVDTALGYVFGAIGEYGSKKVAL
+PPGPGANDYADPSLAFKVLETAGFTDCRQCMVASEWHVTDPGAPYDFFLEGTARGGALLR
+PQPTENATAIRAAVVSKVLEKHGTGPEWRVPIPAVVTSAVAV
+>tr|B7RKA3|B7RKA3_9RHOB
+MRVAALTGDALASALPDVARLRVNVFRDWPYLYDGDLAYEETYLQSYRASPRAIVVGAFD
+GDALVGASTGTPLADHADDFSRAFAATGLNLDRIFYCAESVLLPAYRGRGIGHRFFDLRE
+AHARRHGFTKCCFCAVQRPADHPARPLDARPLDPFWRARGYAPLTGVVAEFEWKDVGLES
+QTAKPLQFWMRDL
+>tr|B7RFQ5|B7RFQ5_9RHOB
+MATLKHVTPRYIVDRLSVVLDEKRNPNHPWLTKESVELLAQLLRKQDVGVEFGSGRSTRW
+FLSKIAKITSIETHEGWYKKVSQDCESEIASQRMVYHLASDVESFEKIIDGFDSDSIDFC
+LVDGSHRDTCALSMVPKIKTGGLMVVDNINWYIPCENSTSPNARRATDGYATEKWEEFAQ
+LTKDWRYIWTSNGVSDTGIWFRT
+>tr|B7RMB2|B7RMB2_9RHOB
+MWGLMERCDWAGPEQIYLDYHDTDWGVPEYDSRALWEKLVLDGFQAGLSWITILKKRENF
+REAFAGFDPDVIATWGAADVDRLLQNPGIIRHRGKIEATITNARVWQQIEAREGFDTYLW
+KYVDGVPLQNSFGRHSDVPTSTPLSTQISKDLKKQGFKFCGPTIVYAFMEAVGMVNDHLV
+GCHRHHAVKKMVRER
+>tr|B7RKC5|B7RKC5_9RHOB
+MSHPFHSDSDQKRDRHLLLGAGGIAIFGSICLLVGNIVGSMVVPNHDWVADTVSDLAAGK
+YEIIQDVALYGYAAALIACALGAAHFHAHTLRWNGGILSLAILAASVIVIGARNEYGDQD
+SDGIVIHVYLVYVLGVFFTALFVLMAQGMAAVDKSFAYISYACAMLWGAGAPIFFVLPTN
+IDGAFERGLGVVTMVWVCSFGWMLITVARRADART
+>tr|B7RLC1|B7RLC1_9RHOB
+MAEHIKSQDARCAVIAMIEDAEALDRIDEQQDDATFIGGIKSWMTE
+>tr|B7RG57|B7RG57_9RHOB
+MAELKNIEVRGAREHNLKNIDVDIPRDKLVVITGLSGSGKSSLAFDTIYAEGQRRYVESL
+SAYARQFLDMMQKPDVDHISGLSPAISIEQKTTSKNPRSTVGTVTEIYDYMRLLFARVGT
+PYSPATGKPIEAQQVQDMVDRIMTMEEGTRAYLLAPIVRDRKGEYRKEFLDLRKQGFQRV
+KVNGEFYELDEPPTLDKKFRHDIDVVVDRLVVREGLETRLADSLRTALDLADGIAILETA
+PAEGEPERHTFSEKFACPVSGFTIPEIEPRLFSFNAPFGACPSCDGLGKELFFDERLVVP
+DQNLKIYDGALAPWRKGKSPYFLQTIEAIAKHYDFNKSTRWKDLPENVQQVFLYGSGKEE
+IKFRYDEGGRVYEVSRVFEGVIPNMERRYRETDSNWIREEFERYQNNRPCGTCNGYRLRP
+EALAVKIGPVDGTPDQRLHAGQVVQMSIREAFEWCNAVPDQLSVQKNEIARAILKEIRER
+LGFLNNVGLEYLTLARSSGTLSGGESQRIRLASQIGSGLTGVLYVLDEPSIGLHQRDNDR
+LLLTLKNLRDQGNTVIVVEHDEEAIREADYVFDIGPGAGVHGGQVVSHGTPEHVANDPNS
+LTGQYLTGKREISVPAKRRKGNKKKIKVVKASGNNLHDITVDFPLGQFVCVTGVSGGGKS
+TLTIETLFKTASMNLNGARQTPAPCETIKGLEHLDKVIDIDQRPIGRTPRSNPATYTGAF
+TPIRDWFAGLPEAKARGYKPGRFSFNVKGGRCEACQGDGVIKIEMHFLPDVYVECETCKG
+QRYNRETLEVKFKGKSIADVLDMTVEDAQTFFQAVPSIREKMDALMRVGLGYIKVGQQAT
+TLSGGEAQRVKLSKELSKRSTGRTLYILDEPTTGLHFEDVRKLLEVLHELVDQGNSVIVI
+EHNLDVVKTADHIIDIGPEGGDGGGRVVATGTPEQVAEVAESHTGHYLKPMLAPRKVAAE
+>tr|B7RKH4|B7RKH4_9RHOB
+MAEWNPDGPIRLWIGYGAGGGTDVQGRTLAKEIEAKRGWQVIPENKAGDDGTVMSAQLKT
+EEPDGQTLGFAITTTYDFAPMNSDNLSPEDFTYITTTAGSQMAVLARAESGWKTLDDLKA
+AAANEQIVWANWGTQVEAGAEIVARSLGIDVNHLRMKGGRGTLNALVSMDANVAWGGGVQ
+KPLVEAGELVILSSAETGPVALAPDMPTLMDQGIDLNLGYQYIITAPAGMPDEIREEIGS
+VIAEILVDPESETRQFIEKQYPPAPIVTQGDDLREQILSTYEANVSMMKALAE
+>tr|B7RJN3|B7RJN3_9RHOB
+MTLLNITNLSLAIHSFEILHDVTLSVNPGEIVAVTGESGSGKSMTALAAMQLLPKGARAT
+GHVMLGDDDLLTLSERALCDIRGNDIGMVFQEPMTALNPVQTIGTQVAETIRVHDRSVSR
+DAAFAKAAETLERVGLPQDRFPLTRYPHELSGGQRQRVVIAMAIALRPRLLIADEPTTAL
+DVTTQAQILDLLKGLAKQDNMGLLMITHDLAVVADMADRIIVMRKGEVVEQGETQALLRN
+MRHPYTQMLFAASNHKVTLPPAPAPKPLLEVHKLSRDYSLPRKTLFGKPDSFRAVDDVSF
+TIQRGERLGLVGESGCGKSTLTRAILGLEQVQAGTITLDGEPVFTGTKPNLAVRRKMQVV
+FQDPFGSFNPRHRVDRLITEPFHLLSDPPQGTAHDAAIAEALTAVGLAPGDARKYIHEFS
+GGQRQRIAIARALIIRPDLILFDEAVSALDVSVRAQILDLLADLCKAYDLTYLFISHDLS
+VVRTVTDRVLVMKSGKIVEQGETQAVFEDPQHPYTQKLLAAAPVLPEFESQTA
+>tr|B7RKY5|B7RKY5_9RHOB
+MMQRFGQPPLPGKNYTLRPGSYAILPLKGRFLMTAQIGEKVDVQLPGGGIDPGESPLRAL
+YREVIEEIGWTIAYPRRLGAFRRFVYMPEYDLWAEKLCHIYVAHPARQIADPVEPDHVTV
+VLSADEALAALGNDGDRMFFEKYMF
+>tr|B7RNG9|B7RNG9_9RHOB
+MTAPANTTTRLEFPDNRLLIDLCGAYDVNLAAVERGCEVQIVRRGNQLSVLGDDDAVGRA
+ASVLESLYARLEGGRTVEPADVDSLLRLGNSAVGTGIQPGDQIEMPILGGVEIQTRKKRV
+EPRTEAQKAYVQSLFDNELAFGIGPAGTGKTYLAVAVGVSMFISGHVDKIILSRPAVEAG
+EKLGYLPGDMKDKVDPYMQPLYDALNDFLPGKQLAKLLEDKKIEIAPLAFMRGRTLSNAF
+VVLDEAQNATSMQMKMFLTRLGQGSRMVITGDRTQIDLPRGTPSGLQDAERLLKAIPKIS
+FNYFTSKDVVRHPLVAAIIEAYEADTGHA
+>tr|B7RS76|B7RS76_9RHOB
+MHLARPGDDLQATTKAYFHAHCLARALVDLGYQVTLYQAFDVHQRQEIAGVDVCGFPLVQ
+AGRNRSNGLMTRLLGLEATGTPNCDALIKYFAANPPEVLHVFGISEWVAHQPVTRWAKNA
+GCLVSCSDHGGVPSRHPVRRIRQKNALRWSDVFFTPSLERKEMWRGSGLFNAQQRFEGLP
+EISTSFALSSQELARQKTGMTGNPVVVSTSNLQHRKRPILMLDSFEHLLEQWPDAQLYLF
+FRFDTLLPEVKNRIANSPKLSSAVTICGSVPHDEMVAVYNSADIYFLTSTYETGPISLGE
+SLACGAMCACTALPSIQLIAEQDQELNGVLFSQTANAAEIAERMAPLKRYVSQATRLRQR
+SYFDKYLSYDVMAGAMMSALGTLSNSKRV
+>tr|B7RG75|B7RG75_9RHOB
+MISKKDVVMAEPRRNIASVDPVWDQILIDAQKAVQDEPLMGGFIHTCILHHKSIEKALSY
+RIAAKLSSNEMSMMVLREMVQEAYANDPSLIKAARADLVAIFERDPACHRLLQPILYFKG
+YQAVQAYRVGHHLWMKGQRDLAYFVQMRVSEIFGVDIHPAAKIGKGIMIDHAHSVVIGET
+AVVGDNVSMLHSVTLGGTGKEEQDRHPKIEDGVLIGAGAKVLGNITIGHCSRIAAGSVVL
+QAVPPCKTVAGIPARVVGEAGCEQPSVLMDHMLGPQGD
+>tr|B7RGI7|B7RGI7_9RHOB
+MEIGNSLRAGAYVSMKINTYMTRLGASAFFLLGCLSQSSAETVGNVDVDWLGNDIVVEAV
+ADPKVKGVTCHLAYFERGIIDRLQKGNWFEDPSNSSISCRQTGPIEIGDIARDDEGETVF
+SERRSVIFKTLKVKRIYDEANKTLIYISHARDVQNGSAKMSMSTVPLYVPGS
+>tr|B7RI82|B7RI82_9RHOB
+MQILRMSHAKTVKIKKNEPRMSSNHKIEDSLREAIISQPDVILDDNDVMQALIAANERAM
+GNNIVDLRGIAMDRLETRLDRLEDTHRNVIAAAYENLAGTNQIHRAILRMLDPVEFETFL
+RDLGGEVADILRVDAVRLLLESVQNDNDPAVKRLGDVLNVAEPGFIDDYLTAGRGGTVRQ
+VTLRSVQDSPETVYGGAADWIRSEACLKLNFGEGRLPGLLILGSEDPHMFGPQQGTDLLG
+FFAGVFERTMRRWLS
+>tr|B7RRS5|B7RRS5_9RHOB
+MGRWKTVIGLKLKARSFENQKTEARIGVRILNRMTELGRPNFERTA
+>tr|B7RRY5|B7RRY5_9RHOB
+MNQPDQLRRCLASLRAGRRPPDEVIVVDNGSARLPESICAANGSAILLHQPLAGPGLARN
+LGVARARGDVLAFIDADCIADPDWLWVAERQMRNDKAQIIGGNVRIAPDNPARLTALEAY
+ESVFAYRMDRYIAREGFTGTGNMVVRRAVFDAVGVFRGLHVAEDRDWGQRASGLGYVIKY
+VPDLVVFHPARRSFAALQAKWDRQLAHDQIAHRSKWGRVKWALKAAALIPSPLAEVPRIA
+SSERINGLRNRLLAFGALCRIRMYRAVRMAQLLAGMDPDHLLQRWNPSDAH
+>tr|B7RMS7|B7RMS7_9RHOB
+MANVMDQRTDPAPRQTFDAIIAPIDAVTRAGNLIAGLALLMILGLITAEIFSRNLIRKSL
+AFSWDYAAYAMGTAFMMGAADALRNGAHVRVTAVLETVPRPLSRGLEFGACLAGLLACAA
+LAWALSEMAWLSFQRGSTSATVVRTPLVWPQSLVALGAIILTLQCLAQLLRLARGERLAE
+GTAIE
+>tr|B7RNV7|B7RNV7_9RHOB
+MPLSQPLRYVSQMTHARLTPLAQSLPSTVPFVGPETQERAAARPFAARLGANENVFGPSP
+RAIQAMAATEQWMYGDPESFDLREALAVHHGTTPDHIVVGEGIDGLLGYLVRLVVGQGDA
+VVTSDGAYPTFNYHVAGFGGVLHKVPYSGDHEDPQALFAKAAEVDAKLVYLANPDNPMGS
+WHSGADLVAAMARLPDGCLLVLDEAYIDCAPQGTAPDLGADDPRLIRMRTFSKAHGLAGA
+RVGYAIAAPDLISAFGKVRNHFGMNRAAQAGALAALQDADWLAHVQAQIDISRDRIGQIA
+RDNGLTPLPSAANFVTIDCGRDVVFAKAVLDGLVAQGIFVRMPFAAPQNRCIRVSCGTRE
+NLDAFAMALPKALADAQNG
+>tr|B7RI17|B7RI17_9RHOB
+MRLFLRVTEVPKWLIVPVVMTCCVVGTFALNNRVTDLYLLIFIGIAGYVLRALGYSLAPL
+VLGVILGPIAETNLRRALMTDEDITLFFTRPISLIFLLAAILSVGWAIRSHLQSNKKTNE
+RPSDAPTS
+>tr|B7RLL8|B7RLL8_9RHOB
+MKSLIIHMPSSTARRPNADRLLKDLPDAQLVDAVDGRDPAQIAGVQTFNGNLHSPPYPFA
+LKPAEIGVFQSHRKCWQLIVDQGWDYAMIVEDDLAVSPPHMARALALIDAHMTPDMYLRL
+PPKMRETPARVIAQDGDMRLILPERIGLQCCCQVVGRKAAERLLAGSEKIDRPVDTWLQM
+HWITGQPVHALLPNGNAEIAGQIGGSTIQQKTRTSGKLMRELKRAWYRTRVRMRPQKP
+>tr|B7RLL0|B7RLL0_9RHOB
+MTQDTKGTSRRNFLKLAGTAAPAAVVAVAASGTAAEAQPVDLQSSTMQDTAHTRAYLDST
+RF
+>tr|B7RR17|B7RR17_9RHOB
+MLVCETRFCPASVPPGFRLGGDLARNSGELVFMTFLLF
+>tr|B7RHJ4|B7RHJ4_9RHOB
+MWKTLSLILPVLMPSWRFFKTIEPSPRVQWRFLTDKNATTGDWQDFRPRPQAVTAVQMIG
+RLFWNPVWNDNLFVVSCAERIEQQRTDRSITEITQRILADSDATQMNPQVRLVQFRLLFV
+HRDGADLVEDIVFVSDPVAQPRGPSC
+>tr|B7RJR1|B7RJR1_9RHOB
+MIDSRLQLALDGGGLDLPAEGTIAVFQPPRDADLPGLDKDRVQIIHDFKPDYDAWTARGY
+DVVRTVKDRYAACIVCLPRAKAEARVLIAKACEVSDGVVVIDGQKTDGVDSILREMRARV
+TIQGPISKAHGKMFWISDPAADFFVDWAQGPSLTEGGFWTAPGVFSADGVDLASALLVDA
+LPEKLGAQVADLGAGWGFLSAHVLTRPAVEKLYLVEAGHLALECARRNVADDRAEFLWED
+ATTWQAPHRLDAVVMNPPFHTGRAAEPQIGQAFVTAAARMLSAQGKLWMVANRHLPYEAE
+LKTRFAHVEEIGGDARFKLFHAARPLRKRR
+>tr|B7RR49|B7RR49_9RHOB
+MPYELIAILMFSTMMLLLLTGQRVFGAIGFIAVVAALLLWGDRGGYDIGFSAAIGLMRWY
+PLLTLPMFIFMGYVLSESKIADDLYKMFHVWMGGIQGGLAIGTIGLMVLISAMNGLSVAG
+MAIGATIALPELLKRNYDKLMVTGVIQAGSSLGILVPPSVVLVLYAMIARQPVGQLWLAG
+AIPGLMMAAMFIIYIAIRCRLNPDLGPALSAEERDVGMREKLRLLRAGLLPVVIFAVMMI
+PFVNGWTSLVESSAIGAIAAFLAAVLKGRMTRQVFETSVRQTLAITCMFMWIILAALAFG
+AVFDGLGAVKAIENLFTEQWGLNPWVILILMQLSFLIMGTFLDDTAMLVIVAPLYVPLVG
+ALGFDLVWYGVLYTITCQIAYMTPPFGYNLFLMRAMAPPEITIKDIYRSIVPFVGVMALA
+LAVVMIFPQIALWLPNYVYGK
+>tr|B7RRC4|B7RRC4_9RHOB
+MSFLPHADAKGLAWYGSMTASAATHAGVIAFFMLSGAVAFLPDPVESERPEPEFAVSLEI
+LDAEIVGETDVIDESMLIPPDAIPLEPDTRTEAELPDSLTALDPDQEALAPDDTALAPEQ
+DVTQPDDLALTEPDVTEPEAIEPEAAEPEPVEPEVVEQRPIEPEPAPQEVAALQPEETVI
+APVPEPEPAPLPLPTVAEPEPETPSLLAIEGISPIDDTVLNPLAESRGGLVADVGPEQDS
+ALLLTPEASPEPDVLALLTPEPVPEIPLDTPAVAAPEPVVLPEPEATPPETTEPEATAPE
+ADETPAASPPPAPRALPNPTASDIAIGQLLRRIRALPQTQCTLILPRRASGNPGAGISLI
+GTDLDVLDDLAERVTANLGFEPVQTREEIDPRQCATLDILRQAESYPASRIGLALESTSL
+ASGDTLNGRVIGAGGLFVTLLLIDDNGVVQDMTPFVRLEDDVPVFAAPVARSGPVRATRQ
+ILLALGTQAAPLDIEARIGNVSQTVFAPIPGDTLRNMVFGVATFDVR
+>tr|B7RHD1|B7RHD1_9RHOB
+MKFLTTAAVALTLSVSAGAVSAACDDGEIVIKFSHVTNTDRHPKGIAATLLEQRVNDEMN
+GKACMEVFPNSTLYNDDQVLEAMLQGDVQMAAPSLSKFEQFTKQFRIFDLPFMFKNIEAV
+DEFQNSETGQAMKASMERRGLSGLQFWHNGMKQMSANKPLNVPTDANGLKFRVQASDVIK
+AQMEAIGASPQPMAFSEVYGALQTGVVDGQENTWSNIYGQKFFEVQDGITETNHGVLDYM
+VVTSTDWWNGLPDDVRTQLATILEEVTVSRNAAVGEVDAEARQAILDAGSKIVELDAAGR
+QVWVDAMMPVWEEFTADVGQENIDAAQAINAKH
+>tr|B7RL77|B7RL77_9RHOB
+MAAKLRKGDKVIVLAGKDKGKTGDITSVDPKSNKAVVAGINMAIRATRQSQTSQGGRIPK
+AMPIDLSNLSLVDANGKATRVGFKIEGDKKVRFAKTTGDVIDA
+>tr|B7RHB6|B7RHB6_9RHOB
+MEGPRPVIVGPVMRKKELIDLVVERSSIKKKDAKPVVEAMLAVLGEALADNRELNLLPMG
+KFKVVNEKDLGNGKMMRVKVRQVAPSDKSKAADTDTDESDV
+>tr|B7RMV0|B7RMV0_9RHOB
+MDTVTKTRARIGTAWIGRDLSWLEVLMLESFVATGHEVTLFSDQPAAMPKLDGVTVTHMR
+DVFDYDENERKHMPPAAFVDLFRLNMIARTGLTWVDTDVVSTKPLELWNGYLMVRDGEID
+YDHITNAFLCLPATSPALIQMVEEVASKDLDYGWMRHRMRRQILELPKKDRFIGASKISR
+QAYGPSYVTSRLVAHDEFAMARPKETLDAVPWDLTDLFFDPKGGCYNWFTDDTVGAHIAL
+SQLRKRHINKGPQPGSFLHGVQEKVQAFRQAQAKA
+>tr|B7RIP3|B7RIP3_9RHOB
+MSVYLHGLSTALPPHCLTQSEVRERASIIFGQKYPQFDRLSKTFDTAGIDKRYSVVPIDW
+FTQNHGWSDRNAAFMTGAKALFIEAAQRALDYAGWTGADVDCVVTVTSTGIATPSLEAQV
+FSEMSFREDVMRVPVFGLGCAGGVSGLSTAQAIAAGRPGLKVLLVVVEACSLSFRADRLQ
+KADIIATVLFGDGAAASCISSAAPASGKIITLSQGHQKMWPGTLDIMGWDVDETGFGVVF
+DRSIPTFVTEEFAAATDGALKAANLDHGQIDRYVCHPGGAKVVDAIEGALRLEQGSLNAE
+RDTLRAAGNMSAPTVMFVMKSVLEAGNTGQMMACALGPGFTASFMPFHVTAEAA
+>tr|B7RPQ5|B7RPQ5_9RHOB
+MSTRGAQKARKGGNAMNDLSSIDAVQAMLEGEGYICGRALGTVVFLSLTLGRPLFLEGEA
+GVGKTEIAKALAAGLNRKLIRLQCYEGLDASSAVYEWNFPAQMVAIRTAEAAGDTSRKAL
+TTELFSDDFLIERPLLEAMRPDERGAPILLIDELDRTDAPFEAFLLEALSDFQVTIPELG
+TIKAPEPPIVILTSNRTREVHDALKRRCLYHWVDYPNFDREMEILKARAPEASDSLSREV
+VAFVQQLRTEDLFKKPGVAETIDWAKCLLALDVITLSPEVIADTXXXXXXXMT
+>tr|B7RHJ2|B7RHJ2_9RHOB
+MLKDRELQTPYYLIDKARLLPNLEKIAWLRAESGAKSLLALKCFATWSVFDFMAQYMDGS
+TSSSLYEVRLGHEKFPGETHAYSVAYADHEIAEVLACSDKIIFNSIGQLTKFADAAQGHI
+KGLRVNPGVSTSEFDLADPARPFSRLGEHDPDQIAAVADQISGLMFHNNCENDSFERFDE
+MLTLIEGRFGAVIRDMDWISLGGGIHFTGADYPLDRLAARLKSFAQTYGVQVYLEPGEAA
+ITGAATLEVTVLDTMYNGKNLAIVDSSIEAHMLDLLIYREPAKISPDTGDHEWMICGKSC
+LAGDIFGEFRFDAPLKAGDRLSFQDAAGYTMVKKNWFNGVKMPGIAIRELDGTTRLVRDF
+DYDDFAAALS
+>tr|B7RIK9|B7RIK9_9RHOB
+MTYILAIDQGTTSTRAIVFDGAMAVVSSAQEEFAQHFPQSGWVEHDPDDLWQTTVNTCRD
+AIAGANITPSQIAGIGITNQRETVIVWDKKTGQPIHNAIVWQDRRTSDMCNTLREAGHEA
+MIIDRTGLLLDPYFSGTKLKWILDHVEGARERAADGDLLFGTVDSFLIWKLTGGETHATD
+ATNAARTMLYDIRKGRWSSTICDVFDIPMQMLPEVKDCAADFGHTQPDLLGGAIPIHGVA
+GDQQAATVGQACFEPGMLKSTYGTGCFALLNTGDAPVMSKNRLLTTIAYQLDGKPTYALE
+GSIFVAGAVVQWLRDGLQIISDAAETQALAEQADPHQNVVLVPAFVGLGAPYWNPDCRGA
+AFGLTRSSGPAEMAKAALESVGYQTRDLLEAMASDWQASGVQPTLRVDGGMAASDWAMQF
+LSDIIGAPVDRPMVHETTALGVAWLAGMHAGIYPDQAEFAATWARETQFKPQMDDALRAS
+KYAVWKKAVQATLSF
+>tr|B7RJR0|B7RJR0_9RHOB
+MRLDDLMMAGKDRDDDETDLLTKTKPKTKRPPLYKVMLLNDDFTPMEFVVHVLERFFGLN
+HAQAFEIMLTVHKKGLAVVGVFSHEIAETKVAQVMDFARRHQHPLQCTMEKEE
+>tr|B7RK90|B7RK90_9RHOB
+MRHVLFTLLFSLLLVVIGSDSQAQGLQTLFPTAKAATDPEAARIEGIMKQAAQNGVGVVV
+IDSNGQLLTQSAAPAGQMAASDAQDTPSEHSPLMKAQERTNKFRAALIQRLKELPIAVNE
+VLYILRAASPDGTLWAFGSTLLISLALFGIGVVVEREVFGKRIARGFVTARVLENPVGYA
+EKMPFLVFRFFMGLLGILVSMAVAYLLGLAIFGTLEDTAMQFTVVLINIGYFVCRFFATL
+WRMVLSPFLTQYRIPVFSDKDAKRLYTWLWILASLDTCAILFGMWIGELGLNYDFYAFIS
+SLMSAVIVLMNILMVLVNRRAISNALRHGKPIAQSSLVTRVLSKAWAPAVVVYVLFAWVE
+LTYDLVLERPSSIPLIAGAYGILISIIVVYGVINYGIERGFARARSIRRLNAIRDAKIAL
+NDSNDEMDQTGQSDAAERLALAEERARADMIPRRTMNTFEALAQRVAGILAFVAGTYAFF
+FIWDNEGARMVETLADRLLDIMVIIFIGYVVYHAFRIWIDTKIEAEVGDQPEAELGDEGS
+GASSASRLATLLPLFRNFILIVVVVTIVLIVLMEFGINVGPLFAGAGIVGVAVGFGSQAL
+VRDIFAGAFFLFDDAFRKGEYLDVGGVKGTVEKISVRSFQLRHHLGALHTIPFGELQVMT
+NYSRDWVIMKLPLRVTYDTDVEKVRKMIKKLGIALLDDPVIGENFIQPLKSQGVIEMQDS
+AMIIRVKFMTKPGDQWLVRKKVYEEIRALFEREGVRFAHREVTVRLADGKVKDLSEEERK
+AVTAAAQASIEEEMQDGPEAGGDDR
+>tr|B7RLH6|B7RLH6_9RHOB
+MEAQTLAAASEIDFSLLGLFLRATFTVKLVMISLIVASFWSWSIIVQKILQYRRAKAEAE
+RFDQAFWSGEPLDGLYDSIGPDPEGAADKIFAAGMTEWRRSHREDGGLIPGATARIDRSM
+DVAIAKESEKLQKGLPVLATTGSTAPFVGLFGTVFGIMHSFIEIAAQQNTSLVVVAPGIA
+EALLATGIGLLAAIPAVIFYNKLSADSDRILGGYEAFADEFATILSRQLDS
+>tr|B7RP00|B7RP00_9RHOB
+MKRVILAAVLGCGFAGSALAADPAVGVWRTAVDDGAYAHVEMTPCGSAVCGTIQRTFNDT
+GEYASQNIGKQLVIGMTPDGKGNYAGKVWRPSNDKIYIGKMTVSGNDLKLSGCIAGGLLC
+SKQDWTRVK
+>tr|B7RR53|B7RR53_9RHOB
+MGKVPQSDAVFDAFCSALNHAKAITRICILIQFHPCGLGSPSHDKESDDRDSRVYRMVED
+IADELLTHRPGSRIEIGMRHVGQRVTSLM
+>tr|B7RR61|B7RR61_9RHOB
+MLLFALNETRDHGDRIAAAMGQDLSDLEHRDFEDGEFKIRPLCRVQGDHVCIIQSLYDGP
+DLSVHDKLSRLLFLIATMRDHGAARVTALVPYLCYARKDRRTKAQDPVMTRYVAQLFEAV
+SCDDLITLETHNLVALQNAFRLRTYHLELGDIFQDVIARRVDDVPLVVMSPDPGGVKRAQ
+LFREALQARLGQPVGFGFMDKRRSSGVMTSGDIVGTFDGASVLIVDDMIASGGTMTAAAM
+ACKANGAVNAFALAAHGLFTPGAKALFTGSSFEKVFVSDSIPPFRLPDGRDTQRLEVVGT
+ADQFADALRALSF
+>tr|B7RMU6|B7RMU6_9RHOB
+MANPTLLILAGDGIGPEVMDQVVRIIDWYGEKRDLAFDVEHDLVGGAAYDKHGTPLHDDT
+MAKALAADAVLLGAVGGPKYDVLDFSVKPERGLLRLRKEMDLFSNLRPAQCFDALADFSS
+LKKDIVAGLDIMIVRELTSGVYFGEPRGIFEEGNERVGINTQRYTESEIDRVARSAFELA
+RRRGNKVCSMEKANVMESGILWREVVQKVHDEDYADVELSHMYADNGAMQLVRAPKQFDV
+IVTDNLFGDILSDCAAMLTGSLGMLPSASLGAPNADGRPKALYEPVHGSAPDIAGQGKAN
+PIACILSFAMALRYSFDQGEEATRLEQAVEKVLADGARTADLMGPEDGTPISTAEMGDAI
+LAALDSSL
+>tr|B7RGM3|B7RGM3_9RHOB
+MLSVKDLAVSFQTRRGAVDAVRGISFDLEKGEILGIVGESGSGKSVTSYALMRILDAGGR
+IKAGKATYSGIDLRRAAERDMRDIRGREISMIFQNPRAALNPIRKVGHQIEDVLREHARA
+TRQDARAKAIAALRAVRINDAEARYDAYPFELSGGMCQRIVCAIALACDPRLLIADEPTT
+GLDITTQKAVMDLVRDLIRERGMSSLLITHDLGLAAQYCDRIMVMKDGLIVEQGDPVQIF
+SDPQHGYTRKLVDATPRIGESIRSLLPPADRKAELPHQVLDTPLVEVRNLTKTYRGKSGP
+VQAVKGISFTIKQGQSVGLVGESGCGKSTTSEILVRLMDATSGDILFEGENIAAIPAKGF
+ARNPRRAQIQMVFQDATDSLNPRHTARQTIVEPLRRLGGLRGAKLGARVEELAVLVGLPL
+PLLDRFPHQLSGGQKARVGVARAVALEPKFLILDEPTAALDVSIQAVVLNLLVDLRAKLG
+MTYLFVSHDLHVVRLLCDHVIVMKDGEIVEQGHARDVMANPQNEYTKTLLAAAPTPPARR
+QVA
+>tr|B7RS93|B7RS93_9RHOB
+MKSLALFEPPVFIVAPDDAEVVAMASVNRDLAENPPADPGTMIRGFFTHVGIRPPADMPP
+EAQKGLARELATMRSPTEADITLNQLRTGGWPIRVMTSGKTPGSEGIARAIAALPRAEHI
+IVPHVDHNTQKNGAVVNPVLEDLWNTVE
+>tr|B7RI03|B7RI03_9RHOB
+MKRDRDAGIVLINVLVILSIASIVVFLMLTSQEVSLRRAQSMAAATAADALARGAEASAV
+TALRRDMVTAADTDNYTEAWAQVAQQEAGLSTGRFSVTIRDAQAKLNLTRLAGGAQVEVE
+ALLRVLAELEISRADGARIAAEIASRPGLKNLSDLRGISPETITALSPYVDFLPATATLN
+LNTAAPLLLRAVLNNRSAALRLESRRTGAGVLTPQDLDRVGAVRPALAGFTSQNFDIDIL
+AEVDDITVNLRSRIVRRESFAGRSVVVTRRAFGVPVNTVPAIPQM
+>tr|B7RRC3|B7RRC3_9RHOB
+MSDEKKTSDKTPDTGADDDDKTILFSPQPAAPAPAPDVPEDDDDRTIVVRDTPSAPAPVA
+EDDAGASVEEMPQSEVQTVPVEPAAPEPASAAPVTETPSVVAPNAGIVSSPITSLEPGMV
+INNMYRVEESLDQGGMGRVFRGEEIGTGESVAIKVILPEMAEDTKVADMFRREARVLRQL
+HHDAIVRYFAYVPPDENLSFHALVMGFIQGTKLSDTLKEGGPLKRSDVIKLTMRLADGLE
+RAHSIGVVHRDLSPDNVMLQDGDIGKAVLIDFGISRSSTVKDVTIGNEFAGKLKYVSPEQ
+LGSFGGQAEGPSDVYSLGLLMIAMLMGKPYNMGGNFAEAVQLRMSVPDISMVPEEFQPML
+HAMLQPDPKLRMSGMTEVKDELRAMMDGEGMTTRSRLTMPVTETAQDRSVPGLQAVPFAS
+TSTGGQTSSPRTMAPTRLPDLPAKSSRGLVATLMVAGLAAVGGAAVFFAGDFMAGGSTDG
+GSTASDPVAAGLERTVGSRATFLAETVPQDCAYAARRTHGDVAGLIEGFAQNLTPLQGIG
+DAYGAAFGSTPDVVPRNVTAPQCAVLDFARSLQGTNGGGVELSLTQSTLSRSEGVQGTLH
+GSAGRQNWLALVDPNGQVFSLMRQFDDAIGDERRFAFRLPSAAPGIYMLVATASDSPLVR
+AGAMRDGTQASDILPLMTRELATDGQGAADVAFLELTR
+>tr|B7RFN4|B7RFN4_9RHOB
+MRRKSQIRAGFVELPLFLLIFGIFCASMIIPAFYAVVTRDHLASRAFFYSCILGMVVFTL
+IGIAHSGRKTRHGALGPLLSLLSSFLLLPALLTIPFLEALPTTRFINAYFDMVSAITTTG
+ASMFEDPGRLSDSLHLWRAQVAWMGGLLMWIAASAILAPLHLGGFEVTAQAEPGNPDARR
+STTAPVNPRLRLLRTAAALAPTYLALTLLLWVLLLANGDRSLVALCHAMSVMATSGISPL
+GGTHDTGVGFGAEFVMMLFMLFSLSRLTFSKDTITATQGGLRTDPEFRMGLALIFGVPIM
+LFARHFIGAFDVAASAEGQETFGALWGAVFTVTSFLTTTGFVSASWGQAQSWSGLDTPGL
+ILMGLALIGGGVATTAGGVKLLRVFALYRNGARELERLVYPNSVSGAGVVGRRLQSNGAF
+IAWIFFMLFAVSLAGVTLLLTFVGAPFEDALVMSVATLTTTGPLIEFAADAPIALIQLSD
+TAKMILSGAMVLGRLETLAIIALLTPDLWRA
+>tr|B7RGD1|B7RGD1_9RHOB
+MNDPYETYMNTLVPMVVEQTSRGERAYDIFSRLLKERIIFLSGPVHDGMSSLIVAQLLHL
+EAENPSKEISMYINSPGGVVTSGLSIYDTMQYIKPKVSTLVIGQAASMGSLLLQAGEKGM
+RFSLPNSRVMVHQPSGGYQGQATDIMIHAQETQKLKTRLNEIYVKHTGQSLEKVEAALER
+DNFMSPEEAKDWGLIDEIVENRGKMDDPSADKKDK
+>tr|B7RH13|B7RH13_9RHOB
+MTHALPDLWILVTLAAAVFQTARFMLQKYLATATLSAAGATFARFLYSAPFIIGGLAAYL
+GASGTSLPQMAPRFWAYGLLGGTAQILATVCVVLLFKQRNFAVGITFKKTEVILTVLMGW
+LILGEGVTGWGFAAIGLGVVGLLLLSGKKGSTGFHLGDLRNRAAGLGIASGFLFAISAVT
+YRGATLAVTSELPVLRAGVTLAAVVCMQSLIMAVWLRWREPGQMGAVWQARNVAVWIGLM
+SLGGSLCWFIAFTLENAAYVKALGQVELILSVAASTLFFHEKITGREWAGMAVLVSSILM
+LVLVT
+>tr|B7RHG1|B7RHG1_9RHOB
+MDSFTRDNLPAADRWPNLLLEGFDYPDRLNVGVELTDKMVENGFGDATALIGNGRRRTYK
+ELTDWTNKLARAMVENLGLKPGNRVLIRSANNPAMVACWLAATKAGAVVVNTMPMLRAGE
+LTAIVDKAEISHALCDTRLMDEMTACAKGSRYLKSVVGFDGTSNHDAELDRLALEKPVQF
+QSVDTAVDDVALLGFTSGTTGSPKATMHFHRDLLIIADGYAREVLQVTPSDVFVGSPPLA
+FTFGLGGLAIFPLRFGAAATLLENASPPNMIEIIEKYKATVCFTAPTAYRAMLAAMDQGA
+DLSSLRAAVSAGETLPAPVYHDWKEKTGKPMLDGIGATEMLHIFISNRFDDHRAACTGKP
+VSGYQAKVIGEDGAEVSRGEVGRLAVRGPTGCRYLADDRQGVYVKDGWNITGDSFSMDED
+GYLHFAARNDDMIISAGYNIAGPEVEAALLSHPFVVECAVVAKPDEQRGSIVQAHVVLAI
+DTPKDASTIKLLQDHVKAEIAPFKYPRDIRFIDALPKTPTGKIQRFALREKT
+>tr|B7RHI2|B7RHI2_9RHOB
+MTRIAIFTRQIGPYHDARFRAAYAVCPGVTVVSTASQGWFKEFTSFDRSGGYPVVTLFNS
+LTEYDAAIRADQMREAVFGALDEIRPDCIAIGGWAAAESAAALLWAAENGCPCIITSESQ
+AFDAQRSRSSEWIKKQMVKLCDAALVGGYTHKRYMQDLGMAEDLISLGYNAVDNEHFKIS
+AAAAREDADRLRAEFDLPDHYILASGRFIEKKNFPRLVRAYADAKTAVPDAPSLVILGDG
+DERANIEAEITATGMQDSVKLAGFKTYEDLPTLYGLSEGFVHVSFVEQWGLVINEAMSTG
+VPVVASHACGAASTVIADGENGFLVDATQTASIAGALQKLFRMTPAARETMGENAAHAIA
+DWGPDRFGSGFARAVSQAMKSPPRGRLWFWQKLMLQSFSKRIIRAVA
+>tr|B7RLG8|B7RLG8_9RHOB
+MSSSIPQIEAPQIVACTVSRDVQNFDLLIEDMEDALGESWGDLGFSEALAFFGQPEAQSL
+ELIALALDVEDEEDLVLMGEIIVQAKARDIKVILIAEDVSPVSLHSLLRQGADEFVPYPL
+PEGELAAAIERVRAEPDPVGQSATKAPTLKPGADKDGALIVVHGLAGGTGGTTMAVNLAW
+ELANADKKNPPKVCLLDLDLQFGAVATFLDLPRREVVYDMLSETENMDEESFGQALLTYE
+DRLQVLTAPAEMLPLDLITSEDVNRILDLARNQFDYVVVDMPSTLVQWSEAVLNNAHIYF
+AMLELDMRCAQNALRFKRALQSEELPVEKLRYVMNRAPKFTDLSAKSRVKRMAESLGISI
+DVHLPDGGKQITQANDHGMPLANSAPKNPLRREIAKLAASIHDLKAEEAKAA
+>tr|B7RLY2|B7RLY2_9RHOB
+MKLSKAALLATTFIGCAAAVQAETFNIQTSFNAGDFSTQYITENWLPKIEDRTEGRIQIV
+LTPNGSVVPAKETPAAVAAGVLDGDFTSVNYFAGLEPAYAIMGDLISGYDTPEQMLGFCK
+DGGGEAMMQKAADAVTGGEVTVVACGPYSREALVARTPIRTFEDLSGMKIRSPEGLAAAV
+FSAAGASPVSIPFSEVFGALEKGIVDAADASAYVNNDATGLQDVAPYPLYPGIHSMPSMQ
+LTVNTEKWNNLSEEDHTTLREWWYEAMFAMAAEVSKLDAEIAARDDATGDIEVIDWAQED
+RDKLRVVAREQWEDYATKSALAKEALDANIAYMTDIGLFK
+>tr|B7RNU7|B7RNU7_9RHOB
+MTAEGYAAVGPINWLAFNTESPKLSDVRVRQAIGYAVDRDFITKALHRGVSTPQRGPIIE
+SSPFFDDTIEAYDVDLDKANALMAEAGFGDGMDLTIDYIPGPKEQQQSVAEYMKSQLKKI
+GIDVTVRAAPDFPTWAGRVAGQDFELSMDVVFNWGDPVIGVHRTYLATTSSRA
+>tr|B7RIB9|B7RIB9_9RHOB
+MRGEIDGKQDMSQMREAALTSKAWPFEEARRVLKRYANKPPEKGFVLFQTGYGPSGLPHI
+GTFGEVARTTMVRRAFEVISDIPTRLICFSDDLDGMRKVPGNVPDPEALAEHLQRPLTSV
+PDPFGTHDSFGAHNNAMLRRFLDTFGFEYEFISATEFYRSGQFDEVLLRAAEKYDEIMAV
+MLKSLREERRQTYSIFLPIHPVTGRVLYVPMKEVNAKEGTITFDDEDGSEMTLPLTGGNV
+KLQWKPDFGARWAALGVDFEMYGKDHSTNTPIYDAICRILGGKAPEHFTYELFLDQDGHK
+ISKSSGNGLTIDEWLTYASAESLSYFMYLKPKTAKRMYFDVIPKAVDEYHQQLRAYETQD
+DKGKLNNPVWHIHGGDVPKSDMIVPYSMLLNLASVSSAEDKSQLWGFIQRYAPDATPEDN
+PGMDAAADHAVRYYNDFVKPTKVFRAPTDLEREALEDLQAQLKAWDGGLDAEALQTMVFA
+VGKERFDPLRDWFTALYEVLLGASQGPRFGGFIALYGVDETIALIDDALAGKLTAE
+>tr|B7RS66|B7RS66_9RHOB
+MPLKSFMRWLTFVFAMTVLSIPAQAETYVGTNIDSRVLLGLKVNPDGIQGLMPEGWASIP
+FPDGPLKGANLLFALIDGVLEMEADGKPLDPASRRAAVLVGLGKNDDAVRMFVLRIMTTV
+PDRNPYGVATAAEIARTKSLSGPANGGRTSFDEWRIMPAGGGELVFTLNYTTGKRGWSQG
+EVAPHSAANPDFSRIYRYDQMVDLVVSKTLGKPSSGEFSLTGTVAELDTVLDGSQETIAV
+MDVPVYVRKVFLP
+>tr|B7RP56|B7RP56_9RHOB
+MAMAGSAAVLEDSSLLSKLDRMLLPLERFGALLSGLAVFSLMFLAAYSVTARKFFGSPLL
+GYVDYIEAAMPIIAIMGVSYVQRDGSHIRMDMLVSKLRGRALWFFELVSVLLMLVLVIAL
+TSGAWDHFDRSFDCTRPWCSRDSSIDISLPIWPSKLVVPVAFGILALRLLLQVWGYGRAL
+VLGLENPVAVPLTLTIEEQAMAEAKALEGAD
+>tr|B7RIG4|B7RIG4_9RHOB
+MVPVPCVTFEGVFRAVREGRADLAMLPVENTTYGRVADIHRLLPKSGLHIIAEAFVRVRI
+CLMALPGVKLEEIKHVRAHMVLIPQARSWLDAHGITSEAASDSAGAAADLAVSDERSVGV
+LASEVAADIHGLDVLARDIEDLDHNTTRFLLMSPEADLSRRAETMMTTFVFEVRNIPAAL
+YKAMGGFATNGVNMTKLESYMVGGSFTATQFYSDIEGHPKDPAVERALEELGYFTNMLDI
+LGVYPAHPDRHRT
+>tr|B7RMS4|B7RMS4_9RHOB
+MQSLFHLAIHVTDLDETRAFYGDVLGCAEGRSTDNWVDFDFFGHQLSMHLGTPFATTRTG
+KVGDHMVMMPHMGAVLRLDDWKALADRLEQKGVAFDIPPVIRFEGEPGEQRTMFFFDPSG
+NPIEIKGFADFEGLFAA
+>tr|B7RQR4|B7RQR4_9RHOB
+MDKGVTKASDGLNGHSWNVVGHTYVPKLHTDEAFVWHATLPADTFVPPHIHPHQDEWIYV
+IEGSLEVEFMQDVHKASAGDTIRMPRGEAHGIFNRSGKTVTCIFGVAPSRRLYDLFTQLD
+GVTDPAELTRISALHEVDFLPPPDAA
+>tr|B7RLH9|B7RLH9_9RHOB
+MNMPSSAVMAPPPPRTIEEMKLPVVMMRDIMIKTMYRKNVTMVSEVAKAICLPIQVTQEL
+IDMAREQRLLEATGTLNANNGNEMGYQLTDLGKARALDALAQSEYFGAMPVPLEVYREQV
+KRQSVRNMQITRAQLEGAMGHLVLPDELIGNLGPAVSAGRSILMYGPPGNGKSSISNGIR
+DALGDKIYVPRAIEYASQVITVYDPIVHSAASDEEQDPNSLRRVTRYDGRYVKCERPTVI
+TGGELSLDMLDLVYNPTARTYQAPLQLKSTGGIFIVDDLGRQKEPPQSIVNRWIVPLEES
+KDILALQSGEKFEVPFDTLVIFSTNFHPNEIFDQAALRRIFFKIKIDGPNQKNFLKIFAM
+VAKKRKMPLDESTLIHLLRNKYPTIDNTFANYQPIFLIDQMIAICEFEGIPYQMNPELMD
+RAWANMFVKDEHIVK
+>tr|B7RRY1|B7RRY1_9RHOB
+MPERNVRSAVLYADPQEIWNEKGRAMQMMIGVGIELGQIAKGVQNTPPVVPTSPVSYVAD
+DGWQATHPAPNAFDPATSDPVIVTRQGFDAGGTPITVTDTLALTTRIRLPYPDQASLSAN
+QIALSDFVYAGDTIEGTTNASTVPYPKPIAMWLNHDRERATSANHTLRLAVAHAHARGGR
+PVAAVKFILSDGTNEVSQIVSAMSSISYAASGLTVPHFAADMDLSTLDQGALLTVDAVIY
+PWVGAAFSISVDADSYPSPNLTTLRLLNDRTGEYGTGFAYVDVATGSDGTGAVSADAPTA
+ATTPFATIAAAVTAIRAFNAAAYGRSDDSGGGIVRLTEGVHNHSAFKTQGSAVDIPLVIE
+AADPLRQSTTVLTDAGTSTFNGIPAWLKLRNITLRKTGSSVVFLDSGANSADSLLVTEGC
+TWDANATNYYGAWVYRVGRMIQINCAIGAGGDPQQGNFFSTEAIMVTAIGCERCAGTITY
+QAAGCSDLPEFNLRDPLGSRPAMAGVFLGWNVFSNGTTSNPIVSASAPIGPRGIAFVGNI
+VESWGATTNAAIRLNADSDTNPAQNVVVQHNTVIGERANMLYLDDTVNVAKTAHARFNLF
+HRFNVKSDVFASQSANTGNWSVRFKVGWSHNATFAGANNTSEFSALSWLGDIPAEGEITG
+FDPLWQDDRSHSGTDTGGGNYTPLPGSPVPKVPLGQAAYATDLFGNAITAGQSYIGAVTT
+VG
+>tr|B7RGD3|B7RGD3_9RHOB
+MTRRDIINDPMIGNKAEAYEAFDDIPTNPNLGHTIGDVINARYGRRDILRGMLGVTATTT
+LFGTSALIAPSQAQAAAHGSRYAFDELTWGNDETHHVADGYDANVLLRWGDPITADAPEF
+DVMNQTAAAQLKQFGYNNDYVGFVPLNEDGSRGLLCVNHEYTNEEVMFPGLGRQDNVEFS
+GMTPELIDIEMAAHGGSVVEIAKDGSGTWQVVRDGKMNRRITPLDTEMTLDGPAAGHKRL
+QTNDDPTGTKVIGTLNNCAGGLTPWGTWLMAEENFHGYYWTDNLDAEGKPVIDPASSEAA
+SQKRYGVPGMWYAWGQKYDRFNIDKEPHAPNKFGWVVEVDPMDPTSTPVKHTALGRFRHE
+GAETTVSSDGRLVVYMGDDNRFDYQYKYVSGGKVSDDRAANSKLLSDGTLYVARFDEDGT
+VAWLPLIHGEGPLTAENGFNDQGDVMIDTRMAADLLGATPMDRPEDAQPRGDGTAYIMLT
+NNTKRKDDQLNAANPRAKSSFGHIIEIKEDGGNHAATKGTWSILVKCGDPALAEVGAQWN
+PETSENGWFGSPDNCAIDADGRLWVSTDQGGSWDKTGKSDGLYAVETEGDARGTSKLFFR
+CPVGGEMCGPYFTDDGETLFVAVQHPGTDGTKNLAGFERNSTFEDPATRWPDFDPAMPPR
+PAVVVITKQGGGKIAV
+>tr|B7RHN5|B7RHN5_9RHOB
+MNDMSTDTAQMTVATLVADLGQRAKAASRDLAMATAEQRNLALREAATALRARTAEILAA
+NAKDLESIKDSGKDDAFIDRLSLSEDRVAAMADAVEAIAGQDDPLGRSLATFNRPNGLKI
+DRVSVPIGVIAMIYESRPNVGSDAGALCIKSGNAVILRGGSESLQSSRVIVACLAQGLRA
+AGLPEDAVQLVDTRDREAVKLLLHSIETVDLVIPRGGRGLVSLVQKEARVPTLLHLDGNN
+HTYIHESADLEKAVGIVQNAKMRRTGICGATECVVIDRKIAAEVLPTLAVALEDCELRGD
+AAAREILPDMVAANDTDWNTEYLSNIISVKIVNGLEEAIGFVQAHSSGHTDAVVAEDRDA
+AKRFMVAIDSAVVMHNASTQFSDGGEFGMGAEIGIATGKMHARGPVGAEQLTSFKYFVFG
+DGQKRP
+>tr|B7RLL1|B7RLL1_9RHOB
+MLSDIAEKSVDRRAFLRGSGLAIGGLAAIAATAGSVTQASAATAVNGAVETIKSVCTHCS
+VGCTVIAEVSNGVWTGQEPGWDSPFNLGAHCAKGASVREHAHGERRLKYPMKKEGGQWVR
+ISWEQAINEIGDKMNTIREESGPDSVYWLGSAKHNNEQAYLFRKFAAYWGTNNVDHQARI
+CHSTTVAGVANTWGYGAMTNSYNDIHNSKAIFVIGGNPAEAHPVSLLHLLKAKEENNAPL
+IVCDPRFTRTAAHADEYVRFRPGSDVALVWGILWHIFENGWEDKDFIRTRVWGMEQIRDE
+VAKWTPDEVERVTGAPAKQLERVARTLANNRPGTVIWCMGGTQHTNGNNNTRAYCILQLA
+LGNMGTAGGGTNIFRGHDNVQGATDLGVLADTLPGYYGLSAGAWAHWARVWEEDLDWLKG
+RFSDASFGDTSMMNLTGIPVSRWIDGVLEDKENIDQPDNTRAMVLWGHAPNSQTRQKEMV
+TAMEKLDLMVVVDPYPTVSAVMQDRQDGLYLLPACTQFETRGSVTASNRSLQWRDKVVEP
+LFESKEDHTIIKLFADKFGFTDRLFKNIAIEGDEPVVEDITREFNRGMWTIGYTGQSPER
+MKMHMANQHTFDRTTLRANGGPADGDFYGMPWPAWGTPEMNHPGTANLYDMSMPVAEGGL
+TFRARFGVERDGDNLLAEGVYSVGSEIQDGYPEFTMQMLRELGWDGDLTDEEMAVINYVA
+GYPEGRPASDEKPTEEVGETSQTGETPSDYTAKTGGVNWKTDLSGGIQRVAIKHGCAPFG
+NAKARAVVWTFPDPVPIHREPLYTNRRDLVADYPTYEDKKFWRVPTMYKSIQENDFSKDY
+PIILTSGRLVEYEGGGDETRSNPWLAELQQDMFIEINPRDANNIGVRDRAQVWVEGPEGG
+KVKVMAMVTERVESGVAFMPFHFGGHMEGVDLRDRYPDGADPYVLGESTNTAQTYGYDSV
+TQMQETKVTLCKIWTA
+>tr|B7RN06|B7RN06_9RHOB
+MAKLYFHYSTMNAGKSTVLLQAAHNYVERGMTPYLITAQFDNRAGDGRIASRIGIGQDAD
+TFSPDEDLFDKIETRLQSGPCACIFIDESQFLSNDQVWQLARAVDDLGVPIMCYGLRVDF
+QGMLFPGSATLLALADEMREVRTICHCGKKATMVVRLDAEGKAIREGAQVQIGGNETYVS
+LCRRHWRLAVGR
+>tr|B7RKI5|B7RKI5_9RHOB
+MTTITFPSPHFAHRRADLAVHVLGLALILTAGTALIFHAANSLEPALIAAVVVYVLCALG
+SNLASIAYHFTAWHGHRTLLRRIDHAAIYPSISGTFTPFFVQANTTWTLALLVVSWVLTA
+VAIWHKITNESVKTRWSTASYLGLGAVGMAALPHLTSVDISALWCVIAGAACYVIGTVFY
+ARKAMPYRYATWHLWVNFGGILMFAGIWIASF
+>tr|B7RQ61|B7RQ61_9RHOB
+MQRILVNQKSISETRLEKVDSAPLTDGQVRLNLDSFALTANNVTYAAAGFDIGYWRFFPS
+GTEGWGIVPVWGTAKVVESRSEALEVGTRLYGFYPMADEVVMTPKPAQGGFVDAAQHRAK
+LPLIYNQYTQVQSGSETDDHLRAILQPLLATSFLLFDWLQDNQCFGAQQILIGSASSKTG
+LGLCKYLAEPADRAYRIVGLTSAKNRNFVQSLGACDSVLTYDQIHDIAQVPSVYVDMSGN
+SEVKAMLHQHLDDQLKHSAAVGLSHWDRFAPAQNLAGPKPEFFFAPSQVAKRRADWGPGV
+IEKQITAAWKRIAADASDWMTLQVHEGVAASEAVYHALARGQVDPGIGAIIRP
+>tr|B7RL27|B7RL27_9RHOB
+MGDMTYDATGPGALDYLPCRYGASKLLFRGPRRKLEKPYVAFIGGTETYGRFIEKPFPSL
+VENETGLVCANFGCVNAGIDVFAHDPFVPGAAADAKVTVMQVMGAHNMTNRFYSVHPRRN
+DRFVGPSELLKTIFRDVDFSEYNFNKHLLMGLHKKSPDRFEAVYKELQSAWVARMRLMMG
+QMRGKTILLWFADHAPSDFPMEHGGLGPDPLFVTRSMMEQVAPYVTKVVQVVPSRRAQHD
+GTNGMVFNPLEAYSAEELMGVQAHEEAAAAISQAIAELT
+>tr|B7RNL0|B7RNL0_9RHOB
+MEKLMKLACATRIAAMFVLAASAGFAQETPDPQPRVPSVTVDTAAIAEIVNRVPISGSLE
+AFREVLVYPQVSGFPIEVIMVDAGAQVAKGDVLALLNTDTLTVQVSQAEAEYARAQAGVR
+QAQSQITSAEASAAQAQSVLARNQQLERSGNTTQAALDQASANAQTADAAVASAKDGLEV
+ARAQVLQAQASLDLARLNLDRATIKAPTAGTVSARNAQLGAIATSSGEPLFRMIQDGVIE
+VKAEIVETALAQIEPGDAAQVDIPGVGMVNGSVRLVSPTVDPVNRLGDVRVSLDDGRTLR
+TGVFAGGWIITDRHDGLTVPTTAVLTDATGDYVLEVDGDSLVRRDVTAGLIWDDRREVLA
+GLEEGAIVVAKASAFFSDGDKVNPVMEGADS
+>tr|B7RQJ4|B7RQJ4_9RHOB
+METQGLHTRLEALGAKLKTVEEKLAAKAHFQHDRAHLSAKELKDHYEQLQARLDEEEASE
+AAHGHHISNLERSVRHLLDSM
+>tr|B7RQ15|B7RQ15_9RHOB
+MSNVIQLLPLRQTKSQGTVALSQMFAHQRRAQGDIFWLKENAEWLGILRSFNGDIPPAAV
+EPYREFYVSLPVQIAFFPQYYRFFLSLCLDLEDLGIDGNYGEELSHWVASQGLAQAELSD
+LQRAEAERLLIRRNALQRDADLDTRLRRFISRSETFALPNKKAAYELAHIIFYLADYGRI
+DPELAPAAITSLEYAGLLAFLDQNADLLAEICAALRFAGARPNLIWESFVHSAYRDCHLG
+QAAHPVPTDGYHTYLVTGWLSRMSGRAVFQEDIPTGQVVLYGPEEGEGALRDLSQGLFDM
+GAHRSADWSRMRQVLVPALGPQGRCVLEAAEGSTDKFDAFFEGFARASGG
+>tr|B7RMB6|B7RMB6_9RHOB
+MTQGARSQWRWPWRAAKVRPTGDMTHDNRNSPPIRHHGHRAVSRRGVPRGRA
+>tr|B7RG84|B7RG84_9RHOB
+MGFAITVRAAPFGSPERPEPQQRFREGTRVFKIQTVSEQDQDARYLVCLAQEEVVV
+>tr|B7RNU2|B7RNU2_9RHOB
+MSTVLDVRDLTVRFDLPRPSMFAARPQLEAVRAVSFTLEEGRALGLVGESGSGKTTTAMA
+AIRLTEAAGGQVLFDGDDLLKLSAEQMRLRRRDVGLIFQDPYSSLNPRARVVDIVREPLD
+LMDIGTMDERMGRVRELFTLVGLREDQLSLFPHQFSGGQRQRISIARALTTNPKLLVCDE
+PVSALDVAIQAQILNLLARLKQELGLSYLFISHDLGVVRHVCDDVAVMYLGQIVEQAPVA
+TLFDAPRHPYTQALLAAAPSLKRRKSQGYTRAMQIKGDPPSPINPPKGCAFAARCPKSRQ
+ICTEQRPTLQKSDNSRVACFFPA
+>tr|B7RFV6|B7RFV6_9RHOB
+MTYDLFIPSTLIRKARYYSRKLSVRVVIMGMLAVVAVALSSFIEHWIPEKLGTTLTGEAA
+DRLLSIIANAMLAVTTFSLSVMVSVYRSTSTQWTPRVHRLIIQDLTTQNTLAVFIGAYVY
+ALIAIIMRELGVFDDKRAFVLFITTVLVLVLIVFYLVRWVLHLQSFGSLIDTSRQVEEET
+RQMFRERLDNPCLGANPLIDPIPDSAEAIKSTESGYIRHIHPEALNAVAKNHGVNIYLLR
+NIGAFVFINEPLVKIDQIGDPVDDEHDDDSLRAGINSSIILGDVRSFDQDPRFGLIVMGE
+VASKALSPGVNDPGTAIDVINRIGRILTDYEDEVARDRDEVLDHIFVEPLDPADLIQDAF
+GALARDGVTVVEVQQRLQATLSGLMHHPDKGLCKAARDAAEKHLSRALSVIVFEPDRDQL
+LSSASKQVRETLKEQQVSRANLPALS
+>tr|B7RI49|B7RI49_9RHOB
+MSPLRLLALLCVLTLGACGSSQVSVPIGTVTAADFGDRKPHAWTGRTPQSYPVHGIDVAR
+FQNALNWGDARLAGVNFAFIKATEGGDLLDPMFSDHWRGAGSAGVARGAYHFYYFCTTPQ
+VQARWFIENVPKTPGMLPPVLDMEWNPFSPTCTLRPPAGTVRRNTEIFLRILKAHYGQQP
+IVYTTPEFYKTNQMGRLRGTEFWLRSTAAHPAERYPDERWTFWQYTSTGRVPGASGDIDI
+NVYAGSAASWDNWLARRQIR
+>tr|B7RRG0|B7RRG0_9RHOB
+MWYHKVNMRKIFLILTLGFFAVAILLGQNAGHDMQHGHPCSGCVDSADVAGDMSLPMCSH
+GALCVVAAMPDGFTGLGHSVRRPMQYPWPVASFSDPVTVTFDLPPPRA
+>tr|B7RSK2|B7RSK2_9RHOB
+MGIARALYRDADVIVMDEATSALDTMTERNVMDAIASLHGDKTLFIIAHRMSTLSECDRI
+LVLDKGRVAGLGTWDEMARENKIFRAMLNMDAADRI
+>tr|B7RNF2|B7RNF2_9RHOB
+MQDLKSSAKNAGEKIYLQRAYFFSSTRVRVVPVSSNLVAEFMFPISPMPKNLEENQNTGA
+FEDLRKQYKGTFAVLEDSDPLATALSFAALLLNENLQSSTYRIETLVNLALALGRDKNRL
+KQKDFRRLYGDMENGIVARQEDPAEDVFVSNISTMRGNFLVLEGLSEGTGYFLQVFMQLV
+DSLPKNESYDVIRDPVYALLTLSNEACKRAGLSRNQLGNERPQAKLTPQDAERIPELRKC
+LTFSSADLDDLGIKLDDLGEFGFGPSARAKLLKQNLLHNDLERCPVGHKDGNTFLLLPTA
+VSGSIRRFVFEMIVKAYGLDTFLKALAYEYSKRLNLIPFLGEFGRIQLEFTPAGDTLMAS
+VFRWVDDGRALHILFFMDNLRGFEETGFGGWHKDQPNTSAAILDHIKLAKAKAEESDDFK
+SGISIIVNCGVGRGINLAASVFEVEDWDVDFLSVHDFEVLSNKHSFSPISLWRLKDAERQ
+VSEAGIELFNINGLLNLIAWREQLGGHLVPHNQVPDTFGDGGAGLIMVDQNALRTLRHQS
+KQEADVHSACKLDGSWTLVRRTSSSLSEEDRSISLYADMLSNESLPALLFEDRGIEWWTQ
+VSGVEGSPRDAIFERWRMLSTWLPRIAQAFGALERQHKPPNRLQINATFDGAMAGLAEQP
+KPFSENELRETLSVSVQTEKAVVTVKANRRFEDAFFNEDNVAERAWVRAACLGVSQLAAE
+PLAPEQFEDLLNLIVPNNRVRQTHAFPAASFRDFVHHKLPRKPVFINDADTSTLKLFLGW
+KVRDRKLGATIQGKAECTAYLRQLVELLENKLIDFLRKFEKKSVLQRLITNHEAAMCDQE
+TWKRTAAAVSALHEEKGRALEEILKHQSKLNAVFQSSRVLVEVANCVCSLDDGDAFGEFD
+LAQSMAMMIEIIEFGGWSDAIHYGAMEPTLVVAALGDVLANHDFFEEVVVPFGQAGMKSR
+VERSIQGYGDHFLAPKEKTGELDKGFLAEKEQFSKAWECELGFPIEAHGAFVAACEEVGL
+AEEKACFVVRKSELTRRVLDLKPELEQHLDQIFHELSLLPRSDWRIAPEGFTDLDRQPWK
+FRRLLSVLRRPLIQLNDVEDPEIYLWPGMVGDGGEYTFVRYWEAEFREIQIRTKEMLRWN
+GSVKDKSSFNDQVAGRLRELGWTAKSDVGVTQILGRSEDEKFGNIKRLGDVDVLAWDEQS
+RRVIAIECKDLMYRKTPGEIAEQLSSFRGELDAKGKPDLLLKHLNRASALRGNLDELRKF
+TGISDPTLEDCLLFSGQVPMGYAKEGIRSKANMLLFDQIGTLALNT
+>tr|B7RNC0|B7RNC0_9RHOB
+MISCKGWNTENYGAPLSDQDAYGAAPSGTFLNRVHSYEVQPDTGPAQLVHFPKSCLHCED
+APCVTVCPTGASYKRVEDGIVLVNESDCIGCGLCAWACPYGARELDQAAGVMKKCTLCVD
+RIYNDNLPQEDHIPACVRTCPSGARHFGDLGDPESEVSQLVAQRGGVDLMPEMGTKPVNK
+YLPPRPKDQPPDLDVLAPFLAPIDQEPKGFLGWLDRTLDKI
+>tr|B7RNI3|B7RNI3_9RHOB
+MIQVAVGNVVIGIDRPLTVIAGPCQLESETHAQMIAGQMKEACDAAGAQFVFKASYDKAN
+RTSLSGKRGLGIDEGLAVLQSVGKSIGVPVLTDVHTEAQCAIAAEAVDILQIPAFLCRQT
+DMLLAAGNTGKVVNVKKGQFLAPWDMANVVSKIESTGNKRILLTERGTSFGYNTLVADMR
+SLPQMAKTGYPVVMDATHSVQQPGGMGGSSGGQREFAPVMARAAVAIGVGAVFIETHEDP
+DNAPSDGPNMIHLDQMPALIASLMEFDALAKKYPMSI
+>tr|B7RMS9|B7RMS9_9RHOB
+MLGAAPVSAQPSGTFHFADQAKLITMDPHQHTGGGSSYLRPVYQALFDRSPEGQIVPVLA
+DAYEVDGTTIKVTLKSGIKFSDGSDLTAEVAAQNINRVIELGVNASMKLADKAEVTGENE
+ITITLKGPDPSIV
+>tr|B7RP68|B7RP68_9RHOB
+MLAEARRLPSRFLRRIIRRAHPVLYVVGALLAPGLGWSETILTAKYADPTTRYDHGVLSD
+AIEWGTLEVSLDDGIVRRFILPENLVFEDTAPRLADLDGDGSPEVIVVESSLPSGARLVI
+YGPKGRLAQTDHIGRKNRWLAPVGAADFTSDGRLEVAMVVTPHLAGRLELLAFDGSSLTR
+LGTLEGLTNHRIGDATIAGGIRTCDKGPEILLAQMPWRRTGRTAMVAVRFQNNTLIPESF
+TEEFSPTNIAKAIACDLNPA
+>tr|B7RS64|B7RS64_9RHOB
+MFEDTVNSANPINGRIAMSNLCSEILQVNEASTFHDDLGYDHLGTDISCNLGSLNIAKTM
+DGPDFGATVETSIRVLTAVSEMSSINSVPSVRRGNDESHAIGLGQMNLHGYLARERIHYG
+SAEGVEFTSVYFAAVTYHAIRASNLLAQEKDETFKDFATSTYASGAFFETYTTRDWLPES
+DAVKALFDGKDLPTREDWAKLRDLVMEHGLYNRNLQAVPPTGSISYINNSTSSIHPIVSK
+IEIRKEGKIGRVYYPAPFMNNDNLEFYRDAYEIGPEAIIDTYAAATTHVDQGLSLTLFFP
+ADASTRDINRAQIYAWKKGIKTIYYIRLRQTALEGTEVDGCVSCTL
+>tr|B7RM86|B7RM86_9RHOB
+MAITTTKSAFRKGLADAAPFVLVIIPFSSLFGILATEAGLSVFETLAFSVVVIAGAAQFT
+ALQLMQEHAPTAIVLASALAVNLRMAMYSASLTPYIGAAPLWQRALAAYLTVDQSYVCSM
+AQYEKEPDMTIPQRMAYFFGCVTPIVPLWYLFTLIGALLGAQIPESWALDFALPITFLAM
+IAPMFRTSAHVVAALVASVAGLLTAGVPYSLGLILAGLAGMVAGAQTEVWMTRRAERVTL
+>tr|B7RJX7|B7RJX7_9RHOB
+MTLHSFQDGERFIASSTGLLQQAGITLTVGYDFDIYKEVLTAARPGHVLGMPFDPALHEM
+NKDNAFWIVGHNEKGDIMHTQAMRMLDLKGNTLAEHLRRSFIEFPPPGVDIDLQRSRYRA
+GPGAQRIAGQVCYHGEFWVGATPREFRNAGLSSVLGRYAFWQAIQHWNPDYIIAFMQNSV
+VFKGFPARHGYMHTEPGTLRWFLSGQDTPVEGFMSYMSSDDLRFILEMPLSDFVAQAA
+>tr|B7RIW4|B7RIW4_9RHOB
+MLSFFPGFALGFTLILAIGAQNAFVLRQGLRRHHVFWVCLTCALSDAVLIAAGVSGFGAL
+AEAVPWFEVVMRFGGAAFLIWYGAQNALSAWRGGAALEAEGDNTLSLRRTLLTLLALTWL
+NPHVYLDTVVLLGSVSAQYDNRLAFGVGAVMSSFVFFFGLGYGARMLSPVFARPRSWQVL
+DALIALTMWAIALKLLWM
+>tr|B7RPB2|B7RPB2_9RHOB
+MLYILTTLSVIGLAFWAYRENYATQQALSDTDDLRAEIRIAHSRLAVLRAEWAYLNRPDR
+LRDLAELNFERLGLLPLLPDQFGQIDQVTFPPLPDLPLFEITDGVDVSTMEAPE
+>tr|B7RM80|B7RM80_9RHOB
+MRVGSRGKPNGDLISPRLKSWALFCQNDVQAIPPQPETRRHRGDDDAMTEILRPDLAGID
+RAATLLRSGGLVAIPTETVYGLAADACNGAAVARIYAAKGRPSFNPLIVHLAETQQARRY
+GLWSDLAEVLATAFWPGPLTLVLPLAPDHGLSSLVTAGLNSVAIRVPALDAAHQVLTAFG
+GPVAAPSANPSGRISATTARHVLDGLGGKIDAVLDAGPCPVGLESTIIGLHTPRPTLLRA
+GGLPVEAIEAALGEPLEIANGAEIIAPGQLASHYAPNARVRLNALSANPGEVMLGFGPVD
+GDLNLSPTGDLIEAAAHLFDHLHALDAMDKPIAVAPVPDHGLGRAINDRLERAAAPR
+>tr|B7RGE2|B7RGE2_9RHOB
+MTKLTMLATLALLMPLAVSAQGTPGSHFIENWDLDANGSVSLEEITERRGDVFVMFDQDE
+NGRLDAAEYVLFNETRAADMENNAGGHGAGGGRMQEGLTLAFNDTNADGEVSQEEFIANS
+AAWVAGVDRDGDGAISAADFGPQGN
+>tr|B7RH00|B7RH00_9RHOB
+MKADTHAGFAGTHLEFIAQSEAASRTIPPLWPLSSSVAVNPFLGQTDQSLAQVSAVLARV
+AGTRVTMPNSWYQTRIADGTITDEDLLKAFASAPAGGPDSVAALKAAAKAPDEAPIALPT
+IAELAKEASGIDWPGLIEDRIGTWAVGYFDAGQALWQATPGRDAFESWLVFARRDLTPEI
+TGLTGFAATVADVPAWSRAALSLACDALHLTPDASATYFHQLLLGMGGWSQLARQRLWQA
+ELRGGTDATTTDMLTIRLIWEQALLAQYAPQIATRWSEVRAIHATAPEPSAAQIAASLLQ
+DAAEQAAQRALSRTLSAPVDASPQGRPALQAAFCIDVRSEVFRRALESLDPDVQTLGFAG
+FFGLATSHRDFASDIGEARLPVLLTPALHSTVSTTENAQSDQSTRLRARAERAWGRFKLA
+AVSSFAFVEATGPVYATKLLRDAFSLMAAPKVTALQPRFDDGFATADKIIAAATILRAMS
+LTDSFAPLVLLVGHGASVVNNPHASTLHCGACGGYRGDVNARLLAGMLNDADVRPGLAQL
+GIAIPDDTIFIGGLHDTTTDDVTLFENDTGSAAPKALIAKARGWLAAAGRIARTERALRL
+PRADAGAAIATRSIDWAETRPEWALAGCSAFIAAPRNRTRGKPLDGRAFLHDYDWTKDEG
+FGVLELILTAPVVVASWISLQYYGSVVAPDTFGAGNKLLHNVTGGVGVVEGNGGILRTGL
+PWQSVHDGTDFAHDPLRLSICLEAPADAVTDILARHPQVRALFDNRWLHLFLLNGQGHMA
+QRYVGDLEWQDIDRAAPAQTAPSPEVRHRQVA
+>tr|B7RI66|B7RI66_9RHOB
+MLPFLLSFGFIATEASAHRKNESYIYLNVADAALSGRFEFNIQDFGEVLPLDDDANGIVT
+PAEFDAHRTEIYDLLQTVLVFDINGQSYPIAPSHHRFLEVAIGVFAQVYFDTDVATPLPD
+SVDAAYTPYFPENGPSLPVFLIIESNAKSGLEGNEARHSLIFAPNRETRSIDLTGGSSWG
+IFTSFIVYGFHHILIGYDHLLFLFALLLPAVLTLRNRSWVPVDSLRSGLMNVLTVVTLFT
+IAHSVTFSLAALELIRLPERLVETLIAASIAIAAAANLTATPRRRVWIVICGFGLLHGLG
+FANVLSPLGVDPSNLFVTLLGFNIGVEIGQIAFVLICFPVLFVLRKLWVYVPVFLYGGSS
+LLMLIALYWCVKRAFMLDVSLSRLLF
+>tr|B7RMX8|B7RMX8_9RHOB
+MTNPRETDLYQPVKSFLEDQGYVVKSEVGAADVVAIRGTEPPVVVELKLGFSLALFHQCI
+ERLKVSDDVYLAVAHKPGKPFYKAVKANTVLARRLGLGLMTVRIKDGLVAVHCDPGPYAP
+RKNAKRKTSLLREFARRQGDPNDGGQTRAGLVTAYRQDALKLAMYLFEAGASKGADVARE
+TDVKRATVMMRHNHYGWFEKVEKGVYGLTQEGAQAVETSARVLGSG
+>tr|B7RRW2|B7RRW2_9RHOB
+MGGSFGVSSGGSSDVGRGVDWVMSRPFRGSPHDYRTARVAELISINDACLSQAETAEG
+>tr|B7RII5|B7RII5_9RHOB
+MVFGRVLRAQTIPENPTFLKVSARPVAGIVPVCGLRIVTRGGWAG
+>tr|B7RHV1|B7RHV1_9RHOB
+MTKTPDIAAMMKDVMGAFPVDTTAMNDAFKTTASLNEKLSGVALTAAEKSAEVSTKWQKD
+TLAKLTEMTKAKTEPADYAKAMTDFASSSAEVAAEHMAAFAEIAKKVQMDTVELMMAAGK
+DMSEEATAAVKKATADATAATKKAAAK
+>tr|B7RIB0|B7RIB0_9RHOB
+MKKLSTYIAGAAVGLMGTMAHAADDVTLQLKWVTQAQFAGYYVALEKGFYEEEDLNVTIK
+PGGPDIAPTQVLAGGGADVTVEWMPAALAAREKGLGMVNIAQPFKSSGMMLTCRKDAGVT
+TTDDFKGKTLGVWFFGNEFPFLSWMSKLGLPTEGGEDGVTVLKQGFNVDPLLQNQAACVS
+TMTYNEYWQVIDAGLTPEDLTVFKYEDQGVATLEDGLYALEENLSDPAFEDKMVRFVRAS
+MKGWKYAEENSDEAAEIVLEYDASGAQTEEHQKRMMGEVAKLTAGSNGALDEADYERTVE
+SLLSGGSDPVITMAPTGAWTHAITDKALN
+>tr|B7RNB7|B7RNB7_9RHOB
+MLQGSLPALVTPFTNGALDLDTLKKLVDWHIAEGSNGLVPVGTTGESPTLTHAEHETVVA
+EVVKAAAGRIPVVAGAGSNNTVESIRLAKHAESVGADAVLVVTPYYNKPSQAGLIAHFTA
+VHEACGLPIIIYNIPGRSVVDMTPETMATLAELPRIVGVKDATGDLARVCDQRMLCGPDF
+IQLSGEDATAHGFNAQGGVGCISVTANVAPKLLSQMQAHCLAGDYAAALKIQDALMPLHK
+AIFTEPGLVGVKYAMSRLGLCAPDVRLPLVPLTDATMALVDNALRHAGLMD
+>tr|B7RQX2|B7RQX2_9RHOB
+MSYEFIKTEKKGHILIVTMNRPEVYNAVHAEMHQEMSDCWDDFAADQDLWVAVLTGAGDK
+AFTAGNDLKATASGGSKKTLAATGFAGLSSRFDLEKPIIAAVNGFAMGGGFETALSCDII
+LASEHAKFALPEVKVGFFASASGVQRLSRYIGRLAAQELMLTGRTIDAAEALKLGSCNEV
+LPADQLMPRAMELAEQLCSVSPSSVKATKRILNSMNVAEGLPESLEYSRVVQGDLSQTED
+FKEGVQAFVEKRKPNWVNK
+>tr|B7RG30|B7RG30_9RHOB
+MLASSPLVLLHGLTAGFVGPGIELQIVGLIWLCVFLWFWISGLLVAYRQTS
+>tr|B7RGC2|B7RGC2_9RHOB
+MNLALWLARSAEAGPRRPALFAGQVEVADYGTFDAQARAVAAWLIGQGVGPGDRIALFMK
+NTPDYLIIFYGIWYAGAAVVPINAKLHARETAYILEDSDARIVFCSPGLETGLGDGISCI
+VAPSDLYRDILTVQPVAAVVPRASVDLAWLFYTSGTTGKPKGVIITHGMALSMALCYHSD
+VDPVSPDDAALYAAPLSHGAGLYNLMHVQMGARHVCPASGGFEADEILDLAAHFGRVHMF
+AAPTMVKRVTDHARASGRHGDGLRTIVYAGGPMYNADIIDAVDHFGPVFAQIYGQGECPM
+GITAMPRQIVSDRNHPDWRARLGSVGRAQSAVEVQIGDAQGHPLPVGEAGEIMVRGQTVM
+PGYWNNPEATAKTLINGWLMTGDVGVMDAEGYLTLHDRSKDMIITGGSNVYPREVEEVLL
+EHDQVIEASVIGRPHPDWGEEVIGFIVGTAPEAELDALCLSQIARFKRPKAYVRLEALPK
+NNYGKVLKTELRELLKS
+>tr|B7RH08|B7RH08_9RHOB
+MNKDVFITCAVTGSGGSQDRSHHVPRSPAQIADSAIAAAKAGAAVVHCHVRDPETGVPSR
+RLDLYREVTERIRESETDVILNLTAGMGGDIIFGPTENPMPPIAGTDMIGASERVQHIAE
+CLPEICTLDCGTMNFAEADYVMTNTPGMLTAMGQMMTHLGVKPEIEAFDTGHLWYAKQLV
+KDGVLDSPALVQLCMGVPWGAPDDLNTFMAMVNNVPDDWTFSAFGLGRNQMAYVAASVLA
+GGNVRVGLEDNLWLDKGVLAENWQLVERAGSIIENMGARVIGPAEVREKLGLTKRAPK
+>tr|B7RI92|B7RI92_9RHOB
+MVFKPTEYLPYDFANRRHIGPSPAEMSDMLKTVGAQSLAALIDDTMPANIRQKDPLAFGK
+PMSEREVLEHMRVVAGKNKVLTSLIGQGYHGTVTPPAIQRNILENPAWYTAYTPYQPEIS
+QGRLEALLNFQTMISDLTGLEVANASLLDEATACAEAMTMSMRVAKSKAKAFFVDRDCHP
+QNIAVIQTRAAPLGIEVIIGDPDKMDASAVFGALFQYPGTYGHVRDFTSHIAALHDAGAL
+GVVTADPMALTLLKEPGAMGADIAVGSTQRFGVPEGYGGPHAAYMACKDAYKRAMPGRIV
+GVSIDAHGNRAYRLSLQTREQHIRREKATSNVCTAQALLAVMASMYAVFHGPEGLKAIAQ
+RIHRKAVRLANGLEEAGFKVDPKAFFDTITVDVGPLQAAVMKSAVDEGINLRRVGETRVG
+ITMDERSVPATIEAVWRAFGIVKSDETFEAQYRFPEEMLRESQYLTHPIFHMNRAETEMM
+RYMRRLADRDLALDRAMIPLGSCTMKLNSAAEMMPVSWREFSMIHPFVPEDQALGYKHMI
+DDLSAKLCDITGYDAISMQPNSGAQGEYAGLLAIAAYHRANGDEHRNICLIPMSAHGTNP
+ASANMVGWKVVVIKTAANGDIDLEDFREKAEKHSENLAGCMITYPSTHGVFEETVTDVTR
+ITHEHGGQVYIDGANMNAMVGLARPGDVGGDVSHLNLHKTFCIPHGGGGPGMGPIGVKAH
+LIPHVPGHPNGGEGAVSAAPYGSPSLLPISWSYCLMMGGDGLTQATRVAILNANYIAKRL
+EGAFDVLYKGPTGRVAHECIFDVRPFDDSAGVTVDDIAKRLIDAGFHAPTMSFPVAGTLM
+VEPTESETKAELDRFCDAMWAIREEIRAIENGDMPRENNALKNAPHTVEDLVGDWDRPYS
+REQGCFPPGAFRVDKYWPPVNRVDNVHGDRNLICTCPPMSDYAEAAE
+>tr|B7RLD1|B7RLD1_9RHOB
+MTFRSFIAIALVLMLALTGQSMAVARGASAATGHMVLCTGSGPVAIYFDAQGKPTSAPHI
+CPDSALNVAFDDMMPPLDAPERMITFEKVLPKPVLHAIPQRLERPGPRAPPVTV
+>tr|B7RLE5|B7RLE5_9RHOB
+MAFCGFDTANPSRMIPMIPSVLPTYSRAPLSFVEGEGAWLIEQDGRRFLDLGAGIAVNAL
+GHANPALVAALTEQAGKLWHTSNLYQIPQQQALADKLVALTFADTVFFTNSGTESCELAV
+KMARKYFYDKGQPDRVEIITFSGSFHGRSSAGIAAAGSEKMTKGFGPLLPGFVHLDFGDH
+DALRAAITDTTAAILIEPVQGEGGIRPVPDQCLKGLRDLCDENGILLIMDEVQCGVGRTG
+KLFAHEWSGIAPDIMMVAKGIGGGFPLGAVLATEDAASGMTAGTHGSTYGGNPLGCAVGN
+AVIDIISAPDFLAEVNRKAGLILQKLEGLVAGHPDIFESVRGSGLMLGLKCKATNSDVVS
+AGYAHEVITVPAADNVIRLLPPLNITDEEIAEAISRLDQAAGSLETA
+>tr|B7RP30|B7RP30_9RHOB
+MISDGLIVGFYFAEDRLIHRGFDLSSGRFLEVDKSLVAIPNGEGSVRKAASIIKEFYIDR
+LGRPVVGVGLAVPTSILELDQHSDRYGTLGGQLAPIGWKNFNAKQTLLDELSSCGVSLAE
+PEKIGIISQVGATAKGHFKQHFGTPASKPSHPLKNDKRSYLYIVADEGIGAASYNSGWLL
+HGSAVPNIGHSMVIPIDGDIPKTCKFHPRRPCLNAYASLDAIYARHPEILELPNKFIDCN
+DHSIISGVAHYIAQTVSNLVLFMSPQKIILGGRIADNPYFLGHFIENLSLLLENDEEFDE
+LSYPQLKDFWSMVEYQGDKDFGVNGAVWTAYEFVDRAGDITNLDRQQ
+>tr|B7RR69|B7RR69_9RHOB
+MLQTRFAPMTIIDPFLDMRRMPSIMSRFFDDVRAPGQSAIYPPVNFWASQDSIVMTTELP
+GLTEQDIELTVKDAMLSIRGTYPEAESGDDIVWHRNERLEGSFMRSVKLPFRVNPDKVDA
+RFENGVLTVEMQRPEDDKPKRIAIKAS
+>tr|B7RS39|B7RS39_9RHOB
+MLERFVPFVGGIETMSAHLLSALAQNGHEVQIVTSQSDVPLRETDTWQGMPLFRLPMLTS
+LAHRDLRGILQARAGLRGIKQAFDPDVVHIQFSGPSSMFHWDTNEGAGVPTLVTVHSVAT
+ESTPNRSLYLDTVRKADWVASVSRHMLDWTLAHAPEIFEHSSVVYNGIPAEELPAQMPAL
+PFEPPTILWIGRMVEWKRVDRLIDAAAQVMATNGVVRLCLAGDGPERQRLEALARDRGIA
+ERTRFTGWVDAAERGALMRKATLVAIPSEAMENLPMVALEAAGYGRPIVGSRVSGLPEIV
+EHERSGLLVSNLTPQTLADAISRVLTDREKAREMGRQASKLVRSRFTSTQMVDAYEHLYG
+RLAGPRAG
+>tr|B7RQ39|B7RQ39_9RHOB
+MTLTIRKLTLGVLYLAVALLIAVPPVVMLMSTAACADPDCTITSRQFFTADAALMWLLPF
+SIAAVLIALAFKLKNRR
+>tr|B7RJ29|B7RJ29_9RHOB
+MLVWLLRRFLYRPILDGIDAREAEITQRMQEAGRAKEKAEAVENEFREQLKTLKTRQSDM
+ADAVRLEAEKQRDALLVEAHKRMAQERETWHAHLDEETRKYTAKLQSAGGKALLSLTRKA
+LTDLADETLESRIAHHLTKRIEPMTNELRSAAGDGKAAVITSRDALPQPARDDLSTVVQA
+VFPDVVVRFETNAEQPPGIILRVGGAQLDWTVDAYIDSLADLMAAQLTAEADVKEAAQ
+>tr|B7RMD2|B7RMD2_9RHOB
+MTELYIDADACPVKAEAERVATRHKIRMHVVSNGGLRPSQNPLVETVIVADGPDVADMWI
+ADRCGPGDVVVTGDIPLAARCVEAGARVLKHNGEALTSANIGNVLATRDLMTDLRAADPF
+RQGGGKAFTKADRSRFLEALEREIRAAQR
+>tr|B7RRH8|B7RRH8_9RHOB
+MVAQEHELTRLVSFDYGQRHRKELDYAALCAARLEVPHDIIDLRAIGAALTGSALTDDID
+VPDGHYAEESMRITVVPNRNAIMLTVAFGVAAARGDQAVATAVHGGDHFIYPDCRPAFTQ
+AFEAMQKAALEGYADVSLYTPFVNRTKADIVTEGARCDTPFAQTWSCYKGGTHHCGRCGT
+CVERREAFHLAGVTDPTTYEDPDFWAEAIARKDHG
+>tr|B7RHX2|B7RHX2_9RHOB
+MSAIQKTSRIAHNLFAYGASEVAAKASRLLVVVAVARSLDLAQIGVAAAALAAADILKAL
+TENGVGQKIISAPEAELPQICATAHRIFWVWCVGLFVAQSLIGLALYASGGNVVLLALIL
+LLAGEYLFMPAGLVQTALAMRAGKLRQTAAISGAQIVGANLISAVLALLWPSALALILPR
+LLTAPFWLIAMRRLHPWKRDLRNGFAPLRPFLHFGWAVLGVELVKAVRLQADKLIVGALM
+GAEALGLYFMAFNAGLSLANSFSVAFATVLFPHLCASDDKGAALRHSILLAMGLITPAVV
+LQAILAPYYVPVLFGAGWSGIDTIVSILCLIAIPTTLWSATAGWLRATGRAQVEFWVTAA
+MTVAFMLNTVVLAPLGLVAVATGYAIVATVLMVGASFPALYLAFGRATAKV
+>tr|B7RIX8|B7RIX8_9RHOB
+MKQHPHDNPDVLRVGHLLADAARRATLPHFRTAALATDNKLAEGYDPVTEADRAAERVMR
+EILSKERPHDAILGEEYGAESGTSGLTWVLDPIDGTRGFVSGTPTWGVLIALGDDKGPFF
+GIIDQPYIGERFIGTSSDASMTGGSGTHPLKTRTARDISEATVFTTFPEVGSAAEGAAFA
+EVSRRARLTRYGMDCYAYALVAAGQVDLVIEAGLQAYDIQAPIAVVQAAGGIVTDWQGGP
+AHQGGRAVAAANAEIHAQALEILRTCAP
+>tr|B7RP51|B7RP51_9RHOB
+MQVTAAAMAFAWTGGAGIAATLDITGIAEGTDLYEAIAGGSLLREQTAEDATPSTQELLA
+AAQADYARLLAVLYDQGYFAGVIKITVDGVDAAAIAPVAPPKQINKAVIAIEPGKKFSFS
+KAEIKPIAEGTELPDGFATGQTASLGVLKETVSAGIEGWRDQGHAKAALSSQQLTARVPD
+STISATLKLAPGPRLRFGALTIKGESAVRTNRIQKIAGLPTGQVYSQEQLDLAATRLRRT
+GAFSAVAMIEADEIIAPDVLPITAQITDAPPRRFGFGAELSSLEGVTLSSFWLHRNLLGG
+AESLRVEGEIKGIGGESGGTDYRLSTRFKRPATFNADTNFYALAEIEQLDEVNFFSRQLD
+LEAGIERIASEERTYSAGIGLRTAETRDAFGTNTYTLLTLPLSAEHDYRDNRLDAKDGFF
+ARATVTPFLALAGSASGARSYLDLRAYKTFGTERPVTFALRGQLGSVYGPELAQAPADYL
+FYSGGGGTVRGQPYQTLGVDLGGGNTVGGRSFVGLSAEARVAVRENIGVVAFADAGYIGA
+EEFYDGSGQWHSGAGLGLRYATGIGPIRFDVAVPTSGPETADNFQVYIGIGQSF
+>tr|B7RKW9|B7RKW9_9RHOB
+MTRRFTGDQILIATHNAGKLQEMAELFAPFGVRVVGAAEMNLAEPEETEDNFIGNARIKA
+VAAVKATGLPALADDSGIEVEALDGAPGVYTADWSETPNGRDFVMAMTKTHNLLEEKNAP
+HPRRARFCATLVLAWPDGHEEIFEGTVNGKLVWPMRGEIGHGYDPIFQPDGYDQTFGEMT
+HDEKNKISHRADAFAKLTSACFD
+>tr|B7RHC5|B7RHC5_9RHOB
+MMTDSTHPLEGTPLIAPSSTDHPLYDQIVEACRTVYDPEIPVNIYELGLIYTIDINDQSE
+VNIKMSLTAPGCPVAGEMPGWVADAVEPLPGVKTVDVELVWEPPWGMDMMSDEARLELGF
+M
+>tr|B7RJ47|B7RJ47_9RHOB
+MLLVMIFIDHVPGNWYETLTLRNWGFSDAAESFFVMSGMAAGLAYTGGVARWREIGLWSG
+IAPIWKRAWVLYLTHVFLTVGGIAIFAIGAEAFGLTELLTKNNLRQVFQNTGPALIGIVT
+LGHQIGYVNILPAYSVLLLAAPFALLLGQRAPYGLLAVSIVLWFATGLFRLNLPAYPNPG
+GWFFNPFAWQLIFVIGLLTGIALRGGKRFVPKHPVLLAFAVGWIVFVLSWIYIPGFGPVM
+DGLMARLQAVGVPFHITSQDKTFLPVLRLLHVLAVVYVISCLPIIARLSAHAYGEPLRVM
+GRQGLLVFSAGALLSLAGQAVLVYFDGVAIVPWLFIPVGMVALWGVAWVADWKRRAGRPL
+RHTLVQTEDRVMPVAAE
+>tr|B7RLY6|B7RLY6_9RHOB
+MSAGSGVTHSEFNPSATEEMRFLQVWLLPETQNTKPAYDTIDLSNEDKSGRLKLFLSRDG
+RDGSMTTQADASVYAATLDAGQTISIDLKAGRKGWVQVADGSLTVNGIALSKGDGLAIDG
+SGSLTFDQGDAAEILFFDLAQ
+>tr|B7RNB3|B7RNB3_9RHOB
+MTEQRKQDMIDPARAAAFRVALGQKEAVKTGDPLPPFFHQLYFWEPEPPVSLGRDGHPRV
+GGLIPDMGLPRRMWAGGRLAFERPLLAGIAAEKRTICENQNRKDGRSGPLGFVTLRHEIW
+QDGALCLTEWQDLVYREDATPDAPKPRPPMARTDAETITAVDFTSTLLFRYSALTFNGHR
+IHYDLDYARDVEGYGGLVVHGPLLAQLLMLKAEDDLGPLTTFSFRATSPLMHFETASLCR
+NGRDLWVAGPDGRQCMVAKA
+>tr|B7RP05|B7RP05_9RHOB
+MKPNFALSLSFEGIRLLHRVSGGWRVVGELALDVDDLTGELAVLRKTAASLEPGGVRTKL
+LIPNDQIKYMTIPTPDLSDAARLDAARKALENATPYAVEDLAFDISSDGTQTHIAAVARE
+TLAEAEAFAMEHRFHPVSFVAQPSPGLFTGEPFFGPTEAADTILDAGDAVDRDAEAVVVL
+DDLTAVEAAEIRPDPEQPPLADQTHDPVILLPADSADRKNADTAAPEATDSPPKEQVSEG
+PSNKGPEPDAPPSENLAPKEERPSERFQDDVVIQDGIVVQKDIVSQTTQAGDAPSKAELA
+EDTAAKDTAKGDTKEIASETATLAPKAAVPAVAKPVNLPRPAPVETETAATAFTSRRTAA
+APTVGGATRTAPAAKATLPTAPQTTVRATPVPDSSSLRASASGPFVPPAEAKPSKLGFLS
+RRKPSKIEPLPPTIAVLTDTGIQVPKTTSEAEKMTVFGARKSAVVGGKPRFLGLLLTAAL
+LVFLAGVAAWASVFMDDRVSLSRLFGARDTTVVASAPAQEADLPDVASPLTQPDIAGPAL
+SLDSDQETVVAALDPTLSDEDGAVLDALRVPELPQPPAMPQQQVEAKYATSGIWAEAPQP
+PVAPAMISLDDLYLTSIDPVSTANDAIALPTLASYGGDTFDFSPASPAAAGTTFTLDGRG
+LVAPSPKGTLNPDGVLVFAGQPPALPPKSPTRAATTPVEAAANAALTGFRPKPRPKDLIE
+SNERSQLDGLTRAELAGIRPKLRKASLQQVAAAAPEVTAAAASAAASLAAVPSGDANAPP
+SETIVNASAFAIKASLRPDIRPNNFAGIVKRAERTAPEPVEVASVASVAPRVVKPAAPSK
+TSVAKQATVKNAIKMRDINLIGVFGKPSSRRALIRLSNGRYQKVAVGDKLDGGRVSAIGD
+SELRYTRRGRDVILKMPRG
+>tr|B7RI74|B7RI74_9RHOB
+MAAFLPEPLFNKARLQYRRLPFDCAKGSFSHHSSRRGDELWPL
+>tr|B7RMI8|B7RMI8_9RHOB
+MPDMTTVDLNADMGESFGPWKMGDDAALLKIISSANIACGGHAGDADVMAATMTMARDNG
+VGIGAHPGFMDLAGFGRNRMSVPRSTLQNQIRYQVAAHVGMARSIGAQVRHLKLHGALAN
+MASEDEALARDLYEAALSVAPDLIVMVLAATAQQDAVQALGCKWAGEIFADRAYNDDATL
+VDRSKPGAVIHDAALAGQRMVDMVQAGAIITESGKKIPAAIDTICLHGDTPEAVEIARSV
+KSALQEAGINLHCFEGRSAD
+>tr|B7RMM3|B7RMM3_9RHOB
+MSQKIFAPWDDPDQKPLIRFENVTKKFGDFTAIDDLTLNIYEKEFFALLGPSGCGKTTMM
+RMLAGFENPTSGKMELSGKNIAGIPPNKRAVNMMFQSYALFPHLSVWENIAFGLKRGDMA
+KDAIAARVDEMLKLTRLTKFARRKPHQISGGQRQRVALARSLAKAPKLLLLDEPLGALDK
+KLRQDTQFELMDIQESTGTTFVIVTHDQEEAMTVASRVAVMDEGRVIQVATPDGIYEAPN
+SVYVADFIGDVNIIEGKVKAAGDGMYHLDWAANEAPLLATSEVPFSDGQTAHLAIRPEKI
+AITTEKPDEAKNAVQGSVLDIAYLGNLSTYYVQLAGGMIIKAQTANTRRLSRRSITWEDK
+VWVSWNGTAGVLLER
+>tr|B7RNN4|B7RNN4_9RHOB
+MQQEASAPPLAGLRIIEFAGIGPGPFAGMMLADMGAEVIRIERPNAGSPTGQGAHELDFL
+ARGRRSIALNMKAPGAVDLALRLVETADGLIEGFRPGVMERLGLGPDVCRARNPRLVYGR
+MTGWGQNGPVSKTAGHDLNYIALSGALWASGEAGRAPSFPLNLLGDFGGGGMFLAFGMVT
+GLLKAARTGSGDVVDAAIVDGTAALMSMIYSRRAMGLWRDERASNALDGGVPWYGVYECA
+DGGWVTIGALEPQFWAVLLDRLGLTAQEMGDRADRGTWPAMRARLTGVFKSQPRDHWVDL
+LQDTDACFAPVLSPAEAPGHPHNQARGIFSEGVVQPMPAPRFTDASTPLPTTPPAPGADS
+RAILTDLGLAADEIEALFSGGAVT
+>tr|B7RFP9|B7RFP9_9RHOB
+MRMKRWVQNPPSPRRVKFIFGIILIAAIIFGVEYAGYWPDWATAERMGRRF
+>tr|B7RQ77|B7RQ77_9RHOB
+MATPEHNQAPNTQAPNTTINKTSGTGTGIVIGVLVVIVVLFGFFFFANGDPVTDSSDVNV
+TVEGAGNAAENAAEGAAEAVEGAAESATGN
+>tr|B7RN86|B7RN86_9RHOB
+MKLPAAFHRVPFAHRGFHDPSQGRPENSRAAFSAAVARGYGIELDVQLSADGVAMVFHDY
+ALDRLTDAQGSVRLNTASDLMKIRLKGSDETIPTLAEILQLIDGRVPLLVEIKDQDGGMG
+DDLGPLEKATAQDLDAYQGDVAVMSFNPNAVARMADLAPAIPRGIVTSAYRYYDWPLPKA
+VCDRLREVPDYDRTGACFISHELDDLSRDRVTDLRKAGAMVCCWTVRSPDDEAFARQYAD
+NVTFEGYDAPLPA
+>tr|B7RIN1|B7RIN1_9RHOB
+MPGVVHLNCLRVTIAAGSCMVVMVRMIITGKRGTGHPLQQDRQHQQQKRHRFRDFRVPES
+LANALHAQPIQSKRSGFKSELRDCVSCGPLRPIGHAAHTTVSAQTNRTTA
+>tr|B7RM46|B7RM46_9RHOB
+MALLDVLMVSNFKPATWIFLLDADGRAPYSTPNIKRRTNAWWLVHP
+>tr|B7RID1|B7RID1_9RHOB
+MTSENPYNTGLDRNPANYQPLTPLTFLERAATVFPEHTAIIHGALRRSYAVFYARSRRLA
+SALAQRGIGRGDTVSAMLPNTPAMLECHYGVPMCGGVLHSINTRLDAAIIAFQLDHAMSR
+IVIVDSEFMPLMQEALALAEVRPLVIQVDDPEYDGTTEAFDGADYESFLAEGDPAFAWLM
+PEDEWDAISINYTSGTTGDPKGVVSHHRGAYLLAQGNALTTSMRKHAVYLWTLPMFHCNG
+WCFPWTLSAIIGTHVCLRQVRAEPIWNALADEKVTHLCGAPIVMSLMISAPAETQRALDH
+TVQFFTAAAPPPEKLLADMQTAGFEVTHLYGLTETYGPAVVNDWHESWSSLPSGEQARLK
+SRQGVRYLPLEGLDVLDPETMQPVPRDGVTMGEVMFRGNVVMKGYFRNPQATQTAFEGGW
+FHSGDLGVVHPDGYIQLKDRSKDIIISGGENISSIEVEEVLYSYPSVEIAAVVAMPHPKW
+GETPCAFIEPKSGHEIDTDALRTWCRERLAAYKVPGKFVVTTIPRTSTGKIQKFALRDRA
+RELVAKP
+>tr|B7RJ18|B7RJ18_9RHOB
+MSGDVAHDGAMIWSRADREAKMMVEWATSESMSNAQAVPALAVGTPTDYTGKMALTGLPS
+DQDIFYRVTMTDLADGTTSEPTVGKFRTAPMGRRDVSFVWSGDTAGQGWGIDEDRGGMTT
+YATMLGHTPDFFLHSGDTVYADGPLKEEVALDDGTIWKNIVTPAKSKVAETLDEFRGQHL
+YNYMDRNVQAFNAAVPIIAQWDDHEVTNNWYPNEMLASDDRYAVKSMQVLSARAAHAFHE
+MMPTRQNLAEPMRVYRKVSYGPLLDIFVIDMRTYRGDNTANTEAEGTPFLGADQLAWLKR
+EMVNSTATWKVIASDMPIGMMVRDGETNMENGANGDGPVLGREQDIAAVLSFIKAAEIAN
+TVWLTADVHYTAAHHYSPDRAVFQEFDPFWEFVSGPLHAGTFGPSAYDNTFGPEVRFAKH
+PEEGQANLPPSDGMQFFGKVDIAADTGVMTVRLMDSADVELWSVDLEPKAV
+>tr|B7RN17|B7RN17_9RHOB
+MGYQEVYKSWQDNPEAYWLDQANAIDWVEAPTQAMFNKGNDLYEWFADAKVNGCYNAVDR
+HVENGRADQVAIIHDSPITGTQTKITFAELQTRVASVAGALQANGVTKGDRVIIYMPMVP
+EALEAMLACARIGAVHSVVFGGFAANELAVRINDCTPKAIIAASCGLEPNRIVNYKPLLD
+GAIEQSDHKPNFCLILQREQSPCDLIAGRDLDWHEAQEGVTPAECVSVEGNHPAYILYTS
+GTTGAPKGVVRHTAGHLVALNWTMKNIYGVDPGDVFWAASDVGWVVGHSYICYGPLIHGN
+TTIVFEGKPVGTPDAGTFWRVIEEHNVRSFFTAPTAIRAVKREDPKGEEIGKYDISCLRA
+LYLAGERADPDTVIWAQEKLGVPVYDHWWQTETGFTIAGNPAGLEALPVKVGSPTVPMPG
+YDVQILDEAGHAQPAGTLGSIAIKLPLPPGTLPTLWNAEDRFRKSYLTTYPGYYETGDAG
+MIDEDGYLYIMARTDDVINVAGHRLSTGAMEEVLAAHPDVAECAVIGVSDALKGQAPMGF
+VCLSKGVNRPHAEITAECVKMVRDQIGPVAAYKLTLVVDRLPKTRSGKILRATMVKLADS
+EPFKLPATIDDPAILDEIKTALQTIGYAQEK
+>tr|B7RRP5|B7RRP5_9RHOB
+MKRTLDNQTSTELTCHSGDPHASFTRHDGSVANFYDD
+>tr|B7RP90|B7RP90_9RHOB
+MSAFANSQQAKSLAEIETKGLRAVGSERLEQMIAANNKAGNVEFTRSWLASQPAASGGEQ
+WRCLSEALYFEARGETVKGQFAVAEVIMNRVKSARFPGSLCSVINQGTGKKFRCQFTYTC
+DGYAEVIAEPKAFAQVAKIARATLDGAVPSITDGATYYHTTAVKPRWSRVFTRTAKIGVH
+LFYRDGVQTASN
+>tr|B7RQI4|B7RQI4_9RHOB
+MQTYLSNLKASVRPDMARKDSTKLRQVGIILLVIGVVAIVLPHLATLAAELLTASMLALW
+GAIGLWFSWAIRPAPEARIGFAAFGLMFAIGLALILFPYAGIAALTVIIILAFLIEGLLS
+ILFALRSSAYVGNWGWLVFSGLCSFAAGLVILFGWPWTASWTLGLMLGLNFFSTGLSLVM
+LANPAKR
+>tr|B7RG33|B7RG33_9RHOB
+MTVAADTTPLRLHWWKAVPNFGDAISPVVLAHVSGREVVHAGVNKADIWAVGSLLQVIKR
+AYSEEKDLMPTVWGTGLLHAVHGLRFKDHVRIALVRGPITAALLGLEVDRFGDPGLLISD
+VWPMDRTPNGKIGIVPHHSIMDDVMLKALLDSDPKYQLIDPRGDAREVCAAIAACDHVFA
+SSLHGLIVADAYGVPNTWVAPVGQSRLKYLDYAAAVGRAMPAPVMIEDIPAAHLPEPDAP
+LPYQAGIDVCRNALYASFPKALRLGVAA
+>tr|B7RGB6|B7RGB6_9RHOB
+MSFSNLTRRGLIKTGAVAGAGLALPTYLSAAAHSGFTNAPQGDTVTLGFNVPQSGPYADE
+GADELRAFELAVEHLNGMGDGGMLQTFSSKALDGTGIMGKKVQFVTGDTQTKSDAARASA
+KSMIEKDGAVMISGGSSSGVAVAVQALCQEAGVIFMAGLTHSNDTTGKDKRANGFRHFFN
+SYMSGAALAPVLAKAYGADRKAYHLTADYNWGYTTEEAVRSSTEALGWETVNAVKTPLTQ
+TDFSAYIAPVLQSGADVLVLNHYGGNMVNSLTNAVQFGLRDKMVNGKQFEIVVPLYSELM
+ARGAGANIKGILGSQNWDWKLEDQLGARYSGTNAFVQSFGTKYGFPPSQAAHTCYVQTLL
+YADAVTRAGSFNPCAVVEALQGFEFDGMGNGPTLYRADDHQCFKDVVVVKGKENPENEFD
+LVEIVEVTPADQVTYAPDHQQFAGGSLGTCNPGA
+>tr|B7RK29|B7RK29_9RHOB
+MNDRRPVASLWIGEKLHYLNQLCLKSHVVAGHKTILYCADKVDNAPEGVEVRPASEIMEI
+DRALVEATSASFLSNVFRYKMIKKTGAIWIDCDAFCHQPFPEEDDYIFGRHGMSGALNCG
+VVGMPQECELIDQLLDYYDNLPDYPAWWNKNQRKKYDRQDPKLSHAHRIYNAERTAFGPQ
+AFTYFAKQTGQYDKASEREVLYPVPFQLNDVFYDPYGRVEGHFTDKTLSVHLYTNGTKPW
+WEKNEPLPGSYAARMCEKIGIDPSKALR
+>tr|B7RNH7|B7RNH7_9RHOB
+MMGFTVAIDGPAAAGKGTVSRAVARHFGFAHLDTGLLYRAVGAKVLEGMTPEEAAETLQA
+ADLENEDLRSNAVAEAASRAAAIPAVRAALVDFQRSFAMRAGGAVLDGRDIGTVICPDAQ
+VKLFITATPEVRAARRHAELRAKGEDVTLGQVLADVEARDARDSSRAEAPLKPAPDAEEM
+DTSTMDIDAAVARAIALITLRREA
+>tr|B7RP33|B7RP33_9RHOB
+MDWNTNTKLRICATLLVFALGHDAHAQGLFGSSPYQSYGYSNYDGLFMMWRIAMMALSTG
+AGFLLGWFLSPEAKEFRRIVTLIAAGLLVFVAIMSNGVLGWSAAWLASMLGFLGALGYWL
+GRGVKALMDVPTTFGSSKWADGQHMNEKGLFGSDGIILGSAFDDSVNGAVEKVFSYKGDR
+HLLTSAPTRSGKGVSHIIINLLCYQGSALVIDPKGENARITTDEREALGQEVMCVDPWGI
+ATDAMGRVSARINPLDWIKLGDVDATENAMLLADSLVQKNSKSDAFWQEEAKALIQGLIL
+FVCFDAAFDGRRNLGTVRDLLLLSGDDMIAMFEQMAASPHHLIASTGARSLQKEPKLMAN
+VLASAQAETHMLDSARVRECLSESDFDFADLKRKPMTIFLILPADRLETFSRFLRLLVQQ
+AITINARNIADKPKKPVLFILDEMPALGRLTMVEQAYGLMAGFGIQLWGITQDLCQLRRI
+YGQDYESFIANSGAVAYFGSPDKTSAEYFSAMCGVTTVWNFSSAIATAFSSSSGGNGGSS
+SRSSTTTDNRAATQRKLAYPDELMRLRDDQQLILIENTNPIMARKLKWYEMPDLRTKGVN
+LHKQ
+>tr|B7RRE9|B7RRE9_9RHOB
+MLACLAFPAAAQQQGRPPPAVTVATLQPQDVTLTTTLPGRVVASAMAEVRPQVAGIVIER
+LFQEGGSVKAGDVLYKIDPASYEAAVAQADAAVAQAQAQLDAAQKEEARQQELASRNVAS
+TASLDTAIAGRDAALASLQAAQAQRNAAQIELDRTEITARLSGEIGRSLASQGALVTASQ
+ASPMAVIRNIDTVYVDVTQSAAEIIEWRRGNMGERIGDTMQRVTLTLADGSLYDQTGTLT
+AAEPDVNEQTGVVVLRMSFDNPGKLLLPGMYVQVEMPTRTAQDVFVIPQEAVSRNRRGQP
+IAMVVGAENVVEARPLTVLQDMGSDWVVSEGLNPGDRIVTVGLQKASPGATVTPEEQVAA
+TTTDGNAAVADASAEPAATEPSDTKTE
+>tr|B7RIW1|B7RIW1_9RHOB
+MTKPNILILMVDQLNGTLFPDGPAEWLQAPNLKKLAARSTRFKNAYTASPLCAPGRAAFM
+SGQLPSATGVYDNAAEFPSSVPTYAHHLRRAGYHTCLSGKMHFVGPDQLHGFEERLTTDI
+YPADFGWTPDYRKPGERIDWWYHNMGSVTGAGVAEITNQMEYDDAVAFEATRKIYDLSRG
+LDDRPWCMTVSFTHPHDPYVARKKYWDLYNDCDHLLPQVPDLGYEAQDPHSKRIFDANDW
+RSFDITEDNIKRSRQAYFANISYLDDKIGEILQTLEDTRQEAIIVFVSDHGDMLGERGLW
+FKMSFFEGSSRVPMMIAAPQMEPGLNETPVSNIDVCPTLCDLAGVSMDEVMEWTTGQSLV
+PMGQGVERTEPVAMEYAAEGTQAPMVSLRYGKWKYNRCTLDPDQLFDLDADPHELTNLAE
+EPAHQGTRQTLRAKADARWDLDAFDADVRKSQARRWVVYEALREGGYYPWDYQPLRKASE
+QYMRNHMDLNVLEENKRFPRGE
+>tr|B7RLH8|B7RLH8_9RHOB
+MSITVYAALWFLPFVLPLCLYTAYTDIASMRITNPTVITLAAVFVIIGPVVLPFETYLWH
+LLAMVIALVVGIILNAGGVMGAGDAKFIAAATPFIALGDLRLVMALFMATLLAAALTHRI
+AKHTVARRFAPTWTSWQQGKKFPMGLALGPALAFYLILGALFGA
+>tr|B7RJU1|B7RJU1_9RHOB
+MTDLSRILDHARIDELPNPYFGKVRDCYDLPDGRRILISSDRISAFDRILASIPFKGQVL
+TQTARFWFDHTTDICPNHVLDYPDPNVVIGKRLDILPIEIVVRGYLAGSTGTSVLTLYKK
+GEREMYGHRFPDGLRDNEALPQAIITPTSKEFDGGHDAPLTATEIVEQGLLTQAQWDEIS
+DIALRLFARGQEMAAQNGLILVDTKYEFGTDADGKLMLADEIHTPDSSRFWLADGYQSAL
+ENGTRPPSFDKDVIRSWVDARCDPYVDDIPEIPADLIAATSQVYIDAYQAITGQIFEPNM
+DGDTVLDRVRANLAPYFTT
+>tr|B7RGT0|B7RGT0_9RHOB
+MTLNVYLSGEIHTDWREQITEGAAGLGVTFSGPVTDHAASDDCGVAIMGPETDKFWHDRK
+GAQLNAIRTRRGIEMADVVVVRFGDQYKQWNAAFDAGYAAALGKSLVILHGPDHAHALKE
+VDAAALAVAQEPAQVVDILRYVLTGALPAAD
+>tr|B7RQG8|B7RQG8_9RHOB
+MRHDPAGASIIIMLRSLKLHGMAHAVDDLVTQGVPAFEAATPMLSQLLKAEMAEREVRSI
+AYHTKVARFPSYKDLAGFDFASSDINEATVRQLHRGEFIENAENVVLIGGPGTGKSHVAT
+AIGVQAIEHHRRKVRFYSTVELVNALEQEKALGKAGKMAEMLTKIDLVILDELGYLPFSP
+SGGALLFHLLSKLYERTSVVITTNLSFSEWAQVFGDAKMTTALLDRLTHRCHILETGNDS
+YRFKASSEAAKKTTEEATTLTKA
+>tr|B7RS74|B7RS74_9RHOB
+MTLDILLCHSYFLDQDPIEKRVMKPYPPLGLLYLSSYLKAEGFAVGLHDTTFSTYQSVAD
+DIQRHSPFAVGIYTNLMTRRHVLAIMEMAKAQGCHVILGGPEAANYAQEYLDHGADVIVA
+GEGEQTLVELIPHLKKNGLKNLGKINGLIFRAADGAIERTAPRFLHRQIDDYPFPDRAAI
+DLNHYMDIWQTHHGVRSVSLITARGCPYACQWCSHSVFGKSYRHRTPENVIAELLEIRDV
+YQPDQVWYADDVFTMNFRWLDRFADLLEQNNLHYPFEAISREDRLTEDVIKTLKRMGCYR
+VWIGAESGSQRILDAMERRTNAKRMREMITLLQNHGIRAGTFIMVGYEGETFDDIAATVQ
+HLKAALPDDVLSTLSYPIKGTPYHDQVADRLVMQGDWATTTERDAKIKGRHSRLYYNSIE
+AWIQAEVQLTRVRKTGVAGLAKLPKLVLQTYRHRLNIWRRRHEVEA
+>tr|B7RSF6|B7RSF6_9RHOB
+MKTDSLPSQMSAHQRRDAWYAEEIPHARYLRDYDLPLKEALFLCLNELEGLLGAEAVDTK
+ISAIVPGNQPMDWDWKALPFDGNVSPVSGGWECTKFLDDAGLYGLLGAAPSAIPFKTRKS
+WVAALPLKLGDWRRNVRLGKDANNILLLIDLALSRHAMDTGLSLASISSDDLEEEGEVSI
+PALAVFGGVSEGRIRNLLTSGESCLVRKSGHSVTASSAKEWLAGRKEFYPSIWDLPEDEK
+PEPQELDFSGEVVFVPVASDGGTFHPGLARNGKYTVGAKGDEVQFAQFQDALSALHKMST
+PRWRRPNMQGNWGIVSGKDWKRVERHTLGTSLN
+>tr|B7RLB3|B7RLB3_9RHOB
+MNNRNILHPVLEATRQIIGADKVIELTQGSMGSEDFAEFSTRKPAAHLRIGSKLEHHQTM
+LHRSDFNLDEACIPTAVRALSLAMMRLMGSA
+>tr|B7RII2|B7RII2_9RHOB
+MALVALFVTTDADFAKITREAQEQFPDTDVIACTTAGEIGQSGFEEGMIIAIGFPSAHYA
+SKSILIEDLQGESSQAVVDRIALDRLAIQSENPDKQRGFAFLVVDGLSLREDILTAAISP
+ALRDLPIFGGSAGDGAHFGRTLVSLNGRVCENAAVLSLIQTDHRVRVFSFDHLVPTDRQM
+VVTSADPARRIVKSINGEPAVKEYARIVGKDPDQVNQFTFASHPVVVRIGGGHHVRAIQQ
+VNESGELVFFSAIDEGMVLTVAQPKNMVEHLESEMVKLSENGAPSDIFACDCILRRMEAE
+QTQISHQVSDILARHRVFGFSTYGEQIGALHVNHTMTGVAIYADPDGD
+>tr|B7RQ14|B7RQ14_9RHOB
+MTAFAYVEDTLVLPSQTKSLTLHCGAGTGLFTTSCTPSMVDGAETGLFTTSCAPSGTAMA
+TGDLVELFTTSC
+>tr|B7RQR0|B7RQR0_9RHOB
+MTKNMKHIAAGIALGAAMGTAALAEDVKIGMVVTLSGPPAALGQQIVDGFQLALDQKDGM
+LGGHKIELIIEDDELKPDVALLKATSLVERDAVDFVVGTVFSNMLQAIFKPVVQSETFLI
+SPNAGPSTFAGKNCNPYFFVTSYQNNQNAEVSGMIANEEGYDSIFAMVPNYQAGRDNIEG
+FKQTFKGTVTDEVFTPLGHQDFSAELARMSTSGADAVFTFMPGGMGVRLVNQFANAGLSD
+SMKFMSVFTTDETTLPGQKDAAVGLLAAGSWAPDLVNDANTAFVTAFEEKYGYIPGSYAM
+QSYDAASLIDSAITKTGGDLTDKDAVRAALKEADFTSLRGDFSFNNNHYPIQDFHMLNVI
+KREDGKFQTSFVRTIADDYADSFHQDCKM
+>tr|B7RRC5|B7RRC5_9RHOB
+MDTRILKHYEGELAYMRDMGAEFAQAYPKIAARLGMDGVEVVDPYVERLLEGVAFLSARV
+QLELELQYPALTSHLLEIVYPHYLCPSPSMMIASFEPDMQNAALADGYTIPRHSELRSAL
+GEDDNTACVFRTAADVNLWPITITEAEYIDGRGELVAAGVSRDTEARAGIRLRLNRHGGL
+PISELSMDSLVLFLNGQEGKNWALHELLSTQVTGLVGRSTDRRADWISELPNSGVIPRGY
+EPEEALLPTPQRSFDGYRLLQEYFAMPERFHFVELKGLSMALSRCKGSDVDIYILLSGGD
+PDVAPGVTPQAFTLNAVPAINLFHKRCDRVHVTNSKVDHHVVADRTAPLDYEIYALESVT
+GVSADGEKDVPFRPFYSATDLTAAGDTHAAYYTQTRKMRQRSEKERLKGVRTSYLGSEIH
+LSLVDSNQAPYDPNLDQLAIQAMVTNRDLPLLLPTGGNDVFHLPVGGPVAHIKTPVGPTR
+PRQTLAQGDTAWRLISHLSLNYLSIADNNAKDSAAALRELIGIYTPSGNKVLAKQLEGLN
+TVHTRPIVRRMADEVLSTAVRGLEISITFDESFFEGTSAYALGAVLERFFRKYVSINSFT
+ETVLATQQRGEITRWRPETGLGRIL
+>tr|B7RIP7|B7RIP7_9RHOB
+MKLVLTSCLTALVGTTAMAQITITDLRDRTVTLEAPAERVMLGFYYEDYLAVAGDGAVDK
+IVGLSRGPWAEWRPRQWEAYTQTFPQLNDLRDVGDTESSTFSIESAIATDPDLVILAGWQ
+YDALGETAGQFDTAGIPVLVLDYNAQTLEAHLASTRALGLAMGTSDRANALATLYAEKTA
+DTEARLARSDARPKVYVELAQKGPDEIGNSYAGGMWGGIIDRLQGQNIANGQIENWGPLS
+PEYVLAEAPEVILLSGSEWLNRPAAVPLGFGADKGLAQQRIDAYKARAGWSDLPAVQNGK
+VYGIYHGGTRTLSDFAYFRFLGKALHPEAFADVDPEAELAQFYADWLPIEPVGTFVMHAE
+>tr|B7RK28|B7RK28_9RHOB
+MMKDEAPFLLEWYAHHLAVGFTKILVYTNDCSDGTDEMLIRLEELGLGYHRRNDIPEGVK
+PQPSAMKYAQSEPKVAEADWILMFDADEFLSINYGDGTLDPMLDAAGDANGIVITWRIFG
+SGNVVDWSHAPVTEQYLYAAPPTWNKGWGVKTLFKFDPDKWKIGIHRPSIKNKHLETGFP
+DTVKWLNGSGLPMEDYFKFRGWRSIRRTVGYQWAQMNHYAVKSIDSYAIRKFRGNVNNKK
+DKYNADYWSLQDRNEVYDDKILRYSERRKAIMDELLTDPVLSRLHFAAIDRVEARLDEYR
+QTEAYEELKQSLIEASKVPITQIVAKPPKARDPAEIAALMSQVEKNNADRPAEERRKKPE
+PDFADVGEGGDGFVPGEIDVTAETAVEWVPSHDIALPADVRIFAHNTLDFVMRGKYQRRL
+ARKVGRMVEDGQKVLDLGAGIGFLSIYTAKAVPQSVVVAQDDNASRMQIMRNILTHNDID
+LGAQLKMTTDQVVFTNDDAKTVARINQMIADEKPDVLRASYEQVGAKLLSRINLGSVRRI
+VLFGPAIATFMREQKKVDDASLAPSEDLSVPEFVIIEPRSNAQAADQS
+>tr|B7RPV8|B7RPV8_9RHOB
+MYVAVKGGERAIDNAHAWLAEERRGDRSVAELGVAQIREQLALAVNRVMAEGSLYDPDLA
+ALAIKQARGDLIEAIFLIRAYRTTLPRFGGSIPIETEDMTCDRRVSATFKDAPGGQVLGP
+TFDYTHRLLDFKLAAEGDVGPAPVGDTATVPTPHIMSFLDREGLIQSEPASDETPADLTR
+APLELPAGRALRLQSLTRADEGFILGMAYSTQRGYARNHAFVAELRIGAVAVEMDIPELG
+FAIEIGEITVTECETVNQFTGSRTEPAQFTRGYGLVFGMTERKAISMALVDRALRWKELG
+EDDLGAPAQDEEFVLYHSDNIQATGFLEHIKLPHYVDFQSELELIRKLRREAHANIAQEA
+AE
+>tr|B7RH58|B7RH58_9RHOB
+MILAPAPLFTDLFPGPDTGLAHWTETPDGKKLRVAHWPLDGAKGTVLLFPGRTEYVEKYG
+VTAAEFAKRGLAVMTLDWRGQGLADRLLPDRRVGQVDHFPDYQKDVATLMRAARTLQLPR
+PFFMLAHSMGGAIGLRAVMEGLSVQAAAFTAPMWGIHLAPHLRPFAWGLSRLMPRVGQGH
+QLPLGTKYDPYVTSEPFENNMLTTDQPMFEMMRDQIAAHPDLALGGPSYVWLREALAETK
+HLALRAAPSLPCVTFLGSNERIVHIGRIHQRMKSWTGSKLQIVEGAEHEILMEKPAIRDA
+AIDDMVRLFLRNAKN
+>tr|B7RNI5|B7RNI5_9RHOB
+MLEFDNVSKSFWTGTQHKVILDHVSFRVEIGNSLGILAPNGTGKSTLINMMAGLEKPDEG
+EIRRGCNISFPLGFMGGVVSKVSAMENARYIARLYGLDPDYVESFCRWLCGLGEYFDQPL
+GTYSAGMRSRFSFALLLALDFDIYLIDEGMPTTTDVEFNRKAGEILQERLRTTTIIIVSH
+QPETLQQFARSAGVLLGGKLHIFDTLEEAKQLYDYETQG
+>tr|B7RHW4|B7RHW4_9RHOB
+MSITLKTFAVASAVATAFAAQTSPANAATKEKCFGVALAGENGCAAGPGTTCAGTSVTDY
+QGNAWTLVDAGTCESMDLPEMADGSERKGSLEAVDRDLPA
+>tr|B7RRK9|B7RRK9_9RHOB
+MTLPALFDPLRIPLIGSPLFIISNPDLVIAQCKAGIVGSFPALNAREGEGEPIELDRWLT
+RIKEELDRHNQANPDTPAAPYAVNQIVHRSNTRLERDVEICVKHEVPLWITSLGAQTWLN
+DAVHSVGGVVLHDIIDNRFAHKAIEKGADGLIAVAAGAGGHAGAQSPFALVQEIREWFDG
+PLFLSGAIARGDSILAAQAMGADGGYAGSAFIATAEANADERYKQMVAESGASDIVYSDL
+FTGVWGNYLKPSIAAQGMDPDNLERSDPSNMDFGADRQKPKSWKEIWGAGQGIGAVKSVV
+PAAELVDRLVGEYAAARKRLFDLTA
+>tr|B7RL02|B7RL02_9RHOB
+MLSQLQTAVGLIYPPVCLGCNQPVEKTAGLCGPCWRETAFIGGTVCDRCGVPLPGNDVGE
+MAHCDACMTDPPPWVQGRSALLYRGIGRKIVLGLKHGDRQEIARPAALWMARAVAKTLPK
+DTLIAPVPLHWLRLVKRRYNQSALLGKALARETGQSWCPDLLQRLRRTQPLEGKTRAERF
+AMLEGAITVHPKRAERLQGRSVLIVDDVMTSGATLCSAAKACIDAGAGSIRVVTLARVAK
+DT
+>tr|B7RNH9|B7RNH9_9RHOB
+MEDFEALLEESFEMDTPEEGSVVKGKVIAIEAGQAIIDVGYKMEGRVELKEFAEPGEAPK
+VAVGDEVEVFLRQVENSRGEAVISREMARREEAWDRLEKAYAAEERVEGAIFGRVKGGFT
+VDLGGAVAFLPGSQVDVRPVRDAGPLMGLKQPFQVLKMDRRRGNIVVSRRAILEESRAEQ
+RAEVIGNLTEGQEVDGVVKNITEYGAFVDLGGVDGLLHVTDMAWRRVNHPSEILTIGETI
+KVQVIKINKETHRISLGMKQLQEDPWDLVAAKYPLESSHTGRVTNITDYGAFVELEPGVE
+GLVHVSEMSWTKKNVHPGKIVSTSQEVEVMVLEIDGAKRRVSLGLKQTMRNPWEVFAETH
+PEGTEVEGEVKNITEFGLFVGLPGDIDGMVHLSDLSWDERGEDAIQNYRKGDIVQAVVSE
+VDVEKERISLSIKGVGGDKFAEAVGGVKRGSVVTVTVTSIEDGGIEVEYEGMKAFIRRSD
+LSRDRAEQRPERFSVGDKVDVRITNVDTKAHRLGVSIKAREIAEEKEAVEQYGSSDSGAS
+LGDILGAALKGDD
+>tr|B7RPD3|B7RPD3_9RHOB
+MALKPRPYLIEQYGVARGRARAGWDVLRLQGPGKVTFWFIALVVGIAAGFAALFFRKGIN
+AIQAFLYGTEDVQHLHSFIGSLDWHWVVLIPTVGGLLVGLILHNFTRDARVRSVSDVILG
+AAMHDGRVETRAGLASALASMITLSTGGSSGREGPVVHLAAVISTLVSRRINASGITGRD
+LLGCAVAAAVSASFNAPIAGALFALEVVLRHFAVHAFAPIVIASAAGTVINRMEFGGLTE
+FALPKIGDVAFYAELPAFLLLGLTCGVVAVVLMRSIFWAEDIGNFIQDRSKLPRYLRPAA
+AGAILGVIALWFPHIIGVGYETTTRALAGNLVLNEALVFAVLKIIAVSITLGGRMGGGVF
+SPSLMLGALTGLAFGLIATGVFPNVSGVTSLYALAGMGAVAAAVLGAPISTTLIVFELTG
+DWQTGLAVMIAVSMSTALASRMVDRSFFLTQMERRGVHLAAGPQAYLLAMFVVARIMRRP
+DDPRAADPDVCWTLIKEGTYIDGTATLEAAMPIFEQSAVAFIPVVTLKPDSPPELLGALF
+QVDALKAYNRALADTAAEEHS
+>tr|B7RMJ4|B7RMJ4_9RHOB
+MLDKFHSPRYMRQMYSDMTNGLPFMKMHGLGNDFVVLDARDSALLGKDGDSLQVTPALAQ
+AVGHRHFGVGFDQLAVITTGTGDAHLTFYNSDGSLSAACGNATRCIARFLMDETGKSSLH
+LTTDRGDLAAQDMGDRLTAVNMGQPQLDWQDIPLAHAMETLELPIDGAPTATGMGNPHCT
+FFVADLAAIDLERFGPGIEHHPLYPERTNVQIAQIIGPDHIRMRVWERGVGITLASGSSS
+CATAVAAARRGLTGRKVRIDLDGGTLHIDWREDGVWMTGPTAHVFSGTLTREFLDGVK
+>tr|B7RIG6|B7RIG6_9RHOB
+MTNRNRHKLLFLVKDTPMPRTKARAVTQSQKPLFRLAWSALLVSGLTLVAMAAHAEDEKI
+ITSHGYSFYGDLKYPADYPHFDYVNPDAPKGGEISISTLGTFDSMNPYSRKGRGGALSTI
+MYESLLGEGTGNEAAPADVYGEAYCLLCETLEYPESKDWVIFHMRKDARFSTGDPVTAHD
+IEFSHNLLLDQGLKSYADAVRKRIPKVEVIDDYTIKFYFTPGISRRSLIDQVGGVPAWSK
+KWYEESGARLDESRLMTSPGSGPYVIDDIDVNRRIVYKRNPDYWGADLPFNVGRNNFDAI
+RVEYFGDENSAFEAFKAGEYTFRVEGNSKQWASAYDFPKIDAGHVVKEDIPDGSPPTPSG
+IVFNLGREVLQDKRVREAVALGFNFEWTNESLQYGLFKPRASFTQDTPLMATGKPEGMEL
+ALLQSFGDLVPAEMLTEDAVIPHVSDATRLLDRGNLRRAMKLLDAAGWAVGDDGKRYDAN
+GTSLRLTFLLNSSGSATLSAVVENFMSNLGNMGIDAVLEKVDSSQYTARERDRDYDLVFD
+GYRPFLGTGTGLAQLYGSEAASYSLFNPAGLASPMVDAIIEASLAASTKAEEDASMIALD
+RALRYEFFMIPAWYNDSYWTAYYDQYEHPEGQPAYALGYLDFWWYNADKAAALRAAGALR
+>tr|B7RK36|B7RK36_9RHOB
+MSNPEVALVMLGLFIVFVLLGFPIAFTLLAMGVGFGYYAYYQGHPIETFSDIFNNNIFYL
+VNQNTYSVMENPTLVAIPLFLFMGYVVERANIVDKLFFSLYMAARNLPGSLAIAALLTCA
+VFSTASGIVGAVVTLMGLLAFPAMANANYNKSFASGVICAGGTLGILIPPSIMLIVYAAI
+ADLSPLRLYAAAVFPGLLLAGLYIVYVIVRVWMNPALAPKPSMKDVPPPKEIYMDLLLSF
+VPLTVLIALVLGSILGGLATPAEAAAMGALGGMVLAVLYRSMSWTKLKESVFLTAKATAM
+VCWLFVGSWTFASVFSYLGGHDLIAQWVGGMDLEPWQFLILAQVIIFLLGWPLEWSEILI
+IFVPIFLPLLEVFGVNPYFFAMLIALNLQTSFLTPPMAMSAYYLKGVLKNQIELMEIFRG
+IMPYLGIVILTMCLMYLFPGIALWFPDYLFGEYIP
+>tr|B7RQJ6|B7RQJ6_9RHOB
+MNTAYQNSTDPAASRHSHATRLVHAGLALAVVVQLLSSLGMEHPENGKPGNFLFEVHEYG
+GLTAFAFILLFWVVVTARTRGTPWGLLFPWFSGARRAALWLDIKHHAAALREMRLPPHDG
+ASPMASAVHGLGMLLITAMAGTGTLYYFFGDDGGFMDFVMEVHETLANLAWAYLIGHASL
+AMLQHFFTDFHLRSMWSLGHAPKKDS
+>tr|B7RMP5|B7RMP5_9RHOB
+MSGEDDDSDKSFEATAEKLLEARRKGDIAKSTDLMTAAGYAGLFVAFAYVGSEGIALIST
+ALMVLLDQPDRLIDIFFDGSAAAPASGLIISIILPALPIFLLPAIAVLVAIAAQRAFVFA
+PSKIAPKLSRISLISNAKNKFGRNGLFEFAKSFFKLCIYSICLVLFIRANLHEMIAALQT
+DPASAISLMIEICLSFLLVTILISATIGGIDALWQHFEHLRKNRMSRKEIQDEQKNSEGD
+PHLKQERRQRAMIVSQSQMMADVPKADVIIVNPTHYAVALKWSRLPGEAPVCVAKGVDEI
+AKAIRLKGAEAGVPLHSDPPTARALHATTDIGDMIAPEHFQAVAAAIRFAEAMRLKAKAR
+G
+>tr|B7RQQ5|B7RQQ5_9RHOB
+MPRTFPFSDQRIAKMPRKNPITKIIGTQKSETLIGTEARDHILGLRGDDVVLGDGDLVSP
+GGPVDLVGADDTLWGGGGDDTVRGDGAVRASAGDSTSTGTLTGGNDKVYGQSGNDVLDGD
+GTVFSEYAGDAFLYGGHDTIVGGQGNDTLRGDGNTEARGFAESMLVGGDDWLSGGQGDDE
+IWGDGSAFGAFGGTASMIGGHDHLDGGNGDDVLWGDGRVAARDSGIPTLFGAADVLDGGN
+GDDTLYGDGVTVGGRGPSTLNGADDLLIGGRGDDFIYGDGMAQSGSNTTIPTLNGGNDTL
+DGGRGNDILYGDGVISGPEVTDPMDVNGGADTFVFRTKSGLDTVMDFRSDDGDIVDLTAI
+RRIDWDALDSNGNSVLDAGDTFVTVDAGGTAIDLSVGHGRLGVNVVTFVDTTGMLETDFL
+FA
+>tr|B7RIZ9|B7RIZ9_9RHOB
+MRRPNHRSILKVIHWAMVPMFAWFILVQPADVARIGPVAVRFHSVMGLIFVSTALLWTGL
+YLRKGLLSRPGPKLTGWARRLHPVLHKTLIWGIFGVALTGLLIGITSTVQLWAGGIVPIA
+VPMDMPRANDWVGLLHSIEFYSLALIAALHAGFHIWRHYRLRDNALRIMVPKALHRYL
+>tr|B7RN27|B7RN27_9RHOB
+MTALKKYARLEATALWRAGPEVQRREVIVSIGDATLVISDLKDQALTHWSLAAVDRANPG
+TRPAIFHPDGDPSETLEIADNEAEMIDAIETLRRVVERGRPKPGRLRLFGVMTSMLLVLA
+LAVFWLPGALQDHTLRVVPVVKRVSIGASLLRQIERVSGLACTNPRGTTALAKLGTRLSA
+GPLVVLPAMTRASLHLPGGTVVLNKTLFEDYESPDVAGGYILSELVQRADSDPLRDMLAV
+ISLRENFRLLTTGEVSDAALESYAEHLMSLGDQQAALDPLIARFEAENLHSTPYALARDI
+TGETTLALIEGDPMAGKETAPLISDADWLRVQNICGG
+>tr|B7RNH3|B7RNH3_9RHOB
+MSRKNYTFTSESVSEGHPDKVCDRISDAVLDAFLTEEPEARVAAETFATTNRVVIGGEVG
+LSNKEKLTEYMGKIEDIARACIKDIGYEQDKFHHATCEITNLLHEQSAHIAQGVDSSGEK
+DEGAGDQGIMFGFATTETPELMPAPVHYAHAILRRLAEARKDGSEPTLRPDAKSQLSVRY
+EDGKPVGVSSIVLSTQHADEAQTSDDIRAIVEPYITEVLPEGWITADTEWWVNPTGTFVI
+GGPDGDAGLTGRKIIVDTYGGAAPHGGGAFSGKDPTKVDRSAAYVARYLAKNVVAAGLAE
+KCTIQLSYAIGVSKPLSIYCDTFGGDADVADAAIEKAIGKIIDLTPRGIREHLQLNRPIY
+ARTAAYGHFGRAPEADGGFSWEKTDLVDALKAAL
+>tr|B7RMN1|B7RMN1_9RHOB
+MVALQSLRSINRDLSATQSAISTGKDINSAKDNSAIWAISKVMESDVAGFDAVQDSLAVG
+ESTVAVASAGAEQIVETLKEMKALAVAGQSETSDFAKIDADMQEKIAQITAITNGSQFNG
+VNLLKDDIDGNASTSLTVVSSLDRVGSSAPSVSTIDVATVDFTTNLDATTITTITDSATA
+ATAFDDIEAFLTVAIDGAAALGASAQRISDQGEFVSKLTDAVKSGIGSLVDADMEAASAR
+LQALQTQQQLGVQSLSIANQAPQTILSLFR
+>tr|B7RIC6|B7RIC6_9RHOB
+MSSGTAKTHIWLLEFNQESAREVDPLMGWTSSNDTQTQVKLRFETKEEAVEYARSHGIDA
+VVQEPHKRRANIRPGGYGENFATARRGAWTH
+>tr|B7RJH9|B7RJH9_9RHOB
+MTNIEPSFLIAVDGGGTGCRVAVGTAAQGILAEAKGGRANVSTDFDEAIANIMQATGTAL
+QAAGLDASRMGDAVAHLGLAGFTGPDIGARVAAALPFGTSVVTEDTATTIVGAIGQDDGF
+VIALGTGTIIARQRDEVQKCIGGWCYQVSDQASGAWLGHGALVQTLLVVDGILPPSPLSS
+HLLDTLGGGAGIVQFSLKARPGDFATHAPAVVQAAAAGDAIGVDLMKSGAAYLQSALTSL
+DYKTGDILCLAGGVGPHYADYLPADMTRHLVPAKGRAVDGAFALAMRAARQ
+>tr|B7RKU6|B7RKU6_9RHOB
+MFDPTKTPRVYGLAPGIDFPQELVAGLVSRLKGQPPVAMGRIDLVVNTRRMQRRLREIFD
+AGPASLLPRIHLIDNLDTLAAGIALPRPSPALRRRLELITLVSKLLDQAPELAPRASLYD
+LSDSLAGLIDEMQGEGVPVEAITDLDVSDQSGHWERAKQFLDIAHRYLGESVTRPDPRAR
+QRQIVAQMIAGWAETPPQHPIIVAGSTGSRGTSAMLMQAVAGLPQGAVILPGFDFDMPTS
+VWADMGEAQEQLSQDHPQYRFRHFLRALDLARSTIEPWTTCEPPSPERNALVSLSLRPAP
+VTHVWLTEGPKLPDLGKATQGLTLIQAPTPRAEALAIALRLRQAVEDGQTAALITPDRML
+SRQVTSALDRWNIVPDDSAGMPLHLSPPGRFLRHVADLFVRKLDSEALLTLLKHPLTHSG
+GDRNIHQLNTQRLELQVRRDGLPYPDADGVLRLSRKTVSRSKKPDQMDIWATWVGAHFAG
+IDVGQDKPLEDWVADHLAVAAAIADGSNPTIESALWLRKSGEEAKKVMANLSENAPYGGE
+MSASDYADLVGALLQQGEIRDSDAPHPDVMIWGTMEARVQGADLIIMGGLNDSTWPEAPP
+PDPWLNRQMRLQAGLLLPERRIGLSAHDYQQSIAAPEVCLTRAIRSDEAETVPSRWLNRL
+GNLLNGLPEQGGDAAWQTMIKRGDHWLEQARALEAVSRVDPAIRPSPRPPRGARPHALSV
+TEIKRLIRDPYAVYAKHSLKLRALNPLVQSPDAPVRGIIVHEIMERFIKSVTADPKNLTK
+SHLLETASTVLDAEAPWPAARIMWLTKIERIADWFIENEVRRQSYSSPAAFEKAAKGSHI
+FPDLGFTLTGYADRIDRTDDGDILIYDYKTGTPPSKLEQKAFDKQLLLEAAMVEEGGFKE
+IGVATVAQAAYIGLGSKPVELAAPLEDEPPHEVLAKLHALITSYLSDDQGFTARRMVKTT
+DFAGDYDHLARFGEWDATTDPTPEDLT
+>tr|B7RLF4|B7RLF4_9RHOB
+MSGRVFRAPIHNSGGMSMTDTSTTHSGEYEAQLGDYFALLKPRVMQLVVFTALVGMLAAP
+TSVHPVVAFASILFVAIGAGASGALNMWWDADIDAIMRRTANRPIPSGRVQPGEALAIGV
+ALSGLSVMMLGLAANLLAAGMLLFTILFYAVFYSMWLKRLTPQNIVIGGAAGAFPPVIGW
+IIATGSFSVEAWLMFALIFMWTPPHFWALALFMRNDYDDAKVPMLTVTHGRRSTRRHILA
+YTVLLVILAIGTGFTSIGGPIYLTAAVVLNVLFLIGAIRIWKRDEDDSEADNFLIERKFF
+RLSLWYLFLHFGAILAEATLRPYGFGGWS
+>tr|B7RMM8|B7RMM8_9RHOB
+MAMNDVPRRIQMQFLQALPVAPTEVKTSQANPAYAHANSENQSSRTQLFSDVFEGVSKDT
+PETEVSDQALPTKREAVDKAHNTASDTAPEAKTAREKTDAVLDETPQDQRALDSKDPHEV
+RDQIDIDQPDPSTSAQKTTRIIPVLEGMIMPSLVQPLSKVMTSLSHAPNAAELGNNALQI
+DDNGNSAPATGPQSARETETKNFQTPGLQIRQNTPSPNPDLALNAVRLQKIQFPDSQASQ
+TVSLRERTQVTASEAHLVPRNQHDSLGGQTGDIKMSQSPTATEKQLVLLNSQPLAQTGEG
+TLSDVTRPPVLVSAENHNIPKSETKMAIAETGQQKTDQIYNIRQHNTGIEKLPADEQISR
+IVPEERFMSSVQQNSAMPRQQNTAPPLLRDGDFPTQLHGGQATQEPSTSRTQQGSAIQNI
+PINVEQATLVQKSTTGEKVFQRDVEGHTVPKDSDQTTALYVVGKSNAWQSAKTQISGQGH
+QRPSFVTDSTANLSTGDLEIDPPLSDELGSLPGTDHPRATTQNMGLAVGKADMPQHIPRQ
+LAEVVHANNGKSVDVALSPEELGRVKLSIVAADNGVVVSILAERPETLELLRRHIDQLNQ
+ELRELGYQNPRFSFSNENPDPGRDRSSSLTGDSPNADQEIQLPRSTANGEQPSTGPQAGL
+DLRI
+>tr|B7RP45|B7RP45_9RHOB
+MALPSLGMATCSSQKHAMSCADGMVYDAESASCVTSATS
+>tr|B7RQ01|B7RQ01_9RHOB
+MKRTMKFATAALVASSAFAGSAFAGSLSEPVVEPVMMEPVPVVNTGGDWTGFYTGLQLGY
+ADADGPGNLDGDNGSYGFHAGYNYDFGRFVAGAELDYDKTDIDLNNGAATIDSVARAKVK
+GGYDFGNYMLYATGGYAQADTTLGDEDGAFYGIGMTYRVSETYSVGAELLEHRFSDVGGV
+SGSDLDATTFTVRGSMHF
+>tr|B7RS88|B7RS88_9RHOB
+MQLHEIAHGRTGDKGDTSNISIIAFDPKDWARILRDVTEEKVAAHFGPDVAGDVTRYLLP
+QLQAMNFVLKGALTGGVTRSLALDAHGKCLASVLLEMEI
+>tr|B7RL62|B7RL62_9RHOB
+MLRSGVIAKKMGMTRLFMEDGKQIPVTVLQLDKLQVVAQRTTERDGYTAVQLGAGTAKVK
+RTSAPMRGHFAAAKVEPKRKVAEFRVDPEAMLNVGEEIIADHYFAGQYVDVAGTSIGKGF
+AGAMKRHNFGGLRATHGVSVSHRSHGSTGQCQDPGKVFKGKKMAGHMGSARVTTQNLEVV
+KTDTVRGLIMVKGAVPGSKGGWVTVKDAVKKPFPENAILPAALRSAAEEAQKAAEEAAAA
+AAAEAEAEAARLAEEQAAQEAAALAEAEASIDADKAEAADQSETLDETKKEGDE
+>tr|B7RMI0|B7RMI0_9RHOB
+MTVSRVLRKRGDVSDATRRRVLAAAKELGYVPNQIAGSLASQRVNLVAVIIPSLSNMVFP
+EVLNGINQVLEDTPLQPVVGVTDYMPEKEERVLYEMLSWRPSGVIIAGLEHSDATRAMLK
+NAGIPVVEIMDVDGRPIDAMVGISHRRAGNEMAKAILKEGYERIGFMGTKMPLDHRARKR
+FEGFTEGLAKAGIEIEDRAFYSGGSALAKGREMTQDMLERSPDLDFLYYSNDMIGAGGLL
+YLIDQGIDIPGQIGLAGFNNVELLQGLPRQLATMDACRLEIGQAAAQIILNDTLDAPDPD
+LQSQITMTPTLSLGDTLRRKRNS
+>tr|B7RPX2|B7RPX2_9RHOB
+MTKIDHKKVLAERLSARFGRRTILKGIGAGIMTAATGTMPSLARAQQSGHIKIASIKVID
+TLDPHFTGFLSAIQIINNIHNGLLKIAYDGTKVTFEPDLAESWDLEDEMTHVFKLRDGVM
+FHDGTPCDAEAVKFSLLRVKEGEPKSPHAWKLALLDRIEIIDPLTFKLIFSQPYAFLPVA
+LNGSTGRAGTIVSPAAVQKYGADYGRNPVGTGPFKFVSWKENDSIELEANPDYFEPGLPK
+LERATFVLMNEASTALAALLSGQIDGMTDCPMQLVDQVEAFPNATLYGEIEGNYTFVGMN
+CKRGPFDDINLRRAVAWALDRDTIVKQAYFGRAQQAYTPISPPMTDFFDPDIATSGRGQW
+FDLDKAKAFRAKAANQGEVEAVYMMAERGPVGTRVAQTVAPMLAQIGIKAKLELVEPAAW
+VKRRNGSDFDLYDFEWVADLDPDETLYPEFKSDGAWNFGGWVNTEFDDLCAQAQVVLDPV
+ARRKLYHQAEDLLMDEAGIAVMAHMPIYKVFSNKVKGFNYIPADLVNLHTVSLD
+>tr|B7RH21|B7RH21_9RHOB
+MLFQGRIDVAYMRFSQARELARQRGINDIRFSDYRVNNDLFMYLHPEHADLAPVMAAAIR
+SMKEDGTFQNIVATSEFGGPKE
+>tr|B7RLL7|B7RLL7_9RHOB
+MKHLFAALVVSLSATLANADTMKMAVTTSFNNSGLSEVLLPAIKQDLDLDVQLLIVGTGQ
+ALRLGEAGDVDAILVHSKKAEEAFVADGYGTHRREIMYNDFVLIGPKADPAAIQTTKSAK
+DALAQIETAESMFVSRGDDSGTHKKELSLWASADLDPAGFGEWYKAVGAGMGASLNTAAG
+LGAYIMSDRASWLNFANKSDLAILFAGDPVLFNQYAYLPVNPAKHPHVNTDAAQKLEAWL
+VSDRAKTLIDGYEIGGEKLFTFNATR
+>tr|B7RLR5|B7RLR5_9RHOB
+MKTKDSTMTQRLHLVFGGELVSPTGTAFKNVDDIHVVGIFPNYASAYDAWKNEAQRTVDN
+AHMRYFIAHLHRLRDEEAAASSTEELG
+>tr|B7RNX4|B7RNX4_9RHOB
+MGGYGSGRTGYKQKAEHIKSLDVNRLHREGCLRPGRRGHWIWSRDGTETGRVGYHTTERH
+FVLDYKVRVYGGDWETITQSIPLTYADCHYGGTRPYFRCNGIVRRRHCTRRVGKVFAGGR
+YFLCRHCYNVAYSSQSEPRYDRMLRRANKLRTALGGEPGTAHWIAPKPKGMWQRTYQRKR
+FEIEWCESKADQLFLSKFAHLLSAEEREMFFGQR
+>tr|B7RKE3|B7RKE3_9RHOB
+MFELSFIWAGIIAFAVLTYVILDGFDLGVGILFPLADDEQEKATMMNSIAPIWDGNETWL
+VLGGGGLFAVFPLAYAVVMPALYMPIILMLLALIFRGVAFEYRWRTERWKPVWDAAFFGG
+SVVAAFMQGIALGALVQGIKVADRAYAGGWWDWLSVFSVLTGLAVVVGYALLGATWVILK
+TEGRLQRQMQGHAWWLGAVTLGFIGVVSIMTPFQDPEYFNRWLSLPGSIFSFLMPGAVLA
+AAWALFTGLNAGKDAQPFLAAISLFVLCFIGIGISFYPNIVPPNLTIVEAAAPDKSLRFT
+LVGTVVLVPMILAYTAYAYWVFRGKIDPAEGYH
+>tr|B7RPU0|B7RPU0_9RHOB
+MKIERKFTTSGKDAYADLDFVSTVSEIRNPDGSVVFHLDNVEVPSSWSQVASDVIAQKYF
+RKAGVPSATKKIKEKGVPEFLWRSVPTEDATMSGETSSKQVFDRLAGAWAYWGWKGGYFT
+TEEDAQAYYDEMRHILASQRGAPNSPQWFNTGLHWAYGIDGPAQGHYYVDYKTGKLTRST
+SSYEHPQPHACFIQSVADDLVGDGGIMDLWVREARLFKYGSGTGTNFSSLRGAGEKLSGG
+GKSSGLMGFLKIGDRAAGAIKSGGTTRRAAKMVIVDADHPDIEDFINWKVIEEQKVASIV
+AGSKMHERELNKLFAAIKAWDGIQADAYDPAKNDQLKAAIKDAKKCAIPETYVKRVLDYA
+KQGHTSIEFPTYDTDWDSEAYSSVSGQNSNNSIRVTNAFLHAVEKDADWELMDRTTGRVS
+KTIRARDLWEQVGHAAWACADPGIQYHDTVNDWHTCPEDGAIRGSNPCSEYMFLDDTACN
+LASMNLLTFLEDGEFMVEDYMHASRLWTVTLEISVMMAQFPSKEIAQRSYDFRTLGLGYA
+NIGGLLMNMGFSYDSDEGRALCGALTAIMTGVSYATSAEIAGELGSFPGYKKNADHMLRV
+IRNHRNAAYGKADGYENLSVKPVPLDHANCPQQALIEVATSTWDEALRLGEQNGYRNAQV
+SVIAPTGTIGLVMDCDTTGIEPDFALVKFKKLAGGGYFKIINQSVPAALEKLGYGSAQIE
+EIVAYAVGHGSIGNAPGINHTTLVGHGFGANELAKVDAALAQAFDIRFVFNQWTLGEEFC
+TQVLGIPADKLNDPTFDLLKSLGFSKKDVDAANDHVCGTMTLEGAPHLKPEHYNIFDCAN
+PCGKKGKRYLSVNSHIYMMAAAQSFISGAISKTINMPNDATIEDCQKAYELSWSLGVKAN
+ALYRDGSKLSQPLASALVEDDDEAAETLESGNIHDKAVVLAEKIVEKVIVKEIIKSHREK
+MPQRRKGYTQKAIVGGHKVYLRTGEYGDGKLGEIFIDMHKEGAGFRAMMNNFAIAVSVGL
+QYGVPLEEFVDAFTFTKFEPAGMVQGNDSIKNATSILDYIFRELAVSYLDRTDLAHVQPE
+GATFDTIGRGEEEGVRNVSEISESAASRSLEVLKQISSTGYLRNRMPQELILLQGGNGDG
+TVATLEAQVTQTANHTVASAMTSTTAVSSGSVGIDARTKAKMQGYEGEACGECGNYTLVR
+NGTCMKCNTCGGTSGCS
+>tr|B7RKH2|B7RKH2_9RHOB
+MDILLQYLALGISSVFTAADGSLWLMPVAMVLIGVVIGILVGATPGLSGPFAMAIALPVL
+VSIFGYGNEALYPVLGCLLGIMKGATVGGAVPAILFNTPGTPDAFLTTVDGYPLAQKGQG
+RRAIQTAHFASVVGDNFSDLVLFIAAPVLAVAVERVLGLPEKSALIILSLCFMAAVVGKA
+PLKGLIGGLLGMFVSLVGTTMSWDGPRMTLGIPELGGGLPLTSCVLGVLVLSEVLIAVED
+MRKDRIHASGPVQTPEMGPKLSWVERWRMMPAILRGASIGTMIGALPGIGTTTAATLSHD
+TARRRSKTPEAFGNGAIEGVVATESANSAVSGANLIPVMSLGIPGNFAAVFIILAVETIG
+DFAFGPQVFRFTPIKEIEGFDTIMNRDLVMAFGLFTMMVIANICNWSVGSFLMGQLGRLI
+HIPKDVMLPVILTVSLTAAYVQDGGYVGLLSACAFAVIGYFLRRLGVSILPFVIGFLLAP
+TLEGLIRGSFTASGGDPLFLLKSPIAVVMLALSIWLLVRMFRQSRASLKA
+>tr|B7RK58|B7RK58_9RHOB
+MTAETPPGAFSNMSLEMRAWNIRRKALLMGEVQGQGYIGQALGVADVLATSYFHAMDFQA
+EDPEWEGRDRFLLSIGHYAIALYAVLMEAGILPEEELETYGMDDSRMPMSGMASYTPGME
+ITGGSLGHGLGIAVGMAMGLKRKKNPAFVYNLMSDGELDEGSTWEAVMSAVQWKLDNLIC
+IVDFNNQQADGPTRDALAVGAEAPKWEAFGWFAQEVDGNDLDALVAAFDAARDLTDARPR
+VIICNTTMCKGVDFLEAREITHFVRVEADEWSKALAKLEEGKPQ
+>tr|B7RLZ3|B7RLZ3_9RHOB
+MTITLPDLLLYCGALLILFLTPGPVWLAIMARALSGGFSAAWPLALGVSIGDMLWPLVAV
+LGISWILSVFDVFMLGMRWLACGVFLLMGALLIRHSGAKISSDSRLTRPGAWSGFAAGLL
+AILGNPKAVLFYIGVLPGFFDLRAITWVDVAAIIAVSVTIPLLGNLAIAAFVGKIRGLMT
+NTDTLKRINIVAGCLLILVGLLIPFI
+>tr|B7RSD7|B7RSD7_9RHOB
+MKNFDPSNANSEQIISHSNYEGKAVFLRKLIVKMSTATHEPSRPLAQTLATHAVKNRWAV
+LTRDRHHSPPLRCPPGVVCPNVLSANLSDLAAQFGEVIANCNAQFAAYEVGMLYTSLLPK
+SAKSLNGIFYSPPAISGMLLALANDAKADWTRHLFLEPSCGGGVILTAIAERMIDAIKRQ
+PSSEILAHLSKNLVGYEIDPFGAWLAQVSIDFLALPFCTDEDSRFPVIVRCTDTLAVNDN
+EQFDFVIGNPPFGRTKLTDEQRRHFERSTFGHANLYALFWDQALRLVRLGGTIVFVTPTS
+FLSGRYSSKLRNLLSEHTEPKRLQFFRSRSSLFEGVRQEMVISSVTRIEPRSLITVEEIS
+DGAHGELEIYQLGQHQITRVPGSPWLLPRSQAEAGMENILNGFECRLADLGYSVSTGPLI
+WNRHKERLRSNKTGTSVPLIWSEAIRPLGVFQWRASRHQGKIWFETANGSEHLLCKEPCI
+LVQRATTKEQPRRLVAALLPKTFLDEHVSVVVENHINIIRPIQNKPQVNLAVLASYLNSE
+TADNVLRCIAGSTSVSASDLLTMPLPCPGKIACYL
+>tr|B7RHP7|B7RHP7_9RHOB
+MDRAGFATFMIAERGRASNALESAGGRSQMGGTRQSVTVPTVSADDILAFSKDIPTFIKI
+DVEGAELHVLSGMGAVFDVAKPTVYVEVSQQTEPQVRDFFQSKGYNPAVLGGEAQNLLFE
+HA
+>tr|B7RH48|B7RH48_9RHOB
+MGIDTERDIEANLQIGPTENGMVRLFVEADGGIEIPMDFTPDEAVEIAEEIMAAAHRAGK
+GGKSKR
+>tr|B7RIZ0|B7RIZ0_9RHOB
+MNRILLIGFCALIAAAIGGGLWVVGSPKHARLQKLDDQRLEDLVGWRNRLRCFDHKEVLP
+ESLADAGICPGSSGFATDTPSATDPATGVPYVYNRLNDNDFEVCVTLALDPKGSRGRGRI
+ALRTDMQLRAGNVVCLTGKIAPKR
+>tr|B7RQN9|B7RQN9_9RHOB
+MAEVYACFKQLAHGELWKSHVFIPFRFCLVGGLDSLMEPTGGHSRISPSKAQPRLRV
+>tr|B7RQV7|B7RQV7_9RHOB
+MGELLVIRHGQASFGADNYDKLSDLGHRQSEAVGQALRDMGWVPDRRVTGTLTRQKETLA
+SMGFEADEEHAGFNEYDFQDLLNARYKGDVPELVKGDRKVHFRTLRETVFQWQADEIDGP
+AESWDTFTARVEAARLAACATGAERVLAVSSGGVIGQLTAASLGAPDKMMMTLNLQIKNT
+SITKFVFTNSAFFLHEFNATPHMMSGKAADMLTYS
+>tr|B7RHL2|B7RHL2_9RHOB
+MQQSAMYLAGKFADAGATAFSQAPVRATVLLRPRQRGVKHAVSTARSGSGANAAPAGKDD
+KDEQAIAFPDTLDTTIARHDGRFGGRSDACGV
+>tr|B7RIT5|B7RIT5_9RHOB
+MRTNQQVARDQPDRSPLMAKSVSNTPPFAPFEWMIAWRYLRARRAEGGVSVMTWISLIGI
+TLAVFALIATLAVRSGFRAEFVGTILGANAHVTIYNAATVDDNGGTQTGIADYTQMAERV
+AAVPGVTHAAPLVRGQVMANKGQANAGIEIYGIDGADLANIPRIANPETAVGDLANFDQG
+IAIGSGVAQSLRVGVGDRIKIISPNGVKTAFGTSPRVNAYDVVYVFSAGRYDIDRTRAYL
+PLAEAQSFFDREGLADELEVMVEDPDRVDELTDALLLAAGDRGMAWTWRDASGSFLNALD
+IEDRVMFVILSILVLIAAMNIVSGLIMLVKNKGRDIGILRTMGLSEGSILRVFFICGAFT
+GIIGTAMGVILGCLFALYVDQIFGAVNWLSGGTAWDASVRGIYFLPAKLQFNDVMSAVAL
+SLGLSFIVTIFPARRAARMNPVEALRYE
+>tr|B7RPP2|B7RPP2_9RHOB
+MEGFTIIDGVVALVIVMSALLAYGRGLVRELMAIVGWIAAAVLAFLFAPQVEPLVSEIPV
+VGEFLADSCELSVIGAFAIVFALALIVVSLFTPLFSSLVQRSVLGGLDQGLGFLFGVARG
+LLLVVIAFFVYDTVITDQSFTIVDDSRAAQVFGRFTDRIEEQNPEAALGWITTRYEALVG
+ACDTPT
+>tr|B7RMX2|B7RMX2_9RHOB
+MEIIRDYQFVAESDRGASAAIGNFDGVHLGHRSVIDLARAALPEAPLGVVTFEPHPRAFF
+APNAAPFRLMGPEARAHQLEKIGVDKLYEVKFDAALAGLSPYDFAKNVLVEGLGLRHVVV
+GADFCFGKNRAGTAAQMVEFGAQLGFGVTVAPLMAQGESTVSSTAIRAALTNGKPREAAA
+MLGHWHRLEGPVLHGEKRGRELGYPTANMSIDGLHPPAFGVYAVLVDVLEGPQAGRYHGV
+ASLGVRPMFGENKANLETFIFDFKGDLYGKHISVALIEHLRGEEKFDGIDTLITQMDADS
+AQARAILAAL
+>tr|B7RH67|B7RH67_9RHOB
+MISRVFLDHPAQVNETFLEHMAFALKFSGLLFAAAGAALVHAVIPCLFEKTASGIIARLY
+AKTHNRGQ
+>tr|B7RJL4|B7RJL4_9RHOB
+MHKIPSLARFATFAGVVVLALVSLILMAVWSAWFIIPLALFGILSSMGTYDLVQEKHSIL
+RNYPVLGHMRFFFEGIRPEIRQYLIESDQDEEPFSRDDRSLVYQRAKGQEDARPFGTRMR
+VYDAGYSWVTHSVQPVHIEDTDFRVRIGGKDCAQPYNASIYNISAMSFGSLSANAISALN
+TGARLGGFAHDTGEGGISRYHRTGGGDLIYEVGSGYFGCRTDAGNFDPEKFKEQASSDQI
+KMIELKLSQGAKPGHGGMLPASKISEEIAEARGVPMGRDCISPAAHSAFTTPIEMMEFLG
+KLRDLSGGKPVGFKLCIGHQREFMCMVKAMLETGIVPDFIVVDGTEGGTGAAPLEFANHV
+GMPMVEGLTFVHNTLRGAGIRDQVKLGAAGKVVSAFDIARALALGADWCNSARGFMFAIG
+CIQAQACHTNHCPVGVATQDPIRQRALDVGHKSERVARFHRNTLAALGEMTGAAGLTHPS
+DFLPRHLMLRQGDKSMVQGDEVFGYLPEGYLLDDNSPDFKGNKTRWGRAQASSFVPFD
+>tr|B7RJC0|B7RJC0_9RHOB
+MAGQRCQPEDMMRKFMVVLDDSRECLNAMRFAAMRASKSGGGVVILSIIPPDEFNHWIGV
+AEVMREEARERIEVHYEVFAKWMRDRLQVEPELVIREGVIVDEIIAQLAEDPEVGVLVLG
+AGTDKKSGPGPLVTQLSRNAGSLPVPITIVPGDLSKERLEAIT
+>tr|B7RNF5|B7RNF5_9RHOB
+MTDKTAFTRFQTIAAQEIARLNLGGRITPFPGTQWVASSLLQKAIRRNLPHVAGQAGRFL
+LEVKREHLLRRLNAIASEDIGLADIETVAITAACLKSAKVRRDLGGEVIVTDYLIRRMCA
+ARKSRSADDLLMTVERLPRLAPDRINFAQYSDARLRQIILGCPSLDQRALALWYLFGTKR
+CASDHLLFRKGNPDMAWDTLAELGIAPTMLLIARENFTKTVTMLAPYMSLLSLQNDVVSD
+RVKDDPTPVEIAINCNPSWGFDMYTRPGRAALHRLLLRNAGLAAWAADFLPKHGRVQILG
+ELLFRIEGQCLSRRADGAFGTELRERWEQECAGVSPEAVEHGLAVLRNVLPDLNAIRADI
+AAEGLI
+>tr|B7RIU3|B7RIU3_9RHOB
+MKHMFLILSLCCLPASAFAQDEGDTGPSLMERGARMFLDGMKQELAPALEGLSDLGEDLG
+PSVRGFVSEMGPAFADLLDKVEDWSVYDAPEILPNGDIIIKRKPEEPPKPLGPLIYLDPN
+PQVEL
+>tr|B7RLW4|B7RLW4_9RHOB
+MVGAYLFPALERVKTNKDAGTKPVDLLKYGLPAALTGLIR
+>tr|B7RMW1|B7RMW1_9RHOB
+MALTVGTPAFAQDAQLRRLDSGVEAGAWEAVGRLDIAGTGFCTGALIAPRLVLTAAHCLY
+DRTTKQRIDHGKVEFLAGWRNGRAGAYRMVRRAVVHPDYVYDGQVSSDRVRNDLALLELD
+RAIQNTTITPFETARRPRRGDKLGVVSYAKDRSEAPSLQEVCSVLARQEGVLVTTCSVDF
+GSSGAPIFTFESGVPQIVSVVSAKAVVDGKAVSLGTALGAPLALLQAALVAGKGVYQEPG
+PASRRINALDRNRNTGAKFVKP
+>tr|B7RJB7|B7RJB7_9RHOB
+MMRIFSAIAAVVLVAACEPIPASGPMTPQPVQNAQPSLSGQQTTRNFLRVLQTVEPVAER
+ECRTRTTGINCDFNIVVDDRPNQPANAYQTEDKAGRPVIAFTLALIADARNEDELAFVMG
+HEASHHIEGHIARQQQNAVAGAVIFAGLASLSGGDSSAVETAQRLGAQVGARTYSKDFEL
+EADALGTVITARAGYNPLRGAEFFTRIPDPGDRFLGTHPPNASRLDTVRRTAAGL
+>tr|B7RJF5|B7RJF5_9RHOB
+MAGLALVGAGLALRQIQPSVLALPEPDGLDRNDSGVRRAARKSRDGLASVLPSNLTGSIG
+RSLMIMGLGLVTIRALDALVDDKDALY
+>tr|B7RH97|B7RH97_9RHOB
+MLAFAGTGALARDGSFEITRTEAQWRAMLSDAEYAVLREEETETPFTSPLNDETRKGFYH
+CKGCDLPVYSSKHKYDSGTGWPSFWKSMPDAVGTKPDNTLFATRTEVHCSRCGSHFGHIF
+DDGPEPTGKRHCLNGVSLKFMTTA
+>tr|B7RIJ1|B7RIJ1_9RHOB
+MAADVALSIGYLEIKQSRPPTLSNLDPIPEDLGLAGAQTGLGDNATTGRFLGHSFDLQSG
+IVDVGADHVAATADMLSRTPFLLIDAPADVLLAIADLPQAKDAVLFNISAGDTALRDTDC
+RANLLHALPSDAMLTDALAQVFVQKRWTDLVMVSGTYPQDVAYADAMRRSLTKFGLKLGQ
+EKTWAFDADMRRNAAQEVPLFTQPLGDYDALIVADELGDFGRYLLYNTWVARPVTGSEGL
+SALTWSPVIEQWGATQLQNRFAQEHDRAMQSQDYAAWAAMRTLGEAVTRTGSNDPAILRD
+YILSDDFELAGFKGRPLTWRDWNGQLRQPIAIAHTRALVAQAPLEGFLHRVNELDTLGLD
+RPESRCEVFE
+>tr|B7RQ65|B7RQ65_9RHOB
+MTKFDDLKALQHTVKDRSILSLFDDADRAATFSAQTGDMLFDFSKTNLDRETMDALLALI
+DDADVQARRDAMFSGEKINETEGRAVLHTALRNLDGGPVSVDGTDVMPGILATLDRMRDF
+SDKIRASDITDVVNIGIGGSDLGPAMAVQALSPYHDGPRCHFVSNVDGAHISDTLRGLDA
+RTTLVIVASKTFTTIETMTNARTARAWMTEHGGDPARQFAALSTAQDKTDAFGINPAQVF
+GFEDWVGGRYSVWGPIGLSLMIATGPRAFHAFLRGAQSMDRHFCAAAPRENLPMLLALVG
+IWHNQICGYATRAVLPYDQRLGQLPDYLQQLEMESNGKSTQMDGATSPFNTGPVVWGAPG
+TNGQHAFYQLIHQGTRVIPCEFLIAANGHEPDLAHHHKLLIANCLAQSEALMRGRSLQEA
+SEIMAGKGLTGAELDRQARHRVFPGNRPSTTLSYPLLDPFTLGQIIALYEHRVFVEGVIL
+GINSFDQWGVELGKELATSLQPIVDGSQPATGKDGSTASLVAFIAKHAD
+>tr|B7RLN2|B7RLN2_9RHOB
+MNKVVIAGASRTPMGGFQGVFANMTAADLGGHAIKAALDGAGAKTVDEVLMGCVLPAGQG
+QAPARQAGFKAGLGEEVPATTLNKMCGSGMKAAMIAFDQIALGQTNVMVAGGMESMTNAP
+YVLPKMRSGARLGHSQVIDHMFLDGLEDAYDKGRLMGTFAEDCAETYQFTRTIQDDYALA
+SLSRALKAQSSGAFDGEIAKLDVTSRKGSTTITADEQPANARPEKIPQLKPAFREGGTVT
+AANSSSISDGAAALVLASEQAALDQGLTIRAHIMGHASHAQAPGLFTTAPVPAAQKLLDR
+LGWQKEDVDLWEVNEAFAVVPLAFMHEMGLSHDIVNVNGGACALGHPIGASGARIIVTLL
+NALEKRGLKRGVAAICIGGGEGTAIAIERP
+>tr|B7RKT4|B7RKT4_9RHOB
+MPIRPARRITDTSPKNFGMFAKAVGMTGDLIHLELGMPAEDTPQHIKDATIAALQGGAVH
+YSDLQGMPELRQALAEKLTQQNGMDVSASEVLITNGLTQGSYAAFMAFLDEGDEALLLAP
+YYPQHIGKAELAGAKVTVAPLDAANGFSINRALIEPHITPATRILALINPCNPTGRVYTR
+DELQIIADLAQEHDLLVISDEVYEEITYDATHISIASLPGMKDRTISMFAFTKAYAMDGW
+RLGYVVADSALMGPLMKITTNEVTHVNTFIQHGALAAVTGDPSVLAGMVARDRERRDLVV
+GRLNQMPGVTCAAVEGTIYAFPDITATGLSAQDCADRLLSETGVVVEAGSFYGQAGEGHL
+RVCFGCASTDVLTDAMDRMQRFFNSL
+>tr|B7RGJ4|B7RGJ4_9RHOB
+MYSRSGTYQALSEPLFIGTMEAIEAVNQDRAIPVSFTPITRDPACDLSNYAPMCADILSN
+SSAKHVVGCVTSSSRKEVIPELDRAQATLWYNVPYEGFETSARVVYSHAATNQNILPILG
+WAQRHFGNQGYLVGSNYIWGWETCRVARTRLEASGGRVLGERYLPLGDMSVEALIAEIER
+ARPSFVLNSLVGASSYAFIAAYADLGRRDPHFAPENCPLLSCNLTEAELPVLGDAAEGMI
+SVGPSFCETPTADGRGSSLERTAFQSVLTLAAILAEGVSGPFDSYLAEHGARYGIDPATH
+HKTLDVHIAQVRGGAFEILHSWTDIAPDPYLTRPSRHPQFRDPSLTVVRA
+>tr|B7RJX8|B7RJX8_9RHOB
+MLRGVASRRVALRAWGAFKMDAGTELANLPRCRWHAAFPLKGGARSGVSQHKERSKPLVL
+>tr|B7RN65|B7RN65_9RHOB
+MNTMRNFDFAPLYRSTVGFDQIANLMDRVLTNDAPQPTYPPYNIEKMGDDAYRISIAVAG
+FSEADLSVEVREKSLIVAARKADEDSQKTYLHRGIATRAFERRFHLADHVQVTGAFHADG
+MLHIDLERQVPEALKPRQIQIANTAGTTKKDVVDAKAVN
+>tr|B7RND4|B7RND4_9RHOB
+MSVKNALAAKLGIPFLCLGLLFAAGCARAPAELQTISSAGINPDLHAMAIQEVRVLQSKG
+QRVWCVPFARNASGVNIRGNANTWWGKAKGQYSRGTDPKVGAVMAFKATRRNPMGHVAVV
+SQVVSPREVLVDHANWKRNKISLRMSVIDVSKANDWSDVRLESQADTYGSVYPVNGFIYP
+DNTLHPKAPYGTAPVFAFMSTPAKS
+>tr|B7RPF8|B7RPF8_9RHOB
+MDFGFTTAAYVVAAILFILSLGGLSGQESAKRAVWYGIVGMALAVAATLIGPGTGFWFLS
+LILIAGGGAIGYQLATKVQMTQMPELVAAMHSLVGLAAVFVGLIAHFEIGRVGGFIAAGG
+DVKELGTFAALIAKKSGVELSILRVELFLGVFIGAVTFTGSVIAYGKLAGRVSSSAEKLP
+GGHILNIAAAAVAVLTLIWYFNTGAFLPLFLMTLAALFIGYHLIMGIGGADMPVVVSMLN
+SYSGWAAAAIGFSLGNDLLIVVGALVGSSGAILSYIMCKAMNRSFVSVILGGFGGPAGEQ
+MAVEGEQVAIEVDGVATMLNEADSVIIIPGYGMAVAQAQQAVSELVKKLRAQGKNVRFAI
+HPVAGRLPGHMNVLLAEAKVPYDIVMEMDEINDDFPDTDVAIVIGSNDIVNPAAQDDPNS
+PIAGMPVLECWKAKNVIVSKRGQGTGYSGIENPLFFKDNTRMLYGDAKASLDKLLPLID
+>tr|B7RQN4|B7RQN4_9RHOB
+MDYATTARNVKTGIDDCMDYQGFEAEQAALQGPMVDDYGREFQQFSNQELVRVFHELLEL
+EDVSCILELGAHRAATSKRFVKAKAGRKAVAIEANPFNVAKFGPLAEEAGVLYLNYALND
+RTGPLDLVLSDSDQDRKRGHTKTSNSILRNLDFGRTKNVEVPGITFDDLEHDPAFKDYLP
+SLADARPALWIDVEGALSQLLAGAHTALPKCLFAMAEVERVERFEGQKTVSHVARQFADL
+GFFPFLRDSEYMPTQHNVIFVNGALVTPDKIQSVKETFVKNIKDYKPETT
+>tr|B7RNQ7|B7RNQ7_9RHOB
+MSQSPRKWQGKAGIEGGRLNLRYATVMPALVTILHNCDLNAQHD
+>tr|B7RG78|B7RG78_9RHOB
+MNEALIAHATTGLTTMCHAWAIRRRDGVELTFTDHDMPLSFDGMQFRADSGLSARALSQS
+TGLSVDNTEAMGALSHAAIREDEIEQGRYDGAEVLCWRVNWADVTQRCVLFRGSIGELRR
+AGGAFQAELRGLTEALNRPLGRIYQKPCSAVLGDIACGFDLGAAGYAETTDVEQHQDGRV
+FQWQDLPGYDDGWFVRGRLEVLDGPAAGLWGMIKHDRRIDGLREIELWEPIRGAIGTCTQ
+VRLVAGCDKRMETCRLKFNNLLNFQGFPDLPNEDWMMAVPKSTSANNGGSLR
+>tr|B7RGY7|B7RGY7_9RHOB
+MNDLSPLRLWLMRAGFVLLVVVILFFHLLPLETSPRRWAAPDLILGFACAWSLRRPEYVP
+AVSLAAMFLLTDLLFQRPPGLWAVLALLGCEYLKSSGRGLRDSGFVSEWLTVSGVIIVIA
+AANRLILAILLVDMPPLGLTLFETGNTLLFYPVMVLVTHGLMGIRKSAPGDLDGMGKRV
+>tr|B7RL82|B7RL82_9RHOB
+MANSKRQLFLKRRLRVRNKLRRVNAGRLRLSVHRSNKNISAQLIDDVNGVTLASASTLEK
+DLGVVGKNNIEAATKVGSAIADRAIKAGVTEAYFDRGGFLFHGKVKALADAAREGGLKI
+>tr|B7RLC6|B7RLC6_9RHOB
+MAKEDTLEFPGIVKELLPNATFRVELENGHEIIAHTAGKMRKNRIRVLAGDKVQVEMTPY
+DLTKGRINYRFK
+>tr|B7RRM6|B7RRM6_9RHOB
+MTTYRQEVTAMVGQAGEQVNGIYEADYREFNRDTYVRGRETFDRTWAEVKEVVLGTWWRD
+LQMLKQEESGNGEA
+>tr|B7RPQ2|B7RPQ2_9RHOB
+MIPTSYPDSTEMARLTARMLLEIKAVHFNATEPFTLASGLPSPTYIDCRKLISYPRIRAT
+LMDFLTVTVMRDAGFEAFDNIAGGETAGIPFAAMVAERMALPMTYVRKKPKGYGRNARIE
+GEMTEGQRVLLVEDLTTDGGSKISFVDAIRETGATCAHTAVIFYYGIFPETEKTLGDHGV
+SLHSLCTWWDVLAEAKAQGAFDAATLTEVEAFLNAPKEWQDARKTT
+>tr|B7RGE1|B7RGE1_9RHOB
+MFDGMTAETLARMQFAFTVSFHIIFPAFSIGVGSYLAVLNGLWLRTRDETYLTLFNYWKK
+IFAVAFGMGVVSGIVMSYQFGTNWSVFSDKTGPILGPLMAYEVLSAFFLEAGFLGIMLFG
+RERVGDKLHMFATAMVAFGTLMSATWILSVNSWMQTPAGYSINELGQFVPEDWWQIVFNP
+SFPYRLVHMVLAAYLTTALVVGGVGGLHLLRNRTDAPARRMFSMAMWMLIVVAPLQILAG
+DFHGINTLEHQPAKVMAMEGHYDSHPDGAPLILFGIPNPEEKRIDYAIQIPYLSSLILKH
+HWDAPLDGLDTIPDEDEPPVAIVFWSFRVMVGLGFAMLGLGAWAAWHRYRGHLYDSAMLH
+RAAIVMGPMGFVAVLAGWITTEVGRQPFTVYGLLRTSDSLAPVGAPAVAASLLAFIAVYF
+FVFGAGTFYLLRMMNKTAGTVHLGLKDGPIRTAGITPIMQTDPDSIPGE
+>tr|B7RNH5|B7RNH5_9RHOB
+MTDPIRPRRNFYGRLKGKSLKQSQKGYIEEDLEALSPGPVDWEANPSRVPLDLDGLFDGK
+PVWLEIGFGGGEHMVHQAAQNPDVGIIGCEPYINGVAMLLGKIRKAGVKNVAIHPGDARD
+IFDVLPEASIDRAFLLYPDPWPKTRHHRRRFVTPEHLEPLVRVLKPGAVFRVATDIEDYV
+RQTLEQVPRHGFDWLAEGPSDWKEPWGDWISTRYEQKALREGRVPHYLTFRKR
+>tr|B7RRU3|B7RRU3_9RHOB
+MADIIFRTQGVTKIYDTGGVKVYALDGVDLELYKSELTVLLGPSGSGKSTLLNILGGLDH
+ATGGRVWFDQTELTNMSDRELTRYRRDHVGFVFQFYNLVPSLTARENVQLVTDVAPDPMP
+ADEALGLVGLGKRMDHFPSEMSGGEQQRVAIARAIAKRPQILLCDEPTGALDSATGVQVL
+EVLRDINDRFGTTTVVITHNAEIQRMAHRVIFFQDGKISETRVNETRLAPSEIVW
+>tr|B7RK57|B7RK57_9RHOB
+MTLASMARKYEPRRVAQTKVATSAMIASLAAEGYDTVNAPFGHALVELAKKDKRIVGLSA
+DLSKYTDLHIFANEMPERFYQMGMAEQLLFSAASGLAREGFIPFATTYAVFASRRAYDFI
+AMAIAEENLPVKIACALPGLTTGYGPSHQATEDLAIFRGLPNMVLIDPCDAADVAGMVPA
+MVAHDGPVYARLLRGKVPSVLRKHKPDYKFELGKAQMIREGRDVLVISTGIMTMRALDAA
+VKLADDNVDVGVLHVPTIKPLDVETIRAEAAKQGRLVVTAENHTVNGGLGEAVATTLLTA
+GIAPQFRMIGLPDEFLEAGALPTLHEMYGLSVDKVAERIKSWL
+>tr|B7RN19|B7RN19_9RHOB
+MGDKIANKKKKAKADARPAKKPVSLAAEIKPVFAPKGGKSAR
+>tr|B7RQD3|B7RQD3_9RHOB
+MIAQVPLDSFAAFGNPHVGVQADRLRPLKKANEPLTDGAGQGLDHTQ
+>tr|B7RPL0|B7RPL0_9RHOB
+MSVFAFYLFATCLIAGGLFTVISRNPVHSVLWLILAFLSAAGLFVMLNAEFVAMLLIIVY
+VGAVAVLFLFVVMMLDVDFAELKAEMARYMPLALLIGLIILMQFVMAFGAWDANVAAEGL
+RAHVVTDDVQNTAALGLILYDEYFLLFQLSGLILLVAMIGAIVLTLRHRPDVKRQDVVAQ
+MMRDPKLAMKLNDVKPGQGL
+>tr|B7RRS7|B7RRS7_9RHOB
+MQAQMNTLDGATAHIETQTDGTYPTDENDLFMWLLDFLKGQG
+>tr|B7RGB0|B7RGB0_9RHOB
+MDMRHITPRFFAAPQIDPADMPEIAKAGITLILCNRPDEEVPPSHQHTAIQAAAEAAGIK
+FAFSR
+>tr|B7RIA1|B7RIA1_9RHOB
+MSNATAKSVVNAKTSIQNKAMNDDDARRYAITAMQNARAEAMVDGIVSGDAPADPEPKLP
+KAEGPLPLPTADILMNFKNTKKA
+>tr|B7RQQ3|B7RQQ3_9RHOB
+MRLSLFIAPLFWLLATPLWADARGAVLVDVLKIEEVAHILQAEGIANAETLNQDMLGGKG
+GAGWQLQVAAIYRPERIVEMLRTRLDTELQGDQREEVIAFFASDTGAEIIALENAARAAI
+GDEDIETAARQRYAEIEGSDDARLAQIKALVDSGDMINRNVTAAMNSNYQFMRGLAEGGA
+IQMNESEMLADSAAQLDEITADTTAWLYGYLLLAYSPLENDALDQYLEFSRTNAGLALNR
+ALFDGFGAAYEDISYALGRAVALNMVAQDL
+>tr|B7RRQ5|B7RRQ5_9RHOB
+MTLKATFIGLTAATALAAPVLAEYPERTIELTIPAGAGGGTDTSARKLAILLEEKLGTSI
+AILNVGGGGGSVGASQFMQAKPDGYSLFATWNSPLTTVPQVQDVAYSLASFTPIASTSET
+AYTLCVKTDFPATTGAEFLDELAANPGKYTYGNDGIGGTMQLAAERIFQAKEINAIAIPF
+GGAGETLQNFLGGHVDIYGGSISTVLPYVESGEAKCPIVTSAADVPALEGASGLEALGLA
+DKETLLWRAILGPKDMDPAVVEKLANVIEEAVNDPSYVEFLATKGEVPNVVKGEALGARL
+QSEYDALAEVSKALGL
+>tr|B7RQV9|B7RQV9_9RHOB
+MINDKGGILDGDMFEVIGFDNKTSPKESLIQLQVAIDQGVRYIVQGNSSGVANALTEAIE
+KHNKRNPDSRVLFLNYAAVDPALTNEKCNFWHFRFDANADIKMDALTDVIAKDENIKKVY
+LIGQDYSFGKAVAAAAESMLGEKRPDIEIVGNELHPIGKVKDFTPYARKVISSEADAVIT
+GNWGADMLGLGKSIIENGFEGPIYTYYAAGSGITAAFGESGKGRIRLISQGGINPIASEE
+ARTLYNAFKEKYPEGNIDQSRIFNTIGMLAEAMKEAGTADDVVAVASKLEGMKYQSMWGG
+ELYMRPQDHQLIQDMNIGVHTDENVEFDYDNSGFGVVTESTVVNASMDSPTTCEMKRP
+>tr|B7RK94|B7RK94_9RHOB
+MNLAFYAPLKAADHAVPSGDRAMARALIAALEFGGAQVTLASDLRSRDGAGDAAVQQRLF
+DAAKAEVARLIPQGHREKWAAWITYHNYYKAPDLIGPAVAKALKIPYLLIESTRARKRLT
+GPWAPFAKAAEAASDAADVIFYLTQRDAQTLERDKTQGQTLLHLRPFLARQTLPAMSLGN
+GPMLSVGMLRSGDKLASYRIIAETLHHLPSGAWALDIAGDGPARPQVEALMAPFGKAVRF
+LGQLDATAMESVYARASLLFWPGVNEAFGLAYLEAQAAGLPIVAQNRPGVCDVLAPGDYA
+DPEDGIAPMSTRLQALLAVPSLRMALGERARCHVAGHHLLPAAADTLRRGLARAGVSL
+>tr|B7RPG7|B7RPG7_9RHOB
+MLDDTTSGPIAQIQELRVEFQTQDGPVLGVENVSFNINSGETVCVVGESGSGKSVSSLSL
+MRLVEFGGGKIAGGRLLFNRQNNPSVDLAQTDQDVMREIRGNEIGMIFQEPMTALNPVFT
+VGRQLTEGLRLHKGMTKAEAEARALELLTQVRIPQPDQRLKQYPHELSGGMRQRVVIAMA
+LACSPRLLIADEPTTALDVTIQAEILALIDRLKRETGTAVMFITHDMAVVAQMADRVVVM
+FRGKKVEEGTVEEIFENPQHPYTKALLAAVPKLGEMTGKAYPEPMKLLGTKDKEIVPIKG
+TNETLLTVKNLTTRFPVQGGFFRRTIANVHAVEDLSFSINKGQTLSLVGESGCGKSTAGR
+SILRLVEPLSGEIDIAGKDIMALNANDLREARLDMQMIFQDPFASLNPQMQLSDQVAEPI
+HNYGTLKGADLTKRIEMLFDRVELPRSFMRRFPHELSGGQRQRVAIARALALNPKLIIAD
+EAVSALDVSVQAQVVNLMLELQQELELSFLFISHDMAVVERVSHQVGVMYLGRIVELGSR
+QQVFENPQHPYTQALMKAVPIADPRKRKKESELNFKPIPSPIHPTTYRPEPSVYKTVSPG
+HQVLLTDSGY
+>tr|B7RGN0|B7RGN0_9RHOB
+MSLTDQTKMARQLASAQIISALRLRAEGVLIPLGALVAGFIAFSIFLVLLGKSPFEFFSL
+VWKGGFSSAFSWQNTLSRVAPLVFAALCVALPARLGLVVIGGEGAIVLGGLAAAVAGTAL
+GGLPAVLGMPLMALAGMVLGGLWIGAIGALRIKRGVNETISSLLMAYIAIALFNHFVEGP
+FRDPASLNKPSTAPLADSLRVGDMPFIAAHWGVLAGVIACILCWVLIDRTTVGFAARIAG
+DNVRAAQIQGLPVAKLVIGFTALGGAFAGLAGYFEVAAVHGSANASLIAGYGYTGILVAF
+LARHNPLAILPVAILLGGIEASGGLIQRRMELPDATILVFEGMVFIIILLSEALYGKLGI
+FKTNAGGTR
+>tr|B7RMX0|B7RMX0_9RHOB
+MFFASDNAGPVHPQIMARLAQANEGHAMPYGKDAIMDEVRDAIRTAFEAPEAAVYLVATG
+TAANALALACYTQPWQTIFCSTTAHINEDECNAPEFYAGAAKLTALETDDKMSPDALRRA
+IEKQADGNVHGAQRGPVSITQVTERGSVHTLDEIRALTAVAKDYGLPVHLDGARFANAMV
+ALGCTPAEMTWKAGVDVVSFGGTKNGCMGVEAVVFFDPAKAWEFELRRKRGAHLFSKHRY
+LSAQMAGYMQDDLYKVMAQQANDNAAHLAQGLRAAGATFLHQPDANMIFASWPRRIHQKL
+HEAGAKYYIWNGSLEGDDPEEYLGARLVCDWSIGKPAIDQFLSHF
+>tr|B7RIN5|B7RIN5_9RHOB
+MIAASLALTALLLTRPVIGRGIGLVALIAYVVYGWPAH
+>tr|B7RQD4|B7RQD4_9RHOB
+MLIDATHAEETRVVVVDGNKVEEFDFESENKRQLAGNIYLAKVTRVEPSLQAAFVDYGGN
+RHGFLAFSEIHPDYYQIPVADRIALMEEERAYAEAQAAKEDEDEKPKRRTRARSRGKPRA
+EDTVSDDATASKDADSDQISGMETVDLDDEEGSSPMERVAETPVEEPDEDVSDSDADDND
+DDDDRAPQGQDASSKDDSIESVADDDDHDDLRPARKPRPKRYKIQEVVKVRQILLIQVVK
+EERGNKGAALTTYLSLAGRYCVLMPNTARGGGISRKITNAADRKKLKEIANEIKVPKGAG
+LIVRTAGAQRTKAEIKRDYEYLQRLWEQIRELTLKSIAPAKIYEEGDLIKRSIRDLYNRE
+IDEVFVEGERGYRIAKDFMKMIMPSHAKNVKRYEETMPLFARYQVESYLSGMFNPTVQLP
+SGGYIVIGVTEALVAIDVNSGRATKEGSIEQTATKTNLEAAAEVARQLRLRDLAGLIVID
+FIDMDERRNNAAVEKMMKDKLKTDRARIQIGRISGFGLMEMSRQRLRPGMIEATTQPCHV
+CHGTGLIRSDDNLALSILREIEEEGTRKRSREVLITAPVGIANFLMNQKREHIAHIEGRY
+GMSVRVEGDPTLVSPDFKIEKFKTATRVVVPVEHVVSVNASLMDEIDEQEAEAEDVTVDV
+EEAKSTDTDATQGTSDTDGETDGEDKPKRRRRRRRRSRGGKANGDENGNGDNSGSDDGSS
+DDTKTDDEKSSDAVEAKADAPAGEDVKAAEPEEKPKRTRSRTRKPKVEAAEATATDADSK
+AADETAEEPAPKPKRTRKRKPKVAADAAPAETEAEAKTEEASAPEAETAAAPAETAPVEA
+PAVQPAVEEAKAEPVSEQAPEPVVETAPEPAAVEAVAEAPQAEAEPEAKVEAAPEPQEAP
+EPVAVEEKPAKPKRRGWWSLGG
+>tr|B7RI81|B7RI81_9RHOB
+MDVLTEKMKEAPQPLPEQANTLFPLSPSFLRALLEDTARKSLT
+>tr|B7RRP0|B7RRP0_9RHOB
+MSGWTRIDGRAVALPQANVDTDQLIPARFMSAPRSDGYGPFLLHDVRQDQPDHVLNRYSS
+ADVLITRRNFGSGSSREAAVYALVDFGIKAVFAPSFGDIFASNAVNNGLLPARLNEDQIE
+ALIDGIGQGDVAATVDLSTGTAAIGGVDLSFDLDPVWQQKLVNGWDDIDLTAQHNDEINK
+FRAARCAAHPWALPAS
+>tr|B7RME6|B7RME6_9RHOB
+MTKLTLTKTRMIEGTWQGVITGASDAQPEISVTHANMSVPDFKLVRNETADHWVLTIPVP
+AAAIADGIQTVLVIDRQADQKIGEFVVIGDEVSSVDLRAEMDLLRAELDMLKRAFRRHCV
+ETS
+>tr|B7RJE1|B7RJE1_9RHOB
+MHIILGLLIAFVIVAYFARRNKGTRGCRWRQDTARDKGALHFYRCAACGAEAYTATKGPP
+RDCKAKVASRPL
+>tr|B7RIQ8|B7RIQ8_9RHOB
+MVLDNQGQHDSRWSAILSISAKIGCAPQTLNEWVKKVEVDTGQRGGVTTEMVEKMKALER
+ENRELKQANEILRKASAYFAQAELDRPFKK
+>tr|B7RK01|B7RK01_9RHOB
+MTEPLLKVRGLKIGATAYPPGEKPVAIKIVHGVDFDLEAGKVLGLIGESGAGKSTIGLAA
+MAYGRGGVEITGGEVWVNGRDILKENLRNLRRLRGAEVTYVSQSAAASFNPAKKIMEQVT
+EAAIFQNKFTKAEAEARAVDLFRKLGLPNPETIGNRYPHQVSGGQLQRCMTALALCPEPD
+LVVFDEPTTALDVTTQIDVLAAIKEAIAATGVAALYITHDLAVVAQVSDHIMVLQQGDMV
+EYGTVDQIINNPQEEYTQALVSVRSIRHEEKTPSDNPVLRVENVTARYKGTNFDVLKNIN
+VDIHPGQTLAVVGESGSGKSTLARVITGLLPPSDGQITFDGRTLNPELATRPIEDLREMQ
+MIYQMADTAMNPRQTVGTIIGRPLEFYFGLKGKAKQQRIQELLDEIELGQGFQDRYPAEL
+SGGQKQRVCIARALAAKPKLIICDEVTSALDPLVADGILKLLLNLQKIEDVAYLFITHDL
+ATVRAIADSIAVMYQGKVVRYGPKSEVLSPPFDAYTDLLLSSVPEMKIGWLEETIENRRM
+ESAGN
+>tr|B7RRF4|B7RRF4_9RHOB
+MSIRDDALEAVQFAAIATDQDINDIADMDAVKSKLTALMPQIKTYWGSENDWNQFMAAGD
+LEVATIWSGSASRSMSAGLPVEFVVPSEGAIGWLDGLSIPVSSTKQDAAHAFINWIIDPA
+FYVKWAADGAPASANAKAAAALPDDAFNKRILSDPEVVARVQFQRPVSDENREAYLALWQ
+ELKAAQ
+>tr|B7RG55|B7RG55_9RHOB
+MSDISIRITGRAGRITLTRPHALNAMTYDMCLAIEDAFDAWLDDDSVDLIILDAIGDRAF
+CSGGDIAELYATGTKGDYGYGRKFWADEYRLNAKIFAYPKPVVSFLQGFTMGGGVGLGCH
+GSHRVVGESSQIAMPECGIGLLPDVGGTLLLALAPGRVGEYLGTTATHMSGEDAIFAGFA
+DLYIPQADWPAAIEALETTGDIGTLDKVKTTPPPSTLAALQDQINAVFDGEALMDVLNAL
+KAADSPFSQECLKKMGRMSPLAMAATIEVIHRLRGPSLSIEKALDLEYRFTFRAMEHGDF
+LEGIRAAIIDKDRNPSWQYADMNVPIAAVGKMLQPLGKDALKLEKMT
+>tr|B7RLW8|B7RLW8_9RHOB
+MPAPAQGAAGIVTFDPSARTAWHTHPKGQLLLVLSGVGWMQVDGQPRQTIRAGDTVWFEP
+NEKHWHGASADKAMSHVAVQEAENGSPVDWMEHVSDADYLGGAGQSD
+>tr|B7RM52|B7RM52_9RHOB
+MNADAHNRSGAAIGFVLAGILAISINDMLIKKLSGGYPLHEIVFARAFIGILFSLVLVQL
+EGGWRILKTTQAHWHILRGLLVVVANMTFFLALAAIPLADATALFFVAPLFITLLSIPIL
+GEKVGIMRLTAVAVGFVGVIIMQRPWADTQALQVSRLVLLLPVISALTYALNQLMTRRLG
+VHSKASALSIYIQGTFLIVSLGFFLIAGDGRFVDANSAPSMLFLLREWVWPAQEDLWVFL
+GLGVNAAVIGYCLSQAYRIADAATVAPFEYIGLPLAVFWGLVIFGDLPVWEIWVGIALIL
+GSGLFVFLRERQKARRLLKTRPLRSI
+>tr|B7RMG1|B7RMG1_9RHOB
+MFLFSLMLGLSGLGTQGTAQQAVPTDRFVFTRNVDFYGADLGKLFDTTLEACERACAAQS
+TCVAFTFNMRSNACFPKSAITNQQAYDGAMSAMRVATDLSLLEGSATRASDLAFLDSGDL
+AAARDLAGDIGRRYPLDGPDLPASAVSLRTTGQLIAGTDAAGYWVQLARISLRDNDQLTY
+QDRMKLRSEAVPAAINGYLRATDPRLQSTALEMLANALEANNRGRDMIPALRLANALTPN
+ADLDAALDGAISKYGFRITEHRVDSDAAAPRICAEFSEALVQAGVDYTPFVRIDGDGLSV
+EADGQQICIDGVDHGARYRVTFRAGLPAASGEVLAKDIPLTLYVRDRGPIVRFAGRAYVL
+PRSADAALPIESVNVDQVDLVLRKVSDRNLVAAIKDNYFGRPLNQYEGEAFADTLAQEIW
+RGTGNIQNTLNADMTTRLPLGEALADQPAGIYTLSAAVPGQDSYEHPAAMQWFVLSDLGL
+TTWAGTDGLAVAVRSLGDASAQAGIKLTLISRANEVLGTATADEEGFAQFPAGLTRGTGA
+ASPALLMAEDGSRDVAFLPLTDPAFDLSDRGVEGRPPSPPIDTFLTTDRGAYRAGDTIYA
+TALTRDGQAKALRDLPVTAILKRPDGVEYSRTQSRNSVAGGHVFALPLGGNVPRGAWRLD
+ILSDVEGPALASQTLLVEDFLPERIDFDLGLPNAPLRLGDTPPLTVDVRYLFGAPGAGLE
+VDGEVSLRATRSLERWAGYLFGRYDTRFDARTSYLANATTDAAGSAIIPLTLPELDETPS
+QPLMVEAVLRVAEGSGRPVERRLTKPVTPSGPLIGIKPGFDDVLTEGADATFQITAVSPD
+GTAVEMPVRWTLNQVETRYQWYQLYGNWEWEPVTRRIRVDTGTLSLGATPSAVTLPTAWG
+QYELIVEATDGSAAIASVDFASGWYGGDGSKDTPDRLSVSLDATDYDVGDTAMLRLLSEA
+DGTALISVLSNKVIARQVVQVTAGENLVPLPVTAEWGTGAYVSASVLRPMDVENDLNPAR
+ALGLVHATVRPDRKRLNVSFDAPDTVDGQPGILRAAVLVDGVAEGQTAYVTLAAVDEGIL
+NLTGYTAPDVTGHYFGQRRLGVEIRDIYGRLIDGMNGALGAVRSGGDAASNAQLQSPPPT
+EELMSFFSGPVTVDATGRAEIDIIRPAFNGTIKLMAVAWSDGAVGDASTDVLARDPVVVT
+ASLPRFLAPGDDSRLLLELVHAEGAAGDMQLAVVADAAVGLGTVPATVTLAQGGSTRLAI
+PVTGRETGDPLITVTLTTPDGKVLRKVLTLPVRDTDPEVAVTRQFSLGAGESFTFDGNVF
+AGFRAGTASATLTAGPLARLDVPGLLQQLDRYPYGCTEQLTSRAMPLLYLSSMARDAGLG
+APEKLAEKVQGAISQILTRQTRKGGFGAWGPLDGNFWLDAYVTDFLSRARKAGYAVPDVG
+FATAMDNLRNRISYAPDFDLGGEDIAYALLVLAREGAASMGDLRYYADTKADNFATPLSL
+AQLGAALAAYGDQKRADRLFAMAAARLGQSVDPLAWRGDYGSTLRDTAGLLTLAVEAGST
+AISRGNLVSDLGSVAREFSTQEAAHVVLAANALATTTAGSGISVDGTPSAGTMVKRIDDA
+DPRPSVIRNTDQRAIDVTMTTFGVPEVAPEAGGYGYALTRNYYTVHGTPVSDAFASGDWM
+VVVLKVTPFEEVGARLMVDDSLPAGFEIDNPNLIRSGDLAALDWLQTADAEHAEFRSDRF
+LAAVDHRGADPFQLAYVVRAVTPGSYHHPAAVVTDMYRPEYRANTGTGQVTIAP
+>tr|B7RMZ4|B7RMZ4_9RHOB
+MQTDILHRSYEVVATRLDGSVFIGQDRAPAIPLFENAFSAFAHGTAIQTDKGDIAVEDLQ
+PGDMIIKSNGKAAPLVWIGSSNFVPAESGKRVPLVRTMADSLGQGRPLGFLTFGPSARIL
+HTPSRLRGGIHNQQMLTLMRDLVDGVNIIEITPPTPVRLYHICLQKHAAINVSGIEVETF
+HPGLNTLRHLPIHLRDKFLGLFPHIEREEDFGPLAFPRAPETFDQPA
+>tr|B7RNV8|B7RNV8_9RHOB
+MRYAASRALPVQSEPSKLSEGRKEVPHDPVYFVMMARQSSIAAG
+>tr|B7RN61|B7RN61_9RHOB
+MDRVQIVHENFLRRVDAQDFPDGGDVTPGLGFDEATDLFRAQVLSRALDLQSRVMQKQGQ
+GFYTIGSSGHEGMAAIAHALRPDDIAFLHYRDAAFQIARAGQVDGQDMLRDMLLSFACSA
+EDPTSGGRHKVLGSRALMIPPQTSTIASHLPKAVGAAHAIGLARRNPPEHRILPRDGIAM
+CSFGDASANHSTAQGAINAACWTSVQGVPMPLLFVCEDNGIGISTKTPFGWIKASMSARP
+GMAYFEADGLDLFAAYAAAKEAADFVRTHRKPAFLHLRTVRLYGHAGADVATSYLPKAEV
+EADEANDPLLHSARLLAAAGALSAKEALSIYTRTLEQVAEAAQDIVTRPRLKTAQDVMAS
+IVPPERACAPTNGPSAQDRTDMLGNEIAQMDNPQPLSKIINWALHDVMLAHPETLLMGED
+VGRKGGVYGVTQKLQSRFGPARVIDTLLDEQSILGFAIGAAHNGFIPMPEIQFLAYLHNA
+EDQLRGEAATLPFFSNGQWTNPMVLRIAGLGYQKGFGGHFHNDNSLAVLRDIPGIIIACP
+STGADAAMMLREAHRLAREEQRVVVFVEPIALYPMRDLLEPGDGAWMTTYPAPDRRISLQ
+DIGVHGDGGDLAILTYGNGHYLSRQAQADLSGQGIDARVIDLRWLAPLAEDAIIDAIGDR
+PVLIVDECRRTGGQAEGLMALLAERGISRIARLTAEDSFIATGPAYAATLPSREGIVAAA
+SDLLNPSV
+>tr|B7RMC2|B7RMC2_9RHOB
+MLIVLGLTGMGAFLALPSVLPIFAANPYLNGVIIAVFVIGVIACFYQVVQLIGSVRWIEN
+FAADTPDPDTVAPQLLAPLASLLRTRGARMQVNATSTRSILDSVSTRIDEAREITRYIVN
+MLIFLGLLGTFYGLATTVPAVVETIRSLAPQEGDGSTDMFARLMTGLESQLGGMGVAFGS
+SLLGLAGSLVVGLLELFAGHGQNRFYQELEDWLSSITRVGFSSGDDGSADQNAVGGLLDH
+MTEQMDTLTGLIAGSTQSQTALNDRLNTLATAVEAMTAKSAQGDASNDSLDRIARGQERM
+IAVLEGQEASDQIDAESRMRLRSIDVQMLRILEEISAGRQETMAEFRKDISLLAKALSAP
+RGTEPRRMRSPHKPEPEDI
+>tr|B7RNI9|B7RNI9_9RHOB
+MTDQTPFDVAHAAMMADETDDAARLRFYERMADVELFLLLEDEPDADQVSPVLLDDAYVL
+VFDRIERLAAYVGHAAPYVALSGRAIAGMLEGQPLGMAVNVNVAPSAILLPDSAVAWLRD
+TLAHAPGEVEAKIDRVIPPKGLPEILIAAIDAKLATATGMAAGAWLVGVEYAGGGRGHLL
+GFVGAIPRAQDALVRAASEALTFSGIEAGAMDVGFFAPSDPTVEKLSKVGLRFDLPQMEA
+LQKTPRMEAPGSDPSKPPILR
+>tr|B7RJF3|B7RJF3_9RHOB
+MAVTKTNAGRFFEDYKVGQTLNHAVPRTVKGGERALYHALYPARHALYSSDQFAQTCGLP
+FSPMDDMITFHIVFGKSVPDVSLNAVANLGYAQGRWLAPVWPGDTLRSVSEVIGLKQNSN
+GKTGVVYVRTAGFNQDDTKVLEYVRWVMVRKRDFDAPAPAEVVPNLPKALSVGQLHIPDD
+LDFSNYDFTLAGEPHRWNDYEVGEKIDHVDGVTIEEAEHMMATRLWQNTAKVHFDTSARP
+DGSRLIYGGHVISMARALSFNGLANAQMIVGLNSGAHANPCLSGDTVRAWSEVLDKADTS
+APGVGAIRLRLVATKGGDPFKLKGDDGKYLPDVLLDLDYWALMPK
+>tr|B7RP24|B7RP24_9RHOB
+MGQPFPRVPELDLHSDADFWALAELEGGGFAIRVGGGVVPMLERLWGDAFSDEDFTEGVS
+LPLVADKVDAIHVSLVWLIFHEMQHFELGHFDLIGSSIISETERGKAFSLASRGSISSER
+VKNFGDAPQFLIEQCLELQADHDGAELVLDAYSTDEWPSLRARIAAISAMMMLIEREDAK
+LVEQAQSSHPKAATRIFQLLGHVMEMPLIPAQRKAILNGADAIDPADLPSDAEQSAFNRE
+VVIPAFFDAVNLARVAGAQSIRQDLGEAGAFFQDVQIAKIGDVDAFESLQTVGAKQWAEL
+VVINEQLKADHS
+>tr|B7RQT2|B7RQT2_9RHOB
+MRYTIEQIAASLGATAVGDTSLMITRVAEPAQAGADDLALAMNPKYAAALSEGSAQAAML
+WTDADWEALGLKAAILPDRPRYAMSGLTRMMDPGQGFGAGIHPSAIIDPTATLADDVSVG
+PLTIIAAGARIGAGSVIGPQCHIGTDAVLGTNAYLRDHVSIGARVQIGDRFIAQPGARIG
+GDGFSFVTPEPSTVEQTRKTLGDRGDTKAQQWARIHSLGSVTIGDDVECGMNCTIDSGTI
+RDTVIGDGTKLDNLVHLGHNVVVGRNCLLCGQVGVAGSVTIGDNVVLGGQVGVSDNIFIG
+DGVIAGGGTKIMSNAPAGRSMLGYPGTEMSKQIESYKALRRLPRLIRDMAALKKQFPDTD
+A
+>tr|B7RI18|B7RI18_9RHOB
+MADFLNGAAQVFTLATLIYMLAGSIAGIVAAAIPGFTVTMAIVLTLPLTFTMDPLQGISV
+MLSVYVGGYTGGLISAALLGIPGTPSSVATTFDAFPMARKGEPGRALSLGVWASFFGTVI
+STIVLIFAAPPLALFAVRLGPWEYFSLIVFALTIVASLVGASVVRGILAGLIGLAISTVG
+PDPMMGRPRFDFGFEMLQTGLPFLVVLIGIFAISQLVSEVEDASNVRSGNTLVTGAIEFH
+TWAVMKEVLMRPVNLVRSSIIGVLIGALPGAGGSIANLVAYDRAKRASKHPETFGEGEPD
+GIVASEAGNSATAGGGLIPLIGLGIPGSAVDAILMASLMVHGISVGPRLIIDHADLVYGM
+FIAMVVASFMMLVVAVCSCACSCASQRCRNG
+>tr|B7RN02|B7RN02_9RHOB
+MALTEQYLDEDIHPIDIVENLAAFNDWDFDRISDEQIAMAVEGQWRTYSITLAWSAYDET
+LRLVCSFEMDPPAEKLPVLYHLLNDVNDQCWGGAFTYWAEQKLMVFRYGLVLSGGQDATA
+AQIDTMIGAAVLSAERYYPAVQLVLWGDQTPRQAIQVAIAEAYGHA
+>tr|B7RQ92|B7RQ92_9RHOB
+MHDIKAIRENPDAFDAALARRGDAPVTGEILALDTARRGMINAAETAQAEQNKASKLVGA
+AKAKGDEAEFERLRTLVSDKKAEVTRMQAEAKDLDAQLTDMLARIPNLPADDVPEGADEN
+DNVEVNRWGDVPSYDFAAKEHFEIASVAASMDFETAAKTSGARFVMLKGAVARVHRALAQ
+FMVDTHVDHNGLTEYATPVLVRDEAMYGTDKLPKFGDDSYQTTNGWWLIPTSEVTLTYSV
+SGDVLEEAALPRRMTAHTLCFRSEAGSAGRDTSGMLRQHQFEKVEMVSITHPDASDDEQK
+RMLRCAEDLLERLGVPYRTVLLCTGDMGFGARRTFDIEAWLPGQNAYREISSVSTTGDFQ
+ARRMNARFKPADGSKPQFVHTLNGSGLAVGRCLIAVLENGQQADGSVQLPDVLAPYLGGK
+TLLGADGVLV
+>tr|B7RH73|B7RH73_9RHOB
+MKTLNDIRSTFLGYFERHGHSVQPSSPLVPRNDPTLMFANSGMVQFKNLFTGVETRDYKR
+ATTAQKCVRAGGKHNDLDNVGYTARHHTFFEMLGNFSFGDYFKAEAIAFSWELITKEFGI
+DPKRLYVTVYHTDDEAADIWKKVAGLPDERIIRIATDDNFWMMGPTGPCGPCSEIFYDHG
+DHIWGGPPGSPEEDGDRFVEIWNLVFMQYEQFPDGTRKPLPNQSIDTGMGIERVAALLQG
+TNDNYATDLMRNLILASANASNTDPDGPGKTHHRVIADHLRSTSFLIADGVMPSNDGRGY
+VLRRIMRRAMRHAHLLGIQDPLMHRLVPELVRQMGGAYPELGQAQSLITETLLLEETRFK
+KTLDRGLKLLDDELKGLPEGANLSGEAAFKLYDTYGFPVDLTQDALREQDRSVDLEGFSA
+AMEKQKALARAAWSGSGEAADATVWFDVAENAGTTDFLGYDTETAEGQIVALIQDGAQVD
+AAKTGDKVQIALNQTPFYAESGGQVGDTGLIKTETGSVTVTDTRKTAGVFIHFGDVTEGT
+ITTGQAAVLDVDHARRTSIRANHSATHLLHEALRNALGDHVAQRGSLNAADRLRFDYSHN
+SPMSAEELAQVEQEVNTYIRQNAPVETRIMTPDDARGLGAQALFGEKYGDEVRVVSMGRQ
+PGSGKGADKSTYSLELCGGTHVRQTGDIGAFVLLGDSSSSSGVRRIEALTGTEALSWLRA
+QETALSRVAAELKTSTADVPDRVRALLDERRALANEVAQLRRELAMSGGGAAAPEARDVN
+GMKFMAQVLSGVTGKDLPALVDEYKAKLGSGVVLLIADADGKAAVAAGVTADLTSQVSAV
+DIAKAAVAELGGKGGGGRPDMAQGGAKDVANADAAIAAAESILKG
+>tr|B7RNA3|B7RNA3_9RHOB
+MTPEEITKLPYRPCVGVMLVNAAGHVFVGQRKDRDMDAWQMPQGGVEKGEHAEVAALREL
+EEETGVSPNSVSVVTQTDGWLPYELPHDLVPKIWKGRYRGQEQKWFLLRFHGSDSEINLE
+TDHPEFSDWRWLPVDDLVANIVPFKRDVYEAVVAAFRPYLVQA
+>tr|B7RRI6|B7RRI6_9RHOB
+MNTKRASNLGSIAVKFSAMLIVMASLTGFAIWVGKSVFQDFSQSLRTFETEFVPNLKQSS
+TLIETAGALGESLSSILVAESADEMSSKATDADRLLDALRDAASGLNGDDERLLLEAIAS
+ASASIGLLVETRAQEINYDELTLSGSDVLNAAAVTAHLALTERGRSMLQQVTMSPADTTV
+QSIAPKLEEVNNITDLDGAIGGLLSVILTGSSADDKAGLQSAIVSSRNWSTRLNRFRKLV
+LDSTVSRQFKP
+>tr|B7RN52|B7RN52_9RHOB
+MSKYVDPDRAQFDAFKGLDRDTPLHMLNLVRLRDVAAYPADHARASDGLTGAEAYKNYGV
+ESGPVLADVGGSIAWRGRFETTLIGPGDEAWDIMFIAHYPNAHAFLQMISDPRYKLAVVH
+RQAAVATSRLIRTGPLPLTGEFA
+>tr|B7RP63|B7RP63_9RHOB
+MFAFSAPRRSRKPSLTPMIDVVFLLLVFFMLASQFGQDAAVRLSGAGNGTAYAGPPRLIQ
+VAPETLTLNGGAVTLDALPQALEPLMTQPGDTIILRGSDAANLQRLLDVVQVLQKAGFDS
+LVVVE
+>tr|B7RR71|B7RR71_9RHOB
+MHISDLIPWGRDKQKTPSAETGTASNPLVALQRDINHVFEDFWHKMESGWTGDGEGEGMF
+GPRTDVTETDESVDVSMELPGMTEQDIDISLSNDTMTIRGEKNIEHEEDRKGVYMCERSY
+GSFYRMIPLPAGIDADKADATFKNGVLTVSLPKTPQAQAKVKRVPVKAA
+>tr|B7RRM5|B7RRM5_9RHOB
+MSSTPKAPTPSYFNIDPEAAAARLSDPIDTARFAKAAAFASKGRDDLARRGYAPDGKKRL
+RKFSTWEVCRYLLDVAPAHLRRVLKGHPDLPQGSGEAGSKWFTLEEVLQLREHFATEGAS
+NKQYKSWRPEGLPAKIISVANFKGGVGKTSTCAHLAMSAALDGYRVLVIDLDSQGSLTSI
+MGGAVADEWSTAFPMLAKDFARHLQGENAVRKARGAPELPLDETLTESLGVSPRNLIQAT
+HWPNIDLIGAQLNLYWAEFQVPVWRMQVRSWPLWDALTNALSSEGILDDYDLIFIDTPPA
+LGYLTINALAAADILLVPLGASFLEFDSTGRFFDMLYSTFASIEEGENRIRRQDGLPEMK
+FEWDAVRA
+>tr|B7RSG2|B7RSG2_9RHOB
+MKKVALIHGWGGSYRATWQADGWDIALRNAGFEPIGVDIPGHGPEGGSHEPAEYADLASD
+AAAKLPGGLHGVIGFSLGTKLLLELEARTPGAYGRLVLGGIGDNIFAPEAAGPAIVAALR
+GEAADAPPQVKALLAYAAKSKSDPACLAAVLERPANPVLSDERLGHARVPILIFNSRDDA
+VAQPDHRLRAALPHAAHQLIDGPSHVALTSDARFRDAAIAFLAN
+>tr|B7RJQ0|B7RJQ0_9RHOB
+MGKRDEWIAKYADDLTNKCGMTPDMDLLTKVTIGCGPSIYNADAQTVAASQESELELVKT
+NFLMKKLGMADSPELMEGIHKVVEIYGQSERNKYRAVIYYMLTKHFGKEAVYG
+>tr|B7RRR7|B7RRR7_9RHOB
+MLINLESGSTLPSGPQDTISSRGGCPDTGTAHPKRLIGDLNSGNMQTKAFYLGNVG
+>tr|B7RIF3|B7RIF3_9RHOB
+MADTNTPDIIYTKVDEAPELASYSLLPIIRSFADAAGVSVGTRDISLAGRILAAFPDALT
+AEQRQSDDLAFLGELVKTPDANVIKLPNISASVPQLVAAVKELQAQGYALPDYPETPGTD
+AEKKARAAYDAIKGSAVNPVLREGNSDRRAAIAVKKYAMANPHSMGTWSKDSKTKVSAMS
+GGDFFSNEKSSTLTDAQAGAAKIVHVAADGSETVLKDGVTFPAGTVVDTTFMSAKALDKF
+LAEQIEETKKDGTLFSLHMKATMMKVSDPIIFGHAVREFLKPVFDKYGDELKAAGVNPNA
+GIADMMSRIEGNAEIKAAVDAAMAARPPMYMVNSDKGITNLHVPSDVIIDASMPALIRAG
+GKGWGPDNKEHDTNCVIPDSSYAPVYEESIKYFKETGALDPTTSGTVQNVGLMAQKAEEY
+GSHPTTFEIPADGTVKMIAANGDVISEHSVEAGDIWRAASARKAPIEDWVQLAIDRQKAE
+GCEAIFWLDADRAHDAQMIAYVKPILEAKGVADKFQIMSPAKATRQTLETIRKGENSIAI
+TGNVLRDYLTDLFPILELGTSAKMLSIVKLMQGGGLFETGAGGSAPKHVQQLVEENHLRW
+DSLGEFCALGESLKFLADQKNNEKARILGKAVDDATQGILDNNKSPSRKVGQPDNRASHY
+YFALYWAQALAAQTGDADLAAHFAPIAEKLATNEDKIMAELAEVQGKAVDLGGYFHSDPA
+KTEAVMRPSATLNAIIG
+>tr|B7RHI8|B7RHI8_9RHOB
+MVIEDIGGCEVVQSLKITLFFVIIDAGPDLAFDIPGQIVILKQQAVSSWSDAVALKAF
+>tr|B7RHK9|B7RHK9_9RHOB
+MNSLNETAGAQPPASPAMTENDMVAPAPSPPMQYIENKTYDEISPGDHAELIRTLKPQDI
+ELFAVMSGDVNPAHIDPEYAKTDMFHAVIAHGMWGGALISAVLGTELPGPGTIFLKQTLN
+FNAPVGVGDTVTVRVEVTQKQDRNRLTLACTCINQAGNTVIEGEAIVIAPREKVRRPRAV
+LPDVHLHTQGAQYARLIAQTDALDPVRTAIVHPCDPVSLASALDAAMQGMIVPVLVGPRP
+KIDAAAHAAGRSLDGIEVIDTPHSHAAAAAAVALVHAGKVAALMKGSLHTDELMEAVVDA
+PLGLRTDRRMSHVYVLDVPTYPKPLLITDAAINIAPDLGIKRDIVQNAIDLALALGKELP
+KVAILSAVETVNPRIASTLDAAALCKMADRGQITGGLLDGPLAFDNAISPAAVAAKGIVS
+KVAGIADILVAPDLEAANMMAKQLIYLAGADAAGIVLGARVPIILTSRADSAVSRLASCA
+LAQLFISHHMQPTS
+>tr|B7RIK1|B7RIK1_9RHOB
+MTQGKAKTRAIPVKATRFEDIIDGYFPLQESLRQMLNRNGFASACITLTHAPIMDIPDLP
+PDAPVPLRLTQGIAGIAERLDIIVTLDGLEAQLSGAGKWYWYSKERAPSKLLSPLTRLAE
+PAIVQGIGLVTGGAQTKTFGKVSVREESTFVILQGQRNALGGVPHTFSWAKSPGFDGICS
+AADLRFTGLFETPAREFERILTQCQTSERHPSEYTEILVLNDQTKCMGSLA
+>tr|B7RLX9|B7RLX9_9RHOB
+MSQDDLTKQDEDLPAAEFEGEERSDGHNFGSWPEVAGLVFTLLVTWLTFQFRG
+>tr|B7RM43|B7RM43_9RHOB
+MIDQRTDKPAWLGYLPLAVILTVAIIGFFTLREYLSFETLRDNREALIAFRDAHYVLTVT
+IFIAAYILIVAFSLPGAGIATITGGFLFGTVFGVLFNVTSATIGAVLIFMAARMGLGERL
+KARMDASEGMVRKIKEGIDQNQWSMLFFIRLVPAVPFFVANLIPAFLGVLLHRFVISTFL
+GIIPGSLVYTSVGAGLGAVFARGETPNFGIIFEPHILFPILGLCVLSLLPIIIKAVTGKK
+ELLK
+>tr|B7RP75|B7RP75_9RHOB
+MTEKRAIHPIVKSTLDFGPVLLFFVAYMYFKDDVFTIGGTEYSGFILVTAAFVPLLIAST
+AALWLLTGKLSRMQVATVILVTVFGGLSVWLNDERFFKMKPTVIYLLFGLILAVGLLRGQ
+SYLKFLMEEMMPLQEAGWMILTKRLMLCFFGLALANEVIWRFASTETWVYFKTFGLTAAV
+FIFFMAQSRVFQAYALEKD
+>tr|B7RRG8|B7RRG8_9RHOB
+MARHGGQLLVESLVALGAKKSFGVPGESYLAVLDALHDTKGKLDFVLCRNEGGAAFMAAA
+YGKLTGIPGICLVTRGPGVTNASIGIHTAMQDSCPMLVFVGQVGTDMRGREAFQEIDYRA
+MFGSVAKWAVEIDDVDRIPEILARAWKTATTGRPGPVVIALPEDMLTSATDVAPLRGPAA
+YPEPEPAAQALAQAREMLAGAARPLIIYGGCNWTAQGSAALQSFAEASDIPVVSVFRYQD
+QYDNFSPTFCGEAGVGMVASVKKLIVEADVILAVNNRFGENSTDGYTLLDVPLPKQRLIH
+VHGSDLELGKVYQPELGIQAGPNAFAKALAAAPVSGDWAAWRAEGRAAFEAGFDLGDLPS
+PVDMGKVTAHLRDILPDDVILTNGAGNFTVWPNKFFKFGPDARLLAPQSGAMGYGVPAAV
+AAKLAHPDRAVVCFAGDGDFQMNCQELATAAQAGAQPIILILNNGIYGTIRAHQERHYPA
+RVSGTEMVNPDFVALAKAYGFHAEHVATTDAFAAAFDRALASNTGAVLDLDISPEALTPR
+VTLSQMRDAALKAKENA
+>tr|B7RSE2|B7RSE2_9RHOB
+MNEFTKAIGSASDDPFLSAETLEKLRSGTDMAQVAAAWLQAFAKQTSGIQQGLVVMAGTG
+KAKFEPVAMWPDGASPAPELMRAVDGCLKGQRMLVETGKNDNAAIAVPLLIGGQLRGVLA
+VLSDNSGDTDLRRVVAQLQWASGWIEAVVRRQRISGNDNLVTVIELLATSLHHTRFSEAA
+TAVATELAGALNCELVAIGMMRGGHIRMRALSNSATFGKRATLVRLIEAAMDEAVDQQAV
+IAHPPLEGSPARVRRAHTALADHEGGTGLCTVPLTEQGKTIGAMLLQRKSTDGFDAGGVQ
+LAEQAAVLIGPVLDIKRREDRWLPAKIWDSITNFFKALFGARHALLKLGVIALIAFVAFC
+YYATGTYRVTATTVVQGKIQRVVTAPIAGYLVQSEARAGDLVQKGAVMARLEDRDIRLER
+LKWLGDRTKQQQEYSQALAQRERTQARILSSQIEQSDAQISLLDQQLERMTIRAPFTGLV
+VSGDLSQALGAPLERGDVLFQVAPLDEYRVTLRVDERDIHDLTVGASGPLVLSALPDTPY
+RVAVQRITPISSPLNGANMFDVEASIEDGPIEALRPGMEGVAKIEVDERRLVEIWTRRLV
+LWVRMTFWSWRA
+>tr|B7RJ41|B7RJ41_9RHOB
+MLDLNMSQTILIVEDNDDDFEATERALFRKKNLSNPIVRCRDGQDALDYLNRDGQYASRD
+EHGPPSLILLDLNMPGLDGRQVLKRIKQDDALCKIPVVVMTTSTAQEDIDASYRAGANTY
+VHKPIYWNDFVEAILRLHDYWFQIAVLPK
+>tr|B7RKV0|B7RKV0_9RHOB
+MSSKEFPGWHGTTIIGVKKAGEVVIAGDGQVSLGQTVIKGTARKVRRLSPGGFDVVAGFA
+GSTADAFTLLERLEAKLEATPGQLARASVELAKDWRTDKYLQKLEAMLIVTDGVELLVIT
+GAGDVLEPEHDVAAIGSGGNYALAAARGMMDSERDAETIARDAMKIAADICVYTNGNLTV
+EKIKQ
+>tr|B7RIY6|B7RIY6_9RHOB
+MIIRFSLVAALGVALSACQPAIPDSGRGVGFNDSFQAGQAQRDAALAGGSSASSLPAPAA
+VTAEPLTPGDGSAEATAAETARILDATRPGGLGNDAATNSGIEPVNASPSNPAPPVLNAA
+GMSQENSFDAVSGERSIEGDAARIAANRAQYRVVQPEALPDRADAGPNIVAYALQNTHAV
+GTKIYTRRGFNKERKYARACGEYSHPDQAQIAFLSNGGPQRDRAGMDPDGDGFACTWDPT
+PFRKRVDG
+>tr|B7RJR7|B7RJR7_9RHOB
+MIEFKDMTHRGRKIMEFSRKAFLRLMGTAALAVGLSGAAAVAQEVTLTLHQFLPPQANVP
+KLVLDVWADKIEADSDGRIKIQRYPAMQLGGTPPELIDQAMDGVADIVWAVNGFTPGRFP
+RTEVFELPFMTSDARAASYAYWTLMENQMQDADFKDVQVLGAWVHGPGMLHTKAPVAVPS
+DLQGMKIRGGSRLVNQLLEKVGATPVGLPVTAIPEALSKGVIDGTTIPWEVTTALKVSEL
+VGNHTEFDGPAIYNLTFVLAMNKDKYDALPDDLRAIIDANSGLDFSIFAGGTQADSDGPA
+RQLAVDAGNNIITVSQEQAKEWDAMARPIYDAWIADMDSKGIDGQALIAEARALMASYKP
+AN
+>tr|B7RHZ6|B7RHZ6_9RHOB
+MKNRPPHNDETLQKVHINERQTAKIDPDRVGSKRVFQSTQFSPSLPSEFTISLCDALADS
+LQVAPVVLPGEQVSLMAAVLPVRGTRAKRAALPFALEDRISAPLEDIHIAFCRTLDGPDQ
+VLAAVVDRNVMQAAAVAGDTPVLPEIFALPTPATADEGPVWAVWISDGRALVRVSDGTGF
+VVSVAMLPLIWAQAAKPQIQSYGEALPDTMDARAYDARPPKPDPKDLGVDLRQGAFAPKA
+TDWTRHIKRAAIIAMIGVIGHLGLIVVDTVALTRIAERERAAAQAAIDTVLPGLIVTADV
+EPILRRLAPAAPAPKGSAFLTILGNVSAALLEADNQISFRRLAFADNPARLTMSVEVPGL
+DDLQQAERLLRASGFVVTSGAATASGGVAEAEFVVTMGGVK
+>tr|B7RP64|B7RP64_9RHOB
+MINVVFLLLIFFMMSATIMPAPPFDLTLPQTQSQGDVTGDLTLYLSADGSAAFDGLLGDA
+AWEGLAARATDAPLTIRADAGLATSALAQTLARLAEIGQAEVELVIRNP
+>tr|B7RPN4|B7RPN4_9RHOB
+MIDDPMDRIAAALERISPPPLQAPDFDAAGAFVWHTGPDHLAPVHKVSKVDLELLIGVDR
+ARDTLLANTTQFAAGLPANNALLWGARGMGKSSLVKAIHAHVHASHENLRIVELQREDLP
+SVGRLLGLLRDAPQRFILFCDDLSFGHDDAHYKSLKAVLDGGIEGRPDNVVLYATSNRRH
+LMPRDMIENERGSAINPAEAVEEKVSLSDRFGLWLGFHPCDQQQYLEMIRGYCDAHGVSI
+DDHTLHAEAIEWQATRGSRSGRVAWQYFVDLAGRQGVTL
+>tr|B7RR76|B7RR76_9RHOB
+MPQNTEDGDLTKQRRWIIVALALAALLAFCAFPATTSTDVFKTQLDRIGVSYQVPREGKA
+ILVNIPAFELIAFDRGVPVLRSRIIVGTPWHRTPRLTTYVSAVRFRPTWRPTPSMIASGE
+YADRVWPPGRNNPLGLVAIRLQPGLLVYLHDTNHREKFDQEYRALSHGCVRVQQWDRLVA
+FVLGIDLAEVHRLANGRETFDVPAPPIPVTLGYFTRFPNAAGQIVDHPDIYRLGQA
+>tr|B7RHK2|B7RHK2_9RHOB
+MAGVVDDPIIRVRGLVTRFGTHTVHDGLDLDVRQGEIIGVVGGSGTGKSVLLRAIVGLLK
+PDAGQIEVFNQSVRDTSDAEYRDLRRRWGVMFQDGALFSSLTVRQNVEAPMREQLNLEQT
+LRETLAAIKVRMVGLPENALGKYPSELSGGMRKRAGFARAIALDPEIVFLDEPTAGLDPI
+GAAAFDILIRQLQAALGLTVFLVTHDLDSLYAICDRVAVLADKRVLAVGTLQDMLEVDHP
+WVQEYFHGPRARAAFTAPKAEN
+>tr|B7RS04|B7RS04_9RHOB
+MTLLSIRDLSIALPVGADRLYAAQNISFDLAPGEILCIVGESGSGKSMSANAVMGLLPQG
+VLPDSGSITFNGQSILGLSEKEMLKFRGSRISMIFQEPLSALNPLMRVGAQIAEVFEAHG
+ALTGAERRARALKLLNEVGIPDPEAAIRAYPFQLSGGQRQRVMIAMALALEPDILIADEP
+TTALDVTTQAQILKLIEDLRRARGMAVIFITHDFGVVADIADRVIVMKKGEIVESGTAQD
+VLLRPQHPYTRALIDAIPRLTGPNEVQQAERTPILTVEDLQKTFSTGSGRLFGKRRVVKA
+VQDVSFELYAGETIGIVGESGSGKSTVGRCIVRLLDPDGGRVLMDGVDIAGMFGSELHNQ
+RRKLQMVFQDPFSSLNPRARVSRILTEGLMAYGTSKSDAQAKAHELLEMVGLDASAMKRF
+PHEFSGGQRQRIGIARALALDPSIIIADEAVSALDVSIQAQVLDLLAELKTRLHLSMLFI
+THDLRVAARICDRIIVMQKGRIVEAGPVGKVLHDPDTPYTRSLLDAIPGQEYERALAEID
+>tr|B7RH64|B7RH64_9RHOB
+MTERLEQQIAFLNEADKLKSVNRGTLLCDASRAENSAEHSWHLTLYALVLADQAGPDVDV
+TRVIKMLILHDLVEIDAGDNPIFGDYDQIAMEAQEQIAADRIFGLLPNDLGDDLRATWEE
+FEANTTATARFAKSLDRFQPPMQNLAADGGSWVEYNVTEDKFVEKVGSKIATGAPGLWHF
+AQKKVSAWFAANR
+>tr|B7RIB1|B7RIB1_9RHOB
+MRRRSFIAGSLAALAFPHALIAQGAAYDPTPQLVSVKGQYAVGEMLILPRSHYLYLVTAP
+GQAMRYGVGVGKAGLEFTGTATISVKKEWPTWRPTDEMIERDPKAYARFVGNTEAQPGGP
+DNPLGARALYLFQNGRDTYFRIHGTTQPSSIGRSVSNGCIRMINDHVKDLYQRVPIGTTV
+TVL
+>tr|B7RLB8|B7RLB8_9RHOB
+MNLKRKAKLVANAQQLIGLLKSHVEGNEERFFDLALQLASSEEQKGHTRLAEQLRQWVEA
+GQAPKPPTPSPTLIAKPRGELASIIGTAYPETRLNDLILPESVASELEQLVVEFRKRDIL
+EKHGLTPRQRVLLAGPPGTGKTMTASALAGDLKLPLYSVLLHGLISKFMGETASKLNAVF
+EAVRTQRGVYLFDEIDALAATREGDNDVGEARRTLNSFLQFMEEDTGPSLIIATTNLPRI
+LDKAILRRFDLVLMYELPTAEAMQKAMSRRLIGFDLSGVIWDDVVEQAHGLSSSDVIQAA
+MDAARRAVLNSKKTITSADLLRSIGRRRDLQALGINSGRTESSSHSS
+>tr|B7RRJ5|B7RRJ5_9RHOB
+MGSPQNVLFIVTDQLRADCVFGDLAQHIDLPNLRALMADAVTFQRHYSVVNPCGPSRASL
+LTGQYSMNHRSVRNGTPLRHDTANIATEMRKSGYTPMLFGYTDTSQDPRAFHENDPALRT
+YEHHMNGFQEVVEMRFEMSYPWRSHLIEQGYDFDSYSSVYHPVSPTGDAPKINDPALYRA
+KDSDTAFLTDRFLATMPSYKATDWFAHLTYIRPHPPLVAPAPYNNMYDPAQIPMPTRLDD
+PADEVANHPFFGAALANKTLAGNVVGFPDLTATDENTQTLRALYFGLITEVDLHIGRVID
+FLKKTGQYEDTLIVVTADHGEMLGDRHSWGKFTVHDAAYHTPLIIRQPGNGVRAGSVVTE
+PVETIDITPTILDWVGQDIPNSMDGRSLLPLLQGEVPQDWRTYTFSEFDFSEPEAPTVWE
+QALGTGPSDSSLSVLREARFTLVEFAADLPPILYDHDAAGEAVNVASQPEYQADLNRLTR
+LMLRHRMKNMDHTLSLYSITNEGPRLKQRHEMP
+>tr|B7RHH7|B7RHH7_9RHOB
+MYRPGIPSPIHAFAATQEFPLVSQDYSAKVDVSANRNASKWTVREKLGRVLWGGASLVFR
+LVPRPLWGIRRAILRAFGAKIGSNVHIHPTVRIFIPWNVTINDQAAVGDRAILYALGPIT
+IGARSTVSQGAHLCAGSHDWRDPRMPLLKLPIEIGEDAWVAADAFVGPNVVIGPRAIVGA
+RSVVMKAVEADQIVAGNPARPIGHRPPHGFDQPADSLTPDRPST
+>tr|B7RS12|B7RS12_9RHOB
+MACHFGKEIFTMIKSTMVANALRTAALWGAFIFGIGAASAQGMPA
+>tr|B7RS18|B7RS18_9RHOB
+MHFLAKIATVICAVNNVIGRTFSWLSLGIVAVCFTVVVQRYVFAVSYVWMQDLYIWLNGA
+MFTAVAGFALMRDDHVRVDIFYRPAKMRTRAITDLLGVFLFLLPFTWVVYTYSMPFVLRS
+WTYTEASANVGGMPGLFILKSFIVAFAFLIALQGLAMIIRSILVITGNQQLVPKRIQYGE
+DMVTSDQPKGAV
+>tr|B7RIC0|B7RIC0_9RHOB
+MRGVFVSVLFGALLTLVTAFGASAQQAEIEGTISQQFEAFKADDFDGAFQFASPMLQQLF
+QSPENFRRMVTTGYPMVRRPAEVKYLELREIAGFWWQKVQITDQKGFVHLLDYQMTQTDA
+GWRISGVQLLDAPAVTA
+>tr|B7RNE3|B7RNE3_9RHOB
+MSIEILTMLFFGALLLFVMLGTPLAFALGGISVIFLYAEMGELGFYLLATKMWETMQSPT
+LMAIPLFVFMAILLEKSGVANDLYDMMHQWWGGLRGGLAIGTVLICVIFAAMSGISGAAV
+VTMGTIALPKMLERGYDKKLALGAINAGGGWGILIPPSILMVLYALLTEVSVGRLFAAGI
+GPGLLLFFLVSVYIGGRCWLQPELGPALPVDERASWAQKFRSLKAVILPIMIVVIVLGAI
+FGGFATPTEAAAIGVFGALFATAVNRQLSWPVIRDASVSTLKLTALIIWILFAAHAFSTA
+YTALGAQSLIQEWMNLVPGGRWGSLIFMLAVLFVLGMVLDPVGIMLITLPVFLPVVQSYG
+FDPIWFGILFIIMMEVGYMTPPFGFNLFYLKGVAPPDVTMGDIYASVTPYVIVTLIGVLL
+IILIPEIATYLPKYFYG
+>tr|B7RRJ8|B7RRJ8_9RHOB
+MVIINFLVSIAGATMLLLFAVGLVRTGIERSYGASFQRVMTGQRGPLRSGLVGMVLALVL
+QSSAAVAVLTAGFAASGLLAFGTGLAIVLGGDLGSALIVQVLSADLTWLIPVLLAVGGWL
+YLKTDSKKLRQAGRIAMGIALILISLQFLRDAMEPIRDSAFLPAVSDYLARDYITAFLVG
+GALAFLMHSSVAAILMCVTLVQVGAIPFAAGLSLVFGANLGSAFIPVWLTRGMDLPARRI
+VFANLMVRGMWAVICLFAVNLALDPTVIGAEIGSQVLVIAHVSFNASVLLLVLPFCTWLQ
+APFERIWPDPAKDGSFLIPSRPETALDPMNVGSPTQAVASLKRELLRMTELVETMFRPVM
+DLYRSGERSHIKAVQSVDHEVNACLTRIRAFTAGLSVKMMDPENGRVAREMLEYAVRLET
+AGDVVAERLMGLAGKLGKTGGAFSDEGWSELQHMHENILANIKLASNVLISDDLESARLL
+NMEKTEIKRAERDSRKKHFKRLQSGDPQSFATSDIHLETLRAFRDFNSNIAAVATPILYA
+KGQLLETRLIEEMPDRQTDS
+>tr|B7RJ95|B7RJ95_9RHOB
+MQATTGDLINDLQTRGMRLVDPRAGADSRRGGAGPTDHKAVTIGGMTVMVPVHTATAFAS
+PYLVEAPDASGNARVMKDGAFFADVIFPQRAKFLDLSTADGVPYGHIAQLHAKDVLATTV
+LQTCIRYESRKKTCKFCAIGQSLAAGRTIAHKTPAQLAEVARAAVLLDGVKHMVMTTGTP
+AGKDRGAKVLTESAEAIRAAVNLPLQAQCEPPEDDMWHRRMKDAGIDSLGMHLEVVTPAL
+REQIMPGKAQVSLEKYFDSFAAAVEVFGWGQVSTYILAGLGDTQEAILSICERLTAIGVY
+PFVVPFVPVTGTPLESHPAPTSAFMHGVLGPLSQMIVDRGMRAEDIKAGCGRCGACSALS
+AFEKFRKPARETAT
+>tr|B7RR39|B7RR39_9RHOB
+MSLSVLAIDDSRTMRNLLRAALEEAGFLVTTAEDGADGIEKLEAANPDVIITDINMPVMD
+GFGLIEQVRQSEFAASVPILVLSTESSDALKSRARSIGATGWIVKPFNDIKLISAIRRVA
+RV
+>tr|B7RRW9|B7RRW9_9RHOB
+MADLETKPKEHKTTYINIPEAVGVFDTFEAQQAAFYDLRAVGFHHSDISLLGSQEALQEK
+LGRAYWRATELEDDPKAPRANFVSEEAIGELEGAIAGGFFFVGSAIAMTALLTPASTLAA
+SIAAIAIGGSPAAVIGTLLARRAGQHHREYYENQIRHGGILMWVRTRDKEREDLAVKIMK
+AHSGHDVHVHAWSE
+>tr|B7RIZ7|B7RIZ7_9RHOB
+MMAGAALALLSACVAPPVTPTLKPIARPTPAALPAPVVAKPTSEASAKLRSYFNQIQQAQ
+LGSGLLRRDGGGPDTPYTADMLVRNFEQIAFYNEYNANLTGHGDKTLMRRWESPVRMAIV
+FGDGVPQSEQKTDTAAIRAYAGRLAGITSHPVTVGGGSPNFMVIVAGEDDRDAALVKAAQ
+RIPGVTSASLAALRDLRRDTYCIVAAYAGGADPSVYTAAVAVIRAENPSLMRLSCIHEEL
+AQGMGLANDSPTARPSIFNDDDEFALLTRHDENLLRMLYDPRLHAGISAEQAAPITRIIA
+RELTAGPI
+>tr|B7RJ78|B7RJ78_9RHOB
+MTLAPDLKTICTTIAAAPFSGRRRLVAVAGAPASGKSTLADDIVGQLNADGHRAQVVPMD
+GFHLDNALLDQMGLRSRKGAPETFDVGGLTRLISALSQDEQVYIPRFDRSRDIAIAAAAT
+VAPNVETVIVEGNYLLFDDTAWSALVLSWDLSVFLTVPEDVLRARLVDRWLTHDHTQAEA
+EARADGNDMANARRIYAKRLPCDIDVTFVS
+>tr|B7RLW2|B7RLW2_9RHOB
+MYKQLTALFARYAAAHLKARGKPQGIIAADGQMVGAIDVVSLSNGHIRVAGWTLAETVVL
+HMNGIKATTKADLRRSDVAQAHGLDPDLGFDLVLPLGPVGLREMSRFGVEFHDAKSPART
+IAMPLPLTNIRHVQLRIILRFLLSMLIFLPACMGWLITRNPRYRARIKQGLQLTALPQAQ
+ELDPDLFRLTSDLEKPQTGITIVMPVFNAFDLLQEALTRVVQHTDLAWRLILIEDCSTDL
+RVRPFLEQWKKQHPDTVILLKNAENLGFIHSVNRGFEKALPWGELVVLMNSDALVPAGWA
+SRLVAPMMAEKDVATVTPMSNDAEIFTAPLVCAPQPLDPRQADQIDATARRLNPRAERVS
+APTGVGFCMAINLEYLRKLPRLDPAFGRGYGEEVDWCQRARALGGRHICATNLFVEHRGG
+QSFGSTEKKQLIAANNRKITRRYPAYDSEVQRFVSADPLRSTRLALALAWVGAQEAYPVS
+IYLAHSMGGGAEAYLQDRIARRHHALGRSAVILRVGGAKRWQIELVIPDGIICGRTDDLS
+YIHKMLSPISRRRIIYSCGVGDSNPATLPAALIGLSEGGRHAIEVLFHDYFAISPSYTLL
+DDQGQFDGVPHPTLNDNPAHQVKRAAETVTLKMWQDHWGGLIESAKDVVVFSRNSAEIVA
+RAYPQASEKIALKPHQILQSVPRLSSEPVHARRVIGVLGDIGRQKGAGLINGLARYLEAN
+DIGLAIVGHFDMNFPIPPSVPVHGAYKISDLTQIAARYGVTDWLIPSIWPETFSFTTHEA
+LATGLPVHAFALGAQGDAVAQAENGFTIPFARTDDLGQNLREHFALHLKHAKRAA
+>tr|B7RIH1|B7RIH1_9RHOB
+MQTLLDVILPVFLVIGFGYVAVWRGVFPVAGIDGVMRFSQGFAIPCLLFQSIAKLDLSAS
+FDPALLISFYTGAAICFALGILGARFLFNRDWEDCVAIGFCCLFSNSVLLGLPITERAYG
+EDALTGNFAIIAMHSPFCYGLGITVMEFVRNRGQSGISFVRNVGNAMFHNPLVIGIIGGF
+AVNFSGFAIPGVIDDGLSLIVRAALPAALFALGGVLIQYKPEGDLKAIAMVCLIALLVHP
+AIVWMMGTGFGLPQDLFRSGVLTAAMAPGFNAYIFANMYGRARRVAASSVLIATIASVLT
+AWMWLTVLQ
+>tr|B7RGI0|B7RGI0_9RHOB
+MNKITLVTGGAKSGKSRHAEGIVKASGSPAIYIATGQALDDEMSDRIAAHKVQRGAGWET
+IEEPLDLCGALVRSDGRGTRLVDCMTLWLSNVFLAETDWEASLSEVLDVLRTQQSPVVLV
+SNEVGWGIVPMSDVGRRYRDASGVMNQRIAEVADAVVLVSCGLPLTLKG
+>tr|B7RPE6|B7RPE6_9RHOB
+MKPKGRPPKALLNGIEDFEHVLETYPDDYVVACIVAQAHIDIGWAWRGNGWDIEIPRRNR
+DAFAAHFDRAHEIIEPFVKQHPDSPLVAATHCAQVSGPVGRKNSVADKYEHLIDLNPNNP
+RPMRAMGNHLLPRWFGSYDQLELEARRTAARTEHIWGAGGYTWVQFDAISCDDTACANLD
+LPFFIDGLRDILNRRPNAYTANLLAAYCANTIGQGYSGNDEADNMRAQIFDCTEWIVREY
+LTELHPMIWAHAAHGFDNNIRIRSPRKFAASGRDDALRIMASLFKSEIAAGNRIVFTDKG
+PRAMVA
+>tr|B7RR12|B7RR12_9RHOB
+MQVTPRSESEIQVEETILSVRNLTVDLPRGMERKHAVKDVSFDLPRGKILCVIGESGSGK
+SVTANTVMGLLPPAITVSAGQIIFRGEDLLKASKQDLRKLRGRVVSMIFQDPLSALNPLM
+TVGDQVIEVMASHDEGTPASRAARAVELLDEVGLPEPQEMMHQYPFRLSGGQRQRVMIAM
+ALALEPDILIADEPTTALDVTTQAQILDLIRDIQVRKGMSVMFITHDFGVVSEIADEVIV
+MEKGLIVEQASAEQVFSAPKHPYTKRLIAAVPGLKEDDSDAHKSLPAAELDDIVLSVEGL
+NKTYRSGGGWFSKERTVAAVQNASFVLRRGKTLGVVGESGSGKTSLGRLVIKLMESDSGK
+MLYRGTDIAPLKESEFRPLRPKIQMIFQDPFASLNPRSTIGHILTVGPIAQGMKREVARS
+KALSILEQVGLDGGTFGRYPHEFSGGQRQRIGIARALMFDPDVLVADEAVSALDVSIQAQ
+ILELLQDIQEQTHVALFFITHDLRVASQVCDEILVMHKGRIVEAGPPSQIFHAPQNAYTR
+QLVSAIPGAERTPQAT
+>tr|B7RP26|B7RP26_9RHOB
+MCFLATKHCEYVSHKRILILAKEVIMSSLPKPPFLISARFLGPVFTFDGELTKESQNLIF
+ARNGTGKSFISRAFRCLDLYGGGVDVINAPRNLVSDESKDGKGQFSFSCGSKILGAMTLN
+KIDDTFIAQTNDTIFHVFSEDFVQEELREKEYKLDGKIENVISIDSDNIKLKDAQDTANL
+TSININTEYKKLNDKFEQEKSDELNLKAGINKQLGDYKKLSFPSLLESFVENPNELLGKF
+KDILKDLDALKSIPAEPLYPIKASILNGNELNLVELEAVVSKITSASSVAASIKNKIDAH
+HSFFEIGIKIIENKHSAECPFCEQDLTNPEPKSVVDAYIQYFNDAEEKHKSELRQHYSIL
+NVFSKEIEKLDNDLMRQRSRFDDLKLYLTSQKYIDLENHEDPLYALSETISKLKLVVENK
+ASNLTVSNNFSDQKFLERLQDLNTIIEENNIKVINLNKAIEKSDDERKLLQRNACSAFER
+EFATSNWDSIENLRTLQKASSDAIASLQQLEKSSPSKEARSRVAETFELLLRDFFGDKYV
+FDKDGFVLKHKDREMDRGPHRTLSDGEKTAIAFCYFIACSHRKVTANSDYANLYFVFDDP
+VTSMSYDFVFSIAQTLKNMSISKLGEISINPNFIDGNKYIRPRLLILTHSSYFFNISLTN
+RVVKGEAAFTLFPDMDVHKMAKTNKYIAPFQEQLKHVQQVANGAEPNYSTGNAIRSVLEA
+VGRFCCPDKSESLTIFIQHLAGEENISLKSVMINSLCHGTYYDETPPPNDISLACKETIT
+VVDRYAKGQLNILL
+>tr|B7RSF9|B7RSF9_9RHOB
+MFDDSDPRKALTSMAKERSFSGPFCPPEVGHFSQTPPQETGTGWRAWMMRCTNLVVRLVE
+VDGTASFTRRGQIDEYMVLSTDPAVRIDIETSDGVVTDHPGYHLFIVPPGDSTMTIRGKG
+QVSFLFTTRSADLVAQCSNPEVVVNTNIPPFQQWPDPVGGFRLRAYDLDVPEREGRFGRL
+FRCTTMMVNVLPRLTAPRDASKVSPHYHASFEQISLTLEGDFEHFLRWPWTSDMGEWRED
+MHIRCSSPSVTILPPPAIHTTLWVSPQTQIVDIFSPPRMDFSMKDGWVLNADDYPAARLD
+TE
+>tr|B7RS94|B7RS94_9RHOB
+MTAITGKVGITKRPGELGIHSMDTFNMVVPDLKVAQDFYTSFGLDVREEGNGLGLFTFGS
+DHRWVSLAEGGRKKLNNLSFAVFEEDFEPIKKRIEEAGVKLMDAPRGWDSNGSWFRDPFG
+VLIEVKVAEKSSPDEKMDFVTGSVPGGKMGSVMRSKAPKVQPRRLAHVLVFTPSVPEAIA
+FYSSTLGLRISDRSGDGICFMHGIHGSDHHLIAFAKSSAPGLHHCSWDVGGINEIGMGAS
+QMANKGYQKGWGLGRHVLGSNYFHYVQDPWGSFSEYSADIDYIPVGHEWEAGDYDPEDSL
+YLWGPDLPKDFVTNYEAEHPDAVTPGKASGAV
+>tr|B7RP08|B7RP08_9RHOB
+MCCVMDMGMGFAAQENAQGRRGGVDFSKISDRKIRNFRPAPPCQRIQ
+>tr|B7RGR1|B7RGR1_9RHOB
+MTQYLDFEKPLAEIEGKAEELRALARSSEGMDVSAEAQALDKKAHQMLDDLYKSLTPWRK
+CQVARHPERPHCKDYIDALFTDYTPLAGDRNFADDLAVMGGLARFNDMPVVVIGHEKGND
+TKSRIERNFGMARPEGYRKAVRLMDLAGKFGLPVITLVDTPGAYPGKGAEERGQSEAIAR
+ATEKCLQIGVPLVSVIIGEGGSGGAVAFATANRVAMLEHSVYSVISPEGCASILWKDAEK
+MREAAEALRLTAQDLKQLGVNDRIITEPRGGAHRDPATAIASVGKAIAAMLDDLGGKDGK
+ALIADRRNKFMDLGAKGLAT
+>tr|B7RI19|B7RI19_9RHOB
+MQLILMPRSAKSILLALVIAAVFSFGLNWLFADVFTVFLPKGAF
+>tr|B7RI39|B7RI39_9RHOB
+MNPPLLALSGLTKAYPGVVANDDVSLTIAPGEVHALLGENGAGKSTLVKMIYGLVKPDSG
+VMRMHGTLFSPQEPRAARAEGVGMVFQHFSLFDALSVAENIALGMENAPRLGVLSQKITE
+VSEAYGLPLSPDRIVGDLSAGERQRVEIIRCLLQDPKLLIMDEPTSVLTPQEVEILFKTL
+RKLSAEGTAILYISHKLEEIRALCDSATILRLGKVVGHCTPSETSARDMAEMMVGSTLKT
+PLRADKTPGGVLLELRGLKAKSPSAFGMPLRDISVQVRAGEVLGIGGVAGNGQDELLAAL
+SGETLSAKDMVWFKDQDIGPLGPTARRALGVLTAPEERLGHAAAPDMSLTENAMLTGAVR
+ENLVRGGMLNWPAARRFAEKIIQAFDVRTPGPGNAARSLSGGNLQKFVIGREVLQRPEVL
+VVNQPTWGVDASAAAAIRQALLDLADNGAAVIVISQDLDELMEISDRFAALNEGRLSEPR
+PAQGLTVDEIGLMMGGAHGMEVAHV
+>tr|B7RNK4|B7RNK4_9RHOB
+MRLADSADMKFRLAIILALFLPFGAQGQTAPVTVFAAASLRGALDDVAATYGAGVALSFG
+GSGTMARQVAAGAPADVIILANPVWMGWLQGKGLVDTAAAVDLLGNSLVVIAPASSTTTP
+DPDHLVAALDGTRLAMGQRDAVPAGIYAREWLQATDQWDALAPHLAETDNVRAALALVAR
+GEVPLGIVYRTDALAEDQVRVVHAVPDGLHSPITYPAAALTDAGQAFLTYLQTPEALRIF
+ADHGFRPITP
+>tr|B7RRL6|B7RRL6_9RHOB
+MTLRILHTADLHLDSPLRSLAMKDERLAAQVRSASRQALENMVHFCIDEDVHAFLIAGDL
+YDGQERSAKTAAYLASQMLRLEEAGVKVFYIKGNHDAENPIAGEIALPPNVHVFDGRGGV
+VQLGDHPVYIHGVSFRDRVAPESLLPKYAPPEPSSVNIAMMHTSLNGAEGHDPYAPCSVA
+DLAGAGFDYWALGHVHKRQVHGQNPWIVMPGMPQGRDIGEAGPKSASLLTIEAGQIAVTE
+VPTSIVEFRTCECNLDGVETDDAIRAALRDALRAQAGEGAAILRLRLVGQTDLAWQIRQL
+ADRWREEIDALAEGIGGLWVEKLTIDLMPPSRGVADSAVGEVHQLMADISAEPGFLEGMG
+KELEQILALLPAERRREIAPDEASQDALLRQLSEDAVLSMVAKMRGQGA
+>tr|B7RMZ5|B7RMZ5_9RHOB
+MDTIEDAAFGDMFSLSLFARDFVPQRNRPGSVSACLHGTQL
+>tr|B7RR88|B7RR88_9RHOB
+MEVIMEALPAFGDAWALILQPVVLGYLVMGVLMGLCIGVFPGLGGIAGLSLLLPFMFGMD
+PILGLALMIGMVAVVPTSDTFASVLMGIPGSSASQATVLDGFPMAKNGMAARALSAAFAS
+SLFGGLVGASFLTIFILIARPIVLEFRTPELLMITIFGLSMVGILAGRVAIKGIVAAGLG
+MLIGTIGEGASSGDLRMSSYDYPYLTDGLKLVIVGLGIFAIPEIISLLRQDRAISQEPQI
+GGGWIDGVRDWFANIWLSVRCSIIGVIVGVIPGLGGSVVDWIAYGHAVQTTKDKSNFGKG
+EVRGVIGPESSNNAKEGGGLVPTLLFGIPGSGSMAIFIGAIALLGSGQIEVGPAMLKNNL
+DITYAIVWLLALANVVGTVICIAASGGIAKLTTIRFVLLAPFLFMIISFAAFQSGQNLMD
+LVALFAIGFLGILMRRFDWSRPAFLIGFVLSTPAETYANQAVQIAQSQFRKSFGDGIDYI
+FSPIVIILLIITVISVVLGLRQAKHMMAEGDVQAGSKRAPLVFMLLVTAFIVYALLDASA
+IPSYSRDRTFPIFVSSVCLVGCAFLILQMMLKPENDTIFADREMDGEDASATHGLWSTLG
+WFAALLLLTSLLGFILALAIFLFSFMVIRARMSLIFAAGYTAAGIAFICGMAWMLNRDFP
+PGLLQEFFTLPWPFT
+>tr|B7RFY1|B7RFY1_9RHOB
+MTSFISQITRVPRIFQSEQAHDARALMPDLPPELGALVAGAGSVSPYLLGLMHKEAAWCE
+AAFDDPAKAVQAVIAGAGDVAPDQLSSHLRQGKRRVALITGLADLAGVWSLEQVTGALSG
+FADAACQAALVAGLQAQIKRGKLPGMTLEDAATGAGMVVLAMGKMGARELNYSSDIDLIC
+LFDETRFDPDDFHDARTAFVRATRAMSGTLNDLTGEGYVFRTDLRLRPDPGVTPVCMAME
+AAEHYYESLGRTWERAAYIKARPAAGELAAGDRFLTTLRPFVWRRHLDFAAIQDAHDMRL
+AIREHKGLGGPIELAGHNMKLGRGGIREIEFFTQTRQLIAGGRDPDLRLRGTCEGLAVLA
+DKGWVTAEVAETLTNHYRAHRTVEHRVQMIRDAQTHNLPNTEEGFARLAAMMDLDVTVLQ
+KDLRQRLAEVHHLTEGFFAGSDAQVPATPDHVFDTATLDRWLSYPALRSPRAADLFAELK
+PGLLARLAQADKPDEALRAFDGFLAGLPAGVQLFSLLKINPQLSDLLIDIVSTSPALAEY
+LSRHAGVLDAVLGGDFFSDWPGQTALAQALSQVLQAETDYETRLDATRRWAHDWHFRVGV
+HHLRGLIDARTAGAQYADLARAVLQGLWPVVGDEFARRHGAAPGRGAVLVGMGSLGAGRL
+TATSDLDMIVIYDPDGVEQSDGQRPLASRLYYARLTQAMITAMTAPMAQGRLYEVDMRLR
+PSGNQGPVATSLASFESYQMGAAWVWEHLALTRADVVAGPADLAGDVEDLRTRVLSRARN
+RSEILHEVAEMRTRLAAAKAADGLWDAKNGPGRLQDIELLAQAGALLKGETARDIASGLT
+AACDTAVITPDETAFLKAAYDTCWSLQSATRLLSASVLRSDTLGQAAAAFLVKSLGCDSL
+SGLETHLAQTYEQAGDTINRALADYGDDPARESR
+>tr|B7RLT6|B7RLT6_9RHOB
+MIVSGALLLVSLIGVGVAFSGHGWSDLILLAGPCAVASLILFFKDVRNRFFTHRGRASRS
+VVVDGSNVMYWRDGNPQIEPVQEVVRHLTALGYKPGVMFDANAGYLFAGSYRGDKAISKL
+LNLPVECVTVVPKGSPADPYILKAARDRGASVISNDRFRDWVCDFPEIARPGHLIRGEYR
+QGRLWFDFVAEGAVGRAA
+>tr|B7RG34|B7RG34_9RHOB
+MILSTTPSIEGRTVTAYQGIVVGEAIMGANFVRDMFARVTDIVGGRSGQYENKLRDARAA
+AMAELESEAGAKGADAVVGIDIDYEIIGDSMMLVSVSGTAVRLG
+>tr|B7RIJ3|B7RIJ3_9RHOB
+MRSAVTACALFIGLSLSGPVDAADPCADYVPQERPQNAGRDIVGQDLDEIVELGHMLFAV
+YDDNVPYSWQDAGKPRGIDVDIARLIADDLGVTAQFNFVGAGENLEADLRNNIWKGGVIG
+GRVSNVMMRIPYNSSFACRVEQVTFTGQYASESIAIAYSNAAYPEEKPVPAYFRFDTVAV
+ENDSISDFYLSSFAGGQFRQNVHRFTDMGQGMVALASGETKAAMGPRGQLEYGLTDDIGI
+HQPPLAGFAVSTWTLGVAVSFSYRPLSYAVDDAISAALADGRIANIYESYGLSFQQPVR
+>tr|B7RKT7|B7RKT7_9RHOB
+MAQQPRAWQRMLSGRRLDLLDPTPVDIEIEDIAHGLAFVARWNGQTHGDFAYSVAEHSLL
+VETLFTRLNPKAPAKWQLAALLHDAPEYVIGDMISPVKAAVGPSYGVLDDRLTAAIHIRF
+GLPAAIPKTIKQQIKRADKISAWMEATQIAGFSSAEATKFFGKPDATIIEGLAIVLRPPV
+ETRADFTARHMTLLKEI
+>tr|B7RR87|B7RR87_9RHOB
+MAKVLIAMVGSGHPLNIDGIGGGAAVTTKVAMLSRSEDDWADVDYFFAQVSVEDRLVDFK
+PTCGNILSGVGPAAIEMGLVPAQDGETQVNIRAVNTEARVTAIVQTPERVVSYEGDAQID
+GVPGTSAPVALQFMETVGGVTGAFLPTGNLVDVIDGIEVTCMDVAMPMVIAKASSFGLTG
+YETAAELDENRDFFARMEALRLKAGALMGMGDVSKSVTPKFGLLAPATQGGTIATRYFMP
+WQTHPTMAVTGAQCLASCVLTPGTVADGLAAKPAAVPANVTLEHASGTIDVLVDYAQTED
+GFQIKSAGLVRTARKLAAGEVFIPASVWSGF
+>tr|B7RHR0|B7RHR0_9RHOB
+MTLGTFLFLGFIVVQRLAELVISKRNTAALMANGAREVGAGHYPVMVALHSAWMLCLLVF
+GHSEEIHPLWLALYAVLQVFRVWILGTLGPRWTTRIIVTDTPLVTNGPFRFIPHPNYTLV
+VFEIFVAPMVLGLLWVALVFSLLNAAMLYHRIRVEDGALRPN
+>tr|B7RHZ9|B7RHZ9_9RHOB
+MAAFSYKAVDKSGAGSSGLIEASSASAARQELRARALLPLSVEPTRKGISGVSLFGGGRS
+KGIGGRALTVVTRQLATLIGAGVRIEDALKTVADQATNSRVAALMLTLRADVLDGQGLAP
+ALDSHPHIFGAFYRASVKAGETSGRLGDVMDHLADFVETRSKNRQTVQLALLYPAILALV
+SLGVIVALLVYVVPDIVKVFTSRGAELPFLTRSLISVSDFVASYGLIMLGGILGLIALGA
+LLLGRPDARLRFDQWTARAWPMRHFVLKSNATQFAGTLATLTVSRVPLSEALEAAGDTIG
+NRYIRAKAQAVGARVREGTALSKAMHQAAVFPPLLVAMVASGEAGGTLGASLTRAAADQA
+RDLDALVSALVALVEPAVLLLMGGVVMLLVLSILLPIVNLNNLVI
+>tr|B7RJ75|B7RJ75_9RHOB
+MKTLLASTAIAFAAMSGSAMADAHSVTACLITKTDTNPFFVKMKEGAEAKAAELGMTLKS
+FAGKIDGDHETQVAAIETCIADGAKGILLTASDTSSIVTAVQQARDAGIVVIALDTPLDP
+ADAADATFATDNFLAGKLIGQWAAAKLGDDAANAKIAMLDLAVSQPTVGVLRDQGFLEGF
+GIDLGDPNKWGDETDPRIVGNDVTAGNEEGGRKAMENLLAKDPMINVVYTINEPAAAGAY
+EALKSIGRENDVLIVSVDGGCPGVSNIADGIIGATSQQYPLLMASKGVEAIAQFAKDGTK
+PAPTEGKDFFDTGVSLVTDQPVDGVESISVQEGTDRCWG
+>tr|B7RK23|B7RK23_9RHOB
+MLLLAEREADARVIRCRGEGLGAFVLDSDDPLNAGDACGFRFEGDEKLAKIIDVRVDRND
+RNDLLITCDKPPEGKNLTLCYALGHPASDDGMPANRGSLRDGFAHVSATGTRLHRWALPA
+ALPVH
+>tr|B7RNW8|B7RNW8_9RHOB
+MKILMVLTSHDKLGDTGNKTGFWLEEFAAPYYVFKDAGADITLASPKGGQPPLDPTSDAE
+DAQTDATKRFKSDDAAQKELANTAVLSNISADGYDAIFYPGGHGPLWDLAEDADSKALIE
+TFMASDRPVGAVCHAPAVFKHPKGSDGKSIVSGKTVTGFTNTEEEAVGLTDVVPFLVEDM
+LKANGGDYQKGDDWASFVVIDGKLVTGQNPASSEEAAHKLLGLL
+>tr|B7RRG7|B7RRG7_9RHOB
+MQQGITINSNRYRFNSPKAPKLLFHFQSRSPHPKTQQIA
+>tr|B7RSE5|B7RSE5_9RHOB
+MTYINPSVMLAGHKDPLCQRPAKGQFHIDRWEVLQLVKDTAAVLGLSDRDIAVLGAHLSV
+LPKGPIKSGQLLMSFMQVSAILPRANCMEERGFRRSETRLDETGLVARKLSANGRRFAVR
+DASGRIVDAYGIDLEPLFLRIDELREIRARLEEDRQRKRALISRVTARLSELKRWSTDHI
+GYVPDVLSDLALLLRNLFRRKTISVSDICEAEKRVDAIEVQIIPKPKQEALSATAEQPTL
+PCPAPSQNSDRLHIPSEPVDGCIGKVPCPVADKSAADAGHIDRHIESKRKEYIKRPAIGS
+RTADLKLSDLRGAWSMCIQISSFYPDGPRTAQDLWDKLVEFSSFLGLGQKSVLNAVTEIG
+WRNALLVLDYIAQKIATIKAPQAYLAKMLESYHQGDAIAAGRVCRTGQYARHVA
+>tr|B7RJZ1|B7RJZ1_9RHOB
+MVIGACDRDETVRQYGAADKTWILTELNGSPFSAETALSFQPQNRISGTGPCNVFAGRMA
+TPYPWFDIENLAATKRICPGLAEETAFFNALSQTTLSEVLGDTMILSNPDGLTMVFKSGG
+>tr|B7RHC4|B7RHC4_9RHOB
+MQELTFGWEEWIALPELGLPAIKAKIDTGARTSALHAHDIEVFGSDAKPKVRFNVHPVAG
+NEDIVITCSAPIIDRREVTSSNGESELRYVISSNLDVAGQSWPIDITLTNRAGMASRMLL
+GRQALTDHITISPTEKRLQPDLSYDVYHTAAVRRKAPQRALRIAVLSREAGNYSTRRLVE
+VGEARGHTVEVIDTTRCYMAINAMAPEVHYDGKRLPRYDAVIPRIGASVTPYGCAVIRQF
+ETIGTYCVNGSAGILASRDKLHAHQVLASKKIGMPTTAFAASPKDTSNLMALVGTAPLIV
+KLLESTQGKGVVLAETKKAAESVIDAFRGLKANFLVQDFVKEAAGEDIRCLVVDGKVVAA
+MKRTGADGDFRSNLHRGGSAQVVRITKLERDTALRAARAFGLGKAGVDLLRSETGPKVLE
+VNSSPGFEGIEKATGKDIVGMLYDMVEARVRPQPVRKRKP
+>tr|B7RR20|B7RR20_9RHOB
+MTMNTLKDVYLDQLQDLWSANKQSLEVVNELGRAASDKALSEALIAGANGISEGMEKVAE
+LCAKHDIKPNGEHCKGMEGLVKEAKAHVLDAEFGDDDVRDAMIITQYQRMVHYALAGYGC
+VVAFANRLEEDGDGAILQKCLDDTYDGDRRMTDIASNGINAAAV
+>tr|B7RG14|B7RG14_9RHOB
+MAESSLSDTQINFIEQFLKVKLPAQTADPAEFVLDDDYVSDNPADIWLDAKGQVDATLSP
+LMSELAKSDDPNLTRIARFGLSGVTKGNNTALMAAILNFNGSSGAARAGSAQALGKEIDT
+YSEFLGSDPIVALCENNPFGHALAIRAPLIKALNTMKTMISA
+>tr|B7RHT7|B7RHT7_9RHOB
+MLSYQHIYHAGNLADVHKHSLLAWMLAYLTRKDKPLSYLETHAGRAVYDLSDTPALKTGE
+AVQGIGRTRGWFGKDHPYGQVLDMVTREQGADAYPGSPLLAAKLLREMDSIHLAELHPGE
+FGALDLAMSPYPVKCHYRDGFEMAFALTPPTPRRGLMLIDPSFEIKTDYVDIPRHISKLA
+KAWNVGIIALWYPILTSKLHQPMLSALMGAHPEALRHEVSFAPARPGHGMIGSGLFVINP
+PYGLKEEAAKLAAKFRSLPK
+>tr|B7RMG3|B7RMG3_9RHOB
+MLILLSPAKNVDEERAAGHASTSPRFLAEAEEIVTVAREWSEDEICQIMKVSPAIARLNV
+DRFAGWSRDGDCAAGLLFDGDVYRELDFGTLDEHAVSAASQRLRLLSGLYGLLRPTDAVR
+AYRMEMGRKCPGHPAGTLYKFWGSKIAEAVAQDAAEVGTETVLNLASEEYGKGVDRTALE
+GLTVVSPRFEEDRNGNRKVVGIAAKRARGAMARWVLQESIHEPRDLEAFDVGGYVFDAET
+SKVDRPVFVRAS
+>tr|B7RNN5|B7RNN5_9RHOB
+MAFLHGVEVIEIDAGPRPIQTVKSSVIGIVGTAPDADADAFPLNTPVLVAGSRKEAAGLD
+TVGDARGTLPTAMDGIFDQIGAVVIVVRVEEGLDEAESLANVIGGVNAVDGNFEGVHALV
+GAESVVGFSPRILIAPGFTHQRPEGNANPVIAELQGIGDRLRAVIIADGPNTNDADAIEA
+AGGFGSDRIYLIDPWHKVTVGSDIVDVPPSSRVAGLIATVDNDTGFWASPSNHLIGGIIG
+TSRPVDFKLGGASARANLLNEAKVATTIRQNGYRLWGNRTLTDDTKWIFLSVRRTADIIN
+DSLLRAHLWAVDRGITKTYVSDVEESVNAYLRDLVALGAILGGRCWADPDLNSAANIQLG
+KVFFNFDFTPVYPAEHITFRSHLVKDYIEEVFN
+>tr|B7RQP5|B7RQP5_9RHOB
+MTLDNTQTDDIPALMAEIGTRAKTAAATLGFASRDQKQTALEKAADALWATRQDILDANA
+KDLAFGRDKGLSDAMMDRLMLDEDRIRAMMDGLCSIAAQPDPVGQVMTEWDQPSGIHIQR
+VRTPLGVIGVIYESRPNVTADAGALCLKAGNAVILRGGSESFHSSRAIHAALQKGLDAAG
+LPMDAIQLVPTRDRAAVSEMLTMTDTIDVIVPRGGKGLVGLVQREARVPVFAHLEGIVHI
+YIDADADPEKVLKVVLNAKTRRTGICGSAECLLIHQDVARTIGTGVIKALIDAGVEVRAD
+ETLAAIEGTVPATQDDWGHEFLDMIIAAKTVTDIDGAIAHIREYGSNHTDCIITEDDAAA
+TKFMTRLDSAILMHNASTQFADGGEFGMGAEIGIATGKMHARGPVGAEQLTSFKYLVRGN
+GAVRS
+>tr|B7RR79|B7RR79_9RHOB
+MSRTLQLVTAAALCLSSACTATDYGPKETTGGLTGAVLGGLLGAQFGRGDGRLVTTGAGV
+LIGALIGSEIGRSMDDTDRLRANDAIRQAYTAPVGETVRWNNTRSGNYGTVTVLRDGVAS
+SGRYCREYRQTITIDGRRAVGTGVACRNRNGTWQIVS
+>tr|B7RJX3|B7RJX3_9RHOB
+MNGVPRAPLLLGLAGLIPFVWGALTTLSDPLATWGAANLGGRFIGPYIQLFYGAVILSFM
+SGVLWGFATKATGAQAATGYALSVIPALWAFFMTGGGPVGAGMNLMFGFAGLLVLDFAFW
+RWGLAPEWWLQLRVLLTAIVLICLSTGVFF
+>tr|B7RLN5|B7RLN5_9RHOB
+MRDFQLPGRSPVLAKNGMCATSHPLAAKTALNILERGGNAMDAAIAGAVLLGICEPQMTG
+IGGDCFALYSPAGSDEVHALNGSGRAPKALDASILRDAGEKTVPLQSAHAVTVPGAIDAF
+CHLSENLGTLGLDVILAPAIHYADAGVPVAPRVSFDWANDAGTLQGKARDFFLVDGKAPQ
+VGSVFRAPGQAEVLRRIAKDGRDAFYTGEIAEDMIAALTARDGKHTAEDFANVSCTKGDP
+IATTYGGVEVLEHAPNGHGATALLLLNILSHFDIASMDPFGAQRLHIEAEATKLAYDARN
+RFLGDADYTTRLAHMLDPMTAQKLAELIDPNKAMANPAQLSEAVHKDTIYITVVDKDGMA
+VSLIYSIFHGFGSGIASDKFGILLQNRGAGFTLEEGHVNEMKGGKRPMHTIIPGIIRQDG
+KVQMPFGVMGGAYQPTGHARLVSNLTDFGMDPQAAIDAPRAFSDKGVLNVERGYGDDVRA
+KLVEMGHNVEIPRTAIGGAQAIKLRSDGVLEGASDPRKDGCALGY
+>tr|B7RNT0|B7RNT0_9RHOB
+MIMHYVAGGTENGGGIGRLVGYILNENSAQYRHSVVDTRGPRWNPLVSPWHLAHALFGMT
+ANQMQATPRLHHLHIAGRGSTARKIILGAWARLIGAPYVLHLHDYDYASDLARRPKWQFR
+AIKSLFQGAAQVIVLGQRDAATVGYSLDVPKSKLTVLRNCVPDPGETLVDPRTKRRRTSI
+LFLGQLGPRKGVPELLAALASTGLEDGTWQAVIAGDGPIDHYRSEAALLGLSGRVRFPGW
+VDADGADRLRKQADILVLPSHAEGFAMAVLEGLAQGLAVITTRVGAHDEVLVDGQNALLV
+PPGDVPALSVALTRLINDEALRTRLGAEGRRLFLSQFGIDGYVDALERLQSAQLPVFSDE
+RRSA
+>tr|B7RQG6|B7RQG6_9RHOB
+MNSRSADEAAVRVTNSIVRFGNDNANDFLANMEPAQKEKIMAMTRSQARLSTPH
+>tr|B7RGS1|B7RGS1_9RHOB
+MTILIAGGLIVYAVLSHPGGYALADIPDAVVHVIARYRFW
+>tr|B7RI63|B7RI63_9RHOB
+MTVNLLHQIIDRAAERDPTSQAFRFMDQSLTYAALADRSARLAAELIGQGVKRGDRVGIL
+MPMSLESALAIYGILKSGAAYVPLDPSAPVERLVLIMQQCGITHLISADAKTATLEALCE
+RLPKLSCIVGVTTDIAPTVRCISWDSVTTTPPAAPVRMISSDIAYIIFTSGSTGMPKGVT
+HTHASGLHYARGITDLFGILPSDRLANHAPLHFDISLFDFLGGPLCGATTVILPDPYKAF
+PASMSELMEKEKVSIWFSAPFALTELCLRGVLDQRDLTALRWVIFGGEPFAPKYLNALIA
+QWPHARFSNCYGPAEVNACTYHHIDQSLADDVEAIPIGRIWDVAEGLIVDENDAPVAFGT
+PGELLVRTPTMMRGYWRAPDLNATCFYHRPVTEDFSDRFYRTGDLVVDGGPDGMQFLGRK
+DRQIKLRGFRIELDEIEAVLAQHEQVEEAGSFLSRDASTIWAAVTLQPGAMTTPEELIVH
+CRDRLARYCVPAEIHILQEFPRTTSKKIDRRALAMLFGPNT
+>tr|B7RK66|B7RK66_9RHOB
+MTRARIVHLVDDTTAGGVMRVLDHILTAPAMAQTGDHSLRCIDRGSISVGRINADIIVSH
+LAVSWRTLPMLLALRAAHPGTPLVHVEHSYTEGFVTHNVTRKRRFTVLLRTAYALFNKVV
+AVSHAQARWLAQSVSIPSMKLSVIQSCVDLSSFRALAAPSGPVRVIGAIGRLDRQKGFDT
+LITAFRQTVDPAIALHIYGDGAEAPALRACAGDDPRIKFMGYCGDQRTVMAGVDAVVMPS
+RWEAYGLVAIEALAAGRVLLVNDIDGLKDHVPHGAIAVADASVARWARRIEALAGALPLP
+PTVPSRACDGFEDAFARSWQKLIMPVRGEGFVACYGK
+>tr|B7RN28|B7RN28_9RHOB
+MGWFATASPCMPRGKHDMKITPAQPADAAAIATIWHRGWHQAHAAIVPDALTALRSPEEF
+ATRTDAHLEKTHVAWIDGQIAGFFMLDRDELYQFYISAAFQGSGSASKLMHGAEAALGEG
+LKWLACTVGNDRAARFYEKSGWVRAGVIPYEVETAQGPLVVKVWRYERQVVLT
+>tr|B7RP27|B7RP27_9RHOB
+MSFAPPFLGGDQTVACAPVIPEHLASHIDMNAIARDLACYYSQTEIAGQSFMYRAG
+>tr|B7RGF4|B7RGF4_9RHOB
+MRLVSDLPELEAFTITNPVGQTTIDFQDVAAVRMLNRALLKTYYDINFWDIPANYLCPPI
+PGRVDYIHYLADLLACSNNQEIPRGRQIKALDIGTGASLVYPLTGQSEYGWHFTGVDIDA
+GAIKSAQQICEFNKLKITLRRHKSRQNIFRGVIEPCDAFHVTLCNPPFHASIEHANKGNQ
+RKWRNLGKEHSKKLNFGGQNAELWCPGGEIKFLATMVEQSMEFADQCLWFSSLVSKKDNL
+QPLYRILKNAKVAEFKVVDMAQGQKTSRFIAWTYIKEGQRSLYMNAAGK
+>tr|B7RL60|B7RL60_9RHOB
+MSNVQLPDDAAQQKFLLLSLEEAQATVRAYDTKAQIVGIGYTFALNIVAAVVGGLPGAGA
+EGPVFVVLFWLVIMAPLFFFGYVLYPSRRTAPTVADTSEAGLQRALYVQTARYSTVADLR
+AAVSQADWTAELVYEVLKVSKLREQKRLRFITALYATVLSFAVLAAKQLWTAL
+>tr|B7RL83|B7RL83_9RHOB
+MARDDNRGGNRRNQREETPEFADRLVAINRVSKTVKGGKRFGFAALVVVGDQKGRVGFGK
+GKAKEVPEAIRKATEQAKRQMIRVQLREGRTLHHDMEGRHGAGKVVMRTAPEGTGIIAGG
+PMRAVFEMLGIKDVVSKSIGSQNPYNMIRATMDGLRKESSPRAVAQRRGKKVADILPKRE
+DNVESSAQVAEEA
+>tr|B7RS68|B7RS68_9RHOB
+MQAPVENYAFTVMLSPDGSQSDGIAVIDLKPGSDTYGQIVHQVIVPNKGDEFHHFGWNAC
+SSSLSPLSGHAFLERRYLIVPGIRSSRIYVIDVKDPLKARIHKTIEPEELFAKTGYSRPH
+TIHCGPEGIYVSCLGGSGKDGTDGPPGIFIMDCETFEIIGQYEMDRGKQDKHYDFWWNLP
+QDYMVSSEWGLPPQFENGLVPEDLLSNKYGHSIHFWNLRARKNIQTIDFGANYQMALEIR
+PAHDPTKSYGFCGVVVDTTNLQGAIFTWWRDDEGVWQSKKTITIDPRPEDPANLPPLLQG
+FKAVPPLVTDIDLSLDDKYLYVACWGLGEMHQYDVTDPMNPVLTGKVELGGIAKGEKHTN
+GKPFAYGPQMVEISRDGKRVYWTNSLYSTWDDQFYPNDEGGQMVMADVGENGGLTLNKDF
+YIEFPKGLRSHQIRLEGGDCSTDSFCYPSV
+>tr|B7RSB1|B7RSB1_9RHOB
+MIKEQEAGMPTAEVCRRHGLSPASFYKFKAKYGGMNVSDTHRLKSLEEENAKLKRLLADT
+MLDNVVLKDLLGKN
+>tr|B7RIB6|B7RIB6_9RHOB
+MQRAVLIMFIAMSLIPAGDSAGKVLTSQLGVAPVFVAWSRFALGTLFLIPFVPPRTRALF
+GNWRIWVRATMLSGGITCIQTALQTEDVANVFAAFFVGPLLSYVLAAVFLREPITILRSA
+LILLGFVGVLLVVRPGIGVSTGLLWALAAGTFYGIFLTMSRWLSGLAPPLALSFSQLVIS
+AGLLLPLGLLHLPQLTAPVAALTVTSAICSMLGNLLMLYAYRLAPATKIAPMIYFQLLSA
+VALGWLLFGALPDLLTWIGLAVILGAGITSTRLR
+>tr|B7RJ52|B7RJ52_9RHOB
+MNGAESLVKSLLDSGLDTCFTNPGTSEMHFVAALDHVPGMRSILVLQEGVATGAADGYFR
+MAQKPACTLLHLGPGLANGLSNLHNAKKAGSGVVNIVGEHAVSHIELNAPLTSDIEGIAR
+PVSHWVHTSLSSTDVGADAATAVHAANIAPGQVATLMLPSDTAWNEGGVVAAPVAPATRP
+AFDQAALEDAVAALSGPDSLLLLGGAALGEDMLEIAGRIAAKTGCELLSEWANAKLERGA
+GRVAINRVPYPIDQALEALKPYKRIVLVGARAPIGFFAYPGKPAILTADGTQIIELCKTS
+QDIAGALDAICDGVGAADTAPTHVAQIVTPDKPSGPLDPGGIADVLGRTIPENAIVVDEA
+ITTGRNFFPVTAGAPKHTWLNNCGGSIGYGMPVAIGAAVACPDRKVLALVGDGSAMYTVQ
+ALWTMAREGLDVTIVIFANRVYKILRGELTNVGVSNAGPKAMDMLSLDQPTLKFVEMAQS
+MGVEATQVSDCAALELAIETGLATKGPYLIEAVL
+>tr|B7RNJ9|B7RNJ9_9RHOB
+MGANQEERLMFYRPKDGHSLPHNPFNAIVTPRPIGWISTRDAQGRDNLAPYSFFNGVAYV
+PPQVMFASTGTKADVDGTKDSMANIRETGVFCVNIVEYAMRDAMNASSATLPHGTDEFGH
+AGIEKAECDEIACPRVANAPASLECRMTQMVKIEGESNYVVFGEVVGVHMRDDCIKDGRF
+DVTTYQPLSRLGYRDYTRITDVFEIIRPDD
+>tr|B7RR95|B7RR95_9RHOB
+MKYQTILVTAALVAAPEIASADTASVNVALINAAEQWFGPALAEPMRVAAQSGGHSPLAM
+FMGADIVVKAVMFGLAIASVLGWTVWAGKLLQVKWANGRLRRSYKRLAKQGALEGTDAAI
+YAGPVRVMVQAAQAEVARSGGMNKAGIKERVASELSRIETGAARSMQSGAMVLGSIGSTA
+PFIGLFGTVWGIMNSFIGIAESGSTSLSVVAPGIAEALLATAIGLVAAIPAVLLYNHVTR
+IVSGYRARIGDVAALVERCLSRDLDRADTAVPVPASLSRLAAE
+>tr|B7RR03|B7RR03_9RHOB
+MLKTTLLSSIASLALLAAAPAVMAQDLMIGLRAGPDSIDPHWSTLGSQAEALRHVFDTLV
+DVDDKLQLKPGLAVSWEAIDDTTWEFKMREGVKFHDGSDFDAEDVKFSIERIPEVTGPMP
+MTLYTKYVESVEVVDPMTLRVTTKGMAPSLPNDFTRLFVVPTETGMEARNEEFNSGEKAI
+GTGPYSFVSWQPKGDLVLKRNADYWDGAPAWENVTRREIADDAARVAALKSGQVDMINYV
+PATDYLSMKNDSSLETFVSDSIYILNIAPSVKDEEPQPIKVNGVEVDGNPLQDLRVRKAL
+DLAINREVLVNVVLEGLGKPANQLMPEGFFGYTDKLDAREYDIEQAKALLTEAGYPDGFE
+IDFTCTNNRVPGDAVVCEALAQMWSRLGLKVNAQALNGTVYFPAAAREEYTMTMSAWGTL
+TGEAAYTYGALTHTKDAEKGFGNFNRSGYSNPEFDKVSAKAARRLTPKHARSSMKKHPTS
+>tr|B7RI98|B7RI98_9RHOB
+MPAVAPKSRVFARYRPIGGHLRMKFHVFEIILPVDKKIIPLHRSVNSK
+>tr|B7RKZ1|B7RKZ1_9RHOB
+MGDGIAAGPLFAPMTLPGEVVTGTPEGQTLTDIRIVTPSENRVAAPCRHFKACGGCQLQH
+ASDRFVADFKLGVVKASLDAHGIETVYKPIQTSPAQSRRRATFAAKRTKKGAMAGFHGRG
+SDTIIEIPGCQLLDPDVMAALPIAEKLAMIGTSRKAALAVTVTTSRAGLDISVQNGKPLD
+GPLRQELAHLCDSLGLARLTWEGEVIAMRTPPVQRFGAAKVTPPPGAFLQATPHGEASLV
+SAVREAVGSARHVIDLFAGCGTFSLPLAETAEVHAVEGDPKMTAALDHGWRMAKGLKPVT
+CEARDLYRRPLLPDEMGKTDAVVLDPPRAGAEAQVAEIVKAMPPVIAYVSCNPVTFARDA
+ATLIAAGYTLNWVQVVDQFRWSSHVELAAQFTAPEIKRKRH
+>tr|B7RPE4|B7RPE4_9RHOB
+MRDAQNFRKFRSVLFEENGPSRNFRISIAAARRPAMGAPMVCNFHEHLSKG
+>tr|B7RSF0|B7RSF0_9RHOB
+MKTRLFKIAEKVLEEDGWQIERMVGTGKSSLRRITKGGESKVISIRTSQDTWIAFPRAEG
+DDSWGTLDDVDAVVPVSVDHKDDPKFAKVHLIDGDEMRSRFNRAYEARKEAGYSIPTGRG
+VWVSLYQQETREPVTLVGAGAGLKFPPIATVSLLPEAGSAADDTASSSADNASPFFKGSD
+EAPLSIAEAKRRLAETFGVDPACIKITVEA
+>tr|B7RPC8|B7RPC8_9RHOB
+MRHMRKLAMQRGVVAILDVGTSKIACLVLRFDGSGRMSEEGEIGSLAGQSGFRVIGAATT
+RSRGVRFGEICAMQETERAVRTALQAAQKMANIRVDHVIACFSGAEPRSYGLDATIDLEG
+QVVSEQDVAQVLASCDVPEYGDDREVLHAQPVNFAIDNRSGLSDPRGQLGNALSVDMHML
+TVDAAAVQHLAHCIKRCDLELAGIASSSYVSGISSLVEDEQELGAACIDFGGGSTSVSIF
+IRKHMIYADSVRMGGDHITSDISMGLQVPTANAERIKTFYGGVHATGMDDREMIDIGGDT
+GDYEHDRRTVSRAELIGIMRPRVEEILEEVRARLDAAGFDHLPSQQIVLTGGGSQIPGLD
+GLASRILGQQVRLGRPLRVHGLPQAATGPGFASAVGLALFAAHPQDEWWDFDIPADRYPA
+RSLKRAVKWFRDNW
+>tr|B7RKP7|B7RKP7_9RHOB
+MEMTYLFIGAGVVLLAAALRCKFWAFSGQKPADYADDLLVLDMKKHLNGEMVCEGVIFGP
+AGRVTSSFVADFNVSWDGDTAQINEHFVYDNEATQDRVWTITLGAGGRFTATAPDVPGVG
+RGQHSGSTIQLRYPIKLPDELGGHTLQTIDWIYLTSDGTMINRSQFRKYGIRVAELVATI
+RTKDR
+>tr|B7RRZ5|B7RRZ5_9RHOB
+MTMINAYDNANAGDLDPDDKALIERRAQALGPAYRLFYEKPLHIVRGEGVWLWDKRGKKY
+LDAYNNVASVGHCHPRVVQAISEQLGVLNTHTRYLHEGVVAYAERLLATMPDALGHVMFT
+CTGSEANDIALRIARSYTKRQGVIVTRLAYHGLTEAVAELSPSLGAFTPRGKRIRLIDGP
+DTLRMSPEDQGVKLAADLGKAIAEMRADGIEPAALIVDTIFSSDGLYPDPAGFLRQAVDL
+IHAEGGIFIADEVQPGFARTGDAFWGFQRHGLVPDMVTMGKPMGNGFPLSGVAMRPELVK
+DFGNNARYFNTFGGNPVAAAAGMAVLDVIEDEALQANALSTGAFLKDGLKDTASRHAAIG
+DVRGAGLFLAVECVSERQENIPDAGRASFIVNHLRENSVLISATGPGANILKIRPPLVLD
+LNEAQLFLDAVETAFSASELG
+>tr|B7RHI3|B7RHI3_9RHOB
+MYSLGIILGSSSHQAGGLFNSVRRSAQALADLGVDVTVYALDDAPSAADTEAWKPLEPQL
+FPALGPQKLGMSPQMRAAIANANHDVLHQHGIWQYFSNYTSEFTRRTDRPSMISPRGMLD
+SWALGNSGFRKKIAGRLFEDQNLGAARCLHALNISEAQAISSHLKDATITVIPNGTDVSA
+DQQVNRPDILEKRPKNLLFLGRLHPKKGLDELIEAWASLNQGTTDQVSDWHLTIAGWGDQ
+EFVEHLHRSIAKTQLKNITLRGAAFGDEKDALFAASDAFILPSHSEGLPMAVLEAWGSGL
+PVLMTRHCNIPEGFTAQAAIEIPTDPTQMVAALRLALVRSDLRQLGVNGLQLVKTRFAWE
+KIAKEHDAVYRWMISGGQMPQSIWSGGL
+>tr|B7RI12|B7RI12_9RHOB
+MQDENTKVKILSAAQEILAKDGLDAVSFGAVARRIGHSKQAVLYWYPNKHALLNAMFLPW
+LSAEADAAEAAVSEATKNDDAIATFVRAVAVFHLKDLNRFRMMYLLPQTIGGKSKSGPKV
+VPGDSVHQITNRLYSALANRLSGEAGAARKKAVAIHSAVLGLVLLFGLAEAVEDPIKHTE
+TDLIDALIGSLTAVGA
+>tr|B7RI10|B7RI10_9RHOB
+MQAFSKGLVRLLAGCRAFALGKAALSMSGHVTRFCCVLRPGS
+>tr|B7RPG6|B7RPG6_9RHOB
+MGAVASMALAPAAFAAAHEGERGRDGEVKIIYWQAPSIMTPYLSGGTKDLEAASLVIEPL
+GRYDETGALVPYLATEIPTVENGGVSEDLKSITWKLKEGLLWSDGTPVTSADVKFTAEYC
+MHPEGGCAQGSKFDGVESIDIIDDLTLTVNFSEAKPNPYGPFMGAQSPIIQAAQFAECLG
+AKAPECTEANFNPIGTGPFMVTDFRPNDVIQMVANPNYRDPSKPAFASLTFKGGGDAAAA
+GRAVMETGEYDYAWNMQLAPDVLAKMAEGGKGMPISAFGTLVERIEMNMTDPSPDLPEGE
+RSTVMHPHPFLSDFKVRKALSMAIDRPLLVEVGYGQAGRPTCNLVPAPELYASDNTECLT
+QDLEGAKALLDEAGYTDSDGDGIRDKDGVKLSLLFQSSTNAVRQDFQALIKDWWNQIGVE
+VELRNLDASVFFGGDPGSPDTFQKFYADVEMYANNFDGTDPQAYLASYRCGNEPKPSSQW
+QGENINRFCNEEYDALLDELSRTGELSKRGEIAKRLNNIITKETMTIVPLVDRGRVSAAS
+STLGGVVLNTWDSELWNAADWYRMKE
+>tr|B7RNP2|B7RNP2_9RHOB
+MPEEESPRVGLINWSEWKKDGGKFFRITVIGAFAAWVGAYVPVINELVFSPWRLGDKVDA
+NTATLAHLVEDVKILQRPDVIFRITRSQVLGPPCGGGRSCAIELEIERTEQGRTCQVVPG
+ETQYSFRNPRNEASLFVRLDRPVQTQNVGSKPVTFQYQVTAPYGLEPNAEFCLEPLYIGC
+PGMTEGDSPIRATRSCTAVPVKP
+>tr|B7RHU1|B7RHU1_9RHOB
+MTEKTPVIEIRNLHKAYGALEVLKGVSLSAPRGHVISLIGSSGSGKSTLLRCCNLLEDSQ
+SGELLFKGEAVSWTGTGHNRRPSDAKQVLRIRTNLSMVFQQFNLWAHMTILQNVMEAPLT
+VLRRDRAEVEKSARAYLDKVGIGDKCDVYPAQLSGGQQQRAAIARALCMEPEALLFDEPT
+SALDPELEQEVIKVIKDLATEGRTMMIVTHDMNLAADVSDHVVFLHQGLIEEQGAPEQLF
+GAPKSERLRGFLSPGHVS
+>tr|B7RJK6|B7RJK6_9RHOB
+MTQITNAKILILSTNGFEQSELERPLNDLKSKGATVHVATPDGADIKGWDQKDWGQTVPA
+DKALADVAVADYDAIVLPGGQMNPDILRANKDAVALIKLFADAGKTIAAICHAPWLLIEA
+GIIEGRKATSYHSIATDLKNAGAHFEDSEVVVDQGIITSRSPEDLDAFIAKIVEEIEEGE
+HHRVAA
+>tr|B7RL53|B7RL53_9RHOB
+MFVRGHNASNDSRQKGEKPANVTPLSPETEDMFRSRFAIDADAVRQIFSRTVAR
+>tr|B7RMI1|B7RMI1_9RHOB
+MNRRTLGNQDARRIFLHRHLLGDTPQGPAKGADLLDLIEGLGFVQLDSINTVARAHDLIL
+FSRKPRYRPEALKALYERDGALFEHWTHDAAVVPMAYYPYWEMRRRRDAETLRKRYRNWH
+QHDFEGRFQKVLDQIREQGPVCSADVGKDEKRSNSGWWDWHPSKTALEYLWRAGALHVVG
+RDGFQKRYDLTERVLETHLCDPANAPDDARTIDWCCSGALDRLGFATHTELAAFWAHITP
+AEAKQWVTSELALGQLEPIEVMGTDGIARIAVARPGLGDDPALQAAPPQRLRVLSPFDPA
+LRDRKRAERLLGFSYRIEMFVPEPKRVYGYYVFPILQGDSIIARIDMKAFRTLDALVVRA
+LWVEPGTRWGKARQAALEAELARLIRLAGVSKITFEDGWLR
+>tr|B7RMP0|B7RMP0_9RHOB
+MRALKIAATGMSAQQMRVETISNNLANMSTTGYNARRAEFSDLHYQQLARAGSVSASDGT
+VLPTGVQLGLGVRPAAVSMQLAQGSLSVTGGDLDLAIEGKGFLEVTLPSGQAAYTRDGGL
+KRTGEGLIVTSDGFPVAPEIVIPEDARSISINASGEVFAYFDGNIAAQLLGQFTMSGFSN
+AKGLEAIGGNLFVETEASGAALVATPGLNGLGTLRQGYLEDSSVDAVREITELIEAQRGY
+EMNAKVISAADQMMGATTQIR
+>tr|B7RQD1|B7RQD1_9RHOB
+MAQAMKIAIVDDEQDMRQSISQWLALSGYDTETFPSAEEALKKLGPDYPGIVISDIKMPG
+MDGMQFLKKLMGSDSALPVIMITGHGDVPMAVEAMRVGAFDFLEKPFNPDRMSELAKKAT
+NARRLVMDNRALRRELSDGGQLMKKLIGGSPVMERLREDILDLGQADGHVLIDGETGTGK
+TLVAHALHAVGSRAGKKFVLVSCAALEEDALGKRLFGPMMPEDAQLPAIEEARGGTLVLE
+GIEALSETLQARLLSVINEQGTPAETRIVAISNLQEAGRTSEDALRSDLFYRLAALRITV
+PPLRQRGEDILTLFTRLSEEFADEYGCEAPQVSAQEAAQLLQAPWPGNVRQLINVAERAV
+LQSRRGSGSIASLLMSDHEEMQPVMTTDGKPLKEYVEAFERMLIDNTMRRHKGSISSVMD
+ELCLPRRTLNEKMAKYALQRSDYL
+>tr|B7RR28|B7RR28_9RHOB
+MSNTLKCISPIDGSVYLERSVLSLDDARAVCAQAASAQAAWAARPLAERIALVRAAVAEV
+GKTTDRMAVELAHQMGRPVRYGGEFSGFNERASYMADIAEDALAPMIIEDSAKAIRKITR
+EARGVVLVVAPWNYPYMTAINTVAPALIAGNTVVLKHATQTLQVGERLAEAFHAAGIPQD
+VFQNVFLDHNTTSALIAERHFGFVNFTGSVGGGKAMEIAAAGTFTPVATELGGKDPGYVR
+ADADLDAAVDGLMDGAMFNAGQCCCGIERIYVHESLYDAFVEKAVAWVKALTLGNPLEAD
+TTIGPMANVRFAQEVRAQIAEAVADGATALIDPFAADDGGAYLTPQILTNVSHEMRVMRD
+ESFGPVVGIMPVKDDAEAIALMNDCQFGLTAAIFTKDVDAADAIGAQLETGTVFMNRCDY
+LDPALCWTGCKDTGSGAGLSVLGYQALTRPKSYHLKKA
+>tr|B7RPX4|B7RPX4_9RHOB
+MITALLFSTAIPAFAQTTGAIAATDLNIRSGPGPQYDVVGVIPGGEETMVEGCLDTTPWC
+EVKFGEVTGWSSSDYLAVAVDEQAIALTARPASVEVNSVTYEDAEGTMKNQREGAAVGAS
+LGVLTGVAVGGPIGGIIAGGILGGAAGSAVAEPEEKTITYVTSNPVETVYVDGEVVVGAG
+VPTTVETYELPQEEYRYLNLNGQPVIVDAETNTIVRIIR
+>tr|B7RQN8|B7RQN8_9RHOB
+MGPYIYGARNGIHIMDLTQTVPMLDQALQVIRDTVAKGGSILFVGTKRQAAQPIADAAEK
+CAQYYMNHRWLGGTLTNWQTVSKSIQRLKSIDEQSERGFAGLTKKERLGMERDQFKLEAS
+LGGIREMGGRPDLIFVIDVKKEALAVAEANKLGIPVVAVVDTNCSPDGIDYIIPGNDDAA
+RAISLYCDLAARAALDGMSAQLGAAGVDIGAMEEAPEEEALIDGGVEVGAASTETVSNDA
+MSADAPLDLESKQETVEAAKS
+>tr|B7RGA8|B7RGA8_9RHOB
+MIEMDWIWGLIGGLTIGCGGAVYLLGNGRIMGASGIIGGLVDGSGRHEWADRMAFLAALI
+IAPALVVYFSGSIAQTNLTGNIVMVVLAGLLVGLGTRIGNGCTSGHGVCGISRLSPRGIV
+ATLVYIAAGALIVVALRAMFGGL
+>tr|B7RME8|B7RME8_9RHOB
+MIRWCAFVLLVWPLGPAAASQAADQARRAMAELETASAQLEAADGARDRVKALTQTIQAF
+EVGLGAMREGLRQAAINEAQLNKRLQSRDGEVAQLLGVLQSMGGTPSPTLFLHPQGPIGT
+ARAGMLLAELTPALNTRADALRADLEEVKTLRILQSDAAERLQEGLTEVQRARTELNQAM
+ANRTDLPTRFTEDPVRTAILISTSETLAGFASGLSEMTSEEIAPGPLNIDGQIGELALPV
+QGLILRRANETDAAGITRPGIILATRPRAIVTTPTAATIRYTGPLLDLGNVIILEPRANT
+LFVLAGLDLVYGTAGQVIGADTPIGLMGGPAATNGDALSPNGDGAGVERSETLYIEVREN
+NIPQDPQAWFRTE
+>tr|B7RS99|B7RS99_9RHOB
+MLRTLDRFVGAIFGLLGLVLIAMVGLSVWNAFSRYVLGNALLWADEVATFGMIYIAYLGA
+VACVWRGADIRMDILLNMLPAPLQRILKIIQQIVICGLCIWVGWLSWVYVSRIAQVGMKS
+TGAKIPLWAIHGTLTLGFALFAAIALLRLIHLILRGNESLSPSALAAEVIPE
+>tr|B7RRC2|B7RRC2_9RHOB
+MADAPEQYHIFHAFRVLEAAFPDAPRIGDARRPREDAIRHGQEAELKFPPSTLAEFTSPK
+NGKPGRLTNRFFGLFGPNGPLPLHLTEYARERMRNHRDPTLVRFADMLTHRMTTLFYRAW
+RSGQPVASFDRSDNDELQNKVAAIAGYHGAHLRNKDELPDLAKRHFAGLLAQGPKNASGL
+QSILQAFFGARVEVQEFVGCWLELEKGDRWQMGAPAQLGRTASIGDRVWTRSAKFRLRIG
+PLSYEDYQRLLPGGSSLGRLRAIVRNYVGDALDWDVNLVLRAQDIPKAKLGETVRLGQTG
+WIGDKKITKDADDLFLEPNFQSHAAPII
+>tr|B7RGX4|B7RGX4_9RHOB
+MRHGPTHEKTLVGWRDVPADLSDIEQIARLSAHLPDDALVVSSDLIRAIATADVLAHQTR
+NRLPHEPGFRELDFGIWDGLHAKDVSEQHPELSRAYWTTPGDVAPPNGESWNQAARRINT
+AVDRLNAAHPDAHIIAVAHFGAILTQVQRALDVGPKDAMAHKIDNLSATEIHFGKDGWHV
+ARINHAP
+>tr|B7RG23|B7RG23_9RHOB
+MAPQRPKGAGALDTPPALSPAPVPPRSTELYAALDLGTNSCRMLIAQPKGSGFHVVDSFS
+KSVQLGAGLEKTGRLSRGSMTRTIQALRICQQKLRRNKVRRMRLVATEACRRASNGAEFM
+ARIQRETGLKLDIIKPEEEAQLAVISCAPLVNRKTHNLLVVDIGGGSTELVWIDISKVPK
+ADRARSIMRLHGGFHQAKTGIPEARVVDWISVPLGVATLRDQFSDVEDDAARFALMSWFF
+EENLQSFTPYQSTQSQDHFQIVGTSGTVTTVAASHLGLKRYDRTKVDGLRMSSTQIDKVI
+HSYLAMGPGGRRADPRIGQDRQALIMSGAAILQALMRCWPTDRLSVADRGLREGLLYAQM
+SADGVLEEGIG
+>tr|B7RS43|B7RS43_9RHOB
+MGCACALRWSTLFGGSDATGTWDWKLAYEACEVALVLFLRKFGRALLVLAGSPTALLPIL
+AKVSNLLPNHTRRSEEMDRFQQSSTPLPMGFAALTAAQISARDLVLEPSAGTGLLAILAT
+IAGGSLALNELAETRADLLRLLFPESPVTCFVAAQIDDYLDAHLRPSVILMNPPFSALVS
+DVSALGTDLRI
+>tr|B7RMR1|B7RMR1_9RHOB
+MSFAVPARHALAIGPWDATIGAPVRERTRLDRGPGQPHRPNLFLVHRA
+>tr|B7RH90|B7RH90_9RHOB
+MYPGTDPMCADGAAMSFLEAWMKKEDPPQTLGFVYMLLGDEGASNTDPYATEETAENQWV
+VAGPHVMIVGSEAKQMLESYPQEVPEGANQPWVMWPGTPYAHLMIPVE
+>tr|B7RQ23|B7RQ23_9RHOB
+MAKSADAFRTISEVADWLEIQAHVLRFWESKFTQVKPIKRAGGRRYYRPADMLLLGGIKR
+LLHDDGLTIKGVQKILREEGMSHVAALSAPLDEVTQADLNQNDQDMIDMPASAAKVTTVD
+VKEPVAESVVLPFEASRADKVSENTQPDMTAKDQSTLTEPEIEETADPDQDVLPSPPPQT
+IATPPVEAEDRLAAPPQAIDEPTAPADTEAAETSNADTLAPETQTPPASDSSKTAPTTEA
+DNAKADIAPDAATQEPEPVQQIASPEPDQDTSDTATDTPKFLRRPAPEQISATHNTTPAP
+KQEPPAAAPKPRVIDLPPIPSEADMSPAPTGLASMLTCKRVSPDSARKIAPVLARLQAMH
+DSMPADHSPSAKD
+>tr|B7RHK7|B7RHK7_9RHOB
+MTKTPTDQDQAEHKRDAITVPPAHKTPNTTTPDKATPKPVAEDDAEEDFFENVPV
+>tr|B7RKX4|B7RKX4_9RHOB
+MKLTQISDEQKVEAALRNQVNLAREPEQVFLNPWADDGVTLLAEPPYFWRTCPAAVIEGV
+GASESEALNDKIEAFLTQTRRHRKFKQPIVYASVPAILDEVGFRKSFIMAQDRIVLGGAP
+GTRAVNRFRWANEAEEFDPQQRLVDYFAESLEANQGKKLTIDPEALGPDVDFAITCRNTF
+NYYHFVTESLCQLCVLDDLDFQGRIYIHFPNNERKLRDFTRNFVAVLFPEYKGRVFFERA
+PKDYDRVLTAFDLMGVHYLNPYIEPNRLNKLSPSDQIWQGQTPTVAAQGMLQMNTVGSSL
+IALRERALRTIEGLDFSDLPKKFYVGRDTRQSRTRHMEGEDKLFDHLKMFGFEYVVFENM
+HPLEQVALMANAEIMISYHGAGFTNMLFASPETYVIEIGTLQTAMTRWGDFWPVANAAQC
+KYVSFYADYKGVAPGDEPNPFKEELLPTALSHQGAGQLMAFVVALDGHIPDMPTSGDLLK
+LARTLFRVGAVDKALCVLEAHPKLLAGHMDLLLLLADCHKEADAPKSELMAIDAAFKADP
+SRWQTLVRMVWCANRCERPQVIRWAMARLQADFPERHDAFLKNHDWVRYVV
+>tr|B7RL57|B7RL57_9RHOB
+MARDYPLNRYRNFGIMAHIDAGKTTCSERILFYTGKSHNIGEVHDGAATMDWMEQEQERG
+ITITSAATTTFWQRQELPEADATSDTKYRMNIIDTPGHVDFTIEVERSLAVLDGAVAVLD
+ANAGVEPQTETVWRQADRYKVPRIVFVNKMDKIGADFFNCVKMIKDRTGATPAPIQIPIG
+AETELEGMIDLVTMKEWVWAGEDLGASWEQREIRADLKDLADEWRAHLIETAVEMDDDAM
+ENYLMDGAEPDEATLRSLIRKGTLAIKFIPVLCGSAFKNKGVQPLLNAVIDYLPSPMDVV
+DYMGFKPGDETETRNIPRRADDDMAFSGLAFKIMNDPFVGSLTFTRIYSGKLNKGDTLLN
+STKGKKERVGRMMMMHSNDREEIQEAFAGDIIALAGLKDTTTGDTLCSTADPVVLETMTF
+PDPVIEIAVEPKTKADQEKMSAGLARLAAEDPSFRVETDIESGQTIMKGMGELHLDILVD
+RLKREFKVEANIGAPQVAYRETVSREAEIVYTHKKQSGGSGQFAEVKMIITPTEPGEGYS
+FESRVVGGSVPKEYIPGVEKGIKSVMDSGPLAGFPVIDFKVALIEGKYHDVDSSVLAFEI
+AARMGMREGMKKAGAKLLEPIMKVEVVTPEDYTGGIIGDLTSRRGQVQGQDTRGNAIAID
+AQVPLANMFGYINTLRSMSSGRANFTMQFSHYEPVPQNISDEIQAKFA
+>tr|B7RHT6|B7RHT6_9RHOB
+MARYIFITGGVVSSLGKGLASAALGALLQARGFSVRLRKLDPYLNVDPGTMSPFEHGEVF
+VTDDGAETDLDLGHYERFTGVAARKTDSISSGRVYSTVLEKERRGDYLGKTIQVIPHVTN
+EIKDFLHIGDDEVDFMLCEIGGTVGDIEGLPFFEAIRQFSHDKPRGQCIFMHLTLLPYLA
+ASGELKTKPTQHSVKELQSIGIAPDILVCRSEHPIPEKEREKIALFCNVRKDAVVAAYDL
+ATIYDAPLAYHAQGLDQAVLDAFQISPAPKPDLTVWRDVSDRVHNPEGEVRVAIVGKYTQ
+LEDAYKSIAEALTHGGMANRVKVKVEWVDAEVFDKADDVGPHLEGFHAILVPGGFGERGT
+EGKIKAAQYAREHKVPYLGICLGMQMAVIEAARNVAGLATAGSEEFDHESSGKKRFEPVV
+YHLKEWVQGNHKVERKLDDDKGGTMRLGAYDATLKEGSHVAEIYGTTAIDERHRHRYEVD
+TAYREQLEKSGLTFSGMSPDGKLPEIVEWADHPWFIGVQFHPELKSKPFDPHPLFKDFIR
+AAKEMSRLV
+>tr|B7RJB3|B7RJB3_9RHOB
+MPHRTFLTKCSKAFNIMEKPEAEGRPGISLFSWYFILI
+>tr|B7RLS4|B7RLS4_9RHOB
+MPPRRTSTKGFKRTDSLLSAKIRQASETRGFAQSRLLTQWAEIVGEDVASISRPVEVSYG
+RAGMGATLTLLTNGSNAPMLEMQKEQLRAKVNAVYGYNAIARVRVTQTAATGFAEGQVAF
+EARPKAHAAAPADPVLRQRATETVGAMGDESLRDALARLGENILNKTKR
+>tr|B7RI75|B7RI75_9RHOB
+MAVFHTTQTTYGTAAAVNRFFSHLGDIAGNVVAWNDARVTRNALSSLSDRELDDIGLVRG
+DIDKVALNHFIR
+>tr|B7RJ16|B7RJ16_9RHOB
+MPSDRLDPYGTKKRFERTRAAWGKLTKINVPERGSVTSKVMVLSASPDIDIIGCNVAGTI
+PGLMLHRVGRSPNAVAYSEFHGGAWRAVTWQEMAQIVARYRTALQFAGLVRGDRVAVLLA
+NCIDWIAFDIAAMANGLITVPLYPHDSAANIRFILAHSGARLCLVDNAGRWNTLAADLER
+DVSLREVWTRSGDQAPRNVHGTDIRCLSDVLSVAEGDPGPLRCAAQDIATVIHTSGTTGQ
+PKGAMLSHHALLWNAEAVTEFIPPLTSDIFLSLLPLAHSFERTATYHMAMMGGSRVVFAR
+SIDTLRQDLLEVRPTILVAVPRLYERICEAVQSKAAHSPITRRLLGQAATIGWQHFEARQ
+GRAKPPGAITRLLVWPMLERLVARPVLRAFGGNVRVAVSGGAPLSLEASHFLIGLGLPLV
+EGYGLTEAAPVVTATTLKDCNPGSAGRPLRGIEIRLGSDGELLVKSPSLMSGYWHDPERS
+AAAIDQDGWLHTGDIAEFHAGRLFITGRLKDLIVLSTGKKVVSATVEAAVVADPLFEQCC
+VIGDNRSCIVAIVVLCQDRWEVFAKQHHLDPADPNMPTAAAALLTRVTEAMRDPPPFAQI
+RAVHAVLLPWTVEDGSLTPTLKVRRQVIEHRYQTVIEQLYARQARHRQTNS
+>tr|B7RNY9|B7RNY9_9RHOB
+MTRILVLYYSSYGHVRALAQAEAEGARAVPDTHVDIRRVPETVPDDIQQKAGFAADDTPV
+AVPADLESYDAIIFGTPTRFGMMAGQMKSFLDQAGSLWARNALVGKVAAVFASTGSQHGG
+HEATLLSTQIPLQHFGMVIAGMPYSFAGQTTAEGIVGGAPYGAGTIAGADGSRTPSEIDL
+AGARFQGAHVTRIAARLAGLNLQEEAA
+>tr|B7RGP9|B7RGP9_9RHOB
+MVVEKPTLETVWGWLDAVPDPEIPVISLTDLGIIRDVQWQDDTLEVTVTPTYSGCPATTI
+INLDIATALRGHGIEKLALKRQLSPAWTSDWMTDSGRAKLEKYGIAPPQPAGGPQHCPRC
+KSTHVEKISQFGSTPCKAQWRCTDCLEPFDYFKCI
+>tr|B7RIV5|B7RIV5_9RHOB
+MKLAAALVLAATPALAIDVPSGQPVDLQEVLVDEIGAETWLRFRFTAPQIARDGGHIGHA
+QAGPDMAFLCDTLVIPYMAQYALAGDMIVISLADRVTEFGAVDPDATQFFEAFRVNGDTC
+IWEAL
+>tr|B7RRG4|B7RRG4_9RHOB
+MTFARRMALALSGCVMAGFFALPAGAAETVVHVSLWDRGHTPMMYGQQHMGLMGADMPMV
+MMGITVNRTQVPTGVVTFRVTNNSADMIHEMVVTPMRSLSTPLPYIRDAQRIDEDAAGHL
+GEVAELNPGQAGALTLTLRPGTYILYCNLPGHFAARMWMLLTVTA
+>tr|B7RLJ1|B7RLJ1_9RHOB
+MIFMRFVVMIALGLAFGPVTAQAQDAQTLADVRQELTVLNVEVQKLRRELSTTGGASVNF
+TGGSVLDRVNAMESELQRLTSKTEELENRVNRVVADGTNRIGDLEFRLVELEGGDVGALG
+ATSTLGGGEMPATNTAPIAPAAPSTNTAELAVGEASDFERAKAALADGDFRTAADQFATF
+NETYPGGPLGSEADLRRGDALRGLGDIREAARAYLASFSADPVGPVAPEALYQLGQSLGA
+LGQVQEGCVTLDEVATRFPASPFVPQAQAERAALSCQ
+>tr|B7RQ88|B7RQ88_9RHOB
+MRIGQKMSDTDSFIDEVNDEVRRDRFYFMLKRYGWIAVLAIVLIVGAAAWNEYQKAQARS
+KAEALGDAAFAALTLQDTEGRAAALSAVETDSPRAAAVLGFLTAAEQVEAGDKSAAIETL
+NAIAVNGEVPAIYREIAQLKSVTLQGTETPVSDRRLALEALAQPGNTLRLLAEEQLALIE
+IEENNPQGAIDRYQAILLDAEVTADLQQRALQVIVALGGEPDMGSAAPLAGSDGTPQADT
+ESK
+>tr|B7RQ27|B7RQ27_9RHOB
+MAVQQNKVSKSRRNNRRAHDSLSAANPNECPNCGELKRPHHICAACGHYDDNEVVAMAEE
+VDLDEDAA
+>tr|B7RQ51|B7RQ51_9RHOB
+MGKTGRMTDQPDILCIGSVLWDIIGRSDNAMRQGSDMPGRITRLPGGVALNIAMALARFG
+LAPALISAVGRDTEGDELIAACQLRGLKTDHIYRSDDLPTDQYMAVEGTNGLIAAIADAH
+SLEAAGDKILRPFADGSLASPYGGAVALDGNLTLDLLSEMARSPLLAQADLRVAPASPGK
+ALRLSPFMQAQRGTLYVNLEEAGLLCQTSFSKSQNAAEGLLARGAVRAVVTDGGNPATVG
+QRTGLITQHPPAVLVTRVTGAGDTFMAAHIAAELQGAAPDAALTQALAAAAQYVSGETKI
+>tr|B7RS17|B7RS17_9RHOB
+MDPVLIGEILAALMFFGVIGFLLLGFPVAFSLAGVSLLFGAVGLALDVFDPSNFGSLPNR
+YIGFMTNEVLVAVPLFIFMGVMLERSQIAEQLLLTMGKLFGNLRGGLGISVVLVGAMLAA
+STGVVGATVVTMGLISLPAMLRAGYDPKLATGVICASGTLGQIIPPSTVLIFMGDMLSGI
+NSQVQMAKGNFAPVPVSVGDLFAGALLPGILLVSLYLSWVVFKAITDPESCPATPVPADE
+KSELLREVFVALVPPLLLVLAVLGSILGGIATPTEAASVGAVGAMILATLRWRLSFKILN
+ETVIATATITSMVFVILLGASVFSVVFRMMGGDNLVHEFLSNLPGGTMAAVVVVMLIMFF
+LGFILDTFEIIFIVIPITAPVLLALDVDPVWLGVLVGVNLQTSFLTPPFGFALFYLRGVA
+PASLPTSAIYKGILPFVGLQIVALAILFAFPGIVTWLPRLIAN
+>tr|B7RLT3|B7RLT3_9RHOB
+MPAPHNPFKQSLKDGETVFGCWLALADTFSTELMGTAGFDWLVIDGEHAPNDLRSILAQL
+QVLEASSSHPVVRVPIGETYMLKQVLDAGAQTVLVPMVDNADQARQLVRDVTYPPHGDRG
+VGYALTRAARFSQTADYGTTADDQICLLVQVESVKGLANLDDILTVPGIDGVFIGPADLA
+ADMGHMGNALHPDVQAAIMGALGKIDASGKAAGILSTNDGMTHAAIKAGARFVAVGADVL
+ILSHSAQALAGKWRDTLK
+>tr|B7RQ58|B7RQ58_9RHOB
+MSAGTYVCINATEAAAAGFTGVGAGTAAGIGLVVVAAAILSNDDETNGTNGTNGTNGTTG
+TN
+>tr|B7RR77|B7RR77_9RHOB
+MTEVKATSLTGHILRRTDDPNGKEPEMRTNSFPPYDVSENPTGCCPRFNPVGWDNQHLHF
+VDKKFVRATTRSAMHIPWNMGVVFTRVQGHIEDADAADPAAEIVLSHDISAWEGEHFFAV
+QKDVPGEEMTTLSGDFYTRVFEGPYRHARYFDHDMRIAAKAMGKTARDVFFFYTTCPKCA
+KVYNENYMVGVAHLQDAGRRVNPPPR
+>tr|B7RG12|B7RG12_9RHOB
+MAGFTDTQIGWLQTAVGKKGEFANALKHEQEKSEALERLLGDVGELGSDLVAAQDFSVEW
+TEKQRKHFWSQTKTETRAVKSMAWADGDRDSEIDTRHDLRETFDPVTGEGARMQVDPEKA
+RAVQKMHEKLIELQTRMEEATDSDGNPLFTARDIERELWSPLVKANVIPSNAVADKYSQE
+AQVFNGACEIYGEKLKDYTKTASKHDKLKRGLSIAKDTVSLFGTGVSQAIAIGNFEGASM
+SQQDKNELTDLTAQKDAGTLAEGDAAKLQALQAQSDIAARAKQQQAYATLAFGLANGAFD
+LADKALEKPSEKQNWKIAEMAFEVLAKTALDSISADQAERAVSDQDTAKSQDYKAATNSA
+KKLVSYSLAGSKVVFRFKEILDAPDGSRTSIAKALAGTVADAVGNAFAAFDVPSGNDANG
+NSVEGTNGQWAKIGAYVSAGIVGAANAAEIAKLVHDSANSGKAINGKALMAAIGLNVVEG
+IMIGTYEPASSGVRQDVGDDVHATSPTQETEAMKGLREGVTATDVNAMTNALKGANGLFD
+AFPVSHVVDPEKLQAKLALANADQEAIAREAEFKDYEKRIKSDPAFKAALEADIAKETSE
+RQKELMTLIEDATPTPEDLADQAKAKKALDSIDKMIAEAEAVKTKWAVLDQLTSGGVGIL
+VKFLPGASIAGAIRQLAFDVAYLIKKSEELNLWLTNTALTYGNDSVYGPAITSRLANAKI
+QVSQKTLNTLFSLTGVVMESLRLADITGAATAGSIANTMARALSDYGYKMQKEAEISKGW
+GLYKKARLPENQGDRKLARKAMRWNSTLSKCVLAYGIVKDGDPVAKEVARNCGMTPEILQ
+DDSEVCQKVVTYFMSVYSDDPVILHRVPIAKDWHPGTPELSLTSWIRFKAAASTKAAPRI
+SSSSAKTPALDKHFAKLTALCDGGPGYGAKRDKDYPKTDQTKRTSDAYGTFLTDAMQAAD
+GLVTAFDAYVPVNDAPSGEGEAWTENASHEQMIAVSESFRAQAVILRSEIKFDIAERQAL
+IDAGADAEEELDIAELFDA
+>tr|B7RKH3|B7RKH3_9RHOB
+MKPRPVETDAGVPSGGRWNLWLGGGTLVLVALCLFVWFPRDISSGFLKKSLTGNTIPGDA
+FFPVLLVMLMVPLALLLIVGALRAGQGGGEAVGRVSLQNLLFLLYASLATGGALVLMALG
+GPLVVWVSNGMGLSDFTSYRAASGTFPYNVSGFFLGGTALSACYIYITRRRLRGRDLLVS
+ALSTALLILIFAGLLDNIQLPPNADL
+>tr|B7RKI9|B7RKI9_9RHOB
+MTELTTVNPATDKPIAEYPLMDKETAFEKIESAHAAFLDWREKTHAERAPYLNAIAKALR
+ENVDDLAQLMTQETGKLLRDGKGEVELCAQIFEYTATQGPDLLADEERTHSGGKKRGIVA
+HCPIGVIYSIQPWNFPVYQPVRVLAANLMAGNAVVLKHAEICTGTGLMLKEICAKAGLPD
+GLFEVIIIDHDTSDEVIAHDLVRGVTMTGSDGAGRKIGQTAAKHLKKSVLELGSNDAYLV
+LEDADVELAVKTCVQGRLYNNGQTCVSAKRFVVTDAVYDAFVDAFVAQMKTIRMGDPTSD
+DTQLGPLSSEEQFATIKEQVEKSVAKGATLLCGGDPDDRTGQYYPATVLADCQPGSPAYD
+DEIFGPVAAIIKAKDDADAMRIANDSRYGLGGGIFTKDEDKALKLARDHFDTGMVRLNSF
+GTADPNMPFGGVKDSGFGREHGGFGMKEFVNAKAIYLP
+>tr|B7RFM5|B7RFM5_9RHOB
+MDWYQTIFEVIDMRSFSNLWFWIALAVVWSSASHWVLGVPYDMVLRARRHGEQAQVDLED
+MVRINVNRILYIAQVSGIWILGFSCFFLTMLVILAVFYGFQFAQAVLLLAAPISIITVLR
+LSTAQQIHEESATGDLLYKRLTRHRIYTQIIGMVSIFITSMWGMYQNLYVGPFGG
+>tr|B7RG80|B7RG80_9RHOB
+MTDDTFDNLGEGAERLNGTLAETSGLVSGFDSELRRMRTALSGTGKDVATLEKGLSRGLR
+RAFNGVAFDGLKLSDALSTVARSMVNTTYNAAMKPVTDHLGGLISQGVGSLVQGILPFAN
+GAPFSQGKVMPFAQGGIVSSATGFGMRGGMGVMGEAGPEAIMPLARGPDGKLGVKGGGSG
+GTTVVMNISTPDVQGFQRSQSQIAAQMSRALSSGNRNR
+>tr|B7RI60|B7RI60_9RHOB
+MKLRENTFLRAIRAGQQQVGLWISLSNAYAAEAVAPAGYDWALLDMEHSPNELASLLGQL
+QAFAATDTTAIVRPDWNDAVKVKRLLDLGVPGLLFPMVESVEEAQDAVAACRYPPHGVRG
+VAGTTRANGFGRIKDYYSEVEKQTAILIQLETVQAVENALAYGEVDGVDGIFFGPADIGA
+SMGHVGQPMHPEVWQLIRPAARALMSRGMPVGTLVSDPAFAAELLNEGFSFVACGSDAGL
+LAKGADNLLGQVKSALK
+>tr|B7RK92|B7RK92_9RHOB
+MSQTAPEDLRNADPKRRIIFYSHDTFGLGHLRRSRALAAALTEGDDHASAIILTGSPVAG
+RFTFPKGVDHIRLPGVTKLADGSYVSQTLGLDIDEITALRAGLIKTAIEKYEPDLLIVDK
+EPSGFRGELLPSLEWLRDHGNTKTVLGLRDVLDEPEVLAAEWARKGAVAATEAFYDEIWV
+YGMHDVYDPTKGLPLSDAARDRMHWTGYLRRETTDEVDLPQHPYVLITPGGGGDGAAMVS
+LVLEAYEKDPDLSPNAVLIYGPFLSGDVRDAFDARVEKLNGRVTAVGFDSRIEALFVGAE
+GVVCMGGYNTFCEVLSFDKRAVIVPRTVPRLEQWIRASRAEELGLVRMLDETRDGMTADA
+MIAAIRNLPHQNKPSEAGADGLLDGLDVVIKRGRALMDGTA
+>tr|B7RKN1|B7RKN1_9RHOB
+MKETPMLDATPTPDAQVETLLEVNNIEVIYNSVILVLKGVSLKVPKGGITALLGGNGAGK
+TTTLKAISNLLHSERGEVTKGSIKYRNEPVHKSDPAEMVKRGVVQVMEGRHCFEHLTIEE
+NLLTGAYTRSDGKAAIARDLEMVYDYFPRLRERRKSQAGYTSGGEQQMCAIGRALMSRPE
+TILLDEPSMGLAPQLVEQIFEIVKSVNEQEGVTFLLAEQNTNVALRFAHYGYILESGRVV
+MDGPAADLRENQDVKEFYLGMSDEGRKSFRDVRSYRRRKRWLS
+>tr|B7RLI6|B7RLI6_9RHOB
+MLVDDDQVDQMMYKRVIDRSGLVRKIISFQYPDKALEFLKAPDCGEIDVLLLDINMPRLN
+GFEFLERAVAEVGPAFAKVVVVMLTTSLDPKDKERADSFSIVKAFLNKPLTAADLEYISS
+LLLDPK
+>tr|B7RP98|B7RP98_9RHOB
+MFAPKKKDIPMPALLDTVDPQGLEEFSVVFTDRSLNHMSAAFQGVMKDISALLKEVYHAD
+AVAIVPGGGTFGMEAVARQFARNADVLVVRNGWFSYRWSQIIESGDLTGSATVLKARTTG
+NSTPAPFAPCPIEEVVDTIRSQKPQVVFAPHVETSAGVILPDDYIKLMAEAAHEVGALMV
+LDCIASGCAWVDMRALGVDVLISAPQKGWSASPSAGLVMMSERAVAQLAETTSDSFSLDL
+GKWYSIMQAYENGGHAYHSTMPTDALRGFRDAMKETKAYGFARLKEAQWRLGDGVRKMLA
+DQGVVSVAAEGYGAPGVVVSYTSDPLVQNGKAFAAEGMQIAAGVPLMCDEPDDFKTFRLG
+LFGLDKLYDVDGTLARLARVVDKVL
+>tr|B7RIY0|B7RIY0_9RHOB
+MADVKTIRSRAGTRAAAIDEGLRAHMNKVYGTMSIGMLITFAAAWAISGLAVTNDPAAAV
+AQIGADTYLTSLGSALYLSPLKWVVMFAPLAFVFGLGAAMNKISAATAQTLFYAFAAVMG
+VSISSIFLVFTGYSIIQIFLITSISFAGLSLWGYTTKKDISGWGSFLIMGLIGLIVASVV
+NIFLASPALVFAISAIGVLIFAGLTAYDTQNIKNTYLAHAQHGDQEWLQKSGIMGALSLY
+LNFINMFMMLLQLFGNRE
+>tr|B7RGC8|B7RGC8_9RHOB
+MGILTSLLRSATWWNGQTLNTQLFTWRKGTKVGEDAQGNIYYRNADDSKRWVIFNGEAEA
+SRISPDWHGWLHRTWDETPEDKPLVHKAWEKPHQENLTGTPLAYAPAGSIRREHPKDRGD
+YEAWSPE
+>tr|B7RMX6|B7RMX6_9RHOB
+MTFPSHDLDSAPEASKPLLEKSQKAFGRLPGLHKVLAESPQAYEAYQVLHKLFTETDFNA
+EELTVVWQAINVENECHYCVPAHTGIAKMMKVSEEISEALRNETALPTPKLEALRSFTVQ
+MVRNRGNVTDAQMQAFFDAGYGHRAVLDVILGMAQKTMSNYVNHVAQTPVDEVFKPLAWE
+RSDTHLKV
+>tr|B7RL55|B7RL55_9RHOB
+MGIGLGRTTPDAVQHTFPSGVELGLRQGNAALVQDAPDTCRKTTLARDN
+>tr|B7RH28|B7RH28_9RHOB
+MLARPAVDAGEAAWDGYVHLRDNPAGQTRDLWQHEAGCGAWLVVTRDTVTHAVFSVQLAS
+DVKGTTA
+>tr|B7RHI4|B7RHI4_9RHOB
+MAWHRYPCYCFTNRQRFKYRHLAKWWYPWFYFGFTYVVKLGMLDGGAGFHYAAYKSWYFQ
+TIRLLIREQSALKDH
+>tr|B7RM97|B7RM97_9RHOB
+MKYLRNTALGLTLGVTGASFAMADSHATELTIAIVNNGHMINMQSVAEAYTADTGIKLNW
+VSLEEGVLREQVTSDTATGGGQYDIINIGMQEAPIWGAAGWIEPLEFSPEYDIDDMLPAM
+RNGLSHEGTLYAAPFYGESSMVMYRKDLTDAAGVTIADNDSWDNVRAAAAAIHDPDAGVY
+GVCLRGKPGWGDNMAFVTTVVNSFGGAWFDKDMRPTLESDEWKAAINFYVDLLGEFGPPG
+SEGNSFNEILALYNEGKCGMWIDATIAASFLTVDGVAYAQSPNAGNAVGANWLWAWAMAV
+PTGSPHSEAAHDFVEWATSKAYVQAVANHPDFGWGSVPTGTRASTYAYPEFQAAAPFAAA
+EMAAIESAAPEATDMKPYVGVQFAAIPEFPEVGSAVAQEIAAALSGAKSVDEALAAAQSA
+ADNIMSEAGYY
+>tr|B7RNF1|B7RNF1_9RHOB
+MQLMMGGINGNYLTNITLNAATETQEVLAAVAYVTEMDLLFDWCWNNGIPLKFYGRLDEG
+VPVKPSILSTFLDRKSARFQCRLVQHHHAKVIWWREYGLYIGSANLTASAWYKNVEAGCF
+FPEAEITDEMADDILELFNVLNRNSTPLTEELLAVMLKRAKQIASSKPPSEEFWNSPSFN
+KWSGLVQTGKKKATDRRRAAFLEEWHSTLQQLRDIGNLVSKPENRPSWVDADAPAGAQGD
+QFLHAHYYQRTFDGRRALYTEHFERNRKNPDTAVAEAISWWRSLSKAPWEEDVMLNSTAP
+MLREALTAEAIDEMDYSDFREVCMGIHSIKDYARRVANKAVGLREDGTKYTIPEKVDALS
+KRIWGDKSAGGNDVKQLLNFILYGGSEAQLPERLWTAVHDPKWKIEGLGISALGELVGWA
+LPDRFPPRNGRTSKSLMSLGYDATVHVR
+>tr|B7RQ53|B7RQ53_9RHOB
+MRNTLSLILRKLAYGLILSSALAGIARAHEVVPTIADLTVTQGAAELSLRINLEAFLAGI
+DLDAVEDTDNAENANDYDALRAMPAEDITARVPELLARWNALPLFRTDGSAFPLETLSVT
+VPEDVNDELPRISQWVLRGTVPENTRGVTVAWPAGSGALVLRQQGVDAPFTGYLEGGNQS
+PEISLGGGGQQSASSAFLAYIPVGFDHILPKGLDHILFVLGLFFLSTHLRPLIWQVSAFT
+AAHTVTLALGALGLVTVPGSIVEPLIAASIVYVAVENIFASGLNRWRPVVIFCFGLLHGL
+GFASVLGEFGLPEDQFIPALIGFNVGVELGQLTVIAAMFLCVWQALRVSRGETGAHGAKV
+LYVGLAVLALIICAVPMPNVAEVLEAPVPLFAVPIALVFTACFLSVQFRQLADPYRRFVA
+IPASVGIAIIGAYWFVERVFL
+>tr|B7RHU6|B7RHU6_9RHOB
+MKIGILQTGHSPDNMKDQLGDYGEMFTKLLGGHGFDFKIWSVVDGDFPASAVDADGWLIT
+GSKHGAYEDHDWIPPLEDLIRAIRETGRPLVGICFGHQIIAQALGGTVEKFSGGWSVGRT
+EYTVNGQPMALNAWHQDQVTAIPSSATVVGSSDFCANAALLYDDQIWTIQPHPEFGSDFI
+DGLIRTRGKGVVPDHQLEAASALLEKPTNNADIATHIADFFKKERP
+>tr|B7RN74|B7RN74_9RHOB
+MATEWPRCEKSKYSRFIQSLIVFIYQTHPVQRARLLTMAKIAYILLCHKDPDAIIRQAER
+LTSCGDYMAIHFDASASETHFQQITKALADNPSVTFARKRIRCGWGEWSLVQATLNAVES
+AVDAFPRATHFYMLSGDCMAIKSAEYAHDYLDENDVDFIESFDYFESDWIKTGWKEERLI
+YRHWFNERTQKRRFYWMFELQKRLGLTREIPEDLQIQIGSQWWCLRRQTIEIVLEFTKKR
+KDVMRFFKTTWIPDETFFQTIVRHLVPGSEIRARTLTFLMFTDYGMPLTFYNDHYDLLLA
+QDYLFARKISSEATDLKRRLGLLYSAKGVGFQISNEGRSLFNFLSGRGRIGRRFATRFWE
+TESTLGRERELLIVICKKWHVAKRVLERIRQTTNLPSIEYLFNEESTPLPDLGGIQKTLG
+KRTRHRRALMRMLFDYYDTDRLIVCMDPGNIELLHDFASDRSVTRILEIECQFSDDYLVG
+HAMRVGLAGERTADDTLQRLLPTIRNDMVFESDRIRDSQFEHYGRMREIATTEENAATLA
+AFLQIPREKAHEIADTHYLFSD
+>tr|B7RJA0|B7RJA0_9RHOB
+MPPLSILLTGRIFTAIIVFLIWIPAIIFSGGLTHPMFILLAWILIYQSHEDRRAR
+>tr|B7RPP5|B7RPP5_9RHOB
+MADIFLIALYITIAKGIGIGRLEVAWGLYLFTGCILASLWVSWKTQQTLQDRRAAR
+>tr|B7RKD1|B7RKD1_9RHOB
+MLDVVNLDLHYGQSRILYEMSFEAPQGQITTVVGNNGVGKTSLLKAIAGRHPASGGTITI
+GGRPVRLSTAFQAARAGIGYVPQGREVFPMMTVLENLETGFACLPKAERFIPDAIFDLFP
+VLRDMRARRGGDLSGGQQQQLAIARALIAKPTVLLLDEPTEGIQPNVIEQIGDALRLLRS
+QGEMAILLVEQNADFAYALGDSFIVVEGGRTAPRKLKADYSKEMLIADLAL
+>tr|B7RJW1|B7RJW1_9RHOB
+MMEILIVESQSDLGALWQRHLERQGMEVACVTTQEGAISWLSIHSADIIILDLFLKDGTA
+LAVADYANYKQPKARIIFVTNTSFFSDGSIFAHCANASAFVPSGTPPEDLAALVEHCGSR
+VG
+>tr|B7RH16|B7RH16_9RHOB
+MVILVSTTSSAWRYRFKRRALKLPSEKYEKSLSGLFCDIPPQRDTGPFHLMWFARM
+>tr|B7RJE9|B7RJE9_9RHOB
+MKRILGTTAILLSLSGAAFAESHTSAGFGTTTAEQSDFFASDLIGMRIYNSETEVDGNAK
+IADGAEAEWDDIGEINDILLDENGDVKAVILGVGGFLGMGERDVTVSMDAIKVVMEEGDS
+NDRFLVVTTSKEELEQAPEFDRAMDDDVAAAAEEVDQATDKAAKEVDQAADEAAKEVDEA
+ADKTEAAAENAEAEVENADADQERAMLARPTAEYEGFADANMEEMQGLTAEELEGTYVYG
+TNDETVGEVGALVLDDAGKVTAVVINVGGFLGLGEKPVAVTWDELQVLKETDGDDFRIYI
+DSNKEALEALPEYQD
+>tr|B7RHY5|B7RHY5_9RHOB
+MIGVSTVVMYGLMYLNTYALDHIFFSQTRMWMALYMGGMMAIIMLAFMLGMYTNKKMNTA
+IFAGGAIAFAAGVFLVRSQETVEDLAWMKAMIPHHSIAILTSERADVSDPRVRALADAII
+EAQLGEIAEMKRYIADIEVNGDAPAGTPRDKSGG
+>tr|B7RPG0|B7RPG0_9RHOB
+MAAIKDHPLRYALNSELHARPFPSLSAPHVAAYLAVRPPGDAATRDRSIDLEHLTALLKH
+YGAPLPAENATHYYGPMGKYALKWEQHTEFVTYTVFSDQLSERPFDPAEFDVFPENWRSG
+LNAERITSILLRLVKRPDTDEQLSDMLRDWFVPESLAVAKVLDDAAVVASDFRIDSAGHM
+RMAIFASDGTGDRRLGRIVQRMCEIETYKSMSMLGFATVRDFVGQLNDLDKQLNSLMAAM
+RASDAMAEDTLHKLLDISVQLETLSAEVSYRFGATEAYQAIVNQRISALRETRFMSRQGF
+DEFMMRRYEPAMRTVKSSENRLQSMSARAIRASELLRTRVDVERSAQNQEILASMNERSD
+LQLRLQHTVEGLSVVAISYYAVSLAAYMITPLAEQVGIGKGVVTALAVPVVVVLVWWMLR
+RLRSKII
+>tr|B7RJ25|B7RJ25_9RHOB
+MTALCADWKLTAGSFPNLSRELSDQSCRGLMQERGWIFVDRMGSVD
+>tr|B7RQC8|B7RQC8_9RHOB
+MHAAVVVFPGSNCDRDLAVAFEAAGAKVSMVWHKDTVLPEGVDIVGIPGGFSYGDYLRCG
+AIAANSPICGEVAAHAQRGGYVMGICNGFQVLTETGLLPGALLRNAGLKYICKTVGLRVM
+TSDSDFTSGYTVGSEINIPIAHHDGNYFADADTIARLQGEDRVAFTYTDNPNGAQADIAG
+ILSENRRVLGMMPHPERAADAGHGGTDGVALFRALAGALVTA
+>tr|B7RIC5|B7RIC5_9RHOB
+MVSLFLDTHAVMTLRLMGMAGAMPHARGENERMVNEKGPALAKAYVAATKTAIAGGRPDQ
+IMTAAMAPVSKKVRANRKRLTK
+>tr|B7RKN0|B7RKN0_9RHOB
+MAQMSHFHDQETRSADARAADLAQALPAQIARAKALPGYSGSLDGVDPATITSADALAGL
+PVLRKSELGKAQAVSAPFGGFTTKPAQAFTHIFQSPGPIYEPSSNAPDWWRMGRFLHAVG
+IGTGDIVQNCFGYHLTPAGMIFESGAQAVGAAVLPAGTGQTELQVIAARDVGTTAYAGTP
+DYLKVILEKADDMGVTLGITKAAVGGGALFPSLRDYYTARGITCLQSYATADLGNIAYES
+PAMEGMIVDEGVIVEIVTPGTGNPVPAGEVGEVIVTTLNPDYPLIRFATGDLSAVLPGTS
+PCGRTNMRIKGWMGRADQTTKIKGMFVRPEQVAALVAHHTEITKARVVASRAGEQDVMTV
+HIETTGGDADAYAQTVVDVLKLKARIVLADPGTLPKDGLVIEDQRSYD
+>tr|B7RLD3|B7RLD3_9RHOB
+MHIQTRALLVHLFTATGAIFAMLAMLAAVDGEWDLMFLWLVVAFFVDGIDGPLARKYDVK
+VNAPQFDGVLLDLIIDYLTYVFIPAFALFKSGLMDGWSGWVMIIIITFASAMYFCDTRMK
+TKDNSFWGFPGCWNMLVLVLFALSPPWWVSLMLVTFLAGTMFAPLKFVHPVRTERWRSVT
+LPMALAWTFFAGWAAWVDFHPESWAHWGLIITSLYLTFAGVAQQFLYERNL
+>tr|B7RPK3|B7RPK3_9RHOB
+MLAGCTASEDRIAFDGKYFSTKISKVDGQRDVFTLLVKNASQSIDGAREAARYEATVYCV
+SNYGSSDIEWVVGPDTPPENLRLVENSLTFQGSCPS
+>tr|B7RR68|B7RR68_9RHOB
+MEQLDLTFTDRADAGRQLAEILDAMDLDHPLIYALPRGGVPVGVEIAKWLHAPLDLILVR
+KIGAPRNPEVALGAIVEGASQEIVINESVKRLSGASEAYLTESVAQQRAELDRRKKRYLG
+DRPRLDPKGRTIVVVDDGLATGATMKAALIGLKRSKPSRIVVALPVAPREALDEISAQAD
+DIICLHPATVFQGVGGFYRDFHQLTDEETVALLAQVSNNPHNPAQTEKTQTHKRQVSIPP
+LGLPGDLTVPSNPRGIVLFAHGSGSSRLSPRNRYVAEKLNEKGFATILFDLLTPQEEQDR
+RNVFDIPLLADRVVEASIWITSEPDLEDLPLGLFGASTGGGAALVAAAELKDRVGAVVSR
+GGRPDLAMDFLAQVISPTLLIVGSLDRDVIKLNQQALAALTCTKRLEIVPGAGHLFEEAG
+TLDLAVGHAAEWFKTHLATNPAKRPMPPPPPKPDAAPAILSSAAEALPPINDPEFAKAFD
+RFGSKRVVLLGEASHGTSEFYRARAAITRRLIEEHGFSIVAVEADWPDAAVVNRYIRHKS
+AESMKNGAFARFPTWMWRNIEFDAFTRYLHQHNGTKDAKDQVAFYGLDLYNMNASMAQVL
+AYLDRVDEGAAEIARSRYSCLSAWSHNPAAYGRAALTPGFSMCEKPVTQILVDLFKKQLD
+YSAKDGDQFFDATQNARLVANAERYYRAMYYGSQVSWNLRDQHMFQTLRHILSHSGADKK
+VVVWAHNSHIGDARHTDMGRSRGELNIGQLCRQEYGDSAALIGFGTASGTVAAASEWDAP
+MEIKTIRPPRADSYEALCHDVDLERFLWDFKKDRSGAFYRLLSTPRLERYIGVIYRPDTE
+RASHYSPATLPDQYDAFVWFDKTQAISPLPTLTNATEDETYPFGL
+>tr|B7RKJ5|B7RKJ5_9RHOB
+MKKTILTAGLYGLVLAGGTALHAQDAGFAWGGSLEVGVDSTVNASDPASEVTDTYLSFEA
+AFSAALTDRISAFGGLTLESVTDAADDRTFDDLGLYISELGLRFAFGETVMSVGKLSPVF
+AVAWDAAPGFYGTSLVEDYELSEMIGVTVDTPAGTTGGILSFAAFYVDDSFLSDSIGNKR
+GRNSVAAGGVGNTGKLNNFAIQYTQEFGATTGWVGARHQSAGEGDASDETGVVVGATHDF
+GNGFDMIAEVAHFDGAGGTDANATYATLGGAYALGDWTFSTTATTVDTAAGTDSVIAFGV
+DRAVTESIEVNFGVARFDVGDEKSTAVGLAVVVSF
+>tr|B7RLB0|B7RLB0_9RHOB
+MSDILCLGEPLYELNAQADGLFKAGFGGDVSNVAIAAARQGMDVGLISRVGDDPFGADLC
+QLWRRENVCTDHVTIMPGQETGMYFVFHGKDGHRFVYRRKGSAASRVAPEDIPETAVAQA
+RVFYASGIGLGVSKSLRAATFHAARVAKQAGVTVAFDPNLRTALWSLEEARVVTHDLMRH
+CDIALPGLDDARQLTGLQSPEDIIRFYHDLGAGVVALTLGGDGVIVSDNQVAHTIPGTKV
+EANDATGAGDCFNGIFLANYLCDGDILNAAKTANRGAALSTTGYGAVDPIPYKSTLEKLK
+EPQT
+>tr|B7RGL8|B7RGL8_9RHOB
+MNIAAPLPPTESPAEAPRTGRARNALELQNASVVFGSGDMAVTALAPTNLKLPDGDFLAL
+VGPSGCGKSTILRLVSNLIKPSEGVVLVGGREAAAKQLRIGMAFQNPTMLPWLTIEQNVM
+MPLKIVPPFKARFRAERKGEFRDRVHQLLAQVGLTDFAGHYPWQLSGGMLQRSNLCRALI
+HEPDLLLLDEPFGALDQFTREELWQTLQDLYLDRKPTVLLVTHDLREAGFLANRICVMSA
+RPGRIISDETVNIPQPRDIDMIYSPEFVEMTQGLRELIAQVRK
+>tr|B7RK48|B7RK48_9RHOB
+MISYIPKGKNMKHDLTFRGLVAFVAVIATLATAAPLRAQSDKAQSDKAQSEMTEETDDDD
+RDHMMPFGSGLFGHLHMMTLRVDDDGDGKISASEASKHASTAFAYFDGDGDGQISMDEFL
+DNAPWAMPMGRRSQERRYQNRTERFKALDADGDGNVTLAEFMAKAQESYEAADANGDGNV
+TIWEFRAQRKPF
+>tr|B7RPU3|B7RPU3_9RHOB
+MAGFLHETNTFAPAPADLAAFRAGGGYVPWTRGDAILPAFASVNLGMSGALREARGFGWN
+VVPIVWAGAIPSAHVTREAFEQIATEIVEGIAAARPLDGVFLDLHGAMVAEHLDDGEGEL
+ARRVRAVVGPDVPIAAALDLHGNISEEFVQTVDVLAGFRTYPHVDMAATGARAAQLLNDM
+MQTESRPAKAFRRMSYLVPIPFQSTDIAPAKDLYGSLAQFETDGALSASLFMGFPATDIP
+DCGPTAIAFGTTQAAADRAADAIAAAYEAARTKFETVTFDADSALVEARRLLDLGGEGPV
+IIADTQDNPGAGGVSATTGMLRALIAAHASNAAIGLIVDPAAAARAHELGQGATARFRIG
+GHPGLPDDGPVEADALVEALSDGHVQATGPYYGGTHLDLGPSACLRIGGVRVVVTSTIAQ
+MADREMFRFVGVTPEEQEILVVKSSTHFRADFAPIARNILVACAPGPMPFSPSDLPFTRL
+RPELRLSPNGPLFGDLRAEDRHPDTGGFSAGVQHNQTDNQHGKPTC
+>tr|B7RQ34|B7RQ34_9RHOB
+MTNLINIVSGSVTSLLLASSVHALDVSVGADVAGIGVDAGVSVGHGSVAAADVGATFGGD
+NTSGSGATADVGASIGGSSSGSGATANAGASGGSSGGGTGSGSGTGVTGSVNTAAAVGAR
+AGTMSETAAFSSQARLKPQTSIDNFLGATIMTSDREVVGMIEKVRGGADGKIIATVRMNA
+AFGANGRTIQLRLQAPGKDPDLIRLGFTKTSLLARINS
+>tr|B7RSI9|B7RSI9_9RHOB
+MRTLISSALLALLATTASAEDLRIGTSADYPPWEAVDANNEIFGFDRDIGDEICKRIAAT
+CTWQNQSFDGLLPGLQVGRFDVIISGISINEERSKSVDFSAPYADAPNSFIVLADNPAAA
+AKSKEDLIAALSSGVIGAQGGTTHEQVIRAHFANANVRLYERPDQVMSDILSGRIDAGVM
+ERSAAEPLMDSEKGGVLVYAGPKLTGVDFEEFGKGQAVALAKGNTVLQNRVNDAVAEMLK
+DGTIKTISEKWFGYDQSPK
+>tr|B7RHD6|B7RHD6_9RHOB
+MDLTLVAILSVLVLIVAVLRGLQALRHTRGTERGSPPGKGYHEIETTYHSGGGGGGHQTT
+YRIPRDPQEYAKRFIPKDKSK
+>tr|B7RIF7|B7RIF7_9RHOB
+MSSTRDIDALIDLMSRLPGLGPRSARRAVLHLIRKRALLLTPLADVMQTVAATARECLNC
+GNVGTTDICDICTSEKRANGELCVVEDVADLWAMERSGVFKGRYHVLGGTLSALDAIGPQ
+ELRIPRLIDRVSTENITEVILALNATIDGQTTAHYIADQLDGRVQLTSLAQGVPIGGELD
+YLDDGTITAAMRARKSI
+>tr|B7RNL8|B7RNL8_9RHOB
+MTNQAETGPWSYRGAADGMMKLRRQIGAEAYDIHSLRYTATAELARVGLDDDLIMAITGH
+KTHRMVQLYAGAERQKLRARAANNARASKL
+>tr|B7RJS6|B7RJS6_9RHOB
+MLDLINVSYDTQIPNNVNLSQDKKVLKALEKWHPGYINWWNDLIPQNFQESMVYLRTAVS
+VDPKGWAKFDYVKMPEYRWGVLLAPAVEDRKIPMGEHYGEPAWQEVPGEYRNMLKRLIVI
+QGDTEPGSVEQQRFLGLTAPSLYDMRNLFQVNVEEGRHLWAMVYLLQKYFGRDGREEADD
+LLVRSSGSEDSPRMLGAFNEETPDWLSFFMFTYFTDRDGKMQLESLAQSGFDPLSRTCRF
+MLTEEAHHMFVGETGVGRTIQATLEAMNKAGITDPYDINKIRDLGVIDLPTIQKKLNLHY
+TLSLDLFGQEVSTNAANAFNYGIKGRYMEQRIDDDHKLQNDTYAVTSVKEGKIITEEVPA
+LTAINMRLRDDYVRDAAGGVGRWNKQIAKAGVDFEFKMPHEGFHRQIGVFSAVAVDPDGN
+IISSDEWHKRKDEWLPTKADGDYIQSLMVPCYEPGKYASWIAAPKVGIDNKPGDFEYVKL
+HMA
+>tr|B7RL68|B7RL68_9RHOB
+MIKIWSRRSTILPQFVGLTFGVYNGHKHIPVNVSEEMIGQKFGEYSPTRTYYGHAADKKA
+KRK
+>tr|B7RLN7|B7RLN7_9RHOB
+MNLTLTVLEIVAPVFLLAGIGFAWVKLGFEYRIQFVTQLAMTLSVPCLIFVSLMNTQIDP
+AALTALSLATVVTYGGVTIGAALLVRALGLNRRTYLAPLIFGNTGNLGLPLALFAFGDLG
+LGYAVVVFAIMAIWSFTFGIWLVAGAGSFGKVMREPLVWATLLGALFLVQDWQTPKFLTN
+TLSLLGQMAIPMMLITLGVAVARLSPGGIGRAVVLSAVKLAICVGIAWAAGLYFDLDRVA
+FGVLVLQVATPVAVTSYLLAEKYGADAQSVAGLVVASTLMSVAALPVLLAFLL
+>tr|B7RLT8|B7RLT8_9RHOB
+MTPQTRAEKSAAAMWKTDTASQNLGMKIDHIAPGEATLSMPVTDKMLNGHGICHGGYIFT
+LADSAFAFACNSYNQLVVAQQNQITYLAPGKADERLTATAVEQSKTGRSGIYDVKVTGED
+GRTIALFRGLSRTIKGQHFEEEMTQ
+>tr|B7RPZ0|B7RPZ0_9RHOB
+MNWDEYTLWAKRIADWGTEYHKTLADRPVRAQTAPGEIAGQLPLGPPEDAEGMDAIMGDF
+ERIVMPGMTHWQHPRFFAYFAANAAPPSMLAEMLVNTVAAQCMLWQTSPAATEMEGVMVD
+WLRQAMGLPDGFSGVIQDSASSATLSAVLTMRERATAWRGNREGLNGQGRLRIYCSDQVH
+SSIDRACWVAGIGQDNLVKIGTRAGGHYGIDTDELAARIAQDRAAGCIPAGIIAITGGTG
+IGASDDLAPMLAIAAKEDLYTHLDAAWAGSAMICPEFRAQFWDGVEGFDSIVFNPHKWLG
+AQFDCSIQFLRNPQEQRNTLKIEPEYLKTSGAEVTNYSEWTIPLGRRFRALKLWFLIRSY
+GLEGLRTRIRNHVLWAQELCEVIRDMPDFEIVTEPILSLFSFRCVGDDALQQRLVDAIND
+DGRIYITQGMHAGAKVIRFQVGQFDTTRDHVLMAAQVISEIRETL
+>tr|B7RQ93|B7RQ93_9RHOB
+MDDIIFEIRQRDLIGLILLLAFLVVPLGISRLPYKGDPNKPPLFDQLQNRMGLGGINSGL
+LFIAIALWAAIFASLALGLLGVLWSFILSPIPQEGEIWNWRFSVAKMTALTATLGAVVAL
+PFTLIRLTFTRTQTETAVEALFNDKINAAVEDLHAQRQISVEVTDGETKTHETVWQDDVT
+RRNGAIDRLEGLVQENPASAERVARMLSVYVRELSQEYKPVPTPETTNRQNLRTWARKLN
+AVRSDMQNAVLVLGRLQSISGVTELAGLVDLSGTNLQGFDLSTLSFEKSNFSAAQLQGAN
+LRDAQLQRTSLRSAHLQGAFLNGARLLGADIRWAQLQGAYLGGAHLQGAKLSGALLQGAY
+LGGKAHLQGTKLRRAQLQGAHLRLAQLQGADLSEAQLQCADLRGTYFNASTSFREADFRG
+AAFYAVDLTDTSITREQLDTMYGDATVTLPGGLGPDHESWPAQWSKEELDWDDFETQWRA
+FQASIGQDPDNPT
+>tr|B7RGV5|B7RGV5_9RHOB
+MRFSKRGQHASESLGLVPVYVLKQCRGFVSKICHDGEHDWARRSDFEGLALATLHLNVIG
+MNKIDPVEAPVGPPVPGFTPPPLPPREVMQGTYAMLQPLNAQDHAALLFRVFEGQDQLWR
+YMYDGPFSSSAQFHRWVRDVETRDDPLFYAIKNLETGHWEGVASYLRIAPAAGSIEVGSI
+TFSPALQQTRAATEAMYLMMAWAFDAGYRRYEWKCNALNMPSRRAAQRLGFSYEGIFRQA
+AVVKGHNRDTAWFAAIDSEWPGLKEAFEAWLSPANFDETGNQLERLGDLTGLVRVASDPL
+I
+>tr|B7RHL0|B7RHL0_9RHOB
+MMGALLVLNAGSSSLKFAVYPIAEDTLTPFVRGKFAGIGTAPAFSARRRDGETLTWDQVP
+PLAKNTGHDALIPALLDWLKAQLGDLPIVAAGHRVVHGGRFHDGPARVTDALLAELDALV
+PLAPLHQPHNLAAIRCVATAAPDLPQVACFDTSFHRSQSPLAQMFALPRHLTEEGILRYG
+FHGLSYDYIAGILPRHLGERADGRVIVAHLGNGASMCAMKNRRSVATSMGFTALDGLVMG
+QRCGTLDPGVVLYLMQEKGMSAAEISTLLYERSGLLGVSGISNDMATLEACNTPRAEEAI
+ALFCYRAAGELAQLAASIDGLDTIVFTAGIGENSASIRARICDRLLWMGVKLDAAANAKN
+ALRISALWSEIEVLVIPTDEEAIIAHSSRVLTTDRCDENTAFPDKAKP
+>tr|B7RS35|B7RS35_9RHOB
+MTTLAHLLKNTAQAFPDNQAVFYEGQALDYAHLNDLSDRLAQGLCDLGVQAGDRVGLWMP
+KSLCAVIAIFAILKVGAAYVPISELAPPNRVGFVAGDCNMKVLLTDHDGFDRLGDASVAG
+AVPVAVDMAMLKALVGRLERPGAEPGRLAYVFYTSGSTGVPKGVMVTHDAALNFVDWAST
+RFGIGPEDRLASLAPLSFDLSVLDIFAAVHTGACVHMISSARMIFPTSLSRYIQEHAITI
+WYSVPAVLARLASHGRLDKHSMASLRHVLFAGEPFPVAQLETLMQAVPDARFHNLYGPTE
+TNVVSHFEIDRLEGDAIPIGRPCAGNIFEIIAEDGTVATGAATGELLVSGPSLMQGYCNL
+PDLTQARLVHLARTESALAYRTGDRVRRDDNGVYHFLGRLDDMIKSRGVRIEPGEIESVL
+LRHPSVEEAIVLGRPDPDIGHRLAAIVVLGGAVTDTELITHCRDFLPTYMVPSEILQNST
+GLPRTATGKIDRLAARALLEGIPA
+>tr|B7RGF6|B7RGF6_9RHOB
+MSDRIFGVFGVLLAIGFAIAASQIKESFLSDAVGPKAFPYIIAAILGLSSAVIALRPDPE
+PLWPPLGRLIEILAAAVVMILYAQLLPVAGFVTATAFAAAYLSWRLGSTILGACMTGVGT
+SVGIYVVFHLVLGLSLARGPLGF
+>tr|B7RFM2|B7RFM2_9RHOB
+MERKTHIDTFGAFALIAFALNLAFNQVVIKVTNGGFNPVFSAGLRSLGAIVVLVIWMKLR
+GVSFAFPKSARGWAVVSGLLFTFEFTCLFMALDGTTVSRASIIFYSMPVWLTIAANFLIP
+GERLTRLKIIGLILAMSGVAVALSDRSGGHVSWTGDLLALTSAFCWAGIALLVRVTPLEK
+VPPAQQLMCQVAISGPILVLIAPLFGPLIRDVQMIHLAGLGFQIIAVASLGFLAWFWLMS
+VYPASSVASFSFLSPVFSVILGWLLLSEHVAWSVWAALVLVAAGIYLINRKPRLPNA
+>tr|B7RG83|B7RG83_9RHOB
+MSYAVSAPLQLAVFAALSSDAALAGLIDDAIFDAIPVGDVPPLYVRLGEEEVRDASDGTG
+AGAIHVFSVAIVSTAPGYADAKGVAGAISDALHNRDLTLSRGRLVSLQFERASAKFISAA
+QARQIDMQFRARVQDG
+>tr|B7RIF9|B7RIF9_9RHOB
+MSAPSAYRVLARKYRPETFVDLVGQDAMVRTLKNAFAADRIAQAFIMTGIRGTGKTTTAR
+IIAKGMNCIGPDGNGGPTTEPCGECEHCVAIMEGRHVDVMEMDAASNTGVGNIREIIDSV
+HYRAASARYKVYIIDEVHMLSTGAFNALLKTLEEPPEHVKFIFATTEIRKVPVTVLSRCQ
+RFDLRRIEPEVMITLMRKIASAEGAEIADDALALITRAAEGSARDATSLLDQAISHGAGE
+TTAVQVRAMLGLADRGRVLDLFDMILRGDAAGALNELSSQYSDGADPMAVLRDLAEITHW
+VSVVKITPDAAEDPTVSPEERSRGLTMAETLPMRVLTRLWQMLLKALDEVASAPNAMMAA
+EMAVIRLTHVADLPSPEELTRKLSKATPPPAAPPPHGPSGGGGNTNATASHHVQGSPQSG
+TTMAAVAPAIDQALARFPSFEHVVELIRTNRDVKLLVEVENTLRLAAYQPGRIEFTPTDA
+APRDLAQRLGTRLQLWTGNRWAVSIVGDSDAKTIAEIRDAKDNALKSAAESHPLMQAVMA
+TFPGAKILSIRTPEDIAAAAVSEALPEVEDEWDPFEDD
+>tr|B7RKA6|B7RKA6_9RHOB
+MPGQCSAPGGTGDSMPQFLDHAQSDFEQAFTALLSAKREDSPDVDDVVADIIAQVRATGD
+AAVIALTEKFDRITLTPQTLRITAAEVDAAVAQVSADDRAALELAANRIRAYHARQLPED
+AEWTDEAGAILGWRWTAVSAAGLYVPGGLASYPSSVLMNAIPAKVAGVARLAMVVPTPDG
+ILNPLVLLAARIAGVDEIYRIGGAQAVAALAYGTETIPPVDKITGPGNAFVAAAKRRVFG
+KVGIDMIAGPSEILVIADQDNDPDWIALDLLSQAEHDESAQSILITTDAAFGQAVAAAVD
+KRLETLERRAIAGASWRDNGAIITVPDIATAAALSNRIAPEHLELCVADVDALSAQITHA
+GAIFLGQWTPEAIGDYVGGPNHVLPTARSARFSSGLSVLDFMKRTTLARMTPDALRAIGP
+SAERLARSESLEAHGLSVTARLRKLND
+>tr|B7RHQ3|B7RHQ3_9RHOB
+MPDTSTQPHEGQRLQTLRSQFLAEADITNVQNKSLIHSRREQICDAALELFLEKGFAATT
+IRDICAGSGVNQASIYDYIANKNDILRRLLNQLWFREDVPTLPVILLDQSLSLEAALEEY
+FRESWAKKRQGTLLAYRSVPHMQAVDRKALHMREFAAMKDLADQLSLRLDLDGDDARLDI
+MANLMVFLSAFGPMRDWLCRDIPEDVLVRTVAAGAAAMVRSLVDCPKT
+>tr|B7RM62|B7RM62_9RHOB
+MDVLYFAWVRERIGLPREQVQTNAATVADLVAELRAREDRYDMAFSDLSSLRVAVDQELA
+DFDAPLAGVREVAFFPPMTGG
+>tr|B7RQ73|B7RQ73_9RHOB
+MSDEIWKRNEVESPCIKLCVVHPESRLCTGCLRSIDEIGSWSRMTPEARRAVMAELPSRA
+GAFGKRRGGRAAKLARRQD
+>tr|B7RSB6|B7RSB6_9RHOB
+MLNCSMGADGGHNKTWYEFLDDFVDDTDLVTRIKAKSPR
+>tr|B7RIG2|B7RIG2_9RHOB
+MKHSETVTFGGSGLDRAGEVRGDRAAVEALKQDDTARAVLLWRGKVLINPTRPASLVRLP
+LDHPALQDASVPPILLGREDGEARFAFDLSSWVPDDLDPSHLGAFMDPSEQRHPMLPDEN
+VFVELRRVMTWLNPRDAELAATAKAIFSWHETHGFCARCGFETVVNDAGWQRNCPACRAA
+HFPRTDPVVIMLITRGNSVLMGRSPGWPRGMYSLLAGFVEPGESLEAAVRREVFEESGIE
+VGEVNFLASQPWPFPASLMFGCAGVATSEKITIDPKEIEDALWVTKEEMMDIFAGRHPNI
+LPAREGAIAHFLLENWLADTLT
+>tr|B7RH91|B7RH91_9RHOB
+MLSKGIMRHGFERSAKAAWDGRKSISFLSFWVAGKVTAYHGQ
+>tr|B7RHM8|B7RHM8_9RHOB
+MSDDAPQPDRIDGARHPRDTPRLIGQEPAEAAFLDAFNSGKLHHGWLLTGPRGVGKATLA
+WRLARFLLATPDPEGGGMFAPEPPTSLDVDPDHPVARRIAAGGEGALKAVTRSVDEKTKR
+LRKQIVVDDIRKLNGFFQMSAADGGRRVVIVDDADLMNPNAANALLKMLEEPPARAIILL
+ISHRPSGLLPTIRSRCRTLRLGTLDSDQMGQALAQSGVDIQGDPAALAALSGGSVGGALG
+LSLMGGLQLYAELVGILGTLPQLDRSRALALAEAAAARGAEEKLALLFTLTDLLMLRLAR
+TGALGHPPQTQAAPNEHAILTRLAPTPAQGRIWAEVAQDIGARARHGMAVNLDPAALVLD
+TLFKLGDNAPR
+>tr|B7RIK4|B7RIK4_9RHOB
+MISPSRSITGIIGTLICLYINEPSGSAGCSTHCPLRSKCQP
+>tr|B7RJ99|B7RJ99_9RHOB
+MHVMGFKMGIVGLPNVGKSTLFNALTRTAAAQAANFPFCTIEPNVGEVAVPDARLDKLAE
+IAKSKSIIPTRMTFVDIAGLVKGASKGEGLGNQFLANIRETDAIAHVLRCFEDGDVTHVE
+GRVDPVADAETIDTELMLADLESIEKRRAGLVRKIKGNDKDAAQQDRLLALAQAAIEDGK
+PARTVTIDEDDAKAWRMLQLLTTKPVLYVCNVGESEAAEGNALSTAVGEMAAAQGNSHVI
+ISAQIEEEISQLDPEEADMFLEEMGLKEAGLNRLIRAGYELLHLETYFTVGPKEARAWTI
+KHGTSAPKAAGVIHGDFEKGFIRAETIAYDDFVTLGGEGPAKEAGKMRSEGKAYTVKDGD
+VLHFLFNT
+>tr|B7RN07|B7RN07_9RHOB
+MTQSDLPALVADQLPQIDVEALKAPGDPGHKPRILLLYGSLRTTSYSRFAAEECARILEL
+LGCETRMFNPSGLPLPDDAEADHPKVVELREMASWAEGMVWSSPERHGAMTAIMKLQIDW
+LPLSLQGGIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSIPKAWLEF
+GDTGRLPQGPFYARIVDVMEELVKFTWMTRGRSAYLTDRYSERVETAEEVHKRVSLKNL
+>tr|B7RR62|B7RR62_9RHOB
+MTGIGVAAAVISYRRQDPAAIWLTLGYFSVMEMLQVAGYAFIDQCGTTENRAVTMASYLH
+IVFQPFLINAFAMELVPQAVKRRAKGWVYAVCAMSAAVMIAQLVPWEFAGPCLPGSALCA
+SNLCTVSGNWHIAWDIPYNGLLVPLEKAAGIYMGFPTYMIAVFVMPLLYGAWRFVLMHAL
+AGPVLASAMTDNPNEMPAIWCLFSIFILLIGLSLRARRSVTATQWWGRNVEG
+>tr|B7RI97|B7RI97_9RHOB
+MATGTVKWFNTTKGYGFIAPDGGGKDIFVHISAVERAGLTGLADNQKVTFDIEAGRDGRE
+SAGNIALA
+>tr|B7RRL5|B7RRL5_9RHOB
+MMRLRRLNLETFGHFTDRALDFGAVPQGGSDFHIVFGRNEAGKTTLMEGYLRLLYGFPLN
+EPYAFKHQRPNLRVSGVLDIDGVEHALSRLPKRTANLVDAGGQVVSDGVLGAALRGLSQK
+EYQQLLCLDDETIEAGGEEITKSKGDIGKLLFSAAAGISDLSQVLDDVKAANRQIYLKGG
+SKSDFAELKRQYDDVIKQIKDNDVTAQAYRGLRVARDQANATEAGLREQKTDLLLRKRRL
+ENIVQAHPLATELHDIEAQLEPIAHYPRTLDIETDQLIDLITRRVALVAKRDQAVQDIAT
+LTAQRDGLNPDPQTLGLAARLDALGTLKSQVEAGQLDLPKRETALAQETADLRARLTMIG
+LNVSGDLGRFVLTDPELAALQQARDGLQDAHKALAAAQSEIGTARDKQREATRLVDEAAG
+DVTGDPALEHMILKAEADDILHRYSEAQYALTAARQRCAESLRKLACQGVVFDTAPSLAI
+MPSQAQTLAADLAQAALALSAAKQAAAAAATRWDTAKTRVEIVQMSPDLISDAAAAQTRS
+ARDALWAAHLATLDAATAQRFEGAMREDDRQTQLRAGQNKELAEMRQAQRLELETRKDHE
+TARDICTQAQTAMEDLKARLVAHLRQAGLPDTLSADDFAAWVRDAEEAGAAAQAFVLLQE
+VRQTVMEEGETLRHDLSASLKIDGTSLGGLMKIAKAQLAQTQAQQQALRLAEGTLRTATA
+ETARRTELENAAQAEAERAFTAWRKAVADHLPDLETDVASWDGVQALRSVREADVRIRGL
+QRQINGITQDSTRFQAELDALGAGSPDSPLLDRYAGMQSQVTEANQVARQIKDLDDRLAD
+LETARDGADQALTILDEQVHSLARLFDAAIPTDSLEQLRAATAIAQDAIALRSRIINLQR
+SLITTLAVATVEEAHNLLQDHALDAAQITLDEVSADLDRLDPALDLAIETRTAAQIALSA
+VGGDNDIALLTETKRTLEEQMQAALLHYIEGRVGHDLAEEAIRRYRDSHRSGMLSATEKA
+FSDLTHGAYSKLTTQPGAGGDVLMAVQAADGVSKEASAMSKGTRFQLYLALRAAAYDQMA
+TNGIVLPFFCDDVFETFDEDRTRAACTLMQRVGRTGQAIYLTHHQHVVDLAQDVCGDQVK
+LHLL
+>tr|B7RRR6|B7RRR6_9RHOB
+MANSKNLLVILSDEHQALSCVGHPLVKTPNLDKLAARGIRFSNAYTPSPICVPARAAFAS
+GRYVHDIRLWDNAMPYTGKPRGWGHALQDKGIRVESIGKLHYRDAEDPAGFDVEHIPMQV
+AGGHGMVWGSIRREDERVRKEGRMLGPYIGPGDGNYTRYDTAVVSRATEWFANAAKRPEE
+PWCLYVGLVAPHFPLVVPQKYLDLYPIEDLPPFKLHTMDGFVNHPWVQKQNTALAGDEGF
+TDDAERRLAAACYFALCTFLDDNIGKLMASLEENGLLDETMVIYSSDHGDNVCARGLWGK
+SNMYEESAAVPLIVAAPGAEPATCATPVTLLDVSQIIIDHFGASLEGTRPGRSLYDIAAE
+PEDTDRVIFSEYHAVGAVSAAYMLRKVDWKLIHYHYFAPELFNLAEDPEETTNRAKDPHA
+ASALAELEAELRKICDPAEMNDLAFADQDALIEGYGGREAAMNIGAPAATPPPET
+>tr|B7RQM2|B7RQM2_9RHOB
+MTGFASASGALAPHSWGWELRSVNGKGLDLRLRVPDWVDGLEAGLRSALGAQIARGNVTC
+NLRIARDETSGSLSVNAAQLETVLDALHQIEARAMDAGVSLAPSKATDIVTMRGVLEQAT
+TVDNVEALSAALLAEFPAVLADFNAMRSREGAALMQVMMTQLAEVESLTAQAAELAEARK
+AEMATTLQRNLARVLDNSEGVDADRLAQELALIAVKSDITEEIDRLIAHVAAARDLLSQG
+GAVGRKLDFLMQEFNREANTLCSKAQNTDLTRVGLALKAVIDQMREQVQNVE
+>tr|B7RHG7|B7RHG7_9RHOB
+MQLVLHTGAHYTEEERLLKSLLANKAMLAKHGTFVPGPSTYRGLFRDTLNAMYKSSVSAG
+ARDVLLDAVLDDSQANKAILSDANFFRTPATAMIEGMLYPAAPVRMMRMVQLFPEDELQI
+FMAIRNPATLLPILYEVSGDNSDAHFWGTKDPLDIRWSDTLGLLRDSAPEISVTVWCNED
+APLIWGTILREMTGIPANQPIAGEFDLLETIMSKEGMKRFLSYLDAHPEISGPQQQRVIS
+AFLDKFAIEEALEEELDMPDWTDELVEEMTENYDQDVLRIQQIPGIRFLQP
+>tr|B7RND5|B7RND5_9RHOB
+MTSPHGPLRIGIGGPVGAGKTTLTAALCRAMRDRWSIAVITNDIYTQEDAEALMRMQVLP
+QDRIIGVETGGCPHTAIREDASINLAAVARMQERHADLDCILIESGGDNLSATFSPELAD
+ITLYVIDVAAGEEIPRKGGPAITKSDILIINKTDLAPYVGASLDVMDRDAKRMRGDRPFV
+FAAMKSDKGVADVLDLIVQIGGLQKVPAD
+>tr|B7RN37|B7RN37_9RHOB
+MPKRFRLTRRFPVAMTEDGYRQLKKFSAQAGLDEGEALSFLFENFNSVMNEENLTARLRL
+FNSELDERKK
+>tr|B7RP58|B7RP58_9RHOB
+MTLTPLGLDPSLCFIGGAWVPSTAAARVPLVNPSDGSALCEIACGSADDIDRAVRAAEAA
+LQGEWGRATAAERGRVLAKIGQGVLANVEELTRLEALDVGKPLKQARADVLALARYMEFY
+AGACDKVHGETIPYLDGYTVYTLREPHGVTGHIIPWNYPMQIIGRSVGAALAMGNAAVLK
+PAEEACLTALAFAEIARVAGLPDGALNVVPGLGMDAGAALTRHPGVHHISFTGSVGVGKL
+IQETTARNVVPVTLELGGKSPQLVFDDADIDAALPFLVNSGIQNAGQTCSAASRILVQRG
+VYDRVVAAMGARYDALRVGPALADLDVGPLISARQKSIVEGYLAKGEGLEAVGRGQIMAD
+APAEGAYVAPTLFAGVAPDHVLAQEEIFGPVQVIIPFDTEEEAVQIANGTAFGLVAAVWS
+QNGARQMRLAKQLRAGQVFLNNYGAGGGVELPFGGTGLSGHGREKGFEALYGFSTLKTVA
+AFHG
+>tr|B7RJL6|B7RJL6_9RHOB
+MLLAVFFAAPLRDGFFAVLDIYKSFKWNAGVRLKSSYCV
+>tr|B7RKK0|B7RKK0_9RHOB
+MSNVRQIRDKMPENEKITINLGFVDLGRIDLLVQEGFYSNRSDFIRTAIRNQLDHQSDTV
+TQSIDRHTMELGLRDYTTADLEAVQAANEILHIKVVGLARIASDVTPELALATIGSINVL
+GALQASAEVKKALGARIS
+>tr|B7RPC4|B7RPC4_9RHOB
+MSGTLALLIAVLAVLMLASGWCGYSKRFLGFLGVLVIGLALNGAWMVWGLGAKPFETPVI
+AAQMAAVGYAICAFGTGWLIGRLVRQFRATRIEKGRQS
+>tr|B7RPT3|B7RPT3_9RHOB
+MKAKGNSVAKTAVWILMGMLILGLGGFGAVNFNGNVSSIGTVGDKDISVDQYARELQQQI
+RAIEGQTGETLSFQQAQAIGLDRAVLQRLVRLRALDNETAEMGISIGDENLRERIIDIPS
+FQGIDGNFDREGYRFALQQAGLSEAEFETSLREEAARSLLQGAISGGVTMPDVYAQTLVN
+FVGEKRSFTWAALTEDDLQTPLAAPTDADLQAFYDANPENFMLPASKSITYIILTPQDVL
+DEVEITQDELRKAYDDRAADFIQPERRLVERLVFPNEEAANMAAAALEVSGTTFDALVQD
+RGLTLEDIDMGDVSRLELGAAGEAVFAAEAGDVVGPLPSNLGPALFRVNGILPSLNTTFE
+EASPALQQDLAGDRAARLVEVRAQELDDQLAGGATLEQLAEETKMTLGTTEWTADSDQGI
+AAYESFRAAAAALTDGDFPKIDQLEDGSVFALRLDGTKPERPNPFEDARASVAAAWTADQ
+LLQALTAQAETAQSALEGGSDFADLGLTPTDQQNLTREAVISGAPDGLMTEVFDAAPGDI
+RTIAGTDSVAILRVDSITAAEESEQTRQLLDQLTTQLNQQLSQDVFALYSSDVVRRTAPM
+IDQQAINAVHVNFP
+>tr|B7RS38|B7RS38_9RHOB
+MHLSVIIPVFNGAAYLAQAIESVLRQTRQPDEILVIDDGSADESVDIARGYKDRVRLVSQ
+DNRGPANARNRGVAQAQGGVLAFLDADDLWLPEKLEHQLVALRQSEMAFCMIEKFFSDDC
+PSEMRSTAVDVSDPKAGYLPTTFVCRSDLFKTVGPFDEKLKGGEFIDWVARARACGQTET
+LLPRLLARRRIHAGNLSRENGMMQEYLQVIRRNLARRNKP
+>tr|B7RLU1|B7RLU1_9RHOB
+MILRTVALGLGLLALSACAPGQTLLNRGISIVFNESSMVPASGGQFPPRFAALVADQSVP
+AMILTVESRAQAGRLLLESRINGVETWLSSDLSAVMLEKGMMQGTRGLGSELFAAELSEP
+MRLILSGQTGYSDRLHSNLTGNDEIKTTTFRCLVEAKGSSVIPLEIGNVPTRIMTEDCKS
+LDQSFQNTYWVSKNSGAIVQARQWAGDDVGYIKTQSASREPRKPTPSTKVVLAEE
+>tr|B7RG31|B7RG31_9RHOB
+MAEAALKQTPVAAMIATLDQPSGGWSDAARKDALARVQSMGLPQRRDEYWKYTRPDTLIQ
+PEALPAALRVSDEVALFDHIDRLKIVFVDGVFDADASDDLTLEGINIERLADASADIHWA
+RDLYGTLETRGQSPVARPLAALNTAFAPDGILIHVTAKVSKPVNFIYRRTSETADAMLHH
+CIKLEEGAELTLLENGPVAARFNGVLEVEVADNAAFHHVRAQGRDHEQRAATHIFTRLGT
+ESTFKSFTLTANGVMTRNDCVIELTGDDANATVAGACVGDGSDFHHDDTVFVTHDAVNCE
+SRQVFKKVLRNGATGVFQGKILVKAGAQKTDGYQISQSLLLDEDSQFLAKPELEIYADDV
+ACSHGSTSGAIDEDALFYLRSRGVPHGAATDLLTLAFLAEAVTEVEDETLREEITGRLAD
+WLERHAH
+>tr|B7RNQ2|B7RNQ2_9RHOB
+MTLPAILQNLRLPLIASPLFIISNPDLVIAQCKAGIVGSFPALNAREKDGHSLDAWLTQI
+KEALDRHNQENPDSPAAPYAVNQIVHKSNSRLDRDIEICVKHEVPVWITSLGARVEVNEA
+AHSAGGVVLHDVINNRFARKAIEKGADGLVAVAAGAGGHAGALSPFALVQEIRSWFDGPL
+FLSGAIARGDSILAALAMGADGGYAGSAFIATDEANAAEGYKRMIADSGADDIVYSNLFT
+GVWGNYLKPSIAAAGMDPDALEQSDPSKMNFAEDREKPKSWKEIWGSGQGIGAVSDVVPT
+SETVARLKREFDAARQRLDKSLSSY
+>tr|B7RHI0|B7RHI0_9RHOB
+MQILFDAGSMTALRAQRKDAETGQDAPLRWHLLVDQFAKIYTGNAVEPHRRSDTLKSDRL
+LFTWHPSVGALGQAALGKVGYLCWGVGAMNPARRIFLSTLLRLSKHLLVNETTSEKEVRA
+LTGRRPHMVPMFIDYEYFGFKSTEDREDFLFCNGSNGRDPKLLVQIAQAGHRVVWLCNQP
+ELIENYATVHPNLKIVTRISYSELRSLYQTCGAAIMPSVEDIHAAGQTTGLEALACGAPL
+IASAGRSATIFADLKSVNVLPSNSFDGWLAAINDVPQLCRYTQDASDWVTRHCDKDTVMQ
+TLGKVLLDRPAPL
+>tr|B7RK27|B7RK27_9RHOB
+MAIGGEKALLLAVMRNEGPYIIEWMAHHFALGIDDLLVFTNFCTDNTDKILDRIEEIWPH
+RCKHQPNPKVMFPNHGKWLIMALRFAGHFGRYQAAPWVYTTDPDEFLNFTGDIKTFDDFF
+EKTGEADVVSFTSIAFNSGNHKHAKDELVTKMYTQMAADLESAAAEDQEVLTAVKTLYRN
+KVEGPRRPHRPVTMDFSSKGYKWINGSGQTMPPEFTDSAYKAIASNGTRDLAQINHYSIK
+SAEEFILKVDRGDGGQNDRVGESEKYWNTANRKGNMDTRGVGLSPAAREIYDFLMSDAKL
+KALYDECLELRHARFQEIMQTEAGQDLARRIGYYD
+>tr|B7RMK8|B7RMK8_9RHOB
+MTDRPETPLLDQVDRPADLKRFSDAELVKLSHELRAETISAVSETGGHLGAGLGVVELTV
+AIHAIFDTPRDKLIWDVGHQCYPHKILTERRDRIRTLRMKDGLSGFTKRSESPYDPFGAA
+HSSTSISAALGFAVARDLGGVVPEGLGDAIAVIGDGSMSAGMAYEAMNNAGDLQKRMIVI
+LNDNEMSIAPPVGAMSAYLSRLYAEEPFQEFKAVAKGAVSMLPGPFREGAKRAKDMLKGM
+TVGGTLFEQLGFSYIGPIDGHDLNQLLPVLRTVKARATGPTLIHVITKKGKGYGPAEAAR
+DKGHATSKFNVLTGEQKKAPSNAPSYTRVFADTLIAEAARDDKICAVTAAMPDGTGLNLF
+AERYPSRCFDVGIAEQHGVTFSAALAAGGMKPFCTMYSTFLQRGYDQVVHDVAIQRLPVR
+FAIDRAGLVGADGATHAGAFDVAFLANLPGFVVMAAADEAELVHMVATAAAHDDGPIAFR
+FPRGEGNGVDMPERGVPLEIGKGRIITEGKRVALLSFGTRLAEVEKAAEALRAKGITPTI
+ADARFAKPLDREMILSLAAEHEALITIEEGAVGGFGSHVAQLLSDEGVFDVGLKYRSMVL
+PDTFIDQASPEDMYAVAGMNAEQIEAKVLDVLGIASLGAQRA
+>tr|B7RI05|B7RI05_9RHOB
+MSINKKKAFVSAGAVIATVCATTAWASSHREAPGITAMPKVDATDFYMFRSYETGKEDTV
+TFIANYQPLQSPYGGPNYFTMDSDAVYEIHVDNDGDAMEDITFQFQFKNTLANAGKGIAL
+NVGGQDIAIPLRQAGTIGAGNTSAQNEFESYTVRKINGDRRSGFAASALLTNTSGGGTSF
+NKPIDNIGNKTIADYATYADGFVSAATIPDCSAPGRVFVGQRAEAFAVNLGEIFDLVNLV
+PIQGAANAMYPQYDVASPFAGGITQDRANDDLIDKFNVTSLAIEVPISCLTGDGNGVIGA
+WTTASLPQARLLDPSPTYEGTDKNGGAYVQVARLSAPLVNEVVIGLPDKDLFNAAEPTQD
+GALAPYVTNPTLPELVELLFGGVAGLPSELAPNNFPRNDLVAAFLTGFPGFNQQATVTGS
+EMMRLNTGVPATPLASQNVFGLVAEDLAGFPNGRRPADDTVDIALRVVMGRLCHPVPLGQ
+ELSGDPTAADDVNLGLCAPADAPVGTAAFTDGAPIKPTDLRATFPYLNTPLAGSPN
+>tr|B7RPK4|B7RPK4_9RHOB
+MIALISLGMLATPVAAKPPLRDVAAVDDALLDLGLADRIRKECPDISARMFRAIGYLNDI
+QNTAKSLGYSDAEIDAYRKSDAEKSRMKKRGAAYLKANGVDTSDPQSYCALGRAEIQKSS
+RIGSLLRAK
+>tr|B7RK60|B7RK60_9RHOB
+MTDIQSMAHAIRFTALDSILNAGEGHQGVPLGMAEIAATLYARHLKVDPKDPLWPDRDRV
+VLSNGHGSMLLYSLLHLAGYAHVTTDALKSFRKLGSVCAGHPEIEQEAGIELTTGLLGQG
+IACSVGMAVAEARLAAQFGSDLVDHRTWAFVGDGCLQEGVGQEAISLAGHLQLGKLTFLW
+DDNHITDYGTTDLSISEDVPARFQAANWHVQAVDGHDIEAVSAAMDAAKADPRPSLIACR
+TVIARGIPRLQGQRSGHSAPLTQADSDEARALLKWDHAPFYLPEIVRHDWAACMERGTQA
+HAAWRSRIDDHASATTFHQWTSGALPKDWTAAMQGITKDQASLRTPRPTIQSSGEVCDAL
+ARTLPDTLVLCADLEAPTNHKRSRIAFDASDHSGSYVHCGVREHLMGSMCDGIAAHRGLR
+PVNVTYLAFADYERPAMRMAAVMGLPALFVFSHDSIGVGSNGPTHQPVEILASFRAMPNM
+KVFRPADAVETAEAWALAMEATDGPSLFALSRQPADQVRDTCTENLTARGAYVLHEADGA
+RDITLMASGTEVGLAVTAQQALAGMGIQAAVVSMPCWELFDAQDADYRASVIGTAPRIGI
+EAAMKFGWERWLGENGHFIGMSGFGASDQSAKLYEHFGISVDAIVTAATTMAGKKAR
+>tr|B7RHB3|B7RHB3_9RHOB
+MNVLLILIPVSIILGGLGLCGFLWTLRSGQYDDAEGSAARLLLEDDDAPNDAPDEPRS
+>tr|B7RKT0|B7RKT0_9RHOB
+MAERSFKKEVAHLRKGAGDTFTGEGILAITKALLENGVGYVGGYQGAPISHLMDVLADAQ
+DLLGELDVRFEANASEGAAAAMLAASVHYPIRGAVTFKGPVGVNVASDALANLSSSGVTG
+GALVIVGEDYGEGSSIMQERSHAFAMKSQFWMLDPRPNLPSITKAVKDGFELSEASNTPV
+MLMVRIRSCHVTGSFETRDNIAPPLSVKDALSSPRSDFARVVLPPMSYLHEQDKIKNRWP
+AAEAFIVENKLNEVFGPDRAPLGIVVQGGMYNGVVRALQRLGLADIYGNTDVPLYVLNVT
+YPLVKDEFERFCKGKDHVLVVEEGQPDFIEQQLGSFLYKSRSSVNLHGKDMLPMAGEYTG
+QVMLDGVTAFLKVAAPDMLPGNVRAPNAEASQIPDLSKTVPIRPPGFCTGCPERPIFAAM
+KLTEQELGKHQISGDIGCHLFAALPPFEIGGATMGYGLGPASNAAFDGGGERRAISILGD
+GGFWHNGLSSSIGNMVFNKSDTVAVIVDNYYSAATGGQDVLSSRAKNDTKSTNNPISAAL
+KGVGVEWVRQIDRTYDVGKVREVLHEALTTDYAGPKVIVASSECMLNKQRREKPLRNQAI
+KEGRRVDIPRFGVDPDVCTGDHACIRLSGCPSLSLKKLDDPLRDDPVAHIDQTCVGCGNC
+GEVADTAILCPSFYQADVVHNPTGFEAWRAKQRSKVIAWLQQRRDTKRLVLR
+>tr|B7RLV6|B7RLV6_9RHOB
+MFPENARMVFCIGAQKAGTTWLYHALRQSPHVHFSRNKELHYFDVLSGKAQQVLDLRIGA
+ARNLSQRLAAETGPRNRATLGHLQEMTSLLSIYTGDAGDHGPYLDYLLEHYRNQKIVCDI
+TPAYAILDRKVFEEMGQIGSAKFLFILRDPIDRMWSQIRMAVKVAGTPPESFQEACETRA
+RHLINSNRLSRIERADYRRTMTELEAAIPTDRIQYLFYETLFQAETMAKLFNFLDIPRIE
+IEPETRSNPGLTATLPADLRTAFRRAFAPQYDFIADRFGGAVPAGWAGDIIPALSAT
+>tr|B7RG93|B7RG93_9RHOB
+MADGVEASWSRLLDGQSGAGKITGFDPSKLVTQYACEVPLGDGSDGTFNPDKYMEPKEQR
+KVDTFILFGMAAAVQAVEDSGWMPTEREDLERTGVLIGSGIGGLNSIANTAVMMHEKGPR
+RVSPFFVPGALINLISGQVSIRYGFRGPNHSVVTACSTGAHAIGDASRLIIHGDADVMIA
+GGAEAAICEIGMAGFNACKALSTKRPDDPKKASRPYDADRDGFVMGEGAGIVVLEEYEHA
+KARGAKIYAEVLGYGLSGDAYHITAPAEDGDGAERSMRNALRGAGIEPKDIDYINAHGTS
+TMADVIELGAVERMLGDAVDGVTMSSTKSATGHLLGAAGAIEAIFSILAIRDQVAPPTIN
+LDNPAVETKIDLAPHTKVERKIDIVLSNSFGFGGTNASVIFGKVS
+>tr|B7RPW4|B7RPW4_9RHOB
+MATTPDPLANNPAIRDWAERFFRIKSWTMPDGMDQQGDDVVARRTAALAALSKITIAPVL
+SSGARQAFAGGYKALKQEAMAAVDVDAFDAIDAGIQSLGDDIATQMVIATARVKAQAALK
+SAEDKFEAVSSLLDQGSFTYLEKLLGAARGLMAKAVAASEFKSVDDASADFLKVAGEAET
+YGAYFDTWTRATLLLINSIDTDDQKAATDARAAQMKVATAESVNGDFAKAKTALEDWKSN
+LDTADNLADAVAFGDKLEKYEKDYAKRAKIILSSQVFDAGDYSSLLKDAKDAAYAKKDFV
+AANKHLDDLIAYLSTNRQNLAIYLRGFDMRMMGNAEFKTAVLAAKKTQEAKGSNKPGQAR
+KDLITWAEANADIMSESKSKQIVASLGTKYEALKKTLRDPELADLNATWEAHRLLVVAKN
+FDATDGAPKYHPKLETLFKLARVTDQRGEMDRIVAKFPAAGTYEIRKPLEDALTAGNYDL
+AIASVPKALELMRAMPEYLTLKADVEDVLAALPPTEATLVDPLKKAVSDAEILAIAGKPV
+EGSSVLKLVLENADYLEIATALADYRAKLAQIEKTHSQVKKFLKLPSAEAALDLSLRNCK
+DKAETEQKYGDAFLMLERHKKLLAQAKPMATARFQVGGIINALKRAAVPSSELDPIESKI
+PAAEDEARKPDFAKALSAFDAILASLEALSKEAAEAYEMVDGIGSNAGHSLDRHGPDVTD
+PELIRRLKTGEAPNAKAGDAPSYTGASSRFESPQDWIAGRELAAQAALAKGVDISQKEMA
+YTGDLLTSPEESADFTVEHGRAIDKAFIGKKKEVRLTEGAGDIVFDKTYETYEEIEGLTR
+AYVNFIWEPEAFVKETTALPVDPTEHAAHKPQDNADYAKEYKKRHGTDPTKIPGRWVMMQ
+QYPVADGWDNELKAYTNNDPGNMIP
+>tr|B7RQB0|B7RQB0_9RHOB
+MEILSVGDKLITRDSGISKVMHIQRTTRKVHTIAFAAGSLGHTRPECDTLLAADQMVLIR
+DWRARAMFSSERALVAARTLVDGEFILDQGIQDQMLIQIFCDGPHILYAGGLELGTADAN
+RARGAVLDAA
+>tr|B7RRT9|B7RRT9_9RHOB
+MQDHLMETAFTPIESLAGGVLIGLAAVCLMLLRGRILGATGILAGVLLPASRYDWTWRVM
+MLAGMFAGPWVYFVIAGQLPAINVTASTPVLAVGGVLVGIGVTLGSGCTSGHGVCGLARL
+SPRSFAATGTFMLTTGLTVYVIRHILGA
+>tr|B7RPT5|B7RPT5_9RHOB
+MSKDSSRLPHEKGFHISWDQIHRDSRALAWRLDGMGPDDGAWRAVVAITRGGMAPAMIAA
+RELDIRTVDTISIKSYDHQDQSEAIVLKAPDADLMGDGTGILIIDDLVDSGKTLEVVRKL
+YPQAHLATVYAKPKGRPQVDTFITEVSQDTWIFFPWDMALQYVEPYRGKD
+>tr|B7RKG4|B7RKG4_9RHOB
+MTPEIIGLVGLAVLALLLLLRMPVGLSLILVSFTGIYILLGPRPAWGILTSVPYQFAAKW
+TLSSVPMFLLMGYVCYHGGMTRALFAAARAWLGALPGGLAIASVFGAGGFAAVTGSSVAC
+AAAMGRIAVPEMTRAGYDPGLATGSIAAAGTLGALIPPSILLILFGIFAQVPIGQLFLGG
+IGAGVLTAVIYAAMIYIRVWINPALAPVRQDPAGWGERFAHLRGIWPVILLFVVVIGGMF
+AGLFTATEAGAVGALAACVIAWAGGGLTLATLRQSVNETIVTTAALFLIAIGANLLTRFL
+ALSGSGELITQTILTFGASELALVLGIALVYIILGMFLDPIGAMLLTLPVLLPVVDEAGI
+SLIWFGVFVAKFLEIGMITPPVGLNVFVIKGVVDRSISLGVIFRGVIWFLVADAVVVTIM
+VAFPQVILWLPGLS
+>tr|B7RRY6|B7RRY6_9RHOB
+MVTDLRDVTLEIEELALSIVTRQAQLERTDIRAPSDGVVHELQVTTLGGVIAPGGTLLDI
+VPQNAGYEFEVRVPPQSIDRVRPNQRAQVVFSAFDQQTTPKLVGHVRAISPEAVDDRQSG
+QSFYRVSLEVPQKELSRLPETAHLLPGMPVEAFLETQERTVLSYLTEPITTHLRRGFRE
+>tr|B7RKS5|B7RKS5_9RHOB
+MTDISNAGTESHPSPKAPKRSFLTQLEIDTRLLGMIGAFVLVCLVFNVLTDGRFLTPRNI
+FNLTIQTVSVAIMATGMVFVIVTRHIDLSVGAMLATCSAAMAMTQTDILPRLLGLGLGHP
+LTPWIAIAVGLIVGIVIGAFQGWLVGFLTIPAFIVTLGGLLIWRNVAWYMTDGQTIGPLD
+ETFRKFGGINGTLGETWSWIVGLVAVLLALWALWSARRNKISHGFPVKPVWAEALVGLVI
+AMGILGFVAILNAYEVPTARLIREFKARGEIMPDGYTAAYGIPYSVLLLIGIAIAMTVMA
+KRTRLGRYIFATGGNPDAAELSGINTRLLTVKVFALMGALVALSAVVASARLTNHSNDIG
+TLDELRVIAAAVIGGTALAGGIGTIHGAILGALIMQSLQSGMAMVGVDAPLQNIVVGAVL
+VLAVWIDIVYRRRTGGK
+>tr|B7RGC4|B7RGC4_9RHOB
+MFNKILIANRGEIALRVIRAAREMGIGSVAVHSTADSDAMHVRMADESVCIGPPSSQQSY
+LSIPSIVAACEITGAEAIHPGYGFLSENAGFVQILEDHGLTFIGPTAAHIRIMGDKITAK
+DTMKDLGVPCVPGSDGGVPTLEDAKRIGEEIGYPVIIKATAGGGGKGMKVAQTAADMERA
+FMTARAEGKSNFGNDEVYIEKYLTTPRHIEIQVFGDGKGRAVHLGERDCSLQRRHQKVFE
+EAPGPSITAEERARIGKVCADAMANINYIGAGTIEFLYENGEFYFIEMNTRLQVEHPVTE
+GIFGVDLVREQIRVAAGHDMSFTQEDLKINGHAIEVRINAEKLPTFSPCPGKITQYHAPG
+GLGVRMDSALYDGYSIPPYYDSLIGKLIVHGRDRPEALARLNRALGELIVDGVDTTIPLF
+HALLQEKDVLTGDYNIHWLEHWLETNLGNA
+>tr|B7RNK0|B7RNK0_9RHOB
+MKPERAEDHWEVEALYDTCFAPGREALSSYRLRDGVPPVAGLSHVARDADGILAGAIRYW
+PVRIGTAEALLLGPVAVHPTRQGEGLGGLLIEDSLVHAAPLGWARVMLVGDAPYYERFGF
+SLLSDVVMPPPTNPARVLGRDLVPDAWLGIAGDVTSWLP
+>tr|B7RPK9|B7RPK9_9RHOB
+MTDTPNPFEEMMRQMQEAAKAFPAMGAFSPKGFEAMMGKMPKDIMETLFGNTMNPNGLDA
+KTRLLLTIAGLTMQGAQNEVALRQAVIHAVEAGAHKQQVIETIGQMAVFAGIPAMTLAMQ
+IAQGVLDDKEGDA
+>tr|B7RP44|B7RP44_9RHOB
+MIPRYSRPEMVAIWSPETKFRIWFEIEAHACDAMADLGVIPRANADAVWKAKDVEFDVAR
+IDEIEAVTKHDVIAFLTHLAEHVGSDEARFVHQGMTSSDVLDTCFNVQLTRAADILIADM
+GLLLAALKRRAIEHKDTVRVGRSHGIHAEPTTMGLTFARFYAEMDRNLRRLETAREEIAT
+GAISGAVGTFANIDPRVEEHVCEKLGLMPEPISTQVIPRDRHAAFFAALGVIASSIENVA
+TEVRHMQRTEVLEGAEFFSAGQKGSSAMPHKKNPVLTENLTGLARTIRMAVIPAMENVAL
+WHERDISHSSVERAIGPDTTITLDFALHRLTNVIDNMLIYPDNMLANMNKFSGLVMSQRV
+LLALTQAGVSREDSYKLVQRNAMKVWEDGKDFKTELLGDAEVLAALSPEEIEEKFDLGYH
+TKHVDTIFARVFKD
+>tr|B7RI32|B7RI32_9RHOB
+MPTRSQTLAKAGMLRMTFEEQGAVVVEPPILQPAETLLDLYGEDIRARAYVTSDALRGEQ
+MLRPDYTLPVVQMHMAHGADPARYTYAGEVFRRQESDPARANEFIQVGYEVFDRTDPAAA
+DAEVFALIAHALRGLPVSAVTGDIGILMAAVAGLDTTRRRKDALMRHIWRPRRFRALLDR
+FAGKTPVPPARAALLAGQAFSDAPLIGLRSGPEIEARITALREDADAAPLSAGQVELIQG
+VLDIRETMPHAISQLRDLAVDLPAISVAVERVAARATALEARGVETETLMFEASFGRVSM
+EYYDGFVFGFRADRRPDLPAIASGGRYDALTRRLGQGGEIPAVGGVMRPGLMLELEAGQ
+>tr|B7RQW1|B7RQW1_9RHOB
+MTDQITTDPTKALERMRAGSMTLTLAPWLIAIVVLVFLPMVFTNNSALTIMNQMSITIVF
+ALAYNMLLGQGGMLSFGHAVYAGVGGFACMHIMNMSDFFETIPLVILPIFGGLFGMGLAM
+IVGSFSTRSAGTVFAMISLGVGELIAACSVIIVAFFGGEEGISGDRTYANPFFGIEFLQQ
+IEVYYLTIAWLVISAALMYLWSRTPVGRMANAVRDNPERAEFLGYSSRWVRYYSFVASGF
+FCGIAGGLFAINYEILTEENLNTTSSGVILLVTFLGGVGFFFGPIIGAIAFTLLQTVLSL
+STELWAFYAGVLFVATVMFFPGGLAGLLMMHVPVFKLGKAHRLVMPYLKTLLPGAIGLLG
+LAALVEMTFHFRHAAPGDEEMTIFWTTFNSHDVLPWVIALAITVIGLGITKATAPALKEA
+WNEANTAGGAS
+>tr|B7RIP6|B7RIP6_9RHOB
+MAAGFSPWPHPAAQPLPERMTAADRAVAKLTIQKDTE
+>tr|B7RPM5|B7RPM5_9RHOB
+MAVFGAIIIASLWVAPRRASIDGFFGGMTETGQAPGLWTLVLSQVTTWIFARSLMNAAIL
+GYYYGIAGTLAYAAYYGSFLTGGFIVGRLRETGSVSVQDWLGTRFGAAGNGCYNLVIALR
+LLSEVFANLLVVGLIFNAVLAGSGTAAILIVAVIGLAYSAWGGLSAALRTDVLQMAVFLV
+VFGLAFVALIVSPGFDLAGIVTAPGTAGSYNGWVLLVVALLQVFSYPAHDPVMMDRGFIA
+DPATTRKSFLHAFWLSTLCIIGFGFFGIQASLAGAAYEGELIGTWSTMFPAWVFGALMIS
+LLVSALSTLDSALASAARLVVEELKLAPRSLNGGRIVMLGFMVAGTVLTLLGNATLFDAV
+AVSGTASMFLTPVLLVGLVMGRKIAVWSYFAAFGAALLGALAYFGRAWSVFAALLPDGHK
+YEQLLAICVVVLIAGFAAVLAGARRG
+>tr|B7RQJ9|B7RQJ9_9RHOB
+MAAAEAFECKDPAPVFAAAGASTFDLPKLAQTVGTAELDGRSLRPVAQQVRTDFPEASET
+DVADIMITAFCTYLNDDAPASHRSQSNIRNFEREVYGAVFGGAAPKSYQCHDWMCGD
+>tr|B7RQ24|B7RQ24_9RHOB
+MLEEINMGDVMADKTLTRMDLSEAVFREVGLSRNESAQLVESVLDHMSDALVQGEQVKIS
+SFGTFSVREKSARVGRNPKTGEEVPINPRRVLTFRPSHLMKDRVADGNKR
+>tr|B7RJU5|B7RJU5_9RHOB
+MFRLLRLFLVLGIGIAIGIGFERMLMKSECAAGEGQWTGTICVNSELLQ
+>tr|B7RMV3|B7RMV3_9RHOB
+MFKDSDRRVRPCAIGVNRCHTGGAGLTLAHRCLLNRSDYPNIAGRAFLTVCESYTMSPDP
+FADFVASLQAFIAGGLNLAHSLMQPGWRQYQIIILILVAVLSWGLHHMSSNWVQSWVRSQ
+EGWAKWQLRMIVQIKRRLGLIWFVLISGAIYLVMQNITWPSRSYLIGIFSTLAAIWVCIA
+FATRLVRNRPMRRLVTWALWIYATLNSLNLVDDVSVFLDSLAVTIGEFRLSALTVLTAVV
+AIGLLFAIARIVSQTTAATIRKNEDISPSMQVLAVKGVQITLYGIAFFVGVKSVGIDLTG
+LAVLSGAIGVGLGFGLQKVVSNLVSGVIILLDKSIKPGDVISLGETFGWIQTLGARYASV
+VTRDGKEYLIPNEDLITGQVVNWSHSDDFVRLDIYFGTAYDDDPHLVRKLAVDACQGVNR
+VLQGRAPVCHIVGFGDSSVDYILRFWIRDPTGGLTNIRGNVYLALWDTFKENGISIPFPQ
+REVKMLPDSQLALHRAKRDES
+>tr|B7RQJ7|B7RQJ7_9RHOB
+MKQTDVVANAFAMPLTSPSYPKGPYKFVNREFLTITYRTDMEALRRVVPEPLEIPEPLVK
+YEFIRMPDSTGFGDYTESGQVIPVTLDGVAGGYVHSMFLNDDAPIAGGREIWGFPKKLAD
+PALRVEKDTLVGTLDVGSVRVATGTMGYKHRALDHNKVLKGFDAPNFMLKIIPHVDCTPR
+ICELVRYYTKDVTLKGAWEGPAGLELHSHALAPVADLPVREVVSAVHLLTDLTLGLGEVV
+HDYMQEKG
+>tr|B7RQ91|B7RQ91_9RHOB
+MGRTLTAVLTLMLTIGFAVSPFLVPSFAGFDPDQFPVPQIDPSVQPAGYAFSIWGVIYLW
+LIIGMAWGLWKAREDFIWHDMRGPLCVSLFVGCFWLAVAVASPIWAAVLIWVMLIGALVA
+LFKSPQDNRWFAALPVGLYAGWLSAASCVSLGLLAAGYGWMGEDTAALVFVGLAIVIAAG
+VQSTLMRAPTYGIAVIWALIGVIVQNAATAPTVAALAAGGAIALLLPTYRSWRKG
+>tr|B7RMK1|B7RMK1_9RHOB
+MSVVKTQTDGSILLVTLDRPKANAIDLETSRLMGEVFRDFRDNPDLRVAIITGAGPKFFC
+PGWDLKAAADGDAVDGNYGVGGFGGLQELRGMNKPVIAAVNGIACGGGLELALSADMILA
+ADHATFALPEIRSGTVADAASIKLPKRIPYHIAMELLLTGRWFDAEEAKGWGLVNEIVPA
+DQLLDRAWELARLLASGPPLVYAAIKEIVRDAEDSKFQDAMNRITGRQLASIDTLYSSED
+QMEGARAFTEKRDPVWKGK
+>tr|B7RHH0|B7RHH0_9RHOB
+MITLFGSDDIDFTVGLGRGASADPRAATAAAVADAKSKTDKDSALCVAMPEGIGPNISEI
+VSGLRAALGEEFPIVGGASGDQMRFQGTKQFCNGDVVSDSVVVLIMSGPLVYSCGVATGY
+VPLGNRHKVTKSEGSTIHEIDGNPAINLYKEYVQAQSVHFPLAVHSPEREGFLLSSPHFF
+NEETGAVTFVNPIEVDKEVQIATASRDEIVVAARTAVESAFKGFPNKKPDAALFFSCAGR
+RAALGTRTKEEYESFETIVGDAFPTAGFYTYGEIGPVGNKGKSLQHTNAFLAVLLGSAAA
+S
+>tr|B7RJD9|B7RJD9_9RHOB
+MMEPEDAAARRAVKPVICYPVDTLPVPDMAALTRARATLTKVDEVLVPARDARCFSVPAG
+HFFRIRSVEGPQVGDLNLWAENDLTERFYSGKTRALHGTHITTGQRMWSSFPHLRPMATI
+THDTLEWYGKDAFGGSVHDVIGTRCDPYTHNLLAGGQYHQCCHSNLVRALAAHLDVPPLQ
+AEPHVHDVLNVFMCTGFTQDTGQYFMKASPVRPGDYLEFFAEIDLLGALSACPGGDCSSE
+HSSDAAACHPLLVEIFAADPAVLEGINLAPRNHYDRSHGT
+>tr|B7RP15|B7RP15_9RHOB
+MSTCVFIQIRCRPGTTYRVAEEIALREIHSELYSTSGNFDLLMKLYIPKGEDVGVYINDH
+LLDIDGIERSLTTMTFKVF
+>tr|B7RGN3|B7RGN3_9RHOB
+MTKTQLVAALAEEMGEDKKTAGAALDAVCALITKEVSGGGAVTLPGIGKIYCRERPERMV
+RNPATGEQFKKEADKVVKMTIAKALKDSVNE
+>tr|B7RL30|B7RL30_9RHOB
+MSEKTTYCGFRGQTDNQKSLERRVEIAKNTVFLLFHTGMLRYTNTELT
+>tr|B7RM56|B7RM56_9RHOB
+MINYLPFLPKHPTVAVIRLSGVIGGRARGGLNDGGIGPAIDKAFSRGKPVAVALEISSPG
+GSPVQSSLIGARIRRLADEKKIPVIAFVEDVAASGGYWLAAAADEVYADPSSVVGSIGVI
+SSSFGASELISRHGIERRVYTAGQSKSMLDPFRPEKPEDVERLKHILNDIHTNFIDHVKA
+RRGDKLAPDVDLFTGEIWLAKRAAELGLIDGIGHLRPFLKERFGDKVKFARYGTKKGLLS
+RFGAQIIGDAVDSIEERAAYAQFGL
+>tr|B7RG32|B7RG32_9RHOB
+MLSIKGLKVKLEDEDKQILKGVDLEIEAGKVHAIMGPNGSGKSTLSYVLSGKDGYEVTGG
+SATLEGVDLLDMEPEERAAAGLFLAFQYPVEIPGVGNMTFLRTAVNAQRKARGEEEMSAA
+EFLKVVRARAKELKIDAEMLKRPVNVGFSGGEKKRNEILQMAMLEPKMCILDETDSGLDV
+DAMKLVAEGVNALRTEGRGFLVITHYQRLLDHIKPDVVHIMADGRIIKTGGPELALEVEN
+NGYADILAEVA
+>tr|B7RI42|B7RI42_9RHOB
+MDLSSINPVLFVAGFLVAATPLIFAALGELVAEKSGVLNLGVEGMMIIGAICGFATAVET
+GSPLLGFAAAAVGGAALSLLFAFLTQITLANQVASGLALTLFGLGFSALLGQSYVGVKPP
+RLAEVNFGPLHDIPVLGPILFSHDIVLYFGFALVVVVWAVLKYTRAGLILRAVGESHDAA
+HALGFRVVRIRTLAIMFGGACAGLGGAYISLIRVPQWTEGMTAGVGWIALALVVFASWKP
+WRLLLGAYLFGGITQLQLNLQGAGVAIPVEYLAMSPYIITILVLVVLSADKSAAPASLGR
+TFHASS
+>tr|B7RK55|B7RK55_9RHOB
+MKINVLAILAATTAFAGAGHADEVIFAHGANPGNPRYVAAEKWAELFATCSGGAHTVNHA
+PSATMGNDVEMLTSATAGVIQVSANSQGAMSQIVPEIGLLGLPFLFKDLPTAWGTLDGEV
+GEMIDARAQNAGLKILGFWDNGIRNVTHTSKNVAEPGDLAGMKIRTPPDQMTVDIFEALG
+ASPAPLAWSELPTALQSGVFDGQENPLVNIYSAKLHEITPYVTLTGHKYESTPVVAGLGW
+WSGLDEATQTCALEATAEAGKIQRDLVLSSDEDLRPVMEAEGAIFAEADKAAYQAATASV
+YDKYAEQYPELVAALREAAGL
+>tr|B7RM35|B7RM35_9RHOB
+MREPIERCQVTNTNPITGLRDTATLDILSSQFGHRNFGVYAEVITTGDIALGDTAKVI
+>tr|B7RFS3|B7RFS3_9RHOB
+MFDFCLRIHGALIQPNASVPNFMRPTGSACSTSECTEMSLSVLDQSEPA
+>tr|B7RFX7|B7RFX7_9RHOB
+MREMVLAAARLGAFEPLWSARILEEWARAAIKIGPTGEAQARAEIALLRAAWPRAEVSPS
+PGIEQRLYLPDENDIHVLAAAVHGNADMIMTLNAKDFPRGTLAEEGLARVDPDSYLHTLW
+LDQAAAIESAAGSVLAEAQRLSGQNWQMRALLKKARLHRLAKAIG
+>tr|B7RH23|B7RH23_9RHOB
+MWQSLSARLKLSDFRRKEDGSASLEALIMAPAMFWIFMAMFSFFHTYQEYSVNQKTAYTL
+SDMISRETLPLDGLYMDGLQDMLGYMTHSTGDPAIRVTSLKYNATEKRFYVHWSRVRGSV
+TPVSDADVATWTSRVPILADGEYIVITETFTKFDPPFKVGLLRQDIDNFVFTRPRYAPRV
+LYEGSV
+>tr|B7RQQ7|B7RQQ7_9RHOB
+MSVLEIRNLNKSFGAITVSRDISLSIGAGQCHALIGPNGAGKTTLIHQISGVLLPDSGQI
+SLDGQDISTLSVAKRVQAGLGRTFQITSVLPSFSVLENTAIAIQAKSGSSMRFFRDAARE
+TTLNDAAQAVLNRVGLGDRAHVRAANLSHGELRLLELAIALAGDPKFLLLDEPMAGLGRT
+ESAALVTLLAELRGTLPMLLVEHDMDAIFQLADTVSVLVDGTVVARGTPDEVRASPAARA
+AYLGEGTE
+>tr|B7RHS3|B7RHS3_9RHOB
+MHGLINRSVQNFVCDTFGKDVWLQVTQRADLGFSEFEAMLSYKDDITPRLLDSMAAVTHR
+SLTDLLEDIGTYLVSTPKLEGVRRLLRFGGVNFEEFLQSLDDLPDRAKLAVSDLDLPRME
+LDEKPDGQFDLICQSPVPGFGLVMTGVLRVIADDYGALVVLDHETTADGFERVSITLIDT
+DFAEGRQFELGAPII
+>tr|B7RJQ6|B7RJQ6_9RHOB
+MSALAARSPISSLATVLYMIAVAVSIAVTLRLVLFIFLEPGDTLGFMFSVLETKFLPSTL
+TVVFGCWSVAVLRLPPVWLRLLCVPMAAWGVYALMGFLAQ
+>tr|B7RH39|B7RH39_9RHOB
+MAVVSSCGLPQVGPNKRQIYKGSVQQEGDAFVVAVNDRVSRATAVTPALGFSQAFINAAT
+LGSDTISAGDTLGLTIWENVDDGLLAAQGGNATLLEEVQVDGSGFIFVPYAGRIRAAGNS
+PEAIRRIITQRLSEQTPDPQVQVRRIAGDGATVSLIGAVSAQGVYAIERPTRTLSTMLAR
+AGGVSIVPEIAQVTVLRGNMKGQIWFEDLYQHPELDIALRGGDRILIEEDSRSFTALGAT
+GSQRKVAFESQTLSALEAIAQVGGLNAGTADPTGVFIFRNEPQEVVEQVLGRTDLVGAQR
+MIYVLDLTKPNGLFMARDFVIRDSDTLYVTEAPFTQWSKVISSITGSASSLNSIGTVGST
+LAGN
+>tr|B7RHV9|B7RHV9_9RHOB
+MRTISSYIAPKGMLLRAGDAPAEPLAQRQSRYADFPPLRGIVYP
+>tr|B7RK49|B7RK49_9RHOB
+MPGVIQAQNKTQDQLQDCGSLNAQDCALLLQVREQLMDCDGSGSAECADVRRERDRLQTC
+ADAEMDQDRDRDRDRDKDCDPASDGAGGDGGAGGAGGGSGKN
+>tr|B7RHA6|B7RHA6_9RHOB
+MYSNILVPVVVDEEAKTHTAIKAAIAMADPGARITLLHVLETIPVYVSDYVPADYMLTAR
+ESVVKRLDDLASEIPNGHAAIADGRPGPRITRWADENGIDCIVIASHQPALSDILLGSVA
+GHVVRHAKSAVHVVR
+>tr|B7RJA5|B7RJA5_9RHOB
+MTLKQAFEDQAAHCVALGSPFMGQLMMVLARDWPRDTALGRKFASAKGDVGPMGASLPLR
+IAGGLHALVLKRKAPELVAVYPPHQTSDADLSAAVLGALQTHEAFLLEWTDHAPQTNEVR
+RSAALIAGARVAAQHFNLPIHLSELGASGGLNLMWDHFALEIDGHHFGPNMSTILLSPDW
+TGALPPKTQPRVEKRRGVDLHPLDPTRHDHLLRLMAYLWADQPERLNLTRSAASVMQAKV
+DQGDAIDWLAQQLPKAPQGSLHLIQHTVAWQYFPKSAQARGKALIEAAGARATAQRPLAW
+LAMENDGTDKKGAALTLRLWPGDITLNLGRVDFHGRWIDWQHTG
+>tr|B7RRZ4|B7RRZ4_9RHOB
+MKSAFLVLSILAVKRSGFVEDHQLKLGGWFWQSAKWFTASGARAVSMVIQH
+>tr|B7RGQ6|B7RGQ6_9RHOB
+MTRVKYILLPIFLILSAMSVAAQGTNVAFGTIRQDTSLPVEVTADNLSVDQATGTAIFTG
+NVVIGQGEMRLSAARVLVVYRADAEGIARLEATGGVTLVSGADAAESQRADYDIDSGTIV
+MTGNVLLAQGRNALSSDKMSVNLSDGTAQMSGRVKTTLQPGGSN
+>tr|B7RKY6|B7RKY6_9RHOB
+MTQGNKIAWDDTVLPFQLDASDIRGRVARLDGVLEGILRQHDYPEKVEALVAEMALLAAL
+IGQSIKLRWKLQLQVQSNGPVRMIATDYYGPTEEGEPARIRAYASYDADRITDAPVFDQV
+GEGYFAIMIDQGQGMTPYKGITPLAGGSLASCAEAYFAQSEQLPTRFQLSFGKSSTPQEA
+EHWRAGGVMLQHMPKASPFAATAEGTGEILRPEDLVDGEEGENWNRANVLLDTVDPLELI
+GPSLPPTDLLLRLFHEETPRVFETQPVRFGCTCSEDRVRQSLSIYSAKDIEKMTTDDGRV
+TADCQFCSAHYDLDPKTVGFEAEATSGE
+>tr|B7RKG0|B7RKG0_9RHOB
+MKQTGVISMSSPFYAYQSIARATHEHGVETMFGLMGDANLFMVDSFVRDFGGRFVPAAHE
+GSSVLMAVAYAHVSGNVGVATVTHGPALTNCITALTEAARAHVPLVILAGDTPVDNPRHL
+QSIDQRELVKVTGAGFEQLRTPATVGKDVARAFYRAQVERRPIVLNMPADFMWEEVTHDV
+QVLDVFTAPGGVAQGDILDNAIGMIASARRPLILAGGGAVAARDQLIQLADRLEAPLATT
+LKAKGLFSNHPYDIGIFGTLSTPAAYDLIAQSDCIVCFGTALHDFTTDRGKLMKNKRIVQ
+VDVEPAAIGGGLHPDAALVADAGLTAETIRYWLDEAEVPPSGFTRDLDVATLTMHPAGAE
+TESDGFINFVYALERLEDALPKDRVLVTDGGRFMTEVWCRISVPNPQSFVGTVNFGAIGL
+GLQEAVGVGLAAPDRPVVLFSGDGGFMMGGINEFNTAVRLGLDLIVIIANDSAYGAEHIQ
+FIDRKMDPSLTEFNWPSFAEIAKSLGGEGVEVHSKEELEAALVHLNARKGPFLIELRLDP
+RDVPRMRI
+>tr|B7RS41|B7RS41_9RHOB
+MSLAPASAKEALMALAPSTILQLSGMAQDALHKMKRAVESVPAYRLEPGSRPQDVACTFR
+KLIADAP
+>tr|B7RSB3|B7RSB3_9RHOB
+MSKPADLPNDIEALKALLAASEDRNLRKQDRIDQLEKLVADFKRALFGARSEKADPEQFE
+LALEDIETAMAAVHAEDDAVDPPASRPTKPRNTNRGSLPKHLLRIEEVITPDSMTCGCGA
+ERHMIGEDTSERLDIVPAQFRVIVTRRPKYACRSCTNGVVQAPAPARLIPGGMPTEATVA
+HVLVSKYADHLPLYRQAQIYSRQGIDLDRSTLAGWVGKAAYELRPVFDALMADLKRSTKL
+FMDETRAPVLDPGKRKTKTGYFWALARDDRPWCGAAPPGVAFTYAPGRSGQYADDILKGF
+SGILQVDGYAGYNRLLKRVDDRVALAYCWAHARRKLHEVAQSGTAPIAEDGLKQIAALYR
+IEKDIRGLAPEVRLAARQDRSAPLIAAFEEWLTTNRARLSAKAPLGEALKYIAKYWDGLC
+LFLTDGRIEMDSNAVERTIRPIALNRKNALFAGHDAGAAN
+>tr|B7RJS9|B7RJS9_9RHOB
+MTERADTHVVLYDLGSSSADLIAAMCLGHMRVTVLEPEQADADRVRDVLQRRLPGAGFTV
+STRPPEGCDVFICHASDAQMAPPASLVAVLDGPEALAIVPEPDRSVAMDVLDPRFAEVAF
+GDAPDTTRARATRFLAKLNTGFAVTTRGHGFWGNRLQDAAISLVDRLLLIGITPWELDEA
+LEDAGFAQGLLKSQDHIGLDVAFARRRASGTDLLVADRMVHEGRLGRSVGVGWYRYPGGG
+GAVIDPLMEDMIVEEARFAGIDPVPMTDAAAADAVIAGIINASADMVQDGMTTDGVDALA
+FYKLGLPDLTARAKQIGESGLRNRLAGLHAVDATLWCPSPSLGLIFGS
+>tr|B7RPA8|B7RPA8_9RHOB
+MPITKADVQAALDRVLLPDGKSILAHDLIRALTIDGETVRFVIEAPNAQVAAQMAPLRDA
+AEQVVKALEGVTTVTVALTAHGPAPKPAAPSLKIGGHPKPQDGPTKPKGVQRILAIGSGK
+GGVGKSTVSSNLAVALARAGRKVGLLDADIYGPSQPRMMGVNKRPASPDGKTIIPLKAHG
+VTMMSIGFMMEEGKAVVWRGPMLMGALQQMLGQVEWGELDVLLVDLPPGTGDVQLTLCTK
+SELSGAIVVSTPQDVALIDARKALDMFNTLKTPVLGLIENMSMFVCPDCGSEHQIFGHGG
+VAAEAEKIGVPLLGSLPIDLDTRLAGDGGTPIAAGDGPMAQAYARIAEGLIKGGMA
+>tr|B7RNU0|B7RNU0_9RHOB
+MKDFVDGTAFNNEQGNRARKLFAAVVLAALDDAIADDKKYGNGPEQIARWARSRDGREVL
+SCAGIDPNERVVTGLMDFVGKGVRTSVALSREESERRNAAQQAEAA
+>tr|B7RIQ4|B7RIQ4_9RHOB
+MWRHATFPSKADPLMYYPSKDGHVLSGSVPEKNTKALIKFFARFEEPKGDGLVHFTLSLP
+AGIQLNEEQWHEVARHVLRESGLPPDIVPWVVWGGEQTNCDHVHIIAARQTFTGRSLEVA
+TSVAFTQKLARDLCHRLSLPEPDWMPDPEMCLVMPIPKRRQRKNAAAFQFATDVNAVMGR
+FRPETLDMLNRGLRRIKSPWQIDICAQNAGYLIPEHAETGRRINPRDAGSAFSSKNILRR
+LAFATRLRLARTALFLRRIRQHIGNKALPEISSIEGYNDDRSQPEPQDHSRETGFDTGRH
+SEIDANPDAPRHRGTGEGPRFRGPPVQSPPEPHREGRPAGTSAGTAQQAADRDDGLPENS
+YRRGDAGRGIWFFRLKRLAKDAGLKATQKFSPDYSSILLKDDTGRQGCFDLVQLAIEPGG
+QEWDERWYALAGRFQTLFDWQVPLRSMRDEGPTFDPF
+>tr|B7RMP3|B7RMP3_9RHOB
+MAKLIPILVLVICAALGLTAGKFLRPPPAEPAESVSEEIDGEKPAEEAETSEQEPEGTSP
+DRDYVKMNNQFVVPIVTDNRVSAMVVLSLSIEAPLGKEDDVLRREPKLRDSFLRVLFTHA
+NIGGFDGEFTSIEKLGGLKRALKEVGQRDAGADLVKDVLIVEIARQDY
+>tr|B7RQW8|B7RQW8_9RHOB
+MIGYTTVGTADMERAKKFYCDLFESKGAKVLVDAGRIAMIGTGRGTPMIAVCEPYNKEAP
+TPGNGVMVAFTAETKPEVDDIYARAIELGATCDGPPGQRVPDRFYGAYVRDHDGNKLCFF
+KFA
+>tr|B7RG85|B7RG85_9RHOB
+MIALEAGFGATWAEVPADLKQAVFLLAAHYYEFRHETNLSDGCMPFGVSSLIERYRNLRI
+GVGASR
+>tr|B7RJI5|B7RJI5_9RHOB
+MTVGVVMLVHTALGRAEQVARHWAAAGCPIVIHVDKAVPRKTYDVFVQSLSDVPDLKFCK
+RFRCEWGTWGIVAGSQSGSELMLASFPQVRHVYLASGSCLPLRPVKELLNYLAARPRTDF
+IESATTADVPWTVGGLDEERFTMRFPFSWKRHRYLFDKAVAVQRALGLKRRMPNGIVPHM
+GSQWWCLTRQTLSAILQDPERPEYDRYFRNVWIPDESYFQTLARQYALKIESRSLTLSKF
+DFQGKPHIFYDDHLQLLRRSDCFVARKIWPYADRLYEAFLTDEAAAMKKTEPNPGKIDRI
+FAKAVERRTRGRSGLYMQSRFPNEDWENGVTAAPYSMFQGFAELFENFEPWLAKATGARV
+HGHLFAPDRAHYADNQTAINGALSDSAIIRDYNGKAFLTNLIWNTRGERQCFQFGPADNQ
+DVCWRIAKDPNAQVSVITGAWSVPLFRSNKDFADIRREAALLQKIESEHMNILRSPYTKA
+RVRIWTMAEFIEAPMEPLQGILDEIGQTKLRRIAEVPKMVDLSGFGQFLQNLKNQGMHPY
+MMGDFPVERGVAATQQRPRKPYLVQ
+>tr|B7RKB4|B7RKB4_9RHOB
+MSSEIASQGSLFTSDFLTESIQNVSEWTTLGDADLEQFGESVRGHFDGFPIAQTPNESQT
+EDDLIWPILEALGWTESLRQQNLSPKGREDVPDGLLFESVDSKAKANGFPEEWKRYEFGR
+AVVESKRWARPLDRRSGRRGEETAPSTQMLRYLRRIDDITGGTLRWGILTNGSKWRLYFS
+GARSVSEQFFELDIAAILNLPGHNDGLFALNEDDRRHWLKVFLLIFRREAFVPAGADPRT
+FHEKALEEGKFYEERVAEDLSNKVFGEVFPDLVRAIVKAAPEADLQAVREAALILLYRLL
+FILYAEDRDLLPVKDTRYDDYGLRNKVRIDVKDRKDKNDVFSETAARYWGALADLFIAID
+QGDASIGLPPYNGGLFDQERHAILANIRLPDAVMARVIDALSFEVTPDGRKYINYRNLSV
+QQLGSIYERLLEYEVKRDGDDITVQPNIFARKGSGSYYTPDDLVQLILTETLEPLIEERK
+RAFRDKITELEDSTRADDRKIGQLRLHDPATALLDLKICDPAMGSGHFLVSLVDFMADQV
+ITAMAEAELDAPEEWGDYISPLGERIDTIRNTILANADERDWTIDEEQLDDRHIIRRMVL
+KRCIYGVDKNPMAVELAKVALWLHTFTVGAPLSFLDHHLRCGDSLFGSWVKKGIDKAATY
+GTPLLLHEPMKRALRAASKMQIVEGLTDAEIAEAHRSADVFAEVEDMTAPLDALLKLIHA
+IDWLDIKGKEKKTAMQAFFDGELGDPLDIVLGKRKLTRPKAKAAEETLKGRMSAAEKFDL
+FSDIFAQAQMLIAEENFLNWQVTFPGIWSDWEVDDLTGGFHAVIGNPPWDKMRFEEIPWF
+EQRVPEIAKLGSGAERKEAINELIESAPELHRQFEQARERSTLATTVARKTGDYPLLSGG
+DTNIYSLFVEQARRLLNANGRSGLLVPSGIASDGTSAKFFEQVSTGGQLRTLIDFENRRT
+RYGLRPFFEDVDSRYKFCVFVLSKVALEEAAKCAFFLQAVSELEHQDVIFEYRAEDFNRV
+NPNTKTAPIFRSRRDAEICARIYEAAPVYSHHDSGEKQYPIKLGVPMHVTHDSKHFQSRA
+KLEAIGFYHIGNHILEKGSLQARPLYEGKMMMDYDHRSSDVVVNLANSKRPAQPKEIPSD
+QKTDLDRMSVPRFWVQDDAPKRPISLSWLLAYKNVCSPTNRRGMISCVVPTNRCGHSLQI
+LVPDQDENGLESYKSCVSNLLANISSIVFDFVARAKIQGNNLSWYIFEQLPVIPPDRLAS
+ERFGEKSAAEIVREAVLELTYTAHDMEPFARDMGYVDEAGNVKPPFTWDEERRLVLRAKL
+DAVFFHLYGITDRDDIRYIYSTFPIVEREEKAAYGGKYRSRDLCLAYMNALAAGNPDAEI
+KL
+>tr|B7RLM1|B7RLM1_9RHOB
+MSPIVHFPSDRLLRYEHLNSLWKTAMIYTRLLARLGNQMFQYAAGRGLAARLGVDFTVDS
+RRAVHKGDGVLTRVFDLDWAAPENMPPAQHERPLAYYAWRGLRRDPKIYRENGLGYNAAF
+ETLPDNTYLHGYWQCERYFAHIADDIRAAFVPRHPMSAQNADMARRIASGPSVSLHVRRG
+DYLTVGAHGICDQTYYDAALAAVMQGLPSPTVYVFSDDPQWAKDNLPLTFEKVVVDFNGP
+DSDYEDMRLMSLCQHNVIANSSFSWWGAWLNANPQKRVAGPANWFSNPKLSNPDILPSRW
+IRI
+>tr|B7RNL5|B7RNL5_9RHOB
+MNGFFVDDNSEERIRISRLLEQEELRIDSNFVPTEPTKLRDAILAQNPDLVALDFRLDDE
+DLRDEKDLKQNNYKGGALAQILREAVLETPDRDFPIILVSTEENIKQIYSIDKTSHDLFD
+QKYMKGRLSDKYYRLECQRQILSLAKGYKEIASKEAEGKGLFALLALEPEELEIVPLLGL
+ATDLKNANSVVHVISRLILRQLIERPGPLLAGRDVAARLGLSNNRDQIEHVMSFLFNEGM
+AYEGVYSDGWLRVWRHRLDDWANEHFHAPLSSIPGSERAAKISELIGLDLEPAISRWSSK
+SDELFAFACSLCANPTERRNSVALYDKYLLPYAERKRVCFDCLMRGRLDEHPQLSVDESD
+LDIFADVREGRITRQ
+>tr|B7RR08|B7RR08_9RHOB
+MTDPHTWDEPTWRSKVEAVRAGRNLLPATWPNGARCAVALSFDSDHETNELRDGGNSVAR
+LSWGEYGTRRGIPRIRKVLDKFDAKASFFVPAVSALLHPEEQRSLAEDGHEIGLHGWIHE
+LNTGLDHTTERDLMLRAADTLEKISGTRPVGMRTPSWDYSPNTLGIAREMGLLYDSSLFS
+DDDPYEIVQNGDPTGMVELPVEWIRDDAVYFMMNRFGAQRPYTPPADVLDIFTREFEGAY
+AEGGLFLLTMHPHVTGYRSRIFILEELLERITDKGDCWIATHAEIAQYCADQAGIASK
+>tr|B7RS60|B7RS60_9RHOB
+MGLLTETRSQRLAFDVGLKLRNADGPAGATPSSGFVDPFLAVQHAREAASARLSFAAAYR
+ETDLSQNADLVGLAGDITDATGSATRRYANVEMGLERGLDTPVSYGILARVENTTYHDGV
+ATGVGGGTLNDTKRHMIAASLHMDLNPAVWLSNTLSYRLFSESGISGRRKTVDLASALQL
+QRPLGDLDFTLGYTDTPEGYRLRARMNRQYETTAGQLQAGLGVARGVTGDAYVTGSLQFR
+QSVPTGRIEARISRALASSDQTDRERLNTSLNVRYRVQISELSALILRADWGRSKDTASG
+LRTTNSAVGITYARDLTRTLTLEVGLRHRRQRDDVTGAARSNELFIGLGRVFLTRY
+>tr|B7RQ80|B7RQ80_9RHOB
+MSEPISALNGAIYNQGIAEILALDPIGMISIRGDLSAGYLKKPIKKITGLGMPEMRGINL
+NGQTGIAWMSPDETLLICTYAEVGAHLDTLQNSIGSNHALAVNVSDARAVFRLKGKHIRE
+VLAKLAPVDMSPENFAVGTIRRTRLAQVPAAFWMVDAETAHLVCFRSVAQYVFDLLKTAA
+QPGSEVNYYKR
+>tr|B7RKI0|B7RKI0_9RHOB
+MHDTVWFEIQGIPSVSVASSAFGQAAETQRKALGMEGARYVLVPHPIQDATDDEMRVKAR
+EAYDQIMAALSDE
+>tr|B7RNA1|B7RNA1_9RHOB
+MKHLLTTAAILTSLALPVYAGGPTPSNADAVQYIISPADGATVSSPVTVQFGLKGMGVAP
+AGVEKDMTGHHHLVLDSAPFGSDDAEALSTAIPSDETHIHYGGGQTEAVLELAPGTHTLQ
+LVLGDWSHTPHATPIMSEVITITVE
+>tr|B7RNK5|B7RNK5_9RHOB
+MIKQLPISIPGARKGDVRSQFAALCYRVRRGKVQVLLITSRGSKRWIVPKGWPMNGQTPA
+KAALQEAWEEAGVTGRSVGGCLGVYSYDKTLPDKQVIPVVVLLYPVEVKALAKKFPEAGQ
+RRRKWVSRKKAMKMVSEPELGRLIRDFDPRAGVTPDKNGAA
+>tr|B7RRT3|B7RRT3_9RHOB
+MTDAPELLLANHLKTLRLPTFQREHDKLARICAAQGVDHVRYLARLTELELIDRERRMVE
+RRSNRPSSQPSKAWTVSTSRQSRR
+>tr|B7RHZ5|B7RHZ5_9RHOB
+MKKLRLAAPEKRIANHQRRHPESGVTLIEMMVVLVIIALVAAMIVPNVIGRPNEARVAVA
+KTDIRAISSALELYRLDNRTYPTTSQGLAALVRRPTSPPEPSNWVQGGYLPEDPTDPWGN
+AYLYRSPGDTANFDLISLGADGAVGGTGVDADIANSSTPTSG
+>tr|B7RJP9|B7RJP9_9RHOB
+MAYWLFKSEPSTWGWDDQVAKGDTGEEWDGVRNYQARNFMREMAKGDLGFFYHSQGERAI
+VGIVEVIAEAHQDSSTDDDRWECVDIKAVRPFETPVTLDDIKSDGRFDDMPLVKSPRLSV
+QPVTAEQWQQICAMGNTEA
+>tr|B7RGJ6|B7RGJ6_9RHOB
+MSRKPRVKRKWKATLPLGLGFLALAVLVLALGVWGIQSRIAGAIIASGSVQVESNRQVVQ
+HPKGGVVGEILVHDGDMVSAGDVLLRLDASLERAELAIIEGQLYEILARKARLEAERDGL
+DDLVISDHLREALADDATVQRLIDGQQRLFEARATTLQQKSEQISEQINQTENQIKGATA
+QLAALETQRTLIEVELKDSETLFEKGLSPAARVSSLRREQARLNGEIGSLDAKVAEMRDR
+IASLNIETISLTSRIREDAITTLRDLQFSETELFQRRLSSKETLSRMEIRSPVSGIIYGS
+TIFALQSVVSAAEPVMFVIPQDRSLVISASIDAIHVDQVHVGQVADLRFAAFDQRMTPSI
+LGRVTKLSADVFRDEVTGVSFYRVELIPEAGELEKLEGQILLPGMPVEAFIKTGDRSPLS
+YLAKPLTVYFSRAFRES
+>tr|B7RLU2|B7RLU2_9RHOB
+MAILGLSVAGCGTVYRTSDVVEGVAGGTNVRVLELTAESVIQANRSTIAPRSLPAYFSQT
+AGSGSGVRGGVGALPSPTFQDEVRPQALELRLPPRADPGPYQIGVGDVVLLATPRAATSV
+EQLSGLLAAQNSRQGYTVQDDGSINIPDVGRVRIAGLTIEDAEAALFQRLVENQIDPTFS
+LEISEFNSRKVSIGGAVGQPAVVPVTLTPLYLEEALAAAGGITVEDQDYASIRLYRDGTL
+YQIPLSELYSRASLTRTRLLPGDAIFVDTEYELSRAQEYFTQQITLIQARQVARQAALSE
+LQLEVTLRRSNLDEARANYQTRVDLGADNRDYVYLAGEVGTQARFALPFERKANLADALY
+DSGGVASSTGDISQIYVLRASSDPREFGAVTAWHLDTRNAANLALATRFELRPDDIIFIA
+QQPVTKWSRSVSQIVPQVLSAGNTLSGN
+>tr|B7RNP1|B7RNP1_9RHOB
+MGLMDFRPLVQVTINGVPLSGFVFSQLSSVRVSDTAGFISDTAEITFANTSPISRFAMPE
+PGAEVEIALGYLGAFLRMGLYIADEVEESSPPRIITAVCRAKAQGETQSGFAPINQQKSR
+SWPAGMTLKAIVTTIAGDNGLEPAVTEAAGSIVPGHIDQLDESDLSVLTRIAVLHDVVAK
+PAGGVLFVGRRAEGVKASGQPTPVVPLLEADVSRWSMRRGLSDATGTIIATYRDLENAED
+VEVKIGDAEPVRRLRQRFRSEEEARAVAVAESRRASRAKETLDLELPGNPTIAAEGRIVP
+IGFSSAASGEWIVKTATHEVSEAGYRTMAQCERPE
+>tr|B7RQZ8|B7RQZ8_9RHOB
+MTDPILKIENVSKRFTRMPGLAERLVGKITGGGKPVTVHALSDVSLEVAKGEVLGVVGES
+GCGKSTLGRVVAGIYGPSDGGVTLNGKPVADERGGNVDKLTTQVQMIHQDPFASLNPRMK
+VGETLAEGPRFHKIIPARDVQYGSVNCSKSRLEAHMPTAFCTSSRAVSASVWPLRVRCYG
+TRSLCLMKQSRLWMCPFSAGAELFMDLRRDLA
+>tr|B7RG20|B7RG20_9RHOB
+MSLFLIIALPFLGALLPGLMIHTGRQTCFIITFLVTACAAIGLATHAPAVLAGEVVTAQL
+NWLPALGLNVNLFLDPLGLMFAGLILGIGLLIITYARFYLSRGDNMGEFYSYLLLFQGAM
+VGIVLSDNILMLIIFWELTSLSSFLLIGFWKHLPEGRQGARMALTVTGMGGLALIGGMLL
+LGQIAGSYDLTVILENRDLIQSSPLYVPALILILIGCFTKSAQFPFHFWLPHAMAAPTPV
+SAYLHSATMVKAGLFLMARLWPVLSGTDIWVILVCSAGLITMVLGALIAIFKDDLKALLA
+FSTVSHLGLITFLLGTGTSFGAMAAVFHILNHASFKAALFMSAGIVDHALHTRDMKRLGG
+LRRVMPVTFMIATIAALSMAGIPLLNGFLSKEMMLEEAFHTTLFGSPYLVAAVATVGALF
+SAAYSFRFISHTFLGPVRTDYPEKPHDPEFGLWLPPFLLVIPVVVIGVAPFLAEPFVKIV
+TQAVIGSAAEVPDAHFKLWHGLVPALWMSVIAVIGGLILLAAFAPLAKGWAAAPRPEAKA
+IFDRIIAAAVGFADVFADRLHNNSFTRYAAIFVTTVVAVGAHAWFTGVNGAPTREMLPIT
+PIALAGWLMLILATGFLVTVHRNRLAVLILMGIIGLMVSVGFNYFSAPDLALTQISVEVV
+TIVLLLLALNFMPNVTPRESTNLARTRDIILSLAGGAAATGLIYSMLMSDFPAPSISEYH
+LANSYKGGGGDNVVNVILVDFRGFDTFGEIIVLGIAALVIYALTEALLSGPVRARLLNRG
+YEEARAGDAHPLMMVVLTRVLMPVVLMVGVYIFMRGHNAPGGGFIAGLVVAIAVLMQYMA
+SGFTWADRRQRYPYHGIIGAGVLCAGLTGIGSWFANAPFLTSAFGYFRIPPMEKFELATA
+MGFDLGVFLAVVGAVMLSLESFSRLGRRAGIETSDFAMDIDPSRPEMGDDQGTYPATEPA
+TGKES
+>tr|B7RI38|B7RI38_9RHOB
+MNDAVYIEITAVRGSTPRDVGTAMKVTAHEIAGTIGGGALEHQAIMTARQMLSDGRAMQT
+LKIPLGPNLGQCCGGAVTLRFSHEERPTDAEPTPTHGPLLSGPPRNLWLWGAGHVGRAVV
+AHAPAKAFDITWVDRDLDRFPAVLPDAVTVVPALDMPRLALRAPLDAHHLIFTYSHDIDL
+ALCAALLTRSAASIGLIGSDTKWARFSKRLDAMGLDPSQITCPIGDKRLGKRPSDIAQGV
+VATLLADARADAPSKATA
+>tr|B7RMD1|B7RMD1_9RHOB
+MKTVSENASFGGTQGVYSHSSAACNCDMTFALFLPEEARQGPVPLLWFLSGLTCTHENAM
+TKAGAQAWAAEHGIAVVFPDTSPRGDDVADDDAYDLGKGAGFYVDATQDPWKPHFQMWTY
+IAEELPALLGENFALDMERQAISGHSMGGHGALTLAMNLSGRFRSVSAFAPIANPTDSDW
+GRKQLTAYLGDDEATWQSHDAALLMADKGFDGPVLIDQGTDDQFLDLLKPEALAAAIAKR
+RQNATFRMQPGYDHSYFFISTFMEDHIAFHADALYAD
+>tr|B7RJG6|B7RJG6_9RHOB
+MIEFENVAYSYGGGELLSDISVKLAPGSFHFLTGPSGSGKTTLMKLCYGALLPTAGHVRL
+FDTDVRSLDRDDIAMVRRRVGVVHQDCQFLNHLPVSENISLPLTVSGRHADTAGGDLQEL
+LSWVGLSNRADALPPELSGGERQRAALARAVIMSPDVVLADEPTGNVDWEMSQRLLRLLV
+ELNKMGKTVLIATHDLSLIRATKAQVQARVLRIANRRIQLAGADL
+>tr|B7RFU2|B7RFU2_9RHOB
+MPVPSLTTTAAVLSAVDPALPVLIAGPTASGKSALALAIAEAQGGVIVNADASQVYDCWR
+VISARPSVEEEARAPHLLYGHVVPNTPYSVGHWLREVEDILRGSQRPIIIGGTGLYFAAL
+TQGLADIPATPDAIRAAGNAMSLAELTAALDPKTAARIDLNNPMRVKRGWEVLTATGRSL
+ADWQDATPPPLLPLGACTAIAVEADKDWLNARIIRRFDQMLDQGALDEVARVAPSYDPTL
+PAHRAIGVPELIAYLEGRHTLKVARENAIIATRRYAKRQRTWLRRNTADWLKYAPG
+>tr|B7RPM2|B7RPM2_9RHOB
+MDLKEIANALVAGCRDGREVENLDKLYASDAVSVEGTDHGSGRETKGLDGIKGKHAWWDS
+AMEVTRQEVSDPMLHGDDRFAVIFDVAAREKESGKTMQMKEVAIYHVADGKIVREEFFG
+>tr|B7RS54|B7RS54_9RHOB
+MVPEAGHKGAPTMQEINTVADAWRNLPATDLDATTLAKSRIVGHLSAGEAHHFDMMRTRV
+LQQMRRNGWRRLAITSPTAGCGKSTVAVNLALSLRRQAELRSVLLDCDLRRPSLARMLGI
+ADDMDLGGCLRGDHDFAARARRIGSTLAISASKDPALDAGEVFGGRYLPRALAAIEDGLA
+PDVMIFDTPPILLTHDMMSFASHVDCVLLVAGAEMTSVKEIDLCERELAAQTNVMGVVFN
+KCRHIGDGYGYDTYD
+>tr|B7RPL7|B7RPL7_9RHOB
+MLLAIDCGNTNTVFSIWDGTQFIGTWRTSTEWQRTADQYYVWLSTLMRFQKVEADITDVI
+ISSTVPRVVFNLRVLADRYFNTRPIVVGKPECKLPVDVRVDAGTAVGPDRLVNTVAGFDL
+FGGDLIVVDFGTATTFDVVASDGAYIGGVIAPGVNLSLEALHNAAAALPHVDISKPQAVI
+GTNTVACIQSGIFWGYVGLVREICARIKAERERDMRVIATGGLAPLFQQAVDLFDAYQDD
+LTMHGLTVIYNYNKDTA
+>tr|B7RFW7|B7RFW7_9RHOB
+MRARLAKLRASGEIIGFTVVTRSDVLADPVRGLMMIEIEGSGTERITRTLTKMAQLRAVH
+STNGRWDVIVEIGAATLEDFDEVLARIRRMEGVVASETSLLLKTRKSGQGARLG
+>tr|B7RN01|B7RN01_9RHOB
+MFRALGCIGTATLGGIYYSSLILPASHTRYGAHMRAMWQVFFWG
+>tr|B7RHU9|B7RHU9_9RHOB
+MTLPDMHRAEAIPEAARSEIERLLQTGDLFRYTAASDAPVSLLEAEFAQMMGSRYALAVS
+SCSAALFLSLLALDLPKDARVLIPGFTFAAVPSSVLHANCQPVLCEVGDNYRIDMDDFAA
+KLTDVNAVIISHMRGHTSDMDAIMALCDAADIPVIEDAAHSLGTLWHDRKIGTIGKIGCF
+SFQSYKMVNAGEGGILITDDADLVARAIIMSGAYEHNWKKHPGVAEACARWQNKLPLYNL
+RLNNLSAALVRPQLAELPRRVADGLRNHDYVAARLNASAYINVPAPLGPETRAPDSIQFN
+TVGLDDDAIRAFAAASAAAGVKVQVFGQSADNARAFWNWQFIKDLPELPQTRKMLMSACD
+VRLPVHLKIDDLDAVVDVLLGAIAAVTNAEAA
+>tr|B7RQA7|B7RQA7_9RHOB
+MRPIFSLTTTLCVMSALASPLAAAQCGNNAGGFNSWKAAFAQEAAAAGVGKRGLDALANA
+QYASRTIAADRNQKSFKYTLDKFMQVRGADTIVAQGRKRKARNPAFYQSLEARFGVPAGV
+IIAIHGMETAFGGFMGDSAVVSAITTLTYDCRRSDFFAPHAIGALKLVDQGAINGSTKGA
+KHGELGHTQFLPGNALRYGVDGNGDGRVDFYDQTDALASTANFLRQKGWQPGGGYQEGQT
+NFNVIQQWNAAGVYQKAIAIMASRIDG
+>tr|B7RK30|B7RK30_9RHOB
+MTRILAITCMRNEGPYCLEWIAHHRAAGVDAFLIFTHDCDDGTDALLDLIPGVTHVPFMP
+EPGKSVQWQAMRLADGHPLMQTADWVIFFDCDEFLSLEAPLLSFGDLIASVPTNTDAIAL
+PWRFFGAAGREDFEDRLTPERFTRCAPDPFFLPAGNFFKTLFRPERFQKLGVHRPKNKGK
+GPGEWNLGGVAQATAEFAQNDSRINLFGLMQAPARARLHHYSLRSAAEFMVKRGRGLPNR
+TAKTLDLHYWAERNFNSVEDHMIDPMLDATRHEIANLRTIKPVQDAHDHAVRWHRAAFAA
+LMNDPAEVQVYWHLILLGSSTPPSADQARAHLARHRQAGQS
+>tr|B7RMI4|B7RMI4_9RHOB
+MKALRKSLDALYLGSGALAAICLVAILLLIVVQMVARWTGEVFPGAASYAGYAMAGASFL
+AFANALNRGSHIRVSILLNALPDSPKRLLDIWCFGLAAAIAWYFTYYAYWFVYWSWKFNE
+VSQAQDATALWIPQSVMVIGGAILAIALTDNLLNLIVKGEHRLTRDLVDQSFGE
+>tr|B7RHX6|B7RHX6_9RHOB
+MKRTTIMTHIRKAVFPVAGMGTRFLPATKSIPKEMLPLVDRPLIQYAVDEARAAGIEEFI
+FITAAGKGALEDYFDTAAALEQRLAMNGKTDALAALDRTRMSEGSLAFVRQNNPLGLGHA
+VRLAQRLVGDEPFAVLLPDDVIRSPQGALGQMVDAHAKHRGHMVATMDVPLAATSSYGIL
+DVAQTTGRLSQARGLVEKPGPARAPSTSAVIGRYILEPSIFERLANLGPGAGGELQLTDA
+INADVETAGVNGYRFDGERFDCGSVQGFVQATVAFALDRPELHGDLSAFLDTCTAPARQV
+A
+>tr|B7RNF8|B7RNF8_9RHOB
+MDTQNTFEIFLVATPGLEDMLLAEVVEKGFANPTLSPGGIAVQGGWSEVWRANLELRGAS
+RVLARIGSFMAFHLAQLDKRARKFPWGDVLRADVPLRVQVTTKSSKIYHAGAATQRIETA
+LRESLGATLSPDAALVLKVRIDDNMVTMSLDTSGDSLHKRGHKEAVGKAPMRETLASMLL
+RQAGYTGTETVIDPMCGSGTFVIEAAEIAMGLNPGRSRSFAFESLASFDAQVWEELRTKP
+PQATDLRFYGSDRDAGAIRMSTANAERAGVAEAVHFENHAAGELTPPDGPPGLVMVNPPY
+GGRIGNKKLLYPLYGTLGQTLLTRFKGWRVGLVTSEPPLAKATGLPWKPQCPAIAHGGMK
+VWFYQTPPLR
+>tr|B7RHF7|B7RHF7_9RHOB
+MARETLLNIVLFALLPVTALAAFMLDEPFVITLVTKAAILALAGVGLNIALGLGGLVSFG
+HAAFFGLGGYAMGVLASHAQSYTPIMESPFLIEGTKSMLVIWGVAIVTGGLAALAIGALS
+LRTTGVYFIMITLAFGQMLYYFAISWPAYGGEDGLSIYIRNEFPGLNTLDPIQFFAIAFG
+VLAIVLFIASRLAKSPFGLALSAARQNAERVETVGITPFRLRLVAFVISGAITALAGALF
+ADLNRFVSPTMFSWHTSGEIMVFVILGGVGRLFGPVAGAALYILLEHVLGGLSDFWHIYL
+GLLLLLVVLFARGGLIGTLAGREVAHD
+>tr|B7RRH5|B7RRH5_9RHOB
+METIYSDLTQLGGQTELPASPEQATLERVKNPQADIAFCVRFTAPEFTSLCPMTGQPDFA
+HLVIDYVPGEWLVESKSLKLFLGAFRNHGAFHEDCTISIARRLVDFLDPQWLRIGGYWYP
+RGGIPIDVFWQTGATPENVWIPDQGVPPYRGRG
+>tr|B7RK83|B7RK83_9RHOB
+MRVIRQGNRGLAGARNSGIAAARGDIIGFCDADDIWLPHKLARHVAHLMANPHVGVSYAG
+SALMNDAGVLIGQAQRPRLENICASTIFKRNPIGNGSAAVMRRAVLEEISYRPQSEPARD
+WYFDETFRQSEDIECWLRIALTTSWVFEGIPGLLTHYRITAGGLSAATERQLAAWERMVT
+KLTPLNPAFFTVNAPIARAYQLRYLCRRAVSDLDGAKALMWQRAWLAESRMTLVEEPVKS
+IVTLVASLGLSMVGTHGVRQAMKGVQLLRHRKAVR
+>tr|B7RJI6|B7RJI6_9RHOB
+MLLHAKFIDTFSAKAAEELERGQHYAASVEYKAYAASLQTDPQLWCKWSEKYINWRQLEI
+LGLMSKGNWA
+>tr|B7RMB0|B7RMB0_9RHOB
+MTNIVIASAARTAVGSFSGSFVNTPAHDLGAAVLKEIVARAGIDASEVNETILGQVLTAA
+QGQNPARQAHINAGLPIESAAWSINQVCGSGLRAVALAAQHIQLGDADIVAAGGQENMSM
+SPHAQNLRAGQKMGDMNFIDTMIKDGLWDAFHGYHMGQTAENVAEKWQISRDMQDEFAVA
+SQNKAEAAQKAGKFADEIVPFTVKTRKGETVVDQDEYIRHGATMEAMQKLRPAFTKDGSV
+TAANASGLNDGAAAALLMTAENAEKRGITPLARIASYATVGLDPTIMGAGPIFASRKALE
+KAGWKAEDLDLVEANEAFAAQACAVNKDMGWDPAIVNVNGGAIAIGHPIGASGARILNTL
+LFEMQRRGAKKGLATLCIGGGMGVAMCLERP
+>tr|B7RKC7|B7RKC7_9RHOB
+MYRVVLKCTCPANRIAPIQGAHAGVITDQPDAVRFGSGPCLFFMHRRAVMPD
+>tr|B7RHV4|B7RHV4_9RHOB
+MNMPTKTDDINTPDDAALARMTENMAKVEALGARLTQIMVGREGHQSSLDAPNQELFSKA
+AQAYWAEAVHNPAKLIENQVSFWSKSVTHFVEAQQALAKGKLQAPEDKTAKDRRFANPLW
+ETHPYFNFVKRQYMINSEALSEAVNSVSDLEPREKQRLGYFSRQIIDMMSPTNFLATNPD
+ALERAVATEGESLIKGLENLISDLEANNGEMIVRLADEKAFELGRNIATAPGKVVFRNRM
+FELIQYSPSTEKVHATPVVIFPPWINKFYILDLKEQNSLVKWIVDQGHTLFIVSWVNPDS
+SYRDVGMGDYIEDGFLTAIEEVKKITDQPQVNAVGYCIAGTTLSLTLSLLKQRGDTSVKS
+ATLFTALTDFSDQGEFQPFLTDDFIDGIEAETKDKGILPSIIMARTFSFLRSNDLVYGPA
+IKSYMLGDTPPAFDLLYWNGDGANLPERMAMEYLRGLCQQNKLAEGGFDLLGHHLELGDI
+DVPICAVGCETDHIAPWKDSYRGVQMMGSKDKTFIMTQSGHIAGIVNPPSKGKYGHYTNP
+DMSLAHEDWLEGAEFHQGSWWPRWGKWLANHAGAQVDARIPGANGREILCDAPGTYVTRK
+ANG
+>tr|B7RII7|B7RII7_9RHOB
+MKPYLVSLYAIVLREALRFVHQRERFIAALVRPLVWLLVFAAGFRAALGISIIAPYETYI
+TYETYIVPGLCGMILLFNGMQSSLSLVYDREMGSMKLLLNSPLPRWWLLVCKLAGSTAIS
+ILQAYAFLAIAAGFGVTAPAVGYLTVLPALLIAGLMLGALGLLLSSFVKQLENFAGVMNF
+VIFPMFFLSSALYPLWKMAESSELLHAICALNPFTHAVELIRFALYGQVNLTALAWTVLA
+AAVFIGCAVWGYDPARGRPGRKG
+>tr|B7RMU8|B7RMU8_9RHOB
+MIARISGALARGILVALLVATPALMLPGVINDSSQITMLVALLACFLTFIEYNSNFPSII
+EFREAAPFNRLRFISLAVTVLVLTVILRGKTDPTALTGALTSIGTIIGNAMDFPYSPVRM
+IVLMLPETTDHDLVTSVRTSAGMAYLISLVSMVAFLILVRIMNWPARNGAFNVWVNLPLF
+DPTAGGDVIYRLQRDARINIALGFLLPFVIPAVVKAAANLLDPITLQNPQTQIWTIAAWA
+FLPASIIMRGIAMGKIADMIEEKRRRAYASAADDQAFQPA
+>tr|B7RMG9|B7RMG9_9RHOB
+MVTAALAEDGPTRLVQRSTLDWSEKANWFGGISGVEVSNDGGRLTAITDRGRVIEANLVR
+NGDLLEGIEIDHAVALHDPAGKRLVKPFIDSEGLAIDANGTAYVSFEGKHRIATVNVANG
+TTAPVPTLPDFDFLHHNSGLEALAINADGTLFTLPEQSDGDAFPLFAYQNGAWSLAAQIP
+RKGPFLPVGADFGADGILYLLERTITLLGFRSQIRRFDLSKPDLGEELLLQTLPSRFDNL
+EAISVWQNAQGNTYLTLIADDNFIPIQRTQVVEFELLK
+>tr|B7RJ82|B7RJ82_9RHOB
+MDLRLAGVSHYYGETEVLHDITLDIPSGQIVCIVGPSGCGKSTLLRMLGGLEKPTKGDVL
+QLGSPPEGCLNPLTYIFQDFALLPWRSARGNVALVLEDHGLDAARRDRIIDDVLARTKLT
+EFADALPRQLSGGMKQRVAIARALAVNPAVMLMDEPLSALDSQTRELLMDDLINLWTRQP
+FTAVYVTHNLAEAVRLGHKIVVLSRRPGQIREIVDLTTPLADRAYGDADLEVQQQHLWGL
+MREEAAAADAELIHV
+>tr|B7RK08|B7RK08_9RHOB
+MTYPYATVPDLDPALGLIVLQADETLEGDMRAMLPLETALYISRVPSGDDVTPETLGAMA
+AHLTASAALLPKAARFASVGYGCTSGSAEIGSDRVAGFIHDGVTTDHVTNPLAALIAACG
+ALGVTRLALLSPYVAEVSATLRTALAGQGITTPAFGSFDEAEESKVVRIAPESIIAAAVD
+LAGQGGTEAIFLSCTNLRTLGVIDLIEARTGMPCLSSNQVLAWDMARQSGIRAKIPGRLG
+KV
+>tr|B7RN48|B7RN48_9RHOB
+MKPEDVQVIKKRRDGALRALVGAVPYIQFLGIEFERRGDELTAILPFSNKLIGNPIISAL
+HGGVTASFLEVTSIITLSWGTLWEDLESGAIEVDKMDGEHMPRLPKTIDFTVDYLRSGLP
+RDAYARATINRSGRRYASVHVEAWQDNRAKLFAQATGHFLMPQRRD
+>tr|B7RL64|B7RL64_9RHOB
+MSTKHQHYDVIRKPIITEKATMASENNAVVFEVTMNSNKPMIKEAVEALFGVKVKAVNTS
+ITKGKAKRFRGQMGRRKDVKKAYVTLEEGNTIDVSTGL
+>tr|B7RIY1|B7RIY1_9RHOB
+MPKEGHYINRSNWLRAAVLGANDGIVSISSLLVGVTSAGMASGDVVLTGCAGLTAGALSM
+AAGEYVSVSAQADVEAADLERERIALEEDPDYELEELAEGLESRGVEASLAVEVATQMTD
+HDALGAHAREELGMFGLAGQANPLQAAGASALAFGVGGAFPLVAALVAPTAADITAIAAI
+AVLALMLLGGGGAKLGGAPVWPAMARAVIWGVVAMAFTAGVGQLFGTVV
+>tr|B7RJY2|B7RJY2_9RHOB
+MNTADITADDLIALVRAYNPKSNEKHIRLAYDYGQQMHEGQFRHSGEPYFTHPVSVAAIL
+TEQQLDDATIITALLHDTIEDTKASYAEVEKRFGRDVAELVDGVTKLTNLQLNSTETKQA
+ENFRKLFMAMSKDLRVILVKLADRLHNMRTIKSMRPDKQIQKARETMDIYAPLAGRMGMQ
+WMREELEDLAFRVLNPEGRQSIIRRFITLQRETGDVIQRITGDMRLELEKAGVEVEVFGR
+AKKPYSIWRKMQEKEQSFSRLSDIYGFRVITTSDDECYRALGTIHRRWRAVPGRFKDYIS
+QPKTNGYRSIHTTVSGRDGKRVEVQIRTRQMHDVAETGVAAHWSYRDGVRSRNPFAVDPV
+KWVAQLTEQLDSEEDHEDFLEAVKLEMYADQVFCFTPKGEVVKLPRGATPIDFAYAIHTR
+IGSACVGAKIDGMRVPLWTRVKNGQSIEIITAQGQTPQVTWLDIATTGKAKTAIRRSLRE
+VDRARFVSLGRELARSAFEQINKNATEKVLRTAARNLRLDGPEDLLARLGSAELTGSEVV
+QAVYPHLQPKPGEQVDRKRAVVGLEPGQSFDRAPCCQPLPGERIIGITYRGKGVTIHAID
+CERLAAFEDQPDRWLDLRWHEGPHPAAYGATLDLTIGNGAGVLGRICTLIGQSQANISNL
+EFLDRKPDFYRLLVDVELRDIAHLHSLMPTLEAESEVAEISRYRNMKLVKPGEKHT
+>tr|B7RS87|B7RS87_9RHOB
+MEGKLLFQTRTQDVAIPDTHQMVCTVFKRPAGLAARLEGEAKWPGWLYHSAF
+>tr|B7RJC7|B7RJC7_9RHOB
+MDYMTLIQLLDSTVRLATPLLLACLAGLFSERAGIFDIGLDGKMLAAAFFSAAIAAISGS
+VWLGLLAGIAASLALSLLHGLASITFRGNQLISGVAINFLAAGLTVLIAQSWFQQGGRTP
+SLIGGARFNPITLPFADQIEPTPFIGPLYAELISGHSILVYMAFAAVPLTWWLLYRTRFG
+LRLRAVGENPAAVDTAGVSVIGLRYAAVCICGVLCGIAGAYLSTALQAGFIKDMSAGRGY
+IALAALIFAKWRPWYALWATLLFGLFGALETRPDVIEALIGIKVQGQLLGALPYVMTVII
+LAGFVGKAIPPRAGGEPYVKER
+>tr|B7RGJ8|B7RGJ8_9RHOB
+MSVQPDLTEKSAWPIIARKIDATNMSGFGIWRKNHCG
+>tr|B7RK72|B7RK72_9RHOB
+MYKTLPLILAATGLWATAASAEMLDLEKDELTFGFIKLTDMAPLAVAYENGYFEDEGLFV
+TLEAQANWKVLLDGVIDGQLDGAHMLAGQPLAATIGYGTQAHIITPFSMDLNGNAITVSN
+EIWEQMKPNVPKMADGRPQHPISASALVPVVDSYKDQGIAFNMGMVFPVSTHNYELRYWL
+AAGGLQPGYYSPQDISGQIGADVFLSVTPPPQMPATMEAGTIFGYCVGEPWNQQAVFKGI
+GVPVITDYQLWKNNPEKVFGISKEFADANPNTTLALTKALIRAAIWLDENDNGNRAEAVE
+ILARSEYVGADYEVIANSMTGTFEFEKGDKREIPDFNVFFRHNATYPFYSDAIWYLTQMR
+RWGQIAEPKSDEWFVNTAKDVYRPDLYLQAARLLVDDGMANEADFPWESDGFKEPTAAAD
+VIDGIVYDGRTPNAYLESLPIGLKGDQTVVGSQVKG
+>tr|B7RM42|B7RM42_9RHOB
+MKRTFQPSNLVRKRRHGFRARMATKAGRKIINSRRAQGRAKLSA
+>tr|B7RS21|B7RS21_9RHOB
+MWSIAKLLGVEIAVPSFSTLSHRGRRPDIARQPQRNKKSVF
+>tr|B7RJM2|B7RJM2_9RHOB
+MFELIADRLAIRAKETAQTVAIGMGAFLCLVVGGLFLTVAAWLFLLTFMTTLQACLIIGS
+TFFGIGLILIFVMSVRAAARRRIRRQMMLDAAAARNAQLGSGVGGIAAIVIAFINGMNAG
+KGTRL
+>tr|B7RHH9|B7RHH9_9RHOB
+MWLVHVIFVISTLSVAWVRFRQLLHPVFVFTTILCVMLSDFIIRGYDDYNLESLWPDVIV
+EAQTTILLIFAATLCIVHLVPTQKINITSSASERLSKNQAYIFLAGAVFIIGFELFKRYI
+SVNGSFSELILQSLQPRGERNWDQAAFNGNALFSLLTSLFPLASIVFSLLILERRGVVRF
+ISIIGFLISMSVLITNGSRTPVVITLFIFWMLGMFRLKSRSGRIALTVASVAGVAMLTSA
+ILLFRSTGFLEVSLSDNYEVTYHQDDSYYRAIYAYDVATTSNYNWDAATHFGVILTNPIP
+RAIWPNKPFLDTYFFGPYKLDYVTTLHVGEMVAIFGPVGMIIPSILCGLFVFFVLRWAYR
+YCGFSMGIPIYLIWALYCYMCIRSTLNVSYFIYLPLGASLVFSLQSRRRQKKILKDERQA
+TAIAFANPADGARSSRY
+>tr|B7RMB3|B7RMB3_9RHOB
+MTTLPRLFQPLTLRSLKTRNRVVISPMCQYSAHEGHMDDWHLVNLGRYAIGGAGIVFTEA
+TAVQKCGRITHGCPGLWTDSQIPAHARIAQFALRNGAIPAIQLGHAGRKAGMQRPWFGNG
+PLDDADIARGDMPWTPVGPSPVPVAQGWPAPHALSHEEIDALVQDFASAARRALAAGYKI
+AEVHGAHGYLLHSFLSPLSNRRTDEYGGDLAGRMRLALEVTEAVRAVWPDDLPLFFRTSA
+VDGTPEGWTLEDTVILAGKLKAIGVDVMDCSSSGIAGSATASVPAKRQPGFQVAYAERVR
+KDVDMTTMAVGLITHPKQAEDILAQGRADLIAIGREALVDPMWALHAAQALGADPLFETW
+PEQSGWWLAGRQKTSDFYNPDTAD
+>tr|B7RQS1|B7RQS1_9RHOB
+MMACAPALAQVSDAVDDHDDGAAAESLTLDTAPFRQEVAITCDFKTECVEDEPCTETEFK
+PQITGIAGGLTPDDLVVQSTMTTDAETVELLGVKSGKALSLSGGSFAARHLLSITETGAT
+RYTVHYADGPFVISYLGTCN
+>tr|B7RIR4|B7RIR4_9RHOB
+MAGCGDGTPFNGETDTTDGGTTGTDTGATLSRDGLPAGTASPTPNDGIYRSETPDPETGN
+GQATSYQYNGADDTFTIDGLAFDGDNVYTRGTAVSSLGPYAVYEAPKVVQDSQSQVDINQ
+LRHRAIYGVSKNLDGNGNPETQFAIVRTGAYVGYGFGGFIYTRENGVSIETAAGAQGSYT
+GKTAGIRDFGGKAELQYTTGDLTIEIDFGDFNPTSSSVGDGVKARWTNRRIFDVDGVDVT
+NEVLADINTANNASIGSLPDAQFTIGPGSLDSNGEIIGTVVSGFEDNVAEYRGYESGKYY
+AILSGTRGQEIVGVMVLENTTEDPDIRVRETSGFIVYRGPAP
+>tr|B7RS13|B7RS13_9RHOB
+MSGPVNVGVITAETQNVPFTVTLPARAVAFQDAKIRPTVEGIVESVDYEPGARVSAGDLM
+FTLRKDRYAAAAAAARAETAGAQGAVDSAQKTVDRYRELVGSGVTQADLDPAEAALLQAK
+ATLSSANSAVTVADLDLTGTEICSPIDGISSVAAISVGAVVTANQTDALATVTRLDPIYI
+DMTESSARMLRVRAQENAGAASELDRVQAQALLEEARASLPALETGFENAVYGIATLLAE
+PAGPLMADLRKGAPQPYPKGGSAAGVPADLFRNRSDVRASERKLAAAVANVGIAEADLYP
+SVSLTGTVTAAGNGSWGFGPSLSLPVASQSRLRASRAQAISQAKQAELDWRAQILNAVED
+TQSAQSAYRRNQRALATFRSTSASYARALELSRATYSAGTTDLLNLLDAEMSRSTVRLSV
+AGDAQNLTNSWINLQVSTGRGWAATP
+>tr|B7RP28|B7RP28_9RHOB
+MTYPDIDIIRAFLFSIAAAVFFTAGFLASKDAFLPNLPPFSWLYALKISPLLKTILIGAS
+FSALGMVCAGVGFNAKIAVAAPTLATAGLLGNIFAGMYLGNTPISAKIVYICAILIVATV
+LLVDAVDTNSDEENTRLEA
+>tr|B7RFU7|B7RFU7_9RHOB
+MAKLEYDGPILEIDKLSISFFTRLREIPAVMDFSVSVKPGEAVGLVGESGCGKSTVALGV
+MQDLGVNGRVVGGAIKFKGRDLSEMSDAELRDIRGSQIAMIYQEPMASLNPAMRIGRQLM
+EVPMIHAGVSEKDAYARALQLVTDVKLPDPERILKAYPHQLSGGQQQRIVIAMALMSEPA
+LLILDEPTTALDVTVEASIVELVKDLGRKYGTSMLFISHNLGLVLETCDRICVMYSGEAV
+ERGSIEDVFDEMQHPYTQALFRSIPLPGADKNARPLIAIPGNFPLPHERPDGCNFGPRCD
+YFEAGRCDQGPIMMEDVPGNERHATRCLKYQEIDWKAPLELADVKQKGEIGEVVLKMDKL
+KKYYEVAANSMFGGSATKVVKANEELSFEARESETLAIVGESGCGKSTFAKVLMGLETAT
+AGQVLLDGKDIGNVPIEDRTTQNVADIQMVFQNPFDTLNPSMTVGRQIIRALEIFKIGKN
+NKDRTKRMLELLDLVKLPREFAGRMPRQLSGGQKQRVGIARAFAGDARIVVADEPVSALD
+VSVQAAVTDLLMEIQREQKTTLLFISHDLSIVRYLSDRVMVMYLGHVVELGTTDQVFSPP
+YHPYTEALLSAVPIADTRVKKKHIVLEGDVPSAMNPPPGCPFQTRCRWKAQVGGDKCETV
+VPELRTLAEGHQVKCHLSDAQLAEMEPVIELNVAAE
+>tr|B7RNW9|B7RNW9_9RHOB
+MKQPPETHRASCHCGAVVLEATLPSGLTSARRCTCSFCRRRGAAAVTAIASSVNVIQGAD
+NLTLYTWGTGVAKHYFCKTCGIYTHHQRRADPTQCGINLGCIDGAEPWTMEPLPYTDGIN
+HESDR
+>tr|B7RRT1|B7RRT1_9RHOB
+MINNQLNRGVEDILIALVDGLNDFPDAINAAFPEATLQIYIVHFVRHSLNFCGWKNRKNV
+ARDLKRVYQAIDDVAADKALADFEAEWGQKYPSIAA
+>tr|B7RR85|B7RR85_9RHOB
+MLEDLKSLARDGVLRVAINTGNRALVQQSANGLTGVSPALAQRLADEIGARMEPIVYSGA
+GKVFDDADHDRWDIGFLAIDPMRAQKIAFTQPYIVIEATYAVRAAAKFESVEDVDKTGVR
+VLTSTGSAYDMHLTKTLRHATLERCGTPPESFAEFQAGRCDVVAGVRASLEGAFAQSPDI
+RILPDVLTSVRQAMVLPRHDDPRITALDDFVARAINEGFVAAAQQDYG
+>tr|B7RGP6|B7RGP6_9RHOB
+MLVAIIQGLTEFLPVSSSGHLILLPTLTGSQDQGLAIDVAVHVGTLLAVILYFRTAVAEA
+TVGLGRLLRGKVDTPGAHTAFLLIVATIPVLVAGLIFKVLGIDEMLRSVAVIGWTMLIFG
+LVLYWADKTGAWTRTSDDWTLKDAVWMGLAQAIALIPGTSRSGITITAARKLGYDRTSAA
+TLSMLMSIPTILASGALLSLDVIGEADWQLARDASIAAAFAFVAAMLALVLMMRLLRSVS
+FTPYVIYRVILGIALLVYAYS
+>tr|B7RIJ9|B7RIJ9_9RHOB
+MSVRLDPTIFLKAAVCWLFAALSLMAEPLDRSIIEAYVAPPMVLGERINDEGVWQLLNSG
+GAEAGFVFETEPMAPLPGFSGAAINMLVILDLEGRFLDVKLLSHNEPIFVSGLGEAPFHK
+FFEQYRGHSISESLVVGTPYGAGSDGSALVYLDGVTKATASIRIAHESVLAATLKVAREK
+MSGVSTGPPAYPDMDLREDLDWADLIEQGLVTHKVVLNSEIDAEFAGTLWEDDDPEAAAD
+PDGVYLDLWIVDIGPPAIARAVLSDSSLQELQGFMAISTSDEPILVVETARHGLTTKEFI
+RNTSPDLISAAQGGFPIALRDADIYIELADDVPAELQDGAALILRTDRRLGFDPTAPWTL
+QIKALREHGVFQPEIGSASLVVDHVTDARFFKRPDVVKPVPPWVSALRNRMGDLIVLGVF
+LSGLLVLLGTNLNRLAGHRHFTPIRLGILAFVTGFIGWWGQGQLSIVTPLGVIRTLLEGG
+SFSFLLYDPFSLMIWAVSIVGFVLWGRGLFCGWLCPFGALQEFAHHIARLLRIPQIDVPD
+RLDDQLKWIKYIVLFALIAIMFTVPARLDKAIEVEPFKTAITTFFLREWYYVAYAAGLLL
+LSMVVFKGFCRYVCPLGAVMAIGGLIRTRKWIDRRAECGSPCQLCRVKCAYGAIKKTGEI
+QYSECFECLDCVTIHDDPKQCVPLILAARRDHRLRKVAAE
+>tr|B7RLC9|B7RLC9_9RHOB
+MSKIVILTGAGISAESGIETFRAEDGLWAQHRVEDVATPEGFARNPELVVSFYNARRKQA
+AEVSPNAAHKALARLEQLYAGQVIVVTQNVDDLHEKGGSQNVMHMHGALKSALCAACDHR
+WPAPMVMAPGDICPKCSAPAARPDIVWFGEMPYEMDAIFDHLAEADIFAAIGTSGNVYPA
+AGFVAEARSNGAHTIELNLERSAVGNQFAEHRTGPATRTVTDWVDELLGAKTPTRPGFR
+>tr|B7RJ17|B7RJ17_9RHOB
+MDFVNGAVAHRLRFGGGRGQDIAKAMGLRGGKTPNIIDATAGLGRDSFLLASLGAQVTMI
+ERSEKMHALLVQGMERAAAEGGELREIIGRMTLLKGDAKDLLPEVSGEAILIDPMHPPRK
+SSALVKLELRQVREIVGNDDDAADLVRLALRHALNRVVLKWPAKADPIQGIRPCTHQILG
+KTTRYDVFMTGQG
+>tr|B7RLI5|B7RLI5_9RHOB
+MGDTMAFKTDIQIAREASKKPIQEIGAKLGISSDDLLPYGHDKAKVSQSFINSVQDRTDG
+KLILVTAINPTPAGEGKTTTTVGLGDGLNRIGKNAAVCIREASLGPNFGMKGGAAGGGYA
+QIVPMEEMNLHFTGDFHAITSAHNLLSAMIDNHIYWGNELEIDLRRVVWRRVVDMNDRAL
+RQITASLGGVSNGFPREAGFDITVASEVMAILCLAKDLSDLQKRLGDMIVAYTRERKPIY
+ARDIKADGAMTVLLKDAMQPNLVQTLENNPAFVHGGPFANIAHGCNSVIATTTALKLADY
+VVTEAGFGADLGAEKFLNIKCRKAGLAPSCVVVVATVRAMKMNGGVAKADLGSENVEAVQ
+AGCPNLGRHIENLKSFGVPVVVAINHFVTDTDAEVQAVKDYVASQGSEAVLSRHWELGSE
+GSADLATKVVEVIEKDEANFAPIYPDEMGLADKINTIATKIYRADAAVMDQKILNQLKDW
+EDQGYGNLPVCMAKTQYSFTTDPEKRGAPTGFNIPVREVRLSAGAGFVVAICGEIMTMPG
+LPRVPSAENIRLNADGDVEGLF
+>tr|B7RNE4|B7RNE4_9RHOB
+MAALCLPLRTGRPLFVYGGPVLLQLARLITRTNRFIGYWISFCVLIIFALLLADVVMRYL
+IGQPAIWTAELATLIFGVYAILGGGFLLAERGHVNVDIIYGQFSPKRKALVDIVTWPLFA
+VFVGVLLWQGYDIASEAIADLERSNSVWKAPLWPTKSLIPVAAILLLLQGVVRLWADVRT
+LMGLPNDPDIFGVPAKDESEADQAAGGKS
+>tr|B7RPE0|B7RPE0_9RHOB
+MLVCALRVRVAVGWQHIFLRRKGKGQFAPATLMRRSNLQPVANFGHFGAAVGSFARLSHI
+AGKARKVGLLVLEVPAGFQLVPGPDDLLQLFFLAPVAAVHVGVQDLDQLFVGLANLGLGP
+GXXXXXXXRASGSPNGLVVRSQTLSLDIWAFNSASVVPSKKFHLRLYSRTCCWQNQM
+>tr|B7RQK5|B7RQK5_9RHOB
+MVDLMGLERAASIDDLRTRAKRRIPRFAFDLVDGGAESERNLRRNIEAFEEVELTPRYMV
+DVSDIDTRATLFGQTYNLPFGMAPIGMHNAFWPDADLILARLCARENIPYTASSASSTTL
+ERLAEAAAGNGWFQLYVSSDPSVTEGLIARAEAAEYKVMMVTADVPAAGKRDRDIRNQLA
+VPFKITPEVVAGLIANPIWSLGTLRHGRPNIANYADLLQSATSYADVQKTLITPGFTWDD
+LKRLRDRWKGTLLVKGILHPSDAAKCAELGCDGIIVSNHGGRQVAFGPPTIEALPPIADV
+LGGRMKIILDSGIRRGADILRAKAHGADFALTGRAMAYGVGAGGAAGAQRAKEILHLELV
+RALGQLGITSFETVDAAGLTAVR
+>tr|B7RLX2|B7RLX2_9RHOB
+MKFEGIYTPVITPHRDDGSIDRDAFAAMIEYLIGAGV
+>tr|B7RN66|B7RN66_9RHOB
+MSLQEIFATRASRMKASEIRELLKLLDQPDIISFAGGIPDPALFPKAAFQDAFAEVLAGP
+MAAQGLQYSTSEGHAPLRKWIAGQMQAIGIPATPENILITSGSQQALDYLGKLFLSPGDT
+ALVGWPTYLGALGAFNAYEPRYDKLDPLSNRSGADYMAEAEAAGGKAKFAYLSVDFANPT
+GATVSRAARERVIDLADEMEIAVIEDAAYQSLRFDGEAIPPILALEAARKGGDLEACRTI
+YCGSFSKTLSPGLRVGWVCAAMPVISQLVLMKQAADLHSATLNQIAITQVAEQHFDSHVA
+TIRTAYSARRDVMLNALEEHMPDGVSWTKPEGGMFIWVTLPETLDGADLLAESLKTERVA
+FVPGHAFFADGSGRNTLRLSYATSDEAKIAEGIKRLGNLIAKALDA
+>tr|B7RRP4|B7RRP4_9RHOB
+MAEQSTGANISAPGQGDGTSLSEKPYEPQRLSYATTFTDPVQQKIIQVMEFLTAKPELLR
+RIRRFEAMGVPHGQPFWQQALDVMGIDVQTPEEQIAKIPRTGPLVITANHPHGLVDGMVM
+GELIGRVRTDYKILTRSLLTGITEIDAFMIPVPFAHDPDALRKNIEMRRVAMRHLADGGV
+IALFPSGVVASADRMMGPAIEREWSAFTAKMIQRSGAAVVPLRFTGQNSRAYQIASRLSP
+TLRQGLLLYEVRHALDKIQRPIIGDPISAKEMDAWAGDPMGFMRWLREKTLTLG
+>tr|B7RJK4|B7RJK4_9RHOB
+MVSRDAHSLQKVWAFWIVGLMCYVPANVYPMLKTKTLFENDESTIVGGAVELAHHGAFGI
+AFIILLASVAIPLAKFWAVAYLAVSVRRPGAGGNHARHLMYEVVEYIGRWSMIDIFVVAI
+LSSLVQLNTLANINPGPASMFFALSVIFTMLSAQAFDSRLIWDKQTKDGTPLND
+>tr|B7RQD2|B7RQD2_9RHOB
+MHFSLRLALCLPFMALAACEDMSIANDPVARAEAASQRSCIRAVTKHTGVSGGTINTTLP
+IVETNQYIVDLPGAPSWTCYTDETGAAKELILTRVG
+>tr|B7RPP4|B7RPP4_9RHOB
+MENAANFARQAGSALGRICTPMPATLPSRQTMTAPSLLL
+>tr|B7RHY4|B7RHY4_9RHOB
+MKEVGSGQIDTGIARATNEDTGDRESTEGAIVVTVTAGGFRWQPSRLGRSS
+>tr|B7RP74|B7RP74_9RHOB
+MTDWLAQIEGTAQGHQVALILAILAAFLHAVFGALQKGRHDPWLTRGAIDACYCVMAAPF
+ALFVVPWPEPHMWVIFAGAWAIHIVYKILQAWAYTKGAYTVVYPVVRGTGPLFTVIGAYL
+IFNESFTGIQWLGVAVLMAGIFGLALYNMVFLVSERDTLNAALGLAVLTGLFVAFYTTFD
+AYGIRASENPFTFLAWFFMIDGVVMPFIAARRWQRMDNRPALGPLMTRGMAGGIVAFFSF
+GAIMMATRLDKVGEAAVLRETSTVFAAVIGWLVLKETVGPRRIALMALIAAGAVIVEIGG
+>tr|B7RJN4|B7RJN4_9RHOB
+MTITITPVSEPDRAVLDAMAKAYFAELLPDGPPYYPSALDRYWIERGRHPYLINTDGKPI
+GFALVWNHPDGTHELTEFTILPAHRHQGIGTQAAHLIFNALGGDWTLGVAALSPGGMPFW
+QQCLTDCENACEITQGPPKTVHQCGSFTFRIER
+>tr|B7RNR2|B7RNR2_9RHOB
+MGTPGDVPLARTVYRIASSGRVDLCRQTIKERKAWPAPVPSSTAIADRPEIVSAARAVLG
+WVGRGQDFWACGGIPASYNARKRRYDGPYPETTGYSIPTLIELGSLTGFREADLMARKAA
+DWLVSRQSNAGGIRCNIETPPSGDNGADQIVLFDCGAILQGFTAMARRSEYYAEPTERLA
+RFVMAAQRDDGLWDSHLAFKHFGSHNALVAYALIDAGSTLNQPQFSDAGHRCLKALRGRL
+RKNGYIEGCEFPGVRAGVAFLHPFVYTIEGYLKAAALAPDRGYLEAVRPALDALRIGIER
+TGQIPGAFVQPDMSTSCSFTALTAIAQLADVGFRADQLSGEGTYTAMSRQLMRFLRQVLG
+GTLSDVAWQGGLPSAFPIDGDYLPFCVNNWGAKYFLDASMGELTALHPVLSSIPTAQSAA
+IPQGVT
+>tr|B7RSE7|B7RSE7_9RHOB
+MGNISQEQVHGSEALAGYSDKISEALDTHLSYLLAPEERKMLRRFSVREVARFLKLNENT
+FRHYIKNADGRMPIGELVGGNRRMFKAEDIDNIRQFLFNDGKIAPEAYPRRQGDQKLNVL
+CTFNLKGGVSKTSSAILVAQLLGLRGHRVLCIDLDPQASMSDIFQVRPDIDGSPSIYEAL
+RYNDPETGSGPKSMRDVIQKTYFHNVDIAASEMMLTEFEYETAISFKTGMGGEPFHRRMS
+AAIASVEADYDVVVFDTPPQLSFSVISALFASTGLIIPLNASMLDSMSLGKFLGMAGDLM
+KAVEGSSRKKDYDFIRFLITRFEPTDSPQVQMAGFLRTIFSGAVLKQEFLKSTVISDASN
+SNNTVMELEPSSFTRKSYDRLMDSVELIVDELEELCFAARHRSAREAAAENSHSDDNARR
+AS
+>tr|B7RGC0|B7RGC0_9RHOB
+MGILEVKNVGKRFGGLQALGNVNLSIAENSVHAIIGPNGAGKSTLLNVLVGKLIPDTGSV
+MFDGQSVLGRKPYEINQMGISRVFQTPEIFGDLSVQENMMIPCFAKRDGAFAMNGYGSIT
+SQQDMIDKAEEMLVNMKLADKRHMHAAAMSRGDKRRLEIAMCLAQDPRLLLLDEPTAGMA
+RADTNNTIDLLKQIKEERDITIAIIEHDMHVVFSLAERITVLAQGTPLVEDTPDKIKGHP
+KVREAYLGESQDAA
+>tr|B7RGK9|B7RGK9_9RHOB
+MNYLTTTIAAFGMTATMAAAQDIELPKQLNWTAYDTGSAGYNQAVAIGAALQDATGVNLR
+VLPGKNDVSRTEPLRQGRVEFSATGVGGSFMAQEGVFDFGAENWGPQPVRVLMANNGGAI
+NLAVGVAGDLGIETYADLKGKRVAYIVGAPALNVNTEAYMAYGGLTWDDVERVDFGGFGA
+SWTGLIEGQVDAAFASTNSGKAYEAEAGPRGLFWPPIDPADTEGFARMQAVAPFFTINKA
+SVGATIDGTDGYQGAGYAYPVLTAMAATDESLVYNMTKAMVELFPKYDGNSPGIGGWAMD
+KQNMEWVVPYHEGAIRYFTEAGVWNDKAQAHNDQLIARQEALAAAWEATKAAAPADWEAA
+WSEARRKALKDGGFSVVF
+>tr|B7RMQ8|B7RMQ8_9RHOB
+MLLSLKIHCLINVRRTRLRRDPDTCPVAQQLYERTSAIITTDLSFCDWSTILGPYLGIAL
+KHIAGQWMPR
+>tr|B7RHH8|B7RHH8_9RHOB
+MRLPRLPTSAYLFGLNGSVAAVQMVSSILLARVLGVEGRGIFASWVILGSAASGAALFGL
+HLYAGRAAAQEPNAVKDIYKRVFTSALYPISIAWLLLLILFLFKDLDGGMTSFALACAFV
+AFSVFNAIQVQVEISRNSLKTYALARGSFAIFNLIGIASVYLLFANTPLNYFWALVLTAA
+SGAGITYWAIGRTVPGAATPWSVKQSPFSILLDAKKDGMATLMVALATIADRLFVTLLFS
+AVNLGNYVVAMSIAQLQSLFSEAMAPLFFARMSALGQNDKLDKDWLSMRIRQSTIVNVLS
+AILTFCASFFAIPILFGPEFSGAIGLACFLIPAFALKAIMRPFEEALKGLNKSLQQSFGL
+IIWFSAFVILCIPAVIFDNVYYIAAAMVGAGLIGVFTMASLLKKLTQIHLTDMLVPRKSD
+FNGLIREITRKGA
+>tr|B7RMC0|B7RMC0_9RHOB
+MGKLIKVIMVLTLLWGGWWAIATAGLKSAGTTWFDARRAEGWQADVGSIEESGFPLRLQT
+RLTHIALADPETGTAVRMDQFDVSTPAYWPGYVTVTLPDTPITLASPGLRATLTAQDAQA
+DLRLRPDTTLPLESMVLTGGEWKVDTAAGDLLGADTIAISMIQQTAEAPIYDFQIDATGL
+TPGTLPRGFLGLPADWPLAFDTFTGSMTVGFDTVWDRRALEQRRPQPRSIDLERAQFVWG
+AVEMLATGNVTVDEAGLATGTISLKAENWPAMLEMAETSGYLARNVRPQAEQMLGALAQM
+SGQTTGLDLTISLQDGRMSMGFIPLGSAPRIVLR
+>tr|B7RG97|B7RG97_9RHOB
+MSIAFVYPGQGAQTIGMGRDLADAYPAAKAVFDEVDEALGEKLSTLIWEGDAEALTLTQN
+AQPALMATSMAAMAALNAEGITIDKAAFVAGHSLGEYAALCAAGTFSLADTARLLRIRGR
+AMQAAVPVGQGAMAALLGLSFEQAEQVAADAAQGDVCQVANQNDPAQNVVSGSKAAVERA
+VDLAKAAGAKRALLLPVSAPFHCALMAPAAEEMAGALADVTMHAPSVPVVANVIAQAVSD
+PDQIRKLLVEQVTGQVRWLSSVEWMAAQGVTEIWEIGAGKALSGMIRRINKEITCVNIGT
+AADAAALKTA
+>tr|B7RHG3|B7RHG3_9RHOB
+MKHFLCEIKDGIATVRLNRPDRKNPLTFDSYAELRDWFRDLVYADDVDVVIFGSNGGNFS
+SGGDVHDIIGPLTRMNMKDMLRFTRMTGDLVKAIVNCGKPVIAAVDGICVGAGAIIAMAS
+DLRLATPEAKTAFLFTRVGLAGCDMGACAILPRVIGQTRAAELLYTGRSMSADEGERWGF
+FNRLVAGDALEADALKLAQQIQSGPNFAHMMTKTMLAQEWSMSIEQAIEAEAQAQAICMQ
+TGDFERAYNAFVAKQRPVFEGN
+>tr|B7RQK1|B7RQK1_9RHOB
+MAGIKKRGETWHLRMRVPKRYRSLSLPTEIHRSLRTGSEREARVRLPTAEAAVLAELDSL
+LAIGGHPHPDTAGNGAFAAAIAFATSRGMTYRPVDEIAQGSLARILEGIEALRPNDPPEA
+AVALLGGAEAPSLRLSQLVDEVERIRTHDNRFKSPEQIRLWRNPRLRATKNLQAAIGEDI
+EVAKIDNGTALRHRSWWRKKMAQSGQSADTANKDFSNMAGMLSAYFEDILMIDAPRPYAG
+ITIRDRHAVKGRKLEMPHSWIVEHWLQPGALARLNDEARDILLMSIETGGRQSEIVDLPP
+GAIVLDAEIPHILISNTEGEHRREIKNVISTREMPLVGLALAAARRNPDGFPRYRGKSSY
+SAAVNKYLRQNGLLPSPKHTIGGLRHAWEQRLKAIGIETDDRGEMMGHSVGAARKREVYG
+DAMVLARKFELSQRIMLPVPDHLR
+>tr|B7RS61|B7RS61_9RHOB
+MPTASDRHILIVVENLPVPLDRRVWLEATTLVREGYEVSVISPMGRGWDAAFEVIEGVNI
+YRHPAPPEAHSGALAYAREYGSAMRHWFRLARKIWQRHPFQVIQGCNPPDLIFLLALWYR
+PRGVRYMFDHHDVCPELFEAKFGKRGLLYGVMRVWERLSFATASVSIATNGSFRDIAIRR
+GKMQPRDVFVVRSAPNTERFLPASGDQSYRKGAATVMGYVGVIGQQEGMDLLVAAADHLI
+RQLGRRDVHFVIIGFGPTRDEVIQHVADLGLETYFTFTGALYDDDLLAAMNTIDIGLAPD
+PKNPMNDISTMNKVMEYMTLEKPVVQFDLTEGRVSAGSAAVYAQNNDPQDFARQINMLIG
+DYAMRQQMGRAGRKRVLDDLSWAHSEPQLLAAYARIFAKQKDTVSSASRKRARAR
+>tr|B7RGJ5|B7RGJ5_9RHOB
+MKTLAAANQKRISLTENRHRRKSDYFLCSTGREKLPKV
+>tr|B7RQ04|B7RQ04_9RHOB
+MQLSSRITGLLGGGSDGWGVFLRARQMIAKGTAVTELTIGEHDIRTAAPILQDMHRAAMD
+GHTGYASVPGTPGLRDAVAQRVQDRTGVKTTRDNVVITPGGQAALFAAHAATTNPGDTAL
+FIDPYYATYPGTIRGVSAIPKAIPAHAKDAFQPRASEIAAAAAGAKSLLINSPNNPTGVV
+YTRDTLDGIAQVCKDNGLWLISDEVYDTQVWNGTHLSPRALPDMAERTLVVGSMSKSHAM
+TGSRCGWIVGPEDAIEHLTNLATHTTYGVPGFIQDAALFALRQGTGFEDEIGAPFQRRRL
+LAQDIIAQQNAVSLVPADGAMYLMLDIRSTGLSGEAFAYALLDAHHIAVMPGESFGKAAA
+GHIRVAMTIDDARFAQALQTLCEFAKTRAK
+>tr|B7RGG2|B7RGG2_9RHOB
+MIAGLVSEWASLAATFHLAAVLLVITVGLLPLYHWLSGRVSASAAHQDAKAA
+>tr|B7RGR9|B7RGR9_9RHOB
+MTYSPFSIDGASRPGRWLVTCDHAANTVPPTVAGGDLGLDPQDMARHIAFDIGAAGVTAA
+LAERLNAPAIFSNFSRLVIDPNRGEDDPTLLMKLYDGTIIPANRHANAAEREHRLTTCYR
+PYHDALTELAARPATVIVSIHSFTPQLRGRAPRPWEIGVLYAHDMRLALPLLDLLRAETD
+LTVGDNEPYSGHLPGDAVDRHALQHGRPNVLIELRNDLIADPAGQRDWAGRLAPILETAL
+ARTQL
+>tr|B7RMD9|B7RMD9_9RHOB
+MITTQTQHGFFQQVMIALFCLVAVVTVGFLILDQGRGPYHAAPVLEHDIGGAEQILPASL
+VAGATPLTTAEMLHRMQADGAVDMPSLIEQAVKSFDGTDKDHTLRSYLVWAISAEKSDAY
+IDSLLNSAAARGHFKPPDALLTQTGRLDTASLLSAIQLAQNPPKTLAHVAPAASLGSF
+>tr|B7RG79|B7RG79_9RHOB
+MNFHDVRFPPSLSFGSVGGPQRRTDVVTLANGFEERNTPWAHSRRVFDAGLGMRSIDDVQ
+ALTAFFEARYGQMYGFRWKDWADFKSCGSSITVAFDDQVIGFGDGVQTDFQLIKTYASGG
+HSYFRPITKPVQGSVRVGVEQDELQEAVDYEIDTATGIVRFGNAPDRDMVVSAGYEFDVP
+VRFDTDRILVSVASFQAGQVPNVPVIEVRV
+>tr|B7RSK8|B7RSK8_9RHOB
+MAMARPVVASDVNGVSNMISEGHGMLYTSGDANALAQRIARWIDDPSEAALYGARARSRA
+VERFGIANTTRRYEAIARGEPE
+>tr|B7RLX1|B7RLX1_9RHOB
+MRRLLIDHTRIGMTFYNPRNTGLAAQRTEAADQHDQIIALIEAGDADGAAALAVAHWELS
+RSQIESFITPAGMQIPLGQAPGTLTERGIS
+>tr|B7RM98|B7RM98_9RHOB
+MSDSPDPKPSRNTGARTPARSTPFGVYSRPDSSAISSIEIIAIALSALWLLASAVFFLLQ
+PSAPPSDAGDQGLRFLMTMLAIFMPVAMIWVAATAARASRVMREESNRLQAAIDAIRQAY
+IAQQQGQSYESDASVTRKLDEIAAAARKTETTLATFQTRRETSARSAAPARTARVVDDQP
+TLALGTPADDMTPPLSHDDFIRALNFPETAEDEIGFAALRKALKDRNAAQLVQAAQDVLT
+LLSQDGIYMDDLRPDRARPEVWREFAQGARGRTIAPLGGIRDRSSLALTSARMKQDPIFR
+DVAHHFLRRFDRAFAGFEAEASDGEISALADTRTARAFMLLGRVAGTFD
+>tr|B7RN53|B7RN53_9RHOB
+MADGYVHFSTATQAAETAAKHFAGEDDLYLLAVETDRLGDDIKWEVSRGGAKFPHLYRDL
+KMADVAWAQPLPLENGAHQFPAGFENE
+>tr|B7RNY6|B7RNY6_9RHOB
+MTDHTVNPDLVHKIRIAGVLYLVIIITGLGAELGLRGPLIDFGDPDGTAAAILAAPGQFR
+LALAADLVMALCDAGLAILFYLIFRTTAPNMALAAMIFRLIQTVLIAANLLAMQAAWLLL
+SSTDSQTDAPALALVFLDLHAHGYDLGLVFFGVNSLLMGALVWRSGLFAKVFGAGLGIAG
+SVYLIGSVLRFFAPEVSAMFAPAYGLTILAETAFCLRLLLQRSSRLPASGV
+>tr|B7RI56|B7RI56_9RHOB
+MTDIQDTPPDDDLMAAELVLGLASADDQAAARRRMATDAGFAERMVFWQERFAAMTGAIA
+PVKPSAKLKKKMLARVFPKPRVSVLQRVWLWQGVSIAALLFAGYLGVQLLQINTGPVTQP
+TVLAAQLVGETSGLQILAVVEPVKHEIALRRVSGQVAPNRAFELWAILPGQAPVSLGVLP
+EQETVRLLVPEALRSQAAQITLAISDEPLGGSPTGAPTGDVLAVGEMTEL
+>tr|B7RM61|B7RM61_9RHOB
+MKWNVPNILTLMRLIAAPGVAVMFLYFTRPFADGLAMLLFVSAAITDWFDGYLARAWKQE
+TKLGAMLDPIADKAMVVIALMVIIAFSSWSPWLVLPATVILFREVFVSGLREYLGNVSGT
+LKVTQLAKWKTTAQMVAIAVLFSQGVFEHYFGMSILGMNDELVSAILMGQQEDIHGLNWK
+LDGMIWAGRIGLGLLWIAATLTAITGFDYLRKALPHLTETR
+>tr|B7RKB2|B7RKB2_9RHOB
+MDKNSGDIDWRALPKEERVTFTLRLYRAVSGVADAQRITIRQVIDQAFKGLPEVGTDYES
+NFRRGNTSVEKAQLVHQWLEVNHFDLAKIFAPELFQMNPARAWDRFLEKRRVDTGLRIVR
+MQNEFGIAQRAANVSDVCDVLQFGQEYCLELTSDRSGHAIAFQGYRGKWYPLALGNDEGR
+WRIPIVDDVQLLPRDHKGKPIPLVELDDAGDHSFVVITAPDRDLPLDQPSLAARFEDEFL
+RVFQINVRFVT
+>tr|B7RNQ8|B7RNQ8_9RHOB
+MTAMNKSITVHRANDVVSKEGLSIAKKNGQLRRENRILKEKYPSWTSDIFALFLLIAVGL
+WRGQAACA
+>tr|B7RS16|B7RS16_9RHOB
+MVTTWPKNFPGLGVGAQRLADRVTAASGGRLTVQVYSAGELVPPLQSLDAVIDGSAEMSH
+GAAYYWQNKSPALSFFTGVPYGMTTPELTAWVRFLGGQEIWDEIYDQFGVQGFLSGNTGT
+QAGGWFRNELKSVEDVKGIRFRTPGLGGRVWEKLGATVTNMAAGEIFQALQSGTLDAAEF
+VGPYNDLALGFHQVAKNYYMPSFVEPGLATELVVDKKKYQELPDDLQAIIRDVCQAEYDQ
+VSADFYANDPRALRTLVNDHGVIVRDFPEDIMEAGAKASVEVIEELRASDDPLVKKTTES
+FIEALNLVRTRTEGIDAPFTVAREKYLKY
+>tr|B7RIM0|B7RIM0_9RHOB
+MTQSPDTAENTVRHPLDPITAHEIQTLKAVLAEAGHGGPQMRYAYVMLREPDHGVLD
+>tr|B7RIT6|B7RIT6_9RHOB
+MIVKAITLAGGLAAGMATSQFPEFSQQYAQRLGGAVDELGQVVADFDASAQSVGLSRAAA
+LRQMTGSDFLDRRRADMAATFERHAALSEALTRLEGQGPFMRAYYVPQMRDTGIAKAAWA
+AFQPALPLNFAGAVFGGVGFVLGVTGVGLILGLLALPFRRRKHQSAAG
+>tr|B7RJW0|B7RJW0_9RHOB
+MAEHGLRFSKLRLTGFKSFVDPTDLVIADGLTGVVGPNGCGKSNLLEALRWVMGENRPTA
+MRGGGMEDVIFAGAATRPARNFAEVALHIDNTERLAPAGFNDTDQIEIIRRITRDVGSAY
+KAAGKDVRARDVQMLFADASTGSHSPALVRQGQISELINAKPKNRRRILEEAAGISGLYA
+RRHEAELKLNGAEANLARVDDVVDQLSTQLSQLARQARQAAKYREIGNDLRKSEGMLLYR
+RWREADDARAAAAEDLRARGAAATQAEAAVRHAAKARQTAEDALPPLREEDAIAVAVLQR
+LGVQRDTLTDQETRAQATIDVLTKRIAQLARDIDREAGLNRDAGETIERLEWEARELEKA
+GDGHDDAVEEAGELAREAATILQSHEAELSQLTEDVARLAARHGSAERLLTDTRRTLHKS
+EAEASKAREAVQHSQAAMQKAAVDFEAAQTAEAAATTQAEAAEQALIEAEEARAATQSRE
+AEARAERSEAEGEVNALRAEAGALAKLVERDTAEGGQILDRLQVEHGFEKALGAALADDL
+RAPQVDADGPSGWAVMPAYEATQPLPEGVTALTAHVSVPDVLTRRMSQIGLVDADDGPRL
+QSALKPGQRLVSPEGDLWRWDGFRAWAEDAPSAAALRLQQINRLEVLKQALEEASQRADG
+ARDAHEALQHRLSAQTEADKRAREARRDADRAVADAGRALSRAEADRNLADGRLENLGLA
+VTRHEDEAMEGRRQVIQAERALADLEDVAEARADVEALRMTVEGARIAMMSRRSAHDELR
+RDGDARLKRSQEVTKELSGWRHRLETAEKRSTELVDRKTASEVELKEASAVPAEIAAKRD
+ELTQAIMTAEDRKADAADKLSEAEATLREATLAEREAERLASEAREARARSDARAEAAKE
+TVAYAAERIAEDQQMTPAQLLTSIDVDPDQMPGSELLEADVNRLKRQREALGAVNLRAEE
+DAKEIQEEYDTLTTEKADLSEAIKTLRSGIASLNREGRERLLTAFEQVNSNFSMLFRHLF
+NGGEANLVMVESDDPLEAGLEIMCQPPGKKLSTLSLLSGGEQTLTAMALIFAVFLANPAP
+ICVLDEVDAPLDDANVTRFCDLLDEMCRQTNTRFLIITHHAVTMARMDRLFGVTMAEQGV
+SQLVSVDLKKAETLVA
+>tr|B7RJW4|B7RJW4_9RHOB
+MSFDEIIDRRDTHCAKWDKMEPIYGVPRDTGIAMWVADMDFRPPAVVQTALQDMLDHGVY
+GYFGDDSDYLGAIQWWMENRHGWKVDPDWIFTTHGLVNGTAMCVDAFTKPGDGVVLFTPV
+YHAFARVISAAEREVVECEMVNTQGRYTLDFDAYDAQMTGNETMLVFCSPHNPGGRVWSK
+AELEQVAAFAKRHDLVLVSDEIHHDLVMPGHTHTPMALIDGIGDRLVMMTATTKTFNIAG
+SHSGNVIIPDPKLRATFAARMAAMGLSPNSFGLFMATAAYSPAGAAWVDELVTYLDGNRR
+LFDEAVNGIPGLKSMPLESTYLAWVDFAGTGMERSEFTKRVEQNAAIAANHGPTFGKGGD
+SFMRFNIATPRERVEEACNRLRDAFKDLQ
+>tr|B7RNQ6|B7RNQ6_9RHOB
+MMYFNPPVVDREKFLNFGAALQDNAAKHGQKPALIVEDRTISWAEFGAIVAQVTGKLRAQ
+GVGQGDTVASLSENSVEHVVLYCAVVASGACIVPLPFSATPEALALMMADSNAELLFVSS
+AHADTGRGLSVKQIVDLDRLMAWAADAAPAGPAQVNPDDLFNIIYSSGTTGTPKGIIHDH
+RFRSRQLNRITNFGLTEADRLVISTPIYSNTTLFGMLPTLSLGATVIVMPKFNAAEFLKL
+SADLKPTHAVLVPVQLMRLMAEPTFNDYDLTSYRCKFSTSAPLPGTLIGQVMERWPGNLI
+EVYGMTEGGISTALNCEAFPEKWDTVGRLGEGVDMRVIDDQGKELPKGAFGELIGRSASM
+MRNYHNAPEKTLELLWTDENGNQFIRSGDMGRIDEDGFVHLMDRKKDMFISGGFNIYAAD
+LEAVLRQHGDVADAAVIAIPSDAWGETPLGFVVLRAGATADAQQVLEFANAKLGKTQRLS
+NIILLDDLPRSEIGKILKKDLRGPYWPD
+>tr|B7RRC6|B7RRC6_9RHOB
+MSDKMIAERLQPSLLDRLTDHEPSDLKERRETRVIDLRQLRDIIQRDLSWLLNTENGNSQ
+IDADLYPNIAASTLNYGVQSVSGDYSTAERAEMIRKSIRSAVQVFEPRIHPGSLDVELRT
+GQDERRSVVSFDIRADMWAQPMPIELYLRTQVDVTTGELQLERVS
+>tr|B7RLP4|B7RLP4_9RHOB
+MLEALVCPRTQTTLHYDAERQELVSKAAGLAYPIRNGIPVMLVDEARLLD
+>tr|B7RS51|B7RS51_9RHOB
+MGVNTVYPVKTSSALDMRGLRLLAAGLLCGSAIWVGQTARADGAFLQFDLSQTTSNATMS
+IARGPLTFGAGAVDYDGGRAYRVSATYKLPFGQDVATVKVGPSVGLVVADDAEDTVDLGL
+NLVAERYIPTDFGSLFLLADFDTNESAWFVLAQGTNARFGLSVELSHGESDNYAETSIAL
+AKRLSDSPVSLRLGYRLKADEIFAGVSINTF
+>tr|B7RFQ6|B7RFQ6_9RHOB
+MSPTLKAALWMGGSISSFSAMAVAGRELAGVYDTFEIMMYRSVVGVLVVVSLALLTGKWR
+QINTRNFSLQIWRNLAHFTGQNLWFYAVTVIPLAQVFALEFTSPLWVIVLSPLILGERLT
+RIRALAAVLGFIGILVVARPTIEGINAGVITAAASAIFFALTIMFTKRLTRTQTITTILF
+YLTVTQLVFGLVMAGYDGDIAVPTLTHAPLLLLIGVAGLVAHYCLTTALSIAPATVVVPI
+DFIRLPVIAIIGMLVYAEALDIWVFVGAAIIFAGNYINLWVETHKKP
+>tr|B7RKU3|B7RKU3_9RHOB
+MRMSTQFLTLSLTSPEQTTRTARDLGVVLRNGDTILLTGDVGAGKTHFARSLIQSLLTTP
+EDVPSPTFTLVQTYETPQGQIWHADLYRLSSSIEVEELGLTDAFDTSICLVEWPDRLGNL
+RPADALDLSFETTGDDTRRLTARWTDAKWSEKLDVLRK
+>tr|B7RGM1|B7RGM1_9RHOB
+MDQKTDPLIAAKAIVEAYLERSMVPDPEGASAYVSDDFTLTFTGGRKFTRPDQSAGFNAK
+RYAWVKKRFLRTDAALDPETGDVHVYNTGYLYGEWKDGTAFETNRYMDKFVVRDDKIIGT
+DVWNDSAEILLHKAGLAEAEL
+>tr|B7RQW3|B7RQW3_9RHOB
+MMLEVTDMHAYYGKSHILQGVNLNVKEGEIVALLGRNGVGRSTTCKAIMGEVEPHGSVKF
+QGQEIAGKKAFQIANLGIGYVPENRDIFPGLTTRQNLTLGLKPGQKDGAGRWSMQAMFEM
+FENLDRRADVEASVLSGGEQQMLTMCRTLMGDPDLVMIDEPTEGLSPQMVQKVAEVLKEI
+ANRGISTLLVEQKLSIAMDIADRVYVMGHGQVVFEGTPADLKARDDVRKEWLEV
+>tr|B7RHS0|B7RHS0_9RHOB
+MSFLGVDASLTGRRWVGPGVEVERASEVLGQQTSLPPALCQVLARRGVGPAEAEGFLAPS
+LRDLLPDPRSLRDMEKAATRFLAAVKARQRIAVFADYDVDGGSSAALLLVWLRDMGCSAT
+LYVPDRIDEGYGPNDEAMAALAAKHDLIVCVDCGTLSHGPIAAAVGAEVIVLDHHLGAET
+LPDAHAVVNPNRQDEDGALAHLCAAGVVFLMLVEAGRQLREAGAKGPDLMALLDLVALAT
+VADVAPLIGVNRAFVRQGLRVMARRDRLGLAALADAARMDTAPSSYHLGFLLGPRINAGG
+RIGQADLGARLLACSDPHEAAALAERLDTLNTERRDVEAAVRAAALDQAEVRGFDAPLVW
+ASGDGWHPGVVGIVASRLKEASNRPSIVIGFEDGIGKGSGRSVSGIDLGAPIQRLAAEGL
+LIKGGGHKMAAGLTVAEDKLEAAMARLSELLAKQGAHLGGAADLRLDGMLMPAAATVELA
+EQIEQAGPFGAGAPAPRYAFADMQIRYANRVGESHLKISFGDGSGTKLDAIAFGAFDGPM
+GPALENHGGARFHLAGRLDINSWRGRQSVQLRLEDAAPA
+>tr|B7RKZ8|B7RKZ8_9RHOB
+MNAQNILTDIPALIRNRHRSSADGLFLHHAALDEIDDRLSLVNRTFTKPAIVTGFPQVWA
+NSQPDAVIAPDDETLKLDQTAHDLVVHAMALHWANDPVGQIIQARRALVPDGLFLSVSFG
+GQTLHELRACLAQAEAQVTGGLSPRIAPMAELRDIGGLLQRAGLALPVADSVTLKTEYAD
+MWHLMRDLRAMGETNAMTSRLRRLTRRAVFDTAARLYQDNFATDTGRIIATFELIFLAGW
+APADSQPKPLRPGSAQQRLADALATDEKPLGD
+>tr|B7RQP3|B7RQP3_9RHOB
+MDDLNAILTPGMLVRHPDFPDWGVGQVQSNIAGKVTVNFRSEGKMVIDSFRVGLTPVFDE
+GSSLAKG
+>tr|B7RND8|B7RND8_9RHOB
+MTTKLPRSEYAAMYGPTTGDRLRLADTDLIIEVERDLTTYGEEVKFGGGKVIRDGMGQSQ
+VTRANGAVDTVITNALIVDHSGIYKADVALKDGRIAGIGKAGNPDTQPNVDIIIGPGTEI
+IAGEGRILTTGGFDSHIHFIAPQQMEDSLHSGVTTCFGGGTGPAHGTLATTCTPGPWHIG
+RMLQAMDGVVMNIGLSGKGNASQPGALVEMVNGGACSLKLHEDWGTTPAAIDCCLSVADD
+MDVQVMIHTDTLNESGFVEHTLAAMKGRTIHAFHTEGAGGGHAPDIIKICGEEHVLPSST
+NPTRPFTVNTLEEHLDMLMVCHHLDKSIPEDVAFAESRIRRETIAAEDILHDIGAFSIIA
+SDSQAMGRVGEVLIRTWQTADKMRKQRGRLPEETGDNDNFRVKRYIAKYTINPAIAHGVS
+REIGSVEVGKKADLVLWNPAFFGVKPEMVLMSGMIVVAQMGDPNASIPTPQPVYTRPMFG
+AYGSALQHCAVTFISEAAQSNGLRDQLGLSKQTIAVKNTRNIGKSDLIHNSATPKVEVNP
+ETYEVRADGELLTCEPAETLPMAQRYFMF
+>tr|B7RIK0|B7RIK0_9RHOB
+MAKVPVVVRSTSTVFGPVMRGMTRSDCVSEYPECWKSGLEVT
+>tr|B7RKS1|B7RKS1_9RHOB
+MTEAGKRPMPAPPHDPAPIPEPGPDLPPQSVPGPNPLIEQALPPAALRALAEAAERRKKA
+QELELPPELGGRDGPEPVRYGDWEKKGIAVDF
+>tr|B7RL75|B7RL75_9RHOB
+MPKRILTGTVTSDANEQTVTVSVERRFTHPVLKKTIRKSKKYRAHDENNTFKVGDSVRII
+ECAPKSKTKRWEVLQAAEA
+>tr|B7RMQ9|B7RMQ9_9RHOB
+MLSVKKTSDSFAVFGKCHRWFEKHTHRCLILVENFCRTLW
+>tr|B7RPY2|B7RPY2_9RHOB
+MTELQIAGIFIAILLLMILMRIPIGISLIAVSFGGLWSMFNWNIAWGSLGIVPYSFANSW
+VLSSIPAFLFMGFICYHTRLTQGLFNAAQIWLSGLPGGLAIASVFGCAGFAAVTGSSVAC
+SAAMGKIAVPEMMRHRYSAELATGTVAAAGTIGALIPPSILMILYGIISRQSVSALFLGG
+LVVGVITLFAYIVLIMVRVKMNPDLAPPVKISATRSEKIRALGQTWPVLLIVIGVFAGLF
+GGAFTPTEAGAIGAMLSTVVALLYRTLTFKALRMAITETLTTTAALLIIAVGASLLTRFL
+ALSGIGDALSDAILGFGASPLLIMVGIVCVYLALGMMLEPVGAMLLTLPIVLPIVDETGY
+SLLWFGVVLVKLLEIGMITPPMGMNVFVIKGVVGNIASLSTIFKGVFWFVVVDLVIVAAL
+IAFPDIVLFLPEWVGR
+>tr|B7RFV9|B7RFV9_9RHOB
+MDILNIPIILLAAGQSSRMRGRDKLLEMVDGQPLLRRQAEMALSVTDGPVLVALPVAPHP
+RYDAIAGLAVAQVPVPDADEGMNASLRRCFAALPQGAEAAMLLLADLPELTSDDLRKVLQ
+AIDIASDNSIWRGATASGKPGHPTVFAAKHFGKFASLTGDIGGRDIVSSAKDETVLVPLP
+DDHARRDLDTPEDWAAWRAENPHR
+>tr|B7RKD8|B7RKD8_9RHOB
+MFKITHTIACAAAMALASPVLADQGVDQTSVRFAQVAALDGPAAALGTGMRQGLLAAFNE
+ANLAGGVHGRTLELTSMDDGYEPSRSIEAVTSVIKSDDYLALIGTVGTPTTKATQPLATA
+ANLPLIGPFTGAGFLRDPALSNVVNMRATYDAETQAWVDYLVDDLGLNNIAILYQDDGFG
+RVGLSGVNKALEARGMTLSAEGTYTRNTLAVKSALLEIRKAEPEAIVMVGAYKPLAEFIK
+LSKKMKMDPVFVTISFVGSKALAAELGEAGDGVIVSQVVPQPWDASLPVVAAYQAAMKTF
+DANEEPGFVSLEGYITGRLAIQALENAGADVTRAGYLEALSGLGTIDLGGMALSYGPGDN
+QGSDSVFLTRIRADGSFEAMMPGS
+>tr|B7RFS9|B7RFS9_9RHOB
+MLALIAGGGGLPHRVASAQADRPLVCGYEGVAVEGVEVDQTFRLETLGSLIKSLQDQGVT
+QVCLCGAIARPSFDPSKLDALTMPLVPAFQKALGAGDDGALRVLIDIFETSGFTVRAAHE
+LAPDLLASPGVLSTKAPDTQMTQDAARAAQVVATLAPMDIGQCCVVGGGQVYGIETIGGT
+DHLLATLPDRVQSASAILFKGPKPDQSRLVDMPTIGPATLEAAHKAGLAGIVIVAGNVIV
+LEPERCKTLADDLGLVLWSRATA
+>tr|B7RJ87|B7RJ87_9RHOB
+MARVEDYLAHQITTRGDAQALSDSVGARWTFRDLDKASDDVAETLKASGVQPNDRVLLLS
+ENCAAAVATIFGTWKAGAVIIPVNARQTEGEVKRILDHATPAAVLMTTGASPDAGKHAEG
+MGAQEITGAFGALHMAKPIASNPDADLSDVAVLLYTTGTTGDPKGVMLTHANVRFGGMTS
+ANLRGMTPGDVVYGVLPLTHVFGLCSVLTASCYIGAEVRLEARFSAEKLYNALTSGVNFL
+SAVPQMHALLMQYTKEKGLTQLNSETLRYVSSGAAPLDPAWKRKAEGFYGVAIQNGYGMT
+ETTAGTSATSNPIGSPDVSVGPPLAGIEVKIDDTVEGGSAGTGEVLTRGPHIMKGYYKNP
+TETAKVVDADGWLRTGDLGKLDENGLLHILGRSKELIIHGGFNVYPPEVEAAINDHPQVI
+QSAVIGRSKDGDEEVLAFVQIAEGDSLTADDLRAFVKERLTGYKRPKHIIIGTALPAAPT
+GKILKHKLIATFKDQLD
+>tr|B7RL58|B7RL58_9RHOB
+MAKAKFERNKPHVNIGTIGHVDHGKTTLTAAITKYFGDFRAYDQIDGAPEEKARGITIST
+AHVEYETENRHYAHVDCPGHADYVKNMITGAAQMDGAILVVNAADGPMPQTREHILLGRQ
+VGIPTMVVYMNKVDQVDDEELLELVEMEIRELLSSYDYPGDDMPVIPGSALHAMNGTQPE
+IGEESIRKLMAAVDEYIPTPARAIDQPFLMPVEDVFSISGRGTVVTGRVERGVINVGDSI
+EIVGIRDTKTTTCTGVEMFRKLLDRGEAGDNVGVLLRGIDREGVERGQVLCKPKSVNPHT
+KFTAEAYILTKEEGGRHTPFFANYRPQFYFRTTDVTGTVKLPEGTEMVMPGDNLQFDVEL
+IAPIAMEDGLRFAIREGGRTVGAGVVSKIHE
+>tr|B7RNB1|B7RNB1_9RHOB
+MAKQKLIGISGSLRKASTNSKLLAEAARLFGDCDYTEADIRFPLYDADEEQANGVPAAVQ
+KVADQIADADAVLISTVEYNKGPSGVLKNALDWISRVDGTPWSGKPLAVMSAAAGRAGGE
+RAQLILRSFMVPFRPRILQGPEIHLANSSNAFDDNDRLTGEMYVKELTELMTSLRAEIGR
+>tr|B7RPI0|B7RPI0_9RHOB
+MLDPYLAQLTALGDPARVPQMQDYHKMDRVYLGVTNPQINDLTKTWRTDLDLADRVTLAD
+ALWQTDIFEARLAAAKLLTQARLRPDDEPAWQLMQSWVSDFDSWAIADHVCMAVQKRLIA
+DPDRLDVVEAWTQSDHLWTRRAALVATLPWTKQNHPKPEELAARERVLGWAEGYLPVKNG
+IMQKAIAWWVRDLSRHDPARATAFXXXXXXXXPSSLA
+>tr|B7RSC7|B7RSC7_9RHOB
+MISFKGSHYPNDVILYAVFFYVRYAVSYRDLEEILADRGVHVDHATLNRWVVKYASQIAS
+EAQKRKTRTGRDLYQG
+>tr|B7RKB1|B7RKB1_9RHOB
+MIEALWSIVVSFVDLGFGVHPVQQACGKDDDPLSDTPPDLLSLFKSEQSEQEDPWQDQ
+>tr|B7RG63|B7RG63_9RHOB
+MKWSLLGIVLVVGAVAGTAIYMIRSPIVIPDWIEAKLEARLAQDLPQARIVFDELVLIVD
+EGWRPRVRLQDVRITNPAGAELAAFREVRASFSVRGMLDGKVQPRDIALSGVVATLRRDR
+DGRVALSASTGQAPAERRAATMPELIGQLDAALATPALSRLRSIDLRALTLSYTDLRSER
+AWTADGGRLRLTRSGETLGISADLALLGGGADVATLSANYTSKLGDTASQFGVTFDGVAA
+EDIGAQNPAFAWLRVLRAPISGSVRSSLNEDGAFEPLNATLQIGQGVVQPNAKAAPIPFD
+GLRSYFSYDPNEKLLRFDELSVQSEWVSGRIEGAASLGVDDSGKLANLVAQMRLSNLEAN
+PADVYAKPISIEGADVDVQIAFNPFHLTLGRMDISDRDTTLNVSGDLKAGADGWHVALDA
+GLDKIDPARLLELWPEKAKIKTRTWISENIYDGALSDISVAFRLRPGGTPETHLSFDFAD
+AEVRFLRTMPNITGGRGHASLLRNRFVVSVDAGQLEAPEGGTISLGPSSFIMPDVTVKDG
+PPGIVRLNTTSQITAVLSLLNQPPLSLIDKVNQPVDLAQATANLSGTLAFDMKKGGDPKR
+TVFNVSGDLLDVRSDVLVKGRSLTSDKLTLVASNSGISIKGKGAVDGVAFDGGWEQPLGT
+PGVPSSVRADIVLNQSTLDTFKIALPPGTMSGTGRAWFGLDLVKGKTPQFSLTSDLRGVR
+LSVPQIGWTKPEGMAGKLEVAGVLGPVPQVDLLEVAGAGLTAKGSVRLNGEGALERVRFD
+RLTVGDWLDMPVDLLGQGPGRQVQVVVRGGVLDMRRAAFGKSKPSGVAGPPMLLALDRMQ
+ITDKIALTDMRGTFGLAYGLDGSFTAKLNGGTAVTGRVVPQNGRSAIQLTSGDAGGVLRS
+ANMVKQVRGGALALTLLPVGSGGAFDGRATITDVQIQDAPSIAALINAVSVVGLVNELNG
+DGIYFDAVEADFRMTPNRITLTKASATGASLGISMDGVFATDTGRMALQGVISPVYMLNG
+IGSFMTRKGEGLVGFNYTLGGTAQNPEVSVNPLSALTPGFLREIFRAPPPKLPTVEGVTG
+STLPAAPEPQKPVVQQYEGR
+>tr|B7RN39|B7RN39_9RHOB
+MSNTKMTIREMCDAFDVTPRTLRFYEAKELIFPERQGQKRLFGKRDRARLKLILRGKRFG
+FSLEEIRQLLDLYHMDDQQQTQLARTYEIARERLADLEARRDEMTEAIDDLRAQLKWGEK
+MIASVSTARNAAE
+>tr|B7RNL6|B7RNL6_9RHOB
+MEVVAANFFAQHWNDTLRDDRTIMKHVKTSEGLCYRPLADRLMAYMNDPAMGREATFLRS
+CWNDTWA
+>tr|B7RIA7|B7RIA7_9RHOB
+MTSAPVISAKNLSLTFETNDGPVHALKDVSLDIEKGDFVSFIGPSGCGKTTFLRCMADLE
+QPTDGIITVNGVSAAEARRARAYGYVFQAAGLYPWRTIGGNIRLPLEIMGYSKADQAERI
+ARVLELVELSGFEKKFPWQLSGGMQQRASIARALAFDADILLMDEPFGALDEIVRDHLNE
+QLLRLWARTEKTIAFVTHSIPEAVYLSTKIVVMSPRPGRITDVIESPLPRERPLEIRETP
+EFLEIAHRVREGLRAGHGDV
+>tr|B7RKD5|B7RKD5_9RHOB
+MKYFNKFATCATVALMGSTSIALAECADPVKLGVLHSLSGTMAISETTLKDTMLMLVEQQ
+NAKGGVLGCQIEAVVVDPASDWPLFAEKARELLTVNEVDVIFGNWTSVSRKSVLPVIEEL
+NGLLFYPVQYEGEESSKNVFYTGAAPNQQAIPAVDYFLEELGVEKFALLGTDYVYPRTTN
+NILEQYLKDKGIAAEDIFVNYTPFGHSDWATIVGDVVALGEDGKQVGVISTINGDANIGF
+YKELAAADVSADDIPVVAFSVGEEELSGLDTTNLVGHLAAWNYFMSADTPANAEFIKTWQ
+DFIGSTDRVTNDPMEAHYIGFNMWVNAVEKAGTTDVDAVRTAMYGQTFPNLTGGTAEMLV
+NHHLSKPVLIGEITADGQFDIISQTDPVPGDAWTDFLPESAVLMSDWKDLGCGMYNTETK
+SCVQLTSNY
+>tr|B7RKG8|B7RKG8_9RHOB
+MIKRLLIANRGEIAIRVARTAAALGVETVAVHTEDDATSLHIKHADRVRVLPQAGVTGYL
+DIAALIAIARDTGCDAVHPGYGLLSERADFADACADAGLVFVGPDAATLRLQGDKVSART
+LAENAGVPVLRGSDLLETSADLHAFFEAQGGAPLMIKAVNGGGGRGMRMVQDAGEIDAAF
+AQARAETLSAFGDDQLYAERFLQSVRHIEVQIVGDGRNVTHLWERDCSVQRRHQKVIELA
+PAPNLDDATRDALLKAAVAIGEACGYRGLGTVEFLVEDSGAFYFIETNPRIQVEHTITEE
+ITGFDLVEIQLGLASGKTLADVGLGDAPARPKGFAVQARINAETPDGQGGFTPTGGRLGT
+YAAPSGPGVRIDGYAYAGYSTNPSFDSLLAKLVVHDTSGDLGRLFAKTERALSEFQIEGV
+GTNIGFLRSLLKLPAIAAWDVDVRTLDTQSPGMSTADTCQTRYFETDATEAADVYDIPEG
+AEVLRAPMQAMVQEVQVVVGDQIAKGQVVAVIEAMKMQHTVLAEAGGVVVATYVEAGGTI
+ASGTPVLAFTPDDTLDDIAADETVVDPDHIRPDLQALNDRLARTLDENRPKAVERRRSRD
+QRTTREIVSGLCEGGDFHEYGQLVLAGQRRKLGIDALIDISPADGIVTGVGSMNADRFAE
+DRSQVALLAYDSTVMAGTQGYFGHLKTDRMIEVARERGLASVFFTEGGGGRPNDDDFAET
+VQSGLKVTTFAEYARLRGWGPRITVSSGFCFAGNAALFGAGDIRIATRNSWIGLAGPAMI
+EAGGIGAFHPKEIGPAPMHAENGLLDILAEDDDAAIRATREVLSFFQGALTGWDAPDQRL
+LRHMIPENRKRSYLIRPVIEGLADTGSFLELGAEHAKGMVTGFLRIEGQPMGVIANNPQH
+LGGALDAAASAKGARFINLCGRFNLPVLSLCDTPGFMVGPESETQGAVAAACELISAGAN
+LDAPMFFVCLRKGYGIGAQAMAAGSLGEPAFSLAWPTGEFGPMGLEGAVQLGYRKELEAE
+TDPAKREALYDRLVNGLYERGSAMNVASTHEIDAVIDPADTRGWIAKGMRMAARK
+>tr|B7RLU6|B7RLU6_9RHOB
+MTAAVAMHDGTAEKAHRLTLGPTLTVVLAAALVMSALNLMDPMIRHDDYPAFFGDAAAFW
+NKTLHEGRWLNYIWHLREVLTPASLNFAVYQGLWAVFVASLAVVASGPKGATWFTLVLAL
+MMMVSPSAMLISLWFNTLIPGLAVVALFAFLACRVSSATLRALLPGFVIVSFMAYTTYPL
+LLLAVCIAKTQERSLRDLTGLMALFCVSFVIAVLTVYAINWQFHGVFGVPVAEWREPTAA
+GGLAGMLENLPKLLETFKIMFHRNGFGFAPLIGLMPVMLIAAFFVLRRRAPLEALYLFAG
+LSVGIALVVVQVLKIGVLVPPRAFIFAWVFAVLTIVRAVQLLSVTDGLHGRLGRNAALLI
+IGVYFIQIFLFYGQFRTWHADTKALAHEMSVLDGDVFVYGDPSKITSGKDAGIQSREALP
+FRMKHLTGRDVITCHTTPDLCPAQPELGDTGEVEIHVRRTDAGTFMIFTPLPEEDESDAL
+>tr|B7RM87|B7RM87_9RHOB
+MQLSVKTDTDAYLIAPQPGLARLTRAVVGRDHTGTETTINVVEERPLTIFLNAQEIVTAM
+TIGDYPEYLALGFLRNQGMLRDGEEITAVDYDEDLEVVVVRTARKTDYEDKMRKKTRTSG
+CAVGTVFGDMMEGLEGVTLPATPVHTSWLYGLSAQINRTPSLYLEAGAIHGTVLCQGDKP
+LVYMEDVGRHNAVDKIAGWMLSEGVSADDKILYTTGRLTSEMVIKTAMMGIPVLASRSGF
+TAWGVEIANQVGLTLIGRMKGKRFICLAGEDRLVRDADPDQVVDEPKRSGRKGSV
+>tr|B7RRQ3|B7RRQ3_9RHOB
+MINFDCHAHVYETVNPVDGARYVPESPAPLADWLAHQAAHGLRGGVIVQVSFLGADNSQM
+CDALSRLDTRRFAGVGVVPLDVEDAELKQLIRAGIRGVRWNLVRGAAVPDLSANRTQGFL
+ARLRDNGLHLEVHLEGPRLAPLLPALTDQGVTVVIDHFGLPSEPQPKNDPMIRAVEGLAD
+RSALYFKFAAHYRVPFDVHPHAKELMSLLDDNRVVWGSDWPHTQHESGNSFDGVRALCSS
+WADFSDCKAVESLYGLSG
+>tr|B7RLV9|B7RLV9_9RHOB
+MLPHVHILMCTKDGGAFLSAQLQSILTQTHKDWSLWISDDGSTDQTVPEIERFIAAHPRR
+DIRLLQGPRKGCAQNFMSLLAHPGLDGAWVAFADQDDIWMPHKLGRAVDMIWRGTGAQIY
+ASRSVYTDSQLNVIGMSPRYQRPFEFGNALVQNVLNGNTIVIPPRITDFLRSTVGFSVQA
+NVPFHDWWVYQMVTGAGFDVIHDAKPGVFYRQHENNILGARRINVLHRAMLLLRRIYVEW
+VDRNVAMLNELAPVLNRSSRRLLFDFVDWRSQATPILRAPPQSIGVYRQSASGDLALRAM
+GWMGGL
+>tr|B7RQ75|B7RQ75_9RHOB
+MIFWLIAATGAALVSMLLMRALWRGATAPVPTRAEHDLQVYRDQLTEVEREVARGVLSDA
+DAARVRTEISRRILAADTARADVIQSGAQPSKLMMGVIAAAMIGGSLALYMWLGAPGYGD
+LALRDRIAFAKELRENRPSQANAQASLPPAPTMADLSPEYAALLTKLRETVATRPDDAQG
+QTLLAQNEARVGNFAAAATAQSAVVRIKGADASVEEVASYAELLVLAAGGYVSPEAEAVL
+RAVLTRDVENGTARYYWGLMLVQTGRPDQAFKMWDGLLRRGPKDAPWIEPILAQIEPIAE
+MAGVNYTVPEIGGGALRGPSADDIEAAEDMTPAQRMEMIGSMVEGLSERLATQGGPVEDW
+ARLISSLGVLGQTDRAQAIYDNALDVFADDPKALDEIYRAGERASLAQ
+>tr|B7RQX8|B7RQX8_9RHOB
+MSAAGPALWQPEFDIEHRPDGTIIMAQKGAVEVLATSIPERLVHWAKTTPDRIYLGQRDS
+SGGWRTMTYAQVLAQVRQIGAGLLSLGMGPDKPLLVLSGNDIEHALIGLAAQYVGVPYAP
+LSTAYSLVSDDHGKLRDIAALLKPGAVFVADGAAFGKAIAAIATPDLAVIATQNPGEGQV
+GFESLCSGLGSEIADAAFANLVPETVAKYLFTSGSTGSPKAVINTQHMLTSNQDMIADCF
+RFLADHPPIVCEWAPWNHTAGGNKTFNMVLYNGGTFYIDEGKPTAAGFATSLRNLADVRP
+TWHFNVPLGYEMLARAFEADADLAKTFFSRMDMMMYAGAGMAQHTWNQLKALSKQATGRE
+VLLVTALGATETGPFALMGTDHQPKSGNVGVPACGVTLKLVPNEGKLEARLKSPSITPGY
+FGAAQATADALDDEGFYILGDALRPADPDDLTKGFFFDGRTAENFKLRTGTWVAVGALRA
+KLVDHFNGLLRDAVIVGEDQPFLGAIVLADVEELQKMAPGDSLAVLMQDPEIQAALQARL
+NSLAATATGSATKIKRMLVMMDAPSLDKGEVTDKGSINQRAVMRNRPELLQAIYDGGDGV
+FEAT
+>tr|B7RRC0|B7RRC0_9RHOB
+MVADGNKKMKAKLEISPYVEMKKDVIKWLESEPKAKKIFGKKIVYEESLELNPKKWTEPK
+LKSAMAGLVRPELKLLAVRAGAIMKDSEKAKSPKEHNKIITALEQALKNANSEISEKCSD
+ALEELSSGKGEAKAGLAVGKKAMSEINSLDIGSVFKDFIAIAMGTADGCVKALEKGDKTK
+IGKQFSAAQAEIEKAIKNLEREGKKADSVAKFLLNSGKKLKGNDIGSLDAFSGKIRDKKV
+HGPLEKLSNDMDTLEKELDAYAKDLKKGQMEVGDAKAYAKKFGAMSTLQGTADSAVKAMK
+SLQVEFKKVEKDLK
+>tr|B7RRU8|B7RRU8_9RHOB
+MFSNAVKLFSLGGIEIKVDPSWVIIASLITWSLSRQYFPEVLPEASNRTYLAMGLLGMLG
+LFSSLLLHELAHSVVAIRLGVPIKSITLFIFGGMAELGKEPTSARDEFWIALAGPVMSFC
+LATGFWTFAQGVWLAAGPFALVEVLFYLALINLLLALFNLVPAFPLDGGRVLRAYLWHRS
+GDVLAATQTAARSGTFFGYLLMGLGVLALFQGAFVAGLWQLMIGGFVLMAARASYVSQLA
+RTVFEDKPVSALMSRHPITVGPNMTLLELANQVMLRHGVSFVPVVEGNVLLGHVDQSVLE
+GIEHQNWGNTRVGDVFFGLDESVMIAPELPIPDLLKLIAATGHRKFMVVLDHHLLGVITL
+ADLTRFLDYSAVAEPRQRHV
+>tr|B7RG77|B7RG77_9RHOB
+MMTQGDLIVAAARGWIGTPYVHQSATKGAGCDCLGLLRGVWREVLGPEPEAIPAYSMDWS
+EPQGEERLWRAALRHLRTKARDDAAVGDVLLFRMRSGAVAKHLGLMSDPGTNARFIHAYS
+GHGVTESPFSAPWQRRMVARFEFSTDY
+>tr|B7RJB1|B7RJB1_9RHOB
+MKWIIRLFGLVLLIIVVGIGSLFLLPADRIAKVAADQLRNLTGRNVAITGDVGLTFWPVL
+GINADGLEVGNASWAKDGAMLSAANAAIGVDAMALIRGEIKITNIEAQSPTIRLEQRRDG
+RASWQFTDAGGDAQIETAPTAPASTPRPLTIQRLNITDATLIYDAEGSDLVRYEGVDLSL
+DWSERAGPAVINAALRPAGERVSVEATIDRFDQFLNGDVRPLQARIDTKGGGANLTGRAG
+LAGAVAGDFWIKTSDTGRFLASLGAAGVDLPQGLGRTMDVRAQLTMTPDRRLAIREMTAD
+LGGNTLRGAADITLNGTPDINAQLSAGALNLADFGGNETAGGGTSEASSASGWSKTAIDA
+SGLAAFNGEIALRADSVELGALTLGATRVLLRNDRSRMVAELREINAYDGVISGEFVVNN
+RGGLSVGGKLAAQGVSMQPLLQQTAGLNRFRGTGDAELSFLGSGQTLDAIMRSLGGKGAV
+NIGRGSIDGIDLDALMGNFDVKGGTTVFDSLGATFGIENGVLENGDLLMLLPNFTATGTG
+QVGLGAQTIDYTVTPKALRVNGDRGLAVPVRIVGPWAAPRIKPDLQAALDLNFADEKAKV
+QNRLEQKLEERLGLQRQDGQSVEDAVKDKLEDKLKRELFKMFD
+>tr|B7RJV1|B7RJV1_9RHOB
+MRPDIQGHLAMLTFSALVAGSFSLGSMSANMISPAALNAARFVIAGAVIGVAVVATTGVK
+PQALRAPWRYFVLGGLFAVYFVLMFEGLKTARPVSAAAVFTLTPVIAAGFGWVLLRQVTT
+PRMALALTIGAIGALWVIFRADFTALRRFELGRGEAVYFIGCVSHALYTPMVRKLNRGEP
+AVVFTLGTLFAGGALLFLYGWRDVVGTDWLTLPAIVWITIFYVAIFASAATFVLLQFASL
+RLPSAKVMAYTYLTPSWVILWEIALGNGAPSALVFGGVALTILALYLLLKNDSLGT
+>tr|B7RLR9|B7RLR9_9RHOB
+MPASFADTSAPQIPLYAIAEDRLSGWLADQPQATAAWVEANSFTGALGQALALPGADGAV
+AMALVGYGTEKSRSRGRFHLAGGVEKLPKGAYRIETDLAAEDLENEVLGWLLASYRFDRY
+AKQTPLKASLVAPTTIDTDKLRAQAEGEMLTRDLINTPASDMGPPDLENAARTLAEKHGA
+TISVVTGDDLLVQNFPMIHTVGRAADRAPRLIDMKWGTTGKKLTLVGKGVCFDTGGLNLK
+PGASMGLMKKDMGGAAAVLGLAHMIMATGMNIQLRVLIPAVENAVSGNAFRPQDILTSRK
+GLTVEINNTDAEGRLVLADALALAEEDKPDQIISMATLTGAARVAVGPDLAPYFSDDPNF
+VTTVETAAAAHADPVWRLPFHAPYETMIEPGIADLDNAPSGGFAGCITAALFLRRFVTQT
+PYAHFDIYGWQPSAAPARPKGGVGQATRALYAALGDLLTK
+>tr|B7RFZ2|B7RFZ2_9RHOB
+MYGVVLWSDVSENKAVFWCEDQGDLAFFQACPDTDGTQWTDFDAGDLVQFDIYLDRKMRK
+ALNPRIIREKARTDLPNKLLNRQRRLDRSANTAQVVPFPNHAEVERKTVGL
+>tr|B7RGR4|B7RGR4_9RHOB
+MISQLQHSAPIVDAQLSCGNQKLRSFLAPILVNPFKLKPLCGIRLRKWAKAKRMEYATMI
+ETPYLLFLGDAPDQLAVKVAQGIKDWRPDNAVGQFRMDGCKADVGLADMTLAQAKDTGAK
+TLVIGVANRGGVISAAWKAVLLEALEAGFDLASGLHNLLRNEPDLAAAAQEHGRNLHDVR
+VPSVEYPIANGVKRSGKRVLAVGTDCSVGKMYTALALDAAMQEKGMKSSFRATGQTGILI
+TGEGVPLDAVVADFMAGSIEYLTPDNDDDHWDVIEGQGSLFHVSYSGVTLALIHGGQPDA
+LILCHEPTRKTMRGLPDYALPSLEDVRDTALTLARFANPACKVVGISINTQHMSESEAET
+YLAEVETRLGLPAVDPFRQGAAKLADALAAL
+>tr|B7RFQ4|B7RFQ4_9RHOB
+MTDITHDRLLIIDFGSQVTQLIARRLRELNVFCEIHPFNTVDDAFLRDFAPKAVIFSGGP
+SSVFAEGAPMPPKSVFDLGVPILGICYGQQVMMHCLGGKVERGHGTAEFGRAFVTPTTDR
+LDLLDGWFTTDREQVWMSHGDHVSAIAPGFEVYGTSPNAPFAITGDASRHFYAVQFHPEV
+HHTPNGAKLYENFVKLAGFKGDWTMRAYREEAIANIRAQVGDAKVICGLSGGVDSSVAAV
+LIHEAIGDQLTCVFVDHGLLRKGEAEEVVTMFRDNYNMPLIHADEQDLFLGELDGVSDPE
+TKRKIIGRLFIDVFQKHATAVGDAKFLAQGTLYPDVIESVSFSGGPSVTIKSHHNVGGLP
+EKMGLKLVEPLRELFKDEVRALGRELGLPASFIGRHPFPGPGLAIRCPGEITREKLAILR
+EADAVYIDQIRKHGLYDEIWQAFVAILPVRTVGVMGDGRTYDFACALRAVNSVDGMTADY
+YPFTHDFLGETATRIINEVPGINRVTYDITSKPPGTIEWE
+>tr|B7RHN4|B7RHN4_9RHOB
+MADPKSFAGLLPDSWQTMPFEHFREGVEICHLWQGGPDVALLRYAAGASVPRHRHTGLET
+ILVLSGSQSDDNGRYSAGSIVFNPAGSVHDVWSEDGCTVLIQWEKPVEFVD
+>tr|B7RKE8|B7RKE8_9RHOB
+MTLTRKIIRTSVRTFCKDEDGATAIEYGLFAALVGAVIVGSVAGLGKQTDKGFTTMASAL
+TAEGITE
+>tr|B7RPU7|B7RPU7_9RHOB
+MQFKSKDFTDARRVLKIRKLKVGLTGRPNAKPVLDGIDLDIRAGETHCLVGESGSGKSVT
+SLAAMGLLPKDALEIQGGLIALEDFEITNATPSQMRELRARRIAMIFQEPMTALNPVLRV
+GEQIEEVLNMHTDLSKSQARARTIDMMEQVHLPDVERIYSAFPHQLSGGQRQRIMIAMAL
+ILDPDLLIADEPTTALDVTTQLQILKLISEMQERQGTAVLFITHDMGVVAEIADTVSVMQ
+KGRIVERAPIQDLLTNPQEDYTKKLLRAVPNLVPRNARAEPAKTKPVLRVEGLDMTYGGA
+GRFFKSRGVKAAQEVTFDIEPGRTMGIVGESGSGKSTVARCIMRLITPTGGTVTVAGTEI
+AQLGRRQLQPHRKHFQIVFQDPYRSLNPRWTVARSLCEGPINFGTSREEAMAKAAELMEL
+VDLPRDALDRYPHQFSGGQRQRIAIARAVAMKPDLLVADEAVSALDVSVQAQVLDLLDDI
+QEKFGVAMLFITHDLRVAAQICDDVLVMQKGHVVENGPAGEVLSNPTHEYTRNLIDAAPG
+RQWDFANFRALEAAPTLKGSTL
+>tr|B7RNX1|B7RNX1_9RHOB
+MVKITCLHTAQVHVDRFDGLFAAQGWDGALDHIVRPDLLARAQADGIEAVAEDLHTLLEG
+AEGVDAVLCTCSTLGPLVDRFDRPTVLRIDRPAMTAAAAYPDVLIAVCLESTRSASLALF
+EDCAKGTAAQAQVVICPAAWPHFEAGDMNAFYRQIAQSVGQAVIAAPQTACIVLAQASMQ
+GAAMLLSDMGVPVLATPVLAVRQAIRIARQAPA
+>tr|B7RKB8|B7RKB8_9RHOB
+MVENNPQESSKIAFRKSATAEKISFWQNKTEAVEVINPDGSPIRDKDNAQLTPKPPQGVT
+RPAPNLAPPGMQGIRTGLKQPVQRIPEPHKPAIITKDAGQRETSLWIDGKITTMKGYEFQ
+AKMYDEPSKFGIDGGKISKLDVRKDGELVMRYDRGWDKDPQTPEHKEALQRIRNGLDDSP
+QKPFKGFDKGANKDHGMDI
+>tr|B7RPM0|B7RPM0_9RHOB
+MTDVTWGITSTILAPARDILQFAAYHLEAGAHRIYIYLDAPNAQAFEHLDAHPKIRVTTC
+DAKYWKQRKRDRPETHQVRQTANATHAYNRRAEVDWLIHMDADEFLVAGRPIADILAERP
+AEPPATRIRPMEQLSGTPTAFKGFVPNGPDRARIIAELYPTYGEYLKGGFLSHLAGKVFV
+RTGLPKIHVRIHNVFQNGEMLPCHDRQAEIDLAHAHAKSWEDWIAAYRYRVTKGSYRPEL
+GPNKPYEKGGLSMHDLFQMIESDAGEAGLRAFFDEVCANTPTLRTRLQAHGLLHHADLAL
+TSHLDKHFPEFTGR
+>tr|B7RL98|B7RL98_9RHOB
+MNKSVFFGAMTVAGLVAGASAAATLDDVKERGKLNCGVTTGLVGFAAPNANGEWEGFDVA
+VCRAVAAAVFGDPTAVEFIPTTGKTRFTALASGEIDFLARNTTWTFSRDVDLKFDFIGVN
+YYDGQGFMVPKALGVSSAKDLDGATVCIQTGTTTELNLADFFRANNISYEPVPIETNAEG
+QQQYLAGACDTYTTDASGLASTRATFETPGDHIILPEIISKEPLGPLVRHGDNDWGDLTR
+WVLYALIAAEELGVTSANVEEMATSTTNPEVARLLGAEGTLGEMLGLSADWAKNAIASQG
+NYGEIFAKNIGEETPIGLARGLNAQWTDGGLMYAPPFR
+>tr|B7RLV0|B7RLV0_9RHOB
+MSLMIPAWVGGSLVPVEKLEVHQRGLRHKAISVFVMRGNETLIQRRALGKYHTPGLWANA
+CCTHPFWDEPALACARRRLEEELGITGLRLDHRDQVEYRADVGGGLIEHELVEIYTAEAI
+AFTTVEANPAEVMDTAWVDLKELARQTRDTPENFTPWLRIYLADHMNSIFAA
+>tr|B7RGJ0|B7RGJ0_9RHOB
+MKKLLTTSALVAALGLPQLASAESHSMLDPDAKSGGNITVTYKDDVATLDPAIGYDWQNW
+SMIKSLYDGLMDYEPGTTELRPGLAESYEISDDGMVFTFKLREGVKFHNGRVMTADDMKY
+SLDRVTNPTTQSPGAGFFGSIAGYDAISSGEADTLSGVKVLDDQTVEITLSRPDATFLHV
+MGLNFASVVAKEAVEAAGEDFGKTAMGTGAFKLADWTIGQKLVFAKNEDYWREGLPYLDS
+VTFEVGQEPIVALLRLQNGEVDVPGDGIPPAKFQEVMGDPAQAARVIEGGQLHTGYITLN
+VKMPPFDNVDVRKAVNMAINKERITQVINGRAVPATQPLPPSMPGYTEGYAGYAYDPDGA
+KALLADAGFADGFETELFVMNTDPNPRIAQAIQQDLSKIGIKASIQSLAQASVIAAGGEA
+DQAPMIWSGGMAWIADFPDASNFYGPILGCDGAVQGGWNWSWYCNADIDAMAVEADSMTD
+PAKVDERLKMWSDIYMKVMEDAPWVPVFNEQRYTMKSERMGGDDKLYVDPVSIPVNYDYV
+YVTDVQ
+>tr|B7RPI1|B7RPI1_9RHOB
+MAKQFDQINDSHRSFIEAQHMFFCGSAAPDGRVNISPKGMDSLRVMGPNRIVWRNLTGSG
+NETAGHLARLNRMTLMWCGFEKQPMIMRAYGDAQVLHPRDAGFAALNALFPTALGARQIY
+DMRVEMLQTSCGYAVPFYHHAGDRDVLSKWAEDKGETGIATYWDERNRATIDGMPTHILA
+DTGDVDA
+>tr|B7RGC7|B7RGC7_9RHOB
+MREDLPEIMVGGVVLAAAIGFALYAGQAAGLTGARDTYALQASFRSLEGIDVGTDLRLAG
+VKIGKVTDVTLNPTTYRADTVVSIDDGIEIPDDSALVVSSEGLLGGNYMEIVPGGSPFYF
+SNGDMISDTQGAVSLISLLLKFVSGQGDN
+>tr|B7RJT1|B7RJT1_9RHOB
+MILDDKLGSHADAFYNALMDCHAGLTEAQSHALNARLVLILANEIGDLAQLEKLLATARK
+TGSPEFSGS
+>tr|B7RLU0|B7RLU0_9RHOB
+MQGRTLKIASVLAVAGVGALSESQVSAQSLSTYGTPGLIEMPTAEVLNDGEFGLTASVAG
+PSYRYTSVFQVFPRVYGTFRYSIVSELSAGGPNNGNLYDRSFDLHYQISDESGYRPAFAV
+GMRDFLGTGLYSSEYFVATKSFGSKIEVTGGLGWGRLAGRGSFSNPLGILSDRFDTRDVG
+TTGLGGQLETGKWFRGEASLFAGVKWEVSDQTTLFAEYSPDLYTRESANTGIDISTPLNF
+GLEYRFKNGVNLKGYVVGGNEIGAQLSYVFNPAERRFPGGLEGAPRSVGARNKLAIADWN
+NSAKGGGPDAVQRVIKAHLADEGMALQGFTLGDRQATVRVENNRFDVEAQAAGRAARVMA
+ATLPPQIEKLTVVFQRRGVPISRVVTMRSDLEELQFDYDGAWRTLARTKIEDAHDQGRVG
+ELEEIFPVFDASVGPYLATSFFDPDSPIRADLGAQLYMAYRPAPGLTFSGQLRYPLIGNI
+ADSDRVSDSKIEPVRTNAVRYAEESDLEINTLSAEYIFRPGKDLFGRVSAGYLESNFGGV
+SAEVLWYPVASRLALGGEINYVKQRDFDMLFGFQDYDVVTGHASAYYDFGNGFFGQLDVG
+RYLAGDYGATVSIDREFNNGFKVGGFFTLTDVPFDDFGEGSFDKGLKVEVPLSWFTGRPS
+RRVLSQTIRPIVRDGGARLAVANRLHGAVREYRGKDMRDGWGRYLR
+>tr|B7RMV9|B7RMV9_9RHOB
+MQLCMTWMDRISLFQPLDYVALAGVFVAWFGLTWVIEHANPKRPSVSHLMAQYRREWMAQ
+MITRQPRVFDAQMISTLRQSTAFFASTSVIALGGTLALLGNSERLSTVVADLALTDLPTV
+AWEFKMLLPIIFLTDGFLKFVWSNRLFGYCSVLMAAVPNEVDDPRAPVLAHKAAEINITA
+ARSFNRGLRSLYFALASLGWVIGPIMLGFTVVFTVVIVWRREFTSQSRRILLENGAL
+>tr|B7RN13|B7RN13_9RHOB
+MSGFFTKSLSQADPEIFDAITKELGRQRNEIELIASENIVSAAVMEAQGSVMTNKYAEGY
+PGRRYYGGCDFVDVAENLAIERACKLFDCGFANVQPNSGSQANQGVFTALLQPGDTILGM
+SLDAGGHLTHGAKPNQSGKWFNAIQYGVRKEDNLLDYDQVEALAKEHQPKMIIAGGSAVP
+RQIDFKRMREIADMVGAYLHVDMAHFAGLVAAGEHPSPFPHAHVATTTTHKTLRGPRGGM
+ILTNDEALAKKFNSAIFPGIQGGPLMHVIAAKAVAFGEALQPEFKTYIKQVIANAQALSD
+QLIKGGLDTVTHGTDTHLLLVDLRPKGVKGNETEKALGRAHITCNKNGVPFDPEKPTVTS
+GIRLGSPAATTRGFGEAEFRQIADWIIEVVDGLAANGVDGNTAVEEKVKAEVEALCARFP
+IYPNL
+>tr|B7RM20|B7RM20_9RHOB
+MKNTIGLPHLNAVALFMSDQKKTKKPSRQQVYTLLVEIGRKEGDGLPDKATGAALMCFAS
+GIDEAEAVRETVAILKQADTNPLDVTGYGTLAEREAEGHEIDDEERALMARALDENSVII
+AQMTPFFD
+>tr|B7RMV2|B7RMV2_9RHOB
+MGWGVRKRQQFRAAYSCASTVRVAPKKRSRKRARSPMLNRTSEACVMLR
+>tr|B7RRD2|B7RRD2_9RHOB
+MDDLNSEKTLPPARAIRFDRLTDLFGQVPQCGELLHRSPDDEDGYRSFLELLRASQTPED
+AVTFTAFALQPKAAVQWGLDSVLSVQGELSAEDTEIVNLVEEWLRTQSTDARWKAFERAL
+FAPRKTAIVYLGLAVGWSGGPLAPNDLVTVPAWRTPRAISAGVLRAIGLVGTENRQDSLD
+QVLDKAAGLFRVH
+>tr|B7RM71|B7RM71_9RHOB
+MLHFINAKLIDPEARTVTQGTLRVDGDKIAAILPDGAPIPGDATIVDCSGKYLAPGIVDL
+GVKVCEPGERHKESFRSAGLAAAAGGVTTMVTRPDTEPAIDSPEVLEFVTRRANEASPVH
+VVPMAALTKGRAGREMTEISFLMDAGAIAFTDCDQVITDTKVFSRALTYARSLGALVIAH
+PQEPILSHGAAATSGKFASLRGLPAVSPMAERMGLDRDIALIEMTGARYHADQITTARAL
+PALARAKKNGLDITAGVGIHHLTLNALDVADYRTFFKLKPPLRDEDDRIAVIEAVASGLI
+DIICSMHTPQDEESKRLPFEEAASGAVGLETLLPAALRLVHSEMMDIATLWRALSFNPAK
+RLGLPGGRLTPGAPADLVLFDDGAPFVMNRETLKSKSRNTPFDGMRMQGKVLETFVSGRS
+IYKAP
+>tr|B7RHY0|B7RHY0_9RHOB
+MTPQNPAERMVYKAMIYTWPLYAIGALYLVGPVLAWVLGGLAALALYLGPAMRSDLRVTG
+TVPPLVWCWFIAMFVMLVALWVGHLDWGLGTKQTIKSSVGWAKGWALLALFPLIGAVLPI
+RRAILIRGQCVIGAWTLAVAPLLLAAPYIGLPERIFTSPLKAVGGPGPEYFSVFLFTFDP
+ASWTPRWQFYAPWSPFAALLGVVMVLFALEEKERKWMLAGVGAGLLMILASKSRMGLVGL
+VACTIAPRMMPLLMRGWAWHVTAALTASLAVLGTTMMTLARDAVSTFKGARADSTRVRET
+LQRIASERWQNEAVWFGHGTVQPGSHAVEYMPIGSHHTWFGLLFVKGIVGFAALLVPMVW
+HTCFAMMDAARHPRGRLPMGILMTIVLLSFGENLEIEAYMLWPGLVLLGVHLREVAQSSE
+GG
+>tr|B7RG35|B7RG35_9RHOB
+MMRKLTWDVAVAVLVFWVLMTFFRAGGLSLEAFKSTLPSMLIFAMIYAAIRVALVVLRKG
+KDE
+>tr|B7RLW1|B7RLW1_9RHOB
+MKWTQYEHSLELGAFSYQVSGYCFAARIGRYCSFGETTQIGRQNHPTTWASTSPAFYLGD
+RLFDLGETFDAAEHYHNYKFNFTGPPTKVKITTIGNDVWIGHGAYIAAGVTIGDGAIVGA
+HAVVTRDVPAFAVVAGNPAVIKKMRLPPSLITPMLRSQWWQFAPWQMDHLDPSNPADFCK
+GIYEMIGDISPYTPAKIDLREGVPG
+>tr|B7RNL1|B7RNL1_9RHOB
+MNMSTWAIRSPVPSLALFLVLCLIGLVGFFRLPVTQFPNIDIPIVTVNIAQPGAAPTEIA
+TQIVKPVEGAVSDVTGVKHVTAVASDGSASLTIEFELETDSATALTDIKDAVAGVQGDLP
+DNATEPIIKRLDVTGQAILTYAVSDPTQSIQDLSYFVDEIVARELQVEKGVGKVTRIGGG
+DRAIEVELDPDRLLSLGLTAADVNSQLRQNNIDLGGGSGDLGGQEYSIRALGSADTVAQL
+AATPIITAPGQTVRLDDLGKVFDGATETSSFAMLDGQPVVAFGVFRSTGASDLAAGDNAK
+ERLAELAEEYPNASFALIDDATVYTEGNYHSAMDTLYEGAALAIIVVFLFLRNWRATIIT
+AVALPLSIIPTFMVMQYLGFSLNTVSLLGITLVTGILVDDAIVEIENIVRHIQMGKPAYE
+ASEEAASEIGLTVIAISFTIVAVFAPVSFMSGIAGQYFKQFGLTVAVAVLFSLLVARLIT
+PMMAAYFLRDGIAPEEEEKDGFIMRRYMGVLGWTLRNRTLTLLLGLAIFAGSIFSATLLP
+TEFVPAADRGRSTVSLELPPGSTLDQTRAQGRQVSAILAQIPEITNVFVEGGTSSDTKAN
+LIVNYGQKDERDRSSFVIEEQMKQILQGIPDVKINVLKDNGQRDLQLNVLGDTEAAASAT
+AISLAAQMNALPQIVNASSTASLVRPEVQITPRPQLAAEMGVTSAALASTIRIATLGDTD
+SNVAKFNAGDRQIPILVRIKKDVRDDLSKLAGLRVPSTTGAPVPVSVVADVRLSSGPSTI
+ERYDRQYRTSVEADLAPGAPLGPATEAVMALPLAQSMPEGTAIQSAGDAEVMGEVFTQFA
+LAMGAGILLVYVVLVLLFSSFITPVTILMSLPLAIGGAIFALYLNNSAIGLSVVIGFLML
+MGIVTKNAIMLVEFAMEAMAHGVTKSEAMLQAGHKRARPIIMTTVAMTAGMVPSALAVGA
+GGEFRAPMAIAVIGGLLLSTLLSLLFVPSLFSVMDGLKDRIRWSLVAVFGANKPREVHGD
+G
+>tr|B7RNQ1|B7RNQ1_9RHOB
+MIRYPDFIRKYAYQRPDWRATHFEGRDYSWAQMNRRVHAIAWQLEKLGVKPGDRVAYLGL
+NSHWIVEIYVVPSMIGAISVPINHRLSVEEMVGVIGDATPAILIFDRHFHEQAADLLAQC
+PSLQTLILADWDQPADDLPDGTLHYDTLIAEAPAVADNAFDESASRSDDTMILFYTSGTT
+GQPKGVMLSHSNFLVNATGSGHLYGYRQDDVLLLSGPLFHLGTGSRVFTALAYGTTMVVQ
+PKFEVVDTLRMIEAQKITTMTMVPTMLNMVMNHPRFPEFDFSSIRVLTYGASPMPVTLME
+RAIAAIPGITFCQGYGLTETSPVLSVLEPADHIPGNPMLDKLSTVGRPILYSDLRIVDAD
+DNPVPTGTPGEIVVRGPQVMNGYWNRPQETAHAMRGGFFHTGDAGVMDADGYLTIAGRTK
+EMIISGGENVYPIETENALSKHPAVAQAAVFGVPHAKWGEMVYAAVALHDGKPASEDELI
+AFCRERIAHYKAPRGMTIWQGPLPLSATNKLDKMTIKAQVLASQGSEYTKEAAT
+>tr|B7RRM9|B7RRM9_9RHOB
+MSLRTRLTQPDILIAPGVYDGLTAALAGAAGFEVLYLSGAAVAYTRLGRPDIGLSTASEM
+ADTMALIADRTDLPVIMDADTGFGNALNARRTMQSYERAGAAALQVEDQTYPKKCGHLSD
+KSLISSDEMAGKIAAMADARRHDTLIIARTDAIAVEGFDAAIDRAGRYIEAGADVLFVEA
+PRDSGELSRIADTFKGRVPLLANMVEGGATPISSANTLQDMGFDIVIFPGGIVRALAKTA
+QDYYTSLRNAGSNKPFSDRMHDFDGLNAAIGTPEMLDLGKRFDGKS
+>tr|B7RJV9|B7RJV9_9RHOB
+MTVEGSVFDVRVKGDLAEAVRVNTQYAPRFGPIRQRAAFAMAQVSGCRVVDVLGDQALAT
+GRLSCKGAGAAPYLAKNCTPIPDGGPHARGLPKVGTLCTSAE
+>tr|B7RPD8|B7RPD8_9RHOB
+MGKGASIIGTCAALLSSSGAQAYDDAALYPAAQCAAFWLGFDDYAKRSAFLDSSPAYVKR
+SDAFRAVAVRLAPARVTEIDRTIQDQRSAMALLAEAVIYANDKQSRKVFETLTQTCESFA
+SNHPETRDLK
+>tr|B7RS81|B7RS81_9RHOB
+MAMAFPAIAQDLAPEMSPKPRLNQNRVSITDAGNVVIPPEKKADPKSVIETEDDAEKTGM
+RDQLRETDADYKACLMRLDQMGVVYSEAEPLISEDDADCGILRPLMVSEVGPGVAIQPPA
+MLRCETAQAVATWMKDFVLPASERLSERGAMTSIENGSGYICRRRNNLPDAKLSEHAFGN
+AFDVMGFQFKDGSRIAIEPREAEGSMAEAFQDAVRGSACLDFSTVLGPGSNASHDDHLHL
+DVIARPSGYRLCEQSGVSPN
+>tr|B7RMN9|B7RMN9_9RHOB
+MDNASYTILTRQMGLAREMQMVANNIANAATTGYRSEGVIFSEFVQTVDRGPSLSMGTAN
+VQNTNYMQGALTQTNGTFDFGIEGDGYFLIETPAGERLTRAGSFTPNSAGELVTYDGFRV
+LDAGGGPIFVPQDAGALGVSSDGTFSVNGAPIAQLGIVSPIAPLDMVREDGVMFRADEGV
+EPAVNARVVQGFTEGSNVDAVSQLARMIEVQRAYEMGQSFLESEDERIRTALKSLSQ
+>tr|B7RRS8|B7RRS8_9RHOB
+MGGPSFFRLKHFFKGLSTQRCSNQRLLGIICTPICYFDAAM
+>tr|B7RRW6|B7RRW6_9RHOB
+MTADPDPGPPSQTTPPTTLRRAITLPLLVFYGLGVTIGAGIYVLVGATAVQAGIHAPVSF
+LVAAFVMLFSASSFSELSGRFPQSAGEAAYVEAAFRLPSLTVLTGALLLVAGTISASAIA
+VGCAGYVALLVPLPLWLIITLTVLFSGLVAAWGVVESVKFAAVLTIVEVLGLVVVVIAGI
+WHQPEIILALPSVLPDPSDTPALASIGMASLLAFFAFIGFDGMVNIVEETENPARNMPLG
+IFITLMITTLLYFSVAAIAVLLLPLEDLGRSAAPISLLFESLTGMSPIAITLVAIAATLN
+GVIIQAILSARIIYGMAKVGRLPKGLAQLNARTRTPLLATALVTGCTLVFAVFFPIGILA
+ERTSQVVLVVFILINLSLLRIKWRGDPAPDGIFIVPAIVPVIGLVTCIAMLVGPVLIG
+>tr|B7RHQ9|B7RHQ9_9RHOB
+MLQMPHPIVPHTQETTCVTLAGIGTALPPHKLPQAMAQDYARALLGDRYTHFERLAPAFE
+NAGVDMRHLVQPVAWYEQDHGWAERGAAYMETAPRMFIDAAQAALTDAGCSAAEVDVIVT
+VSSTGIATPTLEAQAFKAMGFRQDVQRVPLFGLGCAGGVTGLSLARRLAALRPDQTVLMV
+AVEACSLSFRTDRLQKADIIATVLFGDGAAAAVLKSGTSQDAGAVTLGDGQEHIWPDTLG
+IMGWDVDENGLGVVFDRSIPNFVHDNFRAALLAMLDRANLPLKDIDRFVCHPGGAKVLGA
+IESTMNLPDGSLDAERDTLRAAGNMSAPTALFVLDRVLKSGQTGQLALCALGPGFTAALL
+PIKVAS
+>tr|B7RMN2|B7RMN2_9RHOB
+MKKAIEKKDLGPLLEALHENRKLWRTLALNVSQSDNGLPEELRARLYYLSEFTNHHTSEV
+IRNKISAIPLVEVNTAILRGLKTEGAMQ
+>tr|B7RGQ9|B7RGQ9_9RHOB
+MPDPVLPGNPPIPLILRRSARAKRISLRISQLDGRVTLTMPKRLKESEGIAFAREKEDWI
+RGHLDARGEDVAIGIGAEFPLGGRMVRVVQGQGRRVQLGNDTIAVPGSEDRVPATLAAHL
+KELARDRLAGACDDYAAALGRPYSRLTLRDTRSRWGSCTSDGGLMFSWRLILTPPEVLDY
+VAAHEVAHLAQMNHSPAFWAEVERIYGPYKDARGWLRQNGSDLHRYRFA
+>tr|B7RQV6|B7RQV6_9RHOB
+MRDAVIVSTARTPIGKAYRGAFNNTTPQELAGHAIAHAVKRAGVDPSEIQDCIIGAALQQ
+GASAGNIARQAAIRAGLPVTVAGMSLDRQCASGMMAIATAAKQVITDGMDVVIGGGVESI
+SMVQTPEMRVKADSWIKEHKPELYMTMLETAETVAERYNVSRERQDEYAARSQELTHLAQ
+QAGKFDDEIVPLTSKMLVQNKETKEISEHEVTLEKDEGNRPGTTAESLAGLKPVHSDGIH
+IKEGKFITAGNASQLSDGASATVIMEAKKAEKMGLQPLGRYVGVMAAGCEPDEMGIGPIY
+AVPPLLKAHGLKIEDIGLWELNEAFAVQVIQSRDVLGIPDELLNVNGGAISIGHPYGMSG
+ARMVGHALIEGKRRGAKYVVCTMCVGGGMGAAGLFEVL
+>tr|B7RJ38|B7RJ38_9RHOB
+MAHVSGPGMDLGIAVVIASTRSRNLSFDIKVKQHQAKEGDLKTIRTPAIEFPDFPVQDAG
+HSDAIPMQSPIIKELAWPKCVKLKT
+>tr|B7RJU9|B7RJU9_9RHOB
+MAILRIDSSANTNDSVTRALTDRIIAKLGDTNVTVRDLALEPLPQITQTWAVARVTPEED
+RAPEQTEALKESDKLVAEMMAADTIVIGAPMYNFSIPAALKAWIDLVARVGVTFRYTEAG
+PEGLVKGKRVIIAMASGGTPAGAPVDFNTPYLKTVLGFMGMDDVTIISADALATDPEATM
+ANAHTAVDALQSSDARKAA
+>tr|B7RKD4|B7RKD4_9RHOB
+MFRHLLILALGLGLAGAVQAQDLQPVLQTHADEIAKPSRGSVSIALDDLIATGAPQVSDF
+LERWQNKGVWQRDDDGIFYFADESGDDLALQDIDSGAQLVVPADGFTQLKPNGGVRRLIG
+TALVQFQLTDPDADRRSTAVDSIARRPDESQLAPLLKSIDGEADKQLKARKIQLANFLSA
+SFAPDASDRIAAINSMSTDTSIEARAVLNQILTVTTSVSATEPEGNVARILTVGGDLSQS
+EAYGRLVDAGLAPPVIAPNDIRDALAANVVDGRAGGMPTAQLNTQAAREKAYAALAQAGT
+VPPLVTMDEQRAATENHIFFERYTEETPAITEAARAALDRIETRVGVAQTVDLTLDALSL
+ASIYFLAAIGLAITFGVMGVINMAHGEFIMMGAYTGYVVQLFVPDYTVSIIVALPLAFAI
+TFAAGVVMERLVIRHLYHRPLETLLATFGISIALQQLAKNIFGTQARPLTSPAWLDGALV
+FSDVIQISYIRIAIFVLALLFLGLILFVLKRTRLGLEVRAVTQNPGMAASMGINPDRINM
+LTFGLGSGIAGIAGVAIGLYAKVTSEMGADYIVQSFMTVVVGGVGNVWGTLAGASLIGFL
+QKGIEWFNPSNTLAAQTYMVLFIILFIQFRPKGIVAQKGRAAAD
+>tr|B7RFU8|B7RFU8_9RHOB
+MLINRWRCALISVLSGELEQGAGGRMRKLLITSLCCVFAGGAPATADVFSTKSRSKLFAS
+QKKLLDTRASKQYASSVRLQPQRVTTPTKWDVPRYNGKYRGEYHSMARDAARRHGIPEDL
+FLRLVQQESGWNPGAKSHKGAMGLAQLMPDTARVLRVDPKDPYQNLDGGARYLKMQFRDF
+GTWNLALAAYNAGPGAVKKYGGIPPFKETKNYVKVIAGL
+>tr|B7RNM9|B7RNM9_9RHOB
+MATAAAVVSAKTASNRSAEESAMLAGLGQAIDWVAAMRARVVELAADADLDFRADENWPD
+LPDGARDVVAMF
+>tr|B7RFT2|B7RFT2_9RHOB
+MTDTLPSADIQMIQRIIPHRYPFLLVDKVVDINGTQTAVGIKNVTMNEPHFQGHFPGMPI
+MPGVTIIEAMAQTSAVMVGVTLEMADKDMKVYFMAIDKCKFRRKVVPGDVLRMEVTTLRG
+KPGGKVWKFGGVASVDGEMAAEVEFTAMMDLS
+>tr|B7RSC6|B7RSC6_9RHOB
+MDHFSDPAAVERYTTATPQRVPGYADLHRMALVLLSEKAPKKVLSQTFRSLPSNDARR
+>tr|B7RFZ9|B7RFZ9_9RHOB
+MRFFPVLAALYALSAPLAAQELTALARVDPGPSMISDGWFGGTTLKLQLSQGVPFRVFLL
+DDPARLVVDFREADWRGVKTSDILAKPGKITDLRFGPFQPGWSRLVADLAEPMLPREIGM
+PVDSGSGKATLEIALHSVTPTVFAAAAGTPVDPSWTMALAAVPKPATSGKADPFRVVLDP
+GHGGIDPGAEQGGVTEKDLMLSFARALRDTLVRDGVDVVMTRDSDTFVALETRVAIAHQA
+KGDLFISLHADILQQGGAKGATVYTLSDAASDTATEHLAARHNRSDIIAGADLTGSDDQV
+AGILLDLARQETEPRSTAAAKALVAGMKAAGGPMNRHPLRNAGFSVLKSADIPSVLIEIG
+FLSSERDLNNLRDPIWRAVMVSAIADAIMTWRDQDAALKPLIRK
+>tr|B7RK77|B7RK77_9RHOB
+MTTSKNDLELVGVTKRYGATVAVDAIAHKFKPGSYACLLGPSGCGKSSTLRMIAGHESVT
+DGAILLGGRDISHLAPAQRGTAMMFQNYALFPHLSVIDNVGFSLKMQGVDTAKRRAKAGE
+MLELVDLTALGDRLPDQLSGGQQQRVALARALITRPDVLLLDEPLSALDPFLRIRMRAEL
+KKLQKELGISFIHVTHGQDEALALADEIVVMNNAVIEQAGPAQEVFNAPKTQFVARFMGG
+HNVIALSGGHYAIRADAVDVTPSTQGVVEGHVTAVEYQGTHVSVLSRIAGDQEITALIPD
+GAFFANPHSPGDTIGLSWDTSKLHQLTA
+>tr|B7RMI9|B7RMI9_9RHOB
+MKILAVDDDPIILELLSHFVESMTDHQLVTASGADKAIKVMQDHARRPFDCFLLDIQMPG
+TDGVTLATRIRAMDSYFDAPILMLTAMSEKHYIDAAFAAGATDYITKPFEVRELQARIGL
+VERVVDANRSKTGKVFATKAIKPEPGKATPPIQLHEPVSIYDVDNVIEFMAMENYIKQLT
+RNDLFGSTVFAVTIRAIHDFHSAMTSFEFYSMLSDVSEVISDTLEGCQYLMTYAGNGTFV
+CITESGWSPEPRSLENSINIALSRIELFDNQGNLIEPRVCAGQAERLIWKTDASSVMEAV
+SAAHLSAETAAQENARIQRDFWKVGQPA
+>tr|B7RLV2|B7RLV2_9RHOB
+MTDGLKIETTGGITTIALNDPKTLNALTPQLAKSLAATLMEVEKTSRVIILTGSDRAFCS
+GANLQGQTDSQPGDIDAGSSLDLAYNPLMLTIRNLEVPLITAISGPAAGIGASIAMAGDI
+IIAGKSSYFLEAFCHIGLVPDGGATWMLVRNVGRVRAAELALLGEKLSAQQAHEWGMVTR
+VVEDDAVMPTAQQFAERLANGPTHALGLMRKLLWIAGDTSFDDQLSEERDAQASAGKHPH
+FAEGVAAFLEKRKSKFE
+>tr|B7RL13|B7RL13_9RHOB
+MKPGRVVVILNKGSGRKDGQDRKSKITDRFDFHGIAVEFVEFEPGNDLEKIASDAASAAP
+DATIIASGGDGTICGVAAGLMHSDNQMGIIPAGTFNYFARSLNLPETVEEAVDIIAAGEI
+RQTNISVINDKVFLNNASIGAYPAILQTREGIYERWGRSRFAAYWSVVKALATLRAPLKL
+TVNVNGKSFKHRTPLVFAISNAFQLNQMGLSGEECIAEGGMVLLVAPDTNRWGLLKHAAS
+LALGVAKKETDYEMHCGTEIDIEMARRSRPVARDGELAKMKGPFKLRMRREALNLVVPAD
+LENSVR
+>tr|B7RLV5|B7RLV5_9RHOB
+MTASYGRSPGGYLWALAEPVLGIALLSAIFSVGFRSPLLGTNFPMFYATGLLPFLMFSDL
+SSKTAQAINYSKQLLAYPRVTFVDAILSRFFLNFLTQLLVGAIVLVGIILIFDTRTTFEA
+GKILSALAMAGALGLGIGTFNCFLMSMFPIWQRVYSILTRPLLLVSAVIFTLESIPEPYR
+SWLWYNPLVHIVGLLRAGFYHSYDAAYAMPIYVYSIAAGSGLLGLLFLRRYHRDILEL
+>tr|B7RQK3|B7RQK3_9RHOB
+MFWDLPDDPRAALRWALSKLRPVVDRPDWIQIIADRERVELDTANLDVNL
+>tr|B7RQP0|B7RQP0_9RHOB
+MQSTVLMKFPPMKHSSPAQQVPLLGWEDNAMLQFSQVVQKLLGLPGVRIEDRLAAVTAAA
+CKLFDMEYGFITLVRKETIDVIVATQPDMMRDPIRKDDLETALSQSVISEKIPLLLADTR
+RSAQRGLTDLTGRCPSRFLGVPLLFDGTVYGTMELSGAAQSRPFEPIDLAAAYFLSAIIA
+TPLALLGNY
+>tr|B7RRR8|B7RRR8_9RHOB
+MALEKLNDQQINFLNNFVMKIRSAEVGEIAGEAAWLKLQAALEPDVTAALKADHAEATKI
+RGAWGMALDKAEAGDFAGATTIAKRIEALLGKEAAPSDIPTNVVAFQKSRIMWISAKRDM
+QNGLSSFRKAVADQASDDEDLKDIVKAADTLVAEFDAFDTHLEDQLDQITQTPEGPERTK
+LKSAAKAALSDYMATLNNPFFSVIDNNPFVSVNVAARGRQSLSVISAALL
+>tr|B7RFN2|B7RFN2_9RHOB
+MLHPDIKSNNDRRIAEPALAEAVALAEALPQLEVTGADVVPLRTVSAGMLFGSGKIEELK
+QKFEAAEVELVLVDGAVTPVQQRNLEKAWGVKLLDRTGLILEIFSDRAATREGVLQVEMA
+ALNYQRTRLVRAWTHLERQRGGLGFVGGPGETQIESDRRAIDEQLVRLRRQLDKVVKTRA
+LHRAARAKVPYPIVALVGYTNAGKSTLFNRLTGADVMAKDMLFATLDPTMRSLVLPDGPE
+IILSDTVGFISDLPTELVAAFRATLEEVLAADIICHVRDISHAETEEQAQNVRDILASLG
+VPKETRSFEVWNKLDLLAPDRADAVRARAERDPNVLAISAITGEGLEQMQSVIAEALQGV
+VREADLVLGYDQGKKRAWLFEQEVVLNEEQTEDGFVLTVRWSAQQEAQFQRL
+>tr|B7RS01|B7RS01_9RHOB
+MKLTAAILALALASPLAAQDGEPQSGGTLNVVIQPEPPSLMLGLVQNGPTQMVGGDIYES
+LLRYDFDLKPEGQLAESWEISEDGKTYTFKLREGVVFHDGTPFTSADVAFSMDKFLRETH
+SRMRTYLEHVESIETPDEFTVVFNLKQPFGPFIGIFEAGTAPMIPKHIYEGTDFATNEAN
+NTPIGTGPFKFDKWEKGSFIHLVKNEDYYMEGKPYVDEVYYHVIPDAASRAVAYETGKVD
+VLPGGSVENFDVSRIQAMENTCITDKGWEYFGPLSWMWVNNDNKPLDDVNVRRAIMHGID
+REFAKDALWNGLGKISTGPLSSSTRFWDGDTPDISYDPEKAKALLEDSSYSGETIRILGL
+PYGETWQRWAEAVKQNLTEIGMTTEIVPSDVAGWNQKVSDRDFDLAFTYLYQYGDPALGV
+SRSYKGDNAAPGSPWNNVANYQNPETDKMFDEAALMANPEDRKAAYKKIQDQIVSDVPNI
+WLLELGFPTIYRCDIKNPVNTAFGVNDGFRDVWIDKK
+>tr|B7RG81|B7RG81_9RHOB
+MLGTTAAQAPLLSDGLAALMAAYPDSSERDM
+>tr|B7RGK7|B7RGK7_9RHOB
+MKTNRRMTLAALAALGVLGFGQTAVAQEKTDFKVAWSIYVGWMPWGHAADAGIVDKWADK
+YGISIEVTQFNDYVESINQYTAGGYDAVTLTNMDGLSIPAAGGVDTTAVIVGDFSDGNDA
+VFIKDGNALADIAGRDVNLVEFSVSHYLLSRALDSVGMSEQDVKVINTADPDMVGAFQTD
+DVTAMVTWNPMVSEIETLPGAVKVFDSAQIEGEIIDLMVANTDVLSDNPKFGQALAGIWY
+ETMTLMTSDTPEGAAARAAMGAASGTDQAGFEAQMAATKLFADPAEAVAFTASSDLAGTM
+NLVRAFLFDKGLLTPGATSEDAIGIELPDGTILGDTANVKFRFDTTFMQMAADGAL
+>tr|B7RHM7|B7RHM7_9RHOB
+MCRQVEEENPNFDNDKYLNRMITKRLKLPDKLTYPVQIVTVHFAAGQKVATGDALYTLKD
+SKGKSGVMRAPFAGTIIEGPVPEGVHFATAQPVLGLVAGNEHPIQSNMNGKAEDAAAEQK
+TTASRAKAETKSQSSPTRQTKSDPEVEASSDFACFAKKPQQEKDPAARCDASPVASQEKL
+GLAVGGLILLVSLIVIALVAVTIRLHSSRIALLA
+>tr|B7RS59|B7RS59_9RHOB
+MLCLSARVPAHLLVLAALIMGLLLGAQGALAQPYKIKPGDVLRIEVLEDPALNRSVLVTP
+DGRISVPIAGTVRASGKAVESVQSNLTDRLASGFANPPNVFVSVERLATPKPYVPRQPQT
+PQTISVFVVGEAAKPGMLTVPPRTTVLQAFAMMGGFTKFAAQKRIQLRRTDKQSGLETTR
+ALNYPSIEAGAAQGRTLLMDGDVILVPQRRLFE
+>tr|B7RGK4|B7RGK4_9RHOB
+MHVHRTPEQINADRQRYLEHQRMGLDHSPGSMPVASPRPAPEIDVASVLSSRTVPGGWYT
+TLAVTEGDIIRLAPQGAGSSVSLAAWSAADPTERMNLPDTIKLQWTTDLAKGRVIFSDMG
+RVMLSIVEDSSGAHDALTGGSTPATVEKYNDPRMRNTHDNMVLAAAKLGLDRRDIPPMFT
+LFAPVRVQSDGRFEWRGSMVSQGDWIELRAEIDLLVALSNCPHPLDPRAGSVPDAVEITK
+ISGTPVADDDMCRTSTAEAQRGFENNAKAKG
+>tr|B7RNS4|B7RNS4_9RHOB
+MAFGKPVIVAGEKGFARPFCPQSVVTFETTGFYGIGRGDGETYHLENMIRGLARDSLLRG
+AIGAFGQDYVTKNHALEKLSGDLADYCEEAATAPPGLRVADVTRSSFYYLRDRRFKTASR
+DRNDDPAGHGVSGETRSTAAPSAPETKEFS
+>tr|B7RG82|B7RG82_9RHOB
+MAVQAGKDLLVKVDMTSDGQFETIAGLRATRISFNAEPVEVTSLDSDGGWRELLAGAGVR
+SAAISGSGVFRDAGTDERARQLFFDGLTPDFQIVIPSFGIIEGPFQVSSIEYGGSLNGEA
+TYELSLQSAGQLIFTPDVTVDPTAGI
+>tr|B7RIN8|B7RIN8_9RHOB
+MKKFAILAALVATPAFADQPVTINFAAEIGGQPFACDATYAGLGSTGAAVRGADFRLYVS
+DVAMVAADGSRASVTLDASDWQHAGVALLDFEDGRAACANGTAPMNTALQGTVAAGDYIG
+VAFKVGVPFEMNHGDPTTAPSPLNLTSMFWNWRGGYKFIRIDMVPTDRSKDGPKGWFLHL
+GSTMCASEGKTDAPEAPCKNPNLMEITLDGFAPATQTVVIDPSDVVAGADLRVNAADTSP
+GCMSFSGDADCMTVMAKLGFSYGDLPATDQALIRGR
+>tr|B7RNV0|B7RNV0_9RHOB
+MSDIVVFSAKKIITMDLNRMEATHVAVRNGEVLAVGDATCADQWGAVTHDDSLKDAVLMP
+GFIEGHAHMMAGAMWEYAYAGFHDRIDPDGKMWPGLTDIDAVIGGLSEYAKTLEDDAPLV
+GWGFDPIFLTSERLSKTHLDQISTTRPIAIMFSNFHLMCVNSAALDLAGFDQTTNAEGVI
+KGADGLPTGELQEMAAMFPVMRRLGIDFRGLSQKEASIRAYADVSRRAGVTTVTDLYSQM
+EEDDVTTMLRVTGADDFPLRVVPALGAIDGPKAIGDKAQALAKRSTDKLRLGAVKLMTDG
+SIQGWTARVKSPGYVGGQPNGIWNTPPETIFALVEELHGRGIQMHIHVNGDEAAEVSLNA
+IEAALRKHPWTGHRHVLQHCQMMGRDLFTRAADMGVCCNIFANHIYYFGDQHAALTIGTD
+RAERMDGSRSAIDAGVNVAIHSDAPVTPMAPLFTAWCAVNRQTMSGRTLGTAQCIDVEEA
+LFAITMGAAYTLKLDGEIGSIEAGKRADFAVLGDDPMAVEPMALRDVPVLGTVFGGRVHL
+L
+>tr|B7RKZ9|B7RKZ9_9RHOB
+MLLPVFLTGCFLLAVANPFLNRGPMFYVQKRMGRDCKPFMAIKFRTMTCVAEVTRGADDP
+LEVNRITPLGGFLRKSRLDEIPQILNVLRGEMSLIGPRPDCYEHAETYIETVPGYRERHA
+ALPGISGLAQTEVGYVQGIDATRLKVAADLDYISRQSFRLDTWILWRTLKIVAGRGGA
+>tr|B7RRT0|B7RRT0_9RHOB
+MSDWQNRALERMYQIVFLDALRVKIRDVESRQVKNKAFHVALGVTPKGEREVLCLWIANN
+EGAKF
+>tr|B7RLB4|B7RLB4_9RHOB
+MDIASHDRLALGVCFSEERDLLSQWRGYAADGTGFSITFSKKALEAVAKDHLASKLQLTK
+IAYGPQDTDEIGAIVDLLNNAFGEDARLYNESNGTGSMALDYGTNGEKQANYEKAARFLF
+TAKNGAFREEKEWRLFTYGNLFSIDGVKLRGTGKAISPYIPITIPAEAVLQVTLGPTNQT
+PQHVLKFALKHNGLSEVNIGASNASYQAR
+>tr|B7RMS8|B7RMS8_9RHOB
+MLGTAAMAETAWDMSVVWPEGNFHTQNAMTFAEAVSAATDGEVKITVHSGGALGIKGPEG
+MAAVRDGLVPIADILMSQQVGENPALGVETLPFLAPTLPDLALLHKFYRPMIEDIAEDMN
+QKLLYMVPWPGQAVYSPNKIETLDDLQGLTIRVVDANGDSFFNALGAAPLQMPWGEVVPS
+LAAGTIKGVTTSSSSGVDGAFWEFMDNMSSFNWQASSNIVTVNLDAWNALHPEDQAAIET
+TAAGLEGSFWMNSAQEDEAKIATLEENGMTVSAPSPELKAGLIDAARPLWDAFKERVPEA
+APVIDNYLAVRGE
+>tr|B7RM67|B7RM67_9RHOB
+MSFLRPEAKAELWRWREVLVGVTAALFGLWLIIGPGLLLALPGAALVATGAAFTWVGVQR
+VRFRKSGMGAGAVQVDEGQIAYFGPLTGGVVSLREMERLSLERGGYPAHWKLEQPGQDAV
+RIPVDAAGSEALFDAFASLPGLRTERMLAELADDRTLSVVIWERQTLRPRSALLH
+>tr|B7RG58|B7RG58_9RHOB
+MGPASRRMIQNLIPQQLDVAEISGKWGEMFDFKSYTQFRYPEYDICAGPFMDKPQDRPRK
+FDLILANQVWEHLDRPYAATKNVRRMLKKGGHFWVAVPFFVPFHAAPLDNSRWSARGLKN
+LLIECGFEEDQIKASQWGNRNAALRNLEEKWPPEYDAATDDTSNDPDMPICAWALAKKT
+>tr|B7RJD2|B7RJD2_9RHOB
+MLRYLYGDELASHPRLAHSMFRDRAEQFKMRLNWDVTVDANGFERDAYDDLNPLYVIWER
+PDGTHGGSMRFLPTTGRVMVNEHFADLLTGPIKSPLIWECTRFCLAKGAPAHVAAALMLG
+GGEIMQGFGVSHFAGVFDARMVRIYRMTGSSPEILGSSGEGAAKISVGLWEFDEAAQQQV
+ARRAGVSLVQSRYWFEQRFGAERSLDVAICG
+>tr|B7RLS1|B7RLS1_9RHOB
+MTRERRNCQNMTLHIHPSHPQNPNPQHDRAPEQVAFHRTELSVILSLYGRMVAAGEWRDY
+GISCLREVAVFSVFRRTAEMPLYRIEKRPKMRLKQGMYSVVGVNGQVLRRGQDLRAVLRV
+LERKLIRAVDD
+>tr|B7RGC3|B7RGC3_9RHOB
+MTKNTHDADVAFIRALAELLNENDLTELQVKRDYAEDDSLNVRVSRKPPQQIVAPQQMQA
+APAPMASPAPAAMAAPEISENSDPASDPGAVISPMVGTIYMQAEPGAPSFISVGTRVAEG
+DTLLIVEAMKTMNHIPAPRAGTVKRILVDDGAAVEFGAPLVILE
+>tr|B7RJA6|B7RJA6_9RHOB
+MMRTFGKWLGRILLALILAAVVVGLWKRDEITRLMAVNSLFSPEKIVFNFSHMDQAFLST
+PVPRGDGPTAELGYGDEFTLPPQVNDWITARDVTALVVLKDGQIVYEDYYKGTNPDDRRI
+SWSVAKSYLSGLVGILLDEGQIGSLDDQVTQYAPSLIGTAYDGATIRNVLNMASGVTFDE
+DYLDKDSDINRMGRVIALGGTLDDFTAELTDRFAAPGQQWQYVSIDTHVIGMVVRGATGR
+SVPDLLSEKVIVPMGLEYEPYYLTDGAGVGFVLGGLNLTTRDYARMGQMFMQDGAYNGRQ
+IIPAAWVAASTAASAPTAAGAIGYGYQWWIPKGAAAGEFMARGVYGQYIYINRAAGVVIA
+TNAADRNFRQSGVSEQNVDIFRQISTALEDI
+>tr|B7RMN7|B7RMN7_9RHOB
+MKDMALDFADTLARGDHIAKESMIGDADPHALVQALAQTELVVETAVAVRNKVVEAYQEI
+LRMPV
+>tr|B7RQH7|B7RQH7_9RHOB
+MTKVSEIIVDTLLEAGAKRCWGIVGDTINHFTDAVRKSDLEWVHVRHEEVGGLAAGGEAY
+FTGELAVCAGTCGPGTLHFVNGMFESHRNGAPVLLIASDVARVETGLGFPQELDQRKIYE
+QYSVFCEYISHPDQARRIVVQAAQAALTKGGVAVVIVNGDMFEEDTKDDLSWSVHRPKSN
+LRPVDEELDALAERLNAAQKVTLYAGIGAREAKRQLVALAEKLAAPIAHTSRSKEFIEPD
+NSYNIGMIGILGNKAGVEAVDAADIMLCLGTDFAYTQFYPGQDKVIQIDHDPTHIGRRAP
+VGMGLVGDVGPTIDALLDRLDQKTDTSHLDAARKQWKEDLKGYVGEAEESDPTLIHPQFV
+THTLDRLAAQDAIFTADGGSPMVWLLRHLTANGERRFLTSLLHGTMANAYPQAMGAAAAY
+PGRQVISMSGDGGMTMLMGDLLTLKQEKLPVKILIYNNGSLGFVEMEQRVEGLLDSYTDL
+ENPDFAKLAEVCGLKGWRVENANELEGAMTDWLAADGPAILDVCTSEMELVMPPKIKAGQ
+VASTALFGIKAVLNGRTREVVSLLRDNFLR
+>tr|B7RQ10|B7RQ10_9RHOB
+MSVGRIITNDADVAEGAAWLADTDPRFASALQATGPLPLRLRADGFDALIGAIISQQVSV
+ASANAMRARMDAAGLTHEAAILAAGEEGLRAAGLSRQKIRYALALADAGIDYTALRDAPD
+VQVIKTLTAIPGVGTWTAQIYAMFSLGRADVFAEGDLALQEAAKVLFDLPERPKPKQLAL
+MAEDWSPWRSVAARALFSYYRVVKQREGIT
+>tr|B7RRB6|B7RRB6_9RHOB
+MSERFSNLKKIPEQPAARLLAAANAKLTAELSTPASASVPVVLAELEKMGEHVDMIRLLS
+VSLPPRECVWWACIAGRELVGPDGKSPCLTTAEAWVFEPTDDIRMRLQTVLETESSGDKA
+APCATAAFYAPGNMGPGEMKDHPAPIGVVAACAFGINLKTLKLGPDPETRFNLIIDRALD
+IARGGNGKVELRSTAPEKGDA
+>tr|B7RHS1|B7RHS1_9RHOB
+MSIVHVIAVITTKPGQRAAVLDLFNANVPAVLAEDGCIAYEGTIDTENAGPMQSAFGPDT
+FVVVEKWSSMEALGAHARSPHMKAYGASTKDMLADRAIHILSPA
+>tr|B7RN51|B7RN51_9RHOB
+MKRFAEQIGLRALRKIDPEMAHGLALSALQMGLAVSPGPVTSPRLKTTLAGLDLPNPVGL
+AAGFDKNAMAIAPLSNAGFGFIEVGAATPLPQPGNDKPRLFRLTEDRAAINRFGFNNDGM
+EAICARLSKRGKGVPVGLNLGANKTSTDRAADFAKVMEAARDHVDFATVNVSSPNTEKLR
+DLQGKAALAGLLAGVMAVRGATPVFLKIAPDLTEAEIADVADVANEAGVAAIIATNTTLD
+RTGLHSVNRDQMGGLSGAPLFEKSTRVLARLSTFTDIPLVGVGGISTAEDAYAKICAGAS
+AVQLYTALVYGGLSIVADIAHGLDALLARDGFTSVTDAVGSKKGDWL
+>tr|B7RMM2|B7RMM2_9RHOB
+MKYGILSGVAATALIATSAFGEEVRVYNWSDYIDESLLQKFEDETGIDLIYDVFDSNEVL
+ETKMLAGGSGYDVVVPSGTFLQRQISAGAFQKLDKSKLPNLANMWDVIDTRVAKYDPGNE
+YAINYMWGTTGLGVNINKVKEVLGEDAPVDSLALVMDPANMEKLASCGVQFLDAPVEMIP
+AALKYIGENPDAQDVETIEKAEPVLTAIAPYVQKYHSSEYINALANGEICVAFGWSGDIL
+QARDRAAEADNGVEIEYYAPKEGALMWFDNMAIPVDAPNPDGAHKFLNFIMDAQNMAAAS
+NYVYYANGNKASQEFLVEDVIGDSAIYPDEATLENLYTTSPYSPKVQRVVTRLWTKVKSG
+T
+>tr|B7RHP4|B7RHP4_9RHOB
+MPDMKRFAALAICLSLAAPLTAQQTQDLTPSGDPAPMRAVKLLRAGGDTAQLERMFFGQV
+VARETVDLSFEVGGRLTMFDAQEGQSIDRGVQIAGLEKAAFERAVERAELELAQAERALS
+RAQTLAQSNAVSETQAENALTARDLAAVSLREARDALADTVLVAPFKALVASRLTPNFSN
+VTPGQAIVRLHDMSEVRVEIDVPERLFQSRGSADGIRFFGISPLFKGEVPLQLREFNAET
+QSIGQSYRVTFALPQSDVPAAIIPGASMTVVARSSGLAASEIVLPPSAVKMTGEAAQVLV
+YSPVEDGAGDNETGTVSWMPVTVSSSNGTQIAVNGIDPETMIVAAGIQLLHEGDIVRPFI
+GLSAE
+>tr|B7RIQ1|B7RIQ1_9RHOB
+MERTIELDRDVQHMPHHDYSAVESAGEATADAWVATEASAFAFLRAHAGATAVPLLVETV
+KNLVSLLDIETGDHPTLSETMEAAIARRASATRGTDLRNMLNRALPLLFGIASMQAAFFE
+RDHAQHAA
+>tr|B7RKW6|B7RKW6_9RHOB
+MSDLSRPSGPKIIAVANQKGGVGKTTTTINLAAALVEMDHRVLVVDLDPQGNASTGLGIE
+LEDREFTTYELLLEDVALDQVILTTQTEGLHIVPATVDLSSADLELISNEKRSFLLHDAL
+RQTQMDGYAFDYILIDCPPSLNLLTVNAMIAAHSVLVPLQSEFFALEGLSQLMLTIREVR
+QSGNKDLRIEGIVLTMYDQRNNLSQQVEQDARSNLGELVYKTVIPRNVRVSEAPSFAMPV
+LSYDTGSKGAKAYRELAKEILVNSVI
+>tr|B7RQR6|B7RQR6_9RHOB
+MFKTGILALVLGFSGLQAAAQDIKFEQRISGLDTPWALAVLPDGAVLVTEIDGQLLRFAD
+GAANMVSGTPQVVQNGQGGLLDITPARDFATSRTLFFSYAKALSGGSGTALAAAELSADG
+QRLENLRDLFVMSQGSGVGRHFGSRVVEGTDGTLFLTIGDRGDDVTAQDLSLHNGSVIRV
+NRDGTVPADNPFVGQTGALPEIWSYGHRNPQGAGLDLEGNLWVSEHGARGGDEVNQIKKG
+ANFGWPVISYGRHYSGRKIGEGTSKPGMEQPATYWDPSIAPSGLLVHSGTTFPEWQGDMF
+VGSLKFDYISRLEGSPLREVEQIKTKETLRVRDIVEAPDGAIWFISVGNGSVYRMTPD
+>tr|B7RN35|B7RN35_9RHOB
+MTEAYIYDALRTPRGKGRKDGALHELTSLRLSALTLNALKERNNLEGHAVEDVIWGNVTQ
+VMEQGGCLARSAVLASDLDERIPGLAINRFCASGMEAVNLAANQIKGGAGMAYIAGGVEM
+MGRVPMGSDGAAIAVDPTLAMEKYFVPQGISADIIATEYGFTREEADQLAVKSQQRANMA
+WDEGRFAKSVIDIKDQNGLSILSHDEYMRPQTDMQSLGALNPAFQQMGEVMPGFDKVALM
+KYPHLEKINHIHHAGNSSGIVDGAAAVLIGNKEFGEKYGLKPRARIRATAKIGTDPTIML
+TGPVPVTEKILAENGMKIGDIDLFEVNEAFAAVVMRFMQAFDVDDSKVNVNGGSIAMGHP
+LGATGAMIIGTLLDELERSDKEVGMATLCIASGMGAATIIERV
+>tr|B7RFN0|B7RFN0_9RHOB
+MNRVILFNKPFGVLSQFTDKGTEGSPRPTLSGFIDEKGFYPAGRLDRDSEGLIVLTDNGA
+LQARISHPKYKLAKTYWVQVEGTPDDAAINALRQGVTLKDGKTAPAKVSLIDTPAGLWDR
+DPPVRFRKSVPDAWLSITITEGRNRQVRRMTAHVGLPTLRLIRAQIGDWQLNAMRPGTWR
+FSSETGR
+>tr|B7RHB4|B7RHB4_9RHOB
+MALQIDISRFKNLAIETHEDGVWVVTLNRPAKRNALDIDTIEELVDFFSAAPRAGVRAVV
+LAGAGDHFCAGLDLIEHHDEDRSPADFMHVCLRWHEAFNKMEYGGVPVIAALQGAVVGGG
+LELASSAHIRVMDQTAYFALPEGQRGLFTGGGATIRVTDLVGKSRMIDMMLTGRVYQGQE
+AVDLGLAQYIVEGSSFDAALEIARKTAQNLPLSNFAICSAVSHMQNMSAMDAAYAEAVVA
+GVVNTQPDARARLAAFADKSGARVRPNS
+>tr|B7RKG3|B7RKG3_9RHOB
+MSFDLDKLERLVRIRNQVPPLFATLFPEDMEAIPSQMNTFVFALEEVLDEGAALGVVKEL
+GELHGLARFGVVMKTWLDHLADVGQIKKAVRNGQITYWSHDIS
+>tr|B7RS52|B7RS52_9RHOB
+MSRLKGDRFPREAVAYAICAYHRVSLDTVDVKDLLAERGATVSRESLPRVSMFTRHAS
+>tr|B7RGA7|B7RGA7_9RHOB
+MENTSTSLFEILIWAGAAISLIGLVGLVWCIVRVTRAKRAKLGEDEMRAVLQQVLPLNLG
+ALFLSVIGLMMVVVGILLG
+>tr|B7RNM3|B7RNM3_9RHOB
+MRRDYGSRLFDLIDAPYSSATKLAIIAATVEALMTWEPRIDVDTVTLRTFEPGKIIIDLS
+GRYLPDGREVTIAGIEVG
+>tr|B7RHM5|B7RHM5_9RHOB
+MGKMLIPSSDEIRQTLDQSGQHKALTAFDTAMAAGDKIQAIQIAREAGVIPRNSGTDTRG
+DRTNV
+>tr|B7RLS0|B7RLS0_9RHOB
+MNGTGQIAVSLTDICRSPGGARDRQTLYGDKLTILAEDDGWSYVQLTKCGYCGYVQTLAV
+CAITQASHRVSAPATHAYEAPDFKSRDQISLSHGSLVTLSSTENRFAGTDAGYIPLQHLA
+PIEDRATDPAVIAQLYLGTPYLWGGNSRWGIDCSGLIQSAFLACGVTCPGDSDQQQSRLG
+QDLPQGADYKRNDLLFWKGHVALVLEPAILIHANAHHMAVTLEPIRDAIQRIAETDGPVT
+AHKRLSPSKWT
+>tr|B7RMF9|B7RMF9_9RHOB
+MTSTIVFDPLIPLVLLAVVALVALAAVVLAVIRGLQGWALRGLAMLVVIAALSGPSFQQE
+DRAPLTDIVILLEDASASQKLADRATQSSEAADALAARIEARANTELRRVTVPDGVGDAG
+TQLMTALGDALAEEPRARIAGILAVSDGRIHDADLPVDLPAPMHLLMTGKETDWDRRLSV
+RNAPAFAIIGEPVTLTLRIDDLGTAPADGGLAQLDISVDGEEPQSFRVPVGQDLDLPVTL
+PHGGRNVIRFSLPEAPGELTDRNNAALIQMNGVRDRLRVLLVSGEPHQGGRTWRNLLKSD
+SSVDLVHFTILRPPEKQDGVPVDELSLIAFPTRELFMEKIDDFDLIIFDRYKRRGILPSL
+YLENVANYVRQGGAVLVAAGADFASADSIFRSPLGAVLPATPSARVIEEPFLPVVSDLGQ
+RHPVTTDLPGRGDWGRWLRQIDVTDPIGNVVMTGQDDRPLLVLNRVDEGRVALLASDHAW
+LWNRGYEGGGPQLELLRRLAHWMMKEPELEEEDLTATAEGQTMRIIRRTLGDDVPPVTIT
+GPDGSTVTLPLTQSAPGVFEGLYEGPEIGLYRLENGDEVTVIGLGPAAPKEFVETIASDV
+TMAPILAALRGGVARIEDGLPRIREVRLGRPAAGRGWIGLTPRNAYETRDVRQTPILPGW
+LVLLLSAALIVAAWLREGRRS
+>tr|B7RMV6|B7RMV6_9RHOB
+MNASDETATSDALLASILKQLDEDKAEDIVQIDLRGKTAIGDYMVVCTGRSTRQVSSIAE
+KLAQMVKDDYGRTPKVEGKDTGDWVLIDTGDVIVHVFRPEVREFYQLEKMWMTTEAPAVM
+PH
+>tr|B7RQL5|B7RQL5_9RHOB
+MKFGTFSNALKSGAIWGFILIELIFFSVAGEFLSLSDKAFMDWENMLLLLKQSAPIGIIA
+MGMTIVMVNGNIDLSVGATFAIAAIVLLDSLTWPIFAGLGDWVIPVAWLLALTAGTVLGA
+LNGFIVWKTGVDAFIVTLGSMLGYRGIVFMFNGEQPTSHLNWTLVDFAEAEFLGLATASW
+FLLACTFVLWFLMAKTVHGRNAYAIGDNREAAVNAGIRVGPHIMINFAIIGFLAALSAVV
+FYSESGSVNPNDGQLYELWVITAVVLGGTKITGGAGSVIGTLGGVIAIQLLRKGLGHIGA
+DTSTVNLVIGLILIAVLILDRQLNVKGKEELKI
+>tr|B7RH14|B7RH14_9RHOB
+MTIDKTQIRNASTVIVIRDRFESPRILMGQRGSKAVFMPNKFVFPGGAVDKDDADIALAS
+PLPEMCRDRLAEDADPTLAHALAVAGIRELWEETGLILGQKGDWQGTPHDDWASFAERGY
+VPDASALQFVFRALTPPGRPRRFDARFFLVDADHIATDLDDFDAACDELSHLQWVALSDA
+RSFDMPFITEVVLAEVEARAKDLAPPASVPFFKNNDEESLFLRLRGRPMTD
+>tr|B7RLI3|B7RLI3_9RHOB
+MTPEEIARIKTSFAAQSMMVTFGATLADIGKSSIRIEAPILPGALQQQGFGHAGLTFAIG
+DSAAGYAALTTLPLDMEVVTAEIKINLLAPARGEKLIAIGKVIKPGKRLCVVTAEVFAHS
+KGQDTLIAILQGTMVPVPA
+>tr|B7RQ43|B7RQ43_9RHOB
+MISISAAPGFKPCPAPFNMAAHVLAQAATLGDKTALSVLGPQGSEDWSFAALEAAVRGTA
+TGLLALGLALGDIVLMRLGNTVDFPLAYLGALAAGLVPVPTAAALTQGEVAAMITTLSPK
+AILRDPDVACPDTPQNVSLDALRAMRDLPPAAWHMGDPDRLGYIIYTSGTSGKPSAVMHA
+HRAIWARQMMFDGWYGLRPDDRVMHAGAFNWTYTLGTGLMDPWTMGATALIPAAGTLPAA
+LPALMEQHAATIFAAAPGVYRQILKHHTHISPSNLRHGLSAGEKLPESLRTAWLDASGLS
+ICEAYGMSECSTFISASPGTPARSGTLGQPQHGRQIALIGEDGPVPVGTEGTIAVHNSDP
+GLMLGYLGAPEQTAAKYQGDWFLTGDQGVMGEDGQITYLGRNDDMMNAGGFRVSPIEVEQ
+SLAKFPGISAVGATEVEVRADVTVIAAFYTADTPLDEAALALYAQDNLARYKQPRLYVHV
+PELPMGANGKLLRRALRAAYEAQK
+>tr|B7RPA3|B7RPA3_9RHOB
+MDLRTRITDALKQAMKDKAAQRLSTLRLINAAIKDKDIAVRMDDGDTGVGDPEVLAILGK
+MAKQRMESVRAYEEGGRIDLADREREEIQVIEEFLPRQLSDAEAAKAVDDAIAEVGATSI
+RDMGKVIGLLKGKYTGQMDFGAVGPKVKDRLS
+>tr|B7RQM4|B7RQM4_9RHOB
+MTLYALADIAPTVDPDAWVAPDANVIGNVVLEADTSVWFGCTLRGDNEPIKVGKGSNVQE
+NSVFHTDPGCPLTIGKNCTIGHKVMLHGCTIGDNSLVGMGATILNGAKIGKNCLIGAGAL
+ITENKVIPDGSLVMGAPGKVVRDLDAAAIASLTASAKHYQENARRFRNDLKPV
+>tr|B7RLJ9|B7RLJ9_9RHOB
+MLLKRIAQSLVVGAICASPVVAQELEKWGASDYWDVMVDPSLGDGCLIQSAFTDGSVVRI
+GFDRTEGMGYVTAFNDAWGDIEEGAMYPVLFDLDGQEYEAEAKGMYLNGVPGTDIMFDEE
+DFLFDIAAKYTMTLYTDAGEVMAIDLTGSYQALEAAIECQEEMG
+>tr|B7RLJ3|B7RLJ3_9RHOB
+MTHCLPIRVYYEDTDMAGIVYYANYLRYIERARSDWVREIGVDQLEMKAEGVVFAVRRVE
+ADYLLPAVFDDLLEVRTWATAISPARMVMRQEVWRADTLLFQAVVTIVCINSAGKPCRLP
+AKLRSIPAQAAD
+>tr|B7RHT3|B7RHT3_9RHOB
+MQTRVGIAASGRNRNWKIEPLLLWLVNILAEGETLDRPL
+>tr|B7RSJ3|B7RSJ3_9RHOB
+MQNNIYMIDVQGLEKFYGTVRVLDNVNLSVEKGEKIVLCGPSGSGKSTLIRCISGLEARS
+KGKIRVAGHDLETDCRNIGDYRGEVGMVFQQFNLFPHLNVLQNVMMAPRLVRNQEKATVR
+ERSMALLERVHIANRADYYPEQLSGGQQQRVAIARALCMQPKVMLFDEPTSALDPEMVQE
+VLDVMIALAKSGMTMIVVTHEMGFARTVADRVIFMDKGQIVEGGTPDTFFDYPENDRTKE
+FLRKIQHS
+>tr|B7RQI7|B7RQI7_9RHOB
+MTRILALVEHRAFKITIPVAIGVIALFVLHDLASHVRWTDVRTDLAAARPMALLAAVGCT
+MISFVGIAAYDYLALRAVAPGSMPMRVPMVGGAAGYAVSGLLGVSYLTGTAVRYRVYSTF
+GLDIVKITAIVAIAWTGFVAALLLGFGVLLTLHPKGLSAVINVSPTVETALGCAMLAGFG
+GYLLWLATGKRHLGSGDHAIALPGPMQAIGLTLAGVLDLSGAGLTLYVLMPADIVPNFAV
+FATVFVAAVGLGILSHAPGGLGVFEATMIAGLGAAGRSDVLASLVLYRMIYTVLPFLVAS
+LGLAIAAALANRGKLHGSSRVLWRAVKPILPTLAAALAMLAGTILLVSGNLPGEGSRLDI
+LREILPLGVVEASHLVGSLVGALLIVVAAGLYRKLYRAWLFAVSLVAIGFVVSLAKGLDW
+IEALTMAATLGALTMIRPAFYRAEGSSVFRLDRRWMLSLLILSAAITWVGFFAYDHVEYR
+NALWWQFSWNGDAPRFLRASLVLAIVVAAVIVNSLISNRKSVRALREIPDVVRRLVAESD
+DTEANMALTGDKLFLVSPDEKAFIAYADTGTSLIAKGDPVGDRKAGQALIWSLRERAWRD
+GKRVAFYSVSPAYLPTYLDLGLSILKIGEVARVDLSTFTLDGSQRKGLRGARNRAARDGF
+MFEVVPRDAAQAILPDLRRISDAWLAQKQGEEKGFSLGAFTDDYMSNFDMAVLRDPDGRI
+VAFANLFQGAERNELSLDLMRYLPDAPHFAMDALFAEMMLWGKAQGFRWMSLGAAPFAGV
+ENRALAPLWNRIGGFIFEHGEHFYNFEGLRAFKEKFDPVWTPNYLACPGGLAAPRILYEV
+NVLVSGGLRGLIK
+>tr|B7RQY2|B7RQY2_9RHOB
+MKGNDMSDTPAKLVIRNIGMILSGKMEEPIFDGDCLIAIDGKITEWGKEKDMDCEGATTL
+IDAHGATLAPGLIDSHVHPVVGDYTPRQQQLGWIDSTLHGGVTTLISAGEVHMPGRPNDP
+VGTVAMAIAAQRWYENFRPSGVKVHAGAPLLQQGLEEHHFRQMGEAGVTLIGEVGLGTVK
+DGKTANEMVGWARKYGMQSTIHTGGPSIPGSGLIDADMVLETGTDVVGHINGGHTALPDD
+QIICICEGCKAALEIVHNGNERAALLTLNTARELGKLDQLILGTDGPAGSGVQPLGIMRM
+VALLSSLGDISAEVAFCFATGNTARQRKLDTGLIEAGKCADFVIMDQAQHAPGKNLLESV
+QLGNLPGVGMTVIDGVVRSQRSRNTPPATRLPELVKGIVGA
+>tr|B7RGG8|B7RGG8_9RHOB
+MSDATDAAANAGVMPVREGFGVDAAALERWMHENVAGFEGPLEIFQFKGGQSNPTFKLRA
+KSGDYVLRRKPPGPLAKGAHAIDREARVLSALGGTGFPVASVYGLCTDASVLGSEFFVME
+MVEGRIFWDAALRDVPMAERRAYFSEMNRVLALLHGLDPEAVGLGDYGRRGNYFERQIAR
+WTKSYLADADAGRDPGMDRLIDWLPAAIPDGDESTIVHGDFRCDNLIFHPTEPRILAVLD
+WELSTLGHPLADFAYHALMYRMPPDIVAGLGDVDPAALGLPTEAEYVAEYCVNTGRSGIA
+DYDFYIAFNFFRLAAIFHGIKGRVARGQAASAHAAERVAAYPRLVSLAVDAMETCKATAG
+SSLRPEKD
+>tr|B7RHB8|B7RHB8_9RHOB
+MSEKLFSPVTVGAIEAKNRVVMAPLTRNRADNDTGEVGELHVEYYAQRAGAGIIITEATQ
+ISPEGKGYLATPGIHSEGQVAAWKKVTDAVHKAGGKIVIQLWHVGRISHTSLQPDGQQPV
+APSAITADVKTFTADGFEPTSEPRALETDEIPRVIADYVHATKMAKKAGFDGVEVHGANG
+YLLDQFLKTKTNKRDDQYGGSLENRARLLLEVLEAVTNAWDGAHVGLRLSPFSPANDVDD
+ENPQETFEYVIPQLNRFGLAYLHMVEGATGGSRDLKEGESIAILRKMFDGLYMANNGYDR
+DLAIKTVEDGAVDLIAFGRPFIANPDLVKRLERHTALNKGDSNTYYGGGAAGYTDYPFLE
+EDAVE
+>tr|B7RGV6|B7RGV6_9RHOB
+MDKLETHAHSPAPTAERPLLGLTILVIEDSRFACEAMRLLCLRSGARIRRADCLRAARRH
+LQVYRPSVVIADLGLPDGNGIDLIEELSKAQPRVDALLAISGDTHLAGDAIAAGADGFIE
+KPLTSLVQFQQSVLSTLPPERQPKGLRMIVDEMVEPDHIAFQDDMAHIADVLDDAGDSTT
+LDYVAQFLGGVARSASDKALETAALALARKRALGHSAESEKAVVAGLVQTRLAQRVAI
+>tr|B7RQH0|B7RQH0_9RHOB
+MCSEGMNVAFRFGFADQQGHKNTNLPFNAVYAIRKIA
+>tr|B7RQQ8|B7RQQ8_9RHOB
+MIVAAVIFGLLLAMPFVLPLVGGAYLTGLLIKAMLLAIAAISLDLLIGHGGMISLGHAAF
+VGVGAYAAAIGLENGVENILVLLVITLVVTGTVALITGSLALRTSGVYFLMITLAFGQMI
+YFTLTSLAAYGGDDGLTLWSLATLFGSDIVQGGSGLYFVVLGTLLATWWGVYRISLSRFG
+RVLRAARDNPGRAEVMGYSVTRYRLIAYVIAAMIAGVSGLLLVQHAEFVSPALATWQRSG
+DLIVVIVLGGLGSRNGAILGAFFIVIVEEVLGGFFHEWRLIYGPLLVVMVLFAKGGLSDL
+LMPKAAREQLS
+>tr|B7RJR9|B7RJR9_9RHOB
+MHRLIQFLARITAIIGGLVLVALILMTTVSIFGRTINKVLHSTFFQENMAGLSQSLIDMG
+VGEINGNYELLEAGIAFAIFSFLPICQFYGAHASVDVFTSFLPAKANRWIAAFWEIVLAM
+VIILIIWRLFEGMQRYIGNGETTLFLQFPVWWAYGASFIAGIISCIVAVYCAVIRVIEAV
+KGETILPSEQGAH
+>tr|B7RFT5|B7RFT5_9RHOB
+MQTIKTSYRGLSLLVDLNWDRALYIGTMAIALAAGAWLGSL
+>tr|B7RI58|B7RI58_9RHOB
+MSSVTMIDAALALSSAGAWAQRNIKRSDLAIFHFKWPLGAIGSFHGGKFP
+>tr|B7RIE8|B7RIE8_9RHOB
+MERNLTLVALFAALIAALALIPQFTLGFGVPITAQSLGIMLCGTVLGAKRGALAVLLFML
+LVALGLPLLAGGRGGLGAFMLPSSGFLIGFPVAAFVTGLIVENWRSASLTVVAGVASIIG
+GIGVLYIFGIAGLAYALDKTIIESALLVLVFIPGDIIKAVLAGLITSALAKARPASVLSR
+S
+>tr|B7RJY9|B7RJY9_9RHOB
+MARLTARFWIDAYLARLRVYDIPAFVVAHGDDTGGAVLVKLATLDGKAVLFQRSFDLMSG
+ARAWVEMASGSEAEVDASVARQREFDPDLWVIEVEDRQGRHLLHDEGLI
+>tr|B7RNS7|B7RNS7_9RHOB
+MEHMPYIAEPPAPARVGLRRLEWVTVTVGLFINSGAVFPLLMQGADGILDDAERAQLRVI
+YLPIYALCFGLLAIRPRSLIKAGVRNLPLLLLLVLPLVSTLWSMGPSLSMRRAVALILSM
+GLAFLLATRFTPREQIIVVGWAVGATLVMSFVAGVAWPSLAFTPYDGTMRGVFFNKNVFG
+WMSVILIIAGIAARHDVTTRLRRAGMVMLVLGWTGCLLSGSMTSLFAAVTAVLISQAVLM
+IARRQGIARLVFQFGIILGIVVLSVIIAFGFVPLLDALGKDVTLTGRTPLWALLDIEIAK
+HPILGQGYGAFWSPNNLTMWKIWETLRWGPPHAHSGYRDLLLSIGVVGLGLFAVVTVRAV
+HQAIALTAQAPRDGWLWCVVLILSVLVMNLTESNILMQNDMIWILFSTAVLSASYNHAEA
+RRSLPRFMHLATSAT
+>tr|B7RRW4|B7RRW4_9RHOB
+MEIDVVGKARKKSALPAGLSFKRLRAECDPETLGFDTTASLKPARGLTGQDRAIDAIKLS
+ANIDHKDFNLYVLGREGTGRHTAVARLLSDAAATRPLPCDWVYVNNFDAPHKPHAMKLTP
+GTAAELKLAMQSLVDDLANDIPALFESEDYQTQRRAIEEEFGQKHEEPIAEFSERAHAQN
+VALLRTPMGFMLSAIVDGKPIKPEVYEALPTEQRKAIDTKIEELQKQLADILKHGPQLEK
+EHRHRIEELHAAMAEQIVSIRMKEVETQFAQADNVLAYLENVRVDMISNAELFLMSVTRP
+NGGPFPEVIHKYHQDPRFDRYAVNIMVSHDEAPPAAPIVTEEMPSLGHLTGRIEYVSEMG
+TLSTNFTLIKPGALHRANGGYLVLDANRILSEPYAWDTLKRCLQSQSISITSLAERLSLS
+STVTLEPDPIPLDIRIILVGGRRLHMLLLHLDPEFGKLFKLEADFEDDLPRTAKNTRALA
+RIVAGYASRENLKPLTAAAVAALLDHAVRLAGDSTKLTLELSKLTDVMREADFYATGHKQ
+DLISDDDIDHAIKQSVLRGSRIKERMQEAVTRKTILIDVKGQSVGQINGLSVVGIGKNPF
+GRPSRITARVRMGSGRLVDIEREVELGGPLHSKGVLILGSYLASHYALDVPMSLHASLVF
+EQSYGGIDGDSASSAELYALLSALSGVSIRQGFAVTGSVNQNGDVQAIGGVNEKIEGFFD
+ICMAQGLTGDQGVLIPASNVDHLMLRRDVVEAAKSEDFRVIPVKTIDQGIEILTGTPAGK
+RGRRGKFPEDSINGKVEAQLHAFAETRRQFGAKDDGGADAGPDMDADIGTDLGAGR
+>tr|B7RHF8|B7RHF8_9RHOB
+MSLLLLIEQVLNGLQFGVMLFLMAAGLTLIFGVMGLINLAHGSLYMVGAFAAAAVAGFTG
+SFVLALIAALAAAAAAGALIELLVIRRLYDRDHLDQVLATFALILIFSEGTRYIFGSFPL
+FLDIPAALSGPILLPGGIYYPLYRLVIIGAGLLVAAGLFLLIARTRIGVQIRAGEADREM
+IAALGVDISKLYTLVFALGAALAGLAGALVGAIQSVQVGMGEPVLILAFVVIVIGGIGSI
+KGALVGSILVGLTDTLGGVLLPPLFATFMEPSSANAVGSAVASMAIYILMAGVLLFKPSG
+LFGGT
+>tr|B7RMC4|B7RMC4_9RHOB
+MKLTGAVFAVALPFASPALAEVFLLSPPIDCDLTTDCYIQQFVDSDPTPAASDFTCSTLS
+YDGHKGTDFALRNRAQIAKDIRVLASAPGRIKGIRDGMADTGYSTEAADTVDGKECGNGV
+VIDHGDGWETQYCHLKQGSVLVKSGQDVSAGQELGFVGQSGKAAFPHVHLSVRKDGMVVD
+PFDPDGKTSCASPGDSNLWTDRPDYRSGGLIEIGFTDAVPKFDDIKAGTAAMNSLMPDAP
+ALVVWGYLFGSQPDDILRLSITGPDGMIVANDVTLTKSQAQAFRAIGKKRRSKAWPAGEY
+LGDVTMLRGTQIISRQTTSLTIE
+>tr|B7RR36|B7RR36_9RHOB
+MHTQIAEQIKASHTRHVMIRNYDMKALSANTLERDVTRHAEINVPHTNVFQ
+>tr|B7RHN8|B7RHN8_9RHOB
+MADAFICDYIRTPIGRFGGSLASVRADDLGAIPLRALMARNTGVDWEAVDDVIFGCANQA
+GEDNRNVARMSALLSGLPEAVTGTTINRLCGSGMDAIIAAARAIKAGESDLMIAGGVESM
+SRAPFVMPKATSAYSRNAEIYDTTIGWRFVNPLMKAQYGVESMPETGENVAEDFNISRAD
+QDAFALRSQTKAGEAQSGGRLAKEITPVTIPQRRGDDIVFDADEHLRATSLEQLAKLPTP
+FRKGGTVTAGNASGVNDGAAALIIASAEAAAKYGLTPIARILGGATAGVAPRIMGFGPAP
+ASQKLMARLGLSQTDFDVIELNEAFASQGLATLRALGISDDDPRVNPNGGAIALGHPLGM
+SGARISGSAALELSLNGGKRSLSTMCIGVGQGIALALERV
+>tr|B7RG16|B7RG16_9RHOB
+MILMALNFAFVAVALSQLLAMLRLVKGPNTGDRILALDTMVINAIALIILLGIRLGTDVY
+FESAMIIAMLGFVSTVAIARFVLRGDIIE
+>tr|B7RIM8|B7RIM8_9RHOB
+MIAAVIRLSLANRLIVLALAVMMAVVGVWAIRETPVDAIPDLSDVQVIVRTPYAGQAPQV
+VEDQVTYPIATAMLAVPGASDVRGFSFFGDSYVYVVFEDGTDLYWARTRVLEYLGQLTAN
+LPEGVSPQLGPDATGVGWIYQYALIDRTGGHDLAELRTLQDWFLKYELQTVDGVSEVATI
+GGMVKQYQVVVDPNKLRAYDVTLAQIRQAVQGANRETGGSVIEMGEAEFMVRSTGYVDEI
+ADLAKAPLMVNARGAAITLADVADIRLGPEMRRGVGEFDGIGDAVGGVVILRWGGNALAT
+IKAVEARIDDLRTSLPEGVEIVTTYNRAGVSERAIENLQNKLTEEFVVVILVCAAFLLHV
+RSSLVILLSLPLGIFAAFIIMKFQGVNANIMSLGGIAIAIGAMVDAAIVMIEAMHRRLEK
+ETLTNANRWRIVRECCEEVGPALFFSLAIIAVSFLPVFVLESQEGRLFKPLAFTKTYAMA
+AAAILSVTLVPVLMGYFVRGRIIPERKNPLNRLVIFVYRPFLDAAVAWPWATTVLAGALV
+ASMWWPLQRIGTEFMPELNEGDFLYMPSLYPGVSIGKAREVLQQSDRLIATVPEVLTVHG
+KLGRADTATDPAPLTMIETTIQLRPEAEWRPGMTMEDIRSELDRVVQIPGVTNVWIQPIK
+NRIDMLATGIKTPVGVKISGADLGVIEQIGIEVERVVTGIDGTASAYAERPIGGRFIEIN
+PDRAAAARYMMTVRDVQDVVQTAIGGMQVSESVEGLERFPINLRYPQDWRNSPERLRDLP
+VVTPSGAHIPLGTLAEIKVVDGPAMIRSENARRTGFVFIDIKGRDLGGYVEQARTRVAEQ
+VTLPTGYSITWSGQYEYIERMQERLKLVAPATLLIITLMLFMAFNRVIEVAIILAALPVA
+LAGGVWFLWYLSFDISVAVLVGFIALAGVAVETAIVMLLYLNLAWEKRRAQAAEDARKMT
+PLDVEEVVFEGALLRVRPKIMTVATIFAGLIPIMYGTGTGSEIMQRIAAPMVGGMATATL
+LTLFVIPAIFVIWKRLALKRVNRELSRGPGPTAAPVPAE
+>tr|B7RKM6|B7RKM6_9RHOB
+MTLKKSALAAVLMASAALPAFAEGQLNIYSSRHYDTDEKLYSDFTDQTGITINRIEGKAD
+ELLARMKAEGANSPADILVTVDTSRLSRAQNMACCIRGQRHLEERIPANCKTAKTNGSGS
+PSGRGSFLRQGHRRHAADDLS
+>tr|B7RLA6|B7RLA6_9RHOB
+MIVAIAFIALILFGMPIGFAIGTAGVIGLIDMGGSQFLAIGPSKIFNGLNIFPFLAMPFF
+ILAGEIMNDIGITARLVNLAQVLVGRFRGGLAHTNMLASVFFAGLTGSATADAAAFGRTL
+VPAMVKEGYKRDYACAVTAAGSIIGPTIPPSGLMVVYGSLMGVSIAGLFAAGILPGLVIC
+IVCMGIIAIGGKRENLPKAVRGATPREIWDTFKSSLTALTMPVIILGGILGGIVTPTEAA
+SIAVAYALFIGIFVYRTLTLKGFYGMLVRTARIMGVIFVIIAFAGILGWWMSFERIPQMI
+AEAVLGLSDNRYAVIAIIIGILLVVGMVMDITAILIILAPVLVPLTEQVGLEPIHAGIIF
+VLALNISLMTPPVGACLFVLSSVTGEKLERISIKLFPFLIAEIAILFAFAFWEDAALWLP
+RMLGFAQ
+>tr|B7RGE6|B7RGE6_9RHOB
+MIETVFTPFQSLGGGSLIGLASVLLMATLCRVMGAKGILAGLMQPANFCDWSWRAAVMVG
+MITGPIAVLLIAGQFPAVQVPASKTMPSSAALLWASA
+>tr|B7RIK8|B7RIK8_9RHOB
+MFSFFSPQAIHFGRGQSRQTAALARAFGKSVLVVHGATAARADWLLQSCKAASLTVKTES
+CQTEPSLPDIEAALSRLADYRPDVVIAVGGGSVIDFAKALAALLPNPRPPLNYLEGVGGG
+QPLETAPIPMIALPTTAGTGAEVTKNAVISVPEHAVKVSLRDPRMVPQIAIVDPDLMQAA
+PKSIVLAAGLDAITQVIEPYLSVKSNPMTDALCLAAIPVGLRVLRDLVEKDRPQAWDGMA
+WVSTCGGLALANAGLGAVHGFAGVIGGKTNAPHGEICGALLPAVLNSHLGKAKPETEIYR
+RIQWVQGVIDAHFADGKAGAGIPALARWSKGQGLRGVADMGLPQRDHSDVADAAAKASSM
+KGNPFSLSKEDLLEILKAAQ
+>tr|B7RK25|B7RK25_9RHOB
+MRLAQVIDKVDLIKKRPYLDQMSLPLAIRAAGLDWNILPEEQHYILGGSLRGEPLPEDKD
+IKMIHYRNMKVLKEVDMLRKAKGMLEQHVGERRFDKVDPAKLLADD
+>tr|B7RR34|B7RR34_9RHOB
+MTKRSSRVAITILGATAFALAGCREEQVDAKAFPDLQTCTAEATQGGMFTAQDCESAVNA
+AETLHVEAAPRYDSLEVCEEQHGADACSTEASATQGGSGSIFMPLLAGYLIGNMMGGRAG
+MSAGQPMYKTSGGKYTNAARTSTFSTNSGAAKLNTSQFTRPATTAGKTPMTRATASSRGG
+FGKSFGGRTGFGG
+>tr|B7RNA5|B7RNA5_9RHOB
+MLGDGYHDVPAGKLAMVVTHLEMQAAAPMRDIALPEGVTLRQVTPTLEWYRDVFNRVGSQ
+DWLWFGRLKMSDAELGTILNDPDVAFYTLSKDGRDEALLELDFRQSGECELAYFGLTSAL
+IGAGAGRYLMNHAITTAWSRPISRFHVHTCTIDSPQALSFYIRSGFTPYRRQIEVADDPR
+LTGMLGGDAGPHVPIID
+>tr|B7RNR5|B7RNR5_9RHOB
+MTIYYVATSGSNNASGSATEPFGSIQQALNSGLQPGDEVVVRAGTYQEAIYINDGGSAAG
+NVVLRAEEPGTVTIAPPSNSWNAISVDANYVTVSGFIVSNATGDGLEGNNVHHIEVLNNV
+FHGNGESGIQFNGSDFIKIDGNVTYDNASDGWYSGISVYQNRNITGDTSTDEFRTIISNN
+ISYDNVTKTGDHTDGNGIIIDDFQSTQTSGFPSYDFPTLVENNLVYGNGGKGIQVVWSDG
+VTVRNNTAYHNNNDDLNVGTWRGEISNSQSSNNTFINNIAVADPGINSLNTAIDNTSYGN
+YTNDNVVWISNLTFNGQTGTASVRTDGNNDVPSTADGNLLGVDPGFADAPNDFRLSDGSV
+AIDAGSNAYGLPGADLDGLARAIGTVDMGAYEAGSTGAPTPTAPTPAEPTDPVPPTDTVE
+PVAPAEPTDTVEPVAPTEPTDTLDPVAPTEPTDTVEPVAPEGPDATESFNIWADATPEMA
+AASDTNPVTLGLEFTADEDASLEGLRLYVTEANSGLDSIDLWGADGTLLAHAQVKPAGGE
+GWQMLTFDEPVQLSAGETYVASYFTTSGGYSVSQGFFTGAEDKGPVSFGENAGVYSYGSE
+SGFPDQTYLASNYWVDLVLTTGASGVEAEAPVQAETETQVQLEAETQVQVEAEAQVEAEA
+QVDAEVALPPLAANSIIGEAGVVTQNQADSDTWHSVTFENPLVDPSVVMGGMTGNGAQPY
+TVRVRDVTSDGFDYQIDEWDYLDGKHTTESISWLAVESGTHRLEDGRTITAGSTSVGDSW
+KAVSFDKGTFDHDPVVFGQSSSDGNASAVVDRIRSVTSDGFETCLFGEEGSEAQISSDAF
+DWIAVESGGSASAGSLAGTTGRMVNHKGSAVDFDGAFVNDAFVFMTELQTTNGADPATLR
+TTSVDEDMAMLAIVEEQSSDSEMNHIFEDAGYAGFDAAPIYGMSVELEDGFF
+>tr|B7RP07|B7RP07_9RHOB
+MTDGPTYGFDTLQIHAGAKPDPATGARQTPIYQTTAYVFRDADHAAALFNLQEVGFIYSR
+LTNPTVAVLQERIATLEGGVGAVCCSSGHAAQIMALFPLMGPGRNIVASTRLYGGTVTQF
+SQTIKRFGWSCKFVDFDDVEAVKAAVDDDTRAIFGEAIANPGGYIMDVRAIADVADAAGI
+PLIIDNTTATPYLCRPIEHGATLVVHSTTKYLTGNGTVTGGCIVDSGKFDWSANDKFPSL
+SQPEPAYHGLKFHETFGPLAFTFHGIAIGLRDLGMTMNPQAAHYTLMGTETLSLRMERHV
+ENATKIAQWLEKDDRVDYVTYAGLESSPYFERVKTVCPKGAGGLFTFAVKGGYDACVKLV
+NALEIFSHVANLGDTRSLIIHSASTTHRQLSAEQQEAAGAGANVVRVSIGTEDADDLIAD
+LDQALAKATS
+>tr|B7RRT5|B7RRT5_9RHOB
+MPFAALFFEVIVERCPTRKAGHWYHEVTTRIADETFDFTFIVPLSGATVSVSDHVMRQHR
+AEPLCSLTFAIRHDLCNQATVIVVEHRLWHRSKERKRVNMPIQPSLGVRGRIGTDITGIT
+MRQIQREEIGFLLNATNHNQRFAKVGLRMSGRMAQRHEHLTRTALLVAHIIFDDGVPAVE
+AAFITEPFKNALGCVSLLTRAHLVFRQPPINLIDICIQLRAFNRRRPPVSRRLRMRQHLR
+NTVPADPKIPSYLPPAQPILKMGATHLQI
+>tr|B7RNG8|B7RNG8_9RHOB
+MFKTKILMATACALGLTACGDFEGGRGYPADKTFDRGIDKKHLSQLQAGIWVDPNGCDHW
+IIDDGVEGYLSQRLDKYGKPVCSGVAQPTYTAGDFKGGSRISDPN
+>tr|B7RGI6|B7RGI6_9RHOB
+MTCDMLYTEATFAPAASLRICHSGQAGVTQDRLIRLLSEGGRPASGDFHVTGNIPPGVGA
+GSSTAGLVALARAAGMDEDDVAAACLRVENATDPLMLQDPDRVLWLSRSAEVCEHFKGPP
+ECEVVGGYLGDPIRTNADDTDFADISDLIGPWQDATDASDLAEIAGLASEAADRTTRLRG
+PAGDPSAAVAKRLNALGYARAHTGSARAFIFPVGGVPSDAESILKAAGFVGAFRFLTGSG
+R
+>tr|B7RIC2|B7RIC2_9RHOB
+MLRISVSLLSIFLAHSAFAGAWLREKDSGFSSLTASGAMTLDFGQKTYLEYGVRHDLTLG
+AELGFLMSANSGRSDYATLFLRRPIGDKAGPDLWAYELGIGATWTGETVNPYLRTGLSWG
+RGFTLGTRSGWVGVDTTIQWDVYNANHLLKLDSTVGMNFNDRFSVMVQVFHARVNAGATT
+SIAPSLVVRPLKKRPHIRLKIGTETQIGNMDATAFKISFWRDF
+>tr|B7RIS3|B7RIS3_9RHOB
+MELLSKTLARVKPSPTIAVTQKAAELKAAGRDVIGLGAGEPDFDTPQNIQDAGIAAIKAG
+KTRYTAVDGIPELKQAICDKFKRDNGLDYKPAQVSVGTGGKQILYNALMATMNPGEEVLI
+PAPYWVSYPDMVLLAGGTPVIAAATLENDFKLTPEALEAAITPNTKWFIFNSPSNPTGAG
+YSWDELKALTDVLMRHPHVWVMTDDMYEHLAYDNFKFCTPAQVEPALYDRTLTVNGVSKA
+YAMTGWRIGYAAGPEKLIAAMRKVQSQSTSNPCSISQWAAVEALNGTQDFIPENNKMFAR
+RRDLVVDMLNQIDGMVCPKPEGAFYVYPSIAGLIGKTSAAGTKITTDEVFATALLEESDV
+AVVFGAAFGLSPNFRISYATSDEALKEACTRIQKFCAGLT
+>tr|B7RN68|B7RN68_9RHOB
+MQLDDAYANAAYIEGSEDYPPRWQKAAAAFRKKLGFRAQKGISYGPTDREVYDFFEPEGV
+SRGTVVFVHGGYWKAFAPSDWSHLAAGALSRGYAVAMIGYDLCPNVRISQITGQVARAMI
+DIAKRTQGSLSLAGHSAGGQLVARMTDPLVLPGDVRDRIVNIVSISPVADLTPLLQTSMN
+EILQLDEAEAAAESPVNMTPPHGVNVTIWVGADERPAFIEQAEQFSRVWGAKLTVVEGRH
+HFDIIDLLEDPESDMVKALLGIK
+>tr|B7RQF4|B7RQF4_9RHOB
+MIIPLMPETTQFGYFVPINMALGALAGWTVMGPRAGGGIAKGISNGLTGAFVLILWGVFT
+QAMLEMLKRALRRQYDGLGEAFIAVVSFAGEYLLIMATVPIAVTVVVGGVLSGLLTNCAK
+KRWP
+>tr|B7RRA3|B7RRA3_9RHOB
+MTVAPPLNIAAPVDAASSARATRTKVLLTAPIGPTLAKLAAPNVLAMLVQAAQSIAEAYF
+ASLLGVTVLAGLALVFPLMMLTQMLAAGAMGGAISAAVARALGASNPARAATLTFTAWII
+VACFALLMAVTMALFGRAIFSTLGGGEAAVDAAVTYSIVFFPGCFTIWLCHSSLSVIRGT
+GDMRMPSLLLLLVSIVSIPLSGGFALGWGPLPALGIAGLPLGLILAYGLGALIAVSYIAT
+GRTGLAFKGAFARVDLGMFRDIMHVGAIASVNTLLTVLTIVMMVGMVGQYGEAALAGYGL
+GARLEFLMIPVIFGIGAAMTAMVGVNVGAGQKDRALRIAWTGSLTGAAIIGCIGLILSVF
+PDLWLGMFLNPSDTATLEAGRAYFRIVAPFYAFFGLGLALYFASQGAAKMLWPLIGSLFR
+IGLAVGGGLILTSTTSMGVNGVFAAIGIAMMAYGLVIGVAILHTRWA
+>tr|B7RGH3|B7RGH3_9RHOB
+MRITIKGILAGASMLGMAAAANAQQLTFAGGWPPGSAPTRMIEDYAKALEEYSNGEVTMK
+VFPLSLLSFAEVNAGVRDGIADAAGNLTAYFPAEYPNLNMLSEFSELVELEQFAGELSST
+AFAGAITEYVMLNCPDCQQEVAAQNQVYLGAGSTTSYVLQCVVPLNSAADLEGKRIRAAG
+AYWARWAETVGAVPVSMSVNETLEGLNQGVLDCTASNTADFVNFSFIDVVKYVYVGLPGA
+QFNVPFTINKDSWNSLSDSAKQAMLRANAKLMADVTWVYIEEARAGKERAPGLGIEYGSA
+ADDMVALNREFIAKDKDAVASIYKERFGIETGAAAADALNALLVKWTDLTKGVEGGDALA
+QLYEDEIFSKVDVGSYGK
+>tr|B7RI13|B7RI13_9RHOB
+MAITERGEVVAQVGSLLAVVSMALFAFTVARYGVGTHAVVHKDG
+>tr|B7RK38|B7RK38_9RHOB
+MTNSINRRKFLRGSAVAGAAALATPALAESHGTTIKMQAAWGGGIFLENAQSFAARVNEM
+SGGSLTIEVLSVDAVVKTSQMQDAVHRGVLDAAHYVSAYWYGKSKSASLFGTGPCFGWSS
+QEMLGWIHAGGGQELFDELMGELRLNVVSFFNSPMPAQPLGWFQKQITDASEMKGLKYRT
+VGLAADVMLEMGMSVVQLPGGEIQPAMKSGLIDAAEFNNPTSDRDFGMQDVSKEYMLASY
+HQSQECFEITINKDKFNSLSDEHKAIIKNASMAENSGFYWGNTKRYSDDLIKLQEADGVN
+VHRTPDSVMQAQLVAWDVVANRIAEEDPFFAKVMESQKVYAKEVMGYLNLNQPNYQMAYD
+HYFG
+>tr|B7RNJ0|B7RNJ0_9RHOB
+MATVSLRDVKKSFGATDVIHGISTDIEDGEFIVIVGPSGCGKSTLLRMVAGLETVSAGDV
+FIGGQRANDKEPMDRDIAMVFQNYALYPHMSVRENMGYGLKIARLPKNEINAKVIAAARL
+LQLEPLLDRKPRQLSGGQRQRVAMGRAIVREPAVFLFDEPLSNLDAKLRVQMRLEIKELQ
+SKLGITALYVTHDQVEAMTMADRMIVMNAGVAEQIGTPLEVYETPRTLFAAQFIGSPAMN
+IVDAHVQGGHVLLGGIPVAPAVGSDGPVKLGIRPEHLHFDDNGPISVTVQMAEPLGANTL
+LHGKLSGSSEPFTASMQGVHLLTPDTRELRFAIDPGKAHLFDAASGLRRTA
+>tr|B7RP94|B7RP94_9RHOB
+MQTPRPCHGPTVGLMPSHPHVKDQPMQDTPVITPASWLMIVLLAFIWGGTFMVTKVALTE
+MPPFWIAASRVSLAALVMVLIWGARGFRLFSSTPQGKDITALILVGAASSAVPFTLLAWG
+QQYVTSGFAGVSMAATALIILPLAHFFVTGERMSLRKTLGFVVGFAGVVILIGGQAFEST
+GASLETPGRLACLGAASCYAISSILMRRLPAIDAIGLATILLIIASCITIPLALTVEGLP
+PVPSATVLGVLAFLGLVPTAAANFLRVLVVRSAGPVFMSLVNYQVPVWSICLGALILSEP
+LPPSLIWSLALILCGVAVSQFGALKRLFMQTAS
+>tr|B7RQF7|B7RQF7_9RHOB
+MIRKFRAVLAGLFLALILAGPLAAQGETSPTIEVWENVATRAEAVVDDGSGTDDVLENLR
+KRIADFRSDFDAARGVNAERIATLREQIAALSPPPEGENAEPEAPEVAQTRADLNQQLNA
+LLAPVQIAERDYLRADGLIREIDQIIRDRQTEKLLTTTPSPLNPVHWAPALREVKQSYAA
+IWVDGGEDSKEQQFDKLRANLPLVAFSTVLGLLLLFRGRRWAVMIVNSLRRHQARGLGIW
+RFVVSLLRILLPLGGVLLLVIAAGRTGYLGVRSTEVISLLPIIGILTLGFRWVSERVFAR
+EDEEALLLLSDDQRRKARFYVSGITIVMIVSIVTSKVLEFDTPTAATRAVVGFPFAVLIS
+FALFRIGQILHSYTDEQEDDADADLPTRSSTHARFVRSLGLGAMAVALISPLLFAFGYQD
+LADAILGPYVTTLVILGLVMALQRFSADVYGAITGQGIAARDALLPVFFGLILLALAMPV
+LALIWGARVADLTELWTAFARGFAVGDTRISPTNLLTFAIIFAVGYILTRLLQGTLRSNV
+LPKTKIDIGGQNALLSGLGYVGIFLAALAAITGAGIDLSSLAIVAGALSVGIGFGLQNIV
+SNFVSGIILLIERPISEGDWIEVGGKSGYVRDISVRSTRIETFDRTDVIVPNADLVSGTV
+TNFTRGNTVGRVLVPVGVAYGTDTDKVDAILREIVEAQPMVLANPAPNVLFLNFGADALE
+FEIRAFLRDVNWMMNVKSDINHAIAKRFAKENIEVPFAQRDIWLRNPEVLRPNFQQTPPN
+TQTAQPKDTLTVETKDNLTPEHTDGQAADNPDTTA
+>tr|B7RRQ1|B7RRQ1_9RHOB
+MERGYEGVSVDAILNRVGGSRRNVYDRFGGKEGLFIDVVTKLCNEQAQPLREMEIEGRDL
+DGSLVQFGEKILEIVLQPRTLALHRLMIAEGQRFPELSQAILRSGHEVSVEILADWLRTH
+NLLFRENVSASTFADQFIFLLTAGPQLRALSGQHDGPLSTAERERISRETVLIFLHGILP
+GGTPHAE
+>tr|B7RN81|B7RN81_9RHOB
+MKLIIATIKPFKLEEVREALTEAGVRGLMVTEIKGFGAQSGHTEIYRGAEYVVNFVPKVK
+LELVVADALADQMVETITRTAHTGKIGDGKIFVLDVEQAVRVRTGETGEDAI
+>tr|B7RN16|B7RN16_9RHOB
+MILLRLAAFEQQLKWTAVGLGISSTISLVQGWQLAAMMLSLPFCLIWV
+>tr|B7RKC6|B7RKC6_9RHOB
+MEEVDANPGLIFHKLDAWLDGFFKLLPNIGVAIVVAIIFWLLGLGIGALVRRTLDRRGRG
+NLGDVGGSLIRWTLVVVGFMLAITVVAPSITPGDLFAGLGVSSVAIGFAFKDILQNMLAG
+ILILLRQPFEVGDQIVSGGHEGTVEKIETRATMIKTYDGRRVVIPNSDIYTDSVVVNTAF
+DIRRSQYDIGIGCNDDWDKARTLMEDACASVTGVVSDPAPETIPIELGDFANIVRLRWWT
+KSDRASQIHTFGDVLVAVYKALDAEGIDMPYPTQVHLFHDQTEETDGDRTRQREGWPAGR
+GDVPKPRAQKQGETA
+>tr|B7RNG4|B7RNG4_9RHOB
+MTGQIICVAQQKGGAGKTTLVSNLAIAFLAEGKRVALLDTDPQGSLGKWLDIREETLGVN
+ANLRFSTATAYGISRAIREVGGEADVILVDTPPKADSDVRWVMRESNIVLVPVSASQADV
+WATHDLLELADRAGKPTHIVMNRTRVGTRVGEQVAKSVAELEAKQLQSSLANRVIYAEAL
+GSGLGVIEAKKTGSASDEVRALAKEVSAILDL
+>tr|B7RJ89|B7RJ89_9RHOB
+MLIRDETGTQTLVGYVVDISDPPHGRCYLDLGPQHLNRHGVLHGGIAATLLDNACGMTGS
+LSVDPKGLNPFLTISLTTQFLAAGKPGRVTATGRIKGGGRSLLYIDAELVHEDGTVIATS
+TGVFKRVPQEKLT
+>tr|B7RME2|B7RME2_9RHOB
+MNRYAAHKAFFAPAVASAAIWKLIVGFLAASAIYLLLNNLFFNTLFNVLGPDYGNFYDDL
+LTGRTPVAMFFLLGSFGLMIVGVAVVTRVIHRRSVWGLIGPISLAVPQFFAVVRILVVIG
+AVTLLLPPWNLGAPFVSNMAIGKWVLLLPFSLIFVLLQVSAEEIVFRGYVQQQLAARFNS
+PLIWMVLPSVLFALGHYLPDQAGENAILIALWAGVFGMLMADLTARSGSLGPAIAVHFCN
+NVTAILIASMPDDLSGLALYLVPFSMEDTEALRAWLPVDFGFMLVSWLAARLAIRR
+>tr|B7RGI5|B7RGI5_9RHOB
+MIFAAALCVGFLIEALVAWPSGLFRLVGHPVTWIGHAIRLCERWLNAPGRSPLVLNLLGA
+GTVVVILIVTVLPSIVLSAMLPAGWAGILIGGVLAWPFLAARSLYDHVVAVARPLAQGET
+GAARQAVSMIIGRNPDLLDDAGIARASLESLAENTSDGIVAPVFWGGVFGLPGLVGYKAI
+NTMDSMIGHRSARYEHFGMVAARLDDLVNLIPARLTGVLFALVSGHMTRSFSVMLRDARH
+HRSPNAGWPEAAMAGALDVRLSGPRIYGDQTADEPWLNATAPDAGASAPYRGLALYVRAM
+VVLVVILALVALA
+>tr|B7RL38|B7RL38_9RHOB
+MFRILAVLTSIAFLTACNGASDLQKPAVPLGDFNLYHNIVVAPKVQELPLSRKVSEEVLT
+TAVKDAIAERFDRYDGMRNYHFGVSVEGYVLAPPGVPLVLSPKSVMILNLTVWDDAAGKK
+LTGDKPHQITVFESFDQGPIVGSGYTKTAEEQLKNLSQNAAKSIETYLVKQNEAEGWFNR
+PADAVIKREKVPGTAAATSE
+>tr|B7RQP9|B7RQP9_9RHOB
+MSVALTSFIVFAASQIGTPGPANMALMATGARFGFRAALPFVAGVALGKQLIIWPIGFGL
+MQLAERAPLLFTALKFASAAYIIWLAWKVANLRLGQGSQAESAPGFMAGLIVHPLNPKAW
+AMIVGSFTAFVVPGTPTLAATAMVAAVLLGCQIILHPLWTLTGAGIAKTVAGTIWEKYLM
+WTLAALTVASVLFVLFGGSI
+>tr|B7RPF1|B7RPF1_9RHOB
+MSAPDTNIEKQETRHKPALLGIKGAVIFGVVVVLLLLFVILNNGRDDDEAAADLTTAPAV
+STETTAAPADAGATGTTENN
+>tr|B7RQH1|B7RQH1_9RHOB
+MFQGRNDGPGASLASTENRTELEGQVPLSTIDIADGWTERLQDGAAAGVGTREAWMQSPC
+FGATAADLMNGRRAQ
+>tr|B7RPS5|B7RPS5_9RHOB
+MPTPVVTRFAPSPTGYLHIGGARTALFNWLYARGRGGKFLLRIEDTDRVRHTPEATDAIL
+QGMAWLGLDHDGDIVSQFDNAPRHAEVALELLAAGKAYKCFASQEEIAEFRDTAKAEGRS
+TLYHSPWRDADPATHPDAPYVVRIKAPQSGETVIQDRVQGDVRIGNDQLDDMVLLRSDGT
+PVYMLAVVVDDHDMGVTHVIRGDDHLNNAARQMMIYTAMGWDVPVWAHIPLIHGPDGKKL
+SKRHGALGAQEYQAMGYPAAGMRNYLARLGWSHGDDEFFTDAQAQEWFDLDGIRKSPAQF
+DLKKLENICGLHIAASDDAALRREIEGYLKAAGLPALTEAQAQGLERAMYCLKDRAKKFP
+ELLEKAAFVLNARPIQPDEKAIKHLDDVSRGILTELTPQLQNVSWTKETLEETLNGFAAE
+HDTKFGKLAGPLRAALAGRAATPSVFDMMLVLGREESLARLKDAAI
+>tr|B7RRI7|B7RRI7_9RHOB
+MIEQADPSTGVLAARQIVIEAREVAGTAAKAAADEVALITEAARGLGRRSVSAIDGASGR
+LDQSATEGNARMTTIAVISAPLAIMSILGAFLLVVRPLIAVTKVTERLADGDMAPVTGFE
+RTGGEIGRMAQALSVFRDGMISQRRLEEEDRARESAAKEKAARQEHEARMRDETERDRIA
+EIEARERDREAKVTKERALLQAQAEAERKARSDEQALVVETLGKSLKRLSDGDLTSDIEA
+AFPIEYEKIRHDFNAAVRALRETIGAVTLNAVSIRNETSYISSAADDLARRTEKQAATLE
+QTAAAMDELNSSVRSAAEGATQASEMSKQAKRNAEDGGEVARSAARAMDGIKTSSQEISK
+ITSVIENIAFQTNLLALNAGVEAARAGEAGRGFAVVATEVRALAQRSSEAAGEINALIQR
+SGDQVQQGVDLVDKTGSSLSLIVEAVSEISQRIAAIAVSSKEQATGISEINTAVNQLDQV
+TQQNAAMFEETTAASHSLRSEADALAAAVSKFRSGTATGDPAKNQVSNSRHVTARRKA
+>tr|B7RLD9|B7RLD9_9RHOB
+MYRYALKIEYNGAPYVGWQRQIGLATVQGVIEDALAKVEPRAHKIAAAGRTDGGVHALGQ
+VAHCDMERDWDPFRLSEALNFHMKPNPVAVVDCAPVGPEFHARFSAQERRYQFRILVRRA
+PATHQAGLVWQVKKPLDLDAMRAGARHLIGQHDFTTFRSTICQAATPVKTVDRIDISAVE
+TLGGLEVHLDVRARSFLHNQVRSFVGTLERVGAGSLTPDDVKVMRDARDRQACGPVSPPH
+GLYLAHVDYPVDPFAR
+>tr|B7RPT8|B7RPT8_9RHOB
+MSEEENNNAVTTGLVKWFDPAKGFGFVVSDEGGPDILLHVNVLRNYGQSSVADGARIELT
+AHETQRGVQATQVHAIYPPQMPQTALLSDIVGVDPDIVAAAPIEPARVKWFDKSKGFGFA
+NVFGRSDDIFLHIEVLRQSGLSDLQPGEALALRVIMGERGHMAAEVHAWETVTIDETGQA
+QS
+>tr|B7RJ79|B7RJ79_9RHOB
+MASSDLIYYGDDRPGIARLRNGDHFTYRAADGTTIDRKTERARLDAMAVPPAYEDVWMSP
+LANGHLLATGRDARARKQYRYHEKWAAAQAETKFNGLVAFGHALPKLRRLVKRDLEEDAG
+ERVFALASAVTLIDRASLRVGNADYSRENGSYGTVTLQNRHVKLDGNKISLRYTAKGGKK
+VRRQINDRTLAKTLGKINDLPGAELLSWIDADGDVHQLNSTALNNYIAQAAGDDGFTAKT
+FRTWAGTVAAFEVGEKGAATIKDMARAAAQQLSNTATVARNSYIHPAVIDLAGADPLEID
+VGRTSGLFAAEARLLAFLEDD
+>tr|B7RM69|B7RM69_9RHOB
+MDAFLAAFAALPTGTHTGEFDGKRYIVSKSVFNAGKSWKLVAEELGGTDYISLNLYDLAS
+GPRLYPCEMPAEKVIAFVCGLTLEGQNASRT
+>tr|B7RN11|B7RN11_9RHOB
+MLNYTEYGTATDAPALLIVHGLFGSGRNWGVIAKRLSDSRRVITVDMRNHGDSPRADTQT
+YPEMAEDLAEVIRHIGAPMDVCGHSMGGKTSMALALLHPDLIRRLIIADIAPVAYDHSQQ
+EFIDAMRAVDLTTLTRRSDAQEQLAAAGVEPALQSFFTQSLDVATKSWKLNLDVLEAEMP
+NIVGWPTDISGTFDGPTFFLSGAKSHYVLPEYRPGIKALFPNAYFAKLPGVGHWLHAENP
+RDFEASVRAFLSPA
+>tr|B7RS69|B7RS69_9RHOB
+MDLFYIFLVLLVITRAFGELMERLKLPSLVGELIAGITLGAVLTGFPESFPTLSDISDNV
+VFAAITDLGMFFLMLYAGIELNPRKIVARAKASFFIAMGGMLLPIGLGILLGLAFIPESP
+LRFAQCLFLGTALAITAVPATVRILTDLGQLDTPIGETVVSAAVFDDVLSLILLAWLTGV
+LDAGSMADMGDLAVLSGNILVFFLVTAFIGLVVFPWGGRLLIHFKVHEIEMSAMLIGAFA
+FAVLAEILHLHFIVGAFVAGLFFDRNTIDEESYERLEQTVSAITFGFLGPIFFSSIGLEI
+DFSSVFDAPLFLALLILCAFLGKIVGAGLAARASGFSNKDSGSIGIAMSPRGAVELVIAG
+IALKAGLFATGGGVVPNLFSSVVVMAVVTTLVSPILLSRMFRSRPD
+>tr|B7RIX3|B7RIX3_9RHOB
+MTDLAAIKDAARKAGFARRKPLFASANDAQAGYLSEVLAGYRGVSLSGFMPIRTEIDPRP
+AMAEASAHGPVGVPVIIGAQQPLRFSRWTPDGAMIDGAFGARIPEVMDFFDPEIVIVPLL
+AFTRRGDRLGYGGGFYDRTLEQLRGRRATLAIGFAFAGQEVDALPVEPTDQPLDMIVTEA
+GVIDISR
+>tr|B7RPS9|B7RPS9_9RHOB
+MGTTKDTIPATTTLNTAPIKMPPIKPRAIEKSLLFISSVKRGSDGRLPLTMGLKPEHVMT
+IFIPWFSAVSLALNPAPIQRIRPCCC
+>tr|B7RQT4|B7RQT4_9RHOB
+MMPIGIACVAKMSAHHPLRKFSPKFVVTWNLFDSALG
+>tr|B7RH79|B7RH79_9RHOB
+MTGFFSLILIGLLAFTGPGIAQDAGPGLPAELPSSALADPGVSTEELAYRLIPLTKDELE
+PLAIAWLGIVQAKTREIAEKQVALLNDPSAATDAAYQEIARMVENRAGLFERFSMVVTAF
+ERKAGDETVVAELRAYRDAVFFSETILASPKAIAIAVLTWLTRTDGGLAIAKNIGVILLA
+FLALLFVSRSARVLARRSIGRVPKMSKLLEAFLVGAVFWLVIAVGLLFVLAALGVNVTPL
+FAMIGGASFILAFAFQDTLGNLASGLMIMINRPFDEGDFVQVGGVGGTVRSVSIVATTVT
+TPDNQVIVIPNKNVWGNVITNLTASDTRRVDLVFGISYEDSIPDARRVIEETVKQHPLVL
+TEPETVIRVHELAASSVNFVCRPWTKTADYWTVYWDLTQRMKEAFGEAGISIPYPQQDVR
+IRSKDR
+>tr|B7RJK1|B7RJK1_9RHOB
+MDKLNMMNQSSQNFAPTQADDDDSIDFGAMVGTLWRGKWIIALVTAIAVGLAAYYAYKVA
+IPLYRSTAVVILETQQDKVVDLQAVVGGFSGDATAVNTEVEVLRSRGLAGKVVDRLNLIE
+DPEFNARLRKPGMIASLKARINGLISSDEAPTDFAPDSVLMQNRIRDNVVASLLGKVGIR
+NITRSLVFNVTVESQSPVKSALIADTFVELYILNQIEVKFEATEKATEWLSNRVSELQIE
+LETAEKNVSGFTAQTQLVSVEALQALERQIKDLRDRISSAETANSVIETRLAGLLDAETD
+EAKLKAANDAALDRIAAGGLDTEASQNLFGARYAALIERAQADLLRSNQQLNALRVSEAD
+VSNQVSKQGQDLITLQQLTREAEATRLLYEYFLTRLKETSAQEGIQKADSRLLSKAVVPG
+APSAPRKTRIIAIWLILGAFLGSCIVLYREMKTSTFRTASDLERLTGYTVIGQIPLIPSR
+ARMDTLSYLSEKPTSAAAESIRNLRTSLMLSNVDKKPQVILSTSSIPGEGKTTVSLSLAK
+FLAGLGKSVLLVEGDIRRRTLNEYFPTLPKTGIASVLNGDVKFEDAIHRPKGFEADVLAG
+EKTNVNAADLFSSDTFKKFITEMRQKYDFIIIDTPPVLVVPDARIIAENADAILFSVKWD
+STSKALVEESMRFFHNSNQRITGLVLSQINEKGMKSYGYGNDSGSFAAYGRGYYDS
+>tr|B7RGX1|B7RGX1_9RHOB
+MSLIRPILNSYLRNIEKRRLAKTADVAEIRKRFALNARLFFHAPRGTQMAKVTLPDACEL
+MEITPRQVTSDLVIFYIHGGGFVFGSPETHAAMLAQLAARTGARVVMPRYRLAPEYPYPA
+AIEDVENAYLALVRSGVETGSIVIGGDSAGGALTFSLLGQIMANRWPMPRGAFGFSPFVD
+FAHQGASHRENAKREAVLPVERAERMVQMYLAGADRNDPRISALNADYQGAPPVWICVGD
+TEILRDDARRIQQRLKDQGVAVTFLEAHDLPHVWPIFHNILPEARQTLATLASWIKALPR
+PAGES
+>tr|B7RK44|B7RK44_9RHOB
+MQAARRDDRPDNGLLPGLIEQVEAAIVFFRLENENPMLAYLTLILVCQLAGELAVGALAM
+PVPGPVVGMVLLFILLIAIGSVPKGLDQTATGLLNSMSLLFVPAGTGVMLHFKLLGEALL
+PLSLALIFSTLATIVVTARLMQWLGKERADE
+>tr|B7RNI4|B7RNI4_9RHOB
+MPDDAPSNHAPDVPVASEAREGEVASAAEVSGEQDMDAIRREGLTGRQLRMARRVAQKHG
+LAPTSDFDAVRLLRSEGIDPFQRSNMLELVVPQGVSGGGDPHGRGRIQLPQTVPVGGKNL
+PSTELSPMDRRMREISDIQRDITKRRRRKMGLLMVRLLFFVGLPTIMGGYYFYNIATPMY
+ATDSQFLIIQNEGSGGMGPLGGLLPTQFANSADSIATQSYLQSKDAMLRLDKDVGFVSHF
+SDPKIDPIQRLDPEASNEVAYKFYKKNVKIGYDPTEGMIRMEVIAADPAVSADFSEHLLE
+YAEERVNALSQQKREDGMRDALTAFETTVKQRREAQEALIKLQVENGVDPEAVIASIRGQ
+ITNYETLLLEKELELAALLDNPRPNRAKVDGVQGDVRRISAQLDRLNERMNNATEGTNSL
+AQQAVSLQLAQADLAAADMSLQASQTQMEQARTEAQRQVRYLTVAVRPVASQAPSYPRKF
+ENTILTFLIFAGIYLMLSLTSSILKEQVTK
+>tr|B7RRW1|B7RRW1_9RHOB
+MKMALFGASLAVVFAILAGWRSRDHDADRTEMVRLLALQPQAPRRFDPAMVADLPEPAQR
+YFRFAIAKGTPLLTVADLSMTGLFSLGDKDRPDYLEMRARQVLASPHGFVWKMRTQSGLL
+PMSGSDSTAWTRFWMGGIVPVARAGGDKDHARAAFGRMVAEAVFWTPAAVLPGRGVTWQP
+VGPDVAKVTVRHGTMTQSVDVTVDTDGQPLSVTFPRWSNANPEKQYQEQPFGGFLSKFQS
+FQGYRVPTHVEAGNFFGTDRYFPFFIADVTDISYLE
+>tr|B7RQZ4|B7RQZ4_9RHOB
+MLEVKGVNSFYGKAHVLNDLNFSVEAGTVVALLGRNGAGKTTTMKSIMQLVRPRSGSVIY
+KGQDITGWPSHKVARAGLGYVPEERRIFTQLTVLENLEVGRQPPREGCTTWTDDMVFDLF
+PNLAERRSNRGKALSGGEQQMLTIARTLMGNPAFILLDEPSEGIAPVIVEQMARVILQLK
+DEGLTVLLSEQNLHFAQAVADGVVIIEHGTQKFVGTLAELQANPEIRDQYLSV
+>tr|B7RG06|B7RG06_9RHOB
+MIGRWSSKTVKNEEAEAQGFDAFELRLGDLMRGERATLGKSLLDVQRELRIKASYIAAIE
+NSDPEAFDTPGFIAGYVRSYARYLHMDPDKAFDAFCAESGFSVAHGMSAKASVIKKPTRE
+ERMNRSPDSDMFNRPATPFTPVGDSFLSRIEPGALGSVLVLVGLISAIGFGGWSVLQEVQ
+RVQVTPVDETPVVLSDLDPLQGALATSPKTSGTDEIFDNVATNPMTAPRGDSLDRLYRPA
+ALDVPVLIARDAPIASIDPRNSGTFTAGISAVKVAAVAQTGPVDVPSDVVAVPQVVEGMA
+PTLRLVAAYPSWVRIRAADGKVIYEGIMNKGDSWDVPATEEPPTLRTGESGALYFAMDGQ
+YFGPVGDRGAVTSNLPLHRQALAELYQPALIEENSALATMVAELQNAAETPTE
+>tr|B7RQI8|B7RQI8_9RHOB
+MIVNFETHASNERTFLAWVRTAVAIVGFGLAAARLGAKNVPLWSTYLLFGAGAAVVIIAW
+LRMRHVRKRIDLKESLPDDDGPAEAFLLLLLMALFVLLGTFAVHVTP
+>tr|B7RRI9|B7RRI9_9RHOB
+MSRSPLITAKNLSVHYPLRGSLIGPAPFVRAVNDVSLEIAPGSFFGLVGESGSGKTTLGR
+AMLRAAPISKGDVHFDDGEVAYSLKNLGKKELKDYRKRAQLIFQDPYAALSPRMTVRDIV
+AEPLEVMGLTRSRADTDERVREIAAKCRLNVEHLRRFPHAFSGGQRQRISIARALVSGPK
+FIVADESVAALDVSIQADVLNLLKAIQHDMGLTFLFISHDLSVVAHVCDHVAVMYLGRLV
+ETAPTRTLFSGPRHPYTKALLSAIPSLDPDDRGKAQKLEGEIPSPTNPPPGCKFQTRCPH
+AMDRCRVEEPVLESAGVEHNVACHRWKELIF
+>tr|B7RMY9|B7RMY9_9RHOB
+MHNEDTHIQDRTVYVKMIAVSDLPREVRDQAEGLEQLYAVHDAEGQQLALVGDRKLAFSL
+ARDHDYAPVMAH
+>tr|B7RK52|B7RK52_9RHOB
+MSIEMAKQGAGIALDSAVLCHGELERGELVPFAPLFPVVDFMAYWIVCPPRHLNRRIVKR
+FAHWVVTEAREHEERTRALLIRAGCQFRPAIDLEMTEVTPWAL
+>tr|B7RR05|B7RR05_9RHOB
+MKISESNWFEIEEYLKTDDRCVLPLGSTEQHAHLSLSVDTILSGKIAADAAAPLGIPVFP
+AVPYGLTPYFMGFPGTVSLRLRTYAALVRDILDSLYDTGFRRILIVNGHGGNSPVQPVCA
+EWMQDRDGARCRFHDWWRAPQTWAAVQDVDPIASHASWMENFPWTRLDGRPVPPEQKPYV
+DFDRLRDRNAQGVRELIGDGNYGGHYQKPDADMLRIWEIAVGETRALLEGDWA
+>tr|B7RL25|B7RL25_9RHOB
+MGTADGIGNLYSAKIIRDNTDRTGCSGPIKLLLRHCEIDPHVDQGNTPKSLLRAAMIC
+>tr|B7RML7|B7RML7_9RHOB
+MKYLTLAATTFLATSAYADTPELVVYTYDSFVSDWGPGPVIEKAFEETCECDLKFVGMGD
+GAALLARLKLEGARSDADVVLGLDTSLIAAAKETGLFEPTSVTADYDLPIAWNDDSFVPY
+DWGYFAFVHGTDLTPPTNFKALADSDLKIVIQDPRSSTPGLGLLMWVKAAYGDDAPAIWE
+GLADNVVTVTKGWSEAYGLFLEGEADMVLSYTTSPAYHLIAEEDATKSAAAFDEGHYMQI
+EVVGKLSGSDQPDLADAFMQFMVSDAAQSVLPTTNWMYPAVIPADGLPKGFETLITPEKA
+LLVPNDAVPALREKALAEWLSALSQ
+>tr|B7RJB4|B7RJB4_9RHOB
+MAVPAHHHDDRHALPATPKQMQYATALAAKTGAQLPDGIEADRAALSAWIDGHNPKPLEG
+RFADYPSSKQVGFAERIARLKRTQVPQECFRDKTMMSRWIDSNKPR
+>tr|B7RP14|B7RP14_9RHOB
+MRQTTISRSTAETEITVEINLDGTGSYENDTGVGFFDHMLDQLARHSLIDMKISAKGDLH
+IDDHHTVEDVGITLGQALTKALGDKRGIRRYGSCLLPMDDALVRTALDLSARPFLIWDVD
+LPTPKIGTFDTELVREFFQALSTHGGITLHVDMLHGFNSHHIAEAAFKSVARALREAVEV
+DPRKSGDIPSTKGAL
+>tr|B7RK16|B7RK16_9RHOB
+MMSQKYETGMKTRRHVLGDAHVDRAEAAKTDFDAPFQTLITEGAWGTVWSSDKITLRERS
+MLTLALLAATGNFEEIPMHIRATANTGASKTDVMEAFQHVAIYAGVPKANHALKLAKQTY
+KEMGEDL
+>tr|B7RLX3|B7RLX3_9RHOB
+MEERMEMAALAKEVIGNRVPLIVGTVAIRLEDSIQMAETAAKIGADAILVGSPPYSVPTE
+QENALNVLAIDRAADLPIMLYNYPGRMGIDMGAEFLDRVGRSRNICAIKESSGDINRVHL
+LARHYPHIQMSCGMDDQALEFFAWGARSWVCAGSNFLPAEHIALWRACAVEGDFTKGRRI
+MSAMMPLMRVLEQGGKFIQCVKHGYEMSGHHAGPPRPPLRALNKDDKRQLEQVVRVLKRT
+IAEIEAGAHA
+>tr|B7RSG0|B7RSG0_9RHOB
+MGFNRLDHASVYVGDLGKALTWYEDVLGLTVLSRDDKSAHLACRGKAADITLVKGTQSLD
+NFSFGVDDQEDLDRVESVLSKEGVASERLRGDSRPGEGDTLKLHLPSGHELRLCIGGAER
+RAGISDFDAKGSHVPCDMDHINLLGEVDPAVMRDFLMMIGFKSSLNISVGGQLAGVWLRG
+SDYDHDIAYMQATRPADRLHHVAFAVEDGNHYFRLSDRLLETGHRWEFGPGRHNAGLGKS
+TGFGTNNYAYAFDPFGNRNEFSSGMEQFPADATPLDCDIDPPQLIDVMNGWGYEMAETFM
+TVGS
+>tr|B7RQY6|B7RQY6_9RHOB
+MLDDLRDPKPEKIRCDACPVMCFIADGKSGACDRYANHAGELVRLDPLTVIQSGAKAVAF
+LDQGNNAQDWDGDVIQGGRDFVTAVGAGTTYPDYKPAPFIVSQEVEGVDMVTVVTEGIFS
+YCGVKVKIDTDRHIGDERAVVRVDGEAIGHVMTSEYGSKMLSLGGVEHLTGGSKKEGRVT
+CDALLRLCNREAVEMMIDGGVTMVVEAGKAPIINGTPEKLMRVGCGSATIGMFAKQWHGH
+VDEVVVVDDHITGVLSEHEAGKGLDMTPSGIRINGRRSTPGRYFQVADPGTGWGGTDVED
+PLTILRPADPKRAWPGLRLLMISTTGEQWAYFILDDDLEPQPADITPELLVVAERIAENC
+EPSLCSVLFMGGAGGSLRAGVTENPVRLTRSVKESLTHVSCGGAEAYVWPGGGITVMVDV
+MDMPTNSFGYVPTPALVAPIEFTLRREDYGTLGGHMEHIQPVAEVVTQDVRRVAQLALQS
+DPNDRENYGWSKRDK
+>tr|B7RIV3|B7RIV3_9RHOB
+MLKHRGFPGRMPGSDFQFTIRRANPKGVTPLTRRERRSDRKSVDRRADTAFMQALWECFG
+DEPFERGNLDAGRLSWLFGREVVPAQDPFDPEDYEALLVINVNLARASYPDVFED
+>tr|B7RHC6|B7RHC6_9RHOB
+MFYITGAIMRITTALTALALLPSALWADAHSTQTPVEYGPRPAYLIDKLPQGALKEKLAS
+CMSQTPTRTQFSIGHRGAPLMFPEHTVQSNVAAARMGAGVLECDVTFTADHELVCRHAQN
+DLHTTTNILMTDLADKCTAGFTPASGDTGASAECRTSDLTLAEFQTLTPKMDSADKTAST
+AEAYQGGVASFRTQLYTDKADLMTHAESIALFASLGAKFTPELKSPSVEMPHDGFSQADY
+AQKMIDEYKAAGIPASDVWAQSFNLEDVLYWVENEPDFGKQAVYLVEWSEGFDKQDKATW
+AQDFAALKAQGVQYLAPSLNMLLTNDGGKLAASAYAKAAKAADLKLIAWTLERSGPLASG
+GGWYFQSVNDIVKDDSDYLVALDVLAQDAGVEGVFSDWPATVTYYANCMGL
+>tr|B7RQ78|B7RQ78_9RHOB
+MLVLTCPNCGITAEETEFHAGGEAHLTRHGPGASDDDFEKYLFMRDNPKGVHFERWRHVY
+GCGKWFHAARDTMTLEIFGTYTAQTSTVPQDIIDKITDRRPDWQKSDAR
+>tr|B7RQW5|B7RQW5_9RHOB
+MNEILWSPTPDRYDASTMAAFERFLKEKRNLTFADYNAMWRWSVDDLDGFWGAIWEFFDV
+KASAPYIKVMANRQMPGAEWCPGAMLNFTDQIMKHVDSQANGDALIVQSETFGRKVLSWS
+DLRAQVASVAARLRGMGVEKGDRVVAVLPNTETAMIAFLATASIGAIWSLCAPDMGHVAI
+LDRFKQIAPKVLITQDGYVHAGKTIDRREILAGIEAELPSLIQCITVPFVGDLPAGHIAW
+DDLLHDKVEYTSTQVPFDHPLWIVYSSGTTGNPKPIVHGHGGIILESAKQSLHHDFKRGG
+RYCWLTSSGWIMWNSQFTALGQGTTVAMFDGAPNHPDMGVIWRFVGDEKLDFFGAGAAFF
+SGCMKAGIKPREDVDLGALKSLGSTGSPLSSDAYDWIYKDVKADVWLAPISGGTDLAGAF
+VLGHPGMPVRAGEMQCRALGNAVRAFDEDGNELTGVVGELVCTEPLPSMPLFFWGDDDGS
+RLHDSYFDTYPGVWRHGDWIEINEDGGSVIYGRSDATINRKGLRLGSAEIYQAVEGIDDV
+MDSLVVDLEFLGRESFMPLFVVPAKGVAVDDALKDKINAAIRKNVSARFIPNEIIEVAEI
+PRTLSGKKLEVPVKKLLLGQDPVKVVNRDSMANPDSFDFYIAYAAKRATQKD
+>tr|B7RRX4|B7RRX4_9RHOB
+MTSWKTLQAALAGTGYIASDDLATALHIAITLGRPLLLEGAAGVGKTEIARALATVKETQ
+LIRLQCYEGLDASQAIYEWNYQRQLLSIRAASEAGETGAAVEARIFSEDYLLERPLLKAI
+RQETPPVLLIDEIDRGDEEFEAYLLEVLSEFQITIPELGTITAKTRPLVILTANGTRDLS
+DALRRRCIYAHVDYPDRQTELAILASRSPTTEAHLARQIVGFVQKLREEELEKVPGVAEM
+LDFAAALAGLGIKDLTADPDVLLACLATLLKTQSDRAAVPIEVAARIAGKAA
+>tr|B7RFV8|B7RFV8_9RHOB
+MKTTTRALVIGGGVVGASVLYHLTKLGWKDVMLVERSELTSGSTWHAAGGFHTLNGDTNM
+AALQGYTIRLYKELEEITGMSCGLHHVGGVTLADTPERFDMLLAERAKHRFMVLDTEIVG
+PEEIAKIAPITNLEGIIGGLYDPLDGHLDPSGTTHAYAKAARMGGATIEIHCMVRETNQR
+PDGTWDVVTDKGTIHTEHLINAGGLWAREVGAMAGVYFPLHPMEHQYIVTDDIPEIYERD
+AEHPHVMDPAGESYLRQEGRGLCIGFYEQSARPWAVDGTPWGFGHELLPDDFDKIEQSID
+FAYKRFPVLATAGVKSVIHGPFTFAPDGNPLVGPVPGVRNYWSACGVMAGFSQGGGVGLT
+LAQWMVEGEPERDVMAMDVARFGDWISPGYTLPKVIENYQKRFSVSYPNEELPAARPHRT
+TPMYDIFSNMGAVWGQQYGLEVPNYFATDDEPTFETPSFRRSDAFGAVAREVAGVRDSVG
+INEVQNFGKYLVTGADARVWLDRIMAGRVPQQGRMSLTPMLSEKGKLIGDFTMSCLDEDR
+FQLTASYGAQAFHMRWFTQHLQGDVRVENISDRRTGFQIAGPNAAKVLQACTRADVSKIK
+FLDVSQMTVGMANCLIQRVSYTGDLGFEIYCDPMDQRSLWATLWDAGKAFDMVPFGMRAM
+MSLRLDKFFGSWMSEFSPDYTAAETGLDRFISFKKETDFIGRSAAEAEHATGPARLLCAF
+EVDSIDADVHGYEPIWHDGQVVGFCTSGGYSHFAGKSIALGFVPTGSARDGLRVEIEILG
+KMCPARLITMPLFDAEGTRMRG
+>tr|B7RH05|B7RH05_9RHOB
+MTRHLITSAIPYINGIKHLGNLVGSQLPADLYARYLRARGHEVLFLCATDEHGTPAELAA
+AKAGKPVEDYCAEMHEVQARIADGFGLSFDHFGRSSSIQNQRLTQHFAGALYNEGLIEEV
+EQRQIYSETDGRFLPDRYVEGTCPNCGFEDARGDQCDNCTKQLDPEDLINPRSTVSGATD
+LEMRATKHLFLKQSKMKDRLDDWINSKTDWPVLTTSIAKKWLHDGDGLQDRGITRDLSWG
+VPVKRGDEDWPGMEGKVFYVWFDAPIEYIACAQEWVDAGKGSDWERWWRTDKGADDVRYT
+QFMGKDNVPFHTLSFPATIMGSNEPWKLVDYIKSFNYLTYDGGQFSTSRGRGVFMDQALE
+ILPADTWRWWLLSHAPETSDAEFTWENFQASVNKDLADVLGNFISRITKFCRSKFSEAVP
+EAGEYGPAEHALIADLSERVSRYQAAMEAMEVRKSAAELRAIWAAGNEYLQAEAPWTTFK
+TDPDKAAAQVRLALNLIPFYAVLSAPFIPDAAASMLSCVRVDQPIWPDDVPAALAQLAPG
+HAFDVPEVLFAKITDEQREEWAEKFAGVRT
+>tr|B7RN73|B7RN73_9RHOB
+MAYQYDDQNIFAKILRGEIPNDTVYESDHALAFRDIQPQAPTHVLVIPKGPYVSFDHFAE
+AASDAEIVGYIRAISEVCKAEGVTLTLGEGFRMISNAGAHGVQEVPHLHVHILGGRPMGR
+MVARAD
+>tr|B7RS02|B7RS02_9RHOB
+MGRLVKAVFILLAILVFNFLLIHAAPGDPAAVMAGEAGAADEKFLSDLRAHFGLDQPLYV
+QLWLYIKGAVQLDLGYSFRQQMSVAEMIGDRLPATLLLTGVAFVLSLVLGVTAGVAASAR
+QGSWGDTIISTFALLFYATPLFWVALMATLVFSVWLEWLPGFGYSTIGAGYTGMTHVLDV
+AKHLVLPATTLGLFFMAIYMRMTRASMLEVSRLDFVKTARAKGLTRGVIQRRHILRNALL
+PVITLAGLQAGQVFGGAILTETVFAWPGIGRLMFEAINQRDYNVILGVFYISAAMVLLFN
+LITDVVYVIVDPRIRLTT
+>tr|B7RHQ5|B7RHQ5_9RHOB
+MRKLNFIIPAIIIAIVVALSSIFIVDEREKALVLRFGQIKQVREDAGIGFKIPLLDEVVR
+YEDRILSLETPMIEVTPADDRRLEVDAFVLYRIADVRQFRQALGADGGRQAEIQLNGILD
+GQIRAVLGSQGVTSNTILSPERSALMDQIRERSDARAQALGLDVVDVRLRQTNLPEQNFD
+ATLQRMIAERAREATDERARGREAAQRVTALADRTYEEILSEARRDARITEGEADAERNK
+IFAEAYSKDAEFFEFYRSLSAYEAALQGKNSTMVMSPDSEFFNYLRSDQGSRSAEGEQN
+>tr|B7RM48|B7RM48_9RHOB
+MTSLFKAPRRAAPFVLAAALASTSALALAPTTALAVPAGGYADLVETISPSVVFIEVSGQ
+AAQSGPKMEMPQGMPEELRRRFEQMMPNGDAPAQPVQGLGSGFIVSKDGQIVTNNHVVEG
+ADKVTVKLSDGRSFDATVVGSDSMTDIALLKIEADVDLPAVTFGSSDAMRVGDEVVAMGN
+PFGLGGTVTTGIVSAKSRNIHAGPYDDFIQTDAAINRGNSGGPLFNNAGEVIGVNTAILS
+PGGGSVGIGFSVPSDLVQTIVADLADDGTITRGWLGVQIRPMTAEIAQLLGYDAPKGAVI
+EAVGDDSPAKKAGLVKGDIILSFNGTAIDELRDLTRAVAETDPDETADVVVLHKGEQVTR
+AVTIGTLAAKEA
+>tr|B7RP60|B7RP60_9RHOB
+MMRLAILLGSLVLALFMGTLLIGPADISPVQSLHALILGEDGPMTLVMREIRLPRAILGL
+LIGASLGLAGAAMQGYLRNPLADPGLIGVSGSAALGAVLSIQTGLAAAIALALPMMALGG
+ALIGVLLVLLLAGPRGSSLTLILAGIAISAFAGALTSLVLNLSPNPYAASEIVFWMMGSL
+ADRSMVHVWIALPLIVAGGLLLASLPRGLDALTLGEDAAEAMGINLTRLRLSLVIGTAAV
+VGASTAVAGAIGFVGLVVPHLLRPLVGARPGALLWASALGGAAMILASDIFVRVVLPERD
+LKLGVVTALVGAPLFLHLIYRTRRDGV
+>tr|B7RRU7|B7RRU7_9RHOB
+MHIPATSLLQSLAFFTFSAACVWVAGARLAYLADALADRFKLGKSLVGLLLLSLATSLPE
+VATTLSAAAQQSRNLVLNNLFGGIALQTAILAMADFWAHGPITNYPRKANHALEATLLVL
+LLSVTLIITNLGETFVFAGVGLGSLCIAVIYGGAIWLLRRYDASSDWVPVDLPDPEPLVF
+PAPTGLGQAGNVNLIWQAVFACIAILVFGLLLVVFADRIADQSGLGTGFIGVTLLAGATS
+LPELSTSIAAVRIGAYTMAISNIFGSNLIMLVLVFPADILFRSGPILQNTSPMVSLSLAF
+GLTVTSIYLVGLIVRRKPWIGSIGLDSILVMLTFLASIAAYYYVR
+>tr|B7RIM2|B7RIM2_9RHOB
+MSDTNPVGNAFTRTITRLTSETDAQRDAANDKGRVWRIGSNERKNRFGDATGFVLIPEGQ
+PLLLAADAASIRKRAGFATHSLWVTQFDRDELWAAGYTPNQHPGGAGLPSYAAGNRSVDD
+EDIVVWHTFGLTHFPRSEDWPIMPVDYAGFKLRPENFFDRNPTLDVPEDPNGARKDGGSS
+CCHGAD
+>tr|B7RMG6|B7RMG6_9RHOB
+MIRLLYFSTARASLTTSDVADIVEFSQKNNAERDITGALAFNGRNFCQLLEGEETVVRDL
+VTAIEKDPRHSGFKIIDEKKVDGRYFADWSMLLVNELDFSKVINAMHA
+>tr|B7RSC1|B7RSC1_9RHOB
+MRQNPPYFAARYIGYNASKAALNMLTVQLAEELRESGIKVNSVSPGFVKTDRTGMGEMTP
+QEGAVLPVRYALGGDDTGSFVEPDGLTPW
+>tr|B7RFV5|B7RFV5_9RHOB
+MRTHAQAVVIGGGVIGCSILYHLTKLGWTDVVLLERSELTSGSTWHAAANIHGLHDNNNI
+ARIQNYTMDLYNALEAETGQSCGVFQPGSLYLAQTEAREHQLRLQAAKAKYYGLNFHEVT
+RDEAERLHPLVDYDGIRCIMFEPSGGNVDPSGVTNAYAAGARQNGAEIIRFCPVTGTEQQ
+PDGSWIVRTDKGDIATQWIVNAAGLWGREVAAMAGLTLPLQPTEHQYFVTETIPEIAGLD
+RRLPSVADRDGEYYLRQEGKGLLVGAYEKDLRFWAEGGTPLGFGHELFADDLERIEPNMM
+RAIDRVPAVGTAGIKRVINGPMIWSPDANVLFGPATELRNYFCCNGIIPGFSQSGGMGLL
+AADWIVSGESRYDMFAWDMARFGDWADAAFTKARVRDQYANRFKIHFPNEERAAGRPVRT
+RPVYETQKQMGAVFGLNYGWEHPLWFADTPGTADTDGFTRQNWWGPVGEECRMLREKAGI
+IDISNFAKYRCAGPGAEDWLNSLFANTMPKAVGRSCLTPLIGVRGGIAGDFTVTRMAEDE
+FWIIGSGMAERYHQRFFNALPLPDGTIFESRTVDMCGFNVAGPKSREMLQRLTNTSFETA
+DFPFMRSKWVEMAGIRVLALRVSFTGDLGWELHCATEDQPQLYAALLEAGRDLGAGPVGS
+RALMSLRIEKGYGSWGREYSPEYWPQEVGLDRLCKLDKEFLNKAAVMDVLEKPARERLVV
+LALDADATDASNADATGGEPIFKDGVGVGRVTSGAYGYSVGQSLALGFVKGIAAGQRVEV
+MVLGRAHGAVVLEAAPFDPEGIRLRG
+>tr|B7RIA3|B7RIA3_9RHOB
+MPDFKATTKEHAQMPDGTQKKPSRIQKRNRRVILDAALEVFSKQGYRGATLDQIATEAGL
+SKPNILYYFQGKEDIHLTLLSQLMETWLDPLVELDPDGDPQTEILAYVQRKLDMARDLPR
+ESRLFAGEILQGAPRMGPHLESDLKPLFDEKCAVIAGWIDAGKIAPLDPHHLIFSIWAAT
+QHYADFAAQVSVLLGKDADPHQSASDHLSAMFGKMLRP
+>tr|B7RJS5|B7RJS5_9RHOB
+MTKIIDFQTDPSKYRHWKIEYDGPIANLYMDVDEKGGLFEGYELKLNSYDLGVDIELADI
+VQRMRFEHPDVKVIVMQSAKDKVFCAGANIRMLGGAAHSHKVNFCKFTNETRNTFEAALA
+DSGQNYICAVKGACAGGGYELALACNYIMLTDDSTSSVSLPEVPLLAVLPGTGGLTRVTD
+KRMVRRDRADVFCSIEEGIKGKRAKDWRLVDEVIPNSKFDETVAERAKEMAAQSSKADVA
+AGIQLTPITRTFAADGISYTTVEVVLNRAAKRATVTIKGPDAAAPADMDALTAQGAEAWI
+LRCARELDDAILHLRNNEKELGLIEFQTQGDPELLVAHEALLLDNKDHWLANEILQYWKR
+LLKRVDMTSRSLVAIVEHGSCFAGPLAELLWAVDRSYMMLEEFDGDNRPLATVTLTDGNF
+GTYKMGNDLTRLETRFLGTPEDITKLEALKGEPLEADAADEAGLVTYVYDDIDWEDEVRL
+FMEERASFSPDAMTGMEANLRFAGPETMETRIFGRLTAWQNWIFQRPNAVGPDGALQRYG
+TGVRGEYNMERV
+>tr|B7RGU1|B7RGU1_9RHOB
+MEALHFEHLTCWKYSMEIRRADKIAELLEQALFAGQYQDGERLDEIKLAEQFEVSRTPIR
+EALQVLVSSGLAEQIPRRGVFVRQPGPVELMEMFETMAELEASCGRLAATRISESGLAQL
+VEANVKCQQAIENSDHDTYYLENEKFHQIIYRGAANSYLEKQALQLQNKLRAYRKMQLRF
+RGRMDQSMAEHLEIVAALQGEDAERAAHVLRSHVAVQGEKFHRLLASLKN
+>tr|B7RJJ9|B7RJJ9_9RHOB
+MITLVRAAVCAALFLFQGVQFAAAQDVALTSRDGKIELSGTLLGFDGTFYRVETEYGELT
+IDGSGVDCAGPGCPNLENFVAELWLSGSATMGKILMPALIDAFAARNGYSATRQDEDENS
+FTFVLVDQKTNKTVARFMFRASNTDEGFADLLADEADIVMSLREMRPDERQRAREAGLGD
+MTGPNRSRVLALDAVVPVVSASNPVRGISPLMLARVFAGQITNWNVLGGPDAPIDMHLPD
+DSSGLAQAITDQVLRPAGLDLAETVTRHAFPADLAEAVAKDPFAIGITSYAEQRDMSVLT
+LTGTCGFALDVSRRAIKTEDYPLTAPMFLYFPARRLPQTAREFLSFTRSPTAQIVIRRAG
+FVDQTPEEIPIEDQGNRFTNAITVAGADVTLEELQRMTATLKPMARLSTSFRFEAGSIRL
+DAQSRSNVQQLARALEIGQYDARRLLFVGFSDGDGAGRANREIALRRAEAVRRAVIKAAV
+TANLDRVTLDVDAFGEAMPMACDDSAWGRQANRRVEVWVR
+>tr|B7RN90|B7RN90_9RHOB
+MGHVIVIGAGQAGSSCVAKLRNSGFDGQVTLIGAEPVPPYQRPPLSKAYLLGDMSLERLF
+LRPESFYGDLDIELMLGTPVESIDTASQTIRINGDDMAYDDLVLTTGSVPRRLPASIGGA
+LDGVHVVRDLADVDAMAPRFGAGKKVLIVGGGYIGLEAASVAAKLGLNVTLVEMGDRILQ
+RVAAPQTSDFFRNLHKSHGVDIREGIGLERLVGDTRVTAARLSDGTELPVDFVIVGVGIG
+PGIDLAQAAGIEIENGIKTDSHGRTSAPHVWAAGDCTSFPYRGGRIRLESVPNAIDQAEC
+VAENIMGANKDYQAKPWFWSDQYDVKLQIAGLNTGYDRVITRRTDEDSIAFWYYKGAELL
+AVDAMNDPRGFMIGRRLIEAGKSPAPELVENPDTDLKALLKA
+>tr|B7RSE8|B7RSE8_9RHOB
+MIAFPAGTKVWIAGGVTDMRRGMNTLALSVQQGLGRDPHAGETFCFRGRKGDLVKLLWHD
+GVGMSLYLRRLEAGKFIWPVSQDGTAVAISSAQLGYRYCQVVDSRLCFPVKGVDHAVISA
+V
+>tr|B7RPZ2|B7RPZ2_9RHOB
+MTPDQITAAADMLFQAEATGQQCDLLSLAFPDITLDDAYAVQAAFVARKRAAGGRIIGWK
+IGLTSRAMQQALNITTPDSGVLLDDMLFESGDTVTKRRFIQPRIEAEIAFALKTGLSGAD
+VTREAVIAATDYVGPSHEILDTRVLRADPATGKARVIYDTVADNAANAGIVLGDARHPVD
+AHDLRWVGAVVKRDGVVEETGLGAGVLDDPVMGIVWLVQRLAAYGMGLSAGEIVLSGSFI
+RPIEAAPGNAFDADFGSFGRVTLNFA
+>tr|B7RIF5|B7RIF5_9RHOB
+MGLFSNAWYQGFVFKSVRYCDNIFDFWINDAPQVVAQVTQSVGENGSGIARDGRVARGQI
+TRDRVLDAAERCFADRGFDAVSMRQIAREAGVTLGVVSFHSGTKEALFQMVLKRRVIALN
+DARMDRLQVVQAKGEFGLGDLIGAYVTPFMEIASGKDPQWRAYAQLIARVAADDRHRVET
+GPYHDPAAKIFLIEMNKLHPGADSKTLAVGFSFMVAAMFGTVAGGNGVFRLATPPAQAAQ
+MASCKLLIDFCAGGLLRMLDPD
+>tr|B7RFU9|B7RFU9_9RHOB
+MRETVHVALPGREYDILIGPGLLAEAGHHIGPLLRRPRVVVISDETVAALHLDALRAGLA
+TDGITLEALSLPPGEATKCWAQLTRCVDWLLDQKVERNDVVVALGGGVIGDLVGFAAAIL
+RRGVRFVQIPTSLLAQVDSSVGGKTGINVAQGKNLVGAFHQPSLVLADTAVLGTLEARDF
+LAGYGEVVKYGMLGDAGFFDWLEDQGPALAAGDMAARVEAVRRSVQMKADIVMRDETEQG
+ERALLNLGHTFCHALESATGYSNRLLHGEGVAIGCALAFELSARLGLCAQEDPSRVRAHL
+KTMGMKTDLKDIDGDLPGAETLLDLMGQDKKVVDGELRFILARSIGDAFVTGDVPRDVVL
+KMLAEALADRR
+>tr|B7RRL7|B7RRL7_9RHOB
+MKTPDVPLTQDLVLVGGGHSHALVLRKWGMDPLPGARLTVINPGPTAPYTGMLPGHIAGH
+YDRDTLEIDLVRLCRFAGARLILAHATDIDRTARQIIVEGRGPVAYDVASIDIGITAQMN
+IPGFADHAVGAKPLDTYALRWREFMSAVKEGSVAPKVAIIGGGVAGCELSLAMAHALQQS
+GALPQVTVIESGPQISAVGDRAQRRLLQAMAAAGITLRTDATVERIEDGQVILKGQDAVQ
+STFTVGAAGAFPHAWLGQTDLPLIDGFIETTPDLAVKGDASLFAVGDCAAMPFAPRPKAG
+VFAVRAAPILHHNLRAALTGGARKPFKPQKNYLKLISLGKKSAMAEKFGIAVSGPLLWRW
+KDHIDRAFMDKLGTLPAMAAAEIPDNVALGAREIMQEKPLCGGCGAKVGGGILSDALATL
+APARHPDVVTGAGDDAAVLRQPGGGFQVLSTDHLRAMVHDPVQMTRIAAVHALGDIWAMG
+AQPQAALSSLILPRMSPVLQARTLREITDTAQEVFTAAGATLVGGHTTMGAELTIGFTVT
+GIRGTMPITVAGAQADDVLLLTRPIGSGVIMAAHMDGTAQGRDVANALDQMQQPQSRQSD
+ILRNAHAMTDVTGFGLAGHIQAICAASGLRAEITQSAVPVYQGARALSQNGTASSLLSAN
+IAHAPTSGITAPLLHDPQTAGGLLAALPQSAADDAIRTLENERLRGWIIGSLQAGHGPIT
+VN
+>tr|B7RIK3|B7RIK3_9RHOB
+MISQDLNDRITRIGPNTPAGAVLRRYWQPAALAEELAHGDNVPVNLLGERLTLVRDDADQ
+LVLATRIASNDEPPAFYPAAKDIKVDHTGPVYPVENRNGLFFAYMGPGTPPEFPNFDCFR
+APDSHVFAFKGLWECNWLQALEIGIDPAHASFLHRFLEDEDTSDGYGKQFRDKAADTDIP
+MTQILREYPRPDIEVEETDFGLKITALRTLNNGKTHVRVTNQIFPEAICIPMSREMTITQ
+WHVPIDDYTCYWYTMFTSFQKPVNKNLMREQRLKEHRLPDYAPLKNRTNDYHYDPAEQAT
+TTYTGMGLDINVHDQWAVEGMGRIQDRTQEHLGRSDAAIIRYRRMLRAAIAAVEQGTDEL
+PMRNGKAPLDMVGPLSNDAIANSADWKDASRQADLARRSECPWDATV
+>tr|B7RPA2|B7RPA2_9RHOB
+MTAPAHSRPTACLALADGSLFYGMGFGATGQTVAELCFNTAMTGYQEIMTDPSYAGQIVT
+FTFPHIGNTGTNPEDDETGDPVAAGMVVKWMPTDPSNWRSTQHLSEWLAARGRIAIGGID
+TRRLTRAIRHQGAPHAALAHDPDGNFDIEALVAAARGFAGLEGMDLAKEVTCAQSYRWNE
+MRWAWPEGYATQENAPHKVVAIDYGAKRNILRCLASVGCDVTVLPASATYEDVMAHEPDG
+VFLSNGPGDPAATGVYAVPMIKSIIENTQLPIFGICLGHQMLARALGGNTVKMSHGHHGA
+NHPVKDMDTGKVEITSMNHGFAVDAQTLPKGVVETHQSLFDGSNCGIRMEGRPVWSVQHH
+PEASPGPQDSFYLFERFAAAMAERAA
+>tr|B7RPL6|B7RPL6_9RHOB
+MTGPVWILADEQTAARGRRGRSWATPKGNFAATLMMRRAEAPGVAALRSFIASLALRRAF
+VRVTGDDGAFALKWPNDVLLNGGKVAGILLETTGDHLAIGIGVNLAHAPGADQVEAGALR
+PVSLVGETGISVSTSAFLDALASEYAPLEAQFQTFGFAPIRTAWLVHAARLGEEIVARTM
+REETRGIFEDVDESGSLILRTPKGRVPITAADVFF
+>tr|B7RGP3|B7RGP3_9RHOB
+MSELLSDPFLNASPVLVATGLTAGTSIETANGNRTIDWLRLGDLIETLDDGLQPLRSINR
+QKMFGKGGNAPIRIASGVLGNVAPLLLAPQHRVLMSGWQAELYFGQEEVLVEARSLVNGT
+TVTREVVAHVEYVSLGFDDHQIILAHDAPVESDLPHHALSFRHAIGQCAGTRTPQLLARP
+AVEGNQAQLLSL
+>tr|B7RKX1|B7RKX1_9RHOB
+MEKTPTVLDEMNDRSREVFRRVVEGYLANGDPVGSRTLTRDFSEKVSAATIRNVMQDLEY
+MGLLGSPHVSAGRIPTQMGLRMFVDGMIEIGDPTDIDREKIDATMGDNGADVSGILDRVG
+SALSGVTRGASLVLTPKHEAPIKHIEFVSLSQDRALVVLVFSDGHVENRLFTPPPGQTPS
+SMREAANFLNALVEGKTISELQRAISNEINQRRQEIDILARQLVESGLALWQGEGEHPER
+LIVRGRSNLINAEGEAENVELIRQLFDDLERKRDIAEFLELADAGDGVRIFIGSENKLFS
+LSGSSLVVSPYMNADRKVIGAVGVIGPTRLNYGRIVPIVNYTAQLVGKLISNRS
+>tr|B7RQ81|B7RQ81_9RHOB
+MAFSLPDLPYAHDALASKGMSAETLEYHHDKHHNAYVVNGNKAIEGTEWADKSLEEIIKG
+TYDPKAVAQSGIFNNISQLWNHNQFWEMMGPNGNAMPGDLEKAITESFGSVDKFKDDFKA
+AGAGQFGSGWAWLVKDTDGGLKVTKTENGVNPVCFGQTALLGCDVWEHSYYIDFRNARPD
+YLTNFLDNLVDWENVASRM
+>tr|B7RPK8|B7RPK8_9RHOB
+MANIDYTRHAKYFLLQDFYQGMKLGFKYFFAPKATLNYPHEKGPLSPRFRGEHALRRYAN
+GEERCIACKLCEAVCPAQAITIDAEPRDDGSRRTTRYDIDMTKCIYCGFCQEACPVDAIV
+EGPNFEFSTETREELYYDKAKLLENGDRWEAEIARNLELDAPYR
+>tr|B7RJA3|B7RJA3_9RHOB
+MVPGIVFGGDVDPLPINLDFNKLLTKLRAGRFKATLFNMKVEGHDDVRVICRDVQRHVVK
+DLPTHVDFMRLKRTTKINLFIQVEVSGEEECPGLKKGGVLTLVRPEVELVVTAGDIPDHI
+TVDISGLQIGDSATIANVVLPEGSKPVIDRDFVIAQVSAPSGLASQDDEDEDVAADEVPA
+TEVNED
+>tr|B7RN78|B7RN78_9RHOB
+MADDPKTLVSTDWLAQHLKDPDLRLLDASWYLPDAGRDPKAEYNEAHIPGARFFDIDEIS
+DARSDLPHMAPPAEKFMSRMRAMGVGDGHQIVVYDGAGLLSAARVWWLFKLMGQENVAVL
+DGGLPKWIAEGHPTEDMPPIPRDRHMTVRMQNQLVRDVTQVAQASKLKDPQIVDARAAAR
+FRGEAPEPREGLRAGHIPGSRNLPYTELLTADNTMKPVEDTKAAFEAAGIDLSRPVITTC
+GSGITAAILALALERMGHKNWSLYDGSWAEWGMFPTVPVATGDA
+>tr|B7RQ19|B7RQ19_9RHOB
+MSVALVIGIGVWGYKLLVRDVSGIPVVRAAEGDMRVRPKEPGGQLAANQGLSVNAVASDG
+TASALADRVILAPRPLTLEDEDQPTQTAMVASAPQKKTPVPDIAAALQSGDVDGLVAQLT
+DGMDPIEDDDAPLEPIKASATVDMDTLEMSVSNAIAVAMVAEPGVKSSLRPKTRPATRAV
+VTPASFTPAAASGSVNELAASDLPSGTRLVQLGAFDSPEIARAQWDTLNGRFGAYLEGKS
+RIVQEASSGGRTFYRLRAHGFEDIADARRFCSALVAENADCIPVVTR
+>tr|B7RLX0|B7RLX0_9RHOB
+MEIQMSDETRTKKSVCIEDLRRRILTQDLEPGAYLDETQISVAYSISRPPLREVLRQLAG
+EGFVVLHDNRGAQVAPMTHKTMRNFFVAAPMIYAAVTRLAAEHATAAQIMRLKDAQTLFR
+AAIRKGGCSRARADEPAVSRDHRGHGR
+>tr|B7RNE1|B7RNE1_9RHOB
+MQLTPREKDKLLIAMAAEVARKRLARGVKLNHPEAIALITDTVVEGARDGRSVADMMQAG
+AQVITRDQCMEGIPEMIHDVQVEATFPDGTKLVTVHNPIR
+>tr|B7RM02|B7RM02_9RHOB
+MTDDPDAILNQLPRRLKAARAAQGLSLDAVAKLSGVSRSMVSQIERGESSPTIATLWNLT
+RALQVDFAGLLDGGQRPAEIEVLRAGEVPTIHNLGSGCHIRILSPPEEAGKHEVYELLIE
+PGGSLESLPHTRGAREHLTVIEGSVELRSGESSSTIQTGDTARYPADVPHAISAKDGAVR
+AFLVVQDA
+>tr|B7RP02|B7RP02_9RHOB
+MEGFLFQASIYLAAAVIAVPIAARLGLGSVLGYLAAGILIGPAFGLVGSETKDLQHFAEF
+GVVMMLFLIGLELEPRALWNMRHRLLGLGGLQVVISAAALMGIAMAYGQPIGVALAVGLT
+LSLSSTAIVLQTLSEKGLMQTAGGRSVFSVLLTQDIAVIPILAFLPLLVVNMPTPVTLQA
+DGSMTLATGTDGAHGAGGHGETEAVGQGAETAQAAISLVQGLPGWGITLVTIAAIAGIII
+TGVFFMRPVFRFIHAAKLREMYTALALLIVVGISFLMMLVGLSPALGAFLAGVVLASSEF
+RHELETDLEPFKGLLLGLFFITVGAGINFELLYADTVIIVGMALLVIIVKGLILYGLGTL
+FKLQGRDRWLFALGLAQAGEFGFVLVSFSVATGAMPDDVAETLLLVVALSMLITPLLFIL
+YDQISKRTEAKSGPLIADEIDEKGTVIIAGIGRFGQIVNRLVQASGFRTVVLDHNPETIA
+VMRRFGYKAFLGDPTRPDILRKAGLKDAKVLVVALDDRKAALQLISYARKEHPGLHIVTR
+AHDRTDVYQHYQAGANDIVREMFDSSLRAGRYVLENLGLSDYEAAEAQRMFYSHDRASVR
+ELASLWRPDIPPSENKAYVARAKELQKDLETAFMNRIDEEERKSA
+>tr|B7RFL5|B7RFL5_9RHOB
+MEDAHRMTDKNQPISGNDLARFSGPSTFMRLPSANDLKGLDVAVLGVPLDIGTSWRSGTR
+FGPKQVRSESAMLRPYNLATGAAPFDGLQVADIGDLAINTFSLSESLTIIKDSYDAILDY
+DVMPLAIGGDHSITLPILRAISKRHGPVALIHVDAHADVNDEMFGERETHGTVFRRAHEE
+GLIIPEKTYQIGLRGTGYGADDFTEAAGWGFQQFPAHDLWHRSLSPLGAEIRRDIGDAPV
+YITYDIDSLDPAFAPGTGTPEIGGLTTPQAMELIRAFKGLNIVGADLVEVSPPYDTSGNT
+ALTGANILFEILCVLPGVAYR
+>tr|B7RIH2|B7RIH2_9RHOB
+MTPLLYSFRRCPYAMRARLAIQAAGIPVHLREVVLRDKPAAFLAASPSGTVPCLVLPEGR
+AVRVIDESLDIMFWALKISDPDGLLDMPASGRDLIARCDGPFKHALDRTKYATRYPDSDP
+LQHRAHAAAFLTDLNAQIDTHIFDRPTVADLAIAPFVRQFAFIDKPWFDAQPWRQVQAWL
+AAFMASDDFARIMAKYPPWAEGDAPTPFPPAGDL
+>tr|B7RJY6|B7RJY6_9RHOB
+MAAKEKTGNAFVETIKTIVYALVIAGVFRTLFFQPFWIPSGSMKETLLIGDFLFVNKMAY
+GYSYASCPSIMVPRFGIEIDAKDICGAFDGDNTRLFASQPERGDVVVFRHPVSGRDYIKR
+LIGLPGDRIQVTDGVISINGTPVTLRPDGVFEEEMTRQGPQGMRPRCENGAIGEGGICEK
+SRQIEVLPNGVEHPILNIGNQASDNTGIYSVPEGHYFFMGDNRDNSADSRLAQQAGGVGY
+VPFENLIGRADRIMFSSGGRSMLFFWTWRGDRFFKAVK
+>tr|B7RNH8|B7RNH8_9RHOB
+MKTAQDYLDEANAVVPKMDVKDAIEKHATRNGVFIDVRDTAAIAESGTIKGAHRVPRGMI
+EFRADPKVEAMYNPIFQKDAEIYLICGAGGQAALSGKTLHDMGYTNVTNIGGFPGWKDAG
+GPTEA
+>tr|B7RPB9|B7RPB9_9RHOB
+MTLRPPWGKALGMHYTTVILGAGAAGMMCSAHVGGSVLVVDHAKAPGEKIRISGGGRCNF
+TNMHCTPAAFICANPHFAKSALARYTQWDFIELVDAHRIAWHEKTLGQLFCDVSAKQIVA
+MLREMMQKAGAELRLNSSLEDIRKTDSGFAMSLITPDGRTAVTADRLVIASGGKSIPKMG
+ATGRAYDIASHFGIPVTPTRAGLVPFTFTDARFAPISGTAVPARVTAGGTTFDEALLFTH
+RGLSGPAILQASSYWDEGTEISLNILPANDLFEKLRAQRQTYGRRNFTTELAHHLPGRLV
+DHLASQFDLTGNLADWSDTRLQSLCDTLSNWTMTPSGTEGYRTAEVTLGGIDTDALSSKT
+METKTIPGLYFIGESVDVTGWLGGYNFQWAWSSAMAAARHIAKP
+>tr|B7RIY4|B7RIY4_9RHOB
+MRALLQRVTQASVTVDGTIIGKIDAGLLILVCAMPDDTEATAQSLAAKIAKLRLFKDDAG
+KMNLSLAQTGGSALIVSQFTLAADTSRGTRPGFSYAAKPDVANALYEHFVGCMKSLDIPT
+QTGQFGADMSVALTNDGPVTLWIDTQA
+>tr|B7RJR5|B7RJR5_9RHOB
+MAQAVETRARLSAAFDLPLTAFEIVVIKVTGDMIQDRPLKEIGGKGLFTREIEEDLLAGK
+IDIAVHSMKDMPTVQPGGLLLDTYLPREDPRDAFVAPLMSALDQLTEGAVVGTSSLRRRA
+QLLHKRPDLQVVEFRGNVQTRLRKLADGVAECTFLAMAGLNRLGMENVPATPIDDTDMLP
+AVAQGAIGIERRAGDLDTEALLAAIHDTPTGQRLIAERAFLLTLDGSCETPIAGLATLDG
+DTLHLRGEVLRPDGSEVISGDRSGPIGDGGQMGVDLARELLSQAGPNFFDWHATKQG
+>tr|B7RLD2|B7RLD2_9RHOB
+MSRVCELTGKGPMTGNNVSHAKNRTRRRFLPNLNDVTLQSESLGRSFKFRISAAALRTVD
+HRGGLDKFMAKAKDTELSGNALKVKKAIAKSATTTADALS
+>tr|B7RG88|B7RG88_9RHOB
+MDTDMIHPGLRSGTEGALPDLGTGLEHKFARFGEGITVEGGTEISGYASLFGSVDQGGDV
+VAKGAYGASLIAGAKADRRIKMLWQHDPSQPIGVWDEVREDARGLWVKGRILDSVAKGRE
+AAALIAAGAIDGLSIGYRTVRAAKNHAGQRLLTELDLWEVSLVTFPMLPTARVAAKSDFS
+AVGDVLRDMAAAFEEARQELTR
+>tr|B7RP72|B7RP72_9RHOB
+MALDDRKKSGEGPEKGVWKSGKGKGRTHTKGRQLDDAAWDQVRALLGDKPRRADLLIEHL
+HLIQDEYGHLSAAHLRALAEEMRLSMAEVYEVATFYAHFDVVKEGEVPPPALTIRICDSL
+ACEMAGAQELKAALEEGLDATQVRVVRAPCIGRCDTAPALEIGHNFVDHATVEKVEAVIA
+AGDIHVHVPDYEDFAAYSNDGGYETLKTLRATGDWEAVQDQLLEAGLRGLGGAGFPSGKK
+WGFVRGNAGPRYMAVNGDEGEPGTFKDRWYLERVPHHFLEGMLIAAWAVEADKVFLYMRD
+EYPQVLALLRTEIAALEAAGIVEPGYIDLRRGAGAYICGEESAMIESIEGKRGMPRHRPP
+YVAQVGIFGRPTLVHNVETLHWVARVCREGPEVLNSTVKNDRKGLRSYSVSGRVANPGMY
+LLPAGSTITDIIDAAGGMADGHVFKAYQPGGPSSGLLPASMADVVMDFDTLQPHGSFIGS
+AAVVVLSEHDSAKAAALNMLRFFEDESCGQCTPCRVGCEKAVKLMQADRWDKPLLEELSQ
+AMVDASICGLGQAAPNPIRLVMKHFPDEV
+>tr|B7RSF1|B7RSF1_9RHOB
+MELYLKVRRAHFQDGLSGRQIARDFGISRDSVAKMLAHSEPPGYRRTAAIKRPKLDAYID
+QIDRWLAEDKMRPRKQRHTSKRIFERLRDECGFNGGYTIVKDYVRNKKRGSREMFVPLSH
+PPGHAQADFGEALVVIGGIEQKAYFFALDLPHSDACYVRAYPAANTEAWLDGHVHAFAFF
+GAVPQSVLYDNDRCLVAKIMPNGERQRTQRFSAMLSHYVVRDRYGRPGKGNDKGKVEGLV
+GYSRRNFMVPMPRFASWAAFNDYLEEQCCKRQADILRGYKISIGERLQADLAAMQGLPDA
+PFEACDLRSGQVTSTSVVRYRGNDYSVPVAFGHREVWIKGFVDRVVIGCAAEVIAQHVRS
+YDKDDITFDPVHYLRLIERKIMAFDQAAPLQNWNLPDAFSTLQRLLEARQGKAGKREYVQ
+VLRLLERFEMEVLHNAVKDALQMGAISFDAIKHLVLCRVERSSLGWIWISIRFCPERMSR
+RHQPHPT
+>tr|B7RJ24|B7RJ24_9RHOB
+MRYRFDHFTLDIDRGILLEGGRDAPIEPRAFKLLALLVTHHDRIVTKDEIVENVWDGRIV
+SDAAIATVIKTTRKVLSDDGVGQKYLRTIRGRGVRFVGTLMPSLAAEARKPETDQAQPAP
+VQTASRPTIAILPFQMVGYSETFSAIADAIPAELISCLSRLRWLAVVSRGSTFRFRETEP
+DLATIHAALGAKYCLTGLVEIFGSVIAVSVELSDTRSQDVVWSERFSGTISDINETRNDI
+VTHVISALELHVPLNEAKRARLRPPENLDAWSIYHLGLQHMYRFNKTDNLIAASHFEKAT
+ILDPEFARAHAARSFTSFQSAFLKYSTDAAEEASNTRRFAEKAVELDPIDPFANFTLGRA
+HWLISDPEAGMPWIDRAIELSPNFAQGFYAHGWGDVMAGRGVEALQQLQTAISLSPLDPF
+LYAMQSACGLAYLQMEDYENAVLWAEKGARAPGSHFLIGAIAAMICKISGDEEKARRWAK
+TTKDRRPDASVEMFFAAFPFENQEIRALIGSALISIGFQAR
+>tr|B7RK06|B7RK06_9RHOB
+MARTPTPAPSKEEREKSRELGALRALVPFIAPYRPLMFAAILALVVTAVISLMLPLAVRR
+VIDNFGSGEELLDQYFIAALVIAGFLAVGTGLRYALVTRFGERVVADIRKAVFDRVISMS
+PAFYENIMTGEVLSRITTDTTLILSVIGSSVSIALRNMLIFSGGLVLMLFTSAKLTGMVL
+LIVPAVVIPILVLGRKLRVISRQNQDWIAASSGNASESLGAVQTVQAFTNEAASRGQFAQ
+MTEESYDAARRRIQTRALMTVIVIFLVFAGVVGVLWMGARDVRAGDMTAGALVQFVIYAV
+MVAGGVAALSEIWGELQRAAGATERLVELLQTEDTVQDPLQPAVLPSPVAGRITFENVAF
+SYPARPGVQALDGISLTINPGETVAFVGPSGAGKTTIIQMILRFYDPQSGRITLDGIDLR
+DMARAQFRRSVALVPQDPVIFATSARENIRFGRPEATDAEIEAAAEAAAAHGFISALPDG
+YDSYLGERGVMLSGGQKQRIAIARAILRDAPVLLLDEATSALDAESEGAVQAAVDKLSAD
+RTTLIVAHRLATVKKADRIVVLEAGRIIDTGTHDELVGKGGLYARLARLQFTDGIAAE
+>tr|B7RFP5|B7RFP5_9RHOB
+MNAADTAWIMTATALVLFMTLPGLALFYGGLVRSRNVLSVFMHCYAIACLMSVLWFLFGY
+SIAFGSGTSGFWGGLDKMGLNGVTADSLSGTLPEVLFFAFQMTFAIITPALIVGAYVERI
+GFGFVLLFSGLWMLLCYAPVVHWVWGGGFLADGGIFGEIGARDFAGGIVVHETAGLAALI
+VAIFLGPRMNHNTPPHNPGYVMIGAAMLWVGWFGFNGGSQLAADGGAAMAITVTHISAAT
+ASLTWALWERVKFGKSSMVGIVTGTIAGLASITPASGFVGPWEALLIGAVAGVLCQEAVV
+LIRNKIKIDDTLDVFAVHGVGGIFGTIMIAAFGAGTWAAQLGSLAIVGVYTTVVTLVLVF
+ICKAITPLRVSKDEETSGLDISVHGERAYDHTS
+>tr|B7RIN9|B7RIN9_9RHOB
+MRHAALGVVLALLAGAVMAPAQAEGGFDWPLPDWMPRPPVPEDNPMSAVKVELGRHLFYD
+ARLSGDGTVACASCHDPARAFTDGRDRAVGIHGTVGNLNAPSLANVAYLPVNAWANPHMT
+SLEFQALVPLFGDAPDEMGATGQESRIFATLATDPNYSRAFAAAFPDRPGPDLFTVTRAL
+AAFQRSLTSFDSPYDRFKYGGDLDALSEAAKRGEQLFFDHRFECYHCHQGVLFTDNFQRE
+GSPWVETGFHNTGLYADYPATAPGRIEITGEPGDAGLFRTPSLRNVAVTAPYMHDGSIAD
+LRGVLAHYARGGREGHANQDGMIVGFQASEAEIDDILAFLNSLTDETFLTNPAHADPWPD
+DHLARINRAAP
+>tr|B7RN04|B7RN04_9RHOB
+MTEISFDDFLKVDIRVGTVSRAEPFPEARKPAIKMWIDFGPEIGERKTSAQITVHYTPED
+LVGTQVMGVVNFPPRQIGPFMSEVLVLGVPDENGAIVLMRPTQPTPNGGRMH
+>tr|B7RS31|B7RS31_9RHOB
+MIPERADFAVIGTGPSGCMSAGLLAKAGFDVVMLERDVHPRNTVGENMIPDFWKFTDMIG
+ASEDIKKAGFVTKRGGRVHWDGQVERLAFRDFGYERPGLHVDRDEFDSILVRHAQRLGAR
+LFENVTVRKVDFGEERQSVRYDTADGPGQISVRYVIDASGQGGLLARQLGTRVTNPDFRF
+MAFWGYFENSRYYDYDGVSYPHSMIQDVPCVTTQVSLTEGDHIGWAWHIPLRKSTSVGCV
+LLRETVVKLKQNFDNWEDRFEHLVGNEPVLQHLLENATLIDRKFHFINNFSGHSAQIAGP
+GFFQVGDAAGFFDPIFSIGVTLGLYSGSLAAWFAAECVRKPQNVARYQTYFNRQMLGRIE
+LARGIALPHYASSPLQEDRASQTLRFTSDNGMDLLKSAAKMPKRASNLDRLLI
+>tr|B7RGZ7|B7RGZ7_9RHOB
+MKFSANLGFLFTDLSLPDAIRAAKSGGFDAVECHFPYDTPPPEMKDALAQTGLRMLGMNT
+WPGDRAAGDFGLAALPDRVDEARAEIARAVDYAAAAGVEAVHVMAGRTDGGPAAEECFRA
+NLNHACDLAAAHGLSVLIEPINTRDVAGYHLSGTAHAERIVNDLARPELKIMFDCYHMQI
+MQGDLANTLEHLLPKIGHIQIAAVPDRGEPDCGEVDYGWLLPHLTALGYQGHIGAEYRPR
+AGTEAGLGWMARMRLAQ
+>tr|B7RH93|B7RH93_9RHOB
+MLAAPWQTGIQRIEAYFSGDAYAPHRHDTYSIGYTIRGVQSFDYRGARTDSVAGQVIVLH
+PDEVHTGEAGTAAGFHYRMLYVEPSLVRDALGQQASALPFLRDAVLSDPRLKQAIHAAFT
+DMETSLEAVAMDELAVLLADGLIANDESAQRTTRSLIDFTATNRAKEFLDGNLDQVVHSE
+QLEKVTGLDRYSLSRQFRKAFGTSPYRYLTMRRLDQARGDIAAGATLVDAAMRAGFSDQS
+HMTRRFKAGYGISPGQWQRLVCKT
+>tr|B7RKG9|B7RKG9_9RHOB
+MKSISAFPTKQEMRDHKRREIVRCASEKFGTEGYDNVPLEAIAAELGVTKAALYNYVSSK
+NDLLMQCYEVGMDRLITAVEQAMDTPGTAAERLRIGLETYVVTMTRKDMQYLWNYIRPLL
+SPGETHSVQTSRDQIDSIFRAMLKNGIEDGSLRADLDPKLASLVILGAINWVGIWFRPSG
+AQKSQEVAREVVGEALRGYLTS
+>tr|B7RN57|B7RN57_9RHOB
+MALSLPQDAMAQLFQARPANDLPEVPDFNICPTDPVHIVTSTEDGPRSLSAMRWGFVPHW
+YKKPDDGPLLINARAETVADKPAFRDAVRVRRGLVVASGYYEWTKDAEGGRDPWYITRQD
+GSPLAFAAIWQEWTAADQSRLRSCAIVTTAATGAMTGLHHRVPVLIDPPDWALWLGENGK
+GAAPLMRAAADGVLGWHRVGRAVNSNRASGPTLIAPLRNGGDD
+>tr|B7RQU7|B7RQU7_9RHOB
+MRDKINPDSFGFLINDIARLSRAVFEAEIEAAHLSVTAAEARVMAHMARCGATRQHLLAE
+RLGMTPMSLTGFLDRLEAAGLIVRTADLRDRRAKIVTLTPKASDVLAQIAQAGARAEQTL
+SDGISPDDWENFHRIALQLRCNLSAPRVQTAKAEDAA
+>tr|B7RHZ2|B7RHZ2_9RHOB
+MWRERIIRNPNQVLGEIGLLATEKGYIVDETHDPGVKLAGLKAGDRVARVNGQTVGNIEQ
+DRKFFDDVAASGVARLEVVRDDKTFVLSFPLR
+>tr|B7RL84|B7RL84_9RHOB
+MAKTIVIKQIGSPIRRPADQRATLIGLGLNKMHRVRELEDTPSVRGMIRKISHMVEIVEE
+KG
+>tr|B7RM33|B7RM33_9RHOB
+MLYMPAIDLPFSPLEYDRRLKLVRDEMSRRGLDALFVTDPSNQAWLTGYDGWSFYVHQGV
+IILPDADPIWWGRNQDTNGALRTVWMGADAVRGYADGFVQSTERHPMQDLAKHLAGAGVE
+AGRIGVEMDNYYYSAKAHASLCESLPKAQVVDATALVNWKRTVKSEPELAFMRKAAQISE
+KIVDGLLERVEPGVPKNEIVAEIYRDAIRGVDGAWGDYPAIVPLLPSGSDAAAPHLTWDG
+RPFATGEATFFEISGCYRRYHAPFCRTLFLGTPPDFLKRAEAALVEGLEAGLDKARAGNR
+ACDVANALAAPLEKAGIERGARCGYPIGISYPPDWGERTISLRSEDETVLEPNMTFHFMP
+GLWMKDWGIEITESIRIREDGAAETFCNRPRKMFVK
+>tr|B7RJ40|B7RJ40_9RHOB
+MKKHILVVDDNPDDREVITRNLNAMDGFALPFLEAVDGKSCIAHIASGQQIDCVTLDYSL
+PGADGLAVLREILEIEPMIAVVMVTGNGDEHIAVEAMKIGAQEYLPKEKINPDSLQRAIT
+NATERASMRKKIQEQQDELTIFANVLVHDLRAPLQSVTNAIEMLKEDLPPKVAIEHHRVL
+SFIAQGADRMDRLIMSLKSYTEQSSAHPVFEAVDLNVQLDAARLNLSSDLRAAGAQIFSD
+GSLPVIHGSPPQMMQILQNIVGNGIKYNRSDLPRVRITSVTAGSSRQIRIEDNGIGIEEK
+YLKRIFEPFRRLHRDEEFNGTGLGLATCKKIMDRHGGKIWCQSKFNEGTTFILEFPSK
+>tr|B7RNW1|B7RNW1_9RHOB
+MDKFGKSQPVKRVEDVRFLTGEGRYVDDISPDQALHAYFFRSSVAHGVIASLDVSGAREA
+EGVHAVLTIDDLEAAGMDISMVSTVLKNRDGSDGAKPLRPMLAKGKVRFVGEPVAVVIAD
+TLVQARDAAELIDLEIDDLPAHMDMSRGGEALHDEAPENLAYDWGLGDEDATRKAFDTAA
+KTVSLEVGDNRIIVNSLEPRGCYAEWQDGKLHVSNNGQGVWNHKDNLKRVFGLDDDHVRV
+TNPDTGGGFGMKGMTYPEYFSVAQAARAVGRPVRWMSDRTEAMLSDNGGRDLTSLAELAF
+DENNRITAYRVSTKCNLGAYNSQFGQPIQATLFSRVLMGVYDVQTTWLQVEGYYTNTVQV
+DAYRGAGRPEAIYVLERVMDRAARELGIDPWDLRRINFIKPEQFPYMSATGENYDVGEFD
+RLLTRAAHEADRAGFEARKAADAKNGLLRGQGLCYYIESILGDPSEGAKVEFNEDGTVFI
+YVGTQSNGQGHETVYAQFLSDQTGIPAELIHVIQGDSDLIKQGGGTGGSRSVTTQSTATL
+ATVAKMTEAFTAFLADEMGVPASEISFDDERFRADGSNMTPTMLEVADLAREKAVTICWC
+IMNARRCQGAAIPTGRMCPRW
+>tr|B7RM03|B7RM03_9RHOB
+MTHAYLDHITTMLSEIEAEGMMKRERMITSPQGGEITVGGRKVINLCANNYLGLADHPDL
+IAAARDAMEPKGFGMASVRFICGTQDIHRELEQKLAKFLGKDDSILFAACFDANGGLFEP
+LFGPDDAIVSDSLNHASIIDGIRLCKAKRYRYATSDMADLEGQLKLAREEGARFIMIATD
+GVFSMDGTLANLPEIAALAQKYEALVMVDDCHATGFMGPKGAGTPAHFGVDVDILTGTLG
+KALGGAIGGYIAGPQAVIDLLRQRARPYLFSNSLPPSIVMAGIKALELVEQGDDLRTQLF
+ENARYWRDGLTQMGFDLLPGEHPIIPVMLGDAQLAQDMAAKLFEEGVFVSGFFYPVVPRG
+QARIRTQMNAALTRAELDRALAAFKVAGEACGVVS
+>tr|B7RIF2|B7RIF2_9RHOB
+MTKPLPTVTPNTWEFLRDPMIAPTGFREYDARWQYPEAINLPGITALGMGLGTQMHQRGI
+EPVIAVGNDYRDYSLSIKNALILGLMQAGIHVKDIGPCLSPMAYFAQFHLNAPAVAMVTA
+SHNPNGWTGVKMGFERPLTHGPDEMSELRDIVLEGRAETRPGGKYEFIEGVREAYLDDLV
+GDFKMTRKLKVVCATGNGTASAFAPELFRRLGVEVVDSHNTLDYTFPHYNPNPEAMEMLH
+DMSASVKASGADFALGFDGDGDRCGVVDDEGEEIFADKVGVIMARDLSAIYPNSTFVADV
+KSTGLYASDPVLIANGVTADYWKTGHSHMKRRVKELGALAGFEKSGHYFLAEPIGRGYDC
+GMRVAVEICKLMDRNPDMSMSDLRRALPHTYATPTMSPYASDEEKYNILDRIVAKLKDVT
+ELGGRPVKEVVAVNGARVILDNGSWGLVRASSNTPNLVVVCESAQSEEELRAIFADLDAV
+IRTEPDVGDYDQTF
+>tr|B7RI96|B7RI96_9RHOB
+MMRKVMTGIVLVLSGPAAAEPLVIAALGDSLTQGYGLPAEDGLVPQLQSWLDQNGADVQL
+INAGVSGDTTAGGLSRVAWTMTPDVDAMIVALGGNDLLRGLDPAVSRANIDGILEAAQEA
+QVEVLLVGMNAPGNYGPAYKMSFDAIYPELADQYGTEFLPSFFAGLSVDGALPPLSEVQE
+FFQPDGVHPNKQGVAKIVTAMGPKVLDLIAEIKAD
+>tr|B7RJF7|B7RJF7_9RHOB
+MICQGLTGSQGTFHTEQAIAYGTKMVGGVTPGKGGQTHLDLPVFNSVHEARHVTDANATV
+IYVPPPFAADSILEAIDAEMELIVCITEGIPVLDMMRVKRALDGSKSRLIGPNCPGVITP
+DACKIGIMPGHIHKRGSCGVVSRSGTLTYEAVKQTSDLGLGQSSAVGIGGDPIKGSEHID
+ILEMFLADPETHSIIMIGEIGGSAEEEAAQFLADEKKKGRWKPTAGFIAGRTAPPGRRMG
+HAGAIVAGGKGDAESKINAMREAGIVVADSPATLGEAVQEAINKG
+>tr|B7RQV0|B7RQV0_9RHOB
+MTNRQITIAELPTDALTPAHFKETTTDMPTAGDGQVLLKVILMSIDAANRSWMKGATYRA
+AVNAGDAMPTYAICEVTESKSDRLAVGDIVAAEATWSDYVVADACKCEKLPKVPELSNLM
+SVYGIAGKTAFHGLISVGQPIAGETVLVSAAAGSVGGYVGQIAKALGCRVVGIAGGAEKC
+KWVKEEMGFDDCIDYRAPGMSKALRAACPDGVDVYFDNVGGAVLEAALFSMNEKGRIVCC
+GAISQYDTETPSGPRNLPGLVVVKRLRMEGFIVMDWAHNDAKALRALQTWVANGQIKVTE
+DIVEGLENAPQALIGLLAGDNKGKRMVRVAADPA
+>tr|B7RLC7|B7RLC7_9RHOB
+MKIATAAYPLDVLTSWAQYEDKLASWVASAAANKAELLVFPEYGAMELATLAGLDVAADL
+EASLFAVSDRLADADVLHQKLAAEYRVHIVAASAPAATGTRPVNRARLITPDGKIGVQDK
+QIMTRFEREVWHVIGGNALQVFETSIGKIGILICYDSEFPLLGRALSDCDVIAVPSVTEA
+LAGYWRVRIGSMARALENQCITAMSSCVGAADWSDALGQCYGAGGIFCPPDVGFPSTGVL
+AAAEINLPGWTYADADLAQIARVRADGVVLNRAHWQDQAGRDATAINVSLM
+>tr|B7RN33|B7RN33_9RHOB
+MTDFTMKTDADGVAIITWDVPGKSMNVMSIEGLSELDAIIDTVLSDDSIKGAVITSGKDG
+SFAGGMDLNLLAKMREDAGDDPAKGLFEGTMQMHALLRKIERAGMDAKTNKGGKPIASAL
+PGTAAGIGLELPLATHRIFVADNPKARIGLPEILVGIFPGAGGTTRLTRKLGAMGASPFL
+LEGKMVAPAAAKSAGLIDEVVADPVAAAKEWVLNAKDADILKPWDAKGYKMPGGTPYHPA
+GFMTFVGANAMVNGKTQGAFPAAKALLSAVYEGALVPFDTALKIEARWFTNILMNPSSSA
+MIRSLFLNKEALEKGAVRPEGVPDQRVKKLGVLGAGMMGAGITLVSVQAGIEVVLIDQTQ
+EAADKGKAYSASFFDKGIARRKSTEEKKQAALDLITATTDLDALKGCDLIIEAVFEDPAV
+KAEMTKKVEAVIPEDCIFASNTSTLPITELAKASSRPDQFIGIHFFSPVEKMLLVEIIKG
+KETGDRAVAKSLDYVRQIRKTPIVVNDARFFYANRCIIPYANEGARMITEGVAPQLVDHA
+AQLLGFPVGPVQLTDETSIDLGAKIARATKAAMGNAYPASQADDLIFWMEDLGRLGRKAN
+AGFFDYDEKGKRQGYWKGMHDKFPLAEEQPDLRDVQDRLMFVQVLEAVRALEEGVLEDIR
+EGDVGAILGWGFAPWSGGPFSWLDILGAPYAAERCDQLQAKFGDRFACPDLLREMAEKGQ
+TFYGRFGPDAKAA
+>tr|B7RQL8|B7RQL8_9RHOB
+MKLLRYGAPGSEKPGLLDTSGRVRDLSQVVPDIAGETLRPAGLKALREIDVETLPLVDGT
+PQESLRLGACVGGIGKFICIGLNYADHAEEAGMAIPPEPVIFNKWTSAVVGPNDAIQIPR
+DSVKTDWEVELGVVIGEPGTYIDEADAMNHVAGFCIINDVSEREFQLERAGTWDKGKGCD
+TFGPTGPWLVTPDEVADLNDLDMWLDVDGKRQQSGSTATLIYKVPHLVSYCSRFMSLQPG
+DVISTGTPPGVGMGQKPPRYLKGGEVVTLGIAGLGEQRSSVLPALRA
+>tr|B7RQK8|B7RQK8_9RHOB
+MPNLLTPQDLEPNWEWRDRLPAWGHTSVDFERRVDHDRLRRYRLARTRQALQASNAGTLL
+LFDVNNIRYVSATKIGEWERDKMCRFCLLTGDDSPYVWDFGSAAEHHKRHSDWLEPSHCL
+AGVVGMRGTIPPEFGLMKKYAKQIAGLIRDAGMGDMPVGVDYAETAMFHALQEEGLNVVD
+GQQIMLSAREIKNWDEIQLLTQAAAMVDGVYHMIYEELKPGVRENDIVALSNKMLYEMGS
+DDVEAINAISGERCNPHPHNFTDRLIRPGDQAFFDILQSYQGYRTCYYRTFNVGRATPSQ
+NDAYVKAREWIDASIAMIKPGVSTDKVAAVWPTAESLGFANEDQAFGLQFGHGLGLALHE
+RPIISRAVSMDHPMEIKTGMVFALETYCPATDGYSAARIEEEVVVTETGCEVISLFPAEE
+LPIANRY
+>tr|B7RN20|B7RN20_9RHOB
+MTEAPNLREAALDYHAFPKPGKLEIRATKPLANGRDLARAYSPGVAEACLEIKADPSTAA
+LYTTRANLVGVVTNGTAVLGLGNIGALASKPVMEGKAVLFKKFANIDCFDIELNENQPEK
+LAELVCALEPTFGAINLEDIKAPDCFTVERICRERMNIPVFHDDQHGTAIVVGAAVKNAL
+FVAKKKFEDIKIVSTGGGAAGIACLNMLLKLGVRRENVWLCDIHGLVYEGREVDMNPIKS
+EYAQASDLRDLDDVIHDADLFLGLSGPGVLTPEMVQKMAPRPIIFALANPTPEIMPDLAR
+AVAPDAIIATGRSDFPNQVNNVLCFPFIFRGALDVGATTINDEMKIACIDGIAALARATT
+SAEAAAAYQGEQLTFGPDYLIPKPFDPRLIGVVSSAVAKAAMDTGVATRPIDDLAAYRRK
+LDSSVFKSSMLMRPVFEAARAAPRRIVFAEGEDERVLRAAQAMVEETSERPILIGRPEVI
+ERRIEKAGLTIKLGETVDLVNPENDPRYRDYWETYHNLMARRGVSPDIARAIMRTNTTAI
+GAVMVHRDEADSLICGTFGEFRWHMNYIEQVLGRDGRRPHGALSLMILEDGPLFIADTQV
+HLHPTPEQIAEIAIGAARHVRRFGIEPKIALCSQSQFGNQGEGSGKRLRAAMRLLDAGNH
+DFCYEGEMNIDTALDAELRNRLLPSNRMEGAANVLVFAHADAASGVRNILKMKGGGLEVG
+PILMGMGNRAHIVSPSITARGLLNVGAIAGTPVAEYG
+>tr|B7RN60|B7RN60_9RHOB
+MNAEAPILKAKDAPDLGSFDWADPFRLADQLTEDERMIQDSARAYAQEKLQPRVIDAYAN
+ETTDAGIFKEMGDMGLLGVTTPEEYGGLGGNYVSYGLVAREVERVDSGYRSMMSVQSSLV
+MYPIYAYGSEAQRKKYLPKLASGDFIGCFGLTEPDAGSDPAGMKTRAIKTATGYKLIGSK
+MWISNAPIADVFVVWAKSEEHGGKIRGFILEKGMKGLTAPKVGNKLSLRASITGEIVMDN
+VEVGEDALLPHVQGLKGPFGCLNRARYGISWGALGAAEFCWHASRQYGLDRKQFNKPLAQ
+TQLFQKKLADMQTEIALGLQASLQVGRLMDAAKAAPEMISIVKRNNCGKALDIARMSRDM
+HGGNGISGEYQVIRHMMNLETVNTYEGTHDVHALILGRAQTGLQAFF
+>tr|B7RNQ5|B7RNQ5_9RHOB
+MDPATIGYIACAIVLLLLAIRIPIAYAIGGVAVVAIFIVFATRTGTFMPERAMWTTLSLA
+FSSSFDLVHSYDLSMIPLFIALGHVAYKAGITTEIYEAARVWLVRLPGGVAIASVAGCGG
+FSAISGSSIACASTMGRICTPEMLKLNYDPRLATASVAAGGTLGSLIPPSVLFIIYGIFT
+ESSISELFMAGFLPGVLSMFGYGLVIVLWVRRSPEIAPVPDQVFTMKEKIHAGLRSWPAV
+FLFTVVIGGIYGGVFTATEAAALSLLFATLLGLVRGFIKVKDIVPMLRETMATTGAIFFI
+AACAKIFVSLIALTGLSNSLVSALGDSSIGPWMFIALVCLIYLVLGMFLDPVGIMVLTLP
+LMIPMVESYDMNLIWFGVVIVKLLEIGLITPPVGLNVFVLASVLEGKVEIGEIFAGLWRF
+LAIDIVVLALLVAIPAISLILPMSMN
+>tr|B7RPP6|B7RPP6_9RHOB
+MITLTNIHKSFDGTAVLRGVTLTLPEGKSTVVIGTSGSGKSVLMKSILGLVTPDGGTITQ
+NGTPLNHAAFLNDFGMLFQGAALFDSLPIWQNVAFRLLRQMPKPQARAIAVEKLARVGLD
+ADVADRLPAMLSGGMQKRAGLARAIATDPRILFFDEPTTGLDPIMARAINDLIRDIVLET
+GATTLTITHDMTTLHTIADHVALLDAGEIRWQGTPAEMRQSKDGKLNAFLFSGS
+>tr|B7RFT3|B7RFT3_9RHOB
+MTRLRAFLICLLPVLPLGAVPVAAQQAAQASDRPLVQSPILTIDSDRVFNESAFGLRVAR
+DLETQGATLSAENRQIEADLGAEEQRLTAQRAALSPEKFRDLADAFDAKVQDIRATQAAK
+SRALNQLVEKEREVFLNAAGPVLEKLMRDSGAAVILERRSVFISANAIDITNEAIARLDA
+SLGSGKN
+>tr|B7RIP4|B7RIP4_9RHOB
+MNTQPHLSKRGDVYQWRRKTRRFSTEIIDIKLSLGTTDRRHALILARKVSAESDRIMEHI
+VGSRITPEHGRAFLSEVIRQERAKIAQLAMLSRVDSLDPADDARHDAAMAEAWARVSTDG
+LNNLVPADASDLVRSNINLIRKDLGSDARRQALLRVLKEQTGQETHSALDYAMLKDLFVS
+AKAKAWAGEAPEAAPKPEIVPDEPTATELPSPALTAVVERMNAIKRTEGIEEKTLRQYQS
+FAALFTMLTGLDDITKIHQPDVKSFRADLAKMPKSWGKSPKDQAMARDEVMAKAASLPSD
+KVVLSVGTINRHLDHLNQIAEWARDDNLPVDPNLKPTKLRRKETVRARDKRDAFSVEQLR
+KIFRNPVWTGSRSERHQTEAGCNIFKNGIYWCPLIGAYTGARREEIAGLSPSDIVDADGI
+PCFSIEDSELRRIKNLSSRRLIPIHSHLITLGFLEHIQKARNAKQKSLFPDLYEAGNDAF
+GRKVGRRMRQIIDQELGAEGTKLSFHSLRHYVQNELDHAGIEDKVVRDIIGHEGKDIHDK
+VYRKGSPTTELSRAIEAIPDVAIPPKC
+>tr|B7RJA4|B7RJA4_9RHOB
+MKLIVGLGNPGAKYARNRHNIGFMALDMIAADHGFAPWKSKHQGLVSEGRLGSERAVLLK
+PETFMNLSGQSVQAAMRFYKLEPSDVIVLHDEIDLAPAKVKCKTGGGHAGHNGLRSIHTH
+IGPDYHRVRLGVGHPGHKDAVPGYVLRDFAKADEAWLDDVLRGISDGAPELARGDTAKFM
+NAVAMRVSPPRSGTGTKGPAKPPQKTQATKPPQPTVKDDPEPQADERSSLQKLMDRFK
+>tr|B7RPC6|B7RPC6_9RHOB
+MGGPSAEREVSLSSGRACAAALRDRNFDVVEVDAGPDLCADLRAVAPDVVLNCLHGRWGE
+DGCVQGILEWMHIPYSHSGVLASALAMDKQRSKDVFRTVGLPVVESIIALASDVRAGHVM
+APPYVVKPNNEGSSVGVYLVDVENNGPPQLDDNMPDYVMVEQFAAGRELTTTVMGQRALT
+VTDILTTGWYDYDAKYKEGGSTHIVPADIPQDIFDLCLDYALRAHNALGCRGVSRTDFRW
+DESRGVDGLILLETNTQPGMTPTSLSPEQAQAVGISFGDLCAWMVEDASCHR
+>tr|B7RIZ3|B7RIZ3_9RHOB
+MSQENPTQPPKTDTPPGDRIAKVLSRAGLASRREAERMIEAGRVRVNGVQIDSPALNVTA
+ADNITVDGKPVGDPEPPRMWLYHKPTGLVTTNRDEKGRGTIFDDLPEDMPRVMSIGRLDL
+NSEGLLLLTNDGDVKRKLELPSNGWLRRYRVRVNGRPSDEVLEPLRRGITVDGEEFQPMT
+VTLDRQQGANAWLTVGLREGKNREIRRAMEAVNLSVNRLIRTSYGPFQLGELKPGEVEEL
+KRKVVRDQLGIEIEDNTGTAVKKKPSHIVKRKPRKPGAPGPGRPGLPKEPGEKTATGKVI
+PGKPKPGYGKSKAPRPPSDAPGPRKFGTRVKSTRKP
+>tr|B7RJ54|B7RJ54_9RHOB
+MPKNLQKYLPILDWGRSYTKATLSNDLIAALIVTIMLIPQSLAYALLAGLPPEAGLYASI
+VPILLYAVFGTSRALAVGPVAVVSLMTAAALSNIADQGTMGYAVAALTLAFLSGAILLAM
+GIFKLGFLANFLSHPVIAGFITASGVIIAASQIKHILGISASGENLIELLHSIFTHLGDT
+NWITMIIGVSATAFLFWVRKGMKPMLKSKGVSPGAADVATKAGPVAAVVLTTLVVWLFGL
+SDYGVRVVGAVPQSLPPLTMPDFSFDLMGTLLLPAILISVIGFVESISVAQTLAAKKRQR
+INPDQELIGLGTANLGAAFTGGFPVTGGFSRSVVNFDAGAETPAAGAFTAVGLGIAALAL
+TPLVFFLPQATLAATIIVAVLTLVDFSILKKAWAYSKADFAAVLATMLVTLGSGVELGVT
+CGVVLSIMLHLYKTTKPHIAEVGLVPGTEHFRNIHRHKVETDPTLLTLRIDESLYFANAR
+FLEDYIYDRLAGDAPIRNVVLMCSAVNEIDFSALESLEAINARLRDMGIKLHLSEVKGPV
+MDRLQKQHFITDLTGKVFLSQHAAYTELKKAAD
+>tr|B7RHP9|B7RHP9_9RHOB
+MIDVLLEPFGYGYMFNAMWVSAMVGAVCAFLSCYLMLKGWSLIGDALSHSVVPGVAGAYM
+LGLPFALGAFLAGGLAAGAMLFLSGRSGLKIDVIIGIIFTSFFGLGLFMVSLSPMSVSIQ
+TIIMGNILAIAPQDIVQLTIIGVVCMTVLLLKWKDLMVTFFDENHARSIGLKPELLKAIF
+FVLLSAAVVAAMMTVGAFLVIAMVVTPGATAYLLCDRFPRLIIVSVLIGTLTGFLGAYVS
+YFLDGATGGVIVTLQTTIFLLAFVFAPKHGVLAARRKAAAALQTLREGQTP
+>tr|B7RQL0|B7RQL0_9RHOB
+MNILGEHGVKKSKTSSFDINPKPRAHHPLKRSAQTMNSMHGHTQGTQAAPQVPTEALEIL
+SFVEDFSDELEATLDIIAPNGHLRMALHLLRWHFEGKAVTPTSLIASSQVPYATANRRMK
+EMLNAGLIEQRPRTKTGKSFSMHPSDKLLHQWMQLASRVHRLAERTFGGPVATEGTRDYY
+YGGSYKAAQSIPPLSVRAEPLKISGGIRVLVHGDPTFMVMDNLKRQFEQVIGTKISQRAF
+SIDRLREEALRNARRDTSRYDIIAIDLPWIGEFAKKGVLLPLDQVMDLERLDPADFHTAG
+WKAAHWGGRAYAVPAQTTPELLFYRRDLFAEAGLEAPATTDELLAAAKTLHNTARGRYGI
+AWNAARGTALGHTVLMTMADFGQPVLDLPEIAGGFNTDHLAEGNYRATIDTDAGLRAAEF
+LLELLHYSPPDILSMSWYERIRSYAAGNIAMAYGYTLLAPYFEQDETSPAHGRTGYLPHP
+AGPGACQIAPVGGYVLGIPANLAPDRVSAAVEALSIFTSPEAQKLYVQNGSLTNARYSVG
+ADPDVRSVSSIFEAVDAMSLRDELQFWPRPPVPEIGGIIQICGEEFHDMLRGITTPREAL
+RTAQARADALMATNRT
+>tr|B7RG53|B7RG53_9RHOB
+MQELTHYLNGEHVKGTSGRFADVFNPATGEVQAKCPLANEAEMDQAVKYAMAAQPAWAAV
+NPQRRARVMMKFVDLLNRDMDKLAEALSREHGKTLPDAAGDVQRGLEVVEYCIGAPELLK
+GDYTDSAGPGIDMYSMRQPLGVSAGITPFNFPAMIPMWMFAPAIVCGNAFILKPSERDPS
+VPLMLAELLEEAGLPKGIIQVVNGDKEAVDAILHHPVIQSVGFVGSTPIAEYIYGTGCAN
+GKRVQCFGGAKNHMIIMPDADLDQAADALIGAGYGAAGERCMAISVAVPVGDETADRLIE
+KLVPRIEKLKVGPYSSGNDVDYGPVVTAAAKANIERLVQTGIDQGATLVVDGRDFKLQGY
+EDGFFVGPHLFDNVTKDMDIYKHEIFGPVLSTVRAKTYEEALGLAMDHEMGNGTAIFTRD
+GDAARDFANRVNVGMIGINVPIPVPLAYHTFGGWKKSVFGDLNQHGPDAFKFYTRTKTVT
+SRWPSGIKEGGEFNFKPME
+>tr|B7RSA1|B7RSA1_9RHOB
+MISFKGSHYPNDVILYAVFFYVRYAVSYRDLEEILADRGVHVDHATLNRWVVKYASQIAS
+EAQKRKTRTGRSWRMDETYIKVKGQWMYLYRALDKQGQTLDFMLSETRDEVASTRFFRQT
+IVNNGWPDKVVIDKSSANKAGLDNMNIELILHGWYWLIEVLQVKYLNNLIEQDHRFIKKI
+TRPMKGFKSVEAATATLAGIETAHMIRKGQLGTTKLSAFQQFAALAG
+>tr|B7RPE9|B7RPE9_9RHOB
+MRPVLLITGASAGIGAACARLAAPSYNLALNYRSDAAGAKAVAAQAQAKGARVLLCQGDV
+ADPADVARIFDQIDQHYGRLDALINNAGIVDQIATVADMDHARLKRMFDVNVIGAMMVAQ
+AAATRMQAQGSGAIANMGSIAARLGSANEFVDYAASKAAIDAFTKGLANELAPQGIRVNA
+IRPGLIETEIHAKAGVPDRAQTLAKNIPMQRVGRPDEVASATLFLLSDAASYITGTTLDV
+SGGR
+>tr|B7RGF9|B7RGF9_9RHOB
+MAVPFRTSLMSRVMLGVLALLAAGGVIVAIAALAYGKQAATQSYDRLLVGAAQDIAESTK
+IVNGAPVVDLPVSAFSLLSLALDDRISYAVREADGTLLTGYDTAPISINGGDQILFDAMM
+QGDAARFTTVARRFAERDYSGTVYFTVGHTLLARNAMAIELTKTALLGVGIAGLILMICA
+FFVIRSTMRPLQHMASELRRRDPYDLTPMPIQGPSEVTVAIAAMNQFMRRLDRQVGAMRN
+LISDAAHQLRTPVAAIRAHAELVADHGALAEQQQGLERLLKRTRSLGSLLDQMLSRAMVI
+HRTDNSPPEPVDLRDIALHVVELEDHMVLSPQAIVELCIDGDEVLVLADEISLREAVKNM
+LINALKHGTSPIRVGVTGKGTVAEIWVADAGAGPSPDVLAQIGTRFERFAASKGTSAGLG
+LSIVSAVAEAFHGSMHIGPHEGGFRVTMAFPAMGGKDAQ
+>tr|B7RPU8|B7RPU8_9RHOB
+MTVIPRIEKFAADLTEIRQDFHAHPELGFEETRTSKIVAEKLRAYGVDEVHEGLGGTGVV
+GLIKGTGGGNRRVGLRADMDALPIEEASGVPFTSKNPGRMHACGHDGHTTMLLGAARYLA
+ETRDFDGTVVLIFQPAEEGLGGARRMIEEGLFDKFPCDEIYGMHNDPNSEPGVVSVTPGP
+AMAGASFFDITVKGTGSHAAMPHQSRDPIVIGTALVQQLQSVVSRNIPPTKPVVLSVTKF
+NSGSAYNVVPDTATVSGTIRYFHDEVSQLADQRIRALCAGMAQAYDIEISVDLRNVFDVL
+MNDPDLTAAYVAAASDIVGTDMAAQSTEQATGSEDFADMLKVVPGAYCRVGHAGSIPLHN
+PAFVLDDAILPVGASIYARIVETRLPKA
+>tr|B7RLI9|B7RLI9_9RHOB
+MRNLAFWVVLMLLVLALFNLFSGSTGGLQSREISYSEFVTAVEAGDVRNVTLDGEQVRFR
+RADGTDYVTIMPQDAEVTSLLMSNDVPVRAEPQQQSGFQTFLMSLLPILLLIGVWIYFMN
+RMQGGGKGGAMGFGKSKAKMLTEKHGRVTFDDVAGIDEAKEELEEIVEFLRNPQKFSRLG
+GKIPKGALLEGPPGTGKTLLARAIAGEAGVPFFTISGSDFVEMFVGVGASRVRDMFEQAK
+KNAPCIVFIDEIDAVGRHRGAGYGGGNDEREQTLNQLLVEMDGFEANEGVIIIAATNRKD
+VLDPALLRPGRFDRQVTVGNPDIKGREKILGVHARKTPLGPDVDLRIIARGTPGFSGADL
+ANLVNEAALTAARVGRRFVAMMDFESAKDKIMMGAERRSMVLTQDQKEKTAYHEAGHAIV
+GMKLDKCDPVYKATIIPRGGALGMVMSLPEMDKLQMFKDEAEQKIAMTMAGKAAEIFKYG
+PDSVSSGPMGDIMQASQLARGMVMRMGMSDKVGNIDYSEAAAGYQANGGAGGFSVSAATK
+ELIESEVKAIIDTGYDRAFKMIAEYEEEFERLAQGLLEYETLTGEEIQRIMDGKPPQDPD
+GEDTSGMDKPSVTSIPKAKGKKSPPSGDLEPEPTA
+>tr|B7RIS1|B7RIS1_9RHOB
+MTELHEHKVKRLHMRSMRRGIKEMDLILPSYAATCLAVMDDAALSLYDLMLSENDHDLYQ
+WVTGQKSAPDEYAALIGDIQTHLDAHPL
+>tr|B7RL74|B7RL74_9RHOB
+MNAKELNDKTPDQLRDELVNLKKESFNLRFQQATGQLENPARLKTVKRDVARVKTILNQK
+AAAAASAE
+>tr|B7RLS3|B7RLS3_9RHOB
+MKRTFPILAALAVAAAGGWYVFSGPDAVNSAQINPLASAANAQTTETADVDTSTIKEMKL
+GNAESAVQIIEYASFTCPHCAAFDQGPYKQLKAEYIDTDKIGFTYREVFFDRYGLWASMV
+ARCGGEEKFFGISDLIYKGQSEWVRAGEPAAIVGELRKIGRLAGIDGDTLEACLQDSTKA
+QTLVAWWEENQKADDITSTPSFIINGTKYSNMPYAEMKEIIDAALAD
+>tr|B7RNS5|B7RNS5_9RHOB
+MSSTIKRTLVTGGSGFLGSYLCESLLADGHEVLCADNFQTGSRQNIQHLQDNPRFELLRH
+DVTIPLYVEVDEIWNLACPASPVHYQNDPVRTVKTNVMGAINMLGLARRNKAKIFQSSTS
+EVYGDPFVHPQPESYWGNVNPIGPRACYDEGKRCAETLFFDYQRQYQIDIRVARIFNTYG
+PRMSQDDGRVVSNFIVQALKGEQITLFGDGLQTRSFCYVDDLIAGFRALMDAPDDVPMPV
+NLGNPGEFTIRELAELVIDLTGAQSSMVFRPLPQDDPTQRKPDISRAKDHLNWEPKIALR
+EGLQATIAYFDDLLTRDIDLGSASASAKAIPWTRRQRANGVDHAAAL
+>tr|B7RRP9|B7RRP9_9RHOB
+MTEIRQTSSFVAIVTILICAALLFAGNGLFQTLLPIRAGQEGYSTTLIGVLGTAYFGGFT
+IGCFVGPRLIMTVGHVRAFAGLTALLTATLLAFPLFVDPLFWGVMRMISGVCLAVLYVVV
+ESWLNDTSSNANRGRVLSAYIIVSNIVTMAGQLLVNSSDTKGPMLFLVVAILICLSIVPL
+SLTSTPTPTPIPSARLNLRKLYRVSPAGIVGCLLAGMAEGAFWSLGPVFAQGRGMITADI
+ALLMAAFVFGGTLSQWPLGWVSDKIDRRIVIAAVSFGTVVSGLVIGFDLVPRGSPTLALA
+VVHGALMIPIYALCISHANDNVPNSRMVETSGGLLLAFSIGATIGPLTASFFMGGGKAGG
+LFLFIGLVLFALGIFAVFRLIIDTGVRRTSKVHFAPSSAASPAVFPMEAEKED
+>tr|B7RIL2|B7RIL2_9RHOB
+MSDLAQKRGGGGFRINGSAVVMGLYLLFLLLPIYWLLNMSLKTNTEILNGFSLWPQDLTL
+ENYVTILTDASWYTGYLNSMAYVVMNVVISLLVALPAAYAFSRYTFLGDKHLFFWLLTNR
+MAPPAVFALPFFQLYSSVGLFDTHIAVALAHCLFNVPLAVWILEGFMRGVPKEIDETAYI
+DGYSFPRFFIRIFTPLVASGIGVTAFFLFMFSWVELLLSRTLTSVDAKPIAATMTRTVGA
+AGIDWGVLAAAGVLTILPGALVIYFVRNYIAKGFALGRV
+>tr|B7RMB5|B7RMB5_9RHOB
+MTKRTAAKHKIDRRMGENIWGRPKSPVNRREYGPGQHGQRRKGKISDFGIQLRAKQKLKG
+YYGDLTEKQFRRIYGEAERVKGDTGENLIGLLERRLDAVVYRAKFVATVFAARQFVNHGH
+VKVNGKKVNIPSYRVKEGDVIEVRDRSKQMAALLEATQLPERDVPDYMEVDHSKMTATFV
+RTPALGDVPYPVVMEPNLVVEFYAKN
+>tr|B7RLJ2|B7RLJ2_9RHOB
+MNRILTSTLLIAALAVSACTNPDRFGADGMNGGGTMAPGGMIPGSANDPSSTAYFQQAVG
+DRVLFEVNQSNLTPAGQATLDGQATWLITNIDYQAIIEGHADEQGTREYNVALGARRANA
+AREYLISRGVAGNRLRVVSYGKERPIEVCSAEACYAKNRRAVTVLAGGLSS
+>tr|B7RJ30|B7RJ30_9RHOB
+MTDLAIIAAISILTAGLTVCFGAIGPALGEGRTASAALTAIAQQPDAASSISRTLFVSLA
+MIESTAIYCFVVAMILLFANPFWNAAIAAAKATGS
+>tr|B7RNA7|B7RNA7_9RHOB
+MAKPLDYHTIREIFTRFHAVDPEPKGELDHTNVYTLLVAVALSAQATDSGVNKATKSLFE
+VVETPQQMLDLGLEGLIEHIKTIGLFRQKAKNVIKLSQILVDDYEGVVPNSRAALQSLPG
+VGRKTANVVLNMWWHYPAQAVDTHIFRVGNRTNICPGKTVDAVERAIEDNIPVDFQQHAH
+HWMILHGRYHCKARKPLCRTCIIRDLCPYEDKTE
+>tr|B7RFR5|B7RFR5_9RHOB
+MGTIWQPSLEDGPGPKYKAVVAMIRDAIKTGALSQGAKLPPVRELAWKLKMTPGTVARAY
+TLLTESGVLQAEVGRGTFVATQLAAPTSDAPIEIDVIAHFDDRDGERDHYNVNMFSPYLP
+SAGQATLIKNLLAEIAQNPPSGVMHYPSRTGAQPAREAVVRWLTGTPLGAFGEADIVLTH
+GGQNALSLVFQSILKGSRPAILIEELSYPGFRRAAELLRADVIPVAMDADGVIPEALEEA
+ARNHDAQIFCTSPEVHNPTGCFTPVARREALVQVARRHDLQIVEDDCYRMRVDRAPTYRM
+LAPERGWYISSLAKTLTPALRIGFGIAPEERTTDLRRVAEYNSFGLATPLIDLCAKLLTH
+PQIDTLAEGTRARFNTYVQAAVNILGGYDVGWRQDVPFLWLRLPVGWRAGAFCQAADAQA
+VQLRSAEEFVCRDARAPHAVRMAINAGVPLKSFEAAILRLRQLLDNPPEQLSV
+>tr|B7RNF7|B7RNF7_9RHOB
+MTQVKSGDTVAIHYTGTLLDGSTFDSSDGREPLEFVVGSGQIIPGLDVALPGMEVGDKKV
+VKIGSEDAYGPLNPEMRQAVPREGIPADIPLEIGTQLQMQTPDGQAMPVMVVEVDDATVT
+LDANHPLAGKDLQFDIELMKIA
+>tr|B7RQD8|B7RQD8_9RHOB
+MPPKPDSRPDKVSLWRYSKLFRQDILSAQPARLYRAWMAEFKTPFFRSYLMNQSDLVKTV
+LKTRPDDFPKSDRIGEGLRPLLGNSVFLTNGQTWKRQRRIIDPAFEGGRLRETFPAMWDA
+AEAAAVRFGDLDGQVVEIEAETSHAAADVIFRTLFSIPIDHHLARDVFDEFKTYQRSQPI
+LNIAAFIPLPRWLPRCFAATPGQALPKFAG
+>tr|B7RJI1|B7RJI1_9RHOB
+MAILGGGPAGLYTAILLRRKMPHVRVKLFEQNPQGATFGFGVVFSDQALAFLKSADPEIH
+DLLTPHMEQWQNMTLHLPTDQVVLDGVGFSAVGRLELIEILRKHALALGVEMSFDHLITS
+LDEIDADLIVGADGLNSLVRRTFEADFAPQIDHFTNHFAWFGTDRPFDTLTQSFIETDLG
+PLNAHHYRFAPDRSTFIIECEAETFQNYGFADMTEDASAALCQSLFADVLGGTKLITNKS
+LWRQFPRLWCENWVSGRHVIIGDAAHTAHFSIGSGTRLALEDCIALVNALATDADIDAAL
+ATFQADRLPVAKKMVQAANTSALWYDNFGDKMALAPLDFAFDYITRSGRVDMDRLRKMAP
+AFAARYEGRPAQITDPVADMVPGAVEIGFDKTQHANCSDILWQNLARNPDSTAIITPDGR
+ISYAALITDAARWGNAFIAAGLKRGERIAFLLDDTAAYPAAFFGAVRAGFVPVLLNTMTT
+PEVLTFFLKDSAARFAICDTALADRFDATVMTGTDLETVIVVGGDAAGFMTDAAFLENQP
+DTLACADTGPDDMAFWMYSSGSTGMPKGIVHLHHDMAYTQASFGVQILQLRPDDVCYSVP
+KMYFAYGFGNSATFPFSVGAAVLLMPGQPRPEAVLSAIETCKPTVLFGLPTLFTAVARHE
+NAATTDLSSVRQSMSAAEILSEDVYKTWVDLVGHGPTEGLGSTELLHVYLSNTLQDHRPG
+AAGARVPGYEIRLETPDGTPAQPGEEGVMYVRGTSSAPMYWNRPDKTADTMRGDWIYTGD
+RFVERDGYYYFQGRADDLIKVSGQWVWPLEVERCLNEHPDVHECAVLAHQLDDRRMTLRA
+IVHLRDGITADDTQSDALRGFVKSRLQPYKYPRLIDYVAELPKTGTGKIDRQALLHRP
+>tr|B7RL89|B7RL89_9RHOB
+MAREKTKTKRKVSKNIAAGVAHVNSSFNNTKILISDVQGNAIAWSSAGTMGFKGSRKSTP
+YAAQMAAEDVGKKAQDHGVKTLEVEVQGPGSGRESALRALAAAGFNITSIRDVTPMAHNG
+CRPPKRRRV
+>tr|B7RFY4|B7RFY4_9RHOB
+MTAPQPCPYLEGRMERKLFTALQGEQAAKLNDSLSGQGFRRSQNVLYRPSCADCSSCLSA
+RINVADFVASKSQKRTLKRNETLSRRATSPWATEDQYDLFRRYLDSRHADGGMADMDVFE
+FAAMIEETPIRSRVIEYTDTATKDLIGVCLTDVLGDGVSMVYSFYTPDRPKDGLGNFIIL
+DHIDIARGAGLPYVYLGYWVPGSQKMGYKAKFSGLEVYMGGAWQKMRNPSEFKADAHPLN
+TDPIAEQVANIALPDLSPTKS
+>tr|B7RN38|B7RN38_9RHOB
+MPSYTAPVKDMQFVLHDVLNVTASAIPGYDDLEPEFTSAIFEEAGKLTSEVLAPLNIIGD
+KEGCRLENGVVYTPTGFKDAFAKVKEGGWPGLDMPEEFGGQNMPYIVGTAVGEMFSASNQ
+AFTMYQGLTHGAASAILAHGTQAQKDTYLPNMVSCDWTGTMNLTEPHCGTDLGLMRTKAV
+PQGDGSYKITGQKIFISSGEHDMAANIIHLVLAKIEGGPEGIKGVSLFIVPKFIVKEDGS
+LGDRNGVAVGSIEEKMGIHGNSTCVMNYDGATGYLLGDEHKGMRAMFTMMNEARIGVGMQ
+GLAQADVAYQNALAYAKDRLQGRAVTGAENPNGPADPLIVHPDIRRSLMDQKSFVEGARA
+FILWGANLIDAAHRSEDKDADGLVSLMTPVIKGFLTDVGYDMTVKAQQIYGGHGYIEEWG
+MSQFTRDARIAMIYEGANGVQALDLVGRKLAQDGGKHVMAFFDMLKTFIKENAGQDAEFD
+AAYLEPLKAASKDLQAAGMYFMQNGMKNPNNALAGSTDFMHMFGHVCLGFMWAKMGLAAK
+KALADGTGDPALYETKLATGRYYMARQLPATALHLTRIQTGADTVMALEAANF
+>tr|B7RRF3|B7RRF3_9RHOB
+MSTTLANQQRSKIISLLSPAYLWLTVAIFLPLSAMLYFSFLSDVPFGQTEWHLTTENYQA
+FFQTTTYAKLLWKSIKLGLIVTGFAVLVGFPCAYVLAKVIQGRAREALFLLVILPFWSNS
+LVRIFSWAIVLRGNGVLEIGLNAILPFEVDVNLMFSTPAIVIGLVHSYLPYVILTSYLAL
+QAIDDNLIDAARSMGAGKHTILWRIILPLSLPGLLAGAVLIFVPVVGSFMEPRILGGRVG
+TYFGTVIEDQFVAVFNWPLGAALSFILLAVVLVILALSSPILRRAQT
+>tr|B7RJG1|B7RJG1_9RHOB
+MTPELTVLILTTLLQIVTFVLYAIPANRELGPGYTMSARDREPTRKMSDRTARLGRAMDN
+TFEALILFGIAAIVITLTDQSTPYTALLSWIFLAARIVYIPAYAFGWRPGRSLIWAVGFT
+ATTLMLIAALF
+>tr|B7RLT2|B7RLT2_9RHOB
+MAILLIGAGLLLWALPDANAFNAQVERIFIENDDLTAQAEIKLLEILAQSGSVFSETLSS
+YRIVIIVLLVFATAMLVAALVFLIMLVSFNRRMAQIERVGIQVNSLLISREENTVYLNNL
+GFKLTAAAMETMSVLAEARMDDDVMSGSEIEGVISGRNAADCDEAAGATRIKRLRDTLGN
+QIVSELLVKNIARRGYMLAIDKDVIKVI
+>tr|B7RJ42|B7RJ42_9RHOB
+MPGFSQHSSLPVPCALSHLSGLVTLWVPAYGVQGVIKMATAAVSIYTAVQLARLLPVYLT
+MPSRNDLASKVAQVAIEQEKAREAKEARDKLSEFAFIASHDLKAPLRGIANQARFLIEDH
+GDAIEPDARRRLNRMQDLCGHLEMLITTLLKYSRIGRSEAHKNVDPAEMVNTIVSTLKEF
+IAEQNADVTVETALPEISADPSDLQTVFQNLIVNGLTYNEATDKRVWVGYMDEKTVDLVR
+LQNVFYVRDNGIGIDAEFHDDVFRMFKRLNQPEAYKGGSGAGLAFVKKVIESNGGAIKLS
+STPGHGTTFYFSFSKPEEVHETSSDLALGRAQNA
+>tr|B7RNZ6|B7RNZ6_9RHOB
+MLLGCIGDDFTGSSDLANTLAKAGMRTVQYSGVPTGDAATDVQAGVVALKSRSIAPEAAI
+EQSLEALKWLQAQGCEQIFFKYCSTFDSTAQGNIGPVADALAAALDAHKVIVCPAFPGAG
+RSVYQGYLFVKDMLLNESGMENHPLTPMKDANLRRLMAAQSVHSVGHVPADAVFEGANAI
+TAKLEAEHAAGHRMIVVDALRDCDLMQIGAAAKGLPLITGGSGVALGLPANFGISPAQVP
+WQGQNGKAAILSGSCSTATRGQIAYHVARHPSLKVDPADVISGAQTPETVAKWLAETDGL
+PLVYSSADPDEVAAVQARFGADTAAEPLERFFGKTASCLVDLGVARILTAGGETSGAVVE
+ALDIRTLQIGPEIDPGVPCLRADDTLVIALKSGNFGTVDYFEKAAKMLGQG
+>tr|B7RP83|B7RP83_9RHOB
+MTRLFVALFAALFLVPFIAQAQSADDVVWIQIEAQPNLATATQRARAYGNTLEDVNGFSL
+GGGWYAIAVGPYLRSDAEQLLRGYLRDGLIPRDSYVQVSQRFRQQFWPVGVNVLNIPQTA
+PVEPSGTAAPVAPAEPAQTAEITEQPQLPEPSADETQAEARRNERNLTQDDRETLQVALQ
+WAGFYNSSIDGAFGRGTRQSMADWQSANGYEVTGVLTTLQRAALLEKYNAVLDGLGLQLV
+RDARAGIEITMPTKLVSFATYEPPFAQYNATGDINARVLLISQEGNQDTLFGLYDVMQTL
+AIVPPEGPRERRSNRFELIGEDGRIVSQTQAYLEDGQIKGFTLIWPAGDEDRRRRVFAEM
+TKSFTRLPGVLDAAAGGGDDQAIDLVSGLQIRLPKISRSGFFVDGNGTVATTIEALQSCS
+RVTLDDDTELDMIVNDTASGIALLKPRSPLAPIEVANFNTVPPRLQSEIAVGGFPYAGVL
+GAATVTFGALADVRGLQGEENIARLELATQAGDAGGPVFDSDGRVLGMLLPRAGGAQQLP
+DDVNFAVESTAIAAVAQSAGIAVQTAATTGSLKPQDLREKAKGMTVLVNCWE
+>tr|B7RME9|B7RME9_9RHOB
+MTMTNRSTAQMTPLKPVVLCILDGWGLSDVAEGNAPLLANTPNFDRIMESCPSATLTTFG
+PDVGLPQGQMGNSEVGHTNIGAGRVVAMDLGQIDLAIEQGSFATNPPLLDFVAKLKETGG
+TAHLLGLVSDGGVHGHLTHMLAAVKALRAHDIPVVIHALTDGRDVAPRSALGYFEDLIAG
+IPDGVRIATVTGRYFAMDRDNRWDRVAKAYAAIVQAQGDRAKTAAAAVSAAYDRGENDEF
+ITPTVLDGYEGAKDGDALFCLNFRADRAREVMAAIGAPDFSAFETGQRPEWAALMGMAEY
+SDEHMAYMTTMYPKPAIVNTLGAWVAQHGLRQFRLAETEKYPHVTFFLNGGEETAATGED
+RFMPKSPDVATYDMQPEMSCPEVTDHFVQAIKDGYDLIVVNYANPDMVGHTGDLDAAIAA
+CEAVDAGLGRVLTALEAAGGAMVITADHGNCETMIDPETGGAHTAHTLNPVPVAVVGAPE
+GARLRHGRLADLAPTVLQLMGLDQPAEMTGKSLLE
+>tr|B7RSI2|B7RSI2_9RHOB
+MTKKPQTSKDAVKQVVKKIRRKAGQTYSVEEKVRFILARLRGEESISVLCRREGNAESLY
+YSWSKEFLEAGKRRFSGDTARQAEVLPIPWTGSGAF
+>tr|B7RM44|B7RM44_9RHOB
+MNRITTDLLIIGAGSGGLSVAAGAAQMGADVVLLEGHKMGGDCLNYGCVPSKALIATGKA
+AHNQRHSAQYGVADGPGEVDYAAAKDHVADVIAQIAPVDSQERFEGFGINVIREFGRFIS
+ADEVQAGDTIIKARRIVIATGSSPLVPPIPGLDKVPYETNETLFDLREKPEHLLIIGGGP
+IGMEMAQAHIRMGCKVTVIEGDKALAKDDPEMAQVVLQSLKDEGVEIAEGALAAEIRGNA
+GAIEVEAKDGRIFKGSHLLVAVGRKANTDKLDLEKAGIEPIRNGIKVDASLRTTNRKVYA
+VGDVAGGMQFTHVAGYHAGVVIRSLMFAIPSKAKTSHIPWATYTDPELSQVGLTEAQAKE
+EHGDKVEIVRFHYNHNDRAIAERKTKGLIKVMVVKGRPVGVSIVGHQAGELINLWALALA
+NNMKMSQIAGMVAPYPTIGEVNKRAAGAYFSPRLFESDLVKTVVRFVQRFIP
+>tr|B7RNJ8|B7RNJ8_9RHOB
+MARTTFRSFTKNLDVTDLRWMPGEGFSPARLRIELLSGLTVALALVPEAVAFAFVAGVHP
+LVGLYAAFLVGLITALIGGRPGMISGATGALAVVMVALVSQHGVEYLFATVVLMGLFQIF
+FGLMQWGKFMRLVPHPVMLGFVNGLAIVIFLAQMGQFKVPGSMVDTGHGMSGGEWLSGQP
+LMLMLALVAVTMAIIWVTPRITKAIPAPLAGIGIVAILVIATGMNVPRVGDLASIEGGLP
+MPHMPFGEGLGLYGTALAPFTLETLYIILPYAVILAAIGLIESLLTLNLVSDLTNTRGGA
+SQECIAQGVANTVTGFFGGMGGCAMIGQSMINVKSGGRTRVAGIAAAIFLLLFILVGSPL
+IEQIPLAALVGVMFMVVIGTFAWNSLTILRKVPLMDAFVILLVTVVTVYEDLAVAVVVGV
+IVSALAYAWNNARRIHAKTYLTPEGAKVYQVQGPLFFGSSEGFFELFNVSEDPSEVIVDF
+ADSRVVDQSALQAIETIAGKYQDAGKRVQLRHLSRDCHRLLTKAGHLMIDSDDDPEYQIA
+VNYQVRTGILGGH
+>tr|B7RFL8|B7RFL8_9RHOB
+MYLGQVASDTRHKGAAMGEKTKDALIHDQSAGIERLLEIMRRLRDPETGCPWDIEQDFGS
+IAPYTIEEAYEVADAIERRDWPELEGELGDLLLQTVYHTAMGEEDGHFTFQSVVRNISDK
+MVARHPHVFGDESRDKSADQQTADWEKIKAAERAGKAQGGALDGVAVGLPALLRAYKLQK
+RAARVGFDWPDTGDVVAKIAEEAAELVEARDTLTQAEVEEEFGDLMFVMANLGRHLGLDP
+EAALRAANAKFIRRFEGVEARLSQIGKSPADSDLAEMDALWDAVKRAERS
+>tr|B7RHD8|B7RHD8_9RHOB
+MDHFPIFLSTKGQRIVLSGGGDAALAKLRLLMKSQAKISVYAPDPAPELVQWADAGRITL
+QKRPLQLGDVLCAKLFYAADEDAVEDARTAAIARAEGALVNIVDNLHDSAFITPAIVDRD
+PVTIAIGTEGAAPVLARAIKADLEERLPATLGTLARIGKGFRKMADALPFGRPRRDFWRD
+YYFTSGPRAVADGEAAVGDALDTLLADHLSRAARPGHIAFVGGGPGDPELLTLKARRALD
+EADVVIYDRLISPEILELARREALMIDVGKEGFGPSTSQETINALLVEHAQNAHRSCA
+>tr|B7RLE0|B7RLE0_9RHOB
+MAERYGDADIGVYGLGTMGSALALNLADHGFKVAVSNKETDWIAPFLQEAGPLAPHLTGA
+QTLTEFVAAIARPRSILFMIPSGAPMDAMIDAILPLLDDGDTIIDGGNADFNDTRRRSAA
+FKGTGRHFVGMGVSGGAEGARHGPSMMVGGTAHSWDQLRPMVQAIAAKFDGDPCVAHLGP
+DGAGHFVKTVHNGIEYADMQMIAEVYGLLRDAGGQSAPDIGALFERWQDGPLSSYLIEVS
+AAALQTIDPETGQPLVDMILDQAGQKGTGRWTLIEALKLGQSASTIEAAVGARGWSSEKG
+TRVAAEPQLPAMAAHVDLPEPADLERALLAARILGHTQGFRILSAASAEFDWQLDMARIS
+EIWRAGCIIRSALLDDFAAAFRGDLPLNELVLAPAISDMLEDSIASLRRVVAAAVMAGVA
+VPALGAALAWYDTIRRGRGTADLIQAQRDFFGAHGFARVDAEGRHHGDWNRVQKT
+>tr|B7RPH0|B7RPH0_9RHOB
+MPIKNRFAETHADITAWRRHLHTIPELLFDLPQTSAFVADKLRSFGITDITTGIAETGIV
+AIIEGKTNTSGRTIGLRADMDALPIAEATGLEYASTHPGKMHACGHDGHTAILLGAAQYL
+AETRNFDGRVALIFQPAEEGGGGGNVMVEEGLMERWSIDEVYGLHNMPGHPVGEFAIRSG
+ALLAAADEFDIMITGQGGHAAAPHEAIDTNLAAAHVVVALQSIASRNVDPIKQMVVSVCT
+LRSDTDSHNVLPQTVRLRGTVRTLDAGIRDLAQERLEAIVTHTCAAYQCSADIGYQRGYP
+ITVNAEDNTHFAAEAAEKVTPGVDRDTPPIMAGEDFSYMLNKRPGAYIMLGNGDGPTVHH
+PMYNFNDEAIPAGCSWFAEMVETRLPSFG
+>tr|B7RRZ3|B7RRZ3_9RHOB
+MNEKIAVQAREVHKVYGQGEGTVTALGGVSLLIRNGEFFTLLGPSGCGKTTLLKLIAGFE
+SPTRGQILLDGMDITYDPPNIRPVNTVFQSYALFPHLSVAENIGFGLKMLGRSKAEVSDT
+VQRMLALVRLEQMADRKPGQLSGGQQQRVALARALAPGPKVLLLDEPLSALDLKLRKEMQ
+IELKRLQVETGITFIFVTHDQEEALTMSDRIGVMQAGELLQVGDPRTIYTRPANRFVASF
+IGESNFLSGTLDGGTLVLDAGPRMPVETGHTPQANGHVTAAIRPEQIRISDNTADGIPAT
+VRDTVYFGTDTHCVVALADGTEITIRLQSPVSGNVGLHPGAEIALKFEPGALIVLPEAV
+>tr|B7RRQ2|B7RRQ2_9RHOB
+MFGLSILSLIFVGHRAIKITDEAASGRQERFAARSLESAIAVLPKQQRSATVWDDAVQNV
+IAGNDKWMDENLGIWMQQYFGHNEDYVLAPSGEPVFASVRGEIRHTDSYSIRAKTIAPLV
+AQLRETMADVSAGQSNPYEELAEVAVVTPLRFENEVAIVSVVPIISETGEVVQEPGAEFL
+HVAIRYVDAVLAKEIGLPVELESATFTADRPSGPLAGIAVPGPSGDPLSWLVWKPEQPGT
+DLFLKILPVLAAVGLVSGAMWFWVVRHLLRVSIQLQASEAQARLDVVSLKQAKEAAEAAD
+RAKMNFMSIVSHELRTPLTVILGYARLGKNLRKMPAGQRLDDLLQRQPLSAIPLKQDINE
+LFQLFGTGMEKIERSGEHLLFLVNQLLDYAKIETGRLEVDPEICDVRKVLEPVIEQMRVL
+TEQKDLDLETTIVSCLMLADVTRTRQILINLIGNAIKFTDAGKVSVVVIESEEEVHINIS
+DTGPGIEPRELEKIFEAFHQADLSGTRSAAGTGLGLSIAKELARLEGGTISVKSEVGLGS
+TFTLSLPKDTSPALEKAA
+>tr|B7RPB7|B7RPB7_9RHOB
+MSPLPDILTQLNDDMRADDVWGDVASYIPELAHIDPAQFAIAVTTADGETFTAGDADTPF
+SVQSITKVFTLAIALGRSGDQLWRRVGREPSGKAFNSIVQLEQEAGRPRNPFINAGAIVT
+TDEILTGRAPRETLAEIVQFIRAAAGDDDIHINDAVAASETAHGHRNFALAHFLASCGNL
+NNTPEKTLGTYFHHCAIEMSARQLAMSGRFLIDTPQLPRMILPQRIRRLNALMLTCGHYD
+GSGDFAYRVGLPAKSGVGGGILAIVPRVASVAVWSPGLNRYGNSLKGTEAMARLARAMSW
+SIF
+>tr|B7RJ93|B7RJ93_9RHOB
+MAGVDTARRMIDVAALAAHLAAHPHVTGKRDIDVACAALGLSQNSPGRPGDDAAAIPDGD
+GWQLMATEGFMNDFVASAPWFAGWCAVMVNMSDILAMGGRPTAVTNALWAPDATTAQEIL
+RGMKQASEAYGIPIVGGHTNLRTAQPQLAAAIWGHAKVLITSFGAQPDDVLIACADLRGA
+YAGDSSNFPAFLNAPHERLRGDMEILPALAEDGLVTAGKDISQGGIAGTALMLAECSGVG
+ISLDPNVITPPDGDLTRWMTAFPSFGFLLTAKPENAAAILSRFHRREIGAEVIGTVVAGS
+ALTLNDVTADHLIWDHAVAPYLGLPPIKEADHA
+>tr|B7RJM3|B7RJM3_9RHOB
+MEIIQLYWVSLRACIADIGQKNVALIAAGVAFYAMLSLFPALAALVAILSLVSDPVVVIA
+QLEDMRGLMPNDVYDIINGQVVSMVTTSSETLGWAGTVSLLVALWSARAGVGAMMIGLNS
+VYNERNRNAAFHYLRALLLTFGLVMVGIIALITVVIAPIVLSFVPLGIFGSIVAEVTRWT
+IAISVLLAGLGVLYRYGPNRRPARVGWLTFGAVFAVAAWAVVSIGFSYYVANFGNYNQVY
+GSIGAVIAMLVWLWISSFLVLMGASWNAQVELRTRVDSTIGPDRPRGKRGAVVADDLVSV
+DRG
+>tr|B7RQU5|B7RQU5_9RHOB
+MIHETQGLPGVDRIQTRFLDMLKDRQATIANLALGAWEGDTVEDINESLTQARGILHQIA
+ATAGSISFDDLGATARACGLKIDDHLKGPDADLALCPGELVLYMDHFVQSCGALIEQHPQ
+LVRV
+>tr|B7RP93|B7RP93_9RHOB
+MTKLFGTDGVRGQANIYPMTAENALRIGAAVGRYFGQSRSGVHRVVIGKDTRLSGYMFES
+ALTAGLTSTGMNVLLLGPVPTPAVGLLTRSMRADLGVMISASHNPATDNGIKFFGPDGFK
+LSDQVEAEIEALVDNGVDLNAADQIGRAKRIDDGRFRYVERVKSSFPRQMSLDGLKVVVD
+CANGAAYRVAPETLWELGAEVVEVGVKPNGHNINQNCGSTHPEMAAAAVVSHGADLGICL
+DGDADRVILIDETGKVGDGDQFMALMGSRWAAEGRLANNALVATVMSNLGLEHFLQGHGV
+NLERTAVGDRYVVERMREGGFNLGGEQSGHIVMTDHATTGDGLMAGLQFLAEVVRSGKKA
+SELLNNFDPVPQLLMNVRFSAGQVPLEDAHVQAAIAQAEADLAGKGRLLIRKSGTEPLVR
+VMAEHEDAALMAQAVNSVVDAVTQAVEI
+>tr|B7RFR2|B7RFR2_9RHOB
+MRYSVLDLSPVPEGSDTRQAIANTVDLARHAEAAGYHRYWLAEHHNMPGIASAATSVVIG
+HVADHTTSIRVGAGGIMLPNHAPLAIAEQFGTLATIHGDRIDLGLGRAPGGDQAVYHALR
+RGMQGGDRFPDDVAELMEYLGDAQPGARVRAHPGQGTHVPVWILGSSLYGAQLAAHFGLP
+YAFASHFAPDALEDATAIYRRDFKPSTAWAKPHFMLAVNVFAADTDTQAAYLRTSVQQAF
+VRLRTGNPGKLPRPVDDIDAEVGAQMRQAVDQALRITAVGSPDTVKAQLTALIDRYQPDE
+VILSGQIHDHAARVRSLQIAAEVMTDINNQRAAA
+>tr|B7RGU7|B7RGU7_9RHOB
+MALTAIIEAHGGPEQFKLVDRPVGDPGKGEIRIAQKAVGLNFIDVYQRTGLYPMQLPHAM
+GMEAAGIIEAVGEGVTHLKVGDRAAYAAQPPGAYAEARVMPAAQVCPLPDGISFEEGAAM
+MLKGLTVEYLFHRTTPLKRGDTVLFHAAAGGVGLIACQWARSEGVTLIGTAGTDEKCQLA
+LDHGAAHCINYRDGDWAARVQELTDGKGVDAVMDAVGADTFEGSLNSLKPLGMMISFGNA
+SGPVPLFNLGILGPKGSLKITRPTIFTHIGDHATCQEMAKHLSDKVLSGDVKINIGQRFA
+LKDIAQAHEALEARQTTGSTVLEIR
+>tr|B7RN15|B7RN15_9RHOB
+MNWDTIKGNWSQMTGKVKEEWGDLTDDDVTEAAGERDQLVGKIQAKYGVAKEEAEKQVDN
+FVAKQS
+>tr|B7RSE4|B7RSE4_9RHOB
+MTRASCGLTAAVIGGALKISDAAGFSLEASVQTPFYNNGFDIEAAANSQMRVLIEGEAFE
+LAAVAPSGAALPVNGQRALEVAVVTLTSSTVDGTQNAAGGVVIGSTWELILDGLTVSVTA
+VTGDTLQSIAGRLVAQLAGTDYAASELYRTATLVPSIIGGVAADATWSILLDGALVSYTS
+VEADLKNGISGIGQKIADQIAALDEGYVVNVSAGGAISISRPAGNAFSIVTITNTGVTSL
+SAAGSNSIAPPAFVDNTIVIFKRPDAAGVPPFGLEVVRLKTVGAETSQTGAVNSALRKLS
+VTYWDFAAVSFGPISGVIAQGTTWGLRLSAADIAQGLDAAVLETYDYVAGDNQEQIVPAA
+FDLKLLDDDAPTVEISESGNSTDVAERFAGDGVNGPDNRVTDSFDIVLTGALTGDKWVTV
+DVTPLMTRTYNGDVAFDAAANFGEANRVQVRVAAPFAELSFTGAVVEGEVWSVTLYDDAT
+YQVGAVTATYTVQDGDTLASVRGGLIDAIDALTNYTAVPTSNAILITATNSAALPRFFVE
+TMITPDTRGTIFTRTVPDFSFDNVLEIEFAGIPAIGETWDVTFEGKLYSQTVAAGDSLAT
+LAAKLASDIQGDDDQRIRDGGARIYDVTVNGTVVGIQVIADKRATLSASGEIIPVGSTVA
+DSDGAMTLRQYVRFDKTNWDKAQTITVLAIDDEIIDGGDAKVFAAFNERVNSIRGPINVI
+GGKSPTAVELNNPILRPGETNDKLPSGTADSIETTDSVTTITDQALTHVNKLYGERPGFD
+PRINGTATIYDVATFGDNGSGDRVDVVSATQDILSFASGTEIGEGTPFTVDLSVDGVDAT
+AIGAAEVFGTPDQSAAVLGMLDWLEATVDLTAASSFGTYSITLSPTPGSTAGQITVSYTP
+AAGQNFAGTIALELAKAINAATTQFKARAIVNLVGETRLRIVEDGDATGGFDIDVTTPTD
+GKAIIGGTPVAEQYKQAGVTWTMAAIRVRDPNAGSTWTLSVDENGRSAVATADVASITQT
+LANKLPGSLTPVVSGTSATIAAALPDDFTTGQDILYSYAPVNANLRVDEADQVDTLTIFN
+GESPAADVGVLTASRLSGLGMGDDVVIAGKRIAGGIAYSDIEVLDIRLGRNGDTLTVEST
+HKGKTRIDTGRGDDVINVKSTNGHTFITTGTGNDTVNVGSDRGILDQITGQLVLDMGADA
+GDKLNLNDSLDTNANVMTLTGDRLTGLDMPSVAEVQQIAVRAIGGRFTLGFNGTSATAEL
+TAFVYNSANAATIAAATEGARQQIAAITGYDVAVEIVQTKDGIAYLIEFGGLAGGLDVDA
+LTVVDTTGLDAAADSTTAVTIEELRKGMITPVRDNVEVLRLSATSGIFTLTFMVPDVNGV
+VALRTTEAIAWNASEKQILAALDPILNPNNGFDFLPYTHNVGVDRLGDAIYLTMQGELSG
+TRIASINTRGLGGDYTQADIAIAAPTVGQRWTVTVTDLVTPTQIAGLTAAASVFSYTAAL
+GDTDQTVAQKLADEIAAAQGPHLVATADNGILTVTSRSGAPIELSVTGALKAAGQQTNSI
+ATTLQNDGIGYHNVEFLDLSLGSNDDVLNIQGTTARTIIHLGEGDERIYISSEAAEDLTT
+DTRFLTGHLNNITGLLNIDAGIGRHQLMISDEAAILADGTVAQRALITDNRVAAQAAAIA
+RGIDETFIDQTDIYVVGIAPAAIGYSADANGNFLSGVTYWTGFGDDVIFIDATHLRAIAG
+AQTVTSLNTGLGNDNVQITLDDGDDFFVLNSQGPYDQYDAVRDADIVTSPDTTRPLVIFG
+GQDDDKIDTGTVDDIVFGDRGVLEYMDENGAVSLRLGTGGLTDVTDGVARAPTSFSSTFT
+DVGGADTINTFTGTDIIIGGQAGDVIDAGQGDNIVIGDNGEVQLATEAPNFGTFRYALVY
+AATLDATTGGNDIIRTGYGADLILGGFGNDNIVANLGETAAQSDAVNLILGDFGAAYWND
+ENDLSTLDRVISTDTFVGGDDFIRTGRASDIIIGGDANDDIDASQGQNLIIGDSGEILSG
+AKATNVPAFGLALQTIRTIEDTRGGIDKIRTGDDTDIILGGQAGDDIDAGQGNNIVLGDN
+GYVIFETEAPNFGDLQIAVVEISTTSPTTGGNDMIRTGYGADLILGGGANDTITANVGET
+ATQTDAINLVFGDFGAAYWNRDGDLATLDLVTSINTAFGGRDVIKTGRSDDIVLGGFDQD
+EIYASEGSNIVLGDSGLLKSSAIETNVPSFGLALRTLMSIADELGDDDMIATGASTDLIF
+GGNGDDTIDAGQGDNIVLGDNGTAIFDSTVTNFGDLPIAILSVTTQSPAIGGNDMITTGL
+GNDIVFGGARDDTIVTDFAGDFSGTDGYDIVLGDHGYINFVNPETGTYTFLRDIVSIDPA
+FGGDDVISTGLSTDIIFGGNGNDAINAGIVDNFTDVVFGDNAKITLNKTGVFEGPTAADP
+SGQEFGVISFNFGNDHYRADTTVDGVAGAGNSASDKPAPRADGWNELSEDRGIFGDDAAE
+LVRAETGAIMRDVTIDWSVRDNKDRTRDANDDTHSDIPYPNSADDRLYEGYLYTGHDDTL
+VITLSGLDRHYETFDIYVYLDGDDGKTSRKYGTVRQVSIGSESYFVSDPDGVNFDGDLIR
+VTSQERNAPGLGNYVAATGLSGGEITIEVSIPSNQRYGYPVISGLQIVGQSYPIDKFQTV
+ADSIGGDDVIITGGGEDIILGGAGDDMINSAGDADMGRFDADTVLGDGGMLTFLRTGPVG
+PVEFGELREIVSRDGDATPNYNDTILTGNGTDRVIGGQGDDTINTGDIFEHNGVDDATSG
+TDVIARGFNFGAQVDEGWVDGPAGFVAAGTWTNFVDQGNFTKTFAKDIGWGWYKKSKSYD
+VRVDSMLTNEGIRVTVGQDLDSKYVRDVYVEDHDQINADTQNGSLFNGYIYAKSKSELGV
+DVTGLTAIYGTGSYDVYLYIDAEDRDAARNGGYRLVSANGQSISLNDPAGANFTGEFIEY
+DPMNPSLPANVVIFRDVSGDAFELRINSGGYQHKGKWYLHDRDTPSLAGIQIVGGADKAN
+VVQQGDLDTDLVLGDQGFMRIFDNTVFNFAALTGAPGTANDTILGGAEGDVLIGGDGDDT
+IKGEDGDDRIVGDNAEVIIIRGNIIGLDGFSDNGKREYYNSVFDRIDPYTIQGLQLMDVA
+AGGKDVIEGGRGNDWAWGGTNDDTYVFAGGSLGIDRLFESDFIENERSSKRSDNGTTPEG
+LMNDTGDALDFSDFIGSVDLNLRDSSRRSSMAVAITVRSTCPSS
+>tr|B7RGD5|B7RGD5_9RHOB
+MPTIGFETHDHHACVSDAMAKAEARCAASDLRLTPVRRRVLELLLAEHRALGAYDILGHL
+SAEGLGTQPPVAYRALDFLVKAGFAHRVEALNAYIACTHLGADHAPAFLICRNCRSVAES
+NTALTQGRLGDAARAAGFQIEHTVVEAQGLCPACQTGDAA
+>tr|B7RGH9|B7RGH9_9RHOB
+MPHVTFPLNDLSDLAKLVRDLPASNPDSHEAARARQDTLTKPPGSLGRLEDLAVFMAGWQ
+GRAVPEIGKAQAIVFAGNHGICAQNVNPFPQAVTAQMVQNFKAGGAAINQICKVNGADLS
+VVDLELERPTADFTQDAAMSPQDCVAALNAGAAAVASDADVLILGEMGIGNSTVAAALVA
+AVFGGAVKDWVGRGTGSDDAGVMRKIDVIERGLARHAETDGDGAAILAALGGREQAAICG
+AVLAARLARIPVILDGFICTASVAPLYAIDRACLDHCLVGHLSVEPGHRKLLQALQKTAI
+LDFDMRLGEGSGAALALGVLRSALACHGGMSTFAEAGVADG
+>tr|B7RG74|B7RG74_9RHOB
+MPIEILMPALSPTMEEGTLAKWLVKEGDTVSSGDVMCEIETDKATMEFEATDEGVIGKIL
+IADGTEGVKVNTPIAVLLEEGESADDIGAASAPAETAPTPAPQEEAPVAASASPDTPAAP
+KSADGKRIFATPLARRIAADKGLDLSQIKGSGPHGRIIKADVEGLSESEAPKAAAAAAPT
+ATEAAAKPALAAGPSADAVMKMYEGREFEEISLNGMRKTIASRLTEAKQSIPHFYLRRDI
+QLDALMKFRGDLNKQLEARGVKLSVNDFIIKACALALQAVPDANAVWAGDRILKLKPSDV
+AVAVAIDGGLFTPVLKDSEMKSLSALSAEMKDLATRARDRKLAPHEYQGGSFAISNLGMF
+GIDNFDAVINPPHGAILAVGAGVKKPVVGKDGELAVATVMSVTLSVDHRVIDGALGAQLL
+TAIKDNLENPITMLA
+>tr|B7RGN9|B7RGN9_9RHOB
+MDDLKDRLVSRALEEGFVACRVCRPSDVPEVPERLSAFVEAGYHGQMAWMADRMAWRGNP
+AALWPEARSVIMLAESYTPEHDPTAVLDVPQKAAVSVYAQGRDYHDIVKRRLKRLARWLI
+EQDPCEVKVFVDTAPVPEKALGQAAGLGWQGKHTNLVSRDWGNWAFLGAIFTTLDLPADA
+AERDHCGSCRSCLDACPTGAFPGPYRLDARRCISYLTIEHKGPVDLELRGKMGNRIYGCD
+DCLAACPWNKFAVEASDMRYHGGVGTPDLAELAGLDDAAFRARFSGSPIKRIGRDRFVRN
+VLYAIGNSGLSTLASVAGSLTDDPDPAVADAARWAMGRLTAK
+>tr|B7RGW6|B7RGW6_9RHOB
+MVRPLIAQAESGEATALHLISAPELIFDEGAVAQALSDAFDSATDSGQVKSAAVQILREA
+QKAGRDEIARAFAVAPFDARAMTSAYCYLTDQLVRSTLQIATQRLHPKRDKTDDDRLAVI
+GVGGYGRGEMAPFSDVDLLFLMPKKATDWAESVIESMLYMLWDLKLKVGHSTRTIRGCVQ
+LGAEDFTIQTALLEHRFVAGDLKLAQDLDKTLKKDLFAGSGRSFIEAKLEERALRHRKQG
+LRYVVEPNVKEAKGGLRDLQSLFWIAKHIYNVENAADLVDLGVFLEEEFKTFVAAENFLW
+AVRGHLHLLSGRATEQLTFDMQVAVAEAMGYADTGGRRGVEVFMQAYFRHATQVGELTRI
+FLTKLESIHIKAEPLLERIFRRKPKMRDGYEVVVGRLAITDDKAFIADKLNLLRIFEEAL
+RTGMLIHPDAMRLVKSNLKLIDDDMRNDAEAQRIFLDLMLKHGNPERGLRRMNELGVLSA
+FIPEFEPIVAMMQFNMYHSYTVDEHIIQCITNLALIEKGELEEDLPVASSILKRGVNRRV
+IYVALLLHDIAKGRPEDHSILGAQMVRKIAPRLGLHQNEVDTVEWLVRYHLLMSDMAQKR
+DIADPRTVRDFAKAVQTVKRLDLLCVLTVCDIRGVGPNTWNNWKAVLIRGLYRQTKRALE
+TGLEDLNRKNRGAEAKKTLRAALADWPRKELQAETARHYDPYWQGLHVTAQVVFAELLRD
+IKEGEIRIDLHPDEDRDATRACFVMTDHPGIFARLAGALALVGANVVDARSYTTKDGYVT
+GAFWIQDADGNPYDIARLPRLRQMIGKTLKGEIKAREELKSRDKVKKREKAFRVPTHITF
+DNEGSEIYTIIEVDTRDRPGLLYDLARSLAESNVYIANAVIATYGEQVVDTFYVKDMFGL
+KYYSESKQKTLEKRLRTAIAAGVERAQD
+>tr|B7RK40|B7RK40_9RHOB
+MPVEEIKGQKIWQRRSGRESLAHWVMWLIGVAVFAYCWQQISASTTWFFVWDAPRIADDI
+WTRATPPRWEYITQLGKPIWDTLNIATLGTIFSLILAVPVAFLAAHNTTPSRFFIRPIAL
+LIIVSTRSINSLIWALLLIAIIGPGVFAGVIAIAIRSIGFCAKLLYEAIEEIDQTQVEAI
+TATGASRWQVMAYGIVPQILPAFAGIAVFRWDINIRESTVLGLVGAGGIGLQLSSSLNVL
+AWPQVSLILLVILAAVVISEWVSAKVRGAII
+>tr|B7RRK7|B7RRK7_9RHOB
+MELQGHAAIVTGGASGLGGATAEMLAKAGAKVAIFDMNDEMGQAKANEIGGTFFKVNVTD
+EDAVASAIADAEGVHGKARILVNCAGIGPPAKVVSREGDALPLSDFSNVINVNLLGSFNV
+LSKFAAALHKADPVGEERGVIINTASVAAFDGQIGQAAYAASKGGIVGMTLPIARELARY
+GIRVVTIAPGLFLTPLLASLPEEAQQSLGAQVPFPSRLGDPSEYAKMVGAIIDNPMLNGE
+TIRLDGAIRMAPK
+>tr|B7RHQ6|B7RHQ6_9RHOB
+MAGNTGGPWGGGGNSGGGNSGGDQNRPNGNRPTGGGRGPGGEKPQIPEIDELVKKGQEQL
+RVLMGGKGGNRGTGGSGGDGGGSGPKLTRGTIGLGALAAVVVWGMASFYTVRPEQQSIEL
+FLGKFSSIGTEGLNFAPWPFVTAEVFDVTTNRAETIGAGRSGGDNEGLMLTTDENIVDID
+FQVVWNVKNARDFKFSLRDPNASVRAISESAMREIIAQSELAPILNRDRATIEATARELI
+QTTLDNRQTGINIIRVNFNKVDPPRQTVTVTDAQGNTSQESVIDAFRDVQAAEQERDRVE
+RQADAYANQRTAEARGESARLLEAAEGYRARVVNDAVGEASRFEAVLREYASAPDVTRKR
+LYIETMEKVLGDVDKIILENSSEGGGQGVVPYLPLNELRNSNRGSN
+>tr|B7RRF7|B7RRF7_9RHOB
+MDRIKHDETRHALIGATKSVRIAHTLESEIRSGVLNRGDALASENDLVKRFSVSRSTVRK
+SLELLSSKGMITTKSGIGSFVTFGGKTIDDQAGWTLALSSSDVQLSTRVLRLERGGMDLP
+GTEVALGVDCLIVDRLRFLETTGKGVSLERSRVPWRDTLEDVLQTGLVDGSLNTTLLNHG
+LSIASGAEWAGVIPALSSEDATVMGRNAGDAMLRLRRLTRQTDRTIIECVESILDPDLFG
+LHMEF
+>tr|B7RSC8|B7RSC8_9RHOB
+MYLYRALDKQGQTLDFMLSETRDEAAATRFFRQTIVNNGWPDKVVIDKSGTNKAGLDNMN
+IELILHGWYWLIEVLQVKYLNNLIEQDHRFIKKITRPMKGFKSVEAATATLAGIETAHMI
+RKGQLGTTKLSAFQQFAALAG
+>tr|B7RQC7|B7RQC7_9RHOB
+MKARVHVMLKNGVLDPQGEAVRHALGAMGFDGVKGVRQGKVIELDLAEGTSEADVEAMCE
+KLLANTVIESYSVEMV
+>tr|B7RGB1|B7RGB1_9RHOB
+MTPDIIARNREIGVGQDETVLAYCASGTRSTIAWALGQAGTQPADDLIAAARAGGYDISH
+MRGILSASYA
+>tr|B7RLF5|B7RLF5_9RHOB
+MAAFSAVPVWAQENLRIDGLEIIGEPVDGKMGFQPAVTRVAQDIHDLDHLILVIITLITL
+FVTALILWVGFRYNKKRNPTASSFTHHTPVEIAWTIVPILILVLIGAYSLPILFRQQEIP
+QADLTIKATGNQWYWSYNYVDEGFGFDSYMIGAPAVGGENRKTPEVIAQLEAAGYTEQQF
+LLATDTAVVIPVGKTIVVQVTGSDVIHSWAMPAFGVKQDAVPGRLAETWFKAEKEGTYFG
+QCSELCGNAHAYMPITVKVVSEEIYAEWLSRAKAEYAGIPQPLTVASN
+>tr|B7RLZ9|B7RLZ9_9RHOB
+MPELPEVETVRRGLSPVMEGQVIARADVNRPDLRWPFPPDMAARLTGQKVERLRRRSKYI
+LADLSSGESLLIHLGMSGRMLISGDPLGQFVHDHPSPEKHDHVVLHMANGARVTFNDPRR
+FGAMDLLDTQNADAHKLLASIGPEPLGNDFNEAHLVAVLKGRNTPIKSALLDQRIVAGLG
+NIYVCETLYRAGIHPARKAGKIAATRVAGLVPIIRQVLEEAITAGGSTLRDFKQADGELG
+YFQHSFDVYGREGDPCRAEECTGQIARIVQSGRSSFYCAQCQR
+>tr|B7RK69|B7RK69_9RHOB
+MKQKLIIIGAGMATGRALETLLDTAPDAYDVILFNAEPRGNYNRIMLSPVLAGDKTYAEI
+ETHTPQWYADNGVTCRFGERIAGIDRAAKTVTAQNGDVLSYDKLMFGTGSNPFIIPLPGH
+YLEGVIAYRDLEDTERMMGLGPDNTCVVIGGGLLGLEAAAGMAARGVKVTVVHIMGHLME
+RQLDEAAGYLLRKALVDKGITIKCSANSKEILGKDGHVRALLLDDGTELPCDLLVMAVGI
+RPNVALAAEAGLAVGRGIHVDDQMVTSDADILAVGECVEHDGAIFGLVAPLYDQARVAAK
+TLLGEAATFVQKELSTKLKVTGCDLFSAGDFADGDGREDIVFRDPGRGVYRRLVIENDII
+IGAVMYGDTADSNWFFGLIRDKTDIARMRDTLIFGPAYQGGTPLDPLAAVAALPRDAEIC
+GCNGICKGQIEDAITAGATDLGAVKATTKASASCGSCTGLVEQVLAVTLGDDFVLPAAAS
+ICACADMTHEDVRRMIKSRHLTSMPAVWQECGWKTSCGCHVCRPALNFYLLADWPLEYAD
+DPQSRFINERKHANIQKDGTFSVVPRMWGGITTPDELRAIADAADKYAVPTVKVTGGQRI
+DLLGVRGEDLPAIWADLNAAGMVSGHAYSKGLRTVKTCVGTDHCRFGTQDSTGLGIKLEK
+TLWGAWTPHKLKLGVSGCPRNCAEATCKDIGVVCVDSGYQISIGGAAGMDVRETDLLVQV
+PSEREAIDVIKAITQLYRENARYLDRIYKWMSKVGADWIKERVVDDLEGRAALIAGFELS
+QSIYRRDPWADHVQQKAQSYQPLATLQMEAAE
+>tr|B7RJ07|B7RJ07_9RHOB
+MSDPEDLGTGIYRQEAAELVQSIEAGLLALENTPGDGDRIDAVFRDLHTVKGSGAMFGFK
+ELAEFVHEFETAFDSVRRREVPVTSALIEISLRACDHILRLLDDPVSAKAVSATILGKLA
+ACLEADGSDALPAPRQDMSIGTDNRGIPPANGYRVKFRLAADALMHGHDPEVLLNDLRDL
+GPTRVRALVEDVPPLDQLDPTECLMGWEVEITGEIDPTDIEAVFLFTRDTMSLEVSPLDA
+DEALEANAGPTDEPDASFSLVSGASNSTKATGNTMRVATERLDEMMDRVGELVIAEARLQ
+ALAQTSGDATLMAVAEDIQRLAAGLRDSTMSIRMVPISSILGRFQRLIRDLSGSLGKQMN
+FVTCGEDTELDKTVIELLADPLVHILRNCADHGLESAERRLAAGKPATGTIELGAEYAGA
+EVVITIRDDGRGLDAARIRSRAVERGLIDEDVDLPEAELYRMIFEPGFSTSSAVTELSGR
+GVGMDVVKRTIASLRGQIDLESEPGHGTTVRLRLPLTLAIIDGLLVEVGGELYTIPLAAV
+EECVELPALHKSERTTSSFLNIRGGLVPFLRLRSLFDVAVPPSDYQKVVVIASTGARVGL
+VVDNIIGNNQTVIKQLSPLHAGLKSFSGATILGDGSVALILDVAQLVASGRAIEESTRRE
+NAA
+>tr|B7RS46|B7RS46_9RHOB
+MRAEDVTDTIELALTVSGCDQAVVRHKPRLLSDNGSCYISGDLAKWLEDQKMTHVRGAPF
+HPQTQGKIERWHQTMKNRVLLENYYLPGDLERQIGAFVDYYNNQRYHESLNNVTPADVYF
+GRDKSILRERAKIKKQTIRQRRLQHQKQAA
+>tr|B7RL88|B7RL88_9RHOB
+MARIAGVNIPTAKRVPIALTYITGIGNSSAAQICEAVGIDTTRRINELSDAEILKIREYI
+DENFSVEGDLRRETQMNIKRLMDLGCYRGLRHRRNLPVRGQRTHTNARTRKGPAKAIAGK
+KK
+>tr|B7RGE3|B7RGE3_9RHOB
+MGRTAQLAEQFASRGVKPIGLSTDTVAEHVKWIDDVNDTQNTTLRFPIVADADLTIAKLY
+DMIHPSESETAAVRSVFIIDPDKKIRLTMTYPMSVGRNFDEILRVIDALQTGDKFKIATP
+ADWVPGQQVIIPPSVTDADAMKAFPQGFETIRPYLRTVKL
+>tr|B7RRA1|B7RRA1_9RHOB
+MQDDDWREDCAPRRVMEIFATKWTSMILHTLQARHAGAARSGALHRSLPGLSKKMFVQTL
+RDMETGGLIDRRVDSTVPPAVTYALTPLGLRFVGLVDLVYDWGRDNADALDALQPREGSR
+RVRSAAATKSAE
+>tr|B7RGZ3|B7RGZ3_9RHOB
+MVARLVLVLGDQLSEGLSALCAADKANDTIVMAEVTDEASYVKHHPKKIALIFAAMRKFA
+RALEEDGWTVAYTQLDDTENAGSIVGELLRRAEQTGATEVLATEPGEWRLIDKLKYAPLK
+VEVLPDDRFLSSHSEFETWADGRKALRMEYFYREMRRKTGLLMEGDKPAGDKWNFDHDNR
+KAAPDDVTVDGPLQFEPDAITREVLELVAARFGDSFGDLEPFWFATTRAEALQALDHFIE
+HALPRFGDYQDAMLNDNQFLYHAVISPYLNIGLLGPLEICEAAAAAYAKGDAPINAVEGF
+IRQIIGWREYVRGIYFLEGPDYTQRNVLGHTRDLPWFYWGGETRMNCVSKAVAQTQSEAY
+AHHIQRLMVTGNFALLAGIDPHQVHEWYLAVYADAFEWVEAPNTVGMSQFADGGVIASKP
+YVSSGAYINRMSDHCKACHYSVSAKTGEKACPFNLLYWHFLDRHRDRFSGNARMGNMYRT
+WDRMDAEKRETVLAEGDDLLKRLDAGEVI
+>tr|B7RHQ7|B7RHQ7_9RHOB
+MPDQVSEFDFDLFVIGGGSGGVRAARVAASEHGAKVGLAEEDRYGGTCVIRGCVPKKLMV
+FASGYSGMAEEAQSYGWDIKPGTFDWHSFRKRLHGELDRLEAVYRKLLSGSGVETFDARA
+RVKDAHTVELSTGEVKTAKHILIATGGRPVRPDLPNADLGIVSDDIFHLEKLPKSILIIG
+GGYIACEFACILQGLGVEVTQYYRGAQILRGFDDEARGLVAESMRENGIDIHTGTNIVEM
+ALEAERHEGSTPSNSDAAMGATSEQAGELNRHNAAARQGTQGPIWVKSTNGGEKVFDMVL
+FATGRTPMTHDMGLEEVGVRLGRGAEIEVDEYSQTGVPSIYAIGDVTNRVNLTPVAIREG
+MAFVQTVFAANPTPVDHDLIPSAIFTQPEMGTVGLSEEDARDAGPVEIYATSFRPMQTAF
+ADQSQRVMMKLIVCQETRVVLGCHIVAPNAGELIQLVGIAVKAGLTKEQFDATCAVHPTM
+SEELVTMRTPTRTA
+>tr|B7RJU8|B7RJU8_9RHOB
+MFENLSERLSGVFDRLTKQGALSDEDVKTALREVRVALLEADVSLPVARDFVKAVQDKAT
+GQAVTKSITPGQQVVKIVHDALIDVLRGEGEPGALKIDNAPAPILMVGLQGSGKTTTTAK
+LAKRLKDRDGKRVLMASLDVNRPAAMEQLAILGVQIGVDTLPIVKGENPVQIAKRAKTQA
+AMGGYDVYMLDTAGRLSIDEELMQQVEAVRDVANPRETLLVVDGLTGQDAVQTAENFNDR
+IGISGVVLTRMDGDGRGGAALSMRAVTGKPIKFVGLGEKMDALETFEPERIAGRILGMGD
+IVALVEKAQETFEAEQAERMMKRMAKGQFNMNDLRMQLEQMLKMGGMQGMMGMMPGMGKM
+AKQVEEAGFDDKILKRQIALIQSMTKKERANPALLQASRKKRIAKGAGMEVSELNKLMKM
+HRQMGDMMKKMGKMGKGGMLKQAMKGMMGKGGMPGGMDPSQMDPKALEAAAKQMGGKLPG
+MGGMGGGMGLPGGLSGFGKKK
+>tr|B7RRW7|B7RRW7_9RHOB
+MARKTTKATAKRKPKPTQSAGAKAKVAAKGAIPVVGLGASAGGLLAYSDFLDATPSDTGT
+AFVMVHHVDPDHKSLMADILATHTDMPVVLAEDNSVVQADHVYVIPPNYYLEIRDGVLHL
+SKPTDRRGTRLPIDMFLRSLAKDLGQNAIAVIMSGTGSDGSAAIREIKEKNGIVLVQDPI
+EAQHDGMPRSAIATGAADHVVEVAKMPDIIADYVRHPFVKNSKVKKVLGENAKDSLEQII
+EVLKAHSPIDFNLYKDGTLLRRIERRMALRHMENSGDYLALLKDSDEEAQNLCTDLLISV
+TSFFRDAEAFEFLEKNVIDGLVKSHDAGHPVRIWVPGCATGEEAYSLAMVIIEKISTLRK
+NVKLQVFASDVDERALAIARNGVYPESIAEDVSESRLKRFFLAEDHSYRVTPELRDAVVF
+ANQNVLSDAPFSKIDMISCRNLMIYLTPDAQERVMQLFHFALNESGILFLGMSETTGNYE
+ALFEPVSKKYRLYKRVPHTRSRAFDFPIVQRPFANPATIPTRGHFPATSNKLAELSQSLL
+VEHYAPAAVLINTQSEALYLEGPTDDYLRVPSGETSRDLLAMARQGLRARLSSAIRKARA
+EDADAVERATITRGNKRVGVTIHVHPVAYGEAKLFLVTFADQPAKEAVLASEEPNAEVNR
+QLEQELETTRADLRTTIRDYERSTEELKAVNEEAMSMNEEFQSTNEELETSKEELQSLNE
+ELTTLNTQLQQKIDDERRMSDDLNNLLSSSGIATLFLDTDFKIMRFTPAVRDLFNLITKD
+IGRPFSDITGKVKDPELLKDAEKVLDTLVTSECEVESNDGRWFVRRILPYRTQSGKIDGV
+AVTFSEVSDLKVLQRETAAAREFAESIISTVREPMLVLDGNFKILSASLSFNRMFATEGA
+DIIGKDLFAIQNKQWLVPRLRELLETVLPEKVTVEAFDISLDAGELGHREMLLNARRIEG
+RPKDEESILLAVEDVTEQKKAQRAILDREARLSAILEAAPEAIVTIDEEGIIGSFSPGAE
+TIFGFSADEVIGKNVNILMSEPDRSKHDSYLEHYLKTGEKKIIGVGREMFGGRKDGSRVP
+IRLTVSELKLDGVRHFLGIMQDLTTEKERQAELHRAQKMEAVGQLTGGLAHDFNNLLTVV
+IGNLELLEMRTDEKKLHGLIKEALEASNLGAALTSQLLSFAKRQSLAPENVALNKLVKTM
+LPILTRTLNEQIAIETRLADDLAATVADPGQIESVILNLAINARDAMPDGGTLIIETSNV
+TLDAAYAATQVDVTPGDYVCLSVTDTGVGMTPETQSRVFEPFFTTKGPGAGSGLGLSMVY
+GFAKQSGGHVAIHSKIGEGATIKLFLPVAEGRAATVEAQPLEQGSETGTETILVVEDDEK
+VRRLTVTRLEELQYKVVAAQDGPAAMEILKKRDDIDLVLSDVLMPGGMTGFDVAKKALAL
+RPGVKILLATGYAKGVEPNRNTNDSGYRVLRKPYGLRELARKLREILD
+>tr|B7RNP5|B7RNP5_9RHOB
+MIDYDALMGRTFPITEHAYTEKDTILYALGLGLGTDPLSQSHLRATYENAKGFGALPAMV
+NVLAYPGFWAKDPSTGLTWQKILHGEQSLTLYAPLPASGVLLGETRITGIVDKGADKGAL
+IYSERIITDKSTGAKIAKVVSTSFARGDGGFGGSHDAVRPVHPMPESAPDATFDFQTPEN
+AALVYRLSGDMNPLHADPEIARQAGFDRPILHGLCTLGVASWSITEALANGDFSALTHLQ
+LRFSSPVYPGETIRTEMWRDGNAISFRARVVERDIVVLNNGLARLG
+>tr|B7RI07|B7RI07_9RHOB
+MDPFQVRGRFLTALAIRIDVDKPDASFFAALEDKIRTASNLLVGAPIVLDLEPVPNLVDR
+DLLREVITAIKSKGLLLFGVQNANEEQRALAEAFGLIPVQIGRDAPAHKVRSDAPARTRG
+LARVENKIITKHVRSGQMIVAERGDLTVIGSVASGAEVVASGNIHIYGTLRGRAMAGANG
+DASARIFCRQLEAELLAVAGLFKTSETIDTDLRRCSVQVFLEDETLCIERVE
+>tr|B7RLS9|B7RLS9_9RHOB
+MGPDFEFERDAYARGFARVAGVDEVGRGPLAGPVTAAAVVLDPARIPEGLNDSKKLTKRA
+RERLYDEIMAVADVSIAHASVEEIEELNILRASHLAMVRALDGLRTPADFALIDGNMVPR
+DLAIKSQTVIKGDARSQSISAASIMAKICRDCVMLSLAQQHPGYGWETNMGYGSKSHIEA
+LQNLGVTPHHRRLFKPVHKMLYQDK
+>tr|B7RIS2|B7RIS2_9RHOB
+MAENEDWYGPDVATFGDRVAAAREHAQMTQAALAKRLGVKQATLRAWEDDLSEPRANRLS
+MLAGILGVSMMWLINGEGEGLDAPDDGQSSSETAMDVLTELRDLRADMLKRAEQLGRLEK
+RLRSALQGESHD
+>tr|B7RQ83|B7RQ83_9RHOB
+MKGLLVLQTGKSLMVGGVGIVVAIALVGYFMSRQQTTVPQTALLSPGGSTTALVQPDPDP
+APKTAPEEQVVPASPDTPRFDEVRRDPDGMTVIAGRAAPGSEVHVMSNGTEIATALADGA
+GKFATLAILPPDGMGQILSLEGMSGKNPVRSVEEVILAPMGAVSVAPAQASAADAISDTA
+QTVAQASAPEVQSAAAEDMATGSDPMPAGTDATTPQTPEPADDTVALLKSTPDGVELLSG
+SAPKPTKAIALDTITYSQQGEVSLAGRAQTQGRSVQVYLDNAAVGTLPVDAEGRWRGDIE
+DVTAGIYTLRVDELNHVGDVISRVETPFKRESPEVLARATANYDGPIKAITVQEGATLWA
+IARDRYGDPTLYVRVFDANRDSIRDPDLIYPGQVFTLPE
+>tr|B7RRG5|B7RRG5_9RHOB
+MAMAAETLCTRWTMVLVREMVAGSTRFNDLRRGVPRMSPSLLSQRLNELEVAGIVTRTPV
+ANEPNVHEYRLTEAGRDLKSVVEAFGIWGQKWIETQATLKNLDPSLLMWDMRRNLDPVPL
+PPQRTVVKFRYPELAEARRHWWLVVDPHAAVDLCSSDPGYDVDLWVTTDLRTMTSIWMGL
+TRVFDAGDKIQLDGDPAIARTMQTWLGLSPFSAQRKLVH
+>tr|B7RSI6|B7RSI6_9RHOB
+MSNILRSQDAPAILSHVSENLKVHRLAARLSQSALAEASGISRRMIVAVETGDANISLSS
+LDKLAAALGLTFTDLIRDPSQPSRNEVNEVMWRGAHPESQSMLLASARASSEVQLWLWAL
+APGEVYPAEPDQSGWHEMIYVIEGTLTLTLSGQSQDYPVGSFAAYRSDQPYSYANQGQVR
+LKFVRNVVS
+>tr|B7RN82|B7RN82_9RHOB
+MSDSPKRKRPLVADKRNSGKASRVAKKAPAKKAPARRKAARRSAPRRGGPIGWLSALVRW
+VLRLIWVITWRVTAVALLLLALAVGYFYTTLPPLEALLDGRARGSVTMLDRNGEVFAWRG
+DQFGGVVTADSVSPHLKNAVIATEDKRFYQHFGVSPRGVASAVRINLSEGRGPLSGHGGS
+TITQQVAKLLCLGEPYDATSGQTEREYEAECRRSSLKRKAKEAVYSMAMEAKYSKNDILS
+IYLNRAYMGGGAFGAEAAAQRFFGKPASALKPAEGAMLAGLLTAPTTLSPTNNLDRSQNR
+AATVIRLMQDQGYLSQAEADKAINNPAELSEAAEAKAGGYFADWVMSSGPEFFTRNTTED
+VIIKTTLDQRIQRAAEEGLNWVFDNKVRAGSKAQAAVVIMSADGAVRGMVGGRKTNVAGA
+FNRASQAMRQTGSAFKPFIYAAALDLGYSPNDLIEDAPYCLDIPGSGQWCPKNYTNSFKG
+NVTLTTALKDSLNIPAVKVSESVGRDIVSQVATSFGIKSDLAAGPALALGASESTLIEMT
+GAYAGILNGGSSVKPYGLVDLTLQGETEPLMGTSGGIGERVIQEDAALQLVYMMEKVVSE
+GTGGRAKFGGRELAGKTGTTQANRDAWFIGFSADYVAGVWMGYDDNTPLTGVSGGGLPTE
+IWHEVMVRVHEGMPNRPLPMIVPAPAVVEAPPARQQTAPSRRQDPVSLIDQVLRDIFGGG
+SSQGGSARPGNR
+>tr|B7RRN5|B7RRN5_9RHOB
+MTAPQTLFAKLWAAHEIMQREDGTSLLWVDRHLVHEGSHHAFAKLDSRGMKVAAPDLTFG
+VVDHYAPTRAGNVAPDIRRMIDTLGRNAKAHDIRLFDLRDPGQGIVHVIGPEQGLTLPGL
+LINCGDSHTSTHGAFGALAFGVGATEVAHILATQAIWQKRPQTMRITVNGSLAAGVSAKD
+LALHWIARLGADGARGHAIEYAGQAIEALSMEGRLTLCNLSIEGGARLGLVAPDQVTFDY
+LAGRNFAPKGADWDRAVADWQNLKTDENASFDREVTIDAADIAPTVTWGTSPEDALPITG
+HVPDPAKMSGAKQEQARAALDYMALDAGMPLQGVAVDQVFIGSCTNGRIEDLRLAAKVLA
+GRKAKVPGLVSPGSALVKKQAEAEGLAQIFTDAGLEWADSGCSMCVGMNGDRVEAGKRCA
+SSTNRNFKGRQGRGARTHLMSPAMVAAAAVSGHLADVRPLLEGRS
+>tr|B7RP79|B7RP79_9RHOB
+MSAILRAGRKKKMSNDWKPRTKAVHMGSRRSQYNEVSEAMFLTQGFIYDSAEQAEARFQS
+LTDDEFIYARYGNPTVRMFEDRIAGMLGYEDCFACTSGMAAVSGALTALLKAGDHVVAAR
+ALFGSCLYVLEDILGRFGVEVTLIDGTDNAAWDAAIRPDTRMVFFESISNPTLEVVDMRH
+VVNAAHAVGALVLADDAMATPVFSYARECGADIAIISTTKHVDGQGRLLGGAICGSKELV
+RGPIEAYMKHTGGAMNPFTAWTHLKALETIDLRVRAQADAALQLAQALDGHPMLSAVRYP
+THPSHPQHELALTQAPSAGTVLAIEVKGGKEACFKFLNALEIVSISNNFADAKSIATHPA
+TTTHQRLPQDQKDTLGISPGLVRLSAGLEDVSDLIADLKQALDRAG
+>tr|B7RGG6|B7RGG6_9RHOB
+MFGAGVVPLVPGFAKTALVEELPGDEGHDHEAEVIIGTNQPDDIVTGGGPQQIWGLNGAD
+TIHAGGGPDVIDGGNGTDSVFAGGGPDTVDGGNGNDYLSGGGGPDDLNGGNGDDVLIGGM
+APDILTGGLGADVFVYRAASDAPAHGEGDSHAPGEDDGHHDDDGGGGPGSSGQETITDFE
+PGKDQIDFSAFGTVAGLSDDPGAYLIWAVQQGEDTMLYVDTDGSVDGDHPAEIGILLLGV
+EASSLTVDDFIL
+>tr|B7RHR9|B7RHR9_9RHOB
+MSLCRVARRQRIRYIASQRNHARPRGITKEYTMSQPLRLGIAGLGTVGVGVVRILRKQAA
+LIEARTGRAVTISAVSARSRDKDRGVNLSDYAWEDDPVALAKRDDIDVFVELMGGDEGPA
+KDATEAALASGKDVVTANKAMLAMHGQALAEQAEAAGCLIRYEAAVAGGIPVIKTLTEGL
+AGNEITRVMGVMNGSCNYILTRMEDAGLPYADVFAEADGLGYLEADPALDVGGIDAAHKL
+AILSSIAFGTQVDFAGIEIEGIERVSIEDIKAAADMGYKIKLLGVAQMTGRGLEQRMQPC
+LVPDRSPLGQLAGGTNMIVLEGDAVGQIVLRGPGAGEGPTASAVLSDICDIARGWHGPVF
+GQKASTLTAATSAMSQAPAAFYLRIGLLDKPGALAKIATVLGEAGISINRMRQTEHRSDH
+APVLIVTHKTSRKALDEALAAMSGTGVLASDPVALRIEDL
+>tr|B7RID2|B7RID2_9RHOB
+MTRTDLGVLNFFRVVAETGGFRKAEALLDLSPSALSHAMRGLEQRQGVRLFNRTNRSVTL
+THAGFELLADVQAGLDAIEAGLEGLNRYRDRPAGTLRINVPSDAARLVIAPVLADYMRQF
+PEVSVEIEINDHVIDIVQKGFDAGIRYGGTVPEDMIALPLGRELRWIAVASPEYLASAPP
+LEHPDDLKAHRCIGLRMGTGRFYNWELERGSEEVVLSLDWAVIVNETVLSLEIAENGGGI
+CYTLEDRIRPQLADGRLVHVLPDWWSMGPAFHLYYPSRRQLPEALRALLRIMQRGSPR
+>tr|B7RR29|B7RR29_9RHOB
+MAETGAVDTVLVALVDMQGRLMGKRFHVSNFIDHSHTETHCCNYLLATDLVMSTPEGFAA
+TSWQTGYGDYVLQPDLSTLRHVPWLEKTVLVLGDVLDHATHAPVPHAPRAMLQKQIARLD
+ALGFDAMMATELEFFLFEGDYRSLQKEKYANLVPLNGHNEDYCLFQTTKEESFLQPLRNH
+LVDAGIPIECTKGEAEVGQQELNIRYADSLACADHHTISKQAVKEIAFQQGFSASFLPKW
+AADKVGSSSHVHLSLWKDGVPLFYDNDAKLGMSDLMRHFMAGLIAYAPDFTYFLAPYINS
+YKRFAKGTFAPTKTVWSVDNRTAGFRLCGEGTKGIRVECRIGGSDLNPYLAQAALLAAGL
+KGIEEKLELQEPTKGDVYEDADVTEIPRSLRAATETLRNSTMLREAFGDGVVDHYTRAAE
+WEQEEFDKVVTDWEINRGFERV
+>tr|B7RSE0|B7RSE0_9RHOB
+MILRPGLLGGFYPERSDERLSTPDRIMAAAYGRLQQMFARRPVSKRLFLMRVKRAGRKLQ
+TLSNQELTEMRIALTEDLRLNGLVRANTAKAFALVREASGRVLGMRHFDVQLVGGLIMLQ
+GQIAEMATGEGKTLTATLTAAVMAMSGVPVHLVTVNDFLASRDAEWMGPLFQFLGLSVGV
+ILEDMEVDDRRAAYACDITYCTNNQLTFDYLKDRLILEAETRPLHMALEGLLHQRSHREQ
+VMMRGLCFAIVDEADSVLVDEARTPLIIAQKGDTSEMETIYRQAINTARAMQTPRDFSLS
+ERDFRIEFTDLGKAQLRRATRQLGGVWATETHREELGRQALSALWLYKRDKHYLVQDESI
+QIVDEYTGRIMADRSWERGLHQMIEVKEGVDISMRQETLIRISYQKFFRRYIRLSGMTGT
+AQEVAGELSAVYRLRTRRVPTNKRSKRWDKGAFCYATADYKWQAVLREVVRRYKKGRPIL
+IGTQSVDASEHLSALLTAKGLQHRVLNARQNEAESEIIAEAGQSGRITVATNMAGRGTDI
+ALDDAARAAGGLHVIATGRHDAARIDRQLYGRAARQGDPGSHVTFVSLEDDLMRVFYGRK
+LRPLIAMTAWGRGWVPGFIARPSVNLAQWASEKRNSGIRKSLLKADDSLDELLAFSGRGE
+>tr|B7RHW2|B7RHW2_9RHOB
+MQDGPVRYAFDKLAGAQGEADDLSSGAQEVEAPNALRHIASLVMSKLADGLIDPKLMLSW
+LLTSLGAPAVFAGALVPIRESGALLPQMLMASRVQAMRHRKWAWIIGSAGQGLFAALIVV
+SALTLDGAAAGYAICAALGGLALCRAACSVSFKDILGKTVGKSRRGAITGTAGSVSSAGV
+LVLAVLLMSGLFENRGVVIAAIALAAVLWGAAALLFSTLKEMKSDPSNASRARFGVLKDD
+ANLRRFILVRGLLVSTALAPPYFVVLAGGQGGSALGTLGALVLASALASLVSSYVWGRMS
+DQSSRKVLMLTGVVGALAMAGAVGLNALGLATRFWAMPLVLFILMIAYHGVRQGRSTYLV
+DMSPEGQRSAYAAVSNTVIGVLLLVAGVVGGGAALIGPNATLILFALMAVGAAIAALGLR
+EVEGGD
+>tr|B7RIS9|B7RIS9_9RHOB
+MSDLLSGAQSSGKEYDASSIQVLEDMEHVRLRPGMYIGGKDDRALHHMVAEIIDNSMDEA
+VAGHATWIELELHENGHVTVRDNGRGIPTDPHPKDPSKSALEIIFCTLNAGGKFSGDSYE
+TSGGLHGVGSSVVNALSDHLRVEVARNRELYAMEFSRGIPQGKLEKIGAAPNRRGTSVTF
+HPDAEIFGNLTLKPARLFAMARSKAYLFSGVEIRWKTSQKDGDTPSEATFHFPGGLSDYL
+NETLKGSTSYADAPFGGMVDFKEKFGVPGKVEWAVNWTPSRDGFIQSYCNTIPTPEGGTH
+EAGFWAAILKGVKAYGELVGNKKAGTITREDLITGGCALVSCFIREPEFVGQTKDRLATV
+DAQRMVENAVRDHFDNWLASNTKSAGAILDFLVLRAEERLRRRQEKETARKTATKKLRLP
+GKLTDCTSKNREGTELFIVEGDSAGGSGKGARNRVNQALLPLKGKILNVLGAASGKLNTN
+AEINDLCEALGVGMGSKFVLDDLRYDKIIIMTDADVDGAHIAALLMTFFYTQMRPMIDAG
+HLYLACPPLYRLTQGAKRVYVSDDAEKDLWLEKGLGGKGKIDLQRFKGLGEMDAKDLKET
+TMDPSTRKLIRVTVQEDTPGETGDLVERLMGKKPELRYQYIQENAQFVEELDV
+>tr|B7RK88|B7RK88_9RHOB
+MSIQPDNRFVDTTPWTDATDLSAPERSDMDASVGLLMWRKFRRHKLALVSGLFLAFCYLI
+LPVAGFVAPYTPNERNAEHLYAPPQSINLWHDGKFIGPYVYETTGEADLINFRWVYDTDE
+TAPRKLEFFCEGETYNIFALIPSDTHLFCAPDGATVFLWGSDRLGRDVFSRILYGAQLSL
+TVGLIGITVSFILGIFFGSLAGYFGGKTDWFVNRMIEILRSLPELPLWLALSAAVPSNWG
+PVSVFFMISIILGILDWPGLARAVRSKFLSLREEEYVKAAEMMGAKPSRIIRKHLLPNFM
+SHLIASATLSIPAMILGETALSFLGLGLRAPAVSWGVMLNDAQNLASIEIYWWTAIPMLP
+IIVVVLAFNFLGDGLRACLDPYKS
+>tr|B7RR82|B7RR82_9RHOB
+MPLLRNPDDPRLENTDFGSYDVAKFGSDLLGFNDGRPLSDEQDALITTSGETMRWLASHD
+VKFEPIYSRQSFEKDGRHVFWGGLTLAAENEGVGLFDMELAAVERLGGTVRYNSAVTGLI
+MEGDRVAGVRVGDEELRADAVILASGGFEANEELRIKHMGPNWKAAKVRGTPHNTGDGLT
+MAIAAGAQEYGLYAGCHATPMDLHMADFGGLDLPPGERKNYRKISYFLGVMLNAEGHRFV
+DEGANFRNYTYAQYGAAILEQPGQFAWQVFDSKVFDLLYAEYRFHDAHFVEADTLEELVP
+QMTGVDQSAATATLAAYNDAVDVDVAFDPTVLDHKATVGLMPPKSNWAQKIDLGPYRAYP
+VTGGITFTYGGLKVDADGSVISKDGXXXXXXXXXXXXXXXXXXXXRLRLKRRAHFHLWQQ
+ELEHFSLVIVGPGLHDVGLAPANRDFTSNASEQVLHARYPRPNTTVPRCFRLWSVLGLCA
+FRDA
+>tr|B7RRZ1|B7RRZ1_9RHOB
+MADRTFSISRLPGFAAIAVTVFVMLYLPIAMLVIFSFNSGDSVAVWEGFSFRWYPEAWQN
+EKVKEVTFRSLTIATAASLIATTVATMAALGTTRRQSSKGQSFVYLMINQPLMVPEIVTG
+VALLVFFSSIKVATGYQGLGYLILAHAAFCTPFAYLPIRARLEGMDLSLETAASDLYATP
+WQTFRYVTLPLVMPGAIAGLMLAFVTSLDDVVITLFVKSAGQDTLPTYMLAQIRRSVSAE
+VNAISTLLLLLTVVLLTAFFLLTRKRT
+>tr|B7RFT9|B7RFT9_9RHOB
+MPSTPHPTSELVPGAPRHVAIIMDGNGRWATQRGRPRLFGHHAGAKRVREIVEACPHFGV
+EYLTIFAFSTENWKRTQVEVAGLMSLFRRYISKETRALSEYGVRVRFIGDRVKLDKKLIK
+LMHVLEEATEHNTRVHLTIALNYGGRDEVARATQRLAEDVAAGLLDPKDVDEETLPRYLD
+THVLPDPDLVIRTSGEARISNFLLWQSAYAEYEFIDTLWPDFSKEEFGRLCAAFGVRDRR
+FGAVTK
+>tr|B7RPF0|B7RPF0_9RHOB
+MRDAAPQTIYLADYTPFGFIIDSVSLHFDLDPRKTRVKSRIAFRPNPDATDNTFFLHGEN
+LNLISAMIDGTPVTPKLTEAGLTCDVPDAPFVWEAEVEIDPTGNTALEGLYMSNGMYCTQ
+CEAEGFRKITYYPDRPDVMAVFTVTINGPHPVLLSNGNPVSAAEHVAEWHDPWPKPSYLF
+ALVAGDLVAHPGSFTTKSGRDVALNLYVRPGDEGKCAFGMQALKESMKWDEDVYGREYDL
+DLFNIVAVDDFNMGAMENKGLNVFNSSAVLASPETSTDMNFERIEAIIAHEYFHNWTGNR
+ITCRDWFQLCLKEGLTVFRDSQFTSDIRSASVKRISDVIDLRARQFPEDQGPLAHPVRPE
+SFQEINNFYTATIYEKGAEVIGMLKLLVGDDAYAKAATLYFDRHDGQACTIEDWLRVFED
+TTGRDLTQFKRWYGQAGTPHLSVTEAWDHGKLTLHFKQHTPPSAATPDPQPQVLPIAVGL
+IDQDGDEVEETNILEMTQAEQSFVFDNLGTRPIVSILRGFSAPVVLTQDLSDADRAHLLA
+YDTDPFNRWEQGRILARSSLMAMILEGKKPNKDWLKGIRAVISDEHLDPAYRALMLGLPS
+QSDLARALAEDGHTPDPDIIYAAVEATRAAMAKSYANLLPTLYRRHTVSEDYEPDAIQSG
+KRALSNAALSLLTRIDDAAAAQKQYDAADNMTQQLSALANLIHAGKGSKAVQAFEAQWKD
+DRLVMDKWFGLQVMEADPEEAHEVVETLTKHADFNWKNPNRFRSVLGAFAAHHGGFHHAS
+GAGYRLLADWLIKLDPLNPQTTARMCSAFQTWKRYDADRQALIKTELDRILAQPDLSRDT
+TEMLTRIRGA
+>tr|B7RK91|B7RK91_9RHOB
+MASHHALEDPKMTNISAAERIAVLGLGYVGLPLTVALARAGFDVVGLDTHAPTIAALQGG
+TDPNGEVSDASISATTARFTNDAADLAGCTAFIIAVPTPITDAKAPDLGPVLGACATIAP
+HLMPGSVVILESTVYPGVTEDVCGPALAAGSGLTPGTQIKLAYSPERVNPGDAEHSMENV
+IKIIAAQDGETLDRVEAIYKPVVKAGLHRASSIATAEAAKVIENTQRDLNIALVNEFSLI
+FSRLNLDTLEVLEAAGTKWNFLPFRPGLVGGHCIGVDPYYLTYRAEQLGYHPEVILAGRR
+INDQMGVHVAQTLIKKLLSKDMGVRGAKVLIMGYTFKENCADTRNTRVSDIVAELASYSV
+EPTVHDPWVGADRLRREHGQTATDTLEDGTYDAIVLAVGHREFVDMGAEKIRALGKPGAV
+IFDIKGLFGKTESDLRL
+>tr|B7RL34|B7RL34_9RHOB
+MSDITDPSDLDPRNVSEPLRLALGDRYLTYALSTIMHRALPDARDGLKPVHRRILYAMRE
+LRLSSTGGFRKSAKISGDVMGNYHPHGDAAIYDAMARLAQDFNVRYPLVDGQGNFGNIDG
+DNPAASRYTEARMTAVAEAMLEGLNENAVDFRENYDGTLTEPVVLPAQFPNLLANGSSGI
+AVGMATNIPPHNISELVDACIHLIKTPEARDDTLLNFVPGPDFPTGGIIVEPPENIANAY
+RTGKGGFRLRCRWNVEDLGRGVWQIVITEIPYQVQKSKLIEKIAELIQLKKIPILGDVRD
+ESAEDIRLIIEPRSKNVDPEVLMGMLYRSSDLEVRFSLNMNVLIDGLTPKVCSMKEVLRA
+FLDHRREVLQRRSAHRLEKIDHRLEVLEGFIIAFLNLDRVIDIIRYDADPKAALMAEDWG
+KKHSRATDESDYVPPAPTTENSLTEIQADAILNMRLRSLRRLEEMELLREQSELMAERAG
+LEDLLDSEALQWDSIIEQLRATKKQFGKDWKLDGVNVGLRRTTFAEAGEIEDVPLEAMID
+REPITVVCSEMGWIRAMTGHIDLNRELKFKDGDGPRFVFHAETTDRLLVFGSNGRFYTIG
+AVSLPGGRGMGEPLRLMVDLPNDVQIVDIFIHKPGRKLLVASSAGDGFVVPEDEVLAQTR
+SGKQVLNVRGDAKAMICAPIKGEAVAVVGENRKVLVFGLDELPEMGRGKGVRLQKYKDGG
+MSDATTFTLSEGLSWLDPAGRTRTESDLTEWTGKRASAGRMAPRGFPRDNRFG
+>tr|B7RHH4|B7RHH4_9RHOB
+MDWLTDNKIPIDDAAEAVFDWLLINAGWMFDGLSVAMEALIDAILWVLQTPHPFYIIAVF
+AAFTWALQRNWKTPVFVVLGFLFILNQDYWEETTESLTLVLSACVVCMGVGVPIGIAAAH
+RPRLYRYMAPVLDLMQTLPTFVYLIPAIVFFGIGMVPGLIATVIFVLPAPIRLTQLGIAS
+TPKSLLEAAQAFGAKPSQTLWKIELPYALPQIMAGLNQTIMLSLSMVVIAALVGADGLGV
+PVVRALNQVNTGLGFESGLIIVVVAIMLDRMLRVTRK
+>tr|B7RKC8|B7RKC8_9RHOB
+MSITASIYHLTHYKYDRPVTLGPQIIRLRPAPHSRTRVISHALKVSPENHFVNHQQDPYG
+NWLARFVFPEPVMEFKIEVDLVADMSVYNPFDFFVEEAATKFPFTYGDEIAPDLSIYMQP
+EPVGPLLSDFMKSISRNPMVTVDFLVMLNSRLASEINYEIRMEPGVQTAEVTLGRASGSC
+RDSSWLLVQILRNLGLAARFVSGYLIQLKPDLKALDGPSGTDTDFTDLHAWVEVYLPGAG
+WVGLDPTSGLLAGESHVPLAATPHYQNAAPIAGVASYAEVDFSFDMQVRRTAEHPRITKP
+FSDTSWDALNQLGQDIDKRLEAGDVRLTMGGEPTFVSIDDFEGPEWNTDAVGPTKRGLAD
+KLIRRLQDKFSTGGLLHYGQGKWYPGETLPRWTFSMFWRKDGHPIWNDADLLAREDTRED
+VGPDDAQALLTEIARSLSVPGENVLPAFEDPAEWIVKESNLPENVTPENSKLKDPEERAR
+IARVFERGLTTPAGYVLPVQRWQARAESRWMSEVWNLRRGKVFLVAGDSPVGYRLPLGTL
+PHIPESDYPFVYPQDPSEPRAPLPQDMTQRPQAIASRTEDATQSQTQNEQSLKADLTGKV
+RTAISVEPRDGKLCVFLPPVETLEDYLELISATENAAKTIGRKVLIEGYSPPSDPRIDVI
+RVAPDPGVLEVNVHPAASWAECVNTTETVYEEARQTRLGTDKFMIDGRHTGTGGGNHVVV
+GGATTADSPFLRRPDLLKSLILFWQRHPSLSYLFSGTFVGPTSQAPRIDEARHDALYELE
+IALDQIWPPAEGTPPPPWLTDRLLRNSLIDVTGNTHRTEICIDKLFSPDGPTGRLGLVEF
+RGFEMPPNPRMSLAQQVLIRAIITRCWEHPISGKLTRWGTTLHDRFMLPACIWDDFLDVL
+DDLKGHGMALDPAWFTAQAEFRFPFCGDVTYEGMTLELRQALEPWHVLGETGAIGGTVRY
+TDSSVERLQVKLTGPNPDRYRVTANQRFVPLQQTAKTEERVGGVRFKAWKPAVSLHPVLE
+VDAPLTFDIYDTWTGRSLGGCRYHVAHPGGRNFDTFPVNGNEAEARRLSRFEPMGHTTNS
+YTPPQETPHPEFPMTLDLRRRPGF
+>tr|B7RMR9|B7RMR9_9RHOB
+MSGTSLSLAATAYRELIRRILEGELKPGDTLQESRLCTELSMSRTPVREAIARINSEGLA
+EQSGRFLRVRRISPEEIDEIFFLRRALEPAAIRAATTRLLPEQIDGLAGAVRALLAGDTG
+TDDAQWQVDRSFHSTIAEAAGNPAAAKVIRDLQTRTCIFDHRIVPERFALGCHEHLAMLD
+AIRRGARDEAATLMEAHLDHARDAIFVHLDKLQPVSSEKAPLL
+>tr|B7RLJ7|B7RLJ7_9RHOB
+MLFLAGLMGLMAVGAVAFVDLPADDEDEDNALDDTGRINGQIISGSADADVIEGGTGNDQ
+INGYGGDDLINGNDGNDYAYGNDGNDTLNGGAGQDDLHGDDGGDGLFGGAENDALTGHND
+DDILRGGAGDDSLNGSAGDDELYGDDGDDVLMGGLDNDVLNGGRGADSLFGGWGDDVING
+VEDNPDIGGLDDSDEADYLNGGGGDDTIIAGAGDIVTAGDGADQIIFGDWIKQGHNVLIE
+DFEAEDDSLLLVWDDSQDGAAEPHVSLDQNPDNPNENFITMDGVIVASVKSSDYLTVADI
+SLVPFSSALSAGLALR
+>tr|B7RLL5|B7RLL5_9RHOB
+MNDIWAGLSSAFWLVVNGDPDLIEITLRSLQVSLTALVIASAIALPFGTWLAIRRFRFRR
+TAIAVLNAMMGLPPVVVGLIVYLLLSRSGPFGVFGLLFTPSAMIIAQVIIITPLIASITH
+QAMRDLWAEYHDLLISLNTTPGQRILTLILDGRRALLTAALAGFGRAIGEVGAIMIVGGN
+IDHATRVLTTAIALETGKGDFALALGLGFVLIALALGVNLIIHALSRTEREGRW
+>tr|B7RRP6|B7RRP6_9RHOB
+MVDFKGSQFPKDVILYAVWFYVRFAVSYRDLEEIMAERGVEVDHATLNRWVEKYAEQIAS
+EAQKRKAQPARSWRMDETYIKVKGRWCYLYRAVDKIGNTLDFMLSETRDEAAATRFFART
+IRNNGWPDRVVIDKSGANAARVENMNLLLLLSGWCWLIEVLQVKYLNNIIEQDHWFIKRI
+TRQMKGFKSFASAQATLAGIETAHMIRKGQLAGKELSAIQQFEALAG
+>tr|B7RHP1|B7RHP1_9RHOB
+MAQRDIMSGLAKGLAAIETFTADTPRQSIAQVATASGLDRATARRCLLTLAHLGFADYDG
+KFFTLTPRIMRLGTACLATMPLPQIMQPMLDRLSDDLGQSTSASILDGDEIVYIARAAQR
+KVMSISLTPGSRLPAHCTSMGRVMLSALPEDQVARAPLAARTPRTITDRAALLAELARVR
+SQGYAVIDQEVELGLISIAVPLYDARSRVVAALNIGLSSHHADAGQLAELYLDKLTAIQS
+ELRKVLI
+>tr|B7RPN7|B7RPN7_9RHOB
+MRILITNDDGIHAPGLKTLHAIATDLAGPDGEVWTVAPAYEQSGVAHCISYTRPMMVERI
+GKHQFSVEGSPADCVLAALHDSMKDTPPDLVLSGVNRGNNAAENAMYSGTIGGAMEAALQ
+GIPAIAMSQYFGPANRALDDAFEAAAEHGTDVIRRILDATPAHTNGYRLFYNVNFPPTAA
+SDVKGIRLAPQGIRTDTSFSTTPHVSPAGRRFLWIQGADQQIPTPPGTDAALNLDGYISV
+TPMRADFTAHDSFAALEAINT
+>tr|B7RMT3|B7RMT3_9RHOB
+MKPATLAVVVPSVAVLATLVVCALFAGWLAPYDPLSQNLINALQGPSADHWLGTDDLGRD
+VLSRMIFGSRIAVIAACEATGLAVLIGVPVGLFIGYRGGWWDWITMRIVEGIVSIPGIMV
+AIVIIAILGTGLHRAMFALGILYSTAFLRLARSIVLTEREEVYVKFARVIGASSSRILIR
+HIFLNIAPPLIVQVTLTVGAVLLAEAGLSFIGIGVQPPQASWGTMLNTAAAYMELNAFLA
+VPPGLAIVLTVLAVNLLGDVLRDSIGRGVRVPASAPSKPAAQVRVAAGTSIAARPDDALL
+VEGLEVMVSPKDGGEVPVVTNMSFRIARGETLGLFGESRSGKTVTGLGLMGSIGAGGWIT
+RGRMMLDGTDLLRLTPAQLEKARGNDVAMVFQDPTTSLNPSMTVEQIITEPMKVHSQMAR
+QERRQKAAELLRLVNLPETHLPRYPNEFSGGQRQRIAIAAALALQPKLIVLDEPVSALDV
+STQNQIINLLYERRDALGMSYLLIAYDLALVHHISDRIAVMYLGHIVEEGPADRVYHRPA
+HPYTKALLDAVPLLDPARQRARRSERRAAAADDLPRAADAGCPYRNRCAFAMERCHRHAP
+PALPVDGGGTAQCFLVDAHRAGVSAPEAEVLV
+>tr|B7RFL9|B7RFL9_9RHOB
+MTPRKIIIDTDPGQDDAVAILLAFASPEDIEVLGITCVAGNVPLDLTTRNARIVCELAGK
+TDVKVFAGCDRPLGRELVTAEHVHGKTGLDGPVLPEPTMPLQDGHAVDFIIDTLRDHAPG
+TVTLCPLGPLTNIATALEKAPDIANRIAKIVLMGGGYFEGGNITPVAEFNIYVDPQAADI
+VFKSGVPIVVMPLDVTHKALVTAARNDAFRNIGSPVGVAVAEMTEFFERFDKEKYASEGA
+PLHDPCVTAYLIRPDLFTGRHVNVEIETQSELTMGMTVADWWGVTDRVPNATFMGDIDAD
+GFFGLLTERLARL
+>tr|B7RK14|B7RK14_9RHOB
+MMKTRAAVAVAAGKPLEIMEVNLEGPRKGEVLIEIKATGLCHTDEFTRSGDDPEGIFPAI
+LGHEGAGVVLEVGEGVTTLEVGDHVIPLYTPECRECEYCLSGKTNLCQAIRVTQGQGLLP
+DGTTRFSMLDGTPIHHYMGCSTFANHTVIPEIALAKVRKDAPFDKICYIGCGVTTGIGAV
+INTAKVEIGARCVVFGLGGIGLNVIQGLRLAGADQIVGVDLNDDKEETGRYFGMTDFVNP
+SNVEGDLVAHLVELTKGGADYTFDATGNTKVMRQALEAAHKGWGESIIIGVAPAGAEIST
+RPFQLVTGRVWRGTAFGGAKGRTDVPKIVDWYMNGKIEIDPMITHKLTLDEINHGFELMH
+QGKSIRAVVEF
+>tr|B7RJ73|B7RJ73_9RHOB
+MTDKIAYTRSGDIAVLRLQNPPVNALSHAVRLGLVAGIERAEADTGVKAVLIVGEGRSFI
+AGADITEFGKTPLEPYLPDVCKRIEASPLLVVASMHGVSLGGGLEIALSAHYRVAQPSAI
+VGLPEVHLGLIPGAGATQRLPRLIGVDAALDLITSGRQVKAPEALTLGIIDKVAEGDPQE
+VGLAYAQELLDAAAPRRAVSEMAAPAAIDWDAAYDGTLKKGRGQISPAHAVRAVQAASEL
+PFDQGMAAERKIFTDLMETDQREGMIHAFFSERAVGNLPELKGVQPRALQSIGIIGGGTM
+GAGIATAALLAGFNVVLIEMKPEAAEAARARIAGNLSGALKRGKITQMKFDAMTTVALEV
+SVNYESLALVDLVIEAVFEDMDVKKDVFGKLDAVCRPGAILASNTSYLDINEIAASTSRP
+ADVIGLHFFSPAHIMKLLEVVVADKTAPDVVATGFALGKALGKISVRAGVCDGFIGNRIL
+ATYRTAADHMVLDGASPYQIDKALVDFGFAMGPFAVGDLAGLDIGWATRKRKAATRHPAE
+RVPTYPDKICEGGNFGQKTGKGYYVYEAGSRGGVPNPEVPVLIEAERKELGITPRDFTDA
+EIVRRYMAAMVNEAARLLGEGIAKRPLDIDMVLLFGYGFPRYWGGPMKWADLQGLPELLA
+DIETYAKDDAWFWEPAPLLKQLVAEGRTFDDLNKDAAK
+>tr|B7RFN8|B7RFN8_9RHOB
+MRLERLRRVRRYRNLATFGLVVLGPILALVTYLVLGPLGQGANTPSLRLILLTDLVYILL
+VAALVFSQIARLVAARRAKSAGSRLHLRLTGVFALMALIPTVSVAVFAGLTINVGLEGWF
+SDRVRSVVGNSLAAAEAYEFEQRDDLRTDAVTLARAIEAARAQGVNIPDTQLLAEGQRQI
+QRGLREAYLIDGTAEIRARGDRSYLFDYDAPTAEQIAEARSNEGSPVVIEDWPNNEFRAL
+ILLGSYLDRYLYISRDVDGEILSLLDETKETVRLYQQLESERGKLLFEFGLLYVGFALIL
+ILAAVWLGLWFAERLSGPVGRLTGAAQQVGAGDLEVQVREEKGDDEIAMLGRYFNQMTKQ
+LKGQRETLLDNTRQIERRRRLFDSVLSSVTSGVVGLDPEGRVAFVNRSAMRLLDWEEDQQ
+SLAISVAVPEFGPLFDTVVTGRGEVAQGEVKVSRQGRMENLLVRVATRRTDEGRLEGYVV
+AFDDVTDLVSAQRMAAWGDVARRIAHEIKNPLTPIQLSAERIQRKFGPKLPDDAAKLEQM
+TGVIIRQTGDLRRIVDEFSKFARMPEPETSLQDVTKLVHDAVMLQQAGQPGVRITVDQPS
+APVIAQIDATMMSQALTNLIKNAGEAIESLQKDAAPDDLDPQIEVKLRTTEKTVEITIAD
+NGIGLPEDRARLFEPYVTTRSEGTGLGLPIVKKIIEEHGGTLTLENAPTFANQTHFGAMA
+IITLPLAPTSQPNALETQDE
+>tr|B7RHN0|B7RHN0_9RHOB
+MNGFGGLNKSENGVVLGLVQLKLPVVETKEQLTAQTARVVELVGKARRNMGTMDLVVFPE
+YMLHGLSMDTNPEIMCTMDGPEVAALKQACIDNNIWGCFSIMEFNPGGYPFNTGLIIDDQ
+GEVQLYYRKMHPWVPVEPWEPGDMGIPVCTGPKGAKIGLIICHDGMFPEMSREAAYKGAE
+IMIRTAGYTAPIRQAWRFTNQSNSFCNLMVTANVCMCGSDGTFDSMGEGMIIDHEGTVIA
+HGKTGRADEIITAEVRPDLVREARAGWGVENNPYQFGHRGYVAVQGGAQDCPYTYMTDLA
+AGAYRLPWEDEVKVTDGTGFGFPKPNRKFGEKEPGQ
+>tr|B7RIQ9|B7RIQ9_9RHOB
+MDAYIDQIDRWLAEDKMRPRKQRHTSKRIFERLRDECGFNGGYTIVKDYVRNKKRGSREM
+FVPLSHPPGHAQADFGEALVVIGGIEQKAYFFALDLPHSDACYVRAYPAANTEAWLDGHV
+HAFAFFGAVPQSVLYDNDRCLVAKIMPNGERQRTQRFSAMLSHYVVRDRYGRPGKGNDKG
+KVEGLVGYSRRNFMVPMPRFASWAAFNDYLEEQCCKRQADILRGYKISIGERLQADLAAM
+QGLPDAPFEACDLRSGQVTSTSVVRYRGNDYSVPVAFGHREVWIKGFVDRVVIGCAAEVI
+AQHVRSYDKDDITFDPVHYLRLIERKIMAFDQAAPLQNWNLPDAFSTLQRLLEVNRAGFA
+GGSNS
+>tr|B7RLJ5|B7RLJ5_9RHOB
+MVNKVRWALNANKAGHAGTLDPDATGVLAIALGEATKTVPYITDALKAYEFTVRLGVSTN
+TDDADGEVLETSDLRPDDAAIKAALAGFIGDIQQVPPQFSAVKIDGQRAYKLAREGEAME
+LAARPLWVESLLLIDRPDADHVTLEMVCGKGGYVRSIARDLGQALGCLGHVRDLRRVWSG
+PFDAKDGLTMEQIEEMARTDALDTHLLPLEHGLQDLPEVKATAEGAARLRNGNPGMVIAS
+SVNYGDEAWASFEGRAVAVGRYKAGELHPSRVFNQLQ
+>tr|B7RI46|B7RI46_9RHOB
+MSPPWSKITVAKRRAPWHELGMKHTLTSLNGTPASRLAFGTMQFGGRADADASRAMFDAC
+IDAGITHFDTAHVYTDGASETLLGGFLGDRREDLIIATKAAYTGGSGRANILASAETSRQ
+RLQLDTLDVLYLHRFDPDTDMHESFQTFAELKTAGHIRFIGLSNYAAWQVVKAANIAAEF
+DLDIAVIQPMYNLVKRQAEVEILPMADDLGILVAPYSPLGGGLLTGKYTKGEAGRLTEDD
+RYAARYAPEVMHDAAAGLAALAGDLGLHPATLAVAWAAAHPTGPSPIISARSAEQLAPSL
+AAMQYEMPADVYTRIAALSPTPPPATDRIEEQS
+>tr|B7RIY9|B7RIY9_9RHOB
+MNIIWLGHGSFRIEIEDQVLLIDPWLTGNPMLGDEHHAPALEGATQILITHGHFDHTQDL
+IMVAEKTGAPVAGMVELMGYFDAQGVQNTTGFNKGGTIKCGKVAVSMVPASHSSSVSGDS
+GPIYMGAETGFMISGEGHTIYVSGDTGIMADMEWMGDYYKPDIGILSAGGHYTMDMAQAA
+YASKKYFDFKTVIPGHYRTFPALEQSAKALVDGLPGVNVIEPELMKPIKI
+>tr|B7RRJ6|B7RRJ6_9RHOB
+MDLCGNLWIIDPAVMDKATKHSHRERELLDALHRLGGSARSAELAKTLDVSEETVRRTIK
+ALSKSGVLERMYGGAYLTGPRDAPSFVRRIARHSKEKRAIATTVAQQVRDGMSLFLDVGS
+TTAFVAEKLRDRCRLTVATNSIGVAQVLANHNGNHVHLLGGEMQTDERGTFGFVTEQHCR
+RYAFDLAILSTDALQAQHGFLNLNAAEANLAGVVADCAGQVLVALDHHKFNQTAPHSGLN
+PRAVNMVVTDQQPDPELTQAIANWGIEICLATGGDDAAND
+>tr|B7RFV3|B7RFV3_9RHOB
+MQSDTYHWISTFLEAQAAELGASTNTQLAYGRDLKDFDSFLAGRHLDFARATRDDVERYL
+VWCDAQGLAKSTRARRLSAIKQIYRFAFEESWRSDNPAIQISGPGQDKRLPKILSEHEVD
+RLLEAARGSGRNLHEKLRNTCLMELLYATGMRVSELVSLPVSATRGDPRLLLIMGKGNKE
+RLVPLSPPARVALTDWLIARDQIDAAAQAKKQPASRFLFPSRGVAGYLTRHRFYLMIKEF
+AVAGGVDPSKVTPHTLRHAFATHLLANGADLRAIQTMLGHADVATTEIYTHVLEARLSEL
+VLENHPLAKAAARKSKGSTSSDGQ
+>tr|B7RQU8|B7RQU8_9RHOB
+MTAPLMSERRTSIIGAMLVAIGPISMALFTPAMTELVRAFGSTEAVIKLTLTLYFGGFAC
+AQLIAGPLSDALGRRPITIIFMGLYCAASIVAVIAPSVEVLLGARFLQGVGASAGIAISR
+ALVRDLFTDDRSSRIMNLIGIILALGPALAPTIGGLMLPLFGWRSLFVLMAVLGLVIIAV
+TIFAMKETVVADKSRLNLPALGRTYKMLLTHKHFLSASLVIGGALGALYAQATFLPFILM
+DNVGLSSAEFGVSMLAQSGSFFVASLLCRSLMEKYGADRLVGPGLGFIAAGSLGTMTLLF
+WPPSFLHVMIPVAIYSFGIAFVMPAMSTAALAPFGKAAGAAASMMGFIQMGSGLLMGSIG
+ALMGNAVIAMGVLIPIMGATACVAFILFRKISPVVPVQSPSAVPMAGPMVGQTTRLTAPE
+K
+>tr|B7RJ71|B7RJ71_9RHOB
+MNFDLTEERQMLQDSLRRFLRDKYDTATRNKILESNTGFSADIWNGLAELGVIGALFTED
+QGGFGGAGFDIAVVFEELGRAGVVEPFLDTAVLGGGLIAELGNDDQKAHVEEIIGGALQL
+AFAHGEPTSRYDMNRVSTTAKADGDNVVLNGRKAVVVNAENADMLVVSARESGDVADEDG
+ISLFLVPADAKGITLQGYALLAGGRAAEITLDDVTVPASARLGDAGKAYPAIEARIAAAN
+VAICAETLGAMETACRLTRDYLMTRKQFGKPIGTFQALAHRMSDLLIEMEQARSAVIVAA
+GHLEHPHKARESHVSAAKNLLGRAGRLVAEDSIQMHGGIAMTQEYELAHIAKRIIMADHR
+FGDTDHHLERYIAIAAA
+>tr|B7RJE2|B7RJE2_9RHOB
+MTTGKTWPKPEGAKNLKQFQVYRWNPDDGKNPAIDTYFVDMDTCGPMILDALIKIKNEID
+PTLTFRRSCREGICGSCAMNIDGINTLACTYGVEEVKGAVKIYPLPHMPVVKDLIPDLTH
+FYAQHASIQPWLETETPAPAKEWKQSIDDRAKLDGLYECIMCACCSTSCPSYWWNGDRYL
+GPAALLHAYRWLIDSRDEATGERLDDLEDPFKLYRCHTIMNCAKTCPKGLNPAAAIANIK
+KMMVERTV
+>tr|B7RGP4|B7RGP4_9RHOB
+MTKYDDAWVAREEAKRAYMAENGLYSEEEEHSSCGVGLVVNIDGSRSRDVVLSGIKALKA
+IWHRGAVDADGKTGDGAGIHVQIPVNFFHDQVRRTGHSPREDELIAVGQVFLPRTNFAAQ
+ETCRTIVETEVLRMGYYIYGWRHVPVDISVLGDKANATRPEIEQILISNAKGVDEETFER
+ELYVIRRRIEKAALAAQVPTLYIASMSCRSIIYKGMMLAQDVASFYPDLLDDRFESAFAI
+YHQRYSTNTFPQWWLAQPFRMLAHNGEINTLKGNLNWMKSHEIRMASGTFGDMADDIKPI
+VPAGSSDSAALDAVFEVLVRAGRNAPMAKTMLVPESWSKQAIDLPEAWRDMYSYCNSVME
+PWDGPAALAMTDGRWVCAGLDRNGLRPMRYVVTSDGMLIAGSEAGMVPQDEANVVRKGAL
+GPGQLLAVDIEEGKMFGDTEIKDKLAASRPFGEWVGKINELDEALGDIEEKPLFAGEELR
+RRQVAAGYTIEDLEQILAPMAEDGKETLASMGDDTPSAVLSNQYRPLSHFFRQNFSQVTN
+PPIDSLREFRVMSLKTRFGNLKNVLDESSAQTEILVLDSPFLANTQFDQLMSEFNADAVT
+IDCTFEAGGGNLNEGLRRIRDEAEDAVRSGAGHIVLTDQFSGESRVAMPMILATSAVHSQ
+LTRKGLRTFTSLNVRSAECVDPHYFAVLIGCGATVVNAYLAEDSLADRIDRGLLDGSLTQ
+AMDRYREAIDQGLLKIMAKMGISVVSSYRGGLNFEAVGLSRAMCAEYFPGMTSRISGIGI
+IGIQRKAEAVHDLGWKGDGKVLPIGGFYKARTSGETHAWEASSMHMLQMACNKASYQMWK
+QYSAKMQSNPPIHLRDLLDIKALGKPVPIEEVESITSIRKRFVTPGMSLGALSPEAHKTL
+NVAMNRIGAKSDSGEGGEDPAHFVPEANGDNPSAKIKQVASGRFGVTAEYLNQCEELEIK
+VAQGAKPGEGGQLPGMKVTDLIARLRHSTKGVTLISPPPHHDIYSIEDLAQLIYDLKQIN
+PRCKVTVKLVASSGVGTIAAGVAKAKADVILISGHNGGTGASPATSIKYAGLPWEMGLTE
+AHQVLAMNNLRDRVTLRTDGGLRTGRDIVMAAMMGAEEYGIGTAALIAMGCIMVRQCQSN
+TCPVGVCTQDQALRDKFTGNADKVVNLITFYATEVRELLAAIGARSLDDVIGRADLLAQV
+SRGSAHLDDLDLNPLLITVDGAAEIVYDRNKPRNAVLDTLDAEIVRDAERFLKDGEKMQL
+SYAVQNTHRTVGTRTSSHIISRFGMNNQLQPDHLTVKLSGSAGQSLGAFAAPGLKLEVSG
+DANDYVGKGLSGGTIIVRPPMASTIKASENTIIGNTVLYGATKGFLFAAGRAGERFGVRN
+SGAHVVIEGCGSNGCEYMTGGVAVILGDIGANFGAGMTGGMAYLYDPQGKAEDMLNRETL
+VTCPVTVDHWENQLKGLIERHLEETNSRKAADILQHWDSEKENFLQICPKEMLIHIPAPL
+SHEQKAMPAE
+>tr|B7RMV1|B7RMV1_9RHOB
+MSPKTLYDKIWDAHVAHEADDGTCLLYIDRHLVHEVTSPQAFEGLRMTGRKVRAPEKTIA
+VPDHNVPTTLDRANAKTMTEDSRIQVEALDTNAKEFGLHYYPVSDVRQGIVHIVGPEQGW
+TLPGMTVVCGDSHTATHGAFGALAHGIGTSEVEHVLATQTLIQKKSKNMKVEITGKLSPG
+VTAKDITMSVIGVTGTAGGTGYVIEYCGEAIRDLSMEGRMTVCNMAIEGGARAGLIAPDE
+KTFEYCMGRPHAPKGAQWEAALEWWKTLYSDDDAHWDQVITLKGEDIAPVVTWGTSPEDV
+LPIDAKVPAASDYKGGKVDAVSRSIEYMGLTEGMALTDIEIDTVFIGSCTNGRIEDLRAA
+AAILKGKKVKDGLRAMIVPGSGLVRAQAEEEGLADIFKEAGFEWRLAGCSMCLAMNPDQL
+APGERCASTSNRNFEGRQGFKGRTHLMSPAMAAAAAITGRLTDIRQLDI
+>tr|B7RKY2|B7RKY2_9RHOB
+MTDSFQILAQNATKAMRDVFSATPLMRNEHLSEKYGADIWLKREDLSPVRSYKLRGAFNA
+MRKVIPEKTVFVCASAGNHAQGVAFMCSYFGVKGVIFMPVTTPQQKIQKTKIFGGAQVEV
+RLVGDYFDKTLTAAQDFCTVEGAHFLSPFDDDDVIEGQASVAVEIEEQLGRVPDHIILPV
+GGGGLSSGIYSYFGKSCDYTFVEPKGAPSLACALANHTPVDISPINSFVDGAAVAKIGQR
+NFDRLKDVDPKDVIDLAEDRICVTIIEMLNVEGIVLEPAGALSIEALGEVAEQIKGKTVV
+CVASGGNFDFERLPEVKERAQRYSGVKKYFILRMPQRPGALKEFLNILGPDDDICRFEYL
+KKSARNFGSVLIGIETRSPDSFGPFLSQLNEAGFTYTDITNDETLAQFVL
+>tr|B7RSC3|B7RSC3_9RHOB
+MYTLDTQAAGQATIHDPAHRRRILVAVCIALMAVIATVTGLNVAQPLPLARDLDASQERV
+LWMINIYAITLAALLLPLGAVVDRWGRKPVLLAGLVVFGAANIASGLAPTTAFMIGARFF
+SGVGAAMIMPVTLSVITSAFPDEQRSKAVGIWTGVAGGGGLLGMFLSALLVDVLTWRWLF
+ALPVLLVVVAYVMSSRNVPNSREASEHRFDLGGALISVIAVIGLITFLHEGPTHGWTTPT
+TIAGLLLGVGASIAFVAWELRQTAPLLDIRLFRQRSMSSGSAALLTWFGAQAGVFIVLYP
+FFQSVLGWSGLLATLGLMPIAILMMGFSGLAPLVAKRVGPRATLATGFFLGGSGR
+>tr|B7RIH5|B7RIH5_9RHOB
+MKKSQYGLAELRKARRNGTGLLIAVFLFSVFVNILMLTGPLFMLQVYDRVLASRSEETLV
+ALSLLVALLYGLMGFLDYARGRVLARFGARFQTSLDDRVFAAEMKRSIAPKFRASPASGL
+RDLEIMQQVFTSPAMLALFDVPWTPLFMAAIFIFHPFLGWMAVGGGAVLIVVTLLNSWLT
+QRKSSEAQIASQNAQSFAEQSRLSSEIVRAQGMGRTMAERWHIMRDRALDQTIRASDWTG
+LFAALTKTFRLFLQSAMLAVGAWLVLKGEMTAGAMIAGSILLGRALAPIEQSIGQWHLVQ
+RSMRGWKLLGELLQSTPPENMTMKLPKPAAQLGLKGLSVMLPEAKQLTLTNINFEVAPGQ
+VLGIIGKSGSGKSTLAKTMLALVRPSTGEIRLGGATLDQYDPDDLGSFIGYLPQQVTLFN
+GTVAENIARMSMVPDEAKVIEAAQQANAHEMILTLPDGYKTVVQGQDSQLSGGQRQRIAL
+ARAFYNDPVLLVLDEPNSALDAEGSEALNRAVRDFKRSDRAVIIMTHRPSAIAECDRLMV
+IDQGRVKADGPRDEVMQAMLRNVDTVKQTIAAGARS
+>tr|B7RFP2|B7RFP2_9RHOB
+MSSPPRIAALIVAAGRGTRAGGPVPKQWQSLCGKRVIDHTLAAFQRHPAISQIIVVLSPA
+DMAEAPGFAAQGCVIAQGGANRAESVRNGLAVMAADQVLIHDAARPCVSADVIDAVIDAL
+RDVPAAAPGLPVTDALWLGEDGEVAGTQDRTALFAAQTPQGFDADAIRLAHATFDGIAAD
+DVEVARAAGMAVAITPGSADNLKITMPGDLTRAARILEASLDIRTGNGFDVHAFGPGDHV
+TLCGVKIPHDQGLVGHSDADVGMHTVTDAIYGALAMGDIGQHFPPSDPQWKGAESHIFLT
+HAADLARSEGFTLTHVDCTLICEYPKVGPHAAEMRRVMAAYLGLEISRVSVKATTSERLG
+FTGRGEGIACMATATLVKL
+>tr|B7RFN5|B7RFN5_9RHOB
+MFGPSGTKPKEPFMKVIICGAGQVGWQIARHLSGERNDVTIVDSNADLVRRATDTLDVQG
+IAGFASYPDVLDRAGARDAEMIIAATHSDEVNMVTCQVAHSVFGINRKIARLRSQSYLTA
+IYSDLYRRDHMPIDVVISPEKEVAAAALQRLSAPAAFDTEVFMDGMAHLIGIQIEEDCPV
+VNTPLRQLTDLFSTLRAVVVGVRRDGTLFAPESKDQLFVGDACYVFSHREDIPRTLEIFG
+KTTSKLERVVLVGGGNVGLAVAQSLEQREKRVRVKMIEKSRAIAELAAEALERTIVLNGD
+GLDASLLAEAGISRADAMMAITDDDKTNMLACVRAKAEGCPYVIALINDPTLVPLMEPLG
+IDAYINPRATTVSSILRHIRHGRVRSVYSIGDAEAEVIEAEVLSTSPIAGRRVSEIDFPE
+GALMGMVRKGDQVIRPLGSTRIEEGDVIAVFCLAKDVPQVEQLMQVSIDFF
+>tr|B7RHC0|B7RHC0_9RHOB
+MPIEDILLDIFQTNLPLILLALLLIILVVKAVKIVPQSEQHVVERFGRLRAVMGPGINMI
+VPFIDRIAHQISILERQLPTASQDAITRDNVLVQVDTSVFYRIIEPEKTVYRIRDIDSAI
+ATTVAGIVRAEIGKMDLDEVQSNRTALISTIKMLVEDAVDNWGIEVTRAEILDVNLDAAT
+RAAMMQQLNAERARRAQVTEAEGKKRAVELAADAELYASEQTAKARRVLADAEAYATQVV
+ATAIGENGLEAAQYQIALKQVEALNALGTGSGNQTILVPAQALEAFGDAFKLLKGRG
+>tr|B7RNZ3|B7RNZ3_9RHOB
+MRLTIIGAAGMIGRKLVERVAASGQINDRAVDAMTLVDVVTPDSPAGFKGACDAYAADLT
+ETGTAARLIADRPDVIVHLAAIVSGEAEADMEKGYRVNLDGTRALLDAIAAHDDYCPRVI
+YASSLAVFGAPFPVKIPDDYHLTPLTSYGTQKAMGEMMLNDYSRRGILDGVGIRFPTICI
+RPGKPNKAASGFFSGILREPLNGQEAILPVEDDVRHWFASPRAAVGYIEHAATMDTAPLG
+AQRCMTMPGVTATVADQIEALRAVAGDSAVALIKRVPDPAVASIVAGWPRNFDTARAIAA
+GFVAETSFQEIIAVYLEDEMGQTAQAGT
+>tr|B7RRF6|B7RRF6_9RHOB
+MRHYGQITDFMPPIDDHPVSHGLAAAKVTDDTEQTLLLAARLIQGDGLLDETLWAQDLIA
+WEADVRDRGLRDLLGPSTKAALEAMLAGTDPAHTGRNGTTNGAAMRITPVGISTHLTPMT
+SLIDQVERACRLTHNTGEAIAAACAVAAVVSSGIAGADFRSSLPLAIDAAKLGQQRGYPE
+GHSDMAQKITKAIALAGSGVSVQEFADKIETSVASHESVPAAFGVVLLAGGDPWKAAVIA
+ANIGDDTDTIGAISGAMAGACIGCSGFPVEKVEQVRRANPLAIEQIATNLLALRHRVGSS
+TPVADGVAI
+>tr|B7RSC2|B7RSC2_9RHOB
+MNRDTRLSDVLHVLLHLNQVDEPVTSDRLAKSMGTNPAVFRRTMAGLRNAGYVQSGRGHG
+GGWSLVRPLSEITLLDIYTALGQPALFAIGMRSNNTDCLVERNVNAALKDTMAQSEALFL
+ERFGAITLESLLPAGSVPRAVVCPKVAPD
+>tr|B7RLE4|B7RLE4_9RHOB
+MNHFLDIHQTDPADLRHIIDRAAAMKSSRQGRPRGAPDDEQPLKDHMVALIFEKPSTRTR
+VSFDVGVRQMGGQTMVLSGADMQLGHGETIADTARVLSRYVDLIMIRTFEEATLLEMAEY
+ASVPVINGLTNRTHPCQIMADIMTFEEHSGPIKGKKVVWSGDGNNVFASFAHAAKSFDFE
+LVFTGPPTLDPEPALNGLYTVERDPNKAVEGADLVVTDTWVSMHDPQSARERRHNQLRGY
+QVNDALMAKAKPDALFMHCLPAHRDDEVTSSVMDGPHSVIFDEAENRLHAQKSVMRWCLG
+K
+>tr|B7RG22|B7RG22_9RHOB
+MGKTPTGKTPSGKNTSGRGQRDLKVKVKSARGRKLSSTRWLQRQLNDPYVKRANAEGYRG
+RAAYKIMELDDKFRFLVPGARIVDLGAAPGGWCQVAVKRCNVLGEKQGKNVGTILGIDLQ
+EMEPIAGCELHQLDFMEDDADEIVKGWLGGKADVVMSDMAASSSGHKQTDHNRIIALCEA
+AAYFAFDVLEDGGTFVAKVLAGGAEGDLQKLLKRRFTKVSNIKPPASRQDSSEKFVVATG
+FKGVVDDEEPA
+>tr|B7RSC5|B7RSC5_9RHOB
+MKHDTIIVGGGFAGLAAATYLGRARRRVLVLDTGRPRNRFSVASHGFLGQDGRGPMDILG
+DARNQLGSYPTVEIAHDEAVAAQRLDAGFKVDLANGKRISAPTLILAFGLQDTLPEIPGL
+SDRWGNSVLHCPYCHGFEFSDRQLGVLYRTEMSIHQAQLITEWGPTTLFLNGHTLAKEHL
+DALNQRHVRIEADIVAALNGSGTDLSSIALDGGREVAIEALYIAPQSSLSSPLANQLGAN
+ITETVMGPVIDTDDTKMTSVPGLFAAGDIARAPHSVSWAVGDGVTAGTAVHRALVFG
+>tr|B7RN77|B7RN77_9RHOB
+MHKHKRYAAHLARRACASYILPMSQVKSSSKSDPNYKVIAENRRARFDYAIDDDVECGII
+LEGSEVKSLRNGGANIAESYAAVEDGELWLVNSYVAPYSQAKTFTHEERRRRKLLVSKKQ
+LSNLWNETQRKGMTLVPLVMYFNHRGMAKIKIGIAKGKKLHDKRETAAKRDWSRQKQRLL
+KDHG
+>tr|B7RJC2|B7RJC2_9RHOB
+MLCGDKLLASVEEPMAKGQGERLLGLCAEVLETAGVAYADLTAIGVGIGPGNFTGIRISV
+SAARGLALGLGIPAIGVSRLEALAYGTDGVVVASLDARQDAMFVQVSGTLDDRDPVMCSL
+DDLPMVPTRGDPICIGFQADMIAALCNGSARAPKLPVAEATAHIAASRLGHENPRPAPLY
+LRPADAAPARDTPPAILS
+>tr|B7RKE7|B7RKE7_9RHOB
+MRLADKLIAFANDDCVVATTHQKLSAERGTAREVVLRQLKEFQRRGWVELDRGSIRLTDR
+ARLVRLAQHNG
+>tr|B7RKQ1|B7RKQ1_9RHOB
+MIQIGGQSYGLDDPRVLMVLGAVALALLILMLLIMAVRAAGRSARMAEPLARQMQVLGGH
+VQQLGMGQEQMRGGLQTVSDTQANAQAQMIQSIEARMAHVQQQMQDRLADNAARSARSLA
+EMQERMSATLHGSSKQTTTSLTQLQERLAAIDKAQDNITKLSGDVLSLQDILSNKQTRGA
+FGEIQLNDIVSKALPRDSYTMQATLSSGKRADCLIHLPNPPGPIVIDSKFPLEPYEALRR
+AKTDHEVKDAARAMRVAVKAHINAISSKYIIEGETADGALMFLPSEAVYAELHANFPELV
+REGFAARVWIVSPTTCMATLNTMRAILKDARMREQAGDIRKTLKMLHRDVEIVVERVGKL
+NTHFGQARADLEGLGTAAERAGKRAARLDNFDFEDLAEPDTTVVSLTKPRPDR
+>tr|B7RGW4|B7RGW4_9RHOB
+MEDPDFQPPVNPMPAVVTLLFLAIAGIEAGLSLAEAGIIGGPGAVGWRLALIRDYGFSGE
+IFDWMIANWRFPLAEIPRAVTYSFVHLGFTHAIFAMVLLLALGKMVAEVMGQVAFLAIFF
+VSGILGAVFYALVMNDPVWMVGAYPNVYGLIGGYSFVMWRKLSTLGEQQLRAFSLIAVLM
+GIQLLWGVFFDAGTQWLAELFGFAVGFGLCFVLAPGEWVKLRERVRHR
+>tr|B7RH02|B7RH02_9RHOB
+MTEMNYNHLRYFWEVAHDGNLTRTAARLNLSQSAVSVQIRKLEDRLGQRVFERRNRQLHL
+TEAGRITLDYADTIFGAGQELIATLRRTGNARQVLRVGALATLSRNFQIEFLRPLLGKPQ
+VELVLRSGTSIELLQGLETLGLDVVLTNRAPADDALTSFIVHPVAQQPVSVIGKPERIDG
+NKSLLDLLATNPVIVPTLESPVRAGFDALCARLGVRPVLAAEVDDMAMMRLLAREDIGLA
+VLPPIVVKNELQTGLLKEADHDVGLSESFYAVTAKRKFPNPLLAEVLEPGGGPFTG
+>tr|B7RJT3|B7RJT3_9RHOB
+MSKKFASQGDMTEKKISFTEVGKDLWAFTAEGDPNSGVIIGDDSVMIIEAQATPRLANKV
+IDKVREVTDKPITHVALTHYHAVRVLGASAFNADQIIMSEMARGMVNERGQEDWDSEFQR
+FPRLFEGHESIPSLTYPTTTFNDRMTVYLGNRRVDLMHLGRAHTAGDIVIHVPDENVMFT
+GDIVEYHSACYCGDGYFADWGNTLDAIKAYDVAAIAPGRGDALVGTDMVNAAIENTRDFV
+ESTYRPAARVAARNGTLKDAWDAVRAECDPKFSDYAIYEHCLPFNVARAYDEARGISHPR
+IWTDKRDIEMWEQLQS
+>tr|B7RJY8|B7RJY8_9RHOB
+MTTRAGFVALIGEPNAGKSTLLNRMVGAKVSIVTHKVQTTRARIRGVAMEGASQLVFVDT
+PGLFQPRRRLDRAMVAAAWGGAADADVVVLLIEANRGITEGVERILEGLDGIGEGRKVAL
+AINKIDRVEAPVLLGLSKEINERFPFAETFMISAERGHGVDALRTWLAGELPESPWLYPE
+DQIADLPMRMIAAEMTREKLILRLHQELPYQLTVETENWEERKDGTARIDQLIYVIRDGH
+KGIVLGHKGETIKSVSKAAREELEEFLGRKVHLFLQVKVRPNWLDEAERYTEMGLEFKDG
+NV
+>tr|B7RIL8|B7RIL8_9RHOB
+MKDHSNTGWIFVLPAALLLGLVGVIPLVTVINYSFFEIFILDQRFWVGTEWYGDIIRSGR
+FWSSFGRSALFSALVLCIQIPLGIAIALCIPRNQFWVGLALAGIALPLLVPWNMIPSLWL
+SLLNPGTGILGRIMADYGWTTDWKLSAVQTWAVLLAMDTWHWTSLVVILCYSALTTIPSA
+YYQAANIDGAGPWQVFRHIQLPKLQHVLLMAVLLRFMDSFMIYTEAFPINAGGPDGATMF
+LAVDLGEDIKAFNYGPSAARSVLYFLIVLTVAWVFMKRQNQIDAPETREGH
+>tr|B7RLD5|B7RLD5_9RHOB
+MCADTPEMPDYKSTLNLPKTDFPMRAGLPKREPEWLERWEKIGVYDRLREKEGRTPFTLH
+DGPPYANGHLHIGHALNKTIKDMIVRSHQMMGFDARYIPGWDCHGLPIEWKIEEQYRNKG
+RNKDDVPINDFRAECRKFAAGWVDVQREEFKRLGITGNWADPYLTMDFHAERVIAEEFMK
+FLMNGTLYQGSKPVMWSPVEKTALAEAEVEYHDKESFTIWVKFKVVGTGDAALDGAQVVI
+WTTTPWTMPSNKAVVYGEAISYGLYEVVETPEESWVNVGDRYLLADNLAGDVMTRARLED
+GMYRRVRDVTNDELAGIALQHPLAGAEGGNGEWDDIRDFRAADFVTDTEGTGFVHCAPSH
+GLEEYELYRSLGMLEQVITYNVVEDGSFRADLPFFGGKAILKPNGKEGDANTAVINKLVE
+VGGLLARGKIKHSYPHSWRSKAPVIYRNTAQWFAAIDKPVGDGLDMHGKTIRERALTEID
+NVNWVPKKGRNRLYSMMEARPDWVLSRQRAWGVPLTCFTKKGALPTDADFLLRNPDVNQR
+IVDAFEADGADVWYEDGAKERFLGGIVNPDDYNQVFDILDVWFDSGSTHAFVLRDRPDGT
+KDGIADVYMEGTDQHRGWFHSSLLQSVGTTGHAPYRNVVTHGFTLDEKGMKMSKSIGNTI
+VPEKIVQQYGADILRLWVAQTDYTADQRIGPEILKGVADSYRRLRNTMRYMLGALSDFEE
+SDRTAPADMPELERWVLHRVAELDAQVRDGYAKFDFQGVFQAVFTFATVDLSAFYFDVRK
+DALYCDGDTLRRRAARTVLDILFHRLTTWLAPVLVFTMEEVWLERFPGEESSVHLTDIPA
+TPADWLDSGLAAKWAKVRAARRVVTSALEVQRVEKVIGASLEAAPIVYVADDAQRAALES
+VVFEDVCITSQIAISDDEAPAEAFRMPETEGVAVVFEKAAGEKCARCWKVLPDVGTHSHA
+GVCGRCDAAVS
+>tr|B7RQV1|B7RQV1_9RHOB
+MKAMLSTAPGGPETLELTELPQPEPKKGEVRIRVRAAGLNFPDTLIIQDLYQMKPTRPFA
+PGGEVAGDVEALGEGVTNVAVGDRVLAMTGFGGFATEMCIGADRVMKIPDAMPYDEASCL
+VLTYGTSHHALKNRAEIQPGESLLILGAAGGVGAAAIELGKATGARVIAAVSSEEKAQFC
+RDLGADETIVYSRDMDDRATQKEFSNEIKRLAGGDGVDVVYDAVGGAYAEPAVRALAWKG
+RYLVVGFPAGIPKIPLNLTLLKGCQIVGVFWGAHTVREPEIHAENMADLFRMYAEGQIKP
+RISARFPLEKAADALNLMQDRKVLGKVVLDVD
+>tr|B7RH44|B7RH44_9RHOB
+MTSTAGLSGNQKRKMKSASRLYAVQALFQMEHSSQSFDTVRTEFLEHRFGATYDGAEMID
+GDIRHFADVLETAVNYQAAIDQMTDRALVAKWPIARIDPTLRALFRAAGAELRDTGTPPK
+VVITEYVDVARAFFEGSDEPKFVNAVLDHMAREARPESF
+>tr|B7RMD4|B7RMD4_9RHOB
+MTQIDIIPFDAGEAQLDWIGFTDALAAGHDLPKAEIADTFLYRGQDTLLNRAAWIDGMGL
+AVKSATVFPGNPAKGQPMVNGGVSLYSDVDGMLEAMVDFHLVTKWKTAGDSLLAARRLAR
+PDSRNILIVGAGTQGRGLHAAYSAAFPDAKFTLWNRTPDNAKAMAADIPGLTVAADLEAA
+VRAADIITSATMSTAPLIKGDWLQPGQHLDLIGAYRPDMREADDTALTRARIFVDSYDTT
+VDHIGEIKIPLQSGVITREAIVADYYSLDQFVRRSPDDITLFKNGGGAHLDLMASRYILD
+RWRARA
+>tr|B7RI47|B7RI47_9RHOB
+MNDIIIIGGGIAGLSAAARLSADATVTLIEAEKALGYHASGRSAALIEQNYGAPSVQALN
+RASVSYLRDGGYLSPRGLMIVADEHEEDAFNADVTVMGVDPITQAEAMAFVPILDPAKIA
+FAAYHEDAQDIDTDRLLQDFARVLRGNGGTILTGQRVQAIRHDTSGWEVDAGTQTLRAKM
+LVNAAGAWADELATMAGIAPLGITPHRRSMARIATPGGHDPARWPMFFGVGETWYAKPDA
+GALLISPADEDPVPPQDAWPDDMVLAEGLDRYQNMVAEPLTRPIATWAGLRSFAPDRTLV
+LGPDPAQPDFIWCAGQGGYGFQTCAAASQLVADLTLGRASKLDAQTVAALRPDRLRL
+>tr|B7RIP5|B7RIP5_9RHOB
+MRLNEKRLRDFAEAGSDWLFEFDRELRFSFVSGQLRQVIGIAPEYLLGRSFDDFTKRNRL
+ASEAHLFRENKAKMMAHENWKDFTFTFVRDDGEHRKVRTSGKAFNDENGEFAGYRGNGRD
+ITDQVNMESRLKSLIQIVETSLNEIYMFEADTLKFIHVNFGSRKNMGYSYAEFLELTPID
+IKPDMTLDAFNRIVEPLRNGIEQRLIFETVHQRKDGSTYPVEVHLQLVHSGEGLAFVAVI
+QDITVLHNQTEALSLRDLAIAEVDTGILITDAREDDNPIVYANKAMEQMTGYTMQEMLGQ
+NPRFLQGDDRDQPGLERIRSAIRNSVPARETLRNYRKDGSQLTVEVSISPVRDEKGNVSH
+FIGAQSDVTDKLHTEERLRQSQKMEAIGQLTGGIAHDFNNLLTVILGNCELLFDRVRGDK
+YAENLLTEAIGATETGASLTKQLLSFARQSPLQPKVLNLNNLVEDLSDMLIRSLGETIEI
+TKKLASDLGNTLADPSQTKSALLNLVINARDAMPEGGRLTIETKNMVFAEAEATRSYGIE
+PGKYVRLTVSDNGVGMPANIKSRVMEPFFTTKVQDKGTGLGLSMVHGFAKQSGGHLDICS
+ELGHGTSVNLYLPMTDASEDECAITNDERNTDIGGNRTVLVVEDDARVRKIAVARLEKLA
+YQVVEAESGQQALDILAKRNDIDVVFTDMIMPSGMTGAELLVQVQDLYPQIMQLITSGYA
+EDGGIPNAGTLWLRKPYSLAEMSKVFRQLLA
+>tr|B7RQ85|B7RQ85_9RHOB
+MQAGMFRTAIVLGLICVTGPFAIDMYLPALPAIEEALGTSVSGAQATLVAYFLAYGLAQL
+VYGPLSDQIGRKKTLFIGMSIFAAGAIICAVAPSIEVLVVGRMIQGAGGAAVMVIPRAIV
+RDMYTGAQATRLMSAIMLVISISPMLAPLAGSAVVALGTWREIFVALAVLAIASLTTAQV
+LLPETLKDDQRRKVNLAQLSRSCGILFRDPVFVGLTFIAGFGMASFFLFIATASFVYTGQ
+FGLSPTEFSLAFAFNAVGFFIATQLAGSLAERWGLSTLIGRGIIGFAVSSTVLTLLVLAG
+FGSLWVLLIGLFAVYAFLGVVIPSSMVAALDAHGQRAGMASSLSGSMTMLTGAICIGLAA
+PFFDGTAMPMVISIALCGVVALALTLVTMPKLRQQQSTLAAA
+>tr|B7RQZ1|B7RQZ1_9RHOB
+MSFVRNAWYVAGWSTDFGDDLVPLTLLAQNIVVFRCSDGQLAALEDRCPHRLLPLSKGKR
+IGDTIQCGYHGMTFDAGGQCVRVPGQSNLPTSAYVDSFPVLERHGIVFIWMGDAEKADTA
+LAFDMPELSEDGWHLHHGDKLHIKANYLNVAENLVDPAHVSFVHPTTLGNAASENVPVHV
+KTADEAIVAWRWIRDAEPIGFFKQFGGFDGNVDRWHYYYLHLPSTAVIDFRSADAALELP
+EEERNKGVRIFALHFVTPVTEDYTIDHWMHLRNTALGDDAASEQMDAMFRVAFAEDKSIL
+EAIHEEEQRPQKRKPIRIAIDKGPNVYRKRIRDRIEAEATDDLGEPVSPVFVQHD
+>tr|B7RIC7|B7RIC7_9RHOB
+MKKLGLDATDIRILSAVQQHGQLSKTRLAELVNLSPTPCWARLDRLKAAGYIRGYHAELA
+LERIVDFTQVVVTVSLGSHRKAEFVRFEDYIRKLDEVTDCIATGGGMDYVMKTATPSLAA
+FQLLMDEMLSSDLAIERYMTYIATRQIKTSQPNLAKLIATSGK
+>tr|B7RJQ1|B7RJQ1_9RHOB
+MNMQVSLKGKPIRLAVLDYGLFRVHSGPRDVGICGYVIQTDAGETVLIDTGFPEKYAQDA
+DAATAEDDLGSFGQVLSVTPENMPGPQLAKLGIVKQDVTLMIQSHTHIDHVGDMGGYPQA
+PILIAEAERALPRPLYWSGKQAMDWPDADYALVTQDFSLCDGFDVLLCPGHAPGQLAFMI
+CLPDTGWVLLTSDAISRASEIDEAFAGSWDVDLAIHHGDRLMKLAATRDATVIFGHSPED
+WPTLKKAPHWFT
+>tr|B7RKJ4|B7RKJ4_9RHOB
+MGGKMHRTWMKSSSLIALALVFTTAANAQDPGFNLGDPHLNVIPRSAKEAERIAAVTAPT
+TDFSAPQKFEEKPAGAATVRARKTADAFSQPSGNITFEDELTFKVGNGLFRKLWVSSPSS
+TLASDGLGPLYNARSCQRCHIKDGRGHPPEGPDDNAISMFLRISIPGTVDDAMAQIKDYI
+GTRPDPTYGTQLQDFAVPGHASEYRLEISYTETKIALADGQTVSLRQPTYTAADLGYGPL
+HPDAMLSPRVAPQMIGLGLLEAISSADILAGADPDDADGDGISGRPNIVWSQVHAQPMLG
+RFGMKAGNPTILEQSASAFVGDIGISNPIFTAGAGECTDLQADCQAAQHGDGDDRVFEVD
+EKGLDLVTFYSRNLGVPARRNVDDPQVLRGKKLFYQTGCTACHTPSFVTQRLQDRPEQSF
+QLIWPFTDLLLHDMGPALADNRPEARATGSEWRTPPLWGIGLTGQVSGHTYFLHDGRARS
+LLEAVLWHGGEAKAQRDAVIQLPTADREALIAYLESL
+>tr|B7RKS0|B7RKS0_9RHOB
+MSDTGVQARRSAVYLLDMILGEERLMSELLAAGVLDKLPPDDRARAQRLALDTLRGMERA
+DRLLQKHLSKYPPLTVRNALRVGTVELCQGGAAHGVVNAMVELVATHKKLGHLKGLTNAV
+LRKIAAEGPEAWAALRSPRLPKWLRGPLVEAWGAEAITGIEAAHFAGAPLDLTAKGDPAV
+LAEAVGGSVLPTGSVRVMDAGQVTAMPGFAEGDWWVQDAAAALPVKILAPQKGEAVLDLC
+AAPGGKTMQLAAAGAQVTAVDSSKPRMQRVKENLARVHLPAKTVVMDARAFEGKFSAILL
+DAPCSATGTIRRHPDLPHAKDGSEFGELIELQAELIDHAWSLLNPGGRLVFCTCSLLPDE
+GEVQVDEALERHSDMSVDQSALSVPGIDPSWISSEGGLRLRPDYWADLGGMDGFYIACLR
+KAD
+>tr|B7RJD4|B7RJD4_9RHOB
+MALDTNIAQYDAPEKDLYEMGEIPPMGYVPKQMYAWAIRRERHGNPNTAMVEEVVDVPTL
+DSHEVLVLVMAAGVNYNGVWAALGKPISPFDGHKQPYHIAGSDAAGIVWAVGDKVKRWKV
+GDEVVIHCNQDDGDDEECNGGDPMYSPSQRIWGYETPDGSFAQFTNVQAQQLMPRPKHLT
+WEEAACYTLTLATAYRMLFGHEPHDLKPGQNVLVWGASGGLGSYAIQLINTAGANAIGVI
+SDESKRDFVMDLGAKGVLNRKDFNCWGQMPTVNTPEYAEWFKEARKFGAAIWAITGKGVN
+VDMVFEHPGEATFPVSTFVCKKGGMVVICAGTTGFNLTLDVRYMWMHQKRLQGSHFAHLK
+QASAANKLMLERRLDPCMSEVFSWADLPAAHMKMLANEHKPGNMSVLVQSPTTGLRTLED
+ALEFKK
+>tr|B7RIX4|B7RIX4_9RHOB
+MLAPLLSASQEKGCDMADELQELDPPVETADDSEAYRLNPKAVASILYAVEIDDAAKLTE
+LMEPLHPADIADLLEQISSFERTKLIRLYDREFDGEILSELDESIREEVIGILTPQVLSD
+AVRDMDSDDVVDLIEDLEDAQAEAILGALEDVDRAAVEQAMAYPEYSAGRLMQREVVMAP
+EHWTVGEAIDYLRKTPEDDLPDQFYHVVMVDPRLHPVGNVTLGKLMRSKRTTPLHDILED
+TFQVIPATQPESDVAYAFNQYHLISAPVVDDEGRLIGVITIDDAMAVLDEEHEEDILRLA
+GVGEGSLSDRVIETTKQRLPWLAVNLVTAIAASMVISQFEVAIAQIVALAVLMPIVASMG
+GNAGTQSLTVAVRAIATRDLTGSNVWRVIRRECLVGLINGVIFAVVMGVVGLVWFGSPAL
+GYVIASAMVINMVVAGLAGTGIPIVLERVGVDPALASGAFVTTVTDVVGFFAFLGLAAAV
+LL
+>tr|B7RIG5|B7RIG5_9RHOB
+MFDTMTVTKIAAGLFGAWLVLLLGKFVGEELYHADTHGEQGYMIEVASGEGGGAAEEGPD
+LETLMASADPAAGEKVFRKCSACHKAVEGENAVGPYLYGVVGRPIDSAEGYASYSGALEQ
+NGDVWSPENLFAFLEKPSSWAPGTTMGFAGLSKPADRANVIAYLDSLDD
+>tr|B7RPL9|B7RPL9_9RHOB
+MIKFSDLNLNPKVLKAIEEAGYETPTPIQAGAIPPALEGKDVLGIAQTGTGKTASFTLPM
+ITMLARGRARARMPRSLVLCPTRELAAQVAENFDTYTKHLNLTKALLIGGVSFGEQDKLI
+DKGVDVLIATPGRLIDHFERGKLILSDVKIMVVDEADRMLDMGFIPDIERIFQMTPFTRQ
+TLFFSATMAPEIERITNTFLSNPVRIEVARQATTGENIEQGVLMFKASRKDREATEKRKV
+LRALIDAEGDKCTNAIIFCNRKMDVDTVAKSLKKYGYDAAPIHGDLDQSQRTKTLEGFRN
+GDLRFLVASDVAARGLDVPSVSHVYNFDVPSHAEDYVHRIGRTGRAGRDGKAIMICVPRD
+EKNLEDVERLVQREIPRLDNPLGGDAPAETTKEADAPKAEDAPKAEDAPKTEKPKRSRTR
+SRKKDDAPKDETPKVDAVEPEAKAETPQAKAAQQPDAKPAAEEPKAPEAKAQDDQPQHNR
+RNERGGRGGRNDNNRSDNKRGNNRNDNRNDNRVVGLGDHTPEFIGLSFEERRD
+>tr|B7RL95|B7RL95_9RHOB
+MSRVQNLIIEQGDGDQRLDRWFKRMFPLISQGRIEKMCRKGDIRVNGGRVKASTRLEVGQ
+EIRIPPLPDTEAPPPPKRTRISDADAKFIRSCVIYRDDYIIALNKPPGLPVQGGSGQSDR
+HVDALADALMFDLDEKPRLVHRLDKDTSGVLIMARTRSIAADLTSSFRHRQTRKIYWAAV
+AGVPHPKNGTIKFGLVKAFGHGARGEGEKMYCVHPKDMDTTEGAKRATTDYATLAQAGTR
+TCWVALIPVTGRTHQLRAHMAEIGHPIVGDGKYGGSGQENMGDGWGAQLGGDISKKLHLH
+ARSLTLEHPVTKATLNLIAPMPDHMVRTWDTFQWSPSDVPADPFEEDWG
+>tr|B7RIA9|B7RIA9_9RHOB
+MIWLIFAIAAWALGWWVNVRLARGRAGRLRSLAAPMVFGVTLIAVWEGVVRGLEISPVLL
+PTPTAIAARFAASLDVLWVDFVQTVLKGALSGYVLGCGAAFLIAVAIDRFPFLQRGLLPV
+GNFVAALPVIGMAPILVMWFGFDWQSKAAVVVVMVFFPMLVNTVQGLQATEAMQRDLMRT
+YAASYWATLFKLRLPAAMPFVFNGLKIGTTLALIGAIVAEFFGSPVKGMGFRISTSVGQL
+ALDLVWAEIVVAAIAGSAFYGAMSLIEKAVTFWHPSQRN
+>tr|B7RLB5|B7RLB5_9RHOB
+MAMNAVAQHGVSIALACRAFQISETCFRYSPVLSDENEEIADWLERLTANKRSWGFGLCF
+SYLRNVQGYGWNHKRVYRIYCELELNLRIKPRKRLKRDKPEPLAVPDRPNETWSMDFMAD
+QLADGRSIRTLNVLDDFNREGLCIEVDFSLPAERVVRSLNQIIEWRGQPQTIRVDNGPEY
+VSGKLMEWAEKRNIRLEYIQPGKPQQNAYIERYNRTVRGEWLGQYIFETIEKAQDQATEW
+LWTYNNERPNMGIGGMTPAMKLKTAA
+>tr|B7RML4|B7RML4_9RHOB
+MTSKSIITASFVLGLAATGVFAQECAPSKWGAEDQIGSANLVSTERTLEAAKLIKQGKSM
+PLGIVIGPDTPAFPPRSLNLQIVQPNQQGGQKLSAFGYEGNYNDDIIQTWIGIGSQLDGL
+GHLGENGQYYNCLDEKEISAIGGLTKLGTHAVPPLVARAVIVDMAKHFGKDVMAAGEHFG
+EADIKAAMEAQEVTVNEGDIVMFHTGWTDGMLESDPTAWGSTEPGLNNEGAVYVASMNPM
+AVGADTWGLEAIPAKEGDKVFYGHVTLLKDNGIYILETMNTGPLVRDGVKEFMFILGQPL
+IKGTVQAMINPVALY
+>tr|B7RNY8|B7RNY8_9RHOB
+MDKLSVMHAFRRIVERGSFARAAEDLGVSPALLSREVKLLEESLGSTLLTRTTRSMSVTD
+AGRLYFDEAIGILDAVTNIENRIRDGAGAVRGHLKVNASSSFGQTVIAPVLPGFLETYPD
+IRLTLSLDDRVVDMIEGGFDVSIRIRAAMPNSALVARKIGTMRQRIFASPSYLEHAGVPQ
+DPEDIRRHRVVGFLLADHLTTWALTGPSDTYALDLDPKVRVGNSLVLRDLLIAGQGIGTL
+PDFVSDGPERRGELVRVLPGWELPSPEIFAVTASRLGMDTKVTAFLDHLRTALRS
+>tr|B7RNC8|B7RNC8_9RHOB
+MTQGSREPHPQASTKHPAVSSIMDVVTFRMARLVAINTRAGQHWSERLFDLSLNEWWLLA
+ATHAHKSIRAGDMAELLVMDKSQLSRLIRALVDKKLIRSTQDPDDARATILDVTSRGHLL
+HERVLAEVLRRNENVLAPLSPEEVLQLNDLLARLTDHNMMLLQKNKGGAA
+>tr|B7RM63|B7RM63_9RHOB
+MHVSVQEGPFDLGDVSSEFASGHKDMGAIVTFTGIVRDLPGDPLQAMEIEHYPGMTESAL
+KSMAQTAIDRFSLGDALVIHRYGRLVPGEMIMMVATAARHRKDAFEAAEFLMDYLKSRAP
+FWKREITASGAEWVESKDEDEDALARW
+>tr|B7RKE2|B7RKE2_9RHOB
+MNRYYSGPASHNFDGTRFHSPGQPSADKTLGDLFRWRRSGGKATWPKHVPVSPQTPPERS
+DVARITMVGHASMLIQVSGVNLLTDPVWSDRASPLSFAGPKRVTAPGIAFDDLPPIDAVL
+LSHNHYDHLDLATLRRLQIGHRPLMMMPLGNDTIVRKTVQDAQIKTGNWHDRIVVTPDVT
+VTLTPANHWSARGVADRRMALWSGFWIHTPHAQIWFVGDTGYGDGAIFHDIRSRHGQPDI
+ALIPIGAYEPRWFMAAQHVAPEESLRIFQDVGAKQALGMHWGTFQLTDEARDAPKELLNA
+TLAAANIPPESFVALDAGEVHVQRS
+>tr|B7RP41|B7RP41_9RHOB
+MRILLIEDEAALARPLMEHLEADHHNVEWFGTLDEADSAILALDYDVVLLDLQLPDGDGL
+SFLSTVRGRGLRTPIIILTARDKVSDRIDGLNRGADDYVIKPFDLDEVTARIHTVCRRSA
+DLLTQTISIRDLTICLSDHSVSRAGNPVRLTAREWGVLDVLLRRKTQIVPKETLETAIYG
+YGEEVESNALEAHISRLRTKLGKDLIATHRGIGYSLQT
+>tr|B7RIN3|B7RIN3_9RHOB
+MLPPDDFDPPIGIAQELEPGLRRIVADNPSPMTYRGTNTYLVGTRGIAVIDPGPASEAHL
+AAILGAIRPDQHISHIIVTHTHLDHSPLSRDLAQACGAPILGFGGPAAGRTPIMETLASD
+GDIGGGEGIDLDFSPDQCVADGDMIAGDGWSLQAIHTPGHIGNHLSFAWGDACFSADHVM
+GWASSLVSPPDGDLTDFMASCARLQRDIWRVFYPGHGAPVSDPASRMAWLVSHRRMREAG
+ILEALAAGPATAQALAEQIYTETPPALLGAAMRNVLAHLVDLTGKNQVAPVGPLVKSAAF
+KLI
+>tr|B7RMQ3|B7RMQ3_9RHOB
+MEMAAHANAAPVIIKRKKVVKGGGHHGGAWKVAYADFVTAMMAFFMLMWLLNATTEQQRK
+GLADYFTPTIAINRISGGGDGLFGGESIFTEMTLPKNGTGATSPMTPVEGQESGDVGAGT
+NGPDEEGNAELFKVVDAQLMGRGGESMVMDNIARHVITRQTEEGMVIELFDVEDVPLFKN
+GGDQPTQMLRELLEVIVDASKIVTNKIAVAAHVRSNPIVAVENPVWDLSAKRGTQTRILL
+EKLGVKPARIERVTGFADRKPAAIDTMDVRNNRVEIILLR
+>tr|B7RK79|B7RK79_9RHOB
+MNKLRENNALKGWMMLSPLALVLLAFLVTPIIMITVVSFWRATEFSIIPAFVWENYDFLF
+GSPVTYTVFFNTFKYALITWAATFVIGFTVAYYLAFHIRTQTWQIALFLLCTIPFWTSNI
+IRMISWIPFLGRNGIANSALISWGVIDEPVEWLLFSDFAVILAFVHLYTLFMVVPIFNTM
+MRIDRSLIEAARDAGANGIQILWNVILPLTKPGIMIGTIFVVTLVMGDFITVRFMSGSQS
+ANVGRLISNDIALLQYPSASATAIVLLLTVLIVIGILLRFVDIRKEL
+>tr|B7RHW5|B7RHW5_9RHOB
+MLDDERRFDGLPARPGVGYKPQHFSALQADPGPVAWIEVHAENYMGDGGRPHAQLRALSE
+RFALSIHGVGLSIGGETPLDRDHLARLKTLCDWAQPASFSEHLAWSTHGAEYLNDLLPLP
+YTDATLARVASHIAQVQDVLGRQMLLENPSSYLAFADSTMSETEFLAALVDRTGCGLLLD
+VNNVFVSATNLDLSAQAYLDAYPLAHVQEFHVGGHDEDHDDTGAPLLIDSHGKHVIDPVW
+TLLEHALATTGPKPVLVEWDNHVPDWPTLRAQAQRAAKALAT
+>tr|B7RN64|B7RN64_9RHOB
+MLQGSRRSVSSQHAGVNPRLASFSAFSVAAARDNLSLSNHWEGSMPITTCVFDAYGTLFD
+VAAAARQAASEPDFAALKDSWPQVADHWRQKQLGYSWLRAVTHAHADFWEVTQNALDWAL
+EKTGHDGDPALRARLLALYWELQAFPEVPTMLRSLKEAGLNTAILSNGSPEMLEGAVTSA
+GIGGSLDALLSVESVGIFKPDARVYDLVGQHFGCAKDEVLFVSSNGWDAAAATGYGFTTA
+WVNRSGDPTDRLPWTPVHTLQELTEIPALAGA
+>tr|B7RNW0|B7RNW0_9RHOB
+MALDKNFDAAQAEARLYAAWEASGAFKAGANASRDETYCVMIPPPNVNGSLHVGHAFNNT
+LQDILVRWHRMRGFDTLWQPGQDHAGIALQLAVENKLAESGIKRTDLTRDEFLKHAWAYK
+ESTADTIVGQLKRLGSSCDWSRNAFTMSGAPGDTRVGHENSPNFHDAVIKVFVQMYNEGK
+IYRGKRLVNWDPRFETAISDLEVENTEVPGHMWHFKYPLAGGATYEYVEKDEDGNETLRE
+TRDYISIATTRPETMLGDGAVAVHPSDERYAPIIGKLCEIPVGPKESRRLIPIITDEYPD
+KDFGSGAVKITGAHDFNDYQVAKRNGIPMYNLMDTKAAMRADGRPYAEEAATAQKIANGE
+LEFDEAMIAAMNLVPEDYRGLDRFEARDKVVAEITAEGLAVMHEVTRTVKDEDGNKSDVT
+ETVPFVENKPIMQPFGDRSKVVIEPMLTDQWFVDTDQIVGPALDAVRNGDVKIMPESGEK
+VYYNWLDNIEPWCISRQLWWGHQIPVWYGPSVTHTQNEDGTVSDEWDIKNPVHFCAPTLD
+EALALAVDYYQPSGAHGYLVNEEAQSPEQSIAQKFDDHGQPVRLWRDPDVLDTWFSSGLW
+PIGTLGWPEDTPELKKYFPTSDLITGQDILFFWVARMMMMQLDVVKQIPFNTVYLHGLVR
+DAKGKKMSKSVGNVIDPLEIIDEYGADALRFTNAAMASLGGALKLDTARIAGYRNFGTKI
+WNAHRFAEMNGVFEADVVNVAYTSHTQVDHTLNKWIIGETARVREEVDAALEHYRFNDAA
+NALYAFVWGKVCDWYVELSKPLLQDDAPEATETRQTLKWVLDQCLVMLHPIMPFITEELW
+QTTGTRTKMLVHGDWPTYSVADMLDTDADRELNWVIGLIESIRSARQQMHVPAGLKVPML
+CTAMDAAAQAAWDGNEAMIKRLSRVESLEKIDDFPKGTVSIGTPGATFGLPLAGLIDIDA
+EKARLQKSLDKLGKEIGGLKGRLNNPKFAASAPPEVVAEAQGNLDARQEEADQLQAALDR
+LAELG
+>tr|B7RIZ8|B7RIZ8_9RHOB
+MGILDFLSGQFIDVIHWTDDTRDTMVWRFEREDHEIKYGAKLTVREGQAAVFVHEGQLAD
+VFTPGLYMLETNNMPIMTSLQHWDHGFKSPFKSEIYFVNTTRFNDLKWGTKNPIIVRDPE
+FGPVRLRAYGTYSVKVSDAARFLTEIVGTDGEFTMDEISYQIRNIIVQEFSRSIAMSKIP
+ILDMAANTRELGKLVSTEISATIAEYGLTIPELYVENISLPPAVEEVLDKRSSMGMIGDL
+NKYTQFQAAEALGRDGGAGAAMQAGLGAGLGMQIGQAAAQGGPWGPRPTAGVQAPPPPPM
+PEKVWHLAENGETKGPFSKATLGRMAADGSLTRATFVWTPGQDGWKTADDVDELAQLFTV
+LPPPPPPAG
+>tr|B7RJY1|B7RJY1_9RHOB
+MARVTVEDCVDKVPNRFELVMLAAHRAREIAAGSPVTVDRDNDKNPVVSLREIADETQSA
+DDLRERLIESNQNQIEVDEPEEDAMALLMGGEQDKPEEDSMSEEMLLRQLMAAQGQG
+>tr|B7RLY3|B7RLY3_9RHOB
+MSSLTAIAMGSASTRNGKIRKSSASQQIRDALRERIITLNLTPGESLSRVEIADFYGVSQ
+TPVRDAMMRLEEEGLLHIYPQSKTEVSKIDIDNARETQFLRLALEIEVTRRLISAGGSDL
+LNAVEQALIRQKQAWEAGDLERFAANDRAFHRAFFEAAKVPDLWDLVTERSGHIDRLRNL
+NLPDPGKAAEIVAYHQRILDAVKSGDMVTAESEVRGHLTGTLASVETIRAQHPEFF
+>tr|B7RMH1|B7RMH1_9RHOB
+MIRNLRALSTLAALLVFLPGFPLAQEVSIDLGDQGALSARTIQLFVLITVLSLAPGIAVM
+VTCFPFLVTVLSILRQAIGLQQSPPNMLIVSLALFLTYFIMEPVFTAAWENGLEPLANEQ
+IDVETAFAQAMEPFRQFMVGRLDPATFTAMAELRPDTAGLALDLDAPLSVLVPSFMLSEI
+TRAFQIGFLVYLPFLIIDLVVAAILMSMGMMMVPPAVVSLPFKLAFFVVADGWSLIAGSL
+VRSYF
+>tr|B7RMA0|B7RMA0_9RHOB
+MAEVERETMEYDVVIVGAGPAGLSAAIRLKQLDADCNVVVLEKGSEVGAHILSGAVLDPI
+GLDALMPDWKEKGAPIKTKVEEDNFYMLGEAGQLRVPNFPMPPLMNNHGNYIVSMANVCR
+WMAEQAEELGVEIFPGMSCSELVYGETGEIKGVVAGEFGINPDGTKGDSYEPGMELHGKY
+VFLSEGVRGSLSKQVIAKYDLDAGKEPQKYGLGMKEIWEIDPAKHKEGTVTHTMGWPLNK
+NAGGGSFIYHIENNQVYVGFVVHLGYKNPHVFPYMEFQRFKHHPMVAELLKGGKRVAYGA
+RAITEGGYQSMPKMVAPGVALLGCSVGMVNVPRIKGNHNAMLSGKAAAEAAFDAIQAGRS
+GDELTAYEEDVRSGEIGKDLKKVRNVKPLWSKYGLMTSLAVGGFDMWTNTFGFSLLGTLG
+HGKSDAEATEKASMHKKIDYPKPDGKLSFDRLTNVAFSFTNHDENQPAHLTLKDPSVPVN
+VNLKEYAGPSARYCPAGVYEFVEEEGKDPRFVINFQNCVHCKTCDIKDPSQNIVWTTPQG
+GDGPNYPNM
+>tr|B7RNR9|B7RNR9_9RHOB
+MIGEKTLEDARVLVTGGSGFVGSHIAGLLLDEDVQEVVVVDNMVRGRPENLGDLRKDPRL
+HLIEGDIRDRSLMRDLVGHSDVVFHQAALRITHCVAEPEEAMQVMVQATFDILRDCVEHK
+VRKVVMASSASIYGMADQFPTPETGAPYANRTLYGAAKTFGEGLLRSLHDTDGLDYVALR
+YFNVYGPRMDLHGKYTEVMVRWMERLAAGLQPVAFGDGHQTMDMIHVRDVARANILAAKA
+PVTDRVYNVGSGTETSLLELAHHLAAGMGRPDIKPGHAPERAVNPVPRRLADVSAATKDL
+GFSTEIGLEEGLADLISWWRAEQGAVRPTEAAE
+>tr|B7RFW0|B7RFW0_9RHOB
+MTANPFFGTGDPNKDDGRDFVDGGAGNDTIRTGDDADTIFGGTGDDSINAGIDDDVVSGG
+DGNDSIIGSHGSDTLKGDDGNDTIWGGFGPEGIAGVTDEVIDATDPQPNNGKDLIEGGAG
+DDVLYGEDDDDTIFGGADNDYIDGGIDDDSLDGGMGNDTILGGQGDDTIIGAQGEDEIDG
+GDGNDSIFAGNDNDSVQGGAGNDTIDGGQGDDTIDGGDGDDSIAGGFGNDSILGGDGNDT
+IFAAGDNDTVDGGDGDDSISGVRGNDSLFGGEGNDTIDGGEDNDTVDGGIGNDSLLGGFG
+DDDLTGGDGDDTIQGGGNNDTIRGGAGNDSMRGDDGEDTFLDVNGGDTIDGGSGSDPSDY
+DVIDLTGSLNGGGYRLENITPDNDPGDTIDGDSRNDGFDGTIVFTDAAGNDTGRLDFTNI
+EAIIPCFTPGTLIATPKGERKVEELEVGDRVITRDNGIQEVRWVGAREMSGAELARSAHL
+QPVLIRKGALGNNLPERDMMVSPNHRVLVANDKTALYFEEREVLVAAKHLTGLEGVDIVE
+VSGTTYIHIMFDQHEVILSDGTWTESFQPGDLSLAGIGNAQRTEILELFPELATREGVDG
+YTSARRTLKKHEAKLLTR
+>tr|B7RGV3|B7RGV3_9RHOB
+MHPYRSHTCADLSKENVGDKVRLSGWVHRVRDHGGILFIDLRDHYGITQVLCDPDSPAFA
+DVEKVRSEWCIRIDGEVKARADDLVNAKIPTGEIEVFVRDIEVLGASKELPLQVFGDQEY
+PEETRLRYRYLDLRREKMQANMVLRSDVVSSIRKRMWDRKFKEFQTPIITASSPEGARDF
+LVPSRLHPGKFYALPQAPQQFKQLLMVSGFDKYFQIAPCFRDEDPRADRSPTDFYQLDLE
+MSFVEQQDVFDTIQPVLTGIFEEFGGGKSVDQEWPQISYKDAALWYGSDKPDLRNPIKMQ
+VVSEHFAGSGFAIFAKLLEQEGTQIRAIPAPTGGSRKFCDRMNAFAQKEGLPGMGYIFWR
+EKTADSVAQELGIPVKEAQAKLKSGEVEGGMEAAGPLAKNIGPERTEAIRQQLGLSVGDA
+AFFLGGKPKAFEGVAGRARNVIGSELGLTDENRFAFAWIVDFPIYEKDAETGKIDFEHNP
+FSMPQGGMDALMGDPLEVLGYQYDLACNGYELVSGAIRNHKPEIMFKAFEIAGYGKDEVE
+KRFGGMVNAFQYGAPPHGGCAAGIDRIVMLLAEEANIREVILFPMNQRAEDLMMNAPNDP
+MPDQLMELGLRVIPQD
+>tr|B7RMM7|B7RMM7_9RHOB
+MKIAMIGTGYVGLVSGVCFSDFGHDVICVDKDPKKIAQLEKGIAPIYEPGLEDLMAKNVA
+AGRLSFTLDLAKAVDGADAVFIAVGTPTRRGDGHADLTFVMAAAEEIASALTGYAVVVTK
+STVPVGTNRQVKNVIEKANPALEFDVASNPEFLREGAAIDDFMRPDRVVVGVESDRAAEV
+MNDIYRPLYLREFPIMSTDLESAEMIKYAANAFLATKITFINEIAALCERVGADVKMVSK
+GMGLDGRIGSKFLHAGPGYGGSCFPKDTQALARMGQDHSSPMQLTETVIKVNDEVKRRMV
+DKVVDICGGSVNGKVIAVLGVTFKPNTDDMRDSPSLTIVPSLVGNGAKVRVVDPQGKREG
+EALLPGVSWLEDAYEAAQDADAVVLMTEWNEFRALDLERMAKRMTSPVMADLRNIYNPKD
+AERAGFTAYVSIGREGYGI
+>tr|B7RMZ3|B7RMZ3_9RHOB
+MAGTRLDPIDRKILAELQADGRMTNVELAKRVGISAPPCLRRVRTLEESGYIRGYHADVN
+ARELGFEVQVFAMVGLASQAESDLTAFEAKCREWPLVRECHMLNGEVDFILKCVSPDLSS
+FQSFLTGQLLTTPNVASVKTSLVIRPAKDEPGVPFDVLETRLSTKA
+>tr|B7RNY3|B7RNY3_9RHOB
+MVDWKSLPAFLAVARAGSLRGAAEQLNGTHATVRRQVEGLEAQLGVQLFRRSAGGLDLSA
+AGRKLLPQALEAETALRQGFNAVRGLDSEAAGRIRLSADPMTAHFLLAPVLGEFLTLYPD
+IHIDMNLSYAIDSIEKLETDVSIRHVREIDGDAVGRKLFPLSLGVFASRDYLDRHLHDAG
+PRGEGLTWLGYGEVPELQAMIAASPFPRAAVRHAIADPAMHMHLARAGVGMTFLATWVQS
+VFPELERVRGTELDQSRSTWVLMHGDLRRVQRVRLFVDFLYESLLERRSDFIGR
+>tr|B7RHG4|B7RHG4_9RHOB
+MSTPSKDRLRLWLRLLRLTRHVDAHLRDKLRVDFKTTLPRFDVMAALSRHPEGLKMSQLS
+GVLRVSNGNVTGIADRLAEEGLVERVPVPGDRRAMTLRLTPAGNVEFAVQAEAHEGWIND
+MLTGISAADARAMAAQLISVAQVAENKEKTNDPSHA
+>tr|B7RIG7|B7RIG7_9RHOB
+MGAYILRRLLLIIPTLIGIMLINFALVQFVPGGPVEQAIARIQGGGDVFEGFSGSGNDAG
+NADTAAANENYVGARGLPPEFIAELEKEFGFDKPPVERFVNMMWNYMRFDFGESYFRSIS
+VIDLIKEKLPVSITLGLWSTVIAYLVSIPLGIRKAVKDGTAFDTWTSGAIIAAYAIPGFL
+FAILLLVLFAGGSYWQVFPLRGLTSDNFDQLSPLAKVGDYFWHIALPVLASTISAFATLT
+LLTKNSFLDEIKKQYVMTARAKGLSERKVLYGHVFRNAMLIVIAGFPAVFIGVFFGGSLI
+IETIFSLDGLGRLGFEAAVARDYPIVFGTLFIFGLIGLVVGILSDLMYVIVDPRIDFEKR
+EG
+>tr|B7RJX4|B7RJX4_9RHOB
+MSKPPLTLYLAAPRGFCAGVDRAIKIVEMAIEKWGAPVYVRHEIVHNKFVVDGLRDKGAV
+FVEALSECPDDRPVIFSAHGVPKAVPAKAEARNMVYVDATCPLVSKVHIEAQRHADAGLQ
+MIMIGHAGHPETVGTMGQLPEGEVLLVETPDDVAVVEVRDPAKLAYVTQTTLSIDDTADI
+VAALTARFPAIVGPHKEDICYATTNRQEAVKAMAPKCDAMLVVGAPNSSNSRRLVEVGSR
+AGCDYAQLVQRATDIDWRSLEGITSMGITAGASAPEQLINEVIDAFKDRYDVTTELVETA
+VENVEFKVPRVLRVPA
+>tr|B7RNT3|B7RNT3_9RHOB
+MTTYFVAGHRGMVGSAIMRALEKRKHGHPPITIITRDRSELDLTDQPAVRRCLFEMKPDV
+VILAAAKVGGIHANFTYPAEFIHQNLMIAANVIDGAHRAGVQRMLQFGSSCIYPRAAPQP
+ITESALLTGMLEPTNEPYAIAKIAAIKLCESYNREYGRDYRSVMPCNLYGPGDNFNSDYA
+HVVPALIRRFHEAKEAGASEVTIWGSGRPRREFLHVDDLAIAALFVLDVPLAIHRANTRP
+MLSHINIGSGSDIPVRELAGMIAKIVGFRGHILTDPSKPDGTQRKLLDNSRLAAMGWRPK
+INLEDGLRATYKWYIDNAAEARV
+>tr|B7RNW5|B7RNW5_9RHOB
+MHIEFRHLRTIQAIHEAGGLARAAEQMNITQSALSHQVKGLEDQAGVELFVRRSKPLKLS
+PAGLRLLKLAQQVLPQLEAAQAEFMGLRAGSTGRMHIAIECHACFEWLFPVLEQFRKSWP
+DVDVDIRPGLAFDALPALLREEVDLVVSSDPEDLPGVEFVELFDYQAVFVAASNHPLAKK
+DFIEAKDFRTETLITYPVERSRLDVFSQLLIPAKVEPLAIRQVELTAVILLLVASNRGVA
+VLPDWVVREVKYSNDYVTRPLTENGITRRLYAAVRQDDLGKPYMDQLLKLAGQEARKLQQ
+S
+>tr|B7RRG6|B7RRG6_9RHOB
+MTETFKALNGGTTDVTKAKLADFNASLSGDLIGKGDGGYDDARSLWNGMIDRYPSQIVRA
+RNTNDIRLAVDFARENGLLLAVKSGGHQIAGHAVADDALLLDLSQMRAVDVDLDKATAIV
+QPGCLLSDVDQATQVHGLAVPLGINSTTGVSGLTLGGGFGWITGKHGLTIDNLLSADVVC
+ADGVVRVASEMENSDLFWAIRGGGGNFGVVSSFEFALHPIGPEVLSGLIVHPLADARALL
+QSYRDICARAPDALTVWAVMRQAPPLPFLPEEWHGKEVLIFAACYAGDMKEGEKALEELR
+DLGHPIADVIGPNPYAGWQQAFDPLLTPGARNYWKSNDFLELSDEVIDISLAAVAALPDP
+QSEIFIAHLGGGMARVDAAATPFPQRNRHFVMNVHTRWSDPALDKTCIDWARDLSDRTEP
+KSAGSVYVNFMPSDDGRMAEAYGPNIEKLRRIKATYDPNNQFRLNHNL
+>tr|B7RHL7|B7RHL7_9RHOB
+MKNLTLKQLRYFDALARHRHFGRAADASSISQPAISLQIKELERMFGVPLVERSAPKIRL
+TPVGEDFITKGRQILLAVEELEDLVRASNGPLAGRLRLGIIPTVGPYLLPEILLALSARY
+PELELEVRESMTKALIDDLSEGLLDLAVVALPISEPNLMEFPLFEEEFALVRPMGDAEKP
+IPSPKLLRTMRLLLLEEGHCFRDQALSVCQISEAQPRQLMEGSSLSTLVQMVGAGMGVTL
+IPEIAINLEARSTDVSIVKFPKPAPTRTIGMVWRTTNPLSDQLAQIGEIVRGVGQKKRDS
+TGAYAGGDADLTA
+>tr|B7RIT8|B7RIT8_9RHOB
+MRSEFDQELEDRLVRYAAIDSQSDESSLSSPSTDIQLDMARLLVEELQAMGAAEVQLTDY
+GVVLATVPATVAGAPVMGWCAHVDTAPQFNATGVKPVVHRGYNGGDILFADAPELKLSPE
+NAPYLGEKRGDDIITASGTTLLGGDDKAGVAIIMTAARHLLQNPDLPHGAIRLAFTPDEE
+IGRGVDARLPADLACDFAYTFDGAKPGEIEYESFSADGAVVTVTGVSAHPGWAKDKLVNA
+LHLAAKILMTLPHVTMTPETTQDREGFIHAVSVNGGSSEAQIRFILRDFELDGLAAKGDL
+LRKVCDAVQASEPRAQVHCEITPQYRNMRYWLEKDMTPVDLARAAVRAAGMEPVSAAIRG
+GTDGSRLTEMGVPCPNIFTGMQEIHGPLEWISVQDMAKAVRVALELAGRAAA
+>tr|B7RGG1|B7RGG1_9RHOB
+MKNLACTIALTFLAGAALAENKVGITKDMPSVTVPTANGMVEIDRIQDTENQLSGEWALT
+SRPCPDFCIQPHSPAEGVTTIGELELIEMLKDPEAVVLDSRTRDWFDGGTIPGAINIPYT
+YIVDELAQLGCEPDFDGWDCAAAKPVALFCNGIWCGQSPTAIRNMIQAGYPANRIFYYRG
+GMQVWRLLGLTVIGGE
+>tr|B7RK05|B7RK05_9RHOB
+MPGMGYLGMITSNCIQRKNIMGLWSFVKDAGKKIFGGDDEKEVQGAALQDELKNLGLESE
+GLDIQVAGDKVTVSGKAVSQEMKEKVILAVGNVEGVAAVEEDIEGGDGDGTFHTVEKGDT
+LWAIAEKTLGNGARYTEIFEANKPMLTDPDKIYPGQMLRIPAK
+>tr|B7RM14|B7RM14_9RHOB
+MTLQATVDLLDRLIAYPTVSTDSNLEMIIDLSGRLQSLGARTHIFGDETGSKATLFGSLG
+PDVPGGVLLSGHSDVVPVTDQDWSSDPFQMRQADGLLYGRGTCDMKGFIAASVVMAERYA
+ALPLKRPVHFAFTYDEETGCLGAQALIPELTRLGIKPDIAIIGEPTEMRVIEGHKGCCEY
+TTRFEGLEGHGSSPDLGVNAAEYAVRYVARLMALREDLRARVPAGSRFEPPYTTINIGRV
+QGGHAHNVIVGKAEVDWEFRPVQTSDFRFVKDTMEAFIEQDLLPQMRAVYPQADISTETL
+GEVVGLEPMTENAARDLMVGLLGANSAGVVPFGTEAGLFQQMGMDVIVCGPGSIAQAHKP
+DEFVSLDQLDACLGMLERLGQRLV
+>tr|B7RHM1|B7RHM1_9RHOB
+MEHHAAAGWPTQALAPGFMPKGVNDEPYDPFAIDGADHWYTVVAQRVRAISNDLANQTFR
+PGWLRSVGQGWTNFAVESVMDEAAHKVGADPLQFRLDHLKAEGMNAGSGPNAVGGASRQA
+TVLQRVAEMSGYGKTELPEGTAIGIATTFGQSRTLPTWTAAAVQLAVDAETGAVDVQKIR
+LAFDCGTVVDPDGAHAQCEGAALWGLSMALHEGTRIENGNVVDRNLGAYTPLRLADVPEL
+EIDFLESAEVPVGLGEPGTTVIAPAIANAIFTATGARFRHLPITGDAVLAALKD
+>tr|B7RJX1|B7RJX1_9RHOB
+MAKLIAYTDGACSGNPGPGGWGALMRAMEDGKIVKERELKGGEAATTNNRMELMAAISAL
+EALARPTEITIVTDSNYVKNGITNWIHGWKKNGWKNAAKKPVKNAELWQRLDAANARHSV
+TWKWVKGHAGHPENERADELARAGMAPFKGK
+>tr|B7RMM6|B7RMM6_9RHOB
+MKHIYDAFAYSDAPRAQCWWDQTCDIPVRPALEQDETCDVAIIGGGFTGISAALHLAEAG
+VKAVVLENRYVGWGASGRNGGFCCLGGGRLGDAALDRKFGREDRLAYRATEMAAITLVDA
+LTKRFDIDVDRHSNGETELAHRPRDMDDLRARVAQIKENYGLDATLIEKKDLEAHGLKGP
+FHGGLTIPAGFGLNPRKYITGLAAAAEAAGARIYHDTAAQQINRRGDSYEIRTQGGILRA
+DKVIVATNGYSSEDLPEWLAGRYMPAQSSVIVTRPLSIQELATAGWTSDQMVYDTRNLLH
+YFRLMPDRRMLFGMRGGLMTGPTAEGRALDRVRRDFEAMFPAWSGVETPYAWSGMVCIAR
+DQMPFVGGIPGHNNLFATLCYHGNGVAMGSYSGAMIANVVMGKTFDGPYPKSMQRPLKKF
+EFGSLRRAVMPLAYLGFALADR
+>tr|B7RQE4|B7RQE4_9RHOB
+MHDAMRGLIRQVLLDVAANGLPGNHHFFITFDTEHPDAELADWLSDRYPGEMTVVMQHWY
+DKLEVTEEGFSVTLNFGDAPEPLYIPYDAIRTFVDPSVEFGLKFEQQDSGSGDRALEQKE
+ESELEVAEEAPKAAEIVSLDSFRK
+>tr|B7RRG2|B7RRG2_9RHOB
+MAGIPLSRRGFCAGLAAGAILGRPAFAAAPTPLTARPATVQLAPEGYAATKVWSYDGTVP
+GTTLRAKQGGRLTRRLVNELPVPTSVHWHGIRIDNAMDGVAGLTQEPVPAGGSFDYDFVL
+PDAGTYWYHAHTNSMEQVARGLSGPLIIEEADAYDVDRDEVLMLDDWLLDPETGAFRGGD
+HPVTLSHAGRTGNLVGTNGQFAFSLPAKRHERLRLRLINAANARIFVLRLAGLEGWTVAV
+DGMPLPEPEPLSDELVLAPAQRIDLVVDVTAEEGETAGLLRRDTDGTWQPQAMVPVTGQA
+SIARRGVPAALPPNPKMEVSGLKDARRLTMALEGGAMSGLESARYKGRELGFRGLMQEGQ
+FWALAGQAGMADVPFARLSRGETVRLGLTNQTMFPHAMHLHGMHFRTVGADGTLGPMRDT
+VLTFPNETVEIAFVADNPGKWLLHCHMLGHAASGMTTWIEVA
+>tr|B7RQH4|B7RQH4_9RHOB
+MTTSTSHLKSHPGLNLGAAHGQAHEDAEPVVFGFWIFLMSDLVTFAMFFAVYATSLQATA
+GGPGNADIVDVTSIALQTAALLVSSLLFGIATVAMKHGSAARTVIFWLIASLAFGLCFLG
+LEVRDFIDAAEKGAVPMRSGYLSAFWALVGLHGLHVAVGSIMILVVCAQIAFFGFASDVK
+TRVLRLGLYWHFLDIIWIGIFSVVFLPGLLT
+>tr|B7RGU6|B7RGU6_9RHOB
+MLIPTGEIKGRFGSMSDTMRAIEITKAGGPEVLQPTQRPMPTPAHGQVVIKVAYAGVNRP
+DALQRAGMYAPPPTASDLPGLEASGEIHAIGDGVSGLSVGDKVCALLPGGGYAEYVATPA
+AHCLPVPEGMGMKEAACLPETFFTVWSNVFMRGGLKAGERFLVHGGSSGIGTTAIQLARE
+LGARVFATAGTDSKCAACAKLGAEAAINYRDTDFVDVLKAEGGADLILDMVGGDYIPRNL
+QALAEDGRLVQIAFLTGPKVEVNFATLMTRRLTMTGSTLRPQSDLAKARIADQLREHVWP
+LLDAGKIAPVMDSEYEFEQASEAHARMETSGHIGKIVLKVNG
+>tr|B7RGX2|B7RGX2_9RHOB
+MVSRAYTVAFQGVEARIVEVQCAVSAGLPAFSIVGLPDKAVSEARDRVRAALTSMAIALP
+SKRITINLSPADLPKEGSHFDLPIALALLGAIDILPSDVVQSVVALGELSLDGTLIPVIG
+ALPAAMAAAEHNRSLLCPAASGAEAAWVGNTQVIAAASLGDVVRHYTGQVPISPADPGEV
+AQPHQTKDLRDVKGQERAKRALEISAAGRHHLMFVGTPGAGKSMLAARLPTILPPLTPRE
+ALSTSMIHSLAGLLDEGGISRTRPFREPHHTASMAAIIGGGRQARPGEVSLAHNGVLFMD
+EFPEFPRMVLETLRQPVETGEVMIARANAHVKYPCKFMLVAAANPCKCGHLSDPSRACSK
+APNCGEDYIGRISGPLMDRFDLRVDVPPVAFTDLDLPSDGESSAQVAARVARARQTQEDR
+FADHPKASLNADADGDLLEMIASSDAEARALLLRAAERFQLSARGYHRVLRVARTIADLD
+GSDSVQKPHLAEALSFRLPGAAAL
+>tr|B7RHF1|B7RHF1_9RHOB
+MTQVKMTVNGKSASGDVEGRTLLASFLRDNLKLTGTHIGCDTSQCGACVVHVNGEAVKSC
+TMLAVEADGAEVMTIESVANADGSLNVIQQAFQDHHGLQCGFCTPGMVMSASALLKENPK
+PTEAEVRHYLDGNICRCTGYHNIVKAILAASGQDVSALAAE
+>tr|B7RJH3|B7RJH3_9RHOB
+MLALVYTALAVGANPSFGQSVDIAALRDGDMKKLVVHDAPVATSTVAFDLADGAGQATLE
+DWRGKYVVVNFWATWCAPCRKEMPQLNALQKEFGGDNFEVLTIATGRNSPDGIQRFFDEA
+GVDSLPRHQDPKQALASQMGIFGLPITVIMDPDGREIARLRGDADWSSDSAKAIVQALVA
+DRTDS
+>tr|B7RM45|B7RM45_9RHOB
+MFRSLSGRLLILTTVFVMLAEVLIFVPSIARFREEYMMNRLQRAQIASLTLLANDMIDPA
+LEAELLRTAEVFNVVLRRNEVRQLVLSSPMPLTIKATYDLRNASALVLVRDAFLQLADTQ
+DGVIRVIGAPVQDAGLLIEITMETAPLRSAMLDYGIRILILSAVISFITAFLLFLAMRAF
+LLKPIKGVVGHMQNYALAPEDARRIITPSAGVTEVREAEEALMKLETELTQALRQKERLA
+QLGQAVSKISHDLRNILTSAQLFTDRIEMSEDPTVKRMAPKLVSSITRAVHLCESTLAFG
+KAEEPSPTLTVVSLDHIVDDVMVSERLAVGDAKIGFTAHIPPDLMIRADPEQIFRVLANL
+VRNARQAIAATGQPGHISVTALDHPKNWCIEVHDSGPGLPKKAQEHLFTAFRGGARKGGS
+GLGLAIAAELVRGHGGALELVETGASGTVFKITLPKGDGTF
+>tr|B7RJF9|B7RJF9_9RHOB
+MTSEVRVPTLGESVTEATVATWFKKPGDSVEVDEMLCELETDKVTVEVPSPVAGTLAEIV
+AAEGETVGVDALLANISEGGEKPAAKAEKPAAEAKEDAPAAGGDTVDVMVPTLGESVTEA
+TISTWFKKVGDTVAADEMLCELETDKVSVEVPSPAAGTLTEILFEEGATVEANGKLAVIT
+EEAGGASATSGTPETTAKPGGRDASPSTSSGDIEDAPSAKKAMAEAGITRDQVTGTGRDG
+RVMKEDVAKAVSAGTSAAKPAPAAAPRAPSAPQDAAREERVKMTRLRQTIARRLKDSQNT
+AAMLTTYNEVDMTEIMALRNEYKDLFLKKHGVKLGFMSFFTKACIHALHEVPEVNAEIDG
+TDVVYKNYVNMGIAAGTPTGLVVPVIKDAQDMSFATIEKSIADMGAKARDGKLSMAEMQG
+GTFTISNGGVYGSLMSSPILNPPQSGILGMHKIQDRPMAINGQVVIRPMMYLALSYDHRI
+VDGKGAVTFLVRVKEALEDPRRLLMDL
+>tr|B7RG10|B7RG10_9RHOB
+MKTDNSPALSRRERNLAEIRDRATPIAEAIILAEGVEGLSARRLATELQVSVGSLYNAFG
+DLHQVIRTVIAGSAELLANALMTAVAQAAPDRRSRVVALGEAYFDFAMAEPRRWSLMFEY
+RAQLEIDDKARDFQGGLLDMLIAAGEADPQSEQHRQFFLVLWASVHGVVSLATRPTIIAI
+QPELAKNYITDLVDSALNRFPVD
+>tr|B7RH82|B7RH82_9RHOB
+MKTILITGASSGIGEATARHFQVNGWNVIATMRDPSKGGALAGLDNVLVTRLDVTDEASI
+PSAVAAGITRFGTIDVLLNNAGYGAYGALEAFTMDRIRRQFDTNVIGLLEVTKAVLPHMR
+QNRSGTIINISSIGGQITFPLGTLYHGTKFAVEGLSEALHYELEPLGIRVRIVEPGMIKT
+NFGGSSFDFAMDEDLSDYASTAEAMGSLFGKLASNPSAPETVAEVIWNAANETGDRLRFH
+AGADAERLLDERKSQDDATFIGGIKTLMSS
+>tr|B7RHD7|B7RHD7_9RHOB
+MDVRIDEVDRKILAQLQRDASQSLDDIAREVGSSKTPVWNRIRKLREAGVIGQHTVVLDA
+DALGFEACFFVLIRTSEHEADWQASFLKALQDRPEVQEAHRLAGDIDYILKVRVKNARAY
+DAFYQALISEVRVHNVTALLSMEQIKSTTMLPL
+>tr|B7RL44|B7RL44_9RHOB
+MGQRGINIMEFCKAFNAKTADMEPGAPCPTVISYYQDKSFTMDIKTPPASYYLKKAAKIN
+SGAKTPSRETVGTVTTKQLREIAEAKMADLSAVDVEAAMKIILGSARSMGIEVK
+>tr|B7RHJ1|B7RHJ1_9RHOB
+MKRNVLIIGAGGVAQVVAHKCAQNNDVLGDLHIASRTVAKCEAIIQSVHDKAAMKQDGVF
+DAHEVDGMDSDAVAALITKTGAQIVINVGSPFVNMTVLEACIQTGAAYIDTAIHEDPGKI
+CETPPWYGNYEWKRRDDCAKAGVTAILGAGFDPGMVNAFARFAVDEFMDEVTSIDIVDIN
+AGNHGKYFSTNFDPEINFREFTGTVYSWQKGAWQENKMFEVGREWDLPVVGKQKAYMSGH
+DEVHSLAANYPQADVRFWMGFGDHYINVFTVLQNLGLLSEQPVVTAEGLEVVPLKLVKAV
+LPDPSSLAPNYTGKTCIGDLVKGTKDGKEVEVFVYNVADHKDAYNEVGSQGISYTAGVPP
+VAVAMLIADGTYDQGVMLNVEELDPKPLFTLLDDIGLPTRVKDADGDREWHKA
+>tr|B7RQ59|B7RQ59_9RHOB
+MRRAVAGLADDADAPADDEEVNANATISQERYAEMSAAENLLLTITEKGSGKLSSSHDYP
+VRGRGGLGVTAMDKAMRGGDIVASFPVELDDQIMLATSKGQSIRVPVQGISFRSRSAGGV
+KVFDTGKGEVVVSVAWIADQGDDAVEDGTEEV
+>tr|B7RR91|B7RR91_9RHOB
+MKPNSLRARLILIILPPLLVISLVAAIWQFHNTTIRAESIFDRGLLSAALAISRDVAVSD
+GDAISPSTRRLLNDTSGGAIFYHVYAPDGVFVTGYSTPPMMPPSAPKEITDPYYYNGSYQ
+GENVRVLRFQDGTVVSGVAGVFNITVWQNADVRNSFVRDVLSRSFAVIALLVTSVAVVVW
+FGVGLGLRPLLDLEQAIAKRTPSELEPIRRPVPAEAQGLVTTLNALLHRVSRRISSKDEF
+ISNAAHQLRNPVAGVLALAEAVQNAPNAKAVKERSAELVQAARDASDLTNKLLSFERASG
+TDILRAGLPVDLKAFIRNVGTAFNQQFPDHEVRLTYVLPSADVTVQGDEVMLHEAVLNLL
+TNSIIHGGAQVSCITLDLSVDQSNAIILVTDDGVGIPADKHIQALSRFSQAGGGPGSGLG
+LPIAARVLGNHDGSLEILDNPSGMSIKLTLPLAEDSAI
+>tr|B7RRA5|B7RRA5_9RHOB
+MKWNDLNTESCPVARGLSVIGDRWTMLVIRECFLGIRRFDQMQERLGITRHVLADRLRKL
+EADGVLKRVAYQERPLRHEYLLTDSGKALYPILVTMIEWANAHVPAENGSSVTLISRETN
+DPIEPKLVDARTGNEITHRTVIAKTAG
+>tr|B7RHP3|B7RHP3_9RHOB
+MRILTAARDLFFKHGFEKVSTDMLAKEAAVSKATLYRHFANMNDVLKSVAEAEVMKFNAD
+APPQIETLEDLRGALGEFGIKLLRFLNQPDTVQFARLIHEEARGNPQVGRLFYQAAHAKT
+LRKISKIIQHAQAHQLVSDDADASDIAEDFLALLEGLGMVRVQLGVSLYPFEDAEKRATR
+AVATILAAHAYPNQPHIK
+>tr|B7RID9|B7RID9_9RHOB
+MKEKTMHNVTANGAAIPALGFGTFRMSDAEVAEVLPEALKLGFRHVDTAQVYGNEAAVGA
+AIRASGVPRDEVFLTTKVWVTEFAEADLLPSVEESLKKLGVDHVDLLLLHWPHGNDTPRE
+VQIAELNKSVSKGVARHIGVSNYNVAGMHEAAELSNAPLVTNQVEYHPYLSQAPILKACA
+DLGMALTGYYGMADSAVPQDEVLQDIGAAHGKTAAQVALRWLVQQPRVVTLSKTAKLARL
+PENFGIFDFELSAAQMTAIHGLGRPDGRIISPKDLAPDWD
+>tr|B7RNH1|B7RNH1_9RHOB
+MGDTDGSSDAAQSAQLDSEFDRTYLDEEEAPKSGGFFSRVMGALSASETGEDDQMSAPQT
+DRLSARGMMNLRRMRVDDVAVPKAEITAVPVTCSLDELVEVFKESGLTRLPVYEGTLDTP
+VGMAHLKDLALTYGFNANTDDFDLTAMLRPLLFVPPSMTIGVLLTKMQAERRHMALVIDE
+YGGVDGLVTIEDLIEQVIGEIEDEHDVDEGKNWVVEKPGCYLALAKTPLEDFEAEIGYSL
+TDHDDVDEEEIDTLGGLVFMLSGRVPARGEVVVHPDGPEFEVIDADPRRIKRLRVRVSGI
+A
+>tr|B7RR73|B7RR73_9RHOB
+MTMEKNKDKTDPTTDAPASDNANEAAPNLDAELEVLTDKFKRALAEAENARKRADAARLD
+GREHGVALAVEALAPAFDDACLAIKAAQASPDAGNPQMKAYLEGLNTIKSAFETGLKALG
+VTEIAPNKTPFDPALHEAVQIEESDKAKAGEVLLLHRPGFALGKRLIRPAHVTVSASPGQ
+PAKD
+>tr|B7RQL9|B7RQL9_9RHOB
+MDGNKPRMFVFVLLENFTMLSFASAVECLRIANRMTGREAYAWRLIGEGGDRVRCSAGAE
+FTLDGDLDDLRRDDTLIVCSGIDVQGATTKKLLGWLRREARKGIMVGGLCTAAYTLAKAG
+LLDGKKATIHWENQDSFSEEFEEVNLTKSVFVVDGNRLTTAGGTSSIDLMLKLIADDLGE
+ELANSVADQLIYSSIRTDQDTQRLSVPTRIGVRHPKLSQVIQMMEANIEEPISPSSLARV
+VGMSTRQLERLFRRYLNRSPKRYYMELRLQKARNLLMQTDMSVINVALACGFASPSHFSK
+CYRAHYDTTPYRERGSHAARLSI
+>tr|B7RI90|B7RI90_9RHOB
+MKREPATMSDLHQTPLYDLHLELGGKMVPFAGYSMPVQYPMGVMKEHLHTRAHAGLFDVS
+HMGQVMLTGASWDAVATAFETLVPMDVLGLGDGRQRYGLFTNDAGGIEDDLMFARRGDAL
+FVVVNAACKGADIARMKSALEPDVTVTPITDRALIALQGPAAEAALAALDPAAADMRFMD
+FRTLNLDGIEAWVSRSGYTGEDGFEISVPDADAEALARRLLAIDGVEPIGLGARDSLRLE
+AGLCLYGNDIDAQTNPVEASLTWAIQKVRRAGGDRAGGYPGSEVVQAAFENGVTQKRVGL
+APQGRAPMREGTQLYDAEEGGRLVGAVTSGSFGPTVGGPVAMGYVSDEYAGVDTALWGDV
+RGKRLPVHVAKLPFVAANFKR
+>tr|B7RHU5|B7RHU5_9RHOB
+MKNWLRKHPQVRTIRVAAADLNGQARGKRIPTRFADKIVEDGTRFPMSVLNLDIWGEDID
+DSPLVFESGDADGVLYPTERGFLPMPWLDAPSALLPIWMFHEDGRPYAGDPRHALRAVVE
+RYKDRGLTPVCAVELEFFLIDDSGRKLQVPLSPRSGKRRKAAETLSIRALDQFDEFFTDL
+YDACEEMDIPADTAISEAGLGQFEINLMHCDDALRAADDAWFFKMLVKGLARRHGFAASF
+MAKPYEDYPGSGLHTHFSVLDKNGNNIFDDGGPDGTAIMRHAIAGCMNAMAGSALVFAPH
+ANSFDRMVPGAHAPTGISWAYENRTSSIRVPSGSHKARRIEHRVSGGDVNPYLMLAAVLG
+AAMNGIEDAIDPPPPITGNAYAADLPQIPGDWKSAIDLFETSPDVARIFAPEMVRNLVLT
+KRQELHYMQELTPQEQVEIYLDTV
+>tr|B7RJE0|B7RJE0_9RHOB
+MADQNFKADVIVVGAGLAGMVAAHEAVLRGRRVLLVDQEGPQSLGGQAFWSLGGLFMVDT
+PEQRRLGIRDSAELALTDWMGSAQFDREQDANPRAYAERFVDWAAGGMRPWLHGLGMRWF
+PVVGWAERGGALAGGHGNSVPRFHITWGTGTGVVAPFAKLMQEHVLAGKVKLAFRHRVTA
+LDVTNGAVRGVTGDVLEPNTAPRGESTGRTVVGGFNHQAEAIVLTTGGIGANHDLVRKHW
+PVDRLGQPPKRMISGVPDYVDGKMHAIAADAGAGLINEDRMWHYCEGVENWNPIWPNHGI
+RILPGPSSIWLDAKGDRMEAPCMPGFDTLATLKRILHAGDHSWFILTQKIIEKEFALSGS
+EQNPDLTNGGWRDVLKARLGKGATPAVEAFKEKGADFIVADRLEDLVAGMNRLTPEQPLD
+LADVRGQISARDGQLANPFAKDAQITAIRGARAYRGDRLIRTAKPHAILDPQNGPLIAVR
+LNILTRKSLGGLHTDMQGRVLTPTGAVLPGLFAAGEVSGFGGGGYHGYNALEGTFLGGCL
+FSGRIAGQNT
+>tr|B7RMK7|B7RMK7_9RHOB
+MTHTRYAFIKARWHADIVDRAYDGFTETIPADQIDVAEVPGAFEMPLMAQTLAETAKYDA
+IICAAFVVDGGIYRHDFVAAAVVDGLMRVGLDTGVPVLSVSLTPHQYQETDHHNAIYRMH
+FIEKGREAASAALSIVAAYRSIGA
+>tr|B7RHB5|B7RHB5_9RHOB
+MILDIDVQLEYQMYGPTDMILQIQAPDFADQRVLSESFTLSDTQQRASIAGEAGMGERVL
+IRSNGNLRCDYKARFDVDRPALRIEEFNSVPPHKLPSDAVRYLMPSRYCPSDQLQSFVAA
+EYGNLKGGYLIATLRDWIFERFQYVPGSSNGQTTALDTFVQRQGVCRDFAHVMIALSRAA
+AIPARFVSVYAPFVTPQDFHAVAEVFLDGTWHLVDPTGMAASNQIVRIGVGLDAAEVPFL
+SSFGPAMMLSQSVDVRVV
+>tr|B7RMH3|B7RMH3_9RHOB
+MEAIVQQFLNIWAGLTFRRQLTIVAATLAMFFGVLAMSKMVASPTLTLLYAGLESGAAGD
+VVRALEQRGVVYEVRGGSIFVDAKARDELRLTLASEGLPANGNRGYELLDNLTGFGTTSQ
+MFDAAYWRAKEGELARTIVANPQISMARVHIAGTGSNPFQRGVVPKASVSLTPNGGEISA
+AEAKAVRFLVASAVAGLSPDDVAVIDANGSLIGSSDDAMPTSQGDDKAEMFKEKVQRILE
+ARVGLGNAIVEVSVDTETESESVRERRFDPEGRVAISTDTEERSNSSSDAGSGDVTVASN
+LPSNNGQPGGDSSSSSNSETRERVNYEVSETEREIVRAPGAVKRITVAVLINDAIATDES
+GVETSQPRDDTELEALRELVSSAVGFDAERGDIITIKSMALQSIPPMGTQASTSIVDRST
+WI
+>tr|B7RQ46|B7RQ46_9RHOB
+MKILVLCTGNSARSILLESLLNHHGADVVQAYSAGSQPAGQVNPHAITLLGNLGHDTSGF
+RSKSWDEFGGDDAAPVDIVITVCGSAAAETCPMWPGTPLRAHWGVEDPAAASETEAPAAF
+AEAYAILKRRADHFLAAPLATMDRAALQKHLTLCGQIA
+>tr|B7RQT3|B7RQT3_9RHOB
+MLFAAPGPAFAQVTAFKQAVAEAAARDEDIAAHYRSSDYAPIWTDANDTQRDRRAALMAA
+IKAADLHGLPVARYDPQGLMNILAAARTPRDRGLAEVEMTRVFLQYARDLQTGILIPSRI
+DSSMVREVPYRDRQAYLTDFIKSDPMPFLRNLRPRTMEYNALMREKLEMEKLLATGGWGP
+VVSASTLKPGAQGAAVVSLRNRLIRMGYLKRTNGISYDATMEAAVREFQKDHGLNTDGVA
+GSGTITELNKSVETRLKSVIVAMERERWLNKERGARHVLVNIPAFTAAIIDNGRVTFETK
+SVVGATKDGRYTPEFSDTMEYIVINPTWNVPRSIVTKEYLPSMKNNPNAAGHIDLIDRSG
+RIVPRGAVNFSSYTEQTFPFSMRQRPGRSNALGLVKFIFPNKYNIYLHDTPSKSLFARDM
+RAFSHGCVRLADPFDFAYTLLAAQTSDPVGFFKSKLATGRETFVHLDNELPVHLIYRTAF
+TTPRGHTQYRADIYGRDAKIWNALSKAGVALGAVQG
+>tr|B7RRY0|B7RRY0_9RHOB
+MGVTISVTSRDDLYDTLNQVRGGETILLVPGHYGALTMNGKTGFPNRFDPPLTLTSANPD
+DPAIFDWMDIHGGQNITLDSVRFDYAYQAGQPDHIRPFEINDSRGIEIRNSVFSGDRVLE
+GVASDDGFGHGYGLSVRDSRQVTIEANDFHHWGRGAIFSQSHGVIVRANDIHHVRSDGLN
+FAEVTGVLIEENHLHDFSAAYGSQDHRDMIQFWTNGTDSPSAEILIRHNRLDMGQGSFTQ
+SIFMRNEAVDSQDATDAMYYRNVTIEENSIYNGHLHGITVGETDGLTVGRNSLIAVPDPQ
+NEGQNKTALWVPAITVASASRNVSIKGNLTNQINGENGQTDWQVQDNTMIQNLVPTMPGH
+YDDLFASSSMDRGSNGHHFIPLAGTLVDRGTTEMNSGFAFGEIGPLFQVGQGESLNTKVF
+DASLTAQMLHDAGVGDAIYTWHFSDGTTAQGLRAIRPFAQAGSHEVTLSVMHPSGLTYVA
+QTIVEIRGGKLLSFDSGDEGDFFAHGFGRSHGLDVMDAVQDDGLVLTGHNAVATVDRAAL
+EGLRGSDAMALNFSVQGTGAGDLFRAHMVFQAVVTIGGAIRFQLYDQAGNSAVVTSRGVW
+VNDDLPHDVSVTLKDGILDLNIDGVQTAIARFPGTLPVSEGWDLIFGNPWGQRGNFDGAI
+VAFDLAAGPELPPLDPLQLEFLSRQVDLQPSVIPATEGLEWGKGIEFNYGAGEVPDGSAE
+GDARMPAPDTLGF
+>tr|B7RSJ2|B7RSJ2_9RHOB
+MSFEIFLTAIPIVLKGLWLTLLITFCAFLLGQIVALPLALLARARSRLLRWPVKTWIFFI
+RGSPLLVQLFIIYFGMGEVDAIRNSVFWPILREPLNCAILAVGLNSGAYSAELLRGGLRQ
+IPVGQLEAARVLGMSGFHALTRITLPQVYRNVLPVTGNEIILVMKGSALASAVTVMEMTG
+AARAFVSKTYAPFEVFTVAGIIYLVIGLALSQLFRGIERATAIPSSATETS
+>tr|B7RKQ3|B7RKQ3_9RHOB
+MYDMAAMGAWIEFAVRWVHVITAIAWIGSSFYFIALDLGLHRDRNLKSGADGEEWQVHGG
+GFYHVQKYLVAPAQMPDDLVWFKWESYSTWLSGFALLILVYYLGAEFYLVDPAVADLATW
+QAVGISMVSLAFGWVVYDQICKSKFGDDNTRLMIGLYVILVGMAYFYTSVFSGRAALLHL
+GAFTATIMSANVFFIIMPNQRIVVADLKVGRTPDAKYGKIAKQRSTHNNYLTLPVIFLML
+SNHYPLAFASEMNWLIAALVFLMGVTIRHYFNSLHSRAGNPTWTWLATALLFITIIWLST
+APMFRIAEPEEATGPSLRFTQADGFDQVHDIVLGRCSMCHAAEPSWDGLLWAPKGVRLET
+EHQIAKAAKQIYLQAGLTHAMPPANLSYMRPDERAQIVAWYQAATR
+>tr|B7RGY1|B7RGY1_9RHOB
+MLLVFILAAVIWFAGAAMGQSRDTRFKVLGALFGAVIGLNVLLPPLHPLRVATGGSAAPW
+LLLTGFILIVLGYRWGLNRLRARTKPVTEKPAQSGAFSETELNRYARHIVLREVGGAGQK
+ALKNAKVLVIGAGGLGAPVLQYLAAAGVGTIGVVDDDTVENANLQRQVIHKDSAIGMPKV
+FSAQAEMEAQNPFVTVRPYHRRLDEEIAADLIGDYDLVLDGTDNFETRYLVNRACVAAGV
+PLISGALSQWEGQLSVFHPASGGPCYQCIFPRAPAAHLAPSCAQAGVIGPLPGVIGAMMA
+AEAIKLITGAGAPLRGQMLMYDALYGENRVIGVSQRADCSVCGAVSEED
+>tr|B7RI44|B7RI44_9RHOB
+MTGFYDHDTGSVQYLVADPQTSKAALIDVVMPFDHRSASTDNTSVDAILGFAETEGLEIE
+WILDTHPHADHLMASSYLKERLGCPNAIGAKVKDISKLWHEKYNMPDAFDPEQDFDHLFK
+DGDSFKIGTLDVKVMLSPGHTLGSITYVVGDDAAFVHDTFMQPDAGTSRADFPGGSADEL
+YDSLQELLKLPDHTRLFIGHDYGTEFRKEPAWEATVQQHRRHNTHIGGGVSKEDFVALRT
+GRDKTLSLPDRMLHVLQMNLRAGKAPDPENDGNSYLKIPLNTF
+>tr|B7RI57|B7RI57_9RHOB
+MDRQEIENLIARVALKDRAAFDLLYDRTCAKLFGVCLRVLNKRAAAEDAMQDTFVKIWNN
+ADRYHSNGLSPMTWLITIARNTSIDRLRARKKGHQDIDTPGLELVSPGPNPEEFAVASSE
+ASRLSGCLDTLEEDRGKAIRGAYLDGETYADLADRFGVPLNTMRTWLRRGLIALRECMSQ
+>tr|B7RRW0|B7RRW0_9RHOB
+MEKTMSDHPTNMHVHPEIESFFDPQTFTISHIVMDPGSTSCAVIDSVMDINYPAGRISYE
+HADEIIAYIEKNKLKLEWLIETHVHADHLSAAPYIQSKLGGKIGIGDQITVVQDTFGKVF
+DEGTDFQRDGSQFDRLFKDGDIYEIGGLSAFAIHTPGHTPACMVHVIGDAAFVGDTLFMP
+DGGSARADFPGGDAGQLYDSIQRVLALPDDMRLFMCHDYAPDDRDFMWETTVAEEKANNI
+HVGKGKTRADYIKFREARDATLDVPKLILPSLQVNMRAGALPKTKSSRLMLKVPINAI
+>tr|B7RPG3|B7RPG3_9RHOB
+MLTFTIRRLLLSIPTLLFISMVIFLLLQLAPGDPMAQVPLTVPPEVKQKMREALGLGQPI
+YVQYYKWLIQFFWVEPQVFLDWATRDSFLLGWLPDTNFSTFIDPDSGAVRPVQRAISWQT
+RSPIMDIVIQRMPQTLWVVGLSYVVGILIAIPIGIYSAYRHYSLFDQAGTFVTMVGFSIP
+PFFTGPLLIVVFSVTLGWLPSIYDTTHVVTDWASFKIQFMQMIMPVMVLALQTTAQISRY
+MRGAMLDNLNQDYVRTARAKGLKESSVVLVHVLRNSMIPVVTVIALGMPAIFGGAIITEN
+VFKVNGIGQLLLTALFANDLPMVMTLTFIFAILIVLFNLIADVLYGLLDPRIRYD
+>tr|B7RL61|B7RL61_9RHOB
+MAQSQNIRIRLKAFDYRVLDASTQEIVNTAKRTGASVRGPIPLPNKIEKFTVLRGPHVDK
+KSRDQFEIRTHKRLLDIVDPTPQTVDALMKLDLAAGVDVEIKLQS
+>tr|B7RJP0|B7RJP0_9RHOB
+MTDLVLHNYFRSSTSVQVRAALNLKGLSFDYIPLSLLKGEQASAEHLALNPSGLVPTLVT
+PQGPLPQSLAILEWLDEVHPEPALLPDDPWGRARVRSLAHIVALDIHPVNNLRILKHLEA
+EYGVDADGKAAWFRKWANAGLAALEQRLSAEPETGDFCHGDAVGLADLCLYAQVLNNARF
+EVDMSHYPTVQRIHANCMEIPALRDAIPANQPDAV
+>tr|B7RH29|B7RH29_9RHOB
+MRIKGKGLIDRSNTVSFSFDGRSYDGFEGDTVASALLANDVTLMGRSFKYHRPRGVLTAG
+SEEPNALVTVGSGAASEPNVRATMQEVYEGLRVRSQNAWPSLDFDLMAVNNLVSPFLGAG
+FYYKTFMWPRKFWERFYEPVIRRAAGLGGLSGAHNPDTYERAFAFCDVLVIGAGPAGLMA
+ALTAARGGADVILADEDALMGGRLNAETYLIAGKPGHVWAAEAVAELAGMDNVRLMSRTT
+VTGAYDQGTFGALERVGQHHGVRSKGAPLECFWRIVAKHSILTAGALERPIAFQNNDRPG
+IMTAGAVRAYLNRWGVSPGKALTIFGNNDDAHRTARDLADAGVRIAAVVDSRTDVDVKGD
+FPVYRGAQVFNTGGGKELESISIRTISGVEKIQTDCLAMSGGWNPTVHLTCHMNGRPTWR
+PDIQAFVPTAGAIPGMVAAGACNGTFSTRGCLAEGADVAGKVLGTLGKKVPDVALPQAED
+APYRMEPLWAVAGKGRAWLDFQNDVSVKDVAQAAVENFRSVEHMKRYTTQGMATDQGKNS
+NVGALAVLADATGRGIPETGTTTFRPPYSPVTIAAMGAGAQGKGFAPQRFTTSHSASVEA
+GAPMIEAGLWYRPSYFPKAGEKTWRQSCDREVGYVRKAVGVCDVSTLGKIDIQGPDAAAL
+LDFVYTNMFSTLKVGRVRYGLMLREDGTVMDDGTCARLGDHHFVMTTTTAAAGTVMKHLE
+FVAQCLHPEWCVAMTSVTEQWAQFAVAGPKSRELLNGVLDAPIDNDSWPFMACGDTSVLG
+VKGRLFRISFSGEHAYEIAVPARYGESLFRELVARAQGLGGGAYGMEALNVLRIEKGFIT
+HAEIHGRTTAFDVGMAGMISAKKDCVGKVMAARPGLVSADRERLVGMKPVGAVKMLSAGA
+HIFGKDAEAVRENDQGYVTSVCFSPEVGTYIGLGFVKNGPERYGEVMRVVDHLRALDVEV
+EICPPVFFDPEGGRARG
+>tr|B7RKY4|B7RKY4_9RHOB
+MQLVLVVDDSKLQRRILSASLTRWGFEVVEAASGDEALEQCRIRLPDLVISDWVMPGMNG
+LQFCRAFRDLSNFQYGYFILLTSKSEKAEVAKGLDNGADDFLSKPVDVHELRARITAGER
+ILDMQRELTEKNRIITDTLDELQRVYDSLDKDLLEAKKLQQSLVRERTRDFDTGKLSLML
+RSSGHVGGDLVGFFPVGDDKLGLYGIDVSGHGISSALMTARLAGYLSAAAPDQNVALIRQ
+PDGSFAMRPPEKVISELNNLVLNEMETEHYFTLLLAEVDLKTGHVVMSQAGHPHPVVQRR
+DGRIEQGGLGGFPVGLLAGVEYDQFTVQLSPGDRLLILSDGVTECPDPEGKMLDEEGLAQ
+LLRGLHDVNGPPLLEAILWQLTEFAGDADFPDDVSGILFEYTGPSESP
+>tr|B7RLF8|B7RLF8_9RHOB
+MPVVVVESPAKAKTINSYLGSNYTVLASYGHVRDLPPKDGSVDTDNDFDMKWEIAAASKK
+HVKAIADALKDDNELILATDPDREGEAISWHLQEALTQRKSIKKDTPVSRVVFNAITKAA
+VTEAMKNPRQVDMPLVEAYLARRALDYLVGFNLSPVLWRKLPGAKSAGRVQSVTLRLIVE
+REMEIEAFRNREYWTVKALVATPRGQEFEARLVTLAGKKLDRFDLANDTQSEMAVQAINS
+RDLTVTSVEAKPASRNPSAPFMTSTLQQEASRKFGMGARQTMSTAQRLYEAGHITYMRTD
+GIDMAPEAMNMARDAIKDRFGAEYVPSSPRIYKNKAKNAQEAHECIRPTDMSKDAAALKL
+TEPDQRKLYDLIWKRTLACQMESARLERTTVEIGSKDEQVGLRATGQVVQFDGFLRVYEE
+GRDDVVDEDDKRLPQISQGDKMDKRAITPEQHFTQPPPRYTEATLVKRMEELGIGRPSTY
+ASVVTTIQDREYVRKEGNRLFPEDKGRLVTAFLENYFRKYVGYDFTADLEDQLDKVSAAD
+ADYKDVLTRFWKDFSAAIAETADLRITEVLEKINEVLEPHLFPPTEDGKDPRLCPNCEIG
+RLSMRTARSGGAFIGCSNYPECRYTRPFGPPDPEAEASAIPPDGKLLGEDQGDEIRVFKG
+RFGPYVQRGPVTEENKKPPRQSVPKDWPAEELDLERALMLLSLPREIGPHPEDGIMVWAN
+IGRYGPYIKHAPSTSDRGGTNANLEGLDEVFTVGMNRAVQLLAEKVASRGGRGKAAKPIR
+EMGEHPDLGGDVHIMEGKYGPYVKWEKVNATIPKEIEPADLTMERAVELIEEKLAKSPAK
+RKAATKKAPAKKAPAKKAAAKKPAVKKKAPAKKKAPAKKAE
+>tr|B7RFP6|B7RFP6_9RHOB
+MPGITDHLIRFAQTQPPRDALAMLRLSLFDWTACGIAGAQDSAFDGFVAVHHASGGTAEA
+TVLGGGKLPVATAALINGTLSHALDYDDTHFAHIGHPSVAVLPAVLAIAERDGLALSQVI
+EAATLGIEASIHVGIWLGRDHYQVGYHQTATAGAFGATLAVARLMKLDADRTRMALGLCA
+SLASGLKSQFGTMAKPLNAGLAARAGVEAAVWAQAGMTAAPDGLAGPLGFGPTHHGEGDE
+AALATIGQGVWQIESISHKFHACCHGLHAMLEALGDTQIDPLVIARIDIETHPRWMSVCN
+IADPDTGLGAKFSYRQTAAMSLLGQDTGAIASYTEAITTRSDVISLRNLINVAENPDLSE
+MQSRVKITLKNGDVHELQHDLNAAIPADIRASKLRSKAAGLLGQAQADALWVACQGDDAA
+ALMAQLV
+>tr|B7RIH7|B7RIH7_9RHOB
+MTFRAHILGAAAGGGLPQWNCGCENCNLARAGAIPSQTQSSIAFSANDRDWAILNASPDI
+RQQIAQTPVLHPTDLRRSPLRSVLLTNGDIDHIAGLLTLREQQPFKLFATKDIHAVLANN
+PVFDALNPNFVTRETIELGETVEIAPGLRATLFAVPGKVPLYLEGASVQTDLEGEQTVGV
+CLQAKDKTAYYIPGCSTFKPDLRARIEGADAVFFDGTLWQDDEMVAAGLSQKTGQRMGHM
+SMAGSDGSIEAFKELKIIQKFFVHMNNTNPVLRPGSPQRKQAEASGWTIAQDGMEIRI
+>tr|B7RRD3|B7RRD3_9RHOB
+MDSLTLTIESHADEDLETEATFNSTGTSIKVGRRAENDWILPDQTRHISGTHFDVLWEDG
+RYILHDLSTNGTFLNGSKQRIEGPHPLTDGDRIHVGLYVIHARLRPIVDPVTQAEESVDE
+ATQPPRSRPQSASNAAQGSRAVQAPPGAAFLTKDAKSHVQSPGHGHFTAGQAAQTPDFAR
+FQSGVPDQTGVSAPPAAVAKAPDDALSDPFADILGAAISDEIDPLENQSATPPSKVMPED
+PEKPQQDAAEFLIPDDDFTRDLPKPSFDLESKPPAFSDRAEFSSELSQAPRGMGETFGAA
+DDASPFSEGDLPPKQPRIDPVDVPASPPPAPREIDAAPAVDQTAAQRPVPASAGDDFLRG
+FLEGAGIEGTENLEIPLHELGRILGACARLGTREMMQMLQDRSAVKLFVAQEDRTMRISN
+GNNPMKFMLDPEEAFEALFVVPRSGYQTGADGFENALTDIRKHQAAMMAAVQPAMADILT
+GLAPTDIESATGSSGGGVLGSGARKCWEEYNKRWKTRANQGENGMLDAFIDAFAKRYSEA
+LENL
+>tr|B7RRE1|B7RRE1_9RHOB
+MNAKMVASVDGMMAFETSTRTDVGRVRKLNEDSLLALPESGLWVVADGMGGHTAGDFASQ
+TIVAQMKTIGLPTGAMDLRARFMDRLTKANARIHAHAAEIGQKTIGATVVGLLIQQDHFA
+CIWSGDSRIYRMRGRKLTRVTRDHTEVQALLDAGSITAEQAEAWPRKNVITRAIGVTDLP
+ECDMVEGKLADGDVFLLCSDGLTEYFDDSELADVLYEGVDFPLEGMCAHLVGTALARGGK
+DNVSVVMVRCQQLDLPGFAVDGDYPELRGLQ
+>tr|B7RGS0|B7RGS0_9RHOB
+MISALHLAGADVFRLNMSHGSHDEIRIKHKIIRQIEEETGSTIGILADLQGPKLRVGVFA
+GDSEQLVEGASFRLDLDEAEGDASRVCLPHPEIFAALEPGASLLVNDGKIRLKVKECGPD
+FANCEVIIGGVISNRKGVNVPDVVLPLAALSDKDRADLEFVCELGVDWLALSFVQRPEDV
+LEARDLAKGRAALLSKIEKPSAVARFDDILSVSDGIMVARGDLGVELPVQNVPPIQKRLV
+RKCRAAAKPVIVATQMLESMIESPMPTRAEVSDVATAIYEGADAVMLSAESAAGSYPIEA
+VKTMDNVATEVEMDPTYTQIIESSRTADRMTVADGIVAAAREIAETTNIRAICCFTQSGT
+TGLLIARERPRVPIIALTPLVKTARRLALSWGTNCIITDRLDRFKMAVVSAARAAREEGY
+AGPEDLIVVIAGVPFNVEGSTNILRVAPCDERLIFNTDPE
+>tr|B7RHL8|B7RHL8_9RHOB
+MIVLNATWLDTFTTLCDVGHFTRTAERLGMTQPGVSQHLRKLEEQVGTPLIVRDGKTFTL
+SPAGEAVLSVGKARRLQERALREAVQVDDPDVGTVSIGCSGSFALWIYPYLLDRMRRAPN
+LVIRLAAAPQASIVAGVLDGELDLGIVGDKPDHPRVQALRLGEEELCLVLPAAFQAADLD
+LDRLNDLGFVAHPDGFAYADDLLQRNFPQTYKGADHLKVRTFINQIGQIPIPVAQGIGYT
+ILPKSGVDAFPDQGSLSVHDLREKRYHDLWLISRTGRSGVARIAAVKDLIEHATNSLG
+>tr|B7RJ55|B7RJ55_9RHOB
+MALTDYPVNMNVTPEVTGYFDPATNTISYIVRDPNSTSCAIVDSVMDMDYAAGRITFEHA
+DTLIAEVEGKGLKLEWIIETHVHADHLSAAPYIQQKLGGKIGVGEKILVVQETFGKIFNE
+GTEFQRDGSQFDALFKDGDTYQIGGMTCFAMYTPGHTPACMVHVMGDAAFTGDTLFMPDG
+GSARADFPGGDAGVLFDSIQKVLSLPDDMRLFMCHDYGPNGRDIAWETTVGDEKAHNIHV
+GGGKTREEFISFRTARDAELGMPKLIIPSLQVNMRAGHMPTDKDGNVMLKVPVNGL
+>tr|B7RIF0|B7RIF0_9RHOB
+MRKIYIAGHRGMVGGAILRQLQARKDAGEALTLLTRTHAELDLTSQAAVRDFMMAEQPDV
+VILAAAKVGGIMANNTYPADFIYENLMIECNVIHQAFAAGVKSLLQLGSSCIYPREAAQP
+MAEDALLTGTLEPTNEPYAIAKIAGIKLCESYNRQHGVDYRSVMPTNLYGPGDNFHPQNS
+HVLPALIRRFHEAARDNLDEVVIWGTGKPMREFLHVNDMAEASLFVLDLPQDVYAANTQP
+MLSHINVGTGTDVSIGELAQMVADVTGFQGKLGFDTTKPDGTMRKLMNVSRLADMGWRAQ
+IDLKDGLQETYNWFLNQESVRS
+>tr|B7RQN2|B7RQN2_9RHOB
+MKLCRIKTSSGIRPAILDANGQHRDLSEHVSDLELSSMAPDALDALRRIDPKTLPEIEGE
+YAPVLNDIRRILCIGLNYSDHAAEAGMPVPDHPILFAKLCAATGANEPIIIPKDSEKTDW
+EVELAVIIGTKAQHVSEADALSHVAGYATFNDVSERAFQIEFGGQWVKGKSCDTFAPIGP
+WLVTKDEVPDPQNLDLWLDVNGTRRQTGNTSTMVFSVAEIISFLSRFMTLLPGDVIATGT
+PPGVGMGFKPPVYLQPGDVVELGISGIGDQKQNVISFKG
+>tr|B7RL80|B7RL80_9RHOB
+MNDPIADMLTRIRNSSMRGKSTVMTPASKLRAWVLDVLADEGYIRGYEKMTGADGHPAIE
+ISLKYYEGEPVIRELKRVSKPGRRVYMGVNDIPVVRQGLGVSIVSTPKGVMSDQNARSHN
+VGGEVLCTVF
+>tr|B7RSH0|B7RSH0_9RHOB
+MGLLNIIRRMALREKLPIREIARRTGMSRNTIKKYLNAGTIEPHFATPERQSKLDPFADK
+LAGWLKTEGAKSRKQRRTLKQMHADLVALGFDGSYGRVAAFARNWRADRQREQQTTGRGT
+FVPLVFRPGEAFQFDWSEDFAVLGGERTKLQVAHIKLSHSRAFLVRAYLLQTHEMLFDAH
+WHGFRVFGGIPGRGIYDNMKTAVDRVGRGKERQVNMRFLAMANHYVFEPEFCNPAAGWEK
+GQVEKNVQDARHRLWQPMPSFPDLVALNDWLEQRCVALWGEIPHATLLGSVSDVTETKVA
+VKSLNRMTELGHAVYERLI
+>tr|B7RR37|B7RR37_9RHOB
+MGFLVTAVSDIVGISPEEIQPMPKVGGLDENGFVQGIIASGDRTLRVLDISELAAAMAAE
+PVEA
+>tr|B7RKP6|B7RKP6_9RHOB
+MMKNAWQGKRYWLVGASAGLGEALAHRINRAGAEVILSARSEVKLAKLVEELPGRASYQT
+MDVQDIESVRAAVSAVGEVDGIVYLAGAYWPFGAKAWEADHATTMIDVNLTGLVRVLGEV
+VPGMVKKDAGHIVITSSLTAFRGLPRSIGYTASKSGTLSLAECMYADLRKTGVKVQVINP
+GFIKTQLTEKNDFKMPFLMEPDAAAQEVFDHMNSDRFKKSFPFAFSLLFRFAQFLPDSIY
+YRVFG
+>tr|B7RL09|B7RL09_9RHOB
+MAITSANQLELLQTAEAVAREKMIDPNLVVEAMEESLARAAKSRYGAEMDIRVSIDRKTG
+RATFTRVRTVVADDELENYQAEFTVEQAKQYMANPEIGQEFSEEVPPVEMGRIAAQSAKQ
+VILQKVREAERDRQYEEFKDRAGTIINGLVKREEYGNVIVDVGAGEAILRRNEKIGRESY
+RPNDRIRVYIKDVRREQRGPQIFLSRTAPEFMAELFKMEVPEIYDGIIEIKAVARDPGSR
+AKIAVISYDGSIDPVGACVGMRGSRVQAVVNELQGEKIDIIPWNEDQPTFLVNALQPAEV
+SKVVLDEEAGKIEVVVPEEQLSLAIGRRGQNVRLASQLTGLTIDIMTEEQESARRQAEFE
+LRTKLFMDNLDLDEFFAQLLVSEGFTNLEEVAYVEVDELLVIDGVDEATAGELQARARDV
+LEAKNKAALDAARALGVDDTLIEFDGLTPQMIEALAKDDVKTLEDFATCADWELAGGWTT
+VDGVRTKDEGTLEPFEMTLEEAQHLIMTARVLLGWVDPAELEPEVEEDDIEDEEAEA
+>tr|B7RMY6|B7RMY6_9RHOB
+MREAATLLDELGIAYEAKIVSAHRTPDRLWDYGKTAVDRGLQVIIAGAGGAAHLPGMMAS
+KTRVPVIGVPVQTKALSGVDSLYSILQMPRGFPVATMAIGAAGAANAALMAAGILALQDA
+ALAKRLDDWRAALSASIPQEPSDD
+>tr|B7RQI3|B7RQI3_9RHOB
+MKILLAEDDPKIADYIVAGLSENGHSVDHVSDGRDALSYCLYNDCDMAILDRMLPGMDGL
+SVLKALRASKKSLPVLFLTALGQVEDRVEGLAAGGDDYLTKPFHFSELTARIDAIVRRKS
+ETTAEPSLTVHDLTLDLLARTATRQGNLIELHNKEFSILEILMRNSGRIVTRTQLLERVW
+NFNFEPNTTVVETHLSRLRAKIDKPFDTPLIHTIRNTGYSMHGPR
+>tr|B7RMM4|B7RMM4_9RHOB
+MNMRRFFLIAIPYAWLLALFLIPFVIVFKISLSDLALSIPPYAPTMKDGFAQMFADFDLE
+NFVFLTTDDLYWKAYLSSLKIALFSTALALMVGYPMAYGMARAPEEWRPTLMMLVILPFW
+TSFLIRVYAWVGILSNEGLLNQFLLWTGIIGEPLTILNTTTAVYIGIVYTYLPFMILPIY
+AALDRLDESLIEAAEDLGCSRSKAFWLVTVPLSRNGIIAGCFLVFIPALGEFVIPSLLGG
+SGTLMIGKVLFEEFFNNRDWPVASAVAVILLLILIVPIILFQRNQQRQAEAET
+>tr|B7RL19|B7RL19_9RHOB
+MSRIALVDDDRNILTSVSMTLEAEGFEVETYNDGQAALDAFNKKLPDMAVLDIKMPRMDG
+MDLLQRLRQKTAMPIIFLTSKDDEIDEVLGLRMGADDYVKKPFSQRLLVERIRALLRRQD
+AVENNEVGETEETKVIERGDLRMDPLRHAVSWKGKDVSLTVTEFLLLQALAQRPGFVKSR
+DQLMDVAYDDQVYVDDRTIDSHIKRLRKKMRTADDGFSAIETLYGIGYRYNEE
+>tr|B7RGY8|B7RGY8_9RHOB
+MDRSSSNDFGRPLRRMLLAVLILILLGVFLLWRIDSPRVERFRAQITDRIVPNLDWAMAP
+VTGTVNLLRDFQSYQRLADQNQELRSELRQMQAWKEAALQLEQENARLLDLNNVRLDPRL
+TYITGVVLADSGSPFRQSVLLNVGARDGLVDGWAAMDGIGLVGRISGVAQNTARVILLTD
+ASSRIPATIQPSGQRAIVAGDNSSAPPVDFLENPDLVRPGDRVISSGDGGVFPAGLLIGQ
+VAADPGGRLRVRLAADYERLEFLRVLRHNGSETVSDSAQVIGPDGPIAQTQAPPAAPDQ
+>tr|B7RJN9|B7RJN9_9RHOB
+MKMIYGAVLAVAFAAPAFAESHSMGDAAAGEKEFGKCKACHAIVDDAGETIQRGGKVGPN
+LYNVVGRKAGAVEDYKYGKSMVEAGEGGLVWDEANLAAYLEDPNDFLKTTLDDNKARSKM
+SFKLRKGREDVAAYLASVSPAAEGMEEAPKTE
+>tr|B7RJ28|B7RJ28_9RHOB
+MTDAAPHPTAHPKALIDALLAAPSPAPRLSEIGKVVEVADGIVVVSGLERALSDELLHFT
+SGVQGIVLDLEPGRLGVVLLGASDAVTVGESVTRTHRVVSAKVGPALLGRVVDALGNARD
+GAGVIQTDFLRPVEAEAPKILDRRAISRPLATGIKVVDAAVPVGLGQRELIIGDRQTGKT
+SIAVDAILNQKSTQVICIYCAIGQRGDAVAKVIGAIRDGGMMARSIIMSAGDEDAAGLAY
+VAPYAAMTMAEYFAAQARDVLIVLDDLTHHARSYRELSLLLRRPPGREAFPGDIFYIHAR
+LLERAGQFTHAAGGGSITVLPVVETQAENLSAYIPTNLISITDGQIYLSPRLVRKNQFPA
+VDLGVSVSRVGGKAQSEAFRAVSGNLRVTLAQFEELEDFARFGTRLDDATRARLKRGAAV
+RASLRQPERDPIPAVEQLAVLVAAMEGQFDGLDDSDTVSVMARLRQAAARDLGDIAKQIA
+ANAPLAEEDRARMVALGKKARETIGGADDANP
+>tr|B7RI37|B7RI37_9RHOB
+MSVAKPLPHDAARLHVTGAARYVDDIPTPSGTLHLAFGLSTCAAGTITGIDLSAVQDAPG
+VVDVLVAGDLPFANDVSPSNHDEPLLATEAVHYAGQPIFMVVATSHLAARRAARLGQVDI
+DQTDPILTIEQALAANSRFEDGPRIYQKGDAAAGLKKAPQTLNGTINIGGQEHFYLEGQA
+ALTLPQDNGDMVVHSSTQHPTEIQHKVAEALGLPMHAVRVETRRMGGGFGGKESQGNALA
+VACAVAAARTGRACKMRYDRDDDMIITGKRHDFRIDYTVGFDPDGRITALDFTHYTRCGW
+SMDLSLPVADRAMLHADNAYHLDNIRITSHRLRTNTQSATAFRGFGGPQGIVGIERVIDH
+IALHLNADPLAVRRVNYYADAPCDSVQTTPYHQPVTDGIINTLTDRLVETSDYTARRAAI
+RDWNASQPVLKRGIALTPVKFGISFTLTHLNQAGALVHVYQDGSIQLNHGGTEMGQGLFQ
+KVAQVAASRFGVDVSLVKITATDTGKVPNTSATAASSGTDLNGMAVQAACDTIRDRITEH
+LAKLHQVSPEAVTFSGGMVTVGNQKITFADAVASAYVHRVSLSSTGYYKTPDIEWDRIAG
+RGQPFFYFAYGAAVTEVVIDTLTGENRILRADILHDAGASLNPALDIGQIEGGYVQGAGW
+LTTEELVWDDHGTLKTHAPSTYKIPACSDRPDVFNVALWDHSNPAQTVYRSKAVGEPPLM
+LGISAAMALSDAVSACGPGYGDLQTPATAEAVLAAVLKTRA
+>tr|B7RS85|B7RS85_9RHOB
+MTRSTSLTINGETHVVDVDHRTTLLDLLRHHLDLTGTKKGCDHGQCGACTILVNDRRINA
+CLTLACMHDGDDITTIEGLGTPDDLSAMQKAFIKHDGFQCGYCTAGQICSATAMLKEAKA
+GWPSNVSSSLDGKGALSNEEISERMSGNLCRCSAYTGIVNAIREAAGETGQ
+>tr|B7RPB4|B7RPB4_9RHOB
+MGTQAVPLSSLGLTAKGEANPLITGLAVDSRQVKEGYLFAALPGSTVHGAEFIQYALRMG
+AAAVLTDATGAAMAADLMASAGVAVIVTDAPREALARSAALWFGAQPATMIAVTGTNGKT
+SVSTFVRQIWIEMGLSAVNLGTTGVEGAWTAPLAHTTPEPITLHRALAEAAANGITHAAM
+EASSHGLDQRRLDGVTLKAAGFTNFTQDHLDYHATFDAYFDAKAGLFSRVLPEDGTAVIN
+IDDPKGIDMAAIARARGCEVLSVGRDGGDLHLTGQRFDATGQDLRFDWRGKTYQKRLNLI
+GGFQADNVLLACGLVIACGAKPADVFDTIPHLTTVRGRMQLAATRDNGGAVFVDYAHTPD
+AISTALKAMRPHVMGRLVAIVGAGGDRDTTKRPLMGQAAAAHADLVFVTDDNPRSEDPAT
+IRAAVIAGAPDATEVGDRAEAILRGIDAIGPGDALLIAGKGHETGQTIGDDVLPFDDVEQ
+ASVAVAALDGRLT
+>tr|B7RNG1|B7RNG1_9RHOB
+MADYPTSFDKEALLQCAAGELFGPGNAQLPAPPMLMMDRITDVSADGGAHGKGHITAEFD
+ITPDLWFFDCHFPGNPIMPGCLGLDGLWQLTGFNLGWRGWQGRGYALGVGEVKLTGMVRP
+DRKMLTYKIDFTKAIQTRRLTMGVADGIVEADGEVIYIVKDMKVALSES
+>tr|B7RMK3|B7RMK3_9RHOB
+MNYGLSEENLMIADTVRSFVEKEIYPHETLVEQTGEVPKEIADEIKRKTIELGFYACNFP
+QSVGCAGLNHLEFALVERELGRGSMALNHFFGRPQNILMACEGDQIDRYLMPAVRGERMD
+ALAMTEPGAGSDVRGMKCMARRDGGDWVVNGTKHFISGADHADFIIVFIATGEDETPKGP
+KKRITAFLVDRGTPGFTIRDGYKSVSHRGYKNMILEFDDCRLPDAQVLGEVDGGFEVMNT
+WLYATRITVATMSVGRARRVFDYALDYAATREQFGQKIGKFQGVSFQLADMITEIDAADL
+LTLAAADRLDKGLPANREIASAKLYASEMLARVTDATLQLHGGMGLMDDYPIERFWRDAR
+VERIWDGTSEIQRHIISRDMLRALGA
+>tr|B7RGV9|B7RGV9_9RHOB
+MPTPNPDALHFLQTRRSRPAKTLTTPVPDRDTLLPLLTAAARTPDHGKLEPWRFIVIDKP
+AMGRLADIAETRGAALGLDAEQIQKGRGQFDQGHLAVVVVEVQKPSPKIPPLEQTYSAGA
+VCLALLNAALAAGWGANWLSGWPSHDRGFMTEGFGLADNERIAGIIHIGTETAAPPERPR
+PDIAALTTWL
+>tr|B7RHD9|B7RHD9_9RHOB
+MPYWWNTPRTRTGRAPEIRDATVFGRLDEEIDAVDAHNIGWHIVPGITSASAAVAAIGQS
+LTKRNRNASVRFLTGHDMKGFADHDWAALARPGEVAAIYMGKKSVRFIQGRLIMHGADRA
+TPVTVIENASRPEQRILETTLDRLPADLTEAEMNGPALTFYGLALRAAALASTEILQEEM
+A
+>tr|B7RKR5|B7RKR5_9RHOB
+MIRLPALAAFFSLVMPATWALAADNEAVTHFTLENGMEVVVVEDHRAPSVQQMVWYRAGS
+ADEPKGSSGVAHFLEHLLFKATDKMESGEFSATVAKNGGRDNAFTSYDYTAYFQRVAADR
+LELMMQMESDRMKNIRLTPENIATERDVIIEERNQRTENDPSALFREQMSAAQYLNHRYG
+TPVIGWMHEMRELDLQDALDFYSLYYSPNNAILVVSGDVEPDDVRVLAEQYYGVIPANPD
+LPERLRTQEPPQTAERRMTFRDPRVAQEYVSRSYLAQERDPGDQKTAAALTLLAEILGGG
+TTSYFAEKLQFDAPVATYAAAFYSGLSLDDTTFNVVVVPQPDVTLQEAEDAMDAAMASFM
+KDGVDPEQLERIKNQIRAEQIYSRDSADSVANRYGSALAIGLTVQDVQEWPDVLEAVTAE
+DIMQAARDVFNREASVTGWLMREEVTQ
+>tr|B7RKT6|B7RKT6_9RHOB
+MKKERQMADDYIVKDINLAAYGRKELDIAETEMPGLMALREEYGESKPLKGARIVGSLHM
+TIQTAVLIETLVELGADVRWASCNIFSTQDHAAAAIAAGGTPVFAIKGQTLTEHWDYLDK
+SFMFEDGPNLILDDGGDATLYILLGARAEAGEDVIAVPTSEEEEAIKAQIKKRMEASPGW
+FTKMRDQIKGVSEETTTGVHRLYELVKQGQLPFPAINVNDSVTKSKFDNKYGCKESLVDG
+IRRATDTMMAGKVAVVMGYGDVGKGSAASLAGAGARVKVTEVDPICALQAAMDGFEVVLL
+EDVLATADIFITTTGNKDVIRIEHMREMKDMAIVGNIGHFDNEIQVASLKNHKWTNIKEQ
+VDMIEMPSGNRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLAQIELWENNGEYKNEVY
+ILPKHLDEKVARLHLDRIGVKLTKLSNEQAAYIGVSADGPFKPEHYRY
+>tr|B7RJL8|B7RJL8_9RHOB
+MTSGFLTTDVLRSLAFKVLLFLSLALLPIGLISVFQTREIAEQNLENSELSLLAITEQAS
+SQESSMIQEAFGAAEALASVVSLIKRDSRSCSAFLREYQKSSNLYTVVSYVMANGEINCI
+SSGNITDISDLDVFKSMLRNKSRMAHILNDAPITKEPILVVTVPLYIESELRGFVNMSIP
+ERVFQKVTEPDLTNPPQAMLTFNSEGEILTSENGREIAREELPSASELKWYISQSGRVFR
+ATNNKGQPRVYAVMPIVSDAVYAMSVWSEDSPVLQTGRTTTLALFLPAVMWLASLIVAFW
+ALNRLAIRHIRKLGRQMRHFALNRTLPRAPLGGVVPTEIVAMEQAFVGMAESILRDEALL
+EDSLRQKNILLKEVHHRVKNNLQLISSIMNMQIRQAATPDAKRVLQRLQDRILGLATVHK
+SLYQDDNLTRVDGGALVNEIVNQLLSVGLPSGTGVEVVQEYEAIQLDPDDAAPLTLLVSE
+ALTNALKYVDVSGNAQGKVEIRLVYTKPEMALLVVKNTIGMVDPEVGTGLGMRLINAFSR
+QLNGQVEVTENDKDFSIRVEFPVPLRQKEIYDY
+>tr|B7RFU3|B7RFU3_9RHOB
+MMPSAVKVLTLAQLTLGQDWRLSLCHDRPAHLLMWITRGQGLLQLDGQRRGVGAHNAIFV
+PAKALFSLEIGRQGYGQAIVIPDGAPLRLPQMPRHLRIRDVQAQTDLTSLIEAAQREQQA
+QRPLVQDALEGHAALISVWLRRQCLLDEHVPDKRSAGARLSARFCQMVADRYATGAPMAV
+YAQTLGVTPTHLTRAVKASTGKTAADILTERVVHAARDLLMTTSFSAQNIARHLGFGSAA
+YFTRFMQQHTGYPPSKLRPPKEELART
+>tr|B7RLE9|B7RLE9_9RHOB
+MSLQQHRLSNGFRIVTEHMPGLASASIGVWVTAGARHETPQQNGIAHFLEHMAFKGTAKR
+TSLQIAEAIEDVGGYINAYTSREVTAYYVRVLENDVSLGLDVIADILRNPVLDNNEIEVE
+RGVILQEIGQALDTPDDVIFDWLQEEAYPNQPLGRTILGPSEAVSRFSREDLSGFIDQHY
+GPDQMILAAAGAVDHDEIVRLAEQLFGDMPKKPMFDVDAAKFTGGELRQVKTLEQAHFAL
+GFESPGYRADDIYVAQIYASALGGGMSSRLFQEVRENRGLCYTIFAQAGAYADTGMMTIY
+AGTSGEQLPELAGITIDEMKRAASDMSPAEVARARAQMKAGLLMGLESPSNRAERLARLI
+QIWDRVPPLEETIAQIDAVTTGDVRDFAQTMAATAPAALALYGPVENAPTLAELQERRAA
+>tr|B7RPG4|B7RPG4_9RHOB
+MDAFADNWKLIQARALSVVKYMINFLGIAPDRLAAKGFGRYHPVPEGDSESARAHNRLIK
+LKLTEM
+>tr|B7RPZ1|B7RPZ1_9RHOB
+MRFATFTADGRQQYGAVADGGLIALSDDFPLWKTLRDVIDNYGFFALEAAATGRAVSQPD
+GSFRWDIPVPNPEKIICVGVNFPDRNAEYKDGQDAPPNMSLFIRFPRSFVGHETPLTRPP
+ETPQLDYEGEIAIVIGKGGRRIAQADALDHIAAITLCNEGTLRDWVRHAKFNVTQGKNWD
+GSGAMGPWLVPFTDPAQIADVGLEARVNGDVRQKDRTGRMLFPVARQIEYISTFTTLVPG
+DIIVTGTPTGAGARFDPPIWLVPGDVIEVEAQGIGTLRNGVIDE
+>tr|B7RRN1|B7RRN1_9RHOB
+MTSSNRMIGVDVGGTFTDIFVLDEATGTAQVAKVPTSRPDQSGGFLSGISARVDDLSTVS
+VVVHGTTAGTNALLERKGAKIGVITTMGLRDVLEMRRRDRPRTWGLRGNFAPVVDRALRL
+EVPERTLADGTIRTPVDLDAVRAAAQTLIERDCLAVAILFANSYANAENERLAVEAVREI
+WPNAHVSASSEILPEIREFERFSTTALNAYLQPEVSGYLARLETALKEGGFAGEFMIVQS
+NGGVMDVDTAAKLPVRTALSGPAAGVIAAGYIAQAAGYPDVITGDMGGTSFDVSLIAKGQ
+SMLSPQTSIDFGMVVRSPMIEITTIGAGGGSIAWVDKGGLLNIGPESAGSTPGPVAYGQG
+NTRPTVTDANVVLGRIDPDNPIGGKLDRLDVDAAKAAILEHVGKPLNLDALQAAEAILRV
+ANSRMAGALRLVSIERGFDPKRFAFMPFGGGGALHSGAMMDEVGLARSIVPRYPGVTSAM
+GCVIADMRQDFVQTINAALTGIDLTALTKFMQTHVDSGLATLDAARTHFDGRDTEFTLDM
+AYLGQTHTVSVPLPVTVTDGKVTPPTEDDITTAFDSAYRATYGRLLENGTRRVINLRTAI
+TGRRPRFDLATLAPQGGSVEAAFKGTREVHFAGAWHETKLYHRLELPVGAEIPGPAILEQ
+PDTTVLIEPGLVGKVDAYGNTLIERATT
+>tr|B7RNK8|B7RNK8_9RHOB
+MPVLVMKFGGTSVATLDRIRRAAKRVGVEVSKGYDVIVIVSAMSGKTNELVGWVGETSPL
+YDAREYDAVVSSGENVTAGLMALTLQEMDVPARSWQGWQVPVKTTSAHSSARIEEIPSDN
+IMAKFAEGMRVAVVAGFQGVSPEGRITTLGRGGSDTTAVAFAAAFDAERCDIYTDVDGVY
+TTDPRITSKARKLDKIAFEEMLELASLGAKVLQTRSVELAMRYRVKLRVLSSFEEQSDEA
+GTLVCAEEEIMESNVVSGVAFSRDEAKMTLVSVADRPGIAAAIFTALSEGGVNVDMIVQN
+ISEEGRTDMTWSCPVDQIKRAEKAMDEAKAAGSVNFHELIADTDVAKVSVVGIGMRSHTG
+VAAKMFQVLSNEGINIKVITTSEIKISVLIDRKYMELAVQALHDAFDLDKAA
+>tr|B7RQ94|B7RQ94_9RHOB
+MQGIQQFVPLILIFAIMYFLLIRPQQKKVKEHKAMVDGLRRGDQVVTQGGLIGKVVKVKD
+DGELEVELAENVKVRVVQSTIATVVSKTEPAK
+>tr|B7RQE6|B7RQE6_9RHOB
+MNIDRLGPPLDQRADLSAQIAASIRDAIIIGALIVDERLPSEAELSLRFDVSRATVREAL
+KRLAAQSLIRTQRGATGGAFVNRISFEAAQAQQITTSTLLLSMNDVSFETACEARYALER
+ACAPLSADRRHLHHLTVMRDEIERQADAGLTDEAFCASDVAFHRALVDGACNPVLSYQLA
+GAVEAMQPLMNMITFTARSRDAIITLHRTIADAIEAQDGQAASAGLTALEAETQTLARRV
+FARRSGSPTPL
+>tr|B7RPD0|B7RPD0_9RHOB
+MEYTVQTTIKTAISFSGAGLHSGQPATVTIRPASAHHGIWFSRSDVHVGDRLIPARWDAV
+NRSPLCTKLENASGLSVSTVEHLMAALAGCGIHNALIEIDGGEVPILDGSAAPFVRGIMQ
+RGVRALAAPVRVFEVLKSVTVTDGDASATIAPSHTMVIDFEIDFVDAAIGRQKKTLVMNN
+GSFARELCDSRTFCRQADVLSMQANGLALGGNPGENAVVFDGDKVLSPGGLRHADEPVRH
+KMLDALGDLALAGAPLIGHYTGVRAGHSLTNTLLRALFATPGAVRMVECDMEMSARLPGY
+GLVWDEIPAVA
+>tr|B7RP69|B7RP69_9RHOB
+MNILILGSGGREHSLAWAVLQNPKCDKLIVAPGNAGIAAIADCATFDINNGAAVVEFVAE
+NNIDFVIIGPEAPLAAGVADDLRAAGVLTFGPSKAAAALEASKAFTKEICDAANAPTAAY
+GHFTDAASARAYLADHPAPIVIKADGLAAGKGVIIAETDAEALAAVDTMFDGTFGDAGAE
+VVIEEFMDGEEASFFVLCDGDTVLPIGTAQDHKRVGDGDTGPNTGGMGAYSPAPVLTDAI
+AERALDEIIRPTMAEMAERGMPYQGVLYAGLMIKDGAPRLVEYNARFGDPECQVLMMRLG
+AQLFDLLHATAEGRLSEMRVNWAEDHAVTVVMAALGYPGDYAKGSVIGGLDDLPEDSRNM
+VFHAGTAQQDGQIVANGGRVLNVTARGESLAEAQARAYRMVDAIDWPGGFFRRDIGWRAL
+D
+>tr|B7RNN1|B7RNN1_9RHOB
+MFKRTVFNEDHEMFRDQVRRFVAEEITPHHAQWEKDGRVSRDAWRKAGENGLLCAAMPEE
+YGGAGADFLFSMVVMEELAAAGAMGPGFSLHSDIVAPYILHYGSDAVKQEWLPKMAAGEA
+IGAIAMTEPAAGSDVQGIKTTAIRDGDDYVINGQKVFITNGGNCDIVVLACKTDPALGAK
+GTSLLLVPADTPGFRKGSQLLEKIGWKAQDTAELFFDNVRVPATNLLGAEGRGFYQLMEQ
+LPQERLLQCVRATAALEAALQWTIDHVTERKAFGKTIADFQNTRFKLAEIKAQSVLMRVF
+TDKCLELHVAGELDAVDAAMGKMLTSETLCRCLDDLLQMFGGYGYMWEYPIARAWADARV
+GRIAGGTGEVMREIIGRSVLGGRK
+>tr|B7RPJ4|B7RPJ4_9RHOB
+MDKGYCEIFEVGPRDGLQNEAREIPVTEKIALVDLLSRAGFSRIEVASFVSQKWVPQMAG
+SGAVLDGIKRAEGVRYAALTPNLRGYADAVSSKADEIAIFASASEGFSQKNINASIEEAF
+ERFAPILEEARHVDMPVRGYVSCVVKCPYDGVIAPDQVAKVADRLFSMGCYEVSLGDTIG
+AGTPDTIAKMLLAVRDVVPVGRLAGHYHDTNGRAMDNIDTSLSMGVRVFDAAVGGLGGCP
+FAPGAAGNVATEAVNAHLTALGYVTGLDQALIEEAAAMAQQMRAG
+>tr|B7RSA6|B7RSA6_9RHOB
+MKEPRMSDEHNAQDHNDRLRRAVADCAAGRAHGIATILDIEGRQLLGVAYRILRRQDLAE
+EALQDAMVQVWRKAGTQGAGSGSARGWIYAILRNRCLNILRDGKRLSILAPADLAMMQEA
+RQEIVPTEDWEILAGRGKLRDCMGGLDGQSRQVILLAYVAGFSHGEIAARQNMPLGTAKS
+LIRRGLSALKECLS
+>tr|B7RHG5|B7RHG5_9RHOB
+MAHVVITGGGTGVGAEIAQAVAATGASVTIMGRREGPLKDQGLPYQVCDVTDADAVAAAF
+KAAVAEHGPVTGVIANAGAAHSAPFEKMSAADLTDMMAVNVTGVFNVWQAAVAGMKAEKA
+GRLIVVASTAGLKGYPYVAGYVAAKHGVVGLTRALALELARTRITVNAICPGFIDTPLLE
+KSVENITATTGKTAEEARAILKRASPQNRFVGTDEVAAAALYLLSDAAASVNGHTLTLSG
+GEI
+>tr|B7RIA8|B7RIA8_9RHOB
+MRQSFWPVVTVVGLLLVIWYAAAVWLNSDWTYDKATRSGETVTATSLVADTWAQKKPKLP
+APHQVAAEIWETTVLKNITSKRSLVYHSWVTLSATLLGFGLGTVLGTLLAVGIVFNRTMD
+MSVMPWVIASQTIPILAIAPMIIVVLNAVGISGLLPKAMISMYLSFFPVVVGMVKGLRSP
+DQMQLDQMRTWHASASQTFWRLRLPASMPYFFTSLKIAMAASLVGAIVGELPTGAVAGLG
+ARLLAGSYYGQTIQIWSALIMAAALAAALVGMIGLVQRVTLKRMGMAQ
+>tr|B7RGY5|B7RGY5_9RHOB
+MSYLEYSVKHAPTGLAKILHLNWPLTILLATVSGVGFLMLYSVAGGTFTPWAEPQMKRFA
+LGLGLMIAVGMVPIWMWRNLAGVAYLGTVTLLIGVELFGAVGMGAQRWIELGSFRLQPSE
+LMKITLVVMLAAYYDWLPSKKTSRPLWVLIPVVLIMVPTFLVLKQPDLGTALLLLAAGGG
+LMFLAGVHWAYFAVVITAGFGLVTAVFQSRGTPWQMLKDYQFRRIDTFIDPSTDPLGAGY
+HITQSKIALGSGGWTGRGFMQGTQSRLNFLPEKHTDFIFTTLAEEFGFVGGVSLLTLYAL
+IIVFCVASALINKDRFSSLLTLGVALNFFLFFAVNMSMVMGMAPVVGVPLPLVSYGGSAM
+LVLLLAFGLVQSAHVHRPR
+>tr|B7RHK0|B7RHK0_9RHOB
+MTLVRISRRIALLGGISALGGCSAVSALNSAAIPLDTFDLLPAAGTTTGRRTSHSLLVAL
+PQAPAAIASDRIVVKPDPASITYLPGARWSDEAPVLLQSLLIRSIASTGRIGYVGRSEGG
+PVPDTALLVRMDAFEVNITPDGTMLAVVDIALTVLNDSNQNVIANRSFSQSAAADSDAPG
+AVVAAFQAALNGLLPAMADWAMRYA
+>tr|B7RNJ2|B7RNJ2_9RHOB
+MEKRVTFRGWLLPMLLIAPQVVISAVFFFYPAGQAIWQSLFIPDPFGLSSQYVGLGNFEY
+LLGDRFYRASFVTTAVFSILVTLCSMIPALFLAVMADRLIKGSGVYRTMLIWPYAVAPAI
+AGVLWLFMFNTRVGVVSWYLGTLGYDWNHVLNGGEAMGLVVVASSWGRISYNFLFFFAAL
+QAVPRSVIEAAAIDGARFWRRFWTIVLPLLSPTTFFLLVVNVVYAFFETFGVIHTITSGG
+PQQSTTILVYKVFSDGFVGQDLGSSSAQSVILLFVVGVLTIVQFKFVEKRVHY
+>tr|B7RQ42|B7RQ42_9RHOB
+MTDTIKLDIMSDPICPWCYIGKAHLDRALASEPDHPFVIEWHPFQLNPDMPEGGMDRRAY
+LEGKFGGKEAAVKAYAPVVEHAKKAGLTINFEDMKRTPNTLNAHRLIHWAGIEGRQTAAV
+SALFKSYFVEARDIGDLEVLSDIADGIGLDAALISRLLASDADIQSIRDRDAHSREMGIN
+SVPTFIVAGQHAVPGAQPPELWTQVLAELRAKG
+>tr|B7RR38|B7RR38_9RHOB
+MASLNELRQIFFQECEEQLEELTDGLSELELLQPDHEPDPETINRMFRAVHSIKGGAASF
+SLDAITQYAHAFETILDELRSGKLTMSREIIPVFYRGADRLTDFIALGEAGSVPDVSELA
+NDISEITALSSDSHQIGEVEFGDDCIAEFVPVALSFAADGADLSDTEHGNYSIKFKPTKA
+LYSNGHEPVQLFRELETLGSVDISFSLGGAAAWDVNDPDISWHILLSSGCLESEVYEVFE
+FAHDLAEIQIEILKTEKPIFESSERPAPALSQLEINAGGLANAEEKETSPEKAKSAQKAT
+VRVDLELVDELINMVGELVITQAVMTQSITESELSVSRQLATTLDDFKTLTRTIQERVMG
+IRAQSVKPLFQRMGRIVRETAQIAGKEVRFITEGEDTEVDRTVIERLVDPLTHILRNAID
+HGLEHTDRRIEVGKVPNGSVKLSAAHRSGRVVIEVNDDGGGVNREKVLSSAIEKGLVSET
+AKLGDAEIDRLLFLPGFSTASAITNLSGRGVGMDVVNSEIRRLGGRVSIISTPGQGTTIS
+ISLPLTLAVLDGMVVNVANQTMVVPISAITETIRPEASKVHLIGPEARMISVRDLMLPII
+DLGTIFGFEPERKLGQDGILLIVEDDKGDQFALAVDHILDQRQVVIKSLESNYGHVPYVA
+AATILGDGQIALIVDLDEITNEIPVAASVSPKPVRVSA
+>tr|B7RFN9|B7RFN9_9RHOB
+MDGTVLVADDDRTIRTVLTQALTRAGCKVHATSSLTTLMRWVGEGKGDVVISDVVMPDGN
+GLEMLPKIAQDRPGLPVIVISAQNTIMTAIKAAEAEAYDYLPKPFDLPDLMKRTARALER
+NGAPRRVVETNDAGDRDDLPLVGRTPVMQALYRVVARVMNTDLPVLIWGESGTGKSLIGK
+AIHDFSDRRNLPFVTVNSAELQDIEGPARVLARVRGGTLLIDEIGDFSEEIQARIARMMD
+TPGDHAPRFLATSQSDLAAAMKAGTLRRDLYYRLSGATLHVPALRDRVEDIGLLAAHFLE
+RSETGNTAPRALSEGAAKVFANYQWPGNVRQLEHAMRQLALTSRAPEITQTEAEQVLGAQ
+PDPEPLRAQANTEKLGASVERHLRRYFDQHGSMLPPPGLYARILREIEAPLIEIALSATA
+GNQAKCADLLGINRNTLRKKITDLDIEVTRGRKMM
+>tr|B7RJD0|B7RJD0_9RHOB
+MKSILITGASSGIGRATAELFLQTGWRVGLIARRADRLNAMAAEHPNAVALPADVTDPKA
+MRQAFEDFGHIDVLFNNAGLFGVSAPIDEVPLEVWTEVMQVNINGMFITAQLAFEQMRKQ
+ADGGRIINNGSLSAYVPRPGSVCYTMSKHAVTGLTRTLSLDGRPFNIACGQIDIGNAESE
+LVADLKAANPEMDTMDVAHAASSVLHMAQMPAQANVQFMTVMATKMPYIGRG
+>tr|B7RJU2|B7RJU2_9RHOB
+MQDTPDYAGVWRAEVVTLFPELFPGVLGASLTGRALQEGTWQLRTHDLRGYGVGKHRNVD
+DTPAGGGAGMVMRADVVGPAIEAAMAGAAGRWPILYMSPRGRRFDQAMAQDLASCAGVTM
+LCGRFEGVDERVIQHYGITEVSLGDFVMTGGELAAQAMIDATVRLLPGVLGNADSTVEES
+HASGLLEHPQYTRPAEWNGHEIPPVLMSGNHGEIAKWRQTQAERLTEQRRPDMWAKYTPK
+PKGKS
+>tr|B7RPG9|B7RPG9_9RHOB
+MQFPINDTTPVTYPGPPAAQADVVVIGGGVIGVCTALFLARDGHRVTLVEKGRIAGEQSS
+RNWGWIRQQGRDPDEMPIMADAQRLWQELAGQTNVDIGLRQGGITYFANKPSQMKDYEDW
+LPHARANGVDTRILSAAQVTAMFPGMATKPVGALLTESDLRAEPWVAVPALAAIAAREGV
+QIVENCAVRSLDIAAGRVAGVVTEAGRISAPEVVLAGGAWSSLFLRNHGVSMPQLSVREN
+VAATEPLPEIYAGAAADRKVAFRRRADGGYTLAPPGAPELFVGPDAVRAFPHYLTQLKSD
+PFGQVLHPFAPKGFPDAWGTKRRWTSDEKTPFEAMRILNPAPNMGKINRLLRNFAKMFPD
+LPPVRLKAAWAGMIDTMPDIVPVVDRVASLPGLTIGTGMSGHGFGIGPGMGRVLAALATG
+GHVAHDLTRFRLSRFSDGSPMVLGPNV
+>tr|B7RG99|B7RG99_9RHOB
+MNMKSVLLATALTVGATSAFAAEKYVLDASHSQIVFTYNHLGFSTTTSMFSGFDGEIMMD
+AEAPANSSVSVSFPVMDMITGWQPRTDHFMSEDFFGAAEGDMVTFTSTGIEVTGDETGLI
+TGDLTMNGVTKSVVLDAKLNSMGEHPMANKPWAGFDATTSVLRSDFNLGKFAPFVSDEVQ
+IAISIEAMKAE
+>tr|B7RJ34|B7RJ34_9RHOB
+MSVALRLPTGALFEGRATRMTAVAQDGAIGILPNHIDFVTALVPSVMTLQMADGSEAIFG
+IDEGLLVKKGHRVVAAVMRGVRGDDLGTLHDAVRTKFVEMDEDERQARSAFSRLEADVVR
+RFAELRKPHP
+>tr|B7RKR8|B7RKR8_9RHOB
+MPDLHPVSRALLSVSDKTGLVELGQALASHGVELLSTGGTAKALRDAGLDVKDVAEVTGF
+PEMMDGRVKTLHPVVHGGLLALRDNDAHVAAMEQHGIGAIDLVVVNLYPFEETVAKGAAY
+DEVIENIDIGGPAMIRSAAKNHGFVNVIVDVEDYATVIAELQENDGQTSYALRQRLAQTA
+YARTAAYDTAVSTWMAAQVGGTPRRRTVGGTLAQTLRYGENPHQSAAFYTDGSNRPGVAT
+ASQHQGKELSYNNINDTDAAYELVSEFDPAQGPACAIIKHANPCGVARGTSMVDAYTRAF
+DCDRTSAFGGIIALNQELDAETADAISAIFTEVVIAPGATAEAMEIFGKKKNLRLLTTNV
+LADPTAAALAFRQVSGGYLVQDKDVGRITLDDLKVVTKRQPTDQELSDMMFAWTVAKHVK
+SNAIIYVKDGATVGVGAGQMSRVDSTRIAARKAQDMAEAMGLPAPLTQGSVVASDAFFPF
+ADGLITAAEAGATALIQPGGSMRDDEVIAAADEAGLAMVFTGMRHFRH
+>tr|B7RK39|B7RK39_9RHOB
+MGFRQSTRRDHMNLQEAFASYERVRHRLPASTSGAPCTRLPDLDALADKMDIFLLDAFGV
+LNIGDTAIPGVPDRIAGLQNAGKRVMIVSNAAGFPHARLMEKYKNLGYHFAPEDVITSRK
+ATLHALHNAPPLKWGLMATQSLGRGDIEPFDMVYLAEDAADYDAADAFVLLGSAVWTETR
+QALLEASLRHAPRPVYVGNPDIVAPREDGFSIEPGHFAHRLADQTGIEPQFFGKPFGNIF
+DLAFAQIDKVDLGRTVMVGDSLHTDILGGQAAGVKTALIAGYGFFSGHDVDGPIQTSGIQ
+PDYILQRP
+>tr|B7RI64|B7RI64_9RHOB
+MSPDHDAGMMSDPSDAQRSLTAAALAFAQKNLDPGTAEREKGDPVKDPAWRALWQKCGDF
+GLFGLGVPEEYGGAGHDVLTTIMALEAIGQGCRDNGLTLAINGHIWTVLYPILAFGSDAQ
+KKKYVPGLCDGSLVGAHGLTERETGSDAMKMTTTARERDGGFVLNGAKAFVGMGPACDLA
+IVFAKTDPDKGAWGVSAFLVETSDAGFIRGAADEKMGLRTVPLGPLGFDNCWIPKDRLLG
+PVGAGMSIFQHTMEWERCFIFSSHVGAMARQLKDCTAYARSRETFGVPIIDHQSVSNRLA
+DMRLRLETSRLLLYRAASLKDKKRPAPLEAAMAKLHISEAFAASSLDAVRIFGGRGYLSA
+DGVERDLRDATAGLIYSGTSDIQRQIIARLLD
+>tr|B7RKW8|B7RKW8_9RHOB
+MTEDWRQGGFGLYIHWPFCEAKCPYCDFNSHVSRTIDQQAWRDAYLLELERGAAETKGRV
+LNAVFFGGGTPSLMDPEIVADVIAAIYRLWPVANDLEITLEANPGSVEAGRFKGFRDAGV
+NRVSMGIQALNDTDLRKLGRIHNTTEALAAFDIARSTFDRVSFDLIYGRQNQTLSEWKTE
+LKQALSLAIDHISLYQLTIEQGTAFGDRYAVGKLRGLPDDDLGADMYAATQEICDQMGMP
+SYEVSNHARDSAQSRHNLIYWRYGDYLGIGPGAHGRLTKGGDRFATECFSNPKRWLDAAV
+SGSTEKPREQLAKSDQASEFLMMGLRLKEGVDLKRYEALAGSPLSAKKIIRMQDIGMISI
+SGDRLTVTNQGFMVLNAILEELLSD
+>tr|B7RRB4|B7RRB4_9RHOB
+MAVTLRFQSTGSIPGNGDPINMQGPSLTIGRGNENDLVLPDPNRELSKRHCAIEDHNGNV
+IVVDFSTNGTFLNYGKLALGSTPTPLNDGDILSVGPYEILVNIASNSQDDMIAAPVEDVQ
+VSHGMASGAPSDFDLMNAPGDGGDFLDDLLGGREVAPKGPAVVNRDEPDDDGLLPPLGDD
+DDLLGPAADPYAGQGASMGAHNAASQDYFSAARPSSGGSAIPDDWDDDFLSPIAPEPRAD
+SGGSTGNPFASPTPATRIPDEPTLQPAPAPVQPAVQAKAPVAVASGVVGVAPARGFLAAL
+GADDVEVPDAELPATMVRMGKVLRVMIEGMREILMTRTSFKSEFRIERTMIQIGGNNPLK
+FSISPEQAIEAMVRPKAQGYLDAIDATTEALKDIKAHEVAVITGMEAALKGILKKLDPAV
+LETKINNESNLSGMLKSRKARYWEIYETMYSEISDQAENDFQELFAKEFARAYQDQLDKL
+K
+>tr|B7RGD8|B7RGD8_9RHOB
+MKPCLQSVVLGSLLPLAANCSKVRSGPSLPSSEALRPRHCKGRKSAHGRPWCAAQHGASV
+CYALNGRLCNSGKEPSQTQLRSGFRPTCMFSLGGRVTRHGSDLGWDRPSGWSRRSMQGQD
+LRAAPPQVRFEPKLPTFCGALNVRIQKNAVRERTVFLLTIEIVFDTLCLLLRYIDEFRFS
+GANTIDVDMLRKIDPAEIVASLRESLLVLTEDLVVEYANDQFFATFEVDRDETIGATLSS
+LGNGQWNISTLIGELERILDHGQKVEDVEVDHVFQHIGRRVMRLNARKTIRPGNGSRRIL
+LAIDDVTAESDAAAALEREQLLSKGIVDTVREPLLVLDDRLEIISASRAFYSTFHVDPAE
+TVGRRLDDLGNGQWAIPALLELLTEVVPRNTTVEDFEVKHVFSKIGERSILLNARKIHRE
+GNHTHTLLLAMQDITERRRLEAERAAALHYAERLLEELNHRVMNSLSMIGGIIALEARNL
+SDEACRAAFMRMRARVDAVGSLYKTLSRAGAVDQVNTRQYLTALVEDLLVSSGQAKPPEL
+QVDVVELPLSTRVAVPLGLIVNELATNSLKYAFSEHGGGQLSVLLKVENKTLQLSISDNG
+AGIDANARVDSGLGQKLTEAFTTQLDGQMTIESDRTGTRHMLVFPHISAESRSW
+>tr|B7RJB9|B7RJB9_9RHOB
+MATGTHIKTYFEGAWHDGDVSVIKAADHGAWLGTTVFDGARMFDGLSPDLEAHCARINRS
+AKALMITPTVETADMVEMVREGLKGYDRSAAIYIRPMYWALAGDELGIVPLQDATGFAIS
+LEQIPMAAPEAATTLTRTRFRRPVLEDNVVNAKAGCLYPNNARMMAEARSKGFGNALVAD
+AIGNVAETASANVFMVKDGEVFTPVPNGTFLAGITRARHMANMRADGIKVHETVLSFDDF
+HGADEVFLSGNMMKVTPVKAFDDTQYQLGPITRRVREMYWDWAASERA
+>tr|B7RS25|B7RS25_9RHOB
+MIEKDVAMEEHSRLSGKKGTSIADWVRLLKSLRDFSGRDLWLMVGVVTVASFVEGFGLAL
+LLPLGNLLFSANGQVQGVSGSVLDALAYVGLTDTAHQLLALALIFLAWMGVRALFLISRD
+RRLAVLTNGYVDYLRLQMFASLAYAPWPVIRRMRKSDLMNALTTEISRISVAIQFLSKLF
+ITITLSGAYLIAGFLINPMIGLILLGLSSAAVVLGHFWSLGSGGMGKSLTRKNRKSMFVT
+TNFLDGLKTSKVFGAEDVFIGEFESFITQTRNLKTSFDVRQSKFRHGIELSGALAGLLLM
+LVGFQLLGIAGAELLVLGVIIVRLAPSLLLSLSSFQSLVFAMPAFSTALTDRQLIEQQSQ
+AGPQARSDQKKQDVPEPAEVTLKGVVVTIEEQGARHDLLKIDDICLPATGLVHLRGASGA
+GKSTFAELLAGLYVATSGEVRAGNLTLTLETLFEWQLRISFAPQEAFLFHGSIRENLCWP
+NLKRDDADLWEALKVVHADDFVMSLPNGLSQPIRDGGNRLSGGERQRLCLARALLRSSAI
+LIVDEGMSAVESDLEAKILTNLRRIARTKLVVCVSHSPTILTMADHVIEVSDGVAVMLPH
+HSSRA
+>tr|B7RIE2|B7RIE2_9RHOB
+MFAVIHWHCVIRVACLGSTGCGGAQKSGQGKGGYLSHLRLPKMCSGSAYNLRPEPCMISI
+MSRLQQFFDDAPVRSFAAGETLFRQEDPVRSVYLVRSGQIALQRPMTDGTLLTLHIASDG
+MLLAEASLFAEAYHCDAVVREPAVISYVARSTFLTALVDRPELALALIKANAREIQSQRA
+RIEILRLRRVADRLDAWLTLYGPPEKGEWTKVANAIGVSQPALYRELALRRKQ
+>tr|B7RLF2|B7RLF2_9RHOB
+MAHEKNHDYHILAPSTWPLLSSLAGSIMLAGIVFWMHDVTPFVFFGGFIAVLYCMFGWWS
+EVVAESKIGDHTPVVRIGLRYGFILFIMSEVMFFVAWFWTFFKEALYPMSDFPGSEYVQP
+DIIPVDAFHLPLINTLILLLSGCAVTWAHHALVHENNRKDLITGLALAIGLGLMFTAFQA
+FEYYELIAHYDWQFGGDLFFSSFFMATGFHGFHVIIGTIFLTVCLIRALKGHFTPEQHVG
+FEAAAWYWHFVDVVWLFLFFAVYMWGI
+>tr|B7RRQ4|B7RRQ4_9RHOB
+MNNLYATADSRLPAYVRLRDTLTARIGAGDWTADQPIPSEARLAAEFDVSVGTVRKAVDG
+LVGEGLLERRQGSGTYVRAPSFNATLFRFFAIREPDGARPSIPSSNMVLRSLSTAPKEAA
+QALGTENTIKIVRLRSLSDQPVLSEEIYIPASRFAGFEQLPEAAFGPLLYPLYFERFGVL
+VKRAIDEVSFGRASEVIAKRLRINIDDPLAVIRRTAFDIEGKAIEWRIASGSAAGFRYRS
+EIN
+>tr|B7RGJ2|B7RGJ2_9RHOB
+MKRQELSVTVADTNTVLLPPTVWQRLRKRKLALFGMALILVTLFGAIFAPVLTPFDPNDQ
+MFDGLTMQGAPMAPGTQFALGTDLLGRDLLTRILYGARTSLIIGLVANGVALIIGTFVGV
+TAGYFGGILGSILMRFTDLMMAFPALLLAICLAAIFQPSLWIVAMVIATVNWVQTARVLY
+AETASLSQREFIAAERTLGAGNLRILFRHILPHLTPTIIVWGTLGISTTVLLEATLSFLG
+VGVQPPTPSWGNIIFENQTYFQAAPWLVFFPGLAIVTLALAFNLVGDALRDVLDPTQRGR
+G
+>tr|B7RGQ0|B7RGQ0_9RHOB
+MSQFLPLLVTDIHHTIRDAVVLTLKPEDADAFAFTQGQYLTFKQDFDGTELRRNYSICAG
+LDDGVLQVGIKRVDGGAFSTFANETLKVGDTLHAMPPQGKFFTGLEPDTAKNYLGFAGGS
+GITPVLSILKTVLKREPQSTFTLVYANRAVNTIMFREELEDLKNRFMGRLSVIHMLESGQ
+DIDLFTGRVDQAKCDALFKTWIDIKTIDTAFICGPEPMMLAIAESLKTHGLEPDQIKFEL
+FSESQQGRLAKQEMAKRSEDQALTQVIVTIDGAAHSFTMTKGQSVLEAALENNLDAPFAC
+KAGVCSTCMCKVTEGEVEMLSNHALEDYEVERGYRLSCQSYPISDKLVIDYDHH
+>tr|B7RIT2|B7RIT2_9RHOB
+MPDQSDGAAFFAENCVACHGRTGKGDGPLAAGLAKAPRDLTLLARDNDGRFPETKTLAYI
+YGDPLDNHMTRVMPEFGEDMALDLVPVDLDGQMTPTPRVLAGLLLYLESIQR
+>tr|B7RSF4|B7RSF4_9RHOB
+MTKRKNHSPDFKAKVALEAIREEMTMAELSKKYGVHPTQIGTWKRAAIKNMAAGFSKRGG
+DPAQVDDAAIDKLHSKIGQLVVERDFLKRAWDR
+>tr|B7RSB0|B7RSB0_9RHOB
+MLAVNDDCCRENLCLMADTSISGARVARELDALVRIYGKPAGIVSDNGTEFTSRAILKWA
+GDNDVDWHYIDPGKPQQNGFIESFNGSLRDELLNEEIFDTLDDARRKLALWRYDYNNVRP
+HSSLENQTPAEARRALEQFEGSAHGALAQTDDEEYETQTRKLSL
+>tr|B7RHY9|B7RHY9_9RHOB
+MVMKRHSHFNKILGTQEADFLQGTDQRDLILGLKGRDDIRGGDGDDIILAGPGDDGFVAG
+GPGDDFVSGGSGNDYIFGSDGNDVMMGGQGNDTVGGDAGDDTVSGGSGDDIIDGGFGNDL
+LRGGAGQDQFVFAIDADQGIDTIRDFKSSSDILNFTINFTDIVDTGAPGYADDIDAISTI
+TDNGRGSDVILTLDSGTTIIFSKAGTGEIASVADLVDDPLTQIISDFDVFLI
+>tr|B7RPR6|B7RPR6_9RHOB
+MTYNIAILGASGYTGAELIRLIANHSSMQIKALGANSKAGQTMAEVFPHLRHLDLPTLVL
+IEDIDFSDIDLCFCALPHKTSQEVIAALPKDLKIVDLSADFRLRDPEEYTKWYGNPHAAL
+EQQKEAVYGLTEFYREQIKSARLVAGTGCNAATGQFALRPLIEKGVIDLDDIILDLKCAV
+SGAGRSLKENLLHAELSEGYHAYSVGGTHRHLGEFDQEFSAIAGRPVKVQFTPHLIPANR
+GILATVYVKGDAQVIHDTFMAAYADEPFIEVLPMGEAPSTRHIRGSNFCHIGVVADRIEG
+RTIVIAALDNLTKGSSGQALQNANLMLGIKETEGLMMAPLFP
+>tr|B7RRH6|B7RRH6_9RHOB
+MGGIPAMTQLRIAEIFGPTIQGEGALIGEPTVFVRTGGCDYRCSWCDSLHAVDSAFRHTW
+APMTTEAVWADVVRLSKGRPLTVSLSGGNPAIQDFTALIARGQAQGYRFACETQGSIAKP
+WFADLDTLVLSPKPPSSGEVVDWDAFDACLSAAKGAKATANIVMKIVIFDDADYDWARAA
+ADRYPALPLYLQPGNPEVDPDVPVDPQRLSDRLLWLVDKTMNDGWFAPRVLPQLHVLLWG
+NKRGV
+>tr|B7RLV4|B7RLV4_9RHOB
+MFLTGVTDMVVAETSQGQVLYTTSRFGGGDLLAYRIGGDGGLTLLDSRAMSGEAQAGSTN
+KLTLVDNELFLTGVQNAALTKIVLGADGRFGAVSAVTGAPMPSQMLTTETVVVNGQSFLY
+GITRGSDEVGVWRVNDDDSVTLVEGGMAGTSSEAAFTGMSVAQVGGKPFLLVSSAADDAL
+ICMSLNSSGLPRQVSRISAADGVGIATPTATAFVELGGEAFGILASSDSGTLSVVRLGAD
+GSMVLTDHVMDTQDTRFDGVHVMETASHSGRAYLAVAGADDGVSVFELFDGGRLSHLTTI
+ADGVGTTLDGVSALSLTVQNGFLHLAVASSVESGLSVFTVDISARVAATTGTDSADVLAG
+DASDDHLLGGAGNDTLSGNGGDDILSDGAGSDLLIGGAGRDRFIFGGDGAVDTIGDFDIT
+QDSIDLSGWAFLRSNSQITYQGTSDGAQLSFGSETLIIKTANGQSLSADQIASLELVGQS
+RFMPDWVLPDQPDTDTAPGVPMPLNLIGTPGSDTLTGDNADDIIEGRAANDVLSGMGGDD
+TIFGEDGNDAAYGNAGSDVIEGGRGDDAIWGGIGWDTLRGNDGHDKLVGGDGFDAIGGGD
+GNDVLSGNNGADRLYGDNGNDKLVGGLNSDSLWGGADQDTLEGSAGSDNLYGGAGNDQLF
+GNAGADILEGEAGHDRLSGGINNDTIDGGSGDDTLQGDNGSDVLKGGDGDDLLKGNAGHD
+DLDGGRGNDVLSGGFGVDRFTYGSGQDRIIDFQNEIDTLVLDSALWGGGALSVSQLATYV
+TQTTGGSISLDFGNGNILELSGVETVNVLNGDVEFV
+>tr|B7RMS3|B7RMS3_9RHOB
+MNSITTSSASLAGSAAVFPAQEFHARAAALQARIRQEGADALLLTGPENIFWVSGRQTAG
+YFAFQALLVPADGTPLLLVRQLEETGARADVWFDDIHTWQDGQDPAIELARLLRGQGISR
+LATERAGWFVSPQMMGSLEAALGGIALLDGSGWVERLRMVKSSRELQAIRHAAQYAEAGM
+AAALAACRAGASENEIAAAMTAATITAGSEAMAMEPLISSGPRSGIPHATWRRRQLGAGD
+GIFLELAASHDRYHAALMRAAWVGTPPDAAQRMMDTSLRALDAALAALRPGEPCAAPHEV
+VQQIIDAAGFTAAFRKRSGYSMGAAFAPDWGEGAILSLFTGVATPLEPGMVFHLPITLRD
+YGRFTVGVSETVIVTETGAEPLSTLPRQITLC
+>tr|B7RQ62|B7RQ62_9RHOB
+MKDFAQANAGKFQDPKRTAKGEDRATVSLSNPQTLWFNTGTLCNIECVNCYIASSPTNDA
+LIYITADEVRDYLGQITTRNWPVTEVAFTGGEPFMNPQMIEITEASLSAGYDVLILTNAM
+RPMMRKPVLAGLKRLNAAYPGKLTLRISVDHYRPDLHDAERGEGALAKTVTGMNWLRDNG
+IRMAVAGRSVFGASDEDSRTGYGAFFAEHGFDIDANDPSMTVLFPEMDETVEVPEITTAC
+WGILNKSPDAVMCSSSRMVVKRKGAEKPAVLACTLLPYSPEFELGNSLEEAEKDVALNHP
+HCAKFCVLGGASCSA
+>tr|B7RJR2|B7RJR2_9RHOB
+MSFSIKGKNVIVTGAANGIGLAIARQFADKGANVMCADTDEKALAEEWGSAKEDGNVRFF
+AGDLRERLTIANLVSATIDAFDAVDVLVNASRHFQPTDALDSDDISVETLWQENVMTALQ
+LTQQVAKRMIKQAEDKAEGSVGSIINLSSTTSRHTRPELMAYSMAAAALEQMTRSMALTL
+APHRIRVNAVAFGSVMSGSLKASVADNREWRDDIRSHTPLGRIASPSELTDTIQYLAADS
+SSFMTGEVIVVDGGRSLLDAVDAPAH
+>tr|B7RMS2|B7RMS2_9RHOB
+MTGVTLAETAYERLRDDIVTGRIPGETVLSERALTETLGVSRTPLRAAISRLETEGVVDR
+LNNGVVLVRSVTIEQLLQIVQLRQTLERAAAGRAATYGATDELMQIRARMQQIVDGAPVS
+FDDFWQADGAFHRAVAEAARLALLPAIIAEQRGIARRCSLTRTYDTFVDQAREHVQIIDA
+IATHDSDTAAALMAGHFDHVRARFLGTFSEN
+>tr|B7RR72|B7RR72_9RHOB
+MPVLVSRLTPIMLAPIMLAPVALAPLALALCIFTFGSAAPAVSQTADRPLYLNEQGLPTL
+APLLAEVTPAVVNISVESHQMADLNPLFNDPFFRRFFDLQPMPQQPQMRRQMSAGSGVIF
+DADEGYVLTNHHVVENGDRIIVTLKDRRQVDAELIGSDPGTDIALLKIEAEGLTALDLGD
+SDQLQVGDYVLAIGNPFGLGQTVTSGIVSALGRSGLNIEGYEDFIQTDASINPGNSGGAL
+VTLDGRLVGLNTAIIAPSGGNVGIGFAVPANMVDAVVSQLIEFGEVQRGQLGVTIQDFTP
+DLAEALGVDSGVGAVITQVEPDSPAEAAGLLPGDLIVSVDSRPVAGSADLRSQIGLKRLG
+RKIKLGIIRDGEALTVEATLRKGPQLETSGSDQGLGWLSGAELRDLQEGDPLYGDVSGVV
+VAQVDIDSRAARSGLEAGDVILAVNRVPVASVEDVREQLASVDQALALTIQRGSSRMFLL
+IR
+>tr|B7RRM0|B7RRM0_9RHOB
+MKLLVTGGAGFIGSAVVRLAVAQGHGVVNLDALTYAACLENVASVADSPLYAFEQADICD
+RAALDRIFADHQPDAVMHLAAESHVDRSIDGPGAFIQTNITGTYTLLEAARAYWQGAGKP
+DRFRFHHISTDEVFGSLGPTGQFTEDTPYDPRSPYSASKAASDHLVRAWGETYGLPIIMT
+NCSNNYGPFHFPEKLVPVVILKALAGQPIPVYGDGANVRDWLFVEDHADALLTVLTKGKL
+GRSYNIGGENEVSNLELVKMICALLDDRHPEGAPHADLITFVTDRPGHDQRYAIDPARIR
+SELNWKPSVTVEEGLARTVDWYLENEDWWRALQNRSGVGERLGKA
+>tr|B7RL85|B7RL85_9RHOB
+MGGRGIKGQKSRSGVAINGYEGGQMPLYQRLPKRGFTKPNRKEYAVVNLGLIQKFIDAKK
+IDGSAAITEDALISSGLVRRKLDGIRVLAKGDFSAKIDLQVTGASKSAVEAVEKAGGKLT
+VTAPAAATAEA
+>tr|B7RMB4|B7RMB4_9RHOB
+MGTLTGKIAWVTGAGGGIGEASAKALAASGAHVVLSGRRLEELDRVVAEISAAGGKAEAA
+QLDVVDAQATQAIADDIIARLGGIDIFMANAGINVPNRSVAAITPTDFAKVVDINLNGVM
+NGVLAVLPQMRTKGAGTLILTSSWAGRHPSRLTGPAYTASKHAVVALSHSINQDEGVNGI
+RCTALMPGEVATPIMQSRPKPPSDEDLGKMLQADDLGAMVRYIAEAPAHVCINEVLISPT
+WNRSFVGVAELGGMKL
+>tr|B7RNH2|B7RNH2_9RHOB
+MTFLSNGHLRFAVAVGAGAFAALGQAPYDMPVLMLLGLICAIDMFRRSAKRWQAAAIGWG
+FGFGYFLHGWTWLVSPFMVDPERYAWMAPFALVLMCGGLALFWGLAFAAARWMSPRIWPL
+VFCLTAAELLRGYLFTGFPWGMFSQGLVNTWPGQGLAFTGPYGLTLVFIAAACCVVHLFA
+RISTGYIVGAGFTALLAALLVVPFSRPDAPLGEATIRMVQPNAAQKDKWDTFMIPKFFER
+QLAFTRAAPASGAAAPDLILWAETAIPWPLDIADGALSQISFAAAGTPVVLGVQRRDGLQ
+FYNSAVLLGPVGEVLQTYDKHHLVPFGEYMPFGDFLSNFGIRSLASQFGNGYSSGSGAAL
+MDLGPLGQALPLICYEAVFARDVNAAPARPAFLMQLTNDAWFGKGQGPLQHLAQARMRAI
+EQGLPMARVANTGVSAMIDPWGRVTQSLGLNEAGFLDARLPLPRAPTLYSRWGELPVLAV
+LLIGLALCIMRRPKYLEFDPGGTDR
+>tr|B7RNI0|B7RNI0_9RHOB
+MIRSELIQKIADDNPHLYQRDVERIVNTIFEEITSAMSAGDRVELRGFGAFSVKKRDSRV
+GRNPRTGETVHVEEKHVPFFKTGKLLRDRLNGNS
+>tr|B7RR06|B7RR06_9RHOB
+MSEDAILIWGAGAIGGILGAYFARAGHPVHMVDIVEDHVTAMRDGGLRIEGPVEEFTQVL
+PADTPDTLSGKFRRVILAVKAHHTDAALTMLLPHLAEDGYVVSAQNGLNERLISAKIGAD
+RTLGCFVNFGADWLEPGRILYGNRAAVALGELDGTDSTRLREMHALFSLVEPNAVATDNI
+WGYLWGKMGYGSLLFGTALTPASMSDAMDPAATRPVFAKLGAEVMQLAAAEGVSPLGFNG
+FDPDAFLAGDAVGIAAAIDAMVAHNRKTAKTHSGIYRDLAIRKRKTEVDPQIGLLVEIGR
+SHGIATPALAMLCDLIHDIEDGKREQSTDLLDLMVPVCS
+>tr|B7RFS5|B7RFS5_9RHOB
+MAEHIAVQDLSKDQAAEELRRLSGLLAQANRQYYAEDAPQISDAEYDCLKRRNTEIETRF
+PSLKRADSPTEQIGATPSEGFSKVRHEVPMLSLGNAFEDEDVVEFDGRIRKYLGLPSDAD
+LDFTAEPKIDGLSLSLRYENGLLVQAATRGDGAVGENVTANARTIQTIPKKLDSAPDVIE
+IRGEVYMSHDDFDALNARQGERGGKLFANPRNAAAGSLRQLDAEITRSRPLKFFAYAWGA
+LSEPLGQTQSEAIKRMENMGFCTNPLTELCSSVAEMIDQYRKIEAQRATLGYDIDGVVYK
+VNDLALQERLGFRSTTPRWAIAHKFPAELAWTTLEDITIQVGRTGALSPVARLKPVTVGG
+VVVSNATLHNEDYIKGVDSKGNQIRDGKDIRVGDWVQVYRAGDVIPKIADVDLSRRPSDS
+VPFDFPTICPECGSDAIREEGDAVRRCMGGLVCPAQAVEKLKHFVSRAAFDIDGLGAKQV
+EQFYTDGWIAEPADIFTLQARYGSGVQQLKNREGWGEKSATKLFQAIDDKRTIPLARLIF
+ALGIRHVGEAASNLIALHYGTWSAFITAMENAREASGPAWDDLISVDGVGQVMAQSLVST
+FAQEAERASIDRLVAELSIQDATRPDTQGSPVDGKTVVFTGTLEKMTRAEAKARAERLGA
+KVSGSVSAKTDILVAGPGAGSKAKKAAELGIEILDEDAWLDLIAGA
+>tr|B7RFZ3|B7RFZ3_9RHOB
+MKKPSEIRTVFGNNLRILSKDFASITGLAHDLGINRTQFNRYLSGESFPRPDILAIICDF
+FKVDARILLEPLSDDANGAADQLDPFLSEFFMNSGGILSEQTFPSGFYRFSRRSFIDPDL
+FVIGLVYVSRNGGNTYLKGYETKKAMCIQHLPTQPEYREFRGLMMQQEEGIAFMASRKNT
+MTASFNYLNRVTSFHNNFWLGYTTRTVPEGAGALRTTRLVYEHIPQTTSAVLDAARNTGF
+YKVDQLEPFHRRLLRPEEPFT
+>tr|B7RL69|B7RL69_9RHOB
+MSKDKNPRRVADNEARAKLRMLRTSPQKLNLVAAMIRGKKVDKALTDLTFSKKRIAADVK
+KCLQSAIANGENNHNLDVDELVVAEAYVGKNLIMKRGRPRARGRFGKIIKPFSEITIVVR
+QVEEQA
+>tr|B7RRH2|B7RRH2_9RHOB
+MTKPFKKILITGAAGRLGTELRHGLAPLAETLRLSDRVACENLSSHEEMVVCDLSDEKAT
+MALLEGCDAVVHMGGAPLERPWQEILDSNIRGSYHIFEGARKHGVKRVIYASSVHAIGYH
+KIDDGIKGDATGRPDSLYGVSKCFVEALASLYYDKFGIESSCVRIFSSFPEPADRRMLWS
+WLSFGDCIRMISACLTAPHLGATVMAGMSDNTVKPVDTSSAGHVGYVPQDSAESFRASVE
+AKTEPADPNAASTRCIGGWFVDLGHQDDAAAA
+>tr|B7RLZ2|B7RLZ2_9RHOB
+MSDDKQIPEEYGADSIKVLKGLEAVRKRPGMYIGDTDDGSGLHHMVYEVVDNGIDEALAG
+HADAVNVTIHEDNSVSVSDNGRGIPVGIHQGEGVSAAEVIMTQLHAGGKFDSNSYKVSGG
+LHGVGVSVVNALSDWLELRIWREGKEHVARFEGGFTTEHLTVVGPTDRTGTEVRFMASTS
+TFSNLEYSFETLEKRLRELAFLNSGVRIILTDERPAEPLRSELFYEGGVKEFVKYLDRSK
+TSVMPEPIFITGEKDDIGVEVAMWWNDSYHENVLPFTNNIPQRDGGTHMAGFRGALTRTI
+NNYAQSSGIAKKEKVTFTGDDAREGLTCVLSVKVPDPKFSSQTKDKLVSSEVRPAVEGLV
+SEKLAEWFEENPTEARIVVGKIIEAAHAREAARKARDLTRRKTAMDVNFLAGKLKDCSEK
+DPSKTEVFLVEGDSAGGSAQTGRDRQTQAILPLKGKILNVERARFDRMLGSQEIGNLVMA
+LGTGIGRDEFNIDKLRYHKIVIMTDADVDGAHIRTLLLTFFYRQMPQLIENGHLYIAQPP
+LYKVSRGKSEVYLKDQAAMEDYLIQQGIDGAVLRQGNGEEITGQDLARVVDLARQMRRVL
+EAFPTHYPRHILEQAAIAGAFVPGVVDADLQGVADKVAERLNLIALEWERGWQGRITQDH
+GVRLARILRGVEEVRTLDGRMLRSGEAKRSGGFTQHLQDVYRMPAKLVRKDRSQMIYGPM
+DLLDAILAEGEKGLSLQRYKGLGEMNPDQLWETTLDPDARTLLQVRVEDMAEADDLFTKL
+MGDVVEPRREFIQQNALNVENLDF
+>tr|B7RG56|B7RG56_9RHOB
+MSTLKIGFIGLGNMGAPMAANLAKAGHKVTGFDVAGTTAEGVGVAMDMQSAVAGMDVVIT
+MLPNGSILRQVAAQAIPHMAAGTLFIDCSTVDVESAKNTSEAAENAGIMAIDAPVSGGIG
+GAAGGTLTFMAGGTEAAFAKAKPLFDIMGQKAVHCGDAGAGQAAKICNNMILGVTMIATC
+EAFALADKLGLDRQKMFDVVSTSSGYSWSMNAYCPAPGVGPTSPADNDYRPGFAAELMLK
+DLGLSQQAAEMANADTPMGELARALYAQFVEDEDGLGKDFSAMLPRFEKRNRG
+>tr|B7RN29|B7RN29_9RHOB
+MIKPVDKSGTHDVPGEVENSLRHAISPIEEIIEEARNGRMVILVDHEDRENEGDLYIPAE
+KCTPEAVNFMATYGRGLICLTLTSDRIAALELPQMARANSMRHETAFTVSIEAREGITTG
+ISAYDRAKTVADAINPNKGPQDLASPGHVFPLRARDGGVLVRAGHTEASVDVSRLAGFGP
+SGVICEIMQDNGHMAHLPELIEFGKKHGLKIGAISDLIAYRRRHDNLVRETMSQTVTSAF
+GGEWMMRVFTDQAEGIEHVVLTKGDITTPEPVLVRTHSLTLLSDVLGISSGPSGELNRAM
+EIVAEEGRGAVCLFRDPHVKLIRGEDTGTRTIKQTGLGAQILSSMGIHELILLTDHPRTR
+YVGLDDYDLNIVGTRPITTPE
+>tr|B7RHU7|B7RHU7_9RHOB
+MSDWIDTLPDSARAYLDGKRLDEVECIIPDLPGIARGKAVPATKFMRQEYFHLPDSIFYQ
+TITGEWGEAAGAEGFIEKDMILRPDMSTATAAPWTGDWTLQVIHDAYDRNGEVVEYSPRN
+VLKRVVELYRKQGWEPVVAPEMEFFLVARNLDPAHEIKPMMGRSGRPAAARQAYSMTAVD
+EFGPVIDDIYDFAEAQGFEIDGITQEGGAGQLEINLIHGDPVRLADEVFYFKRLIREAAL
+RHDCYATFMAKPIEDEPGSAMHMHHSVLDAKTGKNIFSGPEEEETDEFFHFIAGLQNHMP
+DALAVLAPYVNSYRRYVKDHAAPINLEWGRDNRTTGIRVPLSGPSSRRVENRLAGMDCNP
+YLGIAASLACGYLGLMEKKQPKPEFKGDAYVGEGDIPRVLGEALDLFEEATEMHKVLGPE
+FARVYAIVKRAEYDEFLQVISPWEREHLLMNV
+>tr|B7RH06|B7RH06_9RHOB
+MRCFFQRLSLCTLVSPRKPDRVFFMRLLISFAALFLSVIFLQLSSGGVGPLDVLSGIQLG
+FSNQEIGLLGSAHFVGFFIGCWWAPRLMGSVGHSRAFAAFTAAGSIGLMSHMLVLDPYAW
+ALMRVASGLCVAGCYTVVEAWLNAKVTNETRGRTMGAYRVVDMSGSLAAQMIIGVLSPAS
+YVSYNLLAILCCAALIPLTLTRLPQPETPAQPRLRPRLAVDRSPLAAAAVVIAALSSASF
+RMVGPIYGEEVGLTAGQIAWFLSAFVLGGALAQFPIGWLADKFDRRWVLIWLSGASIVSC
+AVTVMSAGLGTQAIFLAATLFGLTTFPIYSVAAAHAHDFATSEERIELSAALMFWFAVGA
+IFAPYLASVLIETYGPAALFTMISVGHGVLLIFGLTRMRARPTARKRTPYVYAPRTSFTI
+GRLMRRQRDRDGNHTP
+>tr|B7RKR3|B7RKR3_9RHOB
+MSVSEIYETMDYGSAPESAGDAFAWLVDQGSRFGHFIDGAFTEPRDDFESRNPANGDVLA
+NLTQASQEEVDAAVAAARKAQPKWAKLGGHGRARFLYAIARLLQKHSRLFAVLETLDNGK
+PIREARDVDVPLAQRHFYYHAGMAQLMESELPDVEALGVCGQIIPWNFPLLMLAWKVAPA
+LAMGNTVVLKPAEYTSITALLFADICREAGLPKGVVNIVTGDGAVGEMIVGAEVDKIAFT
+GSTAVGRHIREVTAGSGKALTLELGGKSPYIVFDDADLDSAVEGLVDAIWFNQGQVCCAG
+SRLLVHEPVADRFYDKLRARMAKLRVGNPLDKSIDMGAMVDDVQVQRVTKMVAANTGGEV
+FTAGEIPSEGCYYPPTLITGMNPADPLMQEEIFGPVLVATTFRTPDEAVQLANNTRYGLA
+ATIWSENINLALDIAPKLAAGVVWINGTNMMDAAAGFGGVRESGFGREGGWEGLAAYTKP
+KGSKKPLKDIAPMAGKGAPADPIDRTAKLYIGGKQTRPDGGYSAPVWGKSGGLLGHVSLA
+GRKDLRNAVEAAQAAKGWSKTTGHLRAQIMYYIAENLAARSKEFADRLDAMQGGKTGAKE
+VEASINRLFTYAAWADKYDGQVHGVPIRGAALAMKEPVGVICAICPAEAPLLGLVSCMAP
+AIAMGNRVILSASTPFPLSATDFIQILETSDVPAGVVNILTGSQADIAEPAARHMDVDAI
+WSFGAKDLGKIIEKGSAQNLKRTWVNNGLARDWTGPEGEGHTFLQAATQIKNIWIPYGE
+>tr|B7RRQ0|B7RRQ0_9RHOB
+MIENMGAGEMSEDRFFTYRLLDQLFPKSFKLKVFFVAFISTHIPLIALAVYIFLNSASEH
+SMLLPLMLVVASTVIASIVSIQLLRHLLGPLFACVRVIKDAQENNVYHALPEEYKDELGY
+LMEQLNKFMNLHRNLQVALEKADTANREKDNFVSVINHELRTPLTSLNGAIALALNDQIG
+ADGDRVRSLLEIAERSSSRLSKLVDNILLAQKIDIDALELDETVIDIGRVLKDSFEENKT
+FSSKCHLEVFDDSLKNPPFIIGDEFAVRQIIDNMVSNAIKFSEKGDTVRGKISEDHGKVR
+VSIIDSGEGIPDGMEGAVFGRFEQVKNKKQGSTQGTGLGLHISRKLAGKMSGNLSYKSEL
+GVGTEFYLEFEKADAQ
+>tr|B7RGN2|B7RGN2_9RHOB
+MTGILTPDATSPQTFTDAAAAVEQLIQLYGQATKFLTDHFQKAMDDRPPATRIRAFYPEI
+RFTTTSYAQVDSRLSFGHVSSPGTYAATITRPELFENYLIQQIGLLIENHGQPVTVGMSN
+TPIPVHFAVASDASITIPQDGAADFTLRDIFDVPDLSTTNDDIVNGTFKPVDGVGPLAPF
+TAQRVDYSLARLAHYTATDPDHFQCHVLFTNYQFYVTEFEEYARVMLRDPDSGYTSFVST
+GNVEIMNGDDPLPASVKTPQMPTYHLKRADGSGITLVNIGVGPSNAKTATDHIAVLRPHA
+WLMVGHCAGLRNTQQLGDFVLAHAYLREDHVLDDDLPIWVPIPALAEIQIALEDAVEQVT
+QLEGYELKRIMRTGTVATIDNRNWELRDQSGPVQRLSQSRAVALDMESATIAANGYRFRV
+PYGTLLCVSDKPLHGELKLPGMASDFYKTQVARHLMIGIRAMEQLRDMPLERLHSRKLRS
+FDETAFL
+>tr|B7RKT1|B7RKT1_9RHOB
+MTSPDTPADQTDGLGEIGLDNFAPYLMNRIMGRYNAALQEEMAKLGLTTPQMRSLAVLSE
+RDGILIRELAVYAVVQQSTLSRGLEALAQNGLILRVPDPDDSRATRIYLTDTGRAAYQRL
+WPHMSAAYQAMFSGVSKSEKTAFVGTLQKMLKNIRKHDF
+>tr|B7RG64|B7RG64_9RHOB
+MLEISQPAPDFTLPVTGGDAVTLSALQGKAVVLYFYPRDDTPGCTKESIGFSEHLDAFKD
+AGALVFGISRDTMAKHDKFTAKHDLTVPLLADVDGTVTESYGVWVEKNMYGKKSMGIERA
+TYLIDAQGNIANIWRKVKVPGHVEEVLEAVRAL
+>tr|B7RKM9|B7RKM9_9RHOB
+MTSRQTNPSRIDVKGPRDGLRLLAAAAVAIAGACALPMLAVLLAALVGGTDTVRHLIETV
+LLGYAGTTLLLVVFVAVGTFALGVGAAWLVTMTRFPGAKILEIALVLPLAFPAYVLAYAY
+THVLDHPGIVQATLRDMTGWGPRDYWFPEIRSLGGAALMLILVLYPYVYLLARAAFLQQS
+ATTFLAARALGSSAWVAFYKVSLPLARPAIAGGVLLAVMETIADFGTVAYFGVQTFATGI
+YTSWFSLFDRAGAAQLALCLLSFALLLAMLERVQRGKAKYHDPSRRAVAMPPLQLTGWRA
+AAALVACGLPVLLGAVLPVVILFSMGIGSEQDLLSPRYLGFIRNSAMLAGIAAALTVTAA
+VCVGFFQRLRPGTLSNAAAYVARLGYAVPGGVIAVGLLVPFAAFDNALDAWMRSTFDIST
+GLLVTGSIWLLVAAYMVRFLAAALGAYEGGQAMVHANMDSAARSLGETPVGTLRRVHLPI
+LSPSLLTALLIVFVDVMKELPATLIMRPFNYDTLAVQAYRLASDERLDGAAVPSLVIVAL
+GLLPVILICRQVGRQR
+>tr|B7RIH8|B7RIH8_9RHOB
+MTSAAKFEARLRQIGAERYHDKHPFHALLHSGGCTPDQVRAWVINRFYYQASIPMKDAAF
+MSRVADPALRRAWRSRIEDHDGTAENEGGIARWLRLADAVGLDRDYVASAQGVLPATRFA
+VDAYVRFVRDKTLLEAVAASLTELFAPKIHAARIEGLLANYAFADDSSLSYFRNRLNEAP
+KDVAFGLAWVLEHADTDEKQDAAAAALIFKTDVLWAQLDALHAAYVTPARIPPGAWQPDS
+YLSAVRA
+>tr|B7RNW3|B7RNW3_9RHOB
+MPRVARGPQDLLPQAEALKLSGLEFMQKIFDGTNPGPPIGQTMGYVIHDVSEGRAVFRGA
+PEFNVTNPLGTVHGGWYGTLLDSAMACAVQTKVPRGSIYTTLEYKINILRSIPLGMQIEC
+IGTIDHVGRSTGIAHGEIRGVEDGKLYATGSTTCIIMQIVK
+>tr|B7RQX6|B7RQX6_9RHOB
+MSILPPPALRHVTDLTVTLDPIRHMNTGRAGIRRIIPIVGGTAQGPAINGKILNVGADWQ
+TQFASGLTELDTRYAIETNDGATIEIQNYGYRHGPAEVLDALVRGEEVPHDAYYMRTHAR
+LETGDDRYAWVNHTLFVGHGARLNGLVQMSLFAID
+>tr|B7RRE3|B7RRE3_9RHOB
+MASKKVPLPERKRSYRFVLTPLADAMFQLLIFFMLSTSLTPYSLITLKTASAAAPDPNDD
+QTAGAGIDETKPAPPPRSDTVDVTLWTISNGSVRTAGQDYDITQLGSLADAIGSQDTPGQ
+VVLIVGDTARVQDVAQALEALEGANVAGVQITREGA
+>tr|B7RGG0|B7RGG0_9RHOB
+MKVALLLPTALASQEKIERIFAPGSQGEVTLVLRSTTDVDVLRPIIEAFVLQNPDIAVTY
+EQWGSNALFQNSLAACAGNAISASAVFSSGVHQMIDLVNRACASTYRSEQTTALPAARRW
+RDELWGITKEPAVMIYNTDLVPAKDVPKSRFALLDLMRRPTSIYRGKIATYNIEASGLGY
+LFAFMDSLEASTFGALLEGFSRTDAVATCCSWEIINGVSMGDYLIAYNVLGSYVDSATFE
+NIGVIHPQDYTLFLSRAYMIPKDAPEKEAAALLLDFMLSTRGQSLLKARNLFYADTNDTT
+LPESAERGISIEPTLLVAGDKHRREQFVDLWRSAFAPRDMAR
+>tr|B7RMY4|B7RMY4_9RHOB
+MLSLDLTGAQVLGQGGLDRRALSIAEGMIVDAPQKRAVDLGGYMILPGIVDVHGDGFERH
+LAPRRGAMKTLSEGLVAAEAELAANGITTAVLAQFVSWEGGLRGPEFAKQVFEAMRATAP
+GLVTDLRGQLRFETHMLDLHEQIPGLLADWGLSYIVFNDHLPHARLAEGRVPKRMVAQAL
+KAGRNPDAHLKLMQELHGQSADVPAALDALCATLAAQGVQMGSHDDTTADGRAAWRARGV
+MVAEFPETLAAAEAATAAGDLVVLGSPNVVRGGSHNGNVSAVDLIMMGVGAALASDYHYP
+SPRRAAFMLADSGVLPLADAWRLVSAGPAAVLGLADRGDLLPDMRADLVVLDAKTRRVAM
+TMAGGRVSYMSGDIALRFTA
+>tr|B7RKJ6|B7RKJ6_9RHOB
+MIRIHLLTPLALLALASPAAALEKAEVLGTYADIAAAKYEDSLITAQRLQTAVAALVSDP
+SADTLTAARSAWLAARVPYQQTEVYRFGNPIVDDWEGKVNSWPLDEGLIDYVDASYGGPS
+DENELAGLNVISSPTFTLSGTEIDASTITPAFLSDTLHEADGIEANVATGYHAIEFLLWG
+QDLNGHGDGAGNRPWTDYAKGDACTNANCDRRGAYLTAATDLLVSDLTWMTAQWADDGAA
+RAELTQDTNAGLAAILTGMGSLSYGEQAGERMRLGLMLNDPEEEHDCFSDNTHNSHYYDG
+LGIQSAYLGEYVRIDGTMVSGPSLADMVAETDADLNTEMQAKLSKTMMALGRIKTAAEAG
+FAYDQMLARGDAGGEALIMGGVDALIDQTRSIERVVTTLGLDQIAFEGSNSLDDPNAVFQ
+>tr|B7RJK5|B7RJK5_9RHOB
+MKDTVDPDISLPLTELIVCPQCDAVFHLKEPETGEKAVCQRCHTVLIAPRRQAGLKIIAI
+ALATFILIIGATFFPFLTIDAAGNKNSVSVFDSALAFSSGPMVLLALATAGLIMVVPLVR
+AMLTLYVLVPIVLDLPPARYAMQAFRFSQALQPWSMAEIFALGCAVALVKIADLATVGFG
+PAFWMFGGLVVLLVAQESFMCRWSVWNSLEHPKKS
+>tr|B7RKR0|B7RKR0_9RHOB
+MNRILMIGQTALAAVIFGQGPTGLHMHRAWAAAPFSHP
+>tr|B7RNB4|B7RNB4_9RHOB
+MAEITIRGAGIFGLSVAWACAQRGASVQVIDPNGPASGSSGGIVGALAPHVPENWNAKKA
+FQLDSLLMAEAFWRDVETAGGGVSGYARKGRLQPIADDAGLALAQRRAETAQALWQGNAT
+WQVVQATGAPWEPQSPSGRLIHDTLSALIHPRMACAALVQALRPKGVHVTPESPDRGAVL
+WATGVAGLEQMTAGHSRMVGNGVKGQAALLAHDARGLPQLFAGGVHVIPHGDGTVAIGST
+SERDYDTPDQTDAQLDAVIAAARAAVPALAQAQVIDRWAGVRPRSRSRAPMLGAWPGKPG
+HFIANGGFKIGFGMAPKVAQVMADLMLEGRDAIPDGFRVEDNF
+>tr|B7RR65|B7RR65_9RHOB
+MIPNVTSPWSITAGDFPEKGSLHDKILFLLGYAILAPSGHNSQPWLFRVSDSYLDVIADR
+TRALPVVDPQDRALEISCGAAIGLLEVATRRFGLKTDLEITPNADDPDLLARIRFASGSQ
+PSTEEIALFDAIPNRHTNRTAFSMDTLPATFTKGCTDIALETGIEIRVLAEIEDRVELAI
+LVAEGDRRQFDDPCFRRELAAWIHSKRLGSRDGMSGACLGMPDLLAGVDRLVIRTFDMGD
+GIAAADEAKILSGTPALLVFGSADTTPGWVNTGRALGRVTLLATSLGLATSYLNQPVEVD
+ALRPDVKFVAGLDSQPQILLRVGRSQATLAPTARRDVSEVIVQGG
+>tr|B7RIA2|B7RIA2_9RHOB
+MDDPPFPLEDELEVGGMLVVGVAALVAAGAGAKGVCGGSRVLTDDMDTIFLLR
+>tr|B7RLA1|B7RLA1_9RHOB
+MAEQAQALKVSDEVAISIEKMNKWYGTFHVLRDIDLTVYRGERIVIAGPSGSGKSTLIRC
+INALEEHQKGRIEVDGTVLSSDVKNIDKIRSEVGMCFQHFNLFPHLTILENCTLAPIWVR
+KTPKKQAEEIAMHFLEKVKIPDQADKYPGQLSGGQQQRVAIARSLCMRPRIMLFDEPTSA
+LDPEMIKEVLDTMVELAEEGMTMLCVTHEMGFARQVANRVIFMDEGQIVEQNEPEEFFNN
+PQSPRTKLFLSQILGH
+>tr|B7RM34|B7RM34_9RHOB
+MQIQFKIADEPDAFTAEKGRLLFAGETQFVKGVVAMDGLPPADRMEVCFAGRSNVGKSTL
+INALTGMKALARASNTPGRTQEINYFTAGEDHYLVDLPGYGYANAPLPIVEKWQRLLKQY
+LSGRQTLRRAFVLIDARHGVKKVDEEIMSLLDSSAVTFQCVLTKADKVKEVERAKILDQV
+RGALAKHPAAYPEIVVTSSEKGWGIPTLRAIIATLE
+>tr|B7RQL6|B7RQL6_9RHOB
+MTTSKPVLRLEDIVKTFPGVRALDGVSFSVMPGEVHALMGENGAGKSTLMKVLGGIHQPD
+SGAIYMGDDRVVMAGPLEAKAKGIVFIHQELSLAEELSVAENIYLGELPRKSLGRVDWAT
+LADRTNAILKKLNVGFDANTRVGDLSIANQQMVEIARALTVDAKAVIFDEPTASLTDAEK
+VVLFDVISDLKSDGVGIIYISHRMEEIFKITDRITVLRDGQYQGTVNTADSTEESVTQMM
+IGRTLDLSRSTATHELGDVALEVRGLSCGKLYQNVSFNVRRGEVVGFYGLVGAGRTEIAE
+TLFGLRNPSAGQIMLDGEEVRIHSPADAIARGISLVPEDRKGQGLVLGMNCRDNMTLPQI
+DDLKTGPFVAEVPRSRSSTSIAINXXXXXXXXXXSPRYTSCCANLQHKVMRSWSSAQRCP
+K
+>tr|B7RHA0|B7RHA0_9RHOB
+MSIEAVVPPGRDVRIAKGQGALEAKREDWAATHEIYKLDADGPYVHPPDRFNVHFEVEVA
+QKSIGRKMNLREISTCTVEEGKIAREEFFMMPK
+>tr|B7RR48|B7RR48_9RHOB
+MTTRRKFLKGAAIAGPATLAAPSILHAQEPIRWRFQTYAGSALGEEVTKPAIDAINAAAQ
+GELEIELFYADQIVPTGELFQALQRGTIDGVHSDDDSMASPTPVRSFGGYFPLATKHALD
+VPVLFNQYGLADIWRDEYAKVGVHWLSAAGQDPCNFNTVKPITSLSDMDGLKLYTFPTAG
+RFLSQFGVVPVNIPYEDAEVAVQTGELDGMAWSGITEDYTVGWADVTNYFCTNNISGAWI
+GSFFVNAERWADLPDHLKQIVNSAIEASHTYRNQWYWGGEARLRASGEKLELTSIPQEEW
+KTVEEAAVKFWDEMAQEGETAAKIVQIFRDYNNVISKAGPPYTFG
+>tr|B7RIV4|B7RIV4_9RHOB
+MSKSITLLAAFGLIAAVSACAPKQQEEYVVVAPEPISVEPVYTGKYK
+>tr|B7RSK4|B7RSK4_9RHOB
+MKYAKLAQTRLVFQTGFGMRSTMNDVRLLNQSAWGAFAAYDAVAMGALS
+>tr|B7RHJ9|B7RHJ9_9RHOB
+MSKSPESAASVIIIEDNILIAQEVVELLQPAGFRPIGQFQTYVSALKSLDELSPAFCVLD
+LDLGGGMHSGFGPGEEGRRILSVLSHINIPTVVYSAFTRMQHQLERIHKDMVAVDKIEPA
+ERVIDALCQLRKARP
+>tr|B7RIE5|B7RIE5_9RHOB
+MTGDRVLPKTGTMDMPRFVTLVFRLRLPLLLLLGTFVIVAILYLSGNVTRDLRLLNSASS
+DNVQWSL
+>tr|B7RIZ4|B7RIZ4_9RHOB
+MGRLFLFIVLLTLLVVIVFALTTLVARSMDVVQQMLRPADGQTKEGLMAPTPFQKITYAA
+LLVLLFGVATGWLGGL
+>tr|B7RJJ1|B7RJJ1_9RHOB
+MSVLIVIPARYASTRYPAKPLALLKGSGGTSRSLIERSWLAACEVQGVDRVVVATDDDRI
+KDAAEAFGAEVVMTSVECANGTERCAQAHEVLGGGYDIVVNLQGDAPLTPHWFVESLVQG
+LKSDPNAGIATPVLRCDGAILNSLLADRKAGRVGGTTSVFATDHKALYFSKEVIPFTSKT
+YAEDEMTPVFHHVGVYAYRPDALAAYPAWPVGPLEQLEGLEQLRFMENGHTVLCVEVDAK
+DRQFWELNNPEDVLKIEAMMAQMGLE
+>tr|B7RMP2|B7RMP2_9RHOB
+MKKVMLSLTIAAFSAACARTDHMGSTPTFSEPMQSAEHNAMVYEALPIRLAPVRLVDRSS
+LWSGTRNSLLGDRRAMQRGDIMTVVIEINENAEISNQTDRSRSGSESLSVPNLLGIPQRL
+DEKLPDGASSADLVGLSSSSNSSGNGSVKRKENLTLRVAATVVDVLPNGVLSISGTQELR
+VNFELRELLVTGFVRSEDISRQNEITYDKIASARVSYGGRGQISDMQQPRIGQQVLDAVL
+PF
+>tr|B7RJ77|B7RJ77_9RHOB
+MVEPILKGRGLVKRYGRVTALDHCDFDLMPGEILAVIGDNGAGKSSLIKAVSGAVIPDAG
+DVFLEGKKVKFTSPIDARNVGIETVYQTLAMSPALSIADNMFMGRELRKPGFRGKFLRQL
+DRKRMEDTARAKLNELGLMTIQNINQAVETLSGGQRQGVAVARAAAFGSKVIILDEPTAA
+LGVKESRRVLELIQDVRSRGIPIILISHNMPHVFEVADRIHVHRLGRRLCVIKPGEHTMS
+DAVAFMTGAAEPPVMAPA
+>tr|B7RRS6|B7RRS6_9RHOB
+MSITLPSERKPDGFQNPSPSMDKIPSESHRFDALFSDSLIAYNHAKEANLLYSAEELIAS
+GTWQKYEQRAAALARSHQRNDPFAAFLSHDRFNTWSNANTRQSARSALVRIASQKVRESV
+PAYWRELFSITLPAAERTKIIKALNGAVDAEAMERMRSARQPLNREEWECLTRAIAFLVA
+VPPDPMHCAVRKSLPKDEGKPKKQVSSAIIALRALGRHERGKQKKSPDYEWRNQFWKTGQ
+TDACLSTRHRIIIATLMLIGCRPVEFSARLGVTVDIATEEGILVLTFTVKGAKTALERAP
+EVSGKGQGTRTIRLVCKTEEACWLHDYISRSGTPRLEIKEATNPRSPSGMWLSRAEQERR
+LTVSIDKYIKRVGKRAFPKQTNSVTPYLFRHALAADMQADESFSDEAITATLGHQSTRTA
+RRYGGSNRGRRTVSVRSEQIIQVDASSPIRGRQRDCIYDARCSVPPFGGSDLG
+>tr|B7RFR0|B7RFR0_9RHOB
+MDLPFDGAISAHFENDAPKVTRQAIKRAEKDDILNDSYPHSERMGRKQYDKEMALLQIEL
+VKLQSWVRDSGTRIAMVFEGRDAAGKGGTIGRFRENLNPRGARVVALPKPTETEAGQWYF
+QRYIQHLPSSGEMVFFDRSWYNRGVVEPVFGFCTDAQREHFFAQVQPFEEMLVDDGIHLF
+KFWLNVGRGEQLRRMLARESDPLKQWKLSMIDVKGLAKWDEYSTAISETLTRSNSAAAPW
+TIIRSDDKRRARLNAIRTVLHEFDYARKNEKAIGALDAQICGGPDIWDA
+>tr|B7RH89|B7RH89_9RHOB
+MAASNQDQEEFWTSNAGPTWVSHEGPLDLFLGPVLDQVLERSAISTGQHVLDIGCGTGQS
+TLAAGNRVGPTGHVLGLDISSTMIARANERVASLPQVALALADAAEHLFEPAFFDHVISR
+FGVMFFADPEAAFRNIARALKPGGKVTLAAWGQIQRNPWFTLPAAIAKAELGAPPKSDPD
+EPGPFAFRDIDKVCSMLVAAGFTDVGGVAQDMVFALPGGMAEVAKLSLKVGPAAGTIKHF
+SADQAAQDRIEAAMADAFEGLGSAGIPAEINFFTATKS
+>tr|B7RHS8|B7RHS8_9RHOB
+MNADRPLIGIALMLGFCIVAPIGDAVAKLLGASVPLAEVVFIRFAVQLIVLLPLVWATHR
+PWRMDRTTLLLTFLRTVLHIIGIAAMFTALTHLPLADAIAIVFVMPFFMLVLGKYFLSEE
+VGSRRLLACLVGFAGTLLVIQPSFTQVGWPALLPVFVAANLSVFMLVTRKIAKQTDPISL
+QAISGIMAVVLMVPLLWFGPRTGIAALEVTAPDSIQWLLLLSIGLLGTVAHLLMTWSLRY
+APSATLAPMQYLEIPFATVLGLLIFGDLPNALASVGIGITIAAGLFVILREGAIQRRQGA
+TAIVQPAE
+>tr|B7RS42|B7RS42_9RHOB
+MASSVLIVDRVPHPVFNGVTRYMEETAARAALATDDLEIAVLSWGLRMRPDLWKRLSNTR
+RALPARLVQFNRQYLYPMAERRCHADLLHFPAHDVPLEWLGTRRKCLFSVHGAAAQAAPQ
+WDTDPNRAARLRSSIAQANADHHFFVTFSQFAKNEIIEHYQIAPERIAVIPHGVDHQQFR
+IIDAAQVTEFRRIKGLAKPYLLYVGPCAPRKNVMRMIEAFASMKRRGVLTHDFVIAGRKH
+PNEKDVAHLVERAGISQNVRFLGPLPNEQLPLLYNGASAFAFVSLYEGFGLPVLEAMSCG
+TPVLTSANSATREIAKDASLLVADPTDVDEIAAGMARLLEYSAEKLSEICDAGIRHAAQF
+TWEASAQRHCTLYKRLVDDASTLQSAIATRGSSTEGSG
+>tr|B7RGA9|B7RGA9_9RHOB
+MRHLLSILSGGLFGIGLYLSGMTNTDKVQGFLDFFGSWDPTLAFVMGGAILPMAGAWALT
+RGRKPLIGGDFPERPEAKFDRKLIVGAILFGMGWGLVGLCPGPALASLGFGGVGGLVFLA
+AMLLGMLAAPKARLMLDRA
+>tr|B7RJZ8|B7RJZ8_9RHOB
+MDDQLKHMTGQVAKGTMTRREFVGRAAALGVTAAVANSMLANNAQAAAHEAPIRGGSLKI
+GSSGGESTNTLDPALTASEVPLDNLRHLYETLVEVDPSGSVEPRMAESYEASADAKTWAF
+KIRKGIQFHNGKDMTPEDVLMTMQRHSDENSQSGALGIMRGISDMKVDGDNFIVELEVGN
+ADLPYLMADYHLMIQPGGGIDNPGAGIGTGPYTLEVDEPGVRHGFTRNENYWDADNRGFT
+DYNEVLVLNDATARTAALQSGQVNMINRVDPKVAALLDRAPNLSVKSVSGRGHYVFIAHI
+DTAPFDNNDLRLALKYAINREEMVDKILRGYGSIGNDMPINGSYPLFDESIPQREHSIEM
+AKEHYAKSGHDGSPIILRVADGAFPGAVDAASLFLESAKAAGIPLEIKREPNDGYWSEVW
+NKQPFCASYWGGRPVQDQMYSTAYLSTADWNDTRWKRPEFDAMLLEARAELDEAKRKEIY
+SKMGMMIRDEGGLILPMFNDFVDGVANNVGGWIEDPNAELMNNKAPIKCWVKDA
+>tr|B7RPX8|B7RPX8_9RHOB
+MQNWPAKITDLIAEETHFGRGNLKCFSDRPASLNAMVKQAVDRNPQGEAVVCDQIRLTYA
+ALDAQVDAVALGLMAHGVSAGGRVGLLLGNSPEFLIVLLASLRLGAVAVPINVREQTPEL
+AHILQDCGARVLVHDADLADRLPKPKDTPQLDHRFSVGGPVDGSTDYDGLLSQGGELAVP
+TVTEEDNAVILYTSGTTGRPKGAMLTHLNIIHSAMHFEMCMELGTGERSLLSVPASHVTG
+LVATLFTMLRTAGCSVIMRSFQAEAFLETAAREKVTQTLMVPAMYNLFLLRCAVEDYDLT
+NWRIGGYGGAPMAQSTIQELSEKLPGLLLVNAYGATELSSPATILPLGLGAERSDSIGIA
+VPCGEIRIVDPNGNDVEDGEHGELWIKGPMVVPGYWNNPEKTKSEFQDGFWKSGDVGSRD
+AQGFIRLHDRRKDMIIRGGYNIYSAEIENTLTAHPSVIECAAIGRPDPVLGEKLQVFVHT
+TDAGLDAAAVKAFVGAHLADYKTPDFVTLTDAPLPRNANGKIVKAVLRDQV
+>tr|B7RRJ9|B7RRJ9_9RHOB
+MSLTIIAIILSAALLHAVWNAIVKSAVDRTTTLGLVAFGHVLPGAVMVAVLPLPSAESFV
+YIALSTVVHFGYFYLLGRAYQHGDLSVVYPIARGIVPALVSLWAWLLLGEVLPPPVWIGI
+GLIVAGILLSSWTSLRTGVGKSALVLSLATGFCISIYSLVDGIGVRLSGNTLSYWAWGAF
+LHLFIAGFAGWLRRRTLVQLPVRIWVTGIAGGMVSMTAYGLVLYAKNFAPLGAVSALRET
+SVIFATLIGFFVLKEGNWQRRLGAAVLMTFGIAVIGRYA
+>tr|B7RFY6|B7RFY6_9RHOB
+MADDVVCAGFFRAAEGAKISCLDKFQDGNLVNFILGNILEAFYNFFAAIVNPGMWLDWSN
+NEAMMRFIYYGASVELFFVLLIGLLVVTVIGLRSKSFMWACVRGLEGFANTVGRFFAWAG
+LLMVVQQIIIVFMQRIFTRPDISVGFGIPLQFDISWFAEELKLFNALVVCLCVSYTFVQG
+GHVRVDLFYAGAKFRTKKIIDMFGAVFFMLPFAIVTWLYGWFFLWRHLVTPNPSASDRLD
+LLLRKARLLKWNVETIGFSPNGFNGYFLFKILLCVFCIMVILQAIAVLYRSILEFREGPE
+SEGKYLDRDTLGDGEEAFEGTH
+>tr|B7RHS7|B7RHS7_9RHOB
+MQGKILIVDAIATNRIVLKIKLASAYYDVLQATSVAEALKVASKEQPNLVITAFELPDAD
+AAALCAGLAQQEQTARIPVLAIGESDDLAARKMMLSQGVQDVLVKPVPDPLLLSRVRSLI
+RGHHSDDEWHMRDAASRTFGMAEKHSNFASPGHIQVVSDDKGQNHIWATQLRLALRDKVS
+NSTMRDALQCLKGDVLPDVFVLVLTVDRKTAMDQLQLISAIRANSGTRHSGILVLQTEPD
+ADVGAYALDLGADDLMLNGFDLEEMGLRLASILNRKRKAERLRHCVNTGLRAAIYDPLTG
+LYNRRYAMSELARLIENAGKSDTHFAVMLADMDHFKRINDAFGHAAGDSVLVETARRLRS
+QLRPIDMVARIGGEEFLLVVPGTTALDATQVAERLCRTFRDAPFIIPSSNTAVTITISIG
+VCMSDSLTLTLPAQDDKAARLIDQADQALYAAKSRGRNCVRLVRPAA
+>tr|B7RFX4|B7RFX4_9RHOB
+MIVLIFALIGAVIGGFTAYRRKGNRKDMAQYAAGFGMAFIIVGMILTVIIDRVLSGV
+>tr|B7RG68|B7RG68_9RHOB
+MPKLFAASALAVLLGSAAFASGLEITVDGEAKGVIKIDLLEDVAPLHAERIAALAEAGAY
+DGVVFHRVIEGFMAQTGDVEFGKAGGDTRRAGSGGSDMGDLPAEFSDLPFDRGVVGMARS
+QSPDSANSQFFIMFDEGHFLNGQYTVVGKVTEGLEVLDAIKLGTGPNGAVEGTPDQMLTV
+TVTE
+>tr|B7RI21|B7RI21_9RHOB
+MKPTVSTLDTPEMETLDVEIVERKGLGHPDSICDAIAEHFSLSLCRFYLDRFGLVLHHNV
+DKALLWGGSARPAFGGGQVNQPFEFFVAGRATAAFKGIKVPVEALFHDAATAWLRQHMHA
+LDPTTNAVFHTLTRSGSPDLVELFLRQRSEGVALANDTSLGIGYAPLSELETVVLRVEEH
+LNSPPVKAAHPEIGEDIKIMGVRKAGTMYLTISCAFVDRFVAGMHDYCAAKARVAEIAKK
+IGSRLTDRQMVVTVNAADDIAAGSVFLTVTGTSAEAGDDGEAGRGNRANGLITPYRPMTM
+ESIAGKNPITHVGKLYNLLAGLMAHALVREIPDVTEAQCFLVSEIGRPIDEPQTVDIKVR
+LRDPCLLPDTRRHAQEIAADQISRLGQIWSQSLSGEIGFNRWPLK
+>tr|B7RIE9|B7RIE9_9RHOB
+MIHPILLCGGSGTRLWPLSRKSYPKQFAKLMGDESLFQASARRLSGDGYAAPVIVTGDPF
+RFIVTEQLAQVEQAAMGILIEPQGRNTAPAVLAAALWIAKTDASALMLVAPSDHVIPDTT
+AFAATVQAAVPRAQKGDLVTFGIMPTRPETGYGYLELASGADTGAATPQSLARFVEKPDA
+GRATEMLAAGNFLWNAGIFLFTAEAIIAAYRTHAPQMLEVVTTALKDANADLGFTRLDPD
+AWGKTDDISIDYAIMEKADNLAVMPFSAGWSDLGGWDAVWMESGPDTQGNVCSDNATAID
+CSDTLLRSETEGLQLVGIGLENIIAIAMGDAVLVADKSQAQRVKEAVDALKSQGSSQAVQ
+LPRDYRPWGWYESLVIGGRFQVKRIVVNPGAALSLQSHHHRSEHWIVVEGTAKVTVDADV
+KLISENQSVYIPLGAVHRMENPGKVPMVLIEVQTGSYLGEDDIIRYEDVYARS
+>tr|B7RKA5|B7RKA5_9RHOB
+MSRITHIVLDDANLPPPTPEIEQERKVAMFDLLEDNVFALPVRADRPAPQGPYHLGLSIR
+DKRLVFDVNTENDEKAAEFHLSLGPFRQVVKDYFQICESYFEAVKKSAPAQIETIDMARR
+GIHNEGSRVLQERLEGKAEIDTDTARRLFTLICVLHYGG
+>tr|B7RLR0|B7RLR0_9RHOB
+MIEFSRDGDVWVATINRPEKANSLTHEMLVSLADFMEDAQAARAVILTGNGKVFSAGADL
+DEARAGLATSTIWERLSGAIAALPGLSICALNGTLAGGAMGMGLACDMRIAVPTAKFFYP
+VMKLGFLPQPSDPARMVALIGPARTKLILMGGQKITADEALMYGLVDRIVDPGDLMSTAR
+DIVALTVAASPDIANQIKAMCVPRPGLADE
+>tr|B7RMU3|B7RMU3_9RHOB
+MTLIAVFLIVFVGGPLMFRFQTMRAPSPAGSRFLVVFALACAVGALGLRYAEVSHWGGDP
+LVTAAGIVLIWFGWITVLAFGAQALRRADPGRAMRRLTAVLGAAGTTMPWFGLALASYAI
+A
+>tr|B7RPQ4|B7RPQ4_9RHOB
+MTMIDAPFTIETSLVGLPKDEWLLAIAEVAEKDGFCQNLGDKHHAIFVERSPTLLVTFET
+VSGMRALSSLSQPLGWDLVRNYGWSNLCIASEGDTWFRDPSVYACFDRLVDDGFFDEFDK
+VVFYGAGPAGYAAAAYSVAAPGAWVVAIQPQATLDPRITEWDDRFKEMRRTDFSSRYGYA
+PDMLDAAEAAFVLYDPKVALDAMHASLFTRPNVTKLRMRHMGVALQSELLQLDQLETLLS
+LAVDGTLDTLTFADLYRSRRDHRNYLKALLVALEADDRTQLILHLCRYVNARMPAPRFVR
+KQKLIEAEMQMNEPVRNSRGCERRRALARRRAKESSPLAPIPTLC
+>tr|B7RQJ0|B7RQJ0_9RHOB
+MKLFDPRNHHLSARHRKIHATTELLYNFVDFLAALLFVIGSVLFFSESTTYLGTWLFLIG
+SILFGTRPTIKLWRELLYLREGIDPDAPPSQDTSDLRLN
+>tr|B7RIG3|B7RIG3_9RHOB
+MKFSTKEDIEAPIDAVFDMLCEFDQFERAAMRRGAEVQRVDQLTAPATGMQWEAAFDMRG
+KRREIQIDMDCFERPTEMRLATTSPGLAGDMAFELMALSRNRTRIIVTLEIKPSNLSARL
+LVQSLKLAKTSLTNKYKLRVNEYAKGMEERYKRAR
+>tr|B7RKB9|B7RKB9_9RHOB
+MNWQILKTALSAVILAATIEPHPAFAQNLFGGGSNYNYYNDYMFEMTMARIIMMMVSVGS
+GFCIGWFLSPQAKELRRIIMLCLAGVTVILAVFNGGLLGWSAAWLVSFIGFFAALGYWIG
+RGVKAMLEMPTTFGSSEWATIEHMKEKSLFGTDGIILGSVIEDAVEKVFSYKGDRHLLTS
+APTRSGKGVSHIIVNLLCYPGSMLVIDPKGENARITAQARIDMGQEVHRVDPWHISGGEV
+SRFNPLDWLELGDVDAVENAMLLADALVQKDSHGDSFWAEEAKALLQGLILLVAFDEAYQ
+GQRHLGTVRDLLLLSGEELEALFQQMANSPHHIIASTGARSLQKEAKLMANVLASAQAET
+HMLDSARLRESLSASDFTFEDLKKKPMTIYLILPSDRLGAFGRFLRLLVQQAITVNARNI
+EDKPKKPVLFILDEMPALGRLTMVEQAYGLMAGFGIQLWGITQDLCQLRKVYGEDYESFI
+GNSGAVAYFGSPDKTSAEYFSAMCGVTTVWNFSTAVATAFSSSSGMNGGSSSNSTTNTDN
+RAATQRKLAYPDELMRLREGQQLILIENTNPIMAKKIKWYEDPVMSTKGVNIHQG
+>tr|B7RGV1|B7RGV1_9RHOB
+MGGQDRPNLSFQETLPSLHKRGSISTRADRPEARALASVAAHLRCFQILASGKIQAA
+>tr|B7RL46|B7RL46_9RHOB
+MSLNLKKDQLRWLAKKGVRINAPADADTLRIPEPAYGLEAHSTHSAGGVMPLGSYSYAHS
+FARHVEYVGRYCSIGGGLQTYTNTHPVDRASTSPVFYQRRKFREWGGDLVQGDLLVPFEP
+PSAKVRIGNDVWIGETVRIREGVSIGDGAIIAADALVTKDVAPFAVVGGVPARVIRHRFD
+PDLSSALLQLEWWRYSVSDLIPLQPDQPVQFAVALEAALAKGQLQPRAEDRFLLRDLLRT
+QGAG
+>tr|B7RLM0|B7RLM0_9RHOB
+MLEKREFYINGEWVSPAKPNDYHVINPSTEEPCAVISLGDQADTDAAVAAAKAALPGWMA
+TPPAERIALLEKLLEVYQARAEDLATAMSTEMGAPMDLARTSQVGAGTWHLSNFIKAAKE
+FEFEQPLGDHAPNDRIIREAVGVAGLITPWNWPMNQVTLKVGAAVVAGCTMVLKPSEESP
+LDAMIFAELMDEAGFPKGVFNLVNGDGVGVGSQMSSHKDIDMISFTGSTRAGTLISKAAA
+DTLKKVHLELGGKGANIIFNDADDKAVKRGVLHMMNNTGQSCNAPSRMLVQSDVYDKAVE
+EAGKVAAQVTVGPASEDGRHIGPVVNETQFNKIQDLIQKGIDEGARLVAGGTGRPDGLNR
+GFFVKPTVFADVTPDMTIAREEIFGPVLSIMKFDTEEQAVQIANDTVYGLTNYVQSQDGT
+RRNRLARQLRSGMVEMNGQSRAAGSPFGGMKQSGNGREGGLYGIEDFTEIKAVSGWAAE
+>tr|B7RHE5|B7RHE5_9RHOB
+MRNLIWIIIAAVIAFGGYMLYSGRSVKEIAETASDAVNAPEALESATAAVGDAVEATEGV
+VAEAVEATAQAADAAANAVSEAASDAADAAVQATEEAAAAAPEVADDAMNMVSDAATAVA
+ETATEAANAAADTASDAMAATSETASDAATAVTEMASDAADATAETASEAAAAADEAADA
+TSDAAADAVDATEEAASDAADATAETASEAAAAADEAADATADAAANAVDATEEAASDAS
+DATAETASEAAAAADEAADATADAAADAVDATADAASDAADATAETASEAADAVAETAEQ
+AEAAAASVDVTPEQVLTVEGFDLEEALTIIDDSTIPGMEKTLLKRGLETASDKPDTLQDV
+LDRVRAALNM
+>tr|B7RHX1|B7RHX1_9RHOB
+MPDFSIILPCFNAETTIVETLQSITGQTFGDWEAICVDDGSTDATVPLIQNAALIDPRIR
+LVRNQGKGPSSARNTGALDHSSGGLIAFCDADDLWLPTKLAELAESFAKAEVGGAFGQIG
+FFQDGPDDATVFSTVPEQDLTIDMLLGENPVCTMSNMTVRRDIFVQSGGFDVSMIHNEDL
+DWLIRVVGGGARIIGLRSLQTWYRTSVGGLSTNLDAMLAGRARAIASAAAFGVRPSARSH
+AIHHRYLARRALRLGANRTDALRHSVAGFAHSPVGFLTPLRRGAPTLAGALVATLLPHPL
+RRYLFS
+>tr|B7RQE5|B7RQE5_9RHOB
+MARIFGRIGILSFGGPAAQIALMHRELVDRHGWLSEAAFLRALSLCMLLPGPEAMQLATY
+AGWRLRGTFGGLLAGLLFVVPGAALIAVLALGYASFGQVPLVQAGFLGIKATVIIVVFQA
+LRNVAAKALHGAEAGFLAGLSFVALFIFGLPFPVIILAAGIWGALRQTGDMSAADVVHPP
+QAQSVRTLALWGGLWATPLVVLWLMGREFLLQLGLFFSKLAVVTFGGAYAVLAYMTQSVV
+QDYGWITTQQMIDALGLAETTPGPLILVTEFVALLAGFTQSGVTGAIAAGVLALWVTFTP
+CFLWIFLAGPYLEKISSQPRLAAGLRAITAAVVGVIGNLSVWFALHVLFERVTPAAILAM
+PLPDWSSFNGAGFALTLLAAVLMVLRGWGFVSTMCICAIAALFGAVLL
+>tr|B7RH45|B7RH45_9RHOB
+MTDESVSPKRNPIGRVLVWVLFFQLALAGLLFWGDLRDGLRLPGFGPRAPQLTEPVRPGD
+QTRRFDPDRAPPGGRPMPSSPLPDRLTLTVVEGGNRALLEGGILPGDAERIEKQLADLAP
+KPEGVILNSPGGSVQDALMLGRYLRQAELTTALRSGDICYSACPYLLAAGTSRTIPDDAS
+VGVHQHYFGESTLLPAFVAVDDIQRGQGEVMTYLDGMGIDPLVMQHALVTPPNEIYVLLP
+EELTRYGFTEE
+>tr|B7RL73|B7RL73_9RHOB
+MSQIDSLFVTRLYRAPLSEHGKPVDPSELEAACLSIAEDDEAGQEWCDQNDFPGYTSYAS
+LTDLPWRFPIFKTVKKALDKHVKAFAKDLAFDLDGRKLKLEDIWINILPEGGIHTAHIHP
+HSAISGTTYVAMPEGTSALKLEDPRLPMMMAAPGRLKDAPQELRQFVYAKPVVGDVLLWE
+SWLRHEVPMNMAEEDRISVSFNYAWA
+>tr|B7RFV7|B7RFV7_9RHOB
+MAGFRDRRKGPASRHVGQRQDMSDMDLDPDRAGGKSFLDKGMGATR
+>tr|B7RHD0|B7RHD0_9RHOB
+MSSGYHPNTALGRFVHEFEETAIAVILGLMTLITFINVVLRYGFNTGLIWGLEAVTFLFA
+WLVLFGMSYAVKITSHLGVDAVINLFSSRTKRFIALFAALICIVYAGLLLKGAWDYWAPF
+AGLDATSGRWFPTGFENSRDQAWYETVDMPMPDWLRFIEPIMNEGESYAKLPRFLPYAML
+PIGMALLLFRFIQAGVRIFTGVSHGLIVSHEAEDDVAAVSHMNAGD
+>tr|B7RKS4|B7RKS4_9RHOB
+MAAAVATAGFTHAAAAQDITVGVSWSNFQEERWKTDEAAIKAALEAAGAKYVSSDAQSSS
+AKQLSDVESLIAQGVDALIILAQDSQAIGPAITAAADEGIPVVGYDRLIEDPRAFYLTFD
+NVEVGRMQARAVLEAMPKGNYVMIKGSPTDPNADFLRGGQQEVLQSAIDAGDITIVAEAY
+TDGWLPANAQRNMEQILTAQDNKVDAVVASNDGTAGGAVAALTAQGMEGTPVSGQDGDHA
+ALNRVAMGTQTVSVWKDARDLGKNAAEIAVALASGTEMSGIDGATEWTSPGGTTLSAKFL
+APVPVTIDNLNAVLDAGWITKEALCQGVTGVAACE
+>tr|B7RLV7|B7RLV7_9RHOB
+MIALRNLTKTFRLHGRRKVVADDITALFPSRVSVGLLGRNGAGKSTLLKMIAGTADPTSG
+DILSDGQISFPVGFAGSFHPDMTGAQNTRFVARIYGANTDALTAYVDDFAELGSHFHLPI
+RSYSSGMRSRLAFGVSMGLAFDTYLIDEITAVGDASFKRKSKQVFTDRMSRAGSIFVSHS
+IGMIREMCTAGAVLENGKLDYFDDINEAIERHSYNMKT
+>tr|B7RM83|B7RM83_9RHOB
+MDNQIKTAAEAVEADALPRLHEVHSDPTQRNAAEQAVPKSMTDTPVAKKSPAQWAYERVV
+LYLKNFEEQLDGEHEVAMGFAGGDAGVLRIEGMGYFDPDIVTFYGADSDGTRMQLVQHVS
+QLNVALRALPKASGPAPANRIGFRLIQDLEADATAQPPKTGGSQSA
+>tr|B7RPW1|B7RPW1_9RHOB
+MITIENVSKSFVLHNQGAAEIPVMQGASLTVAAGECAALVGASGAGKSTLMRMIYGNYLT
+ASGRILVGDVDVATAAPREIIQLRRYTLGYVSQFLRVVPRVSTLDVVAEPLRATGTSRAD
+AIATAQELLARLNIPERLWSLSPTTFSGGEQQRVNIARGFAYPYPALLLDEPTASLDPTN
+RATVLEMIREAKLRGAAIIGIFHDHAARDAICDHQFDVTRYTPGLAA
+>tr|B7RJM1|B7RJM1_9RHOB
+MNKVTTVEDLSVQIAILKDDIAALTGTIGEYSKAQTKYAANQAKSAAHSIADSAHDLAND
+GRAKASQAQDSAEEFIRTQPATALGIAAGVGFLVGLISARR
+>tr|B7RH72|B7RH72_9RHOB
+MPALWIAHVTVTDDDAYGKYAKLAGPAIADHGGKFLARGARFVQLEGKERPRNVVARFPS
+LEEAVACYNSDAYQEALAHAKGASERELMVIEIDE
+>tr|B7RPZ9|B7RPZ9_9RHOB
+MFTFIIAHIEVVGVILLTLLMAFILQQQRRSPQSTVAWILFLVLLPYVAVPLFLGLGFRK
+QGKRYAPIRFAQSEPHKTPVHSLDQTFQNFGMPPALEAQRLTFVKTPQAAFEAVMDTIDS
+AQHSIDSLFYILTDDDTGRRFVDALTAKAKSGVKVRLLIDRLGTLRGPHKALNALRAAGA
+EVFFFAPILQPPGSGHLSLRNHRKMIIADHSTVFSGGMNIGANYMTDAPNDKTWVDLAFT
+LEGLAVQGFCDVFRSDWEVASGTDIELTSPAPTIAGNATVQLVPSGPDITEDPLHDGLLR
+ALHMANTRIWISTPYFVPTEPLANALRIAALRGVDIRIMVPQKSFQHTADFARGAYLRDA
+EAAGAVIHYYTPAMMHAKAMVIDDAAAMGTANFDVRSMLLNFETMLFLYDAGSVAALSEW
+FIEGFAQCHTNTPHPRLPRKLAEAIFRIGAPVL
+>tr|B7RGX7|B7RGX7_9RHOB
+MPLGPLIFCLSLLPFSAVAQDADVLSKQYDDGGIYEGTFRGGVQHGTGTYTLPNGYEYTG
+EWVDGEIKGQGVARFPNGSVYEGSFSKGKPDGFGLITFADGGTYEGEWQAGAIMGQGIAL
+YANGVRYEGAFRNAKHHGKGVMQSPGGYEYQGDWVDGVKQGVGKITYPDGAVYDGDIEAG
+KRSGTGTLTMPDGLTYVGTWKDGQIDGTGKLTQPNGDVYEGELVSGQRQGTGKVTYANGD
+TYEGQFKDDRRDGQGTFTGTDGYVYTGSWVAGQIEGEGQVTYPDGSVYVGTFRDDLADGQ
+GKITYPDGSTYEGAWSVGVIEGSGTATYPNGVVYEGDFKNARNDGQGVMTYADGYRYEGG
+WKDGQRHGAGTATYPDGTIYTGNFTNGQRDGIGKITMADGFTYEGEWAAGVISGKGIATY
+ANGDVYEGMFKDGKRQGTGTMRYGTGEEATGNWVNGALSE
+>tr|B7RM13|B7RM13_9RHOB
+MSVIIKTDAFVTAEVLALVTRERQSALSLREWQHRLAGYGYSLRDTDQGTVLETLPHHVK
+VCVLPPELCA
+>tr|B7RNL3|B7RNL3_9RHOB
+MADRPVAPKRAEFSEFYPLQTRWNDNDAYGHMNNVVHYALFDTAVNGWLIDRSLLDPLTS
+PVFGLVVETGCRYFGEMQFPDRVTAGLRVAKLGRSSVRMELGLFRNDDETASAEGFFVHV
+YVDRQNHLPTDIPDATRRALEGLQSS
+>tr|B7RSA0|B7RSA0_9RHOB
+MTLALGIIPVLLLLFGFPIFIVLLTGSVGALAFYMNVPLNAVHQNLFGAINVSGLLAVPY
+FIFAGEIMSRGSIAQRLVDLVNALTGRLPGALGVTTVGTATVFGAISGSSAAAVASVGKV
+MHPAMTADGYPAPFSAGMITSVAAIGIVIPPSIPMIVYGASSETSIPRLFAAGILPGLLL
+AVLLAIFIMVRARTNIFGTTHAFSLSRLGHAALRSFWAVGTPVIVLGGIYWGFFSPTEAA
+AVACVYTLIVTVLIFRELSLRDVMNSAISAVTFSAQILVIISAAGLFSWVLTVNQIPQEI
+VGWITSMDIAVWQFLIVINLLLLVGGCFMDPLSAILLLTPVLIPVVNALGIDPVHFGIIM
+TLNLAIGLFTPPFGINIFVAQSALGMKTADIYRGVTPFFVIFLIALLIITFVPAISLVSM
+DMFMF
+>tr|B7RHT2|B7RHT2_9RHOB
+MANVVVVGAQWGDEGKGKIVDWLSERADVIARFQGGHNAGHTLVIDGTVFKLSLLPSGIV
+RGGKLSVIGNGVVLDPWHLVKEIAQLRSQGVTITPETLMIAENTPLILPIHGELDRAREE
+QASVAKIGTTGRGIGPAYEDKVGRRSVRVADLADDATLELRVDRALVHHDALRRGLGLEP
+VDRDALLAALREIAPSVLEYAAPVWKVLNEKRKAGKRILFEGAQGALLDIDFGTYPYVTS
+SNVIAGQAATGTGIGPGSIDFVLGIVKAYTTRVGEGPFPAELNDADGERLGVRGHEFGTV
+TGRKRRCGWFDAVLVRQTCATSGVNGIAFTKLDVLDGFETLKICVGYELDGQPLEYLPTA
+ADQQARCTPVYEEMLGWSESTEGARSWADLPANAIKYVRRVEELIGCPVALLSTSPERED
+TILVTDPFAD
+>tr|B7RJ13|B7RJ13_9RHOB
+MMSNAQAQHRHLASADQVALLEDVKHLRDTTENVFLATGEQLMEIATLLETAITAFNTLV
+DLSRDDLMHKLREKALGQEESFEELRLGFVDAGKKITGLTSMLRFLDREFHRVRRSVTTT
+RFVVVNAKTVLSSIPSQQQRLGHLTKEGSRVVEEMEGLLSQFESTLHGIGQSVGRMEQVV
+LLVGSTVDDNVRNAFDALISDITDFEENVQNIAGSGVETSLRLRGLQAATAKAVAGLQVG
+DSTRQRLDHVAFVLEHASGDNSPLQDLAALLLDDAFQEQSEKLDQLKNSIATMITGLRDL
+VQTHLLEFSGSTERTLNASSLLGGAKRISTSVDALRPLRDEAGQRYQMLDRELDRFNGLI
+RQNEGVQIRIQHIGMDAVLACTRLGDDGKPLKVVAEQIQIVAQESGDHFRSIRETMKEIS
+ELGRSVASETEEMVQRSIQVPATLSADFSPLITQVVATLSPIQSIVADLQGKTAAVKFDF
+TPAQAHTARLEWLAGQVPRFISGQKTATVSDAVLETLFRVFTIERERDVFRKVFPGHSMT
+ANAASQPEADTEMDDFFL
+>tr|B7RSI3|B7RSI3_9RHOB
+MTIAARIRGDDWARKIMLTLEYDPEPPFVGDTKDAGPTMWRLCWAAAHRALRSTGSCHQA
+QEKL
+>tr|B7RLG6|B7RLG6_9RHOB
+MITKAGHMKIDRFITAALFGLTICAMPLALAAPTAVQADTLRVVNRGTNRALEVPMNRAV
+VVESDIPFAELSIANPGIADISSLSDRTIYVLGKSPGLTTLTLLDAAGQLITNVDVRVAS
+DISEFKERLRQILPGEKIEVRTANDGIVLSGIVSSTQGLQRALDLAERYAPERVSNLMSV
+GGIQQVMLKVRFAEMQRSVSKSLSASLALNGLLGSDLAINGGTNTTNGSTAIANSLNGST
+PTTNSNAGAVLFGFNAGSTQVGLLLEALEQKGAVRFLAEPNLVALSGQEATFLAGGEYPV
+PVSQSGDRISVEYKPFGVEMSFIPRVVDKNLINLELKAAVSAIDPSNSVSLGNGFDISAF
+TRRETSTTVEMRDGESFAIAGLLTDDFTDTSRQLPWIGDVPVLGALFRSANYQRSQTELV
+IIITAHLVTPTRGDALALPTDRIKPPTENELFLSGRTSSGGKAPTRGAAGEVAKQDFSGS
+YGYVLD
+>tr|B7RN49|B7RN49_9RHOB
+MTEPLSKAEVTAVAKGKASARDVVTHRRVLNIAIPIVISNATVPILGAVDTGVVGQMGLA
+APIGAVGIGAIILSALYWVFGFLRMGTVGLTAQAAGNDDHAEVAALLTRGLLIGGLAGLA
+MVLLQVPLFWASFQVSPASAEVEGLAQSYMGIRVWSAPAAIALYAITGWLIAQERTRAVL
+VIQVWMNGLNILLDLWFVLGLGWGVEGVAFATFLAEWTGAALGLWFCRAAFGVPAWRDWP
+QVFDGPRWINMMKVNGDILIRSLLLQAIFVSFLFLGSGLGDVKLAANQVLLQFLMITAYA
+LDGFAFAAEALVGRAMGAKQRDILRRGALLTSGWGLLSCGLMTVGFALWGGAIIDLMTTA
+PMVREEARVFLPYMIAAPLIGCASWMLDGIFIGATRSRDMRNMMALSFLIYCVCAALLVP
+SLGNHGLWISLLVSFVARGVTLALRYPALERAAG
+>tr|B7RRI5|B7RRI5_9RHOB
+MAPSDLLIELRDQKPLVHCMTNYVAMNIAANVVLAAGASPAMVHALEEVDDFTPICSALT
+LNIGTLSAPWLASMAAAAKAAQAHDIPWVLDPVAHFISGYRKEAAQELLALRPTILRGNA
+SEILALAGEAGAGKGADSGDSVEAAQGAARALAARFGSVVAITGPVDYVTDGTQEARITG
+GSSLMPQVTALGCAQSALMGAYAATGPAFDAALACLAHFKVAGGAADGLAKGPGSFQMHF
+LDALAATQPEDLAQVIA
+>tr|B7RKF9|B7RKF9_9RHOB
+MFKQIAFTLTLALTAVTASADEGELIEYLQEELSDIREHVEARDAAPVEGGYFKNDRSDY
+QSDIDAVLDKALRLVVPKTFDTWAEQIRDIDSAVTEAETERAELFLQRMRASTSEGVSMV
+GKILGREHQRGSLEDIDQKLAELDAALAQLGEDRELAAMEFAREMRNLHSVDLTSAQAKA
+ILYSVNGGLMVESTVVLRALGVVERQLSDVMREDIGSDARRTYIGVASATRLIHARLLQR
+HLAAYDGDWLPRLEEMRAEAEALLSRTRRDAEKASHGNVRQTYENNMVIQARILDVIDRY
+EAMLERRRGLTSDALELARERGDAAVNTLITLETAASLSSVISEATSQYDDVMSVNLPEL
+EQLDPEEFEEMLDISRRLGS
+>tr|B7RM41|B7RM41_9RHOB
+MAMPGFILQMRKRAEGEADGIRVGFTCSKKVGNAVARNRAKRRLREVARLALPDQGVDGM
+DYVLVGRQGSTAILPFCQLQDDFAKALGILHGKLR
+>tr|B7RPN6|B7RPN6_9RHOB
+MNDEEDITDAERKMQFLYALRSKGVTESRILNAMEQIDRGPFIRGLFAARAYEDMPLPIA
+CGQTISQPSVVALMTQALEVTSRDKVLEVGTGSGYQAAILSKLARRVYTIDRHRRLVQEA
+REIFDALDLTNITAITADGSFGLPEQAPFDRIIVTAAAEDPPGPLLAQLKVGGIMVVPVG
+QSDAVQHLIRVRKTETGLEYDELRKVRFVPLLEGLGKDS
+>tr|B7RHX7|B7RHX7_9RHOB
+MKHINFGFGTPVPAALKMQRLPTKKIPALGLDLVDATPDQVVSVLLAPGRRRSFFINAHC
+FNVLRRDSDYSDAVAAADVVLPDGIGVELAARMTADRLTANLNGTDLVPHLLKEAARMGK
+SVFLFGGAPGTAEAAANRLIRSIPGLCVAGTRDGFNGASDPDAVIKQINESGADIVLVAL
+GVPLQELWLHKHAHRLDAPLTMAVGALFDFLAGSVSRAPKWVRRARMEWIWRLAQEPKRL
+AKRYLVGNATFLAHAAKGAVLQMPVAAMQRRFLDITVSATALVALSPLLAITALAIKADS
+RGPVLFKQKRVGLNGNSFTIFKFRSMAQDAEKRRDGLIATSDREGVCFKSRTDPRVTRVG
+RIIRRFSIDELPQILNVLRGDMAIVGPRPALPCEVSEYPSRALGRLAVKPGITGLWQVSG
+RATIGFDQMVEMDLSYAASRNLLLDLVLILKTFGAVTSGRGAY
+>tr|B7RGM0|B7RGM0_9RHOB
+MKHTLLSATFALIAGITPAFAEMTDIRFTLGWKTQGSDAPFLMALSRGYFEDEGLNVTID
+QGEGSAATVTRIMGGAYDAGFGDINAIIQNAAARPGEAPVMVYQLWNRPPFAIVTPKSAG
+IETPADFEGKRLGGAQGTPTTRLFPVFAKLNGVDIDKVAQENMAPNLQEPMMIRGDIDGA
+FVFTITSWFNLIANRQDPAADFNWFQFEDYGMDLYSNGMMVSRKMLAENPEAVSGLVRAV
+NRATLEIAQDQDIAVEAIMAFDNLVDPELERARLEFALTNLMNAPETAEIGMGDLVDERL
+TRSIAIVAEGYGLERLPEASEIFDRSFLPPADTRSFVVSID
+>tr|B7RM79|B7RM79_9RHOB
+MAEPAFRKSGGILSYFVRHKTAANLLLVLLLVSGVASAPNMRAQFFPDVILDSVTVTTVW
+TGAGAEDVDSAIVQVLEPALLTVEGVESSTAASREGSGTITLEFEPDWDMARAATDVQTA
+VDAVTTLPEDAEDPVVRRGTWRDRVTDVVITGPISPEQLGRFADEFVSRLFAVGVTRSTI
+QGVASPETLIEVPSTKLIGYDITMAEIATVIAAEVDADPAGDVTGANARVRTGTAKRSAE
+ALSGVVLRSNADGSTLTVGDVARVIERGSDREVGYFVGEDPAISVRIDRSDGGDAIGIQH
+SVEEVAGDMAVMLPQGVTIELIRTRAAAITGRLDLLIDNGLMGLALVVSLLFLFLNARTA
+FWVAAGIPVAMAAAIALMYAGGITINMISLFGLIITLGIVVDDAIVVGEHADYRHKELGE
+TPYQAAENAARRMSKPVFAATMTTIIAFFGLLAVGGRFGSLIGDIPFTVIAVLAASLVEC
+FLILPNHMAHAMISGAKERWYDIPSRVVNKGFVWVRETLFRPFMAGVIKARYVVLAGVVA
+VLASQVALFIQGDVQWRFFNAPERGSVTGNFAMVEGATREDTLAMMREMQRATEALGVEY
+AERHGTNPIDYVIAQIGGNAGRGLDGADSKDEDLLGGISIELIDADLRPYSSFAFVGELQ
+EAVVNHPLVETVSFRGWRSGPGGDALDVQFYGADTDVLKAASEDLQNALRQFPEVSAVQD
+NLAYDKEELILDLTPQGQSLGFTIDTLGRALRNRLAGIEAATYPDGPRSATIRVELPEGE
+LTADFLDRTQMRTPGGQYVPLADIVSVDRRTGFSTVRRENGIRLISVTGDISEDDAARAT
+EITAAMQDEILPRIASERQVEFRISGLSEQENTFLSEALTGLILVLTGIYLVLAWVFGSW
+TRPLVVMAVIPFGLVGTIYGHALWDVPLSMFTVVGLLGMTGIIINDSIVLVGTIDEYGET
+RGLIPSIIDGAADRLRPVMLTTLTTVLGMAPLLYEQSQQAQFLKPTVITLVYGLGFGMFL
+VLLVVPALIAVQHDVSRQIRAMRRGLRGRARGLRFGLIGLWAVMLAWAAITLGWAGIYGA
+LYPGLAAMMPSLAGMAPLTAALVIFIGGAAVIALGGYIIGAVAFGVQRRKQAG
+>tr|B7RLU8|B7RLU8_9RHOB
+MSGPQSGPDGARSLEESTILVQAATVVPKGATRCLELRKIG
+>tr|B7RPY7|B7RPY7_9RHOB
+MPHFHIDYSPNLEARLDIATLCGVLAQVAAETGVFPVAGIRVRATACTHVLIADGNPDHA
+FLDLSVRLRAGRTDAAKHRATDAIFDALQAFCAPVLESTSLMLSMEMRDIDPALSPRASS
+IRRYLPEDLQ
+>tr|B7RGA4|B7RGA4_9RHOB
+MKGPSGWVALLRFGETKLMASEAVVSGAPALRAGKLEISIRKI
+>tr|B7RH30|B7RH30_9RHOB
+MLPVTHGAAQLVELDLGIVTSVMVTGDEDALSDALEAAHGVAFPKPNRASGKGGIRCVWF
+GRNQALLIGAAPDASLAAHGALVDLSDGWCAVRLSGGASEDVLARLVPVDLRAGHFKRGH
+TVRTLVGHMTASITRTGGEDFMILVFRSMASTLVHEVSEAMLSVASRES
+>tr|B7RL01|B7RL01_9RHOB
+MVFLDYSAKRIEPPRVIRARGLYLRGGKRLLDLAICFALLPIVVPVIFILWLLAAATGHT
+GFFAHLRVGKNGKVFRCWKIRTMVADADGALNRLFHVRPEAKVEWSKSRKLENDPRIIPL
+GHILRRSSLDELPQIWNVIKGDMSLVGPRPVTRVELRRYGSDLHHYLATRPGVTGLWQIT
+DRQSGCYVRRVVLDKHYVQTITFAGDLGILIGTLPALFRLTGR
+>tr|B7RN87|B7RN87_9RHOB
+MNLWALATDKKHGNRGSIMSAQQVEITVFPRIADIGQTEWDACACPETASGARPDDPFTT
+YRFLSAMEDSGSVGPGTGWQPQYLTAAIGGQVIAVAPMFAKSHSQGEYIFDHSWAHALER
+AGGHYYPKLQIAVPHTPATGRRFLTRPGFEDAGMAALIQGAVQLTDNNGLSSLHITFCTE
+AEAMAAQDLGLMARKSQQFHWQNHDYADFDGFLATLSSRKRKNIRKERAQAQAFGGTIET
+FIGDAIEPEHWDAFWQFYQDTGARKWGTPYLTRQFFDIAQETVRDDMALVLAQRDGRWVA
+GALNFIGADALYGRYWGCTEHHPFLHFELCYYRAIDIAIDLGLATVEAGAQGEHKLARGY
+LPTATWSLHWMRDEGFARAVEDFLRQERAAVDHEIEILTDYGPFKRANIEEQQ
+>tr|B7RQB2|B7RQB2_9RHOB
+MPLRKRVIAPRAGAQCKTAPFDVLSLDALPLPAYETDMAGL
+>tr|B7RHM2|B7RHM2_9RHOB
+MAVHPKIKRLRWMRWLARAPWFRRSTQKTLSGDQGKTANSPVVVADPKVRDQAFIDARKA
+IADLKETGGRKLDLKHLSGLTQLPPEIEKLPLTELVLAQMSGNYPHIDLGPLKRIETLES
+LTCGGATLDLMPLTDLPSLRRLVLSDCMLPDAMQLGRLRRLEVLELVNFDRCVETDTMLR
+ALVDLPRLTSLTLFDCSLHDPSPLTELVRLESLTLDLLFIDDGSMTPPALDARLLAPLTR
+LKVLSVSEAGLSDIGPLTKLTALEDFNISGNELTDLSPLSGLTNLRALTMSSLPVGDLST
+LAPLTKLQDLWALSRVATSDLTPLSGLTSLKSLAVSVAGTDLSVLGPLKRLEELVINADD
+LQDLSQLGALTSLKRLTLDGAGVSDISMIPKLTALEELNLRRTNVQSLDPLRGLTTLKIN
+AHGLT
+>tr|B7RHY6|B7RHY6_9RHOB
+MVKDCQDMKANKQKTLDRLARLEGQVRGVAGMVEADRYCMDILAQTAAIRSAILGVEKLI
+LEHHAEHCVETAISSGDPEEQRAKFNELIGLLQKASR
+>tr|B7RJ50|B7RJ50_9RHOB
+MVHLGHKEKQVAQAAIPTVTSSARPFEVFLGGNLCAECLTASCWAPLNGKVSSALA
+>tr|B7RJS4|B7RJS4_9RHOB
+MPPHAYVPGQNARHPEDWFDAIKASVTADIPADALDQTAAWQAGRAYFDAGYFWECHEVL
+EAVWMRCPDPSPERAMTQALIQLANARLKLRMDKPRATLRLCNLVDGHLAQCAGREMILG
+VDVQEIAQATKSTREDALICSIAQ
+>tr|B7RKU9|B7RKU9_9RHOB
+MTQEPTVHFLLEPDLRKAAQAGAHPFIAKMALVLESASFRVAYRDHGDTDRSPETYTLGH
+MKVPPSQRGLIFRRVYEYPFWQIEGSAERWEWDAAKARFDPALVSDQDATPFYAFWQKRL
+YQDAPSRTSREGFIYVPLQGRLRDHRSFQSCSPLEMIEQCLAHDPSRQVVATIHPNEVYS
+DAEIAALEALERKHKRLCVDVGNMVPLLQGCDYVVTQNSSVAYAGYFFGKPALLFGKIDF
+HHIAVQADMDNLAHSFAQAAEATPDYAKYLYWFWQDQSINAGRDDVYAKITARFRRFGWP
+ID
+>tr|B7RMG8|B7RMG8_9RHOB
+MSRLLACAALSLSLAACGGSATKPNPEASKILPTIGSSGGALSNVQAKKLFGAKSAPSAQ
+TAFPYGSYAKGCVAGAQELSETGPTWQAMRLSRNRNWAHPEMIDFIKTLSAKAARQPGWQ
+GIYVGDISQPRGGPMLSGHASHQMGLDADIWMLPPKTLGLSRAQRESISSISMRRSSGAY
+VNSSWTRQHHEILKAAASDPRVARIFVFPGAKVQMCNDEKGDRSWLNKIRPWYGHHYHFH
+VRLSCPKGARGCVNQAPPPAGDGCADARQWQANILNPPPPNPNAPKPKPKRELVLADLPA
+QCQSVLEAN
+>tr|B7RNE5|B7RNE5_9RHOB
+MTKGNLNRRTLLRGAAVGMLATPALVGKGIAQGAVNWRVQAHWPKASSSFTDSLGKLASD
+LEERTDGAFKMELLGAGEFAKGPDIYNIVRKGVVPMGSISPSYVQDQAQAAAFMFGIPGT
+FRQAWEMEHAVKNLGLEDLVNEDLNAEGVMMMADKVLPVEIVVSKKIESADDFRGLKIRS
+SGTMLDYLQSAGAAPQYIAGSELYQSLSSGVVDGAHWGAAVGAKSMSLWEVCKYHYKPGL
+GQTTDAYIVNMEAMESLDDDMRIALTDTMENRFYQRSAEYQHAEAIALSSGIAENGVEVI
+QLPDDVLAILAEASSKILETEAQKGERAAKAADIYRTLMTDLGYL
+>tr|B7RNW7|B7RNW7_9RHOB
+MVGSANLNIMIKAARRAGRGLVKDFREVENLQVSMKGAGDFVSRADLQAEKIIKEELMGA
+RPTYGWLAEEGGGEEGQDPTRRWIVDPLDGTTNFLHGLPHWAISIALEHKGQIVAGVVFD
+PAKDEMFFAEKGSGAWMNDMRLRVSGRHRMIESIFATGLPFAGRADLPDTLRDLGRILPV
+CAGVRRWGAAALDLAYVAAGRYDGYWERRLNAWDLAAGLLIVREAGGMVEAMNPEGDILQ
+DGEIICANEALFSGFAKIARG
+>tr|B7RRT4|B7RRT4_9RHOB
+MRGYKISIGERLQADLAAMQGLPDAPFEACDLRSGQVTSTSVVRYRGNDYSVPVAFGHRE
+VWIKGFVDRVVIGCAAEVIAQHVRSYDKDDITFDPVHYLRLIERKIMAFDQAAPLQNWNL
+PDAFSTLQRLLEARQGKAGKREYVQVLRLLERFEMEVLHNAVKDALQMGAISFDAIKHLV
+LCRVERRQPRLDLDLYPFLPRTHVATTSAASYMSLLDGGGA
+>tr|B7RNY7|B7RNY7_9RHOB
+MDHEIEPFVRCWRGEVTCELAGLDFRHREGVIPGHVSRA
+>tr|B7RG43|B7RG43_9RHOB
+MGQSYPNGKRITAPLRTTLWRGLLMWSAPLPPLPLIFAGWLVLIARTLALI
+>tr|B7RI34|B7RI34_9RHOB
+MDKLEEQLAHLMRSVDDLSDVVARQETEIATLTRRVHMLMQREGEREAAGSEGIVLGNDR
+PPHY
+>tr|B7RP81|B7RP81_9RHOB
+MAYINTYAHNSFDGFKSVLTSIGAFFVSIGTTIGTASTMNGRVEYLRRLEAKTDEELDAM
+NLKRENLVHHVFRDLYYM
+>tr|B7RPY4|B7RPY4_9RHOB
+MTFMKSIGAAAVATLMMTTVASAETRITYKSAKAGSSYFQMAVQIAEAMKTGTGGDIAVT
+VEESQGSVQNVMEVRARGGDYVFTTPPALVGLAQNGKAMFEGKGDPAFADIRALFPIPSL
+TMHFVMSQASGVTSFAQMEGKTILLGSGSFGATEGEKYLKLFGLEGKVTIADSELSNAAN
+ALKNGQIDGFVTAGSYPAPNVIEAAASTGVTLLSLDDDQITASKRTRLTIPAGTYAGQTD
+DVTTTSLPVVAYATTKMDDDTAYTLTKTYWETREAMAKDAPWWAAVSTDMLSNITTQIHP
+GAIRYYTEIGVSLSDAQM
+>tr|B7RRQ8|B7RRQ8_9RHOB
+MKLDPETDLTFTRTINAPRALLWECWTTPKHIKNFFVPKPHDVDACEIDLRVGGKFNTTM
+NVDGIKMANEGVYLEVVDEERLVFTDTYSEGWKPAADPFMTAIIEFADDGNGGTIYTATA
+RHRSPQARQSHEDMGFYDGWGTVATQLEEYARSLK
+>tr|B7RRH1|B7RRH1_9RHOB
+MAVSQAAKDLAATGVDVCNLGLGEPDFPTPAHITEAAFAAARSERMLYTAAVGTADCRKS
+VADKFQRENGLDYGIDEIAVANGAKQIIFNALMATVEDGDELILPAPYFVSYPEMAKLFG
+GVPVTPACPAENGFRLTPEVLEAAITDKTRWLFLNMPGNPSGAVYSRAQLEALGAVLEKH
+PQVMILSDEIYEHIVFDGRSFVSFGAACPQLRDRTLIVNGVSKAYAMTGWRVGYAAGPKD
+LIKAMATIQSQSCTSVCTPAQIATQAALDGPQDEVLRFRAAFERRRDLVVAGIQGIEGLT
+LDPPEGAFYAYIGCAALIGATTGQGEVLKDDIAVTQYLLNEGRVAAVPGTAYGLSPFFRI
+STATSEAELTKAVTRIADAVGKLSF
+>tr|B7RQ31|B7RQ31_9RHOB
+MARAPLLQVNEITLTFGGDPVFENMSLVVQPGDRLALVGRNGSGKSTLMKVMAGFVEADS
+GDVIVGPGVSVGYMEQDPDLSGFDTLGEFASHGLDPSEMYKVERAGEGLKFDPARPVSTA
+SGGERRRAALARLMASEPELMLLDEPTNHLDIEAIRWLEDELKTTRAAFVIISHDRAFLR
+ELTRATLWIDRGVVRRQEIGFGGFEAWRDQMWEEEDMQRHKLNRKIKAEARWAVEGISAR
+RKRNQGRVRALQDLRAERASQITRQGTAAMALEAGPKSGRKVVEAVGITKAFGGKTILRP
+FDITIQRGDRIALVGPNGVGKTTLLNMLIGKEQPDSGTIKLGTNLEIALFDQARAQLDGD
+MSLWDSLTGDPEMRVSGKADQILVRGQPKHVVGYLKEFLFDEAQARAPVRSLSGGEKARL
+LLAKIMARSSNMLVLDEPTNDLDVETLDLMQELLSTYDGTVLLVSHDRDFLDRVAATTIA
+MEGDGKATVYAGGWTDYLAQRQQDDFDQSVIAKAKPGAKGEKPKASAAKGLSFTEKHRLE
+ALPAEIARLEAEIAKLEELMSDPTLYSDNPVKFQKATDALIERNEKLQDAEAEWLVLEEK
+AES
+>tr|B7RNC6|B7RNC6_9RHOB
+MDGTFNENDISRVVEADRAHIWHHLSQHKPYETTDPRIIVEGKGMRVWDQKGKEHLDAVS
+GGVWTVNVGYGRESIANAVRDQLIKLNYFAGSAGSIPGSNFAEKLIEKMPGMSRVYYCNS
+GSEANEKGFKMVRQIAHKRYGGKKHKILYRDRDYHGTTIACLSAGGQDERNAQYGPFTDG
+FVRVPHCLEYRKFEQDGAPEDNYGVWAADQIEKIILAEGPDTVGGLCLEPVTAGGGVITP
+PDGYWERVQEICRKYDILLHIDEVVCGVGRTGEWFGYQHYGIKPDLVTMAKGVASGYAAI
+ACLVTTEEVFNMFKDDANDPLNYFRDISTFGGCTAGPTAGLENMAIIERENLLQNTTDMG
+HYMLEQLEELSDKHSVIGQVRGKGLFLGAELVQDRSTRAPVIEKMVQAVVADCMAQGVII
+GATNRSLPGKNNTLCFSPALIASKDDIDQIITSVDGALGRVFG
+>tr|B7RFX2|B7RFX2_9RHOB
+MKFQGTDDYVATDDLTIAVNAAVTLERPLLVKGEPGTGKTELARQVSNALGLPMIEWNIK
+STTRAQQGLYEYDAVSRLRDSQLGEERVHDVKNYIRKGKLWQAFEAAGKTVLLIDEIDKA
+DIEFPNDLLQELDKMEFFVYETGETIKAVNRPIVIITSNNEKELPDAFLRRCFFHYIRFP
+EMDTLRKIVEVHHPGIKETLLTTALTQFYEIRDQQGLKKKPSTSEVLDWLKLLLAEDMDA
+ADLKKDGKSALPKLHGALLKNEQDVHLFERLAFMARAQK
+>tr|B7RH65|B7RH65_9RHOB
+MTKIKVDNPIVELDGDEMTRIIWHFIKEKLILPYLDVDLKYYDLGMEVRDETNDQITIDA
+AHAIKEYGVGVKCATITPDEARVEEFGLKEMWRSPNGTIRNILGGVIFRQPIICKNVPRL
+VPGWTKPIVVGRHAYGDQYKATDFKFPGKGKLTLKFVGEDGTEIEREVFDAPDSGVVMAM
+YNLDKSIIDFARASMNYGLNLGWPVYLSTKNTILKQYDGRFLELFQHIYETEFADKFKAA
+GITYEHRLIDDMVACAMKWNGGYVWACKNYDGDVQSDTVAQGFGSLGLMTSVLMTPDGQT
+VEAEAAHGTVTRHYRQHQKGEETSTNSIASIYAWTGGLKHRGKLDNNAALTRFAETLEKT
+VVSTVESGHMTKDLALLVGPDQGWLTTMGFLEKVDENLNKALSG
+>tr|B7RHH2|B7RHH2_9RHOB
+MTTHESKEHFAKVLSAFHQTEQKNDRFDLLNAEGSPSLAGWFIGPMGENASVMQRLVAKA
+VAANASARHEYGTQFHDPVYVTDAIKATQDYKSTINSLEANLDQMLDALHGSIPLSSYRN
+QSHMYWDCTMPGFVGYFAAMLYNQNNVAAEASPVTTMLEIEVGKDLCRMLGYTVPETETS
+GTDTIVPWGHITCDGSIANAESMWAARNLSYLPVSLANAIRLEPEMAAAKDFVVNLVQGG
+SAKLVELDNWGLMNLGIDEVINLTPNIEKKCGISADTIKAMLDKYSVQNIGLAEMHRTYL
+QDLSQLPVLMAPSTRHYSWPKGAALLGLGANHVISTHVDLDGRMKIDHLRENIERCYQDR
+RPVLEVVAVMGTTEESSVDPLADIIALREEYRAKGMEFSVHVDGAWGGYFASILREPRFP
+EPEIEDGAVEHTPAMVMSDYVTRQYQALRHADTQTVDPHKAGFIPYPAGALCYRNGAMRE
+LIAFTAPVVYHGGVDPNVGVYGIEGSKPGAAAAGVYLSHALIRPDKSGYGKLLGKCIFNS
+KRFYGQLLDLAGENECFKVVPFQRLPAQKQGKSDAEVAAQLALIRNEIVPRENDDLLEYF
+MSNPEAQEVFREMGSDQNIVTYALNFRSADGWNTDVKLANDFNTAIFRALSIGTFSSGTV
+PTNPMFVTSSSFEVGDYGQCFVDAFGARLSLAPTNGAGINFLVSTTQDPWVTATDKGNWL
+PIVLEGLKKTALEQTKLIVDANNLRPWKGA
+>tr|B7RJA2|B7RJA2_9RHOB
+MPVITNIQDLKRLHERRVPRMFYDYAESGSWTEQTFRENTSDFDKIRLRQRVAVDMSGRT
+TKTQMIGQDVAMPVALAPVGLTGMQHADGEIKAARAAEAFGVPYTLSTMSINSIEDVAEA
+TTKPFWFQLYTMRDEDYVSRLIQRAKDAKCSALVITLDLQILGQRHKDLKNGLSAPPKLT
+AKTIANLATKWSWGIEMLSAKRRTFGNIVGHVTGVDDTANLGAWTAEQFDPSLDWGKIAK
+LKEQWGGKVILKGILDAEDAKMALQVGADAIIVSNHGGRQLDGAISSISALPSILDAVGD
+QIEVHLDSGIRSGQDVLKAMAMGASGTFIGRAYIYGLGAMGQKGVTTALEVIHKELDLTM
+ALCGETSVKDLGKHNLLIPKDFGGDWQD
+>tr|B7RN72|B7RN72_9RHOB
+MGIIKWIFWGTIWALVAAFFHYTLPQVDIVRITDTYEKRIDFGENSIFWSNADVGNNNTL
+GNRDVFFIQTRRAKGDVMVYRNEDTGWGWPPYFKFDTTNLQAEASDLRSASESPQYVALK
+HYGWRNEFLSIFPNAISVRPVAGPDASKGIPFLNIIILTLFAALTYAIWVRWRRFRAKRI
+DPTLERIEDDFAEKQGKFSRWRASRNK
+>tr|B7RR60|B7RR60_9RHOB
+MVSIVNQRSDERSFSGHSASAHGSRIRQEKMCDGRGDLLQIANLIEHKYNRSQAATVQET
+SKSWLFLTRDHVFKLKKKVRDDLQDLTSLRARLDNSLTENDLNRRLAPRVYLGIIPVVER
+SDGRLNIGGAGEIIDWLVKMHRLPADRMLDVILETHPTNPQKSRTHIEALSRTLVEFYRS
+APVSLLNAGELATNMREQQQLNRECLLNAMFAQHHARFQATFDALDRAATKHFPSFESRV
+KAGWIRECHGDLRPEHICLVDPPVVFDCLEFNRNLRLVDPFSEVMFLGLEAAILGATWIK
+PFLIDRLLKGLGTGPDPDLLQLYEALHALLRTRLCLAHLLVPTPRKPEKWVPLGLRYFEV
+AERLLCGPTGLGS
+>tr|B7RPN2|B7RPN2_9RHOB
+MFDLGWSELLIIGVVALIVVGPKDLPILFRKVGQFVGKAKGMAREFSNAMNDAADDTGMR
+EISSGLNKSLKAATNPLGTAMDGVKSATKSLADINPDSETGKLAAERAENAAKMKAVRDR
+NIAERKEREAAEAVKAADTGTAKPDASATEKAPAKKPAEPKPAVAKKAPAKKAPAKTPAA
+AKSAAAKKPAVKKPAAKKPAAKKSDT
+>tr|B7RH86|B7RH86_9RHOB
+MTNSIALNIPLLSSAMDTVTESRMAIAMAQAGGMGVVHRNLTIAEQAEEVRRVKRFESGI
+VYNPITLRADQTLADAKALQQRYNVTGFPVVDEKGRVVGIVTNRDMRFATADDTPVRLMM
+SSDNLAILHEPADREEAISLMKARRIEKLLVTDAQGKLTGLLTLKDTEQAVLNPTACKDG
+LGRLRVAAATTTGDAGFERSQALVDAGVDMIVIDTAHGHSEGVAIAVERAKKLSNEVQVV
+AGNVATGEATRALIGAGADAVKVGIGPGSICTTRMVAGVGVPQLTAIMDCAKAAGDIPVI
+ADGGIKFSGDFAKAIAAGASCAMVGSMIAGTDESPGEVILYQGRSFKSYRGMGSLGAMAS
+GSADRYFQKDAASDKLVPEGIEGQVAYKGSAAAVVHQMVGGLRAAMGYTGCATVDEMRKN
+CSFVKITGAGLQESHVHDVQITRESPNYRIG
+>tr|B7RG94|B7RG94_9RHOB
+MRSEDFARFAEIWATPSVVTHISGKPWPKARSWDAFLRNAGHWQVVGFGQWGIQPRGSRV
+MAGQTGFFYGSRGLGEDFDPFPEAGWVLSPEAQGTGLGLEAARAAHDWFDRVVTGRTVCM
+IAAENAPSLRLAESLGYVDQRTVTIDGDSVRLMTRKGPPV
+>tr|B7RH83|B7RH83_9RHOB
+MLFFTIWPLFALICLGFILVRRGFPDPGFWPAAERINYFLLFPALLVSSLADAPVRDPQV
+IRLGSAAVVIILVAALALALTRRARPMPAARFGPLLQGTVRFNTYLGLSILATLAGPAGI
+ERAALYLAIAVPLVNVLSIMALTEAGRTRTPLAMLRTMARNPLILACLGGIALALTGWGL
+PFGTGRFLDLLAQASLPLGLLCVGAALQPAALRRDGLTLAASGALRLLLMPLLAALVAHA
+FGLSGVEALVLVVFSAIPTAPTSYVLTRQLNGDGTLMAGIVTSQTIAAIATIPLVLWVLG
+P
+>tr|B7RND6|B7RND6_9RHOB
+MQTQALITLAQWLSPSFPIGAFSYSHGLEMAVHDGTVHDATSLQAWLADIITRGAGRTDA
+ILLGAGYHGEGVADVDALARALAPSSERLTETAQQGAAFVRVVNDVWGHDLPDLTLPVAF
+GAACAAQGLPLKDAAQMFLHAFVSALVSAAIRAVPLGQTDGQRVITALAPLCRQTVEIAL
+TQTIDDIGSACFLADIASMQHETLYSRMFQT
+>tr|B7RPT9|B7RPT9_9RHOB
+MFRETMPASAGMLFVYDQSHRASFWMRNTLIPLDMLFIDSRGVVQHIHHNAIPHDETPID
+GGDNVLSVLEINGGLAKRMGITVGSELRHRVFAELNPAWPC
+>tr|B7RQS4|B7RQS4_9RHOB
+MPEFETGRLIYLLLLLLMVAGWFFMQSREGLNKTLQQAAVWGMIFVGVAAGYGLWGDISR
+SSAVPQQSYEAGIGSVTIPRARDGHYYLTAQINGASVRFVVDTGATDMVLTRADAQRVGL
+SPDQLNYLGRASTANGEVRTAFVRLKEVQLGEVRDFDVSAVVNDGEMQQSLLGMGYLQRW
+GRIEIANNELILTR
+>tr|B7RHT1|B7RHT1_9RHOB
+MALSYKARRRWSLVLLLVGLPVYIVAAVALIAMFDRPSVLVELAIYIGLGIIWAIPFKFL
+FKGIGQADPDDQN
+>tr|B7RQM3|B7RQM3_9RHOB
+MSDRRGLLIILSSPSGAGKSTLARKLRDWDASLQFSVSATTRAPRVGEVDGKDYFFTDEE
+KFRNMVNDGEMLEHARVFGNYYGSPKGPVQKSIDNGRDVLFDVDWQGAQQISNSALKQHV
+LSIFILPPSIRELRRRLETRGQDDPETIALRMEKSWDEISHWDGYHYVLINDDLVDTEAR
+LKSIITAERLRLSQQPKLVDHVRALQAEFEETK
+>tr|B7RHM3|B7RHM3_9RHOB
+MVAAGDEGLSGSYAFRGDDCSVGRVIISDTKLDRGHVQCTFTDRVGVQRMQAELRDANCH
+VEDQPEATRYFIARTAEWLMLFSPDLGMELLDHCS
+>tr|B7RKJ7|B7RKJ7_9RHOB
+MTNAAEKRGGAPVGLLTELTAIEATSVMCLRLWSDGADAQAKVLDDFVAGLGAVRGRKAM
+QSFERLCDLCASYGRRPLMRHAVQCKCLGADESCFANFIATAAEGEREDALLIATLLVRP
+DVAPLIASCAAEFGLALKRMHLCRPRNIAGLDTTPTTFH
+>tr|B7RLS8|B7RLS8_9RHOB
+MKTMTKGANALPLNTILAGDCIEAMNAMPEGSVDLIFADPPYNLQLKGDLHRPDNSKVDA
+VDDAWDQFASFAVYDKFTREWLKAARRLLKPNGAIWVIGSYHNIFRVGAALQDQGFWILN
+DVVWRKSNPMPNFRGKRFTNAHETMIWAGKDENSKYTFNYEALKALNEGIQMRSDWVLPI
+CTGHERLKDDAGDKAHPTQKPESLLHRILVGSTNPGDVVLDPFFGTGTTGAVAKMLGRDF
+IGIEREEAYRKVAEKRIKSVRKFDKEALQTTTSKRAEPRVPFGQLVERGMLRPGEELYSL
+NGRYSAKVRADGTLIGNEVKGSIHQVGAAYEKAPSCNGWTYWCYKKDGKRVPIDILRQQI
+RAEMAN
+>tr|B7RLL2|B7RLL2_9RHOB
+MARAKFLCDAERCIECNACVTACKNEHEVPWGINRRKVVTIQDGTPGERSISVACMHCSD
+APCMAVCPVDCFYQTDDGVVLHSKDLCIGCGYCFYACPFGAPQYPQAGNFGSRGKMDKCT
+FCAGGPEENNSEAEFQKYGRNRIAEGKLPICAEMCSTKALLAGDGDVVSGIYRERVVARG
+FGSGAWGWGTAYDQKGG
+>tr|B7RIE0|B7RIE0_9RHOB
+MPLDSYDRDVSGLFGVDTEVRALWPGGGWLEGQTWLPASDGLPECLNDRQSAVPLPN
+>tr|B7RJ23|B7RJ23_9RHOB
+MKNATKNSSSPQAALRAIWQTLIILQSRKGQTKMLNTSSHKNGRSIPALLALTAGSLVIA
+CLATASPAETVEDKIKRSLTAAPSDITDDATIMDVDGTVLRAGSNGWVCLPGIGLIPGDQ
+HPMCNDAVWMKWMAAAASGSAFSTDVVGVSYMLAGDALVNNDNPMATDPGDGGVWVQEGP
+HVMILFPDLKVVADLPRTPFAGGPYVMWGETPLAHVMLPMEAKQAPK
+>tr|B7RK02|B7RK02_9RHOB
+MDKKLLLIILDGVPYRNFRRLFGNLEGWVDSGDARVWTQRAVLPSISASCYASIHTGVAP
+AEHGCTGNGNVFRLKHKDVFSQVREAQGITGAVAHSFWSEFFNRHPFDYVRDIEYDEPDS
+DTINHGRFHTMTGYGLINQMTPSDADLFGTLTNLAGRFGLNYGMLHTCTLDSMGHRFFHD
+CQEMDHACAVMDEMLAPFIPRWRAMGYEVIVTADHGQDDRGHHGGRSALQQETALYYFGD
+ADGPSEDTVIDQLQLAPTILGRLGAPVADTMKAKSFLS
+>tr|B7RMX3|B7RMX3_9RHOB
+MLDNLPRGTICIEDIEMGMSRHLQKVVTDEDIEMFAQISTDRNPVHLDDDYARDTIFEGR
+IAHGMLTAGLISAVIGEQLPGHGTVYMGQSLKFLAPVRPGDLVYAEVKVTYIDFTKRRVK
+LDCHCAVDGKKVLIGEATVLAPSRKFD
+>tr|B7RPC7|B7RPC7_9RHOB
+MPSLINRVKPAKSLRPDPAPSRWAWRMQRLMLTPTFRFGLRVGMPFCLSLIAGTIYLSDD
+ARRAQITDIYTNTRASIEQRPEFMVKLMAIDGVKDQLAADVRAAVPVEFPTSSFDLDLPA
+MRATLMALPGVKQATLRIKPGGLLHVDVQPRVPVAVWRTEDGLVLVDIEGRAIGAIAHRG
+ERNDLPLVVGDGADTRLTEALQLNRAAAPLGDRLRGLVRMGERRWDVVLDRDQRILLPET
+GAVQALERVIALEGAQEVLTRDVARVDMRLAQRPTVQMNKEATQEWWRIRQISGQ
+>tr|B7RFL1|B7RFL1_9RHOB
+MKSSRSRSRSKNNRNRQPQGGNVVNRVFDSSGPEGKVRGTPQQVIEKYNQLARDAQLSND
+RVAAENFQQHAEHYLRMLSEAQREIDQRREEQERQQRERQEEQERQNRERQAERDRERAE
+RQEREAANAGQGNQQGHDESDQPVNAQPSDAQPDAPKDQAEQPKRRRSRSKPAEDAGQSE
+STSDESSAEESNLVDTPESKPKPRRAPRRKPQPKAEGDSGDGAGADQATGDQPKAAE
+>tr|B7RFZ7|B7RFZ7_9RHOB
+MRAEAQNTAEQISKSLELLAQRLNVETAPYRLEEFNARVEDPNLWDDPDAAQKLMRERQA
+LVDSIATYEGIKQELADHVELIEMGEMENDAEVVAEAEAALKALAETAAQKELEALLDGE
+ADSNDTFLEINAGAGGTESCDWANILARMYVRWAEKKGYKVELQSESAGEEAGIKSATYK
+ISGLNAYGWLKSESGVHRLVRISPFDSAAKRHTSFSSVWVYPVVDDNIEIDVNPSDIRID
+TYRSSGAGGQHVNTTDSAVRITHHPTGIVVTSSEKSQHQNRDIAMKALKSRLYQMELDRR
+NAAINEAHENKGDAGWGNQIRSYVLQPYQMVKDLRTNFETSDTKGVLDGDLDGLMGAALA
+LAVSGKSRAEAQAG
+>tr|B7RHL1|B7RHL1_9RHOB
+MSCFFVFAYFNWMQDIILDCVFQSVFCLFGFVFDFIVERYVFD
+>tr|B7RM07|B7RM07_9RHOB
+MAIELPATRPANPRFSSGPCAKPPAYDLTKLASAPLGRSHRAAPGKAKLLAAIETTREVL
+GVPADYKIGIVPASDTGAYEMAMWTMLGERPAEMVAWESFGAGWVTDAVKQLKIEHTVHT
+ADYGQIVDMASLNYDNDVCFTWNGTTSGVRVPTGDVIPADRKGLTLCDATSAAFAMDLPW
+DKLDVTTFSWQKVLGGEAAHGMLILSPRAVERLENYTPAWPLPKIFRLTKGGKLIDGIFK
+GETINTPSMLCVEDYLLALDWAKSVGGLQGLIGRADANTAAIAKFVEDHDWIDFLATDPA
+TRSNTSVCLKFTDDRITDGAAFAKAVAKRLADEDVALDVGAYRDAPPGLRIWCGGTVETS
+DIEAMLPWLAWAFESEINA
+>tr|B7RL29|B7RL29_9RHOB
+MKVLVPVKRVIDYNVKVRVKADGTGVDLANVKMSMNPFDEISVEQAIRLKEAGQVDEIVV
+VSIGVKQSQETLRTALAMGADRAILVVAADDVHNDIEPLTVAKILKAIVDEEQPGLVLCG
+KQAIDNDMNATGQMLSALLGWSQATFASKVEIDGDSAVVTREVDGGLQTIKVSMPSVVTV
+DLRLNEPRYASLPNIMKAKKKPMDEKTPADYGVEIGNRLEILKTVEPAERAAGIKVDSVD
+ELVAKLKEAGAV
+>tr|B7RIZ1|B7RIZ1_9RHOB
+MRKWLTYIALLLAAMTLLGDLIATVFALLTGDLTGQFLIKALIVMIVAGGIFLFYVDDIR
+RGDQE
+>tr|B7RHC1|B7RHC1_9RHOB
+MVPVVLIMPGAGVSLLLALFAGLSLLCWIILRIVFKRQSSGARIVERDINDG
+>tr|B7RHR2|B7RHR2_9RHOB
+MFLSVFDMFKVGIGPSSSHTMGPMVAAARFLDQMRASPFKFAGLRASLHGSLAFTGVGHA
+TDRATVLGLAGFTPQDYDHALAETTLAEIRQTRQITLSDLGVLTFNPETDIIFDYDVKLA
+GHANGMMLMATDAQGDVTLRETYYSIGGGFVMTEAELAAGKATDEGAPVPYPFKTATEML
+EMAKISGKTIAGMKRANEESRGGAAHLRDGSKRLWQVMNDCINRGLETDGILPGGLHVKR
+RAKGIHDALLAERGTNQQAPHTINDWMSVYAMAVNEENAAGGQVVTAPTNGAAGVMPATL
+RYYLDHVPGASEAHIEDFLLTAAAIGGLVKFNASISGAEAGCQAEVGSAAAMSAAGLCAV
+LGGTPEQIENAAEIALEHHLGMTCDPVRGLVQVPCIERNGLGAIKAVSAASLALRGDGTH
+LVPLDACIETMRQTGADMSEKYKETSLGGLAVNVPNC
+>tr|B7RP61|B7RP61_9RHOB
+MNVLSLQDFGVKRGRRQILGGITLDIAAGEVVGLIGPNGAGKTTLMRAALGLIPSQGRSS
+IAAMTARDRGRAAAWMPQSREIAWPVDVEILIRLGRTPHLARGQKMTATDQAAVERAIVR
+MGLEPFRHRTTTRLSGGEQARVLIARSLAQEAPLLMADEPTAGLDPAHQIATMQTFGQLA
+AEGRSVLVSLHDLGLAARHCTRLVILHDGGIAADGAPRDVLTPDLIRAAFGISAYLKETP
+EGLIFQPLEVLT
+>tr|B7RPR9|B7RPR9_9RHOB
+MGVIDKIVGLVFGNGGSMVRDTVEVFRENAESGAQRWAAAQDQAMAQFGAEFTVERKGWF
+DRFMDGLNRLPRPALALGTLGLFVAAMVDPIWFAARMQGIALVPEPLWWLLGVIVSFYFG
+ARHQVKTQEFQRSIVRTISQVPQVVDNIRALQSLRHDSVDAAATGPDVTLSLATIQTAEN
+AALEDWRKATA
+>tr|B7RQ82|B7RQ82_9RHOB
+MIQKSVCIYCGSRAGDDPTFAAQAQAMGQGLADHNWRLVYGAGDVGLMGTVARAAQSAGG
+NTFGVIPQHLVKWEVGKTDLTQYIVTETMHERKKVMFMNCDAVVVMPGGAGSLDELFEVL
+TWRQLGLHEKPVILLNTNGYWEPLVQLLEHVVARGFADATLLEYFTVVPDADAALATLRE
+TLG
+>tr|B7RI69|B7RI69_9RHOB
+MLTAAIVTATSLTSPAFAQEVTLRGVSAFNLGTTFSREFEAFVGWVNENGKGVVQIQIIG
+GPEAVPPFELGNAVQSGVVDIANNTSAFYPNLVPTGDAIHLAENTVQEQRENGCYDVIDR
+IHQEQMNAKYLARAGDGMGFHLYLTKPVEGPDLSGLTIRTTPVYQAMFAALGANLVRTAP
+GEVYSALERGAIDGYGWPSQGVLDLGWDEQTKYRVDPSFYNVDVNLLVNLDVWNGLTDEQ
+RAKLEEGAAWMEALNANNADLNAAEYAKQAEAGIETITFDAAGAEKWLNTARDAGWAAVD
+AIDAPLAKELRACLVK
+>tr|B7RHL6|B7RHL6_9RHOB
+MDGNNVNSTGGCPVMHGGNTTVEQSVTEWWPRSLNLDILHQHGARTNPMDVDYNHRDAVK
+GLDYEAVKADVHALMTDSQEWWPADWGHYGGFFIRLAWHSAGSYRLGDGRGGAGSGNIRF
+APLNSWPDNASLDKARRLLWPVKKKYGNALSWADLIVLSGTIAYESMGLKTFGFGFGRED
+IWAPETDINWGNDSVLMAPTDERVTDVEDANTMYNPLAASHMGLIYVNPEGVNGNPDPAL
+TAQYVRMTFSRMAMNDEETAALTVGGHTVGKCHGMMADIGPAPEGAPIADAGFGWDNPNF
+NGKANTAHTSGLEGAWTTNPTQWDHGYLELLLGQEWELKKSRAGAWQWEPINLPEELKVP
+DASDPSIKHNPIMTDADMAMKIDPIYREICERFYKDPAYLAETFSRAWFKLTHRDMGPKV
+NYYGPDVPAEDLIWQDPVPAGNTDYDVATLKAKIADSGLTAAEMIATAWDSARTFRGSDK
+RGGANGARIRLAPQKDWEGNEPDRLEKVLKTLTPIAYDNGASLADVIVLAGTVGLEQAIR
+AGGFNVEVPFAKGRGDASAEQTDADSFTDLEPLADGFRNWQKENYAVRAEELMLDRAQLL
+GLTAPEMVVLVGGMRVLGTNHGGSKHGVFTDREGTLSTDFFVNLTDMANSWHPVDQDGLY
+QLRDRKTGAVKWTATSADLVFGSNSILRAYAEVYAQDDNAEKFVRDFVAAWTKVMNADRY
+DLVA
+>tr|B7RLY1|B7RLY1_9RHOB
+MKRIFAVYADAMDSFSVFVGQACSVLFFACIAVSAAEVVLRYGFNAPTLWSTELAMTLCA
+SAWVLSVGYVTQRHRHISITMLELIVGERVWRKFRLIQMMIATGALFVLTMALYDPAAKV
+LGRTEYSGTAMNSPQPTYLKILLFLGCIFYILQLLANIVRWFQHTEGDVTGGH
+>tr|B7RPU4|B7RPU4_9RHOB
+MAAALLTCTALLSPAALSAQEDETTITAVMHSGLRVLDPVITTAHITRNHGYMIYDVLTA
+VDENFAPQPQMASWEISDDGLVYTFTLRDGLTFHDGAPVTGADVVASLNRWGKKDSGGQL
+IFDVTASLEAPDDKTVVWTLSKPFAPLLDVISKQSAVPPFIMPARVAETSSDETITEYIG
+SGPFVFNEAEYEPGVNVTYEKFDDYVPRDEPASWMAGGKVVNVDKVVWTTMPDALTALNA
+LSAGEIDYLEQVQIDLMPIISGNPDVTVEKRDELGYVTIGRPNHLLPPFDNKLIRQAAMA
+ALDQESMLATMQGDPAYYNVCGAIFGCSTPLGDESGSEDLTTGANIEKAKALLEEAGYDG
+TPIVLMAPTDVISLINQPVVAAQALREAGFEVDMQSMDWQSVVQRRAQQSPVAEGGWNMF
+FTNWMVPEVSDPLINVMVNGRGDDAWFGWPTDPEIEQLRADFVAAPDAAAQKEVAVKIQE
+HVMDNVNYIMMGEYIIPQARRNTIQNMIPSPVPVFWNMTKEAE
+>tr|B7RR30|B7RR30_9RHOB
+MDEATSLVDDATTVIIAKIQAIYDAAKEDIEDALDIDMTSYDGQPETPQLLSTQAKISTD
+KQLVLSTLATRDPVEILKLEPLIETTHSNIITLYDLTIDIDVRIQKETYKTLGASDAHAD
+GIVALLDANDDAGEAVIAILERNKAVLKGQEATRTYIEDKGKEAKQLAAELAAINAEWTP
+LNDDFKEKLADYNEKKKAFAEEKERVTLLGGDATDEDRAAVKAARLAEQAAFQVGLLAQT
+AKDEKETEYHEKKAEVDISEKELKAAKGQRAMLDAITFGPLSPLAAHPIPDEMLEDVVKL
+FGSNPDIAIQTCALAPDAKDQKALAQTALLMAAQCEANFLWQPPAGSDGVVPPEKTMGQE
+NAANYAKHALKQAAFFGAEFAAEAEVAVANGVPHKQDAKMRALTDYSMKNVAASRAIGAA
+ETVIQRTPASGGVPAGIKLDLNSAAFNTMLIEQRHGFDSAFRATVTLTEQMGNLQNFFGD
+ATKGDTRRAEAEAILNSVTTVPASPAARSLLSTQMGIPAEDFDDPLKADEVKEKIQVGIL
+KAVTTPIAQGDVGSCFATAPLRKLQNDDPVALMEMYRDIATTGVFNPKHGRPVPAVTNLP
+PGDEPLARSLEYSIATAAARLQNSRERRHMNATMFGAYDPSEPSLGGLKNEVDTDAWRKL
+EPKLQQAVIGGYTFVYDPTRNAGAVSADGSSSKGVYKMVTVDTKEEVLSQADFVKFIKRK
+ALEAVAAAGLGDADRDKLTAYIDESAFINGIDKLAGSDKPWEMQFGGWGDSAGAVLLPQD
+DGSKRPENLRGHDVVSEDGSDSTGERAVKVLKAIAGMGGGDMTMVSTGGIHAFNAVAPEG
+EFAKLNDPPGFDANVQAKLVDPGLKIATDKLPKDRAAYLYGKRIDAVLPWAADDAEVDLI
+KAALATPPDTDMTPAKLEAYISSKLEPWKTATVNRKSNEWTAKQNPLPAPGEIRQKKADL
+LAAENERQKKAVTTMMAAEMGVPTFVIADSNWGSEADKAMFVIAPDPLTGEPRMWVKWVV
+SGTMSPMEDKWLNTNWVKDQ
+>tr|B7RSI8|B7RSI8_9RHOB
+MPSSLHSAIDPHPKEHIMKISPFAVEIWMNEFETKCELNLAETCVESLTVGQLLDMADKK
+DVILSELLPMKLTYGAIEGSPRLRKLVAGLYKNQQPENVTITHGAIGANALAHKTLVERG
+DRVISVLPTYQQHYSIPESIGADTQVLRLTEETSFLPDLAKLQELATPGTKLIVINNPNN
+PTGALMDRAYLKKIVEIARSVDAWILCDEVYRGTDQNGDGETVSLADLYEKGISTSSMSK
+SYSLAGLRLGWIVAPLELIQAVSIHRDYNTISVGMLDDHFACIALENRDKILARSRAITR
+TNLAIVAEWVEQEPLISWIKPQSGTIGLLKYDLPITSREFCLNLLKETGVMLTPGSAMSM
+EGYVRIGFANNEHHLREGLGRMSRFLAAQRVVTA
+>tr|B7RSH2|B7RSH2_9RHOB
+MAAHPHVFIDTGFELILDDTGQITHVRVIWQYDDFYSLLITEDMALDSDGDGVLAEEEIT
+RLTGFDMKWDESFNGDLVVTEGDNLVALSGPQEVTASFADGRITTTHLRALEVPLVPGKT
+LIMKAYDPTYYSAYEVTGPVAVTGGGVCHVRQKAPDPDTDLRALQAQLATLDAQADPQDA
+GLPNIGAQMAGSVIVICGAS
+>tr|B7RS19|B7RS19_9RHOB
+MKLTTKTLIAGLMATGISTAAFAGTDVGVGAAAGASAAADSGVSATAGADVTGAASTSKS
+MDKANKVEKKTTELAKENYGQLISELRSNSSTSADVEAEITDFNANSELQTVTVTELKGN
+TSENAAALDGALEAQEESVADMRAAIEANADLKAQVEAEGFTPEQVVAVRTNGMGGLTLV
+VDDRG
+>tr|B7RQA3|B7RQA3_9RHOB
+MPELGKYATEVMAAYGASLLLLAGLVLLTLRKGRRARAELAKIEAQRRG
+>tr|B7RHE0|B7RHE0_9RHOB
+MIYQTATGWTRDLAQAEVLTDEADADLRMIDASQQTDLVVGVYLADVDASAAPKPVHFRE
+AFRAKGPSNYAHGKQEAL
+>tr|B7RP46|B7RP46_9RHOB
+MPTGVFAAGGGDETAPPKPAVSCESGMVYDKKTKKCVTAKDSRLSPDDLYETVRRLAYAG
+KYQDAQLVLAAMPAQDDRALTYMGFTHRKMGNDAESMAFYTRALKVNPANILARSYMAQG
+MVEQGNIADAMAELRAIRSYGGEGTWAEASLRTAIATGQTFNY
+>tr|B7RJR6|B7RJR6_9RHOB
+MAQTTAPTKTILRALAGETLATPPIWMMRQAGRYLPEYKATRAEAGDFLSLCYNPDLATE
+VTLQPIRRYGFDAAILFADILLVPQALGADLWFVTGEGPRLSTVTTQADFDKLKPVDAIH
+ETLNPIYQTVRNLGGALPPETTLIGFAGAPWTVATYMIAGQGTKDQGPAHQLRINDNPLF
+ESLLNLITKATIEYMSAQIDAGAEVMKIFDSWAGSLSGEAFQKYALEPAREITQELKKRH
+PGIPIIGFPREAGDQYIGFHRATGVDCVALDNSVSAEWAAANVQVDGCVQGNLASRHMVT
+GGQDLVDETRAIVKAFSKGPHIFNLGHGITPDADPDNVQLMIDTVREAG
+>tr|B7RLK2|B7RLK2_9RHOB
+MSDLFLARAIHFDESDRNVFHSPARTGEWCVSGGFEFSNWSDGDLTGKARQAFANGWMGV
+ETFGRVTFVAVTKAEPFEVEAITLQLMKHFVEIYGAPSMEAARPVAEEEVTQMMELCADH
+APNTLLTVARELSESGVRESFRFIEPQDAGIDQFAVHGSLDEDDHDHDHSGHGHSH
+>tr|B7RN42|B7RN42_9RHOB
+MSDILLVHGSCHGAWCWRDLIPALVALGHSPRAIDLPSHGADQTPVNDVTLDSYADAVLA
+ASTPETVVLGHSMGGFAISAAAQKDPDAMAQLIYLCAYVPAPGLSLADMRKQAPSQPLMP
+AVRLREDGKSFTLDPTMTEGLFYNDCPDGVAAFANPQLCAQAVAPTTAALPDTARADAKR
+RSYIRCMDDRTIPPAYQVTMTKDWPSADVYEMSTGHSPFFADPKGLAQIIDTILKR
+>tr|B7RKQ6|B7RKQ6_9RHOB
+MTSTSIGTPEQLRDPNYTPALSRAIPLGIQHVLAMFVSNVTPAIIVAGAAGFGFGSNSPD
+FPELLYLIQMSMLFAGVATLLQTLTIGPIGAGLPIVQGTSFAFIPIMIPLVVGKGVDGLA
+ALFGGIVIGGLFHACLGLFIGKIRFALPPLVTGLVVTMIGLALVKVGIQYAAGGVPAIGT
+PEYGSLLNWSAALVVIFVTLGIKFFTKGMLSISAVLIGLIVGYIYALAAGMLTIDAITGS
+WGRSAAFALPNPFKYGFEFSAAAIIGFCLMAFISAIETVGDVSGITKGGAGREATDKEIE
+GATYADGIGTAIAGVFGGLPNTSFSQNVGLIAMTGVMSRHVVTIGAIFLIICGLVPKVGA
+VIRTIPIEVLGGGVIVMFGMVVAAGMSMLSDVDWNRRNMVIFAISISIGLGLQLEPGAVQ
+HLPDTLKILMTSGLLPAALIAIVLNLLLPEELAAESTEEVSGGMSGTSKGSLPH
+>tr|B7RPA6|B7RPA6_9RHOB
+MDLHARYPALSDLRQRAKQRLPKFVWDYLDSATGGAATKRLNRAALDRIGFMPSILHGEF
+VPDLSTELFGHRFPLPFGIAPVGMSGLIWPDAEAHLARTAARVGLPYSLSTVASQNPEDL
+SPHLGENAWFQLYPPRDPEIRTDMLNRARGAGFKGLILTVDVPVASRRERLTRSGLTNPP
+RLTPRLMAQVARRPAWAMGMARRGMPNMRMLDKYKDTTAKGLSSTAHVGYLLRTSPDWDY
+VKWLRDAWDGPFLIKGVLRPDDATQLEQIGADAIWVSNHAGRQFDAAPATIDMLPGIRAA
+TGLPVIFDSGIENGIDILRALALGADFVMLGQAFHLALAALGPKGIDHLIDILAKDLTAN
+MGQLGARTLRDLPPTLPLNAFPAFPNGKKSPPEG
+>tr|B7RR67|B7RR67_9RHOB
+MIDKILLAVDGSLNAVRATDLAAELAAKLNADLSIVHVLMHGRPSAELVHMAEVEHLVEE
+AHAVVSPGIAYVTGSHPEVLGASATDPRYARVIAALGDQLVTRAKARCADQGVKKIETDV
+RAGDYAEEILDAAKDFKADMVVIGSRGLGLLKSTVLGSVSQKVLHHAECSVVTVR
+>tr|B7RLX8|B7RLX8_9RHOB
+MMQLGYAEEDFRDKPVIGVLHTWSELNTCHSHFPERIKDVKRGVTQADGFAVEMPALSVD
+ESFTKPTSMLYRNLLAMETEEVIRSHPLDGVVLMGGCDKTTPGLVMGAISAGVPMIFLPA
+GPMLRGNYAGKILGSGSDAWKYWDERRAGNISDQEWLGIQGGIARSAGTCMTMGTAATMM
+SIADAMGLTMSGASSIPAVDSNHQRMSAACGRRIVDMVWEDATPDTIITDASVRNAAMVA
+MATGCSTNAVVHLIAMARRAGVALTLDDLDALGRSTPLIANVRPSGKDYLMEDFYYAGGL
+RALMKQMEDRLDTSCMTVTGHTVGENLEGAVVYNDDVIRPLSNPVYHEGSLAVLKGNLCP
+QGAVIKPAACDPKYYVHEGPALVFDSYPEMKAAVEDETLDITPDHVMVLRNAGPLGGPGF
+PEWGMLPIPKALINQGCRDMLRISDARMSGTSYGACVLHVTPESFVGGPLALLKTGDIVR
+LDLPNRTLDMLVTEEELDARSKALKLPEPRFERGYGYMFSKHVTQADEGCDFDFLQSDFG
+KTAGEPDIF
+>tr|B7RHU2|B7RHU2_9RHOB
+MKKLLLATAALALSTGFAMADAHGKTIRMGTEGAYPPYNFLNDSGEVDGFEREVGDELCA
+RAELTCEWVTNEWDSIIPNLTSGNYDTIIAGMSITDEREEVIDFTQNYFPPAASAYVAKS
+ADADLKGGVVAAQTSTIQAGFVAESGATLLEFATYDETVAAVNNGEADAVFADKDALAPT
+VEESAGELVFVGDDVPLGGGIGLGLRESDTELKAKFDTAIQSMKDDGSLNKLIIKWFGEG
+AKTF
+>tr|B7RJN6|B7RJN6_9RHOB
+MKTGPKNLITDIQGLRVGNAQDDALKSGATVLTADRPFTASVHVMGGAPGTRETDLLAPD
+KSVAAVDALVLSGGSAYGLDACSGAVDGLRAAGRGFRVGNATIPLVPGAILFDLLNGGDK
+TWADNPYRALGRSAFDTASDSFALGTIGAGTGALSAMVKGGLGSASLQLPDGTMVGALVA
+ANPVGAVTTPGDRHFYAAPFEMGTEYGGLGPDTTSGLGLDLTSRKTAAMSPRENTTIAIV
+ATDATLTKAQCQRMAVAAHDGIGRATVPAHTPHDGDLVFALSTDGHQVADNMLALIGHAA
+SLCLARAIARAIYHATPAPGDLLPCWSDLNA
+>tr|B7RM10|B7RM10_9RHOB
+MMNFKKTGLILAMASFAATGAWAQAQSTNRVAAQTDWSVFVEDNPTECWGVSTPKNSVNS
+RDGRVVAVNRGQTLLMVFYRPSAGAKGQVAFTGGYPFASGSTVNMNISGDSYELFTDGEW
+AWPASADDDNKIITAMKRGADAVLTARSGRGTQTKDTFSLLGFTAAVEDAAKRCGG
+>tr|B7RMZ8|B7RMZ8_9RHOB
+MTSLRDHIIERIHTTGPMRIDEYMAMCLLHPTRGYYTTRDPFGAEGDFVTAPEISQMFGE
+LIGLCLAQTWLSQGAPARFTLAELGPGRGILMADILRATRAVPGFAQAAEITLVEASQTL
+RDVQRTTLAGHQVQWCDSADALPDQPLYLVANEFFDALPIRQFVRDGTGWRERQIGLTDG
+ALSFGLGPMLPQPAFADRLEDTQDGDLIEDCAQLAPTVQAIANRISTHGGAALIIDYGDW
+RSLGDTFQALRGHQTVDPLSAPGSSDLTAHVDFEKLAIAAAPAQHSRITPQGVFLERLGI
+TQRAQTLATTMTGKVLEGHVAAHRRLTHPSEMGNLFKVIGLFPPTQNPPPGLDP
+>tr|B7RN34|B7RN34_9RHOB
+MGDQPHPFLAIAEMAPKKGLKDLKVKVERGGAYVRLYQDAPPLFFKHRNDPSDSFDRESF
+NNSKRILLSEEDCQAGPQATIELIRSLLEKFADYTPQRS
+>tr|B7RPP7|B7RPP7_9RHOB
+MAALGRLTLAALATIGSVTLFACSALVHIFRPPFYAGQFGTALVQIGWLSLPVVGLTALF
+TGGALVMQIYAGGARFNAEAVVPQIVAIGMVRELGPVLVGLMVAARVTAAIAAEIATMKV
+TEQLDALITLSTDPMRYLTVPRVLAALLAVPLLVAVGDIIGIMGGYFVATGSLGFSSGAY
+LRNTVNFLEPLDIASSLIKGTAFGLIAALMGCYFGLNAGRGARGVGRATKSAVEAAAILI
+LAANFILTAVIFAL
+>tr|B7RQ55|B7RQ55_9RHOB
+MRGYEAGMSDAVENPKIPAFVLVRPQMGENIGAAARAMWNFGLDRMRIVSPRDGWPNPSA
+VAMASGAGRLLDEAVVHDDLAGALGDAAFVFATTARERDLTKQVYSPEAAMAKAAELIAQ
+GQRVAVMFGPERAGLENDDIARANAIVSVPVNPEFASLNLAQCVLLMGYEWMRAQGAVVP
+EQVEMAGTNWADNSEVEHLARHFEERLEVAGFFYPEHKATSMKVNLRNMWSRLPLTRADV
+QMLHGTLRQMVRWKERG
+>tr|B7RQA1|B7RQA1_9RHOB
+MIALLRRDLMLAFRAGGGFGLGLAFFLIVTVLVPFSVGPQSELLSTIAPGVLWLGALLAC
+LLSLDRLLALDFEDGTLDLLATAPLPLEAALSVKALSHWLTTGLPLVLAAPVLGLMLNLA
+PSGFMWLIASLALGTPALSVIGTFGAALTVGIKRGGLLMSLLVLPLYVPTLIFGAEAARR
+GAMGLDPGTPLTLLAGITLGTIALMPFASAAVLRMTLR
+>tr|B7RJS3|B7RJS3_9RHOB
+MGVTWSNDAGLTLTAGGKTLEYAAWGPKPGDAPTLVLLHEGLGSVALWRDFPQALVDATG
+FGVLAYSRAGYGASDPVDLPRPLDYMTREATESVGDVLDAAGIEHAILLGHSDGATIATI
+YAGSVSDMRIRSLILMAPHFFTEPMGLAAIKAAGKEYDSGNLKEKLGKYHANVDVAFHGW
+HDAWTDPGFEAWHVADAIDHLRIPVLAIQGRDDAYGTLAQIEEIETRIYSPVETAILDNC
+GHAPHLDQPHATVEAIRDFCARLDRIEREAVQIA
+>tr|B7RHP2|B7RHP2_9RHOB
+MTIYRSPFPDVPLRDVTITQHVFSHLGDRLDETIVTDGPTGRSLTARQFIDQVQRMAGGL
+TAAGFGAGHTVALMAPNLPEYCVIFHAVAWAGGTITTLNPTYTASEVKHQLADSSAEMLI
+TVPDFMATATEGAGDLHVVAIGTREYDALFGDPIMAQVPVDLDVHTLVLPYSSGTTGLPK
+GVMLSHRNLVVNMDQSITGSEFRPGEVAAAFLPFFHIYGMNLVMNIHLALGGIVTMPRFD
+LAMFLQISQDHKSRRMWTVPPVALALAKHPMVDDYDLSHLEQVLIGAAPSGAELTDAISA
+RLNCITLQGYGMTELSPVSHLIPASRPRSGASGLAAPSTLCRIVDVESGKDLPAGQEGEL
+WVKGPQVMQGYLNNVKATAETIVEDGWLRTGDIALIDEDGYMFVVDRLKELIKFKGFQVA
+PAELEATLVAMDGIIDAAVIGIPDDDAGEVPIAFVVAGKDAPTDADIHAHFKETLSTYKQ
+LHQIRWVNEVPKSASGKILRRLLRDQVAAG
+>tr|B7RGW5|B7RGW5_9RHOB
+MKPIRLMSGFFTVGIWTLLSRVLGFLRDVMVAGYLGSGPAAEAFLVAFSLPNMFRRFFAE
+GAFNMAFVPMFSKKLESGDGPEEFAQDAFVGMAFILTLFTIIGIIAMPGLVLLMASGFAG
+DERFDLAVEYGRLAFPYILFISLAALVSGVLNATGRFMAAAAAPVVLNIVFIAAVLIGAA
+LGRDGSEALGLGIDRALGLRVGDTLAMSVPVAGIAQLALVWWAAKRAGFSLGFSRRPRMT
+PELKRLAIIAAPAALAGGVMQVNLLVGRQVASFYEGAVAWLSYADRLYQLPLGVVGIAIG
+VVLLPDLSRRLKAGDEQGSHTQISRAAEVSLALTIPSAVALMVIPFTLASVLFQRGATSV
+DDAAAIAIAVAIYGLGLPAFVLQKILQPLYYAREDTKRPFYFAVCAMVVNVVLAVGLSPV
+VGWIAPAIATTLAGWAMFGLLAFGARGFGLAAKFDARFHTRIWRILAASAIMGVTLWISN
+LLMQPLLGQPWWRGMALLALLVIAAISYFGSGHLIGAFKLGEFKRSLKRS
+>tr|B7RN92|B7RN92_9RHOB
+MANQTPAPVEKTKVEFSLLQLIPNMLTIAAICAGISAIRFAAEGNFALSVFLITLASILD
+GMDGRAARYLGSDSKIGAELDSLADFVNFGVAPSLVVYFWGLQDFYRAGWLAVLVFSICC
+VMRLARFNVDSRTKTTLDDSGYFTGVPSPAGAMLVMLPIYLPYAFGPNVAMPDFLACVYI
+VLVGWVMISRIPTWSFKSVSFSRSNVTYFLIFFTGFIACLVSFPWATLVICCFAYAGSVL
+WAVIEFKMAKRKA
+>tr|B7RMU0|B7RMU0_9RHOB
+MAQKATIYKVELSVSDMDRHYYETHKLTVAKHPSETDERLMVRLVAFALNAHAQLEMTKG
+LSTDDEPDIWQKSLSDELELWVALGLPSEKVVRQSCGKADKVIVYSYGGKTADMWWEKIK
+NSTTRFNNLEVTNLSETDTSDLAKLAARSMKLQVNIQEGEVMVSADDSIVYVSPVKWKDA
+DQ
+>tr|B7RG69|B7RG69_9RHOB
+MAEIKDPENTILMELAGGTVTIQLLPDIAPKHVERMKELARAGKYDNVAFHRVIEGFMAQ
+TGDVEHGNMENNFNLRAAGTGGSDLPNVPAEFSKVPHARGSIGAARSANPDSANSQFFIN
+FKDNDFLNGQYTVYGQVISGMEHVDAITRGEPAPNPDRMISVKVAADA
+>tr|B7RJW9|B7RJW9_9RHOB
+MFPSMIGTVVIAGIVGYLAEKSGFTRNGILASIIICVGGAFLFYFVRLMFGFGFNSPGLN
+AIASSIGALIIVPFHWRRK
+>tr|B7RL45|B7RL45_9RHOB
+MAKFGKRTRAAREAFVGKENLSVEEAVTLIKANANAKFDETIEIAMNLGVDPRHADQMVR
+GVVGLPNGTGKTVRVAVFARGPKAEEATAAGADIVGAEDLMEAVQGGKIDFDRCIATPDM
+MPIVGRLGKVLGPRNLMPNPKIGTVTMDIKEAVEAAKGGQVQFKAEKGGVVHAGIGKLSF
+DEAKLAENIRAFVGAVSKAKPTGSKGTYMKKIALSSTMGPGVTVEVDNAVTE
+>tr|B7RRM3|B7RRM3_9RHOB
+MPPIIADYDRKGGKQTVDNSKPDQSTAAGAPKFRPVSGADLLRAMLLGWGDLRRAPIYGA
+GFAAVYVLAAWAMTWITLQTGTTYWLVLAVFGFPLIGPFVAVGLYEVSRRLQARQPLSWA
+GILGVVLLQRKRSLPMIGAITIVIFLFWFFLGHMIFALFLGLSPMANISSSAEVFLTPNG
+LAMLAMGSVVGAIFALILFMITVLAIPMVLDREVDFVTAMATSFSYVASHWVVMLGWAAC
+IATLTFLSLLPAFLGLFIVLPLLGHATWHLYHLLVVAEG
+>tr|B7RRR1|B7RRR1_9RHOB
+MIEVLNYIWLGVLAVFQGPELFSILGYGIPASPAMVLGGLLTGIAVGATPGLAGPMAMAI
+SLPILISIFGFTPDALLPVFGFLIGIMKGATVGGAVPAILFNMPGTPDALMTTLDGHPMA
+QNGQPRRALKIAQLSSVTGDTFSDLVLFICAPFLAVFVEAYLDQPEKTALLILSISFIAA
+VMGGSVGRGLLSVGLGLLAAFVGTGQSLTPRLTAGVEGLSNGFPLVAAILGVLILGEIFK
+SFEDTIRNAVRKAKAAAPPPVGLIDDLEKGDIRRIAPHVARSAVIGTIIGALPGVGSTLA
+ATLSYTVGRHRHEKTHGNEEPRFGYGAPEGIAATEAANSAVSGANLIPVLSLGIPGNAAA
+VFLILAADSIGGFNPGPAVFNFTSPDINPELVTAFGIFTLMSIGNLLNWTIGGRFMRSMG
+VLARVPSPILLPVVLLLTLTAIYVQETSLFALWVIFAFGVLGYLFRRSDIPVLPFVIAFI
+LAGPLEQTAHEAFAASGGDPWFLFRSATSVIFMTAAIASVVLLGRGRQAGG
+>tr|B7RS29|B7RS29_9RHOB
+MAKPDFLVIGAQKAGTTWLYRNLQNHPEVWLPPIKEIHYFDRRMQPLILDALGHRRQRSM
+LWRWLRPGLQNVARDPQSLKWHARFFLQPRSDTWYQSCFAGLDGMLNGDITPAYARLGDQ
+SVKNVARLLPQAKVIYILRDPVERLWSQAAMYFSRYGYASLEDQSDAEIERFLAWDLARA
+NGTYIANIDRWRAHFPPQQVHIAFFDQLVSDPQAFLTEMCGFLGVSPPEPDKSLTQKIHA
+RSYHAIPDHHQAKLSSEYLPELRALDRRFGNAHTGSWLKRAQLSVG
+>tr|B7RHV6|B7RHV6_9RHOB
+MFKAPRDVAFSCPCGTIKGHIRGASPSTGTHIACFCADCRAGDVFAGLPDPSPEPVRYFQ
+TTPDRLHFASGFENLSVFSFGPKNLLRWQASCCGSPLFNTLRTPKIAFVSIKSSALEDQA
+AIGPVRASAFVPNPAGTPKHKGMGRSVWAALSRIAAARITGRWRKNPFFDAETLAPVRAV
+QIVDKDVRARIKASLG
+>tr|B7RN79|B7RN79_9RHOB
+MFETLKAQPADNILALMQMYKDDPRETKIDLGVGVYKDATGLTPIMRAVKSAEHQLWEAQ
+NSKSYTGLAGDPDFGDALVKLVLGDAVRRANVAAAATPGGTGAVRQAFELIQMARPDARV
+FVSDPTWPNHLSMLKYLGMTIVPYRYFDEDTRGVDFDGMTADLKTAQKGDVILLHGCCHN
+PTGANLNATQWDAVIKILQDSGATPMIDIAYQGFGDGLDADAAATRKVAASVPECLIAAS
+CSKNFGIYRERTGMLMAVSSDASAQKLNQGTLAYLNRQNFSFPPDHGARLVTMILNDDAL
+RADWMAELEDIRNAMLGLRSQLASELQRLSGSDRFGFLAEHRGMFSRLGTTPDMVAKLRD
+DHGIYMVGDSRMNIAGLNAQTVPILAKAIIDVGI
+>tr|B7RKF4|B7RKF4_9RHOB
+MASFTRDEGGAVAVVVALLLTVLLGFVALGVDVASLYRERASLQADSDMVAMSAMTDTDA
+ATDRALYALGQNGRHSEALATLTVGRFLRNPEVPRGERFTPLAPGTPGINAVAVTLKDAA
+PLHFAKIFTPQSKVALTRNATAIRTGAASFSLDSNILRLDLADLNAALSDSFGTSVTLSV
+LDMDILSRTSVNMGDLLTEVSSLMGSTARNPAAILDARTDVGTVITAIRNMLPPAASGSL
+DSIAAGAGLREIPLAAVIGGIDSALGLTAVEFASHIDISALDVVAALAVSHDYTHPVSGA
+ADVAISGVLSTTTQLAAGEPPARSGWVALGEKGVQLHRAALRLKTDVAFTPDLLGGLGAG
+VSVTRLDLPVYVEGAGATATLEEINCTYGDADATAARFSTAPTPLNPENGTSVAALYLGK
+LDDAAFNSGPIAPSDLDFADILDLSLRIDLPLLPDIVIDGITVQARSHVALGASQVETIS
+FSMDDVRSNRTTRGFSSGDLQTTGIASLLSPDRTEIRIKPGQEGLITGAAAILVETALAA
+LPNRLLTGLTGPLDAAVGSALDSAGLHLGEGALTLTGHHCELVRLVQ
+>tr|B7RJ15|B7RJ15_9RHOB
+MKVDPMKETSDKLHDAPKVAGRRIVIPGRLSVSGRSDLSRQMYDVHQQIFSGVSPEEFRR
+HVVDSPAEMTRIQLYLAGDGRIVGYCACHCFRRKAQGRDVIVLRAEAGLLPEYRGRRAAY
+GFGMICAAVEKIRHPFTPIYYLGTLVHPSSYHLFCKYFTRIFPHPVHETPARIRDIASEL
+INSFPDPPVSASDPFVRDVGWVTIETPQERTLNGRADVQFFKARNPGYTKGHGLVVVVPM
+TAGNLITALVSRLTERVLSALGRPLRVRHLNQP
+>tr|B7RNA0|B7RNA0_9RHOB
+MPLCVFDIFADGTTAVPADTNVTGPGVYRWWHFDLTDPMLEPWVRKHLHEIPAGSLVQKQ
+TRPRCDRFEGGLILNLRGINLNVGQAADEMVSVRMYVDSDLLITVRRKKVFAIDAIRHAA
+VAQKAPPSPAEFLEELILRLTQRVQEHVETLDEKTEFFELDLEDKETPMPHELPEIRRSV
+IRLRRYLEPQRAALSKLATLDMPLIPQDSQLELHEQANSALIAVEELDELRERLVSVQEE
+HDANVAQRQARHGYVLSVAAALFLPLGFLTGLFGVNVGGMPGTGDPWAFALLCLGMVALA
+GVMIAVLRLVRWI
+>tr|B7RMR6|B7RMR6_9RHOB
+MTATLDLNCDMGESFGAYTIGDDAKMMETVTTANVACGFHAGDPVVMRRTIALAKAAGVA
+IGAHPSFLDLYGFGRRRILGDRPEDLEAHLIYQIAAMQGMAAAQGHPMTHVKTHGALGNM
+AAVDPDLAAVCARAVATVDPTLVYVSLPYSETYAAAEKAGLTVACEIYADRSYTDTGELT
+PRSAPGAVIHDIAQSTDQVLEMVLNRHIPTTGGKRLPVEPATLCIHGDTQGAPAIAAALR
+AALEDNGVTIAPFATPKRS
+>tr|B7RRB9|B7RRB9_9RHOB
+MTDTTKDLSASDEATGHRERLRQFLEQPRVHLGILALIIFNAITLGVGTSKWAQAHIGDL
+LVSIDKVVLSIFVIELVLKLYAYRLSFFRNSWNIFDLLVVGVGLLPQTAGLSALRGLRVI
+RALRLLSVIPQMRAVVQALLDALPGMGAVIVMISIVFYVFGVMATIMYGVMFDEWFGTLG
+RSLYSLFQIMTLESWSMGIVRPVMEVYPTAWVFFVPFIVITSFSVLNLFIGLLVNTMQSA
+VEDETEAEFEKLRELVREETDEVSTQVLSLHEEIRALRDELRAEREGKS
+>tr|B7RG11|B7RG11_9RHOB
+MSLSDVLTRIDTDLHAATDRLLDLLRIPSISTDPAYKADCDRAADWLVEDLNSIGIETTK
+RATPGHPMVVGHVDGPADKPHILFYGHYDVQPVDPLNLWKRDPFDPAIEDTAKGRVIRGR
+GAADDKGQLMTIVEALRAWKAINGDFPCRITMFLEGEEESGSPSLIPFMQENAAELTADY
+AMICDTGMFQSKTPSIVTMLRGLMGEEITITGPDLDLHSGMYGGVAMNPARVLAKVIASL
+HDDTGRITVPGFYDGVPELPDDIQAQWQGLAFDHATFLGDVGLSQPAGEQDRMPIEMIWS
+RPTCEVNGMWSGYTGAGFKTVLPSEAHAKISFRLVGDQDPHIIRESFRKMVTDMIPADCK
+VSFHAHGSSSGSVFETTDPAFEKARHALTDEWKIPAAYVGCGGSIPIAGHFQKIVNTTPV
+LIGFGKDDDAIHSPNEKYDMESFHKGIRSWARILDALT
+>tr|B7RQW6|B7RQW6_9RHOB
+MTDAAHQLLELLDIEQLEVDLFRGIGSGGETTTRIFGGHVIAQALMAAYRTVPDRMCHSL
+HAYFIRPGDPSIPVIYQVDRARDGGSFTTRRVVAIQHGKQIFNLSASFHVEEEGWDYQHA
+MPDVKGPEHWLDRPDLREPYIEKIPAKHRDDFLRERPIEIREVEPRDLFDPEKTTDKNYL
+WFRMEAAKGQSPIMQQCLLAYASDMNLLGSSLRPHGLTWFQGKVMTASLDHAMWFHAPID
+FSDWHLYELDAPFTGGARGFNRGLIYNQNGQLAASTAQEGLMRPYKKKES
+>tr|B7RRV1|B7RRV1_9RHOB
+MPMTAQGLEVIDNSVHLTHEWINELAERLDWSSKRSVLRLLRVTLRHVRDHLVVNEVAQM
+SAQLPLLIRGFFFEGWMPKHTPIKERHVNDFSAFIAAQMGDAEEYRGREDIKCVFDLLNN
+RLSRGEVEDLRATLSEPIRDLWAAP
+>tr|B7RLQ4|B7RLQ4_9RHOB
+MARTSVFKSTIALMALVSLGACGSLARPAGELAPQYSNTNSPSVIETNPDNTIWSIFNRK
+TTDTSVSVNKYLWSASLEVLSFLPVESIDPYTGVIVTGYGTPPGSGQSYRATILIDDPAL
+DARSLNVALQTRGGRTVSKATSRAVEDAILSRAREMRIADNKF
+>tr|B7RP55|B7RP55_9RHOB
+MNKFLNGAAVCAITFAFASQAAATEWNASVWGKRRAFTEHVEKIAELVSEKTNGEFTINV
+SYGGLSKNTENLDGISIGAFEMAQFCAGYHRDKNRVITVLELPFLGVENLEQEVAVSRAV
+YAHPAAAEEMAQWNAKLLMTSPMPQYNLVGTGDPRTTLEDFKGMRVRATGGIGQAFEAVG
+GVPTSVTSAEAFQAMEAGVVDTVAFAQHAHLSFGTINEADWWTANLNPGTVNCPVVVNLD
+AYESLSDAEREALDSSVDEALDYYLENYAELLKRWDAVLEEKGVEKVEIAPEVIAEFRAT
+AADPIRDTWIKDMEAQGLPGQELYDLVVKTLAEAKSGS
+>tr|B7RIU0|B7RIU0_9RHOB
+MAQQLGLALPSRAALGRDDFFVAPSNAIAAAMIDGWRTWAGRKLALTGPPGSGKTHLTHV
+WATQSGARIIQARDLLRADIPDLARSCVAVEDVPLIARHPEAQTALFHLHNLVLAEGHSL
+LLTGAPAVAQWRLTLPDLASRMQAAGAVALEAPDDMLLTAVLAKLLADRQLTPRPDLIPY
+LLPRMDRSFAAAGDLVARLDAASLAQKKPVTRSLAAQVLDNRT
+>tr|B7RP22|B7RP22_9RHOB
+MDKTSDNIDWLNLTRDELVQSIIALHKAVKAVAIATNEKIPTVIDMALAGHFAPGKGFDR
+NMRSGKIAAPKAMVIHRWLEQNHFTIARMTAPELFQINPKSAWDMFLETNAIEGRLKVIP
+ITKQMGLARRSSEVRKSSTIIRLGQDYCFELDSQTEGTCVAFECYQGEWHSLALGADERR
+LRANIERGIQYLPCDTKRNPIPLVELDSGGEHQFALIVSADKSKPTAMADIAKLDPKARG
+LEVHRVTVSFVS
+>tr|B7RRS3|B7RRS3_9RHOB
+MIPFCAFDPAIREIIYMKNAIECLNRGVRKSIKTRGSFPTEEAVTRLIYLAIRNFEKEGW
+NVQEWFVARNQFAIMFDERFNS
+>tr|B7RLX4|B7RLX4_9RHOB
+MSDLLTTEEYKAIAAGISLPTQAFVGGSFRPAISGKTFDTINPATGDVLAKVAACGAEDV
+DLAVEKAREAFEDGRWSRQHPSARKEVLIRFAKLIKRNARELAVMESLDSGKTIYDCEAV
+DVPETIHCLTWHAELIDKIYDQMAPASDDHIAMVVREPVGVVGLVLPWNFPMLMLAWKIG
+PALASGCSVIVKPAEETSLTALRLAELALDAGVPSGVFNVVPGDGPDVGEPLGRHMDVDM
+VSFTGSTETGRRFLGYAAKSNLKEVTLEMGGKNPAVVLDDAENLDQVAAHIVNGAFWNMG
+ENCSATSRLIVQKGVKDTLLARIAAHIREWPMGEPLDPANRVGTLVSAAHFDKVRAYLET
+DAKVLIGGKAQDGFVEPTVLDITNRAASQVQEEIFGPILSVLTVQSFDEAIALANDTPYG
+LAASIFSGNVKRALRGARMIRAGTVTVNSFGEGDITTPFGGYKSSGFGGRDNGIHAHDQY
+TQIKTIWVDLIDDTDTGLD
+>tr|B7RN21|B7RN21_9RHOB
+MSDDLRQKAGDVRDNAYVPYSNFKVGAALRARSGAVYVGCNVENVAYPEGTCAEAGAIAA
+MVAAGETEFVEAYVIAGSPMPVTPCGGCRQKLAEFGKPDVKVTMATVSGVEEVMQLSELL
+PGAFGRGHMDI
+>tr|B7RLQ0|B7RLQ0_9RHOB
+MTPDDMVLTPKGLRFQGQTYPCTIGKSGITSRKKEGDGATPSGVHRIVGMLYRPDRMPRP
+ADWAKPIGPLDLWSDDPGDADYNMMVRAPYPHSHERLRRADPLYDLVILTDWNWPYAVKG
+RGSAIFIHQYRRPGFPTEGCIALSRSHLRQIAPMIKHRTRLIIA
+>tr|B7RGC5|B7RGC5_9RHOB
+MPDLTPELLLHGYAIGVFPMAEHRDDPDIFWVDPRMRGIFPLDGFHISRSLARTMRRTDF
+SITVNTAFSDVVEGCADRAETWINEQIFALYLELHARGSAHSLEVWEGSDLVGGVYGVTL
+GAAFFGESMFSRRSNASKIALACLVDRLRRGGFTLFDTQFLTEHLASLGAIEVPRAAYHD
+LLDDAQQRSASFVAPAPATPQEVVQRMAQIS
+>tr|B7RIS7|B7RIS7_9RHOB
+MTDHWTETVDLNGNPFFVQHWGRKDAPKILMLHGFPEYSGAFADLAPLLGERFHCIAPDQ
+RGYGQSWRPADVEQYKTALLVSDMAALIGDEPVILLGHDWGASVAYALAIGRPELVSKLI
+ILNGVHPAPFQRELAKGGPQTDASQYIHFLRRDGSEDILAANDFAKLMSLFSAHMDMDWL
+QGDTLAAYKAAWRDASGLRGMVNWYRASPLKLGHSGEAIDDALVFDPARLQVRCPHLLVW
+GMADTALMPASTEGLEDYAPDLTRVTIEDADHWLMHQKPREVADAILNWL
+>tr|B7RFW3|B7RFW3_9RHOB
+MIFQKNKGNSNEADWNSSIEPALLFPNRKKCLRRDVIDKRLSRF
+>tr|B7RNM5|B7RNM5_9RHOB
+MSEGVMSDLLTVLPPSAQQIERDLEQLSGRLRGFGDPIAALWNASVCPEHLLSYLAWAFS
+IEIWDSAWPVEQKRRILIDAVQVHRVKGTVGSVRRALAGIGVPPVISEWFDYGGEPHTFR
+IDFSSTDVFAAGLAIDPRTLEIITSILVNLKPQRSHFAVRIGEDFGTEVYMRASARGRLV
+SEIGHDPVPRTRASDSSFHLRSGARQRQLSVLTHDVQRRDAA
+>tr|B7RG60|B7RG60_9RHOB
+MQGPEDILKFWLDTAGEEKWYAVDDAFDQTIRDQFLETWQAAKEGKFSLWLTYPSGALAY
+LILTDQFPRNMFRGQGQAFSTDRAALAVAKSSIQKGWDLKIDPPARQFFYLPLMHSENLI
+DQDRCIRLICERMPKSDSNLLHARAHRQVIRDFGRFPYRNEALNRSFTAMEKTYVANGGY
+GSTVRAIQDESAAA
+>tr|B7RPA1|B7RPA1_9RHOB
+MGRILVNAQLIDQADLVLALEHQQSIKVPLGEILVSQGLITPVQVSQALATQHHLQLVDL
+AADPPNPTMAKHISALDCLRYGIVPWRSLGNIVLVATSAPDQFIQINQDLAASGMSFLPV
+IADERQIKQSISEVYGAELAQRAATRVPPIESCRTWRVDRPDRRAWALGVCSLLSTLIIL
+QPAWTFTLIILWALCTSLLTVSLRSLAFFARLFLCDDPAPSALATKEKFQLPRVSVLVPL
+LHEKEIATALIARLTRLTYPKSLLQIVLVLEEGDDMTRETIARTTLPSWFDVIEVPQANR
+LRTKPRALNYALDFCNGSIIAVWDAEDAPEVDQIDRIVQHFAHAPRNVACVQGVLDYYNA
+RTNWISRCFTIEYAAWWRVLLPGIARLGLIIPLGGTTLFFRRDVLEDLCGWDAHNVTEDA
+DLGVRLARHGFKTDLLPTVTYEEANFRPWPWVKQRSRWLKGFLITWCVHMRKPAQLLREV
+GLARFLGIQTLFLATFNQFICAPLLWSFCLTLFGFSHPVEITLGTTVLGWLFYFFVFAEV
+LNISIAIKAASRAEHRHLLPWVVTLPLYFILGTFAAYKALYEFVVSPFYWDKTQHGVTTQ
+SRKPATPG
+>tr|B7RKI1|B7RKI1_9RHOB
+MTIILDPTDERVPVVRQITERSGSVQGVVGLLNISKPRGNILLDELDRLIAEGAPAVEIR
+RYTKPTFAKPCPDALRHQIRDECDFMIEALAD
+>tr|B7RFL3|B7RFL3_9RHOB
+MHLRPKAALDQTVIISDRNAMIPMDRLAQITQRFQFLEASMSAGSDGADFAKLAKEYADL
+RPVVEQIEGYRQLLQDMDDARAMLKDPEMAELAEEELPRLKAEIPKAEASLQLALLPKDA
+ADTKPAMLEIRPGTGGDEAALFAADLLRMYQRYAEAQGWKFDLIEEQLTELGGVKEVVAH
+IKGQNVFARLKYESGVHRVQRVPSTESGGRIHTSAATVAVLPEAEDVDIHVDPNDLRIDT
+MRSSGAGGQHVNTTDSAVRITHIPTGIVVTSSEKSQHRNREIAMQVLKARLYDAERQRVD
+SERSADRAAQVGSGDRSERIRTYNFPQGRMTDHRINLTLYRLDAILQGDLDEIIDALTAD
+AQARMLAEMGQ
+>tr|B7RH55|B7RH55_9RHOB
+MRFFMFQLPFPVRDANAGAAASPLGNLPEWNLDDLYTGEDATELKRDLDWLEEACRSFAT
+DFEGNLANLDAAGFLDCVLRNEKINQVAGRIMSFAGLRYYQQTTDAGRTKFMSDVQEKIT
+NFTTPLVFFTLELNRLEDDHLGKLLVQNADLARYKPVFDRIRAMKDYQLSDELEKFLHDL
+GVVGDAWERLFDETIAALEFVVDGEQLNIEGVLNLLTDPNRDLRESAARELADVFRSNIK
+TFARVHNTQAKEKEVIDRWRGMPTPQTGRHLSNHVEPEVVEALRNAVVNAYPKLSHRYYE
+LKRKWLGLDVMQVWDRNAPLPMEDPKLIGWDRAEHMVMDAYNAFDPRMGEIAKPFFTDGW
+IDAGVKPGKAPGAFAHPTVTNVHPYVMLNYLGKPRDVMTLAHELGHGVHQVLAAGQGEML
+SSTPLTLAETASVFGEMLTFRKMLDNAKTNAERKVLLAGKVEDMINTVVRQIAFYDFECK
+LHDARRGGELTPDDINALWMSVQAESLGPAFEFMDGYETFWAYIPHFVHSPFYVYAYAFG
+DGLVNALYAVYDEGTPGFEDKYFDMLKAGGSKHHKELLAPFGLDASDPAFWDKGLSMISG
+FIDELEAMEE
+>tr|B7RKD9|B7RKD9_9RHOB
+MASRNTEDGIIEVHALATFGRGIVRADVTLVAPVMVEHCSVSVIGSILSF
+>tr|B7RS70|B7RS70_9RHOB
+MNDPMVSGQPILQTSMIEDAILSTVSYSDCFRFAISLQEMHRFLHGYACTIQELQDALKQ
+TQLCQGRLETDGTYYWLKGCRENLTNRRNSEARLQSRLKQARGVARVLSNMPHVRMVGLS
+GALAARNSTPGDDLDFFCITEQGKMWRARAWVVCVRVLDSKTAKLGVCPNYFVSTKALHM
+EKHTLYIANELALMVPLYGEDVYRELRAQNLWTDRFLPNATDVPEMTRHLGVRPNRWVKT
+GLEILMNSPIGTWFERYESKRKIRRLNAPGFHETPHSPFTLERTGQRIFTGDTIEKAWRS
+RVDTLINGGEN
+>tr|B7RLV3|B7RLV3_9RHOB
+MTDTSPILAMPYIQPSQAQKHVTHNEALSLLDVIVQLAVESAVLATPPATAVEGDRYIVA
+ANGQAAWAGHDHRIATFVSGAWMFTAPKTGWVAQVVDSGAEVVFDGTVWAARSLSNLPGV
+GIGASYDGYNRLVVSSDAVLLNNAGAGHQLKINKASAGDTASLLFQTGYGGRAEMGTAGT
+DDFSLKVSADGSSWTEALRVDAASGRVTVGVSGWREMLTAPRSYFVDQVLGDDTAGGLTT
+GTGAFATLARAVAAVEGIDSGGHDITIQLADGTYTSSVAVAFKMALVGGGRLILQGNVSD
+PDLVTVEALEEVLIIGAGDVSVRGLRLQNASATAAAVTVTAQGALTLDQVSFGPAGGHID
+INGGVLRFEGGYSIDDGATYHMRLADGGRFDGNAQTVTLNGVPAFGDAFVVCGDVSLARM
+AGQSFVGTATGKRYAVSANAVIQSGGVVLPGDVAGTVQTGGQFI
+>tr|B7RR99|B7RR99_9RHOB
+MQIVANTRKPADINAVALKAYARIAETWGLSLNEAASLADMSASTWKRARKPGFTGDLTK
+DQLLRLSALVGIYKSLELYFSEPLARTWPTRANTGPLFGGGRPVDSAIDGGLPQILNIRT
+YLDALRGGA
+>tr|B7RLK1|B7RLK1_9RHOB
+MTRFFYDALSYTLFFIGLNFILFGTGAFSEGLFTPDILLYLLSLFITGAVYSVWRKYLLR
+ITLRFNFWLMRFLCDGIGYLAWWFLLGGVNALLFPDAAFSILDYLEVFDLMDHLKTVAIG
+IVLGFWIDIFFRLTKVLKS
+>tr|B7RGG5|B7RGG5_9RHOB
+MEVAAFDEADLRQLLDTKVCQKCDLSGSDLKGVDLAGANLAGANLSGAKLWAADLSKADL
+SGVNLEAATLTAANLAGANLADANLSGAYLTTTNLGGADLSGADLTGAVLTQANLEMSNL
+SGATLTGAYLELANLAGARVTGADLTKANLTSANLRGAVLLEAKLVGAVLLGADLDGASL
+EGAILCKTIMPDGTYESSGC
+>tr|B7RKG1|B7RKG1_9RHOB
+MNIQRNFVTNRRWMSIFPELVPQEELDPVKLEAHLKLRKPTKKAEPKTPASIGRNLHVST
+LSISNLHNHGELFVNFLRARKKVFINQAGWDLSEVDGMEFDQYDTPRARWIVLHEFGEVL
+GGVRLTPTTSQCGHYSYMIRDAQLGVIDTIPADVLFFQAPVTPSIWEATRLFISSDTPAA
+RRADLQRLLLEEMADTAAEMGAEHVIGIVPAVFSKWMTRLGLLSAVQVGPVMNIDGTRTQ
+AALMRVDG
+>tr|B7RHI7|B7RHI7_9RHOB
+MDDHRFSTKKLKVLIVDDSSFDSQNIERQCRRTSLYMSIDTVSDVSSMRQALDAKSYDII
+FVDYHLAHETGLQARQVISQHSLNSDAATIMVTGEVSHEVAVTAIKNGCEDYVAKTDLDA
+MSLEMIMKSVSKRLETHASRVLQSEMDAIHGRTINAMTEIVENQLGDDRIVALLVRALQQ
+ITYIDGHPTLQQAPDTVALLDIQKPEFFDFQQLSEGAGDREI
+>tr|B7RI29|B7RI29_9RHOB
+MSRFAAPIAEQIWDMKYRFKDAEGAARDVTVEDTWRRIARDLAQTEDAPEVWEETFFEAL
+EDFKFLPAGRITAGSGTARRVTLFNCFVMGTIPDSMGGIFDMLKEAALTMQQGGGIGYDF
+STIRPKGADVLGVSADASGPLSFMDVWDAMCRTIMSAGSRRGAMMATMRCDHPDVEDFIA
+AKSDPARLRMFNMSVLITDPFMDAVKADQSWDLQFGGKVYRTVQARDLWNRIMKATYEFA
+EPGVIFIDRINAANNLSYCETIAATNPCGEQPLPPYGACLLGSINMARMVADPFDKTAHL
+DVVALDKLVATAVRMMDNVVDVSKFPLEAQKAEAKAKRRIGLGVTGLADALLMVGLRYGS
+DEAAAQTEAWLKAIARAAYLASVDLAKEKGAFPLFDADAYLASGTMQQMDEDVRSEIKEH
+GIRNALLTSIAPTGTISLYAGNVSSGIEPVFAYAYTRKVLQKDGSRTEEEVVDYAVQMWR
+DLKGDAPLPDYFVNAQTLAPLDHVKMQAAAQKWVDSSISKTINCPEDISFDAFKDVYMAA
+WDQGCKGCTTYRPNDVTGSVLSVSETTDNAPGEVAPEPMPSEGGEVVYMSEPLDRPEELE
+GSTYKIKWPDSEHALYITVNDVIMGGHRRPFEVFINSKNMEHFAWTVALTRMISAVFRRG
+GDVSFVVEELKAVFDPRGGAWLGGKYIPSMLAAIGGVIEQHMIATGFIAGEGLGLKTDPQ
+AKVVGLDAPRGKACSSCGQYDLRMVEGCMTCGSCGHSKCG
+>tr|B7RKF8|B7RKF8_9RHOB
+MVRTSVLCAFILAFFHGQLWAQVTDGWSGRWDSYWRDGEARILLQQQGENVSGTYDPGEG
+RIEGQTEGRILRGSWFQDGTSGPILFALSGDGQSFTGRFMDGEYWNGKKVSDTAGSYAAK
+VNQETPRTAFRSLISLENATFYEGDISAVSAAETLLLYVGGPSDERDKRRRRRLFWTLLD
+LSTFRIYDAPSRVDGDTAQFSIGPAAGNVEVSIQFRKVDDAWFVLVPSASELRRDLDDMV
+ATLGYDTLAQLKEASANSPRGAMRDFLQGMRSWRSGGRERALATLDLSFLPPRLYSFEAP
+LLAEYLKQIIDRAGYVTWQEIPDNPDRAGSYVFYRHPKGSVVIDQVSGPDGGPARWKFSV
+ETLRNAPQLFAEMQDLPVAGGISVSEPITRFFQIREHIRTLFPALLTRPGPLELWQWLVI
+PLSVVFAVVLGGLTGKGVALFLSRSLRRIERGLRVGAARRLGKPTALLVSAGFAVLVFTW
+AGLAETVLGAVTVALAAIAATALGWFLYTAIDLLGGYFQRRSGRTSGFVDEIAVSLVTGV
+LKICVVAAGIIAIADITGIPYEGVVAGLGVGGIALAFAARDTVSNLIGGAILMSDRPFHR
+GDLIETEGQMAAVENVGLRSTRMRTFDDSLLVIPNSQLTDKAIVNWGQRRKRKIRLEISL
+HYDTPRDRLDAFKTRLREVYLAQPTADDTTGYVGLRSFGESALNVELWGYFNLADYEDYI
+AARHLLIGDIVDLARSLDVDFAYPTRTIRLLSEEDGKIANEQMTSNPV
+>tr|B7RRV5|B7RRV5_9RHOB
+MTGGLGVYSEIGKLRTVMVSRPGLAHERLTPGNCDALLFDNVFWVDEARRDHFEFCERMR
+DRGVEVLEQHDLLTDILGQPDARQWLLDRKITEDHIGVGMMDELRSWLNELPPAPVTRFL
+TGGITVSDLPFKPHGMFGRFLGPDGFVLPPLPNLLFARDSSSWIFGGVTLNPMHWPARQQ
+ETLIAAAIYRFHPRFTGVAKVLWGDPDLDFGPATLEGGDVMPLGKGCVLIGVGQRTTPQA
+AGQLAVSLFEQGVAERVIACQIPESRAAMHLDTVFSFCDRDLVTSFTQVADKIRCYSLYP
+DDKHVLRVVKDPGHIFDVVQQALSIPALRIIGTGGDHFEQEREQWDNGNNVVALEPGVVL
+AYDRNVHTNTQLRKAGIEVITTRGAELSRGHGGGHCMTCPVSRDPVA
+>tr|B7RM55|B7RM55_9RHOB
+MNWIAVNSIYKFEMARFFRTITQSFVSPVLSTSLYFVVFGAAIGSRIQEVEGISYGAFIV
+PGLIMLSVITQSISNASFGIYFPKFIGTVFELLSAPINFIEIVLGYVGAAATKALFIGVI
+ILMTAFFFVDITIAHPFWMVVFLVLTCISFSLFGFIIGIWAGNFEQLQLVPLLIITPLVF
+LGGSFYSISMLPPVWQVISHFNPVVYLISGFRWSFFGAADVPIVTSLLAIAGFTALCLAV
+IWWIFRTGWRIRQ
+>tr|B7RGI9|B7RGI9_9RHOB
+MAPGETIEFECHDSSAGQLTPDSTVADVAAMDFGKINPVSGPVYVEGAEPGDALKITIEG
+FAPSGFGWTANIPGFGLLADQFEDPALTIWKYDPDTLEPALFGKNGRVPLKPFAGTIGCA
+LAEPGLHSVVPPRRVGGNLDIRDLAAGTTLYLPVEVAGALFSIGDTHAAQGDGEVCGTAI
+ESPMDATVTLDLIKDAQLKMPRFTTPGPVTNHLDAKGYEVTTGIGPDLMTGAREAVSQMV
+ELLCKTQGLSAEDAYMLVSTCGDLRISEIVDMPNWVVSFYFPRCVFE
+>tr|B7RFV0|B7RFV0_9RHOB
+MSGFEHTTTDQAPSPTNYRLKKTVVLVGMMGAGKTAVGRALALKLGVPFLDSDHEIEAAA
+NLTVPEIFERDGEPFFRKRESEVIARLLDEAPGILSTGGGAFLAQVNRSNISTKGVSVWL
+DADLDLLWNRVRHRATRPLLRTPDPRATLAEIFEARVPIYKLADLSVACKPSVSIEAMAN
+RVIQTLLTRPDVLENNDA
+>tr|B7RJE4|B7RJE4_9RHOB
+MITPFTDCIIDNSDAIEIRVFAKSAVMGVDDTTVATVRTVLSRPETVRCLSQSTLGMTGT
+LG
+>tr|B7RQS0|B7RQS0_9RHOB
+MKETDMSDPYGDRGNKDLSIGNPKGQGTAQPVKQGGKSHAAPGGPFLIGDAMTGGYGKGP
+DILHDCTIAVEKGEIAVIVGPNGAGKSTAMKAVFGMLDVRQGHVRLDGEDITALSPQDRV
+AKGMGFVPQTSNIFTSMTVEENLEMGAFIRRDDFRDTMAQVYDLFPILKEKRFQAAGELS
+GGQRQQVAVGRALMTQPKVLMLDEPTAGVSPIVMDELFDRIIEVARTGIPILMVEQNARQ
+ALEIADKGYVLVQGANAFTGTGKELLNDPEVRKSFLGG
+>tr|B7RJX0|B7RJX0_9RHOB
+MTLITLLDYASVLVFAITGALVASRAQLDLVGFAFIACLTALGGGTLRDLLLDRNPIFWI
+DNPAFLGLAAFAAMVVFFTAHLLESRYRTLIWLDSFALAVAVAAGAGVAMSLDQSPTIVV
+LMGMITGCMGGLMRDVVVGEVPLVLKQGELYVTAAFAGSATAVGIRVFLGDDAIALFAGA
+CITWILRAGSLYFGWNLPVYKSRPPRV
+>tr|B7RNM7|B7RNM7_9RHOB
+MVTTVEEVAALIDAYTELKAYFDGQKSRWDGELDVARASYGELLGDLNAVFPGKMFFSVT
+VDPTLQEYSNVNGGTFATIKEAVNASPVGSFVRIYLPYGTEHIINDNIYVWGRTLTFEGK
+NSGLVDRPIIRLGFSSSATHTYRCRFVEAFGCALKFNNIDIRPDAHDPTNPQLHTPSEAL
+VSSGGPDIVSLGFRASILSGDGGFALLAGHYGAFPTLTIHASTLDGNVYGVRGFRAGVGN
+IGTSALTLTNGAALTDAA
+>tr|B7RPW8|B7RPW8_9RHOB
+MTLQHPAPTLPNAPVLPVFELIEVEQVFEVPKPGRALFSRETVGLRALDGVRLGIRKGTS
+LAIVGESGSGKSTLLRVLLGLDRPSGGRALYRGKPIREARAQGTDFARDVAMVYQDARGS
+LDPRMTIGALIAEPLRHFNIVPPEDEPARIAQLLDRVGLPADAASRFPSGLSGGQVRRVA
+IARALASEPSVLVADEAVSGLDVSTQAQLLTLLQSLQRDMGLTLVFITHDLGVASYLCEE
+IAIMYLGRIVETGPTDAVLNAPVHPYSAALRAAAPQFFEPLSEPLPGEIPSPLDLPKGCR
+FSTRCPVAQQDCRAKDPQLGKLGSGRAVACLHPLSHP
+>tr|B7RRK0|B7RRK0_9RHOB
+MSKKTLNQANLAALGAHRLAALLIEVSTGSADIKRRLRLELSHNLGPEELARDVRKRLVS
+IRRSTSFVGWRKRKALIKDLTTQAEMITEKIAPEAPAEAFELLWQFIEIAPSVYERVDDS
+RGDVGDVFRTALSGFVDIAQRAGLDPQALAMRVWDAVRDNRYGEFDGIIGLLAPALGDAG
+LEQLKTLVMLHKGAPVKEVRDHAALQFLRDLRSSGGNFAADQKTRLVKMCLQEIAAAQGD
+IDAYIAQYSAQDLTRPRIAAKVAGLLAGAARPQDALDVLAGADPVGRDADWDAAYIANLL
+ALDRVAEAQSHRWEVFCETLDVHSLRDYLKVLPDFDDIEFEDAAKAHAAQFPDMTVALRF
+FLDWPDLPSAARLIQDRASELDGDLYQILTPAAEALRNRHPFAAVLVWRAMIDHALWDGR
+STRYGHAADHLMDCAAADAEIADYGKFLSHDAYVARLREVHRHKSSFWARVP
+>tr|B7RS15|B7RS15_9RHOB
+MAIWDGGEAVAAGSEHCVDLIVGREEPLWLSDQFEHDKTLDVPKSGSISAIPFAALAA
+>tr|B7RIX7|B7RIX7_9RHOB
+MTTLLIRGADHVLTMDDDRRELAGADVLMRDGAIIAVGHGLATEDGQEVDTVIDARGCVV
+TPGLVNTHHHLYQTLTRAVPGGQDALLFGWLKTLYPIWARFTPDHMFTSAQIGLAELALS
+GCTLSSDHLYLYPNGSRLEDTIHAAAEIGLRFQPTRGAMSIGESDGGLPPDTLVEDEAAI
+LNDCIRVIDAFHDASPASMCRVAIAPCSPFSVSRDLMRDAALLARDKGVMLHTHLAENDE
+DIAYSLEKFGCRPGQYAQDLGWVGPDVWHAHCVKLDASEIDLFARTRTGVAHCPCSNCRL
+GSGIAPIRAMRDAGVPVGLGVDGSASNDAGNLVAEARQAMLLQRVARGADAMSAREALEI
+ATRGGADILGRPECGRIAVGARADIAIWDVSGIEAAGSWDPAALLLAGPTTVRDLVVEGR
+VVVSDGALKTIDLPAQISRQNQMARGLRDNRA
+>tr|B7RQQ0|B7RQQ0_9RHOB
+MTQPLRPDLTDGVVRLRAPKPSDAAARFKLGNTPEIHQMFGVDPKHVPGITKDHAQKWYE
+AQAVEPLAWVIEYKKRMIGALRIHSVNTWDARASFAIGILDPKALGKGIGTRATHLIAAH
+AFGALALHRLSVRVLDFNARAVACCRKVGFVEEGIERQSSFCAGDWHDSILMGLIKPEYS
+PAVYPARKPRKAAKPRAKALA
+>tr|B7RHA3|B7RHA3_9RHOB
+MSLTALGWSPFFDDQITADETGCLKVRVATVHRARMSGISQDGPIKIRLPARSTTADFAV
+GDWILADPADHTLIRRLDRQSLLERQTVGARDPQLIAANVDTLLIVTSCNDDFNPARLER
+YLAVANEACTNPVIVLTKADKVADAAPYVEQASALQRGLEVVTVNAKSPTAVTVLEPWCG
+VGKTVALVGSSGVGKSTLLNTLADKPADQAQLTGGIREDDAKGRHTTTSRSLHAIAQGGW
+VIDTPGIRTLRVSDVSAGLDVLFAEITELVSGCRFRDCSHKHEPGCAVQAAVAIGQLDAD
+RLDRWHKLHDENIENTPKVSGARGNKKPQSRNKLR
+>tr|B7RKL9|B7RKL9_9RHOB
+MKTCKIQLNDVIYNAAEQCFEAIVTVHDKGRSFRYACAINAPITTSFADAAKGLTKQADR
+RHLGRGGMRSEIKRLGPDQRAGRPRFDPKAWLKHVINLPGLRAA
+>tr|B7RMA7|B7RMA7_9RHOB
+MTRTRATLIGFGAVLLWSLLALFTVGSTPTPPLLLNTLCFSIGGLLGLIWCAATGTLGAL
+RNVPLRVYAFGIMGLFGYHALYFSALRLAPAAEAGLIAYLWPLLIVVFSGLLPGEKLRGG
+HIIGAVFGFAGAALIISNGAGSFQAQYLPGYILAMCCALTWSGYSLLSRRIGTAPTASVV
+VFCLGTAALSLPIHLMFEQTVLPKTGLGWASIIGLGLGPVGLAFYVWDIGVKRGDIQILG
+TSSYLAPLLSTLILVVTGVTPAKPVLFWAAVLITGGALCAARASYGKPGRTR
+>tr|B7RPK2|B7RPK2_9RHOB
+MICGLCGVGPGHFPTVQEGLAPLDHLRKKDDSDPAFC
+>tr|B7RQU6|B7RQU6_9RHOB
+MTEIFGKTPDGEDVMRCQIRNGGSVASILTWGATLQDFRIDGVDHAVVLGGNDMAAYLGP
+MRYFGAVVGPVANRIAGGQMEVKGQHFDLDKNEAGRTTLHSGLAGFSDRNWSFDMIGPAE
+CRLMLSHPDGLGGFPGNISVGVTYRLDKAGALDIEITGMTDAPTYFSPAFHGYWNLSGAR
+DLSDHLLTVPAPTYLPVDEDQIPLGRPAPVDDGPFDYRTARPVGAVLDHNFCLPFVRGQM
+QDACKLDAAGLSLAVSTNQRGVQIYNGLYIETGVTRGHGGAAYGSCAGLAIEPQFWPDTP
+HQPGYPSSLIVPGQVSKHRSRFEFSKKY
+>tr|B7RS90|B7RS90_9RHOB
+MTLERMQKGLAILVGAFVFYTAATGPFEGLIQRAIFLALVATLGFALYPLGAGKSWHPVG
+LVVDLALTVIVICACGYVIWNYDEIMTTLPWATSLDKALTAGLVLAVLELGRRTVGLIFP
+VLVLIGVGYALFGNLLPGPLHHRGFDSAFVTETIFLGDLGIWGMLTGVAATVIAAFVLFG
+ALLLHTGGGQAFMDLAMRLGGRQPGGAAKIATIASGLFGMISGSAVANVATTGNFTIPMM
+IRLGYPRPFAAAVEAVASTGGQIAPPIMGAAAFVMAEILGIPYVTIILGAIIPAVLFYLS
+VFMTVHFVALRRNLAVVPDEDLPDWAVIIAPRRVLPILAALGGLGIGIWLGRSISTAAFY
+GVVGLLVAFVATQAGRLSFKEMAHMIVEGLEDAGKGMVIIGVLLAGAQVLVSMINLTGIG
+VTLSSLIVTMAGDSVPLVAVIVAGVCLIMGMGLPTTAAYVLVAAVLAPAMTAVGVDPLAA
+HLFVFYFATISVITPPVCVAVFVGAGIAGTNWLPAAGEAVRLGAVTYVVPFLFLLYPGMM
+LQGSWFDAVEAIVAGLVLVIAIPALLAGMRLTASRGLDIGILVGVIAIAIWPHPVTPFIA
+LAALACAFKIGSQSRRVVT
+>tr|B7RJC3|B7RJC3_9RHOB
+MRPNKLAQIHAAAFPQDRSWSAQEFEQLLSSDFVTLISDTAGFALTRLIAGETELLTLAV
+DPAQQNQGIGRSLLQRWLDIPADTAFLEVAADNAPAIYLYTSLGFETTATRRRYYLRKDA
+AAVDALTMSLDLTRRHPPDSTTNGCESG
+>tr|B7RQP4|B7RQP4_9RHOB
+MSRSDLEFATLIGSRICHDLISPIGAINNGLELVSMSGGGSGPEMELIGDSVGSASARIR
+FFRIAFGAAGDQSLGSAEVTSILRDLYRESRSSVAWNIPDAQPRSDVRLAFLALLCLETG
+MPYGGAVVVERDGAKWVIRGTAHKLIIDPDLWALLATQDQKLKLKPAHVQFGLLPASASD
+DGRQITSKATETEIMISF
+>tr|B7RLV1|B7RLV1_9RHOB
+MPMSGPLHGLRIIEFAGLGPGPFACMMLADHGAEVIRIERPGGTQGGPESDTATDILLRS
+RKRIAIDMKSASGKAVLRDLVATAHGLVEGFRPGVMERLGLGPDDMLALNPKLVYGRMTG
+WGQTGPYAPMAGHDINYIALSGALHAFGRKGEKPTPPINMMGDFGGGAMMLAFGMVSALL
+HVQRGGDGTVIDAAMTDGSALLMSMIYSFHGQGWWQDERGVNMLDTGAHFYDVYETRDGK
+FISLGPIEPQFYAKMLELTGLADDPAMQPQNHSAKWDDMRDRLARVIALKTRDEWDAVMV
+GTDACYAPVLSLTDAPEHPHNRAREAFLTAGGVKQPAPAPRYSTIATTPPEMADGQTHTR
+EILAQLGYSEAQIQDTLAQGGVS
+>tr|B7RLQ2|B7RLQ2_9RHOB
+MNGASGPAGTGINGVRFFARSGGLEVGVGNIFGALEFMPGMYPIDLGLTGLGYDYTAFNF
+RGDAYSSGGNGAAGSNGVEVLYSMGDLALHISASDTNNRVAGYAAYTYSGFTVALGLQDS
+DSAADTEVAFSVGGNVGPAALTFAYAKNGDDTGVGTTTGDHYVLAAKFDVGAATDVEVYV
+ADADYFVDTSYGVDFNHDLGGGTSLRGGVAHRGNGFVRADLGVRFNF
+>tr|B7RNS9|B7RNS9_9RHOB
+MKDTCDMPQISVIINNYNYGQFLATAIDSALAQRGVTAEVIVVDDGSTDGSETVIRSYGD
+RIRPVFQANAGQAQAINTGVSLARAPLLAFLDADDWWQDDKLAAVAEAFDKAPKAGLVYH
+RLQPVYSDGQCAFSAIPRSLCEGDLAPRLLRSGGLWPFPMTSSLCVRRSVWDRAGDIPET
+LRISADAWIAGVLPFIAPVVALPDALGCYRIHNNTWYRSKDDAQMLARRMKHWEETVRMT
+NQYLSQEGRPERIWLKNHFDYRVGQVRLGRPGAPGIVPLIWQGLTHAGEPDPLRRLRNTL
+FMLRELRQDRAESRAVPKSA
+>tr|B7RMG5|B7RMG5_9RHOB
+MKGLLMTSIFQILMLLLNIVWFIIIAHVIMSWLINFQVLNLRQPLVAQVWDGLNRLLEPV
+YSRVRSFLPQMGGLDLAPLVVLISVAILRILLINNAAMFY
+>tr|B7RLG1|B7RLG1_9RHOB
+MAWDRNQMAARAALELQDGWYVNLGIGIPTLVSNYIPEGMDVTLQSENGMLGMGAFPIEG
+EEDADLINAGKQTITELDRTSYFDSSTSFGMIRGGKIAMAILGAMEVAENGDLANWMIPG
+KLVKGMGGAMDLVAGVGRVVVVMDHASKHGDSKVLKECTLPLTGKAVVDRIITNLGVLDV
+VEGGLKIVECAEGVTEEELRAATLATIV
+>tr|B7RK95|B7RK95_9RHOB
+MIQLAILRHGHTDWNRAGRIQGRTDIALDAEARTQLAALRLPAPWGDADLVASPLSRAVE
+TAHLVADRAPATTHALMEMDWGQWEGKRGIDLKADPASGFRDIEDWGWDYRPPGGESPAA
+LRTRLIPWAESLRCDTVAVCHIGVMRVLLAHATGWDFDGPAPFQVKRNRLYVLRIAPEGW
+QAVSGPIRLENRA
+>tr|B7RL12|B7RL12_9RHOB
+MSTLIHLSDLHFGKDRPDLLEPLVERVNVLAPDLVVISGDLTQRAREEQFKEARDFIKKI
+NARVLSVPGNHDVSLHRPFRRFFWPWRSYKKYIDQDLTPRFENDEMIVVGINSVDRFSWQ
+TGRLTAERINHACDAMDHAPDGKTRILVVHHPLEHPAETEKKPIPGAEEALERLLSCGAN
+LILSGHLHTWHAGNFTVKSGKTTAVQLHAGTSLSSRVRGEANDFNVIDILDGRIGIERLS
+FNEETQQFETTEARQFNRASDTIFE
+>tr|B7RM70|B7RM70_9RHOB
+MPFIDSSLAVLALWAVLGYLIGSIAFGMVLARVMNLGDLRAIGSGNIGATNVLRTGNKKA
+AALTLILDGAKGAVAVLLARHFAGEAAAQIAALAAMIGHCYPVWLRFQGGKGVATFLGIL
+LALAWPVGLACCAVWLIASYATRISSMGALASAAASTFLLVFMGYASALTLGIVLTLLIF
+WRHRANIKRIRAGEEPKIGAKKV
+>tr|B7RK07|B7RK07_9RHOB
+MANLLYDALFGRHIGQKTPFLHMPDGHVISHDDFIRSAARYANTLVGLGSEAGDRIAVHI
+NKSPDALALYAACVQAGLVFLPLNPAYTAAEMEYFVVNSGARLLVCDPADHDAMEKVARR
+ATVRLETMDATGRGSLRDLAQLQSGDFTTVDRGPDDLAALLYTSGTTGRSKGAMLSHQNL
+LSNAQTLGDVWRFTKADVLLHALPIFHTHGLFVATNIMLLAGGAMIFMPRFDVDQLIRLM
+PRATALMGVPTFYTRLLASDDFTAGLTAHMRLFISGSAPLLAETHTQFEERTGHRILERY
+GMTETNMTTSNPYDGPRRAGTVGTPLPDVELKICDPDTGTTLPDGDTGMIEVRGPGVFQG
+YWHMPEKTAAELRSDGFFITGDLGLIDDQGYVHIVGRDKDLIISGGYNIYPKEIELVLDT
+QPGVLESAVIGVPHPDLGEAPLGVLVPDGSVDLDLDAIAGTIGQHLARFKCPRLLVLAQD
+LPRNAMGKVQKNLLRAQYASAFAP
+>tr|B7RP91|B7RP91_9RHOB
+MTTDTRLAFAHPSERAVATAGPEPLDRISLRDHIVEVEIGAFQAERGVTQRICFNVVVEV
+QPLTSPAEDDVDRILSYDRVTEAIAYELAAERLNLLETLAERVADRILLERQAIRVFVRI
+EKLDRGPGALGVEIVRARDDVPEQRAAAAEVPHPELVYLSNEAIASPHLTGWLDQLEQMG
+RPLILCVGASDTAAPQVAHKMAQRRIDLLAIEQNAWVLASKDNRCVVVATRTELDWAMKN
+GQTSVWAPSKIVLDSVDTPSAQPRDAVALAAWFAATFDATEMLVIGADLPADASVPLRAL
+AATQEKL
+>tr|B7RQT8|B7RQT8_9RHOB
+MKPRNGKMKMNYVLDNETATPVEVDRILREAHALRSAYIAAFAGSLARKVAAPFRRAPRQ
+AAAA
+>tr|B7RM32|B7RM32_9RHOB
+MADTSATNAFVEFERVQKSYDGENLVVKDLNLSMPKGEFLTMLGPSGSGKTTCLMMLAGF
+ETATHGDIRLDGKSINNIPPHKRGIGMVFQNYALFPHMTVAENLAFPLEVRKIGKSEREK
+QVKIALDRVQMGDFGGRRPAQLSGGQQQRVALARALVFEPELVLMDEPLGALDKQLRETL
+QFEITHLAHELGITVVYVTHDQTEALTMSDRVAVFENGRIQQLAPPDLLYEEPENSFVAQ
+FIGENNTLEGVVKEIKGGTCIVQLDGGGLIEAKPINVTKAGERTRVSIRPERVEFNKDRM
+AEGAHTLKAEVLEFVYMGDIFRTRLRVAGTDNFIIKTRNAPDQVRLKPGQQIEIGWLAED
+CRALDA
+>tr|B7RM53|B7RM53_9RHOB
+MQMSDTRQIAATPAEVYAALLDPDMLIKCVPGATEVSGSAEEGFEATVVQKVGPVKATFK
+GQVVMSDMVPDQSITITGEGKGGAAGFAKGGAVVTLLEKDGGTELTYDVEAKIGGKLAQL
+GSRIIDGFAKKMADQFFNNLQETLEGPADEGAHATDEAADGKSKKKGWFGREKT
+>tr|B7RIT4|B7RIT4_9RHOB
+MNDPVLRLSGIKKAYNAAKPTEVTVLRGIDLTVEPGEVVALVAPSGAGKSTLLHIAGLLD
+TPDTGTVEIAGVDMTGQSDRKRTGVRRRDVGFIYQFHHLLPEFSALENIVLPQLANGVGT
+ADAQARATGLLDQVGIAHRASHRPAELSGGEQQRVAFCRALANAPRLLLADEPTGNLDPT
+TSDQVFGALMDLVRSTGLSAVIATHNLELAARMDRQIRLDAGLLVPV
+>tr|B7RRC9|B7RRC9_9RHOB
+MAESETEVASGAGATAFGSSDFENLLKKEFRPKSDQAKTAVEQAVKTLAEQALANTALVS
+DDALRTIESIVAAIDKKLTEQVNLILHHEEFQQLESAWRGLHYLVNNSETDEMLKIRVMN
+ISKKDMHKTLRKYKGTAWDQSPIFKKVYEEEFGQFGGEPYGTLVADYHFDHSPPDVELLG
+EMAKIAAAAHAPLITGANPTLFQMDSWSELANPRDLTKIFQTPEYASWRSLRESEDSKYV
+GLAMPRFLGRLPYGSKTDPVEGFAFEEDTDGTDHSKYGWVNAAYGMAVNINRSFKEYGWC
+SRIRGIESGGAVEGLPTHTFPSDDGGVDQKCPTEIAISDRRESELAKNGMMPLIHRKNSD
+IAAFIGAQSLHKPAEYDDPDATANANLAARLPYLFATCRFAHYLKCIVRDKVGSYKSRDD
+MQSWLQEWVNQYVDFNSATSPEEVKARQPLAAAEVVVEEVEGNPGYYSSKFFLKPHYQLE
+GLSVSLRLTSKLPSEKG
+>tr|B7RG29|B7RG29_9RHOB
+MTGTDLRTLLTELVVLSLRNPRQAAEQIIGWRLDRETLWTALALAAAVNTLIFSLSITLQ
+PTPGMPEFFTSPLAMFVLLAGVLVITTHGLYWTGRAIGGKGDLGDILALVVFLQVLRILA
+QVVIFVLMFVAPGISLIFSLATGIIGLWILVNFIAAAFRFPTLGRAFGTLLIAMLMIVLG
+LSFLLSIIGIAAQGVV
+>tr|B7RP65|B7RP65_9RHOB
+MKQLFEFSFFLAGATALHLSVGYVAPSGQRASAGAGGDAAITLAAATASMQDMVTAWEQP
+VTAAQTVAQPQPVPQMEPTALPLAAPLPDRAISRPAVLAPPLVSEAPALPEVDRSVAPPP
+RPEIAQTRPKLRPPAPVKTVNKAEPAKPKAKAPPPTKATKNIAPQKAAGGGGKAARGRSD
+SGAATKTKPGNAKHLMAQWGGQIRTSVERRKRYPSGTRARGTVTLAISVHTRGAVMNVSL
+RKSSGIAQIDQAAIAAVKSARIATAPKGLAPGVHSFTLPMKFAP
+>tr|B7RG46|B7RG46_9RHOB
+MSGLLALLDDVAAIAKVAAASVDDVFGQAAKASAKAAGAVIDDAAVTPKYVHGFEANREL
+PIIWRITKGSLKNKLVYLLPAGLLLSNFAPWAIPPLLMLGGAYLCFEGAEKIAHALGVGG
+AGHVDHPGKGAVIEDPAHLEEQKAAGAIKTDLILSAEIMTIVLSNLEVSNAWMEAGALAA
+AAVIITAAVYGSVALIVKMDDLGLYMAKNASLGATRSVGRAIVRGMPYFLKALTIVGTAA
+MLWVGGSIIIHGMEVLGFGTLGHLIHDYAANIGHMVPSYEGAVEWTAKAAMDGIFGLALG
+LVLIPIGEKIITPLWRAVFNRSAPKKTAA
+>tr|B7RMX7|B7RMX7_9RHOB
+MTTLVFGHKSPDTDSTGSPIIWAWYLNQIAGVDAAPALLGEPNTEALFMLDHWKLDKPQI
+ISDVEEDQPVVIVDTNNPAELPDNINNADIKAIIDHHKLVGGLETKGPIHIVMEPLACTA
+TIMYKMIGDDMAQMPENIKGAMLTCILSDTLEFRSPTTTQEDMAIAHALAKDLGIDIPDY
+AAKMFAAKSDVSSFSEAELLRMDSKEYEVGGKQFRVSVLETTSPATVLDRKDALMAAMPG
+VATEDGADQVLLFVVDILNEEATMLIPNELTKSVAEKSFGATVTGDTVVLPGVMSRKKQI
+IPNLKV
+>tr|B7RQ30|B7RQ30_9RHOB
+MFVAQSDQDVQAAQALRAFAFGLDVAFDRDAFDATQHQVLVRDLQAGEIVCCFRTRLFLG
+AQLDQSYAAQFYDLTGLSRFDGLMMELGRFCVHPDTHDPDIVRMAWAALTQFVDAQGIKL
+MFGCSSFAGGAIGDYADCFALLRARHLAPAPWQPGEKVQDPVRFADHAGTQPDVKMAMLR
+MPPLLRTYLLMGGWVSDHAVVDRHMNTLHVFTGLEIDAIPENRKRLLRGLG
+>tr|B7RRB8|B7RRB8_9RHOB
+MSSSQKFIARNRAPRVQIEYDVELYGAEKKVQLPFVMGVVSDLSGKSATPPVADRKFLEI
+DVDNFNDRMAAIAPKAQFSVANTLTGEGNLAVDLTFTKMEDFTPEAIAEKVDALRPLLEA
+RRRLSDLTTYMDGKSGAETLIEKLLSEPALLAAVTGSKEASADVDAALDSLRAALPAETP
+KEDTTDATLASLAAQAPVERAEDTSVSDVLGSLQPPPETHAVDDQASALEALRAVHVVEQ
+VETDTADTVLSGISRTEATDTPAPNEAEAVLSGLERIQDVAPEDTSGDILAGIHQVEDAP
+AQDDVADILGSLNEAPEDTAPEDTADDVLSGIAPVTPLQETDTTGDVLAGLADTPMPDVA
+PQDRTSDILASLDRQEDTVAANDTDDILASLDAPEEQEADDVADVLAGIEAVAIDESAGG
+GLTDDILAGIDTAASDEDENAEALDDILGDISAPDSADAPPDTSADDILAGLDAPEPTAE
+STNDFDDVLGGMADAHIDAVIEGETADDILANLDAPTPAPAAEENTDDILGDIAEVETAA
+EDDGLSDILGGLETPTPEPKQETDLDDVLSGLDAPPSEDTHSDDLDDILGGLDATEDASE
+DTSLDDILGDLDLAEETGATDDLDDILGGLDATEDASEDTSLDDILGDLDVAEEAGATDD
+LDDILGDLDTTEDASEDTSLDDILGDLDVAEEAEATDDLDDILGGIDTSEDASEDTSLDD
+LLGDIDTPEEPEGADDLDDLLAGIGDETPTEETDDLDALLGGLDEPADAGGDDLDDMLTD
+LGAPSAAVADDTAGKNAAPRVAKQSPFGVITAPRPERADLNRKKFRMAVFGDFTGRAAKG
+LMETGDALAARPPIALDIDTIDEIIEGFGTTLDLKIGKDGSGVAVKLKELDDLHPDEIYD
+NVGIFDEISGLRKQLGVGSMADRTISQLKTWSENHATPIKLPKRSASTSVPVNLKLSDFQ
+ALIGDTGGSLTPSGPADDLIAQVVGPHIVKAPDAGAAEMTKAVDEALSSAMRLVLHHPDF
+QAIEAQWRSLDMLARRIETDSTLEIVLYDVSAEELAADLAAQEDLSKSGLFKLVTDVVDP
+EEGAGGFSALFGLYTFEETPPHAELLARIGQIGAHVDAPFFSAITPTYLETAKEDRHPLV
+AEAWDTLRGLPEAAYIALSSPRFLLRLPYGAKSEPIYPFSFEEFTSKEGLKGMLWANPVV
+LVAILLAGTHKKDGKAMNLGSLMSLGDLPFHYVTDRDGDQVALPCTERNLTSDAAQMTLG
+RGYMPVVWVKGRNEIRLGSFRSLAGDIIAGPWEAEVPAQSPRPGAGTIKLEANIPVAQDK
+DGSGADDTSLDDLLSDTETDGVQADDGDDDTSLDDLLAGFDADDTDDDGGDMDADLAALL
+EGL
+>tr|B7RKC9|B7RKC9_9RHOB
+MNNSRHTQGASSPRDLLTGYRQQAGNRDEMLDGAGNVKPVWQEFLDHLQRLGDTDLTHRF
+ARGDQYLRDAGVLYRQYDDTVSVDRGWPLSHLPVMLSEAEWREISAGLIQRADLLEHVVR
+DLYGPGELVASGQLPASLLTQNPAWLRPMVGVTPANGNFLNLLSFEIGRGPNGKWWVISD
+LVEAPSTAGFVIENRVAMTKVFPNFFNGSNVHRIAGFFQDFQQQLFNLRGNSKGQIALLS
+SGPANQNYAEHAYIARYLGMLLVEGEDLIVQDGHVMVRTVAGPKPLSLLWNRVPSALCDP
+LELDQTSLIGTPGLVDALRQQQLHLVNAIGAAVLETRALMAFLPKIARQHFGAPLKLPNI
+ATWWCGQETARAHVIKHRDTMMVGSAFSTVPLMADSADQGAPAAPTQQEIAALLQRSGRE
+LVGQESITLSTTPTYEDGALVARPMCIRLFLARTPDGWQVMPGGYAQVSAGNDAKAFAMQ
+RGGKVADVWIRGEQPVETPSLLESGAAENRAATSRAALPSRAADNLFWLGRYVERAEQNI
+RLFRAYFARINDGASHDAPLLAFMRSHLMQDVAAQPAAMAERFGAPLDMALNAARKIGDR
+FAPDGLMALRALVATTSDLDQRDIPLEEFPRETSQLLRQITGFAGLVHENMYRSDGWRFL
+SLGISLERAANMAQLLSQLVGPDAPDGALDLALEVGDSVVSYHARFSILTNKVAIADILG
+VDDQNPRSIRYHVSRAKRHIAELPGQSDSHVLSDVARQILLLETTLAASAPSALTPEMLG
+KVKTDIWDIADALTLAHLV
+>tr|B7RKR2|B7RKR2_9RHOB
+MRPMSHTDPTLVTAPTTVGQNQLPQVTEPRNPGMPLDMDWVRAVQVNTSAVERRAASLPA
+RRSVKKDHQAAWLLRAISCIDLTTLSGDDTARRVQRLCAKARQPVAPAVLEALGMAPITV
+GAVCVYHEMIAPAKEALAGTNIPIAAVSTGFPAGLSPFELRIREIEMSVAAGAAEIDIVI
+SRRHVLSGDWQALYHEMRAFRAACGEAHVKAILATGELGSLRNVARASLICMMAGADFIK
+TSTGKESVNATLPVTLVMIRAIRDYYERTGIRIGYKPAGGISKAKDAVTYLAMIKEELGD
+RWLRPDLFRFGASSLLGDIERQLEHHVTGSYSASYRHAIS
+>tr|B7RPH2|B7RPH2_9RHOB
+MTHPLANTDVIAPNFKRRLSGVTATVMRLVPLQAHSIAIVATGPVVPDDVPHVPLSSLLT
+MSRRGPSGWRVWHARRNVEMLGGLALRYVLGKRLKLMFTSASQRKQSGLTRWLIRRMDAV
+VATSDRTNAYLEHPAHVIMHGIDTDSFAPSPDRAALRQALGLPVKATLVGCYGRIRAQKG
+TDAFVEALLPIMHENPDVVGLVMGRATEKYAEFEKGLKERVQAEGMSDRMLFLPEVPVGD
+MADFYRVLDLYVAPQRWEGFGLTPIEAMACGVPVVATRVGAFDQLIIENTTGLLVPPDDI
+PALEAATRDALSDRARLANWATAGRSFVMSDFSIEREAAALVKLYRALLAA
+>tr|B7RRY7|B7RRY7_9RHOB
+MIPEWIRQASIVDDVNLIASRRSQLIAKSYRNTCNDAFRLWRNETVEIAA
+>tr|B7RFY0|B7RFY0_9RHOB
+MKKGDANDPKGLIYEAYRIDGISKSECRSIFLDWALSLPLDTSTGPSIRQMLQKYGTDAP
+THPMTEVMEEGLKGMAAPRRRGGWKSRTRN
+>tr|B7RG51|B7RG51_9RHOB
+MLVSQILKTKADDSVTTVKPGVLISEAAKMLSEKRIGTLVICSDGKTPDGILSERDIVRA
+LGVQGDACLNMTVESLMTKELVTCGTDARSDEILTKMTEGRFRHMPVLADGALVGLISLG
+DVVKAQLMELSMEKDALQGMIMGH
+>tr|B7RMU1|B7RMU1_9RHOB
+MTHPIQAEVLLPTQELRNDLPFYTKTLGLRLDSIFPADDPSVASFSGHGLRIRIEKGADV
+PPGKIRILTDDPDSFADGARALVAPNGTQIEIAPLSPAVDQPQTQHEFAVRRLRDEAPWV
+IGRAGMHYRDLIPSRLGGSIIASHIRIPDGGPVPDMVHYHTVGFQLIFCYRGWVDVLYED
+QGDLIRLHAGDCVTQPPGIRHRVVEASPNIEVIEIGVPAEHVTTIDHDMTLPNGKGDPMR
+EWDGQRFVHHLKDGAVWQPFRIPGFTARDTGISDGTKGVAGIQVVRVDGQTPPPSKHDAD
+IHFTFVMEGSMTLTAEGQDPRDLQPGDAFVIPPGMVAQYTQCSDDLELLEAGLRGDFNTT
+LLG
+>tr|B7RNU8|B7RNU8_9RHOB
+MSIFARLVGAAAIATAALGAAPVHAEGGTLVIASSQVPRHLNGAVQSGIATAVPSTQIFA
+SPMRYDENWDPQPYLAKSWEVSEDGLSVTLNLVDNATFHDGKPVTSEDVAFSIMTIKENH
+PFKSMFAPVEAIETPDPLTAIIKLGQPHPALLLAMSPALAPILPKHVYGDGQDIKSHPAN
+AAPVGSGPFMLEEFTAGEAIVLKKNPNFFIEGRPKLDEIIIRIIKDPSALLIAMENGEAD
+IYPFMAGAQEINRLGKVDGLE
+>tr|B7RQJ3|B7RQJ3_9RHOB
+MSELIVIGYDTPERAEEARAELMTMAQEYLVDVADAVVAVSDDTGNIKLNQMVNMWTAGA
+TGGAFWGLLIGVLFFNPLLGVAVGAGAGALSGALTDYGINDDFMKDVASVLQPGQAALFM
+MMRREASDRVIERLGEHGGRVLRTNLDTDAENHLRRAFDEAHKAKTEAAALTKA
+>tr|B7RJ64|B7RJ64_9RHOB
+MEFTRRNAIVMGASAFAALALPKLAFAAAGDDAIAAFTGGAEMADTGLTLTAPEIAENGN
+TVPIEVDAPGATEIMVLALGNPTPGVATFKFGPLAGSQHASTRIRLAGTQDVVAIAKMAD
+GSFAKASSTVKVTIGGCGG
+>tr|B7RL41|B7RL41_9RHOB
+MLKTAIRHEDGHDSVFDAVRETISREALDRERFEDVGHRPMRPFALKAGPMPRHEARPLP
+SLKPQLHTMPDKVSDMPVGQADETKSTQKPKSITHERKAGTKRLFIMGGVAVAGGTFLFL
+HPLFGLALVVLLLSSCAASYMILGYDGFWQRAMQPARAYVARHPDRAADVCNSIDQFAVR
+LDAVLDRMPERMVAALYLPDISDLAAMAKQGQATTDLRIDPSAVRQAVLPQQSPAIVPLN
+LRDWADTSR
+>tr|B7RMT0|B7RMT0_9RHOB
+MMVSAAALDDPALDRNPVGTGPYVYVADQSREGELRVYAPTPNYRAPEQQGLERIEISEI
+PDNTARLNALKTGQIDLAVFLSSPQAAIVERTAGITLLKQPGGTTYHLSILDRAGTLVPA
+FADPKVRMAMNYAINREAFSKAIEFGLSSPASQPYVAGLWQHDPSLEGRYSYDLDQARAL
+MKEAGYEDGFEFTMPSIPIFASRLEAVAGFLKEINITMNIQTVEPGTLARRSRTRDFPAT
+NLVWNNAIDPKFLTTYYVAEDAVFNPFKIKPDPELTELSAQGLATAAEAARAPIYYKMQH
+KLADESYMIFITTTPVLFGASDAVAANPTVKFRPGTDTPYFSGLRVDN
+>tr|B7RQ47|B7RQ47_9RHOB
+MYGTPALPQDFVSLPYANPDAPKGGAIVLGNTGGFDSLNPFVRKGTAPWQLPFFTHETLM
+GRSWDEPFTLYGLLAESIDVAEDRSWVEFTLRPEARFADGTPVTPEDVIFSYDLLGSEGH
+PRYHGLRAQIDTLTQTGPRSVRMTFNTENHELALLAGMRPILSKAQWEGLDFANAPLADI
+PMGSGPYRVTDYQAGRQVTLTRNPDYWGKDVPFRRGTHNIDQIKLDFYGDANVLFEGFKA
+GEISAIREFNAENWATQYDFPAVQRGEVVKSTFQHQKPSGMTGFVMNTRRGPFDDIRVRE
+ALIAAFNFEYINETLTGGAQPRITSYFSNSPLAMEPGPAGAQVADMLAPFKDTLPEGTIE
+GYALPVSDGSARNRAGIRAAMKALEDAGFTAQDGTMRDNAGQPLRFAILLSKGSTENMAI
+AELYIQALKRLGIEATVDAVDDAQFVARNNEFDFDMAIFRRALSLSPGNEQRYYWGSEAA
+DQPGSRNLMGAKSPAIDALIDRMVGAQSTQEFTTATRALDRVLTAGRYVIPFWQFTQDRI
+AHIAALKYPDRVPLYGDGPNYMPEVWWIDPDS
+>tr|B7RQG5|B7RQG5_9RHOB
+MALSDQFQFVRQRYQGDIMLTTRAIGSEGFGHEKMPCQRCQIFQIHENKAAHCAASL
+>tr|B7RIM4|B7RIM4_9RHOB
+MTIGPVTFAMAQSGRPDGADIYLVLEPRASAGLTRDLARVGAKEIGPLRATFARLITAVP
+TGHADLQKSGYLIMPASALALLCGIKIKESVS
+>tr|B7RP47|B7RP47_9RHOB
+MAVGAPSSNAAAPLTKRAKAAIVVRLLLNEGADIPIEDLPDDLQARLTQQMGSMRTVDRH
+TLDAVVEEFENELNSIGLSFPGGIIGALTALDGKISRQTAERLRKEAGVRQLGDPWARLR
+DLDAPTMLEMVEKESTEVIAVVLSKLKVSVAAKLLGLLPGPRAREITYAVSLTNSVSPEA
+VYNIGLSLASQLDSIPVKAFDDEPVERVGAILNSSTSFTRDDMLTGLDETDEGFANAVRK
+AIFTFADIPARVQPRDIPRILRGADRAQLVYAMAGSETAGLKVVMDFILDNMSSRMADQL
+REEIAELETVKASEAEQAMSAIIDVIRRLETDGELQLVQDDEEE
+>tr|B7RGE4|B7RGE4_9RHOB
+MGICILSKKMQEATAAFMSVLDDLTIAHIAANRGQLMDRIAPLEMPRTETMGR
+>tr|B7RP52|B7RP52_9RHOB
+MIHFIRSFLISVMILVASVATAQEDDKGFLTRTIQDALSGAGRTVSIDGFAGALSSRASF
+ERMTISDDQGVWLTLEQVELDWNRSALLRGRLEVQGLTAQRLSVPRLPVAAEDTLPDPEA
+TPFVFPTIPDLPVSIDVANFAVDEIILGAPILGEAAELTLKANALLNDEVLKLEIDASRT
+DGKGGQFGISANLDRGENLLDLLVNLSEDEKGIVARTLNIPNEPSVDLTVAGQGPLSDFK
+TDITLSTDGSPRLSGQVGVAELGDPADPDRRINADLSGDVTALILSQYREFFGTDVALTL
+DALVQADGGVDVSDFALKAQSADLQGKVTLNSDKWPSLIDITGTVAAADGSRVLLPVAGA
+DTYVQRVALDVKYDAGSGEALDATFDVTGLATDALAIDTAQLQLDGTLQGRAGTVGEFNG
+DLVFATKGLTLTDAAVSEALGDTLNGRANIAYVEGTPTQITGLELSGADYGLAGDVTISG
+PAENFLTQLQARLEAADISRFSALAGRDLDGAANVDLSGQIVPLDGTFDLRIAGLTRDLK
+VGIEQADTLLAGETTLSLGAVRDETGTFIRDLSLENAALSATGGVELRSNNSQARIDAKL
+NDIGQVMPQYSGPVTISATADQDSRGWTIDAATDGPYNAAITAKGLATGPNAALTFTAEV
+PEIKDFVPDAPVGGQVALDGMLRQTPDGWQIDSKASAPQDVAATVKGLLTPLDIDFTASI
+PRVQAYAPQMTGALTASGNLKQTEAGFVIDAVADGPYAAQVAVQGALTPMIDISFDAAVP
+NVNAVVPQVNGPLNATGRLRQTEKGFFVDTSATGPYGARAMVEGLATGPDMSLTFDVSVP
+NVQPLVPGVSGPFAAKGSVRQTPTGIAIDTNATGPYAARAAVQGVVTGSNPTLNYDVTIP
+NLAALVPKLVGPLNVTGSAQQESAGWRLNTNLAGPAGTQATVAGLVGTDGSLNLDINGNA
+PLGLSAPFIAPRSLQGQAAFDLTVNGPPQLGSVSGTIRTSNASLSAPNLRVALQNIAADI
+RLGDNRAQIDLSADSADGGQIKVGGAVILTGALPADLQIGLNNLVLIDPSLYRTILNGNL
+RVAGPLTGGARIEGQIDVGETSVTVPSTGMTSIGDIPQIDFVGAPADVLATRRKAGLEGN
+DAGTDPAQGSSGPGFGLNIGINMPNRIFVRGRGLDAELGGRLTLTGTTNRVISAGRVDLI
+RGRLDILGKRFDLSEGAVQFQGDLIPYLRFVTAASTATGEVRIIIEGPATEPRVSFESTP
+SAPQDEVLAQLLFGRNISEISAFQALQLASAVATLAGRGGVGVISNLRSGFGLDDLDVTT
+TDSGATAVRAGKYISDNVYTDVTAASDGTADISINLDITKNLKAKGRVGSDGNTGIGIFF
+EKDY
+>tr|B7RMY8|B7RMY8_9RHOB
+MLERSAKAGNEGYPPFNIEQTSDYSYLITLAVAGFAEEDLAITVEDRQLVIRGRQAEGQD
+GRIFLHRGIAARQFQRSFVLADGVEVGEALMENGLLHVDLTRAKPEKVVQTIKIRKGE
+>tr|B7RGF5|B7RGF5_9RHOB
+METLSSLADGFAIALTWQNIGLALLGCFLGTIMGALPGLGPSNGVAILIPLAFTLGLAAT
+PSLILLTSVYYGAMYGGRISSILLNIPGDEPAMMTCLDGYPMAKKGMAGEALSLSGISSF
+VGAFFATWGLILLAPQLVKIALLFGPAEYFALFALAFMTLGGVSSTNQAKSAFAAALGLG
+LAMIGVDTQTGVPRFTFGEVHLYDGLDFLVAIVGLFALSEVFIFLENRHGEASAKGKTIV
+IGRLSPPRSMLKACTPTMLRSSFVGFIAGVLPGAGASLGSFLSYSLEKRLVDKDGTFGTG
+DPRGVAAPEAGNNAAAGGALVPMLALGVPGSGTTAVLLAVLLSLNITPGPLLFANNPDVV
+WGLIAALFIANFMLLALNIPMVGIFTRLLLVPPRVLMPIVAMVSFVGIYGISGSSFDLLV
+MIGFGLLGWVLRKFDVPLVPIILGTLLGNAMENNLRRAITIDDGNWWTLIDSPLAIGLWV
+VAIIGFILPLFFARKVKSGMQRGDAEGSTRD
+>tr|B7RK86|B7RK86_9RHOB
+MRKLVVLLCALVTPLWAQTPTPVLQESGYWAQEVTNGDLPPVIQRVPSDPLIVDLAAKGR
+SFGIQGGTLRTLISRSKDVRQMVVYGYARLVGYQADYTLAPDILSAVDVVENRKYTLHLR
+PGHRWSDGAPFTSADFEYWWKHVVNDPEITPSGPPDFMMVEGKWGSVTFPDPQTVVFEWE
+DANPSFLPLLAQASPPFIYRPAHYLKQFHVAFAEPEQLANEVNTARVKSWAALHNKRDNM
+YKYDNPEEPTLQPWVNTSDSDSSRQVFVRNPYFHRVDSHGVQLPYIDTVDMTVVGGGLIA
+AKANAGEVDLQARGLDFTDISILKKGEADGGTYRTFLWANGAASQIAIYPNLNFADPVWR
+EVMRDVRFRRALSLGIDRRMINRALYFGLAQEGGMTALPQSPLFSPDALHAWSKMDIDRA
+NALLDDMGLTDRTPSGLRKLPDGRPMEFVIETAGERSEEESALAIITDTWRDLGIRLIMR
+PLDRDILRNRIYAGTTMASVWFGWDNGIPSAGTSPGYLAPTNQEFFSWPMWGQYYQTLGQ
+SGEAPDMQPAQQLMLLANDWSHTESQTKRTEIWKKMLEIHADQQFAIGILSEAPQPVVVS
+NRLKNVPEQGIWAFDPGAHFGIHRIDEFYFEDPLVQVSQ
+>tr|B7RMR8|B7RMR8_9RHOB
+MSLEILQAGPMLSIQDHGRHGRKRFGVPSAGAMDRPAMDLANALCGNPLDAAALEFAAFG
+GHLRAARPLRLAVTGGECDIRCGQRQLAAGQSHAIAAGEVIRIGALKGATWGYIAVSGGI
+AVPEVLGARATHLRFALGGVEGRALRPGDVLPLGQDDSSAPCLRPREPMVRPGANLAGRP
+IRVMLGPQDDSFDAQTLARLCSATFTVTPKRDRMAMVLGGTSLFAARGHDIVSDGIVPGV
+IQVPASGEPMVLMADSQTTGGYPKIATVISADLPRLAQMPVGAELRFEVIPRETAEDITL
+AERARLRDCFSGLVPASGAQLSSSFLLGCDLVGGIFAPEAVMGRDLMTAKEQQT
+>tr|B7RPJ9|B7RPJ9_9RHOB
+MSDLTQKEQCKRGCGLLGAGIGLAAILIIWLITGSGFLLSVLLGLVLGAIAFGAFSFLFC
+GKETPVEGLPPQDAGLSSPQDTAVSSSLSDPAPSAVSQSVASGATSTGVSEKTGFSGIKP
+SKVLHGEQELAERKGVYRYEAPKAQAAVATTAEPACGAASGAAEAVDVFETADVGDVAER
+QPETLAAPRAGGADDLKLISGVGPKLEETLNNLGIYHYDQIANWGPAEIAWVDARVRFKG
+RITRGNWIAQAKALAEGGET
+>tr|B7RRJ3|B7RRJ3_9RHOB
+MKKILLSSAALMAMSGATMAACPAVTIADPMGLDAGAFPQQYELSEFQTLANCTLEMSEN
+PEIAALNGRIRGNPDMPALADRMPTEPLVVAPYDKIGSYGGTFNALSNATEAGTSDFMSV
+RHVNLVRYADDLTTIVPNVAKSWWWNDDYTQLTFVLREGHKWSDGQPFGAEDVEFWYENL
+ALDPNVIESPKDYVLAGGEPMTVDVIDAQTVRFNMPSPKPGFLAHFANHYAQGFQPKHFL
+GQYHPAINPDADTLAQSLGFENGYDLIKAYYGSSDWMDTPTPMLAHPDKVANLPLDAAPT
+LESHIVISETTEGRQFVANPYYYMVDTAGNQLPYINEMDEIFVGESEVRLLKLVNGEVDY
+KAQALQIDYVPLLMESQEKGGFVVDLKPDITMPTFAFNVTSEDLEKRKVFGDLKFRQAMS
+VAMNRDEINEVAMFGLGSPQQYIGFSPTPSFVTPEWEQHYAQFDPEMAKSLLDEIGVVDT
+DGDGMRELPNGDPLTLNLQVATQGISIKIVELVGQSWRDVGINNTVKEVTTDEYRSSQSS
+NQLDVTMFEKSVPLAVVLGNAEIFIPPYDNYFNMRTAMLWGEYVQSDGAAGVEPPAYAKQ
+MMEDVKAFQATQVGTPESDALGLKLVENMTGNLLFIGTVKEQKPLYYSAALKNVTPFKTA
+SYAYYRTYPYRPSQWFLEE
+>tr|B7RQU3|B7RQU3_9RHOB
+MSKFDRYMLSQFLTLFSFFALVLVAIFWINRAVILFDRLIGDGQTALVFLEFTVLGLPRL
+ITTVLPIATFAGAAYVINRMTSESELTVLQATGTGPWRLARPVFAYGICVALMMSVLTHV
+LVPMTKAELNQREAEISQNVTARLLTEGTFLHPTSKVTFYTRLIGNDGVLRDVFLSDRRN
+PDEGVIYTAAEAYLVRNGNGTTLIMVDGLAQRLQVEGKQLATAKFRDFSFDISALVSNST
+DESQSIDSMVTFDLLKNWDDLAAKTGQTHGDIAEEVNARFADPLFCIIAAMIGYATLIMG
+GFSRFGVWREIVIAFGLLIAIDGFSSTLVETVRQDASRWPVLYVPSLVGAMLVLAMIWQT
+AHPGWTKRLRAPKVAP
+>tr|B7RI22|B7RI22_9RHOB
+MLVVYLSIPLILLICGGDLGWWQAWFYAPLIIAAGIWARIWAERRHPGLTAARQDTENFR
+NAKPWDKVLAPLMAVSIGYPLVIVAGLDHRYGWSPAFPVWLNAVGFALIAFGYAFASWAL
+AENRFFFTTMIIRTDLGYAVCDSGPYRFVRHPGYAGNILPLFGIVLALGSLWALIPAAAA
+MIITIVRTALEDRTLQEELTGYREYADRVRYRLLPGVY
+>tr|B7RKM1|B7RKM1_9RHOB
+MDFEGAKIALYLGDQLVVILRDDIDGLPFPGFWDLPGGGREGVETPQACVQRECFEELAL
+DLTDMVFDWGRSFETGGVVHWFFVGHLPASFADEIVFGDEGQKWALMTDQRFITHAKAVP
+MFQDRLRLYLNGGSPRSL
+>tr|B7RHV8|B7RHV8_9RHOB
+MPIFRPCGASSIHDDVRGKRFAAMGTKMTGQMADIRGFHG
+>tr|B7RJZ3|B7RJZ3_9RHOB
+MQMDAFFSFLTPHELALAFGVAIVAGFIKGMVGFAMPLVLISGLTIFLPPELALAGLIFP
+TVATNLFQALRQGIKAAWASTRLFKVFLISGGIMLLLSAQLVRFLPAQTMLLVIGVFITL
+FALWQISGRSFNLAHRSSRVEVLVGGFAGAVGGVSGVWGPPTVAYLTALGTAKQDQMRIQ
+GVIYGLGAVALVFAHFGSGVLRAETVPFSIFMILPALAGMWLGSQVMDRIDQASFRKATL
+FILVIAGANLVRRGLLG
+>tr|B7RPK0|B7RPK0_9RHOB
+MTEEENKALARKGRTVALVIAGTMLLWIAAQWIAPQFGLPGRYALLFDFAALAALVWAMV
+NIYQMRRARVAGRDT
+>tr|B7RLC3|B7RLC3_9RHOB
+MSCPICSGDVSAKYRPFCSRRCADIDLAKWLNGSYAAPSNDPDDIETALEAAEAALNAPT
+KPH
+>tr|B7RKV9|B7RKV9_9RHOB
+MFILGLTGSIGMGKSTTAAMFADAGCAVWDADAAVHRLYSRGGAAVPAFQAAFPDAVIDG
+EVSRPALKDIISQDPTALKKIEAIVHPLVGQDRASFLENAQSDIVVLDIPLIFETGGNKR
+MDAVACVTVPAGTQQERVMARGTMTLEQFENIRAKQMPNAEKCALADYVIETDTLDHARA
+QVLAIIDDIKGKLTHA
+>tr|B7RQ25|B7RQ25_9RHOB
+MTLRAVVIGAGHYLPERVVENAEFEGKIDTDDAWIRSRSGIERRHFVSGDETTSTMATAA
+ALAALAQAGKTPADVDAIILATSTADLTFPSAATMVQAQLGMENGFAFDVQAVCAGFIFA
+LSNANALIVSGQAKRVLVIGAETFSKIMDWTDRSTSVLFGDGAGALLLEAQEGTGTPEDR
+GVLSTDLNSDGRYRDLLYVDGGVSTGTTGYLRMQGNQVFRHAVEKLASTATTAMDRAGVT
+ADDIDWVVPHQANIRIIQGTAKKLNLSMDQVVVTVQDHGNTSAASIPLALSVGQERGQIK
+KGDLLVTEAIGGGLAWGAVVLRW
+>tr|B7RLG2|B7RLG2_9RHOB
+MGALAAPALWADSPKPFPNFEAKRVKPPKAGSTNRINVFIEPKVDAVPEAVATPSGAIAP
+AAPGQFDWFWARISPDAASSGPGRLEDAMITLATASTKVPAPRMQQMQEIAKTNGIDILR
+STIGTSVSPALVLAVITVESAGRADAVSGAGAEGLMQLMPDTAARFGVTDSMKPTENILG
+GVKYLDWLMGEFDRDPILVLAGYNAGEGSVRKHEGVPPFAETRDYVPKVLAAFQVAKGLC
+QTPPELITDGCVFAAMK
+>tr|B7RMT6|B7RMT6_9RHOB
+MKSDFETAGTADAQAADAEEGRGFQPLAGLRVVDLSQVLAGPFATYQLSLLGAEVLKIEK
+PGEGDWTRNGGPSGALSEMGMGLNFLAHNASKKSVTLDLKSPEGLAALKRLIATADIFVE
+NFKPGVAERLGLGFEAVREICPQVVYCSISAYGQDGPLRQRPAYDHVIQGMCGIMMTTGQ
+KGDGPTKVGAPFVDYATGMNAAMAILAGLAEVRRTGQAVQMDVAMLDTALMMMASLVTQH
+LTAGWMPAQNGNEAWSQSPSSGAFQTSSGVLMLAANNDRQFVKLCEAVGRAGILADQRWA
+TPAARAETAIELREELVALFLTRPAAEWEEILAAAEVPAARVRSLDEVVQEEQFAARDLI
+SEMTIQGRDLPVHVPNLPFKANGTNLHPASAPPVLGSDTEAVLRCAGLSAQDIATMRDAG
+VI
+>tr|B7RSD8|B7RSD8_9RHOB
+MKNLETFNWNDIRTSLERSLGKKDMQGWIEAIDLRMQKMRIELGDYESLPKIARIEQESG
+FLGIYTKGAQSARARQMLDDIVREVERSCESCGNAAQAQKIGSYIRTLCCHCYNRVLRDP
+LKENDGYGTRLYLDIAESYPDLVSDNCTSLRPAVGRGWLNSLDRCLQEMERAVFEADLPT
+GTVQVSDVKAKYGRISVGYHRHHECVDLAEAGLELDTSKTCAICGHFGDRRRGKGGAYPA
+CDYCSSQKFDLSGGSTDGREARYSHPASLNNVPVPTGPELMTYHLGPLVTKIAAEFTDWH
+PITIIDQLLSHDPAEKGRNLVDLVRDKDEAALYRVLAALRR
+>tr|B7RIM5|B7RIM5_9RHOB
+MLGTLATADMLTWLSIGTKALVYVTTLLAAGSVLSAISLKTLPESEVQILKRIAISCAVL
+AAVLSVLRLPLRASFLMGGTWQGAADPMLLTMVADSPLGTSVALRLVGLALICAIVIRHW
+SGQSLAVLGACIVAASFIMRGHALEEPRLLLAVLITSHILGLAFWVGSFAPLYRLAGQPA
+GQGAGAGQGAGAVAHEFGRKAMGVVAALTVAGGVALWILTGDFLGALYTPYGQFFAIKLG
+LFLAVLGLAAWNKMRLTPELQRNAPGAGVRLRQSILLESVFVAGVLLVTAVLTTLSAPDA
+SIQTSDVGKVIVAILL
+>tr|B7RJT8|B7RJT8_9RHOB
+MSHIIVVGNEKGGAGKSTVSMHVATALARMGHKTSVLDLDLRQRTFGRYIDNRKSFLKTA
+DLDLPSPHMHELPEIDADTLQPGENIYDHRLSAAVAELEPDSDFILIDCPGSHTRLSQVA
+HSLADTLITPLNDSFIDFDLLAHTDATGDKITGPSVYSEMVWNARQLRAQAGLDPIDWIV
+VRNRMGAQRMVNKDKMERAISNLSKRIGFRIAPGFNERVIFRELFPRGLTLLDLKDIGVK
+QLNISNVAARQELRDLMKALNLPGVEINF
+>tr|B7RRR9|B7RRR9_9RHOB
+MALKDDQRNWLNAALNGKGRIKSASIKKQFENYQRRRQKVADVFDKMPHTNSNFFVIEGS
+LKEADELAKAGDFKGAYKYLDKIKALANATDAGTSGKILENEIRQAVELIEKTFSAQVSD
+FDSGFTGMDDAKNRLDEITPCSDKADLKQALEHRKAILDMEPDYHARLDELELELGPKAV
+RLCQRNISGQMSRIRKEFQRLQDAGQGAIVGPYARRVDALEGRLAAQSGRYSNTRSLTAY
+LQTARADAERILIVKKSVDSFPMEDHTQDEKIDALQGGLKPVPAADVLKQLMREEQRIKE
+MRAQYLEEKRRDELALAQTGIDDIEVTPPPPEFEPGDLLDDLTIDLNGKPNEAECARVAK
+DAGEKMSAILKSPDTPQSVLLDLMTKTKDQLVRSMLASAFPGLELSDVSAEQQNMFSGMA
+DEMIAKINADAPNKVDADGQTVMLGGVKYEKVKTLKSGGLGTANLFLNPDTGKKMVMKTP
+NSGNEEAYEDLLKEMKIMNRAQEGAQNSPNKGAIPELYGAARGEDGSMHMLMEFIDGGDM
+SEVSGTVNALASSGLLPPAACVAMQSDMVGKAATALGELQRQGLIHRDIKGLNIMMTKEG
+EVKIIDYGESAFLKEDGEVDHENLGNFTPGYIAPEEFGAGASKTLDNYAIGSMLLQMVGQ
+STPVHGNEMALESGALGRLIQGLHDDPDKRVSLEGLAQSAFMTATDKDYGEEAMNEMRSA
+ATEFAQDTRSIKSDKTIDDLEKGMGGVLTASGKPFVVVQFGDEMAKGKKLGLDDVQEAMG
+VFDNQITEIMRELQSNSKRLSEEELAAIPATEQAEAERLAKEKWLVTNRKKVEELNKARA
+FLQCQVIDEMLDNALTQGDLAFEEALKSPLTSVICSINGEVKSMTLAEAVKEQEPFIKQV
+EELRSQIIKWLETADGTNEEIQAELDERNRVLLERNAEVERLERQIIDAAGSDCKLRFSK
+AKLDKATIPFGPPAKRRTQQEMEADAFKELQARWKNAEVNEEVKEKVAS
+>tr|B7RRU4|B7RRU4_9RHOB
+MHALDIKLLRDFKRLWIQALAIAMVLACGVAILLTSVGMYKALSETRIAYYERNRFADVF
+AHATRAPLSLLAEIANIDGVMNVEARITGGATLDIPGRVRTAVGQILSYPEDADPVLNLP
+FLVTGRFPNALSTTEVTVNAPFARANGFELGDSFSANLRGQKRDLTIVGTALSPEFVYTI
+GPGALMPDNTAFGIIWMPERAAAAAFDMTGAFNDVSIALAAGTTTAPVIDAVDTLLEPFG
+GLGAYDRTTQQSDAFLDAEINQLKGMAAILPPIFFVISGFLVSMVMSRIITLERSEIGLL
+KAIGYSNIEICLHYLMLAALIAVVGVLVGWAAGTALARTTAWQYAQFFDFPFVIFRVSYW
+VYAASGLAALLTTSLGAMQAALRAARLAPAIAMQPPAPPRFKRSFVDDVMTHLRLAQSTV
+MILRSLLRWPLRSFLTSLGLALAVASVIAATFINDALDEIVDLAFYQTNRQDAMLLFADE
+IPEAALEDVRHLPGVLQAESQQFHAAILRHGHLAKRVAVEAHRPGNDLSRVLDAKGKPLE
+VPPGGIVLSERLAEYLEVQPGQSIDVEFLSGRRETFSVNVTALVELHFGLGAYVDFAYLN
+ALFRQAPRVSTVNITLDTAQTDALHAAIKNTPRITGIIEMNENRRSFQDTIEKNILVMNA
+IYIVVAVLITIGVAYNAARIQLSERARELASLRILGYGRGEISYILVGEMMLIALVAQPF
+GWLIGAGIARMMTNAFTSDLYAIPLVLKPPRFTFASLVVLSAALASVMIVRRRLDRLDLV
+AVMKTRE
+>tr|B7RQQ6|B7RQQ6_9RHOB
+MNALVTIKDLHAGYGNTQVLFGVDMDITRGQVSTFMGRNGMGKTTTIRCLMGLLKPSAGQ
+ITIQQTDMTGAPPFRVAQAGVGLVPEGRHVFPSLTVSENLRATAQPRAGGWTEERVYDAF
+PRLGQRKRNLGFQLSGGEQQMLAIGRALMTNPDLLILDEATEGLAPLIREEIWTMLGRLK
+SDGLSILLIDKNLDELSRISDRYFVIERGEIVWRGDAADFKLHRTEVEQYLHL
+>tr|B7RRS9|B7RRS9_9RHOB
+MERHEVLALAEQVLKNKARAEYWLFQPSPFLNMQPPIQMLDTQTGRDRVEQLLLSAEAGF
+AV
+>tr|B7RRF0|B7RRF0_9RHOB
+MARFFIDRPIFAWVIAIFIMGVGVLSILSLPVAQYPQIAPPTVSVSAVYPGASADTVANT
+VTQVIEQQMTGLDGLRYISSSSTSSGSASVTLTFETGTDPDIAQVQVQNKLAQATALLPE
+TVQRQGVTVQKSSAGFLMVISLISEDGKLDATDLGDYLSTNLVNELSRVEGVGSVRVFGA
+QYAMRIWLDPAKLAAFELTPSDVVAAVSAENAQISAGAFGSRPSVEGQQLSATITAQSLL
+RTPEDFRQIVLRAETDGGLVLVNDVARVEIGAESYATVSRFNRNPSTGMAISLAPGANAL
+DTASAVESRMEELAQFFPEGVTYVVPFDTTPFVTISIEEVIKTLIEAIILVFLVMYLFLQ
+NFRATLIPTLAVPVVLLGTFGVMAVLGFSINTLTMLAMVLAIGLLVDDAIVVVENVERIM
+EQEGLGPVEATRKSMDQITGALVGIAVVLSAVFVPVAFFPGSTGVIYKQFAVTIISAMTL
+SVVVALTLTPALCATMLKAKKHEQKRGPFKWFNTGFDKLRGGYAGLVGGIVRHPFISGIF
+YLAIIAAMGALFLRTPQGFLPDEDQGILFTLVQTPTGATAERTLDVIKQVEDYYLDQEGD
+MVQSVFGVVGFSFAGQGQNLGLVFVRLKDWEERTTPNLSAKALAGRAFGAFSQIKDAQVF
+PVVPPSVIELGNVSGFDFYLQARGGQTHEQLLDARNQLLGAAAQSPLIASLRPSGLEDAA
+QFKLDIDWRRAGAMGVTATDVGNLLTIAWAGRYVNDFIDEGRIKRVYVQGEADARALPSD
+LQKWRVRNASGGMVPFSNFTEANWTFGPQGVNRYNGVPAMQMQGSSAPGTSTGEGLAEMV
+RLAKELPPGFVIAPTGLSLEEQESGNQAPLLYALSLAAIFLSLAALYESWSIPFAVMLAM
+PIGVLGALTGAYLGGFENGVFFQVGLLTVIGLTGKNAILIVEFARDRHAEGESMVNAALD
+AARQRFRPIIMTSMAFSLGVLPLLLSSGAGSGGRTAIGSGVLSGTIAATVLGVLFVPFFF
+VMIARLTGGKASQKGDVSASEKA
+>tr|B7RS75|B7RS75_9RHOB
+MRKAAFDEVAPDYDDRFSNQPITQHLRHHLHAKATAYLPPQARILEVGCGTGVDAAHFAA
+QGHFVMATDPSSEMLQVARNRRAPDHGRFEIWNADAPPPQVLARYSPYDMVFSNFGAVNC
+ISDLGAFANRIAPLMRPNAVVFIVVINRWCLSELILNLALMNRKNLTRRWRKHTTATLED
+GTKLALHLPSVNDLTSAFSPHFKLQKTAPIGVFVPPSELYQSYQKRPKLLRMAYWLDQRL
+GPVWPFSKLGDHSLFVFQRTDTRPAAT
+>tr|B7RPC1|B7RPC1_9RHOB
+MTSPLLIIAAGGTGGHMFPAQALAEVMLARGWRVKLSTDARGARYTGGFPHTVEIQQISS
+ATFARGGLAAKALVPFRIFGGVVGAIMGMMRDKPTVVVGFGGYPSIPALTAAWILRKPRM
+IHEQNGVLGRVNTLFAKRVDAVACGTWPTALPEGVEGYHVGNPVRASVLERAGAGYIAPG
+DYPMELLVMGGSQGARILSEVVPPAIANLPMQMLRNIRVSHQARDEDGERVSKFYAENGI
+NADVQPFFHDVPRRMSEAQLVISRAGASSVADLSIIGRPSILIPYAAATGDHQTANARGL
+VDAGAAILVPEHMANPDSLSAQIEMVLSNPDGALQMARAALSVGKPDAAEELAQMVEALA
+NKGTQT
+>tr|B7RMF0|B7RMF0_9RHOB
+MTSQAPETRIVNTWRVACDGSEGALGHPRVWLQIPQDKGWVECGYCDCKFVHKEFEGKV
+>tr|B7RG66|B7RG66_9RHOB
+MAIKIHTVLERFFPERRVFLKSDSDTRFMRLRPSTQLVAFTGSAILIAWAIVATAIILMD
+SIGSGNFREQAKRDQNTYQARLSDLSAQRNGRAEEAIAAQERFNAALKQISLMQSELLES
+ETRRRELETGIEVIQNTLRSTMLDRETAREQLAALEGAEGSTAGRNPAASSAPTSILADA
+LARTAAERDQVIIDAQDALVQADELTQKLAVMQDQNDAIFRQLEEAMTVSVAPLDRMFRN
+AGMPTDRMLETVRRGYTGQGGPMMPLTFSTRGEEPSADTMRANRLLNQMDRLNLYRLAAQ
+KAPFANPVKNAFRFTSQFGFRRDPKTGGRRMHSGVDFAASIGTPLYATADGVVTSAGWGS
+GYGRLVKIQHEFGVETRYAHMSKIRVKVGQRVSRGQHIGDMGASGRVTGVHLHYEVRVGG
+KAVNPMIFIKAANDVF
+>tr|B7RQL1|B7RQL1_9RHOB
+MKLRTTLIASTAIVLAGAASAETMKIGITQNNVGVDSYQTTYENAFIAAAEGSADVDAVV
+LDAGGDVARQIAQIEDLIQQDVDAIIIWPTNGEAVIPAVRKAHQRVSRSS
+>tr|B7RS63|B7RS63_9RHOB
+MDYHALNAMLNLYDSQGHIRFDADRMAARQYFLQHVNQNTVFFHSLDEKLSYLVDEGYYE
+AAVLDGYPRAFLHLIWEAAFAQKFRFPTFLGAFKYYTSYTLKTRDGNRFLERYEDRVVMT
+ALTLARGDQVQAMAFMHEILSGRFQPATPTFLNAGKQSRGELISCFLLRLEDNMESIGRG
+INSALQLSKRGGGVALMLTNIREQGAPIKGIENQSSGVIPVMKLLEDSFSYANQLGARQG
+AGAVYLNAHHPDILRFLDTKRENADEKIRIKTLSLGVVIPDITFELAKKNEDMYLFSPHD
+VERVYGLPFSDISVTEKYAEMVDNKTHPQKEDKRAGILSDPR
+>tr|B7RKL0|B7RKL0_9RHOB
+METFLAILTVFTQPELLLLVGVGTFAGIYIGAIPGLSVTMAVSILISFTFSWDVYPAISL
+MVGIYMGGVYGGSRTAILLNIPGAPSAIATAMDGYPMAQRGEAGQAIGVTTVMSFFGGLI
+GILVLALAAPFVSEFALSFQPRDYMLLAVLGILLVGSLSSGSMIKGIFAGSLGIAIGAVG
+RDPLTFTERFTFDFQIMEGGISFIAVMIGMFGVSEALMQLQNVNMKAVRQKIDKIVPSFG
+TVKKFLPLSLQTSTIGVVIGALPGTGGDIAALMAYDHAKRVTKNPKTPFGEGAMEGLVAP
+ETANNAAVGGAFIPMMTLGIPGDAVTAIMIGALFIHGLNPGPMLMIDQPNMFWFIVGALF
+TANIFMLIFGLTGIKIFTKIVEMPRAIIIPLILLLSIVGAYAVNNSITDVYWMLGFGVFG
+YFMRHYGYPLGPVILGVILSRLLDDNWRRAIISEREDLGRFFEGVFTSPLSLVLFVAVIL
+IFVSQTPLWTAMKKRLFRKTPS
+>tr|B7RHF3|B7RHF3_9RHOB
+MDIFEDAPERAYAWAQAGRGAALATVVETWGSAPRRVGAQLAISGDGEMQGSVSGGCVEG
+AVVVEALEAIEEGTSRLLEYGVSDGDAFAVGLACGGKIRVLVEPVGDQGMPFDILRDLVA
+ARAARQPVGYQVRLTGGGARLVTDGYDNRFRMDRSGFEEDGDTFVAIHNPPLRLVIVGAV
+HIAQALVPMAQVAGFDVVVIDPREAFGSQARFPDARVINDWPDAALEQLGVDTRTAVVLL
+THDPKLDDPALHIALKSKAFYIGALGSKRTHASRVTRLQEAGFTDADIDRIAGPVGLDIG
+AAGPPEIAVSILAQMIQSLRKP
+>tr|B7RLZ0|B7RLZ0_9RHOB
+MTQPTNPNYGAFITRISLGGTLLAHDLLKVLVFTIPGTVGYFASLGLPATAAYLTILAEI
+AGGTAILLGLYTRLAALLSIPVLLGALWVHAGNNWVFSAEGGGWEFPLLLVLLAVAVALQ
+GNGPFALRKLPVTDGYIPQNLKA
+>tr|B7RI02|B7RI02_9RHOB
+MSGQAHRNAEAGLTLVEVLVALALFSLVGLAGFTMLDNILRVQSGTEGRLERLGQIDRAM
+TVFSRDLQESDSGSVRQARNGVTMNRTGTGVLSYQATSGVFLRSLSRRDFNQQMIDGVNS
+IRFRSLDSAGTWHDSWPIEQTQSLGLTPILKAVELQLELREGTVSRLVDVPAGAAE
+>tr|B7RFX9|B7RFX9_9RHOB
+MRTLKLIAALTLGVFVSGCATSDIASRNATLDPSAPKMMLQAEPDQSFAAVAAPSLRISE
+INVVVPDSLKVSEANRYYPSGDIVWRGDPIGNRHAQIKAIFEAALQQSAQNADGEIPVLL
+DVEVLRFHALTEKARYSVGGVHSITFRLTVRDPRTGLPMAQPQVVKADLDGFGGQQAIEA
+DRRGETQKVRITAHLAEVFRQEMIKPGGYQNANLGMFQALNKL
+>tr|B7RKJ1|B7RKJ1_9RHOB
+MERCLVHVKPGLADMKQPVRFSMTQPDERESEFRITRDHLKRLMKSGDRHKYDYGHAVVV
+SGPPGQSGAARLAARGALRVGAGLVSVFCLDACKGENAARLDAIMVKAYPDDDGFADGLS
+TLRASAVCIGPNLGLDWESHGKLLDILSLGIPLCLDADAITLIAQDPEPIKAVMHPQVVM
+TPHEGELRRLIPDVFARTTCRVSLAVSAAQTMKCTVLFKGTDTIVAQPNGDHSVVSSQGF
+AHAAWLATAGSGDVLSGIITGLIAKGFDVSDAASLGANLHLRCAEKFGPGLIAEDLPEAL
+PAVLRQCFETEDHVK
+>tr|B7RMA6|B7RMA6_9RHOB
+MAFDAHLEALKRKHLAMSDAVEQAQRSPSIDGLQVATMKKEKLRLKEEITKLTS
+>tr|B7RNZ9|B7RNZ9_9RHOB
+MILYPAIDLKDGQAVRLVHGDMDQSTVFNDDPAAQARAFVDAGCTWLHLVDLNGAFEGKP
+VNAAPVEAILKSCDVPAQLGGGIRDMATIEAWLDKGLARVILGTVAVENPDLVREAARAF
+PGKVAVGIDARGGRVATKGWATETDVMVTDLAKSFEDAGVAAIIYTDILRDGAMGGPNIE
+ATADLARAVSIPVIASGGVSSLDDLIALKATQVISGAISGRALYDGAIDLEQALKALA
+>tr|B7RM89|B7RM89_9RHOB
+MKIYGVVGWKNAGKTGLMERLVTEITGRGISVSTVKHAHHSFDVDHPGKDSHRHRIAGAR
+EVLLASRNRIALMHELRDEDEPPLEALLVRLSPVDLVLIEGYKRDAHPKVEAHRAETGNA
+LIAPDDTTIRAVASDTALTLDRPVFDLDDTRAIADFILGEVGL
+>tr|B7RGV8|B7RGV8_9RHOB
+MALTQIFHAFRLAVGQLSDPRFRRVFFLGIGLALLMLIGASAGFVWLVDWLVGDDNSLPL
+IGTVTWLDDLFSWGAAVLLLVLSVFLMMPVASAITSFFLDDVADAVEAEHYPQLPPASHV
+SFADGLRDTISFLGVLIAANLLALVLYLFFAPLAPLIFWGLNGFLLGREYFTLAAIRRVG
+PTEAKRLRRRHMPTIWAAGVLMAVPLSVPLLNLIVPILGAATFTHLFHQLVSPRRATNVQ
+YPPR
+>tr|B7RPY3|B7RPY3_9RHOB
+MTSLFTNASRVWIVLGAITAVFHIGLIFYGLVPNLVARPLHMALILPWVFLYAAKTPLGW
+WSGLIITAIGVAGCVWIALNHQMLRNQYGFLENRFQVVLAITLLLIAMEGARRMIGWPLP
+LVALCALLYGLYGQNIPGEFGHAGTPLRSFLGTLVVAEGGLWGSLTGVSVGVVAIFVIFG
+AVLNAGEAGQGFMNVAAAAAGRLTGGAAKVSVLSSALFGSISGSASANVASTGAITLPAM
+TKLGYPKRLAAAVEAVASSGGQIMPPLMGAGAFVMVELTGVPYTQIMLAAALPAILYFLT
+VWMGINAYAQRFDLKAVPEDQRPAPRMVLITSVFFLVPFTVLLCAMFIAGFTPQYAAVIA
+IFAGLAVLFFDATPRMSIPQGVARLGLALRSIGQQVAMIAAIIICASIIIGVLGITGLGI
+KITSVILSGSGGALWPALILTALACLLLGMEVPTTAAYVICVSVAGPALTQLGLEPLQAH
+LFVFWFALLSTITPPVCGAVFIAAGMIGENWLKVALTAMALGVGLYIIPLAMIANPDLIR
+IATHTTGAVIAFVMVGTGLSCLSYSLIGRAGWLRRALLAVGGFVICFAGVFLS
+>tr|B7RFM6|B7RFM6_9RHOB
+MRPTQASFPASRLRRTRQSEGVRALVRENALSVGDLIWPVFVRSGEGIEEPIPSMPGVFR
+RSVDKIVEAAREAADLGIGAMCIFPYTGIEDRTEDCAGAWDPDNNPNRAIRAIRAAVPQM
+VIMTDVALDTYNINGHDGFVEDGIIVNDRTVEALVKMSLAQADAGANIIGPSDMMDGRIA
+AIRDGLEGAGHSDVMIMSYAAKYASAFYGPFRDAVGAAGALTGDKKTYQMDYANSNEALR
+LIERDLREGADMVMVKPGLPYLDICQRVKSTFGAPTFAYQVSGEYSMIKAAAQNGWIDEE
+RIMMETLMGFKRAGCDGVLTYFAPAAARLLNG
+>tr|B7RGV2|B7RGV2_9RHOB
+MTALDSGAAPAPAPSNFDESAEYIWNNSFDKPTLVVSRERVGIQYDALSAGLGNAHIHYA
+VKANPAPEIIRLLVERGSGFDAASRQEIELCLSQGADPKSISFGNTIKRGVDIAFAHSIG
+VTLFAADCESELDKIATHAPGARVYIRLIVENSLADWPLTRKFGCADTLLPTLLDYAKSV
+GLVPYGLSFHVGSQTRKAEYWNPVLDQVAPLWHAAKAAGHDLQLLNIGGGFPAYHGDVVD
+APRGYAAAVMAAVKERFGEIAYIMAEPGRGMVAEAGHIAAEVLLVSRKSAVAERRWVYLD
+IGRFSGLAETEGEAIRYEFITAHDGGPVGPCVMAGPSCDSADILYERNPVDLPLALRDGD
+KIMIKNCGAYTSSYSSVGFNGFPPLDVLVL
+>tr|B7RPC0|B7RPC0_9RHOB
+MTEMVYGAVPVRDAEPVLPKWWRTIDKWAMSCILMLFAVGMLLGLAASPPLAAKNGFDSF
+HYVQRQAVFGFLAIVAMLLTSMLSPTVVRRLAVVGFLVSFVALALLPFFGTDFGKGAVRW
+YSLGFASFQPSEFLKPGFVVVAAWMMAASLEINGPPGRTWSFALCIAIVLMLALQPDFGQ
+ACLVLFGWGVMYFIAGAPLVLLVGMAGLVVVAGSVAYSNSEHFARRIDGFLSPDVDPRTQ
+LGYATDAIREGGLFGVGVGEGQVKWSLPDAHTDFIIAVAAEEYGLILVMCVIALYGVVVV
+RSLLRLVRERDPFIRLAGTGLACMFGVQAMINMGVAVRLLPAKGMTLPFVSYGGSSVIAS
+GIAVGMLLAFTRSRPQGQISDLLGRGRGR
+>tr|B7RGF1|B7RGF1_9RHOB
+MDSLKESGGLPSDEPSQADSQNAESSGASSKDGTQITTLSSDQQTDAATDGASGDTSVIE
+GNASDTASSKEAENHNAEGESAGSDTGTESENAAGTTQKPKQADN
+>tr|B7RGH4|B7RGH4_9RHOB
+MTGSILIERDGPVTVLRLNDPATMNAMTPAMARELHEKLLQEASTARAIILAGSARAFST
+GANLKASMSEDMSSFDVGETLEQDYNPLMAAMRDLPVPLVSAVCGAAAGVGASIALACDI
+IVVGRDAYFLEAFVRIGLIPDGGATWLLTRAVGRVRAMEMMLLAEKIPADRAFEWGLVTR
+LVDNDAVETTAQDIAARLAAGPLHSHALIRKAAWSAADTDFATTLAHERSWQKEAGNTPD
+FAEGLAAFLEKRPARFND
+>tr|B7RKZ7|B7RKZ7_9RHOB
+MGILLANLGTPDNYDYWSMRRYLGEFLSDRRVIDYSPWLWQPLLQLVILTKRPFSSGAAY
+KSIWNEEAGESPLMTITKAQTTKIKASMQARYGDAVMVDFCMRYGNPSTKSKVEAMVAAG
+CQKILFFPLYPHYAGATSATANDAFFAALAKEKWQPAARTVQPYFDRPDYIDALATSIEQ
+AYAKMETKPDKLLCSYHGVPQRYLMEGDPYHCQCQKTTRLLKERLGWDDTQIMTTFQSKF
+GPEEWLQPYTVEEVARQAEAGNKKIAVCAPAFSADCIETLEEINEEIKESFEHAGGEEFH
+YIPCLNDDDMHIRALSNIIEENLQGWID
+>tr|B7RHM9|B7RHM9_9RHOB
+MEPVDIGLWGVPLAILGGAIRVSTPFIFVSLGECLTERSGRINLGLEGTLVFGAMSGYAV
+AYETGNPFIGVLAAALAGACFGLLHGWICKFKGVNDIAVGIAMMLFGMGLAFFFGKPYIQ
+PQAPDLPAISFGFWSDIPQVQAALQVNVLFIAGGILAVAMAWMFRSTRVGLTVRVVGDST
+DAARAMGLNPDRVRLLSTAAGGALAGIGGAYLSLYYPGSWTEGISSGQGLMAIALVIFAR
+WNPINCFWAALLFGGAGALGPALQSVGVSEGYYLFFAAPYVLTLVLLIMTSSPDRALQGA
+PLELSLTK
+>tr|B7RN54|B7RN54_9RHOB
+MGAPWVVPALRSACHSSARNILYINMEAVMPWLRQTVKTCATVRAFWHVT
+>tr|B7RQ17|B7RQ17_9RHOB
+MPEEESTFRSCFQRDRDRIIHASAFRRLKHKTQVFIEHEGDYYRTRLTHSIEVAQVARTI
+SGALGLNAELTEAVALAHDLGHPPFGHTGEDALQALMLPYGGFDHNAQAIRIVTHLERHY
+AEFDGLNLTWETLEGLAKHNGPVTGTLPWALEAYGRQHDLELATYASAEAQVAAIADDVA
+YNHHDLHDGLRAELFSTDELAALPILDRNFAEVDRLYPGLNYYRRRHEALRRFFGVLVED
+VISFARARLDDMQPQSATDIRMAGRTLIRFSDPVFEDLKVIRAFLFDRMYRAPSVVIMRK
+QVTQVVEDLFPYFLAHPDQLPKQWRKDVEDVDGDTALARIVSDYISGMTDRFALQEHERL
+MG
+>tr|B7RG65|B7RG65_9RHOB
+MPLAQMAEAVLRTADGRAKTALSHEFAAQWRAAREDDARPEIGHANPPLQPARPDRPELL
+SPRDVPQRKPGTPEGRIALLHAVAHIELNAVDLHWDIIARFTDVKMPMGFYDDWVKAADE
+ESKHFNLMCDCLEALDSHYGALPAHAGMWRAAEETADDFMGRLAVVPMVLEARGLDVTPG
+MIKIFKQAKATQAVAALETIYAEEVAHVAYGSKWFHFLCGRHDLDPKDEFHGLVRKYFHG
+LLKPPFNEEKRAEAGIPPDFYWPLTESA
+>tr|B7RL39|B7RL39_9RHOB
+MAKAKFERNKPHVNIGTIGHVDHGKTTLTAAITKYFGDFRAYDQIDGAPEEKARGITIST
+AHVEYETENRHYAHVDCPGHADYVKNMITGAAQMDGAILVVNAADGPMPQTREHILLGRQ
+VGIPTMVVYMNKVDQVDDEELLELVEMEIRELLSSYDYPGDDMPVIPGSALHAMNGTQPE
+IGEESIRKLMAAVDEYIPTPARAIDQPFLMPVEDVFSISGRGTVVTGRVERGVINVGDSI
+EIVGIRDTKTTTCTGVEMFRKLLDRGEAGDNVGVLLRGIDREGVERGQVLCKPKSXXXXX
+XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPHRDGRRSALCDPRRRPHCWRGRCVQDPRI
+SR
+>tr|B7RFP7|B7RFP7_9RHOB
+MPTHSETRELPYTAQQMYDLVADVASYPDFLPWTAAARIKSREDKGDHEVMDADLVISFK
+VFRERFTSRVVLWPEAKKIDTEYLDGPFKFMKSNWHFEDAPNGGCKVHFFVDFEFKNMVL
+QKIIGVVFNEAMQRVVHAFEKRAAALYGTPS
+>tr|B7RR59|B7RR59_9RHOB
+MKPIKTMIVIANSGTARFLINTGRGKGLLPIGGKTLYAEPPTMYADRAGMVHSRVGPGVS
+AVEQTNPKSFAEAEFANKISEFLESAFEKGEFKRLVVAAGPHMLGQIRDALSDKVSKVVW
+AEVDKDLTHLPVEDLPEHLDHVLPV
+>tr|B7RS14|B7RS14_9RHOB
+MSGCDHRYIKRIIRPKLGFKAFHSAAATIARIEDTHMIRKRQFDANGLFSFQ
+>tr|B7RGS8|B7RGS8_9RHOB
+MMRWLLLVLLALPAFAGSSAAQTCGGDIPCRIGDREYNILLPDNWDGTSPLPVMMHFHAF
+LRRGKTVVNHPRIGIETKPRGVMLIAPSAQNRAWRFWQDAPADIAFADAILADVAKRFPV
+DPSQIYISGFSFGAAMAWRYACARGDRIAGLMTMSGTIPQATSCPNPPKQVRHVHGLNDI
+WMSLPRGPGHDATNAVALWRKAFDCGQGRITQNYEIRAGIGATHLVWDTCTQGRSVTLDV
+HSGGHFIPERWLGVQLDDLMPKTPD
+>tr|B7RL65|B7RL65_9RHOB
+MATGTVKWFNSTKGFGFVAPEGGSKDVFVHISAVEQAGLTGLSDDQKITFDIESGRDGRE
+SATNIKLA
+>tr|B7RGC6|B7RGC6_9RHOB
+MRKLLILLAVLSSPLHAEEATSAPGGVLRALDKVSGAAQDIVMFRGQTAHVGNLDVLMTD
+CRFPKGNPAGDAYVELEIKTTGRDDKLFSGWMIASSPALSALEHPRYDIWAIRCTTS
+>tr|B7RMP6|B7RMP6_9RHOB
+MALQTTGSIAAQSTSLSQILGGAAVEPIPAMGYILVFAALALAVTAGLHVKAASLLIYSY
+DTLPMGQFPNPSDLSEWGLAQTSHAMSLAFTLAAPFVILSLLYNLALGAINKAMPQLMVA
+FVGAPVITAGGLFILCIASPLLLGTWLSALDQYLINPFGARP
+>tr|B7RK84|B7RK84_9RHOB
+MSRLDIFINRMVSQRACLNHAVALTKGQPGPVFELGLGNGRTYHHMCEIMPEREIFVFER
+AVASNPDSTPPDDMLLLGDVHDTLPAALERFGPAARLIHADLGGHNLAKNDAFARAISPL
+VEPLLASGGLMVSSDRMYFDGLTEIPLPADAVPGRCFIYQRS
+>tr|B7RNC9|B7RNC9_9RHOB
+MSDMKFGKVGQPFFKPRLRKGIARLFPGRRRRFTCMAGTRGYVLHLPAGRMQAPTGLIVM
+LHGCGQSPEDFAKGTGMNGLADSHGFAVLYPAQSRRANIQGCWRWYDEKHQQADSGEPAI
+IAAMTRQIITDHAIPPSHVFVAGLSAGAAMSVVMGQTYGDLFAAVGAHAGLPFKAAQDAS
+GAFAAMGGAAQVHGPDRPKRTITFHGTADKTVHLSNSVAIARAQVQPDGAHRISEVIDIA
+RHTAKRDVSFDADRRPVLENWTVAGLGHTWSGGTPDGSYTDADGPDASAAIVRFFFDGPD
+PSLR
+>tr|B7RNK2|B7RNK2_9RHOB
+MTLSLSLSHRFADFTLEIALDAGPGITALFGRSGAGKTTVINAVGGFLRPDQGRIVVDDE
+VLLDTDQGIFVPPHKRHLGTVFQDARLFPHLSVAQNLMFGARYAPRGSAGPGFDDVVALL
+GLEELLGRAPATLSGGQRQRVALGRALLSHPRMLLMDEPLASLDGPRKQEILPFLERLRD
+GPLGLPILYVSHAVDEIARLADTLVLIQNGSVQAQGPLFDVMADPAAVPLLGVREAGAVI
+EADVIAHGTDGISTLRVSAGEIELPGVQASIGARVRLRVLAQDVILSLSRPKGLSSVNVL
+AVTVDTIHPGDGPGAAIALRAGSDRLLSRVTARAVAELGLVPGLQCYAILKATTVAPGSI
+GR
+>tr|B7RR13|B7RR13_9RHOB
+MNFTKPSRRDTLRMMGLAGAAGVLAPNLLVSPALANPPSTPTGQIVVGVSQEPTVFNPLM
+PRIEVDDGVQLSLFDALVRISPDGEFVPALASEVPTIDNGGLSEDGLTWTFKLRDDVKWH
+DGEPFTAEDVKFTLELIVDPNFQSWRTTGHSLIRDIEVVSPTEIKWRMEEPFAPYMSILV
+ETMMVPKHILGPLEDRNTAPFNQAPVGTGAFKWGSRKAGDNLELVANEEYFGEGPYIERL
+IYKYIPDLTVLYTQFKSGDIDIISNQYISPDNYAEAKALTGKVVEVVPSSTVESVFLNME
+KPQFQDPAVREAIYSAIDKQTIIDALYYGLPTPAESYLPQQSFYYNPDLPKHAFDIEKAN
+TLLDDAGWVPGDDGVRAKDGVRLSFSNSTTSGNHLREQTQQFMQQTLGQIGIEMTIENLP
+PAVMWGEYWSMSKFDSVIVGIVFTTGADADVTVRFSSDAIPAQGGRGSNTGQYKNTQVDK
+LLQEAGQIFDQQKRKDIYREVQEIVRGDLPLLPLFQYATVRGHKEGIKGIEPNINTRIDT
+WNASQYYWDK
+>tr|B7RRF1|B7RRF1_9RHOB
+MAEVSVHNVTKRFGKFTALSDVSMEFPDGGFFALLGPSGSCKTTLLRTIAGFLFTDGGTI
+RIGQQVVDDIPVEKREIGLMFQNYALFPNMTVADNVGFGLRVRKVGASEERRRIGEALDL
+VQLGHLGDRKPHQLSGGQRQRVALARAIVTRPRVLLLDEPLSALDKSLRVDMQIELKRIQ
+REIGITTIFVTHDQEEALTLSDKIGILREGRMIQSGPPRDVYNNPVDVFTAEFLGDANII
+AGRGQGQRLERPQAGGILVPPGSDTASALAVRPESISISTFEPIQDGISKVNATLVQRMF
+AGAMSTCIAEGDGNTYKVIGRDLDIPEVALGQKVWLSWKAVHTIVIPGQ
+>tr|B7RK78|B7RK78_9RHOB
+MFTNRNGLSRRTLLKGAASTALVASASTLGAPMVWAQNIKDVTIRQFGTGVSNLNEVATK
+VKEDLGFTLEMTALDTDSVTQRAATQPNSFDIADIEYFICKKVWAAGNLQAMDTTKLTNY
+DKIVGIFRDGKLTPESTIAQGTAPHTVGFTSGQNGTDFVNEESGWMTLIPTIYNADTLGI
+RPDLIGRPISKWSELLNPEFKGKASILDISSIGIMDMAMVVESMGEYTYPDKGNMTREEI
+DMTLGIFTEAKKNGQFRAFWKSFDESVNLMASGEVVIQSMWSPAITAVKSQGVPCVYQPL
+EEGYRSWGGGLGISAALSGLELEAAYEYINWYLSGWVGGFLMRQGYYSAVPETSKAFMSA
+DEWGYWFEGKEAEGDITSPFGDKLAGTGDTRDGGSFEDRMGAVACWNSVMDENQYMVRKW
+NEFIAA
+>tr|B7RJG3|B7RJG3_9RHOB
+MLQWIRSITFIVGCTVFMPVIGLLYAPWALFSKRGAYACCKCYSRGVMWMAEHIVGMRCE
+VRGTPPTDAVLIAAKHQSFLDILMIFQSVPAGKFIMKREILWMPVIGQYAKRMGMIPVNR
+GKRGQAVTKMLADVRVGDMEAGQMIIYAQGTRVAPGAVVPYKKGTAALYEQLGQPCVPVA
+TNVGYFWPRRGLYRRPGVAVVEFLEPMPAGMARKEFMETLERVVETRSDQLLADARAHSK
+R
+>tr|B7RFR7|B7RFR7_9RHOB
+MMDADALTVFMKDVFKQVADDFAIDHVGETDLTTRLLVGDQHLRPGGTISGPSIFALADV
+SAYLMTLARIGPKALAVTTNCSIDFMRKPAAGVDLISRTRLLKLGKLLSVCDVLVFSEGM
+DTPVARASLTYAIPPK
+>tr|B7RJB6|B7RJB6_9RHOB
+MAYPYSPAETVADSTVHGLGLGFAIPGTFLLMDHAGVQGAPVIATLVYAICFILSLSASA
+IYHTLPFDRTRPLLQRVDHAAIYFKIAGTYTPIVMVIGTGFAYGILGIVWVLAIIGAVAK
+LLFWSAQSRASLALYLAMGWLSVLLIWPMWNTLPGVALVLIAVGGLTYSLGTIVYAHPGM
+RFQNAIWHGFVLAASICFFSAIAISL
+>tr|B7RG24|B7RG24_9RHOB
+MPEVTIVYWRDIPAQVIVGKGRRGSKRQLPERFEQAIDRAAMKIGAGDSDAYLAEWRKAD
+AYVVEGDPDAVADAETARIEAEYDRDRIKTLIANDGWA
+>tr|B7RGB9|B7RGB9_9RHOB
+MLGLSKKDAGLLAIVAFLCIFAPFLLNPFPEGSAMAQFNAGYPDLMQRLVIFGIFAIGFN
+ILFGLTGYLSFGHAAFLGVGSYAAIWMMKLLTMNVVPAIFVSVLVAGLFSLLVGWISLRR
+SGIYFSILTLAFAQMSYALAYSVLTPITGGETGLQPKYTDPRILDGALPAGQSPRANLFG
+LDMKATTELRLGDWVFTFNAGYYIAAATMLLAFYLSIRIFRSPLGMMLRAVKSNQQRMNY
+TGLNSKPYTLAAFVISGMYAGLAGGLLVAMDTQVGAERMFWTASGEVVLMTILGGAGTLI
+GPVLGAGFIKYMENIVSKINETVLEQWFAFLPDGLSDAMVAIVYPFVGKGWHLTLGLLFM
+MVVIFLPGGLVEGGQRIGRLFRSKKSEPETPDGKTTPAE
+>tr|B7RI04|B7RI04_9RHOB
+MLEDTPLQPVVGVTDYMPEKEERVLYEMLSWRPSGVIIAGLEHSDATRAMLKNAGIPVVE
+IMDVDGRPIDAMVGISHRRAGNEMAKAILKEGYERIGFMGTKMPLDHRARKRFEGFTEGL
+AKAGIEIEDRAFYSGGSALAKGREMTQDMLERSPDLDFLYYSNDMIGAGXXXXXXXAPGR
+CLPEWQPMTLMG
+>tr|B7RKZ3|B7RKZ3_9RHOB
+MKRRNFILGGTALVALSACSGDSKFKRYSGPQVTYVVVNKGDRRMYLMHQDKVLEAYDIR
+LGFAPVGHKAHEGDGRTPEGRYWIDRRNPNSKFHLSLGISYPNDNDRANAAALGKQPGGD
+IFIHGQKAADKKNINDWTWGCISVSNQEIEDIYAMVGTGTPIAINA
+>tr|B7RMJ5|B7RMJ5_9RHOB
+MTAPIFSNHGCRLNAYETEAMKDLAQQAGLENAVIINTCAVTAEAVRKARQDIRKLRKAN
+PNARLIVTGCAAQTEPETFAKMAEVDAVIGNTEKMVGATWQGLAADFIGESEAVQVDDIM
+SVTETAGHLIDGFGTRSRAYVQVQNGCDHRCTFCIIPYGRGNSRSVPAGVVVDQIKRLVD
+KGFNEVVLTGVDLTSWGADLPSEPKLGDLVMRILRLVPDLPRLRISSIDSIEVDDNLMKA
+IATEPRLMPHLHLSLQHGDDMILKRMKRRHLRDDAIRFSEEARKLRPDMTFGADIIAGFP
+TETDAMFENSLKLVQDCDLTWLHVFPYSARQGTPAARMPAVQGGLIKERAAQLRAAGDRQ
+VARHLDAQQGRMHDVLMESPTMGRTAQFTETHFTAPQTEGAIIRARITGQEATHLIVD
+>tr|B7RGR2|B7RGR2_9RHOB
+MNIDVLSALALFSLITSLTPGPNNLMLMASGANFGFRRTLPHMLGITFGFMSMLLLVGLG
+LIRVFDAYPVIYTVLKVLSVLYLLFLAYKIATAAPVVTSKSAGNPMSFLQAAGFQWVNPK
+AWAFGLSIITIYVPVSGFAPLMLTAVVVAVMALPSVTLWTVMGGQMSRFLTSTVRLRVFN
+GTMALLLIASLLPILWPDS
+>tr|B7RLL4|B7RLL4_9RHOB
+MKAFLGAVLALIVICVGANLALTNAGFSSADMTSDSNVRLGD
+>tr|B7RP53|B7RP53_9RHOB
+MKNNMQHFKLGADADDHLRRAFGRFGTGVTLITVQTANGPLGMTANSFSSVSLDPALVLW
+SAGKKSKRHDAFATATHFAIHVLGADQQDVADSFAADGFAFGAFDWAAGPNGAPTLAGCL
+ATFHCDTYDVHAAGDHSIIVGRVTDAAFHPDADAPALMFEQSRYGSFIAAKD
+>tr|B7RRW8|B7RRW8_9RHOB
+MDRQYPATPHRPVVVAIQHWRRRLSGTGVLMIVLGILAIIMPVVSSYAVDFLIGAVLTFG
+GLLAVLMALSFQGTRVFVWMLVAGMFPLCAGLYLLFFPSAGLVTLTFLIAAILLLTGLSQ
+SAFAFDMRGTKGAGWVLVSGLISVGLAALIFAILPEASTVLLGILLGIDLLSSGIALVLL
+AAVMPR
+>tr|B7RPH8|B7RPH8_9RHOB
+MDEMMREYLPILIFLAVAVGLGLVLILSAVVLAVRNPDPEKVSAYECGFNAFDDARMKFD
+VRFYLVSILFIIFDLEIAFLFPWAVAFQDVSMAGFWSMMVFLAVLTAGFAYEWKKGALEW
+Q
+>tr|B7RLH7|B7RLH7_9RHOB
+MRHPILLAACIAGVTAVAGCGDKSGEDTVTRAFQDVNVVDETNLNDVMLTVADPNEAVSY
+FARTAKEHPERIDIQRGLGKSLIRAKRNQEGAAAWANVVKLEGATPDDSIDYADALIRAG
+DWAKAEAMLDSVPPTHETYNRYRLEAIVADSKQEWAKADSFYEIAIGLTTKPGSVMNNWG
+YSKLTRGEYQDAERLFSQAVQQDPTLFTAKNNLILARGAQRDYTLPPIAMDQTERAQLLH
+TLALSAIKKGDVETGKGLLRDAISTHPQHFEAAVRSLRALENAG
+>tr|B7RLW3|B7RLW3_9RHOB
+MPKDGMNPIEVADLGVNNQIDIDPTVAAGRGFQICVHGRNNHLTIGADTVLGGGMIELRN
+HDSSITIGSNCNLTGTLRCRAVNSHIRIGRHTTMMGAHITLHEAGMITLGEDCMLSGDIA
+MDVSDMHSILDRETGERLNMPRDILIGDHVWLAQGVRVMKGARIGQDVIVGSRAMVLGTI
+PAFSLVVGTPARVVRSGVTWDRRRLQPALDPIEPVENVIQSASATESRSES
+>tr|B7RH18|B7RH18_9RHOB
+MLESLFQDARAAPPQMPAGLMERVMADALALQSSPPARGWRGLWQAIGGAPALGGLITAT
+AVGFWIGVAPPSGLPEIAAQIITGDTYATIGDDSVNALTAFGWDIEEG
+>tr|B7RNC2|B7RNC2_9RHOB
+MSGSHILVMNAGSSSIKTALFDADLNETLRVEATGIGGTGTVTTGDSRQPVALPDNAAAL
+AAIFDTLSRQGIAVTALRAVAHRVVHGGTALIAPCRITPQIRQAIADCIPLAPLHNPHHL
+SAIDAVTALAPDLPQCASFDTAFHATIPDVARRYALPDRSDLAGLQRYGFHGTSYAALVR
+VLPRHIGTLPKRLLAFHLGNGASICAILDGQSVATTMGYSPLSGLTMGTRAGEIDAGAVL
+RLVRQLGLDEAETLLNHHSGLLGLSGISSDMRQLEKNDGPKAQFAIDHFCYWAARQAGSM
+IAAMGGLDAIAFTGGIGENSAQIRNAILDKLSWMGNFPSYTVKAQEEIQIAREASTVLNA
+NQEDKDDA
+>tr|B7RMA5|B7RMA5_9RHOB
+MSQFDPEDLTHDAFLGGKLHLWQPRKGYRAGVDPVLLAATVPAQAGQRVLELGCGVGAAS
+LCLGARVPGLTLTGVELQPAYAALARRNGPDFEVVEADLAQMPLAVRQRQFDHVLANPPY
+FDRDASIASQDAAREVALGERTPLEIWVQIAAKRLAPKGQAHFIHRAERLPELIRALPHD
+MGSIEVLPIAPRMGRAAELIILRARKSGRGAFRLCAPLVMHEGAAHLVDGDSYVPQIRAV
+LREGAALTF
+>tr|B7RPQ9|B7RPQ9_9RHOB
+MGTQKISLNDRFDLEKSPVLLNGTQALVRMMMMQKARDRAAGLNTAGYVTGYRGSPLGAV
+DLQMERAAKPLAEYDVLFEAGLNEDLAATALWGTQQAELRGEGKYDGVFGLWYGKGPGVD
+RSGDVMRHANMAGSSKHGGVLMAMGDDHTGESSTVLHQSEWAMMDAYMPIVSPAGVQEIM
+DYGIYGWALSRFSGLWVGLKTMKDTVEATSVVNGDPHRMQLVTPDFDMPEDGLNIRLIDT
+PHLQESRMIDHKRFAAEAFSHANKIDKRMWGKPGAKIGFVAAGKNWLDLLHAMSLLNIDE
+NEAERLGITLYKVGQTFPLDMKGFHNWAEGLDLVVVVEEKRKLIEIQIKEALFSDTHRRV
+YGWHKGGGAGMEHGEELFPTRAALDPIWIAEKLGGILIEEGRNTDGIKAGMEALDTARRA
+DNAEDIAARVPYFCSGCPHNSSTKLPEGSRAYAGIGCHYMVQWMDRETTGYTHMGGEGAN
+WIGESHFSTREHVFQNLGDGTYNHSGIQAIRAAAAAKTNITYKILYNDAVAMTGGQHNEG
+DLDAPRIVAELQAIGVQNIAVVYDEKEDVDAAAFKGVPLYERADLQTVQENFTKHKGVSA
+IVYIQTCAAEKRRRRKRGLFPDPDKRVFINTDVCEGCGDCGVQSNCVSIVPHETELGRKR
+AIDQSSCNKDFSCVKGFCPSFVTLEGAQIRKDPTTEVKIPDLPLPTLPVIDGTFNVVITG
+VGGTGVVTIGAVLAQAAQIDGKGAGMMEMAGLAQKGGAVHIHCRLAERPEDISAIRVATG
+EADALIGGDLVVSAGTKTLGLTRAGRTGAVVNSHQIITGDFTRDTEFKMPYDRLTLALEA
+RLKDGVALFDASDLAKATLGDSIYSNMMIFGAAWQKGLIPLSLGSLQDAIRLNGAAVERN
+LKAFELGRWAMLHPADAAEVTTPNVVQMPKSLDEKIAFRMDHLTAYQGKGLAKRYAKMLE
+LVDDKALKQAVALGYHKLLSYKDEYEVARLLKSTRAKVDAEFAGDPKITFNLAPPMLSKT
+GADGRPMKRTFGESLEGPLRLLSRLKFLRGTPFDPFGRSEERRMERALIQEYEADMKEVL
+PKLTDQTRDAIVALAELPLQIRGFGPVKQANVAKAAKRREELLAVIRAGGTTTSKAAE
+>tr|B7RII9|B7RII9_9RHOB
+MNMQRRIIPLVISVFLVFSPASAHDYGAAGLMSGSNKQDLPPITLSVGEPISDGPWMLKS
+GTYYEFEIIADGSQELGLSGADFFRAIWIDEIVIEGLEIRPFALSSLEFDEAGTMEIGFV
+AIKPGRYDMHIPGTTGDTQRIEITIE
+>tr|B7RMH5|B7RMH5_9RHOB
+MNVTKMKPKSHGVSTLSLITLLFLGSAALRVFIGADSAIAQATLATETDKDEEYDRYSDV
+DTFSTPAERERLAKMLDTLQTKEAQLNAREAEQNKREANLEAATAEVSIKLAELKKAEEN
+LRKTISITDGAAEGDLSKLTAVYENMKPKDAAALFEAMEPDFAAGFLSRMRPDAAANVMA
+GLPPEFAYSISVLLAGRNANAPKS
+>tr|B7RS58|B7RS58_9RHOB
+MSSRVLLIKGKGGLGNRILSAVCGLVYADLTGRDPVIDWRDGSYAPIGENAYPLLFKSPI
+ARECAAFDGVRVPVSPAIWTGHLGRTPQQMIDRFLPDSHSKPTGYRRLCTDLTRLDAPED
+IAVFWSYLPKFGRLAGHLHRDPRFSGKSEADVMSEYLQRYFTPNDRVLSAVDGLSAKLGT
+PSIGVHIRYTDRKIPLHRVRASLHKRLRLMPGAPIFLATDSAQVQAQMQAEFANIHHIPK
+YLAPDGGRLHWPTSEIEKLHEAENALIDMWQLARCDHLIYSRHSTFSVTSSYLGRMGAAQ
+LDDVDRLSPIVVAKRWIQNYA
+>tr|B7RLM9|B7RLM9_9RHOB
+MNFEAWIIFALFWVVFVTTPGPNAVNCITNGMTLGFPRAMIGVLGILTQAALFLLLSAFG
+ITALIAASATAFTVAKLIGAGFLIYLGIRGLKTAKSPVRVDERPAGSIYLRAFAIATINP
+KSVAGYLAAFSQFVQPGVPIWDQMLVIVPTALTLTALSYTGFTALGAGLGRAALGAVFNI
+WFRRIMAVCFIIYGILLGAASAPAGRG
+>tr|B7RPN1|B7RPN1_9RHOB
+MASVVLDVEKLMLNNIGLPGLLLIAVVVLVLFGRGKISSLMGEVGKGITSFKKGISEGEE
+DQKNAGKDDTPELSNDAAAVTDVKTDKDRV
+>tr|B7RJI7|B7RJI7_9RHOB
+MATGVDRVELAYLARFLSDDTPCFGMVRTAFGYLLLDRAGLQSVQDRTAGHTPWGAPDGL
+SRFSRGRSAAGKSAEADFRKLAIARAAPWRLRALLRRLPDNCAYFNVGHSNLTDRVLSAV
+KAAGIHANVLVHDVIPLEYPQFQRPGTVKPFREKLMRVRQYANLVIYNSADTQRRAQAHM
+AGWGAVPEGIVAHLGTVAPLPDAADLPVGLPPDRPYFVTVGTIEPRKNHGFLLDIWENLG
+PDAPPLLICGSRGWNNDAVFDRLDALDPAGPVREIPALSDAALAALVRDAAGSLFPSVAE
+GFGLPPVESLVLGTRVLCNDLEVLREFLGQMPVYARVSDQYHWETTIRSWAKGDDQANIP
+TGFKAPTWDEHFNTVLSMRG
+>tr|B7RKY7|B7RKY7_9RHOB
+MTGVSSSDFDLNKDVVLPADRKLRPAGVLAPIIEKNGRLELILTKRSSSLKHHPGQIAFP
+GGKQDETDADVIAAALREAREEIGLPTELVDVLGTLPAHETVTNFHVTPVIAFVRDEFQI
+IAEPGEVEEVFTVPLVHVLNPDNYLVQSRRWRGNIRHYYIVPYGPYYIWGATARMLRAWT
+ERMI
+>tr|B7RPE3|B7RPE3_9RHOB
+MKPEWIDFNGHLNMAYYSVLMDNAVDDAYEQLGFGPEYQKLGCTTYVAEFHVCYIRELHE
+GAQTYCTFQLLDYDAKRFHSFTQLWHEDGWLAATGEALTLHVDQSGPRVAPMPDTILTKL
+EEMKQAHSNLPYPDRAGRKIGIKQ
+>tr|B7RPW9|B7RPW9_9RHOB
+MKDISSHPVLTLRDLTVHRGAAKILDRVNLSLGQGETLALVGESGAGKSTIATAIMRLLD
+NARVTGTAELEGEGDLLALSERRMVKLRGRRLSMIFQDAGAALNPSYTVGRQLVTTLRRT
+QDLSKAEAREKAIELFTSVGINDPEGRMSAFPHQLSGGMQQRVMVAIALAGSPDILLADE
+PTSALDVTIQAQIVRLILTLTRARGASCIFVLHDLALASQACDRIAVLYAGQVVESGPAH
+DVLERHRHPYTQQLKSCVLEIGTKDLSAPEGTVPSHDQMPVGCRFSTRCPRALTRCTHEA
+PPLVPARDTATGPLDHHIACWNPE
+>tr|B7RMD5|B7RMD5_9RHOB
+MNDVARGSAPGQFAELSRGVTHYEWVGPARGPVAVCVHGLTTPSFVWRSITKGLVLMGFR
+TLIYDLYGRAIRIGQADRRTAPFS
+>tr|B7RQE1|B7RQE1_9RHOB
+MTLKGHRTSISLEDEFWQELRGLARDLDMPINALVAQIDADRGIEAGLASAIRVYVLRTL
+KDRLPQDD
+>tr|B7RKP9|B7RKP9_9RHOB
+MTDGVDHIVGVTYHGRKGAVENAFRYSVDYIVLDAEAPLRTPTLFARNRSGLTSLHDSDH
+GGAKGAGRGAAWVRDVLAQHQIEGVTKIEIMAQPRVLGHVFNPVSFWLCRRQDGALITVI
+AEVSNTFGDRHSYLCQHPDLREIKPDDHLHATKIFHVSPFQPVEGSYRFRFDIRPDRVGI
+WIDYTQADGGLIATLTGTRKPLTNAGILRSLLRRPFGARRVLALIHWQALKLWWKGGGYK
+PRPDPPDKEVSRG
+>tr|B7RMP9|B7RMP9_9RHOB
+MPMNKTTLAIIFSLIALLLFDMMGLIIKYLSPHYGAAELSAYRNVAGLIPAGIALWWSPE
+WHKNGRKLKIRQWQFALMRGVVLTFAQFFFYLSLGLLSFATASTITYANAPIMVALAVLL
+LGEKVGVLRWGAVLMGFVGVIMVVGPGRDSFQPAALLPLAAAACYALVAVTTRMMDDDVP
+SALINLYSSAFAAVGSLGLAFFTVGFSPLHDATDVFWIIAMGGFGGTAVLFLVISYRMTE
+QSNLAPFSYFGIPFAFGLGWLFYGEAPWSELFPGALLIVAGGLLIVWRERRQRVKDAMAA
+A
+>tr|B7RN83|B7RN83_9RHOB
+MPSKIDRRLFVGGVVSLAFARPAAALTQGDATAFIKRLIADIYKVIDAGGSEPAMIRQFE
+ALFGRYADVEIMAQYALGVDGRSASAAQKSAFSAAFGSYIAQKYGKRFRQFIGGRIEVEG
+ARKIKPGFEIKTTAYLKGENPIEVIFLVSDKSGELQFFNMFLEGVNLLLTERSEIGSMLD
+RRGGDLTETTQDLKNAG
+>tr|B7RQR2|B7RQR2_9RHOB
+MEPGIVRSQDSLDAIRWNILGQTYVPKQLTEDCMSWHATLPPGTFVPPHIHPEQDEFLYI
+LEGKFDFLLDGKELQGEPGDLVKLPRGIPHGIFNKSDRTIKTLFWVTPSLRLYDLFWALH
+NLGPTADPAEVVAVSAAHAIDFLPPPDAADADGAPV
+>tr|B7RRJ0|B7RRJ0_9RHOB
+MSRLIDVENLTLQFDTDEGRITAVDNVSFSLEAGEVMGLVGESGSGKSVTAKSLMKLNPR
+NAVYGPDTRITLHLDEGPVDVMSLQTDREMKIVRGGSISLIFQEPMASFAPAISIGDQMV
+EQLLIHTNYSKPQAKEVSIEMLDRVGISDPRTRFGQYAFELSGGMRQRAMIAMALSTKPK
+LLIADEPTTALDVTIQAQVIDLMKDLVSEFGMGIIFITHDLGVIAQTADKVAVMYLGRLV
+EQGTVRDVIRRPAHPYTRGLLAALPTLDDIGAPLTPIPGDIPSPLERPSGCVYHTRCQEV
+IGPRCAAQVPAFLKVDADHAAACHIYDPAGDSE
+>tr|B7RRN6|B7RRN6_9RHOB
+MEFYTNALSHVLTFGPLTAMIGATLLGVFIGALPGLNPVMAIALLLPLTYSMDPLVALAM
+VAGIYNGSMYGGAIPAILLRIPGTPASIATTFDGFPMADRGEAAKALKIACWSSAIGGIA
+SAIALMTMGPMLARVTLFFGPAEYFWIAIFGMASVAVMVGSDPVKGMMAAVLGLLIGTMG
+IDNLSGQARFTFGQTWLLGGLDLIVVLVGLYALPPVLQLAEKCDLKGLSAAQLKLADAPF
+EEGEIRGLIPTWLRASGIGIGVGILPGAGGNIAAFLSYNAAKNASDDPSSFGKGNPQGVA
+AAECGNNADNAASMIPALALGIPGNVVAALVLSALTIHGLQPGPQLFHQNPTLVGGFMME
+MLITSVLIFALGGAVATRVFAQFQRLPGVLLVPTILILMCVGVYVINGRPVDLWVMLIAG
+FAGYFLEKVNFPLAPVILGMILGPMAEQSVRRALLISRGDPTDLVTRPISAVLAVVTVLV
+IIWPLVKMMRRRRRAN
+>tr|B7RS73|B7RS73_9RHOB
+MREAAGTLRAFVYMVPLWAQLHVLRVTSRPGVTPIDPKLSRAAAGLGAVDLTEGK
+>tr|B7RLF9|B7RLF9_9RHOB
+MAEQKISRRGLIGAAGAAAFMPAILRAETTDVAAVRHNTSSFTQQRWEDHFDTLGKAAIV
+ADTTSRALHFWSGDGETYNIYPTSVPRSDELTKRGYTRIVRKRVGPDWTPTPSMIERNPD
+LKYMPPGPDNPLGTHAMYLDWPAYLIHGTHDTRKIGRQSSDGCIGLYNHMIEALFQIAPV
+GTQVRII
+>tr|B7RGT8|B7RGT8_9RHOB
+MDPLTLGAFVAISTIIVLFSGVSVALGLLIVSTGFLMIFDGMRSLELLPEILFGKLDNFA
+LLSIPMFIIMGSSIASTRAGADLYEALERWLTRVPGGLVISNLGACALFAAMSGSSPATC
+AAIGKMGIPEMRKRGYPDGVAAGSIAAGGTLGILIPPSVTMIVYGIATETSIGRLFLAGV
+IPGLLLVALFMVWSLYSTWKSGDRELLSSGNYTWKEKFEILPRVIPFLLIILGVLYAMYG
+GVATPSETAAVGALLCLIIAMVIYKLWNPKDLWVVLRDSTKESVMILFIIAAAGVFSYML
+SSLYITQSIANWIGTLDVNPWVLMGFVNVFLLIAGFFLPPVAVILMAAPILLPIITTAGF
+DPIWFAVVLTINMEIGLISPPVGLNLYVINGIAPDISLRTILTGSMPFVACMVLAIVLLC
+VFPGLATWLPDTVMGAAR
+>tr|B7RLR6|B7RLR6_9RHOB
+MAGSFGLTAYRAFAGRGAAAPFEPVAIRPQGELVWCHAPEPGSLIAIQDLAARLCRSRSG
+LSVLITVPPSANGTELPKPSHSDVLIDTLPEDHPASVAKFLDHWQPNACIWVWGRLRPNM
+ILSLAKRSCPMFLIDVDSDGFDGRRDRWLRDLTRDLLSHFSAILARSEAGFQRLVRLGVA
+RDDIEVTAALQAGGQALPCIESDLADLSAALVGRPIWFANQVLEAELGTVLTAHRQALRL
+SHRLLLILQPADPAQTDTFAARMAELDFRVLRWGDGGYPDASTQVMIADDPAEIGLFYRL
+APVSFLGSSLVNGGGGCDPFEAAALGSAVLYGPKVRRFLPSYTRLAAEGAARIVNDATAL
+GTAVSRLIAPDQTAAMAHAGWDVISRGAALTDKVVDLVQDTLDLQEAGG
+>tr|B7RMP4|B7RMP4_9RHOB
+MRSVGADIAWQAWLGRKKAALNGELAQVLAIKEHHLKQVRTAYGKLIVARELAGNLRGDI
+KKRKARDELSRAIDLFGMK
+>tr|B7RN00|B7RN00_9RHOB
+MQTRNKIFDDISQMMTNAMGVAQGAKTEAETAMKGMMDRWLADRDFVTREEFDAVRAMAQ
+KAREENDALKARLDALEAKG
+>tr|B7RN30|B7RN30_9RHOB
+MLETRVVEKGNAMGWMTNETGLDKCRANYVPLSPLSHLQRAAKVFPDVLAVSYGAHRVSY
+AQYHARCSRLAAALNAMGVASGEVVATVLPNIPAQAEAHFGVPACGAVLNTINTRLDVDT
+VTYILDHGEAKVVLADTQFIDLVEAACAVLNTPPRIIEVPDADAGFPATGRHLAYEDLLA
+QGDPDFDWRMPQDEWESLALNYTSGTTGRPKGVVYHHRGAYLMTMGTVISWRMVLRPVFM
+QIVPLFHCNGWNHTWMMPLLGGTLVCCRDITAAAIYNAIADEGVTHFGGAPIVLNLMVNA
+SDAERRSFDHQVEVFTAGAPPAPATLSKIEALGFNVTQVYGLTETYGHVTECLWSSDWDN
+LQGPDRAAIKARQGVAMPMMEDITVLDADMVQVPMDGATQGEIMIRGNSVMKGYFKNPTA
+TAEAFAGGYFHSGDLAIQHPDGYMQIADRAKDIIISGGENISSVEVEGVLMGHPDVNLAA
+VVAKPDDKWGEVPCAFVELKPGKTGDETEMIAFTRKTLAGFKTPKKVVFQELPKTSTGKI
+QKFELRKLAATL
+>tr|B7RIV2|B7RIV2_9RHOB
+MSVKNIILVITACAGLAACGDTLGKQALGGGAVGAGAAALTGGSLVQGAAIGAGANVLAC
+QSGAVRCN
+>tr|B7RKD6|B7RKD6_9RHOB
+MLRAQIFADVSRVDNGWVRSSYLAKNQPHRSKAAKTGYPDRWRDGLLCKIPKSFVLNRCK
+HNEIDLSLKIFNPAQ
+>tr|B7RM65|B7RM65_9RHOB
+MQDNPPTPDATENARENSRVADAASDNWVDRYAPAFTRPYLRLSRADRPIGTWLLLLPCW
+WGLALAILFDQQPRWFDLWIFAGCGLGAFLMRGAGCTWNDITDRDIDAKVARTRSRPIPS
+GQVSVKGAAAWMIAQALIAFCILLTFNYAAISLGILALLPVAIYPFAKRFTWWPQVFLGI
+AFNWGALLAWTAHTGSLAAPAVVLYLAGIAWTLFYDTIYAHQDTEDDALIGVKSTARLFG
+ENTAQWLRRFLMATVGLMGLAVIFALRENASFLAMVLALGGPWAMGWHMAWQLRGFDITD
+NAKLLQLFRVNRDTGMIPLIFFAAALLA
+>tr|B7RJ45|B7RJ45_9RHOB
+MKDRGETGSGLLCDDPATWGPPEAPLDMPYQQLERSPRRFDILMQLRLLFTGQRI
+>tr|B7RSH4|B7RSH4_9RHOB
+MQLMPRCISFVLMTVSGSLEAITQTITATRRLLHLKSTMQSNRPD
+>tr|B7RQS6|B7RQS6_9RHOB
+MTFAQTDIEKIADHDGRVAVTVDATGKMNPAARRINKLTKGALERLVQSAAFAELKSGDV
+LSMGYPTGMAAEAVDVVKLANNADVTDLRKAGANLAKKRGTSDLLVLAGGLRKAAELCFG
+LAMRDYTFEDRKSNGKPRKGAVTVMASKPEEVEAAAAPLLAIADGAFMTRDLTNEPANFL
+TTTEFADRLAEMKSIGLEVEVLDDAKLEELGMRTLLSVGQGSDSPSYVVVMKWNGGEKDA
+APLALVGKGVVFDTGGISLKPGAGMEDMTMDMGGAGVVAGVMRSLALRKAKANVVGLVGI
+VENMPSGAATRPGDVIKSMKGDTVEVVNTDAEGRLVLCDVMWYAQERFKPVGMIDLATLT
+GAIIIGLGHENAGVFSNNDALCNAFLKAAGTENEGAWRMPMGDGYDKLLKSRIADMRNIG
+GRAGGSISAAQFLGRFVKDETPWIHLDIAGVASVKNETALAPVGATGWGVASLNRLISDN
+FETE
+>tr|B7RFR8|B7RFR8_9RHOB
+MTILEVEYDAAVARLTMNAPERLNALSDEMLAALQAALDTIADTPSVRVVILSGRGKAFC
+AGHDLKQMTAMRQAEDGGAAKFRDLFERCSAVMARIQSMPQPVIAQVHGIATAAGCQLVA
+TCDLAVAAEGTRFGVNGVNIGLFCSTPMVALSRNIPRKQAFEMLTTGDFIDAGRACELGL
+VNRVVSENDLSVETQALADKIAGKLAVAVKIGKEAFYAQLSMPTDQAYAYTGDVMVENML
+HRDTKEGISAFLEKRDPEWEQ
+>tr|B7RQW4|B7RQW4_9RHOB
+MGFDSNRLGRIGDWMQSYVDRNRFAGCSVLVTQAGKEVYFNATGTRDVETGKPFERDTIA
+RIYSMTKPITSVAIMMLAERGLFHLDAPVSDFIPAFARMECLIPGATSIDQTEPCETPTL
+HHLLTHTSGLSYPFNPGVLAKAMEEHDILFRADQGSLEAMTDRVAALPLAFHPGSRWEYS
+VSIDVLGRVVEIVSGKTLEQFFIDEILGPLGMDETRFSVPQGAQDRFAALYTPLAGSAYA
+LNEAKPAEPTLRCVDRPEKSPFLNAEMHSGGGGLVGTIDDYLKFTEMLRTGGAGLLSPKT
+LSFMMRNHLPGDIASMGPASFAEQPMEGMGFGLGGAVVLNAGRVRVPSSTGDFSWGGMAS
+TFFWVDPVLDLSVVFFTQLAPSSSYPARPQLKALIHGAMT
+>tr|B7RRD5|B7RRD5_9RHOB
+MKICAITMVYKDYWALSQWYTHYGRLLGPDNLYVVAHGHDAKIAEICPLASVITIPRDIF
+DGFDRRRGQMLNSFADGLGLSYDWVIRTDADELICFDPAIYPSIKEVFEAASSTALFALG
+LNVAEVIDDKVLKAGEMALGHRSKAVFSGHYSKAWATRRGTALWRHGIWVGTRKLASAPF
+ELPKGVYLMHLKYANLDALEIANRHRTEVGNAEGKGLPGAAWKDPEKDAARFYANLALYK
+DRAWVQARDEAHVAIVSDPMRDEKENVLRSRSRVFKYRVSLPAWFRTHFGADQETEA
+>tr|B7RL22|B7RL22_9RHOB
+MNEPKANIKRIVLVTGPAGAGRSSALNVLEDAGFEVIDNIPLRMLLSLLDAPGQLRPLAL
+GIDPRNRDFSTDMVNDLLSQLRARENLDVDLLYLNCSTDVLLRRFSETRRRHPLAEADSP
+VEGIRREKEILGPVRANADVLIDTTELNVHQLREELERWFAVGGAHHLSISVQSFSYKRG
+LPRSADMVFDCRFLRNPFWDPSLRGMNGTDERVAAYVGQDPLFEAFAKQVLDLSLLILPA
+CKTEGKSHISLAFGCTGGQHRSVTLAEQHAFNLANAGWQVSVRHRELEQKKREETTR
+>tr|B7RPY0|B7RPY0_9RHOB
+MTYKNSVALAATLAAVAIAGQATAKERLNFAYGYPNNSAIGLAVDDYAEAVAERSGGEID
+VTGFAMSLLSLPETSPGVRDGLADVGFVLPPYYPAEYSTNLFLHEMNLLINLVENPTGKE
+PLAFSGAMLEYSFTKCPECLEENKAQNQVYTGGGVTPLYNLLCKDVKVTSVEDLKGLRLR
+AGGAGFVRFAEAFGAQGVRLPVSEAYEALDQGIIDCAMLSAPELTNYNLHEVVTDITLAV
+PGGAFAGVSSANVNADRWKAMDDKSREALLWGGSHMSADVTWNFYTDDSAAIEHARANGI
+NIHEADPELLAAVQEFARADLKTVSALFKDTYGVARSDEIAADFEPLLAKWNGLVKDIDS
+SDALQQLFWDEVISKVDPATYAQ
+>tr|B7RIR5|B7RIR5_9RHOB
+MASNRVNFLRAAALVTATSCALTAAAEVTLSPDQLRNAAVQNIGAGNPARARDFADALLM
+RDAGDFKAQIIRARALRDLGQSKDAIAASRAAWDMADTPSEKYSSALMMAQAQSSAGHKT
+RAQLWLRRAAQHAPDATTRKRAERHFNFVRQQNPLRTQLSVTLAPNSNVNNGSARDTSEL
+NYAISEILFGGPVEYALSGEAQALSGLEYGAGVSTRYRFKQTPTQAHDLNFGLSYRSFLL
+SSSAKDAAPAASGGDFAYGTVSLGYGYNQINLDQKGEFLGAVELGQSWYGGARYASFLRG
+GLSQSVKTSARQKLQFSVDLERQLGQRTADVDRAEVSAALTQSLASGDLAFVSVGATATQ
+SDYADAEYTEVELRGAYVLQKPVMGAALQFGIGAALRDYDRSRHSVDGRQDTQIFADVTA
+TFTQIDYYGFNPSATVRASTTDSNIGLFDVNRVGLSIGIKSAF
+>tr|B7RKT9|B7RKT9_9RHOB
+MADKALDLGEDRSLLLVDDDEPFLRRLAKAMEKRGFEIETAGSVAAGRAIATARPPAYAV
+IDLRLEDGNGLDVVEVLREKRPDARVVVLTGYGAIATAVAAVKIGATDYLSKPADANDIT
+NALLATGDDLPPPPENPMSADRVRWEHIQRVYELCDRNVSETARRLSMHRRTLQRILAKR
+SPR
+>tr|B7RK64|B7RK64_9RHOB
+MRILAVDDDSVVLDLLEVIFKQSDGIEVVVAASGALALEAIATSKDGFDCFLLDISMPEM
+TGIELCERIRVHGAHRDTPIIMLTANTDKTSIEQAFAAGASDYITKPFDVADISTRVQIA
+ARMVQSGDTVRAIDPSEPSRSSVPGRHRFAVTEPLQILSADQLILPYSLGNYLSQLSQRH
+LNHCRLFAAKIIGVEALYDSCTSQEFAIALSAVSDAISDVVNSPKLLSSYFGSGIFICIG
+TEDFGTLWPQIETDVQEVLDTSYAVFEDGRAMNINLHIGRPVRPNGSRTQRVKPTIDRAI
+SLVERSGKSKRLKA
+>tr|B7RMY3|B7RMY3_9RHOB
+MKTRFAPLIFLLAISGQATAQPTLENAGVGRCVVLLHGLARTETSFAVMEAALETEGYKI
+VRPGYPSTEAPVEALTRQTLPDAVAACGTDKVDFVTHSMGGILLRQWVAEEGDARVGRVV
+MLAPPNQGSEVVDALGDFPGFDWLNGPAGAQMGTGADSLPRKLPPVTFDLGVIAGTQSLN
+PYFSSLLPGRDDGKVSVKSTRVKGMRDFLMLPVTHTFMMLNPTVIAQTMAYLNTGKFDRS
+LTFVDAVLDSIGCPTGDCLPGAEDDNAKP
+>tr|B7RG71|B7RG71_9RHOB
+MNRSSRPAFGTLLFFAIAFALSLYFAFAAIQGNFGLFRRAEIVAEAQDLRLQLTSVKADV
+LRMENLTARLSDDYLDLDLLDEQTRKVLGMIRSDEIVIR
+>tr|B7RJK8|B7RJK8_9RHOB
+MLWRAISEELPGPKWAGLFAEYWPHYRKWWLKEGEAVRPTYAECLRALKAHMPEIVPLYE
+ALSEMAGGSDLAARFLSFYCPPPYLSGCSQAVWGGREPVLVRNYDYNTNAFDSLLLHTGW
+QGRKVMGTSDGLFGLVDGVNDAGLSISLTFGGRRVVGVGFGVPLILRYVLQTCETTEEAG
+KVLARVPTHMSYNVTVLDRKRKYLTAFMAPDRETLITNAAVATNHQETVEWISHARFTAT
+VERERYLLQRLRFHRDPEEKFIGTFLKPPLYSHQFNAGFGTLYTAVYRPRKREMELRWPG
+TVWSHTIDEFEEGSRKVLLPGVA
+>tr|B7RNS6|B7RNS6_9RHOB
+MNVMSHHAHADEARPRGNAGARNATPWAPRDASGTHRFPELAHAAQPHISPSAAAGSSYV
+VIDLATLGIVILLTLGLFADAAGSAVLGRTLLFGGTVQIGLKTALGLYPGFGLHPDARLR
+RSFLAWAGAGGISVAAILYLVPISWAAFGLFCGAFIATGLLQTLGRKIIRIVLKRSSNWG
+VPVHLCGTPDAVKATRTYLRAHPGIGFRPVDRQTPADIVLWADHNLPSAATLKALRRGRQ
+DVILVSDLPRAHLSGVHPAEHGGDIGLHLALAHGRSTPPVHAVKRLFDLAFAVPLALIAL
+PIVAIAGALIWCVDPGPAFYVQPREGRGGKTIGVLKLRTMYLDAEQMLQDLLARDADVRA
+EWETHFKLRKDPRILPYIGKFLRASSLDELPQLLNILRGDMSLVGPRPFPDYHLAAMPLD
+FRNRRASVIPGLTGLWQISERSSADLEGQQQLDDFYINGRSFWGDVSILLRTFAAVLGRR
+GAY
+>tr|B7RFK8|B7RFK8_9RHOB
+MWEVTKMNLNRLTRSIGLIGLALMTATPLAAQNLFAPVARVNESVVTEFEVQQRQRFLQL
+LNAPGATRDGALTSLIDERLRNEAVAEAGIALTPEGIEDSLTEFAARANLSTAEFTSALE
+RSGVAKETFRDFVVNSVGWRELIRARYNARVQITDAEINRALGATRGGGVRVLLSEIIIP
+APPKDAARVNALAEQIAQSRSAAEFSGFASRYSATASRGRGGRLEWQDLSSLPPSLQPLI
+LGLAPGEVTAPLPIPNAVALFQLRDIQETGAATPVYSAIEYAAYYIAGGRSEAALAQAQT
+LRGRVDTCNDLYGVAKGQPAEVLERVTKAPAEIPQDIAIELSKLDPGEVSTALTRANGQT
+LMFLMMCDRTSASNQDTSRTDVANALRQERLSGYADQLLEQLRADARIVRK
+>tr|B7RH38|B7RH38_9RHOB
+MALGPEIYDTPAAGPEKDRRLFVYNGGFLTQRRIRRILQLAGHSLHLGLPRAGDAVAVWG
+NSPTAHRGLSVAQRRGVPVVRVEDAMLRSLFPGRAGEPPIGLLIDHKGAHFDPRQPSDLE
+TLLATHPLDDTALLDRARGCIARIQEAHLTKYTAFRVDTPPPDPGYVLVIDQTRGDASVT
+ASGADRSRFLEMLVFAQQENPGARIVIKTHPETAKGYRTGHFGPEDENARITLLTGPISP
+WVLFEGAVRVYTVSSQMGFEAIFAGHKPRVFGQPFYAGWGLTEDEFPVQRRQRTLTRAQI
+FAAAMILYPKWYDPHRDRLCDLETTIEALAATTRAWREDHNGWVASGMSLWKRGPLQRFF
+GTWSPVVFEEDPPRARASGKAWMVWAGKADVGHGDAMRVEDGFLRSRGLGADLIPPLSLV
+CDDLGIYYDPRQPSRLEEWIATRCSLRPDQRRRAERLIKRLRATGLSKYNLGGAVSLDGL
+PEGRRILVPGQVEDDASVKTGTDHVSTNLGLLQAARAANPDAVILYKPHPDVEAGLRPGA
+VDATGLAYRVMARTDPVSLLAHVDEVWTMTSLLGFEALVRGVRVVAVGAPFYAGWGLTDD
+RGDVPPRRRADVDLEGLVHAALIDYPRYVDPLSGLACPVEIVMQRLAEGDLPYPGVGNRL
+LAKVQGAFAGKAHLWRKG
+>tr|B7RHC9|B7RHC9_9RHOB
+MEVLILFTMIVGLMLLGVPIAVSLGFSSIVFLLVLSDSSLASIAQTFFQAMAGHYTLLAI
+PFFVLASSFMSTGGVAKRIIRFSIALVGHFPGGLAIAGVFACMMFAALSGSSPATVVAIG
+SIVIAGMRETGYTKEFAAGVIANAGTLGILIPPSIVMVVYASATDVSVGRMFLAGVIPGL
+LAGFMLMLTIYIMARVKKLPQGEWRGWGEVFESGREAGWGLMLIVIILGGIYGGIFTPTE
+AAAVAAVYAFLIACFVYRDMGPLHVKGDGRNLSLMRKPIALVTVFFHRDMRDTLFEAGKL
+TVTLMFIIANALILKHVLTDEQIPQQISSAMLDAGFGPIMFLIIVNVILLIGGQFMEPSG
+LLIIVAPLVFPIAIELGIDPIHLGIIMVVNMEIGMITPPVGLNLFVTSGVANMPMMSVVR
+AALPFTAVLFVFLIMVTYIPIISTWLPTLMMGPEVIVR
+>tr|B7RI01|B7RI01_9RHOB
+MGSILEGTPAKSDGPGRAALLAPVSGRAPQLGQIMRNAATLGGNTLSDTGEMAFFDSGDT
+PETAATAARLAVAAGARMIVGPLFGAQVAAVSQVVGSNVPVLTLSNDVSVAGGGVFVLGV
+TPEQSARAVLTFAARRGLNTVGVVVPPGAFGSRSAEAAALVGKGTGQTVLPPLIETDPAI
+AVAKLTKANGGTLPKAVYLPGAGAELEALASAFRGKTQVLGSSQWSSRDPGNLPALRDAW
+YAAPDPLAFEPFAVAYQEAHGSSAGILAGVAFDGVETARLLGRIREQSASGLTRDKGFSG
+VLGPFKFSGLGLCSRGLAVLNVGAGAITMIGSASA
+>tr|B7RIU9|B7RIU9_9RHOB
+MEIILHVGAHRTATTSFQHYLREHGATISATGTGLWGPLRTRNGLFSGLFPGPVATVKRP
+SLDRVRGRIALQLEKSRARGVKKLLITDENMIGTSRHCVRTGLLFPSVGERMARYNAAFG
+GGINQIVLTIRSPESWWESAAAYSVQRGACVPTQAKLDKLATMARTWRDVIIDLACAVPH
+AEIKVTTYEEFAGRPKAFLAQATGIDAPKDSQTRWLNRSPDLPALRAILAERGDDPDLLP
+DGTGRWHPFTGAQSAMMRETYADDLFWLTAGADGLATLTEDTPRTRAGKSQPAGDMKEGQ
+HHDSQHRKLAQSG
+>tr|B7RI06|B7RI06_9RHOB
+MDYLLFILSQTRPTQLDVIATPPLVAVLIWLSVTDWQSFRLPDAGTLPLIMCGLLLAVWR
+DGSVPVDQVIGTVAGFAVFWAIGAAYFRARGIDALGLGDSKLLAAAGAWMGWQALPSMIL
+ISSITGIAVALVRGGDSSANIPFGPSLALAFFLHWALFLSGWL
+>tr|B7RLL6|B7RLL6_9RHOB
+MVTLALPVHMRDVSIRKRGKTLLGPVNLTLGPTGFTIVLGPNGAGKTTLLKALHGLERLS
+QGTVDWSGPDDVARTKQAYVFQNPVMLRRSVRANLAYPLKILGAPQADIDAAVSLWAGRI
+GLADALDRSATRLSGGEKQKLALARALIRAPEILFLDEPCSNLDGRSVKEIEALLLTAHK
+AGTRLVMATHDLGQARRLATDVLFLFKGAIHEAAAAPMAFDVPRTTEFASFLNGDILE
+>tr|B7RK04|B7RK04_9RHOB
+MPWEDRNVAKTLWGLLSNTADKFPSHEAISYQLFSGVKDHAETLNWAQLRGQVGRAANLF
+RSLGVGPTDVVAYVLPNCNETVITLLGGAVAGIANPINPLLDAEQIGSILRETNAKVVVT
+LRPFPKTDVAEKAAAAVKLAPNVKHVLEVDLCRYLTAPKSWIVPLIRPKLTVTNQAAYQN
+FNTAISKQPTDLTFDDPQEDRVAFYFHTGGTTGMPKVAQHKYSGMIYNGWLGHTLLYTED
+DNIMCPLPLFHVFACHVILMAAVASGAHVIFPTPQGYRGEGVFDNFWKLVERWKVTFIIT
+VPTAISAKMQRPIDADISTVKTAFSGSAPLPLELFRRFEEATGITLVEGYGLTEATCLVS
+CNPTDGVKKVGSIGITFPYTDVKIIKGTDGGPVEAGIDEIGEICVSNPGVYAGHTYTEAD
+KNKDLYYFDKYLRTGDLGRIDADNYLWITGRAKDLIIRGGHNIDPAEIEEALLGHNAVAF
+AGAIGQPDAHAGEVPCAFVELVGGASVTEEELLEFCKKKVHERAAQPKHLTIMPELPKTA
+VGKIFKPDLRKMAITRIYNEALEASGSAARVTSVVDDKKRGLVAQVTLNGASKEDVGGVL
+DVFTFGWDAA
+>tr|B7RPB0|B7RPB0_9RHOB
+MLEAGDPNWQNGGTPELVIVYGDSRRSFLECYTMQAIEEVDDKIDALPRGSMERKMLQRL
+FHGQSFPTSVDETGRLVLPAKLRNKIDLEGEAFFIAAGDTFQIWKPETYETEEKAREEEW
+LDDLPEDFDPMAFLDGKPGA
+>tr|B7RS23|B7RS23_9RHOB
+MLNVILAEGLNLGLSKMAGASSTHSFTQLARLSNWHVESEAINRALATVIEAQAQLPMAK
+YWGAGETSSSDGQFFPTTRQGEAMNLINAKYGNEPGLKAYTHVSDQYGPFATQVIPATVN
+EAPYILDGLQMNPTGKRIKEQYADTGGFTDLVFAATSLLGYLFIPRIRDLPSKRLHVFDR
+RSVPVELRGLVGDKIRENTIIANWPDVLRGIATMLSGRMQPSQLMKKLAARPRQHDLAIA
+LRQIGRVERTLFIIEWALDTDMQRRANIGLNKGETHHALKSALRIGRQGEIRDRNTEGHH
+FRIAGLNLLTAIIIFWNTKQLGVAFAQRKKAKLDTPGYLLAHISPLGWAHIILTGEYRWR
+PANA
+>tr|B7RGH7|B7RGH7_9RHOB
+MAGRSMLSGRFEPAAVRPEVPRPTKGKPRVGIHASIFKKPRKRRAPPKLMWPVGFDLATL
+RNRLSIKPVSH
+>tr|B7RGN6|B7RGN6_9RHOB
+MPTYEKSPDAIAALSPEEYRVTQQNGTERPGSGKLLSNKEPGIYVDIVSGEPLFASADKY
+DSGCGWPSFTKAIEPAYVNELRDDTLGMIRTEVRSTHGDSHLGHVFPDGPRDRGGLRYCI
+NSASLRFVHRDDMDAEGYGSYINQVEDVA
+>tr|B7RJT5|B7RJT5_9RHOB
+MNRQVTPSNLKTAASPMGTTEGYMPGFGNDFETEALPGALPQGMNSPQKCNYGLYGEQLS
+GTAFTAPSHQNERTWCYRIRPSVKHSHRYEKIDLPYWKSAPHIPQDVTSLGQYRWDPVPH
+STEKLTWLTGMRTMTTAGDVNTQVGMASHIYLVTDSMVDAYFYSADSELLIVPQEGRLRF
+CTELGVIDLEPKEIAIIPRGLVYRVEVIEGPARGFVCENYGQKFELPGRGPIGANCMANR
+RDFKTPVAAFEDRDAPSTVTIKWCGQFHETKIGHSPLDVVAWHGNYAPVKYDLRTYCPVG
+AVLFDHPDPSIFTVLTAASGVEGTANIDFVLFRERWMVAEDTFRPPWYHKNVMSELMGNI
+YGQYDAKPKGFIPGGMSLHNMMLPHGPDKNAFEGASNADLTASKLDNTMSFMFETRFPQH
+LTEFAANEAPLQDDYIDCWESLEKKFDGTPGKK
+>tr|B7RL72|B7RL72_9RHOB
+MKHVPKPTTDEDLIKEFLNKGGTIKKGKTKPMPDDLGLSNNQWGNKMTKEEKAVVKEQEE
+ARKKR
+>tr|B7RL78|B7RL78_9RHOB
+MLDTATYTPRLKGVYNDTIRAALKEEFSYKNGMQIPRLDKIVLNIGCGAEAVRDSKKAKS
+AQEDLTTIAGQKAMTTMAKKSIAGFRVREDMPLGAKVTLRGDRMYEFLDRLITIAMPRIR
+DFRGINGKSFDGRGNYAMGLKEHIVFPEIDFDKVDETWGMDIVIATTAKTDAEAKALLKA
+FNMPFNS
+>tr|B7RP85|B7RP85_9RHOB
+MNGKIVGGVILVAAAIAGITLYYLQVYGYYREVAMPAQGVELVSLSTNAPETIPSENFRA
+IDADSSPIRYRACFETPLSLAMLTETYVVSDKVDPRNAPGWFDCFDAGAIGAEIEAGTAL
+TFLSQKNIHFGVDRIVAITSDGRGYIWHELNDCGDKAYDGTVVGEACPDLPAQ
+>tr|B7RS37|B7RS37_9RHOB
+MIFAQGRTGTWLLHSLLNQHPELHFGKEILQQPVLWPSRYVLSKARAAQPALYGCHIQIN
+QLLTTQRIDAKGFIKGLSDQGWHILHLRRQDVIRQSISAILAVQRGQWVAHKAISAPQPM
+VEINIDQVIERIRRRQYHAACEAEVLADLPHLSLIYEEDLEQETSHQPTANRIFRYLNVD
+LAEVRAETHRTTPQRVQDVLTNYDQLMDKVALTFPELM
+>tr|B7RID0|B7RID0_9RHOB
+MASSDILTRDLGTDGILRLTLNDVKRRNALSEAMLSALGNAFKRAGDDPAVRVIILAANG
+PAFCAGHDLKEMTAGRTGADGGKAYFAKVMSMCSGVMQAIVLCPKPVIAEVTGVATAAGC
+QLVASCDLAIAAETAQFSTPGVHIGLFCSTPMVALSRNVSNKHAMEMLLTGDMTSAARAA
+EIGLVNRVVSEDRLQDATTEMARKIAAKSSMTLATGKRAFYEQRDMPLAEAYDYASQVMV
+DNMLAYDAQEGIGAFIEKRAPKWQDA
+>tr|B7RJ92|B7RJ92_9RHOB
+MGSSLGLQRIDRHMTVSSGLYRATAVASFAACASAEVQRNPNLASTRRAARSRAIRLRVW
+KSSTRYF
+>tr|B7RKH7|B7RKH7_9RHOB
+MTDYETFDLGATKLSCGVIVPSLHLAYKVYGQLNAEKSNLILYPTSYGAQHSDIDWLIGS
+DRILDPERYCIVIPNQLGNGLSSSPSNFALPFTHGRAPAFSHLDNISAQERLLREVLGVE
+RIALVYGWSMGGQQTLHWGALHPEKVERICATCTSARTSPHNKLFLEGLRAALTTDPAWN
+GEWFTQHPVRGLRAFARVYAGWALSQAFYREDIWAEAGFASREDYVVRAWEGNFLRRDPM
+DLLSMIQTWIDSDISSNDVFRGDLNAALGAIKARAIIMPSTTDLYFTIDDSEIETSMMPN
+AELRPISSNWGHRAGNPQNSREDEAAIQQAVKSLLAE
+>tr|B7RME1|B7RME1_9RHOB
+MNWINNYVRPRINSIFSRRETPDNLWTKCDECGTMLFHREVSDNLNVCTSCGHHMGISPR
+DRFHALFDGGVFNEVKVPAPTPDPLHFRDQKKYPDRLKAAQKQTNEAEAMLVVTGEMGRT
+PIVAAAQDFSFMAGSMGMYVGNAIIAAAQEAVKLKRPLILFSAAGGARMQEGILSLMQMP
+RTTVAVQMLKEAGLPYIVVLTHPTTGGVTASYAMLGDVQIAEPGALICFAGPRVIEQTIR
+EKLPEGFQRAEYLLDHGMLDRVTPRPKLRDELINITRMLMNLPPEVRGDLPAPTEGGDLR
+HALTPDETVENPAK
+>tr|B7RPV0|B7RPV0_9RHOB
+MLQLDKITKTFGANTAVHAASFTVDKPMMIGVIGRSGAGKSTLLRMLNRLTDASSGAITF
+DGLDITALRGRAKRNWQSQCAMIFQQFNLVPRMDVVSNVLHGTLNRRSTLSTMFNLYPDG
+DIHRAIDILERLGIAEHAPKRAEALSGGQQQRVAIARALMQDPRIILADEPIASLDPMNA
+QVVMQSLRDIHEQDGRMVIANLHTLDTARRYCDRVIGMRDGRIVFDGTPEQLTTGTARDI
+YGADASFSEATTSTQIETNEAARKILADIAAL
+>tr|B7RQP1|B7RQP1_9RHOB
+MSGRWESDAPHGQMAIHPLGWGLVVVRSLLLVGLVFGGLAVLLSLRLIERPLFGQGRPVT
+PHITQFVCRTAFLVMGIRRKTVGKPMQHRGAVVANHTSWLDIFTLNAVQRIYFVSKSEVA
+GWPGIGWLARATGTVFIERNPKRAREQTQVFQQRLLHNHRLLFFPEGTSTDGLQVLPFKT
+TLFQAFLTPELHDAIWIQPVSVSYKAPHGADTRFYGWWGDMTFGGHLVETLSVWRQGSVT
+TFYHTPIKVSDYHNRKDLALACEIRIREGHQTNLAGQ
+>tr|B7RQZ9|B7RQZ9_9RHOB
+MTAALDVQGLTTRFATRGDAVTAVNNVSFSVGKGRILGLVGESGSGKSVTGFSIMGLIDT
+PGEVSSGKVLIDGIDMRTLSPDDMRKMRGNKVAMVFQDPMMTLNPVLRVGDQMAMAVRVH
+RKMSKSAAWEEARKALDTVGIPSPAERLLAYPHQLSGGMRQRVAIAMALLHNPAVIIADE
+ATTALDVSIQGQILAEVRDLADRTDAAIVWITHDLGVVSSLADDICVMYAGQIVERGTAQ
+QVIEHPRHPYTKGLLDSIPALHEPGTHLPQIPGSTPQLSRLPQGCPFRPRCPRATDICTT
+VPPADTKDDQTVLCHHPLERT
+>tr|B7RLJ4|B7RLJ4_9RHOB
+MVDVGPAGLSTTNQPEISRPLRLRAMCMPLPDFNRVYQSLP
+>tr|B7RRT8|B7RRT8_9RHOB
+MRSLLTFLVGVLFGTGISLSGMANPAKVINFFDVAGTWDPSLAFVMGGAVLVTFIGYRLV
+LRRTAPVFEPTFDIPKNRRLDARLITGAGIFGVGWGIAGFCPGGALPALGTLNSDVIAFV
+IALIAGMLATRALSDWKASRSGSARAAE
+>tr|B7RGN4|B7RGN4_9RHOB
+MDIRAILVGLAFAFMWSSAFTSARIIVADASPLMALSARYLISGLLGVGIALAMGQTWRL
+TPAQWRATIIFGILQNAVYLGLNFVAMQTVQASLAAIIASTMPLLVGLATWLFLGEKLKP
+LGIAGLVAGVIGVTIIMGARVSGGVDLTGVLLCGIGALALTAATLLVRGATSGGNFMMVV
+GLQMLVGCFTLSIATLLFETPRITPSWPLFAAFAYTCLVPGLLATVVWFWLVNRIGATRA
+ATFHFLNPFFGVAIAWLLLSEPLGAQDILGVAIIGFGILAVQVSRQRNA
+>tr|B7RHV7|B7RHV7_9RHOB
+MMCDARVFWPQIAELSATTAVTIAPVTQGERVEEIASGLLDQLPKRFALAGLGMGGAVAL
+ELLRRAPDRISRIALIDTSPLAETPQAAAAREMLIVKAKAGRMSDVMQQEVLPHHLAPGP
+DKAAIMDLVMDMAETLGPEIYVRQARAMQRGKDQQAVLRKCKVPALVMCGEFDKINSVKR
+HSFMAELIPRAHLTVISGSGHLPTLEKPRQTTAALRDWMAMT
+>tr|B7RJH7|B7RJH7_9RHOB
+MTPQDASASAYEICKRAPIVPVLVVHDVAHARPLAEALVAGGLPALEVTLRTDAALDVIA
+EMAKVEGGFVGAGTLLTPDDVKRAVDAGATFGVSPGATDKLLQAAEDLDLPMLPGAATAS
+EAMRLLERGYDMLKFFPAEASGGAPALKSLASPLPQIRFCPTGGVSPSNAESYLSLPNVV
+CAGGSWVAPDALVRAGDWAAITELARAANQLGR
+>tr|B7RG39|B7RG39_9RHOB
+MHPDNAGFRVIGASSGHAIAAACLNEPNDHPIVSHVEASENIFIFHLAGVRKWAMNGTTV
+DRPIEIMPLKGGSQFSVISTRTGTLTPSATFFDPAENEVYLVFETPLEPMAAELRAYVAY
+GACSDPERSRLLTEASALKRPVRRDALPLDFVH
+>tr|B7RLQ7|B7RLQ7_9RHOB
+MKLPPRDATAYFKKPDPNKTGLLIYGGDPMRVAMRRQEFLKALLGANAEEEMRLTRIQAA
+DLRRDPPMLLDAIKAVGFFPGPRAAFVEDANDNIAKILMDALAGWQPGDAQIIVTAGDLK
+KTSKVLKAFEAHKTAFATPIYDNPPDRAEIERILAEARLSPEPDAMGALTELARVLDPGD
+FRQMVEKITLYKIGDAGPLTAEDVANCAPTSTEAEVDDILHVVAEARAGDIGPVMAKLQA
+QGVNAVTLIIMATRHFRTLYRIASNPGGQIWGVRDRDRAMRQAKNWGAAKLETALTVLTD
+TDLTLRSAGQHAPTMALVERAFIRLAMLGAQR
+>tr|B7RHA2|B7RHA2_9RHOB
+MPLILLVLFMMQCVTAAGAEAVRGSLFVSSSARSNGAMAALFVGRAPGGLFADRPPHDPV
+FADAGIGVFRGSDVELIRAVIQEAESRHDGYDAVQFGARIKPPKKPTKMTIAEVFAWIEA
+TPGQPHAIGRYQFIPQTLHRLVAKTGVQPSQRFGPKLQDRLADVLLAEAGFHKFRAGGLD
+RQAFMNNMAKIWAGLPNSTGKSHYDGYAGNKASMSWARFDAVMARISPESG
+>tr|B7RKB3|B7RKB3_9RHOB
+MIDREARLRHALAAALERYDDRVGETFPYEVGLLINPDDAFLAIVRPDGAGISIEATLAV
+VTLIEEVWAAALDLSNALPNDSQIALLGDHDHVVDIALRWLMQHELNHVAVGHFKLSAGA
+GIVEGGGLTQFALATQKQRPASPLDQLNASDRKLAPLCLELQADHDATEIVLGAYFNENH
+ELFRYYAICIALVIFVIERIDREQGNREISHPKASTRLFMLLAYLVELPYIPAYKRAAQE
+GLEHMPEEYLPDKTEVQQYSKVVVGPVFAACEIIAEAVELPNILDELGGTEAFFADIQTA
+VLGGQSDIAEFKTECAKQWAALKPLNDRLLKILGW
+>tr|B7RN47|B7RN47_9RHOB
+MTDKDKLRIAGQFISALPFSEALGMVLEELSDGIAVIGMPYDAKLVGDPRSGVIHGGAVS
+ALMDTCCGAAVMSHPSNPGGTATIDLRIEYLRAAAPGQRITARAECYHVTRSVAFVRATA
+QDETNGSPVATATGSFVVEGQR
+>tr|B7RPQ0|B7RPQ0_9RHOB
+MLAVVAGFAAPMAMAENRIDTQLPNAPKLAAYGDMAVGVRQIELLHADQIDILSIDPAAP
+KPDTLPVYDRPLTVEVWYPAADGATGATDFKAFLRDATTEVTLNGQAMRDADPATGTAYP
+LVIVSHGYPGNRFLMSHLAENIASKGYVVASIDHTDSTYRTQAAFGSTLVNRSLDQLFVL
+DEMARLSGDEASFLNGLVNADTAGIVGYSMGGYGAVITSGGGVTEASIGYTWGAPHGTLA
+IHQAGSDTHNALPDPRIKTAVAIGPWGMNTGFWDAEGLSGIKIPMLFMAGSEDMTSLYEK
+GVRAIWENASGTNRSLLTFENGGHNTAAPMPAPEESFRDDERLGFNVSAHYTDAVWNTAR
+MNNIAQHFVSAWMDLYLKGNETAGEYLELVENSNDGVWSMNEDGTPKEDHSYWKGFAKDS
+AKGLRFEVKAPE
+>tr|B7RFV2|B7RFV2_9RHOB
+MHVLRHLGVLCLLGLPGLPLAQSTQDAPLSVIDWLGEKPRAIPENVTPSKPAETAVATSA
+LPPVVTVTPLTEGSPRAIGLVPASVTGLPQDIWQGSETATITRLIETLPDLHLPAARSLL
+YTLLLAEATAPQATAKQGDLLALTRVKALMETGALDPALSLIEQAGVATSPDHFGLWMQI
+SLLLGIEDRGCQLLTQKPYLSSDYGVRILCAARAGQWENAALTLGSAQALELLPAPELAL
+LDRFLNPDLFEGMPPLPAPRKMSPLSFRMFEAIGEPLPTHNLPPAYAVADLRDIAGWKAQ
+LDAAERLTRTGALPDNRFLGIYTAREAAASGGIWDRVEALQRFDTAIGTKSVEAIDKTLR
+PAWRAMQEAELEVTFASLYAEALQRVALDGASAVLRDRILLLSPLYESVASGDALNAELA
+FMMVIAQGETPTAIPDMPHAAGIASAFTNPTPRVALINAAQNGQLGAAILNTIALLEEGA
+RGDTAALRDALSTLRALGLEDVARRASLQALLLERG
+>tr|B7RJ00|B7RJ00_9RHOB
+MSWASLPLDVLMPDRTAFKTPPPPPGPEEEHRFPCDTCGSDLRFDPETYQLVCDHCGNTE
+AISGRRPHHPIAELDFRAAIARELPQAEMEETRVTNCPNCAAQIEFDDTKHATECPFCAT
+PLVIDTGLNRHIKPRAVLPFALTETIARDAMTDWLGSLWFAPNGLQEYARKGRRMQGIYV
+PYWTYDADTRSTYTGERGTVYYVTQTMMVDGKRVQKQVPKVRWNHASGRVARFFDDVLVL
+ASKSLPKRFTDALEPWDLSALEPYAPEYLAGFRAEAYAITLEDGYTEARQIMDAMIERDV
+RFDIGGDRQRIHNIQTQVSDVTFKHVLLPVWLAAYKYRGQTYRFVVNGRTGNVQGERPYS
+AIKITFAVILGLLVAGVVGYFMALQK
+>tr|B7RG08|B7RG08_9RHOB
+MIVNMVHEMENHMFRHILAFSAALSMTAGLAAAGTSTQHSAQSAAHSTAAASHGSAAVVS
+GAATVSALPIMAVGATLSLSGAALQSVGTSALTVGSQMIEAADDPVHGLPAPDGPPSLTE
+AGARK
+>tr|B7RG00|B7RG00_9RHOB
+MRISTRSQVDPFIVMDVMQAAAAAEAAGRHIIHMEVGQPGTGAPSGATAALNRAMTDGAL
+GYTVALGLPALRERIARMYGDWYNVDLDPNRVVITSGSSGGFILAFTALFDTGDKVGIGA
+PGYPSYRQILKALALAPVDLPTSPDNRYQPVPADFAGLDLKGLLVASPANPTGTMLDRPA
+MKALIDATQGQGASFISDEIYHGIEYEKKAVTALEITDDAYVINSFSKYFSMTGWRVGWM
+VVPEDHVRVVERIAQNMFICAPHASQVAALAAMECEGELQANMDVYRANRSLMIDGLRAA
+GFTNFAPPDGAFYVYADVSDITDDSRALARDILDKAGVAVTPGLDFDPLRGHRTIRFSYA
+RSTEDIAEGIARLKTYMAAR
+>tr|B7RK47|B7RK47_9RHOB
+MAASSQQSVKVWDPFVRVFHWSLVVAFLAAYFVEPEGSNLAVHVWAGYAVGGLVVLRIIW
+GFIGPKHARFSDFLFGPFAALRYLFSVFGGNSKRYLGHSPAGAWMVFALLTGLSATVISG
+MSYYGQVENKGPLGAVFAETKGATAAASTALADEENSDDDAAARTDDAEDERLEELHEAF
+ANITLVLALLHIGGVILASFAHHENLAQAMITGRKRPE
+>tr|B7RNT7|B7RNT7_9RHOB
+MNERELLMTDFTARRTMMVDTQVRPSDVTKFPIIDAMLKVAREDYVPAAQREAAYLGENL
+NLGDGRVLLEPRTLAKMLDALAITNDELVLDIGSALGYSSAVIAHMAEAVVAVEEDDDMA
+KESQETLIAADIDNVIVHHGPLADGAPQHGPYDVVIIQGGVEDVPAAILDQLKVGGRIAC
+IFMSGALGEARLGYKRDNGVSWRMAFNAGAPVLKGFAREKAFQL
+>tr|B7RIS5|B7RIS5_9RHOB
+MKSTMTYAGHARAITVMGLPLIGGHLGQVAIGVTDTVMVGWYSVEGLAAVTLASTYFFVL
+LIFGSGFAWGVMPMVAAYEAEGDEVGLRRATRMGLWLSLGFGVLALPLFIWARPVMGLIG
+QDPALADMVGQYLAIAGWGIIPALLVMVLKSYLAALERTQAVFWITVLAGVANVLANYAF
+IFGNWGAPELGVRGAAIASLASHSVSLVAVVIYVLVALPQHQIFVRLWRPDWDMLGRVFR
+LGLPIGFTGLSEVGLFAASAVMMGWLGTVPLAAHGIALQLASITFMVHLGISNVATIRAG
+NAYGRRDPAHLSRGALASMAMSLIFSALTVVVFTVWPEPLINIFMQDSEPARDQILAVGI
+GLLAMAALFQLVDGAQAIALGLLRGVQDTKVPMILAGISYWLIGIPASYLLGFVLGLDGV
+GVWLGLVIGLGVAALLLNLRFWGPATANLQQA
+>tr|B7RLQ3|B7RLQ3_9RHOB
+MGKRYVDYIQSGRVIALAGGSCKAGHHDRQLGLSLHLHTVAKLHQSFSHCGKAMRDPCQN
+WGKGGKDRHTLSGFPGLGM
+>tr|B7RNB2|B7RNB2_9RHOB
+MAQSDIQCRVRELDHLVLTVSSIPETVRFYTQVLGMRGQQFEVADGSKRWALRFGQSKIN
+LHQKGREFDPKAANPGTGTADLCFLTDAPIEDWVKHLTIHGIKIEDGPVARSGATGPITS
+LYLRDPDRNLIEVSVPAL
+>tr|B7RQ98|B7RQ98_9RHOB
+MHEVLAAAGSDTGLIWLLASVIVAGLVRGFAGFGSAMIIMPVAASVLTPVQAVIFLTAAE
+LLGPLPNLPSALRIGTKRDIGLLLAGVVVALPLGLWLLSVMPPEPFGWVVSGIVMALLAL
+LITGWRYGGALNRPLVVGTGALGGFMTGFAGIAGPPVIMLYMASKLPIAVIRANFLLYLV
+GIDLLLFAMLWIGDLLVWQIVALGLMMGIPNVLANMIGARLFDPQAERVFRTVAYIVIAL
+SAIIGLPLWKG
+>tr|B7RQQ9|B7RQQ9_9RHOB
+MSTTLFLILCLNGLQYGMLLFLIAAGLTLVFGVMGFINLAHGVQYMVGAYLAVFYVGLTG
+SFIAAVFLSLGTALVFGLLLEHFIFRHLYTRSHLDQVLATFGIIIFLNELAKVLFGPATL
+SIAPPDFLSGSIQLTEQLRYPVYRAATILAGLLVAAALFLTVSYTRIGMLIRAGATTPEM
+VSALGVDIQRLFMIVFGVGAMLAGFAGVIAAPIFGIEPGMGDNILIIAFVVIIIGGIGSI
+GGAFVAALLVGLIDTLGRSLATTLLTAVFSPSFANQVGPALASMLIYILMATILIFRPKG
+LLPAKGVA
+>tr|B7RIB2|B7RIB2_9RHOB
+MATGTVKWFNTTKGFGFIAPDGGSKDVFVHISAVERAGLTGLADNQKVTFDIEAGRDGRE
+SASNIALA
+>tr|B7RSD2|B7RSD2_9RHOB
+MYVTHNLAEAVRLGHLVVVLSRRPGRIREIVEIDMPLADRGLGNQVLEEKQKYLWEAMRE
+EARAADKELING
+>tr|B7RKK3|B7RKK3_9RHOB
+MTNAPQNIFIVEDEVVVAFEMTDILEDIGFTVVGPSIHLEDAKVKAREGDIDIAFLDVNL
+GHNKTSKPVADILRERGIPFVYITAYDRDQISFVGPDDRVVKKPVSSQKLIETLRRVYPD
+LET
+>tr|B7RHG0|B7RHG0_9RHOB
+MADILNKEAFFLPEGVIYLDGNSLGPLPRAVPARVQSMMADEWGEMLIRGWNKANWMEQP
+SRVGNMVARIIGAPDGSVVMGDTLSIKVFQALSSGLKLRKDRRVILSDTGNFPSDLYMAE
+GLVKLLEQGYELRTVAPEDVADAISEDIAVVMLTEVDYRTGRMHDMKAMTKLVHDKGAVM
+VWDLAHSAGALPVDMAGSNAEFAVGCTYKYLNGGPGAPGFIYVRPDLADSVEPALAGWLG
+HRQPFEFDLNYAPGNGIERMRVGTPPVIQLTALEVAMELWADVDMNELRAASIALQEQFI
+AEIERDVPALTLASPRDATMRGSQVSWRFEHGYAAMQAVIDRGVIGDFRAPDIMRFGFTP
+LYIDSADVTAAVAIIADVMNNNLWDNDKYKVKSRVT
+>tr|B7RMT4|B7RMT4_9RHOB
+MTMPWSAKCDTYDVAVSTVPLADDTGGTLSLTLRYPHEGKAKAVVIFCHGLGSSGAAYGG
+LAEAWVKQGYVVIQPTFADSIFEVARAFPELGLDPQDEDLVLWARKPSAIWQKMFQILHD
+PDYWLDRIRIVNVVMDQLPDLLQRAFAPAAGLPLAIAGHSFGAYTAQLLAGVEIDLPDGP
+RNFRDDRFAAALVLSGQGRDQQGLRDGSWDDMTGPVLTVTGKQDGGAKGQDWHWKCEPFD
+LAPSGGKVLAVLGDANHYLGGMTPEGVTVPHQFEALSMVTTAFLDAYVRQRASARNWLAL
+VEDRIGNCPVVFSRK
+>tr|B7RR32|B7RR32_9RHOB
+MGDIALRGDQLKKMMAMAKKRDLSFAYCPGNDPKEDVFVLDRKKKPEVIGRVARGESTGT
+KLGYGTAKVKGRVIELTCERELPQMAKKLKKFLKFEKIPMNVLVLDSSGNVLEEDIEDMP
+DDGLLDDVADDEGDGNDDVSEAAENEDAAKNAPDAASDDAELLKKLKARALQVQGAIKGV
+KPDAQAPLVAGFKTAVGALQGGDLPKADDMLTKLERAIAKLSGQGTAADASAKTEDPALK
+RLAEVSAVLSKRIDALGEVDGASRLRAVHGMLDDQIASGDAKKATGTAKALGDAIARLAE
+QAAAAPSTDQNPPENADDNAADPGAGWREARADLEPAILDLLQRGMGDVGKMRAVLAYFT
+EKGEADDFAGAMKAVPGLKKLIADAHAAEQTAAEKDIPAGVVPYVRARLDWSKTRISLNS
+ELIKLQDSILAVCQGEEFPTIATDTKTLFTYLDTLDSRLEDALEALVQEPDGQKRELLKE
+NARKVLSEFQSELDTPFFQTVDGKNGFKPVNVRGAAITSLGKVDEALRTAA
+>tr|B7RKU4|B7RKU4_9RHOB
+MKNRSSALRDFIMEAGWAQATRSLLAGDASNRRYDRLTQADGTTAVVMDAPPDKGEDVRP
+FVAIATYLAAQGLSAPRIFAQDATNGFLLIEDLGDALFAQLMVDTPRMTSPLYAAATDLL
+IALHAADTPDLPLCDSGWLTDATGLVFDWYAQNNAAAEPFNALFQPLAQSLDSTPRVVIL
+RDFHAENLLWLPDRAGVARVGLLDFQDALLGHPAYDLVSILQDARRDVAPEIEAEMIARY
+ISETGADAEAFHRAYSLLGLQRNLRILGIFARLCLRDGKAHYVDLIPRVWRYVQRNLAHP
+DFGEIAEMLHDTLPEPTSAFLKELKSRCATHPMP
+>tr|B7RL17|B7RL17_9RHOB
+MQKSLTFLAPFVVAASLSLPAMAQEEVKADTVVATVNGTEITVGHMIIARATLPEQYQQL
+PPEVLFKGILDQLVQQTALEQSFEGDVPARVALSLENERRQLIAGEVIEKAMAADISAED
+LAAAYEEEYGSAEPTEEFNASHILVETEEDALAVKAEIDGGADFAETAKEKSTGPSGPSG
+GSLGWFGPGMMVPAFETAVQDLEVGAVSMPVETQFGWHIIKLEDKRLKDAPALESVKEEL
+ELQLRQVKAQEKITEMTDAADVDRSAADAIDPSVLTNLGLLE
+>tr|B7RGF7|B7RGF7_9RHOB
+MFPCGREVGKFAVQTLGREHGDNADAAAFHETFGLRDVTGKCLYGARQKLGHSFAAAIKG
+DVFYRTHIVDPIGICRDQNLEVVPATDRGTARNRDRLGVVLYRVEQACEVGNLAVCGNRD
+HAVVGTDGGQPAHFIHVVARICTLRQTGRCRRRGCHDQIIVIIALVNDFGKSHAATATSK
+VHDLHGFFDQTLVLHGFANLTAGEIPTATGVGRGDTFRVLGREAFGTCRQGGCADQQGSQ
+SEAG
+>tr|B7RGH1|B7RGH1_9RHOB
+MTDVGIGLTGLATLIALIAARVPIGIALIGVSFGGLWALMGPRVAWGAMGLVPYQFTSSW
+ILSSIPMFLFLGFISYHTQLTKGMFNAARIWLAGLPGGLAIASIFGSAGFAAVSGSSIAC
+SAAMGRIAIPEMMKHKYHPELATGTVAVAGTIGALIPPSIILILYGVIAQISIADLFLGG
+VSAGLLTAFGYVIVVLIRVKLNPSLAPERDESVTLREKMLALRETWPLLLIMIGIFGGLF
+GGIFTPTEAGAVGAFLACLVALITGEMTVGRFLTAARETLMTTAALLIIAIGASLLTRFL
+ALSGAGDYLSGGILSIADSPVLLMLGIVCVYLLIGMFLEPIGAMLLTLPIILPVVDASGW
+SLLWXXXXXXXXXXXXXXXXXXXXXXTNFRSVNDRA
+>tr|B7RHT5|B7RHT5_9RHOB
+MENVVLIVHLILALGLIAVVLLQRSEGGGLGMGGGGGGAVSGRAAATAMGKITWVLATLF
+IITSITLTIIAAEKSAGSSVIDRLGATPPALNEAPAMPDADSLLPPTPADNTPQVPTAD
+>tr|B7RHW7|B7RHW7_9RHOB
+MARTLGRYDSLVTFVESQTWLLPTLARLIFTGVLSLYFFNSGLTKLGDGFLGILAPSTGA
+YVQIFPRAFEAVGYDTDGLGLFHDLIVLGGTLAEFALPMLIIIGLFTRFAAIGMIGFVVL
+QSLTDVIGHGQTGVLGAWFDRFPDAAILDQRAFWVFVLLTLAVKGGGPLSLDRLIVARTR
+>tr|B7RHZ0|B7RHZ0_9RHOB
+MGYVKTAMLMAAMTALFMGVGYLVGGSGGALIALVVAAAMNAFTWWNSDRMVLRMHNAQP
+LEPGDRMGLHALTAGLARDAGLPVPKVYLIDTPQPNAFATGRNPANAAVAVTSGLIRNLT
+REELAGVIAHELAHIRNHDTAIMTVTATFAGAISMLANFALFFGGSRERLGLVGSLLMMI
+LAPMAAALVQMAISRTREYAADKAGAEICGQPLWLASALEKIAMGAARIDNPAAERNPGT
+AHMFIVNPLHAYKRDNLFATHPATENRVAALRAMPGQRGQAPVAAEKPTSVSRIPKTRNR
+RRSGPWT
+>tr|B7RK34|B7RK34_9RHOB
+MGFIGTAILCIFIGGLSKSISTGFAGFVGGAPFMIIGFVVCAMAVYDFWDECVRKK
+>tr|B7RKA9|B7RKA9_9RHOB
+MISLQLIGPCTRLSFAPTHVGLERSLQPVFPILLRSAWLLRGGIV
+>tr|B7RPW6|B7RPW6_9RHOB
+MPGPAFETDEVEKLLKKAKSSGKEMPFAFGLASKPEECGLVLHMRKPGKTLREQVKKDPA
+IKKTCFGVLRIDGAEVFFQPQRPLKGMVAQLKKKFRAEGLGKYKPVLLGADGAVIDEDAL
+PEAEEDEDDIDLTAAETPVEDTADVATDGPSPDDLKKRLVVASGQVKSLTSPEHIAALGG
+ALKKCVKLLGARDFEGCALGLAKLEAALTQVTRSAPPATDAPNQANLAEQLKKILIAQVG
+KIKLLPPQQAAPLAVQVKKISEQIKSGELDDAKGNLKALALAIATPQEPGPASGGDPMKI
+WQDAKESVDAGVSKLQVALKGMGHPVLAQIADSGLAGVTDGNQTAMMKALFEMKGAVGEG
+RTKAGKSLLAQVGAYAAFLKEDQIIDLIENNPFGVKAPVKAPLMAALREIAVIAKAA
+>tr|B7RPX6|B7RPX6_9RHOB
+MPDNQIVVENARTDGRMPKSYWDVPHSSLIEGFATDFSVDNGNRIDFKINVSDTPGSDYQ
+VEIFRLGHYDGDGARMVAGWTNSAATVQPDATFNPVTGTADAGNWAVTDSWNIPADAVSG
+VYLARVQRLDANGNPVNGAVNQIPFVVRDDDRPADIVLQTSDTTWQAYNGWIGNNGQVGA
+NFYGDSSGTVDHPVIPGSGGFAQDRAYALSYNRPLVTRGIDGQQGGPAAGAQDYLFGADY
+AGIAWLEQNGYDVAYMSGVDTDRLGADYLKKYGAFISVGHDEYWSADQRYNVEEARDAGV
+NLLFWSGNEVYWKTRWETSTVDGQEYRTLVCYKETWAHIDPAALPADYFNLDPENIWTGT
+WRDDRFLGNPLAGDATDRPALSGQPDLYKTNENALTGQIFGPDGTGEFGGALDVPAEYAA
+LRFWRDTSISATGGVDLAAGILGYEWDTSPLDAYRPDGLVHLSETTIPWNGILVDDGNTV
+EPGIATHNLSVYRADSGALVFGAGTVFWTWALSNLHDGQPYDAQIENADLQQFVVNLFAD
+MGIQPGQTDAVLAGQGLSRAAASSDVTPAVATLDALPDTLPVGSPVLLTGTTTDNDGNPL
+TDDGAVVLVEVSFDNGGTWSVAEGTTNWSYAWSPDALQSYQIRVRAIDDSLNLPTTASLA
+TEVVQVTAPETVSLFEPWVQFDGGAYSNPQPLQLGTTFSVSTTGQITELHYYRAVSDATD
+TDTRTGRLWRDDGTLLATTSFVSAPNESGWQTATLSTPVNVMTGQNYIVSYETANNYVSS
+LGFFNQSYSDPFGYLSATTPSSGVYAEAAGAVIPTSSYQSSNYWVDVTFDPGEISYVPPE
+FTSPAAVSIAENSVLVATLTAQTTEPVTYGIQGGADASAFSIDPATGTLNFVFAPDFEVP
+SDSNTDNIFEVTVSASDSLSPPVTQNLQVTVTDVVDESGATVSNLFAPTALPAATETGDS
+TDYELGTRFTASKSGEVASLRYWRGVPDAGDTDIWTLNLWDSTGALLASETVTSGAGQSG
+WAGSACCRQRFR
+>tr|B7RGB7|B7RGB7_9RHOB
+MGQTMDAILLQILNGLDKGSAYALIALGLTLIFGTLGVVNFAHGALFMIGAFCAVTFSKL
+LNLSHTIVDDSRKDFLGNPMKIDVPYLHEFFGQAAGDVIIDWAVPLSILFAIPVMIGIGF
+AMERGLIKHFYKRPHADQILVTFGLAIVMAELIKYFYGANPIPTPAPAAFAGSFDFGALI
+GADPNTIIYPYWRLVYFCFAAVIIGAVFAFLQFTTFGMVVRAGMADRETVGLLGINIDKR
+FTVMFGIAAAVAGVAGVMYAPINSPNYNMGMDFLVLSFVVVVVGGMGSLPGAVLAGFLLG
+ILESFASMAVVLEFIPGINQIIIYLVAIIILLTRPRGLMGRKGVMEE
+>tr|B7RLM8|B7RLM8_9RHOB
+MDSALKINGSPRWYTSSPGVRRGFCPTCGSFLFWKSDADPDTGISLGAIDGPTGLHLTRH
+IFVADKGDYYDITDSVPHKEKEHG
+>tr|B7RGZ0|B7RGZ0_9RHOB
+MQKIQVIGVHHITLMGADRQTSIDFWEGLLGMPFVFDQPNLDNPEEGHLYFDPGDGRLIT
+IFSNENRKPVHDRTPTDAGCVHHVAFEVDRAMFDQVLERLEERGIGNSGIKDRGFMHSIY
+FKDPLGFLIELACYTFIPPRGSSHAEVMLEAHKLRVARGDHHIERQHLADATVMIVERSQ
+RSLSDDRSPKNPY
+>tr|B7RIL4|B7RIL4_9RHOB
+MAKITLDNLAHSYLPNPTREDDYALKELNHDWADGEAYALLGSSGCGKSTLLNIISGLLH
+PSQGRILFNDRDVTMEPTTQRNIAQVFQFPVVYDTMTVRDNLAFPLRNRGADPAYIKDRV
+QQIAQMIGMEEMLNRKARGLTADAKQKISLGRGMVREDVNALLFDEPLTVIDPHMKWELR
+TQLKSLHHEFGHTMIYVTHDQTEALTFADKVVVMYDGRVVQIGTPQQLFETPEHTFVGYF
+IGSPGMNVLDAQVTGDQAVVAGTQISLGKGFGTPKGKVEIGVRPEFTALAAGDVGLPVTI
+KRVEDVGRHKIVRADFHGTEINVIAAEGEGISPDMNRIVFDTAGVNVYSDSWRVAPMGA
+>tr|B7RJJ0|B7RJJ0_9RHOB
+MNDLPVSVVIVSRGRPQSLTRTLTGISQLQYWNFEVVVVADPDGIAAAETLPFASDLKLV
+PFDQPNISAARNLGLTHAAGEVIAFIDDDAVPEPMWLCHLIAPATRADVAAMGGYVRGRN
+GISFQWTSASLDETGRPQALALDGQQAAVMTPPKGRAIKTEGTNMAFRRDVLIELGGFDP
+AFHYFLDETDLNMRLARVGHATALVPLAEVHHGYAENRMRTASRVPTDLFDIGASWAVFH
+RKHVPEADRERLWQGLRLEQRHRLLRLMQSGHLEPRDIRRLMKRLDLGHADGLTRSLASP
+DLPKHALKPFLPFPSVARESIMILSRPARARQDRARAEAQVAAGRIVTLLILSPTAMFHQ
+LGFDAQGFWVQKGGLFGKVNRNEPTIRILTRRKKRERETARVASQRGFGHERTK
+>tr|B7RS40|B7RS40_9RHOB
+MTDWRVSVIMPVYCGEAFIVEALHSITRQDWPIKEIIVVDDGSTDDTASVVRQFPGRVRY
+VHQENRGPQHARNLGLSMACGNAIAFLDADDTWCPGKLAIQGPLLDTEDVVIGHTRIMND
+PHSEAFILPSLNCALFRKSAFNQIGHLDPELEYSDDMDWYMRAREADLAIRIHDDVVLEH
+RRHDSNLTRNFAKKKRFHLLMLHKSILRRREKGIVISPLFSDFRHVG
+>tr|B7RLG4|B7RLG4_9RHOB
+MLFHLKKFRATESGAVTVDWVVLCAAIVLLGVTIITSITTGTVDLADSLMKVEPGGI
+>tr|B7RNL2|B7RNL2_9RHOB
+MTPFVFNTTKSVVFENGAAVRLAELAGGLLGVNCLFVTDPGLRKLGLCDPAIAALEAAGH
+SVTVFDAVEADPSRETLMAAVEAGRAAGATGVIGFGGGSSQDVAKLVALLLGSGEDLDGA
+WGVAQAKGPRLPLVLIPTTAGTGSEVTPVSIITVGAEEKRGVSSAVILPDMAILDAELTL
+GLPAHITAATGIDAMVHAIEAYASKSANNNPLSKLLAREALRLLGANIEAVVADGRDLAA
+RGAMLLGSMLAGQAFANSPVAAVHALAYPIGGTFHIPHGLSNALVLPHVLRFNAPDAGSV
+YAEIAADAFPHLDAVEGTQARTAAFIDALADLSARVGLQTRLRDVDIPKDAIDKMAADAM
+LQSRLLVNNPRAVSQSDAHTIYTAAW
+>tr|B7RSA8|B7RSA8_9RHOB
+MLRTAVYATTALGLSLSAAAAAPAVGLVGEKTLVIFDTETLEVSGSMEVSGVDSLLGIDL
+RPSNGTLVGVTPEMGIVSIDTATGEATEMATMDTALPVGEMPVIVDFNPAADKLRFMTGT
+TNHRVDVDTGAVTVDGSLDWQEGDMHVGEEPSIVAAAYINSYGKPEATKMYDIDSTIVAV
+IQQVSPNDGTLGAIGKLGIDSPADTYAFDVQTNDAMENMAWLVNGNMLYSVDLETGAATD
+AGMIKGVDGDIRDITILPAM
+>tr|B7RRF8|B7RRF8_9RHOB
+MPTKSILLVTALSITAIYPANAATQMTPVWSSLADTHVDVSDFAINDFDANIVHVKNDKD
+KGGGHKNAGKGTEKKKGHGKPNDKKVGKKAEGNPGKGNKPAKANDHKGNDHKVVKNNGKA
+DHKNEKHDKRVKRSQEDRVIASQQLLEVQPPQGRDMVTLLSAVPLALLGQDVIFQDIDDD
+RLLTYRNCPPGLAKKDPPCVPPGLAKDGVTYDQWVSYDDDELERVYVDRRDHYLRTQNIE
+VRNIDEIDDSGLLLNSDQVARLYDLAPAPRGSRYALIDGMPVLLEDRNYTALARINDMAR
+VPILDNGVQVAPTAALTQAELMQAYRLPPLDPGYSYTVMNGEVLALENDAFETLQLIRIA
+RAVF
+>tr|B7RKA4|B7RKA4_9RHOB
+MMQIIKTYFDAFNAGDVDGMLACLSDDVAHHVNEGDIRIGRDKFADFCSHMNRCYAEQLT
+DMVIFASEDGARAAAEYVVNGTYKATDEGLPEARGQTYEISAGSFFDVQGGKITRVTTRY
+NLTDWIAQVS
+>tr|B7RPP0|B7RPP0_9RHOB
+MLDAPCSATGTIRRHPDLPHAKDGSEFGELIELQAELIDHAWSLLNPGGRLVFCTCSLLP
+DEGEVQVDEALERHSDMSVDQSALSVPGIDPSWISSEGGLRLRPDYWADLGGMDGFYIAC
+LRKAD
+>tr|B7RJX9|B7RJX9_9RHOB
+MFYKDERLALFIDGSNLYAAAKSLGFDIDYKLLRQEFMRRGKLLRAFYYTALLENEEYSP
+IRPLVDWLNYNGFSMVTKPAKEYTDSMGRRKVKGNMDIELAVDAMELAPHLDHIVIFSGD
+GDFRPLVESLQRQGVRVSVVSTIRSQPPMISDDLRRQVDNFIELEDLRDVIGRPARETVD
+D
+>tr|B7RP04|B7RP04_9RHOB
+MGPFPHDAEKSKITADNPAGTDGFEFVEFASPEPQELRDLFTRMGYTHVANHKTQQIELW
+QQGDITYVLNADPDSFAAGFVKDHGPCAPSMGWRVVDADHALAHAVSKGAEEYTGSGKVL
+DVPAIKGIGGSLIYFVDQYYDTSPYNEEYDWIAQSKPAGVGFYYLDHLTHNVFKGNMDVW
+FKFYGDLFNFREIRFFDIEGKFTGLTSRALTSPCGRLRIPINEDRDEKGQIVAYLKKYKG
+EGIQHIAVGARDIYDATDAIAENGLKFMPGPPEIYYALSTTRVTDHQEPLERMKKHGILI
+DGEGVVDGGETRILLQIFSKTVIGPIFFEFIQRKGDDGFGEGNFKALFESIEQEQIDSGD
+LKTA
+>tr|B7RLD6|B7RLD6_9RHOB
+MEKRDDVMAKGPILFDLEEDATPRPSVSDAPPVPDVGMAAAQGQAMQIAARLAARKPSKL
+VWLFWWLLTALIGALVSIAAWNFITGLMASYPLIGLAMSILIGALLLVLALISLRELAAF
+SRLARLDGLHHDVAEARAQDDLEAARSVTDRLVGLYKGREDTRWGRDRLAELRGDQLDAG
+ALLALAEAELLGPLDIAASREVEAAARQVATVTALVPLALADVAAALTSNLRMIRRVAEI
+YGGRSGFFGSWRLTRVVLSHLVATGAVAVGDDMLEPILGGTVLARLSRRFGEGLVNGALT
+ARVGVAAMEVCRPMPFSEGRRPKVRSIIKRALSGLFGKGSQAGE
+>tr|B7RFM9|B7RFM9_9RHOB
+MRVTAFLIVLTVVAFAGAYWLASRSLPDYDDTVVVPNLRAEVEIVRDNANVPHIFAQNDL
+DVFYGLGFAHAQDRLWQMIVMRRTVQGRLSEVFGSRTVRIDRLLRRFDLATLAVQSVDAL
+DPQTRASLDAYAAGVNARLDQINSEALGRGAPEMLLFDTPVAPWRAADSVALVKLLALQL
+SGHLDAEVKRARTSLALPDLDRLVDILPDSPGSGIAALPEYAALVPGVPQFAENIPLDPS
+PLSPFKSFDLAGASNAWAAARDRSASGGTLLANDPHLGFTAPSVWYLARLELQSGGVIGG
+TIPGIPVVLTGRSAALGWGLTSSYADDQDVYIEELNPDNSEEYRTPDGFKAFVKRASIIT
+VKDADPITLTLRWTDNGPVLPGSHYNLAAITPPGHVASLNWTALSPKDTSIAAAMAMMEA
+KSVREGIAASASYIAPSQNVTFVDRETIAMKTIGALPARDPGHQSQGRMPTPGWIAENRW
+QGTLPFSANPEFIAPQGGILGNTNNKTVERPFPNHVSYAWGDTQRIQRWRNLMQRRQVHT
+RDSFIEAQLDTVSFTARGLLPLIGAELWFTGETAPEGTAERQRQRALVLLAGWSGEMNEH
+MPEPLIYAAWLRALQARLIQDELGPLAAEFDHVEPLFIERVFRNVDGAAVWCDVLQSAPV
+ETCPEMALLALDDALIWINETWGGQLESLRWGDAHQATHDHQTLGNVPLLRYFVNIRQST
+SGGDNTLQRGRTAGSGPDPFFNVHGAGFRGVYDFADPDSSVFITSTGQSGHFLSRHYDDL
+AQLWRRGEYIPMSLDEGLARAASVGITKLLPAAP
+>tr|B7RIS4|B7RIS4_9RHOB
+MSSALPEYYFRVRENGAAVFRVDSENRQRRIEMDQIAIVNIRNGEIKPQGDRVLSDADVA
+QIQTWMDERRQVLAHRDMDDIHRAVDYLNLTTQWVQAKASDDQLDAVTDALLLAMHDLRS
+TLVRKKADRMTSD
+>tr|B7RKN6|B7RKN6_9RHOB
+MAYKLVSADGPQSVPALLHRNAKQFANAPAYREKEYGIWQSWTWSQTRDEVEALALGLLE
+LGANEGDFIAIIGRNRPYLYWAMMAAEMVGAVPVPLYQDANAEEMAYVLEHCGARFAIVG
+DQEQVDKVLEVQDQLSQFERMIYLDPRGLRKYDHAALDQYSAVQDLGRKTRDKHIKELEA
+RQAKLNYDSTGVMLYTSGTTGKPKGVVLSNRNIIETAKSSSEFDHLRQTDDILAYLPMAW
+VGDFIFSVGQALWTGFCTNCPESADTMHVDLREIGPTYYFAPPRVFETQLTSVMIRMEDA
+SRFKKWLFDTFMGIARRVGPDILDGKPVGFMDRLKYGLGELMIYGPLKNTLGLSRVRVGY
+TAGEAIGPEIFDFYRSLGINLKQLYGQTEATVFITAQPDGEVRSDTVGVTCPGVELKIAD
+NGEVFYRSPGVFVEYYKNPESTADTKDAEGWVATGDAGFIEESTGHLRIIDRAKDVGKMA
+DGSLFAPKYVENKLKFFPNILEAVVFGNGRTECTAFINIDLTAVGNWAERNNIGYASYQE
+LARHPQVMDQIQSHVEEVNASIAEDEMLSGCQVHRFVVLHKELDADDGELTRTRKVRRKV
+IGEKFEDIINALYDGSSSVSTVTEVTYEDGRKGSISATLEVRDAKVFADNRKKAAA
+>tr|B7RPA4|B7RPA4_9RHOB
+MPYEWKTAPTAATQELHLWPHQSLPPKGFAAFILTTFTLILIPTLPLLGTPLLWGLLPFM
+LAAVGGVYFALQGNHKARQIEEVFTLTDDTVHLIHTTPKGDVMEWDCNRYWTVVTKYEKD
+GPVPHYVTLRGKGREVEIGKFLSEEERIALFDELNRSLLR
+>tr|B7RFL0|B7RFL0_9RHOB
+MSTIDSLPPLRDVINTHDLKARKSLGQNFLLDLNLTARIARHAGDLTACDVLEIGPGPGG
+LTRALLSEGARHVLAIEKDARCLPALAEIADAYPGRLTVIEGDALDIDPLAHLKPPIRIA
+ANLPYNVGTELLVRWLTPPDWPPFWESLTLMFQREVAERIVAKPGSKAYGRLALLAQWRA
+DARIVMHLPPEAFTPAPKVSSAVVHLTALPEPRFPADPAILSRIVATAFNQRRKMLRSAL
+KGVAPDIEDRLIAAGLKPTDRAEQIPLEGFCALAREIAKL
+>tr|B7RIA6|B7RIA6_9RHOB
+MSKVIKGGMVCTADRTWKADVLIEGEIIKQIGEDLVGDEYIDAEGAYVIPGGIDPHTHLE
+MPFMGTTAAETFESGTWAAAVGGTTMIVDFCLPGADGSIKNAINEWHRKSAPQICSDVGY
+HMAITGWNENVFDEMKDAVDMGVNSFKHFMAYKGALMVEDDEMFASFQRCAELGALPMVH
+AENGDLVAALQEKYFNQGITGPEGHAYSRPPELEGEAANRAITIADAAGVPLYIVHVSCE
+QTHEAIRRARQKGMRVYGEPLIQFLTLDESEYFNKDWDHAARRVMSPPFRSKDHQDSLWA
+GLQSGSLQVVATDHAAFSTAQKRAGKDDFRIIPNGSNGLEERLAVLWTEGVETGRLTPNE
+FVAATSTNVAKILNIYPRKGAIVEGADADIVVWDPKISKTISPANHHSVLDYNVFEGFNV
+TAQSRYTLSRGEVIWAWGQNSQPNPGRGRFVPRPAFPSANLALSKWKELTAPKMIKRDPL
+NIPAGI
+>tr|B7RIJ8|B7RIJ8_9RHOB
+MTLTRRRFISISAASLVAAPAFAQRWQGRALGAEVEITIRGPKDIAVPALKAARDLLTRV
+EAQFNLFDDNSRISKLNRSGRLVRPDAMFTSLMQLSGAIHTATCGLFDPTVQPLWRALAE
+GGDIAKARALIGWERVQHDRDLIKLDAHQALTFNGIAQGFATDRIAELLGAAGLADTLVN
+IGEFRATGGPWTLGLSDPVLGHLGTRTLRSGAIATSSPMAVPLMGQGHILHGSVRPRWST
+VSVEARDATTADGFSTALTLAPLSLIRAVVGQFGIRAITLVDQQGQLMTIKA
+>tr|B7RHP6|B7RHP6_9RHOB
+MTAPTLRSYLMQNAYDPDLVFLLEDIATASRAIASLVRTGAFEGNLGSAGQTNVQGETQK
+TLDIMANDVFERECANSPRLAALVSEEVEEVTWLKEPKIGDYLLYFDPLDGSSNLDVNLS
+VGSIFSVMQVQADGDRNVLHAGRNQICAGYAVYGPSTMLVITQGDEVAGFSCQPDTGEFC
+LTHPKMTVPAETSEYAINTSRARYWHDPVKRYVDECVAGKEGPRGRSFNMRWTASMVADI
+HRILIRGGVFLYPADSNNQKAGGKLRLMYEANPMAMIIESAGGGASTGFGPILEVDPEAP
+HQRVPVILGSRDEVALLAQYHSDASAT
+>tr|B7RKQ7|B7RKQ7_9RHOB
+MTRDIQIEPLTKAAFAPFGDILDASGSPDKIINAGLCGRHHDKAVLDFGPDGRAGISIFN
+AEARRLPYVLDLLERHPEGSQAFLPMTGEPFLVIVAPDENGVPGRPRAFLTAPHQGVNFH
+RGTWHGVLTPLAEPGLFAVVDRIGASANLDEHPLDPPYVIRA
+>tr|B7RS65|B7RS65_9RHOB
+MKDLDHAPAVPRAVNWNRIQDDKDLEVWNRLTVNFWLPEKVPLSNDVQSWATLKPDERTL
+TIRVLTGLTLLDTIQNTVGAPSLMPDAQTPHEEAVLTNIAFMEAVHARSYSSIFSTLCST
+KEVDDAFRWSEDNPHLQAKSRLILQEYNATADPLKRKIASVFLESFLFYSGFYLPMYWSS
+RAKLTNTADLIRLIIRDEAIHGYYIGYKFQRATEQLPQADRDALKDFAFSLMFDLYEIEA
+HYTAELYDDLGLTEDVKAFLHYNANKALQNLGYEALFPAQVCEVNPAILAALSPDSENHD
+FFSGSGSSYVIGKAVATEDEDWDF
+>tr|B7RJM5|B7RJM5_9RHOB
+MKQGGAVYAAMFFMATSAWDAGLSGLWLSGFDAKSVEVSTTVFNVSAPTAFSKKIRGP
+>tr|B7RP43|B7RP43_9RHOB
+MSDTTRLNPATIAAQAAGAVDAQSGGVVPSLQMATTYLRDAAYQPLRPDNIYLRDQSDIV
+RVAETVLAQLEGAAEALLFPSGMAALAAAFRTVPNGGRVLVQSQIYWGTTKWLRDFCTRR
+AIDLREVEASDAQAFAQACADFKPSLVLVETPSNPWLRVTDIEAAAQAVHAVGGLLMIDS
+TAATPVLQKPLAHGADIVMHSATKGINGHSDVLAGVLATNDTDAQIWTDIKADRHDAGAV
+IGPFEAWLLVRGMRTLPLRMREMSRNAQAIAEFLDAHPLVETVLYPGLPDHPGHKIADRQ
+MAGGFGPLLSFVVQGGADKALQVAGRLQLFHRATSLGGVESLVEHRHTIEPHTGIPEGLL
+RLSVGIEDINDLTADLQQALGN
+>tr|B7RQY0|B7RQY0_9RHOB
+MTSAVANPDVLNIDLQGDIAVLTMTRPDKRNAMSDGLLGALKAFFMDPPKEARAVVLTGT
+AGHYCSGLDLSEHVKRSTEETLYHSRNWHGVMDMIQFGGLPVVSAIFGAAIGGGLELATS
+THVRIAEPSTIFQLPEGRRGIFVGGGATVRVGRILGADRMTEMMLTGRKFNAEEGVQLGL
+AHYAVGEGESLAMAMDLAGKIARNAPMSNYMMINSISRIEDMSKADGLYVESLSAAVSQS
+GPDADEGLRAFLEKRAPKFR
+>tr|B7RH37|B7RH37_9RHOB
+MALALSLGRRGQGTVWPNPAVGCVIVQGDRIVGRGWTQPGGRPHAEPEALAQAGAQAVGA
+TVYVTLEPCAHTGKTPPCAQALIDAQVARVVIACADSDPRVSGKGIAMLQAAGIAVDTGV
+LEDEARKDHIGFLSRIDIARPMVTLKLASSFDGRIATATGESQWITAGPARRLVHAMRAR
+HDAVMVGGGTARQDDPSLTVRDIGITRQPARIVVSSRLDLPLSGKLAQTAALIPVILCHA
+TSADPHLVTTWQQLGATLIPCATRAGQLDPADILRKLADHGLTRIFCEGGGGLAASLLQA
+DLVDHLVGFTAGLAIGADGLPAIGPLGLSQLGKAPRFSLEYTRAIGPDILHSWSRT
+>tr|B7RHW9|B7RHW9_9RHOB
+MYASIRGHLTVSDRLFPILSVSYCVLLKGSDRVRKPCAALLEKWGMLRGNEIRPAP
+>tr|B7RJP3|B7RJP3_9RHOB
+MLWSLIKIVVFVVAIAALTWGASFLLESSGGLQVTVMGTEFSFGPLQSVIAIIVLVIAVW
+LVLKIISLLIAVWHFLNGDETALSRYFDRNRERKGYEALSEGLMALASGEGRLALSKAAK
+ADKYLERPELTNLLIAQAAEMAGDKRKAEETYKKLVANESTRFVGVRGILKQKLAEGDTD
+TALKLAEKAFALKPKHADTGDILLKLQAEKEDWSGARETLNTKLKNGQLPRDVHKRRDAV
+LALSEAKDVFTEGHSIEAREAAIEANRLSPDLIPAAVMAAHSYIDQGKPKYAARLLKKAW
+SVHAHPDLASAFAAIAPDETPKERLKRFTALTRTQPDDPETKMLLAELNIANEDFPEARR
+SLGNLVETDPTARSVTLMAAIERGEGASDTVVKGWLARALTVSRGPQWICDNCQHIHTNW
+KPICDNCHSFDTLAWKTPPMSEVAMPGGVQMLPLIVGAIEDNSGADAKPPVATRADIEEA
+ELIVDTDEVSEKPKEPEVTTEK
+>tr|B7RIV0|B7RIV0_9RHOB
+MKRVIALVFAGLFAATASAQSATEPQETDLFLQADMDDLSEFHWKKRPVLVFADSEDDPA
+FQAQMELLREQPDDLRARDVVVLTDTDPAARSPLRLKMRPRGFMLVLVGKDGEIKLRKPR
+PWDVREITRSIDKMTIRQREIRDAKEKSGKIFD
+>tr|B7RPG5|B7RPG5_9RHOB
+MSITGPDGMIVANDVTLTKSQAQAFRAIGKKRRSKAWPAGEYLGDVTMVRGTQIISRQTT
+SLTIE
+>tr|B7RFT4|B7RFT4_9RHOB
+MIPAPAAQAQNYQFNTVQINGNERIGDSAVLSRAGIARGRAISGGQLNDAYQNLLASGLF
+ETVTIEPRGNTLVINVVEYPTINRISFEGNARIKDEALAALIGSNERRVFNPSQAEKDAN
+AIAQAYSNEGRIAARVQPKIIKRSQNRVDLVFEVFEGDNVEIERLSFVGNRVYSDRRLRR
+VLGTKQAGLFRRLVKRDTFVAERTDLDRELLRTFYLSRGYVDMRISAVNAQLTEERDGYF
+VQFNVQEGQQFNFGQLTVTSTINGVDAQDYMDVIKTRSGAVYSPSLVETDIARMERKAIR
+DGVDFLRVEPVITRNERDLTLDVEYRITRGPRVFVERIDIEGNTTTLDRVIRRQFDSVEG
+DPFNPREIRASAERIRALGYFETAEVNAREGSSPEQIVVDVNVEEKPTGSLNFGGTFSSN
+DGVGVAISFAEDNFLGRGQKLSLSVSTATDARRYGLSFVEPSLLGRDVAFGLNLDYAETN
+SSFASFDTKRFIFQPSLSFPVSENGNLTLRYSYDDLEMIERTTPVNGPVIADDISAGAQV
+ASSLGYTYSYDTRRTGLDPTAGYLVQFGQDFAGVGGDSKFIKTTAKVIGEKRILNEEVTL
+RASLEGGALAWSEGNNRVADRFLIGPSVMRGFESGGIGPRDQSAGFDDPLGGNMYVVARF
+EAEFPLGLPEEYGIGGGVFYDVGNVWDLADVNYNGGTVVGESGSFRHVIGLSLFWDTPVG
+PLQFNVSKALKKEDFDQEQKFEVTLRTDF
+>tr|B7RI15|B7RI15_9RHOB
+MKRLKRLGIDAYMLLLLATVLAGIILPAQGASADVLGHVTYWAVSLLFFLYGAKLDPRGV
+RDGFLNWRLQGLTFGATFVIFPIFGLIIAAVVAPVLGATLALGLLFLAVLPSTVQSSIAF
+TSIAQGNVAGAIYAASVSNLVGVFLTPALVALLLHADGGGVRIEAIVKIGVQILLPFVVG
+QVLRPFVGRLVQRHKVITQVVDRGSILLIVYAAFSASTVAGLWADIPLATLVILLFVIVI
+FLAVVMGAMVLIGKISKMSYPDRTALFYCGATKSLASGLPIATALFASDQVGAIVLPLMM
+YHMLQLLVSAYLSQKAL
+>tr|B7RIE1|B7RIE1_9RHOB
+METMEPQAPKHATMADCDAALDHILAAPTSGATIGQLCFRPDFGLRTFPEALDMTVNHGI
+IGERWTKKPWLTLPNGDPDPRIQVSILSQRVMDLCWRDQANTVHPGDPIVVDMNLGAANL
+PVGTRLRAGSAILEVSDKFNNGCIKWRERYGNDSLRWINKRENRDFHLRGILCKIVQDGT
+VKVGDQLIKL
+>tr|B7RJ80|B7RJ80_9RHOB
+MAQISKGTKVEWNWGQGTASGKVKEVFTESVTRTLKGNEVTRDGSDDTPAYLIEQEDGDE
+VLKLSTEVEAC
+>tr|B7RJJ5|B7RJJ5_9RHOB
+MAKVIGIDLGTTNSCIAIMDGSQPRVIENAEGARTTPSIVAFTDDERLVGQPAKRQAVTN
+PENTIFGVKRLIGRRNDDVDLAKDKKNLPFKVIDGGNGDAWVEAKGEKYSPSQISAFILG
+KMKETAESYLGEEVTQAVITVPAYFNDAQRQATKDAGKIAGLEVLRIINEPTAAALAYGL
+DKKETQTIAVYDLGGGTFDVTILEIDDGLFEVKSTNGDTFLGGEDFDMRIVNYLADEFKK
+TNGVDLTQDKMALQRLKEAAEKAKIELSSASQTEINQPFISMGKDGSPLHMVMKLTRSKL
+EQLVGDLIKSSMKPCAAALKDAGITASEIDEVVLVGGMTRMPRVIEEVTKFFGKEPHKGV
+NPDEVVALGAAIQAGVLQGDVKDVVLLDVTPLSLGIETLGGVFTRLIDRNTTIPTKKSQV
+FSTAEDNQNAVTIRVFQGEREMAADNKILGAFNLESIPPAPRGMPQIEVTFDIDANGIVA
+VGALDKGTGKEQKITIQASGGLSDADIEKMVKDAEDNADADKERRALIEAKNQAESLIHS
+TEKSVEEHSDKVDPTTVEAIELAIAALNDELETDNVEKIKSGIQNVTEAAMKLGEAIYKA
+AQDSNEDVAEAADAPHGDDDIVDADFEDLDDNKRA
+>tr|B7RRN3|B7RRN3_9RHOB
+MSGEWPDGTPFDGIRFIDRFEVTDGHLTRQDVWNDIAETKAKQ
+>tr|B7RGE8|B7RGE8_9RHOB
+MEITASHQYQLHAHILDDWGLDKLAGKMREEQVEEIGHSDLFIERVLFLKGDPEIAFEKA
+PKRAATLVEMFKADLADEEEAIEFYLKAAKQAYDENDVGSRTLFERIALDEEGHKSWLEL
+QLELIERLGEKAYSAKLVSSPNVAGANAENA
+>tr|B7RLG3|B7RLG3_9RHOB
+MMNFIKNFRKDDSGAVTVDWVVLTAAVVGLAVAAYSSIETGASNLTSDTNSFMATQKPT
+>tr|B7RI95|B7RI95_9RHOB
+MTDPVFQLQDASLKLNGNAGQVEILHGITLNVAQGETVAFTGPSGSGKSSLLMVMGGLEK
+ATGGTVRALGEDLTAMTEDGLAKFRRGRMGIVFQSFHLIPTMTALENVATPLELNGVADA
+FDRAEAELYAVGLGHRLNHYPAQMSGGEQQRVALARASAPRPAILLADEPTGNLDSTNGA
+AIMELLFDLREQHGATLVLVTHADDLAARCDRVVTLTDGRIV
+>tr|B7RND1|B7RND1_9RHOB
+MTPDSQLAQVISLSDKRLVKDVPNLHMAPHMGSAILRDALPDAPFDAAATGFVLACLPDS
+KDPVLWIQDRMSRRENGRLYGPALRRFGFNGHILRVEVSHPRDVLWAMEEGASCAGLSAV
+VGEIHGAPEVLSFTATKRLALRAESSGVPLWLIRSGDHGALSAARERWRLRSVPSGPNRY
+NAQAPGTPMWEADLFRARGLAPGVWTASYDGAAGRSTDRLSLLPRSGDGALAADHRPASH
+APGG
+>tr|B7RPW2|B7RPW2_9RHOB
+MRGRFIAMVGPSGVGKDSVMEAMVARDPRIFLARRVITRPADAGGEIFEGVTPEEFEARQ
+AAGQFALSWSAHGLHYAIPVSVKAALANGQDVLANLSRTALIRAQGHFGPFEVINLTADH
+DILADRLARRGRETAEQIHDRLDRIAAPLPQGMTIHEIDNSGALAQTVQIALDRLYPVRA
+>tr|B7RHY8|B7RHY8_9RHOB
+MLIKVGDDRTSNIDLVLAGLLSSMAGALNAVGFLIAGSFTANMTGNISAFADHLAGGAIL
+ISLSFIGLVAAFIGGASMAALAIQIGEKRQIRSIYALAIAAEAVILLLLGMALALSSANT
+HETFLVVALSFVMGLQNAVTTMISRARVRTTHVSGMATDIGIELAALFGNNGSQKDTVRK
+VRLHSLTLASFAIGGVCGALLFHLVGSWLFVIVAIVLLTIALPEALRAHRN
+>tr|B7RJN7|B7RJN7_9RHOB
+MPELSLPDVTLHYEVDGSGPPLLMIAGMVSDSASWAPLVPLLSPHFTLIRPDNRTTGRTV
+PVDAPVSVDLYARDCAALLTHLDIPRAHVIGHSMGGMIALELMHASPDTIASLTFAATAP
+IRLTRNLALFKALLTIRQSDAAPDTWLHAFFPWLFAPAVYDIPGAVDAAAAASLTYAHAQ
+SVGGMAHQLNALEGYRPTALPSPLPVPTQALLAGDDMLIPLAMAQQALAGVTTHIVSDAG
+HSIHWDAPQAVADHLKDFAAKHPIKGAV
+>tr|B7RLJ6|B7RLJ6_9RHOB
+MITRSHIKGDAPSTAVYSDCETYRYSLTRVWDPAGSRVLFVMLNPSKATEVDNDPTVERC
+ERRARALGFGAFQVANIFAFRETDPKLMRQAADPVGPENDRILRDGVAWADRVIAAWGTH
+GAHLGRGADVTRLLRSLATPVYHLGLSKAGHPKHPLYISYSQHPEIWTP
+>tr|B7RMZ1|B7RMZ1_9RHOB
+MQTSNLAPIPELYVSYDSAQKLKVEAGNLVSHDLTPRQICDLELLMNGGFNPLKGFLTEE
+DYNSVVENMRLADGSLWPMPINLDVSDKFAEGLEIGQDIALRDQEGVILAIMTVTDRWTP
+NKANEAEKVFGADDSAHPAVNYLHNTAGNVYLGGPVTGIQQPVHYDFKARRDTPNELRTY
+FRKMGWRKVVAFQTRNPLHRAHQELTFRAAREAQANLLIHPVVGLTKPGDVDHFTRVRCY
+EAVLNKYPAATTSMSLLNLAMRMAGPREAVWHGLIRKNHGCTHFIVGRDHAGPGNNSKGE
+DFYGPYDAQDLFREHQEEMSIEMVDFKHMVWVAERAQYEAMDEIKDKEDVTILNISGTEL
+RRRLQEGLEIPEWFSFPEVVAELRRTKPPRNKQGFTVFFTGFSGSGKSTIANALMVKLME
+MGGRPVTLLDGDIVRKNLSSELGFSKEHRDLNIRRIGYVASEITKNGGIAICAPIAPYAT
+TRRAVREDVEDFGAFVEIHVATSIEECERRDRKGLYKLAREGKIKEFTGISDPYDVPENP
+ELSVETENVDVDNCAHQVLLKLESMGLIKA
+>tr|B7RME5|B7RME5_9RHOB
+MAKFGIQLLDKALSARVMRRWAKKANAAKDVDLETLRKQSGRARVLKAHLDHLIHVAEER
+LSLPMVGSKKFFKPHSADWSWRPQLWRGPLPTPGMSSVPSKAVLGDEVTIFHDCSLAELG
+MRQLRNLREADLAPYGLRLDVFRFGGSFLSLVLDLPDGCVNGLKRTHLLRMDTIVEMEKP
+IEIFARLNIRHGPNTEQIVRELPLDQQDITVEFDLAYSNLNEKRVEKAWIDLIFEDPEMN
+EIVLRDLTFSRRPRAQL
+>tr|B7RMW7|B7RMW7_9RHOB
+MAQTSEPKLISGNANMPLAKAIARRMSLHRGVNVGLVDARVERFNDSEVFVEVFENVRGE
+DMFIIQPTSNPANDNLMELLVMADALRRSSAARVTAVLPYFGYARQDRRTKARTPITAKL
+VANMMVGTGIERILTMDLHAAQIQGFFDIPVDNLYASPVFALDIKNEFKDRMGELMVVSP
+DVGGVARARELAKRINSPLAIVDKRREKPGEIAEMTVIGDVTDKICLIVDDICDTAGTLC
+KAAEVLLENGAKEVHSYISHGVMSGPAVERVSNSVMKSLVITDSIQPTDAVKQAQNIRIV
+PTAPIFAQAILNIWNGTSVSSLFDAESLEPIYDGMYKAL
+>tr|B7RNP7|B7RNP7_9RHOB
+MTRASIAIVGAAETTRMGKVPELSQTGLHADAALNALADCGLTLADIDGVATAGHDVAEI
+IQYLGITPTWYDGTSVGGCSFITLVRHAAAAIETGLCKTVLITHGESGRSNNRSHRPLFP
+SMQQQEFESIYGPLFPPSRFTLPVMRKMKDDGLTVEQIAMVAVVQREWAALHPRATAHDP
+LTVDDVLNSKMIAYPFRKLMCCLVSDGGGALILTSADRAKDFPTKPVYLRGMGGESAEGP
+MISQMESFSSSKAFRVSGKMAFESAGITHSDVDHLMIYDAFAHLPIYGLEDLGFVKPGEG
+GAFIAEGHTRPGGALPLNTNGGGLSYMHSGMYGMFALQESVRQMRGVSPAQIKDAKLSLV
+HGVGGMFSAAATAVLTSEDQW
+>tr|B7RPY8|B7RPY8_9RHOB
+MTDLATHLATLKTHLARYRDKGILNLINGKNVEGLETFETHSPVDESLICTVAKGTAGDI
+DAAARAAKAAFPAWAALEGSARKKILHKIADGIVARSEEIALCECWDTGQAYRFMSKAAL
+RGAENFRYYADMAPTARDGQSLPTNSHMNVTSRSPIGPVGVITPWNTPFMLSTWKIAPAL
+AAGCTVVHKPAEFSPLTARILAEIAHEAGLPAGVWNLVNGMGEHAGRALTEHPDIKAIAF
+VGESKTGSMIMKQGADTLKRCHFELGGKNPVVVFDDADIERALDATIFMIYSLNGERCTS
+SSRLLVQDTIADAFEARLVERVNTIRVGHPLDPATEVGPLIHKVHYDKVCSYFDIARTDG
+ATVAAGGDAQAGKGWFVKPTLFTHATPKMRISQEEIFGPVLTSIRFKDEDEALRIANDVD
+YGLTGYVWTNDVTRALRFSGALDAGMIWVNSENVRHLPTPFGGTKASGIGRDGGQWSFDF
+YMEQKNVAVALGQHKIARLGA
+>tr|B7RN96|B7RN96_9RHOB
+MTPDLPTLYEAIDQTWPAARRWTEQGWTLRDGQGGGKRVSAASQAAPDADIDVAEAAMRA
+MGQTPLFMLRHGDDALDEALAGRGYSIIDPVNLYVLPVDQLTDVPIPPVTAFEIWEPLAI
+MLDVWAQGGIGPDRINVMHRAAQKTAILSRWKEKPGGVAFAAIHDGVCMVHAVEVLEHQR
+GMGVGKWMMRRAAHWAQAQGATHMAVLCTKENVPANRLYQGLGFAHVGDYHYRQSPD
+>tr|B7RJL3|B7RJL3_9RHOB
+MTIFKSIAIASALVAGTAATAQEKFITIGTGGQTGVYFVVGQSICRLVNRDSATTGLKCT
+APSTGGSIANINAIKAGDMDMGVAQSDWQFHAYNGSSQFEGDKFDKERAVFSVHSEPFTV
+IARADAGIESFDDLKGKRVNVGNPGSGQLATMEVVLAAKGWTMDDFALASELKPAEQAAA
+LGDNKVDAIIYTVGHPNGSIQEAVSTVDAKLVPVEGEAIDKLVADNPFYAYATVPGGMYK
+GTDSEVKTFGVKATFVTSSDVDDEVVYEVVKAVFDNFDRFKKLHPAFENLKEEEMIKDGL
+SAPLHDGAVKYYKERGWME
+>tr|B7RM54|B7RM54_9RHOB
+MPDIVEINDLRKAYADGFEALKGVTLKIKQGEILALLGPNGAGKTTLISTVCGITTATGG
+TVKVGGHDTITDYRAARGMIGLVPQEINLEPFEKVISTVRFSRGLFGKPKDDAALEKILR
+QLSLWDKRDSQIRALSGGMKRRVLIAKALAHEPRVLFLDEPTAGVDVELRRDMWEIVAGL
+KADGVTIILTTHYIEEAEAIADRIGVIAHGELLLVEDKNKLMARMGKKQLQVHLTKPIDA
+VPASLVSDALTLSEDGSTLIYTYDTRAERTGITKLLSDVAAAGLVLTDLETSQSSLEEIF
+VDLLKEDAA
+>tr|B7RNM6|B7RNM6_9RHOB
+MLLAAGSGAQVAITQVALGDANGASYVGDFAQTALRNERIRVPIETRHIIDPNAWRVRAE
+FGADTVAFDVREAGFYDEDGDLIALCTFPAEEVRRTGGIVYLIDHVLSFSRVADGLIIAD
+APDDDLFDLSVTVALALANLQVEQLRQADLIDSLLDQ
+>tr|B7RNI2|B7RNI2_9RHOB
+MPSDIHVKFCGLRSIADIDAAAQAGARYVGFVFFAKSPRNVTLEEAATLALEVPQGICKV
+ALTVNADDAFLDALTATVAIDMLQLHGHETPERVAEVKARYGLPVMKAVGVADASDLPQL
+ETYMRVADQILVDAKPPKGADLPGGNGLAFDWRLIAGRRWPKPWMLAGGLTPENVAEAAR
+MTGARQVDVSSGVEATAGVKDAALIAAFGKAAKA
+>tr|B7RFK9|B7RFK9_9RHOB
+MTSPDSFSDRPVVISCGEPSGIGPEVAARAWAKLAGELPVVWLGDPRHLPRDIPHVVIDR
+MDHALSAGKDALPVIAHPFMADAVPGQPDPANAQGVIDVIARGVAMVRAGQACALTTAPI
+HKKALKDGADFAYPGHTEYLAALADIDDVVMMLASDQLRVVPATIHIALDQVPTALTPAH
+LRRVIEITAAGLQRQFGIAKPRLAIAGLNPHAGEGGTMGRQECDWMIPLIRDMQAEGYDL
+IGPLPADTMFHAAARARYDAAIAMYHDQALIPIKTLDFDRGVNVTLGLPFIRTSPDHGTA
+FDIAGQNIANPSSMIEAIRLAYKMAQS
+>tr|B7RHW1|B7RHW1_9RHOB
+MAKHNRNFELTIEDIDLIEAALHVTKRDLSMDLLEGTQAMLPADAAEDSLRKIDDLLGRL
+HNQKIFYRPSKGTYLGG
+>tr|B7RKB5|B7RKB5_9RHOB
+MHLKKITVRNFRRLKDVSIDFEESETVFVGPNNSGKTSATAAIRSFLSSRDFKIHDFSLC
+SLTAINAYDPAAQTAHPCIQLDLWFHIDPDAIEFGTVFALATDLSGDFTEIGIRCSLEVE
+DAVELWTKYDQAFPVQGDGQRKKTLVDFLALDGNLKAHFKPRYYSLEKSAAGVVQTPLEP
+SEGKKTLRSLLRVDFVDAQRNIDDENATRSNRLSEAFAAYYQRNLEQAEAAEEAVAVIEE
+NNQNLTAHYDQHFQPLMGIIADLGLPSHNDRAMKIVSTLSSEVALRGSAELFYVDATSSH
+ELPEAYNGLGFKNLVFMAIQIDNFYKQWLATDENRPLCQMIFVEEPEVHLHAQVQQTFIK
+QMWKVLTQGAGEAEPRPQLTVTTHSSHVLDAVDFSKIRYFRRVDLDDEGTGNTYPGSIVK
+SLKEFQPDAINVGDLEVSVEEALAFLKKYLRLIHCDLFFADAAILVEGAVEKLLLPKMID
+LAAGGLNAKYITILEVGGAYSMRFAKLLEFLGIPYLVITDIDSVDPANNRKGCKATDAGA
+VTSNASIKYFFDGSDLVSDLTAKPDADHIQADNMRFVSFQKAVAIEYGGASHNFHGRTLE
+EAFVYENHGLFSSGALSIGKDIPADAAEFHQLVWERIKSSTFKKTEFAMDVLARDPDVEG
+TAPWAVPDYIAVGLRWLEARVGDQPVAGELNA
+>tr|B7RR80|B7RR80_9RHOB
+MRTDEQIRDDIMAEIDFDPKVEATDIGVTVKDGAVTLHGTVHSYFEELAVIKAAKRVKGV
+HAVVEEIKIKYPSDTQVDDQDIAERIAHLCEWNTTFRKYDIKAEVKNGRVTLTGNVDWQY
+QRADVRDYVARLRGVTGVTNSITIRPHASQLDVKRKISEALHRSATLESSKINVDVADGQ
+VTLKGHVKAWYERKLAEDAAWSAPGVTRVVDQIQIS
+>tr|B7RS55|B7RS55_9RHOB
+MDIRFYLQRFLRRIHWFAQFLTLGGVGSLAAILFAPPIYAGHARLLMEAEQISDELAAST
+VRTQGAEQLELIRQRILRRDTLLDLAARMQVYPPTAGLTPSDPQDIVDDMRERIIMTIEG
+GRDSPTLATVGFKAQSPDLAGKVTTEIVDLILREDVDMRTKSAGKTLDFFTRKVARLGAE
+LDAQDALILNFTEQNKNALPDSLDFRRSQQTTGQERLLQMERQIGALQERRARLQRRQEL
+QTAAGSGPFQTPKQQQLDQLEEELASQSTLLSPENPKLRILAARAAALRARIWSDEGQDG
+AASEALEPLTDFALQQLEMARELAFLTAQKDGIVDGLADLSRSIEATTANAITLGNLRRA
+QANTRVQYDQTVANMARAETGDMIEALRQGQKLTVFEGVTVPLEPVAPNRRNFIAAGVLV
+GAALGLGVILLLESMNRAMRRPEDLTAALGITPFATLPYLKTRAEILRHRVYLVGAMAVV
+VVAVPFAFWVVQTQAAEKLKSMSFGTLIGLDATGGKEGTKW
+>tr|B7RIX2|B7RIX2_9RHOB
+MILALAILGTVALAAVALWSRPVRRSVTWAAMTTPLASIIGSGFLVLGPILMAHYGWLAP
+VVMAVLCGIAYLFGAAIRHNMRQIEAGDAMPKGLEAASSWALSFAYIVSVAYYLNLFGAF
+GVSLTPFDGALGAKLLTSAVYLLILTVGWTRGFASLERLEYVSVTIKLAIIAGLLVALAA
+FFWGKVQTGALVMIPMEMSGWAAVTLAFGLIVTVQGFETSRYLGASYDTRTRVRSMKWAQ
+WLSTLIYMVYIVLLAYVFRREELHFSETAIIDMMADVAPILPLLLVGAALAAQFSAAVAD
+TSGSGGLMSELSARRISVRTGYLLLTVIGLVLTWAADVFQIISYASRAFAFYYALQAVIA
+SLGAAKNGAQNRSIGFGALAFLGAAIAVFGHAVEG
+>tr|B7RNV3|B7RNV3_9RHOB
+MRAPISVIIPTLNAAADLSGCLTALMEGLDAGLIRELIISDGGSEDATLALADAWGAEIV
+TGPASRGGQLRRGCAKASADWLLVLHADTTLDPGWTGPVIAHLKGKKAGWFHLRFDSDGF
+PAGFVAGWANLRSRLGLPYGDQGLLLPRALYQSAGGYPDAPLMEDVSLARALKGRLVGIP
+VDAVTSAEKYQRAGWLRRGGRNLWTLIRYFAGVAPAKLAADYAK
+>tr|B7RGL3|B7RGL3_9RHOB
+MSDAGDLRAFLAEAWQHLERGVADSRSPARFPTFVTVSPEGKPQARTVALRAASRHDGVL
+EVHTDIATPKVTALGQNPHAALHVWLPDADLQIRLVATVEVLTGPTVAAQWAKVPVASRV
+SYGTEPVPGCPIPDVYAYEKPANRTRFAVLRCSVEEMDLVHLGSRHRRAVFGAGDAWAGT
+WVAP
+>tr|B7RGM6|B7RGM6_9RHOB
+MTDHTTRRNFLKMGAAGASVLPFLRAMPAAAQGADTLVVVNGQTVNSLDLHRTGTNRASY
+QVSVNCYDRLVSFGTKDVPSGGLSYDYETIVPELAESWSTSDDGLTITFKIKPNATFWDG
+SKVTAEDVKWSFDRAVSVGGFPTVQMKAGGLERPDQFAALDAETFTVILDRPSKLALPDL
+AVPVPFIINSAVAKANATTDDPWAMEYLHTTPAGSGAYKVLRWTPGEQLVYERNDDWAGG
+PTPAIKRVVVREVPSPATRRALIERGDVQVSFDIPDKDAAELADKLTVYSTPVENCINCV
+CLNTNFEPFQDANVRKALAYAMPYEAIFEASAYKRGAPLWGGDAEITDTAWPRKTQYSTD
+LDMAREHMAKSGFPDGFDVPLSISTDLAWMEPAALLIQESLAKIGVKTQIDKIPGANWRT
+AALVEKRLDLHLDNFGGWLNTPDYYFFWAYQHGHLFNSSNYLNPEVEELVNATLHMPMDD
+PEYAPKIKRMFEIVLEDLPRIPLYQPALNVAVNGAEGYEFWFHRQLDVRPLAAG
+>tr|B7RI16|B7RI16_9RHOB
+MKGHPMHLRHDAAYPSRRSPVLAENVVATSQPLATQAGLAILQLGGNAVDAAIATAAALT
+IVEPTGCGLGSDAFCILWDGEKLHGLNASGRSPAAWTPDRFAGEMPQHGWDAVTVPGMVS
+AWVELSEKFGKLDLETVLAPAIRYAEDGFIVSPVVGALWEKGAATLKDQPGFAATFMPDG
+RAPKAGERFRNPDAAKTLRAIAATKGRAFYEGEIAETIAAYAAANGGAMTVADLAAHHND
+WCGTISQTFDDVELHEIPPNGQGIAALMALGMLEHTAIRDCGPDDLLAVHLQIEAIKLAY
+RDLDAYVADRDHMGEVDETALLDPAYLKSRAALIESDRAQDFGAGAPKLGGTVLMNVGDA
+SGMMVSFIQSNYAGFGSGVVVPGTGISMQNRGFGFTTEQGHPNQVGPNKRPFHTIIPGFA
+MKNGKPLMAFGMMGGPIQAQGHVQLLLRTQLWGQDPQTAADAPRWRAIEGLDIACEPTMS
+AALLEGLESLGHAVRIEAPDNAFGFGGAQLVQRFDHGGYAAGSDPRKDGQAGGY
+>tr|B7RJ46|B7RJ46_9RHOB
+MRFDVTAKPDLSPDTATVQIRTVAVVFACACAVGACILVADADLQDGFQVWDIFRAVLIL
+LTTGWLAWGAALGLTGLWPKRRSVPPHAASSTASTVVLVPICNEDPVATFARIAAMDRSI
+HEAALHLDIVILSDTRSAENQAAEQAAFRMLITETNGAGHIFYRNRLENHGRKAGNVEDF
+IRKSGGAYDYAVTLDADSLMSGAALGEMIRQMDADPKLGLLQTLPQITGAQSFFGRAMQF
+AASFHGPIFTRGLERMQGSVGPYWGHNAIIRIPAFAQSCKLPELSGKPPFGGHILSHDYV
+EAALLARNGWRVIADSSIDGSFEEGPENVLSYAKRDRRWCQGNLQHMRLLLAPGLAGWSR
+FVFVQGIFAYLVSVFWAVFLISTVSGAILAPEPDYFPNAYQLFPVFPSDRSREILALALG
+IIGLLILPKFAILLNAAISGRACGFGGVYRSLVSVVSEILLTSALAPIMLAYQTRAVLQV
+LSRQDGGWPANARGEGTLTFADAARSSFWIVMIGMLALVATWLLAPALLIWLLPVTLPMI
+AAPLLISWSSKPLGPHPFITPTEIDVPPVVGAFREIHARWRSDLGAAEIHTARPTELTHV
+PT
+>tr|B7RG28|B7RG28_9RHOB
+MYDVNAIRRDFPILSRTVNDKPLVYLDNGASAQKPQVVIDAISHAYSHEYSNVHRGLHYL
+SNLATDKYESVRGTIAKFLNAPDEDEIVFTTGTTEGINLVAYGWAMPNLQAGDEIILSVM
+EHHANIVPWHFLRERQGVILKWVDVDATGALDPQAVIDAITPKTKLIAITQVSNVLGTVV
+DVKAITAGAHAKGVPVLVDGSQAAVHMPVDVQDIGCDFYAITGHKLYGPSGSGAIYMKSE
+RMAEMRPFMGGGDMIREVTKNNVTYNDAPMKFEAGTPGIVQTIGLGVALDYMMGVGMDNI
+AAHEAALRDYTVERLAGLNWLQVQGTTPDKAAIFSFTLDGAAHAHDISTILDKKGVAVRA
+GQHCCGPLMEHIGQTATCRASFGMYNTTAEVDTLIEALELAHDLFA
+>tr|B7RIE3|B7RIE3_9RHOB
+MCILRAVQLLLALTQMDGIVRNLCVERNVPSGPLSIIAL
+>tr|B7RLW0|B7RLW0_9RHOB
+MKKIVFLHIPKTAGQTVHSELSRIVGAETTSPVRVHTQAPSDGQFPAGYRLYSGHLDWDR
+LDDIGDNRFVFTILRDPFERIASFYFYLHHKSLALSESDLTLPENTGLSKIRHCSADDYF
+FGGTKDWQRFVLDHYDNFYCTYFATRKIRGAAELVTLSSSEILNQAYAGARVVDRIYGIE
+NLNALEDDLHQLTGQKAALTSTRINAGPGSRHTKRWPSLLERFESDGNRQRLADFAALDV
+ELIANLVKNGLMP
+>tr|B7RLI2|B7RLI2_9RHOB
+MAVKGEGVPETWYSYLVWGVFCFTLFKYSNSTLSPAKSPAFNTLAPPTVLPDDPCMSVGH
+DFTLAGAQLAALGSGALWWAKQRLLCVSDLHLGKSERIIRRGGSALPPYETRDTLARLEA
+DLEHHPAQTVICLGDSFDDLDAARALPEQERLWIARLQAGRRWIWVEGNHDPGPIDVGGS
+HLDEVSIDALTFRHIADPSCNGEVSGHYHPKASLSMRGRTVSRSAFLYDSERLIMPAFGT
+YTGGLRSTSDTLARLMLPGSIAVLTGPRPTAIPMPR
+>tr|B7RPL5|B7RPL5_9RHOB
+MISADLNVILPEIVLSLFAIFTLLVAVYTSKDGLAGALVWATSAVMVLLAIWIGMAGPAT
+TRIAFNGLFIEDGFARFAKVTILLSAAAVLMMSEAYMKSRGLLRFEYPVLVALSVVGMMM
+MVSAGDLMSLYMGLELQSLALYVVASLRRDSVKSTEAGLKYFVLGALSSGLLLYGASLVY
+GYAGTTQFAGIMTVAKSGETSIGLLFGIVFLVSGLAFKVSAVPFHMWTPDVYEGSPTPVT
+AFFATAPKVAAMGLFARVLHDAFGNAVGDWSQVVALLSVLSMFLGAIAAIGQTNIKRLMA
+YSSIAHMGYGLIGLAAGTALGVKAMLIYMAIYVTMNIGTFAFILSMQKDGQPVTDISALN
+MYSKRAPGKALAMLVLLFSLAGVPPMLGFFAKFGVWQAGVDAGLVWLVAASAVASAIGAY
+YYLRIVFLMYFGAEGKDSLDSSKGGLLTAFLVASAVIMVVGVATLFGVEGAATSAAAALV
+N
+>tr|B7RGK5|B7RGK5_9RHOB
+MTALTLRNVWKEYGDQIVIENLSLDIAPRSFVALVGPSGCGKTTLLRLLLGQERATRGTI
+MLDGAALPDEPGPDRGVVYQRYSVFPHLTVLGNVMLGPELQSARVVGRSFGAARRHLNEA
+ARQMIADVGLAGSEDKYPAQLSGGMQQRLALAQALMMKPRVLLLDEPFGALDPGIRTDIH
+HLMKRLWDERPMTVVMVTHDLREAFTLGTRVVALGRKRNRPEEADRYGASITNDIDIWPP
+RVAGARTLFNTEYALGWDDPTVQAVTSGRPDQPPET
+>tr|B7RHS2|B7RHS2_9RHOB
+MKGDPDLNMLDVLCPMHLVVRNDGRIVHVGPTVQKLRPDMTWIGAHFFEHFDVKRPKSVQ
+SITDMRRKVGTKIHLALRGDPSSDLKAVLVPRSDGADDVVINLSFGISILDGVRTYGLSN
+ADFAATDLAIEMLYLIEAKSAAMDSSRQLNLKLQGAKIAAEEQAFTDTLTGLKNRRAMDH
+VLARLVSRKLGFAVMQIDLDYFKAVNDTLGHAAGDHVLQAVAQIMVEETRAADTIARVGG
+DEFTLILPEIEAQQTLLNVGERLIERLEKPILFQGKECRISASIGTVWIRENQNVVPKDI
+LSDADIALYQSKNAGRARQTIFDGRRRPLVS
+>tr|B7RI14|B7RI14_9RHOB
+MVSGDGVLYDKFMRKLRQTIRLLYTGQTQLARRFRYGLIAFDALTIIYFIATAALSKTPF
+IVALNTALGVFILLDLAARFWISENPRQELRRIYTLADLLVVVSLLLAPLVTQNLAFLRV
+LRGLRLLHAYHLLRDLRRESLFFRRHEDAILAAVNLLVFIFVTTSLVFVLAFDEGAGIAG
+YIDALYFTVATLTTTGFGDITMTTPGGKLLSVFIMVVGVALFVQLARAIFQPSKIKYTCP
+TCGLNRHEPDAIHCKHCGESLKIETEGDTGA
+>tr|B7RRX0|B7RRX0_9RHOB
+MLEHGHNIYLIVAALAIAVMSGFTGLSLTQGASAMGVARRKLVVSMSAIALGSGIWSMHF
+VAMLGMTLPVAFHYDALVTMISALVAILLTGIALLLVHFGARTGVRITLAGICVGAGILA
+MHYIGMSGIQEVKPVYYSAFGVGVAIVASVLLCVVSFWISYGHRESRNILTGTLVFGISV
+VAVHFIAMASTHFVKIDGAQSTGLWMSNEVLAFGVTLSSFVISGAFLLVGVTFAAGLGKP
+QDDTRMRQPVAEDPGASAPALSQPQIIRIPYESDGQAHFVQSEDVAAVQAEGRYTYLYHP
+SGRLFCPWSISTMEAKLADTRFVKVHRSYLVNTNHVTSFQRKKDNGVCFFEQAPHLDHVT
+VSRSYLKQVRERLGV
+>tr|B7RG44|B7RG44_9RHOB
+MDLNALAKAHPEHWSKATAIRALTLDAVAAANSGHSGMPMGMADVATVLFEKHLKFDAAN
+PLWPDRDRFILSAGHGSMLIYSLLHLVGDAQFPLEEIKNFRQMGARTAGHPENFLADAIE
+TTTGPLGQGIANSVGFAMAEEIQRAQYGKKIVDHFTYVIAGDGCLMEGVSQEAIALAGRH
+KLGKLIVMWDNNNITIDGPVSLSDTVDQVARFKAADWHVIEIDGHNPDEIDAALTEARKS
+DLPSMIACKTHIALGHAAQDTSKGHGALTDADQMAAAKAAYGWTTGPFEVPADVKSAWEA
+IGSRGAADRKAWEERFDTMSRAKREEFNRALAGDAPKKLSATIKAFKKQMSEAAPKLATR
+ASSEKTLEVLNPLYVETVGGSADLTGSNNTKTADLGVFDIDNRGGRYVYWGIREHGMASA
+MNGMALHGGIRPYGGTFMCFTDYARPAMRLAALMQIPTVFVMTHDSIGLGEDGPTHQPVE
+HLAISRATPNTYVFRPADTVETAEAWEIALTSKNTPSVLSLTRQGLPTVRLEHKNKNLTE
+QGAYVLADAEGKRQVILIATGSEVEIALKARDILQEQGIGTRVVSMPCMELFAEQDEAYR
+RRVLPAGPVRVGVEAAVRQGWDRWLTGERGKWNKADFVGMDRFGASAPAEELFEKFGITA
+QNVADKAKALL
+>tr|B7RJD5|B7RJD5_9RHOB
+MTDTIELPVWLFVVIVLFAAVTALSHFLLPSVRWFFRRRLEKAVERLNRRLTRPIEPFKL
+ARRHDMIQRLIYDPQVSQAIVNHARKEGVPENVAFEQARRYAREIVPSFSAFAYFSFGIR
+LARFLANALYEVRTGSNNAALIESIPGDATVIFVMNHRSNMDYMLVTYLAGDASALSYAV
+GEWARVWPLSRLIKSLGAYFIRRKSRGALYRRVLARYVQMATEGGVTQAIFPEGGLSLDG
+KLMPPKMGLLGYVTEADLADRDVVFVPVAINYDRVLEDRVLIAADRAGTRRFKARISVIL
+VFILRKTWLRIRGKFLRFGEAAVVFGEPVLLSDYGPTPDVNLLAQDLMRRIADEMPLLFV
+PLMARILLLAEGPLDEGRLEAEMHRLIARAKASDAIDHVDFPASVAKAREHLLQRAFIIK
+VGDGYVAAADERPALTYYANSVAHFFDV
+>tr|B7RKA0|B7RKA0_9RHOB
+MDRDMVRIRALVNGADGLPALMFAPCLTAALP
+>tr|B7RMC7|B7RMC7_9RHOB
+MKDLTPARDSLDPIEIASRDEISALQLDRLKWSLRHAYDNVPFYRKSFDAAGVHPDDLHS
+LSDLAKFPFTVKTDLRDNYPFGMFAVPREQVARIHASSGTTGQPTVVGYTKTDLENWGSV
+VARSLRAAGLKPGDMLHNAYGYGLFTGGLGIHLGADALGLSTVPISGGMTPRQVRLIEDF
+KPNGITVTPSYALSILDEYARQGIDPRQSSLDVGIFGAEPWTNAMRLEIEQAFDMHAVDI
+YGLSEIMGPGVSCECIETKDGLHIWEDHFYPEIINPETGQPVVDGEKGELVFTSLTKEAF
+PIIRYRTRDLTRLLAGTARTMRRMEKVTGRSDDMIILRGVNVFPTQIEEALMSIPGLAPH
+FQIELTKPDRMDQMRVLCECADASLSAELRASSAAALSAQIKQTVGISVKIDVADAGTVP
+RSEGKAVRIIDKRPKA
+>tr|B7RQQ4|B7RQQ4_9RHOB
+MRATIKANALASSAYTYQAFSDAEIEAYAEALEHPTMQEVYALMNAVQFEIMANRYEAVA
+QRLAGMQPSQDL
+>tr|B7RFM7|B7RFM7_9RHOB
+MSNSRLSRRAFALGALASAGGVAACGNGVGSRGSAMIDARVNATLEEMYRQFPNTRQLAE
+RSSGMLVMPLVTEAGLGLGGAYGRGAFRIDNVTVDYYSVTKATGGLQIGAQQYAHVLFFM
+TQDAVSNFRRAPGWAAGANVEYVISDKGESVNADTTTALSPVLAVVFGRAGLRLGATLEG
+SKYSRIIP
+>tr|B7RGP8|B7RGP8_9RHOB
+MTKDYFIDFLTKTDHRLVTKWLHYFDVYAAELGHLQNKDITFLEIGIFRGGSIPMWGGYF
+GKGSKLVFADIDPACRALADPGVNIEMGDQSDPVFLKQLAERHGPFDVIIDDGGHKMDQQ
+TISFENLWPAVKDGGQYLVEDTHTSYWPGFGGGYQEPASFVEYAKRLVDQMHSWYTDQDD
+IFPLSQMARELAYVHFFDSIVALKKDLKRTPPVTITSQNGKIGRSRKALEVRGRKSIF
+>tr|B7RGY3|B7RGY3_9RHOB
+MTNPLLSDWDTPFELAPFDKISDDDFEPALEEALATHRMEIDAIASCDVAPSFGNTIEAL
+EEAGSQLDRVLGVFFTVAGADSNPAREDLQRKFSPLLAAHFSEISSNKQLFSRVADVWAN
+RDSLDLTPEQARVLMLTHRGFVRSGAALDGVDDARMKEIKGRLAVLGTQFTQNLLADERS
+WFMKLDEADLEGLPDFVVDAARSAGEEKEAGGPVITLSRSLIVPFLQFSPRRDLRERAFL
+AWQARGANDGETDNRAIAAETLALREERAKLLGYRNFAAFKLETEMAKTPDAVRQLLMDV
+WEPAKAQAESDAAVLTEMMHADGVNGDLAPWDWRYYTEKRRIAEHDLDEAALKPYFQLDR
+MIDAAFSCATRLFSLEFAPLDVPLYHPDCRAWEVTRNGEHVAVFIGDYFARGSKRSGAWC
+SAMRAQAKFPDVQSPVVINVCNFAKGSPALLSYDDARTLFHEFGHALHQMLSDVTYESVS
+GTSVARDFVELPSQLYEHWLEVPEVLGEFATHAKTGAAMPKEMLDKVLGAANFDMGFSTV
+EYVASALVDLEFHDGGAPVDPMEKQAAVLASLGMPSAITMRHATPQFAHVFSGDGYSSGY
+YSYMWSEVMDADAFEAFEEAGGPFDPEQANALEKHILSAGGSMDAAELYTAFRGRLPGVE
+ALLKGRGLKAA
+>tr|B7RKJ3|B7RKJ3_9RHOB
+MALPMAAGAETPQDIITDVVNDHILVQFGTLDTMAQRLRDVALDDCDPASETLRASYGDA
+FDAWIAASHLRFGPTETDNRAFALAFWPDSRGATPRALAALIADEDKIAQSPESYAEMSI
+AARGFYAMEYLLYDETLSTAGDPAYHCTLVQTVAGDIAANSAAILNDWQSFYADRLIAPA
+PDGTYHSHEEVLKELFKAETAGLEFTSDVRMGRPLGTFDHPRASRAESWRAGRSARHVEL
+SLIALRDLALRLAMGKPDLVAELGGDFQKALDQLAALNDPVFAGVDDPQSRLRVEVVQQS
+IDAIRATVREDLGPTLGVAAGFNALDGD
+>tr|B7RG76|B7RG76_9RHOB
+MATILLSAAGAAIGGSVGGTLAGLSSVAVGRAVGATLGRAIDQRLLGQGAQAVETGRVDR
+FRLTNSGEGEAITRLYGRMRLGGQVIWASDFAETTTVTGGGKGTPSKPQTTEYSYSVSLA
+IALCEGEITGISRIWADGEEIVPRDLNLSVYHGTRDQLPDPTIAAVEGADKVPAYRGTAY
+VVMENLPLGQFGNRVPQFSFEVMRPEEAAAPQGDFSVTHGVKGVALIPGTGEYALATTSV
+HYADGAGRRWSANVSTPAGKSDFLVSLDTLTDDLPKLEAASLVVSWFGDDLRCGNCTVRP
+KVESATIEGENMPWSVSTLSRSAAALMAQDGGRPVYGGTPADASVIEAIHAMNAAGKAVM
+FYPFILMDQLDGNTLPDPYSDAETQAKLPWRGRITLSEAPTRAGSPDGTAVADAQVAAFF
+GTVTAADFTVARGQVTYSGHDEWTLSRFILHYAALCAAAGGVEAFCIGTEMRGLTQIRGA
+GGVFVAVEHFRALAAQARLLLGAQTKISYAADWSEYFGYQPEDGTGDRYFHLDPLWADDN
+IDFIGIDNYMPLSDWREEEDHLDARTWDAIYNLDYLKSNIEGGEGYDWYYHSSEARAAQI
+RTPITDGDANEPWIYRFKDIRNWWANVHHDRIGGVRQENPSSWVPGSKPIRFTEYGCAAI
+DKGTNQPNKFLDLKSSESSLPRFSTGARDDLMQMQYLRAFVDYWSDPANNPISPEYEGPM
+IDMSRAYVWAWDTRPYPYFPNNLELWSDGQDYVRGHWLNGRSSSQPLSSLVGEICRRAGL
+KDYDTSRLYGYVRGYAVDQVSDARASLQPLMLRYGFDAVERDGTLNFVMRDGLNAVRLDP
+DLLAVSSELDGITEQSREAQAEIAGRVRLRFVQADGNFDTIAEDSILADDATHSVSASEM
+NMALTRAEGRQVVERWLTEARVSRESLRLALPPSMMAIGAGDVIELPADGAEADALYRID
+RVEQGEMQLIEAVRIEPEVYDPAPFDDELAVLKPFAAPVPVTSLFLDLPLLRGDETPHAP
+YIANTAQPWPGSVAVYQSGTDANYQLNTVLPVRATVGVTQTDLSAARPGLFDHNGGLQVK
+LISGALESVDEAALLSGANLAAIGDGTSDNWEVFQFEGAELVAPNTYWLTKRLRGQAGSD
+ALMPPAWPLGSQFVLLNSVPQQLSLSPNLRRIVQHYRIGPAQRPVDDPSYIHREVAFDGN
+GLRPFSPCHLRAVQGGNGIDLTWIRRTRIDGDGWDGLDVPLGEETEQYLVRVLQNGQVIR
+EAVTTAPNWSYEAAAQSVDGLSGAFAFTVAQVSASYGAGPAARLMVDP
+>tr|B7RIZ2|B7RIZ2_9RHOB
+MVFTSFMNIALEEARDAAERGEVPVGAAVVSPQGQVVARSGNRTRELNDPTAHAEVLAIR
+AACAAAGSERLGGYALYVTLEPCAMCAGAISAARVATLYYGASDPKSGGVAQGARVFSHP
+QCHHVPEVYDGIATAQAEVLLKDFFGGKRKG
+>tr|B7RG89|B7RG89_9RHOB
+MSEVPQFERFECAPGLRLQAHERVSAIHHENLLHRLDRLEEMMERLERRLWLTVYGVVAV
+ILAQGVQSFLVVQP
+>tr|B7RPS8|B7RPS8_9RHOB
+MLLLIDNYDSFTYNLVHYLGDLGAKVEIWRNDAITVQDAMAMNPAGIILSPGPCDPDQAG
+ICLALTAAAATSRTPLLGVCLGHQTLGQAFGGKVVRADDIVHGKMGQMHHKGKGMFAGLP
+SPFAATRYHSLVVERATLPDRLEITAELEDGTIMGLQHRDLPLHGVQFHPESIRSEHGHQ
+MLQNFLDELKVPA
+>tr|B7RR33|B7RR33_9RHOB
+MQKVALPERPTWREHAQDVGFTFADMHGAPYWDETSAYAFSLEQIENDIEDPATELHAMC
+REAVVHILQSEDLLDRLAIPEAHRDLIAESWHRGDPEIYGRFDFAYSGNGPAKLLEYNAD
+TPTSLYESAAFQWQWLEDQLAAGVLPEGTDQFNGIHEALVARFGAVFEPGSDLHFTAVSG
+NPEDYGTVEAMGWAAREAGLGAHYCDLEKIAISDEGQFLDDEDRIMGVLFKLYPWENLLR
+DDYANHIAGSRCLFLEPAWKALLSNKGLLPVLWQMFEGHPNLLPAFFEQDVTDAIIRRGP
+AAPKVAEAFDRAEAQMIAGHVTKPILSREGASVSITKAGQIIEQLQNAAYAEHPRIIQAY
+EPLPQHDGFRPIIGAWVIGEACAGIGIREDQSRITQDLSRFKPHYIIA
+>tr|B7RQ00|B7RQ00_9RHOB
+MTERLSLRSGGRAARRAARAAPLADHLRPVRPGMSGGTFNPLSPAAMDRIHLAVLDALEQ
+IGLADAPPSGIAHMTRAGAILGDDGRLRFPRALIEDTIAAANRSITLHARDPRHDLDLSG
+TRVHYGTAGAAVHLVDVDGRIYRECGVQDLHDAARIADQLDNLHFLQRPMVCRDIPDNLE
+MDLNSIYACCAGTTKHVGVSFGEPAHVAPGLEMLHMIAGGEAAWRARPFVSNSNCFVVPP
+MKFATDSCLVMEQLIEGGMPILLLSAGQAGATAPAPIAGAIVQAVAECLAGLVYVNAIKP
+GHPTIFGTWPFVSDLRTGAMSGGSGEQALLTAGCAQMHRYYDLPGGAASGIADAKLPDMQ
+AGWEQAMSNVMAGMSGLNMVYEAAGMHASLLGFCLESLILGDDLIGQALRCVRGIEVTED
+SVSLEVMRATCIGGPGHYLGSDQTLNLMQTEYIYPALADRTSPKEWVELGRPDLLAKATA
+RKEEILGQRAKARFDPETDRMIRHRFNIHLPA
+>tr|B7RPJ0|B7RPJ0_9RHOB
+MKLTSQALPSSAGFKANEAAHLEALQTVREAAEAAAFGGGEKSRARHESRGKMLPRERVA
+NLLDPGSPFLEVGGLAAHGLYGGAAPCAGVIAGVGQVHGVDCMIVCNDATVKGGTYFPMS
+VKKHLRAQEIAEENHLPCIYLVDSGGANLPNQDEVFPDRDHFGRIFYNQARMSGKGIPQI
+AVVMGSCTAGGAYVPAMSDVSIIVKEQGTIFLAGPPLVKAATGEVVTAEDLGGGDVHTRL
+SGVADYLAEDDAHALALARRAVAGLNLAKPATVQWQPSEDPAYDPAEMLGVVPADLRTPY
+DIREVIMRLVDGSRFDEFKARFGETLVCGFAHVKGCPVGIIANNGVLFSESAQKGAHFVE
+LCSQRKIPLVFLQNITGFIVGRKYENEGIARHGAKMVTAVASTNVPKITMLVGGSFGAGN
+YGMAGRAYSPRFMWTWPNSRISVMGGAQAAGVLATVKRDAIERAGESWSAEDEAAFKQPT
+IDMFEEQSHPLYASARLWDDGVIDPRKSRDVLSLSLRASLNAPIEDTRFGVFRM
+>tr|B7RQG2|B7RQG2_9RHOB
+MTHYLKDFTELLPKRPDLDELKAELLQTAEDQGMADFLWSRAVSKEMVEQCVEEELTSIM
+TANVASIIEERGLIAPDQIDFLGFVHEDPDAAFITAVRDAVQVSFVYDAAQYAFKDQVRQ
+YERAQKKNGQREDVQQLIENLATSHPALAGPPTMHALDEMIAALHASAPWMSDVSKWAYK
+ALRTQYSTGDTWLNLPPVILIGPPGCGKSTYARKLATLSGVPIRALDAAASNASFSVVGS
+DPAWSKAQAGIPLQEIAKTGIANPVMIVDEIEKAGTMTASGGSRVSLPEALLGLLEPSSS
+TAWECPYTRRTYNMSQISWIMTANESDGIPAPLLDRCRVFHISYPGPKDLADLIRTQSAG
+RLYDEVMDCLIARVETAVANGQPPSLRRIRQLIDEAAAMAQEPVLH
+>tr|B7RQK4|B7RQK4_9RHOB
+MGAVDKLFEEKLSGKSTKDRSTQCWNEFEKMTLLSSKASTGWPEISTICSRSFSG
+>tr|B7RRE4|B7RRE4_9RHOB
+MTIFDLATLTVYGLLGLLSLVALGIGLYKTGQFARMGVGKRNQAEKILDDWLNGRVDDAI
+SEAGKRKSVLSRILQAVFSGIQARPTDVSYAEELSRQTAMIELATMSERMRALDMVVQAA
+PMLGLLGTVVGMIDAFSVLAVTEGAVDPTTLAGGIYVALTTTAAGLVLALFAFFLATWLE
+GRIDRERNMIEALMSAAIHGRVDPNAAK
+>tr|B7RHZ1|B7RHZ1_9RHOB
+MNSRLVPLLALVFLAVTALVRPHVAQAQETFVINLRGADISLLAEQVSEITGRTLVLDPN
+LTGDVTVVSQQSLDSEGVWALFQSILRVRGFAAVETGAVWQIVPELDARTKGSPQKIDTP
+GSQDVVTRLLRLNRLPSAEAVRVLRPLIDEAGYIEAIEDPNAIVVTDTLANVDRIVAIAT
+TFDGEAEMEAEVIRFTYAEAGTVATAISEVLGPAGTGARLSVDVSSNVLLVRGTQRDISQ
+IRSLARAMDTSPRVAQSETVSTSIYRLQFGEATIVADLVRNTLTGSTDLTNPVAASLGED
+PANPDAQSFGSGPDAAPISPVSVQASIETNSVIVRGTQRQLAEVSQLIKALDVRRPQVMI
+EAAIVEVSGDVAERLGVQLGIGENTETGSIAATSFGNGGGSLQNVLVALGQSNAAALSTG
+LSVGLASDSFGALIQALNTSTSANLLSTPSVTTMDNQSATIVVGQNVPFRTGRLTTDGGN
+VAEVIEREDVGITMVVKPRITAGGVVQLEIEQEVSSLTNQAVTGAADLVTNRRVINTTVL
+AENGGTVVLGGLITDDRLQNNQKVPLLGDVPVLGNLFKSRNNSRSKRTLFVFLRPTIMLT
+RADLEKAAETRYRRAQNAEATVQPRSLLKHEKVTKLPLEIDGLY
+>tr|B7RR57|B7RR57_9RHOB
+MIGKILLAYDGSNSATRAMDVAAELSSKLRADLYIVHVLMHGRLAREFKRLAEVENLVTQ
+SEKPQPPRVAVASGRSYDLLGHSTPDGHSASVISAMGDRLVSYAKDRSKKSGAIVVQTLV
+RAGDDADKILEAADDLDVDMIVVGSRGLGRVKGAILGSVSQKLLHHANQTVVTVK
+>tr|B7RMR7|B7RMR7_9RHOB
+MHSGYIWYTEITSQEKGFEMNALAHTANGQKAANPVFLAVGDSALAVQFGDSVDPQANRK
+VIALGHSLDSDPVAGVLECVPTYRSLLVNYDPEILRGAELEVLLALRLADLELGDEAGRL
+WHVPVVYGGAVGMDLDALAEEKGMTPEALIALHSSVECRVYMIGFAPGFTYLGGLPAAIH
+TPRLAVPRQSIPAGAVGIGGQQGSINSVTGPSGWRFIGWTPWRAFDPARAEPFLFAAGDR
+MRFVPVSAEAGTEIAENIAAGRLLPTPEGKA
+>tr|B7RMY2|B7RMY2_9RHOB
+MVWRYLEWKVSQMAPNSPRLAVRAVILHQDRLLLVNAYPDGQSDLMCAPGGGVELGASLH
+DNLMREVFEETGLRVDVGLPCLVNEFHDPDRGFHQVDVYFHCRIIGSPLIDADWQDVDRV
+VTDRRWVTRDQMAGLRVKPDTLIDVAFGGAGITYDPLELILR
+>tr|B7RPG1|B7RPG1_9RHOB
+MFESFGFENTTPQQASVLFAVFVGVLFGLLGQITTFCFRRSLIGDDRRQAAGVWLMALAF
+AVIGTQVAVALELISFADHRFMISELPIAAIAFGGLLFGAGMVLTRGCVSRLTILAGSGN
+LRAGLVIVVFAIVAHATLKGVLAPLRVALGSMTVEMGDAISLAALPGGAWFWSGLIALGA
+IVYALRSGNGVGTLVMGAAIGLLVPLAWVGTGFILFDEFDPIAMESLSFTSPAAEGLFWV
+VASSSIPAGFGVGLFGGVLVGAFIASISFGGFGWQSFESPAQTGRYLAGAALMGVGGVLA
+GGCTLGAGLSGVPTLSLAAILAIVMIAVGALATNAMVRRAPVGQLAHG
+>tr|B7RGZ4|B7RGZ4_9RHOB
+MIAVIFEVSPHPDKRADYLDMAARMRPLVDRIDGFISVERFQSLTNPDKLLSISFFRDEA
+ALDEWRALTAHRGAQKAGRDTIFQDYHLRIAHVIRDYGMFDRDEAPEDSRAVHDAG
+>tr|B7RI31|B7RI31_9RHOB
+MTIKLGVPSKGRLMEKTFEWFAARGITLQRTGSEREYAGAVEGIEDVSLMLLSAGEIPRE
+LAAGRIHLGVTGTDLIQEKLALWDQLVSSVEELAFGHADLIIAVPHAWIDVDTMDDLDAA
+AAAFRNTHGFRLRIATKYHRLVREFLRGAGVADYALVDSQGATEGTIKNETAEAIADITS
+SGETLRANHLKILSDGLILKSQATLWRSRTAHMDERDRKTFAALLEKLG
+>tr|B7RM58|B7RM58_9RHOB
+MPWVLSVLGLAILLLAGDALVKGAVNLSLRLGVPALIVSLTIVAFGTSAPELLISIKAVL
+EGAPGLALGNVVGSNTANILMVLGIPALLATMHTSECKTRKTFNMMIAASVLFMLLALRG
+VYDVWAGLILLACLGFVLFDAFRDSQKHREGAKDAAADDLEEPEGADPDLPGWRIALFLV
+LGLVGLPLGASLLVDNASIIARAYGVSDTVIGLTLVAIGTSLPELATTVMAALRRQADVA
+LGNVIGSNIFNLLGIIGVASLVGPIEVDPEFLQFDLWVMLGASLLLIPFVYLGRDITRIW
+GIALCAIYALYLTAVLI
+>tr|B7RP31|B7RP31_9RHOB
+MTMPGYTFHAKLYDEPSKFGIEGGKISKLDVRKDDNLVMRYDRGWVVDPKTQEQKEALQR
+IRTGLDDTPKKPFKSFDHKPGQEQGIDR
+>tr|B7RQS9|B7RQS9_9RHOB
+MNKYLTILPLCAAMMMPMAGFAQTATTETTDTAAPKTTETAPAASDAPAASGVEAQLSMG
+DDGEAATDLGKPYTKEEVGSWEIRCIKTEEDVDPCQMYQLLDDGQGAPVAEFSLFRLPEG
+GKAQAGATVVVPLETSLQSQLSVAVDGGKERRYPFAFCNPVGCYVRMGLTADDVAAFKRG
+KEAKITIVPALAPDQKVQLTLSLDGFTSSFDKSSVIER
+>tr|B7RS33|B7RS33_9RHOB
+MLLHIGYHKTGSTYLQNRVFDGGRFAFGTISDDDRFLKKEICFQHIDLFDQPGVAQCFKA
+ACSEIASAGRYPVYTNESLSGQLFSGGIESLRTAQRLKAAAPSARVLIVIREQNSILLSS
+YNQFVRHGGRDTLAQFLTNETNGFLRFHRSHFAYHHLIKGYQDAFGTDKVLVLPFEMLAV
+DPIEYIDRILQFCGLPKTSLDTTEVALGSRLNPSIPFCGIVLKRWFNFFVAPSRPGLTRR
+PIFYSSRWTNNVIKHRLKSFSRRLPDRWNKSVKKQYQQVIEEMIHDYYVESNHKTMALTG
+IDLGEYGYRLNK
+>tr|B7RI55|B7RI55_9RHOB
+MDQLVTDCDKHTGHRDPSQRKTSAHRARKARCFDAREFIRILPLVLYPRQTLTKSFKPTR
+ISAGFD
+>tr|B7RGW3|B7RGW3_9RHOB
+MGKPIVPSFPALSERSMTDTQFTPRVFSGIQPSGGLTLGNYLGAMKRFVDMQNEGSFQTV
+YCMVDLHAITAKWLDPATLRHNTRELAAGFIAAGIDPEQSILINQSQVPEHAQLAWIFNC
+VARMGWMGRMTQWKDKAGKNAEAASLGLFAYPALMAADILIYHATHVPVGEDQKQHLELT
+RDIAAKFNHDYGVDFFPLTEPVIEGAATRVMSLRDGSKKMSKSDPSDASRINLTDDADTI
+AKKIRKAKTDPDALPSEVEGLKDRPEARNLVNIYAALNDQTVEQVLAEVGGQQFGAFKPL
+LADLAVAKMSPISTRMAELMADTAEIDRILAHGANQAREITAPILKKTYEIVGMVS
+>tr|B7RHA9|B7RHA9_9RHOB
+MNTYSILRELADSWVLLAMFTFFACVILWAYRPGSSDVYKSVANIPLGDDTKPKTTSAKG
+DDHV
+>tr|B7RK46|B7RK46_9RHOB
+MRPGAEKLAAPLFGQRARRGTGSSGTIGGAGHRLSMSSR
+>tr|B7RNN7|B7RNN7_9RHOB
+MENAKNPAWLVENEDGSITVNYETRPPKIDGTDVKSLKMREPFVEDQLAADRASSNSAEA
+EITLISNLCEISPEAVRGLTMRQYSRLQTALSVFIG
+>tr|B7RNQ4|B7RNQ4_9RHOB
+MLKRLEFTLDTLAAVAVVLLCLLITANIIAREFLMVGIPDSIIMVRELMVPAILFPLAAA
+TAKRAHVAVEFIANHFPDGVNRWIAVLATVIGLIIVTILLTAGWFELAKNFSSGTHYGGE
+LLLPKWPSRALFVLAIGAFWLRLIHVLWVDLKAAVTGTPAPAEL
+>tr|B7RQS7|B7RQS7_9RHOB
+MNETLKNTALFAIIAGLIVFTGFQQSWNAALLIISMGLISSIMALGVNLQWGFAGLFNVG
+IMGFVALGGLAAVLISMPPTEGAWSAGGWGVAGALVLGAATIGAAIVTMKRMAKGWLRTL
+VMLAILVGGFFLFRAVLDPSVAAIEDINPAETGYIGGLGLPVILAWPVGGLFAAGAAWLI
+GKTALGLRSDYLAIATLGIAEIIIAVLKNEDWLSRGVKNVIGIPRPVPYEIDLQNNAGFV
+ERAAGFGLDPVEASTLWVKVLYVALFAGVLVLLLWLSQRALNSPWGRMLRAIRDNEVAAE
+AMGKDVTARHLQVFILGSAICGIAGAMMTTLDSQLTPGSYQPLRFTFLIWVMVIVGGSGN
+NFGAVLGGFLMWYLWVMVEPMGLWLMHLVTSGMPDGYWLKDHLIESAAHMRLMTMGAVLL
+LVLRFSPRGLIPEK
+>tr|B7RRH7|B7RRH7_9RHOB
+MYRITKEFHFSASHQLSHLPDGHQCARLHGHNYIVVVELAAADLNADGFVRDYGELKPLK
+TYIDDTFDHRHLNDVMDVASTGENMARHFYDWCVALWPETTAVKVSETPKTWAEYRP
+>tr|B7RQH8|B7RQH8_9RHOB
+MNDRLKSLLDIAKRAVVPIAAAVLGVVALAYGWTWLVVVLALVVLLGLYDAFQSRWTITR
+NYPVAGRIRWLFYDLRPYLHSYIVEDDIGGKPFSLAARRLVHARAEGLTDTQPFGTERNT
+DEDTYHWVGHSIAPTKDPVKSPRVGVGSDQCSKPYSASVLNISAMSFGALSANAVRALNL
+GAKKGGYYHDTGEGGLSPYHLEHGGDIVWELGSGYFGARDKNGNFDPAMFAETAQRDEVK
+MTEIKLSQGAKPGHGGLLPAAKVTEEIAKIRQVPAHEDCLSPRGHSAFSTPIEMLEFAAQ
+MRELSGGKPVGLKLCIGHPHEPFAIAKAIVETGIHPDFIVVDGGEGGTGAAPVELSDWVG
+MPLSEGLILMRNALVGAGVKPHVRLAASGKVYSGMGLARNTAQGADWCNAARAFMFSVGC
+IQAQRCHLGTCPTGVTAQDPARQRGLVPEVQGERSARFHEKTVDALMEIVASAGLDHPSE
+LQPHHMMHRVGPEKALPMDQVHHFLPDGALLDAPDDTIYADFWRAAQAESFRPAIDLARA
+RAS
+>tr|B7RFV1|B7RFV1_9RHOB
+MGKLIKFLIYLMIIGFIGLAIYAYVGPFFGAQFAPPQIEIREPVTLEGQ
+>tr|B7RG87|B7RG87_9RHOB
+MWMDQIETKTRGAPASAAEEVRQAVTGFVHDFKGFQAEMKTKLQQTEERMTMLDRKMTLP
+ARTPLGGGC
+>tr|B7RGZ8|B7RGZ8_9RHOB
+MNKQAIADTKIDNKYRANVRERYTADEADVVEALQEHIKLNDADRQKVAAAGALYVDRVR
+KETSPSMMEAFLAEYGLSTEEGVGLMCLAEALLRVPDAETIDDLIEDKIAPSNWGAHLGH
+SSSSLVNASTWALMLTGRVLDDDPKGPARILRSLVKRIGEPVVRTAVAQSMKILGRQFVL
+GQTIQEGLKNARDEEAEGYTFSYDMLGEAARTDADARRYQQAYADAITAIAKAAKGDVRS
+SPGISVKLSALHPRYEYTHKSTVMAELVPRALELAKQAAKANIGFNIDAEEQDRLDLSLD
+VIEAMLSDPDLEGWEGFGVVVQAYGRRAAPVIETLYDMAERYDRKIMVRLVKGAYWDTEI
+KIAQELGVERFPVFTRKINTDLSYMACAQMLMDRRDRIYPQFATHNAHTCAAVVAMAGND
+KNSFEFQRLHGMGESLHGIVKASEGTRCRIYAPVGAHRDLLAYLVRRLLENGANSSFVNQ
+IVDTSIPSAAISKDPVEAVKDLGTQVANTTIAQPHDLFRPARKNSKGFRVNEPASILPLL
+AAREEFAEAKWNGGPMVVGRDDVTRVGRDALSPADGTRVVGTVYDATPEDVEAAITAAQA
+GFESWSETPVADRAEILRKIADLYEENTAELTAITTREAGKTLLDGIAEVREAVDFLRYY
+ANEAERLEEEEPGRPRGVFVCISPWNFPLAIFSGQVAAALAVGNAVLAKPAEQTPIIAAR
+AVELMRAAGLPEAALQLLPGDGPTVGGPLTSDPRIAGVCFTGSTEVAQIIHKALAKNAGA
+DAVLIAETGGLNAMIVDSTALTEQAVRDILLSSFQSAGQRCSALRMLYVQEEAKDRLTEM
+LYGAMDALVIGDPWATDVDVSPVIDAEAQAGIMDYVAEHEKAGTLLKQLDVPTQGTYATP
+AVVQVNGIADMEREIFGPVLHVATFRARNIDKVVDEINDRGYGLTFGLHTRIDDRVQQIV
+DRIQVGNAYVNRNQIGAIVGSQPFGGEGLSGTGPKAGGPHYLARFRRVGKPDAAVAPKGI
+DVERDAVSAALEQIDARNWAARPDRVSVLRAALTGRTGIVRKALAETAAFDTTPQTLPGP
+TGESNRLRMFPRGTVLCLGPSPEVAVAQAIQALGAGCGAVIVVPGASTSMASALTAAGAP
+VVALDGTLDPAVLVDLEGFAVVSAAGASDWTRDLRIALSERDGAILPLVTEAIAPERYIL
+ERHLCIDTTAAGGNASLLATTS
+>tr|B7RKM0|B7RKM0_9RHOB
+MSDDRLIVALDVPNAVAGFELAQTLGDSVGFYKIGLGMLTGGGLGLANELIQDHGKRIFL
+DMKLFDIGATVEAAVRGLAQFDLDFLTVHGDPHVVRAAMEGASGSGMKILAVTILTSLDR
+TDLDASLIQAGDIPDLVATRAGRAFDAGADGVIASPQEAALIRALPEATGKLIVTPGVRP
+QGAALGDQKRVATPAQAIADGADHIVVGRPIWQARDPAAAARAVLAELP
+>tr|B7RQ87|B7RQ87_9RHOB
+MRIFPIIAAIAVSFLMYMAIFERDALLDAVGMAQSAEPTDSQVADPAPNAVADAGLVKVV
+VQRSSAEPLESAVIVRGQTAAARQVDVQAETSAIVASPPLRKGARVAAGETLCELDAGTR
+GAARKEAEARRAEAGSRIPEAESRVVEAQARLDEAMIRFNAASKLGKEGYSSTTQVATAE
+ATVAAARAGLSSAEAGLNAAKSGIEAADAAIAVTQAEIDRLTLTAPFAGLLESDTAELGS
+LLQKGSLCGRVIQLDPIKLVGFVPETEVDRVTLGAPAMARLAAGNREISGQVSFISRASD
+PSTRTFRVEIDVPNPDLSIRDGQTAEIGIAAAGVDAHLIPQSAMTLDDNGILGVRTIDEN
+DVVAFNPVELVRDTPEGIWVVGLPETVTIIVLGQEYVTAGVTVAPTYRKVTQ
+>tr|B7RPZ6|B7RPZ6_9RHOB
+MEILDILISASFWAAAIRIATPLILATMGELICERAGVLNLGIEGIMVAGAFAGWMAVYS
+GTGLWVGVAVAMVVGMGFGLLHSVLTVPFGLSQHVVGLGVTLLATSSTYYAYRLALPQVT
+SPPKIDAFQPYEIPVLSEIPLLGQALFSQTPFTYLAFILVGLTSVMLYRTPLGLAMRAAG
+ESPAAVAAQGLSVTAIRMGAVIVGSGFMAMGGAFLTMSAFDSFFFEMVNGRGWICIALVV
+FGSWMPGKALLGAVLFAAFDALQIRVQQTGFGADIPYQIFLMAPYILSIAALVLVSRRAQ
+VPAALMVPFNKGER
+>tr|B7RJS2|B7RJS2_9RHOB
+MTTATANAVTYFVDRHPEEGRGDKVAYREIGSGRSLTYGDMATGAAQVAGALLRAGVRAE
+ERAAMLVLDQIEFPQIFWGALKVGVIPIPLNTLLATSVYDAILRDSRATTLFVSAPLWDV
+VKGAVAGNPYLRHVIVIGGTAEGATPYEEFLKDAAPADTLAVSPDEVAFWLYSSGSTGQP
+KGVAHVHSALRATSDTYGKQVLEIAEDDVVFSAAKFFFAYGLGNAMTFPLSVGATTLLFA
+GRPTPDDMIATINAEKPTIFCGVPTLYAAMVAHMDKNGPLEAPLRTCISAGEALPEEIGL
+RWEKHTGACILDGVGSTEMLHIFLSNRKDDLVYGTSGVAVPGYALRLVDEEGLDIPSGGV
+GELLVNGASAANCYWNQREKSRVTFEGVWTRTGDKYELRDDGRLVYCGRTDDMFKVSGIW
+LSPFEVEGALVSHPRILEAAVVAAEDADGLEKPKAYIVLKEGVADAALLAELKDHVKDKI
+GKWKYPRWIEVVQELPKTATGKIQRFKLREGN
+>tr|B7RMF6|B7RMF6_9RHOB
+MTEASDMVADIEILGEKLAQAKASITNRFIGQERVVDLTLTALLCGGHGLLIGLPGLGKT
+RLVETLSTVMGLHGNRVQFTPDLMPADILGSEVLDTAADGSRAFRFVEGPIFCQLLMADE
+INRASPRTQSALLQAMQEKTVTVAGQDRPLGKPFHVLATQNPIEQEGTYPLPEAQLDRFL
+VQIDVAYPDRKTERDILLATTGDSDAQASQVFTSQELLAAQTLLRRMPVGDSVVEMILDL
+VRAFRPDEADASQQVRDTVAWGPGPRAAQALMLTVRARALLQGRLAPSAEDVIDMARPVL
+SHRMALNFAARARGDSLHDLIDATAASLTGKKVAA
+>tr|B7RQ67|B7RQ67_9RHOB
+MTTNTRPLTATDRAAWEGLFAGYAAFYKVDQTPEMRETVFGWLMDDNHSSNCIVAEDASG
+TLVGFTHYRPFASQLRAITNCFLDDLFVDPAARGSGAAQALIGAVKAVAQEKGWGTVRWI
+TAEDNYRGRAVYDKLATRTPWVTYDIKV
+>tr|B7RM76|B7RM76_9RHOB
+MVDPLTLLAFVPAALALNLTPGADMMFCLGQGMRFGPRASVAASAGISLGGMVHVTLAGL
+GLGAVVAAVPWAFDVIRWGGVVYLLWLAVQTLRGGAEQQAVTLRPSAFRGALIVSLTNPK
+VILFVLAFVPQFVVPDAGPVLLQFLIFGAVLSAGGFVINAAVGVFASGLGRKLAKGGQAL
+RWISSGIFVALAARLAVLERT
+>tr|B7RN97|B7RN97_9RHOB
+MANDAPTALDLPMVDPLPEATQKYFDVCQEKLGMIPNVLQTYAFDIDKLNSFTAMYNDLM
+LGASNLSKLEREMIAVVVSSVNKCYYCLTAHGAAVRQLSGNPILGEQMVMNWRVADLDAR
+QTAMLEFSENLTVSSAKTTEADRQALRDVGFTDRDIFDIASVAAFFNMTNRVASATNMKP
+NDGYHAQAR
+>tr|B7RNZ1|B7RNZ1_9RHOB
+MSRSTDILLTALAPAIWGSTYLVTTEALPSGYPVTLAALRALPAGLLLLALTRCVPPRAW
+LGRTFVLGGLNFALFWVLLFVAAYRLPGGVAATLGALQAMMVIVMARGWLGTPIRAGAVA
+AAAAGVLGVALLLISPQARLDPIGVAAGLGGAASMAAGTVLSRKWQPPVSALSFTAWQLT
+AGGLILLPLALIMEPQLPSLSATNLAGLTWLGLVGAAATYAIWFRGVARLDPGAVSMLGM
+MSPVTAVALGWLWLDQSLSPLQFLGAAVVLVSVWAGQRANRPRADEAFRTAPTRTGKSVG
+STRAASRSSMVR
+>tr|B7RKB7|B7RKB7_9RHOB
+MKQDIYQKVTDKIIADLEKGQLTWLKPWSTGNLDGRIVKPLRHNGMPYNGINVLMLWAAS
+VEAGYVSPHWMTFKQAKELGANVRKGERGSLVVYANSITKAEEQDDGSEEERKIPFMKGY
+SVFNVDQIEGLPEQFCTKPEPIIDGVERIAHADAFFAATNADLRHGGNRAFYSGGSDHVQ
+MPAFESFRSPEAYYATLAHELTHWTKHKTRLDREFGRKKWGDEGYAKEELVAELGAAFLC
+ADLALTPEAGEDHAAYIQSWLKVLKDDKRAIFSAAAHAQRAADFLHGLQSSGDIKEEVAA
+>tr|B7RPF2|B7RPF2_9RHOB
+MAKMRKKADLPSKICATCGLPFTWRKKWAKDWETVRYCSDRCRSAKGKPPK
+>tr|B7RPB1|B7RPB1_9RHOB
+MTAASDTPSAPHTPVLLRPLLAAVAPVYGRWLDGTFGAGGYTRGLLDAGADQVIAVDRDP
+LAFEMAASWAGEYGDRLIMQQGVFSRMDEYAQNLDGVVLDLGVSSMQLDLAERGFSFMRD
+GPLDMRMSQEGPSAADIVNEAEEEIIANILFQFGEERASRRIAKAIVRQREEAPITTTLE
+LARLVESCLPRSKPGQSHPATRSFQALRIAVNNEYGELFEGLMAAERALKPGGQLAVVTF
+HSVEDRMVKRFLTARAGAGGNANRFAPEMESEPPQFIVKKRKAIGPDAQELEENPRSRSA
+KLRVAIRTDAPAGAVDAKSIGMPMVKGFIS
+>tr|B7RQS2|B7RQS2_9RHOB
+MDFLNALVALANYVLVPGIAYGSQLALGALGVTLVYGILRFSNFAHGDTMALGAMSAVLI
+TWGFQAMGLHLWVLPTALIALPFAILITIGLLLGTDRMVYRFYREKKAKPVIFVIVSLGI
+TFIYNGITRFIIGSDDQNFADGERFIISARTFKKMTGLEEGLAIKTTQGLTVITAIIVVA
+VLFWFLNKTRSGKSMRAYSDNEDLALLSGINPERVVMITWIIVACLATTAGVLYGLDKSF
+KPFTYFQLLLPIFAAAIVGGLGNPVGAIAGGFVIAFSEVTITYAWKKVLGYMMPAGLEPD
+GLVQLMSTDYKFAVSFVILLIVLLFKPTGLFKGQSV
+>tr|B7RMQ6|B7RMQ6_9RHOB
+MSPTSLGDLAQSFMLRHRNTALKQEMTRLTQELSTGQVADIRQALAGNYSYITELERNME
+VLSAYQVATTEAQIFAEVTQTALGRYEEVGEKLANSLIVSGTSTVGAQANDTAEEARVTV
+SVLISTLNTKSAGRSIFGGTATDRPATASAETLLSELRAAIAGAVTPSDMFAAAEAWFDD
+PAGFDTVIYQGSADALAPVQLTNRETVSFDTRATDPRLKDMLRFASLAALAEDPSLGFTG
+SQKGEVFVDAGTSLLGARDAIISLQARTGFVEAQIEGISTRNAAEITSTEFEKSALLNVD
+PFEAATKLEDVQFQLQSLYSVTVRMSQLSLVNFL
+>tr|B7RJ48|B7RJ48_9RHOB
+MTEKLPVTIAIPVKNEAANLAQCLDRLEQFAEIVVIDSGSEDKTCEIAESYGARVSHFRW
+DGKYPKKRNWFLMNEPPTQPWVLFLDADEFIDPAFCDALKEALLDETKDAYWLSYTNHFL
+GKPLRFGVAQRKLALFRTGKALYEKIDEDGWSTLDMEIHEHPIVDGDVGEITAPIDHRDY
+KGLGKFIEKHRDYALWEARRYAKLVENPSAWTHFTNRQRFKYRHLAEWWYPWFYFGFTYV
+VKLGMLDGGAGFHYAAYKSWYFQTIRLLIREQSALKDH
+>tr|B7RG37|B7RG37_9RHOB
+MRVYLDHNATTPVRAEARAAMIAAMDVVGNPSSVHTEGRAAKMLVERARAQVAELVGCKT
+TQVIFTSSATEAAALAVAQKARHGGLFSALPTEHDCLGDWSEVALDPAQVGGGAIEGHHL
+RAVSAANSETGILGASGVVVGSTPHHSTVCDITQLAGKMPVIYGEVTPSYAILSAHKIGG
+PKGVGALINFTADDPVPMLRGGGQEMNRRSGTENTIGIAGFGAAAAAAGQDVAAGRWDEV
+AQLRNILEKTIAAATDQTIFVGKDRPRLPNTSCILTSGWKGETQVMQMDLAGFAISAGSA
+CSSGKVKASKVLIAMGYSEAQASSAIRVSLGLETTKDDVLRFADAWIEKWTKHQMRVA
+>tr|B7RH66|B7RH66_9RHOB
+MTDDVQGLSLGIFLCGIGIHVLTSVGLITGQTAGLAVIIAYLTGYSFGIVFFAINLPFYF
+IAYKRLGMEFTIKSLISVSLLSVVTELLPLGFVIQSLDPALGAVIFGSLVGLGLLAMFRH
+NGSLGGLGVIALLVQDTTGFKAGWVQLITDAIIFTVALFLFPATVVVYSLLGAVVLNLII
+TFNHRRDRYIAT
+>tr|B7RIH4|B7RIH4_9RHOB
+MPLSIGFGALVVLVGVLGVWSVTARIAGAVIASGMIQVENNRQVVQHPEGGVVGEILAKD
+GDEIEAGDVVMRLDDALLQSELAIVQGQLFEIKARQARLAAERDGLEDIVLPDELVEAAA
+NSPEIESMIDGQRSLFLARKESLRREADQISEQIAQANNQIEGTEAQLAAFQTQQDLILS
+ELEDAESLLEKGLAQASKVSSLQREQARLLGEIGSLKATVAQLRGQIASLEIQVLKLTTT
+RREEANTTLSDLQYREIELAERRLSLRETLSRMEIRSPVSGVVYDSQIFALQAVLSPAAP
+IMYVIPQDQPLVVSARIEAINIDQVHVGQEASLRFVAFEQRTTPEIFGQVSRISADVFKD
+EVTGQSFYRAELLPREEELEKLGDQKLVPGMPVEAFIRTAERSPLSYLAKPLTDYFNKAF
+R
+>tr|B7RSK7|B7RSK7_9RHOB
+MLGGLYLFSALRWEVGCDWPNYIINFEMQKPASFADALSQPNPAHWLLLEVMDLWGLDYI
+WLNVITSAIFFAGLHSIARRSPAPLAVLVLAFPVLILNMPMAAVKQAAAIGLICFAFNAF
+IDRRVLHFALFVGLASTFHGSALIFALLGPFIIGRYSLRNVLLAALLAVPGVFALLATEA
+ADIATTRYIATDTDAGGAIFRVGLLMVTGLFYQFFLSRHWQAVLPHSHKLISLLVLGMIC
+LGLLLPVSSVIADRFGYYFIIPQLMIYAALPWLYPRGRKQLIKIAPYLSLLVLFIAWTQL
+SRHFQGCYLPYGTILG
+>tr|B7RGS7|B7RGS7_9RHOB
+MKLFDHKNREASEASRTLYARFELAHTFVDFMAAVCFIVGSILFFFESEQIPATWLFLIG
+SFLFAAKPTLRLVREIKLYRMGDVKDLAKRAK
+>tr|B7RQL4|B7RQL4_9RHOB
+MSTLSKQKIGGILAKQGILIAFLAFMVAFTIANPKFLTPDNILSVVRSSAILGVMALGVT
+FVVISGNLDLSVGSMMSFSTIVVLDLHDKIGPVMAILAMFAMTLALGAVIGFLVGYLKLN
+SLIVTLGMLSAIHGLTLTYSGGKNMDIADKEGTWFSVFGQGTALGLPVPILIFVALAAIL
+GLVLSKTSFGRKVYAVGGNGTAATFSGIRRARTVFLCYIISAGCVATAGLIQASRSLGSQ
+NTVGQGLELEVLAAVILGGASLLGGSGTIFKTVIGVLILGFIQNGLLLVGLQFYVQFVVT
+WVIIILAVWLDIAAKRGKLWSRIA
+>tr|B7RHH6|B7RHH6_9RHOB
+MMQPVFWALHDGQGRWAAITAQETSVGVMLNAAPCGRDKGKDTKMTLDSPSWIGMDWGAA
+GVRVWVHDATDQIIAETRIPSVGVHQIADQMAVYLPENQTTPVICSGLPFIPASAYPAVP
+AAAVAGLLQVQSDDPRLQLLAVPGLSQKKPVDLMCGCETAISGVLAADPEFDGVICCIDS
+KSTWAQISAGEVVSFQSFLTPEITASLIHAPVLAQAVTQGGLVQDDFAEALETIMARPQS
+FGAELARIPAVAALTDNDAATGWSRLMGAVIGLELSGARPYWLGQRVMILGDDVMAPLYA
+AALAHAGLQAETQGRDDAVLAGLRHIHKTYVAAK
+>tr|B7RS48|B7RS48_9RHOB
+MIVFALWIIVAEQMSGTSANAFVNARLVTVRSDVAGQIAIPSRALGARVGKGEVVASMTD
+PLVDTIRLNDLLMEQAFLVSERARLEGYQEATEAILELLEKRSEVYSVHRIEELKIRLDH
+ARQRLALIEGQADQESDLNEALDAVGAVTDALPGETRFPALARDHARERVEVLEVALRAA
+EDGVFLGDGYNDAPNAQQRAVELRSEVAATAAAMADVEGRQEAVAARVALERQRVNGLTG
+GDLASPVDGMLWEVLAADGEHLERGDPVLKLVDCGSVIVSLSVSERLYNSLELGQAAEFR
+PLGETRVFNATVSRLAGAGAATIYRNLAVAPGQKHLERYDVTLQVSGLTDVPGLSCGIGR
+TGRVFFERRPLDWLRRVF
+>tr|B7RGB4|B7RGB4_9RHOB
+MTKHVVLVEDETNIAEAIRFLLGREGWRVETLANGNAAVEVIRKARPDLVMLDVMLPGKS
+GFEILKELRADAGFADMPILMLTARGHARDREMAELAGVSRFMTKPFSNAEMLDAVRELT
+APGSLTA
+>tr|B7RK63|B7RK63_9RHOB
+MRILAVDDDPVIRDLLKGCLTEDDNYFLTCATSAEDALVMLKAAKHPFDCFLLDIMLPGV
+GGIELCETLRNTPGYRSTPILMITASREIGLMQRAFVVGATDFITKPLNGIELGARIKTA
+GLLNDSLRREEQARHRLEELTQATKIRFDERIKLDVDGVGEFLELENQLLRLQNGCYGIN
+LFTVEIEGLRRIYRAVKPPAFRYCVTQGAEAGASSLMKQPSQLAYAGSGRFVGYQMGRRR
+LDFDLIAENMNLKMEKNWDAARGEVPAPPRMRIKPITDQRIWSGISASEKLRENLTAGEL
+FPNLSFEEENNIFAKMDIVMSGED
+>tr|B7RHX3|B7RHX3_9RHOB
+MHISDSTEGYEVSVMMTKTFRLGSALLAVMALGNCTGFDAPDNLEPIAEGDGYQAQYRAI
+DGSRNSAQFLRSPAINAQKCTAPRGGTGGKGAGLAAASLRGERLTRNDLVDIRIGDDETF
+NGDYVVSRDGTIKLPFLAPIRAQGQLTSEIENDIAEQLIARDFFVDRPRVSVRVADFASV
+TVGVSGAVFEPHAVEIGGVPGDQVDSRRQTALGASTEGRNLSAALRAAGGVRPDADISAV
+ELRRNGALYLLDMRGAFEGKNAVDIMLLTGDEVSVPSRGCFQEDLMRPSPISPPGISLFL
+SNLTQPAAGNAISAVGRDVREVPYGTRYLQAVINTNCVGGARASSAHRSSVLFSRNPVTG
+VSVVIERDIEDLVRRADRDDYDPYLLPGDSLACYDSTITNIGEVGRVVGQLAL
+>tr|B7RLL3|B7RLL3_9RHOB
+MEVTMAFLRILLPLVFIASFAGLTAAQDASGDPMVTEPGKQTLEDILARQRGEDVPFGAQ
+VPLPETRAGAPTADQLGTLGGASDPTLWREIRANEGTAVVASNKGPAAKVLMQEGGMWWL
+NFREGPLLTYGGALLGITVLLLAIFFLIRGRIKIEHGRAGITIERFKWIERFGHWLIAGS
+FILLGLTGLIQLAGRKLLIPTFGHEAFSTFAIAGKWVHNNVSWAFMLGLVMVFVMWIAHN
+LPDRTDINWILKGGGIFGKGHPPAKKFNAGQKLIFWSVIILGTSISVSGLSLLFPFEINM
+FGPTFAKLNDMGLPQLLGFGPIEAALTPQEEMQYAQLWHAIVSFVLMAVIIAHIYIGTLG
+MEGAFEAMGSGDVDLEWAREHHSIWADEVVAEQSKAAPATHPAE
+>tr|B7RPX5|B7RPX5_9RHOB
+MTANATYTVSYGTTQNYAFSSNYFGTPQTGPDGILTASQGAGVYAAGTPGVLPTQSYQNS
+NYWVDVGFRASDAPNQPPAFTLAGTSFTVPENRTTAATITAIDPDGDNFVFAVAGGNDAA
+AFNINGTSGLLSFAATPDFETPQDLNLDNIYEVLLSISDGINPAVTQAITVEVTDVVDET
+APVLASLFGVTDAPAQIITSDSTDYELGVEFAAATNGEVTALRYWRGDLDAGDTDTRTLN
+LWTGTGTLLASASVTSTPGQSGWQTATLATPVGLTANDPYVASYGTTQNYAFSGNFFATD
+WVGADGTLSAPASVGPTGNGVFSAGTTGLFPESSYNASNYWVDLYFDPFDALI
+>tr|B7RQE7|B7RQE7_9RHOB
+MAPVIRSALWLGFFGLILAAWSIMYAMSTGMGLDLLGRPDATGQMMRNMDPGMDMEMPMA
+RFGPLAVMWGGMMAAMMLPTMIPTLRSYEDLMVSANGTRAGWFGVLSGYFIMWLGFAMVI
+ALVQLALLYGGVIDMLGIAKSRWMAAALLLAVGLFQFTRAKEICHGVCHSPMMYFMGHWK
+PGFAGGVRMGLGLGSFCVACCWGFMVLGFAGGVMNLAWMGLATLFMVLEKLPQIGHKVTR
+PMGVLLILGACAVAAWPLYSGG
+>tr|B7RRR3|B7RRR3_9RHOB
+MYIGFAAGGGADTQARLIAQGIEERYGWKVLPQQLTGNSGLSLAAELAKAPADGTAIGMV
+VSETLTYSALAAGADDIQLDKFTPLATTASFEFGLVAMADGAFDSWDKVDAAAKAGNPIR
+FGVASDRQADVAYLFGKSAGIKLNIVPVKGGAGVMNGLRGGDLDIGWVAGAQSKPVKQGE
+MVNIASGIPAALKDSPDAPMITDLGSTFYLDGYFMFIAPAKMDPAARSSLRAAIEEVLND
+PATEAHTLVTNGFDGADVITGEALDAKMKGLLEDATNLLDEASKG
+>tr|B7RI77|B7RI77_9RHOB
+MTTFTALTTLEGRKPAYALGEAMENLVPEPTGVGVFEMEDGSGLWEVGGYFEEAPDETAL
+AVLAAAMGAKAFVVSELPETDWVAHVRRELSPVAAGRFFVYGSHDADKVPADCEPLLIEA
+AMAFGTGHHGTTLGCLRALDRLANDGMVAQNVADIGCGTAVLAMAAARIWPNPVLASDID
+EVAVDVARANAEANELSDRLICVEAAGFDHPDLAAKAPFDLIFANILKGPLVALAPDMAQ
+ALAPQGKAILSGILNEQADDVIAVYAESGINLLHKEMIGDWTTLTVQKMP
+>tr|B7RRI3|B7RRI3_9RHOB
+MIPNVLSIAGSDPSGGAGIQADIKAISANGAFAMAVITALTAQNTQGVTGVHLVPPDFVQ
+SQIDAVFADIRVDAVKIGMIANAEIAAAVAQSLQEHGGIPVVLDPVMIAKGGADLLQPDA
+MMTLRDALLPLATLLTPNLPEAAHLLGTRTATTRAEMVAQGRALCALGPQAVLMKGGHLN
+GPDSPDCLVTPHGTTWFEAERTPTANTHGTGCTLSSAVAAGLAHGLAPARAVAVAKSYVA
+KAIANADALSVGSGHGPTHHFAALYANRK
+>tr|B7RQM9|B7RQM9_9RHOB
+METKAMKDNVISETDVTTDKIKIAARDVQVYYGDNHAIKDVSVDIQDKTVTAFIGPSGCG
+KSTFLRCINRMNDTIDICRVQGDILIDGEDIYDSKVDPVQLRAKVGMVFQKPNPFPKSIY
+DNVAYGPRIHGLARNKAELDDIVERALKRGAIWNEVKDRLHAPGTGLSGGQQQRLCIARA
+VATEPEVLLMDEPCSALDPIATAQVEELIDELRQSYAVVIVTHSMQQAARVSQKTAFFHL
+GHLVEYGETDKIFTAPEDPRTESYITGRIG
+>tr|B7RRE8|B7RRE8_9RHOB
+MHGLKVPSGDMDDKLEGRINYGSAAKHHERLITVSGPAFIRIPERSKLIMKFIGAMQFTK
+LGLLHRLHILCRPDVNPVPINFLKLA
+>tr|B7RSG4|B7RSG4_9RHOB
+MTTPHFPAADGFDPRAFRAALGCFATGVTVITAQSDGRRVGVTANSFTSLSLDPPLILWS
+LVKTSSSYPTFKVASHFAVNILAHDQIGLSNQFARRSDDKFAGIDVTEGQGGCLLLPKTC
+ATIQCARETILDGGDHWILIGRVTAYDASDNAPLVYHRGGYSMVHPHPQVAAE
+>tr|B7RM12|B7RM12_9RHOB
+MGFRNYAARPAGYGRIGGHDGRPVGPGHPHARKMRKTTQLQAFDQ
+>tr|B7RRK3|B7RRK3_9RHOB
+MSDFHQNGNIATLHNLRTRSLDEMTYELETFAQNRKMALILPCLYSELETDAMPKILAEL
+SKVTYLHRIIIGLDRADEAQFRHAKEFFKGLNQKHIVIWNDSPRMLELGARLDALGLAPS
+EQGKGKNVWTALGYLMSCQDSAVMALHDCDIVTYTNELLARLIYPVANPNFPYQVAKGYY
+ARVGSDKLNGRVTRLLVSPLLIALKKVVGDRDYIEYLRSFRYPLSGEFAMRTGILPDLRI
+PSDWGLEIGVLSEAWRNLAPKAVCQVEICDNYDHKHQDLSPEDATAGLSRMSTDICKAIF
+RKLAADGTIFTNNIFRTLKATYYRTALDLLEAYHADAIMNGLTIDRHKEEQAIELFAENI
+MRAGNFFIENPHETPFIPTWNRVHAADPDFLADLHAAAAADEAEFV
+>tr|B7RRK4|B7RRK4_9RHOB
+MAEKSPSISVKIAQLVQEIYPELDPDILASHIIDAFWPDEMPRRKRGRVPGNTLWSQRDA
+LVITYGNSIIDGAFKPLDLLHDFLLRYLRGAINSVHILPFFPYTSDDGFAVSDFRAVNPQ
+LGDWPDINRIAGDFTLMSDLVLNHVSSQGNWFNAYRQGQAPYDKFFFEASPDDDLSMVVR
+PRTTPLLQEVETSNGPRHVWCTFSHDQIDLDFRNPEVLLEFLRIIRLHVDNGVQIIRLDA
+VAFLWKVVGSPSIHLPQTHAVIRLMRLLCDYAAEKIILLTETNVPKAENLSYFGKGDEAH
+AIYNFPLPPLILHAMMSGSATYLHKWQRTMPPAPMGCAYLNFTASHDGIGMRPAEGVLPD
+VEKEKVIDTVRDLGGLVSMRALPDGGQSPYELNITFFEAMGGTFKGKDSHHFDRFICSQT
+IVMSLEGIPAFYIHSLLATPNDHAQVDHRGMNRAINRHRWDYPALQALLADPQTDQARAL
+GALTGRLKLRGAQMAFHPNATQFTVSLEDPRVFGVWRQSLDRRQSIFALHNVSDQAITVP
+TTSINMIEDENWVDLLSSEAITHDAPAITLAPYQCRWITNRA
+>tr|B7RGQ1|B7RGQ1_9RHOB
+MRDIQSFAAGQWINPGAGSRNIASAITGDVIARAGNDALDIQSMLAYAHGVGGPALRKLT
+FHDRAKMLKALATYLKDHKQSLYDLSFDTGGTKSDHMIDVDGGIGTMQVYAAKGRREMPD
+DQIFLDGPPEQLGRAGQFMGRHICTPLQGVAVHINAFNFPVWGMLEKLAPTLLAGVPAIV
+KPATATCQVTEACFRLMIQSGILPDGAIQMVTGGLGDMLDHLDCQDVVSFTGSAETANKL
+RSNPALLERSVRFASEQDSLNASVLGSDAAPGTPEFDLFVKEVQREMTAKAGQKCTAIRR
+IMVPEAHIDAMIDAISARLAKVTIGDPRLETTKMGALVSESQRRDVLEKAALIGAEAERV
+FGDPDSFAVDGADREKGAFVPPMLFHCADPDNAIRIHDTEAFGPVSTVMPYRDTDHAIAL
+LNKGKGSLVASVITRDGDIARQMAMGAGAFHGRLYFNNRESMAEATGHGAPLPHMVHGGP
+GRAGGGEELGGIRGVMHYMQRTAIQGSPDILTAIGKQWVPGATEISDRDHPFTRVFGDLD
+LGETFNSASRTITLDDIETFAHFTGDTFYAHMDEDAAKANPFFPGRVAHGYLLLSFAAGL
+FVQPDPGPVLANTGLDNLRFMAPVQAGDSIKVRLSVKAKTPRNDEYGEVRWHVTLTNQDD
+AAVAEYELLTMNAY
+>tr|B7RGT7|B7RGT7_9RHOB
+MSFFAGLISTVFERRYRSALSDEAAGRSITELASDLLGSHGEVSGSTLARLILDRYAAMD
+TDEKLAFFVFMTHDLEIDPQKVTDALQSYQDTPSKDSYRAFAKACEPPRQELIRRLNQVP
+GATAQLVAMRKDLLDFLRKHPDLAPLDVDFQHLFSSWFNRGFLVLRPLNWSSPAEILEKI
+IAYEAVHAIDSWEDLQRRLQPADRRCFGFFHPAMAGEPLIFVEVALTQGIPDSIQSLLAD
+GRDAIHPQDADTAVFYSISNCQAGLAGISFGNSLIKQVAADLSRDLPMLKNFVTLSPIPG
+LNAWLKKTDAVPDANPVNLAAHYLLEAKRPDGMPADPVARFHLGNGAMVHAVHGNADLSD
+KGMAQSNGAMVNYLYDLSQITKNHEQFVAEKTVIASPDVRALSASFKSDT
+>tr|B7RJF2|B7RJF2_9RHOB
+MMALLILGMILWVGAHYFRRLMPDQRAALGNKGKGMIAVAIVVALVMIIIGYRGAAFINV
+WYPPSFLTHVNNLLMVLAFWVYGSSAAKGAKAWPANKTRHPQLMAVKIWAVAHLLVNGDL
+ASIILFGGMLAWAVGSVILINKAEPNWTPPPAAGKATYIRLVVITAVVLVIVIGIHTWLG
+VSPFP
+>tr|B7RL33|B7RL33_9RHOB
+MTRFILLTFGFLGWAFYEMSGGANFEPRRPQMAANAAEATAVVAQASAPVAKATAKAEPA
+QKVAKTTPVDTTPPGFANSVNPDYVIRASMNVTDSQKAPEIAPVRYVPVKFGSNASSADT
+PAIIPSLITPNDTGANVISASAADDIRAVSGNRVNVRGGPGTNFGIVTRLDRGDSVEVIE
+DLGNGWVQMRAIDDGRVGWIADFLLASS
+>tr|B7RM73|B7RM73_9RHOB
+MNRWTDLARTRYALTSHRALFFRLQKGETRVKAFPRSAETKPDVKKTSPPSVFFIRQERA
+DNPVLAAHLGFEYIHDSDGLGALLANRFEGDPK
+>tr|B7RMA3|B7RMA3_9RHOB
+MKSDTIQKPHDRMAEYLAVDMAAVNTLIRDRMASEHAPRIPEVTAHLVEAGGKRLRPMLT
+LAAAHLCGYDGPYHVHLAATVEFIHTATLLHDDVVDESAQRRGRPTANLLWDNKSSVLVG
+DYLFARSFQLMTETNNMRVLAILSNASATIAEGEVLQLTAAQNLATDESVYLQVVRGKTA
+ALFSAATEVGGVIAGAPDAQVQALFDFGDALGIAFQIVDDLLDYQGDASATGKNIGDDFR
+ERKLTLPVIKAVARADAEEHAFWTRTIEKGRQEDGDLEHALSLLHKHDTMTQTRAEAVAW
+ANRAKAALDALPEHGVRDMLRDLADYVVARIN
+>tr|B7RI30|B7RI30_9RHOB
+MNNCVNLVKLSVGTETIADLAAWQATKRAQTPEGFPRHVTRMWPKRESEIINGGSMYWVI
+KGSIQCRQKVIRLDEYVGQDGIRRCAIVLDPELIEVQSSLKRPFQGWRYLAPADAPSDLP
+AGRAQEEPIPVELNRALAEIGVL
+>tr|B7RRZ8|B7RRZ8_9RHOB
+MSTAPKDMNGAESVVRSLHAGGVDVCFANPGTSEMQFVDALDRTKLMRCVLGLSEGTVSG
+AADGYARMAGKPAVTLLHLAPGFANAAANLHNARKARVPMLNLVGDHALRHQKYDAPLSA
+DVSGACAPFSDWVRSGRDAGSFAANAMTALAVAKGQPGRIATLVAPADIGWDAGGKLAEV
+IAPKGPVPLDDHALNAAIRTLESGEKTVIIAGNSVLEDTEALALLQSIAEKTGADIVAPT
+SNRRMERGRGRIAVNKIPYPINAALECLAPYTRAILIETAPPVAFFAYPGKPSLLLPVGC
+NIVTLADVDGDGPKALAALADRIGAKPGKPFDKPALPVPQAGAITLKNIAAALAHVLPDN
+AIIVDEAVSSGGAISEAGDTAAPNSWLALTGGSIGIGIPLSAGAAIACPDRPVITLQADG
+SAMYTIQALWTQARENANVTTIILANRSYEILKGELHNVGAQPGPDALSMLNLDRPNLDF
+VALAKGMGVPGQRVEDVTDLMRAIENAAKEPGPYLIEAAL
+>tr|B7RGQ5|B7RGQ5_9RHOB
+MQRDRYTRIVSWLKVLFPLAALGLLSTLFLLSRAIDPGQVIPFAEKEIQDRLRDQQITAP
+FFTGATAKGDMISFYADVLTTPGGQVGSNRAENIRATIKTAEGVTFRLQSGMADIDLAQD
+HAELTGNVILMTSTGYRVTSERLTSELSSVNLQSPGAVYGTAPGGTLEAGAMTVQQSETD
+TSPQLLFTNRVKLIYKPKPLPE
+>tr|B7RKM8|B7RKM8_9RHOB
+MTQGPRKTARDFDPRLLEIFDGYVHGAISKRDFMRQASKFAAVGVTGAMLLEQLQPNYAL
+AQQVAPDDPDIETATIEYDSPDGHGTIKGLMAKPAGATGPLPAVLVIHENRGLNPYIEDV
+VRRCAKAGYLALGPDGLTPLGGYPGTDEEGREMQRSLDGVKLMADFFAAFEFLRDHDDTT
+GKVGAVGFCYGGGVCNALAVAYPDLAASVPFYGRQPDAADVAAIQAPLMIHYAGLDERIN
+AGWDAYSEALRANQKEFSVHFYPDVNHGFHNDTTPRYDAEAAALAWDRTLAHFEEHLRG
+>tr|B7RMP8|B7RMP8_9RHOB
+MLHIANDIAIQDWELTETFMRASGPGGQNVNKVSSAVELRFEAATSPSLSAPVKTRLRRL
+AGRRWTTEGALVIQCDETRSQARNREIARDRLKALIISALTPPKRRIPTRPTLGSKKRRL
+KEKKVRGEVKNLRGKVDPDT
+>tr|B7RPA7|B7RPA7_9RHOB
+MAYVNVTNAPSIADRFNALLSAIATRRTQRRVYRATFNELSALSTRELNDLGIGRSQIRG
+IALETGRNAA
+>tr|B7RLX6|B7RLX6_9RHOB
+MTFTPHGKHLLAGDWIGNEATFLSEPAHGDAHTFSVGTPELVDQAAQAAEDAFWSYGYST
+REERATFLNTIADEIDARGDAITQIGTQETGLPEARLQGERGRTTGQLRLFASHILAADY
+LDRRHDKALPDRAPLPRPDMRLMQRPIGPVAVFGASNFPLAFSTAGGDTAAALAAGCPVV
+VKGHPAHPGTGEIVAEAIHAAITKCNLHPGVFSLIQGDGHNFGASLVQHPLIKAVGFTGS
+LGGGRALFDLCAQRPEPIPFFGELGSVNPMFILPEALMARGKDIAAGWAGSLTMGAGQFC
+TNPGIVILLDGPDADAFTKTATEALSSIGAQTMLTDGIAAAYRAGTDQIANTSGVRALVT
+SATDARRATPVLFATTAQEWLENDTLGEEVFGPLGLIVHAKNRDEMMTVAKSLKGQLTCT
+IQMDDGDAEAATALLPILERKAGRILANGFPTGVEVCDAMVHGGPYPATTNFGATSVGTL
+SIRRFLRPVSYQNIPDSVLPWDLA
+>tr|B7RS79|B7RS79_9RHOB
+MTLRIAFVTAEPFTQASGVRVVVESLSRELAALGHEICVFGVISNGSPKELPDWWRGAKV
+QTFSERIVKTFGFSNQICARLAQFKPDVIHVHGIWTFSSIAGMQVKRATGASLIISPHGA
+LSTEALKQSTHKKRLAMAFYQHKCLMAADGFHVTCDEEAQEVLSIAPKAHVQVIRNGVDA
+DANTIRPMTARKKRVLALCRLDPKKGLENLISAWKHMAHHRPDWTLELRGPDRNGYINQL
+KALAATCTTGQISFGGPLFHAERDAVMADSKLFMLPSKNENFGLTAAEALSVGTPVIAAT
+GTPWSGLIDQSAGWWTDNTPEILARALLHATSLPDSTLEAMGQRGQDWMLRSFRWKDIAA
+DMSGFYTDITRCPAQTKPTAQELCQ
+>tr|B7RPW0|B7RPW0_9RHOB
+MTPLLQVEALGKFYGSRIGCTDVSFDLYPGEVMGIVGESGSGKSTLLNCLAGHLVPDRGA
+VRFDTRVDGLRDTITMSEAERRMLGRTDWAFVHQHARDGLRMNVSAGGNVGERLMAVNAR
+HYGDIRAAAIDWLGRVEITQDRIDDRPTAFSGGMQQRLQIARNLVTGPRLVFMDEPTGGL
+DVSVQARLLDLLRGLVREMNLSAIIVTHDLAVVRLLADRLMVMKDGHVIETGLTDQVLDD
+PQHGYTQLLVSSVLQV
+>tr|B7RNR1|B7RNR1_9RHOB
+MALRLAGHDVKVVERGQGAGTGLMVAGYRGVLRRMLPRHFALVLRDISRLGNSLAFGRRL
+AKEARKHDADLIVETQMNGAASGATAARISGLPLVLDDCSPTSEEDVLGAGLPLLARKIL
+LFQAGAAAVVIATSRSVRDRLVGEGVAADKIHIVRNGVSLDRFKAADGRSIRARLGLADR
+CIIGFVGSFLDWHRVDLLVDAVGRIPAAMNVHLVLVGTGPNLAAVIRQSERIGIRDRVTS
+VGGVAASDIPDHLACFDIGVLPDTLDYGNPMKLTEYAAAGVPTVAPNRPSVREVIENGQT
+GLLFPPQNVDALAGALMRLAQDPALRAEIGGKGRVRIAAKSSWPVLAQSLIGALDSQSIQ
+GAAPSVDPLETQQNAPVAE
+>tr|B7RKS2|B7RKS2_9RHOB
+MMMKVTMATCAAFLALSTAAYADFQPVKSQADFVSVVTGKKLTRPLVELRVSANGAISGT
+GAVWDVSGSWTWKDGFFCRTLEWGGDDLGYNCQEVEINGGKIRFTSDKGTGDSADFTLR
+>tr|B7RMP1|B7RMP1_9RHOB
+MAQVVVPTRTVRADAIITEMDVMIGNVSAADGFDRLRDVIGQEARVVLYAGRPIMLDQIG
+PPAIVDRNQIVSLFFEGRGLRIATEGRALERGGVGDNIRVMNLASRATLFGQVQQDGTIQ
+IRQ
+>tr|B7RK93|B7RK93_9RHOB
+MNHPKLAVVVKGWPRLSETFIAQELVALEEAGLRFDIWSLRHPTDVKTHPLHDKLQARVR
+YLPEYLRDDPDRVATARAAAQAMPGYADAFETFQRDLARDDTPNRRRRFGQACVMAHELP
+ESTRGIYAHFLHTPSSVARYAAILRGIPWSFSAHAKDIWTSPDWELREKLDPARFGAAFG
+ATCTGFGAKHLRAMAGDPDRIDLVYHGLDLSRFPAPPERTPRSLSDPFQMMSVGRMVEKK
+GFDNLIDALALLPETLDWRWTHIGGGSLSDTMQDRATALGINDRITWRGACDQPEVIAAM
+RAADLFVLPSRIAQDGDRDGLPNVLMEAAGQKLPILSTPVSAIPEFIDTGTSGILSDDAP
+AALASAIQGFADDPALGPRLAEAAHARLHSDFTMAPGIRQLHKRLNALLVQAD
+>tr|B7RM23|B7RM23_9RHOB
+MLLACVLSRTLVETAQISVTRHGMIPRVVLCFYGSEDPVFRCHAC
+>tr|B7RNR3|B7RNR3_9RHOB
+MKKVMLIVGTRPEAIKMAPVHMELAARPSEFDVSVCATGQHRQMLDQVLRIFGIQPDFDL
+DAMQPGQSLNGLVPTVMRGLGAVFEKTKPDVVLVQGDTSSAVAGAMAAFHLQIPVGHVEA
+GLRTYNKHAPFPEEVNRKLISSIADLHFAPTRHSEANLLRECVAPQEIVVTGNTVIDALY
+WVLKHKTPDMEPYTGTIPKGSGWILVTGHRRESFGDGFRNICLGLKEISQKYPAHQIVYP
+VHLNPKVRDTVNAMLGDLKNIHLIEPMDYVPFVHLMQQAAFIISDSGGIQEEATALGKPV
+LVMRDVTERPEAVQAGVCKLVGTDPKKIVAEASALIDGRSLVGGQIDAARKVYGDGHAAR
+RIADALAEDERAVNNFVTRPPMGKGRGAALRADAAPAPAVPR
+>tr|B7RN12|B7RN12_9RHOB
+MDIKHAGSRPSETGSPDYFTGTVRVDPVVSAPDPARIRAATVTFEPGARTAWHTHPLGQT
+LMVLSGAGLAQTQGGPITPLRAGDTVWFAPGEKHWHGAAPDCAMSHLALQEALDGKAVDW
+LEHVTDAQYGG
+>tr|B7RRL0|B7RRL0_9RHOB
+MAQCLRSVQNQTYPHVEHIIQDAGSTDWSLEVIKAMMTENTKLISHTDGGIYDGINKGIA
+RATGDIIGLLHSDDFYASDTVLEKVAKLMEDPAVDGVYGDLDYVDAEDTSKIIRKWRSGN
+YAANRLRQGWMPPHPTVYLRREVFESWGVYDTSYFVGADYDAMLRYLVKGKVNLAYLPEV
+MVKMRRGGKSNGSFANILRKSSEDYRSIRRNGVGGFGTLARKNFSKVSQFF
+>tr|B7RSJ6|B7RSJ6_9RHOB
+MIPVPANTRVWLAAGVIDMRRGFTTLAAQAEQTLKQDPFTRHLFVFRGRRGDLIKIIWWA
+GQGACLFSKRLEKGRFVWPSAKGGKIALTAAQLAMLLEGIDWRVPQRSWTPLKAG
+>tr|B7RHX0|B7RHX0_9RHOB
+MIVGISMMAGALAPAQVSAEAKIYPYPTTANYCPAGLQPITIAGVICCGTPNQSVSYQSM
+MAHPVKKAHKARYYQPRPVSYSCLPGEKGCR
+>tr|B7RRA0|B7RRA0_9RHOB
+MNGKLTRATEIDRVSELLGLPEEINDIDSLNSEVAKGLPVKSVEKILDVLASTPAMNIIP
+DRAYRRAKSEKRAISVVNSQILYDFARAYVVADRVHNGNGALVMRFLEKPHQDFGGTAPM
+ALAISSPAGADAVIDLLNS
+>tr|B7RPB6|B7RPB6_9RHOB
+MLYWLTLLSDGGDFFNLFRYITFRAGGAFLTALVFGFLFGKPLIAVLRRRQGKGQPIRDD
+GPEGHFIKAGTPTMGGLLIVGALLTSTLLWARLDNPFVWMVLFVTMSFAAIGFADDYAKV
+SKQTSAGVSGKVRLLLGFAIAGISAYWAAQYHPAELQNQLALPVFKDTLINLGYLFIPFS
+IIVIVGSANAVNLTDGLDGLAIMPVMIAAGALGVIAYAVGRVDFTEYLDVHYVPGTGEIL
+IFTAGIFGGGLGFLWYNAPPAAVFMGDTGSLALGGALGAIAVATKHELVLAIVGGLFVVE
+ALSVIIQVLYFKRTGKRVFLMAPIHHHYEKKGWAEPQIVIRFWIISLILAMIGLATLKVR
+>tr|B7RK45|B7RK45_9RHOB
+MNSLQDTWVYLSATPLFHLTMTLVAFQVANFAFEKAGRNPLLNPVLGAVLLLVAMLLITG
+TDYGTYFEGAQFVHFLLGPATVALAVPLYRQWYNVRRSALAIAVSLIAGSLTAILTAVAT
+AWFFGGSLPILASLAPKSVTAPVAMAIAEELGGLPSLTAVLVIATGIFGAMFGPGILNLV
+GVKDWRARGLAMGTASHGIGTARALQVNETAGAFSGLAMGLNALATALLLPIIWGILVGL
+LSV
+>tr|B7RL66|B7RL66_9RHOB
+MDAFTGLKEKTMSNSQTSSANDMSTQEKILANVDPGDFAWAVPIMRAGYAGRGLVYLVVA
+GISLWSILRGGQAEGTKSAMQSLDGTLGVIVVVAIAVGMFAYAIWRMVDSFWDLEAYGSD
+AKGVVARGGMLVTGLIHGAIGVIAITILGFASSGSSSKQMLNEFLKTTTGVWVVGLVGVA
+TMGTGIYYFYKAKSQSYREKLEANHFTLHWNPVLRAGVAAQGMVVLIIGGLIVYAALSTN
+ASEAGGIGSAFDWLHKQAYGRVLVAALCSGLMGFSLFCFVNAGYRIVPKAADDSVQSLAR
+KIKQMAS
+>tr|B7RNR4|B7RNR4_9RHOB
+MTYQFSSPERLAPSGPCIDLLGVRVSALNLMSASDRVHEAVRQGQRGYVCLCGAHGLVDS
+QSAPALRTAYNKAFLNTPDGMPLVWELHRQGHPDAGRVYGPDLMLEMFARGLRHYLYGAS
+PATLARLEARLRTRFPHAEIAGAYSPPFRALTVQEDDDVAARINAAKPDIVWVGLGAPKQ
+ELWMARMRDRLDAPMLVGVGAAFDFHAGKKPQAPAILQSMGLEWLFRLASEPRRLWRRYL
+RVVPGYLALLALQRTGLRQFPTATPVGAPGILVGKEEK
+>tr|B7RRU5|B7RRU5_9RHOB
+MPYSTRTLVLIGIGTALVAGLSYVSFRTDPVAVDLATVSRGPLEVTINADGQTQVRDLFE
+VASPIAGTALRSPVDEGDVVRKGETVVAIVRPSSAGLLDARAQLQAEAALQEATAARHVA
+QADLKQAQETQRFAQAQYERTQALVTRGFASITRLENDTQALAVANATVEAAQARIDMAD
+GAIERARASLLPPNPQDTPPESCCVMITSPTDGVVLSVAAISERPVSIGTPLVGIGDPAR
+LELVADILSNDAVRLKPGALAYVERWGGDEVLQARLERIDPKARTKVSALGIEEQRVDAY
+FDLVSPSGSRPELGDGFSVFLRIVEWRADDVLQIPLSAAFRDDMGWAVFVALDGVAEKRP
+VTLGRRNDRRVEVIEGLEQGEHVVTHPSDAIAAGVALVERSEL
+>tr|B7RGU5|B7RGU5_9RHOB
+MISLTSPVETRAHGWPVGAKLAGLCAATLVLFSIGSVWAQALICGLTLLIYAAPGWRFFK
+SGMLRLKILWPFVVLILVWHGLTADLTNGAVIVLRMVSAVALANLVTMTTKLSQMVAVVM
+WATTPLRWIGFNTRGIELGIALVIRFTPVFVQKGQMLALSWRARSVKRLGWRIVIPFAVL
+AIDDAEHVAEALRARGGL
+>tr|B7RGX6|B7RGX6_9RHOB
+MKALFLAFAFLASAAFAAELGSDDFAQLSAAKIVILGETHDNPVHHLLQADIVSRLRPKA
+VVYEMLTPEQAGSVTSGLVGNQVALEGALGWNAAGWPDFAMYYPIFKASGDATVFGAAVP
+RQVARSAMKDGLATAFGAQAGQFGLNTPLGPDEQSAREALQMAAHCDALPEDLLPAMVDI
+QRLRDARLAQSALQALQETGGPVVVITGNGHARKDWGVPAALAHVQPETAVFAVGQGEDG
+QAPEGGFDLVLDAPSVRRADPCDGFRTN
+>tr|B7RJJ2|B7RJJ2_9RHOB
+MDYQRLVTVMRRLSLEAGDKIMEIYGSDDFEVKTKTDESPVTIADEAADKIISDGLRAAF
+PDVMLVTEEQSDTHSVTGDTFLIVDPLDGTKEFINRRGDFTVNIALVEGGVPTRGVVYAP
+ARGRMFYTLADGQTVEEAGAFPKDEMGPVTSISVSDPDNAALMVVASKSHRDQATDDYIA
+KYQVRDMTSAGSSLKFCLIATGEADLYPRLGRTMEWDTAAGHAVLNGAGGAVVRYDDLTP
+LKYGKADFANPFFIAYAPGVDLKAS
+>tr|B7RHE3|B7RHE3_9RHOB
+MTQLVTDQGFTTDDWTAGFTVLGCANDAVALHVPSDAQPGDIQLNHALQIIRIDFPSSAD
+GRGFTIAKQLRLLGYTGRLRAHGHVLADQYAMARRAGFDEVEITDDLAARQPEDQWLARA
+NWQDHDYQSRLRG
+>tr|B7RH94|B7RH94_9RHOB
+MKPVNLAEKLAQFSTHWDPHVVADYNENEVMVVKLVGEYPFHKHDTTDDFFYVLEGEMQM
+DIEGEPSRTVRAGELFIVPKGVVHRPRAKSEVKVLLIEPKGEPNSGDSNREAAPKTRI
+>tr|B7RI87|B7RI87_9RHOB
+MAALRQIGLLIIVLVAGLYIWITYVPAAQPFLDRIGLLDLLGIEASQTAASEEGGRRGGG
+AARVIAVSVGEKSVTDRINAIGDGRARRSVTVRSSAVGVITDLYLTAGGYVQSGDIIIKL
+QDEEEQIALEQAKIQLDDARAEADRIKRLEATGATTEVRKREAELAQRSAELAVRQAEFD
+LSQRQVAAPISGWVGIIDLEEGDRVNAQDVLVTITDRSEILIDFRVPERVVNKIEIGQSF
+ALTPLGLRDTTLTGEVSAIDSVVDRASRTLLVQGRVANDADLLRAGMAFSVNLSFPGETM
+LSIAPLAVQWSSEGPFVWAVRDGKVSQVAVAIVQRNSDEVLVTSEGLKKDDMVVTEGVQT
+LREGAEVNISSQDASALLGPEKSQGASL
+>tr|B7RJ39|B7RJ39_9RHOB
+MTQQSRAILLMLGAIFCFSIMDATVKAVAPSVGVLPALWARYAGQMLLVFILVLPRLKHV
+VRTRYPGLQFLRSILLMSATAFFFTGLTLIPLTDAAALMSTNPVLITLGAALFLGEALGV
+RRVTGIAVALVGAMIVIRPGSDVFSLSALLPLAAAACYSGYALLTRHVGADEDIWTSLFY
+TGLVGTVILSLAVPFRWQSPDMASVGLMIVIALAGTLGQLALIRAFSQGEAAILAPYSYA
+GLAFAAFWGLVFFGETPDFWTVFGSLVIAGAGLYVWHRETYAKRAYSPSSSKVEMPTFKR
+>tr|B7RMY1|B7RMY1_9RHOB
+MRIFLLTALVMIAFAANSLLTRFAIIGGHIDPTGFALVRVGAGAAVLTVLLWVRGGALNL
+LHRQRALGAVTLALYIIGFSLAYLTLDAGLGALILFGVVQIAMFAYGAVFGSPPTLRQIT
+GASLAFAGLALVLWPGAQTQVNPAGAALMVVAGLGWAAYTIIGKGSADPLANTAGNFLIC
+VPIVACLLLVQTTQITATGLVLGAICGGITSGLGYALWYAVLPRLAQSTAAVVQLSVPVI
+AILAGAALLSEPLSPKVILATVLVLGGIGLAVSARSTRAGHR
+>tr|B7RIG0|B7RIG0_9RHOB
+MIAVLAIGYFTGIDVSSLLGGTQTGQGAPVGQRDAEATQFSAQVLATTEDVWGNVFPQQL
+GRSYEPPQLVVFSGVTQSGCGGASGATGPFYCPADEKAYLDTQFFDMLAQRMGAGGDFAA
+AYVIAHEVAHHVQNELGILPKVDALRRRSSEAEANALTVRLELMADCLSGIWASNVKGLM
+ERGDLDEALNAARKIGDDYLQKQAGRVPQPHTFTHGTSEQRSGWFKRGFDSGEVGQCDTF
+AAEQL
+>tr|B7RJZ0|B7RJZ0_9RHOB
+MEWRDQGILLSARRHGETSAIIEVFTPTQGRHAGIVRGGTSRKIAPILQPGAQLDVAWRA
+RLEGHIGAFTVEPVRSRAVSAMSDRLSLAGLNTVTALLSFCLPEREPHPPLYHRTQALLD
+LLDQGDLWPLAYLQWELSLLEEMGYGLDLTACAVTGATDALVFVSPKSGRAVTREGAGEW
+ADKMLPLPPVLLGEGEARDDEILQGFKTTGYFLEQHLARNLGGRPLPEARARYVDAFSRQ
+I
+>tr|B7RM85|B7RM85_9RHOB
+MRILQALACVCLVAACSNDTTGDSTTAEVAAAAYAASGPKTLTLLTMVNNRSGSGGHTAL
+IVNGSQQVIFDPAGSFRDPRVTERGDVLYGMSPKWIQAYKSAHARSTFHVVSQEITVSDA
+QAEQVLRLVMSNGQVPGAYCANATSSLLQKVPGFEGLGTTFYPVTLSEKFANLPNVSTTK
+YYEDDDGDVIDAVRAGQLAQ
+>tr|B7RGM2|B7RGM2_9RHOB
+MIKDHGRYTYRAITDRPDYTWPNGKRLAVYIGLNLEHFAFGEGLGAELAPGGPQPDVLNY
+AWRDYGNRVGAWRMRDMFDALDLPVSVIANSAMYDYAPDLMAAFRARNDEIVGHGRTNSE
+RQSVLSTKDEAALIAEATQVLHKAEGVAPQGWLSPWIAESMDTPDLLARAGYGYTLNWCM
+DDQPVWMETSGGRLLSVPYAQEVNDIPSIVARKEGAADFADMIIDNFDEMLEQSVDQPLV
+MGIALHPYLVGQPYRLRHLRRALTHIAAQRDAIWLTRAGDIHSYCRDQIPDLIP
+>tr|B7RIX0|B7RIX0_9RHOB
+MTGRQTVLYTAFLAVLGAGWGFTQPLTKIAVSTGYQHFGLVFWQMVIGAVFMTAINAARG
+KRLPFGPRYLRLYLILAMIGTVLPNSASYQAAVWLPSGVLSLLLSLVPMFAFPVALAMGQ
+DHFSFRRLGGLACGLLGVILLVAPGTDMSMDLPVFWICIGLIAGLCYAFEGNIVAKWGTL
+DLDAFQVLQGASIIGALLLLPLTLMTGQFIDPTPPLDGPQWALVVSSVVHVLVYAGYMWL
+VGKAGSVFAVQVSYLVTGFGLIWAKIILSETYAPTLWLALAMMFAGLYLVQPRPKAALAQ
+VAAIGDTDR
+>tr|B7RJK0|B7RJK0_9RHOB
+MPHIKEIMTAVGTLGCAIGIGFVMQGSSSSNERNSAASDDAVHAHNVQALDAETTLLEVQ
+DINLTSADFGVGDLQNSVRLPEMDSHVVKTAAPEVAAPVPGASPHVSATDCAVTATARPM
+AAAMVNVVLEAPCLPNERVTVHHNGMIFTQTTSRTGMLDINVPALAETAEFVFAFGNGDG
+AVARATVEDLADFDRVVLQWRGETGFQLHALEFGSDYDGTGHVWSGKPRDIASAITGEGG
+FMIMNGDLGVADPLLAEVYTFPSGMEATDGGVALSIEAEVITANCGQEIEARSLEMRGAK
+GIKTQDLSLAVPDCDAVGSFLVLNNLLQDLKVASN
+>tr|B7RQA5|B7RQA5_9RHOB
+MAYRAELLAQQTAFVLYQSDEALEASGQVLEQALAILPGLGFEVGAAQVTCPDGRCVPID
+RTAPLHCLGHLVQEDICILQKRGQEHVLTAAVLCFPANWRLAEKVERPLTGIHDPVNEYD
+DNIARRVQRLFDGVRVGRPLWRFNKLRYADPDLHQPRRREVGEDMPFIRSERQCILRLPE
+TDAVVFTIHSFVVRG
+>tr|B7RLB2|B7RLB2_9RHOB
+MGEIIQMALSDHISFANIEAEYGVTDKQVKTLMRDTLKSGSYKAWRKRVLDFGDRRETYK
+>tr|B7RNR6|B7RNR6_9RHOB
+MTALTVKNCLIARGALIYQHDLVNLYGCEIGADSRIGPFVEIQEGCVIGERCKISSHSFL
+CEGVTLEDEVFVGHGVMFTNDRHPASTNADGSLKDAQDWTCERTHVGRGAAIGSNATILP
+GVTIGKGAVVGAGAVVTHDVPENTTVIGVPARAVGTAKAGAKAARHGDAQHKVMS
+>tr|B7RS45|B7RS45_9RHOB
+MCCRSAGYDLYVDGGLDGLADRSPRLGSVWNRIPDARRDDLIEFALEHEALTTRELAVKY
+TDEKRYFVSESSAYRILKAADLITAPDYVVIKAADEFKDKTAAINEMLLSGM
+>tr|B7RIN6|B7RIN6_9RHOB
+MEILNKNWIIDVLYDLAKSPKKFGQYELSEDIASVALAYDASFDRLDKHAKFMASLFDEL
+AVSDIRLG
+>tr|B7RJM8|B7RJM8_9RHOB
+MFHLRSLILGTCAAALMAGGAIAKSDIIVAMQLEPPHLDPTSAAAGAIDSVLYSNVFEGL
+TRFMGDGSVVPGLAESWEISEDGLTYTFKLQSGVTFHDGTTMDAEDVKFSLDRIGAEDSA
+NAQKALYSAISEVNVIDPATVEIKLSEPNGNMLFNLAWGDAVIVAPESIDNIKQLPIGTG
+AFKFTSWTQGDNIMIEKNPNYWGAPATLDKATFKFISDPTAAFASVMAEDVDVFVGFPAP
+ENLPQFEADPRFQVLVGSTEGETILAMNNKQAPFDNIKVREAVAHAIDRQAIIDGAMFGY
+GTPIGTHFAPHNPAYVDETAISAFDPEKSKALLAEAGFPDGFETTLDLPPPSYARRGGEI
+IAAQLADVGITAKINNVEWAQWLETVFKGKNFGMTIISHTEPMDIGIYANPDYYFQYDNP
+EFQELMTKLNATTDPDMRTEMLAQAQKIIAEDYVNGYLFQLAALSVAKAGVQGLWKNAPT
+QATDLTSVSWAE
+>tr|B7RKL3|B7RKL3_9RHOB
+MKPLFLIAAYLVVVTLPLILSWLTGAPTRAVHQELASGLGILAFSMILMEFVLSGRFKSI
+SNGIGMDVTMRVHQMMARTALAFAVVHPLLYQGTPSGGPRPWDPSRQITITTGFSDLSTG
+IAAYLLLPGLVLLAVGRSQLDYKYETWRLMHGIGALLIAALLLHHTVYAGRYGSQPVMIW
+LWITMTGIAVGSLFYVYLLVPLRDRNRAWRVMSVTPLTPGQWELTLAPKDHHGLDYSAGQ
+FVWLNVGHSPFSLKENPFSLSSTPAARPTISFMIKEFGDFTRTLGQIKPGTAAYLDGPFG
+HLSVENRTEPGIALIAGGVGLAPLLGILRHLRLTGDPREIRLVYGNRTEDQIAYSDELGA
+QDVTYVLSAPPPDWQGATGIIDAALMDHVFSTQQYKEWVFVLCGPPVMMDIVENHLLKCG
+VPSHRILSERFYYD
+>tr|B7RH19|B7RH19_9RHOB
+MALNGEKNGAQPLARKDKRMKWALGLSLGLNLLVVGLVAGAAYRFDGPHGGPGASRHDFG
+APYIIALPDDRRRAIFKNLRADRQDKSTSRAARRALYAEAVAAIRAEPFDPARVTAVLDT
+QREATLGVQQAAQSAWLAEIASMDAAARDAYADRLQEVLARGPKRDREKDKR
+>tr|B7RI91|B7RI91_9RHOB
+MKFTEEHEWLRVEGDEITVGITTHAAEQLGDVVFVELPSEGTVVSKDDEVVVIESVKAAS
+DILAPIDGEIIEVNSALTDSPAMVNDDPQGEAWFFKMKASDPSQMDEFMDEAAYLKFIG
+>tr|B7RLH5|B7RLH5_9RHOB
+MASGVMKKQGGGGRRRRRGRAQPMAEINITPFVDVMLVLLIIFMVAAPLLTVGVPVELPK
+TAATALPSEQEEPLTVTVLADGTVQIQKTETGRGDLISKLRAIAAERASDRVFLRADGSV
+PYALVMEVMGALNGGGFSNIGLVTETGGPKLDGAGASGG
+>tr|B7RJU6|B7RJU6_9RHOB
+MSMKIRLARGGSKKRPFYRIVAADSRMPRDGRFIEKLGTYNPLLAKDSEERVKMDVERVQ
+YWIGQGAQPTDRVARMLEAAGVTPKTERNNPKKGTPGKKAQERVEEKAAKATAAAEAAAA
+PAEEEAAAE
+>tr|B7RNV9|B7RNV9_9RHOB
+MARLSITYENHIAHVRLTRADKMNAVDQEMIDAVIAAGNEVAASNARVVVLSGEGRAFCA
+GIDISAMGELAGGNPADRMMPRTHGDGTTNQWQEVAMVWTRVGVPVIAALHGKVYGAGLQ
+LALGADIRIAEPGTELAVMEMKWGIVPDMGGMVLLPKLVRGDVLRLLTYTAKPIDAAQAE
+RWGLVTQLADDPLSAAMELATTIAGKSPSAIKAAKRLAAFAEISGADDVLIEESREQAEL
+LGRPHQMEVIAAEFGKRPAVFKD
+>tr|B7RLY7|B7RLY7_9RHOB
+MLAKPFATRNKVVIDDAQISKPHVLGVIVISKAETMR
+>tr|B7RMD8|B7RMD8_9RHOB
+MTDLRTLYDQRIADGSLTADPAQEAVLPELDRIRTALMNPEKKGFFRRAPEPPKGLYLWG
+GVGRGKSMLMDMFAANMGDVPVRRVHFHAFMQEIHSAMHEARKTGVDDAIAPVAEQVAAS
+VKLLAFDEMQISDITDAMIVGRLFQALFAAGVVVVTTSNRVPDDLYKDGLNRQIFLPFIE
+LIKEKMEVWELTSPRDYRQDRLAGTQSYFTPVNAESRAAMDAVWSDLAGGEGQELTLRVK
+GRDVVIPQFRNGVARAGFHTLCGHALGAADYLTLADAVRVLLLDNIPTLGRSNFNEAKRF
+VTLIDALYEAKVRLICSAAASPEMLYLEGEGIFEFERTASRLREMQAEGWGT
+>tr|B7RNZ4|B7RNZ4_9RHOB
+MKHTLFAVASTFALIAGTSAFAQQSIVIGHALSPTSHYGLGADAFIAKLEELSGGEYTGT
+QAPAGQLGGERDMIEGLQIGSLDVVITSTGPLGNFVPEVYALDLPFLFRDYDHARAVLDG
+EIGQELLAKIDENNLVGLAWSENGFRHVTNSQRPVRTPADLEGLKLRTMENKVHMEAFSQ
+MGAAPTPMAFPELFTALQQGVVDGQENPVTVITASKFWEVQGHVSLTGHVYSPVAVLASP
+VLIDGLTDEQKGWFYEAAKASAAATRAEVNRLEDSGVALLRENGMEVITDIDKAPFAELA
+APAYKIYTDQYGPELVERIQAVE
+>tr|B7RR58|B7RR58_9RHOB
+MDHQRRANLQKIKSGGVVPRHSKGPRGECRAQYLRQHVATLGPKPKKSLEAFVDLGLTDG
+EIARYFNMPKTCISKLCHLWGIR
+>tr|B7RH15|B7RH15_9RHOB
+MTDRTVEIEQIDPQDRKLSTALLRGWRRKCPNCGGGALLKSYLKVNDSCTACREEFFHHR
+ADDGPAYMTILVVGHLMAPMLHVVFVNWRPEPLTLFTIFAVGCVGLSLYLLPRLKGALIG
+FQWAKGMGGFGNG
+>tr|B7RKN4|B7RKN4_9RHOB
+MPEQLAFALEVTANGLMAGVLYALVALGFVLIYKASGIFNYAQGVMALFAALTLAGIMDG
+QVPFSHLINAVFGTDVHHFGWNVPAFLAILLTMVVMIALAYAVQRLVFRHLVGQEPIILF
+MATIGLAYFLEGVGDLMWGSDIKSMDVGLPQGINTWIDETTFEALGYGFFIDNLDIVASI
+IAALLVIGLVMFAQYTKQGRAMRAVADDHQAALSVGVSLNFIWILVWSLAGFVALVAGIM
+WGTKSGVQFSLSLIALKALPVLMLGGFTSIPGAIVGGLIIGVGEKLFEFLIGAPFLGGAT
+ENWFAYMLALIFLVFRPQGLFGEKIIERV
+>tr|B7RNX7|B7RNX7_9RHOB
+MNSALGLSLAILFVLGVPIAVSIGLASIIGIEAQGRLPLLLVAQRMFTGIDSFPLMAIPL
+FILAGNLMSAGGISQRLVELAKSLVGGVQGGLACTCVLTCMLFASVSGSSVATTFAIGAI
+LIPAMVKHNYPKPLAASIQASSAELGVLIPPSIPLILYGVSTDTSVGKLFVAGLGPGLVV
+AGSLMALVLVICRMRGIGKEDGVGRSSPGVAFKAALPALLVPVVILGGIYSGIFTPTEAS
+AAAVFAALIVGMGLYKELKFGDLPEILKKTVIATSAIMIIISAASLFSFLITRSGLPNEI
+AAWFKDIFESRIAFLLAVNILLLIVGMFIETSAAILVLAPILTPIALSYGVDPVHFGLII
+VVNLALGMITPPLGVNLFAACAVANLRVEKIIPQLVWFVLTVFAALMIITYVPAITLWPV
+EWVFGG
+>tr|B7RQQ1|B7RQQ1_9RHOB
+MAHKKAGGSSRNGRDSAGRRLGVKKYGGEAVIPGNILVRQRGTKFWPAEGVGMGKDHTIF
+AKVDGKVQFHKGLKNRTFISVLPVAEAAE
+>tr|B7RP34|B7RP34_9RHOB
+MDACDLVGSSGFKAVIIKASQRSGARALSDHLMNDRDNDHISILQLRGFMADDLHGALDE
+AHAISKATRCKQFLFSVSLNPPQGHDVSEQDFEDAADRIEAKLGLTGQPRAIILHEKEGR
+RHAHVVWSRINPETIKAINLPHFKVKLRDIARDLYLDHGWTLPKGLATYGDKNPLNFTLS
+EWQQAKRVKIDPREIKQIFQEVWERSDNLDSYRNALAERGYHIAKGDRRGHVALDVQGNV
+YAIAKWTGIKAKDLVTKLGDPSACSSVTEVGRTLKARMTDQVKAYIAQVKQSHADALKPL
+LAERETLVTSQRSERQMLKTKQEERWIAESTIRSDRLNKGLRGLFDRLTGKAKPVRDLNV
+KEALGAMRRDQEQRDRLVVQQLKERQNLQARARVLKFKHAKDRKILANDIAAYMRRTIQS
+QTQDASVKTRRKNRGFDLSR
+>tr|B7RKW1|B7RKW1_9RHOB
+MAQTLILASGSSIRTQLLRQANVAHEISVARIDEEMIKTALISDGAASRDVADTLAEMKA
+RKVSDKNPGALVLGCDQVLDHRGSLFSKPATPEDAIAQLTALRGDRHSLLSAAVIVENGK
+PIWRHIGQVRLRMRDASYAYIADYVARNWDSIQHAVGAYKLEEEGVRLFSSIEGDYFNVL
+GLPLLELLNYLTLRGDLTA
+>tr|B7RFN7|B7RFN7_9RHOB
+MSDILIVDDERDIRELISDILEDEGYATRLAGNSDEAMNAINAEAPALMVLDIWLKDSRM
+DGIDILKSVKRDNPDVPVVIISGHGNIEIAVAAIKQGAYDFIEKPFNIDQLLVVIRRAME
+TSRLRRENQSLKRRDVTSTEMIGTSTAFKTLMGQLDKVTKSNGRVMLRGPAGAGKEIAAR
+YIHANSARASAPFVTVNCASVAPDRMEDVLFGRETPERGVEPGLLEQAHGGVIFFDEVAD
+LPLGTQSKILRVLVDQQFTRVGGADKIRVDLRVISSTNKDLDAAIRAETFRQELYHRLNV
+VPISVPSLEDRREDIPVLAEHFINDFNASQGLPLRSFTDDAVALLQTMIWPGNVRQLKNL
+VERVLILGDGSGPIEARELPGEDENTDEDGRVVLSGALATLPLREAREAFEREYLLTQIN
+RFGGNISRTANFVGMERSALHRKLKSLGVVTSAKSGTRIAHVDEDADAVT
+>tr|B7RJQ8|B7RJQ8_9RHOB
+MVLPLSALAAPYAAYVIDARSGEVLHSRNAETRLHPASLTKMMTLYIAFEAIKRGEISLD
+SQVKISSHAASEPPSKLGLKSGQTIALRYLIRAAAVKSANDAATAIGEAIEGSEAKFARR
+MNRTAKALGMTKTTFKNAHGLTEAGHMSTARDMTMMGRHLLYDFPEYYNLFSRITADAGV
+RKVSHTNRRFLSSYKGADGIKTGYTRAAGFNLVASAERGNERVIVTVFGGTSTSARNAKV
+AELMDLGFRRAPSKAPLQKPAKPVYADVEDVVVASGTTAGAAGKTIRLIGAVTTSKRPVL
+RPVSEAPVVVTVAQVTPETSPVLNSDITAALQEAVAAAPSAPEEEVVKVASLGGVSIRPS
+LRPKSLLAAITPTKTQKAPAAPEVITRVSTSGGRHWGVNVGRYPSRYAAEKVLLKTALTE
+MSTLDGTLRKVVRRPQGFDANFLGMTRETADMACRRLAARNVSCFMIGPG
+>tr|B7RP09|B7RP09_9RHOB
+MFRYSKFDYRGKTTLAKDAIWKVASADTPADRLPCVAERRAFENDPLRIAPHSP
+>tr|B7RRF5|B7RRF5_9RHOB
+MRKDTGPLRLVFDPAPIVAALAQDVVQAALARAEWVSANLHEATILTGCSDPTAAAKALA
+ANRAGGAIVRNGAAGCVLCTAETCVEIPPFNVQAIDTNGAGDAHIGSFIAHLSQTGDPSS
+AASFANVAAALSTTVKGPASAPTAEQIAAARQRSNL
+>tr|B7RSA2|B7RSA2_9RHOB
+MVSFLHITWHRTATTSPEWKLSSRWVSSRMTYAVWMRTVLTIAARSVTSFPMRPVPRHRN
+WRNLCDWFAYALRSVALSRDRNA
+>tr|B7RPW7|B7RPW7_9RHOB
+MFDFFSARRPSTLASKAMIATSHPLSTAVGHEILTQGGNAVDAALAAVAVQCVVDPLMTG
+IGGDCFALYAPRGGKVKALNGSGRAPAAATVEALKAAGLGDEIPQTSPHAVTIPGAISGW
+CRLHADHGSLPLDRLFARAIDYAENGYPVTPRVAMDWAANAASVGGDVHAAKLFLPGGKA
+PTVGQMHAQPLVGARLREIAAKGAAGFYEGEVAAKMTAHLRSLGGLHTEEDFYEARDEAH
+WVDPISTRYGDHDVYECPPNGQGLAALLILRILSRFDMGQGLSEADRIHLHAEATKLGYH
+HRDALIGDPAACPDVVETLLSDSVVDALAARIDMGRALPPTLWDEPEHKDTIYLCVVDAD
+GNALSFINSIFHGFGSTRLDPATGVLFHSRGASFRLIEGHPNAIAPRKRPMHTIIPGMLC
+KDGVAVMPFGVMGGQYQAAGHAAFLSSVLDLGMDLQAAMDAPRSFAHEGVLQIEPGVSDE
+ARATLAARGHTLALQTSPIGGSQAIHICPGTGLLTGASDSRKDGMALGF
+>tr|B7RNI1|B7RNI1_9RHOB
+MRYVRYLCIAVFAVALIAVALANRSMVSLKILPNEVSGFFALNPELRMPLFVVILGSIIA
+GLLIGFVWEWIREYGQRAEAARQAREMRRLEREVARLKGEKHKGQDEVLALLDQAS
+>tr|B7RIP1|B7RIP1_9RHOB
+MHLVGIITRALLLLALLGIGSVPEGMMRAGGADGMRLVLCTTEGPQEVWLSDDGRTTPIN
+EHDNEHDRPHCVQVSIGSVDLTPPQPVAVALRLRLTELISSGEALPTGQTARSYNRARAP
+PRFA
+>tr|B7RJT7|B7RJT7_9RHOB
+MSDQARGLFITLLGILFVVPDSLFVRLIDAPALTIAFWRLLLAGGMITLGILAMQGTGPF
+RAVLRMGRYGVIYMIGTGFSGLLFVMAVSLTSVANAVFILASMPIFAMIYSRIFLAEPIS
+RRMLITIAVVLVGIAIIAYGAGETAHASLAGDLLALAVSALFAAGLTAARHARAISMVPG
+VGMAYLIGACLIAPFAHPLDMPLSQAPLVLAHGGVIVLSSIFLALGPRYITSAEVGLLVL
+LESVLAPLLAWGVIGENPGAYALLGGGLVIVTLFISNMIVLVRRGPKPGPIRS
+>tr|B7RLR2|B7RLR2_9RHOB
+MNGLYRVFTTTSLGMIFIAQGAVADVTPGDVWQDWRDYMQGVGYGLTATENMSGDRLTVS
+DLRLDMVTDPDQGEVTVSFETLSFVQNADGTVSVVMPDAMPIVVDVVPSDGDGEPVRMAL
+TVNQTGQDMVVSGTPAAMTSTYAAGLLGLTLDALTVDGETLDTTNAMMKIMMTDVKNTTR
+TSIGAMRDYTQNSSVASVTYDMRFKDPKEPAVATITGTSSDLALRANGVLPLGLAQISDM
+AGMLQAGMDVSGAISGGNSTLTVNIEDPNSGDTSAAVATEGSTLTVETGPDGLSYAGTRQ
+GTTVSVQPPEFPFLLSFAMDNAAFNLSAPVTQSDAPQDFALGLNIGDFTMSDMIWGMINP
+QGNLPRDPASIALDLTGKLTLLADYLDPDAAEQIAETGDMPAQVESVNLNSLIVDALGAK
+LTGNGSAVFDNSDPDTSGLLTPAGAIDLKLVGGNTLLDSLVESGLLPANMAMGARMMMGM
+FAVPGDGDDTLTSKLEFTRSGAILANGQRIR
+>tr|B7RNY1|B7RNY1_9RHOB
+MPRRLAEAVGGTPHLKKSSTVEKLKLFIRFRGMFGNDQFMGLIIVTAHVGNRKLNFMNDG
+FLRHDLPCFRRLGCLMRLAAL
+>tr|B7RQI1|B7RQI1_9RHOB
+MSATEPHTVRYELDLFAAEGGEKHRNRDGWGILFAQERDCYIFREPDPAATSELTRMVVR
+NERPCKHLIAHVRRASVGGVELANTHPFDRVLHGRGHAFAHNGGLPGIEDREDTRHLLGQ
+RIGDTDSELAFLLLLDRLQASAPYDPAERFDIFARFAAEMRELGSANFLFFDGERLFVHA
+DRRRFETKDGVTEPREPGLNIRSFGKRHAGQRWDAAGASISEVSGPLHLIASVPLDPEGW
+EPLERGTVMMLKDGVIEAQRIA
+>tr|B7RIY5|B7RIY5_9RHOB
+MSSASTTPLAAQMNAQLRGPSMVVWLCAASVLVFLLWAAFAWVDEIVRADGSMISSSRPQ
+IIQNLEGGILAELAVGEGDIVEKGDVLARLHATQFQSSVDELQDQISAFEIRRLRLEAEI
+AGRSDLVVPDEFAQRTPGIVDSERGLLKARQADFVSRSEGAQRVLTQAAKERELLENMHE
+KKIVSLIEVTRARKIHADARIKLDEITTSTDLERAQEYSDVLKELATLKQTLKSSTDQLN
+RTVLVSPLRGIVNTLSVTTIGGVVRPGEEILQIIPLDEELFVEARVKPENIAGVRPGQEA
+TVKLSAYDYTIYGTLKGTVTLISADTFKDDRSRAPDGDPHYKVTLQVDTAHLTPRQASLR
+IRPGMQASVELHTGSKTILQYLLKPLYKSKEAFREP
+>tr|B7RRY3|B7RRY3_9RHOB
+MTRSIGVILSGNLASAALMMLRTLLVSRLISLEDFGIASTFLLALAMIEMISALGFQQQM
+IQTEDGNEPTFQGALQGFSVLRGAVNALLLFALAGPMAWFFDIPQALWAFQLIALVPFVS
+GFTHFDLHRLSRRMQYGPSVMVAVLPPVGSLMAVVPLCHLFGDYRVLLFAILVQMGLGVL
+VSHLFARRRYLLRFDGAVILRSLRFGWPIMISGALMFLVFNGERAIIGRTLGLEVLALFS
+MALSLTLTPALVISRTTTSFFLPQLSAWRGRAGYAPLATATMQCHILLGCVMVVGVALTG
+GPFLQSVLGDKYAAAIPLLTWLAALQAFRVFEGGCAVVALAAAQTRNEMLANVVRVSLLP
+VAWLVVARGGDVMTVIRIGMLGEAAGFIIGLMLVLTRQGVALRPLLAPLCVAAVLITLAC
+LTAGQGTDWQVGVALVALLAAVGFAMPDFHIYLRKRTAVGHLEEG
+>tr|B7RGI4|B7RGI4_9RHOB
+MQDHGGNIGLAMAEFGGDASDWIDLSTGINANAYPVGQVSAAAWARLPERESLLGLERRA
+QRAYGTTLDVVAVAGAQAAIQLVPRLQPAGQAAVLTPTYNEHAATLRSAGWEVREAATLA
+ALEGHAVAVVVNPNNPDGRFYAPDALAALADKVGILIVDESFVDPEPHLSVTTCSRGLPD
+NVVVLRSFGKFYGLAGLRLGFVLATPALAGRFRDMVGPWPVSGMAIEVAARALSDAGWTR
+QTQAQLQRDTVRMDGLAQDAGWNLVGGTPLFRTYATPDGVVAQRQLAAHRIWTRIFPYSE
+TWIRLGLPAHENDWARLTAALQRG
+>tr|B7RL40|B7RL40_9RHOB
+MDITKDFFPGAIGQIIQMHGTHYATHWGFTTYFEAKVAHQLAAFAARKTDQDLVLIARDA
+DGVAASVFLDLNDPESGARGAHVRWFISADRCRGTGIGRRLMAQAVEHAETHTQGRMWLR
+TFAGLEPALHLYRSFGFELYSEMEGDAWGTVVKEQEHHRPGHA
+>tr|B7RNE0|B7RNE0_9RHOB
+MKHLMILPALLLASPALAHPGLHLAPHGAEWMPVFMGLAVIGTAAAIALRARVKAKAAAR
+K
+>tr|B7RR41|B7RR41_9RHOB
+MFDLTWTRKWSPSWVNQQNALAAMRLIKALLSRFRKAAVIGAGIEY
+>tr|B7RHP5|B7RHP5_9RHOB
+MKIARFSIEYPIYTWIFMLFALFGGLIGYMSVGKLEDPTFTVKSALVITAYPGATAAEVA
+TEISEVLEAEIQQMDEVKTVTSRNTQGVSVIEVEVEDRFDGEALPQIWDDLRDRVTDARS
+ALPDGALPSTVNDDFGDVFGILYAVSAPGFSDAEIWDIATFMRRDLLTVDGVANVDISGL
+PEEAIFVEPSSQIVSTLGIDPSVIISAINTSTAINPTGFVPNGSANLRIEGPSAEDSVRE
+ISGLTFGFQGEVLNLLDFADVSRARVDAPDHILRHNGQEVFTLGVSGQLSENIVTVGQRV
+EAELKALEEFLPLGVTVTPIYEQHRVVDAANSSFMISLALSVGVVIAVLGVFMGPRAAIV
+VGVSLLLTVTATFFFMYLFDVKVERISLGALIIAMGMLVDNAIVIAEGMQQEMRKGHASV
+DAADSAAQKTQIPLLGATVIGIMAFAGIGLSPDATGEFMFSLFAVISISLLLSWIVSVTV
+TPLLGHYMFQTGGLEGDDTGYNGPVFRAYGSLVRGALKLRWLVIAGLIGTTVVCVMAFGQ
+VKQQFFPPATTPLFYLEYKAAQGTAIQKVSSDLVALEDWLLAREDVAAVTTTIGQGLTRF
+ILTYDPPITDSSYGQLVIRATSPEAIPALRADLDQFAVKALPWAELQSKRIIYGPPVTSD
+IAARFSGPDTRVLRDLAAKAQAILRDASPLLHSEHQDWREPEIITRPIYAEDRAQAAGIG
+RSDVANAIALATNGIPAGTYRERDRLIDIIVRTPRTETARPGQLLDQIVYSNAIGGYLPL
+SQVIDGFAVVSEDAVIERRNRVQTITVQANVIDGVTPPTVFPQIRPLIEAIDLPAGYSLE
+WGGEFESAGDAQKSLGRQMPMAFGTMLVITILLFGKLRQTAVIWTIVPMAINGVALGLLF
+SGIAFSFTAMLGLLSLSGMLIKNGIVLVEEIDAQKAEGLPQDQAIITASVSRLRPVVLAA
+VTTILGMLPLLSDGFFAAMAVTIMGGLGFASVLTLIGVPVLYHTYLRKERLADQRAGQPS
+QQVPAPV
+>tr|B7RJK3|B7RJK3_9RHOB
+MTETPPEVSVKSARRLFLSGASFVWIIPILALFAALSVAWSSYNARGPEIYVEFDKGAGI
+KAGETELRYRDVTVGRVEEVGFSEGLGKVVATIRVDKDVAPFIDNSAAFWVVQPEVTAQG
+ITGLSTVLSGVYIEGSWNAEVGTFADRFVGSDAAPLIRPGQSGLQIAFRTVGNGQLTDDA
+PILYRGIEVGRVGKAQISPGGNFAIVEALIYEEHRNLVNSSTRFWDTSGFSLSIGPGGAE
+VDFESIATLVGGGITFDTFVSGGDRVQDGTVFEIFPSKEEARSSVFNASEVDPLELSVIF
+EDNISGLAVGAPVELSGLNIGEVESLSGIVDYNQFGDSRVRLNATLSIQPARLGLPGEVS
+AASALSLLQDRVANGLRARLASASLLTGGLKVEMILVPDAPPARLVEAGDSYPVMPTTEN
+ETSDAAATVEGVFTRINNLPIEELLNSAIGLMNSAQMFIGSDELQQTPKDVRTLINEVTG
+LVSSDSVKNIPVTLNATLLRVETLVATLEQEQMAKRLLDAVDSVSAAADSFTTSTEGVPA
+LIAEIETVAANAGKLELQQLVDELTALTRSADQVIGTPDAVALPGSLKNALDELNYTLQE
+LREGGAIENVNQTLASARNAADNIAVSAQDLPQIVDRLSSLFTQASRTIEGYNQGDQISR
+TAQDTMRDIQKAADALASLARTIERNPNSLLLGR
+>tr|B7RJ53|B7RJ53_9RHOB
+MGLANTDQDREMLTINPPIPATPPTQTIVDVIRANAKVDPEKLALVCDGRRVTWGAFDQR
+INKIANLLLSLGVTKGDNIAIISPNSIPYAELFMGILRAGACVTPLSTMASPDALQKMLT
+DCGAKAIFVAEQYLALVDGFIADLDIARFAIDFDHDAFTPFEAAVEDADATDPAIAIDMS
+DAFNLIYSSGTTGTPKGILHNHWMRAAQMERVSPNGYDDNARTLLSTPLYSNTTIVSFLP
+TLFGGSTVYLMPKFDARAYLEIVQREKITHTMLVPVQYKRIMDVPDFDQFDLSSMRVKFS
+TSAPLRADVKADVLARFPGSLLEYYGLTEGGGVTVLNSSEHPDKLHTVGQVAPGNEIRLI
+DEAGNEVPKGKVGEICGRGPTMMAGYFGRDDLTQDYIWRDGEGRVFFRSGDMGRFDEDDF
+LILSDRKKDMIISGGLNIYADDLELVLLSDPDVTDAAVIGVPSDAWGETPLGLVVLRDGA
+TRTADQICADANEKLGKSQRLSAVEARDVLPRSSIGKILKKELRIPYWADVAP
+>tr|B7RKY0|B7RKY0_9RHOB
+MKLFTTTALALTIAAGSAFAAAHSTPMVEAVDQDVSNGVVSAEKVMAGVNGWMVVHRTDA
+EMKPGPVVGYAPLRAGENVDVAVILQEEVKSGEMLMLMVHAEDGGMKTGGFEYTLGAKED
+GPIKPDGKLVMAVITAK
+>tr|B7RKY8|B7RKY8_9RHOB
+MDRTYDLTLPTDTRWLADADAQAVCDAVQDGGHTIYFVGGCVRNALLGLPDSDVDMSTDA
+LPERVMALAKRAGLKTVPTGVEHGTVTVVSGGKGFEVTTFRRDVQTDGRRAVVAFSNNID
+DDARRRDFTINALYADAEGRVIDPLEGLPDLRARRVRFIEDAEARIREDYLRTLRYFRFH
+AWYADPAKGFDPDALSAIASNTAGLETLSAERIGAEMQKLLSAPDPAPALAGMRQTGVLN
+AILPGADDRWISMLVHFEALLGMRAHWIWRLAALGGDDAVTRLRLSKADGRMLEQIRDAA
+FEGNTLSEIAYRHGIMIAQGAMLLRACLAETPPDIAVLETIDAATQAKFPVAAKDLMPAY
+AGPALGARLAQLEAAWIASDFSATRDTLLDMPDT
+>tr|B7RFZ6|B7RFZ6_9RHOB
+MSKIRPSVAAHQAQHVGQVQAKCLAQQAIILLLPSLA
+>tr|B7RK53|B7RK53_9RHOB
+MAAPMIWIFFALLALSVPVAHAMIGGVAAALWFDGKPLAVIAQRLYTPTQSFPMLAIPFF
+ILAGNLMMSGKFGVYLINVARLLVGNMRGGMGQVSILGSVMFGGVSGSAVADASALGNAL
+IPVQQKEGYPGGFAAAINSASSTVSVLIPPSIPLILYGLVSNVSIVDLFVAGILPGLMLG
+IGMFATVWLVAHRKKLPRSPLPGGFKEFRGQLIIAFPAMLMPVFIIGTLRFGIATPTEVS
+VLAVAYALLISGLVYRDLTFKGIWDASVDTAMMTGAVMIIIMASSTIQWVLTAERVPQEL
+AEWVAATIQNPWMIILALNVVMLIVGAFLDLPAAVLLLGPLFVTIGNSIGLDPVQLGLMM
+VVNLSIGLYTPPVGTTLFISAAIARVGIGQTVKALMPFYLVALMVLLAISFIPALTIY
+>tr|B7RMT7|B7RMT7_9RHOB
+MAMDGQDRGDTDTGPTAQFPAGAARGVSEAGLNVFRGLPYALPPTGRRRWQPPASMPDWE
+GLRDATRFGPACPQPFRRSGSVYECDIPLKDEDCLNLNIWAPTGGKDLPVFVWIHGGNLL
+RGAGSEPLTEGAALARRGQVVVTINYRLNILGYLSHPELDAESADGVSGNYGLLDQIAAL
+EWVQRNIAAVGGNPDNVTVAGESAGALSVYYLMCAPAAKGLFHRAIAQSGHICSAQALKT
+EVYGMGTGHETGKSIMAALGCQSIAALREWDPQNLALAADKAGFTAQGVVDGVVLPDQQL
+HLFQTGQTAQVPLIAGFNSGEILTLEFFMPPLPETAEDYEEMIRARYGSLADRFLARYPS
+DDIKGSTQAAVGEALFGWSALSAAKAQVKAGLPAYVYYFDHGYPEAQDRGLHGFHACELA
+YLFNTMAASPPAWPKAPDSVQEASFTRAFGDYWTGFTRDGVPTATGAPDWPDYSDSGAVM
+HFADTPRVARDLFGDMYAVIDADFARRRADGDRPWSWNAGVGAPVPSAD
+>tr|B7RGU4|B7RGU4_9RHOB
+MTAFGIAIMPAPLILLDDVSYAPEGVPVLNGISLEACERRIGIVGRNGSGKTSLARVLAG
+LVAATSGTVRIAGVDVVKDRKAALRHVGILFQNPDHQIIFPTVEEEISFGLTQLGQTAAD
+AAGETAQMLARFNRSHWAKAAIHQLSQGQRQLVCLMSILAMQPKVIILDEPFAGLDIPTT
+LHLTRVLEGLDAHLVHITHDPAHLATYDRVIWIEEGRIHRDGSAEGVSHAFVSRMQHLGA
+EDDFADISG
+>tr|B7RJM4|B7RJM4_9RHOB
+MAPLIQRSVSRKKDKDKQAEERSVSEATALSPRMIYEVIRREGEEELSRSKRSLIWSGIA
+AGIMISLSVLAEAIFRTYLPDTPYRFLIENLGYSMGFLAVIMGRMQLFTENTITTVLPIM
+RARTWRSFVSMLRLWVIVLAANVVGAFAAAVLFIWTPAISPDVIPAILDLSHHATGMGAY
+EGFWRAIPAGVIVALIVWMLPQADETAFFLILVFTWLIAAGDFAHIVAGSVEMAVMILDG
+QLGFSGAVFGFFLPVLSGNIIGGTIIFTLLAWGQVRDEVEGSH
+>tr|B7RNJ6|B7RNJ6_9RHOB
+MKQVQDYIRTIVDFPHEGIMFRDVTTLFADPRGFRMAIDQMLHPYAGIDIDKVVGLEARG
+FILGGAIAHQLSVGFVPIRKKGKLPGRTISQEYTLEYGEAIVEIHEDAIQPGERILVVDD
+LLATGGTAEAGIKLIERLGGEIVSCAFIIDLPELGGRKRLEAMGMEVNALCSFDGI
+>tr|B7RFS8|B7RFS8_9RHOB
+MKVFIIAGEPSGDRLGGALMAGLKSLRPDVTFQGIGGSEMAAQGLQSQFDMSELSVMGIA
+EVLPKYRALMARINETAEAVIAARPDVMITIDSPDFSLRVAKRVKARSDIRTVHYVAPTV
+WAWRPGRAKKMARFIDHVLALFPFEPPLMQAHGMDCDFVGHPVVAEPVATADDAAAFRAA
+HDIGDAPLLVVLPGSRRSEVAKLSGVFGEAVGLFAKGRPALRVVIPAAGAVADAVVEATR
+DWPVSPTILDPRGMTGEEAQARKRAAFRAADLALAASGTVSLELAAAQTPMVIAYRMHWL
+SFRLIKAMALIDTVTLVNLVSDTRVVPEFLGPDCLPDKIAAGLAQVLGAPDAQKTAMEVT
+MDRLGQGGESPGLRAARAVLDRI
+>tr|B7RS34|B7RS34_9RHOB
+MSHHVPDDLPFDLVLDFLLRPGSVEQRQIDALTPQTWDAITRRLREQRALPFLLNTIQNS
+SALQLPKDVTQDLIVSARQWGTRQLLMGGECQIIHRGFAERNIPHLFLKGVPLAFGFYEG
+PSQRPVRDIDILVPRDNLFEARDCIMALGGGKIPEFAGTEVDVDADTFKHLSPIWSPNRI
+IAVELHSRLFPQAADHASPELENFAAGLWAGRATFSISGSALPCPTPMAMALHLLSHAIY
+EDCFQNGPLFLVDIQRLIESGMVDPQAFHEQACRFGMARGSALTFHMLGIEIPSEQVSPS
+LEKAATRLVLQRRTKSGWEENVIDLGKVMQRKGMQSFWPLLKRLFPKREELLSRRRKFDL
+EGGEEWSFLRLWISFLGDRIKFAKVFLASREGRSNVRDTMTIREWLTND
+>tr|B7RIS0|B7RIS0_9RHOB
+MSDLFARHAVGLEQKGVLGPEGIEDITHSLKRMERYWTDQIRYIY
+>tr|B7RIZ5|B7RIZ5_9RHOB
+MAQRFGGKYSQGGETPHATRAKRIEVDPVGARSNLLFIPAIILVFTSLNDGAQGLALGLV
+AAAALTSAAWMLREGVKAEAAYRARKVAERPALPRKIMASALTGIGVALAAYKNDPSMIA
+AVLYGAAAVGLHVSAFGIDPLTSKGMEGVDSFQKDRVARVVDEAEKHLTAMSAAMARTRD
+RQAAERLTQFQTTARTLIRTVEEDPRDLTGARKYLSVYLRGARDATIKFADIFANTHDPQ
+AKADYLALLEDLDKNFAARTQKSLLDDKTDLTIEIDVLRERLSQEGVRLK
+>tr|B7RJQ7|B7RJQ7_9RHOB
+MTSSSLALLEVSDLRVSFRQDGTLSHAVKGVSFTVQRGETVALVGESGSGKSVSALSTVS
+LLGDSAEVSGSVLYDGQQMIGAGDKLLRKVRGNDISFIFQEPMTSLNPLHTIEKQLGESL
+ALHQGVVGASARARILELLDKVGINDAESRLGAYPHQLSGGQRQRVMIAMALANKPDVLI
+ADEPTTALDVTIQAQILDLLKELKDSEGMGLLFITHDLGIVRRIADRVCVMQHGEIVEQG
+PTREIFDNPQHPYTIKLLGAEPSGRPDPVPDTAEVIASTDHLKVWFPIQQGLMRRTVDHV
+KAVNDASLSVRAGETVGIVGESGSGKTTMALAIMRLIASEGGINFMGQDVRSWSTRELRR
+LRKDMQIVFQDPFGSLSPRMTCMQIISEGLTIHNVDPQRNPRELVRDVMVEVGLDPATMD
+RYPHEFSGGQRQRIAIARAMVLRPRLLVLDEPTSALDMTVQVQIVELLRNLQRKYGLAYL
+FISHDLKVVRAMSHKVIVMKRGDVVEYGDVDTLYDNPTSDYTRALLQATT
+>tr|B7RR55|B7RR55_9RHOB
+MECGLVKAQNALMAQSQADLQGYAHGHGWGVADYSDGLPMVEKQVWAAYHGEHFSRKAAR
+VYTTTAVAHVRRATVGDTNLENTHPFVHGKWIFAHNGTVPNFDAVRMKMLDHIDPLHRSE
+IAGTTDSEHIFRYLLSLFLVHPERGLMATVREGLEQVLRWSAEIDPKARVGLNIIFTDGE
+QMVGSRYNRSMHYLFRDHAYHCPICDRSHVHHSPKIDYQAIEIASEPVTFVDQWYEVPNK
+TVFKVAEDYRLDMEPLGHRFSN
+>tr|B7RJ19|B7RJ19_9RHOB
+MGWLEVYADRPAEAFGHFEHAMRLSPLDPMNFNNLVGMASAHQISGGYGASADLFLRALM
+ERPSAFWIHRNLAPALLAAGRIDEAEVSKAALLKAYPDMTIRRYKEAMVFSPQALEGFSV
+YLRKLGIPEE
+>tr|B7RJF8|B7RJF8_9RHOB
+MTDHPANDQFHDSSFLEGQNSTYLEAMYARYANDPTAVDDAWQAFFKAMDDDGEDVKAEA
+AGPSWARSDWPPMPQDDLTAALTGQWPAPVETKAAGQKIVEKAAAKGVELSDAQVQRAVL
+DSVRALMLIRAYRIRGHLAADLDPLGMRDTGGQPELDPEAYGFTPADMDRPIFIDNVLGL
+QIATMKQIVDIVKRTYCGTFALQYMHISNPEEASWLKERIEGYGKEIHFTQNGRKAILNK
+LVEAEGFEKFLHVKYMGTKRFGLDGGESLIPAMEQIIKRGGQLGVQDIVIGMPHRGRLSV
+LANVMQKPYRAIFNEFQGGSFKPEDVDGSGDVKYHLGASSDREFDGNTVHLSLTANPSHL
+EAVNPVVLGKVRAKQDQLNDPNRIKVMPILLHGDAAFAGQGVVAECFALSGLRGHRTGGT
+MHIVVNNQIGFTTAPHFSRSSPYPTDNALVVEAPIFHVNGDDPEAVVHAARVATEFRQKF
+HKDVVLDIICYRRFGHNEGDEPMFTNPVMYQKIKKQKTTLTLYTDRLVKDGLIPEGEIED
+MKAAFQEKMNTEFEAGKEYRPNKADWLDGKWSHLDKAKEKKYQRGKTAIAEETMAEVGKA
+LTTAPSDFPVHKTITRLLDAKAEMFKSGTGFDWATAEALAFGSLLTEGYKVRLAGQDSAR
+GTFSQRHSALINQENEDRYYPLNHIREGQAEYEVIDSMLSEYAVLGFEYGYSLAEPNALT
+LWEAQFGDFANGAQIMFDQFISSGESKWLRMSGLVCLMPHGYEGQGPEHSSARLERFLTM
+CGGDNWIVANCTTPANYFHLLRRQLHRSYRKPLMLMTPKSLLRHKMAVSKTEEFTTGSSF
+HRVLWDDAQQGNSETTLVADDKIKRVVMCSGKVYYDLLEERDARGIDDIYLLRFEQFYPF
+PAQSAVKELERFKNAEMVWCQEEPKNQGAWTFIEPNIEWVLGRINATHTRPVYAGRATAA
+SPATGLASQHKAQQAALVNDALTIEGK
+>tr|B7RRK6|B7RRK6_9RHOB
+MSVQIQKISSKSHQFPPRVVAHVVWRGVLFELSQRDILHKAGI
+>tr|B7RFY3|B7RFY3_9RHOB
+MPRTPDPDSQPEFYAGVPTKRLFAWVIDALFTLITCLVILPFTAFTGLFFFPLMLLIVGF
+VYRFATLTKGSATFGMRLFGMELRTAGDEPLDAGTAFAHTLGYTVSVGMAPLQLISIVLM
+GTTPRGQGLSDMVLGTVALNRRTEI
+>tr|B7RIL0|B7RIL0_9RHOB
+MNLRLKGTTAIGLAACMFAAPAFADMEAAKAFLDSEIGELSALTRAEQEAELQFFIDAAQ
+PFVGMEINVVSETIGTHEYESTVLAPAFEAITGIKITHDLIGEGDVVEKLQTQMQSGENI
+YDAYINDSDLIGTHWRYQQARNLTDWMSGEGAAVTNPNLDLEDFIGLSFTTGPDGKVYQL
+PDQQFANLYWFRYDWFNDEQNKADFKAKYGYDLGVPVNWTAYEDIAEFFTGRDLSRLGVE
+GEVFGNMDYGKKDPSLGWRYTDAWLSMAGAGDVGEPNGLPVDEWGIRVNEKSQPVGSCVA
+RGGATNGPAAVYAVTKAIEWLEKYSPPAAAGMTFSEAGPIPAQGNVAQQMFWYTAFTAAS
+VEPDLPVMNEDGTPKWRMAPSPHGAYWTEGTKIGYQDAGSWTLMESTPVDRAQAAWLYAQ
+FVTSKTVDVKKSHVGLTFIRESTIQHESFTERAPKLGGLVEFYRSPARVQWSPTGTNVPD
+YPKLAQLWWQNIGDAMSGAKTPQEALDSLCADQEKVLIRLERAGVQGEYGPVMNEEQDPE
+YWLSQPGSPKPKLENEDEEPVTISYDELIKSWQ
+>tr|B7RLE1|B7RLE1_9RHOB
+MMHAFKRAWSDVILPLWRRPKMVQVAALCYRETDCGKEVLLVTSRDTGRWIVPKGWPIDG
+MNGAQAALQEAWEEAGVSKADIEADPIGFYDYDKGLNDGLSTPVVAQVYLTRVRHIKDAY
+PEVGQRKRRWFTPQEAARLVAEPDLREILLGL
+>tr|B7RQ26|B7RQ26_9RHOB
+MTATSDQAQAKAQRTVISVDAMGGDQGPAIVVAGCAESAAKNPDISFVLHGPAGTLEPLV
+AKRPELRGRCTVRDAQGVVTMDDKPSNVVRNGKDTSMWSAIESVRSHEASVAVSCGNTGA
+LMALSMIRLKKLPGVNRPAIAVLYPSTNPQGFNVLLDVGADVRADADDLLRYALMGNSYA
+RNGMDIRRPRVGLLNVGTEEHKGRAELKEAHELIRDAADDAEFDFVGFVEGGDIAGDVAD
+VIVTDGFTGNIAIKTGEGTATLISGGLRTAFKNSIWSRMASVLAYSSLRRVSKRFDPRRV
+NGGVFLGLNGTVVKSHGAADATGVSSAIKLAARLAESEFTNRLAARVAAAAPVKETEK
+>tr|B7RJX2|B7RJX2_9RHOB
+MTDRETLAVYATKAAEYADVTEGLARDPLLAAFSKAVKPQGDVLDLGCGPGIAAHQMALA
+GLHVTAMDPVAEMVALAARYPGVTARIGGFDDLASTDVYDGIWANFSLLHAPRADMPRHL
+SDIARALRPGGVFHIGVKLGSGSRRDRIGRLYTYFTEDELAGLLTDAGLKVTDRQKGRDK
+GLDGTDADWICLRAWQS
+>tr|B7RHR6|B7RHR6_9RHOB
+MSLRPTLETRAAIPTLEGAGVKLHRAFGFQDPSELDPFLLFDDFRNERPQDFEKGFPWHP
+HRGIETITYVLEGTVDHGDSLGNVGTLGAGDVQWMTAGSGILHQEMPHGNARGQMHGFQL
+WGNLPAAQKMTAPRYQDVTAKDIPVITDDDGTMVKVITGNFWGKTGPVDGIAADPQYLDI
+TVPAGVKKTFKIDTYRRAFAYVFQGAAAFADASKPSGVLLEKEVAGEELNIRDLSGDRTL
+IRFGTGDEVTLQAGPEGVRFLLISGAPIDEPVAWHGPIVMNTQAELRQAMKDLNNGTFIK
+AAH
+>tr|B7RI08|B7RI08_9RHOB
+MTQLKDKAPLGKVIVITSGKGGVGKTTSAAAIAAALAKRGHKTVVIDFDVGLRNLDMIMG
+CERRVVFDFINVIQGEARLKQALIRDKRLDTLWILPTSQTRDKDALTQEGVEKVLNELKE
+QFDYIICDSPAGIERGAQLAMYFADEAVVVTNPEVSSVRDSDRVLGLLASKTKRAESEGT
+EVKAQVLLTRHDQRRIDAGEMMTIEDVLEILAVPLLGVIPESPAILRASNVGMPVVLDEP
+SAAGRSYETAVARLLGEDVDMHMEGEKRPGFFSRLFGASA
+>tr|B7RNZ8|B7RNZ8_9RHOB
+MLKTRIIPCLDVADGRVVKGVNFVGLRDAGDPVDAAIAYDAAGADELCFLDIHATHENRG
+TMFDLVTRTAEHCYIPLTVGGGVRTVADVRALLLAGADKVSFNSAAVADPDVISRAADQF
+GSQCIVCAIDAKTVSPGKWEIFTHGGRKPTGIDAVEFAKRVAAKGAGEILLTSMDRDGTK
+QGFNLPLTRAISDAVSVPVIASGGVGNLDHLVEGVTKGGASAVLAASIFHFGEFTVSQAK
+HHMAAAGIPMRLT
+>tr|B7RNF0|B7RNF0_9RHOB
+MPLAFAVVVSFPVGAQDLGRSLLLGLGSSAMEKGGELIEGAPEKFDDFMKSTVEGREFSS
+NSACLGFLQVSINAGTVMANILSFSSVKIFEDSRGPVAQFRMLINGEKLHVEAFCSDSAM
+KAAILPWGSGSESPRKVSKSSLDAVAGLLLLLEAQGAFDREASSSEPIQSAETPKPKPIS
+PGLSEPAKGRNLETNGVPDELDHRLAAPTAPYLPSEASLSPEEKQAFLLAVSACWNVGSL
+SSEALRTTVTVEMAMKPDGTPIAGSIQLASSFGGSEAAVTQAFEAARRSIIRCGARGFQL
+PAEKFDAWKEMTLMFNAERMRIE
+>tr|B7RGN1|B7RGN1_9RHOB
+MSTSGMTQKPFPSWPDVAAQLVSVAAGRAAADTIITGGTWVNVHTREALPDHDIAIVAGR
+IAFVGPDASHCKGDDTRVIEAKGRYMIPGLCDGHMHIESGMLTPAEFARAVIAHGTTSMF
+TDPHEIANVLGLEGVRMMHDEALLQPINIFTQMPSCAPSAPGMETTGFEITAEDVAEAME
+WPGIIGLGEMMNFPGVTNGDPKMLAEIAATQRAGKTVGGHYASPDLGPAFAAYVAGGPAD
+DHEGTCEADAIARMRQGMRSMIRLGSAWYDVETQITAITEKGLDSRNMILCTDDCHSGTL
+VNDGHMNRVVRHAIDCGCDPLVALQMATINTATHFGLERDIGSLTPGRRADVILTSDLKT
+LPIETVIARGQIVAQAGKCVVDCPHYDWPASARQTVHMGKTLEAADFHIDAPKGANAVTA
+NVIGVVENQAPTRALKFELPVTDGRVQATGEVCQIALVERHRATGTVVNAFVSGFGYEGP
+MAMASTVAHDSHHMIVVGTDADHMAMAANRLGEVGGGIVIFKDGEELALIELPIAGLMSD
+SPASEVANKTETMMQAMRDCGCTLNNAYMQHSLLALVVIPELRISDLGLVDVRSFEFIPL
+FEPTS
+>tr|B7RSG6|B7RSG6_9RHOB
+MSPYLPVTADQIAESAIGAAEAGAAVLHLHARRPETGAPSQDPAHYAAFLPGIAAATDAI
+VNITTGGGLGMSMEDRIAPALKAAPELASLNMGSFNFNISAAEKACHDPQQWELDYLRGT
+RDLIMSNTFTQIETVLGRLSETGTRFEFECYDTGHLYNLAHFADRGLVKPPFFVQAIFGV
+AGAQGTDPENLMHMRATADRLFGDDYLLSVLGAGRSQFPLVTMGAILGEHVRVGLEDNLY
+IAKGELATSNAQMVAKLRRILEELGHEIATPDEARAVLGTKGKDEVRF
+>tr|B7RIQ2|B7RIQ2_9RHOB
+MMLPTVSPMPAEHPSTPAALFPDYVRLSRSASPTYAPFDGKVPAKWRKAARKKGFTIVDR
+VKDRLHVALLCHDCGCTHAKRVSVVLGHSPECPHCIKHQRIEHARTVGAVLLGRDPKNRH
+YGFYQLSCGHRVRRQYHRVARAADGGHSLGCETCREERYRAQANKFGWDLLGPASRGKPG
+YRSYRHTCGQTQDIMVGNMVWGDCACSGCSLGRTARPSHIYIFRIDLPGRPVLKLGYSAR
+PAKRLRHQLGIDKGITTEVLRVVNLPTGHDARAEEERAHRTLTAQFPDMVVAKAEYGDAI
+NVTREIYRPKAAPLIRRLLDEIETRFPDTGERFPDIAA
+>tr|B7RNM4|B7RNM4_9RHOB
+MSAFTAINLDRLPAPAIIDRKDFETILAEVKAWLVDRDPDLGPIVGLESEPITKVLQAWA
+YRELLLRAEIDDAGRGNMLAFAAGAQLDQLAAFYGVQRAVIQEADPVAVPPVPEVLEDDV
+RFRSRVQLALEGFTTAGPRGSYVFWGLSASPQVKDISVESPAPGQVVVTVLSEVGNGGGD
+PALVQLVADALNDEDIRPLTDQVLVQAATIVTYQLDAVLTLYDGPDGEIVRAAALASVTA
+FVEDQHRLGHDISISGLHAALHLPGVQKVSLVSPLADLVVDGSEAAYCGSVSVNVGGRDV
+>tr|B7RIH6|B7RIH6_9RHOB
+MLPKTEDTAIFGNNDISAWTPDFTANVMRKTDVENGTIFLGKSDWHRDRDTGRNHGDPAK
+SAWPRGPRIAQPADAARESVAVQDRFVQVIIPACNPN
+>tr|B7RQU0|B7RQU0_9RHOB
+MPVSHDIDRDLDRLQALARRMDYAFRIPLLGVRLGWDSILGLIPGVGDALALAPAGYIMK
+EAHRLGASKSVLARMGANVGIDLVIGAVPLVGDLFDIGWKSNSRNVALLKDHLGRQPAAA
+MDAQGELSSHHPTLRG
+>tr|B7RS28|B7RS28_9RHOB
+MRLIDKARHRLARWRRAPLHPKRLVANADAFWDILEKDAAIERLTTGFEFTEGPVWLPSR
+AALVFSDIPQNTIHEWRNGRVRKIRKPSCHANGNTLDQAGRLLTCEHSSRRVTRTELDGT
+ISILADRWQGRRLNSPNDLIVKRDGSVYFTDPPFGIKPDQQETGFSGIFRIASDGTLSLL
+DTSMPGPNGLAFSDDESRLFVDDSIIKELRVFDVRADGTLKNGRCVCDMDNGKRGNPDGM
+KFDTKGNLFVTGPGGVWVFAPDMTHLGTIELPELPANCAWGEDGKSLFVTARRSLYRVRC
+LTGGRLLRG
+>tr|B7RKD2|B7RKD2_9RHOB
+MNNTLLEVSGVSVSFDGFKAINSLSIQIAEPELRAIIGPNGAGKTTFMDIITGKTKPDEG
+KVIWGERNISLLGLSEADIANAGIGRKFQKPTVFEAQTVRQNLAMALKNPRGPLAVLLHR
+KTPSNAARIEAIAEEIGLSDSLPRIAGELSHGQKQWLEIGMLLAQEPRLLLVDEPAAGMT
+VEEREKTTDILKRAAETRAVVVVEHDMEFVRRLNCKVTVLHEGSVLAEGSLDHVTSNPTV
+IEVYLGRGHA
+>tr|B7RQW0|B7RQW0_9RHOB
+MDLILVNLIDGLVTGLLLFMLSAGLTLIFSMMGVLNFAHASFYMLGAYFAYQISVALGFW
+MGLLIAPLLVGVLGAGVERYGLRRVHQYGHVPELIFTFGLALLIEEMVQFVWGKNQMPYS
+VPEVLNFTAFAISGNSIPAYKIFMIFISIGIFIGLLYILTKTRVGMIIQAALSYPRTVEA
+LGHNVPLIFMGVFGVGTALAGLAGVIAGPVLGTFPGMAFVLGSIVFVTIVIGGLGSLWGA
+LVASLLIGWITTFAKSYNIEMESLLNAIGISTPENLSDSVFRDFWSLTSPQIADILPYIL
+MVLILIFRPAGLFGKRSS
+>tr|B7RKZ2|B7RKZ2_9RHOB
+MRERLNNWVESRLVSNFIIGVIIFNAVLLGLETSAETMARIGPMIEFLDSICLAIFIIEI
+LLKIAGRGLGFFKNGWNVFDFLVVAIALVPAVQGLSVLRALRILRILRVISVAPSLRRVV
+EGFITALPGMGSVFLLMAIIFYIGAVIATKLFSGAFPQWFGSLPSSAYTLFQIMTLESWS
+MGIVRPVMEVFPYSWMFFLPFILVTTFAVVNLLVGLVVNSMQDAHNEEETERTDAYRDDV
+MRKLEAIEKQLAEKSQQ
+>tr|B7RM15|B7RM15_9RHOB
+MSHITNHMPTAELQALDAAHHMHPFTTNDELAAKGARIITSAKGVYLTDSEGNKILDAMA
+GLWCVNIGYGRQEMADVAARQMLELNYYNTFFMTSHVPAIALAKEIASLAPGDLNHVFFA
+GSGSEANDTNIRMVRTYWAMKGKPEKSHIISRKNAYHGSSMGSGSLGGMSYMHEQGGMPI
+PGIHHINQPDWWAEGGDHTPEAFGLARAQELEAKILELGADNVAAFIGEPVQGAGGVIVP
+PSTYWPEIQRICDKYNVLIIADEVICGFGRTGNWFGSQTMGIKPHIMTIAKGLSSGYQPI
+GGSIVCDEIAEVINSGEFNHGYTYSGHPVCSAVALENLRILQDENILDHVNTVAGPALKE
+GLDKLSEHPLVGGVNISGMMASLPLSPRKETRSKFASDAGTVGYMCRERCFANNLVMRHV
+GDRMIISPPLVITPEEINTFMTRAKKALDETYTALKDGDLLKAAEDHIHDADSPLG
+>tr|B7RKZ6|B7RKZ6_9RHOB
+MKKLVLAAALTAAASNAFAGSLADPIIEAPVIVEESTSSSSGILIPLLLLVIVAAAVAAD
+>tr|B7RFK6|B7RFK6_9RHOB
+MILHLYFARRFVTGFVLISAVLFALLILVDMVEQARKFAEHDIGWQRLFGMTLLNTPETL
+NLILPLIMILATVVLFLSLARSSELVVTRASGRSALSALQAPVWVAFIIGIMAVGMLNPI
+VAATAKRYIQLSESIRAGGVSTLSISDEGLWLRQGGDQGQTVIRAWRSNADASVLYDVTF
+LTYAAQGGPIRRIEASSAALEDDGWVLTGAKSWPLELGVNAEGNAEVFETLTLPSTLTLD
+RIRESITDPGVVSIYDLPGFIHQLELAGFSPRRHKVWLQTELARPFFLVAMVLVASAFTM
+RHTRFGGTGVAVLASVLLGFGLYFIRSFAQILGENGQIPVVLAAWAPPVASILLAIGLLL
+HAEDG
+>tr|B7RJP8|B7RJP8_9RHOB
+MLIALIAKDKADSLSVRQENRPAHVDYLKSTGCVSQAGPFLDADGQMCGSLVILDVADMA
+AAQTWAANDPYAKAGLFADVQLIAWNKVIG
+>tr|B7RLK7|B7RLK7_9RHOB
+MNALPKSALSMPVGVVLRKSPGVTKWAKFAWRAVCILPGADPADWKLLRTDGDVSDYHVT
+TVPLTIYRTDTEAYVHGLAANVPCVYVICRETSDPAKPLEVVMVTASPYEAQDYSDNGED
+IVEKVMMTPQVHAWIASYVDEHHEEEAFVKRRRDKHREHKQDGIGDARISQTTDVYRAPR
+RAGSEPAQ
+>tr|B7RN45|B7RN45_9RHOB
+MPHFTSSDGLNLYYTDEGAGLPILCLAGLTRTTADFDYVTPHLAGNRLIKMDYRGRGQSD
+FDPDWSHYSPPVECRDALELLAHLGLDKVAILGTSRGGLNAMGLAMGAKDRLLGVAFNDV
+GPYIDPQGLDFIMQYIGRTPAAKTHAEAAAAMPRVFPEFEGVPDSRWMEEAVKHYTQTDS
+GLTITYDKHLRDAVAKAFSAPSPDLWPFFDALAGLPIACIRGLNSNLLSEETLAEMERRR
+PDMIVGRVPGRGHIPFLDEPEAVAALHKWIEEMS
+>tr|B7RQT0|B7RQT0_9RHOB
+MKRVVITGAGTINALGLTVPATLAAMREGVCGIGPLEFRDVERLSIRIGGQVKGFDADTR
+YTRQQISLYDRFTQFTLAAAAEAIAQSGLTFSGALAEKSGVVLGTAGGGVSTWDDNYRAV
+YEEGKNRVHPFVVPKLMNNAAASHVSMEYNLRGPSFTVSTACASSNHAMAQAFAMIRSGM
+APAMVTGGSESMLCFGGVKAWEGLRVMSRDACRPFSANRNGMVQGEGAGIFVFEEYEHAR
+ARGAEILCEVAGFAMSSDASDIVMPSRDGAARAMAGALEDAQINPQDVGYINAHGTGTAA
+NDRTECAAVQDVFGPHAQKLMISSTKSMHGHLIGGTGAVELLACIMALRDGVIAPTIGYQ
+QPDPDCALDVVPNETRDAKVSVVLTNTFAFGGMNAVIALRRV
+>tr|B7RGH2|B7RGH2_9RHOB
+MFLIGKVLSALAKASTLIGTICVVLMMLHVTADVIGRYFFNAPLAGTIVVVANYYMIVLV
+FISIGVAEEKKAHISVEFVTDLMPRKVQSGFSVFSNILTVAVITVLMIAGYTEAVKKTNI
+GATLVEGSQMIEVWQSYWAIPVGAALMVLIAAYRIVVTVTGQRNGLNETDLNAKLIND
+>tr|B7RGH5|B7RGH5_9RHOB
+MTDQVILTDIKDGIMTLTLNRPDRLNSFTRGMLDQMIAAFDVADADDAVRVVIVTGAGRG
+FCAGVDLDNPDAFTAAKPDPRATDPAVWDNPENRDMGGVLALRIFACLKPVIAAVNGPAV
+GIGMTMQLPMDIRLAADTARFGFVFARRGIVPEAASSWFLPRIVGMSQALEWCYSGRVFG
+AEEALAGGLVRSVHAPKDLLPEAQRIAREIADNTAPVSIALTRQMMWRMAGAAHPMEAHR
+IDSRAIAARSSMGDAAEGVASFLEKRAPEFPDKVSADMPGFYPWWDEPEWEMPRGKGDAQ
+>tr|B7RPS6|B7RPS6_9RHOB
+MGLLQGLAQMMQRQRGHLFGWVPVMLACGIGMYFSLRVEPSLIWLGAVAAGAAALVLVAR
+YVPEAVSPVVMAGALLLIGFDLAAWRAHSVASPVLGWRYYGSIEGRIVAMDRSQSDALRL
+TLDRVVLDRVPPHRTPDRVRISLHGDQTNSILPEPGLRVMTTGHLSPPSGAVEPGGFDFQ
+RHAWFARLGAVGYTRTPLLGVAEASDGHAGLAVFRLRMAASAHIQGTLPGDIGGFASAIT
+TGDRSAISQMALYNLRASNLAHLLAISGLHMGLLCAVVFGALRVLLCLVPWVALRWPTRS
+IAAAGALIVASGYLALSGGNVATERAFIMVSVALGALMLGRKALSIRAVAIAATIVLVLR
+PEALMGPGFQMSFAATTALVAVFGWLRNVNLTFGQKWLAPVVSTFISSAIAGLFTAPVGA
+AHFNTIAHYGLVANLASVPLMGVMVMPAAVAALVLSPFGFDPAALWVMGLGLRWILGVAA
+FVADIKGAQGFVKGPGPWVLPLLASGFLWLLLWQGWLRLAGLGAVLAGFVLWHGATRPAV
+LIADTGGIVGVITPQGRALSKPKGAGFIALNWLENDGDGADQPAAAARWGDRMALAGQEI
+IHLSGKRAVAAFGGCHSGQIVVASVEVEGDIGECTLFDPISLRTTGAVSLSEVDGRIKTR
+TARQMAGARLWTNWPDRKNQ
+>tr|B7RSI4|B7RSI4_9RHOB
+MNRREFNASLVAATAAGIFATQQATAQTSAQISQRERPIYNMVIYPNMVLQDLVGPMTAF
+NLTMGEIRLIWKDRTPVATDVGIPITATHTFADCPRNGNVLFVPGGLAGTTQMMEDSDML
+SFLREIAGKVDYTTSVCTGGLILGAAGLLKARRATTHWYVHDILPLLGAIPIEARVVEDG
+NLITGGASQRV
+>tr|B7RRL4|B7RRL4_9RHOB
+MEKNKQHFDEMIAGAGEVRSPYSGYDKWFAQQDPDHLTRKSQEAETFFRRSGITFNVYGQ
+AEAQERLIPFDLIPRIIAEREWAKLSKGIAQRVTAINAFIHDVYNRQEILRAGIVPFDLV
+AKNDAFLPQMMGFSPPGKVYTHIVGTDIVRTGPDEFFVLEDNARTPSGVSYMLENRETML
+QMFPELFSQVRVKPVSTYPGSLHRALCDSAPPACNGKPRVAVLTPGIHNSAYFEHSFLAD
+QMGVELVEGHDLRVVDGRIAMRTTLGYEPVDVLYRRIDDEYLDPLSFNPDSMLGVPGIMD
+IYRAGGITIANAPGAGIADDKAIYSYMPEIIEFYTGEKALLKNVETYRCAESDALKYTLD
+NLKDLVVKEVHGSGGYGMLVGPAASKQELEDFAAKLRAKPANYIAQPTLSLSTVPIFADS
+GLAPRHVDLRPYVLVSPKGINITPGGLTRVALTEGSLVVNSSQGGGTKDTWVLEE
+>tr|B7RGK3|B7RGK3_9RHOB
+MDQVYDIAAEKPWSGIVRKGQTIRVEDTYGQQAIDTIFYRADDFGERYSSQDTLRAQGAA
+YITTGTRLMSSEGRAMLTVTADTSGRHDTSAGCCSCESNTVRFGHDTLYQHACRENFIME
+LSRHGMTKRDIVANINFFMNVPISPNGAMTVDDGISAPGDHVEMVAEMDVLCVISNCPQI
+NNPCNGFDPTPIRVVIKG
+>tr|B7RJM7|B7RJM7_9RHOB
+MAAVSSTLGIDFGTSNSAAGYAIDGVPRLIDVEAGENTLPTALFFDFEEKRIIYGRGAQE
+ALIGGDEGRYMRALKSLLGTPLMRESRMLLGKRMDFIAIVASFLAELKQRAEAATGQTFD
+RALSGRPVMFHSADAARNAQALVDLTECYHLAGFKDVRFMPEPEAAALANRAVLEPGDLG
+LIVDIGGGTSDFTLFRQQGDAGIHILASKGLRMGGTDFDRELSLHHVMPHLGMGSQIKHV
+FGDETHAAPHAVFTDLATWQKIPFLYTREQRRAVDDLAKYAVEPALLNRLVKVLEDELGH
+DIAFAVEAGKIAANDVAATAPPEIRLDILERGLRVPLPPAMMAATLNEMANSIAQVATDL
+VAQTDLAPADVNKLIFVGGSSLMGVIDMAMRRAFPQAELHRGAAMTAIVDGLAIAASHAF
+ARE
+>tr|B7RLC4|B7RLC4_9RHOB
+MKGRTIVLDHFAGVEAAALMVDGKLDDLLIDSDSPRPGTIYRAIADRPVKGQGGMFLKTP
+DGSAFLRQIKGLAPGQPILVQVSGYAEPGKAVPVTQKILFKSRYAIVTPGAPGTNISRSI
+RDEEERDRLLEIAHEAAQGASHGLILRSSCAGADGDDIADDIDAMLTLADKVLGDTATEM
+EVLSEGDGPHILAWRDWVDPAEVVTEPGSFETHAVLDAIDGLRQPRVELDGGASMFVEPT
+RALVAVDVNTGADVSLAAGIKANMSCARALPRALRLRGLGGQITLDLAPMPKKDRRPFET
+ALRQAFRADDVETTLIGWTPLGHYEMQRKRARMPMSEVLK
+>tr|B7RN75|B7RN75_9RHOB
+MTESESVVYRVVPKCACSTIGQIMFYSDHGSFFDGDIHDAQTGMHKWALDESQAPITANV
+QSHSSYAFTCVRNPYTRVLSSFFDKICGIQRNGKRYRGNLVPLLVQKYGIEVGGVDGKQE
+FDQIASFRRFLLFARDTIRWRRPMDPDIHWSSQAGHVSTFIVNGGTYDKIVWTERFNQGM
+QDVLDAIDTPHQVQLADIPRFNESEGHGPKRAHPVEDYFDDLSMHLVREIYKRDFDLFKY
+DFDNPANKMPVAEIDLDEVHAKLGD
+>tr|B7RQE0|B7RQE0_9RHOB
+MSTTDAQRTQMKDGQGFVAALDQSGGSTPKALSLYGVEPSDYSGDAEMFQAMHDMRARII
+LADDFTSDKVLGAILFERTMDETINGKPVATLLWEDRGVVPFLKIDKGLEDEVNGVQMLK
+PMPELDSLLARAKTAGIFGTKERSVIHSADATGITAVVAQQFEVAKTVCAAGLVPIIEPE
+VNIHSDSKADCEVILKAELEKQLAAFPADDMVMLKLTIPENAGHYDSLADLPNVLRVVAL
+SGGYSTDDACDRLGQNKKMIASFSRALTEGLNVKMSDAEFDAALGANIDKIYKASVA
+>tr|B7RQL7|B7RQL7_9RHOB
+MYSGRVMRTFTSEEVTEDNLIQAISGISSGQAA
+>tr|B7RK85|B7RK85_9RHOB
+MTALLDVRDLTIGFGTSEPVVDRVNFSVNAGETLALVGESGSGKTLTCRSVLRILPDAAR
+IRGGSIHYSGQCGDQFNDASGPVDLMDLPEKAMRAIRGNRISMIFQEPMRSLSPLHRLGD
+QVAEVLRLHRKMGRAEAKRAVLEKFDKVGFADAERAWRSYPFEMSGGMRQRAMIAMAMVA
+KPELLIADEPTTALDVTTQAQVLGLIRTLQKETGMAVILVTHDLGVVANMAQQVVVLNKG
+RVMESGQAGHVLGAPAHPYTAKLFAAAPMIPLVAKPARAPSHDDVILDLRAVSKTYTMRA
+GGWRKPVTVSACENVNLQLERGKTLAIVGESGSGKTTCARIAMGAETPDPGGEVLFRPSP
+TGDATPVHSMTSTERTAFQRQAQMVFQDPYSSLSPRMRVQEAMTEPMEIHGIGTAADRRD
+KAAEMLQWVGLDPDMLRRFPHAFSGGQRQRLSIARALTLDPKLLICDEPTSALDVSVQDQ
+ILTLLEDIRERANLSYLFISHDLAVVARIADEVAVMRAGVIVEQAAPDTLFYNPQHPYTR
+ALIAAQPEPDINRPIDLDLVAKGAGSPTLWPENYRFEGTQAPALRELEPGHMVRCHA
+>tr|B7RPK6|B7RPK6_9RHOB
+MMLPLILAGCETRAPLADDFIPDYQGVETKLLDGDLVQFDVAMTNALSSENVADYAECAA
+ARYTLIRGFGFARHVRTNVEIVGGVWRADAVYTISPSLPRGLKTIDAEVTVQNCMERGIP
+TV
+>tr|B7RPK7|B7RPK7_9RHOB
+MAEFFNTPGGIAVLILAQTLAVVAFVMISLLFLVYGDRKIWAAVQLRRGPNVVGTFGLLQ
+TVADALKYVVKEVVIPAGADRTVFMLAPLTSFVLAMLAWAVIPFNDGWVLSNINVAILFV
+FAVSSLEVYGVIMGGWASNSKYPFLGSLRSAAQMISYEVSLGLIIIGVIISSGSLNFSGI
+VAAQSGPYGFFSWYWLPHFPMVFLFFISALAETNRPPFDLPEAESELVAGYQVEYSATPF
+LLFMAGEYIAIFLMCALMSLMFFGGWLSPIPGLPDGVLWMVGKMAIFFFLFAMVKAITPR
+YRYDQLMRLGWKVFLPFSLVWVVFVAFAAKFDWFWGAYARWGMGG
+>tr|B7RJ44|B7RJ44_9RHOB
+MPHPNNLTSLPVTRRHALVGLLSSVAVTALTFPKAISAQQTDETPENSGSDQTPFSFDVL
+TEKMRAAALEAPKPAEEVDGFLAEFDYDDYQRVRFNRDRNRWADTENARFQLNAFHLGWL
+FNEPVHLNSVVDGVATPMAFSTADFDYSDVQVAIPPNFEMPGVAGFRIMTPLNRADHQDE
+LAAFLGASYFRALGRGNRYGLSARGLAINTGTSDGEEFPRFNDYWIEPPSANSEKVTLYA
+ALQSASVTGAYRFDITPGETTVMEVTARLFMRKDVQQIGIAPLTSMYLFGGADPGTYNDF
+RPAVHDSDHLVLNARNGDTFVRPLTNHTRLGNSYLAAQNPASFGLIQRMRDFDGYLDAQA
+HYELRPSLMVEPVGDWGQGTVRLMEIPSDLESNDNIVAYWVPDVAPAKGESLEVSYRLHW
+GLSPRGDRSVDRARIVRTRIGKGGFAGVDEKTDRIKFVVDFEGGLLSGLSADAAITARVS
+VTRGELAQTTLSPIEGTPMWRLVIEAVPDKPEAAMELQAVLNGYGQDLSEIWLYQWEV
+>tr|B7RKJ8|B7RKJ8_9RHOB
+MTHSLTFDAISETTPGQKWAARWQRSWPAYEAWFVARGGDSGPDRAACVAALEKYMPELV
+PVHAQLTALAGGSDRAACFLSTWCPPSYLGGCSLAVATSKDDIRLVRNYDLSPDLNEGLL
+LHSAWTGRRVMGMVEFLWGLSDGINDAGLSIALAYGGRQETGRGFGITTILRYVLETCDT
+VPQALRALQRVPSHMPYNVVVADASGAAASVEIYAGGGAKVQPRLVATNHQTDGSTPDRG
+AFTRTFERSDHLDGVLSGGCTPSTLASRFQEAPLRQDRYGEGFGTLFTAEYQPLRRHMTL
+HWEGVVWEQSIDAFEEGSRVVRYGSGNISGQAPAGDIDWVKIGMEYAAGRQPDWRSFVPG
+WKDVA
+>tr|B7RKS7|B7RKS7_9RHOB
+MFLGLDLGTSGLKALLVDDDETIIAEATAPLQVSRPHDGWSEQNTDDWFTACADAVRGLG
+VDLRAVQGIGLSGHMHGATLIDGKGAALRPCMLWNDTRAAVEAAEIDANPVWRMVTGNIV
+FPGFTAPKVEWVRRHEPEIFARIDKVLLPKDALRFWLTGDAVSEMSDAAGTSWLDTGARD
+WSDELLALSGLSRANMPRLVEGSEVSGSLSGSIAAKLGLPAGIPVAGGGGDNAASAIGMG
+VVKPGQAFVSLGTSGVLFAATPSYAAAPESALHSFCHALPNLWHQMGVILSATDALNWLS
+GVLNEDAQTLTGDLGDLQAPGRTVFMPYLGGERTPHNDAQIRAGFLHLGHGTDRAAMVRA
+VLEGVTHALRDSFDAMTVTGTKIDSLIAVGGGSKSDYWLKAIATSLNMPIQLPAAGDFGA
+ALGAARLGRMAATGAGAEIAVPPPVSRVIEPDPRLVPAFSDAHARYSETYRAVKSLR
+>tr|B7RLT0|B7RLT0_9RHOB
+MRALLRQTICMTIILFKTPTPEHQHRSAAGLEALKTTLWQQLVVMARPIVLVAIPPRQRP
+WLHLMTLLNPRRAVHGRRIDTVTGDRLLPVILPLVAVVDDFPDDRDPQNPGSDAGKVTVT
+FPGSGRGCADRCDGNRDRGDGCDKLAVHRSDPFSTRHGSSPMQSHDDGYTPTSPRPPKTG
+NNIPMLSDITAPKPHWILNIRWQRRTLSL
+>tr|B7RMN8|B7RMN8_9RHOB
+MIDEVIFYDTLRQGLWVALIISVPILTVALITGVTIGLVQALTSIQEMTLTFVPKLAGIG
+AVFWVSMSFMTETLVSFFHDRIIPLIIGG
+>tr|B7RG09|B7RG09_9RHOB
+MRRLIAAAALALCALQPGHAAAGSSQAGKSLLPAEQVASFSDKVQIDLAARGASVAIVAR
+KGRRASELPEGITYTHVAFWVFSEIKRADGSKYNGYRVYNLYQDADAPMRSSVIQDSPAD
+FFAGAHTLDAGIIIPDPRLQRKLLKVIGSPTYKKLHNANYSVLANPQTRQFQNCTEHTLD
+VLVAALYGTSDPARIKSNITAHFTPQLIKIGGLKRALAPVASQALTTQDHGAQIRTATFG
+SILRFMGQNKLVTKSYRLTPSQTLSF
+>tr|B7RG15|B7RG15_9RHOB
+MSDLGTISEIIVSALLVIGGFFTLVGSIGLLKLDNSMSRLHAPTKASTLGVGSLLMASMV
+YAFAAGDGSLHEVLVMAFLFVTAPISGNFIAKANMHRLRNKPDLPPPPPPPDHVWSTYSE
+K
+>tr|B7RGR3|B7RGR3_9RHOB
+MSFRIQPTAPARPNRCQLFGPGSRPAIFEKMAKSDADVINLDLEDSVAPSDKDSARQNII
+AAISDLDWGNKLLSVRINGLDTPYWYRDVVDLLEQAGERLDQIMIPKVGCASDVYAVDAL
+VTAIETAKGRNKKISFEVIIESAAGIAHVEEIAASSPRLQAMSLGAADFAASMGMQTTGI
+GGTQENYYMLQDGAKHWSDPWHWAQAAIVAACRTHGVLPVDGPFGDFSDDEGFRAQARRS
+ATLGMVGKWAIHPKQVVIANEVFTPSEAAVAEAREILAAMEEAKAKGEGATVYKGRLVDI
+ASIKQAEVVVRQSEMIAAR
+>tr|B7RK19|B7RK19_9RHOB
+MSDPCILCVAITGSVPTKAANPNVPISIAEQVESTHEAFEAGASICHAHVRNDDETPSSD
+PEKFAALKEGVEKHCPGMIIQFSTGGRSGAGKARGGMLSLRPDMASLSVGSNNFPTRVYE
+NPPDLVEWLSSEMRQYEVVPEVEAFDLSHILQAIQHHKDGKLFGRLYVQFVMGVKNAMPA
+DKTVFDFYVEQMKARAPDAAWCAAGIGPNQIVVNEWAIAAGGHTRAGLEDNVRLDRDTLA
+PSNAALIKRAADLCEKYERPVATWQQAREILRLRPVSV
+>tr|B7RMW9|B7RMW9_9RHOB
+MTLKTFTRKFGHGPRQALAIHCTLAHSGAWRGIGEALGDDLTLLAYDLPSHGKSGDWDGQ
+GNVHDVATDMALALLTEPMDIIGHSFGATVGLRLAIESPELVRSLTMVEPVYFAAAMVDD
+PKGASSDMGNNTAFNAAYASGDMMEAARVFNVGWGDGSGWEKTPEKLRHYMADRIHFVPA
+SQPFLREDSAGLLEPGRFARAAMPVLLMDGATSGDIADVISRSLEKRLPNVTRRAIAGAG
+HMAPLTHPTEVANEVRAFLAAC
+>tr|B7RSB4|B7RSB4_9RHOB
+MRIVVATKPVDFRKGHDGPAALVKNELRKDPFTGIVFVFRSKRADRLKLLYWDGTGLVMA
+YKRLEEHTFTWPAIKGGLMALNHAQFEVLFSGLDWRKVRALSVRPPTAAE
+>tr|B7RMM9|B7RMM9_9RHOB
+MNIIERSLPDRVMPPKDKLIFEAAQKLEATFLAEMLKSAGFGEARETFGGGAGEDQFGSF
+LVQEQAMQMVKAGGIGLSETLFEALKERRDEK
+>tr|B7RS86|B7RS86_9RHOB
+MICAAAAVAEENVYQIDALNVGLGAPPDQLDRSSPHATMEALLDLADAKDFTTAAHLLNL
+ATVPSTQQAAAGPQLAEQLYALVDRKVVISWGDLLDRPDALDATATTKSAVAGQTRRSIL
+LWVLEIDNRPYPIYLDRVQVKDQAPVWVFSQRSVANITKLYDTYGPSKMERKLPDWARQN
+GFWNLMWWEVIGLPVMFLLSIIGGVTTHKALTRAAATAKRDFSKKIIEASRLPIVTFVMT
+LIISIISGIFVFSGPISALIPPTIALGYVIAALVFVVNVVDRIIDRIIEFDNDDLQQIND
+DHRRETATKVSLVRRMLIVVIVLLGFGIVLAEADVFRTFGFSLLASAGAVMLVLGFAARE
+VLSNIMSSMQIALNQSARIGDNVVYKGHICSVERINFTYVLLRVWTGVRLVVPVTEFVSE
+TFENWTIRDPHMKRLVEIHVAHDAEVEELRDVFFKVIDEVEHEDLGDRDEHEVRVTGQDV
+FGQIVTFCVTCNNPNTSWEVSCEVRERLIKRMQDMESAGTRVFPEVNPAEGA
+>tr|B7RKA2|B7RKA2_9RHOB
+MICALSALAACGGSRGYNPSGNYGGGVILFATGPINSACLQTGRKQASRARCGCIQAVAD
+RELSSAQQRRGVSVFKDPHKLQQARQSDRSSDNAFWSAWKAYGQTAEALCSAT
+>tr|B7RP82|B7RP82_9RHOB
+MSDAQTRPLGAQISHMLKDRGVEVIFGIPGVHNQEMYRGIEEAGLTHVLARHEQGAGFMA
+DGYARATGKPGMAYVITGPGLCNIMTPMGQAYSDSVPVLVISSCLDETAARKGQLHQMKD
+QRAAAETVCDWSFEARTADAAYQLIDRALVEFDTSRARSKHIQVPIAVLGSDAAAAPEKG
+TLDHTPQAAQFGQMDRIEALLNAAERPVFVLGGGAGPNAAIPGILRKAGALVVTTYAGRG
+AVDAADEHCLGACLARPGSAQVFAQADLVLAIGTELAEVDLWRPELGHDCPMVRVDIDAS
+VLAETRAGDVAVHARAQMFFDDLSRRLEAWPQDKPFLWDTDTVAAQVASFRGQVQAERPG
+LVEVCDALRAAVPADTMIYSDMTQIAYVAQEVWDMDRPGHWHHPTGFGTLGYATPAAIGG
+AIGRPGLPTMAIIGDYGFHYTMQELGVAVELGLPLPIILWDNGKLGEIEDSMTRAQIAPN
+AVIAHNPDFCKLAEAFGALSAAPQSLESLRGALDKAFKADRPTLIYLTPKITG
+>tr|B7RPT4|B7RPT4_9RHOB
+MAARRWLFGVTFSADRPLINVSQAAPVEPPPQPLRQVMADVALTRDDAHLYGPVLGLDEL
+RAELAAQTARHYAGEITAAQTAITSGCNQAFAAAIATLCGEGDEVILPTPWYFNHKMWLD
+MSGVRSVALRTGPDLLPDPEAAAALITDRTRAIALVTPNNPGGVEYPAELVRAFFDLAQS
+HGIALILDETYRDFDSRTGPPHDLFQNPDWQATLIHLYSFSKAYRLTGHRVGAIIASEAR
+LAEVEKFLDTVAICPGQIGQHAALWGMQNLSQWLAGERDEILARRQAITDNMHKITPKGW
+KLLGLGGYFAYLHHPFEESSADLGPRMVRDAGILCLPGTMFCPDTDPTGARQLRIAFANL
+DAPGISVLFDRLAVL
+>tr|B7RG36|B7RG36_9RHOB
+MDTTIVKDGVDQETVDAVREVGGAYKHGWSTDIEMDYAPLGLNEDIVKLISGKNEEPEWM
+LEWRLAAYQRWLTKNEPDWAMVDYPKIDFQEQYYYARPKSMAVKPKSLDEVDPKLLATYA
+KLGIPLKEQMLLAGVEGAEELTDAPRKVAVDAVFDSVSVGTTFQKELKAAGVIFCSISEA
+IRDHPELVKKYLGSVVPVNDNFYATLNSAVFSDGSFVYVPPGVRCPMELSTYFRINAENT
+GQFERTLIIADKGSYVSYLEGCTAPQRDESQLHAAVVEIIIEEDAEVKYSTVQNWYPGDE
+NGKGGIYNFVTKRADCRGDRAKVMWTQVETGSAVTWKYPSCILRGDDSQGEFYSIAIANN
+MQQADTGTKMIHLGKRTKSRIVSKGISAGKAQNTYRGLVSMHPKAKESRNYTQCDSLLIG
+SECGAHTVPYIEVKNNSSRVEHEATTSKVDDDQLFYCRSRGMDEEEAVALVVNGFCKDVL
+QALPMEFAMEAQALVAISLEGSVG
+>tr|B7RH69|B7RH69_9RHOB
+MHYLWLFIAIISETLGTTALQASQQFTRLWPSVGVVVFYLISFYFMALALKVMPVGIVYA
+IWSGLGIVCIAGIGYVIFGQKLDLPALLGLLMIIAGILVIHLFSNTTTH
+>tr|B7RKA7|B7RKA7_9RHOB
+MTQDARFEDGREAPLNLGALDSDDLKVISSLAQDAVFPASEMRWHQKGARFALLLNRVRW
+EDAGKTRHAAERVQSVLMFNNVQRVSSQGVAKGDTDTILSLLQIEFTQTDAPSGDVILTL
+AGDGAIRLSVEALEVTLKDVTRPYMAPSRKLPEHPA
+>tr|B7RLK6|B7RLK6_9RHOB
+MMFNGSRKPQIHWGSLLNFAHGRKINFQAKTIRTLKFP
+>tr|B7RNN0|B7RNN0_9RHOB
+MARETSSPCSDLLGVIVLAFYKGHGRFFDRVIRWVTRSAFSHCEILRLQPAQADDAFEAR
+AWSSSGRDGGVREKVILFKPGNWEFVSVLWSDGEAVDRIIAEIGNPYDYLGLIASQAFNL
+RRHRRDQWFCSEICGHALGLSAPQELSPGGLHCRVLEMNSAYCIGFEHAGEPPED
+>tr|B7RHJ7|B7RHJ7_9RHOB
+MKVLVLEDEMIVGLDLVMLLGEWGHIASGPHVTPQDAIEAISTFKPDLALLDLNLGKFGN
+SHAVAVMLKEMGIPFAYLTGYGSARSSDAGALEGVLILNKPFIEAELKSFLDSHDASAI
+>tr|B7RG90|B7RG90_9RHOB
+MVFDFLRRGAAVETPAQKASATGPVVAYQTSGRVAWSPRDAVSLTRLGFCGNPVGFRSVK
+LIAEAAAALPLVLQDADRRYETHPLMELVSRPNGAQGRAELLEALYAQLLLSGNGYVEAV
+GAEAGVPIELHVLRSDRMSVVPGADGWPVAYEYAVGGRKHRFDASGPATPVCHIKNFHPQ
+DDHYGFSPMQAAAMAMDVHNSASRWSKALLDNAARPSGAIIYRGAEGQGKLSDDQYDRLV
+SEMESHHQGARNAGRPMLLEGGLDWKPMGFSPSDMEFHKTKEAAAREIALAFGVPPMLLG
+IAGDATYANYQEAHRAFYRLTVLPLATRVTASLAHWLSGFSGDAVALKPDLDQVSALSQE
+RDAQWARVAGAEFLTQAEKRSLLGLPAVAADE
+>tr|B7RLQ1|B7RLQ1_9RHOB
+MFCATLNRGQIMSLEDITTRIAKAEADAGRAPGSVTLIAVSKVQPLARVQAVLEQGHRCF
+GENRVQEAEGKWPDFKQQFDGIDLHLIGPLQSNKARPAMELFDAIHTLDRPKLAKTLARL
+AQELGQCPDLFIQVNTGEEDQKAGVLPREADTFIKECQDLDLPIRGLMCIPPVDEEAALH
+FALLAKIAARNGLEGLSMGMSSDFEKAIALGATHVRVGSAIFGERVPS
+>tr|B7RP39|B7RP39_9RHOB
+MTIFKTLKTQFSALRNTYTLSPLTLILLTVVFVFCVDNATFWSIGSPIFEGHPLSFAGFL
+LAVYLLTTAAFSLFGFAWTVKPFLMFILILSAVTSYYMDRLGVVIDRDMIQNVMVTTMAE
+SKHLVTVGFVTHVFVLGVLPALGIACVKVTRHSMLKSIAMPVLTFSVSMALATGLLMADL
+KSYSSILRERKDLMGSYQPGMPLVSTIRYAKLMTRTANLQIAAIGEDATKGPAYSASRKP
+VLTIVVAGETARAQNFSLNGYDKDTNPRLSQLPVVSFTDVNSCGTATAVSLPCMFSNFTR
+DDYSYEKGISNQNVLDVFDHAGLHVEWWDNNTGHKGIADRVGSRMMSAADGAAFCASGEC
+TDGVFMHALAEYASTITEDTVLVLHHIGSHGPTYYLRYPAEFERFTPACRTAEFKNCTAA
+EITNSYDNTIAYTDEILAQTIEFLNAQTQLSTALVYVSDHGESLGEGGLYLHGSPYFMAP
+EFQTKVPMILWMSQRFQDQFAIDQSCIADQRSGTLSHDNLFHSLLGMMDIKTRERDPELD
+IFASCKAGLKNVKVADK
+>tr|B7RQB7|B7RQB7_9RHOB
+MATEAFEELVEDFEFLDDWEDRYRHVIDLGKGMDPLAEALRVPATKVDGCASQVWLHAQF
+DDGTLHFDGASDAMIVSGLIAVLRTLYNGLSPAEVLAVDARAEMGRLGLNEHLSAQRSNG
+LTAMIERVRETAAAQA
+>tr|B7RRK8|B7RRK8_9RHOB
+MAEAYIVETARTAGGRRGGALRDWHPANLGAEVLNALVDRTGIDGAIIDDVIVGCVTQGG
+EQAFAFGRNCVLASKLPQSVPAVTIDRQCGSSQQAVQFAAQAVMSGTQDVVVAMGVESMT
+RVPMGSNVYLYGKAELGEGPFSDRIAERYGTKNFSQFIGAEMIAEKYGFDREALDAYALE
+SHKRATAARNEGRFDAEIIPLDIEGGLHTRDEGIREDATLESISGVKLLQPDGMISAANA
+SQICDGAAGVLIVSEAALKKYNLTPKARIVNLTVTAGDPVIMLEEPLPATDHALKRAAMK
+IDDIDLFEVNEAFAPIPMAWLKHTGADPEKLNVNGGAIALGHPLGASGARLMTTLVHSLH
+AHGKKYGLQTMCEGGGIANVTIIEAV
+>tr|B7RS67|B7RS67_9RHOB
+MNALLGLIFWGLFCLFENARFNAATADIKSITSKLTKL
+>tr|B7RQZ7|B7RQZ7_9RHOB
+MFISHDLSVVRHVCDRVAIMYLGRLVELAPADALYADPKHPYTAALFASVPTVGTGKRRF
+EAIKGEIPSPINPPSGCAFHPRCPLAGPRCSVEAPRLTDAGAGRTVACHLNDGGVGAQTK
+VTA
+>tr|B7RPV1|B7RPV1_9RHOB
+MKKIIALALMTTSMSGAAFADAHAISEFRIGILGGENAQDRMNSNECLRSAVEDALGVPT
+KLFAPADYNGVIQGLLGGTIDLSLMGPSSYAAVHIADKDAVSPILVKVNSDGSTGYYSIG
+FARADSGITSLESLQGKVFGFGDPNSTSGYLIPSIEIPQQTGASMENGDYFGEVKFTGGH
+EQTIVAVNNGDVDAGVTWSDGMGNWEDGYNFGALRKAVDAGLVDMNDLVEIWRSKLIPGE
+PVVLRNALPDDVRATVTGIIDTMGETDPACAAAIAGGEVSGFDPIDHEAYTSIVAARLAK
+SN
+>tr|B7RKC0|B7RKC0_9RHOB
+MILKGSQRAGAKALADHLMNDRDNDHVTVLEVSGFMADDLHGALSEAYAISNATQCTQFM
+FSLSLNPPQDHVGSEQDFLDAADRAENALGLTGQPRAIIMHEKEGRRHAHVVWSRIDGDA
+MKAINLPHFKNKLTSLSRELYLDHGWVLPEGLQTHGGKSPLNFSLAEWQQAKRIGLDPRE
+IKQVFRDAWERSDNIKSLSNALQERGYFLAKGDRRGFVAVDVNGAIYSLPKWIGEKSKAV
+TQKLGSPDGLSSVSDVRADIKSRVTDQLKSYIAETRSKHARDAQPLLEQKAEMVSKHRAE
+RKALKDGQEKRWKEETKARLSRLNGGLRGLFDRITGKNSKTKDQIEAEAYQAAKRDQAQR
+DDLVLAQSKDRKVLQVQFVALRSKQKEDRKILARSISQFMTQRKRNQNRGLQKGLDVMPE
+LRRSRGPDLSL
+>tr|B7RL08|B7RL08_9RHOB
+MDRRALFATGAAAALLAATGVSAASVPTRGGRLRMALSGAQRSDSWVQGDGLFMQVARQG
+LIFDTLTEIAADGTLRGELATDWEGSEDGRVWQFDLRQDVVFHDARPLTAKDVAASLALD
+GAVEVVNSHQIRITLDAPAMDLPFTLSGPDHVIRPAHALNEGIGTGLYRLRRFTPGQQVL
+AERMADHYKGQSLGWFDAVELVSIPSEPVRAQALAEYLVEAADLSDPKPLIGYDDIALLP
+SSRGVTHAVSRGLAMPARTGQHRPLDNLRAAERWWFA
+>tr|B7RNX6|B7RNX6_9RHOB
+MSHDRFYSSESQVFWTCKALLDKRTISHRTEIREVRGWRLGAIIHRLRHHYGWPIHAEYR
+GPQNVAYYSLKAGIDRSKLRFPPSARALADLGVTQ
+>tr|B7RS57|B7RS57_9RHOB
+METIDAKPHGQTADLTVIIISYNTRRMTLRAIETLFANTHDTRFDCAVLDNASTDGSARA
+IAAAFPQIKLIASGENLGFARANNHVAAQCTSPYILLLNPDTETQAGAVDALMRFAEAQP
+QAGIWGGRTVFADGSLNIASCWAAPSLRSLFFRTFGLSTLFPRSAFINAETYGSWPRDTA
+RQVDIVVGCFLLIRRNLWETLNGFRPEYYMYGEDADLCLRARSLGYRPMITPDAQIVHHV
+GASTPRNVEKALLVMKARASLIQDHWPRWKIGFGISLMWLWSALRFGATRPFAASSHPRL
+RASADRWQTIWTRRRAWLSGYDQA
+>tr|B7RM25|B7RM25_9RHOB
+MTFVIRQTEDLASCHLLRRIVFIEEQGVPEAEEIDDLDGTSIHFLASQKEIPIGTARMQI
+NGDTAKVGRVCVLAAHRGTGLGAALMRAAVDEARQQDGVAFVKLSSQVSAIGFYETLGFV
+AQGPVYDDAGIDHRDMVLPL
+>tr|B7RRZ6|B7RRZ6_9RHOB
+MNKTKAVTLGGLPPFLVGVLAECAPNKTDLLAHDPPAFDQAMAADVALRLYGVSGKITPL
+SAEKDANFLIVLPTGEETLLKISNAVEDRAVTDMQTAALMHLASADPTLPVQRVCVSLNG
+NASETVTAADGQTHVVRLLTYLGGTILSGSTASPGLHYALGDFLARVTLGLRGFFHPAAG
+HVLQWDIKQAGKLRPLVREVQDTDLRSRLTKILVSFDAKIAPRLPHLRAQVVHNDFNPHN
+VLVNAPMATHPIGLIDFGDMVHTPIVCDLAVACSYQIGEGPNPLREMCKMVAGYVSRLPL
+EREEVDLLPALIRLRHATTLAIGASRARRYPDNATYILRNTATSLRGLDVLEQLGDATAI
+KALHAAAGTR
+>tr|B7RNK6|B7RNK6_9RHOB
+MIKFTLKCDQDHRFESWFKSASAFDALAQGGHVSCVVCGSAQVGKAIMAPRLSTHKADAP
+QDTEAKKTTEAATLPVLSKPQTDIEKAISALRKQVETSSDYVGADFVKEARAMHAGDAPE
+RSIYGEARLDQARALIEEGVPLMPLPFRPKRSTQ
+>tr|B7RHZ4|B7RHZ4_9RHOB
+MLSVFGQARGQYLIRSDMLPSVTNPDTNSPVPLQVAFVGSKDAWNVVFDGVTARSQRKLE
+RGRP
+>tr|B7RKF2|B7RKF2_9RHOB
+MSDASLHIFWMAFAGLSTAMLALTVLLYLERQRSLRDARLRRANGTSQPRPTLDNATSPG
+MVGSLARQVRHTVATIGQRLSVVLGGEARETAADLASAGYRSRDALLIYAFLKTVVPMAA
+LMAGLVWLGLTTPVGIDMLIPAAMVIGTALALSKGVDMYVDLRRKNRLGRIRHSFPDMLE
+LIVITSEAGLGPQPALHRVAQEMSLSHPELAREMLQMVSEMAMTNDCRGAYAKMNLRVPL
+PEIGIFTQTLDQSDRYGTPFSRAMRTLIIEQRGNRLMAIEEKAARLPVLMTLPLIFCIMP
+AVFVVLVGPAVLSVLDNIFS
+>tr|B7RS80|B7RS80_9RHOB
+MDKYLPYKPYQLTQGIYRNEDLNAKNRQFLSDVIREQRESATGYISPGVLLPQAKITSPE
+TTI
+>tr|B7RGR7|B7RGR7_9RHOB
+MLYSEDFPMKFNLYKGPYLHKAFDTRRSSFHGIAHPKPL
+>tr|B7RL48|B7RL48_9RHOB
+MQDLRARARAAGGAVRVAKNRLAKIALDGKPCESIADLLTGMTVLTYSEDPVAAARVAQD
+FAKENQKFVILGGAMGENVLDAAGVEAVSKMPSRDELIATIAGMLGAPASNIAGAIGAPA
+SNIASILSTIEDKAAA
+>tr|B7RNG5|B7RNG5_9RHOB
+MQYRSLDHFLNEGKDALVKGPIALVLVEDDVEVDTTLRHHQQSGFAQVIAFMPQSFDLAR
+DVAETVIRIDYEMHHDAAMETAINRVIDAAPNLWIYYCYNAEYLFYPFCETRTIGEMLAF
+HTEERRSAMLTYVIDLYAEDLTQYPDAVSLDRAHLDRSGYYALARPDGTPANHPKDRQLD
+FFGGLRWRFEEHVPAARRKIDRISLFRAKPGLRIREDHTFNEEEYNTYSCPWHHNITAAI
+CSFRTAKALKKNPGSKFDIQTFKWHNSAPFEWHSRQLLDLGLIEPGQWF
+>tr|B7RNR0|B7RNR0_9RHOB
+MEIKLTATNAHLLVEEIMGGDTAESIDDLYAFLDDSQFYAEAILNGGVNDEGTFIAVEDP
+RVRDAVSTVLSKLDLFRQAVADRYALLQGDQGVGSDADIEFDALYDDISSQVAGLSARYR
+GSAAVQQLAGDARYSMAHGHLLVEEALGGDTGEEFSDAIAAFENAVVALGEIRQAEPSAA
+AEITALETKTKRFADLAKARFALTSKQVGLMENADVVFDETFAQFIKIADEAETLVQEEM
+RLGIKRVKAGQTVALVVGAVTAIILLTTIFASFVWLDRSLGQRLTQLSKVLQRLLGGDLD
+VEPPTWRSTDEVGILRDSVDQLRDALMKQVRLERVAEQEKAEADQQRKSAESQRQEADAA
+RQAAEREREETMARAASADRFAREFGAVVERASAGKFDKRIETKFQEPNLDALVQGTNTL
+MSEVDKGIAAMASVITELAKGDLTKNMNGTFVGDFADLQENVNQMIVSLTSLIGNISESG
+VTLASSSGELRDTADVLSRQSELNAASLEETSAALEELSASIRQVSENVSDARDNAKAAR
+DTAQSSEKIATDAASSMDRIADASKEIIRVVGVIDDIAFQINLLALNAGVEAARAGDAGR
+GFSVVASEVRQLAQRAGEASKEIATVIAQSDEAVSEGVTKVTAAKSSLEAIAERVIKISE
+GVDEVSVAISQQSLGIQEITSAVGKIDQSTQRQAASYQEVTASGSLLASQAEALQQSTSL
+FKTSAEVQNFPQKGPASRSQDPRQKVAVGAGGRISDNSGWDEF
+>tr|B7RNM1|B7RNM1_9RHOB
+MVEYCSADHNNERLGVAWGAAVVLAVEPDDFAPQADQFDIWRVEWAHSADIGPSFFVDDG
+LTPTQVLSSWSPDIGLAYEDDYVAEAGDV
+>tr|B7RPZ4|B7RPZ4_9RHOB
+MNGTAEVVLRLDAITKRFGKLVANDAISLSLRRGEVVALLGENGAGKTTLMNILFGGYTA
+DSGSVEVFGKTLPPGNSRAALDAGVGMVHQHFTLADNLTVVENIALGVRSLKSPRLRKSE
+SYIKIKSLSEGFNLKVDPHARVGSLTVGERQRVEILKALYRDVKILILDEPTAVLTPQEA
+DDLFATLRLAISNGLSIIFISHKLHEVMAIADRVAVLRHGKLVAETTTADTDKNALSALM
+MGTAAKAPDIAVSVPGKTLLSLKNVSTPDVGNVPGLKSVSLDLKAGQIIGLAGVSGNGQA
+ALADVVGGLCMPKAGVLVLGDKVLKHWSARAAVQGGIARIPEDRHKTGTVADFDLTENAI
+LEGYSTAPFSKGGWMSWSKARTFAADIIAKYDVRCPGPDTRIRLLSGGNMQKLILGRVLE
+ADPQIVLANQPVRGLDIGAVNYVHSQLLAARDRGAAVLLISEDLDKIMGLSDVIHVISGG
+RLSPAFGRGTMTPSRLGIWMAGQGFDAPVAHAS
+>tr|B7RH92|B7RH92_9RHOB
+MSAQWTLVQHAANGCSPPFAKDVGSAPKRIFMANAANAKKSLFTDGAL
+>tr|B7RM31|B7RM31_9RHOB
+MKFTTTLLASSAIVGAGTLAFADAHGNMAKEMTLVSWGGAYQSSQDKAYVQPYLEMNEGV
+TAVWDESSAEAVAKLRAMNEAGNITWDLVDVVAADAIRLCDEGLAMEIDADEMLAAAPDG
+TSASDDFGDLLVSDCFIPQIVYSTTFGYRTDMVGDTPPTKICDVFDLEAYPGKRALEKRP
+INNMEWALLCDGVAKDEVYDVLATPEGQEKALAKLDTIKDNVIWWSAGADTPQLLADGEV
+VMGSTYNGRLFSVIEEQKQPVAMLWDAQVFDLDGWIIPAGLSDERLARVKDFVKFATDTQ
+RLADQSQYISYGPARLSSAPMVGKHADLGIEMAPHMPTDPANAENTFLYNYEFWADYRDD
+IDAKFQAWLAQ
+>tr|B7RPS2|B7RPS2_9RHOB
+MDYQTLTFDVTDGLAVITLNRPDKMNALTTQMRAEIEHAFTEGGKQARCVVITGAGRAFC
+SGQDLGDGGTAAAMDLERTLRDEYAPMLRAITNCPVPTIAAVNGAAAGAGANLALATDVV
+FATESSYFLQAFTRIGLIPDAGGTYTLPRQMGMAKAMGAALFADKISARQADDWGMIWEA
+VPDASFDAHWRAKAAQLANGPTAAYAAAKTAIRESWDNSFEDQLSLEAREQGKCGQSRDF
+KEGVIAFMQKRPAAFEGR
+>tr|B7RLU5|B7RLU5_9RHOB
+MSHIYNDTFFDYINQSARASAKPLIALLFPKLQPRSVIDLGSGRGVWLDEWQRAGAHDVL
+AVDGDYVSRDQLAVAATDFLAADLTAPVETGRRFDLAQSLEVGEHLPTEASETLVDSLTN
+ASDRVLFSAAVTGQGGEFHVNEQPLSFWQDLFAARGYTAFDCVRPDLKDNKDIAPWYRYN
+AILYVNAAGRKDLPPEILATEIPVGKPVKNAGNLAWRMRLAVVSKLPRSVVTFIAQARAM
+VLAIRARRAKTVGRVQA
+>tr|B7RMI6|B7RMI6_9RHOB
+MNQFPRIQTVGLSGILISFSDTMSEPANRAALSFRAAIDAADWPEVSETSTSLVSTFLQV
+DLVTQPLDAMLTRLNDLLETQDWYTAPLPAGRTLWHIPTVYGTDLAPQLEEAAELAGLDP
+DAAIAQLSQARVRVLTIGFAPGQPYMGELPENWDIPRQQALTKSVPAGALIVAIRQLIIF
+TNASPTGWRHIGQTAFKTFRPLSDRPFSLSPGDELCFPSVSRSTLEKIMATDDSGAGGAE
+TEVLS
+>tr|B7RPH3|B7RPH3_9RHOB
+MPVPFLYRAWVVASMGLVPFFARSETRKLRDQGVSVLRAHEKLGHATQDRTGTGPLIWLH
+GASVGESLSVLALITRIGMMLPRAQFLITSGTATSAKLIAQRLPPRTTHQFAPLDAPGPV
+KRFLRHWRPDAAIFVESEIWPQMLRRTRATGATMALVNARMSDKTLETWRKWPKLAQYVL
+EVFDLILTQNDAMAHNMVSINAPSSRVARGINLKSMAGPLPVDEDALFEARAALGHRPIW
+VASSTHAGEEQAVLDAHQALLARFPELCLILAPRHPERGDQVEALIADAGLSCTRRSRRD
+GPGAQVYLADTLGELGLWYALTDIVFLGGSLLPIGGHNPFEVAQSGAAVLSGPHVSAFAE
+TYDQLETDGAARIVSDGTELEAQVAALLDAPDDLAKMTKAARQFIEAQEDQLDTIAARLV
+KALELHTS
+>tr|B7RJ67|B7RJ67_9RHOB
+MLEITFYGAAIAGLLSFLSPCILPIVPFYLSYLAGVGMNQITVDGPIQSGVRGRAVVAAL
+FFAAGVITIFMGLGAAASSFGQVVRDYFDILRWIAAAIIIAMGLHFLGVIRIGFLYRQFR
+ADAGDTKATSLLGAYVIGLAFAFGWTPCVGPVLAAILFTAAGTDTATSGALLLFTYGVGM
+TAPFVLAALFIGPFMRFMARFRRHLGTVEKVMGALLVIFGLLIATNSVNYIAQWLLETFP
+VFSAIG
+>tr|B7RLV8|B7RLV8_9RHOB
+MARTTSLHKLPPLADQKVLHDSRKALKIREREEALARIEDQRLAKKHALLAKTKAREAAA
+NAQHIGTPSPTLRPVAPPVRRARIKLRHRIVFLSFLLGVLGTNLAAAWYLWERAADRYVS
+VAGFSVRTEEISSAVELLGGVAELSGSGSSDEDILYKFIQSQELVRTVDNALDLRSLWAK
+ADPDIDPIFSYDPPGAIEDLTDYWARMVTVYNDNSTGLLELEVQAFAPQDAQNIARMVYD
+ESSRMINRLSDIAREDATRHAREELETAVQRLKVARADVTTFRNKNQIVSPDSTLQIQTG
+LLSSLEMQLAETLIDLDMLRQTSTEKDPRMRQAERRREVIEARLQQERGKLGIGSASGTH
+DDRFADLVGEFESLTVDRQFAEQSYTAALAAYDSAVAESRRQTRYLAAHVSPTLAETSIY
+PNRPVTMGLIALFSFLIWSILVMIGYSLRDRR
+>tr|B7RMH0|B7RMH0_9RHOB
+MTGLKPKEHDSGSRLFQNSGSGWRHNLPKALNGAGFLVLSFYLIFEVGLKEAGIVLLILC
+LSEASSSICISLALWCSEKPHVKNPAKAEDFGTNLFWITTSFLALTLLSNFWGVVSAFRE
+FQFSIQTFTLITVSLVYIKSSGLFIYSISRRALQPRFVIYTLLFIPLPLGSGFDLGQAFI
+KLAVGVVIISIFLFILRRGHKKPQRISKNETFPPLISFQNPLELTCRNFDLIIVPFLFDI
+ESVAVFLIARGLAFNIALSLSMFGNILENSSDIFQKSTTVKSITILAARLNLAIFFIGSG
+IAIGTLATGKLLAPVFESSQPIFLSVLLWCVARYSSKAVFGTYEDILILKGMKVIPDAFN
+LAFLSGLLLYFFLLPMQTIENFSMVLAISHLLPAALSAGIVAIRYGIWPGPTAIFFRQIK
+LL
+>tr|B7RQE3|B7RQE3_9RHOB
+MADTRTETDSFGPLEVPSDKYWGAQTQRSIINFPIGWEKQPVPIIRALGVVKKACAMENL
+KQGDLSAEVGDAIVAAASEVIDGKFDDNFPLVVWQTGSGTQSNMNANEVISNRAIEMLGG
+EMGSKKPVHPNDHCNMGQSSNDTFPTAMHVAIGMQARDVLLPGLQKLHDALAAKSVEFKD
+IIKIGRTHTQDATPLTLGQEFSGYAHQVKKGIERVNACLPDIYELAQGGTAVGTGLNTKK
+GWAEAVAAHMAEITGLPFVTAPNKFESLAAHDAMVMFSGALKTVAGSLFKIANDMRLLGS
+GPRSGLGELILPENEPGSSIMPGKVNPTQAEALTMVCAHVMGNDAAVGFAGSQGHFELNV
+YNPMMSYNVLQSMQLLGDSASAFTDNMVVGTQANVDRIDKLMKESLMLVTALAPTIGYDN
+ATKVAKTAHKNGTTLKEEAIALGFVDAETFDRVVRPEQMIGPKE
+>tr|B7RQG0|B7RQG0_9RHOB
+MEARIVKALETVALLVVEDAVYIPVFERLEQELADIRSRNDVIERARQFLPAEHQNAMR
+>tr|B7RHS6|B7RHS6_9RHOB
+MNTGIKSSFAASHPNAWRAKVSAASCLIMRSIPAYYFGWKLFVN
+>tr|B7RHT4|B7RHT4_9RHOB
+MGFIIRWLCAFFLLAATFNPTDYNYVQWAWDYGHMNVSIAVLFGLLLFIGYAIYLRATLR
+SIGGLGMMLVLAVVCASLWVLHDLGVLRLDNSDLNIWLALLVLSLVLGVGLSWSILRRAL
+SGQPTWMMSXXXXXXXPSCDQTRPPLPILPCPRR
+>tr|B7RPL1|B7RPL1_9RHOB
+MGRAVAGNNFAQDAGSGWKPWVPKTKERLKRAQNRGTT
+>tr|B7RRD7|B7RRD7_9RHOB
+MRDHNDLLTMNERSLEQQAAVRRATFSPGEIKALRPFSIWEISQFMFDVPADTLRKKLAD
+DSTLPQGLTEEDGRQRWFSLEEINELRRRARFRGRKLLPERPRGRAMRVAVSNFKGGVGK
+TVVAQHLAHAAALDGYRVLCIDFDPQATLTHSMGLTEVKEGNTVWGIMCRDLCREANRIM
+ESYDDPDDCPYPSADELPEDVQSIGAQRFQDFIQQTCWPTIDIIPSCSNAAFVEFASAQY
+RSLHKAWSFFGCVARYLDELPDDQYDIIIFDCPPAIGYQSLNAAFAADILYIPSGPGYWE
+YDSTTSYLGQLGDAMADISEGFSALAADAGITLPKQFSDIRLLMTRFESTNPLHSAMMDA
+FKNVFGADVCAHPIEMTRAVEQSGRFQMSVYEQDYRQMTRETWKRARQSFDRAYDEFIET
+VLAAWKENGAKKEAAE
+>tr|B7RS49|B7RS49_9RHOB
+MPYPHLSEVQSSFILVMLLSGLGLVLPYVLNREKTLHRALLLMAAGLLAARYAFWRITET
+VAPFGFTLDMLASWSLLALEMLALVGSASAFVIMSRVKFRSEEATKYAGWWGSKNPRVAI
+LIATYNETLDVLERTIIGAKSLRYENKEVVILDDGRRDWLRDYCAKQGVRYVRRPDNKGS
+KAGNINYTLGLLASEFVPPDFIAVLDADFVPHRGFISRSMALFHDPKVGLVQTPQHFFNA
+DPIQHNLGLSRSYPDEQRFFFDHMQPARDGWGIAFCCGTSSMVRWSAVQDVGGFPTESIT
+EDFMLTLTLQNSGWKTVYLDEPLTEGLAPEGLKEYVTQRARWCLGLMQIARSKLGPLSHN
+KLRLRDRWSVLDSIFYWMTTFPFRLAAIVYPLLYWFGNITVVDARLPDVISYFGAYYIWI
+LVVLNILSRGMVVPILNDVSQLIGAIPITRAAVVGLIKPKGHPFSVTAKGGDRTKILVQW
+RMMAPFAVLLCLTLLGLVIGIFSDRFAFSDAGDGKWVVLFWTIYNLFVLSVTIIACIELP
+RQERHIADEPERATFTTSDRSRDLWITSLKSDSVRIRGIPYPEGMKGSLRIKDIGDVDAY
+VIAQLPDGARLKLLPTDDQREALLLRLYAEDNMPGVARVRTSAMLSDIARRLSFNSKSS
+>tr|B7RFR6|B7RFR6_9RHOB
+MTQTLTLSNEMVATLNQRGTPVAAVLAVKFAVCVTKMASRRRTRVALAQLEPWQLRDVGL
+TPTEAHDESIKVFWKA
+>tr|B7RJN8|B7RJN8_9RHOB
+MTVDLYGLPVTTANPDTLQGINDFIHGFIAYEAKAPNIIPAADADPDCGLANAYAAMLWM
+FLEAPAAPAKAAPYLARARAADPGTGREARVIETIGHWVDGNIPAMLAGCDAITKDHPRD
+VVMLKLAQYHLFNTGDAVGMLRMALKALPEAADIPYVHGMIAFGYEQCHLLEDAESAARQ
+AMALRHDEPWAHHALAHVMLTQGRVIEGAAFLESVADTWQPLNSFMRSHNWWHLALFYLS
+QGRHDDVRRAYDTHIWGLAKDYSQDQVGAVSLLARMEFAGVDVGDRWADVADHIAMRGRD
+TVNAFLTLQYLYALGRTKKPEVQSLFQAIEDRAADAAQYDHTAWAEVALPAARGIIAHTQ
+GDWPKAISQLGRALPRMAECGGSHAQRDLFEQIHLDALVQDGRASAAQQVLEMRRTYDPD
+GVPLNLLLGDIYEKSGLPDQAAKARARADKTRASLSAQ
+>tr|B7RMJ6|B7RMJ6_9RHOB
+MSDVIEWVLELKVLEGQAEMVQPLLDEMVKATQADEPGALHYEYYMPEDRSTCTVLERYA
+DNAAVMTHLGNFGAKFADRFLTAFAPVRFTVYGPASDEVMSALAGFGATNQKMVAGFSR
+>tr|B7RRV3|B7RRV3_9RHOB
+MLNLSEKRNDRMGPKTILVCLTTPENTETLLKVAVPLARKHGAHLIGLHTVEALLVYPGI
+AMHIPEPAFATFNASQKQESEAIKEVFTKHTKIEDFVSEFRLIRAEAVSAVERMVECARA
+ADLVIMSHEDKEHDRYDQRHAQVQVIRESGRPVVVVPLNYDGPEIGTNLLLGWSDTREAA
+RAAHDMVGLADEGATLTVLRVVKAQQDALKDGDAIDMVEMFARHGLKPTLEYREPMGTSI
+AEVLNKAAFELGADLIATGAFGHSRTYDFVLGATTHALLRDQKVPILFSK
+>tr|B7RI76|B7RI76_9RHOB
+MVETHQHFGKRINDLNRKHVMMANGYHTVIRDDGLVIARPAKRSAGFPFKTFLLLGVLFF
+IFKALVLSSVGPGTYQIRLNKLQSGTVVEQAGAWMLGLDPVTLAISTKVGPIFRG
+>tr|B7RMC9|B7RMC9_9RHOB
+MLFSINRKRFKDLSEQEILALAISSEEDDARIYRGYAENLRAEYPDSAEIFDGMAAEEDE
+HRKRLIDLHTDRFGPTIPLIRREHVSGYYARTPVWLIENLGLDRIRAEAAAMEHAAEAFY
+LQAAARTKDAATRKLLGDLAAAEAGHQRKADDLAAEHLDHATLSEEDLQAHRQFVLTWVQ
+PGLAGLMDGSVSTLAPIFATAFATQDTWTTFLVGLAASVGAGISMGFTEAASDDGQLSGR
+GSPVKRGLSAGVMTTLGGLGHALPYLITDFWTATTIAFAVVFIELWAIAWIQNRYMNTPF
+FRAAFQVVLGGALVFGVGVLIGSG
+>tr|B7RRA8|B7RRA8_9RHOB
+MEKRIIPIILGAMALIFIGLGVLIYFQLRPPQEIRYEADGDAEFSASAIDSGARIEIEVL
+RSQIDALTEAVQNLEKELGRVASSSRAPISTEPMSQERGEFQNDGGNDIIDAYAQVVLIA
+GRRELNAGLQIASPSYLEGVFGKPRDVLTSDCQGMTNKRLASKLQTEQVGPVRVRMLTPA
+IESLRTVFAKIEATDPDLYARINTAGALCVRHIRGAPGRTSTHAFGLSLDLNIDGKLDQL
+GDGRTQLGLTILADFFRTEGWYWGAGFSREDSMHFEVSRNLVEKWVAEGKL
+>tr|B7RMF1|B7RMF1_9RHOB
+MLYLVAAIIGAVVPGPSDPDSGAGTREVLLVSGPIHYDLLLPLDTLSAARFAPLIQKGIN
+LAHPEAEWLVIGWGAQDFYAQTPTYRDLSLSTLWRGIIGDNSVLRVDIIGAIRDDLPLRR
+LKLTESNYARLLGNIMGTLQVGPDGLPVRLDGAGFTPTDGFFMAKGRFNILRTCNVWIGE
+QLRAAGLRFGLWTPMPLSVSLSFDLYQGD
+>tr|B7RMV4|B7RMV4_9RHOB
+MTDKQTVVLILGSGPNVIASQDWPADWFDHIVVMNNAWRVRPDWNALVYPEDFPADRMPG
+AVTGDQKLVDASAFVPTQNHFGGFVYAGGTMAYTTAYWALSALRPTIMAFMGCDMVYPKT
+GKTHFYGTGTADPLRDDITLRDLGAKSARLALVAAEQGCACVNLSSDPSALLFPRARPDG
+LRKRRFSLDLDRARYAALREKEDTLGYHTPTGRYWEDVEKVDPNAVAALDQGWRDLFGQH
+AGT
+>tr|B7RRY2|B7RRY2_9RHOB
+MLNARIVLGDVAQGQDNNFNLIRFLAAIAVLVSHAWPITGGAGTIEPLKAGMGHSLGSLA
+VYIFFALSGFFIAGSYERSKSALRFTMARAARLFPGLAVSLIFVAFVMGPVVSDLGVAAY
+LIYPETGAFVLRNLGLVNLQYSLPGVFDTFPYPTVEGSIWTLVYEVLCYGMVFAVGVLGL
+LIRRRAMFAVFVIYTLVWCAPLLAKVELHPSIAHMRNLSLPFVVGVAFWVWRDRVVLSLP
+ICVGMIVAAIVAHETALAYPTLVLALSYGAFWLGHVPRGIVRRFNRLGDYSYGIYIYAFP
+LQGLAIWLWGPMGPALNIAQALPMTLICAVASWHWVERPALVLARAGSGRRHRLSRQW
+>tr|B7RFQ7|B7RFQ7_9RHOB
+MLYPTADAWRAAPRKKVLVFGMSGLGKTHMAHLLRGAGDWFHYSIDYRIGTRYLGETITD
+NAKAEAMKVPFLRDLLLSDSIYIGSNITFDNLSPVATWLGKPGDPAKGGLPMAEYAARQD
+AFKQAEIAALLDTAHFARRAKALYDYPHFICDTGGSICEWVDPEDDHDPLIQALSEECLL
+IWIKGDAAHTQELIRRFDKAPKPMAYQPEFLARVWQEYLSENNCEEADVDPDAFIRWTYA
+QALAHRQPRYEAMARWGVTITADQVGALTSEADFVDLIADVMTS
+>tr|B7RMV5|B7RMV5_9RHOB
+MPDKSTLKAKSAVTHDTNRYVFSRPEGMQFEPGQAAEIAILKDGWKDEGRPFTFVSMPSD
+ADLEFVIKTYPEHDGVTEQLAQLEPGAEVTIDGPFGAIQDQGQERGPGVFLAAGAGITPF
+IPILKKRDRDGKMDGTTLIYSNKAEKDIILRDQWEAMQGLRAIFAVTDEKADGLHFGRVD
+KAFLAKEISNFDQKFYLCGPGGFVDAMRDALKALGAKQDDIVTEDGW
+>tr|B7RG48|B7RG48_9RHOB
+MNTPIALVLATLIVGGLVVDTMMNGSDHLIFLSKKFLDLLEWVAFWR
+>tr|B7RKH8|B7RKH8_9RHOB
+MTKEPDHETVAHGMQPEDTPALRALYKGFEAENLIPLWNQLGDLMPMHPKPKAVPHIWKW
+SRILPLAEASGELVPVGRGGERRALGLANPGLGGNAYVSPTLWAAIQYLGPKETAPEHRH
+SQNAFRFVVEGEGVWTVVNGDPVRMSRGDLLLTPGWNFHGHHNVTDKPMAWIDGLDIPFS
+QHNDVGFFEFGTEHVTDYATPNFSQGERLWANPGLRPLSRLEDTVSSPLGAYRWEHTDRA
+LTEQLLLEDEGIPATVEQGHAAIRYVNPTTGGDVMPTIRCQFHRLRAGASSKTRREVGSS
+VFQVFEGKGSVVLDGVEHALDIGDMFVVPSWISWSLQAETQFDLFRFSDAPIIERLNFGR
+TMVVEE
+>tr|B7RQ11|B7RQ11_9RHOB
+MTRVLNAERREPVSGETRSAVVFLHGYGANGADLLGLADPLGEHLPDTLFVAPDAPEACA
+GAPMGFQWFPIPWIDNSSEEESERGMMQAVQDLNSFLDALMVDEDLLPEQVVLFGFSQGT
+MMALHVAPRREDAVAGVVAFSGRLLSPESLKDDAVVRPPVLLVHGDSDDVVPPQSLPEAA
+QALQDAGWTDVFAHIMKGTAHGIAPDGLSVALAFMRDKLGL
+>tr|B7RFY7|B7RFY7_9RHOB
+MDRRSFLKTSALGGTAAAASTLAAPLYAQGKRTLTMVTSWPRGFAVLDDAANYLNAMVNE
+MSDGSLTIEKKAPGELVGAFEVFDAVSSGQADMYHAADYYFIGQHPGLAYFTAVPFGGTA
+QELTNWYLHGGGHDLHNQIGEIFNMKMFLAGNSGSQSGGWFRKEINSAADFNGLKFRMPG
+LGGKVLGKLGASVQNIPGGELYQALSSGALDGLEWVGPFADERAGFQEVAKIYYTAGFHE
+PGSGLTASVNLDVFNDLTPAQQKIIEYASMATTHTGLAETLANNGAALARLQQQGVKTMQ
+FPDDVWDAFGAASKEVMDENMDDTLYADIRNSFEASLASSAEWLSKSDAFYVEQRQRVLG
+KG
+>tr|B7RLH2|B7RLH2_9RHOB
+MNPEKYRKRTVTLAMCLLAATVLTACSPTGGQPLFGISRTQTGPFAPGINRSKQSEDGVE
+VAHRLMQAGEFELAIRAFNRAALADGLDAEILSGLGSANLGLGRLGQAEELLRSAVEKDD
+TRPEVWNNLGVVLMESGKLAEAQLTFRKAYALDNGESDAIRDNLRLALAKSENPVTINVE
+EENYKLVRRGTGDYLIRPAS
+>tr|B7RNH4|B7RNH4_9RHOB
+MFQHKTITGPLPDQARALVLDDERFDRHRLGRLCSGLKTRFDVSNVASLAELVAILETDT
+FDLIFVDYGLPDGTGLDALELIRLSPRNCTAATILITGMGRDDIAIAAMDAGCSDYIPKE
+TLTKIAFKRAVTNALNCSTKRLGLAAPAQDGVLRNFARECALDLKPMVSRMLRQIRDLRR
+EDAGKPGGTAEELEASCNQIWEYLVALQEMEGHPVIWAAESKAAASAVGKPVKPPSPFRR
+HP
+>tr|B7RS98|B7RS98_9RHOB
+MLAATTAIALAAPAFAQDFVMKISSPVPPTTNDVVYAWMTAFEQGVEEATDGAIDVQLFP
+ANQLGQIPATVEGVAMGTIEMTIPVIGFLAALEPRFAAMDAAGLFESEEHAMRTFSDPAL
+RELLATFGEAANVEPLMMMTSGQAVVIAQEPIEQVADFQGLVMRTGGTTPLLNRPLEALG
+VTPVAIPLGEVLPSMQTGQIDASSANMAVLNAFQFQDVATEATYLPGNFTIIGGLISRDF
+LAMIGPENEAIVRQEAAEALSAFEGYVQNGPAALEAMWEGNGGTIRHLAEDQAEAYFSTV
+RPVIEAVVADDPQMEEAYRILVEAADRNR
+>tr|B7RIP2|B7RIP2_9RHOB
+MIETATLLFLGFIVIQRLSELVIAKRNTANLLAKGAYEVGASHYPVMVVMHSAWITCLLI
+FGYDEAVTFGWLAVFAVLQIFRVWILGSLGSPWTTRIIILEEPLVVRGPFKYLSHPNYML
+VVAEIIVAPMVLGLVWVAVVFTGLNAVMLWVRIGMEHKALAPLRTA
+>tr|B7RM57|B7RM57_9RHOB
+MVLKVVILFLVAMGTLAWFGKMHWLGGKTLTQKKCNSCGRFRIGKGPCGCGGKRG
+>tr|B7RG72|B7RG72_9RHOB
+MAAKKPTKKTNASAEELKAYYKDMLLIRRFEEKAGQLYGMGLIGGFCHLYIGQEAVVVGL
+EATAKEGDSRITTYRDHGHMLACGMNPDGVMAELTGREGGYSRGKGGSMHMFSKEKKFYG
+GHGIVGANVPLGAGVAFADKYKGNDNVTFTYFGDGAANQGQVYETFNMAALWKLPVIFVI
+ENNQYAMGTSQQRSTSSAEIWERGKAFGIPGEAVDGMDVLAVKDAGERAVKHARSGDGPY
+ILEIKTYRYRGHSMSDPAKYRTREEVQKMRDERDPIEQVRNILLESKYATEDDLKAIDKE
+IKKVVNDSAEFAKNSPEPAPEELWTDIYATEVPQEA
+>tr|B7RP13|B7RP13_9RHOB
+MLTAIIDYESGNLHSAHKAFERMARETDAGQVVVTADADVVARADRLVLPGDGAFPSCMA
+ALKGKSGIYAAMVEAVKHKGRPFLGICVGMQLMASWGREYEDTEGLDWISGEVTKITPAD
+PALKVPHMGWNDLVIDHPHPVFNGIATGDHTYFVHSFHMVVAKPAERLAHVDYAGDVTAV
+IGRDTMLGMQFHPEKSQTTGLKMIANFLNWRP
+>tr|B7RR98|B7RR98_9RHOB
+MKTTEISDRSLVRLVPATYHKSPVLRGLVETDEEAQLLAEIEGMTSARLNAERGKSLHLD
+PRELAWHRRMADLRVYGETHVNAAFTYTRAGGNRFNGADRGAWYCAWDAMVSVAEVAFHR
+TRELEYTGLFQDHARYVELHADFIGSFNDITDDKGHAALHPDPAVGYPEGQALAQSLRRT
+GSRGLIYPSVRAPEGNCLVCFEPQAVQNVRPGASWDLVWAGTPDYSIRQVA
+>tr|B7RMQ7|B7RMQ7_9RHOB
+MIRGWLITFALIVLILPAYAGPVRIKDLVDFDGVRENDLVGYGLVVGLNGSGDGLRNAPF
+TEDIMTNILERLGVNVTGEQFRPKNVAAVLVTATLPAFARTGSQIDVTVSAIGDAKSLMG
+GTLIMTPLNAADGDIYAVAQGTIIAGGAVAEGDAGAVIQGVPTSGVIPSGARVEREIDFQ
+LSSLSDLRLALREGDFTTATRIERAINLEFGREVAVMLDSGTVQLNIERTRMPSVAHALG
+RIENLSVEPERKARVVVDQRSGTIVMGEDVRISRVAVSQGNLVLRIQEEPIVVQPNPFAE
+GETIIVPRTRAAIEEQPGIGLAEIPNGTSLSEVIGGLNALGVSPRDMIDILKSIKAAGAL
+HAEFVVR
+>tr|B7RS50|B7RS50_9RHOB
+MTLPDRLSKYPNLTLSRAVYAFVLVGMVAVGLLTAVFAYSTSSHILDDALDAAVRVRTNA
+AGENFARALHNDWTDLRFLADEIPGKPAQSTTDLMDGLRGDAARISWIGFADLSGKVLQA
+SDDLLVNEDVSERPWFRNGLRAPYAGNVQKAVLLSKILASDEPAGLRFIDLALPVSNGNG
+QVIGVVGMHVNFAWAQSFLKDQAEMMGLTLYLSGVDGEVILATNGTQPAPDETRILLTAR
+SGAEAATREVWPDGKSYFSSLVPQVVYQDLPNFGWRLIGRLDGDKFNIGVDSLRSAGIFA
+LIGLACVIAMITAVFVLAFIRPIELLGNAAEGIADGEDIYPPDINRTRETAQLSSALARL
+QSSQND
+>tr|B7RSD6|B7RSD6_9RHOB
+MISFKGSHYPNDVILYAVFFYVRYAVSYRDLEEILADRGVHVDHATLNRWVVKYASQIAS
+EPRNVRPGLAGHGDGRDLYQLRSVDVSVPGAR
+>tr|B7RGQ8|B7RGQ8_9RHOB
+MPNEEWGTKRLCPTTGKRFYDLNKSPIISPYSGEVVEVDSSKSRMIAADAEDAVTAKAKK
+SDVDDDENLVDDDDVDVDLDDDILDDDDDDDDTVPLEEIVDVAANDDD
+>tr|B7RIL5|B7RIL5_9RHOB
+MSLVLEGVSKVVNGQTHIHPTDLELSSGTMNVLLGPTSSGKTSLMRLMAGLDVPNSGKVI
+WNGKDVTGMRVQDRGVAMVYQQFINYPSMTVYDNIASPMRLLGQTADQIDTAVKKAADLM
+KLTGMLDRKPLELSGGQQQRCALARALVKDAGLVLLDEPLANLDYKLREELRAEIPKIFE
+EAGSIFVYATTEPEEALLLGGNTATMWEGRVTQFGQTPVVYRQPVDATTARVFSDPPMNF
+LKIRKSGDSVVFGDGQTAAATGALAPLADGNYLAGFRPNHLELQKHAPDALEFNGKLNVT
+EITGSETFVHLDHHGENWVGLVHGVKDLRIGTSLNVYLDPRHIYIFAEDGTSVAAASYAT
+AA
+>tr|B7RLF3|B7RLF3_9RHOB
+MAISGPAKTVLQTVSVVVLMGGLAWASVPFYDWFCRVTGFGGTPGQVSANSEGILDQTVT
+VRFDGSLNDGMSWEFKPVVNEMEIRIGETGLAFYEAYNPTDHPIAGQAAYNVTPYAAGAF
+FEKIECFCFTEQVLAPGERVEMPVSFFVDPEIVADRDGKFVHTITLSYTFYEIDLPEGYA
+ALDQDSQTNLN
+>tr|B7RL00|B7RL00_9RHOB
+MPVFDNFHDYSVGLTGPICGGFDITPDDSNDLAQVTRAFMVSGAGDVAVVLKNGTTLDLA
+GLTAGVLYPFRVSKVLATGTTATGIKGLV
+>tr|B7RM72|B7RM72_9RHOB
+MVADMKEPKPDPKMSGRIAMIALLVAFGVAGMMVWIGA
+>tr|B7RPV4|B7RPV4_9RHOB
+MARLKADAPFIHPDCEVTDVSFGRYVELGRGSRLAHSHMGDYSYCDRFADIANATVGKFS
+NIAAYVRIGATDHPMEKASLHHFHYRSADYFDDAADDDAWFDHRRTRRTVIGHDTWLGHG
+AQVRPDVTIGHGAVVAGGAIVTKDVAPYTIVAGIPAVPLRARYAPGIADRISAIAWWDWP
+HDRLRAALDDFRTLSAEVFLEKYE
+>tr|B7RPF5|B7RPF5_9RHOB
+MSRPVVGIIGNTSLLNDQYPIHAAGTMNTVAVAQVSGCLPLIIPSDPSLVSVAELLDTCD
+GFLLTGGRPNVHPEEYGEDETEAHGTFDRARDAIALGLIRGCVERGQPFFGVCRGFQEVN
+VAMGGSLYPEIRDLPGRMNHRMPPDGTIEEKFELRHDVRFTEGGVFHEVLGAAKVRTNTL
+HGQGIKVPGARIVIDGYADDGTPEAIYVKDAPGFTLAVQWHPEWDAANDPVSRPLFEGFG
+AAARAWAQGKRQGLLKSA
+>tr|B7RIV6|B7RIV6_9RHOB
+MKDILEQLEDRREEARLGGGQNRIDAQHGRGKLTARERIDLLLDDGSFEEFDMFVTHRCT
+DFGMDQQKPAGDGVVTGWGTINGRLVYVFSQDFTVFGGSLSETHAQKICKIQDMAIQNGA
+PVIGINDSGGARIQEGVASLAGYAEVFQRNIEASGVIPQISLIMGPCAGGAVYSPAMTDF
+IFMVKDTSYMFVTGPDVVKTVTNEQVTAEELGGASTHTRKSSVADAAFENDVEALAEVRR
+LVDFLPANNREKPPVRPFFDDPDRIEASLDTLVPSNANTPYDMKELIHKLADEGDFYEIQ
+ENYAKNILTGFIRIEGRTVGVVANQPMVLAGCLDIDSSRKAARFVRFCDAFEIPLLTLVD
+VPGFLPGTSQEYGGVIKHGAKLLFAYGEATVPMVTVITRKAYGGAYDVMASKHLRSDFNY
+AWPTAEIAVMGAKGATEIIHRADLKDPEKIASHAADYEKRFANPFVAAERGFIDEVIQPR
+MTRKRIARAFASLRNKKAATPWKKHNNIPL
+>tr|B7RLP1|B7RLP1_9RHOB
+MNDPEPEAVLMLYPDRFSNLPAHAWPRLRALLDVHEGGGTPIHMTIGEPKHAFPAWVTDV
+ITENASGFNSYPPNDGSPALRGAIADWIQRRYGVIVDADTQVMALNGTREGLYNAVMAVC
+PETKNGKKPAILMPNPFYQVYMIAAISGAADPIMVPATLATGHLPDFAGLPADVLNRTTA
+AYICSPANPQGSVASREYWTDLLALAEKYDFKIFADECYSEIYRDTPPVGAMQVAQEVGA
+DPDRVVIFHSLSKRSNLPGLRSGFVASGPNTMREIKQLRNYAGAPLPLPLQAAAAAVWAD
+EAHVVESRALYVEKYEIADRILGNVPGYQSPEAGFFLWLPVENDEAAALKLWRETGVRVL
+PGGYLAQEVNGENPGKTYIRVALVAPKEETTRGIEAIRACLYPE
+>tr|B7RP57|B7RP57_9RHOB
+MESIEIGIYVSLGMLVLVVLGMRVAFAAALAGYVGLIWLRWNGFDYDPARFWKAVEISTK
+IAGLTPHSKVSSQVLSLIPVFILIGYLAYYAKLTTALFEACKRWFAWVPGGLAVSTVFAT
+AGFAAVSGASVATAAVFARIAIPEMLKIGYNKQFAAGVVAAGGTLASLIPPSAILVIYAI
+IVEQDVGMLLLAGFIPGVFSAVVYAALIIGIAMIWKNVGPPVSGFTWKQRFESLPPALPI
+VAVVVIIIFFVYNPFGDAWGTPTEGGAVGAFIVFLMALYRGMRWGQMKDALLETAKLTVM
+IFSIIWGVLIYVRFLGFAELPEAFADWITSLHMAPILILICILLAYAVLGMFMDAIGMLL
+LTLPVVYPAVMALNGGELVSAADSAFGMSGPMCAIWFGILVVKMAEFCLITPPIGLNCFV
+VAGVRDDLTVQDVFKGVTPFFMADAVTIALLVAFPSIVLWLPSLAG
+>tr|B7RGM7|B7RGM7_9RHOB
+MTHAQMLLEGGTVLVDNDRFAALSLLISDGRIKALIPDGEGPGDAERIDVSNRLIMPGLV
+NGHTHSHGALGRGGVPDDLPLEAFLSGGAWLNGTRHLDDLHLSAQLSAVELVRKGCTACF
+DLFVELPGPTMGGIHAVANAYHDVGIRAVVAPMIADRTLYQALPGLIEAFDPPLRDAVAA
+LSLPAWQTIMETCTEAFGHWPVPKDRVRPGIGPTIPLHCSDAFLQACAALSQRDGIPLQT
+HLAETRLQQVMAAQRYGTSLTEHLDALGVLHPQFSGAHGVWLSKPEAELLARHDACICHN
+PLSNLRLGSGIAPVRMLADAGVNLGVGTDASNTSDGQNMFEAMRLAATLSRAQTSDPAAW
+ISTRSALKMATEGSARILGLDRVGKIAAGWAADLLFLDAGYCHYTPLRNPLDQMVLAENG
+AALREVMIAGRYVLANDTILTLDEGALAARARDVAARLDGANAATRLMNEAAALVVQSFC
+RGNCDGYATRLG
+>tr|B7RQ56|B7RQ56_9RHOB
+MGDAQAARPVAQTGVIDRGRGGARGAIRGWLFILFALVFVMIAVGGLTRLTDSGLSITEW
+KPFTGAMPPLNEADWQSEFAKYQEIDEFKVQNSWMQLSDFKLIYWWEWGHRQLGRVIGLV
+WAVGFLWFLVRRQIPTGWTGRLLLLGGLGGLQGAIGWWMVSSGVTTGEAVLDVASYRLAT
+HLGLAFVILGFITWYALMLGRSEKDLMQARRAKEGKLFGMSTGLLHFTFLQILLGALVAG
+IDAGRYFVDWPMMQGQFFPPDALNIAPIWRNFFENPGLVQFMHRMAGYLLFAFAIVVWLR
+GRKSAHPKTRFAFNMMMLAMAGQIVLGIVTVLNAAPVHIAIWHQVLAVVLWVLILRARFL
+SGFPVATSLRGKT
+>tr|B7RFX6|B7RFX6_9RHOB
+MYRFSAWRTAKELDEKSTELIDPALREISNKMAVALDVPRIKVHIYEVAPVNGLAAPDGR
+IFITRGFYNKFKAGEVSAEELASVIAHELGHVALGHSRRRMIDFSGQNAMRAALGMILGR
+LIPGVGIWIANMLASMLAARLSRADEYEADAYAAALLTKAGIGVAPQISLFQKLEALTQN
+NHGTAPAWLMSHPKTDDRIAALTTLQKRWDV
+>tr|B7RM17|B7RM17_9RHOB
+MIEKPRHPLRGAVSDRAKAKDVPDTPQTRAPAYRLAFTDEDFMGLDALRPVRLQLELLKP
+EMGLDAHGITSTIVLFGGARIPEPANKDKARTKTLAELSHFYDEAREFARLMTLKSMESG
+GHDNVIVTGGGPGVMEAGNRGAADAGGESIGLNIVLPFEQAPNEYVTPELCFNFHYFGIR
+KMHFLMRARAVCVFPGGFGTLDETFEALTLIQTGRMSRVPFLLFGRAFWEKIINWDALAD
+AGTISAEDLDLFQFVETAAEAVHLIETWETAPARDAVPGR
+>tr|B7RQD7|B7RQD7_9RHOB
+MMAENSEQTVKTRRVFYIPGYDPIHPRRYRELYRKEGTAQARISGYDIALSPKKTKGNYG
+WNVAAHIDGRDVAAQVEVLVWSDIVRISMSNSIFATYGQLVQTAWVYIGSGALWRLMQLR
+KGPVIAALYPVGMLLVQLGLAVLAGWLLFLGMTYVVGAAWFTGVAAAIGAFLGWEVLRWF
+KKKDGKFFAYYLMHDYAFGASTRGANPHALESRMTAFGEAIAEALKSNVDEVLVVGHSSG
+AHLGVSILADLVRAGQVPADGPALGFLTLGQVVPMVSFLRDAHRLRADLRYLSERDEVTW
+IDVTAPGDGCAFALCDPVAVSGVAPEGKKWPLVFSAAFTQSLSKERWKELRWRFFRLHFQ
+YLCAFDAPKDYDYFQITAGPQRLAQRYAGRPASRSRIVKPVNKFTSIAP
+>tr|B7RLG5|B7RLG5_9RHOB
+MPQGEVNGDVVQVVARSFEAILAAKVTAPGEDTGLTSRLARGTRAFTIKVDVSSGVSGFL
+RPGDRVDVYWTGRITVGDSNLRNAGDVTKLIEAGVQLIAIDQSAGGEMNEANIAQTVTVA
+VKPSQVAALAQAQSTGKLSLSLVGADDDTIAGAIEVDQRSLLGITNETVQVEVEKERVCT
+IRTRRGAEVVAIPIPCTN
+>tr|B7RLU3|B7RLU3_9RHOB
+MYLSVVIPCMNEEASIPGLVERLSKTIGPWKDQAEIILVDDGSTDSTWKAIEAAKKVCPQ
+LVGLKLSANRGHQIALTAGLEAAQGDRIFMLDADLQDPPELLTDMMFMMDRGFDVVYGRR
+SERRGETMFKKATAHLFYRFLNAMSDVPIPRDTGDFRLVNRRSLDAVLAMPEKARFIRGM
+FAWAGFKQVGIEYIRAPRELGETKYPFRAMMRFAIDAMTAFSTKPLRLATRLAFVSLLMA
+ALMAVYVIYSLVVYQTAPGWASVVLAVSFFSGAQLLTLGIMGEYIGRLYVEAKNRPLYFV
+SEEVRDVAPVTQRLRA
+>tr|B7RP11|B7RP11_9RHOB
+MSYPTKIATCFFCGSKAALVLGVGRHELACAQCGAPLHDLKQIPVPKAGPVRSTQDLRRF
+PAATPGSTGKAAKVRTQKPKKKKSWLKKMSGEVFDLVEDIFD
+>tr|B7RSD3|B7RSD3_9RHOB
+MSRSPTVLFHRSLAQNSTYVLREETMSLITRRQSLALLGAVSLSGLAAPAIAQSRKINVG
+ALRFTSHAASFTALYRGYFEDVGLDVNLVFFDAAQPMAIAIASGDVDFGVTAVSGGLISL
+AQKGAVKVFGGAAKEEPGTSGQKILVSNAAYESGVRTPADLNGKRFGISQAGSSFHYMGS
+KIAATEGIDMQYTPLQSVGNIIGSLRSGQIDAWAIVPHIASQLTASGAAHEIAKVSDYLP
+DYQLTTLFTSPRLISEERALVEAFLAAFNLGVDDFNAALVDNTLGDDGRDSMVEIIHQHV
+YSDQPIKQATGPIIAGSMRLASGSCLGAASLRDQLDWFRSENLIDQDVTYETVIDDSFVP
+QC
+>tr|B7RI00|B7RI00_9RHOB
+MQKEAKQMLPDQKEIAVDRVARRPARGRQIASIIGLSLVALLFFGGTVVLNLPAATMARM
+TGMPPQVRTVSGSLWSGRALLDGGLVLTWQGTWSNLWRGQIGADLNLTGEGTLLKANAFA
+SPWQLGLGDVSGRAGADLLALVPDASPCDGQAVVDIKRVTWSRNRVTSQGQVHISESNCQ
+APGRTALKTPPLDLVLTSEGADAVATLTANDIAKSQMGQMRLGPDGWVKLRVEPAAAQLM
+PGLPDSGPTLLEFQLN
+>tr|B7RJP4|B7RJP4_9RHOB
+MAKAKTPSTGGDKPTENATSRASAAAAKPKPAPKTPEKKAAAAKPVAAKTPDTKGGAKTS
+AAAKTSKDAAVSATPADKPDTLSDKADTPSKAAAPGTTTKPDVPKSDTAKPAVTSEVKAL
+AETSPTPKPDVKPADKKADAPKAMETPKEAPKPTEASKPSVTPTPSQTTPAKPERSKSVF
+WPMVLGGLVACGIGFAAAETGVLATLTGSSAITAPENTVADQAARIAALEDALGKMPAET
+DAPATDLAAMEEIKASVAALNARIDEIENRPAPAAAEAPEVDTSAFEAELAALTSSVETQ
+RDEIQRLLENALSVEEATEQAARAATVQSAVARIVAALTTGQSFQSEIDDLKAGGVQDIP
+AALTESAETGVTTSANLQDRFPDISRAALAAARADAPAGAGGGFGNFLKNQLGARSVTPR
+EGTDPDAILSRAEAALRDGRLSDAITEVETLPEGAKAPMADWLADAQARQAAQDAVQTLT
+QRLTAN
+>tr|B7RQD6|B7RQD6_9RHOB
+MGGAMFGIDLIDAGLLPAIFIALTAGIISFLSPCVLPIVPPYLAYMSGVTLNDMSSVQSA
+RRKAVVAALFFVMGLSTVFLILGFTASAFGAFFLQNQVVFARLSGLVVMIFGLHFLGVFR
+IPFLDQEARLDAGDKGGSSFGAYVLGLAFAFGWTPCIGPQLGAILSLAASEASVARGTML
+LGVYAAGLGIPFLLAAMFITRATLLMNRIKPHMKLIERIMGGLLILVGLALLTGAFSTFS
+FWLLENFPALGSLG
+>tr|B7RJ51|B7RJ51_9RHOB
+MASLVMLVLALMPMAAQSQSLFTGGSAQSDEATTDGATDAGADATNEATPLSTLLDVLKD
+DAARAALIADLEKTVAPQAATEDAPALEQTPQETEAESMSIGRKIALQTQQVGEETIATL
+QSFWSSLQGGGGVFSGLSGAEISVLIQAIPGLLTVIAITIVLFVLLRRFARGLYARMGRR
+AENVGIIPSIGLFIGSNVLDAFIVLLAWAAGYLITILAVGDFGQIGIRQSLYLNAFLLVE
+MTKVIIRSFLSPVTSGLRIVPVSDSAARAMTRYLSIVVSVLGYGQLLIVPIVNQSANMAA
+GAGVSALLSVFVLLYFVYIVLRRRKDVTRWLKKETDPAVAEDAVGVDPVAIEKARRSFVV
+RTMHGLAQIWHWFALIYIAVMFIVVMTQPADVTLNALVASGKVLAALIIAALISGWLART
+VQNGIPLPDDINAKLPLLERRINTFVPRAFSLLRLALLVGVLVFTLDVIGMIDVRSWLES
+QVGLAFTAAIISVGLILTVAFGLWLALTSFVDYKLNPEFGGIPSSRETTLLTLLRNAVTI
+ALVILTLMFVLSEIGLDIGPLLASAGVLGLAIGFGAQKMVQDIITGVFIQFENVINVGDV
+ITVGGTTGTVEKLSVRSVSLRDVQGVFHMIPFSTVDMVSNYMRGFAYTVTDMGIAYRENI
+EEAKQAMFDAFDRMVANEPDIAASIIGELEWFGVQSLGDSAVVLRTRIKTDPGKQWGIGR
+MFNGYLKVVFDERGIEIPFPQQTIWLGENKDGTTQPFKIEGPETKTSKPAKKAPTKQIKA
+DDVPDSDEADGDVGADR
+>tr|B7RH24|B7RH24_9RHOB
+MLLRACLKFDSITTFLPLGFNFIKDGNGQGSVYAISAFVQEPS
+>tr|B7RR27|B7RR27_9RHOB
+MALKNNWSYPTAIRFGAGRIAEIAEACAAAGIKKPLLVTDKGLAPMAITTRTLDLMEAAG
+LGRAMFSDVDANPTEINLAAGLEVYRAGGHDGVIAFGGGSGLDLGKMVAFMAGQTRPVWD
+YEDVDDWWTRADADAIAPIIAVPTTAGTGSEVGRASVLTNSQTHVKKIIFHPKVLPTVVI
+CDPELTVGMPKHITAGTGLDAFAHCVEAFSSPHYHPMSQGIALEGMRLVVDYLPRAYADG
+SDIEARAQMMSAAAMGATAFQKGLGAIHAMSHPVGAVFNTHHGTTNAVCMPAVLDLNEPM
+IRARFDRAAGYLGIEGGYDGFRSFVQDFNDSFDIPRKLSQMGVTADRLDGLVAMALEDPS
+CGGNPVTLTTENLRKLFEATI
+>tr|B7RR92|B7RR92_9RHOB
+MESADLRDPDGMPVTLSDFEIDAAGRLSADLLAYLEGGAEAGQSVTENRAAFGRIGLLPK
+LLSPCAGGHTRTTILGKQAPHPIMVAPMAFQNLFHPQGESATAMAAAAQDATMVLSCQTS
+TPPEDIATIPGRRWFQLYMQADHEATMALVTRAVDCGADALVVTLDAPINGLRDREVAAG
+FTLPDDVRPVMLDVLPQPPRPHLRDGQSVVFDGMMVFAPTADDLARLIADSPVPVIVKGC
+LRPADATRLIDLGAQGIIVSNHGGRVLDTVPAPITQLAAVVDAVAGAVPVYVDGGIRRGS
+DVFKALALGAQAVLVGRPVMHGLIVDGPRGASQVLRRLRDELEVTMALCGCATVADITPD
+LLTGFSGTGS
+>tr|B7RS10|B7RS10_9RHOB
+MKLRAFADKASGLLLCAMTVLVICNEWGVAKWSEPLKPVLVLSLVAILTSQVRLSRKAFV
+LVGLILSVALAVNNRDWLDIVIKGLSTAAFIGAFFSALSTLRTVAQTSPAIQRAGTFLAE
+QKPGRRYAALTLGGQAFALLLNYGSIQLLGTLAMTNAKTEPDAEIRGHRIRRMLLAIQRG
+FVSSLPWSPLSFAMAISISVIPNTTWTQVLVPGLMTAFILAGIGWGLDTVFKPHLTVTPV
+RTEPTGTWSTMLPLLALLTVLVVGVVSLHEVSDARIVGLVAVLVPAIALAWMLIQHWSDA
+PFASTGAQIKSYVLVELPGYRGELILLMMAGYIGTVGSQLLGPLMLKAGLDLSTVPPWII
+LVAFVWIIPLAGQIGMNPILAVTLIAPLIPDAASLGVQPTALVVALTAGWALSGASSPFT
+ATTLLIGSFAGISALRVGLLWNGAYTLICGVALSVWVLIYAFVI
+>tr|B7RL93|B7RL93_9RHOB
+MVDLFDSGAAKPEGGHRPLADRLRPKTLAEVIGQAQVLGPDGPLTVMLQSGSLGSLIFWG
+PPGVGKTTIARLLADETDLHFVQISAIFSGVPELRKVFEAAKIRRQNGRGTLLFVDEIHR
+FNKAQQDGFLPHMEDGTILLVGATTENPSFELNAAVLSRSQVLVLERLPLADLERLAQRA
+EVELGRSLPINGPARESLLEMADGDGRALLNLIEQVAAWKVDKPLDGKALSARLMRRAAQ
+YDKGGDAHYNLISALHKSVRGSDPDAALYWLARMLEGGEDPRYLMRRITRMAVEDIGLAD
+PQAQAICLQSWETYERLGSPEGELALAQAVTYLALAPKSNAAYVAYKAARAAAKQTGSAP
+PPKHILNAPTSMMKDQGYGAGYAYDHDAEDGFSGQNYFPDGMARPQLYQPVERGFERDLK
+KRLDYFEKLRSTRKT
+>tr|B7RSB2|B7RSB2_9RHOB
+MIETCKLNDVDPHAYLTNTLTAIVAGHKQSKINELLPWNYVK
+>tr|B7RPR8|B7RPR8_9RHOB
+MQSVRDIAKSIVAREGGFVNDPDDPGGATNFGVTIHTMRRLGLDLDRDGDVDVRDVRQLS
+RSDAVEIFIQHYFEGPMISGLPEALHASVFDMYVNAGANAVKILQQLLREMGFDVAVDGA
+LGPQSFAAAHAAYAKAPQQMVDAYGIARRNYYFRLADRRAASRKYARTRAGGKGGWITRA
+EEFIAPKYHLSQTEFSKRVASWG
+>tr|B7RI48|B7RI48_9RHOB
+MTGKLPSSASVALPMDGAKLHAPAADRNCAALCELLLAHAPHKGRALEIASGTGQHIAAF
+ATALPGLSWQPSEPDAARRASIDAYVRDAGVTNVAPAIALDATADGWHGGVAPQDLIFLA
+NLLHLIPTPAAQCLIAQAALALAPRGTLILYGPFRRAGRLTSAGDVIFDAELRAADPAIG
+YKDTADVITWLDRAGLAPVSIVALPANNLGIIAGKP
+>tr|B7RI43|B7RI43_9RHOB
+MKLSTLLASAALALGLAGGAYADAHGKTKVGFVFVGPVGDGGWTYEHNQGRLAVEKEFGD
+KVETVFVESVAEGPDSERVMTQMALDGADLIFTTSFGYMDPTINIAAKFPDVKFEHATGY
+KRADNVSTYSARFYEGRAIQGHIAGKMTKSNVIGYIGSFPIPEVIRGINSAYIHAKKVNP
+DVEFKIVWAYTWFDPAKEADAAKVLIEQGADVILQHTDSTAPQAAAQEAGNVITFGQASD
+MAQYAPMPRVSSIIDNWAPYYIARTKAVMDGTWTSTDTWDGIGAGMVGIGEITDAVPAEV
+KEEALALKASIADGSYHPFTGPLKKQDGSDFLAEGETADDGTLAGMNFYVEGITGDIPN
+>tr|B7RPZ3|B7RPZ3_9RHOB
+MKSVNTSMNRRGFMATTAATALIAATLGAPALAADPVKVAGIYTVPVEQQWVSRIHKAAM
+AAKDRGDIEYVYSENVSNTDYVRVMREYAEAGNTLIIGEVFGAEQEAREVAADYPGIAFL
+MGSSFKEDASLSNFAVFDNYIQDASYLSGIIAGSMSETGNIGMVGGFPIPEVNRLMHAFM
+AGAREMNPDIKFQVSFIGSWFDPPKAKETAFAMIENGADMLYAERFGVSDAAKEKGVLAI
+GNVIDTQAEYPETVVASAIWNFEPTLDKAIAEVQAGTFTAADYGMYSFMKEGGTVLAPLG
+TFEGKVPEAAMALVKQREAEIKSGDFVVEIDDTEPASS
+>tr|B7RLY0|B7RLY0_9RHOB
+MGIEIITLLIVLSLLALMALGVPLGITTLTVSLATAILYFGERAGFFIVAANVGEVLHKY
+ELIAVPFFVFMANVLERSGIAKSMFDSMAIMGGRFRGSVGVQTTFVAVILAAMSGIMGGE
+IVMLGLIALPQMMRLGYDRKLAIGIICAAGALATLIPPSVVLIIYGLAAQVSITKLFAAS
+AVPGLLLASLYITYILVRVRLNPSLAPIYDVPETGLPFFKRLKYLKGVILPALLIGTVLG
+VIYSGVATVTEAAAIGAVGALVVAASRRELTWKMTRDAMRQTVLTVGSIIWLVIGAVSLI
+GIYNRIGGGEFLRGVLTSLDIGPIWVIVVMMLIVMVLGTFLEWIAIIFITVPIFAPVVID
+LGFDPIWFGVLFAMNIQMYYLSPPFGPACFFLKSVAPKEIQLQEIFVAVLPFIALQAVGL
+LLVLAFPQIALWLPSMLD
+>tr|B7RMZ0|B7RMZ0_9RHOB
+MSDPAIAVLPYGSKLGKALAARPLDDLIWPLGRPDRLGQGGVADLTCDDHLIIYPKTNMH
+FLPDLGTRARVTAMVVEPSIIHARHLRWLRLTYRRFFRVMSYHQQLLDRIPNGLFLPYGT
+TWVPDYQGLDVSKTQHMSLIASAKRDHIGHQLRHRLVEHVQASGADVTVLGRGYAPFDDK
+SDGLAPYRFSIVIENVREQNYFSEKLVDAVLCETVPIYWGCPNIGDFIDTGGMILCQTEE
+DVQRAIAGASVAQYDTLIPALRAAKPQAAGFVDLERRAAETLKASL
+>tr|B7RJL2|B7RJL2_9RHOB
+MSNNDQQQAAAVEAEAAGKGGLSQLELDELVASSDTGGRSATGNVGVFLALTALAWSLFQ
+LWIASPIPFVVGWGVFNDTETRSIHLAFAIFLGIAAFPAARTKVQLGLGVIVPIVLAYLF
+MVGAKDDTPTWWIPLVAIAMVASVVLGSPKNRIPIWEWILAVVGAASALYLFVYYREISG
+RVGAPNMQDTVVFVIGIMILLEATRRALGPALMIVASVFLIYNVLGPVMPDIIAHKGNSL
+SEIVNHQWITTEGVFGIALGVSTSFVFLFVLFGALLDKAGAGNYFIQVAFSLMGHMKGGP
+AKAAVVSSAMTGLISGSSIANVVTTGTFTIPLMKKVGFSSEKAGAVEVASSVNGQIMPPV
+MGAAAFLMVEYVGIPYFDVVKHAFLPAVISYIALVYIVHLEALKAGMVGLERPYTPKPII
+QRLLVSAFIIACICALSFAVYYGMGWLRPAFPNSAGYIIFGVLTAIYAALLYVGSKEEPL
+KLDDPNAPVTRLPLPGPTVRSGLHFILPIVVLVWALMVDRLSPGLSAFWATTYMVFILVT
+QRPLMAIFRGESQFANDVGEGLKDLIDGLVVGARNMIGIGIATATAGIIVGVVSQTGVGS
+ALADVVEVLSGGNILAILFLTAVLSLILGMGLPTTANYIVVSALLAPVIVTLGQQNGLIV
+PLIAVHLFVFYFGIMADVTPPVGLASFAAAAVSGGDPIKTGVVAFFYSLRTAALPFLFIF
+NTELLLINVTMFQGIFVFIVATFAMLLFAAATQGWFLAKNRFYETIALLLIAFTLFRPGF
+WMDMVFPPYLEEAPAEIVQAAADTPSGEDLRLRVSGVGDLGDPIEFVALLPISAGATGEE
+KLEAAGIVTRMDGDKMIIDDVLYDSPAASAGLDWDQEVLRVLKPVETPSKYWMFIPALLL
+LALVVMLQRGRNARGTRKAVAA
+>tr|B7RHH1|B7RHH1_9RHOB
+MEGGVIDMGVTTAAFGSWVSPIAAEDLAAGTVKFEQLALDGDDIFWVESRPDEKGRSVVV
+RMAPDGPQDITPAGFSARTLVNSYGGGAMAAKDGTVWFTNFATSDFPQTKDQRVYAQTPG
+HFPKPITPRQPVHFADMVPDPERGVIFAVQERSDVLLHGQAQQTLVALDMQGSALPITVA
+SGGDFYAAPRLSPDGKQLAWLTWDYPSMPWEGTRLQVADLDAQGNATGIRTIGGAPATKI
+DPGLNPVLQNAMRYSDEAIAEPLWSPDGQLYCVSDRSEIDGTRWWNIHRVDGDDLVAVTA
+EAAEFTSPLWRLGVSSYGFISETEVLAAYSRDGVWALALVDVTSGALSAVDLPYTSITHL
+RVGNGFAVFFGGTFNGPAELIRLDLETHETTVLRRANPGLSDAAKACFKAPETISFQVDD
+GKGGTETSHAFYHAPYNPEYTNPTNERPPLIIVIHGGPSAAASSALSVDIAFFTSRGFAV
+LDTNYRGSTGFGRSYRQRIYGGWGVVDVADCVAGAEHLVAADKVDRYRIASRGGSSGGYT
+TLALATFTDILSAGASYYGISDLQMIAQDTDKLEAYYAALLVGPWPDAQKVFKGRSPLFH
+AGQINCPLIIFQGEDDPVVPPPQAHVLIDSLMDRKMPVAWEFFPGEGHGFKQKAHLIQSL
+EEELSFYGAIMGFTPAGHLAQPAIENWPA
+>tr|B7RIA5|B7RIA5_9RHOB
+MLEAGLSIAERITALIEAELGEAALSEDQVFRRTAEDFRKTLRVPREIKVNFSGGITQTC
+WSVSRGDGTYRVVYMPIAGYFSLCVESDFGPLDIGVHGPALGCFGSV
+>tr|B7RK70|B7RK70_9RHOB
+MSILSIKDVNKGFGVGTHRAEVLKGINLDVREGEFLAILGFSGTGKSTLMNLIAGLEMPD
+SGTLTYRGAPITEPGPERGLIFQSYSLMPWLTVGGNVGLAVDAVFPKLSKAKRQEKIDHY
+VSMVGLSHATGRRPAELSGGMRQRVAVARALAMNPEMLLLDEPLSALDALTRANLADEIL
+EIWEQDKKTCILITNDVDEAILLADRIVPLNPDGTLADPITVDIPRPRDRMAMNNDATFK
+ALRAGVTKYLMDVGIEAKVEEIKTLPKVTPIHAVPKVVAEAQQSPIEERYLTFSQLHKIY
+PTPKGPLTVVENFDLKINKGEFISLIGHSGCGKSTVLTMAAGLNPISKGAIRLDGWNVEG
+ADPERAVVFQSPNLFPWLTAKENVAIGVDKVYPKASQAERQDVIEYYLERVGLADSMDKN
+AASLSNGMKQRVGIARAFALSPKLLLLDEPFGMLDSLTRWELQEVLMEVWSRTKVTAVCV
+THDVDEAILLADRVVMMTNGPQATIGKITDVKLPRPRTRKALLEHPDYYSYRQEVLDFLE
+EYEHGNTSKTTSAAPRKTIAAE
+>tr|B7RP78|B7RP78_9RHOB
+MPLIRLNVSPETGRIAVLLSPQCPQRALASAARGSGPITLMIHGYKYQPGSVRHCPHRSI
+FDAHTGWPAHLGMTAGAGLGVCFGWAARGSLARMFETAQQVGRQLAQVVMTLHRAAPHRP
+VHLIAHSMGAEVALSALCHCDEGAVSRVVLITGASFQSHAARALRSPAGKTAEVFNITSR
+ENDLFDFVFERLLGQAAADDRALGQGIAAPNALNIQLDCPVTLAGLAALGCPIGPPQSHI
+CHWSGYTRPGALAFYAQLLAQPNVLSLPRVADMLPPQPSPRWSRLPLASLTKTRIMGRLP
+A
+>tr|B7RSB9|B7RSB9_9RHOB
+MCNKENLTLSDLAGERFISFPEGEPLRYEMEQILFNEGVDVNFVVETSYSAITCSLVAKG
+VGIAIVNPYIAHTCGESGIVVKPFDSGPKHEAVLIYPKGKPRGRFVESFVAVLKQMVSDF
+>tr|B7RJJ3|B7RJJ3_9RHOB
+MAELVYHSVVRSVRKQHNNAFAAIGINILQAVIFVGVFYVMFTMLGMRGSAIRGDFVIYI
+MTGIFLFMMHTKTVTAVAGSEGPASAMMQHAPMTTMIALAASALGALYIQMLSLVMIMSV
+YHLAWNPVVINDAPGVLFMMMVSWGTGVSVGMVLLAIKPWAPSFTTIFTSLYQRANMVAS
+GKMFLANSLPSFMIAMFDWNPLFHIIDQARGYAFINYNPRYSNWEYAVWVGVVLMVIGLM
+GEFYTRKHASASWSARR
+>tr|B7RNP4|B7RNP4_9RHOB
+MVGKLLITPSQHHIHHSDFQPETDTNFSADFCLWDKVFGTFLARPLRHHADFKYGLKEVS
+SDDAVDIHAILLSPFVRGNGDP
+>tr|B7RRR2|B7RRR2_9RHOB
+MLGDRANRILGGCVIILALLAIFVWVPNDTATGMILRQRGRLSIGDAMAPMFAFGLIGLA
+GILIALEKGGDLPASHINRTNIRFLTIFIGIFLLSIVLMRWSGPFVVLVAKAFELTEQSY
+RDLRDTVPWKYTGFVIGGTFLVTTMMSLM
+>tr|B7RNU3|B7RNU3_9RHOB
+MSALLEIEDLNVTFNTRYGAVTALDSVSLHVNAGETLGVVGESGCGKSITALSVMGLIPS
+PPGRIAGGSIRLNGEELTTASPARMRAIRGAEAAMIFQEPMTSLNPVFTVGAQIAEAIML
+HQKVGADQAMRAAVALLDRVGIPSPDARARDYPHQLSGGMRQRVMIAMAVSCRPKMLIAD
+EPTTALDVTVQAQIFDLLNEIQRDFGAAIVLITHDMGAIAEMADRVAVMYAGRVIEGATA
+DDVLDHPQHPYARGLIDCIPNIAKGDAALREIPGVVPPLHLLGAGCAFAARCAHANNRCH
+TEKPKLAAHGHHPAACHAVQEGRI
+>tr|B7RQ96|B7RQ96_9RHOB
+MLQIDLWKRVLIILTCVAGLYLALPNAFYGPVEQHNDALKAIDVAGSTPELEAQADLWPE
+WLPERLVNLGLDLRGGAHLLAEVNVADVYASRMEATWPEVRDALRSITPVRRVEAPEGEL
+RVRINDTDKMAQALEVARGLARPVQTITGAGANDIVVSGAEDILTLTLSDAEKQATDERT
+MQQSLEIIRRRIDEVGTREPTIQRQGSDRILIQVPGIGSASELKAIIGTTAQLTFNPVVN
+RGADANAAPGLGNSLLPDAEAPGVFYIIETAPVVTGEELVDAQPSFDQNGRPAVSFRFDT
+TGARKFGTYTAENIGAPFAIVLDDAVISAPTIQSAIPGGSGIITGNFSVEESTNLAVLLR
+AGALPAGLTFSKNAPSGQSWARTASTRADRHDRRLCRRTVFHVGDLRAVRFLCQRCAGRE
+RRHDLRASQPDRSHADPAGHRRDRFDCGHGGGRQRADLRTHQGRTENRKGSGPRNQPWL
+>tr|B7RSK0|B7RSK0_9RHOB
+MPEKPRYIFILTTGHSGGTLLNLLLGASPAIFAAGESLRLWTLGAIDRQSEDTRDFWGTA
+ADALATQGWAAKDLDRRRVEEAPMDLWRTWTTIVSQQAQDHIIADKSLSFKLIRKICEAN
+IVDPFFVHLIRDPRGVDCSFRRKYGRSWRTAVTWQKSNFAIERFLRGKPNTIRLRYEDLC
+AFPDAQMRSVLRT
+>tr|B7RPM1|B7RPM1_9RHOB
+MGVDICQSMLDTPSNRPALPAEIARRRTFAIISHPDAGKTTLTEKFLLFGGAIQMAGQVR
+AKGEARRTRSDFMAMEKDRGISVSASAMSFDFQNKGTNYRFNLVDTPGHSDFSEDTYRTL
+TAVDAAVMVIDGAKGVESQTQKLFEVCRMRDLPILTFCNKMDRESRDVFEIIDEIQQNLA
+IDVTPASWPIGVGRDFIGCYDILRDRLELMDRADRNKVAESIAIEGLDDPKLAEHVPANL
+LEKLREDLEMVRELMPPLDAALMAEGSLTPIWFGSAINSFGVKELMDGIATYGPEPQIQS
+AEPRKILPEEAKVSGFVFKVQANMDPKHRDRVAFVRLASGHFERGMKLTHVRTKKVMTIA
+SPVMFLAADRELAEEAWAGDIIGIPNHGQLRIGDTLTEGEAIRVSGIPSFAPELLQGVRA
+GDPMKSKHLEKALMQFAEEGAAKVFKPAIGSGFVVGVVGQLQFEVLASRIELEYGLPVRF
+EPSQFTSARWVNGDRQAVDKFTEANKQHIAHDHDGDIVYLTRLQWDIDRVDRDYPDVRLT
+ATKEMMV
+>tr|B7RJH1|B7RJH1_9RHOB
+MTRLAGMILSAIVLGACTTPVPRNADDVTHPRQEPSNYEPGIHVSGYVNVGVSKGF
+>tr|B7RKC3|B7RKC3_9RHOB
+MDLACRARAHDHAAQSQARSLAVMKTQQTDLDLMTRNDAIAQATAYFESGRLQSELAALV
+AYRSESQNPDQAPVLHEYLTHAIQPRLEAMGFDCTIHDNPSAETTGGPLLLGMRIEDPDL
+PTVLTYGHGDVIWGQDAQWRDGLTPFELTPDGDRLYGRGAADNKVQHLINIAALETVLSL
+RGRLGFNIKIVLEMSEEIGSPGLSEMMELHRDTLQADVLIASDGPRLSATQPTMFMGARG
+GLGFDLVVDLRKGAHHSGNWGGLLADPAIILAHALATITDARGQLQIPEWRPASLTPKLR
+AALRDLPVGTNEELTVDTDWGEADLTPAERAYGWNSFSVLAMKSGNTEAPVNAISPTAWA
+RCALRFVVGTDVEKVLPALRRHLDAHGFEKVQIQPLDKGCFPATRLDPDHPWVSYVRESL
+KRTTGKAPHVLPNLAGSLPNDCFADVLGLPTIWIPHSYLGCNQHAPDEHVLKPVCREAMQ
+VMAGLFWDIGTGTPETAAT
+>tr|B7RNP9|B7RNP9_9RHOB
+MGKGSLAGLRVLDLTDQRGVLTGRMLACMGADVLQIEPATGSTARAMAPFDTDGASLFWA
+AYRAGRRSLVLDRDSDHARLMALAAVADVVLESGVPGRDVFLETDALLQVNAGVVHSIVT
+PFGLDGPKAGYADSDLTLWAAGGPLKPTESQAGIPTRVTLQQAYHHAAADALCGIMVALE
+ARRRGGQGQRVVTSAQASATQCTLSLSMASVIGHPNYVFRAEVKSKKKRELDLSGSGSRT
+QRSKWPVKDGIVEMHLALGPAAGRFTNALFALMAARGACSPKFAAWDWVTLPPKIENDEI
+TDEEMEQARTEVADFLASMTKLEAVEMALQHRLMLAPIMTVADLANSPHSKARGFLQQVG
+ALSLPGKLALGFDEGFAPLRPAPDPGEGGAEAEADWLANRDGARPFAAARTVTKVARPLE
+NITVLDLSWVVAGPMIGRNLADFGAQVIRVESARKPEVARLTGPYPEGVRDLNRSGLYEN
+CNAGKLGLTLDLSQDAGRALVKELAGKVDVLVESFAPGKMDKWGLDYDTLSKDNPGLVML
+STSLMGQSGPWSALAGFGNIGAAMSGLQVLAGRDVSAPIGPYGPYTDFVAPRLAFPVLLA
+ALEVKRLTGKGRQLDVSQAEAGMQFIAEAFADYAATGRVPVADGNRDPHCVPNEVYPCIA
+PEGETAWVAVSATSDAAWIALRDETGLAALADPAFETLEGRRAAEAEIDTILADWCRGQT
+PEAVEQRLQARGVAAHVVASPADLAEDAQLGAWGHFQTLPRTDGTPAHHEACRFQLGMTP
+AKTARAAPEYGRDNHQILADYLGLDAAQIDALERDGVLT
+>tr|B7RM09|B7RM09_9RHOB
+MTAAAPFAEIWRGPFLESVHSGHAVVCDDTGQILHAWGDPEAVILPRSSAKMIQALPLLR
+SGAADAFGLKPQHLALACASHQAAALHTWLVGDWLETMGLTDEDFRCGTAEPGDDAARNA
+LICAHEKPCQVHHECSGKHAGFLTVNKHLGGGPDYEKPDHPVQKACLDAFEQITGLTSPG
+YGIDGCSVPNFATTLHGMARAMAHFAAAPDGSAEARLHQAMRLHPELVAGETRACTNLMR
+AMNGKVAVKTGAEGFFIAILPELKIGVALKAACGTKRAAECAIVSILVKLGAIDPNHPQA
+LKYRNAPIENRRGIITGTLKPAATFA
+>tr|B7RN58|B7RN58_9RHOB
+MPISFRKSALAFVIFATSATGAVADIYQIVVLDEAFLPAISYVNVGDQLEFINESQTART
+VVGENDSWQSGSLEFGQSYIRGIGESDLLGFSSANGETTFEGTISFDEPPLADTSTVTN
+>tr|B7RGD4|B7RGD4_9RHOB
+MRWLLCASTFLWTSTAGADVPRVSTDIAPVHALVALVMEGVGSPDLTIPPGATPHSYAMR
+PSEARALAGADLVVWVGPVLTPWLAEPIETLAPNATHLTLQDSAGTEVLENRSGVAFEAH
+DHGHDDHDDHGTDAHGAEAHGDEAEHDDHDAPAAFDPHLWLDPVNASAWLGTISDALIRL
+DPDHADTYRANAAKGQTDLARLTATIETQLKPLQGRPFVVFHDAYHYFEGRFGTEASAAI
+SLSDGAAPSAARLSELRDVIAETQAVCIFTEPQFNPGLVAALDGEGTLKTAALDPLGASL
+TLGPTLYPELIQSLAQSFVDCLSEG
+>tr|B7RIC1|B7RIC1_9RHOB
+MNKAITDGVVFTPAAFANGLDMYSSGDGTSGSDTYANAINAAFITADQDFGGALELIKTQ
+STQKLRYMGQTPLLPGCYLRITAKVKAISGNLPSVRIAGYPALGNGARVGGLVEFGTPVQ
+LTSYGEVVEISAIVGSGQRGGVDMVWGTNPVYGHFGLDMTGQNGGVIRIDDLQIEDITSA
+FLLDMLAQVDVRDFGAVGDGVTDDTAAFNAANAAADGRSVLIPKGLFLLNGDVTFDTETL
+FEGKLVMPATAILSLRHNFDLPHYIDAFETEEIAFRKAFQALLSNSDHESLDMGGRKVYV
+TGPIDMQAATPERTSYSTRRIIRNGQFEAASNGNWDTVTVTSQGTYSPSDARKLTNVTNI
+ANIPIGSHMTGNGVGREIYVRDVNIATKEITLNAPLFDAAGTQNFSFSRFQYMLDFSNYH
+SLSKFVLSDIEIQCNNVASGVNLAPSGVTFHMRDCFVSRPKDRGITSIGGGCQGMFIDRC
+QFLSSEDGLNVSERKSIAINCNANDVKIRDNRATRFRHFALVSGQNNIITGNHFFQGDTV
+TNGIRSAGLIIAAQHTGSVVHGNYVDNCFIEWTNEQDPAPEYSSEYSFSSLSITGNIFLS
+GEVAPWFSYIVIKPHGAGHVINGLTISDNRFRSLNGPIDHVERIDTTYADMDFSRMRNIE
+ITGNSFHGVNYPVANPVQVEHSQESHAQTWVVDIADRFPFGGWAIAVDSITMDGPVRNTS
+NVAQFSHPYVLTDQGPDRDLLHLVWSASVKGAIFMQARMDKR
+>tr|B7RL28|B7RL28_9RHOB
+MAVLLLAEVTDGALAMDATAKAVTAAQKLGDVTVLCAGGSAAAAGEEASKIAGVAKVLVA
+EDDTLGHRLAESTAALIVSMAGDYDHIVAPATTDAKNVMPRVAALLDVMIISDASGVVDA
+DTFERPIYAGNAIQTVKSSDAKKVITFRTSTFDAAETGGSASVETMSAVADPGLSSWVED
+HVAASDRPELTSAGVVVSGGRGVGSEDDFALIEKLADKLGAAVGASRAAVDSGYAPNDWQ
+VGQTGKVVAPELYVAVGISGAIQHLAGMKDSKIIVAINKDEEAPIFQVADYGLVADLFEA
+VPELIEKL
+>tr|B7RMY5|B7RMY5_9RHOB
+MTDPLPTGAIIGILGGGQLGRMLSVAAARLGFRTHIFEPGANPPAADVAHAVTTAAYDDV
+AALTAFAKAVDIVTFEFENIPTDALDVIEAITPIHPNREALRTSQDRLTEKTFLEGLGLN
+VAPFADIANAADLKAAMQTIGAPSILKTRRFGYDGKGQSRLRSVDDAATAWADMAGSPAV
+LEGFVDFSIEVSVIAARSASGDVACFDPGENVHRDGILHTTTVPARLSAAQRTDAVLLAA
+KILNALDYVGVLGVELFVTPQGFIVNEIAPRVHNSGHWTQNGCTVDQFEQHIRAITGWPL
+GDGSRYADVVMENLIGDDMDRVPALAKQRDTALHLYGKADVKAGRKMGHVNIIKR
+>tr|B7RGV7|B7RGV7_9RHOB
+MMIGRLNHVAIAVPDLEAAADQYRNALGAKVGPAQDEPDHGVTVVFIELPNTKIELLYPL
+GDDSPINGFLEKNPAGGIHHICYEVDDIIAARDHLKSTGARVLGTGEPKIGAHGKPVLFL
+HPKDFNGALVELEQV
+>tr|B7RIC3|B7RIC3_9RHOB
+MEYGILGLIILIADIYAIVKVLGSGASTLSKLLWIVGIVVFPVLGFIVWLIAGPKGGTVS
+V
+>tr|B7RJH0|B7RJH0_9RHOB
+MSVLRMIYLALAVWGAVHPMYYFVSWFRANGFDIMGMVDAWHANAASSGLVWDLTIAAVT
+LTVWIVAEVAVRRNWLALIAIPATFGIGVSCGLPLYLFLRSAPVK
+>tr|B7RKG7|B7RKG7_9RHOB
+MTHNQQIEEQLVDLRKRQAESWPKGVSREVNYRLGKVPMSQYVRAEAKARPNDAMVHYYG
+RTLSWAEIDDASDRFAGVLQARGVTAGDRVAVMMGNCPQFVICFWGIMKLGAVLVPVNPM
+FKAIELTYQLNDSGAETLVFQDDLAPLVASVAADTPLRMLLATGAAEMAGVGGAVPRPAG
+MGDAPRAEGIERLLDALAAATPFTGPDCTDLDAVAALNYTGGTTGMPKGCVHTHGDMLYT
+VASYCGCAMGDAGHNDVVVNFFPMFWIAGEDLGVLAPVYTGAAVCILHRWDAVGWMAAVA
+EHRATIVTLLVDNAVEVMRHARVKDYDLTSLRNTSVCSFVKKLGAAFRSEWRDLTDSTMV
+EAAYGMTETNTCDTFTVGLQDGDYDLQQQPVFVGLPVPETDIIIRDFETGALKDIGETGE
+ICIRSPSVLKSYWNKPDETTHALRDGWLHTGDIGMVNDRGFVHYLGRRKEMLKVNGMPVF
+PAEIEMLLGRHPAILGSGVIGRKDEAKGEVPVAFVHLNPEQAKGIDADNLRAWCREQMAS
+FKVPEIRLVDGLPMTATGKVKKEELAELL
+>tr|B7RSJ0|B7RSJ0_9RHOB
+MSVTDETLAQARQILTDLVAIPSVSARRQSLDACAAQVANLLETAGLRTEVHPGAVGPFV
+IGETGAGEFTLIIYNHYDVQPEEPVAEWLSPPFALTEREGRLFGRGAADDKGEFVSRLAG
+WNAFRAEQPGLLPFRLIWIVDGEEEVGNPSLADFLKKRFPYLRADLCWWEFGEIDSSGRP
+VVLMGFKGILAVELACTTARADLHSSYGAIADNPLWRLSAAIASLRNADGRVLIEGFYDE
+IAPPDDLTKQLVDKPPFTLDSMMDATGVKNVLKGVKEGNFYERLNLAPCLNVNGFHGGYD
+GEGAKSVLPAQGSAKLDFRLVPDQDPRRIADLLRAHLDRLGFEDIELTILDAEVEAVRSP
+SDHWAVTLGCELLERHFGVSPVLQPSSPASGLAQPFVRDFGATLFGAGLTHHGAMLHSPN
+ENIIIDQFERMIRFASDFFDALSAQAVQRANAPPSGSR
+>tr|B7RL07|B7RL07_9RHOB
+MDKIPDQKRAVQYLYPPVDPFDQRMMDVGDGHTVYFEQCGNPKGIPVIVLHGGPGGGCSP
+SMRRYFDPEKYHVILFDQRGCGRSKPFASVTNNTTWDLVADIERIREALGISQWIAFGGS
+WGATLALIYAQTHPDRVRNIVLRGVFMMTQTELDWFYGGGAGRFWPDLWARFTDLIPQQE
+HGDLIAAYHRRLFSGDMQTEIKYGKAWAAWENALASIHSSGGMHEGPGEYSRTFSRLENH
+YFTNAGFLEFDGQILANVPRIAHIPGVIVQGRYDMICPPTSAYHLAQAWPNAELKMVRNA
+GHALSEPGISAELVRAMDRIAVQ
+>tr|B7RG40|B7RG40_9RHOB
+MNTISLILSQNGGSGVEKNNAHKRRRHGPKLGQRSSCSYNGATADGIDQLTRHFEARTQV
+PVEVLQASASSTSLLRRYRSRRSWWDEAAHQPGRQL
+>tr|B7RK50|B7RK50_9RHOB
+MSTGAGEAGFGRPASFVPGGLIRINTTGRAHPISGVMRLKPLERK
+>tr|B7RN41|B7RN41_9RHOB
+MAASVFDSPLYAQLFPTGDAGRLFSDTAAIRAMLLVEGALAKVQGALGVIPEMSAAAIHR
+ASLEIQVDPGAIARATGENGVSVPGLLAQFRAEMQAPEFAQHVHWGATSQDIIDTALMLR
+LRQALGLAEADLRAIIASLAAAATDHKTLPLPARTYGQHATPTSWGATLAEWGMPLCDAV
+EELEALRASSLFVSLSGAAGTGSALGPKAAETRAQLAKALGLNDPKRSWHVDRAPILRIA
+DWQGRVMAALSHIGQSMVGLTMTGIEEIALGASGASSTMPQKQNPVGPSAIIALGHQFTG
+QRAALQAAAAHQHQRDGAAWFAEWMAVPQLALCLAAALQHAKTLVAGVTPHPLQMHHALT
+ASLGLIHAEALSFALAETMSRPEAQKVTKQLCRDAQDKRVPLADLVRADYPDLPEDLFDP
+MHQMGHAPQDAEAFITRANAL
+>tr|B7RQ49|B7RQ49_9RHOB
+MNTHFTPPTPPLPRRTVFARLRASFLTGLVVIAPVGLTIWLIWSVVGWIDGIVLPMVPLA
+YHPDRLIQTYFGLDPSSQINVRGIGVIIFLLFTIIVGWLAKGIIGRSFIRFAEGLVQRTP
+VVRTIYSGIKQISETIFAQSERSFETACMVEYPRKGAWALGFISIPAKGEISRRPGDDTN
+LVGVFVPTTPNPTSGFLLFFPQKDIIELDMSVEDAAKLVISAGLVYPPERPVPVEKADDT
+LPKQTHR
+>tr|B7RKN2|B7RKN2_9RHOB
+MAGEETHAEEDDRANPALSDISREETPMNMKLKLTTVALGVTLAAGPAMAELVFPSLSYR
+TGPYAANGIPFADGYADYFTLLNERDGGIGGEAIRMIECETGYNTEKGVECYESTKGEGA
+LVYQPLSTGITYQLIPKATADGIPVHSMGYGRTSAKDGSVFKNIFNYPANYWDGASVAIK
+HLLDVNGGSLEGKKIALVYHNSAYGKEPIRTLEELSKKHGFELSLLPIDHPGQEQKSQWL
+QIRREKPDNVIMYGWGVMNQVAIQEAANIRYPMDQFIGIWWSGSENDVRPAGDAANGYKA
+LTFHNVGDDFPVFDDIQKFVVDAGKAAGAGDQIGTALYNRGLYAAMLAAEAAKTAQGMHN
+TTTLTPAQMRDGMEALEITEAKMADLGLPNFGPEFKVSCENHGGNGFVAVSQWDAAADSW
+SLITDYVQSDQDILGPLVTEDAAAFAAESGITPGC
+>tr|B7RLZ8|B7RLZ8_9RHOB
+MAYETITVDIDNHVALVTLNRPDAMNALNDQLMTELADAMKAAQENEKVRCIVITGSEKA
+FAAGADIAMMRDKSFVDVFAGDLFTPETDQIMRVRKPIIAAVSGYALGGGCELAMMCDFI
+ICSETAKFGQPEINLGVVAGIGGTQRLTRAIGKSKAMDMNLTGRFMDATEAERAGLVSRV
+VPVKKLMEEAMAAASKIAEKSMITTMVVKEAVNRAFEVPLREGLLFERRVFHSLFATEDQ
+KEGMSAFLEKREAQFRDK
+>tr|B7RGI8|B7RGI8_9RHOB
+MAPVAADDRPTVLSVRNLDISVRSDAGIQPLVQNLSFDLKRGETLAIAGESGSGKSLTSL
+AIMGLLPPPAVHVAGGEILFDGQDLTRLPEHKMQHLRGDRIAMIFQEPMTALNPVMRIGD
+QLTEAIRAHEPMSARAARARALEALQAVRLTEPERRLKQYPHELSGGMRQRVVIAIAIAL
+RPDVMIADEPTTALDVTVQRDVLDLLRELATEMGMALILITHDMGVVAEMADRVLVMQSG
+RQVEEASVLDLFGAPQQPYTQHLLASVPRMGQGRERGVDTKARPLVSVRDLRVTYDLRGG
+ILDRVQARVHAVEKINFDIYAGETFAVVGESGCGKSTVARALTGLVPHEGVIQFEGKPLL
+RDRASQLANTRAMQMVFQDPMAALNGRMTVGDLVREPLVIHGIGTAQSRTDRATELFERV
+GLGPEVLDRYPHEFSGGQRQRICIARALALSPKLIIADESVSALDVSVQATVLDLLEELK
+AEFGMSYLFISHDMAVVENIADRVAVMYLGQIVEIGSSAQVFGNPQHAYTRRLIAAAPYP
+DPRRVIPARARSNSELKSPVMPVGQSPEIVSYRSLGDGHLVAV
+>tr|B7RKD7|B7RKD7_9RHOB
+MFNSIMARLAFILGAMVAMTAAAIVISWMIFQSIDESMTALTNDRLPELRATAVVKEAAD
+QTRRLLSDLLIVETEAAWEGKKGEVASLMTSFSDALAQLPASDTDVEASNLSKVEQSLAN
+LLVARETELRTAQDLAAMVESAFALATSVSVVLEEASDAALFDMSLRGEETITVIDETLS
+KLVEDDFNMYQTVLEIRADVGLLSGLALTMSQTYSSGLKSIVTDLATSSISRLRTKADEN
+AGTLEFAELLPALINATDIFESAFTETGIAANSNDILAARLEVDRVLSPALDDIHFNLIL
+GTDDAKTANSQSIDTLLNVEVKGMREKAQLDAATKQFFATILTAALARSEAELSQRQSEL
+TAESALIQELASKESAQMAELVNQLIAFASVDSGIAKLRRQSFSAVAAASLAAKNAAAAV
+DAIALETSVFSDLALEQIALTATTLQSDVDGAGLQLGKIALISVLLGLAAPVLVWAMVTR
+PLNRVTSVTERLASGDLSEIRGLRQGSGELGRLASALHVFRDGALKTIALQEEEKRRDQA
+AIEAEREAERLRQEDEKRQKDETAERERLESERKALEAEKTQKAQAMIEAERKERMQEQE
+TIVSALAQGLTHLSAGDLTYQIKTEFPGPYEALRQDFNTAVSQLAEHIIRLRESSAIIED
+SSAHLAMASGDLGRRTETNAATLEKVANAIRELANSVSISAEGATSADVAARGVEQDAAI
+SRDVVMETTSAMAEVEMSFSKIISIVDVIDSIAFQTNLLALNAGVEAARAGQAGQGFAVV
+ASEVRSLAQRCTEAASEINAVVKETNETVERGVALTSKADVSIATILEGIGRVSKAMNTI
+ALSATEQSKNVSDVNEAVTRLDQSTQKNAAMFEETAATNQSLAQEAKALTNIVSAFQTTA
+ESGNVNQIAKHKRSSVA
+>tr|B7RKN3|B7RKN3_9RHOB
+MLYRESGDFSSTYAEDSQTFPIKFDRYRYYFVLFVAIAVIPFMINDYWVNSLFLPFLIYA
+IAAIGLNILVGYCGQVSLGTGGFMAVGAYACYKLMTSFPDVSMLIHVLLAGLITAAVGVL
+FGLPSLRIKGFYLAVATLAAQFFLVWLFNRVPWFYNYSASGQISAPERTFLGVNITGANT
+QAWATYLFCLMFVIFSAYVARNLTRGSVGRKWMAIRDMDIAAEIIGVNPLRAKLTAFAIS
+SFFIGISGALFFSIYLGAVEVGEAFGIQKSFLVLFMIIIGGLGSIFGSFAGAAFLVLLPV
+VLKIVGVDWLGWPTDIVAHLQLVIVGGLIIVFLIAEPHGLAQLWRVAKEKLRLWPFPH
+>tr|B7RLH1|B7RLH1_9RHOB
+MGPLGWIVLLGVLGVMMIGMTVIMLMRQPQDPMAKLKRSQTEPSERPSQQRLRQSDRNEQ
+LQKFAKFLEPENLDELTAKQLMLRQAGYSSRDAVRFFHFAQMALGIGGLVFGIVYVNFLG
+GGEGLTTQKMMMYTVGPGGIGYYLPKYWVTKRVEKRKEEITRGFPDALDMMLVCVEAGQS
+LDQSIVRVAKELHASYPALAEEFEVVAYEMKAGKDKVGVLTDMGDRCGVQDVSSFVTVLC
+QSAAFGTSISDALRVYAEEMRDKRVMRAEEAANKLPTKMTLATMMLTVPPLLIILVAPSV
+MNITKLGN
+>tr|B7RLR4|B7RLR4_9RHOB
+MPAHDLDLLIDCARKAGQIALGFSGQTAKRWDKADGAGPVTEADLAVNAMLHADLIAARP
+DYGWLSEESEDGARRLSQSEVFIIDPIDGTRSFIEGSDTWSHSLAVAQNGQITAAVVFLP
+MLDRLFAASLGGGATLNGEKISASETRGLTNATVLATKPVMAEQHWQGDPGFKRAHRPSL
+AYRLGLVGQGRFDAMVTLRKSWEWDIAAGALIVTEAGGLCTDKTGGPLRFNNADPRLNGV
+LAGGASVHADILSSLAPA
+>tr|B7RME4|B7RME4_9RHOB
+MSTNTRFDKSKLPSRHVTEGPERAPHRSYYYAMGMTEEEIHQPLVGVATCWNEAAPCNIS
+LNRQAQAVKAGVRTQQGTPREFTTITVTDGIAMGHEGMRSSLASREAIADTVELTMRGHC
+YDAIVGLAGCDKSLPGMMMAMIRLNVPSVFLYGGSILPGKAPAGADVPADFASRDLTVQD
+MFEAVGNFQNGTMSAAALEILERVACPSAGACGGQFTANTMACVSEAIGLALMNSSGMPA
+PYESRDAYAEASGEAVMNLIEKNIRARDICTREAFENAARIVACTGGSTNAGLHLPAMAH
+EAGIDFFLDDVCEIFRDTPYFVDMKPGGSHVAKDLYDAGGVPVVMKELRKAGLLHTDCIT
+ASGRSIGEELDMIEREADGKVIHPISTPISKTGGVVGLKGNLAPEGAIVKIAGMSEEDIV
+FTGPALIFECEQDAFEAVQNRAYKEGDVFVIRNEGPAGGPGMREMLATTAALSGQGMGKK
+VALITDGRFSGATRGFCVGHVGPEAAHGGPIALLKEGDMITLNAIEGTISVDVSDAEMAE
+RKAAWPGARKTNYQSGALWKYAQLVGPTYLGAVTHPGAKPKPMTTWTFKGPLAALALLTL
+IGCEAGQGAKLAPGASSGAGQQAARPLSRTQMAGGVVLVAPSGFCIDRTSLEPRFAVMAR
+CDGLGVAPTGGGAAPRGLITVSLTKRKAGSLPTAAQIATASQLAVVDTVEESQDQVTFRA
+QGRIPVSGLSATQWRGVAHIGGQTAGIAVYGPERSEIVTKIGRAIMHQMINRSIEATPKP
+VQTPAKRN
+>tr|B7RLT9|B7RLT9_9RHOB
+MLGKWWKRPKVVPEVQFGPLEPEGNVIAIGDIHGRFDLLNKFAATTTAAQIICLGDMIDR
+GEQSADVLRTLHELPDVISLMGNHEDMMLQFIVNPVEKGERWLRHGGLQTLASFGVSGVS
+QTSTGGELERARDKLFAAMGEDLIDWVANLPKYWTSGNVAFVHAGADPLIAIEEQENRTL
+LWGHKDFGRVPRADGMWVVHGHTIVDTPVIRRGVVSIDTGAYATGNLTAATILKGDVSFT
+YA
+>tr|B7RP48|B7RP48_9RHOB
+MPDPKLPPQDPLARRVGHYLTNAVIVGLIRFALLIPYRARLAFVGRFVQHVLGPVAGYSR
+RAQDNIKMIWPDLPASRRNQIVSKCLNNVGRSFIENYSAQEFPARMAQNTPTGAGVAALE
+AAVAKGQPVILVTGHYGNYEATRACLVARGLDIGGLYRDMKNPYFNAHYVKTMEAFGGPV
+FPQGRRGTAGFVRHLKQGGQLVLLFDQHVFGAPPLDFLGQPANTALSAAELALRYDALLI
+PFYGIRQPDGVSFETVLEAPIPHSDPMTMTQCLNDSLAARIRSDPEQWFWVHRRWRIHDN
+>tr|B7RQA0|B7RQA0_9RHOB
+MTLSIQNLAVARGGVPVLGNVSFAIAPGQALILRGPNGAGKTTLLRTIAGLQKPLSGVIE
+GADETIAYAGHADGLKAMLSVAENLQFWAQVFGHSDIEAALAAYQLGPLIDRLAGTLSAG
+QKRRLGLARLMVTGRRVWVLDEPTVSLDADAVAMFAAAVTAHLGAGGMALIATHIDLGLN
+AQTFDITPYRATADTRSGASDEAFL
+>tr|B7RG17|B7RG17_9RHOB
+MLSRLLPHPLLTILLSLVWCLLVNEIKLGTVVFGVILGLLIPIATAAYWPDRPMFSRPWK
+MIGYMVLVLWDILVANVVVAMIVLFKSNKNMRPQWVVIPLDLRKPEAITMLAGTITLTPG
+TVSADLSEDGRTLLVHALDADDPDAVRDDIKQRYERRIKEIFE
+>tr|B7RGU2|B7RGU2_9RHOB
+MQVSVRDNNVDQALRALKKKLQREGVFREMKLKQHFEKPSEKRVRQQAEAIRRSRKLARK
+KLQREGMM
+>tr|B7RJ86|B7RJ86_9RHOB
+MTFDRSIKIAPSILAADFANFGAECAAVEAQGADWVHVDVMDGHFVPNISFGPTTCAAIR
+PHIKGIMDVHLMIAPVDPYIDAFAQAGADFITAHVEAGPHIHRTLQAIRGAGAKAGVALN
+PGTPASAVEHLLDITDLVCVMTVNPGFGGQKFIDMTDKIKTLRAMIGDRPVHIEIDGGVD
+VNTAPTVAKAGADVLVAGSAVFRGGSVTNPGPYGDNIRAIREAASGVYV
+>tr|B7RKL4|B7RKL4_9RHOB
+MKHPQSSAQGKREKREAQDDILCPDCGQDAPSQTHVIE
+>tr|B7RLS6|B7RLS6_9RHOB
+MTNTSTNISTDQLAQIKRALPFALSFALIPLVWLTAYAGGWAVILVPLITWYLSSIVDSL
+LGLNLDNADPDATDEDLFWYRMIPLLWMPAQLVTLLAMLWYVPQADHLGGWERFFIFFGI
+GVMTGTIGINYSHELMHQKSKLERLWADILLAMVLYSHFRSEHLLVHHRYVATPRDPVTA
+HYNEGFHRFYPRVLRQSWKSAFRAEKAMLARKDRPWTHRKNPFFRYWALQGTFLMLALLL
+GGWAGLGLFLVQAGTAIWQLELVNYVEHYGLTRKHLGDGKYEHVQPHHSWNAAHRASNWL
+LINLQRHSDHHYKPDRRFPVLQTYGASAAPQLPYGYPVMTVMAMMPWVWRRVMNPRVRKW
+REMYYPEITDWTAYNKGTTPYPR
+>tr|B7RPF9|B7RPF9_9RHOB
+MTDRTEEATAQKGGRDLTKGPVWRALAAMTAPMSFGIFAVLSVGLADAYFLGQIGGTALA
+AVGFIYPVTTAITSLSIGLSAGANAALSQGVGRGDGDTATQRLGLHAIGLGFGLSALIAV
+LVWGGYPYIFQALGAGDAVAGRIAEYMPVWALSFPFLVTMMVTNAVFRAHGDSLTSSWIM
+VLAAVINVGLDPLLIFGLWGLPELGVQGAAMATLAGRVVAVALALFIAWRRGFLGWCGGL
+FDGIWTSTRKILNVGLPAAFSNAINPAGMALVTAAVATVGETAVAGFGAATRVQSMALVP
+LLALSAGIGPVVGQNWGADAKDRAQDATRYAFLFCLGYGALVAVVLGLFADPIAGIFTSG
+QEDRGYAATYLRFVGLSLFGYGIVVTANAAMNSRDKALWSMGLSLGRIFVLYLPLAWIGA
+LTLGYWGIVLAAVLANVLAAWGGLVAAKSTELLRTDSWVVDLPRRVTPLGKPD
+>tr|B7RR94|B7RR94_9RHOB
+MAVRLSDGGDDLAPNADINITPFIDVMLVLLIIFMVAAPLSTVDVNVELPVATGTPAPRP
+EEPVFVTIHQDLSLSVGEGDVSLEDLNMQLGMLTKLNLDTRIYINADRSVPYGEVMAVMN
+RMRSEGYLKIGLVGLEDEGSPSPAAPLAETPAKGASE
+>tr|B7RGS3|B7RGS3_9RHOB
+MSRTKGGVVTHARHKKVIKAAKGYYGRRKNTFKVARQAVDKANQYATRDRKNRKRNFRAL
+WIQRINAAVRSHDEALTYSRFINGLSLAGIEVDRKVLADLAVNEPESFGAIVKQAQDALA
+A
+>tr|B7RHH5|B7RHH5_9RHOB
+MAVYCAIKYYNTGSHTTMKILAATTALSLSLASSLSAAGCDEITFSDVGWTDITATTAAT
+TVVLQTLGYETDIKILSVPVTYTAMAAGDVDVFLGNWMPTMEADIAPYRDAGTVDTVRAN
+LNGAKYTLAVNKAAADMGITTFGAIAANADALDGTIYGIEPGNDGNRLIQSMIDANAFDL
+KDFEVKESSEQGMLAQVKRATAKGEPVVFLGWEPHPMNANFELTYLEGGDDYFGPDLGGA
+SVYTNTRAGYVAECPNVGKLLNNLEFTLAMENEIMGAILDDGQDPDEAATAWIKANPAVL
+ETWLAGVTTVDGGDAMAAAKSIVE
+>tr|B7RI53|B7RI53_9RHOB
+MRVTLAALALCLASGALAQQAADSVAPEAAGNGAFGAMSPDVTAAFAAKDAGKPVVADNW
+MVAAANPHAVKAGADVLAAGGTAADALVAVQTMLGLVEPQSSGLGGGAFLVWYDAASGKI
+TTLDGRETAPLAVTPRLFQDDQGAPLKFFDAVVGGRSVGTPGTPALLEAVHKRWGTQPWA
+DLLAPATAMAEKGFAVSSRLAALVADDAERLASSATTAAYFLPDGVPITAGMTLKNPDYA
+QTLSALAEGGAGAFYTGNIAADIVATVQGATGNPGVLSEVDLAIYQVKERAAVCAPYRAH
+EVCGMGPPSSGALAIGQILGLLEGYDLSAGPTDPDVLRLIGDASRLAFADRGRYVADTDY
+VPVPVQGMLDPAYLAERAKLLAGDDALPEVTPGKPAFDHALNWADDMAIELPSTSHISIV
+DSSGNVASMTTTIENGFGSRLMVRGFLLNNELTDFSFSSHVDGVPIANRVEPGKRPRSSM
+APTIVMQGGKPVLAVGSPGGSRIIGYVAGAIIAHIDWDMDVQQAAAMPHAINRFGTYDLE
+GETDMAEAVDALENLGYKTATRALTSGLHMISIGENLRGGADPRREGIALGE
+>tr|B7RLT1|B7RLT1_9RHOB
+MDIEYPLAKAHSVSMKRISLAVLISAAFGLAALPAQAAGCYADYKAKQENPLRLHYGVAQ
+ISGACDRAASQAELTQRLAAKGWTLLTVISVFGEDGLNQRRDSAGQNFLRF
+>tr|B7RJN0|B7RJN0_9RHOB
+MSCAEYKTLSAEDQLTVATMAIAEVDDGANGTSMESNAKATDSSTDVTASVATDGAAAET
+SLSDGEPKAVEATGGDTMASNETAEPMDEAALERFMLVCERNLDATVGEAAAGLEGTR
+>tr|B7RH46|B7RH46_9RHOB
+MPELDGGTVEQRGNQASTITSVLEVLAQRATTLERAAQAVLAMPPPTETTYTPISSADAV
+IKYARNFVPSWAGAIAIDLLPAVLVFILAITQTAIREGREGSAIEETLTLAELRAAVNAV
+RDMDAAMKGTADEGPVEPTAPPHEPPAHVTPIKST
+>tr|B7RJZ4|B7RJZ4_9RHOB
+MTLGRVNPQFRLEDQGISGLGDVYYNMIEPALVEAALKRGEGTLGKGGTLLVTTGKFTGR
+SPKDKHVVKTDSVADTIWWENNAAMSPEGFDALHKDMLAHMQGRDYFVQDLVGGADPKHA
+INVRMVTELAWHGLFIRHMLRRPERDALNDFIADFTVINCPSFSADPAKHDCRSETVIAM
+NFDKKMILIGGTEYAGENKKSVFTLLNYLLPGKGVMPMHCSANHATGNPVDTAVFFGLSG
+TGKTTLSADPGRTLIGDDEHGWSDNGTFNFEGGCYAKTINLSREAEPEIYATTEKFATVI
+ENMVFDEETKELDFNDDSLTANMRCAYPLHYISNASAKATGGHPKNIIMLTCDAFGVLPP
+IARLTPAQAMYHFLSGFTSKVAGTERGVTEPEPTFSTCFGAPFMPRRPEVYGNLLREKIA
+THGATCWLVNTGWTGGAYGTGSRMPIKATRALLTAALEGGLAGVEYRKDPNFGFDVPVAV
+TGVADILLDPRRTWDNPESYDRQATKLVNMFSANFEQYMAYIDDDVKAAAIG
+>tr|B7RLE7|B7RLE7_9RHOB
+MSWTDDRVEILKKMWGEGQSASQIAKELGGVTRNAVIGKVHRLGLSNRTATGAAAAPVAP
+APVAPKAEAKPKPAPKPEPKEEVEEVVAAPAPKPNLPARAKIIPAGQPLPPQPSANEISP
+EALAKVSEVEKKSKKIGLMDLTERTCKWPVGDPATDDFWFCGLPVQQGKPYCEAHVGVAF
+QPMSARRDRRR
+>tr|B7RPV7|B7RPV7_9RHOB
+MQTHILEGGFADHPQEASRSFRAVMTAMARPGTIHAVAGAQPPAPLSPAAGTVLLTLCDP
+ETPVFLAAGLDQPQVRDWITFHTGAPFGAAQDAMFAVGAWDQLPLAEFPQGTAEYPDRSA
+TLIVELPTLSNSGATLQGPGIKDRTQVSLPETRAFQDNARLFPLGLDFIFTSGDCLAAVP
+RTTRVS
+>tr|B7RQI0|B7RQI0_9RHOB
+MTELLIFVHLAILIGFTIRILLRDDLSPQARLAWFILIAALPYVGSAIYFLFGEIDLGHH
+ANKRHREVLDQIHSKAAPLFGTPAETDRLIDPLYSSAFRYAGSINGFHAVDGNRAELMAD
+AAETNARLIADIDAAQSHVYVLYYIWLDDTTGTDIARALIRAAERGVICRAMADGLGSRA
+FIRSSLWQRMKEAGVLTATALPLDNLIRTVLTSRIDLRNHRKITVIDSKITYCGSRNSAD
+PEFRIKARYAPWVDIMLRFEGAIVAQNELLFISDWMQPTGEKFEDFNVVPHAIQGGFPAQ
+VMGDGPTERRGATPQLFSALIACARETLTLSTPYFVPDATVYEALCSAAHRGVKVTLIFP
+KNNDSWVVAAASRSYYRKLLSAGCSIHEFTGGLLHAKTLTLDGCVTLIGSSNLDLRSFDL
+NYENNILLQDADITRAVRHRQDDYIASSDPVTLDEVKAWPRYRRIWNNTVATIGPVL
+>tr|B7RJI4|B7RJI4_9RHOB
+MSSKFNSFVVFAEMRTGSNFLETNLNAFQGITCHGEAFNPHFIGFPKSTDILGVDQETRD
+TNPDVLLAAIRTKSTGLGGFRYFHDHDPRVLDPILKDDRCAKIVLTRNPVESYVSWKIAQ
+ATGQWKLTDMKAHKAGQAVFDEGEFAAHLEALQEFQLMLLNRLQTSGQTAFYVAYEDLQS
+VDVMNGLARYLGVDEALEALDKSLKKQNPDHISTKVSNYDDMLKALGRLDRFDLTRTPNF
+EPRRGPVVPSYVAAAETPLLYLPLRSGPEPQVLDWMAALDGVKRNQLHSKMTQKNLRQWK
+RRNTGHRSFTVLRHPVDRAHDAFCRHIVTTGKGSYSQLRANLIRRYKLPLPEGEPDASYD
+ADAHRAAFKAFLVFLKGNLNGQTSIRVDQAWCTQAQALQGFGEFALPDRVIREADLAMDL
+LALAASVGQPEAPAVGSRPQTSPFELADIYDDEIEALTSDAYQRDYMIFGFDSWV
+>tr|B7RM26|B7RM26_9RHOB
+MQTLVIMVKEPRPGRVKTRLGRDLGMTAAAWWFRHQSRALIRRVQDPRWQVVLAVAPDRA
+GLTSRVWPAHLPRWPQGRGDLGHRMGRMLRAAPSGPVCVIGADIPGIRSAHIADAFRSLG
+NHDAVFGPAPDGGYWLIGLKRARPVPPTLFANVRWSSRHALADTIATLPDHRIAQIDTLQ
+DVDTIDDLPMTKRGARAT
+>tr|B7RRD0|B7RRD0_9RHOB
+MAGSSQKFIARNRAPRVQIEYDVELYGAEKKVQLPFVMGVMSDLAGKSEVAQPAVADRKF
+LEIDVDNFSDRMKSMAPRTAFTVPNTLTGEGNMAVDITFQSMDDFSPAAIANKVEPLKEL
+LDARTQLSNLMTYMDGKTGAEELIAKITQDPTLLKTLAAQPAPKADSENQE
+>tr|B7RI35|B7RI35_9RHOB
+MAHTPRFIHLRTHSEYSLLEGALRLKKLPDLCKSAGMPAMALTDTNNMFAALEFSIAMSG
+AGVQPIIGCQVDLAYVQAQPGEKPRLPAPVVLLAQSEPGYENLMKLNSCLYIDKGGALPE
+VTLDQLESLSAGIICLTGGAGGPVGQLLQTGQAPAAEALMKRLHGAFGDRLYVELQRHPG
+ENGQPEAERLTERGFVEMAYAMGIPLVATNDVYFPKTSMYEAHDALICIADGAYVDQQQD
+RRRLTAQHYFKSQSEMVTLFADLPEAIDNTVEIAKRCAFMAYRRDPILPKFADDEIEELK
+RQAHEGLKNRLKVIPHATSVEDYEKRLDFELGIIEGMGFPGYFLIVADFIKWAKDHDIPV
+GPGRGSGAGSLVAYALTITDLDPLRYQLLFERFLNPERVSMPDFDIDFCMDRREEVIQYV
+QRKYGRDKVGQIITFGALLSKAAVRDIGRVLQMPYGQVDRLSKMIPVEGVKPVSIEKALA
+DEPRLRDEARNEEVVARLLDYGQQVEGLLRNASTHAAGVVIGDRPLDRLVPLYQDPRSDM
+PATQFNMKWVEQAGLVKFDFLGLKTLTVIQNAVDQIKSSGRHLHIAADGTELFAPPEGLI
+DDIATIPLDDEASYKLYASAKTVAVFQVESSGMMDALKRMKPTCIEDIVALVALYRPGPM
+ENIPTYCEVKNGIKERESVHPSIDHILEETQGIIVYQEQVMQIAQVMAGYSLGGADLLRR
+AMGKKIAEEMAKERPKFEKGAMANGVDKKKASEVFDLLEKFANYGFNKSHAAAYAVVSYQ
+TAWLKANHPVEFMAGVMNCDIHLTDKLAVYFEEVRKRLELPWVPPCVNRSDAMFKVVEGA
+LVYALGALKNVGVEAMKLITQGRKIEGVDRPFATLFDLARRVDLKRVGKRPLEMLARSGA
+FDQLDNNRRRVWNALDGLVSYSAAIHEQKASNQVSLFGEAGDDLPEPRILPCDDWEAAER
+LTEEFKAVGFYLSGHPLDDYMGPMKRKSASGGVPFLTLDELTEKVSIKGAMNARLAGVVA
+GRQERKSARGNRFAFAQLSDPTGAYEVTLFSDTLELARDHLETGSKVVVMVEATMESDQL
+KLLGRSVAAIDDVVADAGNMGLRIFVQEAAAIQAVADVLAGARSAAKSAGKGPIQLCLID
+PSLPGEVEVDLCSEYPMTPKIKGAIRSLSGVMEVEEI
+>tr|B7RL47|B7RL47_9RHOB
+MTTTDMSEAALRRSLPVFVNSFNQLTYLRDTVNWLHEHGFRNITVLDNASCYAPLLAYFE
+TDSFKSRATLVALGDNIGPRRSLLEAQRRIEPNAAFIFTDPDFLLPTPPDPLFMTRMFDW
+GRRFEKIKVGLALDVSESEDFKDIRLSAAFNNRTIREWERKFWRHALEENVYAAAVDTTF
+FLHVPSDDPGTRTLAEYGKRQARVPALRIAGPGFIAKHRPWYVDDGQSEEERTFYINQVS
+KLATWSNDAKKAIAANPDDQSDKTGA
+>tr|B7RPE7|B7RPE7_9RHOB
+MKVVLSTWLALSFTTYALAGDAVIPHPMIGPDAATTTVSEGIAAQSGPVVQGDPATGAAP
+ARRFAVSPPARSGNLPRTQFQHMQGHALWTRAALSALKGHGAPLVDMVPADIAAWCPAYP
+EADDAGRRAFWVGFMSALAKYESTHKPWAVGGGGLWYGLLQILPATARNYNCNVGTGEAL
+KNGAANLSCAVRIMAVTVPRDGVIYGKGGRGVAADWGPMRSPAKRAAMAGWLKRQNYCKP
+LGATRPKARP
+>tr|B7RKI6|B7RKI6_9RHOB
+MTIQHLVTHSGGFHADELLSSVILTRLFPDAQLVRTRDKDWITPAQDRIIYDLGGQFDAG
+LQIFDHHQRPNPLRENGQPFSAFGLIWAHYGRDYLRAMDVPDQDIEAIHTSFDRGFVVPV
+DLIDNGAINASEAGPLFAGLTLPVLLETLKPVFDDREDGADDRAFAAALPIARAFVEAQI
+NRKAAKNRAEAMVMAAITAAGDRHVLELPMGMPFRAGVENAGADHLLFVVHPRGADWALT
+TIRTGDDTFDTRADLPAAWAGLTDTALEDASGVKGAKFCHNGRFIAVASSRDAVLQMAEL
+AVTEALAE
+>tr|B7RQG1|B7RQG1_9RHOB
+MTNTKQNTPEDAAAANPNAVSVRIQPKAMAKAKFQRRHDFRIGKQPAYVDEDRTELNRHL
+MELRPLPDIQRENEALRKRAGRTRKIKSNAAVVTVGIVTFGQRAQEVFNRLPVEMQDRAF
+RELAQEIAAKLKTSLEALVVHLDETAIHAHFTMRAYNDDGEPISNATRLGDMSALQDLAA
+EVMQRYAPEIERGKKKQARLEAGAKYSDTFHRTVKQLHQDLPREKAALEAEIATMSQEIN
+EQKASVAKTQRHLQTLEAKAVLTEKEIKRKETYSKRLEKKQAAMAADMEQLEARRVALEA
+AMAQKAEAIEVVQQAVRTERQEVQAQMNAVRAAKETYERGAKAIEAVLTEAENETLVYDP
+DTGKTTMQDPTPLKGTPQKLRAQIVKLAKRIAFVESNLFARIFRLDEQISRIRAFLTRND
+LPPEVKNEAQEIIDDPAGEEPGLG
+>tr|B7RLM3|B7RLM3_9RHOB
+MHPTISKMIDVVAKGEADKIAPLLAEGVRFMPPTYYKTWTGRAPVAAVLGHVGQVFGDFK
+YRRIMGEGNDWALEFQCRIGDLDAVGVDLITLDEDGLIALFEVAMRPHKSIGALRDAMND
+RVMKDPSFLAFKDALS
+>tr|B7RQ64|B7RQ64_9RHOB
+MKLIEYADREALAEAVAEILAAEVKAALMADGQVSLAVPGGTTPGPIFDRLSTADLDWSR
+VQVMLTDERWVAPDHDMSNARLLRQRLLVGPAAAAQFTPLFIEGLTAVEASEDLSAEISR
+HLPISVLVLGMGADMHTASLFPGSDGLAAAMADDAPAVCPINVAGQDVGRITLSRRVLDS
+AMSKHLVIFGDEKRAAVERALTLPAHEAPIGAMVKEAVVHWAA
+>tr|B7RL51|B7RL51_9RHOB
+MNQELTNNPFNPVAPMKTFDEIKVSLASPERILSWSFGEIKKPETINYRTFKPERDGLFC
+ARIFGPIKDYECLCGKYKRMKYRGVVCEKCGVEVTLQKVRRERMGHIELASPVAHIWFLK
+SLPSRIGLMLDMTLRDLERVLYFENYVVIEPGLTDLTYGQMMTEEEFMDAQDAYGMDAFT
+ANIGAEAIREMLAAIDLEAEADTLRADLKEATGELKPKKIIKRLKVVESFLESGNRPEWM
+VMTVIPVIPPELRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLIELRAPDIIVRNEKR
+MLQESVDALFDNGRRGRVITGANKRPLKSLSDMLKGKQGRFRQNLLGKRVDFSGRSVIVT
+GPELKLHQCGLPKKMALELFKPFIYSRLEAKGLSSTVKQAKKLVEKERPEVWDILDEVIR
+EHPVMLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCSAFNADFDGDQMAVHVPLSLEAQ
+LEARVLMMSTNNVLSPANGAPIIVPSQDMILGLYYTTLERDGMVGEGMVFGSVDEVQQAL
+DAGVVHLHSKIKARIKQIDGEGNEVYKRFDTTPGRIRLGALLPLNAKAPFDLVNRLLRKK
+EVQQVIDTVYRYCGQKESVIFCDQIMTMGFREAFKAGISFGKDDMLIPDSKWPLVEETRD
+QVKDFEQQYMDGLITQGEKYNKVVDAWSKCNDKVTDAMMGAISATTYGENGSENEPNSVY
+MMAHSGARGSVTQMKQLGGMRGLMAKPNGDIIETPIISNFKEGLTVLEYFNSTHGARKGL
+SDTALKTANSGYLTRRLVDVAQDCIVRMHDCGTDVAITAEAAVNDGEVVSSLAERLLGRV
+AAEDILRPGTDEVLVPAQTIIDERLADIVDEAVVLSARIRSPLTCEAEEGVCAMCYGRDL
+ARGTLVNQGEAVGIIAAQSIGEPGTQLTMRTFHIGGVAQGGQQSFLEASQPGKVVFENAM
+TLENAAGDIMVMGRNMKLSIVDDNGDERANHKVGYGTKLFVKEGQSVLRGDKLFEWDPYT
+LPIIAEKSGVTKFVDLVSGIAVKDETDDATGMTQKIVIDWRAAPKGNELKPEVMILDADG
+EPVRNDAGNPVTYPMSVDAVLSVEDQTEIKAGDIVARIPREGAKTKDITGGLPRVAELFE
+ARRPKDHAIIAEIDGYVRYGKDYKNKRRISIESSEDPDYKVEYMVPKGKHIPVAEGDFVQ
+KGDYIMDGNPAPHDILAIMGVEALADYMIDEVQDVYRLQGVKINDKHIEVIVRQMLQKWE
+VQDSGDTTLLKGEHVDKQEFDQACEKAISKGGRPATGEPILLGITKASLQTRSFISAASF
+QETTRVLTEASVQGKRDKLVGLKENVIVGRLIPAGTGGATQQMRKVAFDRDNVVIEARRE
+EAEIAARLAAPAVTSDDVVGGDVFNTVNDDDESRS
+>tr|B7RRT2|B7RRT2_9RHOB
+MMVLDLARCDWVERRENVIALGPSGTGKTHIALGLGLAACQKGMPVAFVTAASLVNELME
+ARDEKRLLRLQRQLAKVSLLIIDELGFVPLSKTGAELLFELISQRYERGSTLITSNLPFE
+EWTETFGTERLTGALLDRLTHHVNILEMNGESYRLNQSKSKRTKT
+>tr|B7RHG9|B7RHG9_9RHOB
+MKPSHHSLKSILLSTALAALAAPVLASDHRDAPDTIAAPQSDIGDVFLFKGAETGGLAMA
+MTLNPLAGSGLEGTSDPSEITLSPDLIYIFNFDEDVDAIADLAYKIKVGAGDGGQQQPVE
+LRVATGADARDGMWTGTPHGSGLTTALNAPLQVVKGKMDELLFIGPRRDPFFFDFLTVDA
+PVALAITEALAGGDHLPAEASSQKAFGETDMTLIVLEVPGLQDKKLNYWVTVADGKGKTV
+DRVGRAGIQGIYLVDAPAGYNPEYYVPRNSAKYPTIGDLNRAYNASTPDQDSANYSEQFT
+YRFQQLEVVKADVAKKVAFYLPDMLLWDPSQPEGYPNGRNLREDAIYWTLEDLNPFLQPG
+DGVVLPKTSVQPLSDRFPYVAPSTHQDYTDGNTKEPTVPIYME
+>tr|B7RKN9|B7RKN9_9RHOB
+MEGRISPPSSLGQVTAASLRDTAAQAEIWCIGAPPVACMILTEKPGRLYLGKVCVAPAHQ
+RLGLARHLIDHATARARALRLPVLELQTRIELEDNHATFRALGFTEHARTAHTGFDHPTS
+ITLRKPVP
+>tr|B7RSB8|B7RSB8_9RHOB
+MFVAGYGGGFQSFMEEQVLPPFEKANNVKITYVAGRSSETVAKLQAQQGNQEMNVVIVDD
+GPMFQAVQFGYCAPVEDAPVYADIHDFAKPEIYDGKAIGIGLVATGITYNAETFEANGWD
+VPTSWNDLTDPKFVQRFAASPIGGTYGLHTLVMFARMNGGSETDIQPGFEAIKAKLVPNV
+LSWTSSNDQLAQMFQNKDIDIAVWGSARAADLQKSGVPVEFVYPEEGAPTLAVTACAVVD
+NSLPEQSQALLQYLVSDKVQVMLASYGYGPTNSMTKVDDDVAAHLPYGKEKLQSS
+>tr|B7RGK8|B7RGK8_9RHOB
+MTDHDTSPAGSKGLEQVAIDGATPAELISGPARWVVVIGTLLSLVLVINQLFNIQLMGLV
+LIEGRYLYVLGGLFLALSFLIFQMRGGKGGTPSWLDWLLFALSVVCTAYLAQTAQQNLSQ
+GWEYAAPELAQYVSVVFFFLILEATRRAGGLVLFIIVTVFAFYPTFAGQVPDPFSGFQST
+FMQTVPYHIYSAESSFGIPMKAFGGVVIGFILFGAVLQRTGGGQFFNDLALGLVGGYRGG
+AAKVSIFASGFMGSMSGSVISNVLTTGAVSIPAMRKTGFSAKTAAATEACASTGGVLMPP
+IMGATAFVMASFLSRPYVEIALAAAIPSLLFYWGLFTQIDAYSAKRGLRGLPKPDLPRLR
+AVMIEGWPYIFVFALLLYMMIGLRQESSAPFYATALLLVVNQFRASHRLNITRLGNMIVG
+VGMGLAELTAILLGVGLIVGSFSATGLAGTLVNELVFIAGDNTLVLLLMGAVTAFIFGMG
+MTVTACYIFLAVVLAPALEAGGLNQLAVHLFILYWGMVSYITPPVALGAFAASTMAGSNP
+IATGFEAMRLGGVIYIAPFFFVLNPALIGQAPAWEITVALSCALIGVAMISSALQGYVSL
+VGPLDGGAGLPLRIMLFFGGVLIAMPQNNLANLGYALSFAIGAALCALPMFVAWRANAVD
+PRHA
+>tr|B7RPY1|B7RPY1_9RHOB
+MISALITGTASLAGIMVLMLVAHVTIDVVMRFAFQTPLNSTILYVSAFYMVAIAFLPLAA
+VEQRDGHIAVELLVERFPTKLQSFLAGLALLLTCIVTATVAIRTGDEALAKYLGGSFSIE
+AGGKVATWPTYLPLPIGFGLMSIVAGWKFICMVTGRAHGLDALRIEDPYLSDGDAQ
+>tr|B7RHJ8|B7RHJ8_9RHOB
+MYGVYAEIYGVREEEKFYVAESLLEATTWLMFKKGLCSNEAVEATNFFAKAA
+>tr|B7RHL9|B7RHL9_9RHOB
+MTPTPRTFSHIGLSVPDLDKAIKFYGDVLGFYVIMPPTEIIEDDSDIGQMCTDVFGPGWG
+RLRIAHLATADRIGFELFEFEGHHAPAENLNFRQNGTFHFAIQDPNLEDLLAKIVAAGGK
+QRMPVREYFPDEKPYRMVYVEDPFGIVFELYSHSYELTYSAGAYS
+>tr|B7RIK7|B7RIK7_9RHOB
+MTKLLHVDDDDDIREVTKIALEIFDDFELMQCASGEEALRAVGEFIPDVLLLDVMMPGLT
+GPQTLEKIRMMPGLAEVPVIFLTARTATDENKELWDLGALEVMNKPFDPMLLSQQIKTAL
+DRLS
+>tr|B7RIY2|B7RIY2_9RHOB
+MAKPTTIKIRLNSSAGTGHFYVTKKNARTMTEKMVIKKYDPVIRKHVEYKEGKIK
+>tr|B7RK99|B7RK99_9RHOB
+MTALSHIRNFSIVAHIDHGKSTLADRLIQETNTVALRDMKEQMLDSMDIERERGITIKAQ
+TVRIDYTALNGENYVLNLIDTPGHVDFAYEVSRSMRAVEGSLLVVDSTQGVEAQTLANVY
+HALDADHEIVPVLNKIDLPATDCDRVAEQIEDVIGIDASEAIRVSAKTGVGIIETLEAVV
+HRLPPPKGTLDAPLKAMLVDSWYDSYLGVIVLVRIMDGQLKKGDRIRMMQNGSVHHVDRI
+GVFRPAMTEIDVLGPGDIGFLTASIKQVRDTRVGDTITHEKKGCDKALPGFKPAQPVVFC
+GLFPVDAAEFEDLRDSIEKLALNDASFSFEMETSAALGFGFRCGFLGLLHLEVIRDRIER
+EYDIDLITTAPSVIYDIHMKDGTVTQLHNPADMVDLTFVDHIEEPRIKATILVPDDYLGD
+VLKLCQDRRGIQLDLTYAGSRAMVVYDLPLNEVVFDFYDRLKSVTKGYASFDYQMIGYRQ
+DNLVKMSILVNDEPVDALSTMVHRDRAETRGRAMVEKLKDLIPRHMFKIPIQAAIGGKVI
+ARETLSAMRKDVTAKCYGGDASRKRKLLDKQKAGKKKMRQFGKVDIPQEAFISALKMDG
+>tr|B7RQR7|B7RQR7_9RHOB
+MKKMLMATTAAALLATNAFADAHSKEVKLGIVFGFTGPIESLTGPMASGAEMAMKEVTDS
+GKLMGGAKVTALRADSGCIDNALAVAGAERLVAEGINGLIGADCSGVTGAVLQNVAIPNG
+IAMISPSATSPGLSTMDDNGLFFRTSPSDAREGEVMAEILQERGVKSIALTYTNNDYGKG
+LADAIQTSFESIGGEVTIVAAHEDGKADYSAEVGALASAGGEILVVAGYLDQGGPGIINA
+ALDTGAFDTFGLPGGMIGDTLPGRIGDDLNGSYGQIAGSEGQGIEVFTKMAEDGGFNGTS
+PYTPESYDAAALFLLAMQAANSTDPAEYGPKILDVANAPGEKIYPGELAKALELIAAGTD
+VDYVGASAVELIGPGESAGTYRMIEVKDGKIETIGFK
+>tr|B7RH53|B7RH53_9RHOB
+MAGGWAKDGAVSEQIEASINDELARLKARKALQGESLTHCAECEEPIPEARRVALPGVKL
+CIDCVNERDNRPDRRGGINRRGSKDSQLK
+>tr|B7RHY1|B7RHY1_9RHOB
+MLGRGIDQIQPQSCDPRLFEGYVTSAQDYVTLAERASGTIPRRVDPGYVWGDLLADLDAR
+DVDLRLVNLETAITSGGAHDPDKGIHYRMHPANVALLTAARIDGVTLANNHVLDWGQAGL
+ADTLASLDHAAILHAGAGRDDAEAFAPQYLPIAGGGRLVVLAVALEDAGIPLSWKAGPNH
+PGVAYLEPDEVVARVAAQLGQVRRPGDIFALSIHWGSNWGYPIAPVHRAIAEAVVAQGVD
+IVFGHSSHHPRAVVVRSGRLVLFGAGDLVNDYEGIGGKDGFRPELVLGYVADIRRDTGAL
+MALEMLPYRLHRFRLERADEEGRGWLARRMDHEARLSGGRVVETPERTLRLEWDQDAAGP
+EGPFKRLSGH
+>tr|B7RKE4|B7RKE4_9RHOB
+MFDGMTAETLARMQFAFTVSFHIIFPAFSIGLASYLAVLNGLWLRTKDDRYLTLFNYWKK
+IFAVAFGMGVVSGIVMSYQFGTNWSVFSDKTGPVLGPLMAYEVLSAFFLEAGFLGIMLFG
+RKRVGDGLHMFATAMVAFGTLMSATWILSVNSWMQTPAGFSINELGQFVPEDWWQIVFNP
+SFPYRLVHMVLAAYLTTALVVGGVGGLHLLRNREDAPARRMFSMAMWMLIFVAPLQILAG
+DFHGINTLEHQPAKVMAMEGHYDSHPDGAPLILFGIPNPAEKRIDYAIQVPKLSSLILKH
+DLDAPLAGLDTIPDADEPPVAIIFWSFRVMVGLGFAMLGLGAWSVLRRMRGRLYEDRWLH
+RAAIVMGPMGFVAVLAGWITTEVGRQPFTVYGMLRTSDSLAPVAAPAVAASLTAFILVYF
+FIFGAGTFYLLRMMNSPAGAPVPGLKDGPIRTAGITPVQQVDPDATPGE
+>tr|B7RPZ5|B7RPZ5_9RHOB
+MRLEPIANPSFARSITPPVLAIIATVVIASLLAMLAGANPFSVLGLILKGAFGSQFALLE
+TLNRATPLIFTGLAIAVAFRAKFWNIGAEAQLYAGALVTVVLGTGALAWPGLALIPALAM
+GAVLAGAVVLLVPAILKTRFGVDEVVTTLLFNFIFLLFISMLLEGPLKDPMGMGWPKSAR
+LIPEARLPRIVDGLRLHWGFALSILCALAVWVIQTRSTLGYEMRAVGLNREAAAFAGIPV
+NTVLVKTALLSGGLAALAGFSEVAGLKGSLTLDLSPGFGYTGIIVAMLALLNPLGVIVSA
+LFVAGIFVGADSMSRAAGVPTYLADMMLATALLLMVLAILLTRFRVVRD
+>tr|B7RJQ4|B7RJQ4_9RHOB
+MIARLALIFWSVAGAACADPLFEDISTGLSDHQYTGGWEHFVGGGVSAFDCSADGRPDLV
+AAGGTSPMILLKNVSETGHIAFEPLPLAGEVTGVTGAYPIEIDGDGLLDLYIMRVGPDRV
+LQGGPDCSFTDVTASWNIPQTDQWTTAFTAWWDAGAQFPTLAVGHYVDRANPGGPFGTCD
+TQTILNPQDSNTPDYSPEVLSPGFCTLSMLASTDARGRNSLRISNDRHYYVSGGSEQLWD
+IEDRRFLTSEDGWDKVSLWGMGIASRDLNGDQRDELMLTSMGDQLMQIAQPDGRYSGAPY
+DIGTYAHNPYIKGDGRPSTGWHASFADVNNDGRADLFIAKGNVDQMPGMAMRDPNNLLIQ
+GKDGRFTEAGDVAGVADTARSRGAALTDFDGDGRLDLVVVNRRAPMRLYRNVTPDAGNAV
+KVLASSTDGNHFAIGARVIVTSDAGVQSQQITVGGGHGGAVAGPLHFGIAGAKTATVQVR
+WPDGTLSDIVHAPAGETVKITQPD
+>tr|B7RHW6|B7RHW6_9RHOB
+MSDQTTFRQGLLDPSRATPDGLKGPANAPAGKRYDVYRNNVTHSLIAALQTAFPLVRKIL
+GGQSFDSLAPIYVRAHPPKSPVMMQYGIDFPAFLETLPQLSKLGYLPDCARFDLALRGSY
+HAADAAPFDLAAFQTLPPDEMMAQRLPVAPATRILRSHWPLYDIWRFNTVADAPKPRPVA
+QDVMITRPQFDPEPHLLPPGAADWLDRLAQGDSVQAAHDATLTTTPEFDLAATLVVTLGK
+SAFCTDEGR
+>tr|B7RR89|B7RR89_9RHOB
+MAMGLVAAAAATFGLQANAESHGIDLAGKTVEWIIPFSETGGSAKWANFYAPLLSEALPG
+QPTVVVKFMPGAGSTKGANYFQEQTYEDGTLIFGSSGSTQFPYLLGDPRVKFEYSDWNVV
+LASGTGGVAYLPPELAAKMDGMNAAGLRDTDFIYGNQGATRLDLVPTLAWEMLGLNVESV
+MGIKGRGDGRLMFERGEANIDYQTSSSYLSGVTPLVEAGTAVPMMTWGSLNDAGDIVRDP
+TFPDIPTFKEVCEATEGCETSGEKWDAWKAFFIAGFPAQKMVFLPQGAPADAIATYTAAF
+EAVKARADFAEISGKRLGKYPQMTGKAAKTTMDSGTKVSPEAKAFIVNWLQEKYGVSLN
+>tr|B7RGD6|B7RGD6_9RHOB
+MSLIATHDLRLVLGGQTVLHGVNIAIDKGEIVTIVGPNGSGKSSLLRALIGALKPAGGTI
+TRSPGLRIGYVPQKLQIDPSLPLTVEGFLNLPRRQNRAVVETALHKAGVPDLAKQQMSSL
+SGGQFQRVLLARALLNMPDILILDEATQGLDQPGAAAFYRQIEDVRREMGCAVLMVSHDL
+HVVMAASDRVLCLNGHVCCEGTPEIVADAPEYRALFGTGTQGALALYRHEHTHSHDHDHH
+PGDH
+>tr|B7RN84|B7RN84_9RHOB
+MPTLPKPIFRSVIGLVLVAGLAACSGAARVQPTGINDPHEQSNRKVHAFNKKLAGSGNGG
+GIAKAVPVEFQTVIHNISENLSMPQVAVNSVLQGDVPGFTLASTRFLVNSVLGMGGIIDA
+ASEFKVPEHDTDFGETLYVWGVGEGPYYELPVIGPSTRRDVAGKVVDLFTNPLSYRLESP
+DSYVAPVTGFADRVFKNSRRSEVISDVLDGSADSYAQARLIYLQKRRYELSQRTGAPAVY
+DDPYAQ
+>tr|B7RSK1|B7RSK1_9RHOB
+MERVERSWYGLDASHIQAELLALRSAQIKMEEHYA
+>tr|B7RHR5|B7RHR5_9RHOB
+MARKGADMHGFRVLTHPCAGAGAALFFAVTHQKESDHVP
+>tr|B7RHS4|B7RHS4_9RHOB
+MSDPDPKRKTRTGGRAGAKNRRGTSVIEQMPWNPPVNIDRPTEPLTPEGVEAIHDGAMRI
+LEEIGIEFLNHEALEILRKAGCTVNGENVRMGRDFVMEWIAHAPSEFTLTPRNPDRQITI
+GGKHLVFGNVSSPPNYWDMSIGTKVPGTRAMCQDLLKLTQYFNCIHFAGGYPVEPVDIHA
+SVRHLDVLYDKLTITDKVMHAYSLGKERVEDVMEMVRIAGGLTHDEFDATPRMYTNINST
+SPLKHDIPMLDGWMRLARRGQGLVVTPFTLAGAMAPVTMSGAVAQSLAEALCAVVLAQII
+NPGAPCAIGTFTSNVDMKTGAPAFGTPEYMRATQMTGQLCRFYGLPMRSSGVCAANVPDG
+QAMWETSNSLWAAVQSGTNMVYHAAGWLEGGLIASPEKFIMDCEILQQIQRYMNPVICAT
+GPDEIALDAIKSVGNAGHFFGIQHTQDRYTDAFYQPFLSDWKNYEGWEVAGAIWTPERAH
+MMFKDIIANFEEPPMDVAIREELADFVARRKAEGGAPTDF
+>tr|B7RJ05|B7RJ05_9RHOB
+MTVNLYTLDEVVDLGCAKKIAKDLIHFIRTSSEPCLNASGLRQAGLPLLQLLVSARRYAE
+AEGKAMRIEAPEDGTLMTLLATFGLDPQQCAAEIVASSSVPSHELQSRGSEK
+>tr|B7RJG7|B7RJG7_9RHOB
+MRLICPNCDAQYEVPDEVMPRSGRDVQCSNCGQTWFQHHPDHMPEEDSDAAEDDDFFPGT
+TPQGTPAPVRKQLDPSVADILRQEAEAEQAARQSRQAETLESQPDLGLDSASETTESERA
+RQARDRMARLRGEEMRTAPEAKATAAAMGSRRDLLPDIEEINSTLRSDTARRNAAPAGDV
+ATAVGLDTPEERRGFSVGFLSIVVLATLLIMVYVFAPKIAAMAPGVDPYLSAYVAWVDNT
+RLWLDSQLQIALQWLDAKALESGS
+>tr|B7RQK0|B7RQK0_9RHOB
+MNWTNVENWTAHLHPDRWSGALIILALFIFLGLVLSRLIKHMIRMVVERDHDNRLDRMAI
+AFLSKVASAFVWIMILMFYAHMIPALDRLATALLASVSVASVVFGLAAQSTLSNFVAGFS
+LIFYRPFQLGDKLQINAPAGVETGIVEDVSLGYTILKTYDNRRVIISNSAISSTTMVNLS
+ARELRTMAIIPISIGYDADIDKARSLILEVASGISQIEDIAGCPITTLNSSSVDFSLRVW
+CADSGIAAGAKNEVLEAVKKRFDAAGIEIPYSYQNVVIKELPEHAQATPPVTSTTTATCD
+LPPRSGPVNEGGIGF
+>tr|B7RRP2|B7RRP2_9RHOB
+METVGKLYRGFLYAMAGIAGVMLVWLMISVITSVVMRNSGLQPFAWLFTSSEYAILYMTM
+LGAPWLVREKGHVHIELVTAALPTPVRRVVSRLVAALCVLVSLILAWKGAELFLGNIARN
+DLDVRAYYFPKWILTIAFPVSFGLMAIEFSRFVFGDDLMHSGEAGIHE
+>tr|B7RHN9|B7RHN9_9RHOB
+MTDHKLSNAQIAWRAAQDIHDGAYVNLGIGFPEKVAQYQPEGRQAIFHTENGILGFGPSP
+AAGQEDWDLINAGKRAVTLNPGASFFHHADSFAMVRGGHLDVAILGAYQVAQNGDLANWR
+VGAKGVPAVGGAMDLVHGAKRVAVITDHVTKDGAPKLVEKCIFPLTGLACVTRVYTSLAV
+VDIEGGRFVLREKLPQISLEDLQNLTDAELHITDPVIDLITPEL
+>tr|B7RK82|B7RK82_9RHOB
+MRIAVYGTLVAVALTALSGCELATGGSGGNYEVAGVEADDMLKMRAGPGIGYRVIVGLPN
+GTALRISSCQQTGGTRWCKASLNTSPGLEGYVSWAYLKEI
+>tr|B7RHS9|B7RHS9_9RHOB
+MEGFEDSFGTMKAIAEYFRDLASEDRFFGAEPAQPDAEMLAHIAQREISRRVEAREQNGK
+IVLSALKEDAAPPAPAPVVTSVTSAGVSVVSTSFAPRRPNEISQYYDAYRMNALKAHEPE
+AREPEQKAQAPKPVQPDAVAPEEAAPQSTTAPIEDVADAHMAAPIDLEPPSDGSARADSD
+LIPGQPDDEALAFFAESSTATPAVEDIVDEENVPDVAVEPKRDSIAAKLQRIRSVVSRQD
+AETATPDYTEDEHAEEEAPSAEAGEASPSIDKTNFVADAVHDIEDALEQDDASIKNVSDE
+NGDDDIEALLGRLDSAAEEDEAPEDSIAAMDDGTVEDDQPAENMFEDKAVEPSTAAPRGR
+VIKSNAATWTWRSQKATWKNMPPMMCRNRHLPARRTIRKTQRLRKLKPRAHRKSLRLKTG
+PNLRFRMRKKMNWPASWPRLKRRCWGGAKKRLPLHPLLCVASSRHLRLIRART
+>tr|B7RIK5|B7RIK5_9RHOB
+MPAVKRAAQSIVLKSAKAQVSPTMRTVPSDQAKFTVVIPKQHQPLTSQRHGDHRSGNVQL
+GAFGHNNPTGRVFKLVEWCFVISLGHAT
+>tr|B7RJF1|B7RJF1_9RHOB
+MSKITRPLRSVLYIPGSKDRALDKARGLPADAIIFDLEDAVIPEEKSAARETLAQALKDG
+GYGSRYKVIRINGLDTEWGADDARAAATMDCDAILLPKVGSPADLDALAAITGDIPLWAM
+METPGAMLNAAAIAAHPKLQCMVMGTNDLNKDLQTRVRADRLPLLTGLGLCVLAAKAYGI
+AIIDGVYNAFKDDKGHRVECDQGRDMGFDGKTLIHPAQLDVANEAFSPSEAEADLARRQI
+AAFDEMQATGQGVAVVDGRIVENLHVATARETLAKLDAIAALQAE
+>tr|B7RMQ5|B7RMQ5_9RHOB
+MEKGVEMSISGALSSAMQGLRAAGRGSEVIASNLSNALTPGYGVRSLELSADTTATHGGV
+KIDGVSRLVNESIVHDKRIAEAGQANASAILDLYIKIEDLLGAPDDPASLSAQTAQLEKN
+LITAASRPDAPERLSTVVASARILANTFNEASDGLQKVRTTADRTIELQVDQLNNALLQV
+QELNAQITKTQVQGNNSSGLLDLRQRVIDEISVLVPVRTVARDNGQVAIYSTGGAVLLDS
+LAAEIGFERSNLVTPYMSESAGTLSGLTINGIAFRTGSSSGVLSGGSIAAQFEIRDEIAV
+EAQAQIDALARDLVERFQDPAVDPGLAIGDAGLFTDEGNFFDPANENGLAQRLVLNAAVD
+PDQGGETWRLRDGINAAGPGDVGDATLLNNMISALSTGRVSSSGIFSGGSYSTIDLTSTL
+TSHYGAERLNAEQIQSFSATQVTELTERLLSEGVDSDQELQKLLLVEQAFAANARMVQAV
+DEMMQTLLRI
+>tr|B7RQ09|B7RQ09_9RHOB
+MENLSHILLIAGSAEAHEFAAQVAQTSQKLQAILRRAERSFGPLAVPSRIWTPGSLEAMK
+NFLTDEGITAICDAGHGFDSDVADLAAAAARDLALPYVRVMRPVWTIDPPALRAATVAEA
+AVMIRPGARVFAATGRGTVAEFAPFAGDTLFLRQTSAAARTPLPEFAEPVYGTPPFSIDE
+EIALFQRLGIDTLICRNVGGLPSRPKLEAAMRLGMRVIVIDRPAPPKKAHVLETADAAVG
+WITAL
+>tr|B7RP35|B7RP35_9RHOB
+MAFERLCSNRTNFPNLIFERCRHLEGEGCCLIVRSCLKLCGLKLRRARAGYDVPHTCASP
+SHARCGQEPAS
+>tr|B7RI70|B7RI70_9RHOB
+MIGHIFARLLWVLAVFSAGILGLIAVAIAINVALRNLGLPVIYGALDAIQYALMIATFMG
+APWVLAQGGHVKVDLITSALPPRTEQTVGRVTNLVGAVTAGILGWYGLQAAIASAARGSM
+IRTSFVIPEWWMLAFVPASMALCVIVFLRKVLQPDMPNAPLSGL
+>tr|B7RFU4|B7RFU4_9RHOB
+MILPAFSGAWPLSEFLAPRALLFAVLIECHVSLDLIQIA
+>tr|B7RFS1|B7RFS1_9RHOB
+MDFDPGTLKYNNAGLIPAIAQDAVSGEVLMMAWMNADAVSQTLSTGRVTYWSRSRQSFWI
+KGETSGHVQELVELRIDCDRDCLLVRVNQTGAACHTGRRTCFYTRVEDGVERITMEVQD
+>tr|B7RMI3|B7RMI3_9RHOB
+MKLTNKLMTGVATAAIAMTSALPALAAEKWDMPMAYSASNFHSENGMAFAKCVTDGTAGE
+IEITVHPGGSLIAGADIKRAIQTGQVQLGERLLSGHQNENPLFGFDSIPFLAPSFEDSDK
+LWKAAKPKIEELLAEQNLTLLYNVPWPPQGLYFKKDVNSVEDMKGVKFRSYNNATSRLAE
+LTGMLPVTIEAAELSQAFATGVAESMISSGATGYDQKVWESLTNFYEVDAWLPRNYVMVN
+NDVWADVSDANKDIITTCATEAETRGLQASKDYTQFTYDGLRDGGMKVEPASEELMTGLR
+AVGETMTSEWLESAGDDGKAIVDSFKSMQ
+>tr|B7RMX1|B7RMX1_9RHOB
+MAERFWEKKPLNKMSPAEWEALCDGCGKCCLNKLEDEDTQEVALTRVACRLLDDSTCRCT
+HYENRHQFVPDCIVLKPENLDTHAYWMPLTCAYRLLWQGKPLYDWHPLISGDPETVHTAG
+ISVQYDTVSEFDTPFEEWEDHIIEEPT
+>tr|B7RPE2|B7RPE2_9RHOB
+MVPAPNKGLKGKDVKGAEARFSHALQELMNGLSGYGWEYQRAETLPSIERAGLTGTTTEW
+RNVLVFRRPRDSDAEAFSPERLPAPKAFQDDAVVVTKAATAPIGPGSAGDLDADTNAADL
+NTAPAAASTTSPRGKKSDGKDAATAPKDAPQTEATKDTPPEQDAEEPTDGVPPLVKPTE
+>tr|B7RQM1|B7RQM1_9RHOB
+MDNFTKNAQNVVSMTDYNPDQSFAILSQVEAYWDALRGDQLLPKRSDIDPRGIENALEFA
+FILERVAPGVARLRIAGSHLSDLMGMEVRGMPITAFLTPTSRRQFSDMMEEVFELPATAM
+LTLKSDVGDLTARMILLPLKSDMGDTSRMLGCLMTQGDMTDTPCRFDIQRMQITSVADKM
+NKTIEVPTEPVPQKGFAEPTKNFEAAAKKRRPHYLRLVKSED
+>tr|B7RI88|B7RI88_9RHOB
+MSTANSSGTALFVRRPILAFVLNALIVLAGVAALFGAEIRELPNVDRPVVTITTPFPGAS
+PEAVDQELTGRIEGAVGRVSGVRSISSNSRFGRSRVTVEFNDNVDIDVAATDVRDAVGRI
+VNDLPEDADQPQIVKADANAQPVMRIAVTSARRSPQELTAIVQDRVEDRLISVDGVADLQ
+IYGDREPIFRVDINQLELASRGLTLGDMQRALSSVAFDSPAGDLAGDRQSINVRTTASVA
+TVDAFEALEIMPDVTVGDVAQVTLGPATGETALRANGQLGLGIGVIRQATSNTLEISTNV
+REVVADLGRTLPDDVTIAVTSDDAVFISGSIDEVIKSLGFAIAIVVAVIFLFLRDVRATL
+IPALTLPVALVGTLAAIYLVGFSINILTLLALVLATGMVVDDAIVVLENIVRQRALGMGP
+RAAAVNGTAQVFFAVITTTATLAAVFVPLSFLPGQAGGLFREFGFTLAMAVLLSSVVALS
+LCPVLASRLLTKKPKENPRGPMIWLGNRLLGVYESTLKGALAMPFVIVLVSVFVAATAIM
+MTNGIRQELTPPEDRAVALLRVTAPQGVSLEYTQSKMREIEDVVAPLQDNGEITNVFSIS
+GFGANNRGFMVFTLAKWQDRTRGQQEIVAEINGKLRQIIGVRAFAIQPNSLGIRGAGRGL
+AFGITGSSYEQLADVAETMVDRLRAIPGMGQVQLEYEQTQPQLFVQIDRALAADLEIDIT
+GLGQALQALLDGRTVGSVFIDDKSFDVQMQSTANPINDPGDLENIFVQSGTGQMVPMSSF
+VTLEERAVAPELSREGQNRSVELTAGLTPDLSLGDAFAQVLDIGDEVLADENRIVPLAEA
+ATLDQTNSGIVITFGFAILVVFLVLAAQFESFISAVIVMATVPLGLACAVFALLLTGQSL
+NVYSQIGLVILIGIMAKNGILIVEFANQLRDKGQDVQSAIKDACIIRLRPVMMTMTSTVL
+GGVPLVLSTGAGAEAREALGWVIVGGLGLATLFTLYLTPVAYALLARFSTPKAQEEARLQ
+KELEQAQGI
+>tr|B7RKT8|B7RKT8_9RHOB
+MTKVRRPISLDAPDMARLLNEIIQIGGTTALTRPVTGDDLNDWMASNADQSAWHVALDDM
+EKVVGFQWIGPHPALPPEACDVATFVQVGRTGLGIGSALFDATAAAARQLGYVWINATIR
+ADNTGGLTYYQSRGFRDWHFDEDVRLESGQIVDKISKRYDV
+>tr|B7RRU0|B7RRU0_9RHOB
+MSANVGTADRIIRAILGIVLIIAPLLNMPAIWSNAYYAYGSMTLGVILIATALFRFCPLY
+RLVGLSTCRIT
+>tr|B7RKP0|B7RKP0_9RHOB
+MTDTPDLMRSDHAGGVVCLTLNHAPVNAISAQGLMQFAQRIKALEADASVRAIVIASPFK
+VFSAGLNLKQAQGFDLAAQHAIVTALNDGFLALFACKKPVVVAVNGAAIAGGLFYVLASD
+VRLAAPKAAFGLAEVRVGADFPLGPLEIARATLSPNDLRRLMLTGQPMAAEDAKISGIVD
+RIVPAEDLLQAAIDEAAALAQIPPATFASVKRQIRGDAIAKIEAGIAAGANTPEGGWFNA
+ETVPAMRAMLGG
+>tr|B7RFN3|B7RFN3_9RHOB
+MASDRQNLQDAFLNHVRKTKVPVTIFLINGVKLQGVITWFDNFCVLLRRDGQSQLVYKHA
+ISTIMPSQPISLYEGEDAS
+>tr|B7RIQ0|B7RIQ0_9RHOB
+MAPPKRDTTGVLVRLHAKTLEAVDDLISKEADDPSRPEMIRRLLKAVLKDKGYEIGEWVE
+>tr|B7RGW1|B7RGW1_9RHOB
+MLGLKQRKAQPMSHASIGHVHLKVADLDRAIKFYRDVLGFDLVTQMGNQAAFLGAGGYHH
+HIGLNTWESAGATPPPPGHTGLYHSAFLYPDRAALATVLKRVLQAGIPSDGAADHGVSEA
+IYLRDPDNNGVEIYCDKPRADWPRTADGAIKMSNSRLDLDALLAEAPA
+>tr|B7RM39|B7RM39_9RHOB
+MMMLAMMLALAACTAKPDADDPLLSDRVLKIEEYFDGHVVATGQFQDTFGTVRRRFVADI
+NGTWDGQTLTLIEDFVYEDKSTERRIWKMTKTGPDTWTGQADGVIGTAKGVARGDTFNWT
+YKIDLPVPDGTLRVNFNDWFWQLSETRVYNRAYMKKYGVDIGEVQITFDKKR
+>tr|B7RMU5|B7RMU5_9RHOB
+MTNPDLKTGRGFALPKDRATDMSQTNKVAEPTAALGSSLRGMVIGLAAFAVYATHDAAIK
+QLGETYSPVQIVFFVVLLSFPVVTLMLISDKTAANLRPKSPFLTLVRTIAVVVGGFSAFY
+AFSVLPLAETYAILFASPILITILSVPILGEVVRAHRWVAVVVGMLGVLVVLRPGTADLG
+IGHLAAFISAFGTALTAVVMRKIGGQERREVLLLYPLMANFVVMLCLLPFVYVPMPIADL
+GLVLAVSVLAVLAMTLMIRAYTLADAALVAPMQYSQIIWAALFGWLFFDETTDLMTFLGA
+FIIITSGIYIVVRETGGSVSLNKPVLRALSRRPEMGGLPRISVASPETQQTVEDASD
+>tr|B7RNB9|B7RNB9_9RHOB
+MHPAPSVIFFSVFSGLGFGLLFWLGLGWPSATGIVAFVFFAIAYVLAVGGLIASTFHLGQ
+PKRALKAFSQWKTSWLSREAICAVAALFLMAIYGAGAVFYGQHWRVIGVLGALLSLGTVF
+TTSMIYAQLRTVPRWHMPLTPLNFLSLSVAGGALLAGQVTWALWLILIAGGVQLATWIIG
+DTRFAASGTTLATATQLGGIGQVRAFEPPHTGTNYLLREFVHVIGRRHATKLRVIALGLM
+VVVPVILLLVPFSHIAGGLALLAHVAGVFTARWLFFAQAEHVVGLYYGKR
+>tr|B7RGL4|B7RGL4_9RHOB
+MLFLWPLGLMAQGFSGLGTDAEGFATPGPDPTFAFPADHGAHPDYRIEWWYLTANLSGLD
+GTKYGLQWTLFRSALAPGEAAGWQSPQIWFAHAAVTTPDQHFATERFARGGIGQAGVQAN
+PFRAWIDEWTLEGPDFDTMTLSAQGADFGYDMSLAAKGPLVFHGDNGYSVKSAEGQASYY
+YSQPFFDISGTLALPTGKVTVTGTAWLDREWSSQPLSDQQSGWDWFSLSFAGGSKLMGFQ
+LRQTDGTHYTASTWIEPDGQTTAYPDGAFTATPLTDSTVAGRQIPTTWRVTLPAQGLDAN
+VTAVNPAAWMGLSVPYWEGPVTVSGSHTGQGYLEMTGYE
+>tr|B7RFT8|B7RFT8_9RHOB
+MVVVGLVGIFMGGHVFHIMVAAICGVMAWELMGMLNPEKRELRLPLGLLVGCATLASMYL
+PIGFSLPVLLAPAMVGFGQLEKHRTVFMCFTVLIVLAGFGLAQVRDDFGFGWMMWLVLVV
+VVTDVVGYFAGRAIGGPKFWPKVSPKKTWSGTAAGWIGAAIVGLLFSINTGVGLQLVGVS
+IAMSMASQMGDIAESGMKRRVGVKDSSNLIPGHGGLLDRFDGMLGAALFLLIIGQFLPIT
+PGLN
+>tr|B7RI67|B7RI67_9RHOB
+MPTPKHRTAALSDRGNQAGAVPVTAVPDEEASRQKLRLGTVQIGFVSMLNVAAAFVRYKF
+VTVILGTAGLGIYGILQNVTGMVAALATMGLAFSLTGAVAKAAGDAPRQAMIVSHTLLVL
+AATAVTAALVSIAFGMTVLPALIPFGDGPLLIWWLLPCLPIMVWCNALGAGLMGHEETRK
+FARATLVANIIAIPVGIWLIWVYGTGGLFPLILVYHLVRMMVLAQAYGRDRLVEMRKHLR
+IRAAWRTVRPMMLTGLHFMSGGALGVGSVLVVQHLILTTYGLPAVGGFQGVYAIAFQISA
+FLLLSFQANLYPQLSRAGSDHARARKISNDQARLLLIVVGGVLLGVNGFSTAVFSVLFSS
+ELTGLVTFAAIWFVGEVVKSLAWIPIFNLLARDRNGAYLVTQVVAAVVYVATVGLVVLLD
+QPFDYVAFANVTGPIAMLVTGLLLQKEGILSYWQRDVKLIAAQLILGLGVVAALRLIDSP
+AAFPVGVGAMAAFSILHLLEIRALFWQRVGPKP
+>tr|B7RQF1|B7RQF1_9RHOB
+MRQLARRLGDASKDLIMQLDIDFVRDQFPAFSEPSLQGQAFFENAGGSYTCRAVIDRLTR
+FYTQRKVQPYAPYGASQLGGAEMDEARARMAAILGVEGDELSFGPSTTQNTYVLAQAFRQ
+KLQPGDAIIVTNQDHEANTGPWRRLIESEIDVREWRIDPETGRLEISALEELLDDKVRLV
+CFPHCSNVVGEINPVVEITALAHAAGAYVCVDGVSYAPHGFPDVGAMGPDIYLFSAYKTY
+GPHQGLMVVRRQMAEFLPNQGHHFNGCTLYKRFTPAGPDHAQVAACAGMADYVDTLYAHH
+FDEDVEPAARGKAVHDLMRTHEARLLQPVLDALSARNSVRLLGPTTAQGRAPTVAVALNR
+PAETVAAQLAWHGIMAGGGDFYAGRALKGMGVDPDDGVLRLSFTHYTTKAEVDQLLNALE
+DVL
+>tr|B7RGW9|B7RGW9_9RHOB
+MTVSAKRIRGSVSYHAGLSAELQVTQDYERRGFALARERWRGKSGEIDLIMRDGDALIFV
+EVKKSQSLQRAAQRITPRQMNRIYCAAEEYLAGEPNGTLTDVRFDVALVDQTSDIQIMEN
+AFGHG
+>tr|B7RH47|B7RH47_9RHOB
+MSFDDPNLTQPGQFLARGVARHLASLGFVTVEELVPARGLRVDVMALGPKGDIWIVECKS
+SRADFMSDNKWHRYLEWADRFFWAVSSDFDVDLLPTESGLIIADGYGAEILRTGVETRLA
+PARRKVMIQKFATHAARRLQMLRDPNAGTIWG
+>tr|B7RHD2|B7RHD2_9RHOB
+MSRTVLLVDDDAPVREALGQTLELADVDVIAAGSFVAAKDRIVAGFDGVILSDMRMPGRD
+GFHLLQYAREQDPDLPVILLTGEGDIPMAVRAMEAGAFDFLEKPCAPSALLAVIERALKT
+RALVLENRRLLQMVESGDPAARLIFGTSDLSNVARAKVRRAAMSEAEVLVTGPYGSGISK
+VSEVVHMCSPRAKEPFVKRAAEGLGGQDLTEALRITGQGSLFLDEVTQLPAQTQLTLIEA
+LESAPKARLIAGSTRDLQALVAEGRFHADLYYRLEVMTVRIPSLAERPEDIPVLFRRYVD
+QAAEQSGLTAPEVTPQVVADLMARDWPGNARALMSAAMRFVMGVADDVAPDAELGLAEQM
+AQVERSLLRAALRRAGGQATAAAEALKLPRKTFYDKLARYGIRAEDFRN
+>tr|B7RIJ0|B7RIJ0_9RHOB
+MILASLSLAVPAHAGEIWVTNEKDDTLSVIDTDTLEVIQTYATGERPRGITFSADFSRVY
+ICASDSDAVQVMDPETGEILHDLPSGEDPEQFVLHPDDKHLYIANEDDAVTTVVDVDSRK
+VVAQIDVGVEPEGMAVSPDGKVVITTSETTNMAHWIDTGTHTLFANTLVDSRPRHAEFTK
+GGAELWVSSEIGGSITVFDSATQGELGKMTFEIKGVHPDRVQPVGFEFTPDEKYAFVALG
+PANHVAVVNAQTYEVEEYILVGRRVWHMAFDGDHARLFTTNGVSGDVTVIDVAARKAVKS
+IKVGRFPWGAAFRP
+>tr|B7RLA7|B7RLA7_9RHOB
+MKTLLKGLAIAATMTANNAYAEGGVIKFGHDNKTDPFENPAHACTAVFSNIVTADTNGSV
+TVEVFGSNQLGSAAEHVQQVRDGIIQATLTSTGALASYYPRIDVLNLPFAFTGNASTYAV
+FDGAFGKELAADIEAELGDVVVLGFPDTGGFFAVTNSKHSIANLEDFDGIRIRTMTLPSH
+QTIMQSLGAEAYPLAWGEVYSGLQTGVIDGQMNPIPTISFANFAEVQKHMTLTNHLFSPY
+TFMINRAFYEGLSDSERATVHTAAENCVTASRGLSRIIEASDRGLAGLMDKIEVTALTAD
+QRAAMAGAAQPAFEAHVAENMDERANELLASFKAEVAAANAASYLD
+>tr|B7RMN3|B7RMN3_9RHOB
+MFQPIIPLPGLSGWRFLQTTYDRQFETFTKSVELKRDTEYFQKNIGAIETAEGLVKDRRL
+LTVTLGAFGLQDDINNRYFIRKVLEEGTTNDDSLANRFADPRYAELSKAFGFGPNESRKN
+GASGFAAEISAKFQANSFEVSTGDQDQAMRIALYAQRQLVDIAESDGSVDTKWFTIMGDP
+PLRNLFQKALNLPESFGQIDIDQQLGVFKERAKKAFGTEDIATFGDTEKLQELITKFIVK
+DQIDNLGSSLSSGSIALTLLQR
+>tr|B7RPY9|B7RPY9_9RHOB
+MPIPAANLNPPFNIVRLSHVELRVTDLAWSRAFNVDLLGLQVTHEDATHIYLRAMEERGH
+HCVILKKADEGSVGVLGFKVWSEEDLDRAEAWFKSRDLPTAWVERPFMGRVLSTRDPMGI
+PLEFYAHMDRLPSIHQQYKLYQGVKPLRIDHFNMFSPNVDASVQFYGDMGFRVTEYTADE
+ETDRTWAAWMQRKGGVHDVAFTNGTGPRLHHLAFWVPTPLNIIDLLDLMSTTGYVTNIER
+GPGRHGISNAFFLYIRDQDGHRTEIYCSDYQTIDPDMEPIKWDLKDPQRQTLWRAAAPRS
+WFELGSVFEGTAIMESNLNAQPIVAP
+>tr|B7RFK7|B7RFK7_9RHOB
+MRLIAFIVLTLLPLRALAQDMTEPAAMLVADDLFITRDRVLVAQGNVEAFQGDIRIRAQA
+IRYDGQTGSLIIEGPIVLNDGSGTVILADAATLDQGLQNGLLRGARMILNEQLQLAAVQI
+DRVDGRYSQLYKTAVTSCKVCTDGEVPLWQIRARRVIHDEAAQQLYFDDATFHIRSVPVF
+YLPRLRLPDPTLDRATGFLAPRVRTTSQLATGLKIPYFIKLGESRDLTLTPYISTATRTL
+EFRYRQAFTSGRIEFNGAYSRDDQLPDERRGYLFGTGAFDMGGDYKLSFTIETVSDEAYF
+TEYGYSDEDRLRSDVTLSRTRRDSYFRTSLYNFESLRPGEVNATLPTLVIDSEFEQRFFP
+KSVGGEVRLSLQAHSHRRSSDRDTDGPDADLITDGRDMARINGKLEYLRRFTHGSGVVMD
+ARTGATFNFFDISQDRSFAQNHYDLAPFAALALSYPMVRRGAGDVTQVLTPLAQIGWTGG
+DRLDIPNDESSRVEFDQGNLLTLSRFPRPDRRERGAVAAVGVSWSRIDPAGWDAHLSAGQ
+VFRDIFDPAFSDTSGLSGTRSDVLLAGQIRNSAGMSLTARTLIDTDFEISKAELRGAWSF
+NKASLAGTYVWLEADPDEDRALAVSEVSLDGTYDIGKHWTASADLRYDVENNDAATAGLG
+LTYNNECVSVDLSVRRRYTSSTSVEPSTDIGFNIGLRGFSASSGTERYVRSCGK
+>tr|B7RG38|B7RG38_9RHOB
+MPEVIFPGPEGRLEGRYHPQKERDAPIAILLHPHPQFGGTMNHKVVYNMHYAFYRMGFTV
+LRFNFRGVGRSQGEYDQGIGELSDAASALDYLQSMNNNSKHCWVAGFSFGAWIGMQLLMR
+RPEITGFISVAPPANMYDFSFLAPCPASGLVINGTADRVAPPADTVNLVNKLHEQKGITI
+THQQIEGAGHFFEEPHMDTLITSTTDYVKRRLTETSR
+>tr|B7RK37|B7RK37_9RHOB
+MKFVHAIEGLSLWVGRAFGWCILILTLSVSYEVFVRYVLNAPTVWSFDMMVQMYGALFLM
+CGAYALAQDTHVRADVLYRLFPVRVQAVLDFVLYFLFFFPGILALVWYGYEIASDSWRYK
+EVSFNSPASIQIYFFKSLIPLSGALLMIQGFAELVRCVMAMRTGIWPERLADVKETEDLL
+TEADLDQISAMAPARK
+>tr|B7RK67|B7RK67_9RHOB
+MTLTRTTCPYCGVGCGVLAGADGTIKGDPDHPANFGRLCSKGSALGETIDLEGRLLQPQI
+EGRPASWDTALDLVARKFADAIRDHGPDSVAFYVSGQLLTEDYYVANKLMKGFIGSANID
+TNSRLCMASSVAGHKRAFGTDTVPGTYADLEQADLVVLVGSNLAWCHPVLYQRIAAAKQA
+RPAMRVVNVDPRRTATCDLADMHLRVAPDGDIALFNGLLAHLAASGAVDADYVARHVNGL
+DVAVATAGQAAPLHSGLTAAELADFYALWTAMPKVVTVYSQGVNQSSCGTDKVGAIINCH
+LATGRIGTPGCGPFSVTGQPNAMGGREVGGLANMLANHLDIENADHRATVQAFWDSPTIC
+RSAGLKAVDLFKACASGRIKALWVMSTNPAVSMPDADGVARAIANVPFVAVSDIMARTDT
+GDLADVLLPATGWGEKDGTVTNSERRISRQRAFLPAPEGARPDWRIICDVAARMGFGDAF
+AYQTPAEIFAEYIALDAASRRFGRDLDLSIFADADYAQLIPTQWPRNDMRFFADGQFYHP
+DGKARMIPVETPVPQHAGLILNTGRNRDQWHTMTRTGKSRRLGAHLAEPYLEIHPEDAAG
+INAAHGDLVEVRNTLGTTILRALVTDRVTQGALFAPMHWTRQTARNGTINSVITPATDPH
+SGQPALKRGAVSVSVFSARWYGFLTCINQPTADTAYAAIARTQTGWQVELASRDLPADWV
+AQARAVAQLPDAEASVFEDSTSGAVRVALCEGGVVQAVFYAARQPVILSRAAAIAHIGTT
+ATPLEALAGRMGQDQPDPGTVICACFSVGQNTLLAAIAEGAQSVQTLGEVTCAGTSCGSC
+KPELARLVAQNKLRAAAE
+>tr|B7RML5|B7RML5_9RHOB
+MAATSIEHRPGRAIALKLGAVFLFTVMAAIIKIATETVPAGQAVFFRSFFAFPMIILWLW
+QRGDLRHGLKPSNLMGHVWRGIFGTTAMGLTFGGLSLLPLPEVTAIGYATPLFTVVFAAL
+FLGERVRLFRLSAVAVGLVGVLIVLYPRFTIGGDAVSQMATLGAFMVLGASIMRALVQVH
+VRRLVQTDSTAAIVFFFSLTATVLSFLTLPLGMLVDWPALTWIMPGLPVGLLLICSGLVG
+GVAQIMITSSFRFGPVSMLAPFDYASMIFATLIGWLIFSEIPTPAILIGAGLVMTGGVLI
+IWRERQLGLDRSKAKASSTPQGTPS
+>tr|B7RP89|B7RP89_9RHOB
+MRLIIFCLLALSAGSAWADGYWEYGSWRVTVQEIDTGEDLRRTCSAVTGGDGAPSAVSSM
+SNGDAGPPDYFPVVLIREQAIRHHQTVLQDGQPVYIRFDDEDVMDGVVEGFVDDEGFANA
+EIAFDHPQSQWVLRAMRKNGQFDVVVNGEVFMYVFLDGFTAAYLKMAEECGFTGAGVID
+>tr|B7RQJ8|B7RQJ8_9RHOB
+MPNPENNALVLQGGGALGAYQAGVFSALDEAGYDFDWIAGISIGAINSALICGNPKADRT
+SALQTFWKRITANLAMPTPFWPPAARRAYSELAAAEVTMMGAPGFFTARLPSALWPFASA
+PALSIYDTAPLKATLVEMVDFDRINSGDMRLCVGATDVETGNFIYFDSRNTRIDARHIMA
+SGALPPGFPPVEIDGRFYWDGGLVSNTPLQFVMEEAEGDQPLCIFQIDLFDARSPVPANL
+IDVQQREKDIRYSSRTRLTTDRYRQLHALSAAAARLADKLPPALQNDPDLTLLRKAGPAC
+PVTLVHLIHHKQGFEGSGKDYEFSRQSMSDHWAAGRKDVARTLTHETWTSRTVGTDGLQV
+FDIGTDE
+>tr|B7RQZ6|B7RQZ6_9RHOB
+MNTDLNARVGRLNDVLCAVNTLNWDARTQMPADGAETRGHQIATLMGIAREMLLDPAMQD
+AVDGAGDADAAATVQKAINHHKRLPAELLRAQAEHATIAGAAWSKARAASDFGAFRPHLE
+KVVTLARESAEALGYDAHPYDPMVQIYEPGETAGSIAAFFDTLRAGILPVLDVARGRPVP
+RTDFLYRDYPPALQQRFAAETAKALGYDFDRGRLDTAVHPFEVSFTRNDVRITSRWNPNY
+LPMSIFGSIHEVGHALYEQGIDPVHTRGVFATDMIGLYAVGGTSFGMHESQSRLLENHVG
+RSPAFWQTHFSRLRGTFPEQLADVSENEFIAAINRVEPSPIRVEADELTYDLHIMLRVRL
+EMAMMDGSLAVADLPQAWREAMRDELGVEVSGDAQGCLQDVHWSSGYIGSFPTYTIGNAT
+AAQLMAHYDKHAPDIRDALNRGDTAPLREALGGAIWKHGRSRSRSQLLTQLGMTANDPEP
+YLNYLTNKFAG
+>tr|B7RL59|B7RL59_9RHOB
+MVPAILWAGNFDRFEGTYTGEAEFTFEGQTQRRDMSTTIRATKAGFTLVWTSVTYKDDGR
+SKAKTYQISFVPSARENIYTSAMKTNVFGKEVPLDPLKGEPFVWAKLEGDTLSVFSLYID
+ETGDYEIQEFHRTLVEQGLALKFRLFKQGAPQKEIQTLLRRKD
+>tr|B7RFM0|B7RFM0_9RHOB
+MSAAFTLAKPEHLDRLIALVAAFHAEAGIQQTDEARRAGLAPLVDGIPHGIAYLIGPARA
+PIGYVIITFGWSVEFGGLDAIVDEIYVRPGVRGRGIASEALLALPNALSGGGVKAVHLEV
+DKSNEIAQKLYARAGFKPRDNYMFMTRKL
+>tr|B7RIT0|B7RIT0_9RHOB
+MSKIETEIDQVIASIIQDHKTADRELGSLKAINDHYDLLIKKIVGSFSGHFIATAQLSIF
+NSLVLFLNRHMENNGHSIFRLIRLISENKSLVAQRHSEGRSQHPTTWESTEELDLSINSM
+LHHGNSLKNDRHFKRLRVFRDSYLGHRLGRTAFDEKLQKDGIDDLRISLNDAIDLMERAT
+YLTGLATVIWDGGIWQGHTERMEGGYKNTQLFIDLLPELSELELKIAKDHK
+>tr|B7RNQ3|B7RNQ3_9RHOB
+MKKSILGAVMAASVSVLAMAAHAETTLIANEPGPNRGVRAEAVNYIADQIAERTNGEVKV
+EQNWGGALFKTDAALQSISVGVADMGVLIGAYVASEFPEIQMAGLLLNKPGHPWVMMQAV
+YELFTTNERIQERLDEMNLVYLAPFSLSPAILACRGDGIRSIEDIKGAKIAHTGSSGDVL
+AALGGNMVSMPIYDVYQSMETGLVDCSVTYAYYAVASKLSEEIDTMTELRYSTITSLGTV
+INKDTFERLTPEQQEAILGIGPDMMNFYGEKLEQADAKALEVLSAGDDAVEFVKLSDADY
+DAMDVAGAPMFDNWRADAAAVGTDGEALLAELYGLMDKWTAVMQTEGLPWNRK
+>tr|B7RPS0|B7RPS0_9RHOB
+MSRESALLVNNVLLAVSCFVVFTGTMWPLLAEMFFDRKLSVGPPFFDAAFTPFMVLLGLV
+LPIGSAMPWKRAHLGRALKPLRYVFVLAIAVGGLAFAMQTGRSLLGPVGLFLGAWIIMGT
+IVDLWGRTGRSSGRLARLTRLPRADWGKMVAHAGLGVTMAGIAGLTAWSIDDIRAVQLGD
+SYDVGNYTVQLDKVEQLQGPNYVSTMGSVTLLRDGKEISQLRPEKRFYPVAQMPTTEAAI
+DYNLARDVYVVIGDEQDNGGWVIRTYIKPMTNWIWIGCALMALGGLLSLTDRRFRVAAGA
+AKTTRAVPAE
+>tr|B7RJ03|B7RJ03_9RHOB
+MTSKFRFALLGALIAILPMGGAGNATEVGQVTNLPLPRFVSMKAAEGNVRRGPSLTHRID
+WVFKHRDMPLQITAEHGHWRRVEDRDGMGGWVHYSLLSGTRTVLIEQDHLRLLVRPDPNA
+PVAAEFELGAIARLGACDLEWCFLRADGYKGWAPKARLWGVGAAELRD
+>tr|B7RNC5|B7RNC5_9RHOB
+MKKFLLILPLIGAISACDTQNQSALTGAAAGAALGAVVSNDSDRTKGAVMGGLAGAAAGA
+YIGRGANGQCVYQNSAGQRYTAACP
+>tr|B7RK42|B7RK42_9RHOB
+MLRLEKLVKTYKTGDQALKAVELNVPEGQVLALIGPSGAGKSTLIRCINRLVEPTSGRIY
+LGDVELTGLSQGNLRRERRRMGMIFQEYALVERLSVMENVLSGRLGYVGFWRSFLRRFPQ
+KDVDEAFRLLDRVGLAHMADKRADELSGGQRQRVGICRALIQNPALLLVDEPTASLDPKT
+SRQIMRLICELCKERGLAAIINIHDVALAQMFVQRVIGLRFGAVEFDGPPDGLTPDVLTT
+IYGEEDWEATIAPVDEDEVEAAE
+>tr|B7RR31|B7RR31_9RHOB
+MDLPQIDLMINATGMPMVRVAYEAEYTEIGPLIAAVPALVQPDHAQDAALAVNHLSEGFE
+YGVILDPQSFRAEYMAQYDAEEGANWQQGQPRLRDFGMPDLSLLAPPSIDDGTLVFFADD
+KYLGLAYHVTMSLSDPSPDYQPLPVAP
+>tr|B7RGL2|B7RGL2_9RHOB
+MSNFKSLNRRHFLGTSAAALGAASFGLPRLAMAQDALTVGFIYVGPKDDFGYNQAHAEGA
+AAVKAMEGVTVLEEENVPESQDVQNTMESMINFDGAALLFPTSFGYFNPHILETAPKYPD
+VRFEHCGGLWTEGNPTNAGSYFGYIGMGQYLNGVTAGHATKSKKIGFVAAKPIPQVLNNI
+NSFLLGARSVDPTITCQVIFTGEWSLAVKEAEATNALADQGCDVITCHVDGPKVVCETAA
+ARGAYVCGYHADQTPLAGDKYLTGAEWNWASIYTDMVSKTMAGTPIDNFVRGGLADGFIK
+MSPLGPAVSDAARAQFEATKAEIVAGGFAAIKGPLKDNKGNVIAADGQAFVETDVALESM
+DYLVEGVIGSTS
+>tr|B7RQH5|B7RQH5_9RHOB
+MSEKNQRAHDLRMYFTGFGLAVTLTALSFLTAILQPFGPVGLFATLAVLAIAQVVVHFRF
+FLHIDLSRQAREDLQLILFTGLLIAIMVAGTIWILGDLMTRMM
+>tr|B7RIM7|B7RIM7_9RHOB
+MKTLSLTLVAFGMTAPVAYAQMDHSTMDHAKMGMTDAQMEEAVHTKAIVNAIGDGTANVS
+HEPIPEIGWPAMTMDMALMPDALAMGDVAAGDAVTLMLIKGEDGMFAIAGMIPE
+>tr|B7RK24|B7RK24_9RHOB
+MTDATRAEVALPEGWVSRQVIYDGTQLRLEYTGPALGAAPRVLVAFAPFDYPFQADDGGW
+GSRSFTKRGMAHVCVFHRNEDWHQHDEFFTAMQACRAFFGPTPDLTAYGFSMGGYGALLG
+AKALDARRAIAVSPQSSIDPSAVRFERRYGEQWARMDGWHHDLRAHMDSARRYIVMFDPL
+HGQDKKHEARLPKPAGYARVLLHGAGHAGIQTIVGMGQSQALFDLLRGDLSARALRHAYR
+SGRRDGFRYLRKLGTLLHEKNKPAARKFLEIAQEKGFHRLIKKWTPFYK
+>tr|B7RQM0|B7RQM0_9RHOB
+MTDWTKSSWRDKPRIQMPDYPDQDALHAVEAELSRYPLLVFAGEARRLKKHLAAAGRGEA
+FLLQGGDCAESFEQFSSDMIRDTFKVMLQMAIVLTHGAKVPVIKLGRMAGQFAKPRSAPT
+EIIDGVELPSYRGDIINELDFTPEARIPDPKKMLRAYTQAAATLNLIRAFSTGGYADVHQ
+VHGWTLGFTESEKAEKYREIANRISDTLDFMAAAGVTSETAHTLQSVEYYTSHESLLLEY
+EEALCRQDSQTGKWLAGSGHMIWIGDRTRQPDGAHVEFARGVQNPIGLKCGPTMTSDDLK
+QLMKTLNPQNEEGRLTLIARFGAGNVGEHLPRLIKTVQEEGANVVWTCDAMHGNTIKSSS
+GYKTRPFDSVLREVREFFAVHAAEGTVPGGVHFEMTGQDVTECTGGVRAVQDEDLSDRYH
+TACDPRLNASQSLELAFLVAEELSGRRTAHQAKAAS
+>tr|B7RP16|B7RP16_9RHOB
+MAARTYSGEEAAALRCANMMAYTAVTLARADLIGEYEKNVMLEITVLILEQHVSGTRAEK
+KAAMAVMRDRRDLDTTLSDYQNNAAKCLVQFPIY
+>tr|B7RP18|B7RP18_9RHOB
+MEVKRLSMARFGLDSDSHTWLTKRQIRETYVKIRMYLRQSVPWLCMWAMQRGQTLSWAQK
+AAGRR
+>tr|B7RH99|B7RH99_9RHOB
+MTAVLSPYFGEPKIQALQKARDEQVAELIDMPGAVIHARVFSSDDPAQLGRDRLRNCMAE
+EGMITLRGVDAQTVATVHAELSSFDPKLHLWDLFMADANTIRDVCSKIADSGLPEGLLRV
+PDDKLTPQKARDVQIFLTNQGISPFSTDALLGKLFPARLIALQNIDGRIVAAGFAAMTHN
+RHSPFFKSAWVGLIAVDPALRGLGLGKYTDALCNLAAVTELGAETTMEFVAQDNVPSRAM
+LESCGLRQVDGKSVVMFSTSADRITR
+>tr|B7RK26|B7RK26_9RHOB
+MVTSKEFVDSSIAHQLGTHAGAGLSYTPEAFERAAAASSGMTLSWDHAARAPKDLNDWQP
+SKDPARPWQAEQGSRANSYKTTDALRSVLDAGADFDFLIDMQDHRNRVVTDEQGRAAPLF
+NFNRLHARPMGQVLWPLPLYHDIDSPEFLGNLDPTRIAWEDKSDRMVWRGGPGNRGRLGP
+RARGEMIRMHPLLRKYKSGEFSRDETLHVLKSMQRFNFLHRYIDDPRFDLGYTNSDGFIL
+EEEPFLADFERPRIPREDFQTYKYIVVLPGNDVGSSLYWSLNSGSVAMVVDCQFETFATH
+HFKPWEHFVPIRKNHGNVHKRLAWCDDHQDDCKAMVARSAEMCKFLADPDLRQTIAVGVI
+DGMRDGLGLSKATPAVVEKAVVKKGAGKKTATVRKPAAPARKPAAKKAGSSKKRKTSNG
+>tr|B7RKH0|B7RKH0_9RHOB
+MTLFAIDWLPLLREFITLLVVIDPIGTIPVYLFAVASIPPHLHRRFAFRAVVIATLVLLA
+FLVGGQVVLETLGLRLGSFQIAGGIVLFLFALSMIFGESKPQTEIAEAGRDHLSGAVFPL
+AMPSIASPGAMLAIVILTENSSNTLAEQATTAALLVLVLIITLALLLIATFVHRLIGDTG
+ASVISRVMGIILATIAVDAILGGFDALDIFDVAPPENPGAQVEGTD
+>tr|B7RLE6|B7RLE6_9RHOB
+MQSQIGVLSKPHDQLRTPYLATTPRLTQLAAPTGGGMIFCDNNPSLFRKSH
+>tr|B7RMF5|B7RMF5_9RHOB
+MAKAMSGQKTVTPSATSLAASVSAAKTRGLPPVEKWNPPFCGDLDMQIKRDGTWFYEGTP
+IGRVGLVKLFASILIREEDKYFLVTPVEKVGITVEDAPFVAIDFEAKGEGRDQVLTFQTN
+LDDIAVAGPDLPIRVVRDEASGEPSPYVRIRRNLEALIDRKSFYRLVDLGVHHEGWFGVW
+SQGAFFRIIPSEDLPD
+>tr|B7RPD9|B7RPD9_9RHOB
+MAETSLDLNTKPTKEISVREVFGIDTDMIVHGFEERTSRVPDLDSTYKFDPDTTMAILAG
+FNHNRRVMVQGYHGTGKSTHIEQVASLLNWPCVRVNLDSHISRIDLIGKDAIKLVDGKQV
+TTFQEGILPWALRNPTAIVFDEYDAGRADVMFVIQRVLEVDGKLTLLDQNQVIEPHPYFR
+IFATANTVGLGDTTGLYHGTQQINQGQMDRWSLVATLNYLSIDAETAIVLSKNPHYNTDK
+GRKTIKQMVTVADLTRTAFMNGDLSTVMSPRTVIAWAQNAEIFRNIGYAFRLSFLNKCDE
+LERQTVAEFYQRLFDEELPESAASVSLG
+>tr|B7RPT2|B7RPT2_9RHOB
+MSLTPDFDSFAAGYAAGKNQIVYTRLAADLDTPVSLMLKLTGAAQNAFVLESVTGGEIRG
+RYSIIGMKPDVIWRCKGTTSALNRSARYDADAFEDIPGDPLDALRALIAESRIDLPADLP
+QAAAGLFGYLGYDMIRLVEHLPNVNPDPLGLPDAMMVRPSVIAVLDGVKGEVTIVSPAWV
+SDGQTAKAAFAQAAERVMDAVRDLERSMPGASRDLGEAHEEAAPVSNFTREGYKSAVEKA
+RDYIVAGDIFQVVPSQRWAQGFSQPPFALYRSLRRTNPSPFMFYFNFGDFHVVGASPEIL
+VRVFGKEITIRPVAGTRRRGATEEEDRALEADLLADEKELAEHLMLLDLGRNDVGRVAKI
+GTVRPTEEFIVEKYSHVMHIVSNVVGELRDDRDALDAFFAGMPAGTVSGAPKVRAMEIID
+ELEPEKRGLYGGGVGYFSAGGDMDMCIALRTAVIKDKTLYIQAGGGVVYDSDAEAEYMET
+VHKSDAIRRAAADAARFAGNGNT
+>tr|B7RN14|B7RN14_9RHOB
+MVLSGLNIPDWKLAPMKIAFTASRAEVAQTALAVLSARYGNVAPEEADVIVALGGDGFML
+QTLHSTQALGLPVYGMNRGTIGFLMNEYAADDLVERLNAAEEAVINPLVMKATHTDGRSS
+MALALNEVALLREGPQAAKLRITVDGRVRMEELVCDGALVATPAGSTAYNYSAHGPILPI
+GADVLALTAVAAFRPRRWRGALLPKTATVRFDVLEPEKRPVMADADGISHRDVVSVEITS
+DPNISHSILFDPGHGLEERLISEQFT
+>tr|B7RKF1|B7RKF1_9RHOB
+MSTITLLLLAGFGLNAGLILLGFVLADRQRHRHISRLLRADTTEQPPLAQSLKPRKRAVA
+QPTNPLERVIAFIERQLDQTSLGFGVGEVLVQAGITLLGLYAVAVLAVGIHPLAALPLAA
+MLTVALLLSILSIAQSRYKATFAADLPEALDIFARGLRAGRPVTDSMAIVVDNAKGPILR
+EFTRCHDEVRMGNTLPETLERLSARLPLPEVTFFAVATALQAETGGNLIETMENLATQLR
+ERRKLRKKARALSSEARASAVILAALPFAVAVLIAVLNGDYLEPLYSDPRGRFMSVTAAS
+SIGLGIFVMVRMGKLNV
+>tr|B7RMD0|B7RMD0_9RHOB
+MLAIFLKTLPFFALIGLGYWAGRTRFFTSEATAYLTKFVFYFALSAMLFNFSANLSLAEV
+WDGRLVAAYLWGTAFVYGLVSLIGFLRNLDVANNAMEAQCAVIGNTGFLGVPMLTLLLGP
+EAIGPVVLALAVDLIIFSSLIVILITASRDGQMSLRVIRTIGLGLLKNPMIVAMTLGFVW
+SGLRLPIPTPMNDFLVMLGAAATPGALFAIGASLASKSAEKLYVAGWLSFCKLVLHPAFV
+AIAALLIFRVDPYKAGVIISAAALPVAGNVYMLAQHYNVGPQRVSAAILVSTAISILSVS
+IVIAWVTTF
+>tr|B7RMF8|B7RMF8_9RHOB
+MTVLGGIGFSAPWLLLGLLALPILWLILRAVPPAPIRRRFPGVALLLGLKDSETVSDRTP
+WWLLLLRMLAVAAIIIGLAGPILNPQEQQADGSGPLLIVLDGSWAGAPRWAQQSEVIDAQ
+LTRAARANRTVGFLTLTQPEEPAFQSADVWRTRLAGLQPAPWQPSDGNITRAIEIAETLD
+GFDTLWFSDGLGFDGREDMLAALQDRGSVEVYQTGANVMGMAPATYEDGAITLTVKRALA
+GTPREVSLNAQGRDPAGNIRILATVPATFEDGAVEATAQLALPAELRARITRFDIAGQRS
+AGATTLVDDGLRRREVALIAGRDDREGLELLSPLHYIEQALAPSADLIDGSLADILPANP
+DVIVMADVATLSDAEQAPLIEWIENGGMLVRFAGPRIAASDISRDTEDPLMPVRLRAGGR
+SVGGAMSWGEPKSLDAFRDSSPFFGLEIPSDVVVSAQVVAQPDPTLANRVIASLSDGTPL
+VTRKALGQGQIVLFHVTATAEWSTLPLSGLFVQMMERLAISSSSAGIDAQDLQGTTWTPL
+RVMDGFGLLEDAGNLPGVDGADLAGAATGPGLQPGIYASGDRRIARNVVTAQTVLSPAKW
+PGDVPVRGLFVAPEKPLAGWLLSLSILLLLADVVASLALSGRLLKRSNAAAVVLLGLLYM
+PAPADAQDADAFALNATAEMTLAYVVTGNGAVDELSEAGLRGLSDTLFFRTSVEPANPIG
+VDLERDELAFFPMLYWPITPEQPRPSGDAYAKLNDYLRSGGLILFDTRDANIAGFGAASP
+NGRKLQELAAPLDIPPLEPLPGDHVLTRTFYLLQDFPGRHTGRDVWVESSPPDAEQIEGM
+PFRNLNDGVTPVVIGGNDWAAAWAVTPGGAPMVPVGRGFAGERQRELAYRFGVNLVMHVL
+TGNYKSDQVHVPALLDRLGQ
+>tr|B7RIJ4|B7RIJ4_9RHOB
+MNLSDSKTINADRATVWAALLNPDVLKACVPGCQDMTGSPEDGFEAVVVQKVGPVKATFK
+GAVTLSDINEPESLTITGEGKGGAAGFAKGGADVRLEADGDQTILHYEVEAKVGGKLAQL
+GSRIIDGFAKKMADQFFQNFQDAVGEPTTEGETITTEIGEEKKKGWFKRLVSN
+>tr|B7RL06|B7RL06_9RHOB
+MQAPLSTVDPAEIEKFQAMAAEWWDENGKFKPLHMLNPCRLEYITNQIAGEFDRDLKMDK
+PFAGLRILDIGCGGGLLSEPMARLGADVVGADAAERNIPVAQVHAEQSGLTIDYRHTTAE
+AMAEAGEQFDVVLNMEVVEHVASPIDYLIACRQLLKPGGLQICSTLNRNPKSYMMAIIGA
+EHVMRWLPKGTHEWSKFITPDELFDLLRNAGLTPVDRKGFVFNPILWSWSLSDRDLSVNY
+VTASTKPE
+>tr|B7RHI9|B7RHI9_9RHOB
+MKKGWFLVHLPDYETELRMKVQPSKDAADKLGKNIRREARQTYSAIEVIRIISAGVCGKE
+RIPML
+>tr|B7RM78|B7RM78_9RHOB
+MRFLRQSMIGLFLAAMTLGLLIFAVDLVGGAVQKRMADEPEARVPRERVFSVNVRTATPG
+TEVPILESFGAVQSRRTLELRAAVGGRVTELAPGFEDGGVVEAGQVLIRLDRADALAEVA
+RAKSAVQDATAEGRDAARALDLARDEQAAAEEQAALRARAFQRQADLADRGVGTAIATET
+AELAASSARQAVLARRQVVTQTEARIDQAASLLSRTKIALADAERRLAETTITAPFDGTL
+TETAVVEGGLVSANERLAELIDPRDLEVSFRVSTAQYARLIDENGALIKADITARLDVAG
+IDLEATGAITRASAAAGEGASGRLIFASLTQARGFKPGDFVTVSVQEPALDMVIRLPSSA
+LDAQGRVLVLDDENRLETTQVEVLRRVGDAVLVRGTIAGREVVEARSPLLGAGIAVKPLR
+AGAAPDVPQMIELTQERRAKLVAFVEANTRMPKEAKARVLAQLSEPQVPAQMIERIESRM
+GG
+>tr|B7RQ33|B7RQ33_9RHOB
+MSGTSLDGVDVAVIDTDGHDIMGFGVSGYREYTGDERKAIAAGFGKWSGAEVDAATEVVE
+AAHLAILRDFTDVDVIGFHGQTLAHAPRQQGTLQVGDGAALADALAVPVVWDFRSADVEL
+GGEGAPLAPFFHHACARYAGLTGPVAFLNLGGVGNLTWVDPGIAQPHAEGALLAFDTGPA
+NAPINDLMQARLGQAYDKGGRIASKGTVETGALELFLAEPYFARLPPKSLDRNDFAEMVA
+LVGELSDADAAATLTAMCAAGVAEAMDHCPRLPDRVLVTGGGRHNPVLMEMLAVSLDCPV
+APIEDIGLDGDMLEAQAFGYLAVRVARGLPTSCRSTTGVRAAVGGGTVSMPKPAAS
+>tr|B7RJV7|B7RJV7_9RHOB
+MRLTFSALIAGLVASPAFAAGGAFVSLHNTDFVVLLAFILFIGVLFYFKVPSLIAGMLDK
+RATGIKSELEEARALREEAQTLLASYERKQQEVKDQADRIVTAAKAEAHEAADQARADLE
+KSIARRVATAQDQIESAQAAAVKEVRDQAIIIAVAAAKDVIAKKMTAAEGNALIDSAIAD
+VDSKLH
+>tr|B7RG13|B7RG13_9RHOB
+MQKMPNDSDTLDVVPDSISGWIEKFNKVKGWKPLDAPSSGKNLKLTPIHRFEEAHAKASS
+DVLEANSAKVQAQKKVDALQQAVDAQDDPAKKALAEDALEAAKDAFEAAKAADKTARELR
+NKMATKLVTLTKVEEDLDKDLREVSARVAALQDQLEEQSDDPFAKVPKKERNSDFELVQA
+MRNLVAGNIEKARTEVFKMTKVVDGDKIERSYAVICPEEYQILHAMLDEAMLTYLTGDVE
+GAKAGINATTDQLNLFRNARTGATIIESRDDAFDTRLSLPLARIEGQISWLRTLGFKPCA
+DEVKHSLDDLRALIDETQKNTPDTVFDTHKDAVEELAKTVQLQADDAAFCVETTKRILKQ
+IATLRAMDAPGTADVLSEELDRVENPTFLRLRRSELDGLEMKWATETEKLKKLQAAQEQI
+NVEKMNKQLLDLRVKYAEMFKSSGWQKGAIKDKKVPKEALSELEMKLSTAEQLLQTDSID
+ALKLAKAYLDDVESFETSLAENSDKFNSIITQLGLVNKKLDRLKSKYGAYEAGRTVELAA
+RVKTFENTYPAKNPVRSYAEIVGLWDEAVALKNDARARAAEFKECEMLAKSVASEIRALS
+NAMANSTIGDVQIAGYYGRFVDDLAKARQLADARDKASLDDAKKKLIELLSDIQSTTAVA
+LKRWAEGSRDALSGQELTTWTALKSDCVKGQEKENSREANKKIFDTESDAVKAELKKLLA
+KFSELNLDISELDLALKEIASLKATTKVSGDYDDAIKRLEKLKADVATYTITADEIGKLS
+KLNAAAATKDCAEKLRSLVAAVKGFDKVIEKVGDVGELVATGSGEAITATDVKAYLDTVA
+GLVRDADVKKLEDNGALFQKALDTAGSDPRPPREAALSALRTLTGALQANAPLAHFRTQP
+FTGGTPELDIAVQTLSRLEIKLLTAIPK
+>tr|B7RHF5|B7RHF5_9RHOB
+MSFLKLQGVTASYGPTQALFGVDLELEAGEVCALMGRNGMGKSSTIKVICRMLKHSAGTV
+QFDGRDLGPLPSHKAAQAGLGLVPEGRRCFGPLTVYENLIAAARPGPWDFERVCVLFPRL
+GERSDQMAGSLSGGEQQMLAIGRALMTNPTLLLLDEATEGLAPVVRQEIWAAVATLKRDA
+GLSLLVVDKSLAELRQVADRAVILERGRSVWSGPMESLDRRVADQYLGV
+>tr|B7RQP2|B7RQP2_9RHOB
+MTIGKSADFEVRLARTQDELRAVQRLRYDVFVSELGGGGALVDHEQRLEVDQYDAFVDHL
+ILIDRKTAQIVGVYRLLRREMADRAGGFYSENEYDLAPLKQSGREVLELGRSCLHRDYRG
+GMAMHHLWTGLASYVATHRIEILFGVASFHGTDVAALAQPLSLLHHAYLAPADLRVRAVQ
+GAYQDMDLIPSGDLDRRRAMVQMPSLIKAYLRLGGCVGEGAFVDHAFNTTDVCLMMDTTQ
+LSDRQAKIYGGGQP
+>tr|B7RR22|B7RR22_9RHOB
+MSRHDRTMADTTQTVADTPREADKVTPGKNRRKRAILGTVALCALVGAGVLARDYWTVGR
+FMIDTNDAYVTANVTLISSRVQGYVADMPVAENADVKAGDVLVRLDDGDYRIALETAQSR
+VATAADTLARIDAQIAAAQAGVAQAQAMEQMAQAHLNAAQTTADRTQKLASSKVAAQAQV
+DTAIEDLQTTQASVASAKAAVLNAQAQVGVLRAQYAEAKGAQRELELAADQAQRDLDLTV
+LRAPADGTLANLTLEVGDLVNPGTRLAALVPLNGLYVEANFKETQMDGVAVGAEVHMSFD
+AAPGQDFEGEVASVSPATGSIFSLLPADNATGNFTKVVQRVPVRIAIPQDALDAGFLRAG
+LSVTVEVDSRTGGTLATTAAVKHTDATGTAIE
diff --git a/Exercise11_files/Problem1/Verrucomicrobia.fasta b/Exercise11_files/Problem1/Verrucomicrobia.fasta
new file mode 100755
index 0000000..10670d8
--- /dev/null
+++ b/Exercise11_files/Problem1/Verrucomicrobia.fasta
@@ -0,0 +1,12477 @@
+>tr|A0A1W9LG55|A0A1W9LG55_9BACT
+GPVERAGNDRDNWAFCPEGLGADSIVYSIGVGRHIAFDLWLIRRFGLTVDAFDPTPVSIE
+WVRSQSLPPQFRFHPVGLAAYDGVQKFFLPRSAGSAHFSSVARSAAGGETIDAPVRRLST
+LMRERGHAHIDLLKMDIEGGEYGAIEDLCASGIDVRQILVEFHHNFATIPMARTVEAVGR
+LRALGHRVFHVSHRGLEISMRRAA
+>tr|A0A1W9LE34|A0A1W9LE34_9BACT
+MNDATNDRKIRHIRTIEADRETDRRKYYFDDIRLKHRALPELDLKLVDPSVTFMEKRLSF
+PLLISSMTGGDHELVRKINRNLALAAEETGVAMGVGSQRVMFSHPMSRGSFDLRTYAPNA
+LLLSNLGAVQLNYGFTIEMCKEALKVVGADALILHLNPLQEAVQPDGNTDFSELAAKISH
+IAQRLEKPVVLKEVGAGMSEEDVRLVVEGGIRYLDVAGAGGLSWSRIEHHSLMDAERDDL
+GLTFQDWGIPTPQALMALKPYRDRVTLIASGGIRSGIDMVKALILGASLCGLASPFLKPA
+MESAELVIEAIQRLRREFVTTMFLLGVGTAEQLVGNEGLLLK
+>tr|A0A1W9L9H6|A0A1W9L9H6_9BACT
+MLEPVSNKVDFPRMEEEILRFWAEADVFRKSLEQRRSAPEYVFYDGPPFATGLPHYGHLL
+AGTIKDIVPRYHTMRGRYVARRFGWDCHGLPIEALAQEKLGLSGAAAIAERGIDVFNETC
+RSMVLTYTAEWRKTVTRMGRWVDFDNDYKTMDPPFMETIWWVFKQLWDQGRIYRSYRIMP
+YSWKLTTPLSNFEAGSNYQDVQDPAITVRLRLTGGSASLTAGGSASLTAGRVEEPWYVLI
+WTTTPWTLPANLAVCVGPDIDYVAVKDAADGSVYVLAESRLQAYYKRPEDYTIAGRFKGR
+DMAGWTYEPMFPYLAGHPGAFRVLEDGFVSTEDGTGLVHMAPAYGEDDFRVCRAAGIEIA
+DLLDAECKFTDAVPDYRGQFCKDADKAIIKRLKTEGRLVHQTTLVHSYPFCERTDTPLIY
+RAIDAWYVRVDDLRERLAEENGKVRWVPDSVGAKRFGNWLREAKDWNISRNRFWGSCIPV
+WVAEDGSDTICVGSVAELEALSGVRVTDLHKHHVDKVVFVRNGKTYRRTPEVLDCWFESG
+AMPYAQQHYPFERAGDLDRFFPAHFIAEGLDQTRGWFYTLLVLSTALFGRSAYRNVVVNG
+LILAEDGRKMSKRLKNYPDPALMLDTYGADALRLYLINSPVVHAEDLCFSETGVRQSLRE
+LLIPLWNAYAFFVTYARVDGWRPGVGAAPASRHLLDRWILSVLDRLTQDVVAGMEAYDLQ
+RAVRPFVRFIEDLTNWYIRRSRRRFWKSDDDADKKAAYSTLYEVLTTLSRIAAPFLPFVS
+EAIHRNLRTPDMPESVHLCDFPVSEGARRDPELEAQMEAVMTVAGLGRQLRVQHDIKVRQ
+PLAGLHVVCHRADDLARVAALKDVIADELNVKEVWFGSDERQLAHLRVKPNWKVLGPKLG
+PAIKQAATVIQNLPVETVGHIMAGGTVAIQAGDRQIEIGLQDVAVERVPRPGLAVASQDD
+WVVMLETQLTPDLVTEGLARELVNRIQTMRKAADFDVSQRIRLTLHGDEAVREAVARHRE
+VIMAETLAVECVWSETAPGGSEAADLNGHPCAIAVEAVRFGR
+>tr|A0A1W9LEE8|A0A1W9LEE8_9BACT
+MNASQRFGGRSPRWSRRGFLTGALAAATAVRARGTGPADVAGPAPGGVSVLVFDVFGTVV
+DWRSGLIAEAGRIGRARGIAVDGPALADAWAKSYQPAMDRVRSGELPWTKLEGLLRSVAG
+DLLVRFGLGDLSVKEKEDFVHAWRRLPPWPDAVEGLTRLRRRRVIAPLSNANVALLTHMA
+RAAGLPWDCILSAELVRRYKPAPEVYRMVPEMFDVKPSEVMMVAAHEGGFCCGRRGRW
+>tr|A0A1W9LEC6|A0A1W9LEC6_9BACT
+MAGALPGAGSRVSRRNFLHAGAAGAGLMILGATNRARAQAAAPAGAAPAGGAEEIKVGLV
+GCGAQGRVLLEACVGIPGLKFVAVCDIWPYNLKYGQNYLKKFGHDPSAHEEFEKFLDAGK
+SNGMQAVAIAVPDIWHSPYTVQALKAGYHVYCEKMMSNTVEGARAMVRAMKETGKLCQIG
+HQRRSNPRYIYALQNIMNGSKMLGRVVNANAQWNRSIRSSVDLEWPKKYELPQATLEKYG
+YANMREFRNWRWFKKYSGGPISDLGAHQIDIFGWFLGAKPKTVMASGGNDHFTDREWYDN
+VMAIYEYALPDGKTARAFYQVLTTTSSGGGYYEQFMGLDGTLKISENPAITRIYKEAHAD
+WTEWKTKGLLKEIVKAESIPASLGTVALLDVRASADLDAFDLPVELTKKAHQPHLENFFD
+TVRGKAKLNCAADEAFESEAAVFKVNVAIEARKQLVFEHADFEA
+>tr|A0A1W9LDL3|A0A1W9LDL3_9BACT
+MLRSFKLKMALLSVVTSGLILAAFAFFFLSVIRQAGMERIDRELQAIGNDQVRGPRPHSH
+WASFDDSLASIYGEEKRSRFLVKVNDRDHRSIYVSPHWPAEIGATDLGIPETEGPSEEPD
+FEPPRFERTSTGEPPPPPPLHLKAARFLTMVADGHTWRFVVMGNEHNTLILGMDLADFHM
+EFRRFPNTFAVAVPVALLLLTAGGWLLAGQAIRPVKVLTQVAGGITARGLDQRVRTAGAD
+HEFQALIDVINGMLDRLEKSFQQATRFSADAAHELKTPLTILQGELQRALLNAPAESREQ
+RTYADLLEEVQRLKVIVWKLLLLAQADSGQMRLSLERVNLSAEIDGLCEDAQQLAAGLRL
+KKDIAPGVFVMADWDFLRQAFQNLASNAIKYNRDNGTVEFRFGKQDQRAVFTISNSTNPE
+ARIDPERLFERFYRGDKSRSRQKVDGAGLGLSLAREIARAHQGDLVLHELREDFISFVLT
+LPAAG
+>tr|A0A1W9LCV1|A0A1W9LCV1_9BACT
+MAKQGSKGAAETAETMALRQRDISVSEFFLKNRHLLGFDSPRRALLTAVKEAVDNALDAC
+EEARILPEIAVDIAQTSPARFRVDVTDNGPGIVRAQIPKIFAKLLYGSKFHRLRMSRGQQ
+GIGISAAGMYGQLTTGQSTRILSRTAKSKAAHSMEVQIDTRANKPVILRDEETDWRPAFP
+NPDTPAGPPVPAPHGTAVSIEMEAAYVRGRLSVDEFLQQCAIVNPHLQLHYRVTLLPREK
+SAEPADASPTDRRQPISNSPQPSADGLQPTAFSPQPSAHSLPPTAHSLPPTAHSLPPTAA
+WQTFRRAVKDLPPPPGEIQPHPHGVELGVLMQMLKDTSSRTLRGALSSDFSRVSDRTALE
+ICTRAGLEPKANPTRIAHRESEALFKAIAETKLMRPPTDCLSPIGEEAIVAGLKKEIQAD
+FYTAVTRDPAVYRGNPFVIEAGIACSRPGENADQASDDPVRVLRFANRVPLLYQAGGCAI
+TKAVAGVNWKAYGLAQPKGSMPVGPVVLMLHMASVWVPFTSESKDAIASYAEILREATFA
+LQECGRRLSVFLSRRHREAEALRKRDYMQLYIPHLALGLKGVLALSDREESDIKRRLEKM
+LERTHLDL
+>tr|A0A1W9LH03|A0A1W9LH03_9BACT
+KVLKKEVIAIIGYGVQGPAQALNLKDNGFKVIIGQAPEFKRDWDRAVADGWVPGKTLFDI
+ETAVKKGTVIQMLVSDAAQRQIWPAVKKNLKKGDALYFSHGFSITYKDKSGVIPPKWVDV
+IMVAPKGSGTSVRRNFLSGAGINSSFAIGQDATGRAEERCMALGIGIGSGYLFPTTFPHE
+TNSDLTGERGVLMGCLAGTMEAQYETLRKHGHSPSEAFNETVEELTQSLIRLVDENGMDW
+MFSNCSATAQRGALDWSPKFKKAVLPVFNELYKRVSTGREAERVIKVCGAKNYQKQVAKE
+LGAIRDSEMWKAGAAVRALRPKTGAKEIAVGTKGIGGRKY
+>tr|A0A1W9L8R3|A0A1W9L8R3_9BACT
+MASSLQITDRARAELARMSGDGRVLRMSVEPGGCSGLVYSARMDGSTGAEDRVLFNEEPI
+RIVAHSARAPLLDGIVVDFSDDLVAPGFRFRNPRAVKSCGCGASFKL
+>tr|A0A1W9L8R4|A0A1W9L8R4_9BACT
+MNATAGAVVCELCPRMCELAPGRRGDCRIRANLDGRLTALTYGLPCAVHADPVEKKPLFH
+FLPGTPILSVATAGCNLHCRNCQNWEISQANPEDLDASALPPRELVALAKRAGCPSIAYT
+YTDPVVYFEYTLDASACAREAGLRNVLVTAGYINEPPLRELARVTDAANIDLKFMSDRLY
+REVCDGTLAPVLKAIELSKSLGVWVEVTNLVIPTLNDSDGALRDVARWMRRTLGPDTPLH
+YSGFHPQHRMRNLPPTPAETLRRAREIGLAEGLRYVYAGNVSIEDGETTLCPSCRKPVLR
+RVRFEVAERHLTGGACGWCAESIAGVWK
+>tr|A0A1W9LHN2|A0A1W9LHN2_9BACT
+MNGQAKVAIVMGSGSDWPSIREAYETLRKFGVAAEVRVQSAHRTPDGAAEFARAAAGRGL
+QVLIAAAGGAAHLAGVLAAHTTLPVIGIPVQGGALNGLDALLATVQMPGGIPVATVAVGK
+AGAVNAALLAVQILALSDPTLQAALQKHKAALRDGVAKADANLQAELAKL
+>tr|A0A1W9LA94|A0A1W9LA94_9BACT
+MTVEDKQGQFLSHFLRHQDDIRAVIASMVRDRTACDDVFQEVAIVLWRKFEEFDATRSFG
+AWARGIAVRKVLQFFDKNRRTPIAFAPETMEAILAAFDSEEPADSTRDAALTQCIGKLPD
+KSRRLVTMRYEEGLSLDAIAQRIASTLDAVNKALSRIRTALRDCIEQQIVEANG
+>tr|A0A1W9LEJ0|A0A1W9LEJ0_9BACT
+MVDDLKLVSRSEDFSEWYNQLVLRAELADYAPVRGCMIVRPYGWALWENIQQALDRRFKA
+TGHVNAAFPLLIPKSFIEKEKSHVEGFSPELAVVTIGGGEELTEPLVVRPTSETIIGYAY
+AKWIQSYRDLPVLINQWANVVRWELRTKLFLRTLEFFWQEGHTAHATAAEADAETRQMLD
+VYTEFAKTEAAIPVLPGRKSDSERFAGACQTYSIEAMMGDGKALQSGTSHNLGQNFAKAF
+GIKFLDQEGQSQFCWTTSWGLSTRFIGAIIMTHGDDQGLILPPRLAPIQAVIVPIHKTDD
+EKKAVIEAAKRIQADLAGAGIRVKLDERDGFTPGFKFNDWEMRGVPIRIEIGPKDVAKAS
+VVLARRDKPGREGKIFVPQAGLAGAVTDLLATIQAALYERALAFRNANTHDPKDYAEFKT
+VAEKGFALSYWCGQAACEAKIKEETKATVRCIPLEQAAGEGRCIHCGQPAKEKAFFAKSY
+>tr|A0A1W9LEH4|A0A1W9LEH4_9BACT
+MANTVGAGPDGKQTSSGSSFIREPNGLPLAEAGFHQEEMITAVLDLDRADRAYALDSMRN
+PPFLAKHWRAMVREVRQRADAPVRPRAG
+>tr|A0A1W9L8E3|A0A1W9L8E3_9BACT
+MKGERLNPTLWRTCRVLAGATRVRMLRLLMTSPAPTVTEVAGCLGIGLSRASQELRRLNS
+RGLLEVHRSGAEVRYRLGADPQVADAAGLTAAIHAGLRSCGAARDEVFVRIASCFTHPRR
+LEIVRAMLRGPQTPGMLRRATGIPYRALKRHLALLHDRQVLRREDGEYRLSACRHPLFRA
+IVTCLRSDTAPDPS
+>tr|A0A1W9LEX9|A0A1W9LEX9_9BACT
+MTDPVHSSESSRPPAHDAKNRFVIDREGLRFLWQYARPRRRTLALSFAVAVVLAGLSGLL
+AWSVKQIVQSLTQGGTAETIGLWVGVAMVAVVFNSGLEVLNRLMLTTLFARISQEIRIDL
+FREIQDNPIAFHTHIRTGELASLIGNDVQSAAAGVLETFSALWQHPATFLFLVGLMFYLN
+PWISLIALVLLPLLSACVTWISRRARDAQMSFMDNQSKLLGVMVESITNVRQVKAFGMEA
+QRTEQLASRGEYLIHYLRKAALLSSLVSPVTDIINGVAIGLMALLAYWQIQHGYTTTGAV
+AGCLMAAVGLKKPMKGLSQSVVELQRSFAAVRRITWALGKTDRRTGLPVVEGPVRQVTLE
+NVSFSYDGRRSVLDGISLELRHGERVALIGASGAGKTTLLDLITGFYPCTSGRLLVDGKD
+LATLDVKSWRRQIGIVSQEPFLFDASIEENIQYGNPEATTEQVARAARRAGCDEMLARLS
+EGLKTRVGERGCRLSGGERKRVALARALVRPISIIVLDEATSELDPEMEESVLRVIDGLA
+PEMLVLNVSHRPSILRHCDRALVLEDGSVRETTPAEIQKSLEASGECIRAGGPHG
+>tr|A0A1W9LE52|A0A1W9LE52_9BACT
+METDKIRNVAIIAHVDHGKTTLVDQLFRQCGTFRTNEAVTERMMDNMDLERERGITIRAK
+NGTMHYKDYQINIVDTPGHADFGGEVERTLRMADGALLLVDAQEGPMPQTYFVLKKALAH
+RLPVVVVINKIDRPAARARWAVDQVFDLFVTLDAPHSILDFHVVFASAREGHASLDPAHP
+GTDMTPIFDAILKYIPPPRGSSDAPLQVQVASIDHSSFLGRLGIGKITAGRVAPNQPVIL
+ATAKGTMEPGRITKVYRFERNRTVETEGAGAGDIVALAGFEGVLVGDTYTDPLDPRPLPA
+LPMDPPTVSMNFLPNNSPFAGREGTYSTGTHLAERLRQEVLRDVALHIEELTDTVGFKVS
+GRGELHISIKVETMRREGYEFQVSCPHVILKEENGILLEPYEDVTLDVPEACAGTVIEKL
+GGRKGMMVEMVQDAGMVRLRYTIPTRGLFGFKSEFMSDTKGMGVLNYIFHGYDRHVGEMK
+KRHNGVLVSMDPCTTVAYALFKLQDRGRLFLGPGEPIYRGQIVGEHCRDNDLQVNPGKGK
+KLTNIRAAGRDENVVLTPPTRLSLEECIDYINDDELVEVTPLSVRLRKRPDGI
+>tr|A0A1W9LHF5|A0A1W9LHF5_9BACT
+MKTLPGRIAIDAAVCGGRHCFRGTRIPVYVVFEMLRNRESETAILESYPDLAHGDLQAAL
+EYARNIAAIPCQSLATAG
+>tr|A0A1W9L8V4|A0A1W9L8V4_9BACT
+MSRTFIRANFRIRVPEVRLIGSDGSQVGVMPTRQALTMAEREGLDLVEISSSASPPVCRI
+MDLGKYKYDLEKKEREAKKHHTATRMKEVQFHANVEAHDYQTKLRKLKDFVVEGHRVKVS
+LYFRGRENAHQDLGYLLMKKVVADCEDVASPEQMPTPMGRSLIMMMGPKRGLRQQQQQAA
+TVPSTQAPQAPPPSPSPLPTPPAPSPAPGLRNPAMR
+>tr|A0A1W9L9A6|A0A1W9L9A6_9BACT
+LYCNLVGGQDELVFDGASMALAPDGQLLARAKQFQEDTLYVRIPIRGGAGTAPAALSFPN
+IGKSTAGFSKHWKNRVAPTLDDVAEVYAALTLGLRDYVDKNGFSKVVVALSGGIDSALVA
+TLAADALGPERVAGVTMPSQYSSGETRGDAGLLAKNLGIEFMIVPIEPLYDAYIRDLSPL
+WKGRPADITEENLQARIRGNIVMALSNKFGWLVLTTGNKSELATGYCTLYGDMAGGFAVI
+KDVPKTLVFALARWRNRSTQLAAGRQAAKPVIPPSTIERPPTAELRPDQKDSDTLPPYET
+LDPILERYIERDWGADEIAAEGFDPAVVKRVIQMADRSEYKRRQGAPGIKITPRAFGRDR
+RMPITNRYGERT
+>tr|A0A1W9LHI2|A0A1W9LHI2_9BACT
+MADEKETPKTPAAPAAPADAAAAAPVEGAAPAAEAAGKVRKSRLKGGKLIPTGIVHIRAT
+FNNTSVTITDPRGAVISWSSAGRCAFKGSRKSTAYAATVVAQEAARTAIANSGMREVEIF
+VQGPGSGRESAIRAIQSAGLAVTAIRDVTPIPHNGCRPPKRRRV
+>tr|A0A1W9LEA2|A0A1W9LEA2_9BACT
+MLHVTGRTLAEGYENALVALHRGGIPFRTQYDKPGDPPSLDATLNLVVEDPVADPMIHMA
+FPGGVADLREYVGELQGLKDAWTRNINDPADTRWEYTYHGRLEHYGRWKERAGEGASRAS
+RFAGRVDLDQIAAVIGKLARQPYTRQAQMITWMPELDLSCFDRLDSTAFADRTLAFHDPT
+VQEMYHEEAAVILEKVRDMNAQMARQDGAGG
+>tr|A0A1W9LDB8|A0A1W9LDB8_9BACT
+MAIPGTFEVLARDPAGPARRGRLHTAHGVVETPAFMPVGTQGTVKGMAPDELEAMGYDVV
+LGNTYHLHRRPGDETIAALGGLHKFMGWKRTILTDSGGYQVFSLSKLRKLSDEGVEFQSP
+YDGTWANLTPEIAMAIQLRLGSDVAMVLDECSPYPCDRETACQAVDRTVQWAARCARQPR
+VDGGLVFAIVQGSTYADLRARCAKALTEIGFDGYAIGGVSVGEPDALILRGIEDSVGHLP
+ADRPRYAMGVGLIPQIVELVARGVDLFDCVIPTRLARHGSAFTAAGRYPVKAAVFERDPR
+PIEEGCGCPACRTFSRAYVRHLLNVNEMLGVRLLSTHNLHRYAEFMREMRTSLDRGSFEG
+FRRKVGGTYRDPTDEYEALKKEGDEPE
+>tr|A0A1W9LD61|A0A1W9LD61_9BACT
+MPPPKRDFYEVLGLAREASEDDLKKAYRQLAIQFHPDKNPGNKEAEEKFKEISEAYEILS
+DPQKRAAYDQFGHRAFAPGGGGGAGFGGGGFGIDLEEALRTFMGAFGGGGGSIFEDFFGG
+AMRGERGGRDTTARGADLRFDLEIEFEEAVVGSEREITMPLMEECATCKGTGAEPGSQKE
+TCRRCTGRGMLISSNGFFQVRQTCPACGGAGQTISKPCRNCRGDGRVKGRRTIALKIPAG
+VETGSRLRLAGKGEGGARGGPPGDLYVVLHVRPHELFQRRDEDIFIELPVPFHVAALGGE
+VVVPTIHEYTPLKIPPGTENGTVFRMRGKGITGVRGVANGDQHVRIVVEIPTRLSGGQKD
+ALRAFAESCAENNHPLEAKIRAVADEFYEHKKAMGK
+>tr|A0A1W9L851|A0A1W9L851_9BACT
+MNSEMLAMVEYFQRERGLDRETIVSAIEDALLAAVRKSVQDASELRVVIDRKTLDTKTFA
+KYRVVDSIRVEGEEILLAEAKRSKADAKVGETIEVEKTPKSLGRIAAQAAKQAIMQRIRE
+AERRRIYEIYKDSQGQIVSGQVSRFERSDVVVQIDRAEGTMPGSERPVTEQYQLGDRIRA
+LVLKVDDVSSGPMIVLSRSHPDFVRSMFALEVSEIADGTVEIRGIAREPGFRTKLAVASR
+EEKVDPVGACVGMRGMRVKNIVRELSGEKVDIVRWHEDIKQYVANALQPAKLIRVTADEV
+TRTVNVVVAADQLSLAIGKKGQNARLTSKLTGWRVDIEREAADVSFEEKVAKAISELAGV
+EGIGAQRAEALVHAGFLTLEGILAADIADLEAVEGLDAASAAATHRAAEVAYERKHGVIE
+S
+>tr|A0A1W9LCW3|A0A1W9LCW3_9BACT
+MAVVVRIVEWALLLTGVLCFVALGLIIWEGGRWTGIVSVGNPRPRLIFGPLCLAGWHILR
+TARSGRPRRWRVCFGQLALLAYELRPNLRMNFGVCRFRTNRLGMRDSQEYEPGRTPGTVR
+ILGLGDSGMFGWAVHQDSDYMSVLESNLNRRAFGVRYEVLNAAVPGYNTSQEVEALRYRG
+LAFHPDTVVLGWCSNDMDLPFFLWRHREIRGEGLFYLDRFLFAREEFRRATRPDVRHAGD
+VDAAQIDPRVLAGAGIGGVRRAFRDLAALARREGFNVLVFGPMSGEVAGLCRETGLAFFN
+TRSVPPPKHPGLRLHGIHPDSGGHAVLAGYLEEALESRGWLRPSNKSEGGANWER
+>tr|A0A1W9LHD8|A0A1W9LHD8_9BACT
+MFRRAVIGGEAVEGPGVKAVARASRPVVRGEDRRRLPVIEYDVTIPMKDGSFASFAAAEQ
+IARDRTWTKDLRDSSDTLFLLPPDPVVARASASGAWPGAETAALEALQPRGVDRLWVLGG
+CADVSREAAAALLRPHEFIELGARLGREVGAGAKALPAVAGAVVAAGAPAPAGGPEVREM
+ARGANPRLAGLPVVKEAARGLPVDAEYDVVVVGGGTGGAPVGIGAARQGSKVLVIESIHG
+LGGVGTWGQIATYYDGYRLGFCEEIDKGVMAIGGVEKGLGHTWNVEHKSEWLRREIRKAG
+GEVWFGAIGCGALVETGRLCGVVVATPQGRIVVRAKAVIDGTGNADVAAAAGAECAVTDE
+AEIAVQGTGLPPRSLSRQYISLRTPTPRCRSCARPSSARPTPWRGGSMPRRSGCSATRRA
+RRSSRVPFGPATSREDGTSKGWASSART
+>tr|A0A1W9LHL7|A0A1W9LHL7_9BACT
+MRRIRSIAAALAVAALPALAFAAEGTNAPAPATSPSAPPAGPAADAAALVRGAVERLAQH
+GVLTKSARLEEELLSAVVMGADPSGCLMSEKQFKEFELERQGMVRGIGIRLAASNGQTYV
+AEVFDGGPAAGKLQPGDTIDRLADRYATGFPVDTLASWLRGATGEVPVVVVRAGEKKPIP
+VSLAPSYVRQPALAIDERLPGGAQRIEIRGFWPGAADALARAWRAAATNGGPGVILDLRS
+AGGGDASEAAAAARLACAPSASVFALENLADGRRTEFRGGTEPPLKGPLMLLVGPHTTGA
+AEAFAAALKAGGQGALLVGGATAGDPLIREALPFDTEHRMYVTTRRLLVAGAPAELPVRP
+HVEVASGSGTRATARAAESPETIAMNPRRKALAEEAVDEALRRRIEGDAVLERAVDILHA
+LHALGPESHHASPDPAR
+>tr|A0A1W9LDB5|A0A1W9LDB5_9BACT
+MTTESSGARRGGWRRGLLVAAMAAVFVLALAAGGFGYFEFMPAETTCVSCHEMRPSHGRW
+TNAVHRGVSCKVCHGGSVSSGLHGMSEKLRRVFAHVTEARHDNLGLSEDQRISVMTACRD
+CHERESAYWQKGGHGITYAGVFLDEKHNRTEQPADDCLRCHGMFFKGRTADLVTPLDTKG
+PWRLKDPALASRPAIPCLACHKMHATGRPFERPAKPAAGGEPVTNGPPLRRETIGFYVRQ
+ERAHFPIDDLAVPRVTEHGRPVKVSDDPRQRLCTQCHAPNASGEAGSSDDRTPVGVHEGL
+SCAACHAPHSNDARNSCVNCHPRLSNCGLDVRTMDTTFHIPSSRHNIHTVHCLDCHSAGV
+PAKPKL
+>tr|A0A1W9LDA0|A0A1W9LDA0_9BACT
+MTARAVYFDSPISFAEGVRIQEQLVRARAAGAIPDTVLFLEHRPVVTLGSRGRDQALLKS
+TKQLEAMGIEFARASRGGDVTYHGPGQLILYPILKLGEKEADAHGYLWNLEEIAIRTAAD
+FGVEARRRKGMNGAWTDAGKIAAIGFRLKRWVTMHGMSFNVDVDLAGFETIIPCGLKGEP
+VSSLKAILGARCPTLIAVRDRMRAHFETVCGRPLELVAADLAALP
+>tr|A0A1W9LC52|A0A1W9LC52_9BACT
+MNWIQVFSPATIGNIGPGFDVLGMAVKGLGDTVYARRIRSGIRIAEVKSPTPIPSDPRKN
+TAAIAASNVFRFLSVRGGIELRIHKGLPAGSGLGSSAASAAAGAYAANWLYGRELSTEQL
+ILAATQAEAEVSGGFFADNTAPALLGGATLTRCCVPLDVTRIGIIRRLRIVLVTPGITIL
+TRDARKILPATVPMASFVFNMANTALITAAFAKNDYSLFARSLNDVVVEPVRARLIRGFH
+QVKENAIRAGADGVAISGSGPTVFAITDNLRKARAIEQQMVLTFNAQGIPSRSWVTTMDP
+HGTRVVEPEG
+>tr|A0A1W9L9P7|A0A1W9L9P7_9BACT
+MHYRQIGTTDMKASCVAFGAWAIGGGPWWGPTDDAESIRAIHAAIDAGINLIDTAPMYEY
+GKSEELVGRAIRDRRDKVLIATKCGLWHRDARGSEWFTMGSHTIRRSLRPDTIRIEVEES
+LRRLGVDRIDLYQTHWQAIEPEKTPIADTMACLMDLRAQGKIRAIGVSNATTADMDAYRA
+AGELSACQPRYSMLDRAIEADVLPYCLRSNVAILAYSPLEQGLLTGKIGMDRTFGADESR
+NRIPWFLPANRARVLAMLGGWKDLCAAHACTLGQLVIAWTVAQPGLTIALCGARKVAQVL
+ENAKAGGLALDTATLARMRADVEALGAPAA
+>tr|A0A1W9L9T9|A0A1W9L9T9_9BACT
+MKLNQVACQLYTVREHLQTPNDIAASLKKVRAIGYEAVELSGLGNIETAELAQILSGEGL
+VCCAAHESSKALFSDPQAVVERCRLLNCHIAVFPWPGNHPPFDTLADVQEFAKYLNTAGH
+ILHESGITFCYHNHHMEFRRVERRLVMDVLFDETDPRYVKAELDTHWVQYGGGNPGEWCR
+KLHERLAILHMKDYGIDAENGVVFEEVGNGNLDWPDIIASAQDCGCQWFVVEQDRCPGDP
+FESLQKSFKFVRRMFCTE
+>tr|A0A1W9LD58|A0A1W9LD58_9BACT
+MSTEVDFLNVLVTRRFATETEAMMLRAKYKGDLFAMVLHLAEKKLDRKHELGRFWGDHLG
+VVYLDLSRTLIQDRLLQRLPEEFARKHLILPIYEFGGAVTIVTPTPLDRSLLTQTESYMD
+AFVSPAFSFPDQVADALEIGYQSEAGLTKLLETTQIGKILPQDGPVSADVLRKMAGDEAI
+IRFVKGLFVLALKQRASDIHIECGDGTARVRFRIDGVLQNVFHLEPALTSPIITRLKVLA
+TCDIAERRVPQDGGIKLSLAERSVDIRFSSVPTLHGEKVVLRILGSTKSQSVPGLKQLGF
+SQDILRGVKRVLGHPNGIFLVTGPTGSGKTTTLYAMLQSLNTDAVNIMTIEDPVEYRLPG
+ITHMQVNLISGLTFASALRATLRQDPNIILIGEIRDTETAQITTRAALTGHLVMSTLHTN
+GAIEAITRLIDMGVEPYMLAPSVIGIMSQRLVRRLCDNCKDRYKLSKEEVDRYFQSDGKT
+DVYFYRARGCPQCGKIGYIGRLGIHELVLVDDDIRNMISQAAPLRDIRACAERNGFRSLR
+YDGMKKALRGLTTMEEVDRVTILE
+>tr|A0A1W9LEF5|A0A1W9LEF5_9BACT
+MALPDRKRPAHPSPIERADRPILIFLTVCTRDRRPLLASPSAHELLLTAWQAADRWVVGH
+YIVMPDHIHLFCSPADRATRLRVWIEYWQWLVTRQWPVASEKPLWQRDHWDTQLRTGQSY
+SAKWDYVRHNPVRAGLVSDPDEWPHQGQMSLLPWTER
+>tr|A0A1W9LED7|A0A1W9LED7_9BACT
+MGGIFKAYDIRGIYDDTLTDDLAYRIGRAFGTFLKPRTVVVGRDIRPHSVPLFEALARGL
+TTQGADVIDLGLCSTPMSYHANGVLGADAGIMITASHNPKQWNGFKLCREKAIPISGATG
+IADLERIAMANAFDAPAAKPGVIRKHDILKAYGEHVRSVAAVKRPVKIAVDFANAMGIVE
+AEALRGVLEADCLFDTLDGSFPNHEANPLDLETLHALQAKVRAGTYDFGVAYDGDADRAG
+FIDETGAVIPMDMITALIAQSMLKAHKGAAIFYDLRSSWAVKEVIEENGGRPMMSRVGHA
+FIKQQMREADAVFAGELSGHYYFRDNFYAESSAMAVLYVANLVSASGKPLSEMIRPLQRY
+CASGEINSRVADTRAVLDRLAKKYPAGKTIRLDGLTVEFADWWFNVRASNTEPLVRLNLE
+AKTRAVMEARRDELLAVIRT
+>tr|A0A1W9LBZ0|A0A1W9LBZ0_9BACT
+MDRITIDPDQCGGRPCIRGLRIRVVDVLDLLAAGLSPEKVVEELPDLELPDVQACLQYAS
+L
+>tr|A0A1W9LDU0|A0A1W9LDU0_9BACT
+MPESLTRGRAVIKMGRDRPMRNTPRLALLLAILLNTGCALRDLRWEPIRPLRGATYRDVV
+LEATGYCACGDCCNWRRTWLGRTVIAEGRYSGFPKKVGYTASGTRAHPGTIAADTSRFPF
+GTILYVPGYGYGRVEDRGADIKGDRIDLYFLNHRTALKWGRVRIRVRVWPAGSRRAGSGS
+>tr|A0A1W9LAC5|A0A1W9LAC5_9BACT
+MSDTIPFTIDGVPVEGRPGQTILQAADEAGIYIPRLCAHKELHPFGACRVCTVKVNGRPQ
+SACTMPCAKGMVIENNTPELLDHRRGLIEMLFVEGNHYCMFCEKSGNCELQALAYRFGIM
+APRYPFQFPVREVDASHPDVMIDRNRCILCARCVRASHDLDGKNVFQFVGRGSKKKIWIN
+AEARMKDTDLDVTDKAVAICPVGAILKKRQGYAVPVGQRLYDHQPIGSDIETQRAAPAQA
+>tr|A0A1W9L8J5|A0A1W9L8J5_9BACT
+MFLRGVRAEDTLGDLAWLAAVTVLRAVSAAGGSVAAAHAAARVKSAARRELHEHLVRLGP
+AGLSAERSGELATTLSRGVEALEPFAAQFAPQVVLAALAPLVVLGFVIPKDWISALIFTL
+TGPLIPVFMALIGMAAERRTRKQWTVLSVLGARFLDTLQGLASLRLLGRAREQACEIAGA
+SEEFRRATMSVLRIAFLSSLAMELLAVLSTALVAVTIGVRLLKGGIEFEPALAVLILAPE
+FYGPLRALGARFHAGVEGAVAANRMSEILDLPPPVRAAPAAAALPAPAAPPAIRFDDVRF
+GYDGGTRPALRGASFELPAGRMTALVGASGSGKSAVARLLLRFLDVESGRILADGTDLAS
+LDPDAWRTRIAWVPQRPHLFHGTLADNLRLARPGATDSDLRRAAGDAGLDALLSRLPGGR
+PC
+>tr|A0A1W9LEJ8|A0A1W9LEJ8_9BACT
+MNATVRSRRARREVRIGVIGAGLIGLAHADRVARTPRARLAALCARDPAKADLASARGCA
+YFTDHRDLLRSGTCDAVLVATPHYAHVPIGLDALRAGLHVLLEKPVAVDLAGAQSLAAAH
+ARRRRQVCAVMFQMRTDPRFLRLRSLLQRGRLGTLQRMTWILTDWFRPSSYYASAKWRGT
+WEGEGGGVLVNQCPHQLDLLGWLFGPPDRVRAVCGFGRRHDIEVEDEATAVLEYPGGMTG
+TFITSTGEAPGTNRLEIAGTLGRMVLEGAALAVTTNETPSDEYCRRGTDLFGCPKTTEAV
+ISAAPAAPLHETVIRNFVAAILDGVPPVAPLEDGVRQVELANAMLLSSLRDRPVSLPLDA
+AAFGRRLRELVRAARARKARS
+>tr|A0A1W9LIZ3|A0A1W9LIZ3_9BACT
+MTAGDSSRRRDAVAAVLAGRVAPPGAAGSAYAPANIALVKYWGKRDAELNLPVTGSLSVS
+LGDAGTRTSVAAAARDSFRLNAVAVDPGAPAAVRLAQFLDLFRSPACPGFAVESVNSVPT
+AAGVASSASGFAALVRALDALFGWRLDAKGLSILARLGSGSACRSLWDGFVEWRAGELPD
+GADSHGVPVDARWPELRVGLWILRDAPKPTGSREGMRHTVETSPLYAAWPSAVGRDLGTV
+RGAIASRDLERLGRTAEGNALAMHATAIAARPPVLYWLPESVAAMARVSGWRADGIPVWF
+TMDAGPNLKLLFEASAEPALRSAIPGLRTLVPFPSDAGFPRV
+>tr|A0A1W9LDG5|A0A1W9LDG5_9BACT
+MPSLSLADHAAGLCKRYESWQSSPHTIIRLRRALRLFIAYLDEHHNVSTADAVTLEHVHA
+FQAHMSQRFTEKGLPWKPISINTVIKAVRPFLDYLHELGYITRDLSRHLQYIREPHLLPH
+SVLTHAQVRQLIRKIDTGTPTGVMDRAAIELLYSSGIRVGELEGLALTDVDLEQGVARVI
+GKGKKERFVPIGKTALKWLTSYIRGVRPYMLRGATTNAIFVNADGKPLRQDRIRARIHEY
+AAGLDLAISVTPHTFRRSCTSEMIKGNANLYHVKQLLGHKSFETLNHYAKLDITDLRKTH
+ERCHPREKDD
+>tr|A0A1W9LDR0|A0A1W9LDR0_9BACT
+MTTLNAGEARVLGCLLEKQMTTPEYYPMTLNALVAACNQKNNRQPWMALDETAAVVAVDG
+LRDKRLAAMVSEAGARVPKYRHTAAETLALDTPQLALLAELLLRGPQTAAELRTRAGRMH
+AFTDATPVPAILDALAARPEEPPVVKLPRQPGTKEGRYAHLLSGPPVMPAADAPSPAPAE
+PARLEVLAENGRVAHLEQEVATLRSEVVSLRQEFAEFRRQFQ
+>tr|A0A1W9LG22|A0A1W9LG22_9BACT
+MKVVIVGGVAGGASVAARLRRLDEQAQVVVIERTKYVSFANCGLPYHIGGAIKDRSLLLL
+QSPESLKASLNIDVRVGHEVLSIDRKLKSVRVRELDGGREYAEPYDVLVLAPGATPLRPD
+LPGIDDPRVLVLRNVEDMDAIKRRVDERARGAIVIGGGYIGVEMAESLRQRGLDVDLVEM
+VDQIMPPLDKEMVAPLEDHLKARGVRLHLGTAVAAFRTSPGGRIQAELKTGAVLTADFIV
+LAAGVRPDVALARVAGVDLGPRGGIKVDAHMRTSDPAIYAVGDAVEVVHTVMGDSWLIPL
+AGPANRQGRVAAENICGRNSTYASTQGTAIVKVFNMTAGGT
+>tr|A0A1W9LH67|A0A1W9LH67_9BACT
+MPLMPKRVKFRKQQRGSRKGTAQTCNALAFGAYGLQSLGREWITNVQIEACRVAINRFMK
+RKGRLWLRIYPDKPYTKKPLETRMGKGKGAVEGWVAVVRPGTMMFEMDGVPEAQAREALR
+LAAFKLPVRSKFVSRHARA
+>tr|A0A1W9LDC1|A0A1W9LDC1_9BACT
+MMKRVWSTPSVVQCDLIQTTLEGHGIRSEARNELSAQFTGVGYPVPSGQALAFAWPEIWV
+EEADYEQALALITGMMKQPPEGEAD
+>tr|A0A1W9L9C1|A0A1W9L9C1_9BACT
+MDPAVESARVTPVIRALRAASGAPISVDTRRASVARAALEASADIVNDISALGDPEMAEV
+VRRAGAGLVLMHMRGEPATMQDAPAYADVVAEVAEFLRARLDRAVAAGLAPEAVALDPGI
+GFGKTFEHNLALMAGLPRLAALGRPVLLGVSRKSVVGMLTGRGAGERMAGSLGLASYLAL
+RGAAVLRVHDVKETCDIVRVADRMRHEESTHGLELD
+>tr|A0A1W9LCV0|A0A1W9LCV0_9BACT
+MSEHEVERDWAGVNLADAEAVVAHALDRYHPAVALASSFSMEDCILMDLLARRRKDARVF
+ALDTGRLNPETYECAEAMGAPPHCDFHCTSFFARGPLVVSIASGGHTPALSAALRRRLEA
+AVGSGWQTAACRMAEARGRLGPGPARRALMKAITADAGLMDALARNDHRAIRARIVRLAG
+RPGGARRNHEKMEGRATRGRGDGPSGAQGSGSQ
+>tr|A0A1W9LHG8|A0A1W9LHG8_9BACT
+MRDTTVRSNGILWLGLLAVTGALAAGVLGVASPEKNGAASGKTDAEVLATGQKAARILGL
+MLPRAHLHHHDLDDTMAARALDLYLDAVDFDRTHFLASDIDEFRRDAGNIDDMLKDGDLS
+FAFKVNDRFLERVRNRMAFVETVLKQGFNVKDREVYPWKRKDAARAADEAAWDDLWRRKI
+KNEYVGRLVAVEMAKATEAATPAAKAAPAKDPKAPKTDKASKDAPAAPDASGKPAQGADA
+KPEKNLEKDILQADGDRKDLHLTPEDFIRKRYKQFQTALEDSDEDMVIDRFLSAFTQAYD
+PHSEYMTASRTEDFDISMRLSLVGIGAQLSSEDGAAKIERLIPGGPAERDGTLKVGDRIV
+AVGQGDTDPVETLHWPLYKVVRLIRGAKDSKVTLVYWPASDVSGAAERTVRLVRQEVKLE
+EQAAKSKVQEIDDGDGRKHKLGVLTLPEFYSDFKSKSREPRRSAADVRRLLEDLKREGVE
+GVALDLRNNGGGSLPDAIEIAGLFIKSGPIVQARDSRNVQVLSDPDPEQVYDGPLVVLVS
+RMSASASEIVSAALQDFGRAVVIGDRKTHGKGTVQTLLPLDNRDESLGSFKVTTASFYRI
+AGGSTQVKGVAPDIVVPSFFDTMEIGEEFLPHALPWTVVDPAFYAVLSDQIPPLDVLRER
+SAKRRAANSAFRIRDELIARLGTRMNSETISLNVDERVAIARADKELDDAQRTGGPAGKD
+SDEKEAAKDPVLVESLQILGDVVRWHEAAQTNQAVARQGV
+>tr|A0A1W9LGD5|A0A1W9LGD5_9BACT
+MARFESEQRSRILEAAVRVFAEHGWKGATTRLVGRAAGVNSALIYYYFENKDMLFQESIR
+HVLEGFLEYLRKQQTGFRNGPERVQFLVDGIFDYFSAHADRMQLILLAINLHGELFGRAL
+NALLKDQALVPLEVLAEGMSRGELRRMNPIQTWWCILGMCVLSLHMHRVMPHINRALAPA
+PLPSMNETRKQIAAILESGIAVPKTGRRRIRRRTK
+>tr|A0A1W9LB71|A0A1W9LB71_9BACT
+MSTIHPTAVIAPGAELGADVEVGPYCVIGPHVRVGDGTRLVSHVVLDGHLALGRGCRVFP
+FASLGTITQDLKYRGGAPRVEIGDGTTIREYVTVNTATADGDVTRVGERCLLMANTHVAH
+DCIVGNEAIMANSAALGGHVIVEDRAIIGGLSGIHQFVRIGTTSIIGSGSKLSQDLPPYM
+LADGNPIRVPTINLVGLRRRGHSAEACASLRAAHRILYREGLNVRQAVERIRAELSGPEI
+DRLAAFIEGSERGILR
+>tr|A0A1W9LH83|A0A1W9LH83_9BACT
+MRGGRTLSGRFRPMGNKNAALPMMAACLLTEQPVLLHNVPDIADVRVMMELLASVGVDVV
+FRDHTLRLSSRGVRPRNFPEALCRRVRSSILLAGPMAARFGRAVLSPPGGDVIGRRRVDA
+HFQGLRSLGIEVESGARFIFRRTALRPADLMLDEASVTATENVMMAAALAPGMTTVFNAA
+CEPHVQDLAGLLQQMGATVEGAGTNLLRIGGAASLRGAEATVGPDYVEMGSFLAAAAVTG
+GALVVEGAPDARTLAVCDRGFSVFGLPWKRQGATIEQRARTQLRVQRAVAGPVPKIEDGP
+WPAFPSDLMSVAIVMATQARGATLFFEKMFESRMYFVDRLIEMGAHIVACDPHRVLVSGP
+ARLHATNMTSPDIRAGMSMVVAALCARGTSIIENFAMIERGYERLPDRLRALGAEISVT
+>tr|A0A1W9LCI2|A0A1W9LCI2_9BACT
+MRLNAKVTWTLAILIVGSIALNYVVFRLFLYQSFTTLEDELAFRNVQRCRSAIQREIEYL
+ATVVRDWAQWDDAYRYMGERSAEFESANLDIASFTDNRLSLVQYYDVSNRLVWSRILDLC
+ASNDITLAGFSEGAPPCARILLNPAAPANSSSGVLLTDRGLLLVASSRILTTDAQGPARG
+VLVMGRFLDETEVQTLRDRVEVDLRVLPVHGGTVPQNASGRLDQLPPIGTPVIAPRDRYW
+LFASAVFEGLDGRPAFLMQIMVPREIAAKGREATYFASLSIAVVGLVLLATMLRLLQIVI
+LRPLGALTLNVLAVRKDARLSRPIALPRRDEIGTLSREFEVTMTQWARAREQAEAANRVK
+TEFLSTVSHELRTPLNGIIGVSELIAASDTREANRAHARRIVTEVEYLTEMINELLDSAK
+IEAGRLGLETVPFDVLALMEEVSSLLGLHSVQKGLLFETAVEPQIPRMLMGDPYRIRQVL
+MNLASNAIKFTKEGSVKVSVRKVEEREDAVLLRFAVQDTGIGIPPEQQAKLFQRYVQADD
+ETARKYGGTGLGMAISRDIVSLMGGDIGVESEVGKGSTFWFRVWLRTSAAPAPSRNPDAR
+PGRILLVEDYETSREAALAHLRSAGHEVVTAATGADALARAGEGRFDIILMDVHLPDMTG
+IDVVRSLRKQATLAEVPIIAMTADTSQHARHECREAGMNDVVIKPLRRDILLAKVAEWIR
+SHSAAPALDWPRAVHEFGGDAEQVRQLAASFVENVRAQLDKMKSALDAGSLDVVRFEAHA
+IRGGAGNLAADDMAVAAARVEDAAAGGHAEEAGKGLAVLVAELARLESEVGKLVSDAAEQ
+GGRA
+>tr|A0A1W9LAR5|A0A1W9LAR5_9BACT
+MIKIIKSVKKDVLAKAIQRARERGVILPQFAQQRDPSKIPPKIVEKLKGIGLWDINPLNL
+FRITWKNEPKKSGGGYGEGNWFEFPSELTGVEARIVGLQGRWFPTGAHKVGAAYGCLVPR
+LVSGNFDPTTQKAVWPSTGNYCRGGAYDCALLGCPAVAILPEGMSKERFTWLKELGTDEI
+IATPGTESNVKEIYDKCWELRRMRGDKIVIFNQFEEFGNSIWHYQMTGGVIEDILQKNFA
+KQGGRLAGYVSATGSAGTIAAADFLRTRHPAMRVVATEALQCPTLYQFGFGAHRIEGIGD
+KHIPWIHNVRNTDAVAAIDDEQVMQLLRLFNEDAGRAFLRKRGVKDAVIELLTAVGISGI
+CNLVAAIKTAKYFELGSRDVIFAPLTDSMDLYASRREEMEEAHGKYVEATAGAHYARYLL
+GIGTDTYRELSYFDRKALHNFKYFTWVEQQGRTSEELRQLWDEDFWTQLFAQEQVDEWDR
+MIAEFNAAAGVKI
+>tr|A0A1W9LA54|A0A1W9LA54_9BACT
+MAGLVLILLLSGAVARAAMDEAAAPAEAPAYPDARELLSAVLAGLPDVPVRITAQIQSKS
+RSGTLEKTLTAEMDLDWRGRPPTARYIIRDAFGGNAAGLNITWKADGRRTLRYFTGPSLV
+SAALPDLDTPIEGTDISWLDLSLSFLWWSGGQTVGAEKIKGRFCHIVDLPAPESDSASCA
+GVRLWIDPEIHILLQAATYDREGQLLKLLEVKSFRKIGDVWVIQNIDVQSFPMRHKTSLR
+VRQAAPESPASASRDAETD
+>tr|A0A1W9LGQ1|A0A1W9LGQ1_9BACT
+MTKDIGVGILGFGTVGAGVADLLLRANGLLAERTGVRPVLRAIADTDLERDRGVAVDRAL
+LTRDAAAVVDDPRVGIVVELIGGTRIARDLTLRALALGKPVVTANKALLAQHGPEIFAAA
+RAHGAGVYFEAAVAGGVPVIRAIRQGLVANRIDRIYGILNGTCNYILTRMEEENAPFETV
+LREAQAAGYAEADPSLDVDGHDTAHKAAILATLACGRPVPLESVRVEGIRRVSNLDLEYA
+HELGYRIKLLAVVHAGDGTADVAVGPCLVPAGHLIGQVRGVFNAVLVKGDAVGDTLYHGR
+GAGRYPTASAIVGDVADAARRLAAGSPHDDAYAGPSALPRAASSDPERYYLRLTLPERPG
+MLGRAADVLGSHGISIASVVQREGTSGPHVPVLFLTHRTGAEAMRDALRDLAAVDGAGAP
+PVCLRIEDLDGMD
+>tr|A0A1W9LI70|A0A1W9LI70_9BACT
+MTRPASRAAVGGGGPPAGGLRVPPNSAEAETGLLGCVLLDSVRVLDQCASKRLGPDCFYN
+PVHQRLFAVFAEMDQRQQPVDLLTVAGRLRDLGELDALGGDAYLQRLVDQTPTVEHASFY
+VDLVLQKYLLRTLLDRTRQVAEECYGAGDRDAMEVLGRAEQAVLEVGDFQGPAQAAWPQR
+VETVSNEMCRLLAEGGKTLTGLSTGFQKLDKILLGLQPSEMIVLAARPSQGKTSLAMNIA
+ENVACGINPLTGYGSGDRRPRPVAVFSLEMSAESLVRRMLCSRAGVAWDRIVGGYCDKDE
+QRRLVTAAHELMEARIHVDDTPALDAPQLRARARRMKKSHGIELIVIDYLQLLQFPGFEK
+EGRQRETQAISGALKAMAKELRVPVLVLSQLNRQPETRDTKGVPKLSDLRDSGSIEQDAD
+VVMLLRQPGKNKGDPRHAESEINPGLTVVDVAKQRNGRTGEIDLFFDGRYTRFGDPQDAG
+TDAAQIRPTEGGTDE
+>tr|A0A1W9LHB7|A0A1W9LHB7_9BACT
+MVNMSLLSSRRTTWAHTAARLSVLCVFSLASAPAPFAAAAVVVSEVMYDPVGGGTNEFVE
+LRNSGTNSVSLTGWYFADGITYTFAAGTVLPAGGYLAIAANRAAFQLRYPAVTNLAIGAF
+NGQLEALAKPHAERTGAAPDFEHGRARCRPCRGV
+>tr|A0A1W9LB54|A0A1W9LB54_9BACT
+MGSNPTLSASAEDAAACESRHFVYVLHSASRGVCYKGSCGDVERRLADHNAGRVRSTKSG
+RPWVLRHCEAFGSKTEALQRERFLKTRSGYRWLKARGLV
+>tr|A0A1W9LGU2|A0A1W9LGU2_9BACT
+MQGSVQWDPGRRPRGDGRRRNPKEKTLMTTTRSNGRVGTSRRDFLKQAAMFAAAPAFLPA
+LARGGSGPNSRVTMAILGCGNQAAEDLKSWLPLPNLQIVAVCDVNRASYGYKTPQQFLGR
+EPVRDLINAHYAKGTESGAWKGVDMYTDFREILARKDIDTVAVIVPDHWHTIMTVRAAEA
+GKDIYCQKPLTLTMAEGPKMIAAVRKHGRILQTGSQWRSNPLMRKFCEMVRNGAVGKIRR
+IETLVAENNFFGPGPGWKPDPVPEGFDYDAWLGPAPKAPYHRERSRVGLPDPEARLRRAR
+VRRTGMDRGRREGHPERAGRSGLDDDSRRGHPPVREQRPLQGLRRLRRGAQGADRARRGR
+HPHSDALPPRQHRDEAAPEDQVGSESGAVRRRRRGERDAVPPVPRALGLSAARPQDGGGV
+TVRRGRPARAGRTMCIPRRPWGRPGGSRIRRPPGHAAR
+>tr|A0A1W9LGE6|A0A1W9LGE6_9BACT
+MTSARGTTWVLPRLYAMMFLQYFVWGCWFATIGNYMTRAGMGNAIFWAYTVGPIAAFVTP
+FFLGMVADRFLPTQTVLAALHLLGAAAIFLAPAVVPAGPDGSPLAFILMLQAHTLCYMPT
+IGLANTLAFRHLTNQEKQFPVIRVFGTFGWIAAGVLVSKVLKADETDLPMKVAAAAGLLT
+GLYSLSLPHTPPPAKGRAFSWRDAMGLDALQLLRKPSFAIFLAASLLICIPLSAYFAYAP
+LFIKVAGLGDPAFRMTFGQMSEIFFMLAMPLFFARLGMKRMILIGTMAWVVRYGLFAAAS
+TGSVAWMVLGGILLHGICYDFFFVTGYIYTDRVAPAKIRAQAQGLVVLATLGLGMLIGAQ
+VAGAMFNLVVTAAPGTPEVLAQWRTFWTVPAVLAAVVMILFGMFFREDRAPASGA
+>tr|A0A1W9LGY3|A0A1W9LGY3_9BACT
+MATEVILMQKVENLGMDGDVVRVAEGYARNYLFPKNLAAPVTAATRRRLEKLRADRTATE
+TARVQAFKDLADRVAGSSVTISVRTGAADKMFGAVTAAHIADALKLQGFEIDRHQIELAE
+PIKELGVFTVPVRLQPETTAALKVWIVEE
+>tr|A0A1W9LEW3|A0A1W9LEW3_9BACT
+MSSTSGFVGAVEMRPSFARRRVRHVVFDFDGTLSWLRHGWPDIMLNLFLDRFPRQSGETE
+ESVRNALLGIVLGLNGHPTIRQMTRFGELVYERGGAPQDPADLLHVYTDRLEAEIAARTA
+LIRSGHAQPDDFVVHGAHPLLERLRHLGIPCSILSSTLEERVRGEAELLGLAPFFDGRIH
+GGTGDPGRFSKMEVFRRILRETKIDGTELLSFGDGPVEIADTKSLGGAAIAVCSDETRNG
+SGVMDPCKRRQLLDAGADAAIPDYRDAPALLDRMREP
+>tr|A0A1W9LCW5|A0A1W9LCW5_9BACT
+MQKNTWWQWLILAAAVIGSIAIVTPPFDKKNDKGQVVRPGKIKLGLDLQGGTSFIVEVDR
+AELRSRLLERSPDLTDEQIEATIAKDLVVSRDVALEAIRNRIDGLGIAEPQIYPQMADRI
+VVQMPGIDAKKRDAARKSIQSVAFLEFRLVHKDNDAWIRKLAEGDKAPRGFTAEGDGGKF
+HYVRDRVAVPDAEMDSAFWAEMRRFTPREGAEFMLQRDEEGEIKRTIWRPVYVERAVMLS
+GKAVDEARVDFDNLNRPVVDLKFTKQGARQFTEIIRRYRPNGEMNRDNDNGRQLAIILDG
+ALRSAPEITDRFPHDTTIRNCEISGRGMDVAEVKQLVNVLKTGALLAPMRIAQESTVDST
+LGRDSVRSGVMASVVGAVFVALFMLAYYLVPGLFANVALVLDVILMPLGMMIVAGVLAVF
+SRAGGTPELPTLTLPGIAGIALTFGMAVDANVLIYERIREELKAGKHLGAAVEAGYDRAF
+ITILDSNLTTLLAALIMFWQGSGPVRGYAITLSAGILVSMYTAILCTRMLFNWLVGSGRL
+TSIRMLGWVKDTSIDFLGKRKVAALFSLVLIAVTWGVFATRGPKNFGVDFIGGASVVFDY
+KQRVSEESIREVLAKAGVEGEPMIQYQTMGGSIGSAVRARLVVQVGANDGEKVVELLTKG
+MPTAGFHLLQKEEIGPQIGKELKTKGLYALLWSMVGMIVFISWRFEFAFAMGAIVALVHD
+VLVAVGVFCLLGRQLSAPMIAVILTIIGYSVNDTIVIFDRIREGSKLWRGKSFLDVCNQA
+INQTLGRTIITSGTVVISVLSLLLFGGGAINDFALLLLIGLIAGTYSTIFIATPVMLLWH
+KGDRPAVVGASTPVPKPGKNGKPAKATA
+>tr|A0A1W9LAU7|A0A1W9LAU7_9BACT
+AALNARGIVDILVVDDLNTDEKWRNLVGLDYEDYLDRDDFRFAIRNDAVRNADAVFHLGA
+CSATTEKNASYLADNNYRYSRELCEWCGEHDVRFIYASSAATYGDGSLGYSDDPELLSQL
+RPLNMYGYSKHMFDLWALRKGFLDRIAGLKYFNVYGPNEAHKGDMRSVVHKAWGQIRTEG
+ALKLFKSHVPEFRDGEQLRDFVHVSDAVAATLHFFDQRDVSGLYNCGTGRARTWNDLGKA
+VFAAMGLPPRIEYIDMPEALRGKYQYRTEADTTRLRATGYAEEFTSLEDGIADYIGRLER
+GETP
+>tr|A0A1W9LAN1|A0A1W9LAN1_9BACT
+MRVILIGAGSAGRDLAVRLYKEQHDVVVVDRDPAVLSQLQEEMDIQTVVGHGSSPAVLKR
+AGVAEADLLVAVTDNDEVNLLSCVCAKTAGVRFRVARVSNIDIRTDCDLLRLNELGVDLA
+INPKEECAVELAYMLQLPGAEEVVDLLQGRVLALGFKISADSPLLRQTLKDCLPQELLRT
+VRFIALQRGEDLSIPFGDTRFMVGDDLYVVGQPDALPPLMDVVYPDRPKIGKVIVAGGGS
+LGLSLARQLERSGMDIVLIESDAKTADACSNVLDRVLVLHGDAMSHETLENAGIGENTAF
+VSTTGSDENNIIMCLLAQKAGASFTVGSVSKPQYVPVINSLSLLDRAVSPHLSMMNSILH
+FIRGRNVRAATLFHTLPGELLEIVLDTGHQWAGRAVKDLGMPKGTILATMERGG
+>tr|A0A1W9LGX3|A0A1W9LGX3_9BACT
+MAAALLLGGCATPGPERAFLESVRQHPDRAALIPRVRPFAHGGVCAEYSAVATVARHWKE
+PSSPEEICRWISKNGLKTLSAGWVTRYASDHGLWAHASRGSAPALAARIRCGVPVIATLQ
+SNALDAATRRQVVVIGYDNEAQQLLCLDGGRATALYTGAAFESAWRAQNYRMLVVCPPER
+ATWTLTPEEHGTRAEFYERALRYSEAARDYGAALAAGPGNAQMRVGFGNALRALKRTGEA
+EKAYREAIAADPHLERAYNNLAYLLAESNRSLDEAIALARQALVLDPANALPMDTLGFAL
+YQQGRYKEAADMLERARARARWSSSETRIEIGMHLVWAHHRGGQDHLAREVLADLRKLDP
+RLEVPGELRPLLKPARRRR
+>tr|A0A1W9LHE2|A0A1W9LHE2_9BACT
+MTGRTMLLDAVQGKTTARPAWLPFVGCHGGHLIGRGAAEYLQSADRVVQGLTTAVGLYRP
+DGLPVLFDLQVEAEILGCRLHWAEEVPPSVIAHPLEEAPLSALPKYDAGGGRMPVALGAL
+QTLRRRFGDETAFYGLLCGPFTLAAHLRGNSLFLDMFDDPARVDDLLAHCAGVARDTAAA
+YLAAGADVIAVVDPMVSQISPEDFTRFVAPALDNVFDFIRARGGLSSLFVCGDVSRNLEA
+MCRTKADNLSVDEQIPIPRLRSLCDAAGKSFGGNLRLTSVLLLGEPDDARKEAIDVLDAA
+GPRGFVLAPGCDLPYATPPANLQAVADMVHDPYARDVARTSLATRAADTFDDVAVPDYGA
+ADGVVVDVITLDSTSCAPCQYMMEAVRRAATASGVRCYINEHTIKVRQGLGMMMKLGVKN
+LPTICVDGEVRFASIIPDPNTLAGVLRDAAAHRGRA
+>tr|A0A1W9LF13|A0A1W9LF13_9BACT
+MSAFRLSPMSRRRLAVFRANRRGVWSLRLFLLTLAIALPAEFVANDRPLAVRAGGHWFFP
+VIREVPETALGGVFATPADFRDPFVAGDLVAKRGGFILWPPVPYAHDTIDLDSETPAPAS
+PSRRHWFGTDDQGRDVLARAIHGLRLSIVFGFTLTLLSSVVGVLLGLWQGYAGGWVDLVF
+QRFMELWGAMPRLFILIIMSTVIDPSFVSLLGILMLFSWMSLVHVVRAETLRARNFDYVR
+AARALGLSGFRTAMRHVLPNSIVAALTYLPFILAGSLTMLTSLDFLGLGLPPGSPSLGEM
+LQQGKANLHAPWLGLTAFTVLAVLFTLVVFIGEAVRDAFDPRKSAGRATP
+>tr|A0A1W9L8D1|A0A1W9L8D1_9BACT
+MNYDISGMLRGWEYDPGSISARWIKGKDSKLKIQLRLDLGLFQMESEGRPDGTHPRGYPS
+LLDYYRSIEKTSPAAAQSMKLDGDACAELQQEAMQYYYRYLSLYALHFFEGVVRDTDHNL
+ALIELVSRHAENDDLAWQFLQFYPYVRMMNARARAEKAMGSKQYEEAVGDLHRALDDIQA
+FWREYNDTDGGDRQEIDLLTDLLTQVQKKTPRSPVDRLREQLAQAIAVENYEKAAMLRDK
+LGTMVTSAAESKPKTESG
+>tr|A0A1W9LE17|A0A1W9LE17_9BACT
+MRRRRLVWHVLPHFMLIAAVSTAIAAWFADRTIRGFHIERVEESLAVQNRFLQERIPSDP
+AGPESAAALATAIEAGHRAAPDTRITVIAPDGRVLADSVADASHMQPHQGRPEVAAALQG
+RVGRDMRRSDTTGRNTLYIARPIHADGRVLCVVRTAASITDMEEVLSGLQRRIILQGITL
+MLIAVGVAFFLSTRVLRPLASLEDGAGRFAAGDLTYRVPVSNAREIAAVAEAMNRMAAQL
+CDRIGAIETQRSELETLLASLGEGVVAVDAAEQVLYANDRAVELLGANGAATRGHDLREV
+IRHPGLQEVILRAVKTGEPAEADVVLRGDRDTYLQGRAVPLRDTGNEVRGAVIVMNDLTR
+IHRLMVLRRDFVANVSHELKTPLTSIGGFVETMLDPDPPPEADRQRFLGIILRQVQRLQT
+LVDDLLGLARIEQQAEDGAVETVLTPVKAVVDDAVETCRQTALEGGVAIDADVAEGISAR
+MDADRIGRAVVNLLDNAIKHSPAGSRVRIECRAAGSQLELVVTDRGSGIEPQHLPRLFER
+FYRVDKARSRRDGGTGLGLAIVKHIVQAHGGQVAVESRPGEGSRFSFRIPMAGPPHPPV
+>tr|A0A1W9LCS6|A0A1W9LCS6_9BACT
+RDAIRAVQRDLFVVGAEIATSIDAIELLTRRIDAGRLADLDRRRDALEAVTPWPQGFVVP
+GANPASAHLDHARSVARRLERCVTRILDEGVIENRTLLMWLNRLSDYLWLLARSEEEHPD
+LLDAPE
+>tr|A0A1W9L9Q7|A0A1W9L9Q7_9BACT
+MNRLDLPIFEIEPALLERVAAQGRVIVQAPTGSGKSTQIPQMLLDHGLLNAGHVVILQPR
+RLATRMLASRVAAERGSRLGEEVGYQIRFENVSSARTRIKYETEGILLRQMLTNPNLEGV
+SAIIFDEFHERHLYGDITLARSLQIQESTRPDLKLLVMSATLDLGPLEKYLAPCAVLTSE
+GRTYPVAIEYLEGRPPSRPSLPIEDVPAWELAAREFERLMNEGAEGDFLIFMPGAYEIGR
+TVQAIRNSPSARGCIVLPLHGELSVNDQDAAVARYDRRKIVVSTNVAESSLTIDGVRVVL
+DSGLARIPRFDPYRGINTLLIERISRASADQRAGRAGRTAPGRCIRLWTEREHRERAPQE
+LPEVKRLDLAEVVLTLKASGVDDVRAFRWLEPPEPRSLDRAELLLRDLGAIDSHTGCITE
+LGRRMLSFPVHPRYSRMLLAANEFGCVKTVALIAALTQGRNLLQRRQGSEVKGDREDMLG
+EEAESDFFILMRAWRYADQHRYDVERCRRLGIHALSARQVGPLFDYFLRIAKDEGLRIED
+KAPDSEAIQKAVLAGFSDQLARRVDAGTLRCQLVHGRKGQLARESVVQKSPLFVAAEVRE
+IEGKDRELNVLLSLATAVEPAWLREMFPDDFSETVEVTYDTAAKRVVGQRHVLFRDLPLE
+SKRSEPPADEAAAILAMEVLKGNLTLKSWDHSVDQWMVRVNCLARWCPELQIPPITGEDK
+DAMIRRVCLGAASYKEIKERPVRAAVKAHLAGAQQTLVEKHAPERIELPNGRHAKVTYSL
+EQPPFIAVRIQDLYDVKQTPRLAMNRIPVVVHILGPNQRPVQVTQDLAGFWREHYPRIKQ
+ELQRKYPKHEWR
+>tr|A0A1W9LBG2|A0A1W9LBG2_9BACT
+MKTPAPAAGPRHVAIIMDGNGRWARGRGLSRVRGHEAGAKSISAALRACRDLGIQYLTLY
+AFSVENWVRPRAEVAALMALLRRFLRAREKELHENRTRLRAIGRLADLPAPARRELQRVM
+DATAHYTERHLVLALSYGGRAEIADAARRIAERAKAGELDPAKVDEAVVAAHLYAPDIPD
+PDLMIRTSGEMRLSNFLLWQLSYAEFHFTPILWPDFREADLAAAVGEYRRRHRRFGDIG
+>tr|A0A1W9L7J5|A0A1W9L7J5_9BACT
+MKSMRVTDFQQYIYDATRSIPKGRVTTYALLGQAIGCRSPRAVGQALRRNPFAPKVPCHR
+VIVDRRNRERLRGQQEFWRDRRRHIEPGLRQLRVLDAGEVSAGVRRGDRQRREPVAAGVS
+PKGPVRRGVLRGPAQRRRA
+>tr|A0A1W9LEE9|A0A1W9LEE9_9BACT
+MGHMTAPGSSLLLVDGHNIAYRAFHAIPPLTAPDGTPIQAVLGFARILASLRDTWRPSHV
+CVAFDGGLPAARTEALATYKAQRAPMPETLRPQFAILGEYLSLAGVAHIRIEGEEADDIL
+ATLARRAAADGADVVVVSGDKDLLQLASDRIALVRPQTPRERVDPAGVRALLGIDPGRVP
+EWLALTGDSSDNIPGVPGVGAKTATALLARFGNLEALWTRVTEVTPVRIRDLLLAHRATV
+ERNLGMVRLRDDLPDLPDWTTLALGAPRGGELRSFLARYGLRSLMSLVPEPELF
+>tr|A0A1W9LGV8|A0A1W9LGV8_9BACT
+MNRRAFVRGIAAGAAVSIVPARVLGRDGAPPSAKLNIAGIGGGRQGLRDLQKLADENIVA
+LCDVDPVFSEKARKEFPKASFHTDWRAMLEKEKGIDAVLIATPDHTHAVIAAAAMKAGKH
+VFCEKPLTHNIREARMKEMSPSLPSKSLPPVEGGALRELGARLQGAGQGRRGLRVRRAPH
+RDLPARQHRQAHAEADRLGRRKNGRDQSPRSQPLRRPRLSRRLVAVGAGTRSGAPCPCNG
+ISINSNSCDR
+>tr|A0A1W9L7W2|A0A1W9L7W2_9BACT
+MSSFSDYGLSPALLKAVVELGFETPTPVQDKVIPLLLKGQRDLVALAQTGTGKTAAFGLP
+LLQLTDPEMHQIQALILAPTRELCLQIAKDLADYGRFAPHLRVLPVYGGAPIHVQMRTLA
+RGVHILVATPGRLNDLMRRGSVKLEHVQRVVLDEADEMLNMGFQEDLETILKDVPEQART
+LLFSATMPRQVAAIAGKYMHDPEEIILGKRNAGAENVTHECYTVHARDRYQALKRIIDAR
+PGFYGIVFCRTRAETQEVAGKLAGDGYNSDTLHGDLSQDQRDRVMRAFRQRAVQILVATD
+VAARGLDVDDLTHIVNYDLPNDPDVYTHRSGRTGRAGKAGVSIVLVHMREDYKIRVIERL
+MNKRFEYKPVPGGREVCEAQLTAYLEQIRAAKPVGRDLETFMPKVNELLDGLSREELIER
+FVLRGISRFLDYYRNAVDLNVAHHHDRPDRPDRAEPGFRPERGGPAAGPPVGDVVRMRIN
+LGARNGLTPQMLISVINRATPGPKLRVGRIRILEQDSLFEVSAETAGIILPNLNQADFHG
+RRVRAVAEQDPRGDAGRGPGRPGGFHGRPHGPPAAPVLTRGNPSVFRHISSRQSNPPRST
+VRRYSSANEGSRGSSRNGFVKTRRPPGRSTAEAASKKAVKNSHGSANRRRRPRGGLVITS
+DTLPGPSPHALAASRKSQHAKVAGTATLAASRLARAMTSASGLMSVP
+>tr|A0A1W9LDI4|A0A1W9LDI4_9BACT
+MARTFDNDDIERLKRNTSIEALCRSRGIELKKHGSRDFIGKCPFHEDENPSFVVSPEKNL
+FHCLGCDAGGSVIDLVMKLDKIDFKEAVQKLLASTSAVRLGGAAACPAKLPERSRVAPEK
+ANTLLEKVVAVYEKTFAEVPEGRAYLERRGITDAGLFSCHRVGFANGKLKELLPSGGTVR
+DELKAIGVLLDNGHERFAGCVIFPVYGPDGRLVTIYGRFTGEGPKRHVYLPDRSTGLWNA
+AAVKSYPEIILVESVIDALSVMMAGHRNVIAIQGTNGFDEGDIKTLNTHGVQAVTLLLDG
+DEAGGKAAARLRPRLEAAGLTVTVKALPATDDPNSYLAGQGAEALARFLLSATWTPGEMR
+ATDFIPEGQDTAGNSTRARGETLSGSSGTSSTSEDRQAPPPTGPVADTGNGTRSGGTGDG
+LTVTYGVRKYRIMGLEKGPRKLKATVRIEHAGKLHVDTLDFYSARSRRVLAVDLCRIFEE
+TPETIEGDLDKLLRHCEALPDKLDTAAPIRAAVELMTAAHRKEAETFGKSPTLFGDILAD
+CEKRGLMGEGNNVHLLYVAMTSRKRDTPLSVLILSSSGSGKTALQDAVLAFCPPEDLVKL
+TALSGKALFYKERLSLKNKVLALEEGDGAEDAMYAIRNLISAGELVSESTIKDLVTGRLT
+TMENKVEGPSSVCFTTTKPDVDPETKSRFWVTSIDESRDQTRKILSFQRQQHLSDGLITT
+PEIEAVLRKHRNFQRLLKPLAVKNPYAAQLAYGDDRLQGRRDQPKYLNLIKAIAFLRQMT
+KEVFYEQRNGSAVPYINADRDDIALANRLAHEILGHSLDELSRPGSDLLLQLEDLAKERL
+KARQKENPDSKLRTTDLSFSRRDIREFTGWSNTRLHVHLKELVDFEYIAIETGRNGMPFR
+YRLAWEGQGKDGKRFMLGLAELDKLRDPSPGDGAK
+>tr|A0A1W9LH98|A0A1W9LH98_9BACT
+MSEIVDIFAREIIDSRGNPTVEVEVTLGDGTNGRAAVPSGASTGENEAIELRDGDKRRFL
+GKGVLKAVKNVNEVIAPKLLGYDALDQTGLDRLMIELDGTETKSKLGANAILGVSLANAH
+AAAAMLGIPLFRHIGGTNAKVLPVPMMNVMNGGAHSDAPVDVQEFMIMPKGAKSFAEGLR
+MGAEVFHALKSVLKKQGLSTAVGDEGGFAPNVASNVAALDAIMEAVGVAGYKAGKDIFIC
+LDPAASEFFDTKKKKYVFKKSDKSEKTPEQMVDFWAGWVKNYPIVSIEDGMAESDWDGWK
+LMTDRLGGKIQLVGDDLFVTNTKFLKKGIDLGVANSILVKVNQIGTLTETLDAIEMAKRA
+GYTAVISHRSGETEDATIADIAVATNAGQIKTGSMSRTDRICKYNQLLRIADVLGDDAIY
+GSTCFGSRI
+>tr|A0A1W9LAR8|A0A1W9LAR8_9BACT
+GHAFPDWAGEEENVRVWRTLEPVLRALPSMQEAVASGNDDLSEIERQILVERHLASREHA
+RKGRGSGIVLRSDERLAVMVNEEDHLRMQSLECGLQLREVWARMEALDREVERQAACAFS
+PRLGYLTACPTNVGTGLRASVMLHLPGLVLMEEMGRVINGIQKLGMTVRGLWGEGTEAIG
+NMFQISNQMTLGAREEELVNDLDHLVQEVVGHERNARGMLLRRRETVVRDQIGRALGILQ
+NAHILSSDETLAHLSVLRLGIELGILDRLDRASVDTLLRMTQPAHIQQAEGRPLGSRERD
+EARARLVRERLGAAPRSRRRRKTKE
+>tr|A0A1W9LG77|A0A1W9LG77_9BACT
+MGFQDHDILILDGACGTTLQRMDIPAAAWPGREGCNEWLNVTAPDVISEMHRMFVDAGAM
+VIESNTFGASSIVLAEYDLQDRVAEINAAAVANARRAIGGRPGRYVAGSIGPTTKIASLG
+QIPVETQAAAFREQIRALLEAGVDALIIETCQDLLQVKTAVVAAFETMEAAGREVPVMVS
+VTIEQTGTMLVGTDLGAVCATLEPFPVFSLGLNCATGPQAMESHIRFLSHNWPRRISCVP
+NAGLPAVEDGKTVYKLGPEEFATHLRHFVERDGVSVVGGCCGTTPEHIAALVRALDGVTP
+RVR
+>tr|A0A1W9LCN6|A0A1W9LCN6_9BACT
+MPRKGQRKLRIRDLGDPDGSAFLAAAFCDALRQKNYSPATIRGREHYLGVFVRWCAERGL
+FQPREITKPILERYQRWLYHYRQKNGNPLTFRSQATHLIPVRAFFKWLTRENHILYNPAS
+EIELPKLEHRLPKHVLTAHEAESVIALPDVREPMGLRDRAILEVFYSTGMRRMELANLKL
+YDLDNERGTVMIRQGKGKKDRMIPIGERALAWVGKYLADARPRLVQEPDDGTIFVTNLGE
+AFSPNRLTQLAREYVKAAELGKTGACHLFRHTMATLMLENGADIRFIQEMLGHAELSTTQ
+IYTQVSIRKLKEIHTATHPAKMKPDRPDVSAVVLAEAETFDNPA
+>tr|A0A1W9LGN4|A0A1W9LGN4_9BACT
+MRMRMQWAAVVAAVAGLGLAATAGAQDRKGVIGFINLDRCFNEYYKTRVADAQLKSQAKE
+FDEELKKLMGDAERLRKEFNVLREESQNTALSDEIRGAKRNSAEEKVMAIREQETRIQGF
+RERRGKQLEEQSRRMRRGLVGEIRDIVKTFSRERGYEAVLDSSGASLNGVESVLYVDPRN
+DITEEVVVILNKGAPANLPPPLQSGGARNAEKK
+>tr|A0A1W9LB78|A0A1W9LB78_9BACT
+MLRCESWDDGRGIGSSLWLPGVRGRRAGEMTMMRGTTGAVAAMAIAFAAGAHASWPEFRG
+PTGDGHVPATSGTLPTEWSETNHVAWKTPIPHKGWSTPVVLDGRVWLTTATPDGHDFFAV
+CLDAASGAVRFNGRIFHADNPEPLGNEMNGYASPSPAIEPGRVYVHFGSYGTACLDADTG
+RAIWQRTDLPCRHYRGPGSSPVMFRDLLILTMDGVDLQYVVALDRKTGKTVWKTDRTAVW
+NDLGPDGLPLKEGDLRKAYSTPFVGDVNGRPQVFTVGAKAAYGYDAETGKEIWKIVYPQY
+SGAARPVFSHGLVFVSSGAGKSELWAIRPDGRGDVTSSHVAWKAVKSIPRIPSPIVVGDL
+LYLTGEDGGLQCLDVATGTA
+>tr|A0A1W9L8B3|A0A1W9L8B3_9BACT
+MRAYMMLGMVPLPMLVGKVPSAWLLGAMVVLMLGFNLIRGFASGAWFPWLAHIVPADQRG
+RFFGRENFAINAGVLGAQILGGIREPDALPAGRLLVRVLWHGPIRAISGLWLGEDRASQR
+>tr|A0A1W9LB69|A0A1W9LB69_9BACT
+MKAPRPASSSATLSRRRFLAGALAGAAFQIVPRRVLGGTGQPAPNDEITRAVIGVGGMGT
+EHLGYAGARTVAVCDTDAKRVEKALARCPDAKGYRDFREVLARPDIDVVHIATPPHWHGL
+ISLAAAQAGKDVWCEKPMTHTIAEGIAVRDAVQRHGRIFRINTWFRFEGGYYGFGTPVAP
+IKKIVDSGVLGWPLRATVGDVSGFAWKFGWSGLRNAKPEPVPPELDYDLWLGPAPFKPYH
+AHRVHSTFRGYWDYDGGGLGDMGQHYLDPVQYLLGKDDTGPVEVSADAPQQHPDAAGSFH
+SIRIRYADGCEIVLDGHDAGGRRVPFLEGPKGKLYKNLESDVPGLARILAALPDPPPRPT
+NFYDCVRTRRPFALNERNAHRSCTLVNLAIIAWRLGRPVRWDPATETLIGDPAASRLASV
+PMRAPWTI
+>tr|A0A1W9LCZ2|A0A1W9LCZ2_9BACT
+MNDGNRSGGGTDDDRLIPKHGGFRDLKTFQLSELIYDVTVRFCHRFVSPRSRTFDQMVQA
+ARSGRQNIAEGSVDSATSKKIELKLTGIAKGSQQELALDFEDFLRQRELPLWAPDHPALS
+RFRALRCDNLHAFRVWVADEVRRAGTLQDTDRHGRPRADTDRHSPPNVRARPHSSVSVRA
+PSVSPLAPREVLPATLAANAALSLLNVSTYLLERQIQSLAREFERNGGFTERLYRRRSAL
+RG
+>tr|A0A1W9LDR7|A0A1W9LDR7_9BACT
+RRAIESLMDLSPATARVVGPRDGDTEERRAEEVEPGSLVEVRPGERIPLDGVVTAGTTAV
+NQAPITGESAPAPKSTGDEVFAGTINGTGAFRFRVTKAAGDTMLARIIRMVEEAQARRAP
+SEQWVEKFARYYTPAMMALAILVAVIPPLLLGGGWARWFYQGLVMLVIACPCALVISTPV
+SIVAGLTTATRAGVLIKGGAFLEIPARLRAIAFDKTGTLTRGHPEVQRIVPLNGHTENEL
+LATAAGLEASSEHPLALAIRRKAVDAGVAPRAASGFQAIPGKGAEAEIDGKRYWIGSHRL
+MHELGIEKDDAHAEAEALEDAGHSVVALGNDRHVCGLISVADGLRPQSAAAVAALRDAGV
+RSVVMLTGDNEGTAAAVAKAVGVDRYESELLPEDKIRAVEQLVREYHRVAMVGDGVNDAP
+ALAAATVGIAMGAAGTDAAIETADIALMSDDLSKLPWLIRHSRRTLAIVKQNIVFALALK
+LVFMGLAAGGVATLWMAIAADMGASLLVIFNGLRLLRSEGSG
+>tr|A0A1W9LF60|A0A1W9LF60_9BACT
+AAGELPVQEALRRLGAASEENLGFARVDLERHHRRGFPEVIFSSGKTPEQIIPSMRALQR
+AGQNILCTRATREMYDAIAQAYPGAVYHAEARLITLDVTERPKQTGQIAVVSAGTSDIPV
+AEEAAITAEWMGARVVRVYDVGVAGLHRLVNHLDTLRASRAVVVVAGMEGALPSVVGGLI
+ARPIIAVPTSVGYGTHLQGLAPLLAMLNTCVPGIAVVNVDNGFGAGVTAALINRTEATE
+>tr|A0A1W9LFZ8|A0A1W9LFZ8_9BACT
+MILRLARRMLTEPSPRLLMRFAVNAGWKGMRALRRLRRATPGPGLVPPFLFISLTNDCNL
+ACQGCWVTPSSPPRSIDPAVLDRLISTWQSRGSSFFGLLGGEPLLYPGLFDVLARHPEAY
+FQLFTNGTFLTDAVAARLRKLGNVTPLISIEGREKSGDERRGGRGVFGSALDALAHCRRH
+RLITGVATSVCRTNLDELATDGFLNELIGRGVHYAWYYIYRPVGPRPTPEIALSADEILR
+LRRFLVDARTRAPIMVVDAYWDADGKGLCPAAAGLSHHVGPAGDIEPCPVIQFAADDIGD
+GSRTAGVVAESTFLAGARARLAEAGGGCILMRRPDRLLDYVETAGARDTSGRGTAAAELR
+AMQARPDHEMGAQAIPERHWLYRAAKRNVFFGLGAYG
+>tr|A0A1W9L8K0|A0A1W9L8K0_9BACT
+MGDLGERALIQRLSGWVGRGRDVARGIGDDCAVVRVRGSAWDWLLTTDPVIEGVHFLPGT
+PGRRVGHKAAGRVLSDIAAMGGEPMHVLFDLVAPPETPVRRIEDIYRGATAVCARHGAAI
+VGGDVARGPRLELHAFAVGRVERGRAVLRSGARPGDAIYVTGRLGGSLLGRHLVFDPRVP
+AGRWLVRGGWATSMMDVSDGLASDLRRILEESRVGACLDAARIPVAAAARRVKDGRSAID
+HALRDGEDFELLFTVSARRVASFVRAWKAAFPQLPATAIGIVESKVRGLAMLDQGIRRPV
+GRGYEHFVA
+>tr|A0A1W9LFJ0|A0A1W9LFJ0_9BACT
+MSGDVKGKTFPIDRDVFTVGRSKDNAVMLDNPTVSGHHCSIVRDGDRFVLRDLESTNGTR
+LNAKEVTESKLRPKDLVQIGSVEFIFDSERLDAVDTHSYAEAHVEVAPGPVAAPDTFNSI
+SPFGARQSDSKGMWFLLISVFGLLALVVVILYFINLVTTD
+>tr|A0A1W9LE20|A0A1W9LE20_9BACT
+MTASTASAPGSLMLLGEHAVLHGRPALVCAVNRRIRVTLRPRADREVHIRSSLGRYAIAI
+DQLQPADPFRFVIAAVLRQKDRLDAGLDLEIESEFSHQVGLGSSAAVTVATTAALLAWIG
+EPAEPQTIFDESLTVVRQTQGLGSGADVAASVFGGIVAYRASPVDIRKLDGTHPLTVIYS
+GSKRPTVEVVKLVEAAHAAQPKAFDTIFSLMGWSADAAAEAIAHGDWQTVGELMNINQGL
+MDAIGVSNRVLSEIVYALRDDPGILGSKISGSGLGDCVIGLGRAKRTEWPQVVLPVEIAA
+RGFEVE
+>tr|A0A1W9LH45|A0A1W9LH45_9BACT
+MPAKRAKILVVGGGGREHALAWKLAGDRAQPELFCAPGNAGTASLGTNLDIAATDIERLV
+GWARANRPDLTVVGPEAPLCEGLVDRLQAEGLRVFGPTQAAARLEGSKLFAKDVMVAAGV
+PTAKFARFTDAGAAKAYIRQEGAPIVVKADGLAAGKGVTVAATVEQAEAAVDEALVQKAF
+GDAGNSVLIEECLQGEEASILGLVDGEHVVLLASAQDHKRVFDRDEGPNTGGMGAYSPAP
+VVKEALWPVIREQVFERTLRELRKRGITYRGVLYAGLMMTASGPKVLEFNCRFGDPETQA
+ILPRWDGDLAPALEACAAGTLNESLVRWKPDPCVCVVMAAGGYPGHYEKGKPIEGLDRAG
+ALPGVVVFHAGTKSESGCAVTAGGRVLGVTALGGDLRTAVARAYEAAGMIRFDRAHFRKD
+IAARALHARQ
+>tr|A0A1W9LGK5|A0A1W9LGK5_9BACT
+MKRAELIVALDVPDAAAIDRIVRRLPDEVRWYKVGLELFAAEGPRALEPLAALGRHVFLD
+LKLHDIPRTVERAVRAAARHGVGLMTLHAAGGRAMIQAAVEAARGEGPAAPKLLAVTVLT
+SLDAADLAAIGVGRSPADQVLALADLALSAGADGIVCSPQEAAAMRARFGAAPLIVTPGI
+RLPSDAVGDQKRVATPAGAVRDGATHLVVGRPILDAADPADAARRVLADMALGEAG
+>tr|A0A1W9LH46|A0A1W9LH46_9BACT
+MDRQSTRTDGWADRIAVVFASGFGLGFIPCASGTFGTLPGVALVVFLWPILDGNLALQIA
+TGVALTLAAVPVCGAAERFFGKKDDGRIVADEYATFPLVMIGLPVVRDEWWIVLVAFLAA
+RFFDILKPWPARGLQRIRGGTGIVIDDVFASLYALAFTHGAVLTIRHFLA
+>tr|A0A1W9L874|A0A1W9L874_9BACT
+MVVIVLLVHALAVGAVMFIQGCGTTTPRQPAAATEPPPAPVMPPKDAVSSPSSMVSPKPV
+FQPPAPVEPMLSEARTYTIASGDSLSKIAKRHGVSARELAELNGIKDPNKIRIGQKIALP
+DYASGSVASKPKPSKSAAPSKPKSSAAPAAGGPVYVVQAGDSLSKIASKHGVKVNALREA
+NKLSGDKILVGQKLVIPTGAKPDELAAPVVVEPSAAPEMEPAPAPMAPVAPAVEPPPAPA
+PAPASPMSAAQDQPLDYTVQDGDTLDSIAKLFIVRREDIMKLNTISDPASVKPGMKLKIP
+PTSL
+>tr|A0A1W9L9P5|A0A1W9L9P5_9BACT
+MKLVLNTEEARVLGVLIEKERATPEYYPLTLNALVNGCNQKSNRDPVMQLDDDAVTRALD
+TLRLKELVCLIHTAGSRAPKHAHRLGNFFNLSPQEFAVLCLLLLRGPQTAGEMRTRSGRL
+CAFASPSEVEAVLQGLAARDDGPFVVKLARQPGQSSSRYAHLLCGPVDAGAAPATPSVST
+PAAAPANDDRLAVLEREVAELRAELEQVKQQLGIAPASSTPTP
+>tr|A0A1W9LD47|A0A1W9LD47_9BACT
+MEHKPHAKKKHSEAEAAQAPAPAAAPPPAAEEPLKDQLLRLRADFDNFRKRTQRERGELA
+QRVVENLMLDLLPIVDHFELGLQTAQAQQADPALLDGFKVVYDQLMAVLKNAGLTPFDSV
+GQPFDPNRHEAVSQLPSEEHAADLIMAQTRRGYLLGDRLLRAERVVVSSGPAQAEAAAPD
+AGQEE
+>tr|A0A1W9LCN2|A0A1W9LCN2_9BACT
+MGALAMAAWLFGGAALAAKLGDPAPDFTAQGTGGEVKLADLKGKWVVLYFYPKSFTPGCT
+KESCSLRDGHEALAGLKAVVLGVSIDDLETQKKFKAEHKLPFELLADTDKAVSRAYDVLA
+PLGLFAVRRTFIIDPAGKLAHIFESVSVGTHADDVKAELTRLQAPKAPGT
+>tr|A0A1W9LAE0|A0A1W9LAE0_9BACT
+MLASRVEKVYLIGESAPGLETAWSATVPCEICGTLTAAVDAAHRDARPGDVVLLSPACTS
+FDQYGNFGERGDEFLCRVRVLMSAGEEVRTRREKGDEEA
+>tr|A0A1W9LH80|A0A1W9LH80_9BACT
+MRRTMLKSKIHRATLTGTELHYQGSITVDEALLEAADILHGEQVHVLNVNTGDRLVTYAI
+TAPRGSGTVLLNGPAARMGMVGDPVVILTYCELEEEACRKFKPVVVLVDAHNRPRAKKHR
+PK
+>tr|A0A1W9L922|A0A1W9L922_9BACT
+MKTDAFISLMSKARVYDLTQRLSIHTPPWPSYMPLGIQYFKRIAGAHMGQGANGQIITMS
+NHVGTHMDGEIHFHASGRSIGNVPIGEWIGPGVVVDISKDCGDYDLYFPETLMKRADIRK
+GDILIINTGYHRYAWDQKGSDEIRYFVKHPGPGPGFDKWALKMKIKWIGVDCGSADHPMN
+TIIRTWHPARFLEAEAKLKAKYGKGWDEMFPQDYYYQVMHLKLFPKKLVHAENIGGEIEK
+LSNQRCWIGCFPMRGIELESAQCRIVAMLPPK
+>tr|A0A1W9LCR0|A0A1W9LCR0_9BACT
+MNAILRKQQLSEEVFLMAVRAPLIAEERRPGQFVILQLDDDFGERIPLTIADADPAEGSI
+TLVFQAVGKTTHRLAELAVGDRIANLVGPLGRPTHIENFGTVVCVGGGIGVAPLHPIAQG
+MKQAGNRVIIIMGARTKNLIVLEDRMRAIADELIVCTDDGSAGRKGLVTEPLKEICARTP
+PPGLAVAIGPPIMMKFCAEATRPFGIPTVVSLNTIMIDGTGMCGGCRVTVGGETKFTCVD
+GPEFDGHAVDFDNLMKRLKAYKQREDEAHERCHLEMAAKTNERRTPNAER
+>tr|A0A1W9LF35|A0A1W9LF35_9BACT
+MNRMTEAPIPVRPLPRRDFLAGLGALAAGTALAQAPAAAPAEPKVKLGLIGCGGRGSWIG
+KLFKDDGGYEITALSDYFADRANKAGDALGVPADRRYTGLDGYKRVLDTKPDAVAIITPP
+YFHPEHARAAVDAGIHVYLAKPVAVDAPGCHSIAESSRIAASRKRCFLVDFQSRADPFYR
+EALKRVHEGAIGKIAFAESYYHCGRLNPQGDVDASAESRLRNWAFDKTLSGDIITEQNIH
+TLDVLSWIMNGVPVHAFGTCGRKVRVDVGNCNDYFTLHLLYPEQVGVTFSSRQFEGHGTK
+PDGIVVRAFGDQGVLETSYGGTVMIRGKNFYRGGSSPGIYKDGAVANIAEFRRCIAAGDV
+ANPTVEPSVRSNLLTIFGREAAYSGELVYWEKFVKSDKRVEADLKGLKT
+>tr|A0A1W9LDM1|A0A1W9LDM1_9BACT
+MGSIMRKELRFGLLGLFMLTSLTRSSPGAAEPTRVACVGDSITYGSGLERRDRESYPAVL
+ARLLGAAFEVRNFGVSGATLLRRGDLPYGDLPEFGAATAFDPHIVILMLGTNDTKGQNWR
+HRAEFAGDLAALIDHFAALPSRPRVWVCLPPPLFGLLRAHGNSVLDGGVIPLTARIAREK
+DVPVIDVNAALAGRGDCFPDGVHPDAAGSAAIAEAVFRAVQKQVE
+>tr|A0A1W9LGB1|A0A1W9LGB1_9BACT
+MLAITYGGLALAYIFVSSYMAGVLAVSKLQLTEVEFWKGIAFVITTSGVVFFLAFSILRR
+VAEREGELARNRQALVVAERRALSGIFAAAVAHDINNMLSVFHGGLDEVAAGNPSEPVRH
+MQTALDGLQKMTAQLLQASRDNGHTERTSCDLTSIVRDAVGFGRIHSRIRHCRIEERCPD
+VAPCQAHSTLLRQMVLNLLLNAAEATGGKGRIAVSLGTTPEGGYALGVSDDGPGVLPEYR
+DRLFQPFFTTKQSGTGLGLLSVKAAAQAHGGSVGYDASELGGACFRVVFPARFKG
+>tr|A0A1W9LCY9|A0A1W9LCY9_9BACT
+MSAKKKARETVRFTYGRKSWAYPVVTGSEGEKAVDISALRRDAGLITLDPGFVNSGACLS
+DITFIDGEKGILRHRGYAIEDLAEHCVFLEVAYLLIMGKLPDRKEWQSFSDLMNRHSMIH
+EDMRDFFLNYPEHAHPMAVLSAMVVSLSSFYPEIEEENPKEPIDITVTRLLSKLRTIAAF
+SYKKSIGEPFVYPSRRLTYCENFLNMMFASPVNDYWPDPVVVRALNLFLILHADHEQNCS
+TSVVRFVGSAGSSLYASIAAGICALWGPLHGGANQAVIEMLERILSEDGGKVDRVLDRAK
+KKDPRARLMGFGHRIYKTYDPRARIAKETCMKLLARLGMQNDPVLHLAVELEEKALADPY
+FQDRSLYPNVDFYTGIAYRAMGIPSDMFTVLFALGRLPGWIAHWLENRRDPVQKIGRPRQ
+VYTGPVLRPFVPMDQR
+>tr|A0A1W9L884|A0A1W9L884_9BACT
+MLADLLDPLEKANRALGKLDGLSAILPETDIFLYMYVRKEAVLSSQIEGTQSSLSDLLLF
+ESAAAPGVPLNDVQEVSNYVAATQHGLRRMKEGFPLSLRLLREIHEILLSHGRGSDKAPG
+EFRRSQNWIGGTRPGNARFVPPPPEQLVECMGALEKFLHNQPVATPTLVKAALAHVQFET
+IHPFLDGNGRLGRLLITLILCAEQALEEPLLYLSLYFKQNRQVYYDLLQRVRSEGGWREW
+IEFFLQGVAQTGELAAQTARKLLRLFEADRERIQGLGRPAASALRVHQRLERRPITTVQT
+AARALKITE
+>tr|A0A1W9L8Y6|A0A1W9L8Y6_9BACT
+MPNNQRFDLETIVDLVPEGARVLDLGCGDGALLEALVNQRRVEARGVEISESGVRAAIGH
+GLSVRHGNIEEGLADYRDQAFDYVILSLTMAYLNQPAPVVREMLRVGKHAIISFDNAGHW
+RARHRALFGGGMGHTLASGEPRVRAITLGQFRAFAGTLNARIEKSVFLSQRRVAHAFPSL
+LATVAVFLLRKA
+>tr|A0A1W9LFF5|A0A1W9LFF5_9BACT
+MFEAGQLAAWSGGRWTRPPPVAVRSVCHDSSESVPGALFVALRGERTDGHAYVADAFARG
+AAAAMVEDRFAAAHADAGPLLAVGDTKRGLWDLARGHRGRMTGRLVGVTGSVGKTTVKDM
+TAAVLAIAGPVACTRGNFNNEIGLPLSLLGAAPDALWGVFEVGMNHPGELAPLCGLLRPR
+WAILTRIGPVHIEFFEDEAAIADEKAELLRALPADGLAILAADEPWFDLLRAAAPCRIVT
+VALDAPADYAGRADPADPHRLTVTGPAGFALACRLPMRGHPVLRNALRAVATGREAGLDA
+AAIADALERFVPPPMRGGECVVAGVTWVDDAYNACPLSMEAALETFAAHPARTKWVALGG
+MRELGRRGPAFHREVGRLAAAGPWAGLVVAGDLAAPIADGAVAAGWPVDRLWRCDGPAAA
+AAVLAERTRPGDAVLIKGSRGEQMERVLAEWARLAGAPMEARAH
+>tr|A0A1W9LD77|A0A1W9LD77_9BACT
+MRPGAAILCVSLAVSAAGAADWPVFRGDPALTGVAAEEVRPPLRRAWSVRVPKGTRSSPV
+IAAGRVFIGTDSNLLVALDLKDGRTLWSHAAPDSIEAPPLVAGDLVVAGCTDGSLIAVKA
+TDGMRVWIYTTGDKILGSPNLVPLGGGRTLVVAGSYDNKVHAVD
+>tr|A0A1W9LDG7|A0A1W9LDG7_9BACT
+MAQELSFFTGITRRRWSGLVLVSLTILLLFVFLYVNARRSVLNEIRHQAMGVAIAAAAAI
+SADDLAEVQHPGDASKEAFRRVQDYLGRVVATNPDVRYIYTMRRSNREGARESDYEFVVD
+RAPRDRNGNGTIDADEGCEPPGKPYDAAALPELVDAWYRPGADPGISPDPPYPDLISGYA
+PVKNARDQTVAIVGVDITAATVRMKLVTLRGVMLLVWLVLSGLILMVIQLYYQQQEALER
+IQALSEELAGRNEMLRAANVQLVRHNDEFRRDLKLAQSVQLGFLPKSFPRHDKVIFDKYY
+LTCEMLGGDLFDVFSMDDDHVGIYMADVAGHGVSAALISGLLKMAVASVREHHAAASGRL
+QANLSQPEMVLATLNEMLLKEIPAYEFITLIYAVLDIPHYTFAIASAGHPSPVKFDARAG
+QLVPCNVPTGTALGLVSGSTYPVVTVNVATGDKLVFFTDGLTEAMNENSEEFGEQRFFDL
+IRDTGRKAPSEVIQTVKCAVEQHRRSRAVNDDYSLLVAEIR
+>tr|A0A1W9LGU4|A0A1W9LGU4_9BACT
+MHASPDTIAAIATAPGEGSVAIVRVSGPESLAIADAAFKASGPPPSARPSPALVHGHAVA
+ADGLILDEALLLIMRSPKSFTREDVVEFQCHGGAVSAARILQRLIECGCRPAGPGEFTRR
+AFLNGRMDLTQAEAVLDLVRAHSDRAAAVAMEQLRGALRRRTDEIYDDALRIAVSLESSL
+DFPEDDLPGFSLDTLKASLQKDVERCRTLAGSCREGRLLRDGIRVVIAGRPNVGKSSLFN
+LLLGRDRTIVSPHAGTTRDTVEEWISIDGYGVRLVDTAGIRPSTCPIEQEGVRRAIDQLS
+SAGLILSVVDA
+>tr|A0A1W9LG35|A0A1W9LG35_9BACT
+MVLVAALAACGASARADWARFRGPHGNGVVEDKTFDPAVAGQGRVLWTAQAGQGYSALSV
+AGGRAFTMGNAGGKDSVICLDAATGQEVWRHSYDADAGSYPGPRASPWIDGARVYTMGYW
+GHVCCLDTATGKPVWEKNVAKEIGGDTGRWGLAGSPLVVGTTLFLNVGDSGCALDKNTGK
+VLWAGKGGPAGYATPIPMQFRGRPHLAIFGAKFLHIVDAATGKIASEHPWETSFDVNASD
+PVPAGNNRMFISSGYGKGCAMLDLTGPRAKEVWRNESIRNHFSSTLILGGHLYSCDGNTG
+KGDLVCLDVATGQEKWRQKVGFGSLIAINNLLVYLNERGDLTIAKASPAGFDRVAGAAAL
+VTGGKAWTAPTFSDGRLFLRNDKGAIACVQAGPAK
+>tr|A0A1W9L8E0|A0A1W9L8E0_9BACT
+MSGFRCQDGRGRAEGRLFLAPDNGLLSLVAARAPDFTACALREDVHRPGVRSATFHGRDV
+FAHAAALLAAGHPPES
+>tr|A0A1W9LCA2|A0A1W9LCA2_9BACT
+MIALLHRQKIRQVMVGSTFPLGVARRLEKARVGVRVATTFLFPERAVKTSGEVMKIRETQ
+IAAAAAMRAAIAVIARSQVGRGGRLVTAGRPLTTAVVERMIDHVLLERGCVAEETIVACG
+RASADPHDRGSGPLRAGQPIMIDIFPRSRKHGYWGDITRTVVRGRAPEGLRRMYRAVREA
+QLAALARVKSGARVKAIHGAAQEAFDRAGFRTGVHGGVAEGLIHGTGHGVGLDIHEAPSV
+GPGEGRLRAGNVITVEPGLYYRSIGGIRVEDTVVVTRKGWKHLAKAPYSFEV
+>tr|A0A1W9LHD9|A0A1W9LHD9_9BACT
+MTLPAPAAPVSVRDAVQALARTLESRDIDEALALAEWAVADLIRVGRAELRTEGARVLNG
+PDRARLAERAERLAADEPLQYVLGHADFLGRRFACDARALIPRPETEELVLTALRLALPD
+PIATVRVADVGTGSGCIAISLALERPNAAILATDTSAAALALAESNARALGTAGRVRFLC
+VDLLGGTAPDSLDAVVSNPPYIESPVLAGLDRRVRDFEPRAALDGGPDGLDTIRRLAPAA
+VAALRPGGHILLEIGETQGPAVRTLLSHAGFAGVRILPDLCRRERFAVGIRAFSSPPRGP
+GIC
+>tr|A0A1W9LHC8|A0A1W9LHC8_9BACT
+MKTMLAEPEIVMHNGKPVSVILPIKKYEELLERVEDAADVAWLKRARRQPLQYRPLAEYL
+TERGSKARV
+>tr|A0A1W9L856|A0A1W9L856_9BACT
+TFFGGATRTLTFEPCTREGWWFDRADLPEDLATQVSVRNVWTTGQIVSNIVLRSGAPHNY
+CRMVEHIVALMPGLGLDRLTVKIESGDPPLFERGSLDLVEAIESVGIAGTGVPACHVAVR
+EKVCVCGPNGAFVILAPPSGPEPRLTIDAAVDFPTAIGKQRIRFVMNRDTFRRASVARTN
+TSASKKFYCQTVGRVFADIRHLGYNKHNLLIAGRHGYHNKPLLIHEGKSLEAAWHRAALD
+LAAALALVEGGRLVGDVATYRAGHALDVKLISLLHLHDLLVPFPSAGRSA
+>tr|A0A1W9LDK9|A0A1W9LDK9_9BACT
+MPQYANVLDAIGRTPLIRLNRIAADVSSPIYVKAEQLNPGGSVKDRVSLAMIEAAERDGS
+LRPGGTIVEATAGNTGVGLALAAAVKGYRLIVVLPDKMSEDKISLLRAYGAEVVITATNV
+PPDSPESYNGVADRLAREIPGAFRPNQFANANNPQIHYLTTGPEIWEDSGGQVEVFVAGM
+GTGGTISGVGRFLKEKNPNVTIVGADPEGSILSGDSPRSYKVEGIGEDFIPKTFDRQVVD
+EMVRVSDRESFNTARKLARLEGLLVGGSSGTAVAVALKYAQRLRRPRQIVVLLPDTGRNY
+MTKIFSDRWMQENGFWEGKTQKPVSVGEILQRKMQLPSLLAVGPREKVIRAITLMQAYNI
+SQLPVVEDDRLVGSLNESSLMKILHDGLDVNNQEISAVMAKPLPALDEKTDAAEAYRILL
+SGMPGVVVLAAEKPIGFIGRSDLIMAWTSPAPGPQEKGWEYNHEI
+>tr|A0A1W9LDJ1|A0A1W9LDJ1_9BACT
+LGDGHAGPAVRHGRVYVLDYDEKARADALRCFSFDDGRELWRRSYAVDIKRNHGISRTVP
+AVSEKHVLSLGPRCHVLCADAITGDFRWGLDLVREYGTKEPLWYTAQCPLLDGETAILAP
+GGRALMVAIDAATGRVLWQTPNPDAWEMSHASIVPMTFGGRRMYVYPAIGGVVGVAADGP
+DAGMALWTSTDWKNSVTAPSPVILPEGRVFLTAGYGAGSVLLQLKPGGTRFRAEVVWRVD
+KTVLGCEQQTPIFLRDHLFTVMPNDAGELKRQLACYDPRGQSVWSSGPAHRFGLGPFLAA
+GDRILVLDDEGTLTMTRVSTRRYEEMARAEVLPKGRDAWGPMALVDGRLLARESKRMVCL
+DLRKR
+>tr|A0A1W9LHX0|A0A1W9LHX0_9BACT
+MDVVPYEVRLREPLQTGSRRIDRREGVLVRVESTAGAEGWGDAAPLPGFSVESRPQAEQE
+LRDLAVRMVGLDIQSPADLDRLPNLRQALSSSARFAVETALVTAAAAEAGRTPGAWLLGV
+DADRCTVNALLGNEPLTWPVAAARRAAEGFVSIKLKVGRRPVDVELAAVRAAAAAAPAVR
+WRLDANRAWTGAEALAFARGLAGLPVDYVEEPLRAGETLPAGWPRTVGIACDESLQSYDD
+VPDPVPPVVAWVLKPTLAGGLARSLARMRQARRCGCEVVFSAAYESGVGVRMLGELAAAT
+GIPAGLDTYRLLAEDVLEPRLHFAGGMLDLGKA
+>tr|A0A1W9LFT1|A0A1W9LFT1_9BACT
+MASTPSSFTGRTRQRRTRWGVRFSDAFSRFLITVGGIGTVLSVMTVFLFLVYVVFPLLRP
+SAVGEPRSVAAAPAPSPVFFAMDEYGVLGVRALSDGTFRVFRLDDGADVARLAPFGDAPV
+TAAQFDPVHGTALFGFADGSARFVRCRFATKFAAAGEAPAALARLEAGRMAVHEGRAWQR
+ISDAQFRSQGFEIELDAVLDAVHASPVRQIDFAEGPDGLAYAMFHEDGAFEVVRIARRKN
+IMTGETSVRKTVLPVPYKPRPIAGAPAFIALAGLGDAVSLAWADGHLQRYDVRAAAKIRL
+IEEVELLGDPSLRLTELRFLLGRFTLLAGDSSGRVRSWFVVNTDAGSTESTRLVASHAFA
+GPGGAPVTALASSARIRMFAAGYGDGSVRLYHVTSGKMLADLRLATPGEPVLAAAFAPKD
+DGFSAAGPSGYTSWPLDPRHPEATLPSLFTKVWYEGARAPEHVWQSSSGTDDFEPKLGLM
+PLVFGTLKATLFSLLFGVPIALAGAIFTSEFLNPRWKARIKPTVELMASLPSVVLGFLAA
+LVFAPVVGGMLPAVLASFVTVPVTFLAGAYAWQLLPGRWTLRHGGLRLPLMLLGVPVGLA
+CAGGLGAVLERWCFAGDIMRWLDGQIGRAAGGWFVVLFPLLAALVGWVGALTLNPRLRAV
+GRRLSRPACAGLDALKFVLLLAAAVAVSAATAFLLDGAGLDPRGTVLGTYVQRNALVVGF
+VMGFAIIPIIYTIADDALSAVPEHLRSASLGCGATAWQTATRIIVPTAASGLFSAVMIGL
+GRAVGETMIVLMAAGNTPVMEWNVFNGFRTLSANIAVELPEAVRNSTHYRTLFLAALVLF
+AMTFVLNTVAEIVRLRFRKRAFEL
+>tr|A0A1W9LEF8|A0A1W9LEF8_9BACT
+MGVRGRKAGRGKAGDLSSYLVWFDTEYTSLDLGRARLLQVAMMITDGDLRRVGPPERDVR
+LAIRLPPSARLSPWVEENLKPLVARCRSADAVTAAEADRRLAAALDEALGPAPDSVTKRP
+VLAGNSVHADWWLARRFLPQFLGRLHYRQLDVTALKLEWLRRNPSFDFEKESGEIVRRHF
+PGALIGPDERHDAYYDAQASAAELAFYRKHLLSRPARSGREAAVAKKGSKA
+>tr|A0A1W9LHU4|A0A1W9LHU4_9BACT
+MKILVVGGGGREHALAWRLARDPERPEILCAPGNTGTAQVGRNVAVDAADVPGLVALARA
+ERPDLTVIGPEAPLCAGLADALLAEGFAVFGPTRDGARLEGSKIFCKDVLRAAGVPTAEA
+ERFTDAAAAKACARARGGAVVVKADGLAAGKGVTVCTAAAEAEAAIDDALVKGVFGDAGR
+EVLIEERLVGEEVSILGLVDGERVVLLASAQDHKRVFDDDRGPNTGGMGAYSPAPVIADA
+DLPAIRELVFERTLAELKRRGIAYRGVLYAGLMMTDGGPKVLEFNCRFGDPETQAILPRW
+AGSVSRVLLACAQGRLDPGMVTWHPGACVCVVLVAGGYPGPYAKGKAIEGLGEAGALEDV
+AVFHAGTAVRDGRIVTAGGRVLGVTARGKDIRSAVSRAYEAVGRIRFEGMHCRRDIAARA
+LRRM
+>tr|A0A1W9LGV7|A0A1W9LGV7_9BACT
+MHDSKMLRWWRRIGAPCTMAGERETRMKLSAWIVAVTLAAAAGGVRAAEPQEVAMAERSR
+VSGGDDARLWRAMDKARRGQPVTVAVIGGSITQGARATRPELRYGDLIAAWWRRAFPGAT
+VTFVNAGIGATGSNFGALRAERDLLSKNPDFVVVEYAVNDSGTERAAESLEGLVRQILKR
+PNGPAVLLLFMVNQKGGNAQDWFMKVGGHYRLPMVSYRDAVWPEIQAGRLAWADISPD
+>tr|A0A1W9LD20|A0A1W9LD20_9BACT
+MANFYTDNKDLAFLMDRVVDWDAILALKEKFGDEECPYADAAEAKAMFLDTLRDPVGELA
+ANRIAPRAEEIDDIGCTCENGQVIFPEALQRNLKDLCDAQLMGMTIPRRFGGMQFPETVY
+TAAIEVISQADASLMNFFGLQGGIAETIVQFATDDLKEQYLPRMSTGEFTGAMALTEPDA
+GSDLAAVQTRAKGGEGIAAQQDPVTGMWTISGSKRFITNGCGDVILVLARSEDPAKKGGG
+RGLSFFLVEKGPKVKVRRIEHKLGIHGSPTCELYFDECPAYLIGTRGMGLARYTAWLMLA
+ARLAIGAQAQGIAQAALIEAEKYAKEREQFGKPIKEFPQVSAMLANMRMLCEASRAVLYA
+TSEIVDLHQGAEAKGLKDETRRYGRIAESLTPIAKYYTTEIANRICYDSLQIHGGNGFMQ
+EYPIERLYRDVRITNIYEGTSQIQVNWAVSRLVRGDVDDVMDGLVKHVFADADLARLQGE
+ILKSFEVYKSVIAWLKDKEVSFRELVGPNVTDMFVEIYAAFLLLRHAEKWEYKRKVAARF
+IRQLGPRVAMNRDLALNAQLDTLEP
+>tr|A0A1W9LBD3|A0A1W9LBD3_9BACT
+MIRAHAYPRAGLIGNPSDGYFGRTISFTFSNFKAEVTLYETPEMEIVPRERDLSRFESLD
+GLVRDVQLHGYYGGIRLLKAAIKRFHDYCQAERIPLDDRNFTIRYHSDIPQQVGLAGSSA
+IITACMRALCAFYGVSIPRPVFANLVLSVETRELGIPAGLQDRVAQAYDGLVCMDFNRDL
+MEKQGYGDYQPLDLSLLPNLYIAYRTELSEGTEVFHNNIRARWERGEPEVVNAMKTWAGL
+ALQVRDLLLAGRGREIGPLLDANFDLRKSIYQIGSGNLHMVDVARSVGASAKFTGSGGAI
+VGHYEGDIMYLRLEEELARLGCRVLKPRYVPPEV
+>tr|A0A1W9LG51|A0A1W9LG51_9BACT
+MAISRRKFLKYCGLSAAAIGLDAFDLGLLRKALANPLAPPVIWLHGSSCTGCSVSLLNRI
+SNLPGEPATVTDVVAGAVNLVYHATLMAPAGDSAVAELRRVYEQGGYVLVCEGGVPTAFG
+GAPCIVYSFDGEEITYQQAVQELSARAAYRVSVGTCASFGGIPSAGSNPTGVVGVQQLTG
+RPTINISGCPANPDWVVWAIVQILLGNPVELDANSRPVALYNRTLAGGAAPALIHDKCPR
+NKFVNPGAPDEATTFSDCDGRCLIQLGCRGPHTKSRCEACWNGIAGQGRWCIGVNAPCHG
+CVDPGFPGPNSFYEPFNPT
+>tr|A0A1W9LGC9|A0A1W9LGC9_9BACT
+MNKTIYQKIWDRHVVCGLPDGATLLYIDRHLVHEVTSPQAFEGLRLTGRAIRRPGQTFAT
+MDHNVPTDDVDTIRDPIAKEQIETLATNCREFGIRLYGLKDDQTGVVHIIGPELGITLPG
+TTIVCGDSHTATHGAFGALAFGIGTSEVEHVLATQTLRQKTSRTFRVEYTGALQPGVTAK
+DMILKLIGVIGAAGGTGFVLEYAGAAIRALSMEGRMTVCNMSIEAGARAGLIAPDDTTFQ
+YVASGDRPFAPRGKALDAAIARWKTLPSDAGAAYDREMTLDAGAIAPQITWGTSPGMVID
+VDAAVPDPDRVPGYSRSDAEKALAYMGLTAGTRLTDVPVDVVFIGSCTNGRIEDLREAAG
+TIRGRKVAHKVRAMVVPGSAPVRCQAEAEGLDRIFTAAGFEWRLPGCSMCLAMNPDRLAE
+GERCAATTNRNFEGRQGKGGRTHLVSPSMAAAAAVAGHFVDIRTWAPTPGPRGLTAG
+>tr|A0A1W9LG21|A0A1W9LG21_9BACT
+MPRGRFITFEGPEGGGKTTQAKRLVARLERAGIDALYTREPGGTATGEAIRGILQHDHAR
+EPLHAETEVLLFAASRAQLVRRVIRPALDSGRWVVSDRFADSTTVYQGVGRGFGVEAMVA
+INDFAICGTSPDLTLLLDLDVETGFRRLAGRHARDGVGPDRMEREDREFHRRVREGYLDL
+ARRWPDRFRVIDAGGGADDVEALVWAEVMRVIR
+>tr|A0A1W9LCT9|A0A1W9LCT9_9BACT
+MSKGIVALIVAVVLVLAIGGSAVSSKNGFVTQDEGVTAAWANVETVLQRRYDLIPNLVNT
+VKGFAAQEKSILEEVTRLRSQWGQALGTAQKVEAAGQMEGALARLLVVAEKYPDLKSNQN
+FLALQDELAGTENRISVERRRYNEAVQGYNTKIRRFPGSIWAGIFGFERRKPFESVSGAA
+QAPEVKF
+>tr|A0A1W9LD72|A0A1W9LD72_9BACT
+MNRAPPAVVLDHPLVRHHLARLRDASTPPAEFRGAVRALSMLLAYEALRDLPMRRTSVRT
+PLESTAATRVRGRIGLVLDPMLATGGSAIAALRAVRDWGVKRVKLLAVIAAPEGLRAVRS
+AFPDAGVFICARDRRLNDRGYILPGLGDAGDRQFGTVPPLCTAR
+>tr|A0A1W9L9U0|A0A1W9L9U0_9BACT
+MAAEIALASIGAGIVTLGAAVGLGILAAAAMTGISRQPEAAPKIQVSMLIAAAFIEGVAL
+FALVICFLQT
+>tr|A0A1W9L8P1|A0A1W9L8P1_9BACT
+MFNRDGGSPAAVAFWPPFPYKGLLTMMNIINLNGTWQLRWSDGVRGRPEYANREQTDPDR
+YIPAEVPGEVHLDVWKAGWIPDPYVGTNCLAARWVEECIWSYRRHFAVPAGALRGRSWLV
+FEGLDLAATIVLNGVEVGRHNNSFHPCRIEVTGRIRKGLNLLTVHVEGGLFDVSEKPGAG
+YGSNSDQRLHKRHWLRKPQCQFGWDWSTRFINVGIHKPVRFEYSAVPVRVDQLVPLAELS
+PDLATGSVRARLFVEGLGKKPVRGTLTAELIGTGVKTRVPVEIKPGLNPCEARIEIRNPK
+LWWPVGHGPQNLYTVRVTLSVGGRKVGERTARIGFRHVRVNQDPHPKGGRYFVLEINGRK
+IFAKGGNFVPADMIFARLDRARYDRLTDLALEANFNMLRVWGGGLYESGEFYELCDEKGI
+LVWQEFIFACSKYPTTDEAFHNSVKAEAVHNIRRLARHASLVAWCGNNELEWGNWHWGYD
+RGVVLPDHALFHLTLPRLLAEEDPTRYYQPSSPFSPDGLDPTRDDTGDQHPWAIGFGNTN
+FKEYRTLGCRFPNEGGILGPTALPTMLACLPEGQRKIGSFAWQVHDNSVDSWGEPSYAHQ
+ILSNWLGHEIRDYTVEEFTYWGGLLQGEGLREYCDNFRRRMFDSAAAIFWMYNDCWPATR
+SWTIVDYYLRRTPSFQPVRRALAPVSVVVAQEGGEVVVFGINETARTIRAELRYGVFNLA
+GGYPVDRRADVELAPNASTPLARFPVKEWKNPARSAAFAMLERDGKLLARNRLFLPFFKD
+LKWPPARVRVSVKSGRAVFESKTFAWGVCLDLDGETPLGDNFFDVYPGVPYSIRWPGRKP
+PRVIRVGNLA
+>tr|A0A1W9LDU8|A0A1W9LDU8_9BACT
+MKRWIGTCAAAALTALTAEAYDKAYGPTAPGMFEIKTAVMRFFAGPDAPAELPSTNGVAV
+EVLAQRVVASAGARGSYSEENVAATTRELRAWLAKQPDWIEAGPPRAAYWNGPFLPGFLK
+KYEVHISVKAADPDKKPAASRPARSIGEPRAKTSI
+>tr|A0A1W9LFK8|A0A1W9LFK8_9BACT
+SGFDIWLTYHRSHDAARDVQAEIQKLGRACDLLSFDVADYEQTKAALEKKADARSPDVLV
+FNAGIARDNLLVWMTKEEWDTVLRTNLDGFYNVTRSVIFPMLREARGRIVVISSTSGQIG
+QAGQVNYSASKAGLIGAAKALAREVGRKHVYVNVVAPGVIETEMTEKLPKDQILPLIPLN
+RFGTLEDVASVVAFLCTEEHMYIHGQVIGVNGGLAI
+>tr|A0A1W9LA85|A0A1W9LA85_9BACT
+MLWGTNRAWAGANDRIRVAVIGIHGMGQSHIQAYQGLPNVEVAALCDIDENLFAGVIEKH
+FTKKNLPKPKTYTDLRKLYEDKDIDAVSVVTPNHWHTLAAIWAIQAGKHVSVEKPCCHNI
+FEGRQLVAAAKKYKVIVQDGAEQRSNPCAQTMAKFLQDGGLGEVYMAKGLCYKWRKTIGR
+EVDEPVPAGVHYDLWQGPAPARPFNKNRFHYNWHWNWEYGNGDMSNQGVHEMDIARWGLG
+VTLPTRIHAVGGHVMFDDDQQTPNVLLATFEFPNPAGGG
+>tr|A0A1W9LGF9|A0A1W9LGF9_9BACT
+MRTVCAQSVLAGREAFASLGDVVVKPDREISREDLLDADALVIRSKTAVNRALLEGTKVA
+FVGTATAGFDHIDAAACADLGVAWTAAPGCNATSVAEYITAALLEMAERGGFALAGRTIA
+VVGVGQVGRRVVVKASALGMRPLQNDPPRALAEGDAVLRPLDEILPTADIVTLHVPLTDD
+GPFATRGMVDCRFLERLKPGALFFNASRGEVVDEAALKLALAGGQVSAAVLDVWDREPRI
+DPALMDTAAIATPHIAGYSWDGKLAGTAQVYAAACRFFELARAWNPAPVSPGTPPPDVRI
+DAAGRTDQEVLRELVGRIYDIGRDDRDLRGAGAPAGEPLPARFERLRKKYWTRREFPAAR
+VAVSGASPALRRTITALGFHPEP
+>tr|A0A1W9LAC2|A0A1W9LAC2_9BACT
+MNPTEKIRGIVFDMDGVLCDTEALMAEASCAMFRETHGVRPVPGDFHEFMGRGSEAYFGG
+VARKHGVETVLPRDRDRTYGIFLDAIRGRLHPLPGAHPFVAAARAAGIRLAVATSADRIK
+LDAILHEIGLPHASFDALVTADDVTHNKPDPEIFVHAMARLDVPPAACVVVEDTRPGIAA
+ALASGARCLALHTTFPRNLLAPTGPHWLAPDLAHLPDDFLRECGIAG
+>tr|A0A1W9LDB1|A0A1W9LDB1_9BACT
+MHHRLVIEGRPVEVEDGATLLDAAARVGVAIPTLCHREGLPHFTSCMICAVLDRRSGRLL
+PACSFPAADGMDIDASGEAVRRARRSVLSLLMSEHIGDCEAPCHRTCPARLRIPHLLRAA
+RAGDWDAAACIAREDLVLPATLGCICPAPCEKGCRRASHDAAVAIAAVHRVAGEYALAKP
+AATTAMAGDLHGRRVAVVGAGPAGLAAAWHLRRAGAAVFVIESSSAAGGALRTAVPDDRL
+PRATLDAEIAVIAAFGVEFRFNSRISTAADLRTLRNTVDAVVLATGPLDAAAMDSLGLER
+TARGVEADPKTLQTSEPDVFAAGDAIHASRMSVRSVGAGRTAAESIRQLLANRPVLGRPR
+RFNSRIGRLHDGEAAAFLADASLAARVSVPERMDMAGARDEAARCLDCDCRKAESCRLRI
+LANEYGVDADEFRAGDRPAVSIRRDHPDLVFEPGKCIKCGLCVRITARDEITPGMTFLAR
+GYDARIAPSFEDGLLKALGSSAAECVEACPTAALAFRRWENARDPGDHLSAPKVIRDPGD
+LASPVSQIGTAKCVAKEAP
+>tr|A0A1W9LHY4|A0A1W9LHY4_9BACT
+MPHRTFNVREAAEYLHVTEGEVEELVRAGEIPHEPMGGRVVFRRTDIDGWASCRVLGLEC
+DGLEKFHRKTSARYHDLSNRHAIVPELMQIRFIEPALAARTRASVIREMADLASATGLVL
+QPDDLRASLEARERMASTALPGGVAILHPEHHAPYMFDDSFIALARTVQALPFGAPDGLT
+TDIFFLIASQDDRIHLHLLARICAICHRTDALDRLREAADAPAMFDVLLDAEEEILRGIA
+K
+>tr|A0A1W9LFM9|A0A1W9LFM9_9BACT
+MLGYLYILRSAQGRNYIGSTDDIQRRLSQHKGNAEHGAGCHGEAKPEGRRRRRAGWSSIP
+LRITPGHATSRKQPSTHPPRIGISSCHQRGGVIRKALAVAVVLALGNLHSACGVGTIRIL
+GRSTLKMAGALQGANIEVGESAGLAGSGTIYGNVSIEGTVSPGLSIADIGLLSVNGLLGF
+GPGSVFQCQAATHTSLDRVECSGGVTGQCLVVMSRDPGAAPLDEVILSGDGSSNFSLFTV
+SSPSEWKLRDMGHQLLARDIVTDVDADGIPDFWEWIYYGNRTACDAAGHDDSDGIPNSDE
+WLSNTSPDDGQEYLRLTELRPAGDGQWDVSWMSAGDRSYRIERATDPFLGDWGLVDGAIG
+TWPPTNTYRDTPGYGGPFYYRVQAQRP
+>tr|A0A1W9LEG8|A0A1W9LEG8_9BACT
+MVAGFAPALLLCVELALRLGGFEHTVRRKRLWIPSVFMEWGTSSVAIPTLLTPGQYLFKA
+QPNTPLTGPHGFRAPEPPVEKRPGTTRVAFLGGSTTQGGYYSYPQRAITILNDALGSNRF
+EAINWACSSYTTFQSRRVFDAEVATWRPDIVMIYHGWNDPPCSEDGYSDRENDRAARWNQ
+RLGRVRLPDVLRSRLAQLVAMVMEKLDFSWPRPRVSPAEFRENMTHIIEACRERAIPVVV
+MIRPQSQASSVPAPTHADQLMRMYGARGSRDLYDRVHAVYAGIQRELVASHDHVRACDGY
+ACMKDAQDRLARGEFPDGMEIFQPDALHLSSFGEQLLAESVAQALAPEQAEIIRRYLDSP
+AYCVRLAEQALEGLLLTDAHYHVQQALARDPNANVGHIVSGIESNREFTTLWDQGRCLTP
+GEFEWKLGKLKRCLEFRPSDIGVCGQLYGLCILNDRPDLAARGIEPFEPANMDRLAFWLL
+RAAHANFGAGKLPQARYYAVSLLALRPDDSMAAGVLANIDARPDSAAIAAAMHDLITDYD
+FQQIIEEQRIPGLSSPEASRRIAQLVIHLLQNPEDGIARNELTRLCLR
+>tr|A0A1W9LF10|A0A1W9LF10_9BACT
+MKKVRLDQRVVELGLVESREKAQRLIRAGGVTVDGRAETKPSHEVAPEAVVALQERERFV
+SRGGEKLEEAFRIFGLEVSGRVCLDVGASTGGFTDCLLQHGAAKVFAVDVGRGQIHWKLR
+SDPRVVVMDELNARYLTPAMFPERPDFAVADVAFISLTKILPAVTGVLADRAELVTLIKP
+QFEAGREQVGRGGVVKDPRVHEEVIERIRSFGVREVGLSWRGVCPSPVKGPAGNTEFLAY
+WKKGGT
+>tr|A0A1W9LFX4|A0A1W9LFX4_9BACT
+MSCHIRLGDFEFGPAEVATAARSGRLLSMEIEFSLRCNFNCPYCYVQGRPTSFKDEMTPE
+EARSVLKQARDLGARKIIVLGGEPMIYPQILEMLEYIRGLGMNVEMFTNGTNITEENARR
+LGDLGVRVV
+>tr|A0A1W9L8Y1|A0A1W9L8Y1_9BACT
+PEHWGGYRLIPDAIEFWQGRPNRLHDRFRYSRRATGGWDIARLYP
+>tr|A0A1W9LHE0|A0A1W9LHE0_9BACT
+MPIRLARFEMPKAVIPVEADPSQNYGKYVAEPFEAGYGRTIGNSLRRVLLSSIEGAAISS
+VKIEGAMHEFCSLPGVVEDVTDIVLNLKKVLLKMYSREPRRLRLRKKGPGEVTAGDIEGD
+AMVEVLNKDHHIATLDTDGKLEMDIEVCIGRGYRPADWNKKPDQEIGVIPVDCLFSPVRR
+VKFAVESCRVGRRTDYDRLVLEVWSDGRVTPDDALTMSAAILRHHLDVFVHYDKDLIEFE
+ASEKQIDAQREELRRKLAVSVNEIELSVRAANCLNNANITTVGELAQKSEVDMLKYRNFG
+KKSLNEIKLKLQELGLSLGMTFDPEVMPTPAQRAAAAERARIELKAEKSKK
+>tr|A0A1W9LEC5|A0A1W9LEC5_9BACT
+MPSYFVYMMSNASRTVLYTGVTNSLLARVVQHREGRASAFTRRYNCNRLVYFETFRDVAN
+AIRREKEIKGWRREKKNDLVMAQNPRWTDLSGSVLGFGSTPKGKWVDR
+>tr|A0A1W9LGK9|A0A1W9LGK9_9BACT
+MDLVGCELKLESPGIREAVVKDLRRPGSGTFMVLDTCQRLECYGATVPAPSGAHVARVWS
+GPEAFERMARIATGLESRVLGELEVLGQVREAYRLFREQTCGNDAALDRILQDILAVARR
+ARRDSRIDQTLISLAALAAEILLERATPGAPIAVIGSGSLASSVTRRLAERGGAALRIAG
+RCPENALRLASEVQGFGVGLDNLTPMMDGVAGIVAATAAPHPVLYANHLDKAARPLVIVD
+LGVPPDCSEDARNLPGVTYIPLGQIEARARVNLDERHRHAETAAQIVREGAREWAATRRD
+GVRK
+>tr|A0A1W9LHB4|A0A1W9LHB4_9BACT
+MQSEIGNPQSEIRCGIIAIVGRANVGKSTLLNRILDEKVSIVSPVAQTTRNLIRGILTEP
+RGQLVFLDTPGVHKAAYDLGRLMNQIARTSIEGADVVLLVLDASHPPYEEDEGWVRRLVH
+EETPCVALLNKSDAGAKYAQAYRDLWANTAREKSATKSATWLTASGLTGQGVSELADELF
+RAVPVSPLLFPDNILTDYPRKLNIADIVREKFFAVLRDELPHALAVEIETIDEKESGWTA
+TGTVFVQKNSQKGIVLGNKGRLLKSVREAAGKELSEMYGHPVSLELWVKADKNWSKNFWT
+LKRLGYAP
+>tr|A0A1W9LFD2|A0A1W9LFD2_9BACT
+MQRQGTPFVAHVFVCVNERTDGSKSCGNGLGLNLKDLLKAGVEARGWKGRVRISHTGCMG
+LCARGPNVMVQPQGVWFSGVAPEDVPAILDEVGRRLASG
+>tr|A0A1W9LCV6|A0A1W9LCV6_9BACT
+MLPAIRRAVAEEGYTTPTPVQEQSIPHLLAGRDILGCAQTGTGKTAAFVLPILQHLTKIP
+RAPAPMRPRVLILAPTRELAAQIGDSIKTYGRHLRGVTHTVIFGGVGQNPQVQALRRGVD
+IAIATPGRLLDLMQQGFAKLDAVEIFVLDEADRMLDMGFIRDIRKVIAVLPARRQSLFFS
+ATLAAEVIELARTLVHDAIHVAIRPEAPAVERIEQKVMFVDKPHKDDLLVHLLRDTRIDR
+VIVFTKMKHMANRVAERLAKAGVSAAAIHGNKSQTARTSAMSGFKAGKVRVLVATDIAAR
+GIDVDGITHVINYDLPAEPETYIHRIGRTARAGADGDAIAFCCAEERDDLRAIDRLIRRA
+IPVDTAHPYHSETARNAVGEAARPPPKTGRGGQGRSQGGSRGGGGHGGGRPFHGTRSFGR
+GRR
+>tr|A0A1W9LD67|A0A1W9LD67_9BACT
+MAATNGRGYRSPDPAAGRPRYKWELIALLFFAFFFHQGDRAIYGVVLSAIKTDLGLSDSQ
+LGLVGTVLFAMLALMMPVAGYLGDVWNRKKIIVGSLLFWSVATMCTGLAGGVLALIVFRS
+VATAGGESFYAPAAYPLIAAHHTRTRSIALSIHQASLYIGVMVSGFLGGFIADQWGWRSA
+FYVFGGGGIVLGLILAWRLLDAPPAARTDAGGYVPPLQALGVLFHSPTALLLTAGFTAIV
+FVNNAYVVWAPVFLQERFDLTLAQAGGYAMSYHHAAALAGILFGGWLSDRRAGARPVFRL
+QLMASAMLLGAPVIFLRGRADGFVLACVAMAVFGLFRGLYEANTHAALFEVIAPRFRASA
+VGSMTMLAFLVGSLSPLLLGRLRETQAAGEGLGLGFSALAGAYVLGGLAVLCAARFTFHR
+DRCRAEDK
+>tr|A0A1W9LHB9|A0A1W9LHB9_9BACT
+MDMLPILLVVVVAGLLVGMAVGIYNTLVRLRNAWKAAFSQIDVSLKRRHDLIPNLVETAK
+GYLSHERQTLEAVIAARGAAVSARTAAAADPSAASLVALSGAEGQLGAVLGRLFALSEAY
+PDLKANQTMMQLSGELTNTENVVAGARGVFNESVREYNTYREGFPAILLAGMFGFQPAAL
+FEIAVPERAAPKVSFS
+>tr|A0A1W9LHE4|A0A1W9LHE4_9BACT
+MKIRGQLLTAFVPLILLSAGAVGILALRASCHLTGETEAIVARVFSIRTTAERSLRQMTA
+MLDESRRQNCGHLARQAAAALNHSHGHLRAEAAAIASSVTLAAYLEADAAGRERLQSQVD
+RRLREEVAQYGMHGICLLDAGSGRILSSSGGAASARDVSGFFERLRRVFGGTSLNVGSTR
+VISEPGAAGDRASHEAMLAIGMPVRPGTAPDAAAGGTNAAFLVFGISLRRFCEPVLPIGA
+TSRTIVTLEGGGMTFSSRAGHPGPPPKHSAQMPVAEETALDGQVRVRVAATEEPANDAAA
+AVVAQMRDFAAQSVRLDRMARTVEQNVTTFRQRFALTIVLSLLLGLVVSIYLARRLTRPL
+VHLSASAGRIADGKLDEPLRTDSSNEIGDLARSVDRMRNGLKDLIDNLDRKVAEKSRALA
+ENIEAQRRVEESLRESEEAFRQLFTEMADGFALHEIITDADGHPVDYRYLAINPSFERLT
+GLAAGTVVGRTVREVLPGIETRWIETYGRVALTGEPAHVEEYAAALDRWYDVRAYSPARG
+RFAVVFADVTERRRTEAEKRRMEQQMLQVQKLESLGVLAGGIAHDFNNLLMSILGNADLA
+LSDLPAQSAVRESLADIVRASRQAADLCRQMLAYSGKGRFSVEPVRLNDLIEEMAHLLVV
+SISKNVTLHCRFADDLPYVEGDVTQLRQIVMNLITNASEALETKTGEVTLATGIEDCGPD
+GPAGTVTQERLPGGPYVYMEVRDTGCGMEPETLARIFDPFFTTKFTGRGLGLAAVLGIVR
+SHKGAICVTSEPGQGTTFRVLFPASTKVRPPEPEPDTTRTASAPRASGAILLVDDEPGVR
+EVAGRMLISAGFEVTVAASGAEAVEIVRSAPERIACVLLDLTMPQMDGEETLARLRAVRG
+DLPVVISSGYSEQEIVRRFAGRDLAGFIQKPYVRAQLVSVLREVAARQSGPAPAADGASA
+PPAV
+>tr|A0A1W9LDN7|A0A1W9LDN7_9BACT
+MRVLVVEDERKIAGFIRQGLEEQGFNVEVCGNGDDAFTLATTRPYDAIVLDIMLPGRDGL
+SILRVLRERKNTVPVVLLTARSELNERVDGLNLGADDYLTKPFYIEELVARIHAVTRRIR
+DGQFSILQVDDLVVDLMTRKVKRGERKVELTSREFSLLERLMSMPGRVFTRTQLLEHVWG
+YDFDPETNLVDVNIRRLRKKVDEETEHPLIETVRGVGYRIRKTE
+>tr|A0A1W9LGB8|A0A1W9LGB8_9BACT
+MSAITKAGLLAAALAAVVTAAPGVPPVSDARVRELQNLQYGPIEYIWFDHAVGDGGLSHA
+ETVAFCKSLQPDCFVGFNHGDQEGADIRLGEMGKPGPLTDSAAAGPYMKDTPSRTYRLAE
+FTYPILPPHKGGAMWFYSLPEHDELVHPPEKLYRDVLGAAEFGNVFALDVGPDYRGRLRD
+IDVETLRKVGAMIRARAPAPPAP
+>tr|A0A1W9LDQ3|A0A1W9LDQ3_9BACT
+MAGRTYQHIIWDWNGTLFNDAWLCMDVMNGLLRRRGLPLLTLERYQQLFDFPVINYYRQL
+GFDFSKESFEDLGTEFIADYERRRLECGLREEARAVLEGIRAAGMTQSVLSAYKKTTLED
+ILAHFDVRPFFVRAIGSDDHYASGKVEQGRKWIRELGCEPGQALLIGDTTHDHEVAEAMG
+TGCWLIPGGNHSRARLETCGVPVLDSLRDVMKRLDT
+>tr|A0A1W9LBI9|A0A1W9LBI9_9BACT
+MKGWALIGTVVALHMAVVCSPVFLQGCGTPQPVSTEPPPAPVMPSPAISGGAVPSVKAPI
+LIPPAPESPATPGHAIGPRETTATEHVIKSGESLSKVAAHYGLTTRELAELNGIKDANKI
+RIGQKLTIPSHSGAAVAKKDPKVSAARRTAAGTEYVVKAGDSLSRIAVQHGVKVADLKEA
+NGLGSDAIRAGQKLVLPAGAVKKPASAVKEPKKDPVPAPAPAPAAPAIPEPAPAPAPALE
+PVPAPQPASMEAAPVTPAAPPAPAPTLGSTGQPIKYPVSAGETVESIAKAFLVNTASILK
+LNKLADATQVKPGMILLIPLAD
+>tr|A0A1W9LI30|A0A1W9LI30_9BACT
+MTLGHPWFLLLLLLVPLVEWLRIRASARLVVPFSDGAVLRALPVSWAVRAHALMPWIRGL
+GLALLVVALARPQKGLDESVVRTEAVDIVLVVDVSPSMAAEDFSTRGAEPVNRLAAAKRV
+IEAFVKSRENDRIGMVAFAAMPYTASPLTLDHAWLLARTAGLEIGMVGDGTGIGTALASA
+INRLRESRAKSRVVILLTDGMNNSGAIAPDDAAQAAKALGIKVYTVGAGARGFARMPVRM
+PFGGVQYTQQPVELDEALLQRMAKATDASYFRATDLKSLEDVYRQIDELEKTEIEVKQFT
+RYEERFMNWAAAGLLLLATARALALTRLGRQPA
+>tr|A0A1W9LH93|A0A1W9LH93_9BACT
+MKIVTSAQMRQLDRRTIEEGGIPGHELMDRAGRGVADVTRYFADLAGMNTPSAILIAGRG
+NNGGDAFAAARHLKDLGFDVMVWIAGAESQITGDALKHLGNVHADGITVEEFPSREDWDE
+NTAHPASADFLIDGLLGTGSHGAPRGPVAWAIQYLNSAANDAFVISIDIPSGINADTGIA
+EGDAVNADVTVTMGLPKTGLVAGAAQEFVGTVEVTDIGIPPAYVEAIKPATDVEMIYSTE
+LRRLLPRRARGSHKGTYGNLLVIGGARGYAGAAGLACRAASRSGVGLTTALVPGSILPVV
+ASASLETMVHAGPETETGSLAAAAIDPWLPRLATFDALLVGPGLTPHPDSQALVRTLIEH
+CPVPMVLDADALNVLADNPKLIRKARSTVIITPHPGELGRLLGRDAASIQADRIGAARAA
+AALTGALVILKGAGTVVTTREGSAFINMTGNPGMARGGSGDILAGLLSGLLAQGIAPLDA
+ARAAVFLHGRSGDMAAWRASQSGMVAGDIISEIPYAFRELVLR
+>tr|A0A1W9LGQ9|A0A1W9LGQ9_9BACT
+MKKILIPTKLDRVAADLLAAHGGYTVVQDDKAATDEAVLALARANPDAYALIVRSEKVGP
+VLIDALPALKVVIRAGAGFNTIDIQHARKRGIDVMNTPGANANGVAEEVVALMLADARRV
+IPADASCRAGQWEKKAFMGREIAGKTVGIVGLGAIGRLVARRLSGFDCRLLGYDPFVSPD
+HAAEDGVTLADLPTLFAESDYVTLHLPENEKTRGLVNAELLGKMKKGATLINCARAGVVH
+EADLRAVKSEKGLRFLNDVYPKDAEGPKTVADIADIMLPHLGASTKEANYNAARRSAEQL
+IEFDDKGITSYIVNRDIPEGLDRAFADLAFRLTRLCRAIAGADRPLKTIETSFYGTLRPF
+AGYLIVPVVAALDDTFDRAMAPGAAKKLLADRGVEYSDRETDEHKGYKNSMTIDLTVDRG
+SGAMSRASVRGTVAEGNLMVSRINDFDKLYFEPCGHIVAFTYKDRPGVIGQIGAALAGAG
+INIDDMRNPHDLKGEFSIAILKVNRPVPQEVVDRLATQIGASAACSVAL
+>tr|A0A1W9LD80|A0A1W9LD80_9BACT
+MIRVNDRANIILAFVVLLFAAGCATIEDLPPATVGEPAAAPRPGPPVSRPAPTPPPSVAA
+PPIPARDIIAVQTLLDRQNLSCNCADGVAGQRTRQALGVWQERNGLPPTGEFDDATRGKF
+GSLDSAFAVHVVSAEEHAAVAAVPRTWVGKSQVARLGYESILETVAEKYHASEGALRDLN
+PDAVWPNPAAGMPLIVPNPRPYETPAAARLTISLSQKLVRAYDAQGRLIAQFPCSIARDK
+AKRPKGELRIVKCAENPNYYFDPALFSEDPEAARIGRKLIIPPGPNNPVGVAWVSLSLPG
+YGIHGTPHPEDIGKTESHGCFRLANWNAEKLLKMISIGLPVRVEE
+>tr|A0A1W9LCR5|A0A1W9LCR5_9BACT
+MAVEEIEASLERQEAPGLPHVPLADAQRHRGPDGEGYYVERAAPLLLHDARPSGDEAGIC
+GLGHRRLAVLDPSRGRQPMVSRDGTLAVVFNGEIFNFESLRRELQPECRFDTDCDTEVLL
+HLHARHPDDPAAWIRRLNGLFAFAIWDRRRGRLLLARDPHGVKPLHVARHGGDLLFASEI
+KALLAAGVPSRLNRAALHVFMNVRYVPGEDTLFDGIRRFPPGHFAWVANGILEEPRRFHT
+LPPAGASAAPPPSERTGLIRDVFRRAVAGQLTSDVPVGISLSGGLDSSMNVAAAAAAYRS
+DPPIRSGDRILRTFTLGFNEPTDELDDARLVAGRFGAEHHEDRLALNPLARMGEVIRAVE
+EPKINIIQGYVLSQFASRNVKVLLSGLGGDELFAGYDIHRFCNTLGRGHRWMPRDVQRGL
+LGPLGRLWWRAQTAGGALRFEHCRIGGQIALSLGDRAQFYTRLRNAWDGDAGMYGRIYAR
+PDDFRSLPATQSYFEPYFDDDGDYLDQVLRAEFQTKMVNDFLVNEDRVTSAHGVEGRVPF
+LDPNLVRLAFSIPARDKMRGRETKTLW
+>tr|A0A1W9LCU9|A0A1W9LCU9_9BACT
+MVGFAFLATVINYLDRQTLSVAAPLLTEKFQMSGESYGLVLTAFMLAYTVMNGVSGPLLD
+RLGTRVGYALCMAWWSTAGVLHALACGPWTLGLFRFLLGMGEAGNWPAAVKVVAEWFPAR
+ERALASGIFNSGAAIGAIVAPPLVAALVLTIGWQAAFVAVGLLGYAWLAGWWWVYRTPPH
+VQREVQAPPATPWRLLRTRFVASLLLSKVFLDPVWYFYIFWFPKYLSTVHGMDTVAIGKT
+AWIPFVTADLGNILGGWFSGWLMRRGLGVSAARKTTVVLSALLMTAAIPAAFCANTAGAI
+ALVSMATFGYTSYSATALAFPADVFPRNMVGSIWGLASLGSGLGGMLFMWLSGRVIDAFG
+YTPVFVAYGILPLIAAGIVLFVMGPLRPLAGLNPAAGDSTVTRSP
+>tr|A0A1W9LG81|A0A1W9LG81_9BACT
+MAAAAAAGPKRPNVLFVAIDDQNDWIGPLGGHPLVKTPHLDRLAARGTTFLNAHVQAPLC
+NPSRTSLMLGLRPSTTGIHGLAPWFRTVEAWKDCVTLPQHFKAGGYRTYTTGKIYHSGVG
+GPAKQAVEFDVWGPHGGIGAKPPEKLIPPTPMGNNPLMDWGCFPHRDEDKGDYRITTWAV
+DRLREMPPDQPFFLAVGYFLPHVPCYATQKWFDLYPDDDSVLPPVRDDDRADTPRFSWYM
+HWNLPEPRLKWIRENNQWRNLARSYLACTSFVDSQIGRLLDALEAAGLAENTVVVVWGDN
+GWHLGEKGISGKNSLWERSTRVPLIFAGPGVAKAARCSRPAELLDLYPTLVDLCGLPARA
+DLEGLSLRPQLADATAPRERPAITSHNRGNFGIRSGRWRYIRYADRSEELYDMGADPNEW
+TNVVADAKNAGTVAELRAWLPKIDVAPAPGSADRVLTYDAATDEAVWEGKPVRRADPVPE
+>tr|A0A1W9LGP8|A0A1W9LGP8_9BACT
+MSDPIVPGQIPAALDAALAEAAGAADAAALEAVRLKYLGRKGLVPELMTRIKDIEPGARR
+DYGRTVNEFKDAVQAAIAVRAAAIEAASAAQPAVGFDESMPGEWRGLGTRHPISAITARA
+IRIFRSIGFTVAEGPDIETVRNNFDALNTPPDHPSRDAQDTFYLSNGDLLRCHTSPVQVR
+YMETHAPPVRIIAPGRCYRRDTPDATHSANFHQIEGLFVDREVSLADLKGDLTHFAREMM
+GPGVKVRFRPHFFPFTEPSVEVDFSCHVCGGTGCRVCKHSGWIEIAGAGMVHPNVLAAVG
+YAHHGVGGYAFGMGIERMAMILYGIPDIRMLYENDLRYLSQF
+>tr|A0A1W9L877|A0A1W9L877_9BACT
+MIRCLADYRAALLQGVCVSNLFARPPVVEFRPARTHCPGCGAKRTVRKTRARTVSTLHLG
+PFRAREVFLRCNACGHTQRSEALGALVPPGANFGYDVMVYAGKALFLRHRNEAEVVAELA
+QSNIQISPREVSLLGVKFIVYLALAHQRRAPDLHADMQTRGGYICHLDATCEGGDPFLMS
+SIDALSDIVLGNVKLPAEDEAHIVPFLERLKQSFGIPLALVHDMGKGILAAVATVFRGVP
+DFICHFHFLRDIGKDYLGAEYDTIRKRLSGHGISASLRYRAKQLKRAMDANPAMIAALQH
+DLESVALPAEDCALMPVVGAYTLIQWALSAKAEGAGYGFPFDHPHLAFAQRLQRLNAHVE
+RIKDIHLRGQWRDNVPYFKIHVALKPIMKDQALWNAVAAVEAKTIVFEKLRKAMRIARPT
+GPHGLNDEGGAGSIRTIEKSVRAFRAWLTRRKDYSQDRAARKMIEQIDKYWEKLFADPIT
+VQTSSGAILIQPQRTNNILEQFFRSLKRASRRRTGNASSSRMLRTILAETPLVRNLKNPH
+YLKILLNGKPSIEAVFAEIEIDTLRKAFRDAQDDPERIPAKLKPIIAMPDFPQKFVSMTE
+RAAA
+>tr|A0A1W9L9Q8|A0A1W9L9Q8_9BACT
+KFVRDHIAVPFLGPADGRAMVPLFCTFFVFIAGLNLLGLIPIFSSATGNVNVTGGLASVT
+FGFMVFGSIRRNGIGGFVRSLSPRGVPAFMRPFFILIELVSLVSKAFALTIRLFANMLAG
+HIVVFALLGLVVVLGWAALPVVALTIGMFLFEVFVCVFQAYVFTLLSAVFIGQAYHPEH
+>tr|A0A1W9LFG1|A0A1W9LFG1_9BACT
+MAEIGRASLFGKLNSMGYKSVESATVFCKLRGNPYVELIHWIHQIVQFPDSDLQRILRHF
+EVNLSRLSADLTAALDALPRGATAISDFSPHLEESVERAWVLGTLLFGESQIRTGHLVAA
+WVKTPGLKHVVAGISREFEKIKPERLTDEFARIVSGSPEETLGAQDGFKVAAAEAAAEGG
+TALPPAALGKQEALNRFSVDLTEKARRGEVDPILGRDEEIRQIVDILMRRRQNNPILTGE
+AGVGKTAVVEGFAQRIASGDIPPALKNVTVRTLDLGLLQAGASMKGEFENRLRQVIEEVQ
+ASPKPIILFIDEAHTLIGAGGAAGQGDAANLLKPALARGTLRTIAATTWAEYKKYIEKDP
+ALTRRFQVVKIEEPSEEKGVLMIRGLATVLEKHHRVQILDEALRAAVSLSHRYIPARQLP
+DKAVSLLDTACARVAISQHAVPAEVEDSRRQIESIKTEMEILDRETAVGVEHADRRKKAE
+EQLAAEQKRLVEIEA
+>tr|A0A1W9L8T6|A0A1W9L8T6_9BACT
+MPISLLAAKAGKAMYTEKPLGICIEQDLKARAIADTFGCTFQYGAQQRSIQHVRMGIELV
+LNGHIGDVKAVYVWAPAGESGGSARSTTSIPPCGPTSPAIFRTSPSGPAARSHGTR
+>tr|A0A1W9L8N7|A0A1W9L8N7_9BACT
+HVRELRSRNVEWVASQALADALGLTSSTVRQDLSHLAVSGISKRGYDARRLEEELRRELG
+GTTPWKVVIVGAGNLGCALAAHEEFAEESFDVCGLFDSSPRVVGRRVGRLTVQNMAALPG
+AVRARKASLGILAVPAAAAQEVADRLVSAGVRGLLNLARSHIHVPAGVAVVDARILEHLQ
+ELSCLVRLKHRKQSGETRS
+>tr|A0A1W9LEX7|A0A1W9LEX7_9BACT
+MAVWHVEGSCRTIASDDRGATFREVGRANVPKREDRNCDEPMLVERKDGGLWLLVRTRYG
+IGEAASKDGGKTWSEVADTGIPHTDSRFFIRRLASGRLLLVRHNSPGPKLGRSHLAAFLS
+EDDGRTWDGGLMLDERAGVSYPDGVQAPDDSIRVIYDYNRTTEKQIFMARFTEEDILKRR
+LVSAAGKLQIQINRATAVNPTVRIR
+>tr|A0A1W9LD02|A0A1W9LD02_9BACT
+MPRMSVLFSLTAFSGLVLVTLVAHLFFRLRRLRRERDELLQEKDVIFGFVHDVAEVFSDA
+GAADLDPMLKRVLFYALRTTRAGAGAIYLFDPDGELLRCRAISGIFPPLLGGVDTGLERA
+MSKSQHVESLVKSKLIRRGEGLVGDVADFGNPILIADAEPDPRVPRYELDFLRIHSLLLV
+PMRFHQKVLGVLAVVNRVDGTPFIQADLNLLQALADQASVSVHYAGLRETLDEKQRIDHD
+LGVARRIQTSLLPKAIPKVAGLEVSAFNYPAQEIGGDYYDFVQVDDTHLGIAIADVSGKG
+IVGAIMMSVCRSVLRAHAPGNPSPARVLCLLNRVLSQDVSEDMFISMLYMVLNTATRELT
+VARAGHERPILSSGDGSGFTIIDSPGIAIGISDTPTFERVLHEVTLPLKPGDVVVAYTDG
+VTEGMNLQGEEWGVDSFLDAVRIAAEEGAHSVLNNVRQRLERFAGNRPQYDDMTLLALRV
+MR
+>tr|A0A1W9LBF6|A0A1W9LBF6_9BACT
+AATVGGAQIQARGTIAGSVANASPAGDLAPSLLVTDGSVVVASAAGEREIKLSGFFLGYR
+KIDLRPDELIVRFNLPKLPANHRESFLKLGPRAAQAISKVMGSYRGSAAGKAIRSFAVAL
+GSVAPVPVRLPEFEKWIVGQEIGKKVLDEAERRVSVSVKPIDDIRSTAEYRQWVSGRIVR
+RFLEELVAE
+>tr|A0A1W9LE65|A0A1W9LE65_9BACT
+MSITGHTKAFAVLGHPIAHTLSPAMHNAAFHALGMDAVYLAFDVLPERLMDVLGAMREMG
+FGGVNLTVPLKELACRGLAKLDESARLLGAVNTVQFAPDGMIGHNTDGVGFLKAVEEAFG
+ESVEGKSVFVLGTGGAGRAIALTCAGSGVRSLTLADADPARPKKVAMEVEAQFFTGVKIA
+ESWEREAREADLVVQATPLGMKPEDAPPIGPGAFRPGQFAFDLVYMYPDTGFTKAAAAAG
+AKAANGLGMLLHQGARAFEIWTGLKPPVDVMRKALEKAVYG
+>tr|A0A1W9LHH8|A0A1W9LHH8_9BACT
+MYLKCHPRIKDGKAHRYWSIVESVRTRRGVIKRPVLYLGEINDTQRAQWCSALDVLDGAD
+GTVRQMCLFPEDRTPPLEVSNSVRLRLHRMTLRRPRQWGGCWLALELWNQVGLDSFWTPR
+LPVGRKGTNWLHVLKTLTCYRLLDPGSEWRLHREWFKTSAMPDLLGEDDSVAAKDTLYRC
+LDRLCEHKNDLFSFLKERWSLLFNASYDVLLYDLTSTYFECDPPEDAGGLRRFGYSRDKR
+PDCVQVVIALIVTPEGFPVAYEVMPGNTSDKTTLPAFLHKIEAQYGRRNRLWIMDRGIPT
+EESLERMRAEGASYLVGTPRGRFTRLEAQLMDQPWKQVQAQIEVKLARDGDDLYVLTRSG
+GRRDKEQSMRRRRLKNFWKRLHQIQAMTNLKRDALLLKLGMAKRDAGNTWDLVDLELPEP
+RQEVTPKTFRFSLNRQKLRSARRGEGTYLLRTNLTAANPDELWKQYIVLTEVEQAFKELK
+NDLSIRPVYHQNDERIEAHIFVSFLAYCLQVTLKHRARVRAPGLTPRAILEKFKALQMLD
+VHLPTTDERILILPRYTQPEKDLQLLLHQLNLTLPAQPPPRIEALHGNVGQTCDRKSKEF
+DGFMPE
+>tr|A0A1W9LIB4|A0A1W9LIB4_9BACT
+MAARPGGLGRGLGALIPRASAVAAAAGEPRPEPAAPDSEVRRVPVGSIRTGVWQPRRTFR
+AEALDELVQSVRERGVLQPLLVRAAGEGYELIAGERRLRAAVAAGLAEVPVRLMAVSDRE
+ALELALIENLQREDLDPIEEAEGYRMLGERFQLTQEQIAERVGKGRASVANAMRLLGLPE
+AVRVMLEDGRLSVGHAKVLLGLSIPQEMESLARQSVKDGGSVRDLERAVDRLRRGPRRRR
+SAQPDVPAPHVRDIEDRLKQKLGSSVQITPSRTLANGRKASGRIEIEFYSADDLDRLMLI
+LGLTEEF
+>tr|A0A1W9LGS0|A0A1W9LGS0_9BACT
+MESGPDKGMSIVVPPAGARVGRASGNDVVLTDPSLSRFHCRFYFKDGRTLHVSDLASTNE
+TLVNDRPSPDGRLRVGDRITIGETVIGVVHDGTTGAAPAAAPAPAAAPAASPAARKPMEV
+DLGLDRTDDGFEAARSLKPKAPLRARILVYGGAALAVIAALAVAAWLMKQPQASVRRPVA
+AAGTGSLEIHYEKVEAGRKNIFRYAMKLEGGTVSVRIDNIQDGQHISREKKTDPKVLESL
+ATSLEQSGFFHLTEEYQGLAPDVWDSADLTLVVNRRAHRVRVLNRLQPDAFKKAREEIEE
+FVRNELGLYALALPPAKLVELGRNAWLTGQKLFDEREVRHDNLSRAIKSLTEAESLVETL
+EPKPDFYEKAIALREEAKRLLQAKYEDYLFRADRSIKLNDWKEANTHLQVLLETISERSD
+ERYDKIYKKLVDVQRRLSRK
+>tr|A0A1W9LET1|A0A1W9LET1_9BACT
+MATATTTKLATLLERVGLFSAEQIEDLLSRQKEGGTSIVDVVVKQGYAREDAFLAKLAEA
+MKLPFVHVGETPIEPSVLQRLPTKAVFQYNVIPLGMENGVLRVATHDPFTPGLVDALRLA
+SGFRVRLALSPAVDLAKAAKKFYGVGADTLEQMIQDNRIEVAPVEDLGKEDLGELDQEAS
+VVKFVNQIIWEAYQDRSTDIHLEPMETDLRIRYRVDGVLHQTPVPPQLKRFQPAIISRIK
+VMAGMDIAEKRLPQDGRISLRIRGEEIDVRVSTMPTVYGESVSLRLLMRSSGLLGMDKLG
+LNERDEAILNKLIHKPHGILLVTGPTGSGKSTSLYAWLHTINSIDKRILTAEEPIEYEMA
+GINQIQVRPEIGLTFAVCLRHILRQDPDVIMVGEVRDKETAEIAIRAALTGHLVFSTLHT
+NDAAGAVTRLVDMGIEPFLVASSVEALIAQRLVRKLCASCRRPWTMDPAFLKTVGFPEAR
+LAEGTIYEAAGCEECRMTGFRGRTGIYEILVVSDAVRQLIVTRAASSEIKQVALRHGMRT
+LRTDGWTKVLAGVTTVEEVLRVSEEDEALSEG
+>tr|A0A1W9LDF1|A0A1W9LDF1_9BACT
+MHGRRGRVRADGHRRAVEETTNMKAVEKKCLNSSLAGSWYTADPAELRRELAAARDASGE
+ARDDAVFALILPHAGYRYSGAVAAHGARVVEGRRFSRVIVLGPSHRVPMRNAVAVPEATH
+YGTILGEIPIDTAFVRRLRRYPLFRPVAGALPGEHSVEIEFPVLQSALGAFSLVPLVVGQ
+MDDPAIRETAACLRAEMDSNTLVVASTDFTHFGPRFDFAPFATDVEASLRKLDLGAFEFV
+KARDPDGFRRYIERTGATICGRDPVAILLAMLPDDAEVRLLKYDTSGRITGDWENTVSYV
+SAAVRCRWTPKPLARPAEKETAAQKGKEPVMEIPDADRKALLALARGTIQNHFSTRKKAA
+PGDLGIPVTSGMRQIAGAFVTLHKHGDLRGCIGEIFPTRPLHEAVIDHALNAAFKDPRFG
+PLTELELSVCDLEISALSTPREIGSWKEIVLGKHGIVLHKDGRSAVFLPQVAPEQGWDVA
+TTLTHLATKAGLSPDDWREGAKFQVFEAVVFGEKK
+>tr|A0A1W9LDH5|A0A1W9LDH5_9BACT
+MSLLRPVIGAVIGAAVGFAFCKFVGCRSGACPLTGNPWMAMFWWGMIGVMAPGLMLKEQA
+SPLGLDATVAAITNKAVAAGWTVSSVMPLDQSVKKHGGDPGRPVRLINLCQAQHASAILL
+DDKARVATTLMPCTISVYETASGPPLPASAPRRSS
+>tr|A0A1W9LCP2|A0A1W9LCP2_9BACT
+MDADAQSAAPSRDEVLSWMALKGAEREVLYRRADAVRRERKGDEVFVRGIVEFSNICAND
+CLYCGIRRSNEKVRRYRLPADEILDVARKMTGWRQTTVVLQAGEAPSAAGDRELGEIIRR
+IKAGTGLAVTVSVGNRPREVYAHWRACGMDRYLLRFETSDPAIFARLHPDCTLDERLRCL
+GDLRELGVQTGGGFMIGVPGETPGVLADNLLLCRTLDLDMVGIGPYIPHPDTPLGAEPNA
+YADDPEMFFTAVAALRLVHPRAHIPATTAFDAVFPGTGRNLALQRGANVFMPNNTPGERR
+GDYLLYPNKPCVDENAGQCAACVVLRLRSLGRTIGEGPGNAETSGNVRIPHLPQSKGKDG
+ITGWTGLGETDERRKAEGGRTILPKAN
+>tr|A0A1W9LG46|A0A1W9LG46_9BACT
+MAAKQWTTPPAMTIDTAKTYRATVETNRGTIAIAFEPKHAPKTVNNFVFLAREGFFGAVT
+EGKDVVMAIRQGDTMKSVTISES
+>tr|A0A1W9L947|A0A1W9L947_9BACT
+MKKQNSPELETMRHSASHVMSAAVCRLFENVRLDIGPATGDGFYYDFDLPHRLVPEDFPA
+IEAEMAKIVAEDHPFERVEVARDEARRMLEERKQTYKLERLAEIPEGETITLFKSGEFVD
+LCRGPHVASTGRLGAFKLLTVAGSYFHGIETNPMLQRLYATAQMTQAELDAQIALLEEAK
+LRDHRRLGRELDLFSIEESVGPGLIHWHPKGARVRCLVEDFWRQEHFRAGYELLYTPHIG
+RAGLWETSGHLGFYRESMYAPMKIDDQEYFIKPMNCPFHIQIYQGRRRSYRDLPVRYAEL
+GTVYRYEKAGVLHGLLRVRGFTQDDAHIICTPEQVESEIRDVIRFARAMWSAFGFEDIAA
+YLATRPEKAVGEESRWSQATAALEAALQSEGIPYETDPGGGAFYGPKIDLKVRDAIGREW
+QMSTIQFDFNLPERFDMTYTGADGAPHRPYMVHRALLGSIERFFGILVEHHAGAFPLWLA
+PEQIRAMPLTDKQIPYAQSIAASLRQRDFRVTVDGSPDKIGAKIRQAQVDKIPYMAVVGG
+REEQAGKVALRHRTAGDLGPMDLDAVIARLQEEVARKGSASVPK
+>tr|A0A1W9LHI9|A0A1W9LHI9_9BACT
+MLFGEHAVLHGKRALVCAVTSRLTVRLGPRTDRRVCIESALGRHETSLDAPEPSIPFRFV
+MAALAHGLAGLPGGFDLAIDSEFSPTVGLGSSAAVTVATLAALDAHAGRTTDREALVRAA
+REVIRRVQGAGSGADAAASVFGGIVAYRADPMAIRRIAQAPPLTLVYSGAKTPTPEVIRR
+VESARAAMPAVFNAIYEAMNRVAEEATAAIEQANWTRTGALMNVAQGLMDAIGVNDAALS
+SIVHALRADPAVLGAKISGSGLGDCVVALGRPVRPDPALLEIPVCISPDGVVVERDA
+>tr|A0A1W9LC10|A0A1W9LC10_9BACT
+MKIQPLADRVLVEPVKEGDEKKGGIIIPDTAKEKPTTGKVIAIGTGKLDDSGKKIPFNVK
+VGDKVLMPKYGGTEVKLNDKDYQIVREEDILGVIHD
+>tr|A0A1W9LAF1|A0A1W9LAF1_9BACT
+LRPLLDHILQVRRDAGLLGREICGKRGFDFDIRIQLGAGAYVCGEETSLISSCEGLRGDP
+KNRPPFPAQKGYLGCPTSVNNVETYCCVARILDRGPGWFNEIGSKGSPGTKLFSVSGDCA
+SPGVYEYPFGVKLTDLLRDVGAEDAAAVQVGGPSGHLVGPADYNRSLEYDDLATGGSIVI
+FNKDRDVVHVVRKFIEFFVEESCGYCTPCRVGNALLLQKIEDLLHGRGAPADLAYLEQLA
+KTVKVTSRCGLGQTSPNPVLSLLKSFRPVLEALVKPSADEFLPTFDIRAALSSTEDLIGR
+KSVVFTP
+>tr|A0A1W9LA07|A0A1W9LA07_9BACT
+MIPLGESLVLILSLAALSLAVGAAFARRVAAPGARSMMAWLRLNGAVLLISGGVALLSRV
+WGELAGLLQPYATPVEAWFVFWTISTIGGVGEGGLRLGSALRRRPFPVPPLLVAILRTVF
+LAGAAFWVLREHLGWNITPLLASTAIVTAVVGFALQGVLGNLLAGMSIHVVRSFHEGDWI
+SVGDVEGEVLSTNWRETRLRTTDNMTVIVPNSTVAGATVKNYSQPDPRRRHEVFLSIAHG
+HAPGDVTDALQKASAGVADVLASPTPAAYVAEVNDWGLRYRLFFWSTRYQDRRPITGRVF
+AAAWYELRRRGIRPPMPLDADWLRGAGAALAGRPAPQPDEADLQTRIDAIVRSDFGRRVL
+GAEVVGEGNPPGFEVMLRRTRRLRYRAGEVLFRQGDPGEACFIVMCGRLRGEVRREGVAE
+AAVFESAAGALVGEMSLVTGLPRTATLTAVDECEVLEIDAAAFGALLAVDPGLPDRVTQL
+VTERLSANAETLDRLASDEAVRVREHLKPQSLLARLRAMIAGA
+>tr|A0A1W9LD40|A0A1W9LD40_9BACT
+MKTLNVHEAKTHLSAVLAEIEKSGEAVRICRSGRPVADLVPHRVVDRLRPHPVMRKIRIG
+YDPLAPMSAEEWPEAE
+>tr|A0A1W9LBZ6|A0A1W9LBZ6_9BACT
+AMMTVGGHMGVRTFITEAGHFHDEKAPAPLIEIEFQDAVWPQMVDVARQLAALAEKHDAK
+VLLEPYYRGFLTSAKRVRTFVEAVNSPRVRVLLDPANLIEVNDLDEMFAQLGPYIDCLHA
+KDRKLHIVKGVAAGQGDIDYKRFVTLAAERTPTAPLVLEYVGPKDYKDALAHLKNAIRAA
+GLSEA
+>tr|A0A1W9LEU8|A0A1W9LEU8_9BACT
+MEGDVKPLVETQQAPLDPDTRLKIVGLGRAAERTPPDLAYLVEQVSDPSPAIFGAALRLL
+AELEPMASLPERWYDDEPPPGTDRENIPAWIRRSGTGWGRAGDLADLCVRRLTQLDSPQA
+DVLMQRLARLLGLRRTLTIRLRRSGRSDLAWRFGRRAVTEHHRDFPKQIGVFPTLACQLH
+CGYCISAGLALGADNTLPLTDLRRLIAWARRDKARRLCVTGGEPTIYPHFVELLREAHAA
+GLEVVLATNGLGRPETTDAIIETRTESVTLHLAPETLGSEKLYAQYQETARRLIGAGLSV
+AMRCNLTTPDDDPRPFIRSAADLGFREMRMAVPIPNANRVNQFVAVSELTRFGKAIDVFV
+AEAGQRGIDVKLAKPFPLCRLAERTARQFILNGSMSSNCQVAMQVFTHNMLVHPDLTYSP
+CLALNMKSNAPILETRGLYDAARKYRAHVTSLMRQPLLEACPSCPLFKGGRCLGACLSYR
+LEGRENADELRRFG
+>tr|A0A1W9LD41|A0A1W9LD41_9BACT
+MNTPLDELSRILAPDRVLTAQEDLIPYAFDATATLRRTPRAVVFPASTDEVAALVRWAAA
+NRIPLVPRGSGTGLSGGSVAADASGVVVCMLRMNRILELDPRNLTILVEPGVITQQIDDA
+AAAAGLFYPPDPGSMKVSTIGGNVANNAGGLRGLKYGVTQDYVMGLEVVTATGDVAWLGG
+PCVKDVAGYSMRDLFIGSEGTLGFLTRILLKLVPRPAARRTLMALFDRMEDAAETVSAII
+AAPIVPCTLEFLDRRTMQCVEAYAHVGLPSDCEALLLMETDGHPAVVAEEADRMAAIARD
+HGARTVTVARDAQHAVELATARRSAFAALARLRPTTLLEDVTVPRSRLAEMIRAVETIAA
+KHRVEIGTFGHMGDGNLHPTFLTDERDAEEMKRVGAALDDLFAKTLELGGTITGEHGVGL
+AKKPYLPAQAKTEGMRLMRAVKDALDPLRILNPGKMFDPDDARA
+>tr|A0A1W9LHK3|A0A1W9LHK3_9BACT
+MGTVNVVILMGNLTRDPELRRTQGGQTVSDLGLAVNERYKNQAGEEVKKTCFVDVTVWGK
+QAESCAKFLRKGSPALVEGKLQFDQWESPEGGKRSKLRVVAERVRFLSGAGAGGGKDDEG
+GADDEPAAEPAPPSRPPQQAQTRRPMPRDARAAC
+>tr|A0A1W9L9W8|A0A1W9L9W8_9BACT
+MAAKLQKVFTDPLSENNPVTIQILGVCSALAVTTQLRTALVMAASLTIVTAGSNVVISLM
+RNTIPPKIRMIVEMVVVSVLVIVADQVLRAYMFDVSRQLSVFVGLIITNCIVMGRLEAYA
+LQNPPLPSLIDGLGNGLGYSAVLVIVAFIRELLGSGKLLGFSVLPTSYLGNGLMLLAPGA
+FIVLGLLIWAQRSVTKHYETA
+>tr|A0A1W9LF67|A0A1W9LF67_9BACT
+MKIVIVGGVAGGASAAARVRRLDEGAEIVVLERGRHVSFANCGLPYHIGGEIKNRELLLL
+QTPQSLRESLNLDVRTGHEVLAVDRRARRVRVRDLDAGREYDETYDKLVLCPGATPIRPD
+LPGVDDPRVHVLRNVEDMDVIKAAVDGGAKSAVVIGGGYIGVEMAENLRRRGLTVDLVEM
+VDQVMPPLDREMAYDLQQHLEQHGVRLHLGTAAAAFRAAGAQVAVELKNTEALKADLVVL
+AAGVRPETALARAAGLDLGPRGGIRVDEHMRTSDPDIYAAGDAVEVKHTLLDGAWLIPLA
+GPANRQGRVAAENLCGRNTTYESSQGTAIVRLFDMTAGGTGATEKNLQKAGKPFLKIYLH
+PSGHAGYFPGTAPMHIKLLFAPGDGKILGAQVVGFDGVDKRLDVFATAIRAGLAVGDLER
+LELSYAPPFGSAKDPVNMAGFVASNLLKGDVRFWYAEDYPAKTEGGVLLDVRGRAEFELW
+HIPGAVNIPLGELRRRIAEVPRGKPVFAYCKVGFRSYLAYRLLKQRGFDAVATLAGGSST
+FCAVQGRGVCTEKTGVPFMSYAEEKMEAAAAPTGKTALLDCCGLQCPGPILRLKSTMDGL
+AAGDELAVCASDPGFVADARAWCARNGHALLDIRQSGTKIEARIRKVAPAGSPAAVTEDR
+SGKKTMVVFSGDLDKVLAAFIIANGAVAMGSGVTMFFTFWGLNALRKTNAPPVRKDLLSR
+MFGWMMPQGASALKLSKLNLLGAGTAMMRFVMRRKNVDSLPDLIATAQRAGVRLVACTMS
+MDVMGITKDELIEGVELGGVATFLGESDRSGATLFI
+>tr|A0A1W9LGV6|A0A1W9LGV6_9BACT
+MSEFAEGLPRRRFLQQAVASAAALGAFGLAARAPANAVAGKRRLAMVGTGSRGIGMWGTP
+LVKDYADLLEFVGLCDINPDRSKVARELIGTTAPTFTDFEEMVRATRPDTVIVTTVDGVH
+APYVCQAMKMGCDVICEKPLCTRADQARAIRDMQKKTGRDLTVTFNVRHSNSAMKMNVYG
+RNGQFRHPHCRVCAFKDRCAFHWDITASPRNMKLYVECEARDGYFRDACVFRNSVDIPDT
+MTVQIRYANEVLVNYSLNAAAPYEGQFVVINGSKGRIELRHDFPSPGRRSVEAEGRDAGR
+ADEFAGRHRRVHVDRPEGAGADRRPGEAGLRWPELDTGPGLGHIHGSRRHAAKHEVNMNR
+IGIVTVMAGAFAVAASAQQAGHFLDQAVATELLRGAVAGQAVNALAQSADMQRSYVTGVI
+EQELAQEAARRGLTERVDVQQAMTRARHQILLQALQQDIGRHAVQPTDVEIQASFKKEKD
+RWVMPEAFKLDIFAADSSNATAVAALKAAAGMAAPDAAALKTAGARQLASGAGEAWVTER
+EIVPEVWKALPSLRVGEGRTFGVQSAVWLVRRVDARKAGPMTFEQAREQVRGALLQANQR
+AEWEAFVEKRRKALGL
+>tr|A0A1W9LFI7|A0A1W9LFI7_9BACT
+MAQRINFGKLVDVIAPPDLIEIQTDSYREFLQRDVAPNKRRKSGLQAVFKEVFPIESYDG
+QCVLDFVKYEIRETKMGPVECLREGLSFTAPLYVTFRVKDPKEAREEEVYMGEIPLITEQ
+GTFIINGAERVVVSQLHRSPGICFETGLHANGTVLYSFRVIPDRGSWLEVQFDASDMLNV
+CLDRKKRRRKFPATTFLRALLGLGEKGDGGQGATKGTDEELLRLYYQIETVSLAGEVEMA
+HRVLLHEIADPDAQVVLGKAYDPLTPELVKQLRAIGMKTVELVDVSWDEGLFLKTLRKDQ
+QIRNAEDALKDIYVKLRPGDPPTLSNARQLLKRIFFDENRYNLTRVGRYKIQQKLGPHVG
+REDCVVLCKDDVVEGLRYLINLRRGEGTVDDIDHLGSRRIRTVGELLESQCRLGLARTER
+LVRERMTIFDPQNEKLSPQKLINPKALSTVIRDFFGRSQLSQFMDQTNPLSELAHKRRLS
+ALGPGGLSRERAGFEVRDVHSSHYGRICPIETPEGPNIGLISSLSMYAKVNEFGFIESPY
+RKVVHGRVTDDVENLTADEEEKYVIAQANAPLDEKSRFANETVMVRKGGDFKEVARDLVQ
+YMDVSPRQVVSVAAALIPFLEHDDANRALMGSNMQRQAVPLLRAERPYVATGNEERIARD
+SRVLVVALDAGKVAYVSASRIVITADGRMPDKKGMKDPSVQEYDLRKFMRSNAGTCFNQK
+PVVAVGQRVKKGDVLADGLSTRDGELALGRNVVVAFMPWNGYNFEDAIVINERLVKEDVY
+TSIHIEEFECGARDTKLGPEEITRDIPNVSEEALKNLKHDGVIRVGAEVKPGDILVGKIT
+PKTETELAPEERLLRAIFGEKAADVRDTSLRVPSGTYGIVMEVKVSSRNTTKRAKLNSCE
+KRQQLKQIEDEFKEKRQTLQDNLTEALSNILLGEKIPLDVVNVETGEKIIPANRKITKTL
+LRKLAVARDHIEIDASPIQIKIQSILADYNRRFGEMVTEQSDAVERVKSGDEVDPGIIKQ
+VKVYVASKKKLSVGDKMAGRHGNKGVIAKVVPEEDMPFLSDGTPVDIVLNPLGVPSRMNV
+GQVLETHLGWAARQLGMELDRMLRVGSSSQELRKFLENSYSRAGRQKELRDMTDDRVTDV
+AESFREGIRFATPVFDGVPESCIHELMAEARAKGAPVGDDGKAILCDGCSGEPFGQSVVV
+GVIYMMKLHHLVTDKIHARAVGPYSLVTQQPLGGKAQYGGQRFGEMEVWAMEAYGAAYSL
+QELLTVKSDDIKGRTRIYESIVKGENVIEAGLPESFNVLMKEMQS
+>tr|A0A1W9LEZ4|A0A1W9LEZ4_9BACT
+MWKTFMGLGVAVGVVASALASAGAQVRAPAPAPGPPPVQIFVDGAAPRLRWATGELRAAL
+EKAGHAVSLRSAATLESAVRSEPAALRIAVAPDSAQSARIAKFLRARTPTETGAQSYAVR
+RSTASGGSLLAVLGADATGAMYGMLDLAEAAGHGTLDSFADRDRAPHIERRGIRLNVPLD
+ARTPGGAEPSDAAHANVLEMWSPDFWRAFLDAMARHRFNALALSHPDPFRSMVGLGGSEA
+APLDDVWRAPLPSEDATGGDAEPEIVKRIPAAEKAKFWRLVMDMADARGIEAYWLAPTGD
+IHPIGRRPGDDAAPGFAVDFAAHAGPVPDTMSAVPPQGRAGRRAWIVVRTDDISSFRWAD
+PAYARGVLRSMPGPGKCAGFLLGAEGAVWGRDVLQRPDAGPQPLTIVKHWLSFMLWGRLG
+YDPDLSDDVLLAEVRRRFPGADARPLLNAWVAASRVFPAVTAFYQTAPGPEWFPETCSGH
+PNRTGFVTVRHFMEGATRPGSGCADIRAWSAALRDGRAPGGRTPLEVASGLRRNADIVLD
+ALPALHAAAADSQDAELARTLLDLLAMARLGQYYAAKIEGAAALAAFDRGAGPGTRARAI
+RHLEAARDAWAAYATATTQQYRQPVLDARAGLVDIPGLAARVAADIDIAISWRPGELDAP
+RPQP
+>tr|A0A1W9LDG6|A0A1W9LDG6_9BACT
+METLWAPWRIEYIKEVPKGGCFLCDILRAGGDDRVNLVLKRGTVCAVVMNRYPYNNGHLM
+VAPYRHVARLADLTPAERLETMDLLDLSVAVLTSAIRPDGFNIGINLGRVAGAGLETHLH
+THIVPRWTGDTNFMPVIGDTKVIPQALDDLWVTLRAAFG
+>tr|A0A1W9LG33|A0A1W9LG33_9BACT
+MAACLATGAGYPAVERGVAIALIAIAGLLAAEQILNALLDVYRPRGRDAGPASPYESRIA
+RRLCDPSSWVHGAAESLDYQFGFKVSQTWLAGFLGRTLAPLFLFQIAVLYALTSIAILGP
+EEEGILERFGKPRAAAAGGWHLTPGFHWKLPWPFETVRRIPARRMLETHAGYEGGVTDAS
+EVLWTRPHFEREEPFLTPARDGATSAAPSAGEAAVPVNLVSVNLPVEYRVTNLLQYAYGH
+RDPAAALRAAAMRAVTRETAGRDLFDILGPGQAEFARAVGARIRAEAGAMGLGIEVTFVG
+VQGVHPPVPIADAFESVVGALEEKESAVLAGRAHAARVLPAADAAVQKVRYAAQSQRTAQ
+ELGSRAEAAQFLVRKAAHDRSPLVYRGRAHLQAVQDALVKPRLFVVAAPRDMEVLQLNLE
+EKIPSSLFDLGPPSGTPADGAGAAGTEKRK
+>tr|A0A1W9L901|A0A1W9L901_9BACT
+MRIGGVRLAGPVVLAPMAGYTDLPFRRLCRRMGAGAVYTELVSVDGLVRGSVQTLHMLSG
+DPAERPAAAHLYGSDPAVFAEAAAIVERMGRFDWIDINAGCPVPKVVRRGAGAGLLKTPD
+RLFDIVRAVRAAVKLPVTVKTRIGASREMFNIDEVARGIADAGADALALHARFTVDRHSG
+PADWDAIARIKAAAGRMPVIGNGGVTSPAQALEFLRRYGVDAVMIGRAAIGNPWFFAQTA
+ALLEGRDPPPPPGPAERRDAMMEHLAAQIALAETLFQNRRKKFDPAEIAARQFRAHLVKY
+VGGLPGAAAMRRKLNDIRSPADVIAAMDLAIHCGESAEF
+>tr|A0A1W9LDC9|A0A1W9LDC9_9BACT
+MDTGHMKTMNASRFKAECLHLLDVVQRTGHPITILKRGKPVARVVRFSENPTKPWLELAG
+SGRFMGDPFGPVVGEDEIEALR
+>tr|A0A1W9LCM1|A0A1W9LCM1_9BACT
+MFTATPQVRRKARTETVARAFFALMSMAMVVPLLAIVGYVIYRGWPVLSWVFLTTNPSHG
+GTAGGIWSALVGTIYIVSLSLAISAPIGVLAAVYLNEYAKDTWFTRVVNLAVVNLAGVPS
+IVHGLFGVGAFVYFLSVNGGRKSILAAALTLAVMTLPVIIASTKEALASVPTAFREACWN
+VGATRWQTIRRIVLPNSVSGILTGVILQVSRTAGETAPVMLTGVTTWKMIEQTGLFLYHP
+VTDQCMALSMHLYYIATQASGAPKALPFAIATVLIGAVLAVNAAAIAIRVTLRSRKKW
+>tr|A0A1W9LBG9|A0A1W9LBG9_9BACT
+MNPNEDFARPGASAEHPADLADRLQSLPASEGAALLRTLPSADAARALAEMDRASAAALA
+GELSPAEAASLLGAMPHDEAADVAALLDADRRSEVLGKLGAPAAARVADLMRYPPDSAGG
+IMQDRFIALPADATLADCQERLRQLTEEDMPSAAYLYVVDGDRRLLGVVAIRDLVFRKSD
+RLVRDVMNATVRFVSVDDDRETVARLFAQYHYLALPVMDRAGRLAGVVEARQVIGIVQDE
+ATEDMQLMVGLSGEERTFTPWRTSLVPRLTWLLVNLATTFLAAAVVGMFEKTIEKWTVLA
+VFLPIVAGQGGNAGMQTLTVIIRGMALGELHGRAAWAALGKEATLGVLNGLAIGIVVGLA
+GWLWKGSLVLGVVVAVAMVLNMIAAAFSGVVIPAALRMAR
+>tr|A0A1W9LH47|A0A1W9LH47_9BACT
+MQFSNPYRIDRRPGLYVALICAGAGVAAGADGNWPRWRGPNDNAVVEQALPVAWSDTSNV
+VWKAALPGRGCSTPVVWDGKIVLTAPVDGRDGVLRWKTNLQDRFGPDALVWDIGTSPALT
+EKDVVVNVMNGTNSHLAAFDRATGVAHWSVPRNYACAFETDQGYTTPIVLPFAGRESLLV
+WNAEHLTVHDAADGATLWDCGGLNPEARSNWPPVSSPVILGDTVVVPYGRGKLLHGLRLA
+GRGDVTGKALLWSRNDTGSYVPTPLAYKGKVFLLRDRSEVDCIDPATGRTEWTGLFEKNA
+TAFYASPVIAGGRTIRSRALCRTPARRVTSRTAWSSATCRCVP
+>tr|A0A1W9LDD8|A0A1W9LDD8_9BACT
+MGISTKGRYGVRFMIDLALHHKSGAVALKDVARRQGLSEKYLWQVLAPLKTEGLIAATRG
+ARGGYALARPPSKITLREIVTTIEGEDLLVSGGAGPGGESPAIRALWDELEARLSRAMEA
+ISLQDLADRQRAADETASPFYAI
+>tr|A0A1W9LFH8|A0A1W9LFH8_9BACT
+MLSLHVDPNGEYKRGREKYTGKVTTTVQLVRNKEDPLRIRLHFELGVDPTPKETEAFFPY
+RIAAAIRGDFVLAKPWSKEAEPAILSCGAEVLFDVLRGTVGQITGQALNGFFVLPDIDFS
+LLGKR
+>tr|A0A1W9LIR0|A0A1W9LIR0_9BACT
+MSTIRVPQDDEGGRLDVCLARLAPDHSRARWQALIADGRVQLNGNIVVKPRTVVAAGDAI
+DYVIPVPTPTRMVPEDRPIDVVFEDDEMLVLNKPAGWVVHPGPGHEKGTLVHALLHHCPD
+LKGIGGEVRPGIVHRLDQDTSGLLVVAKSELAHRRLVEMFKERAIRKEYVAIVFGRPEPE
+RGVIRTPIGRSDSNRQKMSAKAEHGRMAVTHYEVVETNGQISMVRIRIETGRTHQIRVHM
+THIGYPIVGDAMYGARKQESKALGATRQMLHAETLALSHPITGQDLEFFAPMPADMRKIV
+AAILAGRLPGGSAKEDLK
+>tr|A0A1W9LAU8|A0A1W9LAU8_9BACT
+MSVLRFDLTGGASGDMILGALLDLGADRAAIESQLLALGAGAIRLDAARECHHGLTGTRL
+AVAPGGASPQDLPAGHGHSHGHDHPHGHAHAHGPAAHAAGHAHRSHSDIRAMLEASALPA
+PARDLALRVFRRLAEAEGRIHGVAADTVTFHEVGALDSIADIVGSCLALGQLGATGIEVG
+PFPLGRGEVRCAHGVYPLPAPAVVDLLRGMPSVEVDETLETVTPTGAALLVEWAASLPAP
+KGPRRIVAAGYGFGHHELKGRPNVLRVVRMEPESAEPSAPGECVVLETQVDDSTAEWLGV
+LVQKLMTDGALDVYTTPVQMKKQRPGTLITVLCETDHREAMLDVLFRNCTTFGVREQTVR
+RTVLDRRWETVATEFGPVRVKVGLWKGESVTRAPEMDDCIARAAEHGVPPRRVYEAAQRA
+AP
+>tr|A0A1W9LGH9|A0A1W9LGH9_9BACT
+MNDRLMDRITMAPDICHGKPCIRGLRYPVDMLLDLMSSGTTEAEILADYPDLEADDLRAA
+CAYGAHLSRVQRIEPVAV
+>tr|A0A1W9LDF6|A0A1W9LDF6_9BACT
+MKLKLIYPKWPKLRNQTEFHLPPHGPVCFAAAVPRDVEISFCDEHVQKLDFNEPADLVAI
+SAMLTCQMPRAWEIADQYRAKGAKVLFGGIGTMLHADETQTHADAVLLGEAEGRMEEVLR
+DFRNGQLKKVYDYLHDFLPMSSVGPARREILDRPLYNFRGVQMVDLIHASRGCKFNCFPC
+CTPYLGGCRFRPRDIPSVVSEIESIRNNRLFFVDNSLAQDDEWEKALFRAIAPLKRKWIS
+HPIKDDDEILDLAAEAGCWYVYQAVAGITDGIRRRVKRLKERGIGVEGTILLGLDDQDED
+YIKRLVDFLLEIELDMAEFTVLTPFPHTPIRAQLEKQGRILHDDWIRYTCADVVYQPAKM
+TPEALERMYQYAWDTFYADCGQELKMAKLFLKVIEKEKADGTYNRHRLAGTRAWGPPVGA
+>tr|A0A1W9L8V6|A0A1W9L8V6_9BACT
+MRIATFNANSIRSRMPVLARWLGAQRPDILCIQETKVQDSEFPVADIEALGYRVAFRGEK
+AYNGVAVLSRVPADEVATGFHDGGPADETRFITARFGALSVVNTYVPQGRELDHPMFRYK
+LEWFARLRRHFDRAFKPTDLVLWVGDLNVAAEPADVHSPEDYANHVCFHADARRAFAECR
+AWGFVDVFRKFHPEPGQFSFFDYRTPNAAKRGIGWRLDYLLASPALAARARDAFIDVAPR
+LEEKPSDHTPVAGDFDLDGPPGTQIPT
+>tr|A0A1W9L9X4|A0A1W9L9X4_9BACT
+MKVIYGGIRGSFPVPDPAFMRYGGETTSVLIEGEAGERVLIDLGTGARPLGRRLAEGVAR
+SLLVLQTHYHLDHVMGLPSLPQIYASDWHIEFAAPRREGRTIDEVLPRLMAQPFWPLQLH
+ALDSNIVLTTLPDDGFGSPRLHGGLTIRWTDLHHDGGCSAYRIDEPSTGGSLVFATDVEW
+PLATPGERERLHRLCREPGPASLLCFDGAFTPEQYPAYRTWGHSTWADGVEVAAATGARR
+LHVIHHSQYHDDATLDRIDALVRRQLPTASLAAQGAEVVLRSAE
+>tr|A0A1W9LGL9|A0A1W9LGL9_9BACT
+MTRIAVIGGGIAGLAAAYAAGRRAREAGRPVEIALFERDARLGGKILTQRAGGFIVEGGP
+DSFINQKPHGLQLFRELGLGGELMPSNDATYKTRLLRKGRLLAYPEGFRLAVPTKIWPFV
+TSPLISPLGKLRMGLDLFLPARTSTADESLADFITRRLGREALDRIAGPIMSGIFVADPE
+KMSVQSTFPMFVELERKYGSLTRGIRIARKKAAAHGTGATSSVFTGLRPGMDALVVALAS
+RIGADARTGTAVRALRRTTGGFELTLDPGGAFAADRVILAAPAYASADLVAEIHPTLAAA
+LRGIRYVSSATVSMSFRREDAAECPDGGGFGFVVPRTEPAQLLAFTWSSRKFDGRAPEGR
+HLVRAFIGGSRHEELAGLPEDELVRITRGEIGRILRLRAEPESVWVSQWPKGNPQFDVGH
+LDRVGEMERMAAEIPGLHLAGSAYRGVGIPDCIKSARAAVDAVFEA
+>tr|A0A1W9LD53|A0A1W9LD53_9BACT
+MDFFDWQDRSRFRTGMWVGLFALGTAECLAELETGGLAVAEMVGGRRVALAGATDAEVRL
+MNVVEEMAIAAGLPVPVVCVLDRERGINAFAAGWSPDQAVVCVTRGALVQLPREEMQAVV
+AHEFSHILHGDMRLNTMLLGFLHGILSFGLMGRALLVGDTEDDEGFVPIAHGRFAFLTLV
+AGVLLTAIGYIGVVVGRLIKSAVSREREYLADAAAVQFTRNPVALARALRRIGGFVHGSR
+LRHARAEAVSHFLFGRYDADDDILGWFATHPPLVARIRRLAPAFDGTFPPVPLEPGLYDF
+ERPESPLALSPVGLRPSYTSTEPLDPVKFVAGIGAPVREHLDRAARLLDALPRGLREALH
+DPGRVGAILYALLLSREPGLRSRQLALVAGRADDAVRDEVEAACALVAAQPRAARLAMVH
+QTLPSILSLPETRLQVLADTVEALATADQSIDLFEYALGHILARAIRSRHEGRARPVQVY
+GVLGAAREISVLLSALAWAGGGGGEAARASFDSAAARFGREAGRLSFIPAASAGLDDADR
+ALRAAAGFSPDLKRTVVAASLFAVARDGRIDADEAELLRAVSAAMDVPVPLWVEAA
+>tr|A0A1W9LF22|A0A1W9LF22_9BACT
+MRATCAFRLDTSVPSYDTTSTSVWGDYLACELDPPPAGPRVTHGHSKDHLPELKQFMTEL
+LCVDRGVPIFGRTLNGNSSDKTSNNEMLSRIGAIMAKHNLGPGAFVYVADSALVTEKNLD
+AVGPNLFVSRLPAIYAECGRAIAEAVGSGAWTDIGRLAETAAGTGRPCAEYKAIETSVVL
+YGATYRAVVVHSSAHDKRRQKKLDKAVAESAKLVKAALDGMQNVYFCEADARTAAARAEK
+LSDRLHTVTVAVCPVEVRRRGRPPANGPARTNTRYELSWELAENSDGVDRERSLAGCFVL
+LSNVPTEGPGAMDAARLLRTYKGQYGVESDFAFLKDPLVVNDLFLKTPSRIDALGMVLII
+ALMVWRLMERSMRAHVQKANTTLPGWDNRTTVKPTAFMMTTAMTGIMVAVIGGQRYMLSG
+PGPSQLAFLKSLGLGPPAFLDPQCRCEPVIPVRSVSKG
+>tr|A0A1W9L8R8|A0A1W9L8R8_9BACT
+DPLPQGEFLADPGQKGVWRRVLGPGIYRLNPYAVDVDVVDAVSIPVGYVGVVTSLSGKPA
+AEGEFAGPDEKGIRKDILQPGIYYANPKQYKIDVLEIGVNQVSLLGRTGGEVLTKTIQFA
+DDKQQGGFNALAQNMLIQQQAQREDYVEKSSIFKGLTSSMRARSAAPQARQPARPGQRGA
+DVAQEAQSQPNPTVQNTFTLNQFVTFPSRDGFEVSLDMTVEFELLPEKLSGIFRAYGDLP
+AVVEKALMPQILSISRLKGSAYKVTEFIVGEGREKFQIDLTEALAKALGERGIDVHNALI
+RHVNVPPDILTPIRDASIAIEQDLTNKEKQNTAKKQADLNTETSLIEQRGAQTVQETLKL
+TGEIMAAQEREVAQIGAETRKTVAEIESRTAAMRAEKTITLGQAAAESVRLVEGERARGY
+QIKTAAFGDAEAFTLWEFAGGMNPGLNIQVIHAGEGTLWTDLSKASLGELGGAKILGNRL
+PAPAGMSARAAAPTILPAPPRPSAPTK
+>tr|A0A1W9LFQ7|A0A1W9LFQ7_9BACT
+MTVTGIFCMQADWSQAFDIANTKPRPFLREDESSILVPTMYCISEGIRVAAADGVDLASL
+SYGNGGLAMLVVVPKRGDGLRALEGSLGRQTWNEWRVAFARASRVRAHVYMPRFRIEQEL
+SLREPLSAMGASDHFDKERADLRWVTAEQPGVRVDSLVQHAGIIADEKGTEAWSVTHGDF
+VSMGAPPPPLPMRVFRADRPFLFFVYEAQRDTILFMGRVTFAKAAAEPPPAVKK
+>tr|A0A1W9LCZ1|A0A1W9LCZ1_9BACT
+MSKEHILVIEDEEDIQELIRYNLLKEGYRVTAADDGEQGIEKARAGGFDLVLLDLMLPGV
+DGMEVCRILQSDPRTTSLPVIMITARSEESDVVSGLRLGAEDYIAKPFSPKVLLARIRNV
+FRRRNRHAAAEEPVRIGDLLIHPGRHEAVLKGRTLSLTPTEFGILHFLASKPGWVFSREQ
+IVDAVKGTDYPVTDRSVDVQMVNLRRKLGRFADNLETVRGVGYRFKEV
+>tr|A0A1W9LFD8|A0A1W9LFD8_9BACT
+MDLTLAAFADGVGRLMPRMLRGLLAREQNALSQGRLTVPQLSILDYVAGAGHCTMGAIAA
+VFNMKPPTVTGTVDRLVKMGLLRRGHAETDRRTVVAAATPKGRRILAGYHGERRRTVAQM
+FDGVTPPDRTRFLRTMRLAVERIEVVPTVRAAGVTRRGRAGSLAIAAGLLSWAAAAVEPG
+SNAVHRYSLEACLRRGLERSVAVQNAGRDRATAEAIIGQTRAQILPELKAKADYLRRDEL
+DAFDFGGERMEFGRLDNYNGSLGVSQLLYNGGSVQAALRAAKSYRDRTERAEARIRETLV
+RDITVAFHTVLFLEEAVRVQSDAVEQLRKFADQAEEKFRKGATAEFDALSARVRLANEMP
+PLAAARRELGVARAAFRNLARLDEESYALDGALAYTRVDVDSAAARADGLRERHELEEQR
+KTVELREADVRVEKGGYAPTVRVHGSYLGKNPESFAATEAGWDWGWQAGLTVEWNLFDGL
+LRESRLQEKALALATARADYEELERTIAVEVEQACLQLGEAAEAVESSRQTVALAEKNLE
+IAKARFDAGLSTYLEFTDTNLAVRRARLQWSAALRDHLSASARLAYATGKTRMPALEEEP
+>tr|A0A1W9LDC6|A0A1W9LDC6_9BACT
+MSGDFGAVCFVGAGNMAEALIRALVKGGTPASSLRVTDVRADRLEFFRRELGVEGAADNA
+SAARGAAVVVLAVKPQAMDAVLQGLCGAVAPEALVLSIAAGVPCARIEAALGGAARVVRA
+MPNTPALVAAGASAICAGAHATAADLDRAEALLRPAGRVVRVAEADMDAVTALSGSGPAY
+VFLLIEQMLASAAEFGLDPEAARSLVIATVAGSARLLEETGLDPREARRRVTSEKGTTDA
+AIRTMESRGVPAALREAFAAARRRAAELSGKG
+>tr|A0A1W9LBN9|A0A1W9LBN9_9BACT
+MAAKQLKYDTEARQSILSGVQQLARAVTVTLGPRGRNVILDKKFGSPTVTKDGVTVAKEI
+ELKDPFENMGAQMVREVASKTSDIAGDGTTTATVLAEAVYREGLKNVTAGANPMALKRGI
+DKAVEAIVGKLGDMSKRIKDRAEIAQVAMISANGDKAIGEIIADAMEKVGKDGTITVEEA
+KSIDTSLDVVEGMQFDKGYLSPYFVTNADTMEVSLEDAHILIFEKKISSLQDLLPLLQTV
+AKSGRPLLIVAEEVEGEALATLVVNRIRGTLSACAVKAPGFGDRRKAMCEDIAVLTGGRF
+ISEDLGLKLENVQLSDLGRAKRITVDKDNTTIIEGGGKTSEIKARIEQIRRQIEETTSDY
+DREKLQERLAKLAGGVAVISVGAATETEMKEKKARVEDALHATRAAVEEGIVPGGGVALV
+RGLVALDSLKLSGDEAIGAEIVRKACEAPLRQLVFNAGVEGAVVIEEVKKGKGNYGYDVS
+AGQYVDMVKSGIIDPTKVTRSALQNAASIAGLLL
+>tr|A0A1W9LD92|A0A1W9LD92_9BACT
+MPDTVVALQHGPVVTLGRRGRDNFLLRQPDALAALGIEVHVSSRGGDVTYHGPGQWVLYP
+ILHLGVGRADAHGHLWNLEEISIRTCRDFGVEAWRREGKSGAWTASGKIAAIGFHIKRWI
+TMHGTSFN
+>tr|A0A1W9LCS0|A0A1W9LCS0_9BACT
+MKRLTLQDLRALREQKKAEIARRDASGTTGEVIVGMGTCGIAAGARAAADAFVDEFGKGG
+LTHVAVKQTGCMGLCYSEPTVEVRMPGMPATVYGAVSADIARRIVREHILGGRLVGDHVF
+DKPAVDLAPTLGRGTK
+>tr|A0A1W9LB73|A0A1W9LB73_9BACT
+PIAKFPEAEQKQFADRGVRSLLLVPVMVEGRCWGFVQVEDWKTERVWVASEQSILTTMAM
+AIGVTLLHRRADEALRRSEVRYRAIVDGEVDPMCRMRPDGTLTFVNDAFCRFHGKTRDEL
+LSRNLFPFVPEAHKELARRRHEAFLQSKTAQATEASVPGDDGRPKWYLWTHRPILDDRGA
+LVEIQLSAHDITDRKQAEETLRSSEEKFRSVLERIPAITYTAACDEPSTTLYISPQIETI
+LGITPAEFLRNPDLWREHLHPDDAGRVFTELGRAHKSRTEFTSEYRMFARDGHVVWIRDT
+GIYVQDSKTGVMVLHGVMHDITDVKAADEARRAIEGKYQALIDSLNIGVFRTSADPAGRL
+LETNAAHARMLGFDSVEELMKMPARDLYQNPAECDGFLDEILEKGFVRDRNVVLRRKDGS
+PIHVSLTGRAHFAPDGTMDWIDGLIEDVSERRRLAANLIEVQEKERREISAVLHDELGQL
+LTLSRLELGSVQVANETSQRSVDNALLRLDEALRSVRRLAVSLRPPILDDLGLAAALEAL
+VEEFSDRSDVRGEFRTEGKIPEIGRDENTCLYRVLQEALTNAAKHSGAMMVHVTLREDGG
+RLCLEISDSGRGFDEDEVSVQKGIGFVGMRERLARCGGQLEIRSEKGVGTTIRASVPLGD
+AKAQGGAT
+>tr|A0A1W9LBC8|A0A1W9LBC8_9BACT
+MDITAILAQVNFFGDLSEASRCALAELCIPREVGKGEVLFREGDEGHSVYICNRGRVRLH
+KAAPDGTEVVLKIVRPGETFAEVVLFERGTYPVTATALEPCGVFLIPRREVRALLQRDDF
+RDDFVGMLMRKLRHLAERVPMLTTSGIEDRLFHFLDEQFGAAPSVQSGISKKEAAAAIGT
+TPETLSRLLARLESEGRLRWRGQRIDRSPAGTPRRGTGKRSGAQGSRGSSRRSLGEGGST
+SPATT
+>tr|A0A1W9LF33|A0A1W9LF33_9BACT
+MFYAYVLESEIEPSRHYIGHTTDLAQRLLDHNAGTSPHTSKLRPWRVKFYAAFESLELAR
+SFERYLKSGSGHAFAHKHLGF
+>tr|A0A1W9LH66|A0A1W9LH66_9BACT
+MTILSSICGRRHWMAAGIAAMAWAFAGCDLGAKGDGQIRVSTDPPGATITCNGALADASP
+TTVARLPVGTYLIVAEKTGYLPARRSVSILEGARVSVDLKLDPASALVLVDSKPQGTDVR
+VDGAFRGRTPFFLTDLPQGTHRFAFSGAGFLPRETEEIFADRIPRKVFAELPSNAGRLFV
+RSTPTGAVVRLNGVERGKTPAEIVGAPSGENTVEIIMEGYRPFAEKIVIQAQETKEVVGV
+LVAVPTTLKVVSLPPGARVYVDDQFRGEAPVTLTDLPPGTHRVRAELGGFETAARSVALL
+QQSAVVEEFRLLKNSGKIVIVSDPPGAKVFLNGEEKGVTAAPETGLLSLPFEIDLLPPGT
+YQVQLQRAGYMHTPKPVTVAPNAVVDLHEKMVRRYVPDMRVRMKLKDGGEIIREGMVLRK
+LPDGTVDLQLETGTIMTILSKDILAIEPLKPGPPR
+>tr|A0A1W9LHW5|A0A1W9LHW5_9BACT
+MELAPPADGVDRLYRETREALAGYFRRRHGAADAVEDLLHETFLRLMRRTDRLSEARSPR
+AYLFGIARHVSADAWRRAEPPAADGIALETVAATAPDPRLSAVREVIAGLPTLQREILDL
+RFQHDLSYAEIAEALGTPVGTVRSRLHNAMRILRARLALEESASDGSHDHEA
+>tr|A0A1W9LFI8|A0A1W9LFI8_9BACT
+MAIDCYIQITGIEGESTARGHEKWIKADGYTLGVESRGGHTTSLKDMVFTHPLDKATPKL
+VEACCNDTDIEKVKIHVLEEGREFIEYLLEPGQRGSGADAAVCRITAVIPTGNPGDSDRP
+REQVTVRYGKITVKYKDGNIEASYDSSTT
+>tr|A0A1W9LG87|A0A1W9LG87_9BACT
+MSDTRPLAGLRAVITGASRGLGAELALAFRRAGADLLLAARSADALDRATADFDDEPGGL
+VATVDADVGTDAGAARILDAARATFDRLDILVNNAAIQGPIGPAWENDWDAWRGTLETDL
+LGPVRLCRLAVPWMAQGGGGSIVNLAGGGATGSRPNFSAYAVAKTGLVRFTEILADETRA
+LGIRVNAVAPGVLPTDMLREVRKAGVAAAGSKDFEAAHRSLEASDPGAFRAPADLCVFLA
+SAASKNITGRLLSAVWDPWRELPGRAVELAGGDVYTLRRITPKDRGLAWG
+>tr|A0A1W9LI01|A0A1W9LI01_9BACT
+MNLRIGSPALACVIPMLVAASVATRAGDWPQWRGPFHNGVSDDTGLPVGWSATNGIAWTA
+PLPGSSASTPVIAGGRVFASTAETNGNLALYCLDARDGTRRWVRQLGSGDFTIGRNNLAS
+PSPVTDGQRVFALYGSGDLAALDATGRVLWARNLAKESGKFAHMWNYGSSPLLLDGKLYV
+QVLQRHPPTYKHAVDDHPERSSYLLCVDPDTGRDLWKHVRATPAVEESMESYATPVPHTG
+PGGPEILIVGGDCVTAHRPDSGEEIWRCFGLNPKGQRFNRIVPSPAALDGMVFACCPKRG
+PVLGIRDGGRGDVTASHAAWAVETITADVCTPLPYKGRLYIVDGDKKEIACLDPATGTEK
+WHDKLPVTAILRASPTGADGRVYCLSKNGEVVVLAAGDEFKVLSTVALGDGPCRASMAVA
+DGRLFIRTASKLTCVGRK
+>tr|A0A1W9LGI8|A0A1W9LGI8_9BACT
+MNPERNHIALLAAALLAVGCSTQGRLAREIPESRRASPEVMVLEATAYCPCGDCCGWRRN
+WLLRPVIASGPNRGRRKAVGITATGTEARPGTVAADPRMLPFGTILYVPGYGYGRVEDTG
+GDIKGNRIDLFYPSHAEALDWGRHKVRCKVWRPLRR
+>tr|A0A1W9LH60|A0A1W9LH60_9BACT
+MIGLRTTMEVADNTGAQRAQCIRVLGHVRDFARIGDLIRVSIKEATPHGMVKKGEVHKAV
+VVRTNHAIRRADGSSLRFDANAVVLVDDLLNPRGTRIFGPVARELRDKNFMKIISLAPEV
+V
+>tr|A0A1W9LBL4|A0A1W9LBL4_9BACT
+MAVVGAAVALAQGPVPVGDQDIPDAVVQKVDPSVVAIQHEKAGGSGFVVSEDGYILTNGH
+VVRGDDDEDPTQTAKAITVILFDEQKYPARVLGFSMDPDVALIKIDVPQKLRPVEFANSR
+GAHVGQHCFAVGTPIGLKRTFTRGILSNVDRTDLGTETKVFQTDAAINPGNSGGPLFDRN
+GRVLGINTYGGRGTSIGFTIPIHVAAVLRDRFKTNGRFVRALVPFFMTNELYDELARSLG
+VEKGILIPYVMPGSPAEKAGLRDGDVLVEVDGKPCSARSKPELSDFEWDQTIRKPGEPVA
+YTVLRGPKEKRERVVVKAKLEAMEPLPEMGRHAGELVELRYGALGLGVVPIVRIHRLIHA
+LPDAQGVLVTTVGASGSAAKAGLRERDILTHVGGRPTPDIDAFAQAIEAQLAGRAKAIEM
+AIVRGKMSVQTAIAPYYDLRDRKVLLVAPARDAESVDLLRRELQAEGAPVTVAGPGRPVA
+LAGLKGGEFEILLFAGGA
+>tr|A0A1W9LCF7|A0A1W9LCF7_9BACT
+MSKFIIRGQKRLSGSFTPVGNKNAVLPMLAASVLTDEPVTLRNVPDILDVRVMLDLLAAL
+GVAVEQKDHSVTLCAAGLRSRRLDRELCTRVRSSILLAGPMAARHGRVVLFPPGGDVIGR
+RRLDTHFDGLRALGISVEGGKFFTFKRRDLRGADLMLDEASVTATENVLMAAVLATGTTT
+IFNAACEPHVQDLGAMLNEMGAKIDGLGTNRLTIQGVGKLRGVEHTVGPDHIEIGSFLAA
+AAATRGELTVNGTTHDGSLAVMQRAFQKMGVSLGAGKDCVTLAGKQKLRVQRDLGGAIPK
+IEDGAWPAFPSDLMSVAIVLATQVKGAMLFFEKMFESRMYFADRLLEMGAQIIQCDPHRV
+LVTGPSRLHGTHLTTPDIRAGMSLIIAALCAKGESVIDNAQIIDRGYERVDERLRALGAD
+IVREEA
+>tr|A0A1W9LET4|A0A1W9LET4_9BACT
+MADTAHAAGQTIHGFDVLAVTPLPDLRATATRLIHRKSGARLLHLAAADPENLFAVAFRT
+PPEDDTGLPHILEHTVLCGSRRYPVKDPFVELLKTSLATFLNAMTYPDRTVYPCASMNAH
+DFTNLMRVYCDAVFHPRITEEHFRQEGHHLDVAEPGNPASPLAVKGIVFNEMKGVYSTLD
+GVIQRTAAGLFPDNAYGRDSGGSPEAIPSLTYAQFRAFHARYYHPSNAFFFLYGDTPLAP
+HLELLDREFLAAFDRLAIDTAIAPQSRWTAPRRVTAPYPAAEGETPARKSAFVMEWFANP
+LTDPETSLAMGVLGEVLLSHEGSPLRRALVESRLGEDLVAEGYSTYRRDTSFGVGLRGID
+VARAGEVECLILDTLRGVADRGLEPGPLDSAFHQFELAALDIPSSFPLVLMDRVFAMWLY
+DADPLTMLHIRSHLASLRERSRAEPGFFENHLRRQILDNPHCLAMTFVPDPAFHRRREAE
+FAQRLATVRAGLAPAEIARIDREARALERSQEAPNSPEALATLPRLRRADVPVEPQRLPV
+ETATVAGRPLLRAETLSNGVGYLRLAVDLRGLDADLWDYLPLFVDGLTKTGAAGEDYAVA
+AEREAAACAGIGASVSTGGRADDPTKVQPFLHLATHALDDRIDRMLDVLRNRILSADFTD
+VARLQTLLVQHQTGLREAVVPSGNAFAASRAQRGLSDNAALAERFGGVSQVRFAQRLAEG
+LPCDLAGLARAMERIRKVLLARGRLTASFVGSDNAHRRVAAWYAALLGELPDSPVAPATP
+AAAGRPSGPEGIAVPAEVAFVAQAFRAVAADHPLAPALLVLATRLSLDFLWTEIRVKNGA
+YGCRAAFSQSVGLFSLGSYRDPRIRETLNVYSRIPDYVATGMDFSTDAVEQSVIGALKAL
+DRPIRPEGAVATALDRHLTGADEPFRRRFRERLLAVSGAELRRVAEEIVRPGLAAAPICV
+VAGRSMLESAAADLPGLRIEDL
+>tr|A0A1W9LHK8|A0A1W9LHK8_9BACT
+MGSVSSARSSAPPSGMRLAAMALAAAAATVAIFALCTRFGPLSLDAGSWWGDPVWTLRAL
+RLAAAAAAGAGLAVAGAAIQGLLRNPLGDPFVLGIASGAGVGVRAGLVLGAWAGWIAWRI
+PVFALVGAVAAAATVYAAARRRGRVDPFSLILAGVIVNIFNGALIMGLYLATDPLRVDEF
+ARWAMGELPEAVDPSLLAVCGGLALAAWISLFRRAGALNALGLGDDVARSLGVPVGALRI
+EVFLGSALATAAAVALAGPVSFVGLMVPHVCRLVTGPDHRRLLLLSGFGGAVLMMVAETL
+CRALGPYLGAGRLPVGLLTALLGAPFFIALLRRRFAEEDA
+>tr|A0A1W9LI48|A0A1W9LI48_9BACT
+MGGEEAWPDAAAMERVAEAFARGPAQGLLHLVSRELDTPVPAAIAFWREFGRLYLSRFCH
+GIAPNAAEIAPVPPVDEDEWRAWLERRPPIQGGEYLDIGALAGLWNDLDAQTRAEAAAHA
+GGPADYLKSLSPVWRLVGRVCFHLAENRKNPDYPFAFLATYASGVSGQGRVKYRPLAEAL
+NEYAGERNKTALLRLLAPVHAAAEKSALARELVDTGALFKPLAWPPSRAYLFLKDAQILD
+ACGVVVRLPDLWRGGHPPRAQVSVRIGETPGRGFGTDALLDFKVERSLDGEPLSDAEWET
+LMTSAGGLVSIRGRWVEADPEKLAAVLKNWKKAERAAGGGVSFAEAVRMLSGVPAGGGPA
+DADAAAATAEWSGIKAGGWLDATLARLRDPSQLDAASAIPALRAELRPYQKIGVGWLRFM
+TELRLGACLADDMGLGKTIQVLALLLTRKGERAATEPCLLVAPASLLANWRAEILRFAPS
+LTFRILHPSDLTPDDWKTVQLDAPKAVAGYDMILTTYGMVARMESLRKIPWDIVALDEAQ
+AIKNPAARQTRAVKELRARQRMALTGTPVENRLGDLWSIFDFLNPGLLGSARQFAQYVKS
+CARDGGGFGALRALATPYVLRRMKTDKRVIADLPEKTEVKAWCGLAPKQAALYEQTVHEL
+ADAVSAAEGMQRRGVVLAYLMRFKQICNHPSHWLRDGGFAEEESGKFQRLRPLAEEIAAR
+QEKALVFTQFQEMTRPLLDFLTSIFRRAGLALHGGTPVRERRRLVDAFQAENGP
+>tr|A0A1W9LGX0|A0A1W9LGX0_9BACT
+MIAWGRPEWLWLLAVWAAAGWAAFALLRRRERRLADWADRALWAQLVPARDARRLRRKLI
+LWLAAGALVAAALARPQWGTRWEEVRRRGLQIVVALDTSNSMLAADLKPSRLQQAKWGIR
+DLVARLKGDRVALLAFAGAHFLQCPMTIDYAAFLMTLEDLHAGVIPRGGTAIGQALRGAM
+DAFDYGAAGDRVVILVTDGEDHEGDAASLLGGLKEKGIKVFAVGVGTPEGELIPAGDTAG
+GFLKDRQGNVVKSALREETLAR
+>tr|A0A1W9LHC0|A0A1W9LHC0_9BACT
+MGQKVNPIGMRVTVTKDWRSRWYADKKHYGTFALEDDEIRRVVKERLKDAAVPEVLIERH
+ANLARITVLTARPGIVIGRKGQDVEVLRQQLSRKTGKEIYIEIREVRDADRNAQLVAEGI
+AAQLERRVSFRRAVKRAAQMAMDLGADGIRIHLAGRLGGSELARRESLRQGKVPLHTLRA
+KIDYGFSEAHTMAGKIGVKVWICHKEDEGAAPSYGRKERAHAPHA
+>tr|A0A1W9LCL0|A0A1W9LCL0_9BACT
+MEKTIDRMCLEFLVRQQPAAGLLRFAYGAIRVNLEIERVGDYAESIARQVLKLIASGAEI
+PKDRFEEIAGLSVPMLTDAARAFVTRDADLARRVMEVEETVDDLRSRLNRDLVECFGRNA
+MAFPALNACMMIARRLERVSDQARNICRETLYACTGEDARHPDSDIFRILFVESAGASRG
+AIAASVARGIGGSAFHYAVASIDPQPVPASTAAFLQTQGAEPSASPRALTEVPELDHYHV
+IVALDPDVKRAFPKRPRKVVFLDWPVDDPSQAAGGPEAVQAAHETVARFIQGHLRDLVDA
+IGGVDTLDLGIGSV
+>tr|A0A1W9LEE3|A0A1W9LEE3_9BACT
+MADIVLATVNAGYAHASLGLRALRANLGALRERSAILEFDGRTSAESAAERILAAHPAVC
+GLGVYIWNIDRLSHVAELLRASRPELLLVLGGPEVSHGTGDLRIAQIADCVIAGEAEDAF
+RAVCGDALAGRRPPAVVHAAPPDLAAATAADAEYADTDLQRRIAYVESARGCPYGCEYCL
+SAVDRRVRPWPLDAVLASWGRLLDRGARRIKVVDRTFNLDADRAAALLRFLAARLPPDGV
+VQVEMTPSAPPVALVEAVRSFRPGALRVEVGVQTFTEVAERIHRRPDDGGAAALIGALRG
+AGAVVHADLIAGLPGETPESFATG
+>tr|A0A1W9LAE1|A0A1W9LAE1_9BACT
+MAGDYFLHIARPGKTERVFPVEPGVYPIGSDAENLIVLPDPSVNWRHAVLTVGGDGLYVE
+DLMTDHGTLLDEARVTGRRRFFPGQTLRIGPYTMQVQTSDPAVPPPAAAPGAAAKPASGD
+EPAPQAEPAIPQEDPSILRAKHEEDQRRRSIRRQIQTELLQRLDIKRLAAGRIDEKDLRR
+RAQEHIREIIRDVRDRLPGDVDPEVLGKDVYDEAIGLGPLEDLLADPEVTEIMVNGCDKI
+YIERRGKLFLTGKTFLDDDSVLAVIERIVSPIGRRIDESQPYVDARLADGSRVNAIIHPL
+SLVGPCLTIRKFAKDPFTKDDLIRFGTWSPGIVDFVRACVLLRKNMVISGGTGSGKTTLL
+NVISSFIPSGERIVTIEDAAELRMGQPHVIRLEARPPNIEGKGAVSIRDLVRNALRMRPD
+RIVVGEVRGGEALDMLQAMNTGHEGSLTTVHANSPRDVISRLETMVMMAGMELPLRAIRE
+QVGAAIHLIVHEARFSDGTRKVSRITEVVGLESDQITMQDIFVFEQRGLDARGRVIGRVV
+PTGSVPTFVEEMKIRGIQIDHSIFDPARSA
+>tr|A0A1W9LCQ0|A0A1W9LCQ0_9BACT
+MNPNERHKHAMAEFRHSHEFGGQNREGERRTAWVTWLTLVTMAVEIAAGWMTGSMALLAD
+GWHMGTHATALGIAWAAYAHVLADALTSVLAIAALLAARQWGWMCADPLMGIVGGAIILR
+WAWTLVRET
+>tr|A0A1W9LCP1|A0A1W9LCP1_9BACT
+MDARHLRGCGSTGEDRGRVQGTPAPRAARGGGPHPAGRRRPAAAGWARRACGADRSAGAE
+GTADSAAGADDPRRARRRCRGPRGQGAGTGRLSRPAEPSARPRGLRLPGGAEDGGRHPAL
+RALHDLFHPDGAGQGRPGGTGPRCGGDPVPGGRDFIDPGAISGTLAHAASAPPDAARVRD
+ILAKSASVQALAPDELAALIHVTDPDLWAEMRAAASAIKRKVYDNRIVTFAPLYIGNRCV
+NNCLYCGLRCDNDDMQRSALTMDQLRAECEVLAGAIGHKRLIIVFGEHPSTGIDYMVECM
+RTIYSVKVKARAGWGQIRRVNVNGPPMRIDELRALNEAGLGTYQVFQETYHPGVYTHVHP
+AGFKSNYAWRLYAMHRAMAAGIDDVGIGALFGLADWRFELMGLLAHAIELERVFNIGPHT
+ISFPRMEPAGNAPYVQESRWAVSDEDIEKIVVLIRLAVPYTGMILTARENAEMRRRLIPL
+GVTQTDASLRSGAEGKFCKLNAVLTYREWLDDFASPETLAAAEPVLAREMEEVREQMPRA
+WPEFSASYERTARGERDLYF
+>tr|A0A1W9LD24|A0A1W9LD24_9BACT
+MDFDDRGMVICGFVTLHVPCRYSYLRIIRQSVMDLCARAGLSEFKAAQMEMAVDEACANV
+IEHSYGGETDSENEPKHPGLRVNLMQTADRLIVELLDHGRGFDFEQRDAIDPDEYMQSKN
+QRGLGLYIIKSFVDDATYERNTSAGNCLRLTKLIH
+>tr|A0A1W9LDB0|A0A1W9LDB0_9BACT
+MGRRDFLKAGTATAGAIAFPTVFGADAPSNRIRVGAIGCGRIARDADIPGTLKAGGVYVA
+VCDVDANRAKLGREFIHEWCAKNKKPAPEIEVFGDYREMLARKDIDAVTISTPDHWHARP
+VVDAVKAGKHVYVQKPAGRIYAEGRAMRNAGRSTDRIIQFGTQQRSNATFRRACELVRNG
+RVGTLREVEVGLPTDPAGGNPAAMPVPANLDYDAWLGWTPDVPYTEDRVHPQQGFGRPGW
+LRCEQYCCGMITGWGVHHMDIAHWGMDAEMTGPVEISGTGEFPTSGLWTVHGPYRLEMKY
+ANGVTLRICDKYPNGIRFIGSEGWIFVSRGGQKATASDPTSGTRALKALDASDPKLLEPL
+VAPKVRLYESADHYGNWLECIRTGRKPICPIEVGHRSSGVCNIGHIAMRLGRPLKWDPAK
+EDFVGDAAASAALTQVMRPKYAV
+>tr|A0A1W9LD49|A0A1W9LD49_9BACT
+MASPEQPADKLLVAVQQNTAFISIQGRGSFKISAAMKEFAAAAIAQGCRRLVLDMADCVG
+MDSTFMGVLAGLAARLKSQAGGRIVMVNLSLRTRGLLTTLGLDQVIDPYMAGATPADLQP
+YVARRGDLSSLDTQEKSQRATAETMLEAHEALVQLSPENLPKFKDVLTFLREDLKKTGLD
+KPGTP
+>tr|A0A1W9L9V5|A0A1W9L9V5_9BACT
+MKFARYAVLGLALAASVPAQVSNTDTEEAPLPTAPEVLARVRAAFPGQPWLVRGQLICRD
+AEGTVLRTLNAELRLDWNATPPRASIALADSFGGFIGQLDIARPEGRPASLVLRQGDPPK
+VVADFDPGSAAGDSDFAWADLGLDFLWWPGGKVAGTEMKKSRECHVVELTAPAGARYSRV
+RLWIDTREAALLQADAFGADGKLSRRLSVKSLKKFDGRWTVEDLDIERIPGGTRTTLRVL
+ESRIEGAPPPTAEAAPVAPVASPGPAAAAEAAP
+>tr|A0A1W9LGE0|A0A1W9LGE0_9BACT
+MIGLSSGGGSGVGIVGCGLIGRKRAAALCGARLAACADVDAGRAGALAAPDGAAVCDGWR
+DLVCRDDVGIVVVATTNDALAEISIAALQAGKHVLVEKPAARNIAELDGVIAAARAAGRL
+VRVGFNHRYHPALRKAREIFESGALGPMMFVRGRYGHGGRLGYEKEWRADPAKSGGGELI
+DQGVHLIDLAGCFLGGFTEVAGHAATYFWKMPVDDNAFLTLRTAGGQTAFLHVSCTEWKN
+LFSLEIYGRDAKLAIDGLGGSYGVERLAYHKMLPQMGPPETAVWEYPGTDTSWAAEFGEF
+LEDIRLGREPSAGLPAARAALDVVERIYRRG
+>tr|A0A1W9LBQ4|A0A1W9LBQ4_9BACT
+MKDIGAIFDWDGVVVDSSRLHVPSWEALAKEEGHRLPGGLRIGSLGVKTEAVISDLLGWT
+TDPAAVRALTLRKEQLFRNLAAETGIEAQPGVLDFLRGLKHAGIVCAVGSSAPRLNVEAG
+MEALNAQGLFAAIASGDDVTRGKPAPDIFLKAAEQLGRRPEECAVFEDAPAGVEAARAAG
+MRVVALLSTHDPHVLHKADLMIQRFDELGVEEFVRWFEAGRHSPQPAPR
+>tr|A0A1W9LC37|A0A1W9LC37_9BACT
+RASFFTISPTVAVQIKGRGFSLTDQVRRSSRSVGAQIAEAWAKRRYPRDFVSKLSNADGE
+QLETQHWLDSALDCGLLTETHILPLNSELSEIGRMLNSMILKSDAFCQDDARLLREESCE
+YFVTEELSC
+>tr|A0A1W9LES7|A0A1W9LES7_9BACT
+AALTRQLLAFSRRQVLHVAPVNVGEILREMEKLLGRTLGEDIDLVTEVAPDLEPIESDAD
+QLQQVILHLAINARDAMTDPHFMARATAASRDELGHHLTQMRSRPKQLTISAANTSLDEA
+FCEKHVGVRPGRHVVIGIRDTGIGMPKEVREHLFEPFFTTKEVGQGSGLGLSTVYGIVQQ
+MGGFIKVESELGVGSAFMIYLPLAPSRQAPPKPATREAPDSLRGHERILVVEDEEVVRNL
+TVRMLQTLGYETLQASHGPEALDICRGHSEPIQLILSDMVMPHMSGREFVDELRRVRSGF
+KVLFVSGYGSEDEVGGMAIGPDTPLIQKPFTRESLARKIREVLDNS
+>tr|A0A1W9LAI7|A0A1W9LAI7_9BACT
+MAKPKVATASLAGCFGCHMSILDIDERILQLIELVDFDKSPVDDIKEFTGRCAVGLIEGG
+CCNEENVRVLKDFRKHCDILISLGECAIGGGIPALRNTIPLKECLDEAYVKGPSVYNPTG
+AYPNDPALPLVLNKVYPCHEVVKMDYHLQGCPPPADTIWQALVALLTNKPMDLPYELIKY
+D
+>tr|A0A1W9LDL9|A0A1W9LDL9_9BACT
+MNEIQRQRYARQLSLEEIGEAGQDVLAASRVLVVGVGGLGSPVALYLAAAGVGSLGLVDA
+DRVEIGNLQRQILHATADIGRPKVESAADRLRELNPDLHIEIHPFRLTADMAT
+>tr|A0A1W9LG28|A0A1W9LG28_9BACT
+MTTPDERPPAPPAAPDPRWYCVRTLAKSEHLAAARLRRMDGIETYCPRIRFRRPTRRGPV
+WFTEALFPSYLFARFDLAQSLKAIVYTSGVRGIVRFGERYAELPATTLAALRAEMQDGDI
+RVVNPALKAGDAATVIDGPLMGLEAVVTRILPAPERVRILLTFLGRPMETEIEVAALAAL
+DTEPFLAAPGRAGSRGRTKP
+>tr|A0A1W9LAK1|A0A1W9LAK1_9BACT
+MTRGETRTLLTGLAFTSPWILGFLIFTLYPVGASIYYSFCDYDVLSKPVWIGALNYQDMW
+NDAVFWKSLRNTFYYAIVALPLGMVFSLMVAVLLNNKVAGRPVFRTFFFLPSLVPAVAIA
+MLWLWIFNGKYGLLNYALSFLHIKGPNWLSDQNWTMPAIIITSLWGIGGTVVIYLAALQD
+VSRELYESAEIDGASAWTKLVHITIPMISPVIFFNLIMGIIGALQVFAGPYIMFGGGGPN
+RSALFYAVYIYQNAFEFNQMGYACAMAWILFLIILSLTWLATRATRKHVYYAGE
+>tr|A0A1W9LBK4|A0A1W9LBK4_9BACT
+MSTVTFKGTPVRLAGELPAVGHAAPPFHLTAADLSEKGLDAFTGRIKIFEHRPESRHLGL
+RHVRAKVQ
+>tr|A0A1W9LCV9|A0A1W9LCV9_9BACT
+MRIVFIASGALACPALQTVVRRPGDRVVAVVTQPDRPRGRRLQPAACPVRELADSLGLHV
+RQPEKASAPEEIEALAALKPDLLVVAAYGQILKQALLDIAPLGAINIHPSLLPKYRGAAP
+IQWAIANGDTETGVAVLFVTARMDAGDILLLERAPIEAGDTAGTLEPRLAAIGARLLSHA
+LDRFASPPVPRTPQDESQVVLAPKLSKEDGR
+>tr|A0A1W9LCH1|A0A1W9LCH1_9BACT
+MVPRAADARRRRPVHRGRRRRPRRGRRPRRRLAARLPLPAGRARRIGLAGPPSKDEDWLV
+LSTIHSAKGCEWDVVFILHAADGCIPTDMSCGSPEEIDEERRLLYVAMTRAKDFLHVCWP
+QRYTQRGGPPRDWHTYAPLSRFLTPEVRAVMTLVTPPPAPGDLPADPPPSGPPPDIRGRL
+RKRWE
+>tr|A0A1W9LHK7|A0A1W9LHK7_9BACT
+MAVLIGMSPEVKGKNFDLDLEKTTIGRNATNMIVIDHVTVSGRHCCIVKTGNKFSAVDLG
+STNGTRVNSKEIKESNLHPKDLLQVGSVEFLFD
+>tr|A0A1W9LA36|A0A1W9LA36_9BACT
+MSVAAGPHPAAGRAATVAATARLPVAPALVAMDTGFGIPEMVVEQRLDMVRELGYSGVAW
+TLGYPVYTRDSASAAERRGLRMSAIYCGATLSKSDLVTDPRFDATLASLKGYDTIVWLHI
+TGRDFPKSSEEGDAIAVPALRAIATKAAASGLSVSIYPHFGDWSERFEDALRLARKVNSP
+NFGATFNLAHWLRTSGTNLDARLEESIALVNCVTLNGATPGTDLSWSKLIQPLDQGDYDW
+AALVRNFRRRGFSGPFCLQLYGVGGDKRNNLKNSMDAWRMAILQ
+>tr|A0A1W9L8L1|A0A1W9L8L1_9BACT
+MRTVDCDFLVIGSGLAGLMTAHHLAAHGRVLVATKRGLSESNTNYAQGGIACAIAPGDTI
+ESHVQDTLATGGGLCNEAAVRSILSAGPARIRELESLGISFERRHGPGEEYDLGHEGGHS
+ARRVLHAGDITGQELIRVLVDVVSGRPGIELKPDWMAIDLVTTGWLRQPGPDRCVGAYFI
+DRATGEILAVRAGWTVLATGGAGKAYLYTTNPDVATGDGVALGWRVGLPVRNMEFVQFHP
+TCLYHPQAKSFLISEAVRGEGALLLNEAGERFMLRHDPRGELAPRDIVARAIDHEMKTRG
+DPCVFLDITHKSADFLMNRFPNIYARCLKLGIDMARDRIPVVPAAHYFCGGVEAGVDGRT
+AMGGLFAVGEVACTGLHGANRLASNSLLEAIVCSRNAADAIGVERRAGGLPAPAAIPDWV
+CGDAVPSDEAVVVEHNWNEVRTCMWDYVGIVRTNKRLERALRRIRNLRAEIRQYYKQYLV
+TPDVIELRNLSAVAELIVRCAMQRTESRGLHDSLDYPRAEEGSVGVDTIVRDAPGGPIVL
+PS
+>tr|A0A1W9LA06|A0A1W9LA06_9BACT
+MEVLRLHGKPGVCALRLALVHRVCYPSADFGELVVTKKSKKVAVLMGGFTTERDVSLRSG
+AAIARGLRAKGHTVTEVDIESREFVLPAKTDVVFIALHGEFGEDGELQSMLEARGVPYTG
+SGPESCRIAFDKRLTREALVAAGIPVPPGEILRAPTPLCPIDLPAVVKPTRQGSSVGCHR
+VLDADDWYETVRDALSYNGEAVVETYIPGRELTVGIVGERVLPLVEIRAPGGCYDYRAKY
+TAGITEYLCPAPLKMAETEEVQALAGRVFEVLKGRGLGRVDLRMTPEGGFYVLELNSIPG
+FTETSLLPKAAAVAGLDFPDLCDRILNLALAAC
+>tr|A0A1W9LG89|A0A1W9LG89_9BACT
+MFTGIVQRMGRIAELDLKDEWGRIGVEAGAWDRPIEIGESVAVCGTCLTVKESEGGRLRF
+DVLRETFRRTNLGEKRIGSQVNLERALRHGDPLGGHIMIGHVDGIARVRAVQEVGRDWRF
+EFACPPDLMDGMVYKGSVSVDGVSLTLADLTADSIGIHIIPHTYEITCFGQYRPGDAVNI
+EVDILGKFVRRFVERGVAFPGLTWESLQRTGLLPESSEPAAG
+>tr|A0A1W9LDD0|A0A1W9LDD0_9BACT
+MPNQHVNAVVIGAGAGGGVVAKVLAEAGLSVVLLERGRWQTWAEHTDDELISQRTTVLGN
+AYGPDDERHRRVIEKADGSTRIVLPSEGGYNNNAACVGSGTLSYGAMAWRFLTKDFRMKS
+TYGCPEGSTLDDWPVSYEDLEPCYERAEWEIGVAGADTRNPFAPPRRKPHPMPPFPYNRE
+ARALIPAANRLGWHPFPIPMLRNSVPYGGRPKCIHMRTCVGFACPIEAKAGTQNTVIPAA
+IATGNCEVRTDAVVAEVKVDDRGRARGVVYYDAQDRRQEQTADLVVVAASATETARLLLN
+SKSKLFPNGAGNNNDWVGRNLQGHAYCGARGIAAEEIYEEAGPGATVAFCDFSHGNPGLR
+SGAMLANEFIPMPYLYTKVRPPGSPRWGLAHKEFQRRNYRRTLCVMGPVQEMPVFDARVK
+VDPAVRDHWGIPVVRMSGRRHPHDVEVARFIADKAAALLREAGATDVWTSVPGLGLSGGQ
+HQAGTCRMGNDPKTSVTNRFGQVHEIDNLFVADGSLNVTNGGLNPALTIMALGYWVGEHI
+AKEWKGGARFKA
+>tr|A0A1W9LBX6|A0A1W9LBX6_9BACT
+MEQTDEALMTAYVQGDATALAVLVRRYADQLLGYLTRMVASRQQAEDVFQETFLRVHRKA
+ASFTAGRRFKPWLFAIATHLAIDALRRRRRTPVTVSLDAPAADEQPLAARLPDPSPDPAA
+DAIRNEQRAQVRRALDALPPRQRAALVLAYFEGLSYSEAAQSLGCSVGTVKTQMSRAFRT
+LARILPDAPLRTAQGGAL
+>tr|A0A1W9LGN1|A0A1W9LGN1_9BACT
+MKVVVGLGNPGREYERTRHNVGFMVVERLAEAFDGTFRRSHRADARCAAVDLGGAGRVLL
+VEPLTFMNASGEAVGVLMRWHRASPADLVVVYDDVDLPAGALRLRPKGGAGGHKGVQSVI
+EVLGTDGFARIRIGIGRAPGFRDTVDHVLSAFTREEQPAMDEAVKRAAAAVESVVREGVE
+RAMNEFNRDTNAGGQP
+>tr|A0A1W9LDK3|A0A1W9LDK3_9BACT
+MPEISIILLVSILLGAAANLVSPRRIAWVEDWARYIEAKALKAGITLVTPKQVEDMINAG
+THVIFDARPEADYKAAHLPGAVSMPFQVVEEALVGAQALLTPAQPIVTYCSGEDCDESFL
+LTLYLKQQGFTNVVLFAGGFSQWKAGGRPVEGGP
+>tr|A0A1W9LBM3|A0A1W9LBM3_9BACT
+MKISTKAEYGLRFMLDLALRDKSRPVTLKEVARRQDVSEKYLWQVIAPLKASGLVSAVLG
+AHGGYALTRPPSKTTLYEILRLLGGPWVLEHTAGVAGAERGDARVTREIWAMLGEELAEV
+MRSITLQDMARRCKAAREAATPDYSI
+>tr|A0A1W9LCS2|A0A1W9LCS2_9BACT
+MSVHLNREIAHLKKVILEMCARTEQSVQDASAALSERNDALAAHVVAGDDRIDRFEVNIE
+EDCLKILALHQPVASDLRFIVAVMRLNRDLERIADLAVKIAERAIALNRQVPLDGAVDFG
+SLAQKTKSMLRRSIDALINLNAAMAREVIAADDEVDAENREIVDRVKDLIRRRPADLDAF
+LHLISVARHFERIADHAVNIAQDVVYLLEGRIIRHPALDAPAAPS
+>tr|A0A1W9LEY3|A0A1W9LEY3_9BACT
+MNKIVAAGMATAVAAGLTACGTLGTGGGGKVKLITLDPGHFHAALVQKTMGPGVDPTVQV
+YAPAGEELDAHLARIDSYNRRAENPTAWTMEVHRGPDFLDRMLAEKKGNVVVTSGNNRRK
+IEYIQRAVGAGLNVLADKPMAIDSKGFSGLLEAYASAEKNKVLLYDIMTERYEITTMLQK
+EFSRIPAVFGQLEKGTPDNPAVTKVSVHHFSKIVSGSPLVRPAWFFDVAQQGEGIVDVTT
+HLVDLIQWECFPEQTLDWRKDIEMVAARRWATPLTPAQFKNVTKKDTWPDYLKKDVKGDA
+LQVYANGEFVYRLRGVCAKVSVAWNFEAPQGAGDTHFSVMRGTKANLEIRQGPEQAYKPA
+LFVEPVAGADAGIFERDLAAALPQITAKFPGVGLKKLKMGWEVLIPDSYKTGHEAHFAQV
+AGKYFRFLREGCMPAWEVPNTIAKYYTTTKALEMALQAK
+>tr|A0A1W9LFJ8|A0A1W9LFJ8_9BACT
+MNRRTFLHTSLAAGVAFAAGSRAKAAAGGNALRLGAPSFAKSADPVEIARWHRAAGYRAA
+YCPGLALADTDRIRAVEAAFAAEDVVIAEVGRWCNLLDADPVKRRENLAKVTEGLALADA
+VGARCCVDIAGSFNPEIWYGPHPDNLTPRFFDAAVENARAILDAVKPKRAKFCYEMMGWT
+MPESPDRTLALIQAVDRPAFAVHLDPCNLINSPQTFYRNTDLLNECFDKLAPWIVSCHAK
+DLAWEVEMNVHFREVRPGAGKLDYATFLKRLAALPDPPPLMIEHLKGAEEYAAAARHILD
+TGRSLGLRFERGP
+>tr|A0A1W9LCU4|A0A1W9LCU4_9BACT
+MYRLVFLNGPFKGKRLAVQQGSVTIGRDPDCQVRVADDEISRKHAVIEQRADGTHVRDLG
+SMNGIVVNGQNCRESPIRHRDVIEIGRTRLQYLESGQAEERESRRIGHIQRLAFIAVVFV
+ILLELAFLIRLSLWRKDALPPGSGGTSAATAAGTTDLLAEAEARLENMQRRQTDLEAPES
+AAPTQTATGVSQEIELLRADVQNIRQQVAELSETPAEPGPDTGIVAAAKTAAAPPPAETP
+APDMPMDPFEKKALEMLKEGMTEITLSNYLRADQVFERIQIMAPDFLPAYIERARLYERR
+GLLAQAGEQWSEVLKRSIGTPLYNEAAAERIRISRAEVQQKAAAKADEKKGGEVTVRLSR
+RLSIAATEQEKFPQNDQFDEMRLLRVTLKSRGVDRDIDSQEIRVVVTFFDEDRDSREVGV
+TRAVVPKDALRVDGTWQPGAQQVVTAAYVVPRGFRNEELRKYSQARRYFGYLVQVYYRDE
+LQDVDARPKTLLDKAGELQPPIHMGKPTPGARSQEVRVGTNAPAAVTSSETNSAR
+>tr|A0A1W9LGP0|A0A1W9LGP0_9BACT
+MFIFPETIKEDQLDPVVAVVREEIEKSGGVIDNTTRLGKRSFARPMKKMEGGHYVVIGFR
+VAGDKIAGLVERFRLSEQVVRVQIHSADEPAAVPAAAATEGSRDAVAK
+>tr|A0A1W9LD71|A0A1W9LD71_9BACT
+MSKICDICGKGPMAGNKIVRHGLAKKKGGIGLHTTGVTQRRFLPNLQKIKILEKGRTVSR
+KVCMSCLKTGKLTKV
+>tr|A0A1W9LHC1|A0A1W9LHC1_9BACT
+MTAGFRAALPELPADAVITVAPTAQAGFGDYQCNAAMGLAKRLRKAPRDVAQAALAAAGS
+HPAVAKAEIAGPGFINLTLDDAWLSRRVEAVAADPRLGAPSPGTGRTIVLDYSSPNVAKP
+MHIGHIRSTVIGNALDRLHRFLGYRVIADNHLGDWGTQFGLLIMGFRHFADAAAYEASPI
+EELERIYVKSYEQSKADPTWLDAAKAELVKLQAGDAENRKLWESFVEHSMREFDRIYARL
+GVKFDLVRGESWYNDRLPGVVARLETLGLAKESDGAICVFSDGSLPPKDDPLMKHEDGEW
+KPAPCLVRKSDGAFNYATTDLATVLSRQEEFAAEAVIYVTDERQQLHFRQFFHVARALGV
+TTRLVHVWFGLMRLPEGTFSTRQGNVIKLERLLDEAEERALAIVRETSPQMPEAVQREVA
+RAVGIGAVKYADLSQNPQSLVTFTWDKALALEGNSAPYLQYACARIASVLDKYAAQFPGR
+SFAEAPVALGEPVERALALHLARFAEAVLDAASACKPNVLADYLFSLSQLYSSFYQNVPF
+LKAPDGVRESRLRLGSAVAAALRTGLALLGIETPARI
+>tr|A0A1W9LDL5|A0A1W9LDL5_9BACT
+MFPDRLLGAVTEDHAFVLELVHGVLRNYRALDWARAQFAPRRPRAELDAHILVGLYQLLL
+LDHVQDSAAVNETVGAAKTALGPRAANLVNAILRRTQAREADLRARLERQPPGIR
+>tr|A0A1W9LD86|A0A1W9LD86_9BACT
+MVTGCSSGIGLATARILRDRGWQVVPTARSDADLAMLSGDGFRPVRLDLADSASVRDCAR
+ETMEILGGAIGGLVNNAGYGVPGALEEIPRDALRRQFEVNVFGAQDLANRFIPAMRVQGW
+GRIVNVSSVLGRVVTPMTGAYCASKFALEALSEALRVELWDSGIGVSVVEPGPIVSEFRR
+NAAATAEAELDVAGSRYADHLRSEIERRKKQEKKPDGFTLGPEAVAAPIVHALESPHPRR
+RYCVTVAAHLGALAARFAPPALLDWVNRRGLPTVRAPSAC
+>tr|A0A1W9LGE4|A0A1W9LGE4_9BACT
+MQTSPRETRRDGHSHGSAAGLLLWVLLAAAFVVAGYVVPWLQPDNPAAGDIAAAIGAIML
+AAPIVWNAARDLLRGHLHMDELVAIAVLASMAQGDFRTAGVISFFMLISMVIETRTAEGA
+HKAIEGLVRLTPTTARRIGAEGAEEEIAARLLSPGDRIRLRPGDSVPADGRIDAGRTTLN
+EATITGESMPAEKGPGDDVFAGTQNLTGAAEIVVTRAGEDTTLGQVRSLIMAAEKTRLPF
+TALIDRYVGYYTPFVLAVAAFAWFFTGDWNRVVAILVVACPCALILATPTAMVAALSAAA
+RAGILVKNVADLEAVSRTDAVVFDKTGTLTTGELAVARIAPAEGVRPADLLAAATAAERY
+SNHPAAQAILRLASESGLPPEPSQDLHEEPGRGVRARIAGGTVLCGRASWLRENGVAVSA
+SSDDGAADDAADLSVVYVALGGRLLGWIGLQDQVRPGAKEAIHALRDLHIRRIAMVTGDR
+PAAARRVAALIDCPEFRAGCLPQAKVDFVNEVRRGSARVAVVGDGVNDAPALAAGDTGIA
+MGAAGSDVAIHSATIALMSNDLLRVPFLIRLSRRTRTVVGQNILVGLLFILGGIALSGTG
+RIPPILAALLHNAGSLIVIFNSGRLIRAGEGLK
+>tr|A0A1W9LHS8|A0A1W9LHS8_9BACT
+MVALALAAGCTVEERMVWSPDGSRAAVELPSGLCLADTNGVLSAPIASDVTHAAWLPDGR
+GLVLLREWAVTNWAEVRRLVPPDETVSVEVLAGALPGLLKSALAAVSNDFDALSSKVFEP
+LSVGDLPWEASVLCLRGEHPQAWTEMLNSIEPAAARAEATEKLRDAGQAVVREIGVIRLD
+GDRPAGPPLVIARSLRKLAEPRPSPSGPVLAFLRDDVLTVAPLDGGTGRVTIAERITGSY
+DWTPDGRALVFAVRLAKEWETSGINLAHIQRCAVAVSNGTPTAGADEPLAMSGFAFLPRV
+RCLPDGRVLFAGVPMTLPSAEVAGAARFYVAGGGGTNAGPVPVAAGAAALPADLGAFAVS
+PDGARIAIAESGSDSIAVLDLATGALEVVSPGRGSKSRTLPAWRGNRELFFVALPAPGSR
+RPGWMRWSPGGAAPVAFSAGWPAAAVDGLMELPSPEAPKRAAGLPTTTPVSQDRDRAIYN
+WQARHEEILARHREMKPDVVIIGDSIIHYWGGEPKAPMAWAPQAWSNCFAGLKVTNLGYG
+WDRTENVLWRIDHGELDGIAPKAIVIKIGTNNTGINTPEEIAAGIEAVCAAAHAKQPDAK
+ILLFGLLARKDEKAPRPVITDKVNRLLIDRLSGIPWLTVRDIGDLFRNPDGTPNAKLFSD
+GVHVNPAGYEILGAAIRESVSGLIAR
+>tr|A0A1W9LCQ9|A0A1W9LCQ9_9BACT
+MTIPLDESIRRAEALMASRQNDAAIDLLRAPGAPDDGARCALLARAYFQRGDSRGDVYSS
+HFFATRAMELGVATAPILAIRAIAAFRKELFAEAADHFGRYVTGRSSGASQFMLGLSLLR
+LGRAADAVPWIERASAAPLARPEYATALIEARAAAAGGAPAPTHAWTKAPHGLGGPRDQR
+PLDAPAPYPSSAVSKLLGDASTPKDFDWLARNIPCQKACPAGTDIPGYLDAIYRGDVERA
+YRINLHDNVFPAILGRVCSRPCEAECRHGWEGLGEPVAICFSKCSASDFRAQKPVVLDPW
+FPPSGKTVAVIGSGPAGLAAARNPVLMGHGVTVVEIPADTVLLATGQFSDAAWIDAELQA
+GLVDRDGWLRSGKSPRTALAKLFVAGDFATGASTLIQAIAHGKDCARRVDAFLMGAERLR
+EVARIEDVETTGRIREMDYVPRQPMPSLPVAQRTLEAEVELHRQGGGPRPRPRGPDREPP
+PGAVDRGDEADLDQPGRLHPLQCVRRGLPRRCDQRPARQPPHRPHLRRRRHGRYGDVAAG
+SRRCDPGSLPIQGSAIPGLRGRNIGARTQILGQPTHCGNEDLKTP
+>tr|A0A1W9L8U6|A0A1W9L8U6_9BACT
+MESVARTSGRSMLPLIRDRSLVSHIPISAEDVRPGDVIVFRLADRLVAHRVIGRKSEEGR
+VRFRQKGDHEFATSWIGADALVGRAVSARRGADQRRLDVDPDSVRVRALVAGARLEAALF
+AGYLRLRNAAPWIRWPAIALALPVAPFRWAFYRVLLTVYSRSRRPETGEEQAFLLRCFRG
+ALAPAEPAAVAVQDWTAVLEAVGAHRLAPLALKQLAADAPPAVFD
+>tr|A0A1W9L9V8|A0A1W9L9V8_9BACT
+MPSYRESSKKLQSLRSMRRVTRTMKLVAAGHLRRAQTALAQVDRVFADLRTMAAHVGPVV
+GLPCTLTRPGADGGNALLLVVSANRGLCGAFNNNIVRAAGAWAESGRGRWRNIRASFVGR
+KAHAALRERIEVRRLHENLASRPEFADALRIGLELCALFQAGMYSEIHIAYTRFQSAMTC
+EAVVERLLPANPAALGGGQAPAPDGPAVLLEPDPQTLAERLMAKAIHLTIYRAMCHSHAS
+ECGSRMVAMDGATNNIDKLATRTTLLRNTARQAAITRELVEIVAGAESLKGSG
+>tr|A0A1W9L9K9|A0A1W9L9K9_9BACT
+MTARAQTTPTVPAASDRPRVALLGCGGRGSFVLRVMMDEVGADCTWLCDLSDQRLEKTWQ
+FISEVQKTKPRFEKDYRKVLEAKDVDAVIVATPDIWHAPFTIAACQAGKDVYVEKPHSHN
+IWESGKMVEAAKKYNRIVQVGTQNRSKEYTQQAREIVKSGRLGKIGLVKVFNLKSGGPFK
+VGEAGTPPAGFDWDKWLGRAPVRPYSQQIFNGGWHQYWDFCGGDMTDDGIHQTDMALMLM
+GDPGMPKNVRSVGGRFVHRGDDSEVPDVMVTNWEFDNFVMTFELSGYPKYMVKSSDVLRK
+KSIVSDWKQNSTRVEIYGSEQMMIIGRHGGGFVVEQSESRVVEKVLGQAGDAEHYRNFID
+CLKSRKQPNADISIAHASNVIAHMGNIAHRLGNTALRYDAATGRFDDKRANKMIKPVYRK
+GYEIPDVV
+>tr|A0A1W9LDG1|A0A1W9LDG1_9BACT
+MKTERNPLRVVASHPNSRWRSIVVIGVAALLVAGAVVSAADEPPIARDAQSTTGPRRPAS
+QTLEAQLSVARLLAISNPVVISNVPAYLWYRGCGPTSVGMVLGYWDGRGYDDLVPGSAAT
+QTTAVNNMMASSQHYSDYSLPLDYYPTLVADGSQTNVGGCHTDNSVADFMQTSRSLYGNY
+WGWGYFSRVYNGLVNYVNMVAPQYECGAQSLTFSSFTWNRYCSEIASNHPVVLLVDSDSD
+GFSDHFVAGIGYGTDGTTNMYACYDTWDKNVHWYAFTNMASGRPYGIYGATFFSLAPLVT
+EPPTKPTNPSPTNTATGVSCSAILAWHQGTNAASYDVYLGTNPTPGAPEFQTSQAGTNYT
+PGALANERTYYWRVDAVNAAGKATG
+>tr|A0A1W9L8B5|A0A1W9L8B5_9BACT
+MRMYQLAKDLNVSTKELMDRLRADGEDISINPSANASVTQVRKERAMFAAPAAEPAPEPV
+VPAAPPAAADATPPAPAPEPEPAPVAAVATDGTPAAPAEPEKPSLIRVREPIIVKELAVQ
+LGLKPNVMIAELMRMNVFASINERLEFRVAHQLGLKHGIRVEHEKKVQEEKPAPPKKVEV
+EVKVEPVERPEEQMQRPPVVTFMGHVDHGKTSLLDYIRKTRVVASEAGGITQHTGAYMVQ
+FHDRWITFIDTPGHAAFTQMRARGANLTDIAVIVISAEEGIKPQTLEAIQHAKAANVTTM
+CALNKVDLPAANLERVKGQLQQNGLAPDDWGGTTVCVPVSAATGQGIDDLLEMILLQADM
+LGLKAAARGKATGYVVEARMAPGSGPVATVLVKSGMLQVGDAIVCGDYWGRVKSLENDRG
+VRVRTAGPSYAIQMLGLTAVPEAGAQFRVVANDREAKEHSETLMASKRLETLQAPRRGMS
+LDDLLTQTDTSKKMELSVVLKSDVQGTLEAIQQSLMDIRSQKVSLKVILTGVGNISANDV
+LLARASNAIILGFHVANETGVEKVAKREGVEIRHYSIIYELIDDVRRAMAGLLAPLIKEI
+PLGQALVKQVFELSKKGAVAGCIVRGGKITSRGRARVRRGSEVVFEGALVSLKRFQNDAS
+EVRDGQECGIRLDGYGGFQDGDVIEVYDVQKIAQEL
+>tr|A0A1W9LGB6|A0A1W9LGB6_9BACT
+RNSLLKRQIKRCLGSSHHIPADCTPFVEAVNEAYHEFDADRSMLERSLELSSQELLQANS
+DMRAVLQAFPDLFFWVDENDAITDYRAGDSSDLYPAPGELVGKKIHAIPVPAVREKFKQA
+VGRVRETRRPASIEYSLAAAAGEVFYEARLLPLPGNKIIVIVRNITDRRLTEKALEYRLE
+LEMLIATLSTRFINVSSDEMDGAVSDALWVIGKFAEVDRSYIFQFSADGIHMDNSHEWCP
+ESVKPAIARLQHLRRSDYAWFLKQIEDLRVVHVPRVADLPPEADVFKKELQGQGIQSLVC
+VPMALGGVVIGFIGFDSVHRAKAWEEDIIALLRIVGDIFANAIERKRAEVALRKSQDMLR
+QSQKMEAVGRLAGGIAHDFNNLMTAVLGFSRMIVERTNDEQIRADAEEVVSAGERATKLT
+AQLLAFSRKQLREMKRIDLNRIVSEMERLLQRTLGEDINLITVLADDLGAVEANAGNMEQ
+IVMNLALNGRDAMREGGDLTIATEKVLVGDRDERLLLGLKPGPYVVLSVKDEGCGMTAEV
+REHAFEPFFTTKPEGRGTGLGLPTVYAIVQQCGGAVDLVVRPGGGTEVRVYLPLIDAPAD
+APAESLADELTGGTETVLLAEDEDAVRRLAARFLSRLGYKVLEARNGFDALDLCKHHHGP
+IHLVVTDVVMPRMGGLALTEELSALRRDAKILYVTGFSETTAFNHTKGALVRQVLFKPYS
+QEALAKRVRQILDGADLEAKES
+>tr|A0A1W9LFF1|A0A1W9LFF1_9BACT
+MIGLLIALGVLVVLVVWFIGTYNGLIQLRNQVKNAWAQIDVQLKRRHDLIPNLVETAKGY
+VKHERETLENITKARSAAMQATGAGAAAKAEGALSDALSKFFLVVENYPDLKANQNFLAL
+QEELSSTENKVGFSRQFYNDQVLSYNTKTEQFPTNVVSNMFAFKKSEFFAVESAEERQAP
+KVQF
+>tr|A0A1W9L8F3|A0A1W9L8F3_9BACT
+MASKAKKPKTGKAKTKAAAKAAPRKKTPVARRPAAKVAARKAKPAAKPAAAPRHPKRATP
+APKAIKTAKVPAGRTAKAHAAVPETPKVKPMGKKDLEFFRKLLLNLRDRIVDEISFLAGE
+NLNHSQREASGDLSNYGMHMADQGTDNFDREFALSLVSNEQEVLYEIDDALHRIDGGSYG
+VCETTGKPIEFERLKVLPYARL
+>tr|A0A1W9LH41|A0A1W9LH41_9BACT
+MRASGRLTAGVLAAVAREVRPGVTTRELDLCARDLIAREGGASAFLGFRGFPGHICVSIN
+DEVVHGIPGDRRVEMGDIVSLDCGVLYQGWHGDTARTVRVGTTDPEALRLVRVTEDALAA
+AVAAAVEGRRLGDVSHAVQSTVEAAGFSVVREFVGHGIGRRLHEEPQIPNFGTAGRGPVL
+RAGMTLAIEPMVNQRGCEVRVGPDGWTVRTVDGGLSAHAEHTVAVRAGAAEVLTCSDGI
+>tr|A0A1W9LGJ4|A0A1W9LGJ4_9BACT
+MTWYIQGMETMGIAAFKARCISVLKRVHDDRERLVITWRGQPLARIEPVAGPVAARRLGA
+LKGRLRIQGDIVNADWSGDWEAGR
+>tr|A0A1W9L9Y2|A0A1W9L9Y2_9BACT
+SILWGASYASNYTVAISSDGSTWSNVFTTTSGNGGVDRIAFASPVTARYVRVSIVGTAGY
+TVQEVQVAGSELVVNNPPNVPSSPSPSNGATNQSVNVDLSWAGGDPDAGDTVTYDVYFGT
+AGSGVGPLAAGANHTLAVESNGTVRTVGYNNYGQLGDGTTVTRYTPVLASNLVGAVSLAA
+GISHSLAAKADGTVWAWGRNNYRQLGDGTTTTRTKPVQVSNLVGAIKIAAGYYHSVAVKS
+NGTAGTVWTWGYNNYGQLGDGTTTTRSNPVQVAGLTGVVAVAGGTYHTLAVKSDGKVWGW
+GYNAYGQLGNARTTSTNRPVQTSNMVGAVAAAGGYYHSLILKSNGTVWACGRNNYYQGGN
+GSTTTRSTPIQVSNLVSGVIAVAAGDNHSVALKSDGTVWTWGYNAYGQLGDGTTTTRSKP
+VQVSNLVSVVAIAAKGNQTIAVMSNGTVWAWGNNNYGQLGNGALPYKSACVQVAGLQGGG
+QGITLVSDDQASTTYDPGALSPNTAYSWQIVAADNHGAASTGAVWSFQTTLPAASAPTYS
+PNGGTYTNSRSVVLSSATAGAKIYYTTNGTAPTTSSPWVNTGGSITLYASFSNTVRAFAT
+ATGYVNSAITTSVLFRVVPTPVAGAPTYSPNGGTYTNARSVVLSSATAGSKIYYATNGTG
+PTTNSPWVNTGGSITLYASFSNTVRAFATATGYVNSAISTSALFVVKIANNPPVASNQTV
+STAEDTSKAITLTGGDPETNALTYLVNAAGHGSIVGTAPNVTYIPDQDYYGADSFTFRVS
+DGSLTSAPGTVSITVTAVNDAPVANAQNKGVLRNTATAITLTGTDVETNTLTYALAANPT
+NGALSGTPPSVTYTPAKWFIGTDSFTFRASDGALTSSPATVTLTVTQSFIYVDAANTSGT
+ENGTAAYPYSSFYQGMVAATNPGVTVSVATGAYSGASWWWYYRTNLAIVGQGNSNTLVTS
+YIAFSSCTDIKVEKLDIYGGPFGLQFSSCAGVVLRSNVLHNMTQGSYSYGAAISASSSEI
+LMEYNILRDTYGGQRGGAGQYSDCTLDVRSNQFINCTAWASAGGMYITTTSSGRTLRVAH
+NFFTGVMADYSGALVITYTAPAGLVEIHNNVFHNSNADYRGVTVDLNVTDAASDVGILNN
+IVKDPWGPDYSPPVGFNCSGSGTVYVANNIFSCSLPYANRAVVGGTNVLVEYNDSVGMSY
+SGVTVGSGNITNNPLFVDAANHDYHLQTNSPCINTGNPDSYYNDADGTRNDMGVFGGWYW
+>tr|A0A1W9LCL3|A0A1W9LCL3_9BACT
+MSDGSPFHLRADYVPTGDQPEAIRALCQALDAGQRFQTLEGVTGSGKTFTVANVIRHWGR
+PALVISHNKTLAAQLYAELKGFFPDNAVEYFVSYYDYYQPEAYIPTTDTYIEKDSAINEA
+IERLRLAATDALLNRDDVVIVASVSCIYGLGSPEDYREMTVRLERGEACNRDAILARLVD
+IQYTRNDIAPQPGSFRVRGDTIDVHPSYGREIVRVSFFGDEIESLRRLDPVTGRVVGEVQ
+FVTLSPARHFVMPAEKIGRSLDAIRGEMEERVKWFLAHDKLLEAQRIRMRTQYDLEMMKE
+LGYCSGIENYSRLLAERPPGARPACLIDYFRGPFLTIIDESHVTLPQVRGMFNGDRARKT
+TLVDHGFRLPSALDNRPLNFEEFLGITGPILFTSATPGDFERGVGGKAVPQVIRPTGIVD
+PPVEVRPLANQIDDVMEEIRAAAARNERVLVTTLTKRTSEDLSEYLQAAGLRVKYLHSDI
+DAIERVDILRGLRKADFDCLIGINLLREGLDLPEVSLVAILDADKEGFLRSETALVQTAG
+RAARHTQGRVILYADHVTDSMRRMIDVTRARRERQTAYNLEHGITPQAIRKGIQESLAIR
+EEAEELETSVVREAGVDYDVHQVIQDLEREMLEAAEALEFERAAMLRDQVRELRASKEGG
+GAPAPARSNRSAPGRTRYPRAGR
+>tr|A0A1W9LD17|A0A1W9LD17_9BACT
+MARIHDDDLRRLKENVSLTDLCRSRGIELKKHGSRDLIGKCPFHQDENPSFVVTPTKNLF
+HCLGCDAAGSVIDFVMKLDGLDFRAAVDKLLPGLSGVEGGSTPKIKRAAEAVQEKKIEVA
+PERANQLLERVVSISEKNFDDPAGSGTSGRAYLEKRGITDAGLFTQHRIGFSNGRLKEVL
+PSAGPVWDELEALGVILTGGNERFAGCVVFPVFDADGNLTTLYGRFTGPEPKRHVFLPDR
+STGLWNAPAMKTYSEIILVESVIDALSVMVAGYRNVIAIQGTNGLNEAEIAALRDHGVQS
+IVLLLDGDEAGRKAAERLKEKLSSFSRRVLTLPDDHDPNSFLQARGAMKLAEFVNQTAES
+GAETPTVRAGGGDGRTPPDSLEGTAKPQVPPGLLQPGGTCFRVAYGLRRYEIRGLEKASR
+KLRATVRLEHAGKLHVDTLDFYSARGRAQLAQDLCRLFDETPETIEADLQRLIVECERHK
+PGEPGAALKPELQLSAKEKAEAEAFGRSPDLIERILADFENGGLIGEESNKVLGYLAMTS
+RKRDEPLSVLTLSSSGAGKTALQDAVLSFCPPEDLVKLTALSGKALFYKEQLSLKHKVLA
+LEEGDGAQEASYAIRNLISAGVLVSETTIKDLATGRLVTMESRVEGPTSVFLTTTNPEID
+AETKSRFFVTSIDESRDQTRKILAFQRARHLSDGPAEDAQREAILQRHRNFQRLLKPLAV
+KNPFAGQLTYGDDRLQGRRDQPKYLNLIKAVAFLRQMQKETRLEANNGTAAEFIEVDLDD
+LALANRLAHEILGHSLDELSRPGHDLLLALDEMVKARLKERHADERKPRVADLPALPSGR
+EQTGVLFSRREVREFTGWTNTRLHIHLKELADFEYLAVDAGRNGLPFRYRLAWDGQGHDG
+KRFVPGLSSVEGLGLKDAKDLRPPKG
+>tr|A0A1W9LFE6|A0A1W9LFE6_9BACT
+MRIETILQAIQPMTVKGPRQADIRGIACDSRQVKPGCMFVALRGTREDGARYAEDAIRRG
+AVAVVSEHNDWTRRDVTHIRVEDARRAVAEISCAFYDHPSARLETIGVTGTNGKTTTTFM
+IRDILRAAGRNPGLIGTVMYEMGSRCIPANRTTPEAPDLQSMLDQMLTAGCASAVMEVSS
+HALEQKRVWGIDFDVGVFTNLTRDHLDYHVTMQRYFDAKALLFRGLGQMEKRASAVINLD
+DPWGQQLANTGGGWSSLVTYGLHPGALVRAVDVELGPQGSAFTVESPWGAVPVRLGLMGR
+YNVSNALAAFAACAARGLRPDFIAGALAQFQSAPGRLERIPNGRGFQVYVDYAHTDDALS
+NVLGTLREVSPRRLLVVFGCGGDRDRSKRSRMGTVAGLMADYVVLTSDNPRSEDPAAILG
+EIVEGMPEGARYETIPDRETAIARALEIARPDDVVLIAGKGHENYQEFARTVIPFDDREV
+ARRLLA
+>tr|A0A1W9LAZ1|A0A1W9LAZ1_9BACT
+MKIIRSPAEMQTTALALRRDGRRIGLVPTMGYLHEGHLSLIRIARPHAEVVVVSIFVNPT
+QFGPNEDLGKYPRDFERDERLCREAGADIVFYPSAADMYPADHSVFVVEERLSRGLCGAA
+RPGHFRGVCTVVAKLFNLVLPDSAVFGEKDGQQLRIIERMVRDLDFSVRIVRGPTVREPD
+GLAMSSRNVFLAPEERRQALCLRKALDRTEAMHRDGERDAEKVRKALREVIAEAPLARID
+YVEIVDDVTLEPVQTLDRPSLVALAVFVGKTRLIDNTVIGAGA
+>tr|A0A1W9LC29|A0A1W9LC29_9BACT
+MWLLAVSLFAAGWGLAAEPVYDRIEDVIYARKYGTALTFDIFRPKGPTNGIGIVYAVSGG
+WYSSHDLNGAIVRMAPLLARGYTVFAVVHGSQPKFAIPEILEDMHRAVRFIRFHARDYGI
+DPDRIGITGVSAGGHLSLMQGTCGADGNPAAKDPIDRVSSRVQAVGCFCPPTDFLNYGKP
+GEDAIGRGVLANYAGAFDFRELDPKPRKLVPIVDEARIVELGRRVSPIYHVSASSAPALI
+LHGDADLLVPIQQAETLVEKMKEAGVDAKLVVKPGAQHGWPDMDADPAAFTKLADHDLDI
+IIGPYAILGLVVLAVMVVFAIAKLPRSQHENHKELDILGTLKRLGGNAKYIEGVIAQAFY
+VGAQIMCWTFIIQYAEKELGMSKADGQWYNMIAMGIFVSSRFVCTYLLKFFSPGGLLPAL
+AVGGVALVAGTIFIHGMTGLYCLVGVSACMSLMFPTIYGIALKGLGDDAKLGAAGLIMAI
+GGGCLMPPVQAWIMDQSAFNLGFMTLSSIRMSFVLPLVCFIAVAIFGFRTSNVHKHTY
+>tr|A0A1W9LDP0|A0A1W9LDP0_9BACT
+MKWADYIAVDPQVCHGKACVKGTRIMVSIVLDNLAAGLTPAEIRSHYPSLTDDAIHAAIA
+YAAELSRERVVAVPA
+>tr|A0A1W9LCN5|A0A1W9LCN5_9BACT
+MTEEATKTEAVAAAPSGPSIHIAPGPHAFSGALTTRRMMLDVLIALVPVLAVALWQFRLY
+AAIQLAICVVSALAAELLFTAMRKGPVSVGDGSAVVTAAILAFSLPPTAPWYVGAVGSFV
+AIGIGKTIFGGVGQNIFNPAMLGRAFAMIAFPAFMGATAYVSQNTGIDGLTQATPLTALK
+QLGQSAGLFPLFIGTTNGSIGETSALACLIGGAYLCLRRTASWEIPAGVVAAVAVIAGLM
+RVAHPGSEWTVLHELFSGALLFGAFYIATDPVSSPLTPRGKIIFGVGVGAIVMLIRKLSG
+YPEGVMFSVLIMNALVPLINRWTIPTPLGGPVPVGKK
+>tr|A0A1W9LC30|A0A1W9LC30_9BACT
+MNGIHYRSTNRGLPGGSAETVSFREALLRGPAPDGGLYMPCVLPRLDPARLAGLRGAPYA
+RVACEVLRPFTAGTMPDDDLLRLCEDAYDFDVPVEPLEDGVWILRLDRGPTASFKDFAAR
+WMARMMRALRKPGEERTILVATSGDTGSAVGEAFRGLEGFRVVLLYPERGVSAVQKRQLD
+GIGLNVRALSVAGTFDECQALVKQAFLDPSLAGLGLSSANSINIGRILPQSVYYVYAWLR
+VVADGGPVTFSVPSGNFGNSFGCELARRMGLPVARLILAVNANDEFPRFLAGGGYRPVSP
+SRACLSNAMNVGNPSNLARYFDVFGGILTREGTVRKAPDVAAMRAALESVSIGDDETVAC
+IRDVWTHRRVLLEPHGAVGVAALRRLGTGAGPAICLETAHPAKFPEMIERELGFAPPPPA
+AFRKLAERTPAVEHISATYEALRETLTRNA
+>tr|A0A1W9LH53|A0A1W9LH53_9BACT
+MRLHDLKNVPGARKARKRVGRGESSGSGKTSGRGAKGQGSRAGSHWRPTFEGGQMPLIRR
+MPKVGFTPPTRVAYLAVNVGDLAAFDAGATVDVAALRAAGLVRGPAHTRVKVLGTGDLAV
+KLAVHAHAFSAAARTKIEAAGGTCETVA
+>tr|A0A1W9LFU4|A0A1W9LFU4_9BACT
+MIPLCLVAGFLGSGKTTLLRRIAATNTGRRLLFLVNEFSAADVDGRTLAADGLDVRVLPG
+GSIFCRCLVSQFIGQLNAIAGRAEIGPLDGVVIEASGMADPRVIARLLVETKLDARFSLS
+RVIAVADPVRLLKLIRTLPAIRAQLEAADVVVLNKCDLAPPAVCDEAEALARSLRPGATV
+LRAVRANVDVDPFPASPLRE
+>tr|A0A1W9LDV4|A0A1W9LDV4_9BACT
+MSSLEGNKAPAFSLKGSDGKTHALKDYAGQTVILYFYPKDNTPGCTKEACGFRDLHSSLR
+NKDAVVLGVSKDSLESHDHFIADFKLPFVLLSDPDASVMKAYGAWGEKLVYGKPVTGTIR
+STVIIGPDGQVLKQWAPVKNAEEHPAQVAEFVAGL
+>tr|A0A1W9LFF8|A0A1W9LFF8_9BACT
+MKNKALIALEDGTWFEGEAFAGSGEVLGELVFNTSMTGYQEILTDPSYHGQIVTLTYPLI
+GNYGISAEDMESWRPQAAALVVGECSRIASNWRSSMSLPEFLNSKGLLGVDHIDTRAVTL
+HIRSRGAMKCVLSTTDTDPDRLVAKARASAGLVGRDLAREVTCPARYSWPGPHAALERFS
+TIAVARQAWDGLLGPEAAPRRFRVAVLDCGIKLNQLRLLARLGCALEVFPNHAPAEEILE
+WKPDGIFISNGPGDPEGVLQTVAALRTLIRTGIPTFGICFGHQLLGLAFGGRTYKLKFGH
+RGANQPVLNRRTGQVEITSQNHGFAVDIQSLDPDLVETTHINLNDRTSEGMAHRKLPVFS
+VQYHPEAAPGPHDSTYLFLEFIRAIERRG
+>tr|A0A1W9LAX8|A0A1W9LAX8_9BACT
+MNTFLDLARKNERSLTQFMADIVSIPSLSSQEGAVVECMAEEMHDLGYDEVTVDPMGNLI
+GRLGNGPVKIALDGHCDTVDVGNRSLWKREPFKAVVENGILYGRGASDQKGGVASAIYSA
+ALLKEKGLPENVTLYVVASVQEEDCDGLCWQYIVKEDQIRPDVVVLTEPTSLRIYRGHRG
+RMEIEVSTAGVSCHGSAPERGVNAVYKMAPVIQDIEKLNERLQPREPLGKGTVTISHIRS
+TSPSLCAVADGCTIHLDRRLTVGETESIAVDELYMLPSVKAAGAKVTVLDYAVPSFKGLV
+YPTKKYYPTWEFPESSPHVQKAIAGYQNTFGAKPEVGHWTFSTNGVATAGMFGIPTLGFG
+PGHEKFAHFPDEQIEVEHLVRAAAFYAGFVTEFAG
+>tr|A0A1W9LGR7|A0A1W9LGR7_9BACT
+MKVLVTGGAGYIGSVTSEQLLDAGHRVCVFDNLGRGHREAVDDRAKLIVGDLCAPADIET
+ALRTEKPDAVMHFAAFALVGESMQHPEMYFQNNVVGGLNLVEAMRKAGVPKIIFSSTCAT
+YGVPERVPMTEDLPQRPSNPYGESKLLFEKILRWYGELHRFQTVFLRYFNACGATERFGE
+DHEPETHLIPNVLRVALGQSPAVSVFGGDYPTPDGTCVRDYIHIVDLARAHILALTGDVT
+GPFNLGNGSGFSVTEVIDVAREVTGHPIPATVSPRRPGDPPRLVAGAEKARTVLGWKPQH
+GDIRTIVEHAWAWHRKHPRGYRG
+>tr|A0A1W9LGM1|A0A1W9LGM1_9BACT
+MACVGLVLAASVHPAAAQSAIRPGPGSAREAAGAANRFASSFFGNLAQSKQGNFVASPFS
+VHGAMSMVAAGAAGDTEAQMVRTLGLPAEKTARSTALVALRDRMEAAGARGEVTLDIANR
+VWVQKSYRLLPAFARGVELVFAAGFAEADFADRAEAARQEINGWVESRTRNRIRNLVPAG
+LLSPMTRMVLVNAIYFHGAWETSFPENRTEAAPFHIAPGRTVRADLMQAHLERVGYRAEP
+GLQVCELPYRGRNLSMVVLLPEAGKLGDLEARIATEGFDAVCGAVVPQTVDVALPRFKIE
+AQFVLNEPLATLGMRDAFDSSKADFSGMTGTRDLFVSIVLHKAFIEVNEKGTEAAAATAV
+IMERGAAIPSKPVEFRANRPFLFALRDRPSGAVLFLGRMARPGE
+>tr|A0A1W9LEF4|A0A1W9LEF4_9BACT
+MDFAVFFDFDGVIADSERLHHRAYQLLLGPLGLGFSWDVYRAGYIGYDDRDVLRLIHRDA
+GIDLPSDRLKDLMARKADLFAGLARDEPPPLYPGVRPLLDSLRSKARLALCSGAMRGDID
+PILRAAGLEDRFDTIVTAEDVPASKPDPACYRLARSRLRARGGNAGEAPGGVAIEDTPAG
+IESARGAGLRVLAVCTTHGPAELASADRVTDSLAEVHADLLEALATP
+>tr|A0A1W9LES2|A0A1W9LES2_9BACT
+MSAAYLSLVLHAHLPYVRRPGAAASFEERWLFEAVIQCYLPLLRVFEGLLRDGVRARFAM
+SISPTLAEMLDDALLMDRCARHLAALSDLAAREVGRTRADARLHRLALAHRDEFGALAAD
+FESRGRRLLTAFAALRDAGMLDLATTAATHGHLPLLNEVPPAARAQIRIGAAVHRRVFGA
+APGGFWPPELAYQPGLEREFAAVGARWFCVETHGLLHADIRPHYGTFAPVACPNGVAAFA
+RDPETARRVWDAREGYPGDAWYREYHRDIGFELAPEDLGSLAAPPGTRGPTGIKYHRVTG
+RVEDKRLYEPARAAATAREHAADFVRRVATRAAAAAPAMDRPPHICAPFDAELFGHWWHE
+GPVWLGEVARLAAGSGAVELLTPSDYLERHPRLQRATPAESSWGAGGGHETWLNESTAWI
+WPQLHDAARRMEGMARAVPHARCPGPGRASGITVSGITVSGVGCQVSGRTPTFGRRLSVL
+GSRPSALGPRPSDLGPPAPSSLRDRAVRQAARCLLLAQASDWAFMIRNDRAADFAARMVR
+DRLSEFDYLEDAVRRDRADPRRLASIERAVPLFAALDPGVFLD
+>tr|A0A1W9LIM8|A0A1W9LIM8_9BACT
+MSRLGDQPVAVPAGVSVAIDGARVTIKGPKGEMSLTCPDGIAAALNGVILVVSRRDNSQP
+QKRQHGTTRSLLAGIVTGVHEGYVKVLEIQGVGFRAQAQGQKLTMSLGYSHPIEFQVPAG
+LKLEVPDPTTVRVSGCDKHLVGETAAQIRNFYRAEPYKGKGVRYKGEHVRRKAGKTVA
+>tr|A0A1W9LHF9|A0A1W9LHF9_9BACT
+MRRLRYQERINDVMAIEISLDAKSPTRALVMELEGMAVPTRRVIFENVRATLSEQGVSFD
+EPAMMRYGLHAVPAHMVGDIAEHYGLRAAARTSLLGKLNKALAEHFRSRAVTMALGLDRV
+LDLARDAGSSLGVLSWQEEDAARALIEKVGLARWNPQVFCLPSPDHEFPGADVWLKALKA
+LGCSPRSAAALISARAPGRAALAAGMRVVASPDEFTSHQDFGGVDALVDHVGDATVEQIF
+GRI
+>tr|A0A1W9LCZ0|A0A1W9LCZ0_9BACT
+MDPSGKKALLGMTLDGLREAAAAAGLPAYGAKQVADWLYRKRAPDIAAMTNLSAKARAAL
+AERYEVGAVPPSRVQESADGTRKYLYPTRPGRFIETAWIPEPERSTLCVSTQVGCKMGCL
+FCMTAKQGFQGHLTAGEIFNQYGSLPERDRVTNLVYMGMGEPMDNLDAVLASLAILTSPW
+GCAMSPRRITVSTIGLVPAVRRFLAESQCHLAVSLHSPFEEERRRLMPIEHVHPLPELIA
+ALRAHDFGLQRRLSFEYILFKDLNDTPRHVRELARLLNGLRCRINLMRFHPIPGVPLVGS
+GEAAVAAFQEGLNAKGILATVRRSRGLDIAAACGLLSTRALQPGEPVEY
+>tr|A0A1W9LE73|A0A1W9LE73_9BACT
+MLARFGGLDGVRDAGLLESALNRPKHLFAYETPSLFDLAATHAHGLVKNHPFLDGNKRSG
+FMAAALFLEANGYSFDAPEEEALERTLALAAGAIRAPAFAAWLKRSCRRVRPARRH
+>tr|A0A1W9LE10|A0A1W9LE10_9BACT
+MSRIYDELRGGGREQKRIEDLELFKFASVRKPETPPPVSLPPAPPAPPGIEPLGAAAGEP
+EEDRAVDVARSASPMVSELPPEPARPPVVPPSARTPYPAGQSPLLGVGRSMPRGRRRAPV
+ILAVVLAVAGVVVAGWLLSGVVNRARRSKPPAAAVATGKPSPAPKAVVKSEVRPLTKSVA
+KAVAKPEVKPVAAQVPAAPVAVRTGSLDLNVAGVVVTAKNGENTVYFNSGVFGSTLELSP
+EGKTLLNRLAERMEPHAAGLLIKVVGCTDNIPVSKKGRFKDNRQLGLERANVVVKYLQEA
+GGLSAAAFATQSYGTQWTPYPNDSPVSRAKNRTVVLRVSMRPNPPSR
+>tr|A0A1W9LGC6|A0A1W9LGC6_9BACT
+MDVAHIAHLARLHLTPEETAKLQLQLGRILDYVNQLREVDVRDVEPTSHAWPVRNVFRAD
+EVRPGLDRGDALANAPSARDGLFIVPKILE
+>tr|A0A1W9LGL4|A0A1W9LGL4_9BACT
+MSLASAEVLSGLVVAVIGPHPDDFDAVAVTLRRLRDAGAAIHAFVCHTASGVEDGFCSPP
+TPAVKQWLREQEQRDSLRFFGLPDDCVTFLDLERNAADDGQPFDHEANARMLSGAILPVR
+PDLLVLPHGNDTNSGHRNIHAMVGRMTAKDGFPMTAWLIRDPKTVSMRIDLYTPFGEDEA
+AWKAEMLRFHRSQHRRNLNTRGRGFDDRILDVNRAIALDAPFAEAFEVRALQ
+>tr|A0A1W9LBE0|A0A1W9LBE0_9BACT
+MKSPAPPKPAYALGDSGEFVIENYNLAKPFASFFPGIAGPHGIPMWVFYVNRAQCVCSIG
+IEDKEHPIMEFLSANRAYQLTSTQCFRTFLKLGRGAKQRFYEPFQQHAADAGMSRTQRMI
+IFPAQLTLEETNRTLGLKFTVDYFNVPEDSYAGLIRVLRIENLGRKSVAMELLDGLPLII
+PYGVDNYNLKHMRRL
+>tr|A0A1W9LCP8|A0A1W9LCP8_9BACT
+MEMVAEKAIELLIRVCGISAIVFVFGIFFFVFREGAPALAKLDLGEFLTSTKWIPTSHQP
+KYGVAALIVGTVSVTAVAMAIAVPFGLGAAIFVSEFCGRRTKETLKIVIELLAAIPSVVW
+GFIGLSVMSPLLIHTFHVPVGVNLFNGAILLALMSVPIMVSIGEDALKAVPDSFREAAVA
+LGATRWQIVWRVLLPAARNGLLAAVLLGVGRAIGETMAVLMATGHSIRIPETLFDPVCTL
+TATIAAELGETSKGSTHYQVLFLIGILLFTLTFIVNLTADLIVKGIRKR
+>tr|A0A1W9LDF7|A0A1W9LDF7_9BACT
+MAFARKNSQGVIQLGAGNATNETLIQPVREYMAHIESLGHSGETVRKRWDCMRHFLLYLE
+AVKVERVQDVSLQLLEDYRLCLIEHGYSEATLESSMRTLKLFYRFLEDKNLVFDNPAHRL
+RIPKAHILFGTVLTESEVQRLLAVPDLTRPQGIRDRALLEVLYSTGIRAGETVALTVFDV
+DLDRATLRVKGKGRRERLVPLGRHAVKYMGIYLKEARPKLLPKFTAAPDALWLCRFRSGI
+GKVGIGHVISQYAKAAGIAKQVNIHAFRRTCATHLLRHGAHPVVVAQLLGHAGLTSLSHY
+LQTTIGDLLKAHAQTNPGR
+>tr|A0A1W9LEG3|A0A1W9LEG3_9BACT
+MYANNDRIEPINLEEEMQRAYIDYSMSVIIGRALPDARDGLKPGNRRILFAMRERGWTAS
+KSFVKCAKVVGEVIGNYHPHGDSAVYDTLVRMGQDFSMRYMLIRGQGNFGSIDGDPPAAY
+RYTECKLHPLAEEMLAEIEKNTVDMQPNFDESLQEPRVLPARLPNLLVNGSTGIAVGMAT
+NIPPHNLGEIVDATVALIDNPDATVADLAAFVKGPDFPTGGMICGTAEIRKMYETGRGLL
+KVRGRAGIEEGAQGKDSIIITEIPYAVNKATLIEKIADLVNDRKIEGISDIRDESDKDGI
+RVVIDLKRGIIPRVVLNNLYQHTALESTFGAIMLAIDHGRPKVMTLKELLQCFIDHRFDV
+FSRRFRFELDKARARAHILEGLKIALDHLDAVVRVIRESKDRDAARLALMKKFSLSEIQT
+NAILDMRLYQLTNLERDKIETEYEALLKEINRLEDLLANPKKIYLEIRMDLLDLRKHYAD
+ERRTAIVPDEGEIAIEDLIADRGCVLTISHGGYIKRMPVTTFRQQRRGGKGVMGMETKEE
+DYVEHVFTASTHDSLLFFTEKGRVYWKKVHEVPEASRNARGKAIVNFLEIGGDEKIADLI
+PVREFPETQFLVFATQSGVVKKTNLAAFANPRAGGIIAIKIEEGDRLIGVRLTGGNNEIL
+LATRQGMSIRFHEDQMRDQGRDTVGVWGIELGRENDAVVAIGVVDATATLLCISEHGYGK
+RTSFDEHRAQSRGGKGVITMKTSDRNGPIVAAHAVRETDAMMLITEKGQMIRIGVPDVRV
+ISRNTQGVRIINLEEGDKVVSVTSVEPEDEDPTADAPAGAPPTPA
+>tr|A0A1W9LG13|A0A1W9LG13_9BACT
+MTQEEVIAKVNQVFEESFEIEKGNLQPEKHIFTDLGLDSLDIVDLIVALQKAFAVQIRDS
+AKVREVRTLGDLYRVVLEIKEEQEAAGNTPRP
+>tr|A0A1W9LCS7|A0A1W9LCS7_9BACT
+MNFLLEKKREHEDACETAIRAGCGREAAFHAAKAAEFAYALAEQTAPALSTRYIEDAEGW
+LEIAERLKATPLRKPAGDEGRGARGEGGGQKVGDEAGPSGDEWLVATKPSVTFDMIAGMA
+DAKQAILEMVVYPLKAPEKARALGLKPGGGVLLYGPPGTGKTMLGKAVAHELDAPFYYAS
+GAQIRSKWHGESEQRLRSFIQAAKAQPVAVLFFDEVDGLLPRRGGNSVVDNRIVAQFLAE
+VGGFEDNDNVLLILGATNKPWEIDEAVFRTGRFDEKIYIGLPDPAARLGILRMHVEKVPL
+TPGFPFDAWVQRLDGYTGSDIVGIVNDAKRAALNRSVRESADPQVREADLEQALSTIPSS
+VTGRMLKQYEEFMKQRF
+>tr|A0A1W9LE27|A0A1W9LE27_9BACT
+MKLLAISGLTLLAVISSGIRVAAEPAQPGWVLVWQDEFDGPAVDTTKWRVEDAALVKNNE
+RQYYAPDEVYIENGHLVLRSRKRTQGDREYTSGLVETKGKFAQAFGRFEIRAKLPRSQGI
+WPAHWLLPEDGSWPPEIDIMECVGSQPDLVTMSLHMGEWPALESQSGDFIGPDFSQDFHV
+FALEWAPGELRWTVDDVERFFTTDNVPQVPMYLILNTAVGGDMPGEPDETTALPQVHQID
+YVRIYAKDVPGAFFLVASADNGRIGITPKEPRYATGSVVTLKAVPSIGYKFSHWSGAAEG
+AENPIVITMDGHKTVSAHFETDAAAPLLLSKGKPVTASSVEKDGLEPQNAVDGDRGTRWS
+SAFSDFEWIMVDLGEVHPIEAIRLDWENAYGRNYKIDVSDDGTTWRNIHSKTGGRGGVEE
+IIRIAGSGRFVRLTGLQRAREWGYSLWELGVYGK
+>tr|A0A1W9LFR8|A0A1W9LFR8_9BACT
+MVELTPQERLQPCLLDRLADQHPEKPQEGRDERIVSVRQYREAVLRDLVWLLNAHSHPPG
+DEIYEYPAAADSVLNFGIRELSGMTTAGLDPRAIERELVQAIQRYEPRIVPQSLSVKTAG
+GAERIEHAAVAFEIRGELWAQPLPEQLYIKTEIDLETGECNLSESGRG
+>tr|A0A1W9LGW8|A0A1W9LGW8_9BACT
+MWHDAGMSSVPFHHPDLSVTVLRRRASEFLLDLLAYYGEAAVTRGRSLLWSDCFSSRRAY
+EGAVWRLRKKGSVSISRGKDGRRLLRVAPGHEESAALRPDRYWKRRWDGWWRVLVYDIPE
+DERSFRNGLRKFLARLRMGYLQHSVWISPWDIRPDYADLQTSLNLESVSFLFEARTVLGR
+TSSDLVLEAWGFEQLADAQRDYLAASGAYLRDLRDIGLTREQLSAVARQEMMHYLHAMAA
+DPLLPKILIPAGYQGFRVFEQHCRVSERVQHWLKVLE
+>tr|A0A1W9L8R9|A0A1W9L8R9_9BACT
+MSVKKIDLQAFGAWVNACVKKHRVHGVQASGDRFVFAPLERAEDLRLDYDVTLLPPKKYF
+QPPCEVLSKFTRDGTFESVVESEPLVLFGIHPYDMVAISQMDTIFSRDPCDVHYMKRREN
+ATLVVCDVQNASPNVFAGCMGTATVDKGFDVLVTKVDGHYLVDARTDKGRALVELAGAPA
+DADENSLQLREWLWGHNRQLLRKHDLKVSVSVLPKLLERSYEHPVWERKARLCYSCGSCN
+LVCPTCYCFDVQDHMDWDLQHGKRSRAWDGCMLADFAAVAGGHNFRKDRTERYRHRYYRK
+GKYVPDMIGEIACVGCGRCVTACTAKIANPVEIFNRLLEEK
+>tr|A0A1W9LAI3|A0A1W9LAI3_9BACT
+MHRRAGRARAGPLCTVVRVEGRCVRADGTGIDPQPRAVYDWFYFHDSPRIYVQGTVRQDT
+PRSWVDAATGTLLLGTDHAPVFDLALRREGSTDEERLSSESGWGDVTVGSGLLSDAIALR
+WRKPAGATALGDLEVTVRLRPDAECHRVSWSLEARGQAEPWSVWEVRFPQAVLAAPGSCS
+QLALPQASGVRKAVGAEPLARFRGDYPSGWTTLPFAALYDTDAGTGLYFGLHDPSGANKT
+FTADRADRREAVVHPSKGALPPAAAASTAVSLSWAVPALIDESVTFSPLGIQAWEIGLPA
+SR
+>tr|A0A1W9LEN3|A0A1W9LEN3_9BACT
+MFVIPDIRAAFPVADVVQAFRDSNFLSGQLIVVVLIVASILAWTVMVSKYRELQNAQRSS
+DRFIAAFRREAHPLAMFLRSQKFSESPLYRVYEAGCTALGAEVGETGRAPELLLDEDRIR
+RIELSSLQVEVIRRVTERTVADQALVLESRMGHLMTAVSASPMLGLLGTVWGVLDAFGAM
+AVKGMANLSAVAPGISGALLTTVVGLLVALPSSIGYNMLAGRIRTLAVQMDNFSQEFVAE
+IQRAFSRG
+>tr|A0A1W9LHL0|A0A1W9LHL0_9BACT
+MTIGLVILFALLGAPIFAVFGGLAFEVYARDGIASSLIISELNRLATMPLLRTLPMFALG
+GYLLAESRAPERLLRLSRAAFGWLPGGMPAMAVVACTLFTAFTGASGVTIVALGGLLLPA
+LRSEGYGERFSMGLVTSGGNLGVLFVPSLPLILYGIIANPVESSVTMDRLFLAGLLPGLL
+GLLALGLYGAWAARRRGVARTPFSMRELGSAFWAARWEAPLPALVLAGIYSGRLVLSDAA
+VVTAAYALIVECLILREVRLRDLGRIARDAMMLVGGVLIILGMGMAITNWLIDQEVPQQV
+LAAVRTHIDSPVTFLLMLNLFLLLVGCAMDIYTATIVIVPLLLPLGKAYGVDPVHLGIIF
+LANLAIGYCTPPVGMNLFIAAIRFDRPLLSLARASLPFIAVLLAVLAVITYVPWLSLALK
+P
+>tr|A0A1W9LCN9|A0A1W9LCN9_9BACT
+YPKLLGELAEEFRDYATRGGQGFVSTHSPDFLNAVQLEEVFWLVKENGYTVIKRAREDKQ
+IAAYMADGDQMGYLWKQGFFEGAHPQ
+>tr|A0A1W9LES5|A0A1W9LES5_9BACT
+MTHTVFSVPVDLPVCPPTDEGSRDAQALFHILIAIGLAWAVAVVWRRLRARRPPSRLRP
+>tr|A0A1W9L902|A0A1W9L902_9BACT
+MVRDAVDKRMAAMAPLPRMFQPSSTWRLAGILRLASSSQLTLEVVELSDSAVRVQGMSPN
+RDACGRVDDFLRLEGYRTEMRRSDESAEGRVPFTIQGERT
+>tr|A0A1W9L803|A0A1W9L803_9BACT
+MRICFLTAVSAALLAVAAHAAPPSCSNCAVRLTEDYAWVIGSSDFSNVAGRVDSASTYRW
+IVNGTTRVAGAVGEGLYLGFENSLRGAAGETPVRSNNTGFATGRWGSALQLATNGRLTYT
+RSGNLPLDEGAVELWIVPRLDGTDPAYTSVWQTFLHYRATNGDDAAVAQSDDTGVIYAGG
+SVSGEWQSAYSGSASMHSWTSGEWHHVVYTYSSTGNFMRLYLDGRLTA
+>tr|A0A1W9LDY6|A0A1W9LDY6_9BACT
+MQDFEKLGVFYLGRETADAGGAEGNLVLYDSKDLTTHAVIVGMTGSGKTGLGIGLLEEAA
+IDGVPAIAIDPKGDLGNLLLSFPELRPEDFRPWVDEGEAARKGATPDEFAARTAQTWREG
+LSTWGQDGARIRRFRDAVDLAIYTPGNASGRPLQVLKSLGAPPQALLADSSALRDRIQST
+VSGLLGLLGADADPVQSREHILLSTILDDAWRAGRNLDLPGLIREIQKPPFAAVGVFDLE
+TFFPAKDRLGLAMGLNNLVASPGFSAWMEGEPLDVQRLLHTPEGKPRLSVLSIAHLSDAE
+RMFFVTILLGEILVWARAQPGTSSLRAILYMDEIFGYFPPTANPPSKTPMLTLLKQARAY
+GLGVVLSTQNPVDLDYKGLSNAGTWFIGRLQTARDKERVIEGIEGATAGAEFDRPEMERI
+LAGLGNRVFLMRNVHEDAMAVFETRWTLSYLRGPLTLPQVRSLCAGAAARIAPAGAPPAA
+TPAPAAGASSGAAKPAVPPGTPEYFLKPTKAAGALVYRPMAAGASKLHFVDAGSDVDAWV
+PFAHLAPLSDDGSGVMWEEATARPEWSAGLDPQPRAGAGFKDLPGAPGPKAVAAWKDSLE
+DHLHQNVTLDLFAAPSLKMVSAPGETLGDFTVRFTQALRERRDAEVAALRGKYEAKLRTM
+QDRVARAEDRHEREKSQAGQQVLQAAVSLGATVLGALFSRKAFSVGTVGRAATTMRSAGR
+IGKEREDAARAAESIEVARQRLAELEEELEREIAALQDRHEPSSARVETIHIRPRKSDIA
+VGAVGIAWVPWTTAPDGMPEPAF
+>tr|A0A1W9LE60|A0A1W9LE60_9BACT
+MQTIRWTAVVCAVAAATAGAGESISLRSGDAALDLAPATGCIARFADAASGTVLWHGTGE
+MSVFRLTVVPPGGDAAKPRELTARDAGAIRREAAATGAAFRYERLGGLDLAALCTVEPAA
+PGFFRFRIRIEGATGAVVERVVHPILPWRAPLEGAGAGDRLVLGTTKGGVFERPQQWRPG
+QSVSASQPGSLAAQFGCAYDPGGGLVTWSEDPAGHPKSLVATRTGDGVTLGWMRPVLHNL
+ATPLEPAFPVVAGVFRGAAGAASDWRDAAALYKTWALTQPWCARTLDRRADLPAWLRDGP
+AQVRFGREWLAHPERIEAWLDGYWRKHFDGVPLIVTFWGWEGVGTWAPPDYFPPYPSEEG
+FKRCTEAVRRAGGHVFLWPSGYQWCRTYSKKPDGTFEWDGRERFEREAAPHAIVKRDGSF
+LTATSSWYRGGEAATLCRGDTWTRAWFAGLADGSVRRGAELFQIDQVVGAAMYGGGDCRA
+TTHGHPPGPGLWDTLAAHRQMEELHAAARKAGGRLVLGFEEPQELFLQAVGIQDYRDYEV
+VGKPWLPGHSLESVFGHVYHEFVPLFQSNPRATDRDMTAHCMVSGQMPHLVPHWPLDPAP
+VLSNGGFEDWSGDAPAGWDRVEGWQNRVYAGRPARDAEVRHGGDASLRIEHATNGVITQV
+SRNVTVGPAGLVPGRRYRLSAWLKTGSLARPTSIGIAALGTGLVSRGSWQLPFPAPGDWR
+EVSAEIEPQTNAVVIRMMIHVEGACRVWVDDVCLSEILADGAARPLMHDGLPPQHDLYRQ
+WVALYHGKGQPFLQMGVSLPPPVADPPGALALGAFRAPDGREAIIAVNASGTPHTATLRR
+AGEEHRVEFGPWEVKLVYGRKIR
+>tr|A0A1W9L8G3|A0A1W9L8G3_9BACT
+MWKTASILVGVVCVLVTLGIVMLTSTSGIRGETQFSDAAYFLKRQVAWLVLGIIVAFAAA
+ALDYRYWRTLALPLTLFSIALLVMVLIPGVGHTIKGSRRWLVYGQPSELAKFAAVVFLAW
+WMSRIQRHAAELKLGLVVPLGGLGIMLGLIFVEPDFGTTMLVGVVGFTLMFIGGTRFGYL
+AIAGAIGLTGFTLAVMQNAERMRRITAFLNPEKYARDEAFQLLNAIYAFVVGGPYGVGLG
+QSLQKHFYLPEAHTDFIFAIIGEELGLPVSIGVVLMFVGVLLCGIRISFRAPDQFGKLLG
+FGLTLMLTAQAVINIGVVTGSMPTKGLPLPFISFGGSSLVVSLLMIGVLVNIARQSGSDS
+GDGEAQFFRDAAHRL
+>tr|A0A1W9LD08|A0A1W9LD08_9BACT
+MPFDPVLNSEQLWSNPASPIVDLAPEGCFDWVSAARDSARYPAYADCPQLTFLGRRIFEA
+NLRVRENRPVAFEISLYNRGDSGTMKKEEFAALTASIATNLDAWAGAASVTQST
+>tr|A0A1W9LFL5|A0A1W9LFL5_9BACT
+MKQPVLIQGDCMKEMGRLADNSLHAVCTDPPYGLLEFSPDEVAKLRAGKGGVWRLPPKWD
+GCERRPLPRFTILSQEQKKEIESFFRGWALVLLPKLRPGAHVLIAGNPVLQMYVQNALVS
+EGFENRGTILRLYHGFRGGDRPKNAEREFPDVCVTPRGNFEPWMLFRKRISERTVAENLR
+KWDTGGLRMLEGGKPLPDAIPSFKTPARERQIADHPSLKPQHFLRILVRSLLPCGRGVVL
+DPFMGSGSTIAAAMAIGYDASGIEIDPAFYALAKKAVAPLSALYPGMKGATLENCQANGA
+SEEYEEQLVLLESRGRYSV
+>tr|A0A1W9L813|A0A1W9L813_9BACT
+MTWKAATGLARPRQWTKNLTLFVGLLFARRMMDGPSVLLALQAFVAFCLASSAAYVFNDI
+LDREADRLHPRKACRPLASGAIGPGEAGVLAVILATVALALGWLGGERLAIALAAYLLLQ
+AAYNLKLKHVPTLEVFVLAAGFVIRVATGAWILAVEVSPWLLLCTMNLALFLALAKRRNE
+LTEMEADAGAHRKVLDSYSPHLLDQMISIVASATVVTYSLYTLADQTVEKYGSTHMIWTT
+PFVIFGVFRYLYLIHQKQLGGSPEWVLLTDKPILATVVLWAAAAATIVYL
+>tr|A0A1W9LGQ6|A0A1W9LGQ6_9BACT
+MLTIPTRDSAHMWYMRTSAFRTSSVAGMSFGLYGMVVDSSCVGLRSQCPATAGSSGRLHV
+PRFSRVLAPGYTARSAIRPFTTRARKSHVPSFTPRSSAYQKLSPSRFQSVTGLPPYSTVA
+AVRKPPGAHAPFNRLRV
+>tr|A0A1W9L8W1|A0A1W9L8W1_9BACT
+MTPSGPCIISTPSGARAVPGGLFTRASAELLGSLVARELKARYKGSVFGFLWALLVPLFM
+AFIYVVFLRLLVGRGVSVESVIVGVFAWQYTVQCVQGGMVSITANANLVKKVFFPRVLLP
+VAVTAANLVNFLLSLVVQYAVLLVLAAMGGPGLGGAWWALPAAIAWLTVFNLAMALLLAG
+ANVHFRDTQHLVGVLMSAWFFVSPVMYDLSFLEPFAAQRPWLMPLVWLNPMTGLLTAARA
+CVLPGVEFPWTVWSVAGLAIPGILLAAGAIAFRRARRHFADVL
+>tr|A0A1W9L8V8|A0A1W9L8V8_9BACT
+MGDFRMSLADVVFVISRSSLHLWLKIWHRYEVRGAENVPQTGGCLIASNHTSYIDPAAVS
+CGTRKRRAWFLARDTLYGGRKFFFDAFHCIPLNREHGEVAALRKSIQMLKDGHMLALFPE
+GTRSLDGRLQPGQSGIGFIVVKAGQPVVPALVQGAFEAYPKGAKWVRPIKVRVTYGKPIL
+PDEFAALGGGRDHYARVSRLIMERIAALGPVPPPPAAAG
+>tr|A0A1W9LCQ8|A0A1W9LCQ8_9BACT
+MTSCDTNILFHAACPRSPLHAKALAFVAAHASDRDFAICELALVEFYGLLRNPALLERPL
+SPAEAVALVQGYRRNRFWRVLDYPGNLMNDLWIRAAKPGFARRRIYDARLALTLRHHGVD
+SFATRNLTDFEGYGFPRLWDPLTEA
+>tr|A0A1W9LDG8|A0A1W9LDG8_9BACT
+MHDGQASDPRTGAVTVPVYQTSTYEQDGIGKPRGFEYSRTGNPTRQALEESLASLESGQH
+GLAFASGVAASTAVLQLLRPGDHLVAGDDIYGGSYRLFERVFKPWGIQTSYADATSVASF
+AQAITEKTRLIWVETPTNPLLKIVDVQALAALARE
+>tr|A0A1W9LF95|A0A1W9LF95_9BACT
+MAIALVGLFAILEYCLIPKGKDGWIDGAVLLLGYWTVAAVTLLPITLWTCVSIHAHNQKR
+LTRSMQMLVHSLIAIAALVAPRILIPWIYGLK
+>tr|A0A1W9LE47|A0A1W9LE47_9BACT
+MRPDPNKPTAAEPASVEDCITADGVVAKVLPATMYRVKLSNGHEILAHISGKMRKHFIRI
+TNGDRVTVEISPYDLTKGRITFRHRN
+>tr|A0A1W9LFC0|A0A1W9LFC0_9BACT
+MHLPSINACVLFFASRWRLDGLPTYALLAGIAEDPDELETAPTGSLLIDALRLMAEIDPQ
+RRAPGFRSAGRIRRFHEAIVREHREMLARREREKASEARRRIQRSLAEDRRLASQGRGPT
+DLPRPPVAGTETIVPLATAGDLDQESAQQSNCAATMAGDVRAGRYYLYRVLSPSRATVAL
+AMGPDARWRVEQIRGPRNTEAPPETRRAVERWLDRAQRSL
+>tr|A0A1W9LDJ4|A0A1W9LDJ4_9BACT
+MRSGVNIRGAGWIGPREHGRVRKGIRAAHADGADLNTIWKGDPVFARHAKNFGRFDAASR
+VAYYAAALALDDAGWGDPPADGQGLGMVGTGAAGCLASNLDYFKDYVSCGRTLARGNLFV
+YTLPTSPLAEAAIHFGLEGPLLYALSPERPLAAALEMAAGMIRRGEAAGMLVMEFADGGR
+DGARPSKEPLEGRPPLAVKSARDEPCRPMPCEALCAVLSAQAGVPVEQATEGSQTDVVAA
+WERAFRTGDL
+>tr|A0A1W9LDM8|A0A1W9LDM8_9BACT
+MKAVVAGADIVTAYGWGVAPCWQGLLSGRSAITRVDRFGARAFQSPNAGIVRDLDPAAAD
+SLVLQMLKPLIARAAGGIPADAFLLLATTVGEVDLLERFVLNGSGQPEDSRPDRLLAKVG
+RLYGAREPGAVVSAACASSTTAIAQAAALIRDGARDAVLVVACDAVTEFVFAGFSSLMAL
+DPERARPFDRARRGLSVGEAAGYILIESDERARREGRAVRGEVAGWGLSNDANHRTGPSR
+DGRGLAVAVRKALESAGVSAADIGSISAHGTGTVYNDAMELKAFRQLFDSPRPAYSIKGG
+TGHTMGATGLVEVVVALESLREQVVPPTVNLREADDEAKGWASAEAVKLAGTRAQLSVNA
+GFGGVNAALVVKRGPDA
+>tr|A0A1W9LAC6|A0A1W9LAC6_9BACT
+MKGKNTLVWETCPAPANARGPATYSVTWHGGMGYFAEPPGSFELYVDGAKALDIPAISEK
+DATWSSPDGTVVLKYARAPLLAESGVFTLSMPSSRVTPGRPLRLKAVGSDANSRRWFGVY
+STPGSEPRTRNPERRTRNGDPAGISLVDSARFPIMQAGLIVRRARGAGS
+>tr|A0A1W9LDC0|A0A1W9LDC0_9BACT
+MSAVDSSVLLDVLVAADRKRADASESLLRRASGEGRLIACECVVAEVLPALESAARMREF
+MADWRLDFIASETEDALLAGECFARHLKRGGRAGRVLPDFLIGAHAIRHAERLLARDRGY
+LRDYFKGLTVLAV
+>tr|A0A1W9L9P0|A0A1W9L9P0_9BACT
+MKRAHLLVLFGVVAVIQLAVPASMIVGRERTLRTGELFKFKTAPVDPFDAFRGRFVAVRV
+EQSTAPRGAETNLAVGTKVCAAVGVDTNGFAVLTGVTVKPPADGAYIRAPVVWSSDTNVT
+VALPLDRFYMNEKLAPQAEAAYREHAVASGPRDAWLAVRVRSGQAVIEDLYLGDRRILEV
+LTAKP
+>tr|A0A1W9L9K7|A0A1W9L9K7_9BACT
+IGRISFATPDRDLNNWLSWVTFQPMLRRIYGNSYLPQFDYGRGGKGWRDLWQDGLALLLS
+DPDSVRPMLLHNFGGVRIDGSNATIIGRGGAFIADRNNIPRTWMDHGVWPTYTTLLYVDQ
+TGDLAFLLREREYFRDPQIRRCRQRDVRWTEAYGNQLRARNPAKRGASGKIYRGTVLEHM
+LVQNLTAFCNVGAHGLCRLEGADWNDGLDMAAERGESVAFSAFYAWNLDRLADYLEAMDR
+GGTHNLLLAKELLMLLGPGQAKRARLEAYLDVVARDVSGQKSAVRTDELARDLRAKSRDL
+ASRIRRQEWLKAGRGPVFFNSYYDNRGRRTEGRRGGNVRLMLTGQVFPLMAGIATEEQTD
+RIIESVRGLLKDPRTGGVRLNTDFGGTQPDLGRAFSFAYGEKENGAVFSHMAVMYAFALY
+LRRRSRAGREVWTALYRMAMDSWTARIFPCVPEYFNADGRGMYSFLTGSASWLIYLVLTR
+VFGIRGELGDLVLDPQLEKPDFDAKGECAVRTFFAGKPIHVTFVNPDRLSAGRYRVSEVR
+AGRRRLPMTALAGGGVRLARAGFRAFPSDRDTHLVVRLAQAR
+>tr|A0A1W9LB85|A0A1W9LB85_9BACT
+MAVPKRRKSKSRKQMRIKSHKKAMPALSKCRQCGAPTQPHRICPACGYYAKRQVLSITAD
+>tr|A0A1W9LDL0|A0A1W9LDL0_9BACT
+MNTLRPYELVPLDTLFFRDARPMQAGAGSGGHGAKWPLPTVVHEALRASLLGHVGAALKP
+GEARGHFRHGRRPFIVTEEFRGLRIRGPFPVKEEDARDTFYLPWPKDLAFDAADKEDASC
+RRLVRLAPLASANGSSDLPQWLRPAAASSRTGKDTPPDWISMERFVSALSLGVPSPLPGG
+GPLFDSEHRIGIEIDDDKGSAKEGQFYSAEHLRLRPGVRLWFGASIEGNAQENHDMSDLG
+ALLGETVTLGGESRQCRVLGGSDLPAIPTPPNGSQRIKWVLATHAVFNGGWRPNWISPND
+GRVLLKKGDLCRPAGSDRKSWRTRVRGLPDIRAKLVSAVVSKPVFFSGWDASLPNGEGKS
+SGGPKPTLLAAPAGSVYFFEAESPEDGDALVRALHARNQSDFLGEKGMGLGYCGVWDCMP
+DVR
+>tr|A0A1W9L9N2|A0A1W9L9N2_9BACT
+MKTSGVEDAAPGGWIRIQGAREHNLKNISVRIPRDRLTVITGLSGSGKSSLAFDTLYAEG
+RRKYVESLSAYARQFLGQMQKPEVDAIDGLSPAISIEQRTAGANPRSIVATTTEIHDHLR
+LLFAHVGTPHCWKCGRPIARQSAEQIVGQLLQQPEGTRLTLFAPRVAGRKGKHEDVLEEI
+RKQGFVRVRIDGEVRDLDDLPAVDGKRKHTIDAVVARLVVSAASASRLTDSVETALRTGD
+GRLIAGIAPPAGGEAREILFSERNACADCGLSFETLAPRSFSFNSPYGACPTCHGLGAMD
+VFDEDLIVPDADLSIDDGAIQAWRRGGRRLLIYYKGLLRALMKHFEIDPAMPYRDLPEKF
+RRVLMHGSGDENIGFGFWRGGAWHRYSKPFEGVIPNLERRMKETDSDYVRDRLRTYMSRQ
+PCTGCKGARLRPESLACTLAGTPIIGVMRMSVAEADRWIGGLELTPTQAHIAREIVKEIR
+QRLRFLVDVGLDYLTLDRESGTLSGGEAQRIRLATQIGAGLVGVLYVLDEPSIGLHHRDN
+RRLIATLQRLRDLGNTVVVVEHDEQTIREADWVIDLGPAAGRHGGEVVFQGAVPDLLAAP
+SLTARYLRGETRIEVPAQRLPPDQGWIEIVGAAENNLKGVTARIPLGLFVCVTGVSGSGK
+STLVDDILRRALARHFHGARERPGRHKRIAGLDRIDKMIVIDQSPIGRTPRSNPATYTGA
+FTLVRDLFAHLPASKVRGYRPGRYSFNVKGGRCETCKGDGILKVEMHFLPDVYVTCEQCG
+GKRYNRETLEVRYGGKSIADVLDLTIDEALDFFRSVPSIERKIRTLSEVGLGYLQLGQPA
+TTLSGGEAQRVKLSSELSRRDTGRTLYILDEPTTGLHFDDVRRLMQVLERLRTAGNTVLV
+IEHNLDVIKRADWIVDLGPEGGDAGGRIVAVGTPEEVAASDASHTGRALREVLGPATKRS
+G
+>tr|A0A1W9LE63|A0A1W9LE63_9BACT
+MTRTRQSLAHILTVAMAWVAATAPAGTRGPVVTIDGMVVDLLDSKSEPGIGAPNLAVNMD
+AMAGRIVPRTLDAPPPTPPEREQAQRHYARAIDYLKQSDLPKASLEVRDGLTYAPDEVRL
+LGLAAVLASQSRDFDAAAGYFRRCLELEPGNLQHLASFVAVLLRLSRMEEADRVLAGGEA
+VAPDFMAFRFHRACLQIAADRFQPARAYWAQRPIDEVLTATQWLQADRPDLAKIIGAGGV
+DRLTEDVLGPRTSLSIDRIQAALDAASTARTAQKWPDAVKNLREVATLGVAGYGVRTALA
+EALEMAGDRTAAIAEWRRILTDHGGLVQVWVSFGHVLLRGARFDEALPVIRRAKELAPNE
+PVIDFLHASALALTGKIAEAQALYADLVARHPRDLRKWIESDAVFEAALERLPNRTAILR
+RLDVPPEME
+>tr|A0A1W9LC26|A0A1W9LC26_9BACT
+MRVPISACIICFNEERKIRRCIESVRWCAEIVVLDSFSTDRTVATCREYTDRVFQHEWLG
+YVGQRNLVREMAREPWVLFLDSDEEVSPGLRDEILGEFERGPGTTVGYEFPRMVRYLGRW
+IRHGEWYPDVKLRLFHREHGRTEGQEPHDHVVVNGPVRRLRNPLWHYTYDDVEDHMVTLN
+RFSTITAQQKFVSDAPFRWRDLLFRPAFRFIKGYFLRGGFLDGSHGFMIACLAAMGAALK
+YIKLWELHVRVRHETDVSKEPPRPGFGK
+>tr|A0A1W9LFU9|A0A1W9LFU9_9BACT
+MRMKTRWIPVLCTLAAVVTAPAADWIPLFNGRDLEGWMAPTNPGAFSVRNGAIVSGGPKA
+HLFYTGTVCNADFRNFEFSAEVMTRDGANSGVFFHTSPEACALLTHGFEVQVDNTVRPDD
+GTGAYRELKKTGSLYAIRNVYKPMARDGEWFTLRFSVVGKRIRTWVNDTLLVDFTEPTPA
+VPPTGRPGRVLGHGTFALQCHEPDTRTHFRNLRVRSLPDDASDPAPGPAPLVNDAYRQML
+ELQAANFPLMNLHVHLKGGLTLDRALETSRATGIGYGIAINLGHGFPTTNDAALLAYLDS
+FKGQPCFVGMQAEGREWVDLVSKEVVAKFDYVFTDSMTWTDNRGKRMRLWIPEEVDIPDK
+QEFMETLVARAVGIFENEPIDLYVNPTYLPPGIAGEYDALWTPERMRRVVDAAVKNGVAI
+EINGKSRLPSPAFLRLARAAGAKFSFGTNNRDPDIGDLQYCLDMARELKLTWKDMFVPKP
+DGRKPVQARGRWRIADGR
+>tr|A0A1W9LDT2|A0A1W9LDT2_9BACT
+MQPSGIKIVGRRPPRAAADPAEFRARAQRLQEHADRLNPYPKPRGFVFCARTWADYEAWR
+TSQPNPRLW
+>tr|A0A1W9LF16|A0A1W9LF16_9BACT
+MTLVDTTVWIDVFRGTGTAQVQELDVALLHNDRDFDAIASLGELKIVETEKPTTPRPLRR
+VPRRKRR
+>tr|A0A1W9L896|A0A1W9L896_9BACT
+MMAKCPECSGRIGYGALCTHSAFTPITCAKCGATLHYDNRSWFRIGTPVMLPIAALIVTT
+LCGLRSLWVQVPLMALLCILLVKLILAVRTVELVVKGKKHV
+>tr|A0A1W9LCV2|A0A1W9LCV2_9BACT
+MRTEGMAMGASVACPACSAALTVPNGDFAPGTRIAGFEIVRPLGKGGMGEVYLARQMSMG
+REIALKILSAEFAAQPGAVERFLKEVQVAARLEHPHIVTAYDAGEDDGLYYMAMHYIPGQ
+SLAAILGPGVVLAERDALSMTRKLAHALDHAWTRFHIIHRDINPGNILFDADGEPKLAER
+MASAARRYRNAGREAMEMTARAESEGKQKETETLAAVADAASEGDFAKARQVCGVFLDDA
+SVTIDKDRIRRIAAWMEQADSADRMLLSTFEAQKGTSVQLMLDGAKTEVRIAGVQGDRIR
+IDRRKGMGWVSAELTPAQIPFEEQCARLKDKIDPAALGIRAGAAMMRARRPDLAAPYFQG
+AG
+>tr|A0A1W9LCX3|A0A1W9LCX3_9BACT
+FDYFQLTEVVGGLAVPGTIQIENFDAGGEGVAYHDTTVANEGGAYRPTERVDIAASTGAS
+NGYLVGWTKLGEWLKYTVNVAVPGLHIVRIRVASLLAGGTFHIEQDNVNVSGTLTVPNTG
+GWFTWTTVTGQVNLTAGVHVLKLVMDAVGVTTFVGNFDQMTLVGPPAVAPEARSVSSRAI
+INALHSPSAPSTGLTRSWLVDVRTSDDVEPDEAGWAAVDGDATTAWVGQAGAGGWWLAMA
+YGRVLSVRSVDILFGEDSLTNSMVLFSEDADQWTNLKDVPAGSAAAARYLWLIMPDDGSG
+AVPSLQEINVK
+>tr|A0A1W9LBS0|A0A1W9LBS0_9BACT
+MAKYLFITGGVVSSLGKGLTSASLGRLLINRGLTIRMLKVDPYLNVDPGTMSPYQHGEVY
+VTEDGAETDLDLGHYERFTGQPTSRKSNFTAGRIYWEVLKKERRGDYLGGTVQMIPHITD
+EIKTHIRALDEKGVDIVLVEIGGTVGDIEGLTFLEAIRQIGLEEGRDNVMYIHLTYVPFI
+KAAGEVKTKPSQQSVAKLREIGVVPDVLICRSEVELPEDVRKKLSLFCNVPLHAVIQEKD
+VDHTIYELPLVLSEQGLDEIILVHFRLAKPAVRLTQWRKLVDTIINPKQSVRIAVVGKYS
+ELQDAYKSIFEAIYHGGFAHAAKVEIVKIAAEDIEDGKGLDELAKVDGILVPGGFGTRGI
+EGKVMAIRHARENGVPFLGICLGLQCAVIEFARDVCGLAGAQTTEIEKDTPHPVVCLMEE
+QEKVVDLGGTMRLGAWPCVLKKGTKAAAAYGAEKISERHRHRYEVNNKYRAALEEKGMVL
+SGLSPDNHLVEMIELADHPWFVATQAHPEFKSQPLVPHPLFKAFVGAALARKEKSKS
+>tr|A0A1W9LAN0|A0A1W9LAN0_9BACT
+MKDGKYVILYVDDDQDYLDTVRVILESGGYVMAEAHSAEEGLKTYKTVKPDLLLLDLMME
+EVDSGTGMIKELRLLNNKAPIFIMSSAGDQLNMVTSYADLGLDGIFQKPVDPKVLLHTLK
+EKLVKAG
+>tr|A0A1W9LEL4|A0A1W9LEL4_9BACT
+MPVETLRKRRDTLLRQLAQVGPFVEGSIVRLPHPSCAHVAHRLTFKVRGQTKAVYVPVDL
+VKEVELWHRNYKRLKKLVRRITKASLAILHRHVPEKRGARPRRRARKQT
+>tr|A0A1W9LEG6|A0A1W9LEG6_9BACT
+MAEELKHLIERIQKEAVDKAEKDAAQIVALAKEKAAAAVKDAEAKAKAILEKAEKDSVVF
+VERSQRTLEQSARDLLITVGQGIENILEDIVGEAVTGAMDSETLKQMMLKIAQCYCERGG
+AESRIEFLIDEKDQSQIVQYFADQYRQHLVQGLTIRAESGILGGFRVALKDGQIYHEFTK
+PAIAEALCNFLRPHLAEIVHRAARGAGDSEGAKS
+>tr|A0A1W9LF93|A0A1W9LF93_9BACT
+MKSGIDTKSHDLCRTIRRLGACAGLVAAFALPAAARAESPLAPLAREYAADAESLSSFYN
+SRWMDARLDRMEKFHAGWLARLADVDFAALDATGRVDYVLLRNDCEQSLARLALECRRLK
+EIEPLVGFRGAIFDLEQARWRAEPVDGPVAASRLSAIAKDVKRLREGVVNGLKTKAGKPD
+GVKPPDTKPANAAASTNDAPPIAIEPAPALRAAGVVADVKGVLKRWYEAQSGYQPDFAWW
+MKTPYEAAAKELDEFAKALKEEVAGQKGKDEDPLVGEPLGPGDLADALRFEFLPQTADEL
+IAIAGREIAACETALKAAAKAMKCGDDWKAALAKVKADYVPPGQQDALVAAIGREAIEFT
+RRKAFATVPPLCEETWRMAMLSPEAIRTVPYAAYASQEMLVAFAREDMKQEDKLMVMRGN
+NRHATRLTTPHELVPGHHLQIYQAARHSAHRRAFGTAFFIEGWALYCERRLWDLGWARSP
+EERLGMLFWRMNRAARVVVALRFHLGQMKPDEMVAFMVDRVGHEKLGATSEVRRFVGPMG
+ELQPASYMVGCFQLLALRAEMTGRGKWGEMPFNDALLRAGPIAVELMRAELRDLPLARDA
+KPSWRWDAEPAGT
+>tr|A0A1W9LCU7|A0A1W9LCU7_9BACT
+MAADRHTTRGPPMKPLLRRGLEYALVWGIALAIYVGNHSCGSSGDTVPARVLPISMLKEH
+DLDMDEFQPHIISGKRYCMVRVGDRWLSSYPLGPAFTALPVYAAAYLIVPDLYGSRMDSY
+YEDDGSDEDHPVANAMEKASAAIVAALSAMVLWMIARRQAGLWASLWVTGAYAFGTSVMS
+SASQGLWTHGPSCLSLLLMLFFLLEPERKASSMLLAGLAAGWAFFCRPTNAVPIAILAAW
+VLLNERRRVLWFILGVLLVAAPTYHLYLHLYGTALGGNSARGATFNGFHLRVLMGLLFSP
+SRGLFVFSPFLLFGLAAGVAILLRKPREVAAGCAVAAGAYVVLYACRTLWGGGFSFGPRL
+LCDVVPFLMIPLLAGFEAVRRHRAVFALFAISVAFSILVHVLGAYGGEHGWNGRVYERQR
+DAQLWQVRDSQIVWTLFGRPDRAE
+>tr|A0A1W9LHA2|A0A1W9LHA2_9BACT
+MNRSMLSAGLLAAACAVSGCQSAYYGAMEKLGYEKRDLLVGDVKKARGAQDDAKKQFASA
+LEEFTSVLGSPGGELEAKYSSASLRQSSEDRLRATERRYDDLMVAMKRAESRMEPVLKVL
+RDQVLFLKHNLNAQAIASIKNEIGRVGADVSALVTEMEIAIAEADKFIAAMPQS
+>tr|A0A1W9LCQ6|A0A1W9LCQ6_9BACT
+MYLAHWNLREEPFQNVTDSRFAYLSDQHQEGLARLIYLVKGRKLGGALIGPYGVGKSMVL
+EMLAQNVATIPGCRFVRFDVPPGGSSGLARQVFWSMETGRTYEDVASVLETVRGLIANPK
+SGFQHTVLAIDEAQLIRESDSLDFLHLLTNFRLTGRPDHPDSPAFTVILAGHEQLAALIA
+RETALRQRLSMIWHLEPLNERQTIEYVESRMRAAGGDIWVFEENALAEVAAASKGIPRMI
+NNMCDVALMMGFALKATKISLSIMQQAVAEVRQPMGIGDDTGAPEGDKV
+>tr|A0A1W9LHE8|A0A1W9LHE8_9BACT
+MKKDIHPDYGPATITCACGHVAKTQSTVKEMHINTCSKCHPFFSGHAKLMDTEGRVDRFL
+KRYAAPKK
+>tr|A0A1W9LA09|A0A1W9LA09_9BACT
+MKTLKDIPDSDIRGSLPALRRAARAARELALRTRTPLYVWKDGRVVDALAPRRRGRTASP
+>tr|A0A1W9LGS9|A0A1W9LGS9_9BACT
+MIAVDTNILVHAHREECANHKVSLAALRHLAAGVVPWGLPVFALGEFVRVVTHPRLFSPP
+STVRDAFRSVRGLLDCPSCRVLSPGQHFVSHFENMCDEGGMTGNLVFDAQIAAVCIEHGA
+TDILTFDRDFRRIPGIRIVKPETLL
+>tr|A0A1W9L9F4|A0A1W9L9F4_9BACT
+MLGASSFGATFSVGTVPQLESALASAKANGEDDVINVAPGTYYLDSTLTYHAPTNENRTL
+TVQCPDGGAVIDAGTIYIGTMRGLYITTTGTAAHVTLSGLTVQNGLISSPDMGAGLFIRT
+RWGNISLSNCVIRNNKATELFNAVNAAGAYLGVNSAIGCITVRDCLFSNNYAKGIGGGLY
+MMPAYGTSNSLINNLFVTNSGSTQGGGAYISLAAGTLTLDNNTFTRNWTGVGFGGGGVYI
+RLFNDDCTANLRNNILWGNTADNGIGGDLYIEDDSGGNSIGATVNVYCTDINDFDIQDGD
+HLTQGGNTNADPLLTGDLHLRAASPCIDAGTNLAWMAGATDLDGQPRVFNDRVDMGADET
+AIAAVNFAVSGTATSVWDAVVDAKCRLQYSTNLLSGEWKDAGNTATATSRRITLIDTNLT
+DAVRLYSLKWLRP
+>tr|A0A1W9LAQ6|A0A1W9LAQ6_9BACT
+MGALGGGGGPRMSAHLAEARDDLRALFRHAGGVARRYAATLGLIAVAVATFVVLVWPADP
+GFSVAVYDHTSGEIRNAARAVRRWGSFTDTMVICGGLYAAGRLRRRRGWRVAAIAAFTAA
+CVGCVFGAAARRRLRELRVLDPRLQ
+>tr|A0A1W9L903|A0A1W9L903_9BACT
+FSLNGKESFLYSGEVHYFRIPTQYWEKHFRALADAGCNAVSTYVPWSWHEFEEGRCDLTG
+RTHPERDIAGYVDLARKYNLFVTLKPGPYVMAETTDQGIPAWLTRDYPDTRALDEHGNPW
+GSAFIAFASETFRKKAARWLQHFSREIVVPRQSLQRGAVIMMQLCNEIGMFQWLGARGDY
+SPSNLAAWQHFLKKHYPDIRALAGLLDREIHNYAEVTPPHDFCDTRRDFVLYRIWHDFHR
+WLYGDYVKYLSHTLRDAGVTVPFFTNVGGWVFGRAHEFSLNGTFHRESAKVAPDVLYGLD
+HIPEAVSTLNVHDGIVANQTAAELQRRHGPLYSAELQCGSREHGVQTYPSELGLFYRHCI
+IHGLTGMNFYMFSQGRNPKGRGSDGPLFYWYNAVNYKAQRQPTFPMIAELGEWLKHNGDM
+VVASQRPANLAVGFYPPLYETEFLVPILGKGTKLSASKLGLALDPVDFRNRAYFDGVLRI
+LTKKSVPFDFADLLIRPVRELLQYKTLVILSNDIMDAETQQKLVDYVRAGGKLVIFPMLP
+KYDLDFNPCRIMEKAFGYEVKHGGKSNRIYMDDLKDIPVPTLPWVMRDHGGKVLARDVNG
+EVVGIEKKVGKGTVRFFGFYVSYGIEEHPDLWSAMMELPEIPRNAWSKSDELHLEARFSG
+KEALLFAGNFHRMPVSAHVFVRNPRGKNPVDIGTVHMDSLNGLFLPIQTDVAPGLTLVFA
+HGELIERSKTRRRFSLRGPQNSKGVIALKSQKPVTSITVDGEPVKFKKAGQIIHAEYAQN
+GKTQVIEVR
+>tr|A0A1W9LE29|A0A1W9LE29_9BACT
+MMLHKEFREFLALLAGHKARHLVVGGYAVAVHGYPRYTGDLDVFIAMDPQTAEAVTAALL
+EFGFAASDVDASLFLEPNSIVEIGREPLKLHIMNAITGVDFVDAYAHRHTVQIDNLDVPF
+ISYEDLLTNKSATGRGKDRVDVEELKRRRASA
+>tr|A0A1W9LFX0|A0A1W9LFX0_9BACT
+MPVFVVVYAAVLAAAALLSATVGVVAFRRHAAGQSGWLAACMAAAAGWAAVAALEALVPT
+APLKIFLSKMQYAAVVSVAPSWLMFGLAYAGLRCPRPLARGSLLWIPSALTLLLVWTNEW
+HGWIWPWFGDPPAGRGPLVYGHGPAVAIFAAYSYLLTLAGTGLILRTAYRAPLSHRRHAV
+PIGIAALLPIVLNLSYLSDVTAEREAAEAIGRRDAILDAVRETATHWLRHPAWREGMQES
+LLRLGAAADASRAYIFQVQADPAGRMRMSQQYEWCAPGVPPQIGNPGLQRTTFATPGHAR
+WEARLASGQIHAARTRDLPPEERLELEQEGTRAILLVPIFVFERWWGFIGLDECRFDRVW
+SDAETGALRTAAGAFGAAIEREDMDTQRREGAERLRFIMDNIPGVLWAVDSSMNVTVLTG
+SALPAIGIASAPREPVPFDVLAAKAGLGIGSGERHRRALGGESIDYRLTLRGREFDCHLR
+PLHGPGATVTGAIGIALDVTERTADRTRTGQARHRRRAVRGGHPHHRSRRSDRVRQSRVR
+TGNRIQPRGGPRSDPGHPEERPPGRRVL
+>tr|A0A1W9LAF7|A0A1W9LAF7_9BACT
+MTGCVGRPNDRTSDGRVIVSYWEKWTGFEGDAMQAVVDDFNQSQDKIFVEKLTVSGIDRK
+MLLATAGGNPPDVAGLWSWAISTYSEKGALTPLDKLCAEAGISRTNYMPVFWDLCSHHGF
+IWALPSTPATVALHWNKKMFREAGLDPNTPPKTLAELEAMAEKLTVVDVPRKGKKVRTRF
+SELTPEEKEAKKFDIIQLGHSPAEPGWYAQMWCYWFGGRLWDGERTITADSPEMIETLDW
+YAGYTKKYGLRNIEAFGATFGNFSSPQNPFLAGQIAMVIQGVWMHNFITKYSPGMEWAAA
+PFPPKDPGKTPGVTVAECDILVIPKGARHPREAFEFMRYVNSQGPMEKLCLAQRKFSPLI
+ENSKEFVAKHPNPYIQVFIDLARSSNALYVPKLPIWNEYSEELGVAYNRAFSQIASTREA
+LDTVQQRAQWKLNRVMRRWDKVKDERIKEWSQ
+>tr|A0A1W9LCT8|A0A1W9LCT8_9BACT
+MNRIVAVNVGNTNTTAALMAGRRVMRRVVVPTRGATPASAARALARLRAGPVAGGIVASV
+VPRACRTWLRALATAGIAPVFEVSAGLDLGVRLDYPHPETLGADRLANLAGIAGRTGRPV
+ITIDAGTATTVDAVTAEGVFIGGA
+>tr|A0A1W9LA43|A0A1W9LA43_9BACT
+MSAFPHEALTFDDVSLITQFSDFLPPDADIRSRLTRRITLSIPFVSAAMDTVTEARMAIA
+IAMIGGIGIVHKNLSASEQADMVDAVKHHLNGLISEPVTFRDTDTLRTVREKCQKNGYTF
+TGFPILNAQGRLVGILTSRDVKFSHDPNAPIAGIMTRKVVTAAPGTTLQQAYEIMTRHRI
+GKLPLLKGRKLVGLYSYTDVQTLIRNVKPYYNRDAHYRLRVGAAVGPGDHVRVEALADKG
+VDVVVVDTAHGHSKGVIEMTRWVKKHYPDVDVIAGNIATGEAAIDLRQAGADAVKVGIGP
+GSICTTRVVAGVGVPQISAIYACAKALGDSIPVVADGGIRHSGDVPKALVAGANTVMMGA
+AMAGTDESPGEKIIHQGRQYVVYRGMGSLDAMRTREGSRERYGLGGAKDEDLVPQGIEGI
+VPYSGTVERVLGQFCGGLRASLGYCGCRTVEDLRRRGRFVRVSSAGVAEAHPHDIKITKE
+SPNYKS
+>tr|A0A1W9LF88|A0A1W9LF88_9BACT
+MIILTFLILSVLLAAGPARAQDEDASAQPSVTVPATNFVSRPAGTATDGGWTLSENGAIV
+SGLELSKAGTYTFILVARGRSALGQWPEAHVLLDSRTVFKTAVSSTNWGSYTFSQDLATG
+RHAAAISFQNASFEPPGDRNLTVASLTVVSPGNAPATAVLNAGDYDQFLLTRRDRWPAET
+DARIAEARQGKLTVWVAEANGRPATNTTVTVRQTRQDFLFGAALCTAMFEADATNEDART
+YREWTRRYFNHAVAENALNWPVYEPDRGKTNSAALDRMVDWCRSNNIPLRGHCVFWGCEL
+PDWVRALPAGALPPAIRQRVRGVLLHYADRVEEFDLINEPLHCPWFEEQLGPDVVGRMFS
+AAHAANPNAVLYTSDYGIVDGSEIDSYVQFLRGLKDAGVDLGGIGVQAYFEEDADPFAIT
+AAFDALASLNLPIKITEFDCASTNEEVQARCLETVLRAAFAHPAVTGFLLGGFWEPCREQ
+PGTALLNADFSKKPSGETYERLVLSNWWTHAEGRTDAVGRYECSAFFGDLVIEARTEDGR
+ATNAMLTIVRNGEQNLITLHLPAPPTNAPAEVVSEPEPKKAPEPVETNAPPEEPQAGSDD
+AVNW
+>tr|A0A1W9LDH2|A0A1W9LDH2_9BACT
+MFSPEFIGFKGHFPENPILPGVCQVQAALVAAEAWKKTAVTLREIVVAKFFAVAGPNEEL
+DFLCREQEKRLIASVRSGGKKVAELTLRIDGKDVRP
+>tr|A0A1W9LCY5|A0A1W9LCY5_9BACT
+MPQGRTGSGLIVKNGMRLGVVGAVALLQAATASAGLGALVAPDAQPAVLGSGYGFCEGPA
+ADGAGNVYFSDGRTNAIHRYTPGKPVALFTGDSFDANGMMFNANGELVVCEGAAFRVVAI
+DVKSGRRRVLAGGGTTREFNEPNDLAVDRQGGFYFTDPNYRHRGQPPVRKEDVYHVSPDG
+AVTCVSTVCKKPNGILLSPDGRTLYVADNGGKCIYRYDVTGPGRLANEKMWIDLGAGPDG
+LTLDARGNLYVACGPVGVKVHAPDGSPLGILAPGVYASNVVFGGPDFKTLFITSKDKFLG
+LPMKVEGVRPLPPAP
+>tr|A0A1W9LH15|A0A1W9LH15_9BACT
+MKTHSAVALMIGLVAGALLAGCMTPPDEEGLAGTDRQLERDIVSRLSQDPVTAGLSFGVN
+VDNGVVTLEGAVPTESARLRAIAIARGASDEGQNVVDKLSRVDKLSRW
+>tr|A0A1W9L8W2|A0A1W9L8W2_9BACT
+MKLVRLILLAVLGFTAAPAANAVEDGAAKLAIWCEFMPYRDVLKTLPALGRYHCDLLLHV
+GRNDIGSPDLSRVYRDAEAEGVEVIAWFLLPYDEHLYVGEGSVESTRALALDFADWATRE
+HLPARQVVFDCEPSPLLGRRLFAEVRRYSLLGLAQELRSEMDPAAFASSVESLNGLIDEL
+HARDLQVMGAANRVFLDFLDRGNTTFQDALNAPFTMIHWDRASFITYRYKAPQEGYIAMV
+NRYATLSRRFFGERAALDLGLLGDQRGMPEHLERAELFGGGDSFRDYLDGIRSVYDLQDA
+VGVALACGVRNINLYSLDGAVGSVAGLERWLRAASESRAAGGLARWTPVRSATLGAFSGL
+LNGLFASLVDRPFQRRYSRVPTM
+>tr|A0A1W9LFI5|A0A1W9LFI5_9BACT
+MDCPACKKPMAVLELENVEVDFCFACEGCWLDRGELGLILTGAPDVPEDLNLAGGKKSSR
+RCPRCNGRMRAGPAPGTDVEVDVCARHHGVWLDKGELQTIARERTGTQRANALADFVSNM
+FGGKKA
+>tr|A0A1W9LG02|A0A1W9LG02_9BACT
+MPVITAAVDPVTRIEGHLKVSVEVDTVGGVQQVVDVRTIGTLFRGFEKILENRDPRDAPI
+ITSRICGVCPTSHAQAAVLALDQACGVTAPAAGRILRNLIHGACYLESAILHFYLLSLPD
+FVHGPGMAPWQPGWDLGGRLDNATEGLFLGHYLQAIEIRRKCHEMGAIFGGKLPHTPAFI
+SGGITAVAKTAEVSQFQSYLNEILGFIREVYLADVERLASLYPEYFGIGRGYGNLLSFGA
+FELNDAGTQKFFAAGRALNGTTSVLPFDQAAITEHVTHSWYKNASNDMHPGTEDTQAQHP
+KSDAYSWLKAPRYSGVPYE
+>tr|A0A1W9L9F8|A0A1W9L9F8_9BACT
+MDLMQNLIRQRDALLKRLVAGGNFVKGSISRVCGTCARSRCICAKACATKAFRLTYKDAQ
+QKTHIVYIPRSRLAEMKRLIANHARVRTTLQQVIDTNIAIFKAGG
+>tr|A0A1W9LBC0|A0A1W9LBC0_9BACT
+MVLEWPATREDNMNGMRTWILAGVAVATASVAAPAAEAKGEPKGLPRCIEAQLKSGDAGA
+VYGFHGMRIAGAADRYFEKLGTPHAGDIRGVKKMEAAENPPGEWNTYEIDLDGGTLIVRV
+NGRKVNEATGCETLPGPIALQSEGGEIHFRKVVLDSK
+>tr|A0A1W9LE21|A0A1W9LE21_9BACT
+MSTWAAVWREAAAKREVTRCEVTAREPGRVTVVAEMRIPAGESTARYAYTVTGGGAVEIA
+STFSPKGAKLPVAPRMGLKTELPGGCDRVRWYGRGPHENYRDRWTGAPVGLHSLRVAEMI
+YDYVEPQENGHRTDLRWMTIVDASGAGLKVTGLPRLAMNAWPYRQEDLEGPAHPYEMPAR
+QTVTLCLDHLQMGVGGDDSWGARTHPEYCIQPGVVYEHRMRLEPLAAR
+>tr|A0A1W9LDW9|A0A1W9LDW9_9BACT
+MRCSVPFATVLLLLAAGVASAEETNTSNLAPNPSFEAPEGPAPEAPDGWSYFVSKVKSIS
+LSRDGRHSGEQCLQLSAQKVAGSSQGILLELPVEPKERYTFSVFLTNNRDDLLGGSASGE
+LVIEWKNAEGKEVARSVSRPWTPGLSRLRWEPFSISKIKVPTGATRAVFGIHLNDGDGAA
+KGSVFVDDVLIERD
+>tr|A0A1W9LF72|A0A1W9LF72_9BACT
+EGERAFEEAMQSTFKILINSFYGYLGFEMARFNDFDAAARVTARGREVLGGMVDAIRDAG
+GRPVEIDTDGIYFVPPPGGADRIGSFRETVRATLPRGIELEFDDEFEAMFSYRRKNYALL
+ARNGEILITGAALRSRGLEPYLRDYIREFLGLKLRGRDAEVPELTASTRRAILNREWPVR
+RLARTERLQDAPEAYAAKRNAGGRGRNAAYELALASGRTYRAGDTISYYVTGERKSVAVH
+AAARFVADWNPDRRDENVAYYTARLEELVARLESAGDEDGGGGDGDCPPRRIRQPATAGE
+KGGCDMNRSTQKSHGLSGRGGFTLIEILVVMAIIMGLVTVVTVNVLQNQKKARVDTAKIQ
+IHELKNAVTIYEIEQGRIPTMEQGLDALVRKPTASPVPETYPQGGYLASRNLLRDPWRHE
+YVYIVPGREGLPFEIVSYGVDGEPGGENDAADISSADL
+>tr|A0A1W9LAL8|A0A1W9LAL8_9BACT
+MSAWGTVPDFLISLMWAASGAAVAWYVGLTLVDITYVTLADGRRAERRLPLLYRLLLPFT
+PNFSGL
+>tr|A0A1W9LAH0|A0A1W9LAH0_9BACT
+MKRHRRRKCRGCGDLYEPDYRNRRHQEYCTKTECRRASKRARQTKWRASPKGCDYFQGPE
+NVARVQQWRTAHPQYWRRQGRVSGDALQDDCVVQPTGVQEVGSILMRDALQDVCSLQPAL
+LVGLVSSLTGSALQDDIAGSLRRFQARGQEILGMGLGIVPRRVDRHDRKTSARRRPASPR
+AAAVQLG
+>tr|A0A1W9LFB9|A0A1W9LFB9_9BACT
+MPTLDWIGKQAVVNHHREVPFHLLRDVPDLSVGDPGTGNLIVEGDNLTALKALLPYYAGQ
+VKCIYIDPPYNTGNEGWVYNDNVNSPLIKEWLGKTVGKEAEDLSRHDKWLCMMYPRLAVL
+REFLSSDGVIFISIDDNEAFHLQCLLCALFGEQNFVTDIAWHKRVSPANDAKYFSTDHDH
+ILVFARDKGRWRPNRVPRSAEQLKYYSNPDGDPRGTWNSAAYTCAKTAAERPNLYYPIIN
+PNTGAEIWPSKIRVWAYDRDRHRKNDAEGLIWWGKNGQARMPRLKKFLGGRDVVPRSIWS
+HTDAGHNQEANLELSAILPNSHFDTPKPSRLVERILQVSTEPNSLVLDSFAGTGTTGHAT
+LKLNKQDGGNRRFILVEMEPKIAREITAERVKRVAQGYTNAKGKEVAGLGGGFRYCRLGD
+PLFDSGGRIRDTVRFADLARHVYFTETGEPLPRERVPNSPLLGVCRGVAVYLLYNGILGD
+KSAAGGNILTRAVLARLPSFDGPKAIYAAGCLLDPVRLRSQGIVFRQTPYEIRVA
+>tr|A0A1W9LCC7|A0A1W9LCC7_9BACT
+RVASLFRGVSREDFDRHIRPVFHTLRKEWNNVPFEVANDGEVTALAGSMSLNDNAVLGIS
+MGTSVAAGWCDAEGHITTWLNELAFVPVDYRPGAPADEWSGDIGCAVQYFCQQGVARLAA
+KAGIEYAKEMSFAERLVDVQRLMKAGDDRARRIYGSIGVCFGYAIARFADFYPLRNLLIL
+GRVTSGPGGGMILSEASRVLKAEFPSLAETVRLRTPDEKDKRHGQAIAAASLPEIRNLIS
+>tr|A0A1W9L9R9|A0A1W9L9R9_9BACT
+MLRRWAILLGASVAAGFLCRWGGLDPLQALATSVFLSILLGTLFFWEFRLAIAFLGVAVL
+VFTKTLSIPHFVEAAALPVILFLVGMMIVVGALRDLGFFTWVVQMILSIPRITARKFMAV
+AAIASALLACVVDEVTSIIFISALIFQVCGRLKIDPTPHLILCVLCTNVGSAGTMMGNPV
+GIYIGTQAGFTFQDFMIWAFPVMLLALAATVALTLYWYRREIAEFDVALQDRLNRRLSLV
+SKMDIPYRRGLLVLGLTLAMIASHHALETWLGLDRNSVLLVAPLICAGVIMIVKHDRARH
+YVEREVDWWTLLFFMLLFAIAGTLEYTGVTTRAANAVAREFGTNPLVLVPAVMTMSALGS
+AFMDNVIFVAAASPVIHELGKTTAAMPLWWALLFGACFGGNITLIGSTANIVALGMLEKH
+SHVHIRFWDWLKIGFLSALVACTIATAALLLLAPLMK
+>tr|A0A1W9L8J0|A0A1W9L8J0_9BACT
+MTQRSYLFTSESVTEGHPDKLCDGVSDAVLDACLAQDKRSRVACEALAKTGMVVVAGEIT
+TSAVLNYADIVRNKVKKIGYDDSSIGFDGNTCAVLVALDRQSPDIKQGVDAKKAEGKATA
+EQGAGDQGMMFGYACDETRELMPMPIMLAHRLTHGLAKLRRSGKLPFIRPDGKSQVTVLY
+ENNRPVRVDTVVVSTQHSPDVSHKKLHDALVSELIKKEIPAKMLDRKSRFLVNPTGRFVV
+GGPQGDCGVTGRKIIVDTYGGMGRHGGGAFSGKDPSKVDRSAAYMARYVAKNIVAAKLAR
+RCEVQLAYAIGYPEPVSVLVETFGTGIMSEEKIEKAVRKVFGLKPAEIVQELDLLRPIYE
+ATSAYGHFGRTEDLDNFTWERTDRVAALLNAI
+>tr|A0A1W9LDV2|A0A1W9LDV2_9BACT
+MALGVTGGIACGKSEVGRILRRSGVPVVDADLLAHDLMRPGRPVYRAVVRRFGRGVVRAS
+GGIDRAALGRVVFADPAARGDLNALVHPAVRRARERWMRDALRRKPVAAAIVPLLFETGA
+GDAFDAVICVAAPRCEVMKRLRARGLTGVEAAQRVRAQMPLRKKRRLADRVIENDGTLAD
+LARATRRVLASVLEEEKRNHV
+>tr|A0A1W9LEZ7|A0A1W9LEZ7_9BACT
+MTRTNVVLDDVLVERCQRVTGIPTRRSVIDYALREVLRHGSQKKILALKGRVAWDGDLES
+WRAGRGLE
+>tr|A0A1W9LA62|A0A1W9LA62_9BACT
+MSGSFLVLLAVVVAVFGLCFLGIGVGILIGRKKRLGACSCDFDPQAERAKAAARAPGGCC
+GGKDGGCGCKGNDASSSA
+>tr|A0A1W9LEI0|A0A1W9LEI0_9BACT
+MSSTRKRGANILRCAPLLFAALLGGCIHVEETLKIEKDGSGVIDITYGMSEENADRMQEL
+AQTMIANAEGGASTASMPFGSSEEQIRNDFKEYEASGVALKSISTEDRDGWKYRRLVIGF
+PSLAALAETGFLSDRNLSVSRDEGGNYVFCQLSDPKAQPAGLNGNGDPQTEAAMKEIMKG
+FRAVVRIETPGRILETTATDKTDRSATWTFDFDEDPKALERIQA
+>tr|A0A1W9LED0|A0A1W9LED0_9BACT
+MVDGGNSLPISFSHSDVYWPEAGFENVSIEYDFEAWWCGTNHTASGHPSSVWITIEPLRK
+YEIGFYPPLRGDPDPRRTNEDPPKRKDRRNRYEPPEGCNRCSTMGLPGFRVNMATLNLLV
+QDTDFAYSGVGPSVAMTRTYNADPTLTGQFGPGWSFSYGWFAIAYQEGVYVQAGDGSGWN
+YRVPTNAILSDGSYSPSWDGNYMTPSGHFDRVQLTTVGGKALFTLWNKETRQSYGFQSTV
+TPGVFTDETFSVQVPLDWITDENGNTVTVTHNNTNGYVTAVADAAGRTTTFEYGANTLCS
+RMNAPDGRYATGPHTIHRMNSPTGMEM
+>tr|A0A1W9L9L0|A0A1W9L9L0_9BACT
+MHRRSTSFLGRSIVFEMRVSERARRWGVQVGAGGVVVVRPRRMSEREALRLLDAHAAWVV
+AQVDRLHALHRATAMPPGTVRFQGHPVPVRRVPTPAGTRARVEPAGGELLVHLPGSDDDR
+VAAVLEAWLRDQARQAIGASVALHAARMQVKPARIGIRSQRTRWGSCSRNGGLSFNWRLI
+QVPQEVLDYVVVHELAHIVHPNHSPDFWMLVQRHCPAYPAHKRWLRRHAGTMEGPPDPDD
+SPVQFGRGREAPAAFPRSAARASDAGDLTPASGARIRRSRCAGVWLKRFLKIERPTLIFH
+A
+>tr|A0A1W9LB49|A0A1W9LB49_9BACT
+MRIAIDAMGGDHAPREIVAGTLEAARSLSGIDELILVGREDEIRAVLPGGAVPPRVRIEP
+ASEIVGMDESPATAVRRKKDSSISRSVDLVKAGVADAVFSAGNTGAAVAAMTLKLRMLPG
+VLRPAIAATMPGAGATPWVLIDAGGNTDCSPEMLFQFAVMGTVYAREILGIRDPGVGLMS
+IGGEETKGNEITKEAFAMLKASRMTFRGNVEGHDLYTERVDVVVCDGFVGNVVLKTSESV
+GHYVGTLLKAELTRTLRRKLGALLVKPGLDEIKRKSDPSSYGGAPLLGANGVCIIGHGAS
+SARAVFNAIRVSAEAVRRDISRQIEAGIRELRSV
+>tr|A0A1W9LE16|A0A1W9LE16_9BACT
+MHTRIFEFAGSLAEALAVRIREALESAGPAVAVMLAGGRTPLAAYAQLSAAPIAGGGRVF
+LSDERMAPADSAESNAFQIGPLLAAAGVRGNRFLQVDTSGTLESAAAGYDRALAKLVADG
+VRIPFGILGVGADGHTASLFSLVDVAASRVGGRYVVPVRRPSPPDRISATPHLLALVEEL
+VFVVTGADKADAVRRLLSAPLTLPAGLAVAGHPNVSLWADRAAIPG
+>tr|A0A1W9LAL4|A0A1W9LAL4_9BACT
+MSNQARDSTGAKPDRSPVTGHWSLATGHSSLVTGYWSLVTGYWSLVTGYWSLVTVLVQAT
+>tr|A0A1W9LH28|A0A1W9LH28_9BACT
+MKPGALLVLLILVAVPYVTSLNHGFVYDDHGSIAENPFLHNSSNLRDLLTLRTVGDPTVS
+DGRRPLVILSYFADAFVWRFQAFGYHLTNIALHLAAVLFLIRLIRRVMPEAPLVAVAAAL
+LFGLHPVLTEAVQVPAFREDLLSGVFVLLYLLAALRSGATRWLAVPALLLAILSKESAAA
+APVLLAWLWLCFPAARPRARTAATMISISLAICAAFVVLWSRTGSLQAASEEWAGLGLQF
+PANLFTAPWLWVKALRLLAWPWPLLADYVVQPVTGVADIRFAAGLVALAAWAGAALLLRR
+RAPLVALGMGWVLIGFLPVANLVPLYNPFAERYLYFLTMGFGMATAVFVARIPRPKTRAV
+LLGGVSALYAAVAIVRLAVWSDDFTLWTRTLEQEPKSARAHGWVALELKKRGEVLEALTH
+FEEADRLYPSDVSALINIAVIYGQQGRLPDAEKLLREAVRRRPNKADAHWNLAVALQGQS
+RMEEAMDEVRKTLELDPRHPSALAVARSVADGQTLPPVSPEKQDGGAPLGLPPSAFE
+>tr|A0A1W9L7V3|A0A1W9L7V3_9BACT
+AMAAPADEPPSDRAATFVTLTNGNVALRFSSHGAALVSATLKDYPLSQSPTSGPVVLDFA
+AAPALAYEGVGGLGDAYSFEARPGPDGRSVRFERRNARGLQLVRTVDLATNGYTVLVRDE
+FQNGGAAPVHLSAAWLRFGEMGDLPGETKISGIAFLGIDTLSPGDKAQFWGGKLAGLYKK
+AAGEGRPPAAVASGLPMEDKPADWAAVKNKYFVQLLKPDERFERIEARMARIVGPNDGPK
+ARIDLAGXXXASPPRPSARPAP
+>tr|A0A1W9LEW2|A0A1W9LEW2_9BACT
+MTRRRTGPFFERAPGAPAPLKAVIRRRVGFNEVDLMRIVWHGRYAVYFEDASAELRRQCG
+LSYKDFFDANLQAPIVQLHIEYVRPLQLDEEFEVRASMIWTEAARLNTEYEVVRSDGALA
+AAGFTVQLFTDPATGEACIATPPLLDRCRRRWRAGEFQHHQ
+>tr|A0A1W9LEC2|A0A1W9LEC2_9BACT
+MKWFNEKKGYGFIIPDGLNQDVFVHYSAIHAEGFKTLSEGDKVQFELFQDAKGARARDVV
+RV
+>tr|A0A1W9L9H7|A0A1W9L9H7_9BACT
+MPRRVMSAEAAWIVADMLGGEERSVDTVRHTADARLPRMAWKTGTSSGFRDAWAVAFNPE
+VAIGVWCGRPDGRGAPQLVGAKSAVPVVWEIFRGLYPANDSPWFARPAGVTQRRVCAVSG
+MPPGTSCGATVADWTVPGVTRHEVCGVHRRTVVTGPDGAIHSRVREVWPSEVQAFLDRSR
+VVAARAAHAGAAPCNPVRIVSPVAGSVYRRLGGPSERIPLAAAAESGERLWWFVDDRPLA
+SVAPGEPLLWPLSPAR
+>tr|A0A1W9LGE9|A0A1W9LGE9_9BACT
+MLEPGRPQRELNRLDSKNWTPTPAAVSDRIVRSLVALRGAVDAVVAMDQVDVPETGVLTA
+EVRTALAGFEAGMPVIADSRRSLRGYPPCMSGPCPSGARSTSSAPATR
+>tr|A0A1W9LC09|A0A1W9LC09_9BACT
+QLVDIILETERHMARFLMVPDVFRLLTSRVDIHSVGDISLLGVGRWPLDYFWNRLAKRIE
+DVAGALVGLIAGGPAILIAALAIRGTSPGPAFFRQRRCGENGRPFDLFKLRTMVENAEAE
+TGPVWTAPNDPRRTRVGACLRRWNIDELPQFWNVLRGDMSLVGPRPERPEFVEQFREHIG
+RYMWRHVSKPGITGWAQVNGLRGQTDLRERIRYDLWYLENWSLSLDFKILARTFHARKNA
+Y
+>tr|A0A1W9LCD1|A0A1W9LCD1_9BACT
+MGVPYYTEDGRAPETHASDPRSKIILMVGAFYHRPNREGLEWFLRSVWPLVRRACPDAQF
+RVVGSGLTDAVKAAFGGSNADFAGSVPDIGAEYANCAITVAPILSGAGINVKVFESLVHG
+RVSVVSAFAHRGYEECLPEGESLLVGRDPAGFAAACAELLGAPERRNEMAMRGRDSALQA
+FSFERFCGVVDETLSALEEHRP
+>tr|A0A1W9LI63|A0A1W9LI63_9BACT
+MFDPARVQAWLRNNTFHHSRFADLKRLVDLKQKQGVRISLCLPTLNEERTIGKEIVLLKS
+ELMTRHALLDEIAVIDSGSTDRTREVAASFGADVHLASDILPSAGARKGKGENLWKALYQ
+LSGDLIVYIDADIANVRPYFAYGLLGPLLEKPEVHYVKAFYDRPLQMGKGARMPGGGRVT
+EMLVRPLFSLFYPELASFIQPLSGEYAARRETLEQLSFPIGYGVETTHLIDIYHRAGLAA
+FAQVDLDQRVHRNQSVASLGRMSFGILQVFFDRLKRHGCVDRLPEMATLMRQFQTQGDAY
+EQLEHRIVEDERPAIATLPEYREKFGRRPDPAIAP
+>tr|A0A1W9LGX2|A0A1W9LGX2_9BACT
+MKSSSSASPAAISWTVVTLLTGAAHAERLADWAREASGVEPVQLLKPRDTRAWLDLYFKE
+AGDAQAFLLASERQRLVLGRAVRICRPRDWQRFWRKHFHVLTVGGRLRIVPEWSRTGKPP
+RGVKDLRLEPGLSFGTGTHFTTRFCLERLAAICRPGHPRSMLDAGTGSGILAIAAVRMGA
+AKVLATDNDPQALAAARHNASRNRTAARIRFVAADVIAEPPLGRFDLVCANLYGPLLLEA
+APALAAATRRTLLLSGIREIEADTVADAYAAEGLAETVRDGDGEWCGLEFTRLTPRRRSR
+EV
+>tr|A0A1W9LG45|A0A1W9LG45_9BACT
+MSLKNLARSVRAALPEGALRNRLAALAYRVMYGRALADCAWRDGAFVVRTPDGTEVRSVR
+EFDPAPLADDFAAGAPGAGAVAMDVGGNIGAVASWLARRVGPAGRVVVFEPDAGNLVTLR
+RNLALNGVANVEVVEKGAWESEGVLEFHAGGNYTSSFRETDYVQKRPDLYEAVRLPVTTI
+DAEVARLGLARLDLIKMDIEGSEGPALRGARETLRRFRPAVVVETHTVQGRPTLDEVQSI
+LREAGYAEIRVQPDEETPVVTAR
+>tr|A0A1W9L7V1|A0A1W9L7V1_9BACT
+MVNVARSWLEGRPPEGPDPSVDPAAFGSAVRHNRLAPLMHLHLGGLTAGREWDRVLDSFR
+TAYQKQLIHAARQRAAATELIGRLEEAGIPCIGLRGVFAAEDLYGDMAARHFTDIDLLVP
+PDQRRAALAVARAAGYSLWNPLLPERFYERHHLHWPLMRGKPDVVCDLHWALDHPYRLLT
+IDYTAIFRTSSTDGSNGWRRPSSEHLLLINCIHLLKHCRGAVAVVTADDNAGSMVRNGWL
+LHWLDIAAILRRFGGELNWDRILETATEWRCEEGLAAGVLGAVRVLGAQIPSAALAQVTA
+LAAATAESPVRGPSPRWVRKLAELGGFRSICLGDAWRFILPERSYFVKGQAGMPDLLLRR
+ALHALKAATTLVAAAAETVALGIWIPLRRRFGRETSPSVYSLIRAIESDK
+>tr|A0A1W9LAK9|A0A1W9LAK9_9BACT
+IGKEESFAGIIDLISMKALYYSVDNQGRDITETEIPADKMEKARTWRANLVEKCAEQDDT
+LLAKFLDTGDLTPEEILSILRRATIARRVVPVYCGSAFKNKGVQRLLDGIVNCLPAPNEI
+PPIICAKEPEENRRNPTDSDPFSALAFKIMADKHMGKLTYIRIYSGTLKAGDTVINSTRN
+KEQRIGRIFRMHANRQESIEEAYCGDIVAVVGLGETKTGDTLCNEDHPIHLMAIEFPAPV
+IAISIVPSSQADNERLGEALRRLADEDPTFTVAFDSETHETIISGMGELHLEIIVDRLKR
+EFNVGAKVGPPEVAYRETGTEPSEGAYKHIKQSGGRGQYAHVVLRLEPTKKGEGFEFVDA
+VVGGRIPSEFIPAVQKGVVRAMLTGPYAGYPVVDMRVTLVDGSYHEVDSNDFAFLEAGRA
+GFVELFHRTSPELLEPVMSLEVETPEEFMGSVTGSICSRRGRIESMESQGPVKIIRGMVP
+LSEMFGYSSALRTVTQGRAAFTMHFEHYETVPYAIAEQVIKKSREKKRKV
+>tr|A0A1W9LE67|A0A1W9LE67_9BACT
+MSEPKPDFLEAMFHMQAELNRRIGVDTTALPEDEQPKWVLNYCRAMSQETAELIDSVPWK
+WWAKYQTYDKQNARIEVVDLFHFLISLAQVVGLSAQDVHDLYMKKNKLNFQRQDSGYKVK
+DASDNQDLKV
+>tr|A0A1W9LCU0|A0A1W9LCU0_9BACT
+MRRILVILACAFAVAAAVEVLLRCAEPPEIYFRTWYRNGIHRPDPVYGFRWTPGYDGHMR
+HPDGVYAPVPLRLNEYGFRMPVASTNAGPDAVRVAVLGGRSMMFCFGLSDADSIPGRMAA
+VSPRPVVVQNVTLAGVDLYRNWHLAREQIGAFRPDVILVCMYKQDPAAFLEFAPEFTRLP
+PPPATEEELFVLWDGIAGGRSPMINRLGRRHDASYVVYGLCNIEDRLLDSFDRLQGWVHR
+RQQEGKTPTPQDEARSRSLAAFLRHIATSPVSGGAAVGVVLLPQRNKPAGLYSDFVHLLP
+REMGRIDIHAQMAGELGRLGWIAENHYGRKLADRIARPMVEEALRLRDASGR
+>tr|A0A1W9LC65|A0A1W9LC65_9BACT
+MTRFLTAACIAGCISLRAPAAEAPAAAEREAALSAVLKSDATLKEKIDACREIGRVGTAA
+SVPALATLLADTNLSHMARVALEMIPDAAATDALRAALGTTTGALRTGVAGSLGKRRDGK
+AVPALASLLKDADPVLAATAAKALGRIGGEEAVKALEDALASVSEPLRAALGEGLLRCAD
+AAGSTRSARAIHDRLRAAPVSQTVRMAAFRGAILTRGDDGVPLILDALRGTNGVEITAAL
+RAAHELPGRSATKQLAAALGSVPDAIRPSLVALLGERGDAAAAPALLGVAKDGGDKTLRL
+AAIEALVQTGAEAAVPALAALALDADADLAAASRAALGAIPGRKADAAVLELMGHKDPAI
+RVVAVDLVAQRASDGSGARLLKSAADSDEKVRVASLRALKACANAADLPALLDLLVKAGS
+AAESQAVEGALAGVCARDVRKTPARVAILKAVYGDLPDGRSADVTAKVAAKVQAGEASFT
+ADNALFGDPASGKVKSLAVTYSANGVQASRTVREGEIVFFPPVASDPACIDALLAALPST
+PPPARIALLRVLGSTGGPKAFEAIRAAAAGGDAAVRGAALRTLCEWPTAAALPVLQDVAR
+TGPDAAVKTLALRGAIRLIPQTDQPAAAKLAALDALGSLVTRDEEKKLVLAAIGDIPSPE
+SLALAVGSLSSAALKQEAAAAAVNIGEQIAGTHGAEVAVAMKKVVAAIDDPSIRRRANAL
+VREAGWIPLFNGRDLAGWAQKGAGVYGVEDGCLMGTQTDGKGGDLFTTNAWSNFELRFTY
+KMKWPGNSGVWFRDVYQFDILKYAKPVAFSGTLYCPGKLFIATNAVESLEKKDDWNEGRV
+VANGDHLQMWLNGTKVADCRDATSASGRIGVQVHGGDGAKGMKILIRKIELRPAAK
+>tr|A0A1W9LD52|A0A1W9LD52_9BACT
+MKDWDVWGRKYSLLGLLAQHEATGDTAALEAAKKLADYTISQFGPGRKSIAETGWWTGMA
+AGSILEPMVLLHRRTGEAKYLEFAESIVRAWSEPKGPDLVRKAVDGVTVFKMFPGPDPSK
+KGYMSGGASKAYEMMSCYEGLVELHRTTGEARYAEAARKVFDDILATEITVLGSGSSWER
+WCDGRRRQVEDVPEWMETCVTVTWMKFATQLLRLTGESRYADEIERAQYNALLAAQKGDG
+TWWCHYNPLEGARTAAPEHCRMHQNCCVANGPRALMLLPALAAMSAKDGPRVNGYEPASM
+AMPLPSGRTVKLDVRSDYPRPGPVEIVVTPDRPEAFTLGLRIPAWSRATTLEINGKADAS
+VRPGTYAKIERTWRPGDTVRLTFDFGARLEKEPGGSGRVAIARGPVVFALDRRISRPVDG
+AGSGTGGRDGRRARGGGRRDGGPACGHPHGARRLL
+>tr|A0A1W9L8Z2|A0A1W9L8Z2_9BACT
+SHAVTEGQGVLVEPARLSGFAKLTPARIRTISPDVAWLPTRASPVQNQPIRGRRISVDLL
+EPIDLFPGEAVNIYVGRPWWVEAFETCVPATWRERLQRRSAFGRPTDTAR
+>tr|A0A1W9LD99|A0A1W9LD99_9BACT
+MNITSHPNRLPIVLSALVYPGLGQIFQRRWVAGTIYLLSFTVFFLMMMINVLVPLFKTLR
+AVLDFADGAANESLFGISPLGVLVPFGLSILIYVANLLDVTRAVRRNRAEAGAFSTPTVT
+SPRRERPLKAEAPR
+>tr|A0A1W9LDX8|A0A1W9LDX8_9BACT
+MSRSVLVIAGEVSGDLHAGALAAALRAQGADLALWGIGGDRLRAEGAELLYDVRQTAVMG
+FVEVLRHLGFLRRVFRHVLGEVDRRRPSVAILVDYPGFNLRLAPELRKRGVKVVYYVCPQ
+VWAWHRSRIGSMARTIDRLAVIFPFEVDAFRDTGLRVDYVGHPLVDETAAALRAPPAALP
+WRGAGPRIALLPGSRRQEIRRILPALAGAAGEIARRHPDASFLLAAPSEPVADIARGVLA
+GRPGADRIPIVTGVTREVLRQARAAWVASGTATMEACLMGCPQAVVYRTHPLSYRIGKAL
+IRVPHIGMVNLVAGRGICPELIQHEATPGWLAEAVDPLLGDTPQRAAMLAGYAEVRAKLG
+GGGAAERAAAIVLDELAGTTP
+>tr|A0A1W9LAJ9|A0A1W9LAJ9_9BACT
+MKADRERSFAATFVLGMAGYGGYLLYNVLFLLLAVPFLLVLSPFPRLRHRFFAVSVPAAL
+AFLTRAYLPALGIYRIAEISGRDRALACGPAVYVGNHRGLLDGPMVLGLLRRTGWVLKTS
+YGRWPILASLVRYFDLVEVDRDSPRLLSAAQEKCRNLIRSGRNLLVFPEGTRARSGRLQR
+FHSLAFRVAADCRVPVVPVIVHSTGPFMARVAGSLFPRQRMVYRIRFLDPEPVGSEDTAD
+DLSDRIRRRMARELKDLDRGTVWDVEEGSGT
+>tr|A0A1W9LE87|A0A1W9LE87_9BACT
+MKTTLELPDGILIEAKKLAAEERTTLRALVEQGLRHVLAGDRGGGKTRPRIRWVVAAGGA
+PAETASREAMTEWMARHR
+>tr|A0A1W9LDP4|A0A1W9LDP4_9BACT
+MNLWQRKLLAFLHDPPHKALDIPGHEEARDTFIRQAGFADASLIREADKIADWTGAAADR
+SLWMSSGLRSPFGGAEHPFLHPMGGSELPVAVPPTPEILAETLQTIQHYAQSLENIPVED
+RDRVNFFLHWRRWAVDAAKIDARCLYQPADTRIPDHSIWQHNGIVSALQGCVDESGSLRP
+AFLLFQLGPVQEFIAQARSTRDLWSGSYLLSWLVAHAIKAVTDAVGPDSVVFPFLRAQPL
+YDLLHRDEIYRKVPYQGKDGRQETLWDRMKAHEREMLIPNLPNRFLALVPAGRAAELGAA
+AEKAVRNELAKVGDAIWSWMVSHMGATPEWRGRYDAQVLAFPQLSWQASPWTENADEAIA
+ELARHDPPAARGIEALRRLSSGQPNTGFAWPAHYAHVDRALAARRNLRDFQAWPRDEHSS
+GAVKDSMSGREEAMGGEAWWNAIRESTDERVRRLFRSSDRLGAVNLVKRI
+>tr|A0A1W9LES1|A0A1W9LES1_9BACT
+MNVGIDRLSFHAPAYFLDLHKLAAVRGVDKDKFALGLGQERMAVPPPDEDVVTMAASAAQ
+PILEADGSDTLDLLVFATETGVDQSKAAAMFVHGLLELPPTCRCVEMKEACYAATAGLQL
+ACAWVAAHPDKSALILGADIARYDLRSPGEPTQGAGAIAMRVTANPRLLAIDPEQGVHAE
+DVMDFWRPNYREEALVDGQYSTRVYLASLVTAWERYRAASGRGLDAFRRQCYHLPFTRIA
+EKAQARLHRAAGLPAPGPEDLQRIVGESLGYNRITGNTYAASLYEGLACLFDTCGEDLGG
+ARIGLYSYGSGCMAEFFSGVVQPGYRDALFTARHRAMFEARTELDYQQYEDIFHLALPKD
+GGEHAFAQYRTGPFRFAGMSQHKRIYEAL
+>tr|A0A1W9LE39|A0A1W9LE39_9BACT
+MSYWVVIYRTGWIALAVLGLVGASVAFVPKWKEYRDYQRRNTEMAREEALEQEMLNLLKS
+KQERFRTDPRFVVRIAHDLGLARSNEVIFRYQGDAPPPVVTSSPPRPRPATPPRPPARGT
+>tr|A0A1W9L8U3|A0A1W9L8U3_9BACT
+MAPRTGVSLRDIATALNISTAAASKALNDLPGVSDALRLRVKQTAEAMGYRKYLRASMVN
+AYERSMKLVAVLYGRIGGHLIEQIQFTIDEKIRRKGYFELRYLIDASKELQAEEAKELFL
+RSIVKERGVVGILSCYIKLSDVLIDKLREHQIPVVLLENHTDFGRCVTIDNLKASYKATA
+KLVELGRRRIGCIMPQEEVDHVWRDRIEGYKRALKDKGLAYDPGLMVYENDVGVSESEQA
+TGILLKKRPDVNAILYGCDRQAYGGLRGLKTAGKRIPQDVAVIGFDDMEFNSIVEPSLSS
+VRQPIRKMAEVGLGMLFDSIENRDLSHRSIVLDTELVLRGSC
+>tr|A0A1W9LJ32|A0A1W9LJ32_9BACT
+MRKAVLGVGLLCAVVVSPGPGPARAADATGLVHSAFVPAGYTLDWNDEFDGPLDTAKWAH
+FLSGRARGWVRLAREAVSNEPPGVLVLSAFMQEETPVSAWLTTQSSYRRAYGYFEARIRT
+QSAGGLRGAFWLMSATLGRRDGDPRTVGAEIDVLSYAGDAEGDRALAQGVYWGPYEGTPA
+SITNALGQVRPLSNAPPQRVSGAHIDLAAAGLTNAPLSADYHVFGLRWTPRDYVFTLDGR
+ETFRTSRGIVVAPHFLCLSLLPPPGERERPARVDLPATMRVDYVRVYASPVDVPAAAPPD
+PKRTVE
+>tr|A0A1W9LBZ5|A0A1W9LBZ5_9BACT
+MSRGDGRPGFQREEREGREAMKEPSRSALAKAVPPRPFRASNPWTARVVGLPRVGNPGGP
+VAALLAVFALTFAAAAAPRPNIVLILADDLGYGDLGLYKDRPWPEPEKGYAAMISYLDTQ
+VGALARRLRDLGIEDRTLVLFASDNGPERKEFTGYDPAFFNSSGGFRGFKRDHTDGGIRV
+PFIARWPGRIAPGSVSAYVGYLGDFFSTAAELAGLDRPADADGASLLPALLGRPGTAARP
+EALGWEYHAAGVSQAVLIDGRWKGLRNERRDAPIELYDLAADPAEARDVAAAHPELVARI
+ETLFRTGRTEDPNWPLRDAPRPVSKAGK
+>tr|A0A1W9LB03|A0A1W9LB03_9BACT
+MLQEEFEYYLKHQKELVAKYKGRVLVIRGQRVEGDYSTDLEALEAASKKFPLGSFLIQLC
+EPGSDSYTQTYHSRVAFARA
+>tr|A0A1W9LDS8|A0A1W9LDS8_9BACT
+MLIESNAFVNCAGAAVTISSADAVTVRSNVFHGEKPRRAIDPNRSAVVVSYASNVDVLDN
+EWHKSPQVPRPGVLWDPETSQPPRCSGNRLRD
+>tr|A0A1W9LGT3|A0A1W9LGT3_9BACT
+MSFLSGAGCSRGPAFAVRAAVTNGDVRVEVALSTNVLRIGEPVTARLRVDHPAGAVVTLD
+EPGRSNAVRVLDRRWSDPVREGAGARTEAVFRLTSFEIGGRPAFTGAVHVAAGTAAVVSV
+AVPELALTVESALSGDEKDLRPVKGPVDWPPALPRGLWVFPLVALLALVAALAAVRLLRR
+VRAPAPPPPLPPAHDVALADLHRLLSRGWIEAGEAEPFYIELSRIVRAYIERRFGLHAPE
+RTTEEFIREASASVALSPEHRRLTCGFLEHSDLVKFARARPAAGEMQAAVQAAERLIRET
+IPPPRTGSGRP
+>tr|A0A1W9L8A7|A0A1W9L8A7_9BACT
+MSRRWALDGGEPVWQHCFMRIPSLASAILASWLVAIDAPAGTGAPEAGSAAARILTLDRT
+NNWLVIRGAHLPGGEIRINYLEACCRAGSTAADWNAHTVIPHRTELVSRSADGRILKLRC
+TLADGVTVDHTITAGADEVDFRLTAHNPGPTRSEAHWAQACPRLAAFTGFDGNGPSLDDY
+LPKCFLCLDGRLQR
+>tr|A0A1W9LD07|A0A1W9LD07_9BACT
+MNFRSKLRTDPVGFQLAPMIDVVFLLLCFFMTSQLFAQWETDVPITLPTSKTGQTPRRLP
+GEVTLNVLKEGVVVVNGQRMDDARLAAMLQRLTSMFPGQPVVLRADKATAYEHVMRVLDL
+CRQVDIWNVSFATAPPES
+>tr|A0A1W9LG74|A0A1W9LG74_9BACT
+MKKLVLAGWMAAAAAARAGESWTVASPDGRLAATVKGGASLTYSVSLAGAPVLGESPLGI
+VRDDQRFVEGLIFVTERRGRLAEDYAMPHGKRSRCRVEANELTLAFRNAGGAPLEIVVRA
+QNDGIAFRYRFPDTLASPRTVTGELTGFQLPAGSAAWVQPYDESTKWTPAYERLFENGMP
+VGGVTPNKAGWCFPALFRTGANGPWALITEAAIDGTYCGCRLASAAPGGLYRLRFPDAVE
+GMKTGDVAPSSPLPWATPWRVVIAGATPAAIVESTLVNDLNPPGPARPPSWIRPGRVAWS
+WWSEQDSPRKPDRMKAFIDLAAEMGWEYFLVDANWNYVDEKAILDLIRYAKSKKVGILLW
+YNSGGPHNEVTEAPRDRMMPRDVRRREFAWLQKLGVKGVKVDFFQSDKQNIMQHYVDILR
+DAADFDIMVNFHGCTVPRGWARTYPHLITMEGVRGAECYIFDPNFPAAAPSHNTILPFTR
+NVVGSMDYTPVAFADNNNPHKTTVAHELALSVVFESGWMHFADGVDAYRKTPDFVKDFLR
+GVPVAWDDVKFLAGIPGDHVAIARRKGDDWYIGALNGRDQPVTLHLSLDFLPAGHSYAMT
+RIGDGSGPRAFDKTDVQVRAGAAPLTVTLQPFGGVAAQLKRK
+>tr|A0A1W9LDI3|A0A1W9LDI3_9BACT
+MAAKRTPFEEKAGGLEKSRLWLALAPDERLWLVVILAIVLLGLTVRWWHQQHRTPQPYTP
+P
+>tr|A0A1W9LEC7|A0A1W9LEC7_9BACT
+MTGPGGFTNIAAFAGVDEAAETPLGAFAVNILPRWTLVVSNSPTDWGSVSPPGGEFVQGS
+VVSLTATPAEYFRFLDWSGAASGTNLHLQLAIESNSVVVARFGEILTTNHPTPLWWLASF
+GASGDFETAVVQTGANGLPLWESYVAGLVPTNAGSVLALGVSVQADGLTVLAWPSVSGRV
+YTVSATTNLAA
+>tr|A0A1W9LCA4|A0A1W9LCA4_9BACT
+MSVGPTLVVLAAGIGSRYGGLKQIDPVGPGGEVVLDYSVFDALRAGFGRVVFVIRHDIEA
+AFREAILSRYAGRVDATLAYQELDMLPPGFALPPDRKKPWGTSHAVLCAAGQVHEPFAVI
+NADDFYGEDSYRVLAKFLTAPVAAGPDEYALVGFGLRNTLSAHGTVARGVCSADASGFLT
+VAEEMTALEAMPGGRARNRNPDGTFRELTGDEPVSMNMWGFRPPVFEQIRGEFQTFLREN
+TANPKAEFYIPTAITGLIRKGTARCRILPTSSAWFGVTYREDKPGVVASVRELIRQGRYP
+ERLWG
+>tr|A0A1W9LD13|A0A1W9LD13_9BACT
+GAGGAGVTTNTKVLTLNWYTNGAPDGTNYPDWYQGTIPAMSSGTVFRYKIGGFRLQGTND
+FPWDCVTPNTGANVTRKMPMMGVWTTDYVNARTVTYRPHNDFNPNIATGLVEGFHVISAR
+AFLERGGKASIYNTFVQPFYFDASTPTGEVKYPAEGDWLYQSEYGAVVRADATVKEVWYN
+IADGDSANDDGQTGNPYGNGTNAAGQTSWIKAYETVPTLSISSAHPKEYRFSYYNIPTNG
+SSTLRVKLVELSSSTNLDLSDADGHFTTLQRTVNCAAPTTLFYYDWPTVDGTVVASGWTV
+RVKFSTSLVSGYDDATMLSKFLITINGSAQSRSAYQITRDAGGGVGQIEFALPDLYNGDT
+NFLHLIVFTLDTSGGVTRQASRAVRAQPSAAKILVQIVDPPEVDADGQPYTIVLPDVASP
+SATQRQYSIRVETDLSAENVWIEFTGGTGYTLPYGTTSNLLTGTVSVVYGSNGVTGAGTM
+FDSQVGAGSVLRISSNLVTVAQVTSGNRLTLTAAYPGTTASGLSAYRVDPNPSRLGSKQY
+WSYLWTNMTQGYFTFVANVDTNGNTNTVEASATRGVTVIFREMVYANTNDYDDDDDGLYD
+TSENSPTNLPATNPETWANGQVHIWQIYGKTDPLLPDTDGDGLPDGLECGWRAADPSATD
+TNMDTNGDGWKNFIGDIDPPFYNTTDNEGVVPGFVFYDSRTKLIAGTMTDPNNADTDYDG
+IPDGVEDANRNGWVDGDGLPLYAGQSEGTRTSWPSKVFSGSWLETDPNDSDTDDDGASDG
+WGEDTNANGHIEGDVNSNRTYDAGEAWSETDPLNPDTDGDGLPDGWESQYALDALDDGAD
+SLRTAAAGDGNPTNGAAGNPDADVIVQGGVTNPYSNALEYQNGTNPRIPDTTETQTNTAI
+TIGPGNVLGVLTGIGTNYEEFIQWTAEDCLVLDEYEGDGANNQQGDVYLAYDGFDSSRDL
+VAFYAHDGGDIGSGGDGKFYFRVDFHDLAPLAEEGNLDLYVVIDTGNPASGEMGLPDDVD
+LMTSNRWECVVAVYQSGMGAVYVDTNPNSNSTTIAHGYNLTPFGVERRDQSRSDGFREAY
+FNSTLDSCEFSISREALVGWLGNMSSLHFQAFTTKDGTCNGCGADGDAGAGDIGGRNDVR
+DTIYDDRAAEDYWMDQASVPSVLSYSWAGDARAGHAKVALVVHGNQAVQPGSVIQDLIND
+GAGAGYNRPLGSHELYRKPLNLHITPTLASAIEWAKTDPGVAESWRTNEYASGPAFNAWI
+ARLVATNVVSLLGSTFSDHILPYFTKEFNRDNIALASEFLGDLYGFVPKTNTVFWVPERV
+ADGDVLEKVLDAGYEFTLVDQMTHLWHWLGRTTALGDGGYRINRVNGVKCFVLNDGASDY
+RFTNTDGGLPTALRAQLNRKARSGTQDQVVTILSSWEDFGSLDSANAYDRNLIWMANRPW
+IEIVALEDVAAGRIDKTWDGAGDPWYVEDRGTTSRQKIAHDWLHHATETNYDNWYIGSAY
+EEGLQTNKFEIRSGVRVPQQYGMMYFAGIVTDAWVAVNQIADTNLGKLARGILHASVFET
+AFHNQTNGSGGTDRFSTGEYIYPDTDYEHLAEFARFAQSQSRLAAVLKRVDDWAAVAPSL
+TNTQAAAEDIDLDGEDEWLVFNDRLFGVLERVGGRLIGVWVRDILDDRVFQAAGNLVGYP
+GSASEEEGTYNVETNGGVVAVVAHRTSCLKDWWNPVNNGQYINDVYSGANWTNGWRLTSA
+DGAVRKTITLAPKASQFEVQYELSGALAGQPLYIRHGFSPDLYDLLLRGQDTLGSEEHAG
+GVMTLANTNYGSTVRITIGYKDAGHTAGFDPGAEDDDASKSVSFYTVNMRNQAQTHQVQL
+IGTNSFSFSLGFTAVPSDWDGDGMPNTYEDDESFNATDGSDGAGDEDLDQVLNWQEYVTD
+TDPNNGSDYPGLTANRLSATGIVVRFPTKVRRDYFVWYVNS
+>tr|A0A1W9LDS6|A0A1W9LDS6_9BACT
+MRILGIETSCDETSAAVADGPRRVLSNLVHTQIAQHQPYGGVVPEVAARSHVERLPGLVE
+EAMRRAEAGWDSLDAVAVTSGPGLATSLLVGVAAAKALAIRLRRPLYAVHHLDGHLYSVF
+LDPAFPEALRLADGLALLVSGGHTSLVRIHGGRRGGLLGATLDDAAGEALDKGAKLLGLG
+YPGGPAIEAAAAGGDPARYDFPRGLGPGTRHAPCGGLRRDLCFSFSGLKTALLYHLRDHP
+AGLDPARDLSHVAASYQEAVVDALIGRVRSAAEFVRPSFLACAGGVARNRRLRAKLGDFA
+AAAGLPLMLAPPEFCTDNAGMIAAAAAAGLGCIADPPGALEIHPTWPLPADGDPLAFAPA
+LNASKGLP
+>tr|A0A1W9LCV4|A0A1W9LCV4_9BACT
+MVLTVLAVGAAVALFTTFFASFTPDVTFYMMHARTFTRTLNRYILCFGEKGPVLTFLLAP
+AVWLLGPTIAAAATEQVLAYLLCGWLMFRLVSGAVNRTTAFGVAVLFILASYSPYLWGTD
+IFRPEYLALAMTTAVLVLCVRRHSLWSVFAGGVLAALCFHMKTVLILAPGAITFVQVLLI
+AWARSAGPERSAGARAGAWLKASGAPVAAAAGGALLVTALVVGWLAAMDSIPDWWRQNLD
+WPVSYKVNADIEPFSLAGFVRSVLAGEKIDFVKTYRQSDHMTFSVMHIVKLLYKLTLSRM
+ILLYLAAIAGLVYARRRADRRLVLLLAAWLAAESFKVCMDDRRWMYTLAGLLPPMLLSAV
+LLGLSRERERAASSAGWLIPLVLLLGVIPPVFRSQAGIVRDRVIGNQLAPYEDLAARMRP
+HYRKGEFVYINAFNWGLSLILDSPDPYRVWPHHVELVNEEERRGFYEYYATNPPVWIVVL
+NERQKAYPWGYDWIAAGPYECLASNDYAQAWRRTDTPPADRP
+>tr|A0A1W9LH70|A0A1W9LH70_9BACT
+MNPRDPAVRRRLPADSLTRAIILAAAAHAHDRGPGGDPKLLHVLRVMMQVDDKTERVAAA
+LHDVVEEGAATLSDLQRAGFSARAIRLVDLMTRRDGEDYADYIRRLCPDAAARRIKLADL
+ADNTGVRRALKRRNAKDREKLVRFARARRMILAYERALPK
+>tr|A0A1W9LFP6|A0A1W9LFP6_9BACT
+MSRERKYTRREFIAATGGAGVALGISGFPWIRRQTPASANRVIVLGMDGMDPVFLERLLK
+EGRMPNTRRLIERGGFSRLRTSNPPQSPVAWSNF
+>tr|A0A1W9LGU3|A0A1W9LGU3_9BACT
+MNAVNISDHLAAVAGRVETELDRLLPPASEPPATLHRAMRYAVMGGGKRLRPALCAAAAE
+CMAGCVPDPVWRAAAAIECLHAYSLVHDDLPAMDDDTLRRGRPTVHIAFDEATAILAGDA
+LLTFAFEVLAPIPVPAPYAAGALSLELATAAGSRGMVGGQSADLAGEGRTATAESVEWTH
+TRKTGALIRAACRIGAIAAGADAASLAALSRYGECAGLAFQIFDDVLDATSTPEQMGKST
+GRDASKGKAGAVAVWGIEGARRRASALVDEACEAIRVFGARGARLRDLAAFVVSRPA
+>tr|A0A1W9L8X4|A0A1W9L8X4_9BACT
+MLVAGLGMVVATESAPPATPPAPEKVRISATKKTEAARHGAQKSLPNASRRVDEDDMFYR
+FEVQRVALDVPEDLRIRYMVVVEGLGGRLRIGATKEEELVLSGMTPVPVDSDPVTLRSIE
+WNRGRRGGSGENKEKLYGWSVRVLDAKGGVVAEKFQPKDLEAQAEKLVKQWKEDEGKPPR
+PLR
+>tr|A0A1W9L838|A0A1W9L838_9BACT
+MTLDRDPYPLLATTRRVLAEPVETPYLDFVTPPIVDELGDPFYLRLAKVASPTTNDRQYM
+IRVESASNAQTVRVVFNIGTGTLVEAAGNPGTNGNLKTWDVLWQFPLTNDPRQIEGAFQF
+RANADTDGDTNTVEAYALRDARVILREVVNSNTNDPDDDDDGLSDYNEVTPRELPETSYS
+TWNNGDVHVWYIYGKTRSVSSDTDGDGLPDGLESGWRNADTNQTSTNANTDADGYPNFIS
+DLDPPFFNTADNYGKVPGVSAPDQGSKTDLKGGSMTDPNDPDTDHDGLPDGIEDANRNGW
+VDGDGEVIMPDWEPWIDRDWPTGQWTTNWTETSPNKSDSDADGLSDGYGEDKNADGRIAG
+DTNQNRRWEAGELWTETDPLNPDTDRDGLPDGWEVQYSLDALDDGVLGHTNLQTGLVITS
+VVNGASGDPDGDSIVNLSELVSGSNPRWADDGPPPPKGAITIGTGTAVTVGGVLNNNEFT
+DWTYEDLIALDNYDSYEQSNGGDVYYRPWATDHLESSRDLVAFYAHDGGATNSGGDGNIY
+FRVDLHDLQAHAEDSGLDLYVVIDTGNGSVGEALLPDNVECLTAMRWEVVVALYDGNSTR
+VYINKPGSADTRQLSDTLVLSPDDVIVRTKSDPDGAKDSYFSSDLDAVEFAINRQALIDA
+GWNGNPASLNYQVFTTRDGTTGGPGELDGPDIQDSIRTDWIAEDFAGIEKGDVDRLRYEG
+RIGLTTLSQWVGINSGNDRGKRIKIISLAHGNQAVQPGRVIQNLVNNGQGAGYYRPLDVH
+EAYGVPLTMHITPTLASALQWAKVDTNASPAWRDGPALNKRIARLAATNVVDLLGSTFSD
+HMLPYFTTGFNSNNVALASEFLAGIYGPGAVSTQVLWTPERLADA
+>tr|A0A1W9LDS2|A0A1W9LDS2_9BACT
+MNPSSDSGSSTAKRAAEMLEERNEGFIVPTAQQRQNMLVAFAKKGKVVYGKAFDIVRLSA
+HVNLDELGDVERNLEKILVFEIKSTRKDLPPDFSGYFFGLSAAEVLVAQSLRDYFKFIFV
+NVNTGQYIEMGLGDIFARAKGIYPTWSIMF
+>tr|A0A1W9LE15|A0A1W9LE15_9BACT
+MSTREKTGQPVVGLQAEARRPVTAETAMADDVMVGTEAAIIADHHVAEPRGQGPIEADPG
+GLGLGIHVDGFDLGGEPGGREVFPAQFQGVSLGNRRGPDPEEAALQEIRSGGHGVEIIIV
+DVDAVVAAITEIAALELEPPQ
+>tr|A0A1W9LEP4|A0A1W9LEP4_9BACT
+MRDVLVRILKRRGYEVVAFEHPGLCPVHIRLGCKIRNVALMSGAWELPEINRAHQLGASV
+FNKPFSVKDLNAWLDECEKNIEPGRALSDLFAPKPS
+>tr|A0A1W9LAK0|A0A1W9LAK0_9BACT
+MAKVLRFFVILLFLMAAGAVALEYMLFRQWPERKARTQTLEKAVLDIAQTLTSPKEPYIE
+GIDQKINVNSLMNSATMGTQLRVLETLADNRYEQLFTTKDELKKTRDDLSKTRQELAQTK
+QDLDTARKDIVALSERLAQKTAELAEAQQKIGRIEGEIAELGKTMEAQKAQVAKLETEKT
+ELNDENQRLEIELARYLNDPTIVKQMPRGLSGKIVVVNPDWNFVVLDIGTQEGLVKNAYM
+LVHRSDQLIGKVKIMDAREHMAIADIQREWASAPLQEGDRVLY
+>tr|A0A1W9LAG4|A0A1W9LAG4_9BACT
+MAFPRPNPRSDLRLQKYLADCGVGSRRACELLIAEGRVSVDGAKILEQGVRVDPSRVSVT
+VDGRPVWPERPVHILLHKPSGFLCTSRDPHGRRTFHELLPPGLGARVYSAGRLDWDSEGL
+LLVTNDGELANRLIHPRHHVEKTYCIWTPAPLDPVWMERFAAGVESEGERLAARSARSLG
+RDGFGYRCEMVLGTGKNRQIRRMFEAAGQPVLRLLRVRFGPLDLGDLAPGAWRYLTPPEL
+SALRRATGSGPGAMAGVAGPHDRPTQSARDFD
+>tr|A0A1W9LD96|A0A1W9LD96_9BACT
+MSIIKEFREFAIKGNMIDMAVGIIIGGAFGKIVSSLVADVLMPPLGMLMGGVDFADKMIT
+LREAAEGVTAVQIKYGAFINNTIDFLIVALAVFMMVKAINKLKRQEAAAPTPPAVPPPPT
+VQETLLAEIRDLLKKRSVAKEPE
+>tr|A0A1W9LAR7|A0A1W9LAR7_9BACT
+MNLDEILRQVAAGAIAPADAATRIAGSTEASLGFARIDLDRPRRCGVPEVVFCPGKTSEQ
+IVAILRRMAEAGHNVLASRISPDQARIVCEALSAAVYHETARCLTFDVAPLPEPKGQVAV
+VTAGTSDIPVAEEAALTASRMGARVERIFDVGVAGLHRLMKHLDTLRASRAIVVVAGMEG
+ALPSVVGGLVDRPIVAVPTSVGYGVNLGGLTTLMAMLNSCVPGITVVNIDNGFGAGVAAA
+MINRSGEKP
+>tr|A0A1W9LD85|A0A1W9LD85_9BACT
+MFSKTTIRGIQFEPARFLAPLAGITHSAFRRLVAEFGGCGALWTEMLSARQILREDRHAS
+PWLRRRPVEKRVIYQLMIRDTDALEPIIGRLSEIGPDGLDINLACHAPAIRQLDAGSRLY
+MDREALAPVLREVRRCWPGLLTVKIRLGHEADGWQTTFAERMKLFEDSGVDAVVLHPRFF
+EDKFKRRARHELLAWVASLSRLPLIASGDITGEASVRERAAQLQPAGAVMVGRMAAAQPW
+VFAAWDRPLSVNHAEVWRRLLDYTCEDFPPEKAIGRIKVFTKYYARNFKFGHDFATSVQN
+APDLAALRGRADAFFARSPVVDPEPTLSGI
+>tr|A0A1W9LCN0|A0A1W9LCN0_9BACT
+PVVQVKQEVAMGDKIGDAKGFISAPVHTSIAGTVMMPSVTTLPNGRHVKTIPIKAGPNQL
+SGDALKQEIFGGDWPTTGLEQHDPKKIAEAVREAGLVGQGGAAFPTHVKLVLNEKRPVDT
+LLVNGCECEPYLTSDYRLMVEFPAPVVTGALLAARACGAKQILIAIEDNKPAAADAMRKA
+AEGTPVKIAVVHTKYPMGGERQVIPAVLKREVPTGGLPLDVGVVVINVGTAAAIARAVLR
+GKALTHRVVSVTGRGIKTPKNLLVPIGITYGELIDFCGGLTPDAARVVVGGPMMGFSIAH
+VNIPVTKGTSGIVVLTQNDVKRAEETPCVRCGRCVDVCPLHLVPTKMALASKFEDWDLAK
+SYHLMACCECGCCAYVCPANIPLVQLMRKGKAQLPRE
+>tr|A0A1W9LD23|A0A1W9LD23_9BACT
+MLNLSDIPCRRPVRRIRRFAASAAVWMLAAAAGAVSPDEQMQFADGLYARGLHDLAIREY
+MALLRDSPTFPKMDQVLYRIAESYRETGNGAAADLFYRRVVREHAQSLYRHRAELRRAEL
+FIAANQPVDGIGILTDLVKAGPPAEILAGARYYLGVAAVMTNGAAQAESEWKAVMSAHAA
+TPYAALAAMELGALKQKSGAPAAEAMALYRKAAETAASSNVAAEAWFRLGDLACAEGRHN
+VASEAYGRLLKDHPAHPRAAEARLQAAWSLVHTGLAADALKLAVTAPKEGKDADEWLYLA
+GNGRRQLLDDEGAMQAYDDLAARFPASRLAGPAAYESALIRFKQRKYDEVIRRLTAVPPA
+GSLRVDVDWLLAESYSGAGRTNEAVQHYRRIAEMSATDPRAPDALYRLGRLLHERGDRAE
+ASNVLRSLAARHPKHETAPGALLVSGFALAADGHAEEAIVDWSRLARDYAASPLAEEALY
+QKGLSEIRLKREPQALESLGDLLKRFSKTRFEADARYWRGIVMENAGETAAAEEELRRAA
+ALDAPPDVRRKIRYRLAGVLHKLKKPSEAADLLQGLLNTPSQDDMSPALLEWLATLRIEQ
+GAFTPAAEAAQTLLAHTTDESWVQIGGWLLGRARIGLKDSAGAIEAFEKGAAGRGVTRAR
+LEALIELGRLYLESGKPDLAEARFSAAAELASDAKFADPKARALHGLGGAAAARGQWEVA
+SRYFLSVAILFDHPVISAECLYRAAGAFEHMKQADRAAQLIQELRQRYPDSEWAKKPAPV
+SAPSSASVSTNAPAPGRSP
+>tr|A0A1W9LBY7|A0A1W9LBY7_9BACT
+MDNESAQTVIAADAEIIGTVKSSGTVRIDGKLDGELHCEKDAVVGKSAIVKGNLNVNSAI
+VEGTVNGNIVARDRVELKSSAKISGDLKAKRLVVEDGVAFVGRSEVSASGAPVPAAPTAP
+PAAA
+>tr|A0A1W9LFK6|A0A1W9LFK6_9BACT
+MLETIFHSMQEGLVLLDSRGRIDFANRAAERLLGFSMPDAAGAKIGRYLRDVEWERVMSL
+DAREWSRLLSREIEVSYPEHRFLAFYVMPLQGTEGAEEAAGAVLILRDVTRDRQNEVQSI
+ESERLRAITLLAAGVAHEIGNPLNSLTIHLQLLKREVQGMAGARSKDLGELLDVSSREVA
+RLDRILTEFLQAVRPVKPNLESVDFPTLLQETLDFQRHEMADRRVLVETEIAPNLPTVRV
+DRGQIRQVLFNLTKNAAEAMPGGGVLRIAVGATDRLVRVSVRDTGSGITPEQMSRIFEPY
+YTTKTGGSGLGMMIVRRIVRDHGGEIEIHSEPDRGTTVTVFLPREDCLIRMLPARAPAAA
+ERAP
+>tr|A0A1W9LBV7|A0A1W9LBV7_9BACT
+MDTPLHRRLLRDEIRDHLLDRIGSGRLAPGERVVEARVCEALGVSSIPVREAIRELTTMG
+VLASATHRGAWVREVTVEETIEALQVKAALEALAARLAAPALKRDCSTLRKLLGSIVGAA
+RRRDFVAYQKFNQAFHRHIVEATGNSALLRTWSSLAFEVRTRAIMDFVAGEDATAIAREH
+AVIVEAFAEGKASRAAGLLAEHADRLVAHLRQARPAATPTPSIRVDRSRSRNVTRKGTP
+>tr|A0A1W9LGR9|A0A1W9LGR9_9BACT
+MPKEEHILFVCTGNVCRSPMAEYIFRHRLGARAGVTASSAGVFAFGGAPASFEAVQVLTE
+WGLDLAPHRSRPLTREIAERATMILVMTEQHRRDVVRSFPGLEGRVFLLASFSTSGRTVD
+IPDPIGLSVNVYRNVRERIDAAISDLILYMMESGRLETASPERAIQMKTAIGADHAGFAL
+KEQLKKLLAQRKIEAEDVGCFTTESVDYPDYACDVARKVSDGTVEQGILVCSTGIGMSMA
+ANQFPRVRAALCTNAHMARMARLHNNANVLVLGSSEVTEKEVEPILDAWLKAEFEAGGRH
+ERRVNKMRACAPTDADPMAVYETDPELYSALRNEARRQRENIELIASENYVSRAVREAQG
+SVMTNKYAEGYPGKRWYNGCEFVDEAERLAIDRAKLLFGSEHVNVQPHSGSGANMAVYFA
+ILQPGETILAMSLAHGGHLTHGHKVNFSGRFFHVVHYGVDKQTEQIDYNEMEQLAKQHKP
+KLICAGASAYSRLIDFKRLREIADSVGAYLMVDMAHIAGLVAAGFHPNPVPYAEFVTTTT
+HKTLRGPRGGMILCQARFAQDIDRQVFPGIQGGPLMHVIAAKAVCLFEALQPSFKEYAQQ
+IIRNAQTLAGALEKGGVRIVSGGTDNHLMLVDLTPVKATGKDAATALDKVRITVNKNAIP
+FDTQSPFVTSGIRVGTPAVTTRGMKEPEMEQIAGFITELLKDPANDKVAAKVREDVLALT
+AQFPVP
+>tr|A0A1W9LFV7|A0A1W9LFV7_9BACT
+MESVGRLAGGVAHDFNNNLQTILGFCELMLMHRPEGDPERADLLHVQRAAENARRLTAQL
+LAFSRRQLILPTVLDLNALVGEQQLLFARTLGEDIHLDLRLDPAPALVKADSGQIQQVLL
+NLVVNARDAMPSGGRLLIASPRRRCPGIRQPLSPRLPARHPVDMGSASCSSRTNPAPGWS
+PPACCENRATKSWRPAMPSTPGESLGNLRPWLWCSRTSSFPTGTASRWPWNSARPGPHCR
+LR
+>tr|A0A1W9LEV7|A0A1W9LEV7_9BACT
+MKTSLTGFSQRWQEALLDFLWRSWSALGVQGHKARASSRILDPEALILFTCGIGRRDPRL
+FDKMLDWVSLHERLINVQRLRTLLSRESFSGGTVMAALAHFMGRPKTAAKWRRLAQSSAT
+PKAEEPLFSFGDGRPLPIVKTPDPAFAKAGLLRDKPELRHHTRVFDPDRPENLILKLRAL
+FGVNSRAELTAFLLTHDHVNASEAARQTGYFQRTAYNALVEMKLSGLLRVTERGGENLYS
+LKRDDWEAFLGIKTGPRWTNWPPVLSALETIWLKTRDPEWAARGYLKLALDLHLLIKDIT
+PRLQAACLDDRLTAKAGGADEAFVETSLRNLEGLLDGLGDGDG
+>tr|A0A1W9LFD5|A0A1W9LFD5_9BACT
+MEDGIMHRRMFLKSAVTTGAGLLILPGGTRAGPNAPGNKLNIAMIGVWGRALAHYDSLKN
+ENIVALCDVNGKHLAEAAKKYPGAKTYADWRKCLEQKDIDAVICCTADHTHAFVANWAMN
+RGKHVYCEKPLANSVEEARVVRATYLKNKDKLATQVGTQRHSDENFNRVRELVRDGAIGE
+LKTAWAWGNRKIPRPGYLPAQGEPPADFAYDLWVGPSPMHPYNPGYFSGGPGFNCLQWNM
+YWDFGSGQVGDMGSHTMDIAWNALDAGRPTSAEATGDAFNPDVTPVELTSTFDLPANDWR
+PAMQLVWCQGGAMPKSPKEFIDLNKIGHGAMFKGSNGHIVCDFISRVVLPYGKGADMTGY
+KPRTKEQLIPPLGHFQGQWVEACKGGLKTSCNFDYAGVMIETMLLGLVAYRAKKKIVYDG
+ETGRVTSCPEADALLKRTYRDGWTLNG
+>tr|A0A1W9LFY5|A0A1W9LFY5_9BACT
+PGGKNLAHAPAVWRRMFSDIPSKNFGLNYDPSHLVWQQMDWLAPLREFRDKLFHIHAKDV
+RIRRDRLDDAGILATPLVYHEPCIPGLGEIDWSRFTGRLMEVGYRGPVCIEVEDDTFGKT
+LKGRQRALRTSGRFLRTFIAGDR
+>tr|A0A1W9LDD5|A0A1W9LDD5_9BACT
+MKTALVCGAGGFIGHHLAKRLKKEGYWVRGVDLKRPEFSKSSADEFRVLDLREAKNCTKA
+VTLANGQVVDEVYQLAADMGGMGFIHSAECEIMHNSALVNVHMTHAAGTLGVKRYFFSSS
+ACVYRNMKIGEAEMTEAGAYPAQPDNEYGWEKLYAERMAMAFGRKYGAAIRIARFQNCYG
+PEGTWRGGREKAPAAMCRKIACAPDGGEIEIWGDGTAVRSYTYVDDMVDGIFRLMQSELE
+DAVNIGCPQYVNVRELVEAVAAAAGKKIRIKSIPGPVGVMSRNFSNGRIESTGWRSQFDL
+QRGIGQTYPWIAEQCRKAGLVPG
+>tr|A0A1W9L9E0|A0A1W9L9E0_9BACT
+MTRLPIHEIRQELLDAARECPRLVVRAPTGSGKSTQIPQMLLDSGLLGDGQVVVLQPRRL
+AARLLAARVARERACRLGAEVGYQIRFENFCGRDTRIRYVTEGVLMRQMLDDPSLRGISA
+VIFDEFHERHLYGDVSLGRTLDLQAKERPDLRILVMSATLRAEALEKYLSPCRVLTSEGR
+TYPVDIEYIPRPVEEREGVWTAAAAAFERLVADGLDGDVLVFMPGAYEIQRTIGAIRDST
+ASRGYAVLPLHGDLPPEAQDEAVAPSGGRPKVIVSTNVAETSITIEGVRAIIDSGLARVP
+RFDAGRGINMLLIESISRASADQRAGRAGRTAPGRCIRLWTDRDHAGRAAEELPEIRRVD
+LAEIALTLKASGTTDLRTFRWLDPPEPRSLARAETLLRDLGATDDSGAITETGRRMLAFP
+VHPRYARMLIEAGARDAVAPVALIAALVQGRDILFPRAGKDAEERRDDLFGDRVESDFFR
+RMRAFTYAGRCGGDIGRCSKAGIRVQGVREVTALRDQFLRIARAEGLPVNETAPDDDAIQ
+KCILAGFVDHLAARADEGTLRCRLVHGRAGMLARESVVRHARLLVAAEVREIEGRDLEVI
+LSLATAVKPEWLREMFPEDFNDRVETRYDKGAKRVTAERQVRFRDLPLETKPCDPDPEAA
+ADLLAAEVMRGEIALPLWNETVDQWLLRVATAARHLPDLGIPTFTDEERRAAIRAVCAGA
+ISARDLKDRPVLAAVKGRLEPRLQGLVEKNAPERVELRNGKRARVTYAAQGAPSIAMKIQ
+DLYGVTESPRILGGRVALAVQILGPNQRPVQVTQDLAGFWKTTYPKVKQELARKYPKHEW
+R
+>tr|A0A1W9LCQ5|A0A1W9LCQ5_9BACT
+MGDRGRHAPSVAAGLSGSLLRKLDFSVLQQCLHCGLCLPVCPTYAETGLERHGPRGRIAL
+LRAVA
+>tr|A0A1W9LDH8|A0A1W9LDH8_9BACT
+MFGRSPYRELEKKLGYRFRTRSILESALTHRSFRHETPGIECDNQRLEFLGDAVLGLVTA
+GWLYEKCPDLAEGDLTKRRATITSSAALAAVGRALDLGDHMRLGRGEHKSGGKHRDRMLE
+DAVEAILGAVYLDGGLKAVGRVFEHCLLPRMISAQGHPDGENPKGDLLELCQHLKLGAPV
+YAIAAEEGPLHSREFRIEVHVAGVVRGHGCGRNKKTAEQEAALSALRALRMAGPA
+>tr|A0A1W9L989|A0A1W9L989_9BACT
+MYERLSSWENLLLAFRKAARGKRSRPAVAAFEHRLEDNLLAVQAELRARDYRPGGYESFY
+IHEPKRRLISAAPFRDRVVHHALCNLLDPLFERSFIADSYANRIGKGTHRALSRAQQFAR
+RFRYVLPCDLRQFFPGIDHGILLETLARKIADPDVLELIRRILVGGGHVLRDEYAMIWFP
+GDDLFAIERPPAAMHGRLRLPRLHRLPQSPPAQASQGRALPAQTQADGGRSRHGRCALRK
+PARQHPRLGQPRAIRKHRRLAQSGAAEGGGQEALPCRAFGYSQRCGGRRNVERSPVMKHH
+ADVLLVTVTKTETLAVLEAFKEHTRKMPRIRSISGKVYQDLGAVNGASVWLVCSEMGAGG
+LGAAQQTVTKGLAALSPGAAIMVGIAFGVNEKKQAIGDVLVSEHLRLYDLQRVGTKARKP
+AIVLRGDRPHASPRLLDAFKTADLDSHGVKTRFGCVLSGEKLVDNVDFRAQLLAFEPEAI
+GGEMEGAGLYVACHDAKTDWIVVKAICDWADGHKNRSKTWRQAIAARNAAGFVLHALRRV
+SLQMESPAKAGRAVGKRAVILHAGSGGLAVGDGAMAAGAGGVAIKGDVHGDIRVGNQSPR
+KP
+>tr|A0A1W9LD74|A0A1W9LD74_9BACT
+MNDRETKLAEIKKKLKELLVSSLSLQDVRPEDIQDDAPLFGEGLGLDSLDAVEVVVLLQR
+NFGIEIKDMDLGRKIFQSVNTLANYIYDNQKP
+>tr|A0A1W9LG15|A0A1W9LG15_9BACT
+MKGITFADRVRAYIYAGDGGDGCSSFRREKYIDKGGPDGGDGGDGGSVYLRASKDQASLL
+DLYFDPHCRATHGGKGRGKQCTGRGGEDRYLNVPCGTEVRVEETGEFVGEVLQHGDVLLV
+AQGGKGGLGNMHFATSSHQAPREFTPGTKGEQKVLILELKTVADVGLVGYPNAGKSTVLA
+AITPARPKIAAYPFTTLHPVIGTVTSEDYGATFKVADIPGLIDGAHNGVGLGHDFLRHIE
+RTKFLLFVIDMAGVDGRNPTEDYRNLRKELKLYNPELQRRPCLVVANKMDLPEAADYLRE
+FKRRTKIKPLPIAAATGAGIPELLELLRASVG
+>tr|A0A1W9LBB9|A0A1W9LBB9_9BACT
+MIDHVQTLAIVLVLFGATIFVHELGHFLVARWCGMVVETFSIGFGPALWKRTVGGVIYKI
+GALPFGGYVALPQMDPGGEEREADADDAPRVPAPPVSPWKRIAVAAAGAVFNLVFALAIA
+VTIHLVAGAGGGDRASVVGYIATNSTAYAQGLRAGDRVLAVNGRAVSSWDDLLVNSALAD
+DVVLRLRDPAGAERTLTVPTEPVPGGGRTVPGIGKHSPCLIIGITAGEPAAEAGLQRSDI
+IASFAGEPVYSVEQLIESIRSHGDQDVPVTVLRGDRSLDLTVRPRWNAERERVMIGIEFN
+TFDLSMKPVDQMWAWASPVFRILKAFATPKESRHAANAIGGPILIFKMYWMAAQTSFLLA
+LWLTGMLNVNLAILNLLPIPVLDGGHIMFALWEGITRRPPGPKVTAMAHRVFAILLISLF
+VLITARDIKRLFPGRAKPEAAPAPAATNSAPLPR
+>tr|A0A1W9LD82|A0A1W9LD82_9BACT
+MTVAAHRNEPEADKPLSITIVGASGDLAQKKLLPALFSLYCQNFLPERFNVFGFSRSALT
+HEQFREKAQEHLTCRYVPGEKCADRMSEFLSRCYYVSGQYDSADSFLDLFQAMKPVEGEE
+AVNRMYYLAIPPSVFMSVARSLGNAGLVACGPAPVWSRVVIEKPFGNDRKSSDLMAKELS
+LVFPERDIYRIDHYLGKEIIQNLMVLRFANRIFDPLWSHADIASVQITWKEDIGINRRGG
+YFDQFGIIRDVMQNHLLQILSLVAMEAPASLDAQAIRDEKVKVLRAMPPLTLSDLVVGQY
+RGRAQGNGRINSYTEEEGVPPDSITPTYAAAALRVNNNRWDGVPFLMRAGKGLDARMNEI
+RIQFRPKPTNLFGELLGALPTNELVIRVQPDETIYFRIANKVPGLKLALAESDLDLRYEQ
+AFREIIPDAYECLLLDALRIPDERVIKVHTGLALKDAADRYDRELAAFLRHGDVTLAVLG
+LGADGHTASLFSSDDIARGRGCFAMAVPRDTPPDRVTVTPDFLLHVQRIVFLVSGPGKTE
+IVRKFIESPQSVPAGQAVAGASNVELWIG
+>tr|A0A1W9LH06|A0A1W9LH06_9BACT
+MSTLGKITDGFFQRVIKPRLGAHRPEVAVGPQQGVDVGIIELGEYAMAMTADPVFIVPEY
+GYERSAWFAIHILASDAVTSGLAPAYLSIDLNLPPELADDDLELMWNVIHRECEKMGAAI
+VTGHTGRYDNCHYPMVGGATFMALGPRDAYCSPKFCRPGDRIIITKGPAIEAAGIFAAMF
+PQRIEQQLGAKIRKEAEAIFYQMSIVDDARIAASVGTRDRGVAAMHDATEYGIWGGLHEF
+AQAAGLGLVVHRDEIVVAPAVKEICELFRIEPFSSISEGTLIAAVRPAATAEVLRRLADH
+GIPATACGELTPAAEGIHAVEAGQKRALNHPGIDPFWEAFYRELKSP
+>tr|A0A1W9LD18|A0A1W9LD18_9BACT
+MSERSTAVIVGAGSGVGRALADSLARRGFDLVVAARDARDVEAVAADLGLRYGVSVKPQV
+LDLAAADTDLDAWVSRCTRLLGSVGHVLITAGMVAPDDDGLLPDARTDQLVDINFRSVIR
+LVARFARLFEQQGSGRIVVFSSIAAAVPRRRNVAYSAAKAALEAYGRGLQHRFASGPVRL
+MIYAPGYVDTSMTFGQRLLFPLASPHAVAEDVVRHMARGTRFRYFPTYWSAVVAALRLLP
+WWVYKRLSF
+>tr|A0A1W9LCP6|A0A1W9LCP6_9BACT
+MGRPTERKRTAFGERLVAAREAAGVSQRELADKLGITQRALCWWERQPVALKPEQMAALT
+VALGVSADYILGRDGDKKRGTGPTGKAKKVFEAVSRLPRHHREKIVAVVESFVAQHADAK
+>tr|A0A1W9LG20|A0A1W9LG20_9BACT
+MDPLLQVLKARARESVDDLAALLNVTPDEVRTRMADYERRGVIRGYRAVLDEDEAAENKV
+VAIIEVKVTPEREGGFNHIAHRVCRFPEVVSAYLVSGQADLLLFIEGTDLRTVARFVSEK
+LSVIPGVTATATSFMLKTYKSHGFLMDAPDERERLSVSP
+>tr|A0A1W9LDX4|A0A1W9LDX4_9BACT
+PGGVGRETALGLPSVAREGEGGRSRSTQDSRTMTASQQKKYPGKLYHKPPSRIGDGAVFH
+IRIRCLHRNPVPLTDSELARRLLESVQFYVGRRKWCNHLFLLMPDHLHALLSFAPTKSMA
+ELIGDWKRYHETQHGVVWQDNFFDHRIRNDSELVEKAAYIRRNPVAVGLCASPEEWPWVL
+GPESGIH
+>tr|A0A1W9LGZ5|A0A1W9LGZ5_9BACT
+MADWLGEVRDPRQSGRAAYPMKALLLLGVLMFLSHTGSRNHFNDNLRDALEMAKTLARLL
+GCALEALPHLDTLEKVLRSFQPDTLETLLAQLIRRLIRMKALDDWRVGGRFLLAIDGTGL
+YAFPRRHCEHCIETRHDSGAVTYSHKVLVAFIVSENGYALPIGCEFIENPGAVYDKQDCE
+TKAFHRLEPKIKRFFPQTSFGLLLDALYADQNVMRGCLGNGWDFAITFKESDMPALWAEA
+QSLLALCPGQCSTMTLPQGEGTRQIHWVNDLDYQGMKLSAIFQVDRDSEGHIVGPFAHLT
+ARPIDPSHAWKVATAARLRWRCENEGFNVLKNGGFALEHVYSHNPVASKGYFLLMLIAHI
+VQQLLARGRLGTVFKAAFHTFLHYGKQMLEALKNQPLPPDLNPPGQIRLSTA
+>tr|A0A1W9LB09|A0A1W9LB09_9BACT
+MKITRALISVWDKTGVLDFAKALHGMGVEILSTGGTAKAMRDAGIPVKDVSEFTGFPEML
+DGRVKTLHPKVHAGILHIRGNAEHEATMAKHGLQAIDLVCVNLYPFEATVAKPGVTREVA
+IENIDIGGPTMLRSSAKNMDHVTVVTDPADYGRVLECMGAHGGGTTLELRRELGFKVFAR
+TAEYDAAISAWLAAQGGTGDGAPPFVKVATGGVTLRYGENPHQAAVFYRDPSCAEASIAH
+TRVLHGKEMSFNNYLDGESALETAKEFAGTPAVVIIKHNNPCGCATAPTLAEAFDAAWAG
+DPVSAFGSVIAVTQSLDLATAERLKGRFVEALIAPGFAPDALEFLKKKSKDLRILELEKP
+VTAPGSVRQYRQIGGGLLVQDRDAGAIQHWVVPTAAPFPEEKWKLAEFGVRVCKHVKSNA
+IVLVREHAPCCHAVLGMGAGQPNRVDSVGKLAVPRAQENIKLLYEATGGYGKTPGDFAAE
+VMAGSILISDAFFPFPDNIEQAAQAGVKYIVQPGGSVRDEAVISACDRFGIAMAFTGMRH
+FLH
+>tr|A0A1W9LGV3|A0A1W9LGV3_9BACT
+MAAISAVAVASRPAIAEEDLFDRAPWSGSALLGAFLFEGDEEVENGVSLGLRLGYTFTPM
+WEFELGLDFAPSLAARQFEDTRYHLNEDTWGLRLGGDLLFHLRNQADQRIDPYLSIGGGL
+VFYGADMGLNDGTVDPIVMAGGGLQYHFDDEWALRIDAKTAIAGKDTEFNWILGAGVNYR
+FGAGAPFVPSVVGGDIDSDGDGLLDKEEPGYGTDPFDPDTDKDGLTDGQEVKEFKTNPLD
+PDCDLDGLKDGAEVLTYKTNPLDPDTDKGGVADGHEVIEDSTDPLNPADDLQLFRLEIEF
+DYDKANLRSIYHEQLDKIVKVLQRDPGATARVEGHADKRKTSKRDYNLKLSERRAKAVLD
+YISRAGGIDGSRMTHKGYGFDRPIAPNDTEENMQKNRRTDIYIRPGAGVAAPAAVADPSK
+VSVGPQAPADLPKPGEKRPAGSDRSR
+>tr|A0A1W9LIA4|A0A1W9LIA4_9BACT
+GYAKQLTEEQLAKQRTAMAKHCSEADIVITTAQVFGRKAPRILTADMLKGMKAGSIVVDM
+AVETGGNVEGSQLDREVDVNGVLLLGLGNLPGRVPVAASQMYASNLANFVEHFWDKKAKT
+FPFNLEDEILKGLVVTHGGKVVHPAVRQALGLND
+>tr|A0A1W9LCS1|A0A1W9LCS1_9BACT
+MVRAALREDIGRGDATTRALVPAGARTRAAIVARNACVVCGTAVAREVFRQVDPRIRCTV
+KRRDGAEAVAGDTLVLLEGPARGVLTAERTALNFMQRMTGIATLTREFVRRAAPHGAAIL
+DTRKTTPGLRTPEKYAVKCGGGTNHRFGLFDRVLIKDNHRAFWAGRQERSLADAVRAARA
+RYPRLVVEIEVESEAELHDALEARPDWVLLDNMTPVRLRRCVKINAGRAKLEASGGVTLD
+TVARIAATGVDAISVGALTHSAPAADLSLEFL
+>tr|A0A1W9LFQ6|A0A1W9LFQ6_9BACT
+MAKKVTGVIRLQIPAGQANPAPPVGPALGQQGVNIMEFCKQFNAATASQAGLVIPVVITV
+FQDKSFTFITKSPPASILLKRAAGIAKGSGVPNRDKVGKVTRAQVEDIAKQKSKDLNASD
+LPQAVRIIEGTARSMGIEVV
+>tr|A0A1W9LFR4|A0A1W9LFR4_9BACT
+METLKRMAGYAGPEGPVVLLIMDGVGIGKFEDGDMVRAAHKPHLDWLAKNAITSSLKDHG
+TAVGMPSDEDMGNSEVGHNAIGCGRVFAQGARLVSEAIASRALFAGQAWREVVGNVTAKN
+SQLHFLGLFSDGNVHSHIDHLEAMLTEAKAEGVQRARIHILLDGRDVPPTSALMYVERFE
+AFLKAINADGTVDFAIASGGGRMKVTMDRYGADWRMVDLGWKTHVLGRGDGFPSAREAIE
+ALRARKPGILDQDLPAFVIHRGGKALGPVVDGDSVVFFNFRGDRSIEITRAFEEATFTMF
+DRGARPDVVFAGMMQYDGDLLLPKRFLVVPPAIDRTMGACLAASGVRQFACSETQKFGHV
+TYFFNGNRSGKFNAGLEDYVEVPSDRVPFEERPWMKAAEITDVILATVRENRHKFIRLNY
+PNGDMVGHTGDFQAVRIAVEAVDLSLGRVMKAVKAAKGILVVSADHGNADDMAERDKKTG
+KAAIDPATGAPKPKTAHSLNPVPVHVYDPTNVAKARLSTAEDLGISSLAATCLRLMGYEP
+PADYTPSVVDVG
+>tr|A0A1W9LAL6|A0A1W9LAL6_9BACT
+MTLRKKTWLVAAVMVFSMLGTFYVISSMIVMRGFDHIEKEQVLQNVQRVQRAVVNELALL
+DTTTHDWARWDESYVFILDTNADYVASTLNPGVISDLRLTEIAYLDVSGRVAFGGRLVPD
+ATNLAPLSASLLEYLAANAARLRLEADSESRTGVLLLSEGPVLMAARPILTSQAEGPSRG
+TLVMVRALDAAEVEHIGRLTDLTVQARRLEASAMWSGDEDAVRALLSGAPLFTQDRDTTV
+SGYGFLEDVSGRPVLLLRVDLPRGIKAHAQTTLRALSAFLLAFIVLGAGFVVWVIERVVL
+SRLSRLRSDVARIAEEDDASARVLVKGVDELAGVAVAVNQMVDVLRESEQKYKAVIDNVG
+IGVALISPQMKVLALNQQMKKWFPGLDLAARPTCFQAFNSPPRDTACAYCPTRKTLQDGE
+VHEATTETPAGDQILNFRVVSSALRDKDGKIVAAIEMVDDITAQKRMENALRETRKMYWQ
+ILDSITDMVVCKAPGSRIVWANKAFREYHGITEQQIENLPESTLTSNTYLKPHVQDDERV
+FQTGHSMDLPEDPLSRHDGVVRIFHTIKSAVFNADGKVSLVVGVSRDITERKRGEHELQE
+AKDAAEAAAMAKSSFLANMSHEIRTPMNGVIGMTHLLLDTRLSRPQRDYAEAIRSSGELL
+LTVINDILDFSKIEAGKLKLDPIDFDLRDIVERTLDPLAELAQNKGVELVGSIQPELATR
+LRGDPGRLRQILTNLVSNAVKFTAKGEVVVGVSGTQETDTHTIVRFEVRDTGIGISREAQ
+IRLFRPFTQVDASTTRRFGGTGLGLVIARQLVELMKGSLGVDSVPGRGSTFWFTVPLEKQ
+SGGAKRASPLCRDLVNVRALIVDDNATNRQILHHQILAWKMRNGSTSNGADALNVLRRAA
+AEGDPYQLAILDMQMPGMDGLSLARAIKEDPAIADAQLVMLTSLGQQLSPQTLRSAGIAD
+CLVKPVKQSRFFDCLVNALSGSSGGLGHQAVDAPSVQVARASPPARILIAEDNLINQKVA
+LSQLQKLGYTADTVTSGIEVLDVMKRVTYDIILMDCQMPERDGYEATRIIRREEREARAR
+SSSRSPVYIVAMTAHALEGDREKCLAAGMDDYLSKPVLLEDLQAAIERWGEQFPSRPDEA
+PEAAAVPAGGPAGEPVDVERLNDISSGKPRQRRDLLDLYLAQTEDLLRGLDTAIRAGAAR
+>tr|A0A1W9LG54|A0A1W9LG54_9BACT
+MKTSDYDYELPPELIAQTPAPERDAARMLVLHRAGGRIEHRIVRELPEYVDPGDVMVVNN
+TRVIPARMYGHKEGSGGRVEIFFLEERKDGTWDVLLRSRRRPKLGHRIPLGSGRASAELI
+EDLGGGAARIRVESDVPVLELLEAEGRTPLPPYIHRPASAPEPAEDRTRYQTVFARQPGA
+VAAPTAGLHFTPTLLGAIRRRGVETVEVTLHVGPGTFRPVTADDLAGHKMDSERYEISAE
+AAQSINRARAEGRRILAVGTTSVRALETSVRSDGLVASGIGRSELFIHPPYQFGCIGALL
+TNFHLPRSTLLMLVSAFAGREAILDAYATAVREKYRFYSYGDCMLIV
+>tr|A0A1W9LHI3|A0A1W9LHI3_9BACT
+MNRFARTEMLLGAEGLARLRDARVLVAGLGAVGSYAVEGLARAGIGHLRLVDFDIVQPSN
+INRQLFALESTLGRPKVEVAAARIRDINPGCDVDARRTFIDAGTAPDLLAGGVDAVIDAI
+DSLGPKVALLRAAHQAGVWTVSCMGAATRTDPMAVRIGDLASTERCPLARFVRKRLRRDG
+IVSGIRCVYSLEPSPPPAPFDADPEPVAPGLEHRRGRKRRPLGSLSTLTGMFGLSAATEV
+ILHLAAPR
+>tr|A0A1W9LFH3|A0A1W9LFH3_9BACT
+MSHEFTVVREKVAYDPAKARARVRSQDAYWEEDILIGLADRVSSAMAEQNVTRAELARRL
+GKSPAYVTKLLRGHANMTARTMVRVARALDLRWDFTLLPQDEALDAVTTKNVGDGQVRRV
+FIVSQPGTTQSVMETPDRKPRRTTYEFSTSVADVSVAVAAR
+>tr|A0A1W9LFE0|A0A1W9LFE0_9BACT
+MKTRPIYIRGARLVDPAASRDETADLFVRDGLIAPLPPAPPADAEVIEAAGLVLAPGFMD
+LHVHLREPGGEEAETIETGSRAAARGGFTAVVAMPNTKPPLDTPERVAFVRRRGEEVGLV
+RVIPSACITAGRDGRELADLAALANAGAGAFTDDGSTVPADDVMRRALVAARELRLPVMD
+HAQDRELEKNGVMHEGEFSKHWKLPGIPAEAESRMVARDIELARETGSAVHIQHVSAKES
+VRLIREARARGVAVSGELTPHHLALIDADVNPDDANYKMNPPLRSREDREALIEAIVDGT
+LETFATDHAPHSAAAKGRGFLQAPFGIVGLETAVGITYTELVKRGLLDLTAWVQRWTAGP
+ARILGLPAPSLRPGAAADLVLLDLDSEWTVRAETFLSRSRNTPFAGRKLFGRAVRTILGG
+RTTWA
+>tr|A0A1W9LD50|A0A1W9LD50_9BACT
+MEVSVPALSAMGAVLVATARGYLAHESDTLEAVAVARGLAAAAAGRAAATSGGARDVTEL
+GAAESGLGRSLGRLMALVERYPALRADRTMAQLSEDLSATENRIAFARQAYNDAVMRYNS
+MRESVPSVWVAPSFGFEAAAYFRLENDREAAVPSVSVG
+>tr|A0A1W9LCH9|A0A1W9LCH9_9BACT
+MPESSIPPVAKALNRPDRELDLTLRPGRFADFTGQGKVRERLELMVEAARGRKDVLDHVL
+LCGPPGLGKTTLAYILGDAMQVGVKATSGPVIDKPGDLAGLLTNLERGDILFIDEIHRMQ
+KSVEEYLYSAMEDFVLDIMIDQGPSARSVRLNLQKFTLIGATTRSGLLTAPLRTRFGMTA
+RLDYYAAADLTRILQRSARILNVDLEDDGAAEIARRARGTPRIANNLLRWVRDYAQVRAG
+NRITRDVADAALAMLNVDANGLDEMDKRILDALLNKFSGGPVGLNNIAVSVGEEAGTIEE
+VYEPYLIQEGYIQRTPQGRIATERCYRTMNLVPPARQGNLIRFGSTKS
+>tr|A0A1W9LDD7|A0A1W9LDD7_9BACT
+MNTRYLHPRDEIVMTMERIYRYKMTTTSGGNLSILDENGDIWITPARVDKGALTTADIVR
+VRPDGTVDGRHAPSSELPFHQAIYRVRRDLRAVVHAHPMALVAFSLSHRVPETRVLPLAW
+QIEGKVGFAPYGIPGSEDLGRKIAAEFRRGFDSVIMENHGVCCAAPDLQAAFRRFETLEF
+TAKSIIKAKSIGPVRTLTAAQLRLYARSQPALRTFRRDAVTTREKELRRELCDFIERGYR
+QRLLTSAAGSFSARVEGDAFLITPYPFDRHEVEPEDLVLVRRGRREEGRAPSRAAALHRA
+IYRAHPQVQAVVNAHPIHATAFSICNRAVDTRAIPESYVFIREVSRLPFEMPLKDPEAVA
+RRLTPRNPAAVLCNNGVMVVGRSVFAAFDQLEVLEYTAEALVDGRAIGRHHPMSRAVIAD
+LRRAFSMG
+>tr|A0A1W9LBN8|A0A1W9LBN8_9BACT
+MKALIALEDGTCFEGRAFAGNGEIFGELVFNTSMTGYQEILTDPSYHEQIVTLTYPLVGN
+YGINDEDIESTRPHAAALVIGECSRIPSNWRSTKALPRYLEQKGMLGVDLVDTRAITLHI
+RSRGAMKCVVSTADLDPKSLTEKAKAWPGFIGRDIASEVSTKERYAWPGPHRDHQAFSTI
+AEGPLKAYDKYFNRPPDAARFRVAVLDCGIKVNQLRLMARLGCTLEVFPLGTAAEEILAT
+QPDGFFISNGPGDPAGVPQVVSNIRKVIEAKVPTFGICFGHQLLGWAFGGKTYKLKFGHR
+GANQPVKDLTTGKVEITSQNHGFCVDLKSLDPDLVETTHINLNDQTSEGMRHKKLPVFSV
+QYHPEACPGPHDSTYLFERFMELMKGTTNSH
+>tr|A0A1W9LEH3|A0A1W9LEH3_9BACT
+MKLVVLIDIEIVKDEDPAFEGRTDAVRQTMEFQVSQALRDLGHAVEVVPFRDDVIQTMTA
+LREKAPDVVFNLTEHFGGDRRKDAHVAAMLELLGLTSPGTSTAGLMLCRDKAVCKRVLGY
+HRIRQPLFHEVPVGRSRPAGRLAFPMIVKPLFEDASDGISLASVVRTREELDERIALVHG
+KMKQPAICEEFIEGREIYVALLGNERLQVLPPRELIFGPREDGGPTIATARVKFDDAYRK
+KWGIEYRHAEIEPALEKQIARISKRVFRLLAMRDYGRIDLRITPDNEVAFIEANPNPALG
+VEDDVAESAYRAGLTYPQLIERIVQQAARRRG
+>tr|A0A1W9LEZ2|A0A1W9LEZ2_9BACT
+MQKKTVPELHQMADEAGLKDLGALQKHELIFEILKVCGRQSAVMLGRGVIEILPDGFGFL
+RSPLSNYLPCPEDIYVSPSQIRRFGLRTGDYVEGEIRPPKEKERFFALLKVDRINGDDPD
+RARAKIPFENLTPLFPNQRLVLERPGGSVSVRVMDILTPIGKGQRGLIVAPPRTGKTVLM
+QEIANSISANDPDVKLIILLIDERPEEVTDMQRNTKAEVLSSTFDEPPDRHVQLAEIVIE
+MAKRAVECGKDVVILLDSITRLARAYNTLQPHSGKILSGGVDANALHKPKRFFGAARNIE
+GGGSLTIIATALVDTGSRMDEVIFEEFKGTGNMELGLDRNLVDKRIFPAINIEKSGTRKE
+ELLLHPDELQKIWILRKALNGVPPVEAMELLINKLRKSRSNLEFLVTLQG
+>tr|A0A1W9LGM8|A0A1W9LGM8_9BACT
+MIPREILRKVRRIEIRSRRLVNEVFAGQYQSVFKGRGMEFDEVREYQPGDDVRSIDWNVT
+ARMGQPFVKKFVEERELTVLFLADVSASNRFGSIGQLKKDLVAEMTAVLAFSAIRNNDRV
+GLVLFSEDIECYVPPRKGVGHGLRVIREALYHEPRHRGTAVVPALEFLNHVITRRSVCFL
+LSDFRFPDAADRLLSVAARRHDLIAVVVSDRREQAWPKDGGLVEFEDLETGERFLRDASH
+AGTRATLTGNAATERAALLSRLRRAGIDTIEVSTDPNEPYDRALIRFFRERERRLRT
+>tr|A0A1W9LBA0|A0A1W9LBA0_9BACT
+MSESIAVALEWKESHKHPPGFRARRGVNWFTVGLMYAMYYMCRYNFRFAAPGMRAEFGFS
+ITQISDIWMWFSLAYGTGQLVNGLFCDRIGGKASMLIGAIGTVLVNLVYGFGSFAGNFAT
+FAGLWLLNGYIQAAGTPGMVKINAAWFNKEERGVFSGIFGFMIQSGQVMISKLAPVLLAG
+FTLSVFVVEPGRWRMLFIVPPIFVAIVAIVLAIFTAQSPEEAGYPGAIHDDVDNSAGTTV
+PVKEAFKFVFSNPLVWFYAVAYACTGAVRHSSDQLTILFFEDVMKFNMKTNLPGIAISTL
+ALIPLMAVGGSVLSGWMSDRFFRGNRYPVAMVLYFMGAAVLAAASVSLALNWVGPTTQGI
+LLGCLFLVLIAIMANSTHSIVGAAAPMDIGGKKMAGFASGVIDSFQYYGSALSLFITGRV
+LDATKATYGWNYWFIIMTGFAAIGGFAMLALLLRQGGKRTAMKVVIAGMVIATLAGAGIG
+IYKYKQIVRENAAKAAIEAAATEAPAQ
+>tr|A0A1W9LDE4|A0A1W9LDE4_9BACT
+MGPTGRRVTAMKVLLISTNVATTPYPTYPLGLSMIAAAIERAGHEVFQFDFLQHGESVDA
+LIAAIREQKPELVGISIRNIDTTNFFREKRYIDGVKAVVARIREATNARIVLGGSGFSIM
+PEEILREVGADYGVVGEGESLIADFVTGAAKGEYPSERLLRSEPHLRGGEIPSASYDRGM
+LDFYLKGGSLASVQTKRGCTHRCAYCSYPVLEGATIREREPAAVVGDIRGLVERHGVKYV
+FFTDSVFNDDAGHFRAVVDELQKSGPRVPWTAFFKPGGLDDAVIEQMKETGLKAAELGSD
+ASTDTTLRALGKSFLFKDVIECNDQFQRHGVATAHYFMFGGPGETPATVAEGIENLKRLQ
+KTVIFVFMGIRILPGTTLAEIALRDGVIQPDQSLLDPVYYIAPAVDRKWMEEALTKGFEG
+QRHIVFPPDSFDNALRLLHKMG
+>tr|A0A1W9L846|A0A1W9L846_9BACT
+MTFIVGTGDVTDAACIGLDETGIAVRCDSGQIAASNKFALWNRGSGTLDYTISTNVDWMK
+VWPVTGTATTEADLIGITFNSASLGGGVYTGLVTVSDGGATNSPQDIRVILTVNQRPGIG
+LSTSAVYMACITNQTDSTTFKISNVGGGLMTYTNRKTQAWLAVTPTNGMVQTESDFVYLD
+FNPAGLAPGVYTDLITVTSGEATNTPQQIPVTFSVETQPNLAPVVEAGGNQTIILPASNA
+LNATVTDDGLPGFGITVQWSKASGPGAVTFTPSATVEDPTAAFSTTGIYMLALTASDGVL
+SSSDTVTIAVQPQGTFFVALMNTNPAWSAAGSWAFNVPQGAGGTNQTDGGGAPDPAAGFS
+GTNVYGYNLAGNYAASISETYLAVTNPINCGAYSNVHLGFWRWLGVESKSWDHAYVRIST
+NGTTWTNMWENPSSNFSDRAWAYVEYNLSKWADRKTNLYIRWVMGSTDSADQYCGWNIDD
+VIVRGDPVITNAPPVVDAGTNQTITLPVSNAALNATVSDDGLPSGVTNITWSKQSGPGTV
+SFAPSANVEDPTATFSAAGAYTLALVVSDGALARTGTVVVTVNSPPSYTLEVATAHGTAT
+PAPGTYTNALGTVLTNAVTSPDMQGTTQFVCAGWTMSGNDPLSGATNVLEMTVTNDAVLT
+WLWTTNYWLETAAGPNGSVNAGSTWQAAGVTTQIAATADVYYHFTNWSGDISADDICVNP
+LEMVMDAAKSVMAHFAENTATSGTPEWWLASYGWTDEFDTAESSDTDEDGMAAWQEYIAG
+TSPTDGQSRFEFRRDDVRAADEGCVIAWTSESNRFYGVWWKTNLADPLVQLATNLDATPP
+LNTYTDVVNSAETSIYYRIDVHRWPDH
+>tr|A0A1W9LH16|A0A1W9LH16_9BACT
+MKIHFLGGVDTVTGSQHLVEANGSFVLRDCGMFQGRREESRERNGRFSFDIPRLNAVVLS
+HAHIDHCGNLPALVRQGYRGPIHATTATDALCGIMLRDAARIQEQDAAYLNQKASRKDLP
+PIEPAYGVKDAEDTLQLFRGHRYGESVDVAPHVAVTFRDAGHILGAALTTFTIEENGKSR
+RIAFAFDLGRKDLPMIRDPEILHDVDALIIESTYGDRLHDDAVKAEEQLRAIVDRTLRRG
+GKVIIPSFALERAQEIIYHLGSLVNAGRLPAPRVYVDSPMATRVSDVFAKSAEYFDDDYA
+RLHRQAGHVMRPPWLRYIASVEESKSVTASNEPCIVIAASGMCEHGRILHHLKHGIENPA
+NSIVIVGFQAERTLGRRLVEGEQKVRIFGDWFERKAEVVVLNAFSAHADRNELLEYVRNV
+RPPRVFLVHGESRQREAFGAALKEAGQPEVHLPAAGDVVEL
+>tr|A0A1W9L9Z2|A0A1W9L9Z2_9BACT
+MGGCLQVDVITIFPGMLAGFFGESMLKRAARAGAVEFRVLDLRDFTTDKHRTTDDRPYGG
+GPGMVMKPEPVFAAVESVRTPESRVILMTPQGRRFDQAAARELSGASHLVFVCGHYEGVD
+ERIRTGLVTDEISIGDYVLTNGVLPAAVVIDSVVRLRPGVLGGEGATVEESFNEGLLEYP
+QYTRPPEFRGARVPEVLMSGDHEAVRTWRRERSIERTAQRRPDLAGWPAQDKV
+>tr|A0A1W9LH52|A0A1W9LH52_9BACT
+MSGQRIRIRLRGYDHRVLDQSASDIVETAKRTGARVAGPIPLPTRRERYTVNRSPHADKK
+SMDQFEIRTHKRILDILGPTAKTVDELKKLNLPAGVDITIKV
+>tr|A0A1W9LHA6|A0A1W9LHA6_9BACT
+MVIAQSGGPTVVINQSLVGAVLEARKHPEIRKIYGSLHGLKGLLEENLCDLRKETPANLE
+LVAKTPSSALGSVRKKPTPEDCAKVFSVLQKYDIRYFFYIGGNDSAETTHIVNEEAKKGG
+FAVRCFHICKTIDNDLRENDHTPGFGSAAKFVAQAFMGDNLDNRSLPGVKINVIMGRHAG
+FLTAASALARVFPDDGPHLIYVPERAFSLDKFVADVQAVYARLGRCVVAVSEGIQDEHGE
+AIASKFVKETDSHGNVQLSGSGALGDLLAKEIKEKAKISRVRADTFGYLQRSFAGVVSAV
+DAKEARLAGQTAVKYAVSGAFESGSTAIKRKPGKGYKTWIERTELKNVAKETRHMPDEFI
+AAAGNDVTKAFLDYLRPLVGDLPATGRLKAVRIAKKG
+>tr|A0A1W9LF89|A0A1W9LF89_9BACT
+MPGASLKEKVANLAAWGGVGLELGGNPKGRIQEIRDAIAGTGVKVSALCWGAHKGDLVSL
+DLEKRKKGIQDLKDALTTAGELQSTGVIHIPCFNKESDLSPAELDKILFDILPDIAAHAV
+KAGSRVLLEPLNKLETFYINRIEQAAAICRKIDSPGLCLMGDFYHMSREESDQEQAFIVG
+APWLHHVHLATGKARILPAQEEHSYVEGMRGLRKLGYTDYCSLECSIRKGTDPMVEIPKA
+FAFLREQWKLAGT
+>tr|A0A1W9LD36|A0A1W9LD36_9BACT
+MRTPSFILLPILCAAGLTAWALQPEPADTSVQPAALADQSPTADQLNLANQAGQAGVTVQ
+WNRRLGTPLSIRGRNLGERRGYSRGTGLLARGLGNAAEDSVAILDNLSGLFRARDARQEF
+AAERVDTDALGFRHVRTAQFHRGLRVIGGELIVHFDRANQAYEVNGRYVPDVSLDVTPQL
+KPAEAVRTARQDLAAGGQPGGELIAGPELVVFALGAEPRLAYELALWHFDGKAGQFRWRC
+WVDALDGKILLRFNDVQKIAAPTANGSAATISGSILSGEGGGATNVTGWYENTGFYYLYD
+KSRFWYVYNVSSSSSYPDPNTYAYRSTAAWGTSDRTEMSAARNFDAIQAYFRTVHGRNSF
+DHGNAYARANIHEGTSYVNAYWDGDDFHFGDGDGVEANSLAVLDVCAHEYTHAVDEYTAN
+LYYYGESGALNESFSDIFGACVEFYAQPDGRALYPNKSAGRSDWLMGEDAWLSSKALRDM
+RNPSNPTTVGSGNEQPSRYKGTYWYFGTGDSGGVHYNSGVQNFFFYLLCEGGSGTNDGLI
+YSVTGIGRTNAEKVAFRALAVYCGQYSDHAAVREAWISAAQDLNAAWVASAETAWSACGV
+GPTLPTVSTPFFNPPAGSYASAVAVTVTCATASARIYFTLDGNEPTDSSTRYTSAIPISA
+DATLKAKAYKDGMQPSATASARYMFLGTRFYSFPMDASPGWTTSGSWAFGHPTGGGGEHG
+HPDPANGFTGANVYGNNLGGDYANSIANTQWLVTSPLNLGAASNVKLVFQRWLGVERPAY
+DHAYIDVSNNGSTWTRVWENSAEIADSAWSLQVLDISSVADRQTTVYVRWGIGPTDESWV
+YCGWNLDDVELWGQPASGDFPAAPTNLVASAIASNRVQLTWNDASGNEQGFAVERRIGSG
+TWSELARVGANVTTCTDTSATPTTTYSYRVRAFNAVGYSGYSNESTVTTPGGAGDGWDPG
+DDTGSGATVLPAPTSAEQSHGVHTLSTSDRYDWLRVNLSAGVTYNFNSVGGSGDLYAELY
+SDSAGTTRVAYDDDSGGSLQFSLTYSPVVSGAFYLRVRTYSIGSAAAYTLKYRATGGTIP
+QAPYGGVAWALPGTVEAENFDTGGEGVAYHDVSVANDGGQYRTSEGVDIAAGASAGNGFL
+VGWARGGEWIEYTVNVASSQVCGLTVRAACQGGGGLFSVSVDGADVTGALTVPNTGGWFN
+WVNVNASGINLTAGEHVIRLSMLASGTSGFVGNFDRLQFTAAPGPKAIPGFIQAEDFDTG
+GEGVGYHDTTAANEGGQYRTGEGVDIAASAGASNGYLVGWAKAGEWIEYTVNVASSQVCG
+LT
+>tr|A0A1W9LG49|A0A1W9LG49_9BACT
+MNPHGHGWLVAIDSDGSVFPNMPAKYEAMRDTIIEHFGLAPVAGAAADAIRFVNLESRLR
+GSHRFIGLIRMSEFLRARPEPAAAGVDVPRFDSLRRYLDAGGSRSNDGLAAAAAETGDPE
+LARVVAWTRDLSARLAKSPHIPPVAAAVRAMTVMRDRADLVVISQAPAEQLHREWSGAGI
+EGLVRRIAGSEAGTKAQQVRAAMAETGVPSAQTFVVGDAPGDYAAARETGAGFFPILPGR
+EEASWSRLLDEAWPRCLAGGFDGSYAGSLVDEFLRALPESPPWTPLRD
+>tr|A0A1W9L9S0|A0A1W9L9S0_9BACT
+MDDRTDAWRLADLLRREHIVCPMDAVDREEAIGALLERLHGAGDGFDVAAARAAVMAREG
+SGSTNLSPGVALPHARLDGLARPRIAIGVSRGGIPFAAGKPPAHVILLVLTPRSEPGAYL
+RIVAALMQRLREADVARCVGACESSADILAFFTEGAPDLPPYLSVSHVMRRNPVTMSEAD
+TLADALHAFCTHNVRDIPVIDETGDVRGVVAVEDFLRLSLPEHLLWMQDLSPILHFQPFA
+DVLRKDRETRVADFVREEFVGVAPDLPAIQAARLFLMNKTRQILVVDGRRFLGVIDVEDF
+VTQLFWA
+>tr|A0A1W9LFL6|A0A1W9LFL6_9BACT
+MEKQWFVLHTLSGQENRVKESIERRAKIEDMQEYVGEVLVPTERVTETKSNRRTTTVKKF
+FPGYVLINLALYDAQKNLAERAWYFVQETPGIIGFVGGERPVPLRPSEIDTILSQVEEKK
+DKVRPKVMFDPGETVTITDGPFQSFSGVVEEVDPEHGKLKVSVSIFGRSTPVELEYSQVE
+RA
+>tr|A0A1W9LDQ1|A0A1W9LDQ1_9BACT
+FIAQPDAQIVALCDVERGAKHRGLATARKTAADASGKVGRPIGDGSLAIYRDFRELLARD
+DIDAVSIGTPDHWHGPIAVAAARAGKDIYCEKPLTTSVPEGRAVCDAVARHGRVLQTGSQ
+ERSNNTCRFAWELVNNGRIGDLREVEVNLPTDDAHHRLVRRTVGPFTPQTPPESLDYDFW
+VGPVPWRPYIPDATHFNWRFVLDTGDGEVTDRGAHVLDLVQFITNHDDDGPVELRGKGTQ
+AGGAIFDAFMDFDFEYRYADGLRVRGVSQGDRGLKLIGTQGWVFIQIHGGRLSASDPALL
+RERILPGEKHAERSPGHHRNFLDCVRSRRRPIAHEEIGHRTGALCHLLNTAMRLQRPLRW
+DPVRETVPGDPEANRMLARPMRHPWHV
+>tr|A0A1W9LGM3|A0A1W9LGM3_9BACT
+MKALVTGGAGFIGSNLVARLLAAGHEVCAYDNFSTGRERFLEPVRAAAGFTLVRGDLLDE
+PALTAAAAGCDTVFHLAANADVRFGTQHPRRDLEQNTIATYNVLEAMRANGIRRIAFSST
+GSIYGEPQVFPTPEAAPFPIQTSLYGASKLACEGLIQAYAEGFGVQAWIFRFVSILGEHY
+SHGHVFDFYRKLRANPAELAVLGDGHQRKSYLYVQDCIDAILLAMEKSSEKVNLFNLGTD
+ETCEVNDSIRWICASLGATPRLDYSGGTRGWIGDSPFIFLDTAKIRALGWRPRLTIREGI
+LRTLDYLRDATWLLEDRP
+>tr|A0A1W9LD42|A0A1W9LD42_9BACT
+MNVTTILAMAGPAGAEQQQSPMMMPMMLVLMLAMFYFLIIRPQQRREKERRAMLGAVKSG
+DRVVFGGGFMGIVTNIKDKTAIVRIADNVKVEIVRGAISQVLGKDDTPVEEPAK
+>tr|A0A1W9LB07|A0A1W9LB07_9BACT
+MAIIDFGGVRETVVTRDEFPLAKARKLLKKEVVAVIGYGVQGPAQALNMKDNGIHVIIGQ
+SKKFPRDWDRAVADGWVPGKTLFEVEEACARGTIIQVLVSDAAQRAVWPLIRKHMTPGKA
+LYFSHGFSITYRKQTGVVPPKGVDVIMVAPKGSGLNVRRNFLSGVGINSSFAVFQDATGR
+AEERCLAVGIAIGSGYLFPTTFPHETNSDLTGERGVLMGCLAGVMEAQYDVLRAAGHSPS
+EAFNETVEELTQSLIRLVDEKGMDWMYSNCSATAQRGALDWKPQFRKAVLPVFKALYKRV
+KSGAEARRVIEVCGAEGYPNRVAKELAAIRDSEMWRAGAAVRDLRPKEAAKAIGKTTRGV
+SGRSY
+>tr|A0A1W9LHI5|A0A1W9LHI5_9BACT
+MKSGTKERVIVFDTTLRDGEQCPGASMNAREKLEIARQLGRLRVDVIEAGFPVISAGDFA
+AVQEIARTVKGPIIAGLARCVSKDIDAAAAAVKPAGRRGRIHVFLATSKIHREFKLGKAK
+DEIIRLAVEGVRRARSQVEDVEFSPEDASRTEPDFLIDVCRAVVAAGATTVNIPDTVGYA
+IPDEFGALIRRLHEGVPEFADGRAVISVHCHNDLGLAVANSLAAVRNGARQVECTVNGIG
+ERAGNASLEEVVMAMRTRQESFGTLHTAIDSKEIVKASRLVSRLSGLLVQRNKAIVGENA
+FAHSSGIHQDGILKKREAYEIMDPHDVGWGATELPLTKHSGRHAVAARLKHLGYRLTEED
+IVAIFARFKEIGDKKKFVYDDDLAALVEGQIAEVPQTWSLDYLGVTSGNTTIPTATVRLA
+RSASGKMEAMVRQEASTGDGPVHAALRSIDRITGLTGELADYTLRAVSQGKDALGEVAMK
+VNFGGDELVSGRGSSTDIVEASARAYLNAVNRHFFTTDVRRRRPAGAKGRAGKRSTP
+>tr|A0A1W9LEM3|A0A1W9LEM3_9BACT
+MKKHHGDEKQHVIIFDTTLRDGEQCPGASMGLREKMQVAHQLARLKVDIIEAGFPIASPG
+DFEAVKAIAGEIKGPRIAGLARCIGKDIERCADAIAPAGDRGRIHVFLATSAIHRQFKLK
+KAKHEIVRQAIWGVKYAKKFCQDVQFSPEDASRTEPEFLAEVVRAVIDAGATTVNIPDTV
+GYAVPSEFGELIGYLFDNVDRIDDVVVHVHCHNDLGLALANSLEAVRNGARGIECTINGL
+GERAGNCSLEEVVMALRTREDSFRAVTGVDTREIYRASRLVSQLTGMVVQRNKAIVGSNA
+FAHEAGIHQDGILKERTTYEIMKPEDVGISGSDLVLGKHSGRHALVTHLAAMGFKLTEKQ
+KEVVYNRFKDLADKKKVIYDDDLVAIMRDETAHGPEVYALDYLHVSTGTTTVPTATVRLK
+KQNKVFQDSACGDGPVDATLKTIDRITGTPGELMDYSLQAVTRGEDAVGEVSMRVAFGRD
+FVSAKAASTDIVEASAKAYLNAVNSQLFARTAGKKSKKRTGNRP
+>tr|A0A1W9LC21|A0A1W9LC21_9BACT
+MANPTAILVVGGTADDVARLERAAPAGLVGGGVERVASANAALARLLTHPPGIILIVGRL
+PDMTLSDLCSRLKQDPLLAGIPVLAVGTPGAEGKGEPPVVGADGMVCGALDSPDVQSVLA
+ALLRFKRRFDDQIRREKALETVLRQRTSDLWAVEERCRILVENSPDAIFVEAEDGTVLDV
+NPEACRLQGLKRTELIGRNVTDLVPPEDVEQVRAGFSRWFTGETKEVEGFSWDPGGRRIP
+VEIRGSIIQHEGRRAAILHVRDITNRKRAEAEQSRLELRFRKLVEQIPAITYVYDFAAKR
+TSYISPQVEFLLGFTPEVWVADPDLWLRQIHAEDRERVRRAILDKHDRTHEPFAVEYRAT
+TADGRMLWISNHGVYLQDAEAEHCVLQGVMMELTERREAEEALRTSREQLAHAQKMEAVG
+RLSGGIAHDFNNMLTAILGYGQLINADPSLPATLKGDLAEILRAAERAEGLVKQLLSFSR
+HTPVEKEPLDVNDAVRSMDRLLRRTLGKDIEIVSLPDDAPCLVEGDTGRISQALMNLAVH
+ARDAMPKGGTLTISTGVLLVDEAFALAHPVLHPGPHVRIEVADTGPDLTAEELRGIFEPF
+SSVRTKGRGNGLGLTVVHSIATSLGGFVEAESAPGRGTRFLLYFPHRPDLLVATPEPGDV
+TGGAETILVVDDERGVRHLASRMLRSAGYAVTEAAGGVEALHLFEHEPDRFGLVLTDIVM
+PQMSGLELVQRIRALRPSARAMCMTGYMHEPATEENGGGPRLRILQKPFTRGALLFQIRQ
+ALDGVEPEESEA
+>tr|A0A1W9LHJ4|A0A1W9LHJ4_9BACT
+MARNEALFKAVGTGQRKEVEEIIQSELAKGGSPVELLMDSMIPAMRDLGERFSRNEVYVP
+QMLIGARAMQAGLNILEPLVAAAGHKPLGTICIGTVKGDLHDIGKNLVAMMLKGAGFKVI
+DLGVNVDIPKFEKAVNDGAQAVLLSALLTTTMPYMKTVAEHFKARPGVKVIVGGAPVTQS
+YADEIGAHGYAEDAGASVQIVEKCLGVAG
+>tr|A0A1W9LE61|A0A1W9LE61_9BACT
+MLAAMNITSAARLTGGFSRVSSLRSVVRDGYVRSAAAALAVWTAGPGRAGESADGPRGAD
+SWGVRSQGWFWVNGTPVAWVDTYCGTYKYDVTDLVQAGTQAVVVAEVNNVVPSRKGLFSA
+VHRFGGLYRDVELEATPDARIDYAWVRGDFDGQAAEVHATIAWDGAAGAPADPVLRTTLK
+TADGQPAGVDVRKVAVDPATGRAEVVVRIPPALFRPWSPDAPSLYHADLELCDGARPLHG
+WTERFGVRKLEVRGDRFFLNNAPFFVRGYGDDAVYPLTLMSPASREEHLRHLRIARAAGF
+VYVRLHTHCELPEFFEAADEAGILVQPEMPYYGDYPTEAFAFDPLRDLEELVTHYRRHVS
+LATYCTGNEGRLAAAGLNRRWGDACQDAAHGLQRHYQKRGIEAARMDPACDGYSFWTVVD
+VMVSQGETYSAQGLFNAFWETKPNGATPETFRAFNGETALLLAMERE
+>tr|A0A1W9LE08|A0A1W9LE08_9BACT
+MALPKQAIELPEDLAAFIEAWKAKPGNLIMVLHKVQEHYGFVPRDVAFEVAARLDVPLAK
+IYGVITFYHFFKLRKPGKHQIAVCMGTACYLKGGEDIIKEFETILGIGLNQTTGDDQFSM
+EAVRCIGCCGLAPVLTVDGEVYGRVTKDQLAGIVAKYRGK
+>tr|A0A1W9LDH9|A0A1W9LDH9_9BACT
+LTRHFHDQGFTRIRAIDRKPLPVWYRRVPGVESLCLDLSDPANCVRACEGAVEVYNLAAD
+MGGMGFIERFRVECLRSILVNTNLIEAAYRAGADRYFFASSACAYNTLLQQDPKVRALKE
+TDAYPAMAERGYGWEKLMSEMFCQEYTAERGLKTAIARFHNVYGPWGTWDGGREKAPAAI
+CRKVIEAKEAGDLRIDIWGDGCQTRSFMYIDDCVKGIDRIMHCERLVATPINLGSSELVS
+INDLVTLAETLGGVKLKRSYDPGAPRGVAGRNSDNTMIRSVLGWEPKIPLRVGLAKTYRW
+IEQQIRDRGFPLPHGPRRRVDRPAVRLAAQSRPVWVDGRRRTPAVQAVHGPLRHGDRDAQ
+GRAETVGREHP
+>tr|A0A1W9LFB1|A0A1W9LFB1_9BACT
+MRTLKALFENNRRWAEQAVGQNPDFFKRLVPHQAPQYLWIGCSDSRVPPNEIVGLLPGDL
+FVHRNVANQVIHTDFNCLAVLQYAVDMLRVRHVIVCGHYDCGGIKAALDLSAHGLIDNWL
+HSIRQMREKYHRELARFRSLEGRVDRLCEINVREQVQHVADTTIVREAWARGQHLAIHGW
+IYDVHNGRLKDMKLSLSSAAGTGELHRRNRA
+>tr|A0A1W9LCH5|A0A1W9LCH5_9BACT
+MHSFITATEWQGGENLVTRTEGGLSLDISSPPQFGGEGGRWTPEDMLVGGVESCILLTSM
+YFVTKNKIGLKSWTSRATGSMEKGASGLRFTRIDVRVTARVATEADIPKMQEAVKLAE
+>tr|A0A1W9LG31|A0A1W9LG31_9BACT
+MEEAIKHFVASPGYRPMTRSELAGALRLPPNLRRELRARLRDLQARGELVLLRKNRWARP
+DSGRLVTGDLAVHARGHGTVEDPDRPGEEIRIEPEDLRHAIHGDRVVVERLSDRPTGRGR
+RRSPVRDSGARGRVSRVVERRHASIAGLLKRTSHYWYIIPANARFPETVRIRDAEPGVRR
+EDGHMAVVELDPWDPKSVMLTGRLTEDLGRPDAPGVDMAVLLRQNNLVEAFPRQALEEAH
+RLSPHVAPSALAGRRDLRGLGAVTIDPVDAKDYDDAVSLALRPDGTWELHVHIADVAHQV
+EPGGAIDREARARGTSVYLVDRSIPMLPRDLTTDICSLLPDTDRLCHTVRLVLDPEGRVR
+EEETFRSVIRSRARLDYDTVQTFLSGAGGSSVPADLGATLHDMAALAGRMRRLRLDDGAL
+AFNVPEVRLDLDADGRVASIRRRGAAEAYNLIEEFMLAANRAVARRMSRARVPALYRIHE
+PPDEAQWAGMAEALAVLGVSGFAPDSTHLNDLVARVAGEPVEYPVSLAILRHLKRAEYSP
+RCAVHFGLAFKPYTHFTSPIRRYPDLVVHRILCALECGEPPPYSHAGIDDIARHASRMER
+AAAEAERESVDLKRIRYYRDLLDRGETGPHPAVVTGVIPRGLLVEIVATLQRGLVPSHAL
+QGGRASRLTPGQSLDVELARVDMQRRLVDFRPSSPERPSPRATQASGRRRHRIR
+>tr|A0A1W9L9R3|A0A1W9L9R3_9BACT
+MQYISTRGQTPAMGFQDAVITGLAPDGGLLIPTGIPDARNLLDDWARLSYQDITFEVLRL
+FVDLPEDDLRDLIDRSYSTFRHPEIAPAWKVGPIHIVELFHGPTLAFKDIALQFLSNFFE
+YILTRRNARLNILGATSGDTGSAAIHGVRGRDRINIFIMHPHGRVAPLQEKQMTAVLDPN
+VHNIAIEGTFDDCQRVMKGIFNDLGFKQHYALGSINSVNWARVVVQIVYYFSAGLYVMKT
+EKADSVQFAVPTGNFGDILAGYYAAQMGLPIRRLILATNENDILARFFSTGRYSLGSVVP
+TISPSMDIQVASNFERYLYCKVGGDSRRLTELMKQFAKTGALEIPVNANGRVDDLFVTGV
+GTTADTLAVIRRYHQEYKYLLDPHSAVGVFVGEKYLDDKVPTVCLATAHPAKFSQAILDA
+TGQDLAHHGILDRLADAPTRCTVLPADEQAVKDFIVRHVS
+>tr|A0A1W9LDN5|A0A1W9LDN5_9BACT
+MSKTYTVMVVGAGKRGMHHATAFAANPRFKMVGLCDIDAARVEAGVAKLGGGVRGGADAA
+ALARELKPDVFCFCTLPNLRLPMIEAGIAGGARLIAFEKPVALTSAELFKVRDALAAAGV
+KAVVSHQHRYGAHYRAVKEIAASGALGRIHTVYGTATGWMTHMLSHMIDYARGYAGEPAA
+QWAMAQAAGRGKFADNHPSPDYIAGIVQFAGGIRGYFEAGAGAPDQPEVAKWWGKNRIGV
+QGTEGFAEVLTNGGWRALTRRDGWREGPGAMNYDADMPPYVQDMADWLDGTDVHPCNFAA
+AAAGAEIMLALQRSAALGGQVALPLEGPADEQALLKAAVSDRKVLVSDPVNAKEYGV
+>tr|A0A1W9LCJ2|A0A1W9LCJ2_9BACT
+MPRIPDDELERLKREVSLQRLCEKYGVELKPHGKDLIGLCPFHEDHDPSFVVTPSNNLWH
+CLGKCGKGGSNIDFIMRKESVSFRQAVEILRECAGYAPAPERLTTRQGTEHPILVKPDLL
+RQGYEGQGPDLPDADLLDSVTDYYHKTFLNDPKAMTYLRQRCCLHPEAIKTFKLGYANRT
+LGYRVPTTTADGKALKARLQRLGILRESGHEHLTGSVVLPILDRNGRTVGMYGRKVTPNL
+REGTPLHLYLPGEHRGVWNEAGLFGQKEWLLCEALLDALTLWAAGFRNVTASYGVNGFTP
+DHWRLLDELKPERVVLCYDNDPAGNAAAEALRPRLEERGVAVIRARLPDGQDVNDVARSS
+NPSTSLRAGNPTAALAAILEATQAESPSRAPAQPLSSSILAANEIAASDTLGPSPTTENK
+TASNEETVSPIRVDPCPSVVQSSDAITITLGDRVYRVRGLAKNTSFEVLKVNLRVSQGER
+FHVDNLDLYQARNRQAFLGQAAEELACNPETIRKDLGRVLLKLEELQEETINKALEPEEK
+TPAMTQEERAAALDLLRDPKLLDRILTDFDRCGTVGEETNKLLGYLAAVSRKLDEPLAII
+IQSTSAAGKTALMDAVLALMPEEDRVKYSAMTGQSLFYLGDLNLKHKVLAIVEEEGALKA
+SYALKLLQSEGELTIASTGKDPNTGRMVTQEYRVEGPVMIIMTTTSIEIGEELQNRCVVL
+TVDETREQTRAIHRVQRERYTLEGLLAKRDRETIRATHQNAQRLLRQLGVLNPFARQLTF
+LDDKTRTRRDHEKYLTLIAAITLLHQYQRPVKTREHGGRHVEYIEATRDDIAVANRLAAE
+ALGRSLDELPPQTRRFLELLTDLVKRESKARKIEREDYRFTQRDARTFTGWTDMQVKRHL
+AKLVDLEYILIHRGGRGQSFVYELLYAGEGVDGGKFVLGLIDVGNLYDANRGGLEGDRGS
+ENTDRGISGAAQGHPKGGPGAVAENSTPPNTDGHETQPPPETDENARLRDEQRKAS
+>tr|A0A1W9L8Y7|A0A1W9L8Y7_9BACT
+MTVVGQVRRGAYFDSVTLMRVGRDLSALQGIVDAAVVMGTRSNKSILHSSGLLIGAFDKA
+GDTDLLVAVKANNDKAATEALAKVDGLLKGATKKTTSGEELRPAGLDDAVRMVPDANMVV
+ISVAGRYAGDLAMEALEKGLHVMLFSDNVPLETEIALKKYAAKKGLLVMGPDCGTAIING
+VPLAFANVVRRGSIGVVAAAGTGLQEVSCIISNEGAGISQAIGTGGRDVKKDVGGIMFLE
+GLKALAADKETKVILLVSKPPAKEVLARIAKAVRSIRKPVVAMFIGDKAGGPRTLEEAAL
+TAVALAQGKNASQVAQWLTARDVEIERLAKREAARRKKGQKYVRGLFSGGTFCAEAQIIF
+GSLLKNVFSNAPTGKARPLKNSLKSRKNTVVDLGEDEFTVGRPHPMIDYSLRNRRILEES
+GDPETAVILLDVVLGYGSNMDPASELAGVVRAACRKVCVVCSITGTDGDPQNRSKVAAAL
+DKAGAIIMPSNAAACKLAGEIARALGARK
+>tr|A0A1W9LH05|A0A1W9LH05_9BACT
+MNTAPKSSPSSVTRRSMLKAAGGVMAAAAVRGSAVHAADAPAPLKGNIRHSVSRWCYGKI
+PFDEFCGHCKRIGIQSVELLGPNDFPIIQKHGLVCAMVSSHSLVKGLNHKENHAECLAKI
+RAAVEATAAAGFPNTICFSGNRDGIDDEEGMKNCVEALKQVIGFAEEKKVVLCMELLNSK
+VNHKDYQCDRTAWGVEMCKRVGSPNMKLLYDIYHMQIMEGDVIATLRANLPYIDHVHTGG
+VPGRNEIDETQELYYPAIMQALVKAGYKGFVGQEFIPKRDPIASLEQSIRICDV
+>tr|A0A1W9LBZ2|A0A1W9LBZ2_9BACT
+MKPLLAALAQVNVTVGALIPNADKVVRVASEAWERGARLIVFPEMCLAGYPPEDLVLKPH
+FLEDCGVEIARLAASLPPEALVLVGAPHREAGGDGRPGNAAYIFHRGFVRGIAHKMLLPN
+YGVFDEKRVFAEGTRPTVIRAGPFAIGVHICEDSWVPDAPPCQAMRGGTLDLLVNLSASP
+YHRGKTRQRQSILQRAAAAVDAPVLYCNLVGGQDELVFDGTSLAVGPDGALLARARAFEE
+DLLYVEVPMRLRGDEAAYPACETVTVDWAPASVVPPPAPRTEPLPDDPAEVYAALKLGLG
+DYVNKNGFRRCVVALSGGIDSALVAAIAVDALGPERVAGVTMPSRFSSAETRGDAELLAR
+NLGIEFLSIPIEGPFGAFLRELDPVWPGRPPDTTEENLQARIRGVTIMALSNKFGWLVLS
+TGNKSEIATGYCTLYGDMAGGFALIKDVPKTLVFALARWRNAQGSAPVIPPTTVERPPSA
+ELRPDQRDTDSLPPYEVLDPILERYVEQDQSLDRIVGGGFDTGVVRRVIRLVDTSEYKRR
+QGAPGVKITPRAFGRDRRMPITNLYRERT
+>tr|A0A1W9LHH2|A0A1W9LHH2_9BACT
+MSLCDPVADMFNRIRNAGQALHDTVDVPYSGLKDEICRVLKREGFIRDYATEGDGSAKAL
+HVHLKYDKAEGADRIHVIRGLQRVSKAGCRQYASATKLPRVRSGTGMAILTTSKGLMTDR
+DARRQSVGGEVLCHIW
+>tr|A0A1W9LGZ1|A0A1W9LGZ1_9BACT
+MDVRKRVGDILNRVALRGDEFLIERKGKPLAVVLPVEKADAIRRAARLRLGEWRNSVAPC
+AIPACDGT
+>tr|A0A1W9LGT7|A0A1W9LGT7_9BACT
+MALYVQKYGGSSVADAKCMMNVADRIRRTRDGGHGVVVVVSAMGDATDDLVELARQVNPD
+PDPREMDVLLATGEQVSIAILTMALHRLGVPAISFTGPQAGIAAESIHLKGRIVDVKPGR
+IQEALAAGKVVIVAGFQGLDPAADIVTLGRGGSDMTAVALAWALKADRCQFCKDVPGVFT
+TDPRIVPEARKLDEISYDEMLELASMGAAVLQSRAVEFAKAYGVTLEVLSSFEDRPGTLV
+KEEVKAMENIVVRGVAADKKQAKVTVLGVPDRPGIAAGIFLALAKANVNVDMIVLNVSGQ
+GQLADLSFTVPESDLKQTLAVLQSVVPEVSSSGVTHDSNIAKVSVVGVGMRSHSGIAARM
+FSALAGHGIDIHMISTSEIKISVVIPKSQADEAIRVLHREFGLERETAAPAARPAPRSAT
+RRRAPPAGRGRR
+>tr|A0A1W9L9D0|A0A1W9L9D0_9BACT
+MTKNAEMVIFTRTFDMLTWLLPATNHFPKAHRHSLTKRLLDAAFDLRERLEEANLRQGAG
+RMERLRRADEALARMRLYLRLAAKWGWQSSGQYEHGSVMLAEIGKLLGGWQRSTSDPKPR
+GRESSGRGSEVEA
+>tr|A0A1W9LD54|A0A1W9LD54_9BACT
+MNVTWLGQSGYLLEGGGRRLALDPYLSDIVEREQGLRRLVPPPCSIASLAPDALLITHDH
+LDHYDPETVAAILSAFPACRLAGPASVMAHAARDGIAAVRLVPLDVGAAVRLGDVEITAT
+PAHHSDASAVGLLIRAEDARLWFSGDTLYTPEMSERILQLAGRAPDAAFVCMNGRLGNMG
+IDDAVRLLAEIRPAVAVPSHYGMFAENTADPAAFVAACARAGLRALVMDPGRPRAFPGGD
+DDIHDGS
+>tr|A0A1W9LBI3|A0A1W9LBI3_9BACT
+LDLEFAARPPEFMPETVFIGGGTPTALAPKELSRLLSMIHQRFDLRRVREWTCEANPGTL
+TREKARLLWDAGVNRVSLGVQSFDPQTLAFLGRIHSPTEAKDAHQLLRDTGFGNVNLDLM
+YGIPGSPHEILESDLAQVVNLGPEHVASYCLIFEEGTPLTNLRDAGEVAEMDDEEELEQY
+RIVRARLRAAGFGHYEISNFAKPGFECRHNLLYWSGGEYLGFGPAAHGHWRGTRYGNLRS
+VEEYASALREGRDIRVFEEHLEPEAKARETLVMSLRRLGGVSKIEFLQATGFDYGALRGK
+EIAWLCELGLLRQSGDLLGLTEKGLFVSDAVFRELV
+>tr|A0A1W9LEI3|A0A1W9LEI3_9BACT
+VGVKEILGLPRGVIEDRFNLDPNEGIAIDFFGTPFKGLIGGGFLYTARESLHLGFAARIE
+SMTHAGLSPNEVMDALKAHPVVRKYIRGAELLEYSAHMIPEGGYDAVTELHGNGVMIAGD
+AAGFVNMSIYKEGTNHAMESGTCAAETAIEAKKRGDFSAQSLAGYRDRLNQGVVMKDLKK
+YRKVPEVLEGSPELLSLYPQKINRLMIDYFTVSSRTKSETQKQAIKTFLTGLPKFKAIRD
+LIRARHLA
+>tr|A0A1W9LF04|A0A1W9LF04_9BACT
+MKILVIGATGFLGRDVAARLAAEHEVVAAGGRTAPAGGIRLDVRDEAGLRRVLAETAPDC
+VVHLAAYREPDFCEDEPDETRRLNTAPVAVMCGALPPAARLVFVSTDYVFDGETPPYAED
+SPRRAVNVYGQSKIEAEDFVLRRPGSLVVRIPLLVGAGPAFESSGFLQQIVCALQNPKPQ
+EADAVLRRFPTWIRDVAEALAFLVGRGATGAVHYSGAEGLTRYEMTAQAAEVLGMPMDHI
+RPSDRIVPRRAARPRDSQLATDRIRALGFTRFTPFRDVVRAFASTTRWDAEVGRKEHEGA
+KEGPTPQ
+>tr|A0A1W9L9Q4|A0A1W9L9Q4_9BACT
+MSTLLKPEEISAILRRQLENVDLSADVSEVGTVISNGDGIARAHGLGGCMAGELVEFSGG
+VTGIALNLEEESVGIAVFGEDGLVREGDEVRRTGRIAAVPAGDALRGRIVDALGRPLDGG
+PAIESSERRPIECRAPGIMERQNVHEPMMTGIKVIDALTPIGRGQRELIIGDRKTGKTTL
+VIDAILNQRGGDVMCFYVAIGQKRSTVAQIHETLKRHGAMEYTTIVAATASDPAPMQFLA
+PFAGCAMAEHHRDNGRHALVIYDDLTKQAQSYRQLSLLLRRPPGREAYPGDIFYLHSRLL
+ERAAKMSADRGGGSLTALPIVETQANDISAYIPTNVISITDGQIFLEAGLFNAGQRPAVN
+PGISVSRVGGDAQLKAMKKTAGPLRINLAQYRELSVFAQFSSDLDAATLKQLADGRRLME
+VMKQGPNAPIPPEKQVAILFAAANGYLSSLEASQVRRYEEALFTAIDERYGDYVRRFREL
+PEMNETLRGLIEAALKDFGERFRA
+>tr|A0A1W9LB26|A0A1W9LB26_9BACT
+MNRAAIYAGTFDPITLGHLDLIERAVRIFPRLILAVAARSTKDPLFTLEERVAIAREAVA
+AMPGLEVEPFDGLLVTYARQKKIGVLIRGLRAFSDFEFEFQMALTNRKLAPDIETLFLMP
+NEDYSYVSSSTVRQIAELGGTVRQFVPEASRQALARKVGVASSDGAAG
+>tr|A0A1W9LF49|A0A1W9LF49_9BACT
+MPRNPQLYEAILRGNRPAAQELTRQAVADGLDPLGIVNDTMIPALHELGEQFSAKKIGLP
+DLLVGARAMQSGVDLLEPLLLKDQRAPRVRVCIGTVKGDRHDIGKRVVSIVLRAAGYDVD
+DLGSDCGVERFEQAVEAGARAVLCSALITRVTPYMKTVVDHVSDRPDIPVLVGGSAVTAA
+FAEKIGAAYAADAADTVRLLDELLAVGP
+>tr|A0A1W9LDM5|A0A1W9LDM5_9BACT
+MIERTATIQNSHGIHCRPSAVIIKASAAYPGEILVTAENGQCDLRSVMQLIALGLRQGSR
+VTIRVTGPDEEAFCGRLVELFETRFDFPPRAEGDRPADSLGAFA
+>tr|A0A1W9L8W0|A0A1W9L8W0_9BACT
+MAMTSTGVTATATFAGGCFWCIEEVFRQTPGVTKVVSGYTGGQKANPTYKQVCSGKTGHA
+EAVQITYDPAKVSYEKLLDVFWHAHDPTQLNRQGADVGTQYRSAIFTHSDAQKKAAEVSK
+AALTASGEKGGPVVTVIEPATKFYPAEDYHQEYYANNREQPYCRNVIQPKLKKLGLRE
+>tr|A0A1W9LGJ5|A0A1W9LGJ5_9BACT
+MSGLQIRGLPGEVRGAADAVEAVAPEDPRSGEDRPRLLLVGRNEAKLEALAAQAGSVPWT
+TDLDAALADPVYAVYFDAQTTDRRVDAVRRAIAAGKHVYCEKPTALTSADAVDLWRRAEA
+AGVKHGVVQDKLWLPGLRKMRALVESGFFGRLLSVRGEFGYWVFEGDRTPAQRPSWNYRK
+EEGGGIILDMLSHWRYLLDNTFGAVRAVSCLGATHIPRRWDECGQPYDCTADDAAYATFQ
+LEGGVIAHFNSSWSVRVRRDDLLTVQADGTAGSAVAGLRKCWIQPAGATPRPVWNPDADQ
+PLNFLHGWLEMPDAETYDNAFKIQWELFLKHVVLGTPFRWTLLEGAKGVQLAELAQESWR
+RRAWVDVPDLGAAETKP
+>tr|A0A1W9LDW3|A0A1W9LDW3_9BACT
+MSDLIPDRGAFKAARRVVVKIGSRVLVQRDGRPDPRRLAALVDDIAGGHREGREMIVVSS
+GAIGSGMHALGMRKRPRSLPDLQMAAAVGQLRLMGLYDEMFRARDCIVGQVLLTHDALNV
+RERHLNARNTLINLVRHRIVPIVNENDAVAVEEIKFGDNDLLASLVALLVDADLLILLTT
+VDGLRAPRKGRGTRRVPWLPSVTARDLALVFGSGNEISTGGMASKLRSAHNVARAGIPVV
+IADGRRAGTVREVLGGLDTGTLIGRPRGAVPWGARERWIGFFHKSCGAVIVDDGARRAIA
+ASGRSLLPIGVRGVEGAFSAGAVVDVKGLDGGLVARGLAAYGADDLRRIQGRRSSEISGI
+LGACDYEEAIHRDNMVVFESDGREPA
+>tr|A0A1W9LHL3|A0A1W9LHL3_9BACT
+MPSSATERLPEFRVFETDEFKKALVRLGPPRFLRGKLETYVYPQLRQGPFFGPNIRKLQG
+YRPATWRYRIGPYRIFYSVDEDERIVFVLTVDDRKDAYR
+>tr|A0A1W9LF71|A0A1W9LF71_9BACT
+MSQTKKHATESRKSRATEKKGPGAKPKPAEAPKPEPAHPAPPRRDVTRPGVRKPSGRVRP
+AAKSARAGEEDREPIPVMAEKIRAAAHGAAGNAATAKMDRDLRNQKLKDLIALASEQGYL
+TYDDINEVLPESSVSPEDLDGILVMLRGMDIEVMDSSDVDKFKSAIEEEARAKQAQRTDV
+LDDPVRMYLKQMGQVPLLTREQEVEISKRIEEAETTSRNLFARFGFATRAYLAIAERLET
+GKERFDRVINDKHVTNREKYLKALPKHRVEIQRAHKSAAALFADCAKAKGTVRERAARVK
+AFEKARDKLAALLEKLYFKQKAVEDSMGVADEVYVQFRTARRTIERLQPNRKSKTAQSAL
+AAAVDQAAEIAHDALVPEAEVEARHQELKLWLRKGLRAKSEMVEANLRLVISIAKKYTNR
+GLSFLDLIQEGNMGLMKAVEKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMI
+ETINKLMRIQKQLIQEFGREPTPEELSEEMNLPVERVRGVLKIAQQPISLHSPVGDSDDT
+SFGDFIPDMSAENPSEVTAYSLLKERLREVLQTLTEREQEVLKLRFGLIDGYSRTLEEVG
+RKFHVTRERIRQIEAKALRKMRHPTRLRKLAGFLEGNI
+>tr|A0A1W9LCQ3|A0A1W9LCQ3_9BACT
+MSEAWEKAERALSDTFGFSGFLPGQEPAIRAILEGHDALVVMPTGGGKSMCYQLPALVRD
+GLTVVVSPLIALMKDQVDALVARGVRATAINSTLAETEMAARLAAMGRGDYRLVYIAPER
+FRSERFVRALAPVRIGLFALDEAHCISQWGHDFRPDYLRIREALASFGRPQIVALTATAT
+PDVRGDITAQLGLGVDGRSPPRVFVSGFARPNLVLGVRRVGGREDKLAFIHAAAGKLGAG
+IVYCATRKNVERVAGELGPEAIAYHGGMADGDRKTAQETFMKAARPLVVATNAFGMGIDR
+PDLRFVIHHDIPGSLEAYYQEAGRAGRDGATAFCDLLFNYADVRTQEFFLDGANPSPDTI
+RGVYAVLAAKCAHAPAELAAKDIAGRLPDKVNDMAVSTAIVVLERAGVIRRTYGQDSRVA
+AFDVTRPAVMAKDLPLDFAALLRKRRRDEQRLARMVAYAGPGRCRHRFILDYFGDTTSDP
+SCSSCDTCSGRSAPPRPVLPEFARVSAPRAAPSAPEPAPDPEDEGPFDERVFAALKAWRQ
+RTASAHGRLPAYCVYTDRTLRDLARRLPADAAALGRVHGVGPAKLARFGAETLDIVRAHR
+PA
+>tr|A0A1W9LG88|A0A1W9LG88_9BACT
+MSWRTGSLIAGRLSGRNVEFGVLPIGALGLALATLAMGGITQWPAAAVAIVAAGLSAGLY
+IVPLEAFIQLRCPKDRLGEVLAANGFLSWIGVLAAAALMLLFDRLHVSPAQGFVVMGWLT
+LALTVYMMHRPIYETHKLRFLFRLMKSIPIAMEDPPKRIVESLRAARKALDDGYMVCIFA
+EGALTRNGLMRGFKPGFERIVRGTNHPIVPIYIGGTWGSVFSHFHRGFHARVPIRLPYPV
+GVVFGRPMPSDTPADAVRQAVQELSCDYYDDRRRTRRPLGRAFVAAARRNWSKLAMTDTG
+GRRLTFGHTLAGAVALARRIAPLTRGQEAVGLLLPPSVGGALANLALALLRKTSVNLNFS
+VSPEAFRSAIGQSGLRTVLSSRAALEKIKPPSDLPGLVYIEDLVAAITPARRLAALLTAR
+LAPAWRIAPCRGFRPDDVATIIFSSGTTGEPKGVLLTHHNIRSNVEAVSLVFRPRAGDAL
+AASLPLFHSFGYTCGLWLPLLAGMRADFHPNPLDTARIAQMIREEGCTALFTTPTFLLGH
+LRRAQPDDLRSLRHVITGAEKLKPRVADAFEARFGIRPREGYGTTELSPVAILSLPDEGE
+GPYAQSGWKAGSVGMAVPGVAVRIVDPDTGERLPTGTPGMLIVRGPNVMRGYLNRPDLTA
+EVIRDGWYWTGDIAAVASPPNAARRLPDRGSSRRDLGEGGPATPAATRNHGGNLVAGRAE
+PGGQTFRCARWPRPAVAATADITWSKASSVAATGGRGGQAPRRTTWPLWHPGGANGMLDG
+TCDRFSNPSPPWPDWRCARCCGSR
+>tr|A0A1W9LF83|A0A1W9LF83_9BACT
+MKTNPRISRRVFLQMAATATAPAIVPASVIGPNPPSGRIVMGCIGVGGMGMRNLRAALGH
+DDVQIVAACDPVRSSNEYGHWFKDGWRGPWFGREAARDVVNDHYARKTGRADYRGCEAYT
+DFRDVLARSDIDAVTVVTPDHWHGVITVAAARAGKDIYCEKPLSLTLGEGRAMVDAVRRH
+GRILQTGTHRRSAASARFLCELVRNGRLGKLSRIGVEIGHNHRESPRNWTPQPVPEWLDY
+ETWLGPAPWAPYHKDRCLYSFRFIQDYSGGNVTNLGTHMIDMVQWATGHDDGGPVEVEDL
+GGGFPTAGLFDVADPAHFRCRYADGLAFECHTGDRAAYVKFEGERGWLAFDDVITASDPA
+LLRERIGPGEIRFEVSDDHMRNFLDCVRSRREPVAPVEIGHRSAAICHLGNIAMEMKARL
+GWDPAAERFTGPRADEANRRIHKAYRGPWTL
+>tr|A0A1W9L8E1|A0A1W9L8E1_9BACT
+MQICLGATYSWAVYVAPLRESSGLGQAAVQAPFAIFYYVFPLTMAVLASVPDRIPPRVKA
+VVGGLLFGGAWVAAGFTAQDFRLTTLCIGVLGGIGAGFAYLVPVATAVAWFPRHKGLVTG
+IAIAGFGGGAALLGWVADRLLDLPGWTPYDVLRAMGVVFLAIVPLAGLAMRLPPDAVPGA
+ATARIAARAVLGRGAFWILFLTFSAGLAAGLAINGNLRQLGASAADAVSLVPLFALSNAA
+GRILWGAFADRVRTASSIAANLVAWTLLLAVAPMLLGSAAGLKIFAAASGFVYGGVLVVH
+PVAVARRWGAAAFMRVYGWLAAAHFLAALAPPLAGRAFDLTGSFAAPLVALAVAAALAAV
+LVWRGRPALETPAG
+>tr|A0A1W9L7S3|A0A1W9L7S3_9BACT
+MTSDEAIAKTRALLEGLLKSMEFEATVTARSQGDAGILLSVSAPDAALLVGEEGQVLEAL
+QYAMNRMLRRTLGEEWFCVLDIGGYRERRREVMAKEALEIAARVRESGRSFTFPSLSASD
+RRAIHRALADDPVLETVSLEPAVNGAKRLVIQCRPPAAPADAQPTA
+>tr|A0A1W9L979|A0A1W9L979_9BACT
+MRIGCATRKAHMGWSWIERVSPPGFSGVLEILVLAAGFYFTIQFFRGTRGAQVLTGLVVV
+LLLLTILTRLFHMEALYWLLQRFSVYLAVALVIIFQPEIRRALAELGKQHVFGITAGERS
+LVDAIVQSAVLLSERKVGALIAVERQIGTRPIQETGKPIDGRVTPELLATIFHPHTPLHD
+GGVIIRDGRIAAAGCVFPLSQQDEITRTLGTRHRAAIGLTEESDAIVVVVSEETGTISVA
+FNGRLSRGIDEDRLRRTLTSVLHRSKQKKSRLERVRDRLSPGGATLVPADEPAPGEADHG
+>tr|A0A1W9LHF6|A0A1W9LHF6_9BACT
+MNGFIAMGLAAAIGLSATAARAASDWEDDFGQASELAKKEGKYMLVDFSGSDWCGWCIKL
+DNEVFQKKAFKDYAKENLVLALVDFPRNRPLSKKDKARNDALAKKHGVRGFPTVLVMSPE
+GEVVGKTGYQPGGPEAYVKHIQEFVDAHKAKGGGAGAAKTSAEK
+>tr|A0A1W9LHD5|A0A1W9LHD5_9BACT
+MNLPERPIDRLLEIMRLLRSPQGCPWDREQTLDSLKRYLVEECYEELDAIDSGDRAKIRE
+ELGDVLLQVVFQAQICAEAGEFTFEDVAAAIADKLVRRHPHVFGEVKVDGADEVLRNWDA
+IKRAEGGAETPKSAVDGVPRSLPALQKADQVQSRAARVGFDWDETRHVVAKLDEEIAELK
+EALASGDADHIREEIGDVLFTVVNLTRFVKCSAEEALHRTTAKFIRRFQEVERLVHAQGR
+SLDACTLAELDALWDEAKKTGR
+>tr|A0A1W9LEX8|A0A1W9LEX8_9BACT
+RSGDIITAVDEVPVSGVRAIQRAVFKHEVGETVKLSVLRGDQEILFEIVTERMPDVGQPA
+P
+>tr|A0A1W9LCX5|A0A1W9LCX5_9BACT
+MTAGGLVEAAGVTADLPADIRMALDVSFESAGKRVTVRMCDYASAGSTWDSNSTLRVWLP
+QPLNLANPFEGIPEALKKPHSMLTIDSTWPAPPGEESWAFVEDLKKPLPFVLFWKDGGGP
+QPGQLDLRPGLAVKRGFPDPKGVLDTAYADLDAFIAFAKLGGNGAIPVTTAKAKTEGTEA
+YSIEVTPKGIRLSAGDSEGIRRAIFHLEESMATAEGPFLSPGVVRKKPWLRNRITRCFFG
+PIKRPPLNRDELMDEVDYYPDAYLNRLAHEGVNGLWLSVEWADVTKTSFREPSPDMERRL
+AKLRRTVEKCARYGIKTWLYSNEPDGFHSADDPMLKAHPELAGAGSPSRRYVCPNSEAGQ
+KFIYESTRWIFSQVPGLGGMINISLGEHGSSCLDSVGVEGDRRPNCPRCSLVPNWQTLAA
+GQGAMARGVKAGDPNAEFICWLYMPAWKPMAPWVYELSAHMPKDVTLQVNYESGAVKYQL
+DRPKVGGDYWLSFTGPSDRFARIAGQAASHGTPMSAKLQVGCSHEAATIPFMPVPSILYG
+KYRQMPSMNVASVMQCWYFGNYPGVMNRAAGRLAFEDFSGAEDDFLRALALPEWGGDAET
+VVKAWKHFADGFQNFPLSTRFQWWGPMHATPVWPLHLKPALKPLQPTWLVGGPCGDAIGE
+ALDNHSLAEAAALARKMSDEWSRGVALLKSLESRFQGNRERRLDIGLAEAIGIQFASAQN
+MLRFYLMRSRLFDLAPAEALRQLAAMEALVREEIRNSERLDVLCSADSRLGFHSEAERHQ
+YSGARLKWRVEVLHDLLATEFAEYRAAFAAGRQVSRFAKGRAVYDCGSGWADCKTYRWRA
+ESENGDLVLRVEMKAPKAGASFAMHLCDPLVTSHFWGIRFATSGGVADTRDVGLKSELYR
+TPEGAAGVTLRIPSEGLLMLDPSGRAYAFNLFVSSPASDNWPTGMDESDLGKYRLALDRF
+QPQKMGYLRTTPEK
+>tr|A0A1W9LEY6|A0A1W9LEY6_9BACT
+MMRVENSVLVLVDVQERLLPAMHGSEALVASLDRLLRGAAALQVPTLVTEQIPAKLGPTV
+SSLLAAAGGRPVIPKSTFSCAGEEAFMAELRSLGRTRILLCGIEAHVCVYQTACDLLDAG
+YGVDVAADAVASRDPDNRRIALDRLARVGVGVTGVEMALFELQRVASGDAFRELLKIVK
+>tr|A0A1W9LGS7|A0A1W9LGS7_9BACT
+MKETIIVRAESRDRVGSSAMGRVRREGRIPAVVYSEGRPGENVQIVAHDFAQMMKHHHSE
+QMIVDLDVAGTKPRKVLLKAMQHHPVKGNVTHIDFYEVSMTRKLRVSIPLRLVGEPLGVS
+QQGGILDHLLRFIEVECLPADILEDIPIDVAELAIGKHLSVKDIKLDAAKFTILTGADVA
+IAAVSMPKAEEEVAAPAEGEAAEPEVLTAKKPEDGEEAEGGKDAAAKGGKDAAAKGGKEA
+PAKGAKEAPGKDAAPKAGKEKAGKK
+>tr|A0A1W9LF79|A0A1W9LF79_9BACT
+MGNLLITARCNRQCTFCFAKLRIAEMIQEKEKGLNMSREDIRAAMDFMERTEEKSLRLLG
+GEPTLHPEFIDIVNEGLQRKFHVHLFTNAIMTKEVADFLAGIPPERLSILCNISPQASDT
+DRQKGMRQYALERLGSRVSLGITITEPQFEYQYLIDHIKKFKLRPKLRVGIAQPIVGKEN
+VFLKPSEYAAAGHAIAQMARACVKEDILIGFDCGMTLCMFSEEDLGTLATCSDGYTSVCD
+PIIDIGPNLDIWHCFPLSEVLNSNLKKFKTRREAARYYQAVVGAYRNLGCRPECMRCDFK
+RRGQCFGGCLAHAMNSLNKLPPRL
+>tr|A0A1W9LE72|A0A1W9LE72_9BACT
+MKAQIAGNAAGEGKRTRVLYVDDTPLDVDRIHAALERASGFELCTCTTPAEMEGCMARGG
+WDIVVTELGVFGLGTFGLLDRIRESDPKIPVAIVAGAGPDDLAAEAIRHGAVEFIRKSDV
+DPRSLPRLLRHLIDKHRLAWGNRLLEQDQRRIEGQMMATEERLRLLDMAAESASNGIVIT
+DRAGGILWTNAAFVRQTGYTREETAGKTPRILKSGRQNRAVYDALWHAILGGNTWQGEMV
+NRRKDGSLFTEEMTITPLRGAGGEITHFIGISVDVSEERRLRSQLAQAVKMESIGQLAGG
+IAHDFNNLLQAILGYAELLRSGLKDEDPRAADVDQIRAAARQAADLTRQLLAFSRRQLIK
+TEPLDLNAVVQGTARLLKRVIGEHIRMDLQLADDLHPILADPGQVESVIMNLAANARDAM
+PDGGRLTLATRTVTFQERDLACFADARSGRFACLSVTDTGVGMDAEILSHIFEPFYTTKA
+IGKGTGLGLSTVHGVVHQHGGWVHVYSE
+>tr|A0A1W9LCT4|A0A1W9LCT4_9BACT
+MKPRKPAPSVAERDRILAELHRDAAARQQSYRERALRVLPHICASCAREFSGQRLRELTV
+HHKDHNHDNNPPDGSNWELLCMYCHDHEHEKHKMAGYGGGAESGDEPKSPSIANPFDGLD
+KLLNPPDAKE
+>tr|A0A1W9LFS0|A0A1W9LFS0_9BACT
+MTREDSYDVAVIGAGPMGSFAAERMARAGLRVILFEKDAVPGASGVCAGAINAEVARFIG
+LPAEAVERTLHSLQVRTPKRTRAWTFPQPAYVTVDRRRLDRLLADRAVAAGAELRTGSRV
+IRVNPEHQSLACDPDEEEVHARVFVFADGPNSLARERRGGLRYAAVQYELDAPANDLPAL
+EFFVDARRIPFGYAWAFPKRDAVTVGLGRLTAVRGLSLWNLLDQFVRETPELRGRRILRR
+QGGTIPAGAAPVLQRDNWLAIGDAAGMVNPLTGGGYVCGFKSAVLAAETCIEAFRNGSFD
+ERALAAYPRRLRATKQYAVVRLGHLALRAMLATHRATGRSLYPLALDAYLRLVHAAMRLG
+ARAF
+>tr|A0A1W9LET9|A0A1W9LET9_9BACT
+MDGDPTNRRKEEAIDVIRGDAEADRHRHHFDAVRLIHRALPEIHLSDVDPSIEFLGRRLS
+FPLLISSMTGGDSERLRTVNRNLAIAAEMAGVGMGVGSQRVMFENPDAVDSFELRALAPN
+ALLFANLGAVQLNCGYTAEHCLAAVEVVGADALILHCNPLQEAIQPEGDTLFGGLVSQIA
+AVVEQLPVPVVIKEVGAGVSAADVEALMRAGVRIIDVAGSGGTSWSRIEGHRRAAAGIDD
+GLGAAFQDWGIPTPDALRALRRYRGRIALIASGGIRSGVDMVKAMVLGATMAGMAQPFLE
+PALESAERVVDVISRLKREFMTAMWLLGVDRAQKLIGNDALLLGGRPAAESA
+>tr|A0A1W9LHL6|A0A1W9LHL6_9BACT
+MESMTPYAHTRPDRPPDDWQPLEEHLRAVAIHASGFAEPFASADWAWNAGWLHDLGKATT
+AFQHYLKKNSGLDDPDYDADGSVSNHASTGAAFAEDELRLPGRVLAYLIAGHHAGLPDWH
+SAETGNAALPCRLPEGRNNLETIRAYAAKVGRQLRPLARPPPFVKPQGFHLWIRMLFSCL
+VDADRLNTEEFGDNERHSKREVFPTLGDLAPRLFQALETLERAAADSDVNRIRAEIRRAC
+ETAAGKPPGLFSLTVPTGGGKTLSAMAFALRHALKHGKRRIVYVIPYTSIIEQTAQTLAG
+IFGRENVIEHHSNLAPEHETERSQMAAENWDAPIVVTTNVQFFESLYAAKTGPARKLHNI
+VNSVVILDEAQLLPPELLTPCVDAMNRLVESYGVTIVLATATQPALPRPEKPVEIIPPEM
+RLYERLKRTDIHLPSDLNQPSTWEEIAARLLPHDQVLCIVNTRRDCHDLFELMPEGSIHL
+SALMCGAHRSAVIDDIKRRLKAEKPCRVISTQLVEAGVDIDFPVVYRALAGLPSIAQAAG
+RCDREGKLTAAGQFGQVHVFVPPKKAPLGLLRKGEDTVREMTALDGFDPQAQEFLVRYFA
+LFYSRLNDTGSRFDDWLVRDVNPKLEIQFRTAGNDFRIVDDSAQQSVLVRWGENPAWLAQ
+LRGIGPTRENLRALQRSCVNLSQRVFLGMKLSGNVEEIHPGFWLWIGRYDAIRGLDAFGD
+GYSPEELVG
+>tr|A0A1W9LFY4|A0A1W9LFY4_9BACT
+MSENTAALDPKLEQIVSSVETLSVLELSQLVKALELRLGVSAAAPAAVAAAPAAGAAPAA
+EEKTEFTIVLAATGGNKIAVIKELRALTSLGLKEAKDLADGAPKTVKEGASKKEAEEFKA
+KLEAAGAKVEIK
+>tr|A0A1W9LBK7|A0A1W9LBK7_9BACT
+MIDYVQWCRLKEMAERDHLTSAQIARALGLAARTVRKWLKEPYRPRKRAPRPSALDPFKG
+QIMGMLKEHPYSAVQVLATLQEQGFGGGITTVKDYIQQIRPRGQEAYLTLAFAPGECAQV
+DWGSWEMIGVGTTRRRLSFFVMVLGYSRMLYVEFTLGQSQEHFLACHRHAFEAFGGVPAK
+IMCDNCKTAVLSHPHGLRPVLNPRYADFAGHYGFAVKACNVRKANEKGIVENAVGYVKHN
+FLAGRPIGEFASLNPAIGVWLEQTANVRLHGRTHRRPVDLFVAEQPMLKALTVHPYDCAS
+IDTALVNSQFRVRVDANRYSVPAAYAGRKLLLKLYPERLCLYDGEKLVAEHLRVYDRGQD
+IENREHAQPVLERKRRADEQHLLKRFLALSPQAETYYRHLAERKLSWRLHLRKIVALVDV
+YGAEKVARALADALVYQAFSSEYIANILEQRERRLPEPGPLHLTRKQDLLDLQLPDPDLS
+VYETDDPQPEKGDPPHETKA
+>tr|A0A1W9LA82|A0A1W9LA82_9BACT
+MGDDIKKIEVSNEAPPAAAAAPVPAPNPNGEAELPKVLPILPLSDVVLFPGMVAPLIVST
+QKSIKLIDSVLSGSRLLIAVLQKDRAASDDEVALTDLHEYGCVARLVKMLKFPDETIRIL
+VQGVSRCKLSRAHANQHYLEAHYAILKDETADSVELAALARNASQRFQEIITLSPALPEE
+LKVAVFNIEDSGKMADLIASHLNMALEERQALLEDFRPTSRLTRLSTLLNRELEVLRLGT
+EIQHKVSESFSKTQREFFLREQMKAIKQELGEKDQQQMDIVEIEERIQKAKMPPEVQDAA
+NKEKDRLATIPTASPEYAVIRTYLDWLSELPWSTTTEDKLDIPKARKILDQDHYDLVKIK
+NRILEYLSVLKLKKDMKGPILCFIGPPGVGKTSLGQSIARALGRKFIRMSLGGMRDEAEI
+RGHRRTYIGALPGRIIQGLRKAGTRNPVFMLDEIDKLGMDFRGDPSAALLEVLDPEQNST
+FTDHYLNVPFDLSSVLFITTANLVDPMPPALRDRMEILELPGYTLTEKVHIARKYLVPKQ
+IAAHGLRPDHLAFDVRALGQIVSDYTREAGVRSLEREIANICRKIARAVAEGEKRKVVFT
+ANKLHAFLGPRVFEYEVAERTVDAGVATGLAWTSTGGDILFIEATQMAGRGQLMLTGSLG
+DVMKESAYAALSFVRANAGKLGLQKSFARKADFHIHVPAGSIPKDGPSAGLALVIALVSL
+LTQRPLPGDLAMTGEITLRGKVMPVGGIKEKVLAASRAGIRRIVLPERNRRNLEDVPAEV
+RKKVKFLFVRTIDEAIACALDSPWKKKGAKGKKKARG
+>tr|A0A1W9LAP3|A0A1W9LAP3_9BACT
+AGTAGADKSLGDEKTLGNEDGHGSSSESLIGTYDYMSPEARGELPGVEIGPRSDIYSFGV
+MLYRMLTGRRPVGMAEPPSELVPGISKTWDALIARCLKHDPKARFADGRELLDAIRSGKD
+FNAKGAKNAKGTGAKWIAAVAGVAVVAGLLVWWTGRVTDRAEPAKEPVSTAPAAPDPAVM
+VGLLADARAALDGGDAVRALEIVGQAAALDSKNADVAALRERIRAALRPPAAPAKPEMPA
+AAVEPVAFRFEIKPAGAAITLTHDTRGLVAETNATAEGVELRLAPGTYRALVTAPGFRSV
+QQDVEVPAVGGAWKAALSERRGELTLRTNPGAAVSILGANGQAGPFGQADAQGHLTITTL
+REGSYEACAALADHASATGRVSLLEGKPQELKLPLAPLPGRVKIGGRESMEIWSEGVKVG
+RANEWIPLAAGARALDLRCAGFRTERLAVAVPPNRDVVKQSPDLAAESGAVRISVTAPPE
+AAAHFQGLDKRVRIGSNPWKTVRELPYIESGLPCEAVEVAIEVAGYEVSREAAKAQTGMV
+EDGRTTDVTFALSPLPAKVTVTCNAPDATVQVGTGGPPVRLSGAPIGVPALVPVTLTVSA
+PGHAPQTVHLGAMDPAQGYTKSVTLEKQRGPMPGQDWTS
+>tr|A0A1W9LDC4|A0A1W9LDC4_9BACT
+MSVYRNITETVGRTPLVRLNKIIDPARADVLVKLESHNPMGSVKDRIGIAMIADAEKRGV
+LKPDTVIIEPTSGNTGIALAFVAAARKYRLILTMPESMSLERRAMLKALGAELVLTPADK
+GMKGAIEKANELAASTPKGWIPQQFENPANPAIHQATTGPEIWEDSGHKIDAIVSGVGTG
+GTITGVARFIRKHNPQFAVIAVEPADSPVISGGKPGPHKIQGIGAGFVPKNLDTSLLTGV
+VTVTNDEAFEWGRRLAREEAIFAGISTGANVAAVAKAIEQFGLQGKRIVTIACSFGERYL
+STALYKDLVG
+>tr|A0A1W9LCK0|A0A1W9LCK0_9BACT
+MSHASRESLSASARSHLDALLARAEPLKPKDRLAIPAQDMPAQHPHERRRNVSEVALGYT
+PEQARLEALRCLQCKNAPCVKGCPVGIDISGFVQAIADNDFARAIDIIKRNSLLPAVCGR
+VCPQETQCQEPCTVGKSLKDVNRAVSIGRLERFVADWERESGRAQVPPVKPETGKRVAVI
+GSGPASLVVAADVRREGHSVTIFEAFHKPGGVMIYGIPEFRLPKKIVQTEIDTLRAMGCE
+LRTNFVIGRTRKLTDLMTKDGYDALFVGTGAGLPKFMEIEGENLIGVFSANEYLTRANLM
+RAYEVGRADTPIMASRKVVVLGGGNVAMDSARMALRLGAEQVHIVYRRTEVEMPARVEEV
+HHAQEEGVVFHLLQNAKRILGDDYGRVSGIECLRYELGEPDASGRRRPVEIKGSEFVMDC
+DTVIVAIGNESNPLIKQTTPQLNTNKWGHIVVDEKGKTSIEGVYAGGDIVLGAATVILAM
+GQGRTAAKSINEYLAAKT
+>tr|A0A1W9LIT6|A0A1W9LIT6_9BACT
+MNVKTADLKNNLSRYLRQIRKTGESIVVCDRDEPVATLSPLVRDADAEWRRYRAEALARA
+KEIGLAIDIPTQRPTRAGKIHARPVVAPDGRTDICTIDLVRGGRDY
+>tr|A0A1W9L8S6|A0A1W9L8S6_9BACT
+MSVGIIGGTGLYDLPGIERLGEVRVATPFGEPSDVYVHGQLAGRDVHFLARHGRDHRILP
+SELNHRANIWGFKALGVDAILAVSAVGSLQSALAPRDAIVPDQFFDRTKISERHTFFGKG
+IVAHIAFAEPVCPVLRAVLAAAARATAAADGGAPRRVQEGGTYVNMEGPAFSTRAESDFH
+HKLGFDAIGMTALAEAKLAREAEICYATLALVTDYDAWNREHAAVTVEQVVGHLHANAGF
+ARMAVARAVAAIAPDRACSCRTALQHAVLTPHTAVPTETFEALRPILSRLFRDNPIASPE
+RFG
+>tr|A0A1W9LGM6|A0A1W9LGM6_9BACT
+MSRRVALVTGGRRGIGLGVAAALAREGLDVAICGVHEAAAAREPLDVLKAAGAAAVYVQA
+DVSRAEDRARLLAAVHERFGALHVLVNNAGVAPEERADLLDMAPESFERVMRINLEGPFF
+LTQAASRWMIEQRTADPAWRGCIVNVSSISATAASVNRGEYCISKAGVAMATRLWAARLA
+GEGIPVYEVRPGIIRTDMTAGVTEKYDRLIAGGLLPQARWGEPEDVGRALQRAARKTADD
+ERGGPAVGRLAGDADFHAVVRAPHGIGAHPGGAEHGHVGRHVQVPIVVGELRKARRGAAS
+RPGARRSGRDTTGPDGSCPRACCRSRTSGGSAPPAARRVPRRESARAAGGHC
+>tr|A0A1W9LGQ4|A0A1W9LGQ4_9BACT
+MSRRIEIYDTTLRDGAQGEGISFSGPGKLQVARRLDALGVDVIEGGYAASNPKDMDFFRE
+IRRIPLKHAKIAAFGSTRRAKHTVADDPGVKALLEAETPVATIFGKSWLLHVRDILRVAD
+DENLRMIGDTVRVLRENGREVVYDAEHFFDGYKDNPEYALRTLRAAREAGAGVLVLCDTN
+GGSLPHEIADITATVLRADDGRIGIHAHNDGEMAVANSIEAVRAGACHVQGTINGFGERT
+GNANLCSVMPNLRLKMGFDCLHSGSLIELRSVAEFVCEMADVRPQSKQPFVGSSAFAHKA
+GIHADAVRKNRHAYEHIEPEAVGNERRILVSELSGASNVFLKAVEMGIEMDRNAPEVREV
+LHELERMEKEGYQFEAADASFKLLIQRVLKQHKAFFHLDGFRVIVEKRRAGEACISEATV
+KLRVGDQAVHTVGEGDGPVDALNNALRKALEPFHPSVRDVKLTDYSVRILDPREATAAKT
+RVLIESASGKHTWNTIGVSDNLIEASWEALVDSVEYKLFLEEQAGQAGATGA
+>tr|A0A1W9LG65|A0A1W9LG65_9BACT
+MYLKRLEMVGFKSFADRTKLEFEPGIMAIVGPNGCGKSNISDAVRWVLGEQSAKSLRGAG
+MTDFIFNGTDTHKPMGMAEVSLTLAECEAALGLEYHEVTVTRRVYRSGEGEYLINKTPCR
+LKDIQRLFMDTGVGTNSYSLMEQGRIDRILSSHPEDRREVFEEASGITKFKADRREAMRK
+LDQTEANLLRLADIIREVKRQIISLQRQAGKARRYQVLQQELRGIDLHFTRGRIDAIDAD
+LGTVEARRASISEREEAMTATVRDIEAAIAAHRASLGEFDRDIDETRELAAQAKAEWQRT
+QEAIAHNEDRIREYRQLSANYLQEQESGSRHLEDHRQTLTALQAEFESASTARLAAEADL
+QTRTARLREQEAAVDAAGQQLHRMRTELVEIENRVASLTHDLSECEAREKGATIRRERLL
+VEQSQYRQSHTHIEAQRATLGAKIAEQKTVAAEADRRLQELQGLAQDRATAIANLRQKLS
+ELKPRDAALAAQIDLMARQEAQSEGFPGGARLLLDGTVTADGAAVMGALASHLEAEPEYR
+GCLAAVLRPWADAIVVSDAGGAVALLRELDRRRAGAARLLAADGPVLEAAPKAVDGAESL
+LAHVRCDDSVRDLVARLLGGVFVVGDLARVPRPAPGTTYVTASGLVAGGNGAYEIWMSEA
+ADSNPVARRQRLQGWRAERETLGREISAAESDMAQIQAGDGSLDAERAEARRTLEVARTA
+LAMSEGESGILAREDLTARQRAETVAMEIESLSGQDEAGRERRERIHTSLDEARTRQGEV
+RSLVAVRTDEQRTLEQQRSQWVQEVTEARIAAADRRREAEALQQRAASHEDRIRELETLV
+RERADGVVAYHQRIEDLLRGTAAARDSLQPLEEEATLHQNHLDALRRDREAQARTLDGAE
+GQVRAEREALDTARQSRNRLDIELAEMRMRRQTLVERACADYRITVDEILAAPEPDWGDA
+GAPADADTLESRVAELHAKIESMGPVNLVAIEEYQELEKRNEFLTAQQDDLIQSKQQLLD
+MIRRINQTTTQMFQDTFVKVNENFKDMFGKLFGGGTARLVMVDEGDVLESGIEIIARPPG
+KKLQSVSLLSGGERTMTAVALLFSLYMVKPSPFCVLDELDAALDDSNIGRFVAVVKDFLA
+NSQFIVITHNRQTIGTANVLYGVTMEKRGVSKIISVKFNRQHGPTVEAVHAPAAVAEAVT
+TA
+>tr|A0A1W9LHB8|A0A1W9LHB8_9BACT
+MDPVAHYPRLSGYVLEHRRDVWLSAACVGVVVLLQIAAPVVIRHTIDGLSDGTLGRTGLA
+RDLALFLGLTLAGAALSLGMRTLPLRLSHRVEFALRRDVFAHLATLDAAFFREVRTGDLM
+TRMASDIAMVRDYIGQGLLQGLRSIAVCVFAFGAMAVTSLHLTLVMACLFPPMILVFSLL
+IAVIRRRHEAVQEQYAGISNYCQESFAGIRTVRGFAIEPLREAGFAGLSRELIRRNISLG
+FVQNPLWPLFALWFGIGVLALLVVGGRMIVEGRLTLGELIQFQQYLLFMQWPMLAIGWTA
+SLLQRGRASWRRIEELLARTPAIADGPGTDSALAKVDGDIEFRDVTVRGGGRALLDRVTL
+RIPRGATVAVTGPTGSGKTLLVSLLPRLLDPTEGEVRIGGRDVRAYPLAALRGAFGVAPQ
+EPVLFSDTLAGNLTFGLDLPTRDAALWASDLAQLHDDAIALPQQYETFIGERGVTLSGGQ
+RQRTAIGRALARRPAYLVLDDVLAAVDTQTEAAILDKLKPVLAACTAVIVSHRTSTLRHA
+DLIVVIEDGRITATGTHDELTARPGYYRDLVRMQELEAELEAPA
+>tr|A0A1W9LDL1|A0A1W9LDL1_9BACT
+MTFDHERLNVYQRAIDFVAWSERATDDLPRALPVRDHLARAAESVPLNIAEGNGKPPGAD
+RCRFLDIARGSALECAACLDVMEARGRMSESRVAEGKAVLVEVVSMLVGMIRANSATRVC
+ESVGGVEYGISDNAGESKSRSTSMSKRGKVRTYPQGGVR
+>tr|A0A1W9LED9|A0A1W9LED9_9BACT
+MKAQDEIHLADGKAEVTAAQIRDRFLGHIKYTCYKDWRTSTDFDKLMSLCHVARDLAATR
+MIVTQRTYLDRDVKRLYYLSMEFLIGQLLKHNLIALGALDSTREALRTLDLDLDQLCDME
+PDAGLGNGGLGRLAACFLESMATMQLPGYGYGIRYEHGMFKQEFEDGWQVEKPDDWLKYG
+TPWEVVRPEYTVPVLLYGRVQHIPGPGGRERSVWTDWQMIEGVPHDVGVFGYGCQTVNIL
+RLWASRASEGFRLDVFNRGEYVKAVESENWAETISKVLYPSDFIYAGKELRLIQEYFLVT
+CSIRDLIRRFLKNHSDWAVFPKKNAIHMNDTHPALAVAELMRYFIDETDLPWDTAWDITS
+RTFAYTNHTLLPEALEKWPVELMERVLPRHMQIIYDINARVLQKVEARFPGDVGKMQTLS
+IIEEGTPKQVRMTNLAVAGSHSVNGVSALHSDLLKRRLLPDFVEMWPDRFNNKTNGISHR
+RWLLQCNPELAALATETVGDGWTRNLDLLRGLEPHADDAGFRTRFRDIKRRNKVRLANLI
+RRLCGESVDPDAMFDVQVKRLHEYKRQLLNALHIITLYHRIKDNPSADIVPRVFVFGAKA
+APSYHVAKRIIKLVNSLGRTINRDPDVVGRLKVVFLPDYRVSLAETIVPAADLSEQISTA
+GMEASGTGNMKLSLNGALTIGTWDGANIEIAEAVGLENIFIFGHRAEDLAALRDSNGYDP
+GRRVGEDAELARVMHAIRRNDFIPDQPDLFAEIGTQLLEHGDRFFHLADYRPYVDAQSQV
+SALWRQPDEWMRKAILNVARMGPFSSDRTIREYAEQIWHIEPVVVDPGPANGNGNGYG
+>tr|A0A1W9LG76|A0A1W9LG76_9BACT
+MVLRYRKTDGTQMEFELGDRPITIGRSPEADLVILDDKASRLHCGLRVWDGDFLLKDLKS
+KNGTFVNGRRIDMVKLEPGDQVRVGSCTFSFETDPGKGTQTILREVADEMAGGKGYSTML
+KEIVEDVE
+>tr|A0A1W9LCT2|A0A1W9LCT2_9BACT
+MTTATISYAKSNLSALLRRVGGGEEVLILDRRRPVARLSRVETPTSDWDRRMADLARRGV
+VKLPSRRLAKGGVLGLKPLRLRRPVDVVAALIADREDRV
+>tr|A0A1W9LD14|A0A1W9LD14_9BACT
+MNEKKSALSMESLASLCKRRGFIFQSSEIYGGINGFWDYGPLGVELKRNIKDAWWRSMVQ
+DREDIVGLDSSIIMHPRVWEASGHVGGFQDPMQTCLVCRKHMRADQVWDAVLESKWFSSL
+KKVTAPVPDSTLVVFLAPAALRWAETEGKRLAPGLALVRNPQVTLSWLAEQEEKEPGRKM
+PADVLIKHLATEQFAQTGLQTPCPHCGGPLTEPRQFNLMFETHVGAVADEDNKAYLRPET
+AQGIFVQFSNIVAIARQKIPFGIAQIGKAFRNEINPRNYTFRSREFEQMELEFFIKPGTD
+AEWHEYWVTERMKWYQSIGLPEGHLHRYVYPKEELAHYASACVDVMYDFPFGTQELEGIA
+ARGNFDLSRHQQFSGKSMEYFDQETNEKFIPHVVEPSAGVDRIALAVLCEAYHEEWIPKE
+GDAVIPAEPGQPPPAGYELRVVLRFAPKVAPIKVAVFPLLKNKPELVAKARQVFELLRKR
+WPSFWDVTGAIGRRYRRQDEAGTPYGVTIDFDTLQDDTVTLRDRDTMKQIRLKIADLPAK
+LAETLG
+>tr|A0A1W9LDV3|A0A1W9LDV3_9BACT
+MFLTHPVCFITTCTQDRWPLLACDAVSRILIAEWKQTRSRHGWGIGRYVIMPDHVHFFAA
+EMPVAGADGQIRSLSDSMGRWKEWTAKAMVRAGIATAPVWQEGFFDHVLRDGESYAEKWS
+YVRANPVRNSLVRQPEDWPYQGYVDFDSPLG
+>tr|A0A1W9LAD3|A0A1W9LAD3_9BACT
+NGVLIVHALDLAGRPLWQSTNGAAWMGSWPGARAACAVGGGRVFHLNAHGRAAAFDAATG
+RELWAANVLERFEGRNITWALSECLLIDGPRAIVTAGGGKAMMAALDAATGATVWQSEPL
+RFGPSPSAAHQRLAEPVGEADSAGYASPILFRLGGRRQIVNCSGRHVFGVDADTGRLLWT
+RPMPTRYSVLAATPVFWRDGIFATGPDGEGGKFFRLADRDGEVRVENAWTSPMDTGQHGM
+TVVGDRLFGPFYRQANRWACVDMSDGRLIHATNSMAVGASIHADGRLYCVTQAGDLCLVE
+PAADACAGAGGDRGLALDLTGGGSTGWWGATRTRICVAFGCRLRQGRVRAAYDRVAARKG
+MEWP
+>tr|A0A1W9LCY8|A0A1W9LCY8_9BACT
+MNTGKNVGQLKKLRQRFRPRETPHAALQQGVDAFLEDLKRRKLNPQSIHKRRGDLRGFTY
+YLETHGIARFQDVTRRTLDLFRLWLLESGYSDSMQESCMRAVQLMFRLLAARGELFEDPA
+ATVEIPKAPLRMGTVLSVREMRRLLSMPDLTTLQGVRDRAMMELLYSTGMRRGELMGLKV
+FDVNLDNATTRVHGKFDKERILPLGKQAVRYVRLYLTDVRPNLQPLLSRQHEDLWLSRNR
+RLIGEALPAVRIAGYVKAAGIAKPVDAHTFRRTCATHLLLGGAHPVAVAQLLGHADLESL
+SHYLRTTVGDLKRAHAQTNPGK
+>tr|A0A1W9LDF2|A0A1W9LDF2_9BACT
+MAGIFKAYDIRGIYGDTLTDDIAFKIGRAFATFLKSRKVVVGRDMRPHSKPLFDSLARGL
+AMHGANVIDLGLCSTPMSYYANGKLGADGGIMITASHNPGEWNGFKMCRDQAIPLSGATG
+IKDIERIVTQESFAHPASRQGRITKRNIANDYVEHIREFADVKRPLNIVVDYANSMGIYE
+GRVLEGLMEITPLFKTLDGTFPNHEANPLKHDTLEAIQQAIRAGKYDFGVAFDGDGDRAG
+FLDEKGDIIPMDMITALIAKTILARQKGPIFYDLRSSWAVKEVIVENGGTPMMSRVGHAF
+IKQQMRDARAVFAGELSGHYYFKENYYTESSSLAALFIANLVSQSDKPLSELIRPIQRYF
+ASGEINSEVRDVAAAISRLRAKYGTGKVIELDGLSIEFPDWWFNVRASNTEPLVRLNLEA
+RTKQVMEQRRDEALALIRA
+>tr|A0A1W9LEB4|A0A1W9LEB4_9BACT
+MNRKTPQILFLLIALAAAGLPGAVCAASKKDDGKQAALTAGRAALEDGLFDIAEKQLKQY
+LRRAATREDRVEGTLLFARALFGQGRYRDCVDLLNRRAAWARGTETEEAFAYWTGRAQYE
+LGDYTGALKTSEALRQNYPDSPYRPAAARLRAKCYVRTRQFDEALELYAAIQKKHGDSPE
+APDNLLDWSGTLIDLGRRDEARGILENLVGKYPASEAAVQARLWMGKLYADQREWNKALD
+ALLVLAKQEDARADRRAAAWMAIAELYETQTNLAAAVDALEQGGQVVQDPRAKLQSDVYR
+GRLLVRSGRVDEGLALLRNAVKAMPTDRLAGNTQLDLAQALLDQNLHEKALAEFQRYLDA
+FSDPAGSARAQMGRGWSLWGLGRYAEAAAAFEKAHSLQTDPAEKAQSLLKAADACFANQQ
+FSLAADRYDRVVADYPDSPLAARARFHSAECLAQLGRRADAEKAFLALAEAPVQELFTRQ
+AFLRLARLKEDSGQWEQAMAAYDRVAASCTNDAICARALHGRGLIRYRLGQFKEALDDFE
+RVVNDYPAGEVAEQAVYMRGWCLYLLGNDDRALALCEDFIRQYPKSVWAPDVLFWLGEYH
+YNHGNHAQAESRFAELAERYPDGALAEAALYWAGRAASVKKEYIRAIEYYTRLAKNHPDS
+PKIAEARFAQGDALSELGQFATAILAFEEVIARFSKSYLVDLAWGRKGDCQFTLGKDDPK
+RYEEAMVSYQTVRNGPRAGRD
+>tr|A0A1W9LI39|A0A1W9LI39_9BACT
+VVSVISGCSSGCLSSYVLSIFFFLFRKSRPRLAWLLLILSIVYGGALGLGRMAEGGHFAS
+DVVWSALLVFAANLVVYYFILNLPGRVHAVAAAPRLARGPILAWGALAMCVAVASAFATP
+YYGDINSSWTFDPDTPPGCAMEFHLPAGDVKLLIDGTDRVQVTGRMEGFGMASSRLRRGW
+IPSDGPGIPHLNFWAEPDGYFTELAVQMTVRIPAHRLASLHVEMPGGQLRVVAPDGWIPP
+SVDIAAPETRVLLPSSWTGSTVNVHSTQPAPHGPWQHALRRQTGPAPAE
+>tr|A0A1W9LH36|A0A1W9LH36_9BACT
+MLLQLQPPVHLTYCLNVHPGESWGEQFRAVREDAVRVRQAVAPGRPFALGLRLGCDAATE
+LSRDDRVADFGEWLAANGMYVATVNGFPFGRFHGTGVKEGVYAPDWRREERRDYTIQLAR
+ILAALLPEGAGASISTVPGSFRDWIESASDEDAMAARLVECAAELARLEREHGRCIRLAL
+EPEPGCFLERVGDVIRFFNERLFRAGPEAILRRHIGICLDTCHAAVMFESPERVLRQLGA
+EGIGVFKVQLSAALAARNSATTRGALAVFAEPTYLHQTAAQAGAFWSDLPQALAELERRP
+EGEEVRVHFHVPLFWEGDGALGSTASKLTPAFFEMLRGGVAPVLEIETYTFHVLPPACRA
+EDLVGSLVREFEWVIAKGGWGSADMRGG
+>tr|A0A1W9LGM5|A0A1W9LGM5_9BACT
+MHAVEQILQDLPRLRDAAAGLRDLFLSDIVLIGEIPAPTGEEAARSRFIADRFVGAGLHA
+CSVDEKGNAVGLLPGETGRKTLLLAAPMDTFVMEAGDQTIEVAKDRMVGPFVGDNCIALA
+ALTVLPTLLDRLQLRLNSHVVMVACAGSLGRGNLEGLRHFLSSTRTLPAAGICLEGVQLG
+RVNYASAGVFRGKIHCRLPDDYNWAQYGATGTIVPMSEVIGRISRIPLPQKPLTTIVLGS
+IQGGLSYTNIARETVLQFEARSETLDELNALREKLEDIVEEVAAQSGKHLLLDTVAWRGP
+GGIDIADPMVRNARAILGALGVQPAIYPTTSQLAALFEAGIPGVTLGITTGERRNELDEI
+DEAVAIEPMSAGLAQLVANLMAMDE
+>tr|A0A1W9LAQ7|A0A1W9LAQ7_9BACT
+MDAGLPEHRLDEVMPEMAFDNGSNPEIVAYTDGACRGNPGPGGYGVVLIGGAIRKELSGG
+YRLTTNNRMELLAAIKALQVMTQRCAVTLYTDSEYVARGISEGWALRWREKGWRISANKP
+AKNPDLWAELLDQAAKHAVSVRWVRGHGDVPENNRADQLAVATAAAPDLPPDEGYERQQS
+EPPEPTIREGHPCFKCKTPVLKRTPQRH
+>tr|A0A1W9LEN5|A0A1W9LEN5_9BACT
+MRVDSLGTARVASPLRRFVSDDVRIPLDIERSGGVGVSFERAGPRERLYFEPGAVRAGIV
+TCGGLCPGLNNVIRSVFMQLHHGYGAAGVLGFRNGYRGLDPDSGLEPVRLDPDLVNDIHK
+AGGTMLGTSRGPVDPEVAVGHLRRRGVNVLFCVGGDGTQRGALKLHAEARRQGAELAVIG
+IPKTIDNDVAFVSRTFGYQTALETARGVIDAAHTESKSVENGISLVKLMGRHAGFIAAGA
+TVASQDVNLTLIPEIPFALEGPGGFLEALRRRIEARRHAVVVVAEGAGQDLLPAAEGVDA
+SGNARLQDIGLFLKGRIEAHFRAARIPAAVRYFDPSYLVRSHAADAEDAILCDLYARNAV
+HAAMAGKTGVMIGYLHDAFIHVPIGALAGRTQRIDPEGSLWHSVLAATGQPAQFE
+>tr|A0A1W9LH72|A0A1W9LH72_9BACT
+MKAIILLGAPGAGKGTVAALLKASTDYLHVSTGDMLREAVKAGSPVGRQAKAYMEKGELV
+PDAVILGIVRERMEREPATAKYMFDGFPRTVEQATGLDDLLAQFGAKVDGVFLLDVPRDV
+LVDRLSGRRVCRQCGAVFHVRNIPTKVDGVCDACGGQTYQRPDDSEATVVNRLEVYRRQT
+EGLIAWYRGRGTLFEIEAAGVKEDTRDRVLRVLAGL
+>tr|A0A1W9LH43|A0A1W9LH43_9BACT
+MPRVIGVEIPGRKRIEYALRYIYGIGPAKAREICSRAGVDAAKKADDLGDQDIAKISEIL
+QTYRVEGDLRREVQQNIRRLIAVNAYRGQRHRRGLPVRGQRTKTNARTRKGPRKTVGAVR
+GKDARSAAKTDTK
+>tr|A0A1W9LB70|A0A1W9LB70_9BACT
+MEIGLSLGSNVGDRLASLTEAKRRILDHAGVQMLAQSPVYETEPVGVKPEYRHLSFLNAV
+LILDSPCAVHECLNQFREIEDDLGRRRSLDRFAPRPIDIDMIYAGAERIESGGLVLPHPH
+WSERRFVVLPLADVRPDLQLPGCDRTVAQVLESMPRNKSVTLLTRDW
+>tr|A0A1W9LEN6|A0A1W9LEN6_9BACT
+SPYLIQSANFIGCHQFVFLDQVDVLKCAKPGATFLLNSSPFKPEEVWDKLPRKVQQDIIA
+RKLKFYAIDGSRVALDAGMGSRVNTIMQTCFFAISGVLPKDEAIEKIKTAIKKTYGRKGE
+EIVKKNYQAVDMTLENLREIQVPAAATSTHDLPPVVSPKAPAFVRDVTATIMSGLGDDLP
+VSKMPVDGTFPTGTTQWEKRNISLFVPIWDAELCIQCGQCALICPHACIRAKIVEPAALA
+SAPAGFPSVEWKDKQNPGKKYILTVSIEDCTGCALCVEVCPKRSKENVGHKAINMAEKGP
+IWTAGKAHWDFFLSLPEVDRGTLDLGSIRDVQFAQPLFEFSGACTGCGETPYVKVLSQLF
+GDRAVIANATGCSSIYGGNLPTTPWAQNKDGRGPAWSNSLFEDNAEFGMGYRLTFDKYRE
+FACELLAQMREEIGGELVDALTGAPQASEQQIAEQRARVAQLQAKLKGKTDWRAKHLASI
+ADNLVKRSVWILGGDGWAYDIGYGGLDHVLASGRNVNALVLDTEVYSNTGGQASKSTPRG
+AVAKFAAGGKPAGKKDLGMMAMCYGNIYVARVSLGANPRHTLQAFQEAEAYDGPSLIFAY
+SHCIAHGINMQKGFDQQKLAVQCGHWMLYRYNPVLAAKGQNPLSIDSKAPSIPVKAYAYN
+ETRFKMLTLSKPDEAERLIKLAQTDIDERWKLYQQWATPAPAPAPQAVATPQA
+>tr|A0A1W9LHA9|A0A1W9LHA9_9BACT
+RNFGIEPAGDIRLVGAGEIPAHDLLCAGFPCQPFSKAGAQQGLDDGDRGQVFFEVLRLID
+THHPRFVLFENVANFVRHDKGNTYHRIRSELETRGYSVDYRQYSPHHFGIPQIRERIYMV
+GSRDGLGGFQWPDVPASPPPLSLRSMLAKNLRHFKPLSASVVRCIEAWQEIIQAVPSEAP
+LPSFPIWAMEFGATYPIHYDSLWTCPLPELRASRGSFGCSLTGLTRKKLLSLLPSYATYQ
+KYSFPGWKRAFIRQNREFYTQHREALDPVLKPLKQFPPSLQKLEWNCQGEPRDLWQYVLQ
+FRASGLRVKRATTAPSLVAMTTTQVPIIAWQRRYMTARECARLQSMDELRHLPEGGVAFK
+ALGNAVNVDVAHAILSCVLSDAVM
+>tr|A0A1W9LEX0|A0A1W9LEX0_9BACT
+MNERYPFAEIEPRWQKDWEDRGFFAVDTDDAANKYYCLVMFPYPSGTLHVGHGRNYIIGD
+AVARYKMTRGFRVLAPMGWDAFGLPAENAAKSRGVHPKEWTLNNISQMKRQIRSWGVGYD
+WAREIATCHPDYYKWTQWVFLKLFERGLAYRKNAPVNWCEFCTTLANEEVRPDGTCDRCG
+RPVAKRDLTQWFFKITAYAQPLLDDLALLDRWPDRVRSMQANWIGRSEGARVEFTIAETG
+DACPVFTTRPDTIYGVTFMAIAPEHPLVAKLVKGTPREADVMAFVRRQALVSAAERADDT
+TAKEGIFTGFHVRNPYNGETAPLWVTNYVLMEYGTGAVMAVPAHDQRDFEFARRYDLPVK
+VVIQDPANPLDPAAMTAAFVDDGSMTASGPFDGRGNREAMHDVIAHAMANGFGDFTVTYR
+IRDWLISRQRYWGAPIPIVHCDACGPVPVPEAQLPVRLPDDVDFTLDKGNPLAAHEGFVR
+TTCPACGKPARRETDTLAQWLCSCWYYLRYVNPRMDDQPFEKRDADNWLPVDQYIGGIEH
+AVLHLLYSRFILKVLHDAGCVSFREPFNALFTQGMICKRSEKDGQLYKMSKSKGNVVSPD
+ELIREYGADTLRLYTLFIGPPEKDAEWNDDAVEGSFRFLNRIWRRVYETREVLAAARGLA
+TDLAAMEPPERDLHRKLHESIAKITRDLEGAFHFNTAIASIMELMNAIEALPVDAASTPA
+RRAVYREAIEAMVVLLSPFAPHISEELWRELGHEDSVMRAKWPEASEAAMKRDQIEMALQ
+VNGKVRGRIMVSAGADAKTIEAEALGDPQVAKWLEGVTVKKVVVVPGRLVNIAAG
+>tr|A0A1W9LGD7|A0A1W9LGD7_9BACT
+MKILHFECVGGASGDMILGALIELGVDPSALQRGLARLPIEPFEIEARPFRDHHLAGTQV
+TVRIPEHRHEHGHGRGLKEITGLIQASDLPPRAKELSLKVFGRIADAEAKVHGTTREEVH
+FHEVGALDSIIDIVGGCLGLERLGVEAVAVGPFPAGRGIIECAHGVFPNPAPATVELLKG
+FPVVQTEEPHELVTPTGAALLTTWKTLDAPPDGARPIRIGYSFGHRKLERRPNLLRATLL
+ESEPAAADSDSCVVLECNLDDTTPELLGSLTQRLLEAGAMDAFTTAVQMKKQRPGTLLTV
+LCAPGKKDALLDLIFRESTTFGVREYTARRTILERRIVEVQTPHGPVHIKIGRWKDADVT
+RSPEMDDCIRLARERGVPVRTVYETALQAAQTLKTPP
+>tr|A0A1W9LE62|A0A1W9LE62_9BACT
+MKFVRGSDFTLWLAVGLCWGPALAQSASAADMTNVNTLVASIVLPNLDGKYIYLSNICYP
+GEEKLRKPRSVVVLNFMATWCGPCKKELPELLAVCREYRDQGVSLFVVSTDSLSKRADLE
+KLIADFGVDSEVLLDPYRVALG
+>tr|A0A1W9LG07|A0A1W9LG07_9BACT
+MSENIGKIVGVNGNLLTVEFEKPIVQNEVAYAVLGESRLKAEVIRIRGRYAELQVFEDTT
+GLKEGDRVDFTGELLSVELGPGLLTQIFDGLQNPLPKLAEEFGFFLQRGRYLDALPRDAK
+WAFTPAAKAGQSLTAGETLGTVPEGIFHHRIMVPFGLRGTLTVEEISPAGAYTVGQVIAK
+LRDADGVLHDVCMMQRWPVKIPIRAYAERLRPTEPLATKVRIVDTFFPVARGGTYCIPGP
+FGAGKTVLQQITSRHADVDIVIVAACGERAGEVVETLREFPELTDPRTGKSLMERTLIIC
+NTSSMPVAAREASVYTAVTIAEYYRQMGLNVLLLADSTSRWAQALREMSGRLEEIPGEEA
+FPAYLESVIASFYERGGIVRLKDGSFGSVTIGGTVSPAGGNFEEPVTQSTLKVVGAFHGL
+SRERSDQRRYPAIHPLESWSKYDGVVPADQVALARRILIQGNDVSQMMKVVGEEGTSIDD
+FTVYLKAEYVDAVYLQQDAYHAVDAATPADRQMYVFERIVKILKTKMAFGAKDDARKFFQ
+RLTQATKDWNRAEQASGEFRAIETRIEKMVAEVTDYA
+>tr|A0A1W9LCL6|A0A1W9LCL6_9BACT
+MLSRHMNVLPTVALSFAFASLGAIRVSAAGPGREPLHPAFLTGTVAAVTGAFRVVTYNIE
+NFGDGVGDKGRTPEIAAAHARDAAALIARLDPDLIVLQEIENAKALVLLNSALPHPYPTG
+YVTDFRPRSGRIGDHNVAILSRVPVEDVVERDFGALTGDVIPTRGFLRCTVPLPGDRRLV
+VYGTHLKSNFGRRDRNLAQRRIAMEAIRGDADEVLRGPGAAQTEVLLAGDMNTDPDSREF
+ANDPT
+>tr|A0A1W9LCQ4|A0A1W9LCQ4_9BACT
+MADHPYDLEDRLLEYAAEIIRLSENLRKSSASAHIGNQLLRAGTSPYLNHGEAESAESRD
+DFIHKLSVCLKELRESRRALRLIKRVPLLDRPETADALMRESDELIRIFVASVRTARKGL
+ARETSDAIYGAESLGDASTFDVRRSMFDVQIRDEASSP
+>tr|A0A1W9LE84|A0A1W9LE84_9BACT
+MENIIILGTGSAGYTAAIYAARANLDPLIVEGPQPGGQLTTTTEIENFPGFPKGIDGFEL
+MHLQRQQAERFGARVVPGVAVSTDLKSSPIRVTLDNGDTLETKTLILATGATAKYLGLPT
+EQALIGHGVSACATCDGAFFKGVPVCVIGGGDTAMEEANFLTRFASSVTLIHRRDAFRAS
+KIMADRALGNPKIKVLWNSTVEEVHDPAKKKVTGVTVRNVKTGERTHLDVQGYFAAIGHQ
+PNTAGFGAQMEVNEAGYIVTQNTRTSVPGVYACGDVQDPVYRQAVTAAGSGCMAALEATR
+YLESMHG
+>tr|A0A1W9LA67|A0A1W9LA67_9BACT
+MNLTPYHAKYYAHELTRRCPSDSVEKLAGTLVDAQVDLNPHQVDAALFAFRSPLSKGAIL
+ADEVGLGKTIEAGLVVSQKWAERRRRILVIPPANLRKQWLQELTEKFFLPCRILETKSYN
+AAMKAGSTFPFRVREVVICSYQFARGKASDIQSTSWDLVVIDEAHRLRNVYKPSNVIANT
+LKQALKDAPKLLLTATPLQNSLLELFGLVSFIDAHTFGDLSSFREQFAILNEQTVFDALK
+ARLKPICHRTLRRQVLPYVRFTQRLPLVQPFTPEESEDRLYNLVSDYLRRENLQALPASQ
+RSLMTLVLRKLLASSTFAIAGALDSMSRRLQLRLKKDDVTAQSIQEQLQADYEALDATAE
+EWPENGPPQALSVEDRAAIQQEIADLEEFRQLAVSITHNAKGRALVSALEIAFAKAAERG
+APPKALIFTESLRTQSYLLRVLADSPWRNGIVLFNGSNNDERSREIYAAWKQRHEGTDRI
+TGSRTADMRSALVDYFREQGNIMIATEAGAEGINLQFCSLVVNYDLPWNPQRVEQRIGRC
+HRYGQQHDVVVVNFLNQKNEADQRVFQLLSEKFKLFEGVFGASDEILGAIESGVEFEKRI
+ADIYQRCRRPDEINAAFDQLQLELNAQITDAMTRTRQQLLENFDDEVREKLRVRDEDSKA
+YLNQFERMLMQLTRHELAGHAEFSGDSAFRLNSLPFPGDIPLGLYELPRRSGEAHLYRLN
+HPLAEGLLAQAKTRTLPPAEVVFDHTGHDGKVSILDPLTEQSGWVSLSLLTVESLNLAED
+YMIFAGVTEQGQPMDEACIRRLFTLSGMVRPLEGPAPSGPQTDATERVPPLEELTRQRQT
+AIQQDISKRNAAIFEEEAVKLDGWADDLKVGLEREIKDLDRQIKDARRAATATLTLEDKL
+AGQKQVKALEAQRNTKRRALFDAQDDIDAQRERLIAEIEGKLQQRTSLTELFAVRWSLT
+>tr|A0A1W9LFT8|A0A1W9LFT8_9BACT
+MGRDMPGSVAPHGRLRWSICALLFFATTVNYIDRAVLGVLKPVLDLAFGWNQKDYGWVVT
+AFQAAYALGYVGAGCLIDRIGVRIGLMLAVAVWSCAGMAHAAVGLVLGLGTAKAMSVLGF
+SAARAVLGLAQGGAFPAAIKTVAEWFPRQERALATGIFNTGSNVGAIACPILVPWIANRW
+GWQMAFVLTGAVGFLWVAAWAWLYRSPGIHPRITQAELAWVRKDPPDPVAKVPWGTLLQH
+RQPWAFMVGMMASSPIWWFYIFWIPDFLNKRFGLSLTQSSLPLVSIFLLSSFGGIGGGWL
+SSALLRRGWTVNVARKTALLVCALCVLPVFFTPLVSEVWVAVALVTLAAAAHCGFAANLF
+TLVSDTVPRQAVNSVVGLGGMAGSLAGMCFAQIVSRVLHATNNNYLVPFAMAAGSYLLAL
+GIMHLLLPRLEFMRIDPARS
+>tr|A0A1W9LAB1|A0A1W9LAB1_9BACT
+MRCPKCSSMDDKVIDSRSARNGVSIRRRRVCQGCGHRFTTYEEVVKSGLRVIKRDGRHEE
+LDRSKMLGGVFRACEKRPIGVQDIEALVDGVIGELEAEYEREVPSVAIGKKIMDRLEKLD
+EVAYVRFASVYRRFRDVSQFLSEVEGLIGRE
+>tr|A0A1W9LAH5|A0A1W9LAH5_9BACT
+MMRFLGRLAIYFLLITGSAIFLIPLFWMLSTALKPIDQSMSMPPTWIPYRLYAQMDGREQ
+SVKTGETVTAPSLLVTITETGEKRIVATDDVVKGKLTTKTQTGETVKLPVTVLKEIPASK
+DEPWTKVVAEDVMAIIQAGKGNAELATRWDVVPARTLRKERSLRWDNFGKAIRALGVVDF
+TARDLSDGPFAWLPTHTAQRAANALYARIPQRMKNLFSLAFVRYLKNTLILCVLTVIGTV
+ISSAMAAYGFARIPWRGRNRVFIIALATMMIPFPVVMVPIYCMFRWVGWIGTLRPLWVGS
+FLAGAFNVFLLRQFFLTIPKDLSDAARIDGCNEFRIFWQIILPLCKPALMVVGLFQFMGA
+WNDFLGPLIYLTNQKDFTLALGLQFYQSQQGGTEWHYLMAASALVVLPIIVLFFFTQKTF
+IEGISMTGIKG
+>tr|A0A1W9LFW1|A0A1W9LFW1_9BACT
+MKEIRRFLGYLRGYERSIALAAFLILSVSTLMLPYPLIMKQMIDVALPRRDAGLLSWLML
+LFLAVFIARGSLSYINRLVLQRAGMRITCDLRKDVFAHLQTLSLKYYESRRTGQIVSRVA
+EDTGALFTLVTGVLVSLLSDSVTVMAVLIMLFWINWKLAIVTLLVLPLFVVNYRMFKKDL
+RRMSRRHRRNWDRVLGFLHERVSSARLIKSFSMEEREIERFSRGIETDYRNFNHLMMHNT
+LLWVIADMVSSLGTLIVLFYGGWLTMHGELTIGKLIAFNTYIGFVYGPIVRLNDLNTSVE
+RAITGLEKIYEILDTPSFVVEKSDARDLPVVQGRVEFRDVQFSYEAGRKVLSLINLVAQP
+GEMVALVGPSGAGKSTLVNLLCRFYDVDQGAIVIDGHDIRQVRIKSLRRQIGVVMQESVL
+FSGTLAENIRYGLPTAGMDDVIAAARAANAHEFILELPRGYQSAVGERGVKLSGGQRQRI
+AIARAILKNPRILIFDEATSALDTKSERLIQDAMERLMEGRTTFVIAHRLSTVMKADKIV
+VLQNGAIVEQGTHHELYRKEGLYRRLYDLQFQQPGEEEEPTESA
+>tr|A0A1W9LF11|A0A1W9LF11_9BACT
+MSVPTQIDAARAGRTTPELAAVAAGERFETPALREAVAAGRVVIPANRHHTGLAPVGIGR
+ALRTKVNANIGNSALTSAMTDEMEKLRVALEFGADTVMDLSTGPDAPAIRRRILAACPCP
+VGTVPIYQAVAEIDDPVDLTADGLLRTIEAQAREGVDYMTLHAGLLRAHVPLAQQRLLGI
+VSRGGALLAHWMGRHGLENPLYERFDDVLAICREHEVTLSLGDGLRPGCLADASDKAQFA
+ELEALGGLVRRARAAGVQAMVEGPGHVPLDQIAENMTREREACDDAPFYVLGPVVADCAP
+GYDHITASIGGAWAAFHGAAMLCYVTPSEHLGLPDANDVREGVVAFKLAAHAADVALHRP
+GARDRDDAISRARVAFDWETQFSLALDPERARDIRARSLRAAGQSGEPASGPADTHYCTM
+CGPKFCPMRLRPAEKPDPT
+>tr|A0A1W9LA01|A0A1W9LA01_9BACT
+MENQFAFVLTSVVVFTGLILILVAGLNFASRRLQPSGPVRIDINDGHKDLTVDSGSSLLT
+ALAAQKIYLPSACGGGGTCAMCKCVVTEGGGDILPTETGHINRHMAKQGWRLACQLKVKR
+DLKIRVPEDVLEIKKFEGTVRSNRNVATFIKEFIVDLPPGMNLNFKAGGYIQIDIPTYKD
+LPFRSFDIDERFRDAWDRFKLWDLKTTNAEPIFRAYSMANHPAEGNMVMLNVRIATPPPG
+IADAQPGLASSYIFSLKPGDKVVLSGPFGEFFPKETKREMVYIGGGAGMAPMRSHVFDLF
+RTRGTDRKVSFWYGARSRREMFYDEDFKAIGRDFPNFRYTVALSEPQPEDKWDGATGFIH
+KAVHDLYLKNHPDPAEVEYYLCGPPMMIAAVNRMLFDLGVEKDMIAYDEFG
+>tr|A0A1W9L850|A0A1W9L850_9BACT
+MRATPDWAAALATRLGGNVDVSPLARRLYSQDASIYEQRPLGVARPRDAADCKEIVRTAA
+ALGFSLIPRAGGTSLAGQCVGPGLVVEVTRHMNRILSIDPAGRTARVEPGVVQDDLNDAA
+APHNLMFAPDTSTSKQAGIGGMIGNNSCGAFSVRFGTTRDHVDAVDVVLADGSPARFDPL
+DGPALEAKRREDSADGRITRSLFDLVERHRALILDRSPKPSVRRRNAGYALDALARGRPW
+VPDGAPFNLARLLCGSEGTLALVTAADVRLVPRPAARRLVCVHFASVGEACRATVATLAH
+RPAAVELMDGALLAATRHHPAQAPNRFWIEGEPGGVLAIEMWADDDAAADRAAADLVADL
+RSRGLGIAHPIVPADRMARVWALRKAGLGLLTGIPGDAKPVTAIEDIAVAPEDLADFVTE
+IEALMKRLGCSCVYYGHASVGLLHYRPMLNFKKPDDLRTFERLCAEVVSIVRRFGGCLSG
+EHGDGRLRSPFLREALTPELYDLCAQVKHIFDPHGVLNPGKIVDPAPLTADLRTSPATPT
+PEVATEFDWSRTVGLVRAAEACNGAGVCRQSAGRGLMCPTYMATGDEAHTTRARANLLRQ
+ALTSGDPDAAWSDPELAAAMDTCLSCKGCQPECPSGVDLARMKAEWLQKRNDRRGPSLRS
+LAMGFYATAARAARIAPDWVSRIANSALSKRLLGIAPQRRVPPYARRTLAQWARTHLPPA
+GAGARGEVLLFNDEFTNYGEPEIGIAAIEVLELAGWRVRLTHGLESGRTQISKGFLRAAR
+RRIAHAVATLAPEAERGIRILGLEPSAILTFRDEAPDLVPPALRAKALKVAERCLLFDDF
+IAREADAGTLASLAFGRLPEGEVLFHGHCHQKAIAGTAGTRRALALIPGLRVAELGTACC
+GMAGSFGYEREHFDLSMKVANQILLPAIRARPDALVCAPGTSCRQQIRDGAGRRAWHPAE
+LLHQSLEAGRDRAGVERQASATAPA
+>tr|A0A1W9LAW5|A0A1W9LAW5_9BACT
+MAGKKSAYAAAGVDIDRKMGALRRARRQIERTFTKGVVGGIGSFGGLFRSPGKDMLLVSS
+ADGVGTKLKVAALAKRHDTVGQDIVNHCVNDILVQGAEPLFFLDYIGASRLEPDIVAAVI
+RGLCVACRENGCALIGGETAEMPGLYPPGEYDLVGTIVGAVKAKEVITGGDIRAGDVLIG
+LPSSGLHTNGYTLARRVILEQAGLGVNDPLPNDGRTVADALLAVHRSYLKPVRALRRAVT
+VRGLAHITGGGFPDNVPRILPDGVCAVFDRRAWTPPPLFQFIETRGRVDRDEMYRVFNMG
+IGMVVVVRPDDLKAAMRVLCRAGEAPVPIGNIQKAKRARVKLMN
+>tr|A0A1W9LCT7|A0A1W9LCT7_9BACT
+MARVKVKSTTVGAIREDVLAFTAGNDIELDRELVEFDCMGTAAHAVMLAGLRVRPPILRP
+SDARAAVRELGAILRQARVGRFRIRPEDQDCHLAIERTLTERLGETGRRIHTGRSRNDQV
+ATALRLHTKANLLATIGETATLAHTLVDFAETHRLVPMAGRTHLQPAMPSSVGLWAAAWA
+EDLLDDAVLLIGAFELADQCPLGSAASYGVPLPIDREKTARLLGFSRPTHTVLYANHSRG
+KIESIALNACGQVMITLSRLAQDLILFSMPEFGYFTLPAEFCTGSSIMPQKRNPDVLELT
+RSRAARVLACAGVVQEILRAAPSGYNRDLQDTKAPYLEGIAATRAALRVLDPLIRATRVH
+PERLAAGFTPDVFATDRALELVAKGMPFRDAYHHVKERLDEVGAGDPVRAAARKKHLGAP
+GGLDFTLLRNRAAGARGLAAAELDEFHGAVSGLLNMTYPPRRGA
+>tr|A0A1W9LHE6|A0A1W9LHE6_9BACT
+MTDDLPDSLPAVPSRRLLTRILRYTRPYAGWMALSLLLLLGMSFALNVLPVLIKHAIDTW
+IVAGGLPAPERIAGLTHDGLIYLAIASVAFTVRFGESLLTAWIGQRIVYDVRADVFRKTH
+ALDLAFYDRTPVGRLMTRVTSDVEAVQRFVTEGVVGALADLFMLAGVIGFMFVLHPRLAA
+LVLAAMPPLFAALFWANQHLRLANRRIRERTSSLNAMLQEQLAGMGTIQLFNREARARER
+FGERNAALRDAHFEEVRWFSIYWPVLEISQAVSIVLVLLAGGLAILRADTAVTLGILAAF
+LSYVRDFYRPLGALADKAGMMQQAMASAERLFDLLDTPVSIRDPGEGRSEEGEGQAEEGR
+SVEGAHPEIQDPPPGSRSPVSSSPLPPSRSPVPASSIRFDHVWFSYIEGHWVLEDVDLDI
+RPGESVAVVGATGSGKSTMASLLSRFYDVQQGAVLVGGVDVRDLPQRELRRRIGLVLQEP
+FVFSGTLAANIALANPGLPRARIEEAARFVNAHRFIERMPQGYDTVVGERGGSLSTGEKQ
+LLALARVIASDPEVLVVLDEATANVDSETERLIQEAVHRMMRGRTSLVIAHRLSTIRDAD
+RIVVLRRGRITA
+>tr|A0A1W9LEZ3|A0A1W9LEZ3_9BACT
+MSEQEASKAQQAKAQAILQDLLRLIGFEGKVEAFSQDDGSPLLHIETTDAARLIGRNAQV
+LDALQTVINRILARQSGQPSHCVVDVERYRERRKDRLLKMAFDAAEQLERTGNSVKLPPM
+SAGERRIIHQALKDNPRLRTFSEESREDGEKRVVVAPAGTGTEVSGQKSEVGSH
+>tr|A0A1W9LBX5|A0A1W9LBX5_9BACT
+MTEISAALVKELREETNVGMMECKRALVESGGDKEKAVKFLRERGLAVAGKKASRTAKEG
+QVAADVASGGKLGVLVEVDCETDFVARNAIFQSFLKTVVEKAKTVQGELGEAMKAEVTAK
+IQEIGENIIVRRHVRYEVQGHGIVASYIHLGGKVGVLLEVGCEKDETTQKDLFKDTVKDI
+TLHIAACNPQFLERKNVPESIVQAEKEIYAKQVTNKPANIIEKIVTGKLEKFYGLVCLVE
+QGFVKDPDQSVTEWLAGRGKELGDTLTIRRFARFQVGEQV
+>tr|A0A1W9LHJ0|A0A1W9LHJ0_9BACT
+MTGAVPTAVLLASCPDRQGIVAAVTRFIADRHGNIVALEQHVARDEAAFFMRVEFELDGF
+AVAPEAFADAFGPVARAFDMSWKLSLAAQRQRMALFVTRESHCVYDILARHQAGEWAVDI
+PVVVANHDALRPVAERFGIPFHVFPISAETKASQEARELELLRDQRIDFVVLARYMQIVS
+ADFIRHYPNRIVNIHHSFLPAFAGAKPYHAAHERGVKIIGATSHYVTAELDRGPILEQDI
+IRVSHKDTVEDMIRKGRDNEKVVLARAIRAHIEHRILVHGNRTVVFG
+>tr|A0A1W9LCJ3|A0A1W9LCJ3_9BACT
+MKNSYIGQAWLVIVLSLVFGASLAAVQATLSPKIEANKLRDTIGQIPNLVPGAVDGKAET
+VGDQTVYRAVDAQGQPVGWVIPARGQGFADVIELLIGTDNDMRKITGLYVLKQLETPGLG
+DNITGDAFRGRFKDRSLARALVVTKVAPKSDQEVEGVTGATISSMSVVGIVNSAVWKFRA
+ALAK
+>tr|A0A1W9LG05|A0A1W9LG05_9BACT
+MIIGLLQASISIPDSRSLKDKRMVLRSLKDRALNKINCSVAEVDKQDLWQAAELAFVTVA
+AQKDVVEKRLSEIAEHLRSDPRYVLLDYSTQLL
+>tr|A0A1W9LBR9|A0A1W9LBR9_9BACT
+MNNFTPRAQQVLRLAQQEAERFNHGYVGTEHLLLGLVALGQGVAVVVLQKMGIDLDTLRL
+EVEKAVGVGPETKTIGNIPFTPRVKKVLALAGSEARALNHSYVGTEHILLGLLREGEGVA
+SRILKNLNIDLEKARIAIMKELDPDYEPGSAPAPDAAGEAAVAGGGDAPAGGAAAQGGAA
+AAQRKTKTPALSTFGRDMTELAAKDALDPVIGRSSEIERVIQILCRRTKNNPVLIGEAGV
+GKTAIVEGLAQCITSGDVPELLREKRVVSLDLALMVAGTKYRGQFEERLKAVMDEIRRVK
+NVILFIDELHTLVGAGSAEGAMDAANIIKPALSRGELQCVGATTLAEYRKFVEKDAALER
+RFQTVIAREPTVEETVLILKGLRSRYEQHHHATFSDDALRLAAELSSRYLSDRFLPDKAI
+DVIDEAGARARIRTMTRPAALKAGEAGIEEARRAKEAAIAKQDFESAARLRDEERVARES
+LDRGVEEWRKSRDGTIVPVDTDDILSVIAKWTGIPVTRMEEQDMARLLRMEEELEKRVIG
+QSEALAAISKALRRSRADLKDPRRPIGSFAFLGPTGVGKTLLAKALAEFMFNDPDALIQI
+DMSEYMEKFSSSRLVGSPPGYVGYEEGGQLTEKVRRRPYSIVLFDEIEKAHPDVMHMLLQ
+ILEEGKLTDGLGRTVSFKNTIVIMTSNLGAEFLRKGGGLGFAGTDESADYAVLKTRMIEE
+SRKVFKPELINRIDEIIVFRPLGRDDLIRILDLETEKVRERLAARKIELRIGVEARNFLI
+EKGHDPQFGARPMRRSVQRYLEDPLAEFILRGGVAGDAVEVRVEGDRLVFEQPVATPAG
+>tr|A0A1W9LHF2|A0A1W9LHF2_9BACT
+MIGPRNRQFAESEERVRQLCRRPAIQKLDEIMREQTGVGLVILLPQGNEKLEVCSAGEPA
+KLPQFCRLIHAAPGGLDRCITCRSNLAFAAFNRGLVQHACHGGVSVFAAPVNFSEAGRSD
+IVVVSSCAFTPRKRAAGWGRARDYVKGLTLDSRSLRRAYYQLPSLAGSKLSLVKRLVGLA
+ANVMADEMALPAQPPAGKSLPPFRMDEAVREALVLSPGRAFQGLNQPSGTALIEVVTAVL
+RSKPNLPFRVSEIARAAGLTPNHFSALFRKHAGQSFSTFLAWMRIALAQELLRDLKLSVQ
+EVSDRAGFDDPNYFARRFKQKTGLTPRAWRAAL
+>tr|A0A1W9LDU9|A0A1W9LDU9_9BACT
+MAGECDKQGTAPGRPRGRRRALVNLVLGESMRSFLRNQHLDTAAMLSYYGFLSIVPLLLL
+VSVLSSRMVLASASAREAIRAGADELISGFGVIALDQLRTLSEQRIWGVLGMLILFWSVT
+PIAAGLRAALTRVFQPERIMGVLRAKLRDILGALTLIALFFLLVTGRILYGILERHLPGQ
+LSVMTDFSQIAFSFAISVAGLAFLFVVFTPIRLRVGELFSGAVVSAVLLLLLRPAFSAFL
+RYNPDYGFAFGSLKAVFLTLTWVYFSFVAILYGAEIMAAARRRDITLLKMFLLGGKAAGR
+ASDALVERFSRVLPAGETVFCEGDEGHEMFIVRSGAVEMRRGGRSLATMRSGDYFGEMSM
+LLDTPRTAAAVVVEDAELIGIRRDSFDTILRENPAVGRSILRELASRLKTADEQLHILHG
+AGKSAGDAKT
+>tr|A0A1W9LGW7|A0A1W9LGW7_9BACT
+MTPKNIKWSELKYHWEIYLFILPTMVLIALFQYYPAASGIFHSFFRWNGSDISEFAGFGN
+YVDLVRQSAFWNSFRLAFILGAWNIMKMLPALLVAVCIHRCRSPRMQFLYRALFVVPMVI
+PPLIVVMIWRSFFFEATAGYLNKFLISTGLFDVLCRFDQVFHWGVFIPGRMPAWLGDPKL
+IIMSCVVWGFPWVGSFAVLTYLAKLQSIPKDIYEAGEIDGVGWWSKFAKIELPLIMGSIY
+LLLVFVIIESIKDAGMILALVGLEGGPGGIATVPALFMLRKAFVEQQMGYACAVGIVLTV
+VVMSLQKLSTAVMNWSQLTPAQRTSLRTGLIVFALAWLTWGTVQLRPVAWVMLLASMPYP
+TLWGWIMRPFEALVAPIRGSHRGEERAHEVFERHQRPFYRVFSTLGDWLLRASKHASIWI
+VLAFAFLPLYLMIIVSVKSNQQFYQAPAVLTHPMFWENWKTAWVLVTPPVANSMFLSISS
+TCLTLFFGLCGAYFFSRLRVPLSGFIWNAILILMMMPAIANLVPLFSLLRDLNLLNTLAA
+LIIVGASGGQIFAIFMLRGFVGDIPQDLFEAAEIDGANHFQQMLTIVLPLSGPILGTVGV
+MHFISAWNDFVLPLIVMRDHSRLPVMVQLVRMSGEYIKLWGPLMAGYAIASIPIIILFVF
+SMKLFIKGLTEGAIKG
+>tr|A0A1W9LCM3|A0A1W9LCM3_9BACT
+MRVAPGARLADVTTFRLGGPCRALVECPDARSLAGAVTALRAAGLPFLLIGGGSNLLVSD
+EGFAGVVVRLASDAPAFRCDGEEIVAAASAPLDALAAFSVRQALEGLLFASGIPGTVGGA
+VAGNAGAFGEDVSGRLVSVTVLDPDGQIREEDPSRFRFAYRHSEIPAQGAIVTEVRLRLA
+SAGTGPLAAERDRILALRAAKHPDWRSIPTAGSFFRNVEPTSAAGRRQAAGWFLEQAGVK
+SMTDGGARVYEKHANIVVKGAPDCTAADVDRLTRRMAAAVKSLFDLTLVPEVRRIGHFPD
+>tr|A0A1W9LEK2|A0A1W9LEK2_9BACT
+MRFLNSTITRRIRWRRATSPGKSRIRKIFAGYAFGVDYREERGHMYSLDDQKLTERTHKF
+NQPGACLHCHGGGMKQVYEAQGGGDLMAGFRKVCAMPLTQAWTFVSHPITCTDCHDPATM
+ALRVTRPGFMNGIAALAASEEPAPTMPSVERWRRDGRKGTYEPNAMATRQEMRSFVCGQC
+HVEYYCGPKETLFYPWSKGLKAEQIEAVYDARAFPDGTKFHDWKHAETGAEVIKAQHPEF
+ELWNQGIHARSGVACADCHMPYKREGAMKVTDHHIRSPMLNISRACQTCHHFDETEMKAR
+VEAVQDRTKALMDRASAAVVALIDDIVRAKQAGASPEALATARSLQRKSQWRLDFINAEN
+SMGFHAPQESARILAESIDFARQGQLSLVPRDVPAPAK
+>tr|A0A1W9L801|A0A1W9L801_9BACT
+MVYINAANNFPKIDGGERFVLRNAGGAGIDGPTPSSIDPVNRSVQRKSAVSNGTLSASWY
+VVTSSAATPGTGGAGTNSGKVVINEYADAGSFSYEFVELFYDAALSDVPPVLLAIPDQIV
+TVSNRLQFSVFATPTDGDPVTLSVSNAPAGSTFDSTNENGTFIWTNAAPLGVYTARVYAA
+DNDGADWKAVKISVLTPPTVEFHTSELIVSEEVGTQVVGVVLSRAGDVTVQVSVAGTAMS
+NDYGVVSTTLIFTAGGATQMDVSVIITNDALTEGVETVILTITNAIGALIGVPLQFTLSI
+RDNDAISIMTANLTSGSPAVYRDPGQRILRGLKPDICALQEWSVTNAGGIRGFVDLNFGT
+NFYYYIEPQATNFFPQPNGLVSRWPILAAGEWSDTETVNRDFVWATVDIPGDRNLHVIVV
+HLYYSGGPDAREREARALTNYIAQAGFPANDYVVLCGDLNTITYGEPCYQVLTNVFSDSR
+QPKDQFGDIDTSRNRDQRFDYVLPMPLLNSNHYTVTVSGSNFSEGLVFDTRLWTNGTPPP
+SPVLVTDSAATGNAHMAVMKAFSLGRTPPSLRAIGEQHVIARQPLQFSVSATPTDGDVVT
+LTASNLPGDATFSATNAVGTFAWTNPAPAGIYTSLFYAADVDGVEQEVVTIHVLVDGAVW
+INEVHYDNASTDTNEGVEVAGRAGVDLSFYSLCAYNGGDGTLYESNALGGTIDDEGCGYG
+AVWVPMPGLQNGPDGIALVQHGTDVVEFLSYEGVVTAVEGPAIEWSSTDIGVAEGGAKIG
+QSLQLIGTGTNSPEFGWAGETNAASPGVLNARQTIFPCIGVTNVPPTLYYIGNRGVVQSN
+TLSFTVSAWDSDGDPITLSVSNAPAGSSFFPTNANGSFVWTNSAPAGVYTTSFYAVDKDG
+ASFETIWITVGTGTEKPVFQTVGNKTVIQNLALAFDVTATDAEGDPITLTASNLPGSATF
+SSTNGAGSFLWTLATPVGVYTTRFYASDVDGIAVATSKITVAAATNPPVLQAIGGRWVSE
+SNTISFAVTATDVDQEPITLSVSNAPAGSAFASTNGSGTFTWTNASPTGVYTCAFWASGD
+DGANSAVVTIRVVVAXGAVWVNELHYDNVGTDVSEGVEVAGRAGSDLSVYAIYRYGSNGA
+VGASTALTGFVDDEGCGFGAVWVPISGLQNGPADGLALVRGGSEVIELLSYEGVLIATNG
+PAAGMVSLDIKVAEDGTTPTNRSLQLTGYGSGEYDFRWAGPTNAASPGTLNGPLQQIYPC
+GGDTNAPPKVYWIGDRAVRESNTLSFLVWATNYDNDITTLSVSNAPAGATLYATNEHGSF
+VWPAPTPVGVYTMTFWAADADGLDSAAVVVDVQMWATNRPILQRIGARAIALSNTLTFSV
+VGTDPDGDQITLTASNLPAGAVFSATGGNGTFSWTNAAPVGAYTSGFWAVDNDGAVSEVV
+TITVVAASASLWINELHYDNNSTDTNEGVEVAGVAGTALGGYTLFGYNGGDSKLYSSNAL
+SGTIPDEGCGYGAVWFAISGLQNGAPDGVALVHNGAEVVQFLSYEGVFTASNGPASGMLS
+VDMGVSESGTEPVGRSLQLQGSGSTYAQFTWTGSTNSASTNSLNANQFIAPCDTDGDGLP
+NGWESAYFNGPTNATATDDTDTDGMNNWAEYVAGTVPTNDLSLFTADAFRRTGSNRVEFA
+SVTNRVYSLYLRTNLLLGSWTVVQTNIPGNGQTLSLTITNELPALYYRPKVSLP
+>tr|A0A1W9LAH1|A0A1W9LAH1_9BACT
+MKQKAILIAAILVGILAFALTHRYLRMEREKLYAGAEKIKTIVAQKDLPAGMVLKMEDLA
+ALSVYKSAVGGQAVLPDELNTILGKKLRYSVRRNDPLLWSSVDVPERMRYGLAPTIKPGL
+RAVSLAIGGEAAVSGLVQPNDRVDILGTFTMPSRAAQGQMETVTLTILQDVSILATGSRM
+AKGEGGYQSAFEGRPTSFSSVTFEVTPREAELLVFAQNMKGQLTLTLRNPEDVTFEKDMP
+EVNFKYLETKMPEMNLFRQRNIRHKQE
+>tr|A0A1W9LEG1|A0A1W9LEG1_9BACT
+MNRRQFLGAATTGAAAIGTWRARGQGAAAPVVKLGLIGCGWYGLVDVEAAFRAGGIEVAS
+VCDVDRDHLSAAADKIATLQGKRPREFKLYGEMLAAGGMDAVVIATPPHWHALQFLAALE
+AGLDIYCEKPLAYDIREAQAMAAAAKKKPGRVIQIGFQRRQSPAVRAVRDFVKAGGIGRV
+VQADVQIHYAAGILDTTPQDPPAALDWDLWCGPAPKLPYCPQIGHKAWRLEKEYGHGHLV
+DWGIHLIDATRWILGESMPRSVQAVGRLVKFGGKITTPDTMSAWFDYASAPVAWRHRIWG
+AQEYDSDTSNGILLHGEEGTVFVTDARWVHVPKAKNPERRVTEAKADLAQAHMADFLDAV
+RARRPASCPTAEGFLSTAAVKLATIANDIGAAAAWDAAAGEATGAAKAGMKREYRAPWKH
+PWGEEIAKPEFRSAKRSRNAEVQ
+>tr|A0A1W9LET0|A0A1W9LET0_9BACT
+MPAKPNPFINRELSWLAFNRRVLEEALDPSLPLLERLKFLAITGSNLDEFFMVRVGGLQQ
+LNEQGRDAKDPSGLTAAEQLSEVSRIVHELAADQYACLLDDLEPKLAAEGIRRLRINQLT
+PEQDTYVQALFEHELFPVITPMAVDLDEPFPLLQGLGLNLCVRLKTAKGSDLPRFAVVAI
+PKGLARFVTVPAAAGYHYLLLEDIVEAFLARLFPGEPILEGVPFRIARNADMNVREDAAG
+DLLAQMKEVLTERKQSSCVRLEISRRASDVLRGFLKTALDLEEPSVYSLPDPLDLGAYFR
+LASMPGFDALRPTPWPPQPSPDVPENESIFDAIARRDILLVHPYERFDPVQRLVEEAADD
+PAVLAIKQILYRTSERSPIVSALARAADRDKHVTAVVELKARFDEARNIEGSTALERAGV
+QVIYGLKGLKTHAKICIVVRREPAGIRRYIHFGTGNYNEKTARLYSDVSLMTCDEDFGAD
+ASAFFNTITGYSQPVKYRKLEAAPIGLRARLVELIENEIERRKQGQPAKIMAKLNSLADT
+EMIKTLYKASQAGVEIRLNIRGICGLRPGVPELSENISVVSIVDRYLEHARILYFHNGGE
+PRVFISSADWMPRNLDRRVELLVPVEDPACRNRLVAVLETCFQDTAKARRLLPDGAYQRV
+EPAERKKAVRSQELLHRLATQAAKAAEKAADTAFVPQRPAASGA
+>tr|A0A1W9L9M9|A0A1W9L9M9_9BACT
+MNRSIVSACNRRDFLAAAATGAAALALPRGAGAAGFKTTLKKSLIGSPTEELLTAWKAAG
+FDGLESKDRAATPEAAAAARKIAESLGMRIHSVLFGWASFNSDDAAAVDRDVAAMETALR
+AAQAYGADAVLLVPCRTNVKPVPEPWDFRIEFDDKTGHVTRVVEGDQALFQPYIDAQNQA
+TDRSRKAVERLIPAAEKAGVVIALENVWNNLWVQPALYTHFVASFKSRWVRSYFDIGNHV
+KYAPPETWIRALGSNIAKCHIKDFQLNPDGHGGKFVHPRDGSVNWPVVRKALDDIGYSGW
+LTIEDNGLPLEEFSRRLDLIIAGQ
+>tr|A0A1W9LH63|A0A1W9LH63_9BACT
+MTMPAEELWTRACAELSVRVSQEVFSRWIKVIRPCSLDGDRLRLSVANDFYVFWLEENYL
+PMIAAAATVAAGREIRVNLAVEDRTSTAPVAAPSKPAPAAKPRAPAAPRDSVSTPLDAGF
+TFESFVLGPSNTFAHAACMAVAQTPGRAYNPLLIFGGSGLGKTHLMQAIGHHVLKTARSA
+VVCYTSAEAFLNEYIECLQHNRMVAFRKKYRGVDLLLIDDIHFLAGKAGLQEEFFHMFNE
+LHTRGRQIVLTSDRPPSEIQGLDKRLVSRFEWGVTTQIEPPDVETRVAILRKKAAALKLH
+LSDEIILFIAENIRNNIRKMEGALKSVAAYSALQGAPLTREAAMQVLRGCLDRTAADAPT
+IDVIQKTVAEFFDVRISDMTSKRRMQTVVVPRQVAMYLSRALTSRSLPSIGDAFSKNHAT
+VLHACRLIGERMRHDPSFQEMVSTLRRRLGAD
+>tr|A0A1W9L8U9|A0A1W9L8U9_9BACT
+MGPRVNIGAAAKRAGLSTHVVRAWERRYAALHPSRTGGNQRLYTAADVERLRLLERLCRA
+GHRIGRIANLSAGGLRALAVGTAAAAEPVPAGRGRGVPDLLARCQASVEAMDAEGLGRVL
+DTARVFLPSPAFLGDLVLPLMRWVGERWRSGDLRIMHEHAATAVVRSLLDRMAAETPVSE
+SAPLLVIATPPGEWHELGALAARVSALTHGWRVLYLGANIPPAEIAGAADAHKASAVALG
+VTFDAGNRAMASMIRDLRKQLEGKSFLMVGGPASARCSKAAGLKSGATIASMSVFGKMLD
+CVRTRNVDL
+>tr|A0A1W9LB08|A0A1W9LB08_9BACT
+MNIEKLKHSLAALDSNPPSFAANPKRHKMFLDIGQFLEASVRAGQALDLRAQNPNPVWQA
+IEPRLARALESADETDLARNEVAAWQMYNDGVIVRTDEIAIGLDVIPMPRFFGWPEPPKL
+TERIAELLDLLVITHAHEDHYDRALVRACLRMGKPVLMPEPMAGEWGQDANLHPVSHGWE
+LEIDDLHITGRAGCHVWRDTPEELPLVYYEIRCQEGYTFVFGGDVDYTKTFEKTRGRAID
+LLFLPWRNPNAAYEEGRPEQTGTTFDAVRIALDKIEPAALLYEHCAELNHVYDGFPASFD
+MALDLKQRIPVPSELMFWGEQIALAPRT
+>tr|A0A1W9LB30|A0A1W9LB30_9BACT
+MKSLAWLFPGQGAQAVGMGRDLAEQIPAAAAMFRRAGEVLGFDLARVCFEGPEAELTRSD
+RAQPAIFVVSAACAEALTLAKPGLAWAFTAGHSLGEWTALYAAGVVSFDDALRVLQARGR
+FMQQACEQNPGAMLAVLGLPREAVEQVAARSGAEVANFNEPAQTVLSGTREAIDAAERVA
+GELKAKRAVRLPVAGAFHSSLMKPAADQLAGLLAGIDFKAPRFPVMSNATGAPHGGPDET
+RREMVRQVTSSVRWVDIVQYLAAQGVGRYVECGPGRVLTGLVKRIDREAELHTIPDLPGL
+QAVSGKI
+>tr|A0A1W9LE88|A0A1W9LE88_9BACT
+MAHTATLHVKIEPGTARSLKHLAVRRGRTVGELVRQAISACYQPEMAGLAARQRQAVEAY
+RGGYISVGKLAEVLGCTALAARKWLIERSIPQSSAFEADDVAHA
+>tr|A0A1W9LCY7|A0A1W9LCY7_9BACT
+MTWIAIFDWDGVIVDSSAHHERSWERLAADEGLRLPADHFHRGFGMKNEEIIPDLLGWTR
+DPAEVRRLSLRKETIFRDLVRASGIRPLPGVEEWLRRLDAAGIPRIIASSTHRENIETLL
+AILDLGGFAGIVAADDVHRGKPDPEVFLLAARRLGADPARGVVFEDTPVGIEAARAGGMR
+VVAVTTTHPASRLARAHRTVARLDELMPDEVGRIASCFA
+>tr|A0A1W9LH75|A0A1W9LH75_9BACT
+MKVRSSVRRICERCKIVRRKGVVRIICTNPRHKQRQG
+>tr|A0A1W9LG16|A0A1W9LG16_9BACT
+MAALWLGVCAAVGSAQVPATTTTDRLNEAWWKTRHEAKYAEVVKGGNDLVFLGDSITQGW
+EGSGKTTWAKYYAHRKALNLGYSGDRTEHVLWRLENGEIEGLSPKLVVIMLGTNNTGHRK
+DPPEQTAAGMRMILDLLKEKMPAAKFLLLAVFPREEKPDGDLRRINDGVNAIYKTLADGD
+RVTYMDINAGMLDPDGTLTREIMPDLLHPKEKGYGIWAAAMEPFIAKTLGDTPVAP
+>tr|A0A1W9LCJ1|A0A1W9LCJ1_9BACT
+MQTGRPPKHQRPPLGERIAAFRERAGLSQQQLADALDVNQQMIAYWERRGVTLRPEQLAG
+LADALKVSVEELLGKAAPKVRVSGPSGKARQVFESVSRLPRRQQQKIVEVVEALVAQHAQ
+VREA
+>tr|A0A1W9LDT7|A0A1W9LDT7_9BACT
+MQGWVTQLRKGLVELSVLHVLRRGESYGYEIVQALRDIDALAVSESTVYPVLTRLREEGL
+VRVREGASPEGPPRRYFSLTPQGRLRLAELSAHWDLVVEAMRCLRAPKNG
+>tr|A0A1W9L8Y0|A0A1W9L8Y0_9BACT
+MAKIAIGINLEFVRHEDKPFEWGVRKAAELGYEYVEPMLHWGRELLSEAGYFHSVSMLDD
+PLRVTRACEAAGVKLSGFSAHTPLCKPEISVEYLKQAVRFAAECGATVVNTDEGPKPAWT
+TAEEDHVLMRYTLAEAARVAEPRGVFIGIEPHQQYSRTPGGLDRIQGLVKSPAIGINFDT
+GNSYLGGEDPYRWLERVLGRLVHLHAKDISIRQSGAERGKVTGTPVGCACGDGVIDWTKV
+AAICRRAPRDIVFSVECGTVDQAATSIAHLKKVPAE
+>tr|A0A1W9LFG6|A0A1W9LFG6_9BACT
+MKAIAPGKLILSGEHAVVYDRPAIAMAVDRSAQSVIIPEGVEDQVAFNLQDLKLEESFTV
+RALRELKNRLMKNYRLFLEGQLGIRDVLYKPVELFQFAFITILDGLHLKVANGVKINLHS
+NIPIGCGMGSSAATVLSVLRGIGHYFRVEFRPEWYLAYSLEAENLQHGHASGVDSYISMN
+GGCARFQKGEARQLPLPRMPMHLVHTGIPETTTGECVEHVRRQFEHSAIWNDFEAVTNAL
+EQALSRNNLREIQGVIRENHRLLSEIGVVPQKVRGFIADVEKWGAAAKVCGAGAVGGDKG
+GMVLVCSKESPKELCDRYGYSLISVRGEPLGARIVG
+>tr|A0A1W9L9U1|A0A1W9L9U1_9BACT
+MRVPISWLKDYVDFNDTPQGLAQKLTLSGTEVEGIETIGSTYDGIVVGEVLKVDKHPNAD
+KLTLCTVNTGSGEMTVVCGAPNVKPGIKAPFARVGVTLANGMKLKAAKIRGVESQGMLCA
+EDELGISADHSGLLILDAKWPAGTPLSTVLGPPETVLELEITPNRPDCLSVIGIAREVAA
+LYGTEVRWPPIKPAESDPAVETLTRVEIEDTDGCPRYTARVLTGVKLGPAPDWMRKRLEL
+SGVRPISNVVDITNYVMLECGQPLHAFDQKLLDGGRIVVRRFRAGEKLSTLDGIERPMSP
+QMLVIADAKRPVAVAGVMGGAGSEINDRTSTVLLESAYFKPQDNRATSKKLGLSTESSYR
+FERGIDIGTVEWASRRAAALMQEHAGAALARGVIDVYPKPRTEQTIVCRYERVRSLLGLD
+LAAAQITKVLESLGLSVTESVEKSCTVKIPTFRVDLEAEVDLIEEVARIHGLDKLPAPSP
+RAEVVPGADDRPTRAEIVCRNNLVGLGLREVMNYSFVADKLLDLLNPLDADQRVVLPNPV
+NLEQGTLRNALTPQMVETLGRNLAHQQTEAAFFELGRVFFLNAEGRPDEESRLAIGLMGP
+VGRTGMDRHRGVQPDEMFLWIKGIWEQLARAQGIARWELIETTRSHLEAGRAAALIVAGQ
+DIGVLGLLKSAIRKEWRITGPAAVLEIRTAPLLEHVFDSQSFAALAQYPSVVRDAALIVG
+EGVRHEDVLNVVKKAAPKELERVELFDIFSGEGIGAGRKSLAYSFTYRSLTRTLTDEDAN
+GYHEQVKDALKRELGVEVREG
+>tr|A0A1W9LG70|A0A1W9LG70_9BACT
+AEADIEVYWVPGAFEIPTLAEQLAKQGRHNALIALGCVIQGETPHAALINMTVAAALSDV
+SRRHAIPVVDTVVSANTEAQAVARCTSGPDGRGTYAARTAVEMARLLASIRLSPS
+>tr|A0A1W9L9N3|A0A1W9L9N3_9BACT
+MAHTRIPGSLLREREEQTGALGLKIGLLVFVLLVVIAIVLDLSNLGKRPPRAVVDVQTEI
+QNLILGLDGPRHVDPSGRFSIVIPAGWRVLLPPDSKPYDVVFSGPHSVDISILASPVPYN
+DLPSLAKDIDKAERGFNLRVQKEPMFFQEKPAVRRICRLQQTQLLAIDFVSGNVAHHLMC
+SVPPEYFSSFRPVLEELLNTYRFGAAVTNAAKEISP
+>tr|A0A1W9LEJ7|A0A1W9LEJ7_9BACT
+MPRILREPDRTGHFGPYGGVFVPETLMAPLAELERVFRAAWRDAAFHRELDAALRDYVGR
+PTPLYFAERLSREIGGPRIFLKREDLCHTGAHKINNALGQILLARRMGKRRVIAETGAGQ
+HGVATATMAAKFGLSCVVYMGRVDMERQALNVTRMRMLGAEVVPVTVGQETLKEAISEAM
+RDWVTNVRTTHYVLGTAFGAHPYPLMVREFQSVIGREARRQILRREKRLPDLLVACVGGG
+SNAIGLFHAFMDDPGVGLVGVEAGGLGIRPGRHAARFAGGRLGVLQGARTLVLQDAEGQI
+LDTHSVSAGLDYAAVGPEHVWLRDQGRARYEHVTDAEAVAGFDALARLEGILPALESAHA
+IAWLLREAPRMKKSGIVIANLSGRGDKDVQQLVEWKAARKAGVPSLKFQVSRRKGAD
+>tr|A0A1W9LC83|A0A1W9LC83_9BACT
+MADPTYGIPLTVVALFLLPLVFALFFGRVFCASVCPLGAIQEMVIVRPLRLPAWLHRTLG
+LVPHAYLALAVAFAATGAGFWVCRYDPFVGLFRRGGPASMIVTGAILLAIGTLVARPYCR
+FLCPYGVLLNWFSRLSRRHLTITPDECIQCRLCEASCPFDAIRGPEPGPVDRAAARRALA
+VALLLLPAFAAVGAFAGRIAGPLLARAHPAVSLAAEIRAEDAAGTRDLTEATKEFRASGE
+SMGLLAAREADALRRVGRAVTWAGGFLGLMIAIRLVALARRSDRKDYVADRGECLGCGRC
+FAHCPREYVRRGVLDGPMLNP
+>tr|A0A1W9LCZ9|A0A1W9LCZ9_9BACT
+MRECTIHVEQQGDLDILRLNGSLDAYSFPRLESVLTELREKKRHRVVLDCTGLDYISSAA
+LGALIGFARRARENEGDMKLACLSPRIYNIVELLGFHKILEISTTIEEAAARFSH
+>tr|A0A1W9L9I8|A0A1W9L9I8_9BACT
+MKSNKAKDYVVKDLKLAGFGRKEIELAEHEMPGLMSIREEFRKAQPLRGARITGSLHMTI
+QTAVLIETLQALGAKVRWASCNIFSTQDHAAAAIAATGTPVFAFKGETLEQYWEFTDRIL
+DWGKGTGPNMILDDGGDATLFVHLGYRAEEDPSILNRKPGSHEEKILLAQLKKSLKRDPK
+RFHRIVKPIRGVSEETTTGVHRLYKMQEKGELLFPAFNVNDSVTKSKFDNIYGCRHSLVD
+GIMRATDVLLSGKVAVVAGYGDVGKGSAQSLKGQCARVIITEIDPICALQAAMEGYEVMT
+MDEACKIGDLFVTATGCCDVITEKHMKQMKNLAIVCNIGHFDSEIQVEAVKKYKWTGIKP
+QVDQVTFPSGRSIILLAEGRLVNLGCGTGHPSFVMSNSFTNQTMAQIELYANPGKYPVGV
+YVLPKKLDEKVARLHLGKLGVKLEKLTKAQAEYLGVPASGPFKPNHYRY
+>tr|A0A1W9LGC1|A0A1W9LGC1_9BACT
+MKLALRFYGDPILRERAAPVAAVNEPLRGLADNMVETMHTEEGIGLAAQQVGERVALCVV
+DVPASGDTLDDGTRLNPDVAMPMVLFNPEIVEFSDDTEVYEEGCLSFPEIRVPVTRPAEV
+QVRWTDRDGVRRERHLYGLVARCVQHEMDHLNGVLICDRMSAVKKISMSGRLKRMKRETE
+QALGIA
+>tr|A0A1W9LBJ1|A0A1W9LBJ1_9BACT
+MQRFASCAAALTLILAAMGGGCVHWSGTSAASGRAAFDAMQKAAAEAGRGVADSLVLVTV
+QRESPSGATPQMTPGMQAGAAGPRMFTGVILTPEGHILAPELIRPDTTERIEVRVGEEVF
+AARPLKNDDTIGLTILKIETRTPLKPLRLDDAADLAVGEWGIVLVPSDETTDFEKFTHLV
+VSRGEVAGRYRRFLVSGLPPTAKGAPVLNLSGKVVGLLNPWGAVSAADLREDIAAFLAQT
+TGAKSPEEAREKGWLGAYLDPINKELAEARGYPVSGLWISHVAADGPAAKAGVRAGDLVV
+GFNGKPLRLSGVRARDYFLQTMRPTPGVKFTLELLRDGRKTEVTGEFTKRKDPETLRAED
+VGVTVQDVTDSVVFERNLFAREGVMVTQVHQGSPAATGISLGRGLLMPGDVILELAGRPT
+PNVKEFGRALDGIRRDRSEVVLVKLRRGRMTGFEGLNLKIGERGNGGRS
+>tr|A0A1W9LEU6|A0A1W9LEU6_9BACT
+MYSFSNHWKKGMQEGSNKLTVTFEDGTKTACTPGTQLKNLLHIHKSPEGLDYIGALVNND
+VVSLSYPIEVDSEVRLITLSDSHGDRIYRRSACFILAKTVKELFPTARFAVEHSLGSGVY
+CSFETGNHGGNGHADVNGNAPGITPEQLFAIERRMIEQVNADLPIKRRKIAFIEAMKQFE
+DEKQRDKYNLLRFRNPPKIVVFWCEGFSDLAHGPLTASTGVLGLFKLIPYPPGFVIQFPE
+RENPVVVAPFEPQPHLFHIYQEHKEWGRILGVTTVGRLNEIIAGREIGDFIKIAEALHEK
+KIAKIADHVYGNRN
+>tr|A0A1W9LFS4|A0A1W9LFS4_9BACT
+MSTNANSIIGQAIRRLREASGLSQEKLAEQAGITYQYLSAVENGKENFTIGILESVSRAL
+GLKVDALIDQAYSDPRPIPTVRSRFFVPGAQLPPELSQAHLESALNETHKVVRLINTTLI
+KASGRPLSAYIQGNNFSGIVSNILTDSFSRLTPYKHNHDQRYPDLVCKNASGALVSGLEV
+KSTIRPGKGGESHNGHSGWHVIACFSLDGKSGDVLFIHVMFADLVGQGKPKADWKYVGSA
+VNEDTGSQRTETYNTTPAGTAKLRHGTAYLDSSVIDISRWRTDASIRVPKHSPFRPKSQK
+NTKKTKRKT
+>tr|A0A1W9LH14|A0A1W9LH14_9BACT
+MNPCGDDPSPPEAKPVADERIDLYEMYREEYAAPLEPRLIRCLKSTFLTIAGTGSARTES
+FRDRMRVLYGVAHSIRKTKKKPGPDFKICRVEALWWGQNEGEEFSLEPAGAWKWKLMLRV
+PYTVHERDRLAIVLAKIEDGKDASVYNAVDLEVIREGLCVQMLHEGPYKTERETIEKMKA
+LADEKDLTLHGALHEIYLSDPHRKGRHHRRTILRIPVRSLSRPHSA
+>tr|A0A1W9LD26|A0A1W9LD26_9BACT
+MHSRLAAVAFLLLIAGSAAAKRPAKPTRSPRGGLAAQERFEGQIRPLYRSTSHVAFRRMS
+GRPNPAAGRTGAEFRGEYAASGIAIYEAAPETRHSLATDMIARGFVEIPCYVTADGRWVV
+PTDLVVIQFRPDAADAEIRRFLAGENAALITARRNHDRQFIVRVPDPAQALALADSWHDS
+KLVLWAQASCVRQAVPRFTPNDPMYPLQWHLQNTGQGGGLYNHDVSADRAWDITRGDSNV
+VIAVLDDGFVFAHPDLAANTFTNTADPVNSVDDDFNGYTDDYHGWDFTDSDNDPAPGTND
+GHGVAVAGLAVAVVNNSVGVAGLANRCRLLPLRVYSTSLDNDIDWAAAVEYAAGFSNVAV
+ISISYLIDPTPLNMGAMRYALVRGRGGKGCVISVALGNDGVRRRYVEDLAAAPEALGVGG
+NSNYDKKPWFADYGPALNVVAGAGGGNRALVTTDRLGAAGYEPGNYSTNSAEGTSFSCPQ
+AAALAALLASARPDWTGLEIRRQIELTCDKIDPGVAAYNVRGWSELYGFGRINAWAALAT
+PATPWDPYEPDNSSATANAIVDGELQYRSLATGADTDWARITITNPADIRLTVLGTTNAA
+LALYSAAAALLATNDPDAYPYAVVTANGLAATTYYARVSSPSGATVPFYGLHFGILNEAD
+GYEMDDARTNAKPISPQEMQYHTLYPTGDADWVTFTLDRAAGVQIWTMGEINGDTALFLR
+DSGGGLISSDTDTNYYYSFLSNSLAPGTYYIEVQSWTNTVPLASYQLQLEVYGPDSFETN
+NAATQAVAIASGQPRLCTIYPNGDEDWFTFTLSNRANVLVLTDTINPLWLGDTILTLLNS
+NVVGIATNDDGNDLDDYGYGYSAIYTKQPHRRHVLHPGDRLWSGPGLLPFARRVRCRNGD
+HQHRARHQRRARGVAG
+>tr|A0A1W9LFN1|A0A1W9LFN1_9BACT
+MKKYDDIVVGGGISGLTAALLLAMNGRRVLVVEKGPRIGGSLLRFHRDGIPFDTGFHFTG
+GFSRGGILHDMLSVIGLRGAIQPVFLSADRGQQFILEASGRTFDFPAGIGRLREKLKSSF
+PGEHGAVDAYLDRVEAVCHRTTASDLGMIGTPPKPLDEDFISLRDVVDGLTSNPELRQLL
+CVLGMCYGVRPSEISFANHSRVCYSLYESVARVQDGGEAFIRAFQGRFKELGVDVLCNRH
+VVECADIREDCVGRFVLNTGEEIAAANGILTIHPKSIVELLPRDHLSRAFVERVAGYESS
+SGFFSVFGVLDDGHREEDFGTSVVSLVPDADFDQILDPAYAGDPALVLMTSLETGRDGAR
+KQVVHAFESSLPAQVEAWKDSVTGRRPAEYAEYKARRVKRIRERIVRARPAYERHLQILD
+SASVLTYRDYLHSPDGSAYGVKQKIGQYNLIGKLPLLNLYAAGQSAVLPGLVGAMMSSFV
+VCRSVLGKSLFDEFIRQRMAS
+>tr|A0A1W9L9R7|A0A1W9L9R7_9BACT
+MQPKCVSPGRFAALDFETADYGRDSACAVAVVVAEQGKIVKQVYSLIRPPRREFVFSYLH
+GITWNDVARKPLFGELWPQLSDMLQGVEFVAAHNASFDRGVLNACCAAHGATPTELPYLC
+TMKLSRRIWNVYPTKLSDVCRHLSIPLQHHEALSDALACAQIVLKASEVGVRADAFLGKA
+RRP
+>tr|A0A1W9LD60|A0A1W9LD60_9BACT
+MANTGKTVRFIDLFCGIGGFRYAIEEVAKKIGVHAECVLSSDIDPDCQKAYEANFGEAPA
+GDIHAIDAKSITDHDILLAGFPCQPFSIIGQRKGFEDARGTLFFEIARILEAKKPQAFVL
+ENVKLLAGHNRGKTLARIMEVLRNLGYQVDRRIFNALDFGLPQKRERVFIVGFRTPNAFE
+WPKGGIPMRPLRDLLEKRVPKEFYASDHIRKKRLAQHPPTKETTIWHENKAGHISAYPYS
+CALRAGASYNYLLVNGERRLTPREMLRLQGFPDSFKIACNYGQTRKQAGNSLPVPVAESV
+LSQVFLSCGWINGHRPDFVYPTKQSFDRQMILLEKGTRYGKKPKTKNGRKVQTAISA
+>tr|A0A1W9LCT6|A0A1W9LCT6_9BACT
+MSGSNDGFDGRALDHLMAFLGIEALSGHEGPVCDEIRRRLIAAGCKPSWIGHDWAHRRLK
+GDFTVGNLIVKIPGTFKAPRRMFLGHMDTVPLCRGAVPVRRGDRIVAKGPTAVRADNRTA
+VAAIVAAVEVVLREKRPRPPLTLFFPIAEEIGLYGSKAVRPSDLGNPAMAFNLDSGDPNQ
+IITGAIGAVRWEADLRGRSSHAGMHPEDGVSAMLAAARAIEKVAARGFFGLIRKGRRAGT
+ANVGIIRGGEATNQVTDHVFVRGECRSHDPAFLAVITAAYRRAFESAARSVRNVRGERGT
+VEFRTETDYSAFRLPDSHPAVRFACRAAREQGLKPVTVRMNGGLDANPLTQKGVPTVTLG
+CGQHGAHSVDEFVDLKEYLAGCRLVLNLMTRAAGRDQE
+>tr|A0A1W9L8M2|A0A1W9L8M2_9BACT
+MKKWVPAAAVLFALACAVLWQLRPRLAHRSPSAAPDAGLAEALRTIPRPTLFAAVSNRLA
+GSTITLQSSTALAGRVGTGLPSTALAGRVGTRLPSTALVPSVGTRLPSTALAAVGAEIDA
+DWLRRERARFVPPSVHPRDEVPPSLRIRLATRVAAPSVDGPSPADPAAIPSPRGTLPFVL
+QFGSAAPRDWRGRVETAGGILRGYLPNRAWLVELDPAARTAVAALPFVAAVEPYQPSDKV
+QPFVAHLAATREPAARVPLAIQTFEPADAERLAERICREGGTVESVAAGRRWGTVRAAVP
+LRLVAGLSRLGGVQWIEDDPRPRFYNDLAAAGPHLNATNAWARWGLTGSGQIVGHADTGL
+DIGATNGIHPDFSGRVLAAFARARSNDWSDADGHGTHTAGSLVGDGAMSGGRYCGMAHGA
+SLVHQSVGRADGGLTGLGTNLNELLLQAYEAGARVHSDSWGTDSAGEYTTRSREADEFAW
+DHPDHLTVFAVGNAGADGDTNGVIDTGTVGSPATAKNVLAVGATENDRPPGSGGYTAYEY
+GTGSWLPDYPVNPIRDDWVSWSATTNPYAQGMAAFSSRGPATDGRIKPDVVAPGTDILSC
+RSRVASNSAGWGVAPESTNYVFNGGTSMATPLAAGAAVLMRQYAMERAGVTNPSAALLKA
+MLVGGARSLAPGQYGTNATQEIPFASPNAVEGWGQIDVEGAVYPDGRLVRLFDRVAPAED
+ETNTLAVTVAEAGRTLDVALSWIDFPAAAGAGATLVDDFDVEVVDPTGAVWFANGGSGPD
+RTNTVETIRLPAAAAGAYEIRIIGASVPETGAVAAVYVRGAIEGPPQIHHVPADFRPGGA
+GDFTVEAAIQSLGPLTNGEARLYWSTNDPPDPWSVTNFEWFGVADYRAVIPDQPPGTTVR
+YYLQADPAPYDVRSPTNAPDAFHSFQVRHAVSLVVTGLPFEAGMVSPGYGVHAGPSGTVV
+RAAATPAYSVSNGVRMACLGWTGTGSVPATGDTFQVEFDWESDSVLTWLWREEVGLAQSS
+EPQGAIDMTTWHARGAVAATETTWALAWAGSDPYAFAQWSVDGARWPDATSPSPNPATNI
+VMTGPRTA
+>tr|A0A1W9LAA9|A0A1W9LAA9_9BACT
+MKSAIGSFVKGRRRRLGLTQPDLADRAGVGLRFVRDLEQGKRSVRVDKVNQVLALFGHRL
+VPAPSTPAEDGSHA
+>tr|A0A1W9LH29|A0A1W9LH29_9BACT
+MLSSAILHHRFESIHPFADGNGRTGWALALWELYRRGFDTHHIFSVDEYYWEDRPRYYAA
+LDAMHRAGGDLTGWLEYCAEGLRLTLERVWMRVQALSVTSTAKLVLRPRQERLLRLLRDP
+GSMAPADLWAALKISRQGAMDLLRPLLDAGLVEKIGGRKTGRYALRKP
+>tr|A0A1W9LBW0|A0A1W9LBW0_9BACT
+MQVLFYLCPALVDWMSFFVSFAAFYAAGLRGLGMQECAWLGLSFQVAYMTSSLASGHVIT
+HRNARGILIASTVVCGVSGAGVLAATGFGWLATGLLVFGMSMAWFFNSFQAFMRGDASMG
+SLKSSVALYTLSWCLGAALGNVTAGWLFRWGLWALILAVVFTTLLIVSLLMRPVRRRAEE
+HPVDGPVEHGTNPDYPVSGAYIAVGWLMIFTVTFVQRPLFTFLPPLFASQGVDSLWASLP
+LFMHMTVAALCGMAMVRYRAFLYRRTPFGIIQGGGVLALFAMWWWPTYWVCFAMLCLLGV
+YAGFVYYCAVYYSSNSGRRSFNIGVNEALVGSGSIAGILLGEGWVRHSGAAIDMYWICGA
+GLAVSIVAQWVTVRRAGSGIAKRQARG
+>tr|A0A1W9LDF4|A0A1W9LDF4_9BACT
+PAEAADRAARSARISVSIYGSLLAGALVVTAVVFRPAAAPTLRPGVGSPQPGSGGDVPTV
+SATTSTPVAVAADFASDEEMLAQWPAFRGFRGLGGAAGTMPTKWNGETGDGILWKVATPL
+PGFSSAVAWKDRIFVTGADDATREIYCLNAADGSLRWRHAATDIPGTPAKPPRVAEDTGL
+APSTAATDGRRVFAIFGTGDLVACDLDGKRIWAKNLGSPKNPYGHASSLMTHRDLLIVQY
+DQEKDGLLLALRTTTGEIVWQARRVVQAGWSSPIVFDAGGKALIAALANPMLAAYDPADG
+SEVWRLGDLEAEIGVSPAAADGRVFGGNEYARIVAADAKTGAQIWETDEDMPDVASPLPA
+NGLVFLAASSGILTCRDAAGGAKVWMQEFDEGFYSSPMAAGGLVHLTDRKGITRVFKAAR
+TWDLISENPLGEDCTSTPAFVGGRIYLRGMKHLFAIGSADAPK
+>tr|A0A1W9LFQ0|A0A1W9LFQ0_9BACT
+MLGYLYILRSAQGRNYIGSTDDIQRRLAQHNRNLVKSTAQRGPWILVSSSTFSSQRRPSE
+PSTT
+>tr|A0A1W9LIL7|A0A1W9LIL7_9BACT
+MDIVATSRYVRLSPKKARDFARDLQGRAVPVALSLTKFSDRKAASCLGKTLRSAIANAEN
+NHKLSAEDLVVKEAVIEDGPRLKRWMAVSRGTAHPIQRRLSHVRIVLSDGKA
+>tr|A0A1W9L863|A0A1W9L863_9BACT
+MCDVDEGKLAAARKTFAGAEGYADFRKVMERKDVDAVICGTVDHGHVLVSMATMQAGKDV
+YCEKPLTLTIDEGRRLVEVQRKTGRILQTGTQQRSSERFRIAVDMIRNGRIGKLQKAEVW
+LPAGLRAGPFATPPVPAGFDFDFWMGPTPRPPASSPALCASHMVTG
+>tr|A0A1W9L8F8|A0A1W9L8F8_9BACT
+MNRTAACLALLLAAALPAAQADVRLPHVFGSHMVLQRGMKIPVWGWAAPGEMVSVKIGTG
+PAVSALTTAGGEWRVMLPPMPAGGPQIRHLGIPKVTSAVPERDVNAEWRVCAPAVAGSFT
+AVGYFFGRELHKTLKVPVGLINSSWGGTRIEPWTPPAGFAAADSLADIRARVALADPRTD
+AHKARLRDYLGTNAAWTAQAKAALASGAVLDPLPPYPPELVPLRGHQDPCSLYNAMIHPL
+VPFALRGAIWYQGESNHGEGKLYTDKTRALVEGWRGVWHQGALPFYYVQIAPFQYGEEDP
+FVLPVFWEAQAAAEAIPGTGMAVIHDVGNIRDIHPRNKQDVGRRLALLALVKTYGAKDVV
+CSGPVFKSLAPDGAKLRLTFDHADGGLVTRDGKAPSHFEIVGEGTDFVPAE
+>tr|A0A1W9L8N3|A0A1W9L8N3_9BACT
+MTQTLTAEVKPDIYLPEPATVVRSEAVTKMERFLEFKLDSGRPLGHMPGQFAEVSLPGIG
+EAPISISSAPAKDGSFQMVVRRAGNVSGAMHGLNPGDRVGIRGPFGTHFPVEDQMQGKNV
+LFVCGGIGLVPVRSAIQYVLERRKEYGHVMILVGMKTPADRLFVDELAVWRKARNVTLLQ
+TVDRRDESWSGPEGVITTLMPLVKFDPANTVALICGPPIMYKFVIVELGKMKLADDRIYL
+SLERRMKCGVGKCGHCQVNGLYCCQDGPVFPFSDLNDVEEAI
+>tr|A0A1W9LH84|A0A1W9LH84_9BACT
+MSHDVSSDERAAAPPEPGIFCTTRWSVVLTARDGTAATRGGVARFAAEPRDVRTPEQEFD
+RQWALRLLDEVLRRLEAEYAAAGQRELFEALRFVLTGDGSGAPYDELAGRLATTAGALRV
+AVHRMRKRYRALLREEIAGTLASSADVDDELRCLLEALGS
+>tr|A0A1W9LH89|A0A1W9LH89_9BACT
+MKLKVKKDDLLIGLQRVQPAVAGRTTLPVLGNILVRADGARLHLTASDLSMTVTASVAAE
+VAKDGATTLPAKRLSAIAREFAGSEIEIETNDREVTALRSASAVFHLNGIAAEDFPALPR
+IADARTFTMDRAVLRSMLQRTAYAASADESRQVLNGVLLAFRDGRLTVVATDGRRLAMVD
+QEVEMTKEAAELIVPTRAVSEIIMMLEGQGPVTLNAMANLLAVDAGDTILYSRLVEGAYP
+NYRQVIPGPCEERIALERESFMNAVRRVALLTNDTNNAVKLSIRRNQIEISAQTPDVGEA
+KETVPVKYAGKETVVSFNPGFLIDPLKNLVADQVYLEFNDETSPGVIKTDEPFLYVIMPM
+RLS
+>tr|A0A1W9LE94|A0A1W9LE94_9BACT
+GTTGCLMLARNDAVFEEAVGWFRDGRVQKSYEAIACGRVPGSRRVIASPIDGQEAVTRVT
+VVRATDEASHLRLRIETGRTHQIRRHLADLGHPIAGDKSYGTSRESTERLRALPRQMLHA
+AEVSFPARTGDAPVVVSAPVPQDFQDALERLGLRQGGRRTGGRPAQLR
+>tr|A0A1W9L9A2|A0A1W9L9A2_9BACT
+MKVLLIRGNPRKTGLTQQVTDRFLKGVLASGADVTDVDAVALAIEPCTGCYTCWAATPGH
+CIHDDAMKDLLPVVRAADVIVFSTPVNYYAMSGSLKTFIERLFPFFAPGIERSARGYFRN
+RCRYPADFGRKKLITIVVGSLRHLDTFGPVNETFRLIADSLDMQIGGQLTRPESYLLQFT
+RSKPKTVRLIEQAFVDAGMQAGTTGCLSAQTMEQAAQSLSVDDRHFETYSNIYWDRAIRM
+GAAANLASLRECISREPAILMREMARSVDPKATARVRAVIQMDFPDQDLHYRLTVDRGQC
+DIREQPTPEPDLRITCNASVWVDFMLGQLDLHEALRGRQIVVEGDKALFTRLGRFFPPPS
+>tr|A0A1W9LEY7|A0A1W9LEY7_9BACT
+MAAAVTDTLVIQVAVLVGLLAVSGFCSGSEAVFFSLDALRLRRIAQAHPALGRSLHALLA
+QPTRLLSTILILNTLVNVAASALFFEIMLDLVPRHAERISIAAMTLLLLVFGEFGPKQLA
+LQFTTRFAAWFTPPMRGAVVLMTPFRWALERVTRALQPFFRPRGGSLSGDEFRTVVDISG
+QEGIIDAEELSLIKAVVGLESMVVADVMTPRVDLRGVDLNDATADPVKIARTARRQFLPL
+FRDTADAVEGFLDVRRFLLDPAHVLEMARIPPYFVPESMRLNRLLAQFQKDRRRAAVVVD
+EYGGTSGVVTRGDILERITGEIYHELSRPRPVFQEAGPNRWLVDAGFSLEDLNRKLGLGL
+EAEGAERLAGWLAVHAGHIPEPNEIVEAQGCRVTVLKTDQRRVTLAHIEKLDPGEDDA
+>tr|A0A1W9LHC3|A0A1W9LHC3_9BACT
+MIWLTGGGLVVAICMIVGLLALIVAQGAGTLWPKPVLQVRLKSGAVLMGEVARTEAFREA
+DGREARRRLVRTGNYELTSEHFTWVNDADVAEESRPEWALVVERLAWGRFYGVPKSLTAE
+GTVVAASPGAVWKAFQEIHASVTDRRHRRERLETEGIGAVNKRIEDARLAVRKAELKNGP
+GSPGHAAAVAYAAEIQAETKAEFDRLRAEIAALNAHNAKFSMKVVTADGRETELALADIV
+RAYPANRLSPGGRWGVYGSRWREFLLDAPREANSEGGVFPAIFGTVIMTLIMSLAVVPFG
+VMAALYLREYAKAGPVVSAVRISINNLAGVPSIVFGVFGLGFFCYVVGASIDDLFFAAKL
+PNPTYGKGGVLWAALTLALMTLPVVIVATEEALAAVPGSMREGSFACGAGKWQTIRRIVL
+PRALPGIMTGMILAMARGAGEVAPLMLVGAVKLAPELPVEGVFPFIHAERSFMHLGFHIY
+DLGFQSQNSEAAKPMVFTTTLLLIFVIFILNVLAVQLRTRLRRRFVSAVF
+>tr|A0A1W9LCB0|A0A1W9LCB0_9BACT
+MTRAAEIRDLQQLDGQNVSLRGWVYGKRSGGKIIFLLVRDGTGTCQCVVEAANPELFAAA
+SGLGQESSLRLTGRVRLDPRAPGGAEIAIATLQPIQPVQDYPITRKAHGTDFLMAHRHLW
+LRSPRQAAILRIRHTIIRAARQFFDDRGFTLIDTPILSPGAAEGAGTVFPVDYFGEKVYL
+AQTGQLYLESAAMALGKVYCFGPTFRAEKSKTRRHLTEFWMIEPEIAFAEVSDLMNWAEQ
+FVSHLVQSVLRDHRPDLKSLDRDIAPLEKIAPPFPRITYSQAVDLLHDPEVHQKLAAELE
+ADRARLQAWIKDLADLEGQKAAARQGWQQDKLAQQIQDLRESIRELEAAVEHRPEHIRHA
+REFAWGDDLGGDEETILSRQFDRPVLISEYPRKIKAFYMKASPANPDVVLNMDMLAPEGY
+GEIIGGSQREDDLDALQRRMAEEGMDPAPYQWYLDLRRYGTVPHGGFGLCIERAVSWICG
+LGNPEESRAFPADSARGPVTRTQGPNT
+>tr|A0A1W9LD44|A0A1W9LD44_9BACT
+MILDALSNAAMHTGFAEAFDFLRRAGLENLPPGRHEVRGAQLYASIGRDEGRGRDGARLE
+THRKYVDIQYVVSGEEVIGWSDLASCRASGLGYDEGRDIEFHTGAPRIWFPVPPGLFAVF
+FPEDAHAPLAGTGPVHKVVMKVAAGAP
+>tr|A0A1W9LHB5|A0A1W9LHB5_9BACT
+MNARVAPVAWVLCGLLFGAVLAPPLTAWLAGSFGWRGAFVTTGLIGLAWVAAWMLAGRFA
+PVPAVSVARPTPWSAWGGPAARSTLLTLAALLTPASCLVVWVPSAGWSIALMSLLMLAHG
+FWICNFLASISDDFPATEIATVVGLSGTVGGAASFLTSLAIGPVVDRWSFTPVFLVSAVL
+YPLALVVLTLRPRDRSVQDAPVGLL
+>tr|A0A1W9LGQ8|A0A1W9LGQ8_9BACT
+MRSDLIQLSASRLRPLSPEPTAVAPDLRLLPGIRAVLFDVYGTLLVSEAGEPVECGRPNG
+DLAVCAAFEACGLAPCPLDTAAAIDRILCRAVSAEKDLRRAAGAPHPEIDILDVWARVLA
+LCRMEGLVPAEAPEPDLARLALVHECVANPVWPMPGAADTLAGLRARGFVLGIVSNAQFY
+TPLILQALFGSDLTALGFDDGCCAWSYRAGIGKPDPALFRLAADGLRTRHGIAPGEALFV
+GNHVEKDIAAAAAAGFRTCLFAGDRRSLRLEAPSGIAARPDAVVTGFDQIPGVVGETAAA
+EDAGRPQILA
+>tr|A0A1W9LH86|A0A1W9LH86_9BACT
+MRHRKTTVKLGRKQPHRDAMLAAQVCSLIVHGRIRTTVPKAKASRRLAEKMITLGKKGTL
+AARRQAIAEIHQEPAVRELFTRLAPGFADRKGGYTRIVRLAGRRVTDSADLAILEWTNYI
+PPAPKTPKAEKAEAKPAEATEAAAKA
+>tr|A0A1W9LEJ3|A0A1W9LEJ3_9BACT
+MRRSEAGNADVGIDLAEVDRIVARIGSSPEHALPVLQAIQSHYRYLPEPALRRVCEIASI
+TPAALQGVATFYPQFRHRPLGRHTLCVCVGTACHVKGAERVHDAVNRELRIPPGGDTDAD
+GEFTVQKVACLGCCTLAPVVTIDHVTYGHRAADNIRGMLHDFAARRGGAEGDPVRALPGD
+AEAVDGEIRIGLGSCCIAGGSAKVEAALRDAVLRSGSRVRIRHVGCVGMCHQTPMVEVLR
+PGIEPMRYARVTPQEVDRIVAAHFAAHPASRLRARLDAWLDDFACRGADASPGAGRHLDP
+REAHVSAFLCHQLHIATENSGAMHPTDLDDYRRNGGFEALAACLRERTPERVIDEIETSG
+LRGRGGAGYPTGWKWRAVHGAPGPVKYAICNGDEGDPGAFMDRMLMESYPYRVIEGLLIA
+AWSVGASEGILYIRAEYPLALKRIGEALDRCRATGLIGRGILGTEASIDLRIAQGAGAFV
+CGEETALIASLEGRRGMPVLRPPYPARHGHHGCPTLVNNCETLAMIPWILRHGAGAFAAI
+GTEHSKGTKVFALAGKVARGGLIEIPMGMTIREVVEGIGGGAAGGRAWKAVQIGGPSGGC
+VPAALADTKVDYEALHAVGAMMGSGGLVVLDESDCMVDVARYFLAFTQRESCGKCTPCRI
+GTKRMLEILDRLCEGRAKPDDLARLETLAGIARTQSLCGLGKTAPNPVVTTLRYFRDEYE
+AHLLGRCPAGRCAKLVAYEVGPECIGCTKCAQSCPVDAIPADPYRRHRIDIDACVRCDLC
+RQVCPSGAIRIVSPIVRTPAAEGLPA
+>tr|A0A1W9LBQ2|A0A1W9LBQ2_9BACT
+MENIVTNYSGVDNAEKLRNFLIDAYNTWGTDYVLLGGDIGVVPMRKLWCTAAGEEDLIPS
+DLYYQCLNGNYNNDGDDRWGEPTDGPGGADVDLVAELYIGRASAENPAEMENFVFKTLAY
+ENENESSPHLRTALMCGEHLGFGGVSEYAWQSMDEIRYGSDSNGYTTTGFAASELFTVDT
+LYDREGYTWAKADLIALINSGAYSIINHLGHANYNYVMKFYNADADALTNSAFVFAYSQG
+CIPGNYEVDCVAEHLTTSTRHGMFAVVFNSRYGWGRYNSTDGPSQRFDRQFWDGYFGKKL
+VSIGALNANSHEANLWDLNGSCIRWCYYESNLLGDPQTPMRGQFISDTILMSPLAGFNAS
+GAEGGPFAPSVKDYVLLCTATNDPLAWSASCTQSWVTLSATNGSLSAGEQGVLTASINAN
+ADALPEGEYFDTITFSNVSNGKGSTNRIVHLVVNNPPVVTNSSVQQGDLISAGNLSLTLQ
+FNEPMMTSNLDPSDFALVGEVSGLRTPTAWAYEPDGLTLTLDYGETPEDRYVLTLFSGEG
+RFEDDDGFALDGETPSWPLPPNRSGNGIAGGDFSVAFELDATTVGYPVPLQPKEPLGSLI
+YDPFVTAFITPAADTDRYTIAVNTGQTMTVVIRPDTNLQPSVQLFEPWGSLAAEAVGATA
+GAAAVIQTARVWGPGTYAMVVSGSGVSTGRYSLQVILNAAQEEEDVGGSSNNTLAAAQSI
+EDSFIPLVNGADRGAVLGTAEGGPLVELLDQDFESGLAGFTISNSFDIGNGLWHVSSGRG
+GDSGHTASSSLYYGHNEGPEGGGDYDNGLANAGAFFSPAIGVFGNGDIDLSFNHYLETEG
+LRRWDFVEVAMDVGDGFRTVLSSTNATLPTGTDGLWTNMTVRLPRLSGTNIVLRFSFDTV
+DSALNGYEGWYVDDLSVKARAEGAPDFYSFALSAGDTVTLMATELEGYGLTLQLLDDVGS
+VLAESQTSADASSASIQDFTSVAGGTYYARVTGREVQYSLVVIRNADFAVEPNDTLAAAR
+PIDGQALVLGAVAGPAAPINSESEPNDDRIAGWSTNDAALANDWTGSFTNAGDAAYQASL
+TGDISSGSDADWDVFRIVAAPGDSILISLDGVSLDDPYLWLFDRAGTILKSDNDGGDGMN
+SRISHGGFPYAGDYYVVADAYGSDVGTYRLAATLTTTNLWTGEDRDCLRVNAVAGDELTV
+RTWTPGGITNQFANNLDPAVDLLKNDGTILAANDNGAPDGRNAALSNLIVRTTSYVVRVR
+SAQRSGEYLVSVTREPGPPVVSFDAVWVTAPESQPLVVLPVTLSAATSEVATVNYSVAGG
+TAAGGGVDYSLAAGTLTFSPGQVATSVVIALVNDSAPEGTETIRVRLSNPVHANLGEFPT
+QTVVIVDDELPLRLQFSSAACTVAEQGTSAVIAVTRAGGNDGSVTVDYSTSDGTAVAGVD
+YQSATGVLVLADGVASKTFQVPIEFDMNLEPDETVNLSLAGATGGAVLGSPSNAVLTILD
+YKFSRANILLNGGFENPANSNDFNGTSWSGWGLAYREGWAAHSGNRGACFQGWVADNYGG
+LYQWVNAGRGTYTFSVWVRQEPGFFPYLTTMDLYWYDADWVEIQPETSVYFTAAPRDSEW
+HHWTITGTCTNTSLAHVEAGIFSYWGAPVGSPSAIMFDDASLC
+>tr|A0A1W9LG98|A0A1W9LG98_9BACT
+MDTTAVSVVTGGAGFLGSHLCDRLLADGHSVIALDNLITGNVANIGHLAGNRAFRFIHHD
+VTEYIFLPGRVDFVFHFASPASPIDYLELPIQTLKVGALGTHKALGLARAKKARFLLAST
+SEVYGDPLVHPQPEAYWGNVNPIGPRGVYDEAKRFAEAMTMAYHRAHGVDTKIVRIFNTY
+GPRMRPHDGRVVPAFITQALKGEPITVFGDGRQTRSFCYVSDLVEGIVRLSRSDLHEPVN
+IGNPREMNVLEFAQTIVAACGSQSSVVHKPLPVDDPKVRQPDITQARARLKWEPEITLEQ
+GLGRTIDYFRSLLAKGAI
+>tr|A0A1W9LC75|A0A1W9LC75_9BACT
+MNGISMTRRSFATRTVQAGLAAAALPSIAGELSARNPDKIRLGLVGCGSRGVGAVIDAIL
+SAPNVEVVALADMFPDKIEAALKKLRSPQAGKNRDFAAQYGSLVVDWDRVDAVRVTPECC
+FAGFDAHRKILQSAADVIILASPPGFRPQHIRAAVDAGKHVFAEKPVAVDPVGIRSVIES
+AALAAQKKLGFMGGTQLRFSQPYGEILKRIHDGQAGEIVSAECYWWHDYFVRWHAEARKS
+EWSDMEFQLRCWPHFVWLSGDHIVENLVHNIDVMNWAMGGPPKSAVAHGGHSNWDDWPVK
+GNVFDHFYVEYEYPNGVKAHASSRHGLNCSHRLGERIVCSRGVADPNGRILGEKAYDYPG
+PFDNPRFIQWRAFLESIRKGAPLNFGRQVAEATMTAILGRMSAYTGRAINYDWALNRSQL
+DLSPKTQEFGPLPVEPLAVPGRTTLV
+>tr|A0A1W9L9G7|A0A1W9L9G7_9BACT
+MVKSGEPLYFPAMKERQHALRFQHAFLARIGGGLQLASLVESLPEVAFFAKDEASRFVRA
+NGPLVRILGCRHEWEVLGKTDLDFRPRELAAVYLEEDRRVMLSGHTLPPHVQMVPEVGGA
+IRWQLVTKVPLRDRCAFTHAFRTRFGLTPAAYRRRHLGRSPFPPAGTGASS
+>tr|A0A1W9LDX9|A0A1W9LDX9_9BACT
+MQPTSPPTRTIAIVGRPNVGKSAIFNRLLRRRLAIVHDEPGVTRDRIVAEATWNDDVFTL
+IDTGGIGLMDRAREGDEIAAAARVQVEAALDDAAAVILVVDTQVGVVPLDEEVARLLRAR
+ARPVIVAANKADHPRHDDAADEFVRLGFPVFPVSALHSRGFEDLMEVLLKHLPPPAPAET
+AAAPLVVTVAGRPNAGKSSYINRMLRRERLVVSSIPGTTRDSIEVPFTVGTGPQARRYLL
+VDTAGMRPAGRVDSAVEKFSLIRVEEAIHRSDLVVLIFDALQGPTRQDKRIADLVLEARR
+GCILVVNKWDLAGKMKQDEYREALRRELPFLAFAPLHFISAKTGEGVAGTIESFDRVASQ
+ISMTFTTGVLNRVLRDVFAKKSPPSVKGHRLKLYYATQVGVRPLRLKMFVNDPDLVVPAY
+RKFLESRVRAKFGLEGAPLVFLFTAREREE
+>tr|A0A1W9LEZ8|A0A1W9LEZ8_9BACT
+MIAGIGWELVTQAAALGGNPLPDFAIPTGPQHWKHQVRICGGLYAALAEDACLKAGVQLR
+YYETPLSVEASPAGGFRVRLAGKGMQAGIAARTVVDCTGGATVAGMLGLPRLREEVAQPG
+TLIYRLGGYDTAKLDLAALDAAAKAALLDGRLRSADYRHNLRGFLAGGGENAMHVPGADS
+STSETHSRANVDGRQSLLRMVRFLKAQSGFERLRIERLQPETGVRETYRIDGETRVTADD
+YTSGRVFPDAVAHAFYPVDLHDEKGIRPKHLAEGVVPTIPLGALIPRGSRDIIVAGRSIS
+SDRIANSGQRVQASSMAMGQAAGAAAALAAKLGITPGRVPLADLRMVLAAHGAIVPPTP
+>tr|A0A1W9LFA1|A0A1W9LFA1_9BACT
+MRFLLYNIRYGTGGTPGRGPFQFFRHTGERLGEIVEFIRTVQPDVAGLVEVDAGSYRSRR
+VNQAEAIAGALGHYHAFRSKYGAASLAHRIPVMRKQGNAFVVRDSAKDVRFHYFTKGVKR
+LAIELELKEVVFFLVHLALGGRTRFRQLHDLYELVKKTRKPVIVAGDFNTIWGEHEIRLF
+RAACGLATADPGNRPSFPSWRPKRHLDFILHSPGVVIDRFDMPAVGLSDHLPLICDFHIP
+>tr|A0A1W9L8P5|A0A1W9L8P5_9BACT
+MAHLDRPHIVIANDLAPSDTATLNREKVIAFATDLGSPTSHTAIMARALAIPAVVGLHDV
+SVRVSPGDEILIDGHKGLMVIRPSAERLEHYGKIAKVRHTIQTRLAELKDLPAVTKDGYQ
+VMLSANIELPGDVDAVFENGATGVGLFRTEYLYLSMKQLPTEEEQFAAYEEVAKRVAPAP
+AIIRTLDLGGDKFLSQLKTPAELNPFMGWRAIRFCLAQPDIFKTQLRAILRASRHENVKL
+MYPMVSNVEEVLRANTFLQEAKFELREQGLPFNDSLEVGVMIEVPSAAITANLIAPHVDF
+FSLGTNDLVQYTLAVDRVNERVAYLYEPTHPAIIRLIKNTIDVGHDHGIWVGVCGEMAAN
+PIMAPLLMGLGLDEFSMSPTAVPLVKDVVRALRFSDSENLAKAVLASESASEVLALCREL
+AEKVTPEILELVG
+>tr|A0A1W9LH42|A0A1W9LH42_9BACT
+MKARDVRELTDDEMRVRMDQARRELFNLRMQKSAAQVEKPSRIRELRRDTARMLTVRTER
+TRSAT
+>tr|A0A1W9LCG9|A0A1W9LCG9_9BACT
+MARKRIAERVGGGQVLVSDGAWGTFLQKKGLQPGDCPELWCIDRSADVADVARAYIAAGA
+DMVESNSFGGSPIKLADYGLSARAAEINEAAARLSREAAGPDRHVIASIGPTGKMLMLGD
+VTEAEVFDGFAVQAEALACGGADALCIETMTAADEAALAVRAARETTKAEVICTFTFDRI
+ASGEYRTMMGLSPVDAARAALEAGAHMVGTNCGNGMAGMIDIVREMRAAFPGVPILVHAN
+AGLPTVVNGVNTWPEGPADMAGRVAALVEAGAGIVGGCCGTTPDHIRAIRAAVDRLPAAR
+PVR
+>tr|A0A1W9LGS4|A0A1W9LGS4_9BACT
+MKDMGPKRGVRYLEGVTRIDYKDCELLKKFMTERGKVMPRRLTGTTAKQQREIRRAIGRA
+RVLGLLP
+>tr|A0A1W9LC25|A0A1W9LC25_9BACT
+MRRKASLVILLLTLGILLALAGLSDRVVIGGFLRVESESIRNRMMDFSAILHREAETLAA
+FARDYATWDETAVYLRDANPGFVTSSISRVTFDQIDGFFLFDRDMAIRLALARGPTGETV
+EAGVGEVLRVRDLARAALESRTGAALTRLVDEGHLVLVAACAVRPTSGNDVRSGILVHTR
+SFSPAALDALLRGTDIRISMHRPGESGPPDVREAARRLSPRAPTWSTPLSDGRVAGHLFL
+AGAGGAPAGLLRIESARDLFAHGRRAFRVFLLTLAAVCVLFGIPAAWLVGRLVRADVARS
+EGEDRFRAVTESARDAIFAVRDDRIVSWNRGAGLTFGHAPGDILGRSPALLFPPEQNDEI
+AEALALLRAPATDPMLGVPREVWALRRNGQEFPAEISVGTWNTREGEFRSVILRDITDRR
+RDEAALRASETKYRIISNHTSDWELWTAPDGRLLYTSPSCEQITGRPAQAFLDDPDLVRK
+IVHADDLPLLAGHCGHDASAGRVDEIEFRILHRDGGVRWIAHTCLRVYDDGGTYLGIRTS
+NRDITARRSAEDEKARLEEQVRTAQKLESLGVLAGGIAHDFNNLLVGVLGNAEMALDADL
+PASVRESLEGIRSAGSRAADLVRQMLAYSGRTPTTLRSIDVDAALRESMPLLRAAIGHRI
+ELDLAGSPGTPPVEADPAQIRQMALNLIVNAAESFGERTGVVRVRIRCVHAGPGFFEGAI
+LHDRLHEGAYVAIEVEDEGCGIADAELPRIFDPFFSTKFTGRGLGLPVVLGIVRAHHGNI
+RIRTAPQRGTCVTAYLPAAGVGGPAGPAPSPPAISSWKGSGLVLVIDDEDLVRDVARRMI
+ERMGFQVITAGDGVEGIRLFRERAAEIRAVVLDLTMPRMDGEATLREIRAIRRDVFVILA
+SGFTERDVSAALRNDPAVLFLQKPFRQPLFVDRLRKASEGSTAGPAPAAPPGG
+>tr|A0A1W9LCD5|A0A1W9LCD5_9BACT
+MSVPLPTPRSLDAPGAAGLAAWLDPSADACLDDMAARAQALTRRHFGRTVSLYAPLYLSN
+HCGGGCAYCGYAADRPQARARLDPDALGREFDALAGCGFDDILLLTGERSDEAGFEYLLD
+SVARAAGRFSAVSVEAFPMTTAEYRRLADAGCTGVTVYQETYDRDVYGRVHRWGPKRDYA
+ARIEAPAWALEAGMRTVGLGILLGLADPLADAAALYLHAAGLRQRFWRSGISLSFPRIRP
+EAGGFVPEHPVSERTLARIVFAFRLALPDVPLVLSTREGPRFRDGIAGIGITRMSAGSRT
+TVGGYADGGTRCGGQFDVEDRRTATEVAAALRRRGLDPVLKNWDAAFRT
+>tr|A0A1W9L9Z9|A0A1W9L9Z9_9BACT
+MELLSLAVRSIFIENILLATFLGMCSFLAISKRIETAIGLGVAVTLVQFITVPVNWLLKH
+FFLDPGALSWTGVPALAALDLSFLNFIVFIATIAALVQLVEMLLDRYFPPLYQALGIFLP
+LITVNCAILGGSLFMVERQYTFPQTLVYGFASGAGWALAIVAMGAIRKKLRYSNIPPGLR
+GLGITMIVTGLMAMTFMLFSGINL
+>tr|A0A1W9LDE7|A0A1W9LDE7_9BACT
+MGTVIERGRSVAVCIDTRDGAGRSRLHGVAQYVRRHGWRMMLVRQGGRAAAQEVARLAPD
+GIVAYIADRWLLETARRLRVPLVDTALGDVPVGLTVSIDNDSVARLAAEHLAQAGLRHFG
+YCGVAGRMASEQRRGSFAAALSGAQDSWLPAFSEPVAEGESGLGPMMRWLRKLPKPIGLL
+VFDDKLGERVLTACRWARLAVPQQVAVMGIGDDELMCEVSWPTLSSVRLPTPQLGFEAAR
+MLAAVMAKGRVRAQHLKLQPIGVVARGSTDTVAVEDAVVRSAVRFIRAEAGGLIGSEQVA
+AALAVSRRTLDRRFERALGRTVREELVRVRMQSARTLLADRSRRIADVARACGYATPASF
+SRAFRRHSARWPSEYRDDLRIL
+>tr|A0A1W9L8I4|A0A1W9L8I4_9BACT
+MALGARMAPFGGWDMPIQYEGILAEHAHTRMRTSIFDTCHMGEFDLSGPTAEADLEHLLT
+QRVSTIQAGQCRYGYLLREDGGALDDLTCYRRGKDHFVLVVNAGTLDADAEWIRSQLSPT
+TVFTDLSPRTAKLDIQGPFAREDMELVLGLKLPELKYFRFADVVLADTPCVLSRTGYTGE
+WGYELYFPWEEAVSFWELFLGNDQVKPAGLGARDTLRLEMAYPLYGHELSTERTPFAASR
+GQYVDWEKDFIGKPAMVRDRDQGVPQWLAGLQL
+>tr|A0A1W9LG94|A0A1W9LG94_9BACT
+MSQADIGLIGLAVMGENLVLNMANHGHMVAVFNRTVSKVDAFIAGRAAGKPILGAHSLAE
+LVSSLKRPRRIMMMVKAGSAVDALIAQLIPLLEPGDILIDGGNSYFPDTVRRTQAVEAKG
+LLFIGTGVSGGEEGALKGPSIMPGGSAAAWPHVKAIFQDIAAKVDDVPCCDWVGPGGAGH
+FVKMVHNGIEYGDMQLIGEAYALLKTALGLQPPELAEVFNQWNAGELNSYLIEITAKVFG
+KKDAETGRYLVDVILDAAGQKGTGKWTSQVALDLAAPVTIITEAVFARCMSAMKEQRVAA
+ADVLRGPKARFRGDRARFIEDIRQALYASKICSYAQGFQMMRAADQEYRWGLKPGPIALL
+WRGGCIIRAQFLNRIKEAYDRKPALPNLLLDKYFKKAVSKAQASWRRVIREAVRLGIPVP
+TFSAALAYYDSYRSADLPANLLQAQRDFFGAHTFERTDKPRGEFFHADWLE
+>tr|A0A1W9LH01|A0A1W9LH01_9BACT
+MRSIGLIITLALLTAGLACAQEPSPSNAVVRSLDEVARVLQKYDLTYDPAVAEKAVVEAL
+VQAADPYGMVLSEDETARVREERTGVFHVADVGLAVTDGVARVSEVKKDTPAEEAGLQVG
+EEVQEIDKGVVAGLRLTEIEELLRGPADEAVLFKVQGTNGVARTAEVKRTPRQAGAIQTA
+EDLPLGLCYLRLNGLYERCSKDIILTLRGWAQLGRSGVVLDLRGANGMALKSAAEVASLF
+AEPNSMLFKFQDGQAQELDVFKATSGTPLDMPAMALVDEATSGAAEVLVAAFAGSTRGVM
+LIGLETAADPAIREIVELSDGRKLYIVTKRLVTANGTVYDGREGVTPALVVDATQVEPEF
+EPEPVTSGKMVISDEEKQHGQLRERVRRDPALRRAVDVLLGLKALNIRGTGRVQNPVP
+>tr|A0A1W9LCY1|A0A1W9LCY1_9BACT
+MSATKEVVIRLTKYKSVLEKLRSLGFVKVFSDNLADALGVSSALVRKDFSVFGLAGRKRA
+GYRVDDLIAQLNHILGVDEVQRVIVVGCGKIGTALMRYRGFARERIRVVAGFDVDPAKID
+PNAPVPIRDPNEIPYIVKSESIRVAILTVPETVASQVAESLIAAGIKGILNFAPILLKSG
+NGVVVQNINIAMELENLFCLLRFAEKDLEEAAHDAG
+>tr|A0A1W9LCE9|A0A1W9LCE9_9BACT
+MHRLDHQPLQRAWEQLVHNERLDLEVRLLKKDGQWCWVHIIAVPEQDRGGRVERVVGVVR
+NTQELHETQDALAEARRLETVGTMAGGIAHEFNNHLTPVRGYIELALDQLGRGHPAAEGL
+NTALNRVEYCSDLVSQIQAYGRKSLLLPKPTELTRILPSVLRVALSVEREKAAKVSFQEQ
+WPPMLPTVWLDQGQFQQAITHLVRNSLQAMPKGGKLIVRADEIYLDDRQCENRAGARPGD
+FVRVSVADTGVGISPEHREHVLDPFYTTHGRSEARGMGLKMVQGMAAQHGGWLEIASEPG
+KGTEVSLFFPVKKVDEKQAAAAKTDADGTMKVLPAAPVGRVLVADDESFIREIVRRVFET
+EGWVVDEASDHSEVSQLIKEKPTEYDLFILDVTMPGPSAESTVAEILRGLPRAKILMISG
+FSRDSRVDHLLAMGNIEFLGKPFSPKEILSRVDRMMAEPG
+>tr|A0A1W9LCV8|A0A1W9LCV8_9BACT
+MPRIPDEDIERVKRGTDLIALVRSRGIELDKHGSKDWIGCCPFHDDQHKPNFIVSPAKGL
+FHCMACGAAGNPIQFVEKFDGISFRHAFELLNEGGAAAFSGPRNQGVKNASIPRLPPPFD
+PDGTDADLMRQVIEYYHQRLLKTPAALDYLRGRGLCHDEALEKFRLGFADRSLGLRIPDS
+TRKGGDAIRTRLQNLGLVRESGHEHFNGSVVLPIFAAAGEVGEMYGRKITVNLRKGTPNH
+LYLPGPHEGIWNVDALNEPEVILCEAAFDALTFWVNGFKNVTFIYGTEGFTDELFDAILQ
+RRVKRVRLAYDADEAGNRAAARDAERLTAHGVEVFRVKFPWGMDANEYACKVQPAAKALQ
+TVLSAAEWVGGRGQPPSPEGSGEPRKSEARGQQDETHTCAGAPVLSSSLAAELAADEKKP
+LPDRVTLACQGVAMGEQGRSLERLGPSALLRTGEYHFLKLGPREYRVGGLEKNNSLEAMK
+ISLRIRCGENFHLDSFDLTQDQNRRRFVERASEETRLEKELIKRDLGKLLLLLEEEQTAR
+IAAALEPAGRPAPTMTQEETVEALAFLKSPDLLKKLGEVFEACGLVGEETNRLAAYLACT
+SRKLGHPLAVIIQSTSAAGKSTLMEAVLSMFPEEERVKYSAMTGQSLYYLGETNLKHKIL
+AIVEEEGAEKASYALKLLQSEGELTIASTGKDPATGRMVTQEYHVEGPVMIFLTTTAVEI
+DEELLNRCLILTVDESREQTERIHTLQRKARTLEGLRLKKRRQTLLALMRNVQRLLRPLD
+VMNSWADQLTFTADRTRTRRDHEKYLTLIDAIALLHQHQRPVERDPESGEFIRVTIEDIA
+LANRLAPELLGRTLDELPPQTRRLLETVKSLVKALRKERVVEQTLALFSRRDLQAACGWS
+YSQVKRHLLRLQELEYIAPRFGRMGAVLKYELLIDADEPGETAHIGLLDVAKLRARTAVP
+RRSSEGAETGTTATWTGQEATWTPPCQNAMARLEPTTPETCANLAALPERESGLPVAALS
+>tr|A0A1W9LAW6|A0A1W9LAW6_9BACT
+MNLRPFGRTGVDVSEIGFGAWAIGGGWGASDDDTSVAALHTALDLGCTFIDTAAGYGNGR
+SERIVGRVLRDRRAAGVAVATKTPPLPGPWPPSPYCLACERYPEAYLRANVEERLRSLGT
+ERLDLLQLHTWTRAWNRDPQPLLILRKLRDEGKLRWIGVSTPEQDQDSVVDLIRNGLVDA
+VQMIFNIFEQEPAAELLPVAREHGVAVIVRVALDEGVLSGKYAADHRFPPDDFRSRYFEG
+DRLARAVARVEKICAAVATDGTAADRSLADIALQFVLAHPAVSTVIPGIRTPDQARRNCA
+VSALPPQAPSLVAALRAHAWRRGVWYGGKA
+>tr|A0A1W9LCL1|A0A1W9LCL1_9BACT
+MKSFEIETRSRTQFVPVTDFVQATVRDLGIREGAVTVFVPHTTAGVTINENADPDVVADM
+AMALDRMVPWNAGYAHDEGNAAAHMKASLMGSSVRVLVEAGRLRLGTWQGIWFCEFDGPR
+TRTVWVG
+>tr|A0A1W9LET2|A0A1W9LET2_9BACT
+MKKVINQLVQLQDLIEARAQQDAMASHGRLTQLDASIQSMTEALPPDTAALFQRLHKRSR
+PAIVPVVGGVCAGCGMAIPVSQVHAVHAATALNTCPACSRLLFYPEDDAPRRLPQKREAG
+DLVKVGIARFSSPGLMIPALQATDRDAAISEICAVVEANGFVNNGARLAEEALKREAIAS
+TAFDHGIAFPHARGVEGGGLTLALAISPKGIRFAADQRILTRIVFLVAIPTAASAFYLRL
+LGGLTKTFQDEAARQKLLDADAPEKLWKTMCQLTRRAIP
+>tr|A0A1W9LBU8|A0A1W9LBU8_9BACT
+VLHWMMGEPDVQFVADCDIQKSRRERVKKMVDEAYGNTDCKLYPDAGEFLASRPDIDAML
+VTTGDRMHATMSVMALRAGKDVYSEKPSSMTVAEGRAVVEAARRYGRVYQTGVQRLSEAN
+FTFANELLRTGRLGRLHTVRAHIAGGTCGSHDWLPAEPELSKDECNWDAWLGPCPWRPYN
+SRYVSGGWRGYYDFHTGAIGEWGAHTIAQCQVAMGLGETSGLQYAYVNNESGDGMRIRYA
+NGVTMILQQKGWHGTCGVKYEGDEGWVAVADGYSTLDTSSPALLSDFTRLTKGYTQRTGR
+ALNHVRNFFDCIKSRARTVANEDMMHRSMSTVHAANICMWLGRDMTYDPVREEFVNDPAA
+NRLRSRAARAGWAL
+>tr|A0A1W9LHH4|A0A1W9LHH4_9BACT
+MSVRFRIRGEFRVAESAPGSTLADLAFAAGIPLNTACGARGSCGRCAVILHEGSFLVRDR
+EITVSPGAPRRTLACATRTVSADALVEIPDRSLIEQRARIADDFTLPPFEWTPVQRRATV
+TIPGGGWQTASSDVERLATALGAAGGPVAFSMDLDAARTLPSAQAGPACVDVSWGPYRGA
+TDVTVAAPAGTTRHLGLAVDLGTTTVVVLLADLETGHVLGRTSAYNAQMRKGDDVAARIS
+VGSTADGLRALHSLIVRETVNPLVEEVCAKAVCAPGDIVRVTAAGNSVMAHLFLGLSPAG
+IGALPFQPVRRRHPECRARDLGLLANGNAIVDVLPSMTGHVGGDLVADACAARLLDRNGL
+VMLVDIGTNGEILLWDGHRLLCTATAAGPAFEGAGLRHGMRAADGAVDHIRWTDGPNVEW
+TTIGNAPAAGFCGSAVIDFVAQSFKAGLLDAVGRFDMDRLRAAGVDVRVEHCGRSIHACR
+VVPAEATSTGHALTVSEADVAEILKAKAAIHAGIVTLLATAGRRIEDLDTLILAGGFARH
+IHLRHAAWMGLLPDLPPGRIEVIGNGSLAGAFLALGDLAAAPEFERIVRAAEPVELNLCP
+GFESAYIDSMLLPNAVPSAFAMAVSEMGRPSEPLDS
+>tr|A0A1W9L8I1|A0A1W9L8I1_9BACT
+MTKPRVAIFDFACCEGCQLQIVNMEEELLDLLTLVQPVEWREAISDQSDEYDIAIVEGSI
+TRPEDEARLKEIRARAKVLIALGACATVGGINKLKNNFEMDDVRKCVYGADGAMPHLDTF
+PTKALHEVVKVDYNIHGCPINNKEFAYVVRCLVMGRTPTIPNYPVCVECKMKENVCRYEY
+GEICLGPVTRAGCGAPCPSAGFWCFGCRGYVDNPNVHVAKEVMEHYGKTPDDLKSRLVLF
+GSKQERTDD
+>tr|A0A1W9LCL8|A0A1W9LCL8_9BACT
+MDLTADIFRADLLQRLGGGAFGLNLEVHPTLPSTQDRAKELAVSGAPEGTCVLALEQSRG
+RGRMERTWRSDRGKGLYLSVVLRPPWPAQESAWLSIVAALAVARALDRLGVRGARIKAPN
+DVYVGARKIAGVLVEPRLGADRIEFAVVGIGLNVAHGLADWQGTDLDDRATSCAMEGAEV
+PLVAAAKAVLAALDELYRANRDGRADALAAEWTARGGTPEVPGGVAVDGDRRILGL
+>tr|A0A1W9LCU6|A0A1W9LCU6_9BACT
+MPKLTGYFAGKRMRGRPKDQRIAHRLPAPDGLDRNGPTLAVHMDEFLSWLQVRQYSPNTI
+EDRRKDLCAFILWAQDRDLRLPAAITRSILESYQRHLWRHRKTDGSPLGVGTQRKIITDL
+RLFFSWLCRQHVLEGNPAADLILPRPHKSIPSDALGLAEVEALLAVPNIADLLGLRDRAI
+LELFYSSGLRRTEMARLQLGDLSRERHTLFIHKGKGAKDRVVPVGRRAMSWLIKYLDDAR
+LLLVIDDQEQALFITSYGDAFHPNPLGNLVTRYLKLANPKRAKGSCHLLRHTCATHMLEG
+GADIRYIQQLLGHEKLDTTAIYTRVSIKQLQAVHAHTHPAERNDKTEEAPAALKASSL
+>tr|A0A1W9LG93|A0A1W9LG93_9BACT
+MSQGHPQPNDIAPALAEALLLAARLLRGGLLLLVPLYLLSGLHILPPQEQAVVLLFGRAE
+SAGAERVWGPGVHWTLPRPFAEVIRLETGRVKTIDSGASDAALPPVETGDEWKRLLLTGD
+ANLLRARWAMRYTIDDAAAHAFGFANPAVMISNEFRRAVLHATAAFTADRALRTDVDGLR
+AAIEDAARARFAAIRGGIRVERVEAVALAPPPSVAASFDEVIRSEQERSTRISEAREYAA
+RRANEALGEAASRLSQAASWRDRLVAGTQADAAYFERILPHYLRRPDVVGAVLLQDGIRR
+ALDKVSEKYVIRRGAEGRQELRLWLGPEPKRPGAHADVP
+>tr|A0A1W9LGS8|A0A1W9LGS8_9BACT
+MPSLNKVLLIGNLTRDPEVKFLPSGDPVAEFSMAVNRRFKTKQGEDRDEVCFVRVSMFGR
+RAEVVGRYFKKGSPIFVEGRLKFDEWEKDGRKQNRITVVAENFEFMDSPRDRSSQPAADR
+QPAVDPGVEPAGNAPVPAAAPDQKDDDNLPF
+>tr|A0A1W9LI87|A0A1W9LI87_9BACT
+MKKAGDKKAPVVAVLMGSDSDWDTVKVTVETLAQFGIESEAQVISAHRTPVRAAEFARTA
+ARRGIRVIIAAAGGAAHLAGVLAAHTTRPVIGIPIKGGALDGLDALLSTVQMPAGIPVAT
+VALGKSGAVNAALLAVQILALGRADLRKKLKKQKRALERKVDEGNRRLRVEREKKK
+>tr|A0A1W9LG12|A0A1W9LG12_9BACT
+MASWLSALARTRDALSGALRRLAGVPATDGAGPAELEEALVRADVSTALASRLCGGLSAR
+ARTLKTDLPHALAAALAEILPDIPAPWVRAADGPSTILVVGVNGSGKTTTCAKLAHRAAR
+DGLTPLLCAGDTFRAAGSDQLRIWADRLKCGVVVGATGADPAAVAFDALSAAIARRADVL
+IVDTAGRMHTKQPLMQELVKVRRSLAKRKLGAPESTWIVLDAALGRNALSQAKTFHESVP
+LTGVVISKLDGSARGGFVFSLADELKLPVLFAGLGEGADDLVPFDRHQFVNGLLGLEERH
+GG
+>tr|A0A1W9L9M8|A0A1W9L9M8_9BACT
+ARTDAQRQILRAELGPVNHALLLDPHSAAGKTAYTVKSGDSLARIARQHGVTVELLRACN
+GMARDVISAGQTLGIPTGTVSLLVDKSDNVLTVFRNGQFFREYRVATGRENRTPVGEFTI
+TDRVEKPTWWRPSDNKPIPYGDPEHELGTHWLAWSIRGFGIHGTSKPESIGTQASLGCVR
+MLNEEVAQLFALAPSGTKVTVQD
+>tr|A0A1W9LG92|A0A1W9LG92_9BACT
+MALIQDVLAMVERRNPNETEFLQAVREVFASLEPVVTRHKKYAEAAILERIVEPERQIVF
+RVPWQDDRGRVQINRGFRIEFNSALGPYKGGLRFHPSVNQSILRFLGFEQVFKNSLTTLP
+MGGGKGGADFDPKGKSDNEVMRFCQSFMNELFRHIGADTDVPAGDIGVGGREIGFLFGQY
+KRLKNEFTGVLTGKGLGWGGSLIRPEATGYGAVYFAEEMLKTRSDGFQGKVCTVSGSGNV
+AQYTVEKLLQLGAKPVTLSDSDGTIYDKDGIDAGKLAWVMDLKNVKRGRIRDYAQKFKAE
+YHEGRTPWHVPCQCAFPSATQNELGGEDARTLLKNGCFVVSEGANMPSTPEAADLFVGQK
+ILYGPGKAANAGGVATSGLEMSQNSMRLMWGREEVDMRLHEIMIRIHESCVNAAREYDQP
+GNYVTGANIAGFTKVAEAMLAQGLV
+>tr|A0A1W9LD31|A0A1W9LD31_9BACT
+MKITAVQTFICHVYRTNWVFVKVLTDEGLHGVGEATLEHRELTVEAAVKELERSLVGQDP
+HAIEALWHRAYRDAYWRGGPVLMSALSGVEMALWDIKGKALGVPVWQLLGGKVRDAIPCY
+ANGWFAPAKTPDEFAEKARIAVKAGFRGLKWDPFGSAYLEIGKQGLRDALRCVEAVVEAV
+GPEVDILIEGHGRFNVATAVRIAHALEDYEIHWFEEPVPPDNLEALAEVKRRSRVPIAAG
+ERVYSRWEFQRFFELRCADYVQPDVSHVGGILEMKKIAAQAEANHIAICPHNPSGCVANA
+AGLQLAGCVPNFSVIETMSTDVPYRREISTEHVVFEDGMMHIPDAPGLGIDLNEAAIAEH
+PYQPRDLRHYVGRLTDIRPPDAVGYFHRNGSTGKP
+>tr|A0A1W9LGP5|A0A1W9LGP5_9BACT
+MNTMMKTAKKMMGILAAVIAAQAASATTLPVTLGTADYSCLDFRTGGFDNNSPVTFYVDS
+MVATQFPRELNNSWYTQQVAGLNLSTQTASAGFLMMLHIADTDGDKAPLNLNVAVIRGGA
+TVTAGVYSVCERSSALVYLTNGLVQAGTNTVRYRYAGGAAWMQWDQIRLESPVFLTTNAA
+LGANDGVTTGFGTDGNRFEANYVVGHMTNSRFGQELNTSWWTNQNLYFFLTSTGASCGMR
+LTLDACNNAQPPPTVQVQIETGSGMVNVTNVMVSTTNRPVITIPPAQLRAGLNRIQLNCT
+SGAWLQWDQVLLEAIPPHALVIGASPAPHGSPAPLGYGTTFVSPGAVITNRVNSPADSAG
+GTQYVCSGWTRTGSSPGSGTGTQVVFTVTNNTTLTWNWSNQYYLTTAVIGSGTVSPLSAW
+YSSNAAVAIQAFPAPGCTFAGWTGSTNGCAMSGNTITAAMNCARSITANFAGASLGPRIS
+VSLNGTWQLEPTATTNLPASWNYSVSVPGIVPNASPALAWTNYNYFWHRNVFTLSATQQR
+ARASVRIAKALYGSEVWLNGAPLGGYVGCFSSHEYAATNLNYGGTNTLIVRVGRHTTLST
+NSTFTLDGEKAEFQPGIVDDMSLILSGDARTKDVLVVPFPTNNLAVASLAVMNLQNSNKT
+VTVSAQVLTKASNAPVTAVVQTNLTLAAGETRRIAMTLAFTNAVRVWSPEDPFLYELSNS
+VAEAGTPRDSHRVTFGMREFKAVGKDFYLNGKKRLMKGSNIAFYRMMDNPEYGTRPWNPA
+WIDNAMGVIPTNYNLRYFRIHLGPMYGYWYDVADRAGLLLEDEWSFWGNAGGTTNQIVEE
+FTQWMYDSGNHPSIVMYNAINEPRYDDTNALPMIHFLENTLAPQLKAMNPTKVWAANDYS
+ERHHYFYSYLGVMGYPLLLDEINAESKPVVLNEYNWLWHYNDGQPSLITEWVMGRWTDAN
+KSNPANYAGFLQMQADHVVEVSELWRRMELDVIAPFAYLSGGRTADWFYEFTNMTAQPIL
+TALKSTFAPVGVSLDLWDRHFAPGQTSSVSAYVFNDLDTARTGTLTCTFVTTNDALVSTV
+GTYTVTVSAVSSRVQTVNCTYPSSTGTYHLKGALTVNGSTSTSRKLVHVVPAPVIPGNLS
+GAKIMVYDPDREITDYLRSLGLNATNYTSATLTNQDILVLGEGALTDPFYTSRRAEITRF
+AKAGRSVIVQEPSYTIPKFDTVELPVLDDASVLSKGMYYRANESYVFKQNKPFGLWTNIA
+DEHLKMFNGGYGGEMLSAFDDIPQQFASIQASAGEYKQLWGDPYRAAPALLECVDSNAVI
+VYSRIQVRGRLLGLASPGAELFPRRVDRVAQQYLLNLISTYLNTATNRQRIAGVATNDSL
+FLKNPLATSVYNNDGYATADNAIDDNTESHWTSEDSDPQWLRVEFGSIQRFSRVKVSWHY
+NYGKSWSLQASDDENNWTTVYSTTNCTGGTNNVVLSSPVAAKYLRILCTERGISGGTYAI
+KDFKVYDEPNTSLGSISFNQPMYSGTSGVAVLSVTDADRAGQGTVSVTIRSSVDTNGISM
+TLKAIATNSSTFTSAAQGTNLSFSEASSGTARIRVGEGSLVTLAYADPSPVGTQKTAVIW
+YTGRTSENLAYARKTTALSGQTDNPGNKATDNNYYTRWSSDFSDPQWVQVDLGQTLNGTT
+VYSSFEAREFSPTETRTMGLDIPSTIPVGGGYRIRASVVVVASGAATVAEETPADIYVAA
+GRPSFRITSYPRTILRGTKVPVVLTWTNVPTDGRYELAVQLNNWGVTPVVYSEKKTAAFP
+SSANSYTVDVDVASDTTASRGGRFIAAFISVANGWGDVLAGEWSLEDVEIAENPYLPVVR
+IASYPTTVYKGDCVDVYVSWTNIPANGSYKLLVQLENPSNGLLVTTEITNPAAYAAGYPV
+SICVGETSNSLGGRFIAAFISSTSGWANTLAAYYGNTDVQVSDSVNGNLIAFHTTGAITL
+DGLLNEADWATAQSATIMVSSNSDAGVYIGRVLWDEEYLYFAGTATDQQLETADLPWNGD
+NMGISMLVAGGSLYKSRVDLGGTGEGSGIGLVRAQRVSASSTESAEFAATNAMDGNEYTR
+WASATGSDDEWFSVDLGRAKEFRKVTLIWESAYADRYLIQISHDGIKWVTVFTENAGNGG
+TDEINLGTQTARYVRMRGVHRALPQYGYSLYEMRVTTVHSVYTWIGTTNNNSNTDTSWTV
+EMRIPLDACGPTATIYDVVRADFTAVDHDNNPGGPITPPTQFYKASWDGDGDANTALKRI
+RLDWRWTLVDDFGDSVAATNSLGLPTSDGGTCVSNLDLYGEHLISWNSLTDYWYSVLAAG
+TNVLNAGVADTLTLRVRGGAGHEAFRVQIEDHDSTASVGITNYVPIYTLSQRTDIPLRDF
+AGIDPAKLKKLTLLFSEIPAGTIWIDDIRMTKHGPVICSVDYNNPSYRRADGLPVYFSGE
+TVNYTVRARNISSNAIYWCRVSAAQEYYQAAGTNHGRGYAMPGNSVAGWTNTSLAGATVT
+NLQATYTIPYTTAPGIDQTHVVVRNSAGNVIFEKDDAGLWCPPLGAVASSELPGHEAIYV
+LDEDPATSWISAPTDGEWIYIDFDEPTLFDSVVLEWGDVFACHYRIQISDDGHGWATLYE
+QNDGVGGRESIVLGAQLARFVRLQCEKRVGEDGYVLFDFRPLLGDSDGDGMPDYWERQYA
+SSRATLTAESDSDGDGMRDAAEYIAGTDPTNTHSVLAMNGGSAGPSADGRYVIEWPSAAG
+RTYTIHRATSLTDGFAPIASGVTATPPVNTYIDTAPGADQVYYKISAMVGE
+>tr|A0A1W9LDE0|A0A1W9LDE0_9BACT
+EDANTNILSDWFEQRYWGGLQNDLVATNDLDGDDWTNLGEMLDNTDPLDGSSYPTPPVIT
+NFVPLTSPQTTRPPWRIEATVTDNFAVEVCHAIWREAGDAAWKTNSMLWLGNDRYAHDLD
+PPARGSKAVEYFLSAGDLIGYYLTEHRTTSEVYSVVGQYDAPYFDVAPTNFGTIEMSDAV
+VTTNLTIHNYGAQSLVWTALLSATSTRIPLEGGPGAWAHGGTNDDWHLSTNRVYRGTNAW
+YCGDDATRQYDDACHAWLDTPPFTVGADGMLTFHHWIKTEYDSGDHFWDGGVLRVSTNGG
+ASYALVTPVGGYPYRITQNPDSPFPADHPCLAGFGDSNGWEAVSIDLRALAGLEVIVRFE
+FGSDFYTIDEGWFIGDVALQSSTGTVWLALDGMTGGTFTQNQSTVINVIADPALVEMDAE
+EQAFIAFTHNDPEGVTSVPAKARRGRFVSAVTSGPGRVSFNRAFLFRDAATSLVVTADAH
+AHISGITSNGAPVPGLYGPGHTNATVSFQRPETDVVVVASFDWSGPLITPDPAATNGLAV
+TGVVSSASAPLTVPLAVSHVGDMTMHFSVTSDVFWLSATPSGGSVVSGDTVNVTIRADPR
+GREPRPYHGTLLIDAPDSRNGPVRIHVTMVLASLSPPAGLHAWGSNDWGQTLVPSNAVDA
+TRVAAGAWHSLAVLSNGTLIAWGRGDEGQTTIPPDLSNVVASAGGQAHSIALKSDGSVAS
+WGRGSEGQTNTPAGLSNIVAIAAGGHSSMALRSNGTIAVWGQATGSVPASVTSAVEVVAG
+GRHAAALLRDGSVVAWGENDKGQTNVPGLLRALSLSADSDHTAAVKNDGTVVAWGRGDEG
+QTLVPGGLSNVVSTSAGETFTAALKDDGSVVAWGVGGGISVPSGVTGVVALAGGAAHELA
+LFPARRLVVESAHGDPFPARGLTLHLRDAPVELSVPSPLEAGGTQNVATGWTRIGSDPGS
+GIGTSAVFALGTDTTQTWVWATNYWLSASSATEGGSVAPTGGWFAVDSTATVTAAAADYH
+HWTGWTGDMVGTETNGLMLSVPIDQPRSVAALFAPNLAAFGVPEAWLALFGWTTDFDAAA
+LGDTDEDTAAAWEEWAADTVPTNGASVLRVWNITIAEGNVTLEWSGGTSRTQFVERTESL
+VAPDWIPVYTNLPPTPSTNSLVLPVTTGSVFRLRIPLP
+>tr|A0A1W9LFZ9|A0A1W9LFZ9_9BACT
+MIHLTEKMLLEWAGQKKYLEARQLLDRETVSDVEIAPPVVRGTLNNSARSLRTGFRVVSP
+TCVESLCPCYDNRERGIICSHVVALAIEIRRRMADPHEAERREVERRRTEHMAAIPEGNY
+LRRARGGNGGGVVARIEVALPADWPVRWASGGVPVECLAIANGRRMTLDQVPRDLALALS
+PKDEALLFVLEDIGGGPRGRLELGRADFLNLLEICAGRSLPVAGGAPPVAVHADGRLESR
+LRLALDPQTGEMDMTLHTALPEPAGADATVHLVHRHKGWVGTGSDLWRLGRILPEPLHGA
+YAHAIRIPRLAVPRFIHNEWPALAKWLTIETTISPELFTIEPATPGFRLVGRGSLASLTA
+TLFAEYDGTSLVAGKADPAGQFAIPDPADILRYLVRNPGAETEALGRLAAVGLSGGVGDR
+LSPLMGERSVLNFLGRHLPALRRRGWKVDIQGRAGGFLEQSSWATPVVRITPTDGGRWFE
+VEFHFEDTTGVSLSPSDIRRALLKGESFVDAGGRPVLFDAGAVEAMQEVFQDCASADGAK
+PGSFRLAGVYASYVRESLHALDGVDIEADAAWRAAIEKQSGRVGDVPVTIEEPLHSFLRP
+YQREGIAWLRSLEQCGFAGLLADEMGLGKTVQTLAWLRMERLNPEARGRPALIVCPTSLI
+DNWAEEAARFTPTLKVQIIAGLDRHERWDAVDQADLLITSYALLRRDLDRHLQHQFSVVV
+LDEAQHIKNRATRNAIAAKQLKAFHRLVLTGTPMENSVTDLWSIVDFLMPGYLGTADGFR
+RRYEQPVMQGAEEGEAALVRLRRKLRPFLMRRMKRDVARELPPKIERIAHCTLTGDQQRV
+YKEILDSSRRRIADMVAERGFDRSRMEILRTLLRLRQVCCHLDLLRMEGLKSEFPSAKMD
+LLFELLDEALDGGHRVLLFSQFVSMLTILRAEMERRQWRYCYLDGATQDRLSVVKQFNGD
+RGIPVFLISLKAGGTGLNLVGADMVVHYDPWWNPAVENQATDRAYRIGQKRTVYSVKLIA
+RDTVEERVVAMQRRKQQLIDAAVEAGGAAISRMTWEDVKEILDM
+>tr|A0A1W9LDU2|A0A1W9LDU2_9BACT
+MSENGNKFSGLIRSFLQGQLSVLLIVISLAAGAVALVMTPREEEPQIVVPLADVMVSYPG
+GSAEEIERRVSSRLERLLYQIDDVPIVTAALYSGRYGTHDLYRVAEEVAGKLQNVHDSAR
+ITLHGGEPRAVRVLLDPERLAAHDLSVLEVAGALKVSNSQAGAGTLARANREIVVEVGPF
+LRDADEVRNLMVGVHGDRPVYLR
+>tr|A0A1W9LD16|A0A1W9LD16_9BACT
+MTAAAILSKAGLKVSVFEAHSRPGGYLCGFERNGFAFDTAIQWLNQCHSGGFVHRLFNYL
+GDDFPRCKPLDRISRTRGQGFDYLLTTNPLALRDRLIQDFPDDEKGIRDFFHDAKALGLR
+WGRLNDRIRTSESMPHHEKALHGLRMMGWCFPLLRHIRISADNGVARYFRSPELKKLFSW
+QDSFMGMLMPVAWAFIGNFHIPPRGGGRSLVSWLCHRIEATGSTIFLNQRVSRVLLNDRG
+QAAGVSLESGQTVQARHVVSAGDLRTLYDEMLPSGIVPERLRTAVRNADLYYSMFTVFLG
+LDCDPASLGFGEEMLYLVKDGLLRAEQYGGDPEKTALTILAPSVRDPSMAPAGKGTLTIH
+CLAYMHSHNAWHTEEGRKRGEDYKAFKQQFAEILIRRVEEGFAPDLRKHIEFMEAATPVT
+YWRYTGNADGSIMGTRPTGKNIRALVSRCRTPVRNLFLAGHWADYGGGVPIGMQTGANAA
+LMILNERKPA
+>tr|A0A1W9LFX8|A0A1W9LFX8_9BACT
+MLGDVMAVFSPDPPLTGADLERASERTRRLSVAEGATWAVMCGFGDAYLAPFALFLKAGN
+HAMAFLGTAPLVVGALAQLAGASLSERTGRERTGRRKPLLVLTTAAHALGYLLLFWAPFL
+FRAHAVEALLVVGAVLAWLASFGTPAWTSWMGDLVAPERRGRYFALRNVVVMLTMVVAML
+AAAAMLSAGRARGWIWAGFGGLFTVAAIARGTSSWLFARHHEPPLTPSPGSYFSFWDYLR
+RAPRSNFAKFSFAVAMMNGAVNTAGPFFTVYMLRDLHWTYFQFTVSTVVFLVAQSVVYRW
+WGAICDRHGARSVMKATSVILPVLPLLWAFITSYPALLVAQALSGCTWAGFNLASTNFIY
+DAVTPQKRARIVGYHGLLNAFFTLIGGNVIGATLAEVVPASFAIGPVHVTLLSSLPAVFV
+ASSLLRILAAAIMLPRFREVREVERVGTLALLRRFGRGEPVVSAGMELIHRLPLLGRIFS
+SRPAPPPPKRGA
+>tr|A0A1W9LEL3|A0A1W9LEL3_9BACT
+MPHTLPKLPYAFDALEPHVDARTMEIHHDKHHAAYVNNLNAALDKHPELHGKSLDELLTN
+LGAVPEDIRTAVRNNGGGHWNHSLFWQLLSPKGAGAPAGDAAKAVSANFGSVEAFKEKFA
+AAAVGRFGSGWAWLCVNPDRKLCICSSPNQDSPIMKGVSECTGEILLGLDVWEHAYYLKY
+QNRRADYVAAWWNVINWGEVEARYQKLK
+>tr|A0A1W9LEU2|A0A1W9LEU2_9BACT
+MYKNDLRLELDPAATEWPADGADRERVLLVALNVPGYYSLPVRILALVVHQTERLRKRFD
+ARYVEWEADSNLDDALARIVAWQPALVGFSVNIWNREVASGLMARIKERLPNVCFIAGGQ
+ETTDSVVDFLEDIPALDYIVDGEGEIPLRQFLENWNTAAKRLDHPEAVSGLRYRAGAEHK
+LTRPAETVESLDEIPSPILAGLVPLREKNYLGVLLEGTRGCPFRCAFCFEGGRRCKVRSV
+SLERLHREVEFMAARGAGTFHMMDPILCNSKPERLRGVAEMFREVGRRHKRAYVSVEAYG
+DQLTDEVVESLRDIALVDVGLQSTNPETIRAIHRPFNRQKFVEGIARLRKTEATINLYLI
+SGLPFETITTFLEGIRFVLDQQPTRLFLNELCLLNGTELRQRAAEYGYEFDARPPYLARS
+NRWMNAYEMALIQSFSRVVSRRYNLSARSVAFGLPWTAPKPDGTVAEPMRVVLGGPCSWR
+CPDCRLGEGAATKANDAANAEQVKQCAGRDVVLVAGDGYPMLDLLRLAAQFQFVGAARIK
+LAAPLTLIPDQATVQSLLNCGVWHYPTFVDLRGMPRDEESILKDPAFRQTFEKLRWLNET
+YRLKQRAEIRPYGEIVLLSHARDFREVRNVARFLGQECSTVDLPGLATAESVAWICEDER
+RFREVVNGRFWIRFSEAALRRLLLGTAEPDKVFGHLRTLDLLSCGVERPPCYEPQS
+>tr|A0A1W9LGV1|A0A1W9LGV1_9BACT
+MKPDVLVMLKAMLPTPQGVGVFLSDGLKVIAIFVDPYVAAAITMFAQKVRKPRPLTHDLI
+AAILSGFGARAAKVVINDLRGDTFFAKVYLLQESELGRGIVEIDARPSDSIAMAIQQKCP
+IYVSAAVWDRAEDASWALKQAQERTGEDGPAAGGGQGEAG
+>tr|A0A1W9L7U4|A0A1W9L7U4_9BACT
+GASSGFGAAAAAAAAFANAGAHVLLGARRVAKEDWDAMIQSNVLGLLRVTRAILPLMGVR
+PGACILNIGSIAGHTAYEGGAVYCAAKSAERAITRALRMELCGSGVRVGTIDPGIAKTEF
+SMVRFKGDAARAAKVYEGTEPLTAGDVAEAMVWAASRPPHVCIDEIVIKCTDQAEVHRIH
+RRPTP
+>tr|A0A1W9L9Q6|A0A1W9L9Q6_9BACT
+MVVRSTILGQAERSIGRNPVTALLGPRQCGKSTLAREIAAKGESTYLDLENPDDTRRLAQ
+PMRELERLSGLVVLDEIQRQPGLLPILRVLADRRPLPARFLLLGSASPDLARHSSETLAG
+RIEFVDMGGFDIWETGTETWRRLWVRGGFPNSFLARTEADSVAWREQFIRTFLERDVPQL
+GIAIPAQTLRNLWTMLAHYHGQVWNGSEIGRSLGMAHTTVRRHLDVLCGAFMMRQLPPWF
+ENAGKRVVKAPKVYVRDSGLLHALLRLPDDGALAGHPKRGASWEGFALEQTLRTTGERDV
+YFWATHGGAELDLMLVRRGRRYGMEFKYGDAPSMTKSMHVALKDLKLERLLAVHAGKDGF
+QMADKAEALPLSRLAERLADLGIEKA
+>tr|A0A1W9L9L1|A0A1W9L9L1_9BACT
+MAICHCLLGAAASAGELGAANGFRPMEHVQRALPNAGVAKIEYRMMWPQRGEPPEALASV
+RREMWAAWAEEDREGWVPPADAPGDVAAATRQLADRFHARFRAFKGEFPDSAAAWSDFRK
+VDMVSRVGKLLSVTIKREWNTGGAHPARSIRHLVFDLFTGRRLDVADFVPAEKRPELTRR
+VRAAILAKRSLPPTATNAEAGLFDEAKVEPSNFFVDLRGIGFTFNECEIAPYAAGVIEVI
+LPFPAVADLLRPEAAARMPTPEEIESATPASARPPPRRTDAETAPLRPAGFPQKRIGTHA
+DLRGLEHNLRAGQSVRQRFVVLERNRKMATDIRQFCGIHIPDTA
+>tr|A0A1W9LCS5|A0A1W9LCS5_9BACT
+MKTPDRSVSRRSFLRATAVAWAGIHAVPRRAIGAPPSAALRLGAVGVGGVGHNQIRHCVE
+AGFSVAALCDVDSVFAAKTFNEYPDARRYRDFREMLDAEDDRIDAVYCGTPDHTHAIISL
+AALRKRKHVLTVKPLTRTIREARVLADAARAAGVMTQMTASSAVTESGCRTCEFIQAGLI
+GDVTGVHIWSDRPIWPQGMARPAGVDPVPATLDWDLWLGPATKRPFIERWPEDAMGVLGH
+GTRHARPSVYHPFNFRGWHDFGTGALGDMGCHHFNTPRRALKLGAPSAVSATCTRVMDET
+WPLGSIVTWEFPAREGLAPVRVTWYDGGLKPPRPAELESDRPLPGMGILYIGTRGTLLGD
+GADGVPRLIPEERTKTASLPEKTLPRSKDLYREWIAAIQGGAAPSEHWPDCGAPLTELVL
+LGNAALRVPGRRLDWDPAAMAFPNCPEATKLLTPTYENGWTL
+>tr|A0A1W9LFZ3|A0A1W9LFZ3_9BACT
+MTSRLGSTRADRARHAILRALHQAGGPCGASRLAEALAGLGVDLRPRAVRYHLLHLDRAG
+LTRTVDRRHGRTLTDRGAEEVLRAGVPEKIGFIASQVDDLGYRMSFDLRTNRGTMVVNTA
+RIDARDLARAIQQIEPVIRARLGMGSRMILGREGTRVGESEVPAGCAVFGAACSIAVNGI
+LLKFGIPVVSRYGGLVEIAGGRPVRFIEMIEYRGTTVDPLAVFIRAGMTRVLAAARTGDG
+VVGASFREIPAVAVPEVLRIRRLMRRRDLDAILEIGRPSRPLLDIPVQEGRAGMIVLGGL
+NSFAALQESGIRVTIDPLAGLADIAGFRSFREIAAVGRRQSLRIG
+>tr|A0A1W9LE76|A0A1W9LE76_9BACT
+MLSTNGPPPAGYQLYRATTNVSALSSLVIDWISMTNYCIDDTPPMASVTYYYWMKSFDFA
+GSSRVFSAFSPSDSGYALPAEASISAPTGVSASDGTYADRVLVAWNPNTNAVAYEVYRNT
+SSSPSGASVIGSPSTAFLFDTNVSVGVTYYYWVKSYEMDSGTSQMVYSAFSSSDTGFRHP
+LPSAPSTVQATDGTHLDKVDVSWQWVSNAVGYVVYRATSSNGASATPIATVAGVTCSDTT
+AVAGVTYYYWVKSYEIDYADSQSVYSVFSTADSGYANQAPVAILTANPTSGYAPLRVTLD
+FSGSYDPNGSVVQVEIDKDGNGTYDASASSPASLVAEYTSPGSYTPAIRVTDNNGARTST
+SAGVTVWGSGAPTAVLEATPTSGTAPLSVTFRGTNSTAAAGRTIAVYEWDADGDGSFERV
+TTNAMFSWVYGAPGTNLATLRVTDSGGLQDLDSQVIVVSPAANPPVATLSANPTAGTIPL
+TVTFTAGASGGGSIVAYRWDFDGDGAYDISTASNSVPYTYTSAGIYPATVTIVDDAGLSD
+SDSATITASVSQVLRVWVSTPKDGATLWGQNVSIRANTAPGSLTQALRFEYKRADEVSWT
+TLGGYMYTPANSFATNWDVTSLTDETNYNLRARALDLSTNEVVSDVVTVRISSGTSTNVG
+AIIEGVVDGKQQKEQVFSKDETTAVGVSDGTQVVVPAGTVDSNTTVTVVLLGLNTNAANG
+AAAGKAAIAANRRVSLGGDPSLAKPIEIIIPYDDVDNDGIVDGTGIPEMTLTAYWYDTEA
+GQWRRALSTEIFTEENYLRATTYHLTEFGLFGSKNLLHPANGSVLDGYTSEDSAVAGVQN
+LTDDNTISYWRSETNPASAQEMVYSFKDSESALITGAGIYNHGDGSEGYSRTFQIQGSIN
+GADYTTLTSGVLAATGDAQIFSFGGSVTCRTVKLVVSDGVAADGWELAEFELYGDTTPDA
+DDDTLTDAWEVQYFGDLASNNATNDPDEDGLDNAGERDQGTEPDNADTDYDGMNDGDEVI
+AGTSATNSSECFVVGQVDAYGDGGVNLLRNSGLETGWKPVASLPYWTDNILAGDKGGVWG
+GVDIETGETHSGTNAGVLYGTGSGDNTSGWWQQVTNTQPAGAVWEASAWLWSDAAYTNNR
+CELQIEFFDASESWLSTVFHFFDAPGEAWTHVSGLATAPVNTCFVRFVVVGVGHGNSGVM
+RFDDSYLAPYSRSECVIRWASVIGRLYKVYSSATLGTWTNVLQDVAGTGQNMAYTNRLHG
+EKEGYMRVTVRRGNSPDGGYYSITQLGYDPACSYAGHRLP
+>tr|A0A1W9LHN4|A0A1W9LHN4_9BACT
+MNPVTRRSFLRTSSSAAGALALAQIVPSRVLGADAPGKQVAFGFVGVGGMGASNIERVLK
+LRAKGARIVAVCDVDRIVAAKAAQKVDAGQGDTGCAAVGDFREITRRKDIDAIVVSTPDH
+WHALTALDAIRNGKDVYIEKPLTHSIREGRVLVDELRKHGRVGQTGTMQRSDAGFRYVAH
+LIAQGQLGKVDRIDILIPANNKYVGATWSPEPAPEGLDYDFWLGPAPWAPYARQRTHYQF
+RYIMDYAGGQTTNWGAHYIDIAQWALGADETGPVGISGSGEFPGSGLFTAPTRVDFTAVY
+AGGVRMRVRTRTDGVYDGNVKFFGEKGWIDVSRSKLKASDDALLKIGGGPGKGGDSGLAH
+MENFLDCIRSRAKPVADLAIGHRTTTVCNLGNIAMQLRRPLKWDPAKEAFLDDLQANRMR
+SRAYRGPWRLI
+>tr|A0A1W9LE04|A0A1W9LE04_9BACT
+MSGPLQPAAAGAPPARDTYRRLLRYVAPHRNRLAVGILFGLLFAGSTTGMLLVFRKLLST
+VFVDRVDSLRAALVIAGMMPVFALVRGLGFYVSRYLVEWVGHRVVMDLRIAIFDRLQELS
+LSFFTQSRTGELISRTSNDTSLVERAVSTVLADLLQQPFVLVGAAGYLVWLDWKLAVASL
+VVFPVCLIPIVIFGRRVRRYAREGQERLADLVSLLQETISGVRVVKAFGMEDYERGRFNA
+SSGSVFRRIMRLTRARIAVEPIVVVFAVVWVSLLLIYAWWARMPVQDFLTFAAALVVMYD
+PAKKL
+>tr|A0A1W9LHC4|A0A1W9LHC4_9BACT
+MTGAASTPFVPDGKTRPYAVIGHPIGHTLSPAMHNAAFRALGRNAVYLALDIVPERVMEC
+LHAMAAMGFGGVNVTVPHKETVFRGLERLEAGARRVGAVNTVQFAPEGLVGHSTDGEGFL
+RAMQEAFGRDPAGLAVFVLGAGGAGRTLALECACAGAASVTVSDVDVARAERLAAEIVRT
+APGVRAVSVEAPDAARAAAACGLVVQATPVGMRTGDLAPLPPEAFGPGALAFDLVYGVPE
+TPFMRAAAAAGARVSNGLGMLLHQGARSFEIWTGFAPPVDAMRAALEKAVYG
+>tr|A0A1W9LBA6|A0A1W9LBA6_9BACT
+MDGKVALVTGAARGIGQAIAVRLASAGADVALCDLDAAWLDETAGKVREAGRRVECYACD
+VSNAAQVTGAVDQAAAAFGRIDILVNNAGITKDGFLARMSEADWDAVLDINLKGTFLFTK
+AVSRLMMKQRSGSIVNIASIIGLIGNAGQCNYAASKAGVIALTK
+>tr|A0A1W9LDK4|A0A1W9LDK4_9BACT
+MIQALQDNEWLLQPPRRGGHAAMAWGAVLASAALHWLAAVELPLFKLGASAALPQPPKRV
+PVVVQSVVRIPSAPVPDRPPEFSPGRPDASFARPAPKEFITALDPALLQPSTMPPELAGD
+RSPVRLPEPPPDRIEWQPRQARIEITRQMAREDPVAPPRRLSAAIERVPLAADLIAPSPP
+PVSPAPVSAGPPSLHGSGLFALRAEGPAGALPQARLAPPPEMGHPVPIREAGAVMTERGA
+DITGVKPIEHLLRLDLRTHVPADEAAWLYFSLAIRRAGDNVLPVLPRDVFLIQDCSSSMT
+TPKVEACKRGLHAALRTLSPRDRFDIMSFRDRVARCFGEWTDASPTARARAGWFIEQMES
+SGMTDVFGALDALKGIGGDPGRPLVAMMISDGRPTIGLQDNFEIIQRYSDSNEGRVSVFS
+FGGGSGVNRFLLDFLSYKNRGESRIVRDNTALPEGIEAFAREVSRPVLANLEYRFSGLER
+TEVYPHLLTHLYLDRPLVLYGRVPAGTPSTAVRIAGWSGAGAHDMVFPVDWAAGTEGGSD
+LRNDWVRQKLSWLVGEHIRTRDPAFRAAAIKLARSVGPSMPYAVELGVPDAPVRVN
+>tr|A0A1W9LGH1|A0A1W9LGH1_9BACT
+MTAPSPLRLRVAARASPLSRAQTDEALHLLRGALPAGTAFEVFHLDTPGDRDKHTPLSDP
+SVPDDFFTRDLDTLVQNGDCDLAVHSAKDLPKRMPRGLAVAAILPCLDPRDALVLRAGVA
+TPADARSVGTSSPRRDAAVRAMSPHAQPRPLRGTIDERIAALDGGGFDAIVVAACALERL
+GLAARIAAYLPGETTPLQGHLALVTRADDGSLIEELRPLDFRLRLFDAPPVDPPTPAPGP
+VTSETALFLGTHPGHFVHLGPLLPWPMIRLDPRPLEERTALIGRHLDGCASVAFASAFAA
+QAFVHALLHARDTRALSGRSLFAVGPATADALERLGLHADAVVPDFSGIASLAPRAAAVV
+RGRCFYPCSSASPSDDRVRTLAAHGIDLVPAIFYETTEACPGPLPDGPFGRVFFTSPSTV
+RSYFRHYPAERTAARRWLAIGPSTLAALQAERLDPGAVEMLG
+>tr|A0A1W9LCW7|A0A1W9LCW7_9BACT
+MPDLEQEFFESRRARQASPQTLDRLRFALNPFRSFLADRFEVCTADRLRVEHMDAYQRHL
+TERRTAKGLPLKATTINTRIKSVRTFLDFLHERGFLARRLSSCLVYVREPKLLPTSVLNH
+AQVRRLLRQIDTTTALGIRDRAALELFYSSGIRIGELQRLTPNDIDLERAVAKVYGKGRK
+ERYVPIGKTALRWLTSYLFAVRPFLLARRRADEEPGKTPPLFLGSSGSLWTFCNIRVRIH
+KYAKRARLDVVVTPHTFRRSCATEMIKGNANLYHVKELLGHETLEMLQHYAKLDITDLQR
+THARCHPREKDA
+>tr|A0A1W9LIP2|A0A1W9LIP2_9BACT
+MGRYTGPVCRRCRREGMQLFLKGDRCFMAKCPVQQGQNPPGQHGARRRKISDYGTQLREK
+QRLRSMYGMREQQFRGFFGKALHKRGITGVALLQMLEMRLDTVVRRLGIAPSQSAARQFV
+MHGHIRVNGHRATVPSLILRAGDVVQVQDKAASREQAKVYLDAALSRGTSPWLAVNRDEF
+RGEVLHVPSREEIAPIVNEQQVVELYSK
+>tr|A0A1W9LE01|A0A1W9LE01_9BACT
+MSGVIRVGVVGVGALGEHHARLYASLPAVKLEAVYDSNPVRAEEIAAKYGTRAAPSLDAF
+AESVDAASVVVPTHLHREVAGALLERGRHLLIEKPIASTTREAEELVALADARHLILQVG
+HVERFNPVLSFLETAAGTPRFIEAHRLAPYPPLRAGAAPRGTEVSVILDLMIHDLEVILH
+LVRSEVTDIRAVGVPVLSPTEDIANVRLAFANGAIANVTASRISPERMRKIRVFTEDAYL
+SLDYMNQDGEVHRKGPAGIVREAVPIEKGEPLRNELASFADCVARHSEPRVGGRQAAEAL
+RLAIAIHQRLKSGPS
+>tr|A0A1W9LDG4|A0A1W9LDG4_9BACT
+MPLKELARVAQVLRLLAHPHRLKILEILRARKGVPVHEVAGLLGLPPPATSQHLNHMRRV
+GLVAAERAGREVWYRVADPRSVRVLDCICKGGAAA
+>tr|A0A1W9LDQ2|A0A1W9LDQ2_9BACT
+MRNLDQLRAAHAIGKRNESIPGADGGEVVKKVPMLIRQNGLLAALAFACEFKKREWKNEG
+HHRVFQFVVEYLAQCPTLRVPDTIDGEDSVVCYNQWLTGRPSADLRIHTAEIMAYLGYLR
+RYVQKGAE
+>tr|A0A1W9LFS7|A0A1W9LFS7_9BACT
+MPGRELPAVIEALQFGFMQRALAAGVFVAAACALLGVFLVLRRCAMMGEGLAHFAFGSVG
+LALLLSLPPLAVAVPLAVLASLLILKLPERGGMFGDAAIGMVSAVGVAAGVLFAGLGGGF
+NIDLFSYLFGDILAVSRSEVAVAVGLSAAVGAVLLHFRRQLFAMAFDAEHARTAGVPVRT
+LDRALAALTALTVVLGIRVVGTLLVSSLLIFPAATALQVARSFRGALAVAAAVGVGSIVA
+GIAAAYAFDVPAGSAIVLVNATAFAIARLARRG
+>tr|A0A1W9LBU7|A0A1W9LBU7_9BACT
+MIDYEVFCRIKQQQAEGLGALQIAHAMGLDERTTRKWMVAERYRPRQGGARVRKLDAFGE
+RIRAWLERHPFTAAQIVQKLRQEGYAGGVTLVKDFVRRVRPPRRPAFLSLSFAPGECAQV
+DWGQYGTIAVGSTRRRLSFFAMTMGFSRLLYLAFTVTERMEQWLACHVRAFEFLGGVPRR
+VMIDNLKSAVLGHPPGGPARFHPRYLELAAHFGFEPVACPLRQAHHKGRVERSVGYIKHN
+LLDGLEIAGLPSLEAEGRRWLDEVANVRVHRDTRRPPAELFAAEEKPALLPLPPAAFDTS
+VTQPVRASRQFRVEVDGNRYSVPSEHAGQVLTLKACADRLLFYDRHNLVAEHLRSYDRAQ
+DVSHPDHERRLLVERRRARSQQIYRRFLLLTPKADAFYAHLTQRRMDPLVHLRKIVALAD
+VYGPAPVAQAIEDAIHFQAFSSEYILNILQQRGRQQPPPGPLHLPHKQELLDLELPEADC
+SVYDRDETPTPETDHE
+>tr|A0A1W9LFG8|A0A1W9LFG8_9BACT
+MRLGMAIAVVLIAFGGLAFRVGRLHLGDNSALRDSLAKTRRVEQQILVGRGRILDRRGSI
+LAMDLTVYRLNADPQMILRDGLVEAYAALFSRKFGMDRALLETRLRQPERRQVYLASEIS
+EDDRQRVLDLKLKHVWLEPVSARNYPQRNLASHVVGFSNAEGVGSAGVEQALDEFLRGVP
+GMRVSQQDGRRREMLDRRVLEIPAQAGADVHLTIDMNLQAMAEAALDQAVQQHRPLGAWA
+LVQDVRTGEVLAMASRPDFDLNAYGRTPPERMRNAVTGCVYEPGSTFKIGVIAAALNEGI
+VQPETVFDCENGLWMYRGRPLRDFHPYGRLSLADVLKKSSNIGAAKTALLLGDARLERYL
+RDFGVGRAAGIELPGEEAGIFRARAHWDTLASTRIAMGHSVSLTTLQMLGILSAIGNHGF
+LMRPMIVRRVVDAKGRVLHEASPTVVSRPIREDTARLMCALLARVTEEGGTGRRAAIPGY
+RVAGKTGTAVKPGIGGYDERRNIASFIGVIPADDPTLAIAVVVDEPQPEHTGGVVAAPIF
+RQIAQEAVRYLNIPPTGTVQPIDPGDGADAAADDEEEAGHADRAAL
+>tr|A0A1W9LGS2|A0A1W9LGS2_9BACT
+MRRRAIEAAECVSLICADTEAIRAAARAAYARKLREVEALDATIRKFQERDDPAFGAWVR
+TLFADEFSKMRALQNRIERLRASMLDAYELAEERDCPLESVWRDPDDPALSDVPPARAGR
+SGDGAPDMEDGPDGDDPGPGFGTWIDWPDLEGFEDQKSECAKLYRTLVRKLHPDHHGSMD
+EARTELWHRLQAAYRDRDLDGLEECRLACEGLEAGAPTVRVSLLRDLLLAATRQVSILRR
+TINRLKREIAWGFTDLANRDRLATRFRRDLERDRVTMTAELRALEMEADALREARSRRIR
+RRRTRRRAPASPIDFKQGELF
+>tr|A0A1W9LAT7|A0A1W9LAT7_9BACT
+MSFLDLVNKRASVRRYEATPVDEALLQQVLEAGRLAPSAANFQPWHFIVVRDEKIRTALG
+EAYARDWFWKAPVIIVVCVVPHKAWVRFDGKNFAAVDGAIAMDHMTLCAADLGLGTCWIG
+AFDPVKVKAILGVPNDVDPLLMTPLGHPAAPARPKTRKAAGEIIHQERW
+>tr|A0A1W9LEN2|A0A1W9LEN2_9BACT
+MSLRPEVAYNLSIWVALTAWTVAQAIKMTRGLLRQHTIDFRLLFSTGGMPSAHTAMVCGL
+ATSIGLREGFASSMFALALAFAAVVMFDAQSVRRAAGQQARLLNQIVQELFKQHHLSEQK
+LAELLGHTRLEVFAGLVTGVAVAMAMHAAA
+>tr|A0A1W9LFJ2|A0A1W9LFJ2_9BACT
+MNGNGHKYLDRVLAGGILRSLAEVPVTALLGPRQCGKSTLALRVLSEWKGETVYLDLERP
+SHLRRLRDPELFLVQQRGRLVCMDEVQRAPDLFPVLRALVDDRALKLRFLLLGSAAPDLL
+RKSSESLAGRIRYHELTPFQWREARGVPARDRPAFVTHWRRGGFPGSYLAATEPESVAWR
+EEFVRTFLERDIPMHGGMAYSETIARLWRMAAHFHGQLLNGSKLGESLGISHTTVRNYLG
+LLERAYMLRLLPPFHANLKKRLVKAPKLFFRDSGILHSLLELEDQNALMGHPVVGASWEG
+WGIEQVVAALPRWRASFYRDSNGQEVDLILDRGTRRMAFEFKATLSPELTRGGRAAIGLL
+RPERAFVVCPMDESGYDLDPTVRVCGMDELLGDLERLA
+>tr|A0A1W9LFD6|A0A1W9LFD6_9BACT
+MKPSVSSLYQAVEIEQDPKPLLIGERCNANGSKAFRERLLADDYEGCLRIAVEQETGGAH
+LLDLCTAYAGRDEKTDLLALVPMLARSVRMPLVIDSTTPDCIEACLRIYPGRCIVNSINL
+EDGGKNLNRICPLLKKYGAAVIALTIDEKGMAMKADEKVAVARRILDLAVGRHGLRPQDL
+IFDPLTFTVGAGDETLRDAAVQTIGAIRRIKAELPGVYTSLGLSNISFGLPPAARRVLNS
+VFLHEAVEAGLDAAIVDAGKILPLATISAEDREICLNLLFDRVKDPEKKPLNIFIEHFQA
+KSGTAKPDEAAKEPGPAEEALFDRIVRGDKDGVEDLLAILMRRYVPTAIINRILVPSMRH
+VGELFGKGEILLPFVLQSAEVMKKAVAHLEPFMDRSGDAKGVSILLATVQGDVHDIGKNL
+VDIILSNNGYKVHNLGIKVPAETILAKAKELKVDLVGLSGLLVKSAIVMQESMPQYREAG
+LGVPILLGGAALTKKFVAVSCAPGYDRPVVYCADAFAGLQAVQDFEAGTLKATTWDPSTV
+PTTATAAALDIEVRRDGPAPTPPFLGARHVTDVPVEALFSYINDEALFRGRWGYRRGRMG
+ADEYRALIEGKVRPLYAEFRRRAVEDRLVQPKVAYGYYRCWSRGETLFVEDGGTVHEFGF
+PRRTEPPRICIADFFKTEAEGGDVAGFFVVTIGERIDREIHDLFTANAYHDYLMLHGFSV
+EVTDALAEYWHERMRGELGIGSHRPKARAGYVVQDYQGSRYGFGYPSCPDLGAHGPVFAM
+LDPGAIGVTLTENFQMVPEQSTSAIVVHHPQAKYFAV
+>tr|A0A1W9LE53|A0A1W9LE53_9BACT
+MRHFFPDFNLWLDELPEHRSQKLLYYHRRHLVWGGLLIFLLHLRSRLQFNMDRCCATLAA
+NLVTLAGTGEKAIAHGDTLALWFRTVPAAHILELVQRCVRRLIRMKALDNFRLEGRFLVA
+IDGTGMLTFDHRHCPHCLTQQLSNGGTLYYHPVLEAKLVTANGLALSVATDFIENPQGWT
+PETKQDCEKKAFHRLAEQLHAAFPRTPFCLLLDALYLDHGVLARCARHDWKFLITFKEGS
+MPAVWAEAQRLLTIQSENRRAVTLRDGARRVYRWAQDVDVGGFHALFCDETDPPGTVTTF
+AWLTNFLIARQNVIALADQGGRLRWKIENEGFNTQKNGGFALKHAYCRDGNAARVFYGLL
+QLAHLFQQLMTLGGLLRPFRKRFVTVRNFVRRLIESLRHQLLPPLADLPPIGQFRWDSS
+>tr|A0A1W9LES4|A0A1W9LES4_9BACT
+MTARPPGPGPGPAHPFALRSRLLAAIRGFFTGRGFVEIETPVRIAAPALETHIDAEPSGS
+RWLRTSPELHMKRLLADGWPRLFQMGPCFRRGERGALHHPEYTMLEWYRAPGDCGAILDD
+ARALLPEAARAATGSPTARRSGTDIALDGPWETMTVADAFRRWAGWDPVAAFDADRFDLD
+LVDRVEPALPRDRPVVLTDYPAAAAALARLKPGDPRVAERWELYLGGVEVANAYSELTDP
+VEQRARFEACAADRRARHREVYPLDEAFLASLTRLPPTGGIALGVDRLAMLLAGADSLDA
+VMAFRE
+>tr|A0A1W9LHE1|A0A1W9LHE1_9BACT
+MKIPRRKPLTARIGLFGVGHHVYWAQFPGLLDEMHHKLDILAAKLAALQPLHALDYERAT
+THMQLCNDDFCSVPEFMGVAARMGARVPEVILGMLEGDAEADAEIAEWCAIARTLHDLRR
+ARIGHMGHVLEAMLDMHTDPTAVTAAFGAHVVQCEPDEILRHYSREDDPAALEAKKREIL
+AFFDTPDPKSDPITTKLTDRDLHVAAKVAVALEAFIAERKLDGLAYYYEASEGTPMREMV
+TNLIVGNSLLTGAGFPMCGEFDLKTCLAMLIMDRLDIGGSFAEFHPIDFARGTVLVGHDG
+PHHLNIADRKPVLRSLLKYHGKPGAGAGVEFSIREGPITMLSIGVMAGVLGIECANVTAG
+R
+>tr|A0A1W9LH31|A0A1W9LH31_9BACT
+MLSAFTNSFKIPELRQRILFTLGLIFAVRITACVPVPGVDYNALREIIDEIQKQAGGGFL
+GLYDLFTGGAMDRCAVGALGIMPYISASIILQLMTAVVPALERLAREGDSGRQRITQYTR
+YLTVVLCLVQGAALAMAMLHPQATFGMDRDIVHMESRFGFLVMAVLTMTTGTMLQMWLGE
+QMTARGIGNGISLIITINIISRLPGAVSQTIAMFQPVGDERQFSIFHLALMLILIFLVIA
+GTIAVTQAQRKIPVQYAKRVVGRKVYGGQSTYMPLRVNYAGVMPIIFAQSILMFPPKVFR
+AMPWGWAKDFGAAIDYGTGAYMGLYTLMILFFSYFWVATQFNPVRIADDLKKYGGYVPGI
+RPGTPTAEFLDFTMTRVTLAGAIFLTVIAVFPSLMQQHLGIPWIVASFFGGTSLLIVVGV
+MLDTMRQVESQLLMRHYDGFLKKGKLRSRR
+>tr|A0A1W9LHJ6|A0A1W9LHJ6_9BACT
+MRRNANTEEDRMKGWLGIVAVTGIAGGAWGAGTEAKPGEIVVTATRIETDPLTTPYTVHG
+LGGLELNAVRSVRTTPDALQSVPSAMIQKTSHGQGSPHLRGFTGFRTLMLVDGIRLNNSV
+FRDGPNQYWNTVDPLSLRTLEVVMGPSSVLYGSDAIGGTVNALPIQPPPAGGPEWTGRTL
+YRYSSAEDSHVGRIQAGGRPDERTGFVVGLSMKDFGDVTGGKDVGEQSHTGYDEWDLDAL
+VTRQLGDRGTLTLGHQTVRQNDAWRTHRTVYGIEWEGLKHGTDRVLSYDQARDLTWATLA
+AKDVCSFVDAARVTVYRQRQAEDEYRVKEDASAGEKGFEVVTWGASMQFDSDTDLGRWVY
+GVEVSRDLVDSYSHKLKADGSVGKTDIQGPVADDATYDTVGVFIQDAVPLMDGRLQILPG
+VRYTHNRADADRVADPVSGDATTVEGDWDAVVGSLRSSLVLDSKERVAVFGGVSQGFRAP
+NLSDLTRLDIARGTEIETPVTDLDPERFVSLEAGVKFRTDRVRAQVAYYRTLIDDLIVRA
+PTGRTIDELIEVTKKNSGQGWIEGVELAGAYRFVQDWSLRAMAAWMDGEVDAYPTSDPDP
+VRGNMSRLMPPTAEVAVRWQPGASRWWAEVAVRGAGEADKLSAEDARDTQRIPPGGTPGY
+IIGTVRGGVRVWNDTHLTAAVENLTDEDYRIHGSGVNEPGRNFVLAVDSRF
+>tr|A0A1W9LH30|A0A1W9LH30_9BACT
+MATKAWEAKQKRTPKFSARRYNRCGRCGRRHAYMRKFQMCRICFRELALEGKLPGVTKSS
+W
+>tr|A0A1W9LAM0|A0A1W9LAM0_9BACT
+MRTGSPGWNRAAALAVWIAASAAPAAEWEFFAFDNGVGRGVWPPEKQAATLKELGYDGCN
+YGHMGFYAASAADSLRIAKKVAHPAVGPSYNLCHEFLTGNGDKAMETLRAVGSEALRVSI
+NGVDPSDKKRFILALGEGSFDIAAFLAELKRIGYKGPVGHQFYSIPGEPEVNLKKAMEAW
+RKLQPK
+>tr|A0A1W9LC20|A0A1W9LC20_9BACT
+MNRRAFLRTTTLAAAAPLLGAGAVRVADKMDRIGCTTVSFRMRFPSTRPKGVQATGPDLD
+LRDVPALFAERLGIRNVEVWSKHFPEPTVAYAANLREAAGKAGARIVNVQLDEPPFDLSS
+PDAAARRACIEATKKWMDVAAACGAPSLRANTGGKKDEPFDLPTTADSFSRLAEYGAKIG
+VRILVENHGGHSAKA
+>tr|A0A1W9LFE1|A0A1W9LFE1_9BACT
+MNTKTRACSKGLSIEFLARMAQVLKLLAHPHRLKIVEILEARDEAPVHEIVEQLALPQAA
+CSQHLNQMRRVGLVAAERRGREMWYRIADQRSITILDCIRKKDGAGAKSKR
+>tr|A0A1W9LH48|A0A1W9LH48_9BACT
+MCEPSDIELMGQTRAGNEESFAILIRRHQAPLLNFFRRLGAHSDAEDLVQEVFVRLYRYR
+DRYAPSAKFTTFLYTLARHAWADRCRKSERRERIEERVRTEGPGADDGAWGRTAASLDAQ
+QALGRLPEKLRVVLVMSLYQGLRYDEIADVLGIPQGTVKSRVFLALQRLREVYRDQP
+>tr|A0A1W9LGF2|A0A1W9LGF2_9BACT
+MSATPTPDPARWTLCEARDALVRGDVSSVEIVDALLAAADRRNEELGCYLSIDRDDVRAQ
+ACEADARRARGDDAPLLGIPVGIKDNLNVRGQPCSCGSRILEPYRAPYDATAIARLRAAG
+AVLYGRLNMDEFAMGSTTANSAFRKTLNPWGQGRVPGGSSGGSAA
+>tr|A0A1W9LHG5|A0A1W9LHG5_9BACT
+MEAALASARSGVQTILVTLSFDSVGRMSCNPAIGGMAKSHIVSEIDALGGEMGINADFTS
+IHAKTLNTRKGPAVQATRSQCDKIAYHVRLQRVIRSTPGLAVCEDEALGLDVRSGAVRGV
+ILRRRGLVPCAAAVVCAGTFLRGRVFVGPQVVSSGRAGDRSADHLGQHILGLGHRVARLK
+TGTPPRLHRDSIDYARLGIQPPDAPPPVFSYRLRASGAVFHVEQAADGAGSDPSLFHVEQ
+AGGPWLPWLPGTAQLPCYVTHTTDRTIDIIRRNLSRSALYGGMITGTGVRYCPSIEDKVV
+KFPEKTAHHVFIEPEGRGNVRVYPNGTSNSLPASVQVEMIRSIPGLEQARFIRPGYAIEY
+DFFDPRDLSHSLESKLSSGLFMAGQVNGTTGYEEAAGQGFVAGVNAARMALGLPPIAIGR
+QDAYLGVMIDDLVTRGTDEPYRMFTSRAEFRLLLRQDNAPYRLHELAKSIGILAPDVVSE
+IARSMEKISRETARLQSVFRAGASLYQILAGPGVGYRDLPGADLRLTDEEARQIETNVKY
+AGYVSIEAARVGRLARMEAVAVPRDLDYSAIRSLRKESAEKLARIRPETLAQAQRIPGVN
+PSDIALLEVFLRRSAR
+>tr|A0A1W9LG61|A0A1W9LG61_9BACT
+MSGHDHPHPPRNRWMLALGALILALFALSQTVVIVRQGETAVRTTFGRVDGAAIVEPGLY
+TRWPWPVQKIERFDARTQILEGALEQTLTQDGRPVLMSLFTGWRIADPIRFLERVGTVEQ
+ARRNLVGLIGHWRNATVGRHTFESLVNPDPAALKLEAIEKAVADAAGPEARERYGVEIVT
+VGIRSLGLPQAITEKVFERMRAERKAVAERYRSEGESEATRIRAEADSARDTKLAGAAAE
+ARRIRAEGDAAAAEAYTVFEKDPGLALFLRKIEVLEQTLGQRSTVVLGADTPPFDLLAGA
+TNAAPVPARAAPAGSGK
+>tr|A0A1W9LGL5|A0A1W9LGL5_9BACT
+MTRASIDKTRRVPLHQQCVDLVSKAIRSGEYRPGEFLPSERQLSEQLKINRLTLRKGLAA
+LVRQGLIENVPGAGNRVVAPRKDAATTRVIACVMLRRIGSPTLSPYYADVFAGIEEEITD
+RGYQLVFASVREEDLWNDDGHPRANPRSAKPGRFDGVILVGGLSDELALAYRAKGVPVVL
+VDKQVAGADIPSVVPDNRGGAAECARHLVQLGHRKIAFLGARRDPVVTARFEGMTGVLAA
+AGASFNDRDFIEGDYEIEPARRAMKRYLAENARRLPTAVFAINDEAAIGALRALREAGLK
+VPGDVSVAGFDDIVLAAQADPPLTTVRIPRKEMGRSAAATLLSRLSSRPGPAARMVVQTE
+LIARQSTAAPGRGRAS
+>tr|A0A1W9LGS3|A0A1W9LGS3_9BACT
+MRHQRETPGSGVEILYGRQALLETLRAGRRIYRRLLVAEGMQMTGMPAEILRLAHHRHVP
+VATAAKRDLDRLTANGHHQGMALETGPYPWVELDALFDVSTPAAEPPFLLVLDHVQDPQN
+VGSMMRSADAAGVGGVILPRDRACAVTPAVVRASSGAVEHLQVAQVTNLVRAIAELKERR
+IWVYALEAFPEAPLHTDVRLDGAAAIVVGNEGQGVGRLVRQTCDGVL
+>tr|A0A1W9L8Q5|A0A1W9L8Q5_9BACT
+LLADPPDHILGLFGEGGPMGYEFDHATTTRKEYDRIPHLSEMTKAAIEILARSPKGFFLM
+VEGACIDKASHKNQLERAVYETVEFDKAVRVVVEWASKREDTLVLVTADHETGGLKVVEG
+KAAGTMPAVTWSTLKHTGAHVPLFGMGPGSEKIAGTLDNTDVFRLASGTFETPTHYMPPV
+GDAEDGSDAGTKGMD
+>tr|A0A1W9LGG2|A0A1W9LGG2_9BACT
+MTLNGLFTEGAVLQQDMPAPVWGTAEPGEEIVVTFAGQTRRAKAGQDGRWIVRLAPLKAS
+AEPRTLSVAGKTPGSKVEIAGVLVGEVWICSGQSNMQWTLGKSEGGTNAAMQAADLLLRL
+YKVPSVKTDVPLAAVTSRWTSCEFSNSVSFSGVAFFFGRDLRAARNVPVGLIQTAWGGTP
+AESWTPRPILEGHADLKVILDEHAKAVADYTPEKAEEILQKNLVNWSNQLATARAEGREL
+PQKPRKMEPPAETPKRPCCLYNAMIAPLVPYAIRGAIWYQGESNVGEEKDIHPVKKVPVG
+ARFALAARALAHGEKVVYSGPVFRTMSVQGNRAILEFAHTGSGLVAAEGGLKDFTVAPAG
+STNFVPAQAVIESGRVVVTSPDVAAPGAVRYGWSNWFVGSLFNKEGLPATPFRTDRPQ
+>tr|A0A1W9LAW4|A0A1W9LAW4_9BACT
+MQDGVKPQPAGSMSRGKRILFGGASLGLGLVAAAGLGELALRGMAMNLGRASMLSHPVLH
+HVHQPGIVEISRDPAGEIPDHRIRFDSDGLICSLSMGVAGGGGHPYRVAFMGDSFVEAAQ
+VAYEESFAGLMARNAAHHADVRNYGVASYSPVLHRLQWMHAVESWRPTHVFLMLYDNDFA
+DDE
+>tr|A0A1W9LGI0|A0A1W9LGI0_9BACT
+MHGGPASCVRPGPELLDVAPAYDNGNCEIRMGLGLQGIPRDRYILSCKTKMRDREGARTE
+LERSLERLKTDHFDLYQLHHIVKPGDVETACGPGGAMETILKAKEEGKIRAIGFSAHTTK
+GALAALRAFPFDTVMFPINYVEYFTRGFGKEVLDLAAEKGAAVLSIKTLNAGAWPKDAER
+VRKWWYRSLEDHDSIGLALRWTLSLPGVVSCFPPSWLDLQERSIDAALALRPATAADTAQ
+LRAMAEGCGSIFQREEALVARGLAPDFFYADPGCPGMWT
+>tr|A0A1W9LCZ3|A0A1W9LCZ3_9BACT
+MRFARKTVLVTGAGKNTGLGIAARFAAEGATVFLNDSTAEGTARAVARLHRRGLRRVFAA
+PADIGDPAGVEAMFRAIRAQARRLDVLVNNAAHLGVGPGFLDTDLPFFESVVRVNLLGTF
+HVSLLAARWMKRTGGGAIVHIGSNVSTRAIHKRVAYLASKGGIDALTLSMAVDLAPHGIR
+VNTVAPGYIHTDRWAKLAAAHVKRRRANVPLGREATAEDIAEAAMFLASDRAANITGARL
+VVDGGCTAQHMPKDVDV
+>tr|A0A1W9LG36|A0A1W9LG36_9BACT
+MSARHESRLLAVQFLFQRDFNDGDLADALADFWAARNIGPKLRAFAEDLIRGVEAVRPEL
+DERLRALATNWDLSRMAAVDRNILRLALYEMHHRADIPPVVSMNEAIDLAKEFGGRESGR
+FVNGILDRAAKDVKRPARCAAPDPRLLAGGGE
+>tr|A0A1W9LBI4|A0A1W9LBI4_9BACT
+MLRDRLRNGILLALALIAAMIFARGWGVLAVLLAISAVAHREFYMLLDAARIPNFKVIGT
+LAGSGLIAATWFSFLHPGAAGPEGGFTTALFLAFLVVFARQFHQRNNARPLDTMAGTLLG
+MIYIGFLLSFLARLLLAWGANPDGRVLVFYMIVVVKICDVGAYFTGCRFGRHKLIPRISP
+AKSWEGCAGGVASAVAASLVFTLVLGGQVGPVRIPVSHAILIGLGLGLIGILGDLAESLL
+KRAAGVKDSGAMLPGLGGILDVIDSLLPAAPVLYIYARHVLEPVAPVLMR
+>tr|A0A1W9LBT4|A0A1W9LBT4_9BACT
+MIASGMADHGYQYVNIDDCWMNAPATNKHLLDLKRIGPVRTADGSIQPNVYFPDMKGLAD
+YIHAKGLKAGLYTSPGPETCGGFGGAYGHEAQDAKQFADWGYDFLKYDWCSYGHIALGGS
+PSDATRSNWWSSPRPPLEALQKPYAQMGALLKQQNRDIVFNLCQYGMGDVWKWGAEVGGH
+AWRTTDDLGLAKAAKLPGFYSIGMRTAELHEYARPGAWNDPDYILIGWYGNARGQREPAK
+APLTPNETYSYMSMWSLIAAPLFFSGDMSKLDAFTVNVLCNPEVIEVNQDVLGRQARIVR
+RTDTEFILAKPLEDGSLAVGLFALGQGPQTISVSWQDLGIEGARRVRGVWRCAGAADGAW
+KTDVPRHGVSFVRLVPQAARRHG
+>tr|A0A1W9LIJ0|A0A1W9LIJ0_9BACT
+MVQVAGLGWDLAQKKGAIPDLPPFRRCATIFPALTCTVQASFRTASLPSAHGVVGNGWFF
+RELGRPMFWEQSAALVQGPRVWAGRGGRVGMMFWQQSLGESADLVLSPRPIHKHHGGMIQ
+DCYSRPADLYERVTAHVGRPFNLMHYWGPLASAKSSEWIAAATQAVMEDSALAPELLFTY
+LPHLDYDLQRFGPDSPQAFQSLEKASELLSNVWKTARAAGYDVLVFGDYAIEPVTAAPVF
+PNRALRQAGLMSVRTVRGMAYPDFFAGAAFAVADHQVAHVYVRNPQDVGRVRAVLERLPG
+VGEVLDRAVQAPRGIAHARSGELVLVAAKGSWFAYPWWENRREAPDYASHVDIHNKPGYD
+PCELFFRRDPLRIRGSHGRAGAGCEVAWTASFELPYEPATLVDLARSLGAK
+>tr|A0A1W9LCW9|A0A1W9LCW9_9BACT
+MLFNSLTFVVFLVIVYGGWRLLPGIRSRNVWLLLASYVFYGAWDWRFLGLLLLSTLIDYV
+AALVMSGAPQARRKAALVISLCLQLGMLGVFKYLDFGIESMVALLRWLGMNPHWETVGLI
+LPVGISFYTFQTISYTVDVYRRVTEPERNFLNFALYVAFFPQLVAGPIEQSTNLLPQLKK
+PHPVTRDDVRTAFHWILMGYAKKMVMADTLAPMVNAVFAAPGSFDGLTLLAGGLGFVLQI
+YGDFCGYTLIARGVALLFGIRLVMNFRRPYLALSPRDFWRRWHLSLSTWLRDYLFFPLGG
+SRCGRWKTARNLMILMLLSGLWHGASWIFVFWGAYHGVALVLCQLAIPRGAEESWKGWKR
+LVAILVTFTITSVGSILFRIRSLADLGAYAHGLTVFGPIGPAMEYLLPVLAFGTLLMVYH
+EWAERKNDELVLLEAPVWFRWSVNAFLLLALALCDSQQTAFVYFQF
+>tr|A0A1W9LE64|A0A1W9LE64_9BACT
+MIVLDTNILIYAHRAGTAEHLPARAAIERAAASSGGWGIAQASMAEFWSQVTHPRYPGRP
+STVAQASGFLQALIQGGGGRVLAPGSRFADRLRMMAVEMGVCGARIFDLQIALTALDGGA
+RELWTHDRGFLAVRGLRVLDPL
+>tr|A0A1W9LFG4|A0A1W9LFG4_9BACT
+MKAMAEPKEQQQSKQAGEALEKDEFQTLLQKEFKPKTDHAKAAVQAAVQTLAEQALAQTA
+LVSDDAVKTIEAIVAAIDKKLSEQINLILHHEDFQKLEGSWRGLHHLVSNTETDETLKIR
+VLNISKGEVAKTIKKYKGTAWDQSPLFKQVYEQEFGTPGGEPYGCLIGDYYFDHTPPDVE
+ILAGMAQISAAAHAPFLSASGPTLMNMDTWQELSDPRDLTKIFQTAEYAPWRALRESEDS
+RYVALTMPRFLSRIPYGAKTNPVEAFDFEEDTAGADHRKYCWSNSAFAMGTNITRAFKLF
+GWCARIRGVESGGMVEDLPCHTFPTDDGGVDMKCPTEIAITDRREAELAKNGLMPLSHWK
+NTNYAVFVGAQSLHKPAEYDDPDASANAQLGARLPYLFATCRFAHFLKCIVRDKIGSFKE
+RTDLVLWLNKWISNYVTTDPKASEETKARHPLAAAEIVVEDVEGNPGYYNAKFFLRPHYQ
+LEGLTVSLRLVTKLPSAKAAK
+>tr|A0A1W9L8R0|A0A1W9L8R0_9BACT
+MSYLWVFMGGGLGSMARFALSGLVDRNIGESFLWGTMAVNVSGCFVIGFFATLTGPDGRW
+MASPSVRTFVSIGLCGGYTTFSSFSLQTLAQMQNGEWGRAGVHVVLSVVLCLLGVWLGHL
+LAASLQTAKGF
+>tr|A0A1W9LEJ1|A0A1W9LEJ1_9BACT
+MMIQALGAGFGAEEFKIENLRYHRIVIMTDADVDGSHIRTLLLTFFYRKMPELIQRGHIF
+IAQPPLYRIKRKNREEYIDNDEQMTRILLEMAVDEVRLADAAGKVLAEGKALGEILQLVS
+EVESHADRVRRKGIDFREYLLHRDPKTGSLPQYRVTIASADGEETRYARTEVELRTLREE
+AERRSGAQLEIFQNGEAAQDRKPGIRWVEIYNAAALARTLALLEKKGFTLDHLLDDAATP
+PFQLLDGDDRGVPVSSLQHLLNQVRELGRKGLNIQRYKGLGEMNPEQLWETTLNPANRKM
+LQVVLNDAARADELFTILMGDAVEPRRKFIEDNALNVRNLDI
+>tr|A0A1W9LF80|A0A1W9LF80_9BACT
+MPAGCAPSLAAVCVDRADGRGRAETASNVAATVCLAAPAGTCRVVFAFANSNFQPPTEVE
+AARFDIAPGSTNVLVCGAIALDVDEKLPDLNLAGLLVQRTAGGAPLSLELKDYGNTYYFF
+KPKPLPAGVYEVAIRYSRSEAPSTVATGVVVTAGATTMVKLDSGFELKRPAGPRVEGWSL
+TREGEAAPWLEVTRRTDNDEPLWRRVLAPPGTYTLVVRRAAPAGPSKPETLIVAPGQFLT
+HEPAAP
+>tr|A0A1W9LHK5|A0A1W9LHK5_9BACT
+MSWFATCRPAGTACVSNCCRTSTPRAAATSFAFSASAPQASPAHPPRYRPNRPRSTCWTP
+PQAVVHVEGDLPMNPVAVAQNLDKPGENTANNPVAIVDRETGAVPFLYCLEYMRCFSMRS
+DDEGVTWTKPVEITPAFETFRRDYDWKVLATGPGHGIQLARGPHKGRLVVPVWLSLGTGG
+HAHRPSVVATIVSDDHGATWRRGDIAIADTPPVRWPNETAVVQLADGRVMLNARSESDAH
+RRVVVTSPDGATGWSAPHFDEALVEPICMGALIRAGLAKDGGRNRIVFSNPGNLARRDGR
+EAPGKPRDRVNLTLRMSEDEGATWPFARRIEEGFSGYSDLAVARDGTILCFYERGSTDGA
+SIYKTGRLTVACIDPEWLAAGRPGTKPLMNTDQH
+>tr|A0A1W9L848|A0A1W9L848_9BACT
+MTTPQFLLPAVAAAAGLFALAGRLEKRGIRLPDGFSFERIPQGAGAFLGSQFAIQLGMMI
+PLSTFYFCRWPFAGAYANLVAIPLIGINVQLGAIGGLLGLIPGVGMYLAMVLGTANWFFS
+WIFLWIGHAGATWFPYPFARRPGLSFLAAYYVLCAAWIWWRPLRDWACAFAARWDLRPRD
+AGFVLAAVGACLAMAATPDLFPETPPGARVTFLSAGYGGAALIESPGGQRILIDAGFAEY
+VRGRRNEATRTVIPYLCHRKIRKLDAMILLSARPERTGGAGDVLEHVWVREVITPPSMGG
+LTPDTTEHDLASRLGIKPGISLSSRIHEALAGDPLHPRRPSLAGGLAKRGPSWLNRWAGW
+TTTRRTASAGDVLFREAGPAGEFRIEVLGPAAGDSGAGDLDNGSLVLRVVHGDAAILLSG
+DLRPEGVGALAARNASDALRAQVVTLPHHGAAAPAGGVGKAQVEASLARDLGALLGKVRP
+ETVIAEYGRPSGVPGAPSSEREAVHELSRRFVTDRLGAGAWLSTGRDGAVMAESDGKRWS
+LATQAEANRAQGGEEDSVADIAVGF
+>tr|A0A1W9LES9|A0A1W9LES9_9BACT
+MQTSVHVFWLCFVPMFAAMNPISIVPTFNALTDGLPAEKVRRVILQSLITATAVAFAFLI
+AGRALFRMLGVSVADFMVAGGALLFVISLRGLLGSERYGELSSDDSLGAVPIGMPLIVGP
+ATLTTSILLLDQHGALPTALAMISNLGLTAVTLFGASRIQRVLGRSGSKALAKIAELLLA
+AIAVMIVRRGIAQFLAVPSP
+>tr|A0A1W9LGK7|A0A1W9LGK7_9BACT
+MKNVTITLPEAAAQWARVWAARNGTSVSRMVGDLLRLRMEQEGDYEAAMRGFLGEKPRRL
+KSAGGYPRRGDLYERAVLR
+>tr|A0A1W9L8X3|A0A1W9L8X3_9BACT
+MTYDVYLGSALPRVALAAGSYYSMAGVSNGTGKASAWGYNNYGMLGDGTTSNRYLAVSVS
+NLTGVVGLAGGVSHSLAVKSDGTVWGWGRNNYGQVGDRSTTTRTKPVPASNIVNAVMVEA
+GYYHSLALRSNGTAWAWGYNGYGQLGFGNTKNTNMPCVVSNLVNVADIAGGMYHSLAAKS
+DGTAWAWGRNNYGQLGDRSLSNRYVAVLVSNLTGVVDVDAGYYHSLAVKSNGTVWGWGYN
+GYGQLGFGNTKNTNMPCQVSNLVDVVAIACGEHHSMAVKADGSVWAWGRNNYGQLGDGTL
+TTRTRPSRVSNVVATVVAGQMTLVSDNQAGTTYDPGTLKTGTRYSWQILATDNHGASTTG
+TVWSFRTTPVVMTPSYTPNGGTYTNSRSVVLLSLTPGARIYYATNGTGPTTNSPWVNTGG
+SITLYASFSNTVRAFATATGYVNSAISTSALFVVKSGNTAPVASNQTVTTAEDTSKAITL
+TGGDAETTNLTYSIASNPTKGTLSGTAPNVTYRPNTNWYGSDSFTFRVSDGSLTSGPATV
+SITITPVADDLYVDQSNVSGTEYGTPAYPFNTIQEAVAVASPGDSVLVTNGTYVLSSTII
+VTNPVAVRSINGPDVTIVDGNNAVRCFLLENDAATVDGFTVTKGYANYGAGFYVGHISIP
+ERGGLVENCIVVSNTAYQGAGGAYIYGDGAILRNCLFAYNNAFSGGGGVFGGMEPQVENC
+TIVRNYSYNYGGGLYNAGGSHIKNTIVWYNTSVLDDPNFFNNGYNGTFDHSCLPTNIPGD
+GNITNEPLFADMDAGDFRLMFGSPCVDTGNSTGAPPYDLDGQVRPIDGDGDGAADVDIGA
+YELPRSVFVDDSNTNVVKNGTLAYPYNTIYEGVAATTNAGETVRVAAGNYDGYLGIYSRS
+YLTLVGEGESNTVVSGYFDIAGCNGVTVDGFDFNGGVYGFYVSSSANIVLRGNVIRNMSQ
+GQYNWGGASISASSSSILLENNLFQNNYGGQQAGAGIYSDCSLDIRGNDIIGCTAWNSAG
+GMYITAGTAGRTLNIQDNFFSGDQADYSGALVISWAVPSGVAVIQNNVFHNSNADYKGVT
+VSLSVSESSSAYILNNIVKDPWSPNYWYPTGFACSGAGPVYAANNIFYCTLPYANIAVSG
+GTNVLVEYNDSVGMSYSGVTVGAGNISTNPLFVDPSVHDYYLQTNSPCINAGNPNSYYND
+ADGSRNDMGVYGGPGAGE
+>tr|A0A1W9LFS5|A0A1W9LFS5_9BACT
+MFGEEGGGVYKPDEQRIVGILGLGLDNEDRHVRVTKGKNFQIYFGSESTHERMQETCLKI
+NEKLDRRGRCLEDLSREEFMDLVSDVGGS
+>tr|A0A1W9LGP7|A0A1W9LGP7_9BACT
+MNVCFGANAPAKADAETVAARPAKLGINGIRFHHHETQPAPRGLLRPPENGARALDPEGL
+DRQDYFLDRLHRHGIYANLNLHVGRSFTEAEGFENAKDLPYDVRYSKCGTAPVTRRNGVS
+IWEIGPASKTLWNRALAAVACRSFTVLDETRAP
+>tr|A0A1W9LDE6|A0A1W9LDE6_9BACT
+MLIGWGRIVRRVLSDDEGGGWPVDVWAGWAAGTVFLQVWHFALPVDWRAAAVVGLVGLAG
+WMLRRRPASAEIAHAFATGAVCLVLYALFVRHIRSDLLVYDAGMYYYQAIRWINEYPVVF
+GLGNLNLQLGINQTYFLWAGLLNLHPVGRGGFMTMNCLALVIAMAPGVRTLLRMRRADPK
+PDALGILRIFSLPVLAAFAMDDGTANPSPDVFSWVLCVVAFERAAAWLHAAGTGPDRTLR
+PPYVLVLICAALVTVKMSMLVYSAVLLAVVATVYIVRMRACLSRPHLLRHAALAALVALA
+GGLPWMVRNSMATGYPLFPSPVAALPVEWRIPEPKVRSIGELIRAWARHPSKQSKAFRKR
+LGNEQENILLGRSDPMSQAAFRNLVRGTPWFSEWIADSMRSTIFAAGLCGPPVLGLALLL
+LRRRDKPGGATARSLDPLVIPLGAAVAFWLYAAPAVRFGLPFLALLLLLPCAQVCAGLPM
+RPASLRWLAGILSAVLTAAAFANGFPPRSKLWNSIVFPPRAMAETVPFTTRSGLVVTIPK
+NDARSFDSPLPATFYRNPYLSLLDPDRGIAGGFKDETPPPPAEAAGG
+>tr|A0A1W9LAN3|A0A1W9LAN3_9BACT
+MGERKHVILGVHITDRVKRAERVQQVLTRHGGRIKTRLGLHDADEVHGSPNGLILLEVVG
+GVGEIAALEKDLKAVAGVDVKKMVFRH
+>tr|A0A1W9LCZ7|A0A1W9LCZ7_9BACT
+MLTLMISTKFSVGSSLLLREAKKAGAAARLPWMLLVFAALTFAIGSAVSGWNQPVTLLLL
+GSDGRHPGEPSRSDAIFVLHADPRSGTLRGLSLPRDLYVPLNGLPVRRTARLNAALFYGD
+YYATSAGIPAARETVSRLLDVPVDGAVVVKFDFVRQLVDAVGGVSVFCDKSVADRSFNAL
+DGKGKYALQFDAGWNHLDGKRALDFIRLRRPDTDFGRMGRNRNLLCALGKRLRSARALLS
+LPRAVPAATRGLDTDLGLIGCLRMAWVFARCPPGKTEWNTIEKSYFLPYTTPNGAQVLIA
+EPGLLEEAGQTLIGKRPMSLADVNSHDANLARP
+>tr|A0A1W9LGJ9|A0A1W9LGJ9_9BACT
+MITRLYANNFRCLVAFEAHFGSFGVLCGPNGAGKSSVFDVLKFIRDLAAGDSYLGGEGER
+DVSRIEFNNWLASTVQEFELGVTADGHSFEYQLHIEQVSSDLKPRIVRERATCDKREIFV
+RNLEGVKFPKAKGAPSGFPLDWRQAALGSIQPTESRREIQILQQALSKLLILRPSPRGME
+KESKAESRSPTLYLSNLTSWYRSLYQEQDWTDALRKSLQNVWPDFKSFRLVDVGLNAKAL
+QLRFGGSTERGVGELFFDQLSDGEKSLIGLYMVHAALATGAARTVLIDEPDNYVGLPELQ
+PWILSLRELLDEEHQAIVISHHPEILGNAGEEFGRYLWRDNHTSPTRIEPLKVPPGLSAG
+EAMARGWIRG
+>tr|A0A1W9LFY1|A0A1W9LFY1_9BACT
+MTTGTTIRMGVAAAACLAAAGCMTGPPPASVYGVGGDRETVLAVRARLSDDPVLAHRAIG
+VTASRGIVTLSGSVPAGLRAHALVIASSTPGVRGVEDRLVASPSGMFSTP
+>tr|A0A1W9LC07|A0A1W9LC07_9BACT
+VRLAAVLPAAAVRPAPATTPPAPTRAELSDRMLQAARSRQTEGRLNDADETLAKLQSEDP
+GYLPAYPARAAMFEQRGMPDKAIGQWALLLQRAAGTPEAKRAAGEWARLTQEQRRRTPTP
+AGRIRIRDLALQRFPDSEDYDDMRLIRVTLETAGPAPTPLRVEVAFFDRDAGAGAPTLSR
+AMMPRVEAQLAGPWQPDRTLTASAAYVVPAGFRAANRCSFHGYIVRVYAGNVLQDEAARP
+MDLLAQPAATAGRVAP
+>tr|A0A1W9L7Z6|A0A1W9L7Z6_9BACT
+MADLLLVAVLLLAQTSLGALLPPMTNGSPDEFALRRAGTEVNASYQIGVTNAGLYRIPYS
+ALVTAGITNPVGSELRLFCQTQEVAIYVSTPGAMAAADYALFYGQGYNGYYTPTNVYWLG
+TGGSGLRMATRSGAPIGGANVVTSHWHEVLFNPDTSYIDNVRQGDESIDHWYAARLFDTS
+STNVLLPTDRRISSGPAQLVALLGGRNNNTSFNPDHQTEVRVSGTVVANFQFESINRLTG
+GCSVAGSLLNSSSTTVSLRQTMAGVPFDFALLESLAIQYTRLLAPLSNALGFFGRTGTNI
+YSVDGFSTNAAYWVADISNPWSPVLLTNFSTSSITGGVRLRFGDTSLSSNQYFVCATSAV
+VTVTNVRQVLFRDLAATNRQXXXRQADYIVICPYEFRKNAYRLLAHRYRHGLTVAVAPVT
+DIYNEFSYGIKDAAAIKQFLGYAYHHWQPPAPRYVVLGGDGSYDPENNLNLANPIDIIPV
+HLGPSSYEWTCLDGWYCAVNGSDRLVDIAWGRLPASSETQMSNMVGNIVAYEAQSSTNAW
+RKKGLLVADSNDVPDALYFKAATTSNVSRYLSSSNGYVNTPVFMDDLPYQHNPALARAAI
+TTTINTGIYVVSYFGHGSEILWNELNIFNTNDASQLLNTVYPLFTALTCLNGRFYDQQKG
+CLAEALVIRAGRGSVGCVAATSLSIETYAEVFANGFYEALVNTQQYTRVGDVMSRGLLKL
+WAFSPAAEELLFYNLFGDPALVVKPSF
+>tr|A0A1W9LCT0|A0A1W9LCT0_9BACT
+MKIRAITMTAIAAMASGLPLARAAWFDNTELKGDLRYRGEYIDEDGKDERYRDRIRARLG
+LTSKVNDEIKLGLQLTTTESKNGNGDPISGNQTLKDFGSKKGVFFDLAYFDWKPAALPGL
+NLTAGKMKNPFICVGDYLWDGDYTPEGLALNYGVGGDVKLLANGGYHWIQERSAGDDSMM
+YGGQLALSVKAGESASVIFGGTYYGFTTVEGEQVFDWQSANNAYGNSTKSVVDGTATNKV
+YANGFNTAEGFVQVNFDLGIPVAVFGSYAVNGDADEDETGYMAGFKLGNAKEPGTFEFSY
+DYRRLEKNVFPGAFTDSDSFGGGTDAQGHKFKVAYQIQKNFQSAVTFILNEKKLEDSHDY
+NRLQVDLIAKF
+>tr|A0A1W9LGB0|A0A1W9LGB0_9BACT
+MAGLALREMLRQPLTLLLMTSAVAGIGLMPILTTHTLGEAEKMIADNALALHFFLGMLLA
+GTAACQSLSGDIRRGTAATILSKPVGRVAFLLAKFAGIAGGMVLFSAVAAPASMIAMRAS
+ALPYAIDWPVALPLLAAIPVAFAAAAAVNYLTRRPFVSDAIGLLAVAVLLAFVIAGLQSK
+EGEAAAKFGAFYTWTLVPVNALIAMALLLLAAIALALATRLDVVPTVTLCGVVFLVGLMS
+DHLFGRHAAHSRIAATLYAVVPNWQHFWVVDALHLGVRVPASYLAWAGAYAALYLIGILA
+LAIFSFRSTEVKT
+>tr|A0A1W9LAX9|A0A1W9LAX9_9BACT
+MNRRVTIVMYHYVRDLARSRYPEIKGRTVEEFRGQIDWLRAHTTIVSAEAVMDAIATRAP
+LPPRACLLTFDDGFADHYDTVYPILRDHGLPGAFFPPARISLQNTVLDVNKIHFVLASVS
+DKRSLLDAMFRHMADLRDEFGLPPDAHYRETVSISDKRWDTPDVIFFKRMLQRELPEPVR
+ARIAGRLFRDFVGADEAAFARGLYMSVGQMREMIAGGMHFGSHGRNHGWMNRFPPKEQEE
+KIDDSLRFLRDLGAPTDRWIMNYPYGGWNESLLQILRRKGCTAGLSTCVDVADLDRDDPL
+LLPRLNTNDLPVRADAPG
+>tr|A0A1W9LF69|A0A1W9LF69_9BACT
+MDEIKASSPESAAPAGAKPAAPKLAAVIDIGATAIRMEIAQIGENGEIRTLDALRRGVQL
+GKDTFTRGRIQQSTIQECVDILKGFRRVLDEYGITQPEQIRAIATSSVREAENRDTFLDR
+IYIATQINVRAIDEAEESRLTYMAAQHVMESEPDLKEGDVLVVDVGGGSTELVLVQQGRV
+TFSNSYRLGSLRMRETLETQRAPTERVRTILGQHVQRLVDQIRRNVPAVKLTALVAMSND
+SRFAASQLFPSWSDAQAARIDYKTFSAFVDKILPLTVDKIVGKYQMTYQEAEIVGPALLI
+YVHLARTFKVEQFIVPKTSLRDGLLKDMTLRGYWTTSFAQQVLSAAVALGEKYHVDEKHA
+RHVADLSLQLFRELKAEHQLSPRHEVLMEVAALLHEVGGFVSSRSHHKHSMYLILNSDLF
+GLTQDDMAIIALVARYHRRALPSPTHEEYTSLDRDNRIAVSKMAAILRVADALERNHLQQ
+VRDLTFTREQNQFVITVRNVEDLTMERLAVKEKGTLFEEVYGLPVVLQEERAQAEAPPDA
+R
+>tr|A0A1W9LH77|A0A1W9LH77_9BACT
+MIGKKPFGDRDGRRGSDSGMDERVVFVNRCAKVVKGGRRFSFSALVVVGDRKGHVGFALG
+KANEVADAIRKGGEMARRSLITVPMRDRTIPHEIEGRFAGGHVMLKPASAGTGVIAGGAV
+RAILELAGVRDVLAKSKGSDSPLNVTRATVAAIQGLRLYEDIHALRAGGA
+>tr|A0A1W9LFV5|A0A1W9LFV5_9BACT
+MRIGSNRSSKLIILASSSPRRRQFLKQLRIPFRMITPLTDETPAKGESPLHFARRAAVDK
+AREVAPRAGKGAIVVAADTIVVLGRRILGKPKSRDHARRMLRALSGRRHEVMTGVCVIGG
+RKTRSFVSRTAVEFKKLTRQEIEFYIASGEPMDKAGAYAIQGIGSFMVRAIHGSYTNVVG
+LPVAELLDVLEKDFGLKLFA
+>tr|A0A1W9LD03|A0A1W9LD03_9BACT
+RAMTLERQEGLAKLVVDPESQRVLGVGLTGIGAGDMIAEGALAIEMGALASDLALTIHPH
+PTLSETVMEAAEVFYGHCTHLATKG
+>tr|A0A1W9LCW1|A0A1W9LCW1_9BACT
+MKLPSNMSWVKQHYEKAILIAVLLALVGSAAYLGNHLATRAAALKASERPIVAGPDQGFA
+DLSFSGYSNGLAQLASPVQAAGTSNRLFISEIRVFCVRCGKWIGHDDLKCPFCEAVQPPI
+DPPADADSDRDGLPDVYEEKHGMDAYNPDDARLDTDGDGFTAIEEFVAGTNPKAAADRPA
+LFAKLRLAGVQQLSFKLRFVAVQKLSDTLLKFQINARSLDRTFFPKIGDMIEGYIVDGYD
+KAADTLTLKKGDIVKKLQRGKVIDDDQLVVHFVFLLDGSKPRCLKGESFNLGDQKARLME
+IAPDRSSVKIQHEGGREYTVSKPTADESAAMQLRVANPMSGASVTPGVSPATKTSGGLPD
+FN
+>tr|A0A1W9L8K7|A0A1W9L8K7_9BACT
+MKNAMIGLVVASGLTGAVLAAEDGWVSLFDGKSLAGWTQRNGTATYRIENGTIVGKTAEG
+SPNSFLCSDKDYGDFELEFEVKVDPQLNSGVQIRSQTKDTPTGRVNGPQVEIEGSGANGG
+GSNGYVYGEATGRNWLTPKERLIPHKKLKDGEWNKYRIVAKGARIQTWINGDPIEDLTDE
+PAFQTHPKGFLGLQVHGIKKGAGPFEVAWKNIRIRELK
+>tr|A0A1W9L8J6|A0A1W9L8J6_9BACT
+MRSFFITGTDTGVGKTALTATLLAAARKAGIDAIPMKPIQTGVRRIAGLAGDIDVVARAA
+SWHPVPGETQLLCPYRFAPACSPHLAAVRAGEAIRMDRLEGSLRKLLQFHDSVLVEGAGG
+VSVPIGGRRTMLDLMAAMGLPVLVAARAGLGTLNHTMLTCAAVRKRGVELAGVVMVQSGR
+GPWTPLMQDNLETLRRFGIPVLGRLPFMPGFARAPRPAVQRVLQDPAVAWTASLLRG
+>tr|A0A1W9LA89|A0A1W9LA89_9BACT
+MNRCLICCDSIDSGNDGYHPKCAQRLFGIRAAPKLAFTWDELNAMAEKTVRRSVTVPGVQ
+PKLSLHLERTKGQGADRFTLVGLEGELILKPPVPKYPEMPELEHACMLLASRAGIDTAVC
+GLASLAGGERACLTRRMDRIDGRPLHMEDMCQLTDRMTEEKYRGSMERVGKAILAFSSNP
+GLDAIRFLEVAIFCFVTG
+>tr|A0A1W9LEV8|A0A1W9LEV8_9BACT
+MTSNLDREKLERTFSLLEERLRQLGAPRMRMAICGGSALIAMNIVSRTTKDVDIVALLDE
+HENLVEPIPLPEALLQAAQDIAPLSELDKNWLNNGPSRGEGGLFQMGLPPGFASRLIRRD
+YGEQLSVYFIGRLDQIYFKIYAGTDRGGRDLTDLTALHPTEHEAEAAARWAMTNDVSEPY
+RMLLKTMLRKLGYENVADRV
+>tr|A0A1W9LFQ1|A0A1W9LFQ1_9BACT
+MPRRDSNQIAKRIVDVATGAASGDALKNQGKSKAGHIGGVARAATLSREQRSDIARVAAA
+ARWKKKQD
+>tr|A0A1W9LHG1|A0A1W9LHG1_9BACT
+MKMPTYEIRRGTIDAAAMLDDPVWAHAAVAGIVHARPESRTTEPRAKVRLLYDDERIHGL
+FEVRDVQVRCVHEGFGASVWKDSCVEFFVEPHPGSGYCNFEFNCGGSWLVKHITDPVRVA
+PDRFRAFRNLGAEDVPGVRVVPTMPPRTEPAVAGPLDWRLAFSIPFDVLVRAAGARAPRS
+GDRWRGNFFKCGDDTPAPHWIAWSPVDELNFHLPRCFGDLVFAG
+>tr|A0A1W9LDL8|A0A1W9LDL8_9BACT
+MKARRSRVVRETRETQIAVELNLDGRGVYRIDTGIPFLSHMLDLLAKHALFNLTVKARGD
+LEVDYHHTVEDLGLVLGDALNQALGDRKGIARYGQSLLPMDESLSMVAIDLGGRPFLVYE
+IANRKKRIRDFDVGLIEEFFRAFVTQARMNLHIAHLYGQEPHHAYESVFKGLARALRMAC
+ARDPRVSGVPSSKGAI
+>tr|A0A1W9LG68|A0A1W9LG68_9BACT
+MASGAVFPTETHPELDREPVVLDVRDFNLFYGAKQALFDIRMKIPKGKVTALVGPSGCGK
+STLLRSVNRINDLLSTVRIHGDMALNGDSIYSPGVDVIELRKRMGMVFQKPNPFPMSVYE
+NVVYALRIDGEKDRSTLDEVCERSLRGAALWDEVKDRLHESALGMSGGQQQRLCIARAIA
+AEPEVLLMDEPCSALDPIATNKIEDLLEQLKGEYSILMVTHNMQQASRTSDYTAFMYLGR
+LLEYGPTATIFQTPHLPETLDYVTGRFG
+>tr|A0A1W9LFV1|A0A1W9LFV1_9BACT
+MTAPASAAVPVLAEDLTVRHGGVAVLDRVSFRVDPGDYIGIVGPNGSGKTTLIRALLGLS
+PTPEGRLELFGEPAASFRQWRRIGYLPQTSTPAMPRFPATVEEIVACGRLAHAGRIALPS
+ATDREAIERALAAAGIADLRRTPIGSLSGGQCQRVLVARALAVEPDLLLLDEPTVALDPV
+YREDFYRTLGAWNRERGTTILLVTHDSATIGHHASKLLYLDRSLIFFGSFANFCSSPAMT
+QRFGEFQQHLICHRHGCPEGSCPL
+>tr|A0A1W9LBK3|A0A1W9LBK3_9BACT
+MPRPRHAHAKRGPRRPGQPAGFLRAGRHPRDRDVRPRHAGSAEVAVRRTVRRRRPRPADL
+QVCVVRRPHRRTHGCVYSPDDAAWPGWLFYASSQMNPRNPLWREAPALNAYITRCQSVLQ
+AGRPDNDLLVYWPIHDLYAAGHTYQFSVHDHRWLSDEPLGRTARALWEAGVAFDYVSDRL
+LDGIHAGPGGTLVAPGGASYRAVLVPSCRTMPDATLARLLALAADGATVIFEDALPADVP
+GLGRLEARRAAFRKLSDSLGAAAREAGALCDVRHGKGRVLAGPRVAALAAAGISGEAVAQ
+HAGAQRIAGLWSVEFIVGGPVLPKPCTVSNLASWTRNGDPASEAFAGTARYRTKFEVSGV
+GVQVSGRASGTGSSLKPDTRHLTPLLLDLGDVRHVARVRINGRDLGTAFMRPYRVEVPAD
+LLKPSGNELEIEVTNLAANRIRDLDRRKVEWRIFRDINLVSITYKPFDASGWPVFESGLL
+GPVVLRQAE
+>tr|A0A1W9LCL7|A0A1W9LCL7_9BACT
+MGAVSSIAVVVPRHADGQTVGGAETLLRQLALRCAGRGLRVRLLTTCAKSHFTWANERPA
+GVVRDGPIEVEYFPVDDRDTGAFLEHQQTLSRGGDLSREQEEAWLANSVHSRALYAHLRT
+ADYDRILAGPYLFGLTVGAARIRPDRTLLVPCLHDEPFAYVSLIREMFGAVRGCLFNSEP
+ERDLAARICGLPAARGRVVGMGIEPFDADPAAFAARHGLGAPYVIYSGRREAAKGTPLLA
+EYVRVFRERTGRDVRLVMTGSGPVDAHPFVIDAGLLPEAEKREAMAGARVFCHPSRLESL
+GIVLLEAFMAGTPALVNEGSEVLQWQCRRSGAGLWFRHYPDFEATLDRLLADEPLRAAMG
+AQGRRFAQTEYSWSAVDSRLFQALETL
+>tr|A0A1W9LGU5|A0A1W9LGU5_9BACT
+MRTFLVLWRRELLAYALSPTAYLVAVLFLAVTGAGFWILVAALAAGPGSAAGATELLGWV
+FLLTLLAAAPLLTMRLFAEEHRSGTFETLMTAPVREAEVVLAKYAGAVAFFAAMLAPTLA
+YGPLLRAMSAVPPPADPAALAGVYAGALLVGAFFLALGLLASALTRSQIGAGLLAFAAIL
+LFLLGGLLPYVWHTETADWLGAWLSPVAHIADLSRGVFDTRPVVFYAVNIAWILFATTRA
+LESRRWR
+>tr|A0A1W9LD91|A0A1W9LD91_9BACT
+MARLFLGLDSSTQSLTAVVIDADTRRTVAQVSLNFDATLPAYGTRNGVLRSADPTVVHAP
+PLLWAEALDGMFTRLSREGVDVASILAIAVSGQQHGSVYLNANAPAALAELDGAPDLISG
+LAGIFSRPTSPVWMDSSTSVECAEIAATLGGNDALAQATGSAAFERFTGPQIRKFFKTEP
+AAYAKTAHIALVSSFIPSILAGKIAPIDPGDGAGMNLMDIAARRWHPGALAATAPGLAAK
+LPPIADSSSVVGPVSPCFVRRHGLNAGALVLAGSGDNPCSVVGLGLVEPGRVAISLGTSD
+TYFGTMAACRVSTGGEGHVFGSPAGGYMSLVCFKNGSLARERVRDALALDWAGFAAALRA
+TPPGLDGKSLLLPWFEPEITPRVLTPGVRVRGLTGHDPARCRAVVEAQMMSMRLHTGWMG
+VRPDRIHATGGASANREILQIMADVHRCPVFRFETTASAALGAALRAFHGWSAATGAPVP
+WPEIVRGLAEPVAGSRVDPAPGTDGVYAGLLKAYAEFEREETTPLTPSARGAGC
+>tr|A0A1W9LFN6|A0A1W9LFN6_9BACT
+MATVMQGNDVGIDALFPRAAAVRDLRGPQPAVGEPSAPAEFADPPSERLLQCVWYDATLR
+PAGLRTSEGEPVIVENPGVWNLEAGPDFLGASLRIGRAERRLAGDAELHVRPMDWRRHEH
+QDDPRYASVRFHITYHPGPAAEIDLPPGTVRIALRDALAAAPGFSFDAIDPAAYPFAVRA
+APTPCACELGNWHPDDRELLLESAGEERLRRKAQRFARRIPDLGAEQALYEELAAALGYK
+HNKTPFRLLAARVPLETLRAETACEAGRAHALLLGMAGLMPDAADAEGHSDGARLLWDHW
+WKLRGRWESAALAHDRWRLDGLRPMNRPERRLRAAAWLATRPETPAATLLRLSALPPREF
+VRAALEWLDVRDADAPGGAAAPGLLGRSRATAILINVLVPFLAAAGARAPFDAGLLRALP
+DEPPNGIERTMALTLFGPDHPPSLHRGSLRRQGLVQIFQDFCLNDRSRCASCGLPALLQS
+FRGQSAGAVEERR
+>tr|A0A1W9LGI2|A0A1W9LGI2_9BACT
+MTHDTRDEAAVPDLRERGRTADGQPAFSDRRLWIQLLVFEGAPDPGPLARALGGAPVRGA
+LYADVNHPRGVGLAVAHEDPEYFAGLLRNFLNRPPFDALTLRPEFTMLGRTYALGYEPDL
+DRVLLARPVERLCNPAWPWAMWYPVRRTGAFETLNPAEQREILMEHAGLGAAWSKGGHAY
+DIRLACHGMDRADNDFVLGLVGPNLHPLSAMVQAMRRTKQTSRYLASLGPFFVGRAVWQS
+PPA
+>tr|A0A1W9LHA5|A0A1W9LHA5_9BACT
+MVQEYFVARVRQSEALRKERFEALKTRADAEAHVASVRERIRACFGSFPEKTPLNARVTG
+AVDRGAYRIEKVIFESRPGLLVTGNLYLPSGRATPSPGVIGVCGHSANGKAMEQYQSFSQ
+GLARLGYAVFIIDPMGQGERLQYPDETLKSRVGSSVREHIHAGNQQFLVGEFFGAWRAWD
+GIRALDYLLSRPEVDPRHIGLTGNSGGGTMTTWLCGLDPRWTMAAPSCFVTTFRRNLENE
+LPADTEQCPPRALAMGLDHEDFIAALAPKPVILLAQEKDFFDIRGTEEAFGRLRKLYGLL
+GAGNRIALHVGPGAHGYAKDSREAMYRWFNGITRVSAAETEPDLVIEKDATLQCSPGSTS
+PTATASCRPRACGRSNPGAPWGRSDRKHRRRRESKCPQNLSARPVSPRSSSPGRPQRPGF
+PSRPPRPSTGRAGSSTAGSPTPTPPPASFRGTCARAPTTGMGATPAPPRRSFIRAAPSAR
+VSR
+>tr|A0A1W9LE97|A0A1W9LE97_9BACT
+MPALCLLTPGTSAYLKGERLIVEVPPEEEGGEFKSGDIPLRDIDSVTITEHVAFTMPALA
+ECLRRDIPVVITWRGERILGTCLPPAPHSAARLLQYKRVLDPGFSLAVAASSIRTKIGNE
+RRVLQRLASNRSGVDVSKALEFLAQIAGRCDSAASVDALRGNEGAAAAAYFEALAQFFPE
+DCPFERRSRRPPHNAANAVLSFAYTILGAEIECQIVAAGLDPALGFLHETEDRRPSLALD
+LMEPFRAPIADGLALDLLGHQTLRPEAHFEKRDGGVYLNPEGRKRFFVGYERRMNRDFFS
+EQRQRRTTLRNELRQEAILLKQTVVDGTAFEPFVMN
+>tr|A0A1W9LEH2|A0A1W9LEH2_9BACT
+MKLSPVLLIVSAPSGAGKTTLCDRLLAEFPTLAYSVSCTTRAPRVGEVDGEDYHFLSDAE
+FRRRLAAGDLLEHATVHGHLYGTPRSLVERSLDSGRDVLMDIDVQGAAQIRETARRAAPD
+DPVRRGYADVFIAPPSLAALRQRLEGRGTDARDVIERRLRKAEAEMARSGEYMHVVVNDV
+LDEAYARLRAVFLTVRARPDSAP
+>tr|A0A1W9LH13|A0A1W9LH13_9BACT
+MNESRVNPQAKHVDSETPKWDVSGTSIDPVMEQVRIMDRNGHGIIGMKLIGNGDFTDAAD
+REKAARFAMAQPEIDAVAIGFKSAAEIDEAIERLNRALA
+>tr|A0A1W9LC96|A0A1W9LC96_9BACT
+AALAAGVLAIWVAFSWPLPLHLFDGIASSAHNTEAGSVRRMISGDHLQLLTTYWLAGDML
+AGRTPWFHNLYEFNTGDDAARFRVHAQYAPFSWIYAAISAVAGRAAAMNLTGLVSLWLTA
+WLTMRLARRYSADDTLAVLAGWLAILVPFRWVMLMGGSPMGHAMTWVPLLFLGVDILVRD
+LRPAGGFVAGLGLLFASWSDSHVLFFGGLACIGWGLIALVARGGWPWRERAAWLALARAS
+GAAGLAAIPALVMLVFTLHHLHGSAVHGSRAPAEVALYTPVLADFFRWAASGIHGHVYIG
+WSLPALAALAILGWLVAERRDTADRRRILVFLLLLAGAGIVLLLSVGSHGPQEGLLWRAA
+RKLLPPYRAIRQPTKILCLLPTLAAVGLAAGLSVWTVSLGRRSVRVLACALLTLAVAWEM
+KAQIHATVCTLDMEQGAYRAVAERARAAGLDPRALALPLWPGDSAYSSVYQHDASLYRIR
+MANGYSPAVRRDYVDGFFATFRALNQGRIDDAALDALASAGIQSILFHEDLFPEKVSPFP
+AGRTLEALRRHPRLKPLAQDGRVWAFAILPREAVSAERARAMEPHAGVWPPARRLEGERG
+GSGVWEVSSPSCSGGAFGLLAQKGDRLVAPAVPPGADPASAWWARVWGEGTLAAIWDSKA
+GDVASTATLSVATGDVWTWIRVAPPAAAPGGTPIALALERTDGAIAIDAMLFQSAGVLDL
+PPGGRQSFPAATLFRAGRTEPGGAVAFSGDRDPAARILYGPWRPLAPGRYRAELEVRPSA
+ATAGTIAGVFAVEGNGALSAPVTAGGAPAAVEFVQAANTPFVASFTFSRAADVTVERVTL
+VRME
+>tr|A0A1W9LHF3|A0A1W9LHF3_9BACT
+MQETLEASFVPDPLFLADDLGRGAHPVFSPAVRPATMAGMRWGIMAVDARGGEGLAQAAR
+GALTAMAFSLPFSIALAQAAAGTALALWLADSIRRGSTSAARSPFLLPVALFSVVAVVSA
+FEGFLPSVSVPKLHRLLWYLLAFAIPDLAGRAGGDRIGFVRRLALAFVVGGCVAALLHIV
+HLAGTLTRIPAGMSPQFWLYAQGSMRSPQFHMTAALLLLAGAGEGWLGLRPAAAAAALAL
+NAGGLVVHFKRGVWGAAAGAAALLGLTGARLRWRTVVFGLAVASLLACLPQVRQRVIDAP
+RDFFSGGGRWQLWTQATPKLMKLAPWGLGYGAMQNADLRHLVCPLEPKISHLHNNALQIL
+VELGWPGLAAWAAWMTVLLAVTARTLRRLRRARGHGLALARGLLAAIGGLLLNGLVEYNF
+GAGAILMLFALLMGMVVALRDAADAGDVVQTEGPTT
+>tr|A0A1W9LGF6|A0A1W9LGF6_9BACT
+MPKEIEGFYGMIENIDDNIGRLRAALATQGIERETLFIFMTDNGSAAGSKIYNAGMRGAK
+GSPWNGGSRVPFFLLRHGPSGTCLRTSAVGRAATIRASTRWPTAVCGRATGRWCRKRRGP
+RRAHPPARPALRAGSSST
+>tr|A0A1W9L8B9|A0A1W9L8B9_9BACT
+MNSYVLDASVAAAWYLEESFSPAARAWQERMLEGRVRLVVPGLHFWEMGNIFRKLAMRRI
+LDETTARELFDLHMDASLERIDPDPRAVLRRAFEFGATMNDAVYIALALDHDLRLLTAER
+STTGWVARMAKRVELVR
+>tr|A0A1W9LFZ4|A0A1W9LFZ4_9BACT
+MTHLELLQRHLTRKQDFDMVDHGYPFVTISREPGAGGHTLGREIIREVDRQPDAPWSRGW
+DLFDQKLCAVMAQNPETAANFDSLIREEYRSGLQQSVYEMFVGRAEEHELQKRIAAVLRF
+LAFVGRVVLVGRAGMCVTRHLPGGLHIRLVSPLEVRVRRMMEMTEGDEDKARAEVRKQER
+ARSRLIQDLYDRDIADPLLYDMVFNTSVLDNVTIAKAVVGVLVGRLADAPARPLRPFQS
+>tr|A0A1W9LCX6|A0A1W9LCX6_9BACT
+MTRRGGLTLPPDVRRRLGVNALNPPLFILEERDGGVFLQPAAALPVRDIPESQIRDWIRQ
+DEADMAGFRTRKARAR
+>tr|A0A1W9LDH4|A0A1W9LDH4_9BACT
+MSAQGLSTLGLHAGQQADPTTGARAVPIYQTTSYLFKSTEHAANLFALKEFGNIYTRLMN
+PTTDVFEKRIAAIEGGTGALGVASGQAAITYALLAITRLGDEIVSANNLYGGTYQLFHHT
+FPKLGRTVKFVDSRDPEAFRKAITPKTRAIYIETVGNPKLDIPDFEALAKIAHENGIPLV
+ADNTVGIGLVRPIDHGVDILANSATKYIGGHGTSIGGVIVDSGRFKWNNGKFPEFTEPDP
+SYHGLVYWDALGNVPGMGNVAFILKIRVTLLRDTGAALSPFNAHQFLLGLETLQLRQKQH
+SENALEIARWLKKHPGVAWVVYPGLEDDPSHKVAAKYLKKGFGGLVGFGIKGGLEAGKKF
+INSVQLLSHVANIGDAKSLVIHPASTTHQQLTPAEQQETGVTADYVRLSIGIEDVADIKA
+DIDQALKKATE
+>tr|A0A1W9LG66|A0A1W9LG66_9BACT
+MTAQPDLTVRLGRLTLRNPVMVASGTFGYGPEYADLVDLSTLGAIVVKGIRAEPTAGNPT
+PRTVETASGLINAIGLPGPGVDGFVRDTMPFLRRQDVPVIVNIWGRTLEEYGDVARRFDA
+VEGVHALEINVSCPNIKEGSKAFGTNLDSFRRVVDLVRASTKLPVIPKLAPNVSDIASFA
+RAAEECGSDAVSLINSIPAMAVDIETRRPKLGNVTGGLTGPAIHPVAVKLVWEAAKAVRI
+PVIGMGGIRDAADAIEFILVGATAVAVGTANFVEPGTAPAVVAGIREYLVRHQLPSIAAL
+RGTVLA
+>tr|A0A1W9LHK6|A0A1W9LHK6_9BACT
+MSEDALPAAQVERLIRIIRGQRTMMSGDLARLYGVAPKALVQAVRRNIARFPDDFMFHLS
+PQEVVRLRSQFVTLEGRGKHAKYPPYAFT
+>tr|A0A1W9L7Z0|A0A1W9L7Z0_9BACT
+MSSLRATRELKGTFTAIVTPFDKSGAVDFGKLRELVEWQIAAGVTGIVPVGTTGESPTLD
+VPEHEKVIATVIEVARGRCLVIAGTGANSTAEAVELTRAAKAAGADATLQVTPYYNKPTA
+TGLLRHFSAVADLGLPVVLYNVPGRTSREIPIDVIVKLADHPGVISVKEAGGSVERVSRI
+VRSCNLSVLSGDDSLTLPMIAVGVRGVISVASNVAPEPVVALVNHALAGRFAEARALHLK
+YYALFTDLFLETNPVPVKAALAMMGRIEEVYRLPLCEMEPKTRAALAATLCEAGLLKA
+>tr|A0A1W9LDG3|A0A1W9LDG3_9BACT
+MVGTPVLMSGLVAALTVAAAATAQDLGSSGAGPGGPEGGGRGRPSPPRPAQLATNLVAKF
+DADGTGALSADELTKALTDMQKHRPPSPRFQGETGDDPQDQPSAAEIAATWIKKFAADKA
+SLTLAELTKALDANRPPHGPRKDIGSTKLELPSGAKEKLEASSSN
+>tr|A0A1W9LGA4|A0A1W9LGA4_9BACT
+MRNSKLLQHVPRPQRPGFFVSSFASGFAALLLSGCGGPAAPYPPAAIDGAHALETARAFV
+ALGPKDSGTPGAAKAAGWIRDRLTAYGWETEIDEFRDGPPGAEIPLRNVIARRRGAGPGR
+VVFGAHYDTKSGIPGFEGANDSASGVAALLEIARAYSNAVPAFELWLAFFDGEECRVEYG
+PHDGLHGSRRLARKAVEEGWAPDVRAVVVLDMIGDRDLTVTVPRNGTPALLTAVFEAARA
+EGARDRFRLAPGGILDDHVPFLEAGMPAVDLIDFEFGSAPGLNDHWHTAADTIDKLSADS
+LALVVRVALRAAGLLPAQ
+>tr|A0A1W9L9S8|A0A1W9L9S8_9BACT
+MKFLPSAAVSLMVLCGCATRPSDGITQVATIDALLAGVYDGHMPLAELLRHGDLGIGTFE
+GLDGEMVVLDGVIHQVRSDGKVYRPDPAGRTPFASVTRFRADRREDVTAPMDFAALQARV
+DARVPAENRFVAIRLRGEFKAVRTRSVPAQRKPYPPLAEVAKTQPVFNLVRVRGTLLGFR
+SPPFVKGVNVPGYHLHFLADDLSGGGHVLGFELDRGVLEIDETHAWLHVELPAPGSPFDA
+ANLREDRSVELHRVEKQVAPAGPTGAPPR
+>tr|A0A1W9LAX6|A0A1W9LAX6_9BACT
+MKTDLLTGIDTLCRDHADWLRGRKVGLVAHPASVNAGGMPSPEFLRQNGVDLAALFGPEH
+GFAGGGGAGQELPHGRHPQWDIPIHSLYGETRKPTPDMLSGLDVIVFDLQDLGARPYTYV
+STLRYVLEAATENRKAVIVADRPAPLPNVVDGPMLDPAFESFVGFIPSPVVYGMTSGETA
+RWLKSALGLDLELNVAAMQGYTRPSAPAASQPWIPPSPAIRSRECAMCFPITVFFEALPA
+LDHGRGTETPFQLIGAPWLDHIGLCHALDTLGLPGVRFLSEDYEAAIGSYRGQTVHGIEI
+HVTEPDRLRPVQTGAAIIHALQDLHGQDFIWGHPGTREDFFDQLMGTDAVRTALRAGEPA
+AGIAAGWALESVRFREARESCLLYH
+>tr|A0A1W9LCU3|A0A1W9LCU3_9BACT
+MRGRLLRLTWSALAWDLGIAVAMIAIGLGALYWRVHRFDGAIWAAGTAYGVDPELLRAMI
+WRESRFDPGALGKAGEIGLMQVTPGAAAEWAAAESRSRPTRQELLDPKTNTRAGAWYIGR
+AIRRWSGRPDPVPFALAEYNAGLSNADRWARNATNALEFRERIGYPTTRKYVDDILARYR
+GGASGGSGRNSGKTEAR
+>tr|A0A1W9L7R7|A0A1W9L7R7_9BACT
+MRIRAFRAWRAAAGMEAEIASPPYDVVDRAEALKFAGDNPKCFLRVSRAEIEFPPESDPY
+APAVYTRAATNWGSFVDRGWFAQDPAPGLFFYRQSVGAHAQTGVVALYHVGDYERGIIKK
+HEKTRQKPEDDRSRHVLTTGIQSGPVFLAYRDEAAVSTLAQTACAAAPLCDFTAPDGIRH
+TVWSAPDPEAVVRAFGAVPCAYIADGHHRAAAGRRAARERAAANPGAGPDAEFNWVLAVF
+FPASSLRILAYNRSVKDLNGLTEAQFMDAVRSRFDVTPVSDPVPARAGEVCMGLPGGWHR
+LRWPAPVEGADPVASLDVSVLQDRLLAPVLGIDDPRSNERIAFVGGIRGTAELERRLRDG
+RVSVVFSVHPVGIGQLMAVADADRIMPPKSTWFEPKLRSGLIVHALD
+>tr|A0A1W9LCF9|A0A1W9LCF9_9BACT
+KRPPPTPVTELYNLATDPAESTDVAAQNPDVLARLEGFMKSARAVSSEFPIAALDGAAPA
+RP
+>tr|A0A1W9LHD6|A0A1W9LHD6_9BACT
+MNTQHRTSNIERRTSNAGCRLTGAGAWRFLPVALAMALAGAAPAAPVTLKFATLAPEGSA
+WMQTFEKLKAEAAEATGGAVKIRVYPAGVMGEEKDVLVKIRAGQLDGGGFLGNGIARICP
+EANALMFPMTFRGPEEVDAAMKALTPWLEERCRANGYIVLGWTEVGFSHVMGNRPVKSLD
+DFRGAKVWSIPNEPMLAALFKTAGISTIPVPVADVLTALQTGLLDTVYAPPLAAVAMQWA
+GRVKHRNDLRLAYTFGGLFVAETSWNRLPKDAREKVLAISRRLTSGLTAEVRTSNAEALE
+VMAKSGIEVASSSEADAEGLRKVSDETRLRLRGDLVPAEADDRLQAFLKKHRAGAGAAHA
+P
+>tr|A0A1W9LGZ6|A0A1W9LGZ6_9BACT
+MIAKSVVAGMLALAPLAAGAAEPARRPNFLFILTDDQGWGDARFAGHPYVKTPNLDRLAS
+QGTWFRQFYAAATVCSPSRAAFMTSHSPARHHIHGHFADHAQNAARFMPDWLDTNAVTVT
+RLLQQAGYATGHFGKWHLGGGDGAPTPDAYGIDDVRALVCREPAWTEPAGTFWAKSTAAI
+VDETLRFIRANRDRPFYANTWTLLPHAPLNPTPEQLAVYADLDPRADDPAFGSWMRDYLG
+GAKDLRSQMRIFCASLTDLDTQIGRLLKGLDDLGLAENTVVFFSSDNGPEDYRIGNAANA
+GVGSAGPLRARKRSMYEGGIRTFGLVRWPGHVAAGRVDGTSVVGGVDWLPTVCKLAGVTV
+PDAVKPDGEDVSDIWLGASRPRTRPLYWEWLFRVWGDEYAPPMLAVRDGAWKLFVRHDGS
+GVELYDIPKDPAEVRNVAADHPEIVKGLSSKALAWAASLPETEGRRRFPTFDSNKDGILS
+EEEFVTMGKGRSATTP
+>tr|A0A1W9LFF0|A0A1W9LFF0_9BACT
+MERDLHIHTFFSPCAEPTMSFPAILAAAEKAGLMEIGLTDHPHRPGLARHHRALDDARDS
+HRGPVHVWIGAELEVESLGRLVVPPPELPLADYVIAAASHYDIVGRPPVADLKDPVAWAD
+RLLTDLENVSGSGAHAIAHPFYAYALMRAVPGYPTARMDDILDEIRPRRVERLVEMLARE
+AIALEISPRMCMHLGLESFIETTYGMARQAGVKFALGSDSHRTATIGHLGQAEGLVQRLG
+LSPADLWSPTLACRRK
+>tr|A0A1W9LE24|A0A1W9LE24_9BACT
+MNLRAVEQAGLSPDRQVTLKLRFNCAPAPGELSKFIELKTRAGAVVPFERLGDVKSADVL
+LRTAPLADDFVAIRVRAGLPPAVGTLPLEDEQTRTLAVASHLQLTRLTPSSPAFEGCRIW
+AYFTASVDARSAPAHIAVEPAVKFSIAPFDSWQGSGLTLSGEFRPGAVYNVVFRPTLLSE
+GGVGLGREIRRRVQFPHRSPSLAIGIDGRYLSPRGPLAVPVTAVNLRECTVSARPLLRRN
+LVHFAMREAGNYASTYADSVRAAADELTGAASNRVVRFADRRDETQRQAVDLRDFAAGEP
+RGAWLVTADARNVSVSHRLVVVTDLGLSVKRGRDGVLAWVTSLRDAAPVPGVEVTILGRN
+NAELGRGVSDADGLVFVPLHDVPAEAEPFLAVAEKAGDLSFLRLPGSEVTQEKGVDGQPY
+LAAGHEAFVFTDRGIYRPGETVHVKALVRDRDQQAPEPFPTVLRVRRPDGRILRDLPAML
+DELGAAEAAVAVEDFQPTGRYAIELTVPGTFKILGETSVAIEDFVPPQIESSIDLPEGRR
+NAAAPIAIPVAARHLFGRAADGLVAEARAAFEPAAFTPKGWDGWSFGDAERGFPATSVDL
+GRQELDADGRASWSAKADPAWRPPAALRLVAGVTVFEASGRPVSAVAMAPVDVYPHYLGL
+KPAREGGHIRVGEPLAVAVAAVAPDGKRVESAGPLKATVSRIEWSGADPWRPSARCGPAA
+ARDR
+>tr|A0A1W9LA97|A0A1W9LA97_9BACT
+MSGDAGLIFIPLLFTACFGMLAYGLLLAFREGMDQYASTYSEDASRQFEDLFLFIPAKRI
+ADLARLAAVGVFVLFYLLFGDLATTAGIARGLGFAVGGALLALNAPRILLAILRRRRIAR
+FNVQLVDSLIGMSSALKAGFSILQAFESIVKQSLNPISQEFSLFLQQVRVGVKFEDALRN
+MEDRVGSEDLTLMNQSIEIARLTGGNLTEVFEKIAATIRERMRIQQRIRSLTAQGRLQGI
+VVGAMPVALLFLMTLVDAKMMMAFFASKIGVGLIALAGLLVLGGALIIRKIVDIRI
+>tr|A0A1W9LC85|A0A1W9LC85_9BACT
+MNISTLDMVIIVGFLISVVIVGSLAARRASRSSADFFLSGRTMPWWLLGVSMVACTFSCD
+TPNLVTDIVRTGGVAGNWAWWAFLLTGMLTVFVYAKLWRRSALDTDLGFYEIRYSGRPAA
+VLRGFRSIYLGVLFNVLVMATVSLAAIKIGQVMFGLKPVETLVYASIGVGIYATLGGLTG
+SIWADFYQYSVAMFGAIAAAVYAVKGGIFGVGSLSALVANPALADKLSFFPAAPEGGDYS
+PLVGLLILPIAVQWWNVWYPGAEPGGGGYIAQRMLSAKNERHAIGATLLFNFLHYAVRPW
+PWILVALVSLVVFAPDTPAERSAAAARLASPEMAALVAKYDGGAKQELAPAQVAEIRSLK
+ARVKGVGKLADAFPKVEDQFLRNDIAYPGMIAKMPKGLIGVIVASLIAAYMSTIATHLNW
+GSSYVVNDFYKRFLKPQATEKQLVAVGRITMLVLLVVSGVVALAMTNAKASFDLLLAVGA
+GTGLIYILRWFWWRINAWSEIAAMLISFVVACFFAFAGPSLGIEQSFRDAGMFKIMGYGD
+WKLVLGILVTTIGWVAVTYATPPVQTATLRSFYRKVQPGGPGWQKIVSAAEASGESIVTE
+RGWDVPVGIVCMMLGCVAVWGALFSIGSLLYGQIGRGSILGIAALAALAGLLKLSGKIRV
+Q
+>tr|A0A1W9LEK5|A0A1W9LEK5_9BACT
+MNWAFATAFGIAAAVGGLTLAGCEDTGGGDGNSGTVVTRDVMEDGTVRTVYEQEFFTGSN
+TVVQTTVITQPAGGPATTNITVTPAGGIPGDGGTNGTPTGLTPSLPGLPAGATPLPSAP
+>tr|A0A1W9LBC5|A0A1W9LBC5_9BACT
+MLCRANSRESGFRRVSKGSRRFLALAVVTGMAATLAPAQDSVKEVRAQAMNALAAGAFAE
+AIPPLQQLIEWFGETTQDSQKMEMEGIFFRLGLCHLFLAQFPECRTAFEAYQKKYKLGNN
+ALLVGIFIGDAWRYEGKYKDALKAYEKALKEMEYPLDLRIDIFVCMARCHLAEEKWGPAV
+PLLLAVYRTAPDLNRRNWAAAMLAVSYLKDLKVDEVYPMVPLLLQPRSFASRSVALNMAA
+LEAGDEVFADAKYRDAMWVYRLVYPHDTLKLNAEEQLRRWQNRVKSLQRVPGLPRELLRA
+QETVSEIDNELQALEKIPNYDPELFYRIARSYMETRRLREAGEMFYNLYKEGLEEKREEC
+LYFSFLCASRVKPTDKCLARGHEYMDVFPGALHYDTVSLTVGKMYADVQNWPKVLQVLGK
+ALEVSPKHED
+>tr|A0A1W9LG57|A0A1W9LG57_9BACT
+MGYIGPGAGFAFLGSFLVLLMAFGLLLVAIVSWPIRLLLWPLLRKGRRLKGAARRVVILG
+LDGLDPRHVRRLMALGKLPNFARLAERGSFSELATTCPPISPVAWSSFQTGVNPGKHNIF
+DFLARDRKTYLPKLSTSKVGEGGDIRLLRKSQPFWKVLGEHGVFSTVLRVPVTFPPERFY
+GLSLSALGVPDLRGSQGTSFLFTTAATERREQTGGIILPVRREGRVIEARLPGPLQPDGE
+MTLRFRVTVNDAARTADLRIGRERVRLREKEYSPWVRVKFGRIAGLCRFYLVSAAPEFKL
+YASPVHIDPERPAMPISHPAYYSIYLAKLLGPFATLGMAEDTWALNEGVVDERAFLDQVY
+AIHDEREGMFFEALRRTRRGLCVCVFDTPDRIQHMCPPRESADGPFEEMYVRMDGLLGRV
+LAELDDRTVLFVISDHGIRRFRRGVNVNAWLRQEGYLVEKPGAAEDGYLRAVDWTKTRAY
+ALGFNGLYINVKGREAQGIVAPAGETQALKAELTRKLRDLKDPEDGARAILEIHDGNDVY
+RGPYRNEGPDLVIGYNDGYRGSWDGVIGGVRGPVFTDNTKAWSGDHCIDPSLVPGIFLCN
+RKAGRTDPGIMDLAPTTLALFGVPVPAYMDGKAIPLEPLK
+>tr|A0A1W9L8D8|A0A1W9L8D8_9BACT
+MRSDKVKIGFERAPHRSLLRATGLSSEAIAKPFIAVCNSYTDIIPGHVPLRKVADLVKKA
+IIKAGGTPFEFNTIGICDGIAMGHAGMKYSLPSRELIADCVETMLNAHQFDGMVCIPNCD
+KIVPGMIMGALRCNIPTIFASGGPMRAGKMPDGRAVDLISVFEGVGAFKAGKITEQQLDE
+ISCHACPGPGSCSGMFTANSMNCLTEAIGLALPGNGTVLADDPARRKIWRKAGQRIVEMV
+QEDLKPRDIVTRDSIDNAFILDMAMGGSTNTVLHTLAIAHEAGVDYGLDRITEISKRCPN
+ICKVSPSSAYHVEDVDHAGGISAILKEINKVRGLLHPDCITVTGKTLGKNIARAQTKDLN
+CIRPLANAYSPEGGLFILRGNLSPDGAVIKTAGVDPAMLKHEGPAIIFESQEDACEGILA
+GKVKPGHVVVIRYEGPKGGPGMQEMLSPTSYIMGQGLGDKVALITDGRFSGGTRGACIGH
+ISPEAAEGGPIGLLRDGDVISIDIPARKLEAKVSDTELAQRKLSWRAPEPRFKTGWLSRY
+TQLATSASTGGVLRG
+>tr|A0A1W9LA91|A0A1W9LA91_9BACT
+APAALSAAPAAPDADSEILEAVTDCVLDAAGAGTITNSMRKRVLTYAGVKANSEVKTDFL
+PVWDEVSIPLARVIAPDGTVRTLAREETNLMDQPWSGSAPRYPPGRTLVASLPGVAQSSV
+IETTVAQTFRDRPFFSASWSFGGFNPIRRRVLRIRAPASLSLRILDRTGGAVRFAETQEG
+DDVVKTWTATNLPAATREMSMAPDWARLPTVFVSTGSWDTYAGSLRAALESAAGSAPAAT
+ARAREATAAATNRLQKIRILRDLVDQSIREAGPPVPYLPLQAVSPADVTLKDGYGNTADC
+AVLLHAMLKAAGFAPSFVLASSYDTRLRMHAPLIETPQRELFPSVLVRVEDDAGRAVLLN
+DTDRYADPGASPHQGHDALDLSTGKVGALPAPPEFESRMETAMALDIAGDGSASLRVRRT
+YHGMNNADARKHFSELPPEERSRYHQEQIAAISQNAAADGPLVTKFDGYPGTEEFAVRID
+RYAVRDGDRLYFILPVFPPALPGLASDARSSAILWDDPVRDRLEIAVRVPDGFGDFEIVP
+PDLAWNRAGVGSIETTTRRDAGLRIVRTLNLAPALFEASDYPALLELDRNLRHSRMRTVM
+VNRNAKP
+>tr|A0A1W9LEV4|A0A1W9LEV4_9BACT
+MIGIVDYGMGNLGSVANACRFLDLRAEVIADPSELAACRAVILPGVGAFGDCMEHLNQRG
+FSPVLKAWIAAGRPFLGICVGLQALFESSEESPGAAGLGVLRGTVRRFPADPVRKVPQMG
+WNRVRQVRPGEPMFDGVPDASFFYFVHSYYAAPSDPAVMAGATEYGMEYCSAVRLGAAFA
+VQFHPEKSQAAGLQMLRNFGALTQKREAGE
+>tr|A0A1W9LAP2|A0A1W9LAP2_9BACT
+MSDEPKDIYRSRERERPVPDERTQTEADERWFRATQERWKTALLVTMLVLLVGILLGVIY
+YQLTVIRGTRGHGAETAGSGRLAPQGTYNAPVDIDPEGRLVLDELADVAPDAIPPGGVAA
+LTPHWIKQAAIHLRQGERAYEEGDWASALRSFEEVRRILPDIERLNEWIGLCHLRLKNYE
+KAGEVFARLSARQPKSAPLLNNLGVAHLGQERRDEAAVDFRKAIALDPEYVPAYRNLGLL
+QYRAGAMDAAVKSLKKVVQSDPKNSEAALMYAVALLKIGRWAESAAILEDATRTSPSAPV
+YFRLAEARARMGTPDVAMKALQRGLDLVDGQRALVWLNRSEFDPLRSRPDFKKLADDLAH
+AVR
+>tr|A0A1W9L925|A0A1W9L925_9BACT
+MCCEGDGVNDRNLAIEAVGLGKRYRLRGLAAPTLFGRLAQAGRRGPSSDFWALKDASFEI
+PRGRTVGVIGPNGSGKSSLLGLVAGTITPTCGSVTAHGRVCSLLELGAGFHPDLTGRENV
+FLNAAILGIPREDVHKRFDRIVEFAGLREFIDMPVKHYSSGMYVRLGFAVAAESDPDILL
+IDEVLAVGDVAFQLRCLDRIRDLQRRGRTLLFVSHALQTVEEFCHEVFLVHKGTIVARGE
+PAPTILRYIREFMGEGGPLFTQEFGTREVEISGVAMRDATGAEAGVMETGHAMHVDVAWR
+AHRRIERPVFGFSIKTGNGFQVFGSNTQLAGHAIGAIEGEGTVRLTIDPLTLMSGNYFLS
+LSIHSWDHAEQYHRREDWYPFAVRNLTGAPGAFFLHTQWAGPQPGPG
+>tr|A0A1W9LE99|A0A1W9LE99_9BACT
+MKRILDPLAPFKDRTLVLKGVSNKVRGDGDNHMRGMSCLLTGIELFPGNIQGGSHTPAGW
+PRGLSIDQEIRNFLQRDAATRTRFGSLEMGVAVPDRADPWTRMSYAGPNQPVGPVSDPYQ
+VFEKLYGRVKDKESLRSVLDDIAGELKAAAAALGEDDRRALERHVAFVRDMETEMSKPDE
+SGLRHPMPPLEEGVSVANDNIPRLGRMQTELLVNAFANDLARVATLQYTNSVGQARMTWL
+GIPEGHHTLSHDPDGNADSQEKLAKINAWFCGELAHLAKRLAETPEPGGDGTLLDHTLIV
+WINELAKGNSHSLDNLPFVLVGAAPGFRMGRVAKFDKAAHNRLWLAVARSFGHEMDAFGN
+PALCDGGPLALG
+>tr|A0A1W9LDW7|A0A1W9LDW7_9BACT
+MKTGGFGHAEVSNPWKTGRRMFPTLGSLAVAAMLAAGCGLGKKHWVPTGEQMVEAEKIAK
+LHIFKSIGDQAGTPAAAGLALDATGLPKEYPIAFTIGGTPYSRYRFKYWGGIAKGVKLVH
+VQYFDPTVIPDWEKDPAAKGEFPAHFSVAVDVEKRRAVSDSRAPAAP
+>tr|A0A1W9LB21|A0A1W9LB21_9BACT
+MVAGELFSPLKMLHFAAGAQNAVFLIEDHPERCAEWVRVHEEAQLDLVRQMLDAGVETMM
+SMDNLDSAFHPPDYLDRCSASFYSRASALCRGAGAAFFVHACGGQRANLARVAALGVDGL
+EGVAYPPLGDVALDEALRLAGERLIVTGGISAIETERFRTRDEVRRYVAGLLERLEPWRH
+RFMLSASCNTSIRTPWETLVWFRDAWLEFGGGRWPMADSQWPMADSQWPI
+>tr|A0A1W9LH25|A0A1W9LH25_9BACT
+MTDATPQHTGRGHRRERLGEVVSDAMDKTIVVRVERRIRHALYGKEMRSYTKFHAHDEKN
+EAHKGDRVRIVETRPLSRLKRWRLLEIVSRGTTEGGAVS
+>tr|A0A1W9LGV4|A0A1W9LGV4_9BACT
+MFDQSHPVITTLYIVASVLFVVGLKMLNRASSARMGNIVSGVGMALAILATCLLSGMEFK
+WILLGTVVGSAIGAGASYAVKMTAMPEMVGLFNGFGGLASMLVAWSEFHKWRVEGWTKYH
+DLLGAGAPDSSLFTAIAIVFTAVVGAVTFSGSMIAFLKLSERMTGKPILFKGQQIVNVLI
+LVGIVGASAIVCMNPEGGAAYAAFYAVMAIGLILGVTSVIPIGGADMPVVISLLNSYSGI
+AAAAAGFIILNNGLIVAGSLVGASGIILTQIMCKAMNRSLANVLFSGFGAVTESSGGAAT
+KGEVRALSAEDAYYVLEAAHSVVIVPGYGMAVAQAQHVVRELGQLLEKNGAEVKYCIHPV
+AGRMPGHMNVLLAEANVPYEQLVEPGDVNPVITTVDVAIVIGANDVVNPAAREDKTSPLW
+GMPIINVDEAKTCIVLKRSMRAGFAGVENPLFFKENTRMLFGDAKASISALVSEFKTE
+>tr|A0A1W9LF53|A0A1W9LF53_9BACT
+MSEETMEKASHFIRDMIAADVAAGKNGGRVVTRFPPEPNGYLHIGHAKAICIDFGMAREF
+GGRCHLRMDDTNPAKESTEYVESIQRDIRWLGFDWGEHFYYSADYFERMFESAVKLIRMG
+KAYVCELTQEQWKDYRRIPTQPGRESPFRNRPAQESLDLFARMRAGEFPDGSLCLRAKID
+MASPNLHLRDPVIYRILRVPHYRTGTTWVIYPTYDYAHPIEDAIEGVTHSLCTLEFEVHR
+PLYDWVVETLGFDPLPSQTEFARLNLTYTVMSKRKLLELVQGGQVAGWDDPRMPTLCGMR
+RRGYPPGAIRAFCDLVGVTKYESLTDVALLEHCVRDALNLTATRRMAVLDPLKVVIDNLP
+PDAPASFDIPNNPEDPAAGTRAVPFGRTILIAREDFMEDPPKDFFRLAPGRAVRLRGAGF
+LTCTEVVKDASGRIVELHGTWQPMAEKVKVKSTIHWVSEADARKVEVRLYDRLFRVEDLS
+ATPEDADYRDFLNPDSLKTATAWAEPATADTQPGAAIQFERIGYFCADEKDSKPGAPVFN
+RTVTLKDAYARAQARR
+>tr|A0A1W9LES6|A0A1W9LES6_9BACT
+MHRVYHRIERIAGNVITVLATGVTYRELAQVTSRQGTSLAQVIRLEGGRVDLQVFAGGRG
+VSTDSQIRFLGHTMQIPFSESLMGRIFTGSGVPRDLGPAIHENPIEIGGPSVNPAKRIIP
+RNMVRTGIPMIDVFNTLVESQKLPIFSVAGEPYNPLLARIALQAEVDLIILGGMGLKHDD
+YLFFRDTLEKEGALSRSILFIHTAADPTVECLLVPDICLAVAEQFALQNKRVLVLLTDMT
+NFADSMKEIAITMEQIPSNRGYPGDLYSQLAARYEKAVDFDTAGSITILAATTMPGDDVT
+HPVPDNTGYITEGQFYLRNGRIEPFGSLSRLKQLVNSKTREDHRTIMNTMIQLYASYKET
+LEKQSMGFRMSAWDRNLLKYGERFEAEMMDLSVNIPLEQALDLGWQILADCFAPEETGIP
+SKLTEKFWPKKAVPA
+>tr|A0A1W9L9E3|A0A1W9L9E3_9BACT
+MKCKECKHPNPAKARFCNRCGATLGKETEPARSTVRAGSGGAALGKSVAAGKKGVAVGRD
+VHGGVRVNSPTIVQRVSASSSPRALLRGYLDALVRECAPLRLKTIDQRAAGPSREPLGLT
+SVYVDLNLEWRISAKMSLKKLLSKMRRGESIRTRFVPESGTSRLVPALEALASFPHMALL
+GAPGSGKSTLSTYVVLALAETRLGSRRALGRLGPWWSFGALVPMRIVLRQFAASLPQSLE
+RGRAKHLWDFIDADLANCGLPSQTGTALRRIVQKEGAFWILDGLDEMKDPTIRARVAEAV
+SEFVDQAPTSFRFLLTSRPYAWEEMEQIVATAVDPHPDRGAYANLLSSFPTTQRLADFEP
+QQMQTFIERWYRAISALGWISAKDAREKAPELQGAVQRDDHRPLARNPLLLTLMATLHSN
+RTRLPDDRADLYNEVVELLLQRWNETIGADRGLLDALQVPSLKL
+>tr|A0A1W9L9G3|A0A1W9L9G3_9BACT
+QPDGSLARYIFGRAGAPWQELEIVRGSRRVYHAVCGSHARFDGHAREVPTEIRVEAEGYR
+VELRLCELKVRAAP
+>tr|A0A1W9LCM5|A0A1W9LCM5_9BACT
+MRQAEARVREARSQRGVAKADRFPTVSVNAAARRSSSSEEAGNGETAELFSNSFDASWEL
+DLFGKKRRALESAEASLQAWQEDLHDVLVSLFAEVALNYVEVRSHQTLLSITEESLTAQS
+GTHDIARWRREAGLITQLDEDQAKLNLEQTRASIPTLRTNLEQAKQRLAVLIGQLPGALA
+ELLAEPGPVPVTPDEVAVGMPADLLRRRPDVRRAERQLAAQTAQIGVAAAARYPSFSLSG
+SIGLESLTAGNLYTAGARTAQEAASALWTLFDGGRIRQGIEVQTAKQKQALASYEAAVLT
+ALQDVEKTLVAYSNEQQRRTSLADAARAAQSAFELARNQYDAGLTDFQTVLDTQRASLSA
+RQQLVSSNAEITSNLIRLYKALGGGWTPPVTAAKASTKTDHAGESHD
+>tr|A0A1W9LHQ7|A0A1W9LHQ7_9BACT
+MNDTTTSDGVSERDILFDCPQCGKSLCIDERGAGLVIACPDCGQRMQVPTREEQSMAGSP
+GLDTELVGPGSADTSTEEILKEKVERLQVTMEEVLDRKWYLEKLRIDHALRFERIREEMA
+TIQAAVDRMTDILQDTTVEKPGDLA
+>tr|A0A1W9LA41|A0A1W9LA41_9BACT
+FLGYDNPITGIAAMTNAGGTYFKTNALAYQNNLGLVKKGDGLLQLSAVSNTFAGTTTVEA
+GTLLIDGNHPGGGAMTVQNGATLRMNGDWRNGGLITVANGGTLGGTGMLGGIASSGTVSP
+GNSPGTLTSYGNVTLGAGATLALELDDPLLGYESDKLVMNGGGLSLSGSPDLSLTLLYTP
+SLGDAFTIVSGFVGFAPGIDGTFSGKPDLGTFDVSGTTFQIDYSATDIALTVVPEPHTLG
+LLGLAALGGLLRRRMRG
+>tr|A0A1W9LDG0|A0A1W9LDG0_9BACT
+MKVAALAVGGVAVGAVSSSFVGHLGPAPAGPWRALTPDEARLVEAVAEQIVPADRDPGAK
+EAGVVVFIDRQLAGPCRRFLEKYRRGLACLVRTSETMFGKPFESLAWDDQTKLLQALESN
+KAPQDIWTSPSASEFFNLICDHSLQGFYGSPRHGGNRNYASYRMLGIEYPRVIGQNRYKG
+>tr|A0A1W9LFB5|A0A1W9LFB5_9BACT
+MTQAAWLTAAAALHGAACVIASLHAIRIKREASSALLWLLVIWSFPGAGVLLYVVLGVDR
+IAAKTAMRVDAHKAFRNGRRARESDSLPMDYWFGVRDGGVAEPVTEWGRALNRSLDPLLP
+DFPLLGGNRVEPLVTGDEAYGPMLDAIRGARRHINLQTFILSNDAVGREFLDLLVARARE
+GVEVRLLFDRFGSTPAVLSGFVRRYRGVSPAFRIAGWTQAMPLRRQFQMNLRNHRKILVV
+DGTTAFTGGINLAALNVSRPGTPAHRDFHFRIEGPAVQELQFSFLSDWHFMTGESAEALL
+IRDFFPGCPRAGDARVRIVNGEPALETETLPDVIFSLLVAARRQVLVLTPYFVPTADLIR
+AFRAAALRGVEVKLLVPRENNHVYAGWAGRSFYGSLLEAGVRIFERAPPFMHAKALIVDD
+EVATVGSANLDSRSLRLNYETNLLVYDTDFINRLKQAVLDEFAHGEEIDAADWRTRSALR
+RFAENACALLSPVL
+>tr|A0A1W9L7Y2|A0A1W9L7Y2_9BACT
+MRVDAPDGGASVSLPRAVLARDGACIGEGKLLYIEGRGTCRSEGAEITASRVRPLEYVAE
+TAVREIQLHVPPALADAVPADDLKSILARYPGAVPVTFVVTDAQGRRVLLEAGEAHRVHP
+SEGLVREIESVLGESGVALRVE
+>tr|A0A1W9LGW5|A0A1W9LGW5_9BACT
+MFEFKPYQGRVLTSLEEFLAETARSGDPRGPYEAVRRKQGRSAPYIPVEIPGHAAMPYVC
+IQVPTGGGKTVLAASAVGLATKRLLGAERSVVLWLVPSNTILEQTARALGNPQHPYRRAL
+EVGVGPVEILTIEQALRMKPPAVDGQTVVIVATIQCFRVEDTEGRKVYDPGNGDMREHLL
+RAPPDRLAEMDKGPDGQPANSLVNILRLHRPIVIVDEAHNANTSLSFATLAKVAPSCILE
+FTATPNTKHNPGRGEYASNVLHRVSAAELKAADMIKMPIRVATQKAAAGEELLIQAVALR
+ADLERIAGAEAQETGEYLRPILLIQAPAIAETEPLRDRLVADHNIPRDWIAISTGSKDEL
+EAVKDIAAPTCPIRVIITVQKLSEGWDCPFAYVLCSLRPTRSATAIEQIVGRIMRLPSVR
+RKRHEELNCAYALSVSESLPEVLGEMKAALEKNGFTAQEAALAIAPGPGPTPDLWRQPKI
+VAIDSATDLDRAAMETHGPALAGKVMIDVGHARIVIEKPLAPAELAAVQSCVTTREKREA
+IAAAAAAVAEEFARLETAAAAPETGSDMQADFFVPLLSIRMDQEILEFDQTALLEHPWRL
+CDMDAGLDECVFPGSSPRSEVGHLDVGGQGQVTVEINLNREGPDATLEDFIARLHQQVLA
+LGAAPQVSVEDLIVWLDRNIPHQDISQEDAEVFLGKAVRGLMASRGIADCDTLWRMRARL
+RDAIERRIEGHRVCARKTAYQTLMFDGSALTVDTSRGIDFRTVPYEPGWSYDGGYIFKKH
+YFARPGELRDGTEEFRCAVFLDNLPEVKYWVRNIARRPKSSLWFQTATDRAYPDFVCLLA
+DGRILAVEYKGADRYDGLDAQEKRAIGSVWESRSRGQCLFAMPSGNDYSPILRKIRPDGM
+KA
+>tr|A0A1W9LEN9|A0A1W9LEN9_9BACT
+MTHPRPAETIPPREYRAEDRWILVDRPAWADILRAHLPGMVLTAPILLAARFYPFREQPV
+ITCEFRKWTGIPCAGCGYTRAFQSIAHGNIAGAARDAPVSVLLFAAVVLLLGWNFAGLAL
+RRRLRPGPRAIPGLRARRALIALTILLLAANWFWRLTRGLQ
+>tr|A0A1W9LD73|A0A1W9LD73_9BACT
+MRNAAGLQTRGVFRPALPSVVERGSFPVKHRPKHVAEYVALRGIDALVNALPYRAALALG
+WGMAWMGFHLVRWRVAEAESRIRQVLGPGPSRREIRRVAWRAFRGFMFCVVDTLRVPRMT
+PAWVRRHIDVSEVPRFLESAAGGGAVIVTPHLGSWEMAGVATHMLSVPLFYIVGHQKNPL
+TDAHANRRRGRTGIETIPRDGPALRKTLKNLKDGRMLAFMTDLRSKTPGVKATFLGHEAN
+LVAGMGMFAKMAGVPIIPTVAVRIGWTHHRIRVFDPIRPDPSLDRDADIARMTQEVMNVF
+NRAILDAPDQYFWFNKRWVLEPLEGPGG
+>tr|A0A1W9LIX2|A0A1W9LIX2_9BACT
+MTYKAMKTMAAGVAMAMAVATVVGAAEATFDTSLWSKYIWRGQLYTDDPVLQPSLDVSTD
+FGLGFNAWMNLDLSDVNTTPEDNTRGHPNEIDFSVRYGIPLKGPLQAEVGAGTYVISMPT
+GANGTTADGYLKLQLDPGAAGESWLAALPTPTLTAYYEFLEIEDFYFNFGLGKSFEVAET
+LTLALGASVGYGMKDYNAYFFDASDFVPEGAAYEPVDRDAFNDLNVTACLTWQATEAVSL
+SLMAQYTALIEDPVKSAAALRFGDDAWFIGGVKAAWAF
+>tr|A0A1W9LEV5|A0A1W9LEV5_9BACT
+MSTEWITLIVFAAAYVLFVLLPGRRSWVACAGGALLILTGALGMREALLEKVSWNVMGLF
+FGTLVLAEMFLLSKAPAVMAEWLVDRTGTARGAMIALCALAGVISMFVENVAVVLLVAPV
+AISLAKKLETSPVPLLIGIAISSNLQGTATMVGDPPSMILAGHMRMGFLDFFVYQGHPGI
+FFAVQVGAIASLAVLAWFFRKHREAATLLTMEKVRSWVPASLLGILLAGLSVSTLVDPEF
+KWFAGVFTMAVAAVATVWFATRARWTSMGTLYRSIDWDTTFFLIGVFVLVGGLSDSGWLD
+RLSEAISRGVGGNLLLAFVVIVVLSVVVSGFVDNVPFLLAMIPVVQKVATHMNAPVPLLM
+FGLLIGACLGGNLTPIGASANVVTLGILKKQGYHVSFGEFMRIGIPFTLAAVTTACLFVW
+WIWAP
+>tr|A0A1W9LEU9|A0A1W9LEU9_9BACT
+MSETSSPALPGATRLNLLGVDYAHMKTGDGGDLYLTRFGEPFAEHLKPESWFGPGWFELN
+REKLEGTSTVYRIRTRPVGGRSKDIVVKWCRVGTEIPMDTFTLTKFVEAEFNSPYEEFAL
+VMEMRADRSRPRLHTHKPLAIYAPAKRLKLWQTKRDESRMERKKAKFRDVELDIFRQYIL
+IYEWVKGVSLPQAFPPTPDDAAGRLERLRRHTDAGVRDLAEKGFQVLDIKPEHLIVRPKP
+GGSVLRRRDGRIAYALVDFELLQRTPAYERRVAAARRAAYLQHQKDRINLVWKVSRVGEV
+PDLDPADARGACIREYGYNSPFEEFSFAIRLARAGVPVVYPRAIYMTGQEASGAATYAAD
+TRRYDRDAAVVGPDGRPVLRRDHNYIAVWGYWNGSDETLAMRDVDVCVPIDLARALAGDR
+IGRAEHDELLAEARETLAGAGFEDLNPEGGHLLLSQTPRGGFQRGDNGRYVLRWCNFSLV
+RPLRGGKEHPPKTS
+>tr|A0A1W9L8X2|A0A1W9L8X2_9BACT
+MPPSTNRRPYDISSAGYTIAKTLADPTNRPIVIDDIVRFEVRIVNTGDVALVTVPVTDVY
+ETVYLTYTGAVPASVDNVNDGLITWTDVGPLPVGASTTLLVYFRAAAATSGLRTNTALTA
+PTTPPGEPPVPPLSSNAVYQVFSKCSIGNFVWLDVNGNGVQDGGSETGLPGVVVSLYTNG
+TVVGVTTTAANGAYAFTNLVPGTYSLGFAPPAGYALTLADQGGDDNLDSDANRVTGRTSP
+TVLTPAEDDLSWDAGLYVPASLGDFVWNDLDADGIQDAGETGVANVVVTLYSVSNGLIGV
+ATTTVSGAYAFTNLPPDDYYVDIDTPSGWYVSPQFQGGNSATDSDIDGAGVSVIINLISG
+QTDLTLDAGIYVPASLGDFVWLDINGNGVQSGGSETGLPGVVVTLYDAATNVMGVTTTAV
+NGAYAFTNLVPSTYFVGFARPAGYQLTLRDVGADTTDSDPDRTTGYTIPTVLISGENDPT
+WDAGLYVPASLGNFVWDDTNGNGVQDVGETGVPDIVVTLYTNGTAVGVTTTDVTGVYAFL
+TLVPDTYSVGFAPPSGWQLTLRDVGADTADSDPDRTTGRTIATVLTSGENDPTWDAGLYR
+PAALGNFIWHDLDADGIQDGGETGVANVVVDLHDTNGIVVGTTTTDVNGIYWFTNLPPAD
+YYIDVDVPPAWFTSPPDQGGDDTLDNDIDSAGTTGTRTLVSGQTDPDVDGGLYLPASLGD
+FVWLDVNGNGVQDGGSETGLPGVVVTVYDADTNALDSTATDANGAYAFTNLVPATYFVGF
+ATPAGYRLTLADQGGDSTDSDANRTTGRTIPTVLTSGENDVTWDAGLYAPASLGNFVWVD
+SNGDGLQDVGEPGLAGVTVRLYDADTNLLDSTATDASGFYAFTNLLPATYLVRFELPTGY
+RFTPSDLGGDTVDSDAAADGFAPPVTLVSGESNLTIDAGVYIPAQLGDRAWEDLNGNGIQ
+DAGEPGIAGVTVTLYYGLETWITSTVTDASGYYLFTNLLPGAYYVNFETPAGHEVTGQDQ
+GSNDAADSDIVPATGNTATYMLLSAQSDLTVDAGFFRPASLGDRVWEDLDYNGVQDTNEV
+ASAAVTSLVVRLYSGAGSLLDTTLTDTNGNYAFTNLPPGSYFVEFTSPTSHIFVLANQGT
+NDTLDSDANPATARSHIVTLASGDDNTTVDAGIIGTGIIGDHVWYDINGDGLQDEDPLLY
+GLNGIRVYLFRIVGGITSLVSTVSTTNGAAGDYGFYVFPNLPFGTYRVQVETADLPGGLQ
+LPTTVLEYFVTLKPDYIYYQADFGFVGRATPVTLQSFTAARTDGGVFVRWQTGTEVDNLG
+FNVYRSDSADGPKTRLNQDLIPGLGTASGQDYELTDVSAAADSTYYYWLEDVSLRGQTEL
+HGPAVVAGADQAPSDGAVLSSFQVSRQG
+>tr|A0A1W9LDX1|A0A1W9LDX1_9BACT
+RVFFFVAINLTGLSIHAATLTNPDFEAGALTGWDVQAGPLAVDVTTKETFNRNYAGRIHG
+TFASDGWITNSIWQTLPISERDTVEALGFVKWKTHQTTGPGATGYVRAVFADEGASSSTT
+WMSTNSWGLFQMYRSFVGVTDGGFESGHLSNWAVHTEGPLATVQSSIVDAGAYSLSITGK
+WTGWSWNEVAQYMSLQSGDVVHARARFMANWFQRSTLEGWAVAGIKLELGDSDFEDVVEA
+CYMPRGWTNLAFDALITNSGVYTFRVMVCGSDTQVESDVFFDNLQFWKDGSSNYGTNVTV
+RLDYVGYSGGANYTNTVDVYLDSVALNGSSAGAQPATNIYTSLRAAAAATAADPSETDIP
+MIEYPALNTFGFPNGITNFMNFPAHVEASVAGWRFRYLTNNVVLTMTNTLITYGLPTNEF
+GQAPVGVIEFDQYQYCARNWGKERGAPLAIETNSPYFTLGVKDGSSAEFGEGPFPEEHTY
+VVGTSLTNFPRRMISAYDGRWPRRLNIVFQENLGEFDRAWDKYFVLSSLPTNHLGGGACD
+VKAAKLFLACSDAGHTNLAFNTQEIHLGWGDEASCHGMVDYPNCTYQDHNEVYLRAGWLY
+GLMDESGWFMSQVPRGSATIEPIDLYSWKSGNWTPKVYEECLFTWPNAISGVRSIFDSDA
+TDRLPGPASYHVGYKIGHMFGTNEFGEPEYPGIIELRGNGYFRMTDYDGVMGGSFRPVSA
+DIFGLYQFKEDAPIIPSAYTRLVARTTPTTQVDNSYAQLFMPVRSKTNFWFTGAMKVDMH
+ATAGEVEAEGAYYELESDIYANRALIRAQHGTLNAFAQVDMYWRGGDKINDYEEGHDFDV
+VMVKKTDGEWVSHHPINPPTNIYHRSLAKFRNGDVMYIMQQDRAPNTYGFSTEAPYRKVS
+TFEFTMLDDGGRDLSIDVFEQNTISEINDNCVIACAMNEDLAKGEGVHCRYRTRGIYAPG
+VTILNPNEPGGGEHWGNNRYTIDFYATDGEDRPLQANLYYGNGKDDDWTLINTGELLMVS
+TNTHSMSYAWDVSSVPPGAYYIKATAQRVEGGKVGFDISNTRLQVGPTYGFPNNGSTNVT
+VVTNAFGYLGENMGFETGDVLGWASGADHLDLYATSTRSYEGLYAARMRGPGWTNWSWNN
+LQQQIPCTSGEVLHVTGRLFIGKLSRFGTNWIACGIKMEATNNNANAAGTEFRNTYTTGV
+WLNVDFLRTAPVTGTDRLLLWVAGNDCNGADVYFDDLRVTSTNTGTVVTNRVRAGYWDGD
+TPANVSAHDAISFRVASARGAQDLRVWVADSHGVTNSVPVTNGIEKIISLPRRADVPWSL
+FTGIDRTSIKAIGFVSPATNAFTVSELRSITTPFRVGARTSWAPLLDTEGVPLYNAGQTV
+TNALTIENRGGTAVTGLTLQVVQEYATNVMWVDTSPSVASRPSEKTRAGDRLCGAFEQRW
+SNVTIAAGGRVTVTNVYVVPWGRLIDHTKHAFKAREDWYVDRNYEARAQVHLVIRASNGK
+NLFDHEQVAAYGMDDNFDIDNDGLTDSWELEYGGSITGMDPYEDVDGDGYSNLEEFLAGS
+DPNDIASYPGHLTSYVVHLAYTNGTDQFPQAVAERSNYTGAACAWMIMRYLNGESFTQSQ
+TRIYDSNSNAPAHNSEIMPESCARWMWTNVVPGYYFSARSRTNLADALKESVYWMDYVPP
+GGKKTPVYILSGTNWSYKVIRGFETDRKPYDGGFGVTTAGAFTIYGLWLNDPRLSGLGYD
+VFTVADDMPAVYPASETGSGSNRWWLIAEPPQDADELADAEDTMDASSVILASSEPNAVF
+AKYLPSLAGGAAATEESSTAGRIVQRSYTRPPGAGPELVGVLPLALLNEPGFMDAFNHAQ
+ATNYYVINPGDTARCYYLAAGELRGPGSTLYVIKLATNGALRQATWDADTALFPPLSLEA
+AEWAARQAMGGGGQSPNVLLNYGFETNTGPGGTPDRWTTAGCVRTELWAGRSGAYGLAFE
+SWVGSTYGLIYQDYTGATGNTDYTFSIWMSKDSSFAVGVLVMKLEWFAQDGFQLGSTSYG
+SAVVTTNWQLFSVSSPSPTGTRRVRCTVWADNFSGSGALKCDDASLTAGLSPVLLEAKLV
+YDPAVDPSPFRPRWSLVFSVGGSVVTNQIEQNAFLDRDSDGDSMSDRIELYAGSDAGDPK
+SVFSADGGWAKGVSGVPERMIVSWPSATGRTYSIYRTGNLKSPFQLLEMHRAATAPVNTY
+EDINPPSPSYYRIEVE
+>tr|A0A1W9LC43|A0A1W9LC43_9BACT
+MKRLTDQQVAIFRRMTPQEKFDVASGLRRSAEQLAEAGVRMRHPAWGAPRVAAEVRRMFL
+HGHG
+>tr|A0A1W9LHQ0|A0A1W9LHQ0_9BACT
+MGDLLLAGRLRESPDRRDQARLRAATGGRVGGRGRPRWNAALQSSRRGPLRRNRRGKAGR
+LRPHEVRTAEGRAACNVGWYGHEYDDVSDATTVTVDPKRSKGPLDLQEVIRYGKEHGIGV
+IVYVNRRALERQLDEILPLYRTWGIDGIKYGFVNVGSQKWTSWLHEAVRKAGAQRFMLDV
+HDEYRMTGYSRTWPNLMTAEGIHGDEGNPSNRVTLAYAFTRYLAGPADNTVCYYDARVDR
+LASPRTPTSSPSPSASSAPDSFFSGTTALRRRRGPRAARADRSP
+>tr|A0A1W9LDW6|A0A1W9LDW6_9BACT
+MMPTKQEIVRLILKGRSREPRDEGIAFAPANIALCKYWGKRDEELNLPVTSSLSVSLGTL
+GSLVQLRSARASDIVFLNGKRLARDSSFARRVSGLLDLFRPGRKAFFEVRAVNTIPTAAG
+FASSASGFAALAMAADDLFGWRLPRRELSVLARLGSGSAC
+>tr|A0A1W9LF19|A0A1W9LF19_9BACT
+MSPALQLILILLCVAGSAFFAGLETGIISINRLRLRHLVQHRVPGARILEDFLRRPEVLL
+GTTLIGTNLCHVAVAVLAASLAGRTGLPAAPAIAGVAATIVLLIFGEYIPKAWFQGFPSY
+RTLPFARALWVASWILLPLRWGLAGLVRLLSGRHLPTPENQPLITREEFLHLTREGGETG
+ALSPVETRMIKGVIQMSGTRCSDIMIPRDRMAWIERSTPMADLLDLARREELSRFPVWDP
+AANRFVGVVNVFDVLADEAPEAKTAEAYMRHPQFVAGHTLADHVMPRMRVTRQPLMLVTD
+EKGEVTGVVTLDDVLSVIVGSDTLAPPAAKAP
+>tr|A0A1W9LF86|A0A1W9LF86_9BACT
+MEKIACRKCGRHMDVSRLPSFSKVDCPDCQTRQTVPAILGQFLLLELLGAGGMGAVYQAL
+DKSLGRYVAIKVMKRALGDDPHFVDNFMREARAAAALNHRNMVQIYSCGQEKGQPYIVME
+LVSGGRLDEIIGQGNPIEEVRALEIGIDVAEGLRGANDIGLIHGDIKPANILFDKQGVAK
+IADFGLARFVAWQQDRGEVWGTPYYIAPEKARAQKVDHRSDIYSLGATLYHALGAKPPFD
+GKTATDVVLARLKNPAIGLRVIRPTLQPETADVIARMLESDPFMRYPTYSSLLADLREAL
+RVAKQEQRSVQRKVKKSPVTPFVAIFIAAFLLIAITLGIVQWVALRKERAAAAAAAAKPP
+ELPSPSTNVAVVQQVLDSEKPTKTLAVIQPFTTTGEQIIQAAVQQLVAGNPAAMREQLQD
+LYDKSPAIGMGRHWIRLFQAVAAYGGGRDQDAQTYLLEIRNTVFETTDPSQPHPGGMPQA
+IARFMLKEIEEGGVSFEAARRPFWFGDFAEFFLGLDYLKEGNLKKGGDYLSSYYTKDGTD
+PAWPYSLRPIAKLCLDQIQQFQQTKVKVAQLLAAKQAPKAREALDDFLFRASALMFPLVD
+QELRELQRTEQQEAAAQQRAEKLAHRDRIQTDLDRLDEVRAANLRLVSQRDFRRAAAALS
+KLIPELKTPEGQQTLVVIRDSYDHMDALKKFLINRITAAPFRGGPASDMGGDAVGADLNG
+IRVALGPHGVMVKPWQEISLKLFVQLVNYYVADTSLPVNDRAEALLSTAVFCYENGAFRW
+AGPFADQAVKLMPDLKVRARRLMPDLLPD
+>tr|A0A1W9LCY6|A0A1W9LCY6_9BACT
+MKKLAKKTTKTTDRSPPPSVFRFPSSVLIAVTGMSPAILTETAWALAQESPPVIPSKVVA
+FGTSLSRDRLRKDLIESGVWANLRRTLKAGPDELVFGDAGEHIRVFSHRGRELEDIRSPD
+DNAAAADFILEHLRQFAENPEMRIVASIAGGRKTMGALLYAAMTLIGRETDRITHVLADE
+SLERRKDPSFFYPCNAGEAKGVTLADVPFVPLRNKFVELGRMPGGFTTLVRHYTRALRDD
+AAPAARVRFDDSTCTVTVDGTDARLPRRAYIVLKFAAHLSESNATPIGINVTDDSLRQFI
+AGTRLYPEWAGTATSDPDLRRELNAIRHAFDAHGISWKPGLRRDALRLPPFRRTEDGKRK
+TEDGA
+>tr|A0A1W9LD04|A0A1W9LD04_9BACT
+MTDKGAREISLFFPVYNDEPTVRRVTEKAIAVLSEIADRYEIVIVDDCGKDRSGQIADEL
+AKEHPFVKVVHHDSNLGYGAAIRSGFANTQYEWICLTDGDDEYDLADLRKLWRLRDFYDL
+IITFRYVRMYSGFRIFISKVYNFVLRLLFSTSYRDISTGLRLVRREVLQDMELQSTSPFI
+GAELTVKAMLKGFRVGEVGIQTFPRQFGKGASTTPANIRKTIQDMLMVHRTIFSPVYDLP
+STRSR
+>tr|A0A1W9LD27|A0A1W9LD27_9BACT
+MADDVPAKPKSRALLAAVTGFGVLAAAMLAFMFFRTQLAARLGGRLPGAASGVSTANLKP
+LSPRITFPLPPESEYASASLPASQADLLTQLSRSLSADLGTGKQGLRPILGKAALSALDP
+NFGVADNDLEGLSDDERQLVLLYRDTFTELGRLLGTTGNRQADLQVLNAQQDRLARKLEE
+RRVLAIAKLALCRRVTGFGRYEPYLGNEFSSGSLPLILAYAELANVRPLSQTDGRFLITL
+TVEFTLLDDASGGEIWQQDAAPLTEESASRKRDVHIAQDLRLPDTIAPGRYRLRVRITDQ
+SNGAVAVASVPLTISGR
+>tr|A0A1W9LFL9|A0A1W9LFL9_9BACT
+MAAVMAGSMMCASPGAGQELRGNLSRTVTASSAETEVFAATNACDGRMDTRWSSAWSDDQ
+WLQIDLGHTTTVCGLTMEWESAFGSAYRVLVSQNGSEWIAAYATQTGDGQTDEIFFKPVT
+GRYVKVAFERRATSWGYSLWDLSLKGPDEQLVVDAPTPERADDLCDGDTNTVWTSTAPPF
+SITMDLRVERAIGGMRIDWGESYASDFSVATSGDGTTWQKAGEVHDGVGQFDYVMFPKPG
+ARLVRLNIATSPDDRPVAIRDITFRGAKESLSPYAAYQFAAMKAPPGHYPEWLRDRQVYW
+TVVGLPASRWESLLDEYGNLEPRHGGWTLMPYVEVDGTLRSAMDATNVWQKLDSGWMPIP
+SVGWEFPDLRFTIEAVAAGSTTDPVTRVRYTISNLSSGECTARVLLTVRPLQINPPWGQG
+GFAPIRSMAVDGSVMQINGNDGFIAYAQPSDAGVASFNNGDVLRALARREVPAASEARDD
+QGNLSGVMVFDAQVEPGAEERVEVGVPQNPGSAIERPMEDFDGLVARQRELWNEVESRIT
+LELPDADVLNTFRSQIAYILINRDGPAIQAGPRNYKRSWIRDGAMTASALLQVGLTEEAR
+SFIDWYSAFVETNGWVRHIVNTDGSPSSLFLGEHEWDSQGQYVYAVMEYYRMTRDRAFLE
+QHFDTMMRALRFIEELRAQTLAPDYMAGEPARARFVGILPKSISHEGYIPAMHSYWDDFW
+ALKGWKDGADAADLLGRTNESAWARGQYRALRASLSNAVRAAIAYHKIDFVPGCAEKGDF
+DPTSIAVAFYPAGEQDV
+>tr|A0A1W9LDK0|A0A1W9LDK0_9BACT
+MQRTLIVVLAAVSLCITAAQAQEPAAAPAPKLVCDEPTFNFGEMDNSKDVEHTFLLKNEG
+TLTLEIGQVRASCGCTVASTSQKTVPPGQTTEVSARLSLRGRQGPQHKTITVQSNDPQQP
+NFMLALEGSAISEMQIRPNQLFFGRIASGTIVTGLVELAIESTNAVNILKSEANTPQLAV
+TTEISADGKLHRIWVTTQPPLSKGTLRGNVHIETDHPKYPAMDIVVSAFVVSDLSFAPEE
+IAVVGQTNQPMARFVIVRSETGKAFQVETVEPPLPTIQANIVPMDATSYRIELANIIAAP
+DLDGKVVRIKTTMEGSQEILIPFRVIPSPETPPPQ
+>tr|A0A1W9L8A2|A0A1W9L8A2_9BACT
+MKLDSGVDFDGDGRDNAPALSSDVYLGYESVDFVHRQYPEKFAAVDSARDKIGSAGAETY
+ILTNGTPGFHYNLSDGANDWDNTYTASWIWHDPTNFITASGYPTTTRHVVATSTGLTFWV
+KMGNGCNINRMFLYYTTDGATWPEGAGGEGRNSTQVKELQFVAVDSGNSSHDWWGGTLTG
+LTNGTPLRYKIGGCKMQGTNYACNVGWDTPFPNSDSDIARKTKMMGVWQVTNFNAATVGH
+FPHSDYGTMATGLVEGFHVLNARAFLDRAGRAAIFNTFVQTFYLDAQTPAGSIIYPAADG
+DTLWGSQYGAVVRGDRTVTATRRRARSTTSSTTKRRTTTRSPSRCRTSTTASPTTSTRSR
+>tr|A0A1W9LE07|A0A1W9LE07_9BACT
+MSHAVTMRDVCRETGVSVATVSRVINKQPKVSAARRKLVLEAIQRLGYTPNALARSLSRS
+RTDTVGVLLGQELSDSIVNVVRGIEIEAHTRGLHLLLGRASAGTSSDELGEALVDGLIVL
+DPMMSRQTISRMRSRGRPLVMIQNHAGEASVSTVCAADEQGAYLGLKHLLSMNHRKLLLI
+SGPPGGEDSVLRMKGCDRVLREFKLSPEEAAMMIGRYSPREALTVFQEYRARRGLPRAVF
+AFSDDTAMAVMKELRVTGVRVPEQVAVVGFGGGVAGEYMGLTTISVPMMEMGREAVRVLA
+ESIRDPQTKAAHIVMPCELVIRESCGGAPPAP
+>tr|A0A1W9LE18|A0A1W9LE18_9BACT
+MSIYNFVSFAGLFVLMFVAWAMSSNRRVLNLRCALWGTGLQLIFGVFVFLLPFGTQVFLF
+LSKVVVKLLGAAADGAAFCFGPLAIPPGKPGHLGFILAFQGLPTIIFFAALMGILYYLRI
+MPLLIKAFAWVFTKLMKVSGAESLVAAANIFVGIESATTVLPYLNNMTRSELCTVLAAGF
+ATIASSVLGVYVMMLQSHFPNIAGHLISASVLSAPAALVMSKLMLPETEQPETLGRVVEP
+HYVRESNVIEAAVNGATAGGKMIMGVIVMLMAFIGLLALANMACDAVAKLIVVLHGPALN
+LRLEHLLAYVYYPFALIIGVPPADAFAVAQLLGVRTIATEIPAYLQLDQFIASGALQHGR
+SAVLASYALCGFSHIPSIAIFVGGIAALAPGQTRTLSRVAFRALAAATLACFMTAAVAGT
+FYGHGALLIGMP
+>tr|A0A1W9LD48|A0A1W9LD48_9BACT
+MRIGSGILKATVSAAFLYLLYRVVRGHNFAGILRGADPLYFALSLLIAPVLLVTSCAKWK
+LLLDAQGCRVPFPFLIRVYLIGYYFSNLLPSMVGGDIVRLYYAGKRVGSHGHAAASIFLE
+RFTGVLLLLALVALAPAIRPALYLHPAVWIPAAGAAALLAALFLMMRMRNPFTRLFGAAA
+RWTGRRAAGVTAARVPAAGRFLRKAEAGLGKLGLKAEAFHLKLATGTAVLRTDRAVLWKV
+IVLTVLFYLLAGINVWFAFKTFGAAPPVWDVISVLPTAMLVAMIPIAMGSLGITETSYVF
+YFGLLGMLPATTVAMALLMRLKLILLGLIGLIAYLSHGERFQKDSVPLEMESATPSPARG
+RGASAAPPNP
+>tr|A0A1W9LF01|A0A1W9LF01_9BACT
+MATLCPSIPATDNEAGAVNRLLEANAQYRAQRWPAPFDRTFHTLRLGDARNMSWIQTSSV
+HLVVTSPPYWTLKKYEDHRDQLGEVADYEAFLNELDRVWRECVRVLVPGGRICCVVGDVC
+IPRKREGRHYVMPLHADIQVRARRLGLDCLTPILWQKIANGATEAEGNGAGFYGKPYQPG
+AVIKNDVEYILFLRKGGGYRSVTMLQKALSMLDRREMPKWMRSAWTDIRGETTRKGHPAP
+FPAELAERLIRMFSFAGDTVLDPFAGTGSTSVAAIETGRNSIAVEIEPKYFALARARLQQ
+VAAQQRLCGAVEANVTIGKP
+>tr|A0A1W9LET8|A0A1W9LET8_9BACT
+MTDVASVRGPVASRGAGPTRRDRDPLLSLAGLAPGRLCAQWDIPAGIWLAARRRSPDARP
+ALRLYRLDPDPAAGSGVIFFADGPEGLRRIDAREGVFVAEFGLLHPDGRLDRLAASHPAA
+VPASAESRDLSLAIVDVRNPPPVGAAPPPPGSKFLRLFAHGRHPQPRIRADRRRAGHPAA
+PATTATPVLVADAPDATPSLSAAGLEGGAAGWPLALRAHRNAVDSAPRSDFLFPASDSRI
+PA
+>tr|A0A1W9LEG9|A0A1W9LEG9_9BACT
+MDTKSETGESGQGRDALLKQEGYDLMAAAFEVYNEQGHGFAEEVYQESLELELGLRKISF
+SSKRELEIRYKGIVLRRRYVPDLVVFEGIVAELKAVKCLLPEHEAQLLNCLKATGFRVGY
+LLNFGCPGKLEWKRRVL
+>tr|A0A1W9LEJ2|A0A1W9LEJ2_9BACT
+MVAAGDSSRAGADAAAGGDVPVAPIAPSIHGIWTNALVLRTAAAEAVVVPDIGRVCSFAP
+ADGSNVLHVAAVLDPGATGRRGGAGSWRDFGGLWGWPVPEEIWPRIRVEGGSPDALFEGR
+RWAGRAWRTADGAAVCSMMLDYGAPLNLRVTRIFRLGRIAASLEIRERVERTGPSIIPAG
+PSIVARIAAPQRLVFPADPEVEPAVRSVAFGPPPAFALTRTPDSVVYHVDLGGEHRIAAA
+TPRPWVAAELPRHMVLLRAAAGDSNAVPRPAAYVHRGAAYAELEIAAAGRPLRDGEAIEQ
+TVFLECFPEPAGLDARALAVRTRLLAGEGEAAAVP
+>tr|A0A1W9L9S7|A0A1W9L9S7_9BACT
+MHSVVVIGLGNPLMSDEGIGIHVIQALEARAGEFPGVDFLDAGASGMTALHAMAGRRKAV
+FVDCARMGELPGSIRRFTPDQVVSGKVLPGFSLHEGDLLAFIRLSERLGECPKEIVIFGI
+EPASVESGQELSAELTANLSRYQDLVVAELRSG
+>tr|A0A1W9LEV2|A0A1W9LEV2_9BACT
+MYDQLLSQSQQQRLQQVMAPQMRQSLEFLQVPTLELRALIRKEIEQNPTLEEQPEDHTPL
+EVEPGDTGAADAAEVASEEEYRKLAELDASWREYFHQSSPPRSHSPEEEERRQHFLESMT
+RETSLQESLLQQLDLGDLSEGDRAVAVMLVGSLNDDGYLNVTLGELAETTGLPIDALERV
+LRSVQELDPPGVAARDLPECLRIQLARTGRSEGVEARIVDHHLADLAAMKHVEIARALQV
+PVAEVYHAARAIGALEPRPGRAFGGDAPTYVVPDIAVTKVAGEYVVTLNNERLPRVRISR
+HYRQLMEDPSTPKETREYIRHKVRAGAFMMRSIHLRQETIANLAREIVRVQREFLDHGVS
+HLRPLIMADVARTLGVHETTVSRAVSGKYMQTPRGLFELKFFFTPGYMTADGQSLSNKAI
+KDSIEAIVADEESGAPLSDDAIARRLGERGIKVARRTIAKYRDELKIPPSHLRKG
+>tr|A0A1W9LDR8|A0A1W9LDR8_9BACT
+MVGLAILHFSWLATYHAPAISTPDANSYFAQARWIAQEGTTSFALESPVQFIAPHWNAGV
+NGRYYCTHPPGLGVLLAIPYVLLGYGAATWVNPLLASMSLIIVFLLARGLAGPYWALLAA
+TLVAFNPFVNEHALFGDSHVAVQFFLLGALFCLIPMTKKGASATWGLAAGLLAGAIPTFR
+YPELLYLLTFGLYLVLIARRGRVTVRSVLAFALGVTLPIGALLARNQIAYGGFWKTGYMA
+TGEQAAFSVAALVQHAPIFLWKLLTEGVWLMFPFGVAGVIAMLADRETRHKGLLLTGLIA
+PVTLLYMAWYWQPDPQSMRFLIPTFPLYTLAGVWMLSRLIRKPRVAIWVSAGIVAITAVW
+GVPQAVMSLRHIERDNRVLADITAMLERHVPTGSIVIAGIGVQQHLDFVGNWKLADVDLV
+STRPSRIMLLRAAQEKGPGKLTSEQRDFLHLPTGARWDAFVDAAWEWAGDGSRVFLLAKP
+AEALDWERRIPAGTHLEQLDNISLPMGQTPRRSRLDERRRSDALPGPPDPNSVFDLTLDG
+QALVLFELER
+>tr|A0A1W9L822|A0A1W9L822_9BACT
+MAAATPVREIEVKLDDKPVSGKQVVSVRFTPGETKAYDQLVFDCVLRQEYIQKDSSGRER
+KRVVEPATFTYREDGVRFVEVLDKYVSFWVPVGMEQLKESFGKTLFVGTAPVIIHKVVVR
+ALVNGDPVWTIESNPGAGPQKPPEAAAAGGSAPSGPERDKYGLPVFKGGPAK
+>tr|A0A1W9LES3|A0A1W9LES3_9BACT
+MTRIPAIAAVTVRGAIRSRVLVSLLAVLALVIVGLPLSIKGDGTVGGMVQVLLSYTLEFA
+GLILALAIVWAGCGAVSLEVRDRQIHLIMVKPVTALELWAGKWLGLVVLLAVLHAAAGAG
+VYGMLRWTTRAGTLSADDRVRLRDEILVARRAIAPQPPDIEGQARARFESEREGGRLPAH
+VPVEQVYAAIRAEARAAAFGVAPSGRRVFTYAIPGGVAQDRPAHLRFRFVKSVLDFEPVA
+GNWAVAAPGGAIRFEAPGAWRPGAVHSIEVPGSALAGLSTVEFTFENRDPAGAALYFDPD
+DGLRLLVHRGGFLGNYVRALLTMLFQAALLAAIGLTAGSLLSMPVASFAALAVVLATRMS
+GTIVGMARDGPALFQSIGAKEGWALVADRIYRGYFVALEWLTAPLRGTDVLDRLATGQLV
+GWGEVVRMGLMEVVMGCGLFAILGAWLFRRRELGAAQG
+>tr|A0A1W9LFW3|A0A1W9LFW3_9BACT
+MGDSDDGYQIVEIGFDFSYYGETKTNVVISSNGLLAFDSASDEFANECIPSFGPPNAYVG
+LFWDDLDIGNVDTNLTPNDGKVFYQTLGSAPNRRFVVEYLGIPHIDDANSRFTFEAVLYE
+GNGHIQVQYKAMQDGATNFGTGRSATLGIEDNTATRGVEWYCGEGGMGGMFADNDGPVTS
+GLAILYAPATTTARILVLQSTCGSSTGRVIEALNGLGPAYAYVATFDEDAFRDELENEGP
+WDLIVMDEYSDAWDDDTVAAIGNYITGGGYAIICHWDWYEELTLAGLFEANYVSDYTAPQ
+PIYRWATWHPVFNIPNVVPDFTSGAIDPCDRDGARFNAIGGGIALGGYTAAEQANEHAII
+LGNNNHTILNGEVFDTATGDSDVDGMEDIVELIQNEVMFLLGDVPQLVTSALLAEHGTAT
+PAGYGTNSYVTGTVLTNEVTSPADEAAGSHYACTGYVGSGSVPLVGAGASVVVTLTEDST
+LTWMWVFQHYLSLTGVNGTISGALQGWKDESFVYSLTPTPAGGFMFDHWETNGQLNAGST
+VPLLVTMDEPKQVWAYFTALSVFTNVTSNTTTRFLSWVTNRQYGTLSGTLELCNNSDSTK
+PMSGPYWYAVQPTADVRLWTNFRSVGLLPDGKEYVDITTDINNALPGVGNGDLFLNPGEC
+VTVSNIEFYFLRRVPVTGTVIAVWADPPGDAGAGYDDATADTDGDGIANAWEEAHGLNKN
+NPFDGAQDFDLDGVSSVEEFWADTDPRDGASYLRMKSLGRDVQGVRVEWVGGTIVSQYLM
+WVDALGEQWLCLYTNVPPTPQASFFEHHIQSPPKGFYRIRTGR
+>tr|A0A1W9LE14|A0A1W9LE14_9BACT
+FRAAGDLLASALQTYAESDIVQWARRDELQRLDALIRGETGESPATTPGPATGETADLSG
+IEQLNVGELISRMRQLDGRVVRVRFRYRSAIDEAGPGNYATNLGLDNSTISAAFAQEGYR
+WFRNSVSQGYGGDNPIRIVYGVVDAKRQSIRLLGRTLKRRIGGQGDEFSW
+>tr|A0A1W9L8L0|A0A1W9L8L0_9BACT
+MKRAAWIGLSLVAVLVAFRSTGIRLFENALARHMAIEALRDWRVPATEENIALYLSIDPV
+DKDGRAGTPTAPAAVRPRIPGKSGTQFSKAWSYDDLLDGGAIVIGIYGQGPDTWGAVARC
+LAGLAGVSSNIVVRHLHTRDQFLSSLKNDDVTLFLGHANYGRGIVFEPERGGSGLLRFRD
+EDLLVPASHMEPGDRVLSNLGNGMVQIRAGGAAATPLDVRCKAFFFLACRTEAYYRNWWT
+RTHPQCDLVTANYVWSASRLAPQFIPEIVRGLDERMSLEDIVARMNRDLPLEILRGRGEE
+INLYRNSTNLPSRLFNHGSADSAGTL
+>tr|A0A1W9LHH6|A0A1W9LHH6_9BACT
+MKKLMIAAACAALAGCDHTVPLAKGPAGEADTALVGLWQRTQNGQAENLVVLPLGRQELL
+VAYPATSKDAMYARAWAARGAGLSLIQLQWIGTGKGAIPDDAKVFQLAAYTIAGDTLTIR
+TINPDVAGGVSKSPEDLAKALEAGKGIENFYREPMVFTRAKG
+>tr|A0A1W9LGY6|A0A1W9LGY6_9BACT
+MVVGAAAALLLGACPGRAQTSKPAGPTENAALFYWKAAGLMQQPQTQEQLQFARFADNAM
+RNLPPRVFAAKPDVLRWLLNERSALTALGQAARFKTCAFALRAPGIPGLDVSHLPRLQAL
+MRRALAAAKAYEYADNRDGAASIYASLFTLVANLDQDRNFTSGFTAAELLQELVLEVEGF
+VSRDPPASAARLLADYFKPVLPNLFHPAGYLLDEARLNSAWLLTAPDRAQDKLSRLYGNT
+AHRPAVEQLMSLDRVKQEERLRAWVHDYIRQMKALAEATELPFNEAQIQLRELDRQREAM
+RKDPSGGDNPLIPLLVPALSQGYQRLLLSEAQFDMAEILACAAAFRQGTGTWPARIAEIN
+QYMHRPMAQDPFSGEDFYYRLVKDLPVVAARIPKSLANDSALLYRLELAQRRRKDEERAQ
+AALRQLKEEKERELRQPVPMAP
+>tr|A0A1W9LG69|A0A1W9LG69_9BACT
+MDVRRAALVLAVASAVAGRAAGAPPVDLGVFESIPVLEGGRPMPLSAYARVAMLQMSGRA
+TWQGGPASHWLARALFEPDATTNDAIFLISHPDTFDALGLATDKPRRRASYAELEPVLPR
+LRDLSSRAAGVKAADRTPADRDLLQLVSAISLFAAFSRGDHPAIVPRNGGHDPWLALSEA
+AQPADADAAMIATAWSGLRKAWLARDTTAFTDAARTARAAALHGLDDPRAGLRLRGEETM
+NRLRPFALSLQGYLVAAVLGFWVALDPRRRKTALAAVILVGLALLVHSAGLLLRAFIMGR
+PPVTNLYSTFVFVAWCCAAIGLGVERARRDGLGLLAGGTTAVVLLAVAGRYELDGDTMQR
+VVAVLDSNFWLTVHVLTIMVGYAGCLMAGAAAHVQLVKHGLQGAASAAPVARAVRGLLGL
+GLVFTFLGTMLGGVWADQSWGRFWGWDPKENGALLIVLWTAVVLHARGPRLIGDVGMAVG
+AVLGIVVVAVAWQGVNLLGVGLHSYGFTSGAAFWLTLIAAVEVIFCAATAGWIRSEEARS
+EKREVCDGSAFEPCREHDAEAGAAEF
+>tr|A0A1W9LBH7|A0A1W9LBH7_9BACT
+MFDKLIRFVLHQRLLVILATLIVAGAGLFAWKTLPVDAFPDVTNVQVMVLTDAPGLAPLD
+VEQQVTAPIELAMQGLPGVAQVRSLSKAALSQVIIVLEDGVDIYFARQLVFQRLQTAKEQ
+LPDWAEPEMGPISTGLGEIYQYTLESDAHTPMELRTIQDWYITPQLRTIPGINEVNSFGG
+FVKQYHVLVDQNRLLKYGITLTDVLEAIERNNANAGGNFLVRGWEQAYVRSLGLIQGIED
+IEGIVLEARDGAPVFLRDVAAVKLGPETRQGAVTRDGRGEAVAGMTIMLKDQNSKRVVEA
+VKKAIPKIQAGLPEGVKINTFYDRTELIQACIRTVGNALWQGGLLVIVVLFLFLGNLRAA
+LVVALSLPLTAFIAFILMGSQGMTANLMSLGGLAIALGMIVDASIVVCENIARHLSERTG
+SGLSRLETTYEAVREVARPIVFAILTIIVVFLPLFSLQQMEGKMFRPLALTMCFAMVGSL
+LVSLTIVPVLSSFFVRGQAKGADNAVIRLVKRGYLPALDFALRRPKTLVAVAGALLAGSL
+ALVPWLGTEFLPQLD
+>tr|A0A1W9LHI7|A0A1W9LHI7_9BACT
+VAAPHTVAREVAPDAAGPVVSTGSALSDAQHQRIRRRLREGRLSAREALYYSPLTNAPPS
+AVR
+>tr|A0A1W9LD32|A0A1W9LD32_9BACT
+ADVARAVVPGAPAAPGAVVARPLTRAERNVAGITEALKVRLQVDFYTFRKPGNGGAGQEK
+QP
+>tr|A0A1W9LEE5|A0A1W9LEE5_9BACT
+MIDAPLFLFAYFSFIVFLLGACIGSFLNVCIWRIPREESVVMPRSHCPHCNKLIAWYDNI
+PLVSYLSLRARCRHCGGKISVRYFLVEALVGVLFLLVWLRYGVDVRTPVYWMIASGLVLG
+TFVDFDHMIIPDRVTLGGVVAGLVLSPLLPALHGVATPLASFIEALKGMAAGAGILWLVG
+VLGKLAFKKDAMGMGDVKLMGGLGALLGWKSVVFTIMLSSVLGSLVGLGMIVGHRKEWQS
+RVPYGPYLALAAMIWMVWGSGWWDAYANWVSGGAL
+>tr|A0A1W9LEN4|A0A1W9LEN4_9BACT
+MTEGAPRRPYRGFRNGILGALMLGAAFAGCRTAPPEPPAARPDPLAVRRTFRVVSYLPDY
+AVRQMRDLDGYGPQWLDRLRLEGVECLILHGVVDPTPAGGIALPWNPAPSNGPVKFSDSD
+FLQIRNHVQARGIRLGISVGGEGWMNGGTLAKVAADPTTRAAFAAAMARFCAANSMAMID
+FDWEYPKTRREEADYGRLIAEVKARVGPSGTAVSVCVGGAEMHGRPHVDEATVRAADRLH
+LMAYLPPADQKNARMAYLQKHVRYWLDVRRLPPEKLFVGIGFFGRQTGPCTAGRPRHLAY
+RKIYDAYHPLPGDEAAAGYWFNGIDTVARQVEYAWSQGLGGVFAWDAAQDVTTDRPTGAS
+LQAAIDRTLRRLQHAHPAPAAAGIQ
+>tr|A0A1W9LAA0|A0A1W9LAA0_9BACT
+MARVLGLLALSLSFVAAAQAAPEKPVRVLMTTDHPKNSPHLVWVREQGPARIAYIQFGHD
+AKAYANPAYRTVVRQAILWAAKRDVASP
+>tr|A0A1W9LBD2|A0A1W9LBD2_9BACT
+MQAQFPVLDLAMAADRPPAIQHVRLCEVLIHHQVPDQAALIVLDLLLEILDGRVAPGRLG
+GHRAHGDIGQDRGDSPAGAMRERDLLAVVERRWRHDVARENPAQQFRDFLLPDRRVQGQD
+AVEHGTQRVEVGLGRDGRVLAHLFRRHEPRGAEH
+>tr|A0A1W9LFP8|A0A1W9LFP8_9BACT
+MHRSVMLRQVLEWTAVRPGGRYIDATLGGGGHAEAILEASAPDGRLLGIDADPDAIARCR
+GRLARFGGRFDAAHARFGRLADIAGERGFGGADGVLMDLGVSSFQIDEPERGFSFRADGP
+LDMRMNPAEPLTAADLVNTLPEADLADLIRRHGEEPAARRIARRIVARRQTVPFRGTADL
+AAVIAAAAGRPGGRIHPATRTFQALRIAVNRELDELDDGLRGALDALRAGGRMTVISFHS
+LEDRTVKHFFRAHQPRSEALAEGGERWVNEAPPVRVLTRKPVEPDEAETAENPRARSARL
+RAAERTS
+>tr|A0A1W9LHM9|A0A1W9LHM9_9BACT
+MNSAISARGLAFAYRPAEPVLRGIDLDANAGELVCLLGPNGGGKTTLLRCLLGLAVPSSG
+TVTIDGRPLSGLKPRERARRLAYVPQSPASAFAFTAREIVLMGRLSHLGVLGLAGAKDLE
+IVRAAMEMTGTEALAGRTLDELSGGEAQRVMIARALAQQPTILLLDEPTSHLDLRHQMSV
+TAMLRRVARDWPMAVLCVSHDLNVASRFADRLVFVAGGRVAADGPPDAVLRADLLREVYG
+IEVDLVPRPESGPSLVVARTPEPPARAPKAGQAP
+>tr|A0A1W9LEW5|A0A1W9LEW5_9BACT
+MTYTYLAASLPALVFGVPPPYGVAEFRARCEGVLSRADLAFLNALIAGVPAPGCRFVAEW
+QARETQLRNGVVRARAAHLGLEARPYLHDHAGWDMSVAKAVSDAFSKPNPLERELELDRC
+RWRTAEDLSRFTPFGVEAVLSFAVRLGIAERWAGLAEDAGMQRVEDFVGAAGAEAGTKP
+>tr|A0A1W9LH64|A0A1W9LH64_9BACT
+YSEKNQGTCFKIYLPTVDQVPQPSVETGAEPRSTSEKHILIVEDEDGICQLAARVLREGG
+YRVTMAHSANEARIAFQACGGEVDLLFCDVVLPDQNGVMLVESLLQMRPGLRVLMVSGYP
+DDFARWETIRERGYPFLQKPYPARDLVRIVRGVLETGATPKV
+>tr|A0A1W9L9Z8|A0A1W9L9Z8_9BACT
+MGRPDIIRRPAAVLCSVAEARGVGDEVGADLDRIAGLFVSAPGLAEAIDNPAAPLSRREL
+AGTLENACAQPLTREFVRRIAVRRMAQWLPVAADAYRAERERRAGVVRVTLTSAAPLPPQ
+TVARIERWAATGRAGVRTTTTVNPGLIAGFRVRIGDLVHDFSVAARLARARRGLAAAP
+>tr|A0A1W9LHP7|A0A1W9LHP7_9BACT
+MNLFWDTSAFVALLLEEVHTPAATCAWEESDSDLAWRWLRVETEAALIRRNAAPGRWKHM
+DELLVRVEMMDLSPVDLDPVCRANRQWRLRASDAGHLHCFRRAAYAMPDLQLVSFDEEML
+AVARALGLQIWQPPGAGGLRPSLIREAGAAYESPRRRRRRAK
+>tr|A0A1W9LGA2|A0A1W9LGA2_9BACT
+MNARSLLLAVAVVGAWVAVAAETPPAPAPKPPPKPAVAVTDPMEIQLPDMQFRQATVAEI
+IDWIQARSVEADPAGVGANLLFKDDPKRPVGTTRLTLSLARPTVRRALDLLASVATLHVR
+QDARVIVITPSQTVIGR
+>tr|A0A1W9LDH1|A0A1W9LDH1_9BACT
+MNYQLAANTIRGLAMDGVEKAKSGHPGMPMGMADVAAVLWLRYLKHDPTDPAWPDRDRFV
+LSAGHGSMLVYSLLHLAGYDLPIEELQKFRQVDSKTPGHPEFGETVGVETTTGPLGQGSG
+NAVGMAIAEQMLTARFNREGLPVVNHRTYVIAGDGCLMEGVSHEVFSLAGHLKLGKLVLF
+YDSNHITIEGSTDLAYSDDVRKRFEGYHWNVLEIDGHNPVEIEAAIDAAIAQQERPTIVI
+THTHIAHGAPRLHDSHEAHGAPLGPDEVRAAKQNLGLPADRDFYVSEAVREQFAARRAEM
+TAVHDEWKKLFGRWRAAHPDLAAQWKAAQKNELPADLDACLPVFDPAKPIATRAASGRTL
+QELAKKVPNLVGGSADLAPSNNTHLKDQGDIAPGAFAGRNFHFGVRELGMGAVMNGIALH
+GGFRIYGATFLVFADYCRPAIRLAALMKIPVVYVFTHDSIFVGEDGPTHQPVEHFASLRA
+IPNLTVIRPADATETAAAWTVALRNTTGPTALLLTRQNLPILDRATFPPAASLGQGAYTL
+WESKPGAKPDLVLIATGSEVSISLDAARTLAAEDGRAVRVVNMPSWELFERQTRKYRNEV
+IPPACKRRLAVEAGVSMGWAKYVGLGGATISIDRFGASGPAKALGEKFGITAANVLAVAR
+SMF
+>tr|A0A1W9LEX6|A0A1W9LEX6_9BACT
+MKKTIGSILAMAAIAAAARAEPAPKDYTKETPQERAARMAWFTEARFGMFIHWGLSAVNA
+GEWNGKPAARYSDWLMHDAKVPLAEYRGLLQQFNPVKYDPAEWARIARDTGMRYVVAVSK
+HHDGFCLWDSKETAYDVASTPYGKDLLKPLAEAVRAAGLTMCFYYSILDWQHPNYAPQPA
+WDAGREGARPDMDAYTAYMKAQLGELARDCGPLGILWFDGEWEPSWTHERGVDLYNFVRS
+LQPSILVNNRVDKGRKGMTGMNAEGDFAGDYGTPEQEIPSRGFPENVCWETCMTMNDAWG
+YKKDGGRWKSSKELIRQLADTASKGGNFLLNVGPKADGTFPPEIVERLADMGAWMRVNGE
+SIYGTTATPFARLPFRCTKKRGMLYVHVFERPADGCVALPGLQNAVKSARLLAGGAALAV
+TAKDGVPTIALPAAMPDANDTVVAVEVEGLPVAVPVPPGQAADGTVELDAPGAKIHGDVL
+KYEASDDSLGSWTRDRDGAEWSFNVTKPGVFDVAVTYACDGKSAGGIYQIKFIDQVLDGK
+TESTGGWTKFKTFAVGRVTISEPGAWSIGIRGRKPEKAASLMKLRSVTLTPVK
+>tr|A0A1W9LHJ8|A0A1W9LHJ8_9BACT
+MRSFRSRIDGSVQPYGLVVPPAPAGSAPYRLDIWFHGRGETLSEVNFLAGRLKDPGQFTP
+PGAIVLHVYNRYCNAARFAGETDVFEAIDHVKRFYPIDPDRVVVRGFSMGGASCWGFATH
+HAWMWAAAAPGAGFSETADFLKVFQNETLRPPPWEQTLWRLYDATEHAANLFNVPVVAYS
+GEIDRQKQAADLMEKAMAGEGLSLTHIIGPATAHKYEPDAKARVDAELDEKERTLRATTK
+GVTALSFVFDQGRVPFEGKPPVAIVLDGQILAAPRAGSGERVWRFRKTGTTWAAALPADP
+STLAKRHGLQGPIDDAFMDSFLFVRPTGTALHTNVAGWVAGEMTRAIGEWRRQFRGDARV
+SEPHESEALRGDQQRVHVARVRPPQQCAPDAEAARLGRGRHPDPRHAPRTRRHRRRRVLR
+GAVGSPCIRRPLARRGEPPRPTPALHGIRGRAGPPGRPLGRFP
+>tr|A0A1W9LBS6|A0A1W9LBS6_9BACT
+MVLTKLSRWSAWAAMLIVVVYIITGYGMTKRIVDPDWAKRIHQQWLPIPLFLTLLLHGGL
+CARGAVRRWHVFRNALAGDLYVLAVGIVLFGLFVWLYLS
+>tr|A0A1W9LCR4|A0A1W9LCR4_9BACT
+QKNKRINIRLSEKDLIGIQTRAVEEGLPYQTLISSVLHKYLSGMLTEIRRA
+>tr|A0A1W9LC61|A0A1W9LC61_9BACT
+MADEATFLARREFLRRGLAGAAGLCAAAAAAGAMRGAVSQAATVWQIDPTLCVQCGQCMT
+HCVLAPSAVKCVHTYAMCGYCKLCFGFFQPGAAALTTAAENQMCPTGAIRRTFIEAPYYE
+YTIDEKLCTGCGKCVKGCNTFGNGSLHLQILRDLCVNCNECAIARACPADAIARVPVEQA
+YRMKSSHAPAAAPAAGPPADA
+>tr|A0A1W9LDR3|A0A1W9LDR3_9BACT
+MAAALLLALAATGCVDGTANLRVARDGSGTLDVRAVSPADATARIRTAGFPLDAMGIGGA
+ELLKSFAPSDAATLVDRRALEQFARELGPGVRLVSVERVADKNKIGFAARYAIPDIREVR
+WRIAAVDGKPGSGGGLGFDFVAGDAALLKVIPAEPSSRAPVVQTAAKPPSSRLLDAAMAA
+LFEGFRLSAVLRVDGEIVRSNAAHREGADVTLMSLSAAAMKGPDLWALLGMRSVTDAAEM
+HRRTPPGVKMQDPSQPLVVVFR
+>tr|A0A1W9LEU3|A0A1W9LEU3_9BACT
+MWFFFIGILGAYAAMHLYLFFKVRAAFPGATRLRIALAAFLGLMVAAPFLIHQQEHAGHL
+AVARAFGLVGYTWVAWIFWFSSLALAADAWNLLIPRARIPPRALIFGAAALVLAATAWGV
+VEASRLRVVEARFDTSVLPPNSKSISLVLISDIHLGIDRGPAVLHRVIRRIRELNPDVIL
+CTGDLVDAPYNQLRPLAEELRSLEPPLGKFAVLGNHEYYIGLPDAVAFHEAAGFRLLRGT
+TLVIAPHLRLAGVDDPAGHYTGQPSFDD
+>tr|A0A1W9L7Q0|A0A1W9L7Q0_9BACT
+MRTYELYVGPKKYDVLNRLDARRVDVMEFGWAGAIGKILLAGLNLIHSLIPNYGLAILLL
+TIVIRILFWPLTHKSTESMKRMQEVAPLIKELQAKYKGDPKRQQQATMQLYKEKKINPLS
+GCLPILVQLPVLIALFVVLRGAIELRFSPFLWIADLSEPENLLAGMLPFGLALNPLPLIM
+TAMQVWQTKLTPAAGDPAQQKMMLWMPVVMLYFFYGFPAGLVLYWTTNQALMIAQMLRQR
+MRTAAKAKGATKP
+>tr|A0A1W9LFK0|A0A1W9LFK0_9BACT
+MPAAPAPSFSAGLPDALTNDADFMSACTAATATYFHFVNVATPATGYALVAGGLRGPAST
+VYVLKFGLQNGDFQQATWWETPVRYPPVHHDAALWLVSQRGGYANPSTSNLLLNSGFESN
+GGAGQVAASWTRSADVGAENWAALSGAWGMAFYSWWPQKWGEIRQDVSNVTAGAVYRFSL
+PLYRDSSFVASTIELSIDWLDLNGVMIGRVSTSLVGQLSAQWQTRRVTAVAPAGARAARC
+RAYCAGITSGGALKLDDAALTLGIAATSATVRLVFDPARDDSPFLPRWEVAMGTAEGTFV
+HDVFLGVAPSGDTDSDGMSDADELYAGTDPKDPDSALVAYAAPRGAAPPNAFVISWESAT
+TRTYGVTGWFEPTTGTPRRVATGIPATPPVNTATDNVTSARSYYRVHVE
+>tr|A0A1W9L9L6|A0A1W9L9L6_9BACT
+SGDKPLIRTVYLVRTNLTAMGGSAAVEIEPVSARCGIGDSNFTEILEGPAEGAVVAVGTV
+QKTPLSPAALGAPNPLGGAPRRPF
+>tr|A0A1W9LFY6|A0A1W9LFY6_9BACT
+MRRCRTIVPVCLFALLACAPAVSAFSRTSFPVVVGGFLDVHAVMPNGVHEPDPGPDFGDC
+IVARYLVEWYGEFRLRRFPRLYFFGNPFFPLGDCIPQESYDRDADLEGYQGRFGGGFVIC
+SNLEYRITHSKWEDVGRYTGEAMPWNSSSLRIKWNHAGRLVTSGYVEGFYYPPHNEYDPN
+PGVPHWLRITARYGIEAYGEFRSASFPRLYFFARPLVLFGNTRPHYDYNHDADPMVAQAK
+CGIGWELQKHVDLRFTYNKWVDLGVYQGSDDPWTSLSVRLKW
+>tr|A0A1W9LBG1|A0A1W9LBG1_9BACT
+MNDVILPPFLAGLSMGLFCCTSCLPFIAPYLVSESRDLRATLRIMLEFIGGRFAGYVLFG
+AVFGYLGEQITDRAVNNLVVASMMIASWLLILYAVGLLKPSASFCGGNRLAAKRTPLFMG
+FLMGVNICPPFLMSVAYVFTLHSAWKGIVYFLMFFLATTLYFVPLVFLGLLGKMKEFRTV
+ARVSALLVGLIFSAYGLYALTRGAVVVHAP
+>tr|A0A1W9LHG9|A0A1W9LHG9_9BACT
+MIDARYIETLRRQLAEVEAEISQPGAAANPSAYRLRIAEHARLRGICEKADRLEALQREA
+AQTRELAAEDGTDAELRAMAEADLARIEAALPQAGKDLLVALLPPDLSENRNIIMEIRAG
+TGGEEAALFAADLFRMYSRHADRRGWRIGVIDVNASDIGGYKEIVFSIEGQQVYRDLRFE
+SGVHRVQRVPATEQQGRIHTSAATVAVLPEAEDVDEIEVRPEDIRLDLYRASGAGGQKVN
+KTESAVRITHLPTGLVVQCQDERSQTRNKDKAMRVLKTRLLDAHRASEASKTADARRIQV
+GSGDRSERIRTYNYPQNRLTDHRINLTLYKLGFILEGDLDEVIAALQAHDLQERLDLHLP
+DAATP
+>tr|A0A1W9L8N1|A0A1W9L8N1_9BACT
+MLWQLTESRTIDDLLSALSRGREVYALEPADGGQYHLVKAAAWEKGKHTLGAYRPVEPLK
+SVVFRPRELLGPLTSASAPAPLPERIVIGVKNCDLSALQIHDYVLLKNEPRDPYYAEARE
+KTLLVSCDCTGCLDVCFCPVVGEQPHPKKGFDINLSPVSGGYLVEAGSARGEKALEGARD
+LLVPAGAGLAEKRDADRSAMTRRVTDQAATHGLKPGMDLRKAIQKSSESKLWEDFAEDCV
+ECGAC
+>tr|A0A1W9L8F7|A0A1W9L8F7_9BACT
+MRTNIELDDSLLATAREYSVGRSKRAIVEEALTAYVTMKAEERRRATYRERLARVRVRLA
+GVRTGVDVRDMIREDRDSR
+>tr|A0A1W9L9K3|A0A1W9L9K3_9BACT
+MTRETLFGRDEILAVLPHRPPFLFVDRVVELDPFRRIVAERLLVAEEPFFAGHFPQQPIM
+PGVLVSEALAQTSGLLLGLSRRVAGTDTAGVGDGAMFYLASVNVKFVRPAVPGECLTLCA
+TCERDLGRLSRFNVEASVGRRLIAAGSVTLARAGGEP
+>tr|A0A1W9L9K2|A0A1W9L9K2_9BACT
+MNGTVKIAVLDNLCQAQMLESALNALNIPHVIRSYEDLVLDGLFQNSKGWGHVEAAAEHR
+PAILAALEDLRSSGDTSAGPA
+>tr|A0A1W9LAW2|A0A1W9LAW2_9BACT
+MLVLNCEGIAGAVSYTFVTSLGNAQTVADPEVTFDVGAAPPAGSTFSVFATNGDEVNTRI
+ANAAIN
+>tr|A0A1W9LEK1|A0A1W9LEK1_9BACT
+MCLAGFLWIFMAAKGSAVVCTTQYERVTWSIDKIADANITFVSHELNHYIYRADLWPTVK
+YKPASRRIRSLETAIACGTIVG
+>tr|A0A1W9LBV4|A0A1W9LBV4_9BACT
+MSTATVVRSDVNIQDLLDAGLHFGHQTKRWNPKMKRYIFGERNGIYIIDLAKSLDLLTEA
+RQFIYNIVARGRKVLFVGTKKQAQEPIKELSERLKQPYVVNRWLGGTLTNNLTIRKSVTR
+MRELQKLETDGTMNTMPKKEVSRLRRELEKLHYNLDGIADMDDLPGAMFVIDVMREAIAV
+AEANRLKIPVIAVVDTNCDPDPIDYPIPGNDDAIRATRLVIDTAGTTIQQALNEFAKVAA
+EEARKRAAAEAEAAAKARAAEEERKTKERAAKKAKAEADAKEKEAAVKAAKAEKEEKKAK
+VAEAAEAAKAEPAPAAKPEEPAAPEAGAAPTPTA
+>tr|A0A1W9LE59|A0A1W9LE59_9BACT
+TILDVDYRSETNFYRVLLDYRNKLFFMDPRWNVLSEFPLWSDKNIQNVSHRVEVARCCDN
+LTITIIRLDNMQSKSFEVVAPSQGGKVRFGFLEDVYGDVCFNADAFYVKGTTAEEDADGG
+WVKGEARFLLINSPPLQGYQFVGRVRDKVWHKKKPGFVWLDCYIKE
+>tr|A0A1W9L9U6|A0A1W9L9U6_9BACT
+MSAKGTFTIRKIAELVKQGEGSALEFKRSTGELKEAMKTLCAFLNGTGGTVLVGVWPSGK
+IEGQDVSDQTLRDIAQASDRFEPAPHLAIQRVRLASGKEVVALTVNTGAGKGPFTYEGRA
+YERVGNTTRKMPQSKYEGQLLDRTHSQHRWENAPADGVAITDIDRHEVFRILEAARVKGY
+LLEPVGKSVAGILDRLGVRKDGIMLQAAVVLFGKDFLPYYPQCELRMARFRGTDKTEFMD
+QRNVRAPAFKLLEEAEMFCHRHFPLPGKIVPGKLQRQDKPLIPPDAMREILVNALIHRDY
+SIAGGAISLAIFDDRVEVWSAGRFPTGITPAMLSREHNSVQRNPTIADVFHRAGLIEKWG
+RGTNRVIDMCKASAVTPPEFEEITGAAVVRFRVNVLGSGRTTEQVTGQVAMQVTMQVTVP
+VAKMLNLCRTQKTRDELQRALGLRNRDHFRRAFILPTMADGLIEPTIPDKPN
+>tr|A0A1W9L8K4|A0A1W9L8K4_9BACT
+MIFHSDDDLLGGESIYCINRSQIETASDLAYRNPETAPRIQDTLDNLETRFSRNERAAIA
+FLLIERLRKTADEPA
+>tr|A0A1W9LF74|A0A1W9LF74_9BACT
+MKTAISISDPVFLEAEAYAKRHGISRSSLYTEAVKAFVEHRRPADVTRQLDEIYAREAGE
+LDVVLGRMQASSLPKETW
+>tr|A0A1W9LF63|A0A1W9LF63_9BACT
+MIEVMLAITILGLGLTVLIATTSRCLAVVRQAKNYETARHLLGRVELEHPLQLEEKIEAG
+SDSGDFSGVPGFQWTRDIEVVGKEEDGLFSVLTRIAWSDSGRKRSEEVITYLYRPEEKKG
+GTVVSKP
+>tr|A0A1W9LF73|A0A1W9LF73_9BACT
+MHVRALPVRGPIDIVGAGDAVTANLAAALAAGATLREALETAAVGSSIVIHKLGTTGTAS
+ASEIAVRLSDAGCSCPAQGGGPGGKERGR
+>tr|A0A1W9LDV9|A0A1W9LDV9_9BACT
+MRSGTGVPATESRKTLCDSKPSGIIHFSFSGARLLKLRLTLNASLSPDFAPRNVVLPAAV
+>tr|A0A1W9LEG4|A0A1W9LEG4_9BACT
+MNRPLLDTHIWLWWMFRSGELASAVLERLDRMAAGGRPLLSAISLWETAMLVERGRVKLE
+RDLGSWLRAAAAPECVELVPITPDIAAESALLPATLHRDPADRLLIATARVMSCPVLTRD
+ERILESGLVKLWTS
+>tr|A0A1W9LH12|A0A1W9LH12_9BACT
+MNEMTDEIAFAIWRRFFDQLRFDCLACHARGLFHRPSTLAPRPSELPDDMTPDEFREMVV
+FVFSPTFDFLCRTLLRREGAYIRRLLQMPPDALCSSSTPCNPLDSLARSDCS
+>tr|A0A1W9LGW0|A0A1W9LGW0_9BACT
+MTHPAVLLMAYGTVSSMDDMAAYLLDIREGRPPSPELVLEMQRHYEAIGGSPLLRLAEAQ
+ARALEAELARRGRPAPVFTGMRHWTPRIRDAVAAMNAAGVTEAVALVLAPHFSSLSIGRY
+RKRLDEALAETGAKIRFHVVESWWEQPRLFEAFERRIRDALARWEGAPPARTRVLFSAHS
+LPARIKAMGDPYEDQLLAHAKALAQRVGLADWMFVFQSAGASPEPWLGPAIEDVIPRLAA
+EGYRRLLVVPTGFVCDHVEILYDLDLEAKALAAEHGIELARTESMNTFPPFIAALADTVL
+AAAK
+>tr|A0A1W9LDP5|A0A1W9LDP5_9BACT
+STFDETWKPVWGTAGQVRNRGSELAIRLRETNAPQREMELVFRAFDDGIAFRYILSAQSN
+LSEIAIASEETQFRFAGNHTAWWHAVDYDGDEKTYNTTPLADVQACNTPLTLRTEGGLHL
+SVHEAALVDYASMTLVPVPGEAHALRCDLVPWPDGVKVRATAPMTTPWRTVQLVDRAGGL
+LESHLLESLNAPCAIADTSWIEPMKYMGIWWSLHIGKETWAAGATHGATTSNTTMHIDFA
+ASNGIRGLLVEGWNTGWESWFGGATFSFTEAYPDFDLESLAKYAREKGVALIGHHETGGN
+IAAYESQMDAAFALYERLGIRAVKTGYAGKILPEGQHHHGQWMINHYQRVTEKAAAHRIA
+LDVHEPIKPTGLCRTWPNLMTGEGVRGTEYEAWSDGNPPEHTTIIPFTRGLAGPIDYTPG
+IFAVTFPKYRADRRVHTTVAKQLALYVVIYSPLQMAADLPENYEGQPAFEFIREVPATWD
+ETRALDAAIGDFVAVARRKGDRWFIGVITDENARELELPLSFLDPDREYEARIFADGEEA
+DWEKNPTPVDIRAQTVRRDDTLRAKLARSGGQAIILSPKE
+>tr|A0A1W9LFW9|A0A1W9LFW9_9BACT
+MPPDAAGRNALRIAADEHVADRRLVPPLPIDELRAHARQIAVRNALPVSYTDFLTVLVSN
+AIWRDTVARIPFERRVILLPQCLRDRATCPASIDALGVLCEQCGRCPIGALQAEAEALGY
+VVLVAEGATVVTRLIESGKVDGVIGVSCLAVLERAFPHLSAEAVPGLAIPLLQDGCHGTS
+VDTDWIAEAIRLRSGETWMGRADLDRLADDVRGWFSPEALDARMGVPEAAVDRIARTWML
+RGGKRWRPFLLAAVWRALRAPESVVPGGVRDLALAVECFHKASLIHDDIEDDDAMRYGVD
+TVHVEHGTPVAINVGDAMIGDGYRLIARCGAPAEDVRAMIEVAADGHRTLCHGQGGELAW
+MRDPTPLSTHAVLDIFLRKTAPAFEIALRLGAIAAAGRDPGVESALRDYSAALGIAYQIR
+DDLDDLHAPPPSAAVAQPRMSILSALAIETAAGCRRTAVEQAWLRPAQNAAGFDLREFIR
+TADIPARALQMMEHHKNAAVRSLEPLQNVHLKTLLRRIVGRIVPRT
+>tr|A0A1W9LGG7|A0A1W9LGG7_9BACT
+MADPPRTGWCGRCSSPTATTRANRSPQCRDRVAGASRACARRSRARSATASAPSFSSEFR
+AAPRTPAARGPTRRTRPSSAPSARSGGPIRTSFGDRRAYQLPPAARRLALRAVLRDVDEG
+ADLVMVKPGGPYLDIVREVRDAVRVPVLAYQVSGEYAMLHHAAAAGAFDLRTAVVESLAG
+FHRAGASAVVTYFAPQALGWL
+>tr|A0A1W9LFN5|A0A1W9LFN5_9BACT
+MLALAAGAVALMNGEAVDALRGFVRSRRTPDGGFRGRAGTSDLYYATFGLALARLLGEPP
+SPPERAWLDGFSDGAALDLVHRASLIRCRALTDALPDPTSWRTGLAAFRSADGAWRSTPG
+APSGGPYAAFIALLALEDLGGAEAADLDATAQTVLRCRGADGGFGGTPGAPPTTAVTSAA
+VVFLQAAGHAVPDATLDWLAARRSPAGGWFAAPGAPVPDLLSAAVASAALRIAGRDVTGP
+PDADVEFIERHAREDGGFASHPADPTADVEYTWYALLAPGALFAP
+>tr|A0A1W9LFL8|A0A1W9LFL8_9BACT
+KHRTKKEAVTQALTDYIRHLRQDRIVDLFGKVDFDPGYNSKRQRARA
+>tr|A0A1W9LAU0|A0A1W9LAU0_9BACT
+MNGRERYMAVLEGRRPDVVPRLPILMQFAAEFIGSNYGDFASDHRVLVQANLACAETFDF
+DQVSCISDPYRETQGFGGIVEFVRDGVPRSTHPLAEDRNLDALPRPDPLIATRMRDRVDA
+CRAYRAQDGGRHSILGWIEGPAAEAADLRDTMNFLIDLMDDPPYAAALMDRCVQTGIDFA
+RAQIDAGADTVGIGDAIASQVAPETYEALILPREKQLVDAVRAAGARIRLHICGNITHLL
+PGIASLGVDILDVDHAVDLAAARAALGPRVTLAGNLDPANAVLRATPASIREGIRRCLDR
+AGTPFMAGAGCEIPAGTPVENLKALCEPIPWP
+>tr|A0A1W9LD06|A0A1W9LD06_9BACT
+MSGSGVGLMLCGVMVFGVLTSEVGARVISVGTLDNSSDEFLQGGFTGQPINLDTQTSSNF
+PKELNNSWYTNQAFFFTLSGSDVTNPLSATLIPAWSLSNNAMRVALDVYVGTNWQEVEQV
+DIGRDLPEAIVVPVSRLVTGTNRFRVRSADPRPPGAAALTWDQIVLSRVGLTKIILGRND
+ASSGEFKQSGFTGQEFDLDNGSSTNFPKELNNTWYTNQPFDFVLAPAAARKDLAITLNAN
+WCLSNAPMTVAVEQYSWTNWLEAGRVSVTAQVPGVVLVASSNLSSGFNYFRLRSVEASPY
+PRAVTWDQIIIENKSNSSCLVLGRRDYSGAEFKPSGFTGAPADVDHESVTNFPRELNDSW
+YTNQQFYFILNRTASTKQMAVTLDPAWIDNTNGTLTVALDLKENGTWRELGRVDVNDAIT
+GLIMLDAADMPEGLVHMRLRTVQGNGGAHAVVWDQIIIETKEAEARVVLGRRNGSSLDFQ
+QEGFNGDAVDADHQTSMDFPEELNDSWFTNQSFYFIMSQAAAQQDLTLALYPAWIDNTNG
+SLTVAVDIFGASGWSTVAETNISPAVPAVIVISTSNLVEGFNDFRLRTVRGNGGAHSMAW
+DQIALRSRSLDGTTVRVIGDADWSDLDFMQSGYTADFVDLDNAFASDIGKELNMTWYTNL
+NLFMWLDSAQVTKDLVFTLDPAWGSATGSLNVALDVWSGTAWKEVSVVELNGKFGATVAI
+AADDLTTGYNNFRIRSVSSNWTTTAITWDQIVVQSRDIALAHNNSYPTPCAEEDNLNVPF
+RRKGIRNFRIIATHPTYYPQDLNSSASDFTGCDWPIENSVMVRVVSSTGDTSYLYWDSIR
+VENHAPPPAKVEKLVGTNDNSCAEFHQVETNYFHWTDIDWSGATKFPKEINTNWWQFENF
+VFWLNEDQLANDVDITFRTSYAAGTGTIRIAVDVLGRKNNSDWVNLGTNDFSGIDEHTFT
+IPFGLLKMGIPKPPGGGNVNTPIFKEKNDANVYGQYAVEVATLGDFWLGTNSTMNVHLHV
+PDEWATTSQLFQADAMGVQYVCVYRNEPLPSGSGPQFIGLYQDGYCRLLPQPNSNTPPQL
+SMGPSTIIGPVPEAFRPYTQISNVEIYLSGPAPTTRSFGGVRFDITYVDGTFSRWDVSLN
+DQRVMLDVRDATYDTENYPFVTLRSMWVLDGDSDTDRLVTKDLFRPILKWKDELGDRWFF
+TRKVPSYHQTTNPDITVEMLDPTTIFLVRQAEYPLSTGVTCHVHANDTAQGQKCLYLPEP
+NGEASWKFTTTTTRDNAYLQVLYADGRGGNIVTVYLDGVTSGQFTTYTTWDWQTFQYSDR
+VRIGTVSAGTHTIRMATGLNPDGYSDGLKVDLFELLTIPPLLNLPEQIFRTVQAESVGVG
+KDYQIGSSTGAVGGLNVMIPATGGEVAYYVTITQAVPECYMRLRYNEDSTNWNTVNTYLD
+GNKKGKFPTRFTGGPNSYEAPWPVWLGALCVGTHEIRVQVEPGITGVNLDQFTLHYVNPD
+TTMPIAESGKITVDQPSKNRWRTVNLTNLFTTPVVVMQPASCTDTNPAHIRLGRVQRDRF
+SFQIEEWNYEDAVHGTETVSYVVMEAGQHRLADGTKIEAGLDSSVNSAWKSVSLLSSFTS
+TPVILTQAQTTNESDSVVTRQMIGTYGSTTNTVPAVSTNAVRLGLGYTGLCFNGLLDEVM
+IRGAALAEEEITGNYSQTTLAAYWKCDEAVWNGTSNEVLDASTNLNRGRSYNGAVTTTDA
+KLGRAGWFDGTNDYVEIPNKASLQITTNLTISFWIKGRNLGAARFNPLDKDYGGEFSLTI
+ETNRGLSYYHGTARTSGKYWGWTALPAGSLTNNAWQHITIVRDTGTRQMRSYINGVQKST
+TTYVIDTNKNPKATTSVLRMAKGYTGSCLGGVLDEVKISRAARTAAEVAQEYGRGNLAAY
+WKCDETSWGGVSNDVADSS
+>tr|A0A1W9LHP1|A0A1W9LHP1_9BACT
+MPDEGAARAAMTAATKDAEGRWTPLFNGRDLAGWSVKCVAADTNKVYWRVADGAIVVDST
+QNPKHDYVWLMADGEYGDFLLRLRFQPFRGIPGNSGVPFRYADDPEPWNDLRILARNARV
+IVELNGRIVRDADLKGVLDDAPHRERNTGLRIAVWPCGGGGGGSRFILPPHRGKPGGTGT
+AGRARWDRYRNSPVGAEPRSGT
+>tr|A0A1W9LFM7|A0A1W9LFM7_9BACT
+MRPEELLQMGKLPEALAELEGLVRAAPADVKLRVFLFQLLSVMGEWERAMTQINVVADMD
+AGALLMARLCGPALNAEALRADVLAGRRTPLVFGEPAEWVGKLVEANRLLAEGHGPAAQT
+LRAAAFEAAPSVPGAIDDHPFEWIADADPRLGPVLEVVLNGNYCWVPMIRVREVRIEAPV
+DLRDLVWIPATFIWTNGGEAAGLIPSRYPGSEKSSNSAVRMARKTEWTEVGPDCFQGLGQ
+RMFATDTAEYPLLETRRIVFETK
+>tr|A0A1W9LDS7|A0A1W9LDS7_9BACT
+MRVELAAVLIASAAAFLPLASASHAADNIATNGSFEEPAGQEGAPPAGWIFFSNKLIKMG
+TSRETMRSGGQCLRFEAQGVPDAFQGCTLSVPVDPARKYTFSAYLANSKSQPLGGTDHGF
+LVVEWCAADGKELTRTLSKMYDPSLSRIRWEQFVLSNLTPPSGAATAVVGIHLSEGKSGA
+TGCLYVDDFAAYEQ
+>tr|A0A1W9LEK0|A0A1W9LEK0_9BACT
+MNRETEALNALRVIIDPDLGRDIVSLGFVKELKGLDDGRVAFTLELTTPACPIKEQFRTQ
+CVEALRALPWVKSVDVKLSAAARPHEPATAAGDGLRDVDTILAVSSCKGGVGKSTVAVNL
+AYTLAGLGARVGLFDADIFGPSLPTMVSPTETEVYARGNRIQPLVYEGVKLMSFGYASPQ
+GGPAIMRGPMVSQVLDQLLTQTDWGELDHLVIDMPPGTGDVQLTLMQRVKISAAVIVTTP
+QKLSFVDVVKGIQMFDKLKVPVVAVVENMSWFDCPGCGTRHRPFGSGARERLVHQFGIRT
+AVDLPIREEISAWSDGGRPVVLAEPDGPAAIAFRELGASVVREVSRLRHGAATPPAVTYE
+PGRGILVAPTDGAASVVSPALLRRACACALCVDERTGEKTLDPATVPESVVPTRIEPMGN
+YAVAIHWSDGHTSSIYPYDTLSALAERG
+>tr|A0A1W9LCX1|A0A1W9LCX1_9BACT
+MNYMASLIVLAITTALINNMVFHFFVGNCPFIGVSRKVDMAFGMGAAVTFVTTIAAVLSW
+ITTYYMMAPGAPLATWLYRTLTHDPSKVSDLSILSYIVYIFLIAWAVQLVEMYVRKFFPA
+LYKAFGVFLPLITTNCVILFVCLEIMKHIGAGAADPWGLDKALVYAFFAGFGFLIAIVIM
+AGIREELDHCDVPKPLRGPGITLIIAGILSLAFMGLTGVDGNLAKMIKKGSAQTEGTTAA
+TMPAETPPSTDNQ
+>tr|A0A1W9LCC9|A0A1W9LCC9_9BACT
+MKLQINDEPYEWAGENRLSALLEGLDIPVASVATLVNGEVVPMAQRADCALQDRDRVDLL
+TFAAGG
+>tr|A0A1W9LH71|A0A1W9LH71_9BACT
+MTKQAEIDYFGRMDDNARSYAGGKPFASDRRGAYLLDMGQILDLIRQPPARLLDLGCGSG
+WTTAMFARSGYDAFDVAVLYDCLHHAEREQAVLQSVFAALAKGGEVILVEPGRGHHDSPG
+SQEAVQAHGVTEKDMHPALTTRLLRAAGFSEIRVFPRVQFQMVERCGTGGIVRALRPLFG
+PRLAGLAKTLKNSAFPGTNGVVLARKTTRGRESGSE
+>tr|A0A1W9LE41|A0A1W9LE41_9BACT
+MRTAVAVLAAWMSSGAVTFVRAGALEDAQAALVRRDFAAAYEGFMTAVRERPDDAAANLG
+AGLAAMETGRLGHAQLAFERVLALQPDNQRARLELGRTYHALGLIELAREQFEAVLSAGP
+PAPVEANIRRYLARLSAEERRWGFNGEIRLSAFYDDNANFGPSSLMIDTLLGPLQVAPES
+EPLEAWGLSAALVGNALYDLGTRGGWFATGGLALYNSFTEHADEVSVGYARASLGLRHAT
+SRREIDLPAKVEYFGFGNDDLLSSVGVEPGLVWRPLQAWSGTARGTAEYRDYAAGEDRDA
+AFYRAAASVTHRPGRDPRHAVSFLAAAFLEDANEAGHRNDGFEAGLLGEAGLPARTSVYA
+FALYRLARYGDILFADVQPEARDDDQWQFGGGLRRRFGERWEADFGYRFVVNESSFDLYD
+YQRNVVSLGVSYSLQ
+>tr|A0A1W9LET3|A0A1W9LET3_9BACT
+MRCAADAAWEASMKRVVSVLSAALVLHASSAFALWGKAETKTESGNADLKLGEYKGLKHA
+IGCKGFNNESGWAGEWKIGDNLTALLESALVDSGRFVLVEREKLGDVMLEQDLQASGRAA
+KAKDAAKTGMIRSARYLATGSVTEVTENQSGADGGIRIKGIRLGGGRSEAQVTVIVKLID
+TTTSEIVAKERVVGKAGNTGLRVGVDIGSVGTELGGFKKTPLGQAAQDCINQAAAFIAKK
+MEAFPFEGSVVKVAESGQVIINRRREPS
+>tr|A0A1W9LEV3|A0A1W9LEV3_9BACT
+MYTASDLRKGLKIELDGYPYEVTEYNFVKPGKGQAMYKCRIKNLLTQTTQDRTFREVDSI
+GKPDLEQRNVRFSYEDGQHYVFTDPKTYEEFSLNAKDLGEARYFLTDDIEVSLLFHNGAV
+IGVEFVKPFVEKQVVETEPGVRGDTATNVTKPAKIDSGHEIRVPLFINQGDWVRIDTRTG
+EYAERVTRR
+>tr|A0A1W9LBF3|A0A1W9LBF3_9BACT
+MFCRGGKTIRSFLSFEDVTKSFPDRDRLERARRGFELARDRNELLKNLPEWRMNLKDAWP
+GAAFELRLDTDGLTLDVNNAVISDLSPLAGIPLTSLSCWGNRITDLEPLRGMPLVNLNCA
+ANPIRSLAPLRDLPLLSLRCEHCEITTLEPLRETKLTVLNCAENRLKDELEPLRGVPLTW
+LACMKTGIKGLAPVRGMPLERLFCDANEIADLEPLRGLPLIEIACRGNRIECLDPLRGIP
+LNTIRCDSNRIRSLEPLRGMPLSTFSCADNLVESLDPLREMQLACLICGSNQYHDIGPFI
+KNPPKSFLFDSHSVSVRELEFVHGAWSRDFRYADALRAVEVLLAVRRSDGPKLRSLSKEF
+QGHRYLFIPKFASWTEAEALARSWGAHLVTILSPEENEFVASLFPFGGSWFWIGLNVTDK
+GYEWVTGEPFTYHSFPVL
+>tr|A0A1W9LDA1|A0A1W9LDA1_9BACT
+MTPDDKLTLADKLYRTKYEPDPGHPHVAIDAEKLKKAKTRKVLKVCPAEVYTKDPNDPEK
+IAVSHENCLECGTCRQAGADEGIEWKQPEGGKGVKYRYG
+>tr|A0A1W9LGI4|A0A1W9LGI4_9BACT
+MKKWVDISFARDAAILTVSSGLAGFLFLMVHVVAGRWMEPAAYAGFVSLLGLLWIVMVPS
+STLQVAMARYAAEYCHANAQDLWARLFRSVIRLVTIGGAVGLALWAAGSPVLRGVLSAAS
+TPALLWLGVIAFLSLYAPVVNGALQGARRFGWLAAAGLAPGLVRFGLAVPVCMAGGGGAA
+MLAVFAASVAAGLVVGAIPVRRALGSQPSLPLDLRPFAAYFWPVAIGQALLYIFMNADQI
+LMSRLLDGAVLGCYGKASILGRIDLFLAMPIVLAMFPRAVVSNDLKTLLAPVGLALALTV
+GWATAVSLAPDLALRLMYGVEGPVYARLLRAYAWAVVPLAMTMMLSQYVWARHAAMSLLW
+LAPLAAGYIVALWYFGPGDAGAMIGMMAAANSAALVVLLAITHRLVRRRAAP
+>tr|A0A1W9LCL2|A0A1W9LCL2_9BACT
+MKMHRREWKIAGGLCGLLAISMTVGGCGEKKGDTSTPSAAEAGREEHGGDDGHGHAAEPA
+ATPSASIEERVSVKCEHDVPTYRCAECRYEVGVVKLDASLLKRDDGGGLVRTQSVAKTKV
+FPALPATGEIAMNENAAVHISARIAGIIESVPVDIGARVKAGDTLLTLDSIELGKALADH
+ERDRTLSELSERILARETKLREQKVGSEQDTIAAQMTYEQHRTDLKASEQTLHVLGFTEE
+DLTSIRESSHGPRVGRLSVRAPAAGTIVEKHAVAGEMAEPGKDLMLLSDLTTVWVWVNVH
+SRDLARLLAATKRGPTAAEISVDAFPDRRFKGKVDYVGATMNEQTRTVRVRATVENPDLE
+LRPGMFCEAAISLGNGQAEEVLGAPRAAVFSDEGKSFVFKHWKDDFFVRQDVRKGREFFG
+MVEILEGLQVGDTVAAEGAFLLKSDVLREKMGAGCAD
+>tr|A0A1W9LEY9|A0A1W9LEY9_9BACT
+MNHATSTSRLALVKKRVLCGRARARRAEKKHPGVRRFIFKHEVGETVKLSVRRGDQVVLF
+EIVTERMPDVGQTGP
+>tr|A0A1W9LFL0|A0A1W9LFL0_9BACT
+MLVYLSDLTEWFSPLRVFRYVTFRALGGAATAFILSLVLGPWMIRMLQKVRQPHRLEIVP
+SLDRTHGRKNVPTMGGFLILISVTVAAALWCLPSSGLVWMTVGTMWVMGAVGFVDDFLKV
+SRKNPRGLAGRWKLLAQTACALAVVVILWMTPDWRPLASQLSIPF
+>tr|A0A1W9LAB5|A0A1W9LAB5_9BACT
+MADEEIRHPFYRDLATIQAKQTDGSEVDHRALILGLLERHPDLDALWTCLSDLQAQMGDL
+PAARESLARALEIAPHAPHLHQRNARLRMEELTYPQRLAHARELCRLYPDALALKAVLAG
+VRMDDPDGLSYEDAWKDYLRFFPRDPAAYAALANWCLAQDREDLARGIFAEGRPLLDASE
+LPLADFELPDHGGARASASFEAVPPKDADAETLLAQAARNL
+>tr|A0A1W9LGU0|A0A1W9LGU0_9BACT
+MSEAPRPAKGAPAGAAGAPRWQLFDLKTDPGQSNDVAVAHPGTVAAMSKAYDAWWESVLP
+GMVNEDAPQPAENPFKTWFHQQFGPDASAAPGCALPAAP
+>tr|A0A1W9LCK2|A0A1W9LCK2_9BACT
+MTPRPPAIGIEDLRLSYGHREVLHGVSFHVQRHEIFGIIGPAQSGKTSLLRCLNRTIDFT
+AGAVVSGAIRVEGVDVRTMRNVYQLRRRIGMVAPLPVGLPLTIYDNVAFAPRAAGIRARS
+ELDGLVETCLRQAALWDEVKDRLDTLGTRLSGGQQQRLTIARALSHRPEILCLDEFSIAI
+DPVTTMRIEDVLRELRREITIVLVTNLTQQARRLADRTMFLWNGEVVETGPTETVFGDSP
+KDPRTRDYVNGVFG
+>tr|A0A1W9LB66|A0A1W9LB66_9BACT
+MNVRKNRPILIVDDEPAVAEAARRHLAARFPGVAVLACTDAGVAMQVVSATDIGILLCDL
+RMPGHTGTEILAAAHRQNPEVVSILVTGYATKESLLAAINEGHAWRVIEKPWQPDDLCAQ
+VTAAIEHHNRRAAGSTPPPETPPKKPKIVAPAKPKPIAPPRRGPRFRLRRRRLNGGCTWS
+WRSRPRARQRPRRGRFRGDVRRSRRRCACPAWPRATRTCS
+>tr|A0A1W9LEZ5|A0A1W9LEZ5_9BACT
+MQDAAHVPMKSVGPVRISGPEVEAEVCVPLATYESPLWPSVARGAKVTAAAGGIRAVVLD
+ERMARSILLEAPDAAGAAAVASQLAARRADVAAAAQRGSRFARFLDLHTQVCGSLLFVRI
+EITTGDAAGHNMVTRAAQQVLDWMTAEFPSLTAVSVSGNYCTDKKVSAVNGILGRGRSVV
+ADVTIPGDLCRKLLRAEPAAIAALNVKKNLVGSILAGGVRSANAHYANMLLAFYLATGQD
+AANLVEGSQGVTMAEARGDALYFSVSLPNLVVGTVGAGKDLPFVRENLQSLGCLEAREPG
+ANARRLAIIAAATVLCGELSLMAALANPGELVRVHERMERGR
+>tr|A0A1W9LEZ0|A0A1W9LEZ0_9BACT
+MIPGVIETARRLMLAQFDILLANEESVHAGRVVALHEFRVAMRRLRALLRAFRKPLAGSD
+AAAIESRLDRLSVSLGLARDMDIWMRFLRSPAVTRKMAGRAGWPAFVARQAELHRRKKAD
+VQRIVGGRAWCAIRADLDRFLREDLRPVAAAAPAGSARDVAIKALRKALAQVERRSAIAP
+AYSPAAVHRLRIAVRRARYLAEFFSGKPGDELARLGRRMKAVQDVLGDVHDRDVQLAHLR
+RQRARIPAALRAELEQRRRRLILRFKSVWHRIRLPRNPSSSSSSSYS
+>tr|A0A1W9LDB2|A0A1W9LDB2_9BACT
+MGARILAVDDEQMNLSLFEAMIKRYLPDAEIRTALSGQAALAAVKESAPDIMLLDARMPD
+MDGFEVCRRIKTDPATSAVRVLMVSGAYIESRHRVSGFEGGADGYLCKPFRPKDLVAQIQ
+ALMVDRKEKESVFRVLVVDDSRTSRQVVASELKRIPDVQIAAFENAPAAVAALDAVKPDF
+IISDTAMPGMDGFEFCATVRRHPDYERTPFILLAERPNEDTRTRAKDRGVTDVFPKPFPP
+QELSGYVRRHMDARRDWFDHDVLVADQDLATRKTLKQYLAGIRVRVHEAGAPDEAAAILR
+RGTIDLVVIGQQLAGTSGVDWCQDLRLSEEHKWIP
+>tr|A0A1W9LE58|A0A1W9LE58_9BACT
+MADSGSTVAGGAGSARDAAGPGRLLSLDALRGFDMFWIVGAGALVGALDKMGGNAATRLL
+MTQLQHVQWAGFRFCDLIFPLFVFIAGVSLVFSTDRTLARHSAGSAVARLARRCGLLFVL
+GVLYYGGVGKVWADIRLLGVLQYIGLACFFGGAAYIALRNARAVAALCAVLFLVHGLLME
+FAPFPDVRLDKASLAAAETRAGSIEPSKVLAAATAQVRGLYEEGRCFSNFVDYRFLPGRK
+INGAYESEPLLGVLGVVAACLLGVLAGLWLRRADVSDPRKVAGLLAAGAACVAIGVALSG
+QIPVVKKLWSPSFVLVAGGCSAMLLGLFHAVVEVGRMRRWCEPFVWIGMNPIAIYLARNI
+VRFPAIAARFAGGDVQRFLDTRIAKGSGSLLLALVELALTFLFVRFLYVRKIFIKL
+>tr|A0A1W9L7P3|A0A1W9L7P3_9BACT
+MGFDGWFEQRAAPLLQPGHSLARVTAVDRGAFIVRNRDAETCAELAGRFRFAVRSTVDLP
+CVGDWVCVQRHASGGPAVIHGVVPRKTFLRRKCPGRTADFQMIAANIDAAFIVQACGSDF
+NPARLDRYLVMAAGGAVEPWILLTKTDLIPSGELDQAIGLVRCACASARVLALSNTTGIG
+LDEFRALLVPGETYCLLGSSGVGKTTLINCHVLTSV
+>tr|A0A1W9LEK6|A0A1W9LEK6_9BACT
+MRDLESIWSEAFLYAARNSPFYRERLARFRGVPRPDQVRPVDKSEVSARNEDLLCVPKER
+VAEMVTTSGTAGRPLLWMLTKSDLSRLSLNERLSFECVGLTAGDVVLVAVTLDRCFIAGL
+AYWMGLQELGCAVVRTGMASPMLVLETIERVRPTAIVGVPSFLRMVAGTARERGVDLAGA
+SVRKAGEPIRDAALALNAAGRSIERDWNARVYSTYGVTELASSLCECDAGGGGHLHEDLL
+QVEILDEAGQPVPDGVVGEVVATTFGVEAMPLLRYRTGDCAALHRGACPCGRTSPRLGPV
+VGRRNHLLKLKGTSVFPSAIAAALDDTPGVGRYVILARTDGAGSDTVEVLVHGTVAPDVL
+RDVLQGRTKVAPLVRVASSEEIERLQAPPNSRKRRWFVDLR
+>tr|A0A1W9LCI0|A0A1W9LCI0_9BACT
+MAACAAASVLSALRFPLTREQELRVALTARDMAEGGSWVLPHYRGQPRFQKPPLMYWLTA
+TAYRIAGCTDSALAARSASTCFSLALLVLIYAGGRFLVGRRAALYAAVFAGTSFLFLRFG
+FRSEADMPQSFFVSLSAFAAFHALRRAARPAGAWTVSGAAAGLGFLAKGLGGAVLPLLAA
+AGAAALPGFRGRAWRTAILAPIVFAVLALPWYLAVLGSSPLHDAAGAAVGKEMQALFVQP
+THPGPPVYYLYMMPVALAPWGLLLWLAVPTLVRHARRRPGVAFLAVWMVTTLLALSLLKN
+KQIHYCTLLLPPASLAAGLLVARSARGARRWTAVAARHYAAAVAVLLPLAGGAMTVAPWI
+PAARMSPSLVPYGLAVAMAGLAGLALRRRGPGRVTATVAAGVLVLGLAGSGPLGPLATGD
+FVMHAAADEIRGRLAPGATLFVVGG
+>tr|A0A1W9LDD2|A0A1W9LDD2_9BACT
+MHVSEGILTGPVLAAGAVLAAAGVAYGLRRMPVANTPRTAMLAAVFFVASLIHVPFGPSN
+VHLILNGLAGLLLGWSVLPALAVALLLQAMLFQFGGLTVLGVNTVIMGLPGVLAYFVFGR
+ACRRARSSTGIFAVGAAAGALSVCLSGLLLAVALALGGRAFLGIAGAVLAANIPVVLVDG
+LVTGFCLVLIRQVRPAALDPRAGEAGS
+>tr|A0A1W9LFM5|A0A1W9LFM5_9BACT
+KAGARLVLELRNPRGGLVDVLYSVPLQPFSWNRIILPFTAASNYTSVASVMMTFDQLGSG
+GAAMYIDSLRLLTTTGPRLWDEFSGSGVPWGITWDQGPGYDDSVDFNTNGVNDSMTTLDR
+TGVAGGSLHIEWASNVSPAAYAKLFTRDAMGENWSASDGIRFKAKASTTNTSVYLTFFDG
+SNLLQSLPVNVSTAAAWHAFDIPLPPGHFGWTNVREVAFMIGTVAPTGQMFIDDIRLTKR
+GLVEASIWSIGRRDQRSAEFQPSSTISNYWVDFHCMQSYREFPDRIADSNRTVTIRYLAA
+PTAAGRDARLSVRMAPDAAQGSVTVAVKSAGTSVGSLVFQPAAGDLDRSVVVPAALIVEG
+TNQLDLVKQGMGGKLLFDQLDLSAMYDTTNLYDALSEDAAAEWIYNYFTPTATNLLPPTN
+DWGQTTIVLPGEPRPTWMPLQTIHFTSYNFISGIGLLPDQPNRLLGQPPTSAGWGLLQRP
+TGQWANYPFDIYRYDGGNRFGMLPFDIDDWDWSDAESNDLRADFVDFWPTLSHTNIPEWS
+QYFSNLEILDENPPGSGSWPWNIAARAVGYLKLSSASASHASSPRMPFYNVLTYITNGHP
+ANEVQSRMPVVYTKVNDEQDILLAGKTDCTNSVGAYEMRVGNFYTPELGYHSKATIRSRT
+YMRRDFDVSDTNGRVCIAGVASMFWKDEDYSPEDSTDQSHDNDMVMIARADGTFASHELG
+QFPKEWTNERIPNMTDAPPHIYNLGTIGPGDTLYILQQNRNKDHYSALNMGTDYNPYFEK
+RGSFSYRVLSANKRFVVKVYECHPWLDTWDNEVITLEVDPTETDIHRGDMLEMDYELTSF
+VTPGVFFTTPNGGTISKVLDSGAMLRWEAHHPEESATNVIEELWLDYSANGLDWTPIATN
+VPNTGSYWWAIGALPPTSYYVRIHGRATDGMVGWDLTDDPVRISDAPTAPGLTLLCGTGE
+TANLQYAGSAALSWQPTTPGEAWRVDWVKLQYSPDAVVWNDITLGETNSGSYAWDLTGVP
+SGTYYLRIYGLADDGTIRWDRSEGMITVTNYHFLPIEIGVASGSDAEFFQNGDFYSTNAY
+DANTMFVRQFPKEFGTNYWTNQLIVVDADDTARRDGLLLSFFPAWNNSPTGSLGMDVSVN
+TSTGFALVDHCTFLGTHPATAYIPPAYLDTNRALIRMSARETTNDTFVVTWDQIRIYTAP
+PVQVVLGNDDGSNSEFDPGGGRPYAEIFDANAMDAGLMPREINSTWWTQQVIKVALSEPA
+THGCLRFAFDTATNSDSGPQTVEYAVRHEGSEVVLGVFTAAAGSVATFDVPSSLLALGPN
+SVRLQGLGSGAGDTWATWDQILVTSLSTATVPHIVHVAYADGADQWPWAVAETSHYTGAA
+TLWMGARYLNGSGWNLSQSAIYGATAHDANHNNEIVPWGAAGWLNTNVPGRAFRDGSASS
+LNRAAREMIYWVNNTSAVPSRMPAWLLSGTNWRHKVLRGFETDADPYPEGQASGSPYVLR
+GLWVDDPLFAGPAHRVYVVGQELEQVHRPSEGSPAWRFFAQAPDSLVAQAQSAIEASTML
+LYSSPGNAQIAS
+>tr|A0A1W9LDY7|A0A1W9LDY7_9BACT
+MKLSTRELSLAWVTMVVIVVGLTYWFGRTKAQGWRSAGQAREALALRKHAAERLLKGQDQ
+VNARLEALRKQLPQYPASKDVTAEILMTIERTAQQHGLILLRRVPDREKSVGDLYEVAID
+CSWEGELDAITHFLYALQVQGAILDISQLTMSPGQGGPGRLKGTFTANYAYTRATAGLDS
+VQTQPEPAK
+>tr|A0A1W9LH65|A0A1W9LH65_9BACT
+MTARLKEVYRTDVVAGMRKDRGYANALQVPRLQKIVLNMGFDAEMDRDTMKVLVEDLGKI
+AGQKAVGTLARKSISNFKLREGVPIGARVTLRGDRMYEFLDRFVGAALPRIRDFRGVPAR
+SFDGRGNYTFGVKEQMIFPEIDPDHVKKVQGMDITFVTNAGTDDEARDLLKRLGMPFAK
+>tr|A0A1W9LD95|A0A1W9LD95_9BACT
+MKFKIDENLPCLIRDRLRSAGHDAVTVIDQDLGGQTDRRIAEVCTAERRILVTCDADFGN
+IRAYPPGSHAGVILLSARVQSVPEFDRLLEMAVRWLARESVERRLWIVEADRIRVRGD
+>tr|A0A1W9LC08|A0A1W9LC08_9BACT
+MSAVVSIVTSTYNRAAVIRRAIESVLAQNFRDWEMNIVGDCTPDNTDEVVASYHDPRLRF
+FNLSEKSPPRAHGAIAKNHAIRQMSSGKYIAYLDDDDQYRPSFLSTMVGYLDAHPDCRFA
+YCRCMYRDKHTSRPIWGNPFQRWMHGYSREKLKRYNFIDTDCVVHRRSLLDEVGGWDPGY
+YFDDYELWLRISEKYDLHHVNRVLVEKYVDEPPFLVRAFTKGWRVLRYGRHTPLE
+>tr|A0A1W9LDY5|A0A1W9LDY5_9BACT
+MNPIANKNLFLVKEHVGLFKAANNFDIYDPETQQIAMECREDDLGLFTKLFRFTDYKRMT
+PFDIRIRTPNGQLVVRVTRGISVFLSKVEVLDENDQVIGGFKQKFFSIGGAFDVLDPNGR
+VVCNLRGKWTGWDFRFMAGEVELAHVTKKWAGFGKELFTSADNYVINIANSVPADSPIRL
+LILAAVMCIDMVLKE
+>tr|A0A1W9LE42|A0A1W9LE42_9BACT
+MTEPAIQSQESIARTLGLDESGNNKRRLKRRMWWGVAVAATVLVVVTLCSRYSNSKSVRY
+ETRPVRRGDLVVTVSATGTLEPVKQVDVGIEVSGTIKTVEVDYNDEVKVGQVLARIDTSK
+LEAQALQSEAALESVRARLLQAKASVKEAEAKWARLKRLSELSGGKTPSQNDLDVAEATL
+ARAKADEASAKASVAQTQASFDVTLTELSKAVIRSSINGIVLKRSVEPGQTVAAAFQSPV
+LFTLAENLAQLELRADVDEADVGQVQKGQDATFTVDAYPDETFPARITKVRFGSQTVDGV
+VTYKTILKVDNSNGNLRPGMTATAVISVKKVKDALLVPNAALRFSPPQQQQIVEPNGSLV
+SKLLPHPPGSSQKPSEQTGEKSKEQLVWTLRNGQLTPVTIIKGVTDGVVTEVLGGAVEPG
+MELVTDMGSIK
+>tr|A0A1W9LCP3|A0A1W9LCP3_9BACT
+MFNNLIHFVLHQRLLVILGTVLVAGAGLFAWKTLPVDAFPDVTNVQVMILTDAPGLAPLD
+VEQQVTAPIELAMQGLPGVTQVRSLSKAALSQVIIVLEDGVDLYFARQLVFQRLQTARER
+LPDWAEPEMGPISTGLGEIYQYTLESDALSPMELRTIQDWYITPQLRAIPGINEVNSFGG
+FVKQYHVLVDQNRLLKYGIALTDILEAVGRNNANAGGSFLLRGWEQAYVRSLGLIRDIED
+IENIVLKAHDGAAVFLRDVAAVKLGPETRQGAVTRDGKGEAVAGMTIMLKDQNSKLVVEA
+VKKAIPKIQAGLPKGVTISPFYDRTALIQACIRTVGDSLWQGGLLVIAVLFLFMGNLRAA
+LIVALSLPLTAFLAFILMGMQGVTANLMSLGGLAIALGMIVDASIVVCENIARHLSEKSG
+SGLTRVEIVYEAVREVARPVLFAILIIVIVFLPLFSLEQMEGKMFRPLAFTMCFAMAGSL
+LVSLTIVPVLSSFFMRGQGEGGDNAALRLVKRGYLPALAFALRKPKTIVAVAGAMLVGSL
+ALVPWLGTEFLPQLDEGAIAINVVRLPSASLEGSVAVGTEIERRLLARFPEVRTVVTKTG
+RAEISEDPMGPEQNDVFAMLHPKGEWKSKRSKPELVAAMQEELAVIPGVRMSFSQPIALR
+VNELISGIKSDLAIKFFGPDLEILRENANRAAALMQGIRGAEDVKVEQVSGFPQVEIVVD
+RKAIARHKINIADINEIVETAVGGKVASMVVEEQKRFAVLVRFPPELRRDIPELERLLVP
+SPGGARIPLGELARIREVEAPAQVSRENGMRRVVTECNIRGRDMGSFVAELREAIRPVVA
+SMPDGYFVDFGGQFENQQRAMRRLAIVVPVSILLIVLMLFAAFNSMKASLLVLVNLPFAL
+IGGILIIVLLKIPLSVSAAIGFIALFGIAVENGVLLVSFFDQLRREGMSPGDAVRRGCEL
+RLRPLLMTAMTTLLGLLPLVWATGSGSEIQRPLAAVVLGGLASAMLLTLIVLPALYYLVE
+MRVEAKNELLAATEAK
+>tr|A0A1W9LHJ9|A0A1W9LHJ9_9BACT
+MPKTVTLRLDEPVYRLFRDVAERENRPISNFIETAVMRFVREHETVDEFEMAEIRGNAEL
+NRSLKKGHQDAQQRHGTFA
+>tr|A0A1W9LCU1|A0A1W9LCU1_9BACT
+MPAQPEPTQVERDKLTIDPDFDFKNDIACRDLADTTPNEMAMFKWTGIYPQLQKGSFMMR
+IRIPGGLLTADQLGRIADIGLRGRRTTTDTGSEEGFEICIGGGLDGPGHIARPVCEVATA
+GLAPAVRRILEIYLEGRRDDAETFGTFARRVGTEAISARLGVPAVRGTAANQTNLKLQPV
+FDEAVAWES
+>tr|A0A1W9LHK2|A0A1W9LHK2_9BACT
+MDPVCFHIGSRPIYWFGVLTALGFAAALCHWSRLAKIRGKAPEYASDIVLWIMVGGVLGA
+RLAYILANWPEYAGDLLGIVRIDRGGLIYYGGLLGGSLAMILLARRRREPLFGLADFVIS
+GVPLGHALGRVGCFLNGCCHGTPTGHWIGSLARGVHPAQLYEAAGNLAIYYILAKHYPRR
+RFDGHTLCLYLVMYAGLRFMNEFFRGDERQRMAGISVAQWMSMALLLCGVFGWRALSRRG
+VTQGDEHDPRTAG
+>tr|A0A1W9LD87|A0A1W9LD87_9BACT
+MNDGPLLALRNVSFGYESDRPVFRGVSLELHPGERIAIGGRNGAGKTTLLHLLVGLLRPQ
+SGAIEAFGRACRGEEDFAAVRRRVALLFQDSEDQLFCPTAIEDVAFGPLNLGLPPPEARA
+RAREALAEVGLPDFEDRVTHHLSVGEKKRVALASILSMRPDVMLLDEPTAGLDDQAVGLV
+ADMVRRLSCAMLIVSQDHAFLDRVARRTLLLSADGLRDTSDSL
+>tr|A0A1W9LCR6|A0A1W9LCR6_9BACT
+MNVNEVVANRALERMGRPLGDYATLHPIETVNLHQSTNDTVPTAARVAAILELRELSAAL
+AALQGACQRREDEFARIVKIGRTELQEAVPLTLGAEFSAFAEAFGRDRWRTFKCEERLRV
+VNLGGTAVGTGLTAPQSYIFLVVERLREITGLGLARAENLVDGTANADAFAEVSGVLDAC
+AAHANGSVALITAMVPLTGYERAQALAQEYAASGRVDLRAFLAERLGAEAVETCLSPAAL
+MALGHQQHPIEDSQ
+>tr|A0A1W9L7Z5|A0A1W9L7Z5_9BACT
+MDRSLDGVAVHRSLSARARRPARDRRGREEHPSPGAPRIRLHDPPGGVPARRLPDVRRAV
+QRPHIARHGLRPGLRRIRFALVRQISRAQRGGREDEGPARGPPFLFWIHYFDTHAPYFAR
+QPWISRYSTNRPEQEAWAAMPMRDLRNRVIEIQRDPAAPQALRDLYDSEINFCDRNIRDL
+FDALPLGGHTIVVITADHGEEFTDHGGVGHGDTLYEEAVHVPLIIAMPPGIEIRKSVEQP
+VSNKELLATLIEAVGLEQTADIKGDSLWPLMTGRTKPSEPVYLELDRGSDWKGLRLDRWK
+FIVKGKRGKPALFDLAADPGETRSLAKRQPNVAAGFLTRLEKWMGRHPVFAAPLSSQSLN
+DRQQESLRSLGYTR
+>tr|A0A1W9LCZ6|A0A1W9LCZ6_9BACT
+MIIVMRQGASTKEIADVEQEIRRYGYTPHPSCGVERTVIGAIGDDRGKERLHALETMDGV
+ERVIRILKPYKLAGRELRKDKSRIEVAPGVVFGGRRIPIIAGPCSVEGLDMICATAAAVK
+EAGASVLRGGAYKPRSSPYAFQGLAEDGLKMLAEARARTGLPVVTEVMSECLVGKVAQYS
+DIIQIGARNMQNFDLLKAVGQTRKPILLKRGLANTISEWLMAAEYILSEGNPNVILCERG
+IRTFETATRNTLDLSAVTVLKRETHLPVVVDPSHGTGVAEYVEDMALAAIAAGADGIMIE
+VHPNPHEAWSDGAQSLTPARFADAVVKMRAVAAAVGREV
+>tr|A0A1W9L837|A0A1W9L837_9BACT
+GVHVARSLDDAALERLRAGGKVLLCVDPQRVKGEVAIGFSSIFWNTAWTKNQAPHTLGIL
+CDPKHPIFASFPTDSHSNWQWWELIHGSGAMVLDGMSPELRPLVQPIDTWFTNRRLGLLF
+EAQVAGGKLMVCSMDLDGDLAARPVARQLRASLFTYLAGPAFAPKTEATPDQVRALMH
+>tr|A0A1W9LED1|A0A1W9LED1_9BACT
+MDVPNSGFGAWPRRLRCHPRAATLALVVALHCVPLRKSIAEDRVDFKTLFYNEGNGRMSV
+TSPSLQWETDLTQSLNLYGIHPRHGRVSRDVMTAADLYARMMRSVLSSTGESRRFAFQAM
+GTDNEIAFSTSSSPRARDFQEAVLKWVAGFEATYSRFIPESLVGRIHREAGIRPVEIDAE
+AAEIFALCDVFHWRTFGVFDPTAGVLTALWDYRDAGAKPPSDAAVEAARALVGWSRVVRG
+PGSIFLPEPGMRLDLGGIGKEYAVDRLARLADAHGIRDYVISLGRDIRVRGRSPSGDPWR
+LGLEHPGQPDRCWGGVVIEDAALCCSGDYRRYFEADGQRYGHIVDPRTGRPADRGCRAAW
+VIAPTCVEAGILSTGSPRIWTSSSTPTKRRSRSFRTRSMPSCRKWGSPRCRRA
+>tr|A0A1W9L9I4|A0A1W9L9I4_9BACT
+MSRAASTPRAGLALGVGLATAWYAWILLGFDPLPPPEPRARARPVPVTYMPVEAAGMPDR
+PDVRAIWSPVLFSLPTAVGFSRGVPSGPVARPPLDPPADPPPLLALRTQTPVQTAVPLAP
+VPLPAFVPPPPPPPAPAGTTMTPLEGTVPPDAGFPVASGACGDRSWEAEAQVAFGGDGLP
+LHAFVESADAPPGVRREIARGLHRWRRSAGGAAGWVRVRLVHSGTAPAEVKP
+>tr|A0A1W9LGA9|A0A1W9LGA9_9BACT
+MEAPADGPKLRLKSGSTTGRPCPSCRTMVAEDVVLCTNCGLDFRTGKKIRVRGPAFLFPA
+IPWSRLAMLLVLVALAAVGYARRKDIQPLAEKAAADARAWFARFSAGEVEPPPVAVPEAA
+PAVAPTVAPAVPTLFVEPGPAPVPAAEGPLCAVCGGDGKNTVNCRACICPQCQGRRAVTC
+TTCGGRKATVCPACRGLKFEPDRQVSERCGQCRGVGTVRKSSSGLLRKDRYGNVVLTTVP
+CSVCRGSGQVTRSERTLCSGCSGRGFLACTICSGNGVAPCPGCAGAGLMPTCSACGGTRR
+TEAPCAACGGSGKAKAPPPVPPAT
+>tr|A0A1W9LDC8|A0A1W9LDC8_9BACT
+MENGTTQPGRPRVLLVDDEPHVRIVLKEILASLNCDVVAEATSGLEAVTLFREQLPDLMI
+LDITMPILSGEEVLMMIMMEYPDAVVIILTSMTDEQTVNACLDLGAYNFIRKDTPLDEIK
+TIIKETLDLCYGKEG
+>tr|A0A1W9LBK6|A0A1W9LBK6_9BACT
+MTPRTRFWQLAPDLYFSAPDATLLSRTIDLVFSRMAVGAPPAAARCVSLDLQPAADSKLL
+FLVDSMPIVHAESERHLPPVIESSLDACAVRARTDCAVFHAGCVQAGGKTVLLLGEKSSG
+KSTLALWLATHGARYLGDELIFVHPADGRIEGFPKAVSLKEKSFTLFGEAETYVDPARGA
+LRYIQPPDCTPPFSPSARPDAIIVPRFGPFDQLRVTDLAPHETALMLIQQSFGGLDRDPQ
+TLDLIAALATTPAKLMEYPAAEAAGSDILRTCGVATP
+>tr|A0A1W9L9J7|A0A1W9L9J7_9BACT
+MPDPQPAWAQQYDADMHPVWARKFEPPAVTGGESQGILQTLLRLYRETGQRRFLEPVPRA
+VDYLRRCRLPDGRLARFYELRTNTPLYFTKDYRLVHDDGDLPTHYAFKIQDGLDRIARDH
+EKLVRETWKAPSDARKPPRLDEAARAQAAAAIAAQDTRGRWVEDGGLKYHGPKDPSARVI
+LSETFIRNVRALSRFLAATKPAP
+>tr|A0A1W9LHN3|A0A1W9LHN3_9BACT
+MSRFTVSPEKEDALVARMAALGIRDSDLEETFIRGSGSGGQKVNKTSSCVVLRHRPSGIE
+VRCQRERSQVMNRFFARRELCERIDEKRRGAASARQQAVEKIRRQKRRRSRRQKAHMLDD
+KRHQGAKKAGRGPVSSFD
+>tr|A0A1W9LD59|A0A1W9LD59_9BACT
+MSVTLDTPQPSAAARRIHAVSIALALLVLYGLGIGLRRHVVEQQMPDRGRPLPFTLESAL
+QFRSVRAIYRGQGLPVVDKDIQIPGGVRTFAHDTVGAEYLVAWLAHLFPVEITLTDRVRW
+ISVAWFCLGIPWMALWIRRLTGSWEGGLFAG
+>tr|A0A1W9LDH6|A0A1W9LDH6_9BACT
+MITNIARDTNGVRVAWPGDSTFNYRVETASNNAWSAVTTLEGRVGANLWTDPAPPTTRWY
+RVVTP
+>tr|A0A1W9L8R2|A0A1W9L8R2_9BACT
+LSRTMDEINRRYGRGTVRRP
+>tr|A0A1W9LE91|A0A1W9LE91_9BACT
+MGARFAIGIDCGTNSVRALVADVATGAEAGAAVFDYPTGDRGIVLDPSDSDMARQHPRDY
+LLGIEAAVCGALAAAAAAPGFAPDRVIGIGVDTTGSTPIPVDEAGEPLAFQPRFAAHPAA
+LAWLWKDHTAHAEALEITAGAAERRPQFLAKCGGAYSPEWYWSKLLRCRRTAPEVFAAAH
+TWVECADWIPAVLTGTTAPANVKRGICAAGHKAMFHAGWGGYPDEAFLSGLDPELARVRR
+TLPAEAVDIADAVGGLVPGWAAKLGLPAGIPVAAGALDAHLGAVGSGIQPGTLVKIIGTS
+TCDMAVAPLAQALPDIPGLCGIVPESILPGFHGLEAGQSACGDIFDWFVRRLQPGGPAAG
+SHEALTRGAEALRPGESGLLALDWHNGNRTVLADPRLTGAVLGLTLHTTPAELYRAWIEA
+TAFGARAIVERFEEYGVPIRRVVNCGGISARNPMAMQIYADVLDRPLEISRSGQTCALGS
+AMAGAVVAGVARGGHAEFASAARAMTGVLDRAFRPDPAAAAVYARLYGLYRRLHDLFGTR
+TFAENQFGLMKELLALRDEARRGPAG
+>tr|A0A1W9LAE8|A0A1W9LAE8_9BACT
+MRRAEVSMWGRVAGILVEDEAGYAFTYAPEYVDQPGAMPISRLLPIQRDPFRDKRLFPFF
+DGLIPEGWLLAIAERTWKLDARDRMGLLLACCRDCIGAAGIRPIEEAAP
+>tr|A0A1W9LDY8|A0A1W9LDY8_9BACT
+MADTTRSPTFPCARCKTPIAWPANVDQVYESCLACGAVNRVPVVEEHHRVRNAVLIVILL
+VLLVAICWTVTVTLGGEMIQPEISATLASMKVGPDTVLHIRAPVPLVVSFRVTGTQVKSG
+IRIGLSITKYYFWYFSDYREIPETQVPPVLKWVWAY
+>tr|A0A1W9LGX7|A0A1W9LGX7_9BACT
+MVRVEHLTKRFGGVTAVDDLSFEVGRGEIVGMLGPNGAGKTTTLRMIAGFLRPTGGTISV
+GGRSVQDDSIEVRRRTGYMPEHAALYPEMRVAEYLRYRAALKGVPARRVRRRVSESADLC
+GIGPVLGRIIGRLSKGYRQRVALADALVHEPELLILDEPTLGLDPSQIRQARDLLRGLAE
+RHTVLLSSHILPEVEMTCGRVIILHRGRLLASEPVQALARRLHRNARIIAQVQAPAEAAR
+AELAPLAAEGRFTAEPVGAWTEIRFEAAGDDDPRPAVAAAAARRGWPLRELRREEQSLEE
+IFLALTGHEARAEGAS
+>tr|A0A1W9LAS4|A0A1W9LAS4_9BACT
+MAAKERKGTQGGWILVAFLLCASSRSFAATDSFDPKALTVDELIFHAQRTGSTPEKNVRK
+DEAWNELVSRGAASLGPLMERIHIENSLIGVFVQNIVEKIPGEESAPVLVEFLDDPHATT
+RKMAAFFLGLHDTPEYADQVLPLLTDDEAAGAAIRTLGKWHATNAFDRIIPFLAHQREVR
+RIAAVNALRDIGDTRAVPYLLDALNDRYFTVREAAARALSTMGAEAGRAMTKDLMTAKDP
+ARRHIIRTLGVTRLKAAERPLESLTQDADENVRLDAERALAAIRGGG
+>tr|A0A1W9LCG4|A0A1W9LCG4_9BACT
+MTTRRDFLRQTTGALLLTGLETGRCAGVAAPEPDKLSTIRRLKNPVAIAMWDFSWLLRQH
+PGGGFEDYDRALDGLAERGYNAVRIDVFPHLVGLAGREGVPERFTFAGRGGGRHALWGND
+VDVTVDPRAALLEFIPKCRKRGIHVEASTWFMGPKGTSDRIRSFEDFVAVWSETLDFMER
+NDLLRDVLFVDLLNEYPQWNGFAWLREAAQEAAEAQEPDGPKKKGDEHIQDNKRRPVTDA
+QRAFYRQFSTRLIRHFRGQRPRYDFAISLSPNWDGFQNERSVDVNAMDVLDLHIWFGHRA
+PISQYDMAKAQEMNPEELRQRYGLLKKAWTDHRTVLIQWMDERLALHARWGRAANAVVGN
+TEGWGSVGWADMAPLDWEFIKETAGVCVDLALKHGQRFVCTSNFTHPHFKRLWADVAWHK
+AITAKIRNA
+>tr|A0A1W9LC90|A0A1W9LC90_9BACT
+MSSAARHTEAKLRGLARRFRIAGDIDRIAPYGSGHINDTYCVAASQAGAPVRYILQRINT
+AIFKDPAALMDNVGRVTTHLAARLARQGVADASRRALTLVPTAEGAAWLRDDEGGAWRVY
+LFIERARTFDQIETPAQAETAARAFGEFQRQLADLPAPRLADTIPNFHHTRSRFDTLLAA
+IAADAHNRAASVRAEIDFAMAREPVVDVLLRAQASGAIPERVTHNDTKLNNVMLDDAIGE
+GICVIDLDTVMPGLVLYDFGDMCRTATRPTPEDERDLSKVAMMPEMFGALARGYLASAGG
+FLVPAEVDHLVFSARLITFEIGIRFLADYLQGDVYFKTHRPGHNADRCRVQFTMVESFER
+HEESMNRWIADLRARGPEAPA
+>tr|A0A1W9LBT3|A0A1W9LBT3_9BACT
+MEFQRVAISSIRDDNDDGYFDAGQPELYTVTNGDTNDANYGLIRFFLNELAGDEEEITVL
+LKPNAGTGNIVSDVELFSNLNRRDFAAMPGDEDPNSITTASANTYYRAYPMSGPDANGNY
+SATITVNKCGAYRINARYKINGSAYRYFTDNALRRDCAVVVSPKKALQNIIYELNPMFAE
+ATNADFYGRSTFEDMYTVNSDRPDRISTNVLSNLGINMIWLQPIHPIGSEGRQIDPLTGT
+YYDPGSPYAVRNYWKVNSVLGDPSTEDQAMTEFTNFVQAMDGVGIGVMLDGTFNHSAWDC
+EAGQPAVDLFAFTNASAYIRDVQPSWYSKVNSYGQMASYYQSMSTKDIAPAPDRIDFGKW
+YDAADFHFGTYDCLVQQAPADTNWAWSSQWYNRYLFEYDALEPLSNATRQLWQYSSYYPT
+YWIEKTGHPEGTPKSESYRGIDGLRCDFAQGLPSEFWEYTINKTRCLKWDFLFMAESLDG
+YREVNGIKRHGVGYRSARHFDILNENLVYYWRDNFFAEYSGGSSNKGTPNRTTSPTQTQF
+DNRKDAFRNVPLLLNLTSHDDVYSTYHQASIMYAYASVAAMAGVPMIMYGQEAGAQNHYG
+TYNRASEIDAKNNFTYYESNFGKSIVNFKRYNCMTSIWAQGATWMPALRDAYGKIAKARQ
+SSPALKSQNDYFLSTTAGGKDESIFAVAKYEAPGVSAATQDVVLVFVNNDCQASTNRSNV
+YSLDAALFGIEDAKYYNVVNLLGRNPTNLIWSPSKLGSEIKTNFYVQIHGDPWATNEWQI
+QYLKLIDTSATYPKDAQGGYYGSTYSTWDTDGDGLPDWWEIQNGLNPNSAAGNDGAGGDD
+DGDHVSNADEFGANTAANNSNDYLDLAIKLQGSGAALTWPSKTDINYRVERSSSLMPPNW
+QSIHFATALSNEQGVMEGLPGAVSSRFYRVKAQP
+>tr|A0A1W9LG42|A0A1W9LG42_9BACT
+MCRCAHEGLVPEPRFTALAGALRGASLPFVAVPDLCGLAARRDPDLLEWARHPGRKVVAC
+HPRAIVNLFDAAGAPLPGDALIVNLRADSAQTAATQLGIEWNEDRGSGAENELRLSSDSV
+PTPSPFGPRSSDLGPRSSVLDDPPSPLHPAPSTAPSTLPPPWLPWFPVIDRARCTDCRQC
+LEFCLFGVYTLENGRIEVRHPENCKPHCPACARICPHTAIIFPKHTEAPIDGSPIADEEA
+EKARARRELNELLGQDIDAALAERRRRAAARLLDADKLRLAMAERERCSRKPGAEGRT
+>tr|A0A1W9LF59|A0A1W9LF59_9BACT
+MIVRSILRNLRLGVKDILLHKARSLLTTLGVVFGVGSVIAMLAVGEGASRDALAEIRKVG
+SRNIIIVAQKDVDEEGASRKRTRMSIYGLKYEDEARIREMGSAIVRTVPVRLMRREAMVG
+ERRLELRVVGTAPDWFDLVPRRVVAGRVLQATDAEQNARVCILTESGARRLLAGEHSLGE
+KILIGHQYFEVIGVVESGVGGRSIAVPDEEVDAYIPMSTQMQLFGEVNARQTSGSLEIEK
+VELHQILVEVDADESVEPMARAIEAMLRAFHARKDYRMNAPLALLRQAEKTKRTFNIVLG
+SIAGISLLVGGIGIMNIMLASVTERTREIGVRRAIGARRSQIVVQFLIETMVLAGSGGVI
+GIGVGILIPALITRFSGMPTVVPAYSLVLSFGISVAIGLVFGIYPAVRAARLDPIVALRH
+E
+>tr|A0A1W9LHG2|A0A1W9LHG2_9BACT
+MARSVKKGPFVDDHLAKKVERLNQTGEKRQIRTWSRRSMITPDFIGHTFLVHNGKTFVSV
+YVTENMVGHRLGEFSPTRVFKRHGAATDKTVALK
+>tr|A0A1W9LHE5|A0A1W9LHE5_9BACT
+MALALYLIGAPQCGKTAVFDALTITPAGPNFMTKGGHRYGTVKVPDARLEALRDLFKPKK
+FTPAEVTFTDVAPPGGEAIHFGDMTPVLGNADAFVLVVQAFGEFDYEGKPLDPVAQMESI
+LLSITVTDFERIEKRIEKAETDKKHGGKMSDQELKLLERCRDHLGADKPLRTLELRDDEE
+KILRTYQFLSQKPLLVVANISEDRIRSGGLDALAAAVKARGLDLLQFCATLEAEIATLDA
+AAQVEFLKDYGLTEPARIRLLHAAYTALKLISFFTVGEDEVRAWTIDEGTSAQAAAGKIH
+TDIERGFIRAETVTSEELLKHGALSKCRDHGTLRLEGKEYVVRDGEVLHFRFSV
+>tr|A0A1W9L834|A0A1W9L834_9BACT
+MRTYDLAPGLHRLVLDEQGGDRYGAWDIDIVAGRLTVAEIRVSGWDWEEYDADIHLESP
+>tr|A0A1W9LE66|A0A1W9LE66_9BACT
+MRHAVLQLILLVLPSSAFAWGGRLHMDINRAAAKAVPEEMAAWRDYDKLLSRYAIHPDLW
+KEGNKSESPRHYLDVERYRDIGISNLPPVYARVAEMSTWRVSPGDGIAPWVIVEAERNLS
+LAMASNDWTLAVRWAAALGHYVGDIHQPLHTTENFDGAKVPGSGTHLRWEDGMPKVFWRS
+SLLTAGTPEYLKDPWASVLEWVGRAHARYRDIYAADEAAIRSSGGNTESRAYYNALWEGT
+RELFISQANRAATDLASLWYTAWMDAGRPAIPSPPDDIPKGSVWQIAAASPAPSAMPFFV
+GFCIVAVVVVVLSMRKKK
+>tr|A0A1W9LH81|A0A1W9LH81_9BACT
+MTGPDANLVLVGFMGTGKSAIGRRVARALGRELVDVDSRIEAREGRSIPDIFRDSGEPYF
+RARERALAGELAAARNLVISCGGGIVLDPGNLDDLGRTGVVVCLTASPEVILRRVAGDTR
+RPLLQAPDREARVRELFEKRRPLYEAIPDRVDSSGMTLGQAAAAVLDLFRARTGASLPPA
+APAESTEGGRLRESIERPGQRPGPTHDSTGAAGG
+>tr|A0A1W9LGJ2|A0A1W9LGJ2_9BACT
+MNDILDLQRAAERFNARVKDLVEVLPRDDLAGQALSIELESAHRRFTASWDAANGTPPAG
+ASPWRQVEQSTHDCLHLIELLWRTQMLHPPRVLQILAHGRAFADAVARSHRTGRAPARRR
+GGGGR
+>tr|A0A1W9L7Q6|A0A1W9L7Q6_9BACT
+MIGDPGAVESRGSAARPDIGLPRARRLTRTSGFQEAYGQGRKFVGRYMVLFLRNGPDAAL
+RLGVVTSRKVGGAVARNRARRRIREVFRHARPDLTGAEDVVLVARAARREPSLDELRADF
+LALADRAGLRSATP
+>tr|A0A1W9L929|A0A1W9L929_9BACT
+MFKPKIAIDRALYDRLRKAAEAAGYSSVDEFIVRALEKAADEADSDVTEEQVKKQLQGLG
+YLE
+>tr|A0A1W9LIE4|A0A1W9LIE4_9BACT
+MISRYTRPKMAAIWADENRFSIWLRIEILACERMQRLGEIPAADLKSIRTRAKFDIAGID
+EIEARVHHDVIAFLTNVGEYVGPSARFIHRGLTSSDVLDTALAVQMVQAADLLIRGAKAV
+RAAAGRKARQHKFTPMMGRSHGVHAEPITFGLKMALMYDEFGRAIDRLERARDIVRVGKL
+SGAVGTHAHLDPSVEKYVCGKLGLRAAAISTQVLQRDRHAEYVAALALVACSIERWAQEF
+RHLQRTEVHEVEEFFGKEQKGSSAMPHKKNPIVGERLCGMARLVRGYALVAMENVPLWHE
+RDISHSSAERVILPDATIALDYMLEKLAGLVTKLRVYPKRMEKNLHLMRGLIHSQQVLLK
+LTERGISREDGYRIVQRNAMLVWETHADLKTLLAADPEVASRLKPGDLDEVFDIRRHFRD
+VNRTFRAVGL
+>tr|A0A1W9LB45|A0A1W9LB45_9BACT
+MRLPRVAARYTDLQLISQGGLGTVYRARDSLLQIPVALKVIAESCARDPTAIEALVAAAR
+DAVQLSHPNIVRLHTLDQANGLVYLVMEFIEGATLRRVLSHSGPLQPAAVLAVADACAAA
+LAYAHGRRVHHLDLKPDHLTIDAKHSLRIIDFGLGSLAALARPQDDIVGTPFYMSPEQAC
+GAAPDPRMDIFSLGVTLHELMTGSMPDHTGEIQPAHASEYRPTAAEELAPDVREVLNRSF
+AHEPSDRFETTTDLARELRRVLG
+>tr|A0A1W9LEE6|A0A1W9LEE6_9BACT
+MEQSGEGRKGFFGDWTDETWAFLVLRLWLALRAIVTGLQKFWGKDEANQWDFGFKYYKAV
+PDALKTKFAEDPMFPAALSGPFYALLGYVLIISGLMTLLGIGTRISLVVQGLLYTALTFG
+LILIKQDAGVAWLAIHVALVAMALVWAKHNRLAVLKKW
+>tr|A0A1W9LHF0|A0A1W9LHF0_9BACT
+MAFLFGLGLTNHQTLLFFALALALGILVRDPALFRDFLIVGAGLFVLVVANVVFAKIDKP
+DLVWATSAGPSGPVFWIYIILAIAIPLAGWALLPNGRAVAATILLAELGVSFYLYLPFAS
+DQNPPMNWGYPRTWEGFLHAVTRGQYERITPTDIFTPKFIYQAGAFLADLRRQFTLPLVV
+GGILPFTMWEVTLGGRRIRIFSIAFMLALAVGALVSVEMLLAVLGAPASMFLVTLYRLIA
+AVAVLLGAVGVIGKLMQMVEGVCRQTVSKHTLTAVVYVAVLSLIVLALLFYEFQLVKLLV
+AGGGLGVGGALVVLAFMLLPAVGVALHFLQRDPVRFAFEPHDASRSWLLTTVVGFFAVGI
+VFIIMWNPALDVQTLFIGRVQFIQSHTLYALWLGYGLVLGLSMIEVVVGTVKALRWGAVA
+AALILPPGLMLWQNGYDQELIHMFGGAEQNGHDFGWQFGDWQLRGAEGVREYLEETMPPA
+EFEKAWAEYPDKTYPPAMASNAVFFGGTDPGRFVPTYMIYSAKIRSDVYLITQNALADNT
+YLNVMRDLYGDTIWIPSVFDSNVAFQNYFDQVKAGQLAAGADIALKDGRISVQGVQGVMQ
+INGILARMIYDHNPGHEFYVEESYVIPWMYEFSEPHGLIVKISRQPSQLTPELVAKDRGF
+WNWYCKRLLADKKFKRDIVARKTFSKLRVTIAGLYAARGLLDEAELAFRQAVELYPLSPE
+ANFRLADVHLSRGRYGDARAIIQKFLEGDPNNDKIREFLGFIDANEASTRRVSEIEQQVK
+DNRIEINAALELVTLYRRLGRWQQFDRMMQDLLSQPNMPPQVYLQLGRLAYEAQRIPLLD
+MALTRYTTLQPDDPNGWIELAGVRLALAKPDDAVAALGNAVRVGGQQVRDRLRQDQRFAP
+LHTRPDFQQLVAPQAQSAPVTLPGTLKNLLR
+>tr|A0A1W9L878|A0A1W9L878_9BACT
+MQSQRIIRINELLKQELATVLYREMAGESFDFAAVTVTRVETSPDLRQARVFVSVSVRGD
+EVSAARVFRRLHGHRARLQDLCHRAIKLKYTPVFRFERDLAIAKGDHVLALISEMEPAGT
+DETPPPDDGDDPPPPAPEGAP
+>tr|A0A1W9LEN7|A0A1W9LEN7_9BACT
+MLLALSASALAAPVVTRWMDPAGRPRPTHKPAPGTGPLRLVRPAAERLLAGTGGASGRVC
+LVVHSNVYAQIGAGLAQYQEDLAVQGFTVLVYRFDSGTAEALRAYLAGLYAEPASLEGAV
+LIGEIPYVVFEMTENWGSGDEYTDFPCDLFFMDLNGTWQDLTNALPFAAGKYDSRSGDLA
+LEIWASRLKTANLPSLGNQTNLLNQYFDKNHRFRAGRLVPHRRALVFDDDDWATMASEDS
+EILAWTYGDLHTAAALDANMTAAPEYKANRMTANFELIFVRSHGYSGGHGFYTNSKAQFE
+YVYCDDYRGLTPRALFYSFYVCSGSDYTSADHLGGTAAFNTNDSGLVSWGSTKTGGMWSD
+DFFYRPLADGATIGAAFREWFNATQLSYPASAPSWWYGMVIAGDAALTLSGAEPTMTRCG
+ADGTALSTCWAAQKGGRYCLQRSPTLVNPAWSNACGVTTAADYSISFTETNTAAVIAWYR
+LVGVPTGPTNLLRNASFEMPGYSETAARYWEWYNPDPHGSTWDNVARERWRSKSGEWEGT
+VHGTWSGAASGGWWQEAAGQPGTTY
+>tr|A0A1W9LFU5|A0A1W9LFU5_9BACT
+MAAALLLSAGAEEASIPVRVSFKFILDSNSNRPPFGALCTDEDVWAQVNRANRVFSQNQS
+EFRIDVLEIGEVTNAFWWYAPPCDDEWTTDILLEQATENPSLYRWRTDAVNVYINNGCRL
+ASLPAPWNTIVLLGQVANETSFAHEIGHILDLRHTFEEDLCDDTIPDVGTSQNDIATNYF
+DKTYDSCSPAEQDQVNLVYSNLMSYHDGANRSLLSTCQMDRQSVQGYADRGWVLSKTPRY
+LRSNGTNTTTDGSPSQPYKTLKNALDAGANNNIVLVFQAGSYTSVQSSVTNFGGMVPRQG
+TARVSKQDIGVDYVIPSGVDRSQPVAVHEAVRRSQELYRAGDKEGAIRSLMEAEKHATGE
+LKAALQHEVAKRLGYAGRYDEAASYYRKTAESTRQPGLKKEVLGRAKECDEKAAGPTNRP
+>tr|A0A1W9LHU8|A0A1W9LHU8_9BACT
+MREDSRQIPRLTLATKVTLLRFLGIPIFVLMMVYYVLGLREGAADERYRIAALVTFLAVA
+LTDALDGYLARSRGEITQLGKILDPLADKTLLLAAIIMLTRPSLPALHPQLPVWFALAVI
+SRDSLLLIGAFVIHHLNSRFEVFPRMSGKLATVLQMGSVLWVLADAPAGPFPWLAGAAAL
+FTVISGGQYIFDGIRQIEHVHRAPPGTHGMESP
+>tr|A0A1W9LA98|A0A1W9LA98_9BACT
+MRKVPIVLAFLSIAAAGACTTSRVAGDTGFVPLFNGRDLSGWVNINTAPDTWSVTNGVIH
+CTGQPIGAMRTQKHYENFVLELEWRHLKPAGNSGLFIWSSPAPTGTSAYCKSIEVQILDH
+QFYTNHVAAGKKAGWFTTDGDVFAIQGAAMQPFEPTDGRRSFPRESRTKSSPAWNHYCIA
+GSNGVLTLAVNGAVVSGGSNCVWRKGYICLESEGSPIEFRNLRIKELPTSHPKPDEIAPL
+AE
+>tr|A0A1W9LEK9|A0A1W9LEK9_9BACT
+MRPAWIDEIWRFAVCGLGAAAADIGAYSALTHFAGLHPLAANLISRPLGGLVSFTANRFW
+TFRHRPMEKSLPVQFGRYWIVWIAAYGLSELFLFLWLRVLPGDQTIAKLLAEACVGILSF
+LAQRLWTYR
+>tr|A0A1W9LD68|A0A1W9LD68_9BACT
+MSELDLSVVVPVYNELESVEPLCRALHAVLSGQPRTYEIVLVDDGSADGTWPRLVELSRK
+IPCLRLIRFRRNFGQTAAMSAGFDAARGAVIVTMDADLQNDPADIPKLLDLMKDDIDVVS
+GWRKDRKDPFLNRRLPSMLANGLISRITGVALHDYGCTLKAYRAAVIKNVRLYGEMHRFI
+PALASWVGGQVVEVPVNHHARRFGRSKYGISRTMRVVLDLITVKYLLRYSQGPMQAFGKI
+GAALGLPGLAMLAFMILAHLSFLAFGTAFGAELIKRPFWLISAFMLVLTGVQFICIGLLA
+EVMTRTYHESQSKPTYAIRETAESPAAG
+>tr|A0A1W9LD88|A0A1W9LD88_9BACT
+MPQLTRGWKKWLVGEFTLRRLVRSLIEVYLCILVWAWLFSDRIAFQPPAPGYAEGNGVYR
+ISSRDGTPIAVLALTNRNPTATVLYVHGNAEDIGGVRDLLEVYRDAGFDVFTFDYRGYGI
+SGGKPTTRHSCDDIDSVYNHLLNVRGVEPQNLIVHGRSLGAAVALHLATRRPVGGVILES
+PFLTAFRARTQIRLSPFDKMRNDREIRRLKRPVLVIHGEEDTTIRTWQGRKLYALASEPK
+FCLWIERAGHDDVPAIDEKEYFAEIRVFADFVMSEMSEVRGGQNTTRP
+>tr|A0A1W9LCW4|A0A1W9LCW4_9BACT
+MALFGKKTNYATVKVRKRDIPDGLWVKCPSCGEMIYKNALAEALGVCAKCDHHFPLGRQD
+RIASLVEPGSFQEWDAGLRSTDPLGFTGVAPYTEKLEQNIRKTGQNEAVTCGCATIGPHA
+VGLGVMDFSFLGASMGSVVGEKITRLIEHGTRDRTPVVVVCTSGGARMYEGMLSLMQMAK
+TSAAVARHAAARLPYVTVLTNPTTAGVMASFATLGDVILAEPNALIGFAGPRVIRETTQQ
+DLPPGFQKSEFLLKHGLLDMVLHRRDLKPTLVSILSYMMSAAAAPSVPATA
+>tr|A0A1W9LES0|A0A1W9LES0_9BACT
+MLVVVITLLASALALPSFVRSMRGAKLRASTRSVLMCHRYARSMAVLQQTSVAALFDTAK
+GDIEIVSVKSATDDREKFLDERGNRTGVEAVDKPVAEPAETGVESELIRPLEEGVRISSF
+ESEKVEQQRDGIYWVNYYPNGMCDPYTVTIEDEYHKAVRIKVDPLSGKAVVEKGP
+>tr|A0A1W9L843|A0A1W9L843_9BACT
+MSEQSSQLPSYITSATPNPAANRAPWYKNTAPTYAGIFLWFVFWQDAANSPALGGLLSQG
+IGWALISLVISAAVCHFLFYLVPGMLGMKTGLPLYIVGTSTFGAQGGFLMPGFLMGVLQF
+GWLGVNVYFSSLMVSAFFGLPADGTGAKMVMVVWGVLAAFVGLKGIQYVAKVATYLPLIP
+LVVLLILLTKTMG
+>tr|A0A1W9LDA4|A0A1W9LDA4_9BACT
+MTANRQESAHAARSAAATLLGNVGSMALGVVSAILVPNVLGSVGFGYWTYYRGLTVVLFS
+ISALVTPLLVFTREFAALSAAGETERAGQLFKAIVLFRLSSAVLFGALGAPLILRGGYKV
+FGLSAIILLALMVVSRAWMTISHALMYASRQLPRLAVLGLFNTALVPVAVAVGYRVGGVY
+AIVWSCLIGELLLAVIYAWGSRPFLVWPRGLPSRADWHGMLFSGIAVSAAATAANMFRNA
+VLAVMGLSHVPAVEIGYVGLGVRLGGVAGDALLSVAMAVFPSAVLVLQQSGQEDVLRWQE
+HLYRWGTVGLLLMIGVYQLAGHLLVPLVFGAEFAPAAHMVGWCLAVEIPIWIGAQYAILA
+VLLKRHGVFGASVAGLYVVFFAVHQLLPAAVSPANRAIQAMFAGTVTYAVIGHVGLRVRA
+RVRLNLHPLLVPVVMTVTTFFWQTAVRSAVSSVLIAVLWAPAFLLFCLVSGALQPEDGKL
+LWRSILRLFGRAEDAFSPVR
+>tr|A0A1W9LGD0|A0A1W9LGD0_9BACT
+MSHVPPPPVQKTPGTAVASLVSQAAQIGHACLQYEIEKGKLPRSLSDLEKYSPGISALKC
+PLVKDGGASYELAGMESTSVPDSNARVLLRETEPRHRGRRATVFDDGHVEMRTDP
+>tr|A0A1W9LE54|A0A1W9LE54_9BACT
+MDALNAFLSRMSSLVWGPPMLALLVGTGIVLTFRLRGLQFRRLGEALRLSLSPSAQKSDQ
+PGDISHFQSLMTALSATIGTGNIIGVALALKLGGPGALFWMWMTALVGMATKYAEAILAV
+RYRVVDAKGEMAGGPMYYLERGLGQKWLGVMFAVFGALAGFGIGNMVQANAIAENLQKAF
+GTDYRWTGIVLAVLTGLVILGGVKRIGKFTGVLVPVMALGYVAGCLVILATHAAAIPGAL
+WMVIHDAFTGTAAAGGFAGAAMMVAIQKGVSRGVFSNEAGLGSAPIAAAAARTGHPGEQA
+LVSMTGTFIDTIVVCTMTGLVLIVTGVWNQGLDAAQATQHAFNIGLPGPWGGRLLTFGIV
+TFAYSTVIGWAYYGEKCAEYLFGIHAVLPYRWLWVIAAGVGGAAKAWGGAATEFDLFWNL
+ADVLNALMAVPNLIGLLGLSGVVVEETRRYLAATGR
+>tr|A0A1W9L942|A0A1W9L942_9BACT
+LRGTIKDICGAAGSGNRLSNAFLRLSRDGKVTEKTKDLVSALFGHAASEVRESARRLLDV
+GETSGADWMTGFVMTAWNGVHREDLS
+>tr|A0A1W9LDE3|A0A1W9LDE3_9BACT
+MSERMKRILRASWKPLAGVVGMAGLMVYSSGGCTDRVPPGTVAAEAGEPVPAGAATVVVK
+RAVVEAQTEVPGTVESETRITLSAKVPAHVKKVLVAAGTAVKAGQELLLLDDREIGEQLA
+AAEAQLRMAEAEYKRTKSLFDSKAATEQQRLASETGRDAARAQVERARVMMTYARIVSPI
+DGVVTDRRVEEGDLASPGQALLAVYDPARMRLEAPVPIRLAGALSAGMEVGVTLTDPLRS
+RKGRIAEIVSEIDPQSRTQKVKVLLDDPAGLRPGAFGRLVAPAGRVEVVRVPEAAVSRVG
+QLEMVRVVRDGRTLRRLVKTGARRDGQVEILSGLDDGETVLAAAPGREG
+>tr|A0A1W9LFZ2|A0A1W9LFZ2_9BACT
+MGARKPSIVTFKAEPAMLAALRGVPNRSEFIRAAVLNALDHACPLCGGSGVLTPEQKRHW
+EAFRKHHAVKECGDCHAVHLVCAADGRTGHRRRARA
+>tr|A0A1W9LDZ0|A0A1W9LDZ0_9BACT
+MADTVQEFIGHCREALAGGTWVKLTLGAHRGADATLRNVIVRPVELRDGLKLSFVHRHAT
+RDITRNMASDEGLDHVAALLAVDFGSAHLFTTGAEIELRRKRPDAEARLIRHPPRHTAPA
+TRTHDRARARPVDPAAAPWLQTLGVTNAVGAPREAMAGKLRQIGKFAEILRHSLEDLPPR
+EGRGLDLVDMGCGKGYLTFAAFEVLRRDGWSPLRVTGIERRADLVDACNAAATAHALDGL
+SFTLGDIASTPVGRTDVLVALHACDTATDDALAAGIRAEASLILASPCCHKELRPALRPP
+AVLAAALRHGILLERHAEFVTDALRAGLLEWAGYRTRVFEFVATEHTAKNLMIAAVRRPG
+PCRTDEAAREVRDLAAFHGIRTQRLAGLLGFALNPEG
+>tr|A0A1W9L8H7|A0A1W9L8H7_9BACT
+MNAPIRRDTSGAEILRAPNLLTVPGDPVVGFLLAAPEASVFSPDLLGAVLVSLSFYTAGL
+LSHAALGPDASRSERRMTVVVAALLFATGVVLCLLLGQQARLVGLALLISILLYNIGARQ
+HPLLGAFVMGLCRGFSLLLGAAAAPSGEWYSPSPTLAFDAVVIYVASIAYLAHRELSHRP
+PGMGRWTPAFVLAAAYALLVRLQPPDSLLECIVLTGSLLIGGFIALSVADILDVAAPQRR
+RESPGVAWAVRGTIALLFGGLLFLQAAMAIISGAGLAGRFVAMALLALWPLHRVLSRRMP
+NAAPPTPK
+>tr|A0A1W9LH88|A0A1W9LH88_9BACT
+MKRGRIAAIRASACLALWTNLPADAAPGIAVDADRFDFGERSAHETVEHAFMLRNEGTED
+LVILRTASGCMCTVADLAQTRLAPGATAALNVRIPLVGRIGLYRSTLTVASNDPERSPLR
+IVLQGHVTQDIALQPARLYFERYSPDETQRKTARLKVGRNGEYGVTRVESLSPWFSAESE
+PTPARDAWLLHVQSTSSPPTGTVQGTIRVFTTHPGFPQVDFEVFANMGQ
+>tr|A0A1W9LDR1|A0A1W9LDR1_9BACT
+RNTMLKSIPAWRERLDQAWPGRAADIRMDNDGLTVDLSNRGLTDLEPLRGLPLTSLYCSD
+NQITSLEPLRGMPLVTLNCGGNPIRSLEPLSGMPLNKLLCEGAPVESLAPLRGMPLSMLN
+CGGSRLADGLEPLKGMKLTWLSCWNSGIRSLEPLRGLPMTALYCDGNEIASLEPLRGLSL
+GSLLCAGNQITDLDPLRGMPLTILHCGGNRITELDPLRGMPLSMFSCHSNLLDDLNPLRG
+LPLGSLSCGDNHFKSLEPFVSNPPYSFLYACDSLPTEELERALKAWSREPRFQHHARNVE
+VLLALRRGDVAALKKLASEFRGHRYLFVPLFMAWKDAKEFCEKLGGHLLTITSPEENSFV
+ASLMPGGSWFWLGLVTTERGHEWVTGEPFGFGTFNDLIRERKRGEKLFCSGTWSAEVYSG
+VHNSFMIEWDS
+>tr|A0A1W9LG32|A0A1W9LG32_9BACT
+MDPMFYNTMARAKEAFAPADGSTVRMYTCGPTVHDYAHIGNFRAYVFEDLLRRFLKSCGW
+EVVQVMNLTDVDDKTIRKSRAAGVPLREFTKTFIDAFFADLDALRIERAEFYPAATDHVP
+DMIGLIGRLIEKGAAYRSEDGSVYFSIERHPAYGRLARVDKSGLRPGARVAQDEYEKESL
+ADFALWKAWDETDGDVVWDSPWGRGRPGWHIECSAMSMRYLGESFDIHTGGQDNIFPHHE
+DEIAQSEAATGKIFARFWLHCAHLVVDGRKMSKSLGNFFTLRDLREKGWSGREIRYVLLA
+AHYRQGLNFSFDSLAAARAALGRLDEFRARLVSTGGSAVPGSLPGWAQRAPAVFHEALAD
+DLNISAALGALFDFVHDGNRALDAGEVAGPSAAAVLALLDSWDRILGVLVPDEASADAAV
+VELARLRDEARKARNWAEADRLRGEIAERGWVVQDTAEGGKLKRK
+>tr|A0A1W9L8L6|A0A1W9L8L6_9BACT
+MKNLMIAVLAVLLSAAAAGAGEYGTASSELSVAPQLFLPGSAKCDLYSMGYGAEIQYRYW
+FFDPFGVAFSIGAANYEIDGNSDYFEPIRVDDGSMTLLPVGPSALYRIAEGEVWTITLEG
+GIRYVLVNSDLKLATGQSVSVDDSVVGVLALKCDWQLTEILSVFSGIGYHSDIKKGEVDN
+GRMKHNELQSLLVDLGVRFRF
+>tr|A0A1W9LH26|A0A1W9LH26_9BACT
+MEAPAPWPLGLLLSIGLHALLIVVLARPAAAPPVEVAETYDVFLQSPVAVVPPAVAGMGD
+DGTEEPMPYWAAVRRRIARRLPFPADVMAALGAPVTILVRIEIAPDGRLVRAEVLTPGAD
+PALVELVLDAIRRSAPFPVPRARDREGLVLTAELPIRFVAL
+>tr|A0A1W9LF00|A0A1W9LF00_9BACT
+MLLVLRNFVADKPPPEIPDGLNWNRLDMMIAADNLMPLFSHLYAKSPRVPGADRPVRWQR
+TLMGVLHHNLRALKTTTELFRILQEEHIPAVVLRGLALAHTVYPEPYLRPMRDVDLLVPA
+DVHGELVGRLEKHGLKPVQSLRSQFVYVINEISIEIHWSFLTAKRYQRAADFGEWIRTSR
+PFSTPEGELPGLSPEHELLDLVCHAFIHHELDSLQPLVDIGLFVRQNKLDWPYLADWCRC
+ASMGRLFRFTMAFADQLLELGLAEPIAALDAPLPRNADRVFDAYTGLLFGNDSRARYVRR
+KRNMLFAAERSMAGWMQFFRFFRRDEFLKFTRLTPNDRHRNG
+>tr|A0A1W9LAA4|A0A1W9LAA4_9BACT
+AERRLPLLYRLLLPFTPNFSGLVNRPVFARIRADLDRRLSAAGLEGLLGGRELLALRFLL
+PAVFGPLTFMLAHWGFAQIPGKVGLALAQRAVMFDAVFLLYWFVQPSLWLQSRVRDRHLQ
+LQRALPFVLDLLTLSVEAGLDFMTAIKRIIDRRDIDALNEELIRVFREVQLGKTRREALR
+DMSDRVQQVDIRSLTNALVQADELGVSIGAILRIQADQMRVRRFLNAEKMANEAPVKMLF
+PLIGFIFPAVFLILLGPIAVQVIERGF
+>tr|A0A1W9LDJ2|A0A1W9LDJ2_9BACT
+VDSDVTLLTMCDSHGWRIYRNSVSFLLAKAVRELHPGVRFAVEHSLGSGFYCSLAVNGGS
+PTDATLAHIRDHMRDLVARDLPIERRKIAFAEALKRFEEAGQNDKFDLLRFRNPPKVVVY
+DCAGFADLAHGVLADRTGAVGHFDLIPHPPGFVLQFPERALAPALAPFDPQPYLFRIFAQ
+HKEWGRILGLRTVGDLNRMVAGRQADEIVRIAEALHEKTIARLADRISEQRPGIRWVFIA
+GPSSSGKTTFAKRLAVQLRVNGLRPVAISVDNYFVERERTPRDEAGELDFEHVEAVDLDL
+FNEHLARLDGGDEVELPSFNFTEGRREFRGQTLKIEPDQLVLVEGIHCLNPRLGSALPAA
+HRFRIYVSALTQLNLDEHNRIATTDNRLLRRLVRDHQFRGHNALRTLGMWPSVRRGEKRW
+IFPFQNEADAAFNSALDYELAVLKPLAEPLLKEVKPYHTQYAEARRLMAFLDSFLTLPYG
+HVPPTSILREFIGRSSFRYA
+>tr|A0A1W9L9L7|A0A1W9L9L7_9BACT
+MDAVIQLDRVSKTYRSGPVDVCAVRDVSISIGPGEFVAILGASGSGKSTLMNILGCLDRP
+TSGTYRLDGVDVSGLDRNELAGIRNRKLGFIFQGFNLLSRTSALENVELPMMYIHPPLAS
+GERRERARRVLEQVGLGDRMDHVPNQLSGGQQQRVAIARALVLEPALLLADEPTGNLDSR
+TSVEIMDLFRKLNDGGISIVMVTHEADVARFTKRNVVMRDGRIVRDVPVAARLTAAAALA
+ALEAEHGSLEPVS
+>tr|A0A1W9LD66|A0A1W9LD66_9BACT
+MAINIMVVVREVWDTRDLTGGVLDEAGAIRAGAMQTRFEPEDLNALEAALRIKDAQGGQV
+TAVAVGETRNVDVLRECLYRGADKVLRVGADPAGLDDQALAALIAGAIAKTGAFDLVLVG
+TAVPDAENSLLGRHLAAALGVPAVSWVDAIEEVGPGRAVAKRAVEMGYEFVEVPFPALLS
+MGVALLEDDPRAPRPAKAMLKLKMKKAEVPVVSPADAGAADPAALVAMKVARMEAIPPRV
+VESQQVDPESEAALKGMLDAVLKGE
+>tr|A0A1W9L8E4|A0A1W9L8E4_9BACT
+MDRGDYKCRTTCATNREHKSPTACWRNGGKTSCCWRRSPTIGLLLCREKDKFEVEYALRH
+IRTPIGVAEWQTKLVRRLPVALRPSLPTVNEIEAALAPLTRDSGAKT
+>tr|A0A1W9LEK4|A0A1W9LEK4_9BACT
+MKKQDLIVVVALIALWLAWPTVDRLVIRKYFFPHSAAVAAATNAVPAVSGSNVVLDVAGT
+APAAIAEAPAAVEEPAMPSVPEKTAVLENARVKVTVSSWGASIVAAELKAYPQSREAGSA
+PVVLDFSDTRALAYLGVPGFSGFDDFALETERDGRTARFERASPAGVRLRRTITLTDGYQ
+LKITDELSNTGAEAVTLPAQRIQLGAMRDFKGETPTKGMVYLGADTLLPGGEGVKHWGSK
+IPKWFDAAREQQGLPKIPARIEWPIEKPADWIAVKNKYFAQVLVPEGGGDKARVRATRVI
+SPAEVEDPAFKPRGAVVETVSASLELPELTIRPGESQTRAMQYYAGPKKYSELNQYGQHM
+VDVMEFGMWAPVGKVLLRILNWIHDVLWPHNYGVAIILLTILVRIVFWPVTRKSTESMKR
+MQEIQPLVTEVRAKYKDNTQKQQQEIMALYKEHKVNPMGGCLPMLIQIPVFIALYVVLRS
+AIELRFSPFLWIKDLSQPENLFQGMIPFVGSLNILPIFMAATMAWQQKLTPSAGGDPAQQ
+KMMMFMPVMMLVLFYNIASGLVLYWSTNQVLMITQQLLMQRKKKAAAAATSGG
+>tr|A0A1W9LAJ3|A0A1W9LAJ3_9BACT
+MTCRERLAATLRHEEPDRLCVDFGATPVTGMHVAVVDRLRRAVLGEAEWRVRVCEPFQML
+GEIDDRLRAALGIDTLGVYGRTSLLGTDEDGWKPLMLFDGTNVLVPHNFNFTVEPGTGDW
+LMHPQGDRSVPPSARMPAGGNFFDAIVRQPPIDEDRLDPADNCEEFGLLGPEALVHYAAW
+RDRLSAGAGAGTVLMMPGTAFGDIALVPAPFLKHPKGIRDIEEWYVSTAIRRDYIRAIFE
+RQLAFAEANLATLAAMLGDLVQVVMVTGTDFGTQSGSFVSIDDYRDLFKPFHAQVNRIIH
+RTTPWKSFIHSCGSNRDLLPEFIDAGFDIFNPVQCSAARMEPRELKKEFGRQLVFWGGGV
+DTQKTLAFGSPAEVYREVRERIDIFAPGGGFVFNAVHNVQANVPLANVEAMFRALDDARG
+IAGRPA
+>tr|A0A1W9LCZ4|A0A1W9LCZ4_9BACT
+MFVHTVFFWLRKGISAADRKAFDAGLKSLLAIRTIRQGHVGRPAATDRPVIDRTYDRGLT
+VVFETKSDHDAYQSDPIHLKFVKTCSVHWIRVLVYDFE
+>tr|A0A1W9LE75|A0A1W9LE75_9BACT
+MTAQPHSYQLLDTFRSLFDGKPYFHRNSILGDLVASRLYEDLVALGKSRNLARRVEGKDR
+VVNLANKAVGRKSRRGDGTFGEIVPTAVALTENGLLVARGPVATIEIGAETKILAKAMIK
+QMDRVIGDLRRQVEEFKKAGGNPICVGLVGVNYAEAYTSYEGAVLWPTDGGRRKHPIQEA
+AEAESRVLRHAAPAFDEFQILPFRATNVAPFPFEWTDYDKTASEYSSLLVRLSREYDSRF
+P
+>tr|A0A1W9LH38|A0A1W9LH38_9BACT
+MRILPISLLALALLGPALATAQEPATEPRIVEESLDVSRSSWIKGATFTRAADAARGRLT
+VRMGDGEITYTEVPVTVWAAFRDADSLGRFYTEQIKNRYERES
+>tr|A0A1W9LDA9|A0A1W9LDA9_9BACT
+MGKSPRLRTVEKYRPPYPLNKFPSGFALNLGKEIVYLLASRGTPRLEGTDWEEIFARLVG
+AKWQPSNVGLDGIILQQMAWGAKTVKNKKPSTVSRVRLISGRNSVSFSFGQDKVKHVDPD
+DMGEKVLSIYNERVAGVRKKFQHLRTVVLVKSDDLLELAAFELDTIMYDAKGFWWQWNDN
+DNLEGYDKAGDSHVFTWQPHGSQFTIIENVPEHRLAIRIRKPPLLDRDEVLDALKFDESW
+VEVIS
+>tr|A0A1W9LE77|A0A1W9LE77_9BACT
+MNTGIDLISFYTPGYFLDLAVLAGIRGVDKDKYYVGIGQEKMAVPPPDEDIVTMAASAAL
+PILEKINRDDIELILLATESAVDQSKAAALFAHRLLKLPTRCRVIETKEACYSGTACLQL
+AATWVAAHPDKKALVLCADIARYDLKSPGEPTQGAGAVAMLVSANPRVLMLDPEYGLYAE
+DVMDFWRPNYREEALVDGKYSMRVYIAALEETWRQYVAASGRKFEDFARFCYHLPFTKMA
+EKAHVRLRRASKLPEPTPEELQREIGDSLRYNRITGNTYTGSVYEGLAALLDHCTEDLSG
+RRIGLFSYGSGCVGEFFSGVVPAGYRAHLFTEMHRQMLENRAELTFQQYEDIFQLGIPTD
+GSDHTFAQYRTGPFRFAGINQHKRLYEAVT
+>tr|A0A1W9LD65|A0A1W9LD65_9BACT
+MNVPRDLRYTSTHEWVRVRNGVATVGITDYAQAQLSDLTFVELPDKDDEVNASDELAVVE
+SVKAASDVYAPVSGKIVEANARVIDQPDLINTDPYGEGWLFKIRLTDASEVQDLMDADQY
+EEQLPEEE
+>tr|A0A1W9LA79|A0A1W9LA79_9BACT
+MILRDPAEPAGPGPAEEPVARAVALFAARTWPGERLTDEERRALEAHARSSAGIGESGET
+NRRPPGSRPLLSPPAAQRMGAALEVARRTRRPAARQLARCGALRPCVTEVRPDGCAWTLD
+LAPLAADCDLELGAYLRLREALEGIADLWKPGERPVLVLRGAPAWPGTASDPAGPSTVRR
+FCEDVLRRAGHGRGWRCGPEVLRSGLS
+>tr|A0A1W9LFQ5|A0A1W9LFQ5_9BACT
+MPPRLRTLSAGDVCRILARHGFVRVRQTGSHIILRRELADGDSATVPVPNHREIARGTLK
+SIIALSGIDETEFRG
+>tr|A0A1W9LEL2|A0A1W9LEL2_9BACT
+MDLQHAASWLVAIGLAATANATVPAPTVRPVPPPPVVTGAVDYAKLDWKNDLFTLEGKPF
+TGTAEQRHRDGKLKARYRYLDGTIHGLVEEWYANGQKSTETNFEKNQRHGQNTYWDPAGA
+VIKKQRWDRDKLVESSDPHEIEGKP
+>tr|A0A1W9LI19|A0A1W9LI19_9BACT
+MKTSLLIRDEVFREAKHRAAETGRTLGAVVESALTDWLTKERTAPAHRFQWHTVKGRRPP
+AVSPDDRDALIEFMEGRG
+>tr|A0A1W9LF41|A0A1W9LF41_9BACT
+MILVDANVLLYAEDGSNPRHVAAREWWDARLSGASPVCLCWTVLGAFIRIGTNPRVFEHP
+LTLDQALSRVQSWLAQPCVRIVQPTDRHWLVFRKLLVEGQAVANLVTDAHLAALAMEHGC
+ELMSTDSDFSRFPGLKWRNPLR
+>tr|A0A1W9LF37|A0A1W9LF37_9BACT
+MNAPERWVLIDGYNLVHRDAAAAAGLRGGRLFEARRRLVRRLENIAPQLGGRVTVVFDGC
+ETGGPDPEMPAGPVEVVFSPAHVSADTWIERTAHLHAARAPMLVVTSDRLERDAVTAAGA
+DTMGCGDFLDLCRRIEETLTRSIRRPASPAARRTLGDLFPPS
+>tr|A0A1W9LAQ3|A0A1W9LAQ3_9BACT
+MSTPVISLANQKGGVGKTTTSVNLAACLAERRKKILLVDIDPQANATSGLGIEKEEGKSI
+YRCLLGEARMEDFIRPSGFDRLDLLPSETDLAGAEVDVARSDRYLHRFKEAVAPVAESNR
+YDYIFVDCPPSLGILTMNALTASDSIIIPLQCEYYALEGLSVITRLVERLRTSGANPNLQ
+LEGIVMTMYDTRTNLSQQVVKEVLTHFADKVYETLIPRSVRLSEAPSYGQPIIAYDRNCT
+GAASYRSLAKEFLERRRYA
+>tr|A0A1W9LEB2|A0A1W9LEB2_9BACT
+MGAQGSDGPGDNAVRCAYVGTGAQLIGFTLTNGNARSTTDYVSDQIDGGGAYCATNAVIS
+NCVITGCSPGYYGHGGGVCGGVVRSSIIAGNRTPQFGGAGAYNSVLDRCNVFDNQTGFIG
+SGGGAYGCTVSHSTFSNNWASIGGAAYGCSIANSVIASNTSDQLGVLRSCDVRNSLIVRN
+VTRVWAGAAHGCTLSNCTVAFNAVQDPWMNAAGGVQDCSLVNCILYSNTTAGVLSNYYGG
+TYDHSLLAGDPQFANAAGDNYHLLLSSPCVDAGMNQPWMSDATDLDGMPRVLGGTVDIGC
+YEQARDPTLAAPSMSLPLDVPAGQTGVYPTTNTSSWIEGSKAAGVLVVARQEAGGYATNG
+IVQEMGGSVWSNEVHWIWTGPLDSKLFEYRCVTNAEASSTGASGTTLRVTLAGSGSPRVF
+LESPGHVSFAAMILRGTNNPHVFGLMWASNAANGQVEWFTAPVYPLDQWSSAPFALEPTN
+VFYVCGTNVYGDLACDSVVVVPQPLCDTLSWSSEVFSVCGGIPTNTVYQWQACGDLLGSE
+WMDFGNVRTAGVPLVSISETNAAITQRFYRIIQILP
+>tr|A0A1W9L9J4|A0A1W9L9J4_9BACT
+MRLLTDTNPRARNAFYRYLKNSNDTSFVQGFAYLQALLDSGVQLALLWDFDNKNAGQVSL
+WSDWPPRMKSSCPLSFWPNSAQDSFAEPWRVAMKPR
+>tr|A0A1W9LFD0|A0A1W9LFD0_9BACT
+MWDIIQSNRRKSAVLVFLLAVILIILGYAIGASLDPKAGGPFGLIAAVGLWFILMATSFA
+GGDKILLATAGAREVTHNEAPQLFNIVEEMKIASGLPAMPRVYIIDNDAPNAFAVGVNPK
+RASVAVTTGLLARLNRDELQGVIAHEIGHVVNRDVLFMTLAGVTVGAILILVDLYLRGML
+YGGRGRGSSRGRSGQGAALILIVALVLAVLAPLLAKLLYFACSRRREYLADASGAQFTRY
+PEGLASALEKISAQAGGQLQVSRAVAPMFTVNPLAAAGAASSIFSTHPPTTDRIRVLRGM
+AKGSSLAAYEEAFRATHGNHSMIGARTLKAAPADAGIRGPAAAESKSDPAKQWRQAQDIL
+HKLNQVAVISCACGLNMKLPPGFDQPAVACPRCGRKHEVPLAQLQAAAAALASGNTPLRP
+IYK
+>tr|A0A1W9LG75|A0A1W9LG75_9BACT
+MKYHLWTIGCQMNEADSRHLAARLAQAGYTACADARDADLVILNTCVVRQQAEDRAWARL
+RELEAWKKRRPDLKVALMGCLVGTRSGPAARLREQLAFVDYFLPPSDLSPLVGTLLPDET
+EGRSDDELDRLARDAAQNGQAPVAPVPAGSITANVPVVLGCSHACTYCIIPYRRGGERSR
+PAADILAEVRALVAAGTREVMLLGQIVDRYGLDLPGGPDLADLLLAVARVEGLLRVRFLT
+SHPNHLSDRILDAVAAEPRICPHIEVPAQAGDDEVLLRMRRGYTVDDYRRLIAR
+>tr|A0A1W9LH51|A0A1W9LH51_9BACT
+MQITFRCSKCEARLEIDADSAGTEVACPTCGSNQVVPRKGLEPGTTIGGFKLVKLIGRGG
+MGEVYLARQLSLDRMVALKLLSRSGSLSGDAAERFVEEIRLTARLEHPYLVTAFEAGEDA
+GILYLAMAYIRGATLHDQVRRHGPLKEAETLVLGRKVASALAHAWRELKLLHRDIKPSNI
+LLDSNGEPRLADLGLAKCLDKNDGRTVVGALLGTPNYMSPEQAEGREDIDIRADIYSLGA
+TLYTAVTGQIPYEAASVVETLRRQATEPLPDPRTFSPELSEEFVGLIGAMLSREASDRPK
+SWDALVAILDRLLARHPGAAGILPIVETPSVSPVSTATPAPPPRDVAAIIAGISIAAALG
+VGAGLVWLRLGSGTESARPPGPETSSASSNLPGPLLAVAPATSAPPDAPAPGPGEWRDDD
+ILPRGGRPLDPALRDRIGAAIADARDYARTHPEDIDGQIARFRKVAAIAPSGPLMHRIQE
+MIRTAPDMKRRAQGIAEAALTAGAEEALRTGRFAEAIGKLEQYPGPFAAETKALRESLVG
+RLKTADEEARQKAAQERIAALSDRVATGVVKGNYLSAFSDLDRAAADAEYASLLDSIHAT
+RGVVTELAAVQTNLLKSFLAQKGLEIPIDFKSGKAETLQIGSVRGATVIGRRLLKEGFIE
+RPFTLADLSLKEKERRLALAGGTPSAVVMGLLALEAGEAPLAANRFLGSGTALGAALARA
+VSARP
+>tr|A0A1W9LBD4|A0A1W9LBD4_9BACT
+MTQVIRAAQRHFSDFGWLKTFWLFSFSDYYDPENVQFGTLRVFNDDVVAPGTGFPAHPHQ
+EMEIITVVLEGEMTHEDSMGNQAVIRAGDVQRMSAGTGLTHSEFNLADKPVHFYQVWVPL
+>tr|A0A1W9LAZ9|A0A1W9LAZ9_9BACT
+MTRPRRTAASPGIPPASAGPADDSLREMELLYQISRVLDQSLDLRDIVSPVLEALSRRMN
+MQYGTLTLLNRNTGDILIEAAHGLTARQARKVRYRLGEGVTGRVVQSGRPAVIARTSESK
+EFLDRTQRGRHADTSFICVPILVGQEVVGALSVDQPTKTETELADDVRLLTIVASMIAQA
+VKLRRQAQEEHDRLEAENARLKDELRERFRPANILGNSHEMGLVYDQIAQVSRSPATVLI
+LGETGTGKELVAHAIHYNSDRASRPFVKVHCAALPEAIIESELFGHEKGAFTGADRERQG
+RFELADGGTIFLDEIGEISASLQIKLLRVLQEREFERVGGVRSLRVNVRVIAATNRDLPQ
+MVREGKFREDLFYRLHVFPIYVPPLRKRKSDVVLLADHFLEKYAKAAGKGVRRLSSAAID
+MLMSYHWPGNVRELENCLERAVLVAEGDVIHPHHLPATLQTAEATGSPVTGDLQAMVEA
+>tr|A0A1W9LG23|A0A1W9LG23_9BACT
+MLAKRIIPCLDVTGGRVVKGVKFVELRDAGDPVECARAYEAQGADELTFLDITASHEGRD
+TMVEIVRAVARQVFMPLTVGGGIRAVDDIRGMLQAGADKVSVNTAAVTRPDLISEGAQRF
+GSQCIVLAIDARRRTTGPGWEVTTHGGRTPTGLDAVAWARDGVARGAGEILLTSMDCDGT
+KGGYDLDLTRTIAEAVPVPVIASGGAGTLDHMVDALTVGKADAVLAASIFHFGEFTIHAV
+KAHLRARGVEVRL
+>tr|A0A1W9LCJ6|A0A1W9LCJ6_9BACT
+MRILIVDDEAVSLAKLTTLLAAHGDCDTATSGPQALEMFKQAHTDGRPYGLVTMDVRMPD
+MSGQETVLAIRTWEKEKARLGARIIMVTVVQDLVAVSTSIKSGSDGYLMKPFTPESVRDA
+LSALGLVKGKLSLKLKSSPPAGS
+>tr|A0A1W9LBM9|A0A1W9LBM9_9BACT
+MGVPPRCLVIGYGNPGRLDDGLGPALAEALEKKAIPGVTVESDYQLAVEDAAQIAEHDVV
+VFADAAVAGREPFFVRRVGVRPIEGLGSHTIEPEALMALSRDAFGAETRGFALGIRGYEF
+NEFGEKISDRARRNLDAALEFLEARLRSGMFDGMETEGGPAAAESESEDMR
+>tr|A0A1W9L855|A0A1W9L855_9BACT
+MAQALIAQTKPAAYQMAGMSLTKMRAVYQRTGRLPEWERLLVALRTEHARKPRMIEVLDG
+LEGKRSRILKP
+>tr|A0A1W9LCL9|A0A1W9LCL9_9BACT
+MSEPAFQIGADGVDAAALNAEIQSAVDSRIAAGAYADARIARAERLNLVNLRRDGSFITH
+YLRSLRDAVEVDISDFEIRERRAGLAPFLIRLKKAIWSLLKFYTYRLWSQQNQVNSMLAA
+GIEGIDEQYAAKIRRLEERIAELERKAGGGTQAG
+>tr|A0A1W9LAU6|A0A1W9LAU6_9BACT
+MTEPVQWTVPRIRALKGKSRITSLTAYDFSTARLVDEAGIQLIIVGDSLGMTVLGYEDTI
+PVTMADMLHHTAAVSRGARHALVVADMPFLSYQVSIEQAVLNAGRFIKESGADAVKIEGG
+AFRVPTIRALIENGIPVLGHIGLTPQSIHAMGGYKVQGKTEEGAQRIVADATAIDEAGVF
+AMVLEGMPAALASSITTAVGVPTIGIGAGAGCDGQVLVVNDVLGLYGEFKPKFVKRYANL
+GPEIQKAFAQYKKEVEDGSFPGPEHSY
+>tr|A0A1W9LFN9|A0A1W9LFN9_9BACT
+MRGEYSAMHNKFMVVDGRYVIAGSYNFTTTAGAANWENVVWMDSPEIASRYAQAWERITS
+E
+>tr|A0A1W9LGF4|A0A1W9LGF4_9BACT
+MTAPDPRAVRLSSGPRPVLCLHGFLGGPDDWAPLARALGPGFGVTAWTLPGHGAGPAIPF
+RRAVDEIAEFLRSLPVPAHVVGYSMGGRLALAVALRRGVPTASVVAISASPGLLTTRART
+TRAHTDDRRADALEQDGLAAFVRAWYAQPLFASLLRRPALAARLRALRSRGEPGPRAAAL
+RALTVGRQPSLWPRLADLDAPVLFVAGAEDANYDRLMARAARLCPRGRLLTVPGAGHMPH
+LERPAFVNRRIAAFVRGNNGDHP
+>tr|A0A1W9LB56|A0A1W9LB56_9BACT
+MSDPLKQKTYQPCGDLWIEQPAGTVVDNYRRWLDLDAAVCVSDYRVGDVTYTREAFASHP
+ARAIVARLRADKPGRVDCRVRLSSVHRDAAATVGGGGRITLRGQVEEGGIRFEAVAQVEA
+KGGTVTADGDAVRVTGADEVVVRLVAATNFRTWQDISGDPSARCADLMKAALAQPFGALL
+AAHQADHRALFRRVAIDLGRKPAAEKPTDERIAAFRGGDDPHLAALVFQYGRYLLIGASR
+AGGQPANLQGIWNDLLKPTWDSKYTCNINTEMNYWPALSANLAECQTPLFDALDDLAVSG
+VVTAKEHYGAHGWVVHHNFDLWRGSAPINAAFHGDDPLVHRRPPGRPSRRDDGDLRHETR
+CRGRSRCGPAQGAVARNGERRPEESVKSHKDDFVAQSEAASRLQRRVHAAYTNAIATTRC
+AAGGHPGARGAPKAKWAERTLLGKPGKGGAMLRFVAFLRGVNPMNAKMVELKRCFEGAGF
+TDVKTVLSSGNVVFNARAAPEAVLERKAEATMAKQLGRTFHTIMRPADVLHELIEADPYA
+TFRLPVNAKRVVTFLREPHTGKLSLPIEVDGACILAMNGREIFTAYVPNPRGPVFMTLIE
+KAFGTKVTTRTWDTVKKCATA
+>tr|A0A1W9LEC8|A0A1W9LEC8_9BACT
+MGIQDEIGKRRTFAIISHPDAGKTTLTEKFLLYGGAVQLAGSVTARKTQRSTTSDWMELE
+RKRGISVSSTVLQFDYADCTVNLLDTPGHKDFSEDTYRVLTAVDSALMVIDAAKGIESQT
+RKLFEVCRNRSIPIFAFMNKMDRPTIEPLALLDEIERTLQVHVFPVNWPLGTGFDFKGVY
+DRTTKNVHLFERLAGGGAYRAPVSIGTIADPVVRERLDAASFAKVGEELEILEAAGAEFD
+SGGVVSGGTIPVFFGSALNNFGVQLLLDAFLKHSAPPAPRMSEGRLIPTDYGAFSGFIFK
+IQANMDPNHRDRIAFVRICSGKFTREMAVRHSRTGKTVRLNSSHKLFGRDRETVDEAYAG
+DIIGIVGHSEFGVGDTLTEEEGIHYDEIPHFTPEAFLYLSNPNPYKGKRFREGLDQLLQE
+GVIQELILDSSTQNTRLLAAVGPLQFDVVRFRLESEYGAETRAEPAPWRILRWLAPTVTD
+DQARSMNLPMGCQPARTKEGQRVMMFPTEWALQYFVEKNPSLEISTQPYTSRSIRAK
+>tr|A0A1W9LHP4|A0A1W9LHP4_9BACT
+MKTNLWWVAVLLCGALLPAGAKDTKKGPGDAVAPPPDKAAPPAAPVPPGSYQGPAYAEMD
+QDKDNTLTWSEFLVAQTVAMGKTADQAKALPAKDQTRVRKMFKEADKDRSDNLTSQEWDA
+YCAARIAAKVRIQQKVKSAAEEEAEDDARMKKYRQ
+>tr|A0A1W9LFX3|A0A1W9LFX3_9BACT
+MSMKNAWARTMAVIAVAALAGCEWEGTDQSESTSQRYNWVRFDGTYRAAANGYLVSGFGD
+VLQITAETIGTAVAGVSSYNGVFDNDNVVPGTVQINAGVFALTDNGAGALAGGGKTGTII
+YKTGAWSINLLGEWPPGGTPIVATYRHGDASSPGGGGEPIYTMTVQQAGNSLTLIDNNGG
+TYSGLISTISSSGGQTIEYPDTTTSMPANGDTMTASFEVEGRSSSGVSVKIVGNLTGTAT
+VTAATATTPSTIRLANRTIRGTWIEANGATGEVLGTAP
+>tr|A0A1W9LE32|A0A1W9LE32_9BACT
+MITRSHALALLLLLAAAAPLAAVEVSFRPAAPTFADAIDVELRGCAQGGVLHWGVNARGN
+QWQKAPAEYRPAGSVEDGLATRTPLEGPDTDGVCRVTLGPFDRTNQPVSSVDFAVQWSDG
+TWDTAGGKDYHIPISAARIGVAPERPTINDGLTVTVHRSRVAGQLRWGVNAARGVWQPPH
+AIYRPPGTAMADDGVAVDSPLPPPDASGDSVITLGPFTRPEQVVTSLHMAVHWGTEWDTD
+SGRNYNVPVAPDAGWPRVVFYTPFAGEELRTTAVIRVGAIGADVVSLRLDDQPALSRRER
+PFRWVLPLGELPPGRHTLTARAESGGRVGLRQIAFWRVPPFREEPLPEGAKLGATENTDG
+SVTFALFAPGKHFVLLIGDFNNWNPESDLMNRAPDGTWWIRRKLDAGRHTYQYLIEGEKR
+LADPYSRDVDWTNEAGEETYRPELARSVITVGSPPFAWSDPSFRRPPLENLLIYELAIDD
+FCPGEGFTGVIARLDYIRDLGVNAIEPLPFTEFPGAWSWGYNPAFHFAPESTYGTPEELK
+RLVNEAHRRGLAVIFDTVLNHMDVNSALFQLYGEDYDASPYFHLFLGDNWGFPDLDQPSE
+PFKRYAADVLRFWIEEYHIDGFRYDATRWVGWQGYNDWGAGWFAYAAKQAGSNTYQIAEH
+LPADPELQVRTEMDAGWHDYYRWRVREMIRNAELDRDELQKLMEPRRIGFGSAFERLVYI
+ESHDEERFLRDLEQAGYSEDEAIRRDVLALTLTLTAPGPAMVYAGEEFGETSQKVLARNP
+LRWDRINRPAYRRLLESFRALARLRTTHPALRTESIAWPANSLPDGVAVYERTASNAAVV
+VAANFGRTEQPAVVTLGPGTWADVLASAQVAGGTNLMIQLPPGDVRVFSSE
+>tr|A0A1W9LGB3|A0A1W9LGB3_9BACT
+MGSDSDERCWLGFDLGGTKMMAVVLDADFHILGSSKTKTRAQNGAKDVLERMTQTVREAL
+DEAHLKPQRLAGIGVGCPGPLDLDRGIILEAPNLGWKSVAIKDAMQKEFDCPAVIANDVD
+AGTYGEYRFGAAQKARCALGVFPGTGIGGGCVYEGRLLRGKIGSCMEIGHMPVQADGRLC
+GCGQRGCLETVASRLAISAEVAAAAYRGEAPHILEMAGTTLAEIKSGVLAKAIDAGDETV
+ERIVRHAAQQLGAAIASVVNLLAPDIVVLGGGLVEAMSDLFVGEVRRAVDNRAMKAFTRS
+LKVTAAQLGDNATALGAAALAAEAAAKP
+>tr|A0A1W9LFG2|A0A1W9LFG2_9BACT
+MRTTLVLDDDVLDKARAVATRLDAPFRRVVNEALRAGLRAVEEPLRTRPYRTRPHKMELK
+AGRSLDNIQDLLAQVEGEDHR
+>tr|A0A1W9LHH5|A0A1W9LHH5_9BACT
+MSNPVKNRYDFVLIFDVQDGNPNGDPDAGNLPRVDAETGCGLVTDVCLKRKVRNYAMLTK
+GSEAGFDIFVKEKGVLNRAIASAYQTLGIDLEKPPVDEKDGKKRNDKGFGQGKEVERARD
+QMCKAFYDIRTFGAVMSTGANAGQVRGPVQMTFGRSVDRIVSLEHSITRMAVATEEEAAK
+QGGDNRTMGRKNTVPYAVYVSHGFISAHLANQTKFSEDDLKLLWEALGNMFEHDRSAARG
+LMATRKLIVFKHETALGNAPAHKLFDLVKVKRVDESKPARAFSDYEVSIDKAGVPAGVEL
+IEMI
+>tr|A0A1W9L9R5|A0A1W9L9R5_9BACT
+MDDTPRPVADLHYRCLMERSSQERVMMGIQMFETARRLVLASLPPDLSEVERAFALFLRL
+YGHEIETGSREEFRQRLLIPFPGNGRR
+>tr|A0A1W9LEP3|A0A1W9LEP3_9BACT
+MIEPTTTAWLHQEGTKEGRPAVEMADAFTKLLEAFADAGGRIFSCGPAPALVDGRPSNRP
+AALAKAPGWREVAPEGLAAALAEFHSPGARIRRAADDAGLLFHMRRRVPGGELLFLVNTS
+SNQPARGSVASAARGAEDWCAMTGKTAPASFRDEAGGIALSFDLPACGSRLLFLSDAVGA
+PAPEAAAARPTAVAATGPMEVRRTAPAVLTLDFVDVTCAGETRTNVHVVAAADFVFSKNG
+FEKNPWRHAVQFRDRIVATKFAADSGFDVVYRFTVEGAPPRDLEAVVEQPGLYEIACNGT
+PVTATPGAWWFDKSFGRIPLAAAAREGDNTLTLRAKSMTIRSEIDFVYLRGSFSVNPAAR
+GFVVAPERPLAAGPWSAQGQPFFADRVVYAQTFAVPAGGARHRVRLPSWWGALAEVSVNG
+KPAGRIAYPPYELDVALAQGAIGIGQMHVADVLHANSLEHLVGPAGRAVHQIEVARIVDH
+FSAGSAAAWS
+>tr|A0A1W9L9T7|A0A1W9L9T7_9BACT
+MPVVIQPRRMEPRKIAVVGGILVALTVWALWFRPPPATPVETVELSGEVQGTFFHIRLAD
+PSLSTQRLDAVGTAVRQSLDEINRQMSLWDPESEICRFNRAPPGSPFPVAAGFAACTRFA
+LDLARQSGGAFDPTLRPLLRLWGFGGPEGPRTDDPPEADQRAAFAKAGWRRVTLEPGGLR
+KDADGVELDLNAVAQGYSVDVVSRRILELGVTNFFVEIGGEVYVSGRNASGSPWRIGIDE
+PRPDALPGEHLAGILHISGCAVATSGGYRNRRAGAGGRAVTHIFDARTGRPSARERLSVT
+AVADDCLTADGLSTALFILGPDEGLPWLATHYPGAEALFVSMAGDDGPVTTRASPGFLRR
+TSMTPGR
+>tr|A0A1W9LFS2|A0A1W9LFS2_9BACT
+VLGLDSDLDGVADSFEGRHPGIMDPLAGGSHLDPDNDGWSSESEFLASVLADGVFTNTPS
+PADASSYPVPTIVSTFKSSTPTNAAGQMVIHAYPTSTMDGAPDATIVIPAASVPANYPFT
+VQSTSFTSGHLKEGPAWFFAFKDFNNDGAWNVGEPFGLAENPVNATWNTENLTFGLTVGK
+QGFGRFEWAAAAGVDGYRVYVRRTDGAQIIERFVTGRTYVQEGDYIAAGFADGLSENASY
+QWFVYRSDQTPFVSPPHAQGVFTVTYSSAGNVPAAPTPVTPDGVPWRYGLGQVAFRMDTN
+AVRYDIEVATNGGAVVYQRTSLVPALDLDGAMRADLALYSDGLYTWRVRGRTAHGLGAWS
+ASQLLSVNLSPTPSGPYSISGEVFYQGKVLNPAVVVEARSVRDFGGTAAARRIVQKISVT
+NEGVAGRVEFTLRGLLPGAYYLRAYLDQNGNGVVDPFESRGMMTSVSQFRAEAGSVPASL
+SGRMVVIRDRDTDNDRIPDAFEYFKIGNLTTMGLGSVRGWTDTDGDGLNDFEEYHESAVD
+SDPLVADTDGDGIPDGREVISYGTNPRVVDTDGDGLLDGSEIALGASPLKRDTNDDGVSD
+GIKHVRGLDFLRADTDGDGFTDLLEIAAGTDPKLASSIPACGQLFEIGGLDFEGQGVRTR
+FRLAPGIGRLAAHIEVWV
+>tr|A0A1W9LAC3|A0A1W9LAC3_9BACT
+MASVSVRIRKGLDLPFSGAPALETAEGPASPTVALQPAEFGGVKPRLLVREGDRIRRGTA
+LFLDKRNEALRFCSPAAGTVRSIVFGPRRWIESIVVEVSGTDEAESFGRLAPSQIAALPR
+SKVLDVLQATGLLALIRQRPYSILADSAATPKAVFVNGMATAPFRADADAVVRGDEAAFQ
+AGLDVLARLTPGKVHLVLSDRQGLSAALTGARGVEIHRFSGPHPSGNTSIHIHHLDPIRP
+GDIVWTVRAADVPLIGRLFLTGEMPSHRVIALGGPGVAKGAARHYRVRIGGALAPLLSGR
+TTGRDLRVVAGDALGGESVKADGHLPLLESSLTVLPEGRERHLLSWANPFTSAYSASRLY
+LSSWFGRGKTWTMHTNIGGERAMVVTGLYDQYLPMRILTDFLVRAVLAKDWEEAVKLGLL
+ELDPEDLALAAYVCPSKVDLVGILRKGLAEARAEGI
+>tr|A0A1W9LCD3|A0A1W9LCD3_9BACT
+MCAAAGARRRDGRRSIMRPLISACVTAGNEERNIARCLESLRWCDEIVVVDSFSQDRTVE
+ICRRYTQRVVQHEWLGYIGQKNFAIGLASHAWVLVLDADEEVSPELRDEILAAMEGDGNE
+YAGYLFPRQVHYLGRWICHGEWYPDVKLRLFRREIGRAEGREPHDHIVVRGRVRRLERPI
+HHYTYDDLRDHVDTMNRFSTITAQEQFREGERFHWIDFLFRPFWRFLKAYVFKRGFLDGR
+RGLLIASVSAFGVMVKYAKLWELQRATAPQTGPAACRGETPARPRAGTATRRFVLLLVAL
+AIGAGIFTIHRERTAPRRWGVVVPGLVYRSGQLPADRIETMLVRHRIRTVVDLTDARTHS
+ADRDAEARVLTALGLRRVSAPLEGDGRGSLDSYVTAIREIRRAESSGEPVLVHCQAGTQR
+AGGVTAVYRLLVQSRGREEVVRELERNGWRPGRDDRLPRFLDENMAELARRLAAAGLIPA
+VPARLPRLSEPAGGKGP
+>tr|A0A1W9LFN8|A0A1W9LFN8_9BACT
+MNASSLPWVDIADPSDDAIRDVFAALPRRGGLRIRCIWERRGGLLAALSDCGAFAMRADP
+APGFDTVTITALKGKAGACYETGRSATYLGAAAAVMDDDRHLVAGTLRVCEKTGGLYRLP
+PYAGLLRVTDADPDLLRRLDTDPVPFDCNTFEADAARIAASLKSANAGSDTTTAVYYPGP
+FSLLVLSDGSIIRRAIPVGIPAGIVPALRKRDGLLLPPPACAAEAEPAANFRDGYAAAGA
+GCLIENLGRAMPVCAPAGEAAVPESAWDALRDAPPALRDRIGRLVAGREPYFILTGSDPR
+NSAGCCPSTDVGAANRLVEAGLLATHRMPAPADACTTTVYAFAGEIDGAGPAPAFRIRTD
+LRARAAAELGRPFAKETDVCD
+>tr|A0A1W9LEX4|A0A1W9LEX4_9BACT
+MCASVVCAIGAEPEARETVEVVREVLHPAEIRQEQGFCFIATPGLGRAGDQEARSVCTLM
+EDGKPIGPSRALHAAIRTEGKGRYSHWSPTALYFSASDNSDPRTNGREYALVSRRRVVRR
+SFERVFQAAEARYRVEAAAGRPVANRRVTLRNLDATAAAVFHLRGAGWPDLSSTEGILGS
+ILPPGADEERKALAIWKFLVDWRYHYYPAEEGDEIHDPVKFINVYGYGFCDDCAENFAVL
+CRAAGIRARIWGLDGHVVGEAFYGGRWHMFDPDHEVVYRSADGKIASVEDLAADPSPITA
+TPRDPIGSDSAAIAKLYTSTRDNRPGERKVAAGARLDPVLQPGDEVVFDLTDRDRSRRIA
+FPKESPAPVRANGRLLRRVPAVAAGQTAKIRTVWPYVLLGAELSLDPAREGIVAEVAIGD
+GAGPLGAVPAALRGAVLAADLTGWFEARMPAPYAYAIRVAPRGPADAGPALRGGVLTTWF
+QFAPRALPQVGAGGTEFVLRLAAPRGMSLPSGWRGVRVIHEWDEIAGDLPAGDSRAP
+>tr|A0A1W9LFY0|A0A1W9LFY0_9BACT
+MTRLLEARRAEGPPDDELLEQISRAAFAYFWNEADPDTGFIYDALSNRSSSSAATGFGLA
+SLCVADYRGWITREQAYERVRKTLSAILANPGWENIEGLFFHWVDPATGRWTGAEGMCLH
+DHVALICGVLTVREYFKGTEVEQLAGRIVGMSNWEFLTHRGKGTSSDRAGVLSNVSSWDN
+EDWGGVVEYDGMKLDYLLPIGAESNAVDAWYWKSWAASYPWGDYRGRYHRITRAALWIHQ
+WDNCYLDLFCMRDAYADYFQNSVENTLANRQWCIDNQMYDAETWGLNPTTGPDPGGDPDK
+IVYGNYGAPPPPTNSWQQGHVQDGTIAFTAAGPSIIFTPDESLLVLRRMWDTLRDKMWGR
+YGFTTSFNLEKNWYSRDYIGIDLGPVILNIENYRSGLIWKYFMQCPEVKRALRLAGFVGI
+VDNFDPMEHSCPYAEWSVSRGEADLEVVRGNAFDGDRCLSIIPRGKGKSEGLRIEAAPLR
+RDFSYHSRLGLRVAGRHAAPPFRVSIVDGGGRIATLALAPAAKDAKKNGWRAFAWKLDGT
+RGVNLKDIRKVVFEPLISLHREGMLVDRICLYDGDGS
+>tr|A0A1W9LDZ5|A0A1W9LDZ5_9BACT
+MSLHDEMIQVGDRAVAASRALAPLSGRRKNAILEAMAAELDARREAIFVANRVDLEAADK
+AGMSKPMRDRLVLDAKRMDVMIRGIRNIVGLRDPVGAKISRWIRPNGLVIQKVRVPIGVI
+AIVYESRPNVTADTAVLCFKASNAVILRGGKEAMESNKAIAQALVEGGSKKGLPPYAIQL
+VTTTDRDAIREIVQLTGRVDLVIPRGGEGLIRAVTEHARVPVIKHYKGVCHVYVEASADP
+EMALRIVENAKCQYPAVCNAAEKLLVDAAVAPSFLPRCAALLQARGVELRGDEASRALVP
+SMKPATGEDWTTEYNDLILTVKVVPGVAEAIAHINTFGSHHSDAIVTADEPAARRFTEEV
+DSAAVYVNASTRFTDGGEFGMGAEIGISTEKIHARGPMGLEELTSYKYVVRGAGQIRE
+>tr|A0A1W9LA66|A0A1W9LA66_9BACT
+MLVAILCAAVVTGDAGAAKRSKKQQEIDAQREEMRQRAEQRQKDPTVELAPAVLPSNITF
+TPIPMGPVLPPWEAARRKNGASAPTPGFTVSVPDPFEPSLPSNLTARTADSAPAAPAAET
+DPAPKPAAPTRAVPVASGGPEVPFENPSFMEGAGLFNDAYALFKKFQEDKDAGHLTRIPS
+MCTDAVKAFEICRSGYPSDARIPKYIDQCYGLTRYARQSELMASGQASQ
+>tr|A0A1W9LAH9|A0A1W9LAH9_9BACT
+MSHASSPNLIVIEPVTRVEGHGKVTIQLDEARNVKQARLHIVEFRGFERFIQGRPYWEVP
+VLVQRLCGICPVSHHLAAAKAMDRIVGGENLTPTAEKIRRLMHYGQMLQSHALHFFHLCS
+PDFLFGFDADPAIRNVIGVAKKFPDLAVQGVMLRKYGQELIKATAGKKIHGTGAIPGGVN
+KNLSIAERDGFLKDIEQIVAWSVGALKIAKDYTTANLKELADFGTFDSNHLSLVRTDGAM
+DLYHGNLRATDAKGKKIFDQVDYQNYLDYIVEEVKSWSYMKFPFIKSIGPENGWYRVGPL
+SRVNLCDFIPTPLAEAERKEFMALTKGAPNNITMAYHWTRMIELLHSAEVIRDLLHDKDL
+QGTDLVVKGQRRREAVGLIEAPRGTLFHHYIVDDNDLVTSCNLIVSTTHNNTPMNRAVEK
+VAKDYLSGVDVTEGLLNRVEVAIRAYDPCLSCATHAMGQMPLVVEVVDAEGRIVGRGERG
+TRIG
+>tr|A0A1W9LF17|A0A1W9LF17_9BACT
+MGDTMDTPRRAPAGFTLIEVLIALVVAVMLCAAIAAGLMLVLRQEVRSADAQDLALAVHA
+VSAARTLDPGAERATPPLIGLTVDRSLVEEGTGDGKRAWDQWSVYHPERPSQRLRLLFPT
+NLTDQTHRLGDER
+>tr|A0A1W9L7S2|A0A1W9L7S2_9BACT
+MTAPASARDATTGFWAAVIFLVSLAVFGLYYNRGLILADEGSLIHATQRIVHGEVPYRDF
+YHFYAPGSFYILAGLFKVLGERLLVSRMMWVVVRALSVMLVFLAASRLMPRRFAVWPAMV
+VLFIPGPWFKACYGFSALLSFWALLRYVERPTFARVAAHAGAAFAVIALSLLPVLVYFQR
+RNALGPMSHQLFGLAPSYTLATWHATVRKLPRLRHDLAQLLMFCIPPVVLATSGAWSAAR
+ARAKPSRCSCCRRWPR
+>tr|A0A1W9LCR7|A0A1W9LCR7_9BACT
+MVLDLMIHDLEIILHLVQSPVKDIRAVGVPVLSRSEDIANVRLLFESGCVANVTASRISP
+EKLRKIRVFFEDAYVSLDYQNQAGEVYRRAQDRITRDKIPIEKGEPLANELRSFIRCVAN
+RDQPVVSGEHAAESLKLAVTITQRIREGAS
+>tr|A0A1W9LEC4|A0A1W9LEC4_9BACT
+MSSRTWISAAGGRPPLTYTGDDGAPHTYASNAAAVYIEKGWDITIRNCILRECGNGLFAG
+AYGGASSNLLVEGCRIYDNGNTNSIYEHNNYTEVSGITFQYNWFGKLRLNCSGNNLKDRS
+AGCVIRYNWIEGGNRQLDLVESDYPALASQPAYSNTWVYGNLLVEPNDDGNSQIVHYGGD
+GGDTTLYRKGTLHFFNNTVISRRTGNTTLFRLSSNNEKADCRNNIVWVSGAGSSLAMLDS
+SGRLDLRNDWFKTGWVNSHSGLSGTISNLGGVITGTVPGFADDATQDYHLTNGSPCIGRA
+TNAPVAVARQYVRNQRGEPQPADAALDLGAYEFAAARAVDDDAIFIHHSCGANWLANSLD
+SALQNKDYVDERNDITYGTDLAPDAGRPDSLASVPGDSTDMQHWIRWFNDYLGGVKTYAC
+ADGTNRIVLFKSCYPLSDVGSDGTEPGNPFSGTLTIANYKAVYRCYGGPGGVYTNGGYTY
+RPIEDLFAANPGILFIPVTAPPLTYAGTTDANAHRARLFNNWLKIDWLASYNAAHPGMNN
+VAVWDWFDYLTYPDNDASHPNRLKGEYGGSGGDAHPNGLANTNSTQVFAVLRDNFVDRAW
+FAFRHADHDGDGIPDWWELANSGDPTNMTETSDRDGDWMSDRAEYTSGTDPNNATSFFQC
+LEKSSAGPPPPAVCTRSTQQRTHWSRLTGHWSLLPSPPLRR
+>tr|A0A1W9LEN1|A0A1W9LEN1_9BACT
+MKEALALEEAPSLPASDNAPGTLAQLLSANEHYRSSAWPPPYDSTQHRIRLGDARDLSWL
+PDNSVHLVVTSPPYWTLKEYERNPAQMGEIAEYEGFLSELDKVWRGCARVLVPGGRICCV
+VGDVCISRRREGRHYVVPLHADIQVRARRLGLDCLTPILWHKIANGATEAEGNGAGFYGK
+PYQPGAIVKNDVEYILFLRKGGEYRSPSMIQRALSMLSKEEMKSWIRSGWIDIRGESTRK
+GHPAPFPVELAERLIKLFSFAGDTVLDPFAGTGSTNVAAINCGRNSIGVEIEPKYLRIAA
+ERVKTVASEPRLFGARTAAVTVEA
+>tr|A0A1W9LE86|A0A1W9LE86_9BACT
+MERSVVRGELDNRQKGRVTGRVWLLGREQPVELLLDGNCLSDLAGCRFTFVNPHPEPGDA
+VDLMTFQQGPVGDITAARKVRDVPMEEVERVLRAGEKLNSERYPLVHVLRIEWFSTTNGC
+VIIESPRYRLEIGEREWTPDPAEEKRRPSVEEEIEREFGEEDFEYDPESDRRMDEFGWEK
+FMRESDQRSDQFGKLLEKYMDHPDRDRIVAREMGWSWMEEALDAEERGENAAVEETPFDE
+VPELVPNPLTEGTDWVRDDHGGIEHPLVLRAHRVGLDMWRHAEAIGQHGDAGDPDLGEMV
+FQTQTTAAKLAGALNHLAYEDDPDPGFVVAALKRALNYLHCALAAADRLAVKAVLDAQRL
+KEYQAGLFGVREDVLALMKRFREKL
+>tr|A0A1W9LFX1|A0A1W9LFX1_9BACT
+MEKKLEEIGETQTGSTPKTSGQSNYGDFISFVKPGDFNTDGTLDYGKDGLSESGAEGARK
+VPAGSVLMVCIGATIGKCGYCDQDVTTHQQVNALTPSDGSSNRFVYYQMRTETFQRKVIH
+ASGQATLPIINKSKWSALSVWLPPKVAEQKKIAAKFDTLTEATQRLARLYERKLSALKAL
+KKSLLHDAFRGAL
+>tr|A0A1W9L9W4|A0A1W9L9W4_9BACT
+MDGSLKIVIIAGPNGAGKTTFARSFLPEEAECRDFINADLIAAGLSPFDPSLVAIRSGRL
+MIEEIKSRVRQRRSFAFETTLSGLTYARLIRQWQRVGYRVKIVFLSLPSPELAVARVRTR
+VAQGGHDVPESVVRRRFEAGLRNFHNRYKKLADSWVLYENSGDRPTMIEAGFEP
+>tr|A0A1W9LFT5|A0A1W9LFT5_9BACT
+MEFGQYRTLEFSAPADFRNVQESLLREHAAYALEHSPFYRRVLRAAGVDPRALTLDGLAA
+LPFTDKSHLEEQNDDFLAVPPNRIVDIVLSSGTTGKPTRVMYTRRDLDRLAYNERLSFEG
+CGVTADDVALLTCTLDRCFVAGLAYFLGLQSLGAACIRNGHGTMESHLDIIARLKPTMIV
+GVPSFLRKLGQYLEANGVKASATGVRKLVCIGEPLRDRGLALLPLGRDLEAIWNARAYST
+YASSEIVTTFCECTAQCGGHLHPDLAIVEIVDENGRAVPDGDVGEVVVTPFAVEGMPLIR
+FKTGDMSFLAGGACACGRFSPRLGPIVGRKKQMLKVRGTTLYPQAVFAALDEIPGVKEYY
+VEVESEDDLSDRLTVHVALDEAVATAARVGDKLQSRLRVKPVIVVEAGETLRSLVHTPKL
+RKPVRFVDRRKSRS
+>tr|A0A1W9LCQ7|A0A1W9LCQ7_9BACT
+MRDLGMKAPSRDRVFAMLNELGTASRDEVEVHPQFLGERHDPALTGRILGLTMDNYRLGA
+VARGLARGIVRNLRGMLPLAALRGRRRVVGSGNALRRVPLLQAMVREEFGLPLVLSPGRE
+EAATGAARLAAGGPIREPRWPGRSPALQRTRHRET
+>tr|A0A1W9LDC3|A0A1W9LDC3_9BACT
+MKGFGILSLCAVLVAGISGAAEETRLSSLDLKQMTAGWGKPLPDHSVDGNPLRIAGTAYA
+HGVGTHADSLIRVRLAGGAARLRARVGVDDEVVARGTGSVEFVVIADGGRLWSSGVLRPG
+MTAMAVDVDLSGRTGVVLRVTDGGDGTDGDHADWAEAVFLTEGGPPVALPPVPDEAPYLL
+TPAAPAAPRINGARVVGARPGNPFLFAIAASGERPMIFAGEGLPAGLELDPQTGILSGTT
+PAAGEYRIGLTARNARGEARRELRLVAGDRLALTPPMGWNSWNCFAHAVTGERIAAAAEA
+MVRSGLSRHGWTFINIDDFWQVKPGDADPTLQGPARHADGRIAPNPRFPDMKALVARIHG
+LGLKAGIYSSPGPLTCGGCVGSHGHEAADAAQYAAWGFDYLKYDWCTYTKVAKGSSLHEL
+MKPYFVMGDALRAQKRDIVYSLCQYGMGNVSAWGAKVGGNCWRTSGDIEDTWKSVAGIGF
+SQFGLEHFAGPGNWNDPDMLVVGRVGWGPKLHPTRLTPSEQYAHVSLWCLLAAPLLIGCD
+LEQLDAFTLNLLTNDEVIEVNQDPLGRQAARVAVRGSGQVWAKAMEDGSVAVGLFNLDEE
+ARAVAVEWSDLGLAGPRRVRDLWRQKDLGVEDGRFETRVPRHGCALIRLLPPPAGEGSRP
+>tr|A0A1W9LG06|A0A1W9LG06_9BACT
+MSSADVHSAALADLMRAAGSGCMAHAYLIVGDPRAAGLAVAEFALKLVLCEALEKPCGRC
+RGCSLVDRHQHPDVIWIEPEKKSRVIGVGKREDREADPGIRYGLIEPLSQSTMSGGWKGG
+VVLAADRMNEEAANAFLKTLEEPPPRTLILLVTDAPNHILPTIASRCQRITAAGGESSAP
+EPWRSRLLDLLAGGGGSGAIGRLGMAARVSALFVQLEEAVEEEVEAAAADDTDSDVLKAR
+VSARFIEVRRSLLQELMLWQRDLLAVVLGLPDEALRNPARADALRREAAGLSYADALDRV
+RRVEEMDLRFLRNMSNDVVLSAFFREIPCGGVRSR
+>tr|A0A1W9LB77|A0A1W9LB77_9BACT
+MQIEVSRVSADGLEFEGEEDASILELQSSDNLTPEGPVRYRVTAQVLKPRLIVHGEVEAP
+LRGECSRCGGFFSTLVRDPAFLRDYLLQDGQKEVDITPDLREAVLLQLPANPLCAESCAG
+LCPQCGSNLNEGPCECRPSSDGGRWGALDGLRL
+>tr|A0A1W9LHC9|A0A1W9LHC9_9BACT
+MKVKTKADYRVRRHLRLRKRIHGTAERPRMSVFMSLRHATVQFIDDAGGATLASVSTQAG
+DLKAFAGRVTLAAAKKVGEAAAGAAKARGIAAVVFDRGGFRFGGRIRALADAAREAGLKF
+>tr|A0A1W9LD83|A0A1W9LD83_9BACT
+MSGIRPRKEIPMRTFRRPALALACLFALAGAARSAEPDPNEASYKWRVPDGRTHVLWVGG
+GHWHDTLRTTAILRQALEGGGRFHLTYTEDTGTLGRLKPYDAIVLNGMLASMVPEEEQGL
+LAAIRAGKPLLVLHAASASFRRPPPAKKDDPVAGHPEFYRMLGGYVEHHPPFGPVHVRVI
+APGHPVTQGLAGFEIEDELFLFRNLEPDNEVLLETDFEGTKRPLAWARRWGEGRVLHIAL
+GHGAKAAGNPAFQRLVMQGLAWLTGQPVQTPAAAVK
+>tr|A0A1W9LFQ9|A0A1W9LFQ9_9BACT
+NLTTDWSLYVTNRAAALQMLELGATRFTLSPEDGLGNMKPLLAEFGPQATVIVYQDTPLF
+ISEACVHAGAASCPGPANCAFEKTEMTSSHGDQVIAINRDCRTIVIGKKPLCLAPRIGDL
+VSAGAASLRADFVWRPYTATEVRDTWRALRSGKNLPDGHLGNFERGLE
+>tr|A0A1W9LCF4|A0A1W9LCF4_9BACT
+PFGNRHLLPRGILREPARNIRRAGFIFITKSNGDGAADLKAQLRRHNPDAEISECRHCPR
+YLQDVYTRERKPLEFLQGLDIAAISAIAAPKGFEDSLVGLGARVLYHKRYADHHRYAQQE
+LIEAINKGIARGAKALITTEKDAVRLPHIERRDLPVYFLRVEIEMLSGSEAFRDWIARIC
+FR
+>tr|A0A1W9LGZ2|A0A1W9LGZ2_9BACT
+MFRIARFLGVNGTLDGGKGAGRRYLLPGAGAGRLFGFLHRGRMSSEFLSDVKSPGRPGEI
+LVRRGGGRMLS
+>tr|A0A1W9LHC6|A0A1W9LHC6_9BACT
+MDDMSRAYPAIPDGQMEKYSSASTLSDMEIFIFPELLYALVLANLMSPAIWAWREDPWFA
+RIDRMTPYRRILRLKQFVMDHYEFNLDLDTWGLTTQERELARFRPFMDEATLSRSNALFG
+YEGDKYYFDMDIRRHFGLDKYGREVIPYWKTETVEAMDAFRFKEGYASGAGECVSLSTLY
+AAALHVVCGIPLDDIFLMGTPLHSQNFVFAGDGVLTNNRRLVTKSMWFNGTELTRKAQRA
+LRHEQVTVIAHRTGWIHCVYPGATIAPQAYARLSEGLHAFLRTDITLEILLNFLRDSPER
+QACFQVRHERHGRLLHIAAEKVYHYEHGSPYKVSDATREKLLAEIDEDEFFAAPLEGRVV
+LDDLEPFFRNRRVDPADEASVRRLMEEVPCHRFQARHAIGEMIDFACLKPNLPDAPSAPR
+RFVPGPAIDLDPGLAREEVRARLEAQRAGNPVVDLAFYALRDLSRTDWAPFLKAAMERSP
+VSVKGAADLDDAALEARLRGWPDASIYDGARCAQPDEVWNYRRGDGLEKALCLACVLKAR
+HPAAAMELRVQPDQVVLSVAGREIPWSSAKGLRGVAAL
+>tr|A0A1W9LFI9|A0A1W9LFI9_9BACT
+MEKIRAWIGRVRAFFGEVQAELKKCSWPTGGELLGSTMVVIVSVVLLSTFVALSDGAIIL
+ILQAILPS
+>tr|A0A1W9LF09|A0A1W9LF09_9BACT
+MQCVLSLGAVCLCLGTLAAEEPAARRQGREPAALAARVERAWEVSWARFYLPRTHLFYDY
+LTSYEPGRELAHLPTAAEIARQFPNECGYGTGMEDGMISAGVMLSAIVDRHAVTKEASLR
+ERALDVVQGVRLCATAHGVTGFLARAVCHEDLRSIYPNSSRDQYTHAVHGLWHYARSPLC
+DPGTKGEIGAILSAIADRMTRTVIPANDYDSLRADGTRDTRGISRMWNVMGHEAARLPMI
+YAAAWDVTGRQAYRELYRKYAAEAVRQSRTTIERLPTYALLQLQGSLELLETLEQDPQSK
+RDHLASSDGRVACGGELPHHRVGRSRRDLSRGRPGERSEA
+>tr|A0A1W9LGR1|A0A1W9LGR1_9BACT
+MTRPALTVADLAARLDGTCEGDGTPGVTGVAGIRDAGPGEVAFVANLRYAGDVATTRASA
+VIVAAAWDRPSPAALIRVGNPDAAFALAATLFAPPPIPDPPGVHPTAVVAPDAVLGEGVS
+LGPYVVVEPRAKIGARSVLKAHVYVGHEVEVGEDCRFYPNVSIRERCRIGARVILHNGCV
+VGSDGFGYTVDEKGVRTKILQLGIVVIGDDAELGANVAVDRARFGKTVIGRGVKIDNLVQ
+IAHNVTIGDHAVIVAQVGIAGSSTIGPRAVLAGQVGVSGHLEIGEGAIIGAQSGISKDVA
+PGTMMFGSPAMPMDRAKRIHAYMMRLPEMREQIGDLVKRMAALEKRIPSAD
+>tr|A0A1W9LE78|A0A1W9LE78_9BACT
+MRPQLYHCKTLLADLLGYRFRQRRIQAKDQHHTSPKFALNEGDGSDLSTDACGIIRGKML
+AD
+>tr|A0A1W9LCM0|A0A1W9LCM0_9BACT
+MKRFPEVFVWMAMALGVAAQAQRAPIVVVAKDPCAGAIVVDAADGRVLFEENADAPAYPA
+SMLKLMDILLVLERVEKGTLNLQDPIPVTAEAAGMGGSQVYLRENERFPLDELLYALMIQ
+SANDAATALAIHVAGSKDGFVQLMNVRARQFGMNATEFHSVHGLPPAKDQKPDVTTARDF
+AKLCVELAKRKDVFRYTSVPERAFRNGTFIMRTHNALLGTFPGCDGLKTGYYKAAGYSIA
+ATAQRDGARVIAVVLGSAKKEVRDFKARELLSLGLAAAVRSAAAPPPPPVVATNASPAPP
+PPAPARAETGAGRRTLWIGGGVAVILIAMFLAYRRQQWGR
+>tr|A0A1W9LDF5|A0A1W9LDF5_9BACT
+MQESRPSYHIWTIGCQMNTADSRRMASQLEALGYRPAAVPEKADVLLINTCVVRQQAEDK
+AYDQLHELQRIKARHPDRTVAVIGCLVGHKGNPGLKERFPFVDVFAPPSDPAPLLDHLTQ
+RRAFNHTLRDALVNGEIVLPPSQEGAAVAVFVPVVLGCSHACTFCVIPYQRGAEESRPKD
+DILDEVRRLADHGVREVTLLGQIVDRYGLDLGDGSDLAGLLEDVAGVEGIRRVRFLTSHP
+NWLTDRLLDAVAAGGKICPSIEVPVQAGNDEVLARMRRGYTADDYRRLVERIRQRVPGAG
+IHTDIIVGFPGETEAQFMDTARLMSELEFDMARIAKYSERPQTLAARTLPDDVPGEEKER
+RRVMLEDLLAQGLERKHRGLAGRNVEVLVEERSRGSRWGGRTPQNKLVFFEDERELRGRV
+VQVTLDWTGPFSLIGRAADRMAAGVS
+>tr|A0A1W9LH24|A0A1W9LH24_9BACT
+MNLELVGDFAIALFIGALMGVEREKRIAEKGFGIGGIRTFVLMAEAGAVAAWLTTELHAP
+WIFAAALVVVSAMVMGGYLLQARSHPDSLGLTTEVAAVVTFLLGGVTLFGHREIAVALGI
+LNSALLAYRTPLHTLVGRIGQADLYAALKLLIATFIVLPLLPDRTIDPWGVVNPYKAWVL
+VILISGMSLLGYVAMRWLGPARGTALTGLFGGLVSSTAVSLSFARESRDAAAASRGAGPL
+AAGLALSWAVMFVRVLVILAVVFPPLLRSLAVPFGAMLAVCVVAAALLMRGGRAGPPGRD
+VPLQNPFSLKAAIQFAAFFTFVMLVVKGIQSVAPGQGVYAVAALAGLTDADVIALSMAQM
+ARDSAAVHVAALAIVIAVVANTVAKCGIVAALGSRALTGRVAALTLFLLAVAAVAVWFFP
+PAAAAISP
+>tr|A0A1W9L7Y1|A0A1W9L7Y1_9BACT
+ALPTSTTLNDRIGLVLLAEFPDRPSDVTISQQEVDNYCNQPGYTGFSNRGSVYDYFYKQS
+QGRLRYTSIVTAYFTALHNRDYYCDTNISYGTRARELITEGLNQLKAEGFDFTACDGNGD
+SRIDGVNTFYAGVCTNAWSQGLWPHRSGFTWTAAPPEINSYINYQITDMGSALELGTYCH
+ENGHMLCNFPDLYDYGYESRGAGQYSLMAYSGSTWPKNVDSYLARGAGWCDVTEINSNSH
+FRGAARVDSRSVYRYLNPTNSKEYYLIYIRQSSGYESPVDQGLILWHCEENGNNNNNNQQ
+MTAALHYEASVEQADGSFHLERNSNYGGAGDLLHSGDKTNFTDTTLPDARWWAGATSGSN
+GTGVASGLVIHDISAVGETMTX
+>tr|A0A1W9LD01|A0A1W9LD01_9BACT
+MNRSIRLLTVAAAAALGLAAAARAEALPEGFTSLFNGKDFSGWTVPEGDNGHWKIVDDVI
+DYDAASESKKERHLWTEKDYKDYTLIVEWRLKETPFVNPRVPYILPDGTHARDIAGKPMA
+ISLPDSDSGILIRGSMRHQLNIWCWPIGSGEMYGVRMDPKTPPEVRAGVTPRTQADKPVG
+EWNRFEITVRGKTVTVVLNGKTVLPPVEIADLPDTGRIGLQHHGSKKDGQWVSPPSLIQF
+RNISVREL
+>tr|A0A1W9LGM9|A0A1W9LGM9_9BACT
+MRAVDSSPPTAPRRVRVLVNPHSGIRAVGMTLFKAFERYWNGPGVDLAYQISDSIADGRA
+KARQAVADGVESIVVVGGDGMVNTIGSELVGSATSLGVIPTGSGNGFARHFGIPLAWEDA
+VRALARAEVRPIDVGAANGRPFFVTCSMAWDASIARIFERFPVRGIVPYLMAGAYSLLEY
+RAAPFRIEIDGGAAEEVDNPMVFTVANLTQFGGGARIAPEAGADDGHLELVIVRQADAAR
+TAAQFSRLYDGTLSSVAGVQTRRFSKSLVVRRLNPAPIQLDGEAVDSPPHVEVRVLPRSL
+RVLIPVVPS
+>tr|A0A1W9LD43|A0A1W9LD43_9BACT
+MWFDPALRPAILRTEDGEEVTVEDPGLWNLEAGPDFLGAALRIGPGRRRITGDVEIHIHP
+RDWDAHGHRADPRYAGVRVHVTFFPGRVASGALPAGTVQLALKDPLAANPLFSFENVDLT
+AYPFGTRAAEPACLRVLREWPAEAKGALLDAAGEERLRRKAERLAAAIQEKGADQVLYEE
+VLCALGYKQNKAPFRHLAEQVPLAALREEANGEFRVGYAVLLGVAGLLPDQSRPNWDRAT
+RAFVRSTWDAWWKRRERWEAKIMPAASWQRSGLRPANRPERRLMAAAHLFTRKESLAGQW
+LHMDIAGAGEQLVTPPGTYWDRRLSLAGPPREEPVALIGRTRADAIINNVFIPFLAAQEA
+RAPFRKDLLDRLPAESDNAIMRQTAFSLFGPDHASSLCRSGLRRQGLLQIFHDFCLNDRS
+RCAACELPGMLWQHHA
+>tr|A0A1W9LGL6|A0A1W9LGL6_9BACT
+MKTHAVPADGTRTRRIDPRLQRILDHVWGPTGSALLHALVILLLLQVAMRSPPLPDRLIE
+AEIVDLPPADFDDFDHSLPDRPPEDIDVFIEPTVAMPSQDAPLSPNDLVDPPADLPEPFD
+TRSPLKFAGLSFGVTGDMRKRGIESAGGRAETEAHVVRALEWLKNRQLADGSWEGDGAAR
+NPAAMTGMALLCFLAHGETPSASVQYGPTVDRGIRWLVARQRADGAFDGNVYANAIGAYA
+IAEAYFLTRIPSLRIAMESGLGRIVAGQQDTGAFTYGYAKNGRRDTSVAGWQVQALKAGV
+LAGADVPGIETALHRCADGLRANYQASTGRFLYAPVPGKDEGSEPTLACTGVGVLSLQLL
+GLADCREVEGGLRALEGHKPDYRAPAGTGRPLYAWYYITQAMFRAGHGAWSRWQGAFVKT
+MAAAQNGDGSWTPAGAEETAMGPVYGTTFSALSLMVYYRDGLGTFRPIPVGAPSARSVTQ
+PDDVPVRVL
+>tr|A0A1W9LDI6|A0A1W9LDI6_9BACT
+MSRLVHIVTLNWQNWRETFVLLHALRELRYDPFQTVVVDNGSKDDSVPRLRETFPEISIL
+EEKTNLGFGGGNNAAIRRALDAGADYVWLINNDANPAPDALAALVDVAERDPRAGAVGSV
+ILNRDRPEQVDAWGGGTVVPWVGYARFSRGPGEPLQYITGTSMLLKAAALRDVGLFDERF
+FLYWEDTDLSFRLRQKGWNLAVAKSSRVWHTMSTTTGKDPYNRAYHIMRSHVLFLRKHAA
+AALPKALTALVLQSLGKLRHANLVALRAIWAGWLAGWKPAV
+>tr|A0A1W9LD56|A0A1W9LD56_9BACT
+MKRRHRWADTRPRPGPSSQRPAVGFGPKDWAASLGNFAPKEDDTHRAGAAAYFDGWWEKA
+FKDRPTQSEERGHPCGENEMLTIVAYDIREPARLRNIAKHCEDYG
+>tr|A0A1W9LF77|A0A1W9LF77_9BACT
+MRRRLLEIQGLPTSFARAVTNRPAAAEPSAVVPPMTLGQALKVAVGNAREYQEAKETVFG
+SALDLDLQSDAFRSTFAGLVSAAYSDDHSGETATRAVGGSFEPGVTRKLPSGAEIGATLA
+LDVAKLLTGEEGSAFGVLADLSLTVPLLRRSARDIVTEPLTQAERNLVYAIHRFERYKRT
+FAVDISRSFYGVLEQIRRVKNQEENLRGLALATRRAEELGKAGRTSEVQVNLARQNELTA
+RDRLTVAKEAVTERLDRFKILLGLPPDAQIELDGQELSMLPSPAAAAPMTEEDALREALV
+RRLDLRIAHGAVEDARRKARVAGDALRAGMDLKVSGAAGGRRAPTSAAQDDVELRVDRGS
+YRAALGLQLPWERTAERNAYRESLLALDAAVRACEAAEDTVKSDVRATYRSLRQARETCA
+IQEQAMALAERRVQSTEMLLEAGRAGMRDVVEARDSQLLAQNAVMSARVAYRLAEMDLWR
+TAEMLQVTEDGVMGDVHVARP
+>tr|A0A1W9LCA3|A0A1W9LCA3_9BACT
+KDPYPPDEEFLAAMEGGMPPAGGIALGVDRLVMLLTDSASLDDVILFRD
+>tr|A0A1W9L7V7|A0A1W9L7V7_9BACT
+MSAEIHCPGCGRDSLLLRAPRYEGFTRVGEDLSCVACGHAFASEDEVPFREEKKASIFTE
+ADRSVVVDVFKDDPRGRLCRYCAHYVVNPFRQWCGLHRKEVEATQTCAKFNPKPPPKDPL
+AAVTG
+>tr|A0A1W9LDU1|A0A1W9LDU1_9BACT
+MNLMHTRFLTASAALLVASCATFGPDERALTEFDGRMKAFAFYDYGADRAPMAALTAFLT
+EHRSAADRRAIEPRLLAFAQSTTSTRAARQHVIREIGRVGSAAAAPALIALLSDAELGDD
+AAMALETLAEPKADAAVLQALPTLPAAARGRVVALLGRRRAAGAVPAIVPFLKDADSSLS
+AAAVAALGGCATSDAAAGLIAAMPSLKGHALTASWDALLSCHAAALDAGNANTANAILLA
+LEKNRAPTHVRMAATLATLQTASPQEAALKAAGLLTSSDPDAWTAGAHLARHRTDDRSLL
+AVIAALPSMPPASQVAVLGIVEDRRLSVAAPLLARLSGSPDPAVRAAALRAMGPAGRAES
+VPVLAAAAAEGAEEGRAGARKALRLVHGTGVDEAILGTLRTGTPVVRIELIRAMGDRGMT
+AGLPVLLAAAGDADAAIRTEAIRQVGALAGPKEWAQLLDLIASTANESDRPAVVAAAATA
+AARQPTAGADLALRLQAASPPAVHAALLSLAGRVASDATLPDLVRAATSADASTRDAALR
+ALGAWPRSTALPALLDAAAGTNPQAQRLAARGAMEVTRKATDLNDAARIARYRDLVTKLG
+HDDDRRMLLSAAGALAGPDALALVAGFLDQPPVRAEAEAAAIQIAKRSGKPDAATAAVLQ
+RIAAESTSPTRKDEAAALLK
+>tr|A0A1W9LF06|A0A1W9LF06_9BACT
+MCQGEVWWADIGEPMGSEPGYRRPVIVVQGDALNRSRISTVVCIPLTRNLKWANAPGNML
+LKSELTGLPEDSVANVSQIVALDRDQLTERVGKLGTRQLGAILNGVDVILGR
+>tr|A0A1W9LDB9|A0A1W9LDB9_9BACT
+MHRSRNRIVATALAAAGLAVLAGRAENPVTRQTLTLVALLDEVQAKHRIDPDRVYCTGLS
+MGGFGTWRLATENPDRFAAIVPICGGGRGFTVGAMKNVPAWVFHGAKDGAVPLAESEKMV
+DALKKAGGNVQLTVYPEAQHDSWTATYANPAVYEWM
+>tr|A0A1W9LGD8|A0A1W9LGD8_9BACT
+MRLPEWTKKAIKAAVSLRLTVACLVILFILTAWGTFYQVGHGLYAAQQRFFHAWFFALFG
+FLPLPGAQLVLAVLFVNLLAALLFRFAYSLRQAGQILAHAGLVLLLAGGFITHHFGREAE
+LTLREGERAPLPTFGEPLTAAPVTIKLLDFNKTFHPNSRIPKSFSSRIEVDVQGAVREVE
+VAMNRPFRYQRYTVYQASYAESDDGRESSTFAVTRTYGRALPYVASLITFLGLAIHLVTS
+PLRRRTRVVAVLLLAGLGWARSASAGELSCDALAAVPVLHNGRVMPMDTFARNALLQLSG
+KSSVRGKPAIRWMGELLFDPAATRGDKVFLINNPDVADALGFPGVSRQRHSIEQMETAFP
+KLERLAWKVADLDQNLRSPVEREVLRLYDNASFYLDLRRSLEYLQPADVLAVTTLTARAY
+LGLPEGQVRCSFADLFQRMEPIRKAVEPLSGKDLAQWTDLERELFRISSGLFSLSEAYGG
+GSLGLIPVRAHGQEVWLAPFDALAMSRKTPSVEEAVSALEETAGAYSVGAQKAFDLAVAK
+LRSAIGRTAGDSRELRWIELEVLYNRLDLFYRAEWLYGLAFLLACALQIGRARWPRSVCG
+VLLAAGLLLHTAGMVVRIVITGRPPVTNLYSTFVFVGWAVVLLGLVLERVQRNALGLLAS
+GAGGLVLLLLAGRFAADGDTMGKVVAVLDSNFWLTTHVLTISLGYAGCCLAGLVGHVYLA
+QLAASPLQRDRIESTFRALLGLLGFGLTFSFLGTMLGGVWADQSWGRFWGWDPKENGALL
+IVLWCAILLHARAGRMLGEVGMAAGSVVLVMIVALAWLGVNLLGVGLHSYGFTTGLARGL
+SLYLVAEVLFLGGMVPFALRRRADAGTPFASGS
+>tr|A0A1W9LEK3|A0A1W9LEK3_9BACT
+MTEARPVEIICSACGADTLLLRKPKYDGFTKVGESLTCTACGHEYPGEDAVPFKGKKVVK
+VFTDADRSAEVKVFGENEAERLCRHCKNYLVNPFTQWCSLHRKEVEATDTCPRFEVRPPP
+KEEKKEENPAAKKPPI
+>tr|A0A1W9LGX9|A0A1W9LGX9_9BACT
+MAALLSFYGPGHPETFIADRGRIENQFSFWPGYRGRFAGQSALLIGRTGHVPPELRAQFR
+SVEPLGTLEPVYRGRSMRPQHVTLLRELRPVKAGRKKPPIPRK
+>tr|A0A1W9L9R1|A0A1W9L9R1_9BACT
+MVDADLRAASGRRPRPRFQRGKPEVHPASGGVAVHLAYTSRGPEMVRKGAGPVGSAAFPR
+QAFAKNQNLYGTPAGRLLHFSCANTFTAEAACVVSRFYRIETR
+>tr|A0A1W9LHM7|A0A1W9LHM7_9BACT
+MSHRVLRLVGTAAIAAAAVGASGCAAFRAKTTDVDVNQTRHMGSGYDYSDMRKISQNVVG
+ALNAEFLAAQSEPPIVMIAGVQNRTSQYVDTKNLTDRVRTMLIQGGKARFVNEARREDLL
+KEQGFSAANATPETQVAIGKQLGAKYMVSGSLTEMKDESPRQVRVSKTKVNYYKLTFEVT
+DVESAEIKWIHEEEFAREARLPLIGW
+>tr|A0A1W9LCM9|A0A1W9LCM9_9BACT
+MKLVTLDSVRPEGLSHDPAILKQPLLRSGEVPGLTQFARSEIPAGRATSPHAHAEMTEVF
+LVASGFGRAVVEGRAHPLGPGTCIRIDPGETHVLEAGPDGPLELFYFGIVGASG
+>tr|A0A1W9LE56|A0A1W9LE56_9BACT
+MERTKERRSIRDYFRLMVVQRGSPESIAWGVAIGVFIAFTPTLGIQIILGLLVAWIVRVN
+RIATIVPLFLTNVLTAGPVYGFECWLGAQFLPDAKSGEMVARWERLSAALSGLGVFSAHD
+LHAHWREIARVGWDLWLAMWIGGILVGCFLAVPSYFATLAVVRRYRERRARRLRTRSQTR
+STGA
+>tr|A0A1W9LD11|A0A1W9LD11_9BACT
+MADDKRNTWGAKLWRTVTSVLPVAKSRRGQCGSCGLCCSLPNVCPFLRYRTDGRSYCGIY
+HFRPLNCRKYPRCSSEHITRPECGFTFEGD
+>tr|A0A1W9LGN7|A0A1W9LGN7_9BACT
+MNALCFVDTNVLVYGRDASEVGKQPVARLWMQRLWEERAGRTGIQVLNEYFVTVTTRLKP
+GLPAVDAWRDVTRLFAWNPTPLDRHVLARAREIQVRFRLSWWDSLIVAAAGVSGCSHLLT
+EDLQDGQNLEGVLVVNPFRHNPDELS
+>tr|A0A1W9LHN7|A0A1W9LHN7_9BACT
+MLNEDYRDMLQALVEEKVKFLLVGAYALAAHGYPRATMDIDVWVMPDPDNADAVMRAIRR
+FGAPLHNLTRADLERDGTVFQIGVAPRRIDIITSASGLQFEEAFSRSSAVSIEGIEVHIP
+SVEDLIRNKRASGRTKDLADAEALEEMKDSEPEGPGYGS
+>tr|A0A1W9LH95|A0A1W9LH95_9BACT
+MDRIVRTAVRTGDARGPRPKPWSEVKKILQKILVPYEYPVVFTRSVFAPRNDDLLAAMDR
+LNEGRRHRVSVYVDAGAARSRRGLLRDIGTWFSARRKRLELAGPPRIVPGGEAVKSERRL
+LSLTRDLAAQKLCRHSFVVIVGGGAVLDAVGLAASLVHRGLRVVRVPTTALGQCDSGVGV
+KTAVNLAGAKNLIGTFAPPFAVINDEQFLETLPDREWSGAIAEAFKVAIIKSAPFFNELC
+RSAVRLKARDLRVLARVVRRCAELHLDHIRTGGDPFELGRARPLDFGHWAAHKLEMMSGF
+RISHGEAVAAGVALDSIYASLRGWITKPECGRVLRGLAESGCVLWYPELARRDRGGKLEI
+LRGLEDFREHLGGELCVTYPRGIGRRHEVHEVRATLVAKAILRLKRTALSDSWKRGLRAC
+RAVFVVDRDLRARSNVV
+>tr|A0A1W9LBL0|A0A1W9LBL0_9BACT
+MEVLPPASAIRFLPDGRREVAPLRPPAVCEESRTEAEWLDRLVPLMRRAVSRSLSRFSRP
+ALALSGGLDSRMLLAAMTPEQRRGTALLTAGNPRSHEVRLAEAAARAAGCRCEVVPLGAE
+DFVRGENESRRCNEEFDIFVQGAAGVLHRRAAETADALMTGWDVDVELRGTYTSSATAGM
+RTREDVRALVEKKWGLCSPGDLQALLRPGFQSDMPDPTPDLLDGCLCAAEGPTPEATYLR
+FIQLYEKRRLLMLRARMIRRRMETLLPFYDPELQLAMRAIPEGMKRGNRLFRALLIALDP
+ALAAVPYQRTLRPASASFAEWEAGAAAEAEKEATLRTVWLTNRTGVAYERYFSNFDEWLI
+ADPHWDAAVRRLLLDEESALLREVVRPEAVRVWVDEHRCGVRNHMSRLVYLMSLASYWNA
+G
+>tr|A0A1W9LGI3|A0A1W9LGI3_9BACT
+MRRFRAIFKKEFRQIGRDPLSLGLLIIVPAMLLMLYGYALSFDVKHIRVAVLDEDRTAES
+RELLDSLFQNQYFDRAVTISRRAEADRLLLHARVRAVVIVPNGYAKSLARGERAALQVLV
+DGADANTATAAIGYFEALADRATRKVRADRLGGAGPSIPVVILEPRLWFNPELNSAHFLV
+PGLIGLLLMLSAVIATSLSIVREKERETIEQMMVSPMRPEELILGKTLPYVLVGILTMAI
+ILFLGNVLFGVVIKGSFLLLAITTLLFLFAALGMGVLISSVTRSQQMAFQIAILTTLLPS
+IILSGFIFPIKNMPVVIQGLTLIVIPRYFVTALREIILKDASFTVIAPQLAAMLALGVVY
+NLLAAHLTKKSV
+>tr|A0A1W9LGV5|A0A1W9LGV5_9BACT
+MKILSGTAHPRLAEGLAVYLGEPLGGVDIRRFPDGEVFVKIVDNIRGRDLYIVQPICDPP
+NENLMELLIMIDAAKRASAARITAVLPYFGYARQDRKDQPRVPITAKLVANLLVASGADR
+ILTLDLHSQQIQGFFDIPVDHLTASPVMVKALRVKQIEDMVIVAPDTGGVKNAYAYSQKL
+GCGLAIAAKQRKSAREVESIDVVGDVKDRDVVLVDDLVTTAGTLCGAAALLKEHGARTIR
+AMVTHALVTPEGVDRLKRSAIEELITTDSVPAKDWGGFPVTILSIGELLGEAILRIHNNQ
+SVTSLFKV
+>tr|A0A1W9L7J2|A0A1W9L7J2_9BACT
+MKRTYQPHRKKRQRKHGFRKRAATKNGRKVLSSRRASGRKRLSI
+>tr|A0A1W9LG09|A0A1W9LG09_9BACT
+MTGRRPAVLAAAAAFGALAACGATEPRIRVVTTISPLHDWARVVGGDRVEAVQLLPPGVE
+AHTFAPTPRDAARLRKADLFLYCGPVMEPWAADFAAGSGLAESNLFRAESHVTALPATPA
+ATADPHEHGPACRHGPADGDPHFWLDPLAAVDVVRALAEAFATADSDGAAGYRERADAYI
+AELRRLHADFEAMVRAAATRTVVHGGHQAFGRFARRYGIEFVSPYEGFSPDAQPGPRALA
+AMIRRMRELGTRIVYHEELIEPRVARVLAEETGARLVLLHGGHNLTADERRAGATYLSLQ
+RANLERLREGLGSK
+>tr|A0A1W9LD12|A0A1W9LD12_9BACT
+MMAAWLDLLFPRVCAGCGAEVAEAGRHLCWDCLADLQYIQPPFCDRCGDPVSGRVDHAFT
+CPLCIERGEGFDRARSAVRYEGAVAVAVRNLKYNNNLWVIPDLGWLLEAAVRVHYPDLAF
+DLVSWVPLHHARRRARGFNQSAELARDLAHRLGIPAGATARRIRATPSQTRLTVPKRADN
+VRDAFRARSLRRLGGCRVLLVDDVMTTGATTNACAAALKDGGAAAVSVITVARG
+>tr|A0A1W9LBQ8|A0A1W9LBQ8_9BACT
+MLRRVTQESDYELLDSGDGRKLERFGPHVLSRPAAQAVWRPSLPPARWAQADAAFDREDG
+QRWHNRGALPERWTIAIDGLRFRLSGTDFGHLGIFPEQREQWLWLDRTLRAAAARLGRRP
+TVLNLFAYSGGSTLAALRAGAEVCHLDASRGMVQWARDNAALNELDGAPVRWITEDAHKF
+LGREERRGRRYDGVILDPPTFGRGAGGEIYKIERDLVRTLDLCRAVLADPPVFALLSGHT
+PGFSPVVLANTLGQSMAAAGGRVEQGEMLLAGALGVAPLPNGTWARWVAAGDRA
+>tr|A0A1W9LCH8|A0A1W9LCH8_9BACT
+MRWILINPIKQTGWGGMEGWMIRLSRGLRALGDECLVVGRADSPWSKACAGEGLPFAAIP
+FGGDVSPATWIALASVLKTWNPDAVIAKGFRQARWVRWVDRSIAIGVKLPAPGDLADTVI
+DRFTFRHAIDRILVDSLAVRAEFLRLPWTTPGRIVAIHNGVEDGGPWPDAARRARARAAL
+GVTGEEPVVAVVGRFTEDKRLDDALDAFARGATGLPAVLAVIGDGPGRAAYEKRAARADL
+KGRVRFMGWRDDAAELLRGADVLLHASAEEGLSNAVLEAMAAGAAVVATNIGGMAEAVRD
+GVTGYTVAIGNAGALADRLAALLADPGLCRRMGAAGAARAREGFTIAAMAGAIRGEMNAV
+ADHRRLMRSAPRVRHGVWVVAGAADAVATARRFLDVKDDGDVRVKTTPRVRVERRPEGLG
+NLYGKWFLTEAPRDRWGSGFRPVRALRNLRVAHRLAALGIAVVPHRAAAWRRKGPLAVES
+LLVTADVPGAVPFDQWGRDHASDRRSLRVAAMSAGTWLADLHEAGVFPHDLKASNLLRDS
+AGRLILLDLDNCAVGRRVSVHAVVRNLAQFRRSFEQVAGLREWRTFLAAYARRRRWSRAS
+LVRALRRLEIRLTGHGIPVCAPLTGA
+>tr|A0A1W9LF15|A0A1W9LF15_9BACT
+MNDPADPLVGATFGQISIEWKDSEGAEISRTFGSTWNFQLSASRWEKFVVDADAPENAVK
+ATAVITLFSQDSKGMGSFYVDDCELTDRAKE
+>tr|A0A1W9LHG0|A0A1W9LHG0_9BACT
+MGQFGANLSETDSQMIALGRTRAACALEPLLEKAAQLDASAPFSHHRAIALALEALGDPR
+AAPILAGLLRKEGMSGHAIPSIGDAKAKKFSGGTDTQVRRDALREIGLARALYRCGDHEG
+LGESILKAYTADLHGHYARHAQAVLAKGKPK
+>tr|A0A1W9LGC4|A0A1W9LGC4_9BACT
+MFLGLVAVYAVAATVVIAVRHRPEIFPKPHGTGSAPVRESPMAGSAGEPRTVAHVLRGEA
+DAVRDAIREADRMSDRGLAGQALQRLQQRQAAFPDNLALRLRIAGTQLSLGDAASARDGF
+VAAIRIDPANVDAREGLAGALLALKDAEGALEMAQWAIEGGKAEAGSLRVAARAAVDLGQ
+YTVAAGHLQDWLGERPDEVEARDLLGLCHLRLGEYGKAAFQLGDLIRQGRGTEASYLNLT
+LAFAQQKQSADVAGLLLKAAQRLNRPRVLAWFGRPDFAEIREDPVVAAIAAQLAEGSSPG
+PTLKLPEATRESISPRALGMT
+>tr|A0A1W9LF58|A0A1W9LF58_9BACT
+MAVAVCLSLGLLAQEPGASIPAVGPRSPVGPDVPLNDAEQKQFARRVTVEGRTAADVQAA
+CERAVQESVRVVFLPAGEYVFEAEVPVPEGLTLFGEGSPTLIRTHNRDTHLFRVEGDRVR
+FTRLKLQGADPTPSENNDTYGITVSGKQNVRIDHCELLGFSYATDFNSEATAQIDHCSIH
+HNLRDGLGYGVALYSGAYVLIIDNEFSQNRHSLSSNGTLDWGSGERLGKYLHMPGRKTHW
+EFRHNRVGSNDLSVYELSAVDTHPGMDGTFVVEGNLFENLRHGVDIRDGSGLIQCNLFRN
+LRGKPFRPWLAISISYDTHNGIPVEGCMPHDIEVAENTFLNVGDQAFADGVILEESAPAG
+KAVKYVLGQAENITIEGQLVPETQKEGTVPPPIPWLQEMGEEGVLNRRLLQNLTRRWTIA
+NKDVSLYAVSGGVCRVSSGNGDMYWDSFNYRNLFRIPCPTTNDFCATIRLNGFQPTNDNV
+QIALFAYDSEDNHVRYAYGHLDGARAFRFFAETNGEPQAAFTDIPFDLGAVPFWMRLTKQ
+GNVYRQYWSTNGVVFHRIDGSVAYGDGTPDYLAFWVGADFSFPPSGTPATVESFEVSEFP
+DYPAVTAIGKSGGTVTIAVQNLYAATTARVDRCTSLLSNDWTSLGSFEVSADSTNVVDSA
+LPSTNRFFYRIALP
+>tr|A0A1W9LE93|A0A1W9LE93_9BACT
+MRTRDTFDVGCSTAAVLADAIAVFGGFMLAFWIRFDSGWGWIPLPPADPSRVQYVYGAAM
+AALLFLLVFRALGLYVRPQLGTFSDHVPRLIRSTALGMLIAVAFWFAIRTAAPFSRIMSG
+LSFFTITALVLVERFALFQYERHLAKHREEINRVIVIGTDSVAARIKLALKKEPRLRSRV
+TGFLRTSVAEPDPAIPADLIRGSLEDLDGLIEKGEVDQVILADTSLPHERMVQIILQCER
+ALVSFLLVPDLFGVLTSKVDMRHVADIPLLGVSKWPLDYFWNRVAKRAEDVLGSLIGLVL
+SVPVVVVAAPLIKRSSPGPVFFRQDRCGEGGRTFAIYKLRTMPVQAENETGPVWATEDDP
+RRTPVGAFLRRHNLDELPQFWNVLRGEMSLVGPRPERPHFVEQFKEDISRYMWRHVSKPG
+MTGWAQVNGLRGNTSIRERIKYDLFYLENWSLSFDFKILTKTFFARKNAY
+>tr|A0A1W9LGT5|A0A1W9LGT5_9BACT
+MAMKPGTHGDRGGARNGIGRQRRRSLGAGAGAALALALSACVAGMLHYLGQRHYARTDLS
+RERFYALSDTTLRMLEGLTNSVEVTVVFRNGEELHDLTRLLAEYQTASPRVRVTRIDPDR
+DIVRLKELAQTRPLTEVNAVIVESAGRVRILGSGDLSEFERHVGGQGVERRRRAFRGEQA
+LTSAIYEVCRTRAPVVYALGGHGERPLDGAERNQGFAQAARLIRQEGIDLRPLIVGGDTG
+IPDDADVLLVAGPRTRVPQPELDAIHAFLERNGRALILLDAGASTGFEGLLRRWGLRVGA
+DVAVDEGRALSGGLVISRFFRHGATATIRDLACVLYSPRSVEPDPTTTAPQAGADRPRVT
+RLATTSEQGWAETDPEQRPPKFDEGRDRPGPITVAAAVERGPAGGIDVHIRPTRLVVFGD
+SAFVANGAIVSGNGDLFLGALNWLLDRKDRIAIASRPIRDTRIDISRARLRQLGFAVVAG
+LPGLAAAAGLLVWFRRRA
+>tr|A0A1W9L9W2|A0A1W9L9W2_9BACT
+MKEMLDYIVRHLVDHPDDIRITEVDGEKTAIYELRCHPEDIGKVIGKSGKTVGAIRLILS
+TVAARKGRRAMLEVVE
+>tr|A0A1W9LBR0|A0A1W9LBR0_9BACT
+MAALEPPFQLRYGGGRGMNDESQSGSPRILSDRWRLAALDRGEWMGLALTAVILGSLFAL
+FHFLGNTVAEAGGRSAFLWMYARWQDKISFGGADYSHGFLIPFISLGAVWYKRHDLIAAP
+RSIDMRGLVLVVLALGLHWIGAKMQQTRVSLGALILLLWAFPLYFCGWRFARHLIFPVSY
+LVFCIPLNFLDVIAFPLRMLATTVSVSVLHGLGIDVVRKGSAILAYDPMGMERWGVDVEN
+PCSGLRSLLAMTALTAVYAYVTQRALWKQWVLFLSCIPLAIAGNVVRIIFIGLIAESLGQ
+RVAVGLVHEYSGYVVFTVAILLMVGVGSALNTDLRWAWAGFRARMARTPGGGTPS
+>tr|A0A1W9LCN3|A0A1W9LCN3_9BACT
+MIRTQIQLSTRMYEGVKQLAREEESSLTEVIRRAVGDLLRSHPEVGRRPARWSPPVMRDP
+GRILVPESEWRALASESEVPDDLMPLRKRA
+>tr|A0A1W9LDQ5|A0A1W9LDQ5_9BACT
+MMKTSRAPAGFTLVELLTVIAIIAILATLLVPVVSGSRERGRRAYCQNNLAQLGKGLTMY
+ADANREYLPATTVDGSVSVWDMALLPYVGEATNLFRCPSDPYLDSVPAGQQPRSYSCNGG
+DGAYGEGFPFGNYQSNPNGPSRMGDLDYTKSDIILLGEWPGNSSANRGYMGRFGFSALNV
+DATCGRVHDRSKGGNYLMASMSVKYYERTDPALAAPSGNPPTSRNLWRIYTGD
+>tr|A0A1W9LCZ8|A0A1W9LCZ8_9BACT
+MKFTDDPKAKIRIWAADPKVVPMPRFPGYPGFRSRRFDSHEDLNAWKRDRILELARQGGV
+KWTT
+>tr|A0A1W9LBU5|A0A1W9LBU5_9BACT
+MKMKTIGLALIAILLAGCGQQNSGQPSGGQDVLNTMSQKNNIEAGKRTAAKVRAIGAQQQ
+QDRREAGAE
+>tr|A0A1W9LGD2|A0A1W9LGD2_9BACT
+MDAFARHTGLVAVLDRANVDTDQIIPKQFLKSIKRTGFGSALFFDWRYMADGSPDPAFEL
+NAPRFAGASVLVTRNNFGCGSSREHAVWAVRQYGFRVVLAPWQMRGETRVPAFADIFRNN
+AVKNGLLTVELSETEIDALVKATALTPGLQATVDLERQSVSVAGRPAMEFRFDIDPATRE
+TLRGGLDEIEQTLRCVEDIRRFEAGHDIQMAPS
+>tr|A0A1W9LHP9|A0A1W9LHP9_9BACT
+MKGFCLEVSGPYACFTRPEMKVERVSYDIITPSAARAIFDAILWKPAIRWHVGKIEVLAP
+IRWISVRRNEVGKVASPRSDGIFIEDERQQRAGLFLRDVKYRLHAEFEFIPPDQRAKVFN
+PVPDFLVEEAEAAALQQPDERPDETEAKYAAMFERRAKKGRCFNQPYLGCREFAAAFRLV
+DPRSEPATWQEEIKTRELGFGEPRDLGWMLHDLDYSDPADIKPQFFRAEMTDGAIITDRN
+AVEVRG
+>tr|A0A1W9LHL5|A0A1W9LHL5_9BACT
+MKRYEIRWATQDPTLGAEMAKTRPVVIVSLDVLNERLATVTVCPLTSQLHPHWRSRLPVK
+CGRQDAEVAVDQIRTISKSRLGAKSGALARTESAALRRIITEMYGG
+>tr|A0A1W9LFP2|A0A1W9LFP2_9BACT
+MRVEADGSVVGDYTPPAEDNGYRGIVHGGIAMTLMDEVMTWAAILDTKHLCVAAEMTTRF
+RRPMPVGAAYRIAGRVTRSTPRLVVAEASVTGPDGEPVATAGGKYIPMRAVSAADAAVDF
+IDPPPPGLL
+>tr|A0A1W9LDN6|A0A1W9LDN6_9BACT
+MEEAARFESVPDVAAGMWIDEVADRMGDLLKTSQPAFDKAMAACRAIHAHAGGFGLRPSV
+NAPDEQTIADWIKCAAPESFMTATWTMGKRRCSPVIDALRALYSVKLDGRQVLPPPPGYV
+AVLAFDGDEMGKWVSGEKTPDFAGQMSTEARAAYRDKIEGVRRPLSPAFHLQFSEALSNF
+AVYLVRPVVESFGGQLIYAGGDDVMAMVPAESAMDCAEALRAAFQGSPRLAELVPGTFGI
+EGTHGGFVRLLNPKTEQPTWPMIVPGPSVDASIGIAIGHSRAPLQELVRAAQSAEKRAKS
+GHGRAACAVSLFKRSGEIVEWGAKWDSGALPLYRSFVEMTRAKRLSGKFAYALEELLGPY
+LPTSSAVNDVDGFPVPEILRVELARVLERQSAGSRDCRDETAQRMRGLCEAYAVHVDKAG
+RNPMRDLTGLFRVANFVLRGERA
+>tr|A0A1W9LFX2|A0A1W9LFX2_9BACT
+MSSMQWAAGLMLAMTLAVAAAEPVKTLADSARPGSLAACRGSAASVTSAPSGALRVETRA
+GARWPGVEFPAGGTAWDLRTFDRIEVGVRNPGLEPLTVNARVDDEVSGRSNRWLSGRAEI
+AAGGEGIVTVRLSDTPVRPTRRLDLIGMRGAPGENAKIDLQAVTRVLVFVGEPKAPCAFD
+VTRIEARGAVKVIDADRFLPFIDEFGQFVHADWPGKVKGTNDLAARRAAEAADLAARPEP
+PGRDRFGGWAAGPQLAASRHFRVEKLDGRWWMVDPDGRLFWSFGADCVRTESGTPITDRE
+AYFAWLPEKDPAYARFFSKHNGAAHGYYEKMRGYRGFDFSRANLLRKYGDGWEEAWIDLA
+HRRLRSWGLNTVANWSAAGVCAARRTPYTANASFVSRPIAGSEGYWGQFPDPFDPSFREG
+IRKAMEKQKTAGAVGDPWCVGFFVHNELGWGKETSLSAAALRSPPDQPAKRTVVDALRAQ
+HGDVAKLNAAWGTQHASWDALLASTNAPDPQAAKAGLETLYARIADEYFRVIREEIRKAA
+PDQMYFGCRFAVVNDLAVRAAAPYCDAIGFNKYEYDVGRLKLPDGIDRPVVIGEFHFGAL
+DRGMFHTGLKATADQNDRAAKFKAYLESALRHPNVVGAHWFEYRDQATTGRTDGENFQIG
+LVDICDTPYPETLAAARAVGAEMYALRAGAAAK
+>tr|A0A1W9LH87|A0A1W9LH87_9BACT
+MKTITLTDEAYGRLLEWKKSPKDSFSAVVIKVVPRRGTLGQMLESVTTLPAADARQMRVM
+EEAAGWGADPKGLRDKWTS
+>tr|A0A1W9LCP4|A0A1W9LCP4_9BACT
+MGKGCTAGAWCASLLAGAALAGGGSQNVLVIVNGQSDSSLQIANAYQQQRGIPERNLLYL
+ESSNTAAFYTTGAAGDLRRTITSASFRTNLLWPALGYIRAQGLTNQIDYLVFSSDIPTRV
+DGSSESNATAGIAGSATFALTAMASFADLVELPNSASNMSLTMATYRGSTYSAAQPSTLT
+TNLTHATVWSNASPPRARQYYMSTLLGWTDTMGNSPSKAGSTFMPGSLVESLTSWSGILD
+ASAYGQFRMTQHLGLGVAGTSGSVTEPYAISGKFPAARMHAHYARGCSLGEAFYQSVSTP
+YHLLIMGDPLCRPFAQIPEVTVTNLSDGDTVTRRWRPRSPTRAASMC
+>tr|A0A1W9LGR2|A0A1W9LGR2_9BACT
+MTMGRVKWDGWVPVQRATLLFVRQRGEILLIEKKRGLGAGKVNAPGGRIEPGETDEAAAV
+REVEEEVCITPHPPVERGSLKFQFVDGFSISASVFTSDGFTGVPRETDEAVPMWVDERSI
+PYERMWADDRIWVPHMLAGRRFDGRFLFDGDAMLDYRLEVGPRAVRPAG
+>tr|A0A1W9L7W7|A0A1W9L7W7_9BACT
+MKRRDRVAVSGRRLVLPTYGVGVPDRNPMFLDRRVYQGSRGAVYPHPAIESVADEARDVA
+WRALILENRWLRITILPELGGRVYRAEDKAGGRDFVYHNRTIKPALVGLAGPWISGGIEF
+NWPQHHRPGTFEPVEHAVERHADGSATVWCGAIDRIQRTRALTGFRLRPDRAVLEVRVRL
+QNRTSEPQTFLWWANPAVAVHDDTQSIFPPDVRAVMDHGKRAVSSFPIATGTYYKVDYSP
+GTDISRYRNIPVPTSYMAHHSDYDFLGDYDHRAQAGMLHVADHCVVPGKKQWTWGCGAFG
+RAWDRHLTDADGPYIELMCGAFTDNQPDFSWLMPGEEKSFVQHFLPYRGTGGVKNASADL
+VLNLDVAKGRATAAVYASSPRTVTVELRRRDRTAPLLRRRIRLSPAAAWRGRAACGNAAP
+EALTLRVLDGSTGAELLAFSPPPPEAGPMPAPAVAAPPPAGIASAEELFLHGLHLEQYRH
+ATRAPEPYYLEALRRDPLDSRCNHAMGLLLLRRGRFAEAEPYFRRAIRRLTMRNPNPTDG
+APFHDLGLCLGLQGRLDEAFDAWERAARLDPAFPTVHRNLALACFNHRRDPARAWRELSL
+AVRLDPNDARLLFELDQLARRRNEA
+>tr|A0A1W9L8S0|A0A1W9L8S0_9BACT
+MKTVLIGTAMVAAILVQTTGCATTEADKTTALGAGIGAGLGMILGNNLGSGGSDRALGAA
+AGALLGGALGRQYGKQGETQQQMNYLQQQQFMTTVWINNSNGSKTPVQLRMTEGGQYIGP
+RGEYYSSMPTEEQLRKVYGV
+>tr|A0A1W9LCM2|A0A1W9LCM2_9BACT
+MDTSVLFAATYSETGGSRVLFKLGEARALALLVSPQVLREAEGALKRKAPESLASFTVLL
+ERTNANVGASAPEADAKKWAELTNHLGDARVIADAVAAEPDYLVTLDKEHLLGNSSLRKQ
+LPFPMGTPGEFLLWFRARVSPTSG
+>tr|A0A1W9LEI2|A0A1W9LEI2_9BACT
+MNAILVIPCFNHGETAAAVARDALRLGPVVLVDDGSTAGPPDPPPGVHLLRLETNRGKGA
+ALRAGFRYARDAGYTHAITLDADGQHDADDIPRFLEAAARRPDALCVGVRDFVAAGAPAR
+RRRANAFSSFWFRMETGQRLADTQCGFRCYPLALVERLAVGSERYAFELEVLVRAAWSGA
+RLVAVPVRCTYTREQVRRSHFRPLLDTWRMTRLNSRLAVQAFFVPLSLRAAWSVGRTVSP
+RAALREFFGEHAHEPGRLAGAIGVGLFCGIAPIWGYQMLAAVALSQWLRLNKAIALVASN
+ISIPPMAPLILWGGLALGHWLFTGRGIEFATVTKATVLAYAGEWFVGSLVLALLVGAAGF
+VVSYAAARWRGRSR
+>tr|A0A1W9LG80|A0A1W9LG80_9BACT
+MTTKRIAVLAGDGIGPEIMAEAVKALDAVSRRFGPAFEYVHADVGGAAIDRHGHALPSAT
+LATCEASAAILFGSVGGPKWDTLPPAQRPERASLLPLRKHFGLFCNLRPARLCPALRHLS
+PLRPEITAKGFDILCVRELTGDIYFGEPKGRSGSGPDERAFDTMAYTRREVERIAVQAFT
+MARGRRRRVASVDKANVLTTMVLWREVVTEIGRIFPDVQLEHVYVDNAAMQLIRRPYDFD
+VLLCGNMFGDILSDECAVLGGSIGMLPSASLNEQGFGLYEPAGGSAPDIAGRGVANPMGQ
+ILSAALMLRHSFGLHDAARTVEQAVDAVLSEGLRTRDLCAEGETPATTCQIGDAIAARIA
+AA
+>tr|A0A1W9LDD3|A0A1W9LDD3_9BACT
+MGQGCKLEERKAAARQRLLHRERVALERQRRLVGHQEPFAFEDQFVANIGLVEQCRLQNP
+QVLRGQSELIDCRSVGCREVVIAREADEQNARDPGENPDLAGASGNCDVNGQRLRLYRMA
+PDGHRRHVEPSARRPGAGSGKPFRILTAAPKRRGLQIAALQHPRPFDRRVADGQFGVVPS
+RVTVVQPRLAGRRARGAKESDNEGESEWRQPHGSPID
+>tr|A0A1W9LDN8|A0A1W9LDN8_9BACT
+MNSRIVLCAAGLMAGVAILAAAAAVSPRVSLFDGKTLDGWSAIACEAVVDQGEILIRDGN
+GLVQTQKKYADFVLEFEWKALKADKWDSGVYFRYDTVPAGKPWPPRYQANLRQGLEGNVG
+DLPGAKSAGLVKVGEWNRFKLTVRGTAASLEINGQPAWSAEGLQGPREGYVALQAEVAGG
+GQFRFRNLFITETK
+>tr|A0A1W9LH68|A0A1W9LH68_9BACT
+MVGVLLSSGCRTLPEAPAPTVPPPVLLTVGRVLSVNAERGYVVVECGSLPSPGEEAKVFR
+GEQAVALLRISGPSRPPFVTADIVDGQPQPGDTVKVFRTRGAAAPNNTVKP
+>tr|A0A1W9LG18|A0A1W9LG18_9BACT
+MKNPAIAAMAMCGLLAGCAFGPIRVADPAAGPTAVLTVPYSVSLLSIDGANAPARLGRPG
+ARSQDFILSAGAHEIVVQFSVIWNDPARDDHTPVRSAPATLSFTAATDTRYRIEHRIWRT
+LDDARAVAADPGWRIAGDNGIAVSVAPAKPAATLPSAPVPAMHPATNAPAKPTPQTAPAP
+PASVQQMNEWWQRATPQEREAFLKGILPGEAKK
+>tr|A0A1W9LB53|A0A1W9LB53_9BACT
+MREYSAIWDTGATNSVITQQVVDELGLAPTGIAMVRTAADDAPRPVEAFLVNMMLPNSVG
+VSGLRVSKGALATQTQVLIGMDIIGQGDFAVTNLAGKTTFTFRMPSIERIDFTAGTASAP
+LPNPKARAGRNDPCPCGSGRKYKRCHLAKDLASSN
+>tr|A0A1W9LEM4|A0A1W9LEM4_9BACT
+MNEPLLEIRDLAVDFNQSGTAVHAVRGVDLDIRRGEIVGIVGESGSGKSVTALSVLQLLR
+GVASYPRGSIRLHGGGESLELMGAPEARMRAIRGNRISMVFQEPMTSLNPLHPIHRQIAE
+AMALHGGPRGAAARDVTAEWLERVGLREARKRLDAYPHQLSGGQRQRVMIAMALVNRPDL
+LIADEPTTALDVTIQAQILELFASLQKSLGMAMLWITHDLGLVRRIADRVVVMQGGHVVE
+TGSCARVFEAPEHPYTRKLVGSAPSGAPPPVPPEAAEVLAVDGLKVHFPVRAGLLRRTVS
+HIRAVDGVAFRLREGMSLGIVGESGSGKTTVALAVLRLIARSAADLHGSIVFAGRDLATM
+SSAAVRPLRRNLQVVFQDPFGSLSPRMPVGAIVGEGLELHRRDLDAAGRDAEVADTLRRV
+ELDPEARHRYPHEFSGGQRQRIALARALVLRPKVLILDEPTSALDLTLQKEILDLLRALQ
+ARERIAYVFISHDLRVIRAVCHEVLVMRHGRVVEQGPADRIFREPGDDYTRALLAAAFEF
+KAIGKDAA
+>tr|A0A1W9LCW6|A0A1W9LCW6_9BACT
+MSGIEPATLTITGVIATVLSLVFAFASHATSRKRQRERVHLEAVLKAQREESPAFAAPPS
+AHPSPAVYAAPAAYAPQVVADATERPRVPAAYAPAAHPDRPAPPPRPAPAGPQVFKQYVT
+RPGTKAMTPVVESLPTDRDYVWE
+>tr|A0A1W9LCM4|A0A1W9LCM4_9BACT
+MVAAGMATPLDARQNPGSYLFRSDASDVARAEERTFICAKTREDAGPTNNWMDPAEMKAL
+MSKPLGGCMKGRTLYVIPYSMGPIGSPIAKIGVEITDSPYVVVNMHIMTRVGGKVLEALG
+PDGEFVKALHSVGAPLAPGQKDSAWPCNPDVQQKFITHFPDTREIWSYGSGYGGNALLGK
+KCHALRIASVQARDEGWLAEHMLIVKVTNPKGKSIYVAGAFPSQCGKTNFAMMEPTLPGW
+KVETIGDDICWMKRGPDGSWRAINPESGFFGVAPGTSMKSNPNAMRTIARKTIFTNCVLT
+PDQNVWWEDMTDKPPASGIDWHGQPWTPESGKKGAHPNARFTAPASQCPVIAPEWEDPSG
+VPISAILFGGRRASVIPLITEAFNWQHGTFIGSIMGSEMTAAAFGKVGTLRRDPMAMLPF
+CGYHMGDYLAHWLKVGKASDPAKLPHIYFVNWFRKGGDDRWLWPGFGENCRVLKWVFERV
+EGSGRAIETPIGHMPPLDALDLGGLDVERQDLEELLRVDIQGWLGELPTIQEHYAKFGDR
+LPRELREELAALEQRLKKA
+>tr|A0A1W9LCX8|A0A1W9LCX8_9BACT
+MPFRHILVWAYSFPHGIETHWTDGLSGAERADDYAQMFDLTRHLLTNYAGSGKAFYIGHW
+EGDREFAGLALPLLEP
+>tr|A0A1W9LBS2|A0A1W9LBS2_9BACT
+MAADGAEPLSPWPEVTRECRPWAYNWWLGSAVDKENLGRELRRYREGGLGGIHIVPIYGA
+KGAESRYLDYLGPRWMEMFAFAVDEAAKLDLGVDLTTGSGWCFGGPCITPELAGQKAVVT
+NGAIRSVATSQRVKRAAPGGEGFMLNPFHAKAMETFLAWFAAPFDAPGARRPRAMYHDSF
+EYYGANWSPDVPAAFEARHGYRLTDELEAFAGRGDSDRVARVRCDYRETLSDLVTGPVFS
+QWAAWCRARGMLTRNEAHGAPVNLLDFYALADIPETEMFGRGTRDPLKSQFDERFGEGDR
+DPLISKFASSAAHTAGRTAASTRPTTRRGRDGFSTPRRR
+>tr|A0A1W9LD51|A0A1W9LD51_9BACT
+MPRFSGHGGKETMKVRPSAPRRAAAARALAACLVAAAGAFADDGAYRSAPAADAEGAADD
+APMTRTLGAMSGDPASLREALELDAAGRGAEAIGKIEAAIRETPDVARLWETLGLLHWKS
+GRSAEALAVWTHFAVADGTRAEPHVWIGKLHAARNELRPALDAFDRALKLAPGDMNARFQ
+RTRVYRWLGHIEEAAATTRDLCAREPDRADYRRELAAALFANREYAEAAVLWARVRRDRP
+TDSDAEIREIASRAYATGDDGAVRDAVAYIERFPGHVLALRVLSDVAQNSGRREEALGYL
+KRLIVVETDPKKKARLAFRCADLISGLHETAPDRFTIQEAVGFVQGYLTVHPYDVDVRLL
+LGEIFIEASDWPRARDAFEATLRGYNPQNVRAFRGLFEVCVASGRHREARQWFERIRSFN
+PLDPYLAYLEARMDAANGDYGAALEAIDRLEISGARGAVAMLLYHGLAESDWIDIPSVRI
+VREQIGALKAAGYRFVSAHDLPATLNDRSSPERLSRQAPQRIACVTWDDARRDAMRYGTP
+LGRELGVPMTMHIPVGYVKEDHPFIAGWNTLRTCADTGTWHFSSHAYDGHDPRPSLREGS
+AVHPLANRLWLPEAGRQETETEYRTRLIREYRGSREAIVAELKRPREADVFAYPFGDIGQ
+LSHSNVTNAPELNLAIARKYYKVGFIQSHFGHAVHGDDPLLYQRTEPYRAETGSNLVARL
+LCLHPVFLARATRAEIAVLADKPYLANEMLDLLARDGYPADRLARLQAKVRRTIGGSLFR
+WPFRRKAPSVVETSAPPAAAVAPAGTAEAAPDPTPGPASPATDNRQRPPRRRPNPLPDTG
+PAPGEELRREAGRNY
+>tr|A0A1W9LEB9|A0A1W9LEB9_9BACT
+MLAILPDLRAKADFISCRFLGREDVRIPKGMALFAREANVPIIPAYVVRSGWARHRWGSF
+PPIWPDLSLDRDADFERMTRYVITCFDQAIREHPDQFFWFNGRWVLGEEKK
+>tr|A0A1W9LGY5|A0A1W9LGY5_9BACT
+MRAACLAALVLGPGRARAEDFPPFDAGVGTQTFAPLYGFSNETRLVETADAIYAMGSDVV
+KLDLSWNGFIHYGLPPGPGITNLTDLAGKEPSYRHVFDMPFKYCLLWSYPLTVSTYWHNG
+MNQTELDGEYNENYNLARHFLRTYNNSGKTFLFGHWEGDWALLGGFDPASNPSPTAIQGM
+IDWLRIRQQAVTDARNDEPHTNVFVWHYTEVNLGNKAMTGGVTVANNVLPFLTNDLVSYS
+SYDTITNATTFTNALAYFESKAHTTGPFSKNVFVGEYGFPLNDGARTPQQQADLSKGIMK
+AAGAWGCPFTLYWQMYDNETNEAGRCRGFWLIETNNIKQPVYDTHRTFLGRAHTFKNLYR
+FWLGRNPDAQAFAYFSAGFDSFSTTNLLNQILASAEFSNRWSNAAYIEFLFSSLFGCTST
+SDSDYQDQLTRLTQGTNREAVLDGLLDGNRFTSACPNEVFAEMLLGGTLCRPRVDPSSTN
+VTALAARLTGGEKRSVVWRELLDSAGFHDAELDLRQDDEVGSPAVFAKHFFNRDRDRDGL
+PDAWERQIVMANTNDAVTCIEDVSTNTDFDGDGLFDADEHRFGTAPTNTDSNADGVPDGV
+EVDGRAAQMDHLLATANLASVLNTRLEMNGTGEVAMIRTNYSASYTEAIVDWEPGGGLLS
+ITSTP
+>tr|A0A1W9LCI9|A0A1W9LCI9_9BACT
+MNTAVRMSRLGVETAFAVSDDARAWAAKGHEIFPFHLGDMNIITPKSIIEAAYKAMKAGK
+TGYSPAAGVPELRDAIAADVGKDRGVKYAAENVSVQPGGKPVIGKFLMVLMEQGDAVLYP
+NPGYPIYESQILFLGGVGQPYGYTMTPKGFRINRQEVEKAITKKTRIFIYNNAQNPIGAE
+SDDDEMQWAANLCIKHNLWCLSDEAYFHVRYSGKSKSIVSLPGMQERTVILYAFSKRFAM
+TGWRLGAAVGPREVVDWISKLNVNQESCSNHFIQYAAIEALKNGVAGTREIVKILKERRD
+VLAAALRTIKGVEVYVPEVTFYLFPDVTAVYDKMGIKDRQEFRKDALYKTGVSFCSRSHF
+GKAGPNEPRTYIRFAYSGIDSSRIKEAIAKLKAYWES
+>tr|A0A1W9LDP7|A0A1W9LDP7_9BACT
+MNNHLWPRIALAVFASGLIAAPRAGAQQSRYRNVEARDLVERPQNYWARPIVFQDTLLQP
+PSGRDFKLEGIRYATFTTKTIGTCYLVKPLESVLAQVPADRDYVFSGTVLQRGGRYYVIV
+ESFSGTVDSEEIPSDLRNVAASGKALLVSKSTQPMADILRTSQESLFAYAKEHNLKLEQL
+FEPDSGHSARAMELIRMSAREQEKKLGTPSAEIIAQYVYGVLVQNQ
+>tr|A0A1W9LE31|A0A1W9LE31_9BACT
+MEVILMPDRERADALAARLVAKAVRARPHLVLGLATGRTMERVYARLVALHRAEGLDFSL
+CRTFNLDEYVGLPPTDEGSYRHYMNRHLFSQVNIDQRNTTLPDGMAADLDAACARYESLI
+QDAGGIGLQVLGLGKSGHIGFNEPLSALRSRTRVKSLTETTVRENQGQFADPASMPRRAI
+TMGVGTILECRRLIMLVTGASKAPVLARAVEGPITSMISASAIQLHAACTVIADEDAAGD
+LKEKDYYRWIFGNEPEWREFHDLLA
+>tr|A0A1W9LDH7|A0A1W9LDH7_9BACT
+MPSREVLTLLDLVYYQYAKIVAQEELTRPGFEIARRTQYGMAKDIYHDLKAGRKLWGDVT
+RGNGAQGAEEVRCAFCGRRENVEPRHLVPRSLHINERCGQCERLLSQGNLVPTCADCAAR
+RGTMGLYAFYRDLFPEESKFYYRIPRSVEKKYLRIIYDCLRCADALGAKDVDGDGDVTVL
+DIDYAIARRGKL
+>tr|A0A1W9LG60|A0A1W9LG60_9BACT
+MTSYILRRLLLMIPTLFGVLLVNFAIIQFAPGGPVEQIIAQVRGVDADAAGRISGSTGRE
+TAGPSAASGAASRY
+>tr|A0A1W9LHF7|A0A1W9LHF7_9BACT
+MAIIGWGDLGKKYLSWILSTKKMAMIFEFEIDFRYDLRRPEFDVVPAADGSVVVRMPPCH
+HDTRIRDIRFYDEQRSRLLPWLLPDLVNGFLSGGFTEEDKNRLVAAAKAHAESQARLLID
+NLQPEVQASAKATLQSLARAFGAERLTFDFTGGGEPEITVAVARNAAA
+>tr|A0A1W9LEF3|A0A1W9LEF3_9BACT
+MQGAIPPAAPEAWAEADDVALLRWRVCDLALRIDGSMVERRVARLHAELAGRGFGFLPTC
+YLTTEWLCPDLVPLIGIPFCLAHPRLVRLEKTMMLEVEGESEGECMKLLRHECGHAINYA
+YRLYRRTRWRELFGRMSADYDPHEYYMRPYSRRYVVHLRDNYAQAHPDEDFAETFAVWLT
+PGLDWRARYHDWGALAKLEYVDRLMRSIAGRPPLVTGGPRHFAAARTRATLATYFERKQK
+EFSKGFIGFYDPALRRLFTDAPTEGRTRAHRFLAAHRRLLVDTVADWARVPKYAADGLVR
+RLAQRAEELGLHLRTADAAAILPVGVCLASLVVEAREHRLRALHTRETKP
+>tr|A0A1W9LBA4|A0A1W9LBA4_9BACT
+MFHFLSVIAVVLAVIALVVPVAAASACDDSHEDACAADCLCVCSCTSIVDCHAKIDVAIA
+PITQRVVISDFQYPGILLVADIFRPPTSA
+>tr|A0A1W9LDD6|A0A1W9LDD6_9BACT
+MRWELIGFGLLLGVGVLLVTLCSACGRAPEPGQEPDWTAARAAMVTQLRAYGVRSQPVLD
+AMTRIPRHAYIPAEYRGVCPPYGDHPCPIGHRQTISQPYIVAYMTEKIAPRPGEKILEIG
+TGSGYQAAVLAELGADVYTIEIIPELAEHARRVLESEGYSGVHVRAGDGYKGWPEHSPFD
+AVIITCAPEEVPQTLVEQLKDGGRMILPLGGGAQRLVILRKKSGQIEKEEDLPVMFVPMV
+HGRDG
+>tr|A0A1W9LFV4|A0A1W9LFV4_9BACT
+MILMIDNYDSFTFNLVQYLAELGAEVKVVRNDEITVAQIRALAPERIVISPGPCTPAEAG
+VSCEVIRTFGPVLPLLGVCLGHQSIGHVYGGRVVRAARLMHGKTSPILHRGESVLAGMPS
+PFDATRYHSLLVERGSLPACLKITAETAEGEIMGLQHVEHPVHGVQFHPESILTQDGKRI
+LKNFLDL
+>tr|A0A1W9LBM0|A0A1W9LBM0_9BACT
+MDLSGEWRFSLDRGDTGIAESWPDRTLDGRVRLPGSLTEQRIGDPVTADTKWTGGIVDRS
+YFTDEVYAPYRKAGNVKIPFWLQPETVYAGPAWYQRDIEIPADWKGRRAILSLERPHWET
+RVWIDNRCVGTNNALGTPHDHDLGLLAPGRHTLTLRVDNRMVVDVGENAHSVSDHTQGNW
+NGVVGRIELRSTPPVWIEDVQVVPDAARKTVRVRVTARAAGAEEVSGVRCRRGGRTGGAS
+RSKRLCP
+>tr|A0A1W9LCK7|A0A1W9LCK7_9BACT
+MSGEPPGGLVTRGLNLWYGKFQALIDVNLTIPHGRITSMIGPSGCGKTTLLRCFNRVNER
+YGYVTTQGEIRILDKNIYDPDVSLMELRKSVGMVFQRPNPLPLSVYENLVFGLRIHEPAG
+RPARADLDAAVEKALTEVGLWKDLKDRLHVRATTLQLEQQQKLCIARLLPLKPQVILMDE
+PCSALDVEGTRAIEDLMFELRGRYTILIVTHNMSQARRASDECAFMLLGRVIEHRRTEDL
+FLTPSDPRTAEYIEGRYG
+>tr|A0A1W9LF28|A0A1W9LF28_9BACT
+MRQTYDVELLTPFFCAGADPAKPEIRVPSIRGHLRDWHEWMRLGPVADTWGGVHGTPKAS
+KVA
+>tr|A0A1W9LCC8|A0A1W9LCC8_9BACT
+MSRNNGLAVLAILALAVGALWYFGRIQPVEVVEQKVRTAGAAVCPACQGRKQIACEACGG
+NGRVQAPEQMCAECEGTGRGKWRMGDTRTVRRMGGDPLCAACSGKGRTRASQACAACSGA
+ALTTCLDCAGTGRSAAVRVFKTVRAGYSPWETVLSWLYMPPDDDAVPQVGPDGRVPMVDV
+YLALFQRNGVSGRVAKWGAVSRGANGWEVRTQLRIRRGDVESEEGRLFVVRNRQVISATP
+LAWP
+>tr|A0A1W9LD21|A0A1W9LD21_9BACT
+MMPAGGWPMRYAIVSDLHGNLQAWRAVLRDIAGAGADRILCLGDVVGYGPNPAEVMESVY
+AEAHRIVLGNHDAALCGRMDTSRFNAEARQILDWTRTRVSADAVKLAATWPLQLQGRGFR
+CAHATFDAPARFGYVEDPEDAAASWAAAPDPLLFVGHTHRPAVFVLGASGTPHLIEAQDF
+IVEPGKRFLVNVGAVGQPRDGDPRASYVIHDSESGAVYFRRVPFDLDACRAAIKAAGLPP
+VASVFLDADPLRGRRPLRDIVSFRPPETAAGGARGAVEIEDLDVLRGRVRRWKAVTAALA
+GLLLAGALIAGWFAWRRASQAAEFIPAWLPTLVAADRPAGANLLPVPAAGAPPLDGWIVR
+LGDCRAQEVSALAPAGEGLPAFVLTSRSARETVEAVSAPIVVAPGQRIALEAVFDKDVGF
+EGTVTLGASLRRTAGGAEELVENFVVKEPNLRRRDGLAARETIEIPAGARELRVRISGRF
+RGAVRVLSVSASRK
+>tr|A0A1W9LFU6|A0A1W9LFU6_9BACT
+MNILVLTPQLPHSRVLSGHRIVYERIRRLAARGHRVGVACFAQPDDADHVGEWEGALLDL
+EIVPRPEPSTARRLACWLQRIPRPFSDFRSPAMQRRFGDMVERSRYDVVLSEFSVMAQFL
+HWNPYLPAVRRVVSCHQCETVASRKRAELLGYTPAGLLERRRRERLQRFEFGLYRAADCT
+LVLTPQERYQLLQYAPDLRTVVIPSGVDTARFRPPDRAAPPDGILFTGHFSHEQNRDAVR
+WFLAAVWPRVSERHPGLFFYIVGPGPPPDIRDSAWRDPRIIVTGEVDDVRPYLHRAAVFV
+SPTRMGSGMRGKLLEAMACEVPVVTTTAGAEGIPVRPGCDCLLADSATVMVEQICLLLED
+ETLRQRMARNGRELVLRRLSWDLSVGTLEAPLAGITGRRPGRSDAPEGV
+>tr|A0A1W9LIJ8|A0A1W9LIJ8_9BACT
+MKTTPVRNLPLPAIPRLACRRGAAILAIAAAAGTSALAADPSMGLVVHLAFDDAGIGGMI
+FNKVGPRNGGRMIGAKWIPSGRGGGGCELGSANACVVVTNSPALAPLTQTTVAAWFKTAA
+STAAGRYIVEKNPEQGYALGIAGDSKEAGSRGKLRAVANGRACLSDSTVTDGRWHHGAVT
+YDGQTLKLYVDGVLQKQTVTGAGALVPNGKDLTIGMNRSNPAPQQREVAFDGAVDEIMLF
+DRALTEEDVKAVVALAKPRFTKDQVSRRLIELKELRDRGLLLPEFYDRKVKECEADL
+>tr|A0A1W9LDJ5|A0A1W9LDJ5_9BACT
+GVALAGLLSPYLRAHGAIFSPSIAPLWAMAAGVLAHGTALDRRAGRQAPRVVFAVALAAI
+LAAGAAGFAESYGHFGALLSAKIRFLNHKPADPALLTFDQRILWTPALHSATWRLFRTLF
+PYAVPLTLLASVVWLFRQRREEAASIPNPEPLLFYHWASVGVFFLFVRFCVFAALSAAAV
+LGVAAAWAARQSGWRRWVVLAALSIGGLAESGVVIHGAKSWGSVPVLYPQLEELGEWLKV
+HAAPAPVLANFQTSGFVLSYGRCPVVLHPKFESPEIRNRVEAYATHLFRGTERGLRDWAE
+GFGARYLVHAMGEFSDRAPELTLRYMVDALVPPPSAPARGFEFGPDRMECFHPVWQNAKY
+RVFRIVSTAEEAAARKLIDAAQRDFEAGRLDEAERRAAAAHRVNPCDRRSLKLIGRVESL
+RAQGFRQPPAGSQGAGASPSE
+>tr|A0A1W9LFQ2|A0A1W9LFQ2_9BACT
+MKTIRIIAVLLLLTWPGAPSARAGDVEVNLDTSEGSSSMLVKKANADPGFRMASDGTMAA
+GNVAQFGGLHPGCFMWLDSKVVGFASSADDQFLIGAAGGLGLNTQPWGLVHFFAGNSGDA
+KMILEADRANDNENDNPTFEMRQDGGATTAQLELNSNNDLVLRAACTISNDMIFELGYDI
+ASATDRMRLTKNGCLDIGMIGGVPGSHKLYVASASGGANGAAIYAISVETNTGIAASLET
+DSHDCALLLTQRSSEGSLIHGDSYGGGGWHRTFKVTAEGKVTCSSLTTTGVITCASVTMT
+GGGDVAEPFDIADGGRVEPGMVLSIDANAPGKLRVANTAYDTCVAGIVSGAGGVNPGVLL
+SQENTLASGQIPVALSGRVYVQADASHGAIRPGDLLTTSGTPGHAMKADPQRAAGATIGK
+AMTPLEDGRGLVLVLVSLQ
+>tr|A0A1W9LED8|A0A1W9LED8_9BACT
+MNVLPGPFTLWTLTALVMAMRLVSIPLATAPPASYTPFVTSTVSPVVAALIASWRIVAAV
+AQLVYGDTGLVLEAET
+>tr|A0A1W9LGL0|A0A1W9LGL0_9BACT
+MKHHLAVSAAVLLGATSFAPAAEPRPWDEYRVILWTGDSAWASPDRAPIFFERLRELGAT
+HGMVHGRADSEALRKAGIPFYVENMVSRGLCLKWNSRVSDWDGFVTGWAKDRNREAFIRE
+YGLCDPAWRASIDAEVRTLVTRHAPHAPLAYDLRDEISITISANPFDYDFSPPTLAAFRA
+GLRTTHGSLDALNRAWDTRFASWDAVLPFTTDEIKNRMSSGGGMPRGQPDWQALARLAYD
+PAEARKEPARWNLAPWCDFRSFLDATWAGILDGLRRSARAIDPATPVGIEGTQMPHPFGG
+YDLWRLSQALDWIEPYDIGGARAIFGSFMEGKPVLSTIGEANENAARRRLWHLLLEGDRG
+CVIWWSEDCIDWKTPGHPLTVKGRALAPVMREMTGSLAGLFVRARREWDPVAIHYSQPSV
+QVNWLIESTGDGRTWHRRFSSYEATHNRQAAGRVAWLRQLRRARVRGGARRLRRARAPAC
+RVRVRSAARLFRRRGGCGRHPGSRARDARGGGDRGIPLPAGGRAVDRTRARHGCPDGGGL
+EARRRRRGVGNPGRGRGGARPPRACDRPPQRATLRPDRPGERYNRALAPDRSRRHRRADP
+RRRSGGVSPARGPGRK
+>tr|A0A1W9L9H3|A0A1W9L9H3_9BACT
+MSVHASLKGGSGKIAAKRNVLKRFERIDLLVQRGKWKKGERALGLPKTKPSI
+>tr|A0A1W9LA28|A0A1W9LA28_9BACT
+MKTDAPALCDAATLAQDLSRRLLGMRTDGVWRGRLSSSALSTAVGAVAIHRLGVQRDAMV
+RAAAWITANANADGGWGDTTDSPSNPSTTLLAWAALSALAPDSPALPRAAAWLSRRLGTI
+EPASIARSVLDAYGDDRTFSVPILTFCALAGCLGPGAAAWRGIPQLPFELAAVPRRFYAA
+IRLPVVSYALPALIAIGLVRHRQSPSRNPVLRAVRDSLTPKVLRLLEAVQPSGGGFLEAA
+PLTGFVAVSLAGSGLAGHPVARRAGEFLCATQRADGSWPIDTDLSLWVTTGAAAALAAAD
+PDGALWPAAERLALRRWLLDRQFRDVHPFTAAAPGGWGWSDRPGAVPDADDTAGALLALR
+ALGPPDNETCAAATRGIRWLLDLQNRDGGIPTFCRGWGRLPFDRSCPDLTAHALRAFRAW
+EETVDTPCRRRMDRARRAALTHLDRTQAGDGSWTPLWFGNQAVPGGANRTYGTAVVLRAL
+RGEAPESAAVHRAQAWLTAAQNPDGGWGGAPDTPSSVEETALAVSALTPDPNAASAVRRG
+MAWLAEAWRRTVSPPPAPIGLYFARLWYSEAMYPAIFSLSAAARAAGGPSRPWTSVALGL
+HCAGSVV
+>tr|A0A1W9LGM7|A0A1W9LGM7_9BACT
+SRFGAFLNEAAVVADGVSLTYGALENLAVRVARNLQRAGVGPGARVALQLGNTWQAPVIL
+HGCWRAGAVACPIDTRLPHAAVSDRVRLVAAKHFVGGEDAPPPDGVAGLAAEDLLAECDA
+RGGMDSLPPEDPGALATILFTSGSSGRPKAVAHTLAAHRWSALGANANAPLAPGDRWLLA
+LPL
+>tr|A0A1W9LD97|A0A1W9LD97_9BACT
+MNIPRDLRYTKSHEWVRLAGGLAVVGITDYAQHQLSDLTYIELPSVGDDVEAESEVAVVE
+SVKAASDVYAPIAGTIMEVNDKLLEQPETINSDPYGAGWMFKIKPAEPDDISLLLDAESY
+EETLGDSEE
+>tr|A0A1W9LBU2|A0A1W9LBU2_9BACT
+MKKSFDEQSAMKTELKQSQAGRPAEDILRWALDEFHPDVALACSFSIEDIVVLDMLMEIR
+PDARVFAIDTGRLGEETLACAEAVRRRYNIPVAWYFPSREAVQELEGAKGLYSFRDSLQD
+RVE
+>tr|A0A1W9LEB6|A0A1W9LEB6_9BACT
+MPANPDFRDLFRVFNEEQVEYLIVGAHAVIFYAEPRYTKDLDVWVNPAPENAQRVHNALR
+RFGAPLTDIAVEDFTKPELIYQVGIAPNRIDVLMGIAGVTFDEAWKDRAESTYDAVPIHI
+LGKNSLIKAKKASGRPQDLLDLDQLK
+>tr|A0A1W9LEL9|A0A1W9LEL9_9BACT
+MRIGISARGLSIPVGGVRTALERIIPRLIRMDSRNRYVVFHNSPEHRGSFVGADEVFFQA
+PTAFLWENAALPLRLRGQKLDALFCAKNLVPWFTPRGLRTVIMVYDLVYFPIGGRYLDEY
+PALDVAYMRRFLPGSVRRADRIIAISANTAKDVKDLFAPDPAKVSVAYLGVDVPPPAAFS
+PEYLGEVRCRHALTRPYIFYCGTLSPRKNMKRVLEAFAGMRTEIPHDFVVTAGKSWNDRE
+VHDAVRRLGLGDRFRQLGDVPASDMPALYRMADAFVYVSLYEGFGLPVLEAMACGCPVLT
+SNTSSIPEVAGDAALMVDPLDATAISAGLRRILGDRSFADELRRRGQAQAAKFTWDETAR
+NISGVLGTLQPPA
+>tr|A0A1W9LG26|A0A1W9LG26_9BACT
+MNRKLVWTLVVIALTVLVLLLNVRRDATIDLYFARVTMRAAFAYLSFTSIGVLIGVLLK
+>tr|A0A1W9LC28|A0A1W9LC28_9BACT
+MLSILFWVCAFGLFYIYLGYPLLAGLLAKLRARPVRRAPYGGSVSVLIVACNEAAVLPHK
+IRSLLASEAQAQIGEIVVASDGSTDETAQAVAAVGEPRVRLVAFPERRGKASVLNDVLPQ
+CRQEVVVLTDARQELHPQALGALLSNFADESVGVVSGELVFREESVSTASARGMGVYWSY
+EKFIRKSEARFGSVPGATGALYAIRKALFSPIPASTLLDDVLIPMQAVVRGFRCVFEEGA
+EVYDDPTFSPSREAIRKRRTIAGNAQLVLFHPEWLLPWRNPVWFQLVSHKLGRLASPLFL
+IGTAVTSLLLGDVPLYRAGAIAQAAFYVLATAGALAQRAGRRAGWLGVPLMFVRLNFTTL
+AALWDAVLGKFHPTWATGREG
+>tr|A0A1W9LD55|A0A1W9LD55_9BACT
+MEMKLRNEILVSVSAATVFLLGGVILTSAGCSTLPAAAKVTTYAGPRGEPPSDDFCVRVD
+GKPVFVYQARVSAVPFNQSWPGYERPLDQTEIASFACWDMSGPVTVEVVSKQAVDRVAVR
+PTSYGIQPKVDGNRITFALKRPRQVTVEVNGSHKALHLFANPPETDVPRLTDANVRYFGP
+GMHRPGKIVLKSNETVYIAGGAVVHGVIEATEASNLRILGRGILDVSTFKRETKVWAEND
+PSFESKAPNERVAIHTATDGGVFGGAISLCGCQNVHIEGIVIRDSNRWTLVPAGCRGIRI
+ANVKLIGLWRFNTDGINIVNSEDVTIDGCFIRSFDDSICIKGQPGRCWHGYVAGTRPVRN
+VTVSNCVIWNDWGTAFQFGDGAWAPEIAHLLFRDCDIIRTCHIAMGFGPAYGGATIQDVR
+FEDIRVEIDDEASKPMIQQGREAKYTGTKGDYCPRLIYQVIGKHMTGSVRNVLFKNITVT
+GSGRRFPLSILRGFSAERCVENVVIENLRINGKLISDLATGGFTIGKHVKNVKFQ
+>tr|A0A1W9LHY1|A0A1W9LHY1_9BACT
+MGLAAIFTETAAAEGKLKTVTPQEIVRAAIEHSPLLRASDQEIEAAKAKKSQANALGLPS
+LDLSGRALQYDGLVESSLGPTITIPAIEERYSASATLTQPLYTGGRNASKRRSAAFQRHA
+AEAGRRGAEADVALQALTAYWSWSKAFHALETLQSAVDRMQAHATDMKNLHEAGLATDND
+QLATDVVLDQTRLRLEEAHRRVDLARARIAFLTGQDLAVDAAPEAAAIVEDLAAASEAES
+LDSARSNRAERVAREMEANAAQAQVRAARADYFPRISLMAGYETANPNNLFFPPEEEWSD
+DSFVGVVVSWNIFDSGLTRAKTREAAARAAQARLRQEQEDEAITLEVREARANLQDALER
+VTVAGRAEQSAQRNLAAATDLWQNGLTRHSDVLDAHAQLTEVQYQAVAARADALLARAAL
+DHATGLLSAAEGVPHHNAFSDSLAIAEPAKD
+>tr|A0A1W9LFZ0|A0A1W9LFZ0_9BACT
+MGRVMMNVRFGTWTAAGIAAVAVAGSVATAQVKVDGSLPDYKPVEGVSGAVKSVGSDTLN
+NLMTLWAEGFRKMYPNVQIEIEGKGSSTAPPALIAGTATFGPMSREMKQAEVDEFEKKYG
+YKPVALPTSIDMLAVYVNKDNPVKGLSLAQVDAIFSKSRKRGAKADIANWGQAGLEGDWA
+NLPISLYGRNAASGTYGYFKEHTLAKGDYKDSVKEQPGSSAVVQGVASDKGGVGYSGIGY
+KTADVRAVPLAEGDSADFVAAEPANAYTGDYPLARPLFVYVNARPGAQLDPLRREFVRYI
+FSKQGQSDVVKDGYFPVTADMARKALEAAGIKADF
+>tr|A0A1W9L7W5|A0A1W9L7W5_9BACT
+MTARILCLAALTGSLTWAAAAQITNEAALFTPAMLKLRATLSNEVAAAKQHARGPATEIL
+KSETHRWEQEHTERRRTRNIKGIAISEAALDALRKGAESLEARGVVEFPANLRRELTEEF
+AKLKVRLDSAGAGTAEPIGEVETKAIASFREAAAKAGITIPADDATARQQFAEWLVAKPP
+PKVVDAPKTTDTDPVTNAPPKFEPPPEFFASSGHGTNWGIAGRWTALSGGPNVFELVVFG
+ATGKKTGRVENPISGRATEWTYESAVPLEVGNYTYRLHRDGTNDVVGVSEWPSIANGGKI
+VFHTKLTPRIPAETGFELQFTRERLLPIPVRSEPPGARILVDGKAHVIDGKETHTPDTLV
+LPSGKRAIRLVIPGYHEYEEKEFEVDEGRSMTVTLTPLKDIPSRELTVDPRRAWANTNVR
+VAQGERIHLKVEGQWSCGKKGDMTGPGGYDPKSPKNSQYYIDPKNAPKQLETAPYGALLV
+RIGTNKISAIGAARGFVAGSAGLLMFDINESPDPPQRRDNRGKLIVTVEVHPPAPVP
+>tr|A0A1W9LAD7|A0A1W9LAD7_9BACT
+MKTKWMILTAAAAVAGTAWAVEPAAGAGGQGPEGGGPGLREHLRKLFDADGDGKLTGAEL
+EKAKAAAEKFDKNDDGELGRRERKAAHEALRERRNGDGEGEGPRRRPGRDGPPPPPPGRP
+RGAI
+>tr|A0A1W9LBP0|A0A1W9LBP0_9BACT
+MIRKAVIPAAGLGTRFLPVSKSQPKEMLPIVDEPVIQYVIEEAAEAGLRDVLMVIGKSKR
+AIEEHFDRNFELENALAARGREAELEAIRRISTIARMHFVWQRELNGLGDAISYARDHVA
+NEPFAVLLGDTLIESDPPLTQQLIKVFERFREPVVVLEEVPREKIHRYGVISGTEIEPGL
+FRIDDLVEKPDPAKAPSNLAIAGRYVLVPEVFEHIDATPRGKNNEIQLTDALRSMVKNRP
+MYGLKLNGRRYDIGNRLDFLKTNIAYALRRPDLRDDLADYIREIAAGLPKA
+>tr|A0A1W9LG95|A0A1W9LG95_9BACT
+MNVTAVLDTNIVIDFLLGRPEALGEMGRYDRRAISLITWIEVLAGAKDEAEESALEGVLA
+QFELLGIGMEVAGMAAGLRRTRKIRLPDALIWASAIHAGGLLVTRNTRDFPENEPGIRIP
+YRI
+>tr|A0A1W9L8J3|A0A1W9L8J3_9BACT
+MTTTRREVSRALRDVWAWKEALHRDLVGLPVTRMLHALSTQADEAARRQGFGATTGAKGG
+RLAVAEGGVEYGRGGGKVEGRGLRGRAAVNRMGTTE
+>tr|A0A1W9LBL3|A0A1W9LBL3_9BACT
+MTPSVDILSIAGYLARAAGLAGVPASDSNVNWSRWQLLVEENQLGPFLGSRLSPEWTLPP
+PVRAELATRHVRAGSAAAFQTVELTRVLRSLSGVAEVVVLKGAALIPILYHEAAERLMWD
+VDILFRTTEDRDRARAILEASGYRARKTIPGHHHLPALQNPVNGMVFELHTNLMTPPLAE
+GFMDEIWRTRRRTGLPFCTLDNPALLAHHCIHALNDPVESPLLRNLFEVGWLASRLSAAE
+QESFRKLVTKWKMAVLASRSLWLAAALFRTPTLFDAPRPSAYEFWCERRIEWCDCESFSA
+RWHRHAAAAHIVRLLEGRSPHDPLVLPGVLLHSAWNALRSRVLPRLVRAAQPPRRSGARA
+VACGDLVILYDGHSRQTHLLNPLATKIWQLADGTLSSPELAQRLAGDGFDPAEAAAAIRQ
+LLKMGILER
+>tr|A0A1W9LDZ7|A0A1W9LDZ7_9BACT
+MRVERFDLVTADLGELAMALVDASTLLLGSPAMLNGLHPLAVQAAYLVNILKPKFKFAAA
+FGSYGWGAKALENIPALLPDLQPEFLGQIFCKGLPKAADLEALDRLANAVAEKHRPTPA
+>tr|A0A1W9LDK5|A0A1W9LDK5_9BACT
+MKILKVLGIILLVVLVVAFIGATLFLGRVVTMAVNEGGPAMLGVPVSLEKADVSLFRGKI
+ILKGLVVGNPKGFGTKEALKLDDIRVDLSMKSLLSKRIRIHEILIDAPRITYDQSLFGSN
+LAKLQEQLGGTEETKKEEASGAKVEITKILITNGRIGYSAPGMGFVAIPIPLPTIELNDV
+GKESEGASLAQVIGRVFSAVFQGVVKVVTSSGQLLGQGAMAVGGGVVKGAGAVGGAAVDA
+AGAVGGGVKKLFK
+>tr|A0A1W9LCW8|A0A1W9LCW8_9BACT
+MKAPGLFHRVFKRGLTELMANQTLYQALAVLDEDVPPSPRLPSTIPPASWVLENVAVADL
+TPYTLSQAETKTLTEKLQTTLVRTKYFNVLSRSEMKAVLDAQQFQRSDACDDSTCLVEMG
+KILAVQKIIGGSVGKVGSTFNLVLRLINVETAQTEITADRELKGDADQLLHLIEDAGREL
+ALQYATTRSKQQAGESAP
+>tr|A0A1W9L8J9|A0A1W9L8J9_9BACT
+MISRPPSYRSAMLVALQVALMTWLVVGTEPTWRRPSSALLVAAGVLLGAWAVLAMRLHRV
+TPWPEPSADAVLVASGPYAWIRHPMYASLLLAGAGLVAHTFTPGRLAMLLLLVPVLCLKM
+WIEEQALRARFPEYSLYAMRTKRLVPFVY
+>tr|A0A1W9L9A9|A0A1W9L9A9_9BACT
+MNDEKREPEEKRRVKELTVLYHVSRILDQSLDMRDIVSPVLTSLAEFVDMKYATITLLNR
+KTGDILIEAAHGLSPQQAQRGRYKLGEGVTGQVVLTGKPAIIAKTSESPLFLDKTRRGKR
+PDTSFLCVPIKVEQEVVGALSVDLPYRPAANLDDNVRLLTIIASMIAQAVRLRQTAQEEQ
+ERLEEENKRLREELRSRFRPSNIIGNSHEMQSVYDQIAQVSKTGTTVLIEGETGTGKELV
+AHAIHYNSDRADKPFIKAHCAALPESIIESELFGHVKGSFTGATADRKGRFELAHGGTLF
+LDEIGDIPASIQIKLLRVLQEREFERVGGTQTIKVNVRLVAATNRDLRALVNQGKFREDL
+FYRLHVFPIYVPPLRARKADIVLLADHFLEKYSKENRKNVRRLSSPVIDMLMSYHWPGNV
+RELENCIERAVLVAEGNVIHPHHLPPTLQTAEASGTESRGDLKSIVDNYERDLIQDALKS
+TRGNVAAAARALGTTQRILGYKVHTYSIDAKKYAT
+>tr|A0A1W9LGF7|A0A1W9LGF7_9BACT
+MLLDTHVWIWTQEAPEKLGPATRDAVLDVANELSVSTVSTLEIARLIDGDLLALRGSLKT
+WVARSLESLRCGTALLTHEIAAAAYALPGAFHKDPADRILASTARLADMILVTADEHLLL
+YPHVRTLDARR
+>tr|A0A1W9LDD4|A0A1W9LDD4_9BACT
+MISTVTGKQQVSIPASIARRAGILRGAKLEWHLTGDPDILRVRVLSDPATRAADLQGRGG
+AIRGRTGSAVARLVKERTDDARASE
+>tr|A0A1W9L7M7|A0A1W9L7M7_9BACT
+MKHVLILLIRLYQWTVSPWFGQACRFYPSCSSYGIEALRVHGCLRGLWMTGTRLLRCHPW
+HPGGYDPVPQRSSIREGRIS
+>tr|A0A1W9LF42|A0A1W9LF42_9BACT
+MSGSGQPSASGAVIRLEDTVKTYRIGEVDVCALRGVSLEIERGGFWAIMGPSGSGKSTLM
+NLIGCLDRPTSGRYWLDGTNVEDLEDDELSAYRLRHLGFVFQSFNLIPQLTVRENIELPM
+YYRGVGPAESAARAEELAELVGLADRLSHRPSELSGGQCQRVAIARALANDPPVILADEP
+TGNLDSRTGEQIMDILVGLHREGRTVILVTHELRVAGFAQRRLWLKDGAIERIEGGPV
+>tr|A0A1W9LDE2|A0A1W9LDE2_9BACT
+MLLDALKETAAGFYVDVGAFHPKHFSNTCLFHRRGWRGINIDPNPCTANLFRRRRPRDIN
+LQLAVTRQPVALEYHVFDRVPTLNTCDRSVAEQRARESGFAFRTLQVEGLPLTAILERHL
+PAGQAIHFLSVDVEGLELDVLRSNDWARFRPQYVLAENLDADLPEALDEEAALFLKQQDY
+VPFARTRRTSFFRDHRVPRVLAVRAD
+>tr|A0A1W9LDI7|A0A1W9LDI7_9BACT
+MTTVTVSTKYQVVIPEDVRKSMGVRPGKKFQVVHYDGRVQLIPLRTMRDMKGLLRGMDTA
+LTREVDRI
+>tr|A0A1W9LFV0|A0A1W9LFV0_9BACT
+MHRHPHSLTAWLWWLAFLIAASGGAAAYMLRQNVVNESSLAWSNLVIAATIALSGICVIS
+ATSGWWMRR
+>tr|A0A1W9LDN2|A0A1W9LDN2_9BACT
+MNTAQVETRFAGRMRTLRPSCVREILGAAGGDVISFAGGLPSPRLFPVEAIAEASARVLR
+DQGRFALQYSSTEGYPPLREYVAQHALRRRGVTASADDVLITNGSQQALDLVGKVFLDSG
+DRVLMESPAYLSAIQAFELYQPRFVPVRLNSDGLDPYLLAEALQRESPKLVYLVPNFQNP
+TGVCYSEENRCAVAHLLRMHNAVLVEDDPYRELRFEGVDLPPVHRHPDPWAVLMGTFSKV
+LSPGLRMGWVYTDAATRSHLVVAKQASDLCSSDLTQRILYECLTRFDLERHIAALCRAYR
+SQRDRMLEHLRTRFPPGTGYTTPQGGMFIWVTLPAGVSAERLLAAALRRGVAFAPGRSFY
+PGRPELNTLRLNFTHPDDAAMDRGMTILAEEARRLTD
+>tr|A0A1W9L8F6|A0A1W9L8F6_9BACT
+MKARELDRQFDSGDDISKFLDLSRARRVNQAPRRVNVDFPTWMIHSLDKEAGRLGVTRQS
+IIKVWISERLKETPA
+>tr|A0A1W9LGF3|A0A1W9LGF3_9BACT
+MEVRTRRPSHDDDPRHSPKPPGCGGPSVGRSRARHGGRARRGGTEIAGRRIRRDLRREGR
+RRAGRTLQVTFRAYNEGIAFCQTVPKQPGLDAVKIAREPVEFRFADDWPAWATYSWQGVY
+EKVPIGAIKPGCERPLVVELGAGAGRGGTRPSSPPGAGPCAAIGEAKLVDYARMKFEPLK
+GVPHAMSAGTGTSTMTSRMRRR
+>tr|A0A1W9LCD8|A0A1W9LCD8_9BACT
+MTGSPGSASADPAAAAPAVLMVGVNWIGDAVMSMPAVQAWRALNPAARLTMLVKPPLAPL
+WRMHAAPDDVAAIEPGSLGAVRTGLALRARHFDRAYILPHSFRAAWIAAWSGAPERIGLP
+GLARGLLGVRVVQSRSGPDRAHQQFEYLDLLLGPGAAAAPEPPRLRIPPEAAASAARWLA
+GLPAGPRVAMMSGAARGPAKRWPVERFAEAARRLAADHGCAVIALGSPAEAADAAAIAAA
+AGGRGLSLAGRTDISQWAAVLAGCALAVSNDSGGMHLAAAAGTPVVAVFGRTDPGRTGPL
+GPLCDVVQAPGARSRDIGREDEDAVRRLAAVTVDEVMDRCVRRLARGGATGGGRSCVP
+>tr|A0A1W9LFF2|A0A1W9LFF2_9BACT
+QPTLYVAKFREFADIIHQRAPGVAMTWTPNQGWGYSWPWGAYAITTNSPDFRLLDTNGDG
+QLTESDDSYGPFYPGDAYVDWVGISFYHWGNDRGFNQLPWTGKWGHANGVSNAIPNFHDL
+FAVAHGKPMLIAETSAFYDPMNVKTGNASEVSIKQNWIQQVYNLTDVNQPRLNVAFPQVK
+AICWFSQRKYESEVNGEVEWRLNDDTNVIAFYRQTVSNSYFIKALYASDNVTLGSAPATV
+EPNQTYSVTVQYAARTNRDIILSLLDPAHGHAWYGGQTRSVTTGHGSVTFSVTAQNYPQN
+GTTYVWDAIIVPAGGTWSNTLDHAQIPVTVIADRLLFTTVPQPLRPQETATIGFSYIANP
+AGVTKRLNVNLLDPTHSNAWYGGGTVNLPDGAGTVSVPLTVRGTPTSGSFYVLSAYIARN
+TDDYTKATATAQTNVTVVADSLSVSNVPLSVQNGQNYTLRFRYSCDQNRYLTVNLLRPST
+GYTWYGGTNKLVARGSGTVSVVVRVVNQPPAAQDYQWSAFLSTRPNEFSNATATTVVSPV
+SVVRDGLNILTAPAILQPGQTYPIKLRYSKNGSTNKYVHLDVLDPVHGYAWYGGISSNLP
+SAKTNGDITVKLTVLNNPPAGTNYLLNAFIAPVGQDWTAATATDAKNATVAWDNLQFASA
+PAAILPHSIVSVTLNYNVYPGTTAKYLAVNLLYPAQNYAWFGGTNVALPAGTGQLTVKFP
+VDGNPVSSTNYVLDAFVAPVGGVWSNATAHTQAVTAVRVDSLSFNTYPTNIWTPSTCTVK
+LNYNAWGPRKIRVDLLTPAPGYVWRGGNEVTVPAGSGVATINIAVPNTFPSGYHIWAAYI
+SPVGGSYSTRTADVTSPQIWVRRDPVQIVSAPNYVRRGETYNVTLAWEVYQNSDAHIDLI
+KDVVYTWHGGTWTNIGNGTGTRVFRVTVSPTAPLGSNYLWSSWVGPAGGEYANRTAEDVQ
+APVSVISP
+>tr|A0A1W9LAQ2|A0A1W9LAQ2_9BACT
+MDRVNVYTGLIDDQDHFNLYEFVFRNVDSNRVLEAVTIGNDPNRWPGSAERWGGLFAMNG
+LTTTNCSPRSTPLEWLLRKQNAATGLIDSQDDPNGWNVGYTYDEALAAIAFTAYGSNLQA
+QAILSFLESAQDADGGFVSAFDSANGNPAWSARYVGNNAWVILAINYYTGRTGDRQFLGT
+ATNCANWILQYQVADGSVSMGPGNPTAYSTENMLDAWSALYHVSKIVTNMAYRQAADRLL
+SWLETDAWIDGEGYFAQGKNDPAAALDPNTFGIMALGVAGTNGDDYTRCFAKMVNTMYLT
+NDGFTGFSFDESSDTTMGCVWFEGTAQAALAYGLAGDAGMSAFLDTQVSNSLRWTGGMPY
+TTPGNGTGDVNTNSAASTVCWYLLRNHDPVVNPFRPFDRPLALTAGITGGQYRVTWPANA
+>tr|A0A1W9LH50|A0A1W9LH50_9BACT
+MAVRKPAEAAARGPGISLRPAVAVACVLAGMFSTPGRAADPAPVAAPVRIVPYSPALSAM
+AFEMGLGDRVVGVTRWARLPAGERRPVIGDAASVDVEGLLSVRPDVILVQGERIAGLDTL
+ARLAPSVRVESVRIERLDEIAPAARRLAVLAGGGEAAEAAVLRFERTLADLRAAPTPAAR
+PRVLFVLGTTRPTVAGPGTFIADLIGLCGGTNAGDDVPGRVLWRAADLETIARAAPDVIV
+CQAGEGISAEAARAWWMARELIPAARNGRVFAVAEPEWTIPSLHLATLAPRLKEMISQ
+>tr|A0A1W9LE57|A0A1W9LE57_9BACT
+MSDFVHLHVHSHFSLLDGGNRIQGLVKQAVEHGMKALALTDHGNLYGAIEFYNTARAAGL
+KPILGMEAYISPGHRTEKTSRSIGDAASHLLLLAMNETGWRNLIKLSSRAFLEGFYYRPR
+LDRELLSQFHEGLICTSACLGGEIPEAFIRGQADEARRIAGEYRDIFGPERFFVEIQNQG
+EADQDRVNPMLIDLAKEMGLGIVATNDVHFLRRSDKPAHNVLTCISTGKRIDDPNALHYS
+EELFLKSPAEMDRALGMWPEAIANTARIAEMCDLKLDFSKKHLPGFRTPAGITPEQHLRQ
+LAWEGLARRFGEVEPPPEYRKRLEWELKVIEDKGYSSYFLIVNDFVQFARRNEIPAAPRG
+SGVATLLGYSLGIANVDPVRYGLLFERFTDPQRKEDPDVDIDICQVGREKVIQYVREKYG
+HVAQIITYGTLKPRAAIRDVGRVLNWPLDQVDRIAKMIPEGPKATMDLALGLKEPKGDEG
+SLVSAELKAEYEANPETRKLVDLARSLEGLARHAGVHAAGVVVCDEPLEGLIPLCRQADK
+PDIITQWDGPTCEKVGLMKMDLLGLKTLSVIQRARELVRRKLGKDVDPDTLPLDDDTVYA
+MFRAGATDAVFQFESEGMKGVLRDMQPNRIEDLIAANAMYRPGPMELISTYCRRKAGKEP
+IEKVHSLVDGLLAETMGVMVYQEQVMQVLDRLGGLPLSRALTLIKAISKKKKEVINSERP
+AFIAGAGKNGIDAAEAERLFDLILKFAGYGFNKAHSTGYAIIAYQTAWFKRHHPAEFWAA
+TLTFESNDLDKLGQYMGAAKRDGVLVLPPDINISETQFSVDGDLVRFGMSAVKGVGEGAV
+EAILAARKTEGRFKDLHHVCRSVDRRALNRSTLEALIRCGAFDRCEGHRAQFLAVLDEAM
+AVAASDAKDRAAGQLSLFGAGAAVAAPPPRLPDVTPWSMDQVLAAERETLGFCLTGHPVD
+DYAVEVRSLRWPRTLDLSKLESMSDRAPVQLCGSVAAVRER
+>tr|A0A1W9LF03|A0A1W9LF03_9BACT
+MLRFSTGLGRRLNDQWMVMALVSPTLYKFDDIGANDFGISGGLTAMWNYSPSLTFMFGLM
+VASDSDRPVMPALGVNWAINEMLDLNLMFPRPRLVYRPDEHLSLHLGVDMKRATFRTSDT
+LGTSIGLPQYNDALGNYRDIRLGAGVDYTFTHSLSVEAEAGYSVNRQIDYTQIDERVEFD
+PAPYFRLGVKVSF
+>tr|A0A1W9LE49|A0A1W9LE49_9BACT
+MKRTRTRGAGPSDARLRTLAGWLREWTLDRALRDAVCAAGAAGPAPAARVASISYTDVPA
+VADIRLLHPDVSPSADRPVHVALLDRAASGFWLAAPFGRFSNPASAGEWKTGRRTAALRV
+LCLWNARWMPPGAVLRSWRAGRLTARERGSALRVLESWREGTLPDAHLRARTGLPVVHPG
+DPRRVYEDEETRMMDEAAADPDDRLQVASGPGTPPGGVYEVPDSEWQKAAEPEKRESGDF
+RPSGPGCPRRP
+>tr|A0A1W9L9P1|A0A1W9L9P1_9BACT
+MVLIAGLSCADRDLTLTVCGVSGVPSTNGEGGRIVSRGSVVFGMSRDPVGAPLFYRDVPL
+MPSRTREGIVKPLAPAAIPLVTWRLRDVSKPESRVVMEKMPTCANCHSFATDGRRTGSGS
+CLCRRPTAC
+>tr|A0A1W9LDH0|A0A1W9LDH0_9BACT
+MKKLMTVLAVVGVVTFAGLAWAGSQDDRPGKGPGGGGPEGNPGRGMGHVIQNADLAKSLG
+VTDEQRAKLRESSYELRKKTIQLEADQELARLEVNHLMDQEKPDREALNKAVEEAGRVET
+ELQKVRIQQRLTTEEVLGEETLANIREYMRKQMQERDGKRPERRDQRGHGRGEWRKGKQG
+GEPCGAKAPAAPADDDDDDDDGDDDAPPAQE
+>tr|A0A1W9LDG9|A0A1W9LDG9_9BACT
+MPRRIRYEDEDARRGTGGIGSAFRALVRAAVTLVVLAVMLYGAAMAISRTGGFRSYIQAE
+ISAALGFDVAVGETKLTPGLVLVIEGITAGRFDAPGTLCVRADRLTVGWSPVSSGGTRLR
+SVSVETGLLAFAQGPEGNWTPKPLAGVAEALIQGAGLGMDDLRGAVRAKAGSAPSPKAAG
+GAVAAFPVQRVVVRGMDVVWWKADKSKLASLTGLNVQVTPVEVPGRRMIHILADATSFER
+TGGEWISPLRVECLWGGGERIVLNAAVGAAPVPAAGIGPIPGLESPTTTPREP
+>tr|A0A1W9LE81|A0A1W9LE81_9BACT
+MTAEFIRRIPKTDLHVHLDGSLRIPTLIELARAGKVDLPSWDEAGLKELVFKDRYESLPD
+YLRGFAYTCAVLRTPENLERVAYEFAEDNLAEGVRHFEVRFAPQLHTHDDLKARDVLAAV
+HRGLDRAARAHNVGEAVRSGRDLPLQYGIIVCAMRSFNRSYGPYFARLLDVLGSAPRREV
+FAVASLEMVRTAVALRDQDGLPIVAFDLAGEEAGYPAGDHKVAFQYAHSHFLKKTVHAGE
+AYGPESIFQAITDCHANRIGHGTFLFAVDMVRGAGIADPARYVERLAEYIASERIAVEVC
+LTSNLQTTPSIRSAADHPVRRMIERGLSVTICTDNRLVSGTTVTRELQRIVDGFPITRRQ
+FRNLVLAGFKGAFLPIPYVEKRAFVRSVIDRYELLERELLGPEPETGS
+>tr|A0A1W9LD34|A0A1W9LD34_9BACT
+MKTCTRIAVGLILLASLLPASAASPVASGSREALFVSDGIEGWSLGVDGSSIRRDATIAG
+FLDRLEATTYGGFVGWRGVPWLTLYTVLGQADADLGVDTLGDGFYWALGLQATVWQMDML
+DPEFLSGRWSIRLGAEYASADLSSGEWQDVSASLRLQYEIFVETVETTQKIPYSLALYAG
+PMYSGLDGNVSVNGFREDFEADEDIGVVAGIELSISHNVLLGIGAEYFDDVTWVGSLRYK
+F
+>tr|A0A1W9LEM0|A0A1W9LEM0_9BACT
+MAKIKHTKNELKAQRDALKRFQRYLPTLLLKKQQLQLEVRGLEAKVEAKRAEERTARAQL
+AAWVKLFAEPLDLDALLKIGSVRRSLGNIAGVAIPVFEGIDFERGIPDLFATPAWTDDGL
+SMLESLARLRAEREVIEEQLRRLADELRTTTQRVNLFEKVKIPEAKNNIRVIRIFLGDQM
+TAEVARSKIAKG
+>tr|A0A1W9LCQ1|A0A1W9LCQ1_9BACT
+MKRIGAIALAALLAGCSGGGDPLGGRIEQQQAEIETLQRKLAEMEKSAAGQLADAAKTHG
+ERMDRLEESSQRRVNEQRRLIDVLKERVAAAELRLAALETAAPQAPAPAPQATERPKTPR
+VSIYSAPDPVMEDFIEPPVGAKPDRFPIRVFDVASRKVVTGTHSSTKHFQTDEIVKDEYG
+MKGPRIERKEVEVNEYAYQIAFSVQNLTKTAKSVSARAGGDAVTQVVPPGETLTNVAVGA
+VMGSDLWISAGGESRSFAVVHETGK
+>tr|A0A1W9LFP5|A0A1W9LFP5_9BACT
+MKRQASILIVDDEKNTREGLARALQGEYRVLLADSGERALAVLADDPVDLVLSDIRMPGM
+DGLALMRRIRARSPQPVVILLTAYGSIESAVEAMREGAYDFLTKPVSLDRLDILLRRALE
+TREMRSENRRLHEQLDARYGIEHLIGDSPPMQEVVATLRQVAPSRATVLIEGESGTGKEL
+IAQALHRLSPRSDGPFVPVHCAALAPTLLESELFGHERGAFTGASERRIGRFEMADGGTL
+FLDEIGEIPPGVQVKILRVLEEHRLERVGGGKPVDVDVRLVAATHRDLKKMVAEGAFRED
+LFFRLNVVGITLPPLRDRPGDIPLLAARFLTELALENGVRLPALAPETLDAMTAYPWPGN
+VRELRNTIERMVVLSHGDILTPRELPPAIRTAAEPHARAHGGARTLEGVTLDEAERRLLV
+SALEATGGNRVQAAKRLGISRRTLHRKINEMNLHDTGRAPDGKN
+>tr|A0A1W9LD75|A0A1W9LD75_9BACT
+MVPVVAAVWSLSAPVMAHEHWMLAEPAAPAAGAAVNVSICSGHGFPKGEILLAERLLDGV
+ALAGPGGVAVAMRPESRDGAWRATVTPPSTGVWRAEFSLKRPQQDEPIHRSRCLVIAGGK
+DDAAVYADGRGIEIVPKSAVSALKPGDVLPLEIRIDGAPTAGKITVMPEKGSVAFLSAAK
+DRPAELKIAAPGWYLLGVSHQGRTFTLTFAVAQSGAAP
+>tr|A0A1W9LB50|A0A1W9LB50_9BACT
+MGIQEIQTLLPHRYPFLLVDRIIECDDTERIVGIKNLTFNEPFFQGHFPGAPVMPGVLQI
+EAMAQVGGILLTKITGKVQVMYFLAIDKARFRRIMGPGDQMRIEVKFLKMRMNMARFSGI
+VTCDGELASEAELMFGTGRETTPTA
+>tr|A0A1W9LD39|A0A1W9LD39_9BACT
+MRGSGGGYDGAMRGRQRDTFDVFCGVAAGAADAVAAFAGFLLAVWIRFDSGWITVLKGHP
+PRMMYVYAAGIVTLLYIFLFRTLGLYARPQDGHFTDKIPRIVRACGIGTLLATALAFAIQ
+NDPPFSRLVAGIAFGTVTVLVLIERNILFQLERHWARHQAGKRRIVIVGAGPLAVHLKDT
+LRGEPRHRADVVGFLRVGAEEPVAE
+>tr|A0A1W9LDK2|A0A1W9LDK2_9BACT
+MVTDLDGPLVRMADVSHVAIEHLVLEGSRKSALEIRDVCLDADDSGAIHMGRDWTWRGNA
+IRNNFFHHINSGSVHNNSAVYLDDMMCGTEVAGNVIYRVPRGHLVGGGRDNILENNIMVD
+CLVPVAIDNRAMGWAGYHVGTTMKDLLDKMPVRQAPWSVRYPRLAGIWEDEPAVPKGNVF
+RKNLMVRCGAPQFAAEVIRDGTIADNLETGDDPGFADLRRMDFNLRGDAAALQKVPGFRP
+VPFDRIGLRTDAYRPSLPPRRPVLNPAPHTFVDDIEIAIDLQRHASGTIRYTLDGREPGP
+TSPRYDKPLRLTRSTIVRARVVPDSGPDVAGAAAASGTYTATHLGPGAGIWLSDLTAVDV
+LAHGGLKRDLNYAGKGPLCLQGTPLEKGLLMCPETTEAGGRGHATWDLPGNLRRATRSGA
+PPSCNDPPPAGCGGHSEPDLPPRARIAFGPRSR
+>tr|A0A1W9L7Q3|A0A1W9L7Q3_9BACT
+MKMPRWPRAIPAVAALLAVSALPAPAQAPNPGFESGGIVVDPAQKGEPMSPLIYGQFIEH
+LGRCVYGGIWAEMLEDRKFHYDITPDFAPYGAGKTPSAEIPFPVVSASPWQIVAEGRDPA
+ATVSMSTNHVFTGRHVPRLAAGAAIRQGDLAVEKGREYEGHVWVRGEGATTRVTVTLDGA
+KGGFAGAAASGRDYVRFPFLFRGTADVARAGLSVRLDGAPGRIGTVSLMPADNVEGLRAD
+TLALLRELKSPIYRWPGGNFVSGYDWRDGIGDRDRRPPRVNPAWTGVEHNDFGMHEFVRF
+CRLLETEPLITVNTGFGDAHSAAAELEYANGAADTPWGRKRALNGARQPFGVKYWCIGNE
+MWGAWQLGYMKAEHYFIKHNWVVDTMRQVDPTFVPIASGNAGPWSEGLLRECAGRMDLVA
+EHFYCKERPDVPGHVRQIPDAIRRKAAAHREYRTKIESLKGRDIRIAMTEWNYCYGPHPF
+GEIGTRYFLKDALGIAAGLHEYARNSDIVGAAFYAQTVNVIGVRKRNRAQETDGQTAVW
+>tr|A0A1W9L8P7|A0A1W9L8P7_9BACT
+MAGGNGIIFEQPQYSVPGRIGARAAYLPVPLGNGHHDVKLADEDWARIFTWLDCNSVFYG
+AYHNPVAQSRGESVAPKLGYLPAYAR
+>tr|A0A1W9LEW1|A0A1W9LEW1_9BACT
+MPQFKYTARSRSGEKVEGALEASDRRAALQQIERMGHVPVAVTEAGAAAAAARAPAKKRF
+TLERRARHPRLKLRDVLLFTRELSDLIASGMTLGDALHTLSKRKTNKSQDEVVTSLRDEI
+VKGASLSVALAQWPESFGHLYVSMVKAGEASGQISEVLTRLCQHYERVQGAREKVITALI
+YPAIVLSMGIVTMIFSMVFVVPRFTAVFKELGSTLPLPTLILIGISNALLHYGWAMLGAI
+VFLVVTLRRAVRTPNGRRVWHRIQLRAPLVRLIITANAYSQFARTLGALLQNGVPVLQAL
+DIVEDTVGNVIIAEAVKDARNRVTDGATISGPLAAGKVFPPLLTDMLAVGEESGDMSASL
+MHIAKRYEEELDRSVKIFTTVLEPLLMLLMAIMVGFVAVSMLLAVFDLTSGLNV
+>tr|A0A1W9LHJ7|A0A1W9LHJ7_9BACT
+MTRRERLMATLRGEPVDRPAVSFYELNGLDENAIDPDPFNIYSHSSWRPLIGMTRAATDR
+IVMRGVAYAAIAPDPIEAVSETESVVRDGSRFTTRRVRIGARTLTARTRRDADVNTVWTE
+EHLLKGVDDLRLFLQVPEPADAGAPDTSGVTQA
+>tr|A0A1W9LE44|A0A1W9LE44_9BACT
+MSFHNDGLLAVHGAKGNPLRVYNVIGDMTSIYDYRTGVTKPDEPAKSPSMLAASRALHGL
+TKIRSALVAVAIAGAAIAGLVYVVVHTGKDLDASVKTADKPLPIRARH
+>tr|A0A1W9LFR1|A0A1W9LFR1_9BACT
+SESQGRRDPSKILTIATSHVEYQRAARHYAHVDCPGHADYVKNMITGAAQMDGAILVVSA
+ADGPMPQTREHILLARQVGVPSMVVFLNKVDTVDDPELLDLVEMEIRELLTKYEFPGDNT
+PVIRGSAIKAIQAPTPDHPDAKCIQELMDALDTFVKEPERAIDQPFLMPIEDVFSIEGRG
+TVVTGRIERGVVKVGEEVAIVGLRDTQKTTATGVEMFRKLLDQGQAGDNVGVLLRGTKKE
+DVERGQVLAKPGTITPHTRFNAEVYVLSKEEGGRHTPFFKGYRPQFYFRTTDVTGDITLP
+EGVEMVMPGDNISVEVKLITPIAMEKFMRFAIREGGRTVGAGRVTEVLE
+>tr|A0A1W9LET6|A0A1W9LET6_9BACT
+MAKLTKTQVLSALAEAVGITKKQAGAVVEQLVTLAYKGAKDGFTIPGLGKLVLVNRKARM
+GINPQTKEPIKIPAKRVLKFRIAKAAKDTVLGPKK
+>tr|A0A1W9LFY9|A0A1W9LFY9_9BACT
+MTFLPDLATFLDRATRGTVVPVWVEVIADQETPVSAYERVRKVLRRRDHASHTFLLESVE
+GGESVGRYSFIGAAPRAILRSWGRRTEIQFADGARTVVADTDPLDALRDFMRRFRPVREP
+SLPPFTGGAVGFLGYDCIAQFEPRVPVRTDAALRAPDMVFMVTDALIVFDRVRHTLKIIA
+NAFVEGDPEQAYDEARRTIASLLEALREPLPRSLTDIHPPADPPEPRSTMTRPEFEAAVR
+KAQEYIRAGDIIQTVLSHRFEVDFSGDSIDVYRALRLINPSPYMFLLDLGDSALIGSSPE
+IHVRSEDGRVEVRPIAGTRPRAADPAEDRRLEQELLADPKERAEHIMLVDLARNDLGRVC
+AAGTVRVPELMVVERYSHVMHIVSDVTGTLAPGRDGFDLMRATFPAGTVSGAPKIRAMEI
+IAGLEKSRRGPYAGAVGYFSFDGTLDSCITIRTIVLDEGKACVQAGAGIVADSDPGREYE
+ETCNKARAMMKALALSRRFGEARQEAAP
+>tr|A0A1W9LEG2|A0A1W9LEG2_9BACT
+MAGAFAMTGAYLRLYLRLVGHRRPVLVGVALLMAVFAAVSSRLELEEDTLAILPQGDRIV
+TDHQYSLRKFKQIDRIYLDIGVATDDPGTLAAAADDLYAALSTNGMYVRVMYRVEETDQQ
+KIMGFVTGALPTLFTEADATALRERLEPANVHAYLAAMRRKMAGPEGLALREVLAADPIG
+MSGLMAAKLLPLQVGFRGAGIKEGRITSGDGRHVLMMAEPRFPSSNTGDSRGLVAGLLQT
+AAAVEARHAGVHVAATGGHRMAVDNVGMIQADVRRCMPLGILSMAVLCVAAYRRRWLAAL
+TFLPSLFGMLLASAAMAFGGGSISAISVGFASIAVGVTVDYAIHVLYHLDDAAGSARTAP
+DRNLHQLVSPVSIAALTSAAAFAVMAMSSLRGYRQIGWFGIVGVLGSAAFALLVLPLLVP
+AVRGSVTTSLGLTRFLEGFHAWRVRRLPWLLAVVGLLSVVGAVGARRLRFDGDLASLNGI
+SAETRRDEESIRTTWGDALEMTMVVTRGATLDDALRANDRIAERLAARPGVEAMDSLSAV
+CPSRSSQEANHARWRAFWTGERRRDLRDAFARAGAELGFRAAAFDRFWALVDAPPDWVTV
+ETFRDTPLETVFAERVATGDGDHAVATMLRLADRSDARRLADEFPEVMILDKRMLADYIQ
+DLARGGLGQFALWTTVLVAAILYFSLGSVALTAATLVPLAVGLLWTFGAMGWMGLPINLM
+NCIFVVFIVGIGEDYSLFLLASNLDAWRGHPPRLAASSAAVLISALTSIFGFGVLIFARH
+PVLHSLGTTAFLGMVFALVATVVLTPLFAEWVLRPAASGVAVAVPPAARRRALSRRYRHQ
+GQWVEKFVYWKMRTDPMFGRLDEAVPPQGAILDLGCGYGIACHWLALGSAGRRMIGVDYD
+GDKIRIARRTETDDGRIRFEAQDILAWDYPPCDAALLLDVLHYWVPEKQEAVLRRVHEAL
+RPGGRLVLRDAARSGTAAHRRIARAERIATALGFHRTIEGLHFLSLDEWTAMVRQAGFRD
+IRVVDGAGIGSNVMLLATKSEEEPGHEDERVAPRQV
+>tr|A0A1W9LAC9|A0A1W9LAC9_9BACT
+EPALAAGRRVILIQGAGGSPNVSLGWWWMGTQVGTAFARHPALGDFPHEGYLSPLAFRIL
+KGGLRLPALAGLRPAEMFAVGEGGDGYYLYGAEARVGRGRVLLTFGLDLLSGHPEGTCIL
+DGLIRRARSEAFDPQGTVELTLPVQSGGAGR
+>tr|A0A1W9LC44|A0A1W9LC44_9BACT
+MKPETGNLKPEFRNRARTVFLVVVMLAALGALAYEWRNLLTDYVLPLFAGRTGFFADFQF
+FHDGARRFLLSPDDLYAGNTRDGFLLIRSAARIDYGYPPTAVLLFAPLATLPLRWAFVVF
+TAFSAALVLASVLLFRTLAREELGEVEPRWAWIVLAVLVLSLGSVYVTFIFGQVNAVVLV
+LCLLYVLTVKRGQYVWAGLFLAAGFWLKFYPLYLLVLAPFERRPLRLLLSAGLWILTIPI
+VLLPFLPFHLYTEYFLKIYPELARETAPHVYNQSLTGFLTRLLSPKSALFDWGPYVIDTR
+VRFVNGIATAVLLGWLAVNYHLQRERKLLHYACVLAVTPLIVTYGWGGTYMLAIPLVLIV
+LINALRRGPAGFALFAAVWLVLLLPAYRPFALGDRFGGFVEHLYYSRYFYLVLLTVAAIT
+GSNLRRFVRDRKTDGSPC
+>tr|A0A1W9L913|A0A1W9L913_9BACT
+MESPLPASGYGTAGPTLVCEWPLGRIATNITCRSDTNLAYHLYLPRGLQQGRKYPVLFIV
+GAVTGDPSTLGRHLDGAERNGFILAAPSLAARENFDRATTTLRTMIPDVLARTPADTRRL
+YAGGYSDGSRIAVLAATDRFGHPAAGVLFCAMGGGSNEMARLPRTVAVAAIAHSGSIQRW
+DVACTVYKYSRARNSRVFFVPGTTEWGPTERIVHAMSWLNGCFLRDEKGGRIEALRERDA
+FAQMLLDRLEPVLETRPEWAADWIDYLEHFPVSGPLQGRIRAAALKLSRNVKAVLYRKAL
+PDVEDFAREHFATTPGAYRRNNGTREAKRDADALLAKYGGLELSTVIAEFGARAATGTAR
+>tr|A0A1W9L9R2|A0A1W9L9R2_9BACT
+MRPVLNALRPTPLGILLFALGLLIQVALISVTSATYSFESNVPESSDWSFGPGAPVKIKA
+DHGAVSVDIRWGVLAFDVLATYLAAAVVARVLARTTALRRPARTYGLVVAGALAVAFLAS
+IGLSKVYWGYWFARPPVPREVGDIARVVSVTPVTVSDGEAAPAVTVRGDASLAKDLASAR
+SDAYYGLDERVLFDLERRNLLPPAYATSMPDLPEPLALVRSTGLLVEPEPGYEKEAGPRG
+GVIVDARDRAGERLVVMGLVGGQVENDHYPYYELVFAGSPGSTGLAYVGGQRFFHDVAGL
+EGAEWYLVWPALSLPAVVLGIPLFTLVRLVAIHIRRRRELLAPGRPVP
+>tr|A0A1W9LHG3|A0A1W9LHG3_9BACT
+MRLPAAVLKRYCIGTTVHMVEQSDGLLLRPIGGVAEKLSWEDTAREMAASQEDWSAWDVG
+AGDGLEEIPWKTHRSLRVAEAAVPYVFRKTKGRRR
+>tr|A0A1W9LCW2|A0A1W9LCW2_9BACT
+MFRTIRKRCARAVALWMTFTFLVGVLPAPAQFLPAAPPGVSPVTGAPPAAAGEEQIEESG
+PAGASVMPGNLPGPGPGNPASEKLISLNFRDAPLDQVLQFYSEITGRTLIKSPGISGTIT
+LRGQTRLTETEALQAIESVLAMNNVTLVPMGEKFLKVVQPTAARQEGMPLTREVPEKGFA
+DTDHLISQIVTLKYIELAEAQAVIQGFIHGYGKIQPLERTNSLLITDTAGNLQRILEILE
+YVDQPTEAKVETRVYELKYAEAAKIAGRLNELIADAQAKEDKPRVAVPSAPAVPAAPPGV
+MRPVRAAPAPQSPQAELDAALAERGIVQGKVKIVADDRTNILIVISRPSNFAFFDKIVAI
+LDRPVEPDVIVRVLALEFAKAEEISSILNEFIGAAKSESKAGAAQAGAAEAGKKGAAAPT
+EGSQALQQYVERRAEERIRQVIGEEKAKIGQLSPNTKILADKRTNSLLLMGTRGDLAALE
+EIINDLDTMLGQVLIEAVILEVGLTKNLEYGVDWLQRSMTAYSDGKSGPAGGVSTRDPLF
+SFGGGQRLSDGTTFQDGSKIGRNDPTLGAGALTYFATLFDLNMDVVLRMVAGSGDARILS
+TPIILTTDNTEAKIVVGEERPVVTTTSTSTAGQQTSAYEYRNIGINLTVTPRINPQRFVV
+MEIAQTADNVGGFEVIDGNRVPIITKREMKAQIAVPSRGTIVLGGLVSTDRRKTRAKVPI
+LGDIPILGALFRSDTEKNNRTELLVLITPYVLTTPEEARAETERLHSATRLGQNKWYRGW
+SDSTLAQPTSEQLRREKKAMRDIQRRQEQDDKAARKADKQIAPRVTVVVPSQLEGGYDDV
+ERPETTNENWVVETPKDAAPALVSPPPSVEAEPAAAPEPAVIESAPAPAEPVVSEEPAEL
+GPAAEPPADDSNAIVPP
+>tr|A0A1W9LER5|A0A1W9LER5_9BACT
+MKAIAPGKLILSGEHAVVYGRPAIAMAIDRSAVAEVTPGMEGEDRVSIDLKDFTQRESYT
+LLALQDFKGRVLKNYRMFLSGDLGIRDVLRKPVDLFQYAFIILLDGLHLKLRHGLDIRLQ
+SNIPMGCGLGSSAATILSVLRAAGHYFRVEFRPDWYYEYSLEAERMQHGFPSGVDSYISL
+HGGCARFRDGKAERIPLPRL
+>tr|A0A1W9LGW3|A0A1W9LGW3_9BACT
+MKSDLQLARAVKLKRIDRLARGWGIRATELEPHGEFKARVRLEILDRLRARKDGRLVVVT
+AITPTPLGEGKTVTTIGLSMGIARLGRSVFTCLRQPSMGPVFGIKGGAAGGGLSQVVPME
+DFNLHLTGDIHAIAVAHNLGAAALDSRLYHEEHLGPEVFAQRTGLRPLGIDPAAIEWRRV
+VDVNDRALREIEIGLPAPGAATNDNGIPRRTGFDIAVASELMAILALAKNLHDLRRRIGR
+IVMARDRSGQPVTAEDIGVAGAMTVVLREAIRPTLMQTMEGTPCFVHAGPFANIAHGNSS
+IVADRIALKLADYVVTEAGFGADMGFEKFCNIKTRISGLKPRAAVVVATLRALKMHSGRY
+KVSPGRPLDPGLVSPNREALDAGFCNLERHLQIVAQHGLPAVVAVNRFPGDTAEELDRVC
+RRAREAGAFDAVISEVHARGGAGGGALARAVVRACDTPARFRFRYPATASLREKIETLAK
+TVYRAASVDFSPRATAQIARFEAEGHGKLPVCMAKTHLSLSHDAALKGAPEGFVFPVREA
+RLSAGAGFVYVLAGAISTMPGFGSKPGYLKLDIDRHGEIVGLS
+>tr|A0A1W9LHI4|A0A1W9LHI4_9BACT
+MPPRILRVDPHNPDEGAVRAAVAALAAGRLVILPTETVYGLCADPRNEAAMAALCTAKGR
+PEEKKCARLVAGLDPLLRAGAILCPTARALAARFWPGPLTLVLDTPGGPEGFRWPDHAVA
+LAVLRAFGGPLVATSANRSGEAPALTAPDAVAALGDAVEVVLDSGPVPGGVPSAVVRIHD
+GQVEVLRAGAIPEAQIFGPIRNSS
+>tr|A0A1W9LH09|A0A1W9LH09_9BACT
+MDKRLLQYYNRELQYMREMAGEFAKEFPKIAGRLALDEFACADPYVERLLEGFAFLAARI
+HLKLDAEFPRLTQSILETVYPHYLAPTPSMAVVQFEPDLAQGSVLAAGLDVPRDTGLRSV
+VGKGDYTACEYRTAHPVTLWPIEIVEAEYHTRDLGSFQLPAAARAAIRIRLRTPPGLPFR
+QVGLDRLTFFLRGADDIPIRLHEQIFAHGSGLCLQPAVRPAPWQVLRPADDIRRAGYGDQ
+EALLPYRGRSFQGYRLVHEFFAFPARYRFFELCGLQGAAKQCDAEMLDLFILLRQADLEL
+ENRVAAPGFALFCTPALNLFQKRLDRIHLSDRASEFHVVPDRTRPMDYEVYQVTGVVGHG
+VRSDEERAFLPFYAAAGTGGPEAAGAYFSINRLPRATSAHEERYGRRSSYAGSEVYLSLV
+DAAAAPYRSDLRQLSVTALCTNRDLPLRMPLGQGATDFVLDTNAPVASVRCVAGPTPPRP
+SYAEGEIAWRAISHLSLNYLSLVQQGDQEGASALREMLSLYCDPGDAQIRRQIDGVKSVS
+SRPIVRRLAASGPIAFVRGIEVILTLEEKAFEGSGAFLLGSVLEHFFAKYVSINSFSETV
+IKTTERGEIMRWPARSGTRQII
+>tr|A0A1W9LCS8|A0A1W9LCS8_9BACT
+MLANAFLLAMRELRRNVMRSFLTMLGIIIGVAAVIILVTLGGGVTRQVTEQIASLGSNLL
+MITPGKQMGPGQTPGAPPALFKVADAEAIARDIPSVAAIAPTANRAMTAIVANENWATTV
+TGSNEQYFRVSNRRIKAGRAFGASEVRLGAAVCVIGDTVRTKLFGGQNPIGSRIRLQKIS
+CEVVGLLEPKGQSTMGTDQDDLIVVPLCTFQRRIAGNEDVQLIQVSVRDGASTERVKQDI
+GRVMRTRRRLSASEDDNFNVMDMKEIAAMLSDTTSVLTSLLAAVAAVSLLVGGIGIMNIM
+LVAVTERTREIGTRLAIGALEREVLLQFLVEAVVLSSFGGVIGIVLAVGSSVALAASLKI
+PFVFYAPIVIVAFLFSATVGVVFGFFPARKAARLDPIEALRHE
+>tr|A0A1W9L7Y0|A0A1W9L7Y0_9BACT
+MLAPFRAAGPWAMMIWASLVTAIFALIVIRLTANREALRRAKGRQTARALELLLFKDDLI
+VSFGAVGRLLAAVLAYQKRFLVPLLLMLVPVVLLMIQLAGWFEARPLRPGETALVKAVFK
+AGTPVQKLHVAMGVSDHIAIEAGPLRIPAANEITWRIAARAEGAGVLDLIIAGAPIRKHI
+TVSTGPARISPRRVSGNLWTKLSNPGEAPIPDSLPLTSFEIRYPPAQLMLGSLHIHWIAA
+FFVLTLVFGALLKRPFGAEF
+>tr|A0A1W9LGQ7|A0A1W9LGQ7_9BACT
+MPRELKICLAAGGTTTLMVWADLDHDMHNGEQLRDEFWTKAQAAGITSEQFDGVVFAFAK
+DRLENWIQFLATGATDESQEGPRIRHNRHAADAAVALATRCQGQAKNPPLPPSLAWSCGN
+WRKLVKRMQH
+>tr|A0A1W9LD89|A0A1W9LD89_9BACT
+MALSFQISVKILLSNHALKTRGLTVQAWSDRVRHVQQDTDVERNLGPQPIAQIMAEHGLK
+PHDLVAASTEQLTHKMVSRACKGRRLTPNVRLKVLHALNRAAGKMYAMEQLFTY
+>tr|A0A1W9LH17|A0A1W9LH17_9BACT
+MNLGAFGLERLGPGEIILVLAIIALLFGAKRIPELARSLGKSINEFKKGQQDGASPEDGK
+KDPPDAKPPSA
+>tr|A0A1W9LHM6|A0A1W9LHM6_9BACT
+MILQALKEYYDRRSDLPRSGFELKEIPFVLVLRTDGTPISLNETYEGTGKARRAKRFLLP
+QAVKRSVNIEANLLWDKPEYVLGVALKGKPERVTKQHAAFLKRIEALGLPTDRGVMAVSS
+FLAKPNKMDLMEAFGSSWEELKKTGANLSFQLAGQSGLVVEQPAVQAAIAASVSGAGDSI
+CLVTGNRDMAERLHSAIKGVWGAQSSGANIVSFNLDAFRSFNKEQGANSPVGTTAAFAYT
+TALNHLLGKDSKQRMQVGDASTVFWSSRETKFESEVRDFFGEPPKDDPGRGTRAVESLFK
+SVQSGTLATEHSGARFYVLGLAPNASRIAVRFWIADTIPNIAVRFCQHFEDIKIVHGPRD
+RDALSLFRLLVSTAVLGKSENIAPNVAGDTMRAILEGLPYPQTLLQAAVRRIRADHEISY
+PRASLIKACLNRSMRFNKAEGIEEMKVCIDPGNQNIGYRLGRLFATLEKIQSEANPGLNA
+TIRDKFYGAASSTPATVFGNLMRLANHHLSKLEKEKPGLAVIRKQLLGEVMCGVQDFPAH
+LSLEDQGRFAIGYYHQMQDFFTKREKTE
+>tr|A0A1W9LF61|A0A1W9LF61_9BACT
+MLAELRTLSQLLHGSWVERYSVCARADCKCRRGERHGPRRYLVVSEAGRQRQKYVANSQV
+KAALQGLAQDRRLREIVARITQLNLALMKENAHESR
+>tr|A0A1W9LEQ3|A0A1W9LEQ3_9BACT
+MPRTRRDARGWTLIEALVAIALTAVLAAVVFSTWLTVHRVMQGRSSRSARAAAAAVALRR
+LAADLECACEPGEGTAFELRGGPGATPPLELHFFAFVAPDRDAGSRPPEVRELRYQVLRG
+DERDLRLVRIDRPATGPGADSAGKTNVLIERAVAFTVTVSDGTNWAPEWPPKGGNPFPAA
+ARASLGWAGATGPATARVETVIHAGVPVKPLLERRSAPAAAP
+>tr|A0A1W9LE45|A0A1W9LE45_9BACT
+MMHRWIVGALLAACAPLQGVAAGESVAPFESGAGVLPRGPIDEAVFARLKELDIPPARNC
+SDAVFVRRVYLDVIGTLPTGREAWDFIRDTAPDKRQALIDALLERPEFADYWAMKWCDLL
+RVKSEFPINLWPNAVQAYHRWIRECIKNNLPYDRFVRELLTANGSNFRVPPVNFYRAVQN
+REAPEIAHAVALGFMGERADTWSPDRLAGMAAFFAKIGSKPTGEWKEEILYFDPEKVCTN
+PAVAARPVFPDGTPARIAPGQDPRIVFADWLTAKSNPWFSRAIANRAWSWFMGRGIVHEP
+DDIRDDNPPVNPALLACLQRELVSSSYDLRRLFRLILNSQTYQLSSIPATSKPGAEANFA
+FYPLRRLEAEVFIDALCAVTGTTEEYESPIPEPFTFVPKGARAIELPDGSITSTFLEMFG
+RPPRDTGISTERNNQPSASQRLHMLNSSHIRKKIDQSPKLRSVFAGARDNPRETIDRLYL
+SILSRPPTDAERLSIRGYLQSNSIKGREAMVDLAWALINSSEFLHRH
+>tr|A0A1W9L8W3|A0A1W9L8W3_9BACT
+MAKRILGIVGSYRKGGVIDTLVTETLAAAAEQGARTSKIYLLDQRIEFCANCRVCTQKPG
+PEPGNCVQKDDMAAILAEYRDADAVVIGAPVNFYNVNALTRKFMERLVCCAYWPWGAHGP
+RMRVKNPSKPAVLISSMAMPTILGRLFNGVPRALKLIATTLGAKPVGTILVGMIAQREHP
+AVPAKALQRARDAGRILATA
+>tr|A0A1W9L7L3|A0A1W9L7L3_9BACT
+MRMVPVILSVLLAAAPYLALGEPPASCSRVVSLSPNLTELVYALGLGDRLVGRSSACDFP
+AEAKTVPVVGDFGRPNWEALQALNPDLVIATSVEKPALLKRLESVGIRHLLLPCEGWGQL
+LDAARTVSQAVGAPDAGERWVRDMDARRDALEARTKAWLASRSRIRVYTEVWGDPITTVG
+GNSFLGDIVTLAGGENIATRFKMPYVHVSSEWVIGENPEVILRAYMLPGVSTLADVGKRP
+GWGAIRAVQTGAICTNIPPDWLLRPGPRLLDGAEAFADWLQARFKHAGE
+>tr|A0A1W9LAU4|A0A1W9LAU4_9BACT
+GPMAWMILLAGIAAASVFFERMLHLRRAQILPQDFLKGIFNVVRRQNIAEAVSLCDETPG
+PVARMVRAALLNHDEERETVRRAMIEAGMAEIPRLERRMGVLAVVSRLAPTLGLLGTVLS
+LMDSLLVMQQGAPLVHAGDLTGSLWRALVCTAAGLATAIPCFAAYNLLVGRVESILLDME
+RAVGEVLDQLAQERRRLAGRGE
+>tr|A0A1W9LGE1|A0A1W9LGE1_9BACT
+MNGKRVKVLLKKELTQIRRDRSMFGILIIAPIIQLLVMGNAAVTDVRDVSIAVRDHDHSH
+HSREYVRAVGASGYFQVTMLDGPQEDDSRLLASGRAGLVLVIPADFGRELLARRPATVQV
+LVDGADSNFAVQGLNYLQKATRLYSERLVRPVQEDLARQRGVRLPSVAVETRAWYNPNLT
+SRFFMVPALMGVLLMVTTMIVTSMSLVKEREEGTMEQVIVTPLTSGELMAGKLLPFVAIG
+FVEITLAIAVIRLGFRVPLRGNILALYFYSGLFLLTTLGLGLFISTMVKTQQQAMLVATF
+FVMMPFILLSGFIFPVENMPRPIQFVSAFIPLRYYLTIIRGIFLKGTWWPDLWPQALALF
+GWGAGILTLAALKFHKRLD
+>tr|A0A1W9L9U5|A0A1W9L9U5_9BACT
+MRYRALVIDLDDAEAPVEALRKIEILAKAGVPVILGARRPERSPGLSGQPAAARSCRSAC
+PARARSSSYSAGQPKRRTSCRSSRPRAPSKSPAARPPSRGSACGRTARLPSKPRRPDAST
+WPARIFR
+>tr|A0A1W9LA30|A0A1W9LA30_9BACT
+MAVIVRLHRAGSNKQPFYRIVAADTRGATAGKTLEILGWYDPRKKHDDLKIDLVRVEYWK
+GVGARLSDTVRTLLKSHKATATAAAAAPGVS
+>tr|A0A1W9LG41|A0A1W9LG41_9BACT
+MKELEEGSELNLDFDKLAKAAACCGVLPVAVQHADTHEVILVAYTNAQAFRLSVAERRLV
+LWSTSRNELWEKGRTSGETFDLVEVRVNCEQNSLLYRVRPCRGGICHTKNAAGAPRNCYY
+RRLNLDTGRLENLDT
+>tr|A0A1W9L9G4|A0A1W9L9G4_9BACT
+MKPLLDEPNIRSIVEGTHGAPYSVLGVNETGADTPGLVIRALQLFAQRVEVLRQDTGEAL
+AMNLIHNHGLFELFLPNAKKFPYRLRMTGHDGHVWELDDPYRFPLQITDFDLHLFGEGTH
+FRTYEKMGAHPATVDGVEGVHFAVWAPNAQRVSVVGWFNRWDGRHHPMQSRGGSGLWELF
+IPALQPGDLYKYEIKGQGDFLATKADPYAFFSELRPRSASVVWNVHKYAWQDQAWMDRRR
+STNWHDSPISVYEVHLSSWRRVPEDHNRWLSYRELADQLIPYVKKLGYTHIEMLPISEHP
+FDGSWGYQTIGYYASTSRHGTPDDFMYFVDRCHQEGIGVLLDWVPAHFPKDGHGLAYFDG
+SHLYEHADPRKGEHKDWGTLIFNYGRNEVRTFLLSNAVYLADVFHVDGLRVDAVASMLYL
+DYSRTEGEWIPNQYGGRENLDAVDFLKKFNEIIHAEYPGFLTFAEESTAWPMVSRPTYLG
+GLGFDFKWNMGWMHDTLVYMTKEPVHRKFHHHELTFSLLYAFTENFILPFSHDEVVHGKG
+SMLNKMPGDLWQKFANLRLLYSYMFAHPGKKLLFMGGEFGQWREWNHHESLDWDLVQYDT
+HSKLENLVQDLHRLYREIPALHQIDFSWEGFEWIDLHDWEQSIISFFRRGRMPQGILVCV
+CNFTPVPRHGYRIGVPQPGVYEEVLNSDADRYGGSNFVNSQYIHADAIPWMGRAHSLPLN
+LPPLGSVYLRLQNPA
+>tr|A0A1W9LEH5|A0A1W9LEH5_9BACT
+MSLSSMTGFGHGECRIDGFRIEVEISSVNRKQFDLQMHLPRAMQVLESRIQDEVGRAVSR
+GRVTVGVQVAAVGATAHRVRVNRTLAKAYVDAIRATAKDLGLPDTMDSRTLAALPDLLVI
+EHPEEDTERMWPVLCRALRQALARLVKMRRAEGRSLGVDVARRIDILDRHLDTIEQRAPE
+AAERYREGLTKRLAEAGLAASGHEDRVAREIAFFAERSDICEEITRLRSHFAQARKLLRG
+AGPAGRSLDFLAQEMFREINTTGSKSADARISVAVVEFKAELERVREQVQNVE
+>tr|A0A1W9LCK3|A0A1W9LCK3_9BACT
+MPVRIAPQDVITRIRGHAVILDADLAALYGVPVKRLNEQVRRNPERFPNPFAFRLTETEW
+QSLRSQNATLKRGQHRKYLPLAFTEHGAIMAATVLNSPQAIQMSVAVVTAFVNLRRMALS
+VTGLARKVDELERKYDKQFKVVFDAVRRLMSPPPEPPRKRIGFTSE
+>tr|A0A1W9L9L8|A0A1W9L9L8_9BACT
+GLTGGLDYLLRYPYGCLEQTVSASYPCRWATADSRSGPTPVRPASGRPSMRFISSSRPAA
+RAMPCRTTGSRLRSIGCEPAWKLPGRRMPTRGMSRGRTTRSCVPTSAKCSPWTELDPAAP
+EAVALARQLMDARHDGRWATTQENAAALLALGRAAAAQPRETEPFRAAIQPSAGSAVTAT
+AEKTARWTPGAPGKARWVRIENEGPGRCYFGATVSGVPAVGAGVEEDRGLRVRRTFLKPN
+GQPWEGTTFRQGDLVVVRLEIGIDPALAPLDNTVIEDLLPAGFEVENPILETGNQMPWLR
+DRKNWLIHHDARDDRMILFPHPVTGTAGAPQIWHYAVRAVTPGRYVVPPLRAEAMYDPSI
+RSTHGRGEIEVKP
+>tr|A0A1W9LGK3|A0A1W9LGK3_9BACT
+MTHSPSLRARAEAVMPGGVNSPVRAFRSVGGEPIYARRAEGAILETVDGRRLTDFCMSFG
+PLILGHAHPDVTRAIAGAAARGTSYAVTTEAEVEMAETIRDAIPSVEKVRLMSSGTEACM
+TAVRLARGATGRNKILKFSGCYHGHADGLLVRAGSGVAGLAAATSAGIPASYVEHTLGAR
+YNHIDDVERIVAEFGTDLAAIIVEPVAANVGLLRPRKGFLREVRDLAARCGALLIFDEVI
+TGFRLTFGSYQTVCQCGLRPDLVCLGKIIGGGLPVGALGGRAELMDRLAPLGPVYQAGTL
+SGNPVSVAAGLAALRRLKADAPYDALARRTEAYVGRIAEAAKKAGVVVQIPTIGSIFSLF
+FMDRTPESFEDIQQTNAERYKALFHSLLGDGVYLPPSPFEVSFLSTAHDDALLAGTLPAW
+DRAFVAAARAG
+>tr|A0A1W9LD35|A0A1W9LD35_9BACT
+MPAMGLTTPAALPQDDTHMYVDWKRGLVTVYMVQHAGFPGEGKRGLDVFRAAAEAAFGR
+>tr|A0A1W9LF21|A0A1W9LF21_9BACT
+MRTTLDMDPTVMSAARDLAQNQRRSLGVVISELARKGLEAASPAGSERQRNGFPLFDVPR
+GAPSATTAMVKEILADEDLPS
+>tr|A0A1W9LG90|A0A1W9LG90_9BACT
+MRTIVDLPADQIRELGRVCDGQKISRAEAVRRAVAEFLTRRGPAGGSLAGFGLWKGRRID
+GVRYQMRMRAEWDERDRGTGHEHRH
+>tr|A0A1W9L8X7|A0A1W9L8X7_9BACT
+MATFDLSVRIAPGNPDHHIWNNNGTWWCHYTIHRPNFTKHRVRVSLKTRAKGAARRKRDE
+LLNAAREGNERD
+>tr|A0A1W9LF02|A0A1W9LF02_9BACT
+MDLTHIAQQFAIEGRLVAINPTGSGNVNDTYLAIFRTTFDEHRIIIQRISRRVFKRPETI
+MENLRLITAHVHRRLEREADQADRIWQMPAIVPCRDGRDWFVDDAGEYWRALTLIDSSYA
+PDSAQSAEHAYEVGCVLGQFHRLLSDLDPALLKHPLPGFHVTPLYLERYDAALRTPAAAA
+ALKASVEAQRLARFVEERREFAYVLQRALDAGTLQLRMVHGDPKVNNIMIDECTAKGTAI
+IDLDTVSPGLIHCDFGDALRSICNPAGEEVAMLSKVAFDLDLCAGFCRGYMRFAGDFLTE
+ADRAHLYDAIRLITFELGLRFFEDYLSGNQYFKVRYPEQNLNRARVQFRLCEVIEARERA
+IRTLLAAC
+>tr|A0A1W9LAQ9|A0A1W9LAQ9_9BACT
+MRSGGREAWGILLLALCVLVLLSLASYQPEDIPLVQSPPHRPALNFIGPAGAWLAYVLFM
+TLGVGGYLVAVDFGLMGLFMLFKHAGRTWPKAVWLAGMLVSLVALFDLKPGIWADLITRL
+NVGAAGGVLGSLVGQALLVRFLGVMGAGIVASAILLVCFILLVEVHPLMLARQIGFLAAV
+LYRKADAMLAERRSEKSQIEHEQRDVARERQRLERLMREQQAVAARAERRQATRPPVRPA
+VLVTPGEKPRALDERPRRMEEEEESAPKPEKRRLFGTRDPKPEPKPEPPAKARIPAPDAQ
+YTLPSMDMLDPLPPLKDREIKGDFQASATVLKETFAEFGVEVDVTNVERGPVVTRYEVLP
+APGVRVERIVNLSNNIALAMKAESVRIQAPIPGKGVVGIEVPNPKTTLVYLREILESENW
+QSGKASLPLALGKDVSGREIVADLAEMPHMLIAGATGSGKTVCMNSILAGLLMARTPNQM
+RLMLIDPKIVEFSVFNHLPHLV
+>tr|A0A1W9LGD6|A0A1W9LGD6_9BACT
+MTEGASEIRNGETPVWAHILPFVAFFFVAHLLGDDTPWAIAAGAAAAVGALAWLKPWRDA
+PTWAHVAPFALWLALMSGLGDPTGGKYALRTVAGAALLIAVRPWRWYGPLRLRNVPLALA
+VGLAIFVVWVGLESDAVRAAAPGLAAFYERFLVGPLPGGFGNLREPLAAYPYLPSVTGWP
+LFAVHMFGTSVVIAIVEEFFWRGFLYRWLCGRNFLDVAVTRMDTPMWIATAALFGVEHAE
+WFAGIVCGLAFAWIVLRTGDIWAAILAHGVTNFLLGLYVLRTDSWWFW
+>tr|A0A1W9LAT8|A0A1W9LAT8_9BACT
+MVTGTMKIHVEFAAVLDLKGVTNGAELDVPHGTTPADLLTTFHVRPEHQKYVTPFVNGTR
+MKLSHPLKEGDRLFLSLPVGGG
+>tr|A0A1W9LG01|A0A1W9LG01_9BACT
+MSRVFNFGAGPAVMPEEAILEAQQQLFDYKGCGMSIMEMSHRGKEYDAVHTEALDNLRKL
+MGVPDDYAVLLLQGGASGQFAMIPMNLLRAGETADYVNSGAWASKAIKEAKIVGAVNVIA
+NTGKDIPTRLPSSADLKCTPGAAYVHITSNETIAGTQWKTFPKTAAPLVADMSSDILSRP
+FEMKDFGLVYAGAQKNLGPSGLAVVVVRRDLMERCPETVPTFLRYKTHAEENSLYNTPPT
+FGIYMLMLTTRWLLKMGGVAGIARQNQAKAAKLYAAIDGSGGYYKGTAVTEFRSDMNVTW
+RLPDEAREEKFIKEASAKGMKGLKGHRSVGGIRASIYNAFPPAGIDALVAFMREFQAANG
+>tr|A0A1W9LCU5|A0A1W9LCU5_9BACT
+MTLDLSILYADTGQAKLARLADYERAALAAVPPGAEVTVTGHAPVWMYLRIAHALHGRAK
+RLVYESPVAGPVEVFNHAPC
+>tr|A0A1W9L927|A0A1W9L927_9BACT
+MPVKNLFGRELRIVNIGLTSFKDSLDQVGAKAIQVDWKPPVDVEPALRKSVRAARAAIEK
+ANAQAMQIILGGMPQVIGLERAADVIPGMTDNLILHAGPPIAWDRMCGPMRGAIMGALIY
+EEKAETPAEAERLAASGQIKYAPCHEHSAVGPMAGIISPSMPVWVLKNEAYGNLGFCTLN
+EGLGKVLRYGAYGEPVIQKLKWMERVLYPTLRKAVAKIGKIDLKNIIAQALHMGDEVHNR
+NRAATSLLYRTLAPAIVTTCDDPKAAADVLEFINHNDHFFLNLSMPASKVTLDAARGIKN
+SSVVMVMARNGTDFGVQLSGTGNEWFTGPADVPDALYFPGYTKADANPDIGDSAITETNG
+LGGFAIAAAPAIVQFVGGNVADAIRYTTQMYEITAAENNAYQIPNLNFRGTPTGIDVVKV
+IEKNILPFIDTGVAHKEPGVGQIGAGVLNAPLEPFKKAFEGFARKMKKE
+>tr|A0A1W9LGG9|A0A1W9LGG9_9BACT
+MTHDTTNDPRPAAPGDGEPSRREVWRMFDRIAARYDLANRVLSAGCDLAWRRRMARLLPG
+GESLRLLDIATGTADQILLLLELVPRIRQATGIDLSEKMLAVGRAKALRHGLEARAVLKA
+GDALAIPEPDASFDVCTIAFGIRNVENVPVALREMRRVLRPGGRALVLEFSRPAAWFRPL
+YSFYLLRILPVLGGWLAGEAQAYRYLGTTVKTFASGEDFCDLMRAAGLVDVRAVPLRLGI
+ATIYRGDAPS
+>tr|A0A1W9L8U5|A0A1W9L8U5_9BACT
+MSITRHRFGIAAGAGFDSRAGAFQGLDAPRGRTSKGWKFAAALALSFAGIAAAETNAPAP
+TARRAALCIGVRDPAATGTADRGPADAVRLGEAFRAAGFDPTLVLAGADARRDAVLSALC
+RLRASTRTGDTVVVAYTGPVRADTDAAGDILFLSPADATDARDDLPLRGAIEALAARTDA
+DLAVLVIGLPAIGSRAGDAAPWRMAGTLPVALRSHSLLFS
+>tr|A0A1W9LCP0|A0A1W9LCP0_9BACT
+MSEVVFLLEEDSARELLTILLPRILPAFINCRYVVFEGKQDLESQMVRRMRGYRVPGARF
+VILRDQDAADCREVKLGLKHRCGEANHAEAIVRIACRELESWYLADLAAVGCALNRPALS
+GMQNRRAYRAPDQIVQPSRVLKRIVPAYQKRSGSRAIAPHLDLTNGRSRSFEIFVSTMRR
+LAEDLSAGADVPAP
+>tr|A0A1W9LEM1|A0A1W9LEM1_9BACT
+MWTATVQDLKIEFLNSSLAQVGAVTTRVNDVGEVWTQKVVSGVAPAGTAWARFVVGVSGS
+GSQGALQFDDAVLCAP
+>tr|A0A1W9LGX1|A0A1W9LGX1_9BACT
+MVPTQGVKAMNARTNLILFLCAMALAAFIVGIERRKDTTGDRLDRARHALDFDPEKVSAF
+RIETPAFTVEAEREDDRWRIVQPVRVPADATEVSRILLGIHAAPGEAVVPAADIARRGTA
+LRDYGLDRPIARLSLTGPGIDLQFEIGEPGLLGRLYLRRIPGGDILATGTNLLAALPSGL
+SALRDRTLFPPAAEARQVRIRRPDGFLHLTRGNGGAWRILQPAVGRAERAAAAGLVGGIL
+SARVLEFVRDGAVEGAPYGLDETAVELTVDFDRDTAPPVVLQIGRAQEQRAGAVYARRAG
+GDSIFTVSADIARLLATPVDGLRDRRLVPMLPEDIGAVAIERADRRIRIVREGNAWRIVE
+PVAAAAEEPRVRAFLQEWTGTRIEEFAPPASRGPASSNETRIALYRRTPGLTSTNGAGAA
+DVESRPSAVTLLVRTTSLDLTPVHVTDADGTTVVLIKTKAPGFVAPDPLRFRDRAVLDLA
+ADEVGGMILSRAGVEQRIVRGSTNQFVNAEGDPVSATDVARRLTLLAGLRATALVAENPA
+ERISYGLDPPAATLTVTLRGEGGLTRSLLFGRTSPEGTFAAIRGQDLVFLLDSATAAILQ
+ADLFPKPATPAARPPTHPAPEAAR
+>tr|A0A1W9LAQ0|A0A1W9LAQ0_9BACT
+MNYLLIALALLIGLAAAWWIRRSVLDALNQPKNDPSLALLQNQVNALTSQVAQSLDTTRK
+SMDERLDNAARVIHGVSQQLGQLGESSRRIFDLGKDIAALQAVLQAPKLRGNLSELFLND
+LLSQILPADHYRMQYGFKDGEIVDAVVVLKSGMVPVDAKFPLENFRRIVDAKADDERNAA
+KKAFIKDVKKHIDDIASKYIRTDEGTFDFALMYIPAENVYYETIVKDEEFGGEMSLFTYA
+LAKRVIPVSPNSFYAYLQTVLLGLKGMRVEESARDMLNSLASLQKEFERFDEAFRLVGQH
+LDNSLKKYTEAEKRFGKLESKMEQIDGVVKGLGEAGSIPPAAGEEKTET
+>tr|A0A1W9LFH7|A0A1W9LFH7_9BACT
+MRLTREVLGEAMGTFVLTLFGCGSVAGAVLFDSYSGLFQIAIAWGIGVTLAIYLTRHLSC
+AHLNPAVSLAMAMSGRMARDRLPRYVAAQFAGAFAAALVLYALFGPSIGAYEASHGIVRG
+TAESIATAKMFGEFFPAPGGAAVVSLGGAMFAEGLGTFLLVLMIFALTEGCNVGRPDNAL
+APVFIGLTVASVICLVAPLTQAGLNPARDFAPRLAACVLGWGRAAFPARPADAVWVYVAA
+PLLGAAAASLTFTRVVEPRMRGSDPSCSCGKRIPVPPLPEQQRIVRILDEAFAGIATAKA
+NAEKNLQNARAIFESHL
+>tr|A0A1W9LGR3|A0A1W9LGR3_9BACT
+MVTSLRPWILAARPRTLGAVIAPVGMGIAMAYGAGGAHVPSALCALAAGLLVQIGANLCN
+DVADFAKGADGADRTGPLRATAAGLVSPAAMVRATVLAFALAALAAVPLVIRGGWPLAAV
+GALAIASAALYTAGPKPLGYLGLGDLFSFVFFGPVAVAGTYYVQTLAWSWTPVAAGVAPG
+LLSVAILTVNNLRDREGDARAGKRTLAVRFGATFARVEYTVCIAGAAVVACGLVRFLGAP
+PAAGLAALVLVPAIPALRAVWGRAQGRGALNPWLGYTALLSLFHAALFSAGWLL
+>tr|A0A1W9LHR1|A0A1W9LHR1_9BACT
+MPRVTPSTVRRNPARRRCALAGLAALLLSGCATAPIEAARENFRRGRLAQAEQALTSEDA
+RKAEKDRVLILMERGTIRQAAGQYDESSRDWIDAAEHAKKLETYSVSKGAASFVVNDSVQ
+AFRGAPYERTLLHALTALNHFAVTNWDDAAVEARRLIETAAAPAKEGFPEDAFSYYVAGL
+ALEMIDDPSNAALLYRKAAAVAPPGIRVDDASGRIGPRAPGETNAPAVPLPRPPAPAGWT
+HELVCFVLLGHAPPGGADMSERWRGPPGGHAEIRIGGVTAGRSYPLADVAWLAARTDLRL
+AGIRAAKTATRVVLKEVIAESVAQSSHNDALGDLIRLLLIGLLEQPDIRRWETLPGMLQV
+ARVPCPPDLANVEVVLRAPTGAELRSIAISRPLAHRRTLWVAFVRDLPTPAPALPR
+>tr|A0A1W9LCK1|A0A1W9LCK1_9BACT
+MTPLDPIRIVLVRPVYGGNVGSVCRAMKNMGLSRLVLVGPEDHLDLRELKAMAVHAHDLF
+EGRGRAETLEEAVADCGLVAATTARPGLYREHSLTPREAAPRLLEAAADTPVALVFGPED
+DGLSNEDIARCSILLRIPSSPDYQSLNLAMSVMVCAYELFAAAGTYQPPSERTPEAPSAM
+KERLFDFWRQMLLEIGFMHEMKADHMMLGFKRAFSRGPMSVADVHILMGVVRQTLWMASQ
+YRKYKALARPGTEP
+>tr|A0A1W9L9E4|A0A1W9L9E4_9BACT
+MYASNSVQTLLNDVGEVISSGVSPAAAPLDRVFGALVSINLVLWLFLPVVLLLVIWQVSS
+VAARLGQVNSALYRMTVVISDAVKEQTSAIHHLRDKSQAVLQAIQTSLDQHRDGVQQGAR
+DMVKGVEAFDRHTQGGAKDIQQQLANIHDRLGKLIPLPRLRLEIGRRLLQDSGRC
+>tr|A0A1W9L839|A0A1W9L839_9BACT
+VAAGVVGAPRMRDGVELRVNVGRADYMKDWKARRFIASGWSALSRVDIVPMTSELLRVYI
+AGGANVSTIRRFDGDYDALRARRPKVLEDSARHVQHLALPHLSKTNHTVCMIGTSGGDDS
+YTALSLGARHVTGIEMDPTIARFVTETYRSFAGGLFTDPRHAVMVVDEGRSFLRRSSDRF
+DVIQQVNNFTPIAFQNGALNLSETYLLTVESFREFHDHLTDDGILAITRYGAVRLLANAV
+EMFRRMGVKPSEYSRHLFVGEGGRPVEYTFMMKRSPFTPEEVDRLFAFYAASGARKVLYA
+PYRTNDLPARVGNLYLQIATAEDPSPLYRMGCFDFRPTTDDRPFFNRMKVLGQQDRHRER
+LPLLPAEIREVERPGRLDKRVPQGDIPPLIVLFEGILLAGVFFALPLASRPELRASLRGS
+RRVLGYFACLGLGFIFVEICLIQRLVLFLGSPVYSI
+>tr|A0A1W9LDA6|A0A1W9LDA6_9BACT
+MWEKADANGRISSEEYRNMKRFAGWIAVVAPVVTAAAWIAVAGDNSSLGRLLDSLDAGSG
+AVRPVQVAQADAAAPAPVPNLDALLGGTKPAPAPEAPAPAPVAPPAMPEAPAPAPDAVAP
+PMAPVPPPAPDVPAAEAKPAVSGAQLEEQERVRRQAEEKEGLMALADALEAMRNAQYQPA
+FDKFQIAESRIQVREATEEARRTAKAGRAEAAMKLAEAAYAARNTADADKWLTEARKDEE
+GQGRNARRLTTRLEDLKEDIASQGGRAVRVKDMPGVVNKKATTEEMVELGRQLFEVEEYD
+DAETAFEQALRSDPYSKDAMKFLRKIEERRLKISELHRTATRVDMIQDVVDRWNPPLRTS
+NIAPPKPDAQDKTGTATAKRIVQEKMQATIIPTIEFRQANIVDVINFLRDASEAADPAGG
+GVNIILKLDNVGSGPAVAPTAAPVDPLAAPAPEFGAGAPAAGAGVGDVAGAGSIPLITLN
+LRRVTLLDAIKYVTDVAGLKYRIDENAVFITPANANLENVVTRLYPVQPSILEMVTTRAD
+TDAGAAGRGDFVAMGAAGAPTIDAQKDMKKFFGDMGVPFPPGSSIAYNSTISQLIVRNTA
+EYLEIFERILAALNVVPNQVEIEARFVEIGENDLSELGVEWMLTDAWELANQKGTGPIQS
+RPRVQMNGNSVGGGFTHGLRYFTQSGDSLTPAARTTSNAGNMQGNVLSLSSILTNPELTL
+ILHALEQKGGTDLLSSPRVTTRSGVNAQIKIVQEIIYPTEFESQSVGDLTAGRDNNATGL
+VIDPYRSRPPIPGSFETREIGVILNATPTVGPDGYTIDLTLVPEVAEFVRWIDYGAANLY
+PILQPVFASRNVTTSIVLWDGQTVVMGGLIRDQTTSVDDKIPLLGDLPILGHLFRNKGKH
+SEKQNLVIFVTAKLVDPAGNPIHQNKKSVMGEGRSGNQL
+>tr|A0A1W9LEM5|A0A1W9LEM5_9BACT
+MSLFVKICGLCRGEDVAAAAALRPDALGFVFWPGSPRAVRPEDVALWTQGLPAGIERVGV
+FVDAPPADVRRTAEIAGLTLVQLHGREGPEACRDAWPRVWKAFPLSRGPADALAPYPVEA
+FVVDSGTATRPGGTGQTADWVAAAEFVVGSPRPVLLAGGLTPENVGRAVNQVRPWGVDAA
+SGVESAPGRKDAAKMKEFVRRCRES
+>tr|A0A1W9L968|A0A1W9L968_9BACT
+MPIYEYGCAKCGRVSGFLVRNMAAHTTPACPHCGSRRMSRAVSRVAI
+>tr|A0A1W9LAI6|A0A1W9LAI6_9BACT
+MWKTASLLICLVLVLATLGVIMLASASGVQGESRYHNANHFLIRQVVWLALAGAGGVAAA
+RIDYHRLRWLAVPLVAFVVVLLVMCLIPGVGLLINGSRRWLGMGFANFQPSELAKFAVVL
+FLAWWVKRNERRVTTIRDGVVIPMGVMGFVLLLIFLEPDYGTTMLIGAVGMAVLFLGGTR
+LSYLTIISAACLCLFAVAIAHDPNRLGRFLAFLHPERYAEDQAFQLTQGINAFVSGGPYG
+TGLGHGMQKQYYLPEAHTDFILPIIAEELGFGASIGVLLLFLGIFVCGIAIVVRARDTFG
+RLLAFGITLTLTLQAMLNIGVVTGCLPTKGLALPFISYGGSSMVMSGIMIGVLVNVALHA
+GGLIEDEDTREIKDRLRTI
+>tr|A0A1W9LAG8|A0A1W9LAG8_9BACT
+MISTVLVLAVASVVLFCRAQIVESSFEEPLSPTWLGPEGGGHCGGGGDGELVGVGTGNYV
+HTGKQAVRLVVWDDGNPAAASWAGVMRILPCAAGRRIRVGAWLYFSSETLPLRSDALAQL
+KIEYFEDPKAERLIPTHLFLSAPFDPAGYKPDTWHRIEAADRAPQDARSMKFSIVVTARN
+MGGRREAVWLDDLFVEVQPRRTPARDRP
+>tr|A0A1W9LCY0|A0A1W9LCY0_9BACT
+MAQFQGKVLMVGYGAVAQCALPILIKEAAIPAKRITVMDFEDKRQEMKPFIARGVKWVRN
+RVARANMGALLGKYLKAGDLLIDLAWNIDACEILQWCHDRGILYVNTSIELWDPYENADR
+KTPQEKTLYWRHQNIRRLIAGWKRPGPSAVIEHGANPGLISHWTKRGLLDIAARALVEKK
+FKGAKAEEIAGLARARIFNRLAWKLGVKVIHCSERDTQVSDKPKQVDEFVNTWSIEGFRE
+EGTTTAEMGWGTHEKTLPGRAFTHKDGPKNQICLARMGINTRVRSWVPNWDIEGMVVRHG
+EAYTISDRLTVWENGKAVYRPTVHYAYQCSDAGILSLYELRERNYELQPKLRIMNDEITQ
+GADILGALLMGHPFNAWWTGSDLSIEESRRLVPHQNATTLQVAISVVAATMWMVANPEEG
+VKVPDDLPHDFILKIADPYLGKNLSLPSDWTPLKKYTNPFARNAKPDLDLKDPWQFKNFL
+VVD
+>tr|A0A1W9LFZ7|A0A1W9LFZ7_9BACT
+MREILARFAVVASAGLAACTPLAPDSPSPAAPAAPAGPAIPQTHGYNIHFTDPKPGEMEM
+IAASGAKWVRMDFTWGATERQPGVYDFTAYERLMAALDRQGIRALFILDYANRLYDEGLA
+PSSDAGRAAFAKWAVAAATHFKDRGILWEMWNEPNIDPFWKPKANVADYVALARTVGRAL
+REATPGEAFVGPGVSRIDLPFLEACLQGGLLEDWSAVTVHPYRHLSGPETVVAEYGQLRD
+LIAKHAPNGKVIPILSGEWGFSSAWRGFDAASQGAMLARQWLVNAACDIPLSIWYDWHDD
+GKDPKEAEHNFGTVSNAYHEGRSPVYDPKPAYLAASSLNRTLDGFRFVRRISPPRAGAAV
+AMSSPEDWVLLFRRGPDIRLAAWTTGTATPDIRLPGLKAPVRGVAHTGGALPDLAPDGDG
+LTVRLSHNPVYLLPPPGAAASLVSAVFRHDWADGRIATVAHVPGADGGQHITVNKAFGAS
+FRGRIALAANGADIATARLVLPAGAAQTTLVLRAAAPVGAALALRVERDDHAIVHQTRPR
+RPRRLGAFAGRSGFRFVPASGCVGRGLSARPRPTDRRMAVRGTSFRRRRRRALGRKQRRR
+HRLARAMAGAVPDRPRTQAPLPGRSPHRQARPDPRALTGPAQGYGATGVSPSVFAMNGSI
+AAAQIP
+>tr|A0A1W9LAV3|A0A1W9LAV3_9BACT
+MIAKRLLDADRRRRVPRQFSWVDQRLVRDGYFGRCTHGALALYLFLVTVCDAEGLSYYAE
+RSLCERLKVSAAALRDARNELCCAGLVAYEHPLYQVLDLDPIHTSVPARSARSRVCGEAV
+SIGQVLHSILGGGR
+>tr|A0A1W9LDJ7|A0A1W9LDJ7_9BACT
+MTILPAIDLRGGRCVRLRQGRADEETAYEGDPVAVARRWVEQGATWLHVVDLDGAFAGRP
+VHTALIGEIAKAAGIPVEVGGGLRTDADIQTTLDAGAARVILGTRVCANPGEARRLAAWI
+GDRLAVGIDAKDGIVQVRGWTEGGDVRTVDLARRMEAAGVRTLIVTDISRDGMLQGVNAA
+AMDEACEAVACRIIASGGVTTAADVTVLRRLGRPNLWGAIAGRALYEGNVTLPELLKAAE
+DGE
+>tr|A0A1W9LAZ6|A0A1W9LAZ6_9BACT
+MFSVLDPEVTFTLPTKQVRNGIVDAFVHVVEQYMTRPSGAPLQDRIAEGILQTLVEVAAR
+TIEAPTDYEARAAFMWCATLALNTLVGCGVPQDWSTHMIGHELTAFHGLDHAETPAILLP
+GVWRHKLAAKRAKLEQYGRRVWSVATAEDAIAKTEAFFLSLGMPVRLSAYGIDAEDSARR
+VETRFRERGSVFGEDGDIDAAAAAAIVRSRA
+>tr|A0A1W9LFM4|A0A1W9LFM4_9BACT
+ARGYAGAIAMAARAALRSGVGRVTVLVPESIVGIVAGASLESMVVGAKETETGSLSPEVW
+TEWRNRMDDFDALLVGPGLTRHDASLTLVRHIIRDCKAPLVLDADAITVLEGQPHWVEKA
+GCPVVITPHPGELSRLFAQDIEQIQNDRCGVALAAAKFTRATVILKGAGTVVAQDGRPLS
+INMTGNPGMATAGSGDVLAGLLAGLLGQKLEPFDAARAAVYLHGRAGDMAAWRKSQAGIV
+AGDLIEELPYVFRDVTLR
+>tr|A0A1W9LD90|A0A1W9LD90_9BACT
+MNRRPVLISGMGAICAAGGSLSAILDSFAHNRRNARPVSLFQTPLTCPVFEAGLETGRAN
+RTLELARHAVADAVADAGFKDGFDGLRVGVCMGTTVACQLNDIGFYAAFRASQPTPMEPV
+DRFLSGNLAEAIAADLGARGPRLTVVNACSSSADAIGVGRSWLCNDLCDVVVAGGADELN
+RVPLCGFTALSVMSPELCRPFDRNRKGLNLGEGAGIVILETEEAAARRGFRSDLRLAGTG
+AASDAFHLTAPRPDGSGLEAAIQRALAEAGIGPGDVAFVNAHGTATRENDRIEGGVLARV
+FGPGVKALSTKGFTGHTLGAAGALEAVFTAAGLREGWIPASPGFAEKDDEIPLAPVRERT
+ATTGRHAVSTSLAFGGSNTALVIEWTGGTHP
+>tr|A0A1W9LEV1|A0A1W9LEV1_9BACT
+MKRIGVLVNSRKPHAAAVLKRLAERAKALGLELTACDDTAKLLPGCKSVSAAELAEGIDV
+LMALGGDGTVLRAVRALNGADKPVLGVNLGSLGFLTSVTEEELDGALEVLQKGSFTTSLR
+SIADCRLIRGSKTLGNYRALNDAVIGWGTSSRVNTLALDVNGEQVAIFTCDGLIVSTPTG
+STGHSLSAGGPILTPDSPCFLVNPICPHTLSNRPLVVSDQSAITVHVAKALGRLVLSVDG
+QEEPAVEQGDRLEVRRSPQSVRFIHLPGYSYFSVLRQKLLWRGSSV
+>tr|A0A1W9LAB3|A0A1W9LAB3_9BACT
+MADIVLICPGCNKETRFSEYAAEESTVCPTCGATIKRPATEKSTRLKIRRIEHSEQEARL
+SGKDAAKPSAQDNATQVAASASTVTQMRSVLGNVHKARTITKGPSVIWAWVGFLLLSGLL
+VGWQYQFKGDRQLMGYYYWIRNGVGGIFWLMVMITAFEDTMTQGMLCLLLPFYIVYYVFV
+RLEMYWLRGVFAGVFVGICAEMYFIPNEALLTYAQGNLNV
+>tr|A0A1W9LD70|A0A1W9LD70_9BACT
+MNYLDGGYQDFLNRHEPDGAPVPVAMWEAMREGYDDYRYLHTLDRALDEAKGSWRRSVRR
+AAAEAAKELAAVEAAIRVQPKYKHDDLWSPAEFDVHRWRIARQILAMHAALGGDPDRDAK
+PARE
+>tr|A0A1W9LH23|A0A1W9LH23_9BACT
+MALKTSKPYTPSRRFTVLPAFDEITKSTPEKSLLVSHKRQSGRNMYGRITVRHRGGGHKR
+HYRIIDFRRDKLDIPAKVAAIEYDPNRSARIALLHYADGEKRYILAPNGLAVGATVVSGA
+KAEPQVGNAMPLSLIPLGLPVHNIEMRPGGGGKIARSAGQVVQLMAREGGFANLRLPSGE
+IRRVSDACMATIGQVGNLDHESVSLGKAGRKRWLGIRPTVRGVAMNPVDHPMGGGEGRTS
+GGGPPVTPWGVQTKGKRTRRRRKTSGRFIIQRRK
+>tr|A0A1W9LB31|A0A1W9LB31_9BACT
+MIVEHDRAVLTADIPAEGLAAGDVGTVVHVHSDGTAFEVEFVALDGATAAVVTVETSQIR
+PVRHNEIAHARPLAVA
+>tr|A0A1W9LJ13|A0A1W9LJ13_9BACT
+MVDRELGELSPEAADLLDAYLRLCPDARGPAEAMADAVRATRDAVRRFPDLAPVPQMNPA
+TPVFRSPWFARAAAALLVLGTGVGIGRYTDDPGAGTSSPQTVAAPDARAGGPWARYQVAY
+DTRSGTYTLARNP
+>tr|A0A1W9L8S3|A0A1W9L8S3_9BACT
+MTKTVDIHVHHITRVEGHGNIVLRASDGHIEKVEWQVPEAPRFFEAMVRGRSYEDIQTIV
+SRICGICSVTHSFAAIKAIEDAMGITVSEQTDRIRKLLHYSEQLESHSLHVGYLVAPDLL
+GVKSVIPLVASHPDVVKAVIRLHRTGNQWMDRIGGRMTHPVTIKPAGGFASLPTESYFRE
+LHKTLTAAIPDLKLLADVVLSLAGKLPAFDRPTEYIALVNPGEYSFYHGQIGSTDTKDTV
+PVRQFESVANEYVVPQSTAKWCKWHRDSYMCGALARFNLGADYLLPLAKETAHKLGLKKG
+AVNPYLNNVAQVVEAVQVVEHSLQIIDELLTRGIKPELPKVEPREGEGAGAVEAPRGILF
+HRYAFDKKGNCIKANCVIPTNQNHANIQKDFEALVPTIIDREPDEIRLLMEMLVRAYDPC
+ISCSTHYLDVKFV
+>tr|A0A1W9LF29|A0A1W9LF29_9BACT
+MAMTAGAAEGAGKRFACADYTAGKVFLVGADGKVEWEHPAKNCNDLRVLPNGNLLFSTGH
+GVLEVTREKVEVFRYESKSEIFACQRLPDGSTFVGECNAGRLIEIAPGGRVVKEIRLLPE
+GKDGGHAYIRNARKLPDGHYLVSHYGDQAVREYDKDGKIVREIPAVGGPHSAVRLPNGNT
+LMSNWLGHGQFGKAPHLVEVTPKNEVVWTFADHATMRAISTVIDLATPGDPVAGAILH
+>tr|A0A1W9LA52|A0A1W9LA52_9BACT
+MKQGETYILMYAAGICLAGSLLLAATTAGLKAQQEKMVELDRKTNVLKAFQAPILDAKKQ
+KLPGDQLEKMYADHVREVLVDADGKPVAKLPPKETAAGIAARKILPLYQWVEGDAVRKYA
+FPVSGKGLWSTIYGYMALDEGLTTVVGVSFFKHGETPGLGGEIEQPWFQDQFKGRKVF
+>tr|A0A1W9LBE9|A0A1W9LBE9_9BACT
+DFAPFENLADANYRSVQTLSPWGLPSGALAPFRLAVESVNDGHRVSAPTGSFKPNAWGLH
+DMHGNVAEWTLSSFAPGGDADAPRTVRGGSWSERPHLAGASRRIAYAPWQAVHNVGFRVV
+CPVR
+>tr|A0A1W9LHH3|A0A1W9LHH3_9BACT
+MTGWMAGACFVACVAGAAEFNTLTSRETAEGWKRLFDGKTLDAWKGLAKPEIGAGWKAVD
+GTLTIDKASKSGDIVTKDRFGDFELVFEFRLTKGANSGLKYFIDPSRAQGGHGVGCEFQV
+LDDDNHPDAKLGLDGNRTVGSLYDVLPAAKDKTVNPIGEWNSARLVVRGRHVEHWLNGAK
+VVDYERGSEAWRAAVAKSKFSKIAGFGEWPDGHLLLQDHNDEVSYQTSDAARYALENIPG
+PEVDSVLQSALSKLSGRTRDGLAGTIAARAAFGGGEA
+>tr|A0A1W9LF23|A0A1W9LF23_9BACT
+MSRRTTIVALSEIREINLTPLIDLTFLLLITFIITFPLIEQGIPVNLPRGKAQDLPERQT
+RTVTLDLSGGLSLDKQPIGKEAFASEMNALGAADPEVTIMVRADEGVAYGKVAEVLRILH
+DAKIARLALVHQSDTPK
+>tr|A0A1W9LDM7|A0A1W9LDM7_9BACT
+MPSRKIYLCGPIMDEADGHARAWRQTAAELLRGDFLLLDPMRRNFKDREVDSANEIVEFD
+LQDVRDADIVLVNYSKSSVGTSMEVFYASHVLHKFVIAFSPFTFKDSSPWMVKYCTRILP
+TLEDAAVYIREHFIAQHL
+>tr|A0A1W9LGI7|A0A1W9LGI7_9BACT
+MNAGIGAINEQVREHGALVGALRGEIEKVIVGQRNLVDRLLIGLLADGHILLEGVPGLAK
+TLAVRTLAGALNTKFKRIQFTPDLLPADLIGTQIYNPREATFAIRKGPVFANIILADEIN
+RAPAKVQSALLEAMQERQVTIGGETFELPDPFLVLATENPIEQEGTYPLPEAQVDRFMLK
+VLVDYPSRDEERKILDAEARTSRRHDTRAVVEPAAILAARKVVDEIYLDDKIREYILDIV
+FATRDPKKHKLEIREYIRYGASPRATIFLALASRAHAFLQGRGYVTPQDVKSIAPDVLRH
+RVLLTYEAEAEEITPDALIARILNELPVP
+>tr|A0A1W9LGS1|A0A1W9LGS1_9BACT
+MKQLAIVCMIAATPLLAGCGLRGGGPDGSGTIECTQVQVAPQVAGRLLDVPLQEGAAVAK
+GDLIAQIDPADYELRRDEVLAGLALAQAQLDLVLAGARDEDIQRAREQVNEAKAAAGAAD
+ADYRRIRQVFEKKSATQKQMDDARAQADRTSAALAAAEQNLAKLTRGNRQEEIRIAQAQA
+DQAKARLAVAEKAVADCKVTAPMDGVVTTRSREAGEFVGAGTPLVTLSRLDEVWLSVYVP
+EDRLSRVKLGAKAQVKLDGDQQMYGGTVTFISPEAEFTPKNVQTPDERAKLVYRVKITLA
+NPDGLFKPGMPADGFLVE
+>tr|A0A1W9LDA7|A0A1W9LDA7_9BACT
+MRALWEMETDEAVRAAYARGLEASAAVAMESLPLAQEFDPAALRPFEGDWRKLNGLWEPQ
+PTIAKATEVAEAQAKLLGRLSPRRGQEFRFVREPAFAAWIVTLAPDPVALKARAPAVEKV
+LARFPYEQLVYSQFFPLESAWHRLHLAGIG
+>tr|A0A1W9LB19|A0A1W9LB19_9BACT
+MQSVQTPVSARDSSAAAIATGPPAGAEMGIVAAGAAQAWSARPAAARTALRIAPPDILIR
+VGLRDIPVLDFGRTDDVLRRGRTAAAGLRRTLEQTMMGTARLQRRAALGASDGRRCWAGS
+V
+>tr|A0A1W9LF39|A0A1W9LF39_9BACT
+MLWIMNGKYLFLSLLAAWYRPQPTPAWWTTTMEHTRWGGFSFWDLIMPLFLFLVGVAMPF
+SFDKQIERGAPRRAIYRRMAWRFVVLWVLGMAVQGNLLTLDVSKLKLF
+>tr|A0A1W9LAZ3|A0A1W9LAZ3_9BACT
+MDTVDPHLVFLRPLAASGIPYMVTGSVACTVYGEPRMTLDVDLVVVLNASTLDVFRGLFP
+EAEFYVPPADVLAIEAGRERRGHFNVIHGASGSKADIYLAGGDPLHRWALDRRRAVEMGG
+IQVWLAPPEYVILRKLEYFREGGSEKHLRDIAGVLRVSGDAVDRAALSDWIRRMDLNGVW
+KNVENGI
+>tr|A0A1W9LE30|A0A1W9LE30_9BACT
+MTGHVMNFRLRPPKRMFFLALLILAAGAGIAAYHLGEDRRFLPNSRANANLAIALSSVIA
+GCVVIVATAKLWFGHLWHKRRH
+>tr|A0A1W9LEB0|A0A1W9LEB0_9BACT
+FLFDAEGVESSEPVQPLTHAQVEVTSGPATAPISFSSISPFGARRKENTALWYTLIIAIG
+ILAIAGVAWFVLTILRAG
+>tr|A0A1W9LDL6|A0A1W9LDL6_9BACT
+MKTRMLHLFARTPVHVGAGSSVGAIDMPIQRERHTQIPIIPGSSLKGVLRDLWPKGDADQ
+VALFGPESEAEEHVAGNLLVGEARVVCFPVRSAAGSFAWITSPLALARYARDAGTKAPEL
+PSVDDESCLDDESCLAGEKVLVGASAVLEEYSFKRTGEPRTAVDLLAGTLPGDALWATLA
+DRLVVVSDGIFSHFCASACEVQQRIRIEDSTGTVAQGGLFNQENVPSETLFYAVMGERKV
+GALDKLLARLGQDAILQIGGDETIGLGVCTVRMSGGVA
+>tr|A0A1W9LD33|A0A1W9LD33_9BACT
+RKPEAPAEKKDEAPAPTAATAPEAGRMDQELKEQIHALRAQLKAATSEGDAKARDLAKLQ
+DEKGAREQELLQQIESLTADAGKSKDLQDQINDLQAQSDTAKSSSTDLTAEIDRLQDENR
+KFQEEKIAREEELLQQMESLKASQDESTAGRRIQELSQQIEKLTAEAQVTGGMLSEKELQ
+SEQQREKIKELQAELTRREQEVQDKIQSLGDEVEARAAAAATHKVDEQKELYRKLQEDSA
+AREQKLTQELAAVRSQLRDTETRQQDLSKQVEALNTQSQASAGVLSEKDAQIEQQKEKAR
+IVSEHGKRVEQSLTQRVERAETEAQSLAQKLADVQLQLEEKAKSEKDAQEQAQQLDTELT
+QLRAAHEQAQEDARARDGLLTEQLEDFKERTRLATEKADQLDWDLKQKESQWEDESGKLQ
+QDKTDLTQQVRDLKQKLQDTDESLSTARRELSSNTLQVEQQKKILGDEQQRFKQVEGDLN
+QYKKLLDEEWQRAQRRDAELASTRKAYGEELARRQNGEAQSLEQEARIRDLQESVGELQE
+KLERDRSAARESIEKAQSERQDLARQMEGAQREFDELQRQLAEALQNLERQKSAAEEKQR
+QFARREEELRQQIEQAAQDREALDRQLEQLAGELEQQKTALQDEQRNQALSAEDLQHRIT
+QLQHENQSMALRLEQQRKFYDGEREQRRQKESELLQLRKSYQDAVNATRQKDRGMAQQKK
+LDDEEIARLRQKLDLLTARIEQLQAASGRGERPTS
+>tr|A0A1W9LFV2|A0A1W9LFV2_9BACT
+MAGEVGNPTDHLMGEGPEEAYALDFFQALRRLQCAHRECPPIGFSRRPADDPVRFGQRPS
+LAFAPTAIEAIEPAAGGGRPHLYQSFFGLFGPNGPMPLHFTEYARDRLLNGGDPTLVRFL
+DIFHHRLIQLLFRGWAANRQVVHYETPDHDRFSAYVASFLGIGMESLRGRDAVSDAGKLF
+YSGRLACATRNAEGLREILREWLGVPAEVEEFVGHWMQIPEDCRCRLGESPSTGALGATA
+LVGARVWVCQHRFRVRLGPMSLARYESLFPGGAPWETLKSWVRNYTGDEFAWDARLALSA
+AEVPETVLGTAGRLGWSTWVRTRPFEKDANDLVLIASMS
+>tr|A0A1W9LFA9|A0A1W9LFA9_9BACT
+MFQDVRALIENARGDVARAVNSALVVLYWNVGRRIRQD
+>tr|A0A1W9L920|A0A1W9L920_9BACT
+MHVVGRHGGQPGAPRHLPQAGEGLVLTGQPLVLQFEEKTIRTEDLRHAPRGVDGGLDAAR
+GAMAADLAIPAGRQPDQPARRSGQHGFRENGPSR
+>tr|A0A1W9LHA1|A0A1W9LHA1_9BACT
+MTIEALPVEFLTLVAFAFGACIGSFLNVCIWRIPRDESVVHPGSHCPKCGRPIAWFDNIP
+LVSWVALRARCRACGAPISPRYVLVEALVAVLFGWIAWRHGWDVRTPLYCLVAAGLVLAT
+FVDLDEMYIPDRVSLGGIAAGLVMSLLWPGLHGVDTAFAGFRSAAVGALAGSGSLAALAW
+VGTRMFGKEAMGMGDVKLLGAIGAFLGWQGVAFTFFVSAFAGAAVGLTMIAMRRKELQSA
+IPFGPYLALGAIVWILGGDSLWIQYLRFMTHTADPGFGG
+>tr|A0A1W9LCY3|A0A1W9LCY3_9BACT
+MKRSAWAVVAAAAVVWACGSGCATLQERMSGVQYKEVTHEGRVYVLGKAETIKKSATKPE
+VAYTTTKIGAGPGGVTVILEADPKDDLLATKLWQLYTCRHDVRR
+>tr|A0A1W9LE90|A0A1W9LE90_9BACT
+MAKVLIVDDDPGVISYLARVLSMAGHEVVRAEDGPAGLAAAADSSIKLIVSDLSMPGEPS
+GVAFIRELRSARPDCPVVVVSGHPSEDSLEQCRQMGVTDFLTKPFEMGFIRGLLDRFFPP
+AASTSQGGAR
+>tr|A0A1W9LHM4|A0A1W9LHM4_9BACT
+MPYFVAVLLYLAFSGFLALTAPELPDRVATHFGMEGAANDWMNRPSYLAFVAAFPLLLGV
+LFAGISASCCG
+>tr|A0A1W9L8Q3|A0A1W9L8Q3_9BACT
+MCVAVATLLAVIVVPLQPAGANLLTNPGFESGLSGWNIWGAGFRDSTWPGDVHSGSEGCV
+NDVNNDPNDEWRGLFQNLDVTGGLTYEYTAYLKGANIENTKSESWLELQWFDIAGSLLSQ
+EQSTHMTADQDWTLMGSDSYVAPLGAVTASVRWIVHKDPGQTQDDTDWHIADDFTFQEAI
+PEPTVLGMMGIGLLVVLRLRSRQRAM
+>tr|A0A1W9L7Y3|A0A1W9L7Y3_9BACT
+MSALAAMTILPAYLPMAPIRLYQCGHLTWIAAGLLLWKAGEALAACAGTDRRAAAARWIA
+WAVVGTLCVALILNVILVKRHGLAFTDYAGTLRTYFRNPTPITLHGERIYLQARRGRQLN
+QIVGHIRARTEEGETILVFPNQALLYFLCDRPNPTRFVGTFTLKYPDEAEDRRFWSEWVE
+DARRASPRYLIVSRKFLDSDSQHYFRAVIAKRYEPDREFDELVVMKRRRNR
+>tr|A0A1W9LCR8|A0A1W9LCR8_9BACT
+MLPTNPNPGNGWMAVTVRANTKLDEGLHLVALDRPFDFLPGQHVGLALDPGVEPRLYSLA
+GGPDDAAMEILFDIHPGGALTPGRAEVYF
+>tr|A0A1W9LD78|A0A1W9LD78_9BACT
+MSREWITVTGAREHNLKNITVRIPRNSLTVVTGLSGSGKSSLAFDTLYAEGQRKYVESLS
+AYARQFLEQMQKPDVDHIDGLSPAIAIEQRTAGANPRSIVATTTEIHDYLRLLYASIGHV
+HCYQCNRPISRQSAQEIVDRLLKLRQGARLMILAPLVRGRKGQHEEIIQAVRKQGFSRVR
+VDGELVELDEVPALDKKKKHSIEVVVDRLVVADKLRARLTDSVELALRHGEGSLIAAYEE
+SAGKWAEEVCSEKNACAHCGISFDALTARNFSFNSPYGACPTCLGLGTMQVFDEDLIVPD
+PELTLDEGAVRAWKGGGRRTTIYYKGLLRALAKHYGVAMETRYSELPKSFRDILLRGSGE
+AEVEFGFWRGGAYHKYKKPFEGVMANLKRRYEQTDSDYIRQKMAGYMSRQPCTGCHGARL
+RPESLAVRIGGQSIVEVTRMSIARALAFLGELRLTPQEEHIAHEVVKEIRQRLQFMANVG
+LDYLTLDRESGSLSGGEAQRIRLATQVGAGLVGVLYVLDEPSIGLHQRDNRKLLETLKGL
+RDLGNTVVVVEHDEQTIREADYVIDLGPGAGRHGGELVCAGTVDELLANTKSLTARYMNH
+EVQIEIPAKRHKPTAECLEILGAAENNLKSINVKIPLGLLVCVTGVSGSGKSTLVDEILR
+RALFRRFYGAKDRPGKHKKIAGMDYLDKVIVIDQSPIGRTPRSNPATYTGAFSLIRDLFA
+QLPSSRVRGYGPGRYSFNVKGGRCETCKGDGILKIEMHFLPDVYVTCEQCRGQRYNRETL
+DVRYNGRNIAEVLGMTIDDALEFFRAIPGIQRKIKTLSDVGLGYLQLGQPATTLSGGEAQ
+RVKLSSELSKKDTGRTLYLLDEPTTGLHFADVHRLLQVLDRLRDAGNTLVVIEHNLDVIK
+TADYVIDLGPEGGDAGGEVVVTGTPEKVAACSQSHTGRYLAEVLGNGA
+>tr|A0A1W9LCS9|A0A1W9LCS9_9BACT
+MKLKTFTAVLEKEGDVYAALCPELDVASQGDTVELALAHLREAVELFLECASEAEIRERL
+HEEVFVTRFEAAHA
+>tr|A0A1W9L8N9|A0A1W9L8N9_9BACT
+MEQIGTPRPVVESFLRQYRQLREGHTGLLDRAAIEPLNDVPDADALTVHGDAGAAALPRT
+VLIKLNGGLGTSMGLRGTKSLLPVKDGRNFLDLLAAQVAYVRHTTGYALPLVLMNSFNTH
+EETLQQLARHPEIEAGQKDVPLTFVQNQVPKIRQDNLMPLEWPADPSQEWSPPGHGDLYL
+ALSTSGTLQRLLDQGFEYAFVSNADNLGATLSLPILGFLASGKVPFIMEVTPRTEADRKG
+GHIARMRGGALVLRERAQCPDAKQEDFQDIVKYRYFNTNNLWVNLRTLKGALARGPALDL
+PLIVNPKTVDGTPVFQLETAMGSAISVFPGAQAVHVPRSRFAPVKTTDDLLALWSDAYVL
+TGDFCLGLDPARKGVPVRVRLDPAFYGSYDNLKARFPHGAPSLLECNSLVIEGDYRFGRG
+VTVRGDVRLSHPGTEQHLIPDGAEIFGNRRT
+>tr|A0A1W9LHD0|A0A1W9LHD0_9BACT
+MKRRALAILALAAAAAPAVPAVPAALVETNLPAPLVQYSIVLERMQRNELERARAEMQVE
+RLQSEMKRLQSEKNALETRRDELSGQVTNLQSKAAAAAAPAYLPGARLVALVPTPLARSG
+APPKTLEPLTVVSHAGPAGKGSRIRVTLAGAEYEADPADFAEGDDLVTRLERRVTFAEQQ
+LRMVSDNPDPAETDRIARYEAQIDRAKNTLAMVRSAILAYRSAPAAAPATP
+>tr|A0A1W9LDE5|A0A1W9LDE5_9BACT
+MQTRSPVVSVVIPTYNRASFIRGAIESVLTQTYGDLELLVVDDGSTDDTPAVVAAIRDAR
+LRYIRCDTNEGAAAARNRGIREARGEYVAFQDSDDVWLAGKLDKQMRAFDAAADAGVVYC
+GFRREHYGVRSYIPDRSLPVREGDIHQQLLIENFVSAQTIVARRSALQRAGPFDPSLQPL
+EDWDMALRLSKHFRFALVDEPLVQSRMQTDSISADVQNYIRGFTGVVAKHEEELRRNAPV
+LAKHYGTIAHCLCVSGQMREGRSWYLRAVRLNPAHLPHAAGVLLSFLGRGPYLAAARLHH
+RLVKPDKAVPFLYGRVRGPVA
+>tr|A0A1W9LG78|A0A1W9LG78_9BACT
+MASLLSIIIPARNEQNRLGPTLDAYLPHFVGRYGEAVEFLVVVNASTDGTEGLARGYADR
+WPCVRVLVEPKRVGKGGALMIGFRQARGEMVGFVDADGSTPPAAFDELVRSLGDAGAVIA
+NRWHPDSHISPQPWSRRLASRVFNGVVRVLFGIRITDTQCGAKLMTRKALQDVLPHLGIT
+QWAFDVDLLFQLSRHGHRIVAIPTTWHDSAGSHLRVGRASIEMLIAVVRLRLIYSPLRWI
+VTLYDHTLGRLIRHRI
+>tr|A0A1W9LD69|A0A1W9LD69_9BACT
+MTGWIDAVAAAAERMGVGRAAMAREVSGIGVGVPGFVDFKQGYIHDLTNVPGWTHIGLSA
+LLRRRFRVRSVVDNDCNAMVLGECLYGAGRGRRQAVFLTLGTGVGGGILIDGRVYRGAFS
+MAGEIGHVPIDLHGVRTPTGRGGLEEYVGNQQIVRKARALLRSRRSTMPDMVGGNLRNLT
+PRHIAEAAAKGDTVAREVFDYVADCLATALAGVTYLLQPEVFIIGGGVAEAGDVLFKPLR
+AHLNDRLSPHFAKRIDILPAALGPRAGMIGAASLILEARA
+>tr|A0A1W9LB57|A0A1W9LB57_9BACT
+MCPADRRFRAVWSAVLHDGANYVRQELVVTAVGGDVPIREIVWMEGVASGGRVAGRVDGS
+PAIAEGFFLGCEDPHAVATTNPVSFRMTRNAPLRKGETLVQSCVAGVAPPGQMRRAFLHY
+LERERAHPFRPFLHYNSWYDISWRGALFDETTSREAIQLFGERMIEPHGVVMDSMVFDDG
+WDDPKTLWQFNGGFPRGFAPLMAPCRRYGTRLGVWLSPFGGYGELKKHRIAAGAAQGYET
+NATGFAMSGPKYYAAFRRACVGMIRDFGVNHFKFDGIAAGTQANGGADYVRDTEAMRRLM
+LELRVEAPDLYINLTTGSWPSPFWLRHADSIWRQGDDMNFAGRGPKQQQWLTYRDQEVFR
+NIVDKGPLFPLNSLMSQGVAYSRHGMAGEATFDAAGFRDDVHAFFGSGTGLQELYIQPGR
+LTAADWAILAEAAKWARANADILVDTHWAGGDPSKPEVYGYASWAKRGGIVMLRNPDDRP
+RDFALDVGVAFELPAGARAFGTATHARLEHV
+>tr|A0A1W9LD79|A0A1W9LD79_9BACT
+MDALALARRQFGVTTVYHFFFVPLTLGLSILVALVETMYVRTGDETYKRMTKFWGKLFLI
+NRGVAMEFRSKAPGASWRAGWDWAIFAGSLIPALIFGVAVGNLLRGVPIDETKTYTGTFL
+GLLNPYSVVAGLTFVLLFLLHGACFLRLRVDGPVLNRVDAAVKRLWSLTVLVAVCLLAFS
+WKQTGLFKGGAIAFILPGLAALALVGAGLVKKPGAAFGLTAATILLLTVSAFRAMYPNVM
+ISTLNPAWSLTIHNASSSPYTLKVMTIVACTMVPVVLLYQGWTYWIFRKRLTGATKLEY
+>tr|A0A1W9LEE0|A0A1W9LEE0_9BACT
+MAPASGKGSGGTRVTITGGNLGDGVDITDVSLCDESAAEIVSQSATQVVVVSAPGPFTLG
+DVCVKSTSHGKTMGFNLFSYNPFITAWAAGQGTISPSGDVEVTYGSNAAFTASAESYYHI
+TSLLTNGAADGAATGRAAYTSRWQNVMADGTVAVSFAENMAPLGTPEWWLARYGWTNDFG
+WWETNDTDGDRFFAWEERMADTDPTDSGSCFRVTGMNRADSFVVGVACTNTRIYGLGCTT
+NLIQGAWWPVAGQTGIPGEADGFMELVDPTNAGSRSYRATVEPP
+>tr|A0A1W9LHG7|A0A1W9LHG7_9BACT
+MTLLPFLTGCGMLRGAATSALAPMASQMSASLQEQTDPDLVRDGAPALILVLDGFATSAP
+DNPEILLAAANARVGYAAAFIDRTEAARARDLYARARDYGLAALSRNARFRAAVSGPVDA
+FEASLADFGKADVPALYTAAMAWMSWILNSGGAMEAVAQLSRPVAMMRRVMALDPLHERG
+GPHLFFGIYYAVQPRGAGGDLAASRRHFEQAIAAAGEKALLPRVAFAEFFARYSLDRELF
+EKTLRAAVDSRDLDDPPGLRLMNAVARRRAKALLPMAEEWF
+>tr|A0A1W9LHI0|A0A1W9LHI0_9BACT
+MTVRTRFAPSPTGNVHIGNMRAAIYNWLYARHCDGQFLLRIEDTDRERSTPEACRTVLES
+MEWLNLSVDEPPLYQSTRLDAHRAAAETLVAAGHAYREDKGGTGKGECIVFRMPGTDLSF
+HDEVKGDLAKAAADVKDFVIVRSDGNPVFHLANVLDDIEMNVTHVIRGDDHVENTFRHIA
+LFRALGATVPQYAHLPMIVNAQGKPYSKRDGDAYVGQFREKGVLAEALFNYLALLGWSPG
+DGREVLSRDEMVALFSFGRVQSSPAQFDLTKMLWMNGEHMRRLPTAERMAGHLADLRTHG
+LEPDPDYAARAIAIMEDRIKLFTDTAAQTAYFFTEDFSFDDKAVRKRLLREGAREGLAAL
+RDRWAASPAFDGPSLDAALKDVAAARGQPHPDLIHATRVAVSGSPAGPGLFAMLEVLGRD
+RVLARISRALERFAG
+>tr|A0A1W9L7V6|A0A1W9L7V6_9BACT
+MTRLRRAWELSRLREVHTSAGQYAVGFLLLKELSPLAGLGLAAALGGGLFAFTYNTLMDF
+RGGQGMKAGGQGPAALTSADVRLSRIFCLAGLAVCLGGTALLIRWSGRVAGPACLLLYCA
+IGYLYSSPAFRWKHIPGLECASNGLAHALPFLAGYLQFRPLDQPGALYALAWFLFMAGFY
+LLHCLEDAASDREAGIRNLCARMSSRQVVEWALAATALSAVLLFAAGLYLPVLFLLIPFH
+AMAIRHEAALLGTGRLPRVNRIRKTGRWYGLIFFAVLVIRAVVGKWI
+>tr|A0A1W9LGH4|A0A1W9LGH4_9BACT
+MLVDKGQGFVSAGTCSVNAARDGNVMIPSARLRQGVNTIRLRAVSGTGGTTTAVWDQISL
+IENAAVNIVLGVNDASENEFQTNGLSYLSVFNADTMEVGDFPKEINLGWWTQQDVRVTLH
+REATACGLTLTLDSMWADGSGRLNVEVLANRGSGFASVGTVGVNASQKGIIDIPSRFLAA
+GSNTLRLVARSGTNGTTTAVWDQILLSQRSATNNQPPVASNQTFTIQEDTPRAVTLVATD
+PNTNSLVYRIWDAPNHGAITGTPPYVVYVPDTNYFGADRFTFRADDGVAMSSTGTISITI
+TPVPDAPVAMALATNTLINQGVTVTLKATDPETSMLSYRILTPPAYGMLGTNRLPNVTYV
+PTNDYVGLDTFTYCASDGSLTSAPATVTIDVRVPNLLPIATSQWHTILEETPLPVTLTGA
+DPEGAPIWFSIGAYPEHGWLSGALPNLTYTPNANFFGQDSFTFHVNDGQDQSWAGRISIT
+VSNVNDAPNTPSSPSPADGAPDQSVATDLSWTGGDPDAGDTVTYDVYLSGVSMPQAVLAA
+GTYHSLVSRADVAVGACGYNAYGQLGDGTTTARYLPVTTSNLTDVVSLAAGYFHSLAVKP
+DGRVWGWGRNNYGQVGDRSATTRTKPVLASNLVNAVKVAAGYYHSLAVKSDGTAWAWGYN
+GYGQLGFGNVKNTNMPCVVSNLVNVADIAGGMYHSLAARTNGTVWAWGRNNYGQLGDRSL
+SNRYAAVLVSNLTGVVDVNAGYYHSLAVKSNGTVWAWGLNNYGQLGIGNTTTQRVPVRVS
+NVVASVEGGQMALVSDDQAGTTYDPGTLDVDQQYTWQIIASDNHGAASTGAVWSFQTGAG
+GRMLRATAPTYTGSVNDALVASSETVSSAEDAQKALTVTAVNDPPLASNRMVTNATRSPN
+KLLVTGKSAASAAMRTEPVVLLSETFDDPQCTGWSFMPDAAIGWSVTGLGKLRADVLAPD
+GYSTCTRDGLDVSTSNVRIECDVLYHNGAWQGGLL
+>tr|A0A1W9LD30|A0A1W9LD30_9BACT
+MPAGDPFDFWYAVSNTEILMLPPRRLETFGTTVVDYHLVSELMDEVNGVRVRQGRIQAYR
+PEILAPSAYVESILEGFQEEAAGRYAEWLRENAKDLLILRYGFKIRKEEVQEQVIHDAVD
+AVIDRVRADLQARENPLGALVRGVDEPWEVCLVKLMVEMVQRSGPEHARVLREDPTGARG
+EVETAFRAASKDRSKIAPLADLLRQRQLFKEYEDRFFALVQSHKRGA
+>tr|A0A1W9L7W9|A0A1W9L7W9_9BACT
+MALREYGPLNTIYHCGRKYQVNQLIAQSIEESLRQGGISRRAGYFLPEDQRTLEICPFSG
+ARLSDAGNKDLLADLLEMGESRAIPKNRITCEEEERLARGFDIRTFFTVDAGHMDRIRSA
+TLKSAGEPLLSLRFIPAARLYDINFQWRSQRQEGFPIVTTTGIWKASMPVAKPNDPQPPP
+PARRVKLITSDLADALYIEPMKALALDSAGVLTLQSALLRGICREFQVEPAE
+>tr|A0A1W9L9U2|A0A1W9L9U2_9BACT
+MRMPIPIVATAEPAHTEPPRSEMDVSGRMVVLTWVSFGLAAFILHRIAWKPMLRALERRE
+AMIRKSIEDAEKARKSVEHAAERQKAMLGDADAKARGIAEDARKAAAAMTVSIERDAREQ
+ARRLADDAAVQIENSRRKAIESLRGDAAALAADLAERILTERAAGPEGAAFTERAIREME
+SHGPA
+>tr|A0A1W9LAQ5|A0A1W9LAQ5_9BACT
+MPGLEIHSEGPDKGRIKKSCANLMALIRPLVIVDEAHNAKTDLSYDVLNRVRAGCVIEFT
+ATPAVDSNVLHHVSASILKDEAMIKLPIILAEKPSWQEALTDSILQRTQLDELARNEKDF
+VRPIVLIQAESKDREVTVEVVEKYLVEQGRIEKSRIAIATGSQRDLDGVNLLDPACKIEF
+VITVQALKEGWDCPFAYVFCSVATVHSEKDVEQLLGRVLRMPWAQKRSHPALNWAYAFVS
+KACWPHAVSLLHDRLVHMGFDEVEAIRYLKPVEPPVFPFAEPPRERALREKIESYWAAAA
+KRGYQQSLFAPEALVETSFDYSFAFDPESYPAARHYPGGFQFPKHFDPEIVAAFDNDEEL
+ECAKAIEMCPHVVQWARNVPGMFGLPVWSGTFYPDFVAQLDDGRRLVVEYKGAHLIEHDQ
+PKKNVGELWERTSGGKALFLWATKKDSSGRDVARQLEDKIAR
+>tr|A0A1W9LGA3|A0A1W9LGA3_9BACT
+MSRPARRLIFYPLLAAFAAASAVWFLHVPRRTDRLAWTVPAGARWVSLHRGLAGRWAAIA
+ANPLAFEAARLAGISSQEWIAVRADETLTSWMRRLAGDEVLIAQFPVGPGRRAWGAASWI
+GGRAQRLRGLLNVGAMPGIRRLCDHRGRPVWLAGGRVLPDAPHLSFALEEGMIVACLSDH
+PADILRMLDAYDGMTPRDPEAELLHARPLAGFDTGFWDLGTGPGPDRIEIGLTRFDAASI
+SGTVILSGWEIPLPVPASSVYDLSGAAAVLGAHPAGVAVVPAGVAEALAQPLWRRPWMSW
+MWGAARQRAGDPLVIGLHGDALSGRFMGMRIPGLTISMPVRDPAAFPAALDPVLDRLNAE
+TRWGLIRASVPGAPELSMIEGTGAGPYAGLPPNECAAWWTTNGWLTIAASADTLRALSAA
+AAAGTPVGAAPWAARPGLAGNAGWAWFDLARTCETLRLSLSVWSLKLQVEDRDGSAARRA
+QLAAAREALAAFGTLGTAMCGLDATDGVLTIRFQAGGSSHEETLP
+>tr|A0A1W9LFR2|A0A1W9LFR2_9BACT
+MLAAGLGTRMRPLSRDLPKPLMPLWGKPILGHVLERLRAWGVRDVLVNCHHEPGQILEYV
+RRDPVPGLKVSLSFEPVILGTGGALRRAAWFLDDRPFWLINSDIVANLDPSPLVRRFSTG
+HQLAVLWMDDRRGPRTVQMKRGLVTQFQGGTYTFCGLHLVSPRILDFLPAEGFAGIIPAY
+ERAMKCGERVAGVCVPGSFWADIGTPRQYLDVHRELQPVKRRRDFVALGHGVTIEKGARI
+VNSVIWDGARIRRSARIEDAIVGRDADVAGPVSYIVLRADRALDAAEQSAIRTLGFDPDR
+ASVIPVGPRGSARTFMRVTAGAAGRASARSVLLVRYTDEREENALYAGHARFLARLGLRV
+PAVLLDRPDDRLCVIEDVGNEPLQAAVPGMSEATVLRTYRQVLQQVERLHARGAVAARRA
+GLRLMAPFSSSLYQWERDFFATHFLGHRLRERPGTIAAIRDELALVAARLLRAPRVLIHR
+DLQSSNILLCRGEPVFIDFQGMRLGPAVYDLASLLADPYVSLPEPIQERLLDGCARRSGH
+ASAIRNLFWWAVIERLAQALGAYARLSEQPGMAYFAQHIRPALLMMRRALSRVEKLPALR
+GWVKTVLAERH
+>tr|A0A1W9LBK1|A0A1W9LBK1_9BACT
+MPGCEPGREGGGPMNDAATGSRTARRAEGLLPWLLIGLFALNALNDARVHSAVCDEIGAH
+IPSGYLYWASGRFSGGVDNFPLGQLLIALPVRLLGLSYELFTEQHLLLFRLPVIAMAVLL
+GFLVHRFARAIAGPRAGLAALFLFAFCPNMIAHGSLATLDLPLAFFVFATMAALLGFVRK
+PTGGRFFLFALALAAALATKIQALLLVPLALAVLAAHVRDILPADARNRVALGLSLLWIV
+VLPWLAINAVYRHMPVVGGEWLPPQFVAAVAAKLHHSQAGHSAYLFGRYSERGWWYYFPV
+AILLKTPLPALWLIGLGLAGRRTKDVWLFAVLPAAAFLLVAIAGHVNIGLRHVLPIYPFL
+FVLGGIGATDWWDRSWRGTALALVALLYLVEAVAIGPHHLSYFNVLAGGPRNGHRILIDS
+NYDWGQNDRFLARYIAAKNVEAKINPDAFQSESGHVFVNVNALYGVLNGGDRAYLWLKTY
+RPVNRIAYTWFEYFVPARNVPSRPPDERLDAARRLVSGWRTRYADVNDGKYRHALAFALI
+AVTDYRGALEEIRGLLARDPADAVALTLGGELVVRWKLGALPFRGDEYLSGFRPVVAGAG
+FAPPDDDVLGRLSQTPAIAQPVSRMLNELGLALWRVRRDREAADAVRRAVLLDPKRYEAG
+HTLAWMRATSPEPDVRNAAEAVRLAEQVCAAVGPAQPETFDTLAAAYAEAGRFGEAIAAQ
+DKVLKW
+>tr|A0A1W9LGC8|A0A1W9LGC8_9BACT
+MNDIKWVAAGDYRDIRYEKAGGIAKITIARPEVRNAFRPLTVDEMIAALRDARRDEAIGV
+VILTGEGDKAFCSGGDQKIRGDAGYRDETGRHHLNVLELQRDIRTCPKPVVAMVAGYAIG
+GGHVLHLVCDLTIAADNAIFGQTGPKVGSFDGGFGASYLARIVGQKKAREIWFLCRQYDA
+RQALDMGLVNTVVPLAELETETLRWCREILEKSPLALRCLKAALNADCDGQTGLQQLSGD
+ATMLYYMTEEAQEGRRAFLEKRKPDFSRFPRRE
+>tr|A0A1W9LHZ1|A0A1W9LHZ1_9BACT
+VRAKQERWDDALKLYDEALALKREAGDKREQGVTLHAMGNVRAKQERWDDALKLYDEALA
+LAREANARDGIQVITASRARLQKERKPPSS
+>tr|A0A1W9LF65|A0A1W9LF65_9BACT
+MKSKAAFFVPWPVAWSGSVDREARGALVAAYETARAREREFVDSPKRQRYFARMRALAAG
+EWAASGDLADAQIDDAHLRLWRRVARDAQRDGQIPALRLGDCILVTETFSIMAEREGLLG
+PSSAVELLCDENSDLDWVASELREFLQRWPSVRFRHTPFRDLDSAMNLMRWMAEECPDRD
+LVALACPPDDILVDRMLESVRAKPGWPIEIADDPAGRIAVLRERRHRAYDEVSAGLARLD
+MATAFIRDSFMTALKDHIATDPFPVQMALSTLIRIGDAAHGIVSPAYSEPPTLSREMLRV
+ISSGEDFWYMVLFQILARHGGVSGERLVDGVPALLDAMLSHPARLRRLPVKSGLEALRTA
+MARRILPALRGIPAPIGGPAIVGGAATPAEDVLWRSAFRIATAQLRATATGVGRDEREKG
+TLALWVEWVEPFSDAVFAFLRRCHDVGARPGVSLDASALAELRCGRIPLELQPDEDEDEE
+EDQPAVPQTMPVWVEEEAPVAGTEAPAVRTWLYVHEPGNPASSTTEVVVDPDRGGADFGE
+FMRHEGIPTVVKPLSVLNAIDHYLALPDDIRAVLPHEVIGTMSWPKLKRGRLRILLRKDG
+DRLLFHIYARRDWAYRGPD
+>tr|A0A1W9L824|A0A1W9L824_9BACT
+MRQPDILFIFSDDHASAAISAYGEKRRLLETPHLDRLAREGMRFDRCLVPNSICGPSRAT
+ILTGKYSHRNGFFNNSNCRFDGAQTTFPKLMQAAGYQTAIVGKWHLIGDPTGFDYWNILP
+GQGIYYNPPMIRNGEKTRHEGYVTDIITDLSIEWLKNRDKTKPFVLMAQHKAPHREWSPA
+LRHLGHDKDRPYPEPETLFDDYGVVTDRYKLVHYYTPDLDDWELYDREKDPLETRNFIGD
+PSYGSTVTGLRAELARLRAELKVPDVPPREAYGNARFDNEPEPAGNPGKRPRKRAAN
+>tr|A0A1W9LFJ5|A0A1W9LFJ5_9BACT
+MTLIEVVLAIAIAALVVTLVFSIYHTVTVTLRRQQERQAGPAAAAAAAQQLARDLACTFI
+AWNDEAMVFALSPTNEADSEISFCTAVLPDGETDPRWFELQRVVYRVATDPAHERALTRE
+SRPLVGPATMSPPVTNYLAMGIEQFRVTAYDGTNWSESWPVPGASACPRAARVEIRAREA
+SGTRDFKTEIFIPAGNVVTSRLVRTATPGAAAAGP
+>tr|A0A1W9LEL6|A0A1W9LEL6_9BACT
+DEAIAGAAADFGFLETIGRVSLGYYRTSMGDFDLALGGRFWIATGSGYGLPDSFGQGFVR
+IRWELRTTQGLTLRTDALPGIYSGSSHIELDNFNVPFALSGIQAFGKVFAVQGGVHIHPG
+YAFDPIVGLRYAPHRDLTLDLAYPETRIRWNVHPVLALVGGYQVNRMWRFSLDDGDPSDN
+LTIRDHRLYLGADLKPGGLMTFTVRAGRLLNREIDYSPGPEADVADGFFFALGIAGEF
+>tr|A0A1W9LBI1|A0A1W9LBI1_9BACT
+MLTWVDCFNFLNNSTNEDVVLDNVRVTDSLGTVIVSGDTDGDGIPDAWEMLHYRRTSSVQ
+TEDPRRC
+>tr|A0A1W9LFU8|A0A1W9LFU8_9BACT
+MATHGKKYRKAADLVDRTKGYELPEAIQFIKDHPMAKFDETVDVSFRLGLDPTKSDQAVR
+GTVSLPHGTGKKVRVIVFADGPAADAARAAGAEAVGFQDLIEKVQGGWTDFDIAVATPDA
+MKEVRKLGKVLGPRGLMPNPKTGTVAADTALAVKQFQAGRVEFRMDKNGNVMVPVGKRNF
+EVKALVENCTAVIDALRAARPAAAKGTYLRRCTVSSTMGPGLHLNIRDVEAGGEG
+>tr|A0A1W9L9K6|A0A1W9L9K6_9BACT
+MAPAGGPDAAFAAFQYGADAVYLGMQEFSARADAENFSLDALNEITAFAHSLAPRRRVYL
+ALNTLILDREMPAALDQAARAADLGVDALIVQDAGLAGTVRRHFPNLRLHASTQMAVHNR
+AGVEHLRDLGFARATLARELTLDEIRDIATVDGIEIETFVHGALCVCYSGLCLYSSLASG
+RSGNRGRCAYLCRDRFAAGDGAERGDGAFRFSMKDLALPGLVGDLEAAGVDSIKIEGRKK
+SPLYVAAVTNFYRRLLDGPVAPADRRTMEQDLQSIFSRPWTTLFAAGRDNADLVDPDYVG
+HRGTPVGRVEAVSRRSGRTLLQFTTGRPVERHDGIQVDVPGSDRPFGFPVDHLFLAAEDR
+RPPREVFESHAGDRIEVELPDDAPELPVGATVYSASSQDVKRRYRFERPKPGLHRVRRTV
+DVTVGLAAEGLSATARLAPRYPGEAAVEASISLAEPLSPARNPHGTEEAVRRAFEKLGDT
+HLAAGTLTLDDPSGLFAPASRLNDLRRQLTAALEKEREAALSASVARICAELAPPVAAAA
+AGAEGAEFWRIKIDRPGVLDAFEPADLDGVAEVVFDIGFSDPAAVCADVGRLAALVGRDR
+VRLALPVIARAWDTEALQASIERLLRDGWARWEISNLSGWRFLPDESLDLCGGWPLYAMN
+RAAVRQWLAWGLSSVALSPEDGRNNLAALLTGYDARADVTVFEDVPLFLSETRACAIGGG
+TAPSECGRSCEIPLVSSKGGETLQICRRGRMALLNRAPFCLAGRLDELRALGARRFRAAF
+VWRPYEPAEVRDLWRSLRSGHAPTPHTVGSFDRGLG
+>tr|A0A1W9LCX0|A0A1W9LCX0_9BACT
+MESAAAVSLAAAARGAGAPLVFGVIADAQYADIDPKGSRFYRGSLAKIRAAAEEFNRRRV
+AFVLNLGDTIDRDYASFDAALDAFRAIEAPVRHLPGNHDFEVDDAQKAKVPAKLGLKARY
+TSFAHADVRFLMLDGTELGPAPHPAGSDARRAADERVAALRAEGLKQAVPWGGGIGAAQL
+AWMERECDAAGKAGERVVCACHYPVWPDDVHNLFNDAEVRALAKRRREIVAWLAGHNHKG
+AFGEFDGVPCLTFRGMVETADTNAFAVVAVHADRMELSGFGREPSRTLRFRT
+>tr|A0A1W9LBN3|A0A1W9LBN3_9BACT
+EAGARLRSALDWPENLGEGKLPGARENHVHLALGLALRSLGRSGEAERFLRAAAAGSGGP
+ASAMFYNDEPPDMVFYRGLALRALGRTAEARAVFRSLADYARRHRNDAVEIDYFAVSLPD
+FLVFEDDPRRRHAAHAAWMSGLGRLGLGDRRGARRAFAAVRRFDAAHPGLILPQAMVDIV
+GGSGV
+>tr|A0A1W9LF25|A0A1W9LF25_9BACT
+MLGRSALLLARINAGQRVVNLANKAVGKKARRGDGTFGELLPTATAIETECSCVCRGPVA
+TIEIGVETKILAKAMIKQIDRVVGDLGRQVEEFKKTGGTPICVGIVGVNHAEACTSYEGE
+RQWPTDGVKHKHPIQEAAEAQRRLLARAAPGFDEFLILGFKASNTPPYPFEWVDLNATQD
+AYSALLVRVSREYEKRFT
+>tr|A0A1W9LEQ8|A0A1W9LEQ8_9BACT
+MLNIEIPGYEILEKVGDGAMGVVFKARQRSLDRIVAVKVLRPELATDPTAMAQFRLEANS
+VAMLKHSNILMLHEAGQSNGLNYFIMEYVAAYSVASWLARKGVLSEADALTIADSVARAL
+QYAWDKAGLIHCDLKPGNILVDEDGIIKIADFSGISRSNLSAEAQLLREVMIGTPNYMSP
+EQVRGIEAIDFRVDIYSLGALLYHLVTGVLPFEHCTEAEAMQQQIDGKLTDPAELNPAVS
+VNFSMMIEKMMVKDREQRTAGWDAVLADITNVRAGNPPFPPLAHPGASTILRTVQPPPPE
+PPRPKAPPVFAPPAPAAAPAPLPSTVPRPKSKKLPVLITAAVALVIADVLLLFWPRIVPL
+WKGIRADREAGIAEPLPPLPLETPAAKPEPVQPAPVATNLVTPPTATTNPPPPPAVTNVA
+PQPAPPPMQPVPETDPAIAAGEARRAENLRTHLKLLQSAMAECTRRNYNGAITLLSDWSN
+ANTGHPNQPLIETELTRIRSIVALYQMLESNSRSLSG
+>tr|A0A1W9LFH6|A0A1W9LFH6_9BACT
+MATTAPAALYEVGPTNPCRRISDVPWTNVGPGDVVLIHWRETPYFEKWVLCRQGASNAPI
+VVRGVPNRFGELPVIDGNGAVNCSNLNFWGEERGVIKIGGANTPSDLLPAHIVLENLDIR
+GGRAPAADLHRR
+>tr|A0A1W9LGY8|A0A1W9LGY8_9BACT
+MEPTHDIYRKEDPPFLINRRWRRRRTHDSEGGREPPPGAPPGAPATGTAPGTAPSHLNPV
+APGSSLSHRSHRRHRRRPGDGGSGSRALWVILALVFGVYALFLVASVLRSKRQGHAAPAP
+TAPATAVPVSTNQQTGTEAARHIAERITAWNNLANITLAAQTLKEQGFADQAEERLTRAL
+ETTPDSTMLKVSLARILIQREKYPRAAELLTEVLEADPSDLKARLLLASVFDTQKNHAAA
+LAVAKWLLETDPNSPEAHRIAANAYLNTDRRGMALPHLRKVVNLDPDNLVAQNNLGVAYT
+QMGQHAKAIQIFNGILEHNTSDSMTYFNLAVCYAKQNMTDQSVETLTRAIALFGKPFVVT
+WMKSNDFDTIRGDPLFATLMEQQGMKTDGNTTLGTNAAASTLEPPD
+>tr|A0A1W9LGL8|A0A1W9LGL8_9BACT
+MRTLPVFFMAALAVARIVGAADDEGATPIADLSGELAAAREAASTAETRCAEAERAASIL
+RSRLGAAEESIAALRSRMSDESRARADVEHERDALARRLDPIHAKLAAATAAAAAADAEL
+GAQVKRARDDSAQIRSLESRVAKLQAAADKAAAAPPPPEATRMPPPTAGDLEAALDARTR
+ENLDLKIRIGQLETRLEEVGPGSAAGPRSLPADDAGRGRTAPETSADRARMNALFEGERR
+TLLLIQSTTEEHLDTARKERDAALRDLKAAEKRIADMAKALARRDTSAAEVLALGSDLEN
+ARREAREAHDRASAIARDKAATAREADRMRDDLARANKEIEILRGKLKTAETQPVPPAAA
+EPPPTPKTE
+>tr|A0A1W9LG37|A0A1W9LG37_9BACT
+MKLLVDAQLPRALSVSLATHGHDSLHTLELPDGNRTPDAELCSLADREERILMTKDSDFV
+RSFHLADVPNKLLLVSTGNISNRRLLQIVEAVLPSLSEIFAAHRFVEMGARSLVVHM
+>tr|A0A1W9L816|A0A1W9L816_9BACT
+MRRPPPSDIPDPDGLLLVDKPGGVTSHDVVDAVRRRFRFRKVGHGGTLDPMATGLLVLLI
+GRGTKVSDRVMGADKTYEGTLRLGVATDSEDGDGRVIAEADPSGVTADALRAAMEKRQGD
+QMQTPPMVSAIKKDGIPLYKLARRGETVEREARLVHIYEFTLLGFNPPQASFRMRCTKGT
+YVRTLCADIGREFGCGAFLESLRRTASGSFSLADARPLADILNGPREALSAALLPLTVLL
+PPAT
+>tr|A0A1W9LA68|A0A1W9LA68_9BACT
+MTRSIISQWAQLQRKIAGISEHILDSHSSGAWSPNTDVYESADDVVVKMELAGVDKEGIR
+IHLEEQTVVVDGVRRDPYGGESTAGYRFRQMEIEYGPFQRIVPLPFPVDGNSARAHITNG
+ILKVRLPRAHTPTATRITVVMEA
+>tr|A0A1W9L9Q5|A0A1W9L9Q5_9BACT
+CGGGIAAINSYLGLNYITPLIGDATQLLFEANAAGTNLGKGGGVCLVNSWATSWVWRCTF
+RSNTASRGGGVYFEGTTCFTLNSTFTNNRAGDAGGGAASYGATCLFSECDFSGNDCRDSG
+GGIFDRQGGLYVSSSKFRRNSATNSGGAISCLLSTSVWLYANGAPYYTAANGWPLLLEEN
+SAGENFGGAISVQSCGNFLVQRAAVVSNTANFGDGIYCYQTASRFEQCAIAGHTSDYAFV
+LSSSTGTLMGCTVAGNNYAMYMSDALVVVSNSILWGNAHLFVTNNNCTIVAAHSDIQGGW
+VGPGNINADPRLYPNWHLMHDSPCIDAGAANPSPEYDADGDARTVGWDMGCDEFLDSDGD
+GLPNVVETGTGTNKSEIDMGTNPNNPHSDGDGVPDGEEWMADTDPNNASSFLGFIRIWRA
+PALTVRWTGGVNAERWVEWRGSLATGDWTSAVHETPPTLRTNEWIPPIGNPIFVRVRAQR
+>tr|A0A1W9LHT0|A0A1W9LHT0_9BACT
+MNPRPPPRRILALSLAGAGDTLLATPLLHELRTAFPAAEIDVLTMQSASPREVLEGNPAV
+SAWRHFDFLREGRARSVAFCLSMRRRGYDLSFTVMPQNRLEYNVITRLIGARERLGFEFC
+CDCGAHPHWFLTRAIREDRRLHVVDNNLRLFTEGLGLPLASADPRPRLHLAAEHEAAADA
+FCAASPALRRRLIGFHPGSGTTKNLALKRWPPAHWADLARRVAAADPRAYLVLFGSADEI
+PLRREIVASSGLPPDRIGMAPDGAVRATAALVRRMACFVCGDTLLTHVAAAVGAPTVEIV
+GPTDPAATGPYKVPHRIVRLGLSCSPCYFFSKHGIACTHATPMACLSGLDAARVETAVLE
+LMRETGQSGRMIAE
+>tr|A0A1W9LGH0|A0A1W9LGH0_9BACT
+MKAVFSSSEIAPFASTGGLGEVSRSLPAALRRLGVDLWRVMPLYRQVAEGGHRIADTGLR
+LKIPIGFRMHTAEVWNHPEDETPTYFIRRDEYFDRRELYALPDRDYTDNFERFVFFQKAV
+VALIDALGFAPDIVHGNDWTSGLIPLYLRHGIGGVGRTGREAAVFTVHNLAYQGIYPGGE
+FAMTNLPFSCFSIEGVEFFGNLNCMKAGLTSSAMTTTVSRSYAEEIRTPAGGCGLDGVLQ
+SLGGRLVGIQNGVDDQIWNPGHDRLIKVAFDADHPEGKSACKAALLARSGFSHAMDVPLV
+GMISRLVDQKGLDLLAEAMPALMAMPLKIVLLGSGQEKYQVLCAEWARRWPDRFSATLGF
+DHKLAHRIESGADLFLMPSRSEPCGLSQLYALRYGTIPIVHATGGLKDTVREAGEGGLTG
+NGFRFESYTTPALLDAVQRALAMYAKPEAWTALRKRGMLEDHSWSKSAGEYLRLYEQVAS
+GARPVDKPR
+>tr|A0A1W9L7Y6|A0A1W9L7Y6_9BACT
+MEEAANLMKTILMAVVVAAGLAVAGTNRVFKVHSLGFTDTAAAEQTARSIVSPGGNVVLD
+TANNRLLVFATDAEHAQLAKLSAELSAPPKVVRIEVRHSGSGRQTERGGSLGVSGGMVLS
+PGGNSGTLRLSPSLTHTTTDTRDNTVQTLTVSSGRSATLHVGEDVPYVGWLVTRAMDWGL
+LQGVIQWQKVGAFLAVEPTVIGEGPQALIRVRLTPELSGIVDGNPYRVRYQRAATEVVVA
+PGQTIQVGGATQDREFYSRFLIGISRSGDHHAMSIELTPTIIEMAAPPGAPPR
+>tr|A0A1W9L8P6|A0A1W9L8P6_9BACT
+DALRMNLDLYPLWGRLAATVRDGKPAIPPGAHLGQDPARTRRFVLAMHGRALGMAAEMLP
+AIDPGPGVATLLDVGAGPGTFSRLLAESRPRLRVTHLDLPPVQAIAQELGASSPAAARID
+YRPGDYRADGYGGPYDAVLYCGALHQENPASARGVFGRIRDALRPGGTVRVVDLMREPGR
+AAPAFACLFSLTMRLTSPFGRVFDAGEAAALLLDAGFEAPDIRPVAGIPYHCITARRPAD
+RSP
+>tr|A0A1W9LCF1|A0A1W9LCF1_9BACT
+MKTWLMLLVAAWAIGSAAAEPTSFETYSVVFADVQAAEEAARAIVGQEGSVTVDQPNQRL
+LVVTTKERHAQLAGMMQKLNVPPRNVRIDVRFKGASFERDSGASLNVQGGVVRDPGLVHT
+TLRVKPRVVNESTRTSTDVTQTLLVASGREGMLHVGEEVPHLEWLMGCAFQWGYVRSQIA
+WQQVGSYLVVQPTVVGDGPLVRIRLTPELSGRVDGRPYRTRFARVATEVVVQDGQTFQIG
+GLDQDREFYSRFLVGSERGGTQDALEITLTPRILGRGPTEH
+>tr|A0A1W9LD38|A0A1W9LD38_9BACT
+MKHGIRWAGICAVAAALAASAADRVPVKVGDELAYAPPGAVRCTGWTGAAIETCRVGRIF
+GQSVPDLVRPFEERVMTNLWRCEFWGKWFTSAALAYRYQPDAPLKAVLDKAAGGLVAAQS
+PNGCFRPTGPTPS
+>tr|A0A1W9LIK7|A0A1W9LIK7_9BACT
+MEFRYLPLRAVMQGMDRFDWTPVEKLLGETSSRGCQAVFRFYLEYPGHECGIPQFLIDAG
+LRTHAYTNSNAQPPKSVVTPDYADPRLRAAMTNAIHAAGRRYDGDPRVAFLTAGFLGTWG
+EWHTHPRHDLWAPKETQREVMDAFEAAFRRTPVLLRYPAGDLDPQYAANHRRALGYHDDS
+FAWATLETGKKSDEWFFMARMRRAGPEAVEKWRTQPIGGEVRPETWPVLWNDPPGTPAGQ
+EFLRCVEATHATWLMDSSIVRKLTPEQRARAIEGARRLGYELHVARASVASAPGGGLRVA
+VALQNRGVAPFYADWKVELAALDTAGTAVATWTPPWSVRGLQPGVPERVFEFTSPVAVPP
+GAASLAMRVVNPMPGGKPFRFANKDQDAAAPGWLTLGPVPAR
+>tr|A0A1W9L8S8|A0A1W9L8S8_9BACT
+MKPAAFVTAGRAYHADTCSELVQAAGRGEVRLEALARGTYPGGRLAPRAVPGVRSVGFWD
+ARHEQDWGLPVHRNEGIEFTFLASGSTGFSVDGRAYTLRAGDLAVTRPWQPHCVGGPRFE
+ALGRVVEGRDRGGSVTSRLALEINGLLFGILEALRAQPVADDPDLTSAERATEMFLSELE
+ASSARPWTLDTLAESAGLRRTRFAHYVRKLRNMTPIEYLAHLRVERARRLMRERPDLSLT
+AIGLECGFASSQYFATVFRRVAGHAPREEKRAGRGRDL
+>tr|A0A1W9L9Z1|A0A1W9L9Z1_9BACT
+MKHDGDGPWQWTRLWGSDVGDFGIGSCVSTSGEICVSGSTRGSIDGQPYSGPNGYNDIYV
+SLWTDTIDTLPLDVISIAPKPGKEFVSAGTTLTKNDFNIVVDPPSCGGVVNVAPLSYPTA
+GVYHVVASSASSAATTTVTALQSDSILNVDDPEDLPNVPMTNGVPLYTTTLSRITFGQLI
+MMANAQGSPLDPAYDFDWNDWSNAVEIARKAKSRGILDVFQGLDWADIKARILDPVNVVQ
+GNFYADEIDLQLAAPDPLEIRRSYSSENLAPSDLSAGWHLSRNYFLFVNNPVFDLATNAA
+LPTNAEVRVSEPDGTAVVYSRNASTPANVLLLNAGASASDSNAPLNNVNANGIGARANLM
+NNRVVYVPSNRSFYVYNGQGSVRRFEWQEFGATNDPAYRKRPYLVHEQRPNGNRISFTYT
+INGLPSTIRAADNTGATVFNSVSFQYNAENKLWRLTASDGRTASYYYDGFGDLARVVRPD
+GSEVTYSYEHFPINGTPTNYSSHRITRVQKPDSRILENEYFQVGQMVGGQVLTNGHYLVG
+RVKLQKVTQSSPSALITNAWFSYSVVTNGPTAGSGFAEVLDALKNRTMYRFDTNRHITAI
+ERYAKARDGNGNPIMDGTNFTYTLSSTERRYWNGVNLVRTALENASSNVVFNWGATYDDR
+GNLLSEKIAGNLSGNFSGTLQFDTNGLPLNGELASTLYTYTYNTANTNDAQNLMTSIIRP
+NGSVLRFVYASPSNSSLTARYFCQPDSDTNAFNNAIYSREFYEYNANQVLTKRITDDGTA
+SNKTDLTGVAQRRINEATPGTAIPTFGLPVTVYDKFYNGASDQTLLRHDLRYDARGNPTN
+VITYNSTNGLQFSTGFGYDLMNRQTFALDANGGQTTYAYDNNGNLTTLDGPLTSLTDTST
+FSFDYANRLVSTVRRDGFGNVLTNKFAYDEYGNELARTNLHGQATRSYYDDLHRRTAIIL
+PNITTAESNSVAPTILSGFDLFDNITALVDANSNQTTYAYNARKQRTAAEYADNTQETFT
+YDTAGRLIESVAPNGSYTVYGYDLLDRVTNRSVFSETGTLLARFSTAYNVFNVTAQTDAN
+TNTTSFAYDWAGRLTYEYGPGPTSTRAQTQYIYNDLSQVSQRRVWFGTNATDYSTTVYTY
+DNLGRVVSEIVQDSGATTLLKAEYGYDATGNRTLVRTFPTAASGGAATLSEYDALNNLVS
+VTDALTNRTTIAYDYSGSGLKTIVTDPLSNKTVTILDALGRETTVERRNATNGLLRLAEY
+RHDPNGNRTRAIETVIGSNHVITAGWTYDSRNRALTMTEALGSADERTTRYFYNDVGQLY
+SQKNPNGVEFFNFYDSRGRLANLVSGDNSIRYRYTYDANNNVVSVQDIVTGQTTTRQVDE
+YNRLKKETQATGFVLEYAYDRASRETRVLLPGSNAVDYVYHAAFMTAVRRMTNVTSLGAS
+GSLAYQHSYTSNDLAGNILGVTLASGQSQTFQTDRLNRRTLISGPAWTQTVASGTSGYD
+>tr|A0A1W9LD98|A0A1W9LD98_9BACT
+MTVQEIFKAGGILMYPIAALSIAALAFIIYLFVVLRLDAVAPADLLHDLREMLGSGRREE
+ARLACRRSRSALAAVGETGLTWLQRNERGETSLLKEVMEGEGSRQAAQLQNQTQYLLDIA
+VIAPMVGLLGTVVGMLQSFNAIALDLARARPMTLAAGVAMALITTIGGLVVGIPAMAFYA
+FFRGRVAKLTAQLETAAADLLGLLLGSRNAR
+>tr|A0A1W9LED4|A0A1W9LED4_9BACT
+MGTAIVFWSTVPLLLKFFTHRLDTWTVNGLRYLFAALFWLPYVLSHLREVPAGRNIWRDA
+IPPAAVHAVGQVLFGMTPYFNDATVINFVSRISLLFTTLFGFALLPEERPLAKRPLFWIA
+LAGTTGGLIAMFIGGLGTKSTSGLGMAILVGTSALWGLYSVLVRRCLHGYSIRLSFGVMS
+LYAAPIVLTLMFTLGNWTPVLHQPVSMWLLIWISAVAGIALGHALFYRAIHTLGPIASEG
+SLMLIPFVTAVLASLLLGERLARLQWIGGFVLVLGCLLLLITKTAMQRREELHVASAAD
+>tr|A0A1W9LDP1|A0A1W9LDP1_9BACT
+MTTRWIAPACRLIVAAVFIAAGIPKILEPHAFAIAVFRYQMLPFSLVNLMAIFLPWIELV
+AGIALLSPRSRGGAAAIILAMLIVFTVAIAVSQARGINIACGCFSVDPDAKHIGWWNLAR
+NVGLIAMTVVGWRLSVIRSRITYGPSA
+>tr|A0A1W9LCD4|A0A1W9LCD4_9BACT
+MSTDPFPLAEDAPLLLGGHRFTSRLLLGTGKYSDIPTLVAAIRASGAELVTVALRRFNPH
+RPDDDLAAAVRALPGVTLMPNTSGARDAREAVRAAHLARELCGSPFVKVEIHPNPHHLLP
+DPLETYEAAKILAAEGFVVMPYMPADPVLARRLEDVGCASVMPLGSAIGSGRGLATAEMI
+RLMVRDCGIPVIVDAGLRAPSEAAAAMEMGCAAVLVNSAIAAADRPVEMSAAFAEAVRAG
+RRACLAGPMPRADAAVATSPLTSFLTGAAG
+>tr|A0A1W9LAB9|A0A1W9LAB9_9BACT
+MNDLLLSADIARACGRRTEYAALGVLIRRRFPCETQARMEYALSLAGRPAAMSAIRELTA
+LTETCEAVHMPRVQAMLAAAFARAGFRATARRHAAIAEGAGGARDPFACYDLAWTAMYLT
+DWNAAIEHGERAVKLAPLWPQACGTLASAHLAVGHATEAGALLRGALDNGIEDEAIDLTV
+ALFEFSQNRLDAAAAHFERYRTRWAGARSFRPAMVTAAIVRWSLGQPDAARDAALASGSG
+LSELLDGARPDGQHCFIPVGYIAQRHNQCVPTSIAMIARAQGMALDADDLFGRMQGSDGT
+ALWRMRHVMEKSGFNVLCLRAEPGILRHMLDLGLPLMGCTETRHSAARSSRSWDPTPPGG
+PPFRRSGSPTMQPGCSISSAPAGQAPGRPPRHWRPPSPTARPPRFSATVSPTVSSSALPV
+TARSCDLTRSTRRILRFFAGRPCSSSVTAKRPRKCGEWPTKRSDIRSIAIWQRSKRSRPT
+VRRSTTGP
+>tr|A0A1W9LF51|A0A1W9LF51_9BACT
+MKFDPDAWLDLVEAAGMKYICLTTKHHDGFCLWDTKQTSFNTMNTPYGKDIVRLAGLDEV
+PRFPPGAGPRAVHELRRDPRFLVGHERAEARGPVHQRDDPPAPAGGRHQQPRLRRRRLRD
+ARARLRPEVRRGRGVPTCGVAGVECRQSHRACPANSLAFAVPPRLPFGQLT
+>tr|A0A1W9LDR4|A0A1W9LDR4_9BACT
+MAGLPGLLLAIVLGGGCSGGSRRTPHETLAPDVRIVQPVPGAGADPSLDILRKLFPGATE
+IPPTRMPGELSRALNEKKVLLIPNARRVPQEWWAPLKDYLDRGGAAVFLGRAPLEDRVRL
+GGGRPRTEAERTGDLLGAARRVEGVSAIQGWQHLNDGSAVLGAVRLAQNPPADWSAISVE
+VQGLGLWDAMVLDGIPAGRIAAGENSLAFYARGREDTSRLVVECEEADGSYWICPVTVSA
+DWRPCLLHEAGFAYFYGGKGRGGNGDHLVLARARKLSVGLSMFHAPQTPNEHTFDVSDVR
+FAADPYAAEDAVSWPDLPLLSPPYRRYPLAALRIELEDESAGWSLGQTAIESAMPRARGV
+GGEDGAPYRWIPVARAVDGEGVVRGWPASLYVEPGTGGVARKWAWIGMDPDLSLQEPLGE
+ILGECVDRLRLGLFLFKAGSRRFSIGPDSNIVVTARCTWNADNVSSLRVAAELWEKGASF
+PARRVVAAASDPGAPVELDLGRAPKVGNDAEDYVIRLKLEEAYARGRRVYDVIEQPVLLL
+PATRPPAGEDWVTTVGARFAFGGKALFLLGMNYWPISANGRAPGEYNAHWLEPGMFDPEL
+IRRDLAALESVGVNAVSIQYHEERQAPQLQFFAEEARRRGIWIHSFISGFQPLDQDLERA
+RALFEAADLRNQPRVFAVDLAWEPRLGPYAARCRFDDEWAAWLAEQYGSVPHAEKVIGRR
+LWKEKNRVTGPPDHELTTNGESRVAVEVYRRFVDDLMSRRYGQIARRIRSWGGRQLLGAR
+TGFGGTGSSWADPYFPMDPAAGAMHFDFISPEGWGLSGAQDQFREAGFITAYARGVANGK
+PVAWVEFGTSVGADPRAADLLNQARIYANMFDLVTRSRAAACFGWWYPGGWRVDERTDMG
+VVHPDGTWRPVGDVFRQFTHRLRREKWTVDPWRGREVNRGADARGLSALWARWRSTYRQE
+LADSRMEEVRPVGFGKRTGDTSFRSTGGVAFEDPAPMESVNAEWGQILADGVEQDRRPGQ
+AIRARRRQKLRMELINTGAATWDASEEGKTGSVWVGLESPQNARQKMPVGFVRFGDRVWI
+SWLAAEPGRWRLRPLVSGIGAFGEPLEIEVSEERASDR
+>tr|A0A1W9LGF0|A0A1W9LGF0_9BACT
+MKRHILQAILVALPALAALWLASGCEAVKVISEGVAAVGVATGTVTEQQAQSIVKSGEAL
+GSAMEQLTPENEYWIGRSVTATILGSYKPYERSDVNRFVNQLGQSLALFSDRPETFGGYH
+FLVLDSDEVNAFAGPGGLITVTRGMLRLCRTEDALAAVLAHEIGHVQYKHGLRAIKRSRW
+TGAFTTMVVEAGKSLGSADLAEATKAFEGSIGDISQTLMNSGYGRAAEREADAAAVRILA
+QAGYNPSALVAMLEEMGKGHKPGGPGFAKTHPDPAVRIAEIRAMLSAPSPVAPPPVRQQR
+FAAFMQGV
+>tr|A0A1W9LBP5|A0A1W9LBP5_9BACT
+MAHDWIAILDFGSQYSQLIARRVREQQVYCELIRFDTPAAKLAARRPKGIILSGGPASVY
+GRGAPHCDPEIFKLGIPVLGICYGMQLMAHALRGGVQRGKAREFGPASIQIVSQDLLFRG
+MPRKLSVWMSHGDQVAKLPRGFKVLARTPTCPTAAMAHPERRLFGLQFHPEVVHTPQGMY
+ILRHFIFDACGCAADWKMSKFIEDSVAEIRARVGRDQVVCGLSGGVDSSVVAALIHRAIG
+KQLHCVFVDNGLLRHGEAEQVEDTFGKTFGMNLHVARSEDLFLRRLRGITDPETKRKIIG
+>tr|A0A1W9LDU4|A0A1W9LDU4_9BACT
+MRVEQHVAISAVISGAVWALSRSWEMALALFLAGVFMDVDHVIEYLREFGFRPNLRQFFR
+ASYEREYERAVLVLHAWEWLPLLAVLVWWTHGNPWAVGAALGWTQHMACDQAANTRHAGA
+YFITWRWKHRFDHDTFFPPMPPR
+>tr|A0A1W9L825|A0A1W9L825_9BACT
+LAAAVNGAGFIGYLVWLARRGRRLFFEPQGVIYLLPCIAFFFVFACLASRRLPASSAHPD
+PGLHNPTSNNQLET
+>tr|A0A1W9L9Z6|A0A1W9L9Z6_9BACT
+MADALGITPTYNEKENVESICAAALSALPGAHHLFVDDNSPDGTGAILDRMAAENPCVHV
+IHRSGKQGLGRAYIAGFQWALEREFGFIFEMDADFSHDPAELPRLRKLADTADLVLGSRF
+VEGIRITNWPLSRLMLSVSAAAYVRAVTGMPLHDPTGGFKCYRRAVLEEIDLPTIASNGY
+SFQIETLHRAWIRGFHVVETPIVFEDRKSGVSKMNRSIVREAFRLVGRIALRNGLRRRPP
+GIHPRSVCASL
+>tr|A0A1W9LE02|A0A1W9LE02_9BACT
+MKPQASTEFAAVPMQMVGPIRIVGSEVNDEVLVPLATYETPLWPSVNRGAKVSMAAGGIR
+AVVVDDRMTRSILLEAPNADVAHMITSRLACDREPLNKIVGETSRFARLLDTHSQIVGNL
+IYLRLEFFTGDAAGHNMVTAAADRLMAHILQEHPELKYVSISGNYCTDKKASAVNGILGR
+GKNVVTEITIPRDVCAKILKTTPEKIVELNIKKNLIGTMLAGGVRSANAHFANMLLAFYL
+ATGQDAANIVEGSQGFVHAEVKDGALYFSATLPNLIVGTVGSGKDLDFVRKNLKAMGCLA
+EREPGRNARRLAIICAATVLCGELSLLAAQTNPGELMQAHIKIERQKKGPAEHTE
+>tr|A0A1W9LEA8|A0A1W9LEA8_9BACT
+MTAVTTNRLIEALGGTGADGTASQLQAHPGVALFFGLMLVLGLAGCAAALTWMIVRRPRT
+EMLLARPWFAHDAIRLTLTLLVLLGSYFTALGILQQARPDLAASDSFVAAVAAAQSAVFH
+WPILVFAGIRMSQRGLTPETAFGIEGRRAAVHAGLGAALYPAALPAIAAAAFTARLLLQW
+GGIEAEPQEVLRLMVDHGSGPLRFYLIALGVVIAPVAEEVLFRGIVMPSLARHVGVAGAL
+VASAAVFAAMHMNVAATAPLFVLGLVFGLAYLYTGSLTVPIALHAVFNSVSIAVSYILAD
+VKG
+>tr|A0A1W9LHK1|A0A1W9LHK1_9BACT
+MAAMIPGGGRVRPWIDGPGGLREVWRVAYPLILSTASLSLMQFCDRMFLSWYSGVSIRAS
+LPAGILSFTMICGFFAVAGYGGTFVAQYHGAGEPRGCGRATAQAVLFAVLSWPVILLLFL
+PLGRIALRWTGHPPDVLAEELVYFDITMWGSLGSMASTAVAGFFSGRGDTRTTMWAYMAG
+NLLNIPLDWLMIFGRLGVPEMGIRGAAIATVIAGCVPPAILFALYFGRRANREFGTRATF
+RYDPVLFRRLLRFGLPSGVHLALDLTSFTLFVLLVGRLGPVAQAASNIALSVNTLAFMPI
+LGLGIAASIVVGQYQGRREPEHAERGGWSALMLGMVYMAAIGSTYLLFPEFYTRLFSGEV
+AGAFRTGDLLPTVRPLLVILAVWSLADAADIVLAGALKGAGDTRFVMAWSLAIAYGFFVT
+GEIVIVLVLELGLIAAWLWTCAYIAVLAAGYLWRFKSGRWKSIDMLGRGRSDILPPPGRT
+GTDGLAVE
+>tr|A0A1W9L980|A0A1W9L980_9BACT
+MERGAQQLVKIMAAAMLFGIVVMAMRPEYRAAVAALWQGKPESSPVWTSNAAYYPGIPWT
+TERRHAD
+>tr|A0A1W9LBR6|A0A1W9LBR6_9BACT
+PPAGTAITTAIRPAPATNDHAPAQPLCRISSNRFAGSFLRLQAGAGYSIRLSSPAFASDQ
+FLAVTTRVDVVAAATNRALHVAVAGNDAADGLTTGTAWRTVAHALATAVTGDCVLIHGGR
+YYEGDLTAPRSGTPSSPIVFRNAPGEQPVLDGTDTNFIPAWTLYDAVNHIWRSPCTAQPD
+NAYLNGLQFFRYVNLSDLVSDTWSQGSGFHVDGAYCYARFPGGIAPGTNVFTIPAFTTGI
+TLDNVAHLQFIGIEFCYFGYETYHRGIYMDGADSNLVDRCVFHHNGVGVAIKRAADFNTI
+QHCFFTESPVTTWSWHAIKEGGVGYEAGGVYVYGSSQANQGNVIRNNTFRDLFDGGHLYS
+EDLAGPTKNMDFCGNFLSGCGDDGIETDGAGVNNRIYDNVFTNFLTGISVAPCAIGPTYI
+FRNVLAGWHNAEEFEGYPFKFNVSSSLTIDWVHLYHNTCFTDVPGQDGFLFKNYSGWTNI
+VSRNNVYAGTDYAIESWPATNPVSFDYDALYTTNGSRLARWGGVNYATRAAFSGGTGQEA
+HAVTGAPRLVSTPAGGFRPAPDSPLIDRGVVIPGVNDGYAGIAPDIGAFEFEPEVVGFFP
+EGEGLVSRWSVVSGSTYAVQISTDAVLSSWADLAGAFSATGFNVSVVHSSPVPARAAYRV
+QTR
+>tr|A0A1W9LGZ7|A0A1W9LGZ7_9BACT
+MKKLLLGLGLACLAGALPLSPGCTGSDDGEDGTSGATNAVSTTLSGSWVGTISQVGGVAT
+DISMGISQNGDTLTGTYQGTGGVNGTLTGFIGGNSVEMTTVTGGGTAEWTGAVNDALTTM
+SGTVVIVVGGGGSGVWTLTKQ
+>tr|A0A1W9LAU5|A0A1W9LAU5_9BACT
+MKNPLPILCLCAVVAASCSRRDAEPRVYTEEAPAPDAMPAAAAMPPGNVPMPPPAEVAWT
+LPEGWKANPGGGMRRATFTFEEAGATQECALTSLAGEAGGVTANVTRWAGQIGLAASPEK
+LRAFVDALPERKTAAGSPMWIVDLSTLEDGRAADAPRMIAAIVRRANDTVFLKLTAPRAV
+IDARRAAFESLATSLR
+>tr|A0A1W9LDG2|A0A1W9LDG2_9BACT
+MSAFVLDTSAWIAHFFGEQGAEAVTALWRDAGNRVSVSAVSVAEFRGRLRQELSDPATAD
+AEMARYLESMLHVVPLDTGIAREADRIRQRSEGRLPLVDALIAATAVQIGATLVHCDRHF
+LVLPARSLRLMVLR
+>tr|A0A1W9LDE1|A0A1W9LDE1_9BACT
+SNTAVGNGGGLYFLGGGEARNCLIVSNSALYGGGAYINADGTLQNCTVVDNRATKGGGSI
+GGGGIWSGGNGTLCNVIIWSNYARNGADYDLAPATAVRCDTTPAFGGSVTVTAVPDAYNH
+FAGWSGEVPGADTNNNPLTLVLDRACEITAAFGENRTTNTDTPEWWLALYGLTNDPFEVE
+AVCDTDEDGLCAWEERVADTDPTNRFSTFEIEILLRGSEQFVTFSSSTGRVYTLQGTTAP
+LQPGSWVNLDIRIPGTNTLTTLSDPGGSAWGAYRIQVEFP
+>tr|A0A1W9LGE5|A0A1W9LGE5_9BACT
+MFPWYSRVLGLSCLLCFCTVANPSLADVYIRLGDPNGSDLEFKQVGYVTNAVNIGVAGAA
+TNFPKEMNTSWWTVQPFYFSLATNDVSSDLLVHLDPYWNDGSGTLTMALEVYSGGSWQEV
+GRTAVCSVISGGLAVPAAKLAVGRNDMRLRTVSSSGGTGNMTWDQIVVRTRPPASTPDPN
+PAWFSANTHAWAKEDWGGITTITQVQYQGRSCLRVNAQGSIAYIRTEKLLEENWELPILG
+MQGDIFLVSTSKTARVKLEMKDRNGNTIEAVYAQTLQTNVCNNLTWIFATNLDYSAIAGM
+IIAMDSLGTAGSQLYIDNLKLTTTAGEPRLWDDFDSNPMRWTVTSDQAVGYDDSVDFNTN
+GANDSVTANEYSGPGGGSIYLPWNAAVTSAPYAKVFNQEPLRESWTGVDGISFKAKVSTT
+NAKLWVAFIGSTNYVETPPLNMAQSNVWLSYRLSLPRTEIGWTNMQQLSFLVLTTNAPTG
+TLFVDDIRLHRAGPIAASVWSIGKENGSGAEFEPASTKTNYVVDYQNMTAYQSFPDRQGD
+SNRSLTLAFKMAGGPVARVSRLAATVVPSASQGEVRLTVLAGAAATNVGTLVFNPAQGLI
+SASVDIPSNTFVIGTNRISLVKQGTGGQVLFDYLDFQSLHSTSNLYDAIADNASREWQQG
+YVFPITTNWYPLQTIHFTSYNMIRNIGLYPDEERRMFFEPEDAAGFAVMQRTTGQWAGYP
+FNLYRYEMGNRYKMFPYDLDDWDWSEAESNDLRMTLEFSQSQLEGDPWGPLDHTEIPAWS
+QYSANLEVLDENPPGSESWPWNCAVRAVGYLKLSSAFASHAPSPRMPFFNVLNYYGPGDW
+RNEEQSRLPEVYSKVNNDQEIVFYGKMDGSYANGAFEMKFGNLRDAELGYCSRAQIRTRT
+CSRRDWDLSDVTNRICLAGIASMFWKDEDDSPWDSTDQSHDSDMVMIVRTNGTFASHELG
+QFPAEWTDECAGPGCPITNMTDAAPYVYNLGPVTSGDVVYVLQQDRNIDHYRALNLHSLD
+YNPQFQGRGSLSYKILKTSRRVVVKVYECHPWLDTWDNEVISLEVDPTETDVLAGEPLDF
+DYEMTAFVTPGVFFTDPNTGVVSKVIDNNVTLKYDAYHPSGTNLIASIDLDYTANGLTWT
+PIATNVPNTGSYNWNISSVPATSVWVRIRGRADDGTLGWDVTDSKLVFSTAAAQTGLTVQ
+STMTNESMNLQYNGTTKLIQWNIGPTSGVSQVAFVKLQYSTNGTNWTDLATREPNDGSYL
+WDLAAVPAGTYRVRVYGQAADGTFQYDLSDGTLAVTNFQSFPILIGTNNASDGEFNQNGN
+TYTNGVYDANRSFVWRFPKELGLNYWRTQDIAVAMTPTVMTQGMQLVLDPAWNNGAGALN
+VAVSLHNGEKQTLLDTLPMIGTNPASVAIPANLLRTGTAKIRLTAVSATYDTYATTWDQI
+RIVTIPPLNLVLGQKDGSELEFASSNYERVFNADTMTVSQFPKELNTIWWTNQDIRVTLG
+ATTADRGLRVHLDSMWADGLGLL
+>tr|A0A1W9LCX2|A0A1W9LCX2_9BACT
+MGKGFAKGAALGDYAQYKNTAQAIGGFAGQMAVNFTPAGWAGDVRDFSAAAGQVNNQGLG
+WRTGAGVALSAVAFVPVVGDALKGVAKPLLKAADDVPINSITHAAAK
+>tr|A0A1W9LFE5|A0A1W9LFE5_9BACT
+MSAIHLQEPVRFLSRRRFLALAGGSTAAVMAGCVTNPVTGKSQFSLVSQDEEIKMDRENS
+PHQFSSDYGAMQNPAVNRYVESVGNGLVGVSHRPAMPYSFRAVNASYINAYAFPGGSVAA
+TRGILLELGDESQLAGLLGHEIGHVCARHTAQRMTSGLLTQLVVAGAAIALEQGDHKQTA
+AVVAGLGGLGAGVLLAHYSRSDERQADTLGMEYMTKAGYNPQGMAGLMEVLLRQEKHKPG
+ALEMMFATHPMSQERHDTAVERARTTHADGAGFPVHRERYMDSTAPVRALADTIGAVQKG
+DAAMGAKNPREAEAFYKTALKKTPDDYEALLKMSNCLLRQNRADEARSFAGRARQAYPGE
+PQALHVEGVAALSEGRAEQAHRCFSEYAQRLPGNPATLFYNGLSLDALGRKRDAAEQYAQ
+YLQAVQQGDEAKHAVQRLTEWGYLKP
+>tr|A0A1W9LAB8|A0A1W9LAB8_9BACT
+MKANITDLDRALARICELCPVCRTARRHPEGAANAFVRRIEGRVCPFCRAYARVHGRPSH
+APVPRVPKG
+>tr|A0A1W9LG64|A0A1W9LG64_9BACT
+MATKGRRALRLLGAPHITVACLLWFGVLTVWGTLYQADPLHGLHGAVQRFFHSWFFLAGG
+VVPLPGVQGTSALFLANLFASMLTRFERPSRAIGLWIVHVGLVVLFLGGLLSRQYGRETT
+LVLADGEKASMSVSETGWEIAVLTPGAEGRREVRAYDVRNLRAGGSLAVPGVPGSVGVVR
+VIYAAVVSPAAGLTPSPEQVTDAPAASDPRMDRPAVVLRAGDERLVLLGEGPAAVLHLEG
+GGEAHLLLRRARLPLPVSVKLIDFEKKFHPNSGIARSFSSRVEVDSGGRAREVTISMNRP
+YRHGAFTFFQSSYMDNPRGPEVSIFAVSENHARLLPYAATLIMFAGMAVHYLPRRRRT
+>tr|A0A1W9LFT0|A0A1W9LFT0_9BACT
+MKRVVITGVGGVSPLGQDIPSLLAAIEAGRCGTRRMDGWDQYPGLRSHVAAPAELKDEKK
+IPRQSRRTMGRMSIFAVQAAEQALADAGLAVADVPAGRMGCIIGSTTGSAISLYETYKSL
+IPVWDITNLSATRFFQCVSHSAAMNVSQHLGITGRIMATCAACVSSLQAIGAGYDLIRLG
+EQDAVVCGGAEELHPTTTGSFDALFATSVRYNDEPSKTPRPFDRDRDGLVCGEGAGIVVL
+EDYDRAVARGAKIHAEIIGYHTNGSAEHVSQSSHETIAACMRGALESAGLGPDAIRYINA
+HATGTVQGDTEEAAAIRELFGDRVPVSSLKGYLGHLLGASGVLELIVSLAMMRAGVLYPT
+RNLDAVAADCEGVDHVMSARRGEIPVLLKNGFAFGGINAVLVCRKAPA
+>tr|A0A1W9LDB7|A0A1W9LDB7_9BACT
+MHIGLVAYRFHGGVLQMYVRLCAAAGIEVTVFTSDQIRRDIGQHFAPDPAPVRRFVICPQ
+GSRTDFLGEIAAASAGLDALLFVELQFDTPSAWRSFLSQTFRCPIHAGVHDIVLEPIPWW
+RMAARRYGALRGRAFASIAGFVVHAPRMRDRFAAVVAPRCVVCLPVYFRDARFRRSPDVV
+AGPLTLCVPGSYAAVRRDYDLVLGVSERLLQRGVAHRVVFAGSLPWGGDRSFFDRWRSHN
+RTHGDILSWSGEYMEEAC
+>tr|A0A1W9LCI3|A0A1W9LCI3_9BACT
+MSDIYQMPETPRSRYRKSPGLQKTRPPERLRRELHSDVWVGVALVVMAILLVVAYLVATS
+HPAPA
+>tr|A0A1W9LDP2|A0A1W9LDP2_9BACT
+MHLNPFRLAAILAGCAVAALAADPIGSVIALQGQATASGGGAARPLALKDAVFTGDTLKT
+GPGSRVQVLFSDDSLFSQGENSETVLDEYVFDPKAKDRNTFKASVGRGVFRAVTGKITEL
+NPDRFQIRTGRSTIGIRGCGLLGNLGPDRDEFCIDFVRPGTEILINALNGGPGGLLRFGG
+PGFGFVDNLGNTGQGPFDPAMFRGLLNGIIPGFAMPGGMGGGPGGGALAGGGNGPAGGAG
+GANGNLPLNPLFGDNGQIFLNRRIGAHSLLPGSVLATLLRASGHRPPPGGLQLPNGPNWE
+YFGYASAQLDYIPYVKKTMASKNGFTLNVLGSINGLYETPNPSDLSSRNEDQVYVALDKS
+GSPNPAFLQISLFDAYDNLNPRVALDPPDASVRTGNDAFFGIWNDPGAGERGNVGNRGEG
+ADWVWGEWGVTQTTANAETAATGVYAAGRTLGAAEVDLLRMGAQVYHLQSDPIGKAAAFV
+SDGALTRRLDGTANLNVVLGGEQARWEGVFRLANPAGDKLDIDIGPTPITALGHLQGNPS
+NYQLLFNGSNHGTPSSGSMSGNLVGPGPNTLGLPPVTGAVGGGRFDHGPYRPRVNMTYGT
+SLKAGNPPPQ
+>tr|A0A1W9LGN6|A0A1W9LGN6_9BACT
+MIEANELTKVFGRFTAVDHVTFSVRKGEIFGFLGPNGAGKSTTIRMLCGLLSSTSGSATV
+GGFDINRDPEAVRQNIGYMSQKFSLYKDLTVSENIAFFGGVYGLEGARLRERSAAVVAMS
+GLAGFENQVTGSLSGALQQRLALGCAVLHEPPILFLDEPTSGVDPISRRLFWDLIQNLAA
+GGVTVLITTHFMDEAEFCERIGFISGGRLVALSTPAAIKRDAIGEDLFEVSMPLTRGARE
+RVERIEGIVASTYFGERLHVFARRGAFTESALRQSLRGGGVDAQSVAAVPATLEDAFVRL
+VQKQAAEQNR
+>tr|A0A1W9LDH3|A0A1W9LDH3_9BACT
+MGIIACLWLAALPVGAQESAFAPSLQNPSFETPASLEDTNAAPPEIWHYFSSKPGARVGV
+TASAKRSGGQSLTLKAPPRDNEFVGVAQSFPVSPGYHYVFAAHVIGDAPDRLVGEAFGQM
+HFEWRDAQGKEITRTWGPTWNAQLPTRRWERFMVEGDAPDGAVSGIVVMTLHSKNSGGRG
+TVYIDDCEFGGGLRVSGSPRRGPTNSADRIRRPPSPLRQKTPPGP
+>tr|A0A1W9LEL1|A0A1W9LEL1_9BACT
+MTDETMVEAAGLTKVFRDFWRRPRVRAVDGLSLSVGRGEVFGLLGPNGSGKSTTLKMVLG
+LLRPTKGRLVVAGRPPTDVRAKARIGYLPEESYLYPYLTAGETLDFYGRLFDLGGAERRR
+RIDELLAMIGLDHARKRLVGEFSKGMARRIGLAQALINDPDLVILDEPTSGLDPLGCRQM
+KDLILALARRGKTVLLSSHLLADVEDVCDRIVILYNGRVQAAGPIRELLEEKSRCRITLP
+DLPADVLRRVLAAAREIAGAEPEFDRPRKNLEQFFLEVVARAQQTAAPTGAQASSAVADY
+LSAPAPARPADAPPAVPADGASKDAVDARLRELVRPPDGGPPSP
+>tr|A0A1W9L7S5|A0A1W9L7S5_9BACT
+MKKAFVNIAVATACCISSAGANEVAFPGVDGPGAVIWTLPASVSAAAPMDFSVSVTGFDA
+QPENGGYVLRIGGQAAPLRPGAPDVPVLARTVSGIGGYVARVRVKATEHEEFSNVVVAAA
+ETRVPDHTNPDRPELKAVRVASDPAYAGNEFWPPAVIVVQEASMGTQKFVRIECRPIQYN
+PATHTVRFNREIEAQLWFESQEKP
+>tr|A0A1W9LAS3|A0A1W9LAS3_9BACT
+MSASIQSGSSRRKLFIPVLSAEPGIADAFVRAVLGTAEDTSGEVEFGHHHAFLESVPPDG
+TDLAGAKVKYQQADAIVWLVHFMDGRSLEDARVLLERVAASCMAPMGVFIFRPEAERQFK
+ISCPECGQKLWVMEHEVGMRGRCVNCRRPMMIPTPSEHLRATLRLRDSVPVLNVVRSDAS
+LCRGALANLLARTGSGIHTDAGLPPEDFLKQATVPIQLDVNMVGR
+>tr|A0A1W9LD10|A0A1W9LD10_9BACT
+MGAGWAVWVAAAVPCAGAGDRLLEFEFSAGPGVSSGDVTYEIGRSVVQDGVVERAPFPIS
+RLEWPIDVLTAEFDAGLRIARRFELRARFAMSLTEDAGTMIDSDWNYPEGNQLLTIYSES
+DAVLDAWTLDLSARWWAWRQTRPGDQELRLGLGAGWLRQDFAWEARDGTQSYPSEPGVAA
+DTWEGTAITYDIAADLPYLELCGSIRQPKVVLDGRVAWIPSASVKDRDDHQFRDILANTD
+ADGMGLIAEAAIRYDLTERVFLRFRAQYVIFVVDGPSENRVYGAEGGEEPVGTTWRIDEE
+IRSAQAWFSFGIGLNL
+>tr|A0A1W9LFP4|A0A1W9LFP4_9BACT
+NWVVRGRLDRDRDGRILISPDVHASLWNACRREQGRLDVLPLDPGGRLRLADIASRIGPA
+TRLVCVPHAANETGVIHDIAAISALCERRGVACHVDGTQALGHIPVDLSSLVPHLAAQAG
+TLRALAGTTLGILRAASCPFEVNGDSDTGLPGLLSLSFPGLNGHTLAADLSIQGFAVATG
+SACSEDRPEPSRAILALGRPPATALGTIRISFGPGNTPSDAAAVAAALLSAVHRHQPQER
+R
+>tr|A0A1W9LG53|A0A1W9LG53_9BACT
+MTAWTAEAQQRTAVMPGISVSRELRYPTEYESQSVGDLTTRPGANPTTGFALDPYRSRPP
+IPSAFKTRQLGASVSVANIGVQQVVVTRKAERFVYHARFANGYEADFSDGFDTTVNGRRY
+RGMGLRAGSYIVKDMDSGEIVRFTLAAGAVAKK
+>tr|A0A1W9LC47|A0A1W9LC47_9BACT
+MDQDDEGAADMKVLRFFRQYVTAVLGFVYLITIGWVLPRHRAMIRRIGEHLGWIRPESLP
+EESNLPALSIAPCKAADLFAPGGEFRLLEMESADGNVSVLELAILAQLVRKFRPSVCFEI
+GTFDGRTALNFAANAPNDGVVYTLDLPRAAVSATELPLARGDAKYVDKETSGIRFVGTPY
+EKSIVQLYGDSATFDYAPYLGAVDLVFVDGAHSYEYVLRDTETALKLLREGRGLIVWHDY
+GSPFWKGVTAALNELRQKNPALKGMRHVETTTLVVASVGG
+>tr|A0A1W9L8Q7|A0A1W9L8Q7_9BACT
+KESAQAAVSFVRSRAESLGLPPDFTEKNDLHIHVPAGAIPKDGPSAGLAIVTALVSLLTK
+RAVPPDLAMTGEITLRGRVMPVGGIKEKVLAAARAGIRHLVLPTRNADDLREIPTDIRRS
+LSVKRVRDIDTALDWIFRPAKPTGQGGG
+>tr|A0A1W9LF46|A0A1W9LF46_9BACT
+MVGGLVAAVLAAALWGMGRLGRKTPTESGEPMFVVERGPLRISLTESGSIQSRERVIIRS
+EVEGRRTILSLVDEGKHVKKGDLLVEIDSSGLEENRVEQQIRVENAQAQWINARENLSIA
+SNATQAAIDDADMALRFSRIEKEKFEKAEYAQQLRQASADISIAQEELQRAADKVAWSKR
+LMDQGYLTRTEMLADELTEKRSRIGLELAQSKLSVLTNYTFAQTSEKLAREITKADLALG
+RARLRASADLIQALAAARATESEYLRQKDKLEKTVEQIGKCRLTAPSDGMVVYSTTVSER
+RWMQEPLRAGVEVVERQDLIYLPATKEMMALVQMQETSLPKLREGLPARVRISALPGRSF
+NGHIERIGILPNSSQAWLNPDLKVYDCHVWIDEDTEVLRPGMSCRVEILIAEYEDAVYVP
+VQSVMRVENRPTVYVMKDGEPVQREVEVGLDNSRMVRVLKGLEPDERVMLAPPLPASDMQ
+QGGHPAGAEGRRGEGSTNGNGSRASPPRGPNGPAEPRAGGTAAGRPGSAPRPPSP
+>tr|A0A1W9LDA8|A0A1W9LDA8_9BACT
+MSCMGFLGGGSPVHRLDPRVRVAAAALLSIPVALAAGPGVPTMALVAGCGLAAAARLPEP
+ALLRRLGRLNLFVLFLWLMLPWSTPGTPAGTVAGLGLTHEGVELALLIALKANAIVLLFT
+SLVATVPPAELGYALRHLGLSDKLVHLFLFAIRYTDVIHGEYERLRGAMRARAFRANFNL
+HTLRTFGYLVGLLLVRSLDRAERVLAAMKCRGFDGCFRSLTPFAMRPADWAFLVAGSCAA
+GGWTWMILA
+>tr|A0A1W9LGZ0|A0A1W9LGZ0_9BACT
+MVIIDPHIHMYSRTTDDYTAMYRQGIRATVEPSFWLGASRRYAGTFWDYFNLILGFETQR
+ARRYGMDHYACVSVNPKEAEDVALADEVIDGMNEYLDHERCVAIGEIGFNRITPNEERVF
+QRQLEIAKKRRTLVLIHTPHDTPEVSKKKGVERTLDILRELNYDDHRIIVDHNTEDTMAL
+ARTRDVWAGLTVYPYSKLNPERVVGILKKWGLERTLVNSSADWGVSDPTSLPKVAGFMAA
+QGFGEPEISRLLFDNPMAFYRQCERFKPELDLPYIDPSQYQR
+>tr|A0A1W9L9M5|A0A1W9L9M5_9BACT
+MILVDTPIWVNHLRRGRAGLEGLLEDSEVVCHPFIVGELACGNLVNRKEILSLLAELPSV
+PAVDEDEFLAFIEGNRLAGSGLGFVDVHLLASARLSGVRLWTADRALRQVAAEMGIAHLG
+>tr|A0A1W9LFT7|A0A1W9LFT7_9BACT
+MSQYFCGKYLHNLDPKRRLTVPSEWRALVGQPEQFFVIPSVGDDRHLYVYPARVMGPKLR
+NIHNLSMADAQGRTYLRIMGSRSEMLGWDTQGRIRVRDELLAHAGLSSEVLLVGNFEGFE
+LWNPKAWEAVASKMDDRGLLDASKYVGV
+>tr|A0A1W9LCY4|A0A1W9LCY4_9BACT
+MHDRRSKDYWTRGLDPVFRAAAEQFPVLMVTGPRQVGKTSLLEHLRESERAYVTLDDMSL
+RALARRDPALFLQRFPPPVLIDEVQYAPEIFPAIKIEVDRNPVAGGVWMTGSQSFPMMKG
+VSESLAGRVAVLNLLGFSAREADRRDAGVPPFLPGGAMGKTRGVSAAPTALGAVYERIWR
+GSFPALVTGRVRDRDLFFRSYVQTYLQRDIRDLLKVGDLDAFLRFLRAAAARTAQLLNYT
+DLARDCGVSVNTAKSWMSSLVASHQALLLPAWHANLSKRLYTTPKLHFLDTGLCAYLTEW
+STPATLEAGAMSGAILETYVVGEVLKSWWHAGKEPSLYHYRDKDAREIDLLIAFDGRLHP
+IEVKKASAVRIEDAAAFGTLRRRGVRVGDGAVVALCPERLPLDRTTEAVPVGWL
+>tr|A0A1W9LCP5|A0A1W9LCP5_9BACT
+MTSDPKTAESADVPVAKKKFDPARIKAAMTDAVVLARRLGAGAVGLYKRLMKIRSPQEML
+QAIDAATEANEARSGQLSDKLGKMFGEIGAKKKIWAAAPPARKRILEAELKTLLATYTAL
+EREQKVLLENRRVLAQVRGRMQEAAAYDMAGVTEIQIDEMVDRIDEKAGDAEARVDAVRD
+LEGAGRRRERESDQESFMEQLDQFALDNEPTLAEPGKSDEGEAAPSSETLPVPEKPDQA
+>tr|A0A1W9L9J6|A0A1W9L9J6_9BACT
+MNPGRQISLTIRTMAAPLAVAALLALFGSPARAADDAAESERALSDAYVALVQADQARDA
+QDWKKAIAGYREALDRYQRLSKKHPDWEPDIVQYRITYCGNQVEAITTRTGRSQKEWLAQ
+ADPAAESDSAYREKYMALLKENQYLHQRLTELQDEAGDAEEESPALEAGGEAADTNALEQ
+LRRENEQLRAELDTAGTASTADASDALALQAAQDELTRLRSQFTRSKEDADELREKAEKA
+AKLQLQVESLRRQNEGLTTVLKETSESSGSISDTDILKLMRASLAQERQGNHAAALSIYE
+RAAASRPSYAAAQTARARCLLNLGRTEEAIAVLQVAAAGNPGDRETRLLMGLALCANSQF
+AQAADALKVLVRDEPSSAWAHSALGSAWMGVGDLKAAAAELKRAISLDDTLPDPHFNFAQ
+VLNAGSPPDRESARAHYRRALELGAASDSELDRLLAAP
+>tr|A0A1W9LH19|A0A1W9LH19_9BACT
+MTGIRTVLAGLLLLTAVAAPAQIVRDVRVESVGAAPADPAYVTAVVETRAGQEFDVNKAA
+RDVRALERTGRFVSVSVRADPLTGSELAVVFTVAARSTIERIEISGADEVGNRKVREWMN
+LGVGDLVDDALLAAGARRTQDEYVKKYYPDARLTWTLDPGASAGSTRVNIVVKEGKRARV
+SAIRFSGNRAVPTDDLLAKMKQRRFAWYNPVHWFTGAGRLSEDDIRGDVFGLQRLYADRG
+YLDAKVEGPEYVAAGGDHVALQFKVTEGVAYRLASVTIEGVTLFPSNDIARVARLTPGGP
+ASMAAVDAAREAILDHYGNRGYILTQVRPALDAGAESGRADLRLRVKEGTPSKIRDIKIR
+GNVVTHDEVIRRELVVAPGEPFNRSRVRTSENRVRNLGYFSYVAATPEPAEQEGWHDLVL
+EVQEDRMGTAEAGVAFSSIDRIVGRIELGHGNVDLGSWPPFGAGQKVRIGAEIGSRRQDY
+TFSFIEPYLFDQRLRLGVDLFSRDASYYSSLYDVGRLGGQVSLEKSLGGFFSAGLTYGLE
+DIEISDVSEEASQAIRDEEGRRLKSSLELSLVRDSRDRTRLTTRGNLTRLSSTIAGGPLG
+ADTDWYKLELRSSQYVPLWLGHVLLLRAQAGMMEEYGDSEAVPLFDRFFLGGLYNVRAFK
+YRHIGPADEQGEPLGGRSMAFASAEYTIPVYKMVRLAAFYDAGMVWEDPFAFDLQWNSGY
+GVGIRLDIPMMPLRLDYAWQIESDEYNRDDNGRFNIMFGYPF
+>tr|A0A1W9LF91|A0A1W9LF91_9BACT
+MPLYEYRCSKCGSVSEHLVRSSADKPKACPKCGGRGLEKQFSSFAASTGSSPEMPSCATG
+GCNPGGCASGACPFGQN
+>tr|A0A1W9LAH4|A0A1W9LAH4_9BACT
+MGKVLRFFLILMLLVSIAALTLEHYMYSQRYELGLRDDRLQEGLARVSQKLNAARDPYVT
+AIEAGVAAADLKDRAAMGGKLGVLQSNALARCEQLYAAKDELKRTRDDLTKTQQELAQTK
+QELDTARAEIAALNEKVTQKETEIAQARQKIGELEGQVAELKRQIDENRIQIAKLDGEKK
+NMIEERKRLEDALAPFLPPPLPSKDQIRSLNGHIVLVDPEWNFVVLDIGKLHGLQKNTQL
+LVHRGEALVGRIRVSDVRDEMAVGDVERAWVTAPLQAGDRVFIQ
+>tr|A0A1W9L7T9|A0A1W9L7T9_9BACT
+MRFCTLSTRVRNRSAGIAGWGRTGLGIAACAAALAASGAQADASGSAVPYCPIVDGGRDS
+LAAISLG
+>tr|A0A1W9L8K5|A0A1W9L8K5_9BACT
+MHDGRRTGWAAAAAVALGCAATAVAGSYSATSGRVTVDTRTAAAANTLVLTVRVQSSDAA
+LSGATVIAGGVTRTTDASGRVTIAPATNGAALKVFKSGYQTNNTTCQVPGSGTFSQTERL
+SAVLAAGPKPVINSVKLRPYAFTLQATGLNLPLFVVPDVTWGTESGGTLKYTTAVKSGSA
+TRGSPTTLRLNPTTDLPCSGLVAPRGYTIQLTAETANGASAPVSAEVVALALPAWLVNAG
+AAYTGTDAPTAGELTVMPFSIRREFVPSGASELDLGIVTIESSLGIFASGSLGGSAGEVS
+GFRGTYGFEGGIDAGIKVKANHGGPGGIKPYGAIEGEGKVRIGGEWYPALTCDGYLELKI
+RGSVGVIVPVRAILLLDPTGAGASFNAWVGSWPKSWRDSFDGFAYLDASIGANIQTATPL
+RLSDGRIYLDFQNGLYGLGTDVRIKGHVGTDVLYVEGLLAGGGTCWFRSTAEGDTFDHAE
+YAIEGEVSVGFFQWERSWGVKYTKTVPDLGAEMARMTRLAEPADAGMTLIPRDYAAKNYG
+AFLLRSVDVRAKRIAADSRIAPKGIVAADVFVQNVFPNTTASLAGPATSDVTMLFSFDNT
+NLPPVQAMDIYFTRYNGASWSAPVPVAANTQSELHPQVAIDASNRPAAVWMRIRDADFAD
+TTNEVHYLSQLDVVGSSYDAAGGWPAAQTLSTGACLNFAPILTRSPAGDLAAWWQSNPSN
+SLFGGVVSSNNAPSEWWWARWDAAARQFLPAGILMTNVTAAMSPSLAHGGTNAWLFWVGD
+RDNDFSTSNDTYLCRREWDGATWGTNVTMTAPEQTVTRVESVMLSNGAPMAVWWQSGELV
+YAMGPGFATAKTARAESADLVWQEMHLVRSPADGNVLLVFPKSTTNGVNLAYRVYDAAAD
+VWGDDFAFESAHAVDFGLAPTFVGPQMWAAYTRGVLAYSNATVDVGGEAVTIGNIPYRAR
+TDLMLARFELDADVAAVDVGVPASFPPVIRVVVANESDTVVSNLVVSIRGGSAAGTEIVS
+WTNAVPMRPHTTDTVDIPWGVSSNAAVLTLAAVLDPDGRIAEFREGNNAVTRTTLATDLR
+IAAVAAERTEGLGYEWFVRVENLIARPVPGVVVEVRRDATNGTLVAAAAAVRLPAYESLD
+LRLAFGTAGWDATNTLVTVVRAPAAA
+>tr|A0A1W9LD28|A0A1W9LD28_9BACT
+MDRIGRNGREEKSGGRQDDLAQGELTRTIIGAAFRIYNTMGFGYLESVYEKCLLLEIRKA
+GLRVVSQQPIDVTYAGQSVGYFIADLVVDGRVIVELKSTRRLHKVHEAQLVNYLVATGLD
+LGLLINFGEEHVEIRRKVRCL
+>tr|A0A1W9L8S2|A0A1W9L8S2_9BACT
+MDLLHPQPGERVLDACAAPGGKTILAAEAMKGQGTLVAMDPAVPRLAPLRQNVARLQLGV
+VTIVQGDAARPQAVPELEAGFDAVLLDVPCTNTGVIRRRPDARWRFSPERLKAAVERQRA
+ILDGAAPLVKQGGRLVYSTCSLELEENEEQVRGWLARHPEFTLAESRRLFPPETGTDGAF
+SALLLRRK
+>tr|A0A1W9LDL7|A0A1W9LDL7_9BACT
+MMALNQRSLNMQDPAFDPNRPDDTGNARLGLGAKMRLLDFGRRANDRRAAVSAAGAQSEM
+FAAVRNDLVHEVTRGFYTVLQAQSFVAVQQEQVRSLEESLRVARARMDRGAAVKSDVLSL
+EVRLAQAQEDLIRARNGVGLAVAALNTAIGRDLVPETGLDAVPPEQVPDLPADAAPDASG
+WHPAVRARDGVKLDQRQARLQAREARERWTLMAKSVESADEALRMTKARYEQGAADVPEL
+LNAELGLAAVRSRRVAAVYDYLTALSNIGRAAGELAPADGAK
+>tr|A0A1W9LG71|A0A1W9LG71_9BACT
+MLKTLQDLLQLQEIDRRAIHLRKDLEDIPARKERTRLRLQDREEAFQKAESAWKHESMAI
+KKIELDIDTAKETVHRYRQQQFEVKTNDGYRTLLHEIETAGTAIRSLEDSELERMETAEQ
+FKAVMTRARQEVDEDRIRVERECAEMDQRAEALRQELAGIEADRQGRIGEVEPRLLAKYE
+RLLKHVGDAAIVPVDHGTCGGCHMKLPPQVIHDTRRADAITSCTFCGRMLYWRE
+>tr|A0A1W9LH69|A0A1W9LH69_9BACT
+MKRLALIYFNVVFYLLLVPFTLLAVPVFALFLVGVTVFFPRRVVMRRLRRCISWYGWIVI
+RVLPFPFIRIRYHEAAPSPEPGPHLFVCNHRSFSDPFLMAVLPGECIQIVNIWPFRLPVW
+GIVARLAGYLSIRQMPVEDFYAEASRLLKEGCSMVAFPEGTRAKTRELGPFHGSVFRLAL
+QARASIVPIGISGNERMPGRGSMVLHPGVIRVHRLPALKWDDYKDLSAFQLKNRVRELIA
+REVAVMDGEE
+>tr|A0A1W9LA29|A0A1W9LA29_9BACT
+EVTDINPTHILPFDEKDNFWEMGETGPCGPCSEIHFDRTPHGCAPSLVNAGSPEVIEIWN
+LVFMQYNRRSDGRLDELPAKHVDTGMGFERVAAVIQGKPSNYDTDVFMPLIGAVAARCGL
+SYEGEAAIAMRVIADHIRTLSFAIADGVLPSNEGRGYVLRRLLRRAVRYGRKLGLREPFL
+GDLVPVLETTMGDVFPELLRNRTQVLRALKAEEEGFAATLDRGIALFEEVAGGVSRSAGT
+TFPGDQAFKLYDTYGFPIDLTRLMAAEKGLVTDEPGFEALMAAQRERGRAARKGAAAGHG
+GDLVADLVAAGIRSAFTGYDTLDGETTVLAILQDGVRVPELAEGDQGDVLLDATPFYGEA
+GGQVGDTGRLEADGTVFDVTDTQKPADGILMHCGRVASGRLTEGMAVRAHVDAARRAAIL
+RHHTATHLLNAALREFVSPQVKQAGSMVSPDRLRFDYTWFEGIEPAVLAKIEARVNGWIL
+ENRPVHTSSMALKDVPGSGIVAVFDEKYGETVRVIDVDGVSKELCGGTHASQTGQIGLFR
+IASEGSVAAGVRRIEALCGLPAYEWTRSEHELVDALCHRFSATPAEISARIDALVEGNRR
+LEKELKQRAAAAALGQVDSLLAQARDIAGVRLVSGFAGEVPADALRELAEAVRAKLPGGV
+IALSATNEGKAVFIALVADELVKRGVNAGKLIGAVAKLAGGGGGGQPGRAQAGGKDGSKA
+ADAIAKVDGFLATQLGG
+>tr|A0A1W9LGT9|A0A1W9LGT9_9BACT
+MDLLADTTFLIDLWREQRQEGPATGFARRNANLTVGLPWVVAGEFLSGGAAAGHDPEVLA
+GFLEPYPVVHSADAIVRQYAQLYGAIRRDRLRVGPNDLWIAACAAALALPVVTRNVCDFA
+AIPGIKLLGYADGA
+>tr|A0A1W9LCN1|A0A1W9LCN1_9BACT
+MNVFPIRWRAAIMPAAAAMLFGLTTASALQEVPTLCDRVTVGAGLDRSACDLVDRSSGRR
+RPGREETP
+>tr|A0A1W9LGA6|A0A1W9LGA6_9BACT
+MKWASDKGFRIASIALTAFNVVGLVACATTMQQVRLRFAAIYGELLEGGLVLPPATQFVL
+TVPAWAASAVFLTSREYVIDTWRGGRDVGLAECAGGRRLCGP
+>tr|A0A1W9LDC5|A0A1W9LDC5_9BACT
+MTWYLKKISGEVFGPVELATLETWATDGRVAPDDQLSEDQVHWVPAPERAELAMDWVVEL
+DDGGTYGPLHLFSLRDLLEDGSISRRLKITNRRTRETSTVSDALVPVLMARDVKLQSTIE
+SLTERLEEAEKKHKKAHSKKGAGDSEVTSREKQLRHEVEVLTEMKNDFKHKMEKWEALYA
+TEETNARKHEQQLLKEIQALKAAANSGAPVPATAPAADDERWKGELEQERKTAAEREKKL
+QAEIASLKGASKEPGDLQQQVEKWKKLYENARDTAKAEKSRAQEAQVKTAPATGDLVPRA
+MLDEAQRKLAQVERSYQNLMRTLNRGLSPSPRGHPTGTADNLRRRDVS
+>tr|A0A1W9L9M7|A0A1W9L9M7_9BACT
+MIGKCGLGFSKHWKIPVLLLASASAFAAELDPVLGTNEQAQLRAALACMNMTETDLGFEK
+DLGKPVVFLQRSRDLLNAPLGLPVLADQALDAVRSADARRIEALARDWLEVPAGTMPTNE
+PASADVAWPALDPALSNSLTRFLSGARAADGLLSTAFAAVTAEEKRYVAAAHLAGMFNAE
+DHADVREELPAAGVTPQEIERVILEGQAVDSSPASMKFLGIVGKINQDALLAAGEVFRGA
+VRELADSCLLFTNWPAAVTSLETPLGPIVIGTTNCDTYTNAALLVLDPGLDDTYTGDVIR
+ANGLLGQPLAAVVELGGNDRYANDRVLGPCAALFGVCVHLDLRGDDLYEARYSGSAAASC
+GVAWLEDRRGDDKHRARGFAQAAACVGFACLLDGKGDDDFRVGYCGQAYAGVMGAALLEN
+AEGNDHYFAGGVEHDYDRNDDRFLSLSQGFAIGMRPFAGGGIAALVDLEGDDRYEADVFG
+QGVSYWYSVGMLLDARGNDEYTVYQYGQGAGIHMALGLLADGGGSDVYQGGILTQGCAHD
+YGVGMLFDQGGGDDTYDADQHAQGRAMNNALAILVDSGGDDGYTARQPDACQGIGNDGDK
+REYGSLAVLMDLGGDDIYSCRATNGCRMLRPDFGIVYDLEDE
+>tr|A0A1W9L8K1|A0A1W9L8K1_9BACT
+MSPFERLESLTLSDAERAAIAAAAVHSADFLFCGNRVRIAANTTHPLDSFGRIYNPFRLD
+ATGPGPVITVTCRFAGEAATYLVADRAYRVRSADLIANPLPTLAFFIFTRIRSHYLVHAG
+CVSRGGRGIVLSGASGMGKSTLTAYLVSRGMGFLSDEVAPISRATGRVEPFPLHIGIRPG
+PGEDLVQDLPAADYTLYRDQKKLVDVRDLAGAAVRESVPLHAVVFLAQRPSAQVQTAAKF
+DGLIRVAFLGVTASFRDELFAETGAERVRETPFEPDMVAWTLRVPAPATFVSTLYAVARR
+HAIPIAALEHEDLDRRDFQKRPELVAIPKSAGVLELIKKIGPQQKKALLDSEFGGSLPRF
+VEEVGRLAQPVDFYKLSPGRLDGMIAAVEGLA
+>tr|A0A1W9LDT6|A0A1W9LDT6_9BACT
+MKIAASSEVERLLANVRLTAEACLTIFPAGIGETDKKPAVVRICGGRMELPPLTPAALAP
+SPKTVLRMKTRGRLLVNHGGGVLENANLCLHPHFGCPYISGSAVKGIARHDAWCQWDDAR
+KAGLSADENPDDLSLCIVDLFGFPTGNRELDEAAIHAGHVKKGSACAGSVAFLPAFPTTA
+EPGMLEPDILNSHERRNLVPVYFPAVRAGVEFEFAIAAAGKPSLFGDGASELAVGFLRSG
+LENHGIGAKTNAGYGWFEEVEP
+>tr|A0A1W9LA90|A0A1W9LA90_9BACT
+MKHRAAILTVAWLAGIVIAPRSPAAVSVFVSPQGNDAWSGDRAVRAAGTTNGPFVTIERA
+RDELRRIRAAGGLPRGGAVRQADLKKLGIAEYGDLGLDAEWEIQVGLAKADGQGEDALGS
+AYASVGKKVSPRLEVFFNDVPMELSRWPNEGFVRMGEVLGTTAIDVRGTKGCKEGIFVYE
+GDRPRRWVGEKDPWVLGYWFRDWAMQRHRILSLDPDKRVIAVEPPYHGYGYRKGQWFRGI
+NLLSEIDEPGEWTLDRESGILYFWPPGPVEPDRVEVSVAPGLFVLTDVSHVTIRGLRMET
+ARGTAVAIRGGQGCRIAGCTFRNLGNHAVTVVGGEAHGVIGCDMQGMGGGGIYLVGGDRK
+ALVPAGHFAENNHIHHFGRWDRMYRPGLFLSGVGLRASHNLIHDAPHSAILFGGNDHLFE
+YNEIHNVCHESHDCGAIYAGRSWTLRGHVIRFNHLHHLSGKDGGPCNGIYLDDLFSSAEV
+RGNIFHQCLRPVFLGGGRDNVIENNVFVDCPKAIHIDARALGWCGPHADGRIREAREKGT
+LAGVRYREPPFSTRYPQLVGLLEDEPKKPKGNIVRRNIIWQGDAANLRRVAAGDVVKETW
+WDDIERGIRVLVKIEGNLINEDPQFVDPQSGNFQLRDESPAWKLGFQRIPVEKIGLYRDE
+LRASWPVEHPVRPAPALPPAAAAQGQRF
+>tr|A0A1W9LCJ9|A0A1W9LCJ9_9BACT
+MERFLSGIIPENPIYRQILGICPTLAVTNTMEGAMTMAGAVAFVLICSNILISLIRPLLK
+PHLRILVFTLTIATFVTIADKILAAYMYEMSKQLGPYIPLIIVNCVIIARCEICASKQGL
+FTAISDGVGQALGFTLGLATIASVREILGFGTWFGKWLGWRVIPLAAPEHWSTWVIMILP
+PGAFITLGLLMGVMNWIEARTRQAKKAVAV
+>tr|A0A1W9LD81|A0A1W9LD81_9BACT
+MWVNRWGIMTALALTVAGVSAAQAQDRARILGVDRRDTGPHSGDFSSSLLSPRLPKFMDG
+GPAAGREVFDVRWRAPAAGLPAQTLLTFEYRQEYSDRIRFLSIRYPFRAEGERNATFEIT
+PEARRRYGRVTAWRARVVLGGRVLAELSSKSWR
+>tr|A0A1W9LH10|A0A1W9LH10_9BACT
+MLGLLFFVFVLAVFLGFELIAKVPSQLHTPLMSGSNAISGITIVGALVAAGQPEGGMLVT
+VLGTIAVAAAMINVVGGYLVTDRMLAMFKHKGGGTK
+>tr|A0A1W9L7N5|A0A1W9L7N5_9BACT
+MRGRGDIVRAVEHARIGRKARPQFHGDAAGRLVQIDGPQRAARVVEDVRTHRVGAVRHIL
+HGATLVTASDELEAVARGPFRQRAEQAAGVRRSDGCGHGRRRAPAAGIRNEAQHQPRRCE
+AAHPVQVVQRKRGQRLEGHTADARLQDAEGGVQGEVLPRLVPRQLLEAATAAQMDAQALE
+AFDPGVHADPARLRPAQDARPDLLLGLCGQRPRARHGVQRRRAADLVQCPAERPRLAFDG
+GGLQKGNHFALGARAGPDLGQGGHGVAADLLGRILQQPHQPCPHVGLLAGGPGAGEGNTH
+GPNHGHACHPFAGRCAVEPGNLLAPKPVRRQGTQLPVEFLVGPHRHIPEATLPVNLTLNL
+PFMAALRQRPVDTGYTP
+>tr|A0A1W9LD29|A0A1W9LD29_9BACT
+MLRFLPPEPLRGRPVHVPVLKMLVDLAPGASSIRFEGLTFECCEGTAISMRTTTNCVVAA
+SVIRTVGDYNGSGVSIAGGLSNGVFGCDIHHTGSHGVSISGGDRVTLTPAANYAENCYIH
+HIGNYHGQGVGVMLNGVGNRAAHNLIHDGPRMAIMFSGNNLVIEYNHIRHMNLETSDTGG
+TYTGGRDWISSRGSVLRHNYIHDILGYGWENGRWVSPYYAWGIYQDDNAGGVDIIGNVVA
+RCPRAAIHLHNGRDTVIANNILVDCTLSMVEYNGWTAGSRNWTNHLGQMAKGYESVAASP
+AWRGMRHMDVHPTNAPQPDGTIMTGNEFVRNIVAWSGTNTALFSFRNLPLHAYRSDSNLV
+WHHNLPILTGFQRAGMDEWAAWKALGFDAHSIVANPRFGNAAKDNYRTGWFSPAKKIGFQ
+PIPFGKIGPYRHRLRASWPIVEAEGARERPLDSTSEK
+>tr|A0A1W9LCZ5|A0A1W9LCZ5_9BACT
+MIRTSAGEIEVDFFCDGAPATVKNFATYARSGHFEGTIFHRVMNGFMIQGGGFTPDMREK
+PTRAPIRNEATNRLGNLRGTIAMARTPDPHSASSQFFINVADNPMLDHRSPTFDGFGYCV
+FGRVSRGMDIVDRIKTVPTTTVAGHENVPVQPILIEKVEIK
+>tr|A0A1W9LGT8|A0A1W9LGT8_9BACT
+MLKRALLVLLFLVLFAHPVFLFLEEYLIRNCDDKAVHYYSTAYLAADAAHRQAVIAALPG
+WMDQLDTQHLKLRFAGRIAYPRNYIGFDLLTRAMRAVMWRGRAAYGVAGWYELPVQTAWL
+LAFMFAMAWVEFVALGLPRGPWLMAILFAVAVPAIVWLVPVVPMPDSALSPRGAASALAL
+AIPVCFVTRRPFLMAISGLLVVLAHAGFGLVALPVLAAALLLAKRTGTYHTGRWRIYLGA
+VLIPWTAAALVLWNASSLMPVTRPDVPPAFDAPSMAWAGCSAVALAVLTWQLLRRRVGAI
+LDPANRALFFVGLFFVILCRSVVFIQRGLAVLGVGGETRIHLFYEIPARLSVLEYDLAVL
+VILLALWMVFRKACARWRLLTSSFLARPLWQGVAVLILAATLVLSRMDTWEAALSRRANF
+FASDCGYVKLEPVTRDTLAHLDPRIEPEFFYALAEFLFEGK
+>tr|A0A1W9L9G6|A0A1W9L9G6_9BACT
+MRTAATLRVALRALRREVAGIVAISPEVRTTVQVSAGNQNLNTVIYGVDEDYLEVRSWPL
+AGGANFTDVDVRTAAKVALIGRTAAHNLFDEQDPVGQAVRIRNVPFTIVGELQPKGMSMM
+GSDQDDTLVIPYTTALVRLYGGNSFRSMSAKAQSAPMVTEVQEQIATLLRQRHRIREGAD
+DDFIVRTQQEIAETATEMTRIMTMLLGSIAGVSLLVGGIGIMNIMLVSVTERTREIGIRM
+ADPHRAVVHRPRFRLQRGRRHLLRLLPRAQSLAPRPDRRPALRVGPRRKLTGSGSRSRLR
+PRGRHRIRGPQEAP
+>tr|A0A1W9LGH8|A0A1W9LGH8_9BACT
+MESPAIETHGLARSFGKTDAVARLDLRVAKGEMFGLVGPDGAGKSTAIRLLCGLLRPTGG
+EGRILGFDLATETEKVKARIGYLSQQFTLYGDLSVDENIEFFAELHGVRGFRTRRDELLE
+FTRLTPFRKRLAQALSGGMKKKLALACTLIHTPELILLDEPSTGVDPVSRGEFWNILSGI
+LEQGVTILMTTPYLDEAERCHRIGLMHRGSVFMTGRPAEVKAAMPGKVFNFECATPAAAY
+KSLRERWPSTNLVLYGDRLHFWTPRGEADARESAAWLDQRGFGPARFREVAPSLEDAFVA
+LLGQGEKT
+>tr|A0A1W9LAT0|A0A1W9LAT0_9BACT
+MIKSILVCTDGSPHGDVAAEYAVYLTQKLKARLLALHVLDSRMLDGPLMADISGWVGAQP
+YGAQLQQFRDLMQQKGEAVIRAFNSRCETAGVTAETWIKMGHPPRVILEEEARAELLVMG
+QKGEHATWIGEMMGSNVERVVRHSVKPCLVTPDAFRPISRILAAYDGRSHASQALREATE
+LSLAMQVELVVLTTFENSDRERAEQISSDARELVKAHDCKALGLVVQGRTAATILDSARE
+EGCNLIVLGAYGHTRIRAMILGSTTTQVIARSRVPVMLVR
+>tr|A0A1W9LF99|A0A1W9LF99_9BACT
+MTEESSTENVFARIVQTGYPGGRATPRWSAATTSCPEYSRVTVGARVAVYTPKATRNTTA
+ATLQSSLVYITACAPFTGAV
+>tr|A0A1W9L919|A0A1W9L919_9BACT
+TPYEIRSMLPLVNLGQKQRAKALLDNVLSFMRPRAWNHLPEVVHSDPRLGRYIGDMPHTW
+VGSGYINSVRGMLIEEEGDVLHLLPGVPAEWVESGTGIFVENAPTHFGMLNLRARVEANV
+LTVDIGGTANAPGAIRLHWPREGKPSRVTVDGKDWTDYTEDGCPLPCETKQVVAAW
+>tr|A0A1W9LD64|A0A1W9LD64_9BACT
+MAGGGMILDTCALLWLAEGGRKLTPEAKRRIATAPVLRVSAITGFEIGMKWRAGKLTLPA
+LPEEWFREVLRHHDLQIAPVGLDIALTAAQMPFIHRDPCDRIIIATARLHACPVVTADVH
+FAPYGIEVIW
+>tr|A0A1W9LH11|A0A1W9LH11_9BACT
+AVEEGVRDALLTGVLGSYALVDVLVRVTGGAFREEDSTEVAFKTAGVLALREALGAAGPV
+LLEPVMAVEVVTPDAHMGDVISDLSARRGRVRDMEARDGSQIVRAEAPLVELFGYATALR
+SLTKGRASYTMEPRCFEVVPEAIQGAILNR
+>tr|A0A1W9LCT1|A0A1W9LCT1_9BACT
+MRYWDSSAIIPLLVRQPLSEGVRGLALADPDTVTWWGTEIECRSALARLRREDAVNAKES
+DALHKLLADYAAAWTEIRSLDGVRDRAARLLTRHPLRAADALQLAAALMAADGDPSSLPF
+VCTDHRLRAAAAAEGFEVLP
+>tr|A0A1W9LEH1|A0A1W9LEH1_9BACT
+MTAATPSDRSGVLRSVGVVAGLTTISRFLGFGRDILLAGLFGTSAAMSAFAVAYRIPNLF
+RALFGEGALSAAFIPVFVESRQREGDVAAWRLARSVFTLVGGALLILVIAGVVAAGFVLA
+GDGLSPTARLTWSLLRIMLPYLLFICLAAVSMGALNAFHHFAVPAATPWILNVVQIAVML
+FVCPRVGSTPEQQIFAVAWGVLVAGVLQWAAQVPMLWRMGADLRPGIDVHDPRLARVLLL
+MGPAALGRAASQFNVFFATMLAVSIGEWAAAALYFSERLIYLPQGIFATALSTVLLPLFS
+GHGAQHDLKGMRDAVNHATRIILFVMLPAAVGLFVLAEPILRMSFEWRNFGPDSTLLTAR
+SLRVYCAGLVFFGLGKVVVPAFYGMQDTKTPVRVGLITVLANLAMSLTFLWSWPLHYKHA
+GLAFSVVAAEALNCLILTRLLEKRLGPPDWNAIGRSLARDLTGCALLAVTAFFAEAGARE
+LALHAGLAPKLAQIAGVLAGLAAGIATYFASARLMKSPELTDFITAFRGRRRRTART
+>tr|A0A1W9LDJ6|A0A1W9LDJ6_9BACT
+MAEKLDTTQTTIAYWERKATTFRSDILSQLIPILGVSADDLLGVRPLRTVASKPVGKARQ
+LFDAVSRLPRRQQEKIFDILQPFVK
+>tr|A0A1W9LGM4|A0A1W9LGM4_9BACT
+MKTKRCIGPRCRLRARPYREFDPDTDQPDLLVPGRCRCAAVLAKGPVRVCRICKRPKPLT
+AFSFSRRPGAEQGRGVCCTDCLAAKRARYAAVAAADPQDRSHVARIAREGPGPGDMPFVR
+AVFARMLREGTG
+>tr|A0A1W9LE74|A0A1W9LE74_9BACT
+LSNGSVGSYRTSCLKDWWAGTTKYINDVYAFVDWTNGWRSTSSDGALQKTITLAPKIGSF
+AVAYALSGALAGQPLYVRNGLSPNLYDLLLHGQQTLGGVVTSGAILRLANTNYGTTVAAS
+IGHAGAGYNPAARDDGNGYTNYTLGMRNQAQTHQVELVGTNQFSFSLGFTAVPSDWDGDG
+MPNTYEDAKSFSATNSADGAGDEDEDGALNWQEYVADTDPRDEFDFLAVTANRPTATGIV
+VRFPTKSRRDYFVWYANSSIINPSWTLATSNGIAGTGGTYDWLDNGTQTTPSPLSPAITS
+RFYRIEVELPE
+>tr|A0A1W9LFB8|A0A1W9LFB8_9BACT
+MPLLPAHARGGHPLGTDAPRAAAVRPRRPDRRQHGPRSSNGLARAHGLHPLLRHLGRADR
+M
+>tr|A0A1W9LGY4|A0A1W9LGY4_9BACT
+MNVRIRWKSVPPSLRIAAGGALIVLGIVGLFLPVLQGLLFITLGLTLLARDVPRARRLIG
+RVRSSRLVQDIRRRIAGWRRRAGAGPGGPGR
+>tr|A0A1W9LHJ1|A0A1W9LHJ1_9BACT
+MAKKGLVRLESGEVRRDPEAGRELVRTEPLALMPQQADALATLRTAIDTGKPPVVLLFGV
+TGSGKTEVYLQAIAHAMTKGKGAIVLVPEIALTPQTVDRFRARFGDTIAVLHSHLSDGER
+HDEWHRVHSGRARIVVGARSALFAPVADLGLIVVDEEHEPTYKQEEAPRYHARDAAVMRG
+RLEGCAVVLGSATPSLESWQNAKSGKYAMVRMPHRVDHRDMPLMRIVDLRAEASREGRAN
+IFSRELVQALHDRLARGEQSILFLNRRGFASSLVCPTCGFVVRCEHCSVAMVFHKQMDRL
+VCHLCGATRGVPAACPAPECGDPAIRHSGVGTERIEEILHKLFPKARVARMDSDTMTRKD
+DYRRVLGEFRTGRLDILLGTQMIAKGLDFPNVTLVGVVQADHALHLSDFRAGERTFQLLT
+QVAGRAGRGDVSGEVLVQTRTPFHPSIQAARRLDAEAFYDQELEFRRATGYPPFSHFIAC
+TVRAPDDAVAARTTAALAAQIKARLGALAVVGDPAPATIARIRGQYRHQVMIRAARMKPV
+LGPLRELWLTFPWPRDTAGVLDIDAVSLL
+>tr|A0A1W9LEW9|A0A1W9LEW9_9BACT
+MIGCFQLYYRTFGSIVFDEVRLSSEWSDLQQPLVEAPQVTDLSQEDDNLVLTISVFRYLS
+TNHLQASVDLASTDSWSNSIQFIAETVHTNLSMPLTNRAMFFRINKE
+>tr|A0A1W9L8R6|A0A1W9L8R6_9BACT
+MAERLKHFESDPYRDTEGILRVVREGLCHRCGACVGLCPVGTYTTKDGYPHPVNECIHCN
+ICVRVCSGLEVDYPAIGKALHGPDYEFGGLLGTTRSAWLAHAADPAIRSRGASGGVVTGV
+LVHWLKTGFIKGALVTVEDPDEPSRGKGIIARTPEDVIRAAQSRYTTAPTLAALLEIKDE
+DGPFAAVGLPCQIHALRKRQLADPRWAKRVPYLIGLFCHYNLPWETTKLAGGMLAPRGTS
+VAHTRFRQRDERGWPHSTYEFAFTDGSTWRSPYPSSPTFNVLSRVSPLGRCLLCLDGAAE
+FSDFAVGDPWIRGKDGEWKYHSVAGDSTIVVHSEQGERLVAALAESGALDMKPLSVAEIA
+EGQHAMLTEKKARVAFRIRVRRRLGLPVPCYPMPLPAASPAQRRKELLFWLTRLNSFSRA
+WQKLLLKIGFGPLGAHLIARRLAKRKRLAAAGRVHLSASDYGDATEKEP
+>tr|A0A1W9LDF3|A0A1W9LDF3_9BACT
+MGLLAWCGRQAVPASFDSALAAMREDGAWLVRSESVPSGRVGAVGPAHSLRRMEDSGSGA
+VLWIDGSLCGWDGREPSPEAMFRAGSDSCAGHFAAILCHPGHEGLQAITDPWGTRLLYQV
+RHADGWLLASDLDAVFAAGLLPRRVDPAYMSSLLRFNKCRLGDRTLLYDVEVLPPASAIR
+FLPDGRREVTPEQRRGTALLTTGNPLSDEVRLAEATARAA
+>tr|A0A1W9LCB1|A0A1W9LCB1_9BACT
+MNWGPVLTGFGMACIYESAPDDILRLSAGALVLGTLLLAYRLWRERPGRRSAMFDVSRHY
+SRIAEASGEVFFELDVRSRLLT
+>tr|A0A1W9LGQ0|A0A1W9LGQ0_9BACT
+MAWIAVHLVDADLRAASGRVAICFFLRQSSRMKTTLLSAAVAVLMLGSAFADQDTILPFA
+VKLGGQDAMLAEKDAIYAAVSQPVAADAEIVTDTTDDTVFVNVFAADEKGNALPEAVPAV
+LILRKGPPAKLSQTADGQPLSPGRYIMNVVSPAKGTARVFFRVGE
+>tr|A0A1W9LB55|A0A1W9LB55_9BACT
+MSVKCECGVPTYQCAECRYEVGVVKLDASLLKREDGGGLVRTQTVERIKVSAALPATGEV
+ALNENAAVHISPRIPGLIESVTADIGARVKAGDTLLTLASVELGKALAEYERNQALSDLS
+EKTFTRETKLREQNVVSEQDVIDAQMTYEQHRTDLKASEQTLHVLGLTEDDLAAMRESSH
+GPGAGRLPVRAPIAGTIIEKHAVAGEMAEPGKDLMLLSDLTTVWVWANVHSRDLAQLLAA
+EKRGPIAVEVVVTAFPDRQFKGMLDYVGATMNEQTRTVKVRATVKNPDLELRPGMFCEAA
+ISLGNGQAEEILAAPRAAVFSDEGKSFVFRHWKDDFFVRQDVRIGREFFGMVEILEGVQA
+GETVATDGAFLLKSDVLREKMGAGCAD
+>tr|A0A1W9LF64|A0A1W9LF64_9BACT
+MSGAVQPLRLHCIGCRVMARELRAAAAASPHSIRLEFLPMSLHAMDAPVRRRRIEQTIAR
+AAAGPCDAILLGFGLCGYALEGLAAVSCRLVVPRVHDCIGLFFGGERRLDEYLRENPGTY
+FRTAGWLEDLRRPNDVRRFPGAKDTHVGLRYDEYAVRYGEDNARHLFEILGQPTRHYSRL
+AYVRTGTASDAPLERQAREEAERRAWSFETVEGDPSALGRFLAGDWREEEFLVVEPGHRI
+VATHDERVMDTVPDTGRG
+>tr|A0A1W9L898|A0A1W9L898_9BACT
+MRVVRQAADVPRNAGPLALAAGFLDGVHLGHRRVIQAARERARAAGGQTWVLTFDPHPLR
+VLRPASAPLLITPLPLKLRILEELGVEGCLVRNFTPEFARLEPEEFVAELATGLPGLAGI
+AVGAGWRFGHRGAGDAALLARLAAQHGFAVDLVPPVEVGGSAVSSTRVREAVAAGDMAAA
+AALLGRRFSVEGVVEPGRRIGRELGFPTANVAALGELHPPPGVYAVQARLDGRSLGGAAY
+IGTRPTYGADGAPVLEVFLFDFDGDLYGRTLEVAFIERLRGDETFPDAAALQARIALDVD
+RARRLAGPEPAAQPSGATPPKELPRHPVPRRRTQDMGTEKQCR
+>tr|A0A1W9L8X9|A0A1W9L8X9_9BACT
+MDPFPPLSHFVWQHIAIFLSALPGSGLVLRLNFLSAVCGAASVWLMYEIMRRMPHDRTAE
+EVESRFPQEPLQTMSGIVAAVVLAFCAPFWVVSTRAHTASLDVFGLLLVTFLLILYYRDR
+RIGWLYAFAFLYGLGTTESATFVALGPVFAAVAVFGMWRGGRFAARPIVLGLVCYLAGLS
+LYFLAAWEYRLSPAYEWREFSSYFQVLWFMWREQYRELRYGVPQVGWLLVFVVTVLPWLI
+VVVSPKRAMTRSAVWGSNFLHGLLGLLGLLVLFNVPIAPWPMMGLQPLIVTPYVLTASWM
+GYLAGYWYLFFAQRSRFEAKSTATMRDVGHRLYVPALAVVLLTSTVLNVRLTGQGSGQAL
+NQMIGEIVRRLDGRTWLISNGVLDDLVALSAREKGVPVRVLNVAQGGADSYLRYVATLFE
+TPRLKGLAQIGLLPLLNEWLAETPGVEREVAILAAPDLWATAGMTPVPDRVLFLGATNPA
+ALDPEALLAGQQEYWNDGGAQLRAAAERRDLFAGWNRWALTHVGKVANNTGVLLEDLKRS
+DLAFEAY
+>tr|A0A1W9LCN4|A0A1W9LCN4_9BACT
+MLEVVRAVARPDSIDVLGSSSLLGADPGLGDPGQPLELSMDADLLLSPCDDRVATVVHEA
+VGEDSLFHREFGVFADLLKPDIETTLPMGWRTRRIPLPETQGVQCLHPSDLAIVKLRLGR
+PKDMDLLRSMILHHLASVADLRKWYGAAALDERDLFLVSRRLAELEHSP
+>tr|A0A1W9LDQ0|A0A1W9LDQ0_9BACT
+MVDVLADEGYQWTIVASHHLSRTCPTYFDHANPTGSYNIYSSPPNRADLLGPSPSSGWWY
+NMPNPGQGSWNVSPYAYQLQRVKYVNPSNGAEKTMIMVPSDDTLSYMAGYSGAQVGIIDS
+SIAPYASDPNRPVIVMPSTDGDNAWGGGFSSWMESTPGFFSGSQSAGYQITAVQDFVNAH
+GAAAPVVHVEDGAWIFPETDYGSPYFLKWIEPPLSPTNLPACYPGTKVDLETPGFALKFW
+SWAPVIAGANWCETAEQMLSDSGGSVQAWKIQCPYDWNGSYTSPNYAERAWHIYLGGLDS
+GFNYYGGLGNDDEVKQSLATRRAIEVLQSHLSTNLANDRTAPTVFKPQRFPWNPGAYTFG
+WFNSLPSGGTNSAYLKKMPSEFYVWTHAYDVSGITNLTLKVRLDSDGVNTLANNQNETYA
+GGSDVGSWISVSMTKRTLPNTQAALNAAASNGQIDYFPAALSPAIADYYFAKITDASVPA
+FRGKLLDYYIEATDARGNVSKSDIQHVFVENDGQGGALPSTVAFSSDPRDCAPLTVTYVA
+NGGVLSNSTPVKLQIRFATNGAFTAYSMTHQGGGTSTYTVATVPDNAPLAVMYFQNDGET
+LTDNNSGANWSTSIRDCDSPVGPSSVTFSNAAACNPVTLVYFLNSGALAGATQVYAHIGY
+GSWAQVLSSQTMIKVSNNQWNWSGTPPQGFGQIDAVFHNDHGAWDNHGGLDWHFALNGCE
+PPVTPPGITITNPAGSISVGSEITVYSLEGLASEVVGLMSWTNSLNGAGGLLSVASPWSI
+ANIPLDIGANVITVVGTNSGSATVTNAADSGSSSVYSDGWGDADNGGSGFGAWQFYTSST
+DGNLNGRFMADSAAVNIGVPAWGLYANGTTNLSEAKRLLTNALAVGQTFWAQMDNGYIDP
+GCGVGVALQNGSGDTLWQFFFNGGDTNYNITGSTTDIGWTPNGISIEFTLTGPTTYVSRI
+TPFGSSARTNAGVLNITNDMSITVFRAWNWHAGAGSDYDLYFNNLRLTTTDSGAGSTTSD
+TVTITRQSGTTDTDGDGIPDSWEQLHFNNPTSAVAGADSDGDGIINWEEFVGDTDPTWPA
+SAFSNRIEQWVFGPQVATLQAGGATTNSRVYDVWVSTNLLEPTWLPVNLNVSGALNGAPV
+SLTITNQADIGYYRTGVKVP
+>tr|A0A1W9LGI1|A0A1W9LGI1_9BACT
+MNASAPNVNRIWAGLLLEELHRCGIRAVGVAPGSRSGPLAEAAAGHGGFDLIVHPDERGL
+GFHMLGIALGSGRPAVVITTSGTAVANLVPAMAEAHHAGVPLIALTADRPFELRACGANQ
+TGDQARIFGGLTRAVFDFPPPGEGMPPEAMLTAIDEAVRAAMSGTRGPAHLNCMFRDPPP
+AARPPRGLTGWRKSGRPWVTATHDPLPSGGASLDAALEIAATAGRGLVLAGRLSPAAGDA
+VAALAGRLGWPLLPDLQSGLRLGAGEPEVIAHADLALGGGRFADGAGCDTILQFGSGFVT
+RRFLDLAADPRIARRVVVDPTSGRVDPGHRPGLRVSADPEAFAGAMCCALPAGTGPSSAL
+GAWQRASGRIEAELARRFAAGTAVSEPGVAWTLSRLLREGDAWFLGNSLPIRLAAAFASA
+RGAHVPVAANRGLSGIDGQVATAAGYARGSRRPVTLWIGDLGLLHDLNSLALLRGARSPA
+IVVVVNNDGGGIFSLLPAAESSRHFERVYGTPHGLSFRAAAEMFGLAYAAPAMLAGLATA
+WRAAARDGRSCLIEVRTRRAATARTVRSLQTAAARIADTGPS
+>tr|A0A1W9LEH7|A0A1W9LEH7_9BACT
+MKRFLKFLAGLVLLPFCAALGVSLGWLVPEVAGSPAGRAQCAGLAIGFGLWLFCYFTMPR
+PMWSYVLGHELTHALWTMLFGGRAMGLRVSERGGQVRVTRTNVWVDLSPYFFPFYTMLVL
+AAYGIAGWYVDLSTYRPFWMGLIGLTWGFHLTFTLSLLTVHQTDIQEHGRLFSYALIFAV
+NAMGAGLWIAILAGVGGLAWFRHLATDTAWAYAGLADLLRRAAAALA
+>tr|A0A1W9L8W5|A0A1W9L8W5_9BACT
+MRSGILAAAMIVTAGLSMALAGTPAIALTVRVDPAGGAPRIVVDGSPVRSRMFWGWPGSK
+PLPVPATGTPTAFEFVASGGATNGTMHFRFGAKAGEVVLDDIRIVDLDSKREVVPLCDFE
+DGTNSFRRDWAFWPPRPANTVGTIDVVPGAGRDGTAGLRVTLKPPAAGPWPDFHIYHHPR
+LALENGRRYRVEFWIHGTPSRTVSVALYRPGDRYVFLGGPQSVFESQIKLAATAGVRFVS
+VPVPMPWPRPGEAVDWTGLDAACRRVLNANPGALLIPRVPMDPHAWWREANPDDVMQWEN
+GRRDKAVPASPRYRRDAAERLAALVGHLESTLGESVAGYHPDGQNTGEWFYQDTELPPLS
+GYAPADAVAWRAWLRARYGTDDALRRAWGRPDATLDTAPVPPAAERHASPAGTFRDPVRE
+RHLVDFAAYQQDAMADCVCELARAVRTASRGRKLVVFFFGYLFEFAPAANGPAVSGHYAS
+RRVMDCPDIDVLCAPISYHDRGLGGSAPAMSAAESVALAGKLWLNEDDTRTYLAPGTPHG
+DRNHVDTLEETNGQLVRNVAQEALRNFGTWWMDLSASGWFDDAGMWREMRRLKALDDPLL
+KHPTPFRPEVAVVVDERSMLLVTPKGSAVTRRGVCEARTALGRMGAPYGQYLLDDVLAGR
+VHAKLYVMLNAWDLSSADRRRLLDATRGAGRVWCYAPGHFEGDTVVPQAMRELTGFRLEP
+VTPARGWAEPTDAGRTAGLAEGFGLQTPVLPLFAAKDAAGGEILAVYPDGSPAVALRRSA
+EGVALFAGAPGLTSSLLRIAAREAGVHLFTTNDCNVYANAGFVALHASQDGPVDLDTGRE
+GKIADVLTGDTAGRGPVLRLDMKRGETRVLKYGP
+>tr|A0A1W9LDF9|A0A1W9LDF9_9BACT
+MLFSRTFGTAAAALLLAVSARAEPTQLPADFPAVFEELASLVDQSEVSGMDMARGSYLAT
+KYFRTGPVALPYLQGRFSAAHAPGEASMAGLFVTIHGKIEELYALRKELETNQQKRRWVY
+DICGNEENFFVSMENAEIWEPLTALIPSTSGPRNFAICCIHSKDPLVRLAGLYWGYWMQD
+ATYWKLARQCAATDPDPAVRKIASRLK
+>tr|A0A1W9LFH0|A0A1W9LFH0_9BACT
+MKSRWIEKDGVTIDLPNLTAVIAKDSGGWFVSECPELGVASQGRSRMDAYRMLTEAVELW
+LEAASATEVRRRLREGARVRSLELSHAT
+>tr|A0A1W9LER8|A0A1W9LER8_9BACT
+MLTISGMTKAFGDRVLFEDVSLQVNRDDRIGLVGPNGSGKSTLFSLVLGRDTADAGKVSV
+ERKATIGHLPQETAPVGHETVLELATGITPEVVELQRRMKAFDAGHDTDSHDFHEVQALF
+EALGGYQLEPRAKTILRGLAFRERDFHRPLRAMSGGWVMRAYLARLLVQQPDLLMLDEPT
+NHLDLDALMWFQGYLKSYPGAILLISHDREFLNQLIGSIVEIRQRRLIRYRGNYDDYLRQ
+REAQDEQLLAAYKTQQKKIQQLQEFADRFRAKNTKASQAQSKLKQIERMDKIEAPVKDGR
+SIKFRFPQPQRSGRRVIALKNIHHAYGDTVVYRGMDFEVERGQRLVLVGPNGAGKSTLLK
+IMAGVLPFQSGTRELGLHVKAGYYAQHRVEMLKLDRSVLAEALDAPQPVPEEFARTVLGS
+FLFTGDDVFKPVAVLSGGEKSRLALVKLLLDPPNLLLMDEPTTHLDMASIEALIHALEPY
+EGTLIFISHDVYFIRKLARQVLHVDAGQLTPYPGDYQYYLDKTAAAAAETARTAVAAKTP
+EVPEAKSRKRAEAEARQARSRERRALEKAVDRIEKEVAALEQKQAELATELENPETYDKP
+GRAVAVNRELHYVIEDLARATKEWEESATRLSEMT
+>tr|A0A1W9L910|A0A1W9L910_9BACT
+MEAPKKAEPHRRVAGYGTWVYDARERPSQAGGNVYLNGARPYAAETNASVAPKTNPEIGL
+VEERGSVFLMITVGSELKPAAARRVTTALLGKAAVSGLPFVNPDGSPLAIDADYFGAARD
+PAKPSAGPFGNPGAGAQKIKVW
+>tr|A0A1W9LHC5|A0A1W9LHC5_9BACT
+MRILVVEFRDPVHPQSGGAEAVLVEIFSRIAAAGHSVDYLCCRAPGSTPEETARGIRYLR
+RGPQAVFNYTVPLVYARELRRNRYDVIVEGIDKIPFFLPLVERRAPVVCIVPHLFGEAIF
+REASWPVASYVWLMERPIPAVYRRSLFSVLSETTRDDVAGRGVDPARIRVIHPGLDLAVH
+TAPPRKPPRVRPTVLYVGRLKRYKGIELVLEAVARLRGRFPGLRFDIVGTGDHLDALRRR
+AADLGIAEAVAFAGRVSMEEKVARMQAADVLVYTSPKEGWGLSVLEANACGTTVVASDSP
+GLREAVVDSKTGFLVPHGDIGAIADRIARILSDDALHASLRAGALEWAARFTWDRAAAET
+LALIEEAVGKPSDER
+>tr|A0A1W9LBV3|A0A1W9LBV3_9BACT
+MKLGWFDIAVFVAFYALIFGVSLWKSRREASSEDYFLAGRSLPWWIIGISIVAANISTEQ
+FVGMAGQGAGGVGLAVSNWQLLGSVAVVIIAFTVLPKFLRAGIYTMPEFLEYRYNVATRS
+IMAAITVVIYVAVLLTAVLYSGGLTLQTIFGVPLDKGVWMIGLIAVVYTAWGGLKAVAWA
+DLFQGGALLIGGIVVFLLGLKAVGGWDAFAAANGAKLHMILPADHKDLPWVGVLGGMWIV
+ELYYCGLNQFIVQRKEREV
+>tr|A0A1W9LDM0|A0A1W9LDM0_9BACT
+MLPRTSRSALLVLMLVAVLPLTAVSENLLLNAGFETNSGAGGPADYWANTEELGAEAWAA
+SSGNWGMAFVTWRGDGTGLCYQDVAAIGNTPYTYKLKVLRDSGTLTGEYRMGVEWYEGAT
+YLGVDSVLLDIPYSAWVEKTLVVTSPPSATIARVLITGSGINIVGKFDDGVVAAGHDRRI
+DLRWRLDPKMDGYNIYAAASPTGPFTKLNSSLHSVSVYSDFFGVNGRTNYYYVTAVKGSL
+ESEPSAHVSAASYAMTDEQLLTSVQEATFRYFWDYGHPFSGLTREGYGLAQEHTPDTCAA
+GGTGFGLMAICVGAERGFVTRAEAAERVLRMLIFLDVSADRYHGAWSHWINGTTGETIPF
+FAEDNGGDLVETALLMEGILTCRQYFDSTNSVETEIRNRAGALWGGVDWYWYLRRSEAGY
+ESNESLYWHWSPDYGWAVNLPIHGFNEGMIIYLLAIASPTHPVPASCYYNGWAVGGDDWY
+ANGKFFYNYLDRVGYDYGGPLFFTHYSFMGFDPRNKNDRYADYFENNRNISLINRAYCAD
+NPKGFAGYSSLGWGLTASFNPWGYGAQQPGDGDNGTLTPSAALSAMPYTPAESIATLRHF
+YETYGPDIWGPFGFVDAFHVGTNWFAPGYIAIDQGPIVSMIENYRSQLCWNKFMANPEIQ
+TALNAIGWVSGKRNADTATNTVSGLNYEYYEGVWSALPDFDSLVPVSTGSVANFDLSPRR
+SNDHFAFRFTGYIEVPTNGGYTFYTESDDGSQLFIGNALVVDNDQEHGLRQRSGFIALNA
+GRHALTVTYFEHAGAETLNVSYVSQEIPKTRVPGAVLSRVSAAPAPAPVTLLQDGFETSF
+DLWTDGGATDWDRTTAQKYAGSYSAHCGSSDNDLISDNLNTAGRSTIRIEFWYRDQGIDD
+SDNVYLQLYNGTSYVNRTELGITSPESTWHKADITLQNSGTDAQYFRSGFRIKIEGSAID
+SGENLWIDDVKITVE
+>tr|A0A1W9L864|A0A1W9L864_9BACT
+MRRFLELAAVFAFAFATLLFEVTTTKVFEFSLWANYAYLAISTAMFGLGFSGVALTRWPG
+IARMPLVSFLPAMALAGGLTMLAAFATVNGVPIHLSELPEGWTWARELRNVAIVFLALAS
+PFFCFGLAISRIFDERAEAANVYYFADLIGAGLGAVAVALWIPVLEPEGLVAAAAAISAG
+AGALFL
+>tr|A0A1W9L840|A0A1W9L840_9BACT
+MTGRPLILIASAALGLASCATAPDTPPAAGLRATGLHCEDLADPQGVGLATPRLSWRVES
+GARGQRQTAYRVIVASSADRLARGEGDLWDTGRVAGDSTRDLVYAGKPLASSQPCWWSVQ
+AWDRDGKASAWSAPARWSMGLLAAGDWKAAWIGHDAARGKDPEGDFGAAQWIVFAGDPTP
+APAGARYFVRTFDLAAAVSSATVLVTADDRLALFVNGERLFTSPSAVDSWKKARIVDVAG
+KLRPGTNRIVVRTENTTPGPYGLLFRLDTVTADGSRVTVVSDGTWRSTDKPGPKWESEPQ
+SAAWPPARTVGPNGCSPWGRLTTTAVMLPPPRLLRAEFTASKPVKRAVIHATALGIHDLY
+LNGDRITEDFFNPGWTDYAKRAYTRTYDVTARVKPGANAMGAVLADGWYSGYVGFGHNRD
+HYGKKLRLKAQLHIEYADGTTQTVATGPDWKASTGSLLEADFLMGEICDATKEPDGWSRP
+GFNASAWSAVDTGAEVEPVLQWHPGPPVRAVAKVRPKAWTEPRPGVWVADLGQNLAGVPR
+WSAFWTFARSVRRPPCCRRRSSTASATGCTSMRRRPKR
+>tr|A0A1W9L908|A0A1W9L908_9BACT
+MTASSRSLVVFRAVAFAAAAGGAVCLVWAARAVPAGLRTIERKQADLAAIEAQDAKVRGF
+DPYFTALAAVTGAPPEAPAEMLRRVAPGAPAPVMAGGGVEPIEGPWSLHRVEMTFADVPI
+DSVAAFLAECEGARPRWRASNLRIQALDPGGTRARVSMGLEGIVRAAAKGRAP
+>tr|A0A1W9LB82|A0A1W9LB82_9BACT
+MKPKPEDLTEILRRLSLPFVAQNYEAMGQEAAREQLGPVEYLRRLVEGEAAIRYERSVQR
+RTKAAHLPVPKTLEQFNWSWPSKLNRTQVQDLFRLRFIEQNTNVVFIGGVGLGKTHLAVA
+LAHTACLHNVPTLCAPAVDIVNTLSAAQATNTLSKALKTYVTPRLLLIDELGYLPMDKRG
+ADLLFQVISARYERGAIIITTNTAYKQWPHVFNNDATITTAILDRLLHHCETITIEGKSY
+RMKDKA
+>tr|A0A1W9LGF8|A0A1W9LGF8_9BACT
+MALRLAAVGRPQGTVGPRLVRLVEPAGPVDLLAWLAVQPGRIKGYWADRDSGLDVAALGE
+ADEVKGMEAGDYEGCWRALRSRWEGADPATRYYGGFRFGPWRPDDPFWRPFQAYRFVLPE
+FEVHRREDGAADLVCNLVFRPGGDPVPRALAALEAMSFPPAFQPRAVGAMRERRDTPDRA
+GWMRMVGAALDELHTGGLSKVVLARRVCFETDRPVDALTLMHRMREESGRCYQFCGVHDA
+GVAFVGASPERLYRRRGRRVCSEAVAATRSRGATATADAVLAAELMTSPKERREHSLVAE
+GVRAALAPLSVSVRCDSEPSVLKLARVQHLAVRVEADLRAEADDPAILRGLHPTPAVGGE
+PAAAALALLGRLEPFDRGWYTGPVGWVGPDAAEFAVALRCGLVAGPRLCLFSGAGIVPGS
+DPAAEWDEIESKLASFLAILGAS
+>tr|A0A1W9L9Y6|A0A1W9L9Y6_9BACT
+MDLFEPEETGAAAGKQPLAARMRPRALEEVVGQEHLLGAGKLLRRAIEADRLGSVILYGP
+PGCGKTTLAEVIARVTRRRFERTSGVLANVAMLRTHLESARNRLRTSGAETILFIDEIHR
+FNKAQQDVLLPYVEDGSITLVGATTHNPFFFINTPLTSRSQIFQLEPLSEASAVSLLDRA
+LATDPELKALNIRADRDALEHLAKVCEGDARRAL
+>tr|A0A1W9LGT2|A0A1W9LGT2_9BACT
+IDSGFRFAISRNSKHFAEALDFLLFMAGRQENEKLNRIIGWIPAIEGTEMDPFLKAFEPH
+LEGVYGAFPVMLGGETSIRWGQLYSLFQVRKMDYPEFAKEYEAFYKANGLKDYLEQQREW
+RRGMQRNEQFLAGIRAKALSSEGEEQASSWVKYRALTAQRQVWAEIDHSRQMKIVELKMP
+VPAVGPYEYSPAVMEKIKKRVKQEKKSNH
+>tr|A0A1W9LD46|A0A1W9LD46_9BACT
+MSTQRAPTGIGFFDDRYGGVYAGRSWLVCGPSGAGKSAVGLQFLVQGVKQGERCLLLSAQ
+PAADVAIWAASFGPEIERSIESGEFVVLEYNDYVPGRDKETDLTLPPEGFLQLQEIIDTN
+AIKRVVLDTALPWVMTRTADMMAEHVFSFVRAFDRLRCTTMLTMPRPVSPVATRLKNALD
+EVVPVSVMLSIDSALSQRSWLTTKFLGEARLDPATPYLVIPGHGAVAGRETPPAPEPVPL
+PVQDAPPSTTPAPREVHPGKVRFSSVVLGNENNAARAPNRSFRFGMTITK
+>tr|A0A1W9L865|A0A1W9L865_9BACT
+MVRFLDFCTKRSTPALLPPEKFHCFGDWLHINAETPKEVIYTAYFAMSARLASQAADVLG
+KADDAARFRDLYARVKAAFQKAYVAADGKIKGDTQTVYVLALAGDLVDGAQRAQAAQHLV
+ANIEARENHLSTGFVGTRDILHVLSKIGRQDVAYRLLHNDTFPSWGFTIKHGATTIWERW
+DGWTPDKGFQTPGMNSFAHYAFGAVYQWMVENIGGIRNDAPGYRKIRIAPVPDPKLEWAR
+VRYDSPAGPIVSAWRRAKSGAVSFDIEIPANTTATVVLPAPSAAALTEGGRPLATAPGVK
+VVREGGGTVELAVGSGHYAFATAAPR
+>tr|A0A1W9L7Z2|A0A1W9L7Z2_9BACT
+GLGTPDIHGSYGIFSYFTDDPAEKPRSVSGGQVERVAVEDGQVHGALRGPKNTFSVNGAK
+SDVPFTVYADPHSDSVKIVIQDHELVLKAKEWSDWVAVKFPMLPHLVSTSGICRFYLKSA
+HGPFALYVSPVNISPADPDLPICAPPGYARELVKDVGLFYTQGMAEDTAALSAGVFDDDE
+YRAQATFVLDESFRIFNHEFARFRRGFFFFYFSTLDLNQHMFWRTLDRDHPLYSRKLAEK
+QGDFLPWLYGRTDEAIGTALDAADERTLVLAVSDHGFTSFRRQFNLNSWLMDNGYAQPVN
+ASDRAEASFFTNTDWAATRAYGLGINGLYLNREGREAYGTVGAGEVEALTAELVERLKAV
+RDPKTGEPIIANVHRRSEVYSGPCVADAPDLVVGYNRNYRASWDTVLGKYPQEHVLDNLD
+PWSGDHTMDPSFLPGVLLSSRPVAAADPGLEDMAPTILKEFGAPVPTEMTGKAVL
+>tr|A0A1W9LD63|A0A1W9LD63_9BACT
+MDTVSPSERSRIMASVKSKGNKSTESAVVALFRVCRLSGWRNQYPVDGKPDFVFPKRRIA
+LFVDGCLWHGCPKHCRIPHTNRSYWVNKISANKRRDNRVRRRLRAKGWSVFRLWEHDIGM
+PRASLTIERIRKSRPTD
+>tr|A0A1W9LCN8|A0A1W9LCN8_9BACT
+MSVTLDASVLLAARFAAEPHHGEAERALRALIESGEPLVLPTLALVEISAAVARKCGRAD
+RAEEAVAALRKLPNQSAMPLTESVAHEAAGIAARRGLRGADAVYAATAHLTGSVLLTLDK
+ELRRRTGNSIPCQTPAEWLGDRPDSAE
+>tr|A0A1W9LE11|A0A1W9LE11_9BACT
+MAEAAESEMQDIESSLIKEVGYDAATKALTVIFLQSEEKYLYKDVPEDIYAALMAAESKG
+KFEFTKE
+>tr|A0A1W9L8Q8|A0A1W9L8Q8_9BACT
+AGAAWVRFLTGAEGMSASGGLQFDDASLTGFRAGRTTWYLRRDVYFDAPPVAVSANVRRD
+DGVALYVNGAEALRDGLPAGTLTAAIEATNTVHGAAESNYIARSLSAGLFGAGRNVIAAE
+VHQAHGEHPVVSSVWINELHYDNTGTDTNEGVEIVGPAGTDLAAYKLLLYNGGSDIYRTS
+SLTGIVPDQSNGCGAVWIPVPSLQNGVTDGFALVYWPTSVVQLLSYEGVFTATVGAAAGM
+ISTDIGVTEPGSVGQTLQLSGTGIAYSAFTWVGPIAGSTGTLNSGQGILPPEPPDLAYDL
+ELVAVTTVADLLRSVSATAVDAPATVIGGDRATIAVMVTNSGQTVESFLVVLVDTNTGAI
+VGSQMVSNLVAGNMAELVFDWNTFGVAGTTAYLASSYAGVQTLDLSAPLAPVVQGTYPSG
+SRAADVAVSGMLAYVAAGELGLQVVSVSNAARPVLLGSASGISNARRVALNGSLAVVGDG
+ASGIRIVNVANPALPVVVGSFANTNLVFTRSVAAAGSFAAATDGRRILLINISNPAAPVL
+QSLFTSSGFVFDLAMTTSHVFAAAGGDGLVVRSIPSLSSAGGYNTPGMAVAVALEGSRAH
+VADGEGGWNVFDVSNPAAPALLGASLAQGPVENVAVAAYLAAYAGPSNVVSALDVSAPLS
+PIARGSFDRVVQVLRLASAGPYVLTAEDDAGAAIFDILPDDHDTDRMSDAWEQQIVDADP
+FDGITSVEDVLPDDDFDHDGLSNRSEFIAGTEPTNSASVFAIAASALAPGSKYVVRWHSV
+PGKVYNLYSTTNLASGFSALQSDIPAAAPLNSYTDTVSSVAARYYMVGTRE
+>tr|A0A1W9LAX1|A0A1W9LAX1_9BACT
+MKKFAMLCVAAFGIPAALIAAPAQFDLSGAADKDVVYEAGGAALPFGQNTNAVQSFGEAG
+GMDGLPVDRQVNSSDPALGTYLLRPYDGPNVIELNSASNSPDEEHVIEVPDRRYGKLGLL
+VTAVDGDASFTIKLTYTDGTTDTQWFEADDWYDLGPRGNLKKAARDMDRVNTKTGKVEDS
+NHFNVYEFILDGPRGLNLDKVLTSVTIGNVPNRWPADAARYGGVFAINGAPAD
+>tr|A0A1W9LFU3|A0A1W9LFU3_9BACT
+MGGKAPNSRHPVVRSSMGFSGEVAMSGRIRWMTAAMAGIAVAAGAQSPEAGWHADIDVGR
+IANTGLDIREAGLFRLADGSLVARVRCGAAPSPENLRILLDIDEPTNGMAGTGADLMVEG
+DVLFRYPRFAKGWEWNEVSGVSSVASEFGTRSVLLPAAAAAPRIRWAVETLDRDWKTVDR
+IPTQGMIESRLERLPEMSPVAGPPAPGVTITAAPPLAARFAALSEASWAEDAAARTLSVA
+LPGGVMAPLRFEIRPVGAAAGAMTPATAWRDGERVKWTGTNAGLAWTLLAVPGAAGDLWV
+AAEFRGSRETAFDFAATVGLPAWAWKAADGSRAGAPLDTRAWRGAAMGASSPIGEACSQA
+LWPFAAAASPSGTVALVADPDEPRPYFFEAAAQPPALTMVHPLAVTPMTTRFPGRACVAF
+LVRGAPPSADPLRSVAAYWQGLLSPGAASPAVPLQWIEAGADAAAARGLVGGPVAAEALR
+SGESSAVAEAWRFVRLRPWWCEMPVPRGVKADGAEALRMLRFHAAAGGPLAWYAQSAILG
+ASREAGDTILTGVARGPGGPALRVAVSADPDFLTTPGAPWNRATLEWAYAMQYHDSPGVA
+AYLFDGFDGLGGLDYNRATLAASDRATAHAAGSKAPGVPRALDAVEFLDAFRRALGPGRQ
+VIALADPFEDHALFAPYADLTVFTDPVRSADGGARARRYRLLAGSRPCVRVLTGDFEWMD
+PSAMRAALAESLLYGFIPSPGRDAAGRSYWAQPAWVARDAAALRTYVPLARRLAAAGWRA
+DGAAFAEAEGIDVESFGTGDLRIAAVRNSGAASREIDVVWRDAGVPVHVVQPLTGACDYL
+EPAGGVIRSRLRLAPGEVAVLDLVPAQAVEAELSFLDGWNAAAGEGEAAAANLRALHKDM
+EAGVGAWVSCASPLIRGSRNTVAVRILNRGTAPLVVAEARLTGAGGAAALLAEPRILGAG
+EAAGFTGELTDVLPGATPWVTLSWRLQRGDREWVSTRRLRAAFVPPVEVTPARAAPVPAG
+GVAEIEIALRNHSRQRQVLDLVWDGDFPGDRIQTVLEPEEAKTMALPVAGAPGRSGRVEV
+RVSSGDRELHRSDVRLRFPEAP
+>tr|A0A1W9LCP7|A0A1W9LCP7_9BACT
+MGCTTIRESKAGLEVLGGRRADLPEGVVADLASAETAAAAKQLCAHHAGKICVAIPSDKV
+LLRVVELPTVDPAEMRGMAELQVDKFSPFPVEHTAVSLELLSQTEKSSRVLIAAVKREII
+DAVGAAFGKAGIIPHWIDVEVMGWWYLLKQAGEIPDRGRRVLLLLDKTCTDVIVSQDGVP
+VVFRSLGTGRGVSAEDFHTELAEEIGYTMTALEAEWGALETMKIGLWLWPAEAPPKMAMA
+EGVPADAAAPAAVEPPPGLIPQLTEACGLDVEVRSLATLASLSEGLARRTAARAPMTLDL
+APPEWHVQEQTKRTQKTLLIASAVFGVMWLIGISILLSGGRVSTRRIAALKASVEKLEKP
+AQEVSALTEKVASLEQFADRTHSALECLRDICQRLPDGIDLTSFSYRKGGNVSLRGDAGS
+AETVYSFFEALQQSTLYASVKAGEVKQRPGGGRPEFTVAATLPGAEAKLEE
+>tr|A0A1W9LCR3|A0A1W9LCR3_9BACT
+MARVPSILPVLLAAGLGVAAGCGDGGGTQPGARVTIANIGSDTMLNLAAAWAEAYDRVDP
+SVSIEVSGGGSGQGAAALINGSCDIANCSRKLEEKEIEEIRKRRGLDAKQFVVGFDALSI
+FVHRSNPLREISVGDLGEMYRDGGTLTRWSQLGVSIPGAKGDAIILVNRQNSSGTYHYFK
+EAVVGKKNEFKLSALHMNGSKDAVELIANTPNAIGYSGMGYATPEVRQVRVAKKRGGPAF
+APSAASALDGTYPIARPMFMVTAGEPSNAVRKYVDWVMSPVGQEIVELTGYVPRVAR
+>tr|A0A1W9L9V3|A0A1W9L9V3_9BACT
+MKKLGILAALALAGTAQAATIEDTARQLLARYKDAIVPVSGVLKIEIPGGGEARTQEQPL
+ETYGTVLTADGLTVVSASALNPLGNIGPIEINVGGQPQSVRPRASTSQIKIRLADGAEVP
+ARQVLTDEDLDVTFLVPDPAKGETAPAFAAFLDFGTGAAEAQTMDEIIGLGRVGKLFNWA
+PAGGLSRIVARVEKPRTIYLFSTGFTGGLGTPIFTRDGKPLGVVVLRRQPGGPAGSRQIA
+VNQAPIILPAADLADLVKQAAAAAAKKPKP
+>tr|A0A1W9LDY1|A0A1W9LDY1_9BACT
+MSASTPIRQVIKRDGNSVAYDRERIATAIFKAFASQGPADRARADGLAARVEAALRSAYG
+VDGIPTVEDIQDVVERTLMEDGHAAVARAYIIYRHDRAQRRAARSGSVEATDNIPYRTIY
+EVLRWNMDHGCETVDGLNRIVAEGRFPDLVRDGEARYDAEVRAGADQIVERRPDVRLAII
+AGPSSSGKTTTTIKLTERLREAGLELVALNVDHYFFDLELHPKDEFGDYDYETPHALDLP
+LINRHLIELLDGREVRTPHYDFKTGFRTLDVHPMRLAPNQILLIDSLHGLYEAMTASIPV
+SRKFKVYVETLGQLRAADGTFMRWADHRLMRRMIRDAWHRNHQPLQTLTHWHYVRSSELK
+NIIPFIGAVDYLVNSALPHELPVLKPRVFRFFPEAMDLYRGDPKRQDAYIRARRVRELLE
+PLTAVADDSAIPDGSLIREFIGGSRYAY
+>tr|A0A1W9LEE2|A0A1W9LEE2_9BACT
+MDADASWAVPIGLSLGVSFEFFRQGVVGLGVELAYDGSTLDMVNGDELKPGGVLFSVRAV
+F
+>tr|A0A1W9L7Z9|A0A1W9L7Z9_9BACT
+MAEFIRSSIHTARRRLKQWQAANSYNHNGRYYTLPDVPEFDGNGVWRWRGVFFSQYGNLK
+QTVIALVQRSPAGLDAGELRSLVGLDPRSFLSALAADPRLRREKTQGRFVYYGADLAVYS
+GQRQRRSTLPAAGRQPTPSEAIAILVEKIKHPALRYEALSRHLRKQKVVIEAETIRNFFL
+RLGLTVKKTPPSI
+>tr|A0A1W9L8L4|A0A1W9L8L4_9BACT
+MKMTTAADVMTTNVITVRKDELLTQVIALLLRWHISGLPVVDDDGTLAGIISEHDVMNMA
+FGGNAADTRVEEAMSTKVISFPPDASLADLVQSFSSRRLRRVPIVENGKLVGIVSRRDIL
+REMLRRYERY
+>tr|A0A1W9LGB7|A0A1W9LGB7_9BACT
+MIQNPIVKVLSTMRARKVRCLLMGGQACVLYGGAEFSRDVDFALLASAENFLRLKKALAD
+LQAIPIAVPPMRLQYLRRGHALHFRCGDTVASGLRIDVMSSMRGADAFPALWRRRTTVEL
+PGGLAADLLSLPDLVRAKKTQRDKDWPMIRRLLEFDYLNHRRNPTAAQVRFWLLELRTPI
+LLRELAGRSPSIARRLATRRPLLRAAWEGADETLVAALKAEEDGERRQDEAYWRPLRREL
+EAMRHAAARKAGRK
+>tr|A0A1W9L879|A0A1W9L879_9BACT
+MRAETIAIIVAGVLALPLFVFVHLWLERCYLAYAWRYCKKHGYATSRVRCGPLFDKDGIK
+TEYSLVEIDCRDQHQRRILLRLKVWVFGVRQVLSAGDFPTEQEDGANQAS
+>tr|A0A1W9LDJ9|A0A1W9LDJ9_9BACT
+MTTSCISEKGQVTIPKAVRDRLGLAAGMRLEFATENGRLVAKKVVHEDLFHKWRGAGRLP
+GGETVDDYLARVRG
+>tr|A0A1W9LF08|A0A1W9LF08_9BACT
+MIRFLGWTVSVIGLTVCAGAATNSVPPSAPAAATPDARYARLTLKNLAPIEAVLQAAADA
+VPEFTPKTADWDKRMRKAAWVPRLELRSLIGQQPFRDYTVV
+>tr|A0A1W9LB65|A0A1W9LB65_9BACT
+MIVPRIATATAGPFVPPSIMNADDWMTAGLADLDAMHLRRRLVVRSGAGGFIEAGGRRLM
+NLASNDYLALASHPHVMAEARRALEAYGAGATASQLVCGRLPCHEELDARLAALKQCPAA
+LTFTSGYAANMGIVPA
+>tr|A0A1W9L8I6|A0A1W9L8I6_9BACT
+MQAANGLLMRPDSKLCIVSASGGQPRVMNCNLNPMNSWHSWSPNGRWLAFSSKAFGPYTR
+IFLAHVDERGIDSPAVLLPNCTAANRAVNIPEFANIPNGGIAAIDTPAVDYRRLMKEGGE
+LAKAGDVVKAERYLKESLALKDDYPDTHVAYGFVMDSLNRPQEAIARFERALSLDPRHPG
+AHRYWAMTLIKRGDYAAAIAHLRQTLAIDGLDDDAYRHWGYASGYANQGVVLARMGRGGE
+AVGLYRKAIELDPGHAAAHCNLALLLATDKDASVRNGAEAVLIARKSCELTGFANPQCLL
+ALSAWYAEAGSFDEARVHAERALALVPPASAMAADIRTRVLPAIMSWQPVRSRY
+>tr|A0A1W9LFR0|A0A1W9LFR0_9BACT
+MVLTAWIGARALAGEAVFDIRDFGAKADGATLCTEPIQKAIDACASAGGGTVRLAGGRYL
+SGTIRLRSHVTLHIEGGATLLGSTNILHYPHHIPAIRSYTDTYVKQSLIVGEDLEDIGLV
+GRGTIDGQGPAFRMADRNRPYENRPYVIRLINCRDILVENLRLRRSPMWMQHYLGCERLV
+MRGVHVWNFGNANNDALDIDGCKDVSVSGCVFESDDDAITLKSTFERPCEGVTIDGCVAR
+SHCNAIKMGTESSGGFRDIAIANCVVTSPLETNTTYGMPRGMCGIALELVDGGHLERVAI
+ANITIQGVEVPLFLRLGDRARPYREGMAPPPPGSFRDVTLQNIVATGVGRVGCSASCRPM
+VSIAAM
+>tr|A0A1W9LCX9|A0A1W9LCX9_9BACT
+MGQARRFLPLQRGFDFFYGHGNNGIDYFTHERYGVPSMFRGNERTEEDKGTYATDLFGRE
+AIRFIRGSPDRPWFLYLAFNAPHSASSFAKEADPRGGVTGGVRRVRTEGVQAPEEFVAPY
+RDKVKDENLARYYGAVACMDAAIGAVTKAIEDAGQIDNTLILFLSDNGGEGGGGNGGNAP
+LRGRKGTMYEGGLRVPFLASWPGRLPEGRVTDEFLTSLEIFPTLAGIAGVEPDPAAKLDG
+FDMLPVLRGERPSPRAEMFWQRRDSRAARVGRWKWVDGPAGGLFDLTADIGETSDLSKEK
+PDVAAKLKSRHEAWRREMDSCEPRGPFRDY
+>tr|A0A1W9LEL5|A0A1W9LEL5_9BACT
+MKRTYQPSKIKRARTHGFLKRMATKNGRKVLARRRRQGRKRLAV
+>tr|A0A1W9LDI8|A0A1W9LDI8_9BACT
+MERRIAIVYDYMTQMGGGERVIRTTWVNERAVEIPVVRKFLEGRAGRILEVGNVMGHYGP
+ADWDVVDRFERGARVLNCDVIEFRPALPYGNCVMFGYHRKPGEAHPVLR
+>tr|A0A1W9LER2|A0A1W9LER2_9BACT
+MILRWSSFEHFEEGRHTNEVPLVYPRTVLVATAPPGTKFAHPVVDKASPDEVLSYVAFVA
+HKAEVSPAERGAVRAPGAP
+>tr|A0A1W9LF76|A0A1W9LF76_9BACT
+MPVHMLIGIVVLSVAGLFLLGWMVPLGIGIRLSSHRRGGTALIVVGGVWGAAAVSLVAMG
+AMFVLGFRTMSSSPSDSKVFDAAAHAGPQGLIRTAGTEATSLTVTDESGGTLRLESTNGI
+LAAPAGTLHLTQYAMTGSLPDGSGWTVSRYGFSGGMERIAVPPGGTAEVALGPPYRAVVT
+VSKADDGRQTFDLQISSTDGNRVSLRFHGTRQTPLQFEVLDAGGRRVWNGNFEYG
+>tr|A0A1W9L8F0|A0A1W9L8F0_9BACT
+MDPMIMVMAGGSMLLLSVGAGYVLGWANKTFHVEVDPRVDAVIGALPGANCGGCGYVGCA
+SYAEAVVLQGEAVDKCPVGGASCAAKLAGILGVDVKQSWPKRPVVHCRATLEQRLQRTAY
+TGERSCSAANILSGVQGCTYGCLGLGDCVRACTFDAIHIVDGLATVDYEKCTGCSACARV
+CPRNIITMVPFKQERMLVVGCSNKDFGREVKDVCTTGCIGCKACAKRSPLFAFGADNLPV
+INYDEYDPSNMEATELAIEKCPMKGLVYVGKPPKTGAVDGEVPDLVTADFKTTVDDTEWQ
+G
+>tr|A0A1W9LBJ3|A0A1W9LBJ3_9BACT
+QITAVEPAAGEIVVRLANATPFTRVHVFGARYLPAYDVFTHLGYSGTPGLRQQPWSPART
+FYESGRDIGDEYRYILDRQSAQKFPGNMLDRPGLLLNPWALRDTEALAEALRSGGAYMGG
+EGGRGTAGGIGAASAASAPEPAAASASLDFLKTPAAVLANLQPGKDGVVHIPRAALAGRP
+HVRIVAVDPTATVIRHVALEDSPVESRELRLAGGLDPAKAYAEQRIVTSVPAKGTLTVAD
+AATARFETIDTVAKAFRLLSTLGGNATLGEFSFITRWPDLPAAEKRTLYSKYACHELSFF
+LSQKDPEFFRTVIAPYLKNKKDKTFLDLWLLDADVKPYLEPWRLGRLNAVERILLGRRIS
+GQGAAIARDTRERADLIPPNIEDFSLRFDTAVQTGDLETGGVRLQLEQERRKQTDGLAKS
+LPEAKAAFAASPPSPMSAGPGNAGRNRAAGNEAQANDGELKLGAMGKFERRALLREADPG
+ADRDAAAKWQEKSKSDAGEAGYYLQTDKDARQAGRRFFQKLDQTKEWAENNYYKLPIEQQ
+LADLVTVNDFWSDYASHDGKTPFLSKSFPQATRNFAEMMFALAVLDLPFKAGANAEKLDG
+LRYVLEAASPLIVFHREIREAARSDEPAGVLVAQGFFRADDRYRHENNEQFDKFVAEEFL
+PGTVYGAQAILTNPTGNRQRLQVLLQIPVGAIAVSGGLPTRGVYVDLDPHGTRTIEYFFY
+FPATGKYAHYPVTLARNDKVVAGATPFTFNVVAQLTKVDKTSWAWLSQNGSPEEVLAFLG
+GANLHRLNLTEMAWRMKDAAFFRQALALLGARHVYDPTLGSYAFLHNDAAALGTWLRHSP
+FADRCGLHLVSPLLVLDPVERLDFQHLEYSPLVNPRAHAVGERRKILNNRFREQYQRLMK
+VLAYKAALTDADELAVAYYLTLQDRIAEAIDWFAKVDRKAVPEQIQCDYLAAYLAFCRGD
+LDGARTLAKAHAEEPVDRWRTRFMQVLAQLDEATGAAAAATDAENRDQAQGALAATEPAL
+ELQVEAGKIRIDHRNLKSATLNFYPMDIELLFSRSPFLQEGSAQFSYIRPVLSQTVELAA
+GRDATTVELPAQFKAKNVMVEALGGGVRKTQAYYANTLKVQMVEAYGQVVVSHADTRKPV
+SGAYVKVYARTKGGEVKFFKDGYTDLRGRFDYASVNTNELEDSARLALLVLHEDLGAVVR
+EAAPPKK
+>tr|A0A1W9LCJ0|A0A1W9LCJ0_9BACT
+MSAVRKFTGSEVRRFAGPRKYDALFQVSGFILHPLSAWGPPVSARSLHQILAGYSKGDAI
+SNEALTIRAIVRARGLASEIYCETSRVLPELRGDVRDLSRAAAELGPEDAALLHLSIGSP
+ANALFPSLRARKAILYHNITPPEWFEGVRDATARMLAHGREQARALAGAAAVTLADSAYN
+ASELETMGHRDVGVFPLALDFSLIRAAPDRAVMREYGDGRLNVLFVGRGVPNKRIEDLLA
+AFYYLRRYVEPSARLVHVGSYAGCERYLSLLRARTREWKLEDVLFPGSVPQPQLVAYYRR
+ATVFLCMSEHEGFCVPIVEAMAHDVPVLAYAAAAVPETLGGAGVLFHEKRFDLVAEMIAR
+IARDARLRAGILAAQRRRLASFESRDLAAELWLKLGPVLE
+>tr|A0A1W9LER4|A0A1W9LER4_9BACT
+MATGTRKVALRLWGGSIPDRDPDALVRELYAEENRDLEDPSGSQDMVGLILPGVNRLDYD
+IRHEGGVFPRHIECNRDPAVAAWLERVIHMVPVMPRPEGYSPLDEKRLDPEWVRRLGRSG
+RECFDAIVACDVAALGDSMNECMRCWEALLPCTVRHPTIPLDLPAILKAHQTRHSGAMYS
+GCGGGYLYVVSETSVPGSFPIRVRR
+>tr|A0A1W9L9M2|A0A1W9L9M2_9BACT
+GVPAGCDHTGFKVGRINGWPKFIATGEDPPPNVVEAVRYFDAVNFAARAKAPGIVTVGFI
+DTTCPPTGVYAAYNALSGRKQIFDDIPTGHANSPEAMKAMREAILAHAAAAKTAVR
+>tr|A0A1W9LEP8|A0A1W9LEP8_9BACT
+MRLLRSIAWLLLAAVALGGAGGMHPRLLEARRAAELNQGDPLENAPPLVAFTTVALGGFR
+GLVVDILWMRASELQDKGKYFELVQLADWITKLQPRFASIWAYHGWNLAYNVSVMLSDPA
+DRWRWVRHGLMLMRDEGMVYNPGSALLHRELAWMFQHKLGMDSDQAHIYYKREWAAEMTA
+LFGGPRPDLEALAAAPADAETLLRDPAVAHLAAALRAAGLDPLSARVLDPGGVPAALQAR
+VSDSAEGTALRAFVRARRMREVYKLNPARMLEIERHLGAQLEWRLPTPHAVYWATLGLDF
+ARTRFDEISLRRQVFQSLSDCFLRGRLAVDSGGGLFVMSPDLALLPAVRASYAEALKQHP
+DDPTVRQAHRNFLVDAVMISATYNRMQQSRELYAELNRLYPSGAPASVEAYIAATWSTHI
+GDLDPGQALAAVEAALYQAVFWKLLGDDEASAGHEQIARFCWDAYMDGRKDPELRARTGL
+PPIETIRDRAAERAKSDLAAAREAKK
+>tr|A0A1W9LG44|A0A1W9LG44_9BACT
+MKRTILAVVWASAGLACAADPWRVAVLDFEDQTGMKAEAALGGAVNPKSLAEKGVFALGQ
+QLANKPGYTLIDRRDFLSQITKSEAPGAPAPSFLRAAQALNADVVLRGALQAFSVGKTAV
+KQGGFNVDFSTLTLRVGIEALDPVDGAVIAVASGSAETKVRQTENLQTVLGEAEVLTLFE
+KALASAVPTLDQALAKRAEAEKNRPVVKLNIKTTADPALVEIDGLLVGTTPLEGLQVYKG
+DHTITIGRAGHRDIRKRILLERDTQIEVPMIRTELSAEEIKDVLDKARVHAIIGEPGMTI
+LPLQ
+>tr|A0A1W9LDK7|A0A1W9LDK7_9BACT
+MGAGPAATPAVCGLSRRIQAEPEEVEQIGDADRQTAVAVLGGAAVRPARPPLQASTATA
+>tr|A0A1W9LE50|A0A1W9LE50_9BACT
+MSITRCDGLVVPVHAAGPGGPIPRRELLRRGLIGAAGLWLPGRVSRAAAPTPVLPAKAKA
+VIQIWMWGGPCHIDTFDPKPDAGRDYCGDLDKAIATNADGIRINDRLTTLATQAHRYSII
+RSMTHGVNAHETASYMVQTGRKSGDGLVYPCVGAIVARFKGYDAGYKGLIPPYIVLTKPQ
+GRFSEAGFLGSRYKPFATGGDPGSRTRFVVEGVVAEGITEERQRARRDLLHRLDSLGNSL
+KSDPRIQVLDRAEMEAYDLILGDAGKVFDLADEKDELRDRYGRSTFGQSCLMARRLVERG
+VPFVTINYNGWDTHKQHFQSMRRMLPEMDKGFGTLLDDLAQRGLLDSTVVWWSGEFGRTP
+KVQWEPPWNGGRNHFGRAFSAVVAGGGFKGGQVVGATDKTGETVTDRPVYPWDVTSTIYK
+LLGIDPAATLPHPQNLKVHVAPSADEKYESGGPLTEIA
+>tr|A0A1W9L9C8|A0A1W9L9C8_9BACT
+MAALAAAWALAAAAGAQAPGAAPAAGASTNAPEPAREMSEAERKAQPQVEEGFFQSRLGN
+HEGAATAFRKALETDPKNRRAMFGLGTACIALGRYAEAIEILQRAVDADRTDYFAMNNLA
+WLHATARDIRFRDGRRAVALAREALMIAPMDFHVWSTLSEGYYVSGDYPKARRAAEEALR
+IARAADTPAAGIQEYEQQVQRCRAAAEAMDILE
+>tr|A0A1W9LF44|A0A1W9LF44_9BACT
+MKTCLLDVNVLLALAWPHHVHHGAVHAWWETACPVRWATCTLTQLGFVRVSCNARFCPVP
+ATPAKALDVLRRMIARPDHDFWAEISAGLSDVAVSKRISASLGHGQVTDSYLAVLAGIRG
+GSLVTLDRALAAGHPDVAVLLS
+>tr|A0A1W9L8P2|A0A1W9L8P2_9BACT
+MKNPPTPRPALNRRAFLRTAAAASPCCLQIGTQAMSDSAWHQMKALVTEGFIGKPLFGET
+GYFRVGDFGERGMPVDDPNAKPGPDLNWEAFLGDAPKRAFSVDRLFRWRLFEDYAGGPVT
+DLYPHCLTQVVDILGMGFPESVVALGGIHVYPYELREVPDTFNLIAQYRENVSVVVMGTQ
+GNTFQATPRRGAGFRCPVIRGTEGTLTIAPSNKEILFTGIEQPGAKAPRQIPIERAENNT
+DLWKNLLDCVRSGKKADLWSPMSLAFRAQTVLQMAMLGFKAGKTAKFDAAKREIVL
+>tr|A0A1W9L9G0|A0A1W9L9G0_9BACT
+MRKPRSGLRVLAGWIAGLGLAVVAVLGLGAIVLWRCVPEPPAVPGDAAILRLTPETRDGK
+VFLGRNWFGRREGLNVLYVTGTPFEMGYANGVLTRDLIRRQEDTLLDLIGTVVPSRWVQR
+LLLAMVVFQNRHLPDHVVPELQMEILGVTRGCPDPHPELGPYYARTLGYHGAQDASYMMM
+NSPLIRGGCTAFAAWGPVTTNGHLLTGRNFDWEAAPVFDRDRVMVLCEPRDGIPFVSLSW
+AGMAGVVSGMNREGLSIAVNGAPSHLSGSARTPTCLVAREVLQHARTLAEAIEIIRRREV
+FVSALFLIGSRIDGRFVVVEKTSSRMAVREETGRPYLVNANHYLTPELRDDPLNLEFLRA
+DTSGSRDRRAHELLAATQGLNAEKGVALLRDRGLPGGAFAGNGHRGTLNPLIATHAVFMD
+LTDGIFWAACPPHQLGRFVAFDVRRMDRELPELAVGEDPMLAAGYPRHVASRQALDQGWK
+ALRRRDWARAAGLARSADEANPGFYENAWLLGEALLGQGDAGGARAALEAARRGRPALAS
+ETRRIETLLGGLRP
+>tr|A0A1W9LE26|A0A1W9LE26_9BACT
+MTDPARVPAGAAEAAWLQWHARCALARCDAEPAGILRQFAWTRSVSLIHRLGTLAEGLAA
+PAAREAWHLFEVHLVTGRTREGKRYKEWLFARAAGQTGAVRVDTIQGGATLILRDVVRET
+IRREVRPIGMCSIDAPVHGTEGLTLADLVAGGSSPADDAAAREIEVLAQRTAERMFGLAS
+RRVRIGLCLRELGLSLDGPAVERAAGCCKSSLHTAVRAFTVDLAAAVRDAHPSEVPGTAH
+AIAARAVQILREMAREWGRLEKSLARFFHQVEGASSAVPAHLRERPS
+>tr|A0A1W9LDZ3|A0A1W9LDZ3_9BACT
+MLFVSVALFVFLSRLPFINESYGLDADAWGVAQAAKRIAETGAYTISRPPGSPLVEMTCS
+LLWRFGPRVMNGLTAAFSAIAAGFFALIMRSLVPDRRVGLLATLAFACVPVIYVNSVGAL
+DYVWALAFLLAAVHAALDRRAVLAGLLIGAATGCRITSIGMLVPLGILLARGKNGPAAAR
+VVVPCVLAALATAVLAYAPVWRAYGGSFLSFSDQHFAFGEWTATVLYGVTAGLWGPVGAA
+GIFGATLHFLFHPRRSLTNSVVPAGSAKPVVVAALAAILFYVAAYLRLPVEYAYLIPAVP
+FVLILFAHILYRPVFVLACAALIVSPFVLRLDPFTMAPSLSGPVFHDLAVRREQVRLIRA
+ACERLNGWPDTQVAVIVETPILEQNLSVIAADPGLRLRDGVEVLLGPDGLQRRQRLDAGL
+TLYLLRGDGVRIQRGCAVSRASDGGVMMEFDTFAVTNAATAVTALDRAAALLEMDVSEAR
+RKELRDTLLNTTFFVPGPKIESTVKRASADGSMAVLVGESGGRLFIPAFDSLDRCRAWTR
+ELTEYTRFSGAELLELADQGYDLGLNMKTPGEFVLTPERVREMLPPPSSPTPTVPVDFLP
+SPSR
+>tr|A0A1W9LD84|A0A1W9LD84_9BACT
+MSRRCVLCALAGASWLFGCLLFGALPGAARAADDSRAAVTSVTQAPYYWTYWGWSGPVYA
+RQPDATAVERPGLGIAGGEEWYERLHSEERVKAMADVGISLAVTHFYWGLGLESEREDQQ
+RTAELVKLAHKHGIKVLGYCKSGSSHYALVKELPEPEKWISRWSGGKLKIYDYKPAESPN
+IPPMASVEPCILSPEWLAYMKRAIRIGLEDIGLDGFHFDNTCRSPCYCERCQRAFREWLV
+ARHSSPRKLGLNSFDEARLPLLRTPSPEIRDPLEQEWVRFRCHIMAEHLDDLARFARSIR
+PEVILLHNPGWPRRLDQPYRLAMWMPLQSRHFTLVWAENGNSARMSDDVLISQIRAYKEA
+AAVGFRAVSTTWKGGVVNASGLPQTPEEVGLQVAEAAANKAAVPGANWALRPDGKGDRMR
+IDRPELREALAKSLRFVRGNEKLLAGGRPVRDIAVFKTFDSMAFNSPEAGPLVSGVEESL
+IRSGFSWEMVFGEDLRRLDGFTTIILAGQSHLSNKECEAIRAFVKRGGNLILVGDNGRHD
+ENGCERSPSPFEGLDENRVARVEADAVRSTVSVVGLGEEVRVLLPKGWKQLADAIERVAG
+SRLSVRLEFPGSSPESPAIERVAGSRLSVRLRGANTVAVSGYELDGNRLAVHLVNYAPAE
+QPKDLCLELGGRWEKSRAARLLTVDGSERNLRVRRDPQPRLELPPLGVYTVLIVE
+>tr|A0A1W9LF96|A0A1W9LF96_9BACT
+MNPDVRPLDLNALRIRPLAERRSLTRADDVLIDPAAPPPAPPAAAAPLVRECADRIRAAR
+ERGAGVMLIYGAHLLRNGAARILDRMMERGWITHLATNGAGTIHDWEYAWLGASTESVAE
+NVATGTFGAWDETSTAIHLALMTGALDGLGYGRSLGRFICEDGAGVPDAAHLKRLLRTDP
+EHPLAAARADLLRALREGHAIPRRVTLDHRWKHASIAAAAWTRGVPLTVHPGIGYDILAC
+NPAFNGAVLGRAAEWDFKLFAGSVDTLDDGVVMSIGSAIMGPQVFEKAASCVNNLRLQNG
+RRILHGHTIFVVDLQDGGGWDWSRGEPPKTNPAYYLRFWRSSATSASTATWRSTRRAPRP
+RSRPGCPCTTSPPSARSPARRAPCSPTCPHSALARSCRSDSAARTAKDSNCGRRWRPCRA
+CTWTTSPPPRSAAPSPIASRWCWNPAGRSAS
+>tr|A0A1W9LDL2|A0A1W9LDL2_9BACT
+MSGMNVLDYVFFGLVLVGAIRGAIVGLSRQLFGLLMLVASLWTAGRFYPELAPTLVSGGH
+MDPHTADISAYLILFGGVCAAFLVVRLLLRALIKFAFTQAIEKVGGALVGCAMGAISAAA
+AMIALSLIPNATIHNAVAQESWVGRRLIHAFPAFYGEISTKYNLPSIKGLTPGDSAAPKA
+PESPDSAAPAMEDPPPVTPVEPPPAAMLHRKGLHLGTAPVEGGATLQCGPGREGAESVPT
+RQQSA
+>tr|A0A1W9LGK6|A0A1W9LGK6_9BACT
+MAAAFAAPLATTAAADLPEKGAYVEMVRGDRTRDGGDPIAAIANYERALDLFRVLRAERP
+DYKAAAIEFRMDYCRRQIAALKAAAPAAPVAAPVAPPVAAPAPAAAPQKPAEPAVDVAAL
+RDEIRRLSDAAASAEAMQARLKDVEAAAAQMETERKRLQDESGDLRRAADLSAKRVESLT
+AALAAAKQDVDAARKAGDVDAATAPLRDEVKRLNRELQTTGKDRDTAVAEAERASTRYGD
+VEKALAGEKLAVKELKTQIEALDPARAEREMRSVLGDKTRLEAQVQVLSAKLEAQTHEAK
+ATRTAAEAAQTDASRQVAALMRETRDLTREREQLIAKAGKSADRITALEAQLSEATRPPQ
+PSAPAAEPATPAPATPPVAETAPAAPVMPAPETPAPAPVPPPAPQPPPAWKADADAAMAS
+DAADRALAIYEQALAASPDDPDALLGSSRAQMKLGNVEAARAAAARLVSLQPETASAHHA
+LAMTEAASKNRRSAARGFQKAVSLEPDNPTYRRDLAVALYTLGRSADAADHYREVVRLAP
+KDGQSHFNLAAILVMQRNPPLDEARAMYEKALSLGEARDESIEKKLAAP
+>tr|A0A1W9L827|A0A1W9L827_9BACT
+MATYQKIKRKYGGSVAAAIETLETSRTRLKDLRTRTEQVAALDAEAAVLRADLEKRGVAL
+RKKRKAASEELGEAITGELEFLGFPGSSFSVELTPREPLADGMDHVEFGFAPNVGEAMRP
+LRLIASSGEISRLMLATKAVLAEHDRMPVLVFDEIDANLGGEMGHAVGRELAGVATRHQV
+VCITHLPQVAAHGTIHQAVRKVVRDGRTFTQVDRLEEKARIEELARMLGGSDSRAALAHA
+VEMLAHARRKIPR
+>tr|A0A1W9LH97|A0A1W9LH97_9BACT
+MIAEARARRGSMNHWTVRIAAAAAGILVAGAPVHAVDPVAPDAGIGTNAAATDELIFKKR
+TRRLYNSSVTMDAAGAAPAAPVESKAGPARQDSAAPEDAPMRSSLVGRNTTPAMQQGPQG
+SARKAMRAAKERKKDEDDWLLTPQQRVQKEIDLLSGKDEEEEESFGWLADEVQSLREEKT
+KKHEERNRQEAEEEEAGEIAAIMGRDLFGNATGKKPLHGLKREDRGASRPALGGSVRERF
+GSEATNSLSAPGLRIRDADPEEGRMADRADGKAEASPKAPGGIPSPFAWNSSSGGGYAGL
+PSSLAPSIMPPAGSYGPGGSSGLARPEFGRGWATPPPSGGAGLSPRVDMRPPVGQPVRSP
+FMNPTASGLQGGAGYGTLPGYRP
+>tr|A0A1W9LFT2|A0A1W9LFT2_9BACT
+MFRSLLALAAVTLVAAAARAAAPNDDARRVFSDPPREYHTLPFWVWNDDLTDEQVRFWMQ
+DFADHGIRSVMVHPRPGLMTPYLSDRWFALWKLALAEAERLDMDVWIYDENSYPSGFAGG
+FVPEALPDAKSVNLVAAESKTPPALKEETEAVFRIDGEAAEDVTAKLRAGEAAGPGRYLT
+VSRRTDGRAAEWYGGWWYVDLLRPGVTEKFLDLTLEPYRARFGDQFGKRIPGAFTDEPHL
+SGVGGLPWTGDLAARFEQRWGYALKPQLASLFQPVGDWRRVRHDYFKLANELFIERWAKP
+YFEYCAKNRLEFTGHYWEHAWPNCAQVPDNMAMYAWHQRPAIDILFNQYAEGTHAQFGNV
+RNLRELASAAAQRGFPRTPPRS
+>tr|A0A1W9LH56|A0A1W9LH56_9BACT
+MKPAENIVDRILVTEKGTRLAGENKYQFAVGRDANKLEIKRAIEQLFGVHVTDVHTMNRP
+GKWKRGRTVRAGRTPDWKRAIVTLKAGETINLT
+>tr|A0A1W9LEP0|A0A1W9LEP0_9BACT
+MPGKPDQRLGRKRRLTRTTDFQQAYAQGRRWIGRYMVLWLREGEGASLRLGVVASRKVGH
+AVQRARAKRLLREAYRLNRYRFSGLCDIVLIARRSILEAKWVEVVDELLRLAGAAGLVPE
+GRDQGSEVRREKP
+>tr|A0A1W9LG04|A0A1W9LG04_9BACT
+MSESTALKSSEIVLASGSPRRRELLVRAGLTFRVVVPGIDETPRPGELPAAFARRAALDK
+AKSVADRIGAPRRARAVIGCDTIVVVGRRILGKPRDAADARRMLRALSGRTHQVMSGIAV
+VADAPDRPRRCRARTISTDVVFRRLGAAEIEAYIAGGDPMDKAGAYGIQEGAAHMIRGIR
+GSYTNVVGLPMAELLALLARPKAATNRSPTGRSVRAEIAANSGPTGLVPVGSKNGVRSAE
+SARPATTRARKPCRSPT
+>tr|A0A1W9LFL2|A0A1W9LFL2_9BACT
+MAREIITLACTDCKRRNYTTTRNKRVQTERLEITKFCRFDRKHTVHRETK
+>tr|A0A1W9LEF2|A0A1W9LEF2_9BACT
+MAMLAVLAAGANLAPAGSPFEDMPEPSIGLAIGGYFGSDRHSYMAESRLELPLARLDEFW
+AGYRQSQATPFLREGAQAELMHSRYEVEAGIRLGPSLCLLGLGGYRTVSAEDRPGSRHAG
+VIGAGFEMPAGADASGPELRIVGGGYLWPDGVADAWWVDVHAAWFLPRHSGADWLGTRVR
+PAFGLAADAELSGDASAVHSRLRIGPVVEFITAQGNTAWFQTAWCRVDGHPFYESDDTAW
+LVSMGLRSAMDAEAVGRARARNAAGWLPLIWGEYELGAGTDRTLQRTALDAEFHDFILAG
+RRFTGRLSYEARQEMRPGDYDNISYTGVVGLQSDLGWIPPGANGRPLVFGADYLHRSAHV
+LDPEAHRVPGTAPLARNSINLLPRLRLQTRGWDLPYRDPRAFDGGTRRLNDLEWRLTLGL
+DVGSSRERTGPAAQAGLRWDIASVRGFVIYAGGLLSAGNETPDWQTEVGVRRPSVRIAFR
+AERYGLESHLARGDTFVLVAGLLF
+>tr|A0A1W9LDD1|A0A1W9LDD1_9BACT
+MNGLLFLFGSAFVVALSGALMPGPVLTATISEVLKRGFRAGPLIIVGHAILEITLLVLVI
+AGLGPWIVREDVKSWLGVGGGVLLIAMGAQMAWTAQVAADDALQRKADPRSAVRGPVLTG
+ILMSLSNPYWALWWATIGLNYVALALKSGFLGLASFYSGHIMADLAWYSAVSAAVASGRK
+LCPRAAYIVLIMACGLALVALGAYFLSDGLGRLV
+>tr|A0A1W9LFD7|A0A1W9LFD7_9BACT
+MKILFISIRLPHARIVSGHLIVYQRIRRLAERGHRVGLAVFAQEDDAEHVAGIRDALCEL
+EIVPRPQRGSAARLLNYVASPIPPRFAPFHSEEFLQRAGDMVERTRYDVVISEFGLMGQC
+LRHNPYLPAVRRVISVHHCHTIASRKALDTLGFSPRALKEWFAMKGMERYEFAMYRGADR
+VLVLTPEERYGLLAYAPNLRINVIPSGVDTEYYQPTDPASREQALVFTGNYSDEPNCDAV
+MWFCHAVWPRLKSRYPDLTFYVVGPRPTSGMLALPRKDPRIIVTGEVDDIRPYLARARVF
+VCPNRLGSGMRGKILQAMAAGIPVVSTTLGAEGISIQMGDNGFLADRPRIMAQYIDLLLS
+DPVLHANITRHARVMVVDRFSWDRGIDLLEHVLHEVVEGR
+>tr|A0A1W9LHS4|A0A1W9LHS4_9BACT
+MTTALRTAVLASLAAVLTAPAAELVRSPERPEGKGLKLTYTADRDASLKHADTTPPSRLS
+DGRMESAPKDSVQFDGEVILTADLGARQRISRVSVMAYQRAGDFVVGAVEVSVSDDGTTW
+SKPVRGTNPDDSAGFEESATGIGAEVDVETRYVRLAVHPAAGAARMLLAEVVVEGPPAPP
+SARFRQALRCSGAP
+>tr|A0A1W9L852|A0A1W9L852_9BACT
+MKSRVSIVRTSPASVLDDVHRLMNLAGYQAALPKDRETALKINISWHFFYPASSTTPWQL
+DGVIRAMKKDGYDPAKIHACHNRTVVIDSRLGERENKQLPVVEAHGLRNVHLYEPGIEWV
+HVREAVGDVADKFLVLNQVYPGGFMIPREFIGSNILHLPTVKTHVFTTTTGAMKNAFGGL
+LNERRHWTHPVIHETLVDLLRIQKHIHSGLFAVMDGTFVGDGPGPRCMTPHVKNVMLASD
+DMVAIDAVAAKLMGFDPLRDIKFIRLAHEAGLGCGDPREIEIVGDADAARENWNFTGPFK
+KMTFASRMQHQIYWGPLKKPVEWSLKTFLAPWAYVASVLYHDFFWYPAHRNRVDDALKSE
+WGRLFANWESLQIPPDDLNARGWTSVGDAPASLRRDLGAHMSRATGILKTCVREAPERAA
+RRAGKA
+>tr|A0A1W9L9Z0|A0A1W9L9Z0_9BACT
+MNTLIRHGLRAPAAAWMALAAAVALVVPAAAGDGGWAAALSRGREALRDELFDLAESQFR
+SAVSNAPSPAARAEGAAGIIEARLGQGRPREALAYLAAEVEASVARTPLVLRARARAQRA
+AGDAAGALETLSTLAATGVPPDLREGVWRLYAGVLDDAGRMDDALAVWDALVREYPRSAR
+HALDRADLWVRLAQARPAAAAIEDLLRAHPGTPESRTARLLRARLRAGGGDGAAAESDAM
+AIAGDTHAPPADRARAWLILGAVEEARTNLTAAAAAIDRGRELAGKGPVAADLAFFRAGL
+RVRQGDLDAGRDLLRAAIRVWPDHVEGARIQLDLARRLLDTGRHAAALEGFQSHLDAYEE
+PGGRAEAQMGKGWCLLALNRAAEAAASFEKAAESLADPVRRAEAEFKAADAWFANGQFTA
+AFERYEAFRAAYPSNALALRAAFLAADSLHRAGRSDE
+>tr|A0A1W9LCQ2|A0A1W9LCQ2_9BACT
+METIYEKSAPGRRGVRLPEPIGPVSLESNRALCRAEPAALPETSEMDVVRHFTGLSRRNF
+SVDTHFYPLGSCTMKYNPRACEAAASLPGFADLHPLLPQLRHGGQLTQGALQLLFDLERM
+LSEVCGMAEFTLQPLAGAHGELTGVMLMAAYHNDRGNRKTHIVIPDAAHGTNPASARIAG
+YDVVSIPSLDSRQMDVDGLLKAITPETAGVMLTCPDTLGTFTSRIREIADAVHAVDGLMY
+YDGANLNAILGRCKPGRMGFDVCHVNVHKTFSTPHGGGGPGAGPVGVAERLRPFLPVSRV
+RAGSDGTYHLDYDAPKSIGYIAPFYGNFGILVRAYAYLRMLGREGLRETSNMAVLNANYV
+QERLRPHFDAVTPGRCMHECVFSGKPLGAHGVHTLDLAKALIDRGFHPPTIYFPLNVPEA
+MMIEPTESESRETLDRFCEAMIEIAGLAEKDPDALHRAPVTMPVGRLDEVAAARKMDLAS
+AK
+>tr|A0A1W9LFB4|A0A1W9LFB4_9BACT
+PFLPHRLEDGYGLTPDTVDRCIDLHRPALIVTVDCGTNSADAVERALSRGVGIVITDHHQ
+ASGPPAPARAVVNPRLGPPGRPWSELAGVGVAFKLAHAVLKLARDAGAPGADALDLRDQF
+DLVALGTVADCVPLTGENRVLVRHGLDVLRRAPSIGIRALMQVAALKEEPDAWHIGFLLA
+PRLNAAGRLGTAEDSLNLLLAPDAARAASLARDLDRSNRERQEIERTIVDTAMARIDAVF
+DPAGDFALVVADRAWHPGVIGIVASRLVARYNRPAVVIALNDEGGGRGSCRGIPSVDLAA
+ALRDCADLLHRCGGHAMAAGLDIDADRVDAFRTRLNEIVKARVNGRVPDPELSVDAWLRL
+EEADEELIGHIEKARPCGQGNPAPVWAARDVEVEDWKVMKEKHVRLRLRQGAEIRTAVGF
+NLAARGRPAGCIDIAFELRRDTWNGRNGLQLQLRDFRPTGGPET
+>tr|A0A1W9LCM8|A0A1W9LCM8_9BACT
+MKTTIELPDDLARAMKAHAALEGLKLRVFMEQAVRLRLSKDPSGERTRVAAGSPARRREA
+AAWLRRWTTLGRRIEDCAVDPRPLTDILREERR
+>tr|A0A1W9LE79|A0A1W9LE79_9BACT
+MKFILWRAAVACTVGLALPPPVPAQQQRRETHIGYVHPAGGRQGATFEVTVGGESLDGVS
+GLEVSGRGVEAVVLKHIKTLTQQQLNNIRNNFEKMEQLQEMGKSDPAKATEAAAIRKRIE
+AILRSAGIDGINMREIQDYRRKMNDPKRQVNPAISETVTLRITVAPDAPLGDREIRMRTD
+LGLTNPLRFQVGRLPEINESEPNDRIPETALPTATPFVVNGQIMPGDLDKFRFRAKKGEK
+LVASVAARALIPYLADAVPGWFQATLSLRDAKGNELAYSDDDRFDPDPVVYCRIPEDGEY
+ILEVKDSIFRGREDFVYRLSVGELPHLSAVFPLGGRAGVPVVVQATGWNLPKSNVTLTPG
+GTAPGVVPIAVDMGDRISNYVPFATDTVPECMEAETNDDVRAAQRVAMPVIVNGRIDRPG
+DRDVFRIEGRNGETVVVEVVARRLHSPLDSVVRVFDAQGKELASNDDYDDKGAGLITHQA
+DSRVQFTVPADGPLFVHVADTQGKGSPAHAYRCRISPRRPGFELRVVPASLNLRAGTHLP
+FTVYALRRDGFDGDIVVDLKDAPAGFAIAGGRIPSGQEKIRMTLLAPPAGTNAAIRLAVE
+GRATILGREVRRDATPADDRMQAFFYRHLVPAESLMATVTERMFKSGPPPRILADGPVKI
+APGGTASIAVQVAGRAPKRAMTFDLDEPPEGLSIANVDWGEQRVTIHLKAEAGKAKAGLK
+GNLIVDVLAEGGGAGGKDGKPAGGRRIPIGVLPAIPFEVVGP
+>tr|A0A1W9L7N3|A0A1W9L7N3_9BACT
+MKTITAALSAGILALSASGTPAADPPAPFGPVPSARQLAWHELEVYGFVHFTVNTFTDKE
+WGYGDENPQVFAPTAFDADQIAAAFKAGGLKGLILTCKHHDGFCLWPSKFTEHSVKHSPW
+KDGKGDMVREFSDACRRAGLKFGTYLSPWDRNHKDYATPAYIEYCRNQLRELLTGYGEIY
+EMWFDGANGGDGYYGGAREKRKIDNRTYYDWANTWSIVRELQPGAMMFSDGGPDVRWVGN
+EKGIAGDPCWATVNRDDFHPGSADQKRLNQGDRPGTHWLPAECDVSIRPGWFYHAAEDAK
+VRTPENLVDLYFKSVGRGASFLLNIPPDRRGLVHENDLASLRGYRERIDAIFSTNLAKGA
+SATASNTRGGDVRFGPGSVLDSKPGTWWCTDDAIRTAEIALDLGRPASFNVVSLREPVAI
+GQRIDDWALDAWRDGQWVEFARGTAIGARRLWRGATDVTTDRVRLRILSAAACPALSEFS
+LHREPDAHRPAR
+>tr|A0A1W9LA31|A0A1W9LA31_9BACT
+MKRTVWIAAMVLAAGAAGAAERMNVLFLASDDMRPQLGCYGDGVVKSPNLDRLAAAGRLF
+ERAYCQQALCSPSRISLLSGRRVSTTKIYHVGIDDPASWSEPPWQSKKPRYSPESQALVR
+ARHLALKAAGEPI
+>tr|A0A1W9LE12|A0A1W9LE12_9BACT
+MQAIPFLDRKWVRRAFLLVCAAIYFLVAVRSAWMCDDAYITFRTVGNFVNGHGLTWNVVE
+RVQVYTHPLWMLLTAAVYAATREAYYTGLALSLVCAVSAFYLLLFRIAVSTRRALIAGAI
+LTVSKAFVDYSTSGLENPLSFVLLAWFLLLLANGTVFRLSLCASLIALNRLDLLALVFPA
+YAWKVWTILRGDPRARRAAPAELAAGWLPLVAWEVFSLVYYGFPFPNTAYAKLNTGIALG
+PYLKSGLSFFGRSFMADPVTLLAIVCGLILLFASPRREEKAIACGAALYLAYLLRIGGDF
+MSGRLLTAPLFWCVAAVAQGRGRDMLFRVGAIALVAIGLLHPLNPVRSGAGYPPGGAARP
+GDERGVYYPSTGLLRAGQWPRRPGHEWFEQGCALRAEIERRSEDYVTPLRALGFYAFAAG
+PGLHAVDLMGLADPLLARLDAKAADTGACPVGHFERALPEGYLAAAVGEPDALKDPDLAE
+YYRKLRIITRGPLFDAERFGVIWRMNTGQYQHWLGPLSRPRPTSARAALASPESRGSR
+>tr|A0A1W9LA05|A0A1W9LA05_9BACT
+MVNVLGLLSVITAVSCSRSDVRTTAIHVPAMADATTVRIVTNAVLNELDGRTEMFQHGGD
+IELSKGLVFYHENERLRLPAYQRQILACIRQVGYEGGVLDVRASALPPYPSSRGPLQFWP
+DRHTLVLSVPGMKTARDANVVLDAIAYARIGGDDPRIVVDPALRSVRVTYNALVVARKNF
+EHAVACAGYDANEVPADLGGPDAMPRGWWQGVL
+>tr|A0A1W9LCV3|A0A1W9LCV3_9BACT
+MPFTSKEVDLIDSWPIQRLRGIRQLALASLVFPGALHTRFDHTLGVAHLVGLMSKSLDFD
+DDQHRLVRFAALLHDIGHGPFSHVSENALERYADRERLPSDQKKEKIHELITAQIILENR
+ELRSIVGEDDCRLVSRLLSDGHGDPAIRAVVSGPLDADKQDYLLRDSRFCGVDYGRFDFG
+QFHRSLVIEKTDAGRELMIRQDGVHTVEQFVLAKYYMTSMVYRHKVRLITDQMIVRAIVL
+GIEKDRVAELRRLYAYDGSADFVDNYLAWDDARFMRKFGVEATGGRCKELLDRLVRRQLL
+KRVFSRPIRSFDPEIRESLMKLGGPENAGRRAATEAAIADYLGGKTGKRVEPDFVILHGY
+QIKSARESSRNDEAGILVSVPGKPPGELEEESTLFKS
+>tr|A0A1W9LA03|A0A1W9LA03_9BACT
+MVAGLAWPRGPAPALFNAYVLVLGVAALFIGVRERRLGKINGGMLILSVLIVLRFFDMDI
+GFVAKGIVFIVLGIAFLLANIFVSRWMRRAA
+>tr|A0A1W9LF57|A0A1W9LF57_9BACT
+MVMNRGEIWWASLPEPVGSGPGYRRPVLVIQADEFNESRIGTTIVAAVTSNVALAAAPGN
+KLLKARSSGLGKDSVVNVSQLLTVDKRLLTERVKRLDESLMTDIEEGLRLALAL
+>tr|A0A1W9LDA2|A0A1W9LDA2_9BACT
+MALVKPLKTKTTPAPKASHRTRIVVDPKDGRVASVVHDRKVIFTIRTDESGMYPSIIVAA
+TDTYLKSMEKGRMGIILWNGGAGLEPRSRKLH
+>tr|A0A1W9LFE8|A0A1W9LFE8_9BACT
+MATNTKQRTLKNKNRSRPKKKKADKLRRQKTQRKRLVGLGMPAAVVAGLPPVAVRTLLKR
+PLKLKKKLAMIA
+>tr|A0A1W9LH18|A0A1W9LH18_9BACT
+MEELRRTLRYPRLRRYLKMDDREADDFVLLWEQVTNPVDLAGHPAPGICRDPDDEPYLQT
+ALAGRADHVVSGDGDLLALEQVEGILLVSPAAFAQILAETVRPR
+>tr|A0A1W9LIS0|A0A1W9LIS0_9BACT
+MNCVVKDAHGNLLLTLDRSSIGSGPGRLVLRDTAAETGPDAPAVIGEFEPDGGVPEPVTL
+HVTPGP
+>tr|A0A1W9LCX7|A0A1W9LCX7_9BACT
+MTILSLASEQSWPQILAVAHYRPSELVLLHSDDSERSAAPARRLKEFFERSGLMAPRSIR
+LETLSYNDFGSVEQTLDALKLDLSGCALHFTGGNKLMATAAFRWATRRGVPSFYIERNHD
+IVCFEPRDGDVVTHPREKLNVHLTDGLDPLLLVRCQMAAGEIERDGQSLTWERGALRISG
+EADRDEKEGDRLEFETAETLLRLGVKIVRRSARLKVSSAGGVSSRRPVAEIDLLFNYAGR
+LWLVDCKDAIRTEWMADGLKPYLDLSQPKARKLFDDVRNALTMKQTKVLKEDILHVKEIA
+GLLGQAVAVRRHLPDPEVRQFARDHGVAFVHSKSLRADFETLLHPNRPADEADLASLRKA
+FAP
+>tr|A0A1W9LAM2|A0A1W9LAM2_9BACT
+MREEDGRKQSLLDREEKKNRREEDGRFKPAKKTHFHPGRDIGHDPSTGSGPAGRYYLVMD
+LVRDAKGISTSLHDALSAAPENRLPEARVRALAVRIAEALAFAHGKGVVHRDIKPANVML
+DADGMARLTDFGLAKALGGEFLQTQIHRSIQASMAG
+>tr|A0A1W9L963|A0A1W9L963_9BACT
+MLTNQTTSRSSSDDPHMKEKTMKRLHSRWMGVVLGGVLALLPLAAGAASATLQADVLSAY
+VWRGQVYNDELVVQPSLTAETDFGLSFNVWGNFNTTDRFSPETEQEFSEVDLNVAYSRKV
+SFVTLGIGCGEYLFMHQVGFDEAQSNAVPVAGTRDVYISAALEDVILAPTLAVYYDFDEV
+DGFYASLGISHHFGLTTELGLDLSASIGAADAEYNNAYFGINEDALNDGNVKAAISYALT
+ESFNLSAYVQYTKLLDSDIEDAADAEDSGYFNDGDIVSGGASIAYSF
+>tr|A0A1W9LG84|A0A1W9LG84_9BACT
+MDRTPERVALVAAVVSLLPAVASAVGRTAEGSFLFGPMAALHAWAGFVALAAAAREFFER
+RAAEEALEAEVARREQPDHSLFARDGDVSEEPFSMARSRALFERWAVPAVAPLLGIGLGA
+VAWLQFRAMAALPPPGTAIRLPAAGWFGAVAFALLILGRYLVVASRAPGRVRLRAAGVAA
+GATWRRSPRWRPASRPGPGIRPWSGASRSR
+>tr|A0A1W9LID4|A0A1W9LID4_9BACT
+MNDAAGLTLAAILALTARFQAGVDAMKAGDPARAAAEMSAVLKANPGLPELAAGARLLRG
+QALKAQSKSREALEDFRWLATRDVAPDVRKKAREEFAAAGGKPASLVPELPPLAEWKRMQ
+ESIREGEGRRAWDWMTAKLRKELQSLGEMMGDVDPDNIALWFAEDEAVMTGQAIDEEAGT
+AQLTFRENGQTIHVRWVQDGTRWKIDRLRHEMPNEDGDIPQIILTDVAAMDGDEWGDDRP
+PGARKRGAADPDEAAKANNLAPALKAEIEASVAKLGDSDAAARTKARARLKEIGPTARPL
+LKKYLNDPDPEIATTVRELLAPP
+>tr|A0A1W9LDM4|A0A1W9LDM4_9BACT
+MKNRMTATVVAMATAAVLAGRAPAHHAMEFIEMESYSAALRGEKVFHLHYDTMVDDADNS
+RLDHWEFTPGLSYGITGDLMADIHTHFAHFGADHVVEERRAEFEPNGPSPFMEAVAVGLQ
+YKLPESWPVNVALSGTWEIPFGRSEDLLGSEDHVLIGTLILSREFGTHGCVVANFTYEVE
+GSDDEWGWALGVKHPISADAHGIAAGLEAFGDFEGTRWSVLPGVYAPVGEGIILKTGIEI
+GQAQDEEERWADTLRANVTLMYRF
+>tr|A0A1W9LCB6|A0A1W9LCB6_9BACT
+MTTNLRIGRTPLRTANERGQDGRDHGIPDGTLPTCPFILFILSSRLPRLHTAAVHAAIAA
+VALGLRAAAAAEGPGSAFTLDLARFRTVDPALRTWAEQAPIRVTTAGLTAIAASEGDSFI
+VAAGRTLIRIDLDGETLRSADLPEAVRCLALAPNGDIAVGFARRFVICTPEFKIKAEGPD
+LAEKAILTSLAAGSNVVYAADAGQRIVWSFDLTGRMLGRNEGPAATGGFVVPSPHFDVAL
+GRDGTLWIANPGELRLESYGPDGKPGRSWGKPGFAIDAFCGCCNPADFTLAADGSFVTAE
+KGLARVKVHRADGSLESVAAGPADFDEDTIGLDVAVDARGRVLVVDPKRNTIRVFVRKPA
+GAKP
+>tr|A0A1W9LEW6|A0A1W9LEW6_9BACT
+MTTTGGRISVLAAVCVAGVAWAAGAASPFAGRWALTIPGGGAGWLGVEEKDGALAGSILW
+GGGSVLPVAGVATEGDTLVVTRIHESKKAGPDGKPVTVKETETIRAKIAGDALSLTTERL
+KADGKRSDPVAFSGRRIPPMPRAPDLAKVRFGAPVALLNGRDLTGWRLTNPGQPNGWSVQ
+DGVLINRLPPADGKAHPRCSNLRTDAEFEDFQFSFDVRVPEKGNSGVYLRGIYEIQMADW
+FGKPVDSHGMGGVYSRIAPTQNTAKPAGEWQTVAITLVDRHVTVVLNGTTVIDNQPLLGC
+TGGAMTSDEFRPGPIYLQGDHTAVDYRNLTLRPVAK
+>tr|A0A1W9LDI9|A0A1W9LDI9_9BACT
+ASGKTPAAKRKVIRIPSAKPAEASAGQTAPSAPAQLEVKQVMTAVADSKLMEIVVGWVCV
+VVGTLLAILLPRAFLVYAPFFIGAIMMAVVLLKSGRALHGFVLLLCTCIPAPLLMHQSVW
+RNIQPSASRAAPETVRVQKLVFDSSGKAKLVTSDEPLRPVSAVAPAPASVAVPARARAST
+PRPRRLADEPNASAPSDEFGAPDPFASSAPPPRLGPSSASRDGEKSADEMYRELLDGQAD
+VPPLVPEDVLASTVIGLDSDFRWQKASLNDGLMPGDPAPVVDMPFVVYKDGGLRETYSAT
+GRLGNKDSLKLDDSWDTAPHEGRTCIRIAYEDYGDWATVAWQNPGNNWGDFSGGFDLSNA
+TKLTFWAKGESGGERVEFMVGMEQGQGAVSRDSLKASSGVVKLRKEWKKYTLSLEKMDRS
+RLITGFLCRIEGQGKPVVFFLDDIQFE
+>tr|A0A1W9LF26|A0A1W9LF26_9BACT
+MKIADWRSGGAVAAPNLQSAISNPKSGSALIIALWTLIILSLLIGSFAFEMNIEAGITSY
+YRKRMKAQYLSRAGIEYAKLMIGKSFTAKKEGPEEGEDEETYKRAMRVQRGRRVEGLTQE
+LGDGKFIVDILPEQSRRLVNMMTDEDWEFVLDQGEVPQEEWPELIDCFQDYTDEGDEHQL
+NGAESDDSFYMDRNYECKNAPLDTVDELAMIKGFTQAIVFGGPSEEKGGVPYPGLAQWLT
+TWGDGKVHVNAATADVLLTIPGLEEFDVQDIIEGQEAGADGVPENEDGGWESVDEVMTTL
+GLSGTAAESVLSRITTTERTFVRVISKGEVEGVRSGIWAVFQADASSVIPLFWREEDMP
+>tr|A0A1W9LCV5|A0A1W9LCV5_9BACT
+FHFVDEAAPPGLVRQVSDLLVRRGPRIEWWANVRLEPVFDAGLCASMRRAGCLAVTGGLE
+TGADESLRRMCKGVTVDGAASALRSFARAGIRTHAYLMYGFPGQTPQAVIDALERVRRLF
+ALGWLQSAYWHRFALTVHSGAFRSPEELGLVVARAPRATFASNEARFRERGLRGDPHARL
+APGLRAAAFNYMLGIGLDADVREWFDGDMPRPRVPVRWPE
+>tr|A0A1W9LCT3|A0A1W9LCT3_9BACT
+MAFLFLAAVVGAALLLVLSRERTAAAEAAVLSTNGLHRAMWYEKRPGEIVHCKLCPNACK
+LSDGQIGICRARKNVGGELYSLVYGRIASAHVDPIEKKPFFHVLPGTMAFSIATPGCNMR
+CLFCQ
+>tr|A0A1W9LDY4|A0A1W9LDY4_9BACT
+MRKCCPIAIPLSWERAFAEPFFAWSRPRLGPIHGEILENHMVAGLDADEGIPALRPGAVE
+DQFGPGPFKGEVGETREDELGVVTLEPPCPRGDEEARGPTFPAGLEGAGESSQVIRLVDG
+GAEIDHAQGRPPMGPRALDGELSGACG
+>tr|A0A1W9L9W1|A0A1W9L9W1_9BACT
+MFNAIHTDSVIKVDLIVRKDSEYRRAEFDRRQRIRLEDFEVWMVSREDLILSKLLWARDS
+HSEMQLRDVTNLLHSGCDTAYVDDWAAKLGVEDLLKEARRG
+>tr|A0A1W9LEL0|A0A1W9LEL0_9BACT
+MNQGEKTEAGVPPDWPLQLFRKSLVKQARLREIAGLLGPVEGKVCLDVGGDCGALSQPLR
+ELGGTWHSVDLTERGVESVRRLVGERVERITGPKLPFEDGLFDIIVIGDMLERMAEDGEL
+VAECHRCLRAAGRLIVNVPHIKRWAVLTPLRRMFGLAGGPARAGYSESQLFDLLKDGFDV
+EAAHTYSRFFVEALDTLAQSLVRRGARGEQDSEQDAPGMKKLLRTYSILYPFFQVAAVLD
+HLLFFAKGYRLIGRARRRQWRERRTPVLADGRSIAEAALGGRIGTAAPF
+>tr|A0A1W9LCK9|A0A1W9LCK9_9BACT
+MDGRGRGLRRRPCRPGKGARLPGEARDARRTRHQFARHGAGRRQGPRVADQPRVHDRAGP
+DPLPRRRRKSQGRHLHRAARRRKARSLRHRPRRERDGGPRLGRPPVGGPRGAPP
+>tr|A0A1W9LG24|A0A1W9LG24_9BACT
+MNIERASVGDFAELTDHIVRCFRTDTPDHPRFEEFLPDLYEPAAESAACHYVIREGGRIV
+SSVGVFPVEVRLSELLFHVAGVGSVSTAPECRGRGFMSAIMTALRADAAAAGFAFSWLSG
+LRQRYAHFGWEKAGTDFVIRVTRQPPPAGTSWTIRRLDAASDSLESLHEARAALVAAGEC
+EEAASRRKLSRLGIEVFEARRGSDYAYLAGNRRFGWLQEWGGAVGGVRALLHHALGGKPA
+WLVRIPPVRDPYTDLFLSLGDNFACEMENLAVLDLPRLARVYERYWAGRWPPDKSLCLRM
+EPADIPGAEVCIRGGREATPGTAADVHLALDRLMMASFVFGPVKPSMRLALPAGAEWLDE
+VFPVPFHMPSLWRV
+>tr|A0A1W9LH44|A0A1W9LH44_9BACT
+MQRCIRICSIGLMFGLLAEARAAAPADTIFDEARVPAYTLPDPLRMQDGTPVADAAAWRT
+KRRPEVLRLFEEHMYGRSPESRGPVAVKVFDTDPRALGGRATRKQMTIFLTGDTNGPSMD
+LLLCTPNAAPRPAPAFLGLNFYGNHTVHADPGIRLSTRWMRGVPDKGIVNNRATEASRGC
+MATRWQVEKIVDRGYALATVYYGDIEPDHAGGWMSGLRGALSPDGTNTVFRPDDWGAIGA
+WAWGLSRALDGLEKEPAVDARRVAVMGHSRLGKTALWAGARDERFALVISNNSGEGGASL
+LRRRFGEALHHSVAMVPYWYCGRYRDYAMRESDLPVDAHLLIALAAPRPVYVASATEDLW
+ADPRGEFLAASNAEPVYRLFGLAGLGTDTMPPPDRSVGGSVGYHVRTGVHDVTAFDWEQY
+LAFADRHIGRIR
+>tr|A0A1W9LBA7|A0A1W9LBA7_9BACT
+MPCSRFISALFASSVLKGLAAATDLEVKRFLLSLLELAGGEECVAPVADTDASLREAALR
+SLAGWSTPDAVPKLLGLATTTEPANLRIVALRGAIRLSRDITASAADRLAWIDAALKAAT
+RAEEKREAVSALAELDSPAAVARAGMLLDDPDVPREGALALARMLVPEKPRKGTKLSAGD
+IAALRKALPHLPAGDVKSRVEKALPK
+>tr|A0A1W9LIG8|A0A1W9LIG8_9BACT
+MLIYRALFSRFGPQHWWPGRTRLEIVVGAILTQNTAWSNVEKAVHRLRGARALNLRTLHD
+APLDRLADWIRPAGYFRVKARRLRAFTTFVEERFGGDLRRLFALDTDTLRRTLLSVNGIG
+PETADSILLYAAARPVFVVDAYTRRFMLRHGWLGSKATYDEVARVMTRSFPQDVRRYNEF
+HALIVALGKNLCRTVPRCAECPLRRWLPAKAEGRIRKAECR
+>tr|A0A1W9LDF0|A0A1W9LDF0_9BACT
+MDLSTTYLGLKLKNPIVPSASPLSQRVEDIRKIEDAGAGAVVMFSIFEEQLHHDAEALDH
+LLTAGSESFAEALSYFPESGAYQVGPEQYLDLISKAVAAVKIPVIGSLNGMSNEGWIDYA
+KKIEQAGAHALELNAYYIATDPSLTGADVETLYLDVVRAVKAAVKIPVAVKLSPYFSSMA
+NMARRLDQAGADGLVLFNRFYQPDFDLDEMEVLSDLKLSTPYEMRLPLRWLAILHGHLEA
+SLAATTGVHNGIDAAKCILAGADAVQVCSALLKGGIGQLRTILKELETWMSEKEYTSVTQ
+MKGAMSQKSVANPAAFERANYIRILEDYKSKYVVS
+>tr|A0A1W9LD22|A0A1W9LD22_9BACT
+MPNVLVFAEVNDGVLHDVGLQCLSAARQVAGAGGKVTCLLAGHGVAGLAPALVAAGADAV
+AVADDERLAAYVTAPYAKGVGACLDANPADLLLLAASTVGNDLGPAVAAARKAACAVDCD
+GVAVQNGAIALRRAGYDRKVMTTFAAAGAGLVVGTLRDGAAPAPVADAARQGAIGPLAFE
+LTPAELVSKVLRRDVAKKTVNLKDAKIIVSAGAGVGSPEGLAIIRELAQTLGAEIGATRA
+VVDAGWLAADHQIGQTGATVRPDVYIACGISGAVQHRVGMMDARKIVAINSDGNAPIFRI
+AHYKIVGDLKVVVPKLVKLLKA
+>tr|A0A1W9LH02|A0A1W9LH02_9BACT
+MTRRRRRAGRRIAVRAVLLLAATAAAAVIWLDRQGLPAPARDRLRAAIRQAGLDVDFTRL
+RLSLPGGVEASGVRVFETPASRRPRVEAAVVRIGIRWIDLLRRRPALGGLEVRDGTLLVG
+SDRDVASGETITGIRADLLLSEDTLDVAGMSGVWRDLSIRAAGRIVMARGADGRLRPPDL
+SPLFPGMRGGGGAPFDPARIPLAFPGGGQIEARFDLDVKAPVGAFVTLRGEGKTLEWGHV
+PFDGWKLSARLAGGRVILDEAALHAGGDRIAVSGSLSPSNGIAELRLRGSIPAAHAALIP
+LPPRPSRVRERLGLRTPDAIRLDVTLGPGPLTSLVQRVRGRLAVSRTELMGVWLESATVD
+FERNGPALRFPSIDGIVGRGAMAGPLHLEGGLDLPTGDYFGRVRTGFDPHALISWLDPVQ
+SMHVGATAFRSAPPVCTAEAVGRLGDIRRLVLSGTVDAKDFLYNGALLASASARIQVSNQ
+VLRLDGVRAVRPEGILSGWIEQDFTRRRLRFDIDSAIDPAAAARMCGASPHRFVSHFRTE
+GPTRIRARGLADYGNRRDNDATFEVEARSAGMGWLLLDQCAFQGRIVGRHITVTQATGAV
+YGGTIEGHAAFDLPDGTETRTHYRAAGSMKNVDFTTILRAVTDRDEQPLEGRVSARIDLA
+GFIGDGQSRTAAGSGSLKVEKGRLLEIPLFGGFSRHLARIVPGIGFTSQSDFVADFRIAN
+GRASTDQAELQGDILTMRGRGSYGFDRSLDFVVEAKLLREGLIADVVRLLTLPVTKLLEY
+DLTGSITSPQWVPRNMPKEMLPDVENPGGAPAAGDRT
+>tr|A0A1W9LBH0|A0A1W9LBH0_9BACT
+MKHAGIVLAAGASTRMGEPKALLRTPAGIPLARHQADLLRLAGCAHVVIVLGSEYERIRR
+GLGGADMVHHPGWAQGRASSVQAGLRAAAAYDGCLILPVDTVGVAPATLRTTLDFAERAR
+PAAVRPVFTGQPGKIAWIARELATELLKAPADTRLDLILKDRATELPVQDAAILSNVNTP
+EEWIAAVRRVWPGGQK
+>tr|A0A1W9LCK5|A0A1W9LCK5_9BACT
+MRGREPIVPQRRRHIPPQFSWVDHRLVRDGHVQGRSAPALALYLFLVTVADSEGVSWYSD
+AALCAQLSWSGPQLQSARAELQQAALIAYRKPLYQVLDLAPVIAPAAPMPRRGGEAQSVG
+DILKHILEGSR
+>tr|A0A1W9L7R0|A0A1W9L7R0_9BACT
+MLDHVEFHIERGDRVCLLGSNGTGKSSMLRILAG
+>tr|A0A1W9LFB0|A0A1W9LFB0_9BACT
+MSNVTVNISFQDGLLRDIDRTAKSEARSRSELLREAARAYIRRKERWAGVFALGLSVARR
+GGATPNDVGAEIAAHRAAKTGRT
+>tr|A0A1W9L8Q0|A0A1W9L8Q0_9BACT
+MEFMSPEWRRMLRFAIAEADRLGLRVSVNLSSCAGALKGPWEVGADAPKELAWTATSVRD
+PRRLDCQMRRPARPNFHDIALLAVRPSEAPSVTNPVAGNPMTTVAMSETWIVDVAGTGAC
+VAVEGEAIDLSEKTDAEGRLTWDVPEGSWTLLRFGTSTMAGHEFDVDVLDPKAVAGHFGR
+MGGAILKDAGPLAGTTLTHFYSVSWEGAAPTWTPALGKEFAAYRGYALRPWLPALAGFAI
+RSPEASGHFRRDYFKTLGDCFMNNFYGTLRDLTRKAGLQWHSESGGPWDRKLAAFEHADQ
+LAFLGRNDMPQGEFWFPGRGKMGRPPDMNRPAAMAAHIHGLRLAARVRPSRRRLLRRHAS
+EPQRDVVAAGRPVPRLPRPLPVDAPPGRLRGGHRSLCRRPPLPALGPQHELESPRHAGGG
+SGTRLRPPHNRGPHRPRRAARRRTGAHRPRGRRRSGGARDHALPRARHRP
+>tr|A0A1W9LBL8|A0A1W9LBL8_9BACT
+MNTHHSSLIPHPSLLSILIPVYNERAYLTRCLERVLEAPLPEGMEREVVLVDDASTDGTT
+DLVRELAARHAPVVRAVFQERNQGKGAAIARAVGEMRGQYAIFQDADLEYDPSDYGMLLQ
+PILEGHADVVYGSRFVPRTMRRVLNYHHELGNRLLTTLSNIFSGLNLTDMETCYKAFRAD
+ILRTIPIRSKRFGIEPEITAKVAKRRCAVYEVPISYHGRGYAEGKKIGWKDGVSALATIL
+RYWILDDCYEERYGHSILSDLSRARQFNEWMAREIVPHLGRRILEVGAGIGNLSRHLPKR
+ELLLLTDVEDQYLSLLADAWRGNALVDVAKFDLTSDADAAALRDRNVDTVVCLNVLEHIK
+DDAAALGRLRSMLGPGGRLVLLVPQHRWLFCAYDRELGHFRRYDRAGLRSLVESQGFRVT
+RLKGFNALAILGWWFNGRVLGRTKIGRVQLKLFDLCVPLMRLVEKVLPLPGISLICVAET
+AGEGSSSKSHVSS
+>tr|A0A1W9LFE4|A0A1W9LFE4_9BACT
+MKETRMKRSWSLHLGLVAPCNRTNALLDPAPRPRRGARSAAVAATLAAAASIAFAPQALA
+WGAPHAVITRAAAETLPTWQTKMWGDELARLISDHCFIPDRVHSDPEAARFAAMDSRPGV
+RYLVGLHLPATQPENYDVQQKAAVHSARLAADALHTVACLAMKRIPEDAAAAFRAVPLSQ
+RIPLEAPTLAVPQSAFFSRPHWGYAQAGLALRGGTNAVPLALRIDEAAGPVVREFADGIG
+TGTRSTNSVLVPPGVYRSFESWVGLHAVLGTNGHVVFEVLGDGRSLARVGPLKGSAAAQR
+ISAPVAGVTNLQMIVTSAGGDGLGN
+>tr|A0A1W9LD19|A0A1W9LD19_9BACT
+MALELHTVLHAAEQALDFAHDGGLRVPDSVVFESGAYGHLGRYLTPISPTGPILVVAGRH
+AQDPLLRAFIEDQFCGYQVRSVHYAQVAGEPTCAAINAHAALARRLRPQLVLGVGGGSSM
+DSAKAVAALLTNDGPVEDYLEGLGRERRLECSPALCIAVPTTAGTGAEMTRNAVISCPKR
+RFKRSLRDDRMIPSLALIDPDLTLGMPAGPTAAGGLDAIVQLIEACISVRRSPETSELAA
+EALRFPLVALPQCVETPSDRAARAAMSLAASVSGICLANAGLAMAHGIAAALGAWFDVPH
+GLACGILLPHTLRHNREACPDAMAGALAAFLGEESPRGDTIDRGIEAVVQLNARLGIPPD
+LRHMKLTAAQLDTLAGASLGNSMKGNPVPMTAESTRKFLETIA
+>tr|A0A1W9LAF3|A0A1W9LAF3_9BACT
+MCAKKLIAAKITLKADKTEAFIEAVKPLIAASRAEPGCISYTLYQNPHERTSFFFFEEWK
+DQAAIDFHFATPHFKSFGDQIKDMTAGPPEITILNACVPPAAK
+>tr|A0A1W9L885|A0A1W9L885_9BACT
+MKNSGGKRRLGVLLAIGCLLTTSPAVYSEVILQYFNTSWNEIAERMPELAEAGYTALWLP
+PPFKAGGQLSVGFDTFDRFDIGTKDQMGGVPTRYGTGDDLKNMVEIAHRFGIRVYFDNVM
+AHNGGPIPGYDENTPITCQPGFVPEDFHLMVRADGTFRKMPEWPNWNDEWQVQHRNPFGV
+DIAQETPVNESFGSYEGAQFPKYSGVRHPDNPEYYLDSDLPIATNWAGEAVYTFANKEPY
+QDTNSNGRFDWTDTNGNGQHDVGEASEPFTDTGIDPSVSWRRTAQWGYGNGRYDMGNPVG
+EDVNVMLFRAIRWFMDQSKCDGFRLDAVKHVPSYFFGDTGAGKDYVNWGYSGQIQEQFNA
+THGYSDWNNHRDTCFNDRNPRDDALLYGEHLSPPPGYDGYANAGMRIAHDGVVNGIKDSV
+GSNLSGMDQPGWGSYGVDAGMMYVMSHDNNYLWDGHYGSAHALILTRAGIPIVYTDGLRH
+AGPPDWFPKPSYVPFLGQWNTYYMPNLLNINRNFARGDQIAKWGNQDLVAYERRDKSDNG
+GMSDADGTVLLFAMARGWTSGQSLDAFNTTFPEGSYLYNYSFHGGGFYAKVQSGKVRDLG
+GGAIYVPSGGYFAFSWRSPE
+>tr|A0A1W9L9T8|A0A1W9L9T8_9BACT
+MFPRVFRPRMRRVAAPIDAVAFLNVILVGVLFYLLRAPFVLQPGIRIELPESAFTDGQPY
+DALVVTVSQEGMLFFNDRRVTFEDLRTEFRKALHERPDRALILEADRRVSHGALVNLCNL
+AMECGMRTVSLGTRVAAPAEAATP
+>tr|A0A1W9LBR8|A0A1W9LBR8_9BACT
+MSARRKDGRGVPVETALPVTWSGAVGTAEGKLALGPDAALWDEFSPALYELTAALAPTSV
+AKPGAAAAVERGPPSHGPAGLPSGGARSTVPSPIATERGPSGADPAPDTRRLVFGLRDFA
+MRGTQFAINGRPVFIRGTLDCCIFPKTGHPPTDVAEWKRIVGVAKAHGLNLIRFHSWCPP
+EAAFIAADELGFYLHVEASSWANNTTTLGDGKPVDAWTYAETDRILRHYGNHPSFVLMAQ
+GNEPGGKNHKAYLAKWVEHYAARDP
+>tr|A0A1W9L7U3|A0A1W9L7U3_9BACT
+MSGKPGLAVQEMKRAVLLGADKQRAEMAMAAFYFMDQNDVESERMYADLLRENPKNQVAM
+LGLARLAARKGDFDIARGYLDALQKLGAPDPLIRMERAVVELLSGNVAEAKAALNKLVED
+DPKNLRAWTMLAMIAAEEKDAKALARAMDVLTPASANSPGILLTLAQVAVSGNDLPGARK
+HLDDMLRIQPNSLQALELLLQMDIWEVQRGLAEEHVDRLINLDPKNALANLVLGSFQYAR
+EEFELAEASYRISLASKKSTRVLNDLAWILQKKGRYEEALKLVREALQMNQNSAAAWDTM
+GVVSTRLDLLDEAQGALERALSFQPENPHFILHMALLYERKKMRDDALRLADPLLVRPAD
+MSHDAYEELRALIKRLRTAS
+>tr|A0A1W9L930|A0A1W9L930_9BACT
+MITKTQHVTFDQELKLQSGATLGPITLAYETYGELNADKSNAILVLHALSGDAHVASHPT
+PTDSKPGWWDEAVGPGKAFDTDRHFVICSNVIGGCRGSTGPSSINPKTNKPYGLTFPVIT
+IADMVEAQRMLIDHLGIEHLLAVTGGSIGGMQALQWIVSYPERVRSAIVLAATARVSPQS
+IALDEVARQAIYADPNWNHGDYYEGTPPNAGLAVARMMGHISYLSEQSMREKFGRRLQER
+DHLGYEFAAEFRVESYLKHQGNTFTKRFDANTFLFITKAIDYFDLSYGLPSLADAFRNVA
+SKVLVVSYSSDWLYPPQQSEEMVRALLQNGVDTTYVGIQSDYGHDAFLIEVDRLASLTRD
+FLAKVERSLRSTKPYTPPETHARSKADGSKTR
+>tr|A0A1W9LGA5|A0A1W9LGA5_9BACT
+MQIGGRRNLQSSISNLKSAFTLIELLISLAILVTAMTIVWSTFSGTLSAWRRGTAMLDNL
+RHGDFVMEQLVSALRSTAYFKKDGKENGRYGFWLDSGHGKYDNDKISWVTSSSAFIPPDS
+PLANGLHRIVFGIDQNDDGDYAVAIHAWPHLADMDEEDVKPWFISSEVKGIRCRVYNTED
+ESWDNDWEDTNSIPTLVEITLFMDPIKEYGEPVKLQRLIEIPIAPALTNAVKATEGQQKK
+DGDAPADKQEPVE
+>tr|A0A1W9LBV2|A0A1W9LBV2_9BACT
+MGGLPRPDGPDTGRGDALVSPQTKAVIPVLVLLTVAGWALHSFVDVKLQDKPGVRMELPV
+HLGGWTGHELRFCHSKECRKEFHIEELAGDRTKCPACGSPLRNMTLEEYDQLPKDTEFIK
+SIYQNAGSESVYVSIVLTGRDRESIHRPERCLVGQGHTILSRDVREFPVDGRDPLRVMVF
+LNEKKVEGAQGAYGYYSYYAYWFVGQGRETPDHYMRMFWLAWDRVVHSVAHRWAYIAVAG
+RREKDSTEYENQLRDFLPLLHKALVL
+>tr|A0A1W9LGI9|A0A1W9LGI9_9BACT
+MPTVWDDTKVLHGAIGEYAVIARRRGAEWFIGAMNDDTARSFDVPLAFLGPGPARTAHIY
+SDDPAAATRTRVRIDRRPVTSATTLRIDLPARGGQAIRIAPDAK
+>tr|A0A1W9LAL3|A0A1W9LAL3_9BACT
+MGARFLLGFAAAVSRMRLDRTLAVGRGIGWVLGSLVRYRRAESAATIRRCLPGLPEARIR
+EVLDEMYAGFGQNAMESFWLTPEALPGYLAERIEVHGREIVESEMAKGRGALVLASHAGN
+WDLLCRGTRWMGFPLTIISKSARSPAFEAFGRVVRERFGLRVLPAHGSYRDCLRTLRRNE
+ILGFALDQNMTRTEGIFVDFFGRPACTTPGLAYLSAQSGASVIPIFIERLAGGRHAIRAM
+TPIPPPPDLKPEAIHAATQAYSRVTEDWVRAHPGQWIWIHRRWRTQPLPEPPAPSTEAAR
+PETAEG
+>tr|A0A1W9LDA5|A0A1W9LDA5_9BACT
+MRRIAAQLARIAALSLLGTRFAAAMMLAPPVLNPTTYTSAVGRCTLSVEPSDLYGRGSAL
+YRLTRDGETAWSGERPFTLWEAGVADDGTVAGYAYTHGWDGWRHKDGQESGAGALQIVIL
+SPEGEERLSESVPRGDFYFDELPGPVANGIIFDTENDRFVARLRDPREEGERWHVYQLST
+GKSLGILDPSEKLSVQVHGIVATAPVAGTPLTLVHWWGYIGARFMVMDAEMNPVWSLNLD
+RDYAIPGDEAAENRLRQRIEKRGAILPARASSQFDLHFVADKKRVTFSVRPDGKGGWAVA
+EIAREDYEDPGEAAVPPPVFPDRALPDLGQVSLGTAVPAAATPFRNIGGLELDGQGRICF
+LRSEPDGVPALVLVDTNGAVRREIPIELMRGRTNAEFSAFAWIGGERFVFAISGKGTGAR
+AACAAADFATGAVTIFEGLDCPRVEQLAGYPDGGFVALTKDFRKYTITDGLYGFDAAGRT
+EWKIEKSGYRGEPGELLSPQDVTVDASGRIAVISTIRRNIQFYGRDGKFLHLLNLSNAWG
+RVPNYPTDVAADPGGGLIAYDFGGKPCIVRMDDEGAVVAQFDPAYPDGRKFAFHDGVRIS
+PDGRYWTSDGHALLRLDESGVVDRVLGAAMDYDRLEDIGRVALDSEDRIFIFSGRSRAVH
+VFNPDGTRACIGRPDPGDQVAGDLVPTGKGDVFLSSAERRSEYLHFSESGERLGIEKLGL
+GGYGENIAFQPGTGDRWVVGHYDVTLVSPSGAVLRAISKRPDGSWLENPDTLSVAPDGSI
+AVAARGSHRDGGPNTINLYTAAGDPVRTIPLSESEGYMPLPVWNGRHLFLRVGDDIHVLD
+AAGQPVQKFKPGACSHGPFVAAQGHEVWVFDEGALTFRRYRAP
+>tr|A0A1W9LAV2|A0A1W9LAV2_9BACT
+MHRTILALSCTMLATAACAAEYHVAAEGDDANAGTPASPWRTLAKACATVGPGDTVWMGV
+GTYRETLRPRVPGTNGAVIRFAARSGEKAILSGADPLTGSWQPHAGSIHSLRTDLKFIQL
+FVDGRMMPEARWPNSPRDDLMTMQRATAGEGTGYETLADPRLPPGDWNGAVVLLWPGSEW
+ANTTRRVADYQPGRGFRFDVTTEAKTKDKYHKEDPYKPRAGNPYLLVGALAGMDSPGEWY
+LDAATGTVYLWTPDGKSPSTHRVEVKRRDLAVDLDKLSFIEIRGVDITGAAVRMSDSQDC
+TLEDCRLRYPEHVREYSGGKVPAAQNVMTGKRNTWRRCLIAYSATTALAMAGEDNSLLNC
+VVHDANYLGSGRGGLDLSRSVGARVEHCTLFRAGRDTLTSEAGETLVIRPGPKLELLARN
+SIGDRPGELFRASPAPIGGRLYLRSDRALYCVGAR
+>tr|A0A1W9LH79|A0A1W9LH79_9BACT
+MKSLIGRKLGMTRVFDGEGRQVPVTVLLAGPCTVVQRKTAAADGYEAAQLGFEDQKPSRV
+GRPLVGHFKKAGAGAFRILREVPLDAGEDAKAGDQVTVAIFEKGGFVDVTGISKGRGFQG
+VMRRHNMKGQPAAHGHTTHRRVGSVGMRERPGRLLKNKRLPGHMGNVQVTTQHLAAVEVR
+PDDHLLLVHGSVPGPVGGLVEIRRSIKKASK
+>tr|A0A1W9LA04|A0A1W9LA04_9BACT
+MHPLLKAILKSRPKFEEGGPLRKLWPVYEAGETFLFTPDTVTPGAPHVRDPMDIKRYMIT
+VLYALIPCILFGIYNAGFQANHAIAGSAVGFWRHMGEGAMLVLPIIITSYAVGGFWEVLF
+ATVRKHEINEGFLITGILFPLTLPPTIPLWQVAAGISFGVVIGKEIFGGVGFNVLNPALT
+ARCFLYFAYPGQISGDKVWIATPLADRLADGFSGATALSVAKGAPAGANVFDHLAQAGHT
+LKSMVVGIEGGSIGETSAIAVLIGALILIVTGVGAWRIMAGGVLGVAAVGSLVNLIHGPA
+AAANPMFALPFWYDLAMGGVLFGLVFMATDPVSAAATNTGKWIYGFLIGALTVVIRMFNP
+AYPAGAMLAILFMNVMAPLVDYIVLQVHIRGRRKYLESFAKA
+>tr|A0A1W9LHM0|A0A1W9LHM0_9BACT
+MDLFDAHAHLQDAAFAADLDGVFRRAATAGVRRIVVNGTSPRDWDAVAALAARTAAVAPA
+FGVHPWFPDGLPADWLDDLARRLAADPAATVGEIGLDTAVEPRDDRLQEAVFLAQLRLAR
+DLRRPATLHCRRAWGRMLELLRAAGPHPAGLVLHSYGGGADLVPQLAALNACFSFSGTIT
+YTRNTRSAAAARAVPPDRLLAETDAPDLPPAGAPTGPAGGPANEPANLPLVVAAIARARG
+VPMASAAALTSANAARLFGASREAVP
+>tr|A0A1W9L8V2|A0A1W9L8V2_9BACT
+MWSEGDFRGELPPQRRKEWLPVPAFHGAYVAAVFVGALALYLSTLCGGLFPGEPAVLLAL
+HSSVAPLPALTHPLWDGVVRLLARVPPGSLTMKMGVFSAVSGALAVALLFHLLACMRTGV
+ASAAARVRHTAEGTEWIPRSRSQSGDSLLRHAPALIGTLLLAGCFPFWFVSTRAHTDAFG
+LVLVLGAAAGVALYQRTARRSALASAALLLGLSLAETPAALLLAPMILAGAVGAMVRHSH
+LVLPFMADAKRGHLDIRLPLFGTGLVVVAFIAPILVRAAFLLGEPAAAWAEVKNYGDALL
+AVVRAMWMEDRSLIPRLGWILLGITIGFPLALVVGSTMGERPGHRGLPMLAYLFSSVFAV
+VLVFDPPFAPWPLFGMSPLYVTPYVILAGWAAAAAASALRLMLRDLARTDLPAPLSRRDL
+TPWMRRRMAWVYTAVMIAAALAAGTRHAAQIRGSASDLFDGFAAEALDESAGCEWLVTAS
+PFEHVLALAAAERGSPLRMLDARMGRTPAYLRYVAASFPGDPRVRGLSDVGLEAVLLDWF
+ARGEGLSARVAVLDIPDLWTAGGYASVPGHFLYRGADAPSAEDLAARAAGLGAWTNRLAE
+MRAQSEALPRHIRPYGAWIEGHAGRVLNDLGVAFEEAGRTNDAMAAYNAVAAHDPNNYSA
+RRNRERLARSSGRAEAGAYTADLERLVVRMGGRVDAPSVSRVHGRILDASAAMMRGLRAA
+AGGQVDLALSEVLQAVRLSDDPKIQMSLAAVLEGRGDLAESRQVLDELTRRVPGSEAADL
+ARTSLALRTGDFDTAEAGIRRASVNPKTAAAGEILAVLLDTQRGALTSATARVVRMQTLR
+PDDPAVLSVAAYVAWRRGDTEAVRIADQALTRRNQKVPLVAVLAAAAEASQGRLREARKR
+LEETTTLTPGYAPAWDALLRLDYAERRRDVAQGHVSHLLRLRPSHPLANLYLASFQMEEG
+RHAEAEPALRIALRGMPGDPSILNDLAWCLLSLNRPKDALPFARQAVAAAPESPGILDTL
+GLALMRTESLDEAAQILGKAVKLSPKDDAIRTHLHELRGLQTAVSTGKKGNADGAKAP
+>tr|A0A1W9LBV8|A0A1W9LBV8_9BACT
+MSATPRIAYYISAHGYGHGVRSSDVIRALNELRPDVPVTLVTDLPEEFLRNRLPSSQNTV
+RPGAFDVGMVQLDSIRVDVEATRRRVEELYARREDLVRGETAFLRENGVHVLVADIPAIP
+LEAAHRAGIPGIAVGNFAWDWIYEEFAAQDPRWRPLVMRFREGYGKADLLLRLPFCEPMA
+AFRRAEDIPLLASPGRNRREELARLTGCSPGRKWVLLSFTSLDMSDSALAALEQLDGYEF
+FTVRPLEWRRRNIHAVDRDAVPFSDVLASVDIVVSKPGFGLVSECVANRKPLIYADRTDF
+REYPILERAVRRYLKSAHIPADALYRGDLREALEAVERQPDAVEKVPAGGALIAARRIAG
+FLS
+>tr|A0A1W9LAQ4|A0A1W9LAQ4_9BACT
+MSDGLQGYELRSKVGTDHLGEIWMALRKSPPGLVRVRLISFQTLNDSGVQPRYVEEIRRA
+FKAAHPGLVAGVEAGVDDGRVFTVVEWPDGETLAECLRRDGRLTQLEAIRIVAAAAEALE
+AAWSAGGVWHGHLTPDRIHLWPEGRVSVLDLGQTGVVPLRAAEMVADYLRVLRAVPFYSA
+PELVRGAASVDFRADIYSLGALLYQALTGTAPFGDRPAAEALDQHLMGFLDDPCEIHRGL
+TRGAGWLIEKMMARDPARRYAGWADFRADLAAVRGGRDPSGPRPETGVSVVRRGPKREPG
+TPAAAPGLRAARKGRVPVLRPRKMTAVRSAVPMPSTSDSGASLRLAVIGLVLVGGGAIGV
+RHYMQKNQIVLDAPRSAGEVARERAMATRTSRPEPPEPRAKPDAPPMAFEEIFGPARPRD
+DSGAATPPPSRFGPSASEPTEGIAMGPGGAGERDPLAEHPAFQRAAGLFNAALAVYHEFE
+KTKDASQLDRVAAMSEEAAKMFAQIESQFPGDRRVRKYIEQSYGLARYARQSYLASGHVA
+DSRNSRRRPTLPAPPPTQSRVARPSPTAMDLPQTAAEGLKLGPAWNAPIRVGAGLVRELR
+DLLSPHGSPAADLSPKPGLMIHPGIPYLERIDRVATRLGIPPIGGTGDDVTFPGFPERSL
+RYFAFESSDANPPYKGGRLIVDSARRAVGVQWIDTTPSGQLMLPEEMFAPKWSIYDPIGG
+KIRDRPSHRIAHRVRSSNGMIRIDTEVMDPAAPPNARSLGRYSLQIAQPIVNLTLLRMSV
+AQ
+>tr|A0A1W9L9D3|A0A1W9L9D3_9BACT
+MADRLSVQELRDRRANRWLAALSLVLAAIVWHAIRDAISFETVLRDVPILVRPGEGLTVL
+DQSHDTADIRFRGAQSDLANLDVERTRIQVDVSSAPSSQQGVRMSLALRPSHVRSPSGAR
+AVRIEPDEVSFSIDREGERHVPVKAAFQDAPPEGYEIGSVTCSPATVMLKGPLSKLQEVE
+VVHTLPIDLQGRVQSFKVRGSVVPPAAFAGARVDPERVAVEVGIVEHAAVRRLDAVPVRA
+LVRAGPSPALDVEPATVQVQLQGRVASLETLDPAAVQAFVETVTLDRGVAYELPVQIYVP
+PGVRLHSVAPSSVKVTVRK
+>tr|A0A1W9LED5|A0A1W9LED5_9BACT
+MPRRRALFLDTVVLSNFALARQVGLLLDRYPDSLCTTVQVLEELLAGVQAGYGQLESVVG
+PIRRSVIPAVAVPLARLDTYRDLRRTLGAGESSVIVVAHASRGTVATDDLAARQACARL
+>tr|A0A1W9LDY3|A0A1W9LDY3_9BACT
+MNAEPIILRIARASATARLEAIIIGNSGAALRGAPVTTMDFDLFVRDIETDDAKIRAFAA
+ALGALILRSDPALTRTVKIEDPTSGLFVDLIDRPAGMKSFAAVRKRASRLRLGPTAARLY
+VASMADIIASKRMLGRPKDLALLPILEAARHEAR
+>tr|A0A1W9LA78|A0A1W9LA78_9BACT
+MTNGHLRAMAAACAVWAGAAHGAEFHVATGGNDAWSGTLAAPDKVKSDGPFATIERARDA
+ARALRARNAAPGPVTIRIGPGTFELPRTLAFDVADSGTPASPLVIRGAGRGRTLLSGGRA
+VTHFVARPGGVMEADLA
+>tr|A0A1W9LD00|A0A1W9LD00_9BACT
+MHASAPLALTDEGDFMRCILNEGISLPLGGSLFHPVCCEFPSSPGVDMVWASDDGQFALG
+ELKPDFRGYPNPCSELAHHYLRVENTVVGALAAPVPFVAAHVVPHRNGSASVRLNAPARA
+ASADARPGLVHLAGRYRAGLAKTRSSVSRVARSCDDSVSRYLSRPANDPARLIVEGAVGM
+GLHALPGTGSSPDGLRFTVESKVGTRRPLLCFTRPDTLFLQTNLISYHKEFGVPRDAIAS
+AFDRVAAAFPLEKCTLTASSRRPRFNLRGFAPADAADLLRIVGDLLGQIRR
+>tr|A0A1W9LEY4|A0A1W9LEY4_9BACT
+MRDIRRSTQCIRRGREAFTLIEILLVVVIIGMLATIVTVSVPKHLEKARKSKAAADIGGL
+GVAIQSYYMEMGKYPANMGLLTAGDDPILEKAVPKDPWGNEYIYAFPGSHKPFKYDLKSL
+GGDGVESDDDIANWKSDSK
+>tr|A0A1W9LE25|A0A1W9LE25_9BACT
+MDDVIRRLDASGARCLLIGGQAMRLEGMPRFSMDWDFLIDDNPPNLARIAECLGDELDLP
+LVPRGPKGENIVQTYQTRWGVLQFHLAIPGIASFQDAWGRRERRPSDQGVLFLCLSTRDL
+LAAKRASGRPQDLIDAEFLAQKLATADGGR
+>tr|A0A1W9LEQ4|A0A1W9LEQ4_9BACT
+MDAGIALVGAALPRYGWRHVSSEPTDTPTPPAPPRDIRRVAGFVVLSLVLVGASLLTPVR
+AWADMDRISAWTGSLGAWGPVAILLLGLITPLLFIPRWPIAFASGLLYGTLWGTGLANVA
+SCLGAVLHYAMSRSLLAPWCRRLLEKRRSSLLDIPRDRAFLALFLLRAFPLSNFVATNIL
+AGTLRIPFRTYLAATFLGMIPSSLMYAAWGKLMKKPSPEFYAVAVASLVFIVAGTLLARR
+FLGRWTRGPGGVAETLRRDAP
+>tr|A0A1W9LE98|A0A1W9LE98_9BACT
+MWKSRRLVGWFFLTVGVQLLFRFPFLRAQMIPHHLDFQPGIVLVPLAAVFFGPAGVWGAL
+AGSLLGDKLFGQWNVLSWYRAAGFFFFALGTQRLWDHTFRRDAPAPELSRSWFLALRFTF
+VSWSGCFVAASWRAMGSELARAYPFAYIVSLLVLNNLIFCTLLGAALYRLMAGYWVPRFG
+GWREAMPGGAEWERTSWLNACFIVAGGVGSCLAGLFVSNTFYRVGPLQPFTFGSATGVLV
+PLIVIPLLLVQAVGVLRREGSK
+>tr|A0A1W9LER3|A0A1W9LER3_9BACT
+MSRLFVALIRLYQLAISPLLGPCCRFHPSCSNYWIEAIGSHGALRGTWLGIRRLLKCHPL
+HPGGLDTVPTTDVK
+>tr|A0A1W9LHA0|A0A1W9LHA0_9BACT
+MLDAEVGDVIGCKALRARLRNGHEFVAFFAAGAEARTPMPGDRITVEMSPCDMSKGRICG
+RNEGFER
+>tr|A0A1W9L8U0|A0A1W9L8U0_9BACT
+MTDAGTCCGSTRWSRALPWLIFLLGLYTRTFGLSHDLDAGYEYNPDTQKQMMAAVEFVQG
+HYYFYYNQPEIDGYPYFNGHLLEYLIRIYDFGRRAVLTHMGVPPPPLQLDTYKLLWPTRV
+MNATLSALSVLLVYFAALRFVDPRAAVLASLLLAISPIDLSVTHHATGDATTSFFATCAL
+YYALAIYRRGHLRDYVLGAFFAAASCSAKHHGGLSFIPLVFAHGLRYLEMRRFWSVQCIA
+RFALLGATLVVGILLTTPSLLVAPWRSFKDILAHLHLTSNFGMRGVFENMPVGRRFLYNM
+ERNPPVFYNFTGPVVVIGILAGLVAGIRRRAIWVAALAPAVYLFVALWIRPKAPANYLSL
+VTASLFLAGAAGLAALTDWRNRKAGRIALAVLAVPAVLYLAEYTRREMFYWGRTDTRRLA
+DSWAQDNIPKLFTMSVSGYNFNEDPWNAAAKPGAGHISVTAGRHTVEGPGVFPLNRIVLE
+NKGALEYRFGMDANLSDYFRNRNQSFFACNTESLIRSNFTRAVYQPQPTHPLS
+>tr|A0A1W9LE46|A0A1W9LE46_9BACT
+MGAGVSHWRLAQAVSRLGQLGVVSGTALGGILSRRLQDGDLGGHVRRALEHFPFPRMARR
+VLDAHFIAGGRKAREPYRFVHMHEVQTEPPVQELCIAGNFVEVFLAREGHDHPVGINYLE
+KIQLPHLPSLYGAMLAGVAVVIVGAGIPLEFPAALAALAMHQPATYAVHVAGLPVGEVCR
+LTFDPAMFHEPGLTPPPLVRPKFLPIVSSDALAAILHKRVKDLVDGFVVEGPLAGGHNAP
+PRGTLHLTEDGQPIYGPRDKVSLDAIHKLGLPFWLAGSYGSPERVREARAAGATGVQVGT
+PFALCVESGLDPDFRLALIRKALAGDAKVFTDPRASPTGFPFKVAELEGTLSDANLYRSR
+RRLCDLGFLREAYRREDGSIGYRCPAEPIASFVAKGGKAEDAVGRKCLCNALISNVSMPQ
+PLADGSDERALITLGDDYAGIGRFCTPDRLDFTAADVIRTLLGA
+>tr|A0A1W9LD09|A0A1W9LD09_9BACT
+MPGSPLMELRGVTKVYGTGTAAMEALRGVDLHIYPGEFVAIMGPSGSGKSTCMNILGCLD
+TPTAGSYMFQGVEVGQLTRNQRALLRRHYLGFVFQCYNLLNRTSALENVELPLIYRSEGA
+RTRHSRARRVFDQVGLTGWEHHTPGELSGGQQQRVAIARAIVTQPIVVLADEPTGNLDSA
+RSIEIMNLLTALNRDHGITIVMVTHEPDAAAYAARTVHFRDGLIEVDHKHEEKH
+>tr|A0A1W9LFS1|A0A1W9LFS1_9BACT
+MLATLRVKNLALVENIRVEFQPGLNVITGETGAGKSILMGALSLLTGERADHGLVRSGAE
+ACGAEAFFQLSDSSAVDAVLEKYSLNPCEDGQLIIRRIIRASGSTQNLINDSPVTLQVLK
+EVGELLVDLHGPHDHQSLLNPEFQVDLLDAFGHLWDARAAYEEDYRRMRAIEERRAALEG
+AGEDVAGQMDLLAYRVKEIEESAPVEGEEEKVAEEQALVGNAQRILELCGGVLNALSEGE
+GSAFDGMVGAQRTLDELVRLAPEAEEWRTEARDLAARTQALSVAVHGLADRVEADPSRLQ
+WLDERLAVYQRLKRKYAPTVPEILDILKQSKSRLQDLRTRGEQLAALKVEYDQVRKTLDE
+RGQALRKKRREVSAKLAEAVTRELRLLGFAHGSFAVELRDAEPKGSGLDDVEFGFAPNVG
+EAMRPLRAIASSGEISRVMLATKVVLAAHDRIPVMVFDEIDANVGGEMGTAVGRKLEEVA
+RRHQVICITHLPQVAVFGKTHLAVSKSVRDGRTVTEVNPLDEKSRVEEVARMLGGRDLTS
+VTVKHAREMLEGARG
+>tr|A0A1W9LCT5|A0A1W9LCT5_9BACT
+MNLFPIIADTIERDPAVLDRAMETLEHWEAGGMAPAPRLAQWRGLLDAARHTPTGMTALL
+GLLRDDSPGARRVKDFAPFAGILTREQRRTVFMSCSYDH
+>tr|A0A1W9LFV3|A0A1W9LFV3_9BACT
+EVAAPDEESPPDSPVPAVAPEPEEVEPPVIELPPPQQPADLVPADSAAAPESELAPAETN
+TAPPAPTRAERRELDRQQKAALKAERELAAAEKKAQARREKEAAEAARREAEEAGRSGNQ
+IIPMFKTPGLETESPETSLENPTKPYFAPPGE
+>tr|A0A1W9LHA7|A0A1W9LHA7_9BACT
+MKIPFTKMHGAANDFILVDDRAGTFPIGDREWIARISARRTGVGCEGVILIQPSRTSSFR
+MRFLNPDGGEVEMCGNGARCVARLAHELGAAPARMTIETVAGQVQAEVADDGLVRLTMTE
+PADWRPALTLRLGTETLAGGFVNSGVPHVVVEVPDVASVDVARLGAAIRYHEEFKPKGTN
+ANFVQVTGPSAIRVRTYERGVEAETLACGTGMVASALVLARAGRISLPAVVVPASGDTLQ
+VGASVRDGRWTEVTLTGPAEHVFRGELDHRD
+>tr|A0A1W9LD15|A0A1W9LD15_9BACT
+MSKVLGIDLGTTNSCMAVMEGGEPVVVPNAEGGRTTPSVVAFTKSGERLVGQAAKRQAVT
+NPKNTIFSIKRFMGRKHGEISHEAEMVPYEVVRSSNGDAHVKVDDKTYSPPEISAMILQK
+LRADAEAFLGEKITQAVVTVPAYFNDSQRQATKDAGRIAGLEVLRIINEPTAASLAYGLD
+KKKDETIAVYDLGGGTFDISVLEIGEGVFEVKATNGDTHLGGDDFDQVVIRWMLDEFKRD
+NGIDLSKDPMGLQRLKEAAEKAKCELSSSQQTEINLPFITADANGPKHLNLSLTRAKLEQ
+ITEPLVERSSRPVENCIRDAGIPFSKIDEVVLVGGMTRMPRVQEKVKQLFGKEPHKGVNP
+DEVVAVGAAIQGGVLKGEVKDVLLLDVTPLTLGIETLGGVSTPLIERNTTIPTRKSQIFS
+TAADNQPMVEIHVLQGERKMAGDNKTIGKFHLDGIPPAPRGMPQVEVSFDIDANGILHVG
+AKDLGTGKEQKITITASSGLDKNEVDKMVHDAEAHAAEDQKRREDVEARNQGDGLAYQVE
+KLLKEQGDKVAADKKAKVEEALKSLRDAVKDGDAGAIKTAMDAVNSEMQAVSADLYAKAK
+ASSPGTPPPGGAEPGGPDAGASQDAGAKEDVIDADFTMVDDEKKKKG
+>tr|A0A1W9LE13|A0A1W9LE13_9BACT
+MFTLPLYVSIRLSYAARQRSPYGNDVKVYRADNRDAGRNLAVEEWLLDRAETLGPVLFLC
+RNDPAMVIGKNQNPWREIDLDAARLSGARVARRVSGGGTVYHDAGNLNYSFIVPRTRYDA
+AAQFAAVIRALAACGVAAEIGNRTNLCAGGRKISGNAFCLKARVAMHHGTLLVRTDLDRM
+RRLIPDPPPQVEGHAVPSVPATVANLANLAPGLTFEALERALADAAASMWGGPVETLTDS
+DTEAWDWADIRCRHESWEWVYGRTPPFRMRLAGAALAGTSIVAHVVDGRLAGLAFDPPRD
+RPLPAALIGAPFDPAALARAAECPP
+>tr|A0A1W9LFK7|A0A1W9LFK7_9BACT
+MVARRRVNVKRNVRRVFPVRLFILLTIVAAFALSYLWLCGRCQALARDLKRGEDRLAELR
+RRRLNEDYKWSNLRTHKPVRDALAAFRIEMDWPGKDRVVYLTRSMDLADLPSAPGPQFAQ
+TRGRERRE
+>tr|A0A1W9LCP9|A0A1W9LCP9_9BACT
+MSKRVLVVAGEISGDMHAGAVVRSVLRRNPNIEFFGIGGEELHAAGVHVLHDVKEMAVLG
+IAEVIRRYGFFRSVFHEMLDLARLSRPDAILLVDYPGFNLRFAEQAHRMGLKVLYYVCPQ
+VWAWHRSRIGRIARIVNRLIVIFPFETEVFAGTGLKVDFVGHPLVDETQRALAEPLRELP
+WSGEPRIALLPGSRRQEVDRILPPMAAAARKLQERIPGAAFLVAAPSEDIATRIRGIMAG
+VEQKPPSCRIMVGQTRQILRQARAAMVASGTATIETALMGCPMIVVYKTSAPTYIIGRML
+VKISHLGMVNIVAGRTLCPEFIQGAATPDAMAAAMEPLVGDTPARAAMVAGLEEVRKLLG
+QGGAADRAADVILEELS
+>tr|A0A1W9L8M7|A0A1W9L8M7_9BACT
+MTVVVVGDRVNMRARPSLQAEVVGQLNENDRIVVRSLTNDWAEVAPPAGIEFCVHRDFIK
+DGAVSVPKLHVRAGPGINFSKVGQMVKGDAVKVTGEFGEWLKIAPPPGSSLWVARSMVKL
+PEPRTASPTKPPVVATSTAPVAAVASPRPVAVPPSIPAVARPVAPPSVAPPPATPPAAPA
+VAAPYTPDDLRLAPVDNQGSAVMREGRVRATVLVLGRPSRYHLMDESAGGSETICYLRGN
+EAQIRSFVDRKLRIRGRQYWVQGNRHPVVVIDQIAPMAE
+>tr|A0A1W9LD37|A0A1W9LD37_9BACT
+MVILICASPSFLAGAELTRCNAFNDAATTWAAVAAGSEEPLPLHSLIPPVLLPDGSEFKT
+WEQPAEHRRTFFVAQNHPKAADDNPGTEDRPWKTIGRAATVLDPGDRVVVKEGVYREWVR
+PARGGTGPKRMITYQAAPGQKVIISGSEPFSGPWAASTRADHAQSAKAWMAELPATLFNG
+DNPFAERNVTANMLTCPYLLTRPKVKQEWSTQPPHTLSQGLVFQAGRRMKQVADYEGLAE
+SAGTYWVEPGGRRLHVRPFDDKDPREAGFEVTTRPFAFAPEKAGLGFIRVEGFTVEHVAS
+CFPMPQQGAISARQGHHWIIQDNVVRQVNAIGLDYGRRQTFMPYEVPEDTPKLGGVGHIL
+RRNAFFDCGVCSMSGLGTIGMLVEDNYSSGCGWQNARVWESAGIKLLYLKHTLVRRNVVQ
+GTVNCIGLWIDHSAANSRITQNIIVGVSDSVGAENLGIVWEATYLTNLIDHNVVWDCGSH
+ACWLLDCGELIVANNLFGRCAKLPVFNPPRGPE
+>tr|A0A1W9L8Z5|A0A1W9L8Z5_9BACT
+MNASHVRSWFLAGAVAWASGAAAVQSGRLQGRALTGGSFIALDLDFDAGSVTFAWTEAQW
+EVPPDADWSGQHWTREECLHRPPGYHHYFWRPESCYHIFRARLDGSGLRQLTDGPWNEYD
+PCFLPDGRIAFISERCNSNVRCGARWCPSAILHAIDGDGSDLRPLSFHETNEWHPSVAND
+GRIVYTRWDYVDRDNDAAHHLWTCFPDGRDPRAPHGNYTTNREGRPWMELGIRTGQGRQP
+PPNGSTASAPRSTAGRARTPAS
+>tr|A0A1W9LG62|A0A1W9LG62_9BACT
+MRAGRAGLGLACALAGLSPRAAFAQFELEFDPDAVPPWVTQGLHAMDGFMGSLQTNLAVQ
+VSEAVRGHMDELLAAADAAMQDAHPEDMAELQPYLRAAATQARGIRELAPYAAWLEARLD
+YFDAARAAVAMSPTPPPPPVRPPDRPPVKPPTRPSTPAPPPSRPAVRPPRPPPQVEIARK
+RVETATSRPQWRKRVATHAKPVRADDMVPALKRAFRAEGVPAELVWIAEVESTMNPEARS
+PRGAVGLYQITPATARALGLSLSPEDERKDPARSASAAARYLRRLYERFGSWPLALAAYN
+AGEGRVGGLLKKHGAASFEGIAGSLPMETRMYVPRVLETVRLREGVDPDRLPPPGQASLT
+SAARRSGRRWR
+>tr|A0A1W9LDB4|A0A1W9LDB4_9BACT
+MNVVDSSAWLEYFIGGPNAEYFAKAIEDVGNLLVPSITIYEVFKKVLLERGEESALQVVA
+QMKTGHLVELEEDLAIDAARLSVAHKIPMADSLILATARAHDAWVWTQDDDFKGLGKVNY
+RAKK
+>tr|A0A1W9LD76|A0A1W9LD76_9BACT
+MRAARGAVGRSTAEAMQIAADAGYAGLLRGIAGRMVSDRRLHGALLIATGGGADLVRRAI
+PSARIDRDLTFRGMAMAFRASRPL
+>tr|A0A1W9LD94|A0A1W9LD94_9BACT
+MTKEPSRRAGLHPAIRVAAAAALLAVPLVLLRAPTGGPGGPLRLLGAGASHLDRALPEFA
+ALRPPVESPGGYDGQFYAQLALDPALCRGAELRRALDTPEYRARRIGLPALAWLAGGGRP
+RAVVTAYALANLLFAGILAGLVARRTRMAQPRDLLLAAALLWTTGSLTSIDRSLSDFPAS
+VLLLAAAWMAGRPAGAAGALAAAALMRETSLLGLAVAWPASFRRRDLLRAAAVAAAVGVP
+LFLWLVWCRLRLGGAGASPTDAFGLPLMAWVERIAGTVRDLLHDAPAAPWNQRGRLLFEL
+LAPLSLAVQAVFFAVRRDARNPVWRLGAAWAVLLLFLGPQVWGEQYASTRVLLPLTFAFN
+VRLHAAATTTRELAWFAAGNAGLAWMAVSALA
+>tr|A0A1W9LFC2|A0A1W9LFC2_9BACT
+MARTLYAMEQGDSVMDFLADLDRDDPAEHAAIWRRLEQLAQDDGPRRADLFRGLGDGLFE
+ARTRGGSRVIFFHRPRQVVICAVAYPKRSEKAPRTVLRLAADRKREYERTIPLAKNVQVV
+IGEGQDRPRRMPA
+>tr|A0A1W9LE80|A0A1W9LE80_9BACT
+MPRLGVFSGTAICDLLVGHGFVNVRQRGSHVVMQKRLDGSTITVPVPLHREVCIGTLRSI
+IRQSGLPRRIFET
+>tr|A0A1W9LH21|A0A1W9LH21_9BACT
+MTSPETRCRFEQDIPAWFQNELSAEEKAEFEQHLAGCPSCEAASEEYRRLIRDLQAPMPE
+IPSRDLAPAVLARIRAERSRRWPAFAPVVLRAAAILLALVLAGVLVGRLRPAIAPRDRFV
+AAALGWLHETQEPEGRWDAAKWGAQQNYTPALTALAALAFLRQDASALRGPHAEVVRRGL
+DFLLTQQNAEGRFGILCSGTPYNQGMATLALIEAAGCGGEPRWREAADKALEYIRATQLA
+HGGWGYPRTSGDPGNTSITVWQLQCLLKAEALGRGELRPAIEKGMAWLNGVVDEQGRVGY
+SRARDFPNGYETLTAAGALCLLTDPQRSASAERLAAVLRALEETAGRTADVDYYRLYFTA
+HALRVSGTEKADALVTGLQQTLFACQSQGGKNAGSCETPDRWTSAGGRVYATAMAVLAM
+>tr|A0A1W9LDX0|A0A1W9LDX0_9BACT
+MQIINQGHAPVLHLVSGIGLEEAGLGREAVIPGAAGLAGVALERALSAERAIVHHPGQSG
+EGEGPPGLLEVELGLGSGQGAEEEQEPP
+>tr|A0A1W9LGH7|A0A1W9LGH7_9BACT
+MNGASSSDPRAARFLRACRREPVDRTPVWLMRQAGRYMPEYRALRQRYGMLDLVRTPELA
+AQITLQPVDAFEVDAAIVFADILPVLDGMGLGLEFVAGEGPHILRPVRTAADVERIVVRP
+PEETLGFTIEAVRLARRALAGRVPLIGFSGAPFTLACYAIEGGSSPDFPLTRRFLREQPA
+AWASLMGKLAEAAGDYLAAQVYAGAQAVQLFDSWAGRLTADEYRAAVLPFSAEALRRATA
+GGDVPVIHFATQSTHLLPLLREAGGTVFGVGNDIAIDEAWRRLGDGVAVQGNLDPDTLLG
+PEEAMRRQAEDILARVAGRPGHIFNLAHGVKKETDPARVRALVDFVHGRAG
+>tr|A0A1W9L8A5|A0A1W9L8A5_9BACT
+MFRRYFILFGGVLACAAAANLVRASQIEPVRLAAGRLLVAAFALLPLFLRDLRAHRGKFG
+ARDAAASVWPGVLLALHFMSWIVAVRMTSIANASLLVNLTPAILPLFSWVLSRERISRGE
+LAGTLLGLAGVALLVASDFRVSRESFFGDLICLLSMVFFSWYFALGRVNRSAPTVWLYLV
+PLYFAAALACLPFALLQPQTPGLDWTREIWPLLGLGLIPTVLGHGALNYSVRNMRPQTVS
+LANLTQFIYAGMMGWAFFGEIPPRVFYIASILLIVGAVVAIRAAGREEGGGRWRVEGGGG
+SRAVEGGRWKVEGRNLRPGT
+>tr|A0A1W9LD57|A0A1W9LD57_9BACT
+MSAPTESELSDLFTALPVNSDVRNEVLGPDREGRIDVYEDALHFSLTEIRMREGEMRTAH
+VDVVLGAGFLLTFHRRDAEFLNRLRRSYREDFIQFSKSHGFLLCELGDHLLDQHRRALQE
+ATDAVENVQMRLFAAVDDGIFKEVALLASDLNSLRRARWV
+>tr|A0A1W9LEX1|A0A1W9LEX1_9BACT
+MSENDFPSAPDRIAHHVRDIPRSGIRDFFDIVSSMRDVISLGIGEPDFDTPWRVREASIF
+ALERGATHYTSNLGLLKLRRAICEYVARVYGAAYNPDDECLIAVGVSEAMDLAVRALVNP
+GDEVLYHEPCYVSYAPLIRFAHGVPVPVPGSRETGFRLTREALERHATPRARLLILNFPN
+NPTGAGLDRADVETIAAFAIERDLVVLTDEIYAELTYSGTHTSVASLPGMRERTVFLHGF
+SKAWAMTGYRLGYACAPAPLIDAMMRIHQYTMLCAPILSQEAAVEALRGCAADVDAMRDE
+YNRRRNYLLHAFADMGLPISEPRGAFYMFPYIGHLGLTAKEFSLHLLQEEKVAAVPGTAF
+GACGEGHIRCSYATATDDIKEAARRIRSFVGRLQKRG
+>tr|A0A1W9LFY3|A0A1W9LFY3_9BACT
+MLPLTACVASVWAVTPAAAATEDEADAETAIVRDAAERGDTAAQVEYGDRLLTGRGVGRD
+TRAALDWWAKAALQGNADAMTRVAENLFRGDGVPKDEARAVALLRRAADTGHAGAMARLG
+VAYASGEGAPKNPAAAIPWLRKAADLDHPEAQYLLAWHMETGAGTERAPEQAFDWYRRAA
+EKGYLPAMTCLGACYAEGSGVAKDLREAYAWSLLAARQGETRAKENVEALAKSIGALDRF
+RAARRAGAIAREIGLP
+>tr|A0A1W9LBC6|A0A1W9LBC6_9BACT
+MVSIWTHGLYPKDTLNDSVHPNGLGNFLLRKLIEPYLRYDPNFPRDAWQGLVTEIPTTDP
+RVERRPDGSMRLIFKGNRVDVLAGRPGSQAPGTARVRLDGRVPSTFPELTYHARPNPAPH
+VWWPAVNRFGNEKPLLVETWTLTPTTWDTEKKEYSKKPMPAGYVVTWDARPLHVDTYRAP
+GTPDAGREYPTTLVQGVQNQTHVLDLFPNGDGPVPVAAFRVFKPPLSPQSSPTPMERDLE
+GRVPPRPHGSLSK
+>tr|A0A1W9LFE2|A0A1W9LFE2_9BACT
+MKSAVIHARIEPQIKRQAEGVLRDLGLSPTEAIRIFYRLITLRRGLPFAVAMPNECTAAT
+LEKSRRGEDVQEFGSLGAMFQSWEKGMGT
+>tr|A0A1W9L9I7|A0A1W9L9I7_9BACT
+MSTTGRYRILSLDGGGIRGIYTLTLLRRLDERVGGFLDKADLLAGTSTGGIIALGLAAGR
+PLDELRSFYEEHGQEVFSDSWADNIVDVGKIIGADYSNRNLKRILTDTFGSLKLKDLERK
+VLIPTFDLDPGQQGGRTWKPKFFHNFTGRGSDGQEYVVDVAMRTSAAPTYFPSYQGYIDG
+GVVANNPGMAALAQALDKATGGQKLEGVRLLSLGTGLVPQYIAGDRHDWGYAQWAKPIIS
+VMMDGMMGVADYQCRKLLGRRYHRLAPVLPEPIALDAAAKVADLVRLAEAVKIADAARWI
+RREFG
+>tr|A0A1W9LC63|A0A1W9LC63_9BACT
+MYNPEAMQATLARHRDIARQTERFTAGWAAQEPQAWQALLLRANTLYDTRRKEEAQAIDR
+QIIALPASQVPDDLRSFILHRLDSNR
+>tr|A0A1W9LG73|A0A1W9LG73_9BACT
+MNAVAANRTLWGSASVHGAILVAVLSASLIRGCIVNHTPREIVTFIAMQEAAPTIADLQM
+PPLPEPAKPEPEPAKPEPVPEPPKDIPEPTKTPPKPVKPKIEISKVKIKRPAPPKPVKPL
+TAEELRRILASGKPIGPVGPSGPVGDFPFDWYLALIRKAMYDAWEQPGGLAASAGLKVVV
+EIRIARDGAILKRDVLRTSGHPLMDESVSKALQGVRQVPPLPDAYRGATRDLQIAFELTD
+GAI
+>tr|A0A1W9LCM7|A0A1W9LCM7_9BACT
+MMTSTALRMGQRGVLTLPKEIREGYHLEPGAELTLVDLDGVLVISPRRSEIDALADRVAH
+SLTDRGETLESMLKAVREERERYGSR
+>tr|A0A1W9LH20|A0A1W9LH20_9BACT
+MCRATCRGAVLVDRVEIACGFRGRALGLMGRAPLPRGRGLLLKPCAEIHTFFMRFPLDLV
+FLGDGDEVVRVVRGMAPWRMAFGGRGARAVLEVASGWMPADAVRPGDRITWEDRA
+>tr|A0A1W9L9N0|A0A1W9L9N0_9BACT
+MVRLPSVILLATAASLAGIVALWVQWMIRDGVRRGRSRRTAIYRCESCGHVYEDVRNLPL
+STCTRCGTLNEAVRR
+>tr|A0A1W9LGU9|A0A1W9LGU9_9BACT
+MRPEPGPIGEAAAALTRGVLVIVPTETVYGLAADPRLPGAETAIHAAKGRPDNEPVTLFA
+AGLEQVKARGAVLRGAGEKLARAFWPGPLTLVVKTPDGFTGFRVPDHAVPLALLREVGSV
+LAVTSANRSGEPPALNAEAAVAALGSSVALVLDAGPSPGGVPSTVVRVDGDEVRVLRPGA
+ISEERIRRVVGGSPSLS
+>tr|A0A1W9LH39|A0A1W9LH39_9BACT
+MTTSAKRKGARRVRPEKESQMVEIQNRVAASAYVLLADYTGLNSSRTTELRSRLRKVGAR
+MQVIPNRLFRESVKAKGPDLRAFLKGATAMIVGSGDVAETAKTLVQFHKECKMPVMKAGV
+FEGRILSAADVHTLSALPSKKVLQAMVVGTMAAPMSGLVGVLQQKLASLVYVLKAAQEKK
+GQAAAA
+>tr|A0A1W9LAR3|A0A1W9LAR3_9BACT
+MATAALAVLVTGLAVADDGPVGVRPYELDWANRITDDVPALVDFEAPEAWTVETRNAVAT
+FVRTRRQQIWGAHVGELTYRGTNSAPEVRFGPAAPIPVTAPFDAVQAWVYGNNWGYARTP
+GTPPVSLAMRFRDAKGEFDVPLATVNWKEWHLCRRRLDAAQTERARGGVSFCGLVVRGGK
+NAEDRTLGFDNLAVLTEAFPPLAFAARPRRGIDPPPGGIPGVNTGEGRLPFPTRPETILP
+QVLDPACRTSAKRDGDAFLFTSDSRDGRIAWRYVPSTGTFDDLAVRCDGRGGEVRPCVGG
+GVFLAGPTGAVAPDRTEPLGVGFTNGVVTARWRLRAGDIAADAAFTLRMWGRSLVIDVAA
+SGGAVAEVRYGRATGLEDPRLVANPYYVIHGGHPAVAVSGPVSRPLFLAGHTDWYLSNAS
+LPWAAPGLATNGVSFNGGTRYIPRTDGRRNDCFDRIFLVLSTRYEETLPTVPNPVSPWKH
+VTGTRVWRAHGATDREQDARHWREVRRLGMTEVVVTDHETGWRDGGESFTFRTRAAPGKG
+GDEGQFRYARLMQDELGFVYGPYNTFTDFAPVNGFWTPDLIARTPENQLQGAWMRCYAAK
+PARAVEFCERLAPEIQRRFRFSTAYCDVHTAIPPWDRVDYDARVPGAGTFAATFHAYGEI
+MLLQKKAWGGPVYSEGNSHAIYCGLTDGNYAQDQRYRPAENPWLVDFDLRRLHDLGCNFG
+MGNPDMFFAGDNGRGRRALAGDDGWLDHFLAATVAFGHSGFLAFEGGMPNALRSYYMLQQ
+LHSRYCLASADSIRYADAAGRLLDTTAAVASGAYRRSQIVTRYTDGTLTAVNGHPDQRMR
+VEAFGRRIDLPPDGYAGWTEDGAIEICSGDINGRRADYAATPAYLYVDGRGHFARFARAA
+SDGIGICRLLPGGAAEIIPVGGADCGFAIEAGSAVALDRDNRELGPAELRRSHGLTFVVP
+VTNAFSYRLAPGAVAGRELACPRSEVVRGESVGVRGRESHEVRIPADARPGQRLWYSLEG
+AWIDFTVVPLADAVVALDGNTLAVSLTSHAPDAADFDVAAGPHRARIRLKPGRTGSLRFD
+LGPPTREDAVCWDVAVASGGLSLAFPLGLRTTRDIVVLADLPEGLETGMGLRGAPETPDM
+GASKAHVSRQTIACGGVEKNGIGMHPPYAGGAGYAYARLPAVRLPGSPAAAFRARVGKGD
+GSDPGDGILYRVVVLDANGASHEAARVTVTNHAWVPIEADLSAWAGQDARIQLISDAGPR
+DHTGGDWACWADLRFESREAQLRRLRADNPEVLRTEPPPHPCTGLTPLLVRGATHAWLRY
+EGQGLQGPGPYETRAVVNGIDTGPMVAAGGDERRNTWSAPARVELSRAAIESLGRRNRIE
+IPNPKGDCFKIRRLWIEMELADGRRASTAIAAATWTQPPSWPHGEGIRVPPDEQIATDLW
+LDVEPGLK
+>tr|A0A1W9LB51|A0A1W9LB51_9BACT
+MKSASHPAAAPGPGTLRAVAIAGTGAFAPERVMTNHDLQKIVDTTDEWIVSRTGMKERRI
+AGPETATSDLAAEAARRALADAGLAAADVEMILVATITPDYPFPNTACVVQDKIGAKKAF
+CMGLEAACSGFVYAIETARNFIATGTVNNALVIGAEKMSSILDWKDRTTCVLFGDGAGAV
+VLKPARDGDRGILTTSLGSDGSLTHLLLVPAGGSRKPATAETVAAREHFLRMSGKEVFKH
+AVTNMVRSAQTALARAGLTVADIDWMIPHQANLRIIAAIGERLGIPPEKCIVNVQTYGNT
+SGASIGLALDEAVRDGRIRKGHRVLFVAFGGGFTWGAMVLEWAKGAK
+>tr|A0A1W9LBM4|A0A1W9LBM4_9BACT
+MTDWLRENRLRALGLVAGGSLAVQLLYLFESRRDPTFNRPIVDAQTYDQQARDFAAGKAA
+PRVPFWQPPLYPYALGLVYAATSDSIFAAKLVQSMLGVATCLLTVLVARRLFSGGVAVAA
+GLITALYGPLVFYNAQLLPAGLAALLILAAFLLFLRALDAPTPGRWLRCGVVAGLAALTV
+ANAIVLVLLAAVWVVFRGPRRGSVLLLLGAVIAVAPVTIRNYLVAGEFVPISTNAGINLF
+IGNNENAWQTMAIRPGTDWSDLERMPLRDGVRSASVASAYFMKKVARYAVAHPGDFARDL
+LRKTRWFVNARELPRNTDLYVHASYSRALRALAWRAGPFAFPFGVVAPLALLGLVTACRR
+GNPAPRLAAGFVILYSLSVILFFVASRYRVVLAPFFAMFAAGGAAWLWTQRKSPRALALG
+IVVVAVGVAAANTTVRVPTDGVNFAAETHLFLGVRAAEEGDVALAAAEYAKALELEPGYP
+EAYNCIGNLRRAQGEAGAAIEAYTKAVTLNPEYAEAHNNLGLVLADRGRLDEAMEQFETA
+IRIRPRLAKPYHNLGLVRIQFGQAAAAVEPFRQSIRLDPLYFEALNDLAWLLAAHPDATV
+RNGAEAVEFAERLCRAAPELTPGMLDTLAAAYAEVGRFDAAASEAGRAVKMAEADRQWDW
+AMKVRGRVAEYQAGRPCRDASLAGKAAGP
+>tr|A0A1W9LCA1|A0A1W9LCA1_9BACT
+MVRILWILALGGAVWGYLRYFEWRNVFAPSLEIESTPAEFGLEFEDVTFISEDGRLLHGW
+WIPHEKARGTIIHCHGNAGNIGDRAWMAADLHRLGVNVFLFDYRGYGRSRGLPTEQGTYR
+DARAAYEVVRARYEDVENPPVIVHGQSLGGGIAIQLALDKPVRALIAESAFSSTVDIGQH
+LYPLLPIRLFCRFRYDSVAKVPRLTIPKLFASSRHDEVAPFELGRKLYDAAAEPKQFVEL
+TGGHNDSGWGLTPAYWSAIEALVTKAFGPPLQ
+>tr|A0A1W9LA25|A0A1W9LA25_9BACT
+MNRGLVILLAALAAVRILTAVALWPSLRSPDHPWAWSNNDGYDRIAATWVETGIYGSAPG
+IPTATRTPAYPALLAAARILSGGHDSQPLATAIQILLSLATGWMIHRTARLFFSETASRI
+ALALFILNPQAGLLALRCSTETLFCFLVTGFVFHIARLQRDARPRDAWLAAAWLGMALLT
+RPTPFLLPLVLAPAFIRQWRRDGRASRAWLHLAGAACLALAILSPWLARNAALGAGFPTL
+ETWRGRSLFHGVHVTAKLDRFLSGQSTLTELDEEAGRIYTAWLCAYRHTAPGSRGPLARE
+RWESDMGARLGAWAMTESPRLTATRTARNVLLAPFLQMTRRSTVALAAFNGPLLLLAFAG
+LRLAARSTPGGFLVLAPVVCALLYFWLLHALVWPQARYVLPGLLPFTIFAGHALAEFTAM
+RIANRR
+>tr|A0A1W9LAD9|A0A1W9LAD9_9BACT
+MNPDSKAPGPEGAGAPAPDALAGYVERVTYRNDDSGFSVIKVHARGHRGEVAVIGTVADV
+NPGEWIEAKGEWQVDPRHGRQFRAAEIRLTEPDSLEGIEKYLGSGLIHGIGPVYAKKLVE
+RFGRDVFDVIEKRSAQLMEVGGIGPTRRDRIRTAWAEQRAVRDIMAFLFSHGVSPARAHR
+IYKKYGDRAIQTVRMDPYCLARDIHGVGFLSADRIAERLGIARDSALRARAGVEYTLGEL
+TGEGHCAYPRDALIARTAEILGVGEALVETALAEGIADKRLVERAGPEAVPLIYLAPLDL
+AERELARRLRWLAGGGHPLGGVDPDRAVAWVESRIRLQLAPAQREALRAAMTAKVLVITG
+GPGVGKTTLVQAIVKVFRARKLRVTLCAPTGRAAKRLAESTGTEAKTIHRLLAYDPASNG
+FRHTAERPLDTDAVVVDESSMLDVTLACQLVRAVPRRAALILVGDVDQLPSVGPGMVLRD
+AIESGAIPVQRLTQVFRQAARSHIVENAHRINEGQMPHIPEVGRDEKTDFYFVEAAEPPQ
+VLDALVRMVRERIPKRFGLDRMDAIQVLTPMQRGELGARNLNTVLQAALNPDGPSVEKYG
+TVFRTGDKVMQIENNYDKDVFNGDIGRILEVRDVERELRVRFDDRTVVYTFPELDELVLS
+YAITIHKSQGSEYPCVVIPIHTQHYVMLQRNLLYTAVTRGRKLVVLIGSPRAVGIAVNRA
+GAGRRVTLLRERLAGTVEADEASGL
+>tr|A0A1W9LDB6|A0A1W9LDB6_9BACT
+MKVTVDADTCTGCELCTDAVPDVFVMDGSVAKAKVDVVPAGSEDAVKDAAGNCPVEAIKI
+EG
+>tr|A0A1W9LFI0|A0A1W9LFI0_9BACT
+EYDVEVYGAEKKVNLPFIVGVMADLSGKPAEALPAVADRKYLEIDVDNFDDRLKAAKPRV
+AFQVPNALTGEGNISVDITFESMDDFSPEAIARKVDSLSKLLSAREQLSNLLSYMDGKSG
+AENLVTKLLNDPVLMKALSSAPKPADKAT
+>tr|A0A1W9LAP4|A0A1W9LAP4_9BACT
+MSKHADVHATLDRLLDALAFRFMREHYRPLAEEAARGEWDCLDYFCRLVEGEAATRQDRS
+VRRRIRLARFPVLKTLDDFDWTWPAKLNRAQVQNLFRLDFLNSRANVIFLGGVGLGKSHL
+SIALGYAACLRGFSVRFASAIDIVNNLAAARAANALKKELRKYAQPQLLIVDELGFLPID
+RLGADLLFQVIGQRYERGSIVLTSNRAYKHWPEIFHNDSVLATAVLDRLLHHAETVTITG
+KSYRMKDQQPDP
+>tr|A0A1W9LFR3|A0A1W9LFR3_9BACT
+MKRILAAVDFSPVTGDVVRVTGDLAHALHAEVRLLHVVAPEPEFVGYSPGPVTVREQMAQ
+IYREEHRQLQAIEAAMREEGSGVSSLMVQGDAAAKILKIAAEYGAGLIVLGSHGHGALHH
+LIAGSVASGVLKASPRPVLIVPAARREK
+>tr|A0A1W9LHI8|A0A1W9LHI8_9BACT
+MPPEGALHRCVTAWDAAERALLGGLAAGMVILAALQIVLRTFFRTGIPWIEPLLGIGLLW
+LTMLGALAATGQLKHISMDLVSHLLPRRPRAGVAAAVQVFAAIVCGRLAWAAYEFIQLQR
+ETETSSLLGAPVWVYTWVVPVAFGLLALRFLLHAGLAAAEAARKTPPAPARAEEGGAA
+>tr|A0A1W9LAK2|A0A1W9LAK2_9BACT
+MRTRGRTLEDEEVGQRTTSLCHLAHISIKLGGRSLKWDPATERFPGDAEANALLEGPAWR
+KPWAMG
+>tr|A0A1W9LF81|A0A1W9LF81_9BACT
+MMMKRFWPAVVAVVVGGVVAASAEPMRTLVVKEDMTPNKGHWEFGGTFGYQEITDPNSEL
+SDASYSELALYARYGLTKDFSFNVEVPIANSDFDGGSSFGLGDLVLGADLVGFEDTLGYP
+YVMPYVRLALPTGDEDEALGAGETQVKFGAAIGTTVDDDWDFILDVGFMGRSETENSFVI
+GGAVVYKFSEKFSMHVEGQLDIPRGDEFEDVGTLLGGMVYRPAEGWLVGLYGGVESGDID
+DNVIGAAKLAYAFE
+>tr|A0A1W9LC70|A0A1W9LC70_9BACT
+MVLAAGFICAVVGTVLALNHRQSKAADPLNSPVLLDLVKRAQANPVDSNLVAQVRAMDLL
+ARRAFFTSQSFAQRGAWLLLAGAVLVVASLRGIRWLQPP
+>tr|A0A1W9LBD9|A0A1W9LBD9_9BACT
+MSAVGVLGVLAFVALVAVVDFAGGYEMDVFVFYFLPVAVAAWSGSGLLAYAVAILCAFAW
+LAMDNLSGHVYQQPVNMWWNAGVRLLSFLLIAHDVARIRAHLDRESQARQEAMRELNTLC
+GLLPICASCKKIRDDHGYWRQLEHFIENHSDARFTHGLCKACADKLIREYESSPGAHPVA
+TGATSDSVRSGDAEAGREN
+>tr|A0A1W9LEY1|A0A1W9LEY1_9BACT
+MAVLFGAAVWMALAVVPLKMLPFDNKNEFQVVLDLPETATLETTDAAAREVEQYLRTVPE
+VRDFTTIVGAASPMDFNGLVRHYYLRQGANVADVRVSLLHRSKREMDSHALVLRLRNDLE
+AIGRRTGASLKIVEVPPGPPVLASLVAEIYGRDDTPYSALIAAGQTVKARMMEEPGVVDV
+DDMVEADQPRLFFELDREKAGLNGISTEAVAQTLQLALAGMPAGVVHQPSEQNELPVVLR
+LPREARTDVERLRSLAVKGPAGRLVQIGELGRFQETTADKTIFHKNQDRVVYVTAEVAGR
+GPAYAVLALQKHFKDNPPPADVRIDWNGEGEWKITLDVFRDLGIAFAAALLGIYVLLVYE
+TKSYVLPLVVMMSIPMTLIGIMPGFGLLNWIVNKPVGGFANPVFFTATAMIGMIALAGIV
+VRNGIILIDFIRTTVERGRPLREAILESGAVRLRPIVLTAGTTMLGAWPITLDPIFSGLA
+WALIFGLFISTAFTLLVIPATYNLLYGGKAAAPADAPAKETP
+>tr|A0A1W9LHD4|A0A1W9LHD4_9BACT
+MMKSASIRGWLELLRIPNLLTVPGDPLAGWALATAGAAVGIPWTVCVASVLFYAAGLLLN
+DVADVAEDRIARPNRPIPSARVSRAAAAWAAVAFAAAGLVLCFRVSPKTGFAAVELVVMV
+CLYDLWFKRLPVVGPVAMGFCRGLNVMLGAAAAPACPTTTAVLVAAGAETLYIAVVTHLA
+RRETRGGTWWTPARIGTLIGGLLWIQAAFCIAAGGAGIWIGLTLAALWLPLRALRRRFEM
+S
+>tr|A0A1W9L7X9|A0A1W9L7X9_9BACT
+MLDFQNISVALGGRPVLGDASFRINARERVGIVGPNGAGKTTLFRLIVGDLTPDGGSIQV
+PRGLRIGHLRQKGIEVAEGLSVLDFAENALPVVRGMQHEIETIEARMSAGEAGLAHVRDL
+RRLGELQSAFEHEGGYELRNRAAAALGGLGFQPGDLHRPLSEFSGGWQMRAELTRALIAR
+PDLLLLDEPTNYLDLPAVEWLQRHLRDFAGTLLLISHDRFLLNTLTNVTIEVICGRVTRY
+EGNQAFAAQQREMRWEQFEASRATAAKRREEIERFVDRFRFKASKAAQVQSRIKMLERMD
+PGEEAIAAPRGVEIRLAPPPPCGAEVMRIEDAGLTYDGERWVLRHIDLRIMRGDKIALVG
+YNGFGKTTLLRLLAGRLIPREGRRFTGHNVVPGYQSQEFAEILDPSRTVLETVKAAAPGR
+SERDLRGLLGGFFFSGDAVDKKVGVLSGGETMRLSFARLLADPPNFLLLDEPTTHLDIAA
+REALERALIGYEGTLCFVSHDVEFVRRVATTVIAMTPPGVTPYAGGYDYYREKTAADAVV
+APATPSPGAAEGADRKAGRRERAYKREEIRKMRLPLLKAVRKAEEHIAELEKEQAGLLAR
+FGDPTSVDYASVSRRLGEIRAELPLAMMAWESAGLKLQELDRD
+>tr|A0A1W9LDC2|A0A1W9LDC2_9BACT
+MLWAAALVITCILGWIDWQTGFELNFFAFYFLPVGLAAWYSGLGASVIMAVVSSVVWFEA
+NAGQVYSSPVYAVWNTIIRLSSFIAIGWSLSIIRDLLAAERKTSANLRRTLAEIKLLQGL
+LPICAQCKKIRDDHGLWQHMEVYVGQHSNAQFSHGYCPDCLKKAMEEAGLPTEPTESGAP
+PPPRARDGHSEGVR
+>tr|A0A1W9LBX3|A0A1W9LBX3_9BACT
+MKNHLSEHQLVDHLFRLDDKGSSRSAEQHLAECAECHAERDRLQQKFASLDSLRDTTEAS
+ETLIADTLRRIRLDQPARTVWFP
+>tr|A0A1W9LEE7|A0A1W9LEE7_9BACT
+MLLVVAATASAQVLESFEDVGIGYMPPVGWLKWQEAGGRGWSNSWAGRMPMPGWMSGTNT
+TPPDPDGGSRMAYVTYTHGGAKTNDLYSFDTTRPEAGWVTASNLPAIRQNLAVASVNGRV
+YAIGGGSSPLNSVATVYVYDPVRPEAGWA
+>tr|A0A1W9LF34|A0A1W9LF34_9BACT
+MKAAISIPDDVFGEGERLARRLKTSRSRLYAMAVTQFIAQHDDNKITAGMNAVIDEVGAG
+IEPFTRAAARRVMRREPW
+>tr|A0A1W9LDZ8|A0A1W9LDZ8_9BACT
+MELTLILLAGGTMLVLAVVAGQSLGWANKVFHVVVDPRIEAINAALPGANCGGCGCVGCM
+SYAEAVAAGTISPDKCTVGGVSCAEAIAKIMGVDLKPSWPYRPVVHCRAHYEQRLGRADY
+RGEKSCSGANIMGGVQLCTYGCLGFGDCQTACDYDAIHIVDGLATVDYVKCVGCGACARV
+CPRNIITMTPFKAKRIIAVGCSNQDMGKDVKAVCKIGCVGCMACSKTSPLFKMTEGRIPR
+INYDEYDPEHMDSALLAVKKCPVKNLIYVGEPTAEGLAEVADKDVPKIVQVDFKTTVDKT
+DWQG
+>tr|A0A1W9LCV7|A0A1W9LCV7_9BACT
+MSPDPAEALVVKKGVCFALYAYDVGISIDLDECKKLVASAKPDATIRHNRRAPKYFDYRP
+APLLVTEALRPPRVGRFEVSVGIDLLLYDFGGVSVSYEIPFEGSLDTLREISCELSENNE
+LLDDSRKRVEALLATIRPAVAKPSIADLAEDYAVFQVDEYESSVSPGELHTHYCQEFAGI
+LRAENHALSAQEVADALACRISFGLDDMTLIDWNAALVFDREAEDIRAVLEFANIELLEM
+RYLDHQLDDSLDQAYEVIASRKGLRRLIPGSAGASLRRVSQMQVDGAILFERVSNAPKLL
+GDQYLARVYRLASQRFHLGEWSASTLRKLDAIETIYNQINDRAASWRLEALE
+>tr|A0A1W9LEC0|A0A1W9LEC0_9BACT
+MTRVAAVAVFAAATGCAVAEDKVTLKVDYPKPMFVGTPVPAKVPNLEPAGTKPPVILVPK
+DAAVNIAKGKTVTASDALPVIGELTMVTDGDKEAADGSYVEFGPGVQWVQIDLGAASEIY
+AIAFWHYHQQARIYHDVIVQVADDADFLQNVRTLYNNDHDNSSGKGVGKDLAYVEVNTGR
+LVDAKGEKARYVRLYSKGSTAGEMNHYVEVEVFGRPAK
+>tr|A0A1W9LHE3|A0A1W9LHE3_9BACT
+DQSAQAQRVSPPFIVNGRVERPGDRDMYQFDGKEGEEVVIEVVARRLDSPLDAAIKVTDF
+AGKVVAFSDDVEDLGSGVNTHHADSYIRTKLPAAGLYYVQLADAQHNGGEEYAYRLRISQ
+PQPGFALRVVPSHIEPRSNAWGAASVHVIRKDGFTEPISLSLKDPSGMFEMGRAVLSGTQ
+TMVRVSIKAKTGEIQTPVPLTIEGVASNKNQKITGIAVPAEDRMQAFLWRHLVPAQEFAA
+LILPPPPPPPGSTPPPKPAPAGKPEPSKVASVPKPQPPKPGPPAVAKP
+>tr|A0A1W9LGA7|A0A1W9LGA7_9BACT
+DISIGADNGSSAEFDSVAPFEPVFFPATMPTSSFPYELNRSTWATQRIAFALDSATAARG
+LLLTLDVATSQLSGTLTARVEIANQAGTFNAGLVALRPSAKAYVSIPASNLWVGLNTLIL
+RSTSGVQYVRWDQIRIEPDRYTLRLAYSGTPFTIYGMWLNDPKVSGLGYNVFVSASELTN
+VYAASEAAGEWWFIVDPPRDRAAFETAVARVDAMTMELAAPVAAPSVVESLRGARARQSA
+SGRSRSEPGGGDPLPDLRDAIPYALLNDGAFLATFEQALFRQSYIVNEGRADAYGLVAGG
+LRGKGTTVYVLQMDAGGGYLRQATWDAAARPYPPVPLNAAIWLARRALNRPDAALLSAGL
+AYSPDRDPSPFLPCWSLTFDVDGTTQSVDVPQTADASGDADSDGVSDLEELYAGTDPDNP
+ASFFAVEFSQSAAADGALRITWPSTDGSTYSIYRAEDLLQGFNILRSGIPASPPSNTYVD
+SPPAPSGAYRIEAE
+>tr|A0A1W9LA88|A0A1W9LA88_9BACT
+MNPAPQDELDGLIERHFDGILDDEGHARLEASLQTSPDAALRFARAARMDHRLHRHFHRR
+QALESILARIDAIERPRVVRLQPAWLRQIREHAWGPVGAIALHAALLLFLVRWVIVTPPP
+QSGEGVEITLAEHPDRSPLDRRPVLPDEAGADALRVPRPAVDRPPPIDVEPPGAADLRVA
+FLPLDTGTAASVDPARLAHPLVAGRFGAERRRRNDLYGGAWSAAADRAASNAVAWLAAAQ
+SKDGAWRETGADDDALTSLVLLALMGRGETPVHGAHRDAVRSALQTLLGDAAGRALDAER
+AGGGWNGAGDGADPLVTAWTVEALRVASTAGVDDARLIPALRRAANALEEASNPTSGMLY
+YPAAQRREPAGLADTAASLLALQMSGNAPETRIQSGLRALDAMPAAWPGPGAPAASLEAL
+YFATRVRFNEGGGGWMKWMAALASSTVASTGSAGDSRHGGIAHTIRATALAVLILETPCR
+YPQASRWTIARATDPVRALIAQLRPHVESGWDSGMHGRSREARL
+>tr|A0A1W9LDP8|A0A1W9LDP8_9BACT
+MKMLILIGPEGRERDLRDLIARHSVHAYSEFRNVTGEGSTGRHLGTSVFPGRSAVIFTVV
+PAEKMVELKAALAEFRKTLYADEGLRAFVLPVEEML
+>tr|A0A1W9LA45|A0A1W9LA45_9BACT
+MIAVDRAGDGLFLGVGDLLGADSDGDASPDVPPGTPVWARVFPLPDTTGGAPLDLTVEIR
+GDDGTWRVTGHDRIVDFGVPAVPVAR
+>tr|A0A1W9LFC4|A0A1W9LFC4_9BACT
+MSTYIPTGNEYLSFPTLRQEDGAIESLNVALMKLDGLLEVCGVGDEPLIACPGMQKEAGR
+WNWRFRENWIPEFENTRHPALRGIFCAPPGERFAFYRVPHLGHGPDFRISVGEVYQTANI
+RHRLPKCDFVIRMFGWAFEVGLVIDIYAGSLLASLSFRCPGDAKYFFEGEHGREELVPHQ
+SQITTSGPFSIGIECKGDPMLVIGANLSTVGAMSAGLEVPRVPADEWLRRAEDWLRARHV
+SVPGDAVLETKANRNGHFARFFAMAKTLDTGEVVSMTSRSHRYYVSSAYWDRDSMLWLYP
+FLVRNDKAHGEALLRYAFGRQLADAGIHSRYISGGVLEFGFELDELLAPLVALAGWNRLY
+PKDALWEEPAIRAGTLSLIERLKRWRREAFGLYATELMPTDDRIEGGSDLLTYDNALVVH
+VLENLQPILEKIAPPTAAWAKSEAAAVRAAVRKHLVRDGMFVWGMDAQGNTEIYDEAAGS
+LTLLPYYGFCAKDDTAYRSTVAYLYSSKYPYLRSGPFSELGNRHTGTPHPWVLSACNSVL
+SGVRVKEGLDFLRRAPMDNGIACEAVNLSTGAPETGLHFGTCAGFVAHAIVTGCGCEPVG
+SDQ
+>tr|A0A1W9LB91|A0A1W9LB91_9BACT
+MVSLRQPALRATGLGLALLAAGCATENPNLVRPLKQSELRSFFSRAKDPRRFWITVYVSE
+QGPVFAGANRVHRAQVVKLPFQPEQTPILLFQTAAEASMPVVKFDLGRDEAFLALLDTTS
+TRNWLDFGLAQKFDVLPIGPPAISDTPMHVQDAIPGYASVAGKLRFNQLNVESAVLYTRA
+AHGPLGPLARRKEKPWPQLVVGTDLLKAFQFVQLDYPNRRAVFSATAGYAPEPDALIATV
+TLHDIQGTFAAQGTINGQARTFILDSAGDFEVAMPSPPTNHVLRQVTVGDLVFRQVTAVS
+SASQGLGLQKYPRIGRRLLCRFRVTIAPGQRKVFFEKPGPK
+>tr|A0A1W9LDE8|A0A1W9LDE8_9BACT
+MSSLARAVPAMLAATWLAVATSAQGHGLSTASAAGGMGVVAAYDDGSPVPYADARLFAPG
+QDGKPILTGTTDRNGCFMFRPDTAGVWRISIDDGMGHAVSADVVSGGVSSEAAVSSRMPK
+TQGVLIGLAVIFGVFGWGAYLRLRAARG
+>tr|A0A1W9LDX5|A0A1W9LDX5_9BACT
+MPVLAAGLAAVMVCAVLHIWDPPFLRALSHQAHDILLRGRAAPPQSGAVAVVDIDEASLA
+AVGQWPWPRVLLARLTDRLWQAGASVVVYDAVFPEPDRTSPEQIRALWSRISGAPVDLGA
+SATLESFDAQFAAALGRGRSVLGCFLERCAAPAASVPDASDGYTGRFFERNMESRALLPQ
+SDAIVHSLPVLASAASGAFFNTTPDGDRITRRTPLVWAHGPNRVYPSLALDAVRLHLGLR
+QAALVFDAETGTRIREIRLRDLAIPVDHNGRLVLNYRRGRFPSLPAASVLDGTFDPALVS
+NRIVFVGTSAAGLKDLVATPLESEFPGVEVHATAVDNILAGDALREQSWFFYVTLAGILL
+GGGLVTVATWRLRSGAALGVTVAAIAATLGTATAMLRTHNLVLSPAATAAACALAYSAAT
+AVRYGQEERDRRRVRAMFGTMVSPEVLRYMEDHPGSFTLAGERRVVTVLFSDLAGFTGIA
+EQLEPRRLSELMNRVMTPLTETVLARKGMVNKYVGDAVMAVWSAPFDMPDHAAEACRAAI
+EMQQTLDALRPGLQAEYGCDVRMRIGVNTGPVTAGNMGSSRRFEYTVLGDTVNQASRFEA
+ENKVHGTRILAGEATVAAAGPSVASRRIGSVTIRGRAAPVDVFEILETRSADLKPPARP
+>tr|A0A1W9LG52|A0A1W9LG52_9BACT
+MSHDMRFSWRAALRRGRAECSRVARADRGKVGVPCFPVAHSSALQQPCVRPRMDRRIGIM
+AVAPARGMDSHDREE
+>tr|A0A1W9LGE7|A0A1W9LGE7_9BACT
+MTDARPFDKEPLMKKSLVMLAALAAAFAAVAAPPPRAMSVQVRSGQVRATASFLGKVVAN
+LPYGTPVEIVQPSKPWMQVRTADGAAGWMHESALTVERLQLKAGTANAQAGTSANEVSLA
+AKGFTQQIEKEYRSQNPTLDFAWVDRMESFRVSAAEAEAFLAAGRVAHTSGGSK
+>tr|A0A1W9LCR9|A0A1W9LCR9_9BACT
+MRVFLDSSVILAAGGSASGASRAVVEWAPSNRWILRTSDYNRVEVERNLPKLGAAARRAW
+AERILPRIEVVPTAPLVAGEWAERIPAKDLPVVLTAVADASDVLLTLDRKDFGPLMKSPR
+SGLRVSTPGDFLETCRRSPAGLVQK
+>tr|A0A1W9LGP3|A0A1W9LGP3_9BACT
+MSHAYSYSIPHGRLEWFFGAGSIERMNTRLMAIVAASATAGVVAAQSAGDASAGSAPDPL
+ASVDEAVGRIRSSYEEIRLRFADKERQLRQAIVAQQAAEARCGATETMLKESEADRKGLR
+ERAQRLEDELSRARDSIAGLSKTIAGIEEQVAAAQRETRHVAQERDSFHAAAESARDRMV
+DAERERDRARASLAGLEARLKDLVAGAVVSSPGPVLQSAHPPSPAPEPSVRPAPVIAQKP
+ALEIAPPPAAEPPASMVTPAPGESEAAPVRTAAPAVPQAILTGTPPMGTSGPPATASAPP
+AVTAAPPAIVVAPPASTTAAPVAVIAPPPATQAAPQVAPSPPPPVTLIAPSAGVAVTNAA
+ASPAAMTEGTERILADASSAFDSGDWARARTLYQRVLTDDPSDPVASVGLTEVLMETGET
+REALRRAKVLLAADPDSAHRLFLAGRAATRNGENDEALSLLERAMAAAPGNPDVKRELAA
+VLFDLHRFREAAETFVSATRLDPKDGESWFNACAALLMTEPAPMKQALEYYEKALSLGEP
+RDERIEKRFRPEPSLAAPR
+>tr|A0A1W9LH92|A0A1W9LH92_9BACT
+MNLKAKKRMAAAVPRVHFKKGDTVIVLSGEDKRKTGKVLQVLPGSGRALVEGIRMVKKHM
+RKTQDNPKGGIVEKEAPLPVCKLRLFDPAHKAAGKTA
+>tr|A0A1W9L8Q2|A0A1W9L8Q2_9BACT
+MRKLLWIVLAGAVAVGLMAGCASTEKSKGGKCPAQPEAKAKCAKPPCCKGGKCMMLKGIK
+LTDEQKAKVKAMHEKCMAAGCTEESCKAMMDEMKTVLTPEQAKQCEKNCKKMMKKDCCKP
+KAQAEKVDKKVEKKVKKADDMGDKE
+>tr|A0A1W9LG56|A0A1W9LG56_9BACT
+MADDRTSDAAWMDLALDLARRGEGLTRPNPPVGAVVVRGDRVVGQGWHRRAGGAHAEVFA
+LRAAGAAARGATLYVTLEPCCTQGRTPPCTEAILAAGVRRVVVAVRDPNPAHSGRGLRRL
+RAAGVDVAVGVRGAEAGRLIEPFAQWIHRGEPWVVLKLGMTLDGRIADADGVSQWITSPA
+SRAVVQAERHRSDAILVGVGTVAADNPSLLPRPARGRRPWRVVVDPRGRTPPTARLLNDG
+AAVQTLIAVGPGCDPARAMEFLRRGASVAVVEDQAGGRLSLRALLGHLGGLGILRVLCEG
+GAELAASLVEARAADELLLFYAPLVLGGRAAAPAFGGAGRRLEDALRFRVMETGRAGPDV
+IVRARPE
+>tr|A0A1W9LCC2|A0A1W9LCC2_9BACT
+MKAPASHSVTRREWFRAAGRSAALAAMALPVGRALRDRGRDAAPVCPEGSPCGRCAWLAT
+CTKPAARDARPATVTVFPGGSRHGG
+>tr|A0A1W9LH40|A0A1W9LH40_9BACT
+MLALATNLQGSVEAVGRLDFERAAALAGSVAEATNAPPHLVEASRILRARANLRAGRTPE
+AAKDLEWVRANGVSDGLRAEAAGEMKKIGVAPGRSSRIVRTPRREWSAIGILLARGEEEA
+ALQRVQGPLRRIVDACRGLAPVVAGEAPRVGAGLAWIMNEWQGAKLAETLEGDTATLALD
+RNGLRATLAARSTGDMWIFHDIVSLERLEDAAPADAPPAAAAVAAAGPNAQIAIQIAGGN
+AMAFGGGGIAVINGQVIHLGGDVAGDVRIRVDSVQAAQAAALTNAPPPTEAQRGEIEALI
+KDLGSAQAVTRAAARTRLRQMGPSAYGVLKEHRADADVEIATTVRELLGE
+>tr|A0A1W9LAW8|A0A1W9LAW8_9BACT
+MAPAAGGRRIKLLRCPSLLYNYSGIPPFGIATITAMLRQHGYPVDPDDLDAKCAGTLFPL
+HRWGKQFPARTLMQDIPRLRLHWAGTPDPEVDQLVDRVLDRTDLHEYDTVLLSCVEGDDV
+GAALALCLGQRLKRQGRLVVMGGEAYPHMQPIKDDFKWFSTQGCFDFYIQGYGELPLVEL
+FRCLDGGRPVEDVPGLLSLNAGGEVRENAPVFLRPEVLPDFDGLPMSLYGKRVGATGNEL
+VEDPAADKMLILPIKLNYCCPMRCAFCISSGRAFSKVTSMAPQALVEGLRRLRDRHGASC
+FIFYDDVFNHTLAFAHQVADALIEADLGLLWSDCAHARHVDREVLGKLYRAGARRLVWGL
+ESASPAMLKRVNKSLRVEELEQVLRWSHEAGIYNGIELIAGLPHETDEEIEMTVDFLLRN
+RPWIDQVFLNPFSLITGSLMHMDPEKYGIANIRKLGTLFDRTPGQTYSWIQRYTFDELGG
+LAWPEKAKQIERSYQRIHQVEMELGMGGHDLYTIFLAYTRTGSKQEIQGFQSGRRHYSFD
+FFGDAGKAHNQSRQE
+>tr|A0A1W9LEG0|A0A1W9LEG0_9BACT
+MPRLVAEVRSLVRSARHAAASTVNTLQVLTNFQIGRRIVEHEQKGEKRAEYGAELLKELS
+ARLTEEFWDGFSPVNLSYMKRFYLLWRGRVAIFQTPSENSVVGAISQT
+>tr|A0A1W9LCD2|A0A1W9LCD2_9BACT
+MSIVGQPEGGAVNIKHLAAAGLMLMGLMILVGCSTPASRIEQNKALFNTFAPDVQASIRQ
+GKIDIGFTRDMVFMALGKPDRQYSRTTEAGQSEIWSYVELYSTTRRQRVDGPFRVRDPQG
+GYRTVSESLWVDVDEQHEYERLRVEFEGHRVRAIENVTR
+>tr|A0A1W9LCL5|A0A1W9LCL5_9BACT
+MNTVLIGAQWGDEGKGKVIDVLTDRADWVVRYQGGNNAGHTVEIGGTRYVLHLVPSGIFR
+ERTKCVIGNGLVVDPVGLLEEIREVREAGFGVEGRLFLSDRAHLVLPYHRALDAGRERTL
+SDGERIGTTQRGIGPAYVDKAQRTGIRAGAMRLPEFPDMVRARVEDANLRLAAQGQPVLD
+ARDVVARAVAAARDLAPLVADTVDLLHGAMARGESILFEGAQGTMLDVDFGSYPFVTSSS
+STAGGAAIGSGVPPHRIDKVIGVLKAYTTRVGEGPFPTELLDATGEKLRAVGREFGATTG
+RPRRCGWFDAVVGRYSARVNGIDVWALTKLDVLDGFDTLRICTAYEADGRRYETVPADVG
+ALSRCRPVYEDWAGWKTPLRGAAALSDLPAAARAYVARIEELTGVPVEILSVGPGRENTI
+QIDLKGSRG
diff --git a/Exercise11_files/Problem1/finalhmmout.txt b/Exercise11_files/Problem1/finalhmmout.txt
new file mode 100644
index 0000000..6c122d8
--- /dev/null
+++ b/Exercise11_files/Problem1/finalhmmout.txt
@@ -0,0 +1,104 @@
+MICC sigma.ref 4.9e-23
+MICC sigma.ref 4.5e-21
+MICC sigma.ref 8.2e-16
+MICC sigma.ref 3.1e-15
+MICC sigma.ref 3.3e-14
+MICC sigma.ref 4.5e-13
+MICC sigma.ref 7.4e-12
+MICC sigma.ref 2.5e-11
+MICC sigma.ref 2.6e-11
+MICC sigma.ref 9.9e-06
+BACI sigma.ref 1.4e-24
+BACI sigma.ref 7.6e-23
+BACI sigma.ref 5.9e-22
+BACI sigma.ref 3.4e-20
+BACI sigma.ref 4.8e-19
+BACI sigma.ref 1.8e-18
+BACI sigma.ref 3.4e-18
+BACI sigma.ref 4.5e-18
+BACI sigma.ref 6.4e-18
+BACI sigma.ref 3.9e-17
+BACI sigma.ref 1.2e-16
+BACI sigma.ref 1.8e-16
+BACI sigma.ref 1.8e-16
+BACI sigma.ref 2.4e-16
+BACI sigma.ref 4.3e-16
+BACI sigma.ref 4.9e-16
+BACI sigma.ref 1.2e-15
+BACI sigma.ref 1.2e-14
+BACI sigma.ref 3.7e-14
+BACI sigma.ref 3.7e-13
+BACI sigma.ref 9.6e-12
+BACI sigma.ref 2.7e-11
+BACI sigma.ref 1.6e-09
+BACI sigma.ref 5.8e-09
+BACI sporecoat.ref 5.9e-35
+BACI transporter.ref 1.8e-06
+CLOT sigma.ref 1.1e-23
+CLOT sigma.ref 1.7e-23
+CLOT sigma.ref 6.7e-21
+CLOT sigma.ref 6.7e-14
+CLOT sigma.ref 1.8e-13
+CLOT sigma.ref 9.4e-13
+CLOT sigma.ref 1.9e-11
+CLOT sigma.ref 2.8e-11
+FLAO sigma.ref 8.9e-18
+FLAO sigma.ref 9.4e-18
+FLAO sigma.ref 1.2e-17
+FLAO sigma.ref 1.5e-17
+FLAO sigma.ref 2e-16
+FLAO sigma.ref 4e-16
+FLAO sigma.ref 2.1e-15
+FLAO sigma.ref 7.6e-15
+FLAO sigma.ref 1.6e-13
+FLAO sigma.ref 2.2e-13
+FLAO sigma.ref 7.7e-13
+FLAO sigma.ref 9e-13
+FLAO sigma.ref 1.6e-12
+FLAO sigma.ref 9.3e-12
+FLAO sigma.ref 1.1e-11
+FLAO sigma.ref 2.2e-10
+FLAO sigma.ref 3.2e-10
+FLAO sigma.ref 7.6e-10
+FLAO sigma.ref 1.3e-09
+FLAO sigma.ref 3.7e-08
+FLAO sigma.ref 5.5e-08
+FLAO sigma.ref 2.2e-05
+FLAO sigma.ref 5.2e-05
+FLAO sigma.ref 0.00041
+FLAO transporter.ref 3.5e-09
+BURK sigma.ref 5.8e-22
+BURK sigma.ref 1.3e-17
+BURK sigma.ref 6.4e-17
+BURK sigma.ref 4.7e-14
+BURK sigma.ref 1.9e-13
+BURK sigma.ref 3.7e-13
+BURK sigma.ref 3.2e-05
+BURK transporter.ref 2e-09
+RHIZ sigma.ref 6.4e-22
+RHIZ sigma.ref 7.4e-22
+RHIZ sigma.ref 7.2e-19
+RHIZ sigma.ref 1.4e-17
+RHIZ sigma.ref 1.6e-17
+RHIZ sigma.ref 5e-17
+RHIZ sigma.ref 3.4e-16
+RHIZ sigma.ref 7.9e-16
+RHIZ sigma.ref 2.6e-15
+RHIZ sigma.ref 2e-12
+RHIZ sigma.ref 5.4e-12
+RHIZ sigma.ref 5.5e-12
+RHIZ sigma.ref 1.7e-08
+RHIZ sigma.ref 4.5e-06
+RHOB sigma.ref 5.4e-22
+RHOB sigma.ref 1.2e-18
+RHOB sigma.ref 2.2e-18
+RHOB sigma.ref 4.7e-18
+RHOB sigma.ref 4.8e-18
+RHOB sigma.ref 3.7e-16
+RHOB sigma.ref 7.7e-14
+RHOB transporter.ref 0.05
+BACT sigma.ref 2.8e-22
+BACT sigma.ref 3.5e-20
+BACT sigma.ref 5.6e-18
+BACT sigma.ref 2.1e-14
+BACT sigma.ref 5.1e-14
diff --git a/Exercise11_files/Problem1/sigma.ref b/Exercise11_files/Problem1/sigma.ref
new file mode 100755
index 0000000..fa325f7
--- /dev/null
+++ b/Exercise11_files/Problem1/sigma.ref
@@ -0,0 +1,454 @@
+>Q9RKV3_STRCO/2794
+MAERHRLLSLAFRMMGTLADAEDVVQETYVRWYRLEPEERDSIAVPAAWLMRVASRISLDLLGSARAR
+>Q9X8P3_STRCO/1176
+QFELDRPRLRAVAYRILGSLGEADDALQEAWLRADRANTSEVGNPSGWLTTVVARVCLNLLRARDT
+>Q9RD74_STRCO/34100
+RFEEHRGQLKAVAYRMLGSLAEAEDAVQEAWLRLDRSEADGIDNLGAWLTTVTGRICLDLLRSRTAR
+>Q9EWW4_STRCO/775
+PVTGERRQLINVAYRMLGSLTDAEDAVQEAYARWYAMPADRREAVGSPGAWLTTVVSRVCLNHLRSARV
+>Q9RJS2_STRCO/1179
+TVGERRQLINVAYRLLGSLAEAEDAVQEAYARWYALPRSRQEEIVSPGAWLTTVTGRVCLDALGSARAR
+>Q9RDI5_STRCO/3096
+AFVTHRNLLFTVAYEMLGSAADAEDVLQETWLKWAGVDLDTVRDRRAYLVRITTRQALNRLRTLGRR
+>Q9K3H7_STRCO/974
+VFEEHRPVLLGVAYRMLGRLADAEDVVQEAWLRWSGADRAAVREPRGYLVRVTTRLAIDRLRQVKS
+>Q9FBZ0_STRCO/38103
+VFARHGPRLFRIAYGMLGSTTRAEDVVRDVRLRWQATDRAVVADPQAYLTTATTRLSIRAALSART
+>Q9FBU7_STRCO/3296
+LAQRNRLFRIAYRIVGDAAGAEDVVQEAWVRWQLTDRAEVKNPVAFLTTTTTRLAINVIQSGRRR
+>Q9FC81_STRCO/1181
+VFVELRPRLFGIAYRVLGSAVEAEDVVQEVWLRWQRTDRTLVISPVAFLSSTTTRLAINVAQSARVRRETY
+>Q9FC74_STRCO/1786
+FLSARPQLFGIAYRVLGSAAEAEDIVQETWLRWQSTDRSKVHEPTAFLTTVATRLAINVAQSARVRRESY
+>Q9A3D8_CAUCR/773
+IFETRRRAMTGLAYRMLGSRAEAEDVVQDAWLRWRGVDVSEVQEPAAFLSRVVTRLALDRLKSARAR
+>Q9RJ06_STRCO/1682
+RFEASRNRLASLAYRLLGSATDAEDAVQDAFLHWQSADRQQIKVPEAWLTKVVTNLCLDRLRSAQAR
+>Q987X4_RHILO/1379
+GFAPLRPKLMRVAYRMLGSVADAEDAVQEAFIRWMKADRSAVREPEAFLRRTVTRLCLDQLKSARHK
+>Q9KF25_BACHD/773
+DYEQLKPLLFSLGYRLLGSVTDAEDLVQETFLRAYQAEEREINNKKAYLCKMMTNRCLDVLKSARRK
+>Q9AK31_STRCO/1381
+ALEKHRPELTGYCYRMLGSSFEAEDAVQDTLVRAWRSYDKFEGRSSLRSWLYRIATNVCLDMLTAGNKR
+>Q98IZ0_RHILO/2795
+LTTTHRRALKLHCYRMMGSLHEADDLVQETFLKAWRGRAQFDGRGSPRGWLYTIATNACLNAIKARSSA
+>SIGG_MYCTU/63129
+EPYRRELLAHCYRMTGSLHDAEDLVQETLLRAWKAYEGFAGKSSLRTWLHRIATNTCLTALEGRRRR
+>Q98JN1_RHILO/2491
+TVSHLRVRLHRYCARMTGSALDGEDIMQEALFEAYRKIGLLDDTQALRPWLFRIAHNRCIDFIRTRRT
+>Q98IS5_RHILO/1986
+LAAALRPELHRYCARLMGSVIDGEDVVQDTFARAFVALDELCAVPQLRPWLFRIAHNRALDLLRSRAT
+>Q98KG8_RHILO/2896
+LFAELRPKLHRYCARMTGSVFDGEDVLQETLAKAIEALPGAGPIANPEGWLFRIAHNAALDFLRRRARE
+>Q9A4S9_CAUCR/2796
+LLDRRLPRILALARRMLNDAGEAEDVAQETFLRAWKQARSWKPGGARFDTWLHRVALNLCYDRLRRRREV
+>Q98BR7_RHILO/2897
+LVARKLPRILSLAVRMLGDAAEAEDVAQETFVRIWRHAASWRRGNARFDSWIHRVTLNLCYDRLRRRREQ
+>Q9XAI9_STRCO/37103
+TYRAHYRSLLGLAALLLDDTASCEDVVQEAFIRVHSARKRVRDPEKTLAYLRQTVVNLSRSALRRRI
+>RFAY_XANCP/2896
+IVTACQNTVTAIALAITRDVAASEDIAQEAFLRAWQRLAQLHQPASFLPWLRQITRNLARDWLRSHRHR
+>Q98L14_RHILO/3199
+LLERHYDFVYRAAYRWCGKKADAEDIAQEVCVRLGKAIRDYRGGGAFTTWLYSVTMNAARDMMRKTARE
+>Q9KCF6_BACHD/2087
+LIELHLKTVEKFAFQLGVSPFAVEDISQEVFIKVYRFLHKHDRGKFTTWLYSITLNVVRDHYRKEQRL
+>P73744_SYNY3/1683
+LYRRYQAKVRSTLYQLCGQHQLDDLVQEVFFKVWKGLPKLRNHNFFATWLYRITWNVAQDARKQLGRS
+>Q9WWP4_SYNP2/40107
+LYRRYHQKVRSTLYQLCGVALLDDLVQEVFLKAWQGLPRLKNPDYFATWLYRITWNVATDQRRRFAKQ
+>Q9X1T4_THEMA/2188
+LYREFAPKIGSIAKSFLNTDDVDDVVQDVFLRIFKGIKKFRGDSKLSTWIYRIAVNVCKDYLQKYKKR
+>Q9I2W5_PSEAE/876
+LMRRYQRTLFNVCARYLGNDRDADDVCQEVMLKVLYGLKNFEGKSKFKTWLYSITYNECITQYRKERRK
+>Q9PBA5_XYLFA/2997
+LVRKYQHRVIALIGRYIADWSECQDVAQETFVRAYRGICNFRGDAQFSTWLHRIAVNTAKNHLAARNRS
+>Q88MZ1_PSEPK/2593
+LVLKYQHKILGLIVRFVHDTHEAQDVAQEAFIKAYRALGNFRGDSAFYTWLYRIAINTAKNYLVSRGRR
+>Q9CK45_PASMU/2592
+LVSRYQNKVAGLLTRYVSQNDIPDVVQESFIKAYRSIDSFRGDSAFYTWLYRIAVNTAKNYLTAQGRR
+>Q1Z4B2_9GAMM/2593
+LVIKYQNKVCNLVARYVSNSGDVPDVAQEAFIKAYRALPTFRGESAFYTWLYRIAVNTAKNYLVAQGRR
+>Q9HYV8_PSEAE/2491
+LVGAYQGAMRAVAWAIIGRSHTEEVVQDAWLAAVRGLDGFQGRSSLKTWLLTITANTAKSRLRQVRRE
+>Q983W6_RHILO/1886
+IIKTHNQRLYRLARGILRNDAEAEDVVQEAYVRAFANLAAFRGDASLATWLSRIVINEALGRLRKRRRT
+>Q9FBL1_STRCO/41108
+IVSTHSGRVYRLAYRLTGNQHDAEDLTQEVFVRVFRSLSTYTPGTFEGWLHRITTNLFLDMVRRKQRI
+>Q73WV3_MYCPA/84150
+LVRQHADRVYRLAYRLSGNQHDAEDLTQETFIRVFRSVQNYQPGTFEGWLHRITTNLFLDMVRRRSR
+>P73431_SYNY3/54122
+LLRRYQSHVDKILYHLAPDWQDRADLAQEVWIRVYRNIHRLNEPVKFKGWLSRIATNLFYDELRKRKRV
+>Q9RXX5_DEIRA/65133
+FISEYEGRIYGYLYRLEGNSEDALDLTQEVFYRAWRSIRTFRPGERVLPWLYQVARNTQIESHRRKQHA
+>Q97E49_CLOAB/2290
+LFHLYEKYLYNLCYGYTQNTSDAMDLVQEIYIKVFKNIKNFDENLPFHPWVRKISVNTCLNFKRDNRGN
+>Q9KBA2_BACHD/2189
+LVMAEKDRYYRLALTYMGNPHDAMDAMEDMIVTLYETIDQLQKEDAFYSWSNTILVNRCKRMLSKQQKL
+>SIGV_BACSU/1482
+CITDHKQDFYRLAFSYVKNQDDALDIVQESIKKALSSVETVRNPETIKSWFYKILVRTAIDFLRKQKKI
+>Q9KF66_BACHD/1987
+LVEKEKDKLYRVAFTYVRNEHDALDVVQEAVVKGYEAYDRIKHLDYFSSWMTRIVINTAIDLLRKGKDV
+>SIGM_MYCTU/39105
+LFRRHHRQLHRLARLTSRTSEDADDALQDAMLSAHRGAGSFRYDAAVSSWLHRIVVNACLDRLRRAK
+>Q9S6U3_STRCO/3097
+LVRRHRDRLWAVALRTLGDREEAADAVQDALVSAYRAAHTFRGQAAVTTWLHRITVNACLDRARKAAS
+>Q98FN0_RHILO/1279
+LLGAIPSLRAFAVSLTQNADKADDLVQETLVKAWDKHESFQPGTNLKAWLFTILRNEFYSQMRKRGRE
+>Q9A2T1_CAUCR/2390
+LVTLIPHLRAFARTLTGDPTAADDLAQDAMMKAWDARASFQLGTNMKAWTFMILRNQFYSEKRRSWRQ
+>Q9A4F1_CAUCR/1380
+LIALIPHLRAFARSLCGNAAMADDLAQEAVAKAWASRGSFTMGTNMKAWTFMILRNQFYSDKRRSWRS
+>Q98MW7_RHILO/1683
+IIGQLGSLRRYAQSLTRDSADAEDLVHDALVRAYERRGTFRSGGNLRAWLLSIVHNAFIDRMRSRRSE
+>Q985A0_RHILO/40107
+AILGEIPRLRRYARSLLRDRDSADDLVQDCLERALMRLDNWQTGESPRRWLFTIMHHLFIDQMRKVNR
+>H7C6G3_BRADU/871
+VEPLIPALRRYARALVRDRAAADDLVQDCLERAVGRWHQRRDGSVRAWLFTILHNLAVTQFRQT
+>Q9A9J9_CAUCR/2087
+EILPLEPDLLAYARQFCRDGQTDPEDLVHEAFARAIACKTWREVGNPGAFATRILRNCALDALRRRKV
+>Q9L1B8_STRCO/570
+LVTSLRPLLTAEASAEAYASGAEPGDLEQAVWLRLLERLEADGPPPDPHRWLRSAVRTEARRTRRR
+>Q9A394_CAUCR/1182
+WLAPHLPMLHRTARAFAEAPDQHDLLQELTVALWRARPSFRAESAAGTFAHRVAHNAALTWKRGEVRRRLRG
+>RPOE_STRCO/1073
+YVRTRQDALLRSARRLVPDPVDAQDLLQTALARTYGRWETIEDKRLADAYLRRVMINTRTEWWR
+>Q9ADQ0_STRCO/164
+MKARQPVLLRTARSLTANPSDAEDLLQTALTKTYVAWERIEDHRALDGYVRRALLNTRTSQWRK
+>Q9K650_BACHD/675
+LYEELKQDLYRFARTISRNEQEANDLIQDAMEKSLRCTELLDWPRHKQKAWFYRVMKNQLIDIRRKEKRE
+>Q9K7Y4_BACHD/2184
+FYEMKWYCKRLTHNKWESEDLFQDSLIKIYLAMKQQPDRKMTKTFFYRIIKHTWIDRKRKRQLQ
+>Q9K6U3_BACHD/2391
+LVEDVGLDLWRFCRYLTGSPWDGEDLYQETLVKAFGSLYQRWQPTNPKAYLFRIATNTWIDQCRKAKRI
+>Q9K889_BACHD/672
+HLKQLHDTVSRYCLFVTKSTWDAEDLAQETWLKAIETLKKQGHQNPEAFLLRVAKNQWIDQSRKKAV
+>H8MR61_CORCM/1983
+ALAHLDPLYSAALRLTKNERDAEDLVQDTCMRAYRFFDKFERGTNIKAWLFKILTNTFINRYRRK
+>Q98FE8_RHILO/1380
+VVLPHLGDALALARWLTGNAADAEDVVQDACIKAHAGISGYAGGNARAWLLTIVRNTSYTWMARNRPR
+>Q9KT60_VIBCH/3098
+LVRAYHRDLYRYAYWLCKDRSIAEDLVQETCLRAWKSLDSLLDEKAAKAWLITILRRENARRFERKQFD
+>Q9RKI2_STRCO/31101
+FAAYVLPEVEVLLRVAMTLTAQPADAEDLVQDTLLRAYRAIDRFDGKHPRAWLLTIMRRAEINRHRRRRPH
+>Q9K2W6_STRCO/42108
+IFQHQDRLMRLVRRRLPSFQDAEDCVQETMARAAAHAALDRNRLGAFLTSVALRLCIDFYRDMERRS
+>Q9I6Y3_PSEAE/1382
+LLKAFLAQRQRMESLVSRWVGCRATAADLVQELFLRFWRRPAAPVEELGSYLLRSARNLAIDHLRGEGSR
+>Q9L0W8_STRCO/1277
+LFAALYPRLAGWCRRLVDDDETAHEIASEAFTRLWARWTSVEEPRGFLYVTAANLVRDHWRKLERE
+>Q9I444_PSEAE/1278
+AYQAFHGELLRFLRKHLGSSADAADLAQDTFAQWLKWPGRQSVEQPRAFLFQIARNLLRDHWRRQQS
+>Q9HXB4_PSEAE/1582
+LYSDHHHWLTGWLRRRLGCPQNAADLAQDTFVKVLVSRQAARIDEPRAFLTTIARRVLCNHYRRQDVE
+>Q9I265_PSEAE/1481
+MFQNDYSWLSGRLRRYLGCPHSAEDIASETFLKVLALPDPASIREPRALLTTIARRLMYDGWRRQDLE
+>Q9I222_PSEAE/1582
+LFQQNYDWLCKKLSYQTGCSHSAEDLAAEAFLQVWMLPDPASIRSPRAFLATIAQRLMYESWRRKDLE
+>FECI_ECOLI/1683
+LYGTHHGWLKSWLTRKLQSAFDADDIAQDTFLRVMVSETLSTIRDPRSFLCTIAKRVMVDLFRRNALE
+>Q9A4W8_CAUCR/2691
+AYLRHLDWLTALLARRYPQDADDIAQDTWLRVHDYRPPRPVRSPRSLLARIALNLAASRFRKSSRE
+>Q9I2J2_PSEAE/1582
+LYQDHHGWLQGWLRRRLGCAENAADLAQDTFARLLASRRVLDAREPRAYLTTVAKGLMINWFQRQSLE
+>Q9I114_PSEAE/1784
+LYSEHHGWLQNWLRGKLGCAADAADLAQDTFLRILLKRELREIGMPRAFLRTIARGLVIDHWRREELQ
+>Q1D507_MYXXD/1581
+LFARHAPRVQGFLARMVRNGALAEDLLQATFLSVIRSRGRYEPGTRFIPWLMTIAANAARDALRHQR
+>Q9HYJ5_PSEAE/1380
+LFLRHARQLQSYLLRKTRDPHLAADLAQESFLRLAEQRHKEPIEHVDAYLYRTAHNLTIDHYRQERRR
+>Q9A965_CAUCR/773
+LRAQRRDLYQFIVRRTRDPATAEDLVQETFERLLAYGQAKTIVDRAALGYGIALNLVRDHFRLAQRR
+>Q9KPR4_VIBCH/32100
+VFSYYSPKLKQFVMKHVGSEQVALELVQETMSTVWQKASLFDGQKSSLATWIYTIARNLSYDLLRRQKG
+>Q984A3_RHILO/58127
+LFGFYAPRLKAFLKRSGMTPSAAEDVVQETMLLVWKKASYFDPGRAGVSTWIFTIARNARIDRLRRESRP
+>RPOE_RHOS4/2997
+LFQHFAPKVKGFLMKSGSVASQAEECAQDVMATVWQKAHLFDPSRASVATWIFTIARNRRIDGLRKDRQ
+>Q9AAF3_CAUCR/45114
+LFAHYAPRVKTLLVRSGSTPSAAEELAQEVMLAVWRKAHYFDPKRASAAAWIFTIARNLRIDSLRRGSSA
+>Q9X8Z1_STRCO/2188
+FYAESVGRLIGHLYAMTGDLAEAQDVVQEAFARAWERRTELDLNGAPEAWVRTVAWRLAVSRWRKVRT
+>SIGL_MYCTU/1885
+LYDEHAAVLWRYALRLTGDAAQAEDVVQETLLRAWQHPEVIGDTARPARAWLFTVARNMIIDERRSAR
+>Q9L1U1_STRCO/36106
+LYREHAGPLLAYVLRLVAGDRQRAEDVVQETLIRAWKNAGQLNRATGSVRPWLVTVARRIVIDGHRSRQAR
+>Q9RCW8_STRCO/2394
+LQREHGRPLFALLLRLSDGDRQRAEDLVQETLVRAWQHPEALRADDFDSVRPWLLTVARRLAIDARRARQAR
+>Q9A7S1_CAUCR/32100
+LVRRHGSTVRGLLRRLGADAATADDLAQDAFMTGFEQVAEFRGEGTFGAWIKKIAARLYLKRVKREARL
+>Q9A7S4_CAUCR/2086
+LVAIHEKPLRGFLRKSGWIDADDIAQEAFVAAWSDLPRLRDDAGFRAWLYGVAWKKALSQRRGAQRA
+>B2HD19_MYCMM/33104
+LETIRPIVVRYCRARVGTVERSGLSADDVAQEVCLATITALPRYRDRGRPFLAFLYGIAAHKVADAHRAAGR
+>CNRH_CUPMC/2592
+LVARHGVALAQAARSFGIPETDVDDVVQDTFVAAWHALDDFDPDRPFRAWLFRIGLNKMRDLYRFRRV
+>Q98G46_RHILO/2796
+FLHRIAALVRGFVRRKIVQGGVDPEDVVQETLLAIHVKRHTWRQDAPVLPWIYAIARFKLIDAFRRRGRR
+>Q9A3F1_CAUCR/2794
+LALLGVRLRAYFMRRMSGAPGDVEDLVQETLLAVHLKRSTWDSAQSFTAWAHAVARYKLIDHWRRRKI
+>Q38033_BPPHC/30105
+TDSRVVALARKAAQRMAPHGGARFADWADEFTQVGRVAVWDCLKRFTDTTVDAFERYVYATVDGTLKDAVREERNG
+>Q9CP51_PASMU/476
+ISSEELETIRGQMLKFATLQLKDPILAEDVVQEAFVSALKNIESFKRQSALKTWIFAILKNKIIDYLRVNHRF
+>Y1459_HAEIN/2589
+IRTQMLTFAQLQVNQADLAEDLVQEAFLSAFKNLANFKRQSAFKTWIFAILKNKIIDYLRQKGRF
+>Q9KZV5_STRCO/2693
+LYRRYAPWLTARMRSRCADAAVVDDVVQETFLAVWRGSARYREEGDVAGWLWRIGSRRLIDALRGEGA
+>Q9RW65_DEIRA/50119
+LHRRYARALYGLGGRILASPEAIQQGVEDALMTAWHHAAHYEPARASVHGWLISIAHHRFLQLRRGAGGT
+>Q9KZF7_STRCO/2493
+LVDGLGPLVWSVARSHGLSDADAHEVYQTAWFRFAQHLGRIREPEKTGSWLASTARHECLKLLKASKRWT
+>Q9EWE3_STRCO/55121
+AYRLVQPGLLGYVRGLVGEDAEDVAADAWLEIARDLRRFKGDGAGFRGWTATIARHRALDHLRRQKV
+>Q9EWE1_STRCO/2694
+VYRAVQPRLLGYVRTLVGDPDAEDVASEAWLQIARDLERFDGDADRFRGWAARIARNRALDHIRMRGRR
+>YLAC_BACSU/1078
+LYRQYYQEILNYLFRRTHHLETAKDLAQDTFVKALNGLASFRGHSSIRTWLYTIAHHTFINWYRRDVKY
+>SIGY_BACSU/2492
+LFHYHYSFLYKYLLKLSLHPDLSEELVQETFLKGYIHLRSFQGRSKFSTWLISIASRLYLDHQKKRKRE
+>SIGM_BACSU/673
+IYQMYMNDVYRFLLSMTKDKHLAEDLLQETFMRAYIHIHSYDHSKVKPWLFQVARNAFIDYVRKHKKE
+>Q8F7R7_LEPIN/1582
+LYSRNYEKIYRFLLSKGASKEEAEEICQETFIKVLRHWEKFDPSKGNETSWMLTIAKNQFLDMIKKKD
+>Q9K7J9_BACHD/2493
+WMEEYGTAILRVVYSYVKDKQIAEDLTQEVFVRAFQSYHTYQTRSSAKAWLYRIAINRSKDFLKSWHAKH
+>O83130_TREPA/169
+MYEQLVPVLYRVAYNVVREEDIAEGLCHDAFIAMTEKRMEFPSLSDAKYWLIRVVKNASLNYAKRRVRE
+>O54163_STRCO/2190
+IFDRHGKAVYNHLFRRTADWSEAEDLTSTVFLHAWRRRADTVLDRDSALPWLLGIANGQLSNTRRRLRRA
+>Q9AD34_STRCO/65133
+LYGHYRPQIYTYLMRRTCDRPLSEDLTGDVFVRALTRINAFTWRGTDFGAWLSTIARNLLVDHYKSART
+>V6K8P9_STRNV/1986
+LYDQYSDTVYRYIYYRVGGKATAEDLTSETFLRALRRISTFTWQGRDFGAWLVTIARNLVADHFKSSR
+>O65997_CLOAB/2291
+IFETYSKRVYNYIYYRVNCQYTAEDLMSKIFEKVMLKIDSYSEKKSSFEVWLFTIARNVLNDYFRGLKRH
+>SIGZ_BACSU/673
+LWDQFHQPLKTYISHRVNDQSIVDDLLQIVFMKIQVHLPNLIDEQKIDSWIYRITRNTIIDFYRTKKT
+>SIGX_BACSU/875
+LYDTYHQDLYQFLFYMVKDKNQTEDLLQEVYIRVLNSYHTFEGRSSEKTWLLSIARHVAIDWFRKQQT
+>Q9KYF3_STRCO/138201
+LYRRHADAVRRYARTCCRDAHTADDLTAEVFARMLQAVRGGSGPEHAVRAYLLTAVRRVAAGWT
+>Q2G0P4_STAA8/2693
+LVMDLQPLIIRRIKTFGFNHYDLEDLYQEILIRMYRSVQTFDFSGEQPFTNYVQCLITSVKYDYLRKY
+>Y4167_CLOAB/2796
+IFNYFGPFIKSFTKNIYIRNFDKSDIYEECNFSILLSIKKCDIKKYNFTAYTISSIKNNIYYKIRNQAKF
+>Q98R31_MYCPU/31109
+LYEDYYPQIKSLARKVLSSFYSCSLEVHDLLNIAFFNWEKLVQDYDPTRNIVFEFYILKWMRLLFYQGIKNDISKRNSF
+>B6V2T2_BPSP1/1987
+FKKYELLRKSVYKKFKDKMINQSDREDLMGTIDQIFLQLVSEYNPNRGVDFPYYIKRMLELRTYHHITK
+>Q9WZ04_THEMA/2998
+IVEKYYPMVVKIASQYFASWAEHEDIVQNGLVGLIKAIFYYDKTKSSFTSFAWRSVDSEIKSFLTYLNRK
+>D5DVR7_BACMQ/36105
+LIHKYKNFVRAKARSYFLIGADREDIVQEGMIGLYKAIRDFREDKLTSFKAFAELCITRQIITAIKTATR
+>Q97JP7_CLOAB/2091
+VVEKYMTLVKSIARKYINRSGTLELEDMVQSGAISMINAVENFDYNKGVKFSTYARHCVEGGMKNYCKKNEL
+>I3VS70_THESW/2892
+LVECNIRLVDKVAAGFLKSGVEFDDLVQEGLIGLLTAIDKFDHTKGYKFSTYATWYIQQSMRRYI
+>H8MRD8_CORCM/50117
+SSNLAFVVAVAKKFANRGARLDDLIQEGNVGLMKAIEHFDPKKNVRFATYAVWWIRAYITRYLKDNRS
+>Q1D016_MYXXD/34103
+LVASNLRLVVKLAHEYHRNPLSLLDLVQEGNIGLMQAVKKYDPERGVKLSSYAAWWIRAYILRYIMDNWK
+>Q9ZDM4_RICPR/53123
+LVTSHLKLVAKIASSYKTYGLPITELVSEGNIGLMQAVKKFNPELGFRLSTYAMWWIKASIQEYILKSWSL
+>H7C6T6_BRADU/62131
+LVTSHLRLAAKLARGYKGYGLPMVDLIAEANLGLVIAASRFEPGRGARFSTYAIWWIKAAIHEYILRSWS
+>D5AP35_RHOCB/53122
+LVTSHLRLAAKIAMGYRGYGLPQAEVISEANVGLMQAVKRFDPERGFRLATYAMWWIRAAIQEYILRSWS
+>Q98FA7_RHILO/44114
+ITVAHMRLVISMASKFRHYGLPLGDLIQEGHVGLLEAAARFEPEREVRFSTYATWWIRASMQDYILRNWSI
+>H9L4M9_XANCP/60129
+LVHSHLRFVVHVARGYNGYGLPLGDLIQEGNIGLMKAVKRFDPEMGVRLVSFAVHWIRAEMHEFILKNWR
+>RPOH_BUCAI/53123
+LILSHLRFVIHISRNYSGYGLLQSDLIQEGNIGLMKAVRRFNPEIGVRLVSFAVHWIKSEIHEYVLRNWRI
+>A0KF81_AERHH/54124
+LVMSHLRFVVHVAKSYAGYGLPQADLVQEGNIGLMKAVKRFDPSVGVRLVSFAVHWIKAEIHEYVLRNWRM
+>Q09C40_STIAD/47116
+LVTSNLRFVVKVAYEYRSYGLRMSDLIQEANIGLMKAVQKFDPDKGIRLISYAVWWIRAYIQGYVLKNWS
+>SIGF_ARATH/311381
+LITANLRLVVHIAKQYQNRGLNFQDLLQEGSMGLMKSVEKFKPQSGCRFATYAYWWIRQSIRKSIFQNSRT
+>J3MRH6_ORYBR/343411
+ARSNFRLVIHVARKYEGYGLDIQDLVQDGCCGLMKTFEKFNPSKGCRFPTYAYWWIRQSIKKSIFKNSR
+>SIGD_ARATH/183253
+ITRCYRRLVVSIATGYQGKGLNLQDLIQEGSIGLLRGAERFDPDRGYKLSTYVYWWIKQAILRAIAHKSRL
+>SIGC_ARATH/336406
+LVKSTRSLVLFLARNYRGLGIAHEDLIQAGYVGVLQGAERFDHTRGYKFSTYVQYWIRKSMSTMVSRHARG
+>Q9AYR7_PHYPA/340410
+MVNSNLRLVVSIAKNYQGRGMTLQDLIQEGSMGLVRGAEKFDPTKGFKFSTYAHWWIRQAVTRSIADQSRT
+>C5WQ19_SORBI/291357
+MVKSNVRLVISIAKEHEGPGMEFSDLIQEGMQGLIRGAEKFDASKGFRFSTYSHWWIKQAIRKSVLE
+>SIGB_ARATH/336406
+MIKSNIRLVISIAKNYQGAGMNLQDLVQEGCRGLVRGAEKFDATKGFKFSTYAHWWIKQAVRKSLSDQSRM
+>SIGA4_SYNE7/78148
+MLKANLRLVVSVAKKYQNQGLELLDLIQEGSLGLERAVEKFDPALGYKFSTYAYWWIRQSMTRAIDNHART
+>P73666_SYNY3/87157
+MVEANLRLVVSVAKKYLKRNLDLLDLIQEGTIGMQRGVEKFDPTKGYRFSTYAYWWIRQAITRAIAEKSRT
+>B2J2K2_NOSP7/98167
+MITANLRLVVSIAKQYQRRNLELMDLIQEGTLGLERGVEKFNPALGYRFSTYAYWWIRQGITRAIAQQGR
+>P73710_SYNY3/136206
+MIRSNLRLVVSIAKRYLNRGVPFLDLIQEGAIGLNRAAEKFDPDKGYKFSTYAYWWIRQAITRTIANDART
+>Q9PQE2_UREPA/197267
+LYTSNMRLVTSIAKKYLNRGLDLEDLIQEGSSGLLKAIDKFDHEKGHKFSTYATWWIRQSITRAIADQARQ
+>SIGA_MYCPN/252322
+LVTSNLRLVVSIAKKHLERGLDFNDLIQEGNLGLLKAISKFNWSLGNKFSTYATWWIKQAITRAIADQART
+>SIGA_SYNY3/193263
+MVQSNLRLVVSIAKKYMNRGLSFQDLIQEGSLGLIRAAEKFDHEKGYKFSTYATWWIRQAITRAIADQSRT
+>HRDC_STRCO/106176
+MVRANLRLVVSMAKRHAHRGLPLLDVIQEGNLGLIRAVEKFDHTKGFKFSTYATWWIRQAIERGLATHART
+>A9WAH7_CHLAA/164232
+AAANLRLVVSIAKRYRDRGLPLLDLIQEGSLGLLRAIEKFDYTKGYKFSTYATWWIKQALSRALADQSR
+>HRDA_STRCO/163233
+LIEANLRLVVSVAKRYVGRGLTMLDLVQEGNLGLIRAVEKFDYARGYKFSTYATWWIRQAMSRALADQART
+>A9WGV1_CHLAA/148218
+LIQANLRLVVSIAKKYTSYGLTMMDLVQEGNIGLMRAVEKFDYKKGHKFSTYATWWIRQAITRAIADQSRT
+>SIGA_STAA8/135205
+LAEANLRLVVSIAKRYVGRGMLFLDLIQEGNMGLIKAVEKFDFNKGFKFSTYATWWIRQAITRAIADQART
+>A1WW15_HALHL/368438
+MVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQART
+>RPOD_HELPY/437506
+AKSNLRLVVSIAKRFTSRGLPFLDLIQEGNIGLMKAVDKFEHEKGFKFSTYATWWIKQAISRAIADQART
+>HRDD_STRCO/100170
+FIRSNLRLVVAVARRYPRSGLPLLDLIQEGNAGLVRAVEKFDYRKGFKFSTYATWWIRQAITRSIADQSRT
+>E0WSL8_9ENTR/96166
+MIESNLRLVVKIARRYGNRGLALLDLIEEGNLGLIRAVEKFDPERGFRFSTYATWWIRQTIERAIMNQTRT
+>I0HUI5_RUBGI/84153
+MIERNLRLVVSIAKHYVGRGMPMIDLIEEGNLGLMHATGKFEPERGFRFSTYASWWIRQSIERAIMHQAR
+>O51712_BORBU/45115
+MINANLRLVLKIIKRYAGKGLKIEDLIQEGNLGLIRAAEKYDPNKNTKFSTYASFWIKQSLQRALNTKTRL
+>A9WGX1_CHLAA/78148
+LINSNLRLVVSIARRYQGHGLSLLDLIQEGSVGLMRAVDKFDASRGLKFSTYATYWIRQSIGRAIADHSRT
+>Q98QB2_MYCPU/218288
+LINRNLRLVINNAKKYKNRGLSFIDLISEGNAGIIKAVQKFDESKGFKFSTYATWWIRQSITRAVADQART
+>B4S455_PROA2/66135
+LIKGNLRFVVSVAKQYQNQGLTLGDLINEGNLGLIKAAKRFDETRGFKFISYAVWWIRQSILQALAEQSR
+>O67437_AQUAE/46116
+LVESNLRFVVSVAKQYIGYGLPFSELIAAGNLGLLEAAKRFDPDRGVKFISYAVWWIRQAIMQALSQQTGA
+>O83976_TREPA/64134
+LVRANVRFVISVARHYRTCGLPLADLISEGNIGLLTAAERFNPARGCRFISYAACWIRQSILKALNEKARI
+>SIGE_ARATH/283356
+LIKHNLRLVLFVMNKYFHEFTNGPKFQDLCQAGMRGLITAIDRFEPKRKFRLSTYGLFWIRHAIIRSMTTSNFT
+>SIGA_ARATH/263333
+LAMSNVRLVMSIAQRYDNLGAEMSDLVQGGLIGLLRGIEKFDSSKGFRISTYVYWWIRQGVSRALVDNSRT
+>Q97GR0_CLOAB/35104
+IIENNLPLVSAISRKFLNRGYEYDDIFQIGCMGLVKAVNNFNSDYKVKFSTYAVPMIMGEIKRFLRDDGI
+>X2GJ92_9BACI/35101
+MIEGNTRLVWSIVQRFTTRGVELEDLFQIGCIGLMKSVDKFDLAYDVKFSTYAVPMIIGEIQRFLRD
+>E3E826_PAEPS/36103
+LVNSNIRLVWSVVQRFMNRGYEPDDLFQIGCIGLLKSVDKFDLSYEVKFSTYAVPMIIGEIQRFLRDD
+>Q9K9U1_BACHD/42112
+LVNGNLRLVLSVIQRFNNRGEYVDDLFQVGCIGLMKSIDNFDLSQNVKFSTYAVPMIIGEIRRYLRDNNPI
+>P74595_SYNY3/32103
+IMEVNLGLVRKEAHHWTAQCNESFEDLSQVGCLGLIRAIERFDVSKGNAFSSFAIPYVRGEIQHFLRDKSNC
+>Q9WWP8_SYNP2/35106
+IVSLNIGLVRKEAHHWSRQCSENFDDLMQVGSLGLLRAIERFTLERGNAFSSFANPYIRGEIQHYLRDKSST
+>B1VLU0_STRGG/65135
+LIEMNLSLVRFAANRFRNRGSGDMEDIVQVGTIGLIKAIDRFDLSREVEFTSFAVPYIVGEIKRFFRDTSW
+>Q9ADM4_STRCO/97167
+LIELNLPLVRYAAARFRSRNEPMEDIVQVGTIGLIKAIDRFDCERGVEFPTFAMPTVVGEIKRFFRDTSWS
+>Q9RIT0_STRCO/141211
+LVRMHLPLVEHLARRFRNRGEPLDDLTQVATIGLIKSVDRFDPDRGVEFSTYATPTVVGEIKRHFRDKGWA
+>SIGF_MYCTU/43112
+IVQRCLPLADHIARRFEGRGEPRDDLIQVARVGLVNAAVRFDVKTGSDFVSFAVPTIMGEVRRHFRDNSW
+>Q9K4K0_STRCO/56125
+LVTAWLPMAHRIAGRFRDRGESIEDLRQVAALGLVKAIDRFDPERGAFESYAVPTITGEVKRHFRDRMWA
+>Q7AKD1_STRCO/41111
+LIRVWLPMAERIAVRFRGRGENLEDLYQVAALGLVKAVDHYDPERGHAFEAYAVPTVTGEIKRHFRDHMWT
+>Q9KFF0_BACHD/34104
+LVKHYEPLVHSLARKFSRSRAHDDDLIQVGMVGLLAAFERYDPKYGRSFESFAVPTIIGEIKRFIRDKTWS
+>Q2FWJ4_STAA8/35104
+LVKHYQKLIESLAYKYSKGQSHHEDLVQVGMVGLIGAINRFDMSFERKFEAFLVPTVIGEIKRYLRDKTW
+>Q62YJ7_BACLD/34103
+LVQTYKNLVETLAKKYSKGKSFHEDLCQVGMLGLLGAIKRYDPDVGKSFEAFAIPTIIGEIKRFLRDKTW
+>RPSB_BACAN/34104
+LVDHYKNLVYSIAYRYSKGGPMHEDIIQVGMLGLLGAIRRYDYSIGNAFEPFAIPTIVGEIKKYLRDKTWG
+>Q7AP79_LISMO/34103
+LVVHYKNLVESIARKYSQGKSFHEDLVQVGNIGLLGAIRRYDATFGKSFEAFAVPTIVGEIKRFLRDKTW
+>Q9K9T9_BACHD/60130
+LIERNLRLVVYIARKFENTGINIEDLISIGTIGLIKAVNTFNPEKKIKLATYASRCIENEILMYLRRNNKI
+>Q9KDC8_BACHD/54124
+LIEHNLRLVAHIVKKFENTREHTEDLISIGTIGLIKAIESFSEGKGTKLATYAARCIENEILMHLRALKKV
+>Q7D463_CLOAB/54123
+LIERNLRLVAHIVKKYSYSGKEVDDLISIGTIGLIKAIDSYNVSKGTRLATYAARCIENEILMLIRNNKK
+>Q8XJI8_CLOPE/54126
+LVERNLRLVAHIVKKYSSNYQNSKEMDDLISIGTIGLIKAIDSFDTNKGIRLATYAAKCIDNEILMFFRNTKK
+>Q97HF9_CLOAB/2698
+LIDSSMKYIKKIANGFCLNNKSLSLEDLMQEGIIAVIKAINSYDLDKNVKFSTYVYSMINFTLISEIKKKYSY
+>Q9X004_THEMA/779
+VIRSLLPFIKRIAEDLAQTLPPNVEVDDLIQEGIVAALSSLERYDPSKASFTTFIMKRVKGAMYDYLRKIDWM
+>O25676_HELPY/41113
+LAIQYLPAVRAMAFRLKERLPSSIDFNDLVSIGTEELIKLARRYESALNDSFWGYAKTRVNGAMLDYLRSLDV
+>O67268_AQUAE/1487
+LILKYLPLVKAIATNIKKHLPEDVDIRDLISYGVIGLIKAVDNLSTENPKRAEAYIKLRIKGAIYDYLRSLDFG
+>O84064_CHLTR/2598
+LIESYLPLVKNVAHRLASGMPSHVKMEDLYALGVEGLIRAVERFDPEKSKRFESYALFIIKAAIIDGLRKQDWV
+>O83707_TREPA/30103
+FVVQYAPLVKYVASKIAVGKPGNVEFDDLVSYGIFGLFDAIDKYDPEKNIRFNTYAVTRIRGAIFDELRSIDWV
+>F2R5I2_STRVP/28100
+LILHYSPLVKYVAGRVSVGLPSNVEQADFVSSGVFGLIDAIEKFDVERAIKFETYAITRIRGAMIDELRALDW
+>Q9KA59_BACHD/28101
+LIRQYLPLVHYHVQRISVGLPRSVSKDDLISHGMLGLLDALEKFNPDRDLKFDTYASFRVRGAILDGLRKEDWL
+>Q97H70_CLOAB/1385
+LIKKYIPLVKYIASRVIIGKSKYIEYEDLVGYGMIGLMDALKKFDQSKGMKFSTYSSIRIKGAMIDELRKNSP
+>FLIA_ECOLI/1689
+LWQRYVPLVRHEALRLQVRLPASVELDDLLQAGGIGLLNAVERYDALQGTAFTTYAVQRIRGAMLDELRSRDWV
+>Q8P9F9_XANCP/2596
+VTQHADLVRRIAHHLAARLPASVEVDDLIQAGMIGLIEASRSYDSDQGASFETYASIRIRGSMIDEIRRGDW
+>Q5ZUL1_LEGPH/42114
+LVKTHATLVKRIAHHLLGRLPQSVQLDDLIQSGMLGLLEAARHYDSSKGASFETYAGIRIRGHMLDEVRRNDW
+>FLIA_PSEAE/2295
+LIQRYAPLVKRIAYHLLGRLPASVQVEDLMQAGMIGLLEAAKKYDAGKGASFETYAGIRIRGAMLDEVRKGDWA
+>Q9KQD4_VIBCH/1992
+FLEKYSVLVKRIAHHLIGRLPPSVLIEDLIQAGMVGLLEAQKNYDGSKGASFETYAGIRIRGAMLDDIRRGDWV
+>Q5NPV6_ZYMMO/2898
+LIKTHLQLVRKIAWHVHGRVSSAIEVEDLIQIGMVALIEAANAFENRGFAFATYASMRIRGAMIDYMRQHA
+>LAFS_VIBPA/28101
+LLQRHQVMVKRVVNQLRVHATSHCSIEDMQQIGLIALVEAGRRYGDIDDTHFPAFAVCRVRGAILDELRRLDWR
+>Q97I83_CLOAB/2495
+LIQEYKPFIASLLQKKTGKYLQYGYDDELSIGMIAFEEAVESYDRNKGKFLSFAKRVIILRAIDYYRKNQKF
+>SIGI_BACSU/36107
+LIQQYKPFIAKTVSSVCKRYIDEKDDEFSIGLIAFNEAIEKYSPEKGNSLLAFAELIIKRKVIDYIRKEARS
+>SIGS_STAA8/773
+YNKHQKIIHYLLKKYNISYNYDEYYQLLLIKMWQLSQIYKPSSKQSLSSFLFTRLNFYLIDLFRQQN
+>Q9WZA2_THEMA/1989
+LYERYQNEIRKKAGFFFEKFREKISSFEDLYQAICSIFCYARKTWNKDKGSFSAHLKSTINRKVIDLIQGI
+>Q9CC01_MYCLE/2894
+FIKATQQDVWRFVAYLSDVGNADDLTQETFLRAIGAIERFSGHSSGRTWLLAIARRVVADHIRRAQT
+>Q9RCU7_STRCO/3198
+FVRELQRDVRRYVAYLADDVQAADDLTQDTFLRALTALPRFEGRSSARVWLLSIARRAVVDSLRRAAC
+>Q9RCU5_STRCO/48116
+FVGALHRDVRRFVAYLSADPQAADDLAQDTFLRALGSLHRFEGRSSARVWLLSIARRAVIDNYRYASAR
+>Q9HZV1_PSEAE/3299
+LYQRHRQGLYRFLCGLAGQTELADEIYQETWLSLIRSESQPQGRASFRTWLYQIARNRLIDHWRKHGQ
+>Y370_RHIME/1178
+LVSARPQAMGALLRYFRNLDLAEEAFQEACIRALKNWPRTGPPRDPAAWLIFVGRNSGIDKVRRQSRE
+>Q9A8M4_CAUCR/133201
+AIAAARPQAMAALLRYFRDMDAAEEAFQDACLRALKAWPKNGPPRDPTAWLIMVGRNAAIDAVRKTSRN
+>Q98HH3_RHILO/1078
+AISAARPQAMGALLRYFRDLDTAEEAFQDACLRALKNWPQNGPPRDPAAWLIFVGRNSGIDAVRKRAKQ
+>Q9I3Z3_PSEAE/876
+LYREESRRVLATLIRLLGDFELAEEALHDAFIAAVEQWPRDGIPRNPRAWLVSAGRFKAIDNLRRRARF
+>O86798_STRCO/1280
+VFRIESPRVIAGVARLVRDVGIAEELTQDALVAALEQWPRDGVPDNPGAWLMTTARRRAVDLIRRRETY
+>Q98I35_RHILO/1077
+VWRIEQPKLTARLARYLRDIGLAEEIAGDAFLLALERWPRDGIPRNPAAWLTEVARNRALDRLRRTTM
+>Q98DP3_RHILO/1682
+ARQSYGKLVAWLAARTRDVTAAEDALADAFAAALERWPKSGVPEKPEAWLLAVARRRRVDAVRRRLT
+>Q9KZX4_STRCO/572
+LVRSLTPGVLTVLVRRGADFAAAEDAVQDALVEAVRGWPADPPRDPKGWLVTVAWRRFLDAARADTAR
+>Q98D78_RHILO/2493
+LYRQTSAKLFGVCLRVLNDRGDAEEALQEVFVKIWTKADRFAVSDLSPISWLVAIARNHAIDRVRARRKS
+>SIGK_MYCTU/3096
+YDHTKSRVYGLVMRVLRDTGYSEETTQEIYLEVWRNASEFDSAKGSALAWLLTMAHRRAVDRVRCEQ
+>Q9RD50_STRCO/35105
+VYDAVAGSVLGVVRAVLRDQAQSEEVAQEVLVEVWRTAPRYRPERGTVINWVLTLAHRRAVDRVRSVEAAA
+>Q9S2A7_STRCO/2694
+LYGLVSGPVFGLVRRVVRDPAQSEEVAQEVLLELWRSAARFDPRRGSALSWILTVAHRRAVDRVRSARA
+>Q97I86_CLOAB/2395
+FIECYGIMIHNVVTSILNKSHESQSIEECVDDILMCIWRNMDCFSKERGSLKCWIIVISKNKALDYKKKLKKI
+>Q55192_SYNY3/2695
+LYNRYGAVVYRLALRILQRSQDAEDLTQEIFLSLETTTPYNSQRGNLLNFLLTLTRSRALNRIRQGRSRG
+>Q9F379_STRCO/2997
+LYDRFASLVHGLAHRVLDDERAADHITRDVFAHVWEHPDAYDPRQGPLRTWIATLTHRFAVQRLRATET
+>Q9RI52_STRCO/39108
+IYRRWGSLVHTLATRSLGDAHEAEDVTQQVFVGAWRGRHGFRPERGTLGAWLVGITRRKVVDALAARTRR
+>Q9K7Z1_BACHD/2594
+FYKMHYPLVFNISLNILKDHSEAEDVSHDVFLEVFQKIEHYDATKGSVRSWLAVMTKSRSLDRLRKKRPL
diff --git a/Exercise11_files/Problem1/sporecoat.ref b/Exercise11_files/Problem1/sporecoat.ref
new file mode 100755
index 0000000..bcfe92b
--- /dev/null
+++ b/Exercise11_files/Problem1/sporecoat.ref
@@ -0,0 +1,150 @@
+>Q8XVY0_RALSO/26164
+TTTTFSVSTTVNATCVINSASALTFAAFDPSQGAQASTSSISVNCTNTTPFNIGLNAGTGTGATVASRVMTSGANTLTYSLYQDSGHASVWGNTVGTNTVAGTGAGMAAGNAITKTVYGLIPSQPNTVPGNYADTVTVT
+>Q0BSH7_GRABC/37169
+TTTTFQVTATVQASCIIQATNLSFGNYSGSQTDATSTIQVTCTNSTPYNVGLSAGTGSGATVSNRKMSLNSTSALPYALYSDASRSTNWGNTPNQDTVSGTGNGSAQSLTVYGRIQTGNYPTPGSYADTITAT
+>Q0AAK3_ALKEH/24160
+DTATFDVTATVDPTCTVDADNLVFGTYDPFSDTPLDENSEIRVQCTSDTPYDIGLDDGDNTGAEGERRMALADESDFLEYDLYHDNHGGTSWGDIDSGAELTGLSGTGSEQSYVVYGRIFAEQSVAVGNYVDTIEVT
+>Q8XPY6_RALSO/36170
+KTTTFTVSLTLQADCSISANALNFGTQGVLAANVDQTATLSVTCSNTAPYNVGFDAGTTTGSTIAARLLAGSGAATVGFQLYSDSARTQIWGNTVGTDTVSGTGSGTAQVLTVYGRVPSQNSPAAGTYSTTITAT
+>Q63W79_BURPS/31169
+ATATFTVSLTIQANCTISANALSFGTNGVLATAVNQQTTLSVTCSNTTSYNVGLDAGNVSGSTVSSRLLAGTTTGNTSTTVSFQLYQDSGHTTIWGNTVGTNTVSGTGNGTAQTLSVYGQVPAQTTPKPDTYESTVTAT
+>Q7CVQ4_AGRFC/27162
+ATTNFNVQITIQAACQINSAGNLDFGTNGVIGAPIDVTSQIVVQCTASTPFSLGLSAGAGSGATVANRLMTSAAGATISYSLYTTAAHSTVWGNTVGTDRQTGTGTGAPQNFTVFGRVPAQTTPAVGVYTDTVTAT
+>Q985D5_RHILO/27162
+ATGNMTVRITIQAECKVQTATDMDFGTNGVIDANVDQTSTISVQCTNSTPYNVGLSAGVGAGATVAVRKMTGPAAAVLNYSLYRDVARAQLWGTTIGTDTVAGTGNGAAQPLTVYGRVPPQTTPGAGVYTDTVAIT
+>A6X8A6_OCHA4/27162
+ATGNMNVRITIQAECKIVTATDLDFGTKGVIDVNVDQTSTISVQCTNGTPYTVGLSAGGGAGATVAMRKMTGAASATINYTIYRDAARTQVWGVTAGTDVVSGTGNGNAQSITAYGRVPAQTTPAPGVYSDVVSVT
+>A9CH19_AGRFC/182313
+TQVPFTVSAAVAPTCIISAQNINFGSHGVLNTAVDANGAINLTCTNGLNYSVALNGGLSNSPPAARQMVQGAASIIYGLYRDVSRTNVWGSAAGQIATGTGNGSLQTLTVFGRVPAQNTPAPGNYADTVVVT
+>Q985D8_RHILO/205338
+DRPTFTINAIVPANCLLAIQNIDFGSNGILGANVDATGGVSITCTPGTPYTVSLSNGTTGSAPTARKMSKGVETVTYGLYKDNARSQVWGDAAMPGSTVAGSGSGAAQNLTIYGRVPAQTTPSAGVYTDTVVVT
+>A7H7Q6_ANADF/25150
+ATAQFQVTATVVKKCKISATTIAFGNYDPATILSAEGTLTLKCTKGTLYSVALDGGSTGSRQMTQAAEVLDYELYSDAGHTAVWPSTAAAPSVAAAGADEALIIFAQVPADQYPAPGAYADTVTAT
+>Q2IFL0_ANADE/27162
+ATATLDVTATVVPSCTIAATPVAFGSYDPLVTNAATALDAQGTVTVTCTTGTAYTVGLGAGNSGSGSRAMQHASIAGAQLPYELYQEAARTTVWDSTVMQAGTAASITPVQYTVYGRIPAAQNVPTGNYADAVVAT
+>Q0C623_HYPNA/23151
+ANGTLDVQATVVNTCVVLTAPVVFASVGLDEVTANGSITVNCTNTSAFTVALDGGDSGDISARSLTHASLPASFNYQLYTDAGLTTVWGDGVTGSQANGSGPSQTLTVYGRTTSTPDTAGAYADEVQVT
+>Q63W78_BURPS/193326
+TFAFTASATVVNDCFINATNVAFGSTGVIQGALTATGTISAQCTNGDAFRIALNGGASGNVAARAMQRTGGGGAVNYQLYLDAAHSTIWGDGTAGTSTATGTGSGLSQSLTVYGQVPAQTTPAPGTYSDTITAT
+>Q8XVY3_RALSO/23163
+VLVALASWAPGALAVSCSVSANALSFGAYNTTSNLTGTTTVTITCGAWGGASSINYTLSASVGSGTYANRQVLNGSNVIAYNLYTTSADTSIWGDGNGDGTVTLSGTVTKQVGTVNLTIYGKINGGQNVVPGSYATTIPIT
+>Q8XPY9_RALSO/25163
+ASAQSCSVASASLNFGSISPVQAGNTDTSTTLTVSCSGFLLQGTVARACLNLGVGSGDTGISPRVLSAGANQLQYNLYADSARSVVWGGRTTPATPAIQVDVSLGLLGFGSATVTVYGRVPGGQTTVPAGAYTQSFSGT
+>A9CH19_AGRFC/11158
+IAAAFVASPVLAQSCTFSMSDMNFGFVNLAGGAAVDTTATLSVTCNNPLSLALSIRICPNINAGGGGQSGGIRRMLQGSNILNYQLYQTSARTTAWGSVTQPALGAPPPIDMALPLLINSTTRTVYGRINAGQASAARGLYLSSFAGG
+>Q985D8_RHILO/37183
+SAALLLPTVAWAQSCSFGVSAMNFGLVDTLSGSSSNSTATLSVNCTGLLLQRILVCPNLGTGSGGATASARQMLSGANDLNYQLYSDSARSVVWGSYAWPYPPTAPGFALTLNVLGSGSASQTIYGAILGGQATAVPSTYLSTFSGS
+>Q3A2W0_PELCD/10150
+IIVLLFAVDAYAFHCEVTTTPVSFGAYDVFSSFSLDTTGRISVSCNNPEKKRMPVTISISRGAANSFSPRQMRRIGGSDRMDYYLFVDASRTAVWGDGTGGSSTYVGMIDRTSPLNVPIYGRIPARQNLRAGSYQDILVVT
+>A7H7Q5_ANADF/16150
+APRAVDAAQPPSPGPSCSVSAGSVAFGAYDPLSPTHLDSTGTIGLTCAVRQLVTISLGTGQSGTFARELRGPGGAALRYDLYTDATRTQVWGDGTAGTATWPFETERGRYVPVYARVLAGQDVPAGPYSDTIVVT
+>Q2IFK8_ANADE/19157
+ATALSLVAPAAARAASCSLTMGTSIAFGAYDPLSPVPLTTTGMLQYRCSRGQPIRITFTAGSSGDVYARTLRQGPWTLAYNLYADAGFGTVWGDGTGGTAAAPAVTTLSNGLTVAYVFGRIPARQEPPVGPYSDTIVVT
+>Q1D5L1_MYXXD/13153
+AVAGVCGLLPGLAGAVCQIRSTIGVSFGTYLTTDLLPRDSAGSITYRCEGQITPITIDFSAGGSGTPLARSMAGPGAQRLEYNLYVDATRLIVWGNGTSGTGRYGPVVPLFGVEVTVPIFGRIPAGQAIPAGAYADTVVMT
+>Q60C08_METCA/20167
+LLACPKISDADPYQCDIGNISVPHAVYDPTDSNPNSSGVGTVGITCHLKNAKQTQQVQYTIALSRGSSGSYNPRRMSGGRGSLGYNLYLDAARVTIWGDGSGGTFPLRGTLLLNPTTPVQQVIHNIYGLIPPLQDVYAGTYTDTVTIT
+>Q0AAK6_ALKEH/8153
+SLFLVAAGSGSAQAYTCSISADPLAFGQYDPITGAQVDGASEVSVSCSLLGLVSLLVSYEISLDPGTGGSYHPRALSSATDTLDYNLYVDTARTEIWGDGTDDTATVTDSYTLGVLTVTRYYPVYGRVFADQNVAAGVYDDTITAT
+>Q12FX3_POLSJ/50194
+TWGVLLAAGTAHATISCSVSGNGFTSVYDPISTVPNDNVSSVTINCSRASGDPTTTTYSLASTNGLYPQGQNNRAYYPTNKYLKYDIYKDAAYSSRWGPGGSAPFTGTLNFGSGTSASLTLPYYNRVAAQQSAVAADYTDTMTAT
+>A1VIJ0_POLNA/19170
+ALFLLLATAGPAQAGSCTVGSSGLAFGAYQPLTFAGKLTSSAVTSNASISVVCTGIASGGAYSIALGPSTTGSGDRISTRYLGNSNGGDDMSFNIYTSASYSTVWGNGTTGGLVGGSIPVGDSNQSQPVYGRIAASQNTLRAGSYSGSLTMT
+>Q6D2L8_PECAS/25179
+AFLLMALYYAPFSHAACTTPPSNTVLGPYGSSVVGVNGTPQVVASGSGFRCTGSVLSLASTNTITATIQSDSNPSGTTMRMRRGTTTDYVPYSLCMDSGCGTLYNINSTYTWSRTTFLDILGLFNSTDGTMPIYIRTSIGSNVSAGTYTDTVTIK
+>Q9HVD9_PSEAE/14161
+ATLCASPLLLAACTTSSGTGNFGSLSSFTVASTAQTITGTTGFKCTGSLLSILSTNTIDATIASTANPLGTTPRLYNAASGTYLPYSICKDNGCGTVYNVGSTVRWSSTTFLGILGLFNATDGSLPLYLRTATGVTLPAGTYTDTIGL
+>A8GDM0_SERP5/8155
+LLLALLLLIGRQALADCTTANGSVTLPGSSTFAVYNGSLSAQGTAGLNCSGLGLSLLTQNTVTVKINSTTHNMALANADGSGDTIPYLIYPDANYQYPYSVGQTIDYSSLNLLTLILISPNVNFPLYIKTTAGANVRSGTYTDTVNLV
+>Q63TE3_BURPS/22161
+ALHAHATCSVVSAAAASFGTVTSFAVARQPQSTSTTSSGLSCSGALLGLFVIGDQINASITSANGGKLVGPTGDAVPYTVFADQNYSIKLDLGVTYNWASGQLLNLLGIFGGPAQTLPMYFRTVQGSNVAAGTYTDTLTI
+>Q88KC7_PSEPK/8157
+LVASVLLLPSSTAWALCSSVATLPAAFGSLNSTQVRNTVQTASSLNSGLQCTGSLLTLLSSGDHFYATITPASGGLVGPTGDVIPYTLYADNTTRYPITRGVAYDFARNGILDLLGLLGGTTPKAVPIYMRTQIGSNVAAGLYQEALTVA
+>Q4K9N4_PSEF5/11161
+ILGLLASVLSCTAQALCTTVPTAPAGFGTVSSILVRTTSQPASTTNAGLSCTGSLLSILASNDHFYATITSTTSGMVGPTGDVISYTLYANNSTSYPITRGVQFDFARNSIIDLLGLLGSPTVAKTVPIYLGTLTGSNVAAGVYTENLSIL
+>Q0C620_HYPNA/7149
+LVLSLFVLVCPALAQSCTVSSTPLSFTPYHAFSGNASTGSATVTVSCSGLLFVGASYEVRLGGGQSGNIMARKMKQASSGQELSYQVYTQSAQVWGNGVQGSTINDFFLLGLLARSRAHPITGTIPANQQVNSGSYSDAVTMT
+>Q0BSH4_GRABC/13154
+ILFAVLALFPKSSMAQCIVSVSNLNFGVYDPFSSTPANTSSNINVTSCPILFGSYSVGLNTGQNAGGSYNNRSMRYNSQRLQYQIYTSNDRSNIWGNNSQGTVMQYGYCYFFACNNSFTMYGVIPRYQNVSPGFYSDTVVVT
+>Q13JY7_BURXL/27170
+ATATLTNTATIVASCTLGATGFTNTYDPVTANATAPVRDATASVTYTCTNGGTGALIALDGGNHETGTSAVPIRHLAGATNTTDLLAYNLYQEPTYTTPWGYAAAAELAAIEDGVQHVLTVYTEIPAGQSLLHVDTYSDTVTAT
+>Q60C05_METCA/39178
+ETASLGISATVANTCKIESTSNVNFTTYDPTSTTDTATNSGQIRVKCTKGSTSTIYMGAGTASGATCSGTPIRKMANGADLLTYNLYQNNGYTTVWGCDSSNQYSYTASNNGWQNLTVYGVIPAGQDVPAGSYTDTVTVT
+>Q9HVE3_PSEAE/30174
+TATIVLSATLLPACEAGSVGSGGAITFGTLDFGQYASLNNAISATSQQGAGSIRVRCVSGQTYAITLDGGLYGSVATRRMANIANTALTLTYNLYSDRPGGIVWDNTTGVAATGNGNDQWYPIYGLVPAQTTPVAGTYRDTVNVT
+>A8GDM4_SERP5/22164
+KTATIGVSATLLKACEAGSSSGGNVSFGSLDFGTVYFLTTSVSVAGQQNAGAIRVKCNNGTSYNVLLNGGQSGNTAARYLKSAAGQQVNYNLYTNSSHSIIWDNLTGVSQTANGQDNWLPVYGMIPVQSTPPIGSYTDTVQVT
+>Q0WG86_YERPE/31173
+TANITVTATLLPTCLARFLVSGSTSFGTLDFGSTVALTQPISVAGQTNSGAITVQCSNGTSFNVLLSSGQSGNTNNRYLSGGPSAQQVSYNLYTNATYSVIWDDVVGVSQVATGQVVTIPVYGLVPAQSTPAVGTYTDTVQVT
+>A7MEE0_CROS8/26185
+SSGTIGATLTLTNGCLINGSPSQNGINFGTLNFGTSPATFSTLTTQLTGAGGGNTFSIQCTTPEYTVQITGSTNQAPGTVVGTPGTPGRYLVNTTNTAQGVAYSLYSDSAFQNVIANNASIPAASTTGGVSNYTIYGRIQGGGNSVTVVPGTYTDTINVS
+>Q6D2M2_PECAS/29179
+INGQIPVSLTITAACTINNGGGAGTTWGTISFGSHSDLTANIDSQVTSVSGNGITVSCSVGTPATLSIGPGANDNTSLRRLAPGTGTYNVPYRLYSDSTRTTEIPIGTATGIAIVATGNPQLVPVYARILPADQTVLSPTAGTYTDTVTAT
+>Q9HVE4_PSEAE/29179
+GQVGVQMVIGAGCTIINGSVSGGINQWGTLDFGSHSDLTNVVDAQTVGTSGNIQIQCSTGLTPSLTVNAGLHASGGQRYMQNTTTTSSTIAYNIYSDAARSALIQANTPVDISSVSTGTAVNIPLYGRVVPTGQSTPTPTAGTYTDTLLVT
+>A1TVZ8_ACIAC/43202
+LSGVLGARMMLTSGCVINGGPGTVSGADFGTLDFGSRPATFVGTATATASGGEGGAGATQIVCSPEITAFSITIDSGTHAGQGAGIGTGTRAMSNGSAFLPYDVYRDPGHTVPYTAATAVTGIAVPSAGNPFTLPIYGLVNKTNAVALPAGLYTDQLQVT
+>Q63TD9_BURPS/28183
+TGTVNSQLVLTTGCAVDTGGGSVNSANFGTLDFGTQPSGFTGRLTSAAKGGGSTSTQVTCSPDVTSIQVTIDGGQNASKGATVGTGTRALANGASFVPYEVYADAGHSQQYVSGTAQSVAVPTPGAAFELPLYGVVNKTNASALAAGTYTDVLNVT
+>Q4K9M9_PSEF5/25175
+ISGQIQARLVITAACQVSSGGDPSASPIGDPGMLNFGQQGPTWVAPIKASLTNSAEGQLQVACNSSVTGFTVTINGGLNGDGTTRRLSNGRQTIPYRLFVDASGSDSYSIGQQRNFAVSSGRRIPIPVFGSVVANTRAVPAGLYTDTLTIT
+>Q63TD8_BURPS/27178
+TGTMQVNLQVSRGCEVAGVAASGDLGRLDFGAQGPLWSDYLTADGRATSSGAVRVVCSPDVNGFLVSIDGGRNGDQSTRYLVKRGANGRVAGRIPYNVYRDAARSVPYVPLMPQSFLVDGGRDDVTLPVYGVVNGMTRAVPSGTYEDLLGIT
+>Q4K9M8_PSEF5/21172
+ADLQVQVRVDVLRGCQLVGQQREAGIEQLGTLDFGSTARLDDPAGPLSAALPGSRQPRLECNPDTPYQMRIDGGLHGGVGEVRYLASNTRAGKPIPYRLYQDPARRIPLPVNVPVSGRVPDSGTVDLPLYGRIEPLVEIPRAGGYSDVLKVT
+>Q88KD3_PSEPK/43194
+ADFLVEVRVLVQRGCMLVNQTRDAGAQALGRIDLGATARLDGPGAPLSGVLLSQRPPRLECNPDTPYQVRVDGGQHGGIGELRYLASDDHLARPIPYRLYRDAAWREPLAVGVAQSARVPGSGSVELPLYARIDKLAWVPDAGVYADLLKVT
+>Q4K9N1_PSEF5/25163
+TSQSFQVSATITAGCLVVGGVSNYGSLAFGSQSALSTSTVRVALTGGVQLQCTPGVTLNMTVDGGQYNSSGRHMQLDSGSARVAYQLFRDAGYSQSLGIGQSVAVAYSDANNISLPIYGQVQLPGNQPGGTYSDVLQVQ
+>Q88KD0_PSEPK/24164
+TTSTFTVTAQVVAGCLVVGGVTSYGTLDYGSQSALSTGLLSTSLGGSTVTFQCTPGVAMSMSLDGGQNSASGTRNLKRTSGTQVLAYQLYRDAAYSQALGIGQSVAVSYSDPTAIKLPVYGRVQLTGTQPAGTYTDVVQVT
+>Q87G12_VIBPA/25174
+TETFQVSATVDTGCLINGAVQEESATQAGQIGTLDFGEHSSVYAAEVQGSVTYSSSLTLSCTPGIAMNVSLNGGLNSSDGVRKLKHTEEVTTVDYFLFQDLDYTQVLDIDTRYSVDTTQDPDNIQFPIWAKAIINGNEIAGIYMDTLTLT
+>Q2NSS3_SODGM/17158
+PNQSFQVAATVVAGCLINGGPSIGKLDFGSQAGSDRQLFTASMVQNTAFSLACSPGTTLSMRIDGGSHYTSQRNLQRVGGTQLIGYRLYTDAGLTPANAIPVGQDVSLSYSDANHIVLPVYGALQLSGMSLSGTYTDTLTVT
+>A7MEE1_CROS8/37181
+TTQSFQVSATVAAGCSVTTGTGGVMGSLNFGTHTGVESTRVSTSFVPSSSLLLACTPGVALSMSINGGQNYGSSVRNMVRGGGTERVPYRLYTSSSLNAASEIGVNQAVSIAYSNSNNISLPLFGAAQLTGFSPAGSYTDTLTVT
+>Q63TE0_BURPS/29171
+TQAFTVSAQIVAGCGVAGGGPASGLNFGTLDFGAHPAVATGQVSAAVGGGALQIECSPGSTLKMTIDGGANASAGNTQRNLASGGARVAYRLYSDPARTQAIAVGQAVSLPVSGTITLPIYGALTLPGGGAPAGTYTDTAQVT
+>Q1D5K8_MYXXD/34182
+ATANLNVTANVGGSCAIGSGGGGGTLNFGTYDPIIVNSALGIDLFGTGTLSVQCTLLGTAVITLGQGLHPASGSTDAAPQRRMRNTASADYLAYGLNQDVTRLIGWGNTAGSGLPFLGTGLPVPVLVYGTVPRGQNVPSGTYNDTVVAT
+>Q7CIW7_YERPE/27181
+TGTLSSTLTIISGCYINDGTGSGSLSNLGTINFGSVVALSSVINVAFSGTLSGTLSLYCSANTAYTIAIDNGLYSTSGQRRLRGGAAAPTTFEYVNYNLFKDSSYNQPWNATPTTGVQSGTGTGIATPIPLTIYAQVPIQTTPSVSTYIDTVIVT
+>A8GDM5_SERP5/27176
+IQGNLGVTLTIGAGCVVGGGNSAGSANDFGSIDFGTYSSLSNIIDASATGSGGAGTLSLTCTTGTAYTVALNNGLHVGAGNQRQMASTAGSLIKYNLYQDQARATAWSSGANALTGTGTGAAVPLIVYARVPAAATTPDPDTYNDTVTMT
+>Q6F7G3_ACIAD/166298
+VQNYMKTTTKFENSCAVVGVNTLDFGSIISLNQPIYGQTSIQLKCPTNTALKVGLDTGLYASGTQRRMTNAGQFIQYDLYQDSAYSIAWGTSDNSVLKLDTYQPVFTIPVYGRILPQNQNLKAGEYRDTITIK
+>Q0VRQ1_ALCBS/179310
+TNYTLNANLAIQNQCSITANDLNFGTQSSPLPQTDSDTFIDVRCTNTSPFTVGLSDGLNPSGGSRRMRDGSQFVSYGLFQDAARSIPWDSTTNRKGATGLGTSTSIMMSVFGRIPAAPSTPPGNYTDTITVD
+>Q6D2M1_PECAS/27175
+VSSTFDVEATIQKGCVFGTSTASSQPNMGTLSFGIRGATATNVDVASTSGSGSIIATCTPGINAIIELDYGTNGGSSTQRYLKNAAGTRLLAYQLYRDAARTLVWGTGGLALSIVSFPATPQTYTVYARYFGGTPLPPAGIYTDNVTVS
+>Q9HVE2_PSEAE/31177
+RAFQVQAVVANGCAFGTAISNNAYDLGTLSFGTLGNLASPVNVASSSGAGSIVLTCTPGMTVSVALDYGVNGGSSSQRYLKRVSGNETLAYQLYQDAAYSQVWGNGALARTIANFPASTQTYTVYARLFAVGSLPSAGNYRDTVTVT
+>A8GDM3_SERP5/30181
+KTQAMTVNATVVKGCILGSGSSDVTTFGNLSFGQVSSLASNISIVSSSGAGSVLFRCNPGLSVTLALGIGNNVTGSISAGRKLKNTLTPETLIYQLYQDSNYSTIWGDGTNGGSTEIVAATGSTQEIKVYARLFSTSTLPTSGTYSDTVLLT
+>Q0WG87_YERPE/33182
+SPFTVNATVLTGCVLGGGATDSSNFGSINFGNITSLATAINATSGLNAGTITIQCNGNPSVTLALNSGANMTGNISAGRHLLNSSTGEYLLYQIYQNSPRTLIWGDGSNGGATQVIATDGTLQQVILYAQLFASNTQPTAGVYLDTLLVT
+>Q8PAU6_XANCP/47193
+TTTFNVKIAVTKACTITAASATDVDFGSVLSTSTANADANGSVTAQCTALTPYNIALSAGSNAGTANDVTTRRMKNTDALVTTNNFVAYQLYQDLGRSTVWGSTSGTNTLSRTATGINQIYPVYGRVTNPSAGNPATGTYQDTITAT
+>Q6F7G4_ACIAD/24154
+IANTFNVSITVKESCDIRTLTATDIDFGTVTQAAQNAYNSGQLNVACTSGTSYAIALQSSRKMVNIADPTVQVPYTLFQDSNYSKVWGSDSGTGLSQIGTGETQMIKIWGKVDAQDTAVPAGQYLDTVTAI
+>A8GDM0_SERP5/177307
+KPSTVTISLTLTKDCLFGTAQNVNFGSMALVGQFNPVNQSITLTCTKTEGYNTYFTDGNNPVTGWRRMKSGTSNYMQYQIYLPNSTTVWNSTNKQAGAGTGLAQSIPYLARINPAQTEVPVGTYQDNISFV
+>Q6D2L8_PECAS/200332
+TTSTLNITMTITNDCQITSAPNISFGTAAFPANFAAVNNNLGVRCTLLGAYTVKLVSTHPDDANWRRMTATVGSTPYYLQYQLYRTGNIAWTETNDYSGAGTGITQNIPYTARINASQASKPEGTYKDTVTIN
+>Q9HVD9_PSEAE/184311
+SSSVNVTLTVLKDCFIDSAPDLSFGSAALVSAFTAVNQNIGVRCTLNATYTIGFDNGNNFSGGWRRMLSGANAIQYNLYKPGDSTVWTTSNTQAGTGSGAAQNVPYRAIVNPAQGNVPAGTYSDTVRV
+>Q87G14_VIBPA/181318
+QSTITVELEVTPDCMITAPDIDFGSSPLVAGFDPVSQVISLTCTKNSSFTIGLNDGVNASGGQRRMASDGNYLEYEIYKSSSTERWGSAGAERREQSDVDTGDAIPDGITPQNYNYRAQIMASQTTPPAGTYTDSIIV
+>Q4K9N4_PSEF5/184326
+GTQSLTVNMTVSNDCVITAPNISFGSAPVISAFATVTGQTINLACTKGSAYTVGLSDGQHPVSAGGRRQMISGSNYLAYDIFKSAGSTRWGSVGSARRSSTDAEVNPGNGLGTGSQIFNYNARIYTDQSTPPAGTYIDNVVLD
+>Q88KC7_PSEPK/182318
+QLLNVSLTVTNDCQITTPDISFASAPVVAGFGTVSQGINVSCTKGSSYTVGLGDGQNVSGGRRRMKSSANNYLAYDIFKSAGTVRWGASGAARRSSTDADINPGVGTGTGSQVFNYNAKVYTDQATPPAANYTDSVI
+>A1TW02_ACIAC/189321
+VNRLLTVRLVVTNDCTLSAPNLQFGSAPLPAAFPAVSGNISVVCTRGLSVTVGLGPGAYPSGGRRQMASGANRLAYDLFRADGSLWGTAAGTRTAGTAVTDGTAPIVLPYTARIYGDQTPPPPGVYQDNVVVD
+>A7MEE4_CROS8/177314
+STFTSLVTLTVTNDCSTITAPNLNFASAPLVKDFAPVSQTIAITCTKGSTYTVGINNGNYAVGSVRNMASGTNRLSYEIYKGSTANRWGVSGTERWASDTPTQVSSDGLLKSYQYTARILATQNTPPAGSYTDTLVVD
+>A1VIJ3_POLNA/74223
+DNANLAVSATVLTNCAIGPGTLAFPANLQLGVTKGLGTKAANPANADSDSGTSISVTCTNGSSAAITAGAGANTAGVVATTRALKSGSNYIDYELYTDTNRTTVLDGTNSISYTGTGLTEIDKTTIFGRILGADIATAKAGAYADTVAMT
+>Q0VRP8_ALCBS/30176
+LTDSFDVLLNLQSSCTLDSTTDLDFGDQTDADVVAGNIDAANSVTVTCSNGADFTIGLTNGANFGDGPVATERAMKSANASYVSYQIFQDSGRTTAWTDTDDVAFNGTGASQNIDIYGRIPAQTPTIDAADTFNATGLALTDTVTVT
diff --git a/Exercise11_files/Problem1/transporter.ref b/Exercise11_files/Problem1/transporter.ref
new file mode 100755
index 0000000..c75277a
--- /dev/null
+++ b/Exercise11_files/Problem1/transporter.ref
@@ -0,0 +1,8 @@
+>LACY_CITFR/1412
+MYYLKNTNFWMFGFFFFFYFFIMGAYFPFFPIWLHEVNHISKGDTGIIFACISLFSLLFQPIFGLLSDKLGLRKHLLWVITGMLVMFAPFFIYVFGPLLQVNILLGSIVGGIYLGFIYNAGAPAIEAYIEKASRRSNFEFGRARMFGCVGWALCASIAGIMFTINNQFVFWLGSGCAVILALLLLFSKTDVPSSAKVADAVGANNSAFSLKLALELFKQPKLWLISLYVVGVSCTYDVFDQQFANFFTSFFATGEQGTRVFGYVTTMGELLNASIMFFAPLIVNRIGGKNALLLAGTIMSVRIIGSHSHTALEVVILKTLHMFEIPFLIVGCFKYITSQFEVRFSATIYLVCFCFFKQLAMIFMSVLAGKMYESIGFQGAYLVLGIIRVSFTLISVFTLSGPGPFSLLRRRE
+>LACY_KLEOX/6416
+LAPRERHNFIYFMLFFFFYYFIMSAYFPFFPVWLAEVNHLTKTETGIVFSCISLFAIIFQPVFGLISDKLGLRKHLLWTITILLILFAPFFIFVFSPLLQMNIMAGALVGGVYLGIVFSSRSGAVEAYIERVSRANRFEYGKVRVSGCVGWALCASITGILFSIDPNITFWIASGFALILGVLLWVSKPESSNSAEVIDALGANRQAFSMRTAAELFRMPRFWGFIIYVVGVASVYDVFDQQFANFFKGFFSSPQRGTEVFGFVTTGGELLNALIMFCAPAIINRIGAKNALLIAGLIMSVRILGSSFATSAVEVIILKMLHMFEIPFLLVGTFKYISSAFKGKLSATLFLIGFNLSKQLSSVVLSAWVGRMYDTVGFHQAYLILGCITLSFTVISLFTLKGSKTLLPATA
+>RAFB_ECOLX/4415
+ASTHKNTDFWIFGLFFFLYFFIMATCFPFLPVWLSDVVGLSKTDTGIVFSCLSLFAISFQPLLGVISDRLGLKKNLIWSISLLLVFFAPFFLYVFAPLLHLNIWAGALTGGVFIGFVFSAGAGAIEAYIERVSRSSGFEYGKARMFGCLGWALCATMAGILFNVDPSLVFWMGSGGALLLLLLLYLARPSTSQTAMVMNALGANSSLISTRMVFSLFRMRQMWMFVLYTIGVACVYDVFDQQFAIFFRSFFDTPQAGIKAFGFATTAGEICNAIIMFCTPWIINRIGAKNTLLVAGGIMTIRITGSAFATTMTEVVILKMLHALEVPFLLVGAFKYITGVFDTRLSATVYLIGFQFSKQLAAILLSTFAGHLYDRMGFQNTYFVLGMIVLTVTVISAFTLSSSPGIVHPSVE
+>A0A026RKY7_ECOLX/4411
+NIPFRNAYYRFASSYSFLFFISWSLWWSLYAIWLKGHLGLTGTELGTLYSVNQFTSILFMMFYGIVQDKLGLKKPLIWCMSFILVLTGPFMIYVYEPLLQSNFSVGLILGALFFGLGYLAGCGLLDSFTEKMARNFHFEYGTARAWGSFGYAIGAFFAGIFFSISPHINFWLVSLFGAVFMMINMRFKDKDHQCIAADAGGVKKEDFIAVFKDRNFWVFVIFIVGTWSFYNIFDQQLFPVFYAGLFESHDVGTRLYGYLNSFQVVLEALCMAIIPFFVNRVGPKNALLIGVVIMALRILSCALFVNPWIISLVKLLHAIEVPLCVISVFKYSVANFDKRLSSTIFLIGFQIASSLGIVLLSTPTGILFDHAGYQTVFFAISGIVCLMLLFGIFFLSKKREQIVMETPV
diff --git a/Exercise11_files/Problem2/.DS_Store b/Exercise11_files/Problem2/.DS_Store
new file mode 100755
index 0000000..5008ddf
Binary files /dev/null and b/Exercise11_files/Problem2/.DS_Store differ
diff --git a/Exercise11_files/Problem2/Problem2.py b/Exercise11_files/Problem2/Problem2.py
new file mode 100755
index 0000000..828c21a
--- /dev/null
+++ b/Exercise11_files/Problem2/Problem2.py
@@ -0,0 +1,29 @@
+import pandas
+import numpy
+import re
+
+infile=open("motifsort.fasta","r") #Open input fasta file as read-only
+outfile1=open("motif1.fasta","w") #Create 3 new files - one each to store sequences that match a motif
+outfile2=open("motif2.fasta","w") 
+outfile3=open("null.fasta","w") #And one for sequences that do not match either
+
+for line in infile: #Loop through each line in the fasta file
+    line=line.strip() #Strip newline characters
+    if '>' in line: #If the line has a >, it's a sequence ID - store it for later reference
+        seqID=line
+    elif re.search("AKKPRVZE",line): #Check for matches for motif 1
+        outfile1.write(seqID+"\n") #If motif 1 is a match, store the sequence ID, followed by the actual
+        outfile1.write(line+"\n") #sequence read in the file for motif 1
+    elif re.search("AAQWWRNYGG",line): #Chaeck for matches for motif 2 if there are no matches for motif 1
+        outfile2.write(seqID+"\n") #If motif 2 is a match, store the sequence ID, followed by the
+        outfile2.write(line+"\n") #sequence read in the file for motif 2
+    else: #If neither motif matches, store the sequence ID and the sequence read in the file for no motifs
+        outfile3.write(seqID+"\n") 
+        outfile3.write(line+"\n")
+
+infile.close() #Close all files
+outfile1.close()
+outfile2.close()
+outfile3.close()
+    
+
diff --git a/Exercise11_files/Problem2/motif1.fasta b/Exercise11_files/Problem2/motif1.fasta
new file mode 100755
index 0000000..d982f8f
--- /dev/null
+++ b/Exercise11_files/Problem2/motif1.fasta
@@ -0,0 +1,22 @@
+>sequence2
+MSLKPFTYPFPETRFLHSGSSVYKFKIRYGDSIRGEDIENKEVIVQELEDSIRVVLGNLDSLQPFATEHFVVFPYKSKWERVSHLKFKHGEIVLIPYPFVLTLYVAKKPRVZEDELKWFNENLSTGKPIDDSPLGLVPAERKAARAMKKKRKRMELSVSPSRPGLDRAKMRTSSQGPSKKKFLMETSRNMERNTQQKCQETPAFDGTDVQEQGSRWEDNLAGEITPPVQQSNPPPPAGPTDLGTSGFFGF
+>sequence11
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNNIRGEEIEDKEVIVQELEDSIRVVLGNLDSLQPFATEHFIIFPYKSKWESISHLKFKHGEIVLVPYPFVFTLYVAKKPRVZEDEMKWFHESLSAGKPIKDSPLGLVLTERKAAGAMMRKRKQVEVLSSPSRPGLDRAKIGISSQSPSKKKPLMETRRNREGKTHQEWQETPAFNITDVQEQDSKSEDSPAGQIIPPLQQNNPLPPKGPTELATGGFFGF
+>sequence12
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEIQDKEVIVQELEDSIRVVLGNLDNLQPFATEHFVVFPYKSRWERVAHLKFKHGEIVLVPYPFVFTLYVAKKPRVZEDEMKWIHEDLSPGKPVNDCPLGLVLPERTAAGAMLRKRKRGQVPSSPGRPGLDRTGKEKPSRNGRRLQRLISPMSRTRVGSGNREGCQGRLSHQCRRTIHLHLKDPQSWEPVASLGF
+>sequence35
+MSLKPFTYPFPETRFLHAGPSVYKFKIRYGHSVRAEEITDKEVIIQELEDSIRAVLGNLDNLQPFITEHFIVFPYKSKWERVSHLKFKHEEVVLIPYPFVFTLYVAKKPRVZEDEMKWFHENLPPGKPINDSPLGSAVAEKKAAGDAGKKRKLVEEHGSPRGTALPRSVAEGKAESQSTEATLKKDQNRKKTQQETWKTVTSDTTDVQTQDSKRGHNLPGAMVPALQQSSSPPPQEPGTRSFFGF
+>sequence38
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNNIRGEEIEDKEVIVQELEDSIRVVLGNLDSLQPFATEHFIIFPYKSKWESISHLKFKHGEIVLVPYPFVFTLYVAKKPRVZEDEMKWFHESLSAGKPIKDSPLGLVLTERKAAGAMMRKRKQVEVLSSPSRPGLDRTGKEKPIRNGKRPQHLISLMSRNRILSQRTAQQGRSFPHCSKTIHFHLKDPQSWQLVASLGF
+>sequence46
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEIENKEVIIQELEDSIRVVLGNLDNLQPFATEHFIVFPYKSKWERVSHLKFKHGEIILIPYPFVFTLYVAKKPRVZEDEMKWFHENLSPGKPISDSPLGLVPAEKKAVGAVMRKRKHMDEPSSPSRPGLDRTGKEKPNKDCRRLWPLISLVSRNKILSGGTACQGQLSHPCSTTHLHLRSEQPAASLGF
+>sequence59
+MSLKPFTYPFPETRFLHAGPSVYKFKIRYGHSIRTVATLLKSFQIYLFQDSIRAVLENLDNLQPFVTEHFIVFPYKSKWERVSHLKFKHEDVVLIPYPFVFTLYVAKKPRVZEDEMKWFHENLSPGRPINDSPLGLVVVEKKAAGASKKQKRKLVEQHSSPGGARQPRDKMRSSSQRPSTKKPPMGTRRNRERKPQQERQKTVASDTTDVQEQHSKWGHNLPGAIVPPLQQNNSPPPKELGIRSFFGF
+>sequence64
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEIEDKEVIVQELEDSIRAVLANMDSLQPFVTEHFIVFPYKSKWERVSHLKFKHGESILTPYPFVFTLYIAKKPRVZEDEMKWFAEDLPSGKPADDIPLELVLAETEAEEATMRKWKRKLMEEPSSPSRQGPHRAKMETSSEASSNKKPLKESKRSTDEEAQQEYQDTPASNAIAVKEQDAALGHGLQGLVVPPLQHSSPPPPKEPGARGFLGF
+>sequence66
+MSLKAFTYPLPETRFLHAGSSVYKFKIRYGSSVRGEEIEDKKIVSQELEDSIRAVLGNLDNLQPFTTDHFVIFPYKSKWERVSHLRFKHGAALLEPYPFVCTLYVAKKPRVZEDEMKWAPAGGNGGPTNSAPLHLHKTQKEQDRPGTETSRKKEPPAPPSRGGERRTSLEQSWKELADSPELLLQLTRNWTGESASEKGEAEDSDISFLKDHGSGSSLRHQQKSPPKPSSPPSEGPPKQKHAGFLGF
+>sequence78
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEVENKEVIVRELEDSIRVVLGNLDNLQPFTTEHFIIFPYKSKWERVSHLKFKHGEVVLVPYPFVFTLYVAKKPRVZEDEMKWFHENLSPGKLINDSPLGLVSAEKKSAEAMMRKRRHTEVPSSPRKSGRFFPHLRAKVETSSEAPSKKKPPMETRRTWNDNEQQETPAFDATDVQEQGPKWGDSLAGQMAPSLQWNNPPPPKGPKELGTTGFFGF
+>sequence81
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEVENKEVIVQELEDSIRAVLGNLDNLQPFATEHFIVFPYKSKWERVSHLKFKHGEAVLVPYPFVFTLYVAKKPRVZEDEMKCFHENLSPGKSMNSSPLGLVLAERKTAEAVLKKRKRGEVPSSPARPGLDRAEMGTSSQGLSKKKPPMETRRNRERKTQQECQKTPAFDVTDVQDQDSKWEDSLVGKTIPPSQQNNPPPAEGPTELGTSGFFGF
diff --git a/Exercise11_files/Problem2/motif2.fasta b/Exercise11_files/Problem2/motif2.fasta
new file mode 100755
index 0000000..e69de29
diff --git a/Exercise11_files/Problem2/motifsort.fasta b/Exercise11_files/Problem2/motifsort.fasta
new file mode 100755
index 0000000..df0ff18
--- /dev/null
+++ b/Exercise11_files/Problem2/motifsort.fasta
@@ -0,0 +1,180 @@
+>sequence1
+DEFIALMHGSDPVRVELTRLENELRDKERELGEAQTEIRALRLSERAREKAVEELTDELEKMFEKLKLTESLLDSKNLEVKKINDEKKAAMAAQFAAEATLRRVHAAQKDDDMPPIEAILAPLEAELKLARQEIAKLQDDNRALDRLTKQKEAALLDAERTVEIAMAKAAMVDDLQNKNQELMKQIEICHEENKILDKLQRQKVAEVKKLSLTVKELEEAVLRGGATANVVRDYQRQVQEVNDQKKTLECELAAQWWRNYGGARAKVTANRVAVVVANEWKDSNDKVMPVKQWLEERRFLQGEMQQLRDKLAVAERTARSEAQLKEKYQLRLKVLEDGLRGPPSGSSRLPTEGKSFSNGPSRRLSLGGADNMSKLSPNGLLARRSPSFHSRSSLSSSSSLVLKHAKGTSKSFDGGTRSLDRSKINGNGAHLLNRSTDAVRDCETNDSWKGNADEGTIENTNSNTDESNKETANNKSAEMVSGFLYDMLQKEVISLRKACHEKDQSLKDKDDAIEMLAKKVDTLTKAMEVEAKKMRREVAAMEKEVAAMRVDKEQEVKARRLGSSKGTGSSQV
+>sequence2
+MSLKPFTYPFPETRFLHSGSSVYKFKIRYGDSIRGEDIENKEVIVQELEDSIRVVLGNLDSLQPFATEHFVVFPYKSKWERVSHLKFKHGEIVLIPYPFVLTLYVAKKPRVZEDELKWFNENLSTGKPIDDSPLGLVPAERKAARAMKKKRKRMELSVSPSRPGLDRAKMRTSSQGPSKKKFLMETSRNMERNTQQKCQETPAFDGTDVQEQGSRWEDNLAGEITPPVQQSNPPPPAGPTDLGTSGFFGF
+>sequence3
+GAFNAMFDYHGCWHKDAAATGSLCFDGRFIELYAVEAPRAHLALLDRVKRDVPPFWDPAALAEFIDKYGTHVIAGVKMGGKDVVCIKQLKGSNLTQSDVQSRLKKLSDDKLAQDSPESLTARDDKFLLGLNGSLLLGPGSAAWRSFRPSVVSHKDDILSIHIRRGGVDNGQGHSNWLSTISGSPDVISMAFVPITSLLTGVRGCGFLNHAVNLY
+>sequence4
+GLFNSCFDFGSDSWASDAGDTRCLAFDGYFISLLDLRLDCRPLALAGHVVADVPAAWDPSAIASFIEKYGTHIIVGLSMGGQDVVYVKQDKSSPLSPSVIKEHLDKLGDQLFTGTCTLPPSHCKSRDHKFKVPEAFNVFDAQMTRQRIEGMTAPMSCKEGVTVIYSKRGGDTAASNHSEWLPTVPLMPDAINFKLVPITSLLKGVAGVGFLSHAINLY
+>sequence5
+KAITNDIYIPAEFAACEFSLKSGKSSLYSSHINPGQLIFGQGSDTLHHTSNTHQLPLPPNALGEANIGKLYVSIVEYLRGCQDGAGQPNEPLVVFTSTELVPVVRGCFRYLESDSDELQENIEVYDIQYLFYVLKKEVMDIADLPNEHINKSITDNLFVNDFFEYHSGISCQFHEDNDRGKYCTQSKVARWCYMFSDYMCGDLAIKPLPGKHMPPKQEP
+>sequence6
+KLAEYSMEKTKNDKFSFASQSTSCVFYRSYRLSSSPTLSQEFRKAVRGLPKTYSPENKLKFYRLIDTFGTHYITKVKLGGEVQSVTSIRQCQASLQGLSTEEVQMCLEAEASATIKATVKTELKHCKKDTEKMESKSSFSSLFNDRFTEIKGGQTTEPDLLFSSDKDPSAYKEWLNTLPLIPDIISYSLNSLHELLPTSCPVRKDLRSAIRHY
+>sequence7
+NPFSASIPYKGYFTDLEIKKRKYIVAENTCLHSYATYSLRESIKNINSDFLLDTENLPILSKSITEKTCSKLIYMYNSKNDQCIKFIKPWIDFFRKYGTHVIVSAHFGGKTINTLEVPIHKFEELKIYNYKYPIENNRYLNVFKDRLLLQKILKIEKGEYAYRGGSQDNYMEDEQAEKNNDNLEKKANDVLNKYENSTSNKINLDIKGGTKLNEDWKQLTYEKWRNSIYTNIAPIYLDLFSLSSFMHIEKKESYNNALLYY
+>sequence8
+YSFSASAGYKNALKKLKIQNSIIFMMKIYCLRYYTGISTTTNTWEFTNNFRNALNKLPNTFDGLKEDNECTYEYYITKSHSPQCEKNVNKWMTFFKLHGTHVAHEMYLGGKIIIKVNIEKEEYNKMKETNLDMKTVFDFYFHKMGLSARKNRRIQKFINKMHGSKTVSILGGHPGLNIDDPSFFEKWINSIDKNSMPIRTKLLPFSFFMDDPNMIKAYNDALMFY
+>sequence9
+QFSEKIFPIEIGISSYSLKENKEIASYHKLLYPGKFKNVFARTQMIHGIDARDPRLEQNYSLVCIELIKYIEQFPGLAFFVSKEESLAGDKKCIDEIFLRGNVPIPKQIRFITHIQLFDYWCSIQHIELHEKSSFILNHIFKQLECAERCEYHKKINQKYHCALSDARHTSLMELICMKSYGATIIGSDTLPSVKFV
+>sequence10
+AKYSKSVKKLRRVSGKSYSFVRAKAQLELAQYMLKSNDLMLHPEFLHRLRALPLSYVYGEYRQIFQDYGTHYITEAALGGEFEYTIILNKERLEQSDYTLEDYKKCAQAGLKVGANIYGVYVSAGVHGGSCNGLLNEMGENTARGSMVEDFVSVVRGGTSESITALLSKKLPTPELMRLWGEGVQFNPDFIRRTTQPLYELVTSRDFSQASTLKRNLKRALSEY
+>sequence11
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNNIRGEEIEDKEVIVQELEDSIRVVLGNLDSLQPFATEHFIIFPYKSKWESISHLKFKHGEIVLVPYPFVFTLYVAKKPRVZEDEMKWFHESLSAGKPIKDSPLGLVLTERKAAGAMMRKRKQVEVLSSPSRPGLDRAKIGISSQSPSKKKPLMETRRNREGKTHQEWQETPAFNITDVQEQDSKSEDSPAGQIIPPLQQNNPLPPKGPTELATGGFFGF
+>sequence12
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEIQDKEVIVQELEDSIRVVLGNLDNLQPFATEHFVVFPYKSRWERVAHLKFKHGEIVLVPYPFVFTLYVAKKPRVZEDEMKWIHEDLSPGKPVNDCPLGLVLPERTAAGAMLRKRKRGQVPSSPGRPGLDRTGKEKPSRNGRRLQRLISPMSRTRVGSGNREGCQGRLSHQCRRTIHLHLKDPQSWEPVASLGF
+>sequence13
+VLGGSRSDLAKFARSQHSVDKATFAIHEISCTYYSYRLADHPQLSAEFTKYLRRLPQRVQTKQDRGPYRRLIDTYGTHYIHQVQLGGKVRRITAFRTCLATLKGFAETDVKTCLNAELRMSLGFLPANVTLSNKCDNLLKGNMSMGFYQGFMTHKIEVIGGERYFPDILYQQDPSEAYDSWMNSLHDNPDVISYAIFPLHQLVPDSQIAANLRDAITEY
+>sequence14
+YSKNKSVQRLRQYSETKDKTYMRVSGTVQLASFQMRTRGAMLSPTFIEDIKSLPRDYDKAEYFSILEMYGTHYTVSGTVGGKYDLVYVLDSIVMKSLDITTEDVTDCLKLNAGANIGGTENGAKVDVNPNVKTDICNKGGGETETEPRRTQKPVIESIISFVDGGSVEYVTALEEKLNKKEPVADVDDYIQWASSLKDSPTVINSKSNPIISLIPTDIKDAYIKTRNLERAIEEY
+>sequence15
+GSQESEFFHNVTHYKSTDLGFVRLWSKVETAHFKMRSDKLMLHEDFYISLMDLPEQYDFGMYSRFFNTYGTHYVTQGTMGGTLEYALVLNKTKMAESKLQGEQAGRCFSASIGLSYPIGQGASVDLKLGVNPCSKDGTFNQGSDASSVMVEDIITLVKGGILDSTSGVMVVRNPETYRTWGASLKYNPTLIEHEIMPIYELVRFSTAADHVGARLANLRRAWDEY
+>sequence16
+TDICTVPVEICIKPTLLNGTINIECFQTIINQPIPIQHFLNSKHYTDFEHGISQENNPVPQTDFDFLWKKINTFIKSNMSKYSDSSMLPIIICTPFISSVQCVEFLASQAKVSDVRRSIFNTMFSVDDFVECVNRFKEIIPNTNAIYNFYKPLVCWTCNNDFKCDFHKSNGTRTFCCSKTNSEYLASTLCDLYKTIKSKIFVASMPSQV
+>sequence17
+DRRKFHKTVTESRAHRLIILKNKVELAQFQNTAPEYLTLAEGFWRALSSLPTTYDYAAYRQLFQTYGTHYFSEGSLGGEYQALLELTQHALATTSTTSREYERCWRKVKRRFLRKKVKTVCEKLTSSTAASYVTPWSPGTSMRNVPIKVDVVGGNPGLKRFLSILDLENPEENGRKYDDWASSVKDFPQIIEQKVRPLYELVKEVECAGLKKLHMKQALEEY
+>sequence18
+VNYEHKLENKSLNKLLTKNNLSIKKINCSIHTSGMIISYQWKLKKSISILLNDIQNKLVKDSGHTSNSNPQKNQKNIEKDWYNIFNTYGTHVLTKITLGGKIIEINAVEGGQNITENTSIFGSKLDINFFKMSLNSNSKDKLHDLDKNKSEKIIILGGNAMTTDRKTTNNNGEINYDKKLDKQKWVETIKYNPVPIKFELTPLSYFIYQNFSDENLVNSFHYF
+>sequence19
+HGDMPSLCEQRYVPCEIACVRYSLREGILGSFHDFIDPGELPRGFRYHCQSGSASTHQIPISGFELANSDYHNMFRKLCSFVCPTPCPVVPVYTKANDIYRVDWCLQWLANKAGMENHFRVQEVETLIIKFYQDKLQEEPSRPTVSRLLDVVQWDYSSNTRCKWHEDNDMWCCALASCKKIAYCISKALASVYGVTLTPAHLPNPERS
+>sequence20
+VSLSGEYVPAELAIIKYSLNDGVMDSLNVLINPTDLPLGMALDAKTHSSSTHQLPVPPDALGEANYEKILRQILKFFKNTSGSKVVPPIFTWNKDIPMVDSILRGILEATDLDYVKFSILPLIDFFYNLKLATEDYGLDIKTFPSIHLAKALLEKDVYAYTAGIACDVHEQLNNQVACALSRVVRWAYVISDSCCLDVGIEMEKGRHLPHNMTT
+>sequence21
+FSFSASTGYKNFVKSTATNKVRTYITKTYCLRYVGGIVDYHSLDTTDEFKKAVEALPDKFDSHSCTIETFKSNEDDSICAETVLPWMQFIKMFGTHFTTIVHLGGKITHQVQIDKSDVLHMQQNGINVDAAVKASISPVMVDSLQGGFASTSEKASLSQSNNLKYDKQVLVIGGDGLVDSKNANSLNNWAKELYKRPMPIKIKLESIKSLLGKKRELFDEALKFY
+>sequence22
+LAHSDPIVLEFNRLQNQLKEKDRELGVASSEIKALRATIVLKDKALEQFRNEVNKLDERLGVIENLLKQKDLEIKKLTSEKKDALAAQFAAEAALRRVHANQKDDDTVPIEDVIAPLEADIKMYKIEIGRLQEDNKALERHIKSKESALLEAERILRSALERALIVEEVQNQNFELKRQIEICQEENKILDKTNRQKVLEVEKLSQTIQELEEAILAGGVAANAIRDYRRQISELNEEKRTLERELAAQWWRNYGGARVKVSANRVATVVANEWKDENDKVMPIKQWLEERRLLQAETQRLRDKLAISERTAKAEAQLKDKLKLRLKTLEEGLKQVSSFSENPYLSCRSPKPEKSNHILGFLSGNGGLKRRSTSQPRGSCIGKTSPLMPPNVENGAADAAGELKGVNSLKKKYASGENMLRKSLWASRSKVADIGGKENTEMKSNTDMHIDKFNNDTAVSADAKIKGGAKEETQNVGSAGFDSEDMVSAFLYDRLQREVINLRKSCEVKNNTLTAKDDEIKMLMRKVDALSKAIEVESKKIKREAAAREKEAISTKADENKKIRNTDSSKRRVA
+>sequence23
+SHSRSSQFASSHSRKDKFSFTTHNLKCSYYTFRIHSRPPLSKEFEESLKNLPSTYDHKNTSAFTQFLSVYGTHFIRRVRLGGHVNSITAIRTCQASMSQMSVQTVSNCLSVEAQANIKGVTVSAATQFCKTKSSKLKTGATFRQAFSDRSIEVLGGDGDVGDVLFNSNGVAGFKKWLASIKRVPGLVWYQISPLHLLVPDNPVLQETLSKAISHY
+>sequence24
+SSDPIVLELNRLENHLKDNDRELGIAHAEIKALKVTERLKEKAVEELNDDLKKLDEKLRFTENLLEDKNLEIKKLVSERRDALAAQFAAEATLRRVHANQKDEDYIPLDAVLAPMESEIRMCRNEISVLQEDKKALERLTKSKELALLETERMLKIAIERALLVEDLQNQNLELKRQIDICQEENRILDKANRQKVAEVEKLSQTIHELEESILAGGAAANAVRDYQRQILEMNEERRTLERELAAQWWRNYGGARVKILANRVATVVANEWKDDNDKVMPVKQWLEERKVLQGEIQRLRDKLNVSERTAKAESQLKDKFKLRLKTLEEGLKQVTTSSPNTEGSHLKQTVKPEPVLGYLSSNMGPRKRSQSQPRASFNAEQSTVQQRPNVTSENSNSNRTLEHVNSLKYKYISGKNLVKKNLWAPRNKLVDDVGKENSERKEDVGLEEFASVGPEVSKDFSAEAHSMQSTPEKDDLNVDCEDIVSGFLYDKLQKEVLNLRKSSQEKDGLLTAKDEEIKMLVKKIDTLTKAMETELKKMRRESASKERELTPRRVQKDPLHKSSTMIISKRAVKSV
+>sequence25
+KAIGNDIYMPAEFAACKFSLRSGRGPVYSSHINPGQLIFGQASDAQHHTSTTHQLPLPPKAMGESNMGSLYVNIVKYLRDCQGAGNPLVVFTTAELMPVVSGCFRYLQSDSDEVGEQIHVYDILYLFYVLKKEVMDIADLPHANINKCITDNFFFNDFFEYYSNIACQFHEDNDRGKYCTHSMVSRWCYTFCDYMCGDLAIKPLAGKHMPPVQEQ
+>sequence26
+ASFSASADFKQMKDTLSQKDTQCIQSHATCTAFDLSFYNDINSLPLLSLQLVDKIQQLYSYSNYTNEKEYYYDFFDSWGTHVATSVRLGSLFGYQFKMSSSSVQQQSSLGFDASVGASLYGVKGKVSTSYAQQQLNSFQQSLKSWSSYSLGATPNANLDAAQWATQTLDTPMPIKTELTPIYTFISQYQNNADIPLNSTTMAYVVNAMQNY
+>sequence27
+FSASATNEFSDSSLRKSENEFSRCQQSFDLWSISIPADIARLQNYVSDDFIKLINAINPESKDSIATVFNVYGSHVLMSGVMGGKAHVSASANKLTLTQKFEMSTIVQAKYEQLTSQLSVEDKLKYSEAFDSFSESGSYTYDILGGSPSLGALVFKNNSQGSSDDNLKNWIQSISSMPVLTKFIDQTSLMPVWLLCEDKTKADALKKY
+>sequence28
+EDIIHLLHGSDPIKVELNRLENEVRDKDRELCEAHAEIKALRQTERLKEKAVEELFDEREKLQEKLKAMEIALENKNLDLKRTNDERKSALAAQAAAEATLRRLHASQKDEDLLPLEAILAPVEAELKSTRNDFLKLQDDNKALDRLTKSKEAALLEAERAVQIAEAKASLVDDLQNRNQELLKQIEICQEENKILDKMHRQKVAEVEKLSTTVAELEEALLAGGAAANAARDFERQVHHLMEEKRTLERELAAQWWRNYGGARAKVTANRVAVVVANEWKDANDKVMPVKQWLEERRFMQGEMQQLRDKLATTERTARSEAQLKEKLQVRLKVLEEGLRTSTNGSTRKHDDFLRSGTNGASVRRQSTGGSDIGNGVARRRPSMSSASQMRGSVSGSTILKNGKFGSKAFDGSKSLDAGRFKAYANGCEEPRKVSSAASGAGGGGGGGGGGGDVKPEAGKVEGATVAAADDNVSVLFYDMLQKEVVTLRKLGHEKDQSLKDKDDAIEMLSKKVDTLTKAMEVEAKKMRREVAAMEKEVAAMRVDKEQENRARRLSIAKGSVNSSHA
+>sequence29
+GSFSASTGYKKFINEVSKRTSKTYFIKSNCIKYTIGLPPYVPWEQTTAYMNAVGILPKEFTGLNEDSCAPDVYEQKKMTKQCKNVHQWIQFFKTYGTHIIVEAQLGGKITKIINVSNTAVNQMKKDGVSVKAQIQAQFGFASVGGSTSVSSDNSSKNDNSSYDMSEKLVVIGGNPIKDVTKEENLYEWSKTVSSNPMPIHIKLLPIYKSFDSEELKESYEQAVLYY
+>sequence30
+KYNINRLLCYPAEIAITTFNMKEGIIYSDSKFVEFDERWAFGQDERDHRTMSERVNENEDLDELMHQLSSTIGIDHLSTDHNPESPFGVFEWLRSRIDIYPYAKILVDMNQFRFVYNGLKNIAKYHGFTGQTYFNENIKFNMVSIQDFTDVLLDYCSLLVARRWSDQDINNQYLRPNLVPNRDKNTICEYHETVPCPTRYNCMKAHNSRLVHHFFTIMKAHRLQNFRYSPPVHEPCIEDM
+>sequence31
+NGKFSTENQRMKIHQVKDSSVTTRVQIRNFIYKVKVFPDFSLDVRFAQQAKEIADAIENNQSRYADYLSERMVMDFGTHVITSVDAGASLVEEDYLNSKYVSDNVSQSSSISAQAGLNFFDKLKFDISSHNSQQSSTLQGYQSNIRYSLIQSHGGGIPFYPGMTLQKWQESTRNNLVAIDRSGLPLQYFISPNMLPDLPQPTVRKVSHLVRSAIERY
+>sequence32
+ISLGINHELDQFHQEITQNNKAVSVSQSYWAQYSLTTAPAFLMPLNPMFKQSLDALNRMAKEPTTDTQQTIYNQVINSFGTHYVTSAIMGGAAKIYTTLDQNYLKTVDIEQTKTQIGINFSYNVFQFKFGFNSTDLAQKLDENFKKNSNDIIIFSPEVDHISDPKAWSTWESTVPEKPQPVNTTVSYISDLAYEFPEVQAHLRKTIEFY
+>sequence33
+KAVNTDIYIPAEFSACEFSLKTGVNSLYSTMIDPSQLIFGQTCDAMLYAAATHQLPLPPAALGESKMTKLYHSIQDYLRSRLERTDKNLKSLVVFTKTDDIDMVKSCFRFIKSGYHDEQSKRYDDDNDEENDQFKFFEAAASKFLPIVVYDIQYLFLALKLAAMDIGGLTLPKPNLYITDAFFSRDFYEFQDGIACWFHEDMDRSKYCTQSKVKRWAYTFCDYMCADLAIKMQPGKHMPPSYKA
+>sequence34
+KALTGDIYVPAEFSACRYSLKGGISSNYSTMINPGHIIYGQSRDAQDHSKTTHKLPLPPQAFGETNMGKLYIDIFNWLSVRNEEKLDQDPVIVYTTPELMPVVKSCFRYLASEAEIDEDERKIMVFDIHHLFYTLKKSVLDVAGVTNDRINFHVTNNFFVKDFFEYTEGISCDYHEKIDRSKYCTNSMVKRWGFTFSDYMCADLAIPLQPGKHIPLKVKP
+>sequence35
+MSLKPFTYPFPETRFLHAGPSVYKFKIRYGHSVRAEEITDKEVIIQELEDSIRAVLGNLDNLQPFITEHFIVFPYKSKWERVSHLKFKHEEVVLIPYPFVFTLYVAKKPRVZEDEMKWFHENLPPGKPINDSPLGSAVAEKKAAGDAGKKRKLVEEHGSPRGTALPRSVAEGKAESQSTEATLKKDQNRKKTQQETWKTVTSDTTDVQTQDSKRGHNLPGAMVPALQQSSSPPPQEPGTRSFFGF
+>sequence36
+NSFTGSLEYKNALMNFKSKRQKIYNKTEQCVRYQVGIPLNLKWGYTEYFNRTLSRLPILSSKVIKNCNIDNKLNLSDEECKSIKPWIKFFEVFGTHFNNQLTLGGKINQTMVFDSSTLEELKKKGIDIEAEVRTELGSGNVKLNLDMGGKKSRLDEIGQKKMSVLGGKMPNFPMDDNEFAHWAETVAENPMPIGVVSTSLKTLMHPAMHQSYDQALHQY
+>sequence37
+VNGKFSTEFQRMKTLQVKDQAVTTRVQVRNRIYTVKTTPTSELSLGFTKALMDICDQLEKNQTKMATYLAELLILNYGTHVITSVDAGAALVQEDHVRSSFLLDNQNSQNTVTASAGIAFLNIVNFKVETDYISQTSLTKDYLSNRTNSRVQSFGGVPFYPGITLETWQKGITNHLVAIDRAGLPLHFFIKPDKLPGLPGPLVKKLSKTVETAVRHY
+>sequence38
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNNIRGEEIEDKEVIVQELEDSIRVVLGNLDSLQPFATEHFIIFPYKSKWESISHLKFKHGEIVLVPYPFVFTLYVAKKPRVZEDEMKWFHESLSAGKPIKDSPLGLVLTERKAAGAMMRKRKQVEVLSSPSRPGLDRTGKEKPIRNGKRPQHLISLMSRNRILSQRTAQQGRSFPHCSKTIHFHLKDPQSWQLVASLGF
+>sequence39
+SSHNSAFKQAIQASHKKDSSFIRIHKVIKVLNFTMKTKDLQLSDVFLKALNHLPLEYNAALYSRIFDDFGTHYFTSGSLGGVYDLLYQFSNEELKNSGLTQEEAKNCIRIETKKRYFIVTKTKVEHRCTTNRMSEKYEGSFLQGSEKSISLVKGGRSEYAAALAWEKGSSGPGEKTYSEWLESVKENPAVIDFELAPITDLVRNIPCAVTRRNNLRRAFREY
+>sequence40
+EDLLNLLHGSDPVKVELNRLENEVRDKDRKLAEATAECKVLKQRERLREKAVEELAEELDKVDEKLKAAEDLLESKNLELKKLNDEKKAALAAQFAAEATLRRVHAAQKDEQLPSIEEILSPLEAELKIARQEIAKLQDTNRALDRLTKSKEAALLEIERAIDAAEAKASQVDDLLNRNQELMKQIEICQEENKIMDKMHRQKTAEIEKLSSTVAELEEAVLAGGAAVNAARDYQRQAHELLEGKKTLERELAAQWWRNYGGARAKITANRVAVVVANEWKDANDKVMPVKQWLDERRFMQGEMQQLRDKLASAERTAKNESQLKDKFQMRLKVLEESLKPVTNGAPRRTEEVRSSSTTRRSTSGSEEASKLLANGSRRQRSAVTQVRASMASQTLMRATNGRMTSKSFDGGRSLDAGTTRLRAFSNGFEEVPVKPDSVEAKSEVEAVKSENGTTNQVSGSSSSVEDPVSGVLYDLLQKEVVNLRKASYEKDQSLKDKDDAIEMLSKKVDTLSKALEVEGKKMRREVQAMEKEVATLRAEKDQTRNPRRLSSGTGTVNSSSK
+>sequence41
+YSGYNNDEYTHDDMLHNLNKHNKLLIKSYKCIVYKANLTSLNFLKNKNNDEIGLNFNGMLILNVLKKLNKNCNSEFDNQKCPISMFRNDPFDANCIRCIMPWMEFFKDYGTFMTKEITMGGVINKFYNIKKYEGSMRKEYKKKTIKQSSTFFHLSKSRSESLNEKKSGETNKEELEELYTLTIGPEPPGNVSNSKVISDWLEKVVHNPTPIDLELVPIKQIIPEKYLKIYENALKYY
+>sequence42
+NEFITLLHGSDPVKVELNRLENEVRDKDRELGEAQAEIKALRLSERLREKAVEELTDELSKVEEKLKLTESLLESKNLEIKKINDEKKASMAAQFAAEATLRRVHAAQKDDDMPPIEAILAPLEAELKLARQEIAKLQDDNKALDRLTKSKEAALLEAERTVQVALAKASMVDDLQNKNQELMKQIEICQEENKILDKMHRQKVAEVEKLTQTVRELEEAVLAGGAAANAVRDYQRKVQEMNEERKTLDRELAAQWWRNYGGARAKVTANRVATVVANEWKDANDKVMPVKQWLEERRFLQGEMQQLRDKLAITERAAKSEAQLKEKYHLRLKVLEESLRGSSSNTRSMPEGRSTSNGPSRRQSLGGADNFSKFTSNGFLSKRTPTSQLRSSLSSNSVLKHAKGTSKSFDGGTRSLDRGSRALLNGSSPNCSFNQPCDETKDTEAANMWKGNSDEKPVEFPVTETEDTVPGVLYDLLQKEVVALRKAGHEKDQSLKDKDDAIEMLAKKVETLTKAMEVEAKKMRREVAAMEKEVAAMRVEKEHENRAKRFGSSKGPVGAAQL
+>sequence43
+SGSRESAFLNKLSKYNEKKYSFIRIFTKVQTASFKMRRDNIMLDEVMLQSLMELPEQYNYGMYAKFIDDYGTHYITSGSMGGVYEYILVLNKENMTKSGVTSDDVTSCFGGSFGIDYDYTDNLQITGSLSGKHCKKLGGGHREDEESNMAVEDIISRVRGGSSGWGGGLTQNGSIITYRAWGRSLKYNPAVIDFEMKPIYEILRHTNLGPLEAKCQNLRRALDQY
+>sequence44
+KALTTDVYVPAEFSASEYSFNEGIMSVYSTLIDPGQIIFGQGSDAQHHSSTTHNLPLPPNALGEKNMGKLYRNILEYLSKIQEGKDATKPFVVFTKTDMVPVVKSCFRYLACENQDGSYENGDQIQVLDIQYLLFILKKEVLDIAGVSDEKINLYVTDAYFLKDFFEFTPEISCQYHEENDRSKYCTQSLVMRWAYTFSDYMCSDLAISVQPGKHIPPKTKP
+>sequence45
+SVAGSHSKVANFAAEKTYQDQYNFNSDTVECRMYSFRLVQKPPLHLDFKKALRALPRNFNSSTEHAYHRLISSYGTHFITAVDLGGRISVLTALRTCQLTLNGLTADEVGDCLNVEAQVSIGAQASVSSEYKACEEKKKQHKMATSFHQTYRERHVEVLGGPLDSTHDLLFGNQATPEQFSTWTASLPSNPGLVDYSLEPLHTLLEEQNPKREALRQAISHY
+>sequence46
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEIENKEVIIQELEDSIRVVLGNLDNLQPFATEHFIVFPYKSKWERVSHLKFKHGEIILIPYPFVFTLYVAKKPRVZEDEMKWFHENLSPGKPISDSPLGLVPAEKKAVGAVMRKRKHMDEPSSPSRPGLDRTGKEKPNKDCRRLWPLISLVSRNKILSGGTACQGQLSHPCSTTHLHLRSEQPAASLGF
+>sequence47
+KALTTDVYVPAEFAACEYSLKEGIRSIYSTMIDPGQIIFGQGSDALLHSSTTHDLPLPPNALGEKNMTKLYRNIVDYLSKCQGKGKTLVVFTPAENITMVKSCFRYLECDDDFRDGGEKIQVFDIQYLLFILKKEVMNVADLNDEKINKFATDAFFKKDFFEFTAGIACQYHEDNDRTKYCTQSMVTRWAYTFTDFMCGDLAITVQPGKHIPAQTK
+>sequence48
+AKFSLSTNYSEISDLLKNNDNKLYVDKSYCFLLEAALPIHNSLKMTRSFATAMSKLTRDFKKHTKDCNAIKYSINKNNKDCKEIKNWMELFDQFGTHFSYNIKLGGRITFITQEEGSKDERGNEKSVDVGVGGKFEKDNKGVGIEGNVKFVFGNKRGESKNLSFKYTNILGGLPVSDISKESEYVKWIKSVYKYPMPIRTQFAPISKIFKSKALKDSYDEAFRFY
+>sequence49
+GSFSASVGYASASNTISKKKFRMFILKSYCFKYVASLSQYSQWKLSDQFLRAINLLPSYFNSLEHDGKYCNAEELRDNKTGMDSCGKSVESWLYFFKNFGTHVSTVIHLGGKITQQVKISKNEYKSLSESGLSTSVSASVGFGLFKANASSSTDSKESSNEESSNSSIEKETVIIGGTTIYDPNDPSNFEKWADSIKNNPMPIKGQYEPLSRILPERLTKIYDEALSFY
+>sequence50
+NIDGECMLAEMAMNEFSLFSGIVEKFHAIVGPWMPESESHRRRASRHALETHRIPLQNNFATITKKRLVEEILGRVEPSIACHQGVKVGLYSDACNEKTKIDLNIKNNFKDPGMLCDKNDRRFILVLQSELDLMVDSMKHLANNVGFHYDGFPVTPNCFVIVEAFVEAISDIMNEKIDVETMRWFSLLGQKVDAEDSVSPWETGTDFHCARHSEPKSNFCASVTVGRTCCIVYHVIGSFFRRYHLKKIPTAHQPSSSNS
+>sequence51
+KALNGDVYQPAELSACRFSLKGGISSNYSTMINPGHIIFGQTSDAQDHSRTTHKLPLPPNAMGEKNLGNLYSDTLKWLSASNDEEDEQYDHPVIVYTTPELMPVVKSCFRYLACEGDTDKHAKKIIVYDICYLFLTLKKTVLDLVGVPSDHMNIHVTNSFFRRDFFEFSSGIACDYHEEVDRTKYCTKSMVLRWGYMISHYICGDLAIPLQPRKHVPIEVKH
+>sequence52
+RTNTGVHLPAELAVVRYSLEGGVKDKLHMFINPGRLPIGMAYDAQRHAEEDHQLPLPPNAMGVSDYGDVAMRLFSFLLQNDDMPLLFTDETDVPRVESMLEHILSDHLSEIELRICPLAELFFRLKQNVELYMMDQTTFPSVYIAQQIITKDVYDYTKGISCDYHEEKDNVLYCPLSRCIRWAYIISDNCCQDMGIEPIPGKHVPLNANT
+>sequence53
+FSGSLTCEFVKKSTQHAKNTVTCSTAAHSLYTLKEDDSSNPSEKRLDSCFRNWIENKLSANSPDSWSAFIQKFGTHYIASATFGGIGFQVLKLSFEQVEDLHSKKISLETAAANSLLKGSVSSSTESGYSSYSSTSSSHTVFLGGTVLPSVHDERLDFKDWSESVHLEPVPIQVSLQPITNLLVPLHFPNIGAAELSNKRESLQQAIRVY
+>sequence54
+WAFTASSEFNHMQQKIEQTSATFVISMATCQIAQITQVPELAEFHQSFIDQLSALPVEYSAPQYLEFLSNFGTHYATDIILGSKVGYVYTLPPAIVDDFDQKKFKEIDLKQAATITSALLKGVIGQQILPKEQEAKAYSDVSKLSTQSFTIEIGPQSTENTPKDWLRETELEPTPIRYTLKSISELVSEGKGQLSSVKEYQKIGQNLKKALTDY
+>sequence55
+DLMNHFNGSDPVRLELTRLENEVRDKSRVLAEAQAEIKSLRLSDRQKQKAVDELSDKLEKVDEKLKGTLILLDNKNLEMKKLNDERKAALAAQTAAEATLRRVHASQKDNDMPSLEVILAPLEAELKIARDSAVVVVTLQISKLQETNRALDRLTKSKEAALIESERVIKAAEAKASMVDDLQNRNQELLKQIEICQEENKILDKMHRSKVNEVEKLSATVRDLEEAVLAGGAAVNAARDYQRQVHELMEIKRTLERELAAQWWRNYGGARAKISANRVATVVANDWKDESEKVMPVKQWLEERRFLQGEMQQLREKLASAERTCKSEAQLKEKVQLRLKVLEEGLKSGNGTVRRGAGAGGTVEAKRSSSVTSNGSVRKGSGSEEGAKVLANGSRARRSAVSQLRAMGGPLVKNGRLTSKSFDGGGGGRSSSGGSYDAGGMAALKPFTNGFEELRAGIKTESRSCSGEAAGDAGEGAGDTVSGVLYDMLQKEVISLRRASQEKDQSLKDKDNAIEMLSKKVDTLGKAMEVEAKKMRREVTVMEKEVASMRVDKDQERRMRRLSMMKEPVNSSQR
+>sequence56
+VTSGGTYIPAEMGLVRYSLKDGVMDKLHMFIDPGKLPLGMAYDAKQHSESDHQLPIPPDAKGEKDNDEIILKLFSFLSQQEKMPPLFTETNDIRMVENILKGILNQGSMDENTLLVCPLSELFYQLKRATESFGLDIKTFPSVHIAQAIIQKDVYEYTKDISCEFHEDQGNGKYCPLSRCVRWAYIISDSCCLDLSIEMKPGRHLPMNADT
+>sequence57
+KSMTNDIYIPAEFSACQFSLKSGICSMYSSHIDPGQLIFGQGSETMHHTKHTHQLPLPPNAMGESDIGRLYANIVEYLRACNPDAKPNDPLVVFATPEFMPIVKGCFRYLESDSEEPLATIHIYDIQYLLYVLKLEVLDSVDIRNVTVNRTATDSLFINDYFCYHLGISCQYHEDIDRCQYCTQSIISRWCYVFSDFMCGDLAITPLPGKHMPPKQEP
+>sequence58
+SSSRSYTSHTNEIHKGKSYQLLVVENTVEVAQFINNNPEFLQLAEPFWKELSHLPSLYDYSAYRRLIDQYGTHYLQSGSLGGEYRVLFYVDSEKLKQNDFNSVEEKKCKSSGWHFVVKFSSHGCKELENALKAASGTQNNVLRGEPFIRGGGAGFISGLSYLELDNPAGNKRRYSAWAESVTNLPQVIKQKLTPLYELVKEVPCASVKKLYLKWALEEY
+>sequence59
+MSLKPFTYPFPETRFLHAGPSVYKFKIRYGHSIRTVATLLKSFQIYLFQDSIRAVLENLDNLQPFVTEHFIVFPYKSKWERVSHLKFKHEDVVLIPYPFVFTLYVAKKPRVZEDEMKWFHENLSPGRPINDSPLGLVVVEKKAAGASKKQKRKLVEQHSSPGGARQPRDKMRSSSQRPSTKKPPMGTRRNRERKPQQERQKTVASDTTDVQEQHSKWGHNLPGAIVPPLQQNNSPPPKELGIRSFFGF
+>sequence60
+KDACTPAELAVVQFTLKHGMRNIYHTLINPDGSQYATQEHVRATHQYPNALGNDDLEGILADLLEFVRLECGPEAELSPMFTLESQISVVNNALEFLNGGVASQLKVHPIEYLFYVLKKATCAAGILPPPASFHITNAQFNLDPHEFLSDIGCEFHKQRDLTAHCAKSYVTRWAFAFADYMCSDLAIKMLPNRHMPNRLDT
+>sequence61
+EDVINLLHGSDPVRVELNRLENEVRDKDRELGDAHAEIKALKYSERLKEKAVEELTDELQKVDGKLKATEALLESKNLEIKKINDERKAALAAQFAAEATLRRVHAAQKDDEMPPIEAIIAPLEAELKLARLEAAKLQDDNRALDRLTKSKETALLEAERTVEIALAKASLVDDLQNKNQELMKQIEICQEENKILDKMHRQKVAEVKKLTQTVCELEEAVLAGGAAANAVRDYRRKVQEMNDERKILDRELAAQWWRNYGGSRAKVTANRVAVVVANEWKDANDKVMPVKQWLEERKFFQGEMQLLRDKLAVAERTAKAEAQLKEKYQLRFKVLEERLRASPSGNLRTTSEGRSISNGPSRRQSLGGAENLSRSASNGFALRRTANSQSGSIRSNSASVLLRNAKISSRSFDGGSRSLDRDKVIPNAARKHEVLTDTNDQIQNAKTIGTHEASTNGNRSEKTKSELDDSVSGVLYDMLQKEVITLRRACHEKDQSLKDKDDAIEMLAKKVDTLNKAMGVEAKKMRREVAAMEKEVAAMRVSKEHDPRARRPSAPRGSQ
+>sequence62
+DDFISLFHGSDPVRVELTRLQNELREKDRELGDALAEIKSLRNSERLKEKGVEELTDELIKVDEKLKAAEALLESKNLEIKKINEEKRAALAAQFAAEATLRRVHAAQKDDEMPPIEAIIAPLEAELKLARMEVAKLQDDNRALGRLTKSKEAALLEAERTVQIALAKASLVDDLQNKNQELMKQIEICQEENKILDKMLRQKVAEVEKLTQTVRELEEAVLAGGAAANAVRDYQRKVQEMNDERKILEREVAAQWWRNYGGARAKVTANRVATVVANEWKDANDKVMPVKQWLEERKFFQGEMQQLRDKLAIAERTAKAEAQMKEKYQLRFKVLEERVKTSNGNSKFTVSDGRNIATGPSRRQSFGGAESLSASSSNGYQSRKTSISRPGSLRSNSANVLLKHAKLSSRSFDGGSRNLERERPTSDANGLDNMPRNSNIQTITSETITTHEESANGTPVKKSKSENEDYVSGMLYDMLQKEVISLRKACHEKDLTLKDKDDAIEMLAKKVDTLSKAMEVEARKMRREVASMEKEVAAMRISKEHDHRARRASAPRGAVNSQSI
+>sequence63
+IDLANEPLYREAVKASQQKDSVFYRVHQVIATSTFKVKSSDLYLSDPFLQFLNSLPLEYNYALYRHIFQLFGTHYFSSGTLGGKYDLLFQFDREELKTFGLKESDSEYCLSDDDTLVTFFYNRHKQRNTCGNISMKTKYEGSMVKASERCITSVQGGRTEFAAALAWEKKGVSPQSTVYTDWIKSTIENPVVINYELLPLVNLVRGISCAVTKRRHFHRALEEY
+>sequence64
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEIEDKEVIVQELEDSIRAVLANMDSLQPFVTEHFIVFPYKSKWERVSHLKFKHGESILTPYPFVFTLYIAKKPRVZEDEMKWFAEDLPSGKPADDIPLELVLAETEAEEATMRKWKRKLMEEPSSPSRQGPHRAKMETSSEASSNKKPLKESKRSTDEEAQQEYQDTPASNAIAVKEQDAALGHGLQGLVVPPLQHSSPPPPKEPGARGFLGF
+>sequence65
+HPFNDSNYYKMLVKRINRGDSIIIEKKLCSKYFSFINDINKNDLDTFFLTTLNELGDNYQNIKDDTYKCSLQYYKMNNMNKYSENCLKTITPWISFFNMYGTHVISGVYYGGKIIHNLYFENNNLKKKEYKIRMYKSRLNPFSTINSNLYFGSSLSKEKIIYIRERNLIMDGGVHINPYNINEVNMENKKKNIYVNNVEKNLYDQKKKYRNYYNFYELKDDVRKRNYYNSWKDTIEWEQAKPVKLNLVPLSEFINSEEGKSAYYMALEFY
+>sequence66
+MSLKAFTYPLPETRFLHAGSSVYKFKIRYGSSVRGEEIEDKKIVSQELEDSIRAVLGNLDNLQPFTTDHFVIFPYKSKWERVSHLRFKHGAALLEPYPFVCTLYVAKKPRVZEDEMKWAPAGGNGGPTNSAPLHLHKTQKEQDRPGTETSRKKEPPAPPSRGGERRTSLEQSWKELADSPELLLQLTRNWTGESASEKGEAEDSDISFLKDHGSGSSLRHQQKSPPKPSSPPSEGPPKQKHAGFLGF
+>sequence67
+CEQRFLPCEIGCVKYSLQEGIMADFHSFINPGEIPRGFRFHCQAASDSSHKIPISNFERGHNQATVLQNLYRFIHPNPGNWPPIYCKSDDRTRVNWCLKHMAKASEIRQDLQLLTVEDLVVGIYQQKFLKEPSKTWIRSLLDVAMWDYSSNTRCKWHEENDILFCALAVCKKIAYCISNSLATLFGIQLTEAHVPLQ
+>sequence68
+GKFSEENTRMKIHQVRGNSVTTRVQVRNHLYTVNAYPDFTLDSRFSQQISELADAIENNQTRQAMYLSEKVILEYGTHVITSIDAGATLVQEDYIKRSYVSDTNSERSSVSASAGINFFNMVNFNFGSKETEQTSETLTYQQNITYSLVQSHGGALFYQGITMQKWQESTQNHLVAIDRSGLPIHYFLNPAVFPDLPVPTLHKLAFSVQKAAERY
+>sequence69
+EEFINMLHGSDPVRVELCRLENEVRDRDRELSEAQAEIKALRLSERAREKAVEELTEEVNKMDEKLKLTESLLENRNLEIKKINDEKKAALAAQFAAEATLRRVHAAQKDDDMPPIEAILAPLEAELKLARQEIAKLQDDNRALDRLTKSKEAALLEAERTVQIALAKASMVDDLQNKNQELMKQIEICQEENKILDKMHRQKVAEVEKLSQTVRELEEAVLAGGAAANAVRDYQRKVQEMNDEMKTLDRELAAQWWRNYGGSRAKVSANRVAVVVANEWKDSNDKVMPVKQWLEERRFMQGEMQQLRDKLVIAERTARSEAQLKEKFQLRLKVLEDGSRMSASGTYRTTIEGKSVSNGPSRRQSLGGADNVPKSVNGFLSKRPSFQMRSSVSSSTVLKHAKGASKSFDGGTRSLDRSKVLLTGAGLSLNRSSDATGDGVTHESWKKIPDEKTNDFPNVDSDDCVSGLLYDMLQKEVITLRKACHEKDQSLKDKDDAIEMLAKKVDMLTKAMEVEAKKMRREVAAMEKEVAAMRVEKEQDNKSKRLGGSKGLANSSQL
+>sequence70
+GMFNNMFAFSKCWPKDASSVKTLAYDGWFISLYSVEIVRKQLTLRDEVKREVPSSWDSAALAGFIEKYGTHVVVGVTMGGKDVIHVKQMRKSNHEPEEIQKMLKHWGDERFCVDPVESKSPASVYSGKPKEENLLQWGLQPFGTSVSSAVVMHTKNEEIMRVCIRRGGVDLGQSHERWLSTVSQAPNVISMCFVPITSLLSGLPGTGFLSHAVNLY
+>sequence71
+GNFNATFGFQSGSWATDAANVKSLGLDASVVTLFNLHIHNPNRLRLTDRVRNAVPSSWDPQLLARFIERYGTHVITGVSVGGQDVVVVRQDKSSDLDNDLLRHHLYDLGDQLFTGSCLLSTRRLNKAYHHSHSQPKFPEAFNVFDDKQTVAFNNFSINSQNGITVICAKRGGDGRAKSHSEWLITVPDKPDAINFNFIPITSLLKDVPGSGLLSHAMSLY
+>sequence72
+KPFSASMPYKSYFADLEIKKKKYALAQNMCVLNYATYDLKESGNNINKDFVLDIEKLPILTKNQMKLCTKVLYMNNNLHCSEGIKSWMKFFEKYGTHVVLSAHFGGMSFNTMEITKRKIEEIKIYKYKYSLWNNPYLNIFKSGSLFQDLSINVDGHKENKKNNSNNNINIDEKKKNDAYIKNDVLIEQYRDNINLEIRGGNNFDEKWRNLTYLVWKNSIYSNIVPIHLDLYSLNTFMPIEKKESYDMALLFY
+>sequence73
+EFSAEFMFLNNISKYTNKEMGFVQLMSKIQTSQFKMRSKDLVLDEDMLWALSDLPDHYHFGAYSQFFNEYGTHYVTEGTMGGLMDYVAVVNINEMEENQMTGQMIGSCIGGSFGLVFMEKIKATVKGKSCGKFTSNEKTSDESHSAIKDVFGFVKGGNTASSAGSLGIKDAKSYKDWGKSLKYNPALIEFEILPIYELLRLSTAAEQLSSKLPHVKMAWEEY
+>sequence74
+ELPDDMGYMPCEIGVVEYSLQEGITREFHRFIQPGKPPLGYRYLCQSTSDNTHQIPIEGFELAEGDYHRLWTDLCKFTSPNGRDFPPLYVQVTHTSMCEWCLDWLSEMAGEYNRFHVYELDSLVKDLYEHGEGHAPSLSMIASILNTSVFDYEDGSSCEYHASKEVKYCALGAVKRFCFSISDSMAQVYDLQLTARHLPERPEN
+>sequence75
+FKFSASAKFKKLQDVSKSGKSKMFINKSYCFKYVAGISTSLKWDFTLGFQSSLGRLSDFKGLEKDSICKPFIYREDPKNENCQELGISDWMELFNTFGTHVATKIYLGGKIFTTLEIKKSQEKKLSDQGLDVRAILSAKIKDTDIDSNVEVSTIKSKNAGDFLLDTKKSTFVLGGDIYGHGKTIEFAEWARSVADHAMPIKAEFTPISHFIDKNLRDAYNKAYLYY
+>sequence76
+HPFNSSNYYRMLVERIEKGYSIIIDKKICSRYFVALKNVDSSKLDPFFINMLNDLEKNYKNININKYKCSVHSYKKNKYDQNCLRTITPWITFFNLYGTHLVSEVYYGGKIINILYSEYYNNIYNSEQVQIYKKRLNPFTSGSKLGSFYFGSIISKKQNSTNQKDNDNMLTYIKEKNTIYDGGEDIKEYKDGEGKVLMINGMEDEWEKTINGKYAKPIKLILKPFSDFIKTNDGKVAYYKALEYY
+>sequence77
+GRFRASVDYQNMQNDMASGTYQYIVSNSRCSVFQLDLIDSPTYHPQFSNDILLNLQQLALNQNNANNTEANAYYDFFDNWGTHVVTSVDLGSLFGYKFKMLKTDVQSMQNQGIDVSASATLFNVRGRTNTQLEQNSLNSFSQSIQSWTSYSIGATPDLNNDPANWATQTLTKPMPIKSSITPYHEALKIFTQGGNNILSSTQILQLYSKLRMY
+>sequence78
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEVENKEVIVRELEDSIRVVLGNLDNLQPFTTEHFIIFPYKSKWERVSHLKFKHGEVVLVPYPFVFTLYVAKKPRVZEDEMKWFHENLSPGKLINDSPLGLVSAEKKSAEAMMRKRRHTEVPSSPRKSGRFFPHLRAKVETSSEAPSKKKPPMETRRTWNDNEQQETPAFDATDVQEQGPKWGDSLAGQMAPSLQWNNPPPPKGPKELGTTGFFGF
+>sequence79
+FLGEIENRFDMSDDKSSKRTNEYISYDINNTLYRITLKGNVPLSEQFQEDLNSLDATTLFEKYGTHYLKSTWIGGRISFSTTIDTYGMTDDMRKKFAFVTKRKVGNWTGTSDVELTREEKDISEKMKSNSIVRVWGGDPKLGRDIERAIQGHTVSDIYQQWGQTVEERPYISDFDHGQGLVPIYELATGTRKEQLKEQWEAY
+>sequence80
+DDFINLLHGSDPVKVELNRLENEVKDKDRELGEAQAEIKALKLSERLREKAVEELTDELQKVDEKLKAAGALIESKNLEIKKINDEKKASLAAQYAAEATLRRVHAAQKDDEMPPIEAIIAPLEAELRLARLEGAGSPYQVKGAALLEAERTVQVALAKAALVDDLQNKNQELMKQIEICQEENKILDKLHRQKVAEVEKLSQTVRELEEAVLAGGAAANAVRDYQRKFMEMNEEKKILDRELAAQWWRNYGGARTKVTANRVAVVVANEWKDANDKVMPVRQWLEERRFLQGEMQQLRDKLAIAERTAKSEAQLKERYHLRLKVLEDGLKASPSGHIRPSEVRSVSNGRSRRQSLGGAENFSRLSSNGLSRRTPASSPSNNISTVLKHAKGSSRSFDGGNRLSEKNKVCLNNGVVPNSSLNTAVEEHRRTENSNTCKENQDVKQSDTSKADADDYVSGLLYDMLQKEVIALRKASHEKDQSLKDKDDAIEMLAKKVDTLTKAMEVEAKKMRREVATMEKEVAAMRVGKGHDLRTKRLSNSKVTSQL
+>sequence81
+MSLKPFTYPFPETRFLHAGPNVYKFKIRYGNSIRGEEVENKEVIVQELEDSIRAVLGNLDNLQPFATEHFIVFPYKSKWERVSHLKFKHGEAVLVPYPFVFTLYVAKKPRVZEDEMKCFHENLSPGKSMNSSPLGLVLAERKTAEAVLKKRKRGEVPSSPARPGLDRAEMGTSSQGLSKKKPPMETRRNRERKTQQECQKTPAFDVTDVQDQDSKWEDSLVGKTIPPSQQNNPPPAEGPTELGTSGFFGF
+>sequence82
+GKFSASSDYQEVQDGLNSANIQYIESQARCSIFQLDVYNSPSQNAQLTPQLQQALFTLAFNQTSQNDYYDFIDTWGTHVVTSVNLGSRFGYKYQMDKYQSNQLTQQGVNLSVSASYFSSSGSASGAYNQTQIQNFTQAMTSWSSYSIGATPDANQDPLSWAQQTLDTPMPINISILSFDDFLNKFSFSVNGLTSSQLNTVISNLSQY
+>sequence83
+SQSRMTHEVIESAQKIDSKYFKVVNTVELAQFKMRRNGLNPSDIFLRRMKDLPVYYNYLDYSFLIEDFGTHYFSSGSLGGQYEYVYRYSRADLSHSGLTEEEQKSCLSAEAKASFFSFSGSSSGSRCKENALSQRNSGSFTLSASESFSHVKGGSSESAGQLAFANGPNPQKYEAWIQDVKRNPAIISYEITPISELLVGIPYADIKRRNMEKALVEY
+>sequence84
+NEFITLLHGSDPVKVELNRLENDVRDKDRELSESQAEIKALRLSERQREKAVEELTEELGKMSEKLKLTENLLDSKNLEIKKINEEKRASMAAQFAAEATLRRVHAAQKDDDMPPIEAILAPLEAELKLARHEIVKLQDDNRALDRLTKSKEAALLDAERTVQSALAKASMVDDLQNKNQELMKQIEICQEENRILDKLHRQKVAEVEKFTQTVRELEEAVLAGGTAANAVRDYQRKFQEMNEERRILDRELAAQWWRNYGGARAKVSASRVATVVANEWKDGSDKVMPVKQWLEERRFLQGEMQQLRDKLAIADRAAKSEAQLKEKFQLRLRVLEESLRGPSSSGNRSTPEGRSMSNGPSRRQSLGGADIIPKLTSNGFFSKRSPSSQFRSLNASTSTILKHAKGTSRSFDGGSRSLDRSKVLTNEPRSKFPLNQSSEGTSGGGSPNSTKQGDSEKAAGTNNDSVPGVLHDLLQKEVITLRKAANDKDQSLRDKDEAIEMLAKKVETLTKAMEVEAKKMRREVAAMEKEVSAMRVDNKGSDSRTRRHSTNSKGASTTAQL
+>sequence85
+YYPTEDKYFICEIAIAAVSLKNGVEDVFHRIVKPGKLPLGYYGGALTHSKETHQMLELVQDEPYENNTREVFNEMTSFLKLWRGKGSDSIVYADEKTHEMITKVIDNFCQEFNYPDEIKVYNFQYLFFALRNSVAARTVWPTETYSSTELEKDLYSYTPDISCEFHEMSDISVYCSKSIVTRYCYTLCDHCCTDLNIQLVAGFHVPKNSRI
+>sequence86
+ISAEVKSKFSKESLDVKVGKEVYLTSSVSVPRLEFCINPLKVKLSDEFYSKLNNVETHGELIKVFKEYGEFYPKRYILGGMITNHETQKFTTIENLESKLLSLSAGVNAAIGPVKVGGSVGGESATDEKKSKQNEENSSKKDVIGGDPSKTGSEWVSSLSDINNWGIIGIDVYPIMDLIKKNDNTLYKKLEKIKNS
+>sequence87
+KTSTEAFVPAEIALIKYNLELGVLDKLHELINPVRLPLGLAHEALTYSEQTHELPTPPNAMGETDFYTVLQKILSFTDYNSKPHKKLAIMTDAKEVPVIESLLSQLNDDVKLEYQFLVIPLGEFFFHLKRATEKYGLDICTFPTKTVADILLKKDAYEYTSGIACDFHEKLGNQRFCALSKVVRWSYIISDNCCLDLSIDLIAGRHLPSNADT
+>sequence88
+DDFVNFLHGSDPVKIELNRLQNEVIDKNRELVDAQAEIKALKLTDRIKEKALEELTEELRKMVEKFQASEAALENKNLEIKRVVDEKKAALAAQFAAEATLRRVHAAQKDEELPPLEAILSPLEAEIKQLRQEVSKLQDDNRALERLTKSKEAALLEAERDVQSAYFKASLVDELQNRNQELMKQIEISLEENKILDKINRQKIAEVEKLGQTVRDLEEALLSGAAAANAVRDYQRQVSELKGEKRTLERTLAAQWWRNYGGSRAKVVENRVAVVVANEWKDSDGKVMPVKQWLEERRFLMGEMQQLRDKLSIAERTAKTEAQLKEKFQLRLKVVEDGLRSSFNGGVRSSELQNCSNGVSRRLSLGGFENSTKLSSNSFGTKKVPSLTRSSTMSSTSSSALLKHAKGASKSFDGSKSSSEGQSIDGNKSFSNGLDDPCFGNNTDESSMNTINNSGREICCNKQSEFAEPTSTDLVSGILYDMLQKEVIVLRKASHEKDQSLKDKDDAIEMLAKKVDTLTKAMEVEAKKMRREVAAMEKEVASMRADNEHGQRGRRLSGSSKGLLNNAHM
+>sequence89
+GFFNAMFEFTGCWQKDASITKSLAFDGWCITLYTVALSKAHIILKDHVKQAVPSTWEPAALARFIKKFGTHIVVGVKMGGKDVIYLKQQHSSSLQAVDVQKRLKEMSDQRFLDANGHSDISLADSYAKDNKVEAREQRLRFVESNPLNSYSSNEELVMMPKRRGGRDKDIISHSEWLNTVQAEPDVISMSFIPITSLLNGVPGCGFLNHAINLY
+>sequence90
+SFSASTGYRDFAKEVSKKDTRTYMLKNYCMRYEAGVAQSNHLKWNVTLAFAAGVSQLPDVFDAHNPECACSAEQWRQDQNAEACTKTNVPIWISFIEQFGTHFLVRLFAGGKMTYQVTAKRSEVEKMRNMGIDVKTQLKMQLGGVSGGAGQGTSSKKNQSSSEYQMNVQKETLVIGGRPPGNVSDPAALAAWADTVEELPMPVKFEVQPLYHLLPVEKQEAFKQAVTFY
diff --git a/Exercise11_files/Problem2/null.fasta b/Exercise11_files/Problem2/null.fasta
new file mode 100755
index 0000000..e69de29
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/COPYRIGHT b/Exercise11_files/hmmer-3.1b2-cygwin64/COPYRIGHT
new file mode 100755
index 0000000..6444e25
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/COPYRIGHT
@@ -0,0 +1,79 @@
+HMMER - Biological sequence analysis with profile hidden Markov models
+Copyright (C) 2015 Howard Hughes Medical Institute.
+------------------------------------------------------------------
+
+Additional copyrights apply to the entirety of the package:
+Copyright (C) 1992-2013 Sean R. Eddy
+Copyright (C) 2000-2013 Howard Hughes Medical Institute
+Copyright (C) 1992-2004 Washington University School of Medicine
+Copyright (C) 1992-1994 MRC Laboratory of Molecular Biology
+
+The code includes contributions and input from the members of the
+HMMER development team and the Eddy/Rivas laboratories at HHMI Janelia
+Farm, whose current members include:
+
+   Sean Eddy          Janelia Farm 
+   Sergi Castellano   Janelia Farm 
+   Goran Ceric        Janelia Farm
+   Michael Farrar     Janelia Farm 
+   Rob Finn           Janelia Farm
+   Bjarne Knudsen     CLC bio
+   Diana Kolbe        Washington University/Janelia Farm
+   Eric Nawrocki      Janelia Farm
+   Elena Rivas        Janelia Farm
+   Travis Wheeler     Janelia Farm
+
+HMMER also includes contributions from others, including copyrighted
+and licensed code and technology. These are noted in the appropriate
+places in source files. Contributors include:
+
+   Jeremy Buhler                   Washington University
+   Ian Holmes                      UC Berkeley
+   Erik Lindahl                    Stanford University
+   Graeme Mitchison                Cambridge University
+   Lee Newberg                     Rensselaer Polytechnic Institute
+
+   Apple Computer                  Cupertino, CA
+   Free Software Foundation, Inc.  Cambridge, MA
+   IBM TJ Watson Research Center   Yorktown Heights, NY
+   X Consortium                    Cambridge, MA
+   
+HMMER uses the Easel software library, which has its own license and
+copyright information. See easel/COPYRIGHT and easel/LICENSE.
+
+HMMER includes patent-pending SIMD technology under nonexclusive
+license from Michael Farrar. You are sublicensed to use this
+technology specifically for the use, modification, and redistribution
+of HMMER3, under the terms of the GPLv3 patent clause.
+
+This source code is distributed under the terms of the GNU General
+Public License. See the file LICENSE for details.
+
+This program is free software: you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation, either version 3 of the License, or (at
+your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+GNU General Public License for more details.
+
+A copy of the GNU General Public License is in the file LICENSE.  You
+may also obtain a copy from <http://www.gnu.org/licenses/>.
+
+"HMMER" is a trademark of the Howard Hughes Medical Institute.
+Although the code is freely available as open source, we intend that
+only the version at http://hmmer.org/ is known as HMMER. You are free
+to create a modified version and distribute it (subject to the terms
+of the GPL), but we ask that you name it something that would not be
+confused with HMMER itself.
+
+------------------------------------------------------------------
+The HMMER development team
+HHMI Janelia Farm Research Campus
+http://hmmer.org/
+
+
+   
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/INSTALL b/Exercise11_files/hmmer-3.1b2-cygwin64/INSTALL
new file mode 100755
index 0000000..c2e1a93
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/INSTALL
@@ -0,0 +1,58 @@
+Brief installation instructions 
+HMMER 3.1b2; February 2015
+-------------------------------------------------------------
+
+These are quick installation instructions. For complete documentation,
+including customization and troubleshooting, please see the
+Installation chapter in the HMMER User's Guide (Userguide.pdf).
+
+-------------------------------------------------------------
+
+Starting from a distribution "with binaries", such as 
+hmmer-3.1b2-linux-intel-x86_64.tar.gz:
+ uncompress:                uncompress hmmer-3.1b2-xyz.tar.gz  
+ unpack:                    tar xf hmmer-3.1b2-xyz.tar
+ move into new directory:   cd hmmer-3.1b2-xyz
+ 
+The pre-compiled binaries are found in the directory ./binaries.
+You may copy these into a directory of your choosing, or simply add
+this directory to your $PATH variable.
+
+-------------------------------------------------------------
+
+Starting from a source distribution, hmmer-3.1b2.tar.gz:
+ uncompress:                uncompress hmmer-3.1b2.tar.gz  
+ unpack:                    tar xf hmmer-3.1b2.tar
+ move into new directory:   cd hmmer-3.1b2
+ configure:                 ./configure
+ build:                     make
+ automated tests:           make check
+ automated install:         make install
+
+-------------------------------------------------------------
+
+HMMER is developed primarily on Linux and Mac OS/X systems. It is
+tested on a variety of UNIX and UNIX-like operating systems. It is
+written in ANSI C99 conforming to POSIX standards. It is meant to be
+portable to any POSIX-compliant system with an ANSI C99 compiler,
+including all UNIX and Macintosh systems. A binary version is also
+available for Windows systems with Cygwin installed (Cygwin is 
+optional POSIX compatibility software).
+
+-------------------------------------------------------------
+Starting from a Subversion (SVN) working copy:
+
+If you have checked HMMER out from its Subversion repository, there's
+some additional stuff you need to do one-time-only in your new working
+directory:
+
+   ln -s easel/aclocal.m4 aclocal.m4
+   autoconf
+   (cd easel; autoconf)
+
+-------------------------------------------------------------
+The HMMER development team
+HHMI Janelia Farm Research Campus
+http://hmmer.org/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/LICENSE b/Exercise11_files/hmmer-3.1b2-cygwin64/LICENSE
new file mode 100755
index 0000000..94a9ed0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/LICENSE
@@ -0,0 +1,674 @@
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+THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
+PURPOSE.  THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
+IS WITH YOU.  SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
+ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
+
+  16. Limitation of Liability.
+
+  IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
+WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
+THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
+GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
+USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
+DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
+PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
+EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
+SUCH DAMAGES.
+
+  17. Interpretation of Sections 15 and 16.
+
+  If the disclaimer of warranty and limitation of liability provided
+above cannot be given local legal effect according to their terms,
+reviewing courts shall apply local law that most closely approximates
+an absolute waiver of all civil liability in connection with the
+Program, unless a warranty or assumption of liability accompanies a
+copy of the Program in return for a fee.
+
+                     END OF TERMS AND CONDITIONS
+
+            How to Apply These Terms to Your New Programs
+
+  If you develop a new program, and you want it to be of the greatest
+possible use to the public, the best way to achieve this is to make it
+free software which everyone can redistribute and change under these terms.
+
+  To do so, attach the following notices to the program.  It is safest
+to attach them to the start of each source file to most effectively
+state the exclusion of warranty; and each file should have at least
+the "copyright" line and a pointer to where the full notice is found.
+
+    <one line to give the program's name and a brief idea of what it does.>
+    Copyright (C) <year>  <name of author>
+
+    This program is free software: you can redistribute it and/or modify
+    it under the terms of the GNU General Public License as published by
+    the Free Software Foundation, either version 3 of the License, or
+    (at your option) any later version.
+
+    This program is distributed in the hope that it will be useful,
+    but WITHOUT ANY WARRANTY; without even the implied warranty of
+    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+    GNU General Public License for more details.
+
+    You should have received a copy of the GNU General Public License
+    along with this program.  If not, see <http://www.gnu.org/licenses/>.
+
+Also add information on how to contact you by electronic and paper mail.
+
+  If the program does terminal interaction, make it output a short
+notice like this when it starts in an interactive mode:
+
+    <program>  Copyright (C) <year>  <name of author>
+    This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
+    This is free software, and you are welcome to redistribute it
+    under certain conditions; type `show c' for details.
+
+The hypothetical commands `show w' and `show c' should show the appropriate
+parts of the General Public License.  Of course, your program's commands
+might be different; for a GUI interface, you would use an "about box".
+
+  You should also get your employer (if you work as a programmer) or school,
+if any, to sign a "copyright disclaimer" for the program, if necessary.
+For more information on this, and how to apply and follow the GNU GPL, see
+<http://www.gnu.org/licenses/>.
+
+  The GNU General Public License does not permit incorporating your program
+into proprietary programs.  If your program is a subroutine library, you
+may consider it more useful to permit linking proprietary applications with
+the library.  If this is what you want to do, use the GNU Lesser General
+Public License instead of this License.  But first, please read
+<http://www.gnu.org/philosophy/why-not-lgpl.html>.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/Makefile.in
new file mode 100755
index 0000000..bcbe413
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/Makefile.in
@@ -0,0 +1,255 @@
+# Top level Makefile for HMMER3
+# 
+# On most systems, to build H3 you should only need:
+#     % ./configure; make
+#
+# Optionally, you can run a test suite:
+#     % make check
+#
+# And optionally, you can install everything more permanently:
+#     % make install
+#
+# For more information, see the Installation chapter of the HMMER
+# User's Guide.
+#
+
+
+# VPATH and shell configuration
+#
+top_srcdir     = @top_srcdir@
+srcdir         = @srcdir@
+VPATH          = @srcdir@
+SHELL          = /bin/sh
+
+# location of easel
+ESLDIR         = @HMMER_ESLDIR@
+
+# location of libdivsufsort for suffix array creation
+SADIR          = @HMMER_SADIR@
+
+
+# Package information
+#
+PACKAGE         = @PACKAGE_NAME@
+PACKAGE_VERSION = @PACKAGE_VERSION@
+PACKAGE_TARNAME = @PACKAGE_TARNAME@
+
+# Installation targets
+#
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+mandir      = @mandir@
+docdir      = @docdir@
+pdfdir      = @pdfdir@
+mandir      = @mandir@
+man1dir     = ${mandir}/man1
+man1ext     = .1
+
+# Compiler configuration
+#
+CC        = @CC@
+CFLAGS    = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+LDFLAGS   = -static @LDFLAGS@
+SIMDFLAGS = @SIMD_CFLAGS@
+CPPFLAGS  = @CPPFLAGS@
+
+# Other tools
+#
+AR        = @AR@ 
+RANLIB    = @RANLIB@
+INSTALL   = @INSTALL@
+
+# beautification magic stolen from git 
+#
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+# Programs installed by HMMER (stable, documented)
+#
+PROGS = alimask\
+	hmmalign\
+	hmmbuild\
+	hmmconvert\
+	hmmemit\
+	hmmfetch\
+	hmmpress\
+	hmmscan\
+	hmmsearch\
+	hmmsim\
+	hmmstat\
+	jackhmmer\
+	phmmer\
+	nhmmer\
+	nhmmscan\
+	hmmpgmd
+
+.PHONY: all dev check pdf install uninstall clean distclean TAGS
+
+# all: Compile all documented executables.
+#      (Excludes test programs.)
+#
+all: 
+	${QUIET_SUBDIR0}${ESLDIR}     ${QUIET_SUBDIR1} all
+	${QUIET_SUBDIR0}${SADIR}      ${QUIET_SUBDIR1} all
+	${QUIET_SUBDIR0}src           ${QUIET_SUBDIR1} all
+	${QUIET_SUBDIR0}profmark      ${QUIET_SUBDIR1} all
+
+# dev: compile all executables, including drivers.
+#
+dev: 
+	${QUIET_SUBDIR0}${ESLDIR}  ${QUIET_SUBDIR1} dev
+	${QUIET_SUBDIR0}${SADIR}   ${QUIET_SUBDIR1} all
+	${QUIET_SUBDIR0}src        ${QUIET_SUBDIR1} dev
+	${QUIET_SUBDIR0}profmark   ${QUIET_SUBDIR1} dev
+
+# tests: compile all test drivers for 'make check'
+#
+tests:
+	${QUIET_SUBDIR0}${ESLDIR}  ${QUIET_SUBDIR1} tests
+	${QUIET_SUBDIR0}src        ${QUIET_SUBDIR1} tests
+
+# check: Run test suites.
+#
+check:
+	${QUIET_SUBDIR0}${ESLDIR}  ${QUIET_SUBDIR1} tests
+	${QUIET_SUBDIR0}${SADIR}   ${QUIET_SUBDIR1} all	
+	${QUIET_SUBDIR0}src        ${QUIET_SUBDIR1} tests
+	${QUIET_SUBDIR0}${ESLDIR}  ${QUIET_SUBDIR1} check
+	${QUIET_SUBDIR0}testsuite  ${QUIET_SUBDIR1} check
+
+# pdf: compile the User Guides.
+#
+pdf:
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} pdf
+
+# install: installs the binaries in ${bindir}/
+#          When man pages are done, will install man pages in MANDIR/man1/  (e.g. if MANSUFFIX is 1)
+#          Creates these directories if they don't exist.
+#          Prefix those paths with ${DESTDIR} (rarely used, usually null;
+#          may be set on a make command line when building contrib RPMs).
+install: 
+	${INSTALL} -d ${DESTDIR}${bindir}
+	${INSTALL} -d ${DESTDIR}${libdir}
+	${INSTALL} -d ${DESTDIR}${includedir}
+	${INSTALL} -d ${DESTDIR}${man1dir}
+	${INSTALL} -d ${DESTDIR}${pdfdir}
+	${QUIET_SUBDIR0}src           ${QUIET_SUBDIR1} install
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} install
+
+# uninstall: Reverses the steps of "make install".
+#
+uninstall: 
+	${QUIET_SUBDIR0}src           ${QUIET_SUBDIR1} uninstall
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} uninstall
+
+# "make clean" removes almost everything except configuration files.
+#
+clean:
+	${QUIET_SUBDIR0}src           ${QUIET_SUBDIR1} clean
+	${QUIET_SUBDIR0}profmark      ${QUIET_SUBDIR1} clean
+	${QUIET_SUBDIR0}testsuite     ${QUIET_SUBDIR1} clean
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} clean
+	${QUIET_SUBDIR0}${ESLDIR}     ${QUIET_SUBDIR1} clean
+	${QUIET_SUBDIR0}${SADIR}      ${QUIET_SUBDIR1} clean
+	-rm -f *.o *~ Makefile.bak core TAGS gmon.out
+
+# "make distclean" leaves a pristine source distribution.
+#
+distclean:
+	${QUIET_SUBDIR0}src           ${QUIET_SUBDIR1} distclean
+	${QUIET_SUBDIR0}profmark      ${QUIET_SUBDIR1} distclean
+	${QUIET_SUBDIR0}testsuite     ${QUIET_SUBDIR1} distclean
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} distclean
+	${QUIET_SUBDIR0}${ESLDIR}     ${QUIET_SUBDIR1} distclean
+	${QUIET_SUBDIR0}${SADIR}      ${QUIET_SUBDIR1} distclean
+	-rm config.log config.status
+	-rm -rf autom4te.cache
+	-rm -f *.o *~ Makefile.bak core TAGS gmon.out
+	-rm -f cscope.po.out cscope.out cscope.in.out cscope.files
+	-rm -f src/impl
+	-rm Makefile
+#Use 'ifneq' instead of 'test -e' because the '+@' in QUIET_SUBDIR0 can't
+#be passed to the shell. Note that ifneq breaks if indented.
+ifneq (,$(wildcard ./release-notes/LICENSE.sh))
+	-rm -f release-notes/LICENSE.sh
+endif
+
+
+TAGS:
+	-rm -f ${top_srcdir}/TAGS
+	make tags-append	
+
+tags-append:
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/Makefile.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/COPYRIGHT
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/INSTALL
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/LICENSE
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/README
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/configure.ac
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/*.h
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/*.pl
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_sse/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_sse/*.h
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_sse/*.in
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_dummy/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_dummy/*.h
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_dummy/*.in
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_vmx/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_vmx/*.h
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/src/impl_vmx/*.in
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/man/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/man/*.man
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/man/boilerplate-tail
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/userguide/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/userguide/*.tex
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/libdivsufsort/README
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/libdivsufsort/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/libdivsufsort/*.c
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/profmark/00README
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/profmark/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/profmark/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/profmark/x-*
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/profmark/pmark-*
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.pl
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.sh
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.pm
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.sqc
+
+	${QUIET_SUBDIR0}easel ${QUIET_SUBDIR1} tags-append
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/Makefile.in $
+# SVN $Id: Makefile.in 4489 2013-06-19 02:46:43Z wheelert $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/README b/Exercise11_files/hmmer-3.1b2-cygwin64/README
new file mode 100755
index 0000000..c6a4d55
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/README
@@ -0,0 +1,31 @@
+HMMER - profile hidden Markov models for biological sequence analysis
+http://hmmer.org/
+Version 3.1b2; February 2015
+Copyright (C) 2015 Howard Hughes Medical Institute.
+------------------------------------------------------------------
+
+HMMER searches biological sequence databases for homologous sequences,
+using either single sequences or multiple sequence alignments as
+queries. HMMER implements a technology called "profile hidden Markov
+models" (profile HMMs). HMMER is the software engine underlying many
+protein family domain databases and large-scale annotation pipelines,
+including the Pfam and SMART databases.
+
+Other files to read in the top-level source directory:
+
+    INSTALL          Brief installation instructions.
+    Userguide.pdf    The HMMER User's Guide.
+    COPYRIGHT        Copyright and license information.
+    LICENSE          The GNU General Public License (GPLv3).
+
+To get started after installation, see the Tutorial section in the
+HMMER User's Guide (Userguide.pdf).
+
+
+-------------------------------------------------------------------
+The HMMER development team
+HHMI Janelia Farm Research Campus
+http://hmmer.org/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/Userguide.pdf b/Exercise11_files/hmmer-3.1b2-cygwin64/Userguide.pdf
new file mode 100755
index 0000000..3a0c234
Binary files /dev/null and b/Exercise11_files/hmmer-3.1b2-cygwin64/Userguide.pdf differ
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/aclocal.m4 b/Exercise11_files/hmmer-3.1b2-cygwin64/aclocal.m4
new file mode 100755
index 0000000..2a74ed8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/aclocal.m4
@@ -0,0 +1,1152 @@
+# aclocal.m4 contains custom macros used for creating HMMER's
+# configuration script.
+#
+# SRE, Sun Apr 22 09:26:38 2007 [Janelia]
+# SVN $Id: aclocal.m4 896 2013-12-17 21:07:37Z wheelert $
+
+#################################################################
+# Macro: CHECK_GNU_MAKE
+# Usage: CHECK_GNU_MAKE
+# Author: John Darrington <j.darrington@elvis.murdoch.edu.au> 
+# Modified from the original.
+# 
+# Sets the format of makefile dependency lines for executables.
+#
+# We need this because GNU make and SYSV make use different systems
+# specifying variables for dependencies: $$@ in sysv, %: %.o in GNU.
+# Would love to hear a better way of doing this.
+# 
+# I use two different conventions in my Makefiles. Sometimes 
+# executable "foo" has a file "foo.c" - this is the HMMER, Easel, Infernal convention.
+# Sometimes executable "foo" has a file "foo_main.c" - this is
+# the SQUID convention. The configure script sets the
+# EXEC_DEPENDENCY appropriately: here, HMMER style.
+#
+# Sets an output variable EXEC_DEPENDENCY. 
+# This is used in the src/Makefile.in.
+#
+AC_DEFUN(CHECK_GNU_MAKE,[ 
+  AC_MSG_CHECKING(whether you have a GNU make)
+  foundGNUmake='nope, so we assume you will use a sysv-compatible make.' ;
+  EXEC_DEPENDENCY=[\$\$\@.o] ;
+  for a in "$MAKE" make gmake gnumake ; do
+    if test -z "$a" ; then continue ; fi ;
+    if  ( sh -c "$a --version" 2> /dev/null | grep GNU 2>&1 > /dev/null ) ; then
+      foundGNUmake='yes, you do; and we assume you will use it!' ;
+      EXEC_DEPENDENCY='%: %.o' ;
+    fi
+  done
+  AC_MSG_RESULT($foundGNUmake)
+  AC_SUBST(EXEC_DEPENDENCY)
+])
+
+
+################################################################
+# Macro: ACX_MPI 
+# Usage: ACX_MPI([ACTION-IF-FOUND[, ACTION-IF-NOT-FOUND]])
+# Authors: Steven G. Johnson and Julian C. Cummings
+# Version: 2006-10-22
+# Unmodified from the original; can be replaced with new version.
+#
+#      xref http://autoconf-archive.cryp.to/acx_mpi.html
+#      Sets MPICC, MPILIBS output variable. 
+#      If ACTION-IF-FOUND is not specified, default action defines HAVE_MPI.
+#
+AC_DEFUN([ACX_MPI], [
+AC_PREREQ(2.50) dnl for AC_LANG_CASE
+
+AC_LANG_CASE([C], [
+        AC_REQUIRE([AC_PROG_CC])
+        AC_ARG_VAR(MPICC,[MPI C compiler command])
+        AC_CHECK_PROGS(MPICC, mpicc hcc mpxlc_r mpxlc mpcc cmpicc, $CC)
+        acx_mpi_save_CC="$CC"
+        CC="$MPICC"
+        AC_SUBST(MPICC)
+],
+[C++], [
+        AC_REQUIRE([AC_PROG_CXX])
+        AC_ARG_VAR(MPICXX,[MPI C++ compiler command])
+        AC_CHECK_PROGS(MPICXX, mpic++ mpicxx mpiCC hcp mpxlC_r mpxlC mpCC cmpic++, $CXX)
+        acx_mpi_save_CXX="$CXX"
+        CXX="$MPICXX"
+        AC_SUBST(MPICXX)
+],
+[Fortran 77], [
+        AC_REQUIRE([AC_PROG_F77])
+        AC_ARG_VAR(MPIF77,[MPI Fortran 77 compiler command])
+        AC_CHECK_PROGS(MPIF77, mpif77 hf77 mpxlf_r mpxlf mpf77 cmpifc, $F77)
+        acx_mpi_save_F77="$F77"
+        F77="$MPIF77"
+        AC_SUBST(MPIF77)
+],
+[Fortran], [
+        AC_REQUIRE([AC_PROG_FC])
+        AC_ARG_VAR(MPIFC,[MPI Fortran compiler command])
+        AC_CHECK_PROGS(MPIFC, mpif90 mpxlf95_r mpxlf90_r mpxlf95 mpxlf90 mpf90 cmpif90c, $FC)
+        acx_mpi_save_FC="$FC"
+        FC="$MPIFC"
+        AC_SUBST(MPIFC)
+])
+
+if test x = x"$MPILIBS"; then
+        AC_LANG_CASE([C], [AC_CHECK_FUNC(MPI_Init, [MPILIBS=" "])],
+                [C++], [AC_CHECK_FUNC(MPI_Init, [MPILIBS=" "])],
+                [Fortran 77], [AC_MSG_CHECKING([for MPI_Init])
+                        AC_LINK_IFELSE([AC_LANG_PROGRAM([],[      call MPI_Init])],[MPILIBS=" "
+                                AC_MSG_RESULT(yes)], [AC_MSG_RESULT(no)])],
+                [Fortran], [AC_MSG_CHECKING([for MPI_Init])
+                        AC_LINK_IFELSE([AC_LANG_PROGRAM([],[      call MPI_Init])],[MPILIBS=" "
+                                AC_MSG_RESULT(yes)], [AC_MSG_RESULT(no)])])
+fi
+AC_LANG_CASE([Fortran 77], [
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(fmpi, MPI_Init, [MPILIBS="-lfmpi"])
+        fi
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(fmpich, MPI_Init, [MPILIBS="-lfmpich"])
+        fi
+],
+[Fortran], [
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(fmpi, MPI_Init, [MPILIBS="-lfmpi"])
+        fi
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(mpichf90, MPI_Init, [MPILIBS="-lmpichf90"])
+        fi
+])
+if test x = x"$MPILIBS"; then
+        AC_CHECK_LIB(mpi, MPI_Init, [MPILIBS="-lmpi"])
+fi
+if test x = x"$MPILIBS"; then
+        AC_CHECK_LIB(mpich, MPI_Init, [MPILIBS="-lmpich"])
+fi
+
+dnl We have to use AC_TRY_COMPILE and not AC_CHECK_HEADER because the
+dnl latter uses $CPP, not $CC (which may be mpicc).
+AC_LANG_CASE([C], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpi.h])
+        AC_TRY_COMPILE([#include <mpi.h>],[],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi],
+[C++], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpi.h])
+        AC_TRY_COMPILE([#include <mpi.h>],[],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi],
+[Fortran 77], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpif.h])
+        AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[      include 'mpif.h'])],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi],
+[Fortran], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpif.h])
+        AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[      include 'mpif.h'])],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi])
+
+AC_LANG_CASE([C], [CC="$acx_mpi_save_CC"],
+        [C++], [CXX="$acx_mpi_save_CXX"],
+        [Fortran 77], [F77="$acx_mpi_save_F77"],
+        [Fortran], [FC="$acx_mpi_save_FC"])
+
+AC_SUBST(MPILIBS)
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x = x"$MPILIBS"; then
+        $2
+        :
+else
+        ifelse([$1],,[AC_DEFINE(HAVE_MPI,1,[Define if you have the MPI library.])],[$1])
+        :
+fi
+])dnl ACX_MPI
+
+
+
+#################################################################
+# Macro: ACX_PTHREAD
+# Usage: ACX_PTHREAD([ACTION-IF-FOUND[, ACTION-IF-NOT-FOUND]]) 
+# Authors:  Steven G. Johnson <stevenj@alum.mit.edu>
+#           Alejandro Forero Cuervo <bachue@bachue.com>
+# Version:  1.9 (2004/02/23)
+# Source:   http://www.gnu.org/software/ac-archive/htmldoc/acx_pthread.html
+# 
+# SRE: I have modified this source; search for SRE to see where.
+#      Solaris needs -D_POSIX_PTHREAD_SEMANTICS or ctime_r() calls will choke.
+#
+dnl Available from the GNU Autoconf Macro Archive at:
+dnl http://www.gnu.org/software/ac-archive/htmldoc/acx_pthread.html
+dnl
+AC_DEFUN([ACX_PTHREAD], [
+AC_REQUIRE([AC_CANONICAL_HOST])
+AC_LANG_SAVE
+AC_LANG_C
+acx_pthread_ok=no
+
+# We used to check for pthread.h first, but this fails if pthread.h
+# requires special compiler flags (e.g. on True64 or Sequent).
+# It gets checked for in the link test anyway.
+
+# First of all, check if the user has set any of the PTHREAD_LIBS,
+# etcetera environment variables, and if threads linking works using
+# them:
+if test x"$PTHREAD_LIBS$PTHREAD_CFLAGS" != x; then
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        AC_MSG_CHECKING([for pthread_join in LIBS=$PTHREAD_LIBS with CFLAGS=$PTHREAD_CFLAGS])
+        AC_TRY_LINK_FUNC(pthread_join, acx_pthread_ok=yes)
+        AC_MSG_RESULT($acx_pthread_ok)
+        if test x"$acx_pthread_ok" = xno; then
+                PTHREAD_LIBS=""
+                PTHREAD_CFLAGS=""
+        fi
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+fi
+
+# We must check for the threads library under a number of different
+# names; the ordering is very important because some systems
+# (e.g. DEC) have both -lpthread and -lpthreads, where one of the
+# libraries is broken (non-POSIX).
+
+# Create a list of thread flags to try.  Items starting with a "-" are
+# C compiler flags, and other items are library names, except for "none"
+# which indicates that we try without any flags at all, and "pthread-config"
+# which is a program returning the flags for the Pth emulation library.
+
+acx_pthread_flags="pthreads none -Kthread -kthread lthread -pthread -pthreads -mthreads pthread --thread-safe -mt pthread-config"
+
+# The ordering *is* (sometimes) important.  Some notes on the
+# individual items follow:
+
+# pthreads: AIX (must check this before -lpthread)
+# none: in case threads are in libc; should be tried before -Kthread and
+#       other compiler flags to prevent continual compiler warnings
+# -Kthread: Sequent (threads in libc, but -Kthread needed for pthread.h)
+# -kthread: FreeBSD kernel threads (preferred to -pthread since SMP-able)
+# lthread: LinuxThreads port on FreeBSD (also preferred to -pthread)
+# -pthread: Linux/gcc (kernel threads), BSD/gcc (userland threads)
+# -pthreads: Solaris/gcc
+# -mthreads: Mingw32/gcc, Lynx/gcc
+# -mt: Sun Workshop C (may only link SunOS threads [-lthread], but it
+#      doesn't hurt to check since this sometimes defines pthreads too;
+#      also defines -D_REENTRANT)
+# pthread: Linux, etcetera
+# --thread-safe: KAI C++
+# pthread-config: use pthread-config program (for GNU Pth library)
+
+case "${host_cpu}-${host_os}" in
+        *solaris*)
+
+        # On Solaris (at least, for some versions), libc contains stubbed
+        # (non-functional) versions of the pthreads routines, so link-based
+        # tests will erroneously succeed.  (We need to link with -pthread or
+        # -lpthread.)  (The stubs are missing pthread_cleanup_push, or rather
+        # a function called by this macro, so we could check for that, but
+        # who knows whether they'll stub that too in a future libc.)  So,
+        # we'll just look for -pthreads and -lpthread first:
+
+        acx_pthread_flags="-pthread -pthreads pthread -mt $acx_pthread_flags"
+        ;;
+esac
+
+if test x"$acx_pthread_ok" = xno; then
+for flag in $acx_pthread_flags; do
+
+        case $flag in
+                none)
+                AC_MSG_CHECKING([whether pthreads work without any flags])
+                ;;
+
+                -*)
+                AC_MSG_CHECKING([whether pthreads work with $flag])
+                PTHREAD_CFLAGS="$flag"
+                ;;
+
+		pthread-config)
+		AC_CHECK_PROG(acx_pthread_config, pthread-config, yes, no)
+		if test x"$acx_pthread_config" = xno; then continue; fi
+		PTHREAD_CFLAGS="`pthread-config --cflags`"
+		PTHREAD_LIBS="`pthread-config --ldflags` `pthread-config --libs`"
+		;;
+
+                *)
+                AC_MSG_CHECKING([for the pthreads library -l$flag])
+                PTHREAD_LIBS="-l$flag"
+                ;;
+        esac
+
+        save_LIBS="$LIBS"
+        save_CFLAGS="$CFLAGS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Check for various functions.  We must include pthread.h,
+        # since some functions may be macros.  (On the Sequent, we
+        # need a special flag -Kthread to make this header compile.)
+        # We check for pthread_join because it is in -lpthread on IRIX
+        # while pthread_create is in libc.  We check for pthread_attr_init
+        # due to DEC craziness with -lpthreads.  We check for
+        # pthread_cleanup_push because it is one of the few pthread
+        # functions on Solaris that doesn't have a non-functional libc stub.
+        # We try pthread_create on general principles.
+        AC_TRY_LINK([#include <pthread.h>],
+                    [pthread_t th; pthread_join(th, 0);
+                     pthread_attr_init(0); pthread_cleanup_push(0, 0);
+                     pthread_create(0,0,0,0); pthread_cleanup_pop(0); ],
+                    [acx_pthread_ok=yes])
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        AC_MSG_RESULT($acx_pthread_ok)
+        if test "x$acx_pthread_ok" = xyes; then
+                break;
+        fi
+
+        PTHREAD_LIBS=""
+        PTHREAD_CFLAGS=""
+done
+fi
+
+# Various other checks:
+if test "x$acx_pthread_ok" = xyes; then
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Detect AIX lossage: threads are created detached by default
+        # and the JOINABLE attribute has a nonstandard name (UNDETACHED).
+        AC_MSG_CHECKING([for joinable pthread attribute])
+        AC_TRY_LINK([#include <pthread.h>],
+                    [int attr=PTHREAD_CREATE_JOINABLE;],
+                    ok=PTHREAD_CREATE_JOINABLE, ok=unknown)
+        if test x"$ok" = xunknown; then
+                AC_TRY_LINK([#include <pthread.h>],
+                            [int attr=PTHREAD_CREATE_UNDETACHED;],
+                            ok=PTHREAD_CREATE_UNDETACHED, ok=unknown)
+        fi
+        if test x"$ok" != xPTHREAD_CREATE_JOINABLE; then
+                AC_DEFINE(PTHREAD_CREATE_JOINABLE, $ok,
+                          [Define to the necessary symbol if this constant
+                           uses a non-standard name on your system.])
+        fi
+        AC_MSG_RESULT(${ok})
+        if test x"$ok" = xunknown; then
+                AC_MSG_WARN([we do not know how to create joinable pthreads])
+        fi
+
+        AC_MSG_CHECKING([if more special flags are required for pthreads])
+        flag=no
+# Added _POSIX_PTHREAD_SEMANTICS for solaris. Needed for ctime_r() compliance.
+# SRE, Fri Oct 29 10:03:36 2010 [J7/3]
+        case "${host_cpu}-${host_os}" in
+                *-aix* | *-freebsd*)     flag="-D_THREAD_SAFE";;
+                *solaris*)               flag="-D_REENTRANT -D_POSIX_PTHREAD_SEMANTICS";; 
+                *-osf* | *-hpux*)        flag="-D_REENTRANT";;
+        esac
+        AC_MSG_RESULT(${flag})
+        if test "x$flag" != xno; then
+                PTHREAD_CFLAGS="$flag $PTHREAD_CFLAGS"
+        fi
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        # More AIX lossage: must compile with cc_r
+        AC_CHECK_PROG(PTHREAD_CC, cc_r, cc_r, ${CC})
+else
+        PTHREAD_CC="$CC"
+fi
+
+AC_SUBST(PTHREAD_LIBS)
+AC_SUBST(PTHREAD_CFLAGS)
+AC_SUBST(PTHREAD_CC)
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x"$acx_pthread_ok" = xyes; then
+        ifelse([$1],,AC_DEFINE(HAVE_PTHREAD,1,[Define if you have POSIX threads libraries and header files.]),[$1])
+        :
+else
+        acx_pthread_ok=no
+        $2
+fi
+AC_LANG_RESTORE
+])dnl ACX_PTHREAD
+#
+# ACX_PTHREAD macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+
+#################################################################
+# Macro: AX_CHECK_COMPILER_FLAGS
+# Usage: AX_CHECK_COMPILER_FLAGS(FLAGS, [ACTION-SUCCESS], [ACTION-FAILURE])
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo.
+# Version:  2007-07-29
+# Source:   http://autoconf-archive.cryp.to/ax_check_compiler_flags.html
+#
+# Check whether the given compiler FLAGS work with the current language's compiler, 
+# or whether they give an error. (Warnings, however, are ignored.)
+# ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on success/failure.
+# 
+# Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_COMPILER_FLAGS],
+[AC_PREREQ(2.59) dnl for _AC_LANG_PREFIX
+AC_MSG_CHECKING([whether _AC_LANG compiler accepts $1])
+dnl Some hackery here since AC_CACHE_VAL can't handle a non-literal varname:
+AS_LITERAL_IF([$1],
+  [AC_CACHE_VAL(AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1), [
+      ax_save_FLAGS=$[]_AC_LANG_PREFIX[]FLAGS
+      _AC_LANG_PREFIX[]FLAGS="$1"
+      AC_COMPILE_IFELSE([AC_LANG_PROGRAM()],
+        AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=yes,
+        AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=no)
+      _AC_LANG_PREFIX[]FLAGS=$ax_save_FLAGS])],
+  [ax_save_FLAGS=$[]_AC_LANG_PREFIX[]FLAGS
+   _AC_LANG_PREFIX[]FLAGS="$1"
+   AC_COMPILE_IFELSE([AC_LANG_PROGRAM()],
+     eval AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=yes,
+     eval AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=no)
+   _AC_LANG_PREFIX[]FLAGS=$ax_save_FLAGS])
+eval ax_check_compiler_flags=$AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)
+AC_MSG_RESULT($ax_check_compiler_flags)
+if test "x$ax_check_compiler_flags" = xyes; then
+        m4_default([$2], :)
+else
+        m4_default([$3], :)
+fi
+])dnl AX_CHECK_COMPILER_FLAGS
+#
+# AX_CHECK_COMPILER_FLAGS macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+
+
+#################################################################
+# Macro: AX_GCC_X86_CPUID
+# Usage: AX_GCC_X86_CPUID(OP)
+# Authors:  Copyright (c) 2008 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (c) 2008 Matteo Frigo
+# Version:  2010-03-01
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_gcc_x86_cpuid.html
+#
+#   On Pentium and later x86 processors, with gcc or a compiler that has a
+#   compatible syntax for inline assembly instructions, run a small program
+#   that executes the cpuid instruction with input OP. This can be used to
+#   detect the CPU type.
+#
+#   On output, the values of the eax, ebx, ecx, and edx registers are stored
+#   as hexadecimal strings as "eax:ebx:ecx:edx" in the cache variable
+#   ax_cv_gcc_x86_cpuid_OP.
+#
+#   If the cpuid instruction fails (because you are running a
+#   cross-compiler, or because you are not using gcc, or because you are on
+#   a processor that doesn't have this instruction), ax_cv_gcc_x86_cpuid_OP
+#   is set to the string "unknown".
+#
+#   This macro mainly exists to be used in AX_GCC_ARCHFLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_GCC_X86_CPUID],
+[AC_REQUIRE([AC_PROG_CC])
+AC_LANG_PUSH([C])
+AC_CACHE_CHECK(for x86 cpuid $1 output, ax_cv_gcc_x86_cpuid_$1,
+ [AC_RUN_IFELSE([AC_LANG_PROGRAM([#include <stdio.h>], [
+     int op = $1, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+])],
+     [ax_cv_gcc_x86_cpuid_$1=`cat conftest_cpuid`; rm -f conftest_cpuid],
+     [ax_cv_gcc_x86_cpuid_$1=unknown; rm -f conftest_cpuid],
+     [ax_cv_gcc_x86_cpuid_$1=unknown])])
+AC_LANG_POP([C])
+])
+#
+# AX_GCC_X86_CPUID macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_COMPILER_VENDOR
+# Usage: AX_COMPILER_VENDOR
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo
+# Version:  2007-08-01
+# Source:   http://autoconf-archive.cryp.to/ax_compiler_vendor.html
+#
+# Sets $ax_cv_c_compiler_vendor to gnu, intel, ibm, sun, hp, borland,
+# comeau, dec, cray, kai, lcc, metrowerks, sgi, microsoft, watcom, etc.
+#
+# Everything below is verbatim from the archive. DO NOT MODIFY IT.
+AC_DEFUN([AX_COMPILER_VENDOR],
+[
+AC_CACHE_CHECK([for _AC_LANG compiler vendor], ax_cv_[]_AC_LANG_ABBREV[]_compiler_vendor,
+ [ax_cv_[]_AC_LANG_ABBREV[]_compiler_vendor=unknown
+  # note: don't check for gcc first since some other compilers define __GNUC__
+  for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ pathscale:__PATHCC__,__PATHSCALE__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do
+    vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")"
+    AC_COMPILE_IFELSE([AC_LANG_PROGRAM(,[
+#if !($vencpp)
+      thisisanerror;
+#endif
+])], [ax_cv_]_AC_LANG_ABBREV[_compiler_vendor=`echo $ventest | cut -d: -f1`; break])
+  done
+ ])
+])
+#
+# AX_COMPILER_VENDOR macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CHECK_PREPROC_FLAG
+# Usage: AX_CHECK_PREPROC_FLAG(FLAG, [ACTION-SUCCESS], [ACTION-FAILURE], [EXTRA-FLAGS], [INPUT])
+# Authors:  Copyright (c) 2008 Guido U. Draheim <guidod@gmx.de>
+#           Copyright (c) 2011 Maarten Bosmans <mkbosmans@gmail.com>
+#
+# Version:  2013-12-11
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_check_preproc_flag.html
+#
+#   Check whether the given FLAG works with the current language's
+#   preprocessor or gives an error.  (Warnings, however, are ignored)
+#
+#   ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on
+#   success/failure.
+#
+#   If EXTRA-FLAGS is defined, it is added to the preprocessor's default
+#   flags when the check is done.  The check is thus made with the flags:
+#   "CPPFLAGS EXTRA-FLAGS FLAG".  This can for example be used to force the
+#   preprocessor to issue an error when a bad flag is given.
+#
+#   INPUT gives an alternative input source to AC_PREPROC_IFELSE.
+#
+#   NOTE: Implementation based on AX_CFLAGS_GCC_OPTION. Please keep this
+#   macro in sync with AX_CHECK_{COMPILE,LINK}_FLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_PREPROC_FLAG],
+[AC_PREREQ(2.59)dnl for _AC_LANG_PREFIX
+AS_VAR_PUSHDEF([CACHEVAR],[ax_cv_check_[]_AC_LANG_ABBREV[]cppflags_$4_$1])dnl
+AC_CACHE_CHECK([whether _AC_LANG preprocessor accepts $1], CACHEVAR, [
+  ax_check_save_flags=$CPPFLAGS
+  CPPFLAGS="$CPPFLAGS $4 $1"
+  AC_PREPROC_IFELSE([m4_default([$5],[AC_LANG_PROGRAM()])],
+    [AS_VAR_SET(CACHEVAR,[yes])],
+    [AS_VAR_SET(CACHEVAR,[no])])
+  CPPFLAGS=$ax_check_save_flags])
+AS_IF([test x"AS_VAR_GET(CACHEVAR)" = xyes],
+  [m4_default([$2], :)],
+  [m4_default([$3], :)])
+AS_VAR_POPDEF([CACHEVAR])dnl
+])dnl AX_CHECK_PREPROC_FLAGS
+#
+# AX_CHECK_PREPROC_FLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CHECK_LINK_FLAG
+# Usage: AX_CHECK_LINK_FLAG(FLAG, [ACTION-SUCCESS], [ACTION-FAILURE], [EXTRA-FLAGS], [INPUT])
+# Authors:  Copyright (c) 2008 Guido U. Draheim <guidod@gmx.de>
+#           Copyright (c) 2011 Maarten Bosmans <mkbosmans@gmail.com>
+#
+# Version:  2013-12-11
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_check_link_flag.html
+#
+#   Check whether the given FLAG works with the linker or gives an error.
+#   (Warnings, however, are ignored)
+#
+#   ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on
+#   success/failure.
+#
+#   If EXTRA-FLAGS is defined, it is added to the linker's default flags
+#   when the check is done.  The check is thus made with the flags: "LDFLAGS
+#   EXTRA-FLAGS FLAG".  This can for example be used to force the linker to
+#   issue an error when a bad flag is given.
+#
+#   INPUT gives an alternative input source to AC_LINK_IFELSE.
+#
+#   NOTE: Implementation based on AX_CFLAGS_GCC_OPTION. Please keep this
+#   macro in sync with AX_CHECK_{PREPROC,COMPILE}_FLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_LINK_FLAG],
+[AS_VAR_PUSHDEF([CACHEVAR],[ax_cv_check_ldflags_$4_$1])dnl
+AC_CACHE_CHECK([whether the linker accepts $1], CACHEVAR, [
+  ax_check_save_flags=$LDFLAGS
+  LDFLAGS="$LDFLAGS $4 $1"
+  AC_LINK_IFELSE([m4_default([$5],[AC_LANG_PROGRAM()])],
+    [AS_VAR_SET(CACHEVAR,[yes])],
+    [AS_VAR_SET(CACHEVAR,[no])])
+  LDFLAGS=$ax_check_save_flags])
+AS_IF([test x"AS_VAR_GET(CACHEVAR)" = xyes],
+  [m4_default([$2], :)],
+  [m4_default([$3], :)])
+AS_VAR_POPDEF([CACHEVAR])dnl
+])dnl AX_CHECK_LINK_FLAGS
+#
+# AX_CHECK_LINK_FLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CHECK_COMPILE_FLAG
+# Usage: AX_CHECK_COMPILE_FLAG(FLAG, [ACTION-SUCCESS], [ACTION-FAILURE], [EXTRA-FLAGS], [INPUT])
+# Authors:  Copyright (c) 2008 Guido U. Draheim <guidod@gmx.de>
+#           Copyright (c) 2011 Maarten Bosmans <mkbosmans@gmail.com>
+#
+# Version:  2013-12-11
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_check_compile_flag.html
+#
+#   Check whether the given FLAG works with the current language's compiler
+#   or gives an error.  (Warnings, however, are ignored)
+#
+#   ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on
+#   success/failure.
+#
+#   If EXTRA-FLAGS is defined, it is added to the current language's default
+#   flags (e.g. CFLAGS) when the check is done.  The check is thus made with
+#   the flags: "CFLAGS EXTRA-FLAGS FLAG".  This can for example be used to
+#   force the compiler to issue an error when a bad flag is given.
+#
+#   INPUT gives an alternative input source to AC_COMPILE_IFELSE.
+#
+#   NOTE: Implementation based on AX_CFLAGS_GCC_OPTION. Please keep this
+#   macro in sync with AX_CHECK_{PREPROC,LINK}_FLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_COMPILE_FLAG],
+[AC_PREREQ(2.59)dnl for _AC_LANG_PREFIX
+AS_VAR_PUSHDEF([CACHEVAR],[ax_cv_check_[]_AC_LANG_ABBREV[]flags_$4_$1])dnl
+AC_CACHE_CHECK([whether _AC_LANG compiler accepts $1], CACHEVAR, [
+  ax_check_save_flags=$[]_AC_LANG_PREFIX[]FLAGS
+  _AC_LANG_PREFIX[]FLAGS="$[]_AC_LANG_PREFIX[]FLAGS $4 $1"
+  AC_COMPILE_IFELSE([m4_default([$5],[AC_LANG_PROGRAM()])],
+    [AS_VAR_SET(CACHEVAR,[yes])],
+    [AS_VAR_SET(CACHEVAR,[no])])
+  _AC_LANG_PREFIX[]FLAGS=$ax_check_save_flags])
+AS_IF([test x"AS_VAR_GET(CACHEVAR)" = xyes],
+  [m4_default([$2], :)],
+  [m4_default([$3], :)])
+AS_VAR_POPDEF([CACHEVAR])dnl
+])dnl AX_CHECK_COMPILE_FLAGS
+#
+# AX_CHECK_COMPILE_FLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_GCC_ARCHFLAG
+# Usage: AX_GCC_ARCHFLAG([PORTABLE?], [ACTION-SUCCESS], [ACTION-FAILURE])
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo
+# Version:  2013-12-11
+# Source:   http://autoconf-archive.cryp.to/ax_gcc_archflag.html
+#
+#   This macro tries to guess the "native" arch corresponding to the target
+#   architecture for use with gcc's -march=arch or -mtune=arch flags. If
+#   found, the cache variable $ax_cv_gcc_archflag is set to this flag and
+#   ACTION-SUCCESS is executed; otherwise $ax_cv_gcc_archflag is set to
+#   "unknown" and ACTION-FAILURE is executed. The default ACTION-SUCCESS is
+#   to add $ax_cv_gcc_archflag to the end of $CFLAGS.
+#
+#   PORTABLE? should be either [yes] (default) or [no]. In the former case,
+#   the flag is set to -mtune (or equivalent) so that the architecture is
+#   only used for tuning, but the instruction set used is still portable. In
+#   the latter case, the flag is set to -march (or equivalent) so that
+#   architecture-specific instructions are enabled.
+#
+#   The user can specify --with-gcc-arch=<arch> in order to override the
+#   macro's choice of architecture, or --without-gcc-arch to disable this.
+#
+#   When cross-compiling, or if $CC is not gcc, then ACTION-FAILURE is
+#   called unless the user specified --with-gcc-arch manually.
+#
+#   Requires macros: AX_CHECK_COMPILE_FLAG, AX_GCC_X86_CPUID
+#
+#   (The main emphasis here is on recent CPUs, on the principle that doing
+#   high-performance computing on old hardware is uncommon.)
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_GCC_ARCHFLAG],
+[AC_REQUIRE([AC_PROG_CC])
+AC_REQUIRE([AC_CANONICAL_HOST])
+AC_REQUIRE([AC_PROG_SED])
+
+AC_ARG_WITH(gcc-arch, [AS_HELP_STRING([--with-gcc-arch=<arch>], [use architecture <arch> for gcc -march/-mtune, instead of guessing])],
+    ax_gcc_arch=$withval, ax_gcc_arch=yes)
+
+AC_MSG_CHECKING([for gcc architecture flag])
+AC_MSG_RESULT([])
+AC_CACHE_VAL(ax_cv_gcc_archflag,
+[
+ax_cv_gcc_archflag="unknown"
+
+if test "$GCC" = yes; then
+
+if test "x$ax_gcc_arch" = xyes; then
+ax_gcc_arch=""
+if test "$cross_compiling" = no; then
+case $host_cpu in
+  i[[3456]]86*|x86_64*|amd64*) # use cpuid codes
+     AX_GCC_X86_CPUID(0)
+     AX_GCC_X86_CPUID(1)
+     case $ax_cv_gcc_x86_cpuid_0 in
+       *:756e6547:*:*) # Intel
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[[48]]?:*:*:*) ax_gcc_arch="pentium-mmx pentium" ;;
+        *5??:*:*:*) ax_gcc_arch=pentium ;;
+        *1?6[[7d]]?:*:*:*) ax_gcc_arch="penryn core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6[[aef]]?:*:*:*|*2?6[[5cef]]?:*:*:*) ax_gcc_arch="corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6c?:*:*:*|*[[23]]?66?:*:*:*) ax_gcc_arch="atom core2 pentium-m pentium3 pentiumpro" ;;
+        *2?6[[ad]]?:*:*:*) ax_gcc_arch="corei7-avx corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *[[1-9a-f]]?6??:*:*:*) ax_gcc_arch="core2 pentiumpro" ;;
+        *6[[3456]]?:*:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[[01]]:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[[234]]:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6[[9de]]?:*:*:*) ax_gcc_arch="pentium-m pentium3 pentiumpro" ;;
+        *6[[78b]]?:*:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6f?:*:*:*) ax_gcc_arch="core2 pentium-m pentium3 pentiumpro" ;;
+        *6??:*:*:*) ax_gcc_arch=pentiumpro ;;
+        *f3[[347]]:*:*:*|*f4[1347]:*:*:*|*f6?:*:*:*)
+        case $host_cpu in
+              x86_64*) ax_gcc_arch="nocona pentium4 pentiumpro" ;;
+              *) ax_gcc_arch="prescott pentium4 pentiumpro" ;;
+            esac ;;
+        *f??:*:*:*) ax_gcc_arch="pentium4 pentiumpro";;
+          esac ;;
+       *:68747541:*:*) # AMD
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[[67]]?:*:*:*) ax_gcc_arch=k6 ;;
+        *5[[8d]]?:*:*:*) ax_gcc_arch="k6-2 k6" ;;
+        *5[[9]]?:*:*:*) ax_gcc_arch="k6-3 k6" ;;
+        *60?:*:*:*) ax_gcc_arch=k7 ;;
+        *6[[12]]?:*:*:*) ax_gcc_arch="athlon k7" ;;
+        *6[[34]]?:*:*:*) ax_gcc_arch="athlon-tbird k7" ;;
+        *67?:*:*:*) ax_gcc_arch="athlon-4 athlon k7" ;;
+        *6[[68a]]?:*:*:*)
+           AX_GCC_X86_CPUID(0x80000006) # L2 cache size
+           case $ax_cv_gcc_x86_cpuid_0x80000006 in
+                 *:*:*[[1-9a-f]]??????:*) # (L2 = ecx >> 16) >= 256
+            ax_gcc_arch="athlon-xp athlon-4 athlon k7" ;;
+                 *) ax_gcc_arch="athlon-4 athlon k7" ;;
+           esac ;;
+        *5??f??:*:*:*) ax_gcc_arch="btver1 amdfam10 k8" ;;
+        *6??f??:*:*:*) ax_gcc_arch="bdver1 amdfam10 k8" ;;
+        *[[1-9a-f]]??f??:*:*:*) ax_gcc_arch="amdfam10 k8" ;;
+        *f[[4cef8b]]?:*:*:*) ax_gcc_arch="athlon64 k8" ;;
+        *f5?:*:*:*) ax_gcc_arch="opteron k8" ;;
+        *f7?:*:*:*) ax_gcc_arch="athlon-fx opteron k8" ;;
+        *f??:*:*:*) ax_gcc_arch="k8" ;;
+          esac ;;
+    *:746e6543:*:*) # IDT
+       case $ax_cv_gcc_x86_cpuid_1 in
+         *54?:*:*:*) ax_gcc_arch=winchip-c6 ;;
+         *58?:*:*:*) ax_gcc_arch=winchip2 ;;
+         *6[[78]]?:*:*:*) ax_gcc_arch=c3 ;;
+         *69?:*:*:*) ax_gcc_arch="c3-2 c3" ;;
+       esac ;;
+     esac
+     if test x"$ax_gcc_arch" = x; then # fallback
+    case $host_cpu in
+      i586*) ax_gcc_arch=pentium ;;
+      i686*) ax_gcc_arch=pentiumpro ;;
+        esac
+     fi
+     ;;
+
+  sparc*)
+     AC_PATH_PROG([PRTDIAG], [prtdiag], [prtdiag], [$PATH:/usr/platform/`uname -i`/sbin/:/usr/platform/`uname -m`/sbin/])
+     cputype=`(((grep cpu /proc/cpuinfo | cut -d: -f2) ; ($PRTDIAG -v |grep -i sparc) ; grep -i cpu /var/run/dmesg.boot ) | head -n 1) 2> /dev/null`
+     cputype=`echo "$cputype" | tr -d ' -' | $SED 's/SPARCIIi/SPARCII/' |tr $as_cr_LETTERS $as_cr_letters`
+     case $cputype in
+         *ultrasparciv*) ax_gcc_arch="ultrasparc4 ultrasparc3 ultrasparc v9" ;;
+         *ultrasparciii*) ax_gcc_arch="ultrasparc3 ultrasparc v9" ;;
+         *ultrasparc*) ax_gcc_arch="ultrasparc v9" ;;
+         *supersparc*|*tms390z5[[05]]*) ax_gcc_arch="supersparc v8" ;;
+         *hypersparc*|*rt62[[056]]*) ax_gcc_arch="hypersparc v8" ;;
+         *cypress*) ax_gcc_arch=cypress ;;
+     esac ;;
+
+  alphaev5) ax_gcc_arch=ev5 ;;
+  alphaev56) ax_gcc_arch=ev56 ;;
+  alphapca56) ax_gcc_arch="pca56 ev56" ;;
+  alphapca57) ax_gcc_arch="pca57 pca56 ev56" ;;
+  alphaev6) ax_gcc_arch=ev6 ;;
+  alphaev67) ax_gcc_arch=ev67 ;;
+  alphaev68) ax_gcc_arch="ev68 ev67" ;;
+  alphaev69) ax_gcc_arch="ev69 ev68 ev67" ;;
+  alphaev7) ax_gcc_arch="ev7 ev69 ev68 ev67" ;;
+  alphaev79) ax_gcc_arch="ev79 ev7 ev69 ev68 ev67" ;;
+
+  powerpc*)
+     cputype=`((grep cpu /proc/cpuinfo | head -n 1 | cut -d: -f2 | cut -d, -f1 | $SED 's/ //g') ; /usr/bin/machine ; /bin/machine; grep CPU /var/run/dmesg.boot | head -n 1 | cut -d" " -f2) 2> /dev/null`
+     cputype=`echo $cputype | $SED -e 's/ppc//g;s/ *//g'`
+     case $cputype in
+       *750*) ax_gcc_arch="750 G3" ;;
+       *740[[0-9]]*) ax_gcc_arch="$cputype 7400 G4" ;;
+       *74[[4-5]][[0-9]]*) ax_gcc_arch="$cputype 7450 G4" ;;
+       *74[[0-9]][[0-9]]*) ax_gcc_arch="$cputype G4" ;;
+       *970*) ax_gcc_arch="970 G5 power4";;
+       *POWER4*|*power4*|*gq*) ax_gcc_arch="power4 970";;
+       *POWER5*|*power5*|*gr*|*gs*) ax_gcc_arch="power5 power4 970";;
+       603ev|8240) ax_gcc_arch="$cputype 603e 603";;
+       *) ax_gcc_arch=$cputype ;;
+     esac
+     ax_gcc_arch="$ax_gcc_arch powerpc"
+     ;;
+esac
+fi # not cross-compiling
+fi # guess arch
+
+if test "x$ax_gcc_arch" != x -a "x$ax_gcc_arch" != xno; then
+for arch in $ax_gcc_arch; do
+  if test "x[]m4_default([$1],yes)" = xyes; then # if we require portable code
+    flags="-mtune=$arch"
+    # -mcpu=$arch and m$arch generate nonportable code on every arch except
+    # x86.  And some other arches (e.g. Alpha) don't accept -mtune.  Grrr.
+    case $host_cpu in i*86|x86_64*) flags="$flags -mcpu=$arch -m$arch";; esac
+  else
+    flags="-march=$arch -mcpu=$arch -m$arch"
+  fi
+  for flag in $flags; do
+    AX_CHECK_COMPILE_FLAG($flag, [ax_cv_gcc_archflag=$flag; break])
+  done
+  test "x$ax_cv_gcc_archflag" = xunknown || break
+done
+fi
+
+fi # $GCC=yes
+])
+AC_MSG_CHECKING([for gcc architecture flag])
+AC_MSG_RESULT($ax_cv_gcc_archflag)
+if test "x$ax_cv_gcc_archflag" = xunknown; then
+  m4_default([$3],:)
+else
+  m4_default([$2], [CFLAGS="$CFLAGS $ax_cv_gcc_archflag"])
+fi
+])
+#
+# AX_GCC_ARCHFLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CC_MAXOPT
+# Usage: AX_CC_MAXOPT
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo
+# Version:  2007-07-29
+# Source:   http://autoconf-archive.cryp.to/ax_cc_maxopt.html
+#
+# Try to turn on "good" C optimization flags for various compilers and
+# architectures, for some definition of "good". 
+#
+# The user can override the flags by setting the CFLAGS environment
+# variable.  The user can also specify --enable-portable-binary in
+# order to disable any optimization flags that might result in a
+# binary that only runs on the host architecture.
+#
+# Note also that the flags assume that ANSI C aliasing rules are
+# followed by the code (e.g. for gcc's -fstrict-aliasing), and that
+# floating-point computations can be re-ordered as needed.
+#
+# SRE: I've made modifications as follows.
+#  - HMMER relies on IEEE754-compliant math. Don't enable
+#    any options that break compliance; for example, gcc -ffast-math
+#  - similarly, for IBM xlc, add -qstrict.
+#
+AC_DEFUN([AX_CC_MAXOPT],
+[
+AC_REQUIRE([AC_PROG_CC])
+AC_REQUIRE([AX_COMPILER_VENDOR])
+AC_REQUIRE([AC_CANONICAL_HOST])
+
+AC_ARG_ENABLE(portable-binary, [AC_HELP_STRING([--enable-portable-binary], [disable compiler optimizations that would produce unportable binaries])],
+        acx_maxopt_portable=$withval, acx_maxopt_portable=no)
+
+# Try to determine "good" native compiler flags if none specified via CFLAGS
+if test "$ac_test_CFLAGS" != "set"; then
+  CFLAGS=""
+  case $ax_cv_c_compiler_vendor in
+    dec) CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -tune host"
+#        CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -fp_reorder -tune host"
+         if test "x$acx_maxopt_portable" = xno; then
+           CFLAGS="$CFLAGS -arch host"
+         fi;;
+
+    sun) CFLAGS="-native -xO5 -dalign"
+#        CFLAGS="-native -fast -xO5 -dalign"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS -xarch=generic"
+         fi;;
+
+    hp)  CFLAGS="+Oall +Optrs_ansi +DSnative"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS +DAportable"
+         fi;;
+
+    ibm) xlc_opt="-qtune=auto -qstrict"
+         if test "x$acx_maxopt_portable" = xno; then
+            if test "x$XLC_ARCH" = xno; then
+               xlc_opt="-qarch=auto $xlc_opt"
+            else
+               xlc_opt="-qarch=$XLC_ARCH $xlc_opt"
+            fi
+         fi
+         AX_CHECK_COMPILER_FLAGS($xlc_opt,
+                CFLAGS="-O3 -qansialias -w $xlc_opt",
+               [CFLAGS="-O3 -qansialias -w"
+                echo "******************************************************"
+                echo "*  You seem to have the IBM  C compiler.  It is      *"
+                echo "*  recommended for best performance that you use:    *"
+                echo "*                                                    *"
+                echo "*    CFLAGS=-O3 -qarch=xxx -qtune=xxx -qansialias -w *"
+                echo "*                      ^^^        ^^^                *"
+                echo "*  where xxx is pwr2, pwr3, 604, or whatever kind of *"
+                echo "*  CPU you have.  (Set the CFLAGS environment var.   *"
+                echo "*  and re-run configure.)  For more info, man cc.    *"
+                echo "******************************************************"])
+         ;;
+
+    intel) CFLAGS="-O3 -ansi_alias"
+        if test "x$acx_maxopt_portable" = xno; then
+          icc_archflag=unknown
+          icc_flags=""
+          case $host_cpu in
+            i686*|x86_64*)
+              # icc accepts gcc assembly syntax, so these should work:
+              AX_GCC_X86_CPUID(0)
+              AX_GCC_X86_CPUID(1)
+              case $ax_cv_gcc_x86_cpuid_0 in # see AX_GCC_ARCHFLAG
+                *:756e6547:*:*) # Intel
+                  case $ax_cv_gcc_x86_cpuid_1 in
+                    *6a?:*[[234]]:*:*|*6[[789b]]?:*:*:*) icc_flags="-xK";;
+                    *f3[[347]]:*:*:*|*f4[1347]:*:*:*) icc_flags="-xP -xN -xW -xK";;
+                    *f??:*:*:*) icc_flags="-xN -xW -xK";;
+                  esac ;;
+              esac ;;
+          esac
+          if test "x$icc_flags" != x; then
+            for flag in $icc_flags; do
+              AX_CHECK_COMPILER_FLAGS($flag, [icc_archflag=$flag; break])
+            done
+          fi
+          AC_MSG_CHECKING([for icc architecture flag])
+          AC_MSG_RESULT($icc_archflag)
+          if test "x$icc_archflag" != xunknown; then
+            CFLAGS="$CFLAGS $icc_archflag"
+          fi
+        fi
+        ;;
+
+    gnu)
+     # default optimization flags for gcc on all systems
+     CFLAGS="-O3 -fomit-frame-pointer"
+
+     # -malign-double for x86 systems
+     # SRE: no, that's a bad idea; 
+     #  on 32bit Ubuntu Linux systems, for example, this
+     #  causes an odd and buggy interaction with _FILE_OFFSET_BITS (LFS)
+     #  and fstat().
+     #     AX_CHECK_COMPILER_FLAGS(-malign-double, CFLAGS="$CFLAGS -malign-double")
+
+     #  -fstrict-aliasing for gcc-2.95+
+     AX_CHECK_COMPILER_FLAGS(-fstrict-aliasing,
+        CFLAGS="$CFLAGS -fstrict-aliasing")
+
+     # note that we enable "unsafe" fp optimization with other compilers, too
+     # SRE: no, that's a bad idea, don't use this
+#     AX_CHECK_COMPILER_FLAGS(-ffast-math, CFLAGS="$CFLAGS -ffast-math")
+
+     AX_GCC_ARCHFLAG($acx_maxopt_portable)
+     ;;
+  esac
+
+  if test -z "$CFLAGS"; then
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: Don't know the best CFLAGS for this system  *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "* (otherwise, a default of CFLAGS=-O3 will be used)    *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS="-O3"
+  fi
+
+  AX_CHECK_COMPILER_FLAGS($CFLAGS, [], [
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: The guessed CFLAGS don't seem to work with  *"
+        echo "* your compiler.                                       *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS=""
+  ])
+
+fi
+])
+#
+# AX_CC_MAXOPT macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+################################################################
+# Macro:      ESL_PIC_FLAGS
+# Usage:      ESL_PIC_FLAGS
+# Author:     Dan Nicholson, Mesa3D project 
+# References: http://www.mesa3d.org/
+#             http://www.mail-archive.com/mesa3d-dev@lists.sourceforge.net/msg04938.html
+# 
+# Derived (essentially verbatim) from MESA_PIC_FLAGS, in the Mesa
+# project's acinclude.m4 file. From the Mesa file's header:
+#   "Find out whether to build PIC code using the option --enable-pic and
+#   the configure enable_static/enable_shared settings. If PIC is needed,
+#   figure out the necessary flags for the platform and compiler.
+#
+#   The platform checks have been shamelessly taken from libtool and
+#   stripped down to just what's needed for Mesa. See _LT_COMPILER_PIC in
+#   /usr/share/aclocal/libtool.m4 or
+#   http://git.savannah.gnu.org/gitweb/?p=libtool.git;a=blob;f=libltdl/m4/libtool.m4;hb=HEAD
+#
+# Sets an output variable @PIC_FLAGS@ which should be added to
+# CFLAGS lines.
+#
+AC_DEFUN([ESL_PIC_FLAGS],
+[AC_REQUIRE([AC_PROG_CC])dnl
+AC_ARG_VAR([PIC_FLAGS], [compiler flags for PIC code])
+AC_ARG_ENABLE([pic],
+    [AS_HELP_STRING([--disable-pic],
+        [compile PIC objects @<:@default=enabled for shared builds
+        on supported platforms@:>@])],
+    [enable_pic="$enableval"
+    test "x$enable_pic" = x && enable_pic=auto],
+    [enable_pic=auto])
+# disable PIC by default for static builds
+if test "$enable_pic" = auto && test "$enable_static" = yes; then
+    enable_pic=no
+fi
+# if PIC hasn't been explicitly disabled, try to figure out the flags
+if test "$enable_pic" != no; then
+    AC_MSG_CHECKING([for $CC option to produce PIC])
+    # allow the user's flags to override
+    if test "x$PIC_FLAGS" = x; then
+        # see if we're using GCC
+        if test "x$GCC" = xyes; then
+            case "$host_os" in
+            aix*|beos*|cygwin*|irix5*|irix6*|osf3*|osf4*|osf5*)
+                # PIC is the default for these OSes.
+                ;;
+            mingw*|os2*|pw32*)
+                # This hack is so that the source file can tell whether
+                # it is being built for inclusion in a dll (and should
+                # export symbols for example).
+                PIC_FLAGS="-DDLL_EXPORT"
+                ;;
+            darwin*|rhapsody*)
+                # PIC is the default on this platform
+                # Common symbols not allowed in MH_DYLIB files
+                PIC_FLAGS="-fno-common"
+                ;;
+            hpux*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case $host_cpu in
+                hppa*64*|ia64*)
+                    ;;
+                *)
+                    PIC_FLAGS="-fPIC"
+                    ;;
+                esac
+                ;;
+            *)
+                # Everyone else on GCC uses -fPIC
+                PIC_FLAGS="-fPIC"
+                ;;
+            esac
+        else # !GCC
+            case "$host_os" in
+            hpux9*|hpux10*|hpux11*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case "$host_cpu" in
+                hppa*64*|ia64*)
+                    # +Z the default
+                    ;;
+                *)
+                    PIC_FLAGS="+Z"
+                    ;;
+                esac
+                ;;
+            linux*|k*bsd*-gnu)
+                case `basename "$CC"` in
+                icc*|ecc*|ifort*)
+                    PIC_FLAGS="-KPIC"
+                    ;;
+                pgcc*|pgf77*|pgf90*|pgf95*)
+                    # Portland Group compilers (*not* the Pentium gcc
+                    # compiler, which looks to be a dead project)
+                    PIC_FLAGS="-fpic"
+                    ;;
+                ccc*)
+                    # All Alpha code is PIC.
+                    ;;
+                xl*)
+                    # IBM XL C 8.0/Fortran 10.1 on PPC
+                    PIC_FLAGS="-qpic"
+                    ;;
+                *)
+                    case `$CC -V 2>&1 | sed 5q` in
+                    *Sun\ C*|*Sun\ F*)
+                        # Sun C 5.9 or Sun Fortran
+                        PIC_FLAGS="-KPIC"
+                        ;;
+                    esac
+                esac
+                ;;
+            solaris*)
+                PIC_FLAGS="-KPIC"
+                ;;
+            sunos4*)
+                PIC_FLAGS="-PIC"
+                ;;
+            esac
+        fi # GCC
+    fi # PIC_FLAGS
+    AC_MSG_RESULT([$PIC_FLAGS])
+fi
+AC_SUBST([PIC_FLAGS])
+])
+#
+# ESL_PIC_FLAGS macro end.
+# ****************************************************************
+# ****************************************************************
+
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diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/config.guess b/Exercise11_files/hmmer-3.1b2-cygwin64/config.guess
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--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/config.guess
@@ -0,0 +1,1526 @@
+#! /bin/sh
+# Attempt to guess a canonical system name.
+#   Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
+#   2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008
+#   Free Software Foundation, Inc.
+
+timestamp='2008-04-14'
+
+# This file is free software; you can redistribute it and/or modify it
+# under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 2 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful, but
+# WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
+# General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program; if not, write to the Free Software
+# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
+# 02110-1301, USA.
+#
+# As a special exception to the GNU General Public License, if you
+# distribute this file as part of a program that contains a
+# configuration script generated by Autoconf, you may include it under
+# the same distribution terms that you use for the rest of that program.
+
+
+# Originally written by Per Bothner <per@bothner.com>.
+# Please send patches to <config-patches@gnu.org>.  Submit a context
+# diff and a properly formatted ChangeLog entry.
+#
+# This script attempts to guess a canonical system name similar to
+# config.sub.  If it succeeds, it prints the system name on stdout, and
+# exits with 0.  Otherwise, it exits with 1.
+#
+# The plan is that this can be called by configure scripts if you
+# don't specify an explicit build system type.
+
+me=`echo "$0" | sed -e 's,.*/,,'`
+
+usage="\
+Usage: $0 [OPTION]
+
+Output the configuration name of the system \`$me' is run on.
+
+Operation modes:
+  -h, --help         print this help, then exit
+  -t, --time-stamp   print date of last modification, then exit
+  -v, --version      print version number, then exit
+
+Report bugs and patches to <config-patches@gnu.org>."
+
+version="\
+GNU config.guess ($timestamp)
+
+Originally written by Per Bothner.
+Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001,
+2002, 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
+
+This is free software; see the source for copying conditions.  There is NO
+warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE."
+
+help="
+Try \`$me --help' for more information."
+
+# Parse command line
+while test $# -gt 0 ; do
+  case $1 in
+    --time-stamp | --time* | -t )
+       echo "$timestamp" ; exit ;;
+    --version | -v )
+       echo "$version" ; exit ;;
+    --help | --h* | -h )
+       echo "$usage"; exit ;;
+    -- )     # Stop option processing
+       shift; break ;;
+    - )	# Use stdin as input.
+       break ;;
+    -* )
+       echo "$me: invalid option $1$help" >&2
+       exit 1 ;;
+    * )
+       break ;;
+  esac
+done
+
+if test $# != 0; then
+  echo "$me: too many arguments$help" >&2
+  exit 1
+fi
+
+trap 'exit 1' 1 2 15
+
+# CC_FOR_BUILD -- compiler used by this script. Note that the use of a
+# compiler to aid in system detection is discouraged as it requires
+# temporary files to be created and, as you can see below, it is a
+# headache to deal with in a portable fashion.
+
+# Historically, `CC_FOR_BUILD' used to be named `HOST_CC'. We still
+# use `HOST_CC' if defined, but it is deprecated.
+
+# Portable tmp directory creation inspired by the Autoconf team.
+
+set_cc_for_build='
+trap "exitcode=\$?; (rm -f \$tmpfiles 2>/dev/null; rmdir \$tmp 2>/dev/null) && exit \$exitcode" 0 ;
+trap "rm -f \$tmpfiles 2>/dev/null; rmdir \$tmp 2>/dev/null; exit 1" 1 2 13 15 ;
+: ${TMPDIR=/tmp} ;
+ { tmp=`(umask 077 && mktemp -d "$TMPDIR/cgXXXXXX") 2>/dev/null` && test -n "$tmp" && test -d "$tmp" ; } ||
+ { test -n "$RANDOM" && tmp=$TMPDIR/cg$$-$RANDOM && (umask 077 && mkdir $tmp) ; } ||
+ { tmp=$TMPDIR/cg-$$ && (umask 077 && mkdir $tmp) && echo "Warning: creating insecure temp directory" >&2 ; } ||
+ { echo "$me: cannot create a temporary directory in $TMPDIR" >&2 ; exit 1 ; } ;
+dummy=$tmp/dummy ;
+tmpfiles="$dummy.c $dummy.o $dummy.rel $dummy" ;
+case $CC_FOR_BUILD,$HOST_CC,$CC in
+ ,,)    echo "int x;" > $dummy.c ;
+	for c in cc gcc c89 c99 ; do
+	  if ($c -c -o $dummy.o $dummy.c) >/dev/null 2>&1 ; then
+	     CC_FOR_BUILD="$c"; break ;
+	  fi ;
+	done ;
+	if test x"$CC_FOR_BUILD" = x ; then
+	  CC_FOR_BUILD=no_compiler_found ;
+	fi
+	;;
+ ,,*)   CC_FOR_BUILD=$CC ;;
+ ,*,*)  CC_FOR_BUILD=$HOST_CC ;;
+esac ; set_cc_for_build= ;'
+
+# This is needed to find uname on a Pyramid OSx when run in the BSD universe.
+# (ghazi@noc.rutgers.edu 1994-08-24)
+if (test -f /.attbin/uname) >/dev/null 2>&1 ; then
+	PATH=$PATH:/.attbin ; export PATH
+fi
+
+UNAME_MACHINE=`(uname -m) 2>/dev/null` || UNAME_MACHINE=unknown
+UNAME_RELEASE=`(uname -r) 2>/dev/null` || UNAME_RELEASE=unknown
+UNAME_SYSTEM=`(uname -s) 2>/dev/null`  || UNAME_SYSTEM=unknown
+UNAME_VERSION=`(uname -v) 2>/dev/null` || UNAME_VERSION=unknown
+
+# Note: order is significant - the case branches are not exclusive.
+
+case "${UNAME_MACHINE}:${UNAME_SYSTEM}:${UNAME_RELEASE}:${UNAME_VERSION}" in
+    *:NetBSD:*:*)
+	# NetBSD (nbsd) targets should (where applicable) match one or
+	# more of the tupples: *-*-netbsdelf*, *-*-netbsdaout*,
+	# *-*-netbsdecoff* and *-*-netbsd*.  For targets that recently
+	# switched to ELF, *-*-netbsd* would select the old
+	# object file format.  This provides both forward
+	# compatibility and a consistent mechanism for selecting the
+	# object file format.
+	#
+	# Note: NetBSD doesn't particularly care about the vendor
+	# portion of the name.  We always set it to "unknown".
+	sysctl="sysctl -n hw.machine_arch"
+	UNAME_MACHINE_ARCH=`(/sbin/$sysctl 2>/dev/null || \
+	    /usr/sbin/$sysctl 2>/dev/null || echo unknown)`
+	case "${UNAME_MACHINE_ARCH}" in
+	    armeb) machine=armeb-unknown ;;
+	    arm*) machine=arm-unknown ;;
+	    sh3el) machine=shl-unknown ;;
+	    sh3eb) machine=sh-unknown ;;
+	    sh5el) machine=sh5le-unknown ;;
+	    *) machine=${UNAME_MACHINE_ARCH}-unknown ;;
+	esac
+	# The Operating System including object format, if it has switched
+	# to ELF recently, or will in the future.
+	case "${UNAME_MACHINE_ARCH}" in
+	    arm*|i386|m68k|ns32k|sh3*|sparc|vax)
+		eval $set_cc_for_build
+		if echo __ELF__ | $CC_FOR_BUILD -E - 2>/dev/null \
+			| grep __ELF__ >/dev/null
+		then
+		    # Once all utilities can be ECOFF (netbsdecoff) or a.out (netbsdaout).
+		    # Return netbsd for either.  FIX?
+		    os=netbsd
+		else
+		    os=netbsdelf
+		fi
+		;;
+	    *)
+	        os=netbsd
+		;;
+	esac
+	# The OS release
+	# Debian GNU/NetBSD machines have a different userland, and
+	# thus, need a distinct triplet. However, they do not need
+	# kernel version information, so it can be replaced with a
+	# suitable tag, in the style of linux-gnu.
+	case "${UNAME_VERSION}" in
+	    Debian*)
+		release='-gnu'
+		;;
+	    *)
+		release=`echo ${UNAME_RELEASE}|sed -e 's/[-_].*/\./'`
+		;;
+	esac
+	# Since CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM:
+	# contains redundant information, the shorter form:
+	# CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM is used.
+	echo "${machine}-${os}${release}"
+	exit ;;
+    *:OpenBSD:*:*)
+	UNAME_MACHINE_ARCH=`arch | sed 's/OpenBSD.//'`
+	echo ${UNAME_MACHINE_ARCH}-unknown-openbsd${UNAME_RELEASE}
+	exit ;;
+    *:ekkoBSD:*:*)
+	echo ${UNAME_MACHINE}-unknown-ekkobsd${UNAME_RELEASE}
+	exit ;;
+    *:SolidBSD:*:*)
+	echo ${UNAME_MACHINE}-unknown-solidbsd${UNAME_RELEASE}
+	exit ;;
+    macppc:MirBSD:*:*)
+	echo powerpc-unknown-mirbsd${UNAME_RELEASE}
+	exit ;;
+    *:MirBSD:*:*)
+	echo ${UNAME_MACHINE}-unknown-mirbsd${UNAME_RELEASE}
+	exit ;;
+    alpha:OSF1:*:*)
+	case $UNAME_RELEASE in
+	*4.0)
+		UNAME_RELEASE=`/usr/sbin/sizer -v | awk '{print $3}'`
+		;;
+	*5.*)
+	        UNAME_RELEASE=`/usr/sbin/sizer -v | awk '{print $4}'`
+		;;
+	esac
+	# According to Compaq, /usr/sbin/psrinfo has been available on
+	# OSF/1 and Tru64 systems produced since 1995.  I hope that
+	# covers most systems running today.  This code pipes the CPU
+	# types through head -n 1, so we only detect the type of CPU 0.
+	ALPHA_CPU_TYPE=`/usr/sbin/psrinfo -v | sed -n -e 's/^  The alpha \(.*\) processor.*$/\1/p' | head -n 1`
+	case "$ALPHA_CPU_TYPE" in
+	    "EV4 (21064)")
+		UNAME_MACHINE="alpha" ;;
+	    "EV4.5 (21064)")
+		UNAME_MACHINE="alpha" ;;
+	    "LCA4 (21066/21068)")
+		UNAME_MACHINE="alpha" ;;
+	    "EV5 (21164)")
+		UNAME_MACHINE="alphaev5" ;;
+	    "EV5.6 (21164A)")
+		UNAME_MACHINE="alphaev56" ;;
+	    "EV5.6 (21164PC)")
+		UNAME_MACHINE="alphapca56" ;;
+	    "EV5.7 (21164PC)")
+		UNAME_MACHINE="alphapca57" ;;
+	    "EV6 (21264)")
+		UNAME_MACHINE="alphaev6" ;;
+	    "EV6.7 (21264A)")
+		UNAME_MACHINE="alphaev67" ;;
+	    "EV6.8CB (21264C)")
+		UNAME_MACHINE="alphaev68" ;;
+	    "EV6.8AL (21264B)")
+		UNAME_MACHINE="alphaev68" ;;
+	    "EV6.8CX (21264D)")
+		UNAME_MACHINE="alphaev68" ;;
+	    "EV6.9A (21264/EV69A)")
+		UNAME_MACHINE="alphaev69" ;;
+	    "EV7 (21364)")
+		UNAME_MACHINE="alphaev7" ;;
+	    "EV7.9 (21364A)")
+		UNAME_MACHINE="alphaev79" ;;
+	esac
+	# A Pn.n version is a patched version.
+	# A Vn.n version is a released version.
+	# A Tn.n version is a released field test version.
+	# A Xn.n version is an unreleased experimental baselevel.
+	# 1.2 uses "1.2" for uname -r.
+	echo ${UNAME_MACHINE}-dec-osf`echo ${UNAME_RELEASE} | sed -e 's/^[PVTX]//' | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'`
+	exit ;;
+    Alpha\ *:Windows_NT*:*)
+	# How do we know it's Interix rather than the generic POSIX subsystem?
+	# Should we change UNAME_MACHINE based on the output of uname instead
+	# of the specific Alpha model?
+	echo alpha-pc-interix
+	exit ;;
+    21064:Windows_NT:50:3)
+	echo alpha-dec-winnt3.5
+	exit ;;
+    Amiga*:UNIX_System_V:4.0:*)
+	echo m68k-unknown-sysv4
+	exit ;;
+    *:[Aa]miga[Oo][Ss]:*:*)
+	echo ${UNAME_MACHINE}-unknown-amigaos
+	exit ;;
+    *:[Mm]orph[Oo][Ss]:*:*)
+	echo ${UNAME_MACHINE}-unknown-morphos
+	exit ;;
+    *:OS/390:*:*)
+	echo i370-ibm-openedition
+	exit ;;
+    *:z/VM:*:*)
+	echo s390-ibm-zvmoe
+	exit ;;
+    *:OS400:*:*)
+        echo powerpc-ibm-os400
+	exit ;;
+    arm:RISC*:1.[012]*:*|arm:riscix:1.[012]*:*)
+	echo arm-acorn-riscix${UNAME_RELEASE}
+	exit ;;
+    arm:riscos:*:*|arm:RISCOS:*:*)
+	echo arm-unknown-riscos
+	exit ;;
+    SR2?01:HI-UX/MPP:*:* | SR8000:HI-UX/MPP:*:*)
+	echo hppa1.1-hitachi-hiuxmpp
+	exit ;;
+    Pyramid*:OSx*:*:* | MIS*:OSx*:*:* | MIS*:SMP_DC-OSx*:*:*)
+	# akee@wpdis03.wpafb.af.mil (Earle F. Ake) contributed MIS and NILE.
+	if test "`(/bin/universe) 2>/dev/null`" = att ; then
+		echo pyramid-pyramid-sysv3
+	else
+		echo pyramid-pyramid-bsd
+	fi
+	exit ;;
+    NILE*:*:*:dcosx)
+	echo pyramid-pyramid-svr4
+	exit ;;
+    DRS?6000:unix:4.0:6*)
+	echo sparc-icl-nx6
+	exit ;;
+    DRS?6000:UNIX_SV:4.2*:7* | DRS?6000:isis:4.2*:7*)
+	case `/usr/bin/uname -p` in
+	    sparc) echo sparc-icl-nx7; exit ;;
+	esac ;;
+    sun4H:SunOS:5.*:*)
+	echo sparc-hal-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit ;;
+    sun4*:SunOS:5.*:* | tadpole*:SunOS:5.*:*)
+	echo sparc-sun-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit ;;
+    i86pc:SunOS:5.*:* | i86xen:SunOS:5.*:*)
+	echo i386-pc-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit ;;
+    sun4*:SunOS:6*:*)
+	# According to config.sub, this is the proper way to canonicalize
+	# SunOS6.  Hard to guess exactly what SunOS6 will be like, but
+	# it's likely to be more like Solaris than SunOS4.
+	echo sparc-sun-solaris3`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit ;;
+    sun4*:SunOS:*:*)
+	case "`/usr/bin/arch -k`" in
+	    Series*|S4*)
+		UNAME_RELEASE=`uname -v`
+		;;
+	esac
+	# Japanese Language versions have a version number like `4.1.3-JL'.
+	echo sparc-sun-sunos`echo ${UNAME_RELEASE}|sed -e 's/-/_/'`
+	exit ;;
+    sun3*:SunOS:*:*)
+	echo m68k-sun-sunos${UNAME_RELEASE}
+	exit ;;
+    sun*:*:4.2BSD:*)
+	UNAME_RELEASE=`(sed 1q /etc/motd | awk '{print substr($5,1,3)}') 2>/dev/null`
+	test "x${UNAME_RELEASE}" = "x" && UNAME_RELEASE=3
+	case "`/bin/arch`" in
+	    sun3)
+		echo m68k-sun-sunos${UNAME_RELEASE}
+		;;
+	    sun4)
+		echo sparc-sun-sunos${UNAME_RELEASE}
+		;;
+	esac
+	exit ;;
+    aushp:SunOS:*:*)
+	echo sparc-auspex-sunos${UNAME_RELEASE}
+	exit ;;
+    # The situation for MiNT is a little confusing.  The machine name
+    # can be virtually everything (everything which is not
+    # "atarist" or "atariste" at least should have a processor
+    # > m68000).  The system name ranges from "MiNT" over "FreeMiNT"
+    # to the lowercase version "mint" (or "freemint").  Finally
+    # the system name "TOS" denotes a system which is actually not
+    # MiNT.  But MiNT is downward compatible to TOS, so this should
+    # be no problem.
+    atarist[e]:*MiNT:*:* | atarist[e]:*mint:*:* | atarist[e]:*TOS:*:*)
+        echo m68k-atari-mint${UNAME_RELEASE}
+	exit ;;
+    atari*:*MiNT:*:* | atari*:*mint:*:* | atarist[e]:*TOS:*:*)
+	echo m68k-atari-mint${UNAME_RELEASE}
+        exit ;;
+    *falcon*:*MiNT:*:* | *falcon*:*mint:*:* | *falcon*:*TOS:*:*)
+        echo m68k-atari-mint${UNAME_RELEASE}
+	exit ;;
+    milan*:*MiNT:*:* | milan*:*mint:*:* | *milan*:*TOS:*:*)
+        echo m68k-milan-mint${UNAME_RELEASE}
+        exit ;;
+    hades*:*MiNT:*:* | hades*:*mint:*:* | *hades*:*TOS:*:*)
+        echo m68k-hades-mint${UNAME_RELEASE}
+        exit ;;
+    *:*MiNT:*:* | *:*mint:*:* | *:*TOS:*:*)
+        echo m68k-unknown-mint${UNAME_RELEASE}
+        exit ;;
+    m68k:machten:*:*)
+	echo m68k-apple-machten${UNAME_RELEASE}
+	exit ;;
+    powerpc:machten:*:*)
+	echo powerpc-apple-machten${UNAME_RELEASE}
+	exit ;;
+    RISC*:Mach:*:*)
+	echo mips-dec-mach_bsd4.3
+	exit ;;
+    RISC*:ULTRIX:*:*)
+	echo mips-dec-ultrix${UNAME_RELEASE}
+	exit ;;
+    VAX*:ULTRIX*:*:*)
+	echo vax-dec-ultrix${UNAME_RELEASE}
+	exit ;;
+    2020:CLIX:*:* | 2430:CLIX:*:*)
+	echo clipper-intergraph-clix${UNAME_RELEASE}
+	exit ;;
+    mips:*:*:UMIPS | mips:*:*:RISCos)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+#ifdef __cplusplus
+#include <stdio.h>  /* for printf() prototype */
+	int main (int argc, char *argv[]) {
+#else
+	int main (argc, argv) int argc; char *argv[]; {
+#endif
+	#if defined (host_mips) && defined (MIPSEB)
+	#if defined (SYSTYPE_SYSV)
+	  printf ("mips-mips-riscos%ssysv\n", argv[1]); exit (0);
+	#endif
+	#if defined (SYSTYPE_SVR4)
+	  printf ("mips-mips-riscos%ssvr4\n", argv[1]); exit (0);
+	#endif
+	#if defined (SYSTYPE_BSD43) || defined(SYSTYPE_BSD)
+	  printf ("mips-mips-riscos%sbsd\n", argv[1]); exit (0);
+	#endif
+	#endif
+	  exit (-1);
+	}
+EOF
+	$CC_FOR_BUILD -o $dummy $dummy.c &&
+	  dummyarg=`echo "${UNAME_RELEASE}" | sed -n 's/\([0-9]*\).*/\1/p'` &&
+	  SYSTEM_NAME=`$dummy $dummyarg` &&
+	    { echo "$SYSTEM_NAME"; exit; }
+	echo mips-mips-riscos${UNAME_RELEASE}
+	exit ;;
+    Motorola:PowerMAX_OS:*:*)
+	echo powerpc-motorola-powermax
+	exit ;;
+    Motorola:*:4.3:PL8-*)
+	echo powerpc-harris-powermax
+	exit ;;
+    Night_Hawk:*:*:PowerMAX_OS | Synergy:PowerMAX_OS:*:*)
+	echo powerpc-harris-powermax
+	exit ;;
+    Night_Hawk:Power_UNIX:*:*)
+	echo powerpc-harris-powerunix
+	exit ;;
+    m88k:CX/UX:7*:*)
+	echo m88k-harris-cxux7
+	exit ;;
+    m88k:*:4*:R4*)
+	echo m88k-motorola-sysv4
+	exit ;;
+    m88k:*:3*:R3*)
+	echo m88k-motorola-sysv3
+	exit ;;
+    AViiON:dgux:*:*)
+        # DG/UX returns AViiON for all architectures
+        UNAME_PROCESSOR=`/usr/bin/uname -p`
+	if [ $UNAME_PROCESSOR = mc88100 ] || [ $UNAME_PROCESSOR = mc88110 ]
+	then
+	    if [ ${TARGET_BINARY_INTERFACE}x = m88kdguxelfx ] || \
+	       [ ${TARGET_BINARY_INTERFACE}x = x ]
+	    then
+		echo m88k-dg-dgux${UNAME_RELEASE}
+	    else
+		echo m88k-dg-dguxbcs${UNAME_RELEASE}
+	    fi
+	else
+	    echo i586-dg-dgux${UNAME_RELEASE}
+	fi
+ 	exit ;;
+    M88*:DolphinOS:*:*)	# DolphinOS (SVR3)
+	echo m88k-dolphin-sysv3
+	exit ;;
+    M88*:*:R3*:*)
+	# Delta 88k system running SVR3
+	echo m88k-motorola-sysv3
+	exit ;;
+    XD88*:*:*:*) # Tektronix XD88 system running UTekV (SVR3)
+	echo m88k-tektronix-sysv3
+	exit ;;
+    Tek43[0-9][0-9]:UTek:*:*) # Tektronix 4300 system running UTek (BSD)
+	echo m68k-tektronix-bsd
+	exit ;;
+    *:IRIX*:*:*)
+	echo mips-sgi-irix`echo ${UNAME_RELEASE}|sed -e 's/-/_/g'`
+	exit ;;
+    ????????:AIX?:[12].1:2)   # AIX 2.2.1 or AIX 2.1.1 is RT/PC AIX.
+	echo romp-ibm-aix     # uname -m gives an 8 hex-code CPU id
+	exit ;;               # Note that: echo "'`uname -s`'" gives 'AIX '
+    i*86:AIX:*:*)
+	echo i386-ibm-aix
+	exit ;;
+    ia64:AIX:*:*)
+	if [ -x /usr/bin/oslevel ] ; then
+		IBM_REV=`/usr/bin/oslevel`
+	else
+		IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE}
+	fi
+	echo ${UNAME_MACHINE}-ibm-aix${IBM_REV}
+	exit ;;
+    *:AIX:2:3)
+	if grep bos325 /usr/include/stdio.h >/dev/null 2>&1; then
+		eval $set_cc_for_build
+		sed 's/^		//' << EOF >$dummy.c
+		#include <sys/systemcfg.h>
+
+		main()
+			{
+			if (!__power_pc())
+				exit(1);
+			puts("powerpc-ibm-aix3.2.5");
+			exit(0);
+			}
+EOF
+		if $CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy`
+		then
+			echo "$SYSTEM_NAME"
+		else
+			echo rs6000-ibm-aix3.2.5
+		fi
+	elif grep bos324 /usr/include/stdio.h >/dev/null 2>&1; then
+		echo rs6000-ibm-aix3.2.4
+	else
+		echo rs6000-ibm-aix3.2
+	fi
+	exit ;;
+    *:AIX:*:[456])
+	IBM_CPU_ID=`/usr/sbin/lsdev -C -c processor -S available | sed 1q | awk '{ print $1 }'`
+	if /usr/sbin/lsattr -El ${IBM_CPU_ID} | grep ' POWER' >/dev/null 2>&1; then
+		IBM_ARCH=rs6000
+	else
+		IBM_ARCH=powerpc
+	fi
+	if [ -x /usr/bin/oslevel ] ; then
+		IBM_REV=`/usr/bin/oslevel`
+	else
+		IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE}
+	fi
+	echo ${IBM_ARCH}-ibm-aix${IBM_REV}
+	exit ;;
+    *:AIX:*:*)
+	echo rs6000-ibm-aix
+	exit ;;
+    ibmrt:4.4BSD:*|romp-ibm:BSD:*)
+	echo romp-ibm-bsd4.4
+	exit ;;
+    ibmrt:*BSD:*|romp-ibm:BSD:*)            # covers RT/PC BSD and
+	echo romp-ibm-bsd${UNAME_RELEASE}   # 4.3 with uname added to
+	exit ;;                             # report: romp-ibm BSD 4.3
+    *:BOSX:*:*)
+	echo rs6000-bull-bosx
+	exit ;;
+    DPX/2?00:B.O.S.:*:*)
+	echo m68k-bull-sysv3
+	exit ;;
+    9000/[34]??:4.3bsd:1.*:*)
+	echo m68k-hp-bsd
+	exit ;;
+    hp300:4.4BSD:*:* | 9000/[34]??:4.3bsd:2.*:*)
+	echo m68k-hp-bsd4.4
+	exit ;;
+    9000/[34678]??:HP-UX:*:*)
+	HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'`
+	case "${UNAME_MACHINE}" in
+	    9000/31? )            HP_ARCH=m68000 ;;
+	    9000/[34]?? )         HP_ARCH=m68k ;;
+	    9000/[678][0-9][0-9])
+		if [ -x /usr/bin/getconf ]; then
+		    sc_cpu_version=`/usr/bin/getconf SC_CPU_VERSION 2>/dev/null`
+                    sc_kernel_bits=`/usr/bin/getconf SC_KERNEL_BITS 2>/dev/null`
+                    case "${sc_cpu_version}" in
+                      523) HP_ARCH="hppa1.0" ;; # CPU_PA_RISC1_0
+                      528) HP_ARCH="hppa1.1" ;; # CPU_PA_RISC1_1
+                      532)                      # CPU_PA_RISC2_0
+                        case "${sc_kernel_bits}" in
+                          32) HP_ARCH="hppa2.0n" ;;
+                          64) HP_ARCH="hppa2.0w" ;;
+			  '') HP_ARCH="hppa2.0" ;;   # HP-UX 10.20
+                        esac ;;
+                    esac
+		fi
+		if [ "${HP_ARCH}" = "" ]; then
+		    eval $set_cc_for_build
+		    sed 's/^              //' << EOF >$dummy.c
+
+              #define _HPUX_SOURCE
+              #include <stdlib.h>
+              #include <unistd.h>
+
+              int main ()
+              {
+              #if defined(_SC_KERNEL_BITS)
+                  long bits = sysconf(_SC_KERNEL_BITS);
+              #endif
+                  long cpu  = sysconf (_SC_CPU_VERSION);
+
+                  switch (cpu)
+              	{
+              	case CPU_PA_RISC1_0: puts ("hppa1.0"); break;
+              	case CPU_PA_RISC1_1: puts ("hppa1.1"); break;
+              	case CPU_PA_RISC2_0:
+              #if defined(_SC_KERNEL_BITS)
+              	    switch (bits)
+              		{
+              		case 64: puts ("hppa2.0w"); break;
+              		case 32: puts ("hppa2.0n"); break;
+              		default: puts ("hppa2.0"); break;
+              		} break;
+              #else  /* !defined(_SC_KERNEL_BITS) */
+              	    puts ("hppa2.0"); break;
+              #endif
+              	default: puts ("hppa1.0"); break;
+              	}
+                  exit (0);
+              }
+EOF
+		    (CCOPTS= $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null) && HP_ARCH=`$dummy`
+		    test -z "$HP_ARCH" && HP_ARCH=hppa
+		fi ;;
+	esac
+	if [ ${HP_ARCH} = "hppa2.0w" ]
+	then
+	    eval $set_cc_for_build
+
+	    # hppa2.0w-hp-hpux* has a 64-bit kernel and a compiler generating
+	    # 32-bit code.  hppa64-hp-hpux* has the same kernel and a compiler
+	    # generating 64-bit code.  GNU and HP use different nomenclature:
+	    #
+	    # $ CC_FOR_BUILD=cc ./config.guess
+	    # => hppa2.0w-hp-hpux11.23
+	    # $ CC_FOR_BUILD="cc +DA2.0w" ./config.guess
+	    # => hppa64-hp-hpux11.23
+
+	    if echo __LP64__ | (CCOPTS= $CC_FOR_BUILD -E - 2>/dev/null) |
+		grep __LP64__ >/dev/null
+	    then
+		HP_ARCH="hppa2.0w"
+	    else
+		HP_ARCH="hppa64"
+	    fi
+	fi
+	echo ${HP_ARCH}-hp-hpux${HPUX_REV}
+	exit ;;
+    ia64:HP-UX:*:*)
+	HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'`
+	echo ia64-hp-hpux${HPUX_REV}
+	exit ;;
+    3050*:HI-UX:*:*)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#include <unistd.h>
+	int
+	main ()
+	{
+	  long cpu = sysconf (_SC_CPU_VERSION);
+	  /* The order matters, because CPU_IS_HP_MC68K erroneously returns
+	     true for CPU_PA_RISC1_0.  CPU_IS_PA_RISC returns correct
+	     results, however.  */
+	  if (CPU_IS_PA_RISC (cpu))
+	    {
+	      switch (cpu)
+		{
+		  case CPU_PA_RISC1_0: puts ("hppa1.0-hitachi-hiuxwe2"); break;
+		  case CPU_PA_RISC1_1: puts ("hppa1.1-hitachi-hiuxwe2"); break;
+		  case CPU_PA_RISC2_0: puts ("hppa2.0-hitachi-hiuxwe2"); break;
+		  default: puts ("hppa-hitachi-hiuxwe2"); break;
+		}
+	    }
+	  else if (CPU_IS_HP_MC68K (cpu))
+	    puts ("m68k-hitachi-hiuxwe2");
+	  else puts ("unknown-hitachi-hiuxwe2");
+	  exit (0);
+	}
+EOF
+	$CC_FOR_BUILD -o $dummy $dummy.c && SYSTEM_NAME=`$dummy` &&
+		{ echo "$SYSTEM_NAME"; exit; }
+	echo unknown-hitachi-hiuxwe2
+	exit ;;
+    9000/7??:4.3bsd:*:* | 9000/8?[79]:4.3bsd:*:* )
+	echo hppa1.1-hp-bsd
+	exit ;;
+    9000/8??:4.3bsd:*:*)
+	echo hppa1.0-hp-bsd
+	exit ;;
+    *9??*:MPE/iX:*:* | *3000*:MPE/iX:*:*)
+	echo hppa1.0-hp-mpeix
+	exit ;;
+    hp7??:OSF1:*:* | hp8?[79]:OSF1:*:* )
+	echo hppa1.1-hp-osf
+	exit ;;
+    hp8??:OSF1:*:*)
+	echo hppa1.0-hp-osf
+	exit ;;
+    i*86:OSF1:*:*)
+	if [ -x /usr/sbin/sysversion ] ; then
+	    echo ${UNAME_MACHINE}-unknown-osf1mk
+	else
+	    echo ${UNAME_MACHINE}-unknown-osf1
+	fi
+	exit ;;
+    parisc*:Lites*:*:*)
+	echo hppa1.1-hp-lites
+	exit ;;
+    C1*:ConvexOS:*:* | convex:ConvexOS:C1*:*)
+	echo c1-convex-bsd
+        exit ;;
+    C2*:ConvexOS:*:* | convex:ConvexOS:C2*:*)
+	if getsysinfo -f scalar_acc
+	then echo c32-convex-bsd
+	else echo c2-convex-bsd
+	fi
+        exit ;;
+    C34*:ConvexOS:*:* | convex:ConvexOS:C34*:*)
+	echo c34-convex-bsd
+        exit ;;
+    C38*:ConvexOS:*:* | convex:ConvexOS:C38*:*)
+	echo c38-convex-bsd
+        exit ;;
+    C4*:ConvexOS:*:* | convex:ConvexOS:C4*:*)
+	echo c4-convex-bsd
+        exit ;;
+    CRAY*Y-MP:*:*:*)
+	echo ymp-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit ;;
+    CRAY*[A-Z]90:*:*:*)
+	echo ${UNAME_MACHINE}-cray-unicos${UNAME_RELEASE} \
+	| sed -e 's/CRAY.*\([A-Z]90\)/\1/' \
+	      -e y/ABCDEFGHIJKLMNOPQRSTUVWXYZ/abcdefghijklmnopqrstuvwxyz/ \
+	      -e 's/\.[^.]*$/.X/'
+	exit ;;
+    CRAY*TS:*:*:*)
+	echo t90-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit ;;
+    CRAY*T3E:*:*:*)
+	echo alphaev5-cray-unicosmk${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit ;;
+    CRAY*SV1:*:*:*)
+	echo sv1-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit ;;
+    *:UNICOS/mp:*:*)
+	echo craynv-cray-unicosmp${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit ;;
+    F30[01]:UNIX_System_V:*:* | F700:UNIX_System_V:*:*)
+	FUJITSU_PROC=`uname -m | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'`
+        FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'`
+        FUJITSU_REL=`echo ${UNAME_RELEASE} | sed -e 's/ /_/'`
+        echo "${FUJITSU_PROC}-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}"
+        exit ;;
+    5000:UNIX_System_V:4.*:*)
+        FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'`
+        FUJITSU_REL=`echo ${UNAME_RELEASE} | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/ /_/'`
+        echo "sparc-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}"
+	exit ;;
+    i*86:BSD/386:*:* | i*86:BSD/OS:*:* | *:Ascend\ Embedded/OS:*:*)
+	echo ${UNAME_MACHINE}-pc-bsdi${UNAME_RELEASE}
+	exit ;;
+    sparc*:BSD/OS:*:*)
+	echo sparc-unknown-bsdi${UNAME_RELEASE}
+	exit ;;
+    *:BSD/OS:*:*)
+	echo ${UNAME_MACHINE}-unknown-bsdi${UNAME_RELEASE}
+	exit ;;
+    *:FreeBSD:*:*)
+	case ${UNAME_MACHINE} in
+	    pc98)
+		echo i386-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;;
+	    amd64)
+		echo x86_64-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;;
+	    *)
+		echo ${UNAME_MACHINE}-unknown-freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'` ;;
+	esac
+	exit ;;
+    i*:CYGWIN*:*)
+	echo ${UNAME_MACHINE}-pc-cygwin
+	exit ;;
+    *:MINGW*:*)
+	echo ${UNAME_MACHINE}-pc-mingw32
+	exit ;;
+    i*:windows32*:*)
+    	# uname -m includes "-pc" on this system.
+    	echo ${UNAME_MACHINE}-mingw32
+	exit ;;
+    i*:PW*:*)
+	echo ${UNAME_MACHINE}-pc-pw32
+	exit ;;
+    *:Interix*:[3456]*)
+    	case ${UNAME_MACHINE} in
+	    x86)
+		echo i586-pc-interix${UNAME_RELEASE}
+		exit ;;
+	    EM64T | authenticamd)
+		echo x86_64-unknown-interix${UNAME_RELEASE}
+		exit ;;
+	    IA64)
+		echo ia64-unknown-interix${UNAME_RELEASE}
+		exit ;;
+	esac ;;
+    [345]86:Windows_95:* | [345]86:Windows_98:* | [345]86:Windows_NT:*)
+	echo i${UNAME_MACHINE}-pc-mks
+	exit ;;
+    i*:Windows_NT*:* | Pentium*:Windows_NT*:*)
+	# How do we know it's Interix rather than the generic POSIX subsystem?
+	# It also conflicts with pre-2.0 versions of AT&T UWIN. Should we
+	# UNAME_MACHINE based on the output of uname instead of i386?
+	echo i586-pc-interix
+	exit ;;
+    i*:UWIN*:*)
+	echo ${UNAME_MACHINE}-pc-uwin
+	exit ;;
+    amd64:CYGWIN*:*:* | x86_64:CYGWIN*:*:*)
+	echo x86_64-unknown-cygwin
+	exit ;;
+    p*:CYGWIN*:*)
+	echo powerpcle-unknown-cygwin
+	exit ;;
+    prep*:SunOS:5.*:*)
+	echo powerpcle-unknown-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit ;;
+    *:GNU:*:*)
+	# the GNU system
+	echo `echo ${UNAME_MACHINE}|sed -e 's,[-/].*$,,'`-unknown-gnu`echo ${UNAME_RELEASE}|sed -e 's,/.*$,,'`
+	exit ;;
+    *:GNU/*:*:*)
+	# other systems with GNU libc and userland
+	echo ${UNAME_MACHINE}-unknown-`echo ${UNAME_SYSTEM} | sed 's,^[^/]*/,,' | tr '[A-Z]' '[a-z]'``echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`-gnu
+	exit ;;
+    i*86:Minix:*:*)
+	echo ${UNAME_MACHINE}-pc-minix
+	exit ;;
+    arm*:Linux:*:*)
+	eval $set_cc_for_build
+	if echo __ARM_EABI__ | $CC_FOR_BUILD -E - 2>/dev/null \
+	    | grep -q __ARM_EABI__
+	then
+	    echo ${UNAME_MACHINE}-unknown-linux-gnu
+	else
+	    echo ${UNAME_MACHINE}-unknown-linux-gnueabi
+	fi
+	exit ;;
+    avr32*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    cris:Linux:*:*)
+	echo cris-axis-linux-gnu
+	exit ;;
+    crisv32:Linux:*:*)
+	echo crisv32-axis-linux-gnu
+	exit ;;
+    frv:Linux:*:*)
+    	echo frv-unknown-linux-gnu
+	exit ;;
+    ia64:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    m32r*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    m68*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    mips:Linux:*:*)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#undef CPU
+	#undef mips
+	#undef mipsel
+	#if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL)
+	CPU=mipsel
+	#else
+	#if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB)
+	CPU=mips
+	#else
+	CPU=
+	#endif
+	#endif
+EOF
+	eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n '
+	    /^CPU/{
+		s: ::g
+		p
+	    }'`"
+	test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; }
+	;;
+    mips64:Linux:*:*)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#undef CPU
+	#undef mips64
+	#undef mips64el
+	#if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL)
+	CPU=mips64el
+	#else
+	#if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB)
+	CPU=mips64
+	#else
+	CPU=
+	#endif
+	#endif
+EOF
+	eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n '
+	    /^CPU/{
+		s: ::g
+		p
+	    }'`"
+	test x"${CPU}" != x && { echo "${CPU}-unknown-linux-gnu"; exit; }
+	;;
+    or32:Linux:*:*)
+	echo or32-unknown-linux-gnu
+	exit ;;
+    ppc:Linux:*:*)
+	echo powerpc-unknown-linux-gnu
+	exit ;;
+    ppc64:Linux:*:*)
+	echo powerpc64-unknown-linux-gnu
+	exit ;;
+    alpha:Linux:*:*)
+	case `sed -n '/^cpu model/s/^.*: \(.*\)/\1/p' < /proc/cpuinfo` in
+	  EV5)   UNAME_MACHINE=alphaev5 ;;
+	  EV56)  UNAME_MACHINE=alphaev56 ;;
+	  PCA56) UNAME_MACHINE=alphapca56 ;;
+	  PCA57) UNAME_MACHINE=alphapca56 ;;
+	  EV6)   UNAME_MACHINE=alphaev6 ;;
+	  EV67)  UNAME_MACHINE=alphaev67 ;;
+	  EV68*) UNAME_MACHINE=alphaev68 ;;
+        esac
+	objdump --private-headers /bin/sh | grep ld.so.1 >/dev/null
+	if test "$?" = 0 ; then LIBC="libc1" ; else LIBC="" ; fi
+	echo ${UNAME_MACHINE}-unknown-linux-gnu${LIBC}
+	exit ;;
+    parisc:Linux:*:* | hppa:Linux:*:*)
+	# Look for CPU level
+	case `grep '^cpu[^a-z]*:' /proc/cpuinfo 2>/dev/null | cut -d' ' -f2` in
+	  PA7*) echo hppa1.1-unknown-linux-gnu ;;
+	  PA8*) echo hppa2.0-unknown-linux-gnu ;;
+	  *)    echo hppa-unknown-linux-gnu ;;
+	esac
+	exit ;;
+    parisc64:Linux:*:* | hppa64:Linux:*:*)
+	echo hppa64-unknown-linux-gnu
+	exit ;;
+    s390:Linux:*:* | s390x:Linux:*:*)
+	echo ${UNAME_MACHINE}-ibm-linux
+	exit ;;
+    sh64*:Linux:*:*)
+    	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    sh*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    sparc:Linux:*:* | sparc64:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    vax:Linux:*:*)
+	echo ${UNAME_MACHINE}-dec-linux-gnu
+	exit ;;
+    x86_64:Linux:*:*)
+	echo x86_64-unknown-linux-gnu
+	exit ;;
+    xtensa*:Linux:*:*)
+    	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit ;;
+    i*86:Linux:*:*)
+	# The BFD linker knows what the default object file format is, so
+	# first see if it will tell us. cd to the root directory to prevent
+	# problems with other programs or directories called `ld' in the path.
+	# Set LC_ALL=C to ensure ld outputs messages in English.
+	ld_supported_targets=`cd /; LC_ALL=C ld --help 2>&1 \
+			 | sed -ne '/supported targets:/!d
+				    s/[ 	][ 	]*/ /g
+				    s/.*supported targets: *//
+				    s/ .*//
+				    p'`
+        case "$ld_supported_targets" in
+	  elf32-i386)
+		TENTATIVE="${UNAME_MACHINE}-pc-linux-gnu"
+		;;
+	  a.out-i386-linux)
+		echo "${UNAME_MACHINE}-pc-linux-gnuaout"
+		exit ;;
+	  "")
+		# Either a pre-BFD a.out linker (linux-gnuoldld) or
+		# one that does not give us useful --help.
+		echo "${UNAME_MACHINE}-pc-linux-gnuoldld"
+		exit ;;
+	esac
+	# Determine whether the default compiler is a.out or elf
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#include <features.h>
+	#ifdef __ELF__
+	# ifdef __GLIBC__
+	#  if __GLIBC__ >= 2
+	LIBC=gnu
+	#  else
+	LIBC=gnulibc1
+	#  endif
+	# else
+	LIBC=gnulibc1
+	# endif
+	#else
+	#if defined(__INTEL_COMPILER) || defined(__PGI) || defined(__SUNPRO_C) || defined(__SUNPRO_CC)
+	LIBC=gnu
+	#else
+	LIBC=gnuaout
+	#endif
+	#endif
+	#ifdef __dietlibc__
+	LIBC=dietlibc
+	#endif
+EOF
+	eval "`$CC_FOR_BUILD -E $dummy.c 2>/dev/null | sed -n '
+	    /^LIBC/{
+		s: ::g
+		p
+	    }'`"
+	test x"${LIBC}" != x && {
+		echo "${UNAME_MACHINE}-pc-linux-${LIBC}"
+		exit
+	}
+	test x"${TENTATIVE}" != x && { echo "${TENTATIVE}"; exit; }
+	;;
+    i*86:DYNIX/ptx:4*:*)
+	# ptx 4.0 does uname -s correctly, with DYNIX/ptx in there.
+	# earlier versions are messed up and put the nodename in both
+	# sysname and nodename.
+	echo i386-sequent-sysv4
+	exit ;;
+    i*86:UNIX_SV:4.2MP:2.*)
+        # Unixware is an offshoot of SVR4, but it has its own version
+        # number series starting with 2...
+        # I am not positive that other SVR4 systems won't match this,
+	# I just have to hope.  -- rms.
+        # Use sysv4.2uw... so that sysv4* matches it.
+	echo ${UNAME_MACHINE}-pc-sysv4.2uw${UNAME_VERSION}
+	exit ;;
+    i*86:OS/2:*:*)
+	# If we were able to find `uname', then EMX Unix compatibility
+	# is probably installed.
+	echo ${UNAME_MACHINE}-pc-os2-emx
+	exit ;;
+    i*86:XTS-300:*:STOP)
+	echo ${UNAME_MACHINE}-unknown-stop
+	exit ;;
+    i*86:atheos:*:*)
+	echo ${UNAME_MACHINE}-unknown-atheos
+	exit ;;
+    i*86:syllable:*:*)
+	echo ${UNAME_MACHINE}-pc-syllable
+	exit ;;
+    i*86:LynxOS:2.*:* | i*86:LynxOS:3.[01]*:* | i*86:LynxOS:4.0*:*)
+	echo i386-unknown-lynxos${UNAME_RELEASE}
+	exit ;;
+    i*86:*DOS:*:*)
+	echo ${UNAME_MACHINE}-pc-msdosdjgpp
+	exit ;;
+    i*86:*:4.*:* | i*86:SYSTEM_V:4.*:*)
+	UNAME_REL=`echo ${UNAME_RELEASE} | sed 's/\/MP$//'`
+	if grep Novell /usr/include/link.h >/dev/null 2>/dev/null; then
+		echo ${UNAME_MACHINE}-univel-sysv${UNAME_REL}
+	else
+		echo ${UNAME_MACHINE}-pc-sysv${UNAME_REL}
+	fi
+	exit ;;
+    i*86:*:5:[678]*)
+    	# UnixWare 7.x, OpenUNIX and OpenServer 6.
+	case `/bin/uname -X | grep "^Machine"` in
+	    *486*)	     UNAME_MACHINE=i486 ;;
+	    *Pentium)	     UNAME_MACHINE=i586 ;;
+	    *Pent*|*Celeron) UNAME_MACHINE=i686 ;;
+	esac
+	echo ${UNAME_MACHINE}-unknown-sysv${UNAME_RELEASE}${UNAME_SYSTEM}${UNAME_VERSION}
+	exit ;;
+    i*86:*:3.2:*)
+	if test -f /usr/options/cb.name; then
+		UNAME_REL=`sed -n 's/.*Version //p' </usr/options/cb.name`
+		echo ${UNAME_MACHINE}-pc-isc$UNAME_REL
+	elif /bin/uname -X 2>/dev/null >/dev/null ; then
+		UNAME_REL=`(/bin/uname -X|grep Release|sed -e 's/.*= //')`
+		(/bin/uname -X|grep i80486 >/dev/null) && UNAME_MACHINE=i486
+		(/bin/uname -X|grep '^Machine.*Pentium' >/dev/null) \
+			&& UNAME_MACHINE=i586
+		(/bin/uname -X|grep '^Machine.*Pent *II' >/dev/null) \
+			&& UNAME_MACHINE=i686
+		(/bin/uname -X|grep '^Machine.*Pentium Pro' >/dev/null) \
+			&& UNAME_MACHINE=i686
+		echo ${UNAME_MACHINE}-pc-sco$UNAME_REL
+	else
+		echo ${UNAME_MACHINE}-pc-sysv32
+	fi
+	exit ;;
+    pc:*:*:*)
+	# Left here for compatibility:
+        # uname -m prints for DJGPP always 'pc', but it prints nothing about
+        # the processor, so we play safe by assuming i386.
+	echo i386-pc-msdosdjgpp
+        exit ;;
+    Intel:Mach:3*:*)
+	echo i386-pc-mach3
+	exit ;;
+    paragon:*:*:*)
+	echo i860-intel-osf1
+	exit ;;
+    i860:*:4.*:*) # i860-SVR4
+	if grep Stardent /usr/include/sys/uadmin.h >/dev/null 2>&1 ; then
+	  echo i860-stardent-sysv${UNAME_RELEASE} # Stardent Vistra i860-SVR4
+	else # Add other i860-SVR4 vendors below as they are discovered.
+	  echo i860-unknown-sysv${UNAME_RELEASE}  # Unknown i860-SVR4
+	fi
+	exit ;;
+    mini*:CTIX:SYS*5:*)
+	# "miniframe"
+	echo m68010-convergent-sysv
+	exit ;;
+    mc68k:UNIX:SYSTEM5:3.51m)
+	echo m68k-convergent-sysv
+	exit ;;
+    M680?0:D-NIX:5.3:*)
+	echo m68k-diab-dnix
+	exit ;;
+    M68*:*:R3V[5678]*:*)
+	test -r /sysV68 && { echo 'm68k-motorola-sysv'; exit; } ;;
+    3[345]??:*:4.0:3.0 | 3[34]??A:*:4.0:3.0 | 3[34]??,*:*:4.0:3.0 | 3[34]??/*:*:4.0:3.0 | 4400:*:4.0:3.0 | 4850:*:4.0:3.0 | SKA40:*:4.0:3.0 | SDS2:*:4.0:3.0 | SHG2:*:4.0:3.0 | S7501*:*:4.0:3.0)
+	OS_REL=''
+	test -r /etc/.relid \
+	&& OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid`
+	/bin/uname -p 2>/dev/null | grep 86 >/dev/null \
+	  && { echo i486-ncr-sysv4.3${OS_REL}; exit; }
+	/bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \
+	  && { echo i586-ncr-sysv4.3${OS_REL}; exit; } ;;
+    3[34]??:*:4.0:* | 3[34]??,*:*:4.0:*)
+        /bin/uname -p 2>/dev/null | grep 86 >/dev/null \
+          && { echo i486-ncr-sysv4; exit; } ;;
+    m68*:LynxOS:2.*:* | m68*:LynxOS:3.0*:*)
+	echo m68k-unknown-lynxos${UNAME_RELEASE}
+	exit ;;
+    mc68030:UNIX_System_V:4.*:*)
+	echo m68k-atari-sysv4
+	exit ;;
+    TSUNAMI:LynxOS:2.*:*)
+	echo sparc-unknown-lynxos${UNAME_RELEASE}
+	exit ;;
+    rs6000:LynxOS:2.*:*)
+	echo rs6000-unknown-lynxos${UNAME_RELEASE}
+	exit ;;
+    PowerPC:LynxOS:2.*:* | PowerPC:LynxOS:3.[01]*:* | PowerPC:LynxOS:4.0*:*)
+	echo powerpc-unknown-lynxos${UNAME_RELEASE}
+	exit ;;
+    SM[BE]S:UNIX_SV:*:*)
+	echo mips-dde-sysv${UNAME_RELEASE}
+	exit ;;
+    RM*:ReliantUNIX-*:*:*)
+	echo mips-sni-sysv4
+	exit ;;
+    RM*:SINIX-*:*:*)
+	echo mips-sni-sysv4
+	exit ;;
+    *:SINIX-*:*:*)
+	if uname -p 2>/dev/null >/dev/null ; then
+		UNAME_MACHINE=`(uname -p) 2>/dev/null`
+		echo ${UNAME_MACHINE}-sni-sysv4
+	else
+		echo ns32k-sni-sysv
+	fi
+	exit ;;
+    PENTIUM:*:4.0*:*) # Unisys `ClearPath HMP IX 4000' SVR4/MP effort
+                      # says <Richard.M.Bartel@ccMail.Census.GOV>
+        echo i586-unisys-sysv4
+        exit ;;
+    *:UNIX_System_V:4*:FTX*)
+	# From Gerald Hewes <hewes@openmarket.com>.
+	# How about differentiating between stratus architectures? -djm
+	echo hppa1.1-stratus-sysv4
+	exit ;;
+    *:*:*:FTX*)
+	# From seanf@swdc.stratus.com.
+	echo i860-stratus-sysv4
+	exit ;;
+    i*86:VOS:*:*)
+	# From Paul.Green@stratus.com.
+	echo ${UNAME_MACHINE}-stratus-vos
+	exit ;;
+    *:VOS:*:*)
+	# From Paul.Green@stratus.com.
+	echo hppa1.1-stratus-vos
+	exit ;;
+    mc68*:A/UX:*:*)
+	echo m68k-apple-aux${UNAME_RELEASE}
+	exit ;;
+    news*:NEWS-OS:6*:*)
+	echo mips-sony-newsos6
+	exit ;;
+    R[34]000:*System_V*:*:* | R4000:UNIX_SYSV:*:* | R*000:UNIX_SV:*:*)
+	if [ -d /usr/nec ]; then
+	        echo mips-nec-sysv${UNAME_RELEASE}
+	else
+	        echo mips-unknown-sysv${UNAME_RELEASE}
+	fi
+        exit ;;
+    BeBox:BeOS:*:*)	# BeOS running on hardware made by Be, PPC only.
+	echo powerpc-be-beos
+	exit ;;
+    BeMac:BeOS:*:*)	# BeOS running on Mac or Mac clone, PPC only.
+	echo powerpc-apple-beos
+	exit ;;
+    BePC:BeOS:*:*)	# BeOS running on Intel PC compatible.
+	echo i586-pc-beos
+	exit ;;
+    BePC:Haiku:*:*)	# Haiku running on Intel PC compatible.
+	echo i586-pc-haiku
+	exit ;;
+    SX-4:SUPER-UX:*:*)
+	echo sx4-nec-superux${UNAME_RELEASE}
+	exit ;;
+    SX-5:SUPER-UX:*:*)
+	echo sx5-nec-superux${UNAME_RELEASE}
+	exit ;;
+    SX-6:SUPER-UX:*:*)
+	echo sx6-nec-superux${UNAME_RELEASE}
+	exit ;;
+    SX-7:SUPER-UX:*:*)
+	echo sx7-nec-superux${UNAME_RELEASE}
+	exit ;;
+    SX-8:SUPER-UX:*:*)
+	echo sx8-nec-superux${UNAME_RELEASE}
+	exit ;;
+    SX-8R:SUPER-UX:*:*)
+	echo sx8r-nec-superux${UNAME_RELEASE}
+	exit ;;
+    Power*:Rhapsody:*:*)
+	echo powerpc-apple-rhapsody${UNAME_RELEASE}
+	exit ;;
+    *:Rhapsody:*:*)
+	echo ${UNAME_MACHINE}-apple-rhapsody${UNAME_RELEASE}
+	exit ;;
+    *:Darwin:*:*)
+	UNAME_PROCESSOR=`uname -p` || UNAME_PROCESSOR=unknown
+	case $UNAME_PROCESSOR in
+	    unknown) UNAME_PROCESSOR=powerpc ;;
+	esac
+	echo ${UNAME_PROCESSOR}-apple-darwin${UNAME_RELEASE}
+	exit ;;
+    *:procnto*:*:* | *:QNX:[0123456789]*:*)
+	UNAME_PROCESSOR=`uname -p`
+	if test "$UNAME_PROCESSOR" = "x86"; then
+		UNAME_PROCESSOR=i386
+		UNAME_MACHINE=pc
+	fi
+	echo ${UNAME_PROCESSOR}-${UNAME_MACHINE}-nto-qnx${UNAME_RELEASE}
+	exit ;;
+    *:QNX:*:4*)
+	echo i386-pc-qnx
+	exit ;;
+    NSE-?:NONSTOP_KERNEL:*:*)
+	echo nse-tandem-nsk${UNAME_RELEASE}
+	exit ;;
+    NSR-?:NONSTOP_KERNEL:*:*)
+	echo nsr-tandem-nsk${UNAME_RELEASE}
+	exit ;;
+    *:NonStop-UX:*:*)
+	echo mips-compaq-nonstopux
+	exit ;;
+    BS2000:POSIX*:*:*)
+	echo bs2000-siemens-sysv
+	exit ;;
+    DS/*:UNIX_System_V:*:*)
+	echo ${UNAME_MACHINE}-${UNAME_SYSTEM}-${UNAME_RELEASE}
+	exit ;;
+    *:Plan9:*:*)
+	# "uname -m" is not consistent, so use $cputype instead. 386
+	# is converted to i386 for consistency with other x86
+	# operating systems.
+	if test "$cputype" = "386"; then
+	    UNAME_MACHINE=i386
+	else
+	    UNAME_MACHINE="$cputype"
+	fi
+	echo ${UNAME_MACHINE}-unknown-plan9
+	exit ;;
+    *:TOPS-10:*:*)
+	echo pdp10-unknown-tops10
+	exit ;;
+    *:TENEX:*:*)
+	echo pdp10-unknown-tenex
+	exit ;;
+    KS10:TOPS-20:*:* | KL10:TOPS-20:*:* | TYPE4:TOPS-20:*:*)
+	echo pdp10-dec-tops20
+	exit ;;
+    XKL-1:TOPS-20:*:* | TYPE5:TOPS-20:*:*)
+	echo pdp10-xkl-tops20
+	exit ;;
+    *:TOPS-20:*:*)
+	echo pdp10-unknown-tops20
+	exit ;;
+    *:ITS:*:*)
+	echo pdp10-unknown-its
+	exit ;;
+    SEI:*:*:SEIUX)
+        echo mips-sei-seiux${UNAME_RELEASE}
+	exit ;;
+    *:DragonFly:*:*)
+	echo ${UNAME_MACHINE}-unknown-dragonfly`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`
+	exit ;;
+    *:*VMS:*:*)
+    	UNAME_MACHINE=`(uname -p) 2>/dev/null`
+	case "${UNAME_MACHINE}" in
+	    A*) echo alpha-dec-vms ; exit ;;
+	    I*) echo ia64-dec-vms ; exit ;;
+	    V*) echo vax-dec-vms ; exit ;;
+	esac ;;
+    *:XENIX:*:SysV)
+	echo i386-pc-xenix
+	exit ;;
+    i*86:skyos:*:*)
+	echo ${UNAME_MACHINE}-pc-skyos`echo ${UNAME_RELEASE}` | sed -e 's/ .*$//'
+	exit ;;
+    i*86:rdos:*:*)
+	echo ${UNAME_MACHINE}-pc-rdos
+	exit ;;
+esac
+
+#echo '(No uname command or uname output not recognized.)' 1>&2
+#echo "${UNAME_MACHINE}:${UNAME_SYSTEM}:${UNAME_RELEASE}:${UNAME_VERSION}" 1>&2
+
+eval $set_cc_for_build
+cat >$dummy.c <<EOF
+#ifdef _SEQUENT_
+# include <sys/types.h>
+# include <sys/utsname.h>
+#endif
+main ()
+{
+#if defined (sony)
+#if defined (MIPSEB)
+  /* BFD wants "bsd" instead of "newsos".  Perhaps BFD should be changed,
+     I don't know....  */
+  printf ("mips-sony-bsd\n"); exit (0);
+#else
+#include <sys/param.h>
+  printf ("m68k-sony-newsos%s\n",
+#ifdef NEWSOS4
+          "4"
+#else
+	  ""
+#endif
+         ); exit (0);
+#endif
+#endif
+
+#if defined (__arm) && defined (__acorn) && defined (__unix)
+  printf ("arm-acorn-riscix\n"); exit (0);
+#endif
+
+#if defined (hp300) && !defined (hpux)
+  printf ("m68k-hp-bsd\n"); exit (0);
+#endif
+
+#if defined (NeXT)
+#if !defined (__ARCHITECTURE__)
+#define __ARCHITECTURE__ "m68k"
+#endif
+  int version;
+  version=`(hostinfo | sed -n 's/.*NeXT Mach \([0-9]*\).*/\1/p') 2>/dev/null`;
+  if (version < 4)
+    printf ("%s-next-nextstep%d\n", __ARCHITECTURE__, version);
+  else
+    printf ("%s-next-openstep%d\n", __ARCHITECTURE__, version);
+  exit (0);
+#endif
+
+#if defined (MULTIMAX) || defined (n16)
+#if defined (UMAXV)
+  printf ("ns32k-encore-sysv\n"); exit (0);
+#else
+#if defined (CMU)
+  printf ("ns32k-encore-mach\n"); exit (0);
+#else
+  printf ("ns32k-encore-bsd\n"); exit (0);
+#endif
+#endif
+#endif
+
+#if defined (__386BSD__)
+  printf ("i386-pc-bsd\n"); exit (0);
+#endif
+
+#if defined (sequent)
+#if defined (i386)
+  printf ("i386-sequent-dynix\n"); exit (0);
+#endif
+#if defined (ns32000)
+  printf ("ns32k-sequent-dynix\n"); exit (0);
+#endif
+#endif
+
+#if defined (_SEQUENT_)
+    struct utsname un;
+
+    uname(&un);
+
+    if (strncmp(un.version, "V2", 2) == 0) {
+	printf ("i386-sequent-ptx2\n"); exit (0);
+    }
+    if (strncmp(un.version, "V1", 2) == 0) { /* XXX is V1 correct? */
+	printf ("i386-sequent-ptx1\n"); exit (0);
+    }
+    printf ("i386-sequent-ptx\n"); exit (0);
+
+#endif
+
+#if defined (vax)
+# if !defined (ultrix)
+#  include <sys/param.h>
+#  if defined (BSD)
+#   if BSD == 43
+      printf ("vax-dec-bsd4.3\n"); exit (0);
+#   else
+#    if BSD == 199006
+      printf ("vax-dec-bsd4.3reno\n"); exit (0);
+#    else
+      printf ("vax-dec-bsd\n"); exit (0);
+#    endif
+#   endif
+#  else
+    printf ("vax-dec-bsd\n"); exit (0);
+#  endif
+# else
+    printf ("vax-dec-ultrix\n"); exit (0);
+# endif
+#endif
+
+#if defined (alliant) && defined (i860)
+  printf ("i860-alliant-bsd\n"); exit (0);
+#endif
+
+  exit (1);
+}
+EOF
+
+$CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null && SYSTEM_NAME=`$dummy` &&
+	{ echo "$SYSTEM_NAME"; exit; }
+
+# Apollos put the system type in the environment.
+
+test -d /usr/apollo && { echo ${ISP}-apollo-${SYSTYPE}; exit; }
+
+# Convex versions that predate uname can use getsysinfo(1)
+
+if [ -x /usr/convex/getsysinfo ]
+then
+    case `getsysinfo -f cpu_type` in
+    c1*)
+	echo c1-convex-bsd
+	exit ;;
+    c2*)
+	if getsysinfo -f scalar_acc
+	then echo c32-convex-bsd
+	else echo c2-convex-bsd
+	fi
+	exit ;;
+    c34*)
+	echo c34-convex-bsd
+	exit ;;
+    c38*)
+	echo c38-convex-bsd
+	exit ;;
+    c4*)
+	echo c4-convex-bsd
+	exit ;;
+    esac
+fi
+
+cat >&2 <<EOF
+$0: unable to guess system type
+
+This script, last modified $timestamp, has failed to recognize
+the operating system you are using. It is advised that you
+download the most up to date version of the config scripts from
+
+  http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.guess;hb=HEAD
+and
+  http://git.savannah.gnu.org/gitweb/?p=config.git;a=blob_plain;f=config.sub;hb=HEAD
+
+If the version you run ($0) is already up to date, please
+send the following data and any information you think might be
+pertinent to <config-patches@gnu.org> in order to provide the needed
+information to handle your system.
+
+config.guess timestamp = $timestamp
+
+uname -m = `(uname -m) 2>/dev/null || echo unknown`
+uname -r = `(uname -r) 2>/dev/null || echo unknown`
+uname -s = `(uname -s) 2>/dev/null || echo unknown`
+uname -v = `(uname -v) 2>/dev/null || echo unknown`
+
+/usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null`
+/bin/uname -X     = `(/bin/uname -X) 2>/dev/null`
+
+hostinfo               = `(hostinfo) 2>/dev/null`
+/bin/universe          = `(/bin/universe) 2>/dev/null`
+/usr/bin/arch -k       = `(/usr/bin/arch -k) 2>/dev/null`
+/bin/arch              = `(/bin/arch) 2>/dev/null`
+/usr/bin/oslevel       = `(/usr/bin/oslevel) 2>/dev/null`
+/usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null`
+
+UNAME_MACHINE = ${UNAME_MACHINE}
+UNAME_RELEASE = ${UNAME_RELEASE}
+UNAME_SYSTEM  = ${UNAME_SYSTEM}
+UNAME_VERSION = ${UNAME_VERSION}
+EOF
+
+exit 1
+
+# Local variables:
+# eval: (add-hook 'write-file-hooks 'time-stamp)
+# time-stamp-start: "timestamp='"
+# time-stamp-format: "%:y-%02m-%02d"
+# time-stamp-end: "'"
+# End:
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/config.sub b/Exercise11_files/hmmer-3.1b2-cygwin64/config.sub
new file mode 100755
index 0000000..053e738
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/config.sub
@@ -0,0 +1,1677 @@
+#! /bin/sh
+# Configuration validation subroutine script.
+#   Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
+#   2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008
+#   Free Software Foundation, Inc.
+
+timestamp='2008-09-08'
+
+# This file is (in principle) common to ALL GNU software.
+# The presence of a machine in this file suggests that SOME GNU software
+# can handle that machine.  It does not imply ALL GNU software can.
+#
+# This file is free software; you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 2 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program; if not, write to the Free Software
+# Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston, MA
+# 02110-1301, USA.
+#
+# As a special exception to the GNU General Public License, if you
+# distribute this file as part of a program that contains a
+# configuration script generated by Autoconf, you may include it under
+# the same distribution terms that you use for the rest of that program.
+
+
+# Please send patches to <config-patches@gnu.org>.  Submit a context
+# diff and a properly formatted ChangeLog entry.
+#
+# Configuration subroutine to validate and canonicalize a configuration type.
+# Supply the specified configuration type as an argument.
+# If it is invalid, we print an error message on stderr and exit with code 1.
+# Otherwise, we print the canonical config type on stdout and succeed.
+
+# This file is supposed to be the same for all GNU packages
+# and recognize all the CPU types, system types and aliases
+# that are meaningful with *any* GNU software.
+# Each package is responsible for reporting which valid configurations
+# it does not support.  The user should be able to distinguish
+# a failure to support a valid configuration from a meaningless
+# configuration.
+
+# The goal of this file is to map all the various variations of a given
+# machine specification into a single specification in the form:
+#	CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM
+# or in some cases, the newer four-part form:
+#	CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM
+# It is wrong to echo any other type of specification.
+
+me=`echo "$0" | sed -e 's,.*/,,'`
+
+usage="\
+Usage: $0 [OPTION] CPU-MFR-OPSYS
+       $0 [OPTION] ALIAS
+
+Canonicalize a configuration name.
+
+Operation modes:
+  -h, --help         print this help, then exit
+  -t, --time-stamp   print date of last modification, then exit
+  -v, --version      print version number, then exit
+
+Report bugs and patches to <config-patches@gnu.org>."
+
+version="\
+GNU config.sub ($timestamp)
+
+Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001,
+2002, 2003, 2004, 2005, 2006, 2007, 2008 Free Software Foundation, Inc.
+
+This is free software; see the source for copying conditions.  There is NO
+warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE."
+
+help="
+Try \`$me --help' for more information."
+
+# Parse command line
+while test $# -gt 0 ; do
+  case $1 in
+    --time-stamp | --time* | -t )
+       echo "$timestamp" ; exit ;;
+    --version | -v )
+       echo "$version" ; exit ;;
+    --help | --h* | -h )
+       echo "$usage"; exit ;;
+    -- )     # Stop option processing
+       shift; break ;;
+    - )	# Use stdin as input.
+       break ;;
+    -* )
+       echo "$me: invalid option $1$help"
+       exit 1 ;;
+
+    *local*)
+       # First pass through any local machine types.
+       echo $1
+       exit ;;
+
+    * )
+       break ;;
+  esac
+done
+
+case $# in
+ 0) echo "$me: missing argument$help" >&2
+    exit 1;;
+ 1) ;;
+ *) echo "$me: too many arguments$help" >&2
+    exit 1;;
+esac
+
+# Separate what the user gave into CPU-COMPANY and OS or KERNEL-OS (if any).
+# Here we must recognize all the valid KERNEL-OS combinations.
+maybe_os=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\2/'`
+case $maybe_os in
+  nto-qnx* | linux-gnu* | linux-dietlibc | linux-newlib* | linux-uclibc* | \
+  uclinux-uclibc* | uclinux-gnu* | kfreebsd*-gnu* | knetbsd*-gnu* | netbsd*-gnu* | \
+  storm-chaos* | os2-emx* | rtmk-nova*)
+    os=-$maybe_os
+    basic_machine=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\1/'`
+    ;;
+  *)
+    basic_machine=`echo $1 | sed 's/-[^-]*$//'`
+    if [ $basic_machine != $1 ]
+    then os=`echo $1 | sed 's/.*-/-/'`
+    else os=; fi
+    ;;
+esac
+
+### Let's recognize common machines as not being operating systems so
+### that things like config.sub decstation-3100 work.  We also
+### recognize some manufacturers as not being operating systems, so we
+### can provide default operating systems below.
+case $os in
+	-sun*os*)
+		# Prevent following clause from handling this invalid input.
+		;;
+	-dec* | -mips* | -sequent* | -encore* | -pc532* | -sgi* | -sony* | \
+	-att* | -7300* | -3300* | -delta* | -motorola* | -sun[234]* | \
+	-unicom* | -ibm* | -next | -hp | -isi* | -apollo | -altos* | \
+	-convergent* | -ncr* | -news | -32* | -3600* | -3100* | -hitachi* |\
+	-c[123]* | -convex* | -sun | -crds | -omron* | -dg | -ultra | -tti* | \
+	-harris | -dolphin | -highlevel | -gould | -cbm | -ns | -masscomp | \
+	-apple | -axis | -knuth | -cray)
+		os=
+		basic_machine=$1
+		;;
+	-sim | -cisco | -oki | -wec | -winbond)
+		os=
+		basic_machine=$1
+		;;
+	-scout)
+		;;
+	-wrs)
+		os=-vxworks
+		basic_machine=$1
+		;;
+	-chorusos*)
+		os=-chorusos
+		basic_machine=$1
+		;;
+ 	-chorusrdb)
+ 		os=-chorusrdb
+		basic_machine=$1
+ 		;;
+	-hiux*)
+		os=-hiuxwe2
+		;;
+	-sco6)
+		os=-sco5v6
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco5)
+		os=-sco3.2v5
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco4)
+		os=-sco3.2v4
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco3.2.[4-9]*)
+		os=`echo $os | sed -e 's/sco3.2./sco3.2v/'`
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco3.2v[4-9]*)
+		# Don't forget version if it is 3.2v4 or newer.
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco5v6*)
+		# Don't forget version if it is 3.2v4 or newer.
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco*)
+		os=-sco3.2v2
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-udk*)
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-isc)
+		os=-isc2.2
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-clix*)
+		basic_machine=clipper-intergraph
+		;;
+	-isc*)
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-lynx*)
+		os=-lynxos
+		;;
+	-ptx*)
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-sequent/'`
+		;;
+	-windowsnt*)
+		os=`echo $os | sed -e 's/windowsnt/winnt/'`
+		;;
+	-psos*)
+		os=-psos
+		;;
+	-mint | -mint[0-9]*)
+		basic_machine=m68k-atari
+		os=-mint
+		;;
+esac
+
+# Decode aliases for certain CPU-COMPANY combinations.
+case $basic_machine in
+	# Recognize the basic CPU types without company name.
+	# Some are omitted here because they have special meanings below.
+	1750a | 580 \
+	| a29k \
+	| alpha | alphaev[4-8] | alphaev56 | alphaev6[78] | alphapca5[67] \
+	| alpha64 | alpha64ev[4-8] | alpha64ev56 | alpha64ev6[78] | alpha64pca5[67] \
+	| am33_2.0 \
+	| arc | arm | arm[bl]e | arme[lb] | armv[2345] | armv[345][lb] | avr | avr32 \
+	| bfin \
+	| c4x | clipper \
+	| d10v | d30v | dlx | dsp16xx \
+	| fido | fr30 | frv \
+	| h8300 | h8500 | hppa | hppa1.[01] | hppa2.0 | hppa2.0[nw] | hppa64 \
+	| i370 | i860 | i960 | ia64 \
+	| ip2k | iq2000 \
+	| m32c | m32r | m32rle | m68000 | m68k | m88k \
+	| maxq | mb | microblaze | mcore | mep | metag \
+	| mips | mipsbe | mipseb | mipsel | mipsle \
+	| mips16 \
+	| mips64 | mips64el \
+	| mips64octeon | mips64octeonel \
+	| mips64orion | mips64orionel \
+	| mips64r5900 | mips64r5900el \
+	| mips64vr | mips64vrel \
+	| mips64vr4100 | mips64vr4100el \
+	| mips64vr4300 | mips64vr4300el \
+	| mips64vr5000 | mips64vr5000el \
+	| mips64vr5900 | mips64vr5900el \
+	| mipsisa32 | mipsisa32el \
+	| mipsisa32r2 | mipsisa32r2el \
+	| mipsisa64 | mipsisa64el \
+	| mipsisa64r2 | mipsisa64r2el \
+	| mipsisa64sb1 | mipsisa64sb1el \
+	| mipsisa64sr71k | mipsisa64sr71kel \
+	| mipstx39 | mipstx39el \
+	| mn10200 | mn10300 \
+	| mt \
+	| msp430 \
+	| nios | nios2 \
+	| ns16k | ns32k \
+	| or32 \
+	| pdp10 | pdp11 | pj | pjl \
+	| powerpc | powerpc64 | powerpc64le | powerpcle | ppcbe \
+	| pyramid \
+	| score \
+	| sh | sh[1234] | sh[24]a | sh[23]e | sh[34]eb | sheb | shbe | shle | sh[1234]le | sh3ele \
+	| sh64 | sh64le \
+	| sparc | sparc64 | sparc64b | sparc64v | sparc86x | sparclet | sparclite \
+	| sparcv8 | sparcv9 | sparcv9b | sparcv9v \
+	| spu | strongarm \
+	| tahoe | thumb | tic4x | tic80 | tron \
+	| v850 | v850e \
+	| we32k \
+	| x86 | xc16x | xscale | xscalee[bl] | xstormy16 | xtensa \
+	| z8k | z80)
+		basic_machine=$basic_machine-unknown
+		;;
+	m6811 | m68hc11 | m6812 | m68hc12)
+		# Motorola 68HC11/12.
+		basic_machine=$basic_machine-unknown
+		os=-none
+		;;
+	m88110 | m680[12346]0 | m683?2 | m68360 | m5200 | v70 | w65 | z8k)
+		;;
+	ms1)
+		basic_machine=mt-unknown
+		;;
+
+	# We use `pc' rather than `unknown'
+	# because (1) that's what they normally are, and
+	# (2) the word "unknown" tends to confuse beginning users.
+	i*86 | x86_64)
+	  basic_machine=$basic_machine-pc
+	  ;;
+	# Object if more than one company name word.
+	*-*-*)
+		echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2
+		exit 1
+		;;
+	# Recognize the basic CPU types with company name.
+	580-* \
+	| a29k-* \
+	| alpha-* | alphaev[4-8]-* | alphaev56-* | alphaev6[78]-* \
+	| alpha64-* | alpha64ev[4-8]-* | alpha64ev56-* | alpha64ev6[78]-* \
+	| alphapca5[67]-* | alpha64pca5[67]-* | arc-* \
+	| arm-*  | armbe-* | armle-* | armeb-* | armv*-* \
+	| avr-* | avr32-* \
+	| bfin-* | bs2000-* \
+	| c[123]* | c30-* | [cjt]90-* | c4x-* | c54x-* | c55x-* | c6x-* \
+	| clipper-* | craynv-* | cydra-* \
+	| d10v-* | d30v-* | dlx-* \
+	| elxsi-* \
+	| f30[01]-* | f700-* | fido-* | fr30-* | frv-* | fx80-* \
+	| h8300-* | h8500-* \
+	| hppa-* | hppa1.[01]-* | hppa2.0-* | hppa2.0[nw]-* | hppa64-* \
+	| i*86-* | i860-* | i960-* | ia64-* \
+	| ip2k-* | iq2000-* \
+	| m32c-* | m32r-* | m32rle-* \
+	| m68000-* | m680[012346]0-* | m68360-* | m683?2-* | m68k-* \
+	| m88110-* | m88k-* | maxq-* | mcore-* | metag-* \
+	| mips-* | mipsbe-* | mipseb-* | mipsel-* | mipsle-* \
+	| mips16-* \
+	| mips64-* | mips64el-* \
+	| mips64octeon-* | mips64octeonel-* \
+	| mips64orion-* | mips64orionel-* \
+	| mips64r5900-* | mips64r5900el-* \
+	| mips64vr-* | mips64vrel-* \
+	| mips64vr4100-* | mips64vr4100el-* \
+	| mips64vr4300-* | mips64vr4300el-* \
+	| mips64vr5000-* | mips64vr5000el-* \
+	| mips64vr5900-* | mips64vr5900el-* \
+	| mipsisa32-* | mipsisa32el-* \
+	| mipsisa32r2-* | mipsisa32r2el-* \
+	| mipsisa64-* | mipsisa64el-* \
+	| mipsisa64r2-* | mipsisa64r2el-* \
+	| mipsisa64sb1-* | mipsisa64sb1el-* \
+	| mipsisa64sr71k-* | mipsisa64sr71kel-* \
+	| mipstx39-* | mipstx39el-* \
+	| mmix-* \
+	| mt-* \
+	| msp430-* \
+	| nios-* | nios2-* \
+	| none-* | np1-* | ns16k-* | ns32k-* \
+	| orion-* \
+	| pdp10-* | pdp11-* | pj-* | pjl-* | pn-* | power-* \
+	| powerpc-* | powerpc64-* | powerpc64le-* | powerpcle-* | ppcbe-* \
+	| pyramid-* \
+	| romp-* | rs6000-* \
+	| sh-* | sh[1234]-* | sh[24]a-* | sh[23]e-* | sh[34]eb-* | sheb-* | shbe-* \
+	| shle-* | sh[1234]le-* | sh3ele-* | sh64-* | sh64le-* \
+	| sparc-* | sparc64-* | sparc64b-* | sparc64v-* | sparc86x-* | sparclet-* \
+	| sparclite-* \
+	| sparcv8-* | sparcv9-* | sparcv9b-* | sparcv9v-* | strongarm-* | sv1-* | sx?-* \
+	| tahoe-* | thumb-* \
+	| tic30-* | tic4x-* | tic54x-* | tic55x-* | tic6x-* | tic80-* | tile-* \
+	| tron-* \
+	| v850-* | v850e-* | vax-* \
+	| we32k-* \
+	| x86-* | x86_64-* | xc16x-* | xps100-* | xscale-* | xscalee[bl]-* \
+	| xstormy16-* | xtensa*-* \
+	| ymp-* \
+	| z8k-* | z80-*)
+		;;
+	# Recognize the basic CPU types without company name, with glob match.
+	xtensa*)
+		basic_machine=$basic_machine-unknown
+		;;
+	# Recognize the various machine names and aliases which stand
+	# for a CPU type and a company and sometimes even an OS.
+	386bsd)
+		basic_machine=i386-unknown
+		os=-bsd
+		;;
+	3b1 | 7300 | 7300-att | att-7300 | pc7300 | safari | unixpc)
+		basic_machine=m68000-att
+		;;
+	3b*)
+		basic_machine=we32k-att
+		;;
+	a29khif)
+		basic_machine=a29k-amd
+		os=-udi
+		;;
+    	abacus)
+		basic_machine=abacus-unknown
+		;;
+	adobe68k)
+		basic_machine=m68010-adobe
+		os=-scout
+		;;
+	alliant | fx80)
+		basic_machine=fx80-alliant
+		;;
+	altos | altos3068)
+		basic_machine=m68k-altos
+		;;
+	am29k)
+		basic_machine=a29k-none
+		os=-bsd
+		;;
+	amd64)
+		basic_machine=x86_64-pc
+		;;
+	amd64-*)
+		basic_machine=x86_64-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	amdahl)
+		basic_machine=580-amdahl
+		os=-sysv
+		;;
+	amiga | amiga-*)
+		basic_machine=m68k-unknown
+		;;
+	amigaos | amigados)
+		basic_machine=m68k-unknown
+		os=-amigaos
+		;;
+	amigaunix | amix)
+		basic_machine=m68k-unknown
+		os=-sysv4
+		;;
+	apollo68)
+		basic_machine=m68k-apollo
+		os=-sysv
+		;;
+	apollo68bsd)
+		basic_machine=m68k-apollo
+		os=-bsd
+		;;
+	aux)
+		basic_machine=m68k-apple
+		os=-aux
+		;;
+	balance)
+		basic_machine=ns32k-sequent
+		os=-dynix
+		;;
+	blackfin)
+		basic_machine=bfin-unknown
+		os=-linux
+		;;
+	blackfin-*)
+		basic_machine=bfin-`echo $basic_machine | sed 's/^[^-]*-//'`
+		os=-linux
+		;;
+	c90)
+		basic_machine=c90-cray
+		os=-unicos
+		;;
+        cegcc)
+		basic_machine=arm-unknown
+		os=-cegcc
+		;;
+	convex-c1)
+		basic_machine=c1-convex
+		os=-bsd
+		;;
+	convex-c2)
+		basic_machine=c2-convex
+		os=-bsd
+		;;
+	convex-c32)
+		basic_machine=c32-convex
+		os=-bsd
+		;;
+	convex-c34)
+		basic_machine=c34-convex
+		os=-bsd
+		;;
+	convex-c38)
+		basic_machine=c38-convex
+		os=-bsd
+		;;
+	cray | j90)
+		basic_machine=j90-cray
+		os=-unicos
+		;;
+	craynv)
+		basic_machine=craynv-cray
+		os=-unicosmp
+		;;
+	cr16)
+		basic_machine=cr16-unknown
+		os=-elf
+		;;
+	crds | unos)
+		basic_machine=m68k-crds
+		;;
+	crisv32 | crisv32-* | etraxfs*)
+		basic_machine=crisv32-axis
+		;;
+	cris | cris-* | etrax*)
+		basic_machine=cris-axis
+		;;
+	crx)
+		basic_machine=crx-unknown
+		os=-elf
+		;;
+	da30 | da30-*)
+		basic_machine=m68k-da30
+		;;
+	decstation | decstation-3100 | pmax | pmax-* | pmin | dec3100 | decstatn)
+		basic_machine=mips-dec
+		;;
+	decsystem10* | dec10*)
+		basic_machine=pdp10-dec
+		os=-tops10
+		;;
+	decsystem20* | dec20*)
+		basic_machine=pdp10-dec
+		os=-tops20
+		;;
+	delta | 3300 | motorola-3300 | motorola-delta \
+	      | 3300-motorola | delta-motorola)
+		basic_machine=m68k-motorola
+		;;
+	delta88)
+		basic_machine=m88k-motorola
+		os=-sysv3
+		;;
+	dicos)
+		basic_machine=i686-pc
+		os=-dicos
+		;;
+	djgpp)
+		basic_machine=i586-pc
+		os=-msdosdjgpp
+		;;
+	dpx20 | dpx20-*)
+		basic_machine=rs6000-bull
+		os=-bosx
+		;;
+	dpx2* | dpx2*-bull)
+		basic_machine=m68k-bull
+		os=-sysv3
+		;;
+	ebmon29k)
+		basic_machine=a29k-amd
+		os=-ebmon
+		;;
+	elxsi)
+		basic_machine=elxsi-elxsi
+		os=-bsd
+		;;
+	encore | umax | mmax)
+		basic_machine=ns32k-encore
+		;;
+	es1800 | OSE68k | ose68k | ose | OSE)
+		basic_machine=m68k-ericsson
+		os=-ose
+		;;
+	fx2800)
+		basic_machine=i860-alliant
+		;;
+	genix)
+		basic_machine=ns32k-ns
+		;;
+	gmicro)
+		basic_machine=tron-gmicro
+		os=-sysv
+		;;
+	go32)
+		basic_machine=i386-pc
+		os=-go32
+		;;
+	h3050r* | hiux*)
+		basic_machine=hppa1.1-hitachi
+		os=-hiuxwe2
+		;;
+	h8300hms)
+		basic_machine=h8300-hitachi
+		os=-hms
+		;;
+	h8300xray)
+		basic_machine=h8300-hitachi
+		os=-xray
+		;;
+	h8500hms)
+		basic_machine=h8500-hitachi
+		os=-hms
+		;;
+	harris)
+		basic_machine=m88k-harris
+		os=-sysv3
+		;;
+	hp300-*)
+		basic_machine=m68k-hp
+		;;
+	hp300bsd)
+		basic_machine=m68k-hp
+		os=-bsd
+		;;
+	hp300hpux)
+		basic_machine=m68k-hp
+		os=-hpux
+		;;
+	hp3k9[0-9][0-9] | hp9[0-9][0-9])
+		basic_machine=hppa1.0-hp
+		;;
+	hp9k2[0-9][0-9] | hp9k31[0-9])
+		basic_machine=m68000-hp
+		;;
+	hp9k3[2-9][0-9])
+		basic_machine=m68k-hp
+		;;
+	hp9k6[0-9][0-9] | hp6[0-9][0-9])
+		basic_machine=hppa1.0-hp
+		;;
+	hp9k7[0-79][0-9] | hp7[0-79][0-9])
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k78[0-9] | hp78[0-9])
+		# FIXME: really hppa2.0-hp
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k8[67]1 | hp8[67]1 | hp9k80[24] | hp80[24] | hp9k8[78]9 | hp8[78]9 | hp9k893 | hp893)
+		# FIXME: really hppa2.0-hp
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k8[0-9][13679] | hp8[0-9][13679])
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k8[0-9][0-9] | hp8[0-9][0-9])
+		basic_machine=hppa1.0-hp
+		;;
+	hppa-next)
+		os=-nextstep3
+		;;
+	hppaosf)
+		basic_machine=hppa1.1-hp
+		os=-osf
+		;;
+	hppro)
+		basic_machine=hppa1.1-hp
+		os=-proelf
+		;;
+	i370-ibm* | ibm*)
+		basic_machine=i370-ibm
+		;;
+# I'm not sure what "Sysv32" means.  Should this be sysv3.2?
+	i*86v32)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-sysv32
+		;;
+	i*86v4*)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-sysv4
+		;;
+	i*86v)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-sysv
+		;;
+	i*86sol2)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-solaris2
+		;;
+	i386mach)
+		basic_machine=i386-mach
+		os=-mach
+		;;
+	i386-vsta | vsta)
+		basic_machine=i386-unknown
+		os=-vsta
+		;;
+	iris | iris4d)
+		basic_machine=mips-sgi
+		case $os in
+		    -irix*)
+			;;
+		    *)
+			os=-irix4
+			;;
+		esac
+		;;
+	isi68 | isi)
+		basic_machine=m68k-isi
+		os=-sysv
+		;;
+	m68knommu)
+		basic_machine=m68k-unknown
+		os=-linux
+		;;
+	m68knommu-*)
+		basic_machine=m68k-`echo $basic_machine | sed 's/^[^-]*-//'`
+		os=-linux
+		;;
+	m88k-omron*)
+		basic_machine=m88k-omron
+		;;
+	magnum | m3230)
+		basic_machine=mips-mips
+		os=-sysv
+		;;
+	merlin)
+		basic_machine=ns32k-utek
+		os=-sysv
+		;;
+	mingw32)
+		basic_machine=i386-pc
+		os=-mingw32
+		;;
+	mingw32ce)
+		basic_machine=arm-unknown
+		os=-mingw32ce
+		;;
+	miniframe)
+		basic_machine=m68000-convergent
+		;;
+	*mint | -mint[0-9]* | *MiNT | *MiNT[0-9]*)
+		basic_machine=m68k-atari
+		os=-mint
+		;;
+	mips3*-*)
+		basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`
+		;;
+	mips3*)
+		basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`-unknown
+		;;
+	monitor)
+		basic_machine=m68k-rom68k
+		os=-coff
+		;;
+	morphos)
+		basic_machine=powerpc-unknown
+		os=-morphos
+		;;
+	msdos)
+		basic_machine=i386-pc
+		os=-msdos
+		;;
+	ms1-*)
+		basic_machine=`echo $basic_machine | sed -e 's/ms1-/mt-/'`
+		;;
+	mvs)
+		basic_machine=i370-ibm
+		os=-mvs
+		;;
+	ncr3000)
+		basic_machine=i486-ncr
+		os=-sysv4
+		;;
+	netbsd386)
+		basic_machine=i386-unknown
+		os=-netbsd
+		;;
+	netwinder)
+		basic_machine=armv4l-rebel
+		os=-linux
+		;;
+	news | news700 | news800 | news900)
+		basic_machine=m68k-sony
+		os=-newsos
+		;;
+	news1000)
+		basic_machine=m68030-sony
+		os=-newsos
+		;;
+	news-3600 | risc-news)
+		basic_machine=mips-sony
+		os=-newsos
+		;;
+	necv70)
+		basic_machine=v70-nec
+		os=-sysv
+		;;
+	next | m*-next )
+		basic_machine=m68k-next
+		case $os in
+		    -nextstep* )
+			;;
+		    -ns2*)
+		      os=-nextstep2
+			;;
+		    *)
+		      os=-nextstep3
+			;;
+		esac
+		;;
+	nh3000)
+		basic_machine=m68k-harris
+		os=-cxux
+		;;
+	nh[45]000)
+		basic_machine=m88k-harris
+		os=-cxux
+		;;
+	nindy960)
+		basic_machine=i960-intel
+		os=-nindy
+		;;
+	mon960)
+		basic_machine=i960-intel
+		os=-mon960
+		;;
+	nonstopux)
+		basic_machine=mips-compaq
+		os=-nonstopux
+		;;
+	np1)
+		basic_machine=np1-gould
+		;;
+	nsr-tandem)
+		basic_machine=nsr-tandem
+		;;
+	op50n-* | op60c-*)
+		basic_machine=hppa1.1-oki
+		os=-proelf
+		;;
+	openrisc | openrisc-*)
+		basic_machine=or32-unknown
+		;;
+	os400)
+		basic_machine=powerpc-ibm
+		os=-os400
+		;;
+	OSE68000 | ose68000)
+		basic_machine=m68000-ericsson
+		os=-ose
+		;;
+	os68k)
+		basic_machine=m68k-none
+		os=-os68k
+		;;
+	pa-hitachi)
+		basic_machine=hppa1.1-hitachi
+		os=-hiuxwe2
+		;;
+	paragon)
+		basic_machine=i860-intel
+		os=-osf
+		;;
+	parisc)
+		basic_machine=hppa-unknown
+		os=-linux
+		;;
+	parisc-*)
+		basic_machine=hppa-`echo $basic_machine | sed 's/^[^-]*-//'`
+		os=-linux
+		;;
+	pbd)
+		basic_machine=sparc-tti
+		;;
+	pbb)
+		basic_machine=m68k-tti
+		;;
+	pc532 | pc532-*)
+		basic_machine=ns32k-pc532
+		;;
+	pc98)
+		basic_machine=i386-pc
+		;;
+	pc98-*)
+		basic_machine=i386-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentium | p5 | k5 | k6 | nexgen | viac3)
+		basic_machine=i586-pc
+		;;
+	pentiumpro | p6 | 6x86 | athlon | athlon_*)
+		basic_machine=i686-pc
+		;;
+	pentiumii | pentium2 | pentiumiii | pentium3)
+		basic_machine=i686-pc
+		;;
+	pentium4)
+		basic_machine=i786-pc
+		;;
+	pentium-* | p5-* | k5-* | k6-* | nexgen-* | viac3-*)
+		basic_machine=i586-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentiumpro-* | p6-* | 6x86-* | athlon-*)
+		basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentiumii-* | pentium2-* | pentiumiii-* | pentium3-*)
+		basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentium4-*)
+		basic_machine=i786-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pn)
+		basic_machine=pn-gould
+		;;
+	power)	basic_machine=power-ibm
+		;;
+	ppc)	basic_machine=powerpc-unknown
+		;;
+	ppc-*)	basic_machine=powerpc-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ppcle | powerpclittle | ppc-le | powerpc-little)
+		basic_machine=powerpcle-unknown
+		;;
+	ppcle-* | powerpclittle-*)
+		basic_machine=powerpcle-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ppc64)	basic_machine=powerpc64-unknown
+		;;
+	ppc64-*) basic_machine=powerpc64-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ppc64le | powerpc64little | ppc64-le | powerpc64-little)
+		basic_machine=powerpc64le-unknown
+		;;
+	ppc64le-* | powerpc64little-*)
+		basic_machine=powerpc64le-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ps2)
+		basic_machine=i386-ibm
+		;;
+	pw32)
+		basic_machine=i586-unknown
+		os=-pw32
+		;;
+	rdos)
+		basic_machine=i386-pc
+		os=-rdos
+		;;
+	rom68k)
+		basic_machine=m68k-rom68k
+		os=-coff
+		;;
+	rm[46]00)
+		basic_machine=mips-siemens
+		;;
+	rtpc | rtpc-*)
+		basic_machine=romp-ibm
+		;;
+	s390 | s390-*)
+		basic_machine=s390-ibm
+		;;
+	s390x | s390x-*)
+		basic_machine=s390x-ibm
+		;;
+	sa29200)
+		basic_machine=a29k-amd
+		os=-udi
+		;;
+	sb1)
+		basic_machine=mipsisa64sb1-unknown
+		;;
+	sb1el)
+		basic_machine=mipsisa64sb1el-unknown
+		;;
+	sde)
+		basic_machine=mipsisa32-sde
+		os=-elf
+		;;
+	sei)
+		basic_machine=mips-sei
+		os=-seiux
+		;;
+	sequent)
+		basic_machine=i386-sequent
+		;;
+	sh)
+		basic_machine=sh-hitachi
+		os=-hms
+		;;
+	sh5el)
+		basic_machine=sh5le-unknown
+		;;
+	sh64)
+		basic_machine=sh64-unknown
+		;;
+	sparclite-wrs | simso-wrs)
+		basic_machine=sparclite-wrs
+		os=-vxworks
+		;;
+	sps7)
+		basic_machine=m68k-bull
+		os=-sysv2
+		;;
+	spur)
+		basic_machine=spur-unknown
+		;;
+	st2000)
+		basic_machine=m68k-tandem
+		;;
+	stratus)
+		basic_machine=i860-stratus
+		os=-sysv4
+		;;
+	sun2)
+		basic_machine=m68000-sun
+		;;
+	sun2os3)
+		basic_machine=m68000-sun
+		os=-sunos3
+		;;
+	sun2os4)
+		basic_machine=m68000-sun
+		os=-sunos4
+		;;
+	sun3os3)
+		basic_machine=m68k-sun
+		os=-sunos3
+		;;
+	sun3os4)
+		basic_machine=m68k-sun
+		os=-sunos4
+		;;
+	sun4os3)
+		basic_machine=sparc-sun
+		os=-sunos3
+		;;
+	sun4os4)
+		basic_machine=sparc-sun
+		os=-sunos4
+		;;
+	sun4sol2)
+		basic_machine=sparc-sun
+		os=-solaris2
+		;;
+	sun3 | sun3-*)
+		basic_machine=m68k-sun
+		;;
+	sun4)
+		basic_machine=sparc-sun
+		;;
+	sun386 | sun386i | roadrunner)
+		basic_machine=i386-sun
+		;;
+	sv1)
+		basic_machine=sv1-cray
+		os=-unicos
+		;;
+	symmetry)
+		basic_machine=i386-sequent
+		os=-dynix
+		;;
+	t3e)
+		basic_machine=alphaev5-cray
+		os=-unicos
+		;;
+	t90)
+		basic_machine=t90-cray
+		os=-unicos
+		;;
+	tic54x | c54x*)
+		basic_machine=tic54x-unknown
+		os=-coff
+		;;
+	tic55x | c55x*)
+		basic_machine=tic55x-unknown
+		os=-coff
+		;;
+	tic6x | c6x*)
+		basic_machine=tic6x-unknown
+		os=-coff
+		;;
+	tile*)
+		basic_machine=tile-unknown
+		os=-linux-gnu
+		;;
+	tx39)
+		basic_machine=mipstx39-unknown
+		;;
+	tx39el)
+		basic_machine=mipstx39el-unknown
+		;;
+	toad1)
+		basic_machine=pdp10-xkl
+		os=-tops20
+		;;
+	tower | tower-32)
+		basic_machine=m68k-ncr
+		;;
+	tpf)
+		basic_machine=s390x-ibm
+		os=-tpf
+		;;
+	udi29k)
+		basic_machine=a29k-amd
+		os=-udi
+		;;
+	ultra3)
+		basic_machine=a29k-nyu
+		os=-sym1
+		;;
+	v810 | necv810)
+		basic_machine=v810-nec
+		os=-none
+		;;
+	vaxv)
+		basic_machine=vax-dec
+		os=-sysv
+		;;
+	vms)
+		basic_machine=vax-dec
+		os=-vms
+		;;
+	vpp*|vx|vx-*)
+		basic_machine=f301-fujitsu
+		;;
+	vxworks960)
+		basic_machine=i960-wrs
+		os=-vxworks
+		;;
+	vxworks68)
+		basic_machine=m68k-wrs
+		os=-vxworks
+		;;
+	vxworks29k)
+		basic_machine=a29k-wrs
+		os=-vxworks
+		;;
+	w65*)
+		basic_machine=w65-wdc
+		os=-none
+		;;
+	w89k-*)
+		basic_machine=hppa1.1-winbond
+		os=-proelf
+		;;
+	xbox)
+		basic_machine=i686-pc
+		os=-mingw32
+		;;
+	xps | xps100)
+		basic_machine=xps100-honeywell
+		;;
+	ymp)
+		basic_machine=ymp-cray
+		os=-unicos
+		;;
+	z8k-*-coff)
+		basic_machine=z8k-unknown
+		os=-sim
+		;;
+	z80-*-coff)
+		basic_machine=z80-unknown
+		os=-sim
+		;;
+	none)
+		basic_machine=none-none
+		os=-none
+		;;
+
+# Here we handle the default manufacturer of certain CPU types.  It is in
+# some cases the only manufacturer, in others, it is the most popular.
+	w89k)
+		basic_machine=hppa1.1-winbond
+		;;
+	op50n)
+		basic_machine=hppa1.1-oki
+		;;
+	op60c)
+		basic_machine=hppa1.1-oki
+		;;
+	romp)
+		basic_machine=romp-ibm
+		;;
+	mmix)
+		basic_machine=mmix-knuth
+		;;
+	rs6000)
+		basic_machine=rs6000-ibm
+		;;
+	vax)
+		basic_machine=vax-dec
+		;;
+	pdp10)
+		# there are many clones, so DEC is not a safe bet
+		basic_machine=pdp10-unknown
+		;;
+	pdp11)
+		basic_machine=pdp11-dec
+		;;
+	we32k)
+		basic_machine=we32k-att
+		;;
+	sh[1234] | sh[24]a | sh[34]eb | sh[1234]le | sh[23]ele)
+		basic_machine=sh-unknown
+		;;
+	sparc | sparcv8 | sparcv9 | sparcv9b | sparcv9v)
+		basic_machine=sparc-sun
+		;;
+	cydra)
+		basic_machine=cydra-cydrome
+		;;
+	orion)
+		basic_machine=orion-highlevel
+		;;
+	orion105)
+		basic_machine=clipper-highlevel
+		;;
+	mac | mpw | mac-mpw)
+		basic_machine=m68k-apple
+		;;
+	pmac | pmac-mpw)
+		basic_machine=powerpc-apple
+		;;
+	*-unknown)
+		# Make sure to match an already-canonicalized machine name.
+		;;
+	*)
+		echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2
+		exit 1
+		;;
+esac
+
+# Here we canonicalize certain aliases for manufacturers.
+case $basic_machine in
+	*-digital*)
+		basic_machine=`echo $basic_machine | sed 's/digital.*/dec/'`
+		;;
+	*-commodore*)
+		basic_machine=`echo $basic_machine | sed 's/commodore.*/cbm/'`
+		;;
+	*)
+		;;
+esac
+
+# Decode manufacturer-specific aliases for certain operating systems.
+
+if [ x"$os" != x"" ]
+then
+case $os in
+        # First match some system type aliases
+        # that might get confused with valid system types.
+	# -solaris* is a basic system type, with this one exception.
+	-solaris1 | -solaris1.*)
+		os=`echo $os | sed -e 's|solaris1|sunos4|'`
+		;;
+	-solaris)
+		os=-solaris2
+		;;
+	-svr4*)
+		os=-sysv4
+		;;
+	-unixware*)
+		os=-sysv4.2uw
+		;;
+	-gnu/linux*)
+		os=`echo $os | sed -e 's|gnu/linux|linux-gnu|'`
+		;;
+	# First accept the basic system types.
+	# The portable systems comes first.
+	# Each alternative MUST END IN A *, to match a version number.
+	# -sysv* is not here because it comes later, after sysvr4.
+	-gnu* | -bsd* | -mach* | -minix* | -genix* | -ultrix* | -irix* \
+	      | -*vms* | -sco* | -esix* | -isc* | -aix* | -sunos | -sunos[34]*\
+	      | -hpux* | -unos* | -osf* | -luna* | -dgux* | -solaris* | -sym* \
+	      | -amigaos* | -amigados* | -msdos* | -newsos* | -unicos* | -aof* \
+	      | -aos* \
+	      | -nindy* | -vxsim* | -vxworks* | -ebmon* | -hms* | -mvs* \
+	      | -clix* | -riscos* | -uniplus* | -iris* | -rtu* | -xenix* \
+	      | -hiux* | -386bsd* | -knetbsd* | -mirbsd* | -netbsd* \
+	      | -openbsd* | -solidbsd* \
+	      | -ekkobsd* | -kfreebsd* | -freebsd* | -riscix* | -lynxos* \
+	      | -bosx* | -nextstep* | -cxux* | -aout* | -elf* | -oabi* \
+	      | -ptx* | -coff* | -ecoff* | -winnt* | -domain* | -vsta* \
+	      | -udi* | -eabi* | -lites* | -ieee* | -go32* | -aux* \
+	      | -chorusos* | -chorusrdb* | -cegcc* \
+	      | -cygwin* | -pe* | -psos* | -moss* | -proelf* | -rtems* \
+	      | -mingw32* | -linux-gnu* | -linux-newlib* | -linux-uclibc* \
+	      | -uxpv* | -beos* | -mpeix* | -udk* \
+	      | -interix* | -uwin* | -mks* | -rhapsody* | -darwin* | -opened* \
+	      | -openstep* | -oskit* | -conix* | -pw32* | -nonstopux* \
+	      | -storm-chaos* | -tops10* | -tenex* | -tops20* | -its* \
+	      | -os2* | -vos* | -palmos* | -uclinux* | -nucleus* \
+	      | -morphos* | -superux* | -rtmk* | -rtmk-nova* | -windiss* \
+	      | -powermax* | -dnix* | -nx6 | -nx7 | -sei* | -dragonfly* \
+	      | -skyos* | -haiku* | -rdos* | -toppers* | -drops*)
+	# Remember, each alternative MUST END IN *, to match a version number.
+		;;
+	-qnx*)
+		case $basic_machine in
+		    x86-* | i*86-*)
+			;;
+		    *)
+			os=-nto$os
+			;;
+		esac
+		;;
+	-nto-qnx*)
+		;;
+	-nto*)
+		os=`echo $os | sed -e 's|nto|nto-qnx|'`
+		;;
+	-sim | -es1800* | -hms* | -xray | -os68k* | -none* | -v88r* \
+	      | -windows* | -osx | -abug | -netware* | -os9* | -beos* | -haiku* \
+	      | -macos* | -mpw* | -magic* | -mmixware* | -mon960* | -lnews*)
+		;;
+	-mac*)
+		os=`echo $os | sed -e 's|mac|macos|'`
+		;;
+	-linux-dietlibc)
+		os=-linux-dietlibc
+		;;
+	-linux*)
+		os=`echo $os | sed -e 's|linux|linux-gnu|'`
+		;;
+	-sunos5*)
+		os=`echo $os | sed -e 's|sunos5|solaris2|'`
+		;;
+	-sunos6*)
+		os=`echo $os | sed -e 's|sunos6|solaris3|'`
+		;;
+	-opened*)
+		os=-openedition
+		;;
+        -os400*)
+		os=-os400
+		;;
+	-wince*)
+		os=-wince
+		;;
+	-osfrose*)
+		os=-osfrose
+		;;
+	-osf*)
+		os=-osf
+		;;
+	-utek*)
+		os=-bsd
+		;;
+	-dynix*)
+		os=-bsd
+		;;
+	-acis*)
+		os=-aos
+		;;
+	-atheos*)
+		os=-atheos
+		;;
+	-syllable*)
+		os=-syllable
+		;;
+	-386bsd)
+		os=-bsd
+		;;
+	-ctix* | -uts*)
+		os=-sysv
+		;;
+	-nova*)
+		os=-rtmk-nova
+		;;
+	-ns2 )
+		os=-nextstep2
+		;;
+	-nsk*)
+		os=-nsk
+		;;
+	# Preserve the version number of sinix5.
+	-sinix5.*)
+		os=`echo $os | sed -e 's|sinix|sysv|'`
+		;;
+	-sinix*)
+		os=-sysv4
+		;;
+        -tpf*)
+		os=-tpf
+		;;
+	-triton*)
+		os=-sysv3
+		;;
+	-oss*)
+		os=-sysv3
+		;;
+	-svr4)
+		os=-sysv4
+		;;
+	-svr3)
+		os=-sysv3
+		;;
+	-sysvr4)
+		os=-sysv4
+		;;
+	# This must come after -sysvr4.
+	-sysv*)
+		;;
+	-ose*)
+		os=-ose
+		;;
+	-es1800*)
+		os=-ose
+		;;
+	-xenix)
+		os=-xenix
+		;;
+	-*mint | -mint[0-9]* | -*MiNT | -MiNT[0-9]*)
+		os=-mint
+		;;
+	-aros*)
+		os=-aros
+		;;
+	-kaos*)
+		os=-kaos
+		;;
+	-zvmoe)
+		os=-zvmoe
+		;;
+	-dicos*)
+		os=-dicos
+		;;
+	-none)
+		;;
+	*)
+		# Get rid of the `-' at the beginning of $os.
+		os=`echo $os | sed 's/[^-]*-//'`
+		echo Invalid configuration \`$1\': system \`$os\' not recognized 1>&2
+		exit 1
+		;;
+esac
+else
+
+# Here we handle the default operating systems that come with various machines.
+# The value should be what the vendor currently ships out the door with their
+# machine or put another way, the most popular os provided with the machine.
+
+# Note that if you're going to try to match "-MANUFACTURER" here (say,
+# "-sun"), then you have to tell the case statement up towards the top
+# that MANUFACTURER isn't an operating system.  Otherwise, code above
+# will signal an error saying that MANUFACTURER isn't an operating
+# system, and we'll never get to this point.
+
+case $basic_machine in
+        score-*)
+		os=-elf
+		;;
+        spu-*)
+		os=-elf
+		;;
+	*-acorn)
+		os=-riscix1.2
+		;;
+	arm*-rebel)
+		os=-linux
+		;;
+	arm*-semi)
+		os=-aout
+		;;
+        c4x-* | tic4x-*)
+        	os=-coff
+		;;
+	# This must come before the *-dec entry.
+	pdp10-*)
+		os=-tops20
+		;;
+	pdp11-*)
+		os=-none
+		;;
+	*-dec | vax-*)
+		os=-ultrix4.2
+		;;
+	m68*-apollo)
+		os=-domain
+		;;
+	i386-sun)
+		os=-sunos4.0.2
+		;;
+	m68000-sun)
+		os=-sunos3
+		# This also exists in the configure program, but was not the
+		# default.
+		# os=-sunos4
+		;;
+	m68*-cisco)
+		os=-aout
+		;;
+        mep-*)
+		os=-elf
+		;;
+	mips*-cisco)
+		os=-elf
+		;;
+	mips*-*)
+		os=-elf
+		;;
+	or32-*)
+		os=-coff
+		;;
+	*-tti)	# must be before sparc entry or we get the wrong os.
+		os=-sysv3
+		;;
+	sparc-* | *-sun)
+		os=-sunos4.1.1
+		;;
+	*-be)
+		os=-beos
+		;;
+	*-haiku)
+		os=-haiku
+		;;
+	*-ibm)
+		os=-aix
+		;;
+    	*-knuth)
+		os=-mmixware
+		;;
+	*-wec)
+		os=-proelf
+		;;
+	*-winbond)
+		os=-proelf
+		;;
+	*-oki)
+		os=-proelf
+		;;
+	*-hp)
+		os=-hpux
+		;;
+	*-hitachi)
+		os=-hiux
+		;;
+	i860-* | *-att | *-ncr | *-altos | *-motorola | *-convergent)
+		os=-sysv
+		;;
+	*-cbm)
+		os=-amigaos
+		;;
+	*-dg)
+		os=-dgux
+		;;
+	*-dolphin)
+		os=-sysv3
+		;;
+	m68k-ccur)
+		os=-rtu
+		;;
+	m88k-omron*)
+		os=-luna
+		;;
+	*-next )
+		os=-nextstep
+		;;
+	*-sequent)
+		os=-ptx
+		;;
+	*-crds)
+		os=-unos
+		;;
+	*-ns)
+		os=-genix
+		;;
+	i370-*)
+		os=-mvs
+		;;
+	*-next)
+		os=-nextstep3
+		;;
+	*-gould)
+		os=-sysv
+		;;
+	*-highlevel)
+		os=-bsd
+		;;
+	*-encore)
+		os=-bsd
+		;;
+	*-sgi)
+		os=-irix
+		;;
+	*-siemens)
+		os=-sysv4
+		;;
+	*-masscomp)
+		os=-rtu
+		;;
+	f30[01]-fujitsu | f700-fujitsu)
+		os=-uxpv
+		;;
+	*-rom68k)
+		os=-coff
+		;;
+	*-*bug)
+		os=-coff
+		;;
+	*-apple)
+		os=-macos
+		;;
+	*-atari*)
+		os=-mint
+		;;
+	*)
+		os=-none
+		;;
+esac
+fi
+
+# Here we handle the case where we know the os, and the CPU type, but not the
+# manufacturer.  We pick the logical manufacturer.
+vendor=unknown
+case $basic_machine in
+	*-unknown)
+		case $os in
+			-riscix*)
+				vendor=acorn
+				;;
+			-sunos*)
+				vendor=sun
+				;;
+			-aix*)
+				vendor=ibm
+				;;
+			-beos*)
+				vendor=be
+				;;
+			-hpux*)
+				vendor=hp
+				;;
+			-mpeix*)
+				vendor=hp
+				;;
+			-hiux*)
+				vendor=hitachi
+				;;
+			-unos*)
+				vendor=crds
+				;;
+			-dgux*)
+				vendor=dg
+				;;
+			-luna*)
+				vendor=omron
+				;;
+			-genix*)
+				vendor=ns
+				;;
+			-mvs* | -opened*)
+				vendor=ibm
+				;;
+			-os400*)
+				vendor=ibm
+				;;
+			-ptx*)
+				vendor=sequent
+				;;
+			-tpf*)
+				vendor=ibm
+				;;
+			-vxsim* | -vxworks* | -windiss*)
+				vendor=wrs
+				;;
+			-aux*)
+				vendor=apple
+				;;
+			-hms*)
+				vendor=hitachi
+				;;
+			-mpw* | -macos*)
+				vendor=apple
+				;;
+			-*mint | -mint[0-9]* | -*MiNT | -MiNT[0-9]*)
+				vendor=atari
+				;;
+			-vos*)
+				vendor=stratus
+				;;
+		esac
+		basic_machine=`echo $basic_machine | sed "s/unknown/$vendor/"`
+		;;
+esac
+
+echo $basic_machine$os
+exit
+
+# Local variables:
+# eval: (add-hook 'write-file-hooks 'time-stamp)
+# time-stamp-start: "timestamp='"
+# time-stamp-format: "%:y-%02m-%02d"
+# time-stamp-end: "'"
+# End:
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/configure b/Exercise11_files/hmmer-3.1b2-cygwin64/configure
new file mode 100755
index 0000000..dd52e80
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/configure
@@ -0,0 +1,9709 @@
+#! /bin/sh
+# Guess values for system-dependent variables and create Makefiles.
+# Generated by GNU Autoconf 2.68 for HMMER 3.1b2.
+#
+# Report bugs to <eddys@janelia.hhmi.org>.
+#
+#
+# Copyright (C) 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001,
+# 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software
+# Foundation, Inc.
+#
+#
+# This configure script is free software; the Free Software Foundation
+# gives unlimited permission to copy, distribute and modify it.
+## -------------------- ##
+## M4sh Initialization. ##
+## -------------------- ##
+
+# Be more Bourne compatible
+DUALCASE=1; export DUALCASE # for MKS sh
+if test -n "${ZSH_VERSION+set}" && (emulate sh) >/dev/null 2>&1; then :
+  emulate sh
+  NULLCMD=:
+  # Pre-4.2 versions of Zsh do word splitting on ${1+"$@"}, which
+  # is contrary to our usage.  Disable this feature.
+  alias -g '${1+"$@"}'='"$@"'
+  setopt NO_GLOB_SUBST
+else
+  case `(set -o) 2>/dev/null` in #(
+  *posix*) :
+    set -o posix ;; #(
+  *) :
+     ;;
+esac
+fi
+
+
+as_nl='
+'
+export as_nl
+# Printing a long string crashes Solaris 7 /usr/bin/printf.
+as_echo='\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\'
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo$as_echo
+# Prefer a ksh shell builtin over an external printf program on Solaris,
+# but without wasting forks for bash or zsh.
+if test -z "$BASH_VERSION$ZSH_VERSION" \
+    && (test "X`print -r -- $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='print -r --'
+  as_echo_n='print -rn --'
+elif (test "X`printf %s $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='printf %s\n'
+  as_echo_n='printf %s'
+else
+  if test "X`(/usr/ucb/echo -n -n $as_echo) 2>/dev/null`" = "X-n $as_echo"; then
+    as_echo_body='eval /usr/ucb/echo -n "$1$as_nl"'
+    as_echo_n='/usr/ucb/echo -n'
+  else
+    as_echo_body='eval expr "X$1" : "X\\(.*\\)"'
+    as_echo_n_body='eval
+      arg=$1;
+      case $arg in #(
+      *"$as_nl"*)
+	expr "X$arg" : "X\\(.*\\)$as_nl";
+	arg=`expr "X$arg" : ".*$as_nl\\(.*\\)"`;;
+      esac;
+      expr "X$arg" : "X\\(.*\\)" | tr -d "$as_nl"
+    '
+    export as_echo_n_body
+    as_echo_n='sh -c $as_echo_n_body as_echo'
+  fi
+  export as_echo_body
+  as_echo='sh -c $as_echo_body as_echo'
+fi
+
+# The user is always right.
+if test "${PATH_SEPARATOR+set}" != set; then
+  PATH_SEPARATOR=:
+  (PATH='/bin;/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 && {
+    (PATH='/bin:/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 ||
+      PATH_SEPARATOR=';'
+  }
+fi
+
+
+# IFS
+# We need space, tab and new line, in precisely that order.  Quoting is
+# there to prevent editors from complaining about space-tab.
+# (If _AS_PATH_WALK were called with IFS unset, it would disable word
+# splitting by setting IFS to empty value.)
+IFS=" ""	$as_nl"
+
+# Find who we are.  Look in the path if we contain no directory separator.
+as_myself=
+case $0 in #((
+  *[\\/]* ) as_myself=$0 ;;
+  *) as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    test -r "$as_dir/$0" && as_myself=$as_dir/$0 && break
+  done
+IFS=$as_save_IFS
+
+     ;;
+esac
+# We did not find ourselves, most probably we were run as `sh COMMAND'
+# in which case we are not to be found in the path.
+if test "x$as_myself" = x; then
+  as_myself=$0
+fi
+if test ! -f "$as_myself"; then
+  $as_echo "$as_myself: error: cannot find myself; rerun with an absolute file name" >&2
+  exit 1
+fi
+
+# Unset variables that we do not need and which cause bugs (e.g. in
+# pre-3.0 UWIN ksh).  But do not cause bugs in bash 2.01; the "|| exit 1"
+# suppresses any "Segmentation fault" message there.  '((' could
+# trigger a bug in pdksh 5.2.14.
+for as_var in BASH_ENV ENV MAIL MAILPATH
+do eval test x\${$as_var+set} = xset \
+  && ( (unset $as_var) || exit 1) >/dev/null 2>&1 && unset $as_var || :
+done
+PS1='$ '
+PS2='> '
+PS4='+ '
+
+# NLS nuisances.
+LC_ALL=C
+export LC_ALL
+LANGUAGE=C
+export LANGUAGE
+
+# CDPATH.
+(unset CDPATH) >/dev/null 2>&1 && unset CDPATH
+
+if test "x$CONFIG_SHELL" = x; then
+  as_bourne_compatible="if test -n \"\${ZSH_VERSION+set}\" && (emulate sh) >/dev/null 2>&1; then :
+  emulate sh
+  NULLCMD=:
+  # Pre-4.2 versions of Zsh do word splitting on \${1+\"\$@\"}, which
+  # is contrary to our usage.  Disable this feature.
+  alias -g '\${1+\"\$@\"}'='\"\$@\"'
+  setopt NO_GLOB_SUBST
+else
+  case \`(set -o) 2>/dev/null\` in #(
+  *posix*) :
+    set -o posix ;; #(
+  *) :
+     ;;
+esac
+fi
+"
+  as_required="as_fn_return () { (exit \$1); }
+as_fn_success () { as_fn_return 0; }
+as_fn_failure () { as_fn_return 1; }
+as_fn_ret_success () { return 0; }
+as_fn_ret_failure () { return 1; }
+
+exitcode=0
+as_fn_success || { exitcode=1; echo as_fn_success failed.; }
+as_fn_failure && { exitcode=1; echo as_fn_failure succeeded.; }
+as_fn_ret_success || { exitcode=1; echo as_fn_ret_success failed.; }
+as_fn_ret_failure && { exitcode=1; echo as_fn_ret_failure succeeded.; }
+if ( set x; as_fn_ret_success y && test x = \"\$1\" ); then :
+
+else
+  exitcode=1; echo positional parameters were not saved.
+fi
+test x\$exitcode = x0 || exit 1"
+  as_suggested="  as_lineno_1=";as_suggested=$as_suggested$LINENO;as_suggested=$as_suggested" as_lineno_1a=\$LINENO
+  as_lineno_2=";as_suggested=$as_suggested$LINENO;as_suggested=$as_suggested" as_lineno_2a=\$LINENO
+  eval 'test \"x\$as_lineno_1'\$as_run'\" != \"x\$as_lineno_2'\$as_run'\" &&
+  test \"x\`expr \$as_lineno_1'\$as_run' + 1\`\" = \"x\$as_lineno_2'\$as_run'\"' || exit 1
+test \$(( 1 + 1 )) = 2 || exit 1"
+  if (eval "$as_required") 2>/dev/null; then :
+  as_have_required=yes
+else
+  as_have_required=no
+fi
+  if test x$as_have_required = xyes && (eval "$as_suggested") 2>/dev/null; then :
+
+else
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+as_found=false
+for as_dir in /bin$PATH_SEPARATOR/usr/bin$PATH_SEPARATOR$PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+  as_found=:
+  case $as_dir in #(
+	 /*)
+	   for as_base in sh bash ksh sh5; do
+	     # Try only shells that exist, to save several forks.
+	     as_shell=$as_dir/$as_base
+	     if { test -f "$as_shell" || test -f "$as_shell.exe"; } &&
+		    { $as_echo "$as_bourne_compatible""$as_required" | as_run=a "$as_shell"; } 2>/dev/null; then :
+  CONFIG_SHELL=$as_shell as_have_required=yes
+		   if { $as_echo "$as_bourne_compatible""$as_suggested" | as_run=a "$as_shell"; } 2>/dev/null; then :
+  break 2
+fi
+fi
+	   done;;
+       esac
+  as_found=false
+done
+$as_found || { if { test -f "$SHELL" || test -f "$SHELL.exe"; } &&
+	      { $as_echo "$as_bourne_compatible""$as_required" | as_run=a "$SHELL"; } 2>/dev/null; then :
+  CONFIG_SHELL=$SHELL as_have_required=yes
+fi; }
+IFS=$as_save_IFS
+
+
+      if test "x$CONFIG_SHELL" != x; then :
+  # We cannot yet assume a decent shell, so we have to provide a
+	# neutralization value for shells without unset; and this also
+	# works around shells that cannot unset nonexistent variables.
+	# Preserve -v and -x to the replacement shell.
+	BASH_ENV=/dev/null
+	ENV=/dev/null
+	(unset BASH_ENV) >/dev/null 2>&1 && unset BASH_ENV ENV
+	export CONFIG_SHELL
+	case $- in # ((((
+	  *v*x* | *x*v* ) as_opts=-vx ;;
+	  *v* ) as_opts=-v ;;
+	  *x* ) as_opts=-x ;;
+	  * ) as_opts= ;;
+	esac
+	exec "$CONFIG_SHELL" $as_opts "$as_myself" ${1+"$@"}
+fi
+
+    if test x$as_have_required = xno; then :
+  $as_echo "$0: This script requires a shell more modern than all"
+  $as_echo "$0: the shells that I found on your system."
+  if test x${ZSH_VERSION+set} = xset ; then
+    $as_echo "$0: In particular, zsh $ZSH_VERSION has bugs and should"
+    $as_echo "$0: be upgraded to zsh 4.3.4 or later."
+  else
+    $as_echo "$0: Please tell bug-autoconf@gnu.org and
+$0: eddys@janelia.hhmi.org about your system, including any
+$0: error possibly output before this message. Then install
+$0: a modern shell, or manually run the script under such a
+$0: shell if you do have one."
+  fi
+  exit 1
+fi
+fi
+fi
+SHELL=${CONFIG_SHELL-/bin/sh}
+export SHELL
+# Unset more variables known to interfere with behavior of common tools.
+CLICOLOR_FORCE= GREP_OPTIONS=
+unset CLICOLOR_FORCE GREP_OPTIONS
+
+## --------------------- ##
+## M4sh Shell Functions. ##
+## --------------------- ##
+# as_fn_unset VAR
+# ---------------
+# Portably unset VAR.
+as_fn_unset ()
+{
+  { eval $1=; unset $1;}
+}
+as_unset=as_fn_unset
+
+# as_fn_set_status STATUS
+# -----------------------
+# Set $? to STATUS, without forking.
+as_fn_set_status ()
+{
+  return $1
+} # as_fn_set_status
+
+# as_fn_exit STATUS
+# -----------------
+# Exit the shell with STATUS, even in a "trap 0" or "set -e" context.
+as_fn_exit ()
+{
+  set +e
+  as_fn_set_status $1
+  exit $1
+} # as_fn_exit
+
+# as_fn_mkdir_p
+# -------------
+# Create "$as_dir" as a directory, including parents if necessary.
+as_fn_mkdir_p ()
+{
+
+  case $as_dir in #(
+  -*) as_dir=./$as_dir;;
+  esac
+  test -d "$as_dir" || eval $as_mkdir_p || {
+    as_dirs=
+    while :; do
+      case $as_dir in #(
+      *\'*) as_qdir=`$as_echo "$as_dir" | sed "s/'/'\\\\\\\\''/g"`;; #'(
+      *) as_qdir=$as_dir;;
+      esac
+      as_dirs="'$as_qdir' $as_dirs"
+      as_dir=`$as_dirname -- "$as_dir" ||
+$as_expr X"$as_dir" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$as_dir" : 'X\(//\)[^/]' \| \
+	 X"$as_dir" : 'X\(//\)$' \| \
+	 X"$as_dir" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$as_dir" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+      test -d "$as_dir" && break
+    done
+    test -z "$as_dirs" || eval "mkdir $as_dirs"
+  } || test -d "$as_dir" || as_fn_error $? "cannot create directory $as_dir"
+
+
+} # as_fn_mkdir_p
+# as_fn_append VAR VALUE
+# ----------------------
+# Append the text in VALUE to the end of the definition contained in VAR. Take
+# advantage of any shell optimizations that allow amortized linear growth over
+# repeated appends, instead of the typical quadratic growth present in naive
+# implementations.
+if (eval "as_var=1; as_var+=2; test x\$as_var = x12") 2>/dev/null; then :
+  eval 'as_fn_append ()
+  {
+    eval $1+=\$2
+  }'
+else
+  as_fn_append ()
+  {
+    eval $1=\$$1\$2
+  }
+fi # as_fn_append
+
+# as_fn_arith ARG...
+# ------------------
+# Perform arithmetic evaluation on the ARGs, and store the result in the
+# global $as_val. Take advantage of shells that can avoid forks. The arguments
+# must be portable across $(()) and expr.
+if (eval "test \$(( 1 + 1 )) = 2") 2>/dev/null; then :
+  eval 'as_fn_arith ()
+  {
+    as_val=$(( $* ))
+  }'
+else
+  as_fn_arith ()
+  {
+    as_val=`expr "$@" || test $? -eq 1`
+  }
+fi # as_fn_arith
+
+
+# as_fn_error STATUS ERROR [LINENO LOG_FD]
+# ----------------------------------------
+# Output "`basename $0`: error: ERROR" to stderr. If LINENO and LOG_FD are
+# provided, also output the error to LOG_FD, referencing LINENO. Then exit the
+# script with STATUS, using 1 if that was 0.
+as_fn_error ()
+{
+  as_status=$1; test $as_status -eq 0 && as_status=1
+  if test "$4"; then
+    as_lineno=${as_lineno-"$3"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+    $as_echo "$as_me:${as_lineno-$LINENO}: error: $2" >&$4
+  fi
+  $as_echo "$as_me: error: $2" >&2
+  as_fn_exit $as_status
+} # as_fn_error
+
+if expr a : '\(a\)' >/dev/null 2>&1 &&
+   test "X`expr 00001 : '.*\(...\)'`" = X001; then
+  as_expr=expr
+else
+  as_expr=false
+fi
+
+if (basename -- /) >/dev/null 2>&1 && test "X`basename -- / 2>&1`" = "X/"; then
+  as_basename=basename
+else
+  as_basename=false
+fi
+
+if (as_dir=`dirname -- /` && test "X$as_dir" = X/) >/dev/null 2>&1; then
+  as_dirname=dirname
+else
+  as_dirname=false
+fi
+
+as_me=`$as_basename -- "$0" ||
+$as_expr X/"$0" : '.*/\([^/][^/]*\)/*$' \| \
+	 X"$0" : 'X\(//\)$' \| \
+	 X"$0" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X/"$0" |
+    sed '/^.*\/\([^/][^/]*\)\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+
+# Avoid depending upon Character Ranges.
+as_cr_letters='abcdefghijklmnopqrstuvwxyz'
+as_cr_LETTERS='ABCDEFGHIJKLMNOPQRSTUVWXYZ'
+as_cr_Letters=$as_cr_letters$as_cr_LETTERS
+as_cr_digits='0123456789'
+as_cr_alnum=$as_cr_Letters$as_cr_digits
+
+
+  as_lineno_1=$LINENO as_lineno_1a=$LINENO
+  as_lineno_2=$LINENO as_lineno_2a=$LINENO
+  eval 'test "x$as_lineno_1'$as_run'" != "x$as_lineno_2'$as_run'" &&
+  test "x`expr $as_lineno_1'$as_run' + 1`" = "x$as_lineno_2'$as_run'"' || {
+  # Blame Lee E. McMahon (1931-1989) for sed's syntax.  :-)
+  sed -n '
+    p
+    /[$]LINENO/=
+  ' <$as_myself |
+    sed '
+      s/[$]LINENO.*/&-/
+      t lineno
+      b
+      :lineno
+      N
+      :loop
+      s/[$]LINENO\([^'$as_cr_alnum'_].*\n\)\(.*\)/\2\1\2/
+      t loop
+      s/-\n.*//
+    ' >$as_me.lineno &&
+  chmod +x "$as_me.lineno" ||
+    { $as_echo "$as_me: error: cannot create $as_me.lineno; rerun with a POSIX shell" >&2; as_fn_exit 1; }
+
+  # Don't try to exec as it changes $[0], causing all sort of problems
+  # (the dirname of $[0] is not the place where we might find the
+  # original and so on.  Autoconf is especially sensitive to this).
+  . "./$as_me.lineno"
+  # Exit status is that of the last command.
+  exit
+}
+
+ECHO_C= ECHO_N= ECHO_T=
+case `echo -n x` in #(((((
+-n*)
+  case `echo 'xy\c'` in
+  *c*) ECHO_T='	';;	# ECHO_T is single tab character.
+  xy)  ECHO_C='\c';;
+  *)   echo `echo ksh88 bug on AIX 6.1` > /dev/null
+       ECHO_T='	';;
+  esac;;
+*)
+  ECHO_N='-n';;
+esac
+
+rm -f conf$$ conf$$.exe conf$$.file
+if test -d conf$$.dir; then
+  rm -f conf$$.dir/conf$$.file
+else
+  rm -f conf$$.dir
+  mkdir conf$$.dir 2>/dev/null
+fi
+if (echo >conf$$.file) 2>/dev/null; then
+  if ln -s conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s='ln -s'
+    # ... but there are two gotchas:
+    # 1) On MSYS, both `ln -s file dir' and `ln file dir' fail.
+    # 2) DJGPP < 2.04 has no symlinks; `ln -s' creates a wrapper executable.
+    # In both cases, we have to default to `cp -p'.
+    ln -s conf$$.file conf$$.dir 2>/dev/null && test ! -f conf$$.exe ||
+      as_ln_s='cp -p'
+  elif ln conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s=ln
+  else
+    as_ln_s='cp -p'
+  fi
+else
+  as_ln_s='cp -p'
+fi
+rm -f conf$$ conf$$.exe conf$$.dir/conf$$.file conf$$.file
+rmdir conf$$.dir 2>/dev/null
+
+if mkdir -p . 2>/dev/null; then
+  as_mkdir_p='mkdir -p "$as_dir"'
+else
+  test -d ./-p && rmdir ./-p
+  as_mkdir_p=false
+fi
+
+if test -x / >/dev/null 2>&1; then
+  as_test_x='test -x'
+else
+  if ls -dL / >/dev/null 2>&1; then
+    as_ls_L_option=L
+  else
+    as_ls_L_option=
+  fi
+  as_test_x='
+    eval sh -c '\''
+      if test -d "$1"; then
+	test -d "$1/.";
+      else
+	case $1 in #(
+	-*)set "./$1";;
+	esac;
+	case `ls -ld'$as_ls_L_option' "$1" 2>/dev/null` in #((
+	???[sx]*):;;*)false;;esac;fi
+    '\'' sh
+  '
+fi
+as_executable_p=$as_test_x
+
+# Sed expression to map a string onto a valid CPP name.
+as_tr_cpp="eval sed 'y%*$as_cr_letters%P$as_cr_LETTERS%;s%[^_$as_cr_alnum]%_%g'"
+
+# Sed expression to map a string onto a valid variable name.
+as_tr_sh="eval sed 'y%*+%pp%;s%[^_$as_cr_alnum]%_%g'"
+
+
+test -n "$DJDIR" || exec 7<&0 </dev/null
+exec 6>&1
+
+# Name of the host.
+# hostname on some systems (SVR3.2, old GNU/Linux) returns a bogus exit status,
+# so uname gets run too.
+ac_hostname=`(hostname || uname -n) 2>/dev/null | sed 1q`
+
+#
+# Initializations.
+#
+ac_default_prefix=/usr/local
+ac_clean_files=
+ac_config_libobj_dir=.
+LIBOBJS=
+cross_compiling=no
+subdirs=
+MFLAGS=
+MAKEFLAGS=
+
+# Identity of this package.
+PACKAGE_NAME='HMMER'
+PACKAGE_TARNAME='hmmer'
+PACKAGE_VERSION='3.1b2'
+PACKAGE_STRING='HMMER 3.1b2'
+PACKAGE_BUGREPORT='eddys@janelia.hhmi.org'
+PACKAGE_URL=''
+
+# Factoring default headers for most tests.
+ac_includes_default="\
+#include <stdio.h>
+#ifdef HAVE_SYS_TYPES_H
+# include <sys/types.h>
+#endif
+#ifdef HAVE_SYS_STAT_H
+# include <sys/stat.h>
+#endif
+#ifdef STDC_HEADERS
+# include <stdlib.h>
+# include <stddef.h>
+#else
+# ifdef HAVE_STDLIB_H
+#  include <stdlib.h>
+# endif
+#endif
+#ifdef HAVE_STRING_H
+# if !defined STDC_HEADERS && defined HAVE_MEMORY_H
+#  include <memory.h>
+# endif
+# include <string.h>
+#endif
+#ifdef HAVE_STRINGS_H
+# include <strings.h>
+#endif
+#ifdef HAVE_INTTYPES_H
+# include <inttypes.h>
+#endif
+#ifdef HAVE_STDINT_H
+# include <stdint.h>
+#endif
+#ifdef HAVE_UNISTD_H
+# include <unistd.h>
+#endif"
+
+ac_subst_vars='LTLIBOBJS
+LIBOBJS
+EGREP
+GREP
+LIBGSL
+HAVE_GZIP
+GROUPHMMERLIBS
+SIMD_CFLAGS
+IMPL_CHOICE
+HMMERIMPLLIB
+PIC_FLAGS
+PRTDIAG
+SED
+EXEC_DEPENDENCY
+AR
+RANLIB
+CPP
+MPI_BENCHMARKS
+MPI_UTESTS
+MPILIBS
+MPICC
+INSTALL_DATA
+INSTALL_SCRIPT
+INSTALL_PROGRAM
+PTHREAD_CFLAGS
+PTHREAD_LIBS
+PTHREAD_CC
+acx_pthread_config
+OBJEXT
+EXEEXT
+ac_ct_CC
+CPPFLAGS
+LDFLAGS
+CFLAGS
+CC
+host_os
+host_vendor
+host_cpu
+host
+build_os
+build_vendor
+build_cpu
+build
+EASEL_URL
+EASEL_VERSION
+EASEL_LICENSE
+EASEL_COPYRIGHT
+EASEL_DATE
+HMMER_SADIR
+HMMER_ESLDIR
+HMMER_URL
+HMMER_VERSION
+HMMER_LICENSE
+HMMER_COPYRIGHT
+HMMER_DATE
+target_alias
+host_alias
+build_alias
+LIBS
+ECHO_T
+ECHO_N
+ECHO_C
+DEFS
+mandir
+localedir
+libdir
+psdir
+pdfdir
+dvidir
+htmldir
+infodir
+docdir
+oldincludedir
+includedir
+localstatedir
+sharedstatedir
+sysconfdir
+datadir
+datarootdir
+libexecdir
+sbindir
+bindir
+program_transform_name
+prefix
+exec_prefix
+PACKAGE_URL
+PACKAGE_BUGREPORT
+PACKAGE_STRING
+PACKAGE_VERSION
+PACKAGE_TARNAME
+PACKAGE_NAME
+PATH_SEPARATOR
+SHELL'
+ac_subst_files=''
+ac_user_opts='
+enable_option_checking
+enable_debugging
+enable_gcov
+enable_gprof
+enable_sse
+enable_vmx
+enable_dummy
+enable_mpi
+with_xlc_arch
+enable_threads
+with_gsl
+enable_portable_binary
+with_gcc_arch
+enable_pic
+enable_largefile
+'
+      ac_precious_vars='build_alias
+host_alias
+target_alias
+CC
+CFLAGS
+LDFLAGS
+LIBS
+CPPFLAGS
+MPICC
+CPP
+PIC_FLAGS'
+
+
+# Initialize some variables set by options.
+ac_init_help=
+ac_init_version=false
+ac_unrecognized_opts=
+ac_unrecognized_sep=
+# The variables have the same names as the options, with
+# dashes changed to underlines.
+cache_file=/dev/null
+exec_prefix=NONE
+no_create=
+no_recursion=
+prefix=NONE
+program_prefix=NONE
+program_suffix=NONE
+program_transform_name=s,x,x,
+silent=
+site=
+srcdir=
+verbose=
+x_includes=NONE
+x_libraries=NONE
+
+# Installation directory options.
+# These are left unexpanded so users can "make install exec_prefix=/foo"
+# and all the variables that are supposed to be based on exec_prefix
+# by default will actually change.
+# Use braces instead of parens because sh, perl, etc. also accept them.
+# (The list follows the same order as the GNU Coding Standards.)
+bindir='${exec_prefix}/bin'
+sbindir='${exec_prefix}/sbin'
+libexecdir='${exec_prefix}/libexec'
+datarootdir='${prefix}/share'
+datadir='${datarootdir}'
+sysconfdir='${prefix}/etc'
+sharedstatedir='${prefix}/com'
+localstatedir='${prefix}/var'
+includedir='${prefix}/include'
+oldincludedir='/usr/include'
+docdir='${datarootdir}/doc/${PACKAGE_TARNAME}'
+infodir='${datarootdir}/info'
+htmldir='${docdir}'
+dvidir='${docdir}'
+pdfdir='${docdir}'
+psdir='${docdir}'
+libdir='${exec_prefix}/lib'
+localedir='${datarootdir}/locale'
+mandir='${datarootdir}/man'
+
+ac_prev=
+ac_dashdash=
+for ac_option
+do
+  # If the previous option needs an argument, assign it.
+  if test -n "$ac_prev"; then
+    eval $ac_prev=\$ac_option
+    ac_prev=
+    continue
+  fi
+
+  case $ac_option in
+  *=?*) ac_optarg=`expr "X$ac_option" : '[^=]*=\(.*\)'` ;;
+  *=)   ac_optarg= ;;
+  *)    ac_optarg=yes ;;
+  esac
+
+  # Accept the important Cygnus configure options, so we can diagnose typos.
+
+  case $ac_dashdash$ac_option in
+  --)
+    ac_dashdash=yes ;;
+
+  -bindir | --bindir | --bindi | --bind | --bin | --bi)
+    ac_prev=bindir ;;
+  -bindir=* | --bindir=* | --bindi=* | --bind=* | --bin=* | --bi=*)
+    bindir=$ac_optarg ;;
+
+  -build | --build | --buil | --bui | --bu)
+    ac_prev=build_alias ;;
+  -build=* | --build=* | --buil=* | --bui=* | --bu=*)
+    build_alias=$ac_optarg ;;
+
+  -cache-file | --cache-file | --cache-fil | --cache-fi \
+  | --cache-f | --cache- | --cache | --cach | --cac | --ca | --c)
+    ac_prev=cache_file ;;
+  -cache-file=* | --cache-file=* | --cache-fil=* | --cache-fi=* \
+  | --cache-f=* | --cache-=* | --cache=* | --cach=* | --cac=* | --ca=* | --c=*)
+    cache_file=$ac_optarg ;;
+
+  --config-cache | -C)
+    cache_file=config.cache ;;
+
+  -datadir | --datadir | --datadi | --datad)
+    ac_prev=datadir ;;
+  -datadir=* | --datadir=* | --datadi=* | --datad=*)
+    datadir=$ac_optarg ;;
+
+  -datarootdir | --datarootdir | --datarootdi | --datarootd | --dataroot \
+  | --dataroo | --dataro | --datar)
+    ac_prev=datarootdir ;;
+  -datarootdir=* | --datarootdir=* | --datarootdi=* | --datarootd=* \
+  | --dataroot=* | --dataroo=* | --dataro=* | --datar=*)
+    datarootdir=$ac_optarg ;;
+
+  -disable-* | --disable-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*disable-\(.*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid feature name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"enable_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--disable-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval enable_$ac_useropt=no ;;
+
+  -docdir | --docdir | --docdi | --doc | --do)
+    ac_prev=docdir ;;
+  -docdir=* | --docdir=* | --docdi=* | --doc=* | --do=*)
+    docdir=$ac_optarg ;;
+
+  -dvidir | --dvidir | --dvidi | --dvid | --dvi | --dv)
+    ac_prev=dvidir ;;
+  -dvidir=* | --dvidir=* | --dvidi=* | --dvid=* | --dvi=* | --dv=*)
+    dvidir=$ac_optarg ;;
+
+  -enable-* | --enable-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*enable-\([^=]*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid feature name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"enable_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--enable-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval enable_$ac_useropt=\$ac_optarg ;;
+
+  -exec-prefix | --exec_prefix | --exec-prefix | --exec-prefi \
+  | --exec-pref | --exec-pre | --exec-pr | --exec-p | --exec- \
+  | --exec | --exe | --ex)
+    ac_prev=exec_prefix ;;
+  -exec-prefix=* | --exec_prefix=* | --exec-prefix=* | --exec-prefi=* \
+  | --exec-pref=* | --exec-pre=* | --exec-pr=* | --exec-p=* | --exec-=* \
+  | --exec=* | --exe=* | --ex=*)
+    exec_prefix=$ac_optarg ;;
+
+  -gas | --gas | --ga | --g)
+    # Obsolete; use --with-gas.
+    with_gas=yes ;;
+
+  -help | --help | --hel | --he | -h)
+    ac_init_help=long ;;
+  -help=r* | --help=r* | --hel=r* | --he=r* | -hr*)
+    ac_init_help=recursive ;;
+  -help=s* | --help=s* | --hel=s* | --he=s* | -hs*)
+    ac_init_help=short ;;
+
+  -host | --host | --hos | --ho)
+    ac_prev=host_alias ;;
+  -host=* | --host=* | --hos=* | --ho=*)
+    host_alias=$ac_optarg ;;
+
+  -htmldir | --htmldir | --htmldi | --htmld | --html | --htm | --ht)
+    ac_prev=htmldir ;;
+  -htmldir=* | --htmldir=* | --htmldi=* | --htmld=* | --html=* | --htm=* \
+  | --ht=*)
+    htmldir=$ac_optarg ;;
+
+  -includedir | --includedir | --includedi | --included | --include \
+  | --includ | --inclu | --incl | --inc)
+    ac_prev=includedir ;;
+  -includedir=* | --includedir=* | --includedi=* | --included=* | --include=* \
+  | --includ=* | --inclu=* | --incl=* | --inc=*)
+    includedir=$ac_optarg ;;
+
+  -infodir | --infodir | --infodi | --infod | --info | --inf)
+    ac_prev=infodir ;;
+  -infodir=* | --infodir=* | --infodi=* | --infod=* | --info=* | --inf=*)
+    infodir=$ac_optarg ;;
+
+  -libdir | --libdir | --libdi | --libd)
+    ac_prev=libdir ;;
+  -libdir=* | --libdir=* | --libdi=* | --libd=*)
+    libdir=$ac_optarg ;;
+
+  -libexecdir | --libexecdir | --libexecdi | --libexecd | --libexec \
+  | --libexe | --libex | --libe)
+    ac_prev=libexecdir ;;
+  -libexecdir=* | --libexecdir=* | --libexecdi=* | --libexecd=* | --libexec=* \
+  | --libexe=* | --libex=* | --libe=*)
+    libexecdir=$ac_optarg ;;
+
+  -localedir | --localedir | --localedi | --localed | --locale)
+    ac_prev=localedir ;;
+  -localedir=* | --localedir=* | --localedi=* | --localed=* | --locale=*)
+    localedir=$ac_optarg ;;
+
+  -localstatedir | --localstatedir | --localstatedi | --localstated \
+  | --localstate | --localstat | --localsta | --localst | --locals)
+    ac_prev=localstatedir ;;
+  -localstatedir=* | --localstatedir=* | --localstatedi=* | --localstated=* \
+  | --localstate=* | --localstat=* | --localsta=* | --localst=* | --locals=*)
+    localstatedir=$ac_optarg ;;
+
+  -mandir | --mandir | --mandi | --mand | --man | --ma | --m)
+    ac_prev=mandir ;;
+  -mandir=* | --mandir=* | --mandi=* | --mand=* | --man=* | --ma=* | --m=*)
+    mandir=$ac_optarg ;;
+
+  -nfp | --nfp | --nf)
+    # Obsolete; use --without-fp.
+    with_fp=no ;;
+
+  -no-create | --no-create | --no-creat | --no-crea | --no-cre \
+  | --no-cr | --no-c | -n)
+    no_create=yes ;;
+
+  -no-recursion | --no-recursion | --no-recursio | --no-recursi \
+  | --no-recurs | --no-recur | --no-recu | --no-rec | --no-re | --no-r)
+    no_recursion=yes ;;
+
+  -oldincludedir | --oldincludedir | --oldincludedi | --oldincluded \
+  | --oldinclude | --oldinclud | --oldinclu | --oldincl | --oldinc \
+  | --oldin | --oldi | --old | --ol | --o)
+    ac_prev=oldincludedir ;;
+  -oldincludedir=* | --oldincludedir=* | --oldincludedi=* | --oldincluded=* \
+  | --oldinclude=* | --oldinclud=* | --oldinclu=* | --oldincl=* | --oldinc=* \
+  | --oldin=* | --oldi=* | --old=* | --ol=* | --o=*)
+    oldincludedir=$ac_optarg ;;
+
+  -prefix | --prefix | --prefi | --pref | --pre | --pr | --p)
+    ac_prev=prefix ;;
+  -prefix=* | --prefix=* | --prefi=* | --pref=* | --pre=* | --pr=* | --p=*)
+    prefix=$ac_optarg ;;
+
+  -program-prefix | --program-prefix | --program-prefi | --program-pref \
+  | --program-pre | --program-pr | --program-p)
+    ac_prev=program_prefix ;;
+  -program-prefix=* | --program-prefix=* | --program-prefi=* \
+  | --program-pref=* | --program-pre=* | --program-pr=* | --program-p=*)
+    program_prefix=$ac_optarg ;;
+
+  -program-suffix | --program-suffix | --program-suffi | --program-suff \
+  | --program-suf | --program-su | --program-s)
+    ac_prev=program_suffix ;;
+  -program-suffix=* | --program-suffix=* | --program-suffi=* \
+  | --program-suff=* | --program-suf=* | --program-su=* | --program-s=*)
+    program_suffix=$ac_optarg ;;
+
+  -program-transform-name | --program-transform-name \
+  | --program-transform-nam | --program-transform-na \
+  | --program-transform-n | --program-transform- \
+  | --program-transform | --program-transfor \
+  | --program-transfo | --program-transf \
+  | --program-trans | --program-tran \
+  | --progr-tra | --program-tr | --program-t)
+    ac_prev=program_transform_name ;;
+  -program-transform-name=* | --program-transform-name=* \
+  | --program-transform-nam=* | --program-transform-na=* \
+  | --program-transform-n=* | --program-transform-=* \
+  | --program-transform=* | --program-transfor=* \
+  | --program-transfo=* | --program-transf=* \
+  | --program-trans=* | --program-tran=* \
+  | --progr-tra=* | --program-tr=* | --program-t=*)
+    program_transform_name=$ac_optarg ;;
+
+  -pdfdir | --pdfdir | --pdfdi | --pdfd | --pdf | --pd)
+    ac_prev=pdfdir ;;
+  -pdfdir=* | --pdfdir=* | --pdfdi=* | --pdfd=* | --pdf=* | --pd=*)
+    pdfdir=$ac_optarg ;;
+
+  -psdir | --psdir | --psdi | --psd | --ps)
+    ac_prev=psdir ;;
+  -psdir=* | --psdir=* | --psdi=* | --psd=* | --ps=*)
+    psdir=$ac_optarg ;;
+
+  -q | -quiet | --quiet | --quie | --qui | --qu | --q \
+  | -silent | --silent | --silen | --sile | --sil)
+    silent=yes ;;
+
+  -sbindir | --sbindir | --sbindi | --sbind | --sbin | --sbi | --sb)
+    ac_prev=sbindir ;;
+  -sbindir=* | --sbindir=* | --sbindi=* | --sbind=* | --sbin=* \
+  | --sbi=* | --sb=*)
+    sbindir=$ac_optarg ;;
+
+  -sharedstatedir | --sharedstatedir | --sharedstatedi \
+  | --sharedstated | --sharedstate | --sharedstat | --sharedsta \
+  | --sharedst | --shareds | --shared | --share | --shar \
+  | --sha | --sh)
+    ac_prev=sharedstatedir ;;
+  -sharedstatedir=* | --sharedstatedir=* | --sharedstatedi=* \
+  | --sharedstated=* | --sharedstate=* | --sharedstat=* | --sharedsta=* \
+  | --sharedst=* | --shareds=* | --shared=* | --share=* | --shar=* \
+  | --sha=* | --sh=*)
+    sharedstatedir=$ac_optarg ;;
+
+  -site | --site | --sit)
+    ac_prev=site ;;
+  -site=* | --site=* | --sit=*)
+    site=$ac_optarg ;;
+
+  -srcdir | --srcdir | --srcdi | --srcd | --src | --sr)
+    ac_prev=srcdir ;;
+  -srcdir=* | --srcdir=* | --srcdi=* | --srcd=* | --src=* | --sr=*)
+    srcdir=$ac_optarg ;;
+
+  -sysconfdir | --sysconfdir | --sysconfdi | --sysconfd | --sysconf \
+  | --syscon | --sysco | --sysc | --sys | --sy)
+    ac_prev=sysconfdir ;;
+  -sysconfdir=* | --sysconfdir=* | --sysconfdi=* | --sysconfd=* | --sysconf=* \
+  | --syscon=* | --sysco=* | --sysc=* | --sys=* | --sy=*)
+    sysconfdir=$ac_optarg ;;
+
+  -target | --target | --targe | --targ | --tar | --ta | --t)
+    ac_prev=target_alias ;;
+  -target=* | --target=* | --targe=* | --targ=* | --tar=* | --ta=* | --t=*)
+    target_alias=$ac_optarg ;;
+
+  -v | -verbose | --verbose | --verbos | --verbo | --verb)
+    verbose=yes ;;
+
+  -version | --version | --versio | --versi | --vers | -V)
+    ac_init_version=: ;;
+
+  -with-* | --with-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*with-\([^=]*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid package name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"with_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--with-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval with_$ac_useropt=\$ac_optarg ;;
+
+  -without-* | --without-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*without-\(.*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid package name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"with_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--without-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval with_$ac_useropt=no ;;
+
+  --x)
+    # Obsolete; use --with-x.
+    with_x=yes ;;
+
+  -x-includes | --x-includes | --x-include | --x-includ | --x-inclu \
+  | --x-incl | --x-inc | --x-in | --x-i)
+    ac_prev=x_includes ;;
+  -x-includes=* | --x-includes=* | --x-include=* | --x-includ=* | --x-inclu=* \
+  | --x-incl=* | --x-inc=* | --x-in=* | --x-i=*)
+    x_includes=$ac_optarg ;;
+
+  -x-libraries | --x-libraries | --x-librarie | --x-librari \
+  | --x-librar | --x-libra | --x-libr | --x-lib | --x-li | --x-l)
+    ac_prev=x_libraries ;;
+  -x-libraries=* | --x-libraries=* | --x-librarie=* | --x-librari=* \
+  | --x-librar=* | --x-libra=* | --x-libr=* | --x-lib=* | --x-li=* | --x-l=*)
+    x_libraries=$ac_optarg ;;
+
+  -*) as_fn_error $? "unrecognized option: \`$ac_option'
+Try \`$0 --help' for more information"
+    ;;
+
+  *=*)
+    ac_envvar=`expr "x$ac_option" : 'x\([^=]*\)='`
+    # Reject names that are not valid shell variable names.
+    case $ac_envvar in #(
+      '' | [0-9]* | *[!_$as_cr_alnum]* )
+      as_fn_error $? "invalid variable name: \`$ac_envvar'" ;;
+    esac
+    eval $ac_envvar=\$ac_optarg
+    export $ac_envvar ;;
+
+  *)
+    # FIXME: should be removed in autoconf 3.0.
+    $as_echo "$as_me: WARNING: you should use --build, --host, --target" >&2
+    expr "x$ac_option" : ".*[^-._$as_cr_alnum]" >/dev/null &&
+      $as_echo "$as_me: WARNING: invalid host type: $ac_option" >&2
+    : "${build_alias=$ac_option} ${host_alias=$ac_option} ${target_alias=$ac_option}"
+    ;;
+
+  esac
+done
+
+if test -n "$ac_prev"; then
+  ac_option=--`echo $ac_prev | sed 's/_/-/g'`
+  as_fn_error $? "missing argument to $ac_option"
+fi
+
+if test -n "$ac_unrecognized_opts"; then
+  case $enable_option_checking in
+    no) ;;
+    fatal) as_fn_error $? "unrecognized options: $ac_unrecognized_opts" ;;
+    *)     $as_echo "$as_me: WARNING: unrecognized options: $ac_unrecognized_opts" >&2 ;;
+  esac
+fi
+
+# Check all directory arguments for consistency.
+for ac_var in	exec_prefix prefix bindir sbindir libexecdir datarootdir \
+		datadir sysconfdir sharedstatedir localstatedir includedir \
+		oldincludedir docdir infodir htmldir dvidir pdfdir psdir \
+		libdir localedir mandir
+do
+  eval ac_val=\$$ac_var
+  # Remove trailing slashes.
+  case $ac_val in
+    */ )
+      ac_val=`expr "X$ac_val" : 'X\(.*[^/]\)' \| "X$ac_val" : 'X\(.*\)'`
+      eval $ac_var=\$ac_val;;
+  esac
+  # Be sure to have absolute directory names.
+  case $ac_val in
+    [\\/$]* | ?:[\\/]* )  continue;;
+    NONE | '' ) case $ac_var in *prefix ) continue;; esac;;
+  esac
+  as_fn_error $? "expected an absolute directory name for --$ac_var: $ac_val"
+done
+
+# There might be people who depend on the old broken behavior: `$host'
+# used to hold the argument of --host etc.
+# FIXME: To remove some day.
+build=$build_alias
+host=$host_alias
+target=$target_alias
+
+# FIXME: To remove some day.
+if test "x$host_alias" != x; then
+  if test "x$build_alias" = x; then
+    cross_compiling=maybe
+    $as_echo "$as_me: WARNING: if you wanted to set the --build type, don't use --host.
+    If a cross compiler is detected then cross compile mode will be used" >&2
+  elif test "x$build_alias" != "x$host_alias"; then
+    cross_compiling=yes
+  fi
+fi
+
+ac_tool_prefix=
+test -n "$host_alias" && ac_tool_prefix=$host_alias-
+
+test "$silent" = yes && exec 6>/dev/null
+
+
+ac_pwd=`pwd` && test -n "$ac_pwd" &&
+ac_ls_di=`ls -di .` &&
+ac_pwd_ls_di=`cd "$ac_pwd" && ls -di .` ||
+  as_fn_error $? "working directory cannot be determined"
+test "X$ac_ls_di" = "X$ac_pwd_ls_di" ||
+  as_fn_error $? "pwd does not report name of working directory"
+
+
+# Find the source files, if location was not specified.
+if test -z "$srcdir"; then
+  ac_srcdir_defaulted=yes
+  # Try the directory containing this script, then the parent directory.
+  ac_confdir=`$as_dirname -- "$as_myself" ||
+$as_expr X"$as_myself" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$as_myself" : 'X\(//\)[^/]' \| \
+	 X"$as_myself" : 'X\(//\)$' \| \
+	 X"$as_myself" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$as_myself" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+  srcdir=$ac_confdir
+  if test ! -r "$srcdir/$ac_unique_file"; then
+    srcdir=..
+  fi
+else
+  ac_srcdir_defaulted=no
+fi
+if test ! -r "$srcdir/$ac_unique_file"; then
+  test "$ac_srcdir_defaulted" = yes && srcdir="$ac_confdir or .."
+  as_fn_error $? "cannot find sources ($ac_unique_file) in $srcdir"
+fi
+ac_msg="sources are in $srcdir, but \`cd $srcdir' does not work"
+ac_abs_confdir=`(
+	cd "$srcdir" && test -r "./$ac_unique_file" || as_fn_error $? "$ac_msg"
+	pwd)`
+# When building in place, set srcdir=.
+if test "$ac_abs_confdir" = "$ac_pwd"; then
+  srcdir=.
+fi
+# Remove unnecessary trailing slashes from srcdir.
+# Double slashes in file names in object file debugging info
+# mess up M-x gdb in Emacs.
+case $srcdir in
+*/) srcdir=`expr "X$srcdir" : 'X\(.*[^/]\)' \| "X$srcdir" : 'X\(.*\)'`;;
+esac
+for ac_var in $ac_precious_vars; do
+  eval ac_env_${ac_var}_set=\${${ac_var}+set}
+  eval ac_env_${ac_var}_value=\$${ac_var}
+  eval ac_cv_env_${ac_var}_set=\${${ac_var}+set}
+  eval ac_cv_env_${ac_var}_value=\$${ac_var}
+done
+
+#
+# Report the --help message.
+#
+if test "$ac_init_help" = "long"; then
+  # Omit some internal or obsolete options to make the list less imposing.
+  # This message is too long to be a string in the A/UX 3.1 sh.
+  cat <<_ACEOF
+\`configure' configures HMMER 3.1b2 to adapt to many kinds of systems.
+
+Usage: $0 [OPTION]... [VAR=VALUE]...
+
+To assign environment variables (e.g., CC, CFLAGS...), specify them as
+VAR=VALUE.  See below for descriptions of some of the useful variables.
+
+Defaults for the options are specified in brackets.
+
+Configuration:
+  -h, --help              display this help and exit
+      --help=short        display options specific to this package
+      --help=recursive    display the short help of all the included packages
+  -V, --version           display version information and exit
+  -q, --quiet, --silent   do not print \`checking ...' messages
+      --cache-file=FILE   cache test results in FILE [disabled]
+  -C, --config-cache      alias for \`--cache-file=config.cache'
+  -n, --no-create         do not create output files
+      --srcdir=DIR        find the sources in DIR [configure dir or \`..']
+
+Installation directories:
+  --prefix=PREFIX         install architecture-independent files in PREFIX
+                          [$ac_default_prefix]
+  --exec-prefix=EPREFIX   install architecture-dependent files in EPREFIX
+                          [PREFIX]
+
+By default, \`make install' will install all the files in
+\`$ac_default_prefix/bin', \`$ac_default_prefix/lib' etc.  You can specify
+an installation prefix other than \`$ac_default_prefix' using \`--prefix',
+for instance \`--prefix=\$HOME'.
+
+For better control, use the options below.
+
+Fine tuning of the installation directories:
+  --bindir=DIR            user executables [EPREFIX/bin]
+  --sbindir=DIR           system admin executables [EPREFIX/sbin]
+  --libexecdir=DIR        program executables [EPREFIX/libexec]
+  --sysconfdir=DIR        read-only single-machine data [PREFIX/etc]
+  --sharedstatedir=DIR    modifiable architecture-independent data [PREFIX/com]
+  --localstatedir=DIR     modifiable single-machine data [PREFIX/var]
+  --libdir=DIR            object code libraries [EPREFIX/lib]
+  --includedir=DIR        C header files [PREFIX/include]
+  --oldincludedir=DIR     C header files for non-gcc [/usr/include]
+  --datarootdir=DIR       read-only arch.-independent data root [PREFIX/share]
+  --datadir=DIR           read-only architecture-independent data [DATAROOTDIR]
+  --infodir=DIR           info documentation [DATAROOTDIR/info]
+  --localedir=DIR         locale-dependent data [DATAROOTDIR/locale]
+  --mandir=DIR            man documentation [DATAROOTDIR/man]
+  --docdir=DIR            documentation root [DATAROOTDIR/doc/hmmer]
+  --htmldir=DIR           html documentation [DOCDIR]
+  --dvidir=DIR            dvi documentation [DOCDIR]
+  --pdfdir=DIR            pdf documentation [DOCDIR]
+  --psdir=DIR             ps documentation [DOCDIR]
+_ACEOF
+
+  cat <<\_ACEOF
+
+System types:
+  --build=BUILD     configure for building on BUILD [guessed]
+  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
+_ACEOF
+fi
+
+if test -n "$ac_init_help"; then
+  case $ac_init_help in
+     short | recursive ) echo "Configuration of HMMER 3.1b2:";;
+   esac
+  cat <<\_ACEOF
+
+Optional Features:
+  --disable-option-checking  ignore unrecognized --enable/--with options
+  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
+  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
+  --enable-debugging      include debugging code
+  --enable-debugging=x    also set diagnostics verbosity level to <x> (1-3)
+  --enable-gcov           compile for code coverage testing
+  --enable-gprof          compile for gcc code profiing
+  --enable-sse            enable SSE implementation
+  --enable-vmx            enable Altivec/VMX implementation
+  --enable-dummy          enable portable implementation
+  --enable-mpi            enable MPI parallelization
+  --enable-threads        enable POSIX multithreading support (default is
+                          check)
+  --enable-portable-binary
+                          disable compiler optimizations that would produce
+                          unportable binaries
+  --disable-pic           compile PIC objects [default=enabled for shared
+                          builds on supported platforms]
+  --disable-largefile     omit support for large files
+
+Optional Packages:
+  --with-PACKAGE[=ARG]    use PACKAGE [ARG=yes]
+  --without-PACKAGE       do not use PACKAGE (same as --with-PACKAGE=no)
+  --with-xlc-arch=<arch>  specify architecture <arch> for xlc -qarch
+  --with-gsl              use the GSL, GNU Scientific Library (default is no)
+  --with-gcc-arch=<arch>  use architecture <arch> for gcc -march/-mtune,
+                          instead of guessing
+
+Some influential environment variables:
+  CC          C compiler command
+  CFLAGS      C compiler flags
+  LDFLAGS     linker flags, e.g. -L<lib dir> if you have libraries in a
+              nonstandard directory <lib dir>
+  LIBS        libraries to pass to the linker, e.g. -l<library>
+  CPPFLAGS    (Objective) C/C++ preprocessor flags, e.g. -I<include dir> if
+              you have headers in a nonstandard directory <include dir>
+  MPICC       MPI C compiler command
+  CPP         C preprocessor
+  PIC_FLAGS   compiler flags for PIC code
+
+Use these variables to override the choices made by `configure' or to help
+it to find libraries and programs with nonstandard names/locations.
+
+Report bugs to <eddys@janelia.hhmi.org>.
+_ACEOF
+ac_status=$?
+fi
+
+if test "$ac_init_help" = "recursive"; then
+  # If there are subdirs, report their specific --help.
+  for ac_dir in : $ac_subdirs_all; do test "x$ac_dir" = x: && continue
+    test -d "$ac_dir" ||
+      { cd "$srcdir" && ac_pwd=`pwd` && srcdir=. && test -d "$ac_dir"; } ||
+      continue
+    ac_builddir=.
+
+case "$ac_dir" in
+.) ac_dir_suffix= ac_top_builddir_sub=. ac_top_build_prefix= ;;
+*)
+  ac_dir_suffix=/`$as_echo "$ac_dir" | sed 's|^\.[\\/]||'`
+  # A ".." for each directory in $ac_dir_suffix.
+  ac_top_builddir_sub=`$as_echo "$ac_dir_suffix" | sed 's|/[^\\/]*|/..|g;s|/||'`
+  case $ac_top_builddir_sub in
+  "") ac_top_builddir_sub=. ac_top_build_prefix= ;;
+  *)  ac_top_build_prefix=$ac_top_builddir_sub/ ;;
+  esac ;;
+esac
+ac_abs_top_builddir=$ac_pwd
+ac_abs_builddir=$ac_pwd$ac_dir_suffix
+# for backward compatibility:
+ac_top_builddir=$ac_top_build_prefix
+
+case $srcdir in
+  .)  # We are building in place.
+    ac_srcdir=.
+    ac_top_srcdir=$ac_top_builddir_sub
+    ac_abs_top_srcdir=$ac_pwd ;;
+  [\\/]* | ?:[\\/]* )  # Absolute name.
+    ac_srcdir=$srcdir$ac_dir_suffix;
+    ac_top_srcdir=$srcdir
+    ac_abs_top_srcdir=$srcdir ;;
+  *) # Relative name.
+    ac_srcdir=$ac_top_build_prefix$srcdir$ac_dir_suffix
+    ac_top_srcdir=$ac_top_build_prefix$srcdir
+    ac_abs_top_srcdir=$ac_pwd/$srcdir ;;
+esac
+ac_abs_srcdir=$ac_abs_top_srcdir$ac_dir_suffix
+
+    cd "$ac_dir" || { ac_status=$?; continue; }
+    # Check for guested configure.
+    if test -f "$ac_srcdir/configure.gnu"; then
+      echo &&
+      $SHELL "$ac_srcdir/configure.gnu" --help=recursive
+    elif test -f "$ac_srcdir/configure"; then
+      echo &&
+      $SHELL "$ac_srcdir/configure" --help=recursive
+    else
+      $as_echo "$as_me: WARNING: no configuration information is in $ac_dir" >&2
+    fi || ac_status=$?
+    cd "$ac_pwd" || { ac_status=$?; break; }
+  done
+fi
+
+test -n "$ac_init_help" && exit $ac_status
+if $ac_init_version; then
+  cat <<\_ACEOF
+HMMER configure 3.1b2
+generated by GNU Autoconf 2.68
+
+Copyright (C) 2010 Free Software Foundation, Inc.
+This configure script is free software; the Free Software Foundation
+gives unlimited permission to copy, distribute and modify it.
+_ACEOF
+  exit
+fi
+
+## ------------------------ ##
+## Autoconf initialization. ##
+## ------------------------ ##
+
+# ac_fn_c_try_compile LINENO
+# --------------------------
+# Try to compile conftest.$ac_ext, and return whether this succeeded.
+ac_fn_c_try_compile ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  rm -f conftest.$ac_objext
+  if { { ac_try="$ac_compile"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compile") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    grep -v '^ *+' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+    mv -f conftest.er1 conftest.err
+  fi
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } && {
+	 test -z "$ac_c_werror_flag" ||
+	 test ! -s conftest.err
+       } && test -s conftest.$ac_objext; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+	ac_retval=1
+fi
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_compile
+
+# ac_fn_c_try_link LINENO
+# -----------------------
+# Try to link conftest.$ac_ext, and return whether this succeeded.
+ac_fn_c_try_link ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  rm -f conftest.$ac_objext conftest$ac_exeext
+  if { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    grep -v '^ *+' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+    mv -f conftest.er1 conftest.err
+  fi
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } && {
+	 test -z "$ac_c_werror_flag" ||
+	 test ! -s conftest.err
+       } && test -s conftest$ac_exeext && {
+	 test "$cross_compiling" = yes ||
+	 $as_test_x conftest$ac_exeext
+       }; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+	ac_retval=1
+fi
+  # Delete the IPA/IPO (Inter Procedural Analysis/Optimization) information
+  # created by the PGI compiler (conftest_ipa8_conftest.oo), as it would
+  # interfere with the next link command; also delete a directory that is
+  # left behind by Apple's compiler.  We do this before executing the actions.
+  rm -rf conftest.dSYM conftest_ipa8_conftest.oo
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_link
+
+# ac_fn_c_check_func LINENO FUNC VAR
+# ----------------------------------
+# Tests whether FUNC exists, setting the cache variable VAR accordingly
+ac_fn_c_check_func ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+/* Define $2 to an innocuous variant, in case <limits.h> declares $2.
+   For example, HP-UX 11i <limits.h> declares gettimeofday.  */
+#define $2 innocuous_$2
+
+/* System header to define __stub macros and hopefully few prototypes,
+    which can conflict with char $2 (); below.
+    Prefer <limits.h> to <assert.h> if __STDC__ is defined, since
+    <limits.h> exists even on freestanding compilers.  */
+
+#ifdef __STDC__
+# include <limits.h>
+#else
+# include <assert.h>
+#endif
+
+#undef $2
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char $2 ();
+/* The GNU C library defines this for functions which it implements
+    to always fail with ENOSYS.  Some functions are actually named
+    something starting with __ and the normal name is an alias.  */
+#if defined __stub_$2 || defined __stub___$2
+choke me
+#endif
+
+int
+main ()
+{
+return $2 ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  eval "$3=yes"
+else
+  eval "$3=no"
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_func
+
+# ac_fn_c_try_cpp LINENO
+# ----------------------
+# Try to preprocess conftest.$ac_ext, and return whether this succeeded.
+ac_fn_c_try_cpp ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  if { { ac_try="$ac_cpp conftest.$ac_ext"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_cpp conftest.$ac_ext") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    grep -v '^ *+' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+    mv -f conftest.er1 conftest.err
+  fi
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } > conftest.i && {
+	 test -z "$ac_c_preproc_warn_flag$ac_c_werror_flag" ||
+	 test ! -s conftest.err
+       }; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+    ac_retval=1
+fi
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_cpp
+
+# ac_fn_c_try_run LINENO
+# ----------------------
+# Try to link conftest.$ac_ext, and return whether this succeeded. Assumes
+# that executables *can* be run.
+ac_fn_c_try_run ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  if { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } && { ac_try='./conftest$ac_exeext'
+  { { case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_try") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; }; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: program exited with status $ac_status" >&5
+       $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+       ac_retval=$ac_status
+fi
+  rm -rf conftest.dSYM conftest_ipa8_conftest.oo
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_run
+
+# ac_fn_c_check_header_mongrel LINENO HEADER VAR INCLUDES
+# -------------------------------------------------------
+# Tests whether HEADER exists, giving a warning if it cannot be compiled using
+# the include files in INCLUDES and setting the cache variable VAR
+# accordingly.
+ac_fn_c_check_header_mongrel ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  if eval \${$3+:} false; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+else
+  # Is the header compilable?
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking $2 usability" >&5
+$as_echo_n "checking $2 usability... " >&6; }
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+#include <$2>
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_header_compiler=yes
+else
+  ac_header_compiler=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_header_compiler" >&5
+$as_echo "$ac_header_compiler" >&6; }
+
+# Is the header present?
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking $2 presence" >&5
+$as_echo_n "checking $2 presence... " >&6; }
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <$2>
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+  ac_header_preproc=yes
+else
+  ac_header_preproc=no
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_header_preproc" >&5
+$as_echo "$ac_header_preproc" >&6; }
+
+# So?  What about this header?
+case $ac_header_compiler:$ac_header_preproc:$ac_c_preproc_warn_flag in #((
+  yes:no: )
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: accepted by the compiler, rejected by the preprocessor!" >&5
+$as_echo "$as_me: WARNING: $2: accepted by the compiler, rejected by the preprocessor!" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: proceeding with the compiler's result" >&5
+$as_echo "$as_me: WARNING: $2: proceeding with the compiler's result" >&2;}
+    ;;
+  no:yes:* )
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: present but cannot be compiled" >&5
+$as_echo "$as_me: WARNING: $2: present but cannot be compiled" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2:     check for missing prerequisite headers?" >&5
+$as_echo "$as_me: WARNING: $2:     check for missing prerequisite headers?" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: see the Autoconf documentation" >&5
+$as_echo "$as_me: WARNING: $2: see the Autoconf documentation" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2:     section \"Present But Cannot Be Compiled\"" >&5
+$as_echo "$as_me: WARNING: $2:     section \"Present But Cannot Be Compiled\"" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: proceeding with the compiler's result" >&5
+$as_echo "$as_me: WARNING: $2: proceeding with the compiler's result" >&2;}
+( $as_echo "## ------------------------------------- ##
+## Report this to eddys@janelia.hhmi.org ##
+## ------------------------------------- ##"
+     ) | sed "s/^/$as_me: WARNING:     /" >&2
+    ;;
+esac
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=\$ac_header_compiler"
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+fi
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_header_mongrel
+
+# ac_fn_c_check_header_compile LINENO HEADER VAR INCLUDES
+# -------------------------------------------------------
+# Tests whether HEADER exists and can be compiled using the include files in
+# INCLUDES, setting the cache variable VAR accordingly.
+ac_fn_c_check_header_compile ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+#include <$2>
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval "$3=yes"
+else
+  eval "$3=no"
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_header_compile
+
+# ac_fn_c_find_uintX_t LINENO BITS VAR
+# ------------------------------------
+# Finds an unsigned integer type with width BITS, setting cache variable VAR
+# accordingly.
+ac_fn_c_find_uintX_t ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for uint$2_t" >&5
+$as_echo_n "checking for uint$2_t... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=no"
+     # Order is important - never check a type that is potentially smaller
+     # than half of the expected target width.
+     for ac_type in uint$2_t 'unsigned int' 'unsigned long int' \
+	 'unsigned long long int' 'unsigned short int' 'unsigned char'; do
+       cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$ac_includes_default
+int
+main ()
+{
+static int test_array [1 - 2 * !((($ac_type) -1 >> ($2 / 2 - 1)) >> ($2 / 2 - 1) == 3)];
+test_array [0] = 0
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  case $ac_type in #(
+  uint$2_t) :
+    eval "$3=yes" ;; #(
+  *) :
+    eval "$3=\$ac_type" ;;
+esac
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+       if eval test \"x\$"$3"\" = x"no"; then :
+
+else
+  break
+fi
+     done
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_find_uintX_t
+
+# ac_fn_c_check_type LINENO TYPE VAR INCLUDES
+# -------------------------------------------
+# Tests whether TYPE exists after having included INCLUDES, setting cache
+# variable VAR accordingly.
+ac_fn_c_check_type ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=no"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+int
+main ()
+{
+if (sizeof ($2))
+	 return 0;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+int
+main ()
+{
+if (sizeof (($2)))
+	    return 0;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  eval "$3=yes"
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_type
+cat >config.log <<_ACEOF
+This file contains any messages produced by compilers while
+running configure, to aid debugging if configure makes a mistake.
+
+It was created by HMMER $as_me 3.1b2, which was
+generated by GNU Autoconf 2.68.  Invocation command line was
+
+  $ $0 $@
+
+_ACEOF
+exec 5>>config.log
+{
+cat <<_ASUNAME
+## --------- ##
+## Platform. ##
+## --------- ##
+
+hostname = `(hostname || uname -n) 2>/dev/null | sed 1q`
+uname -m = `(uname -m) 2>/dev/null || echo unknown`
+uname -r = `(uname -r) 2>/dev/null || echo unknown`
+uname -s = `(uname -s) 2>/dev/null || echo unknown`
+uname -v = `(uname -v) 2>/dev/null || echo unknown`
+
+/usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null || echo unknown`
+/bin/uname -X     = `(/bin/uname -X) 2>/dev/null     || echo unknown`
+
+/bin/arch              = `(/bin/arch) 2>/dev/null              || echo unknown`
+/usr/bin/arch -k       = `(/usr/bin/arch -k) 2>/dev/null       || echo unknown`
+/usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null || echo unknown`
+/usr/bin/hostinfo      = `(/usr/bin/hostinfo) 2>/dev/null      || echo unknown`
+/bin/machine           = `(/bin/machine) 2>/dev/null           || echo unknown`
+/usr/bin/oslevel       = `(/usr/bin/oslevel) 2>/dev/null       || echo unknown`
+/bin/universe          = `(/bin/universe) 2>/dev/null          || echo unknown`
+
+_ASUNAME
+
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    $as_echo "PATH: $as_dir"
+  done
+IFS=$as_save_IFS
+
+} >&5
+
+cat >&5 <<_ACEOF
+
+
+## ----------- ##
+## Core tests. ##
+## ----------- ##
+
+_ACEOF
+
+
+# Keep a trace of the command line.
+# Strip out --no-create and --no-recursion so they do not pile up.
+# Strip out --silent because we don't want to record it for future runs.
+# Also quote any args containing shell meta-characters.
+# Make two passes to allow for proper duplicate-argument suppression.
+ac_configure_args=
+ac_configure_args0=
+ac_configure_args1=
+ac_must_keep_next=false
+for ac_pass in 1 2
+do
+  for ac_arg
+  do
+    case $ac_arg in
+    -no-create | --no-c* | -n | -no-recursion | --no-r*) continue ;;
+    -q | -quiet | --quiet | --quie | --qui | --qu | --q \
+    | -silent | --silent | --silen | --sile | --sil)
+      continue ;;
+    *\'*)
+      ac_arg=`$as_echo "$ac_arg" | sed "s/'/'\\\\\\\\''/g"` ;;
+    esac
+    case $ac_pass in
+    1) as_fn_append ac_configure_args0 " '$ac_arg'" ;;
+    2)
+      as_fn_append ac_configure_args1 " '$ac_arg'"
+      if test $ac_must_keep_next = true; then
+	ac_must_keep_next=false # Got value, back to normal.
+      else
+	case $ac_arg in
+	  *=* | --config-cache | -C | -disable-* | --disable-* \
+	  | -enable-* | --enable-* | -gas | --g* | -nfp | --nf* \
+	  | -q | -quiet | --q* | -silent | --sil* | -v | -verb* \
+	  | -with-* | --with-* | -without-* | --without-* | --x)
+	    case "$ac_configure_args0 " in
+	      "$ac_configure_args1"*" '$ac_arg' "* ) continue ;;
+	    esac
+	    ;;
+	  -* ) ac_must_keep_next=true ;;
+	esac
+      fi
+      as_fn_append ac_configure_args " '$ac_arg'"
+      ;;
+    esac
+  done
+done
+{ ac_configure_args0=; unset ac_configure_args0;}
+{ ac_configure_args1=; unset ac_configure_args1;}
+
+# When interrupted or exit'd, cleanup temporary files, and complete
+# config.log.  We remove comments because anyway the quotes in there
+# would cause problems or look ugly.
+# WARNING: Use '\'' to represent an apostrophe within the trap.
+# WARNING: Do not start the trap code with a newline, due to a FreeBSD 4.0 bug.
+trap 'exit_status=$?
+  # Save into config.log some information that might help in debugging.
+  {
+    echo
+
+    $as_echo "## ---------------- ##
+## Cache variables. ##
+## ---------------- ##"
+    echo
+    # The following way of writing the cache mishandles newlines in values,
+(
+  for ac_var in `(set) 2>&1 | sed -n '\''s/^\([a-zA-Z_][a-zA-Z0-9_]*\)=.*/\1/p'\''`; do
+    eval ac_val=\$$ac_var
+    case $ac_val in #(
+    *${as_nl}*)
+      case $ac_var in #(
+      *_cv_*) { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: cache variable $ac_var contains a newline" >&5
+$as_echo "$as_me: WARNING: cache variable $ac_var contains a newline" >&2;} ;;
+      esac
+      case $ac_var in #(
+      _ | IFS | as_nl) ;; #(
+      BASH_ARGV | BASH_SOURCE) eval $ac_var= ;; #(
+      *) { eval $ac_var=; unset $ac_var;} ;;
+      esac ;;
+    esac
+  done
+  (set) 2>&1 |
+    case $as_nl`(ac_space='\'' '\''; set) 2>&1` in #(
+    *${as_nl}ac_space=\ *)
+      sed -n \
+	"s/'\''/'\''\\\\'\'''\''/g;
+	  s/^\\([_$as_cr_alnum]*_cv_[_$as_cr_alnum]*\\)=\\(.*\\)/\\1='\''\\2'\''/p"
+      ;; #(
+    *)
+      sed -n "/^[_$as_cr_alnum]*_cv_[_$as_cr_alnum]*=/p"
+      ;;
+    esac |
+    sort
+)
+    echo
+
+    $as_echo "## ----------------- ##
+## Output variables. ##
+## ----------------- ##"
+    echo
+    for ac_var in $ac_subst_vars
+    do
+      eval ac_val=\$$ac_var
+      case $ac_val in
+      *\'\''*) ac_val=`$as_echo "$ac_val" | sed "s/'\''/'\''\\\\\\\\'\'''\''/g"`;;
+      esac
+      $as_echo "$ac_var='\''$ac_val'\''"
+    done | sort
+    echo
+
+    if test -n "$ac_subst_files"; then
+      $as_echo "## ------------------- ##
+## File substitutions. ##
+## ------------------- ##"
+      echo
+      for ac_var in $ac_subst_files
+      do
+	eval ac_val=\$$ac_var
+	case $ac_val in
+	*\'\''*) ac_val=`$as_echo "$ac_val" | sed "s/'\''/'\''\\\\\\\\'\'''\''/g"`;;
+	esac
+	$as_echo "$ac_var='\''$ac_val'\''"
+      done | sort
+      echo
+    fi
+
+    if test -s confdefs.h; then
+      $as_echo "## ----------- ##
+## confdefs.h. ##
+## ----------- ##"
+      echo
+      cat confdefs.h
+      echo
+    fi
+    test "$ac_signal" != 0 &&
+      $as_echo "$as_me: caught signal $ac_signal"
+    $as_echo "$as_me: exit $exit_status"
+  } >&5
+  rm -f core *.core core.conftest.* &&
+    rm -f -r conftest* confdefs* conf$$* $ac_clean_files &&
+    exit $exit_status
+' 0
+for ac_signal in 1 2 13 15; do
+  trap 'ac_signal='$ac_signal'; as_fn_exit 1' $ac_signal
+done
+ac_signal=0
+
+# confdefs.h avoids OS command line length limits that DEFS can exceed.
+rm -f -r conftest* confdefs.h
+
+$as_echo "/* confdefs.h */" > confdefs.h
+
+# Predefined preprocessor variables.
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_NAME "$PACKAGE_NAME"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_TARNAME "$PACKAGE_TARNAME"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_VERSION "$PACKAGE_VERSION"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_STRING "$PACKAGE_STRING"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_BUGREPORT "$PACKAGE_BUGREPORT"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_URL "$PACKAGE_URL"
+_ACEOF
+
+
+# Let the site file select an alternate cache file if it wants to.
+# Prefer an explicitly selected file to automatically selected ones.
+ac_site_file1=NONE
+ac_site_file2=NONE
+if test -n "$CONFIG_SITE"; then
+  # We do not want a PATH search for config.site.
+  case $CONFIG_SITE in #((
+    -*)  ac_site_file1=./$CONFIG_SITE;;
+    */*) ac_site_file1=$CONFIG_SITE;;
+    *)   ac_site_file1=./$CONFIG_SITE;;
+  esac
+elif test "x$prefix" != xNONE; then
+  ac_site_file1=$prefix/share/config.site
+  ac_site_file2=$prefix/etc/config.site
+else
+  ac_site_file1=$ac_default_prefix/share/config.site
+  ac_site_file2=$ac_default_prefix/etc/config.site
+fi
+for ac_site_file in "$ac_site_file1" "$ac_site_file2"
+do
+  test "x$ac_site_file" = xNONE && continue
+  if test /dev/null != "$ac_site_file" && test -r "$ac_site_file"; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: loading site script $ac_site_file" >&5
+$as_echo "$as_me: loading site script $ac_site_file" >&6;}
+    sed 's/^/| /' "$ac_site_file" >&5
+    . "$ac_site_file" \
+      || { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "failed to load site script $ac_site_file
+See \`config.log' for more details" "$LINENO" 5; }
+  fi
+done
+
+if test -r "$cache_file"; then
+  # Some versions of bash will fail to source /dev/null (special files
+  # actually), so we avoid doing that.  DJGPP emulates it as a regular file.
+  if test /dev/null != "$cache_file" && test -f "$cache_file"; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: loading cache $cache_file" >&5
+$as_echo "$as_me: loading cache $cache_file" >&6;}
+    case $cache_file in
+      [\\/]* | ?:[\\/]* ) . "$cache_file";;
+      *)                      . "./$cache_file";;
+    esac
+  fi
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: creating cache $cache_file" >&5
+$as_echo "$as_me: creating cache $cache_file" >&6;}
+  >$cache_file
+fi
+
+# Check that the precious variables saved in the cache have kept the same
+# value.
+ac_cache_corrupted=false
+for ac_var in $ac_precious_vars; do
+  eval ac_old_set=\$ac_cv_env_${ac_var}_set
+  eval ac_new_set=\$ac_env_${ac_var}_set
+  eval ac_old_val=\$ac_cv_env_${ac_var}_value
+  eval ac_new_val=\$ac_env_${ac_var}_value
+  case $ac_old_set,$ac_new_set in
+    set,)
+      { $as_echo "$as_me:${as_lineno-$LINENO}: error: \`$ac_var' was set to \`$ac_old_val' in the previous run" >&5
+$as_echo "$as_me: error: \`$ac_var' was set to \`$ac_old_val' in the previous run" >&2;}
+      ac_cache_corrupted=: ;;
+    ,set)
+      { $as_echo "$as_me:${as_lineno-$LINENO}: error: \`$ac_var' was not set in the previous run" >&5
+$as_echo "$as_me: error: \`$ac_var' was not set in the previous run" >&2;}
+      ac_cache_corrupted=: ;;
+    ,);;
+    *)
+      if test "x$ac_old_val" != "x$ac_new_val"; then
+	# differences in whitespace do not lead to failure.
+	ac_old_val_w=`echo x $ac_old_val`
+	ac_new_val_w=`echo x $ac_new_val`
+	if test "$ac_old_val_w" != "$ac_new_val_w"; then
+	  { $as_echo "$as_me:${as_lineno-$LINENO}: error: \`$ac_var' has changed since the previous run:" >&5
+$as_echo "$as_me: error: \`$ac_var' has changed since the previous run:" >&2;}
+	  ac_cache_corrupted=:
+	else
+	  { $as_echo "$as_me:${as_lineno-$LINENO}: warning: ignoring whitespace changes in \`$ac_var' since the previous run:" >&5
+$as_echo "$as_me: warning: ignoring whitespace changes in \`$ac_var' since the previous run:" >&2;}
+	  eval $ac_var=\$ac_old_val
+	fi
+	{ $as_echo "$as_me:${as_lineno-$LINENO}:   former value:  \`$ac_old_val'" >&5
+$as_echo "$as_me:   former value:  \`$ac_old_val'" >&2;}
+	{ $as_echo "$as_me:${as_lineno-$LINENO}:   current value: \`$ac_new_val'" >&5
+$as_echo "$as_me:   current value: \`$ac_new_val'" >&2;}
+      fi;;
+  esac
+  # Pass precious variables to config.status.
+  if test "$ac_new_set" = set; then
+    case $ac_new_val in
+    *\'*) ac_arg=$ac_var=`$as_echo "$ac_new_val" | sed "s/'/'\\\\\\\\''/g"` ;;
+    *) ac_arg=$ac_var=$ac_new_val ;;
+    esac
+    case " $ac_configure_args " in
+      *" '$ac_arg' "*) ;; # Avoid dups.  Use of quotes ensures accuracy.
+      *) as_fn_append ac_configure_args " '$ac_arg'" ;;
+    esac
+  fi
+done
+if $ac_cache_corrupted; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+  { $as_echo "$as_me:${as_lineno-$LINENO}: error: changes in the environment can compromise the build" >&5
+$as_echo "$as_me: error: changes in the environment can compromise the build" >&2;}
+  as_fn_error $? "run \`make distclean' and/or \`rm $cache_file' and start over" "$LINENO" 5
+fi
+## -------------------- ##
+## Main body of script. ##
+## -------------------- ##
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: Configuring HMMER for your system." >&5
+$as_echo "$as_me: Configuring HMMER for your system." >&6;}
+
+# remember if the user is overriding CFLAGS
+if test x"$CFLAGS" = x; then
+  sre_cflags_env_set=no
+fi
+
+################################################################
+# 3. Info on the package
+#
+# The four AC_INIT args set these output variables and preprocessor symbols:
+#     PACKAGE_NAME      <package>     e.g. "HMMER"
+#     PACKAGE_VERSION   <version>     e.g. "3.0"
+#     PACKAGE_BUGREPORT <bug-report>  e.g. "eddys@janelia.hhmi.org"
+#     PACKAGE_TARNAME   <tarname>     e.g. "hmmer"
+# From them, it derives one more:
+#     PACKAGE_STRING    <package> <version>, e.g. "HMMER 3.0"
+# We also define additional variables:
+#     HMMER_DATE        release date: e.g. "January 2007"
+#     HMMER_COPYRIGHT   one-line copyright string
+#     HMMER_LICENSE     one-line license string
+#     HMMER_LICENSETAG  which license to bundle from Licenses/ subdirectory.
+#     HMMER_VERSION     copy of version code, e.g. "3.0"
+#     HMMER_URL         URL home for HMMER.
+# And we have to define the relevant package variables for Easel as well.
+#
+# We avoid using AC_INIT's PACKAGE_ variables anywhere, because we want to be able
+# to use HMMER as a library inside other packages, with no name clashes.
+################################################################
+
+HMMER_DATE="February 2015"
+HMMER_COPYRIGHT="Copyright (C) 2015 Howard Hughes Medical Institute."
+HMMER_LICENSE="Freely distributed under the GNU General Public License (GPLv3)."
+HMMER_VERSION=$PACKAGE_VERSION
+HMMER_URL="http://hmmer.org/"
+HMMER_ESLDIR="easel"
+HMMER_SADIR="libdivsufsort"
+
+EASEL_DATE="February 2015"
+EASEL_COPYRIGHT="Copyright (C) 2015 Howard Hughes Medical Institute."
+EASEL_LICENSE="Freely distributed under the Janelia Farm Software License."
+EASEL_VERSION="h$PACKAGE_VERSION"
+EASEL_URL="http://bioeasel.org/"
+
+# Output variables  (AC_OUTPUT replaces @var@ in input files, such as Makefiles)
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+# Preprocessor symbols (replace #undefs in p7config.h)
+cat >>confdefs.h <<_ACEOF
+#define HMMER_DATE "$HMMER_DATE"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define HMMER_COPYRIGHT "$HMMER_COPYRIGHT"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define HMMER_LICENSE "$HMMER_LICENSE"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define HMMER_VERSION "$HMMER_VERSION"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define HMMER_URL "$HMMER_URL"
+_ACEOF
+
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_DATE "$EASEL_DATE"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_COPYRIGHT "$EASEL_COPYRIGHT"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_LICENSE "$EASEL_LICENSE"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_VERSION "$EASEL_VERSION"
+_ACEOF
+
+
+$as_echo "#define eslLIBRARY 1" >>confdefs.h
+
+
+# Figure out what host we're compiling on.
+# Three GNU scripts must be included in the distro:
+#       install.sh, config.guess, config.sub
+# This sets four shell variables:
+#       host            example: i686-pc-linux-gnu
+#       host_cpu        example: i686
+#       host_vendor     example: pc
+#       host_os         example: linux-gnu
+ac_aux_dir=
+for ac_dir in "$srcdir" "$srcdir/.." "$srcdir/../.."; do
+  if test -f "$ac_dir/install-sh"; then
+    ac_aux_dir=$ac_dir
+    ac_install_sh="$ac_aux_dir/install-sh -c"
+    break
+  elif test -f "$ac_dir/install.sh"; then
+    ac_aux_dir=$ac_dir
+    ac_install_sh="$ac_aux_dir/install.sh -c"
+    break
+  elif test -f "$ac_dir/shtool"; then
+    ac_aux_dir=$ac_dir
+    ac_install_sh="$ac_aux_dir/shtool install -c"
+    break
+  fi
+done
+if test -z "$ac_aux_dir"; then
+  as_fn_error $? "cannot find install-sh, install.sh, or shtool in \"$srcdir\" \"$srcdir/..\" \"$srcdir/../..\"" "$LINENO" 5
+fi
+
+# These three variables are undocumented and unsupported,
+# and are intended to be withdrawn in a future Autoconf release.
+# They can cause serious problems if a builder's source tree is in a directory
+# whose full name contains unusual characters.
+ac_config_guess="$SHELL $ac_aux_dir/config.guess"  # Please don't use this var.
+ac_config_sub="$SHELL $ac_aux_dir/config.sub"  # Please don't use this var.
+ac_configure="$SHELL $ac_aux_dir/configure"  # Please don't use this var.
+
+
+# Make sure we can run config.sub.
+$SHELL "$ac_aux_dir/config.sub" sun4 >/dev/null 2>&1 ||
+  as_fn_error $? "cannot run $SHELL $ac_aux_dir/config.sub" "$LINENO" 5
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking build system type" >&5
+$as_echo_n "checking build system type... " >&6; }
+if ${ac_cv_build+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_build_alias=$build_alias
+test "x$ac_build_alias" = x &&
+  ac_build_alias=`$SHELL "$ac_aux_dir/config.guess"`
+test "x$ac_build_alias" = x &&
+  as_fn_error $? "cannot guess build type; you must specify one" "$LINENO" 5
+ac_cv_build=`$SHELL "$ac_aux_dir/config.sub" $ac_build_alias` ||
+  as_fn_error $? "$SHELL $ac_aux_dir/config.sub $ac_build_alias failed" "$LINENO" 5
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_build" >&5
+$as_echo "$ac_cv_build" >&6; }
+case $ac_cv_build in
+*-*-*) ;;
+*) as_fn_error $? "invalid value of canonical build" "$LINENO" 5;;
+esac
+build=$ac_cv_build
+ac_save_IFS=$IFS; IFS='-'
+set x $ac_cv_build
+shift
+build_cpu=$1
+build_vendor=$2
+shift; shift
+# Remember, the first character of IFS is used to create $*,
+# except with old shells:
+build_os=$*
+IFS=$ac_save_IFS
+case $build_os in *\ *) build_os=`echo "$build_os" | sed 's/ /-/g'`;; esac
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking host system type" >&5
+$as_echo_n "checking host system type... " >&6; }
+if ${ac_cv_host+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "x$host_alias" = x; then
+  ac_cv_host=$ac_cv_build
+else
+  ac_cv_host=`$SHELL "$ac_aux_dir/config.sub" $host_alias` ||
+    as_fn_error $? "$SHELL $ac_aux_dir/config.sub $host_alias failed" "$LINENO" 5
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_host" >&5
+$as_echo "$ac_cv_host" >&6; }
+case $ac_cv_host in
+*-*-*) ;;
+*) as_fn_error $? "invalid value of canonical host" "$LINENO" 5;;
+esac
+host=$ac_cv_host
+ac_save_IFS=$IFS; IFS='-'
+set x $ac_cv_host
+shift
+host_cpu=$1
+host_vendor=$2
+shift; shift
+# Remember, the first character of IFS is used to create $*,
+# except with old shells:
+host_os=$*
+IFS=$ac_save_IFS
+case $host_os in *\ *) host_os=`echo "$host_os" | sed 's/ /-/g'`;; esac
+
+
+
+# Check if we're a binary distribution.
+# Trigger is existence of binaries/, nonexistence of src/.
+#
+# For binary distro, we do minimal configuration, setting version information
+# and installation path names, making ./configure independent of having a working
+# C compiler.
+#
+# Implements a sneaky if statement that wraps most of the configure.ac M4 code.
+#
+#if ((! test -d binaries) && test -d src); then
+{ $as_echo "$as_me:${as_lineno-$LINENO}: Full HMMER source distribution - using full configuration" >&5
+$as_echo "$as_me: Full HMMER source distribution - using full configuration" >&6;}
+
+
+
+################################################################
+# Process the ./configure command line
+################################################################
+
+# --enable-debugging      - set basic debugging (level 0)
+# --enable-debugging=x    - set debugging level to <x> (1-3)
+#
+# At all levels, including 0, replaces CFLAGS w/ "-g -Wall" (so it assumes gcc).
+# Sets p7_DEBUGGING preprocessor symbol, which compiles in debugging support.
+# Also sets eslDEBUGLEVEL level, 0-3.
+#
+# Check whether --enable-debugging was given.
+if test "${enable_debugging+set}" = set; then :
+  enableval=$enable_debugging; enable_debugging=$enableval
+else
+  enable_debugging=no
+fi
+
+
+case $enable_debugging in
+   yes)  $as_echo "#define eslDEBUGLEVEL 0" >>confdefs.h
+;;
+     1)  $as_echo "#define eslDEBUGLEVEL 1" >>confdefs.h
+;;
+     2)  $as_echo "#define eslDEBUGLEVEL 2" >>confdefs.h
+;;
+     3)  $as_echo "#define eslDEBUGLEVEL 3" >>confdefs.h
+;;
+    no)  $as_echo "#define eslDEBUGLEVEL 0" >>confdefs.h
+;;
+     *)  as_fn_error $? "Unknown argument to --enable-debugging: $enable_debugging" "$LINENO" 5;;
+esac
+
+
+# --enable-gcov      - compile for code coverage testing
+#
+# Replaces CC with "gcc" and CFLAGS with "-g -Wall -fprofile-arcs -ftest-coverage".
+# Running programs (notably the test suite) will then generate .gcda files,
+# which the gcov tool can read.
+#
+# Check whether --enable-gcov was given.
+if test "${enable_gcov+set}" = set; then :
+  enableval=$enable_gcov; ok=$enableval
+else
+  ok=no
+fi
+
+if test "$ok" = "yes"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: Compiling with gcov instrumentation." >&5
+$as_echo "$as_me: Compiling with gcov instrumentation." >&6;}
+  CC="gcc"
+  CFLAGS="-g -Wall -fprofile-arcs -ftest-coverage"
+  sre_cflags_env_set=yes
+fi
+
+
+# --enable-gprof     - compile for gcc code profiling
+#
+# Replaces CC with "gcc" and CFLAGS with "-O -g -pg"
+# Running programs generates a profile data file "gmon.out".
+#
+# Check whether --enable-gprof was given.
+if test "${enable_gprof+set}" = set; then :
+  enableval=$enable_gprof; ok=$enableval
+else
+  ok=no
+fi
+
+if test "$ok" = "yes"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: Compiling with gprof instrumentation." >&5
+$as_echo "$as_me: Compiling with gprof instrumentation." >&6;}
+  CC="gcc"
+  CFLAGS="-O -g -pg"
+  sre_cflags_env_set=yes
+fi
+
+
+# --enable-sse    Enable the SSE implementation.
+# --enable-vmx    Enable the Altivec/VMX implementation.
+# --enable-dummy  Enable the portable implementation.
+#
+# These set $impl_choice to one of sse, vmx, dummy, or none.
+#
+# Check whether --enable-sse was given.
+if test "${enable_sse+set}" = set; then :
+  enableval=$enable_sse; enable_sse=$enableval
+else
+  enable_sse=check
+fi
+
+# Check whether --enable-vmx was given.
+if test "${enable_vmx+set}" = set; then :
+  enableval=$enable_vmx; enable_vmx=$enableval
+else
+  enable_vmx=check
+fi
+
+# Check whether --enable-dummy was given.
+if test "${enable_dummy+set}" = set; then :
+  enableval=$enable_dummy; enable_dummy=$enableval
+else
+  enable_dummy=check
+fi
+
+if test "$enable_sse" = "yes"; then
+   if test "$enable_vmx" = "yes" || test "$enable_dummy" = "yes"; then
+      as_fn_error $? "Select only one implementation of sse, vmx, or dummy" "$LINENO" 5
+   fi
+   impl_choice=sse
+elif test "$enable_vmx" = "yes"; then
+   if test "$enable_sse" = "yes" || test "$enable_dummy" = "yes"; then
+      as_fn_error $? "Select only one implementation of sse, vmx, or dummy" "$LINENO" 5
+   fi
+   impl_choice=vmx
+elif test "$enable_dummy" = "yes"; then
+   if test "$enable_sse" = "yes" || test "$enable_vmx" = "yes"; then
+      as_fn_error $? "Select only one implementation of sse, vmx, or dummy" "$LINENO" 5
+   fi
+   impl_choice=dummy
+else
+   impl_choice=none
+fi
+
+
+# --enable-mpi       Enable MPI parallelization
+# Check whether --enable-mpi was given.
+if test "${enable_mpi+set}" = set; then :
+  enableval=$enable_mpi; enable_mpi=$enableval
+else
+  enable_mpi=no
+fi
+
+
+
+# --enable-xlc-arch  Set the code generation for a particular architecture
+#
+# The xlc compiler on AIX seems to need the -qarch flag to be set for a processor
+# that is VMX enabled.  Otherwise a warning is issued that states the -qenablevmx
+# and -qaltivec flags are ignored.
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+if test -n "$ac_tool_prefix"; then
+  # Extract the first word of "${ac_tool_prefix}gcc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$ac_cv_prog_CC"; then
+  ac_ct_CC=$CC
+  # Extract the first word of "gcc", so it can be a program name with args.
+set dummy gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+else
+  CC="$ac_cv_prog_CC"
+fi
+
+if test -z "$CC"; then
+          if test -n "$ac_tool_prefix"; then
+    # Extract the first word of "${ac_tool_prefix}cc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  fi
+fi
+if test -z "$CC"; then
+  # Extract the first word of "cc", so it can be a program name with args.
+set dummy cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+  ac_prog_rejected=no
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    if test "$as_dir/$ac_word$ac_exec_ext" = "/usr/ucb/cc"; then
+       ac_prog_rejected=yes
+       continue
+     fi
+    ac_cv_prog_CC="cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+if test $ac_prog_rejected = yes; then
+  # We found a bogon in the path, so make sure we never use it.
+  set dummy $ac_cv_prog_CC
+  shift
+  if test $# != 0; then
+    # We chose a different compiler from the bogus one.
+    # However, it has the same basename, so the bogon will be chosen
+    # first if we set CC to just the basename; use the full file name.
+    shift
+    ac_cv_prog_CC="$as_dir/$ac_word${1+' '}$@"
+  fi
+fi
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$CC"; then
+  if test -n "$ac_tool_prefix"; then
+  for ac_prog in cl.exe
+  do
+    # Extract the first word of "$ac_tool_prefix$ac_prog", so it can be a program name with args.
+set dummy $ac_tool_prefix$ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="$ac_tool_prefix$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+    test -n "$CC" && break
+  done
+fi
+if test -z "$CC"; then
+  ac_ct_CC=$CC
+  for ac_prog in cl.exe
+do
+  # Extract the first word of "$ac_prog", so it can be a program name with args.
+set dummy $ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  test -n "$ac_ct_CC" && break
+done
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+fi
+
+fi
+
+
+test -z "$CC" && { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "no acceptable C compiler found in \$PATH
+See \`config.log' for more details" "$LINENO" 5; }
+
+# Provide some information about the compiler.
+$as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler version" >&5
+set X $ac_compile
+ac_compiler=$2
+for ac_option in --version -v -V -qversion; do
+  { { ac_try="$ac_compiler $ac_option >&5"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compiler $ac_option >&5") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    sed '10a\
+... rest of stderr output deleted ...
+         10q' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+  fi
+  rm -f conftest.er1 conftest.err
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }
+done
+
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+ac_clean_files_save=$ac_clean_files
+ac_clean_files="$ac_clean_files a.out a.out.dSYM a.exe b.out"
+# Try to create an executable without -o first, disregard a.out.
+# It will help us diagnose broken compilers, and finding out an intuition
+# of exeext.
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether the C compiler works" >&5
+$as_echo_n "checking whether the C compiler works... " >&6; }
+ac_link_default=`$as_echo "$ac_link" | sed 's/ -o *conftest[^ ]*//'`
+
+# The possible output files:
+ac_files="a.out conftest.exe conftest a.exe a_out.exe b.out conftest.*"
+
+ac_rmfiles=
+for ac_file in $ac_files
+do
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM | *.o | *.obj ) ;;
+    * ) ac_rmfiles="$ac_rmfiles $ac_file";;
+  esac
+done
+rm -f $ac_rmfiles
+
+if { { ac_try="$ac_link_default"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link_default") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; then :
+  # Autoconf-2.13 could set the ac_cv_exeext variable to `no'.
+# So ignore a value of `no', otherwise this would lead to `EXEEXT = no'
+# in a Makefile.  We should not override ac_cv_exeext if it was cached,
+# so that the user can short-circuit this test for compilers unknown to
+# Autoconf.
+for ac_file in $ac_files ''
+do
+  test -f "$ac_file" || continue
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM | *.o | *.obj )
+	;;
+    [ab].out )
+	# We found the default executable, but exeext='' is most
+	# certainly right.
+	break;;
+    *.* )
+	if test "${ac_cv_exeext+set}" = set && test "$ac_cv_exeext" != no;
+	then :; else
+	   ac_cv_exeext=`expr "$ac_file" : '[^.]*\(\..*\)'`
+	fi
+	# We set ac_cv_exeext here because the later test for it is not
+	# safe: cross compilers may not add the suffix if given an `-o'
+	# argument, so we may need to know it at that point already.
+	# Even if this section looks crufty: it has the advantage of
+	# actually working.
+	break;;
+    * )
+	break;;
+  esac
+done
+test "$ac_cv_exeext" = no && ac_cv_exeext=
+
+else
+  ac_file=''
+fi
+if test -z "$ac_file"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+$as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+{ { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error 77 "C compiler cannot create executables
+See \`config.log' for more details" "$LINENO" 5; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler default output file name" >&5
+$as_echo_n "checking for C compiler default output file name... " >&6; }
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_file" >&5
+$as_echo "$ac_file" >&6; }
+ac_exeext=$ac_cv_exeext
+
+rm -f -r a.out a.out.dSYM a.exe conftest$ac_cv_exeext b.out
+ac_clean_files=$ac_clean_files_save
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for suffix of executables" >&5
+$as_echo_n "checking for suffix of executables... " >&6; }
+if { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; then :
+  # If both `conftest.exe' and `conftest' are `present' (well, observable)
+# catch `conftest.exe'.  For instance with Cygwin, `ls conftest' will
+# work properly (i.e., refer to `conftest.exe'), while it won't with
+# `rm'.
+for ac_file in conftest.exe conftest conftest.*; do
+  test -f "$ac_file" || continue
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM | *.o | *.obj ) ;;
+    *.* ) ac_cv_exeext=`expr "$ac_file" : '[^.]*\(\..*\)'`
+	  break;;
+    * ) break;;
+  esac
+done
+else
+  { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot compute suffix of executables: cannot compile and link
+See \`config.log' for more details" "$LINENO" 5; }
+fi
+rm -f conftest conftest$ac_cv_exeext
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_exeext" >&5
+$as_echo "$ac_cv_exeext" >&6; }
+
+rm -f conftest.$ac_ext
+EXEEXT=$ac_cv_exeext
+ac_exeext=$EXEEXT
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+FILE *f = fopen ("conftest.out", "w");
+ return ferror (f) || fclose (f) != 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+ac_clean_files="$ac_clean_files conftest.out"
+# Check that the compiler produces executables we can run.  If not, either
+# the compiler is broken, or we cross compile.
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether we are cross compiling" >&5
+$as_echo_n "checking whether we are cross compiling... " >&6; }
+if test "$cross_compiling" != yes; then
+  { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }
+  if { ac_try='./conftest$ac_cv_exeext'
+  { { case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_try") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; }; then
+    cross_compiling=no
+  else
+    if test "$cross_compiling" = maybe; then
+	cross_compiling=yes
+    else
+	{ { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot run C compiled programs.
+If you meant to cross compile, use \`--host'.
+See \`config.log' for more details" "$LINENO" 5; }
+    fi
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $cross_compiling" >&5
+$as_echo "$cross_compiling" >&6; }
+
+rm -f conftest.$ac_ext conftest$ac_cv_exeext conftest.out
+ac_clean_files=$ac_clean_files_save
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for suffix of object files" >&5
+$as_echo_n "checking for suffix of object files... " >&6; }
+if ${ac_cv_objext+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+rm -f conftest.o conftest.obj
+if { { ac_try="$ac_compile"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compile") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; then :
+  for ac_file in conftest.o conftest.obj conftest.*; do
+  test -f "$ac_file" || continue;
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM ) ;;
+    *) ac_cv_objext=`expr "$ac_file" : '.*\.\(.*\)'`
+       break;;
+  esac
+done
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+{ { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot compute suffix of object files: cannot compile
+See \`config.log' for more details" "$LINENO" 5; }
+fi
+rm -f conftest.$ac_cv_objext conftest.$ac_ext
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_objext" >&5
+$as_echo "$ac_cv_objext" >&6; }
+OBJEXT=$ac_cv_objext
+ac_objext=$OBJEXT
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether we are using the GNU C compiler" >&5
+$as_echo_n "checking whether we are using the GNU C compiler... " >&6; }
+if ${ac_cv_c_compiler_gnu+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+#ifndef __GNUC__
+       choke me
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_compiler_gnu=yes
+else
+  ac_compiler_gnu=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+ac_cv_c_compiler_gnu=$ac_compiler_gnu
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_c_compiler_gnu" >&5
+$as_echo "$ac_cv_c_compiler_gnu" >&6; }
+if test $ac_compiler_gnu = yes; then
+  GCC=yes
+else
+  GCC=
+fi
+ac_test_CFLAGS=${CFLAGS+set}
+ac_save_CFLAGS=$CFLAGS
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether $CC accepts -g" >&5
+$as_echo_n "checking whether $CC accepts -g... " >&6; }
+if ${ac_cv_prog_cc_g+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_save_c_werror_flag=$ac_c_werror_flag
+   ac_c_werror_flag=yes
+   ac_cv_prog_cc_g=no
+   CFLAGS="-g"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+else
+  CFLAGS=""
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  ac_c_werror_flag=$ac_save_c_werror_flag
+	 CFLAGS="-g"
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   ac_c_werror_flag=$ac_save_c_werror_flag
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_g" >&5
+$as_echo "$ac_cv_prog_cc_g" >&6; }
+if test "$ac_test_CFLAGS" = set; then
+  CFLAGS=$ac_save_CFLAGS
+elif test $ac_cv_prog_cc_g = yes; then
+  if test "$GCC" = yes; then
+    CFLAGS="-g -O2"
+  else
+    CFLAGS="-g"
+  fi
+else
+  if test "$GCC" = yes; then
+    CFLAGS="-O2"
+  else
+    CFLAGS=
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C89" >&5
+$as_echo_n "checking for $CC option to accept ISO C89... " >&6; }
+if ${ac_cv_prog_cc_c89+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c89=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+/* Most of the following tests are stolen from RCS 5.7's src/conf.sh.  */
+struct buf { int x; };
+FILE * (*rcsopen) (struct buf *, struct stat *, int);
+static char *e (p, i)
+     char **p;
+     int i;
+{
+  return p[i];
+}
+static char *f (char * (*g) (char **, int), char **p, ...)
+{
+  char *s;
+  va_list v;
+  va_start (v,p);
+  s = g (p, va_arg (v,int));
+  va_end (v);
+  return s;
+}
+
+/* OSF 4.0 Compaq cc is some sort of almost-ANSI by default.  It has
+   function prototypes and stuff, but not '\xHH' hex character constants.
+   These don't provoke an error unfortunately, instead are silently treated
+   as 'x'.  The following induces an error, until -std is added to get
+   proper ANSI mode.  Curiously '\x00'!='x' always comes out true, for an
+   array size at least.  It's necessary to write '\x00'==0 to get something
+   that's true only with -std.  */
+int osf4_cc_array ['\x00' == 0 ? 1 : -1];
+
+/* IBM C 6 for AIX is almost-ANSI by default, but it replaces macro parameters
+   inside strings and character constants.  */
+#define FOO(x) 'x'
+int xlc6_cc_array[FOO(a) == 'x' ? 1 : -1];
+
+int test (int i, double x);
+struct s1 {int (*f) (int a);};
+struct s2 {int (*f) (double a);};
+int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int);
+int argc;
+char **argv;
+int
+main ()
+{
+return f (e, argv, 0) != argv[0]  ||  f (e, argv, 1) != argv[1];
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -qlanglvl=extc89 -qlanglvl=ansi -std \
+	-Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__"
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c89=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c89" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c89" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c89"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c89" >&5
+$as_echo "$ac_cv_prog_cc_c89" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c89" != xno; then :
+
+fi
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler vendor" >&5
+$as_echo_n "checking for C compiler vendor... " >&6; }
+if ${ax_cv_c_compiler_vendor+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ax_cv_c_compiler_vendor=unknown
+  # note: don't check for gcc first since some other compilers define __GNUC__
+  for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ pathscale:__PATHCC__,__PATHSCALE__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do
+    vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")"
+    cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+#if !($vencpp)
+      thisisanerror;
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_compiler_vendor=`echo $ventest | cut -d: -f1`; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  done
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_c_compiler_vendor" >&5
+$as_echo "$ax_cv_c_compiler_vendor" >&6; }
+
+if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+
+# Check whether --with-xlc-arch was given.
+if test "${with_xlc_arch+set}" = set; then :
+  withval=$with_xlc_arch; XLC_ARCH=$withval
+else
+  XLC_ARCH=no
+fi
+
+fi
+
+# --enable-threads      Enable POSIX multithreading
+#
+# Uses ACX_PTHREAD macro from the GNU macro archive.
+# Back to my code to finish enabling pthreads...
+# Define these preprocessor variables:
+#     HMMER_THREADS
+#     HAVE_PTHREAD_SETCONCURRENCY
+#     HAVE_PTHREAD_ATTR_SETSCOPE
+#
+# Check whether --enable-threads was given.
+if test "${enable_threads+set}" = set; then :
+  enableval=$enable_threads;
+else
+  enable_threads=check
+fi
+
+
+case $enable_threads in
+   yes)   check_threads=yes
+          ;;
+   no)    check_threads=no
+          ;;
+   check) check_threads=yes
+          ;;
+   *)     check_threads=no
+          { $as_echo "$as_me:${as_lineno-$LINENO}: Ignoring unknown argument to --enable-threads: $enable_threads" >&5
+$as_echo "$as_me: Ignoring unknown argument to --enable-threads: $enable_threads" >&6;}
+          ;;
+esac
+
+if test "x$check_threads" != xno; then :
+
+
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+acx_pthread_ok=no
+
+# We used to check for pthread.h first, but this fails if pthread.h
+# requires special compiler flags (e.g. on True64 or Sequent).
+# It gets checked for in the link test anyway.
+
+# First of all, check if the user has set any of the PTHREAD_LIBS,
+# etcetera environment variables, and if threads linking works using
+# them:
+if test x"$PTHREAD_LIBS$PTHREAD_CFLAGS" != x; then
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for pthread_join in LIBS=$PTHREAD_LIBS with CFLAGS=$PTHREAD_CFLAGS" >&5
+$as_echo_n "checking for pthread_join in LIBS=$PTHREAD_LIBS with CFLAGS=$PTHREAD_CFLAGS... " >&6; }
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char pthread_join ();
+int
+main ()
+{
+return pthread_join ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  acx_pthread_ok=yes
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: $acx_pthread_ok" >&5
+$as_echo "$acx_pthread_ok" >&6; }
+        if test x"$acx_pthread_ok" = xno; then
+                PTHREAD_LIBS=""
+                PTHREAD_CFLAGS=""
+        fi
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+fi
+
+# We must check for the threads library under a number of different
+# names; the ordering is very important because some systems
+# (e.g. DEC) have both -lpthread and -lpthreads, where one of the
+# libraries is broken (non-POSIX).
+
+# Create a list of thread flags to try.  Items starting with a "-" are
+# C compiler flags, and other items are library names, except for "none"
+# which indicates that we try without any flags at all, and "pthread-config"
+# which is a program returning the flags for the Pth emulation library.
+
+acx_pthread_flags="pthreads none -Kthread -kthread lthread -pthread -pthreads -mthreads pthread --thread-safe -mt pthread-config"
+
+# The ordering *is* (sometimes) important.  Some notes on the
+# individual items follow:
+
+# pthreads: AIX (must check this before -lpthread)
+# none: in case threads are in libc; should be tried before -Kthread and
+#       other compiler flags to prevent continual compiler warnings
+# -Kthread: Sequent (threads in libc, but -Kthread needed for pthread.h)
+# -kthread: FreeBSD kernel threads (preferred to -pthread since SMP-able)
+# lthread: LinuxThreads port on FreeBSD (also preferred to -pthread)
+# -pthread: Linux/gcc (kernel threads), BSD/gcc (userland threads)
+# -pthreads: Solaris/gcc
+# -mthreads: Mingw32/gcc, Lynx/gcc
+# -mt: Sun Workshop C (may only link SunOS threads [-lthread], but it
+#      doesn't hurt to check since this sometimes defines pthreads too;
+#      also defines -D_REENTRANT)
+# pthread: Linux, etcetera
+# --thread-safe: KAI C++
+# pthread-config: use pthread-config program (for GNU Pth library)
+
+case "${host_cpu}-${host_os}" in
+        *solaris*)
+
+        # On Solaris (at least, for some versions), libc contains stubbed
+        # (non-functional) versions of the pthreads routines, so link-based
+        # tests will erroneously succeed.  (We need to link with -pthread or
+        # -lpthread.)  (The stubs are missing pthread_cleanup_push, or rather
+        # a function called by this macro, so we could check for that, but
+        # who knows whether they'll stub that too in a future libc.)  So,
+        # we'll just look for -pthreads and -lpthread first:
+
+        acx_pthread_flags="-pthread -pthreads pthread -mt $acx_pthread_flags"
+        ;;
+esac
+
+if test x"$acx_pthread_ok" = xno; then
+for flag in $acx_pthread_flags; do
+
+        case $flag in
+                none)
+                { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether pthreads work without any flags" >&5
+$as_echo_n "checking whether pthreads work without any flags... " >&6; }
+                ;;
+
+                -*)
+                { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether pthreads work with $flag" >&5
+$as_echo_n "checking whether pthreads work with $flag... " >&6; }
+                PTHREAD_CFLAGS="$flag"
+                ;;
+
+		pthread-config)
+		# Extract the first word of "pthread-config", so it can be a program name with args.
+set dummy pthread-config; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_acx_pthread_config+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$acx_pthread_config"; then
+  ac_cv_prog_acx_pthread_config="$acx_pthread_config" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_acx_pthread_config="yes"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_prog_acx_pthread_config" && ac_cv_prog_acx_pthread_config="no"
+fi
+fi
+acx_pthread_config=$ac_cv_prog_acx_pthread_config
+if test -n "$acx_pthread_config"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $acx_pthread_config" >&5
+$as_echo "$acx_pthread_config" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+		if test x"$acx_pthread_config" = xno; then continue; fi
+		PTHREAD_CFLAGS="`pthread-config --cflags`"
+		PTHREAD_LIBS="`pthread-config --ldflags` `pthread-config --libs`"
+		;;
+
+                *)
+                { $as_echo "$as_me:${as_lineno-$LINENO}: checking for the pthreads library -l$flag" >&5
+$as_echo_n "checking for the pthreads library -l$flag... " >&6; }
+                PTHREAD_LIBS="-l$flag"
+                ;;
+        esac
+
+        save_LIBS="$LIBS"
+        save_CFLAGS="$CFLAGS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Check for various functions.  We must include pthread.h,
+        # since some functions may be macros.  (On the Sequent, we
+        # need a special flag -Kthread to make this header compile.)
+        # We check for pthread_join because it is in -lpthread on IRIX
+        # while pthread_create is in libc.  We check for pthread_attr_init
+        # due to DEC craziness with -lpthreads.  We check for
+        # pthread_cleanup_push because it is one of the few pthread
+        # functions on Solaris that doesn't have a non-functional libc stub.
+        # We try pthread_create on general principles.
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <pthread.h>
+int
+main ()
+{
+pthread_t th; pthread_join(th, 0);
+                     pthread_attr_init(0); pthread_cleanup_push(0, 0);
+                     pthread_create(0,0,0,0); pthread_cleanup_pop(0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  acx_pthread_ok=yes
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: $acx_pthread_ok" >&5
+$as_echo "$acx_pthread_ok" >&6; }
+        if test "x$acx_pthread_ok" = xyes; then
+                break;
+        fi
+
+        PTHREAD_LIBS=""
+        PTHREAD_CFLAGS=""
+done
+fi
+
+# Various other checks:
+if test "x$acx_pthread_ok" = xyes; then
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Detect AIX lossage: threads are created detached by default
+        # and the JOINABLE attribute has a nonstandard name (UNDETACHED).
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for joinable pthread attribute" >&5
+$as_echo_n "checking for joinable pthread attribute... " >&6; }
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <pthread.h>
+int
+main ()
+{
+int attr=PTHREAD_CREATE_JOINABLE;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ok=PTHREAD_CREATE_JOINABLE
+else
+  ok=unknown
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+        if test x"$ok" = xunknown; then
+                cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <pthread.h>
+int
+main ()
+{
+int attr=PTHREAD_CREATE_UNDETACHED;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ok=PTHREAD_CREATE_UNDETACHED
+else
+  ok=unknown
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+        fi
+        if test x"$ok" != xPTHREAD_CREATE_JOINABLE; then
+
+$as_echo "#define PTHREAD_CREATE_JOINABLE \$ok" >>confdefs.h
+
+        fi
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: ${ok}" >&5
+$as_echo "${ok}" >&6; }
+        if test x"$ok" = xunknown; then
+                { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: we do not know how to create joinable pthreads" >&5
+$as_echo "$as_me: WARNING: we do not know how to create joinable pthreads" >&2;}
+        fi
+
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking if more special flags are required for pthreads" >&5
+$as_echo_n "checking if more special flags are required for pthreads... " >&6; }
+        flag=no
+# Added _POSIX_PTHREAD_SEMANTICS for solaris. Needed for ctime_r() compliance.
+# SRE, Fri Oct 29 10:03:36 2010 [J7/3]
+        case "${host_cpu}-${host_os}" in
+                *-aix* | *-freebsd*)     flag="-D_THREAD_SAFE";;
+                *solaris*)               flag="-D_REENTRANT -D_POSIX_PTHREAD_SEMANTICS";;
+                *-osf* | *-hpux*)        flag="-D_REENTRANT";;
+        esac
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: ${flag}" >&5
+$as_echo "${flag}" >&6; }
+        if test "x$flag" != xno; then
+                PTHREAD_CFLAGS="$flag $PTHREAD_CFLAGS"
+        fi
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        # More AIX lossage: must compile with cc_r
+        # Extract the first word of "cc_r", so it can be a program name with args.
+set dummy cc_r; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_PTHREAD_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$PTHREAD_CC"; then
+  ac_cv_prog_PTHREAD_CC="$PTHREAD_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_PTHREAD_CC="cc_r"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_prog_PTHREAD_CC" && ac_cv_prog_PTHREAD_CC="${CC}"
+fi
+fi
+PTHREAD_CC=$ac_cv_prog_PTHREAD_CC
+if test -n "$PTHREAD_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $PTHREAD_CC" >&5
+$as_echo "$PTHREAD_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+else
+        PTHREAD_CC="$CC"
+fi
+
+
+
+
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x"$acx_pthread_ok" = xyes; then
+        $as_echo "#define HMMER_THREADS 1" >>confdefs.h
+
+                    $as_echo "#define HAVE_PTHREAD 1" >>confdefs.h
+
+
+
+        :
+else
+        acx_pthread_ok=no
+        if test "x$enable_threads" != xcheck; then
+                      { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "POSIX multithreading failed
+See \`config.log' for more details" "$LINENO" 5; }
+                    fi
+fi
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+fi
+
+#AC_ARG_ENABLE(threads,
+#[  --enable-threads        enable POSIX multithreading support],
+#[case $enable_threads in
+#   yes) AC_MSG_NOTICE([enabled POSIX multithreading support])
+#        AC_CHECK_FUNCS(pthread_setconcurrency)
+#        AC_CHECK_FUNCS(pthread_attr_setscope)
+#	ACX_PTHREAD(AC_DEFINE(HMMER_THREADS))
+#	;;
+#   no)  AC_MSG_NOTICE([POSIX multithreading support disabled])
+#        ;;
+#   *)   echo "Ignoring unknown argument to --disable-threads: $enable_threads"
+#	;;
+#esac])
+
+# --with-gsl        - enable hooks into the GSL (GNU Scientific Library)
+#
+# The (action-if-given) is blank: using --with-gsl sets $with_gsl to 'yes',
+# and --without-gsl sets $with_gsl to 'no'. If neither is given,
+# $with_gsl is set to 'check', and we'll try to use GSL anyway if we
+# can find it.
+#
+# We interpret the $with_gsl setting later, in the "checks for libraries" section.
+
+# Check whether --with-gsl was given.
+if test "${with_gsl+set}" = set; then :
+  withval=$with_gsl; if test "x$withval" != xno ; then
+               { $as_echo "$as_me:${as_lineno-$LINENO}: Enabling hooks into the GNU Scientific Library (GSL)" >&5
+$as_echo "$as_me: Enabling hooks into the GNU Scientific Library (GSL)" >&6;}
+             fi
+
+else
+  with_gsl=no
+fi
+
+
+
+################################################################
+# Select the vector implementation we'll use
+# (if user didn't already configure one)
+#
+if test "$impl_choice" = "none"; then
+  case $host in
+    ia64-*-*)      impl_choice=sse;;
+    i?86-*-*)      impl_choice=sse;;
+    x86*-*-*)      impl_choice=sse;;
+    powerpc*-*-*)  impl_choice=vmx;;
+    *)             impl_choice=dummy;;
+  esac
+fi
+
+if test "$impl_choice" = "dummy"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: It appears your platform will not fully support H3." >&5
+$as_echo "$as_me: WARNING: It appears your platform will not fully support H3." >&2;}
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: We'll use the 'dummy' implementation, a slow reference implementation." >&5
+$as_echo "$as_me: WARNING: We'll use the 'dummy' implementation, a slow reference implementation." >&2;}
+fi
+
+if test "$impl_choice" = "sse" && test "$enable_sse" = "no"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: You disabled the SSE implementation: I'll use the dummy impl instead." >&5
+$as_echo "$as_me: WARNING: You disabled the SSE implementation: I'll use the dummy impl instead." >&2;}
+  impl_choice=dummy
+fi
+if test "$impl_choice" = "vmx" && test "$enable_vmx" = "no"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: You disabled the VMX implementation: I'll use the dummy impl instead." >&5
+$as_echo "$as_me: WARNING: You disabled the VMX implementation: I'll use the dummy impl instead." >&2;}
+  impl_choice=vmx
+fi
+if test "$impl_choice" = "dummy" && test "$enable_dummy" = "no"; then
+  as_fn_error $? "No vector impl configured; and you disabled the dummy implementation." "$LINENO" 5
+fi
+
+
+################################################################
+# Checks for programs, including choice of compiler ${CC} and ${CFLAGS}.
+#
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+if test -n "$ac_tool_prefix"; then
+  # Extract the first word of "${ac_tool_prefix}gcc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$ac_cv_prog_CC"; then
+  ac_ct_CC=$CC
+  # Extract the first word of "gcc", so it can be a program name with args.
+set dummy gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+else
+  CC="$ac_cv_prog_CC"
+fi
+
+if test -z "$CC"; then
+          if test -n "$ac_tool_prefix"; then
+    # Extract the first word of "${ac_tool_prefix}cc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  fi
+fi
+if test -z "$CC"; then
+  # Extract the first word of "cc", so it can be a program name with args.
+set dummy cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+  ac_prog_rejected=no
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    if test "$as_dir/$ac_word$ac_exec_ext" = "/usr/ucb/cc"; then
+       ac_prog_rejected=yes
+       continue
+     fi
+    ac_cv_prog_CC="cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+if test $ac_prog_rejected = yes; then
+  # We found a bogon in the path, so make sure we never use it.
+  set dummy $ac_cv_prog_CC
+  shift
+  if test $# != 0; then
+    # We chose a different compiler from the bogus one.
+    # However, it has the same basename, so the bogon will be chosen
+    # first if we set CC to just the basename; use the full file name.
+    shift
+    ac_cv_prog_CC="$as_dir/$ac_word${1+' '}$@"
+  fi
+fi
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$CC"; then
+  if test -n "$ac_tool_prefix"; then
+  for ac_prog in cl.exe
+  do
+    # Extract the first word of "$ac_tool_prefix$ac_prog", so it can be a program name with args.
+set dummy $ac_tool_prefix$ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="$ac_tool_prefix$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+    test -n "$CC" && break
+  done
+fi
+if test -z "$CC"; then
+  ac_ct_CC=$CC
+  for ac_prog in cl.exe
+do
+  # Extract the first word of "$ac_prog", so it can be a program name with args.
+set dummy $ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  test -n "$ac_ct_CC" && break
+done
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+fi
+
+fi
+
+
+test -z "$CC" && { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "no acceptable C compiler found in \$PATH
+See \`config.log' for more details" "$LINENO" 5; }
+
+# Provide some information about the compiler.
+$as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler version" >&5
+set X $ac_compile
+ac_compiler=$2
+for ac_option in --version -v -V -qversion; do
+  { { ac_try="$ac_compiler $ac_option >&5"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compiler $ac_option >&5") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    sed '10a\
+... rest of stderr output deleted ...
+         10q' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+  fi
+  rm -f conftest.er1 conftest.err
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }
+done
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether we are using the GNU C compiler" >&5
+$as_echo_n "checking whether we are using the GNU C compiler... " >&6; }
+if ${ac_cv_c_compiler_gnu+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+#ifndef __GNUC__
+       choke me
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_compiler_gnu=yes
+else
+  ac_compiler_gnu=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+ac_cv_c_compiler_gnu=$ac_compiler_gnu
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_c_compiler_gnu" >&5
+$as_echo "$ac_cv_c_compiler_gnu" >&6; }
+if test $ac_compiler_gnu = yes; then
+  GCC=yes
+else
+  GCC=
+fi
+ac_test_CFLAGS=${CFLAGS+set}
+ac_save_CFLAGS=$CFLAGS
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether $CC accepts -g" >&5
+$as_echo_n "checking whether $CC accepts -g... " >&6; }
+if ${ac_cv_prog_cc_g+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_save_c_werror_flag=$ac_c_werror_flag
+   ac_c_werror_flag=yes
+   ac_cv_prog_cc_g=no
+   CFLAGS="-g"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+else
+  CFLAGS=""
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  ac_c_werror_flag=$ac_save_c_werror_flag
+	 CFLAGS="-g"
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   ac_c_werror_flag=$ac_save_c_werror_flag
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_g" >&5
+$as_echo "$ac_cv_prog_cc_g" >&6; }
+if test "$ac_test_CFLAGS" = set; then
+  CFLAGS=$ac_save_CFLAGS
+elif test $ac_cv_prog_cc_g = yes; then
+  if test "$GCC" = yes; then
+    CFLAGS="-g -O2"
+  else
+    CFLAGS="-g"
+  fi
+else
+  if test "$GCC" = yes; then
+    CFLAGS="-O2"
+  else
+    CFLAGS=
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C89" >&5
+$as_echo_n "checking for $CC option to accept ISO C89... " >&6; }
+if ${ac_cv_prog_cc_c89+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c89=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+/* Most of the following tests are stolen from RCS 5.7's src/conf.sh.  */
+struct buf { int x; };
+FILE * (*rcsopen) (struct buf *, struct stat *, int);
+static char *e (p, i)
+     char **p;
+     int i;
+{
+  return p[i];
+}
+static char *f (char * (*g) (char **, int), char **p, ...)
+{
+  char *s;
+  va_list v;
+  va_start (v,p);
+  s = g (p, va_arg (v,int));
+  va_end (v);
+  return s;
+}
+
+/* OSF 4.0 Compaq cc is some sort of almost-ANSI by default.  It has
+   function prototypes and stuff, but not '\xHH' hex character constants.
+   These don't provoke an error unfortunately, instead are silently treated
+   as 'x'.  The following induces an error, until -std is added to get
+   proper ANSI mode.  Curiously '\x00'!='x' always comes out true, for an
+   array size at least.  It's necessary to write '\x00'==0 to get something
+   that's true only with -std.  */
+int osf4_cc_array ['\x00' == 0 ? 1 : -1];
+
+/* IBM C 6 for AIX is almost-ANSI by default, but it replaces macro parameters
+   inside strings and character constants.  */
+#define FOO(x) 'x'
+int xlc6_cc_array[FOO(a) == 'x' ? 1 : -1];
+
+int test (int i, double x);
+struct s1 {int (*f) (int a);};
+struct s2 {int (*f) (double a);};
+int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int);
+int argc;
+char **argv;
+int
+main ()
+{
+return f (e, argv, 0) != argv[0]  ||  f (e, argv, 1) != argv[1];
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -qlanglvl=extc89 -qlanglvl=ansi -std \
+	-Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__"
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c89=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c89" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c89" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c89"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c89" >&5
+$as_echo "$ac_cv_prog_cc_c89" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c89" != xno; then :
+
+fi
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+# Find a good install program.  We prefer a C program (faster),
+# so one script is as good as another.  But avoid the broken or
+# incompatible versions:
+# SysV /etc/install, /usr/sbin/install
+# SunOS /usr/etc/install
+# IRIX /sbin/install
+# AIX /bin/install
+# AmigaOS /C/install, which installs bootblocks on floppy discs
+# AIX 4 /usr/bin/installbsd, which doesn't work without a -g flag
+# AFS /usr/afsws/bin/install, which mishandles nonexistent args
+# SVR4 /usr/ucb/install, which tries to use the nonexistent group "staff"
+# OS/2's system install, which has a completely different semantic
+# ./install, which can be erroneously created by make from ./install.sh.
+# Reject install programs that cannot install multiple files.
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for a BSD-compatible install" >&5
+$as_echo_n "checking for a BSD-compatible install... " >&6; }
+if test -z "$INSTALL"; then
+if ${ac_cv_path_install+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    # Account for people who put trailing slashes in PATH elements.
+case $as_dir/ in #((
+  ./ | .// | /[cC]/* | \
+  /etc/* | /usr/sbin/* | /usr/etc/* | /sbin/* | /usr/afsws/bin/* | \
+  ?:[\\/]os2[\\/]install[\\/]* | ?:[\\/]OS2[\\/]INSTALL[\\/]* | \
+  /usr/ucb/* ) ;;
+  *)
+    # OSF1 and SCO ODT 3.0 have their own names for install.
+    # Don't use installbsd from OSF since it installs stuff as root
+    # by default.
+    for ac_prog in ginstall scoinst install; do
+      for ac_exec_ext in '' $ac_executable_extensions; do
+	if { test -f "$as_dir/$ac_prog$ac_exec_ext" && $as_test_x "$as_dir/$ac_prog$ac_exec_ext"; }; then
+	  if test $ac_prog = install &&
+	    grep dspmsg "$as_dir/$ac_prog$ac_exec_ext" >/dev/null 2>&1; then
+	    # AIX install.  It has an incompatible calling convention.
+	    :
+	  elif test $ac_prog = install &&
+	    grep pwplus "$as_dir/$ac_prog$ac_exec_ext" >/dev/null 2>&1; then
+	    # program-specific install script used by HP pwplus--don't use.
+	    :
+	  else
+	    rm -rf conftest.one conftest.two conftest.dir
+	    echo one > conftest.one
+	    echo two > conftest.two
+	    mkdir conftest.dir
+	    if "$as_dir/$ac_prog$ac_exec_ext" -c conftest.one conftest.two "`pwd`/conftest.dir" &&
+	      test -s conftest.one && test -s conftest.two &&
+	      test -s conftest.dir/conftest.one &&
+	      test -s conftest.dir/conftest.two
+	    then
+	      ac_cv_path_install="$as_dir/$ac_prog$ac_exec_ext -c"
+	      break 3
+	    fi
+	  fi
+	fi
+      done
+    done
+    ;;
+esac
+
+  done
+IFS=$as_save_IFS
+
+rm -rf conftest.one conftest.two conftest.dir
+
+fi
+  if test "${ac_cv_path_install+set}" = set; then
+    INSTALL=$ac_cv_path_install
+  else
+    # As a last resort, use the slow shell script.  Don't cache a
+    # value for INSTALL within a source directory, because that will
+    # break other packages using the cache if that directory is
+    # removed, or if the value is a relative name.
+    INSTALL=$ac_install_sh
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $INSTALL" >&5
+$as_echo "$INSTALL" >&6; }
+
+# Use test -z because SunOS4 sh mishandles braces in ${var-val}.
+# It thinks the first close brace ends the variable substitution.
+test -z "$INSTALL_PROGRAM" && INSTALL_PROGRAM='${INSTALL}'
+
+test -z "$INSTALL_SCRIPT" && INSTALL_SCRIPT='${INSTALL}'
+
+test -z "$INSTALL_DATA" && INSTALL_DATA='${INSTALL} -m 644'
+
+# MPI :  set @CC@ to mpicc, sets @MPILIBS@, defines HAVE_MPI.
+if test "$enable_mpi" = "yes"; then
+
+
+
+
+
+        for ac_prog in mpicc hcc mpxlc_r mpxlc mpcc cmpicc
+do
+  # Extract the first word of "$ac_prog", so it can be a program name with args.
+set dummy $ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_MPICC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$MPICC"; then
+  ac_cv_prog_MPICC="$MPICC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_MPICC="$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+MPICC=$ac_cv_prog_MPICC
+if test -n "$MPICC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $MPICC" >&5
+$as_echo "$MPICC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  test -n "$MPICC" && break
+done
+test -n "$MPICC" || MPICC="$CC"
+
+        acx_mpi_save_CC="$CC"
+        CC="$MPICC"
+
+
+
+if test x = x"$MPILIBS"; then
+        ac_fn_c_check_func "$LINENO" "MPI_Init" "ac_cv_func_MPI_Init"
+if test "x$ac_cv_func_MPI_Init" = xyes; then :
+  MPILIBS=" "
+fi
+
+fi
+
+if test x = x"$MPILIBS"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for MPI_Init in -lmpi" >&5
+$as_echo_n "checking for MPI_Init in -lmpi... " >&6; }
+if ${ac_cv_lib_mpi_MPI_Init+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lmpi  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char MPI_Init ();
+int
+main ()
+{
+return MPI_Init ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_mpi_MPI_Init=yes
+else
+  ac_cv_lib_mpi_MPI_Init=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_mpi_MPI_Init" >&5
+$as_echo "$ac_cv_lib_mpi_MPI_Init" >&6; }
+if test "x$ac_cv_lib_mpi_MPI_Init" = xyes; then :
+  MPILIBS="-lmpi"
+fi
+
+fi
+if test x = x"$MPILIBS"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for MPI_Init in -lmpich" >&5
+$as_echo_n "checking for MPI_Init in -lmpich... " >&6; }
+if ${ac_cv_lib_mpich_MPI_Init+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lmpich  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char MPI_Init ();
+int
+main ()
+{
+return MPI_Init ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_mpich_MPI_Init=yes
+else
+  ac_cv_lib_mpich_MPI_Init=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_mpich_MPI_Init" >&5
+$as_echo "$ac_cv_lib_mpich_MPI_Init" >&6; }
+if test "x$ac_cv_lib_mpich_MPI_Init" = xyes; then :
+  MPILIBS="-lmpich"
+fi
+
+fi
+
+if test x != x"$MPILIBS"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mpi.h" >&5
+$as_echo_n "checking for mpi.h... " >&6; }
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <mpi.h>
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+else
+  MPILIBS=""
+                { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+
+CC="$acx_mpi_save_CC"
+
+
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x = x"$MPILIBS"; then
+        as_fn_error $? "MPI library not found for --enable-mpi" "$LINENO" 5
+        :
+else
+        $as_echo "#define HAVE_MPI 1" >>confdefs.h
+
+            MPI_UTESTS="mpi_utest"
+
+            MPI_BENCHMARKS="mpi_benchmark"
+
+        :
+fi
+
+   CC=$MPICC
+fi
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking how to run the C preprocessor" >&5
+$as_echo_n "checking how to run the C preprocessor... " >&6; }
+# On Suns, sometimes $CPP names a directory.
+if test -n "$CPP" && test -d "$CPP"; then
+  CPP=
+fi
+if test -z "$CPP"; then
+  if ${ac_cv_prog_CPP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+      # Double quotes because CPP needs to be expanded
+    for CPP in "$CC -E" "$CC -E -traditional-cpp" "/lib/cpp"
+    do
+      ac_preproc_ok=false
+for ac_c_preproc_warn_flag in '' yes
+do
+  # Use a header file that comes with gcc, so configuring glibc
+  # with a fresh cross-compiler works.
+  # Prefer <limits.h> to <assert.h> if __STDC__ is defined, since
+  # <limits.h> exists even on freestanding compilers.
+  # On the NeXT, cc -E runs the code through the compiler's parser,
+  # not just through cpp. "Syntax error" is here to catch this case.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#ifdef __STDC__
+# include <limits.h>
+#else
+# include <assert.h>
+#endif
+		     Syntax error
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+
+else
+  # Broken: fails on valid input.
+continue
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+  # OK, works on sane cases.  Now check whether nonexistent headers
+  # can be detected and how.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <ac_nonexistent.h>
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+  # Broken: success on invalid input.
+continue
+else
+  # Passes both tests.
+ac_preproc_ok=:
+break
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+done
+# Because of `break', _AC_PREPROC_IFELSE's cleaning code was skipped.
+rm -f conftest.i conftest.err conftest.$ac_ext
+if $ac_preproc_ok; then :
+  break
+fi
+
+    done
+    ac_cv_prog_CPP=$CPP
+
+fi
+  CPP=$ac_cv_prog_CPP
+else
+  ac_cv_prog_CPP=$CPP
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $CPP" >&5
+$as_echo "$CPP" >&6; }
+ac_preproc_ok=false
+for ac_c_preproc_warn_flag in '' yes
+do
+  # Use a header file that comes with gcc, so configuring glibc
+  # with a fresh cross-compiler works.
+  # Prefer <limits.h> to <assert.h> if __STDC__ is defined, since
+  # <limits.h> exists even on freestanding compilers.
+  # On the NeXT, cc -E runs the code through the compiler's parser,
+  # not just through cpp. "Syntax error" is here to catch this case.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#ifdef __STDC__
+# include <limits.h>
+#else
+# include <assert.h>
+#endif
+		     Syntax error
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+
+else
+  # Broken: fails on valid input.
+continue
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+  # OK, works on sane cases.  Now check whether nonexistent headers
+  # can be detected and how.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <ac_nonexistent.h>
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+  # Broken: success on invalid input.
+continue
+else
+  # Passes both tests.
+ac_preproc_ok=:
+break
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+done
+# Because of `break', _AC_PREPROC_IFELSE's cleaning code was skipped.
+rm -f conftest.i conftest.err conftest.$ac_ext
+if $ac_preproc_ok; then :
+
+else
+  { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "C preprocessor \"$CPP\" fails sanity check
+See \`config.log' for more details" "$LINENO" 5; }
+fi
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler vendor" >&5
+$as_echo_n "checking for C compiler vendor... " >&6; }
+if ${ax_cv_c_compiler_vendor+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ax_cv_c_compiler_vendor=unknown
+  # note: don't check for gcc first since some other compilers define __GNUC__
+  for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ pathscale:__PATHCC__,__PATHSCALE__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do
+    vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")"
+    cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+#if !($vencpp)
+      thisisanerror;
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_compiler_vendor=`echo $ventest | cut -d: -f1`; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  done
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_c_compiler_vendor" >&5
+$as_echo "$ax_cv_c_compiler_vendor" >&6; }
+
+# AC_PROG_CC_STDC wants to append -c99 to icc; icc doesn't like this.
+if test "$ax_cv_c_compiler_vendor" != "intel"; then
+     case $ac_cv_prog_cc_stdc in #(
+  no) :
+    ac_cv_prog_cc_c99=no; ac_cv_prog_cc_c89=no ;; #(
+  *) :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C99" >&5
+$as_echo_n "checking for $CC option to accept ISO C99... " >&6; }
+if ${ac_cv_prog_cc_c99+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c99=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdbool.h>
+#include <stdlib.h>
+#include <wchar.h>
+#include <stdio.h>
+
+// Check varargs macros.  These examples are taken from C99 6.10.3.5.
+#define debug(...) fprintf (stderr, __VA_ARGS__)
+#define showlist(...) puts (#__VA_ARGS__)
+#define report(test,...) ((test) ? puts (#test) : printf (__VA_ARGS__))
+static void
+test_varargs_macros (void)
+{
+  int x = 1234;
+  int y = 5678;
+  debug ("Flag");
+  debug ("X = %d\n", x);
+  showlist (The first, second, and third items.);
+  report (x>y, "x is %d but y is %d", x, y);
+}
+
+// Check long long types.
+#define BIG64 18446744073709551615ull
+#define BIG32 4294967295ul
+#define BIG_OK (BIG64 / BIG32 == 4294967297ull && BIG64 % BIG32 == 0)
+#if !BIG_OK
+  your preprocessor is broken;
+#endif
+#if BIG_OK
+#else
+  your preprocessor is broken;
+#endif
+static long long int bignum = -9223372036854775807LL;
+static unsigned long long int ubignum = BIG64;
+
+struct incomplete_array
+{
+  int datasize;
+  double data[];
+};
+
+struct named_init {
+  int number;
+  const wchar_t *name;
+  double average;
+};
+
+typedef const char *ccp;
+
+static inline int
+test_restrict (ccp restrict text)
+{
+  // See if C++-style comments work.
+  // Iterate through items via the restricted pointer.
+  // Also check for declarations in for loops.
+  for (unsigned int i = 0; *(text+i) != '\0'; ++i)
+    continue;
+  return 0;
+}
+
+// Check varargs and va_copy.
+static void
+test_varargs (const char *format, ...)
+{
+  va_list args;
+  va_start (args, format);
+  va_list args_copy;
+  va_copy (args_copy, args);
+
+  const char *str;
+  int number;
+  float fnumber;
+
+  while (*format)
+    {
+      switch (*format++)
+	{
+	case 's': // string
+	  str = va_arg (args_copy, const char *);
+	  break;
+	case 'd': // int
+	  number = va_arg (args_copy, int);
+	  break;
+	case 'f': // float
+	  fnumber = va_arg (args_copy, double);
+	  break;
+	default:
+	  break;
+	}
+    }
+  va_end (args_copy);
+  va_end (args);
+}
+
+int
+main ()
+{
+
+  // Check bool.
+  _Bool success = false;
+
+  // Check restrict.
+  if (test_restrict ("String literal") == 0)
+    success = true;
+  char *restrict newvar = "Another string";
+
+  // Check varargs.
+  test_varargs ("s, d' f .", "string", 65, 34.234);
+  test_varargs_macros ();
+
+  // Check flexible array members.
+  struct incomplete_array *ia =
+    malloc (sizeof (struct incomplete_array) + (sizeof (double) * 10));
+  ia->datasize = 10;
+  for (int i = 0; i < ia->datasize; ++i)
+    ia->data[i] = i * 1.234;
+
+  // Check named initializers.
+  struct named_init ni = {
+    .number = 34,
+    .name = L"Test wide string",
+    .average = 543.34343,
+  };
+
+  ni.number = 58;
+
+  int dynamic_array[ni.number];
+  dynamic_array[ni.number - 1] = 543;
+
+  // work around unused variable warnings
+  return (!success || bignum == 0LL || ubignum == 0uLL || newvar[0] == 'x'
+	  || dynamic_array[ni.number - 1] != 543);
+
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -std=gnu99 -std=c99 -c99 -AC99 -xc99=all -qlanglvl=extc99
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c99=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c99" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c99" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c99"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c99" >&5
+$as_echo "$ac_cv_prog_cc_c99" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c99" != xno; then :
+  ac_cv_prog_cc_stdc=$ac_cv_prog_cc_c99
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C89" >&5
+$as_echo_n "checking for $CC option to accept ISO C89... " >&6; }
+if ${ac_cv_prog_cc_c89+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c89=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+/* Most of the following tests are stolen from RCS 5.7's src/conf.sh.  */
+struct buf { int x; };
+FILE * (*rcsopen) (struct buf *, struct stat *, int);
+static char *e (p, i)
+     char **p;
+     int i;
+{
+  return p[i];
+}
+static char *f (char * (*g) (char **, int), char **p, ...)
+{
+  char *s;
+  va_list v;
+  va_start (v,p);
+  s = g (p, va_arg (v,int));
+  va_end (v);
+  return s;
+}
+
+/* OSF 4.0 Compaq cc is some sort of almost-ANSI by default.  It has
+   function prototypes and stuff, but not '\xHH' hex character constants.
+   These don't provoke an error unfortunately, instead are silently treated
+   as 'x'.  The following induces an error, until -std is added to get
+   proper ANSI mode.  Curiously '\x00'!='x' always comes out true, for an
+   array size at least.  It's necessary to write '\x00'==0 to get something
+   that's true only with -std.  */
+int osf4_cc_array ['\x00' == 0 ? 1 : -1];
+
+/* IBM C 6 for AIX is almost-ANSI by default, but it replaces macro parameters
+   inside strings and character constants.  */
+#define FOO(x) 'x'
+int xlc6_cc_array[FOO(a) == 'x' ? 1 : -1];
+
+int test (int i, double x);
+struct s1 {int (*f) (int a);};
+struct s2 {int (*f) (double a);};
+int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int);
+int argc;
+char **argv;
+int
+main ()
+{
+return f (e, argv, 0) != argv[0]  ||  f (e, argv, 1) != argv[1];
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -qlanglvl=extc89 -qlanglvl=ansi -std \
+	-Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__"
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c89=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c89" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c89" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c89"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c89" >&5
+$as_echo "$ac_cv_prog_cc_c89" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c89" != xno; then :
+  ac_cv_prog_cc_stdc=$ac_cv_prog_cc_c89
+else
+  ac_cv_prog_cc_stdc=no
+fi
+
+fi
+ ;;
+esac
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO Standard C" >&5
+$as_echo_n "checking for $CC option to accept ISO Standard C... " >&6; }
+  if ${ac_cv_prog_cc_stdc+:} false; then :
+  $as_echo_n "(cached) " >&6
+fi
+
+  case $ac_cv_prog_cc_stdc in #(
+  no) :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;; #(
+  '') :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;; #(
+  *) :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_stdc" >&5
+$as_echo "$ac_cv_prog_cc_stdc" >&6; } ;;
+esac
+
+fi
+if test -n "$ac_tool_prefix"; then
+  # Extract the first word of "${ac_tool_prefix}ranlib", so it can be a program name with args.
+set dummy ${ac_tool_prefix}ranlib; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_RANLIB+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$RANLIB"; then
+  ac_cv_prog_RANLIB="$RANLIB" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_RANLIB="${ac_tool_prefix}ranlib"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+RANLIB=$ac_cv_prog_RANLIB
+if test -n "$RANLIB"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $RANLIB" >&5
+$as_echo "$RANLIB" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$ac_cv_prog_RANLIB"; then
+  ac_ct_RANLIB=$RANLIB
+  # Extract the first word of "ranlib", so it can be a program name with args.
+set dummy ranlib; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_RANLIB+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_RANLIB"; then
+  ac_cv_prog_ac_ct_RANLIB="$ac_ct_RANLIB" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_RANLIB="ranlib"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_RANLIB=$ac_cv_prog_ac_ct_RANLIB
+if test -n "$ac_ct_RANLIB"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_RANLIB" >&5
+$as_echo "$ac_ct_RANLIB" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+  if test "x$ac_ct_RANLIB" = x; then
+    RANLIB=":"
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    RANLIB=$ac_ct_RANLIB
+  fi
+else
+  RANLIB="$ac_cv_prog_RANLIB"
+fi
+
+# Extract the first word of "ar", so it can be a program name with args.
+set dummy ar; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_path_AR+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  case $AR in
+  [\\/]* | ?:[\\/]*)
+  ac_cv_path_AR="$AR" # Let the user override the test with a path.
+  ;;
+  *)
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+as_dummy="$PATH:/usr/ccs/bin:/usr/xpg4/bin"
+for as_dir in $as_dummy
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_path_AR="$as_dir/$ac_word$ac_exec_ext"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_path_AR" && ac_cv_path_AR=":"
+  ;;
+esac
+fi
+AR=$ac_cv_path_AR
+if test -n "$AR"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $AR" >&5
+$as_echo "$AR" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether you have a GNU make" >&5
+$as_echo_n "checking whether you have a GNU make... " >&6; }
+  foundGNUmake='nope, so we assume you will use a sysv-compatible make.' ;
+  EXEC_DEPENDENCY=\$\$\@.o ;
+  for a in "$MAKE" make gmake gnumake ; do
+    if test -z "$a" ; then continue ; fi ;
+    if  ( sh -c "$a --version" 2> /dev/null | grep GNU 2>&1 > /dev/null ) ; then
+      foundGNUmake='yes, you do; and we assume you will use it!' ;
+      EXEC_DEPENDENCY='%: %.o' ;
+    fi
+  done
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $foundGNUmake" >&5
+$as_echo "$foundGNUmake" >&6; }
+
+
+
+# Select our optimization level in CFLAGS.
+if test "$enable_debugging" != "no"; then
+   $as_echo "#define p7_DEBUGGING 1" >>confdefs.h
+
+   if test "$GCC" = "yes" && test "$sre_cflags_env_set" = "no"; then
+      CFLAGS="-g -Wall"
+   fi
+else
+   sre_save_ac_test_cflags="$ac_test_CFLAGS"
+   if test "$sre_cflags_env_set" = "no"; then
+     ac_test_CFLAGS=""
+   fi
+   { $as_echo "$as_me:${as_lineno-$LINENO}: checking for a sed that does not truncate output" >&5
+$as_echo_n "checking for a sed that does not truncate output... " >&6; }
+if ${ac_cv_path_SED+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+            ac_script=s/aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa/bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb/
+     for ac_i in 1 2 3 4 5 6 7; do
+       ac_script="$ac_script$as_nl$ac_script"
+     done
+     echo "$ac_script" 2>/dev/null | sed 99q >conftest.sed
+     { ac_script=; unset ac_script;}
+     if test -z "$SED"; then
+  ac_path_SED_found=false
+  # Loop through the user's path and test for each of PROGNAME-LIST
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_prog in sed gsed; do
+    for ac_exec_ext in '' $ac_executable_extensions; do
+      ac_path_SED="$as_dir/$ac_prog$ac_exec_ext"
+      { test -f "$ac_path_SED" && $as_test_x "$ac_path_SED"; } || continue
+# Check for GNU ac_path_SED and select it if it is found.
+  # Check for GNU $ac_path_SED
+case `"$ac_path_SED" --version 2>&1` in
+*GNU*)
+  ac_cv_path_SED="$ac_path_SED" ac_path_SED_found=:;;
+*)
+  ac_count=0
+  $as_echo_n 0123456789 >"conftest.in"
+  while :
+  do
+    cat "conftest.in" "conftest.in" >"conftest.tmp"
+    mv "conftest.tmp" "conftest.in"
+    cp "conftest.in" "conftest.nl"
+    $as_echo '' >> "conftest.nl"
+    "$ac_path_SED" -f conftest.sed < "conftest.nl" >"conftest.out" 2>/dev/null || break
+    diff "conftest.out" "conftest.nl" >/dev/null 2>&1 || break
+    as_fn_arith $ac_count + 1 && ac_count=$as_val
+    if test $ac_count -gt ${ac_path_SED_max-0}; then
+      # Best one so far, save it but keep looking for a better one
+      ac_cv_path_SED="$ac_path_SED"
+      ac_path_SED_max=$ac_count
+    fi
+    # 10*(2^10) chars as input seems more than enough
+    test $ac_count -gt 10 && break
+  done
+  rm -f conftest.in conftest.tmp conftest.nl conftest.out;;
+esac
+
+      $ac_path_SED_found && break 3
+    done
+  done
+  done
+IFS=$as_save_IFS
+  if test -z "$ac_cv_path_SED"; then
+    as_fn_error $? "no acceptable sed could be found in \$PATH" "$LINENO" 5
+  fi
+else
+  ac_cv_path_SED=$SED
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_path_SED" >&5
+$as_echo "$ac_cv_path_SED" >&6; }
+ SED="$ac_cv_path_SED"
+  rm -f conftest.sed
+
+
+
+
+
+
+# Check whether --enable-portable-binary was given.
+if test "${enable_portable_binary+set}" = set; then :
+  enableval=$enable_portable_binary; acx_maxopt_portable=$withval
+else
+  acx_maxopt_portable=no
+fi
+
+
+# Try to determine "good" native compiler flags if none specified via CFLAGS
+if test "$ac_test_CFLAGS" != "set"; then
+  CFLAGS=""
+  case $ax_cv_c_compiler_vendor in
+    dec) CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -tune host"
+#        CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -fp_reorder -tune host"
+         if test "x$acx_maxopt_portable" = xno; then
+           CFLAGS="$CFLAGS -arch host"
+         fi;;
+
+    sun) CFLAGS="-native -xO5 -dalign"
+#        CFLAGS="-native -fast -xO5 -dalign"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS -xarch=generic"
+         fi;;
+
+    hp)  CFLAGS="+Oall +Optrs_ansi +DSnative"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS +DAportable"
+         fi;;
+
+    ibm) xlc_opt="-qtune=auto -qstrict"
+         if test "x$acx_maxopt_portable" = xno; then
+            if test "x$XLC_ARCH" = xno; then
+               xlc_opt="-qarch=auto $xlc_opt"
+            else
+               xlc_opt="-qarch=$XLC_ARCH $xlc_opt"
+            fi
+         fi
+          { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $xlc_opt" >&5
+$as_echo_n "checking whether C compiler accepts $xlc_opt... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="$xlc_opt"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_$xlc_opt" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_$xlc_opt" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_$xlc_opt" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        CFLAGS="-O3 -qansialias -w $xlc_opt"
+else
+        CFLAGS="-O3 -qansialias -w"
+                echo "******************************************************"
+                echo "*  You seem to have the IBM  C compiler.  It is      *"
+                echo "*  recommended for best performance that you use:    *"
+                echo "*                                                    *"
+                echo "*    CFLAGS=-O3 -qarch=xxx -qtune=xxx -qansialias -w *"
+                echo "*                      ^^^        ^^^                *"
+                echo "*  where xxx is pwr2, pwr3, 604, or whatever kind of *"
+                echo "*  CPU you have.  (Set the CFLAGS environment var.   *"
+                echo "*  and re-run configure.)  For more info, man cc.    *"
+                echo "******************************************************"
+fi
+
+         ;;
+
+    intel) CFLAGS="-O3 -ansi_alias"
+        if test "x$acx_maxopt_portable" = xno; then
+          icc_archflag=unknown
+          icc_flags=""
+          case $host_cpu in
+            i686*|x86_64*)
+              # icc accepts gcc assembly syntax, so these should work:
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 0 output" >&5
+$as_echo_n "checking for x86 cpuid 0 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_0+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_0=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 0, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_0=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_0=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_0" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_0" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 1 output" >&5
+$as_echo_n "checking for x86 cpuid 1 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_1+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_1=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 1, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_1=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_1=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_1" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_1" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+              case $ax_cv_gcc_x86_cpuid_0 in # see AX_GCC_ARCHFLAG
+                *:756e6547:*:*) # Intel
+                  case $ax_cv_gcc_x86_cpuid_1 in
+                    *6a?:*[234]:*:*|*6[789b]?:*:*:*) icc_flags="-xK";;
+                    *f3[347]:*:*:*|*f41347:*:*:*) icc_flags="-xP -xN -xW -xK";;
+                    *f??:*:*:*) icc_flags="-xN -xW -xK";;
+                  esac ;;
+              esac ;;
+          esac
+          if test "x$icc_flags" != x; then
+            for flag in $icc_flags; do
+               { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $flag" >&5
+$as_echo_n "checking whether C compiler accepts $flag... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="$flag"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_$flag" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_$flag" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_$flag" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        icc_archflag=$flag; break
+else
+        :
+fi
+
+            done
+          fi
+          { $as_echo "$as_me:${as_lineno-$LINENO}: checking for icc architecture flag" >&5
+$as_echo_n "checking for icc architecture flag... " >&6; }
+          { $as_echo "$as_me:${as_lineno-$LINENO}: result: $icc_archflag" >&5
+$as_echo "$icc_archflag" >&6; }
+          if test "x$icc_archflag" != xunknown; then
+            CFLAGS="$CFLAGS $icc_archflag"
+          fi
+        fi
+        ;;
+
+    gnu)
+     # default optimization flags for gcc on all systems
+     CFLAGS="-O3 -fomit-frame-pointer"
+
+     # -malign-double for x86 systems
+     # SRE: no, that's a bad idea;
+     #  on 32bit Ubuntu Linux systems, for example, this
+     #  causes an odd and buggy interaction with _FILE_OFFSET_BITS (LFS)
+     #  and fstat().
+     #     AX_CHECK_COMPILER_FLAGS(-malign-double, CFLAGS="$CFLAGS -malign-double")
+
+     #  -fstrict-aliasing for gcc-2.95+
+      { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -fstrict-aliasing" >&5
+$as_echo_n "checking whether C compiler accepts -fstrict-aliasing... " >&6; }
+if ${ax_cv_c_flags__fstrict_aliasing+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-fstrict-aliasing"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__fstrict_aliasing=yes
+else
+  ax_cv_c_flags__fstrict_aliasing=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__fstrict_aliasing
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        CFLAGS="$CFLAGS -fstrict-aliasing"
+else
+        :
+fi
+
+
+     # note that we enable "unsafe" fp optimization with other compilers, too
+     # SRE: no, that's a bad idea, don't use this
+#     AX_CHECK_COMPILER_FLAGS(-ffast-math, CFLAGS="$CFLAGS -ffast-math")
+
+
+
+
+
+
+# Check whether --with-gcc-arch was given.
+if test "${with_gcc_arch+set}" = set; then :
+  withval=$with_gcc_arch; ax_gcc_arch=$withval
+else
+  ax_gcc_arch=yes
+fi
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for gcc architecture flag" >&5
+$as_echo_n "checking for gcc architecture flag... " >&6; }
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5
+$as_echo "" >&6; }
+if ${ax_cv_gcc_archflag+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+ax_cv_gcc_archflag="unknown"
+
+if test "$GCC" = yes; then
+
+if test "x$ax_gcc_arch" = xyes; then
+ax_gcc_arch=""
+if test "$cross_compiling" = no; then
+case $host_cpu in
+  i[3456]86*|x86_64*|amd64*) # use cpuid codes
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 0 output" >&5
+$as_echo_n "checking for x86 cpuid 0 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_0+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_0=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 0, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_0=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_0=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_0" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_0" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 1 output" >&5
+$as_echo_n "checking for x86 cpuid 1 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_1+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_1=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 1, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_1=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_1=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_1" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_1" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+     case $ax_cv_gcc_x86_cpuid_0 in
+       *:756e6547:*:*) # Intel
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[48]?:*:*:*) ax_gcc_arch="pentium-mmx pentium" ;;
+        *5??:*:*:*) ax_gcc_arch=pentium ;;
+        *1?6[7d]?:*:*:*) ax_gcc_arch="penryn core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6[aef]?:*:*:*|*2?6[5cef]?:*:*:*) ax_gcc_arch="corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6c?:*:*:*|*[23]?66?:*:*:*) ax_gcc_arch="atom core2 pentium-m pentium3 pentiumpro" ;;
+        *2?6[ad]?:*:*:*) ax_gcc_arch="corei7-avx corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *[1-9a-f]?6??:*:*:*) ax_gcc_arch="core2 pentiumpro" ;;
+        *6[3456]?:*:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[01]:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[234]:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6[9de]?:*:*:*) ax_gcc_arch="pentium-m pentium3 pentiumpro" ;;
+        *6[78b]?:*:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6f?:*:*:*) ax_gcc_arch="core2 pentium-m pentium3 pentiumpro" ;;
+        *6??:*:*:*) ax_gcc_arch=pentiumpro ;;
+        *f3[347]:*:*:*|*f41347:*:*:*|*f6?:*:*:*)
+        case $host_cpu in
+              x86_64*) ax_gcc_arch="nocona pentium4 pentiumpro" ;;
+              *) ax_gcc_arch="prescott pentium4 pentiumpro" ;;
+            esac ;;
+        *f??:*:*:*) ax_gcc_arch="pentium4 pentiumpro";;
+          esac ;;
+       *:68747541:*:*) # AMD
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[67]?:*:*:*) ax_gcc_arch=k6 ;;
+        *5[8d]?:*:*:*) ax_gcc_arch="k6-2 k6" ;;
+        *5[9]?:*:*:*) ax_gcc_arch="k6-3 k6" ;;
+        *60?:*:*:*) ax_gcc_arch=k7 ;;
+        *6[12]?:*:*:*) ax_gcc_arch="athlon k7" ;;
+        *6[34]?:*:*:*) ax_gcc_arch="athlon-tbird k7" ;;
+        *67?:*:*:*) ax_gcc_arch="athlon-4 athlon k7" ;;
+        *6[68a]?:*:*:*)
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 0x80000006 output" >&5
+$as_echo_n "checking for x86 cpuid 0x80000006 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_0x80000006+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_0x80000006=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 0x80000006, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_0x80000006=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_0x80000006=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_0x80000006" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_0x80000006" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+ # L2 cache size
+           case $ax_cv_gcc_x86_cpuid_0x80000006 in
+                 *:*:*[1-9a-f]??????:*) # (L2 = ecx >> 16) >= 256
+            ax_gcc_arch="athlon-xp athlon-4 athlon k7" ;;
+                 *) ax_gcc_arch="athlon-4 athlon k7" ;;
+           esac ;;
+        *5??f??:*:*:*) ax_gcc_arch="btver1 amdfam10 k8" ;;
+        *6??f??:*:*:*) ax_gcc_arch="bdver1 amdfam10 k8" ;;
+        *[1-9a-f]??f??:*:*:*) ax_gcc_arch="amdfam10 k8" ;;
+        *f[4cef8b]?:*:*:*) ax_gcc_arch="athlon64 k8" ;;
+        *f5?:*:*:*) ax_gcc_arch="opteron k8" ;;
+        *f7?:*:*:*) ax_gcc_arch="athlon-fx opteron k8" ;;
+        *f??:*:*:*) ax_gcc_arch="k8" ;;
+          esac ;;
+    *:746e6543:*:*) # IDT
+       case $ax_cv_gcc_x86_cpuid_1 in
+         *54?:*:*:*) ax_gcc_arch=winchip-c6 ;;
+         *58?:*:*:*) ax_gcc_arch=winchip2 ;;
+         *6[78]?:*:*:*) ax_gcc_arch=c3 ;;
+         *69?:*:*:*) ax_gcc_arch="c3-2 c3" ;;
+       esac ;;
+     esac
+     if test x"$ax_gcc_arch" = x; then # fallback
+    case $host_cpu in
+      i586*) ax_gcc_arch=pentium ;;
+      i686*) ax_gcc_arch=pentiumpro ;;
+        esac
+     fi
+     ;;
+
+  sparc*)
+     # Extract the first word of "prtdiag", so it can be a program name with args.
+set dummy prtdiag; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_path_PRTDIAG+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  case $PRTDIAG in
+  [\\/]* | ?:[\\/]*)
+  ac_cv_path_PRTDIAG="$PRTDIAG" # Let the user override the test with a path.
+  ;;
+  *)
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+as_dummy="$PATH:/usr/platform/`uname -i`/sbin/:/usr/platform/`uname -m`/sbin/"
+for as_dir in $as_dummy
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_path_PRTDIAG="$as_dir/$ac_word$ac_exec_ext"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_path_PRTDIAG" && ac_cv_path_PRTDIAG="prtdiag"
+  ;;
+esac
+fi
+PRTDIAG=$ac_cv_path_PRTDIAG
+if test -n "$PRTDIAG"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $PRTDIAG" >&5
+$as_echo "$PRTDIAG" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+     cputype=`(((grep cpu /proc/cpuinfo | cut -d: -f2) ; ($PRTDIAG -v |grep -i sparc) ; grep -i cpu /var/run/dmesg.boot ) | head -n 1) 2> /dev/null`
+     cputype=`echo "$cputype" | tr -d ' -' | $SED 's/SPARCIIi/SPARCII/' |tr $as_cr_LETTERS $as_cr_letters`
+     case $cputype in
+         *ultrasparciv*) ax_gcc_arch="ultrasparc4 ultrasparc3 ultrasparc v9" ;;
+         *ultrasparciii*) ax_gcc_arch="ultrasparc3 ultrasparc v9" ;;
+         *ultrasparc*) ax_gcc_arch="ultrasparc v9" ;;
+         *supersparc*|*tms390z5[05]*) ax_gcc_arch="supersparc v8" ;;
+         *hypersparc*|*rt62[056]*) ax_gcc_arch="hypersparc v8" ;;
+         *cypress*) ax_gcc_arch=cypress ;;
+     esac ;;
+
+  alphaev5) ax_gcc_arch=ev5 ;;
+  alphaev56) ax_gcc_arch=ev56 ;;
+  alphapca56) ax_gcc_arch="pca56 ev56" ;;
+  alphapca57) ax_gcc_arch="pca57 pca56 ev56" ;;
+  alphaev6) ax_gcc_arch=ev6 ;;
+  alphaev67) ax_gcc_arch=ev67 ;;
+  alphaev68) ax_gcc_arch="ev68 ev67" ;;
+  alphaev69) ax_gcc_arch="ev69 ev68 ev67" ;;
+  alphaev7) ax_gcc_arch="ev7 ev69 ev68 ev67" ;;
+  alphaev79) ax_gcc_arch="ev79 ev7 ev69 ev68 ev67" ;;
+
+  powerpc*)
+     cputype=`((grep cpu /proc/cpuinfo | head -n 1 | cut -d: -f2 | cut -d, -f1 | $SED 's/ //g') ; /usr/bin/machine ; /bin/machine; grep CPU /var/run/dmesg.boot | head -n 1 | cut -d" " -f2) 2> /dev/null`
+     cputype=`echo $cputype | $SED -e 's/ppc//g;s/ *//g'`
+     case $cputype in
+       *750*) ax_gcc_arch="750 G3" ;;
+       *740[0-9]*) ax_gcc_arch="$cputype 7400 G4" ;;
+       *74[4-5][0-9]*) ax_gcc_arch="$cputype 7450 G4" ;;
+       *74[0-9][0-9]*) ax_gcc_arch="$cputype G4" ;;
+       *970*) ax_gcc_arch="970 G5 power4";;
+       *POWER4*|*power4*|*gq*) ax_gcc_arch="power4 970";;
+       *POWER5*|*power5*|*gr*|*gs*) ax_gcc_arch="power5 power4 970";;
+       603ev|8240) ax_gcc_arch="$cputype 603e 603";;
+       *) ax_gcc_arch=$cputype ;;
+     esac
+     ax_gcc_arch="$ax_gcc_arch powerpc"
+     ;;
+esac
+fi # not cross-compiling
+fi # guess arch
+
+if test "x$ax_gcc_arch" != x -a "x$ax_gcc_arch" != xno; then
+for arch in $ax_gcc_arch; do
+  if test "x$acx_maxopt_portable" = xyes; then # if we require portable code
+    flags="-mtune=$arch"
+    # -mcpu=$arch and m$arch generate nonportable code on every arch except
+    # x86.  And some other arches (e.g. Alpha) don't accept -mtune.  Grrr.
+    case $host_cpu in i*86|x86_64*) flags="$flags -mcpu=$arch -m$arch";; esac
+  else
+    flags="-march=$arch -mcpu=$arch -m$arch"
+  fi
+  for flag in $flags; do
+    as_CACHEVAR=`$as_echo "ax_cv_check_cflags__$flag" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $flag" >&5
+$as_echo_n "checking whether C compiler accepts $flag... " >&6; }
+if eval \${$as_CACHEVAR+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+  ax_check_save_flags=$CFLAGS
+  CFLAGS="$CFLAGS  $flag"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval "$as_CACHEVAR=yes"
+else
+  eval "$as_CACHEVAR=no"
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  CFLAGS=$ax_check_save_flags
+fi
+eval ac_res=\$$as_CACHEVAR
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+if test x"`eval 'as_val=${'$as_CACHEVAR'};$as_echo "$as_val"'`" = xyes; then :
+  ax_cv_gcc_archflag=$flag; break
+else
+  :
+fi
+
+  done
+  test "x$ax_cv_gcc_archflag" = xunknown || break
+done
+fi
+
+fi # $GCC=yes
+
+fi
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for gcc architecture flag" >&5
+$as_echo_n "checking for gcc architecture flag... " >&6; }
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_archflag" >&5
+$as_echo "$ax_cv_gcc_archflag" >&6; }
+if test "x$ax_cv_gcc_archflag" = xunknown; then
+  :
+else
+  CFLAGS="$CFLAGS $ax_cv_gcc_archflag"
+fi
+
+     ;;
+  esac
+
+  if test -z "$CFLAGS"; then
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: Don't know the best CFLAGS for this system  *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "* (otherwise, a default of CFLAGS=-O3 will be used)    *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS="-O3"
+  fi
+
+   { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $CFLAGS" >&5
+$as_echo_n "checking whether C compiler accepts $CFLAGS... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="$CFLAGS"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_$CFLAGS" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_$CFLAGS" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_$CFLAGS" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        :
+else
+
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: The guessed CFLAGS don't seem to work with  *"
+        echo "* your compiler.                                       *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS=""
+
+fi
+
+
+fi
+
+   ac_test_CFLAGS="$sre_save_ac_test_cflags"
+   # That was a workaround. AX_CC_MAXOPT apparently thinks that
+   # $ac_test_CFLAGS only gets set if ${CFLAGS} was set by the
+   # user (in the environment), but that's not so; it gets set
+   # by AC_PROG_CC. Instead of rewriting AX_CC_MAXOPT, we fool
+   # it.
+fi
+
+# Figure out how to generate PIC code for shared libraries
+# This sets @PIC_FLAGS@ output variable for Easel.
+
+# Check whether --enable-pic was given.
+if test "${enable_pic+set}" = set; then :
+  enableval=$enable_pic; enable_pic="$enableval"
+    test "x$enable_pic" = x && enable_pic=auto
+else
+  enable_pic=auto
+fi
+
+# disable PIC by default for static builds
+if test "$enable_pic" = auto && test "$enable_static" = yes; then
+    enable_pic=no
+fi
+# if PIC hasn't been explicitly disabled, try to figure out the flags
+if test "$enable_pic" != no; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to produce PIC" >&5
+$as_echo_n "checking for $CC option to produce PIC... " >&6; }
+    # allow the user's flags to override
+    if test "x$PIC_FLAGS" = x; then
+        # see if we're using GCC
+        if test "x$GCC" = xyes; then
+            case "$host_os" in
+            aix*|beos*|cygwin*|irix5*|irix6*|osf3*|osf4*|osf5*)
+                # PIC is the default for these OSes.
+                ;;
+            mingw*|os2*|pw32*)
+                # This hack is so that the source file can tell whether
+                # it is being built for inclusion in a dll (and should
+                # export symbols for example).
+                PIC_FLAGS="-DDLL_EXPORT"
+                ;;
+            darwin*|rhapsody*)
+                # PIC is the default on this platform
+                # Common symbols not allowed in MH_DYLIB files
+                PIC_FLAGS="-fno-common"
+                ;;
+            hpux*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case $host_cpu in
+                hppa*64*|ia64*)
+                    ;;
+                *)
+                    PIC_FLAGS="-fPIC"
+                    ;;
+                esac
+                ;;
+            *)
+                # Everyone else on GCC uses -fPIC
+                PIC_FLAGS="-fPIC"
+                ;;
+            esac
+        else # !GCC
+            case "$host_os" in
+            hpux9*|hpux10*|hpux11*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case "$host_cpu" in
+                hppa*64*|ia64*)
+                    # +Z the default
+                    ;;
+                *)
+                    PIC_FLAGS="+Z"
+                    ;;
+                esac
+                ;;
+            linux*|k*bsd*-gnu)
+                case `basename "$CC"` in
+                icc*|ecc*|ifort*)
+                    PIC_FLAGS="-KPIC"
+                    ;;
+                pgcc*|pgf77*|pgf90*|pgf95*)
+                    # Portland Group compilers (*not* the Pentium gcc
+                    # compiler, which looks to be a dead project)
+                    PIC_FLAGS="-fpic"
+                    ;;
+                ccc*)
+                    # All Alpha code is PIC.
+                    ;;
+                xl*)
+                    # IBM XL C 8.0/Fortran 10.1 on PPC
+                    PIC_FLAGS="-qpic"
+                    ;;
+                *)
+                    case `$CC -V 2>&1 | sed 5q` in
+                    *Sun\ C*|*Sun\ F*)
+                        # Sun C 5.9 or Sun Fortran
+                        PIC_FLAGS="-KPIC"
+                        ;;
+                    esac
+                esac
+                ;;
+            solaris*)
+                PIC_FLAGS="-KPIC"
+                ;;
+            sunos4*)
+                PIC_FLAGS="-PIC"
+                ;;
+            esac
+        fi # GCC
+    fi # PIC_FLAGS
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $PIC_FLAGS" >&5
+$as_echo "$PIC_FLAGS" >&6; }
+fi
+
+
+
+# If we're using SSE, figure out our @SIMD_CFLAGS@
+if test "$impl_choice" = "sse" && test "x$SIMD_CFLAGS" = x; then
+   case $ax_cv_c_compiler_vendor in
+   gnu)    { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -msse2" >&5
+$as_echo_n "checking whether C compiler accepts -msse2... " >&6; }
+if ${ax_cv_c_flags__msse2+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-msse2"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__msse2=yes
+else
+  ax_cv_c_flags__msse2=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__msse2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-msse2"
+else
+        impl_choice=dummy
+fi
+;;
+   intel) ;;
+   *)     ;;
+   esac
+fi
+if test "$enable_sse" = "yes" && test "$impl_choice" = dummy; then
+   as_fn_error $? "SSE instructions are apparently not available; --enable-sse failed" "$LINENO" 5
+fi
+
+# If we're using VMX/Altivec, figure out our @SIMD_CFLAGS@
+if test "$impl_choice" = "vmx"; then
+   if test "x$SIMD_CFLAGS" = x; then
+      if test "$GCC" = "yes"; then
+       	# -DFAKE__VEC__ is a workaround because gcc-3.3 does not
+	# #define __VEC__ with -maltivec.
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -faltivec" >&5
+$as_echo_n "checking whether C compiler accepts -faltivec... " >&6; }
+if ${ax_cv_c_flags__faltivec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-faltivec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__faltivec=yes
+else
+  ax_cv_c_flags__faltivec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__faltivec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-faltivec"
+else
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -maltivec -mabi=altivec" >&5
+$as_echo_n "checking whether C compiler accepts -maltivec -mabi=altivec... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="-maltivec -mabi=altivec"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_-maltivec -mabi=altivec" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_-maltivec -mabi=altivec" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_-maltivec -mabi=altivec" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-maltivec -mabi=altivec"
+else
+        #		[SIMD_CFLAGS="-maltivec -mabi=altivec -DFAKE__VEC__"],
+	         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -fvec" >&5
+$as_echo_n "checking whether C compiler accepts -fvec... " >&6; }
+if ${ax_cv_c_flags__fvec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-fvec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__fvec=yes
+else
+  ax_cv_c_flags__fvec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__fvec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-fvec"
+else
+        as_fn_error $? "Need a version of gcc with -maltivec" "$LINENO" 5
+fi
+
+fi
+
+fi
+
+      elif test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+        SIMD_CFLAGS=""
+        # if debugging is enabled and the xlc_arch flag is set, we need to
+        # set the qarch flag here.  if debugging is NOT enabled, the arch
+        # flag is set in AX_CC_MAXOPT.
+        if test "x$XLC_ARCH" != x; then
+           if test "x$enable_debugging" = xyes; then
+               { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -qarch=$XLC_ARCH" >&5
+$as_echo_n "checking whether C compiler accepts -qarch=$XLC_ARCH... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="-qarch=$XLC_ARCH"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_-qarch=$XLC_ARCH" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_-qarch=$XLC_ARCH" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_-qarch=$XLC_ARCH" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-qarch=$XLC_ARCH"
+else
+        :
+fi
+
+           fi
+        fi
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -qenablevmx" >&5
+$as_echo_n "checking whether C compiler accepts -qenablevmx... " >&6; }
+if ${ax_cv_c_flags__qenablevmx+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-qenablevmx"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__qenablevmx=yes
+else
+  ax_cv_c_flags__qenablevmx=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__qenablevmx
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="$SIMD_CFLAGS -qenablevmx"
+else
+        :
+fi
+
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -qaltivec" >&5
+$as_echo_n "checking whether C compiler accepts -qaltivec... " >&6; }
+if ${ax_cv_c_flags__qaltivec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-qaltivec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__qaltivec=yes
+else
+  ax_cv_c_flags__qaltivec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__qaltivec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="$SIMD_CFLAGS -qaltivec"
+else
+        :
+fi
+
+      else
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -faltivec" >&5
+$as_echo_n "checking whether C compiler accepts -faltivec... " >&6; }
+if ${ax_cv_c_flags__faltivec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-faltivec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__faltivec=yes
+else
+  ax_cv_c_flags__faltivec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__faltivec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-faltivec"
+else
+        :
+fi
+
+      fi
+   fi
+fi
+
+# check if the SSE2 implementation support cast functions
+if test "$impl_choice" = "sse"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking compiler support for sse2 cast functions" >&5
+$as_echo_n "checking compiler support for sse2 cast functions... " >&6; }
+  ssecast=no
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <emmintrin.h>
+int
+main ()
+{
+__m128 a;
+                                       __m128i b;
+                                       b = _mm_castps_si128(a);
+                                       a = _mm_castsi128_ps(b);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  $as_echo "#define HAVE_SSE2_CAST 1" >>confdefs.h
+
+                     ssecast=yes
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ssecast" >&5
+$as_echo "$ssecast" >&6; }
+  CFLAGS="$sre_save_cflags"
+fi
+
+# Verify that we can actually build the chosen implementation; else
+# default to dummy.
+# (For example, Athlon reports as i686-*, so will get assigned to
+# sse impl, but does not support SSE2 instructions.)
+# The test here is cribbed from the Apache configure.ac file.
+#
+if test "$impl_choice" = "sse"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether SSE2 is supported" >&5
+$as_echo_n "checking whether SSE2 is supported... " >&6; }
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <emmintrin.h>
+int
+main ()
+{
+__m128i* one=(__m128i*)_mm_malloc(4, 16);
+				   __m128i* two=(__m128i*)_mm_malloc(4, 16);
+				   __m128i xmm1 = _mm_load_si128(one);
+				   __m128i xmm2 = _mm_load_si128(two);
+				   __m128i xmm3 = _mm_or_si128(xmm1, xmm2);
+				   _mm_store_si128(one, xmm3);
+				   _mm_free(one);
+				   _mm_free(two);
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+   { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+else
+   { $as_echo "$as_me:${as_lineno-$LINENO}: result: no; reverting to dummy implementation" >&5
+$as_echo "no; reverting to dummy implementation" >&6; }
+	  impl_choice=dummy
+
+
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  CFLAGS="$sre_save_cflags"
+fi
+
+if test "$impl_choice" = "vmx"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether Altivec/VMX is supported" >&5
+$as_echo_n "checking whether Altivec/VMX is supported... " >&6; }
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <altivec.h>
+int
+main ()
+{
+vector unsigned char zerov;
+                                   vector unsigned char onev;
+                                   zerov = vec_splat_u8(0);
+                                   onev = vec_splat_u8(1);
+                                   onev = vec_adds(onev, zerov);
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+   { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+else
+   { $as_echo "$as_me:${as_lineno-$LINENO}: result: no; reverting to dummy implementation" >&5
+$as_echo "no; reverting to dummy implementation" >&6; }
+	  impl_choice=dummy
+          if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+             echo "******************************************************"
+             echo "*  You seem to have the IBM  C compiler.  If your    *"
+             echo "*  processor supports vector instructions it is      *"
+             echo "*  possible specifying an architecture would enable  *"
+             echo "*  vector support, i.e.                              *"
+             echo "*                                                    *"
+             echo "*    --with-xlc-arch=XXX                             *"
+             echo "*                                                    *"
+             echo "*  where XXX is pwr6, auto or whatever kind of CPU   *"
+             echo "*  you have.                                         *"
+             echo "******************************************************"
+          fi
+
+
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  CFLAGS="$sre_save_cflags"
+fi
+
+# For x86 processors check if the flush to zero macro is available
+# in order to avoid the performance penalty dealing with sub-normal
+# values in the floating point calculations.
+if test "$impl_choice" = "sse"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether _MM_SET_FLUSH_ZERO_MODE is supported" >&5
+$as_echo_n "checking whether _MM_SET_FLUSH_ZERO_MODE is supported... " >&6; }
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <xmmintrin.h>
+int
+main ()
+{
+_MM_SET_FLUSH_ZERO_MODE (_MM_FLUSH_ZERO_ON);
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+   { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+          $as_echo "#define HAVE_FLUSH_ZERO_MODE 1" >>confdefs.h
+
+else
+   { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  CFLAGS="$sre_save_cflags"
+fi
+
+# Now, we can enable the appropriate optimized implementation.
+case "$impl_choice" in
+sse)  { $as_echo "$as_me:${as_lineno-$LINENO}: Activating Intel/AMD SSE optimized DP implementation" >&5
+$as_echo "$as_me: Activating Intel/AMD SSE optimized DP implementation" >&6;}
+      $as_echo "#define HAVE_SSE2 1" >>confdefs.h
+
+      $as_echo "#define p7_IMPL_SSE 1" >>confdefs.h
+
+      HMMERIMPLLIB="impl_sse/libhmmerimpl.a"
+
+      IMPL_CHOICE="sse"
+      ;;
+
+vmx)  { $as_echo "$as_me:${as_lineno-$LINENO}: Activating Altivec/VMX optimized DP implementation" >&5
+$as_echo "$as_me: Activating Altivec/VMX optimized DP implementation" >&6;}
+      $as_echo "#define HAVE_VMX 1" >>confdefs.h
+
+      $as_echo "#define p7_IMPL_VMX 1" >>confdefs.h
+
+      HMMERIMPLLIB="impl_vmx/libhmmerimpl.a"
+
+      IMPL_CHOICE="vmx"
+      ;;
+
+*)    { $as_echo "$as_me:${as_lineno-$LINENO}: Activating \"dummy\" implementation" >&5
+$as_echo "$as_me: Activating \"dummy\" implementation" >&6;}
+      $as_echo "#define p7_IMPL_DUMMY 1" >>confdefs.h
+
+      HMMERIMPLLIB="impl_dummy/libhmmerimpl.a"
+
+      IMPL_CHOICE="dummy"
+      ;;
+esac
+
+
+
+
+# Check if the linker supports library groups for recursive libraries
+if test "x$impl_choice" != xno; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking compiler support --start-group" >&5
+$as_echo_n "checking compiler support --start-group... " >&6; }
+       LDFLAGS_save=$LDFLAGS
+       LDFLAGS="-Wl,--start-group -Wl,--end-group $LDFLAGS"
+       cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+            GROUPHMMERLIBS="-Wl,--start-group -lhmmer -lhmmerimpl -Wl,--end-group"
+
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+            GROUPHMMERLIBS="-lhmmer -lhmmerimpl"
+
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+       LDFLAGS=$LDFLAGS_save
+else
+  GROUPHMMERLIBS="-lhmmer"
+
+fi
+
+# Define HAVE_GZIP if gzip is in $PATH (or if HAVE_GZIP is already set)
+# Extract the first word of ""gzip"", so it can be a program name with args.
+set dummy "gzip"; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_path_HAVE_GZIP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  case $HAVE_GZIP in
+  [\\/]* | ?:[\\/]*)
+  ac_cv_path_HAVE_GZIP="$HAVE_GZIP" # Let the user override the test with a path.
+  ;;
+  *)
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_path_HAVE_GZIP="$as_dir/$ac_word$ac_exec_ext"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_path_HAVE_GZIP" && ac_cv_path_HAVE_GZIP=""no""
+  ;;
+esac
+fi
+HAVE_GZIP=$ac_cv_path_HAVE_GZIP
+if test -n "$HAVE_GZIP"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $HAVE_GZIP" >&5
+$as_echo "$HAVE_GZIP" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+if test "${HAVE_GZIP}" = "no"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: gzip not found" >&5
+$as_echo "$as_me: WARNING: gzip not found" >&2;}
+else
+  $as_echo "#define HAVE_GZIP 1" >>confdefs.h
+
+fi
+
+# 5. Checks for libraries
+#
+LIBGSL=
+if test "x$with_gsl" != xno; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for gsl_expm1 in -lgsl" >&5
+$as_echo_n "checking for gsl_expm1 in -lgsl... " >&6; }
+if ${ac_cv_lib_gsl_gsl_expm1+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lgsl -lgslcblas
+         $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char gsl_expm1 ();
+int
+main ()
+{
+return gsl_expm1 ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_gsl_gsl_expm1=yes
+else
+  ac_cv_lib_gsl_gsl_expm1=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_gsl_gsl_expm1" >&5
+$as_echo "$ac_cv_lib_gsl_gsl_expm1" >&6; }
+if test "x$ac_cv_lib_gsl_gsl_expm1" = xyes; then :
+  LIBGSL="-lgsl -lgslcblas"
+
+
+$as_echo "#define HAVE_LIBGSL 1" >>confdefs.h
+
+
+else
+  if test "x$with_gsl" != xcheck; then
+             { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "--with-gsl was given, but GSL library was not found
+See \`config.log' for more details" "$LINENO" 5; }
+            fi
+
+fi
+
+fi
+
+# Checks for headers
+#
+# Defines HAVE_SYS_TYPES_H, HAVE_STDINT_H, etc.
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for grep that handles long lines and -e" >&5
+$as_echo_n "checking for grep that handles long lines and -e... " >&6; }
+if ${ac_cv_path_GREP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -z "$GREP"; then
+  ac_path_GREP_found=false
+  # Loop through the user's path and test for each of PROGNAME-LIST
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH$PATH_SEPARATOR/usr/xpg4/bin
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_prog in grep ggrep; do
+    for ac_exec_ext in '' $ac_executable_extensions; do
+      ac_path_GREP="$as_dir/$ac_prog$ac_exec_ext"
+      { test -f "$ac_path_GREP" && $as_test_x "$ac_path_GREP"; } || continue
+# Check for GNU ac_path_GREP and select it if it is found.
+  # Check for GNU $ac_path_GREP
+case `"$ac_path_GREP" --version 2>&1` in
+*GNU*)
+  ac_cv_path_GREP="$ac_path_GREP" ac_path_GREP_found=:;;
+*)
+  ac_count=0
+  $as_echo_n 0123456789 >"conftest.in"
+  while :
+  do
+    cat "conftest.in" "conftest.in" >"conftest.tmp"
+    mv "conftest.tmp" "conftest.in"
+    cp "conftest.in" "conftest.nl"
+    $as_echo 'GREP' >> "conftest.nl"
+    "$ac_path_GREP" -e 'GREP$' -e '-(cannot match)-' < "conftest.nl" >"conftest.out" 2>/dev/null || break
+    diff "conftest.out" "conftest.nl" >/dev/null 2>&1 || break
+    as_fn_arith $ac_count + 1 && ac_count=$as_val
+    if test $ac_count -gt ${ac_path_GREP_max-0}; then
+      # Best one so far, save it but keep looking for a better one
+      ac_cv_path_GREP="$ac_path_GREP"
+      ac_path_GREP_max=$ac_count
+    fi
+    # 10*(2^10) chars as input seems more than enough
+    test $ac_count -gt 10 && break
+  done
+  rm -f conftest.in conftest.tmp conftest.nl conftest.out;;
+esac
+
+      $ac_path_GREP_found && break 3
+    done
+  done
+  done
+IFS=$as_save_IFS
+  if test -z "$ac_cv_path_GREP"; then
+    as_fn_error $? "no acceptable grep could be found in $PATH$PATH_SEPARATOR/usr/xpg4/bin" "$LINENO" 5
+  fi
+else
+  ac_cv_path_GREP=$GREP
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_path_GREP" >&5
+$as_echo "$ac_cv_path_GREP" >&6; }
+ GREP="$ac_cv_path_GREP"
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for egrep" >&5
+$as_echo_n "checking for egrep... " >&6; }
+if ${ac_cv_path_EGREP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if echo a | $GREP -E '(a|b)' >/dev/null 2>&1
+   then ac_cv_path_EGREP="$GREP -E"
+   else
+     if test -z "$EGREP"; then
+  ac_path_EGREP_found=false
+  # Loop through the user's path and test for each of PROGNAME-LIST
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH$PATH_SEPARATOR/usr/xpg4/bin
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_prog in egrep; do
+    for ac_exec_ext in '' $ac_executable_extensions; do
+      ac_path_EGREP="$as_dir/$ac_prog$ac_exec_ext"
+      { test -f "$ac_path_EGREP" && $as_test_x "$ac_path_EGREP"; } || continue
+# Check for GNU ac_path_EGREP and select it if it is found.
+  # Check for GNU $ac_path_EGREP
+case `"$ac_path_EGREP" --version 2>&1` in
+*GNU*)
+  ac_cv_path_EGREP="$ac_path_EGREP" ac_path_EGREP_found=:;;
+*)
+  ac_count=0
+  $as_echo_n 0123456789 >"conftest.in"
+  while :
+  do
+    cat "conftest.in" "conftest.in" >"conftest.tmp"
+    mv "conftest.tmp" "conftest.in"
+    cp "conftest.in" "conftest.nl"
+    $as_echo 'EGREP' >> "conftest.nl"
+    "$ac_path_EGREP" 'EGREP$' < "conftest.nl" >"conftest.out" 2>/dev/null || break
+    diff "conftest.out" "conftest.nl" >/dev/null 2>&1 || break
+    as_fn_arith $ac_count + 1 && ac_count=$as_val
+    if test $ac_count -gt ${ac_path_EGREP_max-0}; then
+      # Best one so far, save it but keep looking for a better one
+      ac_cv_path_EGREP="$ac_path_EGREP"
+      ac_path_EGREP_max=$ac_count
+    fi
+    # 10*(2^10) chars as input seems more than enough
+    test $ac_count -gt 10 && break
+  done
+  rm -f conftest.in conftest.tmp conftest.nl conftest.out;;
+esac
+
+      $ac_path_EGREP_found && break 3
+    done
+  done
+  done
+IFS=$as_save_IFS
+  if test -z "$ac_cv_path_EGREP"; then
+    as_fn_error $? "no acceptable egrep could be found in $PATH$PATH_SEPARATOR/usr/xpg4/bin" "$LINENO" 5
+  fi
+else
+  ac_cv_path_EGREP=$EGREP
+fi
+
+   fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_path_EGREP" >&5
+$as_echo "$ac_cv_path_EGREP" >&6; }
+ EGREP="$ac_cv_path_EGREP"
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for ANSI C header files" >&5
+$as_echo_n "checking for ANSI C header files... " >&6; }
+if ${ac_cv_header_stdc+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdlib.h>
+#include <stdarg.h>
+#include <string.h>
+#include <float.h>
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_header_stdc=yes
+else
+  ac_cv_header_stdc=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+
+if test $ac_cv_header_stdc = yes; then
+  # SunOS 4.x string.h does not declare mem*, contrary to ANSI.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <string.h>
+
+_ACEOF
+if (eval "$ac_cpp conftest.$ac_ext") 2>&5 |
+  $EGREP "memchr" >/dev/null 2>&1; then :
+
+else
+  ac_cv_header_stdc=no
+fi
+rm -f conftest*
+
+fi
+
+if test $ac_cv_header_stdc = yes; then
+  # ISC 2.0.2 stdlib.h does not declare free, contrary to ANSI.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdlib.h>
+
+_ACEOF
+if (eval "$ac_cpp conftest.$ac_ext") 2>&5 |
+  $EGREP "free" >/dev/null 2>&1; then :
+
+else
+  ac_cv_header_stdc=no
+fi
+rm -f conftest*
+
+fi
+
+if test $ac_cv_header_stdc = yes; then
+  # /bin/cc in Irix-4.0.5 gets non-ANSI ctype macros unless using -ansi.
+  if test "$cross_compiling" = yes; then :
+  :
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <ctype.h>
+#include <stdlib.h>
+#if ((' ' & 0x0FF) == 0x020)
+# define ISLOWER(c) ('a' <= (c) && (c) <= 'z')
+# define TOUPPER(c) (ISLOWER(c) ? 'A' + ((c) - 'a') : (c))
+#else
+# define ISLOWER(c) \
+		   (('a' <= (c) && (c) <= 'i') \
+		     || ('j' <= (c) && (c) <= 'r') \
+		     || ('s' <= (c) && (c) <= 'z'))
+# define TOUPPER(c) (ISLOWER(c) ? ((c) | 0x40) : (c))
+#endif
+
+#define XOR(e, f) (((e) && !(f)) || (!(e) && (f)))
+int
+main ()
+{
+  int i;
+  for (i = 0; i < 256; i++)
+    if (XOR (islower (i), ISLOWER (i))
+	|| toupper (i) != TOUPPER (i))
+      return 2;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+
+else
+  ac_cv_header_stdc=no
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_header_stdc" >&5
+$as_echo "$ac_cv_header_stdc" >&6; }
+if test $ac_cv_header_stdc = yes; then
+
+$as_echo "#define STDC_HEADERS 1" >>confdefs.h
+
+fi
+
+# On IRIX 5.3, sys/types and inttypes.h are conflicting.
+for ac_header in sys/types.h sys/stat.h stdlib.h string.h memory.h strings.h \
+		  inttypes.h stdint.h unistd.h
+do :
+  as_ac_Header=`$as_echo "ac_cv_header_$ac_header" | $as_tr_sh`
+ac_fn_c_check_header_compile "$LINENO" "$ac_header" "$as_ac_Header" "$ac_includes_default
+"
+if eval test \"x\$"$as_ac_Header"\" = x"yes"; then :
+  cat >>confdefs.h <<_ACEOF
+#define `$as_echo "HAVE_$ac_header" | $as_tr_cpp` 1
+_ACEOF
+
+fi
+
+done
+
+
+for ac_header in  \
+  endian.h\
+  inttypes.h\
+  stdint.h\
+  unistd.h\
+  sys/types.h\
+  netinet/in.h
+
+do :
+  as_ac_Header=`$as_echo "ac_cv_header_$ac_header" | $as_tr_sh`
+ac_fn_c_check_header_mongrel "$LINENO" "$ac_header" "$as_ac_Header" "$ac_includes_default"
+if eval test \"x\$"$as_ac_Header"\" = x"yes"; then :
+  cat >>confdefs.h <<_ACEOF
+#define `$as_echo "HAVE_$ac_header" | $as_tr_cpp` 1
+_ACEOF
+
+fi
+
+done
+
+
+# Check for sysctl.h separately.  On OpenBSD, it requires
+# <sys/param.h> and autoconf needs special logic to deal w. this as
+# follows.
+for ac_header in sys/param.h
+do :
+  ac_fn_c_check_header_mongrel "$LINENO" "sys/param.h" "ac_cv_header_sys_param_h" "$ac_includes_default"
+if test "x$ac_cv_header_sys_param_h" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYS_PARAM_H 1
+_ACEOF
+
+fi
+
+done
+
+for ac_header in sys/sysctl.h
+do :
+  ac_fn_c_check_header_compile "$LINENO" "sys/sysctl.h" "ac_cv_header_sys_sysctl_h" "#ifdef HAVE_SYS_PARAM_H
+#include <sys/param.h>
+#endif
+
+"
+if test "x$ac_cv_header_sys_sysctl_h" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYS_SYSCTL_H 1
+_ACEOF
+
+fi
+
+done
+
+
+
+# altivec.h requires the simd cflags
+# For reasons I don't understand, this needs to come after any other CHECK_HEADERS().
+if test "$impl_choice" = "vmx"; then
+   sre_save_CFLAGS="$CFLAGS"
+   sre_save_CPPFLAGS="$CPPFLAGS"
+   CFLAGS="$CFLAGS $SIMD_CFLAGS"
+   CPPFLAGS="$CPPFLAGS $SIMD_CFLAGS"
+   for ac_header in altivec.h
+do :
+  ac_fn_c_check_header_mongrel "$LINENO" "altivec.h" "ac_cv_header_altivec_h" "$ac_includes_default"
+if test "x$ac_cv_header_altivec_h" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_ALTIVEC_H 1
+_ACEOF
+
+fi
+
+done
+
+   CFLAGS="$sre_save_CFLAGS"
+   CPPFLAGS="$sre_save_CPPFLAGS"
+fi
+
+# Checks for types
+#
+ { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether byte ordering is bigendian" >&5
+$as_echo_n "checking whether byte ordering is bigendian... " >&6; }
+if ${ac_cv_c_bigendian+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_c_bigendian=unknown
+    # See if we're dealing with a universal compiler.
+    cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#ifndef __APPLE_CC__
+	       not a universal capable compiler
+	     #endif
+	     typedef int dummy;
+
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+	# Check for potential -arch flags.  It is not universal unless
+	# there are at least two -arch flags with different values.
+	ac_arch=
+	ac_prev=
+	for ac_word in $CC $CFLAGS $CPPFLAGS $LDFLAGS; do
+	 if test -n "$ac_prev"; then
+	   case $ac_word in
+	     i?86 | x86_64 | ppc | ppc64)
+	       if test -z "$ac_arch" || test "$ac_arch" = "$ac_word"; then
+		 ac_arch=$ac_word
+	       else
+		 ac_cv_c_bigendian=universal
+		 break
+	       fi
+	       ;;
+	   esac
+	   ac_prev=
+	 elif test "x$ac_word" = "x-arch"; then
+	   ac_prev=arch
+	 fi
+       done
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+    if test $ac_cv_c_bigendian = unknown; then
+      # See if sys/param.h defines the BYTE_ORDER macro.
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+	     #include <sys/param.h>
+
+int
+main ()
+{
+#if ! (defined BYTE_ORDER && defined BIG_ENDIAN \
+		     && defined LITTLE_ENDIAN && BYTE_ORDER && BIG_ENDIAN \
+		     && LITTLE_ENDIAN)
+	      bogus endian macros
+	     #endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  # It does; now see whether it defined to BIG_ENDIAN or not.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+		#include <sys/param.h>
+
+int
+main ()
+{
+#if BYTE_ORDER != BIG_ENDIAN
+		 not big endian
+		#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_c_bigendian=yes
+else
+  ac_cv_c_bigendian=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+    fi
+    if test $ac_cv_c_bigendian = unknown; then
+      # See if <limits.h> defines _LITTLE_ENDIAN or _BIG_ENDIAN (e.g., Solaris).
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <limits.h>
+
+int
+main ()
+{
+#if ! (defined _LITTLE_ENDIAN || defined _BIG_ENDIAN)
+	      bogus endian macros
+	     #endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  # It does; now see whether it defined to _BIG_ENDIAN or not.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <limits.h>
+
+int
+main ()
+{
+#ifndef _BIG_ENDIAN
+		 not big endian
+		#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_c_bigendian=yes
+else
+  ac_cv_c_bigendian=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+    fi
+    if test $ac_cv_c_bigendian = unknown; then
+      # Compile a test program.
+      if test "$cross_compiling" = yes; then :
+  # Try to guess by grepping values from an object file.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+short int ascii_mm[] =
+		  { 0x4249, 0x4765, 0x6E44, 0x6961, 0x6E53, 0x7953, 0 };
+		short int ascii_ii[] =
+		  { 0x694C, 0x5454, 0x656C, 0x6E45, 0x6944, 0x6E61, 0 };
+		int use_ascii (int i) {
+		  return ascii_mm[i] + ascii_ii[i];
+		}
+		short int ebcdic_ii[] =
+		  { 0x89D3, 0xE3E3, 0x8593, 0x95C5, 0x89C4, 0x9581, 0 };
+		short int ebcdic_mm[] =
+		  { 0xC2C9, 0xC785, 0x95C4, 0x8981, 0x95E2, 0xA8E2, 0 };
+		int use_ebcdic (int i) {
+		  return ebcdic_mm[i] + ebcdic_ii[i];
+		}
+		extern int foo;
+
+int
+main ()
+{
+return use_ascii (foo) == use_ebcdic (foo);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  if grep BIGenDianSyS conftest.$ac_objext >/dev/null; then
+	      ac_cv_c_bigendian=yes
+	    fi
+	    if grep LiTTleEnDian conftest.$ac_objext >/dev/null ; then
+	      if test "$ac_cv_c_bigendian" = unknown; then
+		ac_cv_c_bigendian=no
+	      else
+		# finding both strings is unlikely to happen, but who knows?
+		ac_cv_c_bigendian=unknown
+	      fi
+	    fi
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$ac_includes_default
+int
+main ()
+{
+
+	     /* Are we little or big endian?  From Harbison&Steele.  */
+	     union
+	     {
+	       long int l;
+	       char c[sizeof (long int)];
+	     } u;
+	     u.l = 1;
+	     return u.c[sizeof (long int) - 1] == 1;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ac_cv_c_bigendian=no
+else
+  ac_cv_c_bigendian=yes
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+    fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_c_bigendian" >&5
+$as_echo "$ac_cv_c_bigendian" >&6; }
+ case $ac_cv_c_bigendian in #(
+   yes)
+     $as_echo "#define WORDS_BIGENDIAN 1" >>confdefs.h
+;; #(
+   no)
+      ;; #(
+   universal)
+
+$as_echo "#define AC_APPLE_UNIVERSAL_BUILD 1" >>confdefs.h
+
+     ;; #(
+   *)
+     as_fn_error $? "unknown endianness
+ presetting ac_cv_c_bigendian=no (or yes) will help" "$LINENO" 5 ;;
+ esac
+
+ac_fn_c_find_uintX_t "$LINENO" "8" "ac_cv_c_uint8_t"
+case $ac_cv_c_uint8_t in #(
+  no|yes) ;; #(
+  *)
+
+$as_echo "#define _UINT8_T 1" >>confdefs.h
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint8_t $ac_cv_c_uint8_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_find_uintX_t "$LINENO" "16" "ac_cv_c_uint16_t"
+case $ac_cv_c_uint16_t in #(
+  no|yes) ;; #(
+  *)
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint16_t $ac_cv_c_uint16_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_find_uintX_t "$LINENO" "32" "ac_cv_c_uint32_t"
+case $ac_cv_c_uint32_t in #(
+  no|yes) ;; #(
+  *)
+
+$as_echo "#define _UINT32_T 1" >>confdefs.h
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint32_t $ac_cv_c_uint32_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_find_uintX_t "$LINENO" "64" "ac_cv_c_uint64_t"
+case $ac_cv_c_uint64_t in #(
+  no|yes) ;; #(
+  *)
+
+$as_echo "#define _UINT64_T 1" >>confdefs.h
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint64_t $ac_cv_c_uint64_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_check_type "$LINENO" "off_t" "ac_cv_type_off_t" "$ac_includes_default"
+if test "x$ac_cv_type_off_t" = xyes; then :
+
+else
+
+cat >>confdefs.h <<_ACEOF
+#define off_t long int
+_ACEOF
+
+fi
+
+
+# Checks for functions, defining HAVE_FOO when foo is found
+#
+for ac_func in mkstemp
+do :
+  ac_fn_c_check_func "$LINENO" "mkstemp" "ac_cv_func_mkstemp"
+if test "x$ac_cv_func_mkstemp" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_MKSTEMP 1
+_ACEOF
+
+fi
+done
+
+for ac_func in popen
+do :
+  ac_fn_c_check_func "$LINENO" "popen" "ac_cv_func_popen"
+if test "x$ac_cv_func_popen" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_POPEN 1
+_ACEOF
+
+fi
+done
+
+for ac_func in strcasecmp
+do :
+  ac_fn_c_check_func "$LINENO" "strcasecmp" "ac_cv_func_strcasecmp"
+if test "x$ac_cv_func_strcasecmp" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_STRCASECMP 1
+_ACEOF
+
+fi
+done
+
+for ac_func in times
+do :
+  ac_fn_c_check_func "$LINENO" "times" "ac_cv_func_times"
+if test "x$ac_cv_func_times" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_TIMES 1
+_ACEOF
+
+fi
+done
+
+for ac_func in getpid
+do :
+  ac_fn_c_check_func "$LINENO" "getpid" "ac_cv_func_getpid"
+if test "x$ac_cv_func_getpid" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_GETPID 1
+_ACEOF
+
+fi
+done
+
+for ac_func in sysctl
+do :
+  ac_fn_c_check_func "$LINENO" "sysctl" "ac_cv_func_sysctl"
+if test "x$ac_cv_func_sysctl" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYSCTL 1
+_ACEOF
+
+fi
+done
+
+for ac_func in sysconf
+do :
+  ac_fn_c_check_func "$LINENO" "sysconf" "ac_cv_func_sysconf"
+if test "x$ac_cv_func_sysconf" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYSCONF 1
+_ACEOF
+
+fi
+done
+
+for ac_func in getcwd
+do :
+  ac_fn_c_check_func "$LINENO" "getcwd" "ac_cv_func_getcwd"
+if test "x$ac_cv_func_getcwd" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_GETCWD 1
+_ACEOF
+
+fi
+done
+
+for ac_func in stat
+do :
+  ac_fn_c_check_func "$LINENO" "stat" "ac_cv_func_stat"
+if test "x$ac_cv_func_stat" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_STAT 1
+_ACEOF
+
+fi
+done
+
+for ac_func in fstat
+do :
+  ac_fn_c_check_func "$LINENO" "fstat" "ac_cv_func_fstat"
+if test "x$ac_cv_func_fstat" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_FSTAT 1
+_ACEOF
+
+fi
+done
+
+
+for ac_func in ntohs
+do :
+  ac_fn_c_check_func "$LINENO" "ntohs" "ac_cv_func_ntohs"
+if test "x$ac_cv_func_ntohs" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_NTOHS 1
+_ACEOF
+
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for ntohs in -lsocket" >&5
+$as_echo_n "checking for ntohs in -lsocket... " >&6; }
+if ${ac_cv_lib_socket_ntohs+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lsocket  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char ntohs ();
+int
+main ()
+{
+return ntohs ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_socket_ntohs=yes
+else
+  ac_cv_lib_socket_ntohs=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_socket_ntohs" >&5
+$as_echo "$ac_cv_lib_socket_ntohs" >&6; }
+if test "x$ac_cv_lib_socket_ntohs" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_LIBSOCKET 1
+_ACEOF
+
+  LIBS="-lsocket $LIBS"
+
+fi
+
+fi
+done
+
+for ac_func in ntohl
+do :
+  ac_fn_c_check_func "$LINENO" "ntohl" "ac_cv_func_ntohl"
+if test "x$ac_cv_func_ntohl" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_NTOHL 1
+_ACEOF
+
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for ntohl in -lsocket" >&5
+$as_echo_n "checking for ntohl in -lsocket... " >&6; }
+if ${ac_cv_lib_socket_ntohl+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lsocket  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char ntohl ();
+int
+main ()
+{
+return ntohl ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_socket_ntohl=yes
+else
+  ac_cv_lib_socket_ntohl=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_socket_ntohl" >&5
+$as_echo "$ac_cv_lib_socket_ntohl" >&6; }
+if test "x$ac_cv_lib_socket_ntohl" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_LIBSOCKET 1
+_ACEOF
+
+  LIBS="-lsocket $LIBS"
+
+fi
+
+fi
+done
+
+for ac_func in htons
+do :
+  ac_fn_c_check_func "$LINENO" "htons" "ac_cv_func_htons"
+if test "x$ac_cv_func_htons" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_HTONS 1
+_ACEOF
+
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for htons in -lsocket" >&5
+$as_echo_n "checking for htons in -lsocket... " >&6; }
+if ${ac_cv_lib_socket_htons+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lsocket  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char htons ();
+int
+main ()
+{
+return htons ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_socket_htons=yes
+else
+  ac_cv_lib_socket_htons=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_socket_htons" >&5
+$as_echo "$ac_cv_lib_socket_htons" >&6; }
+if test "x$ac_cv_lib_socket_htons" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_LIBSOCKET 1
+_ACEOF
+
+  LIBS="-lsocket $LIBS"
+
+fi
+
+fi
+done
+
+for ac_func in htonl
+do :
+  ac_fn_c_check_func "$LINENO" "htonl" "ac_cv_func_htonl"
+if test "x$ac_cv_func_htonl" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_HTONL 1
+_ACEOF
+
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for htonl in -lsocket" >&5
+$as_echo_n "checking for htonl in -lsocket... " >&6; }
+if ${ac_cv_lib_socket_htonl+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lsocket  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char htonl ();
+int
+main ()
+{
+return htonl ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_socket_htonl=yes
+else
+  ac_cv_lib_socket_htonl=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_socket_htonl" >&5
+$as_echo "$ac_cv_lib_socket_htonl" >&6; }
+if test "x$ac_cv_lib_socket_htonl" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_LIBSOCKET 1
+_ACEOF
+
+  LIBS="-lsocket $LIBS"
+
+fi
+
+fi
+done
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for _LARGEFILE_SOURCE value needed for large files" >&5
+$as_echo_n "checking for _LARGEFILE_SOURCE value needed for large files... " >&6; }
+if ${ac_cv_sys_largefile_source+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  while :; do
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h> /* for off_t */
+     #include <stdio.h>
+int
+main ()
+{
+int (*fp) (FILE *, off_t, int) = fseeko;
+     return fseeko (stdin, 0, 0) && fp (stdin, 0, 0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_sys_largefile_source=no; break
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#define _LARGEFILE_SOURCE 1
+#include <sys/types.h> /* for off_t */
+     #include <stdio.h>
+int
+main ()
+{
+int (*fp) (FILE *, off_t, int) = fseeko;
+     return fseeko (stdin, 0, 0) && fp (stdin, 0, 0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_sys_largefile_source=1; break
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+  ac_cv_sys_largefile_source=unknown
+  break
+done
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_largefile_source" >&5
+$as_echo "$ac_cv_sys_largefile_source" >&6; }
+case $ac_cv_sys_largefile_source in #(
+  no | unknown) ;;
+  *)
+cat >>confdefs.h <<_ACEOF
+#define _LARGEFILE_SOURCE $ac_cv_sys_largefile_source
+_ACEOF
+;;
+esac
+rm -rf conftest*
+
+# We used to try defining _XOPEN_SOURCE=500 too, to work around a bug
+# in glibc 2.1.3, but that breaks too many other things.
+# If you want fseeko and ftello with glibc, upgrade to a fixed glibc.
+if test $ac_cv_sys_largefile_source != unknown; then
+
+$as_echo "#define HAVE_FSEEKO 1" >>confdefs.h
+
+fi
+
+
+#
+# 11. System services
+#
+# Check whether --enable-largefile was given.
+if test "${enable_largefile+set}" = set; then :
+  enableval=$enable_largefile;
+fi
+
+if test "$enable_largefile" != no; then
+
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for special C compiler options needed for large files" >&5
+$as_echo_n "checking for special C compiler options needed for large files... " >&6; }
+if ${ac_cv_sys_largefile_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_sys_largefile_CC=no
+     if test "$GCC" != yes; then
+       ac_save_CC=$CC
+       while :; do
+	 # IRIX 6.2 and later do not support large files by default,
+	 # so use the C compiler's -n32 option if that helps.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+	 if ac_fn_c_try_compile "$LINENO"; then :
+  break
+fi
+rm -f core conftest.err conftest.$ac_objext
+	 CC="$CC -n32"
+	 if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_largefile_CC=' -n32'; break
+fi
+rm -f core conftest.err conftest.$ac_objext
+	 break
+       done
+       CC=$ac_save_CC
+       rm -f conftest.$ac_ext
+    fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_largefile_CC" >&5
+$as_echo "$ac_cv_sys_largefile_CC" >&6; }
+  if test "$ac_cv_sys_largefile_CC" != no; then
+    CC=$CC$ac_cv_sys_largefile_CC
+  fi
+
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for _FILE_OFFSET_BITS value needed for large files" >&5
+$as_echo_n "checking for _FILE_OFFSET_BITS value needed for large files... " >&6; }
+if ${ac_cv_sys_file_offset_bits+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  while :; do
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_file_offset_bits=no; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#define _FILE_OFFSET_BITS 64
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_file_offset_bits=64; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  ac_cv_sys_file_offset_bits=unknown
+  break
+done
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_file_offset_bits" >&5
+$as_echo "$ac_cv_sys_file_offset_bits" >&6; }
+case $ac_cv_sys_file_offset_bits in #(
+  no | unknown) ;;
+  *)
+cat >>confdefs.h <<_ACEOF
+#define _FILE_OFFSET_BITS $ac_cv_sys_file_offset_bits
+_ACEOF
+;;
+esac
+rm -rf conftest*
+  if test $ac_cv_sys_file_offset_bits = unknown; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: checking for _LARGE_FILES value needed for large files" >&5
+$as_echo_n "checking for _LARGE_FILES value needed for large files... " >&6; }
+if ${ac_cv_sys_large_files+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  while :; do
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_large_files=no; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#define _LARGE_FILES 1
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_large_files=1; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  ac_cv_sys_large_files=unknown
+  break
+done
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_large_files" >&5
+$as_echo "$ac_cv_sys_large_files" >&6; }
+case $ac_cv_sys_large_files in #(
+  no | unknown) ;;
+  *)
+cat >>confdefs.h <<_ACEOF
+#define _LARGE_FILES $ac_cv_sys_large_files
+_ACEOF
+;;
+esac
+rm -rf conftest*
+  fi
+fi
+
+
+
+# Done.
+# Config subdirs and files (except main Makefile, which we defer)
+#
+if test -d release-notes; then
+  ac_config_files="$ac_config_files release-notes/LICENSE.sh"
+
+fi
+
+ac_config_files="$ac_config_files documentation/Makefile"
+
+ac_config_files="$ac_config_files documentation/man/Makefile"
+
+if test -d "documentation/userguide"; then
+  ac_config_files="$ac_config_files documentation/userguide/Makefile"
+
+fi
+ac_config_files="$ac_config_files src/Makefile"
+
+ac_config_files="$ac_config_files testsuite/Makefile"
+
+ac_config_files="$ac_config_files profmark/Makefile"
+
+ac_config_files="$ac_config_files src/impl_${impl_choice}/Makefile"
+
+ac_config_headers="$ac_config_headers src/p7_config.h"
+
+ac_config_headers="$ac_config_headers easel/esl_config.h"
+
+ac_config_headers="$ac_config_headers libdivsufsort/divsufsort.h"
+
+ac_config_files="$ac_config_files easel/miniapps/Makefile"
+
+ac_config_files="$ac_config_files easel/testsuite/Makefile"
+
+if test -d "easel/documentation"; then
+  ac_config_files="$ac_config_files easel/documentation/Makefile"
+
+fi
+ac_config_files="$ac_config_files easel/Makefile"
+
+ac_config_files="$ac_config_files libdivsufsort/Makefile"
+
+
+# the following incantation establishes a symlink of
+# src/impl_{whatever} to src/impl in the *build* directory.
+# Testsuite sqc tests rely on it.
+ac_config_links="$ac_config_links src/impl:${ac_top_build_prefix}src/impl_${impl_choice}"
+
+
+################################################################
+# 13. AC_OUTPUT
+################################################################
+# remember that sneaky if statement that wraps the source
+# configuration? well, it ends here.
+#else
+#  AC_MSG_NOTICE([This is a precompiled binary distribution - using abbreviated config])
+#fi
+ac_config_files="$ac_config_files Makefile"
+
+cat >confcache <<\_ACEOF
+# This file is a shell script that caches the results of configure
+# tests run on this system so they can be shared between configure
+# scripts and configure runs, see configure's option --config-cache.
+# It is not useful on other systems.  If it contains results you don't
+# want to keep, you may remove or edit it.
+#
+# config.status only pays attention to the cache file if you give it
+# the --recheck option to rerun configure.
+#
+# `ac_cv_env_foo' variables (set or unset) will be overridden when
+# loading this file, other *unset* `ac_cv_foo' will be assigned the
+# following values.
+
+_ACEOF
+
+# The following way of writing the cache mishandles newlines in values,
+# but we know of no workaround that is simple, portable, and efficient.
+# So, we kill variables containing newlines.
+# Ultrix sh set writes to stderr and can't be redirected directly,
+# and sets the high bit in the cache file unless we assign to the vars.
+(
+  for ac_var in `(set) 2>&1 | sed -n 's/^\([a-zA-Z_][a-zA-Z0-9_]*\)=.*/\1/p'`; do
+    eval ac_val=\$$ac_var
+    case $ac_val in #(
+    *${as_nl}*)
+      case $ac_var in #(
+      *_cv_*) { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: cache variable $ac_var contains a newline" >&5
+$as_echo "$as_me: WARNING: cache variable $ac_var contains a newline" >&2;} ;;
+      esac
+      case $ac_var in #(
+      _ | IFS | as_nl) ;; #(
+      BASH_ARGV | BASH_SOURCE) eval $ac_var= ;; #(
+      *) { eval $ac_var=; unset $ac_var;} ;;
+      esac ;;
+    esac
+  done
+
+  (set) 2>&1 |
+    case $as_nl`(ac_space=' '; set) 2>&1` in #(
+    *${as_nl}ac_space=\ *)
+      # `set' does not quote correctly, so add quotes: double-quote
+      # substitution turns \\\\ into \\, and sed turns \\ into \.
+      sed -n \
+	"s/'/'\\\\''/g;
+	  s/^\\([_$as_cr_alnum]*_cv_[_$as_cr_alnum]*\\)=\\(.*\\)/\\1='\\2'/p"
+      ;; #(
+    *)
+      # `set' quotes correctly as required by POSIX, so do not add quotes.
+      sed -n "/^[_$as_cr_alnum]*_cv_[_$as_cr_alnum]*=/p"
+      ;;
+    esac |
+    sort
+) |
+  sed '
+     /^ac_cv_env_/b end
+     t clear
+     :clear
+     s/^\([^=]*\)=\(.*[{}].*\)$/test "${\1+set}" = set || &/
+     t end
+     s/^\([^=]*\)=\(.*\)$/\1=${\1=\2}/
+     :end' >>confcache
+if diff "$cache_file" confcache >/dev/null 2>&1; then :; else
+  if test -w "$cache_file"; then
+    if test "x$cache_file" != "x/dev/null"; then
+      { $as_echo "$as_me:${as_lineno-$LINENO}: updating cache $cache_file" >&5
+$as_echo "$as_me: updating cache $cache_file" >&6;}
+      if test ! -f "$cache_file" || test -h "$cache_file"; then
+	cat confcache >"$cache_file"
+      else
+        case $cache_file in #(
+        */* | ?:*)
+	  mv -f confcache "$cache_file"$$ &&
+	  mv -f "$cache_file"$$ "$cache_file" ;; #(
+        *)
+	  mv -f confcache "$cache_file" ;;
+	esac
+      fi
+    fi
+  else
+    { $as_echo "$as_me:${as_lineno-$LINENO}: not updating unwritable cache $cache_file" >&5
+$as_echo "$as_me: not updating unwritable cache $cache_file" >&6;}
+  fi
+fi
+rm -f confcache
+
+test "x$prefix" = xNONE && prefix=$ac_default_prefix
+# Let make expand exec_prefix.
+test "x$exec_prefix" = xNONE && exec_prefix='${prefix}'
+
+DEFS=-DHAVE_CONFIG_H
+
+ac_libobjs=
+ac_ltlibobjs=
+U=
+for ac_i in : $LIBOBJS; do test "x$ac_i" = x: && continue
+  # 1. Remove the extension, and $U if already installed.
+  ac_script='s/\$U\././;s/\.o$//;s/\.obj$//'
+  ac_i=`$as_echo "$ac_i" | sed "$ac_script"`
+  # 2. Prepend LIBOBJDIR.  When used with automake>=1.10 LIBOBJDIR
+  #    will be set to the directory where LIBOBJS objects are built.
+  as_fn_append ac_libobjs " \${LIBOBJDIR}$ac_i\$U.$ac_objext"
+  as_fn_append ac_ltlibobjs " \${LIBOBJDIR}$ac_i"'$U.lo'
+done
+LIBOBJS=$ac_libobjs
+
+LTLIBOBJS=$ac_ltlibobjs
+
+
+
+
+: "${CONFIG_STATUS=./config.status}"
+ac_write_fail=0
+ac_clean_files_save=$ac_clean_files
+ac_clean_files="$ac_clean_files $CONFIG_STATUS"
+{ $as_echo "$as_me:${as_lineno-$LINENO}: creating $CONFIG_STATUS" >&5
+$as_echo "$as_me: creating $CONFIG_STATUS" >&6;}
+as_write_fail=0
+cat >$CONFIG_STATUS <<_ASEOF || as_write_fail=1
+#! $SHELL
+# Generated by $as_me.
+# Run this file to recreate the current configuration.
+# Compiler output produced by configure, useful for debugging
+# configure, is in config.log if it exists.
+
+debug=false
+ac_cs_recheck=false
+ac_cs_silent=false
+
+SHELL=\${CONFIG_SHELL-$SHELL}
+export SHELL
+_ASEOF
+cat >>$CONFIG_STATUS <<\_ASEOF || as_write_fail=1
+## -------------------- ##
+## M4sh Initialization. ##
+## -------------------- ##
+
+# Be more Bourne compatible
+DUALCASE=1; export DUALCASE # for MKS sh
+if test -n "${ZSH_VERSION+set}" && (emulate sh) >/dev/null 2>&1; then :
+  emulate sh
+  NULLCMD=:
+  # Pre-4.2 versions of Zsh do word splitting on ${1+"$@"}, which
+  # is contrary to our usage.  Disable this feature.
+  alias -g '${1+"$@"}'='"$@"'
+  setopt NO_GLOB_SUBST
+else
+  case `(set -o) 2>/dev/null` in #(
+  *posix*) :
+    set -o posix ;; #(
+  *) :
+     ;;
+esac
+fi
+
+
+as_nl='
+'
+export as_nl
+# Printing a long string crashes Solaris 7 /usr/bin/printf.
+as_echo='\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\'
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo$as_echo
+# Prefer a ksh shell builtin over an external printf program on Solaris,
+# but without wasting forks for bash or zsh.
+if test -z "$BASH_VERSION$ZSH_VERSION" \
+    && (test "X`print -r -- $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='print -r --'
+  as_echo_n='print -rn --'
+elif (test "X`printf %s $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='printf %s\n'
+  as_echo_n='printf %s'
+else
+  if test "X`(/usr/ucb/echo -n -n $as_echo) 2>/dev/null`" = "X-n $as_echo"; then
+    as_echo_body='eval /usr/ucb/echo -n "$1$as_nl"'
+    as_echo_n='/usr/ucb/echo -n'
+  else
+    as_echo_body='eval expr "X$1" : "X\\(.*\\)"'
+    as_echo_n_body='eval
+      arg=$1;
+      case $arg in #(
+      *"$as_nl"*)
+	expr "X$arg" : "X\\(.*\\)$as_nl";
+	arg=`expr "X$arg" : ".*$as_nl\\(.*\\)"`;;
+      esac;
+      expr "X$arg" : "X\\(.*\\)" | tr -d "$as_nl"
+    '
+    export as_echo_n_body
+    as_echo_n='sh -c $as_echo_n_body as_echo'
+  fi
+  export as_echo_body
+  as_echo='sh -c $as_echo_body as_echo'
+fi
+
+# The user is always right.
+if test "${PATH_SEPARATOR+set}" != set; then
+  PATH_SEPARATOR=:
+  (PATH='/bin;/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 && {
+    (PATH='/bin:/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 ||
+      PATH_SEPARATOR=';'
+  }
+fi
+
+
+# IFS
+# We need space, tab and new line, in precisely that order.  Quoting is
+# there to prevent editors from complaining about space-tab.
+# (If _AS_PATH_WALK were called with IFS unset, it would disable word
+# splitting by setting IFS to empty value.)
+IFS=" ""	$as_nl"
+
+# Find who we are.  Look in the path if we contain no directory separator.
+as_myself=
+case $0 in #((
+  *[\\/]* ) as_myself=$0 ;;
+  *) as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    test -r "$as_dir/$0" && as_myself=$as_dir/$0 && break
+  done
+IFS=$as_save_IFS
+
+     ;;
+esac
+# We did not find ourselves, most probably we were run as `sh COMMAND'
+# in which case we are not to be found in the path.
+if test "x$as_myself" = x; then
+  as_myself=$0
+fi
+if test ! -f "$as_myself"; then
+  $as_echo "$as_myself: error: cannot find myself; rerun with an absolute file name" >&2
+  exit 1
+fi
+
+# Unset variables that we do not need and which cause bugs (e.g. in
+# pre-3.0 UWIN ksh).  But do not cause bugs in bash 2.01; the "|| exit 1"
+# suppresses any "Segmentation fault" message there.  '((' could
+# trigger a bug in pdksh 5.2.14.
+for as_var in BASH_ENV ENV MAIL MAILPATH
+do eval test x\${$as_var+set} = xset \
+  && ( (unset $as_var) || exit 1) >/dev/null 2>&1 && unset $as_var || :
+done
+PS1='$ '
+PS2='> '
+PS4='+ '
+
+# NLS nuisances.
+LC_ALL=C
+export LC_ALL
+LANGUAGE=C
+export LANGUAGE
+
+# CDPATH.
+(unset CDPATH) >/dev/null 2>&1 && unset CDPATH
+
+
+# as_fn_error STATUS ERROR [LINENO LOG_FD]
+# ----------------------------------------
+# Output "`basename $0`: error: ERROR" to stderr. If LINENO and LOG_FD are
+# provided, also output the error to LOG_FD, referencing LINENO. Then exit the
+# script with STATUS, using 1 if that was 0.
+as_fn_error ()
+{
+  as_status=$1; test $as_status -eq 0 && as_status=1
+  if test "$4"; then
+    as_lineno=${as_lineno-"$3"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+    $as_echo "$as_me:${as_lineno-$LINENO}: error: $2" >&$4
+  fi
+  $as_echo "$as_me: error: $2" >&2
+  as_fn_exit $as_status
+} # as_fn_error
+
+
+# as_fn_set_status STATUS
+# -----------------------
+# Set $? to STATUS, without forking.
+as_fn_set_status ()
+{
+  return $1
+} # as_fn_set_status
+
+# as_fn_exit STATUS
+# -----------------
+# Exit the shell with STATUS, even in a "trap 0" or "set -e" context.
+as_fn_exit ()
+{
+  set +e
+  as_fn_set_status $1
+  exit $1
+} # as_fn_exit
+
+# as_fn_unset VAR
+# ---------------
+# Portably unset VAR.
+as_fn_unset ()
+{
+  { eval $1=; unset $1;}
+}
+as_unset=as_fn_unset
+# as_fn_append VAR VALUE
+# ----------------------
+# Append the text in VALUE to the end of the definition contained in VAR. Take
+# advantage of any shell optimizations that allow amortized linear growth over
+# repeated appends, instead of the typical quadratic growth present in naive
+# implementations.
+if (eval "as_var=1; as_var+=2; test x\$as_var = x12") 2>/dev/null; then :
+  eval 'as_fn_append ()
+  {
+    eval $1+=\$2
+  }'
+else
+  as_fn_append ()
+  {
+    eval $1=\$$1\$2
+  }
+fi # as_fn_append
+
+# as_fn_arith ARG...
+# ------------------
+# Perform arithmetic evaluation on the ARGs, and store the result in the
+# global $as_val. Take advantage of shells that can avoid forks. The arguments
+# must be portable across $(()) and expr.
+if (eval "test \$(( 1 + 1 )) = 2") 2>/dev/null; then :
+  eval 'as_fn_arith ()
+  {
+    as_val=$(( $* ))
+  }'
+else
+  as_fn_arith ()
+  {
+    as_val=`expr "$@" || test $? -eq 1`
+  }
+fi # as_fn_arith
+
+
+if expr a : '\(a\)' >/dev/null 2>&1 &&
+   test "X`expr 00001 : '.*\(...\)'`" = X001; then
+  as_expr=expr
+else
+  as_expr=false
+fi
+
+if (basename -- /) >/dev/null 2>&1 && test "X`basename -- / 2>&1`" = "X/"; then
+  as_basename=basename
+else
+  as_basename=false
+fi
+
+if (as_dir=`dirname -- /` && test "X$as_dir" = X/) >/dev/null 2>&1; then
+  as_dirname=dirname
+else
+  as_dirname=false
+fi
+
+as_me=`$as_basename -- "$0" ||
+$as_expr X/"$0" : '.*/\([^/][^/]*\)/*$' \| \
+	 X"$0" : 'X\(//\)$' \| \
+	 X"$0" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X/"$0" |
+    sed '/^.*\/\([^/][^/]*\)\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+
+# Avoid depending upon Character Ranges.
+as_cr_letters='abcdefghijklmnopqrstuvwxyz'
+as_cr_LETTERS='ABCDEFGHIJKLMNOPQRSTUVWXYZ'
+as_cr_Letters=$as_cr_letters$as_cr_LETTERS
+as_cr_digits='0123456789'
+as_cr_alnum=$as_cr_Letters$as_cr_digits
+
+ECHO_C= ECHO_N= ECHO_T=
+case `echo -n x` in #(((((
+-n*)
+  case `echo 'xy\c'` in
+  *c*) ECHO_T='	';;	# ECHO_T is single tab character.
+  xy)  ECHO_C='\c';;
+  *)   echo `echo ksh88 bug on AIX 6.1` > /dev/null
+       ECHO_T='	';;
+  esac;;
+*)
+  ECHO_N='-n';;
+esac
+
+rm -f conf$$ conf$$.exe conf$$.file
+if test -d conf$$.dir; then
+  rm -f conf$$.dir/conf$$.file
+else
+  rm -f conf$$.dir
+  mkdir conf$$.dir 2>/dev/null
+fi
+if (echo >conf$$.file) 2>/dev/null; then
+  if ln -s conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s='ln -s'
+    # ... but there are two gotchas:
+    # 1) On MSYS, both `ln -s file dir' and `ln file dir' fail.
+    # 2) DJGPP < 2.04 has no symlinks; `ln -s' creates a wrapper executable.
+    # In both cases, we have to default to `cp -p'.
+    ln -s conf$$.file conf$$.dir 2>/dev/null && test ! -f conf$$.exe ||
+      as_ln_s='cp -p'
+  elif ln conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s=ln
+  else
+    as_ln_s='cp -p'
+  fi
+else
+  as_ln_s='cp -p'
+fi
+rm -f conf$$ conf$$.exe conf$$.dir/conf$$.file conf$$.file
+rmdir conf$$.dir 2>/dev/null
+
+
+# as_fn_mkdir_p
+# -------------
+# Create "$as_dir" as a directory, including parents if necessary.
+as_fn_mkdir_p ()
+{
+
+  case $as_dir in #(
+  -*) as_dir=./$as_dir;;
+  esac
+  test -d "$as_dir" || eval $as_mkdir_p || {
+    as_dirs=
+    while :; do
+      case $as_dir in #(
+      *\'*) as_qdir=`$as_echo "$as_dir" | sed "s/'/'\\\\\\\\''/g"`;; #'(
+      *) as_qdir=$as_dir;;
+      esac
+      as_dirs="'$as_qdir' $as_dirs"
+      as_dir=`$as_dirname -- "$as_dir" ||
+$as_expr X"$as_dir" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$as_dir" : 'X\(//\)[^/]' \| \
+	 X"$as_dir" : 'X\(//\)$' \| \
+	 X"$as_dir" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$as_dir" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+      test -d "$as_dir" && break
+    done
+    test -z "$as_dirs" || eval "mkdir $as_dirs"
+  } || test -d "$as_dir" || as_fn_error $? "cannot create directory $as_dir"
+
+
+} # as_fn_mkdir_p
+if mkdir -p . 2>/dev/null; then
+  as_mkdir_p='mkdir -p "$as_dir"'
+else
+  test -d ./-p && rmdir ./-p
+  as_mkdir_p=false
+fi
+
+if test -x / >/dev/null 2>&1; then
+  as_test_x='test -x'
+else
+  if ls -dL / >/dev/null 2>&1; then
+    as_ls_L_option=L
+  else
+    as_ls_L_option=
+  fi
+  as_test_x='
+    eval sh -c '\''
+      if test -d "$1"; then
+	test -d "$1/.";
+      else
+	case $1 in #(
+	-*)set "./$1";;
+	esac;
+	case `ls -ld'$as_ls_L_option' "$1" 2>/dev/null` in #((
+	???[sx]*):;;*)false;;esac;fi
+    '\'' sh
+  '
+fi
+as_executable_p=$as_test_x
+
+# Sed expression to map a string onto a valid CPP name.
+as_tr_cpp="eval sed 'y%*$as_cr_letters%P$as_cr_LETTERS%;s%[^_$as_cr_alnum]%_%g'"
+
+# Sed expression to map a string onto a valid variable name.
+as_tr_sh="eval sed 'y%*+%pp%;s%[^_$as_cr_alnum]%_%g'"
+
+
+exec 6>&1
+## ----------------------------------- ##
+## Main body of $CONFIG_STATUS script. ##
+## ----------------------------------- ##
+_ASEOF
+test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+# Save the log message, to keep $0 and so on meaningful, and to
+# report actual input values of CONFIG_FILES etc. instead of their
+# values after options handling.
+ac_log="
+This file was extended by HMMER $as_me 3.1b2, which was
+generated by GNU Autoconf 2.68.  Invocation command line was
+
+  CONFIG_FILES    = $CONFIG_FILES
+  CONFIG_HEADERS  = $CONFIG_HEADERS
+  CONFIG_LINKS    = $CONFIG_LINKS
+  CONFIG_COMMANDS = $CONFIG_COMMANDS
+  $ $0 $@
+
+on `(hostname || uname -n) 2>/dev/null | sed 1q`
+"
+
+_ACEOF
+
+case $ac_config_files in *"
+"*) set x $ac_config_files; shift; ac_config_files=$*;;
+esac
+
+case $ac_config_headers in *"
+"*) set x $ac_config_headers; shift; ac_config_headers=$*;;
+esac
+
+
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+# Files that config.status was made for.
+config_files="$ac_config_files"
+config_headers="$ac_config_headers"
+config_links="$ac_config_links"
+
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+ac_cs_usage="\
+\`$as_me' instantiates files and other configuration actions
+from templates according to the current configuration.  Unless the files
+and actions are specified as TAGs, all are instantiated by default.
+
+Usage: $0 [OPTION]... [TAG]...
+
+  -h, --help       print this help, then exit
+  -V, --version    print version number and configuration settings, then exit
+      --config     print configuration, then exit
+  -q, --quiet, --silent
+                   do not print progress messages
+  -d, --debug      don't remove temporary files
+      --recheck    update $as_me by reconfiguring in the same conditions
+      --file=FILE[:TEMPLATE]
+                   instantiate the configuration file FILE
+      --header=FILE[:TEMPLATE]
+                   instantiate the configuration header FILE
+
+Configuration files:
+$config_files
+
+Configuration headers:
+$config_headers
+
+Configuration links:
+$config_links
+
+Report bugs to <eddys@janelia.hhmi.org>."
+
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
+ac_cs_version="\\
+HMMER config.status 3.1b2
+configured by $0, generated by GNU Autoconf 2.68,
+  with options \\"\$ac_cs_config\\"
+
+Copyright (C) 2010 Free Software Foundation, Inc.
+This config.status script is free software; the Free Software Foundation
+gives unlimited permission to copy, distribute and modify it."
+
+ac_pwd='$ac_pwd'
+srcdir='$srcdir'
+INSTALL='$INSTALL'
+test -n "\$AWK" || AWK=awk
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+# The default lists apply if the user does not specify any file.
+ac_need_defaults=:
+while test $# != 0
+do
+  case $1 in
+  --*=?*)
+    ac_option=`expr "X$1" : 'X\([^=]*\)='`
+    ac_optarg=`expr "X$1" : 'X[^=]*=\(.*\)'`
+    ac_shift=:
+    ;;
+  --*=)
+    ac_option=`expr "X$1" : 'X\([^=]*\)='`
+    ac_optarg=
+    ac_shift=:
+    ;;
+  *)
+    ac_option=$1
+    ac_optarg=$2
+    ac_shift=shift
+    ;;
+  esac
+
+  case $ac_option in
+  # Handling of the options.
+  -recheck | --recheck | --rechec | --reche | --rech | --rec | --re | --r)
+    ac_cs_recheck=: ;;
+  --version | --versio | --versi | --vers | --ver | --ve | --v | -V )
+    $as_echo "$ac_cs_version"; exit ;;
+  --config | --confi | --conf | --con | --co | --c )
+    $as_echo "$ac_cs_config"; exit ;;
+  --debug | --debu | --deb | --de | --d | -d )
+    debug=: ;;
+  --file | --fil | --fi | --f )
+    $ac_shift
+    case $ac_optarg in
+    *\'*) ac_optarg=`$as_echo "$ac_optarg" | sed "s/'/'\\\\\\\\''/g"` ;;
+    '') as_fn_error $? "missing file argument" ;;
+    esac
+    as_fn_append CONFIG_FILES " '$ac_optarg'"
+    ac_need_defaults=false;;
+  --header | --heade | --head | --hea )
+    $ac_shift
+    case $ac_optarg in
+    *\'*) ac_optarg=`$as_echo "$ac_optarg" | sed "s/'/'\\\\\\\\''/g"` ;;
+    esac
+    as_fn_append CONFIG_HEADERS " '$ac_optarg'"
+    ac_need_defaults=false;;
+  --he | --h)
+    # Conflict between --help and --header
+    as_fn_error $? "ambiguous option: \`$1'
+Try \`$0 --help' for more information.";;
+  --help | --hel | -h )
+    $as_echo "$ac_cs_usage"; exit ;;
+  -q | -quiet | --quiet | --quie | --qui | --qu | --q \
+  | -silent | --silent | --silen | --sile | --sil | --si | --s)
+    ac_cs_silent=: ;;
+
+  # This is an error.
+  -*) as_fn_error $? "unrecognized option: \`$1'
+Try \`$0 --help' for more information." ;;
+
+  *) as_fn_append ac_config_targets " $1"
+     ac_need_defaults=false ;;
+
+  esac
+  shift
+done
+
+ac_configure_extra_args=
+
+if $ac_cs_silent; then
+  exec 6>/dev/null
+  ac_configure_extra_args="$ac_configure_extra_args --silent"
+fi
+
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+if \$ac_cs_recheck; then
+  set X '$SHELL' '$0' $ac_configure_args \$ac_configure_extra_args --no-create --no-recursion
+  shift
+  \$as_echo "running CONFIG_SHELL=$SHELL \$*" >&6
+  CONFIG_SHELL='$SHELL'
+  export CONFIG_SHELL
+  exec "\$@"
+fi
+
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+exec 5>>config.log
+{
+  echo
+  sed 'h;s/./-/g;s/^.../## /;s/...$/ ##/;p;x;p;x' <<_ASBOX
+## Running $as_me. ##
+_ASBOX
+  $as_echo "$ac_log"
+} >&5
+
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+
+# Handling of arguments.
+for ac_config_target in $ac_config_targets
+do
+  case $ac_config_target in
+    "release-notes/LICENSE.sh") CONFIG_FILES="$CONFIG_FILES release-notes/LICENSE.sh" ;;
+    "documentation/Makefile") CONFIG_FILES="$CONFIG_FILES documentation/Makefile" ;;
+    "documentation/man/Makefile") CONFIG_FILES="$CONFIG_FILES documentation/man/Makefile" ;;
+    "documentation/userguide/Makefile") CONFIG_FILES="$CONFIG_FILES documentation/userguide/Makefile" ;;
+    "src/Makefile") CONFIG_FILES="$CONFIG_FILES src/Makefile" ;;
+    "testsuite/Makefile") CONFIG_FILES="$CONFIG_FILES testsuite/Makefile" ;;
+    "profmark/Makefile") CONFIG_FILES="$CONFIG_FILES profmark/Makefile" ;;
+    "src/impl_${impl_choice}/Makefile") CONFIG_FILES="$CONFIG_FILES src/impl_${impl_choice}/Makefile" ;;
+    "src/p7_config.h") CONFIG_HEADERS="$CONFIG_HEADERS src/p7_config.h" ;;
+    "easel/esl_config.h") CONFIG_HEADERS="$CONFIG_HEADERS easel/esl_config.h" ;;
+    "libdivsufsort/divsufsort.h") CONFIG_HEADERS="$CONFIG_HEADERS libdivsufsort/divsufsort.h" ;;
+    "easel/miniapps/Makefile") CONFIG_FILES="$CONFIG_FILES easel/miniapps/Makefile" ;;
+    "easel/testsuite/Makefile") CONFIG_FILES="$CONFIG_FILES easel/testsuite/Makefile" ;;
+    "easel/documentation/Makefile") CONFIG_FILES="$CONFIG_FILES easel/documentation/Makefile" ;;
+    "easel/Makefile") CONFIG_FILES="$CONFIG_FILES easel/Makefile" ;;
+    "libdivsufsort/Makefile") CONFIG_FILES="$CONFIG_FILES libdivsufsort/Makefile" ;;
+    "src/impl") CONFIG_LINKS="$CONFIG_LINKS src/impl:${ac_top_build_prefix}src/impl_${impl_choice}" ;;
+    "Makefile") CONFIG_FILES="$CONFIG_FILES Makefile" ;;
+
+  *) as_fn_error $? "invalid argument: \`$ac_config_target'" "$LINENO" 5;;
+  esac
+done
+
+
+# If the user did not use the arguments to specify the items to instantiate,
+# then the envvar interface is used.  Set only those that are not.
+# We use the long form for the default assignment because of an extremely
+# bizarre bug on SunOS 4.1.3.
+if $ac_need_defaults; then
+  test "${CONFIG_FILES+set}" = set || CONFIG_FILES=$config_files
+  test "${CONFIG_HEADERS+set}" = set || CONFIG_HEADERS=$config_headers
+  test "${CONFIG_LINKS+set}" = set || CONFIG_LINKS=$config_links
+fi
+
+# Have a temporary directory for convenience.  Make it in the build tree
+# simply because there is no reason against having it here, and in addition,
+# creating and moving files from /tmp can sometimes cause problems.
+# Hook for its removal unless debugging.
+# Note that there is a small window in which the directory will not be cleaned:
+# after its creation but before its name has been assigned to `$tmp'.
+$debug ||
+{
+  tmp= ac_tmp=
+  trap 'exit_status=$?
+  : "${ac_tmp:=$tmp}"
+  { test ! -d "$ac_tmp" || rm -fr "$ac_tmp"; } && exit $exit_status
+' 0
+  trap 'as_fn_exit 1' 1 2 13 15
+}
+# Create a (secure) tmp directory for tmp files.
+
+{
+  tmp=`(umask 077 && mktemp -d "./confXXXXXX") 2>/dev/null` &&
+  test -d "$tmp"
+}  ||
+{
+  tmp=./conf$$-$RANDOM
+  (umask 077 && mkdir "$tmp")
+} || as_fn_error $? "cannot create a temporary directory in ." "$LINENO" 5
+ac_tmp=$tmp
+
+# Set up the scripts for CONFIG_FILES section.
+# No need to generate them if there are no CONFIG_FILES.
+# This happens for instance with `./config.status config.h'.
+if test -n "$CONFIG_FILES"; then
+
+
+ac_cr=`echo X | tr X '\015'`
+# On cygwin, bash can eat \r inside `` if the user requested igncr.
+# But we know of no other shell where ac_cr would be empty at this
+# point, so we can use a bashism as a fallback.
+if test "x$ac_cr" = x; then
+  eval ac_cr=\$\'\\r\'
+fi
+ac_cs_awk_cr=`$AWK 'BEGIN { print "a\rb" }' </dev/null 2>/dev/null`
+if test "$ac_cs_awk_cr" = "a${ac_cr}b"; then
+  ac_cs_awk_cr='\\r'
+else
+  ac_cs_awk_cr=$ac_cr
+fi
+
+echo 'BEGIN {' >"$ac_tmp/subs1.awk" &&
+_ACEOF
+
+
+{
+  echo "cat >conf$$subs.awk <<_ACEOF" &&
+  echo "$ac_subst_vars" | sed 's/.*/&!$&$ac_delim/' &&
+  echo "_ACEOF"
+} >conf$$subs.sh ||
+  as_fn_error $? "could not make $CONFIG_STATUS" "$LINENO" 5
+ac_delim_num=`echo "$ac_subst_vars" | grep -c '^'`
+ac_delim='%!_!# '
+for ac_last_try in false false false false false :; do
+  . ./conf$$subs.sh ||
+    as_fn_error $? "could not make $CONFIG_STATUS" "$LINENO" 5
+
+  ac_delim_n=`sed -n "s/.*$ac_delim\$/X/p" conf$$subs.awk | grep -c X`
+  if test $ac_delim_n = $ac_delim_num; then
+    break
+  elif $ac_last_try; then
+    as_fn_error $? "could not make $CONFIG_STATUS" "$LINENO" 5
+  else
+    ac_delim="$ac_delim!$ac_delim _$ac_delim!! "
+  fi
+done
+rm -f conf$$subs.sh
+
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+cat >>"\$ac_tmp/subs1.awk" <<\\_ACAWK &&
+_ACEOF
+sed -n '
+h
+s/^/S["/; s/!.*/"]=/
+p
+g
+s/^[^!]*!//
+:repl
+t repl
+s/'"$ac_delim"'$//
+t delim
+:nl
+h
+s/\(.\{148\}\)..*/\1/
+t more1
+s/["\\]/\\&/g; s/^/"/; s/$/\\n"\\/
+p
+n
+b repl
+:more1
+s/["\\]/\\&/g; s/^/"/; s/$/"\\/
+p
+g
+s/.\{148\}//
+t nl
+:delim
+h
+s/\(.\{148\}\)..*/\1/
+t more2
+s/["\\]/\\&/g; s/^/"/; s/$/"/
+p
+b
+:more2
+s/["\\]/\\&/g; s/^/"/; s/$/"\\/
+p
+g
+s/.\{148\}//
+t delim
+' <conf$$subs.awk | sed '
+/^[^""]/{
+  N
+  s/\n//
+}
+' >>$CONFIG_STATUS || ac_write_fail=1
+rm -f conf$$subs.awk
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+_ACAWK
+cat >>"\$ac_tmp/subs1.awk" <<_ACAWK &&
+  for (key in S) S_is_set[key] = 1
+  FS = ""
+
+}
+{
+  line = $ 0
+  nfields = split(line, field, "@")
+  substed = 0
+  len = length(field[1])
+  for (i = 2; i < nfields; i++) {
+    key = field[i]
+    keylen = length(key)
+    if (S_is_set[key]) {
+      value = S[key]
+      line = substr(line, 1, len) "" value "" substr(line, len + keylen + 3)
+      len += length(value) + length(field[++i])
+      substed = 1
+    } else
+      len += 1 + keylen
+  }
+
+  print line
+}
+
+_ACAWK
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+if sed "s/$ac_cr//" < /dev/null > /dev/null 2>&1; then
+  sed "s/$ac_cr\$//; s/$ac_cr/$ac_cs_awk_cr/g"
+else
+  cat
+fi < "$ac_tmp/subs1.awk" > "$ac_tmp/subs.awk" \
+  || as_fn_error $? "could not setup config files machinery" "$LINENO" 5
+_ACEOF
+
+# VPATH may cause trouble with some makes, so we remove sole $(srcdir),
+# ${srcdir} and @srcdir@ entries from VPATH if srcdir is ".", strip leading and
+# trailing colons and then remove the whole line if VPATH becomes empty
+# (actually we leave an empty line to preserve line numbers).
+if test "x$srcdir" = x.; then
+  ac_vpsub='/^[	 ]*VPATH[	 ]*=[	 ]*/{
+h
+s///
+s/^/:/
+s/[	 ]*$/:/
+s/:\$(srcdir):/:/g
+s/:\${srcdir}:/:/g
+s/:@srcdir@:/:/g
+s/^:*//
+s/:*$//
+x
+s/\(=[	 ]*\).*/\1/
+G
+s/\n//
+s/^[^=]*=[	 ]*$//
+}'
+fi
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+fi # test -n "$CONFIG_FILES"
+
+# Set up the scripts for CONFIG_HEADERS section.
+# No need to generate them if there are no CONFIG_HEADERS.
+# This happens for instance with `./config.status Makefile'.
+if test -n "$CONFIG_HEADERS"; then
+cat >"$ac_tmp/defines.awk" <<\_ACAWK ||
+BEGIN {
+_ACEOF
+
+# Transform confdefs.h into an awk script `defines.awk', embedded as
+# here-document in config.status, that substitutes the proper values into
+# config.h.in to produce config.h.
+
+# Create a delimiter string that does not exist in confdefs.h, to ease
+# handling of long lines.
+ac_delim='%!_!# '
+for ac_last_try in false false :; do
+  ac_tt=`sed -n "/$ac_delim/p" confdefs.h`
+  if test -z "$ac_tt"; then
+    break
+  elif $ac_last_try; then
+    as_fn_error $? "could not make $CONFIG_HEADERS" "$LINENO" 5
+  else
+    ac_delim="$ac_delim!$ac_delim _$ac_delim!! "
+  fi
+done
+
+# For the awk script, D is an array of macro values keyed by name,
+# likewise P contains macro parameters if any.  Preserve backslash
+# newline sequences.
+
+ac_word_re=[_$as_cr_Letters][_$as_cr_alnum]*
+sed -n '
+s/.\{148\}/&'"$ac_delim"'/g
+t rset
+:rset
+s/^[	 ]*#[	 ]*define[	 ][	 ]*/ /
+t def
+d
+:def
+s/\\$//
+t bsnl
+s/["\\]/\\&/g
+s/^ \('"$ac_word_re"'\)\(([^()]*)\)[	 ]*\(.*\)/P["\1"]="\2"\
+D["\1"]=" \3"/p
+s/^ \('"$ac_word_re"'\)[	 ]*\(.*\)/D["\1"]=" \2"/p
+d
+:bsnl
+s/["\\]/\\&/g
+s/^ \('"$ac_word_re"'\)\(([^()]*)\)[	 ]*\(.*\)/P["\1"]="\2"\
+D["\1"]=" \3\\\\\\n"\\/p
+t cont
+s/^ \('"$ac_word_re"'\)[	 ]*\(.*\)/D["\1"]=" \2\\\\\\n"\\/p
+t cont
+d
+:cont
+n
+s/.\{148\}/&'"$ac_delim"'/g
+t clear
+:clear
+s/\\$//
+t bsnlc
+s/["\\]/\\&/g; s/^/"/; s/$/"/p
+d
+:bsnlc
+s/["\\]/\\&/g; s/^/"/; s/$/\\\\\\n"\\/p
+b cont
+' <confdefs.h | sed '
+s/'"$ac_delim"'/"\\\
+"/g' >>$CONFIG_STATUS || ac_write_fail=1
+
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+  for (key in D) D_is_set[key] = 1
+  FS = ""
+}
+/^[\t ]*#[\t ]*(define|undef)[\t ]+$ac_word_re([\t (]|\$)/ {
+  line = \$ 0
+  split(line, arg, " ")
+  if (arg[1] == "#") {
+    defundef = arg[2]
+    mac1 = arg[3]
+  } else {
+    defundef = substr(arg[1], 2)
+    mac1 = arg[2]
+  }
+  split(mac1, mac2, "(") #)
+  macro = mac2[1]
+  prefix = substr(line, 1, index(line, defundef) - 1)
+  if (D_is_set[macro]) {
+    # Preserve the white space surrounding the "#".
+    print prefix "define", macro P[macro] D[macro]
+    next
+  } else {
+    # Replace #undef with comments.  This is necessary, for example,
+    # in the case of _POSIX_SOURCE, which is predefined and required
+    # on some systems where configure will not decide to define it.
+    if (defundef == "undef") {
+      print "/*", prefix defundef, macro, "*/"
+      next
+    }
+  }
+}
+{ print }
+_ACAWK
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+  as_fn_error $? "could not setup config headers machinery" "$LINENO" 5
+fi # test -n "$CONFIG_HEADERS"
+
+
+eval set X "  :F $CONFIG_FILES  :H $CONFIG_HEADERS  :L $CONFIG_LINKS  "
+shift
+for ac_tag
+do
+  case $ac_tag in
+  :[FHLC]) ac_mode=$ac_tag; continue;;
+  esac
+  case $ac_mode$ac_tag in
+  :[FHL]*:*);;
+  :L* | :C*:*) as_fn_error $? "invalid tag \`$ac_tag'" "$LINENO" 5;;
+  :[FH]-) ac_tag=-:-;;
+  :[FH]*) ac_tag=$ac_tag:$ac_tag.in;;
+  esac
+  ac_save_IFS=$IFS
+  IFS=:
+  set x $ac_tag
+  IFS=$ac_save_IFS
+  shift
+  ac_file=$1
+  shift
+
+  case $ac_mode in
+  :L) ac_source=$1;;
+  :[FH])
+    ac_file_inputs=
+    for ac_f
+    do
+      case $ac_f in
+      -) ac_f="$ac_tmp/stdin";;
+      *) # Look for the file first in the build tree, then in the source tree
+	 # (if the path is not absolute).  The absolute path cannot be DOS-style,
+	 # because $ac_f cannot contain `:'.
+	 test -f "$ac_f" ||
+	   case $ac_f in
+	   [\\/$]*) false;;
+	   *) test -f "$srcdir/$ac_f" && ac_f="$srcdir/$ac_f";;
+	   esac ||
+	   as_fn_error 1 "cannot find input file: \`$ac_f'" "$LINENO" 5;;
+      esac
+      case $ac_f in *\'*) ac_f=`$as_echo "$ac_f" | sed "s/'/'\\\\\\\\''/g"`;; esac
+      as_fn_append ac_file_inputs " '$ac_f'"
+    done
+
+    # Let's still pretend it is `configure' which instantiates (i.e., don't
+    # use $as_me), people would be surprised to read:
+    #    /* config.h.  Generated by config.status.  */
+    configure_input='Generated from '`
+	  $as_echo "$*" | sed 's|^[^:]*/||;s|:[^:]*/|, |g'
+	`' by configure.'
+    if test x"$ac_file" != x-; then
+      configure_input="$ac_file.  $configure_input"
+      { $as_echo "$as_me:${as_lineno-$LINENO}: creating $ac_file" >&5
+$as_echo "$as_me: creating $ac_file" >&6;}
+    fi
+    # Neutralize special characters interpreted by sed in replacement strings.
+    case $configure_input in #(
+    *\&* | *\|* | *\\* )
+       ac_sed_conf_input=`$as_echo "$configure_input" |
+       sed 's/[\\\\&|]/\\\\&/g'`;; #(
+    *) ac_sed_conf_input=$configure_input;;
+    esac
+
+    case $ac_tag in
+    *:-:* | *:-) cat >"$ac_tmp/stdin" \
+      || as_fn_error $? "could not create $ac_file" "$LINENO" 5 ;;
+    esac
+    ;;
+  esac
+
+  ac_dir=`$as_dirname -- "$ac_file" ||
+$as_expr X"$ac_file" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$ac_file" : 'X\(//\)[^/]' \| \
+	 X"$ac_file" : 'X\(//\)$' \| \
+	 X"$ac_file" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$ac_file" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+  as_dir="$ac_dir"; as_fn_mkdir_p
+  ac_builddir=.
+
+case "$ac_dir" in
+.) ac_dir_suffix= ac_top_builddir_sub=. ac_top_build_prefix= ;;
+*)
+  ac_dir_suffix=/`$as_echo "$ac_dir" | sed 's|^\.[\\/]||'`
+  # A ".." for each directory in $ac_dir_suffix.
+  ac_top_builddir_sub=`$as_echo "$ac_dir_suffix" | sed 's|/[^\\/]*|/..|g;s|/||'`
+  case $ac_top_builddir_sub in
+  "") ac_top_builddir_sub=. ac_top_build_prefix= ;;
+  *)  ac_top_build_prefix=$ac_top_builddir_sub/ ;;
+  esac ;;
+esac
+ac_abs_top_builddir=$ac_pwd
+ac_abs_builddir=$ac_pwd$ac_dir_suffix
+# for backward compatibility:
+ac_top_builddir=$ac_top_build_prefix
+
+case $srcdir in
+  .)  # We are building in place.
+    ac_srcdir=.
+    ac_top_srcdir=$ac_top_builddir_sub
+    ac_abs_top_srcdir=$ac_pwd ;;
+  [\\/]* | ?:[\\/]* )  # Absolute name.
+    ac_srcdir=$srcdir$ac_dir_suffix;
+    ac_top_srcdir=$srcdir
+    ac_abs_top_srcdir=$srcdir ;;
+  *) # Relative name.
+    ac_srcdir=$ac_top_build_prefix$srcdir$ac_dir_suffix
+    ac_top_srcdir=$ac_top_build_prefix$srcdir
+    ac_abs_top_srcdir=$ac_pwd/$srcdir ;;
+esac
+ac_abs_srcdir=$ac_abs_top_srcdir$ac_dir_suffix
+
+
+  case $ac_mode in
+  :F)
+  #
+  # CONFIG_FILE
+  #
+
+  case $INSTALL in
+  [\\/$]* | ?:[\\/]* ) ac_INSTALL=$INSTALL ;;
+  *) ac_INSTALL=$ac_top_build_prefix$INSTALL ;;
+  esac
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+# If the template does not know about datarootdir, expand it.
+# FIXME: This hack should be removed a few years after 2.60.
+ac_datarootdir_hack=; ac_datarootdir_seen=
+ac_sed_dataroot='
+/datarootdir/ {
+  p
+  q
+}
+/@datadir@/p
+/@docdir@/p
+/@infodir@/p
+/@localedir@/p
+/@mandir@/p'
+case `eval "sed -n \"\$ac_sed_dataroot\" $ac_file_inputs"` in
+*datarootdir*) ac_datarootdir_seen=yes;;
+*@datadir@*|*@docdir@*|*@infodir@*|*@localedir@*|*@mandir@*)
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $ac_file_inputs seems to ignore the --datarootdir setting" >&5
+$as_echo "$as_me: WARNING: $ac_file_inputs seems to ignore the --datarootdir setting" >&2;}
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+  ac_datarootdir_hack='
+  s&@datadir@&$datadir&g
+  s&@docdir@&$docdir&g
+  s&@infodir@&$infodir&g
+  s&@localedir@&$localedir&g
+  s&@mandir@&$mandir&g
+  s&\\\${datarootdir}&$datarootdir&g' ;;
+esac
+_ACEOF
+
+# Neutralize VPATH when `$srcdir' = `.'.
+# Shell code in configure.ac might set extrasub.
+# FIXME: do we really want to maintain this feature?
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+ac_sed_extra="$ac_vpsub
+$extrasub
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+:t
+/@[a-zA-Z_][a-zA-Z_0-9]*@/!b
+s|@configure_input@|$ac_sed_conf_input|;t t
+s&@top_builddir@&$ac_top_builddir_sub&;t t
+s&@top_build_prefix@&$ac_top_build_prefix&;t t
+s&@srcdir@&$ac_srcdir&;t t
+s&@abs_srcdir@&$ac_abs_srcdir&;t t
+s&@top_srcdir@&$ac_top_srcdir&;t t
+s&@abs_top_srcdir@&$ac_abs_top_srcdir&;t t
+s&@builddir@&$ac_builddir&;t t
+s&@abs_builddir@&$ac_abs_builddir&;t t
+s&@abs_top_builddir@&$ac_abs_top_builddir&;t t
+s&@INSTALL@&$ac_INSTALL&;t t
+$ac_datarootdir_hack
+"
+eval sed \"\$ac_sed_extra\" "$ac_file_inputs" | $AWK -f "$ac_tmp/subs.awk" \
+  >$ac_tmp/out || as_fn_error $? "could not create $ac_file" "$LINENO" 5
+
+test -z "$ac_datarootdir_hack$ac_datarootdir_seen" &&
+  { ac_out=`sed -n '/\${datarootdir}/p' "$ac_tmp/out"`; test -n "$ac_out"; } &&
+  { ac_out=`sed -n '/^[	 ]*datarootdir[	 ]*:*=/p' \
+      "$ac_tmp/out"`; test -z "$ac_out"; } &&
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $ac_file contains a reference to the variable \`datarootdir'
+which seems to be undefined.  Please make sure it is defined" >&5
+$as_echo "$as_me: WARNING: $ac_file contains a reference to the variable \`datarootdir'
+which seems to be undefined.  Please make sure it is defined" >&2;}
+
+  rm -f "$ac_tmp/stdin"
+  case $ac_file in
+  -) cat "$ac_tmp/out" && rm -f "$ac_tmp/out";;
+  *) rm -f "$ac_file" && mv "$ac_tmp/out" "$ac_file";;
+  esac \
+  || as_fn_error $? "could not create $ac_file" "$LINENO" 5
+ ;;
+  :H)
+  #
+  # CONFIG_HEADER
+  #
+  if test x"$ac_file" != x-; then
+    {
+      $as_echo "/* $configure_input  */" \
+      && eval '$AWK -f "$ac_tmp/defines.awk"' "$ac_file_inputs"
+    } >"$ac_tmp/config.h" \
+      || as_fn_error $? "could not create $ac_file" "$LINENO" 5
+    if diff "$ac_file" "$ac_tmp/config.h" >/dev/null 2>&1; then
+      { $as_echo "$as_me:${as_lineno-$LINENO}: $ac_file is unchanged" >&5
+$as_echo "$as_me: $ac_file is unchanged" >&6;}
+    else
+      rm -f "$ac_file"
+      mv "$ac_tmp/config.h" "$ac_file" \
+	|| as_fn_error $? "could not create $ac_file" "$LINENO" 5
+    fi
+  else
+    $as_echo "/* $configure_input  */" \
+      && eval '$AWK -f "$ac_tmp/defines.awk"' "$ac_file_inputs" \
+      || as_fn_error $? "could not create -" "$LINENO" 5
+  fi
+ ;;
+  :L)
+  #
+  # CONFIG_LINK
+  #
+
+  if test "$ac_source" = "$ac_file" && test "$srcdir" = '.'; then
+    :
+  else
+    # Prefer the file from the source tree if names are identical.
+    if test "$ac_source" = "$ac_file" || test ! -r "$ac_source"; then
+      ac_source=$srcdir/$ac_source
+    fi
+
+    { $as_echo "$as_me:${as_lineno-$LINENO}: linking $ac_source to $ac_file" >&5
+$as_echo "$as_me: linking $ac_source to $ac_file" >&6;}
+
+    if test ! -r "$ac_source"; then
+      as_fn_error $? "$ac_source: file not found" "$LINENO" 5
+    fi
+    rm -f "$ac_file"
+
+    # Try a relative symlink, then a hard link, then a copy.
+    case $ac_source in
+    [\\/$]* | ?:[\\/]* ) ac_rel_source=$ac_source ;;
+	*) ac_rel_source=$ac_top_build_prefix$ac_source ;;
+    esac
+    ln -s "$ac_rel_source" "$ac_file" 2>/dev/null ||
+      ln "$ac_source" "$ac_file" 2>/dev/null ||
+      cp -p "$ac_source" "$ac_file" ||
+      as_fn_error $? "cannot link or copy $ac_source to $ac_file" "$LINENO" 5
+  fi
+ ;;
+
+  esac
+
+done # for ac_tag
+
+
+as_fn_exit 0
+_ACEOF
+ac_clean_files=$ac_clean_files_save
+
+test $ac_write_fail = 0 ||
+  as_fn_error $? "write failure creating $CONFIG_STATUS" "$LINENO" 5
+
+
+# configure is writing to config.log, and then calls config.status.
+# config.status does its own redirection, appending to config.log.
+# Unfortunately, on DOS this fails, as config.log is still kept open
+# by configure, so config.status won't be able to write to it; its
+# output is simply discarded.  So we exec the FD to /dev/null,
+# effectively closing config.log, so it can be properly (re)opened and
+# appended to by config.status.  When coming back to configure, we
+# need to make the FD available again.
+if test "$no_create" != yes; then
+  ac_cs_success=:
+  ac_config_status_args=
+  test "$silent" = yes &&
+    ac_config_status_args="$ac_config_status_args --quiet"
+  exec 5>/dev/null
+  $SHELL $CONFIG_STATUS $ac_config_status_args || ac_cs_success=false
+  exec 5>>config.log
+  # Use ||, not &&, to avoid exiting from the if with $? = 1, which
+  # would make configure fail if this is the last instruction.
+  $ac_cs_success || as_fn_exit 1
+fi
+if test -n "$ac_unrecognized_opts" && test "$enable_option_checking" != no; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: unrecognized options: $ac_unrecognized_opts" >&5
+$as_echo "$as_me: WARNING: unrecognized options: $ac_unrecognized_opts" >&2;}
+fi
+
+
+echo "
+
+HMMER configuration:
+     compiler:             ${CC} ${CFLAGS} ${SIMD_CFLAGS} ${PTHREAD_CFLAGS} ${PIC_FLAGS}
+     host:                 $host
+     linker:               ${LDFLAGS}
+     libraries:            ${LIBS} ${LIBGSL} ${PTHREAD_LIBS}
+     DP implementation:    ${impl_choice}
+"
+
+if test "$impl_choice" = "dummy"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: We will compile the \"dummy\", a portable ANSI C reference implementation." >&5
+$as_echo "$as_me: WARNING: We will compile the \"dummy\", a portable ANSI C reference implementation." >&2;}
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: It is slow, about 100x slower than real H3, and is NOT intended for production use!" >&5
+$as_echo "$as_me: WARNING: It is slow, about 100x slower than real H3, and is NOT intended for production use!" >&2;}
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: It only intended to show the basics of how HMMER3 works, portably." >&5
+$as_echo "$as_me: WARNING: It only intended to show the basics of how HMMER3 works, portably." >&2;}
+fi
+
+
+#################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+#
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $Id: configure.ac 4766 2015-02-22 18:22:01Z wheelert $
+# SVN $URL$
+# xref autoconf macro archive: //www.gnu.org/software/ac-archive/
+#################################################################
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/configure.ac b/Exercise11_files/hmmer-3.1b2-cygwin64/configure.ac
new file mode 100755
index 0000000..3355a96
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/configure.ac
@@ -0,0 +1,728 @@
+# Process this file with autoconf to produce the HMMER configure script.
+#
+# This is synchronized with Easel's configure script, so that HMMER
+# configures Easel in addition to itself. This saves having to do a
+# separate ./configure in Easel. That means that everything that
+# appears in Easel's configure script must also appear here.
+#
+# reminders to save re-reading autoconf manual for the n'th time:
+#    output variables:
+#      -  are defined here as normal shell variables, e.g. FOO="my string"
+#      -  are made into output variables by calling AC_SUBST(FOO)
+#      -  any occurrence of @FOO@ in an output file is then substituted
+#         I think this only happens in files we assign w/ AC_CONFIG_FILES;
+#         that's the Makefile.in's.
+#
+#   C preprocessor symbols:
+#      -  are defined here by calling AC_DEFINE(FOO) or AC_DEFINE(FOO, [42])
+#      -  then #undef FOO in easel.h.in becomes #define FOO, #define FOO 42
+#         I think this only happens in header files that we assign
+#         w/ AC_CONFIG_HEADERS -- which means, easel.h.in
+#
+# GNU recommends the following order:
+#   1. autoconf requirements
+#   2. AC_INIT
+#   3. info on the package
+#   4. checks for programs
+#   5. checks for libraries
+#   6. checks for header files
+#   7. checks for types
+#   8. checks for structures
+#   9. checks for compiler characteristics
+#  10. checks for library functions
+#  11. checks for system services
+#  12. AC_CONFIG_FILES
+#  13. AC_OUTPUT
+
+
+# Autoconf 2.61 has a bug in AC_FUNC_FSEEKO; don't use it.
+AC_PREREQ(2.63)
+AC_INIT(HMMER, 3.1b2, eddys@janelia.hhmi.org, hmmer)
+AC_MSG_NOTICE([Configuring HMMER for your system.])
+
+# remember if the user is overriding CFLAGS
+if test x"$CFLAGS" = x; then 
+  sre_cflags_env_set=no
+fi
+
+################################################################
+# 3. Info on the package
+#
+# The four AC_INIT args set these output variables and preprocessor symbols:
+#     PACKAGE_NAME      <package>     e.g. "HMMER"
+#     PACKAGE_VERSION   <version>     e.g. "3.0"
+#     PACKAGE_BUGREPORT <bug-report>  e.g. "eddys@janelia.hhmi.org"
+#     PACKAGE_TARNAME   <tarname>     e.g. "hmmer"
+# From them, it derives one more:
+#     PACKAGE_STRING    <package> <version>, e.g. "HMMER 3.0"
+# We also define additional variables:
+#     HMMER_DATE        release date: e.g. "January 2007"
+#     HMMER_COPYRIGHT   one-line copyright string
+#     HMMER_LICENSE     one-line license string
+#     HMMER_LICENSETAG  which license to bundle from Licenses/ subdirectory.
+#     HMMER_VERSION     copy of version code, e.g. "3.0"
+#     HMMER_URL         URL home for HMMER.
+# And we have to define the relevant package variables for Easel as well.
+#
+# We avoid using AC_INIT's PACKAGE_ variables anywhere, because we want to be able
+# to use HMMER as a library inside other packages, with no name clashes.
+################################################################
+
+HMMER_DATE="February 2015"
+HMMER_COPYRIGHT="Copyright (C) 2015 Howard Hughes Medical Institute."
+HMMER_LICENSE="Freely distributed under the GNU General Public License (GPLv3)."
+HMMER_VERSION=$PACKAGE_VERSION
+HMMER_URL="http://hmmer.org/"
+HMMER_ESLDIR="easel"
+HMMER_SADIR="libdivsufsort"
+
+EASEL_DATE="February 2015"
+EASEL_COPYRIGHT="Copyright (C) 2015 Howard Hughes Medical Institute."
+EASEL_LICENSE="Freely distributed under the Janelia Farm Software License."
+EASEL_VERSION="h$PACKAGE_VERSION"
+EASEL_URL="http://bioeasel.org/"
+
+# Output variables  (AC_OUTPUT replaces @var@ in input files, such as Makefiles)
+AC_SUBST(HMMER_DATE)
+AC_SUBST(HMMER_COPYRIGHT)
+AC_SUBST(HMMER_LICENSE)
+AC_SUBST(HMMER_VERSION)
+AC_SUBST(HMMER_URL)
+AC_SUBST(HMMER_ESLDIR)
+AC_SUBST(HMMER_SADIR)
+
+AC_SUBST(EASEL_DATE)
+AC_SUBST(EASEL_COPYRIGHT)
+AC_SUBST(EASEL_LICENSE)
+AC_SUBST(EASEL_VERSION)
+AC_SUBST(EASEL_URL)
+
+# Preprocessor symbols (replace #undefs in p7config.h)
+AC_DEFINE_UNQUOTED(HMMER_DATE,      "$HMMER_DATE")
+AC_DEFINE_UNQUOTED(HMMER_COPYRIGHT, "$HMMER_COPYRIGHT")
+AC_DEFINE_UNQUOTED(HMMER_LICENSE,   "$HMMER_LICENSE")
+AC_DEFINE_UNQUOTED(HMMER_VERSION,   "$HMMER_VERSION")
+AC_DEFINE_UNQUOTED(HMMER_URL,       "$HMMER_URL")
+
+AC_DEFINE_UNQUOTED(EASEL_DATE,      "$EASEL_DATE")
+AC_DEFINE_UNQUOTED(EASEL_COPYRIGHT, "$EASEL_COPYRIGHT")
+AC_DEFINE_UNQUOTED(EASEL_LICENSE,   "$EASEL_LICENSE")
+AC_DEFINE_UNQUOTED(EASEL_VERSION,   "$EASEL_VERSION")
+
+AC_DEFINE(eslLIBRARY)
+
+# Figure out what host we're compiling on.
+# Three GNU scripts must be included in the distro: 
+#       install.sh, config.guess, config.sub
+# This sets four shell variables:
+#       host            example: i686-pc-linux-gnu      
+#       host_cpu        example: i686
+#       host_vendor     example: pc
+#       host_os         example: linux-gnu
+AC_CANONICAL_HOST
+
+# Check if we're a binary distribution. 
+# Trigger is existence of binaries/, nonexistence of src/.
+# 
+# For binary distro, we do minimal configuration, setting version information 
+# and installation path names, making ./configure independent of having a working
+# C compiler.
+#
+# Implements a sneaky if statement that wraps most of the configure.ac M4 code.
+#
+#if ((! test -d binaries) && test -d src); then 
+AC_MSG_NOTICE([Full HMMER source distribution - using full configuration])
+
+
+
+################################################################
+# Process the ./configure command line
+################################################################
+
+# --enable-debugging      - set basic debugging (level 0)
+# --enable-debugging=x    - set debugging level to <x> (1-3)
+#
+# At all levels, including 0, replaces CFLAGS w/ "-g -Wall" (so it assumes gcc).
+# Sets p7_DEBUGGING preprocessor symbol, which compiles in debugging support.
+# Also sets eslDEBUGLEVEL level, 0-3.
+#
+AC_ARG_ENABLE(debugging,
+[AS_HELP_STRING([--enable-debugging],[include debugging code])
+AS_HELP_STRING([--enable-debugging=x],[also set diagnostics verbosity level to <x> (1-3)])],
+enable_debugging=$enableval, enable_debugging=no)
+
+case $enable_debugging in
+   yes)  AC_DEFINE(eslDEBUGLEVEL, 0);;
+     1)  AC_DEFINE(eslDEBUGLEVEL, 1);;
+     2)  AC_DEFINE(eslDEBUGLEVEL, 2);;
+     3)  AC_DEFINE(eslDEBUGLEVEL, 3);;
+    no)  AC_DEFINE(eslDEBUGLEVEL, 0);;
+     *)  AC_MSG_ERROR([Unknown argument to --enable-debugging: $enable_debugging]);;
+esac
+
+
+# --enable-gcov      - compile for code coverage testing
+#
+# Replaces CC with "gcc" and CFLAGS with "-g -Wall -fprofile-arcs -ftest-coverage".
+# Running programs (notably the test suite) will then generate .gcda files,
+# which the gcov tool can read.
+#
+AC_ARG_ENABLE(gcov,[AS_HELP_STRING([--enable-gcov],[compile for code coverage testing])], ok=$enableval, ok=no)
+if test "$ok" = "yes"; then
+  AC_MSG_NOTICE([Compiling with gcov instrumentation.])
+  CC="gcc"
+  CFLAGS="-g -Wall -fprofile-arcs -ftest-coverage"
+  sre_cflags_env_set=yes
+fi
+
+
+# --enable-gprof     - compile for gcc code profiling
+#
+# Replaces CC with "gcc" and CFLAGS with "-O -g -pg"
+# Running programs generates a profile data file "gmon.out".
+#
+AC_ARG_ENABLE(gprof,[AS_HELP_STRING([--enable-gprof],[compile for gcc code profiing])], ok=$enableval, ok=no)
+if test "$ok" = "yes"; then
+  AC_MSG_NOTICE([Compiling with gprof instrumentation.])
+  CC="gcc"
+  CFLAGS="-O -g -pg"
+  sre_cflags_env_set=yes
+fi
+
+
+# --enable-sse    Enable the SSE implementation.
+# --enable-vmx    Enable the Altivec/VMX implementation.
+# --enable-dummy  Enable the portable implementation.
+#
+# These set $impl_choice to one of sse, vmx, dummy, or none.
+#
+AC_ARG_ENABLE(sse,[AS_HELP_STRING([--enable-sse],[enable SSE implementation])],          enable_sse=$enableval,   enable_sse=check)
+AC_ARG_ENABLE(vmx,[AS_HELP_STRING([--enable-vmx],[enable Altivec/VMX implementation])],  enable_vmx=$enableval,   enable_vmx=check)
+AC_ARG_ENABLE(dummy,[AS_HELP_STRING([--enable-dummy],[enable portable implementation])], enable_dummy=$enableval, enable_dummy=check)
+if test "$enable_sse" = "yes"; then
+   if test "$enable_vmx" = "yes" || test "$enable_dummy" = "yes"; then
+      AC_MSG_ERROR([Select only one implementation of sse, vmx, or dummy])
+   fi
+   impl_choice=sse
+elif test "$enable_vmx" = "yes"; then
+   if test "$enable_sse" = "yes" || test "$enable_dummy" = "yes"; then
+      AC_MSG_ERROR([Select only one implementation of sse, vmx, or dummy])
+   fi
+   impl_choice=vmx
+elif test "$enable_dummy" = "yes"; then
+   if test "$enable_sse" = "yes" || test "$enable_vmx" = "yes"; then
+      AC_MSG_ERROR([Select only one implementation of sse, vmx, or dummy])
+   fi
+   impl_choice=dummy
+else
+   impl_choice=none   	
+fi
+
+
+# --enable-mpi       Enable MPI parallelization
+AC_ARG_ENABLE(mpi,[AS_HELP_STRING([--enable-mpi],[enable MPI parallelization])], enable_mpi=$enableval, enable_mpi=no)
+
+
+# --enable-xlc-arch  Set the code generation for a particular architecture
+#
+# The xlc compiler on AIX seems to need the -qarch flag to be set for a processor
+# that is VMX enabled.  Otherwise a warning is issued that states the -qenablevmx
+# and -qaltivec flags are ignored.
+AX_COMPILER_VENDOR
+if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+  AC_ARG_WITH(xlc-arch, 
+              [AC_HELP_STRING([--with-xlc-arch=<arch>], [specify architecture <arch> for xlc -qarch])],
+              XLC_ARCH=$withval, 
+              XLC_ARCH=no)
+fi
+
+# --enable-threads      Enable POSIX multithreading
+#
+# Uses ACX_PTHREAD macro from the GNU macro archive.
+# Back to my code to finish enabling pthreads...
+# Define these preprocessor variables:
+#     HMMER_THREADS
+#     HAVE_PTHREAD_SETCONCURRENCY
+#     HAVE_PTHREAD_ATTR_SETSCOPE
+#
+AC_ARG_ENABLE([threads],
+              [AS_HELP_STRING([--enable-threads],
+                 [enable POSIX multithreading support (default is check)])],
+	      [],
+              [enable_threads=check])
+
+case $enable_threads in 
+   yes)   check_threads=yes
+          ;;
+   no)    check_threads=no
+          ;;
+   check) check_threads=yes
+          ;;
+   *)     check_threads=no
+          AC_MSG_NOTICE([Ignoring unknown argument to --enable-threads: $enable_threads])
+          ;;
+esac
+ 
+AS_IF([test "x$check_threads" != xno],
+      [ACX_PTHREAD([AC_DEFINE(HMMER_THREADS)
+                    AC_DEFINE(HAVE_PTHREAD)
+                    AC_SUBST(PTHREAD_LIBS)
+                    AC_SUBST(PTHREAD_CFLAGS)],
+                   [if test "x$enable_threads" != xcheck; then
+                      AC_MSG_FAILURE([POSIX multithreading failed])
+                    fi])])
+
+#AC_ARG_ENABLE(threads, 
+#[  --enable-threads        enable POSIX multithreading support],
+#[case $enable_threads in 
+#   yes) AC_MSG_NOTICE([enabled POSIX multithreading support])
+#        AC_CHECK_FUNCS(pthread_setconcurrency)
+#        AC_CHECK_FUNCS(pthread_attr_setscope)
+#	ACX_PTHREAD(AC_DEFINE(HMMER_THREADS))
+#	;;
+#   no)  AC_MSG_NOTICE([POSIX multithreading support disabled])
+#        ;;
+#   *)   echo "Ignoring unknown argument to --disable-threads: $enable_threads"
+#	;;
+#esac])
+
+# --with-gsl        - enable hooks into the GSL (GNU Scientific Library)
+#
+# The (action-if-given) is blank: using --with-gsl sets $with_gsl to 'yes',
+# and --without-gsl sets $with_gsl to 'no'. If neither is given,
+# $with_gsl is set to 'check', and we'll try to use GSL anyway if we
+# can find it.
+# 
+# We interpret the $with_gsl setting later, in the "checks for libraries" section.
+AC_ARG_WITH([gsl],
+            [AS_HELP_STRING([--with-gsl],
+                           [use the GSL, GNU Scientific Library (default is no)])],
+            [if test "x$withval" != xno ; then 
+               AC_MSG_NOTICE([Enabling hooks into the GNU Scientific Library (GSL)])
+             fi
+            ],
+	    [with_gsl=no])
+
+
+################################################################
+# Select the vector implementation we'll use
+# (if user didn't already configure one)
+#
+if test "$impl_choice" = "none"; then
+  case $host in 
+    ia64-*-*)      impl_choice=sse;;
+    i?86-*-*)      impl_choice=sse;;
+    x86*-*-*)      impl_choice=sse;;
+    powerpc*-*-*)  impl_choice=vmx;;
+    *)             impl_choice=dummy;;
+  esac
+fi
+
+if test "$impl_choice" = "dummy"; then
+  AC_MSG_WARN([It appears your platform will not fully support H3.])
+  AC_MSG_WARN([We'll use the 'dummy' implementation, a slow reference implementation.])
+fi
+
+if test "$impl_choice" = "sse" && test "$enable_sse" = "no"; then
+  AC_MSG_WARN([You disabled the SSE implementation: I'll use the dummy impl instead.])
+  impl_choice=dummy
+fi
+if test "$impl_choice" = "vmx" && test "$enable_vmx" = "no"; then
+  AC_MSG_WARN([You disabled the VMX implementation: I'll use the dummy impl instead.])
+  impl_choice=vmx
+fi
+if test "$impl_choice" = "dummy" && test "$enable_dummy" = "no"; then
+  AC_MSG_ERROR([No vector impl configured; and you disabled the dummy implementation.])
+fi
+
+
+################################################################
+# Checks for programs, including choice of compiler ${CC} and ${CFLAGS}.
+#
+AC_PROG_CC
+AC_PROG_INSTALL
+# MPI :  set @CC@ to mpicc, sets @MPILIBS@, defines HAVE_MPI. 
+if test "$enable_mpi" = "yes"; then
+   ACX_MPI([AC_DEFINE(HAVE_MPI)
+            AC_SUBST([MPI_UTESTS], ["mpi_utest"])
+            AC_SUBST([MPI_BENCHMARKS], ["mpi_benchmark"])],
+           AC_MSG_ERROR([MPI library not found for --enable-mpi]))
+   CC=$MPICC
+fi
+AC_PROG_CPP
+AX_COMPILER_VENDOR
+# AC_PROG_CC_STDC wants to append -c99 to icc; icc doesn't like this.
+if test "$ax_cv_c_compiler_vendor" != "intel"; then
+  AC_PROG_CC_STDC
+fi
+AC_PROG_RANLIB
+AC_PATH_PROG([AR], [ar], [:], [$PATH:/usr/ccs/bin:/usr/xpg4/bin])
+CHECK_GNU_MAKE
+
+# Select our optimization level in CFLAGS.
+if test "$enable_debugging" != "no"; then
+   AC_DEFINE(p7_DEBUGGING,  1)
+   if test "$GCC" = "yes" && test "$sre_cflags_env_set" = "no"; then
+      CFLAGS="-g -Wall"
+   fi
+else
+   sre_save_ac_test_cflags="$ac_test_CFLAGS"
+   if test "$sre_cflags_env_set" = "no"; then
+     ac_test_CFLAGS=""
+   fi
+   AX_CC_MAXOPT
+   ac_test_CFLAGS="$sre_save_ac_test_cflags"
+   # That was a workaround. AX_CC_MAXOPT apparently thinks that
+   # $ac_test_CFLAGS only gets set if ${CFLAGS} was set by the
+   # user (in the environment), but that's not so; it gets set
+   # by AC_PROG_CC. Instead of rewriting AX_CC_MAXOPT, we fool
+   # it.
+fi
+
+# Figure out how to generate PIC code for shared libraries
+# This sets @PIC_FLAGS@ output variable for Easel.
+ESL_PIC_FLAGS
+
+# If we're using SSE, figure out our @SIMD_CFLAGS@
+if test "$impl_choice" = "sse" && test "x$SIMD_CFLAGS" = x; then
+   case $ax_cv_c_compiler_vendor in
+   gnu)   AX_CHECK_COMPILER_FLAGS(-msse2,[SIMD_CFLAGS="-msse2"],[impl_choice=dummy]);;
+   intel) ;;
+   *)     ;;
+   esac
+fi
+if test "$enable_sse" = "yes" && test "$impl_choice" = dummy; then
+   AC_MSG_ERROR([SSE instructions are apparently not available; --enable-sse failed])
+fi
+
+# If we're using VMX/Altivec, figure out our @SIMD_CFLAGS@
+if test "$impl_choice" = "vmx"; then
+   if test "x$SIMD_CFLAGS" = x; then
+      if test "$GCC" = "yes"; then
+       	# -DFAKE__VEC__ is a workaround because gcc-3.3 does not
+	# #define __VEC__ with -maltivec.
+        AX_CHECK_COMPILER_FLAGS(-faltivec, [SIMD_CFLAGS="-faltivec"],
+	    [AX_CHECK_COMPILER_FLAGS(-maltivec -mabi=altivec,
+		[SIMD_CFLAGS="-maltivec -mabi=altivec"],
+#		[SIMD_CFLAGS="-maltivec -mabi=altivec -DFAKE__VEC__"],
+	        [AX_CHECK_COMPILER_FLAGS(-fvec, [SIMD_CFLAGS="-fvec"],
+		   [AC_MSG_ERROR([Need a version of gcc with -maltivec])])])])
+      elif test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+        SIMD_CFLAGS=""
+        # if debugging is enabled and the xlc_arch flag is set, we need to
+        # set the qarch flag here.  if debugging is NOT enabled, the arch
+        # flag is set in AX_CC_MAXOPT.
+        if test "x$XLC_ARCH" != x; then
+           if test "x$enable_debugging" = xyes; then
+              AX_CHECK_COMPILER_FLAGS(-qarch=$XLC_ARCH, [SIMD_CFLAGS="-qarch=$XLC_ARCH"],[])
+           fi
+        fi
+        AX_CHECK_COMPILER_FLAGS(-qenablevmx, [SIMD_CFLAGS="$SIMD_CFLAGS -qenablevmx"],[])
+        AX_CHECK_COMPILER_FLAGS(-qaltivec, [SIMD_CFLAGS="$SIMD_CFLAGS -qaltivec"],[])
+      else
+        AX_CHECK_COMPILER_FLAGS(-faltivec, [SIMD_CFLAGS="-faltivec"],[])
+      fi
+   fi
+fi
+
+# check if the SSE2 implementation support cast functions
+if test "$impl_choice" = "sse"; then
+  AC_MSG_CHECKING([compiler support for sse2 cast functions])
+  ssecast=no
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  AC_LANG(C)
+  AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[#include <emmintrin.h>]],
+                                     [[__m128 a;
+                                       __m128i b;
+                                       b = _mm_castps_si128(a);
+                                       a = _mm_castsi128_ps(b);]])],
+                    [AC_DEFINE([HAVE_SSE2_CAST])
+                     ssecast=yes])
+  AC_MSG_RESULT([$ssecast])
+  CFLAGS="$sre_save_cflags"
+fi
+
+# Verify that we can actually build the chosen implementation; else
+# default to dummy.
+# (For example, Athlon reports as i686-*, so will get assigned to 
+# sse impl, but does not support SSE2 instructions.)
+# The test here is cribbed from the Apache configure.ac file.
+#
+if test "$impl_choice" = "sse"; then
+  AC_MSG_CHECKING([whether SSE2 is supported])
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  AC_COMPILE_IFELSE(  [AC_LANG_PROGRAM([[#include <emmintrin.h>]],
+ 				 [[__m128i* one=(__m128i*)_mm_malloc(4, 16);
+				   __m128i* two=(__m128i*)_mm_malloc(4, 16);
+				   __m128i xmm1 = _mm_load_si128(one);
+				   __m128i xmm2 = _mm_load_si128(two);
+				   __m128i xmm3 = _mm_or_si128(xmm1, xmm2);
+				   _mm_store_si128(one, xmm3);
+				   _mm_free(one);
+				   _mm_free(two);
+				 ]])],
+	[ AC_MSG_RESULT([yes])],
+	[ AC_MSG_RESULT([no; reverting to dummy implementation])
+	  impl_choice=dummy
+	]
+  )
+  CFLAGS="$sre_save_cflags"
+fi
+
+if test "$impl_choice" = "vmx"; then
+  AC_MSG_CHECKING([whether Altivec/VMX is supported])
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  AC_COMPILE_IFELSE(  [AC_LANG_PROGRAM([[#include <altivec.h>]],
+ 				 [[vector unsigned char zerov;
+                                   vector unsigned char onev;
+                                   zerov = vec_splat_u8(0);
+                                   onev = vec_splat_u8(1);
+                                   onev = vec_adds(onev, zerov);
+				 ]])],
+	[ AC_MSG_RESULT([yes])],
+	[ AC_MSG_RESULT([no; reverting to dummy implementation])
+	  impl_choice=dummy
+          if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+             echo "******************************************************"
+             echo "*  You seem to have the IBM  C compiler.  If your    *"
+             echo "*  processor supports vector instructions it is      *"
+             echo "*  possible specifying an architecture would enable  *"
+             echo "*  vector support, i.e.                              *"
+             echo "*                                                    *"
+             echo "*    --with-xlc-arch=XXX                             *"
+             echo "*                                                    *"
+             echo "*  where XXX is pwr6, auto or whatever kind of CPU   *"
+             echo "*  you have.                                         *"
+             echo "******************************************************"
+          fi
+ 	]
+  )
+  CFLAGS="$sre_save_cflags"
+fi
+
+# For x86 processors check if the flush to zero macro is available
+# in order to avoid the performance penalty dealing with sub-normal
+# values in the floating point calculations.
+if test "$impl_choice" = "sse"; then
+  AC_MSG_CHECKING([whether _MM_SET_FLUSH_ZERO_MODE is supported])
+  sre_save_cflags="$CFLAGS"
+  CFLAGS="$CFLAGS $SIMD_CFLAGS"
+  AC_COMPILE_IFELSE(  [AC_LANG_PROGRAM([[#include <xmmintrin.h>]],
+ 				 [[_MM_SET_FLUSH_ZERO_MODE (_MM_FLUSH_ZERO_ON);
+				 ]])],
+	[ AC_MSG_RESULT([yes])
+          AC_DEFINE([HAVE_FLUSH_ZERO_MODE])],
+	[ AC_MSG_RESULT([no])]
+  )
+  CFLAGS="$sre_save_cflags"
+fi
+
+# Now, we can enable the appropriate optimized implementation.
+case "$impl_choice" in 
+sse)  AC_MSG_NOTICE([Activating Intel/AMD SSE optimized DP implementation])
+      AC_DEFINE([HAVE_SSE2])
+      AC_DEFINE([p7_IMPL_SSE])
+      AC_SUBST([HMMERIMPLLIB], ["impl_sse/libhmmerimpl.a"])
+      IMPL_CHOICE="sse"
+      ;;
+
+vmx)  AC_MSG_NOTICE([Activating Altivec/VMX optimized DP implementation])
+      AC_DEFINE([HAVE_VMX])
+      AC_DEFINE([p7_IMPL_VMX])
+      AC_SUBST([HMMERIMPLLIB], ["impl_vmx/libhmmerimpl.a"])
+      IMPL_CHOICE="vmx"
+      ;;
+
+*)    AC_MSG_NOTICE([Activating "dummy" implementation])
+      AC_DEFINE([p7_IMPL_DUMMY])
+      AC_SUBST([HMMERIMPLLIB], ["impl_dummy/libhmmerimpl.a"])
+      IMPL_CHOICE="dummy"
+      ;;
+esac
+AC_SUBST(IMPL_CHOICE)
+AC_SUBST(SIMD_CFLAGS)
+
+
+# Check if the linker supports library groups for recursive libraries
+AS_IF([test "x$impl_choice" != xno],
+      [AC_MSG_CHECKING([compiler support --start-group])
+       LDFLAGS_save=$LDFLAGS
+       LDFLAGS="-Wl,--start-group -Wl,--end-group $LDFLAGS"
+       AC_LINK_IFELSE([AC_LANG_PROGRAM([],[])],
+           [AC_MSG_RESULT([yes])
+            AC_SUBST([GROUPHMMERLIBS], ["-Wl,--start-group -lhmmer -lhmmerimpl -Wl,--end-group"])],
+           [AC_MSG_RESULT([no])
+            AC_SUBST([GROUPHMMERLIBS], ["-lhmmer -lhmmerimpl"])])
+       LDFLAGS=$LDFLAGS_save],
+      [AC_SUBST([GROUPHMMERLIBS], ["-lhmmer"])])
+
+# Define HAVE_GZIP if gzip is in $PATH (or if HAVE_GZIP is already set)
+AC_PATH_PROG(HAVE_GZIP, "gzip", "no")
+if test "${HAVE_GZIP}" = "no"; then
+  AC_MSG_WARN([gzip not found])
+else
+  AC_DEFINE(HAVE_GZIP)
+fi
+
+# 5. Checks for libraries
+#
+LIBGSL=
+AS_IF([test "x$with_gsl" != xno],
+      [AC_CHECK_LIB([gsl], [gsl_expm1], 
+           [AC_SUBST([LIBGSL], ["-lgsl -lgslcblas"])
+            AC_DEFINE([HAVE_LIBGSL], [1], [Define if you have libgsl])
+           ],
+           [if test "x$with_gsl" != xcheck; then
+             AC_MSG_FAILURE(
+               [--with-gsl was given, but GSL library was not found])
+            fi
+           ],
+           [-lgslcblas]
+        )])
+
+# Checks for headers
+#
+# Defines HAVE_SYS_TYPES_H, HAVE_STDINT_H, etc.
+AC_CHECK_HEADERS([ \
+  endian.h\
+  inttypes.h\
+  stdint.h\
+  unistd.h\
+  sys/types.h\
+  netinet/in.h
+]) 
+
+# Check for sysctl.h separately.  On OpenBSD, it requires
+# <sys/param.h> and autoconf needs special logic to deal w. this as
+# follows.
+AC_CHECK_HEADERS([sys/param.h])
+AC_CHECK_HEADERS([sys/sysctl.h], [], [],
+[[#ifdef HAVE_SYS_PARAM_H
+#include <sys/param.h>
+#endif
+]])
+
+
+# altivec.h requires the simd cflags
+# For reasons I don't understand, this needs to come after any other CHECK_HEADERS().
+if test "$impl_choice" = "vmx"; then
+   sre_save_CFLAGS="$CFLAGS"
+   sre_save_CPPFLAGS="$CPPFLAGS"
+   CFLAGS="$CFLAGS $SIMD_CFLAGS"
+   CPPFLAGS="$CPPFLAGS $SIMD_CFLAGS"
+   AC_CHECK_HEADERS([altivec.h])
+   CFLAGS="$sre_save_CFLAGS"
+   CPPFLAGS="$sre_save_CPPFLAGS"
+fi
+
+# Checks for types
+#
+AC_C_BIGENDIAN
+AC_TYPE_UINT8_T
+AC_TYPE_UINT16_T
+AC_TYPE_UINT32_T
+AC_TYPE_UINT64_T
+AC_TYPE_OFF_T
+
+# Checks for functions, defining HAVE_FOO when foo is found
+#
+AC_CHECK_FUNCS(mkstemp)
+AC_CHECK_FUNCS(popen)
+AC_CHECK_FUNCS(strcasecmp)
+AC_CHECK_FUNCS(times)
+AC_CHECK_FUNCS(getpid)
+AC_CHECK_FUNCS(sysctl)
+AC_CHECK_FUNCS(sysconf)
+AC_CHECK_FUNCS(getcwd)
+AC_CHECK_FUNCS(stat)
+AC_CHECK_FUNCS(fstat)
+
+AC_CHECK_FUNCS(ntohs, , AC_CHECK_LIB(socket, ntohs))
+AC_CHECK_FUNCS(ntohl, , AC_CHECK_LIB(socket, ntohl))
+AC_CHECK_FUNCS(htons, , AC_CHECK_LIB(socket, htons))
+AC_CHECK_FUNCS(htonl, , AC_CHECK_LIB(socket, htonl))
+AC_FUNC_FSEEKO
+
+#
+# 11. System services
+#
+AC_SYS_LARGEFILE
+
+
+# Done.
+# Config subdirs and files (except main Makefile, which we defer)
+#
+if test -d release-notes; then
+  AC_CONFIG_FILES(release-notes/LICENSE.sh)
+fi
+
+AC_CONFIG_FILES([documentation/Makefile])
+AC_CONFIG_FILES([documentation/man/Makefile])
+if test -d "documentation/userguide"; then 
+  AC_CONFIG_FILES([documentation/userguide/Makefile])
+fi  
+AC_CONFIG_FILES([src/Makefile])
+AC_CONFIG_FILES([testsuite/Makefile])
+AC_CONFIG_FILES([profmark/Makefile])
+AC_CONFIG_FILES([src/impl_${impl_choice}/Makefile])
+AC_CONFIG_HEADERS([src/p7_config.h])
+AC_CONFIG_HEADERS([easel/esl_config.h])
+AC_CONFIG_HEADERS([libdivsufsort/divsufsort.h])
+AC_CONFIG_FILES([easel/miniapps/Makefile])
+AC_CONFIG_FILES([easel/testsuite/Makefile])
+if test -d "easel/documentation"; then
+  AC_CONFIG_FILES([easel/documentation/Makefile])
+fi    
+AC_CONFIG_FILES([easel/Makefile])
+AC_CONFIG_FILES([libdivsufsort/Makefile])
+
+# the following incantation establishes a symlink of
+# src/impl_{whatever} to src/impl in the *build* directory.
+# Testsuite sqc tests rely on it.
+AC_CONFIG_LINKS([src/impl:${ac_top_build_prefix}src/impl_${impl_choice}])
+
+################################################################
+# 13. AC_OUTPUT
+################################################################
+# remember that sneaky if statement that wraps the source
+# configuration? well, it ends here.
+#else
+#  AC_MSG_NOTICE([This is a precompiled binary distribution - using abbreviated config])
+#fi
+AC_CONFIG_FILES([Makefile])
+AC_OUTPUT
+
+echo "
+
+HMMER configuration:
+     compiler:             ${CC} ${CFLAGS} ${SIMD_CFLAGS} ${PTHREAD_CFLAGS} ${PIC_FLAGS}
+     host:                 $host
+     linker:               ${LDFLAGS}
+     libraries:            ${LIBS} ${LIBGSL} ${PTHREAD_LIBS}
+     DP implementation:    ${impl_choice}
+"
+
+if test "$impl_choice" = "dummy"; then
+  AC_MSG_WARN([We will compile the "dummy", a portable ANSI C reference implementation.])
+  AC_MSG_WARN([It is slow, about 100x slower than real H3, and is NOT intended for production use!])
+  AC_MSG_WARN([It only intended to show the basics of how HMMER3 works, portably.])
+fi
+
+
+#################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+# 
+# SVN $Id: configure.ac 4766 2015-02-22 18:22:01Z wheelert $
+# SVN $URL$ 
+# xref autoconf macro archive: //www.gnu.org/software/ac-archive/
+#################################################################
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/Makefile.in
new file mode 100755
index 0000000..363ffe1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/Makefile.in
@@ -0,0 +1,53 @@
+top_srcdir     = @top_srcdir@
+srcdir         = @srcdir@
+VPATH          = @srcdir@
+
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+
+.PHONY: pdf install uninstall clean distclean
+
+pdf:
+	${QUIET_SUBDIR0}userguide ${QUIET_SUBDIR1} pdf
+
+install: 
+	${QUIET_SUBDIR0}man       ${QUIET_SUBDIR1} install
+
+uninstall:
+	${QUIET_SUBDIR0}man       ${QUIET_SUBDIR1} uninstall
+
+clean:
+#Use 'ifneq' instead of 'test -e' because the '+@' in QUIET_SUBDIR0 can't
+#be passed to the shell. Note that ifneq breaks if indented.
+ifneq (,$(wildcard userguide/.))
+	${QUIET_SUBDIR0}userguide ${QUIET_SUBDIR1} clean
+endif
+	${QUIET_SUBDIR0}man       ${QUIET_SUBDIR1} clean;
+	-rm -f *~
+
+distclean:
+#See above for explanation of 'ifneq' usage
+ifneq (,$(wildcard userguide/.))
+	${QUIET_SUBDIR0}userguide ${QUIET_SUBDIR1} distclean
+endif
+	${QUIET_SUBDIR0}man       ${QUIET_SUBDIR1} distclean
+	-rm -f Makefile
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+# 
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/documentation/Makefile.in $
+# SVN $Id: Makefile.in 4489 2013-06-19 02:46:43Z wheelert $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/Makefile.in
new file mode 100755
index 0000000..9d91bd0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/Makefile.in
@@ -0,0 +1,73 @@
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ 
+SHELL      = /bin/sh
+
+# Installation targets
+#
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+mandir      = @mandir@
+docdir      = @docdir@
+pdfdir      = @pdfdir@
+mandir      = @mandir@
+man1dir     = ${mandir}/man1
+man1ext     = .1
+
+INSTALL     = @INSTALL@
+
+MANS =  hmmer\
+	hmmalign\
+	hmmbuild\
+	hmmconvert\
+	hmmemit\
+	hmmfetch\
+	hmmlogo\
+	hmmpgmd\
+	hmmpress\
+	hmmscan\
+	hmmsearch\
+	hmmsim\
+	hmmstat\
+	jackhmmer\
+	makehmmerdb\
+	phmmer\
+	nhmmer\
+	nhmmscan\
+	alimask
+
+.PHONY:  install uninstall clean distclean
+
+install:
+	for file in ${MANS}; do \
+	   ${INSTALL} -m 0755 ${srcdir}/$$file.man ${DESTDIR}${man1dir}/$${file}${man1ext} ;\
+	done
+
+uninstall:
+	for file in ${MANS}; do \
+	   rm ${DESTDIR}${man1dir}/$${file}${man1ext} ;\
+	done
+
+clean:
+	-rm -f *~ 
+
+distclean:
+	-rm -f *~ 
+	-rm -f Makefile
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/documentation/man/Makefile.in $
+# SVN $Id: Makefile.in 4576 2013-12-18 04:58:49Z wheelert $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/alimask.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/alimask.man
new file mode 100755
index 0000000..a2251c5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/alimask.man
@@ -0,0 +1,323 @@
+.TH "alimask" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+alimask - Add mask line to a multiple sequence alignment
+
+.SH SYNOPSIS
+.B alimask
+.I [options]
+.I <msafile>
+.I <postmsafile>
+
+
+.SH DESCRIPTION
+
+.PP
+.B alimask
+is used to apply a mask line to a multiple sequence
+alignment, based on provided alignment or model coordinates.
+When 
+.B hmmbuild
+receives a masked alignment as input, it produces a profile
+model in which the emission probabilities at masked positions
+are set to match the background frequency, rather than being
+set based on observed frequencies in the alignment. 
+Position-specific insertion and deletion rates are not 
+altered, even in masked regions. 
+.B alimask
+autodetects input format, and produces masked alignments 
+in Stockholm format.  
+.I <msafile> 
+may contain only one sequence alignment.
+
+.PP
+A common motivation for masking a region in an alignment is
+that the region contains a simple tandem repeat that is 
+observed to cause an unacceptably high rate of false positive
+hits. 
+
+.PP
+In the simplest case, a mask range is given in coordinates 
+relative to the input alignment, using
+.BI --alirange " <s>". 
+However it is more often the case that the region to be 
+masked has been identified in coordinates relative to 
+the profile model (e.g. based on recognizing a simple 
+repeat pattern in false hit alignments or in the HMM logo). 
+Not all alignment columns are converted to match state 
+positions in the profile (see the 
+.I --symfrac
+flag for 
+.B hmmbuild
+for discussion), so model positions do not necessarily match 
+up to alignment column positions. 
+To remove the burden of converting model positions to 
+alignment positions, 
+.B alimask
+accepts the mask range input in model coordinates as well, 
+using
+.BI --modelrange " <s>". 
+When using this flag, 
+.I alimask
+determines which alignment positions would be identified by
+.B hmmbuild
+as match states, a process that requires that all
+.B hmmbuild 
+flags impacting that decision be supplied to 
+.BR alimask .
+It is for this reason that many of the 
+.B hmmbuild 
+flags are also used by
+.BR alimask .  
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -o " <f>"
+Direct the summary output to file
+.IR <f> ,
+rather than to
+.IR stdout .
+
+
+.SH OPTIONS FOR SPECIFYING MASK RANGE
+
+A single mask range is given as a dash-separated pair, like
+.I "--modelrange 10-20"
+and multiple ranges may be submitted as a comma-separated list,
+.IR "--modelrange 10-20,30-42" .
+
+
+.TP
+.BI --modelrange " <s>"
+Supply the given range(s) in model coordinates. 
+
+.TP
+.BI --alirange " <s>"
+Supply the given range(s) in alignment coordinates. 
+
+.TP
+.B --apendmask 
+Add to the existing mask found with the alignment.
+The default is to overwrite any existing mask. 
+
+.TP
+.BI --model2ali " <s>"
+Rather than actually produce the masked alignment, simply
+print model range(s) corresponding to input alignment 
+range(s).
+
+.TP
+.BI --ali2model " <s>"
+Rather than actually produce the masked alignment, simply
+print alignment range(s) corresponding to input model 
+range(s).
+
+
+.SH OPTIONS FOR SPECIFYING THE ALPHABET
+
+The alphabet type (amino, DNA, or RNA) is autodetected by default, by
+looking at the composition of the
+.IR msafile .
+Autodetection is normally quite reliable, but occasionally alphabet
+type may be ambiguous and autodetection can fail (for instance, on
+tiny toy alignments of just a few residues). To avoid this, or to
+increase robustness in automated analysis pipelines, you may specify
+the alphabet type of
+.I msafile
+with these options.
+
+.TP
+.B --amino
+Specify that all sequences in 
+.I msafile
+are proteins.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I msafile
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I msafile
+are RNAs.
+
+
+
+.SH OPTIONS CONTROLLING PROFILE CONSTRUCTION 
+
+These options control how consensus columns are defined in an alignment.
+
+.TP
+.B --fast 
+Define consensus columns as those that have a fraction >= 
+.B symfrac
+of residues as opposed to gaps. (See below for the
+.B --symfrac
+option.) This is the default.
+
+.TP
+.B --hand
+Define consensus columns in next profile using reference annotation to
+the multiple alignment. 
+This allows you to define any consensus columns you like.
+
+.TP
+.BI --symfrac " <x>"
+Define the residue fraction threshold necessary to define a
+consensus column when using the 
+.B --fast 
+option. The default is 0.5. The symbol fraction in each column
+is calculated after taking relative sequence weighting into account,
+and ignoring gap characters corresponding to ends of sequence
+fragments
+(as opposed to internal insertions/deletions).
+Setting this to 0.0 means that every alignment column will be assigned
+as consensus, which may be useful in some cases. Setting it to 1.0
+means that only columns that include 0 gaps (internal
+insertions/deletions) will be assigned as consensus.
+
+.TP
+.BI --fragthresh " <x>"
+We only want to count terminal gaps as deletions if the aligned
+sequence is known to be full-length, not if it is a fragment (for
+instance, because only part of it was sequenced). HMMER uses a simple
+rule to infer fragments: if the sequence length L is less than 
+or equal to a fraction
+.I <x> 
+times the alignment length in columns,
+then the sequence is handled as a fragment. The default is 0.5.
+Setting
+.BI --fragthresh 0
+will define no (nonempty) sequence as a fragment; you might want to do
+this if you know you've got a carefully curated alignment of full-length
+sequences.
+Setting
+.BI --fragthresh 1
+will define all sequences as fragments; you might want to do this if
+you know your alignment is entirely composed of fragments, such as
+translated short reads in metagenomic shotgun data.
+
+
+.SH OPTIONS CONTROLLING RELATIVE WEIGHTS
+
+HMMER uses an ad hoc sequence weighting algorithm to downweight
+closely related sequences and upweight distantly related ones. This
+has the effect of making models less biased by uneven phylogenetic
+representation. For example, two identical sequences would typically
+each receive half the weight that one sequence would.  These options
+control which algorithm gets used.
+
+.TP
+.B --wpb
+Use the Henikoff position-based sequence weighting scheme [Henikoff
+and Henikoff, J. Mol. Biol. 243:574, 1994].  This is the default.
+
+.TP 
+.B --wgsc 
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm [Gerstein et
+al, J. Mol. Biol. 235:1067, 1994].
+
+.TP 
+.B --wblosum
+Use the same clustering scheme that was used to weight data in
+calculating BLOSUM subsitution matrices [Henikoff and Henikoff,
+Proc. Natl. Acad. Sci 89:10915, 1992]. Sequences are single-linkage
+clustered at an identity threshold (default 0.62; see
+.IR --wid )
+and within each cluster of c sequences, each sequence gets relative
+weight 1/c.
+
+.TP
+.B --wnone
+No relative weights. All sequences are assigned uniform weight. 
+
+.TP 
+.BI --wid " <x>"
+Sets the identity threshold used by single-linkage clustering when 
+using 
+.IR --wblosum . 
+Invalid with any other weighting scheme. Default is 0.62.
+
+
+
+
+
+.SH OTHER OPTIONS
+
+.TP 
+.BI --informat " <s>"
+Declare that the input
+.I msafile
+is in format 
+.IR <s> .
+Currently the accepted multiple alignment sequence file formats 
+include Stockholm, Aligned FASTA, Clustal, NCBI PSI-BLAST, PHYLIP, 
+Selex, and UCSC SAM A2M. Default is to autodetect the format of
+the file.
+
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is nonzero, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/boilerplate-tail b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/boilerplate-tail
new file mode 100755
index 0000000..63e326a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/boilerplate-tail
@@ -0,0 +1,38 @@
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page, with full list of the individual man pages
+for all programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+(@HMMER_URL@).
+
+.SH COPYRIGHT
+
+.nf
+@HMMER_COPYRIGHT@
+@HMMER_LICENSE@
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+(@HMMER_URL@).
+
+
+.SH AUTHOR
+
+.nf
+Sean Eddy
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmalign.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmalign.man
new file mode 100755
index 0000000..e6c4d76
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmalign.man
@@ -0,0 +1,165 @@
+.TH "hmmalign" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmalign - align sequences to a profile HMM
+
+.SH SYNOPSIS
+.B hmmalign
+.I [options]
+.I <hmmfile>
+.I <seqfile>
+
+.SH DESCRIPTION
+
+.PP
+Perform a multiple sequence alignment of all the sequences in
+.I <seqfile>
+by aligning them individually to the profile HMM in
+.I <hmmfile>.
+The new alignment is output to 
+.I stdout
+in Stockholm format.
+
+.PP 
+The
+.I <hmmfile>
+should contain only a single profile. If it contains more, only the
+first profile in the file will be used. 
+
+.PP
+Either 
+.I <hmmfile> 
+or 
+.I <seqfile> 
+(but not both) may be '-' (dash), which
+means reading this input from
+.I stdin
+rather than a file.  
+
+.PP
+The sequences in 
+.I <seqfile>
+are aligned in unihit local alignment mode.  Therefore they should
+already be known to contain only a single domain (or a fragment of one).
+The optimal alignment
+may assign some residues as nonhomologous (N and C states), in which
+case these residues are still included in the resulting alignment, but
+shoved to the outer edges. To trim these unaligned nonhomologous residues from
+the result, see the
+.B --trim
+option.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -o " <f>"
+Direct the output alignment to file
+.I <f>,
+rather than to
+.I stdout.
+
+.TP
+.BI --mapali " <f>"
+Merge the existing alignment in file 
+.I <f>
+into the result, where 
+.I <f> 
+is exactly the same alignment that was used to build the model in  
+.I <hmmfile>.
+This is done using a map of alignment columns to consensus 
+profile positions that is stored in the
+.I <hmmfile>.
+The multiple alignment in 
+.I <f>
+will be exactly reproduced in its consensus columns (as defined by the
+profile), but the displayed alignment in insert columns may be
+altered, because insertions relative to a profile are considered by
+convention to be unaligned data.
+
+
+.TP
+.B --trim
+Trim nonhomologous residues (assigned to N and C states in the optimal
+alignments) from the resulting multiple alignment output. 
+
+.TP
+.B --amino
+Specify that all sequences in 
+.I <seqfile>
+are proteins. By default, alphabet type is autodetected
+from looking at the residue composition.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I <seqfile>
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I <seqfile>
+are RNAs.
+
+.TP 
+.BI --informat " <s>"
+Declare that the input
+.I <seqfile>
+is in format 
+.I <s>.
+Accepted sequence file formats include FASTA, EMBL, GenBank, DDBJ,
+UniProt, Stockholm, and SELEX. Default is to autodetect the format of
+the file.
+
+.TP 
+.BI --outformat " <s>"
+Specify that the output multiple alignment
+is in format 
+.I <s>.
+Currently the accepted multiple alignment sequence file formats only
+include Stockholm and SELEX.
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+The Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmbuild.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmbuild.man
new file mode 100755
index 0000000..9c5cd5c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmbuild.man
@@ -0,0 +1,505 @@
+.TH "hmmbuild" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmbuild - construct profile HMM(s) from multiple sequence alignment(s)
+
+.SH SYNOPSIS
+.B hmmbuild
+.I [options]
+.I <hmmfile_out>
+.I <msafile>
+
+
+.SH DESCRIPTION
+
+For each multiple sequence alignment in 
+.I <msafile>
+build a profile HMM 
+and save it to a new file
+.IR <hmmfile_out> .
+
+
+.PP
+.I <msafile> 
+may be '-' (dash), which means
+reading this input from
+.I stdin
+rather than a file. 
+To use '-', you must also specify the
+alignment file format with
+.BI --informat " <s>",
+as in
+.B "--informat stockholm"
+(because of a current limitation in our implementation,
+MSA file formats cannot be autodetected in a nonrewindable
+input stream.)
+
+.PP
+.I <hmmfile_out>
+may not be '-' 
+.IR (stdout) ,
+because sending the HMM file to 
+.I stdout
+would conflict with the other text
+output of the program.
+
+
+
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -n " <s>"
+Name the new profile 
+.IR <s> .
+The default is to use the name of the alignment (if one is present in 
+the 
+.IR msafile ,
+or, failing that, the name of the
+.IR hmmfile .
+If 
+.I msafile
+contains more than one alignment, 
+.I -n
+doesn't work, and every alignment must have a name 
+annotated in the 
+.I msafile
+(as in Stockholm #=GF ID annotation).
+
+
+.TP
+.BI -o " <f>"
+Direct the summary output to file
+.IR <f> ,
+rather than to
+.IR stdout .
+
+.TP
+.BI -O " <f>"
+After each model is constructed, resave annotated, possibly modified
+source alignments to a file
+.I <f>
+in Stockholm format.
+The alignments are annotated with a reference annotation line
+indicating which columns were assigned as consensus, and sequences are
+annotated with what relative sequence weights were assigned. Some
+residues of the alignment may have been shifted to accommodate
+restrictions of the Plan7 profile architecture, which disallows
+transitions between insert and delete states.
+
+
+.SH OPTIONS FOR SPECIFYING THE ALPHABET
+
+The alphabet type (amino, DNA, or RNA) is autodetected by default, by
+looking at the composition of the
+.IR msafile .
+Autodetection is normally quite reliable, but occasionally alphabet
+type may be ambiguous and autodetection can fail (for instance, on
+tiny toy alignments of just a few residues). To avoid this, or to
+increase robustness in automated analysis pipelines, you may specify
+the alphabet type of
+.I msafile
+with these options.
+
+.TP
+.B --amino
+Specify that all sequences in 
+.I msafile
+are proteins.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I msafile
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I msafile
+are RNAs.
+
+
+
+.SH OPTIONS CONTROLLING PROFILE CONSTRUCTION 
+
+These options control how consensus columns are defined in an alignment.
+
+.TP
+.B --fast 
+Define consensus columns as those that have a fraction >= 
+.B symfrac
+of residues as opposed to gaps. (See below for the
+.B --symfrac
+option.) This is the default.
+
+.TP
+.B --hand
+Define consensus columns in next profile using reference annotation to
+the multiple alignment. 
+This allows you to define any consensus columns you like.
+
+.TP
+.BI --symfrac " <x>"
+Define the residue fraction threshold necessary to define a
+consensus column when using the 
+.B --fast 
+option. The default is 0.5. The symbol fraction in each column
+is calculated after taking relative sequence weighting into account,
+and ignoring gap characters corresponding to ends of sequence
+fragments
+(as opposed to internal insertions/deletions).
+Setting this to 0.0 means that every alignment column will be assigned
+as consensus, which may be useful in some cases. Setting it to 1.0
+means that only columns that include 0 gaps (internal
+insertions/deletions) will be assigned as consensus.
+
+.TP
+.BI --fragthresh " <x>"
+We only want to count terminal gaps as deletions if the aligned
+sequence is known to be full-length, not if it is a fragment (for
+instance, because only part of it was sequenced). HMMER uses a simple
+rule to infer fragments: if the range of a sequence in the alignment 
+(the number of alignment columns between the first and last positions 
+of the sequence) is less than or equal to a fraction
+.I <x> 
+times the alignment length in columns,
+then the sequence is handled as a fragment. The default is 0.5.
+Setting
+.BI --fragthresh 0
+will define no (nonempty) sequence as a fragment; you might want to do
+this if you know you've got a carefully curated alignment of full-length
+sequences.
+Setting
+.BI --fragthresh 1
+will define all sequences as fragments; you might want to do this if
+you know your alignment is entirely composed of fragments, such as
+translated short reads in metagenomic shotgun data.
+
+
+.SH OPTIONS CONTROLLING RELATIVE WEIGHTS
+
+HMMER uses an ad hoc sequence weighting algorithm to downweight
+closely related sequences and upweight distantly related ones. This
+has the effect of making models less biased by uneven phylogenetic
+representation. For example, two identical sequences would typically
+each receive half the weight that one sequence would.  These options
+control which algorithm gets used.
+
+.TP
+.B --wpb
+Use the Henikoff position-based sequence weighting scheme [Henikoff
+and Henikoff, J. Mol. Biol. 243:574, 1994].  This is the default.
+
+.TP 
+.B --wgsc 
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm [Gerstein et
+al, J. Mol. Biol. 235:1067, 1994].
+
+.TP 
+.B --wblosum
+Use the same clustering scheme that was used to weight data in
+calculating BLOSUM subsitution matrices [Henikoff and Henikoff,
+Proc. Natl. Acad. Sci 89:10915, 1992]. Sequences are single-linkage
+clustered at an identity threshold (default 0.62; see
+.IR --wid )
+and within each cluster of c sequences, each sequence gets relative
+weight 1/c.
+
+.TP
+.B --wnone
+No relative weights. All sequences are assigned uniform weight. 
+
+.TP 
+.BI --wid " <x>"
+Sets the identity threshold used by single-linkage clustering when 
+using 
+.IR --wblosum . 
+Invalid with any other weighting scheme. Default is 0.62.
+
+
+
+
+.SH OPTIONS CONTROLLING EFFECTIVE SEQUENCE NUMBER
+
+After relative weights are determined, they are normalized to sum to a
+total effective sequence number, 
+.IR eff_nseq . 
+This number may be the actual number of sequences in the alignment,
+but it is almost always smaller than that.
+The default entropy weighting method 
+.I (--eent)
+reduces the effective sequence
+number to reduce the information content (relative entropy, or average
+expected score on true homologs) per consensus position. The target
+relative entropy is controlled by a two-parameter function, where the
+two parameters are settable with
+.I --ere
+and 
+.IR --esigma .
+
+.TP
+.B --eent
+Adjust effective sequence number to achieve a specific relative entropy
+per position (see
+.IR --ere ).
+This is the default.
+
+.TP
+.B --eclust
+Set effective sequence number to the number of single-linkage clusters
+at a specific identity threshold (see 
+.IR --eid ).
+This option is not recommended; it's for experiments evaluating
+how much better
+.B --eent
+is.
+
+.TP
+.B --enone
+Turn off effective sequence number determination and just use the
+actual number of sequences. One reason you might want to do this is
+to try to maximize the relative entropy/position of your model, which
+may be useful for short models.
+
+.TP
+.BI --eset " <x>"
+Explicitly set the effective sequence number for all models to 
+.IR <x> .
+
+.TP
+.BI --ere " <x>"
+Set the minimum relative entropy/position target to 
+.IR <x> .
+Requires
+.BR --eent . 
+Default depends on the sequence alphabet. For protein
+sequences, it is 0.59 bits/position; for nucleotide 
+sequences, it is 0.45 bits/position.
+
+.TP
+.BI --esigma " <x>"
+Sets the minimum relative entropy contributed by an entire
+model alignment, over its whole length. This has the effect
+of making short models have 
+higher relative entropy per position than 
+.I --ere 
+alone would give. The default is 45.0 bits.
+
+.TP
+.BI --eid " <x>"
+Sets the fractional pairwise identity cutoff used by 
+single linkage clustering with the
+.B --eclust 
+option. The default is 0.62.
+
+
+.SH OPTIONS CONTROLLING PRIORS
+
+By default, weighted counts are converted to mean posterior
+probability parameter estimates using mixture Dirichlet priors.
+Default mixture Dirichlet prior parameters for protein models and for
+nucleic acid (RNA and DNA) models are built in. The following options
+allow you to override the default priors.
+
+.TP
+.B --pnone
+Don't use any priors. Probability parameters will simply be the
+observed frequencies, after relative sequence weighting. 
+
+.TP
+.B --plaplace
+Use a Laplace +1 prior in place of the default mixture Dirichlet
+prior.
+
+
+
+.SH OPTIONS CONTROLLING E-VALUE CALIBRATION
+
+The location parameters for the expected score distributions for MSV
+filter scores, Viterbi filter scores, and Forward scores require three
+short random sequence simulations.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off for your
+site or machine for some reason.
+
+
+.TP 
+.BI --informat " <s>"
+Declare that the input
+.I msafile
+is in format 
+.IR <s> .
+Currently the accepted multiple alignment sequence file formats 
+include Stockholm, Aligned FASTA, Clustal, NCBI PSI-BLAST, PHYLIP, 
+Selex, and UCSC SAM A2M. Default is to autodetect the format of
+the file.
+
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is nonzero, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+
+.TP 
+.BI --w_beta " <x>"
+Window length tail mass.
+The upper bound,
+.IR W ,
+on the length at which nhmmer expects to find an instance of the 
+model is set such that the fraction of all sequences generated
+by the model with length 
+.I ">= W"
+is less than  
+.IR <x> . 
+The default is 1e-7. 
+
+
+
+.TP 
+.BI --w_length " <n>"
+Override the model instance length upper bound,
+.IR W ,
+which is otherwise controlled by
+.BR --w_beta . 
+It should be larger than the model length. The value of 
+.I W
+is used deep in the acceleration pipeline, and modest changes
+are not expected to impact results (though larger values of 
+.I W
+do lead to longer run time). 
+
+
+.TP
+.B --mpi
+Run as a parallel MPI program. Each alignment is assigned to a MPI
+worker node for construction. (Therefore, the maximum parallelization 
+cannot exceed the number of alignments in the input
+.IR msafile .)
+This is useful when building large profile libraries. This option is
+only available if optional MPI capability was enabled at compile-time.
+
+
+.TP 
+.B --stall
+For debugging MPI parallelization: arrest program execution
+immediately after start, and wait for a debugger to attach to the
+running process and release the arrest.
+
+
+.TP 
+.BI --maxinsertlen " <n>"
+Restrict insert length parameterization such that the expected
+insert length at each position of the model is no more than
+.IR <n> . 
+ 
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmconvert.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmconvert.man
new file mode 100755
index 0000000..45d046c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmconvert.man
@@ -0,0 +1,106 @@
+.TH "hmmconvert" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmconvert - convert profile file to a HMMER format
+
+
+.SH SYNOPSIS
+.B hmmconvert
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+The
+.B hmmconvert 
+utility
+converts an input profile file to different HMMER formats.
+
+.PP
+By default, the input profile can be in any HMMER format, including
+old/obsolete formats from HMMER2, ASCII or binary; the output profile
+is a current HMMER3 ASCII format.
+
+.PP
+.I <hmmfile> 
+may be '-' (dash), which
+means reading this input from
+.I stdin
+rather than a file.  
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP 
+.B -a
+Output profiles in ASCII text format. This is the default.
+
+.TP 
+.B -b
+Output profiles in binary format. 
+
+.TP 
+.B -2
+Output in legacy HMMER2 ASCII text format, in ls (glocal) mode. This
+allows HMMER3 models to be converted back to a close approximation of
+HMMER2, for comparative studies.
+
+.TP 
+.BI --outfmt " <s>"
+Output in a HMMER3 ASCII text format other then the most current one.
+Valid choices for 
+.I <s>
+are 3/a through 3/f.
+The current format is 3/f, and this is the default. The format 3/b 
+was used in the official HMMER3 release, and the others were used in
+the various testing versions.
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+pFreely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+"
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmemit.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmemit.man
new file mode 100755
index 0000000..6d634a6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmemit.man
@@ -0,0 +1,256 @@
+.TH "hmmemit" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmemit - sample sequences from a profile HMM
+
+.SH SYNOPSIS
+.B hmmemit
+.I [options]
+.I hmmfile
+
+
+.SH DESCRIPTION
+
+.PP
+The 
+.B hmmemit
+program 
+samples (emits) sequences from the profile HMM(s) in
+.IR hmmfile ,
+and writes them to output.
+Sampling sequences may be useful for a variety of purposes, including
+creating synthetic true positives for benchmarks or tests.
+
+.PP
+The default is to sample one unaligned sequence from the core
+probability model, which means that each sequence consists of one
+full-length domain.  Alternatively, with the
+.B -c
+option, you can emit a simple majority-rule consensus sequence;
+or with the
+.B -a 
+option, you can emit an alignment (in which case, you probably
+also want to set 
+.B -N 
+to something other than its default of 1 sequence per model).
+
+.PP
+As another option, with the
+.B -p
+option you can sample a sequence from a fully configured HMMER search
+profile. This means sampling a `homologous sequence' by HMMER's
+definition, including nonhomologous flanking sequences, local
+alignments, and multiple domains per sequence, depending on the length
+model and alignment mode chosen for the profile.
+
+.PP
+The
+.I hmmfile 
+may contain a library of HMMs, in which case
+each HMM will be used in turn.
+
+.PP
+.I <hmmfile> 
+may be '-' (dash), which
+means reading this input from
+.I stdin
+rather than a file.  
+
+
+.SH COMMON OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.TP
+.BI -o " <f>"
+Direct the output sequences to file
+.IR <f> ,
+rather than to
+.IR stdout .
+
+.TP
+.BI -N " <n>"
+Sample
+.I <n>
+sequences per model, rather than just one.
+
+
+
+.SH OPTIONS CONTROLLING WHAT TO EMIT
+
+The default is to sample
+.B N
+sequences from the core model. Alternatively,
+you may choose one (and only one) of the following alternatives.
+
+
+.TP
+.B -a
+Emit an alignment for each HMM in the 
+.I hmmfile
+rather than sampling unaligned sequences one at a time.
+
+.TP
+.B -c
+Emit a plurality-rule consensus sequence, instead of sampling a
+sequence from the profile HMM's probability distribution. The
+consensus sequence is formed by selecting the maximum probability
+residue at each match state.
+
+.TP
+.B -C
+Emit a fancier plurality-rule consensus sequence than the
+.B -c
+option. If the maximum probability residue has p < 
+.B minl
+show it as a lower case 'any' residue (n or x); if p >= 
+.B minl 
+and < 
+.B minu 
+show it as a lower case residue; and if p >= 
+.B minu
+show it as an upper case residue.
+The default settings of 
+.B minu
+and 
+.B minl 
+are both 0.0, which means
+.B -C 
+gives the same output as 
+.B -c 
+unless you also set 
+.B minu
+and
+.B minl 
+to what you want.
+
+.TP
+.B -p
+Sample unaligned sequences from the implicit search profile, not from
+the core model.  The core model consists only of the homologous states
+(between the begin and end states of a HMMER Plan7 model). The profile
+includes the nonhomologous N, C, and J states, local/glocal and
+uni/multihit algorithm configuration, and the target length model.
+Therefore sequences sampled from a profile may include nonhomologous
+as well as homologous sequences, and may contain more than one
+homologous sequence segment. By default, the profile is in multihit
+local mode, and the target sequence length is configured for L=400. 
+
+
+
+
+.SH OPTIONS CONTROLLING EMISSION FROM PROFILES
+
+These options require that you have set the
+.B -p
+option.
+
+.TP
+.BI -L " <n>"
+Configure the profile's target sequence length model to generate a
+mean length of approximately <n> rather than the default of 400.
+
+.TP
+.B --local
+Configure the profile for multihit local alignment.
+
+.TP
+.B --unilocal
+Configure the profile for unihit local alignment (Smith/Waterman).
+
+.TP
+.B --glocal
+Configure the profile for multihit glocal alignment.
+
+.TP
+.B --uniglocal
+Configure the profile for unihit glocal alignment.
+
+
+.SH OPTIONS CONTROLLING FANCY CONSENSUS EMISSION
+
+These options require that you have set the
+.BR "-C option" .
+
+.TP
+.BI --minl " <x>"
+Sets the 
+.B minl
+threshold for showing weakly conserved residues as lower case.
+(0 <= x <= 1)
+
+.TP
+.BI --minu " <x>"
+Sets the 
+.B minu 
+threshold for showing strongly conserved residues as upper case.
+(0 <= x <= 1)
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is nonzero, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default is 0: use an arbitrary seed, so different
+.B hmmemit
+runs will generate different samples.
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmer.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmer.man
new file mode 100755
index 0000000..842b6a7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmer.man
@@ -0,0 +1,194 @@
+.TH "HMMER" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+
+HMMER - profile HMMs for biological sequence analysis
+
+.SH SYNOPSIS
+
+.B hmmalign
+  Align sequences to a profile
+
+.B hmmbuild
+  Construct profile(s) from multiple sequence alignment(s)
+
+.B hmmconvert
+  Convert profile file to various HMMER and non-HMMER formats
+
+.B hmmemit
+  Sample sequences from a profile
+
+.B hmmfetch
+  Retrieve profile HMM(s) from a file
+
+.B hmmpgmd
+  Daemon used for hmmer.org web server, for phmmer-, hmmsearch-, and hmmscan-like search 
+
+.B hmmpress
+  Prepare an HMM database for hmmscan
+
+.B hmmscan
+  Search protein sequence(s) against a protein profile database
+
+.B hmmsearch
+  Search protein profile(s) against a protein sequence database
+
+.B hmmsim
+  Collect profile score distributions on random sequences
+
+.B hmmstat
+  Summary statistics for a profile file
+
+.B jackhmmer
+  Iterative search of a protein sequence against a protein sequence database  
+
+.B nhmmer
+  Search nucleotide sequence(s), alignment(s), or profile(s) against a nucleotide sequence database
+
+.B nhmmscan
+  Search nucleotide sequence(s) against a nucleotide profile database
+
+.B phmmer
+  Search a protein sequence(s) against a protein sequence database
+
+
+.SH DESCRIPTION
+
+HMMER is a suite of several programs for biological sequence alignment
+and database homology search. It uses probabilistic models called
+"profile hidden Markov models" (profile HMMs) to represent the likely
+evolutionary homologs of a single sequence or a multiple alignment of
+a sequence family. A main avenue of research is to improve the
+evolutionary predictive models in HMMER to be able to recognize and
+accurately align increasingly remote homologs, distant in time.
+
+HMMER is also used as an organizational tool, to group the
+exponentially growing number of biological sequences into a vastly
+smaller set of well-annotated sequence families. New sequences can be
+annotated by comparison against curated sequence family databases of
+prebuilt HMMER profiles, in addition or instead of comparison to the
+entire sequence database. Databases such as Pfam, SMART, and
+TIGRfams, among others, are based on this principle.
+
+HMMER is used in three main modes: to search a sequence database for
+new homologs of a sequence or a sequence family; to search a profile
+database (like Pfam) to find what known family a query sequence
+belongs to, or what domains it has; and to automatically construct
+large multiple alignments (i.e. with an effectively unlimited number
+of sequences) using a profile representative of a sequence family.
+
+
+Suppose you have a multiple sequence alignment of a sequence family of
+interest, and you want to search a sequence database for additional
+homologs. The
+.B hmmbuild 
+program builds profile(s) from multiple alignment(s). 
+The
+.B hmmsearch
+program searches protein profile(s) against a protein sequence database,
+and 
+.B nhmmer
+searches nucleotide profile(s) against a nucleotide sequence database.
+
+Suppose you have a single sequence of interest, and you want to search
+a sequence database for additional homologs. The
+.B phmmer
+program searches a single protein sequence against a protein sequence
+database. The
+.B jackhmmer 
+program does the same thing but iteratively -- homologs detected in a
+previous round are incorporated into a new profile, and the new
+profile is searched again. 
+.B phmmer 
+is used like BLASTP, and 
+.B jackhmmer
+is used like a protein PSI-BLAST. The
+.B nhmmer
+program searches a single nucleotide sequence against a nucleotide sequence.
+
+Suppose you have sequence(s) that you want to analyze using a
+HMMER-based profile HMM database like Pfam (http://pfam.sanger.ac.uk).
+The
+.B hmmpress
+program formats a profile HMM flatfile (such as the file you
+would download from Pfam) into a HMMER binary database.
+The 
+.B hmmscan
+program searches protein sequence(s) against that database.
+The 
+.B nhmmscan
+program can similarly search nucleotide sequence(s) against
+a pressed database of nucleotide profiles, such as from 
+Dfam (http://dfam.janelia.org).
+
+
+Suppose you want to align lots of sequences. You can construct a
+manageably small alignment of a representative set of sequences,
+build a profile with
+.BR hmmbuild ,
+and use the
+.B hmmalign 
+program to align any number of sequences to that profile.
+
+HMMER also includes some auxiliary tools for working with large
+profile databases.
+.B hmmfetch 
+fetches one or more profiles from a database.
+.B hmmstat 
+prints summary statistics about a profile file.
+
+For compatibility with other profile software and previous versions of
+HMMER, the
+.B hmmconvert
+program converts profiles to a few other formats. We intend to add
+more support for other formats over time.
+
+The
+.B hmmemit 
+program generates (simulates) "homologous" sequences by sampling from
+a profile. It can also generate a "consensus" sequence.
+
+The 
+.B hmmsim
+program is a simulator used for collecting statistics about score
+distributions on random sequences. 
+
+Each program has its own man page.
+
+
+.SH SEE ALSO 
+
+This is a summary man page for the entire HMMER3 package.
+See individual man pages
+.BR [hmmbuild(1) ,
+for example]
+for usage, options, and description of each program in the package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmfetch.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmfetch.man
new file mode 100755
index 0000000..7cfe0f0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmfetch.man
@@ -0,0 +1,211 @@
+.TH "hmmfetch" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmfetch - retrieve profile HMM(s) from a file
+
+.SH SYNOPSIS
+
+.B hmmfetch
+.I [options]
+.I <hmmfile>
+.I <key>
+ (retrieves HMM named <key>)
+
+.B "hmmfetch -f"
+.I [options]
+.I <hmmfile>
+.I <keyfile>
+ (retrieves all HMMs listed in <keyfile>)
+
+.B "hmmfetch --index"
+.I [options]
+.I <hmmfile>
+ (indexes <hmmfile> for fetching)
+
+
+.SH DESCRIPTION
+
+.PP
+Quickly retrieves one or more profile HMMs from an
+.I <hmmfile>
+(a large Pfam database, for example). 
+
+.PP
+For maximum speed, the 
+.I <hmmfile>
+should be indexed first, using
+.BR "hmmfetch --index" .
+The index is a binary file named
+.IR <hmmfile>.ssi .
+However, this is optional, and retrieval will still
+work from unindexed files, albeit much more slowly.
+
+.PP
+The default mode is to retrieve a single profile by name or
+accession, called the
+.IR <key> .
+For example:
+
+.nf
+  % hmmfetch Pfam-A.hmm Caudal_act
+  % hmmfetch Pfam-A.hmm PF00045
+.fi
+
+.PP
+With the
+.I -f
+option, a 
+.I <keyfile> 
+containing a list of one or more keys is read instead. 
+The first whitespace-delimited field on each non-blank non-comment
+line of the
+.I <keyfile> 
+is used as a 
+.IR <key> ,
+and any remaining data on the line is ignored. This allows
+a variety of whitespace delimited datafiles to be used
+as 
+.IR <keyfile>s .
+
+.PP
+When using
+.I -f 
+and a
+.IR <keyfile> ,
+if 
+.B hmmfile 
+has been indexed, the keys are retrieved in the order
+they occur in the 
+.IR keyfile ,
+but if 
+.B hmmfile 
+isn't indexed, keys are retrieved in the order they occur
+in the 
+.BR hmmfile . 
+This is a side effect of an implementation that allows
+multiple keys to be retrieved even if the
+.B <hmmfile> 
+is a nonrewindable stream, like a standard input pipe.
+
+.PP 
+In normal use
+(without
+.I --index
+or 
+.I -f
+options),
+.I <hmmfile> 
+may be '-' (dash), which
+means reading input from
+.I stdin
+rather than a file.  
+With the
+.I --index
+option, 
+.I <hmmfile>
+may not be '-'; it does not make sense
+to index a standard input stream.
+With the 
+.I -f 
+option,  
+either 
+.I <hmmfile> 
+or 
+.I <keyfile> 
+(but not both) may be '-'.
+It is often particularly useful to read
+.I <keyfile>
+from standard input, because this allows
+use to use arbitrary command line invocations to
+create a list of HMM names or accessions, then fetch them all
+to a new file, just with one command.
+
+.PP
+By default, fetched HMMs are printed to standard output in HMMER3 format.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.B -f
+The second commandline argument is a 
+.I <keyfile>
+instead of a single 
+.IR <key> .
+The first field on each line of the
+.I <keyfile> 
+is used as a retrieval 
+.I <key>
+(an HMM name or accession). 
+Blank lines and comment lines (that start with
+a # character) are ignored. 
+
+.TP
+.BI -o " <f>"
+Output HMM(s) to file
+.I <f>
+instead of to standard output.
+
+.TP
+.B -O
+Output HMM(s) to individual file(s) named
+.I <key>
+instead of standard output. With the
+.B -f 
+option, this can result in many files
+being created.
+
+.TP
+.B --index
+Instead of retrieving one or more profiles from
+.IR <hmmfile> ,
+index the
+.I <hmmfile>
+for future retrievals.
+This creates a
+.I <hmmfile>.ssi
+binary index file.
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmlogo.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmlogo.man
new file mode 100755
index 0000000..aa6e989
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmlogo.man
@@ -0,0 +1,103 @@
+.TH "hmmlogo" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmlogo - given an HMM, produce data required to build an HMM logo
+
+
+.SH SYNOPSIS
+.B hmmlogo
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+.B hmmlogo 
+computes letter height and indel parameters that can be used to 
+produce a profile HMM logo. This tool is essentially a 
+command-line interface for much of the data underlying the Skylign 
+logo server (skylign.org).
+
+By default, 
+.B hmmlogo
+prints out a table of per-position letter heights (dependent on the 
+requested height method), then prints a table of per-position gap
+probabilities. 
+
+In a typical logo, the total height of a stack of letters for one
+position depends on the information content of the position, and 
+that stack height is subdivided according to the emission 
+probabilities of the letters of the alphabet.
+ 
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.TP
+.B --height_relent_all
+Total height = relative entropy (aka information content); all letters 
+are given a positive height.  (default)
+
+.TP
+.B --height_relent_abovebg
+Total height = relative entropy (aka information content); only letters 
+with above-background probability are given positive height.
+
+.TP
+.B --height_score
+Total height = sums of scores of positive-scoring letters; letter
+height depends on the score of that letter at that position. Only 
+letters with above-background probability (positive score) are 
+given positive height. (Note that only letter height is meaningful -
+stack height has no inherent meaning).
+
+.TP
+.B --no_indel
+Don't print out the indel probability table.
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmpgmd.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmpgmd.man
new file mode 100755
index 0000000..061c8ca
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmpgmd.man
@@ -0,0 +1,233 @@
+.TH "hmmpgmd" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmpgmd - daemon for searching a protein query against a protein database 
+
+
+.SH SYNOPSIS
+.B hmmpgmd
+.I [options]
+
+
+.SH DESCRIPTION
+
+.PP
+The
+.B hmmpgmd 
+program is the daemon that we use internally for the hmmer.org web server, 
+and essentially stands in front of the protein search programs
+.BR phmmer , 
+.BR hmmsearch ,
+and 
+.BR hmmscan . 
+
+To use
+.BR hmmpgmd , 
+first an instance must be started up as a 
+.I master 
+server, and provided with at least one of a 
+.I "sequence database"
+(using the 
+.B --seqdb
+flag)
+and/or an 
+.I "HMM database"
+(using the
+.B --hmmdb
+flag). 
+A sequence database must be in the hmmpgmd format, which may be
+produced using 
+.BR esl-reformat .
+An HMM database is of the form produced by 
+.BR hmmbuild .
+The input database(s) will be loaded into memory by the 
+master. When the master has finished loading the database(s), it 
+prints the line:
+"Data loaded into memory. Master is ready."
+
+
+.PP
+Only after master is ready, one or more instances of hmmpgmd may
+be started as workers. These workers may be (and typically are) on
+different machines from the master, but must have access to the 
+same database file(s) provided to the master, with the same path. As 
+with the master, each worker loads the database(s) into memory, and 
+indicates completion by printing: "Data loaded into memory. Worker is ready."
+
+
+.PP
+The master server and workers are expected to remain running.
+One or more clients then connect to the master and submit possibly
+many queries. The master distributes the work of a query among the
+workers, collects results, and merges them before responding to the
+client. Two example client programs are included in the HMMER3.1 src 
+directory - the C program
+.B hmmc2
+and the perl script
+.BR hmmpgmd_client_example.pl .
+These are intended as examples only, and should be extended as 
+necessary to meet your needs. 
+
+.PP
+A query is submitted to the master from the client as a character
+string. Queries may be the sort that would normally be handled
+by 
+.B phmmer
+(protein sequence vs protein database),
+.B hmmsearch
+(protein HMM query vs protein database), or
+.B hmmscan
+(protein query vs protein HMM database).
+ 
+
+The general form of a client query is to start with a single line
+of the form 
+.IR "@[options]" , 
+followed by multiple lines of text representing either the query HMM 
+or fasta-formatted sequence. The final line of each query is the separator 
+.IR "//" .
+
+
+.PP
+For example, to perform a 
+.B phmmer
+type search of a sequence against a sequence database 
+file, the first line is of the form 
+.IR "@--seqdb 1" ,
+then the fasta-formatted query sequence starting with the header line
+.IR >sequence-name ,
+followed by one or more lines of sequence, and finally the closing
+.IR "//" .
+
+.PP
+To perform an
+.B hmmsearch 
+type search, the query sequence is replaced by the full
+text of a HMMER-format query HMM. 
+
+.PP
+To perform an
+.B hmmscan 
+type search, the text matches that of the 
+.B phmmer
+type search, except that the first line changes to 
+.IR "@--hmmdb 1" .
+
+.PP
+In the hmmpgmd-formatted sequence database file, each sequence
+can be associated with one or more sub-databases. The 
+.I --seqdb
+flag indicates which of these sub-databases will be queried. 
+The HMM database format does not support sub-databases.
+
+.PP
+The result of each query is an undocumented data structure in 
+binary format. In the future the data will be returned in a proper
+serialized structure, but for now, it requires meticulous unpacking
+within the client. The example clients show how this is done.
+
+ 
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH EXPERT OPTIONS
+
+.TP 
+.BI --master
+Run as the master server.
+
+.TP
+.BI --worker " <s>"
+Run as a worker, connecting to the master server that is running on IP
+address
+.IR <s> .
+
+.TP 
+.BI --daemon
+Run as a daemon using config file: /etc/hmmpgmd.conf
+
+.TP 
+.BI --cport " <n>"
+Port to use for communication between clients and the master server. 
+The default is 51371.
+
+.TP 
+.BI --wport " <n>"
+Port to use for communication between workers and the master server. 
+The default is 51372.
+
+.TP 
+.BI --ccncts " <n>"
+Maximum number of client connections to accept. The default is 16.
+
+.TP 
+.BI --wcncts " <n>"
+Maximum number of worker connections to accept. The default is 32.
+
+.TP 
+.BI --pid " <f>"
+Name of file into which the process id will be written. 
+
+.TP 
+.BI --seqdb " <f>"
+Name of the file (in hmmpgmd format) containing protein sequences.
+The contents of this file will be cached for searches. 
+
+.TP 
+.BI --hmmdb " <f>"
+Name of the file containing protein HMMs. The contents of this file 
+will be cached for searches.
+
+.TP 
+.BI --cpu " <n>"
+Number of parallel threads to use (for 
+.I --worker
+).
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmpress.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmpress.man
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--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmpress.man
@@ -0,0 +1,110 @@
+.TH "hmmpress" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmpress - prepare an HMM database for hmmscan 
+
+.SH SYNOPSIS
+
+.B hmmpress
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+Starting from a profile database
+.I <hmmfile>
+in standard HMMER3 format,
+construct binary compressed datafiles for 
+.BR hmmscan .
+The 
+.I hmmpress
+step is required for
+.B hmmscan
+to work.
+
+.PP
+Four files are created:
+.IR <hmmfile>.h3m ,
+.IR <hmmfile>.h3i ,
+.IR <hmmfile>.h3f ,
+and
+.IR <hmmfile>.h3p .
+The 
+.I <hmmfile>.h3m
+file contains the profile HMMs and their annotation in a binary
+format.
+The 
+.I <hmmfile>.h3i
+file is an SSI index for the
+.I <hmmfile>.h3m
+file.
+The
+.I <hmmfile>.h3f
+file contains precomputed data structures
+for the fast heuristic filter (the MSV filter).
+The
+.I <hmmfile>.h3p
+file contains precomputed data structures
+for the rest of each profile.
+
+.PP
+.I <hmmfile>
+may not be '-' (dash); running
+.B hmmpress
+on a standard input stream rather than a file
+is not allowed.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.B -f
+Force; overwrites any previous hmmpress'ed datafiles. The default is
+to bitch about any existing files and ask you to delete them first.
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmscan.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmscan.man
new file mode 100755
index 0000000..b91bcef
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmscan.man
@@ -0,0 +1,460 @@
+.TH "hmmscan" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmscan - search protein sequence(s) against a protein profile database
+
+
+.SH SYNOPSIS
+.B hmmscan
+.I [options]
+.I <hmmdb>
+.I <seqfile>
+
+
+
+.SH DESCRIPTION
+
+.PP
+.B hmmscan 
+is used to search protein sequences against collections 
+of protein profiles. For each sequence in 
+.IR <seqfile> ,
+use that query sequence to search the target database of
+profiles in
+.IR <hmmdb> ,
+and output ranked lists of the profiles with the
+most significant matches to the sequence.
+
+.PP
+The 
+.I <seqfile> 
+may contain more than one query sequence. It can be in FASTA format,
+or several other common sequence file formats (genbank, embl, and
+uniprot, among others), or in alignment file formats (stockholm,
+aligned fasta, and others). See the
+.I --qformat 
+option for a complete list.
+
+.PP
+The
+.I <hmmdb>
+needs to be press'ed using 
+.B hmmpress
+before it can be searched with 
+.BR hmmscan . 
+This creates four binary files,
+suffixed .h3{fimp}.
+
+.PP 
+The query
+.I <seqfile> 
+may be '-' (a dash character), in which case
+the query sequences are read from a <stdin> pipe instead of from a
+file.
+The
+.I <hmmdb> 
+cannot be read from a <stdin> stream, because it needs to have
+those four auxiliary binary files generated by 
+.BR hmmpress .
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse. 
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target model
+found.
+
+.TP 
+.BI --domtblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-domain output, with one data line per homologous domain
+detected in a query sequence for each homologous model.
+
+.TP 
+.BI --pfamtblout " <f>"
+Save an especially succinct tabular (space-delimited) file 
+summarizing the per-target output, with one data line per 
+homologous target model found.
+
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS FOR REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+
+.TP
+.BI -E " <x>"
+In the per-target output, report target profiles with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding per-profile output on E-value, instead
+report target profiles with a bit score of >=
+.IR <x> .
+
+.TP
+.BI --domE " <x>"
+In the per-domain output, for target profiles that have already satisfied
+the per-profile reporting threshold, report individual domains
+with a conditional E-value of <=
+.IR <x> . 
+The default is 10.0. 
+A conditional E-value means the expected number of additional false
+positive domains in the smaller search space of those comparisons that
+already satisfied the per-profile reporting threshold (and thus must
+have at least one homologous domain already).
+
+
+.TP
+.BI --domT " <x>"
+Instead of thresholding per-domain output on E-value, instead
+report domains with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be
+reliable enough
+to be included in an output alignment or a subsequent search round.
+In 
+.BR hmmscan ,
+which does not have any alignment output (like 
+.B hmmsearch
+or 
+.BR phmmer ) 
+nor any iterative search steps (like 
+.BR jackhmmer ),
+inclusion thresholds have little effect. They only affect what domains
+get marked as significant (!) or questionable (?) in domain
+output. 
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the per-target inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, instead
+use a bit score of >= 
+.I <x>
+as the per-target inclusion threshold.
+It would be unusual to use bit score thresholds with
+.IR hmmscan ,
+because you don't expect a single score threshold to work for
+different profiles; different profiles have slightly different
+expected score distributions.
+
+.TP
+.BI --incdomE " <x>"
+Use a conditional E-value of <=
+.I <x> 
+as the per-domain inclusion threshold, in targets that have already
+satisfied the overall per-target inclusion threshold.
+The default is 0.01.
+
+.TP
+.BI --incdomT " <x>"
+Instead of using E-values,
+instead use a bit score of >=
+.I <x>
+as the per-domain inclusion threshold.
+As with 
+.B --incT 
+above,
+it would be unusual to use a single bit score threshold in
+.BR hmmscan .
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. Each thresholding option has
+two scores: the per-sequence threshold <x1> and the per-domain
+threshold <x2>
+These act as if
+.BI -T <x1>
+.BI --incT <x1>
+.BI --domT <x2>
+.BI --incdomT <x2>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit scores in the model to set
+per-sequence (GA1) and per-domain (GA2) reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Pfam, these thresholds define what gets included in Pfam Full
+alignments based on searches with Pfam Seed models.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score thresholds in the model to set
+per-sequence (NC1) and per-domain (NC2) reporting and inclusion
+thresholds. NC thresholds are generally considered to be the score of
+the highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the NC (trusted cutoff) bit score thresholds in the model to set
+per-sequence (TC1) and per-domain (TC2) reporting and inclusion
+thresholds. TC thresholds are generally considered to be the score of
+the lowest-scoring known true positive that is above all known false
+positives. 
+
+
+
+
+.SH CONTROL OF THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+MSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off all filters, including the bias filter, and run full
+Forward/Backward postprocessing on every target. This increases
+sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the MSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses an arbitrarily chosen seed.
+
+.TP
+.BI --qformat " <s>"
+Assert that the query sequence file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off for your
+site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmsearch.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmsearch.man
new file mode 100755
index 0000000..f4c3799
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmsearch.man
@@ -0,0 +1,436 @@
+.TH "hmmsearch" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmsearch - search profile(s) against a sequence database
+
+
+.SH SYNOPSIS
+.B hmmsearch
+.I [options]
+.I <hmmfile>
+.I <seqdb>
+
+
+.SH DESCRIPTION
+
+.PP
+.B hmmsearch 
+is used to search one or more profiles against a sequence database.
+For each profile in 
+.IR <hmmfile> ,
+use that query profile to search the target database of sequences in
+.IR <seqdb> ,
+and output ranked lists of the sequences with the most significant
+matches to the profile.
+To build profiles from multiple alignments, see
+.BR hmmbuild .
+
+.PP 
+Either the query
+.I <hmmfile> 
+or the target
+.I <seqdb> 
+may be '-' (a dash character), in which case
+the query profile or target database input will be read from a <stdin> pipe instead of from a
+file. Only one input source can come through <stdin>, not both.
+An exception is that if the
+.I <hmmfile> 
+contains more than one profile query, then
+.I <seqdb> 
+cannot come from <stdin>, because we can't rewind the
+streaming target database to search it with another profile. 
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP
+.BI -A " <f>"
+Save a multiple alignment of all significant hits (those satisfying
+.IR "inclusion thresholds" )
+to the file 
+.IR <f> .
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target sequence
+found.
+
+.TP 
+.BI --domtblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-domain output, with one data line per homologous domain
+detected in a query sequence for each homologous model.
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+Sequence hits and domain hits are ranked by statistical significance
+(E-value) and output is generated in two sections called per-target
+and per-domain output. In per-target output, by default, all
+sequence hits with an E-value <= 10 are reported. In the per-domain
+output, for each target that has passed per-target reporting
+thresholds, all domains satisfying per-domain reporting thresholds are
+reported. By default, these are domains with conditional E-values of
+<= 10. The following options allow you to change the default
+E-value reporting thresholds, or to use bit score thresholds instead.
+
+
+.TP
+.BI -E " <x>"
+In the per-target output, report target sequences with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding per-profile output on E-value, instead
+report target sequences with a bit score of >=
+.IR <x> .
+
+.TP
+.BI --domE " <x>"
+In the per-domain output, for target sequences that have already satisfied
+the per-profile reporting threshold, report individual domains
+with a conditional E-value of <=
+.IR <x> . 
+The default is 10.0. 
+A conditional E-value means the expected number of additional false
+positive domains in the smaller search space of those comparisons that
+already satisfied the per-target reporting threshold (and thus must
+have at least one homologous domain already).
+
+
+.TP
+.BI --domT " <x>"
+Instead of thresholding per-domain output on E-value, instead
+report domains with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be reliable
+enough to be included in an output alignment or a subsequent search
+round, or marked as significant ("!") as opposed to questionable ("?")
+in domain output.
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the per-target inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, instead
+use a bit score of >= 
+.I <x>
+as the per-target inclusion threshold.
+By default this option is unset.
+
+.TP
+.BI --incdomE " <x>"
+Use a conditional E-value of <=
+.I <x> 
+as the per-domain inclusion threshold, in targets that have already
+satisfied the overall per-target inclusion threshold.
+The default is 0.01.
+
+.TP
+.BI --incdomT " <x>"
+Instead of using E-values,
+use a bit score of >=
+.I <x>
+as the per-domain inclusion threshold.
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. Each thresholding option has
+two scores: the per-sequence threshold <x1> and the per-domain
+threshold <x2>
+These act as if
+.BI -T <x1>
+.BI --incT <x1>
+.BI --domT <x2>
+.BI --incdomT <x2>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit scores in the model to set
+per-sequence (GA1) and per-domain (GA2) reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Pfam, these thresholds define what gets included in Pfam Full
+alignments based on searches with Pfam Seed models.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score thresholds in the model to set
+per-sequence (NC1) and per-domain (NC2) reporting and inclusion
+thresholds. NC thresholds are generally considered to be the score of
+the highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the TC (trusted cutoff) bit score thresholds in the model to set
+per-sequence (TC1) and per-domain (TC2) reporting and inclusion
+thresholds. TC thresholds are generally considered to be the score of
+the lowest-scoring known true positive that is above all known false
+positives. 
+
+
+
+
+.SH OPTIONS CONTROLLING THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+MSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off all filters, including the bias filter, and run full
+Forward/Backward postprocessing on every target. This increases
+sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the MSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses a randomly chosen seed.
+
+.TP
+.BI --tformat " <s>"
+Assert that the target sequence database file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmsim.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmsim.man
new file mode 100755
index 0000000..7f3968d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmsim.man
@@ -0,0 +1,516 @@
+.TH "hmmsim" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmsim - collect score distributions on random sequences
+
+.SH SYNOPSIS
+.B hmmsim
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+The 
+.B hmmsim 
+program generates random sequences, scores them with the model(s) in 
+.IR <hmmfile> ,
+and outputs various sorts of histograms, plots, and fitted
+distributions for the resulting scores.
+
+.PP
+.B hmmsim
+is not a mainstream part of the HMMER package. Most users would have
+no reason to use it. It is used to develop and test the statistical
+methods used to determine P-values and E-values in HMMER3. For
+example, it was used to generate most of the results in a 2008 paper
+on H3's local alignment statistics (PLoS Comp Bio 4:e1000069, 2008;
+http://www.ploscompbiol.org/doi/pcbi.1000069). 
+
+.PP
+Because it is a research testbed, you should not expect it to be as
+robust as other programs in the package. For example, options may
+interact in weird ways; we haven't tested nor tried to anticipate all
+different possible combinations.
+
+.PP
+The main task is to fit a maximum likelihood Gumbel distribution to
+Viterbi scores or an maximum likelihood exponential tail to
+high-scoring Forward scores, and to test that these fitted
+distributions obey the conjecture that lambda ~ log_2 for both the
+Viterbi Gumbel and the Forward exponential tail. 
+
+.PP
+The output is a table of numbers, one row for each model. Four
+different parametric fits to the score data are tested: (1) maximum
+likelihood fits to both location (mu/tau) and slope (lambda)
+parameters; (2) assuming lambda=log_2, maximum likelihood fit to the
+location parameter only; (3) same but assuming an edge-corrected
+lambda, using current procedures in H3 [Eddy, 2008]; and (4) using
+both parameters determined by H3's current procedures. The standard
+simple, quick and dirty statistic for goodness-of-fit is 'E@10', the
+calculated E-value of the 10th ranked top hit, which we expect to be
+about 10. 
+
+.PP
+In detail, the columns of the output are:
+
+.TP
+.B name
+Name of the model.
+
+.TP
+.B tailp
+Fraction of the highest scores used to fit the distribution. For
+Viterbi, MSV, and Hybrid scores, this defaults to 1.0 (a Gumbel
+distribution is fitted to all the data). For Forward scores, this
+defaults to 0.02 (an exponential tail is fitted to the highest 2%
+scores).
+
+.TP
+.B mu/tau
+Location parameter for the maximum likelihood fit to the data.
+
+.TP
+.B lambda
+Slope parameter for the maximum likelihood fit to the data.
+
+.TP
+.B E@10
+The E-value calculated for the 10th ranked high score ('E@10') using the ML
+mu/tau and lambda. By definition, this expected to be about 10, if
+E-value estimation were accurate.
+
+.TP
+.B mufix
+Location parameter, for a maximum likelihood fit with a known (fixed)
+slope parameter lambda of log_2 (0.693).
+
+.TP
+.B E@10fix
+The E-value calculated for the 10th ranked score using mufix and the
+expected lambda = log_2 = 0.693.
+
+
+.TP
+.B mufix2
+Location parameter, for a maximum likelihood fit with an
+edge-effect-corrected lambda.
+
+.TP
+.B E@10fix2
+The E-value calculated for the 10th ranked score using mufix2 and the
+edge-effect-corrected lambda.
+
+.TP
+.B pmu
+Location parameter as determined by H3's estimation procedures.
+
+.TP
+.B plambda
+Slope parameter as determined by H3's estimation procedures.
+
+.TP
+.B pE@10
+The E-value calculated for the 10th ranked score using pmu, plambda.
+
+
+.PP
+At the end of this table, one more line is printed, starting with #
+and summarizing the overall CPU time used by the simulations.
+
+.PP
+Some of the optional output files are in xmgrace xy format. xmgrace is
+powerful and freely available graph-plotting software.
+
+
+.SH MISCELLANEOUS OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.B -a
+Collect expected Viterbi alignment length statistics from each
+simulated sequence. This only works with Viterbi scores (the default;
+see
+.IR --vit ). 
+Two additional fields are printed in the output table for
+each model: the mean length of Viterbi alignments, and the standard
+deviation.
+
+.TP
+.B -v
+(Verbose). Print the scores too, one score per line. 
+
+.TP
+.BI -L " <n>"
+Set the length of the randomly sampled (nonhomologous) sequences to 
+.IR <n> .
+The default is 100.
+
+
+.TP
+.BI -N " <n>"
+Set the number of randomly sampled sequences to 
+.IR <n> .
+The default is 1000.
+
+.TP
+.B --mpi
+Run in MPI parallel mode, under 
+.BR mpirun . 
+It is parallelized at the level of sending one profile at a time to an
+MPI worker process, so parallelization only helps if you have more
+than one profile in the 
+.IR <hmmfile> ,
+and you want to have at least as many profiles as MPI worker
+processes.
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+.SH OPTIONS CONTROLLING OUTPUT
+
+.TP
+.BI -o " <f>"
+Save the main output table to a file
+.I <f>
+rather than sending it to stdout.
+
+.TP
+.BI --afile " <f>"
+When collecting Viterbi alignment statistics (the
+.I -a 
+option), for each sampled sequence, output two fields per
+line to a file
+.IR <f> :
+the length of the optimal alignment, and the Viterbi bit score.
+Requires that the 
+.I -a
+option is also used. 
+
+.TP
+.BI --efile " <f>"
+Output a rank vs. E-value plot in XMGRACE xy format to file
+.IR <f> .
+The x-axis is the rank of this sequence, from highest score to lowest;
+the y-axis is the E-value calculated for this sequence. E-values are
+calculated using H3's default procedures (i.e. the pmu, plambda
+parameters in the output table). You expect a rough match between rank
+and E-value if E-values are accurately estimated.
+
+
+.TP
+.BI --ffile " <f>"
+Output a "filter power" file to 
+.IR <f> :
+for each model, a line with three fields:
+model name, number of sequences passing the P-value threshold,
+and fraction of sequences passing the P-value threshold. See
+.I --pthresh
+for setting the P-value threshold, which defaults to 0.02 (the default
+MSV filter threshold in H3). The P-values are as determined by H3's
+default procedures (the pmu,plambda parameters in the output table).
+If all is well, you expect to see filter power equal to the predicted
+P-value setting of the threshold.
+
+.TP
+.BI --pfile " <f>"
+Output cumulative survival plots (P(S>x)) to file
+.I <f>
+in XMGRACE xy format. There are three plots:
+(1) the observed score distribution; 
+(2) the maximum likelihood fitted distribution;
+(3) a maximum likelihood fit to the location parameter (mu/tau) while
+    assuming lambda=log_2.
+ 
+.TP
+.BI --xfile " <f>"
+Output the bit scores as a binary array of double-precision floats (8
+bytes per score) to file
+.IR <f> .
+Programs like Easel's 
+.B esl-histplot
+can read such binary files. This is useful when generating extremely
+large sample sizes.
+
+
+.SH OPTIONS CONTROLLING MODEL CONFIGURATION (MODE)
+
+H3 only uses multihit local alignment (
+.I --fs 
+mode), and this is where we believe the statistical fits. 
+Unihit local alignment scores (Smith/Waterman; 
+.I --sw
+mode) also obey our statistical conjectures.
+Glocal alignment statistics (either multihit or unihit) are
+still not adequately understood nor adequately fitted.
+
+.TP
+.B --fs
+Collect multihit local alignment scores. This is the default.
+'fs' comes from HMMER2's historical terminology for multihit local
+alignment as 'fragment search mode'.
+
+.TP
+.B --sw
+Collect unihit local alignment scores. The H3 J state is disabled.
+'sw' comes from HMMER2's historical terminology for unihit local
+alignment as 'Smith/Waterman search mode'.
+
+.TP
+.B --ls
+Collect multihit glocal alignment scores. In glocal (global/local)
+alignment, the entire model must align, to a subsequence of the
+target. The H3 local entry/exit transition probabilities are
+disabled. 'ls' comes from HMMER2's historical terminology for multihit local
+alignment as 'local search mode'.
+
+.TP
+.B --s
+Collect unihit glocal alignment scores.  Both the H3 J state and local
+entry/exit transition probabilities are disabled. 's' comes from
+HMMER2's historical terminology for unihit glocal alignment.
+
+
+
+.SH OPTIONS CONTROLLING SCORING ALGORITHM
+
+.TP
+.B --vit
+Collect Viterbi maximum likelihood alignment scores. This is the default.
+
+.TP
+.B --fwd
+Collect Forward log-odds likelihood scores, summed over alignment ensemble.
+
+.TP
+.B --hyb
+Collect 'Hybrid' scores, as described in papers by Yu and Hwa (for
+instance, Bioinformatics 18:864, 2002). These involve calculating a
+Forward matrix and taking the maximum cell value. The number itself is
+statistically somewhat unmotivated, but the distribution is expected
+be a well-behaved extreme value distribution (Gumbel).
+
+.TP
+.B --msv
+Collect MSV (multiple ungapped segment Viterbi) scores, using H3's
+main acceleration heuristic.
+
+.TP
+.B --fast
+For any of the above options, use H3's optimized production
+implementation (using SIMD vectorization). The default is to use the
+'generic' implementation (slow and non-vectorized). The optimized
+implementations sacrifice a small amount of numerical precision. This
+can introduce confounding noise into statistical simulations and fits,
+so when one gets super-concerned about exact details, it's better to
+be able to factor that source of noise out.
+
+.SH OPTIONS CONTROLLING FITTED TAIL MASSES FOR FORWARD 
+
+In some experiments, it was useful to fit Forward scores to a range of
+different tail masses, rather than just one. These options provide a
+mechanism for fitting an evenly-spaced range of different tail masses.
+For each different tail mass, a line is generated in the output.
+
+.TP
+.BI --tmin " <x>"
+Set the lower bound on the tail mass distribution. (The default is
+0.02 for the default single tail mass.)
+
+.TP
+.BI --tmax " <x>"
+Set the upper bound on the tail mass distribution. (The default is
+0.02 for the default single tail mass.)
+
+.TP
+.BI --tpoints " <n>"
+Set the number of tail masses to sample, starting from
+.I --tmin
+and ending at 
+.IR --tmax .
+(The default is 1, for the default 0.02 single tail mass.)
+
+.TP
+.B --tlinear
+Sample a range of tail masses with uniform linear spacing. The default
+is to use uniform logarithmic spacing.
+
+
+
+.SH OPTIONS CONTROLLING H3 PARAMETER ESTIMATION METHODS
+
+H3 uses three short random sequence simulations to estimating the
+location parameters for the expected score distributions for MSV
+scores, Viterbi scores, and Forward scores. These options allow these
+simulations to be modified.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+.SH DEBUGGING OPTIONS
+
+.TP
+.B --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+The default is 0, which makes the random number generator use
+an arbitrary seed, so that different runs of 
+.B hmmsim 
+will almost certainly generate a different statistical sample.
+For debugging, it is useful to force reproducible results, by
+fixing a random number seed.
+
+
+
+.SH EXPERIMENTAL OPTIONS
+
+These options were used in a small variety of different exploratory
+experiments.
+
+.TP
+.B --bgflat 
+Set the background residue distribution to a uniform distribution,
+both for purposes of the null model used in calculating scores, and
+for generating the random sequences. The default is to use a standard
+amino acid background frequency distribution.
+
+.TP
+.B --bgcomp
+Set the background residue distribution to the mean composition of the
+profile. This was used in exploring some of the effects of biased
+composition.
+
+.TP
+.B --x-no-lengthmodel
+Turn the H3 target sequence length model off. Set the self-transitions
+for N,C,J and the null model to 350/351 instead; this emulates HMMER2.
+Not a good idea in general. This was used to demonstrate one of the
+main H2 vs. H3 differences.
+
+.TP
+.BI --nu " <x>"
+Set the nu parameter for the MSV algorithm -- the expected number of
+ungapped local alignments per target sequence. The default is 2.0,
+corresponding to a E->J transition probability of 0.5. This was used
+to test whether varying nu has significant effect on result (it
+doesn't seem to, within reason).
+This option
+only works if
+.I --msv
+is selected (it only affects MSV),
+and it will not work with 
+.I --fast
+(because the optimized implementations are hardwired to assume nu=2.0).
+
+.TP
+.BI --pthresh " <x>"
+Set the filter P-value threshold to use in generating filter power
+files with
+.IR --ffile .
+The default is 0.02 (which would be appropriate for testing MSV
+scores, since this is the default MSV filter threshold in H3's
+acceleration pipeline.) Other appropriate choices (matching defaults
+in the acceleration pipeline) would be 0.001 for
+Viterbi, and 1e-5 for Forward.
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+
+
+
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmstat.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmstat.man
new file mode 100755
index 0000000..a1c6f9b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/hmmstat.man
@@ -0,0 +1,134 @@
+.TH "hmmstat" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmstat - display summary statistics for a profile file
+
+
+.SH SYNOPSIS
+.B hmmstat
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+The
+.B hmmstat
+utility prints out a tabular file of summary statistics for each
+profile in
+.IR <hmmfile> .
+
+
+.PP 
+.I <hmmfile> 
+may be '-' (a dash character), in which case profiles
+are read from a <stdin> pipe instead of from a file.
+
+.PP
+The columns are:
+
+.TP
+.B idx
+The index of this profile, numbering each on in the file starting from 1.
+
+.TP
+.B name
+The name of the profile.
+
+.TP
+.B accession
+The optional accession of the profile, or "-" if there is none.
+
+.TP
+.B nseq
+The number of sequences that the profile was estimated from.
+
+.TP
+.B eff_nseq
+The effective number of sequences that the profile was estimated
+from, after HMMER applied an effective sequence number calculation
+such as the default entropy weighting.
+
+.TP
+.B M
+The length of the model in consensus residues (match states).
+
+.TP
+.B relent
+Mean relative entropy per match state, in bits. This is the expected
+(mean) score per consensus position. This is what the default
+entropy-weighting method for effective sequence number estimation
+focuses on, so for default HMMER3 models, you expect this value to
+reflect the default target for entropy-weighting.
+
+.TP
+.B info
+Mean information content per match state, in bits.
+Probably not useful. Information content is a slightly
+different calculation than relative entropy. 
+
+.TP
+.B "p relE"
+Mean positional relative entropy, in bits.
+This is a fancier version of the per-match-state relative entropy,
+taking into account the transition (insertion/deletion) probabilities;
+it may be a more accurate estimation of the average score contributed
+per model consensus position.
+
+.TP
+.B compKL
+Kullback-Leibler distance between the model's overall average
+residue composition and the default background frequency distribution.
+The higher this number, the more biased the residue composition of the
+profile is. Highly biased profiles can slow the HMMER3 acceleration
+pipeline, by causing too many nonhomologous sequences to pass the filters.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+pFreely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/jackhmmer.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/jackhmmer.man
new file mode 100755
index 0000000..ab2a375
--- /dev/null
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@@ -0,0 +1,799 @@
+.TH "jackhmmer" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+jackhmmer - iteratively search sequence(s) against a protein database
+
+.SH SYNOPSIS
+.B jackhmmer
+.I [options]
+.I <seqfile>
+.I <seqdb>
+
+.SH DESCRIPTION
+
+.PP
+.B jackhmmer
+iteratively searches each query sequence in 
+.I <seqfile>
+against the target sequence(s) in
+.IR <seqdb> .
+The first iteration is identical to a 
+.B phmmer
+search.
+For the next iteration,
+a multiple alignment of the query together with all target sequences
+satisfying 
+.I "inclusion thresholds"
+is assembled, a profile is constructed from this alignment
+(identical to using
+.B hmmbuild
+on the alignment), and profile search of the
+.I <seqdb>
+is done (identical to an
+.B hmmsearch
+with the profile).
+
+
+.PP 
+The query
+.I <seqfile> 
+may be '-' (a dash character), in which case
+the query sequences are read from a <stdin> pipe instead of from a
+file.
+The
+.I <seqdb> 
+cannot be read from a <stdin> stream, because
+.B jackhmmer
+needs to do multiple passes over the database.
+
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -N " <n>"
+Set the maximum number of iterations to 
+.IR <n> .
+The default is 5. If N=1, the result is equivalent to a
+.B phmmer
+search.
+
+
+
+
+.SH OPTIONS CONTROLLING OUTPUT
+
+By default, output for each iteration appears on stdout in a somewhat
+human readable, somewhat parseable format. These options allow
+redirecting that output or saving additional kinds of output to files,
+including checkpoint files for each iteration.
+
+.TP 
+.BI -o " <f>"
+Direct the human-readable output to a file
+.IR <f> .
+
+.TP
+.BI -A " <f>"
+After the final iteration, save an annotated multiple alignment of all
+hits satisfying inclusion thresholds (also including the original query) to
+.I <f>
+in Stockholm format.
+
+.TP
+.BI --tblout " <f>"
+After the final iteration, save a tabular summary of top sequence hits
+to 
+.I <f>
+in a readily parseable, columnar, whitespace-delimited format.
+
+.TP
+.BI --domtblout " <f>"
+After the final iteration, save a tabular summary of top domain hits
+to 
+.I <f>
+in a readily parseable, columnar, whitespace-delimited format.
+
+.TP
+.BI --chkhmm " <prefix>"
+At the start of each iteration, checkpoint the query HMM, saving it
+to a file named
+.I "<prefix>-<n>.hmm"
+where
+.I <n>
+is the iteration number (from 1..N).
+
+.TP
+.BI --chkali " <prefix>"
+At the end of each iteration, checkpoint an alignment of all
+domains satisfying inclusion thresholds (e.g. what will become the
+query HMM for the next iteration), 
+saving it
+to a file named
+.I "<checkpoint file prefix>-<n>.sto"
+in Stockholm format,
+where
+.I <n>
+is the iteration number (from 1..N).
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+
+
+
+.SH OPTIONS CONTROLLING SINGLE SEQUENCE SCORING (FIRST ITERATION)
+
+By default, the first iteration uses a search model constructed from a
+single query sequence. This model is constructed using a standard
+20x20 substitution matrix for residue probabilities, and two
+additional parameters for position-independent gap open and gap extend
+probabilities. These options allow the default single-sequence scoring
+parameters to be changed.
+
+.TP
+.BI --popen " <x>"
+Set the gap open probability for a single sequence query model to 
+.IR <x> .
+The default is 0.02. 
+.I <x> 
+must be >= 0 and < 0.5.
+
+.TP
+.BI --pextend " <x>"
+Set the gap extend probability for a single sequence query model to 
+.IR <x> .
+The default is 0.4. 
+.I <x> 
+must be >= 0 and < 1.0.
+
+.TP
+.BI --mx " <s>"
+Obtain residue alignment probabilities from the built-in
+substitution matrix named
+.IR <s> . 
+Several standard matrices are built-in, and do not need to be
+read from files. 
+The matrix name
+.I <s> 
+can be
+PAM30, PAM70, PAM120, PAM240, BLOSUM45, BLOSUM50, BLOSUM62, BLOSUM80,
+or BLOSUM90.
+Only one of the
+.B --mx 
+and
+.B --mxfile
+options may be used.
+
+.TP
+.BI --mxfile " <mxfile>"
+Obtain residue alignment probabilities from the substitution matrix
+in file
+.IR <mxfile> .
+The default score matrix is BLOSUM62 (this matrix is internal to
+HMMER and does not have to be available as a file). 
+The format of a substitution matrix
+.I <mxfile>
+is the standard format accepted by BLAST, FASTA, and other sequence 
+analysis software.
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS 
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+In each iteration, sequence hits and domain hits are ranked by
+statistical significance (E-value) and output is generated in two
+sections called per-target and per-domain output. In per-target
+output, by default, all sequence hits with an E-value <= 10 are
+reported. In the per-domain output, for each target that has passed
+per-target reporting thresholds, all domains satisfying per-domain
+reporting thresholds are reported. By default, these are domains with
+conditional E-values of <= 10. The following options allow you to
+change the default E-value reporting thresholds, or to use bit score
+thresholds instead.
+
+
+.TP
+.BI -E " <x>"
+Report sequences with E-values <=
+.I <x>
+in per-sequence output. The default is 10.0.
+
+.TP
+.BI -T " <x>"
+Use a bit score threshold for per-sequence output instead of an
+E-value threshold (any setting of
+.B -E
+is ignored). Report sequences with a bit score of >=
+.IR <x> .
+By default this option is unset.
+
+.TP 
+.BI -Z " <x>"
+Declare the total size of the database to be
+.I <x>
+sequences, for purposes of E-value calculation.
+Normally E-values are calculated relative to the size of the database
+you actually searched (e.g. the number of sequences in 
+.IR target_seqdb ).
+In some cases (for instance, if you've split your
+target sequence database into multiple files for parallelization of
+your search), you may know better what the actual size of your search
+space is.
+
+.TP
+.BI --domE " <x>"
+Report domains with conditional E-values <=
+.I <x>
+in per-domain output, in addition to the top-scoring
+domain per significant sequence hit. The default is 10.0.
+
+.TP
+.BI --domT " <x>"
+Use a bit score threshold for per-domain output instead of an
+E-value threshold (any setting of
+.B --domT
+is ignored). Report domains with a bit score of >=
+.I <x>
+in per-domain output, in addition to the top-scoring domain per
+significant sequence hit. By default this option is unset.
+
+.TP 
+.BI --domZ " <x>"
+Declare the number of significant sequences to be
+.I <x>
+sequences, for purposes of conditional E-value calculation for
+additional domain significance.
+Normally conditional E-values are calculated relative to the number of
+sequences passing per-sequence reporting threshold.
+
+
+.SH OPTIONS CONTROLLING INCLUSION THRESHOLDS 
+
+Inclusion thresholds control which hits are included in the multiple
+alignment and profile constructed for the next search iteration.
+By default, 
+a sequence must have a per-sequence
+E-value of <= 0.001 (see
+.B -E 
+option) to be included, and any additional domains in it besides the
+top-scoring one must have a conditional E-value of <= 0.001 (see 
+.B --domE 
+option). The difference between reporting thresholds and inclusion
+thresholds is that inclusion thresholds control which hits actually
+get used in the next iteration (or the final output multiple alignment
+if the 
+.I -A 
+option is used), whereas reporting thresholds control what you see in
+output. Reporting thresholds are generally more loose so you can see
+borderline hits in the top of the noise that might be of interest.
+
+.TP
+.BI --incE " <x>"
+Include sequences with E-values <=
+.I <x>
+in subsequent iteration or final
+alignment output by 
+.IR -A .
+The default is 0.001.
+
+.TP
+.BI --incT " <x>"
+Use a bit score threshold for per-sequence inclusion instead of an
+E-value threshold (any setting of
+.B --incE
+is ignored). Include sequences with a bit score of >=
+.IR <x> .
+By default this option is unset.
+
+.TP
+.BI --incdomE " <x>"
+Include domains with conditional E-values <=
+.I <x>
+in subsequent iteration or final alignment output by
+.IR -A ,
+in addition to the top-scoring
+domain per significant sequence hit. 
+The default is 0.001.
+
+.TP
+.BI --incdomT " <x>"
+Use a bit score threshold for per-domain inclusion instead of an
+E-value threshold (any setting of
+.B --incT
+is ignored). Include domains with a bit score of >=
+.IR <x> .
+By default this option is unset.
+
+
+
+.SH OPTIONS CONTROLLING ACCELERATION HEURISTICS
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm, slowest but most accurate. There is also a
+bias filter step between MSV and Viterbi. Targets that pass all the
+steps in the acceleration pipeline are then subjected to
+postprocessing -- domain identification and scoring using the
+Forward/Backward algorithm.
+
+Essentially the only free parameters that control HMMER's heuristic
+filters are the P-value thresholds controlling the expected fraction
+of nonhomologous sequences that pass the filters. Setting the default
+thresholds higher will pass a higher proportion of nonhomologous
+sequence, increasing sensitivity at the expense of speed; conversely,
+setting lower P-value thresholds will pass a smaller proportion,
+decreasing sensitivity and increasing speed. Setting a filter's
+P-value threshold to 1.0 means it will passing all sequences, and
+effectively disables the filter.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Maximum sensitivity.  Turn off all filters, including the bias filter,
+and run full Forward/Backward postprocessing on every target. This
+increases sensitivity slightly, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+First filter threshold; set the P-value threshold for the MSV filter
+step.  The default is 0.02, meaning that roughly 2% of the highest
+scoring nonhomologous targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Second filter threshold; set the P-value threshold for the Viterbi
+filter step.  The default is 0.001.
+
+.TP
+.BI --F3 " <x>"
+Third filter threshold; set the P-value threshold for the Forward
+filter step.  The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OPTIONS CONTROLLING PROFILE CONSTRUCTION (LATER ITERATIONS)
+
+These options control how consensus columns are defined in multiple
+alignments when building profiles. By default, 
+.B jackhmmer
+always includes your original query sequence in the alignment result
+at every iteration, and consensus positions are defined by that
+query sequence: that is, a default
+.B jackhmmer
+profile is always the same length as your original query, at every
+iteration.
+
+.TP
+.B --fast 
+Define consensus columns as those that have a fraction >= 
+.B symfrac
+of residues as opposed to gaps. (See below for the
+.B --symfrac
+option.) Although this is the default 
+profile construction option elsewhere (in
+.BR hmmbuild ,
+in particular), it may have undesirable effects in 
+.BR jackhmmer ,
+because a profile could iteratively walk in sequence space away from
+your original query, leaving few or no consensus columns corresponding
+to its residues.
+
+.TP
+.B --hand
+Define consensus columns in next profile using reference annotation to
+the multiple alignment. 
+.B jackhmmer
+propagates reference annotation from the previous profile to the
+multiple alignment, and thence to the next profile. This is the
+default.
+
+.TP
+.BI --symfrac " <x>"
+Define the residue fraction threshold necessary to define a
+consensus column when using the 
+.B --fast 
+option. The default is 0.5. The symbol fraction in each column
+is calculated after taking relative sequence weighting into account,
+and ignoring gap characters corresponding to ends of sequence
+fragments
+(as opposed to internal insertions/deletions).
+Setting this to 0.0 means that every alignment column will be assigned
+as consensus, which may be useful in some cases. Setting it to 1.0
+means that only columns that include 0 gaps (internal
+insertions/deletions) will be assigned as consensus.
+
+.TP
+.BI --fragthresh " <x>"
+We only want to count terminal gaps as deletions if the aligned
+sequence is known to be full-length, not if it is a fragment (for
+instance, because only part of it was sequenced). HMMER uses a simple
+rule to infer fragments: if the sequence length L is less than 
+or equal to a fraction
+.I <x> 
+times the alignment length in columns,
+then the sequence is handled as a fragment. The default is 0.5.
+Setting
+.BI --fragthresh 0
+will define no (nonempty) sequence as a fragment; you might want to do
+this if you know you've got a carefully curated alignment of full-length
+sequences.
+Setting
+.BI --fragthresh 1
+will define all sequences as fragments; you might want to do this if
+you know your alignment is entirely composed of fragments, such as
+translated short reads in metagenomic shotgun data.
+
+
+
+.SH OPTIONS CONTROLLING RELATIVE WEIGHTS
+
+Whenever a profile is built from a multiple alignment, HMMER uses an
+ad hoc sequence weighting algorithm to downweight closely related
+sequences and upweight distantly related ones. This has the effect of
+making models less biased by uneven phylogenetic representation. For
+example, two identical sequences would typically each receive half the
+weight that one sequence would (and this is why 
+.B jackhmmer 
+isn't concerned about always including your original query sequence in
+each iteration's alignment, even if it finds it again in the database
+you're searching). These options control which algorithm gets used.
+
+.TP
+.B --wpb
+Use the Henikoff position-based sequence weighting scheme [Henikoff
+and Henikoff, J. Mol. Biol. 243:574, 1994].  This is the default.
+
+.TP 
+.B --wgsc 
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm [Gerstein et
+al, J. Mol. Biol. 235:1067, 1994].
+
+.TP 
+.B --wblosum
+Use the same clustering scheme that was used to weight data in
+calculating BLOSUM subsitution matrices [Henikoff and Henikoff,
+Proc. Natl. Acad. Sci 89:10915, 1992]. Sequences are single-linkage
+clustered at an identity threshold (default 0.62; see
+.IR --wid )
+and within each cluster of c sequences, each sequence gets relative
+weight 1/c.
+
+.TP
+.B --wnone
+No relative weights. All sequences are assigned uniform weight. 
+
+.TP 
+.BI --wid " <x>"
+Sets the identity threshold used by single-linkage clustering when 
+using 
+.IR --wblosum . 
+Invalid with any other weighting scheme. Default is 0.62.
+
+
+
+
+
+.SH OPTIONS CONTROLLING EFFECTIVE SEQUENCE NUMBER
+
+After relative weights are determined, they are normalized to sum to a
+total effective sequence number, 
+.IR eff_nseq . 
+This number may be the actual number of sequences in the alignment,
+but it is almost always smaller than that.
+The default entropy weighting method 
+.I (--eent)
+reduces the effective sequence
+number to reduce the information content (relative entropy, or average
+expected score on true homologs) per consensus position. The target
+relative entropy is controlled by a two-parameter function, where the
+two parameters are settable with
+.I --ere
+and 
+.IR --esigma .
+
+.TP
+.B --eent
+Adjust effective sequence number to achieve a specific relative entropy
+per position (see
+.IR --ere ).
+This is the default.
+
+.TP
+.B --eclust
+Set effective sequence number to the number of single-linkage clusters
+at a specific identity threshold (see 
+.IR --eid ).
+This option is not recommended; it's for experiments evaluating
+how much better
+.B --eent
+is.
+
+.TP
+.B --enone
+Turn off effective sequence number determination and just use the
+actual number of sequences. One reason you might want to do this is
+to try to maximize the relative entropy/position of your model, which
+may be useful for short models.
+
+.TP
+.BI --eset " <x>"
+Explicitly set the effective sequence number for all models to 
+.IR <x> .
+
+.TP
+.BI --ere " <x>"
+Set the minimum relative entropy/position target to 
+.IR <x> .
+Requires
+.BR --eent . 
+Default depends on the sequence alphabet; for protein
+sequences, it is 0.59 bits/position.
+
+.TP
+.BI --esigma " <x>"
+Sets the minimum relative entropy contributed by an entire
+model alignment, over its whole length. This has the effect
+of making short models have 
+higher relative entropy per position than 
+.I --ere 
+alone would give. The default is 45.0 bits.
+
+.TP
+.BI --eid " <x>"
+Sets the fractional pairwise identity cutoff used by 
+single linkage clustering with the
+.B --eclust 
+option. The default is 0.62.
+
+
+
+.SH OPTIONS CONTROLLING PRIORS
+
+In profile construction, by default, weighted counts are converted to
+mean posterior probability parameter estimates using mixture Dirichlet
+priors.  Default mixture Dirichlet prior parameters for protein models
+and for nucleic acid (RNA and DNA) models are built in. The following
+options allow you to override the default priors.
+
+.B --pnone
+Don't use any priors. Probability parameters will simply be the
+observed frequencies, after relative sequence weighting. 
+
+.B --plaplace
+Use a Laplace +1 prior in place of the default mixture Dirichlet
+prior.
+
+
+
+.SH OPTIONS CONTROLLING E-VALUE CALIBRATION
+
+Estimating the location parameters for the expected score
+distributions for MSV filter scores, Viterbi filter scores, and
+Forward scores requires three short random sequence simulations.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is >0, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+
+.TP 
+.BI --qformat " <s>"
+Declare that the input
+.I query_seqfile
+is in format 
+.IR <s> .
+Accepted sequence file formats include FASTA, EMBL, GenBank, DDBJ,
+UniProt, Stockholm, and SELEX. Default is to autodetect the format of
+the file.
+
+.TP 
+.BI --tformat " <s>"
+Declare that the input
+.I target_seqdb
+is in format 
+.IR <s> .
+Accepted sequence file formats include FASTA, EMBL, GenBank, DDBJ,
+UniProt, Stockholm, and SELEX. Default is to autodetect the format of
+the file.
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/makehmmerdb.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/makehmmerdb.man
new file mode 100755
index 0000000..98e75aa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/makehmmerdb.man
@@ -0,0 +1,161 @@
+.TH "makehmmerdb" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+makehmmerdb - build a HMMER binary database file from a sequence file
+
+
+.SH SYNOPSIS
+.B makehmmerdb
+.I [options]
+.I <seqfile>
+.I <binaryfile>
+
+
+.SH DESCRIPTION
+
+.PP
+.B makehmmerdb 
+is used to create a binary file from a DNA sequence file. This 
+binary file may be used as a target database for the DNA search tool
+.BR nhmmer . Using default settings in 
+.IR nhmmer ,
+this yields a roughly 10-fold acceleration with small loss of 
+sensitivity on benchmarks. (This method has been extensively tested, 
+but should still be treated as somewhat experimental.)
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.\" .SH OPTIONS FOR SPECIFYING THE ALPHABET
+.\" 
+.\" The alphabet type (amino, DNA, or RNA) is autodetected by default, by
+.\" looking at the composition of the
+.\" .IR seqfile .
+.\" Autodetection is normally quite reliable, but occasionally alphabet
+.\" type may be ambiguous and autodetection can fail (for instance, when
+.\" the first sequence starts with a run of ambiguous characters). To avoid 
+.\" this, or to increase robustness in automated analysis pipelines, you 
+.\" may specify the alphabet type of
+.\" .I seqfile
+.\" with these options.
+.\" 
+.\" .TP
+.\" .B --dna
+.\" Specify that all sequences in 
+.\" .I msafile
+.\" are DNAs.
+.\" 
+.\" .TP
+.\" .B --rna
+.\" Specify that all sequences in 
+.\" .I msafile
+.\" are RNAs.
+.\" 
+.\" .TP
+.\" .B --amino
+.\" Specify that all sequences in 
+.\" .I msafile
+.\" are proteins. Note that currently, a binary database of amino
+.\" acid sequence cannot be used as target to hmmsearch of phmmer
+.\" (only nhmmer can use the binary format).
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --informat " <s>"
+Assert that the sequence database file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+
+.TP 
+.BI --bin_length " <n>"
+Bin length. The binary file depends on a data structure called the 
+FM index, which organizes a permuted copy of the sequence in bins 
+of length
+.IR <n> .
+Longer bin length will lead to smaller files (because data is 
+captured about each bin) and possibly slower query time. The 
+default is 256. Much more than 512 may lead to notable reduction 
+in speed.
+
+
+.TP 
+.BI --sa_freq " <n>"
+Suffix array sample rate. The FM index structure also samples from 
+the underlying suffix array for the sequence database. More frequent 
+sampling (smaller value for 
+.IR <n> )
+will yield larger file size and faster search (until file size becomes
+large enough to cause I/O to be a bottleneck). The default value
+is 8. Must be a power of 2.
+
+
+.TP 
+.BI --block_size " <n>"
+The input sequence is broken into blocks of size
+.I <n>
+million letters. An FM index is built for each block, rather than 
+building an FM index for the entire sequence database. Default is 
+50. Larger blocks do not seem to yield substantial speed increase. 
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/nhmmer.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/nhmmer.man
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index 0000000..3b56957
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/nhmmer.man
@@ -0,0 +1,621 @@
+.TH "nhmmer" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+nhmmer - search DNA/RNA queries against a DNA/RNA sequence database
+
+
+.SH SYNOPSIS
+.B nhmmer
+.I [options]
+.I <queryfile>
+.I <seqdb>
+
+
+.SH DESCRIPTION
+
+.PP
+.B nhmmer 
+is used to search one or more nucleotide queries against a 
+nucleotide sequence database.
+For each query in 
+.IR <queryfile> ,
+use that query to search the target database of sequences in
+.IR <seqdb> ,
+and output a ranked list of the hits with the most significant
+matches to the query. A query may be either a profile model 
+built using 
+.BR hmmbuild , 
+a sequence alignment, or a single sequence. Sequence based
+queries can be in a number of formats (see
+.BR --qformat ), 
+and can typically be autodetected. Note that only 
+.I Stockholm
+format supports queries made up of more than one sequence 
+alignment.
+
+
+
+.PP 
+Either the query
+.I <queryfile> 
+or the target
+.I <seqdb> 
+may be '-' (a dash character), in which case
+the query file or target database input will be read from a <stdin> pipe instead of from a
+file. Only one input source can come through <stdin>, not both.
+If the query is sequence-based and passed via <stdin>, the
+.B --qformat
+flag must be used.
+If the
+.I <queryfile> 
+contains more than one query, then
+.I <seqdb> 
+cannot come from <stdin>, because we can't rewind the
+streaming target database to search it with another profile. 
+
+.PP
+If the query is sequence-based, and not from <stdin>,
+a new file containing the HMM(s) built from the input(s) in 
+.I <queryfile>
+may optionally be produced, with the filename set using the 
+.B --hmmout
+flag.
+
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+option saves output in a simple tabular format that is concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP
+.BI -A " <f>"
+Save a multiple alignment of all significant hits (those satisfying
+.IR "inclusion thresholds" )
+to the file 
+.IR <f> .
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target sequence
+found.
+
+.TP 
+.BI --dfamtblout " <f>"
+Save a tabular (space-delimited) file summarizing the 
+per-hit output, similar to 
+.B --tblout
+but more succinct. 
+
+.TP 
+.BI --aliscoresout " <f>" 
+Save to file a list of per-position scores for each hit.
+This is useful, for example, in identifying regions of high
+score density for use in resolving overlapping hits from 
+different models.
+
+.TP 
+.BI --hmmout " <f>" 
+If <queryfile> is sequence-based, write the internally-computed 
+HMM(s) to
+.IR <f> . 
+
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --dfamtblout ).
+Hits are ranked by statistical significance (E-value). 
+
+
+.TP
+.BI -E " <x>"
+Report target sequences with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding output on E-value, instead
+report target sequences with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be reliable
+enough to be included in an output alignment or a subsequent search
+round, or marked as significant ("!") as opposed to questionable ("?")
+in hit output.
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, 
+use a bit score of >= 
+.I <x>
+as the inclusion threshold.
+By default this option is unset.
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. For a nucleotide model, each 
+thresholding option has a single per-hit threshold <x>
+This acts as if
+.BI -T <x>
+.BI --incT <x>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family known to be found in that organism. They
+may allow for minimal expected false discovery rate.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. NC thresholds are less stringent than GA; in the context
+of Pfam, they are generally used to store the score of the 
+highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the NC (trusted cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. TC thresholds are more stringent than GA, and are
+generally considered to be the score of the lowest-scoring known 
+true positive that is above all known false positives; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family not known to be found in that organism.
+
+
+
+
+.SH OPTIONS CONTROLLING THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+scanning-SSV filter, the Viterbi filter, and the Forward filter. The 
+first filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+SSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off (nearly) all filters, including the bias filter, and run full
+Forward/Backward postprocessing on most of the target sequence. 
+In contrast to 
+.B phmmer
+and
+.BR hmmsearch ,
+where this flag really does turn off the filters entirely, the
+.I --max
+flag in 
+.B nhmmer
+sets the scanning-SSV filter threshold to 0.4, not 1.0. Use of this
+flag increases sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the SSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OPTIONS FOR SPECIFYING THE ALPHABET
+
+The alphabet type of the target database (DNA or RNA) is autodetected 
+by default, by looking at the composition of the
+.IR <seqdb> .
+Autodetection is normally quite reliable, but occasionally alphabet
+type may be ambiguous and autodetection can fail (for instance, when
+the first sequence starts with a run of ambiguous characters). To 
+avoid this, or to increase robustness in automated analysis pipelines, 
+you may specify the alphabet type of
+.I <seqdb>
+with these options.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I <seqdb>
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I <seqdb>
+are RNAs.
+
+
+.SH OPTIONS CONTROLLING SEED SEARCH HEURISTIC
+
+When searching with 
+.IR nhmmer ,
+one may optionally precompute a binary version of the target database, using
+.IR makehmmerdb ,
+then search against that database. Using default settings, this yields a
+roughly 10-fold acceleration with small loss of sensitivity on benchmarks.
+This is achieved using a heuristic method that searches for seeds (ungapped 
+alignments) around which full processing is done. This is essentially  
+a replacement to the SSV stage. (This method has been extensively tested, 
+but should still be treated as somewhat experimental.)
+The following options only impact 
+.I nhmmer
+if the value of 
+.B --tformat
+is
+.IR hmmerdb .
+
+Changing parameters for this seed-finding step will impact both speed and 
+sensitivity - typically faster search leads to lower sensitivity. 
+
+.TP
+.BI --seed_max_depth " <n>"
+The seed step requires that a seed reach a specified bit score in length 
+no longer than 
+.BR <n> . 
+By default, this value is 15. Longer seeds allow a greater chance of 
+meeting the bit score threshold, leading to diminished filtering
+(greater sensitivity, slower run time).
+
+.TP
+.BI --seed_sc_thresh " <x>"
+The seed must reach score 
+.B <x>
+(in bits). The default is 15.0 bits. A higher threshold increases 
+filtering stringency, leading to faster run times and lower 
+sensitivity.
+
+.TP
+.BI --seed_sc_density " <x>"
+Either all prefixes or all suffixes of a seed must have 
+bit density (bits per aligned position) of at least 
+.BR <x> . 
+The default is 0.8 bits/position. An increase in the density 
+requirement leads to increased filtering stringency, thus faster 
+run times and lower sensitivity.
+
+.TP
+.BI --seed_drop_max_len " <n>"
+A seed may not have a run of length
+.B <n>
+in which the score drops by 
+.I --seed_drop_lim
+or more. Basically, this prunes seeds that go through long
+slightly-negative seed extensions. The default is 4.  Increasing 
+the limit causes (slightly) diminished filtering efficiency, thus 
+slower run times and higher sensitivity. (minor tuning option)
+
+.TP
+.BI --seed_drop_lim " <x>"
+In a seed, there may be no run of length 
+.I --seed_drop_max_len
+in which the score drops by 
+.IR --seed_drop_lim .
+The default is 0.3 bits. Larger numbers mean less filtering.
+(minor tuning option)
+
+.TP
+.BI --seed_req_pos " <n>"
+A seed must contain a run of at least 
+.B <n>
+positive-scoring matches. The default is 5. Larger values mean
+increased filtering.
+(minor tuning option)
+
+.TP
+.BI --seed_ssv_length " <n>"
+After finding a short seed, an ungapped alignment is extended 
+in both directions in an attempt to meet the 
+.I --F1
+score threshold. The window through which this ungapped alignment
+extends is length 
+.BR <n> .
+The default is 70.  
+Decreasing this value slightly reduces run time, at a small risk of
+reduced sensitivity. (minor tuning option)
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --tformat " <s>"
+Assert that the target sequence database file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+.IR afa , 
+and 
+.IR hmmerfm .
+The default is to autodetect the format of the file. The format
+.I hmmerfm
+indicates that the database file is a binary file produced using
+.I makehmmerdb 
+(this format is not currently autodetected). 
+
+
+.TP 
+.BI --qformat " <s>"
+Declare that the input
+.I <queryfile>
+is in format 
+.IR <s> .
+This is used when the query is sequence-based, rather than made
+up of profile model(s).
+Currently the accepted multiple alignment sequence file formats 
+include Stockholm, Aligned FASTA, Clustal, NCBI PSI-BLAST, PHYLIP, 
+Selex, and UCSC SAM A2M. Default is to autodetect the format of
+the file.
+
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+For the purposes of per-hit E-value calculations,
+Assert that the total size of the target database is
+.I <x>
+million nucleotides, 
+rather than the actual number of targets seen. 
+
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses a randomly chosen seed.
+
+
+.TP 
+.BI --w_beta " <x>"
+Window length tail mass.
+The upper bound,
+.IR W ,
+on the length at which nhmmer expects to find an instance of the 
+model is set such that the fraction of all sequences generated
+by the model with length 
+.I ">= W"
+is less than  
+.IR <x> . 
+The default is 1e-7. 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild ,
+or when the query is sequence-based.
+
+
+
+.TP 
+.BI --w_length " <n>"
+Override the model instance length upper bound,
+.IR W ,
+which is otherwise controlled by
+.BR --w_beta . 
+It should be larger than the model length. The value of 
+.I W
+is used deep in the acceleration pipeline, and modest changes
+are not expected to impact results (though larger values of 
+.I W
+do lead to longer run time). 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild ,
+or when the query is sequence-based.
+
+
+
+.TP 
+.B --toponly 
+Only search the top strand. By default both the query sequence
+and its reverse-complement are searched.
+
+.TP 
+.B --bottomonly 
+Only search the bottom (reverse-complement) strand. By 
+default both the query sequence and its reverse-complement are searched.
+
+
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/nhmmscan.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/nhmmscan.man
new file mode 100755
index 0000000..214a3c6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/nhmmscan.man
@@ -0,0 +1,468 @@
+.TH "nhmmscan" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+nhmmscan - search nucleotide sequence(s) against a nucleotide profile database
+
+
+.SH SYNOPSIS
+.B hmmscan
+.I [options]
+.I <hmmdb>
+.I <seqfile>
+
+
+
+.SH DESCRIPTION
+
+.PP
+.B nhmmscan 
+is used to search nucleotide sequences against collections 
+of nucleotide profiles. For each sequence in 
+.IR <seqfile> ,
+use that query sequence to search the target database of
+profiles in
+.IR <hmmdb> ,
+and output ranked lists of the profiles with the
+most significant matches to the sequence.
+
+.PP
+The 
+.I <seqfile> 
+may contain more than one query sequence. It can be in FASTA format,
+or several other common sequence file formats (genbank, embl, and
+uniprot, among others), or in alignment file formats (stockholm,
+aligned fasta, and others). See the
+.I --qformat 
+option for a complete list.
+
+.PP
+The
+.I <hmmdb>
+needs to be press'ed using 
+.B hmmpress
+before it can be searched with 
+.BR hmmscan . 
+This creates four binary files,
+suffixed .h3{fimp}.
+
+.PP 
+The query
+.I <seqfile> 
+may be '-' (a dash character), in which case
+the query sequences are read from a <stdin> pipe instead of from a
+file.
+The
+.I <hmmdb> 
+cannot be read from a <stdin> stream, because it needs to have
+those four auxiliary binary files generated by 
+.BR hmmpress .
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+option saves output in a simple tabular format that is concise and
+easier to parse. 
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-hit output, with one data line per homologous target model 
+hit found.
+
+.TP 
+.BI --dfamtblout " <f>"
+Save a tabular (space-delimited) file summarizing the 
+per-hit output, similar to 
+.B --tblout
+but more succinct. 
+
+.TP 
+.BI --aliscoresout " <f>" 
+Save to file a list of per-position scores for each hit.
+This is useful, for example, in identifying regions of high
+score density for use in resolving overlapping hits from 
+different models.
+
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS FOR REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --dfamtblout ).
+Hits are ranked by statistical significance (E-value). 
+
+.TP
+.BI -E " <x>"
+Report target profiles with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding output on E-value, instead
+report target profiles with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be
+reliable enough
+to be included in an output alignment or a subsequent search round.
+In 
+.BR nhmmscan , 
+which does not have any alignment output (like 
+.BR nhmmer ),
+inclusion thresholds have little effect. They only affect what hits
+get marked as significant (!) or questionable (?) in hit
+output. 
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, 
+use a bit score of >= 
+.I <x>
+as the inclusion threshold.
+It would be unusual to use bit score thresholds with
+.IR hmmscan ,
+because you don't expect a single score threshold to work for
+different profiles; different profiles have slightly different
+expected score distributions.
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. For a nucleotide model, each 
+thresholding option has a single per-hit threshold <x>
+This acts as if
+.BI -T <x>
+.BI --incT <x>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family known to be found in that organism. They
+may allow for minimal expected false discovery rate.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. NC thresholds are less stringent than GA; in the context
+of Pfam, they are generally used to store the score of the 
+highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the NC (trusted cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. TC thresholds are more stringent than GA, and are
+generally considered to be the score of the lowest-scoring known 
+true positive that is above all known false positives; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family not known to be found in that organism.
+
+
+
+.SH CONTROL OF THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+scanning-SSV filter, the Viterbi filter, and the Forward filter. The 
+first filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+SSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off (nearly) all filters, including the bias filter, and run full
+Forward/Backward postprocessing on most of the target sequence.
+In contrast to  
+.B hmmscan,
+where this flag really does turn off the filters entirely, the 
+.I --max
+flag in 
+.B nhmmscan
+sets the scanning-SSV filter threshold to 0.4, not 1.0. Use of this
+flag increases sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the MSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses an arbitrarily chosen seed.
+
+.TP
+.BI --qformat " <s>"
+Assert that the query sequence file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+
+.TP 
+.BI --w_beta " <x>"
+Window length tail mass.
+The upper bound,
+.IR W ,
+on the length at which nhmmer expects to find an instance of the 
+model is set such that the fraction of all sequences generated
+by the model with length 
+.I ">= W"
+is less than  
+.IR <x> . 
+The default is 1e-7. 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild .
+
+
+
+.TP 
+.BI --w_length " <n>"
+Override the model instance length upper bound,
+.IR W ,
+which is otherwise controlled by
+.BR --w_beta . 
+It should be larger than the model length. The value of 
+.I W
+is used deep in the acceleration pipeline, and modest changes
+are not expected to impact results (though larger values of 
+.I W
+do lead to longer run time). 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild .
+
+
+.TP 
+.B --toponly 
+Only search the top strand. By default both the query sequence
+and its reverse-complement are searched.
+
+.TP 
+.B --bottomonly 
+Only search the bottom (reverse-complement) strand. By 
+default both the query sequence and its reverse-complement are searched.
+
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off for your
+site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/phmmer.man b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/phmmer.man
new file mode 100755
index 0000000..f878a49
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/documentation/man/phmmer.man
@@ -0,0 +1,520 @@
+.TH "phmmer" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+phmmer - search protein sequence(s) against a protein sequence database
+
+
+.SH SYNOPSIS
+.B phmmer
+.I [options]
+.I <seqfile>
+.I <seqdb>
+
+
+.SH DESCRIPTION
+
+.PP
+.B phmmer
+is used to search one or more query protein sequences against a protein sequence database.
+For each query sequence in 
+.IR <seqfile> ,
+use that sequence to search the target database of sequences in
+.IR <seqdb> ,
+and output ranked lists of the sequences with the most significant
+matches to the query.
+
+.PP 
+Either the query
+.I <seqfile> 
+or the target
+.I <seqdb> 
+may be '-' (a dash character), in which case
+the query sequences or target database input will be read from a <stdin> pipe instead of from a
+file. Only one input source can come through <stdin>, not both.
+An exception is that if the
+.I <seqfile> 
+contains more than one query sequence, then
+.I <seqdb> 
+cannot come from <stdin>, because we can't rewind the
+streaming target database to search it with another query.
+
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP
+.BI -A " <f>"
+Save a multiple alignment of all significant hits (those satisfying
+inclusion thresholds)
+to the file 
+.I <f>
+in Stockholm format.
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target sequence
+found.
+
+.TP 
+.BI --domtblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-domain output, with one data line per homologous domain
+detected in a query sequence for each homologous model.
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS CONTROLLING SCORING SYSTEM
+
+The probability model in
+.B phmmer
+is constructed by inferring residue probabilities from a standard
+20x20 substitution score matrix, plus two additional parameters for
+position-independent gap open and gap extend probabilities.
+
+.TP
+.BI --popen " <x>"
+Set the gap open probability for a single sequence query model to 
+.IR <x> .
+The default is 0.02. 
+.I <x> 
+must be >= 0 and < 0.5.
+
+.TP
+.BI --pextend " <x>"
+Set the gap extend probability for a single sequence query model to 
+.IR <x> .
+The default is 0.4. 
+.I <x> 
+must be >= 0 and < 1.0.
+
+.TP
+.BI --mx " <s>"
+Obtain residue alignment probabilities from the built-in
+substitution matrix named
+.IR <s> . 
+Several standard matrices are built-in, and do not need to be
+read from files. 
+The matrix name
+.I <s> 
+can be
+PAM30, PAM70, PAM120, PAM240, BLOSUM45, BLOSUM50, BLOSUM62, BLOSUM80,
+or BLOSUM90.
+Only one of the
+.B --mx 
+and
+.B --mxfile
+options may be used.
+
+.TP
+.BI --mxfile " <mxfile>"
+Obtain residue alignment probabilities from the substitution matrix
+in file
+.IR <mxfile> .
+The default score matrix is BLOSUM62 (this matrix is internal to
+HMMER and does not have to be available as a file). 
+The format of a substitution matrix
+.I <mxfile>
+is the standard format accepted by BLAST, FASTA, and other sequence 
+analysis software.
+Only one of the
+.B --mx 
+and
+.B --mxfile
+options may be used.
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+Sequence hits and domain hits are ranked by statistical significance
+(E-value) and output is generated in two sections called per-target
+and per-domain output. In per-target output, by default, all
+sequence hits with an E-value <= 10 are reported. In the per-domain
+output, for each target that has passed per-target reporting
+thresholds, all domains satisfying per-domain reporting thresholds are
+reported. By default, these are domains with conditional E-values of
+<= 10. The following options allow you to change the default
+E-value reporting thresholds, or to use bit score thresholds instead.
+
+
+.TP
+.BI -E " <x>"
+In the per-target output, report target sequences with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding per-profile output on E-value, instead
+report target sequences with a bit score of >=
+.IR <x> .
+
+.TP
+.BI --domE " <x>"
+In the per-domain output, for target sequences that have already satisfied
+the per-profile reporting threshold, report individual domains
+with a conditional E-value of <=
+.IR <x> . 
+The default is 10.0. 
+A conditional E-value means the expected number of additional false
+positive domains in the smaller search space of those comparisons that
+already satisfied the per-target reporting threshold (and thus must
+have at least one homologous domain already).
+
+.TP
+.BI --domT " <x>"
+Instead of thresholding per-domain output on E-value, instead
+report domains with a bit score of >=
+.IR <x> .
+
+.SH OPTIONS CONTROLLING INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds. They
+control which hits are included in any output multiple alignment (the
+.I -A 
+option) and which domains are marked as significant ("!") as opposed
+to questionable ("?")  in domain output.
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the per-target inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, instead
+use a bit score of >= 
+.I <x>
+as the per-target inclusion threshold.
+By default this option is unset.
+
+.TP
+.BI --incdomE " <x>"
+Use a conditional E-value of <=
+.I <x> 
+as the per-domain inclusion threshold, in targets that have already
+satisfied the overall per-target inclusion threshold.
+The default is 0.01.
+
+.TP
+.BI --incdomT " <x>"
+Instead of using E-values,
+use a bit score of >=
+.I <x>
+as the per-domain inclusion threshold.
+By default this option is unset.
+
+
+
+
+.SH OPTIONS CONTROLLING THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm, slowest but most accurate. There is also a
+bias filter step between MSV and Viterbi. Targets that pass all the
+steps in the acceleration pipeline are then subjected to
+postprocessing -- domain identification and scoring using the
+Forward/Backward algorithm.
+
+Essentially the only free parameters that control HMMER's heuristic
+filters are the P-value thresholds controlling the expected fraction
+of nonhomologous sequences that pass the filters. Setting the default
+thresholds higher will pass a higher proportion of nonhomologous
+sequence, increasing sensitivity at the expense of speed; conversely,
+setting lower P-value thresholds will pass a smaller proportion,
+decreasing sensitivity and increasing speed. Setting a filter's
+P-value threshold to 1.0 means it will passing all sequences, and
+effectively disables the filter.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Maximum sensitivity.  Turn off all filters, including the bias filter,
+and run full Forward/Backward postprocessing on every target. This
+increases sensitivity slightly, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+First filter threshold; set the P-value threshold for the MSV filter
+step.  The default is 0.02, meaning that roughly 2% of the highest
+scoring nonhomologous targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Second filter threshold; set the P-value threshold for the Viterbi
+filter step.  The default is 0.001.
+
+.TP
+.BI --F3 " <x>"
+Third filter threshold; set the P-value threshold for the Forward
+filter step.  The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+
+.SH OPTIONS CONTROLLING E-VALUE CALIBRATION
+
+Estimating the location parameters for the expected score
+distributions for MSV filter scores, Viterbi filter scores, and
+Forward scores requires three short random sequence simulations.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is >0, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+.TP 
+.BI --qformat " <s>"
+Declare that the input
+.I <seqfile>
+is in format 
+.IR <s> .
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+.TP 
+.BI --tformat " <s>"
+Declare that the input
+.I <seqdb>
+is in format 
+.IR <s> .
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/00README b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/00README
new file mode 100755
index 0000000..b0d423a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/00README
@@ -0,0 +1,34 @@
+Easel - a library of C functions for biological sequence analysis
+http://easel.janelia.org/
+Version h3.1b2; February 2015
+Copyright (C) 2015 Howard Hughes Medical Institute.
+------------------------------------------------------------------
+
+Easel is an ANSI C code library for computational analysis of
+biological sequences using probabilistic models. Easel is used by
+HMMER, the profile hidden Markov model software that underlies the
+Pfam protein families database, and by Infernal, the profile
+stochastic context-free grammar software that underlies the Rfam RNA
+family database. Easel aims to make similar applications more robust
+and easier to develop, by providing a set of reusable, documented, and
+well-tested functions.
+
+Other files to read in the top-level source directory:
+
+    INSTALL          Brief installation instructions.
+    Userguide.pdf    The Easel User's Guide.
+    RELEASE-NOTES    Notes for this release.
+    COPYRIGHT        Copyright and license information.
+    LICENSE          The Janelia Farm Software License.
+
+To get started after installation, see the Easel User's Guide
+(Userguide.pdf).
+
+------------------------------------------------------------------
+Sean Eddy
+HHMI Janelia Farm Research Campus
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/BUGTRAX b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/BUGTRAX
new file mode 100755
index 0000000..95171f1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/BUGTRAX
@@ -0,0 +1,205 @@
+ID              e11
+TITLE           Unicode characters in MSA files crash MSA parsers
+AFFECTS         -
+FIXED_IN        -
+STATUS          CLOSED
+XREF            -
+REPORTED_BY     Jody Clements
+OPENED_DATE     SRE, Thu Jan 22 14:22:54 2015
+CLOSED_DATE     SRE, Thu Jan 22 14:22:56 2015
+DESCRIPTION     
+  MSA file parsers require ASCII input because they use an
+  inmap[0..127], but were not validating user input. Unicode
+  characters result in out of bounds accesses and corruption.
+  (Unaligned file parsers do validate.)
+
+  Fix is to have esl_abc_dsqcat_noalloc() (for digital mode) and 
+  esl_strmapcat_noalloc() (for text mode) validate that each char 
+  is ASCII.
+//
+ID              e10
+TITLE           Clustal format allows optional trailing coords
+AFFECTS         -
+FIXED_IN        -
+STATUS          CLOSED
+XREF            -
+REPORTED_BY     sumudu <sumudu@fiserlab.org>, 27 Jan 2014
+OPENED_DATE     28 Jan 2014
+CLOSED_DATE     28 Jan 2014
+DESCRIPTION     
+  Clustal format allows an optional trailing seq coord number
+  on each line, but we weren't allowing for that.
+//
+ID              e9
+TITLE           Segmentation fault in esl-stranslate
+AFFECTS         H3.1b1 
+FIXED_IN        -
+STATUS          CLOSED
+XREF            -
+REPORTED_BY     Jaina Mistry <jaina@ebi.ac.uk>
+OPENED_DATE     TJW, Tue Sep 24 04:57:08 2013
+CLOSED_DATE     TJW, Tue Sep 24 04:57:08 2013
+DESCRIPTION     
+  esl-stranslate crashed with seg fault if any of the 6 frames
+  ended with a stop codon. An extra sequence object was
+  created to hold the "next" ORF, but no ORF followed; the
+  result was a sequence object with no name or sequence, 
+  and a resulting seg fault when that sequence's information
+  was printed. 
+//
+ID              e8
+TITLE           esl_threads fails to compile
+AFFECTS         -
+FIXED_IN        -
+STATUS          CLOSED
+XREF            -
+REPORTED_BY     "Campbell, Christopher D" <christopher-campbell@uiowa.edu>
+OPENED_DATE     SRE, Thu Mar  8 23:04:52 2012
+CLOSED_DATE     SRE, Thu Mar  8 23:04:53 2012
+DESCRIPTION     
+  HMMER3.0 failed to build for him with MPI support; he traced
+  problem to esl_threads.h, which was missing an #include <pthread.h>.
+//
+ID              e7
+TITLE           with icc v12, esl_random() sequence is changed
+AFFECTS         -
+FIXED_IN        -
+STATUS          CLOSED
+XREF            SRE:notebook/1213-icc12-random/
+REPORTED_BY     detected in unit tests when we switched to icc v12
+OPENED_DATE     SRE, Thu Dec 15 11:32:35 2011
+CLOSED_DATE     SRE, Thu Dec 15 11:58:08 2011
+DESCRIPTION     
+   When we upgraded to Intel icc version 12, in HMMER, the
+   nhmmer_generic unit test failed. Travis traced it to esl-shuffle
+   generating a different sequence, despite fixed RNG seed. The
+   problem only occurs with icc -O -fPIC.
+
+   In esl_random.c::mersenne_fill_table(), the MT incantation is
+      y = (r->mt[z] & 0x80000000) | (r->mt[z+1] & 0x7fffffff);
+      r->mt[z] = r->mt[z-227] ^ (y>>1) ^ mag01[y & 0x1];
+   with y declared as an unsigned 32-bit int. 
+
+   The problem is mag01[y & 0x1]. I think icc12 *may* (depending on
+   optimization and other flags) be casting y to a signed int before
+   it does the binary AND. The result of casting a large unsigned y to
+   a signed int is implementation-defined and unsafe, so if the
+   compiler does indeed try to cast y to signed int we're in trouble.
+
+   The fix is to dictate the cast explicitly:
+      r->mt[z] = r->mt[z-227] ^ (y>>1) ^ mag01[(int)(y & 0x1)];
+   and this should be guaranteed to work, because we know that the
+   result of (y & 0x1) is 0 or 1, and C99 guarantees that we can
+   safely cast it to signed int 0 or 1.
+
+   Arguably this is a compiler bug. The C99 standard says that an
+   array index may be any integer type; it does not specify signed or
+   unsigned.
+
+   [note added 8 Mar 2012: Intel support confirmed, compiler bug.]
+//
+ID              e6
+TITLE           Running out of disk space corrupts outputs
+AFFECTS         HMMER 3.0 and earlier
+FIXED_IN        - 
+STATUS          CLOSED
+XREF            SRE:J8/118-119
+REPORTED_BY     Maarten Hekkelman <m.hekkelman@cmbi.ru.nl>
+OPENED_DATE     SRE, 13 Oct 2011
+CLOSED_DATE     SRE, Mon Oct 24 13:03:45 2011
+DESCRIPTION     
+  jackhmmer corrupted an output file. Tracked to the user's disk
+  filling up. Return status of fprintf(), fputs(), etc. calls was not
+  being checked, so Easel/HMMER were not detecting the problem.
+
+  Systematically added error return status checking to most printing
+  calls, using ESL_{X}EXCEPTION_SYS(), returning eslEWRITE Easel error
+  codes. Easel _Write() interface is now documented to require such
+  checking.
+//
+ID              e5
+TITLE           Blank text line following #=GF <tag> handled improperly.
+AFFECTS         HMMER 3.0 and earlier
+FIXED_IN        -
+STATUS          CLOSED
+XREF            J6/92
+REPORTED_BY     Sean Powell <spowell@embl.de>
+OPENED_DATE     SRE, Tue Jul 13 09:25:29 2010
+CLOSED_DATE     -
+DESCRIPTION     
+  Easel Stockholm parser allows blank lines for #=GF DE annotation, but 
+  HMMER strictly requires DESC <s> format in save files. Thus hmmbuild
+  can generate a file that other HMMER programs won't parse.
+
+  Stockholm parser does need to allow blank lines on #=GF CC, for
+  legacy reasons (human-readable spacing in CC comments). All other
+  #=GF <tag> lines rigorously enforce the presence of text.
+
+  Revised esl_msa.c::parse_gf().
+  Added i3-blank-gf.pl in testsuite.
+//
+ID              e4
+TITLE           Long options called ambiguous abbreviation, if a prefix of another option
+AFFECTS         HMMER 3.0b3 (and earlier)
+FIXED_IN        -
+STATUS          CLOSED
+XREF            J5/116
+REPORTED_BY     Maufrais Corinne <maufrais@pasteur.fr>; 27 Nov 2009
+OPENED_DATE     SRE, Tue Dec  1 11:24:43 2009
+CLOSED_DATE     SRE, Tue Dec  1 11:24:46 2009
+DESCRIPTION     
+  hmmsim --s gives
+  "Failed to parse command line: Abbreviated option "--s" is ambiguous"
+  because esl_getopts thinks --s is an abbreviation for --seed or --stall.
+  
+  get_optidx_abbrev() revised to allow exact matches to long options.
+  esl_getopts unit test revised to catch this bug.
+//
+ID              e3
+TITLE           esl-sfetch should allow simpler fetching from small files
+AFFECTS         -
+FIXED_IN        -
+STATUS          OPEN
+XREF            J4/81
+REPORTED_BY     SRE
+OPENED_DATE     13 Feb 2009
+CLOSED_DATE     -
+DESCRIPTION     
+  esl-sfetch should allow simpler fetching from a small seqfile of one
+  or a few sequences. It should not require an SSI index. It should allow
+  a . argument to mean "from first sequence in file". (Or perhaps it should
+  allow seqs to be fetched by number, as well as name.)
+//
+ID              e2
+TITLE           esl-seqstat can't read alignment file from stdin
+AFFECTS         -
+FIXED_IN        -
+STATUS          CLOSED
+XREF            J4/84
+REPORTED_BY     SRE
+OPENED_DATE     16 Feb 2009
+CLOSED_DATE     16 Feb 2009
+DESCRIPTION     
+  sqfile_open tries to guess file format; then when msafile_open is called
+  in GuessAlphabet, stdin is already feof(). Using current design, MSA can't
+  be read sequentially (through sqio interface) unless format is known.
+  SQFILE has a recording buffer mechanism, but it only works in sqio proper,
+  not through interface to esl_msa. Added e2.sh to test for the bug.
+//
+ID              e1
+TITLE           esl-alistat fails to read Pfam seed in MUL format
+AFFECTS         -
+FIXED_IN        -
+STATUS          CLOSED
+XREF            J4/81; J4/93
+REPORTED_BY     Rob Finn
+OPENED_DATE     13 Feb 2009
+CLOSED_DATE     13 Feb 2009
+DESCRIPTION     
+  SELEX/MUL format parser was present, but not hooked up to anything.
+  
+  Added --informat to several esl miniapps, to allow --informat selex.
+//
+#
+# Started Easel BUGTRAX file: SRE, Tue Dec  1 11:08:31 2009
+# xref J5/116
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/COPYRIGHT b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/COPYRIGHT
new file mode 100755
index 0000000..089a60b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/COPYRIGHT
@@ -0,0 +1,27 @@
+Easel - a library of C functions for biological sequence analysis
+Copyright (C) 2015 Howard Hughes Medical Institute.
+
+Additional copyrights apply to the package:
+Copyright (C) 2004-2013 Sean R. Eddy
+Copyright (C) 2006-2013 Howard Hughes Medical Institute
+
+Easel also includes pieces of copyrighted and licensed code from a
+variety of sources and contributors, as noted in the appropriate
+places in individual files. Copyright holders and contributors
+include:
+
+  Free Software Foundation, Inc.    configure
+  Matteo Frigo                      aclocal.m4
+  Steven G. Johnson                 aclocal.m4
+  Stephen Moshier                   esl_sse.c,esl_vmx.c   
+  Julien Pommier                    esl_sse.c,esl_vmx.c   
+  Christophe Tournayre              aclocal.m4
+  David Wheeler                     easel.c::esl_tmpfile()
+  University of Toronto             esl_regexp.c
+
+The Easel library is freely modifiable and redistributable under the
+Janelia Farm Software License, a BSD license. See the file LICENSE for
+details.
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/INSTALL b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/INSTALL
new file mode 100755
index 0000000..bee8c27
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/INSTALL
@@ -0,0 +1,31 @@
+Brief installation instructions
+Easel h3.1b2; February 2015
+SRE, Mon Mar 24 09:05:20 2008
+-------------------------------------------------------------
+
+Starting from a source distribution, easel-h3.1b2.tar.gz:
+ Uncompress:                uncompress easel-h3.1b2.tar.gz  
+ Unpack:                    tar xf easel-h3.1b2.tar
+ Move into new directory:   cd easel-h3.1b2
+ Configure:                 ./configure
+ Build:                     make
+ Automated tests:           make check
+ Automated install:         make install
+
+
+For information on more expert customization options available to you
+in the configuration and the Makefiles, see the Installation chapter
+in the Easel User's Guide (Userguide.pdf).
+
+Easel is developed on Linux, and tested on a variety of UNIX and
+UNIX-like operating systems, including Apple OS/X. It is written in
+ANSI C99 and should build cleanly on any system with an ANSI C99
+compiler, including Microsoft Windows.
+
+-------------------------------------------------------------
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/LICENSE b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/LICENSE
new file mode 100755
index 0000000..49eacb7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/LICENSE
@@ -0,0 +1,32 @@
+The Janelia Farm Software License 
+
+Redistribution and use in source and binary forms, with or without
+modification, are permitted provided that the following conditions are
+met:
+
+ 1. Redistributions of source code must retain the above copyright
+    notice, this list of conditions and the following disclaimer.
+
+ 2. Redistributions in binary form must reproduce the above copyright
+    notice, this list of conditions and the following disclaimer in
+    the documentation and/or other materials provided with the
+    distribution.
+
+ 3. Neither the name of the Howard Hughes Medical Institute nor the
+    names of its contributors may be used to endorse or promote
+    products derived from this software without specific prior written
+    permission.
+
+THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+LIMITED TO, ANY IMPLIED WARRANTIES OF MERCHANTABILITY,
+NON-INFRINGEMENT, OR FITNESS FOR A PARTICULAR PURPOSE ARE
+DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
+LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
+CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
+SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
+REASONABLE ROYALTIES; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
+ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
+TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE
+USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH
+DAMAGE.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/LICENSE.sh.in b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/LICENSE.sh.in
new file mode 100755
index 0000000..029e371
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/LICENSE.sh.in
@@ -0,0 +1,5 @@
+export EASEL_VERSION=@EASEL_VERSION@ 
+export EASEL_DATE="@EASEL_DATE@"
+export EASEL_COPYRIGHT="@EASEL_COPYRIGHT@"
+export EASEL_LICENSE="@EASEL_LICENSE@"
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/Makefile.in
new file mode 100755
index 0000000..1a8019a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/Makefile.in
@@ -0,0 +1,620 @@
+# Top level Makefile for Easel
+#
+# On most systems, to build Easel you should only need:
+#     % ./configure; make
+#
+# Optionally, you can run a test suite:
+#     % make check
+#
+# And optionally, you can install everything more permanently:
+#     % make install
+#
+# For more information, see the Installation chapter of the Easel Guide.
+#
+
+# VPATH and shell configuration
+#
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ 
+SHELL      = /bin/sh
+
+# Package information 
+#
+PACKAGE         = @PACKAGE_NAME@
+PACKAGE_VERSION = @PACKAGE_VERSION@
+PACKAGE_TARNAME = @PACKAGE_TARNAME@
+BASENAME        = @PACKAGE_TARNAME@
+RELEASE         = @EASEL_VERSION@
+RELEASEDATE     = "@EASEL_DATE@"
+COPYRIGHT       = "@EASEL_COPYRIGHT@"
+LICENSELINE     = "@EASEL_LICENSE@"
+
+# Installation targets
+#
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+mandir      = @mandir@
+docdir      = @docdir@
+pdfdir      = @pdfdir@
+mandir      = @mandir@
+man1dir     = ${mandir}/man1
+man1ext     = .1
+
+# Compiler configuration
+#
+CC       = @CC@
+CFLAGS   = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS= @SIMD_CFLAGS@
+CPPFLAGS = @CPPFLAGS@
+LDFLAGS  = @LDFLAGS@
+LIBGSL   = @LIBGSL@
+LIBS     = @LIBS@ @PTHREAD_LIBS@
+
+# Other tools
+#
+COMPRESS = gzip
+AR       = @AR@ 
+RANLIB   = @RANLIB@
+INSTALL  = @INSTALL@
+
+# beautification magic stolen from git 
+#
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR  $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+
+# Code manifests
+#
+HDRS = 	easel.h\
+	esl_alphabet.h\
+	esl_buffer.h\
+	esl_cluster.h\
+	esl_composition.h\
+	esl_dirichlet.h\
+	esl_distance.h\
+	esl_dmatrix.h\
+	esl_exponential.h\
+	esl_fileparser.h\
+	esl_gamma.h\
+	esl_getopts.h\
+	esl_gev.h\
+	esl_gumbel.h\
+	esl_histogram.h\
+	esl_hmm.h\
+	esl_hyperexp.h\
+	esl_keyhash.h\
+	esl_mem.h\
+	esl_minimizer.h\
+	esl_mixgev.h\
+	esl_mpi.h\
+	esl_msa.h\
+	esl_msacluster.h\
+	esl_msafile.h\
+	esl_msafile2.h\
+	esl_msafile_a2m.h\
+	esl_msafile_afa.h\
+	esl_msafile_clustal.h\
+	esl_msafile_phylip.h\
+	esl_msafile_psiblast.h\
+	esl_msafile_selex.h\
+	esl_msafile_stockholm.h\
+	esl_msashuffle.h\
+	esl_msaweight.h\
+	esl_normal.h\
+	esl_paml.h\
+	esl_random.h\
+	esl_randomseq.h\
+	esl_ratematrix.h\
+	esl_recorder.h\
+	esl_regexp.h\
+	esl_rootfinder.h\
+	esl_scorematrix.h\
+	esl_sq.h\
+	esl_sqio.h\
+	esl_sqio_ascii.h\
+	esl_sqio_ncbi.h\
+	esl_sse.h\
+	esl_ssi.h\
+	esl_stack.h\
+	esl_stats.h\
+	esl_stopwatch.h\
+	esl_stretchexp.h\
+	esl_threads.h\
+  esl_translate.h\
+	esl_tree.h\
+	esl_vectorops.h\
+	esl_vmx.h\
+	esl_weibull.h\
+	esl_workqueue.h\
+	esl_wuss.h
+
+OBJS =	easel.o\
+	esl_alphabet.o\
+	esl_buffer.o\
+	esl_cluster.o\
+	esl_composition.o\
+	esl_dirichlet.o\
+	esl_distance.o\
+	esl_dmatrix.o\
+	esl_exponential.o\
+	esl_fileparser.o\
+	esl_gamma.o\
+	esl_getopts.o\
+	esl_gev.o\
+	esl_gumbel.o\
+	esl_histogram.o\
+	esl_hmm.o\
+	esl_hyperexp.o\
+	esl_keyhash.o\
+	esl_mem.o\
+	esl_minimizer.o\
+	esl_mixgev.o\
+	esl_mpi.o\
+	esl_msa.o\
+	esl_msacluster.o\
+	esl_msafile.o\
+	esl_msafile2.o\
+	esl_msafile_a2m.o\
+	esl_msafile_afa.o\
+	esl_msafile_clustal.o\
+	esl_msafile_phylip.o\
+	esl_msafile_psiblast.o\
+	esl_msafile_selex.o\
+	esl_msafile_stockholm.o\
+	esl_msashuffle.o\
+	esl_msaweight.o\
+	esl_normal.o\
+	esl_paml.o\
+	esl_random.o\
+	esl_randomseq.o\
+	esl_ratematrix.o\
+	esl_recorder.o\
+	esl_regexp.o\
+	esl_rootfinder.o\
+	esl_scorematrix.o\
+	esl_sq.o\
+	esl_sqio.o\
+	esl_sqio_ascii.o\
+	esl_sqio_ncbi.o\
+	esl_sse.o\
+	esl_ssi.o\
+	esl_stack.o\
+	esl_stats.o\
+	esl_stopwatch.o\
+	esl_stretchexp.o\
+	esl_threads.o\
+  esl_translate.o\
+	esl_tree.o\
+	esl_vectorops.o\
+	esl_vmx.o\
+	esl_weibull.o\
+	esl_workqueue.o\
+	esl_wuss.o
+#	esl_swat.o
+
+
+BENCHMARKS =\
+	esl_buffer_benchmark\
+	esl_keyhash_benchmark\
+	esl_mem_benchmark\
+	esl_sse_benchmark\
+	esl_random_benchmark
+
+EXPERIMENTS = \
+	esl_scorematrix_experiment
+
+UTESTS =\
+	easel_utest\
+	esl_alphabet_utest\
+	esl_buffer_utest\
+	esl_cluster_utest\
+	esl_dirichlet_utest\
+	esl_distance_utest\
+	esl_dmatrix_utest\
+	esl_exponential_utest\
+	esl_fileparser_utest\
+	esl_gamma_utest\
+	esl_getopts_utest\
+	esl_gumbel_utest\
+	esl_histogram_utest\
+	esl_hyperexp_utest\
+	esl_keyhash_utest\
+	esl_mem_utest\
+	esl_msa_utest\
+	esl_msacluster_utest\
+	esl_msafile_utest\
+	esl_msafile2_utest\
+	esl_msafile_a2m_utest\
+	esl_msafile_afa_utest\
+	esl_msafile_clustal_utest\
+	esl_msafile_phylip_utest\
+	esl_msafile_psiblast_utest\
+	esl_msafile_selex_utest\
+	esl_msafile_stockholm_utest\
+	esl_msaweight_utest\
+	esl_random_utest\
+	esl_randomseq_utest\
+	esl_ratematrix_utest\
+	esl_recorder_utest\
+	esl_regexp_utest\
+	esl_rootfinder_utest\
+	esl_scorematrix_utest\
+	esl_sq_utest\
+	esl_sqio_utest\
+	esl_sse_utest\
+	esl_ssi_utest\
+	esl_stack_utest\
+	esl_stats_utest\
+	esl_stretchexp_utest\
+	esl_tree_utest\
+	esl_vectorops_utest\
+	esl_weibull_utest\
+	esl_wuss_utest
+#	gev_utest\
+#	minimizer_utest\
+#	mixgev_utest\
+#	mpi_utest\
+#	normal_utest\
+#	paml_utest\
+#	stopwatch_utest\
+#	swat_utest\
+
+EXAMPLES = \
+        easel_example\
+        esl_alphabet_example\
+        esl_alphabet_example2\
+	esl_alphabet_example3\
+	esl_buffer_example\
+	esl_buffer_example2\
+	esl_buffer_example3\
+	esl_buffer_example4\
+	esl_buffer_example5\
+	esl_buffer_example6\
+        esl_cluster_example\
+        esl_dirichlet_example\
+        esl_dmatrix_example\
+        esl_exponential_example\
+        esl_fileparser_example\
+        esl_fileparser_example2\
+        esl_gamma_example\
+        esl_getopts_example\
+        esl_getopts_example2\
+        esl_gev_example\
+        esl_gumbel_example\
+        esl_histogram_example\
+        esl_histogram_example2\
+        esl_histogram_example3\
+        esl_histogram_example4\
+        esl_histogram_example5\
+        esl_hyperexp_example\
+        esl_keyhash_example\
+        esl_minimizer_example\
+        esl_mixgev_example\
+        esl_msafile_example\
+	esl_msafile_a2m_example\
+	esl_msafile_a2m_example2\
+	esl_msafile_afa_example\
+	esl_msafile_afa_example2\
+	esl_msafile_clustal_example\
+	esl_msafile_clustal_example2\
+	esl_msafile_phylip_example\
+	esl_msafile_phylip_example2\
+	esl_msafile_psiblast_example\
+	esl_msafile_psiblast_example2\
+	esl_msafile_selex_example\
+	esl_msafile_selex_example2\
+	esl_msafile_stockholm_example\
+	esl_msafile_stockholm_example2\
+        esl_msacluster_example\
+        esl_msashuffle_example\
+        esl_msaweight_example\
+        esl_normal_example\
+        esl_normal_example2\
+        esl_random_example\
+        esl_rootfinder_example\
+        esl_rootfinder_example2\
+        esl_scorematrix_example\
+        esl_sq_example\
+        esl_sq_example2\
+        esl_sqio_example\
+        esl_sqio_example2\
+        esl_sqio_example3\
+        esl_sse_example\
+        esl_ssi_example\
+        esl_ssi_example2\
+        esl_stack_example\
+        esl_stats_example\
+        esl_stats_example2\
+        esl_stopwatch_example\
+        esl_stretchexp_example\
+        esl_threads_example\
+        esl_threads_example2\
+        esl_tree_example\
+        esl_tree_example2\
+        esl_vectorops_example\
+        esl_vmx_example\
+        esl_weibull_example\
+        esl_workqueue_example
+#       esl_distance_example\
+#       esl_hmm_example\
+#       esl_msafile_clustal_example\
+#       esl_randomseq_example\
+#       esl_msa_example2\
+
+.PHONY: all dev tests check pdf install uninstall clean distclean dist implode TAGS
+
+all:    libeasel.a .FORCE
+	${QUIET_SUBDIR0}miniapps  ${QUIET_SUBDIR1} all
+
+dev:    libeasel.a ${UTESTS} ${BENCHMARKS} ${EXPERIMENTS} ${EXAMPLES} .FORCE
+	${QUIET_SUBDIR0}miniapps  ${QUIET_SUBDIR1} dev
+
+tests:  ${UTESTS}  
+	${QUIET_SUBDIR0}miniapps ${QUIET_SUBDIR1} tests
+
+check:  ${UTESTS} .FORCE
+	${QUIET_SUBDIR0}miniapps  ${QUIET_SUBDIR1} check
+	${QUIET_SUBDIR0}testsuite ${QUIET_SUBDIR1} check
+
+pdf:
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} pdf
+
+libeasel.a:  ${OBJS}
+	${QUIET_AR}${AR} -r libeasel.a $(OBJS) > /dev/null 2>&1 
+	@${RANLIB} libeasel.a
+
+.FORCE:
+
+${OBJS}: ${HDRS} esl_config.h
+
+.c.o: 
+	${QUIET_CC}${CC} -I. -I${srcdir} ${CFLAGS} ${SIMDFLAGS} ${DEFS} -o $@ -c $<		
+
+# Unit test compilation:
+# 
+# To compile unit tests, we need to construct a command line
+# from module basename, module's testdriver flag, and module's
+# C file. This is accomplished via a complex-looking shell scripture;
+# xref J1/81.
+#   $@           =  driver name            esl_msa_utest     easel_utest
+#   $${BASENAME} =  base module name       msa               easel
+#   $${DFLAG}    =  driver flag            eslMSA_TESTDRIVE  eslEASEL_TESTDRIVE
+#   $${DFILE}    =  driver's C file        esl_msa.c         easel.c
+#
+${UTESTS}:  libeasel.a
+	@BASENAME=`echo $@ | sed -e 's/_utest//'| sed -e 's/^esl_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=esl$${DFLAG}_TESTDRIVE ;\
+	if test $@ = "easel_utest" ;\
+           then DFILE=${srcdir}/easel.c ;\
+	   else DFILE=${srcdir}/esl_$${BASENAME}.c ;\
+        fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}
+
+# Benchmark compilation:
+# Name construction much like unit tests.
+#   $@           =  driver name            esl_msa_benchmark easel_benchmark
+#   $${BASENAME} =  base module name       msa               easel
+#   $${DFLAG}    =  driver flag            eslMSA_BENCHMARK  eslEASEL_BENCHMARK
+#   $${DFILE}    =  driver's C file        esl_msa.c         easel.c
+#
+${BENCHMARKS}: libeasel.a
+	@BASENAME=`echo $@ | sed -e 's/_benchmark//'| sed -e 's/^esl_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=esl$${DFLAG}_BENCHMARK ;\
+	if test $@ = "easel_benchmark" ;\
+	   then DFILE=${srcdir}/easel.c ;\
+	   else DFILE=${srcdir}/esl_$${BASENAME}.c ;\
+        fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}
+
+${EXPERIMENTS}: libeasel.a
+	@BASENAME=`echo $@ | sed -e 's/_experiment//'| sed -e 's/^esl_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=esl$${DFLAG}_EXPERIMENT ;\
+	if test $@ = "easel_experiment" ;\
+	   then DFILE=${srcdir}/easel.c ;\
+	   else DFILE=${srcdir}/esl_$${BASENAME}.c ;\
+        fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}
+
+
+${EXAMPLES}: libeasel.a
+	@BASENAME=`echo $@ | sed -e 's/_example[0-9]*//'| sed -e 's/^esl_//'` ;\
+	DFLAG=esl`echo $@ | sed -e 's/^esl_//' | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	if test $@ = "easel_example"; \
+	   then DFILE=${srcdir}/easel.c ;\
+           else DFILE=${srcdir}/esl_$${BASENAME}.c ;\
+        fi ;\
+	if test ${V}; \
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -o $@ -I. -I${srcdir} -L. -D$${DFLAG} $${DFILE} -leasel -lm ${LIBS}
+
+# install:   installs libeasel.a in ${libdir}/
+#            installs Easel headers in ${includedir}/
+#            installs miniapp binaries in ${bindir}/
+#
+install:
+	${INSTALL} -d ${DESTDIR}${bindir}
+	${INSTALL} -d ${DESTDIR}${libdir}
+	${INSTALL} -d ${DESTDIR}${includedir}
+	${INSTALL} -m 0644 libeasel.a ${DESTDIR}${libdir}/
+	for file in ${HDRS}; do\
+	   ${INSTALL} -m 0644 ${srcdir}/$$file ${DESTDIR}${includedir}/ ;\
+	done
+	${INSTALL} -m 0644 esl_config.h ${DESTDIR}${includedir}/
+	${QUIET_SUBDIR0}miniapps      ${QUIET_SUBDIR1} install
+
+# "make uninstall" reverses the steps of "make install"
+#
+uninstall:
+	-rm -f ${DESTDIR}${libdir}/libeasel.a
+	for file in ${HDRS}; do\
+	   rm -f ${DESTDIR}${includedir}/$$file;\
+	done
+	rm -f ${DESTDIR}${includedir}/esl_config.h
+	${QUIET_SUBDIR0}miniapps      ${QUIET_SUBDIR1} uninstall
+
+# "make clean" removes almost everything except configuration files
+#
+clean:
+#Use 'ifneq' instead of 'test -e' because the '+@' in QUIET_SUBDIR0 can't 
+#be passed to the shell. Note that ifneq breaks if indented.
+ifneq (,$(wildcard ./documentation/.))
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} clean
+endif
+	${QUIET_SUBDIR0}testsuite     ${QUIET_SUBDIR1} clean
+	${QUIET_SUBDIR0}miniapps      ${QUIET_SUBDIR1} clean
+	-rm -f ${OBJS} libeasel.a
+	-rm -f ${UTESTS} ${BENCHMARKS} ${EXAMPLES} ${EXPERIMENTS}
+	-rm -f *~ TAGS
+	-rm -f *.gcno *.gcda *.gcov
+	-rm -f cscope.out
+	-rm -f core.[0-9]*
+	-rm -f esltmp??????
+	-rm -f config.log config.status
+	for prog in ${UTESTS} ${BENCHMARKS} ${EXAMPLES} ${EXPERIMENTS}; do\
+	   if test -d $$prog.dSYM; then rm -rf $$prog.dSYM; fi;\
+	done
+
+
+distclean: clean
+#See above for explanation of 'ifneq' usage
+ifneq (,$(wildcard ./documentation/.))
+	${QUIET_SUBDIR0}documentation ${QUIET_SUBDIR1} distclean
+endif
+	${QUIET_SUBDIR0}testsuite     ${QUIET_SUBDIR1} distclean
+	${QUIET_SUBDIR0}miniapps      ${QUIET_SUBDIR1} distclean
+	-rm esl_config.h
+	-rm -rf autom4te.cache
+	-rm LICENSE.sh
+	-rm Makefile
+
+# 'make REPOSITORY=... dist' : create a new distribution tarball
+#
+dist:
+# Make sure we pointed the make dist to a subversion repository
+	@if test x${REPOSITORY} = 'x'; then\
+	  echo "REPOSITORY isn't set; use make REPOSITORY=... dist";\
+	  exit 1;\
+	fi
+# Delete any old versions of the same release
+	@if test -d ../${BASENAME}-${RELEASE};        then rm -rf ../${BASENAME}-${RELEASE};        fi
+	@if test -e ../${BASENAME}-${RELEASE}.tar;    then rm -f  ../${BASENAME}-${RELEASE}.tar;    fi
+	@if test -e ../${BASENAME}-${RELEASE}.tar.Z;  then rm -f  ../${BASENAME}-${RELEASE}.tar.Z;  fi
+	@if test -e ../${BASENAME}-${RELEASE}.tar.gz; then rm -f  ../${BASENAME}-${RELEASE}.tar.gz; fi
+# Export the release from Subversion control
+	svn export ${REPOSITORY} ../${BASENAME}-${RELEASE}
+# Make the configure script from configure.ac
+	(cd ../${BASENAME}-${RELEASE};  autoconf)
+# We'll need some basic Makefiles
+	(cd ../${BASENAME}-${RELEASE}/; ./configure)
+# Set file permissions.
+	find ../${BASENAME}-${RELEASE} -type f -exec chmod +r {} \;
+# Compile the PDF documentation and move it to top level dir
+	(cd ../${BASENAME}-${RELEASE}/documentation/; make pdf)
+	mv ../${BASENAME}-${RELEASE}/documentation/current.pdf  ../${BASENAME}-${RELEASE}/Userguide.pdf
+# Attach license stamps by replacing LICENSE keyword everywhere
+	find ../${BASENAME}-${RELEASE} -type f -exec devkit/sedition-pp LICENSE LICENSE.tag {} \;
+# Other keyword replacements
+	devkit/sedition RELEASE ${RELEASE} RELEASEDATE ${RELEASEDATE} COPYRIGHT ${COPYRIGHT} ../${BASENAME}-${RELEASE}/00README
+	devkit/sedition RELEASE ${RELEASE}                                                   ../${BASENAME}-${RELEASE}/INSTALL
+# Cleanup
+	(cd ../${BASENAME}-${RELEASE}/; make implode)
+	(cd ../${BASENAME}-${RELEASE}/; make distclean)
+# Packaging
+	(cd ..;	tar cvf ${BASENAME}-${RELEASE}.tar ${BASENAME}-${RELEASE})
+	(cd ..; ${COMPRESS} ${BASENAME}-${RELEASE}.tar)
+
+
+
+# `make dcheck`: run developer testsuite, save output in testsuite/dcheck.report
+dcheck:
+	${QUIET_SUBDIR0}testsuite   ${QUIET_SUBDIR1} dcheck
+
+# The "implode" target is used when we've got Easel as a subdirectory
+# of a larger project, like Infernal or HMMER, and we're building a
+# distribution for that larger project. We remove any "personal
+# information" from Easel. Eventually that'd include our bug tracking,
+# for instance, but right now there's nothing to do.
+implode:
+	-rm -f 00CHECKLIST
+	-rm -f LICENSE.tag
+
+TAGS:
+	-rm -f ${top_srcdir}/TAGS
+	make tags-append	
+
+tags-append:
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/00CHECKLIST
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/BUGTRAX
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/INSTALL
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/LICENSE
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/aclocal.m4
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/configure.ac
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/*.h
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/*.tex
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/00README
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/*.pl
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/*.pm
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/blast*
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/fasta*
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/h2*
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/demotic/hmmer*
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/devkit/*
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/documentation/*.tex
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/miniapps/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/miniapps/*.c
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/miniapps/*.man
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/miniapps/*.pl
+
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.in
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.pl
+	etags -o ${top_srcdir}/TAGS -a ${srcdir}/testsuite/*.sqc
+
+################################################################
+# Easel - a library of C functions for biological sequence analysis
+# Version h3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# Easel is distributed under the Janelia Farm Software License, a BSD
+# license. See the LICENSE file for more details.
+#
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/Makefile.in $
+# SVN $Id: Makefile.in 873 2013-06-19 02:47:51Z wheelert $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/aclocal.m4 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/aclocal.m4
new file mode 100755
index 0000000..2a74ed8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/aclocal.m4
@@ -0,0 +1,1152 @@
+# aclocal.m4 contains custom macros used for creating HMMER's
+# configuration script.
+#
+# SRE, Sun Apr 22 09:26:38 2007 [Janelia]
+# SVN $Id: aclocal.m4 896 2013-12-17 21:07:37Z wheelert $
+
+#################################################################
+# Macro: CHECK_GNU_MAKE
+# Usage: CHECK_GNU_MAKE
+# Author: John Darrington <j.darrington@elvis.murdoch.edu.au> 
+# Modified from the original.
+# 
+# Sets the format of makefile dependency lines for executables.
+#
+# We need this because GNU make and SYSV make use different systems
+# specifying variables for dependencies: $$@ in sysv, %: %.o in GNU.
+# Would love to hear a better way of doing this.
+# 
+# I use two different conventions in my Makefiles. Sometimes 
+# executable "foo" has a file "foo.c" - this is the HMMER, Easel, Infernal convention.
+# Sometimes executable "foo" has a file "foo_main.c" - this is
+# the SQUID convention. The configure script sets the
+# EXEC_DEPENDENCY appropriately: here, HMMER style.
+#
+# Sets an output variable EXEC_DEPENDENCY. 
+# This is used in the src/Makefile.in.
+#
+AC_DEFUN(CHECK_GNU_MAKE,[ 
+  AC_MSG_CHECKING(whether you have a GNU make)
+  foundGNUmake='nope, so we assume you will use a sysv-compatible make.' ;
+  EXEC_DEPENDENCY=[\$\$\@.o] ;
+  for a in "$MAKE" make gmake gnumake ; do
+    if test -z "$a" ; then continue ; fi ;
+    if  ( sh -c "$a --version" 2> /dev/null | grep GNU 2>&1 > /dev/null ) ; then
+      foundGNUmake='yes, you do; and we assume you will use it!' ;
+      EXEC_DEPENDENCY='%: %.o' ;
+    fi
+  done
+  AC_MSG_RESULT($foundGNUmake)
+  AC_SUBST(EXEC_DEPENDENCY)
+])
+
+
+################################################################
+# Macro: ACX_MPI 
+# Usage: ACX_MPI([ACTION-IF-FOUND[, ACTION-IF-NOT-FOUND]])
+# Authors: Steven G. Johnson and Julian C. Cummings
+# Version: 2006-10-22
+# Unmodified from the original; can be replaced with new version.
+#
+#      xref http://autoconf-archive.cryp.to/acx_mpi.html
+#      Sets MPICC, MPILIBS output variable. 
+#      If ACTION-IF-FOUND is not specified, default action defines HAVE_MPI.
+#
+AC_DEFUN([ACX_MPI], [
+AC_PREREQ(2.50) dnl for AC_LANG_CASE
+
+AC_LANG_CASE([C], [
+        AC_REQUIRE([AC_PROG_CC])
+        AC_ARG_VAR(MPICC,[MPI C compiler command])
+        AC_CHECK_PROGS(MPICC, mpicc hcc mpxlc_r mpxlc mpcc cmpicc, $CC)
+        acx_mpi_save_CC="$CC"
+        CC="$MPICC"
+        AC_SUBST(MPICC)
+],
+[C++], [
+        AC_REQUIRE([AC_PROG_CXX])
+        AC_ARG_VAR(MPICXX,[MPI C++ compiler command])
+        AC_CHECK_PROGS(MPICXX, mpic++ mpicxx mpiCC hcp mpxlC_r mpxlC mpCC cmpic++, $CXX)
+        acx_mpi_save_CXX="$CXX"
+        CXX="$MPICXX"
+        AC_SUBST(MPICXX)
+],
+[Fortran 77], [
+        AC_REQUIRE([AC_PROG_F77])
+        AC_ARG_VAR(MPIF77,[MPI Fortran 77 compiler command])
+        AC_CHECK_PROGS(MPIF77, mpif77 hf77 mpxlf_r mpxlf mpf77 cmpifc, $F77)
+        acx_mpi_save_F77="$F77"
+        F77="$MPIF77"
+        AC_SUBST(MPIF77)
+],
+[Fortran], [
+        AC_REQUIRE([AC_PROG_FC])
+        AC_ARG_VAR(MPIFC,[MPI Fortran compiler command])
+        AC_CHECK_PROGS(MPIFC, mpif90 mpxlf95_r mpxlf90_r mpxlf95 mpxlf90 mpf90 cmpif90c, $FC)
+        acx_mpi_save_FC="$FC"
+        FC="$MPIFC"
+        AC_SUBST(MPIFC)
+])
+
+if test x = x"$MPILIBS"; then
+        AC_LANG_CASE([C], [AC_CHECK_FUNC(MPI_Init, [MPILIBS=" "])],
+                [C++], [AC_CHECK_FUNC(MPI_Init, [MPILIBS=" "])],
+                [Fortran 77], [AC_MSG_CHECKING([for MPI_Init])
+                        AC_LINK_IFELSE([AC_LANG_PROGRAM([],[      call MPI_Init])],[MPILIBS=" "
+                                AC_MSG_RESULT(yes)], [AC_MSG_RESULT(no)])],
+                [Fortran], [AC_MSG_CHECKING([for MPI_Init])
+                        AC_LINK_IFELSE([AC_LANG_PROGRAM([],[      call MPI_Init])],[MPILIBS=" "
+                                AC_MSG_RESULT(yes)], [AC_MSG_RESULT(no)])])
+fi
+AC_LANG_CASE([Fortran 77], [
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(fmpi, MPI_Init, [MPILIBS="-lfmpi"])
+        fi
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(fmpich, MPI_Init, [MPILIBS="-lfmpich"])
+        fi
+],
+[Fortran], [
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(fmpi, MPI_Init, [MPILIBS="-lfmpi"])
+        fi
+        if test x = x"$MPILIBS"; then
+                AC_CHECK_LIB(mpichf90, MPI_Init, [MPILIBS="-lmpichf90"])
+        fi
+])
+if test x = x"$MPILIBS"; then
+        AC_CHECK_LIB(mpi, MPI_Init, [MPILIBS="-lmpi"])
+fi
+if test x = x"$MPILIBS"; then
+        AC_CHECK_LIB(mpich, MPI_Init, [MPILIBS="-lmpich"])
+fi
+
+dnl We have to use AC_TRY_COMPILE and not AC_CHECK_HEADER because the
+dnl latter uses $CPP, not $CC (which may be mpicc).
+AC_LANG_CASE([C], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpi.h])
+        AC_TRY_COMPILE([#include <mpi.h>],[],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi],
+[C++], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpi.h])
+        AC_TRY_COMPILE([#include <mpi.h>],[],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi],
+[Fortran 77], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpif.h])
+        AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[      include 'mpif.h'])],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi],
+[Fortran], [if test x != x"$MPILIBS"; then
+        AC_MSG_CHECKING([for mpif.h])
+        AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[      include 'mpif.h'])],[AC_MSG_RESULT(yes)], [MPILIBS=""
+                AC_MSG_RESULT(no)])
+fi])
+
+AC_LANG_CASE([C], [CC="$acx_mpi_save_CC"],
+        [C++], [CXX="$acx_mpi_save_CXX"],
+        [Fortran 77], [F77="$acx_mpi_save_F77"],
+        [Fortran], [FC="$acx_mpi_save_FC"])
+
+AC_SUBST(MPILIBS)
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x = x"$MPILIBS"; then
+        $2
+        :
+else
+        ifelse([$1],,[AC_DEFINE(HAVE_MPI,1,[Define if you have the MPI library.])],[$1])
+        :
+fi
+])dnl ACX_MPI
+
+
+
+#################################################################
+# Macro: ACX_PTHREAD
+# Usage: ACX_PTHREAD([ACTION-IF-FOUND[, ACTION-IF-NOT-FOUND]]) 
+# Authors:  Steven G. Johnson <stevenj@alum.mit.edu>
+#           Alejandro Forero Cuervo <bachue@bachue.com>
+# Version:  1.9 (2004/02/23)
+# Source:   http://www.gnu.org/software/ac-archive/htmldoc/acx_pthread.html
+# 
+# SRE: I have modified this source; search for SRE to see where.
+#      Solaris needs -D_POSIX_PTHREAD_SEMANTICS or ctime_r() calls will choke.
+#
+dnl Available from the GNU Autoconf Macro Archive at:
+dnl http://www.gnu.org/software/ac-archive/htmldoc/acx_pthread.html
+dnl
+AC_DEFUN([ACX_PTHREAD], [
+AC_REQUIRE([AC_CANONICAL_HOST])
+AC_LANG_SAVE
+AC_LANG_C
+acx_pthread_ok=no
+
+# We used to check for pthread.h first, but this fails if pthread.h
+# requires special compiler flags (e.g. on True64 or Sequent).
+# It gets checked for in the link test anyway.
+
+# First of all, check if the user has set any of the PTHREAD_LIBS,
+# etcetera environment variables, and if threads linking works using
+# them:
+if test x"$PTHREAD_LIBS$PTHREAD_CFLAGS" != x; then
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        AC_MSG_CHECKING([for pthread_join in LIBS=$PTHREAD_LIBS with CFLAGS=$PTHREAD_CFLAGS])
+        AC_TRY_LINK_FUNC(pthread_join, acx_pthread_ok=yes)
+        AC_MSG_RESULT($acx_pthread_ok)
+        if test x"$acx_pthread_ok" = xno; then
+                PTHREAD_LIBS=""
+                PTHREAD_CFLAGS=""
+        fi
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+fi
+
+# We must check for the threads library under a number of different
+# names; the ordering is very important because some systems
+# (e.g. DEC) have both -lpthread and -lpthreads, where one of the
+# libraries is broken (non-POSIX).
+
+# Create a list of thread flags to try.  Items starting with a "-" are
+# C compiler flags, and other items are library names, except for "none"
+# which indicates that we try without any flags at all, and "pthread-config"
+# which is a program returning the flags for the Pth emulation library.
+
+acx_pthread_flags="pthreads none -Kthread -kthread lthread -pthread -pthreads -mthreads pthread --thread-safe -mt pthread-config"
+
+# The ordering *is* (sometimes) important.  Some notes on the
+# individual items follow:
+
+# pthreads: AIX (must check this before -lpthread)
+# none: in case threads are in libc; should be tried before -Kthread and
+#       other compiler flags to prevent continual compiler warnings
+# -Kthread: Sequent (threads in libc, but -Kthread needed for pthread.h)
+# -kthread: FreeBSD kernel threads (preferred to -pthread since SMP-able)
+# lthread: LinuxThreads port on FreeBSD (also preferred to -pthread)
+# -pthread: Linux/gcc (kernel threads), BSD/gcc (userland threads)
+# -pthreads: Solaris/gcc
+# -mthreads: Mingw32/gcc, Lynx/gcc
+# -mt: Sun Workshop C (may only link SunOS threads [-lthread], but it
+#      doesn't hurt to check since this sometimes defines pthreads too;
+#      also defines -D_REENTRANT)
+# pthread: Linux, etcetera
+# --thread-safe: KAI C++
+# pthread-config: use pthread-config program (for GNU Pth library)
+
+case "${host_cpu}-${host_os}" in
+        *solaris*)
+
+        # On Solaris (at least, for some versions), libc contains stubbed
+        # (non-functional) versions of the pthreads routines, so link-based
+        # tests will erroneously succeed.  (We need to link with -pthread or
+        # -lpthread.)  (The stubs are missing pthread_cleanup_push, or rather
+        # a function called by this macro, so we could check for that, but
+        # who knows whether they'll stub that too in a future libc.)  So,
+        # we'll just look for -pthreads and -lpthread first:
+
+        acx_pthread_flags="-pthread -pthreads pthread -mt $acx_pthread_flags"
+        ;;
+esac
+
+if test x"$acx_pthread_ok" = xno; then
+for flag in $acx_pthread_flags; do
+
+        case $flag in
+                none)
+                AC_MSG_CHECKING([whether pthreads work without any flags])
+                ;;
+
+                -*)
+                AC_MSG_CHECKING([whether pthreads work with $flag])
+                PTHREAD_CFLAGS="$flag"
+                ;;
+
+		pthread-config)
+		AC_CHECK_PROG(acx_pthread_config, pthread-config, yes, no)
+		if test x"$acx_pthread_config" = xno; then continue; fi
+		PTHREAD_CFLAGS="`pthread-config --cflags`"
+		PTHREAD_LIBS="`pthread-config --ldflags` `pthread-config --libs`"
+		;;
+
+                *)
+                AC_MSG_CHECKING([for the pthreads library -l$flag])
+                PTHREAD_LIBS="-l$flag"
+                ;;
+        esac
+
+        save_LIBS="$LIBS"
+        save_CFLAGS="$CFLAGS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Check for various functions.  We must include pthread.h,
+        # since some functions may be macros.  (On the Sequent, we
+        # need a special flag -Kthread to make this header compile.)
+        # We check for pthread_join because it is in -lpthread on IRIX
+        # while pthread_create is in libc.  We check for pthread_attr_init
+        # due to DEC craziness with -lpthreads.  We check for
+        # pthread_cleanup_push because it is one of the few pthread
+        # functions on Solaris that doesn't have a non-functional libc stub.
+        # We try pthread_create on general principles.
+        AC_TRY_LINK([#include <pthread.h>],
+                    [pthread_t th; pthread_join(th, 0);
+                     pthread_attr_init(0); pthread_cleanup_push(0, 0);
+                     pthread_create(0,0,0,0); pthread_cleanup_pop(0); ],
+                    [acx_pthread_ok=yes])
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        AC_MSG_RESULT($acx_pthread_ok)
+        if test "x$acx_pthread_ok" = xyes; then
+                break;
+        fi
+
+        PTHREAD_LIBS=""
+        PTHREAD_CFLAGS=""
+done
+fi
+
+# Various other checks:
+if test "x$acx_pthread_ok" = xyes; then
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Detect AIX lossage: threads are created detached by default
+        # and the JOINABLE attribute has a nonstandard name (UNDETACHED).
+        AC_MSG_CHECKING([for joinable pthread attribute])
+        AC_TRY_LINK([#include <pthread.h>],
+                    [int attr=PTHREAD_CREATE_JOINABLE;],
+                    ok=PTHREAD_CREATE_JOINABLE, ok=unknown)
+        if test x"$ok" = xunknown; then
+                AC_TRY_LINK([#include <pthread.h>],
+                            [int attr=PTHREAD_CREATE_UNDETACHED;],
+                            ok=PTHREAD_CREATE_UNDETACHED, ok=unknown)
+        fi
+        if test x"$ok" != xPTHREAD_CREATE_JOINABLE; then
+                AC_DEFINE(PTHREAD_CREATE_JOINABLE, $ok,
+                          [Define to the necessary symbol if this constant
+                           uses a non-standard name on your system.])
+        fi
+        AC_MSG_RESULT(${ok})
+        if test x"$ok" = xunknown; then
+                AC_MSG_WARN([we do not know how to create joinable pthreads])
+        fi
+
+        AC_MSG_CHECKING([if more special flags are required for pthreads])
+        flag=no
+# Added _POSIX_PTHREAD_SEMANTICS for solaris. Needed for ctime_r() compliance.
+# SRE, Fri Oct 29 10:03:36 2010 [J7/3]
+        case "${host_cpu}-${host_os}" in
+                *-aix* | *-freebsd*)     flag="-D_THREAD_SAFE";;
+                *solaris*)               flag="-D_REENTRANT -D_POSIX_PTHREAD_SEMANTICS";; 
+                *-osf* | *-hpux*)        flag="-D_REENTRANT";;
+        esac
+        AC_MSG_RESULT(${flag})
+        if test "x$flag" != xno; then
+                PTHREAD_CFLAGS="$flag $PTHREAD_CFLAGS"
+        fi
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        # More AIX lossage: must compile with cc_r
+        AC_CHECK_PROG(PTHREAD_CC, cc_r, cc_r, ${CC})
+else
+        PTHREAD_CC="$CC"
+fi
+
+AC_SUBST(PTHREAD_LIBS)
+AC_SUBST(PTHREAD_CFLAGS)
+AC_SUBST(PTHREAD_CC)
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x"$acx_pthread_ok" = xyes; then
+        ifelse([$1],,AC_DEFINE(HAVE_PTHREAD,1,[Define if you have POSIX threads libraries and header files.]),[$1])
+        :
+else
+        acx_pthread_ok=no
+        $2
+fi
+AC_LANG_RESTORE
+])dnl ACX_PTHREAD
+#
+# ACX_PTHREAD macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+
+#################################################################
+# Macro: AX_CHECK_COMPILER_FLAGS
+# Usage: AX_CHECK_COMPILER_FLAGS(FLAGS, [ACTION-SUCCESS], [ACTION-FAILURE])
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo.
+# Version:  2007-07-29
+# Source:   http://autoconf-archive.cryp.to/ax_check_compiler_flags.html
+#
+# Check whether the given compiler FLAGS work with the current language's compiler, 
+# or whether they give an error. (Warnings, however, are ignored.)
+# ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on success/failure.
+# 
+# Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_COMPILER_FLAGS],
+[AC_PREREQ(2.59) dnl for _AC_LANG_PREFIX
+AC_MSG_CHECKING([whether _AC_LANG compiler accepts $1])
+dnl Some hackery here since AC_CACHE_VAL can't handle a non-literal varname:
+AS_LITERAL_IF([$1],
+  [AC_CACHE_VAL(AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1), [
+      ax_save_FLAGS=$[]_AC_LANG_PREFIX[]FLAGS
+      _AC_LANG_PREFIX[]FLAGS="$1"
+      AC_COMPILE_IFELSE([AC_LANG_PROGRAM()],
+        AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=yes,
+        AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=no)
+      _AC_LANG_PREFIX[]FLAGS=$ax_save_FLAGS])],
+  [ax_save_FLAGS=$[]_AC_LANG_PREFIX[]FLAGS
+   _AC_LANG_PREFIX[]FLAGS="$1"
+   AC_COMPILE_IFELSE([AC_LANG_PROGRAM()],
+     eval AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=yes,
+     eval AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)=no)
+   _AC_LANG_PREFIX[]FLAGS=$ax_save_FLAGS])
+eval ax_check_compiler_flags=$AS_TR_SH(ax_cv_[]_AC_LANG_ABBREV[]_flags_$1)
+AC_MSG_RESULT($ax_check_compiler_flags)
+if test "x$ax_check_compiler_flags" = xyes; then
+        m4_default([$2], :)
+else
+        m4_default([$3], :)
+fi
+])dnl AX_CHECK_COMPILER_FLAGS
+#
+# AX_CHECK_COMPILER_FLAGS macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+
+
+#################################################################
+# Macro: AX_GCC_X86_CPUID
+# Usage: AX_GCC_X86_CPUID(OP)
+# Authors:  Copyright (c) 2008 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (c) 2008 Matteo Frigo
+# Version:  2010-03-01
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_gcc_x86_cpuid.html
+#
+#   On Pentium and later x86 processors, with gcc or a compiler that has a
+#   compatible syntax for inline assembly instructions, run a small program
+#   that executes the cpuid instruction with input OP. This can be used to
+#   detect the CPU type.
+#
+#   On output, the values of the eax, ebx, ecx, and edx registers are stored
+#   as hexadecimal strings as "eax:ebx:ecx:edx" in the cache variable
+#   ax_cv_gcc_x86_cpuid_OP.
+#
+#   If the cpuid instruction fails (because you are running a
+#   cross-compiler, or because you are not using gcc, or because you are on
+#   a processor that doesn't have this instruction), ax_cv_gcc_x86_cpuid_OP
+#   is set to the string "unknown".
+#
+#   This macro mainly exists to be used in AX_GCC_ARCHFLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_GCC_X86_CPUID],
+[AC_REQUIRE([AC_PROG_CC])
+AC_LANG_PUSH([C])
+AC_CACHE_CHECK(for x86 cpuid $1 output, ax_cv_gcc_x86_cpuid_$1,
+ [AC_RUN_IFELSE([AC_LANG_PROGRAM([#include <stdio.h>], [
+     int op = $1, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+])],
+     [ax_cv_gcc_x86_cpuid_$1=`cat conftest_cpuid`; rm -f conftest_cpuid],
+     [ax_cv_gcc_x86_cpuid_$1=unknown; rm -f conftest_cpuid],
+     [ax_cv_gcc_x86_cpuid_$1=unknown])])
+AC_LANG_POP([C])
+])
+#
+# AX_GCC_X86_CPUID macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_COMPILER_VENDOR
+# Usage: AX_COMPILER_VENDOR
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo
+# Version:  2007-08-01
+# Source:   http://autoconf-archive.cryp.to/ax_compiler_vendor.html
+#
+# Sets $ax_cv_c_compiler_vendor to gnu, intel, ibm, sun, hp, borland,
+# comeau, dec, cray, kai, lcc, metrowerks, sgi, microsoft, watcom, etc.
+#
+# Everything below is verbatim from the archive. DO NOT MODIFY IT.
+AC_DEFUN([AX_COMPILER_VENDOR],
+[
+AC_CACHE_CHECK([for _AC_LANG compiler vendor], ax_cv_[]_AC_LANG_ABBREV[]_compiler_vendor,
+ [ax_cv_[]_AC_LANG_ABBREV[]_compiler_vendor=unknown
+  # note: don't check for gcc first since some other compilers define __GNUC__
+  for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ pathscale:__PATHCC__,__PATHSCALE__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do
+    vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")"
+    AC_COMPILE_IFELSE([AC_LANG_PROGRAM(,[
+#if !($vencpp)
+      thisisanerror;
+#endif
+])], [ax_cv_]_AC_LANG_ABBREV[_compiler_vendor=`echo $ventest | cut -d: -f1`; break])
+  done
+ ])
+])
+#
+# AX_COMPILER_VENDOR macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CHECK_PREPROC_FLAG
+# Usage: AX_CHECK_PREPROC_FLAG(FLAG, [ACTION-SUCCESS], [ACTION-FAILURE], [EXTRA-FLAGS], [INPUT])
+# Authors:  Copyright (c) 2008 Guido U. Draheim <guidod@gmx.de>
+#           Copyright (c) 2011 Maarten Bosmans <mkbosmans@gmail.com>
+#
+# Version:  2013-12-11
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_check_preproc_flag.html
+#
+#   Check whether the given FLAG works with the current language's
+#   preprocessor or gives an error.  (Warnings, however, are ignored)
+#
+#   ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on
+#   success/failure.
+#
+#   If EXTRA-FLAGS is defined, it is added to the preprocessor's default
+#   flags when the check is done.  The check is thus made with the flags:
+#   "CPPFLAGS EXTRA-FLAGS FLAG".  This can for example be used to force the
+#   preprocessor to issue an error when a bad flag is given.
+#
+#   INPUT gives an alternative input source to AC_PREPROC_IFELSE.
+#
+#   NOTE: Implementation based on AX_CFLAGS_GCC_OPTION. Please keep this
+#   macro in sync with AX_CHECK_{COMPILE,LINK}_FLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_PREPROC_FLAG],
+[AC_PREREQ(2.59)dnl for _AC_LANG_PREFIX
+AS_VAR_PUSHDEF([CACHEVAR],[ax_cv_check_[]_AC_LANG_ABBREV[]cppflags_$4_$1])dnl
+AC_CACHE_CHECK([whether _AC_LANG preprocessor accepts $1], CACHEVAR, [
+  ax_check_save_flags=$CPPFLAGS
+  CPPFLAGS="$CPPFLAGS $4 $1"
+  AC_PREPROC_IFELSE([m4_default([$5],[AC_LANG_PROGRAM()])],
+    [AS_VAR_SET(CACHEVAR,[yes])],
+    [AS_VAR_SET(CACHEVAR,[no])])
+  CPPFLAGS=$ax_check_save_flags])
+AS_IF([test x"AS_VAR_GET(CACHEVAR)" = xyes],
+  [m4_default([$2], :)],
+  [m4_default([$3], :)])
+AS_VAR_POPDEF([CACHEVAR])dnl
+])dnl AX_CHECK_PREPROC_FLAGS
+#
+# AX_CHECK_PREPROC_FLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CHECK_LINK_FLAG
+# Usage: AX_CHECK_LINK_FLAG(FLAG, [ACTION-SUCCESS], [ACTION-FAILURE], [EXTRA-FLAGS], [INPUT])
+# Authors:  Copyright (c) 2008 Guido U. Draheim <guidod@gmx.de>
+#           Copyright (c) 2011 Maarten Bosmans <mkbosmans@gmail.com>
+#
+# Version:  2013-12-11
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_check_link_flag.html
+#
+#   Check whether the given FLAG works with the linker or gives an error.
+#   (Warnings, however, are ignored)
+#
+#   ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on
+#   success/failure.
+#
+#   If EXTRA-FLAGS is defined, it is added to the linker's default flags
+#   when the check is done.  The check is thus made with the flags: "LDFLAGS
+#   EXTRA-FLAGS FLAG".  This can for example be used to force the linker to
+#   issue an error when a bad flag is given.
+#
+#   INPUT gives an alternative input source to AC_LINK_IFELSE.
+#
+#   NOTE: Implementation based on AX_CFLAGS_GCC_OPTION. Please keep this
+#   macro in sync with AX_CHECK_{PREPROC,COMPILE}_FLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_LINK_FLAG],
+[AS_VAR_PUSHDEF([CACHEVAR],[ax_cv_check_ldflags_$4_$1])dnl
+AC_CACHE_CHECK([whether the linker accepts $1], CACHEVAR, [
+  ax_check_save_flags=$LDFLAGS
+  LDFLAGS="$LDFLAGS $4 $1"
+  AC_LINK_IFELSE([m4_default([$5],[AC_LANG_PROGRAM()])],
+    [AS_VAR_SET(CACHEVAR,[yes])],
+    [AS_VAR_SET(CACHEVAR,[no])])
+  LDFLAGS=$ax_check_save_flags])
+AS_IF([test x"AS_VAR_GET(CACHEVAR)" = xyes],
+  [m4_default([$2], :)],
+  [m4_default([$3], :)])
+AS_VAR_POPDEF([CACHEVAR])dnl
+])dnl AX_CHECK_LINK_FLAGS
+#
+# AX_CHECK_LINK_FLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CHECK_COMPILE_FLAG
+# Usage: AX_CHECK_COMPILE_FLAG(FLAG, [ACTION-SUCCESS], [ACTION-FAILURE], [EXTRA-FLAGS], [INPUT])
+# Authors:  Copyright (c) 2008 Guido U. Draheim <guidod@gmx.de>
+#           Copyright (c) 2011 Maarten Bosmans <mkbosmans@gmail.com>
+#
+# Version:  2013-12-11
+# Source:   http://www.gnu.org/software/autoconf-archive/ax_check_compile_flag.html
+#
+#   Check whether the given FLAG works with the current language's compiler
+#   or gives an error.  (Warnings, however, are ignored)
+#
+#   ACTION-SUCCESS/ACTION-FAILURE are shell commands to execute on
+#   success/failure.
+#
+#   If EXTRA-FLAGS is defined, it is added to the current language's default
+#   flags (e.g. CFLAGS) when the check is done.  The check is thus made with
+#   the flags: "CFLAGS EXTRA-FLAGS FLAG".  This can for example be used to
+#   force the compiler to issue an error when a bad flag is given.
+#
+#   INPUT gives an alternative input source to AC_COMPILE_IFELSE.
+#
+#   NOTE: Implementation based on AX_CFLAGS_GCC_OPTION. Please keep this
+#   macro in sync with AX_CHECK_{PREPROC,LINK}_FLAG.
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_CHECK_COMPILE_FLAG],
+[AC_PREREQ(2.59)dnl for _AC_LANG_PREFIX
+AS_VAR_PUSHDEF([CACHEVAR],[ax_cv_check_[]_AC_LANG_ABBREV[]flags_$4_$1])dnl
+AC_CACHE_CHECK([whether _AC_LANG compiler accepts $1], CACHEVAR, [
+  ax_check_save_flags=$[]_AC_LANG_PREFIX[]FLAGS
+  _AC_LANG_PREFIX[]FLAGS="$[]_AC_LANG_PREFIX[]FLAGS $4 $1"
+  AC_COMPILE_IFELSE([m4_default([$5],[AC_LANG_PROGRAM()])],
+    [AS_VAR_SET(CACHEVAR,[yes])],
+    [AS_VAR_SET(CACHEVAR,[no])])
+  _AC_LANG_PREFIX[]FLAGS=$ax_check_save_flags])
+AS_IF([test x"AS_VAR_GET(CACHEVAR)" = xyes],
+  [m4_default([$2], :)],
+  [m4_default([$3], :)])
+AS_VAR_POPDEF([CACHEVAR])dnl
+])dnl AX_CHECK_COMPILE_FLAGS
+#
+# AX_CHECK_COMPILE_FLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_GCC_ARCHFLAG
+# Usage: AX_GCC_ARCHFLAG([PORTABLE?], [ACTION-SUCCESS], [ACTION-FAILURE])
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo
+# Version:  2013-12-11
+# Source:   http://autoconf-archive.cryp.to/ax_gcc_archflag.html
+#
+#   This macro tries to guess the "native" arch corresponding to the target
+#   architecture for use with gcc's -march=arch or -mtune=arch flags. If
+#   found, the cache variable $ax_cv_gcc_archflag is set to this flag and
+#   ACTION-SUCCESS is executed; otherwise $ax_cv_gcc_archflag is set to
+#   "unknown" and ACTION-FAILURE is executed. The default ACTION-SUCCESS is
+#   to add $ax_cv_gcc_archflag to the end of $CFLAGS.
+#
+#   PORTABLE? should be either [yes] (default) or [no]. In the former case,
+#   the flag is set to -mtune (or equivalent) so that the architecture is
+#   only used for tuning, but the instruction set used is still portable. In
+#   the latter case, the flag is set to -march (or equivalent) so that
+#   architecture-specific instructions are enabled.
+#
+#   The user can specify --with-gcc-arch=<arch> in order to override the
+#   macro's choice of architecture, or --without-gcc-arch to disable this.
+#
+#   When cross-compiling, or if $CC is not gcc, then ACTION-FAILURE is
+#   called unless the user specified --with-gcc-arch manually.
+#
+#   Requires macros: AX_CHECK_COMPILE_FLAG, AX_GCC_X86_CPUID
+#
+#   (The main emphasis here is on recent CPUs, on the principle that doing
+#   high-performance computing on old hardware is uncommon.)
+#
+#   Everything below is verbatim from the archive. DO NOT MODIFY IT.
+#
+AC_DEFUN([AX_GCC_ARCHFLAG],
+[AC_REQUIRE([AC_PROG_CC])
+AC_REQUIRE([AC_CANONICAL_HOST])
+AC_REQUIRE([AC_PROG_SED])
+
+AC_ARG_WITH(gcc-arch, [AS_HELP_STRING([--with-gcc-arch=<arch>], [use architecture <arch> for gcc -march/-mtune, instead of guessing])],
+    ax_gcc_arch=$withval, ax_gcc_arch=yes)
+
+AC_MSG_CHECKING([for gcc architecture flag])
+AC_MSG_RESULT([])
+AC_CACHE_VAL(ax_cv_gcc_archflag,
+[
+ax_cv_gcc_archflag="unknown"
+
+if test "$GCC" = yes; then
+
+if test "x$ax_gcc_arch" = xyes; then
+ax_gcc_arch=""
+if test "$cross_compiling" = no; then
+case $host_cpu in
+  i[[3456]]86*|x86_64*|amd64*) # use cpuid codes
+     AX_GCC_X86_CPUID(0)
+     AX_GCC_X86_CPUID(1)
+     case $ax_cv_gcc_x86_cpuid_0 in
+       *:756e6547:*:*) # Intel
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[[48]]?:*:*:*) ax_gcc_arch="pentium-mmx pentium" ;;
+        *5??:*:*:*) ax_gcc_arch=pentium ;;
+        *1?6[[7d]]?:*:*:*) ax_gcc_arch="penryn core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6[[aef]]?:*:*:*|*2?6[[5cef]]?:*:*:*) ax_gcc_arch="corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6c?:*:*:*|*[[23]]?66?:*:*:*) ax_gcc_arch="atom core2 pentium-m pentium3 pentiumpro" ;;
+        *2?6[[ad]]?:*:*:*) ax_gcc_arch="corei7-avx corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *[[1-9a-f]]?6??:*:*:*) ax_gcc_arch="core2 pentiumpro" ;;
+        *6[[3456]]?:*:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[[01]]:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[[234]]:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6[[9de]]?:*:*:*) ax_gcc_arch="pentium-m pentium3 pentiumpro" ;;
+        *6[[78b]]?:*:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6f?:*:*:*) ax_gcc_arch="core2 pentium-m pentium3 pentiumpro" ;;
+        *6??:*:*:*) ax_gcc_arch=pentiumpro ;;
+        *f3[[347]]:*:*:*|*f4[1347]:*:*:*|*f6?:*:*:*)
+        case $host_cpu in
+              x86_64*) ax_gcc_arch="nocona pentium4 pentiumpro" ;;
+              *) ax_gcc_arch="prescott pentium4 pentiumpro" ;;
+            esac ;;
+        *f??:*:*:*) ax_gcc_arch="pentium4 pentiumpro";;
+          esac ;;
+       *:68747541:*:*) # AMD
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[[67]]?:*:*:*) ax_gcc_arch=k6 ;;
+        *5[[8d]]?:*:*:*) ax_gcc_arch="k6-2 k6" ;;
+        *5[[9]]?:*:*:*) ax_gcc_arch="k6-3 k6" ;;
+        *60?:*:*:*) ax_gcc_arch=k7 ;;
+        *6[[12]]?:*:*:*) ax_gcc_arch="athlon k7" ;;
+        *6[[34]]?:*:*:*) ax_gcc_arch="athlon-tbird k7" ;;
+        *67?:*:*:*) ax_gcc_arch="athlon-4 athlon k7" ;;
+        *6[[68a]]?:*:*:*)
+           AX_GCC_X86_CPUID(0x80000006) # L2 cache size
+           case $ax_cv_gcc_x86_cpuid_0x80000006 in
+                 *:*:*[[1-9a-f]]??????:*) # (L2 = ecx >> 16) >= 256
+            ax_gcc_arch="athlon-xp athlon-4 athlon k7" ;;
+                 *) ax_gcc_arch="athlon-4 athlon k7" ;;
+           esac ;;
+        *5??f??:*:*:*) ax_gcc_arch="btver1 amdfam10 k8" ;;
+        *6??f??:*:*:*) ax_gcc_arch="bdver1 amdfam10 k8" ;;
+        *[[1-9a-f]]??f??:*:*:*) ax_gcc_arch="amdfam10 k8" ;;
+        *f[[4cef8b]]?:*:*:*) ax_gcc_arch="athlon64 k8" ;;
+        *f5?:*:*:*) ax_gcc_arch="opteron k8" ;;
+        *f7?:*:*:*) ax_gcc_arch="athlon-fx opteron k8" ;;
+        *f??:*:*:*) ax_gcc_arch="k8" ;;
+          esac ;;
+    *:746e6543:*:*) # IDT
+       case $ax_cv_gcc_x86_cpuid_1 in
+         *54?:*:*:*) ax_gcc_arch=winchip-c6 ;;
+         *58?:*:*:*) ax_gcc_arch=winchip2 ;;
+         *6[[78]]?:*:*:*) ax_gcc_arch=c3 ;;
+         *69?:*:*:*) ax_gcc_arch="c3-2 c3" ;;
+       esac ;;
+     esac
+     if test x"$ax_gcc_arch" = x; then # fallback
+    case $host_cpu in
+      i586*) ax_gcc_arch=pentium ;;
+      i686*) ax_gcc_arch=pentiumpro ;;
+        esac
+     fi
+     ;;
+
+  sparc*)
+     AC_PATH_PROG([PRTDIAG], [prtdiag], [prtdiag], [$PATH:/usr/platform/`uname -i`/sbin/:/usr/platform/`uname -m`/sbin/])
+     cputype=`(((grep cpu /proc/cpuinfo | cut -d: -f2) ; ($PRTDIAG -v |grep -i sparc) ; grep -i cpu /var/run/dmesg.boot ) | head -n 1) 2> /dev/null`
+     cputype=`echo "$cputype" | tr -d ' -' | $SED 's/SPARCIIi/SPARCII/' |tr $as_cr_LETTERS $as_cr_letters`
+     case $cputype in
+         *ultrasparciv*) ax_gcc_arch="ultrasparc4 ultrasparc3 ultrasparc v9" ;;
+         *ultrasparciii*) ax_gcc_arch="ultrasparc3 ultrasparc v9" ;;
+         *ultrasparc*) ax_gcc_arch="ultrasparc v9" ;;
+         *supersparc*|*tms390z5[[05]]*) ax_gcc_arch="supersparc v8" ;;
+         *hypersparc*|*rt62[[056]]*) ax_gcc_arch="hypersparc v8" ;;
+         *cypress*) ax_gcc_arch=cypress ;;
+     esac ;;
+
+  alphaev5) ax_gcc_arch=ev5 ;;
+  alphaev56) ax_gcc_arch=ev56 ;;
+  alphapca56) ax_gcc_arch="pca56 ev56" ;;
+  alphapca57) ax_gcc_arch="pca57 pca56 ev56" ;;
+  alphaev6) ax_gcc_arch=ev6 ;;
+  alphaev67) ax_gcc_arch=ev67 ;;
+  alphaev68) ax_gcc_arch="ev68 ev67" ;;
+  alphaev69) ax_gcc_arch="ev69 ev68 ev67" ;;
+  alphaev7) ax_gcc_arch="ev7 ev69 ev68 ev67" ;;
+  alphaev79) ax_gcc_arch="ev79 ev7 ev69 ev68 ev67" ;;
+
+  powerpc*)
+     cputype=`((grep cpu /proc/cpuinfo | head -n 1 | cut -d: -f2 | cut -d, -f1 | $SED 's/ //g') ; /usr/bin/machine ; /bin/machine; grep CPU /var/run/dmesg.boot | head -n 1 | cut -d" " -f2) 2> /dev/null`
+     cputype=`echo $cputype | $SED -e 's/ppc//g;s/ *//g'`
+     case $cputype in
+       *750*) ax_gcc_arch="750 G3" ;;
+       *740[[0-9]]*) ax_gcc_arch="$cputype 7400 G4" ;;
+       *74[[4-5]][[0-9]]*) ax_gcc_arch="$cputype 7450 G4" ;;
+       *74[[0-9]][[0-9]]*) ax_gcc_arch="$cputype G4" ;;
+       *970*) ax_gcc_arch="970 G5 power4";;
+       *POWER4*|*power4*|*gq*) ax_gcc_arch="power4 970";;
+       *POWER5*|*power5*|*gr*|*gs*) ax_gcc_arch="power5 power4 970";;
+       603ev|8240) ax_gcc_arch="$cputype 603e 603";;
+       *) ax_gcc_arch=$cputype ;;
+     esac
+     ax_gcc_arch="$ax_gcc_arch powerpc"
+     ;;
+esac
+fi # not cross-compiling
+fi # guess arch
+
+if test "x$ax_gcc_arch" != x -a "x$ax_gcc_arch" != xno; then
+for arch in $ax_gcc_arch; do
+  if test "x[]m4_default([$1],yes)" = xyes; then # if we require portable code
+    flags="-mtune=$arch"
+    # -mcpu=$arch and m$arch generate nonportable code on every arch except
+    # x86.  And some other arches (e.g. Alpha) don't accept -mtune.  Grrr.
+    case $host_cpu in i*86|x86_64*) flags="$flags -mcpu=$arch -m$arch";; esac
+  else
+    flags="-march=$arch -mcpu=$arch -m$arch"
+  fi
+  for flag in $flags; do
+    AX_CHECK_COMPILE_FLAG($flag, [ax_cv_gcc_archflag=$flag; break])
+  done
+  test "x$ax_cv_gcc_archflag" = xunknown || break
+done
+fi
+
+fi # $GCC=yes
+])
+AC_MSG_CHECKING([for gcc architecture flag])
+AC_MSG_RESULT($ax_cv_gcc_archflag)
+if test "x$ax_cv_gcc_archflag" = xunknown; then
+  m4_default([$3],:)
+else
+  m4_default([$2], [CFLAGS="$CFLAGS $ax_cv_gcc_archflag"])
+fi
+])
+#
+# AX_GCC_ARCHFLAG macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+#################################################################
+# Macro: AX_CC_MAXOPT
+# Usage: AX_CC_MAXOPT
+# Authors:  Copyright (C) 2007 Steven G. Johnson <stevenj@alum.mit.edu>
+#           Copyright (C) 2007 Matteo Frigo
+# Version:  2007-07-29
+# Source:   http://autoconf-archive.cryp.to/ax_cc_maxopt.html
+#
+# Try to turn on "good" C optimization flags for various compilers and
+# architectures, for some definition of "good". 
+#
+# The user can override the flags by setting the CFLAGS environment
+# variable.  The user can also specify --enable-portable-binary in
+# order to disable any optimization flags that might result in a
+# binary that only runs on the host architecture.
+#
+# Note also that the flags assume that ANSI C aliasing rules are
+# followed by the code (e.g. for gcc's -fstrict-aliasing), and that
+# floating-point computations can be re-ordered as needed.
+#
+# SRE: I've made modifications as follows.
+#  - HMMER relies on IEEE754-compliant math. Don't enable
+#    any options that break compliance; for example, gcc -ffast-math
+#  - similarly, for IBM xlc, add -qstrict.
+#
+AC_DEFUN([AX_CC_MAXOPT],
+[
+AC_REQUIRE([AC_PROG_CC])
+AC_REQUIRE([AX_COMPILER_VENDOR])
+AC_REQUIRE([AC_CANONICAL_HOST])
+
+AC_ARG_ENABLE(portable-binary, [AC_HELP_STRING([--enable-portable-binary], [disable compiler optimizations that would produce unportable binaries])],
+        acx_maxopt_portable=$withval, acx_maxopt_portable=no)
+
+# Try to determine "good" native compiler flags if none specified via CFLAGS
+if test "$ac_test_CFLAGS" != "set"; then
+  CFLAGS=""
+  case $ax_cv_c_compiler_vendor in
+    dec) CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -tune host"
+#        CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -fp_reorder -tune host"
+         if test "x$acx_maxopt_portable" = xno; then
+           CFLAGS="$CFLAGS -arch host"
+         fi;;
+
+    sun) CFLAGS="-native -xO5 -dalign"
+#        CFLAGS="-native -fast -xO5 -dalign"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS -xarch=generic"
+         fi;;
+
+    hp)  CFLAGS="+Oall +Optrs_ansi +DSnative"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS +DAportable"
+         fi;;
+
+    ibm) xlc_opt="-qtune=auto -qstrict"
+         if test "x$acx_maxopt_portable" = xno; then
+            if test "x$XLC_ARCH" = xno; then
+               xlc_opt="-qarch=auto $xlc_opt"
+            else
+               xlc_opt="-qarch=$XLC_ARCH $xlc_opt"
+            fi
+         fi
+         AX_CHECK_COMPILER_FLAGS($xlc_opt,
+                CFLAGS="-O3 -qansialias -w $xlc_opt",
+               [CFLAGS="-O3 -qansialias -w"
+                echo "******************************************************"
+                echo "*  You seem to have the IBM  C compiler.  It is      *"
+                echo "*  recommended for best performance that you use:    *"
+                echo "*                                                    *"
+                echo "*    CFLAGS=-O3 -qarch=xxx -qtune=xxx -qansialias -w *"
+                echo "*                      ^^^        ^^^                *"
+                echo "*  where xxx is pwr2, pwr3, 604, or whatever kind of *"
+                echo "*  CPU you have.  (Set the CFLAGS environment var.   *"
+                echo "*  and re-run configure.)  For more info, man cc.    *"
+                echo "******************************************************"])
+         ;;
+
+    intel) CFLAGS="-O3 -ansi_alias"
+        if test "x$acx_maxopt_portable" = xno; then
+          icc_archflag=unknown
+          icc_flags=""
+          case $host_cpu in
+            i686*|x86_64*)
+              # icc accepts gcc assembly syntax, so these should work:
+              AX_GCC_X86_CPUID(0)
+              AX_GCC_X86_CPUID(1)
+              case $ax_cv_gcc_x86_cpuid_0 in # see AX_GCC_ARCHFLAG
+                *:756e6547:*:*) # Intel
+                  case $ax_cv_gcc_x86_cpuid_1 in
+                    *6a?:*[[234]]:*:*|*6[[789b]]?:*:*:*) icc_flags="-xK";;
+                    *f3[[347]]:*:*:*|*f4[1347]:*:*:*) icc_flags="-xP -xN -xW -xK";;
+                    *f??:*:*:*) icc_flags="-xN -xW -xK";;
+                  esac ;;
+              esac ;;
+          esac
+          if test "x$icc_flags" != x; then
+            for flag in $icc_flags; do
+              AX_CHECK_COMPILER_FLAGS($flag, [icc_archflag=$flag; break])
+            done
+          fi
+          AC_MSG_CHECKING([for icc architecture flag])
+          AC_MSG_RESULT($icc_archflag)
+          if test "x$icc_archflag" != xunknown; then
+            CFLAGS="$CFLAGS $icc_archflag"
+          fi
+        fi
+        ;;
+
+    gnu)
+     # default optimization flags for gcc on all systems
+     CFLAGS="-O3 -fomit-frame-pointer"
+
+     # -malign-double for x86 systems
+     # SRE: no, that's a bad idea; 
+     #  on 32bit Ubuntu Linux systems, for example, this
+     #  causes an odd and buggy interaction with _FILE_OFFSET_BITS (LFS)
+     #  and fstat().
+     #     AX_CHECK_COMPILER_FLAGS(-malign-double, CFLAGS="$CFLAGS -malign-double")
+
+     #  -fstrict-aliasing for gcc-2.95+
+     AX_CHECK_COMPILER_FLAGS(-fstrict-aliasing,
+        CFLAGS="$CFLAGS -fstrict-aliasing")
+
+     # note that we enable "unsafe" fp optimization with other compilers, too
+     # SRE: no, that's a bad idea, don't use this
+#     AX_CHECK_COMPILER_FLAGS(-ffast-math, CFLAGS="$CFLAGS -ffast-math")
+
+     AX_GCC_ARCHFLAG($acx_maxopt_portable)
+     ;;
+  esac
+
+  if test -z "$CFLAGS"; then
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: Don't know the best CFLAGS for this system  *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "* (otherwise, a default of CFLAGS=-O3 will be used)    *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS="-O3"
+  fi
+
+  AX_CHECK_COMPILER_FLAGS($CFLAGS, [], [
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: The guessed CFLAGS don't seem to work with  *"
+        echo "* your compiler.                                       *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS=""
+  ])
+
+fi
+])
+#
+# AX_CC_MAXOPT macro end.
+# ****************************************************************
+# ****************************************************************
+
+
+################################################################
+# Macro:      ESL_PIC_FLAGS
+# Usage:      ESL_PIC_FLAGS
+# Author:     Dan Nicholson, Mesa3D project 
+# References: http://www.mesa3d.org/
+#             http://www.mail-archive.com/mesa3d-dev@lists.sourceforge.net/msg04938.html
+# 
+# Derived (essentially verbatim) from MESA_PIC_FLAGS, in the Mesa
+# project's acinclude.m4 file. From the Mesa file's header:
+#   "Find out whether to build PIC code using the option --enable-pic and
+#   the configure enable_static/enable_shared settings. If PIC is needed,
+#   figure out the necessary flags for the platform and compiler.
+#
+#   The platform checks have been shamelessly taken from libtool and
+#   stripped down to just what's needed for Mesa. See _LT_COMPILER_PIC in
+#   /usr/share/aclocal/libtool.m4 or
+#   http://git.savannah.gnu.org/gitweb/?p=libtool.git;a=blob;f=libltdl/m4/libtool.m4;hb=HEAD
+#
+# Sets an output variable @PIC_FLAGS@ which should be added to
+# CFLAGS lines.
+#
+AC_DEFUN([ESL_PIC_FLAGS],
+[AC_REQUIRE([AC_PROG_CC])dnl
+AC_ARG_VAR([PIC_FLAGS], [compiler flags for PIC code])
+AC_ARG_ENABLE([pic],
+    [AS_HELP_STRING([--disable-pic],
+        [compile PIC objects @<:@default=enabled for shared builds
+        on supported platforms@:>@])],
+    [enable_pic="$enableval"
+    test "x$enable_pic" = x && enable_pic=auto],
+    [enable_pic=auto])
+# disable PIC by default for static builds
+if test "$enable_pic" = auto && test "$enable_static" = yes; then
+    enable_pic=no
+fi
+# if PIC hasn't been explicitly disabled, try to figure out the flags
+if test "$enable_pic" != no; then
+    AC_MSG_CHECKING([for $CC option to produce PIC])
+    # allow the user's flags to override
+    if test "x$PIC_FLAGS" = x; then
+        # see if we're using GCC
+        if test "x$GCC" = xyes; then
+            case "$host_os" in
+            aix*|beos*|cygwin*|irix5*|irix6*|osf3*|osf4*|osf5*)
+                # PIC is the default for these OSes.
+                ;;
+            mingw*|os2*|pw32*)
+                # This hack is so that the source file can tell whether
+                # it is being built for inclusion in a dll (and should
+                # export symbols for example).
+                PIC_FLAGS="-DDLL_EXPORT"
+                ;;
+            darwin*|rhapsody*)
+                # PIC is the default on this platform
+                # Common symbols not allowed in MH_DYLIB files
+                PIC_FLAGS="-fno-common"
+                ;;
+            hpux*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case $host_cpu in
+                hppa*64*|ia64*)
+                    ;;
+                *)
+                    PIC_FLAGS="-fPIC"
+                    ;;
+                esac
+                ;;
+            *)
+                # Everyone else on GCC uses -fPIC
+                PIC_FLAGS="-fPIC"
+                ;;
+            esac
+        else # !GCC
+            case "$host_os" in
+            hpux9*|hpux10*|hpux11*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case "$host_cpu" in
+                hppa*64*|ia64*)
+                    # +Z the default
+                    ;;
+                *)
+                    PIC_FLAGS="+Z"
+                    ;;
+                esac
+                ;;
+            linux*|k*bsd*-gnu)
+                case `basename "$CC"` in
+                icc*|ecc*|ifort*)
+                    PIC_FLAGS="-KPIC"
+                    ;;
+                pgcc*|pgf77*|pgf90*|pgf95*)
+                    # Portland Group compilers (*not* the Pentium gcc
+                    # compiler, which looks to be a dead project)
+                    PIC_FLAGS="-fpic"
+                    ;;
+                ccc*)
+                    # All Alpha code is PIC.
+                    ;;
+                xl*)
+                    # IBM XL C 8.0/Fortran 10.1 on PPC
+                    PIC_FLAGS="-qpic"
+                    ;;
+                *)
+                    case `$CC -V 2>&1 | sed 5q` in
+                    *Sun\ C*|*Sun\ F*)
+                        # Sun C 5.9 or Sun Fortran
+                        PIC_FLAGS="-KPIC"
+                        ;;
+                    esac
+                esac
+                ;;
+            solaris*)
+                PIC_FLAGS="-KPIC"
+                ;;
+            sunos4*)
+                PIC_FLAGS="-PIC"
+                ;;
+            esac
+        fi # GCC
+    fi # PIC_FLAGS
+    AC_MSG_RESULT([$PIC_FLAGS])
+fi
+AC_SUBST([PIC_FLAGS])
+])
+#
+# ESL_PIC_FLAGS macro end.
+# ****************************************************************
+# ****************************************************************
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/config.guess b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/config.guess
new file mode 100755
index 0000000..dd1688b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/config.guess
@@ -0,0 +1,1459 @@
+#! /bin/sh
+# Attempt to guess a canonical system name.
+#   Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
+#   2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+
+timestamp='2004-06-11'
+
+# This file is free software; you can redistribute it and/or modify it
+# under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 2 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful, but
+# WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
+# General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+#
+# As a special exception to the GNU General Public License, if you
+# distribute this file as part of a program that contains a
+# configuration script generated by Autoconf, you may include it under
+# the same distribution terms that you use for the rest of that program.
+
+# Originally written by Per Bothner <per@bothner.com>.
+# Please send patches to <config-patches@gnu.org>.  Submit a context
+# diff and a properly formatted ChangeLog entry.
+#
+# This script attempts to guess a canonical system name similar to
+# config.sub.  If it succeeds, it prints the system name on stdout, and
+# exits with 0.  Otherwise, it exits with 1.
+#
+# The plan is that this can be called by configure scripts if you
+# don't specify an explicit build system type.
+
+me=`echo "$0" | sed -e 's,.*/,,'`
+
+usage="\
+Usage: $0 [OPTION]
+
+Output the configuration name of the system \`$me' is run on.
+
+Operation modes:
+  -h, --help         print this help, then exit
+  -t, --time-stamp   print date of last modification, then exit
+  -v, --version      print version number, then exit
+
+Report bugs and patches to <config-patches@gnu.org>."
+
+version="\
+GNU config.guess ($timestamp)
+
+Originally written by Per Bothner.
+Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001
+Free Software Foundation, Inc.
+
+This is free software; see the source for copying conditions.  There is NO
+warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE."
+
+help="
+Try \`$me --help' for more information."
+
+# Parse command line
+while test $# -gt 0 ; do
+  case $1 in
+    --time-stamp | --time* | -t )
+       echo "$timestamp" ; exit 0 ;;
+    --version | -v )
+       echo "$version" ; exit 0 ;;
+    --help | --h* | -h )
+       echo "$usage"; exit 0 ;;
+    -- )     # Stop option processing
+       shift; break ;;
+    - )	# Use stdin as input.
+       break ;;
+    -* )
+       echo "$me: invalid option $1$help" >&2
+       exit 1 ;;
+    * )
+       break ;;
+  esac
+done
+
+if test $# != 0; then
+  echo "$me: too many arguments$help" >&2
+  exit 1
+fi
+
+trap 'exit 1' 1 2 15
+
+# CC_FOR_BUILD -- compiler used by this script. Note that the use of a
+# compiler to aid in system detection is discouraged as it requires
+# temporary files to be created and, as you can see below, it is a
+# headache to deal with in a portable fashion.
+
+# Historically, `CC_FOR_BUILD' used to be named `HOST_CC'. We still
+# use `HOST_CC' if defined, but it is deprecated.
+
+# Portable tmp directory creation inspired by the Autoconf team.
+
+set_cc_for_build='
+trap "exitcode=\$?; (rm -f \$tmpfiles 2>/dev/null; rmdir \$tmp 2>/dev/null) && exit \$exitcode" 0 ;
+trap "rm -f \$tmpfiles 2>/dev/null; rmdir \$tmp 2>/dev/null; exit 1" 1 2 13 15 ;
+: ${TMPDIR=/tmp} ;
+ { tmp=`(umask 077 && mktemp -d -q "$TMPDIR/cgXXXXXX") 2>/dev/null` && test -n "$tmp" && test -d "$tmp" ; } ||
+ { test -n "$RANDOM" && tmp=$TMPDIR/cg$$-$RANDOM && (umask 077 && mkdir $tmp) ; } ||
+ { tmp=$TMPDIR/cg-$$ && (umask 077 && mkdir $tmp) && echo "Warning: creating insecure temp directory" >&2 ; } ||
+ { echo "$me: cannot create a temporary directory in $TMPDIR" >&2 ; exit 1 ; } ;
+dummy=$tmp/dummy ;
+tmpfiles="$dummy.c $dummy.o $dummy.rel $dummy" ;
+case $CC_FOR_BUILD,$HOST_CC,$CC in
+ ,,)    echo "int x;" > $dummy.c ;
+	for c in cc gcc c89 c99 ; do
+	  if ($c -c -o $dummy.o $dummy.c) >/dev/null 2>&1 ; then
+	     CC_FOR_BUILD="$c"; break ;
+	  fi ;
+	done ;
+	if test x"$CC_FOR_BUILD" = x ; then
+	  CC_FOR_BUILD=no_compiler_found ;
+	fi
+	;;
+ ,,*)   CC_FOR_BUILD=$CC ;;
+ ,*,*)  CC_FOR_BUILD=$HOST_CC ;;
+esac ;'
+
+# This is needed to find uname on a Pyramid OSx when run in the BSD universe.
+# (ghazi@noc.rutgers.edu 1994-08-24)
+if (test -f /.attbin/uname) >/dev/null 2>&1 ; then
+	PATH=$PATH:/.attbin ; export PATH
+fi
+
+UNAME_MACHINE=`(uname -m) 2>/dev/null` || UNAME_MACHINE=unknown
+UNAME_RELEASE=`(uname -r) 2>/dev/null` || UNAME_RELEASE=unknown
+UNAME_SYSTEM=`(uname -s) 2>/dev/null`  || UNAME_SYSTEM=unknown
+UNAME_VERSION=`(uname -v) 2>/dev/null` || UNAME_VERSION=unknown
+
+# Note: order is significant - the case branches are not exclusive.
+
+case "${UNAME_MACHINE}:${UNAME_SYSTEM}:${UNAME_RELEASE}:${UNAME_VERSION}" in
+    *:NetBSD:*:*)
+	# NetBSD (nbsd) targets should (where applicable) match one or
+	# more of the tupples: *-*-netbsdelf*, *-*-netbsdaout*,
+	# *-*-netbsdecoff* and *-*-netbsd*.  For targets that recently
+	# switched to ELF, *-*-netbsd* would select the old
+	# object file format.  This provides both forward
+	# compatibility and a consistent mechanism for selecting the
+	# object file format.
+	#
+	# Note: NetBSD doesn't particularly care about the vendor
+	# portion of the name.  We always set it to "unknown".
+	sysctl="sysctl -n hw.machine_arch"
+	UNAME_MACHINE_ARCH=`(/sbin/$sysctl 2>/dev/null || \
+	    /usr/sbin/$sysctl 2>/dev/null || echo unknown)`
+	case "${UNAME_MACHINE_ARCH}" in
+	    armeb) machine=armeb-unknown ;;
+	    arm*) machine=arm-unknown ;;
+	    sh3el) machine=shl-unknown ;;
+	    sh3eb) machine=sh-unknown ;;
+	    *) machine=${UNAME_MACHINE_ARCH}-unknown ;;
+	esac
+	# The Operating System including object format, if it has switched
+	# to ELF recently, or will in the future.
+	case "${UNAME_MACHINE_ARCH}" in
+	    arm*|i386|m68k|ns32k|sh3*|sparc|vax)
+		eval $set_cc_for_build
+		if echo __ELF__ | $CC_FOR_BUILD -E - 2>/dev/null \
+			| grep __ELF__ >/dev/null
+		then
+		    # Once all utilities can be ECOFF (netbsdecoff) or a.out (netbsdaout).
+		    # Return netbsd for either.  FIX?
+		    os=netbsd
+		else
+		    os=netbsdelf
+		fi
+		;;
+	    *)
+	        os=netbsd
+		;;
+	esac
+	# The OS release
+	# Debian GNU/NetBSD machines have a different userland, and
+	# thus, need a distinct triplet. However, they do not need
+	# kernel version information, so it can be replaced with a
+	# suitable tag, in the style of linux-gnu.
+	case "${UNAME_VERSION}" in
+	    Debian*)
+		release='-gnu'
+		;;
+	    *)
+		release=`echo ${UNAME_RELEASE}|sed -e 's/[-_].*/\./'`
+		;;
+	esac
+	# Since CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM:
+	# contains redundant information, the shorter form:
+	# CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM is used.
+	echo "${machine}-${os}${release}"
+	exit 0 ;;
+    amd64:OpenBSD:*:*)
+	echo x86_64-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    amiga:OpenBSD:*:*)
+	echo m68k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    arc:OpenBSD:*:*)
+	echo mipsel-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    cats:OpenBSD:*:*)
+	echo arm-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    hp300:OpenBSD:*:*)
+	echo m68k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    luna88k:OpenBSD:*:*)
+    	echo m88k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    mac68k:OpenBSD:*:*)
+	echo m68k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    macppc:OpenBSD:*:*)
+	echo powerpc-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    mvme68k:OpenBSD:*:*)
+	echo m68k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    mvme88k:OpenBSD:*:*)
+	echo m88k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    mvmeppc:OpenBSD:*:*)
+	echo powerpc-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    pmax:OpenBSD:*:*)
+	echo mipsel-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    sgi:OpenBSD:*:*)
+	echo mipseb-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    sun3:OpenBSD:*:*)
+	echo m68k-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    wgrisc:OpenBSD:*:*)
+	echo mipsel-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    *:OpenBSD:*:*)
+	echo ${UNAME_MACHINE}-unknown-openbsd${UNAME_RELEASE}
+	exit 0 ;;
+    *:ekkoBSD:*:*)
+	echo ${UNAME_MACHINE}-unknown-ekkobsd${UNAME_RELEASE}
+	exit 0 ;;
+    macppc:MirBSD:*:*)
+	echo powerppc-unknown-mirbsd${UNAME_RELEASE}
+	exit 0 ;;
+    *:MirBSD:*:*)
+	echo ${UNAME_MACHINE}-unknown-mirbsd${UNAME_RELEASE}
+	exit 0 ;;
+    alpha:OSF1:*:*)
+	case $UNAME_RELEASE in
+	*4.0)
+		UNAME_RELEASE=`/usr/sbin/sizer -v | awk '{print $3}'`
+		;;
+	*5.*)
+	        UNAME_RELEASE=`/usr/sbin/sizer -v | awk '{print $4}'`
+		;;
+	esac
+	# According to Compaq, /usr/sbin/psrinfo has been available on
+	# OSF/1 and Tru64 systems produced since 1995.  I hope that
+	# covers most systems running today.  This code pipes the CPU
+	# types through head -n 1, so we only detect the type of CPU 0.
+	ALPHA_CPU_TYPE=`/usr/sbin/psrinfo -v | sed -n -e 's/^  The alpha \(.*\) processor.*$/\1/p' | head -n 1`
+	case "$ALPHA_CPU_TYPE" in
+	    "EV4 (21064)")
+		UNAME_MACHINE="alpha" ;;
+	    "EV4.5 (21064)")
+		UNAME_MACHINE="alpha" ;;
+	    "LCA4 (21066/21068)")
+		UNAME_MACHINE="alpha" ;;
+	    "EV5 (21164)")
+		UNAME_MACHINE="alphaev5" ;;
+	    "EV5.6 (21164A)")
+		UNAME_MACHINE="alphaev56" ;;
+	    "EV5.6 (21164PC)")
+		UNAME_MACHINE="alphapca56" ;;
+	    "EV5.7 (21164PC)")
+		UNAME_MACHINE="alphapca57" ;;
+	    "EV6 (21264)")
+		UNAME_MACHINE="alphaev6" ;;
+	    "EV6.7 (21264A)")
+		UNAME_MACHINE="alphaev67" ;;
+	    "EV6.8CB (21264C)")
+		UNAME_MACHINE="alphaev68" ;;
+	    "EV6.8AL (21264B)")
+		UNAME_MACHINE="alphaev68" ;;
+	    "EV6.8CX (21264D)")
+		UNAME_MACHINE="alphaev68" ;;
+	    "EV6.9A (21264/EV69A)")
+		UNAME_MACHINE="alphaev69" ;;
+	    "EV7 (21364)")
+		UNAME_MACHINE="alphaev7" ;;
+	    "EV7.9 (21364A)")
+		UNAME_MACHINE="alphaev79" ;;
+	esac
+	# A Pn.n version is a patched version.
+	# A Vn.n version is a released version.
+	# A Tn.n version is a released field test version.
+	# A Xn.n version is an unreleased experimental baselevel.
+	# 1.2 uses "1.2" for uname -r.
+	echo ${UNAME_MACHINE}-dec-osf`echo ${UNAME_RELEASE} | sed -e 's/^[PVTX]//' | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'`
+	exit 0 ;;
+    Alpha*:OpenVMS:*:*)
+	echo alpha-hp-vms
+	exit 0 ;;
+    Alpha\ *:Windows_NT*:*)
+	# How do we know it's Interix rather than the generic POSIX subsystem?
+	# Should we change UNAME_MACHINE based on the output of uname instead
+	# of the specific Alpha model?
+	echo alpha-pc-interix
+	exit 0 ;;
+    21064:Windows_NT:50:3)
+	echo alpha-dec-winnt3.5
+	exit 0 ;;
+    Amiga*:UNIX_System_V:4.0:*)
+	echo m68k-unknown-sysv4
+	exit 0;;
+    *:[Aa]miga[Oo][Ss]:*:*)
+	echo ${UNAME_MACHINE}-unknown-amigaos
+	exit 0 ;;
+    *:[Mm]orph[Oo][Ss]:*:*)
+	echo ${UNAME_MACHINE}-unknown-morphos
+	exit 0 ;;
+    *:OS/390:*:*)
+	echo i370-ibm-openedition
+	exit 0 ;;
+    *:OS400:*:*)
+        echo powerpc-ibm-os400
+	exit 0 ;;
+    arm:RISC*:1.[012]*:*|arm:riscix:1.[012]*:*)
+	echo arm-acorn-riscix${UNAME_RELEASE}
+	exit 0;;
+    SR2?01:HI-UX/MPP:*:* | SR8000:HI-UX/MPP:*:*)
+	echo hppa1.1-hitachi-hiuxmpp
+	exit 0;;
+    Pyramid*:OSx*:*:* | MIS*:OSx*:*:* | MIS*:SMP_DC-OSx*:*:*)
+	# akee@wpdis03.wpafb.af.mil (Earle F. Ake) contributed MIS and NILE.
+	if test "`(/bin/universe) 2>/dev/null`" = att ; then
+		echo pyramid-pyramid-sysv3
+	else
+		echo pyramid-pyramid-bsd
+	fi
+	exit 0 ;;
+    NILE*:*:*:dcosx)
+	echo pyramid-pyramid-svr4
+	exit 0 ;;
+    DRS?6000:unix:4.0:6*)
+	echo sparc-icl-nx6
+	exit 0 ;;
+    DRS?6000:UNIX_SV:4.2*:7*)
+	case `/usr/bin/uname -p` in
+	    sparc) echo sparc-icl-nx7 && exit 0 ;;
+	esac ;;
+    sun4H:SunOS:5.*:*)
+	echo sparc-hal-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit 0 ;;
+    sun4*:SunOS:5.*:* | tadpole*:SunOS:5.*:*)
+	echo sparc-sun-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit 0 ;;
+    i86pc:SunOS:5.*:*)
+	echo i386-pc-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit 0 ;;
+    sun4*:SunOS:6*:*)
+	# According to config.sub, this is the proper way to canonicalize
+	# SunOS6.  Hard to guess exactly what SunOS6 will be like, but
+	# it's likely to be more like Solaris than SunOS4.
+	echo sparc-sun-solaris3`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit 0 ;;
+    sun4*:SunOS:*:*)
+	case "`/usr/bin/arch -k`" in
+	    Series*|S4*)
+		UNAME_RELEASE=`uname -v`
+		;;
+	esac
+	# Japanese Language versions have a version number like `4.1.3-JL'.
+	echo sparc-sun-sunos`echo ${UNAME_RELEASE}|sed -e 's/-/_/'`
+	exit 0 ;;
+    sun3*:SunOS:*:*)
+	echo m68k-sun-sunos${UNAME_RELEASE}
+	exit 0 ;;
+    sun*:*:4.2BSD:*)
+	UNAME_RELEASE=`(sed 1q /etc/motd | awk '{print substr($5,1,3)}') 2>/dev/null`
+	test "x${UNAME_RELEASE}" = "x" && UNAME_RELEASE=3
+	case "`/bin/arch`" in
+	    sun3)
+		echo m68k-sun-sunos${UNAME_RELEASE}
+		;;
+	    sun4)
+		echo sparc-sun-sunos${UNAME_RELEASE}
+		;;
+	esac
+	exit 0 ;;
+    aushp:SunOS:*:*)
+	echo sparc-auspex-sunos${UNAME_RELEASE}
+	exit 0 ;;
+    # The situation for MiNT is a little confusing.  The machine name
+    # can be virtually everything (everything which is not
+    # "atarist" or "atariste" at least should have a processor
+    # > m68000).  The system name ranges from "MiNT" over "FreeMiNT"
+    # to the lowercase version "mint" (or "freemint").  Finally
+    # the system name "TOS" denotes a system which is actually not
+    # MiNT.  But MiNT is downward compatible to TOS, so this should
+    # be no problem.
+    atarist[e]:*MiNT:*:* | atarist[e]:*mint:*:* | atarist[e]:*TOS:*:*)
+        echo m68k-atari-mint${UNAME_RELEASE}
+	exit 0 ;;
+    atari*:*MiNT:*:* | atari*:*mint:*:* | atarist[e]:*TOS:*:*)
+	echo m68k-atari-mint${UNAME_RELEASE}
+        exit 0 ;;
+    *falcon*:*MiNT:*:* | *falcon*:*mint:*:* | *falcon*:*TOS:*:*)
+        echo m68k-atari-mint${UNAME_RELEASE}
+	exit 0 ;;
+    milan*:*MiNT:*:* | milan*:*mint:*:* | *milan*:*TOS:*:*)
+        echo m68k-milan-mint${UNAME_RELEASE}
+        exit 0 ;;
+    hades*:*MiNT:*:* | hades*:*mint:*:* | *hades*:*TOS:*:*)
+        echo m68k-hades-mint${UNAME_RELEASE}
+        exit 0 ;;
+    *:*MiNT:*:* | *:*mint:*:* | *:*TOS:*:*)
+        echo m68k-unknown-mint${UNAME_RELEASE}
+        exit 0 ;;
+    m68k:machten:*:*)
+	echo m68k-apple-machten${UNAME_RELEASE}
+	exit 0 ;;
+    powerpc:machten:*:*)
+	echo powerpc-apple-machten${UNAME_RELEASE}
+	exit 0 ;;
+    RISC*:Mach:*:*)
+	echo mips-dec-mach_bsd4.3
+	exit 0 ;;
+    RISC*:ULTRIX:*:*)
+	echo mips-dec-ultrix${UNAME_RELEASE}
+	exit 0 ;;
+    VAX*:ULTRIX*:*:*)
+	echo vax-dec-ultrix${UNAME_RELEASE}
+	exit 0 ;;
+    2020:CLIX:*:* | 2430:CLIX:*:*)
+	echo clipper-intergraph-clix${UNAME_RELEASE}
+	exit 0 ;;
+    mips:*:*:UMIPS | mips:*:*:RISCos)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+#ifdef __cplusplus
+#include <stdio.h>  /* for printf() prototype */
+	int main (int argc, char *argv[]) {
+#else
+	int main (argc, argv) int argc; char *argv[]; {
+#endif
+	#if defined (host_mips) && defined (MIPSEB)
+	#if defined (SYSTYPE_SYSV)
+	  printf ("mips-mips-riscos%ssysv\n", argv[1]); exit (0);
+	#endif
+	#if defined (SYSTYPE_SVR4)
+	  printf ("mips-mips-riscos%ssvr4\n", argv[1]); exit (0);
+	#endif
+	#if defined (SYSTYPE_BSD43) || defined(SYSTYPE_BSD)
+	  printf ("mips-mips-riscos%sbsd\n", argv[1]); exit (0);
+	#endif
+	#endif
+	  exit (-1);
+	}
+EOF
+	$CC_FOR_BUILD -o $dummy $dummy.c \
+	  && $dummy `echo "${UNAME_RELEASE}" | sed -n 's/\([0-9]*\).*/\1/p'` \
+	  && exit 0
+	echo mips-mips-riscos${UNAME_RELEASE}
+	exit 0 ;;
+    Motorola:PowerMAX_OS:*:*)
+	echo powerpc-motorola-powermax
+	exit 0 ;;
+    Motorola:*:4.3:PL8-*)
+	echo powerpc-harris-powermax
+	exit 0 ;;
+    Night_Hawk:*:*:PowerMAX_OS | Synergy:PowerMAX_OS:*:*)
+	echo powerpc-harris-powermax
+	exit 0 ;;
+    Night_Hawk:Power_UNIX:*:*)
+	echo powerpc-harris-powerunix
+	exit 0 ;;
+    m88k:CX/UX:7*:*)
+	echo m88k-harris-cxux7
+	exit 0 ;;
+    m88k:*:4*:R4*)
+	echo m88k-motorola-sysv4
+	exit 0 ;;
+    m88k:*:3*:R3*)
+	echo m88k-motorola-sysv3
+	exit 0 ;;
+    AViiON:dgux:*:*)
+        # DG/UX returns AViiON for all architectures
+        UNAME_PROCESSOR=`/usr/bin/uname -p`
+	if [ $UNAME_PROCESSOR = mc88100 ] || [ $UNAME_PROCESSOR = mc88110 ]
+	then
+	    if [ ${TARGET_BINARY_INTERFACE}x = m88kdguxelfx ] || \
+	       [ ${TARGET_BINARY_INTERFACE}x = x ]
+	    then
+		echo m88k-dg-dgux${UNAME_RELEASE}
+	    else
+		echo m88k-dg-dguxbcs${UNAME_RELEASE}
+	    fi
+	else
+	    echo i586-dg-dgux${UNAME_RELEASE}
+	fi
+ 	exit 0 ;;
+    M88*:DolphinOS:*:*)	# DolphinOS (SVR3)
+	echo m88k-dolphin-sysv3
+	exit 0 ;;
+    M88*:*:R3*:*)
+	# Delta 88k system running SVR3
+	echo m88k-motorola-sysv3
+	exit 0 ;;
+    XD88*:*:*:*) # Tektronix XD88 system running UTekV (SVR3)
+	echo m88k-tektronix-sysv3
+	exit 0 ;;
+    Tek43[0-9][0-9]:UTek:*:*) # Tektronix 4300 system running UTek (BSD)
+	echo m68k-tektronix-bsd
+	exit 0 ;;
+    *:IRIX*:*:*)
+	echo mips-sgi-irix`echo ${UNAME_RELEASE}|sed -e 's/-/_/g'`
+	exit 0 ;;
+    ????????:AIX?:[12].1:2)   # AIX 2.2.1 or AIX 2.1.1 is RT/PC AIX.
+	echo romp-ibm-aix      # uname -m gives an 8 hex-code CPU id
+	exit 0 ;;              # Note that: echo "'`uname -s`'" gives 'AIX '
+    i*86:AIX:*:*)
+	echo i386-ibm-aix
+	exit 0 ;;
+    ia64:AIX:*:*)
+	if [ -x /usr/bin/oslevel ] ; then
+		IBM_REV=`/usr/bin/oslevel`
+	else
+		IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE}
+	fi
+	echo ${UNAME_MACHINE}-ibm-aix${IBM_REV}
+	exit 0 ;;
+    *:AIX:2:3)
+	if grep bos325 /usr/include/stdio.h >/dev/null 2>&1; then
+		eval $set_cc_for_build
+		sed 's/^		//' << EOF >$dummy.c
+		#include <sys/systemcfg.h>
+
+		main()
+			{
+			if (!__power_pc())
+				exit(1);
+			puts("powerpc-ibm-aix3.2.5");
+			exit(0);
+			}
+EOF
+		$CC_FOR_BUILD -o $dummy $dummy.c && $dummy && exit 0
+		echo rs6000-ibm-aix3.2.5
+	elif grep bos324 /usr/include/stdio.h >/dev/null 2>&1; then
+		echo rs6000-ibm-aix3.2.4
+	else
+		echo rs6000-ibm-aix3.2
+	fi
+	exit 0 ;;
+    *:AIX:*:[45])
+	IBM_CPU_ID=`/usr/sbin/lsdev -C -c processor -S available | sed 1q | awk '{ print $1 }'`
+	if /usr/sbin/lsattr -El ${IBM_CPU_ID} | grep ' POWER' >/dev/null 2>&1; then
+		IBM_ARCH=rs6000
+	else
+		IBM_ARCH=powerpc
+	fi
+	if [ -x /usr/bin/oslevel ] ; then
+		IBM_REV=`/usr/bin/oslevel`
+	else
+		IBM_REV=${UNAME_VERSION}.${UNAME_RELEASE}
+	fi
+	echo ${IBM_ARCH}-ibm-aix${IBM_REV}
+	exit 0 ;;
+    *:AIX:*:*)
+	echo rs6000-ibm-aix
+	exit 0 ;;
+    ibmrt:4.4BSD:*|romp-ibm:BSD:*)
+	echo romp-ibm-bsd4.4
+	exit 0 ;;
+    ibmrt:*BSD:*|romp-ibm:BSD:*)            # covers RT/PC BSD and
+	echo romp-ibm-bsd${UNAME_RELEASE}   # 4.3 with uname added to
+	exit 0 ;;                           # report: romp-ibm BSD 4.3
+    *:BOSX:*:*)
+	echo rs6000-bull-bosx
+	exit 0 ;;
+    DPX/2?00:B.O.S.:*:*)
+	echo m68k-bull-sysv3
+	exit 0 ;;
+    9000/[34]??:4.3bsd:1.*:*)
+	echo m68k-hp-bsd
+	exit 0 ;;
+    hp300:4.4BSD:*:* | 9000/[34]??:4.3bsd:2.*:*)
+	echo m68k-hp-bsd4.4
+	exit 0 ;;
+    9000/[34678]??:HP-UX:*:*)
+	HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'`
+	case "${UNAME_MACHINE}" in
+	    9000/31? )            HP_ARCH=m68000 ;;
+	    9000/[34]?? )         HP_ARCH=m68k ;;
+	    9000/[678][0-9][0-9])
+		if [ -x /usr/bin/getconf ]; then
+		    sc_cpu_version=`/usr/bin/getconf SC_CPU_VERSION 2>/dev/null`
+                    sc_kernel_bits=`/usr/bin/getconf SC_KERNEL_BITS 2>/dev/null`
+                    case "${sc_cpu_version}" in
+                      523) HP_ARCH="hppa1.0" ;; # CPU_PA_RISC1_0
+                      528) HP_ARCH="hppa1.1" ;; # CPU_PA_RISC1_1
+                      532)                      # CPU_PA_RISC2_0
+                        case "${sc_kernel_bits}" in
+                          32) HP_ARCH="hppa2.0n" ;;
+                          64) HP_ARCH="hppa2.0w" ;;
+			  '') HP_ARCH="hppa2.0" ;;   # HP-UX 10.20
+                        esac ;;
+                    esac
+		fi
+		if [ "${HP_ARCH}" = "" ]; then
+		    eval $set_cc_for_build
+		    sed 's/^              //' << EOF >$dummy.c
+
+              #define _HPUX_SOURCE
+              #include <stdlib.h>
+              #include <unistd.h>
+
+              int main ()
+              {
+              #if defined(_SC_KERNEL_BITS)
+                  long bits = sysconf(_SC_KERNEL_BITS);
+              #endif
+                  long cpu  = sysconf (_SC_CPU_VERSION);
+
+                  switch (cpu)
+              	{
+              	case CPU_PA_RISC1_0: puts ("hppa1.0"); break;
+              	case CPU_PA_RISC1_1: puts ("hppa1.1"); break;
+              	case CPU_PA_RISC2_0:
+              #if defined(_SC_KERNEL_BITS)
+              	    switch (bits)
+              		{
+              		case 64: puts ("hppa2.0w"); break;
+              		case 32: puts ("hppa2.0n"); break;
+              		default: puts ("hppa2.0"); break;
+              		} break;
+              #else  /* !defined(_SC_KERNEL_BITS) */
+              	    puts ("hppa2.0"); break;
+              #endif
+              	default: puts ("hppa1.0"); break;
+              	}
+                  exit (0);
+              }
+EOF
+		    (CCOPTS= $CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null) && HP_ARCH=`$dummy`
+		    test -z "$HP_ARCH" && HP_ARCH=hppa
+		fi ;;
+	esac
+	if [ ${HP_ARCH} = "hppa2.0w" ]
+	then
+	    # avoid double evaluation of $set_cc_for_build
+	    test -n "$CC_FOR_BUILD" || eval $set_cc_for_build
+	    if echo __LP64__ | (CCOPTS= $CC_FOR_BUILD -E -) | grep __LP64__ >/dev/null
+	    then
+		HP_ARCH="hppa2.0w"
+	    else
+		HP_ARCH="hppa64"
+	    fi
+	fi
+	echo ${HP_ARCH}-hp-hpux${HPUX_REV}
+	exit 0 ;;
+    ia64:HP-UX:*:*)
+	HPUX_REV=`echo ${UNAME_RELEASE}|sed -e 's/[^.]*.[0B]*//'`
+	echo ia64-hp-hpux${HPUX_REV}
+	exit 0 ;;
+    3050*:HI-UX:*:*)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#include <unistd.h>
+	int
+	main ()
+	{
+	  long cpu = sysconf (_SC_CPU_VERSION);
+	  /* The order matters, because CPU_IS_HP_MC68K erroneously returns
+	     true for CPU_PA_RISC1_0.  CPU_IS_PA_RISC returns correct
+	     results, however.  */
+	  if (CPU_IS_PA_RISC (cpu))
+	    {
+	      switch (cpu)
+		{
+		  case CPU_PA_RISC1_0: puts ("hppa1.0-hitachi-hiuxwe2"); break;
+		  case CPU_PA_RISC1_1: puts ("hppa1.1-hitachi-hiuxwe2"); break;
+		  case CPU_PA_RISC2_0: puts ("hppa2.0-hitachi-hiuxwe2"); break;
+		  default: puts ("hppa-hitachi-hiuxwe2"); break;
+		}
+	    }
+	  else if (CPU_IS_HP_MC68K (cpu))
+	    puts ("m68k-hitachi-hiuxwe2");
+	  else puts ("unknown-hitachi-hiuxwe2");
+	  exit (0);
+	}
+EOF
+	$CC_FOR_BUILD -o $dummy $dummy.c && $dummy && exit 0
+	echo unknown-hitachi-hiuxwe2
+	exit 0 ;;
+    9000/7??:4.3bsd:*:* | 9000/8?[79]:4.3bsd:*:* )
+	echo hppa1.1-hp-bsd
+	exit 0 ;;
+    9000/8??:4.3bsd:*:*)
+	echo hppa1.0-hp-bsd
+	exit 0 ;;
+    *9??*:MPE/iX:*:* | *3000*:MPE/iX:*:*)
+	echo hppa1.0-hp-mpeix
+	exit 0 ;;
+    hp7??:OSF1:*:* | hp8?[79]:OSF1:*:* )
+	echo hppa1.1-hp-osf
+	exit 0 ;;
+    hp8??:OSF1:*:*)
+	echo hppa1.0-hp-osf
+	exit 0 ;;
+    i*86:OSF1:*:*)
+	if [ -x /usr/sbin/sysversion ] ; then
+	    echo ${UNAME_MACHINE}-unknown-osf1mk
+	else
+	    echo ${UNAME_MACHINE}-unknown-osf1
+	fi
+	exit 0 ;;
+    parisc*:Lites*:*:*)
+	echo hppa1.1-hp-lites
+	exit 0 ;;
+    C1*:ConvexOS:*:* | convex:ConvexOS:C1*:*)
+	echo c1-convex-bsd
+        exit 0 ;;
+    C2*:ConvexOS:*:* | convex:ConvexOS:C2*:*)
+	if getsysinfo -f scalar_acc
+	then echo c32-convex-bsd
+	else echo c2-convex-bsd
+	fi
+        exit 0 ;;
+    C34*:ConvexOS:*:* | convex:ConvexOS:C34*:*)
+	echo c34-convex-bsd
+        exit 0 ;;
+    C38*:ConvexOS:*:* | convex:ConvexOS:C38*:*)
+	echo c38-convex-bsd
+        exit 0 ;;
+    C4*:ConvexOS:*:* | convex:ConvexOS:C4*:*)
+	echo c4-convex-bsd
+        exit 0 ;;
+    CRAY*Y-MP:*:*:*)
+	echo ymp-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit 0 ;;
+    CRAY*[A-Z]90:*:*:*)
+	echo ${UNAME_MACHINE}-cray-unicos${UNAME_RELEASE} \
+	| sed -e 's/CRAY.*\([A-Z]90\)/\1/' \
+	      -e y/ABCDEFGHIJKLMNOPQRSTUVWXYZ/abcdefghijklmnopqrstuvwxyz/ \
+	      -e 's/\.[^.]*$/.X/'
+	exit 0 ;;
+    CRAY*TS:*:*:*)
+	echo t90-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit 0 ;;
+    CRAY*T3E:*:*:*)
+	echo alphaev5-cray-unicosmk${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit 0 ;;
+    CRAY*SV1:*:*:*)
+	echo sv1-cray-unicos${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit 0 ;;
+    *:UNICOS/mp:*:*)
+	echo nv1-cray-unicosmp${UNAME_RELEASE} | sed -e 's/\.[^.]*$/.X/'
+	exit 0 ;;
+    F30[01]:UNIX_System_V:*:* | F700:UNIX_System_V:*:*)
+	FUJITSU_PROC=`uname -m | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz'`
+        FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'`
+        FUJITSU_REL=`echo ${UNAME_RELEASE} | sed -e 's/ /_/'`
+        echo "${FUJITSU_PROC}-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}"
+        exit 0 ;;
+    5000:UNIX_System_V:4.*:*)
+        FUJITSU_SYS=`uname -p | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/\///'`
+        FUJITSU_REL=`echo ${UNAME_RELEASE} | tr 'ABCDEFGHIJKLMNOPQRSTUVWXYZ' 'abcdefghijklmnopqrstuvwxyz' | sed -e 's/ /_/'`
+        echo "sparc-fujitsu-${FUJITSU_SYS}${FUJITSU_REL}"
+	exit 0 ;;
+    i*86:BSD/386:*:* | i*86:BSD/OS:*:* | *:Ascend\ Embedded/OS:*:*)
+	echo ${UNAME_MACHINE}-pc-bsdi${UNAME_RELEASE}
+	exit 0 ;;
+    sparc*:BSD/OS:*:*)
+	echo sparc-unknown-bsdi${UNAME_RELEASE}
+	exit 0 ;;
+    *:BSD/OS:*:*)
+	echo ${UNAME_MACHINE}-unknown-bsdi${UNAME_RELEASE}
+	exit 0 ;;
+    *:FreeBSD:*:*)
+	# Determine whether the default compiler uses glibc.
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#include <features.h>
+	#if __GLIBC__ >= 2
+	LIBC=gnu
+	#else
+	LIBC=
+	#endif
+EOF
+	eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep ^LIBC=`
+	# GNU/KFreeBSD systems have a "k" prefix to indicate we are using
+	# FreeBSD's kernel, but not the complete OS.
+	case ${LIBC} in gnu) kernel_only='k' ;; esac
+	echo ${UNAME_MACHINE}-unknown-${kernel_only}freebsd`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`${LIBC:+-$LIBC}
+	exit 0 ;;
+    i*:CYGWIN*:*)
+	echo ${UNAME_MACHINE}-pc-cygwin
+	exit 0 ;;
+    i*:MINGW*:*)
+	echo ${UNAME_MACHINE}-pc-mingw32
+	exit 0 ;;
+    i*:PW*:*)
+	echo ${UNAME_MACHINE}-pc-pw32
+	exit 0 ;;
+    x86:Interix*:[34]*)
+	echo i586-pc-interix${UNAME_RELEASE}|sed -e 's/\..*//'
+	exit 0 ;;
+    [345]86:Windows_95:* | [345]86:Windows_98:* | [345]86:Windows_NT:*)
+	echo i${UNAME_MACHINE}-pc-mks
+	exit 0 ;;
+    i*:Windows_NT*:* | Pentium*:Windows_NT*:*)
+	# How do we know it's Interix rather than the generic POSIX subsystem?
+	# It also conflicts with pre-2.0 versions of AT&T UWIN. Should we
+	# UNAME_MACHINE based on the output of uname instead of i386?
+	echo i586-pc-interix
+	exit 0 ;;
+    i*:UWIN*:*)
+	echo ${UNAME_MACHINE}-pc-uwin
+	exit 0 ;;
+    p*:CYGWIN*:*)
+	echo powerpcle-unknown-cygwin
+	exit 0 ;;
+    prep*:SunOS:5.*:*)
+	echo powerpcle-unknown-solaris2`echo ${UNAME_RELEASE}|sed -e 's/[^.]*//'`
+	exit 0 ;;
+    *:GNU:*:*)
+	# the GNU system
+	echo `echo ${UNAME_MACHINE}|sed -e 's,[-/].*$,,'`-unknown-gnu`echo ${UNAME_RELEASE}|sed -e 's,/.*$,,'`
+	exit 0 ;;
+    *:GNU/*:*:*)
+	# other systems with GNU libc and userland
+	echo ${UNAME_MACHINE}-unknown-`echo ${UNAME_SYSTEM} | sed 's,^[^/]*/,,' | tr '[A-Z]' '[a-z]'``echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`-gnu
+	exit 0 ;;
+    i*86:Minix:*:*)
+	echo ${UNAME_MACHINE}-pc-minix
+	exit 0 ;;
+    arm*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    cris:Linux:*:*)
+	echo cris-axis-linux-gnu
+	exit 0 ;;
+    ia64:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    m32r*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    m68*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    mips:Linux:*:*)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#undef CPU
+	#undef mips
+	#undef mipsel
+	#if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL)
+	CPU=mipsel
+	#else
+	#if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB)
+	CPU=mips
+	#else
+	CPU=
+	#endif
+	#endif
+EOF
+	eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep ^CPU=`
+	test x"${CPU}" != x && echo "${CPU}-unknown-linux-gnu" && exit 0
+	;;
+    mips64:Linux:*:*)
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#undef CPU
+	#undef mips64
+	#undef mips64el
+	#if defined(__MIPSEL__) || defined(__MIPSEL) || defined(_MIPSEL) || defined(MIPSEL)
+	CPU=mips64el
+	#else
+	#if defined(__MIPSEB__) || defined(__MIPSEB) || defined(_MIPSEB) || defined(MIPSEB)
+	CPU=mips64
+	#else
+	CPU=
+	#endif
+	#endif
+EOF
+	eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep ^CPU=`
+	test x"${CPU}" != x && echo "${CPU}-unknown-linux-gnu" && exit 0
+	;;
+    ppc:Linux:*:*)
+	echo powerpc-unknown-linux-gnu
+	exit 0 ;;
+    ppc64:Linux:*:*)
+	echo powerpc64-unknown-linux-gnu
+	exit 0 ;;
+    alpha:Linux:*:*)
+	case `sed -n '/^cpu model/s/^.*: \(.*\)/\1/p' < /proc/cpuinfo` in
+	  EV5)   UNAME_MACHINE=alphaev5 ;;
+	  EV56)  UNAME_MACHINE=alphaev56 ;;
+	  PCA56) UNAME_MACHINE=alphapca56 ;;
+	  PCA57) UNAME_MACHINE=alphapca56 ;;
+	  EV6)   UNAME_MACHINE=alphaev6 ;;
+	  EV67)  UNAME_MACHINE=alphaev67 ;;
+	  EV68*) UNAME_MACHINE=alphaev68 ;;
+        esac
+	objdump --private-headers /bin/sh | grep ld.so.1 >/dev/null
+	if test "$?" = 0 ; then LIBC="libc1" ; else LIBC="" ; fi
+	echo ${UNAME_MACHINE}-unknown-linux-gnu${LIBC}
+	exit 0 ;;
+    parisc:Linux:*:* | hppa:Linux:*:*)
+	# Look for CPU level
+	case `grep '^cpu[^a-z]*:' /proc/cpuinfo 2>/dev/null | cut -d' ' -f2` in
+	  PA7*) echo hppa1.1-unknown-linux-gnu ;;
+	  PA8*) echo hppa2.0-unknown-linux-gnu ;;
+	  *)    echo hppa-unknown-linux-gnu ;;
+	esac
+	exit 0 ;;
+    parisc64:Linux:*:* | hppa64:Linux:*:*)
+	echo hppa64-unknown-linux-gnu
+	exit 0 ;;
+    s390:Linux:*:* | s390x:Linux:*:*)
+	echo ${UNAME_MACHINE}-ibm-linux
+	exit 0 ;;
+    sh64*:Linux:*:*)
+    	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    sh*:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    sparc:Linux:*:* | sparc64:Linux:*:*)
+	echo ${UNAME_MACHINE}-unknown-linux-gnu
+	exit 0 ;;
+    x86_64:Linux:*:*)
+	echo x86_64-unknown-linux-gnu
+	exit 0 ;;
+    i*86:Linux:*:*)
+	# The BFD linker knows what the default object file format is, so
+	# first see if it will tell us. cd to the root directory to prevent
+	# problems with other programs or directories called `ld' in the path.
+	# Set LC_ALL=C to ensure ld outputs messages in English.
+	ld_supported_targets=`cd /; LC_ALL=C ld --help 2>&1 \
+			 | sed -ne '/supported targets:/!d
+				    s/[ 	][ 	]*/ /g
+				    s/.*supported targets: *//
+				    s/ .*//
+				    p'`
+        case "$ld_supported_targets" in
+	  elf32-i386)
+		TENTATIVE="${UNAME_MACHINE}-pc-linux-gnu"
+		;;
+	  a.out-i386-linux)
+		echo "${UNAME_MACHINE}-pc-linux-gnuaout"
+		exit 0 ;;
+	  coff-i386)
+		echo "${UNAME_MACHINE}-pc-linux-gnucoff"
+		exit 0 ;;
+	  "")
+		# Either a pre-BFD a.out linker (linux-gnuoldld) or
+		# one that does not give us useful --help.
+		echo "${UNAME_MACHINE}-pc-linux-gnuoldld"
+		exit 0 ;;
+	esac
+	# Determine whether the default compiler is a.out or elf
+	eval $set_cc_for_build
+	sed 's/^	//' << EOF >$dummy.c
+	#include <features.h>
+	#ifdef __ELF__
+	# ifdef __GLIBC__
+	#  if __GLIBC__ >= 2
+	LIBC=gnu
+	#  else
+	LIBC=gnulibc1
+	#  endif
+	# else
+	LIBC=gnulibc1
+	# endif
+	#else
+	#ifdef __INTEL_COMPILER
+	LIBC=gnu
+	#else
+	LIBC=gnuaout
+	#endif
+	#endif
+	#ifdef __dietlibc__
+	LIBC=dietlibc
+	#endif
+EOF
+	eval `$CC_FOR_BUILD -E $dummy.c 2>/dev/null | grep ^LIBC=`
+	test x"${LIBC}" != x && echo "${UNAME_MACHINE}-pc-linux-${LIBC}" && exit 0
+	test x"${TENTATIVE}" != x && echo "${TENTATIVE}" && exit 0
+	;;
+    i*86:DYNIX/ptx:4*:*)
+	# ptx 4.0 does uname -s correctly, with DYNIX/ptx in there.
+	# earlier versions are messed up and put the nodename in both
+	# sysname and nodename.
+	echo i386-sequent-sysv4
+	exit 0 ;;
+    i*86:UNIX_SV:4.2MP:2.*)
+        # Unixware is an offshoot of SVR4, but it has its own version
+        # number series starting with 2...
+        # I am not positive that other SVR4 systems won't match this,
+	# I just have to hope.  -- rms.
+        # Use sysv4.2uw... so that sysv4* matches it.
+	echo ${UNAME_MACHINE}-pc-sysv4.2uw${UNAME_VERSION}
+	exit 0 ;;
+    i*86:OS/2:*:*)
+	# If we were able to find `uname', then EMX Unix compatibility
+	# is probably installed.
+	echo ${UNAME_MACHINE}-pc-os2-emx
+	exit 0 ;;
+    i*86:XTS-300:*:STOP)
+	echo ${UNAME_MACHINE}-unknown-stop
+	exit 0 ;;
+    i*86:atheos:*:*)
+	echo ${UNAME_MACHINE}-unknown-atheos
+	exit 0 ;;
+	i*86:syllable:*:*)
+	echo ${UNAME_MACHINE}-pc-syllable
+	exit 0 ;;
+    i*86:LynxOS:2.*:* | i*86:LynxOS:3.[01]*:* | i*86:LynxOS:4.0*:*)
+	echo i386-unknown-lynxos${UNAME_RELEASE}
+	exit 0 ;;
+    i*86:*DOS:*:*)
+	echo ${UNAME_MACHINE}-pc-msdosdjgpp
+	exit 0 ;;
+    i*86:*:4.*:* | i*86:SYSTEM_V:4.*:*)
+	UNAME_REL=`echo ${UNAME_RELEASE} | sed 's/\/MP$//'`
+	if grep Novell /usr/include/link.h >/dev/null 2>/dev/null; then
+		echo ${UNAME_MACHINE}-univel-sysv${UNAME_REL}
+	else
+		echo ${UNAME_MACHINE}-pc-sysv${UNAME_REL}
+	fi
+	exit 0 ;;
+    i*86:*:5:[78]*)
+	case `/bin/uname -X | grep "^Machine"` in
+	    *486*)	     UNAME_MACHINE=i486 ;;
+	    *Pentium)	     UNAME_MACHINE=i586 ;;
+	    *Pent*|*Celeron) UNAME_MACHINE=i686 ;;
+	esac
+	echo ${UNAME_MACHINE}-unknown-sysv${UNAME_RELEASE}${UNAME_SYSTEM}${UNAME_VERSION}
+	exit 0 ;;
+    i*86:*:3.2:*)
+	if test -f /usr/options/cb.name; then
+		UNAME_REL=`sed -n 's/.*Version //p' </usr/options/cb.name`
+		echo ${UNAME_MACHINE}-pc-isc$UNAME_REL
+	elif /bin/uname -X 2>/dev/null >/dev/null ; then
+		UNAME_REL=`(/bin/uname -X|grep Release|sed -e 's/.*= //')`
+		(/bin/uname -X|grep i80486 >/dev/null) && UNAME_MACHINE=i486
+		(/bin/uname -X|grep '^Machine.*Pentium' >/dev/null) \
+			&& UNAME_MACHINE=i586
+		(/bin/uname -X|grep '^Machine.*Pent *II' >/dev/null) \
+			&& UNAME_MACHINE=i686
+		(/bin/uname -X|grep '^Machine.*Pentium Pro' >/dev/null) \
+			&& UNAME_MACHINE=i686
+		echo ${UNAME_MACHINE}-pc-sco$UNAME_REL
+	else
+		echo ${UNAME_MACHINE}-pc-sysv32
+	fi
+	exit 0 ;;
+    pc:*:*:*)
+	# Left here for compatibility:
+        # uname -m prints for DJGPP always 'pc', but it prints nothing about
+        # the processor, so we play safe by assuming i386.
+	echo i386-pc-msdosdjgpp
+        exit 0 ;;
+    Intel:Mach:3*:*)
+	echo i386-pc-mach3
+	exit 0 ;;
+    paragon:*:*:*)
+	echo i860-intel-osf1
+	exit 0 ;;
+    i860:*:4.*:*) # i860-SVR4
+	if grep Stardent /usr/include/sys/uadmin.h >/dev/null 2>&1 ; then
+	  echo i860-stardent-sysv${UNAME_RELEASE} # Stardent Vistra i860-SVR4
+	else # Add other i860-SVR4 vendors below as they are discovered.
+	  echo i860-unknown-sysv${UNAME_RELEASE}  # Unknown i860-SVR4
+	fi
+	exit 0 ;;
+    mini*:CTIX:SYS*5:*)
+	# "miniframe"
+	echo m68010-convergent-sysv
+	exit 0 ;;
+    mc68k:UNIX:SYSTEM5:3.51m)
+	echo m68k-convergent-sysv
+	exit 0 ;;
+    M680?0:D-NIX:5.3:*)
+	echo m68k-diab-dnix
+	exit 0 ;;
+    M68*:*:R3V[5678]*:*)
+	test -r /sysV68 && echo 'm68k-motorola-sysv' && exit 0 ;;
+    3[345]??:*:4.0:3.0 | 3[34]??A:*:4.0:3.0 | 3[34]??,*:*:4.0:3.0 | 3[34]??/*:*:4.0:3.0 | 4400:*:4.0:3.0 | 4850:*:4.0:3.0 | SKA40:*:4.0:3.0 | SDS2:*:4.0:3.0 | SHG2:*:4.0:3.0)
+	OS_REL=''
+	test -r /etc/.relid \
+	&& OS_REL=.`sed -n 's/[^ ]* [^ ]* \([0-9][0-9]\).*/\1/p' < /etc/.relid`
+	/bin/uname -p 2>/dev/null | grep 86 >/dev/null \
+	  && echo i486-ncr-sysv4.3${OS_REL} && exit 0
+	/bin/uname -p 2>/dev/null | /bin/grep entium >/dev/null \
+	  && echo i586-ncr-sysv4.3${OS_REL} && exit 0 ;;
+    3[34]??:*:4.0:* | 3[34]??,*:*:4.0:*)
+        /bin/uname -p 2>/dev/null | grep 86 >/dev/null \
+          && echo i486-ncr-sysv4 && exit 0 ;;
+    m68*:LynxOS:2.*:* | m68*:LynxOS:3.0*:*)
+	echo m68k-unknown-lynxos${UNAME_RELEASE}
+	exit 0 ;;
+    mc68030:UNIX_System_V:4.*:*)
+	echo m68k-atari-sysv4
+	exit 0 ;;
+    TSUNAMI:LynxOS:2.*:*)
+	echo sparc-unknown-lynxos${UNAME_RELEASE}
+	exit 0 ;;
+    rs6000:LynxOS:2.*:*)
+	echo rs6000-unknown-lynxos${UNAME_RELEASE}
+	exit 0 ;;
+    PowerPC:LynxOS:2.*:* | PowerPC:LynxOS:3.[01]*:* | PowerPC:LynxOS:4.0*:*)
+	echo powerpc-unknown-lynxos${UNAME_RELEASE}
+	exit 0 ;;
+    SM[BE]S:UNIX_SV:*:*)
+	echo mips-dde-sysv${UNAME_RELEASE}
+	exit 0 ;;
+    RM*:ReliantUNIX-*:*:*)
+	echo mips-sni-sysv4
+	exit 0 ;;
+    RM*:SINIX-*:*:*)
+	echo mips-sni-sysv4
+	exit 0 ;;
+    *:SINIX-*:*:*)
+	if uname -p 2>/dev/null >/dev/null ; then
+		UNAME_MACHINE=`(uname -p) 2>/dev/null`
+		echo ${UNAME_MACHINE}-sni-sysv4
+	else
+		echo ns32k-sni-sysv
+	fi
+	exit 0 ;;
+    PENTIUM:*:4.0*:*) # Unisys `ClearPath HMP IX 4000' SVR4/MP effort
+                      # says <Richard.M.Bartel@ccMail.Census.GOV>
+        echo i586-unisys-sysv4
+        exit 0 ;;
+    *:UNIX_System_V:4*:FTX*)
+	# From Gerald Hewes <hewes@openmarket.com>.
+	# How about differentiating between stratus architectures? -djm
+	echo hppa1.1-stratus-sysv4
+	exit 0 ;;
+    *:*:*:FTX*)
+	# From seanf@swdc.stratus.com.
+	echo i860-stratus-sysv4
+	exit 0 ;;
+    *:VOS:*:*)
+	# From Paul.Green@stratus.com.
+	echo hppa1.1-stratus-vos
+	exit 0 ;;
+    mc68*:A/UX:*:*)
+	echo m68k-apple-aux${UNAME_RELEASE}
+	exit 0 ;;
+    news*:NEWS-OS:6*:*)
+	echo mips-sony-newsos6
+	exit 0 ;;
+    R[34]000:*System_V*:*:* | R4000:UNIX_SYSV:*:* | R*000:UNIX_SV:*:*)
+	if [ -d /usr/nec ]; then
+	        echo mips-nec-sysv${UNAME_RELEASE}
+	else
+	        echo mips-unknown-sysv${UNAME_RELEASE}
+	fi
+        exit 0 ;;
+    BeBox:BeOS:*:*)	# BeOS running on hardware made by Be, PPC only.
+	echo powerpc-be-beos
+	exit 0 ;;
+    BeMac:BeOS:*:*)	# BeOS running on Mac or Mac clone, PPC only.
+	echo powerpc-apple-beos
+	exit 0 ;;
+    BePC:BeOS:*:*)	# BeOS running on Intel PC compatible.
+	echo i586-pc-beos
+	exit 0 ;;
+    SX-4:SUPER-UX:*:*)
+	echo sx4-nec-superux${UNAME_RELEASE}
+	exit 0 ;;
+    SX-5:SUPER-UX:*:*)
+	echo sx5-nec-superux${UNAME_RELEASE}
+	exit 0 ;;
+    SX-6:SUPER-UX:*:*)
+	echo sx6-nec-superux${UNAME_RELEASE}
+	exit 0 ;;
+    Power*:Rhapsody:*:*)
+	echo powerpc-apple-rhapsody${UNAME_RELEASE}
+	exit 0 ;;
+    *:Rhapsody:*:*)
+	echo ${UNAME_MACHINE}-apple-rhapsody${UNAME_RELEASE}
+	exit 0 ;;
+    *:Darwin:*:*)
+	case `uname -p` in
+	    *86) UNAME_PROCESSOR=i686 ;;
+	    powerpc) UNAME_PROCESSOR=powerpc ;;
+	esac
+	echo ${UNAME_PROCESSOR}-apple-darwin${UNAME_RELEASE}
+	exit 0 ;;
+    *:procnto*:*:* | *:QNX:[0123456789]*:*)
+	UNAME_PROCESSOR=`uname -p`
+	if test "$UNAME_PROCESSOR" = "x86"; then
+		UNAME_PROCESSOR=i386
+		UNAME_MACHINE=pc
+	fi
+	echo ${UNAME_PROCESSOR}-${UNAME_MACHINE}-nto-qnx${UNAME_RELEASE}
+	exit 0 ;;
+    *:QNX:*:4*)
+	echo i386-pc-qnx
+	exit 0 ;;
+    NSR-?:NONSTOP_KERNEL:*:*)
+	echo nsr-tandem-nsk${UNAME_RELEASE}
+	exit 0 ;;
+    *:NonStop-UX:*:*)
+	echo mips-compaq-nonstopux
+	exit 0 ;;
+    BS2000:POSIX*:*:*)
+	echo bs2000-siemens-sysv
+	exit 0 ;;
+    DS/*:UNIX_System_V:*:*)
+	echo ${UNAME_MACHINE}-${UNAME_SYSTEM}-${UNAME_RELEASE}
+	exit 0 ;;
+    *:Plan9:*:*)
+	# "uname -m" is not consistent, so use $cputype instead. 386
+	# is converted to i386 for consistency with other x86
+	# operating systems.
+	if test "$cputype" = "386"; then
+	    UNAME_MACHINE=i386
+	else
+	    UNAME_MACHINE="$cputype"
+	fi
+	echo ${UNAME_MACHINE}-unknown-plan9
+	exit 0 ;;
+    *:TOPS-10:*:*)
+	echo pdp10-unknown-tops10
+	exit 0 ;;
+    *:TENEX:*:*)
+	echo pdp10-unknown-tenex
+	exit 0 ;;
+    KS10:TOPS-20:*:* | KL10:TOPS-20:*:* | TYPE4:TOPS-20:*:*)
+	echo pdp10-dec-tops20
+	exit 0 ;;
+    XKL-1:TOPS-20:*:* | TYPE5:TOPS-20:*:*)
+	echo pdp10-xkl-tops20
+	exit 0 ;;
+    *:TOPS-20:*:*)
+	echo pdp10-unknown-tops20
+	exit 0 ;;
+    *:ITS:*:*)
+	echo pdp10-unknown-its
+	exit 0 ;;
+    SEI:*:*:SEIUX)
+        echo mips-sei-seiux${UNAME_RELEASE}
+	exit 0 ;;
+    *:DragonFly:*:*)
+	echo ${UNAME_MACHINE}-unknown-dragonfly`echo ${UNAME_RELEASE}|sed -e 's/[-(].*//'`
+	exit 0 ;;
+esac
+
+#echo '(No uname command or uname output not recognized.)' 1>&2
+#echo "${UNAME_MACHINE}:${UNAME_SYSTEM}:${UNAME_RELEASE}:${UNAME_VERSION}" 1>&2
+
+eval $set_cc_for_build
+cat >$dummy.c <<EOF
+#ifdef _SEQUENT_
+# include <sys/types.h>
+# include <sys/utsname.h>
+#endif
+main ()
+{
+#if defined (sony)
+#if defined (MIPSEB)
+  /* BFD wants "bsd" instead of "newsos".  Perhaps BFD should be changed,
+     I don't know....  */
+  printf ("mips-sony-bsd\n"); exit (0);
+#else
+#include <sys/param.h>
+  printf ("m68k-sony-newsos%s\n",
+#ifdef NEWSOS4
+          "4"
+#else
+	  ""
+#endif
+         ); exit (0);
+#endif
+#endif
+
+#if defined (__arm) && defined (__acorn) && defined (__unix)
+  printf ("arm-acorn-riscix"); exit (0);
+#endif
+
+#if defined (hp300) && !defined (hpux)
+  printf ("m68k-hp-bsd\n"); exit (0);
+#endif
+
+#if defined (NeXT)
+#if !defined (__ARCHITECTURE__)
+#define __ARCHITECTURE__ "m68k"
+#endif
+  int version;
+  version=`(hostinfo | sed -n 's/.*NeXT Mach \([0-9]*\).*/\1/p') 2>/dev/null`;
+  if (version < 4)
+    printf ("%s-next-nextstep%d\n", __ARCHITECTURE__, version);
+  else
+    printf ("%s-next-openstep%d\n", __ARCHITECTURE__, version);
+  exit (0);
+#endif
+
+#if defined (MULTIMAX) || defined (n16)
+#if defined (UMAXV)
+  printf ("ns32k-encore-sysv\n"); exit (0);
+#else
+#if defined (CMU)
+  printf ("ns32k-encore-mach\n"); exit (0);
+#else
+  printf ("ns32k-encore-bsd\n"); exit (0);
+#endif
+#endif
+#endif
+
+#if defined (__386BSD__)
+  printf ("i386-pc-bsd\n"); exit (0);
+#endif
+
+#if defined (sequent)
+#if defined (i386)
+  printf ("i386-sequent-dynix\n"); exit (0);
+#endif
+#if defined (ns32000)
+  printf ("ns32k-sequent-dynix\n"); exit (0);
+#endif
+#endif
+
+#if defined (_SEQUENT_)
+    struct utsname un;
+
+    uname(&un);
+
+    if (strncmp(un.version, "V2", 2) == 0) {
+	printf ("i386-sequent-ptx2\n"); exit (0);
+    }
+    if (strncmp(un.version, "V1", 2) == 0) { /* XXX is V1 correct? */
+	printf ("i386-sequent-ptx1\n"); exit (0);
+    }
+    printf ("i386-sequent-ptx\n"); exit (0);
+
+#endif
+
+#if defined (vax)
+# if !defined (ultrix)
+#  include <sys/param.h>
+#  if defined (BSD)
+#   if BSD == 43
+      printf ("vax-dec-bsd4.3\n"); exit (0);
+#   else
+#    if BSD == 199006
+      printf ("vax-dec-bsd4.3reno\n"); exit (0);
+#    else
+      printf ("vax-dec-bsd\n"); exit (0);
+#    endif
+#   endif
+#  else
+    printf ("vax-dec-bsd\n"); exit (0);
+#  endif
+# else
+    printf ("vax-dec-ultrix\n"); exit (0);
+# endif
+#endif
+
+#if defined (alliant) && defined (i860)
+  printf ("i860-alliant-bsd\n"); exit (0);
+#endif
+
+  exit (1);
+}
+EOF
+
+$CC_FOR_BUILD -o $dummy $dummy.c 2>/dev/null && $dummy && exit 0
+
+# Apollos put the system type in the environment.
+
+test -d /usr/apollo && { echo ${ISP}-apollo-${SYSTYPE}; exit 0; }
+
+# Convex versions that predate uname can use getsysinfo(1)
+
+if [ -x /usr/convex/getsysinfo ]
+then
+    case `getsysinfo -f cpu_type` in
+    c1*)
+	echo c1-convex-bsd
+	exit 0 ;;
+    c2*)
+	if getsysinfo -f scalar_acc
+	then echo c32-convex-bsd
+	else echo c2-convex-bsd
+	fi
+	exit 0 ;;
+    c34*)
+	echo c34-convex-bsd
+	exit 0 ;;
+    c38*)
+	echo c38-convex-bsd
+	exit 0 ;;
+    c4*)
+	echo c4-convex-bsd
+	exit 0 ;;
+    esac
+fi
+
+cat >&2 <<EOF
+$0: unable to guess system type
+
+This script, last modified $timestamp, has failed to recognize
+the operating system you are using. It is advised that you
+download the most up to date version of the config scripts from
+
+    ftp://ftp.gnu.org/pub/gnu/config/
+
+If the version you run ($0) is already up to date, please
+send the following data and any information you think might be
+pertinent to <config-patches@gnu.org> in order to provide the needed
+information to handle your system.
+
+config.guess timestamp = $timestamp
+
+uname -m = `(uname -m) 2>/dev/null || echo unknown`
+uname -r = `(uname -r) 2>/dev/null || echo unknown`
+uname -s = `(uname -s) 2>/dev/null || echo unknown`
+uname -v = `(uname -v) 2>/dev/null || echo unknown`
+
+/usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null`
+/bin/uname -X     = `(/bin/uname -X) 2>/dev/null`
+
+hostinfo               = `(hostinfo) 2>/dev/null`
+/bin/universe          = `(/bin/universe) 2>/dev/null`
+/usr/bin/arch -k       = `(/usr/bin/arch -k) 2>/dev/null`
+/bin/arch              = `(/bin/arch) 2>/dev/null`
+/usr/bin/oslevel       = `(/usr/bin/oslevel) 2>/dev/null`
+/usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null`
+
+UNAME_MACHINE = ${UNAME_MACHINE}
+UNAME_RELEASE = ${UNAME_RELEASE}
+UNAME_SYSTEM  = ${UNAME_SYSTEM}
+UNAME_VERSION = ${UNAME_VERSION}
+EOF
+
+exit 1
+
+# Local variables:
+# eval: (add-hook 'write-file-hooks 'time-stamp)
+# time-stamp-start: "timestamp='"
+# time-stamp-format: "%:y-%02m-%02d"
+# time-stamp-end: "'"
+# End:
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/config.sub b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/config.sub
new file mode 100755
index 0000000..ba33103
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/config.sub
@@ -0,0 +1,1549 @@
+#! /bin/sh
+# Configuration validation subroutine script.
+#   Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
+#   2000, 2001, 2002, 2003 Free Software Foundation, Inc.
+
+timestamp='2004-03-12'
+
+# This file is (in principle) common to ALL GNU software.
+# The presence of a machine in this file suggests that SOME GNU software
+# can handle that machine.  It does not imply ALL GNU software can.
+#
+# This file is free software; you can redistribute it and/or modify
+# it under the terms of the GNU General Public License as published by
+# the Free Software Foundation; either version 2 of the License, or
+# (at your option) any later version.
+#
+# This program is distributed in the hope that it will be useful,
+# but WITHOUT ANY WARRANTY; without even the implied warranty of
+# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+# GNU General Public License for more details.
+#
+# You should have received a copy of the GNU General Public License
+# along with this program; if not, write to the Free Software
+# Foundation, Inc., 59 Temple Place - Suite 330,
+# Boston, MA 02111-1307, USA.
+
+# As a special exception to the GNU General Public License, if you
+# distribute this file as part of a program that contains a
+# configuration script generated by Autoconf, you may include it under
+# the same distribution terms that you use for the rest of that program.
+
+# Please send patches to <config-patches@gnu.org>.  Submit a context
+# diff and a properly formatted ChangeLog entry.
+#
+# Configuration subroutine to validate and canonicalize a configuration type.
+# Supply the specified configuration type as an argument.
+# If it is invalid, we print an error message on stderr and exit with code 1.
+# Otherwise, we print the canonical config type on stdout and succeed.
+
+# This file is supposed to be the same for all GNU packages
+# and recognize all the CPU types, system types and aliases
+# that are meaningful with *any* GNU software.
+# Each package is responsible for reporting which valid configurations
+# it does not support.  The user should be able to distinguish
+# a failure to support a valid configuration from a meaningless
+# configuration.
+
+# The goal of this file is to map all the various variations of a given
+# machine specification into a single specification in the form:
+#	CPU_TYPE-MANUFACTURER-OPERATING_SYSTEM
+# or in some cases, the newer four-part form:
+#	CPU_TYPE-MANUFACTURER-KERNEL-OPERATING_SYSTEM
+# It is wrong to echo any other type of specification.
+
+me=`echo "$0" | sed -e 's,.*/,,'`
+
+usage="\
+Usage: $0 [OPTION] CPU-MFR-OPSYS
+       $0 [OPTION] ALIAS
+
+Canonicalize a configuration name.
+
+Operation modes:
+  -h, --help         print this help, then exit
+  -t, --time-stamp   print date of last modification, then exit
+  -v, --version      print version number, then exit
+
+Report bugs and patches to <config-patches@gnu.org>."
+
+version="\
+GNU config.sub ($timestamp)
+
+Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001
+Free Software Foundation, Inc.
+
+This is free software; see the source for copying conditions.  There is NO
+warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE."
+
+help="
+Try \`$me --help' for more information."
+
+# Parse command line
+while test $# -gt 0 ; do
+  case $1 in
+    --time-stamp | --time* | -t )
+       echo "$timestamp" ; exit 0 ;;
+    --version | -v )
+       echo "$version" ; exit 0 ;;
+    --help | --h* | -h )
+       echo "$usage"; exit 0 ;;
+    -- )     # Stop option processing
+       shift; break ;;
+    - )	# Use stdin as input.
+       break ;;
+    -* )
+       echo "$me: invalid option $1$help"
+       exit 1 ;;
+
+    *local*)
+       # First pass through any local machine types.
+       echo $1
+       exit 0;;
+
+    * )
+       break ;;
+  esac
+done
+
+case $# in
+ 0) echo "$me: missing argument$help" >&2
+    exit 1;;
+ 1) ;;
+ *) echo "$me: too many arguments$help" >&2
+    exit 1;;
+esac
+
+# Separate what the user gave into CPU-COMPANY and OS or KERNEL-OS (if any).
+# Here we must recognize all the valid KERNEL-OS combinations.
+maybe_os=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\2/'`
+case $maybe_os in
+  nto-qnx* | linux-gnu* | linux-dietlibc | linux-uclibc* | uclinux-uclibc* | uclinux-gnu* | \
+  kfreebsd*-gnu* | knetbsd*-gnu* | netbsd*-gnu* | storm-chaos* | os2-emx* | rtmk-nova*)
+    os=-$maybe_os
+    basic_machine=`echo $1 | sed 's/^\(.*\)-\([^-]*-[^-]*\)$/\1/'`
+    ;;
+  *)
+    basic_machine=`echo $1 | sed 's/-[^-]*$//'`
+    if [ $basic_machine != $1 ]
+    then os=`echo $1 | sed 's/.*-/-/'`
+    else os=; fi
+    ;;
+esac
+
+### Let's recognize common machines as not being operating systems so
+### that things like config.sub decstation-3100 work.  We also
+### recognize some manufacturers as not being operating systems, so we
+### can provide default operating systems below.
+case $os in
+	-sun*os*)
+		# Prevent following clause from handling this invalid input.
+		;;
+	-dec* | -mips* | -sequent* | -encore* | -pc532* | -sgi* | -sony* | \
+	-att* | -7300* | -3300* | -delta* | -motorola* | -sun[234]* | \
+	-unicom* | -ibm* | -next | -hp | -isi* | -apollo | -altos* | \
+	-convergent* | -ncr* | -news | -32* | -3600* | -3100* | -hitachi* |\
+	-c[123]* | -convex* | -sun | -crds | -omron* | -dg | -ultra | -tti* | \
+	-harris | -dolphin | -highlevel | -gould | -cbm | -ns | -masscomp | \
+	-apple | -axis)
+		os=
+		basic_machine=$1
+		;;
+	-sim | -cisco | -oki | -wec | -winbond)
+		os=
+		basic_machine=$1
+		;;
+	-scout)
+		;;
+	-wrs)
+		os=-vxworks
+		basic_machine=$1
+		;;
+	-chorusos*)
+		os=-chorusos
+		basic_machine=$1
+		;;
+ 	-chorusrdb)
+ 		os=-chorusrdb
+		basic_machine=$1
+ 		;;
+	-hiux*)
+		os=-hiuxwe2
+		;;
+	-sco5)
+		os=-sco3.2v5
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco4)
+		os=-sco3.2v4
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco3.2.[4-9]*)
+		os=`echo $os | sed -e 's/sco3.2./sco3.2v/'`
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco3.2v[4-9]*)
+		# Don't forget version if it is 3.2v4 or newer.
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-sco*)
+		os=-sco3.2v2
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-udk*)
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-isc)
+		os=-isc2.2
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-clix*)
+		basic_machine=clipper-intergraph
+		;;
+	-isc*)
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-pc/'`
+		;;
+	-lynx*)
+		os=-lynxos
+		;;
+	-ptx*)
+		basic_machine=`echo $1 | sed -e 's/86-.*/86-sequent/'`
+		;;
+	-windowsnt*)
+		os=`echo $os | sed -e 's/windowsnt/winnt/'`
+		;;
+	-psos*)
+		os=-psos
+		;;
+	-mint | -mint[0-9]*)
+		basic_machine=m68k-atari
+		os=-mint
+		;;
+esac
+
+# Decode aliases for certain CPU-COMPANY combinations.
+case $basic_machine in
+	# Recognize the basic CPU types without company name.
+	# Some are omitted here because they have special meanings below.
+	1750a | 580 \
+	| a29k \
+	| alpha | alphaev[4-8] | alphaev56 | alphaev6[78] | alphapca5[67] \
+	| alpha64 | alpha64ev[4-8] | alpha64ev56 | alpha64ev6[78] | alpha64pca5[67] \
+	| am33_2.0 \
+	| arc | arm | arm[bl]e | arme[lb] | armv[2345] | armv[345][lb] | avr \
+	| c4x | clipper \
+	| d10v | d30v | dlx | dsp16xx \
+	| fr30 | frv \
+	| h8300 | h8500 | hppa | hppa1.[01] | hppa2.0 | hppa2.0[nw] | hppa64 \
+	| i370 | i860 | i960 | ia64 \
+	| ip2k | iq2000 \
+	| m32r | m32rle | m68000 | m68k | m88k | mcore \
+	| mips | mipsbe | mipseb | mipsel | mipsle \
+	| mips16 \
+	| mips64 | mips64el \
+	| mips64vr | mips64vrel \
+	| mips64orion | mips64orionel \
+	| mips64vr4100 | mips64vr4100el \
+	| mips64vr4300 | mips64vr4300el \
+	| mips64vr5000 | mips64vr5000el \
+	| mipsisa32 | mipsisa32el \
+	| mipsisa32r2 | mipsisa32r2el \
+	| mipsisa64 | mipsisa64el \
+	| mipsisa64r2 | mipsisa64r2el \
+	| mipsisa64sb1 | mipsisa64sb1el \
+	| mipsisa64sr71k | mipsisa64sr71kel \
+	| mipstx39 | mipstx39el \
+	| mn10200 | mn10300 \
+	| msp430 \
+	| ns16k | ns32k \
+	| openrisc | or32 \
+	| pdp10 | pdp11 | pj | pjl \
+	| powerpc | powerpc64 | powerpc64le | powerpcle | ppcbe \
+	| pyramid \
+	| sh | sh[1234] | sh[23]e | sh[34]eb | shbe | shle | sh[1234]le | sh3ele \
+	| sh64 | sh64le \
+	| sparc | sparc64 | sparc86x | sparclet | sparclite | sparcv8 | sparcv9 | sparcv9b \
+	| strongarm \
+	| tahoe | thumb | tic4x | tic80 | tron \
+	| v850 | v850e \
+	| we32k \
+	| x86 | xscale | xstormy16 | xtensa \
+	| z8k)
+		basic_machine=$basic_machine-unknown
+		;;
+	m6811 | m68hc11 | m6812 | m68hc12)
+		# Motorola 68HC11/12.
+		basic_machine=$basic_machine-unknown
+		os=-none
+		;;
+	m88110 | m680[12346]0 | m683?2 | m68360 | m5200 | v70 | w65 | z8k)
+		;;
+
+	# We use `pc' rather than `unknown'
+	# because (1) that's what they normally are, and
+	# (2) the word "unknown" tends to confuse beginning users.
+	i*86 | x86_64)
+	  basic_machine=$basic_machine-pc
+	  ;;
+	# Object if more than one company name word.
+	*-*-*)
+		echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2
+		exit 1
+		;;
+	# Recognize the basic CPU types with company name.
+	580-* \
+	| a29k-* \
+	| alpha-* | alphaev[4-8]-* | alphaev56-* | alphaev6[78]-* \
+	| alpha64-* | alpha64ev[4-8]-* | alpha64ev56-* | alpha64ev6[78]-* \
+	| alphapca5[67]-* | alpha64pca5[67]-* | arc-* \
+	| arm-*  | armbe-* | armle-* | armeb-* | armv*-* \
+	| avr-* \
+	| bs2000-* \
+	| c[123]* | c30-* | [cjt]90-* | c4x-* | c54x-* | c55x-* | c6x-* \
+	| clipper-* | cydra-* \
+	| d10v-* | d30v-* | dlx-* \
+	| elxsi-* \
+	| f30[01]-* | f700-* | fr30-* | frv-* | fx80-* \
+	| h8300-* | h8500-* \
+	| hppa-* | hppa1.[01]-* | hppa2.0-* | hppa2.0[nw]-* | hppa64-* \
+	| i*86-* | i860-* | i960-* | ia64-* \
+	| ip2k-* | iq2000-* \
+	| m32r-* | m32rle-* \
+	| m68000-* | m680[012346]0-* | m68360-* | m683?2-* | m68k-* \
+	| m88110-* | m88k-* | mcore-* \
+	| mips-* | mipsbe-* | mipseb-* | mipsel-* | mipsle-* \
+	| mips16-* \
+	| mips64-* | mips64el-* \
+	| mips64vr-* | mips64vrel-* \
+	| mips64orion-* | mips64orionel-* \
+	| mips64vr4100-* | mips64vr4100el-* \
+	| mips64vr4300-* | mips64vr4300el-* \
+	| mips64vr5000-* | mips64vr5000el-* \
+	| mipsisa32-* | mipsisa32el-* \
+	| mipsisa32r2-* | mipsisa32r2el-* \
+	| mipsisa64-* | mipsisa64el-* \
+	| mipsisa64r2-* | mipsisa64r2el-* \
+	| mipsisa64sb1-* | mipsisa64sb1el-* \
+	| mipsisa64sr71k-* | mipsisa64sr71kel-* \
+	| mipstx39-* | mipstx39el-* \
+	| msp430-* \
+	| none-* | np1-* | nv1-* | ns16k-* | ns32k-* \
+	| orion-* \
+	| pdp10-* | pdp11-* | pj-* | pjl-* | pn-* | power-* \
+	| powerpc-* | powerpc64-* | powerpc64le-* | powerpcle-* | ppcbe-* \
+	| pyramid-* \
+	| romp-* | rs6000-* \
+	| sh-* | sh[1234]-* | sh[23]e-* | sh[34]eb-* | shbe-* \
+	| shle-* | sh[1234]le-* | sh3ele-* | sh64-* | sh64le-* \
+	| sparc-* | sparc64-* | sparc86x-* | sparclet-* | sparclite-* \
+	| sparcv8-* | sparcv9-* | sparcv9b-* | strongarm-* | sv1-* | sx?-* \
+	| tahoe-* | thumb-* \
+	| tic30-* | tic4x-* | tic54x-* | tic55x-* | tic6x-* | tic80-* \
+	| tron-* \
+	| v850-* | v850e-* | vax-* \
+	| we32k-* \
+	| x86-* | x86_64-* | xps100-* | xscale-* | xstormy16-* \
+	| xtensa-* \
+	| ymp-* \
+	| z8k-*)
+		;;
+	# Recognize the various machine names and aliases which stand
+	# for a CPU type and a company and sometimes even an OS.
+	386bsd)
+		basic_machine=i386-unknown
+		os=-bsd
+		;;
+	3b1 | 7300 | 7300-att | att-7300 | pc7300 | safari | unixpc)
+		basic_machine=m68000-att
+		;;
+	3b*)
+		basic_machine=we32k-att
+		;;
+	a29khif)
+		basic_machine=a29k-amd
+		os=-udi
+		;;
+    	abacus)
+		basic_machine=abacus-unknown
+		;;
+	adobe68k)
+		basic_machine=m68010-adobe
+		os=-scout
+		;;
+	alliant | fx80)
+		basic_machine=fx80-alliant
+		;;
+	altos | altos3068)
+		basic_machine=m68k-altos
+		;;
+	am29k)
+		basic_machine=a29k-none
+		os=-bsd
+		;;
+	amd64)
+		basic_machine=x86_64-pc
+		;;
+	amd64-*)
+		basic_machine=x86_64-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	amdahl)
+		basic_machine=580-amdahl
+		os=-sysv
+		;;
+	amiga | amiga-*)
+		basic_machine=m68k-unknown
+		;;
+	amigaos | amigados)
+		basic_machine=m68k-unknown
+		os=-amigaos
+		;;
+	amigaunix | amix)
+		basic_machine=m68k-unknown
+		os=-sysv4
+		;;
+	apollo68)
+		basic_machine=m68k-apollo
+		os=-sysv
+		;;
+	apollo68bsd)
+		basic_machine=m68k-apollo
+		os=-bsd
+		;;
+	aux)
+		basic_machine=m68k-apple
+		os=-aux
+		;;
+	balance)
+		basic_machine=ns32k-sequent
+		os=-dynix
+		;;
+	c90)
+		basic_machine=c90-cray
+		os=-unicos
+		;;
+	convex-c1)
+		basic_machine=c1-convex
+		os=-bsd
+		;;
+	convex-c2)
+		basic_machine=c2-convex
+		os=-bsd
+		;;
+	convex-c32)
+		basic_machine=c32-convex
+		os=-bsd
+		;;
+	convex-c34)
+		basic_machine=c34-convex
+		os=-bsd
+		;;
+	convex-c38)
+		basic_machine=c38-convex
+		os=-bsd
+		;;
+	cray | j90)
+		basic_machine=j90-cray
+		os=-unicos
+		;;
+	cr16c)
+		basic_machine=cr16c-unknown
+		os=-elf
+		;;
+	crds | unos)
+		basic_machine=m68k-crds
+		;;
+	cris | cris-* | etrax*)
+		basic_machine=cris-axis
+		;;
+	crx)
+		basic_machine=crx-unknown
+		os=-elf
+		;;
+	da30 | da30-*)
+		basic_machine=m68k-da30
+		;;
+	decstation | decstation-3100 | pmax | pmax-* | pmin | dec3100 | decstatn)
+		basic_machine=mips-dec
+		;;
+	decsystem10* | dec10*)
+		basic_machine=pdp10-dec
+		os=-tops10
+		;;
+	decsystem20* | dec20*)
+		basic_machine=pdp10-dec
+		os=-tops20
+		;;
+	delta | 3300 | motorola-3300 | motorola-delta \
+	      | 3300-motorola | delta-motorola)
+		basic_machine=m68k-motorola
+		;;
+	delta88)
+		basic_machine=m88k-motorola
+		os=-sysv3
+		;;
+	dpx20 | dpx20-*)
+		basic_machine=rs6000-bull
+		os=-bosx
+		;;
+	dpx2* | dpx2*-bull)
+		basic_machine=m68k-bull
+		os=-sysv3
+		;;
+	ebmon29k)
+		basic_machine=a29k-amd
+		os=-ebmon
+		;;
+	elxsi)
+		basic_machine=elxsi-elxsi
+		os=-bsd
+		;;
+	encore | umax | mmax)
+		basic_machine=ns32k-encore
+		;;
+	es1800 | OSE68k | ose68k | ose | OSE)
+		basic_machine=m68k-ericsson
+		os=-ose
+		;;
+	fx2800)
+		basic_machine=i860-alliant
+		;;
+	genix)
+		basic_machine=ns32k-ns
+		;;
+	gmicro)
+		basic_machine=tron-gmicro
+		os=-sysv
+		;;
+	go32)
+		basic_machine=i386-pc
+		os=-go32
+		;;
+	h3050r* | hiux*)
+		basic_machine=hppa1.1-hitachi
+		os=-hiuxwe2
+		;;
+	h8300hms)
+		basic_machine=h8300-hitachi
+		os=-hms
+		;;
+	h8300xray)
+		basic_machine=h8300-hitachi
+		os=-xray
+		;;
+	h8500hms)
+		basic_machine=h8500-hitachi
+		os=-hms
+		;;
+	harris)
+		basic_machine=m88k-harris
+		os=-sysv3
+		;;
+	hp300-*)
+		basic_machine=m68k-hp
+		;;
+	hp300bsd)
+		basic_machine=m68k-hp
+		os=-bsd
+		;;
+	hp300hpux)
+		basic_machine=m68k-hp
+		os=-hpux
+		;;
+	hp3k9[0-9][0-9] | hp9[0-9][0-9])
+		basic_machine=hppa1.0-hp
+		;;
+	hp9k2[0-9][0-9] | hp9k31[0-9])
+		basic_machine=m68000-hp
+		;;
+	hp9k3[2-9][0-9])
+		basic_machine=m68k-hp
+		;;
+	hp9k6[0-9][0-9] | hp6[0-9][0-9])
+		basic_machine=hppa1.0-hp
+		;;
+	hp9k7[0-79][0-9] | hp7[0-79][0-9])
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k78[0-9] | hp78[0-9])
+		# FIXME: really hppa2.0-hp
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k8[67]1 | hp8[67]1 | hp9k80[24] | hp80[24] | hp9k8[78]9 | hp8[78]9 | hp9k893 | hp893)
+		# FIXME: really hppa2.0-hp
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k8[0-9][13679] | hp8[0-9][13679])
+		basic_machine=hppa1.1-hp
+		;;
+	hp9k8[0-9][0-9] | hp8[0-9][0-9])
+		basic_machine=hppa1.0-hp
+		;;
+	hppa-next)
+		os=-nextstep3
+		;;
+	hppaosf)
+		basic_machine=hppa1.1-hp
+		os=-osf
+		;;
+	hppro)
+		basic_machine=hppa1.1-hp
+		os=-proelf
+		;;
+	i370-ibm* | ibm*)
+		basic_machine=i370-ibm
+		;;
+# I'm not sure what "Sysv32" means.  Should this be sysv3.2?
+	i*86v32)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-sysv32
+		;;
+	i*86v4*)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-sysv4
+		;;
+	i*86v)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-sysv
+		;;
+	i*86sol2)
+		basic_machine=`echo $1 | sed -e 's/86.*/86-pc/'`
+		os=-solaris2
+		;;
+	i386mach)
+		basic_machine=i386-mach
+		os=-mach
+		;;
+	i386-vsta | vsta)
+		basic_machine=i386-unknown
+		os=-vsta
+		;;
+	iris | iris4d)
+		basic_machine=mips-sgi
+		case $os in
+		    -irix*)
+			;;
+		    *)
+			os=-irix4
+			;;
+		esac
+		;;
+	isi68 | isi)
+		basic_machine=m68k-isi
+		os=-sysv
+		;;
+	m88k-omron*)
+		basic_machine=m88k-omron
+		;;
+	magnum | m3230)
+		basic_machine=mips-mips
+		os=-sysv
+		;;
+	merlin)
+		basic_machine=ns32k-utek
+		os=-sysv
+		;;
+	mingw32)
+		basic_machine=i386-pc
+		os=-mingw32
+		;;
+	miniframe)
+		basic_machine=m68000-convergent
+		;;
+	*mint | -mint[0-9]* | *MiNT | *MiNT[0-9]*)
+		basic_machine=m68k-atari
+		os=-mint
+		;;
+	mips3*-*)
+		basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`
+		;;
+	mips3*)
+		basic_machine=`echo $basic_machine | sed -e 's/mips3/mips64/'`-unknown
+		;;
+	mmix*)
+		basic_machine=mmix-knuth
+		os=-mmixware
+		;;
+	monitor)
+		basic_machine=m68k-rom68k
+		os=-coff
+		;;
+	morphos)
+		basic_machine=powerpc-unknown
+		os=-morphos
+		;;
+	msdos)
+		basic_machine=i386-pc
+		os=-msdos
+		;;
+	mvs)
+		basic_machine=i370-ibm
+		os=-mvs
+		;;
+	ncr3000)
+		basic_machine=i486-ncr
+		os=-sysv4
+		;;
+	netbsd386)
+		basic_machine=i386-unknown
+		os=-netbsd
+		;;
+	netwinder)
+		basic_machine=armv4l-rebel
+		os=-linux
+		;;
+	news | news700 | news800 | news900)
+		basic_machine=m68k-sony
+		os=-newsos
+		;;
+	news1000)
+		basic_machine=m68030-sony
+		os=-newsos
+		;;
+	news-3600 | risc-news)
+		basic_machine=mips-sony
+		os=-newsos
+		;;
+	necv70)
+		basic_machine=v70-nec
+		os=-sysv
+		;;
+	next | m*-next )
+		basic_machine=m68k-next
+		case $os in
+		    -nextstep* )
+			;;
+		    -ns2*)
+		      os=-nextstep2
+			;;
+		    *)
+		      os=-nextstep3
+			;;
+		esac
+		;;
+	nh3000)
+		basic_machine=m68k-harris
+		os=-cxux
+		;;
+	nh[45]000)
+		basic_machine=m88k-harris
+		os=-cxux
+		;;
+	nindy960)
+		basic_machine=i960-intel
+		os=-nindy
+		;;
+	mon960)
+		basic_machine=i960-intel
+		os=-mon960
+		;;
+	nonstopux)
+		basic_machine=mips-compaq
+		os=-nonstopux
+		;;
+	np1)
+		basic_machine=np1-gould
+		;;
+	nv1)
+		basic_machine=nv1-cray
+		os=-unicosmp
+		;;
+	nsr-tandem)
+		basic_machine=nsr-tandem
+		;;
+	op50n-* | op60c-*)
+		basic_machine=hppa1.1-oki
+		os=-proelf
+		;;
+	or32 | or32-*)
+		basic_machine=or32-unknown
+		os=-coff
+		;;
+	os400)
+		basic_machine=powerpc-ibm
+		os=-os400
+		;;
+	OSE68000 | ose68000)
+		basic_machine=m68000-ericsson
+		os=-ose
+		;;
+	os68k)
+		basic_machine=m68k-none
+		os=-os68k
+		;;
+	pa-hitachi)
+		basic_machine=hppa1.1-hitachi
+		os=-hiuxwe2
+		;;
+	paragon)
+		basic_machine=i860-intel
+		os=-osf
+		;;
+	pbd)
+		basic_machine=sparc-tti
+		;;
+	pbb)
+		basic_machine=m68k-tti
+		;;
+	pc532 | pc532-*)
+		basic_machine=ns32k-pc532
+		;;
+	pentium | p5 | k5 | k6 | nexgen | viac3)
+		basic_machine=i586-pc
+		;;
+	pentiumpro | p6 | 6x86 | athlon | athlon_*)
+		basic_machine=i686-pc
+		;;
+	pentiumii | pentium2 | pentiumiii | pentium3)
+		basic_machine=i686-pc
+		;;
+	pentium4)
+		basic_machine=i786-pc
+		;;
+	pentium-* | p5-* | k5-* | k6-* | nexgen-* | viac3-*)
+		basic_machine=i586-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentiumpro-* | p6-* | 6x86-* | athlon-*)
+		basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentiumii-* | pentium2-* | pentiumiii-* | pentium3-*)
+		basic_machine=i686-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pentium4-*)
+		basic_machine=i786-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	pn)
+		basic_machine=pn-gould
+		;;
+	power)	basic_machine=power-ibm
+		;;
+	ppc)	basic_machine=powerpc-unknown
+		;;
+	ppc-*)	basic_machine=powerpc-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ppcle | powerpclittle | ppc-le | powerpc-little)
+		basic_machine=powerpcle-unknown
+		;;
+	ppcle-* | powerpclittle-*)
+		basic_machine=powerpcle-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ppc64)	basic_machine=powerpc64-unknown
+		;;
+	ppc64-*) basic_machine=powerpc64-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ppc64le | powerpc64little | ppc64-le | powerpc64-little)
+		basic_machine=powerpc64le-unknown
+		;;
+	ppc64le-* | powerpc64little-*)
+		basic_machine=powerpc64le-`echo $basic_machine | sed 's/^[^-]*-//'`
+		;;
+	ps2)
+		basic_machine=i386-ibm
+		;;
+	pw32)
+		basic_machine=i586-unknown
+		os=-pw32
+		;;
+	rom68k)
+		basic_machine=m68k-rom68k
+		os=-coff
+		;;
+	rm[46]00)
+		basic_machine=mips-siemens
+		;;
+	rtpc | rtpc-*)
+		basic_machine=romp-ibm
+		;;
+	s390 | s390-*)
+		basic_machine=s390-ibm
+		;;
+	s390x | s390x-*)
+		basic_machine=s390x-ibm
+		;;
+	sa29200)
+		basic_machine=a29k-amd
+		os=-udi
+		;;
+	sb1)
+		basic_machine=mipsisa64sb1-unknown
+		;;
+	sb1el)
+		basic_machine=mipsisa64sb1el-unknown
+		;;
+	sei)
+		basic_machine=mips-sei
+		os=-seiux
+		;;
+	sequent)
+		basic_machine=i386-sequent
+		;;
+	sh)
+		basic_machine=sh-hitachi
+		os=-hms
+		;;
+	sh64)
+		basic_machine=sh64-unknown
+		;;
+	sparclite-wrs | simso-wrs)
+		basic_machine=sparclite-wrs
+		os=-vxworks
+		;;
+	sps7)
+		basic_machine=m68k-bull
+		os=-sysv2
+		;;
+	spur)
+		basic_machine=spur-unknown
+		;;
+	st2000)
+		basic_machine=m68k-tandem
+		;;
+	stratus)
+		basic_machine=i860-stratus
+		os=-sysv4
+		;;
+	sun2)
+		basic_machine=m68000-sun
+		;;
+	sun2os3)
+		basic_machine=m68000-sun
+		os=-sunos3
+		;;
+	sun2os4)
+		basic_machine=m68000-sun
+		os=-sunos4
+		;;
+	sun3os3)
+		basic_machine=m68k-sun
+		os=-sunos3
+		;;
+	sun3os4)
+		basic_machine=m68k-sun
+		os=-sunos4
+		;;
+	sun4os3)
+		basic_machine=sparc-sun
+		os=-sunos3
+		;;
+	sun4os4)
+		basic_machine=sparc-sun
+		os=-sunos4
+		;;
+	sun4sol2)
+		basic_machine=sparc-sun
+		os=-solaris2
+		;;
+	sun3 | sun3-*)
+		basic_machine=m68k-sun
+		;;
+	sun4)
+		basic_machine=sparc-sun
+		;;
+	sun386 | sun386i | roadrunner)
+		basic_machine=i386-sun
+		;;
+	sv1)
+		basic_machine=sv1-cray
+		os=-unicos
+		;;
+	symmetry)
+		basic_machine=i386-sequent
+		os=-dynix
+		;;
+	t3e)
+		basic_machine=alphaev5-cray
+		os=-unicos
+		;;
+	t90)
+		basic_machine=t90-cray
+		os=-unicos
+		;;
+	tic54x | c54x*)
+		basic_machine=tic54x-unknown
+		os=-coff
+		;;
+	tic55x | c55x*)
+		basic_machine=tic55x-unknown
+		os=-coff
+		;;
+	tic6x | c6x*)
+		basic_machine=tic6x-unknown
+		os=-coff
+		;;
+	tx39)
+		basic_machine=mipstx39-unknown
+		;;
+	tx39el)
+		basic_machine=mipstx39el-unknown
+		;;
+	toad1)
+		basic_machine=pdp10-xkl
+		os=-tops20
+		;;
+	tower | tower-32)
+		basic_machine=m68k-ncr
+		;;
+	tpf)
+		basic_machine=s390x-ibm
+		os=-tpf
+		;;
+	udi29k)
+		basic_machine=a29k-amd
+		os=-udi
+		;;
+	ultra3)
+		basic_machine=a29k-nyu
+		os=-sym1
+		;;
+	v810 | necv810)
+		basic_machine=v810-nec
+		os=-none
+		;;
+	vaxv)
+		basic_machine=vax-dec
+		os=-sysv
+		;;
+	vms)
+		basic_machine=vax-dec
+		os=-vms
+		;;
+	vpp*|vx|vx-*)
+		basic_machine=f301-fujitsu
+		;;
+	vxworks960)
+		basic_machine=i960-wrs
+		os=-vxworks
+		;;
+	vxworks68)
+		basic_machine=m68k-wrs
+		os=-vxworks
+		;;
+	vxworks29k)
+		basic_machine=a29k-wrs
+		os=-vxworks
+		;;
+	w65*)
+		basic_machine=w65-wdc
+		os=-none
+		;;
+	w89k-*)
+		basic_machine=hppa1.1-winbond
+		os=-proelf
+		;;
+	xps | xps100)
+		basic_machine=xps100-honeywell
+		;;
+	ymp)
+		basic_machine=ymp-cray
+		os=-unicos
+		;;
+	z8k-*-coff)
+		basic_machine=z8k-unknown
+		os=-sim
+		;;
+	none)
+		basic_machine=none-none
+		os=-none
+		;;
+
+# Here we handle the default manufacturer of certain CPU types.  It is in
+# some cases the only manufacturer, in others, it is the most popular.
+	w89k)
+		basic_machine=hppa1.1-winbond
+		;;
+	op50n)
+		basic_machine=hppa1.1-oki
+		;;
+	op60c)
+		basic_machine=hppa1.1-oki
+		;;
+	romp)
+		basic_machine=romp-ibm
+		;;
+	rs6000)
+		basic_machine=rs6000-ibm
+		;;
+	vax)
+		basic_machine=vax-dec
+		;;
+	pdp10)
+		# there are many clones, so DEC is not a safe bet
+		basic_machine=pdp10-unknown
+		;;
+	pdp11)
+		basic_machine=pdp11-dec
+		;;
+	we32k)
+		basic_machine=we32k-att
+		;;
+	sh3 | sh4 | sh[34]eb | sh[1234]le | sh[23]ele)
+		basic_machine=sh-unknown
+		;;
+	sh64)
+		basic_machine=sh64-unknown
+		;;
+	sparc | sparcv8 | sparcv9 | sparcv9b)
+		basic_machine=sparc-sun
+		;;
+	cydra)
+		basic_machine=cydra-cydrome
+		;;
+	orion)
+		basic_machine=orion-highlevel
+		;;
+	orion105)
+		basic_machine=clipper-highlevel
+		;;
+	mac | mpw | mac-mpw)
+		basic_machine=m68k-apple
+		;;
+	pmac | pmac-mpw)
+		basic_machine=powerpc-apple
+		;;
+	*-unknown)
+		# Make sure to match an already-canonicalized machine name.
+		;;
+	*)
+		echo Invalid configuration \`$1\': machine \`$basic_machine\' not recognized 1>&2
+		exit 1
+		;;
+esac
+
+# Here we canonicalize certain aliases for manufacturers.
+case $basic_machine in
+	*-digital*)
+		basic_machine=`echo $basic_machine | sed 's/digital.*/dec/'`
+		;;
+	*-commodore*)
+		basic_machine=`echo $basic_machine | sed 's/commodore.*/cbm/'`
+		;;
+	*)
+		;;
+esac
+
+# Decode manufacturer-specific aliases for certain operating systems.
+
+if [ x"$os" != x"" ]
+then
+case $os in
+        # First match some system type aliases
+        # that might get confused with valid system types.
+	# -solaris* is a basic system type, with this one exception.
+	-solaris1 | -solaris1.*)
+		os=`echo $os | sed -e 's|solaris1|sunos4|'`
+		;;
+	-solaris)
+		os=-solaris2
+		;;
+	-svr4*)
+		os=-sysv4
+		;;
+	-unixware*)
+		os=-sysv4.2uw
+		;;
+	-gnu/linux*)
+		os=`echo $os | sed -e 's|gnu/linux|linux-gnu|'`
+		;;
+	# First accept the basic system types.
+	# The portable systems comes first.
+	# Each alternative MUST END IN A *, to match a version number.
+	# -sysv* is not here because it comes later, after sysvr4.
+	-gnu* | -bsd* | -mach* | -minix* | -genix* | -ultrix* | -irix* \
+	      | -*vms* | -sco* | -esix* | -isc* | -aix* | -sunos | -sunos[34]*\
+	      | -hpux* | -unos* | -osf* | -luna* | -dgux* | -solaris* | -sym* \
+	      | -amigaos* | -amigados* | -msdos* | -newsos* | -unicos* | -aof* \
+	      | -aos* \
+	      | -nindy* | -vxsim* | -vxworks* | -ebmon* | -hms* | -mvs* \
+	      | -clix* | -riscos* | -uniplus* | -iris* | -rtu* | -xenix* \
+	      | -hiux* | -386bsd* | -knetbsd* | -mirbsd* | -netbsd* | -openbsd* \
+	      | -ekkobsd* | -kfreebsd* | -freebsd* | -riscix* | -lynxos* \
+	      | -bosx* | -nextstep* | -cxux* | -aout* | -elf* | -oabi* \
+	      | -ptx* | -coff* | -ecoff* | -winnt* | -domain* | -vsta* \
+	      | -udi* | -eabi* | -lites* | -ieee* | -go32* | -aux* \
+	      | -chorusos* | -chorusrdb* \
+	      | -cygwin* | -pe* | -psos* | -moss* | -proelf* | -rtems* \
+	      | -mingw32* | -linux-gnu* | -linux-uclibc* | -uxpv* | -beos* | -mpeix* | -udk* \
+	      | -interix* | -uwin* | -mks* | -rhapsody* | -darwin* | -opened* \
+	      | -openstep* | -oskit* | -conix* | -pw32* | -nonstopux* \
+	      | -storm-chaos* | -tops10* | -tenex* | -tops20* | -its* \
+	      | -os2* | -vos* | -palmos* | -uclinux* | -nucleus* \
+	      | -morphos* | -superux* | -rtmk* | -rtmk-nova* | -windiss* \
+	      | -powermax* | -dnix* | -nx6 | -nx7 | -sei* | -dragonfly*)
+	# Remember, each alternative MUST END IN *, to match a version number.
+		;;
+	-qnx*)
+		case $basic_machine in
+		    x86-* | i*86-*)
+			;;
+		    *)
+			os=-nto$os
+			;;
+		esac
+		;;
+	-nto-qnx*)
+		;;
+	-nto*)
+		os=`echo $os | sed -e 's|nto|nto-qnx|'`
+		;;
+	-sim | -es1800* | -hms* | -xray | -os68k* | -none* | -v88r* \
+	      | -windows* | -osx | -abug | -netware* | -os9* | -beos* \
+	      | -macos* | -mpw* | -magic* | -mmixware* | -mon960* | -lnews*)
+		;;
+	-mac*)
+		os=`echo $os | sed -e 's|mac|macos|'`
+		;;
+	-linux-dietlibc)
+		os=-linux-dietlibc
+		;;
+	-linux*)
+		os=`echo $os | sed -e 's|linux|linux-gnu|'`
+		;;
+	-sunos5*)
+		os=`echo $os | sed -e 's|sunos5|solaris2|'`
+		;;
+	-sunos6*)
+		os=`echo $os | sed -e 's|sunos6|solaris3|'`
+		;;
+	-opened*)
+		os=-openedition
+		;;
+        -os400*)
+		os=-os400
+		;;
+	-wince*)
+		os=-wince
+		;;
+	-osfrose*)
+		os=-osfrose
+		;;
+	-osf*)
+		os=-osf
+		;;
+	-utek*)
+		os=-bsd
+		;;
+	-dynix*)
+		os=-bsd
+		;;
+	-acis*)
+		os=-aos
+		;;
+	-atheos*)
+		os=-atheos
+		;;
+	-syllable*)
+		os=-syllable
+		;;
+	-386bsd)
+		os=-bsd
+		;;
+	-ctix* | -uts*)
+		os=-sysv
+		;;
+	-nova*)
+		os=-rtmk-nova
+		;;
+	-ns2 )
+		os=-nextstep2
+		;;
+	-nsk*)
+		os=-nsk
+		;;
+	# Preserve the version number of sinix5.
+	-sinix5.*)
+		os=`echo $os | sed -e 's|sinix|sysv|'`
+		;;
+	-sinix*)
+		os=-sysv4
+		;;
+        -tpf*)
+		os=-tpf
+		;;
+	-triton*)
+		os=-sysv3
+		;;
+	-oss*)
+		os=-sysv3
+		;;
+	-svr4)
+		os=-sysv4
+		;;
+	-svr3)
+		os=-sysv3
+		;;
+	-sysvr4)
+		os=-sysv4
+		;;
+	# This must come after -sysvr4.
+	-sysv*)
+		;;
+	-ose*)
+		os=-ose
+		;;
+	-es1800*)
+		os=-ose
+		;;
+	-xenix)
+		os=-xenix
+		;;
+	-*mint | -mint[0-9]* | -*MiNT | -MiNT[0-9]*)
+		os=-mint
+		;;
+	-aros*)
+		os=-aros
+		;;
+	-kaos*)
+		os=-kaos
+		;;
+	-none)
+		;;
+	*)
+		# Get rid of the `-' at the beginning of $os.
+		os=`echo $os | sed 's/[^-]*-//'`
+		echo Invalid configuration \`$1\': system \`$os\' not recognized 1>&2
+		exit 1
+		;;
+esac
+else
+
+# Here we handle the default operating systems that come with various machines.
+# The value should be what the vendor currently ships out the door with their
+# machine or put another way, the most popular os provided with the machine.
+
+# Note that if you're going to try to match "-MANUFACTURER" here (say,
+# "-sun"), then you have to tell the case statement up towards the top
+# that MANUFACTURER isn't an operating system.  Otherwise, code above
+# will signal an error saying that MANUFACTURER isn't an operating
+# system, and we'll never get to this point.
+
+case $basic_machine in
+	*-acorn)
+		os=-riscix1.2
+		;;
+	arm*-rebel)
+		os=-linux
+		;;
+	arm*-semi)
+		os=-aout
+		;;
+    c4x-* | tic4x-*)
+        os=-coff
+        ;;
+	# This must come before the *-dec entry.
+	pdp10-*)
+		os=-tops20
+		;;
+	pdp11-*)
+		os=-none
+		;;
+	*-dec | vax-*)
+		os=-ultrix4.2
+		;;
+	m68*-apollo)
+		os=-domain
+		;;
+	i386-sun)
+		os=-sunos4.0.2
+		;;
+	m68000-sun)
+		os=-sunos3
+		# This also exists in the configure program, but was not the
+		# default.
+		# os=-sunos4
+		;;
+	m68*-cisco)
+		os=-aout
+		;;
+	mips*-cisco)
+		os=-elf
+		;;
+	mips*-*)
+		os=-elf
+		;;
+	or32-*)
+		os=-coff
+		;;
+	*-tti)	# must be before sparc entry or we get the wrong os.
+		os=-sysv3
+		;;
+	sparc-* | *-sun)
+		os=-sunos4.1.1
+		;;
+	*-be)
+		os=-beos
+		;;
+	*-ibm)
+		os=-aix
+		;;
+	*-wec)
+		os=-proelf
+		;;
+	*-winbond)
+		os=-proelf
+		;;
+	*-oki)
+		os=-proelf
+		;;
+	*-hp)
+		os=-hpux
+		;;
+	*-hitachi)
+		os=-hiux
+		;;
+	i860-* | *-att | *-ncr | *-altos | *-motorola | *-convergent)
+		os=-sysv
+		;;
+	*-cbm)
+		os=-amigaos
+		;;
+	*-dg)
+		os=-dgux
+		;;
+	*-dolphin)
+		os=-sysv3
+		;;
+	m68k-ccur)
+		os=-rtu
+		;;
+	m88k-omron*)
+		os=-luna
+		;;
+	*-next )
+		os=-nextstep
+		;;
+	*-sequent)
+		os=-ptx
+		;;
+	*-crds)
+		os=-unos
+		;;
+	*-ns)
+		os=-genix
+		;;
+	i370-*)
+		os=-mvs
+		;;
+	*-next)
+		os=-nextstep3
+		;;
+	*-gould)
+		os=-sysv
+		;;
+	*-highlevel)
+		os=-bsd
+		;;
+	*-encore)
+		os=-bsd
+		;;
+	*-sgi)
+		os=-irix
+		;;
+	*-siemens)
+		os=-sysv4
+		;;
+	*-masscomp)
+		os=-rtu
+		;;
+	f30[01]-fujitsu | f700-fujitsu)
+		os=-uxpv
+		;;
+	*-rom68k)
+		os=-coff
+		;;
+	*-*bug)
+		os=-coff
+		;;
+	*-apple)
+		os=-macos
+		;;
+	*-atari*)
+		os=-mint
+		;;
+	*)
+		os=-none
+		;;
+esac
+fi
+
+# Here we handle the case where we know the os, and the CPU type, but not the
+# manufacturer.  We pick the logical manufacturer.
+vendor=unknown
+case $basic_machine in
+	*-unknown)
+		case $os in
+			-riscix*)
+				vendor=acorn
+				;;
+			-sunos*)
+				vendor=sun
+				;;
+			-aix*)
+				vendor=ibm
+				;;
+			-beos*)
+				vendor=be
+				;;
+			-hpux*)
+				vendor=hp
+				;;
+			-mpeix*)
+				vendor=hp
+				;;
+			-hiux*)
+				vendor=hitachi
+				;;
+			-unos*)
+				vendor=crds
+				;;
+			-dgux*)
+				vendor=dg
+				;;
+			-luna*)
+				vendor=omron
+				;;
+			-genix*)
+				vendor=ns
+				;;
+			-mvs* | -opened*)
+				vendor=ibm
+				;;
+			-os400*)
+				vendor=ibm
+				;;
+			-ptx*)
+				vendor=sequent
+				;;
+			-tpf*)
+				vendor=ibm
+				;;
+			-vxsim* | -vxworks* | -windiss*)
+				vendor=wrs
+				;;
+			-aux*)
+				vendor=apple
+				;;
+			-hms*)
+				vendor=hitachi
+				;;
+			-mpw* | -macos*)
+				vendor=apple
+				;;
+			-*mint | -mint[0-9]* | -*MiNT | -MiNT[0-9]*)
+				vendor=atari
+				;;
+			-vos*)
+				vendor=stratus
+				;;
+		esac
+		basic_machine=`echo $basic_machine | sed "s/unknown/$vendor/"`
+		;;
+esac
+
+echo $basic_machine$os
+exit 0
+
+# Local variables:
+# eval: (add-hook 'write-file-hooks 'time-stamp)
+# time-stamp-start: "timestamp='"
+# time-stamp-format: "%:y-%02m-%02d"
+# time-stamp-end: "'"
+# End:
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/configure b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/configure
new file mode 100755
index 0000000..a07eba4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/configure
@@ -0,0 +1,9214 @@
+#! /bin/sh
+# Guess values for system-dependent variables and create Makefiles.
+# Generated by GNU Autoconf 2.68 for Easel 0.2.snap20130225.
+#
+# Report bugs to <eddys@janelia.hhmi.org>.
+#
+#
+# Copyright (C) 1992, 1993, 1994, 1995, 1996, 1998, 1999, 2000, 2001,
+# 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010 Free Software
+# Foundation, Inc.
+#
+#
+# This configure script is free software; the Free Software Foundation
+# gives unlimited permission to copy, distribute and modify it.
+## -------------------- ##
+## M4sh Initialization. ##
+## -------------------- ##
+
+# Be more Bourne compatible
+DUALCASE=1; export DUALCASE # for MKS sh
+if test -n "${ZSH_VERSION+set}" && (emulate sh) >/dev/null 2>&1; then :
+  emulate sh
+  NULLCMD=:
+  # Pre-4.2 versions of Zsh do word splitting on ${1+"$@"}, which
+  # is contrary to our usage.  Disable this feature.
+  alias -g '${1+"$@"}'='"$@"'
+  setopt NO_GLOB_SUBST
+else
+  case `(set -o) 2>/dev/null` in #(
+  *posix*) :
+    set -o posix ;; #(
+  *) :
+     ;;
+esac
+fi
+
+
+as_nl='
+'
+export as_nl
+# Printing a long string crashes Solaris 7 /usr/bin/printf.
+as_echo='\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\'
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo$as_echo
+# Prefer a ksh shell builtin over an external printf program on Solaris,
+# but without wasting forks for bash or zsh.
+if test -z "$BASH_VERSION$ZSH_VERSION" \
+    && (test "X`print -r -- $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='print -r --'
+  as_echo_n='print -rn --'
+elif (test "X`printf %s $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='printf %s\n'
+  as_echo_n='printf %s'
+else
+  if test "X`(/usr/ucb/echo -n -n $as_echo) 2>/dev/null`" = "X-n $as_echo"; then
+    as_echo_body='eval /usr/ucb/echo -n "$1$as_nl"'
+    as_echo_n='/usr/ucb/echo -n'
+  else
+    as_echo_body='eval expr "X$1" : "X\\(.*\\)"'
+    as_echo_n_body='eval
+      arg=$1;
+      case $arg in #(
+      *"$as_nl"*)
+	expr "X$arg" : "X\\(.*\\)$as_nl";
+	arg=`expr "X$arg" : ".*$as_nl\\(.*\\)"`;;
+      esac;
+      expr "X$arg" : "X\\(.*\\)" | tr -d "$as_nl"
+    '
+    export as_echo_n_body
+    as_echo_n='sh -c $as_echo_n_body as_echo'
+  fi
+  export as_echo_body
+  as_echo='sh -c $as_echo_body as_echo'
+fi
+
+# The user is always right.
+if test "${PATH_SEPARATOR+set}" != set; then
+  PATH_SEPARATOR=:
+  (PATH='/bin;/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 && {
+    (PATH='/bin:/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 ||
+      PATH_SEPARATOR=';'
+  }
+fi
+
+
+# IFS
+# We need space, tab and new line, in precisely that order.  Quoting is
+# there to prevent editors from complaining about space-tab.
+# (If _AS_PATH_WALK were called with IFS unset, it would disable word
+# splitting by setting IFS to empty value.)
+IFS=" ""	$as_nl"
+
+# Find who we are.  Look in the path if we contain no directory separator.
+as_myself=
+case $0 in #((
+  *[\\/]* ) as_myself=$0 ;;
+  *) as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    test -r "$as_dir/$0" && as_myself=$as_dir/$0 && break
+  done
+IFS=$as_save_IFS
+
+     ;;
+esac
+# We did not find ourselves, most probably we were run as `sh COMMAND'
+# in which case we are not to be found in the path.
+if test "x$as_myself" = x; then
+  as_myself=$0
+fi
+if test ! -f "$as_myself"; then
+  $as_echo "$as_myself: error: cannot find myself; rerun with an absolute file name" >&2
+  exit 1
+fi
+
+# Unset variables that we do not need and which cause bugs (e.g. in
+# pre-3.0 UWIN ksh).  But do not cause bugs in bash 2.01; the "|| exit 1"
+# suppresses any "Segmentation fault" message there.  '((' could
+# trigger a bug in pdksh 5.2.14.
+for as_var in BASH_ENV ENV MAIL MAILPATH
+do eval test x\${$as_var+set} = xset \
+  && ( (unset $as_var) || exit 1) >/dev/null 2>&1 && unset $as_var || :
+done
+PS1='$ '
+PS2='> '
+PS4='+ '
+
+# NLS nuisances.
+LC_ALL=C
+export LC_ALL
+LANGUAGE=C
+export LANGUAGE
+
+# CDPATH.
+(unset CDPATH) >/dev/null 2>&1 && unset CDPATH
+
+if test "x$CONFIG_SHELL" = x; then
+  as_bourne_compatible="if test -n \"\${ZSH_VERSION+set}\" && (emulate sh) >/dev/null 2>&1; then :
+  emulate sh
+  NULLCMD=:
+  # Pre-4.2 versions of Zsh do word splitting on \${1+\"\$@\"}, which
+  # is contrary to our usage.  Disable this feature.
+  alias -g '\${1+\"\$@\"}'='\"\$@\"'
+  setopt NO_GLOB_SUBST
+else
+  case \`(set -o) 2>/dev/null\` in #(
+  *posix*) :
+    set -o posix ;; #(
+  *) :
+     ;;
+esac
+fi
+"
+  as_required="as_fn_return () { (exit \$1); }
+as_fn_success () { as_fn_return 0; }
+as_fn_failure () { as_fn_return 1; }
+as_fn_ret_success () { return 0; }
+as_fn_ret_failure () { return 1; }
+
+exitcode=0
+as_fn_success || { exitcode=1; echo as_fn_success failed.; }
+as_fn_failure && { exitcode=1; echo as_fn_failure succeeded.; }
+as_fn_ret_success || { exitcode=1; echo as_fn_ret_success failed.; }
+as_fn_ret_failure && { exitcode=1; echo as_fn_ret_failure succeeded.; }
+if ( set x; as_fn_ret_success y && test x = \"\$1\" ); then :
+
+else
+  exitcode=1; echo positional parameters were not saved.
+fi
+test x\$exitcode = x0 || exit 1"
+  as_suggested="  as_lineno_1=";as_suggested=$as_suggested$LINENO;as_suggested=$as_suggested" as_lineno_1a=\$LINENO
+  as_lineno_2=";as_suggested=$as_suggested$LINENO;as_suggested=$as_suggested" as_lineno_2a=\$LINENO
+  eval 'test \"x\$as_lineno_1'\$as_run'\" != \"x\$as_lineno_2'\$as_run'\" &&
+  test \"x\`expr \$as_lineno_1'\$as_run' + 1\`\" = \"x\$as_lineno_2'\$as_run'\"' || exit 1
+test \$(( 1 + 1 )) = 2 || exit 1"
+  if (eval "$as_required") 2>/dev/null; then :
+  as_have_required=yes
+else
+  as_have_required=no
+fi
+  if test x$as_have_required = xyes && (eval "$as_suggested") 2>/dev/null; then :
+
+else
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+as_found=false
+for as_dir in /bin$PATH_SEPARATOR/usr/bin$PATH_SEPARATOR$PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+  as_found=:
+  case $as_dir in #(
+	 /*)
+	   for as_base in sh bash ksh sh5; do
+	     # Try only shells that exist, to save several forks.
+	     as_shell=$as_dir/$as_base
+	     if { test -f "$as_shell" || test -f "$as_shell.exe"; } &&
+		    { $as_echo "$as_bourne_compatible""$as_required" | as_run=a "$as_shell"; } 2>/dev/null; then :
+  CONFIG_SHELL=$as_shell as_have_required=yes
+		   if { $as_echo "$as_bourne_compatible""$as_suggested" | as_run=a "$as_shell"; } 2>/dev/null; then :
+  break 2
+fi
+fi
+	   done;;
+       esac
+  as_found=false
+done
+$as_found || { if { test -f "$SHELL" || test -f "$SHELL.exe"; } &&
+	      { $as_echo "$as_bourne_compatible""$as_required" | as_run=a "$SHELL"; } 2>/dev/null; then :
+  CONFIG_SHELL=$SHELL as_have_required=yes
+fi; }
+IFS=$as_save_IFS
+
+
+      if test "x$CONFIG_SHELL" != x; then :
+  # We cannot yet assume a decent shell, so we have to provide a
+	# neutralization value for shells without unset; and this also
+	# works around shells that cannot unset nonexistent variables.
+	# Preserve -v and -x to the replacement shell.
+	BASH_ENV=/dev/null
+	ENV=/dev/null
+	(unset BASH_ENV) >/dev/null 2>&1 && unset BASH_ENV ENV
+	export CONFIG_SHELL
+	case $- in # ((((
+	  *v*x* | *x*v* ) as_opts=-vx ;;
+	  *v* ) as_opts=-v ;;
+	  *x* ) as_opts=-x ;;
+	  * ) as_opts= ;;
+	esac
+	exec "$CONFIG_SHELL" $as_opts "$as_myself" ${1+"$@"}
+fi
+
+    if test x$as_have_required = xno; then :
+  $as_echo "$0: This script requires a shell more modern than all"
+  $as_echo "$0: the shells that I found on your system."
+  if test x${ZSH_VERSION+set} = xset ; then
+    $as_echo "$0: In particular, zsh $ZSH_VERSION has bugs and should"
+    $as_echo "$0: be upgraded to zsh 4.3.4 or later."
+  else
+    $as_echo "$0: Please tell bug-autoconf@gnu.org and
+$0: eddys@janelia.hhmi.org about your system, including any
+$0: error possibly output before this message. Then install
+$0: a modern shell, or manually run the script under such a
+$0: shell if you do have one."
+  fi
+  exit 1
+fi
+fi
+fi
+SHELL=${CONFIG_SHELL-/bin/sh}
+export SHELL
+# Unset more variables known to interfere with behavior of common tools.
+CLICOLOR_FORCE= GREP_OPTIONS=
+unset CLICOLOR_FORCE GREP_OPTIONS
+
+## --------------------- ##
+## M4sh Shell Functions. ##
+## --------------------- ##
+# as_fn_unset VAR
+# ---------------
+# Portably unset VAR.
+as_fn_unset ()
+{
+  { eval $1=; unset $1;}
+}
+as_unset=as_fn_unset
+
+# as_fn_set_status STATUS
+# -----------------------
+# Set $? to STATUS, without forking.
+as_fn_set_status ()
+{
+  return $1
+} # as_fn_set_status
+
+# as_fn_exit STATUS
+# -----------------
+# Exit the shell with STATUS, even in a "trap 0" or "set -e" context.
+as_fn_exit ()
+{
+  set +e
+  as_fn_set_status $1
+  exit $1
+} # as_fn_exit
+
+# as_fn_mkdir_p
+# -------------
+# Create "$as_dir" as a directory, including parents if necessary.
+as_fn_mkdir_p ()
+{
+
+  case $as_dir in #(
+  -*) as_dir=./$as_dir;;
+  esac
+  test -d "$as_dir" || eval $as_mkdir_p || {
+    as_dirs=
+    while :; do
+      case $as_dir in #(
+      *\'*) as_qdir=`$as_echo "$as_dir" | sed "s/'/'\\\\\\\\''/g"`;; #'(
+      *) as_qdir=$as_dir;;
+      esac
+      as_dirs="'$as_qdir' $as_dirs"
+      as_dir=`$as_dirname -- "$as_dir" ||
+$as_expr X"$as_dir" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$as_dir" : 'X\(//\)[^/]' \| \
+	 X"$as_dir" : 'X\(//\)$' \| \
+	 X"$as_dir" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$as_dir" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+      test -d "$as_dir" && break
+    done
+    test -z "$as_dirs" || eval "mkdir $as_dirs"
+  } || test -d "$as_dir" || as_fn_error $? "cannot create directory $as_dir"
+
+
+} # as_fn_mkdir_p
+# as_fn_append VAR VALUE
+# ----------------------
+# Append the text in VALUE to the end of the definition contained in VAR. Take
+# advantage of any shell optimizations that allow amortized linear growth over
+# repeated appends, instead of the typical quadratic growth present in naive
+# implementations.
+if (eval "as_var=1; as_var+=2; test x\$as_var = x12") 2>/dev/null; then :
+  eval 'as_fn_append ()
+  {
+    eval $1+=\$2
+  }'
+else
+  as_fn_append ()
+  {
+    eval $1=\$$1\$2
+  }
+fi # as_fn_append
+
+# as_fn_arith ARG...
+# ------------------
+# Perform arithmetic evaluation on the ARGs, and store the result in the
+# global $as_val. Take advantage of shells that can avoid forks. The arguments
+# must be portable across $(()) and expr.
+if (eval "test \$(( 1 + 1 )) = 2") 2>/dev/null; then :
+  eval 'as_fn_arith ()
+  {
+    as_val=$(( $* ))
+  }'
+else
+  as_fn_arith ()
+  {
+    as_val=`expr "$@" || test $? -eq 1`
+  }
+fi # as_fn_arith
+
+
+# as_fn_error STATUS ERROR [LINENO LOG_FD]
+# ----------------------------------------
+# Output "`basename $0`: error: ERROR" to stderr. If LINENO and LOG_FD are
+# provided, also output the error to LOG_FD, referencing LINENO. Then exit the
+# script with STATUS, using 1 if that was 0.
+as_fn_error ()
+{
+  as_status=$1; test $as_status -eq 0 && as_status=1
+  if test "$4"; then
+    as_lineno=${as_lineno-"$3"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+    $as_echo "$as_me:${as_lineno-$LINENO}: error: $2" >&$4
+  fi
+  $as_echo "$as_me: error: $2" >&2
+  as_fn_exit $as_status
+} # as_fn_error
+
+if expr a : '\(a\)' >/dev/null 2>&1 &&
+   test "X`expr 00001 : '.*\(...\)'`" = X001; then
+  as_expr=expr
+else
+  as_expr=false
+fi
+
+if (basename -- /) >/dev/null 2>&1 && test "X`basename -- / 2>&1`" = "X/"; then
+  as_basename=basename
+else
+  as_basename=false
+fi
+
+if (as_dir=`dirname -- /` && test "X$as_dir" = X/) >/dev/null 2>&1; then
+  as_dirname=dirname
+else
+  as_dirname=false
+fi
+
+as_me=`$as_basename -- "$0" ||
+$as_expr X/"$0" : '.*/\([^/][^/]*\)/*$' \| \
+	 X"$0" : 'X\(//\)$' \| \
+	 X"$0" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X/"$0" |
+    sed '/^.*\/\([^/][^/]*\)\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+
+# Avoid depending upon Character Ranges.
+as_cr_letters='abcdefghijklmnopqrstuvwxyz'
+as_cr_LETTERS='ABCDEFGHIJKLMNOPQRSTUVWXYZ'
+as_cr_Letters=$as_cr_letters$as_cr_LETTERS
+as_cr_digits='0123456789'
+as_cr_alnum=$as_cr_Letters$as_cr_digits
+
+
+  as_lineno_1=$LINENO as_lineno_1a=$LINENO
+  as_lineno_2=$LINENO as_lineno_2a=$LINENO
+  eval 'test "x$as_lineno_1'$as_run'" != "x$as_lineno_2'$as_run'" &&
+  test "x`expr $as_lineno_1'$as_run' + 1`" = "x$as_lineno_2'$as_run'"' || {
+  # Blame Lee E. McMahon (1931-1989) for sed's syntax.  :-)
+  sed -n '
+    p
+    /[$]LINENO/=
+  ' <$as_myself |
+    sed '
+      s/[$]LINENO.*/&-/
+      t lineno
+      b
+      :lineno
+      N
+      :loop
+      s/[$]LINENO\([^'$as_cr_alnum'_].*\n\)\(.*\)/\2\1\2/
+      t loop
+      s/-\n.*//
+    ' >$as_me.lineno &&
+  chmod +x "$as_me.lineno" ||
+    { $as_echo "$as_me: error: cannot create $as_me.lineno; rerun with a POSIX shell" >&2; as_fn_exit 1; }
+
+  # Don't try to exec as it changes $[0], causing all sort of problems
+  # (the dirname of $[0] is not the place where we might find the
+  # original and so on.  Autoconf is especially sensitive to this).
+  . "./$as_me.lineno"
+  # Exit status is that of the last command.
+  exit
+}
+
+ECHO_C= ECHO_N= ECHO_T=
+case `echo -n x` in #(((((
+-n*)
+  case `echo 'xy\c'` in
+  *c*) ECHO_T='	';;	# ECHO_T is single tab character.
+  xy)  ECHO_C='\c';;
+  *)   echo `echo ksh88 bug on AIX 6.1` > /dev/null
+       ECHO_T='	';;
+  esac;;
+*)
+  ECHO_N='-n';;
+esac
+
+rm -f conf$$ conf$$.exe conf$$.file
+if test -d conf$$.dir; then
+  rm -f conf$$.dir/conf$$.file
+else
+  rm -f conf$$.dir
+  mkdir conf$$.dir 2>/dev/null
+fi
+if (echo >conf$$.file) 2>/dev/null; then
+  if ln -s conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s='ln -s'
+    # ... but there are two gotchas:
+    # 1) On MSYS, both `ln -s file dir' and `ln file dir' fail.
+    # 2) DJGPP < 2.04 has no symlinks; `ln -s' creates a wrapper executable.
+    # In both cases, we have to default to `cp -p'.
+    ln -s conf$$.file conf$$.dir 2>/dev/null && test ! -f conf$$.exe ||
+      as_ln_s='cp -p'
+  elif ln conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s=ln
+  else
+    as_ln_s='cp -p'
+  fi
+else
+  as_ln_s='cp -p'
+fi
+rm -f conf$$ conf$$.exe conf$$.dir/conf$$.file conf$$.file
+rmdir conf$$.dir 2>/dev/null
+
+if mkdir -p . 2>/dev/null; then
+  as_mkdir_p='mkdir -p "$as_dir"'
+else
+  test -d ./-p && rmdir ./-p
+  as_mkdir_p=false
+fi
+
+if test -x / >/dev/null 2>&1; then
+  as_test_x='test -x'
+else
+  if ls -dL / >/dev/null 2>&1; then
+    as_ls_L_option=L
+  else
+    as_ls_L_option=
+  fi
+  as_test_x='
+    eval sh -c '\''
+      if test -d "$1"; then
+	test -d "$1/.";
+      else
+	case $1 in #(
+	-*)set "./$1";;
+	esac;
+	case `ls -ld'$as_ls_L_option' "$1" 2>/dev/null` in #((
+	???[sx]*):;;*)false;;esac;fi
+    '\'' sh
+  '
+fi
+as_executable_p=$as_test_x
+
+# Sed expression to map a string onto a valid CPP name.
+as_tr_cpp="eval sed 'y%*$as_cr_letters%P$as_cr_LETTERS%;s%[^_$as_cr_alnum]%_%g'"
+
+# Sed expression to map a string onto a valid variable name.
+as_tr_sh="eval sed 'y%*+%pp%;s%[^_$as_cr_alnum]%_%g'"
+
+
+test -n "$DJDIR" || exec 7<&0 </dev/null
+exec 6>&1
+
+# Name of the host.
+# hostname on some systems (SVR3.2, old GNU/Linux) returns a bogus exit status,
+# so uname gets run too.
+ac_hostname=`(hostname || uname -n) 2>/dev/null | sed 1q`
+
+#
+# Initializations.
+#
+ac_default_prefix=/usr/local
+ac_clean_files=
+ac_config_libobj_dir=.
+LIBOBJS=
+cross_compiling=no
+subdirs=
+MFLAGS=
+MAKEFLAGS=
+
+# Identity of this package.
+PACKAGE_NAME='Easel'
+PACKAGE_TARNAME='easel'
+PACKAGE_VERSION='0.2.snap20130225'
+PACKAGE_STRING='Easel 0.2.snap20130225'
+PACKAGE_BUGREPORT='eddys@janelia.hhmi.org'
+PACKAGE_URL=''
+
+# Factoring default headers for most tests.
+ac_includes_default="\
+#include <stdio.h>
+#ifdef HAVE_SYS_TYPES_H
+# include <sys/types.h>
+#endif
+#ifdef HAVE_SYS_STAT_H
+# include <sys/stat.h>
+#endif
+#ifdef STDC_HEADERS
+# include <stdlib.h>
+# include <stddef.h>
+#else
+# ifdef HAVE_STDLIB_H
+#  include <stdlib.h>
+# endif
+#endif
+#ifdef HAVE_STRING_H
+# if !defined STDC_HEADERS && defined HAVE_MEMORY_H
+#  include <memory.h>
+# endif
+# include <string.h>
+#endif
+#ifdef HAVE_STRINGS_H
+# include <strings.h>
+#endif
+#ifdef HAVE_INTTYPES_H
+# include <inttypes.h>
+#endif
+#ifdef HAVE_STDINT_H
+# include <stdint.h>
+#endif
+#ifdef HAVE_UNISTD_H
+# include <unistd.h>
+#endif"
+
+ac_subst_vars='LTLIBOBJS
+LIBOBJS
+LIBGSL
+HAVE_GZIP
+SIMD_CFLAGS
+EGREP
+GREP
+PIC_FLAGS
+PRTDIAG
+SED
+EXEC_DEPENDENCY
+AR
+RANLIB
+CPP
+MPILIBS
+MPICC
+INSTALL_DATA
+INSTALL_SCRIPT
+INSTALL_PROGRAM
+PTHREAD_CFLAGS
+PTHREAD_LIBS
+PTHREAD_CC
+acx_pthread_config
+OBJEXT
+EXEEXT
+ac_ct_CC
+CPPFLAGS
+LDFLAGS
+CFLAGS
+CC
+host_os
+host_vendor
+host_cpu
+host
+build_os
+build_vendor
+build_cpu
+build
+EASEL_URL
+EASEL_VERSION
+EASEL_LICENSE
+EASEL_COPYRIGHT
+EASEL_DATE
+target_alias
+host_alias
+build_alias
+LIBS
+ECHO_T
+ECHO_N
+ECHO_C
+DEFS
+mandir
+localedir
+libdir
+psdir
+pdfdir
+dvidir
+htmldir
+infodir
+docdir
+oldincludedir
+includedir
+localstatedir
+sharedstatedir
+sysconfdir
+datadir
+datarootdir
+libexecdir
+sbindir
+bindir
+program_transform_name
+prefix
+exec_prefix
+PACKAGE_URL
+PACKAGE_BUGREPORT
+PACKAGE_STRING
+PACKAGE_VERSION
+PACKAGE_TARNAME
+PACKAGE_NAME
+PATH_SEPARATOR
+SHELL'
+ac_subst_files=''
+ac_user_opts='
+enable_option_checking
+enable_modular
+enable_debugging
+enable_threads
+enable_gcov
+enable_sse
+enable_vmx
+with_gsl
+enable_mpi
+with_xlc_arch
+enable_portable_binary
+with_gcc_arch
+enable_pic
+enable_largefile
+'
+      ac_precious_vars='build_alias
+host_alias
+target_alias
+CC
+CFLAGS
+LDFLAGS
+LIBS
+CPPFLAGS
+MPICC
+CPP
+PIC_FLAGS'
+
+
+# Initialize some variables set by options.
+ac_init_help=
+ac_init_version=false
+ac_unrecognized_opts=
+ac_unrecognized_sep=
+# The variables have the same names as the options, with
+# dashes changed to underlines.
+cache_file=/dev/null
+exec_prefix=NONE
+no_create=
+no_recursion=
+prefix=NONE
+program_prefix=NONE
+program_suffix=NONE
+program_transform_name=s,x,x,
+silent=
+site=
+srcdir=
+verbose=
+x_includes=NONE
+x_libraries=NONE
+
+# Installation directory options.
+# These are left unexpanded so users can "make install exec_prefix=/foo"
+# and all the variables that are supposed to be based on exec_prefix
+# by default will actually change.
+# Use braces instead of parens because sh, perl, etc. also accept them.
+# (The list follows the same order as the GNU Coding Standards.)
+bindir='${exec_prefix}/bin'
+sbindir='${exec_prefix}/sbin'
+libexecdir='${exec_prefix}/libexec'
+datarootdir='${prefix}/share'
+datadir='${datarootdir}'
+sysconfdir='${prefix}/etc'
+sharedstatedir='${prefix}/com'
+localstatedir='${prefix}/var'
+includedir='${prefix}/include'
+oldincludedir='/usr/include'
+docdir='${datarootdir}/doc/${PACKAGE_TARNAME}'
+infodir='${datarootdir}/info'
+htmldir='${docdir}'
+dvidir='${docdir}'
+pdfdir='${docdir}'
+psdir='${docdir}'
+libdir='${exec_prefix}/lib'
+localedir='${datarootdir}/locale'
+mandir='${datarootdir}/man'
+
+ac_prev=
+ac_dashdash=
+for ac_option
+do
+  # If the previous option needs an argument, assign it.
+  if test -n "$ac_prev"; then
+    eval $ac_prev=\$ac_option
+    ac_prev=
+    continue
+  fi
+
+  case $ac_option in
+  *=?*) ac_optarg=`expr "X$ac_option" : '[^=]*=\(.*\)'` ;;
+  *=)   ac_optarg= ;;
+  *)    ac_optarg=yes ;;
+  esac
+
+  # Accept the important Cygnus configure options, so we can diagnose typos.
+
+  case $ac_dashdash$ac_option in
+  --)
+    ac_dashdash=yes ;;
+
+  -bindir | --bindir | --bindi | --bind | --bin | --bi)
+    ac_prev=bindir ;;
+  -bindir=* | --bindir=* | --bindi=* | --bind=* | --bin=* | --bi=*)
+    bindir=$ac_optarg ;;
+
+  -build | --build | --buil | --bui | --bu)
+    ac_prev=build_alias ;;
+  -build=* | --build=* | --buil=* | --bui=* | --bu=*)
+    build_alias=$ac_optarg ;;
+
+  -cache-file | --cache-file | --cache-fil | --cache-fi \
+  | --cache-f | --cache- | --cache | --cach | --cac | --ca | --c)
+    ac_prev=cache_file ;;
+  -cache-file=* | --cache-file=* | --cache-fil=* | --cache-fi=* \
+  | --cache-f=* | --cache-=* | --cache=* | --cach=* | --cac=* | --ca=* | --c=*)
+    cache_file=$ac_optarg ;;
+
+  --config-cache | -C)
+    cache_file=config.cache ;;
+
+  -datadir | --datadir | --datadi | --datad)
+    ac_prev=datadir ;;
+  -datadir=* | --datadir=* | --datadi=* | --datad=*)
+    datadir=$ac_optarg ;;
+
+  -datarootdir | --datarootdir | --datarootdi | --datarootd | --dataroot \
+  | --dataroo | --dataro | --datar)
+    ac_prev=datarootdir ;;
+  -datarootdir=* | --datarootdir=* | --datarootdi=* | --datarootd=* \
+  | --dataroot=* | --dataroo=* | --dataro=* | --datar=*)
+    datarootdir=$ac_optarg ;;
+
+  -disable-* | --disable-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*disable-\(.*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid feature name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"enable_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--disable-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval enable_$ac_useropt=no ;;
+
+  -docdir | --docdir | --docdi | --doc | --do)
+    ac_prev=docdir ;;
+  -docdir=* | --docdir=* | --docdi=* | --doc=* | --do=*)
+    docdir=$ac_optarg ;;
+
+  -dvidir | --dvidir | --dvidi | --dvid | --dvi | --dv)
+    ac_prev=dvidir ;;
+  -dvidir=* | --dvidir=* | --dvidi=* | --dvid=* | --dvi=* | --dv=*)
+    dvidir=$ac_optarg ;;
+
+  -enable-* | --enable-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*enable-\([^=]*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid feature name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"enable_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--enable-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval enable_$ac_useropt=\$ac_optarg ;;
+
+  -exec-prefix | --exec_prefix | --exec-prefix | --exec-prefi \
+  | --exec-pref | --exec-pre | --exec-pr | --exec-p | --exec- \
+  | --exec | --exe | --ex)
+    ac_prev=exec_prefix ;;
+  -exec-prefix=* | --exec_prefix=* | --exec-prefix=* | --exec-prefi=* \
+  | --exec-pref=* | --exec-pre=* | --exec-pr=* | --exec-p=* | --exec-=* \
+  | --exec=* | --exe=* | --ex=*)
+    exec_prefix=$ac_optarg ;;
+
+  -gas | --gas | --ga | --g)
+    # Obsolete; use --with-gas.
+    with_gas=yes ;;
+
+  -help | --help | --hel | --he | -h)
+    ac_init_help=long ;;
+  -help=r* | --help=r* | --hel=r* | --he=r* | -hr*)
+    ac_init_help=recursive ;;
+  -help=s* | --help=s* | --hel=s* | --he=s* | -hs*)
+    ac_init_help=short ;;
+
+  -host | --host | --hos | --ho)
+    ac_prev=host_alias ;;
+  -host=* | --host=* | --hos=* | --ho=*)
+    host_alias=$ac_optarg ;;
+
+  -htmldir | --htmldir | --htmldi | --htmld | --html | --htm | --ht)
+    ac_prev=htmldir ;;
+  -htmldir=* | --htmldir=* | --htmldi=* | --htmld=* | --html=* | --htm=* \
+  | --ht=*)
+    htmldir=$ac_optarg ;;
+
+  -includedir | --includedir | --includedi | --included | --include \
+  | --includ | --inclu | --incl | --inc)
+    ac_prev=includedir ;;
+  -includedir=* | --includedir=* | --includedi=* | --included=* | --include=* \
+  | --includ=* | --inclu=* | --incl=* | --inc=*)
+    includedir=$ac_optarg ;;
+
+  -infodir | --infodir | --infodi | --infod | --info | --inf)
+    ac_prev=infodir ;;
+  -infodir=* | --infodir=* | --infodi=* | --infod=* | --info=* | --inf=*)
+    infodir=$ac_optarg ;;
+
+  -libdir | --libdir | --libdi | --libd)
+    ac_prev=libdir ;;
+  -libdir=* | --libdir=* | --libdi=* | --libd=*)
+    libdir=$ac_optarg ;;
+
+  -libexecdir | --libexecdir | --libexecdi | --libexecd | --libexec \
+  | --libexe | --libex | --libe)
+    ac_prev=libexecdir ;;
+  -libexecdir=* | --libexecdir=* | --libexecdi=* | --libexecd=* | --libexec=* \
+  | --libexe=* | --libex=* | --libe=*)
+    libexecdir=$ac_optarg ;;
+
+  -localedir | --localedir | --localedi | --localed | --locale)
+    ac_prev=localedir ;;
+  -localedir=* | --localedir=* | --localedi=* | --localed=* | --locale=*)
+    localedir=$ac_optarg ;;
+
+  -localstatedir | --localstatedir | --localstatedi | --localstated \
+  | --localstate | --localstat | --localsta | --localst | --locals)
+    ac_prev=localstatedir ;;
+  -localstatedir=* | --localstatedir=* | --localstatedi=* | --localstated=* \
+  | --localstate=* | --localstat=* | --localsta=* | --localst=* | --locals=*)
+    localstatedir=$ac_optarg ;;
+
+  -mandir | --mandir | --mandi | --mand | --man | --ma | --m)
+    ac_prev=mandir ;;
+  -mandir=* | --mandir=* | --mandi=* | --mand=* | --man=* | --ma=* | --m=*)
+    mandir=$ac_optarg ;;
+
+  -nfp | --nfp | --nf)
+    # Obsolete; use --without-fp.
+    with_fp=no ;;
+
+  -no-create | --no-create | --no-creat | --no-crea | --no-cre \
+  | --no-cr | --no-c | -n)
+    no_create=yes ;;
+
+  -no-recursion | --no-recursion | --no-recursio | --no-recursi \
+  | --no-recurs | --no-recur | --no-recu | --no-rec | --no-re | --no-r)
+    no_recursion=yes ;;
+
+  -oldincludedir | --oldincludedir | --oldincludedi | --oldincluded \
+  | --oldinclude | --oldinclud | --oldinclu | --oldincl | --oldinc \
+  | --oldin | --oldi | --old | --ol | --o)
+    ac_prev=oldincludedir ;;
+  -oldincludedir=* | --oldincludedir=* | --oldincludedi=* | --oldincluded=* \
+  | --oldinclude=* | --oldinclud=* | --oldinclu=* | --oldincl=* | --oldinc=* \
+  | --oldin=* | --oldi=* | --old=* | --ol=* | --o=*)
+    oldincludedir=$ac_optarg ;;
+
+  -prefix | --prefix | --prefi | --pref | --pre | --pr | --p)
+    ac_prev=prefix ;;
+  -prefix=* | --prefix=* | --prefi=* | --pref=* | --pre=* | --pr=* | --p=*)
+    prefix=$ac_optarg ;;
+
+  -program-prefix | --program-prefix | --program-prefi | --program-pref \
+  | --program-pre | --program-pr | --program-p)
+    ac_prev=program_prefix ;;
+  -program-prefix=* | --program-prefix=* | --program-prefi=* \
+  | --program-pref=* | --program-pre=* | --program-pr=* | --program-p=*)
+    program_prefix=$ac_optarg ;;
+
+  -program-suffix | --program-suffix | --program-suffi | --program-suff \
+  | --program-suf | --program-su | --program-s)
+    ac_prev=program_suffix ;;
+  -program-suffix=* | --program-suffix=* | --program-suffi=* \
+  | --program-suff=* | --program-suf=* | --program-su=* | --program-s=*)
+    program_suffix=$ac_optarg ;;
+
+  -program-transform-name | --program-transform-name \
+  | --program-transform-nam | --program-transform-na \
+  | --program-transform-n | --program-transform- \
+  | --program-transform | --program-transfor \
+  | --program-transfo | --program-transf \
+  | --program-trans | --program-tran \
+  | --progr-tra | --program-tr | --program-t)
+    ac_prev=program_transform_name ;;
+  -program-transform-name=* | --program-transform-name=* \
+  | --program-transform-nam=* | --program-transform-na=* \
+  | --program-transform-n=* | --program-transform-=* \
+  | --program-transform=* | --program-transfor=* \
+  | --program-transfo=* | --program-transf=* \
+  | --program-trans=* | --program-tran=* \
+  | --progr-tra=* | --program-tr=* | --program-t=*)
+    program_transform_name=$ac_optarg ;;
+
+  -pdfdir | --pdfdir | --pdfdi | --pdfd | --pdf | --pd)
+    ac_prev=pdfdir ;;
+  -pdfdir=* | --pdfdir=* | --pdfdi=* | --pdfd=* | --pdf=* | --pd=*)
+    pdfdir=$ac_optarg ;;
+
+  -psdir | --psdir | --psdi | --psd | --ps)
+    ac_prev=psdir ;;
+  -psdir=* | --psdir=* | --psdi=* | --psd=* | --ps=*)
+    psdir=$ac_optarg ;;
+
+  -q | -quiet | --quiet | --quie | --qui | --qu | --q \
+  | -silent | --silent | --silen | --sile | --sil)
+    silent=yes ;;
+
+  -sbindir | --sbindir | --sbindi | --sbind | --sbin | --sbi | --sb)
+    ac_prev=sbindir ;;
+  -sbindir=* | --sbindir=* | --sbindi=* | --sbind=* | --sbin=* \
+  | --sbi=* | --sb=*)
+    sbindir=$ac_optarg ;;
+
+  -sharedstatedir | --sharedstatedir | --sharedstatedi \
+  | --sharedstated | --sharedstate | --sharedstat | --sharedsta \
+  | --sharedst | --shareds | --shared | --share | --shar \
+  | --sha | --sh)
+    ac_prev=sharedstatedir ;;
+  -sharedstatedir=* | --sharedstatedir=* | --sharedstatedi=* \
+  | --sharedstated=* | --sharedstate=* | --sharedstat=* | --sharedsta=* \
+  | --sharedst=* | --shareds=* | --shared=* | --share=* | --shar=* \
+  | --sha=* | --sh=*)
+    sharedstatedir=$ac_optarg ;;
+
+  -site | --site | --sit)
+    ac_prev=site ;;
+  -site=* | --site=* | --sit=*)
+    site=$ac_optarg ;;
+
+  -srcdir | --srcdir | --srcdi | --srcd | --src | --sr)
+    ac_prev=srcdir ;;
+  -srcdir=* | --srcdir=* | --srcdi=* | --srcd=* | --src=* | --sr=*)
+    srcdir=$ac_optarg ;;
+
+  -sysconfdir | --sysconfdir | --sysconfdi | --sysconfd | --sysconf \
+  | --syscon | --sysco | --sysc | --sys | --sy)
+    ac_prev=sysconfdir ;;
+  -sysconfdir=* | --sysconfdir=* | --sysconfdi=* | --sysconfd=* | --sysconf=* \
+  | --syscon=* | --sysco=* | --sysc=* | --sys=* | --sy=*)
+    sysconfdir=$ac_optarg ;;
+
+  -target | --target | --targe | --targ | --tar | --ta | --t)
+    ac_prev=target_alias ;;
+  -target=* | --target=* | --targe=* | --targ=* | --tar=* | --ta=* | --t=*)
+    target_alias=$ac_optarg ;;
+
+  -v | -verbose | --verbose | --verbos | --verbo | --verb)
+    verbose=yes ;;
+
+  -version | --version | --versio | --versi | --vers | -V)
+    ac_init_version=: ;;
+
+  -with-* | --with-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*with-\([^=]*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid package name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"with_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--with-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval with_$ac_useropt=\$ac_optarg ;;
+
+  -without-* | --without-*)
+    ac_useropt=`expr "x$ac_option" : 'x-*without-\(.*\)'`
+    # Reject names that are not valid shell variable names.
+    expr "x$ac_useropt" : ".*[^-+._$as_cr_alnum]" >/dev/null &&
+      as_fn_error $? "invalid package name: $ac_useropt"
+    ac_useropt_orig=$ac_useropt
+    ac_useropt=`$as_echo "$ac_useropt" | sed 's/[-+.]/_/g'`
+    case $ac_user_opts in
+      *"
+"with_$ac_useropt"
+"*) ;;
+      *) ac_unrecognized_opts="$ac_unrecognized_opts$ac_unrecognized_sep--without-$ac_useropt_orig"
+	 ac_unrecognized_sep=', ';;
+    esac
+    eval with_$ac_useropt=no ;;
+
+  --x)
+    # Obsolete; use --with-x.
+    with_x=yes ;;
+
+  -x-includes | --x-includes | --x-include | --x-includ | --x-inclu \
+  | --x-incl | --x-inc | --x-in | --x-i)
+    ac_prev=x_includes ;;
+  -x-includes=* | --x-includes=* | --x-include=* | --x-includ=* | --x-inclu=* \
+  | --x-incl=* | --x-inc=* | --x-in=* | --x-i=*)
+    x_includes=$ac_optarg ;;
+
+  -x-libraries | --x-libraries | --x-librarie | --x-librari \
+  | --x-librar | --x-libra | --x-libr | --x-lib | --x-li | --x-l)
+    ac_prev=x_libraries ;;
+  -x-libraries=* | --x-libraries=* | --x-librarie=* | --x-librari=* \
+  | --x-librar=* | --x-libra=* | --x-libr=* | --x-lib=* | --x-li=* | --x-l=*)
+    x_libraries=$ac_optarg ;;
+
+  -*) as_fn_error $? "unrecognized option: \`$ac_option'
+Try \`$0 --help' for more information"
+    ;;
+
+  *=*)
+    ac_envvar=`expr "x$ac_option" : 'x\([^=]*\)='`
+    # Reject names that are not valid shell variable names.
+    case $ac_envvar in #(
+      '' | [0-9]* | *[!_$as_cr_alnum]* )
+      as_fn_error $? "invalid variable name: \`$ac_envvar'" ;;
+    esac
+    eval $ac_envvar=\$ac_optarg
+    export $ac_envvar ;;
+
+  *)
+    # FIXME: should be removed in autoconf 3.0.
+    $as_echo "$as_me: WARNING: you should use --build, --host, --target" >&2
+    expr "x$ac_option" : ".*[^-._$as_cr_alnum]" >/dev/null &&
+      $as_echo "$as_me: WARNING: invalid host type: $ac_option" >&2
+    : "${build_alias=$ac_option} ${host_alias=$ac_option} ${target_alias=$ac_option}"
+    ;;
+
+  esac
+done
+
+if test -n "$ac_prev"; then
+  ac_option=--`echo $ac_prev | sed 's/_/-/g'`
+  as_fn_error $? "missing argument to $ac_option"
+fi
+
+if test -n "$ac_unrecognized_opts"; then
+  case $enable_option_checking in
+    no) ;;
+    fatal) as_fn_error $? "unrecognized options: $ac_unrecognized_opts" ;;
+    *)     $as_echo "$as_me: WARNING: unrecognized options: $ac_unrecognized_opts" >&2 ;;
+  esac
+fi
+
+# Check all directory arguments for consistency.
+for ac_var in	exec_prefix prefix bindir sbindir libexecdir datarootdir \
+		datadir sysconfdir sharedstatedir localstatedir includedir \
+		oldincludedir docdir infodir htmldir dvidir pdfdir psdir \
+		libdir localedir mandir
+do
+  eval ac_val=\$$ac_var
+  # Remove trailing slashes.
+  case $ac_val in
+    */ )
+      ac_val=`expr "X$ac_val" : 'X\(.*[^/]\)' \| "X$ac_val" : 'X\(.*\)'`
+      eval $ac_var=\$ac_val;;
+  esac
+  # Be sure to have absolute directory names.
+  case $ac_val in
+    [\\/$]* | ?:[\\/]* )  continue;;
+    NONE | '' ) case $ac_var in *prefix ) continue;; esac;;
+  esac
+  as_fn_error $? "expected an absolute directory name for --$ac_var: $ac_val"
+done
+
+# There might be people who depend on the old broken behavior: `$host'
+# used to hold the argument of --host etc.
+# FIXME: To remove some day.
+build=$build_alias
+host=$host_alias
+target=$target_alias
+
+# FIXME: To remove some day.
+if test "x$host_alias" != x; then
+  if test "x$build_alias" = x; then
+    cross_compiling=maybe
+    $as_echo "$as_me: WARNING: if you wanted to set the --build type, don't use --host.
+    If a cross compiler is detected then cross compile mode will be used" >&2
+  elif test "x$build_alias" != "x$host_alias"; then
+    cross_compiling=yes
+  fi
+fi
+
+ac_tool_prefix=
+test -n "$host_alias" && ac_tool_prefix=$host_alias-
+
+test "$silent" = yes && exec 6>/dev/null
+
+
+ac_pwd=`pwd` && test -n "$ac_pwd" &&
+ac_ls_di=`ls -di .` &&
+ac_pwd_ls_di=`cd "$ac_pwd" && ls -di .` ||
+  as_fn_error $? "working directory cannot be determined"
+test "X$ac_ls_di" = "X$ac_pwd_ls_di" ||
+  as_fn_error $? "pwd does not report name of working directory"
+
+
+# Find the source files, if location was not specified.
+if test -z "$srcdir"; then
+  ac_srcdir_defaulted=yes
+  # Try the directory containing this script, then the parent directory.
+  ac_confdir=`$as_dirname -- "$as_myself" ||
+$as_expr X"$as_myself" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$as_myself" : 'X\(//\)[^/]' \| \
+	 X"$as_myself" : 'X\(//\)$' \| \
+	 X"$as_myself" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$as_myself" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+  srcdir=$ac_confdir
+  if test ! -r "$srcdir/$ac_unique_file"; then
+    srcdir=..
+  fi
+else
+  ac_srcdir_defaulted=no
+fi
+if test ! -r "$srcdir/$ac_unique_file"; then
+  test "$ac_srcdir_defaulted" = yes && srcdir="$ac_confdir or .."
+  as_fn_error $? "cannot find sources ($ac_unique_file) in $srcdir"
+fi
+ac_msg="sources are in $srcdir, but \`cd $srcdir' does not work"
+ac_abs_confdir=`(
+	cd "$srcdir" && test -r "./$ac_unique_file" || as_fn_error $? "$ac_msg"
+	pwd)`
+# When building in place, set srcdir=.
+if test "$ac_abs_confdir" = "$ac_pwd"; then
+  srcdir=.
+fi
+# Remove unnecessary trailing slashes from srcdir.
+# Double slashes in file names in object file debugging info
+# mess up M-x gdb in Emacs.
+case $srcdir in
+*/) srcdir=`expr "X$srcdir" : 'X\(.*[^/]\)' \| "X$srcdir" : 'X\(.*\)'`;;
+esac
+for ac_var in $ac_precious_vars; do
+  eval ac_env_${ac_var}_set=\${${ac_var}+set}
+  eval ac_env_${ac_var}_value=\$${ac_var}
+  eval ac_cv_env_${ac_var}_set=\${${ac_var}+set}
+  eval ac_cv_env_${ac_var}_value=\$${ac_var}
+done
+
+#
+# Report the --help message.
+#
+if test "$ac_init_help" = "long"; then
+  # Omit some internal or obsolete options to make the list less imposing.
+  # This message is too long to be a string in the A/UX 3.1 sh.
+  cat <<_ACEOF
+\`configure' configures Easel 0.2.snap20130225 to adapt to many kinds of systems.
+
+Usage: $0 [OPTION]... [VAR=VALUE]...
+
+To assign environment variables (e.g., CC, CFLAGS...), specify them as
+VAR=VALUE.  See below for descriptions of some of the useful variables.
+
+Defaults for the options are specified in brackets.
+
+Configuration:
+  -h, --help              display this help and exit
+      --help=short        display options specific to this package
+      --help=recursive    display the short help of all the included packages
+  -V, --version           display version information and exit
+  -q, --quiet, --silent   do not print \`checking ...' messages
+      --cache-file=FILE   cache test results in FILE [disabled]
+  -C, --config-cache      alias for \`--cache-file=config.cache'
+  -n, --no-create         do not create output files
+      --srcdir=DIR        find the sources in DIR [configure dir or \`..']
+
+Installation directories:
+  --prefix=PREFIX         install architecture-independent files in PREFIX
+                          [$ac_default_prefix]
+  --exec-prefix=EPREFIX   install architecture-dependent files in EPREFIX
+                          [PREFIX]
+
+By default, \`make install' will install all the files in
+\`$ac_default_prefix/bin', \`$ac_default_prefix/lib' etc.  You can specify
+an installation prefix other than \`$ac_default_prefix' using \`--prefix',
+for instance \`--prefix=\$HOME'.
+
+For better control, use the options below.
+
+Fine tuning of the installation directories:
+  --bindir=DIR            user executables [EPREFIX/bin]
+  --sbindir=DIR           system admin executables [EPREFIX/sbin]
+  --libexecdir=DIR        program executables [EPREFIX/libexec]
+  --sysconfdir=DIR        read-only single-machine data [PREFIX/etc]
+  --sharedstatedir=DIR    modifiable architecture-independent data [PREFIX/com]
+  --localstatedir=DIR     modifiable single-machine data [PREFIX/var]
+  --libdir=DIR            object code libraries [EPREFIX/lib]
+  --includedir=DIR        C header files [PREFIX/include]
+  --oldincludedir=DIR     C header files for non-gcc [/usr/include]
+  --datarootdir=DIR       read-only arch.-independent data root [PREFIX/share]
+  --datadir=DIR           read-only architecture-independent data [DATAROOTDIR]
+  --infodir=DIR           info documentation [DATAROOTDIR/info]
+  --localedir=DIR         locale-dependent data [DATAROOTDIR/locale]
+  --mandir=DIR            man documentation [DATAROOTDIR/man]
+  --docdir=DIR            documentation root [DATAROOTDIR/doc/easel]
+  --htmldir=DIR           html documentation [DOCDIR]
+  --dvidir=DIR            dvi documentation [DOCDIR]
+  --pdfdir=DIR            pdf documentation [DOCDIR]
+  --psdir=DIR             ps documentation [DOCDIR]
+_ACEOF
+
+  cat <<\_ACEOF
+
+System types:
+  --build=BUILD     configure for building on BUILD [guessed]
+  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
+_ACEOF
+fi
+
+if test -n "$ac_init_help"; then
+  case $ac_init_help in
+     short | recursive ) echo "Configuration of Easel 0.2.snap20130225:";;
+   esac
+  cat <<\_ACEOF
+
+Optional Features:
+  --disable-option-checking  ignore unrecognized --enable/--with options
+  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
+  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
+  --enable-modular        compile and prepare modules for standalone use
+  --enable-debugging      include debugging code
+  --enable-debugging=x    also set diagnostics verbosity level to <x> (1-3)
+  --enable-threads        enable POSIX multithreading support (default is
+                          check)
+  --enable-gcov           compile for code coverage testing
+  --enable-sse            enable SSE optimizations
+  --enable-vmx            enable Altivec/VMX optimizations
+  --enable-mpi            enable MPI parallelization
+  --enable-portable-binary
+                          disable compiler optimizations that would produce
+                          unportable binaries
+  --disable-pic           compile PIC objects [default=enabled for shared
+                          builds on supported platforms]
+  --disable-largefile     omit support for large files
+
+Optional Packages:
+  --with-PACKAGE[=ARG]    use PACKAGE [ARG=yes]
+  --without-PACKAGE       do not use PACKAGE (same as --with-PACKAGE=no)
+  --with-gsl              use the GSL, GNU Scientific Library
+  --with-xlc-arch=<arch>  specify architecture <arch> for xlc -qarch
+  --with-gcc-arch=<arch>  use architecture <arch> for gcc -march/-mtune,
+                          instead of guessing
+
+Some influential environment variables:
+  CC          C compiler command
+  CFLAGS      C compiler flags
+  LDFLAGS     linker flags, e.g. -L<lib dir> if you have libraries in a
+              nonstandard directory <lib dir>
+  LIBS        libraries to pass to the linker, e.g. -l<library>
+  CPPFLAGS    (Objective) C/C++ preprocessor flags, e.g. -I<include dir> if
+              you have headers in a nonstandard directory <include dir>
+  MPICC       MPI C compiler command
+  CPP         C preprocessor
+  PIC_FLAGS   compiler flags for PIC code
+
+Use these variables to override the choices made by `configure' or to help
+it to find libraries and programs with nonstandard names/locations.
+
+Report bugs to <eddys@janelia.hhmi.org>.
+_ACEOF
+ac_status=$?
+fi
+
+if test "$ac_init_help" = "recursive"; then
+  # If there are subdirs, report their specific --help.
+  for ac_dir in : $ac_subdirs_all; do test "x$ac_dir" = x: && continue
+    test -d "$ac_dir" ||
+      { cd "$srcdir" && ac_pwd=`pwd` && srcdir=. && test -d "$ac_dir"; } ||
+      continue
+    ac_builddir=.
+
+case "$ac_dir" in
+.) ac_dir_suffix= ac_top_builddir_sub=. ac_top_build_prefix= ;;
+*)
+  ac_dir_suffix=/`$as_echo "$ac_dir" | sed 's|^\.[\\/]||'`
+  # A ".." for each directory in $ac_dir_suffix.
+  ac_top_builddir_sub=`$as_echo "$ac_dir_suffix" | sed 's|/[^\\/]*|/..|g;s|/||'`
+  case $ac_top_builddir_sub in
+  "") ac_top_builddir_sub=. ac_top_build_prefix= ;;
+  *)  ac_top_build_prefix=$ac_top_builddir_sub/ ;;
+  esac ;;
+esac
+ac_abs_top_builddir=$ac_pwd
+ac_abs_builddir=$ac_pwd$ac_dir_suffix
+# for backward compatibility:
+ac_top_builddir=$ac_top_build_prefix
+
+case $srcdir in
+  .)  # We are building in place.
+    ac_srcdir=.
+    ac_top_srcdir=$ac_top_builddir_sub
+    ac_abs_top_srcdir=$ac_pwd ;;
+  [\\/]* | ?:[\\/]* )  # Absolute name.
+    ac_srcdir=$srcdir$ac_dir_suffix;
+    ac_top_srcdir=$srcdir
+    ac_abs_top_srcdir=$srcdir ;;
+  *) # Relative name.
+    ac_srcdir=$ac_top_build_prefix$srcdir$ac_dir_suffix
+    ac_top_srcdir=$ac_top_build_prefix$srcdir
+    ac_abs_top_srcdir=$ac_pwd/$srcdir ;;
+esac
+ac_abs_srcdir=$ac_abs_top_srcdir$ac_dir_suffix
+
+    cd "$ac_dir" || { ac_status=$?; continue; }
+    # Check for guested configure.
+    if test -f "$ac_srcdir/configure.gnu"; then
+      echo &&
+      $SHELL "$ac_srcdir/configure.gnu" --help=recursive
+    elif test -f "$ac_srcdir/configure"; then
+      echo &&
+      $SHELL "$ac_srcdir/configure" --help=recursive
+    else
+      $as_echo "$as_me: WARNING: no configuration information is in $ac_dir" >&2
+    fi || ac_status=$?
+    cd "$ac_pwd" || { ac_status=$?; break; }
+  done
+fi
+
+test -n "$ac_init_help" && exit $ac_status
+if $ac_init_version; then
+  cat <<\_ACEOF
+Easel configure 0.2.snap20130225
+generated by GNU Autoconf 2.68
+
+Copyright (C) 2010 Free Software Foundation, Inc.
+This configure script is free software; the Free Software Foundation
+gives unlimited permission to copy, distribute and modify it.
+_ACEOF
+  exit
+fi
+
+## ------------------------ ##
+## Autoconf initialization. ##
+## ------------------------ ##
+
+# ac_fn_c_try_compile LINENO
+# --------------------------
+# Try to compile conftest.$ac_ext, and return whether this succeeded.
+ac_fn_c_try_compile ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  rm -f conftest.$ac_objext
+  if { { ac_try="$ac_compile"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compile") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    grep -v '^ *+' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+    mv -f conftest.er1 conftest.err
+  fi
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } && {
+	 test -z "$ac_c_werror_flag" ||
+	 test ! -s conftest.err
+       } && test -s conftest.$ac_objext; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+	ac_retval=1
+fi
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_compile
+
+# ac_fn_c_try_link LINENO
+# -----------------------
+# Try to link conftest.$ac_ext, and return whether this succeeded.
+ac_fn_c_try_link ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  rm -f conftest.$ac_objext conftest$ac_exeext
+  if { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    grep -v '^ *+' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+    mv -f conftest.er1 conftest.err
+  fi
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } && {
+	 test -z "$ac_c_werror_flag" ||
+	 test ! -s conftest.err
+       } && test -s conftest$ac_exeext && {
+	 test "$cross_compiling" = yes ||
+	 $as_test_x conftest$ac_exeext
+       }; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+	ac_retval=1
+fi
+  # Delete the IPA/IPO (Inter Procedural Analysis/Optimization) information
+  # created by the PGI compiler (conftest_ipa8_conftest.oo), as it would
+  # interfere with the next link command; also delete a directory that is
+  # left behind by Apple's compiler.  We do this before executing the actions.
+  rm -rf conftest.dSYM conftest_ipa8_conftest.oo
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_link
+
+# ac_fn_c_check_func LINENO FUNC VAR
+# ----------------------------------
+# Tests whether FUNC exists, setting the cache variable VAR accordingly
+ac_fn_c_check_func ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+/* Define $2 to an innocuous variant, in case <limits.h> declares $2.
+   For example, HP-UX 11i <limits.h> declares gettimeofday.  */
+#define $2 innocuous_$2
+
+/* System header to define __stub macros and hopefully few prototypes,
+    which can conflict with char $2 (); below.
+    Prefer <limits.h> to <assert.h> if __STDC__ is defined, since
+    <limits.h> exists even on freestanding compilers.  */
+
+#ifdef __STDC__
+# include <limits.h>
+#else
+# include <assert.h>
+#endif
+
+#undef $2
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char $2 ();
+/* The GNU C library defines this for functions which it implements
+    to always fail with ENOSYS.  Some functions are actually named
+    something starting with __ and the normal name is an alias.  */
+#if defined __stub_$2 || defined __stub___$2
+choke me
+#endif
+
+int
+main ()
+{
+return $2 ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  eval "$3=yes"
+else
+  eval "$3=no"
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_func
+
+# ac_fn_c_try_cpp LINENO
+# ----------------------
+# Try to preprocess conftest.$ac_ext, and return whether this succeeded.
+ac_fn_c_try_cpp ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  if { { ac_try="$ac_cpp conftest.$ac_ext"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_cpp conftest.$ac_ext") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    grep -v '^ *+' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+    mv -f conftest.er1 conftest.err
+  fi
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } > conftest.i && {
+	 test -z "$ac_c_preproc_warn_flag$ac_c_werror_flag" ||
+	 test ! -s conftest.err
+       }; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+    ac_retval=1
+fi
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_cpp
+
+# ac_fn_c_try_run LINENO
+# ----------------------
+# Try to link conftest.$ac_ext, and return whether this succeeded. Assumes
+# that executables *can* be run.
+ac_fn_c_try_run ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  if { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; } && { ac_try='./conftest$ac_exeext'
+  { { case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_try") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; }; then :
+  ac_retval=0
+else
+  $as_echo "$as_me: program exited with status $ac_status" >&5
+       $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+       ac_retval=$ac_status
+fi
+  rm -rf conftest.dSYM conftest_ipa8_conftest.oo
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+  as_fn_set_status $ac_retval
+
+} # ac_fn_c_try_run
+
+# ac_fn_c_check_header_mongrel LINENO HEADER VAR INCLUDES
+# -------------------------------------------------------
+# Tests whether HEADER exists, giving a warning if it cannot be compiled using
+# the include files in INCLUDES and setting the cache variable VAR
+# accordingly.
+ac_fn_c_check_header_mongrel ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  if eval \${$3+:} false; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+else
+  # Is the header compilable?
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking $2 usability" >&5
+$as_echo_n "checking $2 usability... " >&6; }
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+#include <$2>
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_header_compiler=yes
+else
+  ac_header_compiler=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_header_compiler" >&5
+$as_echo "$ac_header_compiler" >&6; }
+
+# Is the header present?
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking $2 presence" >&5
+$as_echo_n "checking $2 presence... " >&6; }
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <$2>
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+  ac_header_preproc=yes
+else
+  ac_header_preproc=no
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_header_preproc" >&5
+$as_echo "$ac_header_preproc" >&6; }
+
+# So?  What about this header?
+case $ac_header_compiler:$ac_header_preproc:$ac_c_preproc_warn_flag in #((
+  yes:no: )
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: accepted by the compiler, rejected by the preprocessor!" >&5
+$as_echo "$as_me: WARNING: $2: accepted by the compiler, rejected by the preprocessor!" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: proceeding with the compiler's result" >&5
+$as_echo "$as_me: WARNING: $2: proceeding with the compiler's result" >&2;}
+    ;;
+  no:yes:* )
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: present but cannot be compiled" >&5
+$as_echo "$as_me: WARNING: $2: present but cannot be compiled" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2:     check for missing prerequisite headers?" >&5
+$as_echo "$as_me: WARNING: $2:     check for missing prerequisite headers?" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: see the Autoconf documentation" >&5
+$as_echo "$as_me: WARNING: $2: see the Autoconf documentation" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2:     section \"Present But Cannot Be Compiled\"" >&5
+$as_echo "$as_me: WARNING: $2:     section \"Present But Cannot Be Compiled\"" >&2;}
+    { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $2: proceeding with the compiler's result" >&5
+$as_echo "$as_me: WARNING: $2: proceeding with the compiler's result" >&2;}
+( $as_echo "## ------------------------------------- ##
+## Report this to eddys@janelia.hhmi.org ##
+## ------------------------------------- ##"
+     ) | sed "s/^/$as_me: WARNING:     /" >&2
+    ;;
+esac
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=\$ac_header_compiler"
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+fi
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_header_mongrel
+
+# ac_fn_c_check_header_compile LINENO HEADER VAR INCLUDES
+# -------------------------------------------------------
+# Tests whether HEADER exists and can be compiled using the include files in
+# INCLUDES, setting the cache variable VAR accordingly.
+ac_fn_c_check_header_compile ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+#include <$2>
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval "$3=yes"
+else
+  eval "$3=no"
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_header_compile
+
+# ac_fn_c_find_intX_t LINENO BITS VAR
+# -----------------------------------
+# Finds a signed integer type with width BITS, setting cache variable VAR
+# accordingly.
+ac_fn_c_find_intX_t ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for int$2_t" >&5
+$as_echo_n "checking for int$2_t... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=no"
+     # Order is important - never check a type that is potentially smaller
+     # than half of the expected target width.
+     for ac_type in int$2_t 'int' 'long int' \
+	 'long long int' 'short int' 'signed char'; do
+       cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$ac_includes_default
+	     enum { N = $2 / 2 - 1 };
+int
+main ()
+{
+static int test_array [1 - 2 * !(0 < ($ac_type) ((((($ac_type) 1 << N) << N) - 1) * 2 + 1))];
+test_array [0] = 0
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$ac_includes_default
+	        enum { N = $2 / 2 - 1 };
+int
+main ()
+{
+static int test_array [1 - 2 * !(($ac_type) ((((($ac_type) 1 << N) << N) - 1) * 2 + 1)
+		 < ($ac_type) ((((($ac_type) 1 << N) << N) - 1) * 2 + 2))];
+test_array [0] = 0
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  case $ac_type in #(
+  int$2_t) :
+    eval "$3=yes" ;; #(
+  *) :
+    eval "$3=\$ac_type" ;;
+esac
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+       if eval test \"x\$"$3"\" = x"no"; then :
+
+else
+  break
+fi
+     done
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_find_intX_t
+
+# ac_fn_c_find_uintX_t LINENO BITS VAR
+# ------------------------------------
+# Finds an unsigned integer type with width BITS, setting cache variable VAR
+# accordingly.
+ac_fn_c_find_uintX_t ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for uint$2_t" >&5
+$as_echo_n "checking for uint$2_t... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=no"
+     # Order is important - never check a type that is potentially smaller
+     # than half of the expected target width.
+     for ac_type in uint$2_t 'unsigned int' 'unsigned long int' \
+	 'unsigned long long int' 'unsigned short int' 'unsigned char'; do
+       cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$ac_includes_default
+int
+main ()
+{
+static int test_array [1 - 2 * !((($ac_type) -1 >> ($2 / 2 - 1)) >> ($2 / 2 - 1) == 3)];
+test_array [0] = 0
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  case $ac_type in #(
+  uint$2_t) :
+    eval "$3=yes" ;; #(
+  *) :
+    eval "$3=\$ac_type" ;;
+esac
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+       if eval test \"x\$"$3"\" = x"no"; then :
+
+else
+  break
+fi
+     done
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_find_uintX_t
+
+# ac_fn_c_check_type LINENO TYPE VAR INCLUDES
+# -------------------------------------------
+# Tests whether TYPE exists after having included INCLUDES, setting cache
+# variable VAR accordingly.
+ac_fn_c_check_type ()
+{
+  as_lineno=${as_lineno-"$1"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $2" >&5
+$as_echo_n "checking for $2... " >&6; }
+if eval \${$3+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  eval "$3=no"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+int
+main ()
+{
+if (sizeof ($2))
+	 return 0;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$4
+int
+main ()
+{
+if (sizeof (($2)))
+	    return 0;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  eval "$3=yes"
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+eval ac_res=\$$3
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno
+
+} # ac_fn_c_check_type
+cat >config.log <<_ACEOF
+This file contains any messages produced by compilers while
+running configure, to aid debugging if configure makes a mistake.
+
+It was created by Easel $as_me 0.2.snap20130225, which was
+generated by GNU Autoconf 2.68.  Invocation command line was
+
+  $ $0 $@
+
+_ACEOF
+exec 5>>config.log
+{
+cat <<_ASUNAME
+## --------- ##
+## Platform. ##
+## --------- ##
+
+hostname = `(hostname || uname -n) 2>/dev/null | sed 1q`
+uname -m = `(uname -m) 2>/dev/null || echo unknown`
+uname -r = `(uname -r) 2>/dev/null || echo unknown`
+uname -s = `(uname -s) 2>/dev/null || echo unknown`
+uname -v = `(uname -v) 2>/dev/null || echo unknown`
+
+/usr/bin/uname -p = `(/usr/bin/uname -p) 2>/dev/null || echo unknown`
+/bin/uname -X     = `(/bin/uname -X) 2>/dev/null     || echo unknown`
+
+/bin/arch              = `(/bin/arch) 2>/dev/null              || echo unknown`
+/usr/bin/arch -k       = `(/usr/bin/arch -k) 2>/dev/null       || echo unknown`
+/usr/convex/getsysinfo = `(/usr/convex/getsysinfo) 2>/dev/null || echo unknown`
+/usr/bin/hostinfo      = `(/usr/bin/hostinfo) 2>/dev/null      || echo unknown`
+/bin/machine           = `(/bin/machine) 2>/dev/null           || echo unknown`
+/usr/bin/oslevel       = `(/usr/bin/oslevel) 2>/dev/null       || echo unknown`
+/bin/universe          = `(/bin/universe) 2>/dev/null          || echo unknown`
+
+_ASUNAME
+
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    $as_echo "PATH: $as_dir"
+  done
+IFS=$as_save_IFS
+
+} >&5
+
+cat >&5 <<_ACEOF
+
+
+## ----------- ##
+## Core tests. ##
+## ----------- ##
+
+_ACEOF
+
+
+# Keep a trace of the command line.
+# Strip out --no-create and --no-recursion so they do not pile up.
+# Strip out --silent because we don't want to record it for future runs.
+# Also quote any args containing shell meta-characters.
+# Make two passes to allow for proper duplicate-argument suppression.
+ac_configure_args=
+ac_configure_args0=
+ac_configure_args1=
+ac_must_keep_next=false
+for ac_pass in 1 2
+do
+  for ac_arg
+  do
+    case $ac_arg in
+    -no-create | --no-c* | -n | -no-recursion | --no-r*) continue ;;
+    -q | -quiet | --quiet | --quie | --qui | --qu | --q \
+    | -silent | --silent | --silen | --sile | --sil)
+      continue ;;
+    *\'*)
+      ac_arg=`$as_echo "$ac_arg" | sed "s/'/'\\\\\\\\''/g"` ;;
+    esac
+    case $ac_pass in
+    1) as_fn_append ac_configure_args0 " '$ac_arg'" ;;
+    2)
+      as_fn_append ac_configure_args1 " '$ac_arg'"
+      if test $ac_must_keep_next = true; then
+	ac_must_keep_next=false # Got value, back to normal.
+      else
+	case $ac_arg in
+	  *=* | --config-cache | -C | -disable-* | --disable-* \
+	  | -enable-* | --enable-* | -gas | --g* | -nfp | --nf* \
+	  | -q | -quiet | --q* | -silent | --sil* | -v | -verb* \
+	  | -with-* | --with-* | -without-* | --without-* | --x)
+	    case "$ac_configure_args0 " in
+	      "$ac_configure_args1"*" '$ac_arg' "* ) continue ;;
+	    esac
+	    ;;
+	  -* ) ac_must_keep_next=true ;;
+	esac
+      fi
+      as_fn_append ac_configure_args " '$ac_arg'"
+      ;;
+    esac
+  done
+done
+{ ac_configure_args0=; unset ac_configure_args0;}
+{ ac_configure_args1=; unset ac_configure_args1;}
+
+# When interrupted or exit'd, cleanup temporary files, and complete
+# config.log.  We remove comments because anyway the quotes in there
+# would cause problems or look ugly.
+# WARNING: Use '\'' to represent an apostrophe within the trap.
+# WARNING: Do not start the trap code with a newline, due to a FreeBSD 4.0 bug.
+trap 'exit_status=$?
+  # Save into config.log some information that might help in debugging.
+  {
+    echo
+
+    $as_echo "## ---------------- ##
+## Cache variables. ##
+## ---------------- ##"
+    echo
+    # The following way of writing the cache mishandles newlines in values,
+(
+  for ac_var in `(set) 2>&1 | sed -n '\''s/^\([a-zA-Z_][a-zA-Z0-9_]*\)=.*/\1/p'\''`; do
+    eval ac_val=\$$ac_var
+    case $ac_val in #(
+    *${as_nl}*)
+      case $ac_var in #(
+      *_cv_*) { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: cache variable $ac_var contains a newline" >&5
+$as_echo "$as_me: WARNING: cache variable $ac_var contains a newline" >&2;} ;;
+      esac
+      case $ac_var in #(
+      _ | IFS | as_nl) ;; #(
+      BASH_ARGV | BASH_SOURCE) eval $ac_var= ;; #(
+      *) { eval $ac_var=; unset $ac_var;} ;;
+      esac ;;
+    esac
+  done
+  (set) 2>&1 |
+    case $as_nl`(ac_space='\'' '\''; set) 2>&1` in #(
+    *${as_nl}ac_space=\ *)
+      sed -n \
+	"s/'\''/'\''\\\\'\'''\''/g;
+	  s/^\\([_$as_cr_alnum]*_cv_[_$as_cr_alnum]*\\)=\\(.*\\)/\\1='\''\\2'\''/p"
+      ;; #(
+    *)
+      sed -n "/^[_$as_cr_alnum]*_cv_[_$as_cr_alnum]*=/p"
+      ;;
+    esac |
+    sort
+)
+    echo
+
+    $as_echo "## ----------------- ##
+## Output variables. ##
+## ----------------- ##"
+    echo
+    for ac_var in $ac_subst_vars
+    do
+      eval ac_val=\$$ac_var
+      case $ac_val in
+      *\'\''*) ac_val=`$as_echo "$ac_val" | sed "s/'\''/'\''\\\\\\\\'\'''\''/g"`;;
+      esac
+      $as_echo "$ac_var='\''$ac_val'\''"
+    done | sort
+    echo
+
+    if test -n "$ac_subst_files"; then
+      $as_echo "## ------------------- ##
+## File substitutions. ##
+## ------------------- ##"
+      echo
+      for ac_var in $ac_subst_files
+      do
+	eval ac_val=\$$ac_var
+	case $ac_val in
+	*\'\''*) ac_val=`$as_echo "$ac_val" | sed "s/'\''/'\''\\\\\\\\'\'''\''/g"`;;
+	esac
+	$as_echo "$ac_var='\''$ac_val'\''"
+      done | sort
+      echo
+    fi
+
+    if test -s confdefs.h; then
+      $as_echo "## ----------- ##
+## confdefs.h. ##
+## ----------- ##"
+      echo
+      cat confdefs.h
+      echo
+    fi
+    test "$ac_signal" != 0 &&
+      $as_echo "$as_me: caught signal $ac_signal"
+    $as_echo "$as_me: exit $exit_status"
+  } >&5
+  rm -f core *.core core.conftest.* &&
+    rm -f -r conftest* confdefs* conf$$* $ac_clean_files &&
+    exit $exit_status
+' 0
+for ac_signal in 1 2 13 15; do
+  trap 'ac_signal='$ac_signal'; as_fn_exit 1' $ac_signal
+done
+ac_signal=0
+
+# confdefs.h avoids OS command line length limits that DEFS can exceed.
+rm -f -r conftest* confdefs.h
+
+$as_echo "/* confdefs.h */" > confdefs.h
+
+# Predefined preprocessor variables.
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_NAME "$PACKAGE_NAME"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_TARNAME "$PACKAGE_TARNAME"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_VERSION "$PACKAGE_VERSION"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_STRING "$PACKAGE_STRING"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_BUGREPORT "$PACKAGE_BUGREPORT"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define PACKAGE_URL "$PACKAGE_URL"
+_ACEOF
+
+
+# Let the site file select an alternate cache file if it wants to.
+# Prefer an explicitly selected file to automatically selected ones.
+ac_site_file1=NONE
+ac_site_file2=NONE
+if test -n "$CONFIG_SITE"; then
+  # We do not want a PATH search for config.site.
+  case $CONFIG_SITE in #((
+    -*)  ac_site_file1=./$CONFIG_SITE;;
+    */*) ac_site_file1=$CONFIG_SITE;;
+    *)   ac_site_file1=./$CONFIG_SITE;;
+  esac
+elif test "x$prefix" != xNONE; then
+  ac_site_file1=$prefix/share/config.site
+  ac_site_file2=$prefix/etc/config.site
+else
+  ac_site_file1=$ac_default_prefix/share/config.site
+  ac_site_file2=$ac_default_prefix/etc/config.site
+fi
+for ac_site_file in "$ac_site_file1" "$ac_site_file2"
+do
+  test "x$ac_site_file" = xNONE && continue
+  if test /dev/null != "$ac_site_file" && test -r "$ac_site_file"; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: loading site script $ac_site_file" >&5
+$as_echo "$as_me: loading site script $ac_site_file" >&6;}
+    sed 's/^/| /' "$ac_site_file" >&5
+    . "$ac_site_file" \
+      || { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "failed to load site script $ac_site_file
+See \`config.log' for more details" "$LINENO" 5; }
+  fi
+done
+
+if test -r "$cache_file"; then
+  # Some versions of bash will fail to source /dev/null (special files
+  # actually), so we avoid doing that.  DJGPP emulates it as a regular file.
+  if test /dev/null != "$cache_file" && test -f "$cache_file"; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: loading cache $cache_file" >&5
+$as_echo "$as_me: loading cache $cache_file" >&6;}
+    case $cache_file in
+      [\\/]* | ?:[\\/]* ) . "$cache_file";;
+      *)                      . "./$cache_file";;
+    esac
+  fi
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: creating cache $cache_file" >&5
+$as_echo "$as_me: creating cache $cache_file" >&6;}
+  >$cache_file
+fi
+
+# Check that the precious variables saved in the cache have kept the same
+# value.
+ac_cache_corrupted=false
+for ac_var in $ac_precious_vars; do
+  eval ac_old_set=\$ac_cv_env_${ac_var}_set
+  eval ac_new_set=\$ac_env_${ac_var}_set
+  eval ac_old_val=\$ac_cv_env_${ac_var}_value
+  eval ac_new_val=\$ac_env_${ac_var}_value
+  case $ac_old_set,$ac_new_set in
+    set,)
+      { $as_echo "$as_me:${as_lineno-$LINENO}: error: \`$ac_var' was set to \`$ac_old_val' in the previous run" >&5
+$as_echo "$as_me: error: \`$ac_var' was set to \`$ac_old_val' in the previous run" >&2;}
+      ac_cache_corrupted=: ;;
+    ,set)
+      { $as_echo "$as_me:${as_lineno-$LINENO}: error: \`$ac_var' was not set in the previous run" >&5
+$as_echo "$as_me: error: \`$ac_var' was not set in the previous run" >&2;}
+      ac_cache_corrupted=: ;;
+    ,);;
+    *)
+      if test "x$ac_old_val" != "x$ac_new_val"; then
+	# differences in whitespace do not lead to failure.
+	ac_old_val_w=`echo x $ac_old_val`
+	ac_new_val_w=`echo x $ac_new_val`
+	if test "$ac_old_val_w" != "$ac_new_val_w"; then
+	  { $as_echo "$as_me:${as_lineno-$LINENO}: error: \`$ac_var' has changed since the previous run:" >&5
+$as_echo "$as_me: error: \`$ac_var' has changed since the previous run:" >&2;}
+	  ac_cache_corrupted=:
+	else
+	  { $as_echo "$as_me:${as_lineno-$LINENO}: warning: ignoring whitespace changes in \`$ac_var' since the previous run:" >&5
+$as_echo "$as_me: warning: ignoring whitespace changes in \`$ac_var' since the previous run:" >&2;}
+	  eval $ac_var=\$ac_old_val
+	fi
+	{ $as_echo "$as_me:${as_lineno-$LINENO}:   former value:  \`$ac_old_val'" >&5
+$as_echo "$as_me:   former value:  \`$ac_old_val'" >&2;}
+	{ $as_echo "$as_me:${as_lineno-$LINENO}:   current value: \`$ac_new_val'" >&5
+$as_echo "$as_me:   current value: \`$ac_new_val'" >&2;}
+      fi;;
+  esac
+  # Pass precious variables to config.status.
+  if test "$ac_new_set" = set; then
+    case $ac_new_val in
+    *\'*) ac_arg=$ac_var=`$as_echo "$ac_new_val" | sed "s/'/'\\\\\\\\''/g"` ;;
+    *) ac_arg=$ac_var=$ac_new_val ;;
+    esac
+    case " $ac_configure_args " in
+      *" '$ac_arg' "*) ;; # Avoid dups.  Use of quotes ensures accuracy.
+      *) as_fn_append ac_configure_args " '$ac_arg'" ;;
+    esac
+  fi
+done
+if $ac_cache_corrupted; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+  { $as_echo "$as_me:${as_lineno-$LINENO}: error: changes in the environment can compromise the build" >&5
+$as_echo "$as_me: error: changes in the environment can compromise the build" >&2;}
+  as_fn_error $? "run \`make distclean' and/or \`rm $cache_file' and start over" "$LINENO" 5
+fi
+## -------------------- ##
+## Main body of script. ##
+## -------------------- ##
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: Configuring the Easel library for your system." >&5
+$as_echo "$as_me: Configuring the Easel library for your system." >&6;}
+
+# remember if the user is overriding CFLAGS
+if test x"$CFLAGS" = x; then
+  sre_cflags_env_set=no
+fi
+
+################################################################
+# 3. Info on the package
+################################################################
+
+EASEL_DATE="February 2013"
+EASEL_COPYRIGHT="Copyright (C) 2008 Howard Hughes Medical Institute"
+EASEL_LICENSE="Freely distributed under the Janelia Farm Software License."
+EASEL_VERSION=$PACKAGE_VERSION
+EASEL_URL="http://easel.janelia.org/"
+
+# Output variables.
+# (AC_OUTPUT replaces instances of @var@ in input files.)
+
+
+
+
+
+
+# Preprocessor symbols.
+# adds a -Dvar=value to @DEFS@;
+# replace #undef's in easel.h.in
+cat >>confdefs.h <<_ACEOF
+#define EASEL_DATE "$EASEL_DATE"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_COPYRIGHT "$EASEL_COPYRIGHT"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_LICENSE "$EASEL_LICENSE"
+_ACEOF
+
+cat >>confdefs.h <<_ACEOF
+#define EASEL_VERSION "$EASEL_VERSION"
+_ACEOF
+
+
+# Figure out what host we're compiling on.
+# Three GNU scripts must be included in the distro:
+#       install.sh, config.guess, config.sub
+# This sets four shell variables:
+#       host            example: i686-pc-linux-gnu
+#       host_cpu        example: i686
+#       host_vendor     example: pc
+#       host_os         example: linux-gnu
+ac_aux_dir=
+for ac_dir in "$srcdir" "$srcdir/.." "$srcdir/../.."; do
+  if test -f "$ac_dir/install-sh"; then
+    ac_aux_dir=$ac_dir
+    ac_install_sh="$ac_aux_dir/install-sh -c"
+    break
+  elif test -f "$ac_dir/install.sh"; then
+    ac_aux_dir=$ac_dir
+    ac_install_sh="$ac_aux_dir/install.sh -c"
+    break
+  elif test -f "$ac_dir/shtool"; then
+    ac_aux_dir=$ac_dir
+    ac_install_sh="$ac_aux_dir/shtool install -c"
+    break
+  fi
+done
+if test -z "$ac_aux_dir"; then
+  as_fn_error $? "cannot find install-sh, install.sh, or shtool in \"$srcdir\" \"$srcdir/..\" \"$srcdir/../..\"" "$LINENO" 5
+fi
+
+# These three variables are undocumented and unsupported,
+# and are intended to be withdrawn in a future Autoconf release.
+# They can cause serious problems if a builder's source tree is in a directory
+# whose full name contains unusual characters.
+ac_config_guess="$SHELL $ac_aux_dir/config.guess"  # Please don't use this var.
+ac_config_sub="$SHELL $ac_aux_dir/config.sub"  # Please don't use this var.
+ac_configure="$SHELL $ac_aux_dir/configure"  # Please don't use this var.
+
+
+# Make sure we can run config.sub.
+$SHELL "$ac_aux_dir/config.sub" sun4 >/dev/null 2>&1 ||
+  as_fn_error $? "cannot run $SHELL $ac_aux_dir/config.sub" "$LINENO" 5
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking build system type" >&5
+$as_echo_n "checking build system type... " >&6; }
+if ${ac_cv_build+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_build_alias=$build_alias
+test "x$ac_build_alias" = x &&
+  ac_build_alias=`$SHELL "$ac_aux_dir/config.guess"`
+test "x$ac_build_alias" = x &&
+  as_fn_error $? "cannot guess build type; you must specify one" "$LINENO" 5
+ac_cv_build=`$SHELL "$ac_aux_dir/config.sub" $ac_build_alias` ||
+  as_fn_error $? "$SHELL $ac_aux_dir/config.sub $ac_build_alias failed" "$LINENO" 5
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_build" >&5
+$as_echo "$ac_cv_build" >&6; }
+case $ac_cv_build in
+*-*-*) ;;
+*) as_fn_error $? "invalid value of canonical build" "$LINENO" 5;;
+esac
+build=$ac_cv_build
+ac_save_IFS=$IFS; IFS='-'
+set x $ac_cv_build
+shift
+build_cpu=$1
+build_vendor=$2
+shift; shift
+# Remember, the first character of IFS is used to create $*,
+# except with old shells:
+build_os=$*
+IFS=$ac_save_IFS
+case $build_os in *\ *) build_os=`echo "$build_os" | sed 's/ /-/g'`;; esac
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking host system type" >&5
+$as_echo_n "checking host system type... " >&6; }
+if ${ac_cv_host+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "x$host_alias" = x; then
+  ac_cv_host=$ac_cv_build
+else
+  ac_cv_host=`$SHELL "$ac_aux_dir/config.sub" $host_alias` ||
+    as_fn_error $? "$SHELL $ac_aux_dir/config.sub $host_alias failed" "$LINENO" 5
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_host" >&5
+$as_echo "$ac_cv_host" >&6; }
+case $ac_cv_host in
+*-*-*) ;;
+*) as_fn_error $? "invalid value of canonical host" "$LINENO" 5;;
+esac
+host=$ac_cv_host
+ac_save_IFS=$IFS; IFS='-'
+set x $ac_cv_host
+shift
+host_cpu=$1
+host_vendor=$2
+shift; shift
+# Remember, the first character of IFS is used to create $*,
+# except with old shells:
+host_os=$*
+IFS=$ac_save_IFS
+case $host_os in *\ *) host_os=`echo "$host_os" | sed 's/ /-/g'`;; esac
+
+
+
+
+################################################################
+# 3b. ./configure command line options, for optional config
+#     of the package
+################################################################
+
+# --enable-modular       - configure for use of standalone modules
+#
+# Default is to enable all augmentations and compile entire library.
+# With --enable-modular, any desired augmentations must be set
+# at compile-time by the user.
+#
+# Check whether --enable-modular was given.
+if test "${enable_modular+set}" = set; then :
+  enableval=$enable_modular;
+    { $as_echo "$as_me:${as_lineno-$LINENO}: Compiling for standalone (independent) use of modules." >&5
+$as_echo "$as_me: Compiling for standalone (independent) use of modules." >&6;}
+
+else
+
+    { $as_echo "$as_me:${as_lineno-$LINENO}: Compiling the full Easel library, with all augmentations." >&5
+$as_echo "$as_me: Compiling the full Easel library, with all augmentations." >&6;}
+    $as_echo "#define eslAUGMENT_ALPHABET 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_NCBI 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_DMATRIX 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_FILEPARSER 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_GEV 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_GUMBEL 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_HISTOGRAM 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_KEYHASH 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_MINIMIZER 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_MSA 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_RANDOM 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_SSI 1" >>confdefs.h
+
+    $as_echo "#define eslAUGMENT_STATS 1" >>confdefs.h
+
+    $as_echo "#define eslLIBRARY 1" >>confdefs.h
+
+
+fi
+
+
+# --enable-debugging      - enable basic debugging code (level 1)
+# --enable-debugging=x    - also set verbosity level to <x> (1-3)
+#
+# At all levels, replaces CFLAGS w/ "-g -Wall" (so it assumes gcc).
+# Sets the eslDEBUGLEVEL preprocessor symbol to <x>
+#
+# Check whether --enable-debugging was given.
+if test "${enable_debugging+set}" = set; then :
+  enableval=$enable_debugging; enable_debugging=$enableval
+else
+  enable_debugging=no
+fi
+
+
+case $enable_debugging in
+   yes)  $as_echo "#define eslDEBUGLEVEL 1" >>confdefs.h
+;;
+     1)  $as_echo "#define eslDEBUGLEVEL 1" >>confdefs.h
+;;
+     2)  $as_echo "#define eslDEBUGLEVEL 2" >>confdefs.h
+;;
+     3)  $as_echo "#define eslDEBUGLEVEL 3" >>confdefs.h
+;;
+    no)  $as_echo "#define eslDEBUGLEVEL 0" >>confdefs.h
+;;
+     *)  as_fn_error $? "Unknown argument to --enable-debugging: $enable_debugging" "$LINENO" 5;;
+esac
+
+# --enable-threads      Enable POSIX multithreading
+#
+# Uses ACX_PTHREAD macro from the GNU macro archive.
+# Back to my code to finish enabling pthreads...
+# Define these preprocessor variables:
+#     HAVE_PTHREAD
+#     HAVE_PTHREAD_SETCONCURRENCY
+#     HAVE_PTHREAD_ATTR_SETSCOPE
+#
+# Check whether --enable-threads was given.
+if test "${enable_threads+set}" = set; then :
+  enableval=$enable_threads;
+else
+  enable_threads=check
+fi
+
+
+case $enable_threads in
+   yes)   check_threads=yes
+          ;;
+   no)    check_threads=no
+          ;;
+   check) check_threads=yes
+          ;;
+   *)     check_threads=no
+          { $as_echo "$as_me:${as_lineno-$LINENO}: Ignoring unknown argument to --enable-threads: $enable_threads" >&5
+$as_echo "$as_me: Ignoring unknown argument to --enable-threads: $enable_threads" >&6;}
+          ;;
+esac
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+if test -n "$ac_tool_prefix"; then
+  # Extract the first word of "${ac_tool_prefix}gcc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$ac_cv_prog_CC"; then
+  ac_ct_CC=$CC
+  # Extract the first word of "gcc", so it can be a program name with args.
+set dummy gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+else
+  CC="$ac_cv_prog_CC"
+fi
+
+if test -z "$CC"; then
+          if test -n "$ac_tool_prefix"; then
+    # Extract the first word of "${ac_tool_prefix}cc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  fi
+fi
+if test -z "$CC"; then
+  # Extract the first word of "cc", so it can be a program name with args.
+set dummy cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+  ac_prog_rejected=no
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    if test "$as_dir/$ac_word$ac_exec_ext" = "/usr/ucb/cc"; then
+       ac_prog_rejected=yes
+       continue
+     fi
+    ac_cv_prog_CC="cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+if test $ac_prog_rejected = yes; then
+  # We found a bogon in the path, so make sure we never use it.
+  set dummy $ac_cv_prog_CC
+  shift
+  if test $# != 0; then
+    # We chose a different compiler from the bogus one.
+    # However, it has the same basename, so the bogon will be chosen
+    # first if we set CC to just the basename; use the full file name.
+    shift
+    ac_cv_prog_CC="$as_dir/$ac_word${1+' '}$@"
+  fi
+fi
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$CC"; then
+  if test -n "$ac_tool_prefix"; then
+  for ac_prog in cl.exe
+  do
+    # Extract the first word of "$ac_tool_prefix$ac_prog", so it can be a program name with args.
+set dummy $ac_tool_prefix$ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="$ac_tool_prefix$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+    test -n "$CC" && break
+  done
+fi
+if test -z "$CC"; then
+  ac_ct_CC=$CC
+  for ac_prog in cl.exe
+do
+  # Extract the first word of "$ac_prog", so it can be a program name with args.
+set dummy $ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  test -n "$ac_ct_CC" && break
+done
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+fi
+
+fi
+
+
+test -z "$CC" && { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "no acceptable C compiler found in \$PATH
+See \`config.log' for more details" "$LINENO" 5; }
+
+# Provide some information about the compiler.
+$as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler version" >&5
+set X $ac_compile
+ac_compiler=$2
+for ac_option in --version -v -V -qversion; do
+  { { ac_try="$ac_compiler $ac_option >&5"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compiler $ac_option >&5") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    sed '10a\
+... rest of stderr output deleted ...
+         10q' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+  fi
+  rm -f conftest.er1 conftest.err
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }
+done
+
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+ac_clean_files_save=$ac_clean_files
+ac_clean_files="$ac_clean_files a.out a.out.dSYM a.exe b.out"
+# Try to create an executable without -o first, disregard a.out.
+# It will help us diagnose broken compilers, and finding out an intuition
+# of exeext.
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether the C compiler works" >&5
+$as_echo_n "checking whether the C compiler works... " >&6; }
+ac_link_default=`$as_echo "$ac_link" | sed 's/ -o *conftest[^ ]*//'`
+
+# The possible output files:
+ac_files="a.out conftest.exe conftest a.exe a_out.exe b.out conftest.*"
+
+ac_rmfiles=
+for ac_file in $ac_files
+do
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM | *.o | *.obj ) ;;
+    * ) ac_rmfiles="$ac_rmfiles $ac_file";;
+  esac
+done
+rm -f $ac_rmfiles
+
+if { { ac_try="$ac_link_default"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link_default") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; then :
+  # Autoconf-2.13 could set the ac_cv_exeext variable to `no'.
+# So ignore a value of `no', otherwise this would lead to `EXEEXT = no'
+# in a Makefile.  We should not override ac_cv_exeext if it was cached,
+# so that the user can short-circuit this test for compilers unknown to
+# Autoconf.
+for ac_file in $ac_files ''
+do
+  test -f "$ac_file" || continue
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM | *.o | *.obj )
+	;;
+    [ab].out )
+	# We found the default executable, but exeext='' is most
+	# certainly right.
+	break;;
+    *.* )
+	if test "${ac_cv_exeext+set}" = set && test "$ac_cv_exeext" != no;
+	then :; else
+	   ac_cv_exeext=`expr "$ac_file" : '[^.]*\(\..*\)'`
+	fi
+	# We set ac_cv_exeext here because the later test for it is not
+	# safe: cross compilers may not add the suffix if given an `-o'
+	# argument, so we may need to know it at that point already.
+	# Even if this section looks crufty: it has the advantage of
+	# actually working.
+	break;;
+    * )
+	break;;
+  esac
+done
+test "$ac_cv_exeext" = no && ac_cv_exeext=
+
+else
+  ac_file=''
+fi
+if test -z "$ac_file"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+$as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+{ { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error 77 "C compiler cannot create executables
+See \`config.log' for more details" "$LINENO" 5; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler default output file name" >&5
+$as_echo_n "checking for C compiler default output file name... " >&6; }
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_file" >&5
+$as_echo "$ac_file" >&6; }
+ac_exeext=$ac_cv_exeext
+
+rm -f -r a.out a.out.dSYM a.exe conftest$ac_cv_exeext b.out
+ac_clean_files=$ac_clean_files_save
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for suffix of executables" >&5
+$as_echo_n "checking for suffix of executables... " >&6; }
+if { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; then :
+  # If both `conftest.exe' and `conftest' are `present' (well, observable)
+# catch `conftest.exe'.  For instance with Cygwin, `ls conftest' will
+# work properly (i.e., refer to `conftest.exe'), while it won't with
+# `rm'.
+for ac_file in conftest.exe conftest conftest.*; do
+  test -f "$ac_file" || continue
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM | *.o | *.obj ) ;;
+    *.* ) ac_cv_exeext=`expr "$ac_file" : '[^.]*\(\..*\)'`
+	  break;;
+    * ) break;;
+  esac
+done
+else
+  { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot compute suffix of executables: cannot compile and link
+See \`config.log' for more details" "$LINENO" 5; }
+fi
+rm -f conftest conftest$ac_cv_exeext
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_exeext" >&5
+$as_echo "$ac_cv_exeext" >&6; }
+
+rm -f conftest.$ac_ext
+EXEEXT=$ac_cv_exeext
+ac_exeext=$EXEEXT
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+FILE *f = fopen ("conftest.out", "w");
+ return ferror (f) || fclose (f) != 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+ac_clean_files="$ac_clean_files conftest.out"
+# Check that the compiler produces executables we can run.  If not, either
+# the compiler is broken, or we cross compile.
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether we are cross compiling" >&5
+$as_echo_n "checking whether we are cross compiling... " >&6; }
+if test "$cross_compiling" != yes; then
+  { { ac_try="$ac_link"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_link") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }
+  if { ac_try='./conftest$ac_cv_exeext'
+  { { case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_try") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; }; then
+    cross_compiling=no
+  else
+    if test "$cross_compiling" = maybe; then
+	cross_compiling=yes
+    else
+	{ { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot run C compiled programs.
+If you meant to cross compile, use \`--host'.
+See \`config.log' for more details" "$LINENO" 5; }
+    fi
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $cross_compiling" >&5
+$as_echo "$cross_compiling" >&6; }
+
+rm -f conftest.$ac_ext conftest$ac_cv_exeext conftest.out
+ac_clean_files=$ac_clean_files_save
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for suffix of object files" >&5
+$as_echo_n "checking for suffix of object files... " >&6; }
+if ${ac_cv_objext+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+rm -f conftest.o conftest.obj
+if { { ac_try="$ac_compile"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compile") 2>&5
+  ac_status=$?
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }; then :
+  for ac_file in conftest.o conftest.obj conftest.*; do
+  test -f "$ac_file" || continue;
+  case $ac_file in
+    *.$ac_ext | *.xcoff | *.tds | *.d | *.pdb | *.xSYM | *.bb | *.bbg | *.map | *.inf | *.dSYM ) ;;
+    *) ac_cv_objext=`expr "$ac_file" : '.*\.\(.*\)'`
+       break;;
+  esac
+done
+else
+  $as_echo "$as_me: failed program was:" >&5
+sed 's/^/| /' conftest.$ac_ext >&5
+
+{ { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot compute suffix of object files: cannot compile
+See \`config.log' for more details" "$LINENO" 5; }
+fi
+rm -f conftest.$ac_cv_objext conftest.$ac_ext
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_objext" >&5
+$as_echo "$ac_cv_objext" >&6; }
+OBJEXT=$ac_cv_objext
+ac_objext=$OBJEXT
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether we are using the GNU C compiler" >&5
+$as_echo_n "checking whether we are using the GNU C compiler... " >&6; }
+if ${ac_cv_c_compiler_gnu+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+#ifndef __GNUC__
+       choke me
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_compiler_gnu=yes
+else
+  ac_compiler_gnu=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+ac_cv_c_compiler_gnu=$ac_compiler_gnu
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_c_compiler_gnu" >&5
+$as_echo "$ac_cv_c_compiler_gnu" >&6; }
+if test $ac_compiler_gnu = yes; then
+  GCC=yes
+else
+  GCC=
+fi
+ac_test_CFLAGS=${CFLAGS+set}
+ac_save_CFLAGS=$CFLAGS
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether $CC accepts -g" >&5
+$as_echo_n "checking whether $CC accepts -g... " >&6; }
+if ${ac_cv_prog_cc_g+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_save_c_werror_flag=$ac_c_werror_flag
+   ac_c_werror_flag=yes
+   ac_cv_prog_cc_g=no
+   CFLAGS="-g"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+else
+  CFLAGS=""
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  ac_c_werror_flag=$ac_save_c_werror_flag
+	 CFLAGS="-g"
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   ac_c_werror_flag=$ac_save_c_werror_flag
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_g" >&5
+$as_echo "$ac_cv_prog_cc_g" >&6; }
+if test "$ac_test_CFLAGS" = set; then
+  CFLAGS=$ac_save_CFLAGS
+elif test $ac_cv_prog_cc_g = yes; then
+  if test "$GCC" = yes; then
+    CFLAGS="-g -O2"
+  else
+    CFLAGS="-g"
+  fi
+else
+  if test "$GCC" = yes; then
+    CFLAGS="-O2"
+  else
+    CFLAGS=
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C89" >&5
+$as_echo_n "checking for $CC option to accept ISO C89... " >&6; }
+if ${ac_cv_prog_cc_c89+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c89=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+/* Most of the following tests are stolen from RCS 5.7's src/conf.sh.  */
+struct buf { int x; };
+FILE * (*rcsopen) (struct buf *, struct stat *, int);
+static char *e (p, i)
+     char **p;
+     int i;
+{
+  return p[i];
+}
+static char *f (char * (*g) (char **, int), char **p, ...)
+{
+  char *s;
+  va_list v;
+  va_start (v,p);
+  s = g (p, va_arg (v,int));
+  va_end (v);
+  return s;
+}
+
+/* OSF 4.0 Compaq cc is some sort of almost-ANSI by default.  It has
+   function prototypes and stuff, but not '\xHH' hex character constants.
+   These don't provoke an error unfortunately, instead are silently treated
+   as 'x'.  The following induces an error, until -std is added to get
+   proper ANSI mode.  Curiously '\x00'!='x' always comes out true, for an
+   array size at least.  It's necessary to write '\x00'==0 to get something
+   that's true only with -std.  */
+int osf4_cc_array ['\x00' == 0 ? 1 : -1];
+
+/* IBM C 6 for AIX is almost-ANSI by default, but it replaces macro parameters
+   inside strings and character constants.  */
+#define FOO(x) 'x'
+int xlc6_cc_array[FOO(a) == 'x' ? 1 : -1];
+
+int test (int i, double x);
+struct s1 {int (*f) (int a);};
+struct s2 {int (*f) (double a);};
+int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int);
+int argc;
+char **argv;
+int
+main ()
+{
+return f (e, argv, 0) != argv[0]  ||  f (e, argv, 1) != argv[1];
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -qlanglvl=extc89 -qlanglvl=ansi -std \
+	-Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__"
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c89=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c89" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c89" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c89"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c89" >&5
+$as_echo "$ac_cv_prog_cc_c89" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c89" != xno; then :
+
+fi
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+if test "x$check_threads" != xno; then :
+
+
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+acx_pthread_ok=no
+
+# We used to check for pthread.h first, but this fails if pthread.h
+# requires special compiler flags (e.g. on True64 or Sequent).
+# It gets checked for in the link test anyway.
+
+# First of all, check if the user has set any of the PTHREAD_LIBS,
+# etcetera environment variables, and if threads linking works using
+# them:
+if test x"$PTHREAD_LIBS$PTHREAD_CFLAGS" != x; then
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for pthread_join in LIBS=$PTHREAD_LIBS with CFLAGS=$PTHREAD_CFLAGS" >&5
+$as_echo_n "checking for pthread_join in LIBS=$PTHREAD_LIBS with CFLAGS=$PTHREAD_CFLAGS... " >&6; }
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char pthread_join ();
+int
+main ()
+{
+return pthread_join ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  acx_pthread_ok=yes
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: $acx_pthread_ok" >&5
+$as_echo "$acx_pthread_ok" >&6; }
+        if test x"$acx_pthread_ok" = xno; then
+                PTHREAD_LIBS=""
+                PTHREAD_CFLAGS=""
+        fi
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+fi
+
+# We must check for the threads library under a number of different
+# names; the ordering is very important because some systems
+# (e.g. DEC) have both -lpthread and -lpthreads, where one of the
+# libraries is broken (non-POSIX).
+
+# Create a list of thread flags to try.  Items starting with a "-" are
+# C compiler flags, and other items are library names, except for "none"
+# which indicates that we try without any flags at all, and "pthread-config"
+# which is a program returning the flags for the Pth emulation library.
+
+acx_pthread_flags="pthreads none -Kthread -kthread lthread -pthread -pthreads -mthreads pthread --thread-safe -mt pthread-config"
+
+# The ordering *is* (sometimes) important.  Some notes on the
+# individual items follow:
+
+# pthreads: AIX (must check this before -lpthread)
+# none: in case threads are in libc; should be tried before -Kthread and
+#       other compiler flags to prevent continual compiler warnings
+# -Kthread: Sequent (threads in libc, but -Kthread needed for pthread.h)
+# -kthread: FreeBSD kernel threads (preferred to -pthread since SMP-able)
+# lthread: LinuxThreads port on FreeBSD (also preferred to -pthread)
+# -pthread: Linux/gcc (kernel threads), BSD/gcc (userland threads)
+# -pthreads: Solaris/gcc
+# -mthreads: Mingw32/gcc, Lynx/gcc
+# -mt: Sun Workshop C (may only link SunOS threads [-lthread], but it
+#      doesn't hurt to check since this sometimes defines pthreads too;
+#      also defines -D_REENTRANT)
+# pthread: Linux, etcetera
+# --thread-safe: KAI C++
+# pthread-config: use pthread-config program (for GNU Pth library)
+
+case "${host_cpu}-${host_os}" in
+        *solaris*)
+
+        # On Solaris (at least, for some versions), libc contains stubbed
+        # (non-functional) versions of the pthreads routines, so link-based
+        # tests will erroneously succeed.  (We need to link with -pthread or
+        # -lpthread.)  (The stubs are missing pthread_cleanup_push, or rather
+        # a function called by this macro, so we could check for that, but
+        # who knows whether they'll stub that too in a future libc.)  So,
+        # we'll just look for -pthreads and -lpthread first:
+
+        acx_pthread_flags="-pthread -pthreads pthread -mt $acx_pthread_flags"
+        ;;
+esac
+
+if test x"$acx_pthread_ok" = xno; then
+for flag in $acx_pthread_flags; do
+
+        case $flag in
+                none)
+                { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether pthreads work without any flags" >&5
+$as_echo_n "checking whether pthreads work without any flags... " >&6; }
+                ;;
+
+                -*)
+                { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether pthreads work with $flag" >&5
+$as_echo_n "checking whether pthreads work with $flag... " >&6; }
+                PTHREAD_CFLAGS="$flag"
+                ;;
+
+		pthread-config)
+		# Extract the first word of "pthread-config", so it can be a program name with args.
+set dummy pthread-config; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_acx_pthread_config+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$acx_pthread_config"; then
+  ac_cv_prog_acx_pthread_config="$acx_pthread_config" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_acx_pthread_config="yes"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_prog_acx_pthread_config" && ac_cv_prog_acx_pthread_config="no"
+fi
+fi
+acx_pthread_config=$ac_cv_prog_acx_pthread_config
+if test -n "$acx_pthread_config"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $acx_pthread_config" >&5
+$as_echo "$acx_pthread_config" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+		if test x"$acx_pthread_config" = xno; then continue; fi
+		PTHREAD_CFLAGS="`pthread-config --cflags`"
+		PTHREAD_LIBS="`pthread-config --ldflags` `pthread-config --libs`"
+		;;
+
+                *)
+                { $as_echo "$as_me:${as_lineno-$LINENO}: checking for the pthreads library -l$flag" >&5
+$as_echo_n "checking for the pthreads library -l$flag... " >&6; }
+                PTHREAD_LIBS="-l$flag"
+                ;;
+        esac
+
+        save_LIBS="$LIBS"
+        save_CFLAGS="$CFLAGS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Check for various functions.  We must include pthread.h,
+        # since some functions may be macros.  (On the Sequent, we
+        # need a special flag -Kthread to make this header compile.)
+        # We check for pthread_join because it is in -lpthread on IRIX
+        # while pthread_create is in libc.  We check for pthread_attr_init
+        # due to DEC craziness with -lpthreads.  We check for
+        # pthread_cleanup_push because it is one of the few pthread
+        # functions on Solaris that doesn't have a non-functional libc stub.
+        # We try pthread_create on general principles.
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <pthread.h>
+int
+main ()
+{
+pthread_t th; pthread_join(th, 0);
+                     pthread_attr_init(0); pthread_cleanup_push(0, 0);
+                     pthread_create(0,0,0,0); pthread_cleanup_pop(0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  acx_pthread_ok=yes
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: $acx_pthread_ok" >&5
+$as_echo "$acx_pthread_ok" >&6; }
+        if test "x$acx_pthread_ok" = xyes; then
+                break;
+        fi
+
+        PTHREAD_LIBS=""
+        PTHREAD_CFLAGS=""
+done
+fi
+
+# Various other checks:
+if test "x$acx_pthread_ok" = xyes; then
+        save_LIBS="$LIBS"
+        LIBS="$PTHREAD_LIBS $LIBS"
+        save_CFLAGS="$CFLAGS"
+        CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
+
+        # Detect AIX lossage: threads are created detached by default
+        # and the JOINABLE attribute has a nonstandard name (UNDETACHED).
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for joinable pthread attribute" >&5
+$as_echo_n "checking for joinable pthread attribute... " >&6; }
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <pthread.h>
+int
+main ()
+{
+int attr=PTHREAD_CREATE_JOINABLE;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ok=PTHREAD_CREATE_JOINABLE
+else
+  ok=unknown
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+        if test x"$ok" = xunknown; then
+                cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <pthread.h>
+int
+main ()
+{
+int attr=PTHREAD_CREATE_UNDETACHED;
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ok=PTHREAD_CREATE_UNDETACHED
+else
+  ok=unknown
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+        fi
+        if test x"$ok" != xPTHREAD_CREATE_JOINABLE; then
+
+$as_echo "#define PTHREAD_CREATE_JOINABLE \$ok" >>confdefs.h
+
+        fi
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: ${ok}" >&5
+$as_echo "${ok}" >&6; }
+        if test x"$ok" = xunknown; then
+                { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: we do not know how to create joinable pthreads" >&5
+$as_echo "$as_me: WARNING: we do not know how to create joinable pthreads" >&2;}
+        fi
+
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking if more special flags are required for pthreads" >&5
+$as_echo_n "checking if more special flags are required for pthreads... " >&6; }
+        flag=no
+# Added _POSIX_PTHREAD_SEMANTICS for solaris. Needed for ctime_r() compliance.
+# SRE, Fri Oct 29 10:03:36 2010 [J7/3]
+        case "${host_cpu}-${host_os}" in
+                *-aix* | *-freebsd*)     flag="-D_THREAD_SAFE";;
+                *solaris*)               flag="-D_REENTRANT -D_POSIX_PTHREAD_SEMANTICS";;
+                *-osf* | *-hpux*)        flag="-D_REENTRANT";;
+        esac
+        { $as_echo "$as_me:${as_lineno-$LINENO}: result: ${flag}" >&5
+$as_echo "${flag}" >&6; }
+        if test "x$flag" != xno; then
+                PTHREAD_CFLAGS="$flag $PTHREAD_CFLAGS"
+        fi
+
+        LIBS="$save_LIBS"
+        CFLAGS="$save_CFLAGS"
+
+        # More AIX lossage: must compile with cc_r
+        # Extract the first word of "cc_r", so it can be a program name with args.
+set dummy cc_r; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_PTHREAD_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$PTHREAD_CC"; then
+  ac_cv_prog_PTHREAD_CC="$PTHREAD_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_PTHREAD_CC="cc_r"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_prog_PTHREAD_CC" && ac_cv_prog_PTHREAD_CC="${CC}"
+fi
+fi
+PTHREAD_CC=$ac_cv_prog_PTHREAD_CC
+if test -n "$PTHREAD_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $PTHREAD_CC" >&5
+$as_echo "$PTHREAD_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+else
+        PTHREAD_CC="$CC"
+fi
+
+
+
+
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x"$acx_pthread_ok" = xyes; then
+        $as_echo "#define HAVE_PTHREAD 1" >>confdefs.h
+
+
+
+        :
+else
+        acx_pthread_ok=no
+        if test "x$enable_threads" != xcheck; then
+                      { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "POSIX multithreading failed
+See \`config.log' for more details" "$LINENO" 5; }
+                    fi
+fi
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+fi
+
+# Check whether --enable-gcov was given.
+if test "${enable_gcov+set}" = set; then :
+  enableval=$enable_gcov; enable_gcov=$enableval
+else
+  enable_gcov=no
+fi
+
+# Check whether --enable-sse was given.
+if test "${enable_sse+set}" = set; then :
+  enableval=$enable_sse; enable_sse=$enableval
+else
+  enable_sse=check
+fi
+
+# Check whether --enable-vmx was given.
+if test "${enable_vmx+set}" = set; then :
+  enableval=$enable_vmx; enable_vmx=$enableval
+else
+  enable_vmx=check
+fi
+
+
+# Check whether --with-gsl was given.
+if test "${with_gsl+set}" = set; then :
+  withval=$with_gsl; with_gsl=$withval
+else
+  with_gsl=no
+fi
+
+# Check whether --enable-mpi was given.
+if test "${enable_mpi+set}" = set; then :
+  enableval=$enable_mpi; enable_mpi=$enableval
+else
+  enable_mpi=no
+fi
+
+
+
+
+################################################################
+# 4. Checks for programs
+################################################################
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+if test -n "$ac_tool_prefix"; then
+  # Extract the first word of "${ac_tool_prefix}gcc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$ac_cv_prog_CC"; then
+  ac_ct_CC=$CC
+  # Extract the first word of "gcc", so it can be a program name with args.
+set dummy gcc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="gcc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+else
+  CC="$ac_cv_prog_CC"
+fi
+
+if test -z "$CC"; then
+          if test -n "$ac_tool_prefix"; then
+    # Extract the first word of "${ac_tool_prefix}cc", so it can be a program name with args.
+set dummy ${ac_tool_prefix}cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="${ac_tool_prefix}cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  fi
+fi
+if test -z "$CC"; then
+  # Extract the first word of "cc", so it can be a program name with args.
+set dummy cc; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+  ac_prog_rejected=no
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    if test "$as_dir/$ac_word$ac_exec_ext" = "/usr/ucb/cc"; then
+       ac_prog_rejected=yes
+       continue
+     fi
+    ac_cv_prog_CC="cc"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+if test $ac_prog_rejected = yes; then
+  # We found a bogon in the path, so make sure we never use it.
+  set dummy $ac_cv_prog_CC
+  shift
+  if test $# != 0; then
+    # We chose a different compiler from the bogus one.
+    # However, it has the same basename, so the bogon will be chosen
+    # first if we set CC to just the basename; use the full file name.
+    shift
+    ac_cv_prog_CC="$as_dir/$ac_word${1+' '}$@"
+  fi
+fi
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$CC"; then
+  if test -n "$ac_tool_prefix"; then
+  for ac_prog in cl.exe
+  do
+    # Extract the first word of "$ac_tool_prefix$ac_prog", so it can be a program name with args.
+set dummy $ac_tool_prefix$ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$CC"; then
+  ac_cv_prog_CC="$CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_CC="$ac_tool_prefix$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+CC=$ac_cv_prog_CC
+if test -n "$CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $CC" >&5
+$as_echo "$CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+    test -n "$CC" && break
+  done
+fi
+if test -z "$CC"; then
+  ac_ct_CC=$CC
+  for ac_prog in cl.exe
+do
+  # Extract the first word of "$ac_prog", so it can be a program name with args.
+set dummy $ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_CC"; then
+  ac_cv_prog_ac_ct_CC="$ac_ct_CC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_CC="$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_CC=$ac_cv_prog_ac_ct_CC
+if test -n "$ac_ct_CC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_CC" >&5
+$as_echo "$ac_ct_CC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  test -n "$ac_ct_CC" && break
+done
+
+  if test "x$ac_ct_CC" = x; then
+    CC=""
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    CC=$ac_ct_CC
+  fi
+fi
+
+fi
+
+
+test -z "$CC" && { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "no acceptable C compiler found in \$PATH
+See \`config.log' for more details" "$LINENO" 5; }
+
+# Provide some information about the compiler.
+$as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler version" >&5
+set X $ac_compile
+ac_compiler=$2
+for ac_option in --version -v -V -qversion; do
+  { { ac_try="$ac_compiler $ac_option >&5"
+case "(($ac_try" in
+  *\"* | *\`* | *\\*) ac_try_echo=\$ac_try;;
+  *) ac_try_echo=$ac_try;;
+esac
+eval ac_try_echo="\"\$as_me:${as_lineno-$LINENO}: $ac_try_echo\""
+$as_echo "$ac_try_echo"; } >&5
+  (eval "$ac_compiler $ac_option >&5") 2>conftest.err
+  ac_status=$?
+  if test -s conftest.err; then
+    sed '10a\
+... rest of stderr output deleted ...
+         10q' conftest.err >conftest.er1
+    cat conftest.er1 >&5
+  fi
+  rm -f conftest.er1 conftest.err
+  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
+  test $ac_status = 0; }
+done
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether we are using the GNU C compiler" >&5
+$as_echo_n "checking whether we are using the GNU C compiler... " >&6; }
+if ${ac_cv_c_compiler_gnu+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+#ifndef __GNUC__
+       choke me
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_compiler_gnu=yes
+else
+  ac_compiler_gnu=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+ac_cv_c_compiler_gnu=$ac_compiler_gnu
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_c_compiler_gnu" >&5
+$as_echo "$ac_cv_c_compiler_gnu" >&6; }
+if test $ac_compiler_gnu = yes; then
+  GCC=yes
+else
+  GCC=
+fi
+ac_test_CFLAGS=${CFLAGS+set}
+ac_save_CFLAGS=$CFLAGS
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether $CC accepts -g" >&5
+$as_echo_n "checking whether $CC accepts -g... " >&6; }
+if ${ac_cv_prog_cc_g+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_save_c_werror_flag=$ac_c_werror_flag
+   ac_c_werror_flag=yes
+   ac_cv_prog_cc_g=no
+   CFLAGS="-g"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+else
+  CFLAGS=""
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+else
+  ac_c_werror_flag=$ac_save_c_werror_flag
+	 CFLAGS="-g"
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_g=yes
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   ac_c_werror_flag=$ac_save_c_werror_flag
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_g" >&5
+$as_echo "$ac_cv_prog_cc_g" >&6; }
+if test "$ac_test_CFLAGS" = set; then
+  CFLAGS=$ac_save_CFLAGS
+elif test $ac_cv_prog_cc_g = yes; then
+  if test "$GCC" = yes; then
+    CFLAGS="-g -O2"
+  else
+    CFLAGS="-g"
+  fi
+else
+  if test "$GCC" = yes; then
+    CFLAGS="-O2"
+  else
+    CFLAGS=
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C89" >&5
+$as_echo_n "checking for $CC option to accept ISO C89... " >&6; }
+if ${ac_cv_prog_cc_c89+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c89=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+/* Most of the following tests are stolen from RCS 5.7's src/conf.sh.  */
+struct buf { int x; };
+FILE * (*rcsopen) (struct buf *, struct stat *, int);
+static char *e (p, i)
+     char **p;
+     int i;
+{
+  return p[i];
+}
+static char *f (char * (*g) (char **, int), char **p, ...)
+{
+  char *s;
+  va_list v;
+  va_start (v,p);
+  s = g (p, va_arg (v,int));
+  va_end (v);
+  return s;
+}
+
+/* OSF 4.0 Compaq cc is some sort of almost-ANSI by default.  It has
+   function prototypes and stuff, but not '\xHH' hex character constants.
+   These don't provoke an error unfortunately, instead are silently treated
+   as 'x'.  The following induces an error, until -std is added to get
+   proper ANSI mode.  Curiously '\x00'!='x' always comes out true, for an
+   array size at least.  It's necessary to write '\x00'==0 to get something
+   that's true only with -std.  */
+int osf4_cc_array ['\x00' == 0 ? 1 : -1];
+
+/* IBM C 6 for AIX is almost-ANSI by default, but it replaces macro parameters
+   inside strings and character constants.  */
+#define FOO(x) 'x'
+int xlc6_cc_array[FOO(a) == 'x' ? 1 : -1];
+
+int test (int i, double x);
+struct s1 {int (*f) (int a);};
+struct s2 {int (*f) (double a);};
+int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int);
+int argc;
+char **argv;
+int
+main ()
+{
+return f (e, argv, 0) != argv[0]  ||  f (e, argv, 1) != argv[1];
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -qlanglvl=extc89 -qlanglvl=ansi -std \
+	-Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__"
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c89=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c89" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c89" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c89"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c89" >&5
+$as_echo "$ac_cv_prog_cc_c89" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c89" != xno; then :
+
+fi
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+# Find a good install program.  We prefer a C program (faster),
+# so one script is as good as another.  But avoid the broken or
+# incompatible versions:
+# SysV /etc/install, /usr/sbin/install
+# SunOS /usr/etc/install
+# IRIX /sbin/install
+# AIX /bin/install
+# AmigaOS /C/install, which installs bootblocks on floppy discs
+# AIX 4 /usr/bin/installbsd, which doesn't work without a -g flag
+# AFS /usr/afsws/bin/install, which mishandles nonexistent args
+# SVR4 /usr/ucb/install, which tries to use the nonexistent group "staff"
+# OS/2's system install, which has a completely different semantic
+# ./install, which can be erroneously created by make from ./install.sh.
+# Reject install programs that cannot install multiple files.
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for a BSD-compatible install" >&5
+$as_echo_n "checking for a BSD-compatible install... " >&6; }
+if test -z "$INSTALL"; then
+if ${ac_cv_path_install+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    # Account for people who put trailing slashes in PATH elements.
+case $as_dir/ in #((
+  ./ | .// | /[cC]/* | \
+  /etc/* | /usr/sbin/* | /usr/etc/* | /sbin/* | /usr/afsws/bin/* | \
+  ?:[\\/]os2[\\/]install[\\/]* | ?:[\\/]OS2[\\/]INSTALL[\\/]* | \
+  /usr/ucb/* ) ;;
+  *)
+    # OSF1 and SCO ODT 3.0 have their own names for install.
+    # Don't use installbsd from OSF since it installs stuff as root
+    # by default.
+    for ac_prog in ginstall scoinst install; do
+      for ac_exec_ext in '' $ac_executable_extensions; do
+	if { test -f "$as_dir/$ac_prog$ac_exec_ext" && $as_test_x "$as_dir/$ac_prog$ac_exec_ext"; }; then
+	  if test $ac_prog = install &&
+	    grep dspmsg "$as_dir/$ac_prog$ac_exec_ext" >/dev/null 2>&1; then
+	    # AIX install.  It has an incompatible calling convention.
+	    :
+	  elif test $ac_prog = install &&
+	    grep pwplus "$as_dir/$ac_prog$ac_exec_ext" >/dev/null 2>&1; then
+	    # program-specific install script used by HP pwplus--don't use.
+	    :
+	  else
+	    rm -rf conftest.one conftest.two conftest.dir
+	    echo one > conftest.one
+	    echo two > conftest.two
+	    mkdir conftest.dir
+	    if "$as_dir/$ac_prog$ac_exec_ext" -c conftest.one conftest.two "`pwd`/conftest.dir" &&
+	      test -s conftest.one && test -s conftest.two &&
+	      test -s conftest.dir/conftest.one &&
+	      test -s conftest.dir/conftest.two
+	    then
+	      ac_cv_path_install="$as_dir/$ac_prog$ac_exec_ext -c"
+	      break 3
+	    fi
+	  fi
+	fi
+      done
+    done
+    ;;
+esac
+
+  done
+IFS=$as_save_IFS
+
+rm -rf conftest.one conftest.two conftest.dir
+
+fi
+  if test "${ac_cv_path_install+set}" = set; then
+    INSTALL=$ac_cv_path_install
+  else
+    # As a last resort, use the slow shell script.  Don't cache a
+    # value for INSTALL within a source directory, because that will
+    # break other packages using the cache if that directory is
+    # removed, or if the value is a relative name.
+    INSTALL=$ac_install_sh
+  fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $INSTALL" >&5
+$as_echo "$INSTALL" >&6; }
+
+# Use test -z because SunOS4 sh mishandles braces in ${var-val}.
+# It thinks the first close brace ends the variable substitution.
+test -z "$INSTALL_PROGRAM" && INSTALL_PROGRAM='${INSTALL}'
+
+test -z "$INSTALL_SCRIPT" && INSTALL_SCRIPT='${INSTALL}'
+
+test -z "$INSTALL_DATA" && INSTALL_DATA='${INSTALL} -m 644'
+
+# MPI :  set @CC@ to mpicc, sets @MPILIBS@, defines HAVE_MPI.
+if test "$enable_mpi" = "yes"; then
+
+
+
+
+
+        for ac_prog in mpicc hcc mpxlc_r mpxlc mpcc cmpicc
+do
+  # Extract the first word of "$ac_prog", so it can be a program name with args.
+set dummy $ac_prog; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_MPICC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$MPICC"; then
+  ac_cv_prog_MPICC="$MPICC" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_MPICC="$ac_prog"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+MPICC=$ac_cv_prog_MPICC
+if test -n "$MPICC"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $MPICC" >&5
+$as_echo "$MPICC" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+  test -n "$MPICC" && break
+done
+test -n "$MPICC" || MPICC="$CC"
+
+        acx_mpi_save_CC="$CC"
+        CC="$MPICC"
+
+
+
+if test x = x"$MPILIBS"; then
+        ac_fn_c_check_func "$LINENO" "MPI_Init" "ac_cv_func_MPI_Init"
+if test "x$ac_cv_func_MPI_Init" = xyes; then :
+  MPILIBS=" "
+fi
+
+fi
+
+if test x = x"$MPILIBS"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for MPI_Init in -lmpi" >&5
+$as_echo_n "checking for MPI_Init in -lmpi... " >&6; }
+if ${ac_cv_lib_mpi_MPI_Init+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lmpi  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char MPI_Init ();
+int
+main ()
+{
+return MPI_Init ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_mpi_MPI_Init=yes
+else
+  ac_cv_lib_mpi_MPI_Init=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_mpi_MPI_Init" >&5
+$as_echo "$ac_cv_lib_mpi_MPI_Init" >&6; }
+if test "x$ac_cv_lib_mpi_MPI_Init" = xyes; then :
+  MPILIBS="-lmpi"
+fi
+
+fi
+if test x = x"$MPILIBS"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for MPI_Init in -lmpich" >&5
+$as_echo_n "checking for MPI_Init in -lmpich... " >&6; }
+if ${ac_cv_lib_mpich_MPI_Init+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lmpich  $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char MPI_Init ();
+int
+main ()
+{
+return MPI_Init ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_mpich_MPI_Init=yes
+else
+  ac_cv_lib_mpich_MPI_Init=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_mpich_MPI_Init" >&5
+$as_echo "$ac_cv_lib_mpich_MPI_Init" >&6; }
+if test "x$ac_cv_lib_mpich_MPI_Init" = xyes; then :
+  MPILIBS="-lmpich"
+fi
+
+fi
+
+if test x != x"$MPILIBS"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking for mpi.h" >&5
+$as_echo_n "checking for mpi.h... " >&6; }
+        cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <mpi.h>
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+else
+  MPILIBS=""
+                { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+
+CC="$acx_mpi_save_CC"
+
+
+
+# Finally, execute ACTION-IF-FOUND/ACTION-IF-NOT-FOUND:
+if test x = x"$MPILIBS"; then
+        as_fn_error $? "MPI library not found for --enable-mpi" "$LINENO" 5
+        :
+else
+
+$as_echo "#define HAVE_MPI 1" >>confdefs.h
+
+        :
+fi
+
+   CC=$MPICC
+fi
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking how to run the C preprocessor" >&5
+$as_echo_n "checking how to run the C preprocessor... " >&6; }
+# On Suns, sometimes $CPP names a directory.
+if test -n "$CPP" && test -d "$CPP"; then
+  CPP=
+fi
+if test -z "$CPP"; then
+  if ${ac_cv_prog_CPP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+      # Double quotes because CPP needs to be expanded
+    for CPP in "$CC -E" "$CC -E -traditional-cpp" "/lib/cpp"
+    do
+      ac_preproc_ok=false
+for ac_c_preproc_warn_flag in '' yes
+do
+  # Use a header file that comes with gcc, so configuring glibc
+  # with a fresh cross-compiler works.
+  # Prefer <limits.h> to <assert.h> if __STDC__ is defined, since
+  # <limits.h> exists even on freestanding compilers.
+  # On the NeXT, cc -E runs the code through the compiler's parser,
+  # not just through cpp. "Syntax error" is here to catch this case.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#ifdef __STDC__
+# include <limits.h>
+#else
+# include <assert.h>
+#endif
+		     Syntax error
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+
+else
+  # Broken: fails on valid input.
+continue
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+  # OK, works on sane cases.  Now check whether nonexistent headers
+  # can be detected and how.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <ac_nonexistent.h>
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+  # Broken: success on invalid input.
+continue
+else
+  # Passes both tests.
+ac_preproc_ok=:
+break
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+done
+# Because of `break', _AC_PREPROC_IFELSE's cleaning code was skipped.
+rm -f conftest.i conftest.err conftest.$ac_ext
+if $ac_preproc_ok; then :
+  break
+fi
+
+    done
+    ac_cv_prog_CPP=$CPP
+
+fi
+  CPP=$ac_cv_prog_CPP
+else
+  ac_cv_prog_CPP=$CPP
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $CPP" >&5
+$as_echo "$CPP" >&6; }
+ac_preproc_ok=false
+for ac_c_preproc_warn_flag in '' yes
+do
+  # Use a header file that comes with gcc, so configuring glibc
+  # with a fresh cross-compiler works.
+  # Prefer <limits.h> to <assert.h> if __STDC__ is defined, since
+  # <limits.h> exists even on freestanding compilers.
+  # On the NeXT, cc -E runs the code through the compiler's parser,
+  # not just through cpp. "Syntax error" is here to catch this case.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#ifdef __STDC__
+# include <limits.h>
+#else
+# include <assert.h>
+#endif
+		     Syntax error
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+
+else
+  # Broken: fails on valid input.
+continue
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+  # OK, works on sane cases.  Now check whether nonexistent headers
+  # can be detected and how.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <ac_nonexistent.h>
+_ACEOF
+if ac_fn_c_try_cpp "$LINENO"; then :
+  # Broken: success on invalid input.
+continue
+else
+  # Passes both tests.
+ac_preproc_ok=:
+break
+fi
+rm -f conftest.err conftest.i conftest.$ac_ext
+
+done
+# Because of `break', _AC_PREPROC_IFELSE's cleaning code was skipped.
+rm -f conftest.i conftest.err conftest.$ac_ext
+if $ac_preproc_ok; then :
+
+else
+  { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "C preprocessor \"$CPP\" fails sanity check
+See \`config.log' for more details" "$LINENO" 5; }
+fi
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler vendor" >&5
+$as_echo_n "checking for C compiler vendor... " >&6; }
+if ${ax_cv_c_compiler_vendor+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ax_cv_c_compiler_vendor=unknown
+  # note: don't check for gcc first since some other compilers define __GNUC__
+  for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ pathscale:__PATHCC__,__PATHSCALE__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do
+    vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")"
+    cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+#if !($vencpp)
+      thisisanerror;
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_compiler_vendor=`echo $ventest | cut -d: -f1`; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  done
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_c_compiler_vendor" >&5
+$as_echo "$ax_cv_c_compiler_vendor" >&6; }
+
+# AC_PROG_CC_STDC wants to append -c99 to icc; icc doesn't like this.
+if test "$ax_cv_c_compiler_vendor" != "intel"; then
+     case $ac_cv_prog_cc_stdc in #(
+  no) :
+    ac_cv_prog_cc_c99=no; ac_cv_prog_cc_c89=no ;; #(
+  *) :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C99" >&5
+$as_echo_n "checking for $CC option to accept ISO C99... " >&6; }
+if ${ac_cv_prog_cc_c99+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c99=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdbool.h>
+#include <stdlib.h>
+#include <wchar.h>
+#include <stdio.h>
+
+// Check varargs macros.  These examples are taken from C99 6.10.3.5.
+#define debug(...) fprintf (stderr, __VA_ARGS__)
+#define showlist(...) puts (#__VA_ARGS__)
+#define report(test,...) ((test) ? puts (#test) : printf (__VA_ARGS__))
+static void
+test_varargs_macros (void)
+{
+  int x = 1234;
+  int y = 5678;
+  debug ("Flag");
+  debug ("X = %d\n", x);
+  showlist (The first, second, and third items.);
+  report (x>y, "x is %d but y is %d", x, y);
+}
+
+// Check long long types.
+#define BIG64 18446744073709551615ull
+#define BIG32 4294967295ul
+#define BIG_OK (BIG64 / BIG32 == 4294967297ull && BIG64 % BIG32 == 0)
+#if !BIG_OK
+  your preprocessor is broken;
+#endif
+#if BIG_OK
+#else
+  your preprocessor is broken;
+#endif
+static long long int bignum = -9223372036854775807LL;
+static unsigned long long int ubignum = BIG64;
+
+struct incomplete_array
+{
+  int datasize;
+  double data[];
+};
+
+struct named_init {
+  int number;
+  const wchar_t *name;
+  double average;
+};
+
+typedef const char *ccp;
+
+static inline int
+test_restrict (ccp restrict text)
+{
+  // See if C++-style comments work.
+  // Iterate through items via the restricted pointer.
+  // Also check for declarations in for loops.
+  for (unsigned int i = 0; *(text+i) != '\0'; ++i)
+    continue;
+  return 0;
+}
+
+// Check varargs and va_copy.
+static void
+test_varargs (const char *format, ...)
+{
+  va_list args;
+  va_start (args, format);
+  va_list args_copy;
+  va_copy (args_copy, args);
+
+  const char *str;
+  int number;
+  float fnumber;
+
+  while (*format)
+    {
+      switch (*format++)
+	{
+	case 's': // string
+	  str = va_arg (args_copy, const char *);
+	  break;
+	case 'd': // int
+	  number = va_arg (args_copy, int);
+	  break;
+	case 'f': // float
+	  fnumber = va_arg (args_copy, double);
+	  break;
+	default:
+	  break;
+	}
+    }
+  va_end (args_copy);
+  va_end (args);
+}
+
+int
+main ()
+{
+
+  // Check bool.
+  _Bool success = false;
+
+  // Check restrict.
+  if (test_restrict ("String literal") == 0)
+    success = true;
+  char *restrict newvar = "Another string";
+
+  // Check varargs.
+  test_varargs ("s, d' f .", "string", 65, 34.234);
+  test_varargs_macros ();
+
+  // Check flexible array members.
+  struct incomplete_array *ia =
+    malloc (sizeof (struct incomplete_array) + (sizeof (double) * 10));
+  ia->datasize = 10;
+  for (int i = 0; i < ia->datasize; ++i)
+    ia->data[i] = i * 1.234;
+
+  // Check named initializers.
+  struct named_init ni = {
+    .number = 34,
+    .name = L"Test wide string",
+    .average = 543.34343,
+  };
+
+  ni.number = 58;
+
+  int dynamic_array[ni.number];
+  dynamic_array[ni.number - 1] = 543;
+
+  // work around unused variable warnings
+  return (!success || bignum == 0LL || ubignum == 0uLL || newvar[0] == 'x'
+	  || dynamic_array[ni.number - 1] != 543);
+
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -std=gnu99 -std=c99 -c99 -AC99 -xc99=all -qlanglvl=extc99
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c99=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c99" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c99" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c99"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c99" >&5
+$as_echo "$ac_cv_prog_cc_c99" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c99" != xno; then :
+  ac_cv_prog_cc_stdc=$ac_cv_prog_cc_c99
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO C89" >&5
+$as_echo_n "checking for $CC option to accept ISO C89... " >&6; }
+if ${ac_cv_prog_cc_c89+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_prog_cc_c89=no
+ac_save_CC=$CC
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdarg.h>
+#include <stdio.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+/* Most of the following tests are stolen from RCS 5.7's src/conf.sh.  */
+struct buf { int x; };
+FILE * (*rcsopen) (struct buf *, struct stat *, int);
+static char *e (p, i)
+     char **p;
+     int i;
+{
+  return p[i];
+}
+static char *f (char * (*g) (char **, int), char **p, ...)
+{
+  char *s;
+  va_list v;
+  va_start (v,p);
+  s = g (p, va_arg (v,int));
+  va_end (v);
+  return s;
+}
+
+/* OSF 4.0 Compaq cc is some sort of almost-ANSI by default.  It has
+   function prototypes and stuff, but not '\xHH' hex character constants.
+   These don't provoke an error unfortunately, instead are silently treated
+   as 'x'.  The following induces an error, until -std is added to get
+   proper ANSI mode.  Curiously '\x00'!='x' always comes out true, for an
+   array size at least.  It's necessary to write '\x00'==0 to get something
+   that's true only with -std.  */
+int osf4_cc_array ['\x00' == 0 ? 1 : -1];
+
+/* IBM C 6 for AIX is almost-ANSI by default, but it replaces macro parameters
+   inside strings and character constants.  */
+#define FOO(x) 'x'
+int xlc6_cc_array[FOO(a) == 'x' ? 1 : -1];
+
+int test (int i, double x);
+struct s1 {int (*f) (int a);};
+struct s2 {int (*f) (double a);};
+int pairnames (int, char **, FILE *(*)(struct buf *, struct stat *, int), int, int);
+int argc;
+char **argv;
+int
+main ()
+{
+return f (e, argv, 0) != argv[0]  ||  f (e, argv, 1) != argv[1];
+  ;
+  return 0;
+}
+_ACEOF
+for ac_arg in '' -qlanglvl=extc89 -qlanglvl=ansi -std \
+	-Ae "-Aa -D_HPUX_SOURCE" "-Xc -D__EXTENSIONS__"
+do
+  CC="$ac_save_CC $ac_arg"
+  if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_prog_cc_c89=$ac_arg
+fi
+rm -f core conftest.err conftest.$ac_objext
+  test "x$ac_cv_prog_cc_c89" != "xno" && break
+done
+rm -f conftest.$ac_ext
+CC=$ac_save_CC
+
+fi
+# AC_CACHE_VAL
+case "x$ac_cv_prog_cc_c89" in
+  x)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;;
+  xno)
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;;
+  *)
+    CC="$CC $ac_cv_prog_cc_c89"
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_c89" >&5
+$as_echo "$ac_cv_prog_cc_c89" >&6; } ;;
+esac
+if test "x$ac_cv_prog_cc_c89" != xno; then :
+  ac_cv_prog_cc_stdc=$ac_cv_prog_cc_c89
+else
+  ac_cv_prog_cc_stdc=no
+fi
+
+fi
+ ;;
+esac
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to accept ISO Standard C" >&5
+$as_echo_n "checking for $CC option to accept ISO Standard C... " >&6; }
+  if ${ac_cv_prog_cc_stdc+:} false; then :
+  $as_echo_n "(cached) " >&6
+fi
+
+  case $ac_cv_prog_cc_stdc in #(
+  no) :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: unsupported" >&5
+$as_echo "unsupported" >&6; } ;; #(
+  '') :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: none needed" >&5
+$as_echo "none needed" >&6; } ;; #(
+  *) :
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_prog_cc_stdc" >&5
+$as_echo "$ac_cv_prog_cc_stdc" >&6; } ;;
+esac
+
+fi
+if test -n "$ac_tool_prefix"; then
+  # Extract the first word of "${ac_tool_prefix}ranlib", so it can be a program name with args.
+set dummy ${ac_tool_prefix}ranlib; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_RANLIB+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$RANLIB"; then
+  ac_cv_prog_RANLIB="$RANLIB" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_RANLIB="${ac_tool_prefix}ranlib"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+RANLIB=$ac_cv_prog_RANLIB
+if test -n "$RANLIB"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $RANLIB" >&5
+$as_echo "$RANLIB" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+fi
+if test -z "$ac_cv_prog_RANLIB"; then
+  ac_ct_RANLIB=$RANLIB
+  # Extract the first word of "ranlib", so it can be a program name with args.
+set dummy ranlib; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_prog_ac_ct_RANLIB+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -n "$ac_ct_RANLIB"; then
+  ac_cv_prog_ac_ct_RANLIB="$ac_ct_RANLIB" # Let the user override the test.
+else
+as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_prog_ac_ct_RANLIB="ranlib"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+fi
+fi
+ac_ct_RANLIB=$ac_cv_prog_ac_ct_RANLIB
+if test -n "$ac_ct_RANLIB"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_ct_RANLIB" >&5
+$as_echo "$ac_ct_RANLIB" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+  if test "x$ac_ct_RANLIB" = x; then
+    RANLIB=":"
+  else
+    case $cross_compiling:$ac_tool_warned in
+yes:)
+{ $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: using cross tools not prefixed with host triplet" >&5
+$as_echo "$as_me: WARNING: using cross tools not prefixed with host triplet" >&2;}
+ac_tool_warned=yes ;;
+esac
+    RANLIB=$ac_ct_RANLIB
+  fi
+else
+  RANLIB="$ac_cv_prog_RANLIB"
+fi
+
+# Extract the first word of "ar", so it can be a program name with args.
+set dummy ar; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_path_AR+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  case $AR in
+  [\\/]* | ?:[\\/]*)
+  ac_cv_path_AR="$AR" # Let the user override the test with a path.
+  ;;
+  *)
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+as_dummy="$PATH:/usr/ccs/bin:/usr/xpg4/bin"
+for as_dir in $as_dummy
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_path_AR="$as_dir/$ac_word$ac_exec_ext"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_path_AR" && ac_cv_path_AR=":"
+  ;;
+esac
+fi
+AR=$ac_cv_path_AR
+if test -n "$AR"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $AR" >&5
+$as_echo "$AR" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether you have a GNU make" >&5
+$as_echo_n "checking whether you have a GNU make... " >&6; }
+  foundGNUmake='nope, so we assume you will use a sysv-compatible make.' ;
+  EXEC_DEPENDENCY=\$\$\@.o ;
+  for a in "$MAKE" make gmake gnumake ; do
+    if test -z "$a" ; then continue ; fi ;
+    if  ( sh -c "$a --version" 2> /dev/null | grep GNU 2>&1 > /dev/null ) ; then
+      foundGNUmake='yes, you do; and we assume you will use it!' ;
+      EXEC_DEPENDENCY='%: %.o' ;
+    fi
+  done
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $foundGNUmake" >&5
+$as_echo "$foundGNUmake" >&6; }
+
+
+
+# --enable-xlc-arch  Set the code generation for a particular architecture
+#
+# The xlc compiler on AIX seems to need the -qarch flag to be set for a processor
+# that is VMX enabled.  Otherwise a warning is issued that states the -qenablevmx
+# and -qaltivec flags are ignored.
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for C compiler vendor" >&5
+$as_echo_n "checking for C compiler vendor... " >&6; }
+if ${ax_cv_c_compiler_vendor+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ax_cv_c_compiler_vendor=unknown
+  # note: don't check for gcc first since some other compilers define __GNUC__
+  for ventest in intel:__ICC,__ECC,__INTEL_COMPILER ibm:__xlc__,__xlC__,__IBMC__,__IBMCPP__ pathscale:__PATHCC__,__PATHSCALE__ gnu:__GNUC__ sun:__SUNPRO_C,__SUNPRO_CC hp:__HP_cc,__HP_aCC dec:__DECC,__DECCXX,__DECC_VER,__DECCXX_VER borland:__BORLANDC__,__TURBOC__ comeau:__COMO__ cray:_CRAYC kai:__KCC lcc:__LCC__ metrowerks:__MWERKS__ sgi:__sgi,sgi microsoft:_MSC_VER watcom:__WATCOMC__ portland:__PGI; do
+    vencpp="defined("`echo $ventest | cut -d: -f2 | sed 's/,/) || defined(/g'`")"
+    cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+#if !($vencpp)
+      thisisanerror;
+#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_compiler_vendor=`echo $ventest | cut -d: -f1`; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  done
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_c_compiler_vendor" >&5
+$as_echo "$ax_cv_c_compiler_vendor" >&6; }
+
+if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+
+# Check whether --with-xlc-arch was given.
+if test "${with_xlc_arch+set}" = set; then :
+  withval=$with_xlc_arch; XLC_ARCH=$withval
+else
+  XLC_ARCH=no
+fi
+
+fi
+
+# Select our default optimization flags in CFLAGS.
+#
+if test "$sre_cflags_env_set" = "no"; then
+if test "$enable_gcov" = "yes"; then
+   # --enable-gcov overrides CC too.
+   CC="gcc"
+   CFLAGS="-g -Wall -fprofile-arcs -ftest-coverage"
+elif test "$enable_debugging" != "no"; then
+   if test "$GCC" = "yes"; then
+      CFLAGS="-g -Wall"
+   fi
+else
+   sre_save_ac_test_cflags="$ac_test_CFLAGS"
+   if test "$sre_cflags_env_set" = "no"; then
+     ac_test_CFLAGS=""
+   fi
+   { $as_echo "$as_me:${as_lineno-$LINENO}: checking for a sed that does not truncate output" >&5
+$as_echo_n "checking for a sed that does not truncate output... " >&6; }
+if ${ac_cv_path_SED+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+            ac_script=s/aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa/bbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbbb/
+     for ac_i in 1 2 3 4 5 6 7; do
+       ac_script="$ac_script$as_nl$ac_script"
+     done
+     echo "$ac_script" 2>/dev/null | sed 99q >conftest.sed
+     { ac_script=; unset ac_script;}
+     if test -z "$SED"; then
+  ac_path_SED_found=false
+  # Loop through the user's path and test for each of PROGNAME-LIST
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_prog in sed gsed; do
+    for ac_exec_ext in '' $ac_executable_extensions; do
+      ac_path_SED="$as_dir/$ac_prog$ac_exec_ext"
+      { test -f "$ac_path_SED" && $as_test_x "$ac_path_SED"; } || continue
+# Check for GNU ac_path_SED and select it if it is found.
+  # Check for GNU $ac_path_SED
+case `"$ac_path_SED" --version 2>&1` in
+*GNU*)
+  ac_cv_path_SED="$ac_path_SED" ac_path_SED_found=:;;
+*)
+  ac_count=0
+  $as_echo_n 0123456789 >"conftest.in"
+  while :
+  do
+    cat "conftest.in" "conftest.in" >"conftest.tmp"
+    mv "conftest.tmp" "conftest.in"
+    cp "conftest.in" "conftest.nl"
+    $as_echo '' >> "conftest.nl"
+    "$ac_path_SED" -f conftest.sed < "conftest.nl" >"conftest.out" 2>/dev/null || break
+    diff "conftest.out" "conftest.nl" >/dev/null 2>&1 || break
+    as_fn_arith $ac_count + 1 && ac_count=$as_val
+    if test $ac_count -gt ${ac_path_SED_max-0}; then
+      # Best one so far, save it but keep looking for a better one
+      ac_cv_path_SED="$ac_path_SED"
+      ac_path_SED_max=$ac_count
+    fi
+    # 10*(2^10) chars as input seems more than enough
+    test $ac_count -gt 10 && break
+  done
+  rm -f conftest.in conftest.tmp conftest.nl conftest.out;;
+esac
+
+      $ac_path_SED_found && break 3
+    done
+  done
+  done
+IFS=$as_save_IFS
+  if test -z "$ac_cv_path_SED"; then
+    as_fn_error $? "no acceptable sed could be found in \$PATH" "$LINENO" 5
+  fi
+else
+  ac_cv_path_SED=$SED
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_path_SED" >&5
+$as_echo "$ac_cv_path_SED" >&6; }
+ SED="$ac_cv_path_SED"
+  rm -f conftest.sed
+
+
+
+
+
+
+# Check whether --enable-portable-binary was given.
+if test "${enable_portable_binary+set}" = set; then :
+  enableval=$enable_portable_binary; acx_maxopt_portable=$withval
+else
+  acx_maxopt_portable=no
+fi
+
+
+# Try to determine "good" native compiler flags if none specified via CFLAGS
+if test "$ac_test_CFLAGS" != "set"; then
+  CFLAGS=""
+  case $ax_cv_c_compiler_vendor in
+    dec) CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -tune host"
+#        CFLAGS="-newc -w0 -O5 -ansi_alias -ansi_args -fp_reorder -tune host"
+         if test "x$acx_maxopt_portable" = xno; then
+           CFLAGS="$CFLAGS -arch host"
+         fi;;
+
+    sun) CFLAGS="-native -xO5 -dalign"
+#        CFLAGS="-native -fast -xO5 -dalign"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS -xarch=generic"
+         fi;;
+
+    hp)  CFLAGS="+Oall +Optrs_ansi +DSnative"
+         if test "x$acx_maxopt_portable" = xyes; then
+           CFLAGS="$CFLAGS +DAportable"
+         fi;;
+
+    ibm) xlc_opt="-qtune=auto -qstrict"
+         if test "x$acx_maxopt_portable" = xno; then
+            if test "x$XLC_ARCH" = xno; then
+               xlc_opt="-qarch=auto $xlc_opt"
+            else
+               xlc_opt="-qarch=$XLC_ARCH $xlc_opt"
+            fi
+         fi
+          { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $xlc_opt" >&5
+$as_echo_n "checking whether C compiler accepts $xlc_opt... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="$xlc_opt"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_$xlc_opt" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_$xlc_opt" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_$xlc_opt" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        CFLAGS="-O3 -qansialias -w $xlc_opt"
+else
+        CFLAGS="-O3 -qansialias -w"
+                echo "******************************************************"
+                echo "*  You seem to have the IBM  C compiler.  It is      *"
+                echo "*  recommended for best performance that you use:    *"
+                echo "*                                                    *"
+                echo "*    CFLAGS=-O3 -qarch=xxx -qtune=xxx -qansialias -w *"
+                echo "*                      ^^^        ^^^                *"
+                echo "*  where xxx is pwr2, pwr3, 604, or whatever kind of *"
+                echo "*  CPU you have.  (Set the CFLAGS environment var.   *"
+                echo "*  and re-run configure.)  For more info, man cc.    *"
+                echo "******************************************************"
+fi
+
+         ;;
+
+    intel) CFLAGS="-O3 -ansi_alias"
+        if test "x$acx_maxopt_portable" = xno; then
+          icc_archflag=unknown
+          icc_flags=""
+          case $host_cpu in
+            i686*|x86_64*)
+              # icc accepts gcc assembly syntax, so these should work:
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 0 output" >&5
+$as_echo_n "checking for x86 cpuid 0 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_0+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_0=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 0, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_0=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_0=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_0" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_0" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 1 output" >&5
+$as_echo_n "checking for x86 cpuid 1 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_1+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_1=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 1, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_1=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_1=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_1" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_1" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+              case $ax_cv_gcc_x86_cpuid_0 in # see AX_GCC_ARCHFLAG
+                *:756e6547:*:*) # Intel
+                  case $ax_cv_gcc_x86_cpuid_1 in
+                    *6a?:*[234]:*:*|*6[789b]?:*:*:*) icc_flags="-xK";;
+                    *f3[347]:*:*:*|*f41347:*:*:*) icc_flags="-xP -xN -xW -xK";;
+                    *f??:*:*:*) icc_flags="-xN -xW -xK";;
+                  esac ;;
+              esac ;;
+          esac
+          if test "x$icc_flags" != x; then
+            for flag in $icc_flags; do
+               { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $flag" >&5
+$as_echo_n "checking whether C compiler accepts $flag... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="$flag"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_$flag" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_$flag" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_$flag" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        icc_archflag=$flag; break
+else
+        :
+fi
+
+            done
+          fi
+          { $as_echo "$as_me:${as_lineno-$LINENO}: checking for icc architecture flag" >&5
+$as_echo_n "checking for icc architecture flag... " >&6; }
+          { $as_echo "$as_me:${as_lineno-$LINENO}: result: $icc_archflag" >&5
+$as_echo "$icc_archflag" >&6; }
+          if test "x$icc_archflag" != xunknown; then
+            CFLAGS="$CFLAGS $icc_archflag"
+          fi
+        fi
+        ;;
+
+    gnu)
+     # default optimization flags for gcc on all systems
+     CFLAGS="-O3 -fomit-frame-pointer"
+
+     # -malign-double for x86 systems
+     # SRE: no, that's a bad idea;
+     #  on 32bit Ubuntu Linux systems, for example, this
+     #  causes an odd and buggy interaction with _FILE_OFFSET_BITS (LFS)
+     #  and fstat().
+     #     AX_CHECK_COMPILER_FLAGS(-malign-double, CFLAGS="$CFLAGS -malign-double")
+
+     #  -fstrict-aliasing for gcc-2.95+
+      { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -fstrict-aliasing" >&5
+$as_echo_n "checking whether C compiler accepts -fstrict-aliasing... " >&6; }
+if ${ax_cv_c_flags__fstrict_aliasing+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-fstrict-aliasing"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__fstrict_aliasing=yes
+else
+  ax_cv_c_flags__fstrict_aliasing=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__fstrict_aliasing
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        CFLAGS="$CFLAGS -fstrict-aliasing"
+else
+        :
+fi
+
+
+     # note that we enable "unsafe" fp optimization with other compilers, too
+     # SRE: no, that's a bad idea, don't use this
+#     AX_CHECK_COMPILER_FLAGS(-ffast-math, CFLAGS="$CFLAGS -ffast-math")
+
+
+
+
+
+
+# Check whether --with-gcc-arch was given.
+if test "${with_gcc_arch+set}" = set; then :
+  withval=$with_gcc_arch; ax_gcc_arch=$withval
+else
+  ax_gcc_arch=yes
+fi
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for gcc architecture flag" >&5
+$as_echo_n "checking for gcc architecture flag... " >&6; }
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: " >&5
+$as_echo "" >&6; }
+if ${ax_cv_gcc_archflag+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+ax_cv_gcc_archflag="unknown"
+
+if test "$GCC" = yes; then
+
+if test "x$ax_gcc_arch" = xyes; then
+ax_gcc_arch=""
+if test "$cross_compiling" = no; then
+case $host_cpu in
+  i[3456]86*|x86_64*|amd64*) # use cpuid codes
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 0 output" >&5
+$as_echo_n "checking for x86 cpuid 0 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_0+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_0=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 0, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_0=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_0=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_0" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_0" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 1 output" >&5
+$as_echo_n "checking for x86 cpuid 1 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_1+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_1=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 1, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_1=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_1=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_1" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_1" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+
+     case $ax_cv_gcc_x86_cpuid_0 in
+       *:756e6547:*:*) # Intel
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[48]?:*:*:*) ax_gcc_arch="pentium-mmx pentium" ;;
+        *5??:*:*:*) ax_gcc_arch=pentium ;;
+        *1?6[7d]?:*:*:*) ax_gcc_arch="penryn core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6[aef]?:*:*:*|*2?6[5cef]?:*:*:*) ax_gcc_arch="corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *1?6c?:*:*:*|*[23]?66?:*:*:*) ax_gcc_arch="atom core2 pentium-m pentium3 pentiumpro" ;;
+        *2?6[ad]?:*:*:*) ax_gcc_arch="corei7-avx corei7 core2 pentium-m pentium3 pentiumpro" ;;
+        *[1-9a-f]?6??:*:*:*) ax_gcc_arch="core2 pentiumpro" ;;
+        *6[3456]?:*:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[01]:*:*) ax_gcc_arch="pentium2 pentiumpro" ;;
+        *6a?:*[234]:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6[9de]?:*:*:*) ax_gcc_arch="pentium-m pentium3 pentiumpro" ;;
+        *6[78b]?:*:*:*) ax_gcc_arch="pentium3 pentiumpro" ;;
+        *6f?:*:*:*) ax_gcc_arch="core2 pentium-m pentium3 pentiumpro" ;;
+        *6??:*:*:*) ax_gcc_arch=pentiumpro ;;
+        *f3[347]:*:*:*|*f41347:*:*:*|*f6?:*:*:*)
+        case $host_cpu in
+              x86_64*) ax_gcc_arch="nocona pentium4 pentiumpro" ;;
+              *) ax_gcc_arch="prescott pentium4 pentiumpro" ;;
+            esac ;;
+        *f??:*:*:*) ax_gcc_arch="pentium4 pentiumpro";;
+          esac ;;
+       *:68747541:*:*) # AMD
+          case $ax_cv_gcc_x86_cpuid_1 in
+        *5[67]?:*:*:*) ax_gcc_arch=k6 ;;
+        *5[8d]?:*:*:*) ax_gcc_arch="k6-2 k6" ;;
+        *5[9]?:*:*:*) ax_gcc_arch="k6-3 k6" ;;
+        *60?:*:*:*) ax_gcc_arch=k7 ;;
+        *6[12]?:*:*:*) ax_gcc_arch="athlon k7" ;;
+        *6[34]?:*:*:*) ax_gcc_arch="athlon-tbird k7" ;;
+        *67?:*:*:*) ax_gcc_arch="athlon-4 athlon k7" ;;
+        *6[68a]?:*:*:*)
+
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for x86 cpuid 0x80000006 output" >&5
+$as_echo_n "checking for x86 cpuid 0x80000006 output... " >&6; }
+if ${ax_cv_gcc_x86_cpuid_0x80000006+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test "$cross_compiling" = yes; then :
+  ax_cv_gcc_x86_cpuid_0x80000006=unknown
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdio.h>
+int
+main ()
+{
+
+     int op = 0x80000006, eax, ebx, ecx, edx;
+     FILE *f;
+      __asm__("cpuid"
+        : "=a" (eax), "=b" (ebx), "=c" (ecx), "=d" (edx)
+        : "a" (op));
+     f = fopen("conftest_cpuid", "w"); if (!f) return 1;
+     fprintf(f, "%x:%x:%x:%x\n", eax, ebx, ecx, edx);
+     fclose(f);
+     return 0;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ax_cv_gcc_x86_cpuid_0x80000006=`cat conftest_cpuid`; rm -f conftest_cpuid
+else
+  ax_cv_gcc_x86_cpuid_0x80000006=unknown; rm -f conftest_cpuid
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_x86_cpuid_0x80000006" >&5
+$as_echo "$ax_cv_gcc_x86_cpuid_0x80000006" >&6; }
+ac_ext=c
+ac_cpp='$CPP $CPPFLAGS'
+ac_compile='$CC -c $CFLAGS $CPPFLAGS conftest.$ac_ext >&5'
+ac_link='$CC -o conftest$ac_exeext $CFLAGS $CPPFLAGS $LDFLAGS conftest.$ac_ext $LIBS >&5'
+ac_compiler_gnu=$ac_cv_c_compiler_gnu
+
+ # L2 cache size
+           case $ax_cv_gcc_x86_cpuid_0x80000006 in
+                 *:*:*[1-9a-f]??????:*) # (L2 = ecx >> 16) >= 256
+            ax_gcc_arch="athlon-xp athlon-4 athlon k7" ;;
+                 *) ax_gcc_arch="athlon-4 athlon k7" ;;
+           esac ;;
+        *5??f??:*:*:*) ax_gcc_arch="btver1 amdfam10 k8" ;;
+        *6??f??:*:*:*) ax_gcc_arch="bdver1 amdfam10 k8" ;;
+        *[1-9a-f]??f??:*:*:*) ax_gcc_arch="amdfam10 k8" ;;
+        *f[4cef8b]?:*:*:*) ax_gcc_arch="athlon64 k8" ;;
+        *f5?:*:*:*) ax_gcc_arch="opteron k8" ;;
+        *f7?:*:*:*) ax_gcc_arch="athlon-fx opteron k8" ;;
+        *f??:*:*:*) ax_gcc_arch="k8" ;;
+          esac ;;
+    *:746e6543:*:*) # IDT
+       case $ax_cv_gcc_x86_cpuid_1 in
+         *54?:*:*:*) ax_gcc_arch=winchip-c6 ;;
+         *58?:*:*:*) ax_gcc_arch=winchip2 ;;
+         *6[78]?:*:*:*) ax_gcc_arch=c3 ;;
+         *69?:*:*:*) ax_gcc_arch="c3-2 c3" ;;
+       esac ;;
+     esac
+     if test x"$ax_gcc_arch" = x; then # fallback
+    case $host_cpu in
+      i586*) ax_gcc_arch=pentium ;;
+      i686*) ax_gcc_arch=pentiumpro ;;
+        esac
+     fi
+     ;;
+
+  sparc*)
+     # Extract the first word of "prtdiag", so it can be a program name with args.
+set dummy prtdiag; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_path_PRTDIAG+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  case $PRTDIAG in
+  [\\/]* | ?:[\\/]*)
+  ac_cv_path_PRTDIAG="$PRTDIAG" # Let the user override the test with a path.
+  ;;
+  *)
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+as_dummy="$PATH:/usr/platform/`uname -i`/sbin/:/usr/platform/`uname -m`/sbin/"
+for as_dir in $as_dummy
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_path_PRTDIAG="$as_dir/$ac_word$ac_exec_ext"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_path_PRTDIAG" && ac_cv_path_PRTDIAG="prtdiag"
+  ;;
+esac
+fi
+PRTDIAG=$ac_cv_path_PRTDIAG
+if test -n "$PRTDIAG"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $PRTDIAG" >&5
+$as_echo "$PRTDIAG" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+     cputype=`(((grep cpu /proc/cpuinfo | cut -d: -f2) ; ($PRTDIAG -v |grep -i sparc) ; grep -i cpu /var/run/dmesg.boot ) | head -n 1) 2> /dev/null`
+     cputype=`echo "$cputype" | tr -d ' -' | $SED 's/SPARCIIi/SPARCII/' |tr $as_cr_LETTERS $as_cr_letters`
+     case $cputype in
+         *ultrasparciv*) ax_gcc_arch="ultrasparc4 ultrasparc3 ultrasparc v9" ;;
+         *ultrasparciii*) ax_gcc_arch="ultrasparc3 ultrasparc v9" ;;
+         *ultrasparc*) ax_gcc_arch="ultrasparc v9" ;;
+         *supersparc*|*tms390z5[05]*) ax_gcc_arch="supersparc v8" ;;
+         *hypersparc*|*rt62[056]*) ax_gcc_arch="hypersparc v8" ;;
+         *cypress*) ax_gcc_arch=cypress ;;
+     esac ;;
+
+  alphaev5) ax_gcc_arch=ev5 ;;
+  alphaev56) ax_gcc_arch=ev56 ;;
+  alphapca56) ax_gcc_arch="pca56 ev56" ;;
+  alphapca57) ax_gcc_arch="pca57 pca56 ev56" ;;
+  alphaev6) ax_gcc_arch=ev6 ;;
+  alphaev67) ax_gcc_arch=ev67 ;;
+  alphaev68) ax_gcc_arch="ev68 ev67" ;;
+  alphaev69) ax_gcc_arch="ev69 ev68 ev67" ;;
+  alphaev7) ax_gcc_arch="ev7 ev69 ev68 ev67" ;;
+  alphaev79) ax_gcc_arch="ev79 ev7 ev69 ev68 ev67" ;;
+
+  powerpc*)
+     cputype=`((grep cpu /proc/cpuinfo | head -n 1 | cut -d: -f2 | cut -d, -f1 | $SED 's/ //g') ; /usr/bin/machine ; /bin/machine; grep CPU /var/run/dmesg.boot | head -n 1 | cut -d" " -f2) 2> /dev/null`
+     cputype=`echo $cputype | $SED -e 's/ppc//g;s/ *//g'`
+     case $cputype in
+       *750*) ax_gcc_arch="750 G3" ;;
+       *740[0-9]*) ax_gcc_arch="$cputype 7400 G4" ;;
+       *74[4-5][0-9]*) ax_gcc_arch="$cputype 7450 G4" ;;
+       *74[0-9][0-9]*) ax_gcc_arch="$cputype G4" ;;
+       *970*) ax_gcc_arch="970 G5 power4";;
+       *POWER4*|*power4*|*gq*) ax_gcc_arch="power4 970";;
+       *POWER5*|*power5*|*gr*|*gs*) ax_gcc_arch="power5 power4 970";;
+       603ev|8240) ax_gcc_arch="$cputype 603e 603";;
+       *) ax_gcc_arch=$cputype ;;
+     esac
+     ax_gcc_arch="$ax_gcc_arch powerpc"
+     ;;
+esac
+fi # not cross-compiling
+fi # guess arch
+
+if test "x$ax_gcc_arch" != x -a "x$ax_gcc_arch" != xno; then
+for arch in $ax_gcc_arch; do
+  if test "x$acx_maxopt_portable" = xyes; then # if we require portable code
+    flags="-mtune=$arch"
+    # -mcpu=$arch and m$arch generate nonportable code on every arch except
+    # x86.  And some other arches (e.g. Alpha) don't accept -mtune.  Grrr.
+    case $host_cpu in i*86|x86_64*) flags="$flags -mcpu=$arch -m$arch";; esac
+  else
+    flags="-march=$arch -mcpu=$arch -m$arch"
+  fi
+  for flag in $flags; do
+    as_CACHEVAR=`$as_echo "ax_cv_check_cflags__$flag" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $flag" >&5
+$as_echo_n "checking whether C compiler accepts $flag... " >&6; }
+if eval \${$as_CACHEVAR+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+  ax_check_save_flags=$CFLAGS
+  CFLAGS="$CFLAGS  $flag"
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval "$as_CACHEVAR=yes"
+else
+  eval "$as_CACHEVAR=no"
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  CFLAGS=$ax_check_save_flags
+fi
+eval ac_res=\$$as_CACHEVAR
+	       { $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
+$as_echo "$ac_res" >&6; }
+if test x"`eval 'as_val=${'$as_CACHEVAR'};$as_echo "$as_val"'`" = xyes; then :
+  ax_cv_gcc_archflag=$flag; break
+else
+  :
+fi
+
+  done
+  test "x$ax_cv_gcc_archflag" = xunknown || break
+done
+fi
+
+fi # $GCC=yes
+
+fi
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for gcc architecture flag" >&5
+$as_echo_n "checking for gcc architecture flag... " >&6; }
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_cv_gcc_archflag" >&5
+$as_echo "$ax_cv_gcc_archflag" >&6; }
+if test "x$ax_cv_gcc_archflag" = xunknown; then
+  :
+else
+  CFLAGS="$CFLAGS $ax_cv_gcc_archflag"
+fi
+
+     ;;
+  esac
+
+  if test -z "$CFLAGS"; then
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: Don't know the best CFLAGS for this system  *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "* (otherwise, a default of CFLAGS=-O3 will be used)    *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS="-O3"
+  fi
+
+   { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts $CFLAGS" >&5
+$as_echo_n "checking whether C compiler accepts $CFLAGS... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="$CFLAGS"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_$CFLAGS" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_$CFLAGS" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_$CFLAGS" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        :
+else
+
+        echo ""
+        echo "********************************************************"
+        echo "* WARNING: The guessed CFLAGS don't seem to work with  *"
+        echo "* your compiler.                                       *"
+        echo "* Use ./configure CFLAGS=... to specify your own flags *"
+        echo "********************************************************"
+        echo ""
+        CFLAGS=""
+
+fi
+
+
+fi
+
+   ac_test_CFLAGS="$sre_save_ac_test_cflags"
+   # That was a workaround. AX_CC_MAXOPT apparently thinks that
+   # $ac_test_CFLAGS only gets set if ${CFLAGS} was set by the
+   # user (in the environment), but that's not so; it gets set
+   # by AC_PROG_CC. Instead of rewriting AX_CC_MAXOPT, we fool
+   # it.
+fi
+fi
+
+# Figure out how to generate PIC code for shared libraries
+# This sets @PIC_FLAGS@ output variable
+
+# Check whether --enable-pic was given.
+if test "${enable_pic+set}" = set; then :
+  enableval=$enable_pic; enable_pic="$enableval"
+    test "x$enable_pic" = x && enable_pic=auto
+else
+  enable_pic=auto
+fi
+
+# disable PIC by default for static builds
+if test "$enable_pic" = auto && test "$enable_static" = yes; then
+    enable_pic=no
+fi
+# if PIC hasn't been explicitly disabled, try to figure out the flags
+if test "$enable_pic" != no; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: checking for $CC option to produce PIC" >&5
+$as_echo_n "checking for $CC option to produce PIC... " >&6; }
+    # allow the user's flags to override
+    if test "x$PIC_FLAGS" = x; then
+        # see if we're using GCC
+        if test "x$GCC" = xyes; then
+            case "$host_os" in
+            aix*|beos*|cygwin*|irix5*|irix6*|osf3*|osf4*|osf5*)
+                # PIC is the default for these OSes.
+                ;;
+            mingw*|os2*|pw32*)
+                # This hack is so that the source file can tell whether
+                # it is being built for inclusion in a dll (and should
+                # export symbols for example).
+                PIC_FLAGS="-DDLL_EXPORT"
+                ;;
+            darwin*|rhapsody*)
+                # PIC is the default on this platform
+                # Common symbols not allowed in MH_DYLIB files
+                PIC_FLAGS="-fno-common"
+                ;;
+            hpux*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case $host_cpu in
+                hppa*64*|ia64*)
+                    ;;
+                *)
+                    PIC_FLAGS="-fPIC"
+                    ;;
+                esac
+                ;;
+            *)
+                # Everyone else on GCC uses -fPIC
+                PIC_FLAGS="-fPIC"
+                ;;
+            esac
+        else # !GCC
+            case "$host_os" in
+            hpux9*|hpux10*|hpux11*)
+                # PIC is the default for IA64 HP-UX and 64-bit HP-UX,
+                # but not for PA HP-UX.
+                case "$host_cpu" in
+                hppa*64*|ia64*)
+                    # +Z the default
+                    ;;
+                *)
+                    PIC_FLAGS="+Z"
+                    ;;
+                esac
+                ;;
+            linux*|k*bsd*-gnu)
+                case `basename "$CC"` in
+                icc*|ecc*|ifort*)
+                    PIC_FLAGS="-KPIC"
+                    ;;
+                pgcc*|pgf77*|pgf90*|pgf95*)
+                    # Portland Group compilers (*not* the Pentium gcc
+                    # compiler, which looks to be a dead project)
+                    PIC_FLAGS="-fpic"
+                    ;;
+                ccc*)
+                    # All Alpha code is PIC.
+                    ;;
+                xl*)
+                    # IBM XL C 8.0/Fortran 10.1 on PPC
+                    PIC_FLAGS="-qpic"
+                    ;;
+                *)
+                    case `$CC -V 2>&1 | sed 5q` in
+                    *Sun\ C*|*Sun\ F*)
+                        # Sun C 5.9 or Sun Fortran
+                        PIC_FLAGS="-KPIC"
+                        ;;
+                    esac
+                esac
+                ;;
+            solaris*)
+                PIC_FLAGS="-KPIC"
+                ;;
+            sunos4*)
+                PIC_FLAGS="-PIC"
+                ;;
+            esac
+        fi # GCC
+    fi # PIC_FLAGS
+    { $as_echo "$as_me:${as_lineno-$LINENO}: result: $PIC_FLAGS" >&5
+$as_echo "$PIC_FLAGS" >&6; }
+fi
+
+
+
+
+# SSE: figure out our @SIMD_CFLAGS@, define HAVE_SSE2
+# The AC_RUN_IFELSE() is there because it's possible to have
+# hardware that doesn't support SSE2 instructions, yet the
+# compiler can generate them: example AMD Athlons with gcc.
+# So we need to test that an SSE2 program actually runs without
+# generating an "illegal instruction" error. The program
+# here is sufficient [xref J3/127].
+# Note: some platforms (Ubuntu 32-bit for example) absolutely
+# must have the -msse2 cflag on in order to detect a working
+# emmintrin.h, so we set SIMD_CFLAGS before running the test.
+if test "$enable_sse" = "yes" || test "$enable_sse" = "check"; then
+   if test "x$SIMD_CFLAGS" = x; then
+     case $ax_cv_c_compiler_vendor in
+       gnu)    { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -msse2" >&5
+$as_echo_n "checking whether C compiler accepts -msse2... " >&6; }
+if ${ax_cv_c_flags__msse2+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-msse2"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__msse2=yes
+else
+  ax_cv_c_flags__msse2=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__msse2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        SIMD_CFLAGS="-msse2"
+else
+        :
+fi
+;;
+       *)     ;;
+     esac
+   fi
+fi
+if test "$enable_sse" = "check" && test "$enable_vmx" != "yes"; then
+   sre_save_CFLAGS="$CFLAGS"
+   sre_save_CPPFLAGS="$CPPFLAGS"
+   CFLAGS="$CFLAGS $SIMD_CFLAGS"
+   CPPFLAGS="$CPPFLAGS $SIMD_CFLAGS"
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for grep that handles long lines and -e" >&5
+$as_echo_n "checking for grep that handles long lines and -e... " >&6; }
+if ${ac_cv_path_GREP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if test -z "$GREP"; then
+  ac_path_GREP_found=false
+  # Loop through the user's path and test for each of PROGNAME-LIST
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH$PATH_SEPARATOR/usr/xpg4/bin
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_prog in grep ggrep; do
+    for ac_exec_ext in '' $ac_executable_extensions; do
+      ac_path_GREP="$as_dir/$ac_prog$ac_exec_ext"
+      { test -f "$ac_path_GREP" && $as_test_x "$ac_path_GREP"; } || continue
+# Check for GNU ac_path_GREP and select it if it is found.
+  # Check for GNU $ac_path_GREP
+case `"$ac_path_GREP" --version 2>&1` in
+*GNU*)
+  ac_cv_path_GREP="$ac_path_GREP" ac_path_GREP_found=:;;
+*)
+  ac_count=0
+  $as_echo_n 0123456789 >"conftest.in"
+  while :
+  do
+    cat "conftest.in" "conftest.in" >"conftest.tmp"
+    mv "conftest.tmp" "conftest.in"
+    cp "conftest.in" "conftest.nl"
+    $as_echo 'GREP' >> "conftest.nl"
+    "$ac_path_GREP" -e 'GREP$' -e '-(cannot match)-' < "conftest.nl" >"conftest.out" 2>/dev/null || break
+    diff "conftest.out" "conftest.nl" >/dev/null 2>&1 || break
+    as_fn_arith $ac_count + 1 && ac_count=$as_val
+    if test $ac_count -gt ${ac_path_GREP_max-0}; then
+      # Best one so far, save it but keep looking for a better one
+      ac_cv_path_GREP="$ac_path_GREP"
+      ac_path_GREP_max=$ac_count
+    fi
+    # 10*(2^10) chars as input seems more than enough
+    test $ac_count -gt 10 && break
+  done
+  rm -f conftest.in conftest.tmp conftest.nl conftest.out;;
+esac
+
+      $ac_path_GREP_found && break 3
+    done
+  done
+  done
+IFS=$as_save_IFS
+  if test -z "$ac_cv_path_GREP"; then
+    as_fn_error $? "no acceptable grep could be found in $PATH$PATH_SEPARATOR/usr/xpg4/bin" "$LINENO" 5
+  fi
+else
+  ac_cv_path_GREP=$GREP
+fi
+
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_path_GREP" >&5
+$as_echo "$ac_cv_path_GREP" >&6; }
+ GREP="$ac_cv_path_GREP"
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for egrep" >&5
+$as_echo_n "checking for egrep... " >&6; }
+if ${ac_cv_path_EGREP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  if echo a | $GREP -E '(a|b)' >/dev/null 2>&1
+   then ac_cv_path_EGREP="$GREP -E"
+   else
+     if test -z "$EGREP"; then
+  ac_path_EGREP_found=false
+  # Loop through the user's path and test for each of PROGNAME-LIST
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH$PATH_SEPARATOR/usr/xpg4/bin
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_prog in egrep; do
+    for ac_exec_ext in '' $ac_executable_extensions; do
+      ac_path_EGREP="$as_dir/$ac_prog$ac_exec_ext"
+      { test -f "$ac_path_EGREP" && $as_test_x "$ac_path_EGREP"; } || continue
+# Check for GNU ac_path_EGREP and select it if it is found.
+  # Check for GNU $ac_path_EGREP
+case `"$ac_path_EGREP" --version 2>&1` in
+*GNU*)
+  ac_cv_path_EGREP="$ac_path_EGREP" ac_path_EGREP_found=:;;
+*)
+  ac_count=0
+  $as_echo_n 0123456789 >"conftest.in"
+  while :
+  do
+    cat "conftest.in" "conftest.in" >"conftest.tmp"
+    mv "conftest.tmp" "conftest.in"
+    cp "conftest.in" "conftest.nl"
+    $as_echo 'EGREP' >> "conftest.nl"
+    "$ac_path_EGREP" 'EGREP$' < "conftest.nl" >"conftest.out" 2>/dev/null || break
+    diff "conftest.out" "conftest.nl" >/dev/null 2>&1 || break
+    as_fn_arith $ac_count + 1 && ac_count=$as_val
+    if test $ac_count -gt ${ac_path_EGREP_max-0}; then
+      # Best one so far, save it but keep looking for a better one
+      ac_cv_path_EGREP="$ac_path_EGREP"
+      ac_path_EGREP_max=$ac_count
+    fi
+    # 10*(2^10) chars as input seems more than enough
+    test $ac_count -gt 10 && break
+  done
+  rm -f conftest.in conftest.tmp conftest.nl conftest.out;;
+esac
+
+      $ac_path_EGREP_found && break 3
+    done
+  done
+  done
+IFS=$as_save_IFS
+  if test -z "$ac_cv_path_EGREP"; then
+    as_fn_error $? "no acceptable egrep could be found in $PATH$PATH_SEPARATOR/usr/xpg4/bin" "$LINENO" 5
+  fi
+else
+  ac_cv_path_EGREP=$EGREP
+fi
+
+   fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_path_EGREP" >&5
+$as_echo "$ac_cv_path_EGREP" >&6; }
+ EGREP="$ac_cv_path_EGREP"
+
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for ANSI C header files" >&5
+$as_echo_n "checking for ANSI C header files... " >&6; }
+if ${ac_cv_header_stdc+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdlib.h>
+#include <stdarg.h>
+#include <string.h>
+#include <float.h>
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_header_stdc=yes
+else
+  ac_cv_header_stdc=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+
+if test $ac_cv_header_stdc = yes; then
+  # SunOS 4.x string.h does not declare mem*, contrary to ANSI.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <string.h>
+
+_ACEOF
+if (eval "$ac_cpp conftest.$ac_ext") 2>&5 |
+  $EGREP "memchr" >/dev/null 2>&1; then :
+
+else
+  ac_cv_header_stdc=no
+fi
+rm -f conftest*
+
+fi
+
+if test $ac_cv_header_stdc = yes; then
+  # ISC 2.0.2 stdlib.h does not declare free, contrary to ANSI.
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <stdlib.h>
+
+_ACEOF
+if (eval "$ac_cpp conftest.$ac_ext") 2>&5 |
+  $EGREP "free" >/dev/null 2>&1; then :
+
+else
+  ac_cv_header_stdc=no
+fi
+rm -f conftest*
+
+fi
+
+if test $ac_cv_header_stdc = yes; then
+  # /bin/cc in Irix-4.0.5 gets non-ANSI ctype macros unless using -ansi.
+  if test "$cross_compiling" = yes; then :
+  :
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <ctype.h>
+#include <stdlib.h>
+#if ((' ' & 0x0FF) == 0x020)
+# define ISLOWER(c) ('a' <= (c) && (c) <= 'z')
+# define TOUPPER(c) (ISLOWER(c) ? 'A' + ((c) - 'a') : (c))
+#else
+# define ISLOWER(c) \
+		   (('a' <= (c) && (c) <= 'i') \
+		     || ('j' <= (c) && (c) <= 'r') \
+		     || ('s' <= (c) && (c) <= 'z'))
+# define TOUPPER(c) (ISLOWER(c) ? ((c) | 0x40) : (c))
+#endif
+
+#define XOR(e, f) (((e) && !(f)) || (!(e) && (f)))
+int
+main ()
+{
+  int i;
+  for (i = 0; i < 256; i++)
+    if (XOR (islower (i), ISLOWER (i))
+	|| toupper (i) != TOUPPER (i))
+      return 2;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+
+else
+  ac_cv_header_stdc=no
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_header_stdc" >&5
+$as_echo "$ac_cv_header_stdc" >&6; }
+if test $ac_cv_header_stdc = yes; then
+
+$as_echo "#define STDC_HEADERS 1" >>confdefs.h
+
+fi
+
+# On IRIX 5.3, sys/types and inttypes.h are conflicting.
+for ac_header in sys/types.h sys/stat.h stdlib.h string.h memory.h strings.h \
+		  inttypes.h stdint.h unistd.h
+do :
+  as_ac_Header=`$as_echo "ac_cv_header_$ac_header" | $as_tr_sh`
+ac_fn_c_check_header_compile "$LINENO" "$ac_header" "$as_ac_Header" "$ac_includes_default
+"
+if eval test \"x\$"$as_ac_Header"\" = x"yes"; then :
+  cat >>confdefs.h <<_ACEOF
+#define `$as_echo "HAVE_$ac_header" | $as_tr_cpp` 1
+_ACEOF
+
+fi
+
+done
+
+
+ac_fn_c_check_header_mongrel "$LINENO" "emmintrin.h" "ac_cv_header_emmintrin_h" "$ac_includes_default"
+if test "x$ac_cv_header_emmintrin_h" = xyes; then :
+
+     { $as_echo "$as_me:${as_lineno-$LINENO}: checking if platform can run SSE/SSE2 instructions" >&5
+$as_echo_n "checking if platform can run SSE/SSE2 instructions... " >&6; }
+     if test "$cross_compiling" = yes; then :
+  { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot run test program while cross compiling
+See \`config.log' for more details" "$LINENO" 5; }
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <emmintrin.h>
+int
+main ()
+{
+__m128i v = _mm_set1_epi8(0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+                     enable_sse=yes
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+fi
+
+
+   CFLAGS="$sre_save_CFLAGS"
+   CPPFLAGS="$sre_save_CPPFLAGS"
+fi
+if test "$enable_sse" = "yes"; then
+
+$as_echo "#define HAVE_SSE2 1" >>confdefs.h
+
+fi
+
+
+# VMX/Altivec (not autodetected yet; must use --enable-vmx to enable)
+if test "$enable_sse" != "yes"; then
+  if test "x$SIMD_CFLAGS" = x; then
+    VMX_SIMD_CFLAGS=""
+    if test "$GCC" = "yes"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -faltivec" >&5
+$as_echo_n "checking whether C compiler accepts -faltivec... " >&6; }
+if ${ax_cv_c_flags__faltivec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-faltivec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__faltivec=yes
+else
+  ax_cv_c_flags__faltivec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__faltivec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        VMX_SIMD_CFLAGS="-faltivec"
+else
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -maltivec -mabi=altivec" >&5
+$as_echo_n "checking whether C compiler accepts -maltivec -mabi=altivec... " >&6; }
+ax_save_FLAGS=$CFLAGS
+   CFLAGS="-maltivec -mabi=altivec"
+   cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  eval `$as_echo "ax_cv_c_flags_-maltivec -mabi=altivec" | $as_tr_sh`=yes
+else
+  eval `$as_echo "ax_cv_c_flags_-maltivec -mabi=altivec" | $as_tr_sh`=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+   CFLAGS=$ax_save_FLAGS
+eval ax_check_compiler_flags=$`$as_echo "ax_cv_c_flags_-maltivec -mabi=altivec" | $as_tr_sh`
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        VMX_SIMD_CFLAGS="-maltivec -mabi=altivec"
+else
+         { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -fvec" >&5
+$as_echo_n "checking whether C compiler accepts -fvec... " >&6; }
+if ${ax_cv_c_flags__fvec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-fvec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__fvec=yes
+else
+  ax_cv_c_flags__fvec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__fvec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        VMX_SIMD_CFLAGS="-fvec"
+else
+        as_fn_error $? "Need a version of gcc with -maltivec" "$LINENO" 5
+fi
+
+fi
+
+fi
+
+    elif test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -qenablevmx" >&5
+$as_echo_n "checking whether C compiler accepts -qenablevmx... " >&6; }
+if ${ax_cv_c_flags__qenablevmx+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-qenablevmx"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__qenablevmx=yes
+else
+  ax_cv_c_flags__qenablevmx=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__qenablevmx
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        VMX_SIMD_CFLAGS="$VMX_SIMD_CFLAGS -qenablevmx"
+else
+        :
+fi
+
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -qaltivec" >&5
+$as_echo_n "checking whether C compiler accepts -qaltivec... " >&6; }
+if ${ax_cv_c_flags__qaltivec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-qaltivec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__qaltivec=yes
+else
+  ax_cv_c_flags__qaltivec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__qaltivec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        VMX_SIMD_CFLAGS="$VMX_SIMD_CFLAGS -qaltivec"
+else
+        :
+fi
+
+    else
+        { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether C compiler accepts -faltivec" >&5
+$as_echo_n "checking whether C compiler accepts -faltivec... " >&6; }
+if ${ax_cv_c_flags__faltivec+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+
+      ax_save_FLAGS=$CFLAGS
+      CFLAGS="-faltivec"
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ax_cv_c_flags__faltivec=yes
+else
+  ax_cv_c_flags__faltivec=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+      CFLAGS=$ax_save_FLAGS
+fi
+
+eval ax_check_compiler_flags=$ax_cv_c_flags__faltivec
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ax_check_compiler_flags" >&5
+$as_echo "$ax_check_compiler_flags" >&6; }
+if test "x$ax_check_compiler_flags" = xyes; then
+        VMX_SIMD_CFLAGS="-faltivec"
+else
+        :
+fi
+
+    fi
+  else
+    VMX_SIMD_CFLAGS="$SIMD_CFLAGS"
+  fi
+  if test "$enable_vmx" = "check"; then
+     sre_save_cflags="$CFLAGS"
+     CFLAGS="$CFLAGS $VMX_SIMD_CFLAGS"
+     { $as_echo "$as_me:${as_lineno-$LINENO}: checking if platform can run Altivec/VMX instructions" >&5
+$as_echo_n "checking if platform can run Altivec/VMX instructions... " >&6; }
+     if test "$cross_compiling" = yes; then :
+  { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "cannot run test program while cross compiling
+See \`config.log' for more details" "$LINENO" 5; }
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <altivec.h>
+int
+main ()
+{
+vector unsigned char zerov;
+                                     vector unsigned char onev;
+                                     zerov = vec_splat_u8(0);
+                                     onev = vec_splat_u8(1);
+                                     onev = vec_adds(onev, zerov);
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
+$as_echo "yes" >&6; }
+                       enable_vmx=yes
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+                        if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+                           echo "******************************************************"
+                           echo "*  You seem to have the IBM  C compiler.  If your    *"
+                           echo "*  processor supports vector instructions it is      *"
+                           echo "*  possible specifying an architecture would enable  *"
+                           echo "*  vector support, i.e.                              *"
+                           echo "*                                                    *"
+                           echo "*    --with-xlc-arch=XXX                             *"
+                           echo "*                                                    *"
+                           echo "*  where XXX is pwr6, auto or whatever kind of CPU   *"
+                           echo "*  you have.                                         *"
+                           echo "******************************************************"
+                        fi
+
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+     CFLAGS="$sre_save_cflags"
+  fi
+  if test "$enable_vmx" = "yes"; then
+    SIMD_CFLAGS="$VMX_SIMD_CFLAGS"
+
+$as_echo "#define HAVE_VMX 1" >>confdefs.h
+
+  fi
+fi
+
+
+
+# Define HAVE_GZIP if gzip is in $PATH (or if HAVE_GZIP is already set)
+# Extract the first word of ""gzip"", so it can be a program name with args.
+set dummy "gzip"; ac_word=$2
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for $ac_word" >&5
+$as_echo_n "checking for $ac_word... " >&6; }
+if ${ac_cv_path_HAVE_GZIP+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  case $HAVE_GZIP in
+  [\\/]* | ?:[\\/]*)
+  ac_cv_path_HAVE_GZIP="$HAVE_GZIP" # Let the user override the test with a path.
+  ;;
+  *)
+  as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    for ac_exec_ext in '' $ac_executable_extensions; do
+  if { test -f "$as_dir/$ac_word$ac_exec_ext" && $as_test_x "$as_dir/$ac_word$ac_exec_ext"; }; then
+    ac_cv_path_HAVE_GZIP="$as_dir/$ac_word$ac_exec_ext"
+    $as_echo "$as_me:${as_lineno-$LINENO}: found $as_dir/$ac_word$ac_exec_ext" >&5
+    break 2
+  fi
+done
+  done
+IFS=$as_save_IFS
+
+  test -z "$ac_cv_path_HAVE_GZIP" && ac_cv_path_HAVE_GZIP=""no""
+  ;;
+esac
+fi
+HAVE_GZIP=$ac_cv_path_HAVE_GZIP
+if test -n "$HAVE_GZIP"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: $HAVE_GZIP" >&5
+$as_echo "$HAVE_GZIP" >&6; }
+else
+  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
+$as_echo "no" >&6; }
+fi
+
+
+if test "${HAVE_GZIP}" = "no"; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: gzip not found" >&5
+$as_echo "$as_me: WARNING: gzip not found" >&2;}
+else
+  $as_echo "#define HAVE_GZIP 1" >>confdefs.h
+
+fi
+
+# 5. Checks for libraries.
+LIBGSL=
+if test "x$with_gsl" != xno; then :
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for gsl_expm1 in -lgsl" >&5
+$as_echo_n "checking for gsl_expm1 in -lgsl... " >&6; }
+if ${ac_cv_lib_gsl_gsl_expm1+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_check_lib_save_LIBS=$LIBS
+LIBS="-lgsl -lgslcblas
+         $LIBS"
+cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+
+/* Override any GCC internal prototype to avoid an error.
+   Use char because int might match the return type of a GCC
+   builtin and then its argument prototype would still apply.  */
+#ifdef __cplusplus
+extern "C"
+#endif
+char gsl_expm1 ();
+int
+main ()
+{
+return gsl_expm1 ();
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_lib_gsl_gsl_expm1=yes
+else
+  ac_cv_lib_gsl_gsl_expm1=no
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+LIBS=$ac_check_lib_save_LIBS
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_lib_gsl_gsl_expm1" >&5
+$as_echo "$ac_cv_lib_gsl_gsl_expm1" >&6; }
+if test "x$ac_cv_lib_gsl_gsl_expm1" = xyes; then :
+  LIBGSL="-lgsl -lgslcblas"
+
+
+$as_echo "#define HAVE_LIBGSL 1" >>confdefs.h
+
+
+else
+  if test "x$with_gsl" != xcheck; then
+             { { $as_echo "$as_me:${as_lineno-$LINENO}: error: in \`$ac_pwd':" >&5
+$as_echo "$as_me: error: in \`$ac_pwd':" >&2;}
+as_fn_error $? "--with-gsl was given, but GSL library was not found
+See \`config.log' for more details" "$LINENO" 5; }
+            fi
+
+fi
+
+fi
+
+# 6. Checks for header files.
+#    Defines preprocessor symbols like HAVE_UNISTD_H
+for ac_header in \
+  endian.h \
+  inttypes.h \
+  stdint.h \
+  unistd.h \
+  sys/types.h \
+  strings.h \
+
+do :
+  as_ac_Header=`$as_echo "ac_cv_header_$ac_header" | $as_tr_sh`
+ac_fn_c_check_header_mongrel "$LINENO" "$ac_header" "$as_ac_Header" "$ac_includes_default"
+if eval test \"x\$"$as_ac_Header"\" = x"yes"; then :
+  cat >>confdefs.h <<_ACEOF
+#define `$as_echo "HAVE_$ac_header" | $as_tr_cpp` 1
+_ACEOF
+
+fi
+
+done
+
+
+# Check for sysctl.h separately.  On OpenBSD, it requires
+# <sys/param.h> and autoconf needs special logic to deal w. this as
+# follows.
+for ac_header in sys/param.h
+do :
+  ac_fn_c_check_header_mongrel "$LINENO" "sys/param.h" "ac_cv_header_sys_param_h" "$ac_includes_default"
+if test "x$ac_cv_header_sys_param_h" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYS_PARAM_H 1
+_ACEOF
+
+fi
+
+done
+
+for ac_header in sys/sysctl.h
+do :
+  ac_fn_c_check_header_compile "$LINENO" "sys/sysctl.h" "ac_cv_header_sys_sysctl_h" "#ifdef HAVE_SYS_PARAM_H
+#include <sys/param.h>
+#endif
+
+"
+if test "x$ac_cv_header_sys_sysctl_h" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYS_SYSCTL_H 1
+_ACEOF
+
+fi
+
+done
+
+
+# Vector-specific headers.
+# Separated, because we may want to implement
+# other vector languages besides SSE
+# For SSE:
+#  xmmintrin.h = SSE
+#  emmintrin.h = SSE2
+#  pmmintrin.h = SSE3
+for ac_header in \
+  emmintrin.h\
+  pmmintrin.h\
+  xmmintrin.h
+
+do :
+  as_ac_Header=`$as_echo "ac_cv_header_$ac_header" | $as_tr_sh`
+ac_fn_c_check_header_mongrel "$LINENO" "$ac_header" "$as_ac_Header" "$ac_includes_default"
+if eval test \"x\$"$as_ac_Header"\" = x"yes"; then :
+  cat >>confdefs.h <<_ACEOF
+#define `$as_echo "HAVE_$ac_header" | $as_tr_cpp` 1
+_ACEOF
+
+fi
+
+done
+
+
+# altivec.h requires the simd cflags
+# For reasons I don't understand, this needs to come after any other CHECK_HEADERS().
+if test "$enable_vmx" = "yes"; then
+   sre_save_CFLAGS="$CFLAGS"
+   sre_save_CPPFLAGS="$CPPFLAGS"
+   CFLAGS="$CFLAGS $SIMD_CFLAGS"
+   CPPFLAGS="$CPPFLAGS $SIMD_CFLAGS"
+   for ac_header in altivec.h
+do :
+  ac_fn_c_check_header_mongrel "$LINENO" "altivec.h" "ac_cv_header_altivec_h" "$ac_includes_default"
+if test "x$ac_cv_header_altivec_h" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_ALTIVEC_H 1
+_ACEOF
+
+fi
+
+done
+
+   CFLAGS="$sre_save_CFLAGS"
+   CPPFLAGS="$sre_save_CPPFLAGS"
+fi
+
+
+
+# 7. Checks for types.
+#    - Define WORDS_BIGENDIAN on bigendian platforms.
+#    - Make sure we have C99 exact-size integer types;
+#      ssi uses 16, 32, and 64-bit ints, and we
+#      use 8-bit unsigned chars for digitized sequence.
+#    - Make sure we have off_t.
+#
+ { $as_echo "$as_me:${as_lineno-$LINENO}: checking whether byte ordering is bigendian" >&5
+$as_echo_n "checking whether byte ordering is bigendian... " >&6; }
+if ${ac_cv_c_bigendian+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_c_bigendian=unknown
+    # See if we're dealing with a universal compiler.
+    cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#ifndef __APPLE_CC__
+	       not a universal capable compiler
+	     #endif
+	     typedef int dummy;
+
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+
+	# Check for potential -arch flags.  It is not universal unless
+	# there are at least two -arch flags with different values.
+	ac_arch=
+	ac_prev=
+	for ac_word in $CC $CFLAGS $CPPFLAGS $LDFLAGS; do
+	 if test -n "$ac_prev"; then
+	   case $ac_word in
+	     i?86 | x86_64 | ppc | ppc64)
+	       if test -z "$ac_arch" || test "$ac_arch" = "$ac_word"; then
+		 ac_arch=$ac_word
+	       else
+		 ac_cv_c_bigendian=universal
+		 break
+	       fi
+	       ;;
+	   esac
+	   ac_prev=
+	 elif test "x$ac_word" = "x-arch"; then
+	   ac_prev=arch
+	 fi
+       done
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+    if test $ac_cv_c_bigendian = unknown; then
+      # See if sys/param.h defines the BYTE_ORDER macro.
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+	     #include <sys/param.h>
+
+int
+main ()
+{
+#if ! (defined BYTE_ORDER && defined BIG_ENDIAN \
+		     && defined LITTLE_ENDIAN && BYTE_ORDER && BIG_ENDIAN \
+		     && LITTLE_ENDIAN)
+	      bogus endian macros
+	     #endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  # It does; now see whether it defined to BIG_ENDIAN or not.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+		#include <sys/param.h>
+
+int
+main ()
+{
+#if BYTE_ORDER != BIG_ENDIAN
+		 not big endian
+		#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_c_bigendian=yes
+else
+  ac_cv_c_bigendian=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+    fi
+    if test $ac_cv_c_bigendian = unknown; then
+      # See if <limits.h> defines _LITTLE_ENDIAN or _BIG_ENDIAN (e.g., Solaris).
+      cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <limits.h>
+
+int
+main ()
+{
+#if ! (defined _LITTLE_ENDIAN || defined _BIG_ENDIAN)
+	      bogus endian macros
+	     #endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  # It does; now see whether it defined to _BIG_ENDIAN or not.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <limits.h>
+
+int
+main ()
+{
+#ifndef _BIG_ENDIAN
+		 not big endian
+		#endif
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_c_bigendian=yes
+else
+  ac_cv_c_bigendian=no
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+    fi
+    if test $ac_cv_c_bigendian = unknown; then
+      # Compile a test program.
+      if test "$cross_compiling" = yes; then :
+  # Try to guess by grepping values from an object file.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+short int ascii_mm[] =
+		  { 0x4249, 0x4765, 0x6E44, 0x6961, 0x6E53, 0x7953, 0 };
+		short int ascii_ii[] =
+		  { 0x694C, 0x5454, 0x656C, 0x6E45, 0x6944, 0x6E61, 0 };
+		int use_ascii (int i) {
+		  return ascii_mm[i] + ascii_ii[i];
+		}
+		short int ebcdic_ii[] =
+		  { 0x89D3, 0xE3E3, 0x8593, 0x95C5, 0x89C4, 0x9581, 0 };
+		short int ebcdic_mm[] =
+		  { 0xC2C9, 0xC785, 0x95C4, 0x8981, 0x95E2, 0xA8E2, 0 };
+		int use_ebcdic (int i) {
+		  return ebcdic_mm[i] + ebcdic_ii[i];
+		}
+		extern int foo;
+
+int
+main ()
+{
+return use_ascii (foo) == use_ebcdic (foo);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  if grep BIGenDianSyS conftest.$ac_objext >/dev/null; then
+	      ac_cv_c_bigendian=yes
+	    fi
+	    if grep LiTTleEnDian conftest.$ac_objext >/dev/null ; then
+	      if test "$ac_cv_c_bigendian" = unknown; then
+		ac_cv_c_bigendian=no
+	      else
+		# finding both strings is unlikely to happen, but who knows?
+		ac_cv_c_bigendian=unknown
+	      fi
+	    fi
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+else
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+$ac_includes_default
+int
+main ()
+{
+
+	     /* Are we little or big endian?  From Harbison&Steele.  */
+	     union
+	     {
+	       long int l;
+	       char c[sizeof (long int)];
+	     } u;
+	     u.l = 1;
+	     return u.c[sizeof (long int) - 1] == 1;
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_run "$LINENO"; then :
+  ac_cv_c_bigendian=no
+else
+  ac_cv_c_bigendian=yes
+fi
+rm -f core *.core core.conftest.* gmon.out bb.out conftest$ac_exeext \
+  conftest.$ac_objext conftest.beam conftest.$ac_ext
+fi
+
+    fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_c_bigendian" >&5
+$as_echo "$ac_cv_c_bigendian" >&6; }
+ case $ac_cv_c_bigendian in #(
+   yes)
+     $as_echo "#define WORDS_BIGENDIAN 1" >>confdefs.h
+;; #(
+   no)
+      ;; #(
+   universal)
+
+$as_echo "#define AC_APPLE_UNIVERSAL_BUILD 1" >>confdefs.h
+
+     ;; #(
+   *)
+     as_fn_error $? "unknown endianness
+ presetting ac_cv_c_bigendian=no (or yes) will help" "$LINENO" 5 ;;
+ esac
+
+ac_fn_c_find_intX_t "$LINENO" "8" "ac_cv_c_int8_t"
+case $ac_cv_c_int8_t in #(
+  no|yes) ;; #(
+  *)
+
+cat >>confdefs.h <<_ACEOF
+#define int8_t $ac_cv_c_int8_t
+_ACEOF
+;;
+esac
+
+ac_fn_c_find_intX_t "$LINENO" "16" "ac_cv_c_int16_t"
+case $ac_cv_c_int16_t in #(
+  no|yes) ;; #(
+  *)
+
+cat >>confdefs.h <<_ACEOF
+#define int16_t $ac_cv_c_int16_t
+_ACEOF
+;;
+esac
+
+ac_fn_c_find_intX_t "$LINENO" "32" "ac_cv_c_int32_t"
+case $ac_cv_c_int32_t in #(
+  no|yes) ;; #(
+  *)
+
+cat >>confdefs.h <<_ACEOF
+#define int32_t $ac_cv_c_int32_t
+_ACEOF
+;;
+esac
+
+ac_fn_c_find_intX_t "$LINENO" "64" "ac_cv_c_int64_t"
+case $ac_cv_c_int64_t in #(
+  no|yes) ;; #(
+  *)
+
+cat >>confdefs.h <<_ACEOF
+#define int64_t $ac_cv_c_int64_t
+_ACEOF
+;;
+esac
+
+ac_fn_c_find_uintX_t "$LINENO" "8" "ac_cv_c_uint8_t"
+case $ac_cv_c_uint8_t in #(
+  no|yes) ;; #(
+  *)
+
+$as_echo "#define _UINT8_T 1" >>confdefs.h
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint8_t $ac_cv_c_uint8_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_find_uintX_t "$LINENO" "16" "ac_cv_c_uint16_t"
+case $ac_cv_c_uint16_t in #(
+  no|yes) ;; #(
+  *)
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint16_t $ac_cv_c_uint16_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_find_uintX_t "$LINENO" "32" "ac_cv_c_uint32_t"
+case $ac_cv_c_uint32_t in #(
+  no|yes) ;; #(
+  *)
+
+$as_echo "#define _UINT32_T 1" >>confdefs.h
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint32_t $ac_cv_c_uint32_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_find_uintX_t "$LINENO" "64" "ac_cv_c_uint64_t"
+case $ac_cv_c_uint64_t in #(
+  no|yes) ;; #(
+  *)
+
+$as_echo "#define _UINT64_T 1" >>confdefs.h
+
+
+cat >>confdefs.h <<_ACEOF
+#define uint64_t $ac_cv_c_uint64_t
+_ACEOF
+;;
+  esac
+
+ac_fn_c_check_type "$LINENO" "off_t" "ac_cv_type_off_t" "$ac_includes_default"
+if test "x$ac_cv_type_off_t" = xyes; then :
+
+else
+
+cat >>confdefs.h <<_ACEOF
+#define off_t long int
+_ACEOF
+
+fi
+
+
+# 8. Checks for structures - none
+
+################################################################
+# 10. Checks for library functions: define HAVE_FOO
+################################################################
+
+for ac_func in mkstemp
+do :
+  ac_fn_c_check_func "$LINENO" "mkstemp" "ac_cv_func_mkstemp"
+if test "x$ac_cv_func_mkstemp" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_MKSTEMP 1
+_ACEOF
+
+fi
+done
+
+for ac_func in popen
+do :
+  ac_fn_c_check_func "$LINENO" "popen" "ac_cv_func_popen"
+if test "x$ac_cv_func_popen" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_POPEN 1
+_ACEOF
+
+fi
+done
+
+for ac_func in putenv
+do :
+  ac_fn_c_check_func "$LINENO" "putenv" "ac_cv_func_putenv"
+if test "x$ac_cv_func_putenv" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_PUTENV 1
+_ACEOF
+
+fi
+done
+
+for ac_func in strcasecmp
+do :
+  ac_fn_c_check_func "$LINENO" "strcasecmp" "ac_cv_func_strcasecmp"
+if test "x$ac_cv_func_strcasecmp" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_STRCASECMP 1
+_ACEOF
+
+fi
+done
+
+for ac_func in times
+do :
+  ac_fn_c_check_func "$LINENO" "times" "ac_cv_func_times"
+if test "x$ac_cv_func_times" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_TIMES 1
+_ACEOF
+
+fi
+done
+
+for ac_func in getpid
+do :
+  ac_fn_c_check_func "$LINENO" "getpid" "ac_cv_func_getpid"
+if test "x$ac_cv_func_getpid" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_GETPID 1
+_ACEOF
+
+fi
+done
+
+for ac_func in sysctl
+do :
+  ac_fn_c_check_func "$LINENO" "sysctl" "ac_cv_func_sysctl"
+if test "x$ac_cv_func_sysctl" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYSCTL 1
+_ACEOF
+
+fi
+done
+
+for ac_func in sysconf
+do :
+  ac_fn_c_check_func "$LINENO" "sysconf" "ac_cv_func_sysconf"
+if test "x$ac_cv_func_sysconf" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_SYSCONF 1
+_ACEOF
+
+fi
+done
+
+for ac_func in getcwd
+do :
+  ac_fn_c_check_func "$LINENO" "getcwd" "ac_cv_func_getcwd"
+if test "x$ac_cv_func_getcwd" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_GETCWD 1
+_ACEOF
+
+fi
+done
+
+for ac_func in chmod
+do :
+  ac_fn_c_check_func "$LINENO" "chmod" "ac_cv_func_chmod"
+if test "x$ac_cv_func_chmod" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_CHMOD 1
+_ACEOF
+
+fi
+done
+
+for ac_func in stat
+do :
+  ac_fn_c_check_func "$LINENO" "stat" "ac_cv_func_stat"
+if test "x$ac_cv_func_stat" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_STAT 1
+_ACEOF
+
+fi
+done
+
+for ac_func in fstat
+do :
+  ac_fn_c_check_func "$LINENO" "fstat" "ac_cv_func_fstat"
+if test "x$ac_cv_func_fstat" = xyes; then :
+  cat >>confdefs.h <<_ACEOF
+#define HAVE_FSTAT 1
+_ACEOF
+
+fi
+done
+
+{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for _LARGEFILE_SOURCE value needed for large files" >&5
+$as_echo_n "checking for _LARGEFILE_SOURCE value needed for large files... " >&6; }
+if ${ac_cv_sys_largefile_source+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  while :; do
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h> /* for off_t */
+     #include <stdio.h>
+int
+main ()
+{
+int (*fp) (FILE *, off_t, int) = fseeko;
+     return fseeko (stdin, 0, 0) && fp (stdin, 0, 0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_sys_largefile_source=no; break
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#define _LARGEFILE_SOURCE 1
+#include <sys/types.h> /* for off_t */
+     #include <stdio.h>
+int
+main ()
+{
+int (*fp) (FILE *, off_t, int) = fseeko;
+     return fseeko (stdin, 0, 0) && fp (stdin, 0, 0);
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_link "$LINENO"; then :
+  ac_cv_sys_largefile_source=1; break
+fi
+rm -f core conftest.err conftest.$ac_objext \
+    conftest$ac_exeext conftest.$ac_ext
+  ac_cv_sys_largefile_source=unknown
+  break
+done
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_largefile_source" >&5
+$as_echo "$ac_cv_sys_largefile_source" >&6; }
+case $ac_cv_sys_largefile_source in #(
+  no | unknown) ;;
+  *)
+cat >>confdefs.h <<_ACEOF
+#define _LARGEFILE_SOURCE $ac_cv_sys_largefile_source
+_ACEOF
+;;
+esac
+rm -rf conftest*
+
+# We used to try defining _XOPEN_SOURCE=500 too, to work around a bug
+# in glibc 2.1.3, but that breaks too many other things.
+# If you want fseeko and ftello with glibc, upgrade to a fixed glibc.
+if test $ac_cv_sys_largefile_source != unknown; then
+
+$as_echo "#define HAVE_FSEEKO 1" >>confdefs.h
+
+fi
+
+
+# 11. Checks for system services
+# Check whether --enable-largefile was given.
+if test "${enable_largefile+set}" = set; then :
+  enableval=$enable_largefile;
+fi
+
+if test "$enable_largefile" != no; then
+
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for special C compiler options needed for large files" >&5
+$as_echo_n "checking for special C compiler options needed for large files... " >&6; }
+if ${ac_cv_sys_largefile_CC+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  ac_cv_sys_largefile_CC=no
+     if test "$GCC" != yes; then
+       ac_save_CC=$CC
+       while :; do
+	 # IRIX 6.2 and later do not support large files by default,
+	 # so use the C compiler's -n32 option if that helps.
+	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+	 if ac_fn_c_try_compile "$LINENO"; then :
+  break
+fi
+rm -f core conftest.err conftest.$ac_objext
+	 CC="$CC -n32"
+	 if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_largefile_CC=' -n32'; break
+fi
+rm -f core conftest.err conftest.$ac_objext
+	 break
+       done
+       CC=$ac_save_CC
+       rm -f conftest.$ac_ext
+    fi
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_largefile_CC" >&5
+$as_echo "$ac_cv_sys_largefile_CC" >&6; }
+  if test "$ac_cv_sys_largefile_CC" != no; then
+    CC=$CC$ac_cv_sys_largefile_CC
+  fi
+
+  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for _FILE_OFFSET_BITS value needed for large files" >&5
+$as_echo_n "checking for _FILE_OFFSET_BITS value needed for large files... " >&6; }
+if ${ac_cv_sys_file_offset_bits+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  while :; do
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_file_offset_bits=no; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#define _FILE_OFFSET_BITS 64
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_file_offset_bits=64; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  ac_cv_sys_file_offset_bits=unknown
+  break
+done
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_file_offset_bits" >&5
+$as_echo "$ac_cv_sys_file_offset_bits" >&6; }
+case $ac_cv_sys_file_offset_bits in #(
+  no | unknown) ;;
+  *)
+cat >>confdefs.h <<_ACEOF
+#define _FILE_OFFSET_BITS $ac_cv_sys_file_offset_bits
+_ACEOF
+;;
+esac
+rm -rf conftest*
+  if test $ac_cv_sys_file_offset_bits = unknown; then
+    { $as_echo "$as_me:${as_lineno-$LINENO}: checking for _LARGE_FILES value needed for large files" >&5
+$as_echo_n "checking for _LARGE_FILES value needed for large files... " >&6; }
+if ${ac_cv_sys_large_files+:} false; then :
+  $as_echo_n "(cached) " >&6
+else
+  while :; do
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_large_files=no; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
+/* end confdefs.h.  */
+#define _LARGE_FILES 1
+#include <sys/types.h>
+ /* Check that off_t can represent 2**63 - 1 correctly.
+    We can't simply define LARGE_OFF_T to be 9223372036854775807,
+    since some C++ compilers masquerading as C compilers
+    incorrectly reject 9223372036854775807.  */
+#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
+  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
+		       && LARGE_OFF_T % 2147483647 == 1)
+		      ? 1 : -1];
+int
+main ()
+{
+
+  ;
+  return 0;
+}
+_ACEOF
+if ac_fn_c_try_compile "$LINENO"; then :
+  ac_cv_sys_large_files=1; break
+fi
+rm -f core conftest.err conftest.$ac_objext conftest.$ac_ext
+  ac_cv_sys_large_files=unknown
+  break
+done
+fi
+{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_cv_sys_large_files" >&5
+$as_echo "$ac_cv_sys_large_files" >&6; }
+case $ac_cv_sys_large_files in #(
+  no | unknown) ;;
+  *)
+cat >>confdefs.h <<_ACEOF
+#define _LARGE_FILES $ac_cv_sys_large_files
+_ACEOF
+;;
+esac
+rm -rf conftest*
+  fi
+fi
+
+
+
+# 12. Write out esl_config.h header and the Makefiles
+ac_config_headers="$ac_config_headers esl_config.h"
+
+ac_config_files="$ac_config_files miniapps/Makefile"
+
+ac_config_files="$ac_config_files testsuite/Makefile"
+
+ac_config_files="$ac_config_files Makefile"
+
+if test -e "LICENSE.sh.in"; then
+  ac_config_files="$ac_config_files LICENSE.sh"
+
+fi
+ac_config_files="$ac_config_files documentation/Makefile"
+
+
+
+# 13. voila!
+cat >confcache <<\_ACEOF
+# This file is a shell script that caches the results of configure
+# tests run on this system so they can be shared between configure
+# scripts and configure runs, see configure's option --config-cache.
+# It is not useful on other systems.  If it contains results you don't
+# want to keep, you may remove or edit it.
+#
+# config.status only pays attention to the cache file if you give it
+# the --recheck option to rerun configure.
+#
+# `ac_cv_env_foo' variables (set or unset) will be overridden when
+# loading this file, other *unset* `ac_cv_foo' will be assigned the
+# following values.
+
+_ACEOF
+
+# The following way of writing the cache mishandles newlines in values,
+# but we know of no workaround that is simple, portable, and efficient.
+# So, we kill variables containing newlines.
+# Ultrix sh set writes to stderr and can't be redirected directly,
+# and sets the high bit in the cache file unless we assign to the vars.
+(
+  for ac_var in `(set) 2>&1 | sed -n 's/^\([a-zA-Z_][a-zA-Z0-9_]*\)=.*/\1/p'`; do
+    eval ac_val=\$$ac_var
+    case $ac_val in #(
+    *${as_nl}*)
+      case $ac_var in #(
+      *_cv_*) { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: cache variable $ac_var contains a newline" >&5
+$as_echo "$as_me: WARNING: cache variable $ac_var contains a newline" >&2;} ;;
+      esac
+      case $ac_var in #(
+      _ | IFS | as_nl) ;; #(
+      BASH_ARGV | BASH_SOURCE) eval $ac_var= ;; #(
+      *) { eval $ac_var=; unset $ac_var;} ;;
+      esac ;;
+    esac
+  done
+
+  (set) 2>&1 |
+    case $as_nl`(ac_space=' '; set) 2>&1` in #(
+    *${as_nl}ac_space=\ *)
+      # `set' does not quote correctly, so add quotes: double-quote
+      # substitution turns \\\\ into \\, and sed turns \\ into \.
+      sed -n \
+	"s/'/'\\\\''/g;
+	  s/^\\([_$as_cr_alnum]*_cv_[_$as_cr_alnum]*\\)=\\(.*\\)/\\1='\\2'/p"
+      ;; #(
+    *)
+      # `set' quotes correctly as required by POSIX, so do not add quotes.
+      sed -n "/^[_$as_cr_alnum]*_cv_[_$as_cr_alnum]*=/p"
+      ;;
+    esac |
+    sort
+) |
+  sed '
+     /^ac_cv_env_/b end
+     t clear
+     :clear
+     s/^\([^=]*\)=\(.*[{}].*\)$/test "${\1+set}" = set || &/
+     t end
+     s/^\([^=]*\)=\(.*\)$/\1=${\1=\2}/
+     :end' >>confcache
+if diff "$cache_file" confcache >/dev/null 2>&1; then :; else
+  if test -w "$cache_file"; then
+    if test "x$cache_file" != "x/dev/null"; then
+      { $as_echo "$as_me:${as_lineno-$LINENO}: updating cache $cache_file" >&5
+$as_echo "$as_me: updating cache $cache_file" >&6;}
+      if test ! -f "$cache_file" || test -h "$cache_file"; then
+	cat confcache >"$cache_file"
+      else
+        case $cache_file in #(
+        */* | ?:*)
+	  mv -f confcache "$cache_file"$$ &&
+	  mv -f "$cache_file"$$ "$cache_file" ;; #(
+        *)
+	  mv -f confcache "$cache_file" ;;
+	esac
+      fi
+    fi
+  else
+    { $as_echo "$as_me:${as_lineno-$LINENO}: not updating unwritable cache $cache_file" >&5
+$as_echo "$as_me: not updating unwritable cache $cache_file" >&6;}
+  fi
+fi
+rm -f confcache
+
+test "x$prefix" = xNONE && prefix=$ac_default_prefix
+# Let make expand exec_prefix.
+test "x$exec_prefix" = xNONE && exec_prefix='${prefix}'
+
+DEFS=-DHAVE_CONFIG_H
+
+ac_libobjs=
+ac_ltlibobjs=
+U=
+for ac_i in : $LIBOBJS; do test "x$ac_i" = x: && continue
+  # 1. Remove the extension, and $U if already installed.
+  ac_script='s/\$U\././;s/\.o$//;s/\.obj$//'
+  ac_i=`$as_echo "$ac_i" | sed "$ac_script"`
+  # 2. Prepend LIBOBJDIR.  When used with automake>=1.10 LIBOBJDIR
+  #    will be set to the directory where LIBOBJS objects are built.
+  as_fn_append ac_libobjs " \${LIBOBJDIR}$ac_i\$U.$ac_objext"
+  as_fn_append ac_ltlibobjs " \${LIBOBJDIR}$ac_i"'$U.lo'
+done
+LIBOBJS=$ac_libobjs
+
+LTLIBOBJS=$ac_ltlibobjs
+
+
+
+
+: "${CONFIG_STATUS=./config.status}"
+ac_write_fail=0
+ac_clean_files_save=$ac_clean_files
+ac_clean_files="$ac_clean_files $CONFIG_STATUS"
+{ $as_echo "$as_me:${as_lineno-$LINENO}: creating $CONFIG_STATUS" >&5
+$as_echo "$as_me: creating $CONFIG_STATUS" >&6;}
+as_write_fail=0
+cat >$CONFIG_STATUS <<_ASEOF || as_write_fail=1
+#! $SHELL
+# Generated by $as_me.
+# Run this file to recreate the current configuration.
+# Compiler output produced by configure, useful for debugging
+# configure, is in config.log if it exists.
+
+debug=false
+ac_cs_recheck=false
+ac_cs_silent=false
+
+SHELL=\${CONFIG_SHELL-$SHELL}
+export SHELL
+_ASEOF
+cat >>$CONFIG_STATUS <<\_ASEOF || as_write_fail=1
+## -------------------- ##
+## M4sh Initialization. ##
+## -------------------- ##
+
+# Be more Bourne compatible
+DUALCASE=1; export DUALCASE # for MKS sh
+if test -n "${ZSH_VERSION+set}" && (emulate sh) >/dev/null 2>&1; then :
+  emulate sh
+  NULLCMD=:
+  # Pre-4.2 versions of Zsh do word splitting on ${1+"$@"}, which
+  # is contrary to our usage.  Disable this feature.
+  alias -g '${1+"$@"}'='"$@"'
+  setopt NO_GLOB_SUBST
+else
+  case `(set -o) 2>/dev/null` in #(
+  *posix*) :
+    set -o posix ;; #(
+  *) :
+     ;;
+esac
+fi
+
+
+as_nl='
+'
+export as_nl
+# Printing a long string crashes Solaris 7 /usr/bin/printf.
+as_echo='\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\'
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo
+as_echo=$as_echo$as_echo$as_echo$as_echo$as_echo$as_echo
+# Prefer a ksh shell builtin over an external printf program on Solaris,
+# but without wasting forks for bash or zsh.
+if test -z "$BASH_VERSION$ZSH_VERSION" \
+    && (test "X`print -r -- $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='print -r --'
+  as_echo_n='print -rn --'
+elif (test "X`printf %s $as_echo`" = "X$as_echo") 2>/dev/null; then
+  as_echo='printf %s\n'
+  as_echo_n='printf %s'
+else
+  if test "X`(/usr/ucb/echo -n -n $as_echo) 2>/dev/null`" = "X-n $as_echo"; then
+    as_echo_body='eval /usr/ucb/echo -n "$1$as_nl"'
+    as_echo_n='/usr/ucb/echo -n'
+  else
+    as_echo_body='eval expr "X$1" : "X\\(.*\\)"'
+    as_echo_n_body='eval
+      arg=$1;
+      case $arg in #(
+      *"$as_nl"*)
+	expr "X$arg" : "X\\(.*\\)$as_nl";
+	arg=`expr "X$arg" : ".*$as_nl\\(.*\\)"`;;
+      esac;
+      expr "X$arg" : "X\\(.*\\)" | tr -d "$as_nl"
+    '
+    export as_echo_n_body
+    as_echo_n='sh -c $as_echo_n_body as_echo'
+  fi
+  export as_echo_body
+  as_echo='sh -c $as_echo_body as_echo'
+fi
+
+# The user is always right.
+if test "${PATH_SEPARATOR+set}" != set; then
+  PATH_SEPARATOR=:
+  (PATH='/bin;/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 && {
+    (PATH='/bin:/bin'; FPATH=$PATH; sh -c :) >/dev/null 2>&1 ||
+      PATH_SEPARATOR=';'
+  }
+fi
+
+
+# IFS
+# We need space, tab and new line, in precisely that order.  Quoting is
+# there to prevent editors from complaining about space-tab.
+# (If _AS_PATH_WALK were called with IFS unset, it would disable word
+# splitting by setting IFS to empty value.)
+IFS=" ""	$as_nl"
+
+# Find who we are.  Look in the path if we contain no directory separator.
+as_myself=
+case $0 in #((
+  *[\\/]* ) as_myself=$0 ;;
+  *) as_save_IFS=$IFS; IFS=$PATH_SEPARATOR
+for as_dir in $PATH
+do
+  IFS=$as_save_IFS
+  test -z "$as_dir" && as_dir=.
+    test -r "$as_dir/$0" && as_myself=$as_dir/$0 && break
+  done
+IFS=$as_save_IFS
+
+     ;;
+esac
+# We did not find ourselves, most probably we were run as `sh COMMAND'
+# in which case we are not to be found in the path.
+if test "x$as_myself" = x; then
+  as_myself=$0
+fi
+if test ! -f "$as_myself"; then
+  $as_echo "$as_myself: error: cannot find myself; rerun with an absolute file name" >&2
+  exit 1
+fi
+
+# Unset variables that we do not need and which cause bugs (e.g. in
+# pre-3.0 UWIN ksh).  But do not cause bugs in bash 2.01; the "|| exit 1"
+# suppresses any "Segmentation fault" message there.  '((' could
+# trigger a bug in pdksh 5.2.14.
+for as_var in BASH_ENV ENV MAIL MAILPATH
+do eval test x\${$as_var+set} = xset \
+  && ( (unset $as_var) || exit 1) >/dev/null 2>&1 && unset $as_var || :
+done
+PS1='$ '
+PS2='> '
+PS4='+ '
+
+# NLS nuisances.
+LC_ALL=C
+export LC_ALL
+LANGUAGE=C
+export LANGUAGE
+
+# CDPATH.
+(unset CDPATH) >/dev/null 2>&1 && unset CDPATH
+
+
+# as_fn_error STATUS ERROR [LINENO LOG_FD]
+# ----------------------------------------
+# Output "`basename $0`: error: ERROR" to stderr. If LINENO and LOG_FD are
+# provided, also output the error to LOG_FD, referencing LINENO. Then exit the
+# script with STATUS, using 1 if that was 0.
+as_fn_error ()
+{
+  as_status=$1; test $as_status -eq 0 && as_status=1
+  if test "$4"; then
+    as_lineno=${as_lineno-"$3"} as_lineno_stack=as_lineno_stack=$as_lineno_stack
+    $as_echo "$as_me:${as_lineno-$LINENO}: error: $2" >&$4
+  fi
+  $as_echo "$as_me: error: $2" >&2
+  as_fn_exit $as_status
+} # as_fn_error
+
+
+# as_fn_set_status STATUS
+# -----------------------
+# Set $? to STATUS, without forking.
+as_fn_set_status ()
+{
+  return $1
+} # as_fn_set_status
+
+# as_fn_exit STATUS
+# -----------------
+# Exit the shell with STATUS, even in a "trap 0" or "set -e" context.
+as_fn_exit ()
+{
+  set +e
+  as_fn_set_status $1
+  exit $1
+} # as_fn_exit
+
+# as_fn_unset VAR
+# ---------------
+# Portably unset VAR.
+as_fn_unset ()
+{
+  { eval $1=; unset $1;}
+}
+as_unset=as_fn_unset
+# as_fn_append VAR VALUE
+# ----------------------
+# Append the text in VALUE to the end of the definition contained in VAR. Take
+# advantage of any shell optimizations that allow amortized linear growth over
+# repeated appends, instead of the typical quadratic growth present in naive
+# implementations.
+if (eval "as_var=1; as_var+=2; test x\$as_var = x12") 2>/dev/null; then :
+  eval 'as_fn_append ()
+  {
+    eval $1+=\$2
+  }'
+else
+  as_fn_append ()
+  {
+    eval $1=\$$1\$2
+  }
+fi # as_fn_append
+
+# as_fn_arith ARG...
+# ------------------
+# Perform arithmetic evaluation on the ARGs, and store the result in the
+# global $as_val. Take advantage of shells that can avoid forks. The arguments
+# must be portable across $(()) and expr.
+if (eval "test \$(( 1 + 1 )) = 2") 2>/dev/null; then :
+  eval 'as_fn_arith ()
+  {
+    as_val=$(( $* ))
+  }'
+else
+  as_fn_arith ()
+  {
+    as_val=`expr "$@" || test $? -eq 1`
+  }
+fi # as_fn_arith
+
+
+if expr a : '\(a\)' >/dev/null 2>&1 &&
+   test "X`expr 00001 : '.*\(...\)'`" = X001; then
+  as_expr=expr
+else
+  as_expr=false
+fi
+
+if (basename -- /) >/dev/null 2>&1 && test "X`basename -- / 2>&1`" = "X/"; then
+  as_basename=basename
+else
+  as_basename=false
+fi
+
+if (as_dir=`dirname -- /` && test "X$as_dir" = X/) >/dev/null 2>&1; then
+  as_dirname=dirname
+else
+  as_dirname=false
+fi
+
+as_me=`$as_basename -- "$0" ||
+$as_expr X/"$0" : '.*/\([^/][^/]*\)/*$' \| \
+	 X"$0" : 'X\(//\)$' \| \
+	 X"$0" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X/"$0" |
+    sed '/^.*\/\([^/][^/]*\)\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\/\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+
+# Avoid depending upon Character Ranges.
+as_cr_letters='abcdefghijklmnopqrstuvwxyz'
+as_cr_LETTERS='ABCDEFGHIJKLMNOPQRSTUVWXYZ'
+as_cr_Letters=$as_cr_letters$as_cr_LETTERS
+as_cr_digits='0123456789'
+as_cr_alnum=$as_cr_Letters$as_cr_digits
+
+ECHO_C= ECHO_N= ECHO_T=
+case `echo -n x` in #(((((
+-n*)
+  case `echo 'xy\c'` in
+  *c*) ECHO_T='	';;	# ECHO_T is single tab character.
+  xy)  ECHO_C='\c';;
+  *)   echo `echo ksh88 bug on AIX 6.1` > /dev/null
+       ECHO_T='	';;
+  esac;;
+*)
+  ECHO_N='-n';;
+esac
+
+rm -f conf$$ conf$$.exe conf$$.file
+if test -d conf$$.dir; then
+  rm -f conf$$.dir/conf$$.file
+else
+  rm -f conf$$.dir
+  mkdir conf$$.dir 2>/dev/null
+fi
+if (echo >conf$$.file) 2>/dev/null; then
+  if ln -s conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s='ln -s'
+    # ... but there are two gotchas:
+    # 1) On MSYS, both `ln -s file dir' and `ln file dir' fail.
+    # 2) DJGPP < 2.04 has no symlinks; `ln -s' creates a wrapper executable.
+    # In both cases, we have to default to `cp -p'.
+    ln -s conf$$.file conf$$.dir 2>/dev/null && test ! -f conf$$.exe ||
+      as_ln_s='cp -p'
+  elif ln conf$$.file conf$$ 2>/dev/null; then
+    as_ln_s=ln
+  else
+    as_ln_s='cp -p'
+  fi
+else
+  as_ln_s='cp -p'
+fi
+rm -f conf$$ conf$$.exe conf$$.dir/conf$$.file conf$$.file
+rmdir conf$$.dir 2>/dev/null
+
+
+# as_fn_mkdir_p
+# -------------
+# Create "$as_dir" as a directory, including parents if necessary.
+as_fn_mkdir_p ()
+{
+
+  case $as_dir in #(
+  -*) as_dir=./$as_dir;;
+  esac
+  test -d "$as_dir" || eval $as_mkdir_p || {
+    as_dirs=
+    while :; do
+      case $as_dir in #(
+      *\'*) as_qdir=`$as_echo "$as_dir" | sed "s/'/'\\\\\\\\''/g"`;; #'(
+      *) as_qdir=$as_dir;;
+      esac
+      as_dirs="'$as_qdir' $as_dirs"
+      as_dir=`$as_dirname -- "$as_dir" ||
+$as_expr X"$as_dir" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$as_dir" : 'X\(//\)[^/]' \| \
+	 X"$as_dir" : 'X\(//\)$' \| \
+	 X"$as_dir" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$as_dir" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+      test -d "$as_dir" && break
+    done
+    test -z "$as_dirs" || eval "mkdir $as_dirs"
+  } || test -d "$as_dir" || as_fn_error $? "cannot create directory $as_dir"
+
+
+} # as_fn_mkdir_p
+if mkdir -p . 2>/dev/null; then
+  as_mkdir_p='mkdir -p "$as_dir"'
+else
+  test -d ./-p && rmdir ./-p
+  as_mkdir_p=false
+fi
+
+if test -x / >/dev/null 2>&1; then
+  as_test_x='test -x'
+else
+  if ls -dL / >/dev/null 2>&1; then
+    as_ls_L_option=L
+  else
+    as_ls_L_option=
+  fi
+  as_test_x='
+    eval sh -c '\''
+      if test -d "$1"; then
+	test -d "$1/.";
+      else
+	case $1 in #(
+	-*)set "./$1";;
+	esac;
+	case `ls -ld'$as_ls_L_option' "$1" 2>/dev/null` in #((
+	???[sx]*):;;*)false;;esac;fi
+    '\'' sh
+  '
+fi
+as_executable_p=$as_test_x
+
+# Sed expression to map a string onto a valid CPP name.
+as_tr_cpp="eval sed 'y%*$as_cr_letters%P$as_cr_LETTERS%;s%[^_$as_cr_alnum]%_%g'"
+
+# Sed expression to map a string onto a valid variable name.
+as_tr_sh="eval sed 'y%*+%pp%;s%[^_$as_cr_alnum]%_%g'"
+
+
+exec 6>&1
+## ----------------------------------- ##
+## Main body of $CONFIG_STATUS script. ##
+## ----------------------------------- ##
+_ASEOF
+test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+# Save the log message, to keep $0 and so on meaningful, and to
+# report actual input values of CONFIG_FILES etc. instead of their
+# values after options handling.
+ac_log="
+This file was extended by Easel $as_me 0.2.snap20130225, which was
+generated by GNU Autoconf 2.68.  Invocation command line was
+
+  CONFIG_FILES    = $CONFIG_FILES
+  CONFIG_HEADERS  = $CONFIG_HEADERS
+  CONFIG_LINKS    = $CONFIG_LINKS
+  CONFIG_COMMANDS = $CONFIG_COMMANDS
+  $ $0 $@
+
+on `(hostname || uname -n) 2>/dev/null | sed 1q`
+"
+
+_ACEOF
+
+case $ac_config_files in *"
+"*) set x $ac_config_files; shift; ac_config_files=$*;;
+esac
+
+case $ac_config_headers in *"
+"*) set x $ac_config_headers; shift; ac_config_headers=$*;;
+esac
+
+
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+# Files that config.status was made for.
+config_files="$ac_config_files"
+config_headers="$ac_config_headers"
+
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+ac_cs_usage="\
+\`$as_me' instantiates files and other configuration actions
+from templates according to the current configuration.  Unless the files
+and actions are specified as TAGs, all are instantiated by default.
+
+Usage: $0 [OPTION]... [TAG]...
+
+  -h, --help       print this help, then exit
+  -V, --version    print version number and configuration settings, then exit
+      --config     print configuration, then exit
+  -q, --quiet, --silent
+                   do not print progress messages
+  -d, --debug      don't remove temporary files
+      --recheck    update $as_me by reconfiguring in the same conditions
+      --file=FILE[:TEMPLATE]
+                   instantiate the configuration file FILE
+      --header=FILE[:TEMPLATE]
+                   instantiate the configuration header FILE
+
+Configuration files:
+$config_files
+
+Configuration headers:
+$config_headers
+
+Report bugs to <eddys@janelia.hhmi.org>."
+
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
+ac_cs_version="\\
+Easel config.status 0.2.snap20130225
+configured by $0, generated by GNU Autoconf 2.68,
+  with options \\"\$ac_cs_config\\"
+
+Copyright (C) 2010 Free Software Foundation, Inc.
+This config.status script is free software; the Free Software Foundation
+gives unlimited permission to copy, distribute and modify it."
+
+ac_pwd='$ac_pwd'
+srcdir='$srcdir'
+INSTALL='$INSTALL'
+test -n "\$AWK" || AWK=awk
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+# The default lists apply if the user does not specify any file.
+ac_need_defaults=:
+while test $# != 0
+do
+  case $1 in
+  --*=?*)
+    ac_option=`expr "X$1" : 'X\([^=]*\)='`
+    ac_optarg=`expr "X$1" : 'X[^=]*=\(.*\)'`
+    ac_shift=:
+    ;;
+  --*=)
+    ac_option=`expr "X$1" : 'X\([^=]*\)='`
+    ac_optarg=
+    ac_shift=:
+    ;;
+  *)
+    ac_option=$1
+    ac_optarg=$2
+    ac_shift=shift
+    ;;
+  esac
+
+  case $ac_option in
+  # Handling of the options.
+  -recheck | --recheck | --rechec | --reche | --rech | --rec | --re | --r)
+    ac_cs_recheck=: ;;
+  --version | --versio | --versi | --vers | --ver | --ve | --v | -V )
+    $as_echo "$ac_cs_version"; exit ;;
+  --config | --confi | --conf | --con | --co | --c )
+    $as_echo "$ac_cs_config"; exit ;;
+  --debug | --debu | --deb | --de | --d | -d )
+    debug=: ;;
+  --file | --fil | --fi | --f )
+    $ac_shift
+    case $ac_optarg in
+    *\'*) ac_optarg=`$as_echo "$ac_optarg" | sed "s/'/'\\\\\\\\''/g"` ;;
+    '') as_fn_error $? "missing file argument" ;;
+    esac
+    as_fn_append CONFIG_FILES " '$ac_optarg'"
+    ac_need_defaults=false;;
+  --header | --heade | --head | --hea )
+    $ac_shift
+    case $ac_optarg in
+    *\'*) ac_optarg=`$as_echo "$ac_optarg" | sed "s/'/'\\\\\\\\''/g"` ;;
+    esac
+    as_fn_append CONFIG_HEADERS " '$ac_optarg'"
+    ac_need_defaults=false;;
+  --he | --h)
+    # Conflict between --help and --header
+    as_fn_error $? "ambiguous option: \`$1'
+Try \`$0 --help' for more information.";;
+  --help | --hel | -h )
+    $as_echo "$ac_cs_usage"; exit ;;
+  -q | -quiet | --quiet | --quie | --qui | --qu | --q \
+  | -silent | --silent | --silen | --sile | --sil | --si | --s)
+    ac_cs_silent=: ;;
+
+  # This is an error.
+  -*) as_fn_error $? "unrecognized option: \`$1'
+Try \`$0 --help' for more information." ;;
+
+  *) as_fn_append ac_config_targets " $1"
+     ac_need_defaults=false ;;
+
+  esac
+  shift
+done
+
+ac_configure_extra_args=
+
+if $ac_cs_silent; then
+  exec 6>/dev/null
+  ac_configure_extra_args="$ac_configure_extra_args --silent"
+fi
+
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+if \$ac_cs_recheck; then
+  set X '$SHELL' '$0' $ac_configure_args \$ac_configure_extra_args --no-create --no-recursion
+  shift
+  \$as_echo "running CONFIG_SHELL=$SHELL \$*" >&6
+  CONFIG_SHELL='$SHELL'
+  export CONFIG_SHELL
+  exec "\$@"
+fi
+
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+exec 5>>config.log
+{
+  echo
+  sed 'h;s/./-/g;s/^.../## /;s/...$/ ##/;p;x;p;x' <<_ASBOX
+## Running $as_me. ##
+_ASBOX
+  $as_echo "$ac_log"
+} >&5
+
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+
+# Handling of arguments.
+for ac_config_target in $ac_config_targets
+do
+  case $ac_config_target in
+    "esl_config.h") CONFIG_HEADERS="$CONFIG_HEADERS esl_config.h" ;;
+    "miniapps/Makefile") CONFIG_FILES="$CONFIG_FILES miniapps/Makefile" ;;
+    "testsuite/Makefile") CONFIG_FILES="$CONFIG_FILES testsuite/Makefile" ;;
+    "Makefile") CONFIG_FILES="$CONFIG_FILES Makefile" ;;
+    "LICENSE.sh") CONFIG_FILES="$CONFIG_FILES LICENSE.sh" ;;
+    "documentation/Makefile") CONFIG_FILES="$CONFIG_FILES documentation/Makefile" ;;
+
+  *) as_fn_error $? "invalid argument: \`$ac_config_target'" "$LINENO" 5;;
+  esac
+done
+
+
+# If the user did not use the arguments to specify the items to instantiate,
+# then the envvar interface is used.  Set only those that are not.
+# We use the long form for the default assignment because of an extremely
+# bizarre bug on SunOS 4.1.3.
+if $ac_need_defaults; then
+  test "${CONFIG_FILES+set}" = set || CONFIG_FILES=$config_files
+  test "${CONFIG_HEADERS+set}" = set || CONFIG_HEADERS=$config_headers
+fi
+
+# Have a temporary directory for convenience.  Make it in the build tree
+# simply because there is no reason against having it here, and in addition,
+# creating and moving files from /tmp can sometimes cause problems.
+# Hook for its removal unless debugging.
+# Note that there is a small window in which the directory will not be cleaned:
+# after its creation but before its name has been assigned to `$tmp'.
+$debug ||
+{
+  tmp= ac_tmp=
+  trap 'exit_status=$?
+  : "${ac_tmp:=$tmp}"
+  { test ! -d "$ac_tmp" || rm -fr "$ac_tmp"; } && exit $exit_status
+' 0
+  trap 'as_fn_exit 1' 1 2 13 15
+}
+# Create a (secure) tmp directory for tmp files.
+
+{
+  tmp=`(umask 077 && mktemp -d "./confXXXXXX") 2>/dev/null` &&
+  test -d "$tmp"
+}  ||
+{
+  tmp=./conf$$-$RANDOM
+  (umask 077 && mkdir "$tmp")
+} || as_fn_error $? "cannot create a temporary directory in ." "$LINENO" 5
+ac_tmp=$tmp
+
+# Set up the scripts for CONFIG_FILES section.
+# No need to generate them if there are no CONFIG_FILES.
+# This happens for instance with `./config.status config.h'.
+if test -n "$CONFIG_FILES"; then
+
+
+ac_cr=`echo X | tr X '\015'`
+# On cygwin, bash can eat \r inside `` if the user requested igncr.
+# But we know of no other shell where ac_cr would be empty at this
+# point, so we can use a bashism as a fallback.
+if test "x$ac_cr" = x; then
+  eval ac_cr=\$\'\\r\'
+fi
+ac_cs_awk_cr=`$AWK 'BEGIN { print "a\rb" }' </dev/null 2>/dev/null`
+if test "$ac_cs_awk_cr" = "a${ac_cr}b"; then
+  ac_cs_awk_cr='\\r'
+else
+  ac_cs_awk_cr=$ac_cr
+fi
+
+echo 'BEGIN {' >"$ac_tmp/subs1.awk" &&
+_ACEOF
+
+
+{
+  echo "cat >conf$$subs.awk <<_ACEOF" &&
+  echo "$ac_subst_vars" | sed 's/.*/&!$&$ac_delim/' &&
+  echo "_ACEOF"
+} >conf$$subs.sh ||
+  as_fn_error $? "could not make $CONFIG_STATUS" "$LINENO" 5
+ac_delim_num=`echo "$ac_subst_vars" | grep -c '^'`
+ac_delim='%!_!# '
+for ac_last_try in false false false false false :; do
+  . ./conf$$subs.sh ||
+    as_fn_error $? "could not make $CONFIG_STATUS" "$LINENO" 5
+
+  ac_delim_n=`sed -n "s/.*$ac_delim\$/X/p" conf$$subs.awk | grep -c X`
+  if test $ac_delim_n = $ac_delim_num; then
+    break
+  elif $ac_last_try; then
+    as_fn_error $? "could not make $CONFIG_STATUS" "$LINENO" 5
+  else
+    ac_delim="$ac_delim!$ac_delim _$ac_delim!! "
+  fi
+done
+rm -f conf$$subs.sh
+
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+cat >>"\$ac_tmp/subs1.awk" <<\\_ACAWK &&
+_ACEOF
+sed -n '
+h
+s/^/S["/; s/!.*/"]=/
+p
+g
+s/^[^!]*!//
+:repl
+t repl
+s/'"$ac_delim"'$//
+t delim
+:nl
+h
+s/\(.\{148\}\)..*/\1/
+t more1
+s/["\\]/\\&/g; s/^/"/; s/$/\\n"\\/
+p
+n
+b repl
+:more1
+s/["\\]/\\&/g; s/^/"/; s/$/"\\/
+p
+g
+s/.\{148\}//
+t nl
+:delim
+h
+s/\(.\{148\}\)..*/\1/
+t more2
+s/["\\]/\\&/g; s/^/"/; s/$/"/
+p
+b
+:more2
+s/["\\]/\\&/g; s/^/"/; s/$/"\\/
+p
+g
+s/.\{148\}//
+t delim
+' <conf$$subs.awk | sed '
+/^[^""]/{
+  N
+  s/\n//
+}
+' >>$CONFIG_STATUS || ac_write_fail=1
+rm -f conf$$subs.awk
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+_ACAWK
+cat >>"\$ac_tmp/subs1.awk" <<_ACAWK &&
+  for (key in S) S_is_set[key] = 1
+  FS = ""
+
+}
+{
+  line = $ 0
+  nfields = split(line, field, "@")
+  substed = 0
+  len = length(field[1])
+  for (i = 2; i < nfields; i++) {
+    key = field[i]
+    keylen = length(key)
+    if (S_is_set[key]) {
+      value = S[key]
+      line = substr(line, 1, len) "" value "" substr(line, len + keylen + 3)
+      len += length(value) + length(field[++i])
+      substed = 1
+    } else
+      len += 1 + keylen
+  }
+
+  print line
+}
+
+_ACAWK
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+if sed "s/$ac_cr//" < /dev/null > /dev/null 2>&1; then
+  sed "s/$ac_cr\$//; s/$ac_cr/$ac_cs_awk_cr/g"
+else
+  cat
+fi < "$ac_tmp/subs1.awk" > "$ac_tmp/subs.awk" \
+  || as_fn_error $? "could not setup config files machinery" "$LINENO" 5
+_ACEOF
+
+# VPATH may cause trouble with some makes, so we remove sole $(srcdir),
+# ${srcdir} and @srcdir@ entries from VPATH if srcdir is ".", strip leading and
+# trailing colons and then remove the whole line if VPATH becomes empty
+# (actually we leave an empty line to preserve line numbers).
+if test "x$srcdir" = x.; then
+  ac_vpsub='/^[	 ]*VPATH[	 ]*=[	 ]*/{
+h
+s///
+s/^/:/
+s/[	 ]*$/:/
+s/:\$(srcdir):/:/g
+s/:\${srcdir}:/:/g
+s/:@srcdir@:/:/g
+s/^:*//
+s/:*$//
+x
+s/\(=[	 ]*\).*/\1/
+G
+s/\n//
+s/^[^=]*=[	 ]*$//
+}'
+fi
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+fi # test -n "$CONFIG_FILES"
+
+# Set up the scripts for CONFIG_HEADERS section.
+# No need to generate them if there are no CONFIG_HEADERS.
+# This happens for instance with `./config.status Makefile'.
+if test -n "$CONFIG_HEADERS"; then
+cat >"$ac_tmp/defines.awk" <<\_ACAWK ||
+BEGIN {
+_ACEOF
+
+# Transform confdefs.h into an awk script `defines.awk', embedded as
+# here-document in config.status, that substitutes the proper values into
+# config.h.in to produce config.h.
+
+# Create a delimiter string that does not exist in confdefs.h, to ease
+# handling of long lines.
+ac_delim='%!_!# '
+for ac_last_try in false false :; do
+  ac_tt=`sed -n "/$ac_delim/p" confdefs.h`
+  if test -z "$ac_tt"; then
+    break
+  elif $ac_last_try; then
+    as_fn_error $? "could not make $CONFIG_HEADERS" "$LINENO" 5
+  else
+    ac_delim="$ac_delim!$ac_delim _$ac_delim!! "
+  fi
+done
+
+# For the awk script, D is an array of macro values keyed by name,
+# likewise P contains macro parameters if any.  Preserve backslash
+# newline sequences.
+
+ac_word_re=[_$as_cr_Letters][_$as_cr_alnum]*
+sed -n '
+s/.\{148\}/&'"$ac_delim"'/g
+t rset
+:rset
+s/^[	 ]*#[	 ]*define[	 ][	 ]*/ /
+t def
+d
+:def
+s/\\$//
+t bsnl
+s/["\\]/\\&/g
+s/^ \('"$ac_word_re"'\)\(([^()]*)\)[	 ]*\(.*\)/P["\1"]="\2"\
+D["\1"]=" \3"/p
+s/^ \('"$ac_word_re"'\)[	 ]*\(.*\)/D["\1"]=" \2"/p
+d
+:bsnl
+s/["\\]/\\&/g
+s/^ \('"$ac_word_re"'\)\(([^()]*)\)[	 ]*\(.*\)/P["\1"]="\2"\
+D["\1"]=" \3\\\\\\n"\\/p
+t cont
+s/^ \('"$ac_word_re"'\)[	 ]*\(.*\)/D["\1"]=" \2\\\\\\n"\\/p
+t cont
+d
+:cont
+n
+s/.\{148\}/&'"$ac_delim"'/g
+t clear
+:clear
+s/\\$//
+t bsnlc
+s/["\\]/\\&/g; s/^/"/; s/$/"/p
+d
+:bsnlc
+s/["\\]/\\&/g; s/^/"/; s/$/\\\\\\n"\\/p
+b cont
+' <confdefs.h | sed '
+s/'"$ac_delim"'/"\\\
+"/g' >>$CONFIG_STATUS || ac_write_fail=1
+
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+  for (key in D) D_is_set[key] = 1
+  FS = ""
+}
+/^[\t ]*#[\t ]*(define|undef)[\t ]+$ac_word_re([\t (]|\$)/ {
+  line = \$ 0
+  split(line, arg, " ")
+  if (arg[1] == "#") {
+    defundef = arg[2]
+    mac1 = arg[3]
+  } else {
+    defundef = substr(arg[1], 2)
+    mac1 = arg[2]
+  }
+  split(mac1, mac2, "(") #)
+  macro = mac2[1]
+  prefix = substr(line, 1, index(line, defundef) - 1)
+  if (D_is_set[macro]) {
+    # Preserve the white space surrounding the "#".
+    print prefix "define", macro P[macro] D[macro]
+    next
+  } else {
+    # Replace #undef with comments.  This is necessary, for example,
+    # in the case of _POSIX_SOURCE, which is predefined and required
+    # on some systems where configure will not decide to define it.
+    if (defundef == "undef") {
+      print "/*", prefix defundef, macro, "*/"
+      next
+    }
+  }
+}
+{ print }
+_ACAWK
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+  as_fn_error $? "could not setup config headers machinery" "$LINENO" 5
+fi # test -n "$CONFIG_HEADERS"
+
+
+eval set X "  :F $CONFIG_FILES  :H $CONFIG_HEADERS    "
+shift
+for ac_tag
+do
+  case $ac_tag in
+  :[FHLC]) ac_mode=$ac_tag; continue;;
+  esac
+  case $ac_mode$ac_tag in
+  :[FHL]*:*);;
+  :L* | :C*:*) as_fn_error $? "invalid tag \`$ac_tag'" "$LINENO" 5;;
+  :[FH]-) ac_tag=-:-;;
+  :[FH]*) ac_tag=$ac_tag:$ac_tag.in;;
+  esac
+  ac_save_IFS=$IFS
+  IFS=:
+  set x $ac_tag
+  IFS=$ac_save_IFS
+  shift
+  ac_file=$1
+  shift
+
+  case $ac_mode in
+  :L) ac_source=$1;;
+  :[FH])
+    ac_file_inputs=
+    for ac_f
+    do
+      case $ac_f in
+      -) ac_f="$ac_tmp/stdin";;
+      *) # Look for the file first in the build tree, then in the source tree
+	 # (if the path is not absolute).  The absolute path cannot be DOS-style,
+	 # because $ac_f cannot contain `:'.
+	 test -f "$ac_f" ||
+	   case $ac_f in
+	   [\\/$]*) false;;
+	   *) test -f "$srcdir/$ac_f" && ac_f="$srcdir/$ac_f";;
+	   esac ||
+	   as_fn_error 1 "cannot find input file: \`$ac_f'" "$LINENO" 5;;
+      esac
+      case $ac_f in *\'*) ac_f=`$as_echo "$ac_f" | sed "s/'/'\\\\\\\\''/g"`;; esac
+      as_fn_append ac_file_inputs " '$ac_f'"
+    done
+
+    # Let's still pretend it is `configure' which instantiates (i.e., don't
+    # use $as_me), people would be surprised to read:
+    #    /* config.h.  Generated by config.status.  */
+    configure_input='Generated from '`
+	  $as_echo "$*" | sed 's|^[^:]*/||;s|:[^:]*/|, |g'
+	`' by configure.'
+    if test x"$ac_file" != x-; then
+      configure_input="$ac_file.  $configure_input"
+      { $as_echo "$as_me:${as_lineno-$LINENO}: creating $ac_file" >&5
+$as_echo "$as_me: creating $ac_file" >&6;}
+    fi
+    # Neutralize special characters interpreted by sed in replacement strings.
+    case $configure_input in #(
+    *\&* | *\|* | *\\* )
+       ac_sed_conf_input=`$as_echo "$configure_input" |
+       sed 's/[\\\\&|]/\\\\&/g'`;; #(
+    *) ac_sed_conf_input=$configure_input;;
+    esac
+
+    case $ac_tag in
+    *:-:* | *:-) cat >"$ac_tmp/stdin" \
+      || as_fn_error $? "could not create $ac_file" "$LINENO" 5 ;;
+    esac
+    ;;
+  esac
+
+  ac_dir=`$as_dirname -- "$ac_file" ||
+$as_expr X"$ac_file" : 'X\(.*[^/]\)//*[^/][^/]*/*$' \| \
+	 X"$ac_file" : 'X\(//\)[^/]' \| \
+	 X"$ac_file" : 'X\(//\)$' \| \
+	 X"$ac_file" : 'X\(/\)' \| . 2>/dev/null ||
+$as_echo X"$ac_file" |
+    sed '/^X\(.*[^/]\)\/\/*[^/][^/]*\/*$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)[^/].*/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\/\)$/{
+	    s//\1/
+	    q
+	  }
+	  /^X\(\/\).*/{
+	    s//\1/
+	    q
+	  }
+	  s/.*/./; q'`
+  as_dir="$ac_dir"; as_fn_mkdir_p
+  ac_builddir=.
+
+case "$ac_dir" in
+.) ac_dir_suffix= ac_top_builddir_sub=. ac_top_build_prefix= ;;
+*)
+  ac_dir_suffix=/`$as_echo "$ac_dir" | sed 's|^\.[\\/]||'`
+  # A ".." for each directory in $ac_dir_suffix.
+  ac_top_builddir_sub=`$as_echo "$ac_dir_suffix" | sed 's|/[^\\/]*|/..|g;s|/||'`
+  case $ac_top_builddir_sub in
+  "") ac_top_builddir_sub=. ac_top_build_prefix= ;;
+  *)  ac_top_build_prefix=$ac_top_builddir_sub/ ;;
+  esac ;;
+esac
+ac_abs_top_builddir=$ac_pwd
+ac_abs_builddir=$ac_pwd$ac_dir_suffix
+# for backward compatibility:
+ac_top_builddir=$ac_top_build_prefix
+
+case $srcdir in
+  .)  # We are building in place.
+    ac_srcdir=.
+    ac_top_srcdir=$ac_top_builddir_sub
+    ac_abs_top_srcdir=$ac_pwd ;;
+  [\\/]* | ?:[\\/]* )  # Absolute name.
+    ac_srcdir=$srcdir$ac_dir_suffix;
+    ac_top_srcdir=$srcdir
+    ac_abs_top_srcdir=$srcdir ;;
+  *) # Relative name.
+    ac_srcdir=$ac_top_build_prefix$srcdir$ac_dir_suffix
+    ac_top_srcdir=$ac_top_build_prefix$srcdir
+    ac_abs_top_srcdir=$ac_pwd/$srcdir ;;
+esac
+ac_abs_srcdir=$ac_abs_top_srcdir$ac_dir_suffix
+
+
+  case $ac_mode in
+  :F)
+  #
+  # CONFIG_FILE
+  #
+
+  case $INSTALL in
+  [\\/$]* | ?:[\\/]* ) ac_INSTALL=$INSTALL ;;
+  *) ac_INSTALL=$ac_top_build_prefix$INSTALL ;;
+  esac
+_ACEOF
+
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+# If the template does not know about datarootdir, expand it.
+# FIXME: This hack should be removed a few years after 2.60.
+ac_datarootdir_hack=; ac_datarootdir_seen=
+ac_sed_dataroot='
+/datarootdir/ {
+  p
+  q
+}
+/@datadir@/p
+/@docdir@/p
+/@infodir@/p
+/@localedir@/p
+/@mandir@/p'
+case `eval "sed -n \"\$ac_sed_dataroot\" $ac_file_inputs"` in
+*datarootdir*) ac_datarootdir_seen=yes;;
+*@datadir@*|*@docdir@*|*@infodir@*|*@localedir@*|*@mandir@*)
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $ac_file_inputs seems to ignore the --datarootdir setting" >&5
+$as_echo "$as_me: WARNING: $ac_file_inputs seems to ignore the --datarootdir setting" >&2;}
+_ACEOF
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+  ac_datarootdir_hack='
+  s&@datadir@&$datadir&g
+  s&@docdir@&$docdir&g
+  s&@infodir@&$infodir&g
+  s&@localedir@&$localedir&g
+  s&@mandir@&$mandir&g
+  s&\\\${datarootdir}&$datarootdir&g' ;;
+esac
+_ACEOF
+
+# Neutralize VPATH when `$srcdir' = `.'.
+# Shell code in configure.ac might set extrasub.
+# FIXME: do we really want to maintain this feature?
+cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
+ac_sed_extra="$ac_vpsub
+$extrasub
+_ACEOF
+cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
+:t
+/@[a-zA-Z_][a-zA-Z_0-9]*@/!b
+s|@configure_input@|$ac_sed_conf_input|;t t
+s&@top_builddir@&$ac_top_builddir_sub&;t t
+s&@top_build_prefix@&$ac_top_build_prefix&;t t
+s&@srcdir@&$ac_srcdir&;t t
+s&@abs_srcdir@&$ac_abs_srcdir&;t t
+s&@top_srcdir@&$ac_top_srcdir&;t t
+s&@abs_top_srcdir@&$ac_abs_top_srcdir&;t t
+s&@builddir@&$ac_builddir&;t t
+s&@abs_builddir@&$ac_abs_builddir&;t t
+s&@abs_top_builddir@&$ac_abs_top_builddir&;t t
+s&@INSTALL@&$ac_INSTALL&;t t
+$ac_datarootdir_hack
+"
+eval sed \"\$ac_sed_extra\" "$ac_file_inputs" | $AWK -f "$ac_tmp/subs.awk" \
+  >$ac_tmp/out || as_fn_error $? "could not create $ac_file" "$LINENO" 5
+
+test -z "$ac_datarootdir_hack$ac_datarootdir_seen" &&
+  { ac_out=`sed -n '/\${datarootdir}/p' "$ac_tmp/out"`; test -n "$ac_out"; } &&
+  { ac_out=`sed -n '/^[	 ]*datarootdir[	 ]*:*=/p' \
+      "$ac_tmp/out"`; test -z "$ac_out"; } &&
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: $ac_file contains a reference to the variable \`datarootdir'
+which seems to be undefined.  Please make sure it is defined" >&5
+$as_echo "$as_me: WARNING: $ac_file contains a reference to the variable \`datarootdir'
+which seems to be undefined.  Please make sure it is defined" >&2;}
+
+  rm -f "$ac_tmp/stdin"
+  case $ac_file in
+  -) cat "$ac_tmp/out" && rm -f "$ac_tmp/out";;
+  *) rm -f "$ac_file" && mv "$ac_tmp/out" "$ac_file";;
+  esac \
+  || as_fn_error $? "could not create $ac_file" "$LINENO" 5
+ ;;
+  :H)
+  #
+  # CONFIG_HEADER
+  #
+  if test x"$ac_file" != x-; then
+    {
+      $as_echo "/* $configure_input  */" \
+      && eval '$AWK -f "$ac_tmp/defines.awk"' "$ac_file_inputs"
+    } >"$ac_tmp/config.h" \
+      || as_fn_error $? "could not create $ac_file" "$LINENO" 5
+    if diff "$ac_file" "$ac_tmp/config.h" >/dev/null 2>&1; then
+      { $as_echo "$as_me:${as_lineno-$LINENO}: $ac_file is unchanged" >&5
+$as_echo "$as_me: $ac_file is unchanged" >&6;}
+    else
+      rm -f "$ac_file"
+      mv "$ac_tmp/config.h" "$ac_file" \
+	|| as_fn_error $? "could not create $ac_file" "$LINENO" 5
+    fi
+  else
+    $as_echo "/* $configure_input  */" \
+      && eval '$AWK -f "$ac_tmp/defines.awk"' "$ac_file_inputs" \
+      || as_fn_error $? "could not create -" "$LINENO" 5
+  fi
+ ;;
+
+
+  esac
+
+done # for ac_tag
+
+
+as_fn_exit 0
+_ACEOF
+ac_clean_files=$ac_clean_files_save
+
+test $ac_write_fail = 0 ||
+  as_fn_error $? "write failure creating $CONFIG_STATUS" "$LINENO" 5
+
+
+# configure is writing to config.log, and then calls config.status.
+# config.status does its own redirection, appending to config.log.
+# Unfortunately, on DOS this fails, as config.log is still kept open
+# by configure, so config.status won't be able to write to it; its
+# output is simply discarded.  So we exec the FD to /dev/null,
+# effectively closing config.log, so it can be properly (re)opened and
+# appended to by config.status.  When coming back to configure, we
+# need to make the FD available again.
+if test "$no_create" != yes; then
+  ac_cs_success=:
+  ac_config_status_args=
+  test "$silent" = yes &&
+    ac_config_status_args="$ac_config_status_args --quiet"
+  exec 5>/dev/null
+  $SHELL $CONFIG_STATUS $ac_config_status_args || ac_cs_success=false
+  exec 5>>config.log
+  # Use ||, not &&, to avoid exiting from the if with $? = 1, which
+  # would make configure fail if this is the last instruction.
+  $ac_cs_success || as_fn_exit 1
+fi
+if test -n "$ac_unrecognized_opts" && test "$enable_option_checking" != no; then
+  { $as_echo "$as_me:${as_lineno-$LINENO}: WARNING: unrecognized options: $ac_unrecognized_opts" >&5
+$as_echo "$as_me: WARNING: unrecognized options: $ac_unrecognized_opts" >&2;}
+fi
+
+
+
+echo "
+
+Easel configuration:
+
+     compiler:    ${CC} ${CFLAGS} ${SIMD_CFLAGS} ${PTHREAD_CFLAGS} ${PIC_FLAGS}
+     host:        $host
+     libraries:   ${LIBS} ${LIBGSL} ${PTHREAD_LIBS}
+"
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/configure.ac b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/configure.ac
new file mode 100755
index 0000000..a928926
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/configure.ac
@@ -0,0 +1,502 @@
+# Process this file with autoconf to produce the Easel configuration script.
+# 
+# reminders to save re-reading autoconf manual for the n'th time:
+#   - output variables:
+#        are defined here as normal shell variables, e.g. FOO="my string"
+#        are made into output variables by calling AC_SUBST(FOO)
+#        any occurrence of @FOO@ in an output file is then substituted
+#        I think this only happens in files we assign w/ AC_CONFIG_FILES;
+#        that's the Makefile.in's.
+#
+#   - C preprocessor symbols:
+#        are defined here by calling AC_DEFINE(FOO) or AC_DEFINE(FOO, [42])
+#        then #undef FOO lines in easel.h.in become #define FOO or #define FOO 42
+#        I think this only happens in header files that we assign
+#        w/ AC_CONFIG_HEADERS -- which means, easel.h.in
+#
+# SRE, Mon Feb 14 10:51:07 2005
+# SVN $Id: configure.ac 854 2013-02-25 22:00:19Z wheelert $
+#
+# xref autoconf macro archive at:  http://www.gnu.org/software/ac-archive/
+#
+# GNU recommends the following order:
+#   1. autoconf requirements
+#   2. AC_INIT
+#   3. info on the package
+#   4. checks for programs
+#   5. checks for libraries
+#   6. checks for header files
+#   7. checks for types
+#   8. checks for structures
+#   9. checks for compiler characteristics
+#  10. checks for library functions
+#  11. checks for system services
+#  12. AC_CONFIG_FILES
+#  13. AC_OUTPUT
+
+
+# AC_INIT information
+#
+# The four AC_INIT args set the following output variables and preprocessor 
+# symbols:
+#     PACKAGE_NAME      <package>     e.g. "Easel"                      
+#     PACKAGE_VERSION   <version>     e.g. "0.1"
+#     PACKAGE_BUGREPORT <bug-report>  e.g. "eddys@janelia.hhmi.org"
+#     PACKAGE_TARNAME   <tarname>     e.g. "easel"
+# From them, AC_INIT automatically derives one more:
+#     PACKAGE_STRING    <package> <version>, e.g. "Easel 0.1"
+# Then we define some of our own:
+#     EASEL_DATE        release date: e.g. "February 2005"
+#     EASEL_COPYRIGHT   one-line copyright string
+#     EASEL_LICENSE     one-line license string
+#     EASEL_LICENSETAG  which license to bundle from Licenses/ subdirectory.
+#     EASEL_URL         URL home for Easel.
+#
+# Because Easel is designed to be a library and must coexist with
+# packages that include it as a subdirectory (HMMER, Infernal...),
+# we don't want to use AC_INIT's PACKAGE_ variables as preprocessor
+# symbols to put version info into executables; we'll get name clashes,
+# plus we might want to have both Easel version info and main package
+# version info. So, we use the PACKAGE_ stuff to make a
+# new preprocessor symbol of our own:
+#     EASEL_VERSION    e.g. "1.9a"
+#
+AC_PREREQ(2.60)
+#AC_INIT(Easel, 0.1.snap20080611, eddys@janelia.hhmi.org, easel)
+AC_INIT(Easel, 0.2.snap20130225, eddys@janelia.hhmi.org, easel)
+AC_MSG_NOTICE([Configuring the Easel library for your system.])
+
+# remember if the user is overriding CFLAGS
+if test x"$CFLAGS" = x; then 
+  sre_cflags_env_set=no
+fi
+
+################################################################
+# 3. Info on the package
+################################################################
+
+EASEL_DATE="February 2013"
+EASEL_COPYRIGHT="Copyright (C) 2008 Howard Hughes Medical Institute"
+EASEL_LICENSE="Freely distributed under the Janelia Farm Software License."
+EASEL_VERSION=$PACKAGE_VERSION
+EASEL_URL="http://easel.janelia.org/"
+
+# Output variables.
+# (AC_OUTPUT replaces instances of @var@ in input files.)
+AC_SUBST(EASEL_DATE)
+AC_SUBST(EASEL_COPYRIGHT)
+AC_SUBST(EASEL_LICENSE)
+AC_SUBST(EASEL_VERSION)
+AC_SUBST(EASEL_URL)
+
+# Preprocessor symbols.
+# adds a -Dvar=value to @DEFS@;
+# replace #undef's in easel.h.in
+AC_DEFINE_UNQUOTED(EASEL_DATE,      "$EASEL_DATE")
+AC_DEFINE_UNQUOTED(EASEL_COPYRIGHT, "$EASEL_COPYRIGHT")
+AC_DEFINE_UNQUOTED(EASEL_LICENSE,   "$EASEL_LICENSE")
+AC_DEFINE_UNQUOTED(EASEL_VERSION,   "$EASEL_VERSION")
+
+# Figure out what host we're compiling on.
+# Three GNU scripts must be included in the distro: 
+#       install.sh, config.guess, config.sub
+# This sets four shell variables:
+#       host            example: i686-pc-linux-gnu      
+#       host_cpu        example: i686
+#       host_vendor     example: pc
+#       host_os         example: linux-gnu
+AC_CANONICAL_HOST
+
+
+################################################################
+# 3b. ./configure command line options, for optional config
+#     of the package
+################################################################
+
+# --enable-modular       - configure for use of standalone modules
+#
+# Default is to enable all augmentations and compile entire library.
+# With --enable-modular, any desired augmentations must be set
+# at compile-time by the user.
+#
+AC_ARG_ENABLE(modular,[AS_HELP_STRING([--enable-modular],[compile and prepare modules for standalone use])], 
+  [ 
+    AC_MSG_NOTICE([Compiling for standalone (independent) use of modules.])
+  ], 
+  [
+    AC_MSG_NOTICE([Compiling the full Easel library, with all augmentations.])
+    AC_DEFINE(eslAUGMENT_ALPHABET)
+    AC_DEFINE(eslAUGMENT_NCBI)
+    AC_DEFINE(eslAUGMENT_DMATRIX)
+    AC_DEFINE(eslAUGMENT_FILEPARSER)
+    AC_DEFINE(eslAUGMENT_GEV)
+    AC_DEFINE(eslAUGMENT_GUMBEL)
+    AC_DEFINE(eslAUGMENT_HISTOGRAM)
+    AC_DEFINE(eslAUGMENT_KEYHASH)
+    AC_DEFINE(eslAUGMENT_MINIMIZER)
+    AC_DEFINE(eslAUGMENT_MSA)
+    AC_DEFINE(eslAUGMENT_RANDOM)
+    AC_DEFINE(eslAUGMENT_SSI)
+    AC_DEFINE(eslAUGMENT_STATS)
+    AC_DEFINE(eslLIBRARY)
+  ])
+
+# --enable-debugging      - enable basic debugging code (level 1)
+# --enable-debugging=x    - also set verbosity level to <x> (1-3)
+#
+# At all levels, replaces CFLAGS w/ "-g -Wall" (so it assumes gcc).
+# Sets the eslDEBUGLEVEL preprocessor symbol to <x>
+#
+AC_ARG_ENABLE(debugging,
+[AS_HELP_STRING([--enable-debugging],[include debugging code])
+AS_HELP_STRING([--enable-debugging=x],[also set diagnostics verbosity level to <x> (1-3)])],
+enable_debugging=$enableval, enable_debugging=no)
+
+case $enable_debugging in
+   yes)  AC_DEFINE(eslDEBUGLEVEL, 1);;
+     1)  AC_DEFINE(eslDEBUGLEVEL, 1);;
+     2)  AC_DEFINE(eslDEBUGLEVEL, 2);;
+     3)  AC_DEFINE(eslDEBUGLEVEL, 3);;
+    no)  AC_DEFINE(eslDEBUGLEVEL, 0);;
+     *)  AC_MSG_ERROR([Unknown argument to --enable-debugging: $enable_debugging]);;
+esac
+
+# --enable-threads      Enable POSIX multithreading
+#
+# Uses ACX_PTHREAD macro from the GNU macro archive.
+# Back to my code to finish enabling pthreads...
+# Define these preprocessor variables:
+#     HAVE_PTHREAD
+#     HAVE_PTHREAD_SETCONCURRENCY
+#     HAVE_PTHREAD_ATTR_SETSCOPE
+#
+AC_ARG_ENABLE([threads],
+              [AS_HELP_STRING([--enable-threads],
+                 [enable POSIX multithreading support (default is check)])],
+	      [],
+              [enable_threads=check])
+
+case $enable_threads in 
+   yes)   check_threads=yes
+          ;;
+   no)    check_threads=no
+          ;;
+   check) check_threads=yes
+          ;;
+   *)     check_threads=no
+          AC_MSG_NOTICE([Ignoring unknown argument to --enable-threads: $enable_threads])
+          ;;
+esac
+ 
+AS_IF([test "x$check_threads" != xno],
+      [ACX_PTHREAD([AC_DEFINE(HAVE_PTHREAD)
+                    AC_SUBST(PTHREAD_LIBS)
+                    AC_SUBST(PTHREAD_CFLAGS)],
+                   [if test "x$enable_threads" != xcheck; then
+                      AC_MSG_FAILURE([POSIX multithreading failed])
+                    fi])])
+
+AC_ARG_ENABLE(gcov,[AS_HELP_STRING([--enable-gcov],[compile for code coverage testing])], enable_gcov=$enableval,  enable_gcov=no)
+AC_ARG_ENABLE(sse,[AS_HELP_STRING([--enable-sse],[enable SSE optimizations])] ,           enable_sse=$enableval,   enable_sse=check)
+AC_ARG_ENABLE(vmx,[AS_HELP_STRING([--enable-vmx],[enable Altivec/VMX optimizations])],    enable_vmx=$enableval,   enable_vmx=check)
+AC_ARG_WITH(gsl,[AS_HELP_STRING([--with-gsl],[use the GSL, GNU Scientific Library])],     with_gsl=$withval,       with_gsl=no)
+AC_ARG_ENABLE(mpi,[AS_HELP_STRING([--enable-mpi],[enable MPI parallelization])],          enable_mpi=$enableval,   enable_mpi=no)
+
+
+
+################################################################
+# 4. Checks for programs
+################################################################
+
+AC_PROG_CC
+AC_PROG_INSTALL
+# MPI :  set @CC@ to mpicc, sets @MPILIBS@, defines HAVE_MPI. 
+if test "$enable_mpi" = "yes"; then
+   ACX_MPI(,AC_MSG_ERROR([MPI library not found for --enable-mpi]))
+   CC=$MPICC
+fi
+AC_PROG_CPP
+AX_COMPILER_VENDOR
+# AC_PROG_CC_STDC wants to append -c99 to icc; icc doesn't like this.
+if test "$ax_cv_c_compiler_vendor" != "intel"; then
+  AC_PROG_CC_STDC
+fi
+AC_PROG_RANLIB
+AC_PATH_PROG([AR],       [ar],       [:], [$PATH:/usr/ccs/bin:/usr/xpg4/bin])
+CHECK_GNU_MAKE
+
+# --enable-xlc-arch  Set the code generation for a particular architecture
+#
+# The xlc compiler on AIX seems to need the -qarch flag to be set for a processor
+# that is VMX enabled.  Otherwise a warning is issued that states the -qenablevmx
+# and -qaltivec flags are ignored.
+AX_COMPILER_VENDOR
+if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+  AC_ARG_WITH(xlc-arch, 
+              [AC_HELP_STRING([--with-xlc-arch=<arch>], [specify architecture <arch> for xlc -qarch])],
+              XLC_ARCH=$withval, 
+              XLC_ARCH=no)
+fi
+
+# Select our default optimization flags in CFLAGS.
+#
+if test "$sre_cflags_env_set" = "no"; then
+if test "$enable_gcov" = "yes"; then
+   # --enable-gcov overrides CC too.
+   CC="gcc"
+   CFLAGS="-g -Wall -fprofile-arcs -ftest-coverage"
+elif test "$enable_debugging" != "no"; then
+   if test "$GCC" = "yes"; then
+      CFLAGS="-g -Wall"
+   fi
+else
+   sre_save_ac_test_cflags="$ac_test_CFLAGS"
+   if test "$sre_cflags_env_set" = "no"; then
+     ac_test_CFLAGS=""
+   fi
+   AX_CC_MAXOPT
+   ac_test_CFLAGS="$sre_save_ac_test_cflags"
+   # That was a workaround. AX_CC_MAXOPT apparently thinks that
+   # $ac_test_CFLAGS only gets set if ${CFLAGS} was set by the
+   # user (in the environment), but that's not so; it gets set
+   # by AC_PROG_CC. Instead of rewriting AX_CC_MAXOPT, we fool
+   # it.
+fi
+fi
+
+# Figure out how to generate PIC code for shared libraries
+# This sets @PIC_FLAGS@ output variable
+ESL_PIC_FLAGS
+
+
+# SSE: figure out our @SIMD_CFLAGS@, define HAVE_SSE2
+# The AC_RUN_IFELSE() is there because it's possible to have 
+# hardware that doesn't support SSE2 instructions, yet the
+# compiler can generate them: example AMD Athlons with gcc.
+# So we need to test that an SSE2 program actually runs without
+# generating an "illegal instruction" error. The program
+# here is sufficient [xref J3/127].
+# Note: some platforms (Ubuntu 32-bit for example) absolutely
+# must have the -msse2 cflag on in order to detect a working
+# emmintrin.h, so we set SIMD_CFLAGS before running the test.
+if test "$enable_sse" = "yes" || test "$enable_sse" = "check"; then
+   if test "x$SIMD_CFLAGS" = x; then
+     case $ax_cv_c_compiler_vendor in
+       gnu)   AX_CHECK_COMPILER_FLAGS(-msse2,[SIMD_CFLAGS="-msse2"],[]);;
+       *)     ;;
+     esac   
+   fi
+fi
+if test "$enable_sse" = "check" && test "$enable_vmx" != "yes"; then
+   sre_save_CFLAGS="$CFLAGS"
+   sre_save_CPPFLAGS="$CPPFLAGS"
+   CFLAGS="$CFLAGS $SIMD_CFLAGS"
+   CPPFLAGS="$CPPFLAGS $SIMD_CFLAGS"
+   AC_CHECK_HEADER([emmintrin.h],[
+     AC_MSG_CHECKING([if platform can run SSE/SSE2 instructions])
+     AC_RUN_IFELSE([AC_LANG_PROGRAM( [[#include <emmintrin.h>]],
+		                      [[__m128i v = _mm_set1_epi8(0);]])],
+                   [AC_MSG_RESULT([yes])
+                     enable_sse=yes],
+                   [AC_MSG_RESULT([no])])])
+   CFLAGS="$sre_save_CFLAGS"
+   CPPFLAGS="$sre_save_CPPFLAGS"
+fi
+if test "$enable_sse" = "yes"; then
+   AC_DEFINE(HAVE_SSE2,1,[Support SSE2 (Streaming SIMD Extensions 2) instructions])
+fi
+
+
+# VMX/Altivec (not autodetected yet; must use --enable-vmx to enable)
+if test "$enable_sse" != "yes"; then
+  if test "x$SIMD_CFLAGS" = x; then
+    VMX_SIMD_CFLAGS=""
+    if test "$GCC" = "yes"; then
+       AX_CHECK_COMPILER_FLAGS(-faltivec, [VMX_SIMD_CFLAGS="-faltivec"],
+         [AX_CHECK_COMPILER_FLAGS(-maltivec -mabi=altivec,
+ 	     [VMX_SIMD_CFLAGS="-maltivec -mabi=altivec"],
+             [AX_CHECK_COMPILER_FLAGS(-fvec, [VMX_SIMD_CFLAGS="-fvec"],
+		     [AC_MSG_ERROR([Need a version of gcc with -maltivec])])])])
+    elif test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+       AX_CHECK_COMPILER_FLAGS(-qenablevmx, [VMX_SIMD_CFLAGS="$VMX_SIMD_CFLAGS -qenablevmx"],[])
+       AX_CHECK_COMPILER_FLAGS(-qaltivec,   [VMX_SIMD_CFLAGS="$VMX_SIMD_CFLAGS -qaltivec"],[])
+    else
+       AX_CHECK_COMPILER_FLAGS(-faltivec, [VMX_SIMD_CFLAGS="-faltivec"],[])
+    fi
+  else
+    VMX_SIMD_CFLAGS="$SIMD_CFLAGS"
+  fi
+  if test "$enable_vmx" = "check"; then
+     sre_save_cflags="$CFLAGS"
+     CFLAGS="$CFLAGS $VMX_SIMD_CFLAGS"
+     AC_MSG_CHECKING([if platform can run Altivec/VMX instructions])
+     AC_RUN_IFELSE([AC_LANG_PROGRAM( [[#include <altivec.h>]],
+   	 			   [[vector unsigned char zerov;
+                                     vector unsigned char onev;
+                                     zerov = vec_splat_u8(0);
+                                     onev = vec_splat_u8(1);
+                                     onev = vec_adds(onev, zerov);
+				   ]])],
+                     [AC_MSG_RESULT([yes])
+                       enable_vmx=yes],
+                     [AC_MSG_RESULT([no])
+                        if test "${ax_cv_c_compiler_vendor}" = "ibm"; then
+                           echo "******************************************************"
+                           echo "*  You seem to have the IBM  C compiler.  If your    *"
+                           echo "*  processor supports vector instructions it is      *"
+                           echo "*  possible specifying an architecture would enable  *"
+                           echo "*  vector support, i.e.                              *"
+                           echo "*                                                    *"
+                           echo "*    --with-xlc-arch=XXX                             *"
+                           echo "*                                                    *"
+                           echo "*  where XXX is pwr6, auto or whatever kind of CPU   *"
+                           echo "*  you have.                                         *"
+                           echo "******************************************************"
+                        fi
+                   ])
+     CFLAGS="$sre_save_cflags"
+  fi
+  if test "$enable_vmx" = "yes"; then
+    SIMD_CFLAGS="$VMX_SIMD_CFLAGS"
+    AC_DEFINE(HAVE_VMX,1,[Support Altivec/VMX vector instructions])
+  fi
+fi
+
+AC_SUBST(SIMD_CFLAGS)
+
+# Define HAVE_GZIP if gzip is in $PATH (or if HAVE_GZIP is already set)
+AC_PATH_PROG(HAVE_GZIP, "gzip", "no")
+if test "${HAVE_GZIP}" = "no"; then
+  AC_MSG_WARN([gzip not found])
+else
+  AC_DEFINE(HAVE_GZIP)
+fi
+
+# 5. Checks for libraries.
+LIBGSL=
+AS_IF([test "x$with_gsl" != xno],
+      [AC_CHECK_LIB([gsl], [gsl_expm1], 
+           [AC_SUBST([LIBGSL], ["-lgsl -lgslcblas"])
+            AC_DEFINE([HAVE_LIBGSL], [1], [Define if you have libgsl])
+           ],
+           [if test "x$with_gsl" != xcheck; then
+             AC_MSG_FAILURE(
+               [--with-gsl was given, but GSL library was not found])
+            fi
+           ],
+           [-lgslcblas]
+        )])
+
+# 6. Checks for header files.
+#    Defines preprocessor symbols like HAVE_UNISTD_H
+AC_CHECK_HEADERS([\
+  endian.h \
+  inttypes.h \
+  stdint.h \
+  unistd.h \
+  sys/types.h \
+  strings.h \
+])
+
+# Check for sysctl.h separately.  On OpenBSD, it requires
+# <sys/param.h> and autoconf needs special logic to deal w. this as
+# follows.
+AC_CHECK_HEADERS([sys/param.h])
+AC_CHECK_HEADERS([sys/sysctl.h], [], [], 
+[[#ifdef HAVE_SYS_PARAM_H
+#include <sys/param.h>
+#endif
+]])
+
+# Vector-specific headers. 
+# Separated, because we may want to implement
+# other vector languages besides SSE
+# For SSE:
+#  xmmintrin.h = SSE
+#  emmintrin.h = SSE2
+#  pmmintrin.h = SSE3
+AC_CHECK_HEADERS([\
+  emmintrin.h\
+  pmmintrin.h\
+  xmmintrin.h
+])
+
+# altivec.h requires the simd cflags
+# For reasons I don't understand, this needs to come after any other CHECK_HEADERS().
+if test "$enable_vmx" = "yes"; then
+   sre_save_CFLAGS="$CFLAGS"
+   sre_save_CPPFLAGS="$CPPFLAGS"
+   CFLAGS="$CFLAGS $SIMD_CFLAGS"
+   CPPFLAGS="$CPPFLAGS $SIMD_CFLAGS"
+   AC_CHECK_HEADERS([altivec.h])
+   CFLAGS="$sre_save_CFLAGS"
+   CPPFLAGS="$sre_save_CPPFLAGS"
+fi
+
+
+
+# 7. Checks for types.
+#    - Define WORDS_BIGENDIAN on bigendian platforms.
+#    - Make sure we have C99 exact-size integer types; 
+#      ssi uses 16, 32, and 64-bit ints, and we
+#      use 8-bit unsigned chars for digitized sequence.
+#    - Make sure we have off_t.
+#
+AC_C_BIGENDIAN
+AC_TYPE_INT8_T
+AC_TYPE_INT16_T
+AC_TYPE_INT32_T
+AC_TYPE_INT64_T
+AC_TYPE_UINT8_T
+AC_TYPE_UINT16_T
+AC_TYPE_UINT32_T
+AC_TYPE_UINT64_T
+AC_TYPE_OFF_T
+
+# 8. Checks for structures - none
+
+################################################################
+# 10. Checks for library functions: define HAVE_FOO
+################################################################
+
+AC_CHECK_FUNCS(mkstemp)
+AC_CHECK_FUNCS(popen)
+AC_CHECK_FUNCS(putenv)
+AC_CHECK_FUNCS(strcasecmp)
+AC_CHECK_FUNCS(times)
+AC_CHECK_FUNCS(getpid)
+AC_CHECK_FUNCS(sysctl)
+AC_CHECK_FUNCS(sysconf)
+AC_CHECK_FUNCS(getcwd)
+AC_CHECK_FUNCS(chmod)
+AC_CHECK_FUNCS(stat)
+AC_CHECK_FUNCS(fstat)
+AC_FUNC_FSEEKO
+
+# 11. Checks for system services 
+AC_SYS_LARGEFILE
+
+
+# 12. Write out esl_config.h header and the Makefiles
+AC_CONFIG_HEADERS([esl_config.h])
+AC_CONFIG_FILES([miniapps/Makefile])
+AC_CONFIG_FILES([testsuite/Makefile])
+AC_CONFIG_FILES([Makefile])
+if test -e "LICENSE.sh.in"; then
+  AC_CONFIG_FILES(LICENSE.sh)
+fi
+AC_CONFIG_FILES([documentation/Makefile])
+
+
+# 13. voila!
+AC_OUTPUT
+
+
+echo "
+
+Easel configuration:
+
+     compiler:    ${CC} ${CFLAGS} ${SIMD_CFLAGS} ${PTHREAD_CFLAGS} ${PIC_FLAGS}
+     host:        $host
+     libraries:   ${LIBS} ${LIBGSL} ${PTHREAD_LIBS}
+"
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/00README b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/00README
new file mode 100755
index 0000000..f844d2e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/00README
@@ -0,0 +1,101 @@
+demotic is a set of Perl modules for interfacing the hieroglyphic
+output of one program with the greek input of another program.
+
+original:   SRE, Wed Oct 25 16:32:09 2000
+into Easel: SRE, Fri Apr 16 16:10:25 2010
+SVN $Id$
+
+  demotic_blast.pm   NCBI blastp; NCBI blastpgp; WU blastp
+  demotic_fasta.pm   fasta; ssearch
+  demotic_hmmer.pm   hmmsearch, phmmer
+  demotic_h2.pm      HMMER 2.0 hmmsearch
+
+  blast2profmark
+  fasta2profmark
+  hmmer2profmark
+  h22profmark
+
+  blast2tbl
+  fasta2tbl
+  hmmer2tbl
+  h22tbl
+
+  test.pl         : example of using demotic_blast "in line" in a perl script.
+
+################################################################
+# Generating the example outputs
+
+# Config that's already in my .bashrc:
+  export SWISS=/misc/data0/databases/Uniprot/uniprot_sprot.fasta
+  export SWISS-WU=/misc/data0/databases/Uniprot/uniprot_sprot_wu.fasta
+  export PFAM_HMM=/misc/data0/databases/Pfam/Pfam-A.hmm
+  export PFAM_SEED=/misc/data0/databases/Pfam/Pfam-A.seed
+  export PFAM_FULL=/misc/data0/databases/Pfam/Pfam-A.full
+  export PERLLIB=.:${HOME}/sw/scripts
+
+# Most examples
+  esl-seqstat -a $SWISS | awk '{print $2}' | esl-selectn 2 - | esl-sfetch -f $SWISS - > examples/example.fa
+  grep -v "^#" /misc/data0/databases/pfam/pfam-24.0/Pfam-A.hmm.stat   | awk '{print $2}' | esl-selectn 2 - | hmmfetch -f /misc/data0/databases/pfam/pfam-24.0/Pfam-A.hmm - > examples/example.hmm
+
+# PSIBLAST example takes some massaging, because of the way we convert Stockholm to a checkpoint .asnt file.
+  grep -v "^#" /misc/data0/databases/pfam/pfam-24.0/Pfam-A.seed.stat  | awk '{print $2}' | esl-selectn 1 - | esl-afetch -f /misc/data0/databases/pfam/pfam-24.0/Pfam-A.seed - > examples/example-single.sto
+  esl-reformat -o examples/example-single.pbl psiblast examples/example-single.sto
+  esl-seqstat -a examples/example-single.sto | grep "^=" | awk '{print $2}' | esl-selectn 1 - | esl-sfetch -f examples/example-single.sto -
+  esl-seqstat -a examples/example-single.sto | grep "^=" | awk '{print $2}' | esl-selectn 1 - | esl-sfetch -f examples/example-single.sto - > examples/example-single-psiquery.fa
+  esl-reformat -o examples/example-single.fa fasta examples/example-single.sto
+  formatdb -i examples/example-single.fa
+  blastpgp -v 9999 -F T -u 1 -j 5 -J TRUE -d examples/example-single.fasta -i examples/example-single-psiquery.fa -C examples/example-single.asnt
+
+# H2 example also is a little special; build new from Stockholm, plus H2 hmmsearch can only do a single query.
+  grep -v "^#" /misc/data0/databases/pfam/pfam-24.0/Pfam-A.seed.stat  | awk '{print $2}' | esl-selectn 1 - | esl-afetch -f /misc/data0/databases/pfam/pfam-24.0/Pfam-A.seed - > examples/example.sto
+  ~/releases/hmmer-2.3.2/src/hmmbuild examples/example.hmm2 examples/example.sto 
+  ~/releases/hmmer-2.3.2/src/hmmcalibrate examples/example.hmm2 
+
+  blastp $SWISS_WU examples/example.fa                                      > examples/example.wu-blastp.out
+  blastall -p blastp -i examples/example.fa -d $SWISS                       > examples/example.ncbi-blastp.out
+  /usr/local/fasta-36x2/bin/ssearch36_t -q examples/example.fa $SWISS       > examples/example.ssearch.out
+  /usr/local/fasta-36x2/bin/fasta36_t   -q examples/example.fa $SWISS       > examples/example.fasta.out
+  phmmer    examples/example.fa  $SWISS                                     > examples/example.phmmer.out
+  hmmsearch examples/example.hmm $SWISS                                     > examples/example.hmmsearch.out
+  ~/releases/hmmer-2.3.2/src/hmmsearch examples/example.hmm2  $SWISS        > examples/example.h2.out
+  blastpgp -v 9999 -F F -q 1 -t 1 -d $SWISS -R examples/example-single.asnt > examples/example.psiblast.out
+
+################################################################
+# Save outputs for regression
+
+  pfx=regress
+  mkdir $pfx
+  cat examples/example.wu-blastp.out   |  ./blast2profmark > $pfx/wu-blastp-profmark.out
+  cat examples/example.ncbi-blastp.out |  ./blast2profmark > $pfx/ncbi-blastp-profmark.out
+  cat examples/example.psiblast.out    |  ./blast2profmark > $pfx/psiblast-profmark.out
+  cat examples/example.ssearch.out     |  ./fasta2profmark > $pfx/ssearch-profmark.out
+  cat examples/example.fasta.out       |  ./fasta2profmark > $pfx/fasta-profmark.out
+  cat examples/example.phmmer.out      |  ./hmmer2profmark > $pfx/phmmer-profmark.out
+  cat examples/example.hmmsearch.out   |  ./hmmer2profmark > $pfx/hmmsearch-profmark.out
+  cat examples/example.h2.out          |  ./h22profmark    > $pfx/h2-profmark.out          
+
+  cat examples/example.wu-blastp.out   |  ./blast2tbl  > $pfx/wu-blastp-tbl.out	  
+  cat examples/example.ncbi-blastp.out |  ./blast2tbl  > $pfx/ncbi-blastp-tbl.out 
+  cat examples/example.psiblast.out    |  ./blast2tbl  > $pfx/psiblast-tbl.out	  
+  cat examples/example.ssearch.out     |  ./fasta2tbl  > $pfx/ssearch-tbl.out	  
+  cat examples/example.fasta.out       |  ./fasta2tbl  > $pfx/fasta-tbl.out	  
+  cat examples/example.phmmer.out      |  ./hmmer2tbl  > $pfx/phmmer-tbl.out	  
+  cat examples/example.hmmsearch.out   |  ./hmmer2tbl  > $pfx/hmmsearch-tbl.out	  
+  cat examples/example.h2.out          |  ./h22tbl     > $pfx/h2-tbl.out          
+
+################################################################
+# Regression test of outputs
+
+  pfx=tmp
+  mkdir $pfx
+# Run the same stuff as above
+
+  for prg in wu-blastp ncbi-blastp psiblast ssearch fasta phmmer hmmsearch h2 ; do 
+    diff --brief regress/$prg-profmark.out tmp/$prg-profmark.out
+    diff --brief  regress/$prg-tbl.out      tmp/$prg-tbl.out
+  done
+
+  rm -rf tmp
+
+
+  
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/blast2profmark b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/blast2profmark
new file mode 100755
index 0000000..c4a087f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/blast2profmark
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_blast;
+
+while (&demotic_blast::parse(\*STDIN))
+{
+    &demotic_blast::profmarkout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/blast2tbl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/blast2tbl
new file mode 100755
index 0000000..eaea1e9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/blast2tbl
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_blast;
+
+while (&demotic_blast::parse(\*STDIN))
+{
+    &demotic_blast::tblout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_blast.pm b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_blast.pm
new file mode 100755
index 0000000..019d160
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_blast.pm
@@ -0,0 +1,279 @@
+############################################################################
+# demotic_blast package   
+#    Parses blast output, stores extracted information in convenient vars.
+#    Works for both WU-BLAST and NCBI BLAST output files,
+#    and for PSIBLAST runs from checkpoint files (as I use in profmark).
+#    (SRE originated, 10/2000)
+#
+# SVN $Id$
+############################################################################
+
+package demotic_blast;
+
+# parse(\*STDIN) would parse BLAST output
+# coming in via stdin.
+#
+sub parse (*) {
+    my $fh = shift;
+    my $parsing_header  = 1;
+    my $parsing_hitlist = 0;
+    my $parsing_alilist = 0;
+    my $is_wublast      = 0;
+    my $target;
+    my $firstchunk;
+
+    # Initialize everything... so we can call the parser
+    # repeatedly, one call per BLAST output.
+    #
+    # This section also documents what's available in
+    # variables within the package.
+    # 
+    # Arrays are indexed [0..nhits-1] or [0..nali-1]
+    #
+    $queryname      = "";	# Name of the query sequence
+    $querydesc      = "";	# Description line for the query (or "")
+    $querylen       = 0;	# Length of the query in residues
+    $db             = "";	# Name of the target database file
+    $db_nseq        = 0;	# Number of sequences in the target database
+    $db_nletters    = "";	# Number of residues in the target database
+                                # (stored as a string so we can have large #'s)
+
+				# The top hit list (still in rank order)
+    $nhits          = 0;	# Number of entries in the hit list
+    @hit_target     = ();	# Target sequence name (by rank)
+    %target_desc    = ();	# Target sequence description (by targ name)
+    @hit_bitscore   = ();	# Raw score (by rank)
+    @hit_Eval       = ();	# E-val (by rank)
+
+				# The alignment output (in order it came in)
+				# all indexed by # of alignment [0..nali-1]
+    $nali           = 0;	# Number of alignments
+    @ali_target     = ();	# Target sequence name
+    @ali_score      = ();	# Raw score of alignment
+    @ali_bitscore   = ();	# bit score
+    @ali_evalue     = ();	# E-value
+    @ali_pvalue     = ();	# P-value
+    @ali_nident     = ();	# Number of identical residues
+    @ali_alen       = ();	# Length of alignment
+    @ali_identity   = ();	# Percent identity
+    @ali_npos       = ();       # Number of positives (similar positions)
+    @ali_positive   = ();       # Percent of positions matched or similar
+    @ali_qstart     = ();	# Start position on query
+    @ali_qend       = ();	# End position on query
+    @ali_tstart     = ();	# Start position on target
+    @ali_tend       = ();	# End position on target
+    @ali_qali       = ();       # Aligned string from query
+    @ali_tali       = ();       # Aligned string from target (subject)
+    
+    # Now, loop over the lines of our input, and parse 'em.
+    #
+    while (<$fh>) {
+	if ($parsing_header) {
+	    if (/^\s*\*+ No hits found \*+\s*$/) { return 1; }
+
+	    if (/^Sequences producing /) { # wu and ncbi share this
+		$parsing_header  = 0;
+		$parsing_hitlist = 1;
+		<$fh>;		# This discards the next (blank) line (ncbi, wu)
+		next;
+	    } elsif (/^Query=\s*(\S*)\s*(.*)\s*$/) { # allows blank query
+		$queryname = $1;
+		$querydesc = $2; chomp $querydesc;
+		if ($queryname eq "") { 
+		    $queryname = "unnamed_query";
+		}
+		while (1) {
+		    $_ = <$fh>; # perl quirk: unless part of a while()
+		                # loop, line must be explicitly assigned  
+                                # to $_ or else it will be lost.
+		    if    (/^\s+\((\S+) letters/) { $querylen  = $1; last; } 
+		    elsif (/^Length=(\d+)/)       { $querylen  = $1; last; } # NCBI 
+		    elsif (/^\s*( .+)\s*$/)       { $querydesc .= $1; chomp $querydesc; }
+		}
+	    } elsif (/^Database:\s*(.+)\s*$/) {
+		$db  = $1;
+		$_ = <$fh>;
+		if (/^\s+(\S+) sequences; (\S+) total letters/) {
+		    $db_nseq     = $1; 
+		    $db_nletters = $2; 
+		    $db_nseq     =~ s/,//g; 
+		    $db_nletters =~ s/,//g;
+		}
+	    } elsif (/^Copyright.+Washington University/) {
+		$is_wublast = 1;
+	    }
+	} 
+	elsif ($parsing_hitlist) {
+            # WUBLAST: Sequences producing High-scoring Segment Pairs:              Score  P(N)      N
+            #          2-Hacid_dh/1/17-338/439-757 domains: PTXD_PSEST/5-326 O28...   299  4.7e-27   1
+            # NCBI+:   Sequences producing significant alignments:                          (Bits)  Value
+            #              2-Hacid_dh/4/753-1076/1224-1507 domains: Q20595_CAEEL/181-504 P...  95.1    4e-20
+            # NCBI:    Sequences producing significant alignments:                      (bits) Value
+            #          2-Hacid_dh/4/753-1076/1224-1507 domains: Q20595_CAEEL/181-504 PD...    95   4e-20
+            # In NCBI E-values, beware "e-xxx" without any leading number.
+	    # In NCBI+, beware bit scores can now be real numbers, not just integers.
+            #
+	    if (/^\s*$/) { 
+		$parsing_hitlist = 0;
+		$parsing_alilist = 1;
+		next;
+	    }
+	    elsif ((  $is_wublast && /^\s*(\S+)\s+(.+)\s+(\d+)\s+(\S+)\s+\d+\s*$/) ||
+                   (! $is_wublast && /^\s*(\S+)\s+(.+)\s+(\S+)\s+(\S+)\s*$/))
+	    {
+		$hit_target[$nhits]    = $1;
+		$target_desc{$1}       = $2;
+		$hit_bitscore[$nhits]  = $3;
+
+		if ($is_wublast) { $hit_Eval[$nhits] = $4; } # actually WU reports P-value
+		else             { $hit_Eval[$nhits] = &repair_evalue($4); }
+
+		$nhits++;
+	    }
+	}
+	elsif ($parsing_alilist) {
+	    if (/^>\s*(\S+)\s*(.*)$/) {
+		$target = $1;
+		$target_desc{$target} = $2;
+
+		$_ = <$fh>; 
+		if (/^\s+Length = (\S+)/) { 
+		    $target_len{$target} = $1;
+		} 
+	    } 
+	    elsif (/^ Score =\s+(\d+) \((\S+) bits\), Expect = (\S+),?/) { # WU
+		$nali++;
+		$ali_target[$nali-1]   = $target;
+		$ali_score[$nali-1]    = $1;
+		$ali_bitscore[$nali-1] = $2;
+		$ali_evalue[$nali-1]   = $3;
+	    } 
+	    elsif (/^ Score =\s+(\S+) bits \((\S+)\),\s*Expect = (\S+),?/) { # NCBI
+		$nali++;
+		$ali_target[$nali-1]   = $target;
+		$ali_bitscore[$nali-1] = $1;
+		$ali_score[$nali-1]    = $2;
+		$ali_evalue[$nali-1]   = &repair_evalue($3);
+	    }
+	    elsif (/^ Identities = (\d+)\/(\d+) \((\d+)%\).+Positives = (\d+).+\((\d+)%/) { # NCBI or WU
+		$ali_nident[$nali-1]     = $1;
+		$ali_alen[$nali-1]       = $2;
+		$ali_identity[$nali-1]   = $3;
+		$ali_npos[$nali-1]       = $4;
+		$ali_positive[$nali-1]   = $5;
+		$firstchunk = 1;
+	    } 
+	    elsif (/^ Identities = (\d+)\/(\d+) \((\d+)%\).+/) { # NCBI megablast : no Positives
+		$ali_nident[$nali-1]     = $1;
+		$ali_alen[$nali-1]       = $2;
+		$ali_identity[$nali-1]   = $3;
+		$ali_npos[$nali-1]       = $1;
+		$ali_positive[$nali-1]   = $3;
+		$firstchunk = 1;
+	    }		
+	    elsif (/^Query:?\s+(\d+)\s+(\S+)\s+(\d+)\s*$/) {
+		if ($firstchunk) { $ali_qstart[$nali-1] = $1; }
+		$ali_qali[$nali-1]  .= $2;
+		$ali_qend[$nali-1]   = $3;
+	    } 
+	    elsif (/^Sbjct:?\s+(\d+)\s+(\S+)\s+(\d+)\s*$/) {
+		if ($firstchunk) { $ali_tstart[$nali-1] = $1; }
+		$ali_tali[$nali-1]  .= $2;
+		$ali_tend[$nali-1]   = $3;
+		$firstchunk = 0;
+	    }
+
+	    elsif (/^BLAST/) {	return 1; } # normal return; output from a new query is starting
+	    elsif (/^Effective search space used:/) { return 1; } #normal end of query for NCBI BLAST+
+
+	}
+    } # this closes the loop over lines in the input stream.
+
+    if ($parsing_alilist) { return 1; } else { return 0; }
+}
+
+
+# NCBI BLAST now has a nasty habit of abbreviating
+# 1e-100 as e-100, which isn't a number format. 
+
+sub repair_evalue
+{
+    my $value = shift;
+    if ($value =~ /^e-\d+$/) { $value = "1$value"; }
+    $value;
+}
+
+
+sub exblxout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname;
+    }
+    
+}
+
+
+sub tblout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$target_desc{$ali_target[$i]};
+    }
+}    
+
+
+sub gffout {
+    my $ofh     = shift;
+    my $source  = shift;
+    my $feature = shift;
+    my $i;
+    my $strand;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	if ($ali_qstart[$i] > $ali_qend[$i]) { $strand = "-"; }
+	else { $strand = "+"; } 
+
+	printf $ofh "%s\t%s\t%s\t%d\t%d\t%.1f\t%s\t.\tgene \"%s\"\n",
+	$ali_target[$i],
+	$source,
+	$feature,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_bitscore[$i],
+	$strand,
+	$queryname;
+    }
+}
+
+sub profmarkout {
+    my $ofh = shift;
+    my $i;
+
+    for ($i = 0; $i < $nhits; $i++) {
+        printf $ofh "%g\t%.1f\t%s\t%s\n", $hit_Eval[$i], $hit_bitscore[$i], $hit_target[$i], $queryname;
+    }
+}
+
+
+1;
+__END__
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_fasta.pm b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_fasta.pm
new file mode 100755
index 0000000..d88eb4e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_fasta.pm
@@ -0,0 +1,239 @@
+############################################################################
+# demotic_fasta package   
+#    Parses fasta or ssearch output, stores extracted information in convenient vars.
+#    SRE, Wed Jun 25 13:41:41 2003
+#
+#  SVN $Id$
+############################################################################
+
+package demotic_fasta;
+
+# parse(\*STDIN) would parse ssearch output
+# coming in via stdin.
+#
+sub parse (*) {
+    my $fh = shift;
+    my $parsing_header  = 1;
+    my $parsing_hitlist = 0;
+    my $parsing_alilist = 0;
+    my $target;
+    my $alilinecount = 0;
+
+    # Initialize everything... so we can call the parser
+    # repeatedly, one call per ssearch output.
+    #
+    # This section also documents what's available in
+    # variables within the package.
+    # 
+    # Arrays are indexed [0..nhits-1] or [0..nali-1]
+    #
+    $queryname      = "";	# Name of the query sequence
+    $querydesc      = "";	# Description line for the query (or "")
+    $querylen       = 0;	# Length of the query in residues
+    $db             = "";	# Name of the target database file
+    $db_nseq        = 0;	# Number of sequences in the target database
+    $db_nletters    = "";	# Number of residues in the target database
+                                # (stored as a string so we can have large #'s)
+
+				# The top hit list (still in rank order)
+    $nhits          = 0;	# Number of entries in the hit list
+    @hit_target     = ();	# Target sequence name (by rank)
+    %target_desc    = ();	# Target sequence description (by targ name)
+    %target_len     = ();	# Length of target sequence
+    @hit_score      = ();	# Raw score (by rank)
+    @hit_bitscore   = ();	# Bit score (by rank)
+    @hit_Eval       = ();	# E-value (by rank)
+
+				# The alignment output (in order it came in)
+				# all indexed by # of alignment [0..nali-1]
+    $nali           = 0;	# Number of alignments
+    @ali_target     = ();	# Target sequence name
+    @ali_score      = ();	# Smith/Waterman raw score of alignment
+    @ali_bitscore   = ();	# bit score
+    @ali_evalue     = ();	# E-value
+    @ali_nident     = ();	# Number of identical residues
+    @ali_alen       = ();	# Length of alignment (overlap)
+    @ali_identity   = ();	# Percent identity
+#    @ali_npos       = (); # Number of positives (similar positions)
+#    @ali_positive   = (); # Percent of positions matched or similar
+    @ali_qstart     = ();	# Start position on query
+    @ali_qend       = ();	# End position on query
+    @ali_tstart     = ();	# Start position on target
+    @ali_tend       = ();	# End position on target
+    @ali_qali       = (); # Aligned string from query
+    @ali_tali       = (); # Aligned string from target (subject)
+    
+    if (defined($save_querycount) && $save_querycount > 1) { # on subsequent queries, we had to use the >>> start line to detect
+	# the end of the prev query; we socked the necessary info away in tmp vars.
+	$querycount = $save_querycount;
+	$queryname  = $save_queryname;
+	$querydesc  = $save_querydesc;
+	$querylen   = $save_querylen;
+    }
+
+    # Now, loop over the lines of our input, and parse 'em.
+    #
+    while (<$fh>) {
+	if ($parsing_header) {
+	    if (/^The best scores are:/) { # start of hit list
+		$parsing_header  = 0;
+		$parsing_hitlist = 1;
+		next;
+	    } elsif (/^!! No sequences/) { # no hit list: no hits; just return
+		return 1;	# return "success"
+	    } elsif (/^\s+(\d+)>>>\s*(\S*)\s*(.*)\s*-\s*(\d+) \S\S$/) { # allows blank query. \S\S is "nt" or "aa"
+		$querycount = $1;
+		$queryname  = $2;
+		$querydesc  = $3;
+		$querylen   = $4;
+		if ($queryname eq "") { 
+		    $queryname = "unnamed_query";
+		}
+	    } elsif (/^\s+(\d+)\s+residues in\s+(\d+)\s+sequences\s*$/) {
+		$db_nletters = $1;
+		$db_nseq     = $2;
+	    }
+	} 
+	elsif ($parsing_hitlist) {
+	    if (/^\s*$/) {	# blank line marks end of hit list, start of alignments
+		$parsing_hitlist = 0;
+		$parsing_alilist = 1;
+		next;
+	    } elsif (/^(\S+)\s*(.*\S?)\s*\(\s*(\d+)\)\s+(\d+)\s+(\S+)\s+(\S+)\s*$/) {
+		$hit_target[$nhits]    = $1;
+		$target_desc{$1}       = $2;
+	        $target_len{$1}        = $3;
+		$hit_score[$nhits]     = $4;
+		$hit_bitscore[$nhits]  = $5;
+		$hit_Eval[$nhits]      = $6;
+		$nhits++;
+	    }
+	}
+	elsif ($parsing_alilist) {
+	    if (/^>>(\S+)\s*(.*)\s+\((\d+) \S\S\)\s*$/) {  # the \S\S is either nt or aa
+		$target = $1;
+		$target_desc{$target} = $2;
+		if ($3 != $target_len{$target}) { die "can't happen.", "1)", $3, "2)", $target_len{$target}; }
+	    } 
+	    elsif (/^ s-w opt:\s+(\d+)\s+Z-score:\s*(\S+)\s+bits:\s+(\S+)\s+E\(\d*\):\s+(\S+)\s*$/) {  # SSEARCH
+		$nali++;
+		$ali_target[$nali-1]   = $target;
+		$ali_score[$nali-1]    = $1;
+		$ali_bitscore[$nali-1] = $3;
+		$ali_evalue[$nali-1]   = $4;
+	    } 
+	    elsif (/^ initn:\s*\d+\s*init1:\s*\d+\s*opt:\s*(\d+)\s*Z-score:\s*(\S+)\s*bits:\s*(\S+)\s*E\(\d*\):\s*(\S+)\s*$/) { # FASTA
+		$nali++;
+		$ali_target[$nali-1]   = $target;
+		$ali_score[$nali-1]    = $1;
+		$ali_bitscore[$nali-1] = $3;
+		$ali_evalue[$nali-1]   = $4;
+	    }		
+	    elsif (/^Smith-Waterman score:\s+(\d+);\s+(\S+)% identity .* in (\d+) \S\S overlap \((\d+)-(\d+):(\d+)-(\d+)\)\s*/) {
+		$ali_identity[$nali-1]   = $2;
+		$ali_alen[$nali-1]       = $3;
+		$ali_qstart[$nali-1]     = $4;
+		$ali_qend[$nali-1]       = $5;
+		$ali_tstart[$nali-1]     = $6;
+		$ali_tend[$nali-1]       = $7;
+#		$ali_nident[$nali-1]     = $1;
+#		$ali_npos[$nali-1]       = $4;
+#		$ali_positive[$nali-1]   = $5;
+		$alilinecount            = 0;
+	    } 
+	    elsif (/^\S+\s+(\S+)\s*$/) { # only ali lines are right-flushed
+		if ($alilinecount % 2 == 0) {
+		    $ali_qali[$nali-1]  .= $1; 
+		} else {
+		    $ali_qali[$nali-1]  .= $1; 
+		}
+		$alilinecount++;
+	    }
+
+	    elsif (/^\s+(\d+)>>>\s*(\S*)\s*(.*)\s*-\s*(\d+) \S\S$/) { # next query is starting. \S\S is "nt" or "aa"
+		$save_querycount = $1;
+		$save_queryname  = $2;
+		$save_querydesc  = $3;
+		$save_querylen   = $4;
+		if ($save_queryname eq "") { $save_queryname = "unnamed_query"; }
+		return 1;	# normal return. We've finished output for a query, and stored some info about the next one.
+	    }
+	}
+    } # this closes the loop over lines in the input stream: at EOF.
+
+    if ($parsing_alilist) { return 1; } else { return 0; }  # at EOF: normal return if we were in the alignment section.
+}
+
+
+
+sub exblxout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname;
+    }
+}
+
+sub tblout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$target_desc{$ali_target[$i]};
+    }
+}    
+
+
+sub gffout {
+    my $ofh     = shift;
+    my $source  = shift;
+    my $feature = shift;
+    my $i;
+    my $strand;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	if ($ali_qstart[$i] > $ali_qend[$i]) { $strand = "-"; }
+	else { $strand = "+"; } 
+
+	printf $ofh "%s\t%s\t%s\t%d\t%d\t%.1f\t%s\t.\tgene \"%s\"\n",
+	$ali_target[$i],
+	$source,
+	$feature,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_bitscore[$i],
+	$strand,
+	$queryname;
+    }
+}
+
+sub profmarkout {
+    my $ofh = shift;
+    my $i;
+
+    for ($i = 0; $i < $nhits; $i++) {
+	printf $ofh "%g\t%.1f\t%s\t%s\n", $hit_Eval[$i], $hit_bitscore[$i], $hit_target[$i], $queryname;
+    }
+}
+
+
+1;
+__END__
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_h2.pm b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_h2.pm
new file mode 100755
index 0000000..cbf8d71
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_h2.pm
@@ -0,0 +1,190 @@
+# Demotic parser for H2 hmmsearch output
+#
+# Does not parse alignment section yet. But suitable for profmark use.
+# H2's hmmsearch can only search a single query model, not multiples.
+#
+# SVN $Id$
+# SRE, Fri Apr 16 11:07:34 2010
+
+package demotic_h2;
+
+sub parse (*) {
+    my $fh = shift;
+    my $parsing_header  = 1;
+    my $parsing_seqs    = 0;
+    my $parsing_domains = 0;
+    my $parsing_alis    = 0;
+
+    # Initialize everything... so we can call the parser
+    # repeatedly, one call per hmmsearch output.
+    #
+    # This section also documents what's available in
+    # variables within the package.
+    # 
+    # Arrays are indexed [0..nhits-1] or [0..nali-1]
+    #
+    $queryname      = "";	# Name of the query sequence
+    $querydesc      = "";	# Description line for the query (or "")
+    $querylen       = 0;	# Length of the query in residues
+    $db             = "";	# Name of the target database file
+    $db_nseq        = 0;	# Number of sequences in the target database
+    $db_nletters    = "";	# Number of residues in the target database
+                                # (stored as a string so we can have large #'s)
+
+				# The top hit list (still in rank order)
+    $nhits          = 0;	# Number of entries in the hit list
+    @hit_target     = ();	# Target sequence name (by rank)
+    %target_desc    = ();	# Target sequence description (by targ name)
+    @hit_bitscore   = ();	# Raw score (by rank)
+    @hit_Eval       = ();	# P-val or E-val (by rank)
+
+				# The alignment output (in order it came in)
+				# all indexed by # of alignment [0..nali-1]
+    $nali           = 0;	# Number of alignments
+    @ali_target     = ();	# Target sequence name
+    @ali_bitscore   = ();	# bit score
+    @ali_evalue     = ();	# E-value
+    @ali_qstart     = ();	# Start position on query
+    @ali_qend       = ();	# End position on query
+    @ali_tstart     = ();	# Start position on target
+    @ali_tend       = ();	# End position on target
+    @ali_qali       = ();       # Aligned string from query
+    @ali_tali       = ();       # Aligned string from target (subject)
+
+    # Now, loop over the lines of our input, and parse 'em.
+    #
+    while (<$fh>) {
+
+	if ($parsing_header) {
+	    if (/^Scores for complete sequences /) { # seq section starts with this line
+		$parsing_header  = 0;
+		$parsing_seqs    = 1;
+		<$fh>;		# This discards the next line:   Sequence              Description                       Score    E-value  N
+		<$fh>;		# and discard another line:      --------              -----------                       -----    ------- ---
+		next;
+	    } 
+	    elsif (/Query HMM:\s*(\S+)/)    { $queryname = $1; }
+	    elsif (/Description:\s*(\.*)$/) { $querydesc = $1; }
+	}
+
+	elsif ($parsing_seqs) {
+	    if (/^\s*$/) { 	# seq section ends with a blank line
+		$parsing_seqs    = 0;
+		$parsing_domains = 1;
+		<$fh>;   # Discard:   Parsed for domains:
+		<$fh>;   # Discard:   Sequence              Domain  seq-f seq-t    hmm-f hmm-t      score  E-value
+		<$fh>;   # Discard:   --------              ------- ----- -----    ----- -----      -----  -------
+		next;
+	    } 
+	    elsif (/^(\S+)\s+(.+)\s+(-?\d+\.\d*)\s+(\S+)\s+\d+\s*$/) {
+		#        Target   Description  Score Evalue   N
+                #           
+		$hit_target[$nhits]    = $1;
+		$target_desc{$1}       = $2;
+		$hit_bitscore[$nhits]  = $3;
+		$hit_Eval[$nhits]      = $4;
+		$nhits++;
+	    }
+	}
+
+	elsif ($parsing_domains) {
+	    if (/^\s*$/) { 	# domain section ends with a blank line
+		$parsing_domains    = 0;
+		$parsing_alis       = 1;
+		<$fh>;  # Discard: Alignments of top-scoring domains:
+	    }
+
+	    if (/^(\S+)\s+\d+\/\d+\s+(\d+)\s+(\d+)\s+\S\S\s+(\d+)\s+(\d+)\s+\S\S\s+(-?\d+\.\d*)\s+(\S+)\s*$/)
+               #  Sequence  Domain   seq-f   seq-t           hmm-f  hmm-t            score      E-value
+               #     1                2        3              4       5                6           7
+	    {
+		$ali_target[$nali]   = $1;
+		$ali_bitscore[$nali] = $6;
+		$ali_evalue[$nali]   = $7;
+		$ali_qstart[$nali]   = $4;
+		$ali_qend[$nali]     = $5;
+		$ali_tstart[$nali]   = $2;
+		$ali_tend[$nali]     = $3;
+		$nali++;
+	    }
+	}
+    }
+
+    if ($parsing_alis) { return 1; } else { return 0;  }
+}
+
+sub exblxout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname;
+    }
+    
+}
+
+
+sub tblout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$target_desc{$ali_target[$i]};
+    }
+}    
+
+
+sub gffout {
+    my $ofh     = shift;
+    my $source  = shift;
+    my $feature = shift;
+    my $i;
+    my $strand;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	if ($ali_qstart[$i] > $ali_qend[$i]) { $strand = "-"; }
+	else { $strand = "+"; } 
+
+	printf $ofh "%s\t%s\t%s\t%d\t%d\t%.1f\t%s\t.\tgene \"%s\"\n",
+	$ali_target[$i],
+	$source,
+	$feature,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_bitscore[$i],
+	$strand,
+	$queryname;
+    }
+}
+
+
+sub profmarkout {
+    my $ofh = shift;
+    my $i;
+
+    for ($i = 0; $i < $nhits; $i++) {
+	printf $ofh "%g\t%.1f\t%s\t%s\n", $hit_Eval[$i], $hit_bitscore[$i], $hit_target[$i], $queryname;
+    }
+}
+1;
+__END__
+
+  |more
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_hmmer.pm b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_hmmer.pm
new file mode 100755
index 0000000..5f86539
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_hmmer.pm
@@ -0,0 +1,195 @@
+# Demotic parser for HMMER3 output
+#
+# Works for phmmer, hmmsearch output
+# Does not parse env coords nor alignments yet,
+# but is suitable for use in profmark.
+#
+# SVN $Id: demotic_hmmer.pm 2720 2009-01-20 12:03:54Z eddys $
+# SRE, Tue Apr 22 13:13:51 2008
+
+package demotic_hmmer;
+
+# parse(\*STDIN) would parse HMMER output
+# coming in via stdin.
+#
+sub parse (*) {
+    my $fh = shift;
+    my $parsing_header  = 1;
+    my $parsing_seqs    = 0;
+    my $parsing_domains = 0;
+    my $parsing_alis    = 0;
+
+    # Initialize everything... so we can call the parser
+    # repeatedly, one call per hmmsearch output.
+    #
+    # This section also documents what's available in
+    # variables within the package.
+    # 
+    # Arrays are indexed [0..nhits-1] or [0..nali-1]
+    #
+    $queryname      = "";	# Name of the query sequence
+    $querydesc      = "";	# Description line for the query (or "")
+    $querylen       = 0;	# Length of the query in residues
+    $db             = "";	# Name of the target database file
+    $db_nseq        = 0;	# Number of sequences in the target database
+    $db_nletters    = "";	# Number of residues in the target database
+                                # (stored as a string so we can have large #'s)
+
+				# The top hit list (still in rank order)
+    $nhits          = 0;	# Number of entries in the hit list
+    @hit_target     = ();	# Target sequence name (by rank)
+    %target_desc    = ();	# Target sequence description (by targ name)
+    @hit_bitscore   = ();	# Raw score (by rank)
+    @hit_Eval       = ();	# P-val or E-val (by rank)
+
+				# The alignment output (in order it came in)
+				# all indexed by # of alignment [0..nali-1]
+    $nali           = 0;	# Number of alignments
+    @ali_target     = ();	# Target sequence name
+    @ali_bitscore   = ();	# bit score
+    @ali_evalue     = ();	# E-value
+    @ali_qstart     = ();	# Start position on query
+    @ali_qend       = ();	# End position on query
+    @ali_tstart     = ();	# Start position on target
+    @ali_tend       = ();	# End position on target
+    @ali_qali       = ();       # Aligned string from query
+    @ali_tali       = ();       # Aligned string from target (subject)
+
+    # Now, loop over the lines of our input, and parse 'em.
+    #
+    while (<$fh>) {
+
+	if ($parsing_header) {
+	    if (/^Scores for complete sequences /) { # seq section starts with this line
+		$parsing_header  = 0;
+		$parsing_seqs    = 1;
+		<$fh>;		# This discards the next line:   --- full sequence ----  ---- single best dom ----
+		<$fh>;		# and discard another line:      E-value   score   bias    score   bias 
+		<$fh>;		# and discard another line:      ------- ------- ------  ------- ------ ----------
+		next;
+	    } 
+	    elsif (/Query:\s*(\S+)\s*\[[LM]=(\d+)\]\s*$/) {
+		$queryname = $1;
+		$querylen  = $2;
+	    }
+	    elsif (/Description:\s*(.*)$/) {
+		$querydesc = $1;
+	    }
+	}
+
+	elsif ($parsing_seqs) {
+	    if (/^\s*$/) { 	# seq section ends with a blank line
+		$parsing_seqs    = 0;
+		$parsing_domains = 1;
+		next;
+	    } elsif (/^\s*(\S+)\s+(\S+)\s+(\S+)\s+\S+\s+\S+\s+\S+\s+(\S+)\s+(\d+)\s+(\S+)\s+(.+)$/) {
+		#        evalue   score    bias evalue score  bias   exp      N     target  desc
+                #           1       2       3                         4       5       6       7
+		$hit_target[$nhits]    = $6;
+		$target_desc{$1}       = $7;
+		$hit_bitscore[$nhits]  = $2;
+		$hit_Eval[$nhits]      = $1;
+		$nhits++;
+	    }
+	}
+
+	elsif ($parsing_domains) {
+	    if (/^>>\s*(\S+)/) { $curr_ali_target = $1; }
+
+	    elsif (/^\s*\d+\s+\S\s+(\S+)\s+\S+\s+(\S+)\s+\S+\s+(\d+)\s+(\d+)\s+\S\S\s+(\d+)\s+(\d+)\s+\S\S\s+(\d+)\s+(\d+)\s+\S\S\s+\S+\s*$/)
+                  #     #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+                  #    ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+                  #      1 !  387.6   1.4  7.5e-120  2.1e-115       1     181 []       1     181 []       1     181 [] 1.00
+	    {
+		$ali_target[$nali]   = $curr_ali_target;
+		$ali_bitscore[$nali] = $1;
+		$ali_evalue[$nali]   = $2;
+		$ali_qstart[$nali]   = $3;
+		$ali_qend[$nali]     = $4;
+		$ali_tstart[$nali]   = $5;
+		$ali_tend[$nali]     = $6;
+		$nali++;
+	    }
+
+	    elsif (/\/\//) { return 1; } # normal return after each query.
+	}
+    }
+
+    if ($parsing_domains) { return 1; } else { return 0;  }
+}
+
+sub exblxout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname;
+    }
+    
+}
+
+
+sub tblout {
+    my $ofh     = shift;
+    my $i;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	printf $ofh "%s\t%d\t%d\t%d\t%s\t%d\t%d\t%s\t%s\n",
+	$ali_evalue[$i],
+	$ali_identity[$i],
+	$ali_qstart[$i],
+	$ali_qend[$i],
+	$queryname,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_target[$i],
+	$target_desc{$ali_target[$i]};
+    }
+}    
+
+
+sub gffout {
+    my $ofh     = shift;
+    my $source  = shift;
+    my $feature = shift;
+    my $i;
+    my $strand;
+    
+    for ($i = 0; $i <= $nali-1; $i++) {
+	if ($ali_qstart[$i] > $ali_qend[$i]) { $strand = "-"; }
+	else { $strand = "+"; } 
+
+	printf $ofh "%s\t%s\t%s\t%d\t%d\t%.1f\t%s\t.\tgene \"%s\"\n",
+	$ali_target[$i],
+	$source,
+	$feature,
+	$ali_tstart[$i],
+	$ali_tend[$i],
+	$ali_bitscore[$i],
+	$strand,
+	$queryname;
+    }
+}
+
+
+sub profmarkout {
+    my $ofh = shift;
+    my $i;
+
+    for ($i = 0; $i < $nhits; $i++) {
+	printf $ofh "%g\t%.1f\t%s\t%s\n", $hit_Eval[$i], $hit_bitscore[$i], $hit_target[$i], $queryname;
+    }
+}
+1;
+__END__
+
+  |more
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_infernal_tab.pm b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_infernal_tab.pm
new file mode 100755
index 0000000..f2f5691
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/demotic_infernal_tab.pm
@@ -0,0 +1,177 @@
+############################################################################
+# demotic_infernal_tab package   
+#    Parses "tabfile" output generated by cmsearch rc1.0
+#    (TAJ 6/2008) based on demotic_search3.pm; itself based on SRE demotic_wublast.pm
+############################################################################
+
+#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-
+# TODO List:
+#     (1) Parse "Post-search" number of hits (expected, actual) and surv fraction (expected, actual)
+#     (2) Possibly offload gff output functionality from calling script to this pm. 
+#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-#-
+
+# Example output line (ignoring the leading "#"): 
+# ////////////////////////////////////////////////////////////////////////////////////////////
+## target name                   start        stop  start   stop    bit sc   E-value  GC%
+## -----------------------  ----------  ----------  -----  -----  --------  --------  ---
+#  Contig10/506498-506590            1          65      1     80     35.79  1.00e-08   40
+# ////////////////////////////////////////////////////////////////////////////////////////////
+#
+# Example "post_search" content:
+# ////////////////////////////////////////////////////////////////////////////////////////////
+# Post-search info for CM 1: SmY
+#
+#                              number of hits       surv fraction  
+#                            -------------------  -----------------
+# rnd  mod  alg  cfg   beta    expected   actual  expected   actual
+# ---  ---  ---  ---  -----  ----------  -------  --------  -------
+#   1   cm  ins  glc  1e-15       1.000       15    0.0601   0.7829
+#
+# expected time    actual time
+# -------------  -------------
+#   00:00:01.04    00:00:06.00
+# ////////////////////////////////////////////////////////////////////////////////////////////
+
+
+package demotic_infernal_tab;
+# Don't have "parse(\*STDIN)" option, since "tabfile" output always written to file
+
+sub parse (*) {
+    my $fh                = shift; # if this isn't a file handle to a tabfile, some ass needs kickin'
+    my $parsing_header    = 1;
+    my $parsing_presearch = 0; 
+    my $parsing_hits      = 0; 
+    my $post_search       = 0;
+    my $nhits             = 0;   # temp counter for number of hits in current model; (tabulated)
+    my $index             = 0;   # indexes CM number; ie 1st model is index 0
+
+### NOTE:
+### Some arrays (0..(N-1)) contain values from each search (1..N). Recall there is 1 search per model.
+###      Ex: @cm_name      # lists names of all CMs used, say: (SmY.1, SmY.2, SmY.3)
+###
+### Other arrays are a "list of lists" (see LoL note below). In these cases, the Nth position 
+### in the array, will be an anonymous reference to a list of features for _all_ hits to model (N+1).
+###
+###      Ex: @t_name       # position N in the list corresponds to one model (N+1) in the search, 
+###                        # which is an anonymous ref to a list of ctgs for all hits from that model.
+###      Ex: @{$t_name[1]} # lists ctgs for all hits to the 2nd query model; eg (ChrI, ChrI, ChrIII, ChrV)
+
+
+# Document all the variables available in the package; initialize everything
+# 
+# ===========  Header details (once/report)  ================================
+    $command   = "";   # command line used to run search
+    $date      = "";   # date search was run
+    $db_recs   = "";   # number of records in target DB
+    $db_size   = "";   # DB size (in MB)
+
+# ===========  Pre-search details (once/CM) =================================
+# Note: details of the "pre-search" filtering rounds not captured currently 
+    @cm_name   = ();   # Covariation Model(s) name; 1st model is 0th in array
+
+# ===========  Details from each *hit* (0-many/CM) ==========================
+########################################################################################################
+# NOTE: (LoL) == List of Lists; the (N)th position in the following arrays contains a list             #
+#                of that feature for all hits from the (N+1)th CM in the report. The order of          # 
+#                features in the anonymous array @{$foo[$i]} corresponds to the order in the report.   #
+#                EXAMPLE:                                                                              #
+#                   @GC              # list of anonymous refs, one per CM; refs list all GCs in search # 
+#                   @{$GC[0]}        # contains the list of GC values for all hits to the 1st CM       # 
+#                   ${$GC[1]}->[3]   # GC value of 4th (3+1) hit in the 2nd (1+1) search               # 
+########################################################################################################
+    @t_name    = ();   # (LoL); target fasta record name
+    @t_start   = ();   # (LoL); start location in fasta target
+    @t_stop    = ();   # (LoL); stop  location in fasta target
+    @q_start   = ();   # (LoL); start location in CM query
+    @q_stop    = ();   # (LoL); stop  location in CM query 
+    @bitscore  = ();   # (LoL); bit score
+    @Eval      = ();   # (LoL); E-value  // can be in scientific notation
+    @GC        = ();   # (LoL); %GC
+
+# ===================== "Post-search info" (each CM report) ==================
+# NOTE: I'm not capturing all available information here, because I believe it can
+#       be quite variable. I'm not expert on all possible output that can be generated
+    @time_expect = ();  # expected run time (quoted, not converting into hr:min)
+    @time_actual = ();  # actual run time   (quoted, not converting into hr:min)
+    @num_hits    = ();  # tracks number of hits for each model
+
+# ====================== Cumulative Data (all query outputs) ================
+    $model_num   = 0;   # number of CM's used in the search
+    
+
+    # Loop over tabfile input, and parse it (there can be >1 CM/report in each tabfile)
+    while (<$fh>) {
+	if ($parsing_header) {    # only one header section, even if multiple CM's in search
+	    if (/^\#\sPre\-search\sinfo\sfor\sCM/) { # NB: model name here is picked up later
+		$parsing_header = 0;
+		$parsing_presearch = 1;
+		next;
+	    }
+	    elsif (/^\#\scommand\:\s+(\S.+)$/) {
+		$command = $1; 
+	    }
+	    elsif (/^\#\sdate:\s+(\S.+)$/) {
+		$date = $1;
+	    }
+	    elsif (/^\#\snum\sseqs:\s+(\d+)/) { # could get fucked if commas appear in the number
+		$db_recs = $1; 
+	    }
+	    elsif (/^\#\sdbsize\S+:\s+(\S+)/) { # $1 has a decimal; \d just don't cut it
+		$db_size = $1; 
+	    }
+	}
+	elsif ($parsing_presearch) {    # Each CM has it's own "pre-search"
+	    if (/^\#\starget\sname/) {  # signals end of "Pre-search"; occurs once per CM
+		$parsing_presearch = 0;
+		$parsing_hits      = 1; 
+		<$fh>;     # Discard next line (composed of dashes); then hitlist begins
+		next; 
+	    }
+	    elsif (/^\#\sCM:\s(\S+)/) { # If multiple models/CM; format is "CM-NAME.n" (1..n)
+		$model_num++;           # NB: correctly tallys models; use $index for array indices!
+		push (@cm_name, $1); 
+	    }
+	}
+	elsif ($parsing_hits) {         # every line not starting with "#" should be a "hit"
+# Example hit [sans leading "#"]: 
+#   Contig10                         1001         1065      1     80     35.79  1.00e-08   40
+	    if (/^\s*(\S+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\d+)\s+(\S+)\s+(\S+)\s+(\d+)\s*$/) {  
+		push (@{$t_name[$index]}  , $1);
+		push (@{$t_start[$index]} , $2);
+		push (@{$t_stop[$index]}  , $3);
+		push (@{$q_start[$index]} , $4);
+		push (@{$q_stop[$index]}  , $5);
+		push (@{$bitscore[$index]}, $6);
+		push (@{$Eval[$index]}    , $7);
+		push (@{$GC[$index]}      , $8);
+		$nhits++;  
+	    }
+	    elsif (/^\#/) {       # end of "hitlist" for this CM
+		$parsing_hits = 0; 
+		$post_search  = 1; 
+		push (@num_hits, $nhits); 
+		$nhits = 0;       # clear hit counter for next model 
+		next; 
+	    }
+	    else { die "Parsing 'hitlist' -- should never get here! Current line is:\n$_"; }
+	}
+	elsif ($post_search) {           # Each CM has it's own "post-search"
+	    if (/^\#\sexpected\stime/) { # Effectively marking the end of a single query's report
+		<$fh>;       # discard next line of dashes
+		$_ = <$fh>;  # get next line listing the times
+		if (/^\#\s+(\S+)\s+(\S+)\s*$/) {
+		    push (@time_expect, $1); # \__ not going to try parsing hours/minutes/seconds
+		    push (@time_actual, $2); # /
+		    $post_search       = 0;  # \__ if looping over multiple query CMs, next up is
+		    $parsing_presearch = 1;  # /   "pre-search" for next model, or soon: EOF
+		    $index++;                # LoL index; end of report i, prepare for report i+1
+		}
+	    }
+	}
+	else {  die "Should never get here! Dropped through WHILE loop, parsing line:\n$_";  }
+    }   # this closes the loop over lines in the input stream.
+}
+
+1;
+__END__
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single-psiquery.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single-psiquery.fa
new file mode 100755
index 0000000..4803c21
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single-psiquery.fa
@@ -0,0 +1,7 @@
+>A3CM55_STRSV/64-391 A3CM55.1
+SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRMLLTLVIALIQSVALVLNLP
+LQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASMIAYIPQDIWN
+SIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPA
+GGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWFILYLLTIFILALA
+FAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLILISGLPMMV
+VLVDIRYLRLSMIPGIFMIFIGMVFSIK
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.asnt b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.asnt
new file mode 100755
index 0000000..74edbd7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.asnt
@@ -0,0 +1,9215 @@
+PssmWithParameters ::= {
+  pssm {
+    isProtein TRUE ,
+    numRows 28 ,
+    numColumns 328 ,
+    byRow FALSE ,
+    query
+      seq {
+        id {
+          local
+            str "A3CM55_STRSV/64-391" } ,
+        descr {
+          title "A3CM55.1" } ,
+        inst {
+          repr raw ,
+          mol aa ,
+          length 328 ,
+          seq-data
+            ncbieaa "SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRMLLTLVIALIQSVALVL
+NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASMIAYIPQDIWNSIQELKISSLWLALM
+LVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIE
+QWIEALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLI
+LISGLPMMVVLVDIRYLRLSMIPGIFMIFIGMVFSIK" } } ,
+    intermediateData {
+      freqRatios {
+        { 0, 10, 0 } ,
+        { 517881877, 10, -10 } ,
+        { 0, 10, 0 } ,
+        { 714899082, 10, -11 } ,
+        { 228880836, 10, -10 } ,
+        { 268767292, 10, -10 } ,
+        { 926243646, 10, -11 } ,
+        { 177664277, 10, -9 } ,
+        { 750670798, 10, -11 } ,
+        { 151849534, 10, -10 } ,
+        { 256189057, 10, -10 } ,
+        { 241985116, 10, -10 } ,
+        { 779851038, 10, -11 } ,
+        { 262995653, 10, -10 } ,
+        { 193119177, 10, -10 } ,
+        { 190809756, 10, -10 } ,
+        { 188907569, 10, -10 } ,
+        { 278285975, 10, -9 } ,
+        { 252640924, 10, -9 } ,
+        { 239733259, 10, -10 } ,
+        { 301431543, 10, -11 } ,
+        { 0, 10, 0 } ,
+        { 922884276, 10, -11 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 309934003, 10, -10 } ,
+        { 0, 10, 0 } ,
+        { 761463694, 10, -11 } ,
+        { 102434459, 10, -10 } ,
+        { 136310089, 10, -10 } ,
+        { 370679606, 10, -10 } ,
+        { 128089526, 10, -10 } ,
+        { 470654848, 10, -11 } ,
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+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } ,
+        { 0, 10, 0 } } } } ,
+  params {
+    pseudocount 0 ,
+    rpsdbparams {
+      matrixName "BLOSUM62" ,
+      gapOpen 11 ,
+      gapExtend 1 } } }
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.fa
new file mode 100755
index 0000000..2bca26a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.fa
@@ -0,0 +1,1159 @@
+>A9B431_HERA2/73-422 A9B431.1
+SVAAMGVYPYITAQIIMQLLIPLIPALEQLSKEGEQGRNRIQRYQYFLTVPLAYLQGYGQ
+IKSLINSGINLFGTLNFSITENFFQTFSILTIMVSGSMFLVWMGELIDERGIGNGLSMII
+FGGIVTALPSMVYQAITTSSSGNNVIGGILLLIVTLATVVGIVLITEGQRRIPVQYAKRV
+RGNKVYGGQSSHLPLKVNMAGMIPLIFAQSILIFPSTVASYFWNPNGSGFFNGVANFFVN
+SFGPNGLAFTLAMFVLVLLFTYFYALVMFNQQNLPEMLQRNGGFIPGIRPGRNTEVYLTK
+VLNRITLIGAVGLAVVAALPYFVQQITGLQIGFSSTGLLIVVGVAVDTMR
+>A8CRX1_9CHLR/78-422 A8CRX1.1
+SVAALGVYPYITASIIMTLLTPVIPKLTALSKEGEAGRNKINTITHWLAVPTAALAGYSQ
+LLLLQREGAVAQTEPLAAVAIVLSIVAGTMFMVWLGEQITSYGIGNGISLIIFAGIVAGL
+PDMIGRGLMASDQFAGLAVYAFMALLTTVLIVIFTEAHRRIPVQYAQTVIRSGKMYRRGG
+ESHIPLRVNSAGMIPLIFASALVMLPGLVASYFMAGSTEDPNFWNTIYNIFNSGASMPGG
+LVYWGLYFFMTIIFAFFYTMVTFEQQDIPGTLQRQGGFVPGIRPGKMTDQYLSGVIGRIT
+WAGALFLGFVAIMPFIAREVTGIQVIQLSSFGMLIVVGVALDTMK
+>A2Y4E5_ORYSI/132-498 A2Y4E5.1
+SFFQLGISHQISASIVMQVLFYPLFGPALLFSNGNVLCHVLPSLEKLRKEGLDGHEKIKG
+YIWWLSLGFALVAAFTVSCYSLQYSIYAASYRVKHVMITSLFLVLGAMTMTWICDTISES
+GFGHGSSLIICVGILTGYTDTLHKMLTQFSGNWYSCWHYILGIAGTFILVTMGAVLVTEG
+CRKIKLQYYGFKLASGARSESSPVTEVEPYIPFNINPTGMQPLLTTSYLLAFPSIMASIF
+GTQFWESLKETLNPKTSVGGGPWAYYLTYAFLVFVFNIFDIANLPKEISDYLNKMSARVP
+KIKPGRATVEYLTKIQTSTRFWGGILLSLLATSSLLLDRYLRQINEGFSIGFTSVLIIVG
+SIIELRR
+>Q7UZW2_PROMP/80-422 Q7UZW2.1
+GIFALGILPFINASIIIQLLTASLPVLEDLQKNEGEAGRRKIAQITRYVSLGWGFLQSII
+FSLILRQYAIEGISETAFVLQTSIALVTGSMIVMWFSEIITEKGIGQGASLVIFLNIVAT
+LPKALSSTIEKAQTGDRGDVLGIAVLLGVFLLTIVGIIFVQEGARRIPIVSAKRQIGNSS
+LLPTRQSYLPLKLNAGGVMPIIFASALIFLPITVANVTGNPILIKIAGSLNPGSSNPWPY
+ALTFFALILGFSYFYASLTINPVDVASNLKKGGVAIPGVRPGSNTANYLSGIQNRLTLLG
+GLFLGSVAIIPAAVERATNVQTFQGLGATSLLILVGVAIDTAK
+>Q7NKT4_GLOVI/79-416 Q7NKT4.1
+GVFMLGILPYINASIIMQLLVPVFPKLEDLQKNEGEQGRRQIAQYTRYLALGWAIIQSIG
+VAIYIKPFVADWSPLFVIQTTLALTAGAIFVMWLGELITEKGIGNGASLLIFVSIVSSLP
+TAFSQTFQLLQADSSRVAGVVVLLLVFLAMIVGIVFVQEGTRRIPIISARRQVGPRRQQY
+QQQQTSYLPLRVNQGGVMPIIFASSLLYLPLTFAQFARNATVDQVVNAISSGWIHNILYL
+VLILFFSFFYATLIINPEDVSKNLKRMGSSIPGVRPGTATSEYIAKVMNRLTFLGAIFLS
+AVAIIPTFVEQGTGITTFNGLGATSLLILVGVAIDTVR
+>SECY_GUITH/68-404 P28527.2
+GVFALGIVPYINASIIVQLATNSIPSLEKLQKEEGELGRQKIVQLTRYVALVWALIQSIG
+VSFWVRPYVFNWDLNFVFAMSLTLTIGSMLIMWFSEQITEKGIGNGPSLLIFINIISGLP
+KLLQSQIQSTRLNIQALDIFVLVFIFSVMIIGIIFIQEGIKRIPIISARQLGKGQMDNKT
+SYLPLKLNQSGVMPIIFASAVLVLPAYLAQLVSNEQLRTVLHLFDGTSNNKLLYLLFYFT
+LILFFSYFYTSLILNPNDVSKNLKKMESSIYGVRPGKATTEYLQKTLNRLTFLGALFLAF
+IAIVPNIIETLTNLSVFKGLGGTSLLIIVGVQVDTSK
+>SECY_CYACA/62-394 P46249.2
+SVFALGIIPYINATITIQILSSAFPALKKLQSEEGEIGKKKLNKITKYLSFCFAFIESLA
+IVLRLQKYAFDWNLYFIVQTTLILISGAMLVMWLADNISYKGIGTGASVIIFVNIASAFA
+KFLLNQLFVHSIKFLDFASYFALIVFSIACIVFVQEAIRKVPIISAKQLDSTSFYSNDYF
+LPLRINQGGVMPIILASSLLALVDYVIRYGLSTLQAVYFINDILPFKILFLLLYSAFIIF
+FNYLYCSLVLNCFELSNNLKKASVVIPSIRPGKMTEKFFKDTLDNLTLFGSGFLAFIVLA
+PNFLEFVFHIRVFKGLAVSSLLIVVGVAIDLIK
+>Q85FU6_CYAME/42-325 Q85FU6.1
+GWFVLGIIPTINASIVMQILISIVPALTRLQKEEGEMGQKQIQKYTRYLTFFLAGIQAFT
+LSQQWCTWLLIVSGAMLVMWLAEQMTHKGIGNGTSIFVCSNIAANFLHHPIEAPWSLAMV
+VLIFTMLGMIALQEAVRAIPILSAKQLIQSIAQVYLLPMRLNQGGVMPIIFASSTLALLH
+TWSIWWLYVACIIFFSHFYNLVIANPKELSENLNKMAVVIPSIRPGAETQQYLNRTLNRM
+SWIGGIALSLIALLPWLFSSLKIFSGFGATSLLIVIGVSIDTMR
+>A0T0J6_PHATR/72-407 A0T0J6.1
+GLFTLNIFPYINASILVQLILGFSPKLSKLQKEGDLEGRRSINRLTRLITLMFALIQSVS
+LALYLKQILFNWNYSLAIEIGLWLTTGAMIVLWLSELITDYGLGNGASLLIYTNIISSLP
+NLSKTILSENSQNFTLGSEIGIVLLIFTSLYGIVFLQEGVRIIPLISSKQLNQSSLQDSV
+TSNNYIPLRFNQAGVMPIILTTTILVVPNYVNNLGLLPKIDLPINFESLNFVYWIGYFVL
+ILVFSSFYSTIVLNPKDISDQLQKMAVTIPGIRPGIQTTFYLKQVMKRITLLGTTMLATL
+ATIPNFVESTLSITSLNGLSTTSLLILAGVVLDLVR
+>SECY_CYAPA/109-459 P25014.2
+GFFTLGILPYMNASFFLQVLTKILPSLERFQKEQEEIAQREFKKWTRYLTVIWAFIQSIV
+ISWIWIRPYALNWDFFLGLKVVVALTLGAVIVMIIAEQITEIGLTNGSSLLIFINIIARI
+PNSIEQLFNSNINWTFPMISSLILSLSLSFITMFVIIGLQESGRPVPVLIARQEAERQKF
+NEPITEAERRKTQAYIFFQLLPAGIMPVIFASTIFDLALPAFTNFLLQQGNWGYQLIKSF
+PFNSLFKDFCYLITIMLFSSNYALTIMINPKTLAENLNSMNALIPGVRPGSETKVYSEQL
+IHRLNFIGSFVLALVCILPSIVERSLGLPKLQILSPVSISIALGVAVDTTR
+>Q4G351_EMIHU/63-407 Q4G351.1
+GIGSLGILPYINASIIIQLLTPLFPNLERLQKEEGELGRQQISRYTRYLTCIWAIVLSSA
+IAFFLIKPITFGWSLKLGLEIVLSLTVGSILSMWFAELITEESLGNGSSMIIFINIVGGI
+PNNLSSLSKTFSAANLASAIPLLLTGLGIYLGIVLIIIFFQESYKKITIVSAKQLNLTTS
+AQTQSERLANNSFIPLKLNQGGIMPLVFSSTIAVVFMYPAQILLSSALLTNAAGLASKLL
+TIYSFGINFVLVIFFSCFYVSLVLKPKDMSENLGKMAYSIPGIRQGKETTKYLEKVINRL
+AFIGGLFLAFLAFFPLFVGNFIQFGLFKNLTSLLILIGVITDTTS
+>SECY_PAVLU/66-404 P28540.2
+SILTLGLGPFFSASLAVQFLVKLYPAFEKLQNEEGEEGRKTIVRYTRILTVLFCIIESFF
+LSNSLRSFVFNWNSISYFVVAAAVTTGSLVLVWLSEVITERGIGNGSSLLILIGNLSRFR
+FLINKDDFDSLNVSSQSNLYIIYIIITLVSMLIFSTLSQEGARKIPVVSAKQLIDGVEDD
+MRRSYIPIRFGQAGVVPIIFSSSILLFLTTSIKQLPNANIATRVILDSVNLQQIFYFFTF
+LVLIIFFSFFYTLIILSPSDIAKNLKKMSSVIQDTKPGVATKVYIRKFILQASFVGSILL
+SALILIPSILAAALGVHPLSISGITSLILSFSIINDTVR
+>Q6B8X0_GRATL/62-395 Q6B8X0.1
+GIFALGIVPYINASIMMQLLTKLIPELENLQKEEGESGRQKIGQLTRYFTLIWSILQSIG
+ISLWIKPYVFNWNYYFILDSIIALGTGSLIIMWFAEIITEYGIGNGASLLIFQNIISGIP
+KNIQNYKINIYDKQTIINGSFLFLLFVLILIINILIQECKRKIMIVSAKQLSKFTTSNPR
+SYIPLKLNQGGVMPIVFASATMALPIYFSNNIEVPNINNVINLFLPGRILYFPAYGSLII
+AFSYFYTSLVLNPDDIAENLNKMGASIPSIRPGSDTIRYISKILDKMTFMGGVFLFIIAL
+IPSLIAYITHTSLLQGLGTTSLLILVGVAIDTAK
+>SECY_ANTSP/62-390 Q37143.1
+GIFALGIVPYIYASIIIQLLIKLIPYLENLQKEEGEIGRQKINQLTRYLTLLWALIQSLS
+IAIWINHMYLIHLFELCASLTTSSMIAMWFSEIISEYGVGNGPSLLIFQNIISSIPKNLQ
+NYTFNIGTTNTVLNGSLILSFGIIILIINILIQEGERKIAILSAKQLGKINELNHKVIFL
+LKLNQGGVMPFVFASAVVHTFLFISNNTNSKITQFINLFLPNQFLYLPLYLIFIITFSYV
+YTSLILNPEDIAKNLKKMGASIPNIRPGSETIKYLNTRINRLTLIGACFLFTITLFPTIT
+YYIFKINTLKGLGATSLLILVGVAIDTAK
+>A4RW47_OSTLU/65-398 A4RW47.1
+GIFSLGIVPYINSSIIFQLLGSVFPELKKLQKEEGEAGRRKFQQYQRYGALGFAIVQAVG
+QCLYVRPFVEDFTPIWLFEQSCALTAGAMILMYIGELLNEIKLGNGTSLLIFANIVSALP
+SSVGQTVSMAQEKGDSSVLAVFFGAFALTTLGIVYVQEAERKIPMNYSTRFNAGGLAKSS
+YLPFKVNSAGVMPIIFASSLLALPATLTRFTDNGAVLGVARFLSPGGGAGYVPVNVAMIC
+FFNYFYTFLQLEPKDVADQLKRQGASIPGVRPGAATRDYITRVLERLSVLGSVFLGALAL
+TPGAVEQITGLQTFRGFAGTSLLILVGVATDSAR
+>A7PFA4_VITVI/131-465 A7PFA4.1
+GICSLGIVPFINAQIVFQLLTQIYPKLQDLQKREGETGRKKVLQYTRYASVGFALVQAIG
+QVLFLRPYVNDFSTQWVLSSVTLLTLGSVLTTYIGERISDLKLGNGTSLLIFTSIISYLP
+ASFGRTVAQAFQDGNYIGLVIIIISFFLLVLGIVYVQEAERKIPLNYASRYTNKSGGLQK
+STYLPFKVNSSGVMPIIFSTSSLALPGTVSRFTGLAALKKAALALNPGGSLYLPTNILLI
+AFFNYYYTFLQLDPDDVSEQLKRQGASIPLVRPGKSTAAFIKMVLSRISVLGSGFLAILA
+AGPSLVEQTTHLTAFRGFAGTSVLILVGCATDTAR
+>A7HM32_FERNB/75-404 A7HM32.1
+SVFSMSVTPYINASIIMQLLASIIPSLKELLKEGEEGRKKFQHYTKNLTLGLAALQSFVV
+SFGLARSYQGIIAINTWLFSFVSTVSLVAGTMFLLWIGDRITEKGIGNGVSIMIFAGIVS
+RYPAYFRSAVLGNLNIFGWIFLIAVAIFMVVAIIYVQQAERRIKIEYATRMVGRRIYGGT
+STYLPIKVNHSGVIPIIFAWAIISIPEAIAQITGAQWAIKLFSMQSPLMMIIYALLIFFF
+TYFYSVVVIDPKDISENIKRYGGFIPGIRAGKPTEEYITFVLNRVTFLGAIFLVGISLLP
+YLVEGITRVNIWLGGTSALIAVGVALDIAQ
+>A3CK84_STRSV/69-416 A3CK84.1
+SVFALGVSPYITASIVVQLLQMDLLPKFVEWGKQGEVGRRKLNQATRYIALVLAFVQAIG
+ITAGFDTLSRANLVANPNVQTYALICVLLATGSMIVTWLGEQITDKGYGNGVSMIIFAGI
+VSAIPDMIKGIYEDYFVNIPSERLTSSFIFVGILIVAVLLIIYFTTFVQQAEYKIPIQYT
+KVAKGAPSSSYLPLKVNPAGVIPVIFASSITAAPAAIFQVVSALGYDADWVKTAQSLLAT
+TTISGMFMYAFLIVLFTFFYTFVQINPEKTAENLQKSGAYIPGVRPGKGTEDYMSKLLRR
+LATVGSLFLGFISILPILAKDVFGLTDAVALGGTSLLIIISTGIEGMK
+>Q5FM71_LACAC/68-415 Q5FM71.1
+SIFSLGVSPYITAQIVIQLLQMDIVPTLVEWGKQGEVGRRKTNQVTRYLTLVVAFVQSIG
+ITLGFNALTQMGLVKNQTPQTYVEIAIIMTAGTMLLTWLGDEITDKGLGNGVSVIIFAGI
+IARLPSGLWQIYKEEIINNSASDRWQGILFFIAVIVAILIVTQLVTWVEQADRRIPIQYT
+RRATISGSESFLPLKVNVSGVIPVIFASSFIITPATILMAFQRTQGDQQWFKVLNQIFSL
+QTTPGVIIYTLLIILFTFFYAFVQVNPEKLAENLQKQGAYIPSVWPGKDTQNYISKMLIK
+LSTVGSIFLGLVALLPQLATNFWNLPSSIGLGGTSLLIVIGVVLELSR
+>Q03ZM6_LEUMM/68-416 Q03ZM6.1
+SLFAMGVSPYVTAQIIVQLLQLDIVPRFVEWSKQGEVGRRKLNNATRWLTLVLAFVQSVG
+ITAGFNSLSSYGLVSQTNSVMSFVVIGSVMTIGTFFAMWLGEMITEKGLGNGVSMIIFAG
+IIAQAPEGFYEIFKENILQADSSDMLNGWIFVVVLVIAMILVVAFTTWSYEGTRRLQMQY
+TRSATSYGSEAYLPLKVNVSGVIPVIFASSFISTPQTVMLAFQDKYSSAQWYQIMQQIFS
+MTTLPGAILYTALIVVFTYFYAFVQVNPDKLSENLQKQGAYIVGVRPGAETKAFVSKLLL
+NLSFVGSIFLGVVALVPLIASDVWGLNEKIGLGGTSLLISIGVALDLIR
+>SECY_STAA8/69-413 O08387.2
+SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG
+MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI
+LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK
+QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLFYPDKEWAQNIANAANPSSN
+VGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLYRLTF
+VGSIFLAVISILPILATKFMGLPQSIQIGGTSLLIVIGVAIETMK
+>Q4MG72_BACCE/68-415 Q4MG72.1
+SIFAVGITPYITASIIVQLLQMDVIPKFSEWAKQGEMGRKKSAQFTRYFTIILAFIQAIG
+MSYGFNNIAGGQLITDQSWTTYLFIATVLTAGTAFLLWLGEQITANGVGNGISMIIFAGL
+VAAIPNVANQIYLQQFQNAGDQLFMHIIKMLLIGLVILAIVVGVIYIQQAVRKIPIQYAK
+AVSGNNQYQGAKNTHLPLKVNSAGVIPVIFASAFLMTPRTIAQLFPDSSISKWLVANLDF
+AHPIGMTLYVGLIVAFTYFYAFIQVNPEQMAENLKKQNGYVPGIRPGKSTEQYVTKILYR
+LTFIGAIFLGAISILPLVFTKIATLPPSAQIGGTSLLIIVGVALETMK
+>Q6F1X5_MESFL/92-454 Q6F1X5.1
+SILALGVSPYITASIIVQLLSTDVVPILTRWNKSGERGRKKLDKLTKVLMIPFALMQGIA
+TIFTLQQQGVIEPGWSSDNVLASPAFYYVLVPLVMLAGSYFMLWIADQITIKGVGNGISI
+VIFIGIIVQLPNQIKATYDFWIPSNESINVFFDGIIKFSIYMLVFFVVIFSVVLMNEAER
+KVPIQQTGSGLIDSKDHTPYLPLKLNNAGVIPVIFASALISTPITIAQIIDPTASTSTVD
+SANAFVRFTQHYLSFNTWWGIGIFAVMIVLFTFLYAQVQINPEKISENFQKSGTFIPGIK
+PGKDTTNFLKGTINRLSLFGAIFLAAIAALPYVISKLTNLPSQLAIGGTGLIICISVAIQ
+TTQ
+>Q6KI36_MYCMO/87-436 Q6KI36.1
+SIVALGISPFITASLVMQILQTKLFPPIYRLSQSGPIGRRKINIITRAITIFLGVVQSMT
+IVSALSAQNSFISLTNEFNVFWYQFIILPVILIAGTVFSIFIGDQITDKGVGNGTTLLIF
+TGIVITLPTQFTATFNALVGEQQRVSSLSNGIVTFISYVFGFIILMYIIGFVYNAERRIP
+IQQVGAGRAKNEKELSYLPIKINPGGISPIIFALIIISFPQLFASVFPISNPFRIWVESN
+LRPNNTIGFILFISITFIFAIFFGLQQSKVDKIAEDFAKNSTFIPGIKPGQETETYLTGI
+VLRLCFFSAFYLIIIGGMQFAQQLAGVPENISFGGTSVIILVTASYETIT
+>Q4A5I3_MYCS5/83-437 Q4A5I3.1
+SIFALGISPFINASLIMMILQSRLFPMIYKLTQSGPQGRRKLNIATRILTFIIAYPQAVF
+LTKSLTAGERNSSFITLVSIDGFSVDLLVYFLLPMILISASLFALFLSEQITNKGVGNGT
+SIIIMTGIAARLPFQMQNAFKIFVGDLSQSGTLVGILNFVTYIFIYLACLMVIGIFYNAE
+RRIPIQQTGAGRSKALKEIGSLPIKLNPAGIMPIIFAMLVLSLPTLIANILPNDNYSKQW
+INENLQFYKPLGFSLLIIITFVFSLLMGIQQSKVDKIAEDFAKNGTFIPKVTPGEETQNY
+LVAIVFRLSFFSAFYLVIIAGMQYVQIMTGILQPSIAFGGTSLMILVSVSIETIS
+>Q98Q01_MYCPU/90-438 Q98Q01.1
+SIVSLGINPFITASLIMTILQSKLFPPIQKMSQSGPLGRKKINVITRLLTLVFAFPQAIV
+LTQTLSRENGFISIDQEFKTIANIYVLLPLILVAGSLFTLFLSEQITDKGIGNGTSLIIF
+SGISLSLPSQFRAAFNVLVGTNKTTLFTGLIHFLLYLFGYLLLIVIIVFVYLAERRIPIQ
+QTGAGLSKNIKEMGSLPIKVNPAGIMPVIFSMIVISFPLLIAGLLDRSTSLVRLWIERHL
+AFTHPIGFSLLIIITFIFSIFMGLQQSKIDKISEDFNKSGTFIPGLRPGDQTENYLIDVV
+LRLSTFSAFYLSILVSIQYIMQMAGMPAAISFGGTSMMILVSVSLETID
+>Q4AAF9_MYCHJ/85-434 Q4AAF9.1
+SVVALGISPFITASLFMLIAQTKLFPPIHRLSQSGPAGRRKINIITRFLTLLVAVIQAVV
+LIRTVILNPDYGFVRLEINTPVFIWLVLPLVLVAGSLFSLFLAEQITDKGVGNGTSLLIF
+SGIVVGLPRRFQHAFEYLVDLSFSSSLISQVLSFILYIFGFLLILLIAIYVYLAERKIPI
+QQTGSGMSKNIKEISILPLKLNPAGIMPVIFALIIVSLPTLFSGFLDRNTSAVRNWIDNN
+MQIYHPIGLIIFIVFNVSFSIIMSLQQSRVDKIAQDFAKNSTFIPGIRPGEQTEDYLISV
+VLRLSVFSAIYLTFLGILQPVEIMLGLPSAITISGTSIIILATTTLETIS
+>Q9PQP1_UREPA/76-434 Q9PQP1.1
+SLFAIGIGPYITAQIIMQLLSSELVPPLAKLSKSGERGRKKIEVITRIITLPLAVMQAVI
+IINLMTRANGFISIVSNAPFAIGSPLFYVTYIFLMVGGTYISLFLADLISKKGVGNGITL
+LILTGIVASLFNHFIAIFSNLGSLTSSKVSQIIGFILYILFYIMILIGVVFVNNSTRKIP
+VQQTGQALILDHEKLPFLPIKIMTAGVMPVIFASSVLAIPAQVAEFLDKQSMGYYVIHNY
+FIVDSWTGLAIYVVLILLFTFFFSYVQLNPPKMAEDIKKAGRFIPGVQVGMDTEKHITKV
+IYRVNWIGAPILAFLACLPHLVALVAKTINHGIPVIQPSTIFGGTSIIIMVTATLELWN
+>SECY_MYCGE/81-430 P47416.1
+SLFAVGISPYISAQIIMQLLSTDLIPPLSKLVNSGEVGRRKIEMITRIITLPFALVQAFA
+VIQIATNAGTGSSPISLANSGSEFIAFYIIAMTAGTYMAVFLGDTISKKGVGNGITLLIL
+SGILSQLPQGFIAAYNVLSGIVITLTPQLTAAISFFIYFLAFLVLLFATTFITQATRKIP
+IQQSGQGLVSEVKTLPYLPIKVNAAGVIPVIFASSIMSIPVTIAQFQPQTESRWFVEDYL
+SLSTPVGIFLYAVLVILFSFFYSYIQINPERLAKNFEKSGRFIPGIRPGNDTEKHIARVL
+IRINFIGAPFLTVIAIIPYIVSYFIRLPNSLSLGGTGIIIIVTAVVEFIS
+>Q8EUD2_MYCPE/81-433 Q8EUD2.1
+SFMAIGVSPYITAQIIVQLLSSDLIKPLTRLSKAGERGKRKLEIITRLITIPFAIMQAYA
+VLSLAGTQGLVSSFFGQSALSSVPAGQIILLLLGMTAGTYLTIFISDIISKRGVGNGVTL
+IILSGIVASIYPNFTSVFQVLTGSSQISNQLLRYFSFAVYLVFFFLILLATTFVNGSVRK
+IPIQQIGQGLSKEVDEMPYLPIKLNAAGVIPVIFASSIMTIAPTISQFLPSGSAGSEFIN
+EYLSIERPVGLVIYTVLIVLFGFFYSHIQVNSEKLAENFQKSGKFIPGVKMGEETQKYIS
+KTLNRVNCIGVPFLACLAIVPYLITMTTGIPNGIAIGGTGVIIMVTGSLDFWS
+>Q7X4E3_9MOLU/69-399 Q7X4E3.1
+CILSLGVIPYVTASIVIQLSQKVFTFMKEWQEQGEKGKRKINIVTRVLTIFLSLGHGWAL
+CQTEKLVLGPYLLFSTLFFLTVGVFISIWLADLITSKGLGNGISILIAVGMVDKLFKTFK
+YLLSNSNGFETQRILILVSYFVLLILTIILSSAYLKIPINYAXNRNNDKIDKYIPIKLNT
+SGILPIILADTLLNVIQQISMLFSKNGKVNEYIGIFVESRSELGIYFFVYILLIMLFSFF
+SSFMTINPKDVAEHLSKQNAYLKDVQPGLPTVKKIVREMFKITFLGSCFLTLLASTPDII
+NYLAGIKISQNIPFSGTSLLIIVGVALESIQ
+>Q5Q069_ASTYP/59-398 Q5Q069.1
+TLFGLGITPYITASIVVQFLQKLLPICREWKDQGQMGKRKLNLLTRSLALFFAFGQSFAF
+LNSYSKLLVTSISTRQLFLLALIATAGVAILIWFADLINSKGIGNGTSILIVVSMSHSLI
+NLFANLNKSYLSKNTFLTLKTFNFACIVLLLLLFLIFTVVVQITSLKIPINYARNQSQGK
+SYIPLKINSAGVMPVILAFALLQPFQILAGVIGNDKLTKYVNLFTNTNSSNNQINFFAIG
+FLVLLVIVLSFFSAFMNVNPEDISEHLSKQDAYIAGLRPGEQTTRYLANTLFKITVLGTV
+FITALVVTPILMEHFLSLKDMKLGGTSLLIIVSVALETIQ
+>O21257_RECAM/57-372 O21257.1
+SLFALNITPIITYLFLEQLYYIYSIPLISKKKNLNKDLIKKYSVYIFLMISYLEGFIYLN
+HLYNTTSSSFLIFYLDNTINYLLCLNFLVIGSCFLYFFAKLINIYGIGKGLSFIIFINIV
+GSFIDIFYKYLIQIETLNVKYLVFLLFVQCLFCGIIYFYIDFLFLKIPIIKLNFVGNEND
+NYNYLNYFQKYQTSSLNLLGILPFILVYSIIYMLKLNLNSFLDLVFNIFLEMLCMMFIYL
+FLSRFLKKYLKFIYNINKNNIYIEHINKNIYSIFFISHLYYLGILRDYCLFCFLFIFSKL
+FFIISYLFIEIDFSFF
+>Q74NB9_NANEQ/69-457 Q74NB9.1
+SIVSLGIGPIIIGYLLAELFIGSGELNIDITTEEGKRKFENLARFFMIVFGLFESIVMAT
+IGWFKPSQFLISLFAMPFSFLGSNAFLIGYILAVLFIVAQLMLGVILAYLLDDLSQKWGF
+TSGINLFILATVSRELFVQLFNPLTQIPGTPTPPIGKIPQIFYFISQGLYTEAIVVGLQL
+LVIVLVILLSVYFYMVKIPIPTSFGKIPEKSLRYEVRLIYTGNIPVIFAFAFLHQILLIA
+WVLQQLGIPLLGTIENGHPINGLVAYIYPDTGFLISLILGNLTLDNLIRTITSSLFFLGS
+SILFSIYFVLATGQDSEGLAKQLSKMFGRIGLKRDYRIIKHYLDKIIPCVTVLGGFIVGF
+LALLSYWVSIPIGGTSILLATMISYMVYE
+>Q2EMT2_METVO/30-379 Q2EMT2.1
+TLITLGIGPIVTAGIIMQLLIGSELVKLDMSKPDNRALFQGLQKAFGIFLCFLEAGMFVL
+AGAFGALTPMMSLALILQLAIGAILLIYLDEIVSRYGIGSGIGLFIAAGVSQTIFVGALG
+PQGYLWKFFSALVSGSMGPALEYILPILATIAVFFVVVYAESIRVEIPLAHGRVKGAVGK
+YPIKFIYVSNLPVILAAALFANFQLWGLVLYKIGFPLLGTYSNGRAIDGIAYYFSTPYGL
+SSVISDPIHAIVYTLFLIGFCVLFGLFWVETSGLDAKSMAQRLGGLNMAIKGFRKSNKSI
+ENRLKRYIKPITVMGSAFVGLLAALADFTGALGGGTGVLLTVSIVYRFYE
+>A5UL65_METS3/72-433 A5UL65.1
+SILTLGIGPIVTASIVLQLLVGSKLLDLDLSSPEDKSQYQATQKILSIVFTMFEAGVLVL
+TGSLVPIDNSYLGVLFLQLVIGAILIIYLDEVISKWGFGSGIGLFIAAGVCEAIIVGTFS
+FIPGPGGVYGGAIPAFIQSFWSSSIDFSVLIPLIATAAVFFVVVYGESMRVEIPISHGSV
+RGHGRIRGSVGKYPLKFVYASNMPVILTSALLVNVSLLASVFQKIGFPILGEIVNGKAVS
+GIALYLSTPNDVSLLVTDPVRVIVYAFFFLLCAVLFSYLWVEISGLNAKKISEQLYKSGI
+QIPGFRSSKRQLYKILKKYIPALTIISGLYVGIIAFCADLTGALGGGTGVLLTVGIIHKI
+YE
+>SECY_METTH/73-436 O26134.1
+SILTLGIGPIVSASIILQLLVGGKILKLDLSRHEDKAFFQGLQKLLAIVFTFFEALIFVL
+TGSLAPSAPQFVWVLILQLTIGGILIIFLDEVVSKWGFGSGVGLFIAAGVSQEIIVGAFN
+PLSAPTQPGVPAGRITGFLYLLFTGQSPDFQYYVLPVLALIAVFLVVVYAESMRVEIPIS
+MGGGKRLSRGAVGKYPLRFIYASNMPVILTSALLLNVQLLANVFQKLGYPILGTVSNGQA
+VDGLAYLLTAPRSIDALILDPFRVVFYAVVFIGLCVLFAWLWVEISNIGPRHVARQLYQM
+GMQIPGFRSSRGQFEKILKRYIPTITILGGAFVGLLAFVADLTGSLGGGTGVLLTVGIVY
+RLYE
+>SECY_PYRAB/72-448 Q9V1V8.1
+SILTLGIGPIVTAGIILQLLVGSEIIKLDLANPEDRRFYQALQRVFSVFMCFLEAAIWVL
+GGAFGRVGVDVTYAIAALMILQLAFGGIILIVLDELVSKWGIGSGISLFIAAGVSQRILT
+RSLNPLTDPNIIDPLTGKPAIVGAIPYFIQHILKGDLKGALYRGGTAPDMMAVIATIIVF
+LVVVYFESMRVEIPLGYRGVTIRGRYPIRFLYVSNIPIILTFALYANIQLWARVLDRLGH
+PWLGTFDPTTGNPVGGFVLYVIPPRSIFTVIDNPVRALVYLILTVISSLIFGFLWVELTG
+LDARTIARQLQRAGLQIPGFRRDPRTLERVLQKYIPYVTFWGSLTVALIAVLADFLGALG
+TGTGILLTVGILYRFYE
+>Q8TZA9_METKA/75-435 Q8TZA9.1
+SILTLGIGPIVTASILLQLLVGGDLIKLDLTNPEDRRLFQGLQKLLAIVLCFFEGVMMVF
+SGAAPPAEPSILLEILLILQLALGGILVIFLDEVVSKWGIGSGVGLFIVAGVSSQIIIGA
+FNPLPSPQQPGRPAGAVWAFLYSAMQGTPDWTLLAPVIGAIITFLIVLYVEGMRVEIPIA
+FAGIRGARGRFPVRLLYTSNIPVILASALFMNVRLWALAFQRMGVPILGKLDPRGQPISG
+LVYYLSPPNSIVKTLSDPLQALGYMMAMVIASVFFAVLWVELTGMGPREIARHLHRAGLH
+IPGFRRDIRVLEKRLQKYIYPVTVMGGAFVGFLAAGADLMGALGGGTGVLLTVSILYNMY
+E
+>Q9HIT0_THEAC/82-514 Q9HIT0.1
+SLMDLGIGPIVTASIVMQLFVGAKIFNLDLQNAEDKAIYQGVQKLLVIIMIFVEAIPQAF
+GYLVPDTKVVNSINAVFPGYGEFLAQTIIILQLFFGSYLVFLMDEVVSKYGIGSGISLFI
+AADVSEQLFIGAFNWQALNNALTYSLTNPPAGAFPKMFYIIMHSSSSYLLTNGVVQILFS
+PPNPMIAVLGTLLIFFLVAYFQSSKIELPISHERVRGARGRYPLQLLYASNIPVILATAL
+LANVSMWTLLFWSSPVLSKVPILGHNPLLGSYPTTAQATALNISATTPTGGLAYYLFSPN
+GLSDWLFPILQPSGYQNILLGHTPLQEAIHIIVFTAFMVGFSVLFAIFWIETTNMGASAV
+AKQIQASGMQIPGFRRDPRVMERVLKKYIPAITIFSGAVVGLLAAGANLIGTVGDTSGTG
+LLLAVGIIIQFYE
+>Q2QAQ7_9EURY/161-583 Q2QAQ7.1
+SIMHLGIGPIVTGSIIMQLFAGAKIIKLDLGDSDDKQLYQGVQKILVLIMIPVESIPQVY
+GFLDASPALVSDFGQGWANAIIVSQLFIGSLLVFLLDELVSKWGIGSGISLFIAAGVAQS
+TFVGTLSPLAVNPGAYGLQNPPAGTLPMIFYTLRTATFSEMVTANGFESILLGDAAHPNA
+VVALFSSVVVFLVVAYAESSKLELPLTHGKVRGHRGQYPIRLVYASNIPVILMAALLANL
+NMFTLLFWSHPTMSTVPILGSQGAWSIAPYLGSYDVGQTQATDGFAWYASMVNGVGDWLL
+PLLNQSPDPYGHSLWQVVLHVITYVTVMTLGSMMFAKFWIETTNMGAKDVAKQIENTGMQ
+IPGFRKNPKVLERILMRYIPPVTLFSGAFVGLLAAGADLLGTVGNATGTGLLLAVGIILR
+TYE
+>Q0W1W5_UNCMA/75-487 Q0W1W5.1
+SIILLGIGPIVMASIVLQLLVGAELIPLDTTDPKDQAIFQGLQKLMVFVMIVVEALPQIY
+GGFLLPDPAIAATLGVSTGIIQLLIFAQVALGGVLILYMDEIVSKWGIGSGVSLFIVAGI
+AQALVGGIFNWNPPYPGQAMGLNVDIAGLGARENLPIGIIFRWEWLLNNIGLSQLLTGEN
+LIVLLYQGEILALLATIIIFLLIVYVESTRIEIPLAHAAVRGARGKFPVKLIYASVLPMI
+LVRSLQATLEMVGLLLYRNGITFLGTFNQYNQPVDGLMFYINPINGLSDWVPQLAALNYP
+GIQLWQIALHVFTDAFILIAGGILFAIFWVETTGMGASRVARQIQKSGMQIPGFRRNEQV
+IEKVVSRYIPKVTVIGGAFVGFLTLLSSLFGILGAVSGTGMLLAVSITYQLYE
+>SECY_ARCFU/73-471 O28377.1
+SIIALGIGPIVTASIILQLLVGAGIIKLDLTNPEDRAAYQDFQRFLVFVMIAVEAIPQIA
+GGLLKPDLNLAAQLGVSPGIISFLIFIQLFIGGVLIVYMDEVVSKWGIGSGVSLFILAGI
+AQSIVVGLFNWVIPPNSAMPAGIIPRWIWIAQNYPLDQLFTGSGLAFLLIQGGILALITT
+AAIILLVVFFEGTRVEIPLAHAVARGARGRFPIKLIYASVLPMIFVRALQANVVALGQVL
+HARGVTIFGEFVNGKAVSGLMFFLQPVSSPYDWIPSLVKSQGAAFAAIPDWMIYLHLLID
+ALILVVGGIIFAWFWVETSGMDARTVASQIAKSGMQVPGFRKSPQVLERVLSRYIPKVTI
+LGGAIIGILTLVANMLGTIGNVSGTGLLLAVSIAYRFYE
+>Q8TRS4_METAC/72-470 Q8TRS4.1
+SLVLLGIGPIVTASIVLQLLVGADIIKMDLSDPKDQAFFQGAQKFLVFVMIILEALPQLL
+GGYIQPDPGLAATLNVGLGVITLLLLVQIFIGGTLILFMDEVVSKWGIGSGVGLFIVAGI
+SQQIVTGIFNWEFEEGLPVGLIPKWIYIAQNTGADYLFSGEGLMFLLVRGGILALLSTVA
+IFLLVVYVESTRIEIPLAHSAVRGARGRFPVKLIYASVLPMILVRALQANIQMVGIILAS
+RGITFLGEFSGSKPLNGIMYYLAPIHSPYDWIPSLVRESFASYGATAPAIWQIGLHVLAD
+AIMLIGGGIIFALFWIETTGMGAKPTAQKIFNSGMQIPGFRRNIGSIEKVMQRYIPKVTV
+IGGAFIGILTLVASLLGTLGSAGGTGLLLTVSIVYRLYE
+>A0B9U7_METTP/75-515 A0B9U7.1
+SLMLLGIGPIVTASIVLQLLVGAEIIKLNLRDPRDQAIFQGTQKALVFVMIVVEALPQIT
+GGYLLPDQALATSLGVSLSIISLIIFLQVCLGGVLILYMDEVVSKWGIGSGVGLFIVAGV
+SQQLVTGLFNWATGDGGLPIGIVPKWISIIRLGLIGLDEIFTAEGLKFIFVTGGLLALIS
+TVGIILLVVLVESTRIEIPLAHSRVRGARGRFPVKLVYASVLPMILVRALQANIEMLGAL
+LTAKLGTVTTAETTAEGVRIVYTGYQSWLGTFLSSAKFDAATGAPISATSPQPVSGLMYY
+LSPIHGPSDWIPSMVSQSTPGLVELGINPIAGWQIWLHLLTDTAFLIIGGIIFAIFWIET
+TGMGAKSIAAKIHASGLQIPGYRRSPVSIERLMERYIPKVTVIGGAIIGLLTVIASLLGT
+LGGAGGTGLLLAVSIMYRLYE
+>SECY_HALMA/73-468 P28542.2
+SIMQLGIGPIVTASIVLQLLGGADLLGLNTQDDPRDQILYQGLQKLLVLVMICLTGLPMV
+FAGGFLPADTAVANSLGIGTAGVQWLIFAQMFVGGVLILFMDEVISKWGVGSGIGLFIVA
+GVSQRLVGGLLTAPFLGNSEGIIYTWYLFITGERGTGPVLAADGLQTVLLQGELLGLFTT
+VLIFAVVVYAESVRVEIPLSNARVKGARGRFPVKLIYASVLPMILVRALQANIQFLGRIL
+NAQLGSMPAFLGTYANGQPTGGLFYFLAPIQSRGDWMWWLEGTAQPVWQILTRVGIDLFV
+MLVGGAVFAVFWVETTDMGPEATAKQIHNSGMQIPGFRQNVGVIEKVLERYIPQVTVIGG
+ALVGLLAVMANMLGTIGGVSGTGLLLTVSITYKLYE
+>Q2FSG8_METHJ/73-458 Q2FSG8.1
+SIVHLGIGPIVTASIVLQLLKGADLIHIDTSEIRGQIQYMGLQKLMIFIMIVVEALPMIV
+GGFLKPDPAIASALFGGNSGVLAILIFIQICIGGVLIFLMDEVVTKWGIGSGVGLFIIAG
+ISEAIINGFINWAPVNDMYPVGFFPRLFAVVLDGANFIQYFGTDLIAFITTIAIFILIVY
+VESTRVEIPLAHTQVRGARARFPVKLIYASVLPMILVRVLQANVQMIGLFLNNIGITIFG
+TFEGQTPTGGLMWYLAPINHPSDWMWWMPSYVGGHAPWEVLIRLGIDTTIMVVGGAIFAL
+FWVKTAGLDSKAVARQIQLSGMSIPGYRRNPAVLEKVLDRYIPRVTVIGGVFIGIMSVVA
+NLFGVIGAVSGTGLLLTVSITYRLYE
+>A2SPM5_METLZ/73-458 A2SPM5.1
+TILHLGIGPIVTASIVLQLLRGADLIKINTSDQRGQVLYMGLQKVLIFVMIILEALPNVL
+GGWMSADPAVSAFFGGNAGFVMLLIFLQICIGGVLVMFMDEVVSKWGIGSGVGLFIVAGV
+AQGLINGFFNWEATTDQFAVGFFPRLFQVIADGSNFIEYFGLQLLALVTTVGLFFIIVYV
+ESTRIEIPLAHANVRGARSRFPVKLVYASVLPMILVRVLQANVQMIGMFLSSIGFTALGE
+YNGSTPINGLMWYLAPINQPQDWMWWLSSFTGTGHAVWEVILRVGIDCTVMILGGALFAI
+FWVKTAGLDSKHVARQIQNSGMQIPGYRRSPAVLERYLDRYIPRVTVIGGVFIGLLSVMA
+NMLGIIGFVGGTGLLLTVSIIYRLYE
+>A0RUE4_CENSY/79-457 A0RUE4.1
+TLVELGIGPIVTAGLLMQLLRGSEILKFDFKKPEERGIFQTATKMVSYVVIVVESSIYGI
+AVYGPGIADPSVLYILIGQLMASSIIIMFLDELIQKGWGLGSGISLFIMAGVAQQILWSL
+FSPLPAGDGFAVGIFPFIGQWASVGMGNFEDIFFRYNQLPSIFGLLLTGGVLLILVYTQG
+MKIEIPIVSTKYRGFSATYPIKLMYVSNIPVILASALTANAIFIGQMFWSNFNPRNDNIF
+LNVLAQFDLTNPSTPIGGIVYYITPPRGLDIAALDPMRAVGYVLFMIGIVVVFGKLWVEL
+GGLSPKSAAKNLLDADVQIPGFRRSNQPIEVLLNKYIPSVTIIGSMILGALAGASDVLGV
+FGSGIGILLMVDILINYYN
+>A8ME75_CALMQ/77-461 A8ME75.1
+TLAQLGIGPIIIAGIIMELVAFSELMDVDLNDPKDQARFTALTKLVAVIIAMFEGAFIMS
+THQLTVANAGLAFIVWLQMLFGAVIVILLDDLISKGWGIGSGISLFILISIIRSIFQSTF
+MPVTVGAGELLGIIPALVAAVYSAAVSHTLAPLLSIVYRFNLPGLIGLIATIVLGGFIAY
+VELMEVRIPLSFVQYGGYKMSYPFKVMYVSVLPIIFTAYTVALIYNGLYFIWTTYNPHNA
+NALLNSIACIRVITTAKFGTINEPCPSSLIYYFTVVPYNITPQYVVVHILMYVVLSVVFA
+YLWVNLAGLSAEDQARTMVSSGLSIPGFRASARSLAVHLKRYVNSLTFTSGLLAGFIAAL
+GDVLGVYGTGIGLILMVEIIIQYYT
+>A3MUZ2_PYRCJ/70-435 A3MUZ2.1
+TLAHLGIGPIVIAGILMEVFAFSGVLNLDLNKREDRLKFTLMLKWAALGIAALEATAYVL
+GGQFGTVTPLGGVLIVLQLLLATVIILLLDDLMSKGWGIGSAISLIIFLGVSRQIFLSLF
+SWDTVQDSNGNTQVFGLLPALGVALYDLFTSGNANTLLGLVNRPLTVNTYLPDFVGLVAT
+ILLGYIILYLEMMKVNIPVASAQYRGIKFTIPLRFVYVSVLPIIFTTYSLLLVGQLLQPF
+AANNPALITVLNVIFLPHRYFDPLLIILNFALYVALAIAFAWIWVQLAGLSAEDQARQFT
+QSQLHVPGFRQSERVLAKILERPINALTIISGFIAGTFASLGNVLGVWGGGVGLILLVEI
+ALQYYA
+>SECY_SULSO/73-449 Q9UX84.1
+TLAQLGIGPIITAGLIMQILAGSKLISIDLNDPDDRVKFTEAQKGLAFIFILVESALFGY
+VLARTSTTINASILFIAGIVIAQLIVATYLILLLDELIQKGWGLGSGVSLFILAGVMKIM
+FWDMFGIASVSSQNLPIGFFPALFTALASHSDVLNLIVNTSTKNLFQPDLVGLVTTIALI
+IITIYLTTMTIEIPVTSQKLRGIRRTIPLNFLYVSSIPVIFVAVLGSDIQLFASLASYVS
+PSASNILNTVSGVFFFPPPNSAIPHSIYAVVLDPLGALEYAVVFIVLSILFGILWVDVAG
+LDPATQAQQLVEAGIEIPGVRNNPKIIEGILARYIYPLAFFSSIIVGLIAVFATLLGAYG
+TGIGILLAVTIAIQYYS
+>SECY_SULAC/74-443 P49978.1
+TLAQLGIGPVITSGLIMQILVGSKLINVDLTTQEGKSKFTQAEKALALIFIIVESSLFGY
+VFTRATSNILLPIIVVVQLIIASYIILLLDEMIQKGWGLGSGVSLFIMAGIMKVIFWNMF
+GIVSVQSQNLPVGFFPLLVSYITSGRNLQEIVLNTSSTTPYQPDLIGLIATVGLTILIVY
+LVNTNIYIPVTTQRLRGIRTTVPLNFLYVSSIPVIFVSVLGADIQLFASLANSISNSASG
+ILTDIANAFFFPPQGVPHSVYALVVDPVGAAIYAAVFIVLSIVFGMLWIDVAGLDPKTQA
+EQMIRSGIEIPGMRTNPRIIEGILSKYIYALGFFSSLIVGLIAVVATFLGTYGTGVGLLL
+AITIAMQYYN
+>A2BME2_HYPBU/73-444 A2BME2.1
+TLMTLGIGPIVTAGIVLEVLVGGKLIELDLTKPRDRKIFMGAQRTLALLFALLEAAAYVI
+GCRFWISAFASSPEVCPPISTAVKIIVVLQLVFATLVLMWFDEMIRNGWGIGSALSLFIV
+ASVVKGLFWQLAGSTKVATPEGQPVYYGWLAHVVSTGDLGVLRRGMPDMVGFLATIAIIM
+VLIYFQLMRVYIPVTSPRYGSIKTRIPLNFIYVTNIPILFVAIAVSDIKVFEIVIASLLG
+ADNPLVRGMDVLYNYVSPPRGLLAAVADPLRTLTFALAWLALGLLFGFIWVEIAGLSPRQ
+QAENLIKSGMELPGIRKNVKLLERILARYIYPLTVISSLLVTTMAILADVFGAYGTGSGL
+VLLVGIIYNFYQ
+>SECY_AERPE/73-434 Q9YDD0.2
+TLMELGIGPIVTASLIIQVLVGAKIIKLDLADPEGRRKFTSAQKVLALAFAALEAVAFTV
+GGRYWVGTAIEPGPLDYALVSLQLFLGALLVIYFDEVMQKGWGIGSAISLFILAGVAQGV
+VWSIFGTIPGVAQDYGLVPAIISNPDLTLLARPNGFPDLTGFFTTLAAIILLVYLQAMRV
+EIPITSERFKGIRSRVPLQFIYVTNIPILLVGILVSDLLLVQRLLADYLGVESRAYQIYS
+SIVYYLSPPRGVVQSIADPVKTAVFIASWTVLSIVFGYMWVEIAGLNPREQAERLIKGGL
+AIPGMRSDPRVLERVLRRYIYPLTFLSSLIVAALVIVADIFGAYGTGTGLLLAVGIINQY
+YA
+>A1RWR3_THEPD/75-456 A1RWR3.1
+TLIELGIGPIVTSGIVWELLVGSRIVNLDLTTPEGRRTFAGLQKLTAFLFAALEAAAYIL
+GGVYGALTQQQQIIVFVQLFVASTFVILMNDMLEKGWGIGSAVSLFIAAGVAQQIFWELF
+SPIGPLGDGLYYGLFPSLFSALVSGNSTLLMHVVVRPSGYPDLVGFVGMVVMLLLLTYME
+SMKITIPVSSVRFGGAKTRIPLKFLYVSVMPVILVGALYANVVMFTQALWPRVNPGNQNP
+WLNVIAKYNYTEYGPVPLPGSFVYYISPPRSLASALADPVHLVVYSLLYIGFAVLFGVAW
+ILTSGMDPETQAEQLAKAQLQIPGFRKSEKVIASMLKRYIWGLTILSSIIIGVIAVVSDI
+FRVMGGGTGILLLVGIIVQYYS
+>SC61A_SCHPO/76-459 P79088.1
+TLMELGISPIVTSSMLVQLLVGSQLIEVNMELKSDREMYQLVQKFLAIIIAFGQATAYVL
+TGMYGRPQDLGAGICLLLILQLAAASLIVLLLDELLQKGYGLGSGISLFIATINCENIFW
+KAFSPTTYHIANGVQFEGAVINFVYVMFTWDNKAAALYQAFFRSGLTSSQIQLPNLWNFF
+ATLLVFGVVIYLQDFRVEIPIRSQKFRGYRSTFPVKLLYTSNTPIMLQSALTSNLFFASR
+LLFNRFSSNFLVRFLGVWEQTATSGLSYYLSPPASFQDALIDPIHTLVYVFFTMFACALF
+SKLWIEVSGASPRDVAKQLKSQQLVMAGHREGSMYKELKRIIPTAAWLSGAVVGALAVAS
+DLLGALGSGTAVLLCTTTIYGYYE
+>A7E5Q2_SCLS1/76-459 A7E5Q2.1
+TLMELGITPIISSGMVFQLLAGTHLIDVNLDLKADRELYQTAQKLFAIILSMGQATVYVF
+TGLYGQPSDLGAGVVCLLILQLVVAGLIVILLDELLQKGYGLGSGISLFIATNICESIIW
+KAFSPTTINTGRGPEFEGAVIALFHLLLTWPNKQRALQEAFYRQSLPNIMNLLATIVVFA
+AVIYLQGFRVEIPVKSSRQRGARGSYPVRLFYTSNMPIMLQSALSSNIFLISQMLYSRFS
+ENLLVQLFGVWEPKEGSAQLFATSGIAYYMSPPLNFTDALLDPIHTAVYITYMLVACAIF
+SKTWIEVSGSSPRDVAKQLKDQGLVMAGHREQSMYKELKRIIPTAAAFGGACIGALSVGS
+DLLGALGSGTGILLAVTIIYGYFE
+>Q5KC69_CRYNE/75-459 Q5KC69.1
+TLMELGITPIVTSGMIMQLLAGAQLIDVDFSLKDDRALFGAAQKLFAMIISLGQATVYVL
+TGLYGSPSSLGAGVCLLLILQLVSASLIVILLDELLTKGYGLGSGISLFIATNICESIVW
+KAFSPNTVNTGRGPEFEGAIIALIHLLFTWNDKTRALKEAFYRDRLPNIMNLLATVAVFA
+AVIYLQGFRIEIPIKSSKMRGQRGTYPVKLFYTSNMPIMLQSALTSNVFLVSQMLAGRFP
+DNLLVRLLGVWEPMENNPTQLGAVSGIAYYMSAPHSLTSALKDPFHTVIYIAFIVTACAL
+FSKTWIEVSGSGPRDVAKQLKDQNMTLAGHRDASIYKELKRIIPTAAAFGGATLGLLSVV
+ADMMGALGSGTGILMATTIIYGYFE
+>SC61A_ASHGO/75-460 Q752H7.1
+TLMELGVSPIITSSMIFQFLQGTQLLQVNLESKQDRELFQIAQKVCAIVLTLGQAIVVVL
+TGNYGSVSNLGIAISLLLILQLVFASFIVLLLDELLIKGYGLGSGISLFTATNIAEQIFW
+KAFAPTTVNNGRGTEFEGAVVALFHLLSVRKDKKRALVEAFYRDYLPNMFQVLSTVFVFL
+FVLYLQGFRYELPVRSTRTRGQVGSYPIKLFYTSNTPIMLQSALTSNIFLTSQLLYQKFP
+NNPIVKMLGVWGTRSDAPYSPNAAISGLSYYIQPPFSFTEALLDPIKTVVYVTFVLGACA
+MFSRTWIDVSGTSPRDVSKQFKEQGLVINGRRETSVYRELKKVIPTAAAFGGATIGALSV
+GSDLLGTLGSGTSILMATTTIYGYYE
+>Q59MJ6_CANAL/76-459 Q59MJ6.1
+TLMELGISPIVSSGMLFQLLQGTKIIHVDMQNKNDRETFQTAQKLLAILLAVGQATVYVL
+TGMYGPPSSLGVGVCSLLILQLVFASTIVILLDELLQKGYGLGSGVSLFTATNTCEQVFW
+KAFAPTTSTSAKGTEFDGAVVAMFHLLGSRKDKKRALIESFYRPNLPNMFQLLATLLVFF
+AVVYLQGFRIELPMKSTRQRGPYGSYPIRLFYTSNIPIMLESALASNIFIISQLLFMRWP
+NNLFVKLLGTWDARAGSSQLYANGGLAYYIQPPFNFTDALLDPIKTTIYIAFVLGSCAVF
+STTWIEISGTSPRDVAKQFKEQGLVIAGHRDTSAYKELKKIIPIAAAFGGATIGALSVVC
+DLMGTLGSGTSILLAVTTIYGYYE
+>A7SJW4_NEMVE/75-458 A7SJW4.1
+TLMELGISPIVTSGLIMQLLAGSKIIEVGDTPKDRALFNGAQKLFGIIITIGQAVVYVMT
+GMYGDPSDLGPGICLLIIIQLFCAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK
+AFSPATINTGRGTEFEGAVIALFHLLATRTDKVRGLREAFYRQNLPNLTNLIATIFVFGI
+VIYFQGFRVDLPIKSARYRGQYSSYPIKLFYTSNIPIILQSALVSNIYVISQMMSAKFAG
+NFFVNLLGTWEEAGGGPARSYPVGGLCYYMSPPETVSHIIEDPVHACIYIFFMLGSCAFF
+SKTWIDVSGSSAKDVAKQLKDQQMVMRGHRDKSMVHELNRYIPTAAAFGGLCIGALSVLA
+DFLGAIGSGTGILLAVTIIYQYFE
+>A0CFY2_PARTE/73-456 A0CFY2.1
+TLMELGISPIVTSGMILQFLSGVGFIEVNHSVREDKVLFNAAQKLLSFIMAIAEGMAYIW
+SGAYGDINQIGAGNAILILLQLTFAGVIVTMLDEMLQKGYGLGSGISLFIATNVSENILW
+KSFSPITLSTEAGTQFEGAIINFFHLLFTKQNTLQALYYAFFRESAPNLNNLLATLFVIS
+LVIYLQGFRVEVPLASQKIRGLVSSHGIKLFYTSNIPMIIQSTLVQNVYFLSQLLYRRFK
+TNFFVKLLGTWQEAEFGGQSVPIGGLAYYMSPLRDVKDIINDPIHAVVYVLFVVFMCGFF
+AKFWIQISGESAKDVARKFKDEQIKIKGLREESMVKYLSGYIPVAAFCGGVCIGLLTIVA
+DILGAIGSGTGILLAVTIIYGYFE
+>Q22MG2_TETTH/151-538 Q22MG2.2
+TIMELGISPTVTAGMVMQLLVGAQILNIDQNDPVQRSLYEGSQKLLGLIIAFFEAVAYVW
+SGMYGDIEKVGYGNALLIVLQLTFAGIIVILLDDLLSKGHGLGNSAISVFIAINICETII
+WKSFSPITYPIPGFEKEQYEGAILNLFHSLFAIDNKFVALQNAFYRSHLPNLASLISTAL
+IFIVVVYFQGFKVDIALKNDRVRGAIQSYPIKLFYTSNMPIILQSALISNLYFFSQILYR
+NFNGNFIVGLLGKWSIPEAGGSHMVPVGGLVYYLSPPHGMIEVISDPLHTILYVVFILTT
+CALFSKTWIQVSGSSVKDVAKQLKEQGMGLVGSRDSGLKSHLKRYIPIAATFGGLCIGAL
+SVVADFIGVIGSGTGILLAVNIVYGYFE
+>A0CU87_PARTE/77-460 A0CU87.1
+TLMELGISPMVTASMIMQLLAGAKLIDVDQNVKEDKQLYSGAQKLLGILIAFGEAFAYVW
+SGMYGDLDKLGAGNAILIIIQLVFSAIVMIMIDELLSKGYGIGNSGTSLFIAINICENIM
+WKAFSPITHKTELGLEYEGAIIALLHGLFVQSDKISALQSAILRDSLPNLTNLLATVLVF
+LIVIYFQGFKVDIPIKNNKVRGGLTSYPIKLFYTSNIPIILQTALVSNLYFLSQILYRNF
+KGNFLIRLLGYYQELENGQTVPIGGLVYYVSPPRSISEAIFDPIHTILYTAFILGTCAVF
+SKTWIDVSGSSPKDVAKQLKEQDMQIVGYRDSSMKDVLKRYIPIAASFGGMCIGALTILA
+DFLGAIGSGTGILLSVTIIYGYFE
+>Q7RLN0_PLAYO/121-506 Q7RLN0.1
+TLMELGISPIVTSGMVMQLLAGSKIIDVDQSLKEDRTLFQGAQKLLGLLITLGEAIAYVV
+SGIYGNLSEIGTGHAILIILQLFFAGVVVILLDELLQKGYGLGSGISLFIATNICETIMW
+KSFSPTTINTDKGIEFEGAIISLIYCLFTEFNKISALKKSFYRTHAPNVTNLLATILVFL
+IVIYLQGFRVDLSVKYQTVRGQQGTYPIKLFYTSNIPIILQTALVSNLYFFSQILYKRFS
+NSILVNILGQWQEIESNGTAVPIGGIAYYISPPNSFADITNDPFHTLIYISFVLVSCAFF
+SKTWIEVSGSSAKDVAKQLRDQHIGMRGHRDTPTSLTRVFNRYIPTAAAFGGMCIGALTI
+LADFLGALGSGTGILLAVTIIYQFYE
+>Q4QGX4_LEIMA/77-467 Q4QGX4.1
+TLMELGISPIVSASLILELLAGVRILTYDQNNREERAVFEGFQKMMGLVITAVEAVAYVS
+SGMYGDPSRIGVVMCGLIVLQLMVATMICILLDELLQKGWGIGSGTSLFIATNVCDTIIW
+KAFSPSTINTGRGAEFEGAIIAFFHLLVSRTDKVRALREAFYRPQLPNLTNIFSTAVVFA
+VVVFFQGFRVPLMTKSKFNGNDRQPYMIKLFYTSNMPIILQTSVVSNISFFSQILSRRFG
+NRNFLINLLGRWEERGYNGGGSGQLFPVGGLAYYLVPPATFYDLLADPIHAIFYVVFVLT
+SCAVFSRLWITISHTAPRDVAKQLASQGRWLVQARESEDDMTRLLEKYIPVAASFGGLCV
+GALTIFADFLGAIGSGTGILLSVTMINQYYE
+>A5JEK2_NOSBO/75-457 A5JEK2.1
+TLMDLGISPVVTASMIMQFLGMLELVKVDYNVKEDKILHGAANRLISLIMTVGSAIVQVL
+TGFYGDPKALGWTYCILLMVQLIFSGVIIILLDELLQKGYGLGNGVNLFIASNVCESIMW
+RAFSPKVFFTGRGIEFEGSLIAFFHLLIVRKNKFAALYEAFFRQNLPNMFSLVSTVVLFA
+FVIYLQGLRVELKTESTQVRGQTGMYPVKLLYSSTMPIIVQSYVISHICTISRFLYKRFP
+TYFLVRALGVWSSEGSSKYQPIKGLCYYILPPESIFDFKLRPFYFLFYVLFTIISCSMLS
+RAWVEVSDNTPTQVASQMKKNKMTLKGVREVNCASVLSKYIPTAALLGGCFTSLVVLISN
+LFDTIGSGTNIFLATSIVHQYLE
+>A2DH65_TRIVA/75-462 A2DH65.1
+SLMEFGISPIVTSGMILQFLCSFGLINRNPSDPEASALFDAAQKLAGIIMTAFQAGNAIW
+SGEYGIRGEIGFVNAALIMTQLVSSAIVVILLDELCQNGYGIGSGISLFICTNICEMIMW
+RLFSFNHYSMGRGTEYEGLVIAFFHYLFTRKNKLRALRDIVFRPQLPNLCQLFSTVIVFG
+ACVYFDQIKINIGLETTVNRARPEPFEIKLFYCSNTPPIIQSTILSQLAGFSRTIYFHWP
+ESLATQIFGVWRSHNGMSYDYSTPVSGLIYYLTAPQSIQQTIHDPLHTIIYLIFSLSSAG
+FISYYYLRFSNQAPADVAEALKKQHLTLKGHREDQKRLEKTLSRYIPTAAALGGILVALL
+SFVADFLSAFGSGTGIILAVSIINQFTA
+>Q2QM98_ORYSJ/88-448 Q2QM98.2
+TVMELGVAPVVTSWVVVRLLAALLFDSDSSTTVASCELLARCLAYVTNASRLVIGIAAAL
+GMCGSGGAGNAALVVLQLFAGGVVVVLADLLHETGYGVEGVSAASLLIATNACERAVSHL
+FSPVKLRLAGAGPEFEGPVFAVTHRVAAAPPSWRHKAGALLFTLLRLDLPNLSNYMTTCV
+MFVLAVRLDETHLRRLYRSRPRRGTDEFVPIKLLYTSAMPIMLHASAVSAFCVDAGGGAA
+YPVGGLVYYVTPPSKLLVDPGLIHELLIHSVFVVASCTLLSMAWAEASRSSAREFRTRVI
+GTGYFVWDETSRRIDRVIAAAAAVGGFAVGGLAVYAGAVGAIGEAGPELLFAVLVIKNLA
+E
+>Q6AV46_ORYSJ/86-471 Q6AV46.1
+TVMELGITPVVTAGTLVQLLVGSNLVRADSSNPDDRALLSAAQKLLSIVITAGEATAYVL
+SGAYGSVGVLGAGNAVLVVLQLVLGGMVAIFLDELLQKGYGFGSGISLFTAANTCEGVVT
+RALSPATMDRGRGAEFVGAVTAAAHLLATRARKLSAVREAFFRGGGGGSLPDLRGLAATC
+AVFLAAVYLQGVRVALPVRPRNAPRSHRGGAYSVRLLYTSGMPVVLLSSAVSSLYVVSQA
+LYRRFGGSLLVDLLGKWTPDAAVPVGGIAYYVTAPASAASAAANPLHAAMYVAFVLAACA
+ALSRAWVVVSGSSSRDVARRLREQQMVMPGMREASMQRELERYIPAAAALGGVCVGALTV
+AADLMGAVGSGAGMLLAVTTVYQCYE
+>Q6C854_YARLI/70-454 Q6C854.2
+TLMELGVGPMVTSGIIFQILGGFQALNVNFDIRADRELFQSGQKIFALLLTFFHAIFLVF
+FAQTYGTISTDSAVSELSLGAAVLIVAQLTAAGLVLILLGEIVDKGYSFGSGSGLFTALS
+VSQNFMWQNLALLKVHQEFVGSIPALLMGLWKNGLFNFGGSYRYVIENSFFRQNLPNLLQ
+LYMSVAVFMLTIYLNTFRVDIPIKSSRVRSLATAFPVKLLYTGSMCLFLLSAFSQNVLIY
+SQSLYVQFPDNLMVQVLGSWGADGSPVGGIAYYISPNNFGYDVIKMVLYSVYTIVGCTLF
+SKYWAEISGSAPKDVAKQFQAQSIVIVGQRAQSAPRELAKVIPVAAAVGGAVVGAIVAFC
+DIFGGLGASAAPMIVAVTSMNNYFE
+>SSH1_YEAST/78-465 P38353.1
+TLLEFGLFPNISSGLILQLLAGLKVIKVNFKIQSDRELFQSLTKVFAIVQYVILTNIFIF
+AGYFGDDLSVVQIGLINFQLVGAGIFTTLLAEVIDKGFGFSSGAMIINTVVIATNLVADT
+FGVSQIKVGEDDQTEAQGALINLIQGLRSKHKTFIGGIISAFNRDYLPNLTTTIIVLAIA
+IIVCYLQSVRVELPIRSTRARGTNNVYPIKLLYTGCLSVLFSYTILFYIHIFAFVLIQLV
+AKNEPTHIICKIMGHYENANNLLAVPTFPLSLLAPPTSFFKGVTQQPLTFITYSAFILVT
+GIWFADKWQAISGSSARDVALEFKDQGITLMGRREQNVAKELNKVIPIAAVTGASVLSLI
+TVIGESLGLKGKAAGIVVGIAGGFSLLE
+>Q6BT20_DEBHA/78-475 Q6BT20.2
+TLLELGLLPVLTSAFIWQLSAGFRFINVNLNLRSDRELYQSGQKLTSFIFAIVYGAGYIF
+SGYYNNVIKGYNPFNGDSVPVTTLVLIFLQIVTMSFVTTLMVEIFDKGYCFGSGVLCFVA
+LQVATNLIRDVVGLELVSLPNSNKFESYGAAMNFIKNFRINFKSLNYNVLNSFTRSQLPN
+LSQFYIVLVTVLVLIGVQNYRIELPIRSTKVRGMNNVYPIRLFYTGALPILFAFTVLTNL
+QVFGYFTSTLLNNYSQLAASIIGTWSLDTKSFNLNLTSGILYFLTPSKSLAQSLLSPIRS
+VTYGLAIITLSTWFAYRWSRISGSSPKDISKQFKEQGISISGKRDISITKELSRVIPVAS
+VSGAFVLAALAIAGELLGGLGKGVAAIIGVCGAFGILE
+>A5DE75_PICGU/20-414 A5DE75.1
+TLLELGLLPVMTSAFLWQLAAGLRLVKVNLSLRSERELFQTGQKLTSFILGIVYTAGLIA
+SGYFAPALRNQTGFEDSFPVTTYVFIFLQVFVMSAVMTLLVEVFDKGYGFGSGILCFIAL
+QAASDLVKNIIGLEVVKLANSNKFESVGALMNLIRSFSFKTLGKNIYNSFNREHLPNLTQ
+VYITIVTLLVVVALQNFRIELPIRSTRARGMNNVFPIRLLYTGALPLAFAYTVLTNLQVL
+GYIASQLLESYSPVASSVIGKWTIDYRSSNLKVSSGILYFLSPPTSILNTLVSPLKTAAF
+TFVVIVLSAWFANIWSSISGSSPKDISKQFKEQGISIAGKRDISITKELSRVIPVASVSG
+ATVLGLIAVAGEVLGGAGKGVGTIIGVSAAFGVLE
+>A3GFV9_PICST/78-476 A3GFV9.2
+TLFELGVLPVVTAAFFWQLAVGLKLVNVNLGLRSDRELFQTGQKLTSFVLAIVYGVGLIY
+SGYYDNAIRGYDPLSDSTPYGWYGLILFQFLSWSFIITLIVEVFDKGYAFGSGALSFLAL
+QTATNLIAELVGLEIFPINNSNKFESYGALINFTRNFSFDISKIGTNVYNSFTRLQLPNF
+TSFYITVATTLAVVYLQNLRIELPIRSTRARGMNNVFPIRLLYTGALPVLFAYTVIANIQ
+YFGYLAYVVLQKANVSSFALSIIASFNLDSYSNRLNLTSGALYFFSSSPSLLSTILSPIR
+TVVYSATVIVLATWFAEKWSYISGSAPKDISKQFKDQGISISGKRDISITKELSRVIPVA
+AVSGGFILAAIAVAGDLLGGLGKSAATIVGVSAAFSVLE
+>A5DWJ5_LODEL/34-436 A5DWJ5.1
+SLLELGFLPIITSAFLWQLAAGLKLININLGLRYDRELFQLGQKLTAWGLALIFSVGLIY
+SGYYDNVIRGYKVVGGSGGVPIWSYLIIFTQIFTWQIVLTLIVEIFDKGYGFGSGILSFL
+ALQNATSFIAELVGLEMFPVVNNTLKFESLGALLNLVRNFSIFSPTTTINQIWHAFTRVQ
+LPNLTQFYITLATILAVVLLQNFRTEISIRSTKVRGMNQMFPIRLLYTGGLPVLFAYTVI
+ANLQVFGFIFEAALVKLTASPIVSTLFANYVVEPYSNRLVIKSGVLYFFTASQTLLQSII
+SPLRVVIYSSTVVGLATWFAYKWSYIAGSSPKDISKQFKEQGISIAGKRDISITKEFAKI
+IPTAAVTGAFILSALAVTGDYLGGLGRNVASIVGVSSAFGILE
+>Q5A2C9_CANAL/5-404 Q5A2C9.1
+TLLELGLLPIITSAFIWQIAAGLRLINVNFKLRIDRELFQTGQKLTSFIFSLIFAIGLIY
+SGYYDNAIRGYNPLQDGIPYGSYALILLQITAWSWIVTLLVEIFDKGYSFGSGILCFLAI
+QSSTNFIANLLGLENFPVVNSNKFESYGALMNLIKNFSIFNPKQTVYQIWHSFFRIQLPN
+LTQFYISLASILIVVALQNFRIELPIRSTKVRGMNNVFPIRLLYTGGLPVLFAFTVVANI
+QVVGYLIHSVLSKLGTSPIVISIIGNYVYNPSSNELDLNSGILNYFTSSSSLVESIISPI
+KTTVYSITIIVLAVWFANKWSYISGSSPKDISKQFKDQGISLAGKRDISITKELSRVIPV
+ASVSGAFILSVVALIGDFFGGLGYGVASIIGVTASFAVLE
+>Q74L41_LACJO/64-372 Q74L41.1
+SIFSIGLNPLMFSMLIIQLLSFTHSFGFDALSPKQVQYLMQFLTMIITIIQAALLVFAFT
+NRRNGLEDFEMILILSAGSCLVVWLCYRNMKYGVGASAPVILTSILNGAIPNIISNVKLL
+LTMKYAWIWLAALAIFILLLIKFWLAFTKAYYPLKVVNPSLPASSNLMTVPLGLNMAAMM
+MYMVGMAILTLPLMVGRYFSSSSLINNWVFQASFSAVMGILIFYFFTFVNFDPKEQAKSF
+RNNHYYIPNIAPGRPTQRYLNRLIWIIAFPGAVLNAFQLVFGLYGGNFLGNYAGFAIIPM
+NVVMITMFM
+>B3XPQ8_LACRE/65-377 B3XPQ8.1
+SLFMVGLNPLMIAMLIIQLLTMLRLFYFDTLSMNQLMKIQQWLTLGFAIIQSTAVTLGLK
+ITTGTLDSLAVILMLTAGSMFVVWLGNMNMKFGIGGTITLILFNIISGSIPTLLRSIKML
+AKQSYGPLWLFLAAIAGCIVLVFWVSFNRAYYPLKMINTSMSSHDRPIILPIGLNMGAMM
+TYMVGMSLLMVPTLLANVLGPGSLFANPYFNMVVSGILAFVLFYFFTFVQFDPKAQAKAM
+LQGNNYILGVRPGEPTRKYLRQILLHVSFLGALLNAIQLSFGLLGGQVLGNFAGLAIIPM
+NMIMIVMFMQGIK
+>A1C3L4_STRPA/70-403 A1C3L4.1
+TLFSLGIGPTMTMMILWRFLITFKLIGSWTSNKVNRLQFLLTLAIALLQSFGITNDSKFL
+LIFGYSHSTLRIITIILLTTGTFILNWLCKINSERGIGGMTVVILVNMILTFQSNIIRYF
+SVQQFKFSSLIQYGLVFFVALSILIWFNILLYKGEYRIPIQRVGLNTPYHASSYLPIRVT
+PAGAMPFMYGMTLMMLPPYIFVVLLHIFPGNQILEYLSVHIGLSQLPGVICYIFLLYFLS
+IGFAYYNYDPYEISKNMRNNGDYISGKKPGEETIKYIQYVVNSFAQFGAFTVIIFGGLPM
+LAVLLQGQGKNSVSIALLISNAYIIVSLLLGVIE
+>Q3DVD6_STRAG/65-395 Q3DVD6.1
+GVFSLGIGPMMTTMILLRLFTIGKYSSGVSQKVQQFRQNVVMLVIAIIQGLAITISFQYH
+NGFSLTKLLLATMILVTGAYIISWIGNLNAEYGFGGMTILVVVGMLVGQFNNIPLIFELF
+QDGYQLAIILFLLWTLVAMYLMITFERSEYRIPVMRTSIHNRLVDDAYMPIKVNASGGMA
+FMYVYTLLMFPQYIIILLRSIFPTNPDITSYNDYFSLSSIQGVVIYMILMLVLSVAFTFV
+NIDPTKISEAMRESGDFIPNYRPGKETQSYLSKICYLFGTFSGFFMAFLGGVPLLFALGN
+DDLRTVSSMTGIFMMITGMSFMILDEFQVIR
+>A5LN99_STRPN/64-389 A5LN99.1
+SIFSVGLSPWMSAMILWQMFSFSKRLGLTSTSIEIQDRRKMYLTLMIAVIQSLAVSLRLP
+VQSSYSAILVVLMNTILLIAGTFFLVWLSDLNASMGIGGSIVILLSSMVLNIPQDVLETF
+QTVHIPTGIIVLLALLTLVFSYLLALMYRARYLVPVNKIGLHNRFKRYSYLEIMLNPAGG
+MPYMYVMSFLSVPAYLFILLGFIFPNHSGLAALSKEFMIGKPLWVYVYISVLFLFSIIFA
+FVTMNGEEIADRMKKSGEYIYGIYPGADTSLFINRLVLRFSVIGGLFNVVMAGGPMLFVL
+FDEKLLRLAMIPGLFMMFGGMIFTIR
+>A3CM55_STRSV/64-391 A3CM55.1
+SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRMLLTLVIALIQSVALVLNLP
+LQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASMIAYIPQDIWN
+SIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPA
+GGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWFILYLLTIFILALA
+FAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLILISGLPMMV
+VLVDIRYLRLSMIPGIFMIFIGMVFSIK
+>Q03HZ8_PEDPA/65-396 Q03HZ8.1
+SLFSVGLGPYMTGMILFQAIQLLDIDELNKINDYKRGMIQRWISFVIALLQTLQFIYTIR
+EHINFSGIKVWGIDYNLIVAFFVLVAGAMIVAWMSDMITKYGIGGSGVLILPGMIDSIPR
+VLLYGQGLGSGAVFFTPKLWLVLIISVAVVVIFTIFINKAELRIPLQRPFVQNDFSESYL
+PIRVLAAGSMPFMFTTTVFMIPSYIGSFVPEGEFNRFVQNYVAFDNPVGILIYCSIIVFL
+GYVFSFMNFQTERLTKNLKKSGDYIFNVVPGTATRHYLNQRLFHLSTVANIFFLIIVGTP
+LIVGLYLPEITNFAFVFANILILITIIDTTMD
+>A5IW80_STAA9/64-384 A5IW80.1
+NIFTLGLVPWLTSMIILMLISYRNMDKYMKQTSLEKHYKERILTLILSVIQSYFVIHEYV
+SKERVHQDNIYLTILILVTGTMLLVWLADKNSRYGIAGPMPIVMVSIIKSMMHQKMEYID
+ASHIVIALLIILVIITLFILLFIELVEVRIPYIDLMNVSATNMKSYLSWKVNPAGSITLM
+MSISAFVFLKSGIHFILSMFNKSISDDMPMLTFDSPVGISVYLVIQMLLGYFLSRFLINT
+KQKSKDFLKSGNYFSGVKPGKDTERYLNYQARRVCWFGSALVTVIIGIPLYFTLFVPHLS
+TEIYFSVQLIVLVYISINIAE
+>Q4L9N9_STAHJ/61-383 Q4L9N9.1
+NVFSLGLGPWLTSLVIIMLLNYRNLDQATKQTRSEKHYKERIITIVFAIFQSYFVISTYI
+HNNFIKDSNIILLMLILVAGTMLLVWLADQNITYGICGPMPIVLTSLIKSLFNNQHFFKL
+SVSVLLLILVIVTLVIALLILLFIELSEYRLNYKDIMNNSTNKTPTYLAWKLNPAGSISI
+MISLSVYVLLNNMINLIATLLGSNANFEFLSFANPIGIMFYIVLQIVLSYLLSRFLINTK
+KKADEFLKNGNYFDPIRPGRETERYLNSKARRVCWTGAILVALILAVPLYSTLLVPNLST
+EIYFSMQLIILVYISINIGETIR
+>Q5HKR3_STAEQ/61-380 Q5HKR3.1
+NIFSLGLGPWLSSMIILTLINHKSNDKVKTQTRRERHFKERALTLIISAAQGFYIIHSYI
+NKHAIKDSNMLILLLVLITGTLLMVWLADQNTTYGISGPMPIVLMSLVKSIFNTHFPKLN
+SSASLITMIIVLLVLALFILFFIELTEYRIEYNDIMNISAKDIPSYLSWKLNPAGSISIM
+VSLSLFMLTNNIVNFIGRFIVNHNFETHVFNFTNPVGITIYLLLQMILGYFLSRLLINTK
+RKSKEFLKNGNYFEGIQPGQQTEKFLGSKARRICWFGSIVVAIVLAIPMYSALLVPHLLK
+EVYFTTQMIVFVYIGINIAE
+>Q9RSK8_DEIRA/68-413 Q9RSK8.1
+SIFALGVLPYITASIVIQLLTTTIPSLEKLSKEGEEGRKKINQYTRYAAIALGAVQALFF
+SLYITSNPSFIAVGWDPGLFTVLVMVLTQVAGIAFTMWIGERITEVGIGNGISLIITAGI
+IAVYPREIAATAQLLRSEQTTLLSILAFIAVILVTIAGIVYIYQAERRVPVTYARARGGA
+AGQARGAGQATWLPIKVNQAGVIPVIFASAMLIIPNLIASATATRAPEVNAWINSNLTFG
+QPLYLALESLLIFGFTYLYNSVQFDPKRIAEQLREAGGFIPGVRPGGPTADFLGRISGRL
+SLWGAIFLVILTILPQLVQKATGITTFQFSGTGLLIIVGVALETLK
+>Q5SHQ8_THET8/71-413 Q5SHQ8.1
+SIFALGIMPYITAAIIMQILVTVVPALEKLSKEGEEGRRIINQYTRIGGIALGAFQGFFL
+ATAFLGAEGGRFLLPGWSPGPFFWFVVVVTQVAGIALLLWMAERITEYGIGNGTSLIIFA
+GIVVEWLPQILRTIGLIRTGEVNLVAFLFFLAFIVLAFAGMAAVQQAERRIPVQYARKVV
+GRRVYGGQATYIPIKLNAAGVIPIIFAAAILQIPIFLAAPFQDNPVLQGIANFFNPTRPS
+GLFIEVLLVILFTYVYTAVQFDPKRIAESLREYGGFIPGIRPGEPTVKFLEHIVSRLTLW
+GALFLGLVTLLPQIIQNLTGIHSIAFSGIGLLIVVGVALDTLR
+>SECY_CORGL/73-424 P38376.1
+SIFAIGIMPYITASIIVQLLTVVIPHFEELKKEGQSGQAKMMQYTRYLTVALALLQSSGI
+VALADREQLLGAGIRVLSADRNFFDLIVLVITMTAGAVLVMWMGELITEKGVGNGMSLLI
+FAGIATRLPTDGMNILGNSGGVVFAVVLASVLILVIGVVFVEQGQRRIPVQYAKRMVGRR
+QYGGSSTYLPLKVNQAGVIPVIFASSLIYMPVLITQIVNSGSLEVSDNWWQRNIIAHLQT
+PSSWQYIVLYFALTIFFSYFYVSVQYDPAEQAENMKKYGGFIPGIRPGRPTAEYLGFVMN
+RLLFVGSLYLAVIAVLPNIMLDLGVDAGSAGATPFGGTAILILVSVALTTVK
+>A8LB12_FRASN/74-414 A8LB12.1
+SVFALGIMPYITSSIIIQLLVVVIPRLEQLKKEGSSGEQKLTQYTRYLTVALGILQATGI
+VALARSGRLFPGCSAQIIPDTSLFRIVTIVITMTAGTAVIMWMGELITARGVGNGMSLLI
+FTSIAAALPSQGGRILQVAGGVVFGLVILLGLAIVVFVVFVEQSQRRIPVQYAKRLIGRR
+MYGGTSTYLPIKVNQAGIIPVIFASSLLQLPQLVGQVWSNQTFQDFEQRYLSRGDHPLYL
+VAYGALIIFFTYFYVAITFNPTEVADNMRKYGGFIPGIRPGRPTAEYLDHVLSRITLPGS
+LFLGVITVLPLALLNLTKDQPFPFAGTSVLIMVGVGLETVK
+>Q83NQ1_TROW8/73-424 Q83NQ1.1
+SVFALGVMPYITSSIIIQLLRVVVPRFEQLYKQGQEGQAKLIQYTRYLTIGLAVLQSTTL
+ITVARSGALFAASNSPACSSLLTDDSWYSTIIIVIVMTAGTGLIMWLGELITERGIGNGM
+SILIFTSIAAGFPGVLVGVYQTRGFGMFSTVVITSLVVMVGVVFVEQSQRRVPVQYAKRV
+VGRRILGGGSTYLPIKLNMAGVVPVIFASAILRVPSIIAQFSQPAPGQPPAAWVVWINEN
+FTTGNSPFYIALYFFMIVGFTYFYVAVTFNPTEIADNMKNYGGFISGIRPGVPTANYLSY
+IIKRITLPGSLYLGIVSLIPLIAFALFGLSADIPLGGTSVLIMVGVGLDTVK
+>Q8G3Z9_BIFLO/74-421 Q8G3Z9.1
+SIFALGVMPYITASIVVQLLRVVIPRFEALHKEGQSGEAKLTQYTRYLTIGLAVLQSTTI
+LVTARSGALFNYQCDQVIPDGSVFNLVVMVLIMTGGTGLIMWMAELVTDKGIGQGMSILI
+FMSICSGFLPQLWEIGYGTNGTDGDWLKFGIVVGVLVVILIFVDFVELCQRRVPVQYTRR
+MIGRKMYGGSSTYLPLKINMSGVIPPIFASSILAIPTLIAQFGKSDQSWVKWINANLANT
+TSVWYIALYALMIVFFCFFYTSITFNPDETADNMKQYGGFIPGIRAGNATSRYLTYVMNR
+LNTVGAVYLLFVALIPTVLIMALGLNAKLPFGGTTILIIAGVGLDTLR
+>A7B9M4_9ACTO/72-414 A7B9M4.1
+SIFALGIMPYITASIIIQLLRVVIPRFDDLHKEGQTGQAKLTQYTRYLTIFLGILQATTT
+ISLARSGQLFQSCNHDIIKDRSVMTFIMMIIVMMAGTGVIMWLGELITERGIGNGMSLLI
+FTSIAARLPEQLLSIGQAGKWGSVAAIVALLLLVAIAVVYVEQAQRRIPVQYAKRMIGRR
+QYGGTTTYIPLKINMSGVIPVIFASSILALPPMAAQFGSPNDKWVQWISAHFTQGSSFYL
+TIYALMTLFFTFFYTAITFNPDEVADNMKKYGGFIPGYRAGRPTAEYLRYVINRITSAGA
+LYLVIIALLPSLAIIPLQLSSSQMPFGGTTLLIIIGVGLQTVK
+>SECY_CHLTR/73-433 P28539.3
+TVIALGVVPYISASIIVQLLVVFMPTLQREMRESPDQGKRKLGRMTRLFTLVLACVQSLL
+FAKFALRMNLVVPGIVLPAMLSLKLFGVPWVFYLTTVVVMITGTLLLMWVGEQISDKGIG
+NGISLIITLGILASFPSVLGSIFNKLNLGSQDPSEFGIVSLLILCAVFVFVLMATVLIIE
+GMRKIPVQHARRIIGRREVVGGGSYLPLKVNYAGVIPVIFASSLLMFPATIGQFLSSESS
+WLKRIATMLSPGSVAYSIFYVLLIIFFTYFWTATQFRPEQIASEMKKNGAFIPGIRQGKP
+TQTYLEYTMNRVTLLGAVFLAVVAILPSILGRILRVDANVSYFLGGTAMLIVVGVILDTM
+K
+>Q1AU49_RUBXD/70-408 Q1AU49.1
+SVFALGIMPYITAAIVMQLMTVAIPRLQELAREGEVGQQKITQYTRVFTLALSFIQSVAM
+VLFLRSGQFGPVLAGAGALDLFLVVVTLTTGVMVTMWFGELITQRGLGNGISLIITASIL
+SQAPNAVRTLIEDGSVLTMVILGIIAVMIVAAIVFVNEGQRRIPITYAKRQVGRRMSQGG
+TTYLPLKVNMAGVIPIIFASSLLIFPVVITQFAAGGDQSSWLFRLAQIFAPPSAPYLILY
+ALLIVMFTYFYTAVQFNPIEHADNLKKSGGYIPGIRPGQPTALYLNSVLTRITLFGAVFL
+AVIAVLPYLITGALNLPNSIYLGGTSMLIVVGVSLDTVR
+>Q8RIH6_FUSNN/75-411 Q8RIH6.1
+SIFSLGIIPYINASIVVSLLVSIIPQLEEIQKEGESGRNRITQWTRYLTIALAIIQGTGV
+CLWLQSVGLIYNPGISFFVRTITTLTAGTVFLMWVGEQISIKGIGNGVSLIIFLNVISRA
+PSSVIQTIQTMQGNKFLIPLLVLVAFLGTVTIAGIVLFQLGQRKIPIHYVGKGFSSKGGI
+GEKSFIPLRLNTAGVMPVIFASVFMLIPGVIVNALPSTLSIKTTLSIIFGQNHPVYMILY
+ALVIMFFSFFYTALVFDPEKVAENLKQGGGTIPGIRPGEETVEYLEGVASRITWGGGIFL
+AIISILPYVIFTSMGLPVYFGGTGIIIVVGVALDTIQ
+>A6DRC9_9BACT/79-428 A6DRC9.1
+GVLGIMPYITASIIMQLMTPVFPNLEKLQKDGSHGRQKLNQYTRYMTIVICAVQSAMMAV
+AMHTPSKLLGVPGFEDLVINKGSAFVIQTTIIVTASAILIMWLGEQITDKGLGNGASIII
+TINVLSSMPQAFAAVYSKYQEGEWNLVQILVVVGILFIVTAATVALVQGMRKIPLKYARD
+ASSRNAMIEKTSYLPLKVNHAGVMPIIFASALMMFPPMIINKIGGDFARTVAPYFDFGST
+SYLIIQGVMILVFTFFWVATQFNPIQIADDLNRSGAFVPGHRPGEPTSTFLNDTMTRITV
+AGAIFLVILALLPYVLMNAMGSGSTDFIITQFFGGTSLLIMVGVVLQTMQ
+>C0ACZ0_9BACT/94-454 C0ACZ0.1
+AVCALGIMPYISASIIFQLMTAVVPSLARLQQEGDVGRQKLSQYTRYATVLICLIQGALL
+ILALENPTQLFGEGYDIARYGEIVLVDRTWFLISSVIFMTAGTMLLTWLGEQITQRGIGN
+GISLLITIGIISDLPGAMGTLWTLLRAPVGTQGISMISLTFMVILFFAVTMGIIMVVQGQ
+RKIPVQYAKRVVGNKVMGGQNSFLPLKVNYSGVMPVIFASAILLFPQQIFRYLGAAFNLP
+FLIEFSNNLMRGHWVYYVTMTLLILFFSYFWVSVMFKPIQIAEDLKKYGGYIPGVRPGEP
+TAKFLDFVMTRITLAGAIFLTIIAVFPDFLNAELNVPQRISSFFGGTGMLITVGVILDTM
+K
+>Q1Q157_9BACT/75-434 Q1Q157.1
+AIFGLGVMPYISASIIFQLLVGVVPYLERLQKEGEVGRKKINQYTRIATVGLCLFQAFVM
+TRTLYTVEFNGVPVIPVYLQGVSFQLMAAILLTTGTMILMWIGEQIEEHGIGSGISIVIM
+VGIIERLPWAFNQIVQNFTFSVAPAEHQIGIVKLLILLGMFFAIVGGVVYITQGQRRIPI
+QQAKHTRGRRVYGGQRHFLPLRVNQAGVMPIIFAQSLLIFPAAIMQGIQIRFEPGSVGYW
+ITSRLSGILQEGVLYVMLYILLITFFCYFWTAIQFNPREMSNNMKDYGSFIPGIRPGHRT
+AEYLESIMGKITLAGAAFLSLIAILPKLVAGGFELNRAIAGFYGGTGLLIIVGVALDMVQ
+>A6CGP8_9PLAN/77-435 A6CGP8.1
+TIFGLGIMPYISASIIFQLMGTVYPPLERLQKEGEAGRKKINEYTRYATVVICLVQSFFW
+IRTLAGGFGSGTSLILDGYQGLYFQIVATITMTTGTVFLMWIGEQIDAYGIGNGISLLIM
+AGILARMPQAGWSLIEPAFEKGIALGTDTGIDRLLILALVFVFVVVWVIAITQGQRRIPI
+QSAKHVRGRRVSGGQRQSLPLRVNQAGVMPIIFASSLLMFPYFLFHGLSQYFSTSAFWAM
+LDEAFQPMSRGFVYTMSYVVLIYFFCYFWTAITFNPKDMAENLKDYGSFIPGYRPGARTA
+AYLEQVMVRITYVGAAFLSLVAIIPTLVSTWLGVDFLVASFYGGTGLLIVVSVVLDLVN
+>B4S5A8_PROA2/73-417 B4S5A8.1
+SIFSLGIMPYISASIIVQLLGAVTPYVQKLQKEGEEGRQKINQYTRYGTVLIAALQAWGV
+SVSLASPSSFGTIVVPDPGFFFMMTTVLILTASTVFVMWLGEKITERGIGNGISLIIMIG
+ILARFPQSVIAEFQSVSLGSKNWIIEFIILALMVLIVAAVVVLTVGTRRIPVQHAKRVVG
+RKMYGGSTQYIPMRVNTAGVMPIIFAQSIMFLPNTFLSFFPESEVMQNVATIFSYDSWWY
+ALMFGTMIVFFTYFYTAIAFNPKEVADTMRRQGGFIPGVRPGKSTADFIDNILTRITLPG
+AISLAFIAVLPTFLTKFANVTPGFAQFFGGTSLLIIVGVGLDTLQ
+>Q2S3P5_SALRD/75-414 Q2S3P5.1
+GIFALGIMPYITASIIIQLMGAVVPYFQKLQREGEEGRRRITQLTRYGTIGITALQSIGY
+SINLLAGATGRAVVINSTLFTITTVVVLTSGTAFVMWLGERISEDGIGNGISLIITIGII
+AFLPQALYNEIGLIGDNFFILLVEIGVWVLVAGAVVLVSQGMRRIPVQYAKRVVGKKVQG
+GTTQYLPLRVNAAGVMPIIFAQSIMFIPSTIASFFPNNATMQRVGGWFSDISSMSYSAVF
+FVVVVFFTYFYTAITVNPQEMADTMKRQGGFIPGIRPGKQTSEFIDTVLTRITLPGSIFL
+GLVAIFPAFAMQAGVSQGFAMFYGGTSLLILVQVTLDTLQ
+>A1ZGT4_9SPHI/72-404 A1ZGT4.1
+SIFALGIMPYISASIVIQLMEVAVPYFQKLKKEGESGFKKKTQITRYLTIVITAAQAIGY
+IQATIPSNAIMVSQLSFTISTVIILTAGTVFTMWLGEKIDDRGIGQGISLLIMIGIISRL
+PQSLVEEVVARSTGSQVLILILEMVVLFFVVMSVVMLTEATRRIPIQYAKQVVGNRVYGG
+QRQYLPLKVNAAGVMPIIFAQALMFVPALITPYVGGASSAFSDITTWQYNLVFGLLIIIF
+TYFYTAISVNPKQIADDLKRNGGFIAGVKPGSDTSEYIDKIMSKITLPGSIWLAIVAILP
+AIAVKFGIQNSFAQFYGGTSLLIMVGVVLNTLQ
+>A6EHP4_9SPHI/71-408 A6EHP4.1
+SILALGVMPYISASIVVQLLGIAVPSFQKMQKEGESGRKKLNQITRYLTVAITAVQAVGY
+VKTQVPMEAIVIDHTLFFVMATFVLAAGTLFVMWLGEKITDKGIGNGISLIIMVGIIARL
+PIALYQEITSRIVSDGGLIALVLEIVALFAVVMFTIMIVQGVRKVPVQYAKRIVGNRQFG
+GVRQYIPLKVNAAGVMPIIFAQALMFIPATLTQFFPSLQNTWLVQFSDYTSLAYSLTFAF
+LIIAFTFFYTAITVNPTQMSDDMKKNGGFIPGIKPGFATSSFIDDVISKITFPGAVFLAI
+IAILPSVAVKFGIKSEFAHFYGGTSLLILVGVVLDTLQ
+>Q11QD2_CYTH3/72-411 Q11QD2.1
+SVFGLGIMPYISASIVLQLLTFAVPYFQRLQKDGESGRKTINQYTRILTIFITVAQSIGY
+LAATLDEGMIYEGMNTPFMNVVRIVTLISGTMFCMWIGERITEKGIGNGISMLIMIGIVS
+RLPFALMAEVSSKNLEGALPLLIEFAALFAVIMLVVLVQQATRRIPIQYTKQIAGGKQVI
+GQRQYLPLKLIAAGVMPIIFAQSVMFLPAIIGSSFPDSEFATTIGSTMSDFTSWQYNVAF
+ATMIILFTYFYTAITVNPNSIAEDLRRNGGFIPSVKPGLATSEYIDDVLTKITLPGSIFL
+ALLAILPAFASMTGIEKEFAYFYGGTSLLIMIGVVLDTLQ
+>Q1VTY0_9FLAO/73-421 Q1VTY0.1
+SVFALGIMPYISASIVVQLMTIAIPYLQKLQKEGDSGRKKITQITRWLTIAITLVQGPGY
+IINLYNILPSSAFLMDSTFTFVVSSVIILTTGCIFAMWLGEKITDKGIGNGISLLIMVGI
+IATLPQAFIQEFISRVTESNGGLILILIELVIWFVIILAAVMLVRAVRQIPVQYARKNAS
+GKFEKASVGGARQFIPLRLNASGVMPIIFAQAIMFIPAAVAGLSDSEMAQGITAAFQNMF
+GFWYSLVFGILIIVFTYFYTAITVPTNKMADDLKRSGGFIPGIRPGSETSEYLDRVMSQI
+TLPGSIFLALIAVFPAVIVSLLNVQQGWGLFFGGTSLLIMVGVAIDTIQ
+>Q1NYZ7_9FLAO/72-422 Q1NYZ7.1
+SILSLGIMPYISASILTQLMCYMFPSLYKIQQDGEIGIKKINNITKVLTILISLIQAPVY
+ITILISSNIKENPYNLILIHCKKIFIITSIICITTGTFFTMWLGEKINDKGIGNGNSLII
+ISGILSRFIYSIISEIFNRLKNNNKLLGIIILLFELFIWLLIIGISIIIINFVKKIHIQY
+VNKFYLKNYSSNEIYLRNEMKFLPLKVVYPGVMPIIFSQGILLIFITIFNKINNLQLSNN
+GIWYNILYSILIIIITFFYTFLSIPVNKISDDLKINGVYIPNRKPGKDTCFFLKKIVSQI
+YLTGSLLLVIIALLPSIFISLGGDKNFSLFFGGTTIIIIVGGLLDIKYTIN
+>A5KHP6_CAMJE/62-402 A5KHP6.1
+SIISLGIMPYITASIIMELLAATFPNIGKMKKERDSMQKYMQIIRYATIVITLVQSIGVA
+IGLQSLHGRGGAGVIMVEDLNMFIALCAISMLAGTMLLMWLGEQITQRGIGNGISLIIFA
+GIVSGIPRAISGTVGQINSGEMNFLTAFAIFALILITIGVIIYVELGERRIPISYSRKVV
+MQNQNKRIMNYIPIKLNLSGVIPPIFASAILMFPTTILQTSTNPYLQAINDFLNPNGYLF
+HVLTFLFVIFFAYFYASIVFNAKDIAENLKKQGGFIPGIRPGEGTSSYLNEVASRLTLSG
+SIYLGLVATLPWVLVKFMGVPFHFGGTSVLIVVQVALDTMR
+>A4EA78_9ACTN/52-389 A4EA78.1
+SVFSLGIMPYITSSIILQMLQAVVPSLHELAREGEVGQTKITQYSRYLTLALAILNSVGY
+LFLFKSFGISFNGAGAPEIIFDLMIVGTLTAGAMLIMWIGELITQRGIGNGMSLIIFANI
+MAGLPQAIFSSTEGNAGGIITMVIICAIILLVIPLIVFLERGQRRIPVSYAKRVVGRRMM
+GGQTTYLPIKVNTAGVVPIIFASALLYFPAQIAVFFPGIGWIQAVASALSTGWLNWVLNV
+VLIVFFAYFYTSMVFNPDDTADNLKKQGGFIPGVRPGRATAAYIKNALNKITLPSAVFLA
+LIAIVPSIIFSFTGNHLIQAFGGTSILIMVGVVLDTVD
+>Q2GEC0_NEOSM/73-411 Q2GEC0.1
+TLFALNVMPYIVSSIVVQIFFSMLKSEGKVSAEFMNESRLSFYSKLVALFLAFFQGFIIV
+AGLERTKAFVGGNEEFYSLLKYTSVLTLVCGTFSLIWLGQQINSRGIGNGMSLIIFAGIV
+AEMPAIFGNLFSGIGSPGSGILGIFVSLSLLVFVVFLVVLVERASKNIPVHYPRRRTWGS
+THGDAASNIPVKINVSGVIPPIFANALILFPLTLANFSAESHLGEFIIRYFSVGQPLYFL
+LHSCLLVFFCFFYSDFVFNTTEISDSLKKGEAIVAGRRPGISTKRHLDYVLRRITVVGAA
+YLVCICVVPEIFRNYFGFDAIISGTSLLIIVNVITDLLS
+>Q3YRM8_EHRCJ/72-412 Q3YRM8.1
+TVFALNVMPYIVSSIIIQLLSVTVPRLNELRQNGELGRMKINNYIRYMTIFFCIVQGSVI
+LLGLEKMNSENSIVVIDPGLLFRIVGISSLLGGTMFLLWLGERINKNGIGNGVSMIIFTG
+IVAELPGSFSSMFLLGKNGNVPIFVILLMVLIFFALLLLIIFVEKSYRKILVQYPKRQVK
+NKLYGSSSTYIPLKINISGVIPPIFANALLLSPITVANFHQGSPWSDFILMYFSSGKLLY
+IVCYALLIIFFAFFYTAFVFDAKETSEILKKNGGFVPGKRPGNATCEYFNYVIKRLTVLG
+SIYLTVICIIPELIRYNYSVSFTLGGTSFLIIVNVIIDTFS
+>Q5GSW3_WOLTR/77-416 Q5GSW3.1
+TILVLNVMPYIVASIVMQLLSSAVKGINEVKNDGELGRRRMNSYIRYMTIVFCIFQSVTI
+LIGLERMNREGTLVVIEPGVMFRTVGIFSLLGGTMFLIWLGEQISASGIGNGISLIIFTG
+IISELHNAFSFLLTLNKNGSMSLLIILFVFVLFFLLLLLIIFVESSYRKVTVQYPKKQFK
+RLHSDDFTYIPLKINLSGVIPTIFANAILLTPVSIANFYKGHAFSDFILNYFMANKVVYI
+AAYLALIVFFNFFYTNFIFNPEENADFLKKNGGFIPGRRPGKHTSDYLQDIVFKLTFIGS
+AYLVVICTVPEVMRYYYDMPFIFGGTSLLIIVNVTTDTIM
+>Q0ANS0_MARMM/83-421 Q0ANS0.1
+AIFVLNVMPYISASIIMQLMSATIPSLEKLKKEGGEQGRQQINQYTRYLTVLLATGQAFA
+IAIGMNTPNSEGVALALNPGPFFLASTVITLVGATMLLLWLGEQITARGVGNGVSLIIFA
+GIISAVPGVIGGALSQASSTGDGTVLVVGGVLILVGLLLVVFVERSQRRLLVQYPKRQQG
+NRMVGGDTSFLPLKLNTAGVIPPIFASSLLLLPATAASFQAQSGPGWLQSAVAILGPGSP
+WFMMAYAAMIIFFCFFYTSVVSNPDDMAENLRKYGGFLPGIRPGKRTAEYIDFVMSRLTF
+IGALYLVLICMVPMMMNPNTALGGTSLLIVVSVTMDTVS
+>A7IPQ0_XANP2/80-418 A7IPQ0.1
+AIFALNIMPYISASIIIQLLTSVSPTLEALKKEGEAGRKQLNQYTRYLTVVLAVFQAYGI
+AVGLEGSGSVVADPGWFFRITTVITLTGGTMFLMWLGEQITSRGIGNGTSLIIFGGIVAE
+LPGAFVRTLQLGREGAISTPLILAALVLAVVVIAFIVFMERAQRRLLIQYPKRQVGNRIY
+EGQSSHLPLKLNTSGVIPPIFASSLLLIPTTIASFLQGSGPEWLQTITTHIGHGRPAYMV
+LYVLLIVFFCFFYTAIVFNPVETADNLKKHGGFIPGIRPGERTAEYIDYVLTRITVVGAA
+YIAAVCLFPELLISYASLPFYFGGTSLLIVVSVTMDTVS
+>SECY_RICCN/70-411 Q92GY6.1
+SIFALAIMPYITASIIIQLMSVAYKPLENLKKEGEVGKRKVNQLSRYLTVLLASFQAYGV
+AISLESIVTNTGPVVILAGFFFRITTVITLVVGTMLLMWLGEQITQRGIGNGTSLIIFIG
+IISGVPSAIISMFELSRKGALSPLIAIAVCIGVVVLIAIIIFFERAQRKLLVQYPKRQVG
+NKIYGGEATHMPLKLNTSGVIPPIFASSILLFPATLANFSNSNSETMGMLTYYLGHGKPV
+YILLYVALIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSDYFDYILTRLTVI
+GGIYLSVICVIPELLMNKYVISLSLGGTSFLIVVNVVLDTMT
+>Q2G8W0_NOVAD/80-430 Q2G8W0.1
+SLIALGVMPYITASIVVQLAASLHPALAAMKKEGESGRKKLNQYTRYGAVLLTAIQGWVL
+ASGLEAYGASSGLQAVVNPGLLFRVGAVISLIGGTMFLLWLGEQITSRGIGNGVSLIIMA
+GIVAQMPKFFGNLFEGGRTGSISPFLIFGIVIMLIALVIGICFLERATRRLLIQYPKRAT
+QRGMMAADRSHLPLKINTAGVIPPIFASSLLLLPLTITQFAGNSISPDTKMGQAIVTLNQ
+YLGHGKPLYMLFYALGIIFFSFFYTAVVFNPEETAENLKKNGGFIPGIRPGKNTANYLDY
+VLTRITVLGAAYITVVCVVPEFIMAETGMGTLFFGGTSLLIVVNVTVDTIT
+>A6E0Q6_9RHOB/73-411 A6E0Q6.1
+GIFALGIMPYISASIIVQLMTAMVPALEQLKKEGEQGRKKINQYTRYGTVALATLQSYGL
+AVSLQSGDMVSNPGMFFIASCMITLIGGTMFLMWLGEQITARGVGNGISLIIFVGIIAEV
+PAALAQFFASGRSGAVSPAVIVGVMLMVVAVIAFVVFMERSLRKIHIQYPRRQVGMKIYD
+GGSSHLPVKVNPAGVIPAIFASSLLLLPATITTFSGNTTNPVLSTVMAYFGPGQPLYLLF
+FTIMIVFFAYFYTFNVAFKTDDVAENLKNQNGFIPGIRPGKRTAEYLDFVVNRVLVIGSA
+YLAAVCLLPEILRNQFAIPFYFGGTSVLIVVSVTMDTIQ
+>Q1UZE8_9RICK/67-404 Q1UZE8.1
+AIFALGIMPYISSSIIVQLLTGVSDYFKNLKAQGETGRAKITQITRYGTVILATIQGYGL
+SIGLQSSADLVINPGLFFTITAVSTIVAGTMFLMWLGEQITQRGIGNGISLIIFAGIVAE
+IPRALVTTFELGRTGAVSTIMIIGIFVLLVATIMFIVFMERALRKILINYPKRQMGNKMY
+GGESSHLPLKINQAGVIPAIFASALLLLPVTFSNFSFSDNDTFLNLSSYFTQGQPLYMLL
+YASGIIFFTFFYTSITFNPTETADNLRKYGGFVPGIRPGENTALYIEKIVTKLTTIGALY
+LTIVCLMPEFLIANYPIPFYLGGTSILIVVVVAIDTVT
+>Q3R245_XYLFA/76-424 Q3R245.1
+SIFALNVMPYISASIVVQLATHIFPSLKAMQKEGESGRRKITQYSRIGAVILAVIQGGSI
+ALALQNQTAPGGAAVVYAPGAAFVMTAIVALTAGTVFLMWVGEQVTERGIGNGVSMIIFA
+GIVAGLPGSVLQTIDAFRSDALSLISLLIIVFIVLSFTFFVVFVERGLRRIAVNYARRVE
+GRNSYMNKSSFLPLKLNMAGVIPPIFASSILAFPVTLSIWSGQASSNTLFGAWLQRVSSA
+LGPGEPLHMILFAVLIIGFAFFYTALVFSSQETADILKKSGALIPGIRPGKATSDYVDGV
+LTRLTAVGSLYLVIVCLLPEFMQSRIGASFHFGGTSLLIAVVVVMDFIS
+>A4NK90_HAEIN/76-416 A4NK90.1
+SILALGIMPYISASIVIQLLATVSPALAELKKEGAAGQRKISKYTRYATVVFATIQAVAI
+STGLPNMLSGLVPNVGFSFYFTSVVSLVTGTMFLMWLGEQITERGIGNGISILVFGGIVA
+GLPSAILQTIEQARQGQMHPLVLLLIAAIVFAVTYFVVFVERGQRRIRVEYAKRQQGRQI
+LGGHSTHLPLKVNMANVMPAIFASSIILFPATLTQWFGQNDKFEWLNNLSMLLNPGQPLY
+LLVYAVAIIFFSFFYTAMQYNPRDTADNLKKSGAFIPGIRPGEQTSRYIDKVMTRLTLIG
+GLYVTFVCLVPYIMTSAWDVKFYFGGTSLLIVVVVIMDFIV
+>Q057C4_BUCCC/64-407 Q057C4.1
+SIFALGVMPYISSSIIVQLLTLISSYLRNLKKEGDIGKKTINQYTKYITFFLSIIQSIGV
+VISLPFLPGMKNIIVFADCYFYIIAVVSLVTGTIFLMWLGELITTKGVGNGVSLIIFSGI
+ISGLPASVIRTYKLIKIKNFSFLYVFFLLLIIFFVIFIVVFIEKSQRKIIVCYARRQQGR
+RMYTAHHSYLPLKLNMAGVIPVIFSSSLIVFPSILLTYLRYVFNDYKKIIYFFDFLKFKH
+SIYLIVNIILIIFFCFFYTNIIFNVQDTANNLKKSGAFLPGIRPGLKTAEYIKNIVFKLT
+TIGSIYTVFICLIPDIVRYFFKVPFNFGGTSLLIVVVVLIEFIT
+>Q8D1Z2_WIGBR/82-424 Q8D1Z2.1
+SIFSLGIMPHISASIIIQLLTIIHPKLSEIKKDGEFGRRKINKYTRYGTLFLAIIQSISI
+SISLPNMPGMQELIINKGIEFYITTITSLVTGTIFLMWLGEQITSRGIGNGISILIFSGI
+IAGLPIEVIKSIEQARQGNLNIITVLISIILVFVITYFVVFIERGQRRVIVNYAMRQKGR
+KIYAAQITHLPLKVNMSGVIPAIFASSLILFPATIASWFGEGIGVKWMSKIPYYLEPGTF
+SYSILYASAIMFFCFFYTSLVFNSKDTADNLKKSGAFISGIRPGIKTSQYINKIMMNLTL
+IGATYIALICLMPDFFRVFIKSPFHFGGTSLLIVVVVTIDFMT
+>Q6F7T2_ACIAD/83-426 Q6F7T2.1
+SILALGIMPYISASIIVQLMSTVVPSLEALKKEGEQGKRKINQYTRYGTLLLALVQGVGM
+CAGLISQGITLTSGLAFYIPAVTSLVAGTMFLMWLGEQITERGIGNGISMIIFAGIVAGL
+PNQVIQAFTSVQNGQGSLIGIVVFALLSLAVLAAIVFIEKAQRRIPVNYAQKQQGRRIFT
+AQQTHLPLKINMAGVIPAIFASSLLLFPASLGQWLGSADPNAGIVKRSLQDLALVLSPGQ
+PLYLMLFGTLIIFFCYFYTALVFSPKEVSENLKRSGAYVPGIRPGEQTARYLDHILNRLT
+FIGAIYITVVCLMPMILQNSFGIPFHLGGTSLLIVVVVVMDFMA
+>Q6Q8W8_9GAMM/67-407 Q6Q8W8.1
+SIFALNVVPYISSAIIMQLFSNSIPYLQELKKDGQAGRNKITQYTRYGTAILAFIQASAL
+AVTLSASGLAYVPGPTFFVSAVFSVVAGTMFLMWLGEQVSDRGIGNGISIIIATSILTGI
+PGAIGQALEQSRQGDLSILLLIGIGLLSMAVIAVVVFIERGQRRITVNYAQRQQGRRMMQ
+AQQSHLPFKVNMAGVIPAIFASTFLLFPASLSTWFGENESLSFLQSFSLALNPGQPLYIL
+VFAGLIISFCFIWLALTFNTKDVSDNLKRSGAYIAGIRPGEQTANYIDNVLARLTVFGAI
+YLTLICLLPLALINFAGISPTISIGGTSVLIIVVVLMDFMS
+>A9BRX1_DELAS/74-413 A9BRX1.1
+TVFALGIMPYISASIIMQLMTYVVPTFEQLKKEGESGRRKITQYTRYGTLGLAIFQSLGI
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diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.fa.phr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.fa.phr
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diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.pbl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.pbl
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@@ -0,0 +1,1748 @@
+A9B431_HERA2/73-422   SVAAMGVYPYITAQIIMQLL----------------IP-LIPALEQLSKE-GEQGRNRIQ
+A8CRX1_9CHLR/78-422   SVAALGVYPYITASIIMTLL----------------TP-VIPKLTALSKE-GEAGRNKIN
+A2Y4E5_ORYSI/132-498  SFFQLGISHQISASIVMQVLfyplfgpallfsngnvLChVLPSLEKLRKE-GLDGHEKIK
+Q7UZW2_PROMP/80-422   GIFALGILPFINASIIIQLL----------------TA-SLPVLEDLQKNeGEAGRRKIA
+Q7NKT4_GLOVI/79-416   GVFMLGILPYINASIIMQLL----------------VP-VFPKLEDLQKNeGEQGRRQIA
+SECY_GUITH/68-404     GVFALGIVPYINASIIVQLA----------------TN-SIPSLEKLQKEeGELGRQKIV
+SECY_CYACA/62-394     SVFALGIIPYINATITIQIL----------------SS-AFPALKKLQSEeGEIGKKKLN
+Q85FU6_CYAME/42-325   GWFVLGIIPTINASIVMQIL----------------IS-IVPALTRLQKEeGEMGQKQIQ
+A0T0J6_PHATR/72-407   GLFTLNIFPYINASILVQLI----------------LG-FSPKLSKLQKEgDLEGRRSIN
+SECY_CYAPA/109-459    GFFTLGILPYMNASFFLQVL----------------TK-ILPSLERFQKEqEEIAQREFK
+Q4G351_EMIHU/63-407   GIGSLGILPYINASIIIQLL----------------TP-LFPNLERLQKEeGELGRQQIS
+SECY_PAVLU/66-404     SILTLGLGPFFSASLAVQFL----------------VK-LYPAFEKLQNEeGEEGRKTIV
+Q6B8X0_GRATL/62-395   GIFALGIVPYINASIMMQLL----------------TK-LIPELENLQKEeGESGRQKIG
+SECY_ANTSP/62-390     GIFALGIVPYIYASIIIQLL----------------IK-LIPYLENLQKEeGEIGRQKIN
+A4RW47_OSTLU/65-398   GIFSLGIVPYINSSIIFQLL----------------GS-VFPELKKLQKEeGEAGRRKFQ
+A7PFA4_VITVI/131-465  GICSLGIVPFINAQIVFQLL----------------TQ-IYPKLQDLQKReGETGRKKVL
+A7HM32_FERNB/75-404   SVFSMSVTPYINASIIMQLL----------------AS-IIPSLKELLKE-GEEGRKKFQ
+A3CK84_STRSV/69-416   SVFALGVSPYITASIVVQLL----------------QMdLLPKFVEWGKQ-GEVGRRKLN
+Q5FM71_LACAC/68-415   SIFSLGVSPYITAQIVIQLL----------------QMdIVPTLVEWGKQ-GEVGRRKTN
+Q03ZM6_LEUMM/68-416   SLFAMGVSPYVTAQIIVQLL----------------QLdIVPRFVEWSKQ-GEVGRRKLN
+SECY_STAA8/69-413     SIFAMGIVPYITASIVMQLL----------------QMdIVPKFSEWAKQ-GEVGRRKLN
+Q4MG72_BACCE/68-415   SIFAVGITPYITASIIVQLL----------------QMdVIPKFSEWAKQ-GEMGRKKSA
+Q6F1X5_MESFL/92-454   SILALGVSPYITASIIVQLL----------------STdVVPILTRWNKS-GERGRKKLD
+Q6KI36_MYCMO/87-436   SIVALGISPFITASLVMQIL----------------QTkLFPPIYRLSQS-GPIGRRKIN
+Q4A5I3_MYCS5/83-437   SIFALGISPFINASLIMMIL----------------QSrLFPMIYKLTQS-GPQGRRKLN
+Q98Q01_MYCPU/90-438   SIVSLGINPFITASLIMTIL----------------QSkLFPPIQKMSQS-GPLGRKKIN
+Q4AAF9_MYCHJ/85-434   SVVALGISPFITASLFMLIA----------------QTkLFPPIHRLSQS-GPAGRRKIN
+Q9PQP1_UREPA/76-434   SLFAIGIGPYITAQIIMQLL----------------SSeLVPPLAKLSKS-GERGRKKIE
+SECY_MYCGE/81-430     SLFAVGISPYISAQIIMQLL----------------STdLIPPLSKLVNS-GEVGRRKIE
+Q8EUD2_MYCPE/81-433   SFMAIGVSPYITAQIIVQLL----------------SSdLIKPLTRLSKA-GERGKRKLE
+Q7X4E3_9MOLU/69-399   CILSLGVIPYVTASIVIQLS----------------QK-VFTFMKEWQEQ-GEKGKRKIN
+Q5Q069_ASTYP/59-398   TLFGLGITPYITASIVVQFL----------------QK-LLPICREWKDQ-GQMGKRKLN
+O21257_RECAM/57-372   SLFALNITPIITYLFLEQLY-------------------YIYSIPLISKK-KNLNKDLIK
+Q74NB9_NANEQ/69-457   SIVSLGIGPIIIGYLLAELF-------------------IGSGELNIDIT-TEEGKRKFE
+Q2EMT2_METVO/30-379   TLITLGIGPIVTAGIIMQLL-------------------IGSELVKLDMS-KPDNRALFQ
+A5UL65_METS3/72-433   SILTLGIGPIVTASIVLQLL-------------------VGSKLLDLDLS-SPEDKSQYQ
+SECY_METTH/73-436     SILTLGIGPIVSASIILQLL-------------------VGGKILKLDLS-RHEDKAFFQ
+SECY_PYRAB/72-448     SILTLGIGPIVTAGIILQLL-------------------VGSEIIKLDLA-NPEDRRFYQ
+Q8TZA9_METKA/75-435   SILTLGIGPIVTASILLQLL-------------------VGGDLIKLDLT-NPEDRRLFQ
+Q9HIT0_THEAC/82-514   SLMDLGIGPIVTASIVMQLF-------------------VGAKIFNLDLQ-NAEDKAIYQ
+Q2QAQ7_9EURY/161-583  SIMHLGIGPIVTGSIIMQLF-------------------AGAKIIKLDLG-DSDDKQLYQ
+Q0W1W5_UNCMA/75-487   SIILLGIGPIVMASIVLQLL-------------------VGAELIPLDTT-DPKDQAIFQ
+SECY_ARCFU/73-471     SIIALGIGPIVTASIILQLL-------------------VGAGIIKLDLT-NPEDRAAYQ
+Q8TRS4_METAC/72-470   SLVLLGIGPIVTASIVLQLL-------------------VGADIIKMDLS-DPKDQAFFQ
+A0B9U7_METTP/75-515   SLMLLGIGPIVTASIVLQLL-------------------VGAEIIKLNLR-DPRDQAIFQ
+SECY_HALMA/73-468     SIMQLGIGPIVTASIVLQLL-------------------GGADLLGLNTQdDPRDQILYQ
+Q2FSG8_METHJ/73-458   SIVHLGIGPIVTASIVLQLL-------------------KGADLIHIDTS-EIRGQIQYM
+A2SPM5_METLZ/73-458   TILHLGIGPIVTASIVLQLL-------------------RGADLIKINTS-DQRGQVLYM
+A0RUE4_CENSY/79-457   TLVELGIGPIVTAGLLMQLL-------------------RGSEILKFDFK-KPEERGIFQ
+A8ME75_CALMQ/77-461   TLAQLGIGPIIIAGIIMELV-------------------AFSELMDVDLN-DPKDQARFT
+A3MUZ2_PYRCJ/70-435   TLAHLGIGPIVIAGILMEVF-------------------AFSGVLNLDLN-KREDRLKFT
+SECY_SULSO/73-449     TLAQLGIGPIITAGLIMQIL-------------------AGSKLISIDLN-DPDDRVKFT
+SECY_SULAC/74-443     TLAQLGIGPVITSGLIMQIL-------------------VGSKLINVDLT-TQEGKSKFT
+A2BME2_HYPBU/73-444   TLMTLGIGPIVTAGIVLEVL-------------------VGGKLIELDLT-KPRDRKIFM
+SECY_AERPE/73-434     TLMELGIGPIVTASLIIQVL-------------------VGAKIIKLDLA-DPEGRRKFT
+A1RWR3_THEPD/75-456   TLIELGIGPIVTSGIVWELL-------------------VGSRIVNLDLT-TPEGRRTFA
+SC61A_SCHPO/76-459    TLMELGISPIVTSSMLVQLL-------------------VGSQLIEVNME-LKSDREMYQ
+A7E5Q2_SCLS1/76-459   TLMELGITPIISSGMVFQLL-------------------AGTHLIDVNLD-LKADRELYQ
+Q5KC69_CRYNE/75-459   TLMELGITPIVTSGMIMQLL-------------------AGAQLIDVDFS-LKDDRALFG
+SC61A_ASHGO/75-460    TLMELGVSPIITSSMIFQFL-------------------QGTQLLQVNLE-SKQDRELFQ
+Q59MJ6_CANAL/76-459   TLMELGISPIVSSGMLFQLL-------------------QGTKIIHVDMQ-NKNDRETFQ
+A7SJW4_NEMVE/75-458   TLMELGISPIVTSGLIMQLL-------------------AGSKIIEVGDT-PK-DRALFN
+A0CFY2_PARTE/73-456   TLMELGISPIVTSGMILQFL-------------------SGVGFIEVNHS-VREDKVLFN
+Q22MG2_TETTH/151-538  TIMELGISPTVTAGMVMQLL-------------------VGAQILNIDQN-DPVQRSLYE
+A0CU87_PARTE/77-460   TLMELGISPMVTASMIMQLL-------------------AGAKLIDVDQN-VKEDKQLYS
+Q7RLN0_PLAYO/121-506  TLMELGISPIVTSGMVMQLL-------------------AGSKIIDVDQS-LKEDRTLFQ
+Q4QGX4_LEIMA/77-467   TLMELGISPIVSASLILELL-------------------AGVRILTYDQN-NREERAVFE
+A5JEK2_NOSBO/75-457   TLMDLGISPVVTASMIMQFL-------------------GMLELVKVDYN-VKEDKILHG
+A2DH65_TRIVA/75-462   SLMEFGISPIVTSGMILQFL-------------------CSFGLINRNPS-DPEASALFD
+Q2QM98_ORYSJ/88-448   TVMELGVAPVVTSWVVVRLL-------------------AALL--------FDSDSSTTV
+Q6AV46_ORYSJ/86-471   TVMELGITPVVTAGTLVQLL-------------------VGSNLVRADSS-NPDDRALLS
+Q6C854_YARLI/70-454   TLMELGVGPMVTSGIIFQIL-------------------GGFQALNVNFD-IRADRELFQ
+SSH1_YEAST/78-465     TLLEFGLFPNISSGLILQLL-------------------AGLKVIKVNFK-IQSDRELFQ
+Q6BT20_DEBHA/78-475   TLLELGLLPVLTSAFIWQLS-------------------AGFRFINVNLN-LRSDRELYQ
+A5DE75_PICGU/20-414   TLLELGLLPVMTSAFLWQLA-------------------AGLRLVKVNLS-LRSERELFQ
+A3GFV9_PICST/78-476   TLFELGVLPVVTAAFFWQLA-------------------VGLKLVNVNLG-LRSDRELFQ
+A5DWJ5_LODEL/34-436   SLLELGFLPIITSAFLWQLA-------------------AGLKLININLG-LRYDRELFQ
+Q5A2C9_CANAL/5-404    TLLELGLLPIITSAFIWQIA-------------------AGLRLINVNFK-LRIDRELFQ
+Q74L41_LACJO/64-372   SIFSIGLNPLMFSMLIIQLL-------------------SFTHSFGFDA----LSPKQVQ
+B3XPQ8_LACRE/65-377   SLFMVGLNPLMIAMLIIQLL-------------------TMLRLFYFDT----LSMNQLM
+A1C3L4_STRPA/70-403   TLFSLGIGPTMTMMILWRFL-------------------ITFKLI------GSWTSNKVN
+Q3DVD6_STRAG/65-395   GVFSLGIGPMMTTMILLRLF-------------------------TIGKYsSGVSQKVQQ
+A5LN99_STRPN/64-389   SIFSVGLSPWMSAMILWQMF-------------------SFSKRLGLTST----SIEIQD
+A3CM55_STRSV/64-391   SLFSVGLSPWMSSMLIWQMF-------------------AVSKRLGLSKL----PLEVQE
+Q03HZ8_PEDPA/65-396   SLFSVGLGPYMTGMILFQAI-------------------QLLDIDELNKI----NDYKRG
+A5IW80_STAA9/64-384   NIFTLGLVPWLTSMIILMLI-------------------SYRNMDKYMKQ----TSLEKH
+Q4L9N9_STAHJ/61-383   NVFSLGLGPWLTSLVIIMLL-------------------NYRNLDQATKQ----TRSEKH
+Q5HKR3_STAEQ/61-380   NIFSLGLGPWLSSMIILTLI-------------------NHKSNDKVKTQ----TRRERH
+Q9RSK8_DEIRA/68-413   SIFALGVLPYITASIVIQLL----------------TT-TIPSLEKLSKE-GEEGRKKIN
+Q5SHQ8_THET8/71-413   SIFALGIMPYITAAIIMQIL----------------VT-VVPALEKLSKE-GEEGRRIIN
+SECY_CORGL/73-424     SIFAIGIMPYITASIIVQLL----------------TV-VIPHFEELKKE-GQSGQAKMM
+A8LB12_FRASN/74-414   SVFALGIMPYITSSIIIQLL----------------VV-VIPRLEQLKKE-GSSGEQKLT
+Q83NQ1_TROW8/73-424   SVFALGVMPYITSSIIIQLL----------------RV-VVPRFEQLYKQ-GQEGQAKLI
+Q8G3Z9_BIFLO/74-421   SIFALGVMPYITASIVVQLL----------------RV-VIPRFEALHKE-GQSGEAKLT
+A7B9M4_9ACTO/72-414   SIFALGIMPYITASIIIQLL----------------RV-VIPRFDDLHKE-GQTGQAKLT
+SECY_CHLTR/73-433     TVIALGVVPYISASIIVQLL----------------VV-FMPTLQREMREsPDQGKRKLG
+Q1AU49_RUBXD/70-408   SVFALGIMPYITAAIVMQLM----------------TV-AIPRLQELARE-GEVGQQKIT
+Q8RIH6_FUSNN/75-411   SIFSLGIIPYINASIVVSLL----------------VS-IIPQLEEIQKE-GESGRNRIT
+A6DRC9_9BACT/79-428   GV--LGIMPYITASIIMQLM----------------TP-VFPNLEKLQKD-GSHGRQKLN
+C0ACZ0_9BACT/94-454   AVCALGIMPYISASIIFQLM----------------TA-VVPSLARLQQE-GDVGRQKLS
+Q1Q157_9BACT/75-434   AIFGLGVMPYISASIIFQLL----------------VG-VVPYLERLQKE-GEVGRKKIN
+A6CGP8_9PLAN/77-435   TIFGLGIMPYISASIIFQLM----------------GT-VYPPLERLQKE-GEAGRKKIN
+B4S5A8_PROA2/73-417   SIFSLGIMPYISASIIVQLL----------------GA-VTPYVQKLQKE-GEEGRQKIN
+Q2S3P5_SALRD/75-414   GIFALGIMPYITASIIIQLM----------------GA-VVPYFQKLQRE-GEEGRRRIT
+A1ZGT4_9SPHI/72-404   SIFALGIMPYISASIVIQLM----------------EV-AVPYFQKLKKE-GESGFKKKT
+A6EHP4_9SPHI/71-408   SILALGVMPYISASIVVQLL----------------GI-AVPSFQKMQKE-GESGRKKLN
+Q11QD2_CYTH3/72-411   SVFGLGIMPYISASIVLQLL----------------TF-AVPYFQRLQKD-GESGRKTIN
+Q1VTY0_9FLAO/73-421   SVFALGIMPYISASIVVQLM----------------TI-AIPYLQKLQKE-GDSGRKKIT
+Q1NYZ7_9FLAO/72-422   SILSLGIMPYISASILTQLM----------------CY-MFPSLYKIQQD-GEIGIKKIN
+A5KHP6_CAMJE/62-402   SIISLGIMPYITASIIMELL----------------AA-TFPNIGKMKKE--RDSMQKYM
+A4EA78_9ACTN/52-389   SVFSLGIMPYITSSIILQML----------------QA-VVPSLHELARE-GEVGQTKIT
+Q2GEC0_NEOSM/73-411   TLFALNVMPYIVSSIVVQIF----------------FS-MLKSEGKVSAE--FMNESRLS
+Q3YRM8_EHRCJ/72-412   TVFALNVMPYIVSSIIIQLL----------------SV-TVPRLNELRQN-GELGRMKIN
+Q5GSW3_WOLTR/77-416   TILVLNVMPYIVASIVMQLL----------------SS-AVKGINEVKND-GELGRRRMN
+Q0ANS0_MARMM/83-421   AIFVLNVMPYISASIIMQLM----------------SA-TIPSLEKLKKEgGEQGRQQIN
+A7IPQ0_XANP2/80-418   AIFALNIMPYISASIIIQLL----------------TS-VSPTLEALKKE-GEAGRKQLN
+SECY_RICCN/70-411     SIFALAIMPYITASIIIQLM----------------SV-AYKPLENLKKE-GEVGKRKVN
+Q2G8W0_NOVAD/80-430   SLIALGVMPYITASIVVQLA----------------AS-LHPALAAMKKE-GESGRKKLN
+A6E0Q6_9RHOB/73-411   GIFALGIMPYISASIIVQLM----------------TA-MVPALEQLKKE-GEQGRKKIN
+Q1UZE8_9RICK/67-404   AIFALGIMPYISSSIIVQLL----------------TG-VSDYFKNLKAQ-GETGRAKIT
+Q3R245_XYLFA/76-424   SIFALNVMPYISASIVVQLA----------------TH-IFPSLKAMQKE-GESGRRKIT
+A4NK90_HAEIN/76-416   SILALGIMPYISASIVIQLL----------------AT-VSPALAELKKE-GAAGQRKIS
+Q057C4_BUCCC/64-407   SIFALGVMPYISSSIIVQLL----------------TL-ISSYLRNLKKE-GDIGKKTIN
+Q8D1Z2_WIGBR/82-424   SIFSLGIMPHISASIIIQLL----------------TI-IHPKLSEIKKD-GEFGRRKIN
+Q6F7T2_ACIAD/83-426   SILALGIMPYISASIIVQLM----------------ST-VVPSLEALKKE-GEQGKRKIN
+Q6Q8W8_9GAMM/67-407   SIFALNVVPYISSAIIMQLF----------------SN-SIPYLQELKKD-GQAGRNKIT
+A9BRX1_DELAS/74-413   TVFALGIMPYISASIIMQLM----------------TY-VVPTFEQLKKE-GESGRRKIT
+Q7DDS8_NEIMB/73-410   SIFAIGIMPYISASIIVQLA----------------SE-ILPSLKALKKE-GEAGRKVIT
+Q5NHU8_FRATT/74-416   SIFALGVMPYISASIIFQML----------------SA-VYPKFIELKKE-GESGQKKIT
+Q7WZR8_9GAMM/64-388   SIFSIGLMPYISASIIMQVI----------------TG-MFLDVE--------VSKHKLT
+A5EX98_DICNV/69-412   SLLALGVAPYISASIVMQLL----------------TH-MLPALKDLRQE-GSAGQKKIT
+Q6MJ32_BDEBA/70-415   SIFALGIMPYISSSIIFQLL----------------TS-AIPYLEALKKE-GEQGRRKIN
+B5EFS0_GEOBB/71-411   TVFALGIMPYISSSIIFQLL----------------TV-VLPAVEKLSKE-GDAGRKKII
+A3EVQ1_9BACT/75-412   TIFALGIMPYISASIILQLL----------------TV-VHPTLQAMAKE-GERGRKIIT
+Q1MPP6_LAWIP/71-412   SVFALGIMPYISASIIMQLL----------------QV-IIPDFKRMAKEeGAAGRYKIT
+SECY_AQUAE/71-412     TVFALGVMPYISASIMMQLL----------------TV-AIPSLQRLAKEeGDYGRYKIN
+Q01WB2_SOLUE/74-438   TVFALGIMPYITASIILQLL----------------TV-VVPTLEKLQKE-GELGRRKIT
+Q08ZH8_STIAU/26-370   SIFGLGIMPYVSASIIMQLL----------------AV-VVPSLERLQKE-GASGRQKIN
+A6GCG0_9DELT/70-411   SVFALGIMPYISASIIMQLM----------------TV-VIPKLEQLQKE-GETGRRKIN
+Q04PV8_LEPBJ/72-436   SIFALGIMPYISSSIVMQLF----------------MV-LVPSLQKLQKE-GEEGRKKIG
+SECY_BORBU/72-409     SIFMLSIGPYISASIIVQLL----------------VY-SFPSLKKMQE--GDGGRQKTK
+Q73PL2_TREDE/73-413   SVFMLGVMPYISTQILMQLA----------------MI-IFPRLKKIAEE--DGGRKKIQ
+Q67JW3_SYMTH/69-405   AIVAMGVTPYINSSIIMQLL----------------TV-VIPRLEELQKE-GEEGRKKIQ
+A7FQ38_CLOB1/69-409   SIFAMGVVPYINSSIIMQLL----------------TI-ALPSLESLSKE-GEEGRKKIQ
+A6LPT1_CLOB8/69-416   SILALGVMPYINASIIIQLL----------------TV-AIPQLEQLSKE-GDTGRKKIQ
+Q0SQG4_CLOPS/69-409   SIFALGVVPYINASIIMQLL----------------TV-AIPKLEQLSKE-GDDGRKKIQ
+A9KJH4_CLOPH/71-425   SLFALGIGPYITSSIIMQLL----------------TI-AIPKLEEMQKD-GESGRKKIA
+A7VH89_9CLOT/71-420   SIFALNVTPYITASIIIQLL----------------TI-AIPALEEMQKD-GEDGRKKIT
+A6BIS2_9FIRM/71-421   SVFALSITPYITSSIIVQLL----------------TI-AIPQLEEMQRD-GETGRKKIV
+A7VR33_9CLOT/71-423   TLFAMSVTPYINSSIIMQLL----------------TV-AIPPLERMAKE-GEEGRKKIG
+A6NXF0_9BACE/71-437   TVFALGVQPYINSSIIIQLL----------------TV-AIPALERLQKEgGEEGRKKIA
+Q250L2_DESHY/70-413   SVFALSITPYITASIILQLL----------------TI-VIPSLERLAKE-GEFGRKKIT
+Q8R7X3_THETN/69-402   TIFAMSIVPYINASIIMQLL----------------TI-AIPSLEQLAKE-GEEGRKKIA
+A4XLR1_CALS8/69-419   SIFAMSVTPYINSSIIMQLL----------------TI-AIPALEELAKQ-GEEGRKKLA
+A3DJJ2_CLOTH/71-411   TIFAMSITPYINASIIIQLL----------------TV-AIPKLEALAKE-GEEGRKAIA
+A8MLG0_ALKOO/69-408   TIFALSISPYITSSIIMQLL----------------TI-AIPSLEALAKE-GEEGSKKIA
+Q18CH6_CLOD6/69-406   SLFALGISPYITASIIIQLL----------------TV-GFESLAELQKS-GEEGKKKIN
+B8D0S8_HALOH/72-406   TIFAMSITPYITASIILQLL----------------TG-VIPRLEELQKQ-GVEGRKKLT
+
+A9B431_HERA2/73-422   RYQYFLTVPLAYLQGYGQIKSLINSGINLFGTLNFs-----------iTENFFQTFSILT
+A8CRX1_9CHLR/78-422   TITHWLAVPTAALAGYSQLLLLQREGAVAQTE-------------------PLAAVAIVL
+A2Y4E5_ORYSI/132-498  GYIWWLSLGFALVAAFTVSCYSLQYSIYAASY------------------RVKHVMITSL
+Q7UZW2_PROMP/80-422   QITRYVSLGWGFLQSIIFSLILRQYAIEGISET-----------------AFV--LQTSI
+Q7NKT4_GLOVI/79-416   QYTRYLALGWAIIQSIGVAIYIKPFVADWSPL-------------------FV--IQTTL
+SECY_GUITH/68-404     QLTRYVALVWALIQSIGVSFWVRPYVFNWDLN-------------------FV--FAMSL
+SECY_CYACA/62-394     KITKYLSFCFAFIESLAIVLRLQKYAFDWN---------------------LYFIVQTTL
+Q85FU6_CYAME/42-325   KYTRYLTFFLAGIQAFTLSQQ----------------------------------WCTWL
+A0T0J6_PHATR/72-407   RLTRLITLMFALIQSVSLALYLKQILFNWN---------------------YSLAIEIGL
+SECY_CYAPA/109-459    KWTRYLTVIWAFIQSIVISWIWIRPYALNWD--------------------FFLGLKVVV
+Q4G351_EMIHU/63-407   RYTRYLTCIWAIVLSSAIAFFLIKPITFGWS--------------------LKLGLEIVL
+SECY_PAVLU/66-404     RYTRILTVLFCIIESFFLSNSLRSFVFNWN---------------------SISYFVVAA
+Q6B8X0_GRATL/62-395   QLTRYFTLIWSILQSIGISLWIKPYVFNWNYY-------------------FI--LDSII
+SECY_ANTSP/62-390     QLTRYLTLLWALIQSLSIAIWINHMY-------------------------LIHLFELCA
+A4RW47_OSTLU/65-398   QYQRYGALGFAIVQAVGQCLYVRPFVEDFTPI-------------------WL--FEQSC
+A7PFA4_VITVI/131-465  QYTRYASVGFALVQAIGQVLFLRPYVNDFSTQ-------------------WV--LSSVT
+A7HM32_FERNB/75-404   HYTKNLTLGLAALQSFVVSFGLARSYQGIIAIN-----------------TWLFSFVSTV
+A3CK84_STRSV/69-416   QATRYIALVLAFVQAIGITAGFDTLSRANLVAN----------------PNVQTYALICV
+Q5FM71_LACAC/68-415   QVTRYLTLVVAFVQSIGITLGFNALTQMGLVKNQ--------------TPQTY--VEIAI
+Q03ZM6_LEUMM/68-416   NATRWLTLVLAFVQSVGITAGFNSLSSYGLVSQT---------------NSVM--SFVVI
+SECY_STAA8/69-413     NVTRYLAISLAFIQSIGMAFQFNNYLKGALIIN----------------QSIMSYLLIAL
+Q4MG72_BACCE/68-415   QFTRYFTIILAFIQAIGMSYGFNNIAGGQLITD----------------QSWTTYLFIAT
+Q6F1X5_MESFL/92-454   KLTKVLMIPFALMQGIATIFTLQQQGV-----IEPgwssd---nvlasPAFYY--VLVPL
+Q6KI36_MYCMO/87-436   IITRAITIFLGVVQSMTIVSALSAQNSFISLTNEF-------------NVFWYQFIILPV
+Q4A5I3_MYCS5/83-437   IATRILTFIIAYPQAVFLTKSLTAGERNSSFITLVsi--------dgfSVDLLVYFLLPM
+Q98Q01_MYCPU/90-438   VITRLLTLVFAFPQAIVLTQTLSRENGFISIDQEF-------------KTIANIYVLLPL
+Q4AAF9_MYCHJ/85-434   IITRFLTLLVAVIQAVVLIRTVILNPDYGFVRLEI-------------NTPVFIWLVLPL
+Q9PQP1_UREPA/76-434   VITRIITLPLAVMQAVIIINLMTRANG-----FISivsna---pfaigSPLFY--VTYIF
+SECY_MYCGE/81-430     MITRIITLPFALVQAFAVIQIATNAGT-----GSSpis------lansGSEFI--AFYII
+Q8EUD2_MYCPE/81-433   IITRLITIPFAIMQAYAVLSLAGTQGLVSSFFGQSa----------lsSVPAGQIILLLL
+Q7X4E3_9MOLU/69-399   IVTRVLTIFLSLGHGWALCQTEKLVLG------------------------PYLLFSTLF
+Q5Q069_ASTYP/59-398   LLTRSLALFFAFGQSFAFLNSYSKLLVTSIS--------------------TRQLFLLAL
+O21257_RECAM/57-372   KYSVYIFLMISYLEGFIYLNHLYNTTSSSFLIFY--------------LDNTINYLLCLN
+Q74NB9_NANEQ/69-457   NLARFFMIVFGLFESIVMA-TIGWFKPSQFLISLFampfsflgsnaflIGYILAVLFIVA
+Q2EMT2_METVO/30-379   GLQKAFGIFLCFLEAGMFV-LAGAFGALT----------------------PMMSLALIL
+A5UL65_METS3/72-433   ATQKILSIVFTMFEAGVLV-LTGSLVPIDNS--------------------YL--GVLFL
+SECY_METTH/73-436     GLQKLLAIVFTFFEALIFV-LTGSLAPSAPQF------------------V----WVLIL
+SECY_PYRAB/72-448     ALQRVFSVFMCFLEAAIWV-LGGAFGRVGVDV------------------TYAIAALMIL
+Q8TZA9_METKA/75-435   GLQKLLAIVLCFFEGVMMV-FSGAAPPAEPS--------------------ILLEILLIL
+Q9HIT0_THEAC/82-514   GVQKLLVIIMIFVEAIPQA---FGYLVPDTKVVNSina------vfpgYGEFLAQTIIIL
+Q2QAQ7_9EURY/161-583  GVQKILVLIMIPVESIPQV---YGFLDASPALVSD-------------FGQGWANAIIVS
+Q0W1W5_UNCMA/75-487   GLQKLMVFVMIVVEALPQI--YGGFLLPDPAIAATl-----------gVSTGIIQLLIFA
+SECY_ARCFU/73-471     DFQRFLVFVMIAVEAIPQI--AGGLLKPDLNLAAQl-----------gVSPGIISFLIFI
+Q8TRS4_METAC/72-470   GAQKFLVFVMIILEALPQL--LGGYIQPDPGLAATl-----------nVGLGVITLLLLV
+A0B9U7_METTP/75-515   GTQKALVFVMIVVEALPQI--TGGYLLPDQALATSl-----------gVSLSIISLIIFL
+SECY_HALMA/73-468     GLQKLLVLVMICLTGLPMV-FAGGFLPADTAVANSl-----------gIGTAGVQWLIFA
+Q2FSG8_METHJ/73-458   GLQKLMIFIMIVVEALPMI--VGGFLKPDPAIASAl----------fgGNSGVLAILIFI
+A2SPM5_METLZ/73-458   GLQKVLIFVMIILEALPNV--LGGWMSADPAVSAFf-----------gGNAGFVMLLIFL
+A0RUE4_CENSY/79-457   TATKMVSYVVIVVESSIYGIAVYGPGIADPS------------------------VLYIL
+A8ME75_CALMQ/77-461   ALTKLVAVIIAMFEGAFIM-STHQLTVAN----------------------AGLAFIVWL
+A3MUZ2_PYRCJ/70-435   LMLKWAALGIAALEATAYV-LGGQFGTVT----------------------PLGGVLIVL
+SECY_SULSO/73-449     EAQKGLAFIFILVESALFGYVLARTSTTINASIL--------------FIA----GIVIA
+SECY_SULAC/74-443     QAEKALALIFIIVESSLFGYVFTRATSNILLP-----------------------IIVVV
+A2BME2_HYPBU/73-444   GAQRTLALLFALLEAAAYV-IGCRFWISAFASSPEv----------cpPISTAVKIIVVL
+SECY_AERPE/73-434     SAQKVLALAFAALEAVAFT-VGGRYWVGTAIEP-----------------GPLDYALVSL
+A1RWR3_THEPD/75-456   GLQKLTAFLFAALEAAAYI-LGGVYGALT----------------------QQQQIIVFV
+SC61A_SCHPO/76-459    LVQKFLAIIIAFGQATAYV-LTGMYG------RPQd-----------lGAGIC--LLLIL
+A7E5Q2_SCLS1/76-459   TAQKLFAIILSMGQATVYV-FTGLYG------QPSd-----------lGAGVV--CLLIL
+Q5KC69_CRYNE/75-459   AAQKLFAMIISLGQATVYV-LTGLYG------SPSs-----------lGAGVC--LLLIL
+SC61A_ASHGO/75-460    IAQKVCAIVLTLGQAIVVV-LTGNYG------SVSn-----------lGIAIS--LLLIL
+Q59MJ6_CANAL/76-459   TAQKLLAILLAVGQATVYV-LTGMYG------PPSs-----------lGVGVC--SLLIL
+A7SJW4_NEMVE/75-458   GAQKLFGIIITIGQAVVYV-MTGMYG------DPSd-----------lGPGIC--LLIII
+A0CFY2_PARTE/73-456   AAQKLLSFIMAIAEGMAYI-WSGAYG------DINq-----------iGAGNA--ILILL
+Q22MG2_TETTH/151-538  GSQKLLGLIIAFFEAVAYV-WSGMYG------DIEk-----------vGYGNA--LLIVL
+A0CU87_PARTE/77-460   GAQKLLGILIAFGEAFAYV-WSGMYG------DLDk-----------lGAGNA--ILIII
+Q7RLN0_PLAYO/121-506  GAQKLLGLLITLGEAIAYV-VSGIYG------NLSe-----------iGTGHA--ILIIL
+Q4QGX4_LEIMA/77-467   GFQKMMGLVITAVEAVAYV-SSGMYG------DPSr-----------iGVVMC--GLIVL
+A5JEK2_NOSBO/75-457   AANRLISLIMTVGSAIVQV-LTGFYG------DPKa-----------lGWTYC--ILLMV
+A2DH65_TRIVA/75-462   AAQKLAGIIMTAFQAGNAI-WSGEYG------IRGe-----------iGFVNA--ALIMT
+Q2QM98_ORYSJ/88-448   ASCELLARCLAYVTNASRL-VIG---------IAAalgm-----cgsgGAGNA--ALVVL
+Q6AV46_ORYSJ/86-471   AAQKLLSIVITAGEATAYV-LSGAYG------SVGv-----------lGAGNA--VLVVL
+Q6C854_YARLI/70-454   SGQKIFALLLTFFHAIFLVFFAQTYGTISTDSAVS-------------ELSLGAAVLIVA
+SSH1_YEAST/78-465     SLTKVFAIVQYVILTNIFI-FAGYF-------GDD------------lSVVQI--GLINF
+Q6BT20_DEBHA/78-475   SGQKLTSFIFAIVYGAGYI-FSGYYNNVIKGYNPFn----------gdSVPVTTLVLIFL
+A5DE75_PICGU/20-414   TGQKLTSFILGIVYTAGLI-ASGYFAPALR--NQTgfe-------dsfPVTTY--VFIFL
+A3GFV9_PICST/78-476   TGQKLTSFVLAIVYGVGLI-YSGYYDNAIRGYDPLsd---------stPYGWY--GLILF
+A5DWJ5_LODEL/34-436   LGQKLTAWGLALIFSVGLI-YSGYYDNVIR--GYKvvgg-----sggvPIWSY--LIIFT
+Q5A2C9_CANAL/5-404    TGQKLTSFIFSLIFAIGLI-YSGYYDNAIR--GYNplq-------dgiPYGSY--ALILL
+Q74L41_LACJO/64-372   YLMQFLTMIITIIQAALLVFAFTNRRN------------------------GLEDFEMIL
+B3XPQ8_LACRE/65-377   KIQQWLTLGFAIIQSTAVTLGLKITTG------------------------TLDSLAVIL
+A1C3L4_STRPA/70-403   RLQFLLTLAIALLQSFGITNDSKFLLIFGYSH-------------------STLRIITII
+Q3DVD6_STRAG/65-395   FRQNVVMLVIAIIQGLAITISFQYHNGFS----------------------LTKLLLATM
+A5LN99_STRPN/64-389   RRKMYLTLMIAVIQSLAVSLRLPVQSSYSA---------------------ILVVLMNTI
+A3CM55_STRSV/64-391   RRRMLLTLVIALIQSVALVLNLPLQEAAGVDM-------------------TTIMVLDTL
+Q03HZ8_PEDPA/65-396   MIQRWISFVIALLQTLQFIYTIREHINFSGIKVW---------------GIDYNLIVAFF
+A5IW80_STAA9/64-384   YKERILTLILSVIQSYFVIHEYVSKERVH----------------------QDNIYLTIL
+Q4L9N9_STAHJ/61-383   YKERIITIVFAIFQSYFVISTYIHNNFIK----------------------DSNIILLML
+Q5HKR3_STAEQ/61-380   FKERALTLIISAAQGFYIIHSYINKHAIK----------------------DSNMLILLL
+Q9RSK8_DEIRA/68-413   QYTRYAAIALGAVQALFFSLYI--TSNPSFIAVGW-------------DPGLFTVLVMVL
+Q5SHQ8_THET8/71-413   QYTRIGGIALGAFQGFFLATAFLGAEGGRFLLPGW-------------SPGPFFWFVVVV
+SECY_CORGL/73-424     QYTRYLTVALALLQSSGIVALADREQLLGAGIRVLs-----------aDRNFFDLIVLVI
+A8LB12_FRASN/74-414   QYTRYLTVALGILQATGIVALARSGRL-----FPGcsa------qiipDTSLFRIVTIVI
+Q83NQ1_TROW8/73-424   QYTRYLTIGLAVLQSTTLITVARSGAL--FAASNSpacs-----slltDDSWYSTIIIVI
+Q8G3Z9_BIFLO/74-421   QYTRYLTIGLAVLQSTTILVTARSGAL-----FNYqcd------qvipDGSVFNLVVMVL
+A7B9M4_9ACTO/72-414   QYTRYLTIFLGILQATTTISLARSGQL-----FQScnh------diikDRSVMTFIMMII
+SECY_CHLTR/73-433     RMTRLFTLVLACVQSLLFAKFALRMNL--VVPGIVlpamls-lklfgvPWVFY--LTTVV
+Q1AU49_RUBXD/70-408   QYTRVFTLALSFIQSVAMVLFLRSGQFGPVLAG----------------AGALDLFLVVV
+Q8RIH6_FUSNN/75-411   QWTRYLTIALAIIQGTGVCLWLQSVGLIYNPGI-----------------SFF--VRTIT
+A6DRC9_9BACT/79-428   QYTRYMTIVICAVQSAMMAVAMHTPSK----LLGVpgfed---lvinkGSAFV--IQTTI
+C0ACZ0_9BACT/94-454   QYTRYATVLICLIQGALLILALENPTQLFGEGYDIaryge---ivlvdRTWFL--ISSVI
+Q1Q157_9BACT/75-434   QYTRIATVGLCLFQAFVMTRTLYTVEF-----NGVpvip-----vylqGVSFQ--LMAAI
+A6CGP8_9PLAN/77-435   EYTRYATVVICLVQSFFWIRTLAGGFG-----SGTslil-----dgyqGLYFQ--IVATI
+B4S5A8_PROA2/73-417   QYTRYGTVLIAALQAWGVSVSLASPSSFGTIVVP--------------DPGFFFMMTTVL
+Q2S3P5_SALRD/75-414   QLTRYGTIGITALQSIGYSINLLAGATGRAVVIN--------------STLFT--ITTVV
+A1ZGT4_9SPHI/72-404   QITRYLTIVITAAQAIGYIQATIPSNAIMVSQL-----------------SFT--ISTVI
+A6EHP4_9SPHI/71-408   QITRYLTVAITAVQAVGYVKTQVPMEAIVIDHT-----------------LFF--VMATF
+Q11QD2_CYTH3/72-411   QYTRILTIFITVAQSIGYLAATLDEGMIYEGMN-----------------TPFMNVVRIV
+Q1VTY0_9FLAO/73-421   QITRWLTIAITLVQGPGYIINLYNILPSSAFLMD---------------STFTFVVSSVI
+Q1NYZ7_9FLAO/72-422   NITKVLTILISLIQAPVYITILISSNIKENPYNLIli---------hcKKIFI--ITSII
+A5KHP6_CAMJE/62-402   QIIRYATIVITLVQSIGVAIGLQSLHG--RGGAGVim--------vedLNMFI--ALCAI
+A4EA78_9ACTN/52-389   QYSRYLTLALAILNSVGYLFLFKSFGISFNGAGA---------------PEIIFDLMIVG
+Q2GEC0_NEOSM/73-411   FYSKLVALFLAFFQGFIIVAGLERTKAFVGGNEE---------------FYSLLKYTSVL
+Q3YRM8_EHRCJ/72-412   NYIRYMTIFFCIVQGSVILLGLEKMNS-----ENSivv-------idpGLLFR--IVGIS
+Q5GSW3_WOLTR/77-416   SYIRYMTIVFCIFQSVTILIGLERM-------NREgtlv-----viepGVMFR--TVGIF
+Q0ANS0_MARMM/83-421   QYTRYLTVLLATGQAFAIAIGMNTPNS---EGVALal---------npGPFFL--ASTVI
+A7IPQ0_XANP2/80-418   QYTRYLTVVLAVFQAYGIAVGLEG-------SGSVva---------dpGWFFR--ITTVI
+SECY_RICCN/70-411     QLSRYLTVLLASFQAYGVAISLESIVT---NTGPVvi---------laGFFFR--ITTVI
+Q2G8W0_NOVAD/80-430   QYTRYGAVLLTAIQGWVLASGLEAYGA--SSGLQAvv---------npGLLFR--VGAVI
+A6E0Q6_9RHOB/73-411   QYTRYGTVALATLQSYGLAVSLQSGD------MVSn-----------pGMFFI--ASCMI
+Q1UZE8_9RICK/67-404   QITRYGTVILATIQGYGLSIGLQSSAD-----LVIn-----------pGLFFT--ITAVS
+Q3R245_XYLFA/76-424   QYSRIGAVILAVIQGGSIALALQNQTA--PGGAAVvy---------apGAAFV--MTAIV
+A4NK90_HAEIN/76-416   KYTRYATVVFATIQAVAISTGLPNM-----LSGLVp----------nvGFSFY--FTSVV
+Q057C4_BUCCC/64-407   QYTKYITFFLSIIQSIGVVISLPFLPGMKNIIVF---------------ADCYFYIIAVV
+Q8D1Z2_WIGBR/82-424   KYTRYGTLFLAIIQSISISISLPNMPG---MQELIi----------nkGIEFY--ITTIT
+Q6F7T2_ACIAD/83-426   QYTRYGTLLLALVQGVGMCAGLIS-------QGITl----------tsGLAFY--IPAVT
+Q6Q8W8_9GAMM/67-407   QYTRYGTAILAFIQASALAVTLSA-------SGLAy----------vpGPTFF--VSAVF
+A9BRX1_DELAS/74-413   QYTRYGTLGLAIFQSLGIAVALESSAG-----LVLs-----------pGFGFR--LTAVV
+Q7DDS8_NEIMB/73-410   KYTRYGTVLLAILQSLGVASFVFQ-------QGIVv----------tsSFEFH--VSTVV
+Q5NHU8_FRATT/74-416   QYTRYLTLALAIVQSFGIVAFVLHQ------DGLVtt---------nnMALFY--LTTIV
+Q7WZR8_9GAMM/64-388   SYLRYLTFMLSVIHSLVVSILFLEKSV-----VYY------------kKSVVY--LTIIL
+A5EX98_DICNV/69-412   QYTRYFTLFLAIMQGFAISRTVMAAGMTISAGS-----------------GFL--LTATI
+Q6MJ32_BDEBA/70-415   QYTRYATVALAIIQGYGISTWLMNSTS--PDGHPLvia------ptvaFLPFQ--IMTII
+B5EFS0_GEOBB/71-411   QYTRYGTIVLAVVQAFGISIGLEAMRG--PAGELVvp---------npGWGFR--LMTVI
+A3EVQ1_9BACT/75-412   RYTRYLTVLIALVQSFGIALGLEGMNNGQ---FVPh-----------pGWSFR--FIVVI
+Q1MPP6_LAWIP/71-412   QYTRYGTVIITLIQGIGIAIGLESMYS--PTNIPIvl---------epGWVFR--IVTVL
+SECY_AQUAE/71-412     EYTKYLTLFVATVQSLGIAFWIRGQVS--PKGIPVve---------npGISFI--LITVL
+Q01WB2_SOLUE/74-438   QWTRYLTIILSILQSFGISQGLMGM------QQGIvi---------npGIGFV--FLTIL
+Q08ZH8_STIAU/26-370   QYTRYGSIVLSVVQGIGISRWLASLGR--SDAGQSgfnqi---vvpddSAWFT--FMTVI
+A6GCG0_9DELT/70-411   QYSRYGTVGLALVQGYFMASWLEGQNT-----PGQtlv-------letGLPFK--LMTML
+Q04PV8_LEPBJ/72-436   QYTKYGTVILCAIQSLAVIQLAKGWST--GTELEParypg--linssvVPYFY--LIGIL
+SECY_BORBU/72-409     KYTKYLTIVAAVVQGYATSLYAKGIPG-----AVTi-----------pFYRYI--FVAIL
+Q73PL2_TREDE/73-413   VWTRIVTVFVALLQSSAVGTWARAIPGAVVISS-----------------PVLHLFITMV
+Q67JW3_SYMTH/69-405   QYTRYGAVVLGLVQAFGIGYALRSYGAFYSNS-------------------WTTLFVIMV
+A7FQ38_CLOB1/69-409   QYTRYGAVILAVIQAFSTYAIIARAGALRDGS-------------------KLNLFIIII
+A6LPT1_CLOB8/69-416   NATRYVSLGIAFILAYGIFATISSSGATVGLT-------------------AIQKTIVVF
+Q0SQG4_CLOPS/69-409   KITRYASIVIGAITAYGSYVIIHNVGALKSNS-------------------PVSMFLILL
+A9KJH4_CLOPH/71-425   EISRYVTIGLSIIESVAMVIGFSGSGALEGGL------------------TFTNIVVITA
+A7VH89_9CLOT/71-420   AITRFLTIGLAILESAGLAINFGRKGFMDSYN-------------------FWTVLTMIV
+A6BIS2_9FIRM/71-421   AITRYLTVGLALIESGAMAVGFGRQGLLVKYN-------------------FVNAAIVVL
+A7VR33_9CLOT/71-423   AITRYVAVVLGLVQGLAYYLYLRGSSY-----EGTpivty---tegaaGVFTA--IVIVL
+A6NXF0_9BACE/71-437   AITRYTTVAIALLQGFGYFTLINANGLVGSDLP-----------------TWLAGIIIVL
+Q250L2_DESHY/70-413   QYTRYGTVILGFIQGFGMTFGLRGALIIPKPGM-----------------EWAIYLLVAL
+Q8R7X3_THETN/69-402   QYTRYLTVVLALIQAIGMTIGLRSAVINPT---------------------FFRLTVIVI
+A4XLR1_CALS8/69-419   EWTRYGTAILAFLQAVGIYFGLKNAQGLTGGVPVIt----------tqGQGFLGFITITL
+A3DJJ2_CLOTH/71-411   EYTRYGAVVLGFLQATAFYFGLAQAVNERN---------------------VLSFITITL
+A8MLG0_ALKOO/69-408   QYQRYATIILALIQATGISVGLFRGALINQD--------------------TFSIIVVIL
+Q18CH6_CLOD6/69-406   KYTKYTALALAVVQALGITLGIVRSALISNS--------------------VFFITTVVI
+B8D0S8_HALOH/72-406   QYTRYGTVVLAIIQAFGITMLIGRHNVIVNPN-------------------LFNLMLIVI
+
+A9B431_HERA2/73-422   --IMVSGSMFLVWMGELIDE-RGI-G-NGLSMIIFGGIV-TALPSM--------------
+A8CRX1_9CHLR/78-422   --SIVAGTMFMVWLGEQITS-YGI-G-NGISLIIFAGIV-AGLPDM--------------
+A2Y4E5_ORYSI/132-498  --FLVLGAMTMTWICDTISE-SGF-G-HGSSLIICVGIL-TGYTDT--------------
+Q7UZW2_PROMP/80-422   --ALVTGSMIVMWFSEIITE-KGI-G-QGASLVIFLNIV-ATLPKA--------------
+Q7NKT4_GLOVI/79-416   --ALTAGAIFVMWLGELITE-KGI-G-NGASLLIFVSIV-SSLPTA--------------
+SECY_GUITH/68-404     --TLTIGSMLIMWFSEQITE-KGI-G-NGPSLLIFINII-SGLPKL--------------
+SECY_CYACA/62-394     --ILISGAMLVMWLADNISY-KGI-G-TGASVIIFVNIA-SAFAKF--------------
+Q85FU6_CYAME/42-325   --LIVSGAMLVMWLAEQMTH-KGI-G-NGTSIFVCSNIA-ANF-----------------
+A0T0J6_PHATR/72-407   --WLTTGAMIVLWLSELITD-YGL-G-NGASLLIYTNII-SSLPNL--------------
+SECY_CYAPA/109-459    --ALTLGAVIVMIIAEQITE-IGL-T-NGSSLLIFINII-ARIPNS--------------
+Q4G351_EMIHU/63-407   --SLTVGSILSMWFAELITE-ESL-G-NGSSMIIFINIV-GGIPNN--------------
+SECY_PAVLU/66-404     --AVTTGSLVLVWLSEVITE-RGI-G-NGSSLLILIGNL-SRFRFLin------------
+Q6B8X0_GRATL/62-395   --ALGTGSLIIMWFAEIITE-YGI-G-NGASLLIFQNII-SGIPKN--------------
+SECY_ANTSP/62-390     --SLTTSSMIAMWFSEIISE-YGV-G-NGPSLLIFQNII-SSIPKN--------------
+A4RW47_OSTLU/65-398   --ALTAGAMILMYIGELLNE-IKL-G-NGTSLLIFANIV-SALPSS--------------
+A7PFA4_VITVI/131-465  --LLTLGSVLTTYIGERISD-LKL-G-NGTSLLIFTSII-SYLPAS--------------
+A7HM32_FERNB/75-404   --SLVAGTMFLLWIGDRITE-KGI-G-NGVSIMIFAGIV-SRYPAY--------------
+A3CK84_STRSV/69-416   --LLATGSMIVTWLGEQITD-KGY-G-NGVSMIIFAGIV-SAIPDMik------------
+Q5FM71_LACAC/68-415   --IMTAGTMLLTWLGDEITD-KGL-G-NGVSVIIFAGII-ARLPSGlw------------
+Q03ZM6_LEUMM/68-416   gsVMTIGTFFAMWLGEMITE-KGL-G-NGVSMIIFAGII-AQAPEGfy------------
+SECY_STAA8/69-413     --VLTAGTAFLIWLGDQITQ-FGV-G-NGISIIIFAGIL-STLPAS--------------
+Q4MG72_BACCE/68-415   --VLTAGTAFLLWLGEQITA-NGV-G-NGISMIIFAGLV-AAIPNVan------------
+Q6F1X5_MESFL/92-454   --VMLAGSYFMLWIADQITI-KGV-G-NGISIVIFIGII-VQLPNQik------------
+Q6KI36_MYCMO/87-436   --ILIAGTVFSIFIGDQITD-KGV-G-NGTTLLIFTGIV-ITLPTQft------------
+Q4A5I3_MYCS5/83-437   --ILISASLFALFLSEQITN-KGV-G-NGTSIIIMTGIA-ARLPFQmq------------
+Q98Q01_MYCPU/90-438   --ILVAGSLFTLFLSEQITD-KGI-G-NGTSLIIFSGIS-LSLPSQfr------------
+Q4AAF9_MYCHJ/85-434   --VLVAGSLFSLFLAEQITD-KGV-G-NGTSLLIFSGIV-VGLPRRfq------------
+Q9PQP1_UREPA/76-434   --LMVGGTYISLFLADLISK-KGV-G-NGITLLILTGIV-ASLFNHfi------------
+SECY_MYCGE/81-430     --AMTAGTYMAVFLGDTISK-KGV-G-NGITLLILSGIL-SQLPQGfi------------
+Q8EUD2_MYCPE/81-433   --GMTAGTYLTIFISDIISK-RGV-G-NGVTLIILSGIV-ASIYPNft------------
+Q7X4E3_9MOLU/69-399   --FLTVGVFISIWLADLITS-KGL-G-NGISILIAVGMV-DKLFKT--------------
+Q5Q069_ASTYP/59-398   --IATAGVAILIWFADLINS-KGI-G-NGTSILIVVSMS-HSLINLfa------------
+O21257_RECAM/57-372   --FLVIGSCFLYFFAKLINI-YGI-G-KGLSFIIFINIV-GSFIDI--------------
+Q74NB9_NANEQ/69-457   --QLMLGVILAYLLDDLSQK-WGF-T-SGINLFILATVS-RELFVQlfnpltqip-----
+Q2EMT2_METVO/30-379   --QLAIGAILLIYLDEIVSR-YGI-G-SGIGLFIAAGVS-QTIFVGalg-----------
+A5UL65_METS3/72-433   --QLVIGAILIIYLDEVISK-WGF-G-SGIGLFIAAGVC-EAIIVGtfsfipg-------
+SECY_METTH/73-436     --QLTIGGILIIFLDEVVSK-WGF-G-SGVGLFIAAGVS-QEIIVGafnplsap------
+SECY_PYRAB/72-448     --QLAFGGIILIVLDELVSK-WGI-G-SGISLFIAAGVS-QRILTRslnpltdpnii---
+Q8TZA9_METKA/75-435   --QLALGGILVIFLDEVVSK-WGI-G-SGVGLFIVAGVS-SQIIIGafnplpsp------
+Q9HIT0_THEAC/82-514   --QLFFGSYLVFLMDEVVSK-YGI-G-SGISLFIAADVS-EQLFIGafnwqalnnal---
+Q2QAQ7_9EURY/161-583  --QLFIGSLLVFLLDELVSK-WGI-G-SGISLFIAAGVA-QSTFVGtlsplavnpg----
+Q0W1W5_UNCMA/75-487   --QVALGGVLILYMDEIVSK-WGI-G-SGVSLFIVAGIA-QALVGGifnwnppypgqamg
+SECY_ARCFU/73-471     --QLFIGGVLIVYMDEVVSK-WGI-G-SGVSLFILAGIA-QSIVVGlfnwvipp------
+Q8TRS4_METAC/72-470   --QIFIGGTLILFMDEVVSK-WGI-G-SGVGLFIVAGIS-QQIVTGifnwefe-------
+A0B9U7_METTP/75-515   --QVCLGGVLILYMDEVVSK-WGI-G-SGVGLFIVAGVS-QQLVTGlfnwatg-------
+SECY_HALMA/73-468     --QMFVGGVLILFMDEVISK-WGV-G-SGIGLFIVAGVS-QRLVGGlltapf--------
+Q2FSG8_METHJ/73-458   --QICIGGVLIFLMDEVVTK-WGI-G-SGVGLFIIAGIS-EAIINGfinwapv-------
+A2SPM5_METLZ/73-458   --QICIGGVLVMFMDEVVSK-WGI-G-SGVGLFIVAGVA-QGLINGffnweat-------
+A0RUE4_CENSY/79-457   igQLMASSIIIMFLDELIQKgWGL-G-SGISLFIMAGVA-QQILWSlfsplpa-------
+A8ME75_CALMQ/77-461   --QMLFGAVIVILLDDLISKgWGI-G-SGISLFILISII-RSIFQStfmpvtv-------
+A3MUZ2_PYRCJ/70-435   --QLLLATVIILLLDDLMSKgWGI-G-SAISLIIFLGVS-RQIFLSlfswdtvqd-----
+SECY_SULSO/73-449     --QLIVATYLILLLDELIQKgWGL-G-SGVSLFILAGVM-KIMFWDmfgiasvs------
+SECY_SULAC/74-443     --QLIIASYIILLLDEMIQKgWGL-G-SGVSLFIMAGIM-KVIFWNmfgivsvq------
+A2BME2_HYPBU/73-444   --QLVFATLVLMWFDEMIRNgWGI-G-SALSLFIVASVV-KGLFWQlagstkvat-----
+SECY_AERPE/73-434     --QLFLGALLVIYFDEVMQKgWGI-G-SAISLFILAGVA-QGVVWSifgtipg-------
+A1RWR3_THEPD/75-456   --QLFVASTFVILMNDMLEKgWGI-G-SAVSLFIAAGVA-QQIFWElfspigpl------
+SC61A_SCHPO/76-459    --QLAAASLIVLLLDELLQKgYGL-G-SGISLFIATINC-ENIFWKafspttyhi-----
+A7E5Q2_SCLS1/76-459   --QLVVAGLIVILLDELLQKgYGL-G-SGISLFIATNIC-ESIIWKafspttint-----
+Q5KC69_CRYNE/75-459   --QLVSASLIVILLDELLTKgYGL-G-SGISLFIATNIC-ESIVWKafspntvnt-----
+SC61A_ASHGO/75-460    --QLVFASFIVLLLDELLIKgYGL-G-SGISLFTATNIA-EQIFWKafapttvnn-----
+Q59MJ6_CANAL/76-459   --QLVFASTIVILLDELLQKgYGL-G-SGVSLFTATNTC-EQVFWKafapttsts-----
+A7SJW4_NEMVE/75-458   --QLFCAGLIVLLLDELLQKgYGL-G-SGISLFIATNIC-ETIVWKafspatint-----
+A0CFY2_PARTE/73-456   --QLTFAGVIVTMLDEMLQKgYGL-G-SGISLFIATNVS-ENILWKsfspitlst-----
+Q22MG2_TETTH/151-538  --QLTFAGIIVILLDDLLSKgHGL-GnSAISVFIAINIC-ETIIWKsfspitypip----
+A0CU87_PARTE/77-460   --QLVFSAIVMIMIDELLSKgYGI-GnSGTSLFIAINIC-ENIMWKafspithkt-----
+Q7RLN0_PLAYO/121-506  --QLFFAGVVVILLDELLQKgYGL-G-SGISLFIATNIC-ETIMWKsfspttint-----
+Q4QGX4_LEIMA/77-467   --QLMVATMICILLDELLQKgWGI-G-SGTSLFIATNVC-DTIIWKafspstint-----
+A5JEK2_NOSBO/75-457   --QLIFSGVIIILLDELLQKgYGL-G-NGVNLFIASNVC-ESIMWRafspkvfft-----
+A2DH65_TRIVA/75-462   --QLVSSAIVVILLDELCQNgYGI-G-SGISLFICTNIC-EMIMWRlfsfnhysm-----
+Q2QM98_ORYSJ/88-448   --QLFAGGVVVVLADLLHETgYGVeGvSAASLLIATNAC-ERAVSHlfspvklrl-----
+Q6AV46_ORYSJ/86-471   --QLVLGGMVAIFLDELLQKgYGF-G-SGISLFTAANTC-EGVVTRalspatmdr-----
+Q6C854_YARLI/70-454   --QLTAAGLVLILLGEIVDKgYSF-G-SGSGLFTALSVS-QNFMWQnlallkvhqefvgs
+SSH1_YEAST/78-465     --QLVGAGIFTTLLAEVIDKgFGF-S-SGAMIINTVVIA-TNLVADtfgvsqikvg----
+Q6BT20_DEBHA/78-475   --QIVTMSFVTTLMVEIFDKgYCF-G-SGVLCFVALQVA-TNLIRDvvglelvslp----
+A5DE75_PICGU/20-414   --QVFVMSAVMTLLVEVFDKgYGF-G-SGILCFIALQAA-SDLVKNiiglevvkla----
+A3GFV9_PICST/78-476   --QFLSWSFIITLIVEVFDKgYAF-G-SGALSFLALQTA-TNLIAElvgleifpin----
+A5DWJ5_LODEL/34-436   --QIFTWQIVLTLIVEIFDKgYGF-G-SGILSFLALQNA-TSFIAElvglemfpvv----
+Q5A2C9_CANAL/5-404    --QITAWSWIVTLLVEIFDKgYSF-G-SGILCFLAIQSS-TNFIANllglenfpvv----
+Q74L41_LACJO/64-372   --ILSAGSCLVVWLCYRNMK-YGV-G-ASAPVILTSILN-GAIP----------------
+B3XPQ8_LACRE/65-377   --MLTAGSMFVVWLGNMNMK-FGI-G-GTITLILFNIIS-GSIP----------------
+A1C3L4_STRPA/70-403   --LLTTGTFILNWLCKINSE-RGI-G--GMTVVILVNMI-LTFQSN--------------
+Q3DVD6_STRAG/65-395   --ILVTGAYIISWIGNLNAE-YGF-G--GMTILVVVGML-VGQFNN--------------
+A5LN99_STRPN/64-389   --LLIAGTFFLVWLSDLNAS-MGI-G--GSIVILLSSMV-LNIPQD--------------
+A3CM55_STRSV/64-391   --VLMAGTYFLIWLTDLNAA-MGL-G--GSIMIVMASMI-AYIPQD--------------
+Q03HZ8_PEDPA/65-396   --VLVAGAMIVAWMSDMITK-YGI-G--GSGVLILPGMI-DSIPRV--------------
+A5IW80_STAA9/64-384   --ILVTGTMLLVWLADKNSR-YGI---AGPMPIVMVSII-KSMMH---------------
+Q4L9N9_STAHJ/61-383   --ILVAGTMLLVWLADQNIT-YGI---CGPMPIVLTSLI-KSLFNN--------------
+Q5HKR3_STAEQ/61-380   --VLITGTLLMVWLADQNTT-YGI---SGPMPIVLMSLV-KSIFN---------------
+Q9RSK8_DEIRA/68-413   --TQVAGIAFTMWIGERITE-VGI-G-NGISLIITAGII-AVYPRE--------------
+Q5SHQ8_THET8/71-413   --TQVAGIALLLWMAERITE-YGI-G-NGTSLIIFAGIVvEWLPQ---------------
+SECY_CORGL/73-424     --TMTAGAVLVMWMGELITE-KGV-G-NGMSLLIFAGIA-TRLPTDgm------------
+A8LB12_FRASN/74-414   --TMTAGTAVIMWMGELITA-RGV-G-NGMSLLIFTSIA-AALPSQgg------------
+Q83NQ1_TROW8/73-424   --VMTAGTGLIMWLGELITE-RGI-G-NGMSILIFTSIA-AGFPGV--------------
+Q8G3Z9_BIFLO/74-421   --IMTGGTGLIMWMAELVTD-KGI-G-QGMSILIFMSIC-SGF-----------------
+A7B9M4_9ACTO/72-414   --VMMAGTGVIMWLGELITE-RGI-G-NGMSLLIFTSIA-ARLPEQ--------------
+SECY_CHLTR/73-433     --VMITGTLLLMWVGEQISD-KGI-G-NGISLIITLGIL-ASFPSV--------------
+Q1AU49_RUBXD/70-408   --TLTTGVMVTMWFGELITQ-RGL-G-NGISLIITASIL-SQAPNA--------------
+Q8RIH6_FUSNN/75-411   --TLTAGTVFLMWVGEQISI-KGI-G-NGVSLIIFLNVI-SRAPSS--------------
+A6DRC9_9BACT/79-428   --IVTASAILIMWLGEQITD-KGL-G-NGASIIITINVL-SSMPQA--------------
+C0ACZ0_9BACT/94-454   --FMTAGTMLLTWLGEQITQ-RGI-G-NGISLLITIGII-SDLPGA--------------
+Q1Q157_9BACT/75-434   --LLTTGTMILMWIGEQIEE-HGI-G-SGISIVIMVGII-ERLPWAf-------------
+A6CGP8_9PLAN/77-435   --TMTTGTVFLMWIGEQIDA-YGI-G-NGISLLIMAGIL-ARMPQAgw------------
+B4S5A8_PROA2/73-417   --ILTASTVFVMWLGEKITE-RGI-G-NGISLIIMIGIL-ARFPQS--------------
+Q2S3P5_SALRD/75-414   --VLTSGTAFVMWLGERISE-DGI-G-NGISLIITIGII-AFLPQA--------------
+A1ZGT4_9SPHI/72-404   --ILTAGTVFTMWLGEKIDD-RGI-G-QGISLLIMIGII-SRLPQS--------------
+A6EHP4_9SPHI/71-408   --VLAAGTLFVMWLGEKITD-KGI-G-NGISLIIMVGII-ARLPIA--------------
+Q11QD2_CYTH3/72-411   --TLISGTMFCMWIGERITE-KGI-G-NGISMLIMIGIV-SRLPFA--------------
+Q1VTY0_9FLAO/73-421   --ILTTGCIFAMWLGEKITD-KGI-G-NGISLLIMVGII-ATLPQA--------------
+Q1NYZ7_9FLAO/72-422   --CITTGTFFTMWLGEKIND-KGI-G-NGNSLIIISGIL-SRFIYS--------------
+A5KHP6_CAMJE/62-402   --SMLAGTMLLMWLGEQITQ-RGI-G-NGISLIIFAGIV-SGIPRA--------------
+A4EA78_9ACTN/52-389   --TLTAGAMLIMWIGELITQ-RGI-G-NGMSLIIFANIM-AGLPQA--------------
+Q2GEC0_NEOSM/73-411   --TLVCGTFSLIWLGQQINS-RGI-G-NGMSLIIFAGIV-AEMPAI--------------
+Q3YRM8_EHRCJ/72-412   --SLLGGTMFLLWLGERINK-NGI-G-NGVSMIIFTGIV-AELPGS--------------
+Q5GSW3_WOLTR/77-416   --SLLGGTMFLIWLGEQISA-SGI-G-NGISLIIFTGII-SELHNA--------------
+Q0ANS0_MARMM/83-421   --TLVGATMLLLWLGEQITA-RGV-G-NGVSLIIFAGII-SAVPGV--------------
+A7IPQ0_XANP2/80-418   --TLTGGTMFLMWLGEQITS-RGI-G-NGTSLIIFGGIV-AELPGA--------------
+SECY_RICCN/70-411     --TLVVGTMLLMWLGEQITQ-RGI-G-NGTSLIIFIGII-SGVPSA--------------
+Q2G8W0_NOVAD/80-430   --SLIGGTMFLLWLGEQITS-RGI-G-NGVSLIIMAGIV-AQMPKF--------------
+A6E0Q6_9RHOB/73-411   --TLIGGTMFLMWLGEQITA-RGV-G-NGISLIIFVGII-AEVPAA--------------
+Q1UZE8_9RICK/67-404   --TIVAGTMFLMWLGEQITQ-RGI-G-NGISLIIFAGIV-AEIPRA--------------
+Q3R245_XYLFA/76-424   --ALTAGTVFLMWVGEQVTE-RGI-G-NGVSMIIFAGIV-AGLPGS--------------
+A4NK90_HAEIN/76-416   --SLVTGTMFLMWLGEQITE-RGI-G-NGISILVFGGIV-AGLPSA--------------
+Q057C4_BUCCC/64-407   --SLVTGTIFLMWLGELITT-KGV-G-NGVSLIIFSGII-SGLPAS--------------
+Q8D1Z2_WIGBR/82-424   --SLVTGTIFLMWLGEQITS-RGI-G-NGISILIFSGII-AGLPIE--------------
+Q6F7T2_ACIAD/83-426   --SLVAGTMFLMWLGEQITE-RGI-G-NGISMIIFAGIV-AGLPNQ--------------
+Q6Q8W8_9GAMM/67-407   --SVVAGTMFLMWLGEQVSD-RGI-G-NGISIIIATSIL-TGIPGA--------------
+A9BRX1_DELAS/74-413   --SLTAGTMFLMWLGEQITE-RGL-G-NGISILIFGGIA-AGLPSS--------------
+Q7DDS8_NEIMB/73-410   --SLVTGTMFLMWLGEQITE-RGI-G-NGISLIITAGIA-SGIPSG--------------
+Q5NHU8_FRATT/74-416   --SVTTGSMFLMWLGEQITE-RGV-G-NGISLLIFSGIV-ANLPFE--------------
+Q7WZR8_9GAMM/64-388   --TFVTGAIFLMWLGEQITD-KGI-G-NGISLIILSGLV-SVIPNA--------------
+A5EX98_DICNV/69-412   --GLTAGALFMMWLGEQITE-RGI-G-NGISMLIFGGIA-VNMPSG--------------
+Q6MJ32_BDEBA/70-415   --TLTAGTCFIMWLGEQITE-RGI-G-NGTSLIIFTGIA-AAIPGG--------------
+B5EFS0_GEOBB/71-411   --TLTAGTAFIMWLGEQMSE-KGI-G-NGISLIIFAGIV-ARIPTA--------------
+A3EVQ1_9BACT/75-412   --TLTAATTFVMWIGEQITE-RGV-G-NGISLIIFSGII-ARLPAA--------------
+Q1MPP6_LAWIP/71-412   --TLTAGTVLIMWLGEQISE-KGI-G-NGISLIIFSGIV-VGIPGA--------------
+SECY_AQUAE/71-412     --TLVAGTMFLVWIADRITE-KGI-G-NGASLIIFAGIV-ANFPNA--------------
+Q01WB2_SOLUE/74-438   --SLTTGTAFIMWLGEQISE-RGV-G-NGMSLIIFTGIV-VGLPNA--------------
+Q08ZH8_STIAU/26-370   --SLTAGTAFIMWLGERITE-RGI-G-NGISLIIFAGIV-AGLLPN--------------
+A6GCG0_9DELT/70-411   --SLTAGTCFLMWLGEQITE-RGI-G-NGISLIIFAGII-ADMPTA--------------
+Q04PV8_LEPBJ/72-436   --SITTGTVLLIWLGEQITE-RGI-G-NGISLLIFAGII-GRLPES--------------
+SECY_BORBU/72-409     --TVTTGTFILLWFGEQINQ-RGV-G-NGTSLIIFSGIV-VRLQAA--------------
+Q73PL2_TREDE/73-413   --TVTTGTMITVWMGEQITA-RGI-G-NGISMLIFAGIV-ARLPQA--------------
+Q67JW3_SYMTH/69-405   --SLTAGTALVMWIGEEITE-KGI-G-NGISLIIFANIV-SRLPYS--------------
+A7FQ38_CLOB1/69-409   --TVTTASTFLMWFGDKITE-KGI-G-NGISLIIFVNIV-SRFPST--------------
+A6LPT1_CLOB8/69-416   --ALVVGTTFCMWLGDQLTV-KGI-G-NGTSILIFVNII-SRVPAT--------------
+Q0SQG4_CLOPS/69-409   --TLVVGSTFLMWLGDQITV-KGV-G-NGTSLIIFANIL-SSLPMT--------------
+A9KJH4_CLOPH/71-425   --SFTAGSAILMWLGERITE-KGV-G-NGISVILLINIV-ANMPRD--------------
+A7VH89_9CLOT/71-420   --ILTGGSAFVMWLGERVTD-RGV-G-NGISIILLINIV-STMPND--------------
+A6BIS2_9FIRM/71-421   --TLTAGSAFLMWIGERITE-KGV-G-NGISIVLVINII-SRIPSD--------------
+A7VR33_9CLOT/71-423   --VFTAGTAMMMWLGEQINQ-KGI-G-NGISILLFAGIV-ARLPDTvn------------
+A6NXF0_9BACE/71-437   --TFTAGSAFVMWLGEQITE-FGI-G-NGISIILFAGIV-SRFPSM--------------
+Q250L2_DESHY/70-413   --ILTAGTAFLMWLGERITE-NGI-G-NGISLIIFAGIV-AGVPDA--------------
+Q8R7X3_THETN/69-402   --TLTAGTTFLMWLGERITE-NGL-G-NGSSLIIFAGII-SRIPNM--------------
+A4XLR1_CALS8/69-419   --ALTAGTVFLMWIGEQITE-NGI-G-NGISLLIFAGII-SRIPNG--------------
+A3DJJ2_CLOTH/71-411   --TFTAGTAFLMWLGEQITE-YGI-G-NGISLLIFAGIV-SRGPRG--------------
+A8MLG0_ALKOO/69-408   --TLTAGTAFLMWLGEQITE-KGI-G-NGISLLIFAGII-ASLPSS--------------
+Q18CH6_CLOD6/69-406   --TLVSASMLVMWIGDKITE-KGI-G-NGSSVIIFAGII-SRIPTD--------------
+B8D0S8_HALOH/72-406   --SLTAGTAFLMWLGEQITD-KGI-G-NGISIIIFTSII-SRFPSY--------------
+
+A9B431_HERA2/73-422   ------------------VY---QAITTSS----------------------SGNNVIG-
+A8CRX1_9CHLR/78-422   ------------------IG---RGLMASD-------------------------QFAG-
+A2Y4E5_ORYSI/132-498  ------------------LH---KMLTQFS---------------------GNWYSCWH-
+Q7UZW2_PROMP/80-422   ------------------LS---STIEKAQ--------------------TGDRGDVLG-
+Q7NKT4_GLOVI/79-416   ------------------FS---QTFQLLQ---------------------ADSSRVAG-
+SECY_GUITH/68-404     ------------------LQ---SQIQSTR----------------------LNIQALD-
+SECY_CYACA/62-394     ------------------LL---NQLFVHS------------------------IKFLD-
+Q85FU6_CYAME/42-325   ------------------LH---HPIEAPW------------------------------
+A0T0J6_PHATR/72-407   ------------------SK---TILSENS-----------------------QNFTLG-
+SECY_CYAPA/109-459    ------------------IE---QLFNSNI------------------NWT--FPMISS-
+Q4G351_EMIHU/63-407   ------------------LSslsKTFSAAN----------------------LASAIPL-
+SECY_PAVLU/66-404     ----------------kdDF---DSLNVSS------------------------QSNLY-
+Q6B8X0_GRATL/62-395   ------------------IQ---NYKINIY----------------------DKQTIIN-
+SECY_ANTSP/62-390     ------------------LQ---NYTFNIG----------------------TTNTVLN-
+A4RW47_OSTLU/65-398   ------------------VG---QTVSMAQ----------------------EKGDSSV-
+A7PFA4_VITVI/131-465  ------------------FG---RTVAQAF----------------------QDGNYIG-
+A7HM32_FERNB/75-404   ------------------FR---SAVLG-------------------------NLNIFG-
+A3CK84_STRSV/69-416   ----------------giYE---DYFVNIP-------------------SERLTSSFIF-
+Q5FM71_LACAC/68-415   ----------------qiYK---EEIINNS------------------ASDR-WQGILF-
+Q03ZM6_LEUMM/68-416   ----------------eiFK---ENILQAD------------------SSDM-LNGWIF-
+SECY_STAA8/69-413     ------------------LI---QFGQTAF-----------------vGQEDTSLAWLK-
+Q4MG72_BACCE/68-415   ----------------qiYL---QQFQNAG--------------------DQLFMHIIK-
+Q6F1X5_MESFL/92-454   ----------------atYD---FWIPSNE------------------SINVFFDGIIK-
+Q6KI36_MYCMO/87-436   ----------------atFN---ALVGEQQ------------------RVSSLSNGIVT-
+Q4A5I3_MYCS5/83-437   ----------------naFK---IFVGDLS-------------------QSGTLVGILN-
+Q98Q01_MYCPU/90-438   ----------------aaFN---VLVGTNK--------------------TTLFTGLIH-
+Q4AAF9_MYCHJ/85-434   ----------------haFE---YLVDLSF-------------------SSSLISQVLS-
+Q9PQP1_UREPA/76-434   ----------------aiFS---NLGSLTS---------------------SKVSQIIG-
+SECY_MYCGE/81-430     ----------------aaYN---VLSGIVI------------------TLTPQLTAAIS-
+Q8EUD2_MYCPE/81-433   ----------------svFQ---VLTGSSQ-------------------ISNQLLRYFS-
+Q7X4E3_9MOLU/69-399   ------------------FK---YLLSNSN-----------------------GFETQR-
+Q5Q069_ASTYP/59-398   ----------------nlNK---SYLSKNT---------------------FLTLKTFN-
+O21257_RECAM/57-372   ------------------FY---KYLIQIE-----------------------TLNVKY-
+Q74NB9_NANEQ/69-457   ---------gtptppigkIP---QIFYFIS-------------------QGLYTEAIVV-
+Q2EMT2_METVO/30-379   --------------pqgyLW---KFFSALV-------------------SGSMGPALEY-
+A5UL65_METS3/72-433   ----------pggvyggaIP---AFIQSFW-----------------------SSSIDF-
+SECY_METTH/73-436     ---------tqpgvpagrIT---GFLYLLF-------------------TGQSPDFQYY-
+SECY_PYRAB/72-448     ------dpltgkpaivgaIP---YFIQHIL--------------------KGDLKGALYr
+Q8TZA9_METKA/75-435   ---------qqpgrpagaVW---AFLYSAM---------------------QGTPDWTL-
+Q9HIT0_THEAC/82-514   -------tysltnppagaFP---KMFYIIMhss-----------ssylLT-NGVVQILF-
+Q2QAQ7_9EURY/161-583  -------ayglqnppagtLP---MIFYTLRtat-----------fsemVTANGFESILLg
+Q0W1W5_UNCMA/75-487   lnvdiaglgarenlpigiIF---RWEWLLNnig-----------lsqlLTGENLIVLLY-
+SECY_ARCFU/73-471     ----------nsampagiIP---RWIWIAQnyp-----------ldqlFTGSGLAFLLI-
+Q8TRS4_METAC/72-470   -----------eglpvglIP---KWIYIAQntg-----------adylFSGEGLMFLLV-
+A0B9U7_METTP/75-515   ----------dgglpigiVP---KWISIIRlgli---------gldeiFTAEGLKFIFV-
+SECY_HALMA/73-468     -----------lgnsegiIY---TWYLFITgerg----------tgpvLAADGLQTVLL-
+Q2FSG8_METHJ/73-458   ----------ndmypvgfFP---RLFAVVL---------------------DGANFIQY-
+A2SPM5_METLZ/73-458   ----------tdqfavgfFP---RLFQVIA---------------------DGSNFIEY-
+A0RUE4_CENSY/79-457   ----------gdgfavgiFP---FIGQWAS------------------VGMGNFEDIFFr
+A8ME75_CALMQ/77-461   ----------gagellgiIP---ALVAAVYsa-------------avsHTLAPLLSIVYr
+A3MUZ2_PYRCJ/70-435   --------sngntqvfglLP---ALGVALYdl-------------ftsGNANTLLGLVNr
+SECY_SULSO/73-449     ----------sqnlpigfFP---ALFTALA-------------------SHSDVLNLIVn
+SECY_SULAC/74-443     ----------sqnlpvgfFP---LLVSYIT-------------------SGRNLQEIVLn
+A2BME2_HYPBU/73-444   --------pegqpvyygwLA---HVVSTGD-----------------------LGVLRR-
+SECY_AERPE/73-434     -----------vaqdyglVP---AIISNPD-----------------------LTLLARp
+A1RWR3_THEPD/75-456   ----------gdglyyglFP---SLFSALV-----------------sGNSTLLMHVVVr
+SC61A_SCHPO/76-459    ---------angvqfegaVI---NFVYVMFt---------------wdNKAAALYQAFFr
+A7E5Q2_SCLS1/76-459   ---------grgpefegaVI---ALFHLLLt---------------wpNKQRALQEAFYr
+Q5KC69_CRYNE/75-459   ---------grgpefegaII---ALIHLLFt---------------wnDKTRALKEAFYr
+SC61A_ASHGO/75-460    ---------grgtefegaVV---ALFHLLSv---------------rkDKKRALVEAFYr
+Q59MJ6_CANAL/76-459   ---------akgtefdgaVV---AMFHLLGs---------------rkDKKRALIESFYr
+A7SJW4_NEMVE/75-458   ---------grgtefegaVI---ALFHLLAt---------------rtDKVRGLREAFYr
+A0CFY2_PARTE/73-456   ---------eagtqfegaII---NFFHLLFt---------------kqNTLQALYYAFFr
+Q22MG2_TETTH/151-538  --------gfekeqyegaIL---NLFHSLFa---------------idNKFVALQNAFYr
+A0CU87_PARTE/77-460   ---------elgleyegaII---ALLHGLFv---------------qsDKISALQSAILr
+Q7RLN0_PLAYO/121-506  ---------dkgiefegaII---SLIYCLFt---------------efNKISALKKSFYr
+Q4QGX4_LEIMA/77-467   ---------grgaefegaII---AFFHLLVs---------------rtDKVRALREAFYr
+A5JEK2_NOSBO/75-457   ---------grgiefegsLI---AFFHLLIv---------------rkNKFAALYEAFFr
+A2DH65_TRIVA/75-462   ---------grgteyeglVI---AFFHYLFt---------------rkNKLRALRDIVFr
+Q2QM98_ORYSJ/88-448   --------agagpefegpVF---AVTHRVAaap-----------pswrHKAGALLFTLLr
+Q6AV46_ORYSJ/86-471   ---------grgaefvgaVT---AAAHLLAt---------------raRKLSAVREAFFr
+Q6C854_YARLI/70-454   ---ipallmglwknglfnFG---GSYRYVI-------------------ENSFFRQNLP-
+SSH1_YEAST/78-465     --------eddqteaqgaLI---NLIQGLRsk--------------hkTFIGGIISAFNr
+Q6BT20_DEBHA/78-475   --------nsnkfesygaAM---NFIKNFR-----------------iNFKSLNYNVLN-
+A5DE75_PICGU/20-414   --------nsnkfesvgaLM---NLIRSFSf----------------kTLGKNIYNSFNr
+A3GFV9_PICST/78-476   --------nsnkfesygaLI---NFTRNFSfdi-----------skigTNVYNSFTRLQ-
+A5DWJ5_LODEL/34-436   -------nntlkfeslgaLL---NLVRNFSif-------------sptTTINQIWHAFTr
+Q5A2C9_CANAL/5-404    --------nsnkfesygaLM---NLIKNFSif-------------npkQTVYQIWHSFFr
+Q74L41_LACJO/64-372   -----------------------NIISNVK------------------LLLTMKYAWIW-
+B3XPQ8_LACRE/65-377   -----------------------TLLRSIK------------------MLAKQSYGPLW-
+A1C3L4_STRPA/70-403   ------------------II---RYFSVQQ------------------------FKFSS-
+Q3DVD6_STRAG/65-395   ------------------IP---LIFELFQ-----------------------DGYQLA-
+A5LN99_STRPN/64-389   ------------------VL---ETFQTVH------------------------IPTGI-
+A3CM55_STRSV/64-391   ------------------IW---NSIQELK------------------------ISSLW-
+Q03HZ8_PEDPA/65-396   -----------------------LLYGQGL----------------------GSGAVFF-
+A5IW80_STAA9/64-384   -----------------------QKMEYID------------------------ASHIV-
+Q4L9N9_STAHJ/61-383   -----------------------QHFFKLS------------------------VSVLL-
+Q5HKR3_STAEQ/61-380   -----------------------THFPKLN------------------------SSASL-
+Q9RSK8_DEIRA/68-413   ------------------IA---ATAQLLR---------------------SEQTTLLS-
+Q5SHQ8_THET8/71-413   ------------------IL---RTIGLIR---------------------TGEVNLVA-
+SECY_CORGL/73-424     ----------------niLG---------------------------------NSGGVV-
+A8LB12_FRASN/74-414   ----------------riLQ---------------------------------VAGGVV-
+Q83NQ1_TROW8/73-424   ------------------LV---GVYQT--------------------------RGFGM-
+Q8G3Z9_BIFLO/74-421   ------------------LP---QLWEIGY------------------GTNGTDGDWLK-
+A7B9M4_9ACTO/72-414   ------------------LL---SIGQA--------------------------GKWGS-
+SECY_CHLTR/73-433     ------------------LGsifNKLNLGS------------------QDPS-EFGIVS-
+Q1AU49_RUBXD/70-408   ------------------VR---TLIE--------------------------DGSVLT-
+Q8RIH6_FUSNN/75-411   ------------------VI---QTIQTMQ----------------------GNKFLIP-
+A6DRC9_9BACT/79-428   ------------------FA---AVYSK-Y------------------QE-G-EWNLVQ-
+C0ACZ0_9BACT/94-454   ------------------MGtlwTLLRAPV------------------GT-Q-GISMIS-
+Q1Q157_9BACT/75-434   ----------------nqIV---QNFTFSV------------------APAEHQIGIVK-
+A6CGP8_9PLAN/77-435   ----------------slIE---PAFEKGI------------------ALGT-DTGIDR-
+B4S5A8_PROA2/73-417   ------------------VI---AEFQSVS---------------------LGSKNWII-
+Q2S3P5_SALRD/75-414   ------------------LY---NEIGLI------------------------GDNFFI-
+A1ZGT4_9SPHI/72-404   ------------------LV---EEVVARS---------------------T-GSQVLI-
+A6EHP4_9SPHI/71-408   ------------------LY---QEITSRI---------------------VSDGGLIA-
+Q11QD2_CYTH3/72-411   ------------------LM---AEVSSKN-----------------------LEGALP-
+Q1VTY0_9FLAO/73-421   ------------------FI---QEFISRV--------------------TESNGGLIL-
+Q1NYZ7_9FLAO/72-422   ------------------II---SEIFNRL------------------KNNNKLLGIII-
+A5KHP6_CAMJE/62-402   ------------------IS---GTVGQ-I------------------NS-G-EMNFLT-
+A4EA78_9ACTN/52-389   ------------------IF---SSTE------------------------GNAGGIIT-
+Q2GEC0_NEOSM/73-411   ------------------FG---NLFSGIG---------------------SPGSGILG-
+Q3YRM8_EHRCJ/72-412   ------------------FS---SMFLL--------------------GKNG-NVPIFV-
+Q5GSW3_WOLTR/77-416   ------------------FS---FLLT--L------------------NKNG-SMSLLI-
+Q0ANS0_MARMM/83-421   ------------------IG---GALSQ-A------------------SS-T-GDGTVL-
+A7IPQ0_XANP2/80-418   ------------------FV---RTLQL-G------------------RE-G-AISTPL-
+SECY_RICCN/70-411     ------------------II---SMFEL-S------------------RK-G-ALS-PL-
+Q2G8W0_NOVAD/80-430   ------------------FG---NLFEG-G------------------RT-G-SISPFL-
+A6E0Q6_9RHOB/73-411   ------------------LA---QFFAS-G------------------RS-G-AVSPAV-
+Q1UZE8_9RICK/67-404   ------------------LV---TTFEL-G------------------RT-G-AVSTIM-
+Q3R245_XYLFA/76-424   ------------------VL---QTIDA-F------------------RS-D-ALSLIS-
+A4NK90_HAEIN/76-416   ------------------IL---QTIEQ-A------------------RQ-G-QMHPLV-
+Q057C4_BUCCC/64-407   ------------------VI---RTYKLIK---------------------IKNFSFLY-
+Q8D1Z2_WIGBR/82-424   ------------------VI---KSIEQ-A------------------RQ-G-NLNIIT-
+Q6F7T2_ACIAD/83-426   ------------------VI---QAFTS-V------------------QN-G-QGSLIG-
+Q6Q8W8_9GAMM/67-407   ------------------IG---QALEQ-S------------------RQ-G-DLSILL-
+A9BRX1_DELAS/74-413   ------------------IG---GLLEL-V------------------RT-G-AMSILA-
+Q7DDS8_NEIMB/73-410   ------------------IA---KLVTL-T------------------NQ-G-SMSMLT-
+Q5NHU8_FRATT/74-416   ------------------IS---NTLSQ-A------------------NQ-H-VISYLS-
+Q7WZR8_9GAMM/64-388   ------------------LG---RTLFLTI------------------KD-S-SWMYIQ-
+A5EX98_DICNV/69-412   ------------------IL---GLFNQAK---------------------IGEIGYGR-
+Q6MJ32_BDEBA/70-415   ------------------AQ---QLWEL-V------------------RT-G-EMRFAL-
+B5EFS0_GEOBB/71-411   ------------------IG---NSFRL-I------------------KT-G-ELSLFV-
+A3EVQ1_9BACT/75-412   ------------------II---NTYKL--------------------YNQG-EISGFL-
+Q1MPP6_LAWIP/71-412   ------------------IV---KTYQL-I------------------IL-G-DMNILI-
+SECY_AQUAE/71-412     ------------------VI---QFYEK-V------------------KT-G-DIGPLT-
+Q01WB2_SOLUE/74-438   ------------------IA---NIYQH-V------------------FTIH-DWGAIT-
+Q08ZH8_STIAU/26-370   ------------------GK---TLLDM-T------------------AQ-G-AIEAAA-
+A6GCG0_9DELT/70-411   ------------------SY---QLAQKAI------------------DDPE-NFGPLP-
+Q04PV8_LEPBJ/72-436   ------------------MV---QLFST-----------------------D-TMDALN-
+SECY_BORBU/72-409     ------------------LF---NLFQS-M------------------QDPSQNVNPVF-
+Q73PL2_TREDE/73-413   ------------------VW---ELIKLVS---------------------NNELNLVF-
+Q67JW3_SYMTH/69-405   ------------------IY---NEILL--------------------LRAG-QRNIFQ-
+A7FQ38_CLOB1/69-409   ------------------IY---SIVGL--------------------QKAE-TVNFVE-
+A6LPT1_CLOB8/69-416   ------------------IA---SMMTL--------------------QQAG-SASIVE-
+Q0SQG4_CLOPS/69-409   ------------------GY---QIYNL--------------------SKIG-KINVVE-
+A9KJH4_CLOPH/71-425   ------------------IY---GLIEKFV------------------LGESVVKGVTA-
+A7VH89_9CLOT/71-420   ------------------FK---NIYTQFI------------------KDKDPVRMCLI-
+A6BIS2_9FIRM/71-421   ------------------MK---TLFDQFV------------------KGKAIASACLA-
+A7VR33_9CLOT/71-423   ----------------ilVQ---ALQAAWQ------------------APDSFGQYYFF-
+A6NXF0_9BACE/71-437   ------------------LM---NMVQGVQrwsmhlsdeeisamsngeAFRNSLVHPAM-
+Q250L2_DESHY/70-413   ------------------IK---RIAGL--------------------LSVG-EINVFS-
+Q8R7X3_THETN/69-402   ------------------IY---LTHEY--------------------IKAG-TSNIFG-
+A4XLR1_CALS8/69-419   ------------------AV---SLWNYVA-----------------kLNEFSLTSIIG-
+A3DJJ2_CLOTH/71-411   ------------------ILylwDLYRLER------------------LGKG-ILGIFG-
+A8MLG0_ALKOO/69-408   ------------------LF---TTFAL--------------------TKAG-QINPLA-
+Q18CH6_CLOD6/69-406   ------------------VI---KISQQ--------------------VKSG-EVAPWV-
+B8D0S8_HALOH/72-406   ------------------IH---RNWEL--------------------YKTG-DITALN-
+
+A9B431_HERA2/73-422   --------G--------ILLLIVTLAT-VVGIVLITEGQRRIPVQYAKR---VRG-----
+A8CRX1_9CHLR/78-422   --------L--------AVYAFMALLT-TVLIVIFTEAHRRIPVQYAQT---VIRs----
+A2Y4E5_ORYSI/132-498  --------Y--------ILGIAGTFILvTMGAVLVTEGCRKIKLQYYGF------klasg
+Q7UZW2_PROMP/80-422   --------I--------AVLLGVFLLT-IVGIIFVQEGARRIPIVSAKR---QIG-----
+Q7NKT4_GLOVI/79-416   --------V--------VVLLLVFLAM-IVGIVFVQEGTRRIPIISARR---QVG-----
+SECY_GUITH/68-404     --------I--------FVLVFIFSVM-IIGIIFIQEGIKRIPIISARQ-----------
+SECY_CYACA/62-394     --------F--------ASYFALIVFS-IACIVFVQEAIRKVPIISAKQ-----------
+Q85FU6_CYAME/42-325   -----------------SLAMVVLIFT-MLGMIALQEAVRAIPILSAKQ-----------
+A0T0J6_PHATR/72-407   --------S--------EIGIVLLIFTsLYGIVFLQEGVRIIPLISSKQ---LNQ-----
+SECY_CYAPA/109-459    --------L--------ILSLSLSFIT-MFVIIGLQESGRPVPVLIARQ---EAErqkfn
+Q4G351_EMIHU/63-407   --------L--------LTGLGIYLGI-VLIIIFFQESYKKITIVSAKQlnlTTS-----
+SECY_PAVLU/66-404     --------I--------IYIIITLVSM-LIFSTLSQEGARKIPVVSAKQ-----------
+Q6B8X0_GRATL/62-395   --------G--------SFLFLLFVLI-LIINILIQECKRKIMIVSAKQ-----------
+SECY_ANTSP/62-390     --------G--------SLILSFGIII-LIINILIQEGERKIAILSAKQ-----------
+A4RW47_OSTLU/65-398   --------L--------AVFFGAFALT-TLGIVYVQEAERKIPMNYSTR-----------
+A7PFA4_VITVI/131-465  --------L--------VIIIISFFLL-VLGIVYVQEAERKIPLNYASR-----------
+A7HM32_FERNB/75-404   --------W--------IFLIAVAIFM-VVAIIYVQQAERRIKIEYATR---MVGr----
+A3CK84_STRSV/69-416   --------V--------GILIVAVLLI-IYFTTFVQQAEYKIPIQYTKV-----------
+Q5FM71_LACAC/68-415   --------F--------IAVIVAILIV-TQLVTWVEQADRRIPIQYTRR---ATI-----
+Q03ZM6_LEUMM/68-416   --------V--------VVLVIAMILV-VAFTTWSYEGTRRLQMQYTRS---ATS-----
+SECY_STAA8/69-413     --------V--------LGLLVSLILL-TVGAIYVLEAVRKIPIQYAKK-----------
+Q4MG72_BACCE/68-415   --------M--------LLIGLVILAI-VVGVIYIQQAVRKIPIQYAKA---VSGn----
+Q6F1X5_MESFL/92-454   --------F--------SIYMLVFFVV-IFSVVLMNEAERKVPIQQTGS---GLI-----
+Q6KI36_MYCMO/87-436   --------F--------ISYVFGFIIL-MYIIGFVYNAERRIPIQQVGA---GRA-----
+Q4A5I3_MYCS5/83-437   --------F--------VTYIFIYLAC-LMVIGIFYNAERRIPIQQTGA---GRS-----
+Q98Q01_MYCPU/90-438   --------F--------LLYLFGYLLL-IVIIVFVYLAERRIPIQQTGA---GLS-----
+Q4AAF9_MYCHJ/85-434   --------F--------ILYIFGFLLI-LLIAIYVYLAERKIPIQQTGS---GMS-----
+Q9PQP1_UREPA/76-434   --------F--------ILYILFYIMI-LIGVVFVNNSTRKIPVQQTGQ---ALI-----
+SECY_MYCGE/81-430     --------F--------FIYFLAFLVL-LFATTFITQATRKIPIQQSGQ---GLV-----
+Q8EUD2_MYCPE/81-433   --------F--------AVYLVFFFLI-LLATTFVNGSVRKIPIQQIGQ---GLS-----
+Q7X4E3_9MOLU/69-399   -----------------ILILVSYFVL-LILTIILSSAYLKIPINYAXN-----------
+Q5Q069_ASTYP/59-398   --------F--------ACIVLLLLLF-LIFTVVVQITSLKIPINYARN-----------
+O21257_RECAM/57-372   --------L--------VFLLFVQCLFcGIIYFYIDFLFLKIPIIKLNF------vg--n
+Q74NB9_NANEQ/69-457   -----------------GLQLLVIVLV-ILLSVYFYMVKIPIPTSFGKI-----------
+Q2EMT2_METVO/30-379   -----------------ILPILATIAV-FFVVVYAESIRVEIPLAHGRV-----------
+A5UL65_METS3/72-433   ---------s------vLIPLIATAAV-FFVVVYGESMRVEIPISHGSV-----------
+SECY_METTH/73-436     -----------------VLPVLALIAV-FLVVVYAESMRVEIPISMGGG-----------
+SECY_PYRAB/72-448     ------ggTa-----pdMMAVIATIIV-FLVVVYFESMRVEIPLGYRGV-----------
+Q8TZA9_METKA/75-435   -----------------LAPVIGAIIT-FLIVLYVEGMRVEIPIAFAGI-----------
+Q9HIT0_THEAC/82-514   -------sPp-----npMIAVLGTLLI-FFLVAYFQSSKIELPISHERV-----------
+Q2QAQ7_9EURY/161-583  d-----aaHp-----naVVALFSSVVV-FLVVAYAESSKLELPLTHGKV-----------
+Q0W1W5_UNCMA/75-487   ---------q-----geILALLATIII-FLLIVYVESTRIEIPLAHAAV-----------
+SECY_ARCFU/73-471     ---------q-----ggILALITTAAI-ILLVVFFEGTRVEIPLAHAVA-----------
+Q8TRS4_METAC/72-470   ---------r-----ggILALLSTVAI-FLLVVYVESTRIEIPLAHSAV-----------
+A0B9U7_METTP/75-515   ---------t-----ggLLALISTVGI-ILLVVLVESTRIEIPLAHSRV-----------
+SECY_HALMA/73-468     ---------q-----geLLGLFTTVLI-FAVVVYAESVRVEIPLSNARV-----------
+Q2FSG8_METHJ/73-458   --------Fg-----tdLIAFITTIAI-FILIVYVESTRVEIPLAHTQV-----------
+A2SPM5_METLZ/73-458   --------Fg-----lqLLALVTTVGL-FFIIVYVESTRIEIPLAHANV-----------
+A0RUE4_CENSY/79-457   ------ynQl-----psIFGLLLTGGV-LLILVYTQGMKIEIPIVSTKY-----------
+A8ME75_CALMQ/77-461   -------fNl-----pgLIGLIATIVL-GGFIAYVELMEVRIPLSFVQY-----------
+A3MUZ2_PYRCJ/70-435   pl--tvntYl-----pdFVGLVATILL-GYIILYLEMMKVNIPVASAQY-----------
+SECY_SULSO/73-449     tstknlfq-p------dLVGLVTTIAL-IIITIYLTTMTIEIPVTSQKL-----------
+SECY_SULAC/74-443     tssttpyq-p------dLIGLIATVGL-TILIVYLVNTNIYIPVTTQRL-----------
+A2BME2_HYPBU/73-444   --------Gm-----pdMVGFLATIAI-IMVLIYFQLMRVYIPVTSPRY-----------
+SECY_AERPE/73-434     -------nGf-----pdLTGFFTTLAA-IILLVYLQAMRVEIPITSERF-----------
+A1RWR3_THEPD/75-456   ------psGy-----pdLVGFVGMVVM-LLLLTYMESMKITIPVSSVRF-----------
+SC61A_SCHPO/76-459    sgltssqiQl-----pnLWNFFATLLV-FGVVIYLQDFRVEIPIRSQKF-----------
+A7E5Q2_SCLS1/76-459   -------qSl-----pnIMNLLATIVV-FAAVIYLQGFRVEIPVKSSRQ-----------
+Q5KC69_CRYNE/75-459   -------dRl-----pnIMNLLATVAV-FAAVIYLQGFRIEIPIKSSKM-----------
+SC61A_ASHGO/75-460    -------dYl-----pnMFQVLSTVFV-FLFVLYLQGFRYELPVRSTRT-----------
+Q59MJ6_CANAL/76-459   -------pNl-----pnMFQLLATLLV-FFAVVYLQGFRIELPMKSTRQ-----------
+A7SJW4_NEMVE/75-458   -------qNl-----pnLTNLIATIFV-FGIVIYFQGFRVDLPIKSARY-----------
+A0CFY2_PARTE/73-456   -------eSa-----pnLNNLLATLFV-ISLVIYLQGFRVEVPLASQKI-----------
+Q22MG2_TETTH/151-538  -------sHl-----pnLASLISTALI-FIVVVYFQGFKVDIALKNDRV-----------
+A0CU87_PARTE/77-460   -------dSl-----pnLTNLLATVLV-FLIVIYFQGFKVDIPIKNNKV-----------
+Q7RLN0_PLAYO/121-506  -------tHa-----pnVTNLLATILV-FLIVIYLQGFRVDLSVKYQTV-----------
+Q4QGX4_LEIMA/77-467   -------pQl-----pnLTNIFSTAVV-FAVVVFFQGFRVPLMTKSKFN-----------
+A5JEK2_NOSBO/75-457   -------qNl-----pnMFSLVSTVVL-FAFVIYLQGLRVELKTESTQV-----------
+A2DH65_TRIVA/75-462   -------pQl-----pnLCQLFSTVIV-FGACVYFDQIKINIGLETTVN-----------
+Q2QM98_ORYSJ/88-448   -------lDl-----pnLSNYMTTCVM-FVLAVRLDETHLRRLYRSRPR-----------
+Q6AV46_ORYSJ/86-471   gg---gggSl-----pdLRGLAATCAV-FLAAVYLQGVRVALPVRPRNA-----------
+Q6C854_YARLI/70-454   --------N--------LLQLYMSVAV-FMLTIYLNTFRVDIPIKSSRV-----------
+SSH1_YEAST/78-465     -------dYl-----pnLTTTIIVLAI-AIIVCYLQSVRVELPIRSTRA-----------
+Q6BT20_DEBHA/78-475   --------SftrsqlpnLSQFYIVLVT-VLVLIGVQNYRIELPIRSTKV-----------
+A5DE75_PICGU/20-414   -------eHl-----pnLTQVYITIVT-LLVVVALQNFRIELPIRSTRA-----------
+A3GFV9_PICST/78-476   --------Lp------nFTSFYITVAT-TLAVVYLQNLRIELPIRSTRA-----------
+A5DWJ5_LODEL/34-436   -------vQl-----pnLTQFYITLAT-ILAVVLLQNFRTEISIRSTKV-----------
+Q5A2C9_CANAL/5-404    -------iQl-----pnLTQFYISLAS-ILIVVALQNFRIELPIRSTKV-----------
+Q74L41_LACJO/64-372   --------L--------AALAIFILLL-IKFWLAFTKAYYPLKVVNPSL-----------
+B3XPQ8_LACRE/65-377   --------L--------FLAAIAGCIV-LVFWVSFNRAYYPLKMINTSM-----------
+A1C3L4_STRPA/70-403   --------Li-----qyGLVFFVALSIlIWFNILLYKGEYRIPIQRVGL-----------
+Q3DVD6_STRAG/65-395   --------I--------ILFLLWTLVA-MYLMITFERSEYRIPVMRTSI-----------
+A5LN99_STRPN/64-389   --------I--------VLLALLTLVF-SYLLALMYRARYLVPVNKIGL-----------
+A3CM55_STRSV/64-391   --------L--------ALMLVFSLVF-LYLAVTVERSKYRIPVNKINI-----------
+Q03HZ8_PEDPA/65-396   --------Tp-----klWLVLIISVAVvVIFTIFINKAELRIPLQRPFV-----------
+A5IW80_STAA9/64-384   -----------------IALLIILVIItLFILLFIELVEVRIPYIDLMN-----------
+Q4L9N9_STAHJ/61-383   -----------------LILVIVTLVIaLLILLFIELSEYRLNYKDIMN-----------
+Q5HKR3_STAEQ/61-380   -----------------ITMIIVLLVLaLFILFFIELTEYRIEYNDIMN-----------
+Q9RSK8_DEIRA/68-413   --------I--------LAFIAVILVT-IAGIVYIYQAERRVPVTYARArggAAGq----
+Q5SHQ8_THET8/71-413   --------F--------LFFLAFIVLA-FAGMAAVQQAERRIPVQYARK---VVGr----
+SECY_CORGL/73-424     --------F--------AVVLASVLIL-VIGVVFVEQGQRRIPVQYAKR---MVGr----
+A8LB12_FRASN/74-414   --------F--------GLVILLGLAI-VVFVVFVEQSQRRIPVQYAKR---LIGr----
+Q83NQ1_TROW8/73-424   --------F--------STVVITSLVV-MVGVVFVEQSQRRVPVQYAKR---VVGr----
+Q8G3Z9_BIFLO/74-421   --------F--------GIVVGVLVVI-LIFVDFVELCQRRVPVQYTRR---MIGr----
+A7B9M4_9ACTO/72-414   --------V--------AAIVALLLLV-AIAVVYVEQAQRRIPVQYAKR---MIGr----
+SECY_CHLTR/73-433     --------L--------LILCAVFVFV-LMATVLIIEGMRKIPVQHARR---IIGr----
+Q1AU49_RUBXD/70-408   --------M--------VILGIIAVMI-VAAIVFVNEGQRRIPITYAKR---QVGr----
+Q8RIH6_FUSNN/75-411   --------L--------LVLVAFLGTVtIAGIVLFQLGQRKIPIHYVGK---GFSs----
+A6DRC9_9BACT/79-428   --------I--------LVVVGILFIV-TAATVALVQGMRKIPLKYARD---ASSr----
+C0ACZ0_9BACT/94-454   --------L--------TFMVILFFAV-TMGIIMVVQGQRKIPVQYAKR---VVGn----
+Q1Q157_9BACT/75-434   --------L--------LILLGMFFAI-VGGVVYITQGQRRIPIQQAKH---TRGr----
+A6CGP8_9PLAN/77-435   --------L--------LILALVFVFV-VVWVIAITQGQRRIPIQSAKH---VRGr----
+B4S5A8_PROA2/73-417   --------E--------FIILALMVLI-VAAVVVLTVGTRRIPVQHAKR---VVGr----
+Q2S3P5_SALRD/75-414   --------L--------LVEIGVWVLV-AGAVVLVSQGMRRIPVQYAKR---VVGk----
+A1ZGT4_9SPHI/72-404   --------L--------ILEMVVLFFV-VMSVVMLTEATRRIPIQYAKQ---VVGn----
+A6EHP4_9SPHI/71-408   --------L--------VLEIVALFAV-VMFTIMIVQGVRKVPVQYAKR---IVGn----
+Q11QD2_CYTH3/72-411   --------L--------LIEFAALFAV-IMLVVLVQQATRRIPIQYTKQ---IAGg----
+Q1VTY0_9FLAO/73-421   --------I--------LIELVIWFVI-ILAAVMLVRAVRQIPVQYARK--nASGk----
+Q1NYZ7_9FLAO/72-422   --------L--------LFELFIWLLI-IGISIIIINFVKKIHIQYVNKfylKNYs----
+A5KHP6_CAMJE/62-402   --------A--------FAIFALILIT-IGVIIYVELGERRIPISYSRK---VVMq----
+A4EA78_9ACTN/52-389   --------M--------VIICAIILLV-IPLIVFLERGQRRIPVSYAKR---VVGr----
+Q2GEC0_NEOSM/73-411   --------I--------FVSLSLLVFV-VFLVVLVERASKNIPVHYPRR------rt--w
+Q3YRM8_EHRCJ/72-412   --------I--------LLMVLIFFAL-LLLIIFVEKSYRKILVQYPKR---QVKn----
+Q5GSW3_WOLTR/77-416   --------I--------LFVFVLFFLL-LLLIIFVESSYRKVTVQYPKK---QFK-----
+Q0ANS0_MARMM/83-421   --------V--------VGGVLILVG--LLLVVFVERSQRRLLVQYPKR---QQGn----
+A7IPQ0_XANP2/80-418   --------I--------LAALVLAVVV-IAFIVFMERAQRRLLIQYPKR---QVGn----
+SECY_RICCN/70-411     --------I--------AIAVCIGVVVlIAIIIFFERAQRKLLVQYPKR---QVGn----
+Q2G8W0_NOVAD/80-430   --------I--------FGIVIMLIAL-VIGICFLERATRRLLIQYPKR---ATQr----
+A6E0Q6_9RHOB/73-411   --------I--------VGVMLMVVAV-IAFVVFMERSLRKIHIQYPRR---QVGm----
+Q1UZE8_9RICK/67-404   --------I--------IGIFVLLVAT-IMFIVFMERALRKILINYPKR---QMGn----
+Q3R245_XYLFA/76-424   --------L--------LIIVFIVLSF-TFFVVFVERGLRRIAVNYARR---VEGr----
+A4NK90_HAEIN/76-416   --------L--------LLIAAIVFAV-TYFVVFVERGQRRIRVEYAKR---QQGr----
+Q057C4_BUCCC/64-407   --------V--------FFLLLIIFFV-IFIVVFIEKSQRKIIVCYARR---QQGr----
+Q8D1Z2_WIGBR/82-424   --------V--------LISIILVFVI-TYFVVFIERGQRRVIVNYAMR---QKGr----
+Q6F7T2_ACIAD/83-426   --------I--------VVFALLSLAV-LAAIVFIEKAQRRIPVNYAQK---QQGr----
+Q6Q8W8_9GAMM/67-407   --------L--------IGIGLLSMAV-IAVVVFIERGQRRITVNYAQR---QQGr----
+A9BRX1_DELAS/74-413   --------A--------IFIVLVVAAV-TYFVVFVERGQRKILVNYARR---QVGn----
+Q7DDS8_NEIMB/73-410   --------A--------LFIVFGALLL-IYLVVYFESAQRKIPIHYAKR---QFNg----
+Q5NHU8_FRATT/74-416   --------V--------WVLLILLLLV-IAFVVFMESAQRKITVNYAKR---QQGr----
+Q7WZR8_9GAMM/64-388   --------I--------FKVVSLVLIT-IILVVVIESGQIRIKVSYPRR---LIGk----
+A5EX98_DICNV/69-412   --------F--------FLLLGIIVSL-FALIVYVERAQRRIKIHYAKR-----------
+Q6MJ32_BDEBA/70-415   --------V--------LLLVAFMVAI-IAAVIYMEVAQRRITVQYSQR---QGGg----
+B5EFS0_GEOBB/71-411   --------L--------LLIAAVMFAV-IAAVVFMERGQRRIPIHYAKR---VVGl----
+A3EVQ1_9BACT/75-412   --------I--------LALVVMVFLI-VSSIVFIETARRKIPIQYAKR---LVGn----
+Q1MPP6_LAWIP/71-412   --------A--------LVLMLFMFAV-LTGVVFMERAQRRIPIQYAKR---QLGr----
+SECY_AQUAE/71-412     --------L--------LLIIALIIAI-IVGIVYVQEAERRIPIQYPGR---QVGr----
+Q01WB2_SOLUE/74-438   --------L--------IVLMALMVAV-VAFIVLVERGERRIPVQYAKR---VVGr----
+Q08ZH8_STIAU/26-370   --------L--------VGLAVFMLFI-IAVVVYVERGMRRIPVQYAKR---MAGr----
+A6GCG0_9DELT/70-411   --------L--------AMLLVVVLVV-IAFVVIMERGQRRIPVIYAKR---VVGk----
+Q04PV8_LEPBJ/72-436   --------V--------LILLILLILL-ISLTVLLTQGVRKVPLQYGKQ---MVGr----
+SECY_BORBU/72-409     --------V--------ILIISIFILV-VILIIYEYKAQMRIAIHYARA-----------
+Q73PL2_TREDE/73-413   --------V--------IIAFAMFVGI-IALVVYEQQGQRKIPVHYAKR---VIGr----
+Q67JW3_SYMTH/69-405   --------P--------LLVAVVALLM-VVFVVIINEAVRKIPVEYAKR---VVGr----
+A7FQ38_CLOB1/69-409   --------V--------IVFIVIALAL-FLLVVIMNLGERRIPVQYAGR---AVGn----
+A6LPT1_CLOB8/69-416   --------I--------VLFGVFTVFL-LATILYFSLSERRIPVQYAGK--fASGn----
+Q0SQG4_CLOPS/69-409   --------I--------ALFIFFTLAL-LAGVIYLSLAERRITVQYAGK---AVGn----
+A9KJH4_CLOPH/71-425   --------A--------IIIVAVILLS-VVLIILLNAAQRKIAVQYAKK---VQGr----
+A7VH89_9CLOT/71-420   --------A--------LLVVAIVVCV-TILVCMLQGAERKIPVQYAKK---VQGr----
+A6BIS2_9FIRM/71-421   --------V--------CVIIAIILAL-VVFTVILQDGERRIAVQYSQK---IVGr----
+A7VR33_9CLOT/71-423   --------V--------PLFVIIFLAI-IWVIVFMNDAERRIPVQYAKR---VVGr----
+A6NXF0_9BACE/71-437   --------I--------PLIIIGILAL-VVFIVFINDSERRIPVQYAKR---VVGr----
+Q250L2_DESHY/70-413   --------V--------FGLIVIGLGI-IAGVVFIQEGQRRIQVQYAKR---VVGr----
+Q8R7X3_THETN/69-402   --------A--------IAFVVAELIM-IVLIILATEGQRRIPVQYAKR---VVGr----
+A4XLR1_CALS8/69-419   --------V--------LLFLVMALAI-IVFIIVIQEGERRIPVQYAKR---IVGr----
+A3DJJ2_CLOTH/71-411   --------V--------LGVLLLFVVI-IASVVWVDQAERRIPVQYAKR---VVGr----
+A8MLG0_ALKOO/69-408   --------I--------ILFIVIAIAM-IVAVVAIEAGTRKIPVQYAKR---VVGr----
+Q18CH6_CLOD6/69-406   --------I--------VILAVVILLT-VTGVTFIQEATRKIPVQYAKR---VVGr----
+B8D0S8_HALOH/72-406   --------I--------LFFLVLAVVI-IAGVIFIQQGERRIPVQYSKR---VVGr----
+
+A9B431_HERA2/73-422   --NKvyGGQ--SSH-LPLKVNMAGMIPLIFAQSI--LIFPS---TVASYF-----WNPNG
+A8CRX1_9CHLR/78-422   gKMYrrGG---ESH-IPLRVNSAGMIPLIFASAL--VMLPG---LVASYFmagstEDP--
+A2Y4E5_ORYSI/132-498  aRSEssPVTEVEPY-IPFNINPTGMQPLLTTSYL--LAFPS---IMASIF-----GTQFW
+Q7UZW2_PROMP/80-422   ---NssLLPTRQSY-LPLKLNAGGVMPIIFASAL--IFLPI---TVANVT-----GNPIL
+Q7NKT4_GLOVI/79-416   -PRRqqYQQQQTSY-LPLRVNQGGVMPIIFASSL--LYLPL---TFAQFA-----RN---
+SECY_GUITH/68-404     --LGkgQMDNKTSY-LPLKLNQSGVMPIIFASAV--LVLPA---YLAQLV-----SNEQL
+SECY_CYACA/62-394     --LDstSFYSNDYF-LPLRINQGGVMPIILASSL--LALVD---YVIRYG-----LST--
+Q85FU6_CYAME/42-325   ----liQSIAQVYL-LPMRLNQGGVMPIIFASST--LALLH-------------------
+A0T0J6_PHATR/72-407   --SSlqDSVTSNNY-IPLRFNQAGVMPIILTTTI--LVVPN---YVNNLG----------
+SECY_CYAPA/109-459    ePITeaERRKTQAY-IFFQLLPAGIMPVIFASTIfdLALPA----FTNFL-----LQQG-
+Q4G351_EMIHU/63-407   -AQTqsERLANNSF-IPLKLNQGGIMPLVFSSTI--AVVFM---YPAQIL----------
+SECY_PAVLU/66-404     -LIDgvEDDMRRSY-IPIRFGQAGVVPIIFSSSI--LLFLT---TSIKQL-----PNA--
+Q6B8X0_GRATL/62-395   --LSkfTTSNPRSY-IPLKLNQGGVMPIVFASAT--MALPI---YFSNNI-----EV---
+SECY_ANTSP/62-390     --LGkiNELNHKVI-FLLKLNQGGVMPFVFASAV--VHTFL---FISNNT-----NS---
+A4RW47_OSTLU/65-398   ---FnaGGLAKSSY-LPFKVNSAGVMPIIFASSL--LALPA---TLTRFT-----DNGAV
+A7PFA4_VITVI/131-465  -YTNksGGLQKSTY-LPFKVNSSGVMPIIFSTSS--LALPG---TVSRFT-----GLAAL
+A7HM32_FERNB/75-404   -RIY--GGT--STY-LPIKVNHSGVIPIIFAWAI--ISIPE---AIAQIT-----GA---
+A3CK84_STRSV/69-416   -----aKGAPSSSY-LPLKVNPAGVIPVIFASSI--TAAPA---AIFQVV-----SALGY
+Q5FM71_LACAC/68-415   ------SGS--ESF-LPLKVNVSGVIPVIFASSF--IITPA---TILMAF-----QRTQG
+Q03ZM6_LEUMM/68-416   ------YGS--EAY-LPLKVNVSGVIPVIFASSF--ISTPQ---TVMLAF-----QDKYS
+SECY_STAA8/69-413     --QTaqRLGSQATY-LPLKVNSAGVIPVIFAMAF--FLLPR---TLTLFY-----PDK--
+Q4MG72_BACCE/68-415   nQ----YQGAKNTH-LPLKVNSAGVIPVIFASAF--LMTPR---TIAQLF-----PDSSI
+Q6F1X5_MESFL/92-454   ------DSKDHTPY-LPLKLNNAGVIPVIFASAL--ISTPI---TIAQIIdptasTSTVD
+Q6KI36_MYCMO/87-436   ------KNEKELSY-LPIKINPGGISPIIFALII--ISFPQ---LFASVF-----PISNP
+Q4A5I3_MYCS5/83-437   ------KALKEIGS-LPIKLNPAGIMPIIFAMLV--LSLPT---LIANIL-----PNDNY
+Q98Q01_MYCPU/90-438   ------KNIKEMGS-LPIKVNPAGIMPVIFSMIV--ISFPL---LIAGLL-----DRSTS
+Q4AAF9_MYCHJ/85-434   ------KNIKEISI-LPLKLNPAGIMPVIFALII--VSLPT---LFSGFL-----DRNTS
+Q9PQP1_UREPA/76-434   ------LDHEKLPF-LPIKIMTAGVMPVIFASSV--LAIPA---QVAEFL-----DKQ--
+SECY_MYCGE/81-430     ------SEVKTLPY-LPIKVNAAGVIPVIFASSI--MSIPV---TIAQFQ-----PQT--
+Q8EUD2_MYCPE/81-433   ------KEVDEMPY-LPIKLNAAGVIPVIFASSI--MTIAP---TISQFL-----PSG--
+Q7X4E3_9MOLU/69-399   -----rNNDKIDKY-IPIKLNTSGILPIILADTL--LNVIQ---QISMLF-----SKNG-
+Q5Q069_ASTYP/59-398   -------QSQGKSY-IPLKINSAGVMPVILAFAL--LQPFQ---ILAGVI-----GN---
+O21257_RECAM/57-372   eNDNynYLNYFQKY-QTSSLNLLGILPFILVYSIiyMLKLNlnsFLDLVF----------
+Q74NB9_NANEQ/69-457   --------PEKSLR-YEVRLIYTGNIPVIFAFAF--LHQIL---LIAWVL-----QQLGI
+Q2EMT2_METVO/30-379   --------KGAVGK-YPIKFIYVSNLPVILAAAL--FANFQ---LWGLVL-----YKIGF
+A5UL65_METS3/72-433   --RGhgRIRGSVGK-YPLKFVYASNMPVILTSAL--LVNVS---LLASVF-----QKIGF
+SECY_METTH/73-436     ----krLSRGAVGK-YPLRFIYASNMPVILTSAL--LLNVQ---LLANVF-----QKLGY
+SECY_PYRAB/72-448     ---------TIRGR-YPIRFLYVSNIPIILTFAL--YANIQ---LWARVL-----DRLGH
+Q8TZA9_METKA/75-435   --------RGARGR-FPVRLLYTSNIPVILASAL--FMNVR---LWALAF-----QRMGV
+Q9HIT0_THEAC/82-514   --------RGARGR-YPLQLLYASNIPVILATAL--LANVS---MWTLLF-----WSSPV
+Q2QAQ7_9EURY/161-583  --------RGHRGQ-YPIRLVYASNIPVILMAAL--LANLN---MFTLLF-----WSHPT
+Q0W1W5_UNCMA/75-487   --------RGARGK-FPVKLIYASVLPMILVRSL--QATLE---MVGLLL-----YRNGI
+SECY_ARCFU/73-471     --------RGARGR-FPIKLIYASVLPMIFVRAL--QANVV---ALGQVL-----HARGV
+Q8TRS4_METAC/72-470   --------RGARGR-FPVKLIYASVLPMILVRAL--QANIQ---MVGIIL-----ASRGI
+A0B9U7_METTP/75-515   --------RGARGR-FPVKLVYASVLPMILVRAL--QANIE---MLGALL-----TAKLG
+SECY_HALMA/73-468     --------KGARGR-FPVKLIYASVLPMILVRAL--QANIQ---FLGRIL-----NAQLG
+Q2FSG8_METHJ/73-458   --------RGARAR-FPVKLIYASVLPMILVRVL--QANVQ---MIGLFL-----NNIGI
+A2SPM5_METLZ/73-458   --------RGARSR-FPVKLVYASVLPMILVRVL--QANVQ---MIGMFL-----SSIGF
+A0RUE4_CENSY/79-457   --------RGFSAT-YPIKLMYVSNIPVILASAL--TANAI---FIGQMF-----WSNFN
+A8ME75_CALMQ/77-461   --------GGYKMS-YPFKVMYVSVLPIIFTAYT--VALIYnglYFIWTTynphnANALL
+A3MUZ2_PYRCJ/70-435   --------RGIKFT-IPLRFVYVSVLPIIFTTYS--LLLVG-------------------
+SECY_SULSO/73-449     --------RGIRRT-IPLNFLYVSSIPVIFVAVL--GSDIQ---LFASLA----------
+SECY_SULAC/74-443     --------RGIRTT-VPLNFLYVSSIPVIFVSVL--GADIQ---LFASLA----------
+A2BME2_HYPBU/73-444   --------GSIKTR-IPLNFIYVTNIPILFVAIA--VSDIK---VFEIVI-----ASLLG
+SECY_AERPE/73-434     --------KGIRSR-VPLQFIYVTNIPILLVGIL--VSDLL---LVQRLL-----ADYLG
+A1RWR3_THEPD/75-456   --------GGAKTR-IPLKFLYVSVMPVILVGAL--YANVV---MFTQAL-----WPRVN
+SC61A_SCHPO/76-459    --------RGYRST-FPVKLLYTSNTPIMLQSAL--TSNLF---FASRLL-----FNRFS
+A7E5Q2_SCLS1/76-459   --------RGARGS-YPVRLFYTSNMPIMLQSAL--SSNIF---LISQML-----YSRFS
+Q5KC69_CRYNE/75-459   --------RGQRGT-YPVKLFYTSNMPIMLQSAL--TSNVF---LVSQML-----AGRFP
+SC61A_ASHGO/75-460    --------RGQVGS-YPIKLFYTSNTPIMLQSAL--TSNIF---LTSQLL-----YQKFP
+Q59MJ6_CANAL/76-459   --------RGPYGS-YPIRLFYTSNIPIMLESAL--ASNIF---IISQLL-----FMRWP
+A7SJW4_NEMVE/75-458   --------RGQYSS-YPIKLFYTSNIPIILQSAL--VSNIY---VISQMM-----SAKFA
+A0CFY2_PARTE/73-456   --------RGLVSS-HGIKLFYTSNIPMIIQSTL--VQNVY---FLSQLL-----YRRFK
+Q22MG2_TETTH/151-538  --------RGAIQS-YPIKLFYTSNMPIILQSAL--ISNLY---FFSQIL-----YRNFN
+A0CU87_PARTE/77-460   --------RGGLTS-YPIKLFYTSNIPIILQTAL--VSNLY---FLSQIL-----YRNFK
+Q7RLN0_PLAYO/121-506  --------RGQQGT-YPIKLFYTSNIPIILQTAL--VSNLY---FFSQIL-----YKRFS
+Q4QGX4_LEIMA/77-467   --------GNDRQP-YMIKLFYTSNMPIILQTSV--VSNIS---FFSQIL-----SRRFG
+A5JEK2_NOSBO/75-457   --------RGQTGM-YPVKLLYSSTMPIIVQSYV--ISHIC---TISRFL-----YKRFP
+A2DH65_TRIVA/75-462   --------RARPEP-FEIKLFYCSNTPPIIQSTI--LSQLA---GFSRTI-----YFHWP
+Q2QM98_ORYSJ/88-448   --------RGTDEF-VPIKLLYTSAMPIMLHASA--VSAFC---V---------------
+Q6AV46_ORYSJ/86-471   -------PRSHRGGaYSVRLLYTSGMPVVLLSSA--VSSLY---VVSQAL-----YRRFG
+Q6C854_YARLI/70-454   --------RSLATA-FPVKLLYTGSMCLFLLSAF--SQNVL---IYSQSL-----YVQFP
+SSH1_YEAST/78-465     --------RGTNNV-YPIKLLYTGCLSVLFSYTI--LFYIH---IFAFVL-----IQLVA
+Q6BT20_DEBHA/78-475   --------RGMNNV-YPIRLFYTGALPILFAFTV--LTNLQ---VFGYFT-----STLLN
+A5DE75_PICGU/20-414   --------RGMNNV-FPIRLLYTGALPLAFAYTV--LTNLQ---VLGYIA-----SQLLE
+A3GFV9_PICST/78-476   --------RGMNNV-FPIRLLYTGALPVLFAYTV--IANIQ---YFGYLA-----YVVLQ
+A5DWJ5_LODEL/34-436   --------RGMNQM-FPIRLLYTGGLPVLFAYTV--IANLQ---VFGFIF-----EAALV
+Q5A2C9_CANAL/5-404    --------RGMNNV-FPIRLLYTGGLPVLFAFTV--VANIQ---VVGYLI-----HSVLS
+Q74L41_LACJO/64-372   ------PASSNLMT-VPLGLNMAAMMMYMVGMAI--LTLPL---MVGRYF-----SSSSL
+B3XPQ8_LACRE/65-377   ------SSHDRPII-LPIGLNMGAMMTYMVGMSL--LMVPT---LLANVL-----GPGSL
+A1C3L4_STRPA/70-403   -----nTPYHASSY-LPIRVTPAGAMPFMYGMTL--MMLPPyifVVLLHI----------
+Q3DVD6_STRAG/65-395   -----hNRLVDDAY-MPIKVNASGGMAFMYVYTL--LMFPQyiiILLRSI-----FPTN-
+A5LN99_STRPN/64-389   -----hNRFKRYSY-LEIMLNPAGGMPYMYVMSF--LSVPAylfILLGFI-----FPNH-
+A3CM55_STRSV/64-391   -----hNRFKKYSY-LDIRLNPAGGMPIMYAMTL--VSIPQyflLIIHFL-----QPEN-
+Q03HZ8_PEDPA/65-396   ------QNDFSESY-LPIRVLAAGSMPFMFTTTV--FMIPS---YIGSFV-----PEG--
+A5IW80_STAA9/64-384   -----vSATNMKSY-LSWKVNPAGSITLMMSISA--FVFLK---SGIHFI----------
+Q4L9N9_STAHJ/61-383   -----nSTNKTPTY-LAWKLNPAGSISIMISLSV--YVLLN---NMINLI----------
+Q5HKR3_STAEQ/61-380   -----iSAKDIPSY-LSWKLNPAGSISIMVSLSL--FMLTN---NIVNFI----------
+Q9RSK8_DEIRA/68-413   -ARG--AGQ--ATW-LPIKVNQAGVIPVIFASAM--LIIPN---LIASAT-----ATRA-
+Q5SHQ8_THET8/71-413   -RVY--GGQ--ATY-IPIKLNAAGVIPIIFAAAI--LQIPI---FLAAPF-----QDN--
+SECY_CORGL/73-424     -RQY--GGS--STY-LPLKVNQAGVIPVIFASSL--IYMPV---LITQIV-----NSGSL
+A8LB12_FRASN/74-414   -RMY--GGT--STY-LPIKVNQAGIIPVIFASSL--LQLPQ---LVGQVW-----SNQTF
+Q83NQ1_TROW8/73-424   -RIL--GGG--STY-LPIKLNMAGVVPVIFASAI--LRVPS---IIAQFS-----QPAPG
+Q8G3Z9_BIFLO/74-421   -KMY--GGS--STY-LPLKINMSGVIPPIFASSI--LAIPT---LIAQFG-----KSDQ-
+A7B9M4_9ACTO/72-414   -RQY--GGT--TTY-IPLKINMSGVIPVIFASSI--LALPP---MAAQFG-----SPND-
+SECY_CHLTR/73-433     rEVV--GG---GSY-LPLKVNYAGVIPVIFASSL--LMFPA---TIGQFL-----SSES-
+Q1AU49_RUBXD/70-408   -RMS--QGG--TTY-LPLKVNMAGVIPIIFASSL--LIFPV---VITQFA-----AGGDQ
+Q8RIH6_FUSNN/75-411   -K----GGIGEKSF-IPLRLNTAGVMPVIFASVF--MLIPG---VIVNAL-----PSTL-
+A6DRC9_9BACT/79-428   -NAM--IEK--TSY-LPLKVNHAGVMPIIFASAL--MMFPP---MIINKI-----GG---
+C0ACZ0_9BACT/94-454   -KVM--GGQ--NSF-LPLKVNYSGVMPVIFASAI--LLFPQ---QIFRYL-----GAAFN
+Q1Q157_9BACT/75-434   -RVY--GGQ--RHF-LPLRVNQAGVMPIIFAQSL--LIFPA---AIMQGI-----QIRFE
+A6CGP8_9PLAN/77-435   -RVS--GGQ--RQS-LPLRVNQAGVMPIIFASSL--LMFPY---FLFHGL-----SQYF-
+B4S5A8_PROA2/73-417   -KMY--GGS--TQY-IPMRVNTAGVMPIIFAQSI--MFLPN---TFLSFF-----PES--
+Q2S3P5_SALRD/75-414   -KVQ--GGT--TQY-LPLRVNAAGVMPIIFAQSI--MFIPS---TIASFF-----PNN--
+A1ZGT4_9SPHI/72-404   -RVY--GGQ--RQY-LPLKVNAAGVMPIIFAQAL--MFVPA---LITPYV-----GG---
+A6EHP4_9SPHI/71-408   -RQF--GGV--RQY-IPLKVNAAGVMPIIFAQAL--MFIPA---TLTQFF----------
+Q11QD2_CYTH3/72-411   -KQV--IGQ--RQY-LPLKLIAAGVMPIIFAQSV--MFLPA---IIGSSF-----PDS--
+Q1VTY0_9FLAO/73-421   fEKAsvGGA--RQF-IPLRLNASGVMPIIFAQAI--MFIPA---AVAGLS-----DS---
+Q1NYZ7_9FLAO/72-422   sNEIylRNE--MKF-LPLKVVYPGVMPIIFSQGI--LLIFI---TIFNKI----------
+A5KHP6_CAMJE/62-402   -NQN--KRI--MNY-IPIKLNLSGVIPPIFASAI--LMFPT---TILQTS-----TN---
+A4EA78_9ACTN/52-389   -RMM--GGQ--TTY-LPIKVNTAGVVPIIFASAL--LYFPA---QIAVFF-----PGIG-
+Q2GEC0_NEOSM/73-411   gSTH--GDA--ASN-IPVKINVSGVIPPIFANAL--ILFPL---TLANFS-----AE---
+Q3YRM8_EHRCJ/72-412   -KLY--GSS--STY-IPLKINISGVIPPIFANAL--LLSPI---TVANFH-----QGS--
+Q5GSW3_WOLTR/77-416   -RLH--SDD--FTY-IPLKINLSGVIPTIFANAI--LLTPV---SIANFY-----KGH--
+Q0ANS0_MARMM/83-421   -RMV--GGD--TSF-LPLKLNTAGVIPPIFASSL--LLLPA---TAASFQ-----AQSGP
+A7IPQ0_XANP2/80-418   -RIY--EGQ--SSH-LPLKLNTSGVIPPIFASSL--LLIPT---TIASFL-----QGSGP
+SECY_RICCN/70-411     -KIY--GGE--ATH-MPLKLNTSGVIPPIFASSI--LLFPA---TLANF------SNSNS
+Q2G8W0_NOVAD/80-430   -GMM--AAD--RSH-LPLKINTAGVIPPIFASSL--LLLPL---TITQFA-----GNSIS
+A6E0Q6_9RHOB/73-411   -KIY--DGG--SSH-LPVKVNPAGVIPAIFASSL--LLLPA---TITTFS-----GNTTN
+Q1UZE8_9RICK/67-404   -KMY--GGE--SSH-LPLKINQAGVIPAIFASAL--LLLPV---TFSNFS-----FSDND
+Q3R245_XYLFA/76-424   -NSY--MNK--SSF-LPLKLNMAGVIPPIFASSI--LAFPV---TLSIWS-----GQASS
+A4NK90_HAEIN/76-416   -QIL--GGH--STH-LPLKVNMANVMPAIFASSI--ILFPA---TLTQWF-----GQNDK
+Q057C4_BUCCC/64-407   -RMY--TAH--HSY-LPLKLNMAGVIPVIFSSSL--IVFPS---ILLTYL----------
+Q8D1Z2_WIGBR/82-424   -KIY--AAQ--ITH-LPLKVNMSGVIPAIFASSL--ILFPA---TIASWF-----GEGIG
+Q6F7T2_ACIAD/83-426   -RIF--TAQ--QTH-LPLKINMAGVIPAIFASSL--LLFPA---SLGQWL-----GSADP
+Q6Q8W8_9GAMM/67-407   -RMM--QAQ--QSH-LPFKVNMAGVIPAIFASTF--LLFPA---SLSTWF-----GENES
+A9BRX1_DELAS/74-413   -KVY--GGQ--SSH-LPLKLNMAGVIPPIFASSI--ILLPA---TVVNWF-----SAGES
+Q7DDS8_NEIMB/73-410   -RA---GSQ--NTH-MPFKLNMAGVIPPIFASSI--ILFPS---TLLGWF-----GSADT
+Q5NHU8_FRATT/74-416   -KMF--AAQ--TSH-LPLKLNMAGVIPAIFASSI--LMVPG---VLLGWL-----SNYNS
+Q7WZR8_9GAMM/64-388   -KLY--ATQ--SSY-LPLKLNMAGVIPAIFASSS--LIITA---SVG-------------
+A5EX98_DICNV/69-412   -QQFgtSAMGERFY-LPLKINMAGVIPAIFASAI--ITLLVsglTLASSL-----PGAAG
+Q6MJ32_BDEBA/70-415   -GMQ--SMQTPTSH-LPIKLNISGVIPPIFASSL--LMFPA---TMAQFV-----NT---
+B5EFS0_GEOBB/71-411   -KTV--GAQ--SSH-LPLKVNMAGVIPPIFASSI--IMFPA---TVGNFI-----DV---
+A3EVQ1_9BACT/75-412   -KMM--GGQ--STH-IPFKINTAGVIPPIFASSL--ISFPA---IIAGFV-----SV---
+Q1MPP6_LAWIP/71-412   -KVY--GGQ--STH-LPLRVNTAGVIPPIFASSL--LLFPA---TMASFD-----IS---
+SECY_AQUAE/71-412     -QLY--AGR--KTY-LPIKINPAGVIPIIFAQAL--LLIPS---TLLNFV-----QN---
+Q01WB2_SOLUE/74-438   -RVM--GGQ--STH-MPLKVNAGGVIPVIFASSI--LAFPQ---TLAQFG-----WVKNL
+Q08ZH8_STIAU/26-370   -RMF--AGQ--ATY-FPMKVNTSGVIPPIFAGAL--LSFPA---TLGTWF----------
+A6GCG0_9DELT/70-411   -RMF--GGS--QNY-LPLRINNAGVIPPIFASSI--IMFPA---QIAGMT-----GN---
+Q04PV8_LEPBJ/72-436   -KMV--QAK--SQS-IPFKVNGANVMPIIFASSL--ILFPQ---TIIQWL-----SSSSE
+SECY_BORBU/72-409     -NSN--NTV--SSY-LPIKLNPSGVLPVIFASVL--ITLPL---QILSGF-----AETS-
+Q73PL2_TREDE/73-413   -KMY--GGQ--NTY-IPFKINPSGVIPIIFASSF--LTFPL---MLSQMW-----GSNVS
+Q67JW3_SYMTH/69-405   -RVV--GGQ--RTH-LPIRINQAGVIPLIFASSL--MYFPI---TIAGFF-----PNS--
+A7FQ38_CLOB1/69-409   -KIY--KGQ--STH-IPINVNSSAVIGIIFAISV--MQFPI---TIGQFW-----PESAF
+A6LPT1_CLOB8/69-416   sNMV--KSQ--STH-IPLSIIGSAVLAIIFSMSV--MDFPK---TIATLFggvgeSQKEW
+Q0SQG4_CLOPS/69-409   -KMM--KGQ--STH-IPLSIIGTTVIAIIFAMSV--MSFPT---TIAQFF-----PEAGW
+A9KJH4_CLOPH/71-425   -KMV--GGQ--SSH-IPLKVNTAGVIPVIFAVSI--MQFPI---IIASFF-----GVQPA
+A7VH89_9CLOT/71-420   -KQM--GGQ--SSN-IPLKVNTAGVIPVIFASSL--MAIPS---IITSLF-----GK-SP
+A6BIS2_9FIRM/71-421   -RSY--GGQ--STN-IPLKVNTAGVIPIIFSSSL--MQFPI---VIASFL-----GKDNG
+A7VR33_9CLOT/71-423   -KMY--GGQ--STH-LPIKVNMSGVMPIIFASSI--LTIPS---TIQLFV-----TPT--
+A6NXF0_9BACE/71-437   -KMY--GGQ--SSH-IPLKVNMSGVMPIIFAQAI--ASLPA---TIAAFI-----P----
+Q250L2_DESHY/70-413   -RVY--GGQ--SSH-IPMKVNQAGVIPIIFAISL--LAFPS---TIATWM-----DPAS-
+Q8R7X3_THETN/69-402   -RVY--GGQ--STH-IPIRINMAGVIPIIFAISL--LQFPQ---QLATFF-----PHS--
+A4XLR1_CALS8/69-419   -RVY--GGQ--STH-IPIKVNIAGVIPIIFAISL--VMLPT---TIAQFF-----PNS--
+A3DJJ2_CLOTH/71-411   -KMY--GGQ--STH-IPIKVNMAGVLPIIFATSF--VALPA---TIVGFF----fPNSTH
+A8MLG0_ALKOO/69-408   -KMY--GGQ--SSH-IPLKVNQSGVMPVIFAMSL--LQFPH---TIAYFI-----GSEG-
+Q18CH6_CLOD6/69-406   -KMY--GGQ--SSH-IPMKVNQSGVMPIIFASSL--LAFPQ---TIAMFM-----GPNAQ
+B8D0S8_HALOH/72-406   -KVY--GGR--STH-IPMRINQAGVIPVIFAQAV--LQFPT---VIAAVL-----PY---
+
+A9B431_HERA2/73-422   sg-------------------------ffN---------------GVANFFVNSF-----
+A8CRX1_9CHLR/78-422   ---------------------------------------------NFWNTIYNIFnsgas
+A2Y4E5_ORYSI/132-498  -----------------------------E---------------SLKETLNPKTs--vg
+Q7UZW2_PROMP/80-422   -----------------------------I---------------KIAGSLNPGS-----
+Q7NKT4_GLOVI/79-416   -----------------------------A---------------TVDQVVNAI------
+SECY_GUITH/68-404     -----------------------------R---------------TVLHLFDGTS-----
+SECY_CYACA/62-394     -----------------------------L---------------QAVYFINDIL-----
+Q85FU6_CYAME/42-325   ------------------------------------------------------------
+A0T0J6_PHATR/72-407   -----------------------------L---------------LPKIDLPINF-----
+SECY_CYAPA/109-459    -----------------------------N---------------WGYQ-LIKSF-----
+Q4G351_EMIHU/63-407   --------------------------------------------------LSSALltnaa
+SECY_PAVLU/66-404     -----------------------------N---------------IATRVILDSV-----
+Q6B8X0_GRATL/62-395   -----------------------------P---------------NINNVINLFL-----
+SECY_ANTSP/62-390     ---------------------------------------------KITQFINLFL-----
+A4RW47_OSTLU/65-398   -----------------------------L---------------GVARFLSP-------
+A7PFA4_VITVI/131-465  -----------------------------K---------------KAALALN--------
+A7HM32_FERNB/75-404   -----------------------------Q---------------WAIKLFS--------
+A3CK84_STRSV/69-416   d---------------------------aD---------------WVKTAQSLLA-----
+Q5FM71_LACAC/68-415   d---------------------------qQ---------------WFKV-LNQIF-----
+Q03ZM6_LEUMM/68-416   s---------------------------aQ---------------WYQI-MQQIF-----
+SECY_STAA8/69-413     -----------------------------E---------------WAQNIANAAN-----
+Q4MG72_BACCE/68-415   s----------------------------K---------------WLVANLD--------
+Q6F1X5_MESFL/92-454   s---------------------------aN---------------AFVRFTQHYL-----
+Q6KI36_MYCMO/87-436   f---------------------------rI---------------WVESNLR--------
+Q4A5I3_MYCS5/83-437   s---------------------------kQ---------------WINENLQ--------
+Q98Q01_MYCPU/90-438   lv--------------------------rL---------------WIERHLA--------
+Q4AAF9_MYCHJ/85-434   av--------------------------rN---------------WIDNNMQ--------
+Q9PQP1_UREPA/76-434   -----------------------------S---------------MGYYVIHNYF-----
+SECY_MYCGE/81-430     -----------------------------E---------------SRWF-VEDYL-----
+Q8EUD2_MYCPE/81-433   -----------------------------S---------------AGSEFINEYL-----
+Q7X4E3_9MOLU/69-399   ---------------------------------------------KVNEYIGIFVe--sr
+Q5Q069_ASTYP/59-398   -----------------------------D---------------KLTKYVNLFTntnss
+O21257_RECAM/57-372   ------------------------------------------------------------
+Q74NB9_NANEQ/69-457   pllg---------------------tienG---------------HPINGLVAYIypdtg
+Q2EMT2_METVO/30-379   pllg---------------------tysnG---------------RAIDGIAYYFs---t
+A5UL65_METS3/72-433   pilg---------------------eivnG---------------KAVSGIALYLs---t
+SECY_METTH/73-436     pilg---------------------tvsnG---------------QAVDGLAYLLt---a
+SECY_PYRAB/72-448     pwlg---------------------tfdpT-t------------gNPVGGFVLYVi---p
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+Q9HIT0_THEAC/82-514   lskvpilgh-----------npllgsyptT-aqata---lnisatTPTGGLAYYLf---s
+Q2QAQ7_9EURY/161-583  mstvpilgsqga-----wsiapylgsydvG-q------------tQATDGFAWYAs---m
+Q0W1W5_UNCMA/75-487   tflgt--------------------fnqyN---------------QPVDGLMFYIn---p
+SECY_ARCFU/73-471     tifg---------------------efvnG---------------KAVSGLMFFLq---p
+Q8TRS4_METAC/72-470   tflg---------------------efsgS---------------KPLNGIMYYLa---p
+A0B9U7_METTP/75-515   tvttaettaegvrivytgyqswlgtflssAkfdaatgapisatspQPVSGLMYYLs---p
+SECY_HALMA/73-468     smpafl------------------gtyanG---------------QPTGGLFYFLa---p
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+A2SPM5_METLZ/73-458   talg---------------------eyngS---------------TPINGLMWYLa---p
+A0RUE4_CENSY/79-457   prndnifl-------------nvlaqfdlT-n-----------psTPIGGIVYYIt---p
+A8ME75_CALMQ/77-461   nsiacir---------------vittakfG-ti----------nePCPSSLIYYFt---v
+A3MUZ2_PYRCJ/70-435   qllq---------------------pfaaN-n------------pALITVLNVIFl---p
+SECY_SULSO/73-449     syvs---------------------psasN--------------iLNTVSGVFFFpppns
+SECY_SULAC/74-443     nsis---------------------nsasG--------------iLTDIANAFFFp--pq
+A2BME2_HYPBU/73-444   adn------------------------plV---------------RGMDVLYNYVs---p
+SECY_AERPE/73-434     ves------------------------raY---------------QIYSSIVYYLs---p
+A1RWR3_THEPD/75-456   pgnqnpwl-------------nviakynyT-ey---------gpvPLPGSFVYYIs---p
+SC61A_SCHPO/76-459    snflvr-----------------flgvweQ---------------TATSGLSYYLs---p
+A7E5Q2_SCLS1/76-459   enllvql----------------fgvwepK-egs--------aqlFATSGIAYYMs---p
+Q5KC69_CRYNE/75-459   dnllvrl----------------lgvwepM-enn-------ptqlGAVSGIAYYMs---a
+SC61A_ASHGO/75-460    nnpivkm----------------lgvwgtR-sdap------yspnAAISGLSYYIq---p
+Q59MJ6_CANAL/76-459   nnlfvkl----------------lgtwdaR-ags--------sqlYANGGLAYYIq---p
+A7SJW4_NEMVE/75-458   gnffvnl----------------lgtweeA-ggg-------parsYPVGGLCYYMs---p
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+Q7RLN0_PLAYO/121-506  nsilvni----------------lgqwqeI-esn--------gtaVPIGGIAYYIs---p
+Q4QGX4_LEIMA/77-467   nrnflin---------------llgrweeR-gyngg----gsgqlFPVGGLAYYLv---p
+A5JEK2_NOSBO/75-457   tyflvra----------------lgvwssE-gs---------skyQPIKGLCYYIl---p
+A2DH65_TRIVA/75-462   eslatqi----------------fgvwrsH-ngms------ydysTPVSGLIYYLt---a
+Q2QM98_ORYSJ/88-448   dag-----------------------ggaA---------------YPVGGLVYYVt---p
+Q6AV46_ORYSJ/86-471   gsllvd-----------------llgkwtP-d-----------aaVPVGGIAYYVt---a
+Q6C854_YARLI/70-454   dnlmvqv----------------lgswgaDg--------------SPVGGIAYYI-----
+SSH1_YEAST/78-465     knepthii--------------ckimghyE-nan--------nllAVPTFPLSLLa---p
+Q6BT20_DEBHA/78-475   nysqlaasii---------gtwsldtksfNl--------------NLTSGILYFL-----
+A5DE75_PICGU/20-414   syspvass--------------vigkwtiD-yrs--------snlKVSSGILYFLs---p
+A3GFV9_PICST/78-476   kanvssfalsi-------iasfnldsysnRl--------------NLTSGALYFF-----
+A5DWJ5_LODEL/34-436   kltaspivs------------tlfanyvvE-pys--------nrlVIKSGVLYFFt---a
+Q5A2C9_CANAL/5-404    klgtspivi------------siignyvyN-pss--------nelDLNSGILNYFt---s
+Q74L41_LACJO/64-372   ------------------------------------------------------------
+B3XPQ8_LACRE/65-377   ------------------------------------------------------------
+A1C3L4_STRPA/70-403   ---------------------------------------------FPGNQILEYLsvhig
+Q3DVD6_STRAG/65-395   -----------------------------P---------------DITSYNDYFS-----
+A5LN99_STRPN/64-389   -----------------------------S---------------GLAALSKEFM-----
+A3CM55_STRSV/64-391   -----------------------------Q---------------LIEQWIEALS-----
+Q03HZ8_PEDPA/65-396   ---------------------------------------------EFNRFVQNYV----a
+A5IW80_STAA9/64-384   -------------------------------l------------sMFNKSISDDMpm-lt
+Q4L9N9_STAHJ/61-383   -------------------------------a------------tLLGSNANFEFl---s
+Q5HKR3_STAEQ/61-380   -------------------------------g-----------rfIVNHNFETHVf---n
+Q9RSK8_DEIRA/68-413   -----------------------------P---------------EVNAWINSNL-----
+Q5SHQ8_THET8/71-413   ---------------------------------------------PVLQGIANFF-----
+SECY_CORGL/73-424     ev-------------------------sdN---------------WWQRNIIAHL-----
+A8LB12_FRASN/74-414   q----------------------------D---------------FEQRYLSR-------
+Q83NQ1_TROW8/73-424   qp-------------------------paA---------------WVVW-INENF-----
+Q8G3Z9_BIFLO/74-421   -----------------------------S---------------WVKW-INANL-----
+A7B9M4_9ACTO/72-414   -----------------------------K---------------WVQW-ISAHF-----
+SECY_CHLTR/73-433     -----------------------------S---------------WLKR-IATML-----
+Q1AU49_RUBXD/70-408   s----------------------------S---------------WLFR-LAQIF-----
+Q8RIH6_FUSNN/75-411   ---------------------------------------------SIKTTLSIIF-----
+A6DRC9_9BACT/79-428   -----------------------------D---------------FART-VAPYF-----
+C0ACZ0_9BACT/94-454   l----------------------------P---------------FLIE-FSNNL-----
+Q1Q157_9BACT/75-434   pgs------------------------vgY---------------WITSRLSGIL-----
+A6CGP8_9PLAN/77-435   st-------------------------saF---------------W--AMLDEAF-----
+B4S5A8_PROA2/73-417   ---------------------------------------------EVMQNVATIF-----
+Q2S3P5_SALRD/75-414   ---------------------------------------------ATMQRVGGWF-----
+A1ZGT4_9SPHI/72-404   --------------------------------------------------ASSAF-----
+A6EHP4_9SPHI/71-408   -----------------------------P---------------SLQNTWLVQF-----
+Q11QD2_CYTH3/72-411   -----------------------------E---------------FATT-IGSTM-----
+Q1VTY0_9FLAO/73-421   ---------------------------------------------EMAQGITAAF-----
+Q1NYZ7_9FLAO/72-422   -----------------------------N---------------NLQL-----------
+A5KHP6_CAMJE/62-402   -----------------------------P---------------YLQA-INDFL-----
+A4EA78_9ACTN/52-389   ---------------------------------------------WIQA-VASAL-----
+Q2GEC0_NEOSM/73-411   -----------------------------S---------------HLGEFIIRYF-----
+Q3YRM8_EHRCJ/72-412   -----------------------------P---------------WSDF-ILMYF-----
+Q5GSW3_WOLTR/77-416   -----------------------------A---------------FSDF-ILNYF-----
+Q0ANS0_MARMM/83-421   -----------------------------G---------------WLQS-AVAIL-----
+A7IPQ0_XANP2/80-418   -----------------------------E---------------WLQT-ITTHI-----
+SECY_RICCN/70-411     -----------------------------E---------------TMGM-LTYYL-----
+Q2G8W0_NOVAD/80-430   pdt-----------------------kmgQ---------------AIVT-LNQYL-----
+A6E0Q6_9RHOB/73-411   -----------------------------P---------------VLST-VMAYF-----
+Q1UZE8_9RICK/67-404   -----------------------------T---------------FLN--LSSYF-----
+Q3R245_XYLFA/76-424   ntl------------------------fgA---------------WLQR-VSSAL-----
+A4NK90_HAEIN/76-416   f----------------------------E---------------WLNN-LSMLL-----
+Q057C4_BUCCC/64-407   -----------------------------R---------------YVFNDYKKIIyffdf
+Q8D1Z2_WIGBR/82-424   v----------------------------K---------------WMSK-IPYYL-----
+Q6F7T2_ACIAD/83-426   nag-----------------------ivkR---------------SLQD-LALVL-----
+Q6Q8W8_9GAMM/67-407   l----------------------------S---------------FLQS-FSLAL-----
+A9BRX1_DELAS/74-413   m----------------------------R---------------WLKD-IASTL-----
+Q7DDS8_NEIMB/73-410   n----------------------------S---------------VLHK-IAGLL-----
+Q5NHU8_FRATT/74-416   l----------------------------S---------------WLAD-VAEML-----
+Q7WZR8_9GAMM/64-388   -----------------------------Q---------------WINRSILPQL-----
+A5EX98_DICNV/69-412   -----------------------------R---------------YLSDLAAGFH-----
+Q6MJ32_BDEBA/70-415   -----------------------------P---------------WLKA-LQDSL-----
+B5EFS0_GEOBB/71-411   -----------------------------P---------------WVQA-ASKQL-----
+A3EVQ1_9BACT/75-412   -----------------------------P---------------WIQS-FGKSL-----
+Q1MPP6_LAWIP/71-412   -----------------------------D---------------WLKD-IAVWF-----
+SECY_AQUAE/71-412     -----------------------------P---------------FIKV-IADMF-----
+Q01WB2_SOLUE/74-438   -----------------------------P---------------WLSK-TLATI-----
+Q08ZH8_STIAU/26-370   -----------------------------P---------------FLQT-FRQGL-----
+A6GCG0_9DELT/70-411   -----------------------------P---------------YLQR-FAAAF-----
+Q04PV8_LEPBJ/72-436   -----------------------------Q---------------WAGWAIIMDFfn-pf
+SECY_BORBU/72-409     -----------------------------S---------------IARQ-ILSYL-----
+Q73PL2_TREDE/73-413   ---------------------------------------------WLAS-VARFL-----
+Q67JW3_SYMTH/69-405   -----------------------------D---------------FAVF-VGRYL-----
+A7FQ38_CLOB1/69-409   y----------------------------K---------------FITLNQYSPF-----
+A6LPT1_CLOB8/69-416   a----------------------------K---------------WVLNNPTSIF-----
+Q0SQG4_CLOPS/69-409   s----------------------------Q---------------WITGSSYSPF-----
+A9KJH4_CLOPH/71-425   ray------------------------fwP---------------KVLHMLNSQSwfnik
+A7VH89_9CLOT/71-420   sgv------------------------gaK---------------ILQG-MSQSYwf-na
+A6BIS2_9FIRM/71-421   sgi------------------------gsE---------------ILRG-LNQSNwcnpe
+A7VR33_9CLOT/71-423   -----------------------------G---------------FWKT-VLDAL-----
+A6NXF0_9BACE/71-437   -----------------------------G---------------GMDSTFMKVF-----
+Q250L2_DESHY/70-413   -----------------------------A---------------YVRF-VNTWF----v
+Q8R7X3_THETN/69-402   -----------------------------S---------------FYNF-VQKWL-----
+A4XLR1_CALS8/69-419   -----------------------------G---------------FYKF-VKAYF-----
+A3DJJ2_CLOTH/71-411   -----------------------------P--------------------VAEYF-----
+A8MLG0_ALKOO/69-408   -----------------------------G---------------FAKF-LNTWL-----
+Q18CH6_CLOD6/69-406   -----------------------------A---------------FVQKYLSMAT-----
+B8D0S8_HALOH/72-406   -----------------------------G---------------WAQD-IATAL-----
+
+A9B431_HERA2/73-422   ---------------------------------GPNGLAF-TLAMFVLVLLFTYFYA-LV
+A8CRX1_9CHLR/78-422   m---------------------------------PGGLVY-WGLYFFMTIIFAFFYT-MV
+A2Y4E5_ORYSI/132-498  ----------------------------------GGPWAY-YLTYAFLVFVFNIF---DI
+Q7UZW2_PROMP/80-422   ----------------------------------SNPWPY-ALTFFALILGFSYFYA-SL
+Q7NKT4_GLOVI/79-416   ----------------------------------SSGWIH-NILYLVLILFFSFFYA-TL
+SECY_GUITH/68-404     ----------------------------------NNKLLY-LLFYFTLILFFSYFYT-SL
+SECY_CYACA/62-394     ----------------------------------PFKILF-LLLYSAFIIFFNYLYC-SL
+Q85FU6_CYAME/42-325   ----------------------------------TWSIWW---LYVACIIFFSHFYN-LV
+A0T0J6_PHATR/72-407   ---------------------------------ESLNFVY-WIGYFVLILVFSSFYS-TI
+SECY_CYAPA/109-459    ---------------------------------PFNSLFK-DFCYLITIMLFSSNYAlTI
+Q4G351_EMIHU/63-407   gl------------------------------aSKLLTIYsFGINFVLVIFFSCFYV-SL
+SECY_PAVLU/66-404     ---------------------------------NLQQIFY-FFTFLVLIIFFSFFYT-LI
+Q6B8X0_GRATL/62-395   ----------------------------------PGRILY-FPAYGSLIIAFSYFYT-SL
+SECY_ANTSP/62-390     ----------------------------------PNQFLY-LPLYLIFIITFSYVYT-SL
+A4RW47_OSTLU/65-398   ----------------------------------GGGAGY-VPVNVAMICFFNYFYT-FL
+A7PFA4_VITVI/131-465  ----------------------------------PGGSLY-LPTNILLIAFFNYYYT-FL
+A7HM32_FERNB/75-404   ----------------------------------MQSPLM-MIIYALLIFFFTYFYS-VV
+A3CK84_STRSV/69-416   ----------------------------------TTTISG-MFMYAFLIVLFTFFYT-FV
+Q5FM71_LACAC/68-415   ---------------------------------SLQTTPG-VIIYTLLIILFTFFYA-FV
+Q03ZM6_LEUMM/68-416   ---------------------------------SMTTLPG-AILYTALIVVFTYFYA-FV
+SECY_STAA8/69-413     ----------------------------------PSSNVG-MVVYIVLIILFTYFYA-FV
+Q4MG72_BACCE/68-415   ----------------------------------FAHPIG-MTLYVGLIVAFTYFYA-FI
+Q6F1X5_MESFL/92-454   ---------------------------------SFNTWWG-IGIFAVMIVLFTFLYA-QV
+Q6KI36_MYCMO/87-436   ----------------------------------PNNTIG-FILFISITFIFAIFFG-LQ
+Q4A5I3_MYCS5/83-437   ----------------------------------FYKPLG-FSLLIIITFVFSLLMG-IQ
+Q98Q01_MYCPU/90-438   ----------------------------------FTHPIG-FSLLIIITFIFSIFMG-LQ
+Q4AAF9_MYCHJ/85-434   ----------------------------------IYHPIG-LIIFIVFNVSFSIIMS-LQ
+Q9PQP1_UREPA/76-434   ---------------------------------IVDSWTG-LAIYVVLILLFTFFFS-YV
+SECY_MYCGE/81-430     ---------------------------------SLSTPVG-IFLYAVLVILFSFFYS-YI
+Q8EUD2_MYCPE/81-433   ---------------------------------SIERPVG-LVIYTVLIVLFGFFYS-HI
+Q7X4E3_9MOLU/69-399   ----------------------------------SELGIY-FFVYILLIMLFSFFSS-FM
+Q5Q069_ASTYP/59-398   n---------------------------------NQINFFaIGFLVLLVIVLSFFSA-FM
+O21257_RECAM/57-372   -----------------------------------------NIFLEMLCMMFIYLFL---
+Q74NB9_NANEQ/69-457   flislilg-------------------nltldnLIRTITS-SLFFLGSSILFSIYFVlAT
+Q2EMT2_METVO/30-379   -pygls----------------------svisdPIHAIVY-TLFLIGFCVLFGLFWVeTS
+A5UL65_METS3/72-433   -pndvs----------------------llvtdPVRVIVY-AFFFLLCAVLFSYLWVeIS
+SECY_METTH/73-436     -prsid----------------------alildPFRVVFY-AVVFIGLCVLFAWLWVeIS
+SECY_PYRAB/72-448     -prsif----------------------tvidnPVRALVY-LILTVISSLIFGFLWVeLT
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+Q9HIT0_THEAC/82-514   -pnglsdwlfpilqps---gyqnillghtplqeAIHIIVF-TAFMVGFSVLFAIFWIeTT
+Q2QAQ7_9EURY/161-583  -vngvgdwllplln------qspdpyghslwqvVLHVITY-VTVMTLGSMMFAKFWIeTT
+Q0W1W5_UNCMA/75-487   -inglsdwvpqla--------alnypgiqlwqiALHVFTD-AFILIAGGILFAIFWVeTT
+SECY_ARCFU/73-471     -vsspydwipslvks-----qgaafaaipdwmiYLHLLID-ALILVVGGIIFAWFWVeTS
+Q8TRS4_METAC/72-470   -ihspydwipslvres---fasygatapaiwqiGLHVLAD-AIMLIGGGIIFALFWIeTT
+A0B9U7_METTP/75-515   -ihgpsdwipsmvsqstpglvelginpiagwqiWLHLLTD-TAFLIIGGIIFAIFWIeTT
+SECY_HALMA/73-468     -iqsrgdwmwwl-----------egtaqpvwqiLTRVGID-LFVMLVGGAVFAVFWVeTT
+Q2FSG8_METHJ/73-458   -inhpsdwmwwmp---------syvgghapwevLIRLGID-TTIMVVGGAIFALFWVkTA
+A2SPM5_METLZ/73-458   -inqpqdwmwwls--------sftgtghavwevILRVGID-CTVMILGGALFAIFWVkTA
+A0RUE4_CENSY/79-457   -prgld----------------------iaaldPMRAVGY-VLFMIGIVVVFGKLWVeLG
+A8ME75_CALMQ/77-461   -vpy--------------------------nitPQYVVVH-ILMYVVLSVVFAYLWVnLA
+A3MUZ2_PYRCJ/70-435   -hry---------------------------fdPLLIILN-FALYVALAIAFAWIWVqLA
+SECY_SULSO/73-449     aiphsiy---------------------avvldPLGALEY-AVVFIVLSILFGILWVdVA
+SECY_SULAC/74-443     gvphsvy---------------------alvvdPVGAAIY-AAVFIVLSIVFGMLWIdVA
+A2BME2_HYPBU/73-444   -prgll----------------------aavadPLRTLTF-ALAWLALGLLFGFIWVeIA
+SECY_AERPE/73-434     -prgvv----------------------qsiadPVKTAVF-IASWTVLSIVFGYMWVeIA
+A1RWR3_THEPD/75-456   -prsla----------------------saladPVHLVVY-SLLYIGFAVLFGVAWIlTS
+SC61A_SCHPO/76-459    -pasfq----------------------dalidPIHTLVY-VFFTMFACALFSKLWIeVS
+A7E5Q2_SCLS1/76-459   -plnft----------------------dalldPIHTAVY-ITYMLVACAIFSKTWIeVS
+Q5KC69_CRYNE/75-459   -phslt----------------------salkdPFHTVIY-IAFIVTACALFSKTWIeVS
+SC61A_ASHGO/75-460    -pfsft----------------------ealldPIKTVVY-VTFVLGACAMFSRTWIdVS
+Q59MJ6_CANAL/76-459   -pfnft----------------------dalldPIKTTIY-IAFVLGSCAVFSTTWIeIS
+A7SJW4_NEMVE/75-458   -petvs----------------------hiiedPVHACIY-IFFMLGSCAFFSKTWIdVS
+A0CFY2_PARTE/73-456   -lrdvk----------------------diindPIHAVVY-VLFVVFMCGFFAKFWIqIS
+Q22MG2_TETTH/151-538  -phgmi----------------------evisdPLHTILY-VVFILTTCALFSKTWIqVS
+A0CU87_PARTE/77-460   -prsis----------------------eaifdPIHTILY-TAFILGTCAVFSKTWIdVS
+Q7RLN0_PLAYO/121-506  -pnsfa----------------------ditndPFHTLIY-ISFVLVSCAFFSKTWIeVS
+Q4QGX4_LEIMA/77-467   -patfy----------------------dlladPIHAIFY-VVFVLTSCAVFSRLWItIS
+A5JEK2_NOSBO/75-457   -pesif----------------------dfklrPFYFLFY-VLFTIISCSMLSRAWVeVS
+A2DH65_TRIVA/75-462   -pqsiq----------------------qtihdPLHTIIY-LIFSLSSAGFISYYYLrFS
+Q2QM98_ORYSJ/88-448   -pskll----------------------vdpglIHELLIH-SVFVVASCTLLSMAWAeAS
+Q6AV46_ORYSJ/86-471   -pasaa----------------------saaanPLHAAMY-VAFVLAACAALSRAWVvVS
+Q6C854_YARLI/70-454   spnnf-------------------------gydVIKMVLY-SVYTIVGCTLFSKYWAeIS
+SSH1_YEAST/78-465     -ptsffk---------------------gvtqqPLTFITY-SAFILVTGIWFADKWQaIS
+Q6BT20_DEBHA/78-475   tpsksla---------------------qsllsPIRSVTY-GLAIITLSTWFAYRWSrIS
+A5DE75_PICGU/20-414   -ptsil----------------------ntlvsPLKTAAF-TFVVIVLSAWFANIWSsIS
+A3GFV9_PICST/78-476   ssspsll---------------------stilsPIRTVVY-SATVIVLATWFAEKWSyIS
+A5DWJ5_LODEL/34-436   -sqtll----------------------qsiisPLRVVIY-SSTVVGLATWFAYKWSyIA
+Q5A2C9_CANAL/5-404    -ssslv----------------------esiisPIKTTVY-SITIIVLAVWFANKWSyIS
+Q74L41_LACJO/64-372   ----------------------------------INNWVFqASFSAVMGILIFYFFT-FV
+B3XPQ8_LACRE/65-377   ----------------------------------FANPYFnMVVSGILAFVLFYFFT-FV
+A1C3L4_STRPA/70-403   ----------------------------------LSQLPG-VICYIFLLYFLSIGFA-YY
+Q3DVD6_STRAG/65-395   ----------------------------------LSSIQG-VVIYMILMLVLSVAFT-FV
+A5LN99_STRPN/64-389   ----------------------------------IGKPLW-VYVYISVLFLFSIIFA-FV
+A3CM55_STRSV/64-391   ----------------------------------MGSPAW-FILYLLTIFILALAFA-FI
+Q03HZ8_PEDPA/65-396   ----------------------------------FDNPVG-ILIYCSIIVFLGYVFS-FM
+A5IW80_STAA9/64-384   ----------------------------------FDSPVG-ISVYLVIQMLLGYFLS-RF
+Q4L9N9_STAHJ/61-383   ----------------------------------FANPIG-IMFYIVLQIVLSYLLS-RF
+Q5HKR3_STAEQ/61-380   ----------------------------------FTNPVG-ITIYLLLQMILGYFLS-RL
+Q9RSK8_DEIRA/68-413   ---------------------------------TFGQPLY-LALESLLIFGFTYLYN-SV
+Q5SHQ8_THET8/71-413   ---------------------------------NPTRPSG-LFIEVLLVILFTYVYT-AV
+SECY_CORGL/73-424     -q-------------------------------TPSSWQY-IVLYFALTIFFSYFYV-SV
+A8LB12_FRASN/74-414   ----------------------------------GDHPLY-LVAYGALIIFFTYFYV-AI
+Q83NQ1_TROW8/73-424   -t-------------------------------TGNSPFY-IALYFFMIVGFTYFYV-AV
+Q8G3Z9_BIFLO/74-421   -a-------------------------------NTTSVWY-IALYALMIVFFCFFYT-SI
+A7B9M4_9ACTO/72-414   ---------------------------------TQGSSFY-LTIYALMTLFFTFFYT-AI
+SECY_CHLTR/73-433     ---------------------------------SPGSVAY-SIFYVLLIIFFTYFWT-AT
+Q1AU49_RUBXD/70-408   ---------------------------------APPSAPY-LILYALLIVMFTYFYT-AV
+Q8RIH6_FUSNN/75-411   ---------------------------------GQNHPVY-MILYALVIMFFSFFYT-AL
+A6DRC9_9BACT/79-428   ---------------------------------DFGSTSY-LIIQGVMILVFTFFWV-AT
+C0ACZ0_9BACT/94-454   ---------------------------------MRGHWVY-YVTMTLLILFFSYFWV-SV
+Q1Q157_9BACT/75-434   ---------------------------------Q-EGVLY-VMLYILLITFFCYFWT-AI
+A6CGP8_9PLAN/77-435   -q------------------------------pMSRGFVY-TMSYVVLIYFFCYFWT-AI
+B4S5A8_PROA2/73-417   ---------------------------------SYDSWWY-ALMFGTMIVFFTYFYT-AI
+Q2S3P5_SALRD/75-414   -s-------------------------------DISSMSY-SAVFFVVVVFFTYFYT-AI
+A1ZGT4_9SPHI/72-404   -s-------------------------------DITTWQY-NLVFGLLIIIFTYFYT-AI
+A6EHP4_9SPHI/71-408   -s-------------------------------DYTSLAY-SLTFAFLIIAFTFFYT-AI
+Q11QD2_CYTH3/72-411   -s-------------------------------DFTSWQY-NVAFATMIILFTYFYT-AI
+Q1VTY0_9FLAO/73-421   -q-------------------------------NMFGFWY-SLVFGILIIVFTYFYT-AI
+Q1NYZ7_9FLAO/72-422   ---------------------------------SNNGIWY-NILYSILIIIITFFYT-FL
+A5KHP6_CAMJE/62-402   ---------------------------------NPNGYLF-HVLTFLFVIFFAYFYA-SI
+A4EA78_9ACTN/52-389   ----------------------------------STGWLN-WVLNVVLIVFFAYFYT-SM
+Q2GEC0_NEOSM/73-411   ---------------------------------SVGQPLY-FLLHSCLLVFFCFFYS-DF
+Q3YRM8_EHRCJ/72-412   ---------------------------------SSGKLLY-IVCYALLIIFFAFFYT-AF
+Q5GSW3_WOLTR/77-416   ---------------------------------MANKVVY-IAAYLALIVFFNFFYT-NF
+Q0ANS0_MARMM/83-421   ---------------------------------GPGSPWF-MMAYAAMIIFFCFFYT-SV
+A7IPQ0_XANP2/80-418   ---------------------------------GHGRPAY-MVLYVLLIVFFCFFYT-AI
+SECY_RICCN/70-411     ---------------------------------GHGKPVY-ILLYVALIMFFSFFYT-AI
+Q2G8W0_NOVAD/80-430   ---------------------------------GHGKPLY-MLFYALGIIFFSFFYT-AV
+A6E0Q6_9RHOB/73-411   ---------------------------------GPGQPLY-LLFFTIMIVFFAYFYTfNV
+Q1UZE8_9RICK/67-404   ---------------------------------TQGQPLY-MLLYASGIIFFTFFYT-SI
+Q3R245_XYLFA/76-424   ---------------------------------GPGEPLH-MILFAVLIIGFAFFYT-AL
+A4NK90_HAEIN/76-416   ---------------------------------NPGQPLY-LLVYAVAIIFFSFFYT-AM
+Q057C4_BUCCC/64-407   l--------------------------------KFKHSIY-LIVNIILIIFFCFFYT-NI
+Q8D1Z2_WIGBR/82-424   ---------------------------------EPGTFSY-SILYASAIMFFCFFYT-SL
+Q6F7T2_ACIAD/83-426   ---------------------------------SPGQPLY-LMLFGTLIIFFCYFYT-AL
+Q6Q8W8_9GAMM/67-407   ---------------------------------NPGQPLY-ILVFAGLIISFCFIWL-AL
+A9BRX1_DELAS/74-413   ---------------------------------TPGQPIY-VMLYATAIIFFCFFYT-AL
+Q7DDS8_NEIMB/73-410   ---------------------------------QHGQLLY-MALFAATVIFFCYFYT-AL
+Q5NHU8_FRATT/74-416   ---------------------------------QPGSIVY-TVVFAATIIFFCFFYT-SL
+Q7WZR8_9GAMM/64-388   ---------------------------------SPGQPLY-IMFFVLSVIFYSFFYT-AI
+A5EX98_DICNV/69-412   ----------------------------------QGAWLY-IATFVLLIILFSFFYT-SI
+Q6MJ32_BDEBA/70-415   ---------------------------------NPSGAIF-NIMFVALIVFFSFFYT-EI
+B5EFS0_GEOBB/71-411   ---------------------------------APGKLLY-EVLFVAFIVFFCYFYT-AV
+A3EVQ1_9BACT/75-412   ---------------------------------SPGSFSY-TGLYVLLIVFFCFFYT-AV
+Q1MPP6_LAWIP/71-412   ---------------------------------SPSTILY-NCIFLVLIFFFCYFYT-AI
+SECY_AQUAE/71-412     ---------------------------------QPGAIFY-NFLYVTFIVFFTYFYT-AV
+Q01WB2_SOLUE/74-438   ---------------------------------QHGEPMY-YVLFVAGIIFFCFFYV-SI
+Q08ZH8_STIAU/26-370   ---------------------------------EGNPWLY-NGLFVLLVIFFAYFYT-AL
+A6GCG0_9DELT/70-411   ---------------------------------SYGNWLY-LTVYVALCIFFCYFYT-QI
+Q04PV8_LEPBJ/72-436   sq------------------------------iWYHALFY-YIIYTSLIIFFAYFYT-AI
+SECY_BORBU/72-409     ---------------------------------RPNGFYY-TFLNVILIIGFTYFYS-KI
+Q73PL2_TREDE/73-413   ---------------------------------RSDGWGY-NVLYVVLIIFFAYFYT-QV
+Q67JW3_SYMTH/69-405   ---------------------------------DTRSWWF-MLINALLIVFFTYFYT-AI
+A7FQ38_CLOB1/69-409   ---------------------------------RDKSIAY-IVLYFLLTVFFTWFYT-VV
+A6LPT1_CLOB8/69-416   ---------------------------------NNKSWMY-MVLYAVLTIFFNWFYT-QI
+Q0SQG4_CLOPS/69-409   ---------------------------------NAKTWMY-PVLYALLTIFFTWFYT-QI
+A9KJH4_CLOPH/71-425   ng-------------------------------EFKYTVG-VLIYMALIVFFAYFYT-SI
+A7VH89_9CLOT/71-420   -n-------------------------------YPWGFLG-LAVYILLVFFFAYFYT-AI
+A6BIS2_9FIRM/71-421   qi------------------------------kYSW---G-LVLYIVLTVFFAYFYT-SI
+A7VR33_9CLOT/71-423   ---------------------------------STTGWVY-ALIYFLLILMFAYFYV-AI
+A6NXF0_9BACE/71-437   ---------------------------------DSNGLVY-AIVYFLLILGFSYFYA-TM
+Q250L2_DESHY/70-413   mn------------------------------gSLTSIPY-LIVYAVLIIFFTYFYT-AV
+Q8R7X3_THETN/69-402   ---------------------------------STNGLIY-NLLDIFLIIGFTYFYT-AV
+A4XLR1_CALS8/69-419   ---------------------------------SSGSFWY-TFFYALFIIGFTYFYT-AI
+A3DJJ2_CLOTH/71-411   -r-------------------------------SFQSRIEvAILTGLLIIFFTFFYT-FI
+A8MLG0_ALKOO/69-408   -sp----------------------------tgMPGVFIY-NLLSAVLIIFFTYFYT-AI
+Q18CH6_CLOD6/69-406   ---------------------------------EQGFWTY-RSIEILLIIFFSYFYT-TV
+B8D0S8_HALOH/72-406   ---------------------------------EPGKPVH-LVLYAAMIFFFTYFWT-AF
+
+A9B431_HERA2/73-422   MFNQQNLPEMLQRNGGFIPGIRPG-RNTEVYLTKVLNRITLIGAV-GLAVVAALP--YFV
+A8CRX1_9CHLR/78-422   TFEQQDIPGTLQRQGGFVPGIRPG-KMTDQYLSGVIGRITWAGAL-FLGFVAIMP--FIA
+A2Y4E5_ORYSI/132-498  ANLPKEISDYLNKMSARVPKIKPG-RATVEYLTKIQTSTRFWGGI-LLSLLATSS--LLL
+Q7UZW2_PROMP/80-422   TINPVDVASNLKKGGVAIPGVRPG-SNTANYLSGIQNRLTLLGGL-FLGSVAIIP--AAV
+Q7NKT4_GLOVI/79-416   IINPEDVSKNLKRMGSSIPGVRPG-TATSEYIAKVMNRLTFLGAI-FLSAVAIIP--TFV
+SECY_GUITH/68-404     ILNPNDVSKNLKKMESSIYGVRPG-KATTEYLQKTLNRLTFLGAL-FLAFIAIVP--NII
+SECY_CYACA/62-394     VLNCFELSNNLKKASVVIPSIRPG-KMTEKFFKDTLDNLTLFGSG-FLAFIVLAP--NFL
+Q85FU6_CYAME/42-325   IANPKELSENLNKMAVVIPSIRPG-AETQQYLNRTLNRMSWIGGI-ALSLIALLP--WLF
+A0T0J6_PHATR/72-407   VLNPKDISDQLQKMAVTIPGIRPG-IQTTFYLKQVMKRITLLGTT-MLATLATIP--NFV
+SECY_CYAPA/109-459    MINPKTLAENLNSMNALIPGVRPG-SETKVYSEQLIHRLNFIGSF-VLALVCILP--SIV
+Q4G351_EMIHU/63-407   VLKPKDMSENLGKMAYSIPGIRQG-KETTKYLEKVINRLAFIGGL-FLAFLAFFP--LFV
+SECY_PAVLU/66-404     ILSPSDIAKNLKKMSSVIQDTKPG-VATKVYIRKFILQASFVGSI-LLSALILIP--SIL
+Q6B8X0_GRATL/62-395   VLNPDDIAENLNKMGASIPSIRPG-SDTIRYISKILDKMTFMGGV-FLFIIALIP--SLI
+SECY_ANTSP/62-390     ILNPEDIAKNLKKMGASIPNIRPG-SETIKYLNTRINRLTLIGAC-FLFTITLFP--TIT
+A4RW47_OSTLU/65-398   QLEPKDVADQLKRQGASIPGVRPG-AATRDYITRVLERLSVLGSV-FLGALALTP--GAV
+A7PFA4_VITVI/131-465  QLDPDDVSEQLKRQGASIPLVRPG-KSTAAFIKMVLSRISVLGSG-FLAILAAGP--SLV
+A7HM32_FERNB/75-404   VIDPKDISENIKRYGGFIPGIRAG-KPTEEYITFVLNRVTFLGAI-FLVGISLLP--YLV
+A3CK84_STRSV/69-416   QINPEKTAENLQKSGAYIPGVRPG-KGTEDYMSKLLRRLATVGSL-FLGFISILP--ILA
+Q5FM71_LACAC/68-415   QVNPEKLAENLQKQGAYIPSVWPG-KDTQNYISKMLIKLSTVGSI-FLGLVALLP--QLA
+Q03ZM6_LEUMM/68-416   QVNPDKLSENLQKQGAYIVGVRPG-AETKAFVSKLLLNLSFVGSI-FLGVVALVP--LIA
+SECY_STAA8/69-413     QVNPEKMADNLKKQGSYVPGIRPG-EQTKKYITKVLYRLTFVGSI-FLAVISILP--ILA
+Q4MG72_BACCE/68-415   QVNPEQMAENLKKQNGYVPGIRPG-KSTEQYVTKILYRLTFIGAI-FLGAISILP--LVF
+Q6F1X5_MESFL/92-454   QINPEKISENFQKSGTFIPGIKPG-KDTTNFLKGTINRLSLFGAI-FLAAIAALP--YVI
+Q6KI36_MYCMO/87-436   QSKVDKIAEDFAKNSTFIPGIKPG-QETETYLTGIVLRLCFFSAF-YLIIIGGMQfaQQL
+Q4A5I3_MYCS5/83-437   QSKVDKIAEDFAKNGTFIPKVTPG-EETQNYLVAIVFRLSFFSAF-YLVIIAGMQyvQIM
+Q98Q01_MYCPU/90-438   QSKIDKISEDFNKSGTFIPGLRPG-DQTENYLIDVVLRLSTFSAF-YLSILVSIQyiMQM
+Q4AAF9_MYCHJ/85-434   QSRVDKIAQDFAKNSTFIPGIRPG-EQTEDYLISVVLRLSVFSAI-YLTFLGILQpvEIM
+Q9PQP1_UREPA/76-434   QLNPPKMAEDIKKAGRFIPGVQVG-MDTEKHITKVIYRVNWIGAP-ILAFLACLP--HLV
+SECY_MYCGE/81-430     QINPERLAKNFEKSGRFIPGIRPG-NDTEKHIARVLIRINFIGAP-FLTVIAIIP--YIV
+Q8EUD2_MYCPE/81-433   QVNSEKLAENFQKSGKFIPGVKMG-EETQKYISKTLNRVNCIGVP-FLACLAIVP--YLI
+Q7X4E3_9MOLU/69-399   TINPKDVAEHLSKQNAYLKDVQPG-LPTVKKIVREMFKITFLGSC-FLTLLASTP--DII
+Q5Q069_ASTYP/59-398   NVNPEDISEHLSKQDAYIAGLRPG-EQTTRYLANTLFKITVLGTV-FITALVVTP--ILM
+O21257_RECAM/57-372   -------SRFLKKYLKFIYNINKN-NIYIEHINKNIYSIFFISHLyYLGILRDYClfCFL
+Q74NB9_NANEQ/69-457   GQDSEGLAKQLSKMFGRI-GLKRDyRIIKHYLDKIIPCVTVLGGF-IVGFLALLS--YWV
+Q2EMT2_METVO/30-379   GLDAKSMAQRLGGLNMAIKGFRKSnKSIENRLKRYIKPITVMGSA-FVGLLAALA--DFT
+A5UL65_METS3/72-433   GLNAKKISEQLYKSGIQIPGFRSSkRQLYKILKKYIPALTIISGL-YVGIIAFCA--DLT
+SECY_METTH/73-436     NIGPRHVARQLYQMGMQIPGFRSSrGQFEKILKRYIPTITILGGA-FVGLLAFVA--DLT
+SECY_PYRAB/72-448     GLDARTIARQLQRAGLQIPGFRRDpRTLERVLQKYIPYVTFWGSL-TVALIAVLA--DFL
+Q8TZA9_METKA/75-435   GMGPREIARHLHRAGLHIPGFRRDiRVLEKRLQKYIYPVTVMGGA-FVGFLAAGA--DLM
+Q9HIT0_THEAC/82-514   NMGASAVAKQIQASGMQIPGFRRDpRVMERVLKKYIPAITIFSGA-VVGLLAAGA--NLI
+Q2QAQ7_9EURY/161-583  NMGAKDVAKQIENTGMQIPGFRKNpKVLERILMRYIPPVTLFSGA-FVGLLAAGA--DLL
+Q0W1W5_UNCMA/75-487   GMGASRVARQIQKSGMQIPGFRRNeQVIEKVVSRYIPKVTVIGGA-FVGFLTLLS--SLF
+SECY_ARCFU/73-471     GMDARTVASQIAKSGMQVPGFRKSpQVLERVLSRYIPKVTILGGA-IIGILTLVA--NML
+Q8TRS4_METAC/72-470   GMGAKPTAQKIFNSGMQIPGFRRNiGSIEKVMQRYIPKVTVIGGA-FIGILTLVA--SLL
+A0B9U7_METTP/75-515   GMGAKSIAAKIHASGLQIPGYRRSpVSIERLMERYIPKVTVIGGA-IIGLLTVIA--SLL
+SECY_HALMA/73-468     DMGPEATAKQIHNSGMQIPGFRQNvGVIEKVLERYIPQVTVIGGA-LVGLLAVMA--NML
+Q2FSG8_METHJ/73-458   GLDSKAVARQIQLSGMSIPGYRRNpAVLEKVLDRYIPRVTVIGGV-FIGIMSVVA--NLF
+A2SPM5_METLZ/73-458   GLDSKHVARQIQNSGMQIPGYRRSpAVLERYLDRYIPRVTVIGGV-FIGLLSVMA--NML
+A0RUE4_CENSY/79-457   GLSPKSAAKNLLDADVQIPGFRRSnQPIEVLLNKYIPSVTIIGSM-ILGALAGAS--DVL
+A8ME75_CALMQ/77-461   GLSAEDQARTMVSSGLSIPGFRASaRSLAVHLKRYVNSLTFTSGL-LAGFIAALG--DVL
+A3MUZ2_PYRCJ/70-435   GLSAEDQARQFTQSQLHVPGFRQSeRVLAKILERPINALTIISGF-IAGTFASLG--NVL
+SECY_SULSO/73-449     GLDPATQAQQLVEAGIEIPGVRNNpKIIEGILARYIYPLAFFSSI-IVGLIAVFA--TLL
+SECY_SULAC/74-443     GLDPKTQAEQMIRSGIEIPGMRTNpRIIEGILSKYIYALGFFSSL-IVGLIAVVA--TFL
+A2BME2_HYPBU/73-444   GLSPRQQAENLIKSGMELPGIRKNvKLLERILARYIYPLTVISSL-LVTTMAILA--DVF
+SECY_AERPE/73-434     GLNPREQAERLIKGGLAIPGMRSDpRVLERVLRRYIYPLTFLSSL-IVAALVIVA--DIF
+A1RWR3_THEPD/75-456   GMDPETQAEQLAKAQLQIPGFRKSeKVIASMLKRYIWGLTILSSI-IIGVIAVVS--DIF
+SC61A_SCHPO/76-459    GASPRDVAKQLKSQQLVMAGHRE--GSMYKELKRIIPTAAWLSGA-VVGALAVAS--DLL
+A7E5Q2_SCLS1/76-459   GSSPRDVAKQLKDQGLVMAGHRE--QSMYKELKRIIPTAAAFGGA-CIGALSVGS--DLL
+Q5KC69_CRYNE/75-459   GSGPRDVAKQLKDQNMTLAGHRD--ASIYKELKRIIPTAAAFGGA-TLGLLSVVA--DMM
+SC61A_ASHGO/75-460    GTSPRDVSKQFKEQGLVINGRRE--TSVYRELKKVIPTAAAFGGA-TIGALSVGS--DLL
+Q59MJ6_CANAL/76-459   GTSPRDVAKQFKEQGLVIAGHRD--TSAYKELKKIIPIAAAFGGA-TIGALSVVC--DLM
+A7SJW4_NEMVE/75-458   GSSAKDVAKQLKDQQMVMRGHRD--KSMVHELNRYIPTAAAFGGL-CIGALSVLA--DFL
+A0CFY2_PARTE/73-456   GESAKDVARKFKDEQIKIKGLRE--ESMVKYLSGYIPVAAFCGGV-CIGLLTIVA--DIL
+Q22MG2_TETTH/151-538  GSSVKDVAKQLKEQGMGLVGSRD--SGLKSHLKRYIPIAATFGGL-CIGALSVVA--DFI
+A0CU87_PARTE/77-460   GSSPKDVAKQLKEQDMQIVGYRD--SSMKDVLKRYIPIAASFGGM-CIGALTILA--DFL
+Q7RLN0_PLAYO/121-506  GSSAKDVAKQLRDQHIGMRGHRDTpTSLTRVFNRYIPTAAAFGGM-CIGALTILA--DFL
+Q4QGX4_LEIMA/77-467   HTAPRDVAKQLASQGRWLVQARESeDDMTRLLEKYIPVAASFGGL-CVGALTIFA--DFL
+A5JEK2_NOSBO/75-457   DNTPTQVASQMKKNKMTLKGVRE--VNCASVLSKYIPTAALLGGC-FTSLVVLIS--NLF
+A2DH65_TRIVA/75-462   NQAPADVAEALKKQHLTLKGHREDqKRLEKTLSRYIPTAAALGGI-LVALLSFVA--DFL
+Q2QM98_ORYSJ/88-448   RSSAREFRTRVIGTGYFVW------DETSRRIDRVIAAAAAVGGF-AVGGLAVYA--GAV
+Q6AV46_ORYSJ/86-471   GSSSRDVARRLREQQMVMPGMRE--ASMQRELERYIPAAAALGGV-CVGALTVAA--DLM
+Q6C854_YARLI/70-454   GSAPKDVAKQFQAQSIVIVGQRA--QSAPRELAKVIPVAAAVGGA-VVGAIVAFC--DIF
+SSH1_YEAST/78-465     GSSARDVALEFKDQGITLMGRRE--QNVAKELNKVIPIAAVTGAS-VLSLITVIG--ESL
+Q6BT20_DEBHA/78-475   GSSPKDISKQFKEQGISISGKRD--ISITKELSRVIPVASVSGAF-VLAALAIAG--ELL
+A5DE75_PICGU/20-414   GSSPKDISKQFKEQGISIAGKRD--ISITKELSRVIPVASVSGAT-VLGLIAVAG--EVL
+A3GFV9_PICST/78-476   GSAPKDISKQFKDQGISISGKRD--ISITKELSRVIPVAAVSGGF-ILAAIAVAG--DLL
+A5DWJ5_LODEL/34-436   GSSPKDISKQFKEQGISIAGKRD--ISITKEFAKIIPTAAVTGAF-ILSALAVTG--DYL
+Q5A2C9_CANAL/5-404    GSSPKDISKQFKDQGISLAGKRD--ISITKELSRVIPVASVSGAF-ILSVVALIG--DFF
+Q74L41_LACJO/64-372   NFDPKEQAKSFRNNHYYIPNIAPG-RPTQRYLNRLIWIIAFPGAV-LNAFQLVFG--LYG
+B3XPQ8_LACRE/65-377   QFDPKAQAKAMLQGNNYILGVRPG-EPTRKYLRQILLHVSFLGAL-LNAIQLSFG--LLG
+A1C3L4_STRPA/70-403   NYDPYEISKNMRNNGDYISGKKPG-EETIKYIQYVVNSFAQFGAF-TVIIFGGLP--MLA
+Q3DVD6_STRAG/65-395   NIDPTKISEAMRESGDFIPNYRPG-KETQSYLSKICYLFGTFSGF-FMAFLGGVP--LLF
+A5LN99_STRPN/64-389   TMNGEEIADRMKKSGEYIYGIYPG-ADTSLFINRLVLRFSVIGGL-FNVVMAGGP--MLF
+A3CM55_STRSV/64-391   NISGDQIAERMQKSGEYIENVYPG-GATRRYINGLVTYFALVGAF-YLILISGLP--MMV
+Q03HZ8_PEDPA/65-396   NFQTERLTKNLKKSGDYIFNVVPG-TATRHYLNQRLFHLSTVANI-FFLIIVGTP--LIV
+A5IW80_STAA9/64-384   LINTKQKSKDFLKSGNYFSGVKPG-KDTERYLNYQARRVCWFGSA-LVTVIIGIP--LYF
+Q4L9N9_STAHJ/61-383   LINTKKKADEFLKNGNYFDPIRPG-RETERYLNSKARRVCWTGAI-LVALILAVP--LYS
+Q5HKR3_STAEQ/61-380   LINTKRKSKEFLKNGNYFEGIQPG-QQTEKFLGSKARRICWFGSI-VVAIVLAIP--MYS
+Q9RSK8_DEIRA/68-413   QFDPKRIAEQLREAGGFIPGVRPG-GPTADFLGRISGRLSLWGAI-FLVILTILP--QLV
+Q5SHQ8_THET8/71-413   QFDPKRIAESLREYGGFIPGIRPG-EPTVKFLEHIVSRLTLWGAL-FLGLVTLLP--QII
+SECY_CORGL/73-424     QYDPAEQAENMKKYGGFIPGIRPG-RPTAEYLGFVMNRLLFVGSL-YLAVIAVLP--NIM
+A8LB12_FRASN/74-414   TFNPTEVADNMRKYGGFIPGIRPG-RPTAEYLDHVLSRITLPGSL-FLGVITVLP--LAL
+Q83NQ1_TROW8/73-424   TFNPTEIADNMKNYGGFISGIRPG-VPTANYLSYIIKRITLPGSL-YLGIVSLIP--LIA
+Q8G3Z9_BIFLO/74-421   TFNPDETADNMKQYGGFIPGIRAG-NATSRYLTYVMNRLNTVGAV-YLLFVALIP--TVL
+A7B9M4_9ACTO/72-414   TFNPDEVADNMKKYGGFIPGYRAG-RPTAEYLRYVINRITSAGAL-YLVIIALLP--SLA
+SECY_CHLTR/73-433     QFRPEQIASEMKKNGAFIPGIRQG-KPTQTYLEYTMNRVTLLGAV-FLAVVAILP--SIL
+Q1AU49_RUBXD/70-408   QFNPIEHADNLKKSGGYIPGIRPG-QPTALYLNSVLTRITLFGAV-FLAVIAVLP--YLI
+Q8RIH6_FUSNN/75-411   VFDPEKVAENLKQGGGTIPGIRPG-EETVEYLEGVASRITWGGGI-FLAIISILP--YVI
+A6DRC9_9BACT/79-428   QFNPIQIADDLNRSGAFVPGHRPG-EPTSTFLNDTMTRITVAGAI-FLVILALLP--YVL
+C0ACZ0_9BACT/94-454   MFKPIQIAEDLKKYGGYIPGVRPG-EPTAKFLDFVMTRITLAGAI-FLTIIAVFP--DFL
+Q1Q157_9BACT/75-434   QFNPREMSNNMKDYGSFIPGIRPG-HRTAEYLESIMGKITLAGAA-FLSLIAILP--KLV
+A6CGP8_9PLAN/77-435   TFNPKDMAENLKDYGSFIPGYRPG-ARTAAYLEQVMVRITYVGAA-FLSLVAIIP--TLV
+B4S5A8_PROA2/73-417   AFNPKEVADTMRRQGGFIPGVRPG-KSTADFIDNILTRITLPGAI-SLAFIAVLP--TFL
+Q2S3P5_SALRD/75-414   TVNPQEMADTMKRQGGFIPGIRPG-KQTSEFIDTVLTRITLPGSI-FLGLVAIFP--AFA
+A1ZGT4_9SPHI/72-404   SVNPKQIADDLKRNGGFIAGVKPG-SDTSEYIDKIMSKITLPGSI-WLAIVAILP--AIA
+A6EHP4_9SPHI/71-408   TVNPTQMSDDMKKNGGFIPGIKPG-FATSSFIDDVISKITFPGAV-FLAIIAILP--SVA
+Q11QD2_CYTH3/72-411   TVNPNSIAEDLRRNGGFIPSVKPG-LATSEYIDDVLTKITLPGSI-FLALLAILP--AFA
+Q1VTY0_9FLAO/73-421   TVPTNKMADDLKRSGGFIPGIRPG-SETSEYLDRVMSQITLPGSI-FLALIAVFP--AVI
+Q1NYZ7_9FLAO/72-422   SIPVNKISDDLKINGVYIPNRKPG-KDTCFFLKKIVSQIYLTGSL-LLVIIALLP--SIF
+A5KHP6_CAMJE/62-402   VFNAKDIAENLKKQGGFIPGIRPG-EGTSSYLNEVASRLTLSGSI-YLGLVATLP--WVL
+A4EA78_9ACTN/52-389   VFNPDDTADNLKKQGGFIPGVRPG-RATAAYIKNALNKITLPSAV-FLALIAIVP--SII
+Q2GEC0_NEOSM/73-411   VFNTTEISDSLKKGEAIVAGRRPG-ISTKRHLDYVLRRITVVGAA-YLVCICVVP--EIF
+Q3YRM8_EHRCJ/72-412   VFDAKETSEILKKNGGFVPGKRPG-NATCEYFNYVIKRLTVLGSI-YLTVICIIP--ELI
+Q5GSW3_WOLTR/77-416   IFNPEENADFLKKNGGFIPGRRPG-KHTSDYLQDIVFKLTFIGSA-YLVVICTVP--EVM
+Q0ANS0_MARMM/83-421   VSNPDDMAENLRKYGGFLPGIRPG-KRTAEYIDFVMSRLTFIGAL-YLVLICMVP--MMM
+A7IPQ0_XANP2/80-418   VFNPVETADNLKKHGGFIPGIRPG-ERTAEYIDYVLTRITVVGAA-YIAAVCLFP--ELL
+SECY_RICCN/70-411     VFNSEETANNLRKYGAYIPGKRPG-KNTSDYFDYILTRLTVIGGI-YLSVICVIP--ELL
+Q2G8W0_NOVAD/80-430   VFNPEETAENLKKNGGFIPGIRPG-KNTANYLDYVLTRITVLGAA-YITVVCVVP--EFI
+A6E0Q6_9RHOB/73-411   AFKTDDVAENLKNQNGFIPGIRPG-KRTAEYLDFVVNRVLVIGSA-YLAAVCLLP--EIL
+Q1UZE8_9RICK/67-404   TFNPTETADNLRKYGGFVPGIRPG-ENTALYIEKIVTKLTTIGAL-YLTIVCLMP--EFL
+Q3R245_XYLFA/76-424   VFSSQETADILKKSGALIPGIRPG-KATSDYVDGVLTRLTAVGSL-YLVIVCLLP--EFM
+A4NK90_HAEIN/76-416   QYNPRDTADNLKKSGAFIPGIRPG-EQTSRYIDKVMTRLTLIGGL-YVTFVCLVP--YIM
+Q057C4_BUCCC/64-407   IFNVQDTANNLKKSGAFLPGIRPG-LKTAEYIKNIVFKLTTIGSI-YTVFICLIP--DIV
+Q8D1Z2_WIGBR/82-424   VFNSKDTADNLKKSGAFISGIRPG-IKTSQYINKIMMNLTLIGAT-YIALICLMP--DFF
+Q6F7T2_ACIAD/83-426   VFSPKEVSENLKRSGAYVPGIRPG-EQTARYLDHILNRLTFIGAI-YITVVCLMP--MIL
+Q6Q8W8_9GAMM/67-407   TFNTKDVSDNLKRSGAYIAGIRPG-EQTANYIDNVLARLTVFGAI-YLTLICLLP--LAL
+A9BRX1_DELAS/74-413   VFNSRETADNLKKSGAFIPGIRPG-DQTARYIDKILVRLTLAGAV-YITFVCLLP--EFL
+Q7DDS8_NEIMB/73-410   VFSPKEMAENLKKSGAFVPGIRPG-EQTSRYLEKVVLRLTLFGAL-YITTICLIP--EFL
+Q5NHU8_FRATT/74-416   VLNPKETADNLKKSGAYISGVRPG-EQTAKYIDAVMTRLTLVGSL-YITAICLLP--IFV
+Q7WZR8_9GAMM/64-388   VLNAKEVSINFKKSGAFIHGMRPG-KQTAGFISKVSSRLNWFGAI-YIVFFSLIP--QLI
+A5EX98_DICNV/69-412   MFENRELADSLKKSSAFIQGFRPG-RQTADYIDTVQERLTFVGAF-YVAFVCVLP--SLV
+Q6MJ32_BDEBA/70-415   VFNPNDVAENLKKYGGFVPGVRAG-KSTADYIQRVLERVNVVGCI-YLCTICILP--GIM
+B5EFS0_GEOBB/71-411   TFNPVDVADNVKKQGGYVPGIRPG-KETSDFLDAVLTKLTFAGAI-YISAVCVLP--SIL
+A3EVQ1_9BACT/75-412   VLNPTDIAENMQKYGGYIPGVRPG-QKTVEYLYRVMNRITFVGAL-YLSIVCVIP--ELL
+Q1MPP6_LAWIP/71-412   IFDSKDISENLKKAGGFIPGIRPG-EKTCEYLDGVLSRLTLWGGV-YISIISILP--MML
+SECY_AQUAE/71-412     LINPVELAENLHKAGAFIPGVRPG-QDTVKYLERIINRLIFFGAL-FLSVIALIP--ILI
+Q01WB2_SOLUE/74-438   IFNPNEAADNMRKYGGFIPGIRPG-RNTADYMNNILTKITVVGGI-YLAILCLIP--DIM
+Q08ZH8_STIAU/26-370   TFRPDDVADNIKKQGGYIPGIRPG-RQTADFIERVLNRITFGGAI-YLATICVIP--TIL
+A6GCG0_9DELT/70-411   QFNPVDLADNLKKQNASIPGVRPG-KRTAEHIEAILGRLTFAGSW-YISAVCVLP--VFL
+Q04PV8_LEPBJ/72-436   QFNPAELAENLKKYGGFIPGIRPG-SHTKEYIEKVLNRITLPGAM-FLAGLALAP--YII
+SECY_BORBU/72-409     QLSPKDISNNIRKNGGTIPGIKSD-E-MEKYLDEIMNKTLFSGSI-FLSIIAIIP--FLV
+Q73PL2_TREDE/73-413   ALNPTEIAKQIRENGGSIPGIRT--DKTEEYLQKILNRLILPGSL-YLAAIAVLP--TVI
+Q67JW3_SYMTH/69-405   TFNPENVADNIKKNGGFIPGYRPG-RPTAEYLERVSSRLTLVGGL-FLAAVTILP--ITI
+A7FQ38_CLOB1/69-409   TFKPDEMAENMHKSSGFIPGIRPG-EPTAEYIERVITKSSIIGGT-FAAIIAVFP--IIM
+A6LPT1_CLOB8/69-416   TFKPDEMSENLHKSAGFVPGVRPG-EETTTYFERVLNRLSFIGGI-LAAVLAVTP--VMI
+Q0SQG4_CLOPS/69-409   TFKPDEMAENMHKSSGFIPGIRPG-KPTEIYLEKVLNRISMFGGC-FAAIIAVVP--ILV
+A9KJH4_CLOPH/71-425   TFNPMEVANNMKKQGGFIPGIRPG-KPTTEYLTKVLNYIIFIGAI-GLMIVAIIP--IFF
+A7VH89_9CLOT/71-420   TFNPMEIANNMKKSGGFVPGIRPG-KPTQDYLNKILNYIIFIGAV-GLLIVAMIP--MFF
+A6BIS2_9FIRM/71-421   TFNPLEIANNMKKSGGFIPGIRPG-RPTVEYLTKILNYIIFVGAC-GLILVQIVP--ILF
+A7VR33_9CLOT/71-423   QYNPIEMANNLRQNNGTIPGIRPG-KPTSDYIQKILSKITLIGAL-FLAVIALLP--IAF
+A6NXF0_9BACE/71-437   QFNPIEVANNLKKNGGFVPGFRPG-KPTADFIYKVLNKITLFGAI-YLAVIALLP--IIT
+Q250L2_DESHY/70-413   SFNPVDVADNLKKYGGFIPGLRPG-RATSDYLSKILSRLTLAGGT-FLAMIAVLP--SLV
+Q8R7X3_THETN/69-402   IFNPQDISDNLKKYGGFIPGIRPG-KPTTEYLTKVLNRIVFVGAL-FLAFIATMP--VVL
+A4XLR1_CALS8/69-419   VFNPVEIANNLKNNGGFIPGIRPG-KPTVDFITRVLSKVTFAGAL-FLAFIAILP--TLV
+A3DJJ2_CLOTH/71-411   QFNPVEVANNLKKNGGFIPGIRPG-KPTSDYIYKVVSRISWFSAL-FLAIIQILP--SLL
+A8MLG0_ALKOO/69-408   TFNPVEISNNMKQNGGFIPGIRPG-KPTADYINKILTRITLSGAV-FLAIITIVP--TIV
+Q18CH6_CLOD6/69-406   SFNTEDISKNMKNNGGFIPGIRPG-EPTMDYLNRILTRLTLAGAT-FLAIIAMVP--ALT
+B8D0S8_HALOH/72-406   TFNPEEVADNMRKSGAFIPGIRPG-KATENFLTRILVRVTLAGAI-FLTVIAIMP--YFI
+
+A9B431_HERA2/73-422   QQIT------------------------GL----------QIG-FSS-TGLL----IVVG
+A8CRX1_9CHLR/78-422   REVT------------------------GI----------QVIqLSS-FGML----IVVG
+A2Y4E5_ORYSI/132-498  DRYL--------------------------rq------inEGFsIGF-TSVL----IIVG
+Q7UZW2_PROMP/80-422   ERAT------------------------NV---------qTFQgLGA-TSLL----ILVG
+Q7NKT4_GLOVI/79-416   EQGT------------------------GI---------tTFNgLGA-TSLL----ILVG
+SECY_GUITH/68-404     ETLT------------------------NL---------sVFKgLGG-TSLL----IIVG
+SECY_CYACA/62-394     EFVF------------------------HI---------rVFKgLAV-SSLL----IVVG
+Q85FU6_CYAME/42-325   SSLK------------------------------------IFSgFGA-TSLL----IVIG
+A0T0J6_PHATR/72-407   ESTL------------------------SI---------tSLNgLST-TSLL----ILAG
+SECY_CYAPA/109-459    ERSL------------------------GL---------pKLQiLSP-VSIS----IALG
+Q4G351_EMIHU/63-407   GNFI------------------------------------QFGlFKNlTSLL----ILIG
+SECY_PAVLU/66-404     AAAL------------------------GV---------hPLSiSGI-TSLI----LSFS
+Q6B8X0_GRATL/62-395   AYIT------------------------HT---------sLLQgLGT-TSLL----ILVG
+SECY_ANTSP/62-390     YYIF------------------------KI---------nTLKgLGA-TSLL----ILVG
+A4RW47_OSTLU/65-398   EQIT------------------------GL---------qTFRgFAG-TSLL----ILVG
+A7PFA4_VITVI/131-465  EQTT------------------------HL---------tAFRgFAG-TSVL----ILVG
+A7HM32_FERNB/75-404   EGIT------------------------RV----------NIW-LGG-TSAL----IAVG
+A3CK84_STRSV/69-416   KDVF------------------------GLt--------dAVA-LGG-TSLL----IIIS
+Q5FM71_LACAC/68-415   TNFW------------------------NLp--------sSIG-LGG-TSLL----IVIG
+Q03ZM6_LEUMM/68-416   SDVW------------------------GLn--------eKIG-LGG-TSLL----ISIG
+SECY_STAA8/69-413     TKFM------------------------GLp--------qSIQ-IGG-TSLL----IVIG
+Q4MG72_BACCE/68-415   TKIA------------------------TLp--------pSAQ-IGG-TSLL----IIVG
+Q6F1X5_MESFL/92-454   SKLT------------------------NLp--------sQLA-IGG-TGLI----ICIS
+Q6KI36_MYCMO/87-436   AGVP------------------------------------ENIsFGG-TSVI----ILVT
+Q4A5I3_MYCS5/83-437   TGIL-----------------------------------qPSIaFGG-TSLM----ILVS
+Q98Q01_MYCPU/90-438   AGMP------------------------------------AAIsFGG-TSMM----ILVS
+Q4AAF9_MYCHJ/85-434   LGLP------------------------------------SAItISG-TSII----ILAT
+Q9PQP1_UREPA/76-434   ALVA------------------------KTinhgipviqpSTI-FGG-TSII----IMVT
+SECY_MYCGE/81-430     SYFI------------------------RLp--------nSLS-LGG-TGII----IIVT
+Q8EUD2_MYCPE/81-433   TMTT------------------------GIp--------nGIA-IGG-TGVI----IMVT
+Q7X4E3_9MOLU/69-399   NYLA------------------------GIk-------isQNIpFSG-TSLL----IIVG
+Q5Q069_ASTYP/59-398   EHFL------------------------SL----------KDMkLGG-TSLL----IIVS
+O21257_RECAM/57-372   FIF---------------------------------------------SKLF----FIIS
+Q74NB9_NANEQ/69-457   SIPI-----------------------------------------GG-TSIL----LATM
+Q2EMT2_METVO/30-379   GALG-----------------------------------------GG-TGVL----LTVS
+A5UL65_METS3/72-433   GALG-----------------------------------------GG-TGVL----LTVG
+SECY_METTH/73-436     GSLG-----------------------------------------GG-TGVL----LTVG
+SECY_PYRAB/72-448     GALG-----------------------------------------TG-TGIL----LTVG
+Q8TZA9_METKA/75-435   GALG-----------------------------------------GG-TGVL----LTVS
+Q9HIT0_THEAC/82-514   GTVG---------------------------------------dTSG-TGLL----LAVG
+Q2QAQ7_9EURY/161-583  GTVG---------------------------------------nATG-TGLL----LAVG
+Q0W1W5_UNCMA/75-487   GILG---------------------------------------aVSG-TGML----LAVS
+SECY_ARCFU/73-471     GTIG---------------------------------------nVSG-TGLL----LAVS
+Q8TRS4_METAC/72-470   GTLG---------------------------------------sAGG-TGLL----LTVS
+A0B9U7_METTP/75-515   GTLG---------------------------------------gAGG-TGLL----LAVS
+SECY_HALMA/73-468     GTIG---------------------------------------gVSG-TGLL----LTVS
+Q2FSG8_METHJ/73-458   GVIG---------------------------------------aVSG-TGLL----LTVS
+A2SPM5_METLZ/73-458   GIIG---------------------------------------fVGG-TGLL----LTVS
+A0RUE4_CENSY/79-457   GVFG-----------------------------------------SG-IGIL----LMVD
+A8ME75_CALMQ/77-461   GVYG-----------------------------------------TG-IGLI----LMVE
+A3MUZ2_PYRCJ/70-435   GVWG-----------------------------------------GG-VGLI----LLVE
+SECY_SULSO/73-449     GAYG-----------------------------------------TG-IGIL----LAVT
+SECY_SULAC/74-443     GTYG-----------------------------------------TG-VGLL----LAIT
+A2BME2_HYPBU/73-444   GAYG-----------------------------------------TG-SGLV----LLVG
+SECY_AERPE/73-434     GAYG-----------------------------------------TG-TGLL----LAVG
+A1RWR3_THEPD/75-456   RVMG-----------------------------------------GG-TGIL----LLVG
+SC61A_SCHPO/76-459    GALG-----------------------------------------SG-TAVL----LCTT
+A7E5Q2_SCLS1/76-459   GALG-----------------------------------------SG-TGIL----LAVT
+Q5KC69_CRYNE/75-459   GALG-----------------------------------------SG-TGIL----MATT
+SC61A_ASHGO/75-460    GTLG-----------------------------------------SG-TSIL----MATT
+Q59MJ6_CANAL/76-459   GTLG-----------------------------------------SG-TSIL----LAVT
+A7SJW4_NEMVE/75-458   GAIG-----------------------------------------SG-TGIL----LAVT
+A0CFY2_PARTE/73-456   GAIG-----------------------------------------SG-TGIL----LAVT
+Q22MG2_TETTH/151-538  GVIG-----------------------------------------SG-TGIL----LAVN
+A0CU87_PARTE/77-460   GAIG-----------------------------------------SG-TGIL----LSVT
+Q7RLN0_PLAYO/121-506  GALG-----------------------------------------SG-TGIL----LAVT
+Q4QGX4_LEIMA/77-467   GAIG-----------------------------------------SG-TGIL----LSVT
+A5JEK2_NOSBO/75-457   DTIG-----------------------------------------SG-TNIF----LATS
+A2DH65_TRIVA/75-462   SAFG-----------------------------------------SG-TGII----LAVS
+Q2QM98_ORYSJ/88-448   GAIG----------------------------------------EAG-PELL----FAVL
+Q6AV46_ORYSJ/86-471   GAVG-----------------------------------------SG-AGML----LAVT
+Q6C854_YARLI/70-454   GGLG----------------------------------------ASA-APMI----VAVT
+SSH1_YEAST/78-465     GLKG-----------------------------------------KA-AGIV----VGIA
+Q6BT20_DEBHA/78-475   GGLG-----------------------------------------KG-VAAI----IGVC
+A5DE75_PICGU/20-414   GGAG-----------------------------------------KG-VGTI----IGVS
+A3GFV9_PICST/78-476   GGLG-----------------------------------------KS-AATI----VGVS
+A5DWJ5_LODEL/34-436   GGLG-----------------------------------------RN-VASI----VGVS
+Q5A2C9_CANAL/5-404    GGLG-----------------------------------------YG-VASI----IGVT
+Q74L41_LACJO/64-372   GNFL------------------------GN--------------YAG-FAIIpmnvVMIT
+B3XPQ8_LACRE/65-377   GQVL------------------------GN--------------FAG-LAIIpmnmIMIV
+A1C3L4_STRPA/70-403   VLLQ--------------------------gqg----knsVSIaLLI-SNAY----IIVS
+Q3DVD6_STRAG/65-395   ALG---------------------------n-------ddLRTvSSM-TGIF----MMIT
+A5LN99_STRPN/64-389   VLF---------------------------d-------ekLLRlAMI-PGLF----MMFG
+A3CM55_STRSV/64-391   VLV---------------------------d-------irYLRlSMI-PGIF----MIFI
+Q03HZ8_PEDPA/65-396   GLYL--------------------------p-------eiTNFaFVF-ANIL----ILIT
+A5IW80_STAA9/64-384   TLFV--------------------------p-------hlSTEiYFS-VQLI----VLVY
+Q4L9N9_STAHJ/61-383   TLLV--------------------------p-------nlSTEiYFS-MQLI----ILVY
+Q5HKR3_STAEQ/61-380   ALLV--------------------------p-------hlLKEvYFT-TQMI----VFVY
+Q9RSK8_DEIRA/68-413   QKAT------------------------GI----------TTFqFSG-TGLL----IIVG
+Q5SHQ8_THET8/71-413   QNLT------------------------GI----------HSIaFSG-IGLL----IVVG
+SECY_CORGL/73-424     LDL-------------------------GVda-----gsaGATpFGG-TAIL----ILVS
+A8LB12_FRASN/74-414   LNLT------------------------KD----------QPFpFAG-TSVL----IMVG
+Q83NQ1_TROW8/73-424   FALF------------------------GLsa------diP---LGG-TSVL----IMVG
+Q8G3Z9_BIFLO/74-421   IMAL------------------------GL---------nAKLpFGG-TTIL----IIAG
+A7B9M4_9ACTO/72-414   IIPL------------------------QLs--------sSQMpFGG-TTLL----IIIG
+SECY_CHLTR/73-433     GRIL------------------------RVda------nvSYF-LGG-TAML----IVVG
+Q1AU49_RUBXD/70-408   TGAL------------------------NLp--------nSIY-LGG-TSML----IVVG
+Q8RIH6_FUSNN/75-411   FTSM------------------------GL----------PVY-FGG-TGII----IVVG
+A6DRC9_9BACT/79-428   MNAM------------------------GSgstd--fiitQF--FGG-TSLL----IMVG
+C0ACZ0_9BACT/94-454   NAEL------------------------NVpq------riSSF-FGG-TGML----ITVG
+Q1Q157_9BACT/75-434   AGGF------------------------ELnr------aiAGF-YGG-TGLL----IIVG
+A6CGP8_9PLAN/77-435   STWL------------------------GVdf------lvASF-YGG-TGLL----IVVS
+B4S5A8_PROA2/73-417   TKFA------------------------NVtp------gfAQF-FGG-TSLL----IIVG
+Q2S3P5_SALRD/75-414   MQA-------------------------GVsq------gfAMF-YGG-TSLL----ILVQ
+A1ZGT4_9SPHI/72-404   VKF-------------------------GIqn------sfAQF-YGG-TSLL----IMVG
+A6EHP4_9SPHI/71-408   VKF-------------------------GIks------efAHF-YGG-TSLL----ILVG
+Q11QD2_CYTH3/72-411   SMT-------------------------GIek------efAYF-YGG-TSLL----IMIG
+Q1VTY0_9FLAO/73-421   VSLL------------------------NVqq------gwGLF-FGG-TSLL----IMVG
+Q1NYZ7_9FLAO/72-422   ISLGg---------------------dkNF----------SLF-FGG-TTII----IIVG
+A5KHP6_CAMJE/62-402   VKFM------------------------GV----------PFH-FGG-TSVL----IVVQ
+A4EA78_9ACTN/52-389   FSFT------------------------GN---------hLIQaFGG-TSIL----IMVG
+Q2GEC0_NEOSM/73-411   RNYF------------------------GF----------DAI-ISG-TSLL----IIVN
+Q3YRM8_EHRCJ/72-412   RYNY------------------------SV----------SFT-LGG-TSFL----IIVN
+Q5GSW3_WOLTR/77-416   RYYY------------------------DM----------PFI-FGG-TSLL----IIVN
+Q0ANS0_MARMM/83-421   ----------------------------NP----------NTA-LGG-TSLL----IVVS
+A7IPQ0_XANP2/80-418   ISYA------------------------SL----------PFY-FGG-TSLL----IVVS
+SECY_RICCN/70-411     MNKY------------------------VI----------SLS-LGG-TSFL----IVVN
+Q2G8W0_NOVAD/80-430   MAET------------------------GM---------gTLF-FGG-TSLL----IVVN
+A6E0Q6_9RHOB/73-411   RNQF------------------------AI----------PFY-FGG-TSVL----IVVS
+Q1UZE8_9RICK/67-404   IANY------------------------PI----------PFY-LGG-TSIL----IVVV
+Q3R245_XYLFA/76-424   QSRI------------------------GA----------SFH-FGG-TSLL----IAVV
+A4NK90_HAEIN/76-416   TSAW------------------------DV----------KFY-FGG-TSLL----IVVV
+Q057C4_BUCCC/64-407   RYFF------------------------KV----------PFN-FGG-TSLL----IVVV
+Q8D1Z2_WIGBR/82-424   RVFI------------------------KS----------PFH-FGG-TSLL----IVVV
+Q6F7T2_ACIAD/83-426   QNSF------------------------GI----------PFH-LGG-TSLL----IVVV
+Q6Q8W8_9GAMM/67-407   INFAg----------------------iSP----------TIS-IGG-TSVL----IIVV
+A9BRX1_DELAS/74-413   ILKY------------------------NV----------PFY-FGG-TSLL----IIVV
+Q7DDS8_NEIMB/73-410   TTVL------------------------NV----------PFY-LGG-TSLL----ILVV
+Q5NHU8_FRATT/74-416   VKFFa----------------------qGL----------SFT-FGG-TSLL----IVVV
+Q7WZR8_9GAMM/64-388   MVYC------------------------KI----------PFC-GGG-ISIL----IMVV
+A5EX98_DICNV/69-412   NMGS------------------------ASg--------qVLFlFGG-TSLL----IAVV
+Q6MJ32_BDEBA/70-415   VSQF------------------------NV----------PFQ-FGG-TSLL----ILVG
+B5EFS0_GEOBB/71-411   IGKF------------------------NL----------PFY-FGG-TSLL----IAVG
+A3EVQ1_9BACT/75-412   IYQL------------------------HV----------PFY-FGG-TSLL----IVIG
+Q1MPP6_LAWIP/71-412   ISQF------------------------NV----------PFY-FGG-TSIL----ILVG
+SECY_AQUAE/71-412     SVWF------------------------NI----------PFY-FGG-TTAL----IVVG
+Q01WB2_SOLUE/74-438   ISGIklhhlwlvgdwidrvaprfileglGV----------NFY-FGG-TSLL----IVVG
+Q08ZH8_STIAU/26-370   TQWL------------------------QV----------PFA-FGG-TALL----IVVG
+A6GCG0_9DELT/70-411   QTEF------------------------NV----------PFY-YGG-TSLL----IVVG
+Q04PV8_LEPBJ/72-436   IKFL------------------------DLssns--gggsLVYtFGG-TSLL----IMVG
+SECY_BORBU/72-409     QNIF------------------------RFph------dvSRI-MGG-SSLL----IMVG
+Q73PL2_TREDE/73-413   QWAF------------------------SFpr------niSML-MGG-TSLL----ILVG
+Q67JW3_SYMTH/69-405   MSLA------------------------GV---------qNAY-IGG-SSLL----IVVS
+A7FQ38_CLOB1/69-409   AAYS------------------------KF---------qGIS-FGG-TSML----IMVG
+A6LPT1_CLOB8/69-416   QNYT------------------------QF---------qNIA-FSG-TGLL----IVIN
+Q0SQG4_CLOPS/69-409   ANYT------------------------PF---------qGIQ-FGG-TSLL----ILVS
+A9KJH4_CLOPH/71-425   SGMF------------------------DA----------HVS-FSG-TSLI----IVVS
+A7VH89_9CLOT/71-420   NGFF------------------------SV----------NVS-FGG-TSII----IVVG
+A6BIS2_9FIRM/71-421   NGWL------------------------GA----------KVS-FGG-TSLI----IIVS
+A7VR33_9CLOT/71-423   SAFT------------------------GM---------hNLM-MGG-TSVI----ILVG
+A6NXF0_9BACE/71-437   SNII------------------------NLasgs--qmgrSLS-IGG-TSII----IVVG
+Q250L2_DESHY/70-413   IGLT------------------------GI---------pNIT-LGG-TSLL----IVVS
+Q8R7X3_THETN/69-402   MNVT------------------------GL----------QLY-FGG-TALL----IAVG
+A4XLR1_CALS8/69-419   GLMFr----------------------hQL----------NIY-FGG-TSLL----IVVG
+A3DJJ2_CLOTH/71-411   QAIT------------------------GI---------rGIW-FAG-TSVL----ILVG
+A8MLG0_ALKOO/69-408   LGIT------------------------HI----------PIS-FGG-TTII----IIVG
+Q18CH6_CLOD6/69-406   THYM------------------------KV----------NMS-LAG-TSLL----IVVG
+B8D0S8_HALOH/72-406   SDIT------------------------RV----------RIS-FGG-TSLL----IMTG
+
+A9B431_HERA2/73-422   ----VAVD---TMR
+A8CRX1_9CHLR/78-422   ----VALD---TMK
+A2Y4E5_ORYSI/132-498  ----SIIE---LRR
+Q7UZW2_PROMP/80-422   ----VAID---TAK
+Q7NKT4_GLOVI/79-416   ----VAID---TVR
+SECY_GUITH/68-404     ----VQVD---TSK
+SECY_CYACA/62-394     ----VAID---LIK
+Q85FU6_CYAME/42-325   ----VSID---TMR
+A0T0J6_PHATR/72-407   ----VVLD---LVR
+SECY_CYAPA/109-459    ----VAVD---TTR
+Q4G351_EMIHU/63-407   ----VITD---TTS
+SECY_PAVLU/66-404     ----IIND---TVR
+Q6B8X0_GRATL/62-395   ----VAID---TAK
+SECY_ANTSP/62-390     ----VAID---TAK
+A4RW47_OSTLU/65-398   ----VATD---SAR
+A7PFA4_VITVI/131-465  ----CATD---TAR
+A7HM32_FERNB/75-404   ----VALD---IAQ
+A3CK84_STRSV/69-416   ----TGIE---GMK
+Q5FM71_LACAC/68-415   ----VVLE---LSR
+Q03ZM6_LEUMM/68-416   ----VALD---LIR
+SECY_STAA8/69-413     ----VAIE---TMK
+Q4MG72_BACCE/68-415   ----VALE---TMK
+Q6F1X5_MESFL/92-454   ----VAIQ---TTQ
+Q6KI36_MYCMO/87-436   ----ASYE---TIT
+Q4A5I3_MYCS5/83-437   ----VSIE---TIS
+Q98Q01_MYCPU/90-438   ----VSLE---TID
+Q4AAF9_MYCHJ/85-434   ----TTLE---TIS
+Q9PQP1_UREPA/76-434   ----ATLE---LWN
+SECY_MYCGE/81-430     ----AVVE---FIS
+Q8EUD2_MYCPE/81-433   ----GSLD---FWS
+Q7X4E3_9MOLU/69-399   ----VALE---SIQ
+Q5Q069_ASTYP/59-398   ----VALE---TIQ
+O21257_RECAM/57-372   ---yLFIEidfSFF
+Q74NB9_NANEQ/69-457   ----ISYM---VYE
+Q2EMT2_METVO/30-379   ----IVYR---FYE
+A5UL65_METS3/72-433   ----IIHK---IYE
+SECY_METTH/73-436     ----IVYR---LYE
+SECY_PYRAB/72-448     ----ILYR---FYE
+Q8TZA9_METKA/75-435   ----ILYN---MYE
+Q9HIT0_THEAC/82-514   ----IIIQ---FYE
+Q2QAQ7_9EURY/161-583  ----IILR---TYE
+Q0W1W5_UNCMA/75-487   ----ITYQ---LYE
+SECY_ARCFU/73-471     ----IAYR---FYE
+Q8TRS4_METAC/72-470   ----IVYR---LYE
+A0B9U7_METTP/75-515   ----IMYR---LYE
+SECY_HALMA/73-468     ----ITYK---LYE
+Q2FSG8_METHJ/73-458   ----ITYR---LYE
+A2SPM5_METLZ/73-458   ----IIYR---LYE
+A0RUE4_CENSY/79-457   ----ILIN---YYN
+A8ME75_CALMQ/77-461   ----IIIQ---YYT
+A3MUZ2_PYRCJ/70-435   ----IALQ---YYA
+SECY_SULSO/73-449     ----IAIQ---YYS
+SECY_SULAC/74-443     ----IAMQ---YYN
+A2BME2_HYPBU/73-444   ----IIYN---FYQ
+SECY_AERPE/73-434     ----IINQ---YYA
+A1RWR3_THEPD/75-456   ----IIVQ---YYS
+SC61A_SCHPO/76-459    ----TIYG---YYE
+A7E5Q2_SCLS1/76-459   ----IIYG---YFE
+Q5KC69_CRYNE/75-459   ----IIYG---YFE
+SC61A_ASHGO/75-460    ----TIYG---YYE
+Q59MJ6_CANAL/76-459   ----TIYG---YYE
+A7SJW4_NEMVE/75-458   ----IIYQ---YFE
+A0CFY2_PARTE/73-456   ----IIYG---YFE
+Q22MG2_TETTH/151-538  ----IVYG---YFE
+A0CU87_PARTE/77-460   ----IIYG---YFE
+Q7RLN0_PLAYO/121-506  ----IIYQ---FYE
+Q4QGX4_LEIMA/77-467   ----MINQ---YYE
+A5JEK2_NOSBO/75-457   ----IVHQ---YLE
+A2DH65_TRIVA/75-462   ----IINQ---FTA
+Q2QM98_ORYSJ/88-448   ----VIKN---LAE
+Q6AV46_ORYSJ/86-471   ----TVYQ---CYE
+Q6C854_YARLI/70-454   ----SMNN---YFE
+SSH1_YEAST/78-465     ----GGFS---LLE
+Q6BT20_DEBHA/78-475   ----GAFG---ILE
+A5DE75_PICGU/20-414   ----AAFG---VLE
+A3GFV9_PICST/78-476   ----AAFS---VLE
+A5DWJ5_LODEL/34-436   ----SAFG---ILE
+Q5A2C9_CANAL/5-404    ----ASFA---VLE
+Q74L41_LACJO/64-372   -----------MFM
+B3XPQ8_LACRE/65-377   ----MFMQ---GIK
+A1C3L4_STRPA/70-403   ----LLLG---VIE
+Q3DVD6_STRAG/65-395   gmsfMILDefqVIR
+A5LN99_STRPN/64-389   ----GMIF---TIR
+A3CM55_STRSV/64-391   ----GMVF---SIK
+Q03HZ8_PEDPA/65-396   ----IIDT---TMD
+A5IW80_STAA9/64-384   ----ISIN---IAE
+Q4L9N9_STAHJ/61-383   ----ISINigeTIR
+Q5HKR3_STAEQ/61-380   ----IGIN---IAE
+Q9RSK8_DEIRA/68-413   ----VALE---TLK
+Q5SHQ8_THET8/71-413   ----VALD---TLR
+SECY_CORGL/73-424     ----VALT---TVK
+A8LB12_FRASN/74-414   ----VGLE---TVK
+Q83NQ1_TROW8/73-424   ----VGLD---TVK
+Q8G3Z9_BIFLO/74-421   ----VGLD---TLR
+A7B9M4_9ACTO/72-414   ----VGLQ---TVK
+SECY_CHLTR/73-433     ----VILD---TMK
+Q1AU49_RUBXD/70-408   ----VSLD---TVR
+Q8RIH6_FUSNN/75-411   ----VALD---TIQ
+A6DRC9_9BACT/79-428   ----VVLQ---TMQ
+C0ACZ0_9BACT/94-454   ----VILD---TMK
+Q1Q157_9BACT/75-434   ----VALD---MVQ
+A6CGP8_9PLAN/77-435   ----VVLD---LVN
+B4S5A8_PROA2/73-417   ----VGLD---TLQ
+Q2S3P5_SALRD/75-414   ----VTLD---TLQ
+A1ZGT4_9SPHI/72-404   ----VVLN---TLQ
+A6EHP4_9SPHI/71-408   ----VVLD---TLQ
+Q11QD2_CYTH3/72-411   ----VVLD---TLQ
+Q1VTY0_9FLAO/73-421   ----VAID---TIQ
+Q1NYZ7_9FLAO/72-422   ----GLLDikyTIN
+A5KHP6_CAMJE/62-402   ----VALD---TMR
+A4EA78_9ACTN/52-389   ----VVLD---TVD
+Q2GEC0_NEOSM/73-411   ----VITD---LLS
+Q3YRM8_EHRCJ/72-412   ----VIID---TFS
+Q5GSW3_WOLTR/77-416   ----VTTD---TIM
+Q0ANS0_MARMM/83-421   ----VTMD---TVS
+A7IPQ0_XANP2/80-418   ----VTMD---TVS
+SECY_RICCN/70-411     ----VVLD---TMT
+Q2G8W0_NOVAD/80-430   ----VTVD---TIT
+A6E0Q6_9RHOB/73-411   ----VTMD---TIQ
+Q1UZE8_9RICK/67-404   ----VAID---TVT
+Q3R245_XYLFA/76-424   ----VVMD---FIS
+A4NK90_HAEIN/76-416   ----VIMD---FIV
+Q057C4_BUCCC/64-407   ----VLIE---FIT
+Q8D1Z2_WIGBR/82-424   ----VTID---FMT
+Q6F7T2_ACIAD/83-426   ----VVMD---FMA
+Q6Q8W8_9GAMM/67-407   ----VLMD---FMS
+A9BRX1_DELAS/74-413   ----VTMD---FMA
+Q7DDS8_NEIMB/73-410   ----VTMD---FST
+Q5NHU8_FRATT/74-416   ----VMMD---FMA
+Q7WZR8_9GAMM/64-388   ----VVLD---FLS
+A5EX98_DICNV/69-412   ----VAMD---LMS
+Q6MJ32_BDEBA/70-415   ----VALD---TAQ
+B5EFS0_GEOBB/71-411   ----VGMD---TLS
+A3EVQ1_9BACT/75-412   ----VSLD---TAQ
+Q1MPP6_LAWIP/71-412   ----VAMD---FMS
+SECY_AQUAE/71-412     ----VALD---TFR
+Q01WB2_SOLUE/74-438   ----VAMD---TIN
+Q08ZH8_STIAU/26-370   ----VALD---TVQ
+A6GCG0_9DELT/70-411   ----VALD---TAQ
+Q04PV8_LEPBJ/72-436   ----VALE---TLK
+SECY_BORBU/72-409     ----VALD---TLI
+Q73PL2_TREDE/73-413   ----VDLD---TMS
+Q67JW3_SYMTH/69-405   ----VALE---TTK
+A7FQ38_CLOB1/69-409   ----FALD---TIR
+A6LPT1_CLOB8/69-416   ----VALD---FTR
+Q0SQG4_CLOPS/69-409   ----VSLE---IMR
+A9KJH4_CLOPH/71-425   ----VVLE---TMK
+A7VH89_9CLOT/71-420   ----VVIE---TMK
+A6BIS2_9FIRM/71-421   ----VILE---TLK
+A7VR33_9CLOT/71-423   ----VALD---TMK
+A6NXF0_9BACE/71-437   ----VALE---TVK
+Q250L2_DESHY/70-413   ----VALE---TMK
+Q8R7X3_THETN/69-402   ----VALD---TMK
+A4XLR1_CALS8/69-419   ----VALE---TIR
+A3DJJ2_CLOTH/71-411   ----VALE---TVK
+A8MLG0_ALKOO/69-408   ----VALE---TMK
+Q18CH6_CLOD6/69-406   ----VALE---LKR
+B8D0S8_HALOH/72-406   ----VALQ---TMQ
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.sto
new file mode 100755
index 0000000..7eadcda
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example-single.sto
@@ -0,0 +1,344 @@
+# STOCKHOLM 1.0
+#=GF ID   SecY
+#=GF AC   PF00344.13
+#=GF DE   eubacterial secY protein
+#=GF PI   secY;
+#=GF AU   Finn RD
+#=GF SE   Prosite
+#=GF GA   20.10 20.10;
+#=GF TC   20.10 21.30;
+#=GF NC   19.80 19.80;
+#=GF BM   hmmbuild HMM.ann SEED.ann
+#=GF SM   hmmsearch -Z 9421015 -E 1000 HMM pfamseq
+#=GF TP   Family
+#=GF DR   INTERPRO; IPR002208;
+#=GF DR   PROSITE; PDOC00612;
+#=GF DR   PRINTS; PR00303;
+#=GF DR   TC; 3.A.5;
+#=GF DR   SCOP; 1rh5; fa;
+#=GF SQ   158
+#=GS A9B431_HERA2/73-422   AC A9B431.1
+#=GS A8CRX1_9CHLR/78-422   AC A8CRX1.1
+#=GS A2Y4E5_ORYSI/132-498  AC A2Y4E5.1
+#=GS Q7UZW2_PROMP/80-422   AC Q7UZW2.1
+#=GS Q7NKT4_GLOVI/79-416   AC Q7NKT4.1
+#=GS SECY_GUITH/68-404     AC P28527.2
+#=GS SECY_CYACA/62-394     AC P46249.2
+#=GS Q85FU6_CYAME/42-325   AC Q85FU6.1
+#=GS A0T0J6_PHATR/72-407   AC A0T0J6.1
+#=GS SECY_CYAPA/109-459    AC P25014.2
+#=GS Q4G351_EMIHU/63-407   AC Q4G351.1
+#=GS SECY_PAVLU/66-404     AC P28540.2
+#=GS Q6B8X0_GRATL/62-395   AC Q6B8X0.1
+#=GS SECY_ANTSP/62-390     AC Q37143.1
+#=GS A4RW47_OSTLU/65-398   AC A4RW47.1
+#=GS A7PFA4_VITVI/131-465  AC A7PFA4.1
+#=GS A7HM32_FERNB/75-404   AC A7HM32.1
+#=GS A3CK84_STRSV/69-416   AC A3CK84.1
+#=GS Q5FM71_LACAC/68-415   AC Q5FM71.1
+#=GS Q03ZM6_LEUMM/68-416   AC Q03ZM6.1
+#=GS SECY_STAA8/69-413     AC O08387.2
+#=GS Q4MG72_BACCE/68-415   AC Q4MG72.1
+#=GS Q6F1X5_MESFL/92-454   AC Q6F1X5.1
+#=GS Q6KI36_MYCMO/87-436   AC Q6KI36.1
+#=GS Q4A5I3_MYCS5/83-437   AC Q4A5I3.1
+#=GS Q98Q01_MYCPU/90-438   AC Q98Q01.1
+#=GS Q4AAF9_MYCHJ/85-434   AC Q4AAF9.1
+#=GS Q9PQP1_UREPA/76-434   AC Q9PQP1.1
+#=GS SECY_MYCGE/81-430     AC P47416.1
+#=GS Q8EUD2_MYCPE/81-433   AC Q8EUD2.1
+#=GS Q7X4E3_9MOLU/69-399   AC Q7X4E3.1
+#=GS Q5Q069_ASTYP/59-398   AC Q5Q069.1
+#=GS O21257_RECAM/57-372   AC O21257.1
+#=GS Q74NB9_NANEQ/69-457   AC Q74NB9.1
+#=GS Q2EMT2_METVO/30-379   AC Q2EMT2.1
+#=GS A5UL65_METS3/72-433   AC A5UL65.1
+#=GS SECY_METTH/73-436     AC O26134.1
+#=GS SECY_PYRAB/72-448     AC Q9V1V8.1
+#=GS Q8TZA9_METKA/75-435   AC Q8TZA9.1
+#=GS Q9HIT0_THEAC/82-514   AC Q9HIT0.1
+#=GS Q2QAQ7_9EURY/161-583  AC Q2QAQ7.1
+#=GS Q0W1W5_UNCMA/75-487   AC Q0W1W5.1
+#=GS SECY_ARCFU/73-471     AC O28377.1
+#=GS Q8TRS4_METAC/72-470   AC Q8TRS4.1
+#=GS A0B9U7_METTP/75-515   AC A0B9U7.1
+#=GS SECY_HALMA/73-468     AC P28542.2
+#=GS Q2FSG8_METHJ/73-458   AC Q2FSG8.1
+#=GS A2SPM5_METLZ/73-458   AC A2SPM5.1
+#=GS A0RUE4_CENSY/79-457   AC A0RUE4.1
+#=GS A8ME75_CALMQ/77-461   AC A8ME75.1
+#=GS A3MUZ2_PYRCJ/70-435   AC A3MUZ2.1
+#=GS SECY_SULSO/73-449     AC Q9UX84.1
+#=GS SECY_SULAC/74-443     AC P49978.1
+#=GS A2BME2_HYPBU/73-444   AC A2BME2.1
+#=GS SECY_AERPE/73-434     AC Q9YDD0.2
+#=GS A1RWR3_THEPD/75-456   AC A1RWR3.1
+#=GS SC61A_SCHPO/76-459    AC P79088.1
+#=GS A7E5Q2_SCLS1/76-459   AC A7E5Q2.1
+#=GS Q5KC69_CRYNE/75-459   AC Q5KC69.1
+#=GS SC61A_ASHGO/75-460    AC Q752H7.1
+#=GS Q59MJ6_CANAL/76-459   AC Q59MJ6.1
+#=GS A7SJW4_NEMVE/75-458   AC A7SJW4.1
+#=GS A0CFY2_PARTE/73-456   AC A0CFY2.1
+#=GS Q22MG2_TETTH/151-538  AC Q22MG2.2
+#=GS A0CU87_PARTE/77-460   AC A0CU87.1
+#=GS Q7RLN0_PLAYO/121-506  AC Q7RLN0.1
+#=GS Q4QGX4_LEIMA/77-467   AC Q4QGX4.1
+#=GS A5JEK2_NOSBO/75-457   AC A5JEK2.1
+#=GS A2DH65_TRIVA/75-462   AC A2DH65.1
+#=GS Q2QM98_ORYSJ/88-448   AC Q2QM98.2
+#=GS Q6AV46_ORYSJ/86-471   AC Q6AV46.1
+#=GS Q6C854_YARLI/70-454   AC Q6C854.2
+#=GS SSH1_YEAST/78-465     AC P38353.1
+#=GS Q6BT20_DEBHA/78-475   AC Q6BT20.2
+#=GS A5DE75_PICGU/20-414   AC A5DE75.1
+#=GS A3GFV9_PICST/78-476   AC A3GFV9.2
+#=GS A5DWJ5_LODEL/34-436   AC A5DWJ5.1
+#=GS Q5A2C9_CANAL/5-404    AC Q5A2C9.1
+#=GS Q74L41_LACJO/64-372   AC Q74L41.1
+#=GS B3XPQ8_LACRE/65-377   AC B3XPQ8.1
+#=GS A1C3L4_STRPA/70-403   AC A1C3L4.1
+#=GS Q3DVD6_STRAG/65-395   AC Q3DVD6.1
+#=GS A5LN99_STRPN/64-389   AC A5LN99.1
+#=GS A3CM55_STRSV/64-391   AC A3CM55.1
+#=GS Q03HZ8_PEDPA/65-396   AC Q03HZ8.1
+#=GS A5IW80_STAA9/64-384   AC A5IW80.1
+#=GS Q4L9N9_STAHJ/61-383   AC Q4L9N9.1
+#=GS Q5HKR3_STAEQ/61-380   AC Q5HKR3.1
+#=GS Q9RSK8_DEIRA/68-413   AC Q9RSK8.1
+#=GS Q5SHQ8_THET8/71-413   AC Q5SHQ8.1
+#=GS Q5SHQ8_THET8/71-413   DR PDB; 2zjs Y; 71-413;
+#=GS Q5SHQ8_THET8/71-413   DR PDB; 2zqp Y; 71-413;
+#=GS SECY_CORGL/73-424     AC P38376.1
+#=GS A8LB12_FRASN/74-414   AC A8LB12.1
+#=GS Q83NQ1_TROW8/73-424   AC Q83NQ1.1
+#=GS Q8G3Z9_BIFLO/74-421   AC Q8G3Z9.1
+#=GS A7B9M4_9ACTO/72-414   AC A7B9M4.1
+#=GS SECY_CHLTR/73-433     AC P28539.3
+#=GS Q1AU49_RUBXD/70-408   AC Q1AU49.1
+#=GS Q8RIH6_FUSNN/75-411   AC Q8RIH6.1
+#=GS A6DRC9_9BACT/79-428   AC A6DRC9.1
+#=GS C0ACZ0_9BACT/94-454   AC C0ACZ0.1
+#=GS Q1Q157_9BACT/75-434   AC Q1Q157.1
+#=GS A6CGP8_9PLAN/77-435   AC A6CGP8.1
+#=GS B4S5A8_PROA2/73-417   AC B4S5A8.1
+#=GS Q2S3P5_SALRD/75-414   AC Q2S3P5.1
+#=GS A1ZGT4_9SPHI/72-404   AC A1ZGT4.1
+#=GS A6EHP4_9SPHI/71-408   AC A6EHP4.1
+#=GS Q11QD2_CYTH3/72-411   AC Q11QD2.1
+#=GS Q1VTY0_9FLAO/73-421   AC Q1VTY0.1
+#=GS Q1NYZ7_9FLAO/72-422   AC Q1NYZ7.1
+#=GS A5KHP6_CAMJE/62-402   AC A5KHP6.1
+#=GS A4EA78_9ACTN/52-389   AC A4EA78.1
+#=GS Q2GEC0_NEOSM/73-411   AC Q2GEC0.1
+#=GS Q3YRM8_EHRCJ/72-412   AC Q3YRM8.1
+#=GS Q5GSW3_WOLTR/77-416   AC Q5GSW3.1
+#=GS Q0ANS0_MARMM/83-421   AC Q0ANS0.1
+#=GS A7IPQ0_XANP2/80-418   AC A7IPQ0.1
+#=GS SECY_RICCN/70-411     AC Q92GY6.1
+#=GS Q2G8W0_NOVAD/80-430   AC Q2G8W0.1
+#=GS A6E0Q6_9RHOB/73-411   AC A6E0Q6.1
+#=GS Q1UZE8_9RICK/67-404   AC Q1UZE8.1
+#=GS Q3R245_XYLFA/76-424   AC Q3R245.1
+#=GS A4NK90_HAEIN/76-416   AC A4NK90.1
+#=GS Q057C4_BUCCC/64-407   AC Q057C4.1
+#=GS Q8D1Z2_WIGBR/82-424   AC Q8D1Z2.1
+#=GS Q6F7T2_ACIAD/83-426   AC Q6F7T2.1
+#=GS Q6Q8W8_9GAMM/67-407   AC Q6Q8W8.1
+#=GS A9BRX1_DELAS/74-413   AC A9BRX1.1
+#=GS Q7DDS8_NEIMB/73-410   AC Q7DDS8.1
+#=GS Q5NHU8_FRATT/74-416   AC Q5NHU8.1
+#=GS Q7WZR8_9GAMM/64-388   AC Q7WZR8.1
+#=GS A5EX98_DICNV/69-412   AC A5EX98.1
+#=GS Q6MJ32_BDEBA/70-415   AC Q6MJ32.1
+#=GS B5EFS0_GEOBB/71-411   AC B5EFS0.1
+#=GS A3EVQ1_9BACT/75-412   AC A3EVQ1.1
+#=GS Q1MPP6_LAWIP/71-412   AC Q1MPP6.1
+#=GS SECY_AQUAE/71-412     AC O66491.1
+#=GS SECY_AQUAE/71-412     DR PDB; 3dl8 H; 71-412;
+#=GS SECY_AQUAE/71-412     DR PDB; 3dl8 G; 71-412;
+#=GS Q01WB2_SOLUE/74-438   AC Q01WB2.1
+#=GS Q08ZH8_STIAU/26-370   AC Q08ZH8.1
+#=GS A6GCG0_9DELT/70-411   AC A6GCG0.1
+#=GS Q04PV8_LEPBJ/72-436   AC Q04PV8.1
+#=GS SECY_BORBU/72-409     AC O51451.1
+#=GS Q73PL2_TREDE/73-413   AC Q73PL2.1
+#=GS Q67JW3_SYMTH/69-405   AC Q67JW3.1
+#=GS A7FQ38_CLOB1/69-409   AC A7FQ38.1
+#=GS A6LPT1_CLOB8/69-416   AC A6LPT1.1
+#=GS Q0SQG4_CLOPS/69-409   AC Q0SQG4.1
+#=GS A9KJH4_CLOPH/71-425   AC A9KJH4.1
+#=GS A7VH89_9CLOT/71-420   AC A7VH89.1
+#=GS A6BIS2_9FIRM/71-421   AC A6BIS2.1
+#=GS A7VR33_9CLOT/71-423   AC A7VR33.1
+#=GS A6NXF0_9BACE/71-437   AC A6NXF0.1
+#=GS Q250L2_DESHY/70-413   AC Q250L2.1
+#=GS Q8R7X3_THETN/69-402   AC Q8R7X3.1
+#=GS A4XLR1_CALS8/69-419   AC A4XLR1.1
+#=GS A3DJJ2_CLOTH/71-411   AC A3DJJ2.1
+#=GS A8MLG0_ALKOO/69-408   AC A8MLG0.1
+#=GS Q18CH6_CLOD6/69-406   AC Q18CH6.1
+#=GS B8D0S8_HALOH/72-406   AC B8D0S8.1
+A9B431_HERA2/73-422              SVAAMGVYPYITAQIIMQLL................IP.LIPALEQLSKE.GEQGRNRIQRYQYFLTVPLAYLQGYGQIKSLINSGINLFGTLNFS...........ITENFFQTFSILT..IMVSGSMFLVWMGELIDE.RGI.G.NGLSMIIFGGIV.TALPSM................................VY...QAITTSS......................SGNNVIG.........G........ILLLIVTLAT.VVGIVLITEGQRRIPVQYAKR...VRG.......NKVYGGQ..SSH.LPLKVNMAGMIPLIFAQSI..LIFPS...TVASYF.....WNPNGSG.........................FFN...............GVANFFVNSF......................................GPNGLAF.TLAMFVLVLLFTYFYA.LVMFNQQNLPEMLQRNGGFIPGIRPG.RNTEVYLTKVLNRITLIGAV.GLAVVAALP..YFVQQIT........................GL..........QIG.FSS.TGLL....IVVG....VAVD...TMR
+A8CRX1_9CHLR/78-422              SVAALGVYPYITASIIMTLL................TP.VIPKLTALSKE.GEAGRNKINTITHWLAVPTAALAGYSQLLLLQREGAVAQTE...................PLAAVAIVL..SIVAGTMFMVWLGEQITS.YGI.G.NGISLIIFAGIV.AGLPDM................................IG...RGLMASD.........................QFAG.........L........AVYAFMALLT.TVLIVIFTEAHRRIPVQYAQT...VIRS....GKMYRRGG...ESH.IPLRVNSAGMIPLIFASAL..VMLPG...LVASYFMAGSTEDP...............................................NFWNTIYNIFNSGASM.................................PGGLVY.WGLYFFMTIIFAFFYT.MVTFEQQDIPGTLQRQGGFVPGIRPG.KMTDQYLSGVIGRITWAGAL.FLGFVAIMP..FIAREVT........................GI..........QVIQLSS.FGML....IVVG....VALD...TMK
+A2Y4E5_ORYSI/132-498             SFFQLGISHQISASIVMQVLFYPLFGPALLFSNGNVLCHVLPSLEKLRKE.GLDGHEKIKGYIWWLSLGFALVAAFTVSCYSLQYSIYAASY..................RVKHVMITSL..FLVLGAMTMTWICDTISE.SGF.G.HGSSLIICVGIL.TGYTDT................................LH...KMLTQFS.....................GNWYSCWH.........Y........ILGIAGTFILVTMGAVLVTEGCRKIKLQYYGF......KLASGARSESSPVTEVEPY.IPFNINPTGMQPLLTTSYL..LAFPS...IMASIF.....GTQFW.............................E...............SLKETLNPKTS..VG..................................GGPWAY.YLTYAFLVFVFNIF...DIANLPKEISDYLNKMSARVPKIKPG.RATVEYLTKIQTSTRFWGGI.LLSLLATSS..LLLDRYL..........................RQ......INEGFSIGF.TSVL....IIVG....SIIE...LRR
+Q7UZW2_PROMP/80-422              GIFALGILPFINASIIIQLL................TA.SLPVLEDLQKNEGEAGRRKIAQITRYVSLGWGFLQSIIFSLILRQYAIEGISET.................AFV..LQTSI..ALVTGSMIVMWFSEIITE.KGI.G.QGASLVIFLNIV.ATLPKA................................LS...STIEKAQ....................TGDRGDVLG.........I........AVLLGVFLLT.IVGIIFVQEGARRIPIVSAKR...QIG........NSSLLPTRQSY.LPLKLNAGGVMPIIFASAL..IFLPI...TVANVT.....GNPIL.............................I...............KIAGSLNPGS.......................................SNPWPY.ALTFFALILGFSYFYA.SLTINPVDVASNLKKGGVAIPGVRPG.SNTANYLSGIQNRLTLLGGL.FLGSVAIIP..AAVERAT........................NV.........QTFQGLGA.TSLL....ILVG....VAID...TAK
+Q7NKT4_GLOVI/79-416              GVFMLGILPYINASIIMQLL................VP.VFPKLEDLQKNEGEQGRRQIAQYTRYLALGWAIIQSIGVAIYIKPFVADWSPL...................FV..IQTTL..ALTAGAIFVMWLGELITE.KGI.G.NGASLLIFVSIV.SSLPTA................................FS...QTFQLLQ.....................ADSSRVAG.........V........VVLLLVFLAM.IVGIVFVQEGTRRIPIISARR...QVG......PRRQQYQQQQTSY.LPLRVNQGGVMPIIFASSL..LYLPL...TFAQFA.....RN................................A...............TVDQVVNAI........................................SSGWIH.NILYLVLILFFSFFYA.TLIINPEDVSKNLKRMGSSIPGVRPG.TATSEYIAKVMNRLTFLGAI.FLSAVAIIP..TFVEQGT........................GI.........TTFNGLGA.TSLL....ILVG....VAID...TVR
+SECY_GUITH/68-404                GVFALGIVPYINASIIVQLA................TN.SIPSLEKLQKEEGELGRQKIVQLTRYVALVWALIQSIGVSFWVRPYVFNWDLN...................FV..FAMSL..TLTIGSMLIMWFSEQITE.KGI.G.NGPSLLIFINII.SGLPKL................................LQ...SQIQSTR......................LNIQALD.........I........FVLVFIFSVM.IIGIIFIQEGIKRIPIISARQ.............LGKGQMDNKTSY.LPLKLNQSGVMPIIFASAV..LVLPA...YLAQLV.....SNEQL.............................R...............TVLHLFDGTS.......................................NNKLLY.LLFYFTLILFFSYFYT.SLILNPNDVSKNLKKMESSIYGVRPG.KATTEYLQKTLNRLTFLGAL.FLAFIAIVP..NIIETLT........................NL.........SVFKGLGG.TSLL....IIVG....VQVD...TSK
+SECY_CYACA/62-394                SVFALGIIPYINATITIQIL................SS.AFPALKKLQSEEGEIGKKKLNKITKYLSFCFAFIESLAIVLRLQKYAFDWN.....................LYFIVQTTL..ILISGAMLVMWLADNISY.KGI.G.TGASVIIFVNIA.SAFAKF................................LL...NQLFVHS........................IKFLD.........F........ASYFALIVFS.IACIVFVQEAIRKVPIISAKQ.............LDSTSFYSNDYF.LPLRINQGGVMPIILASSL..LALVD...YVIRYG.....LST...............................L...............QAVYFINDIL.......................................PFKILF.LLLYSAFIIFFNYLYC.SLVLNCFELSNNLKKASVVIPSIRPG.KMTEKFFKDTLDNLTLFGSG.FLAFIVLAP..NFLEFVF........................HI.........RVFKGLAV.SSLL....IVVG....VAID...LIK
+Q85FU6_CYAME/42-325              GWFVLGIIPTINASIVMQIL................IS.IVPALTRLQKEEGEMGQKQIQKYTRYLTFFLAGIQAFTLSQQ..................................WCTWL..LIVSGAMLVMWLAEQMTH.KGI.G.NGTSIFVCSNIA.ANF...................................LH...HPIEAPW...............................................SLAMVVLIFT.MLGMIALQEAVRAIPILSAKQ...............LIQSIAQVYL.LPMRLNQGGVMPIIFASST..LALLH.................................................................................................................TWSIWW...LYVACIIFFSHFYN.LVIANPKELSENLNKMAVVIPSIRPG.AETQQYLNRTLNRMSWIGGI.ALSLIALLP..WLFSSLK....................................IFSGFGA.TSLL....IVIG....VSID...TMR
+A0T0J6_PHATR/72-407              GLFTLNIFPYINASILVQLI................LG.FSPKLSKLQKEGDLEGRRSINRLTRLITLMFALIQSVSLALYLKQILFNWN.....................YSLAIEIGL..WLTTGAMIVLWLSELITD.YGL.G.NGASLLIYTNII.SSLPNL................................SK...TILSENS.......................QNFTLG.........S........EIGIVLLIFTSLYGIVFLQEGVRIIPLISSKQ...LNQ.......SSLQDSVTSNNY.IPLRFNQAGVMPIILTTTI..LVVPN...YVNNLG.......................................L...............LPKIDLPINF......................................ESLNFVY.WIGYFVLILVFSSFYS.TIVLNPKDISDQLQKMAVTIPGIRPG.IQTTFYLKQVMKRITLLGTT.MLATLATIP..NFVESTL........................SI.........TSLNGLST.TSLL....ILAG....VVLD...LVR
+SECY_CYAPA/109-459               GFFTLGILPYMNASFFLQVL................TK.ILPSLERFQKEQEEIAQREFKKWTRYLTVIWAFIQSIVISWIWIRPYALNWD....................FFLGLKVVV..ALTLGAVIVMIIAEQITE.IGL.T.NGSSLLIFINII.ARIPNS................................IE...QLFNSNI..................NWT..FPMISS.........L........ILSLSLSFIT.MFVIIGLQESGRPVPVLIARQ...EAERQKFNEPITEAERRKTQAY.IFFQLLPAGIMPVIFASTIFDLALPA....FTNFL.....LQQG..............................N...............WGYQ.LIKSF......................................PFNSLFK.DFCYLITIMLFSSNYALTIMINPKTLAENLNSMNALIPGVRPG.SETKVYSEQLIHRLNFIGSF.VLALVCILP..SIVERSL........................GL.........PKLQILSP.VSIS....IALG....VAVD...TTR
+Q4G351_EMIHU/63-407              GIGSLGILPYINASIIIQLL................TP.LFPNLERLQKEEGELGRQQISRYTRYLTCIWAIVLSSAIAFFLIKPITFGWS....................LKLGLEIVL..SLTVGSILSMWFAELITE.ESL.G.NGSSMIIFINIV.GGIPNN................................LSSLSKTFSAAN......................LASAIPL.........L........LTGLGIYLGI.VLIIIFFQESYKKITIVSAKQLNLTTS......AQTQSERLANNSF.IPLKLNQGGIMPLVFSSTI..AVVFM...YPAQIL............................................................LSSALLTNAAGL..............................ASKLLTIYSFGINFVLVIFFSCFYV.SLVLKPKDMSENLGKMAYSIPGIRQG.KETTKYLEKVINRLAFIGGL.FLAFLAFFP..LFVGNFI....................................QFGLFKNLTSLL....ILIG....VITD...TTS
+SECY_PAVLU/66-404                SILTLGLGPFFSASLAVQFL................VK.LYPAFEKLQNEEGEEGRKTIVRYTRILTVLFCIIESFFLSNSLRSFVFNWN.....................SISYFVVAA..AVTTGSLVLVWLSEVITE.RGI.G.NGSSLLILIGNL.SRFRFLIN............................KDDF...DSLNVSS........................QSNLY.........I........IYIIITLVSM.LIFSTLSQEGARKIPVVSAKQ............LIDGVEDDMRRSY.IPIRFGQAGVVPIIFSSSI..LLFLT...TSIKQL.....PNA...............................N...............IATRVILDSV......................................NLQQIFY.FFTFLVLIIFFSFFYT.LIILSPSDIAKNLKKMSSVIQDTKPG.VATKVYIRKFILQASFVGSI.LLSALILIP..SILAAAL........................GV.........HPLSISGI.TSLI....LSFS....IIND...TVR
+Q6B8X0_GRATL/62-395              GIFALGIVPYINASIMMQLL................TK.LIPELENLQKEEGESGRQKIGQLTRYFTLIWSILQSIGISLWIKPYVFNWNYY...................FI..LDSII..ALGTGSLIIMWFAEIITE.YGI.G.NGASLLIFQNII.SGIPKN................................IQ...NYKINIY......................DKQTIIN.........G........SFLFLLFVLI.LIINILIQECKRKIMIVSAKQ.............LSKFTTSNPRSY.IPLKLNQGGVMPIVFASAT..MALPI...YFSNNI.....EV................................P...............NINNVINLFL.......................................PGRILY.FPAYGSLIIAFSYFYT.SLVLNPDDIAENLNKMGASIPSIRPG.SDTIRYISKILDKMTFMGGV.FLFIIALIP..SLIAYIT........................HT.........SLLQGLGT.TSLL....ILVG....VAID...TAK
+SECY_ANTSP/62-390                GIFALGIVPYIYASIIIQLL................IK.LIPYLENLQKEEGEIGRQKINQLTRYLTLLWALIQSLSIAIWINHMY.........................LIHLFELCA..SLTTSSMIAMWFSEIISE.YGV.G.NGPSLLIFQNII.SSIPKN................................LQ...NYTFNIG......................TTNTVLN.........G........SLILSFGIII.LIINILIQEGERKIAILSAKQ.............LGKINELNHKVI.FLLKLNQGGVMPFVFASAV..VHTFL...FISNNT.....NS................................................KITQFINLFL.......................................PNQFLY.LPLYLIFIITFSYVYT.SLILNPEDIAKNLKKMGASIPNIRPG.SETIKYLNTRINRLTLIGAC.FLFTITLFP..TITYYIF........................KI.........NTLKGLGA.TSLL....ILVG....VAID...TAK
+A4RW47_OSTLU/65-398              GIFSLGIVPYINSSIIFQLL................GS.VFPELKKLQKEEGEAGRRKFQQYQRYGALGFAIVQAVGQCLYVRPFVEDFTPI...................WL..FEQSC..ALTAGAMILMYIGELLNE.IKL.G.NGTSLLIFANIV.SALPSS................................VG...QTVSMAQ......................EKGDSSV.........L........AVFFGAFALT.TLGIVYVQEAERKIPMNYSTR..............FNAGGLAKSSY.LPFKVNSAGVMPIIFASSL..LALPA...TLTRFT.....DNGAV.............................L...............GVARFLSP.........................................GGGAGY.VPVNVAMICFFNYFYT.FLQLEPKDVADQLKRQGASIPGVRPG.AATRDYITRVLERLSVLGSV.FLGALALTP..GAVEQIT........................GL.........QTFRGFAG.TSLL....ILVG....VATD...SAR
+A7PFA4_VITVI/131-465             GICSLGIVPFINAQIVFQLL................TQ.IYPKLQDLQKREGETGRKKVLQYTRYASVGFALVQAIGQVLFLRPYVNDFSTQ...................WV..LSSVT..LLTLGSVLTTYIGERISD.LKL.G.NGTSLLIFTSII.SYLPAS................................FG...RTVAQAF......................QDGNYIG.........L........VIIIISFFLL.VLGIVYVQEAERKIPLNYASR............YTNKSGGLQKSTY.LPFKVNSSGVMPIIFSTSS..LALPG...TVSRFT.....GLAAL.............................K...............KAALALN..........................................PGGSLY.LPTNILLIAFFNYYYT.FLQLDPDDVSEQLKRQGASIPLVRPG.KSTAAFIKMVLSRISVLGSG.FLAILAAGP..SLVEQTT........................HL.........TAFRGFAG.TSVL....ILVG....CATD...TAR
+A7HM32_FERNB/75-404              SVFSMSVTPYINASIIMQLL................AS.IIPSLKELLKE.GEEGRKKFQHYTKNLTLGLAALQSFVVSFGLARSYQGIIAIN.................TWLFSFVSTV..SLVAGTMFLLWIGDRITE.KGI.G.NGVSIMIFAGIV.SRYPAY................................FR...SAVLG.........................NLNIFG.........W........IFLIAVAIFM.VVAIIYVQQAERRIKIEYATR...MVGR.....RIY..GGT..STY.LPIKVNHSGVIPIIFAWAI..ISIPE...AIAQIT.....GA................................Q...............WAIKLFS..........................................MQSPLM.MIIYALLIFFFTYFYS.VVVIDPKDISENIKRYGGFIPGIRAG.KPTEEYITFVLNRVTFLGAI.FLVGISLLP..YLVEGIT........................RV..........NIW.LGG.TSAL....IAVG....VALD...IAQ
+A3CK84_STRSV/69-416              SVFALGVSPYITASIVVQLL................QMDLLPKFVEWGKQ.GEVGRRKLNQATRYIALVLAFVQAIGITAGFDTLSRANLVAN................PNVQTYALICV..LLATGSMIVTWLGEQITD.KGY.G.NGVSMIIFAGIV.SAIPDMIK............................GIYE...DYFVNIP...................SERLTSSFIF.........V........GILIVAVLLI.IYFTTFVQQAEYKIPIQYTKV................AKGAPSSSY.LPLKVNPAGVIPVIFASSI..TAAPA...AIFQVV.....SALGYD...........................AD...............WVKTAQSLLA.......................................TTTISG.MFMYAFLIVLFTFFYT.FVQINPEKTAENLQKSGAYIPGVRPG.KGTEDYMSKLLRRLATVGSL.FLGFISILP..ILAKDVF........................GLT........DAVA.LGG.TSLL....IIIS....TGIE...GMK
+Q5FM71_LACAC/68-415              SIFSLGVSPYITAQIVIQLL................QMDIVPTLVEWGKQ.GEVGRRKTNQVTRYLTLVVAFVQSIGITLGFNALTQMGLVKNQ..............TPQTY..VEIAI..IMTAGTMLLTWLGDEITD.KGL.G.NGVSVIIFAGII.ARLPSGLW............................QIYK...EEIINNS..................ASDR.WQGILF.........F........IAVIVAILIV.TQLVTWVEQADRRIPIQYTRR...ATI...........SGS..ESF.LPLKVNVSGVIPVIFASSF..IITPA...TILMAF.....QRTQGD...........................QQ...............WFKV.LNQIF......................................SLQTTPG.VIIYTLLIILFTFFYA.FVQVNPEKLAENLQKQGAYIPSVWPG.KDTQNYISKMLIKLSTVGSI.FLGLVALLP..QLATNFW........................NLP........SSIG.LGG.TSLL....IVIG....VVLE...LSR
+Q03ZM6_LEUMM/68-416              SLFAMGVSPYVTAQIIVQLL................QLDIVPRFVEWSKQ.GEVGRRKLNNATRWLTLVLAFVQSVGITAGFNSLSSYGLVSQT...............NSVM..SFVVIGSVMTIGTFFAMWLGEMITE.KGL.G.NGVSMIIFAGII.AQAPEGFY............................EIFK...ENILQAD..................SSDM.LNGWIF.........V........VVLVIAMILV.VAFTTWSYEGTRRLQMQYTRS...ATS...........YGS..EAY.LPLKVNVSGVIPVIFASSF..ISTPQ...TVMLAF.....QDKYSS...........................AQ...............WYQI.MQQIF......................................SMTTLPG.AILYTALIVVFTYFYA.FVQVNPDKLSENLQKQGAYIVGVRPG.AETKAFVSKLLLNLSFVGSI.FLGVVALVP..LIASDVW........................GLN........EKIG.LGG.TSLL....ISIG....VALD...LIR
+SECY_STAA8/69-413                SIFAMGIVPYITASIVMQLL................QMDIVPKFSEWAKQ.GEVGRRKLNNVTRYLAISLAFIQSIGMAFQFNNYLKGALIIN................QSIMSYLLIAL..VLTAGTAFLIWLGDQITQ.FGV.G.NGISIIIFAGIL.STLPAS................................LI...QFGQTAF.................VGQEDTSLAWLK.........V........LGLLVSLILL.TVGAIYVLEAVRKIPIQYAKK.............QTAQRLGSQATY.LPLKVNSAGVIPVIFAMAF..FLLPR...TLTLFY.....PDK...............................E...............WAQNIANAAN.......................................PSSNVG.MVVYIVLIILFTYFYA.FVQVNPEKMADNLKKQGSYVPGIRPG.EQTKKYITKVLYRLTFVGSI.FLAVISILP..ILATKFM........................GLP........QSIQ.IGG.TSLL....IVIG....VAIE...TMK
+Q4MG72_BACCE/68-415              SIFAVGITPYITASIIVQLL................QMDVIPKFSEWAKQ.GEMGRKKSAQFTRYFTIILAFIQAIGMSYGFNNIAGGQLITD................QSWTTYLFIAT..VLTAGTAFLLWLGEQITA.NGV.G.NGISMIIFAGLV.AAIPNVAN............................QIYL...QQFQNAG....................DQLFMHIIK.........M........LLIGLVILAI.VVGVIYIQQAVRKIPIQYAKA...VSGN....NQ....YQGAKNTH.LPLKVNSAGVIPVIFASAF..LMTPR...TIAQLF.....PDSSIS............................K...............WLVANLD..........................................FAHPIG.MTLYVGLIVAFTYFYA.FIQVNPEQMAENLKKQNGYVPGIRPG.KSTEQYVTKILYRLTFIGAI.FLGAISILP..LVFTKIA........................TLP........PSAQ.IGG.TSLL....IIVG....VALE...TMK
+Q6F1X5_MESFL/92-454              SILALGVSPYITASIIVQLL................STDVVPILTRWNKS.GERGRKKLDKLTKVLMIPFALMQGIATIFTLQQQGV.....IEPGWSSD...NVLASPAFYY..VLVPL..VMLAGSYFMLWIADQITI.KGV.G.NGISIVIFIGII.VQLPNQIK............................ATYD...FWIPSNE..................SINVFFDGIIK.........F........SIYMLVFFVV.IFSVVLMNEAERKVPIQQTGS...GLI...........DSKDHTPY.LPLKLNNAGVIPVIFASAL..ISTPI...TIAQIIDPTASTSTVDS...........................AN...............AFVRFTQHYL......................................SFNTWWG.IGIFAVMIVLFTFLYA.QVQINPEKISENFQKSGTFIPGIKPG.KDTTNFLKGTINRLSLFGAI.FLAAIAALP..YVISKLT........................NLP........SQLA.IGG.TGLI....ICIS....VAIQ...TTQ
+Q6KI36_MYCMO/87-436              SIVALGISPFITASLVMQIL................QTKLFPPIYRLSQS.GPIGRRKINIITRAITIFLGVVQSMTIVSALSAQNSFISLTNEF.............NVFWYQFIILPV..ILIAGTVFSIFIGDQITD.KGV.G.NGTTLLIFTGIV.ITLPTQFT............................ATFN...ALVGEQQ..................RVSSLSNGIVT.........F........ISYVFGFIIL.MYIIGFVYNAERRIPIQQVGA...GRA...........KNEKELSY.LPIKINPGGISPIIFALII..ISFPQ...LFASVF.....PISNPF...........................RI...............WVESNLR..........................................PNNTIG.FILFISITFIFAIFFG.LQQSKVDKIAEDFAKNSTFIPGIKPG.QETETYLTGIVLRLCFFSAF.YLIIIGGMQFAQQLAGVP....................................ENISFGG.TSVI....ILVT....ASYE...TIT
+Q4A5I3_MYCS5/83-437              SIFALGISPFINASLIMMIL................QSRLFPMIYKLTQS.GPQGRRKLNIATRILTFIIAYPQAVFLTKSLTAGERNSSFITLVSI........DGFSVDLLVYFLLPM..ILISASLFALFLSEQITN.KGV.G.NGTSIIIMTGIA.ARLPFQMQ............................NAFK...IFVGDLS...................QSGTLVGILN.........F........VTYIFIYLAC.LMVIGIFYNAERRIPIQQTGA...GRS...........KALKEIGS.LPIKLNPAGIMPIIFAMLV..LSLPT...LIANIL.....PNDNYS...........................KQ...............WINENLQ..........................................FYKPLG.FSLLIIITFVFSLLMG.IQQSKVDKIAEDFAKNGTFIPKVTPG.EETQNYLVAIVFRLSFFSAF.YLVIIAGMQYVQIMTGIL...................................QPSIAFGG.TSLM....ILVS....VSIE...TIS
+Q98Q01_MYCPU/90-438              SIVSLGINPFITASLIMTIL................QSKLFPPIQKMSQS.GPLGRKKINVITRLLTLVFAFPQAIVLTQTLSRENGFISIDQEF.............KTIANIYVLLPL..ILVAGSLFTLFLSEQITD.KGI.G.NGTSLIIFSGIS.LSLPSQFR............................AAFN...VLVGTNK....................TTLFTGLIH.........F........LLYLFGYLLL.IVIIVFVYLAERRIPIQQTGA...GLS...........KNIKEMGS.LPIKVNPAGIMPVIFSMIV..ISFPL...LIAGLL.....DRSTSLV..........................RL...............WIERHLA..........................................FTHPIG.FSLLIIITFIFSIFMG.LQQSKIDKISEDFNKSGTFIPGLRPG.DQTENYLIDVVLRLSTFSAF.YLSILVSIQYIMQMAGMP....................................AAISFGG.TSMM....ILVS....VSLE...TID
+Q4AAF9_MYCHJ/85-434              SVVALGISPFITASLFMLIA................QTKLFPPIHRLSQS.GPAGRRKINIITRFLTLLVAVIQAVVLIRTVILNPDYGFVRLEI.............NTPVFIWLVLPL..VLVAGSLFSLFLAEQITD.KGV.G.NGTSLLIFSGIV.VGLPRRFQ............................HAFE...YLVDLSF...................SSSLISQVLS.........F........ILYIFGFLLI.LLIAIYVYLAERKIPIQQTGS...GMS...........KNIKEISI.LPLKLNPAGIMPVIFALII..VSLPT...LFSGFL.....DRNTSAV..........................RN...............WIDNNMQ..........................................IYHPIG.LIIFIVFNVSFSIIMS.LQQSRVDKIAQDFAKNSTFIPGIRPG.EQTEDYLISVVLRLSVFSAI.YLTFLGILQPVEIMLGLP....................................SAITISG.TSII....ILAT....TTLE...TIS
+Q9PQP1_UREPA/76-434              SLFAIGIGPYITAQIIMQLL................SSELVPPLAKLSKS.GERGRKKIEVITRIITLPLAVMQAVIIINLMTRANG.....FISIVSNA...PFAIGSPLFY..VTYIF..LMVGGTYISLFLADLISK.KGV.G.NGITLLILTGIV.ASLFNHFI............................AIFS...NLGSLTS.....................SKVSQIIG.........F........ILYILFYIMI.LIGVVFVNNSTRKIPVQQTGQ...ALI...........LDHEKLPF.LPIKIMTAGVMPVIFASSV..LAIPA...QVAEFL.....DKQ...............................S...............MGYYVIHNYF......................................IVDSWTG.LAIYVVLILLFTFFFS.YVQLNPPKMAEDIKKAGRFIPGVQVG.MDTEKHITKVIYRVNWIGAP.ILAFLACLP..HLVALVA........................KTINHGIPVIQPSTI.FGG.TSII....IMVT....ATLE...LWN
+SECY_MYCGE/81-430                SLFAVGISPYISAQIIMQLL................STDLIPPLSKLVNS.GEVGRRKIEMITRIITLPFALVQAFAVIQIATNAGT.....GSSPIS......LANSGSEFI..AFYII..AMTAGTYMAVFLGDTISK.KGV.G.NGITLLILSGIL.SQLPQGFI............................AAYN...VLSGIVI..................TLTPQLTAAIS.........F........FIYFLAFLVL.LFATTFITQATRKIPIQQSGQ...GLV...........SEVKTLPY.LPIKVNAAGVIPVIFASSI..MSIPV...TIAQFQ.....PQT...............................E...............SRWF.VEDYL......................................SLSTPVG.IFLYAVLVILFSFFYS.YIQINPERLAKNFEKSGRFIPGIRPG.NDTEKHIARVLIRINFIGAP.FLTVIAIIP..YIVSYFI........................RLP........NSLS.LGG.TGII....IIVT....AVVE...FIS
+Q8EUD2_MYCPE/81-433              SFMAIGVSPYITAQIIVQLL................SSDLIKPLTRLSKA.GERGKRKLEIITRLITIPFAIMQAYAVLSLAGTQGLVSSFFGQSA..........LSSVPAGQIILLLL..GMTAGTYLTIFISDIISK.RGV.G.NGVTLIILSGIV.ASIYPNFT............................SVFQ...VLTGSSQ...................ISNQLLRYFS.........F........AVYLVFFFLI.LLATTFVNGSVRKIPIQQIGQ...GLS...........KEVDEMPY.LPIKLNAAGVIPVIFASSI..MTIAP...TISQFL.....PSG...............................S...............AGSEFINEYL......................................SIERPVG.LVIYTVLIVLFGFFYS.HIQVNSEKLAENFQKSGKFIPGVKMG.EETQKYISKTLNRVNCIGVP.FLACLAIVP..YLITMTT........................GIP........NGIA.IGG.TGVI....IMVT....GSLD...FWS
+Q7X4E3_9MOLU/69-399              CILSLGVIPYVTASIVIQLS................QK.VFTFMKEWQEQ.GEKGKRKINIVTRVLTIFLSLGHGWALCQTEKLVLG........................PYLLFSTLF..FLTVGVFISIWLADLITS.KGL.G.NGISILIAVGMV.DKLFKT................................FK...YLLSNSN.......................GFETQR..................ILILVSYFVL.LILTIILSSAYLKIPINYAXN................RNNDKIDKY.IPIKLNTSGILPIILADTL..LNVIQ...QISMLF.....SKNG..............................................KVNEYIGIFVE..SR..................................SELGIY.FFVYILLIMLFSFFSS.FMTINPKDVAEHLSKQNAYLKDVQPG.LPTVKKIVREMFKITFLGSC.FLTLLASTP..DIINYLA........................GIK.......ISQNIPFSG.TSLL....IIVG....VALE...SIQ
+Q5Q069_ASTYP/59-398              TLFGLGITPYITASIVVQFL................QK.LLPICREWKDQ.GQMGKRKLNLLTRSLALFFAFGQSFAFLNSYSKLLVTSIS....................TRQLFLLAL..IATAGVAILIWFADLINS.KGI.G.NGTSILIVVSMS.HSLINLFA............................NLNK...SYLSKNT.....................FLTLKTFN.........F........ACIVLLLLLF.LIFTVVVQITSLKIPINYARN..................QSQGKSY.IPLKINSAGVMPVILAFAL..LQPFQ...ILAGVI.....GN................................D...............KLTKYVNLFTNTNSSN.................................NQINFFAIGFLVLLVIVLSFFSA.FMNVNPEDISEHLSKQDAYIAGLRPG.EQTTRYLANTLFKITVLGTV.FITALVVTP..ILMEHFL........................SL..........KDMKLGG.TSLL....IIVS....VALE...TIQ
+O21257_RECAM/57-372              SLFALNITPIITYLFLEQLY...................YIYSIPLISKK.KNLNKDLIKKYSVYIFLMISYLEGFIYLNHLYNTTSSSFLIFY..............LDNTINYLLCLN..FLVIGSCFLYFFAKLINI.YGI.G.KGLSFIIFINIV.GSFIDI................................FY...KYLIQIE.......................TLNVKY.........L........VFLLFVQCLFCGIIYFYIDFLFLKIPIIKLNF......VG..NENDNYNYLNYFQKY.QTSSLNLLGILPFILVYSIIYMLKLNLNSFLDLVF...............................................................................................................NIFLEMLCMMFIYLFL..........SRFLKKYLKFIYNINKN.NIYIEHINKNIYSIFFISHLYYLGILRDYCLFCFLFIF.............................................SKLF....FIIS...YLFIEIDFSFF
+Q74NB9_NANEQ/69-457              SIVSLGIGPIIIGYLLAELF...................IGSGELNIDIT.TEEGKRKFENLARFFMIVFGLFESIVMA.TIGWFKPSQFLISLFAMPFSFLGSNAFLIGYILAVLFIVA..QLMLGVILAYLLDDLSQK.WGF.T.SGINLFILATVS.RELFVQLFNPLTQIP..............GTPTPPIGKIP...QIFYFIS...................QGLYTEAIVV..................GLQLLVIVLV.ILLSVYFYMVKIPIPTSFGKI...................PEKSLR.YEVRLIYTGNIPVIFAFAF..LHQIL...LIAWVL.....QQLGIPLLG.....................TIENG...............HPINGLVAYIYPDTGFLISLILG...................NLTLDNLIRTITS.SLFFLGSSILFSIYFVLATGQDSEGLAKQLSKMFGRI.GLKRDYRIIKHYLDKIIPCVTVLGGF.IVGFLALLS..YWVSIPI.........................................GG.TSIL....LATM....ISYM...VYE
+Q2EMT2_METVO/30-379              TLITLGIGPIVTAGIIMQLL...................IGSELVKLDMS.KPDNRALFQGLQKAFGIFLCFLEAGMFV.LAGAFGALT......................PMMSLALIL..QLAIGAILLIYLDEIVSR.YGI.G.SGIGLFIAAGVS.QTIFVGALG.........................PQGYLW...KFFSALV...................SGSMGPALEY..................ILPILATIAV.FFVVVYAESIRVEIPLAHGRV...................KGAVGK.YPIKFIYVSNLPVILAAAL..FANFQ...LWGLVL.....YKIGFPLLG.....................TYSNG...............RAIDGIAYYFS...T.PYGLS......................SVISDPIHAIVY.TLFLIGFCVLFGLFWVETSGLDAKSMAQRLGGLNMAIKGFRKSNKSIENRLKRYIKPITVMGSA.FVGLLAALA..DFTGALG.........................................GG.TGVL....LTVS....IVYR...FYE
+A5UL65_METS3/72-433              SILTLGIGPIVTASIVLQLL...................VGSKLLDLDLS.SPEDKSQYQATQKILSIVFTMFEAGVLV.LTGSLVPIDNS....................YL..GVLFL..QLVIGAILIIYLDEVISK.WGF.G.SGIGLFIAAGVC.EAIIVGTFSFIPG.................PGGVYGGAIP...AFIQSFW.......................SSSIDF..........S......VLIPLIATAAV.FFVVVYGESMRVEIPISHGSV.............RGHGRIRGSVGK.YPLKFVYASNMPVILTSAL..LVNVS...LLASVF.....QKIGFPILG.....................EIVNG...............KAVSGIALYLS...T.PNDVS......................LLVTDPVRVIVY.AFFFLLCAVLFSYLWVEISGLNAKKISEQLYKSGIQIPGFRSSKRQLYKILKKYIPALTIISGL.YVGIIAFCA..DLTGALG.........................................GG.TGVL....LTVG....IIHK...IYE
+SECY_METTH/73-436                SILTLGIGPIVSASIILQLL...................VGGKILKLDLS.RHEDKAFFQGLQKLLAIVFTFFEALIFV.LTGSLAPSAPQF..................V....WVLIL..QLTIGGILIIFLDEVVSK.WGF.G.SGVGLFIAAGVS.QEIIVGAFNPLSAP...............TQPGVPAGRIT...GFLYLLF...................TGQSPDFQYY..................VLPVLALIAV.FLVVVYAESMRVEIPISMGGG...............KRLSRGAVGK.YPLRFIYASNMPVILTSAL..LLNVQ...LLANVF.....QKLGYPILG.....................TVSNG...............QAVDGLAYLLT...A.PRSID......................ALILDPFRVVFY.AVVFIGLCVLFAWLWVEISNIGPRHVARQLYQMGMQIPGFRSSRGQFEKILKRYIPTITILGGA.FVGLLAFVA..DLTGSLG.........................................GG.TGVL....LTVG....IVYR...LYE
+SECY_PYRAB/72-448                SILTLGIGPIVTAGIILQLL...................VGSEIIKLDLA.NPEDRRFYQALQRVFSVFMCFLEAAIWV.LGGAFGRVGVDV..................TYAIAALMIL..QLAFGGIILIVLDELVSK.WGI.G.SGISLFIAAGVS.QRILTRSLNPLTDPNII.........DPLTGKPAIVGAIP...YFIQHIL....................KGDLKGALYR......GGTA.....PDMMAVIATIIV.FLVVVYFESMRVEIPLGYRGV....................TIRGR.YPIRFLYVSNIPIILTFAL..YANIQ...LWARVL.....DRLGHPWLG.....................TFDPT.T............GNPVGGFVLYVI...P.PRSIF......................TVIDNPVRALVY.LILTVISSLIFGFLWVELTGLDARTIARQLQRAGLQIPGFRRDPRTLERVLQKYIPYVTFWGSL.TVALIAVLA..DFLGALG.........................................TG.TGIL....LTVG....ILYR...FYE
+Q8TZA9_METKA/75-435              SILTLGIGPIVTASILLQLL...................VGGDLIKLDLT.NPEDRRLFQGLQKLLAIVLCFFEGVMMV.FSGAAPPAEPS....................ILLEILLIL..QLALGGILVIFLDEVVSK.WGI.G.SGVGLFIVAGVS.SQIIIGAFNPLPSP...............QQPGRPAGAVW...AFLYSAM.....................QGTPDWTL..................LAPVIGAIIT.FLIVLYVEGMRVEIPIAFAGI...................RGARGR.FPVRLLYTSNIPVILASAL..FMNVR...LWALAF.....QRMGVPILG.....................KLDPR..............GQPISGLVYYLS...P.PNSIV......................KTLSDPLQALGY.MMAMVIASVFFAVLWVELTGMGPREIARHLHRAGLHIPGFRRDIRVLEKRLQKYIYPVTVMGGA.FVGFLAAGA..DLMGALG.........................................GG.TGVL....LTVS....ILYN...MYE
+Q9HIT0_THEAC/82-514              SLMDLGIGPIVTASIVMQLF...................VGAKIFNLDLQ.NAEDKAIYQGVQKLLVIIMIFVEAIPQA...FGYLVPDTKVVNSINA......VFPGYGEFLAQTIIIL..QLFFGSYLVFLMDEVVSK.YGI.G.SGISLFIAADVS.EQLFIGAFNWQALNNAL..........TYSLTNPPAGAFP...KMFYIIMHSS...........SSYLLT.NGVVQILF........SPP.....NPMIAVLGTLLI.FFLVAYFQSSKIELPISHERV...................RGARGR.YPLQLLYASNIPVILATAL..LANVS...MWTLLF.....WSSPVLSKVPILGH...........NPLLGSYPTT.AQATA...LNISATTPTGGLAYYLF...S.PNGLSDWLFPILQPS...GYQNILLGHTPLQEAIHIIVF.TAFMVGFSVLFAIFWIETTNMGASAVAKQIQASGMQIPGFRRDPRVMERVLKKYIPAITIFSGA.VVGLLAAGA..NLIGTVG.......................................DTSG.TGLL....LAVG....IIIQ...FYE
+Q2QAQ7_9EURY/161-583             SIMHLGIGPIVTGSIIMQLF...................AGAKIIKLDLG.DSDDKQLYQGVQKILVLIMIPVESIPQV...YGFLDASPALVSD.............FGQGWANAIIVS..QLFIGSLLVFLLDELVSK.WGI.G.SGISLFIAAGVA.QSTFVGTLSPLAVNPG...........AYGLQNPPAGTLP...MIFYTLRTAT...........FSEMVTANGFESILLGD.....AAHP.....NAVVALFSSVVV.FLVVAYAESSKLELPLTHGKV...................RGHRGQ.YPIRLVYASNIPVILMAAL..LANLN...MFTLLF.....WSHPTMSTVPILGSQGA.....WSIAPYLGSYDVG.Q............TQATDGFAWYAS...M.VNGVGDWLLPLLN......QSPDPYGHSLWQVVLHVITY.VTVMTLGSMMFAKFWIETTNMGAKDVAKQIENTGMQIPGFRKNPKVLERILMRYIPPVTLFSGA.FVGLLAAGA..DLLGTVG.......................................NATG.TGLL....LAVG....IILR...TYE
+Q0W1W5_UNCMA/75-487              SIILLGIGPIVMASIVLQLL...................VGAELIPLDTT.DPKDQAIFQGLQKLMVFVMIVVEALPQI..YGGFLLPDPAIAATL...........GVSTGIIQLLIFA..QVALGGVLILYMDEIVSK.WGI.G.SGVSLFIVAGIA.QALVGGIFNWNPPYPGQAMGLNVDIAGLGARENLPIGIIF...RWEWLLNNIG...........LSQLLTGENLIVLLY..........Q.....GEILALLATIII.FLLIVYVESTRIEIPLAHAAV...................RGARGK.FPVKLIYASVLPMILVRSL..QATLE...MVGLLL.....YRNGITFLGT....................FNQYN...............QPVDGLMFYIN...P.INGLSDWVPQLA........ALNYPGIQLWQIALHVFTD.AFILIAGGILFAIFWVETTGMGASRVARQIQKSGMQIPGFRRNEQVIEKVVSRYIPKVTVIGGA.FVGFLTLLS..SLFGILG.......................................AVSG.TGML....LAVS....ITYQ...LYE
+SECY_ARCFU/73-471                SIIALGIGPIVTASIILQLL...................VGAGIIKLDLT.NPEDRAAYQDFQRFLVFVMIAVEAIPQI..AGGLLKPDLNLAAQL...........GVSPGIISFLIFI..QLFIGGVLIVYMDEVVSK.WGI.G.SGVSLFILAGIA.QSIVVGLFNWVIPP................NSAMPAGIIP...RWIWIAQNYP...........LDQLFTGSGLAFLLI..........Q.....GGILALITTAAI.ILLVVFFEGTRVEIPLAHAVA...................RGARGR.FPIKLIYASVLPMIFVRAL..QANVV...ALGQVL.....HARGVTIFG.....................EFVNG...............KAVSGLMFFLQ...P.VSSPYDWIPSLVKS.....QGAAFAAIPDWMIYLHLLID.ALILVVGGIIFAWFWVETSGMDARTVASQIAKSGMQVPGFRKSPQVLERVLSRYIPKVTILGGA.IIGILTLVA..NMLGTIG.......................................NVSG.TGLL....LAVS....IAYR...FYE
+Q8TRS4_METAC/72-470              SLVLLGIGPIVTASIVLQLL...................VGADIIKMDLS.DPKDQAFFQGAQKFLVFVMIILEALPQL..LGGYIQPDPGLAATL...........NVGLGVITLLLLV..QIFIGGTLILFMDEVVSK.WGI.G.SGVGLFIVAGIS.QQIVTGIFNWEFE..................EGLPVGLIP...KWIYIAQNTG...........ADYLFSGEGLMFLLV..........R.....GGILALLSTVAI.FLLVVYVESTRIEIPLAHSAV...................RGARGR.FPVKLIYASVLPMILVRAL..QANIQ...MVGIIL.....ASRGITFLG.....................EFSGS...............KPLNGIMYYLA...P.IHSPYDWIPSLVRES...FASYGATAPAIWQIGLHVLAD.AIMLIGGGIIFALFWIETTGMGAKPTAQKIFNSGMQIPGFRRNIGSIEKVMQRYIPKVTVIGGA.FIGILTLVA..SLLGTLG.......................................SAGG.TGLL....LTVS....IVYR...LYE
+A0B9U7_METTP/75-515              SLMLLGIGPIVTASIVLQLL...................VGAEIIKLNLR.DPRDQAIFQGTQKALVFVMIVVEALPQI..TGGYLLPDQALATSL...........GVSLSIISLIIFL..QVCLGGVLILYMDEVVSK.WGI.G.SGVGLFIVAGVS.QQLVTGLFNWATG.................DGGLPIGIVP...KWISIIRLGLI.........GLDEIFTAEGLKFIFV..........T.....GGLLALISTVGI.ILLVVLVESTRIEIPLAHSRV...................RGARGR.FPVKLVYASVLPMILVRAL..QANIE...MLGALL.....TAKLGTVTTAETTAEGVRIVYTGYQSWLGTFLSSAKFDAATGAPISATSPQPVSGLMYYLS...P.IHGPSDWIPSMVSQSTPGLVELGINPIAGWQIWLHLLTD.TAFLIIGGIIFAIFWIETTGMGAKSIAAKIHASGLQIPGYRRSPVSIERLMERYIPKVTVIGGA.IIGLLTVIA..SLLGTLG.......................................GAGG.TGLL....LAVS....IMYR...LYE
+SECY_HALMA/73-468                SIMQLGIGPIVTASIVLQLL...................GGADLLGLNTQDDPRDQILYQGLQKLLVLVMICLTGLPMV.FAGGFLPADTAVANSL...........GIGTAGVQWLIFA..QMFVGGVLILFMDEVISK.WGV.G.SGIGLFIVAGVS.QRLVGGLLTAPF...................LGNSEGIIY...TWYLFITGERG..........TGPVLAADGLQTVLL..........Q.....GELLGLFTTVLI.FAVVVYAESVRVEIPLSNARV...................KGARGR.FPVKLIYASVLPMILVRAL..QANIQ...FLGRIL.....NAQLGSMPAFL..................GTYANG...............QPTGGLFYFLA...P.IQSRGDWMWWL...........EGTAQPVWQILTRVGID.LFVMLVGGAVFAVFWVETTDMGPEATAKQIHNSGMQIPGFRQNVGVIEKVLERYIPQVTVIGGA.LVGLLAVMA..NMLGTIG.......................................GVSG.TGLL....LTVS....ITYK...LYE
+Q2FSG8_METHJ/73-458              SIVHLGIGPIVTASIVLQLL...................KGADLIHIDTS.EIRGQIQYMGLQKLMIFIMIVVEALPMI..VGGFLKPDPAIASAL..........FGGNSGVLAILIFI..QICIGGVLIFLMDEVVTK.WGI.G.SGVGLFIIAGIS.EAIINGFINWAPV.................NDMYPVGFFP...RLFAVVL.....................DGANFIQY.........FG.....TDLIAFITTIAI.FILIVYVESTRVEIPLAHTQV...................RGARAR.FPVKLIYASVLPMILVRVL..QANVQ...MIGLFL.....NNIGITIFG.....................TFEGQ...............TPTGGLMWYLA...P.INHPSDWMWWMP.........SYVGGHAPWEVLIRLGID.TTIMVVGGAIFALFWVKTAGLDSKAVARQIQLSGMSIPGYRRNPAVLEKVLDRYIPRVTVIGGV.FIGIMSVVA..NLFGVIG.......................................AVSG.TGLL....LTVS....ITYR...LYE
+A2SPM5_METLZ/73-458              TILHLGIGPIVTASIVLQLL...................RGADLIKINTS.DQRGQVLYMGLQKVLIFVMIILEALPNV..LGGWMSADPAVSAFF...........GGNAGFVMLLIFL..QICIGGVLVMFMDEVVSK.WGI.G.SGVGLFIVAGVA.QGLINGFFNWEAT.................TDQFAVGFFP...RLFQVIA.....................DGSNFIEY.........FG.....LQLLALVTTVGL.FFIIVYVESTRIEIPLAHANV...................RGARSR.FPVKLVYASVLPMILVRVL..QANVQ...MIGMFL.....SSIGFTALG.....................EYNGS...............TPINGLMWYLA...P.INQPQDWMWWLS........SFTGTGHAVWEVILRVGID.CTVMILGGALFAIFWVKTAGLDSKHVARQIQNSGMQIPGYRRSPAVLERYLDRYIPRVTVIGGV.FIGLLSVMA..NMLGIIG.......................................FVGG.TGLL....LTVS....IIYR...LYE
+A0RUE4_CENSY/79-457              TLVELGIGPIVTAGLLMQLL...................RGSEILKFDFK.KPEERGIFQTATKMVSYVVIVVESSIYGIAVYGPGIADPS........................VLYILIGQLMASSIIIMFLDELIQKGWGL.G.SGISLFIMAGVA.QQILWSLFSPLPA.................GDGFAVGIFP...FIGQWAS..................VGMGNFEDIFFR......YNQL.....PSIFGLLLTGGV.LLILVYTQGMKIEIPIVSTKY...................RGFSAT.YPIKLMYVSNIPVILASAL..TANAI...FIGQMF.....WSNFNPRNDNIFL.............NVLAQFDLT.N...........PSTPIGGIVYYIT...P.PRGLD......................IAALDPMRAVGY.VLFMIGIVVVFGKLWVELGGLSPKSAAKNLLDADVQIPGFRRSNQPIEVLLNKYIPSVTIIGSM.ILGALAGAS..DVLGVFG.........................................SG.IGIL....LMVD....ILIN...YYN
+A8ME75_CALMQ/77-461              TLAQLGIGPIIIAGIIMELV...................AFSELMDVDLN.DPKDQARFTALTKLVAVIIAMFEGAFIM.STHQLTVAN......................AGLAFIVWL..QMLFGAVIVILLDDLISKGWGI.G.SGISLFILISII.RSIFQSTFMPVTV.................GAGELLGIIP...ALVAAVYSA.............AVSHTLAPLLSIVYR.......FNL.....PGLIGLIATIVL.GGFIAYVELMEVRIPLSFVQY...................GGYKMS.YPFKVMYVSVLPIIFTAYT..VALIYNGLYFIWTTYNPHNANALLNSIACIR...............VITTAKFG.TI..........NEPCPSSLIYYFT...V.VPY..........................NITPQYVVVH.ILMYVVLSVVFAYLWVNLAGLSAEDQARTMVSSGLSIPGFRASARSLAVHLKRYVNSLTFTSGL.LAGFIAALG..DVLGVYG.........................................TG.IGLI....LMVE....IIIQ...YYT
+A3MUZ2_PYRCJ/70-435              TLAHLGIGPIVIAGILMEVF...................AFSGVLNLDLN.KREDRLKFTLMLKWAALGIAALEATAYV.LGGQFGTVT......................PLGGVLIVL..QLLLATVIILLLDDLMSKGWGI.G.SAISLIIFLGVS.RQIFLSLFSWDTVQD.............SNGNTQVFGLLP...ALGVALYDL.............FTSGNANTLLGLVNRPL..TVNTYL.....PDFVGLVATILL.GYIILYLEMMKVNIPVASAQY...................RGIKFT.IPLRFVYVSVLPIIFTTYS..LLLVG...................QLLQ.....................PFAAN.N............PALITVLNVIFL...P.HRY...........................FDPLLIILN.FALYVALAIAFAWIWVQLAGLSAEDQARQFTQSQLHVPGFRQSERVLAKILERPINALTIISGF.IAGTFASLG..NVLGVWG.........................................GG.VGLI....LLVE....IALQ...YYA
+SECY_SULSO/73-449                TLAQLGIGPIITAGLIMQIL...................AGSKLISIDLN.DPDDRVKFTEAQKGLAFIFILVESALFGYVLARTSTTINASIL..............FIA....GIVIA..QLIVATYLILLLDELIQKGWGL.G.SGVSLFILAGVM.KIMFWDMFGIASVS................SQNLPIGFFP...ALFTALA...................SHSDVLNLIVNTSTKNLFQ.P......DLVGLVTTIAL.IIITIYLTTMTIEIPVTSQKL...................RGIRRT.IPLNFLYVSSIPVIFVAVL..GSDIQ...LFASLA..........SYVS.....................PSASN..............ILNTVSGVFFFPPPNSAIPHSIY.....................AVVLDPLGALEY.AVVFIVLSILFGILWVDVAGLDPATQAQQLVEAGIEIPGVRNNPKIIEGILARYIYPLAFFSSI.IVGLIAVFA..TLLGAYG.........................................TG.IGIL....LAVT....IAIQ...YYS
+SECY_SULAC/74-443                TLAQLGIGPVITSGLIMQIL...................VGSKLINVDLT.TQEGKSKFTQAEKALALIFIIVESSLFGYVFTRATSNILLP.......................IIVVV..QLIIASYIILLLDEMIQKGWGL.G.SGVSLFIMAGIM.KVIFWNMFGIVSVQ................SQNLPVGFFP...LLVSYIT...................SGRNLQEIVLNTSSTTPYQ.P......DLIGLIATVGL.TILIVYLVNTNIYIPVTTQRL...................RGIRTT.VPLNFLYVSSIPVIFVSVL..GADIQ...LFASLA..........NSIS.....................NSASG..............ILTDIANAFFFP..PQGVPHSVY.....................ALVVDPVGAAIY.AAVFIVLSIVFGMLWIDVAGLDPKTQAEQMIRSGIEIPGMRTNPRIIEGILSKYIYALGFFSSL.IVGLIAVVA..TFLGTYG.........................................TG.VGLL....LAIT....IAMQ...YYN
+A2BME2_HYPBU/73-444              TLMTLGIGPIVTAGIVLEVL...................VGGKLIELDLT.KPRDRKIFMGAQRTLALLFALLEAAAYV.IGCRFWISAFASSPEV..........CPPISTAVKIIVVL..QLVFATLVLMWFDEMIRNGWGI.G.SALSLFIVASVV.KGLFWQLAGSTKVAT.............PEGQPVYYGWLA...HVVSTGD.......................LGVLRR.........GM.....PDMVGFLATIAI.IMVLIYFQLMRVYIPVTSPRY...................GSIKTR.IPLNFIYVTNIPILFVAIA..VSDIK...VFEIVI.....ASLLGADN........................PLV...............RGMDVLYNYVS...P.PRGLL......................AAVADPLRTLTF.ALAWLALGLLFGFIWVEIAGLSPRQQAENLIKSGMELPGIRKNVKLLERILARYIYPLTVISSL.LVTTMAILA..DVFGAYG.........................................TG.SGLV....LLVG....IIYN...FYQ
+SECY_AERPE/73-434                TLMELGIGPIVTASLIIQVL...................VGAKIIKLDLA.DPEGRRKFTSAQKVLALAFAALEAVAFT.VGGRYWVGTAIEP.................GPLDYALVSL..QLFLGALLVIYFDEVMQKGWGI.G.SAISLFILAGVA.QGVVWSIFGTIPG..................VAQDYGLVP...AIISNPD.......................LTLLARP.......NGF.....PDLTGFFTTLAA.IILLVYLQAMRVEIPITSERF...................KGIRSR.VPLQFIYVTNIPILLVGIL..VSDLL...LVQRLL.....ADYLGVES........................RAY...............QIYSSIVYYLS...P.PRGVV......................QSIADPVKTAVF.IASWTVLSIVFGYMWVEIAGLNPREQAERLIKGGLAIPGMRSDPRVLERVLRRYIYPLTFLSSL.IVAALVIVA..DIFGAYG.........................................TG.TGLL....LAVG....IINQ...YYA
+A1RWR3_THEPD/75-456              TLIELGIGPIVTSGIVWELL...................VGSRIVNLDLT.TPEGRRTFAGLQKLTAFLFAALEAAAYI.LGGVYGALT......................QQQQIIVFV..QLFVASTFVILMNDMLEKGWGI.G.SAVSLFIAAGVA.QQIFWELFSPIGPL................GDGLYYGLFP...SLFSALV.................SGNSTLLMHVVVR......PSGY.....PDLVGFVGMVVM.LLLLTYMESMKITIPVSSVRF...................GGAKTR.IPLKFLYVSVMPVILVGAL..YANVV...MFTQAL.....WPRVNPGNQNPWL.............NVIAKYNYT.EY.........GPVPLPGSFVYYIS...P.PRSLA......................SALADPVHLVVY.SLLYIGFAVLFGVAWILTSGMDPETQAEQLAKAQLQIPGFRKSEKVIASMLKRYIWGLTILSSI.IIGVIAVVS..DIFRVMG.........................................GG.TGIL....LLVG....IIVQ...YYS
+SC61A_SCHPO/76-459               TLMELGISPIVTSSMLVQLL...................VGSQLIEVNME.LKSDREMYQLVQKFLAIIIAFGQATAYV.LTGMYG......RPQD...........LGAGIC..LLLIL..QLAAASLIVLLLDELLQKGYGL.G.SGISLFIATINC.ENIFWKAFSPTTYHI..............ANGVQFEGAVI...NFVYVMFT...............WDNKAAALYQAFFRSGLTSSQIQL.....PNLWNFFATLLV.FGVVIYLQDFRVEIPIRSQKF...................RGYRST.FPVKLLYTSNTPIMLQSAL..TSNLF...FASRLL.....FNRFSSNFLVR.................FLGVWEQ...............TATSGLSYYLS...P.PASFQ......................DALIDPIHTLVY.VFFTMFACALFSKLWIEVSGASPRDVAKQLKSQQLVMAGHRE..GSMYKELKRIIPTAAWLSGA.VVGALAVAS..DLLGALG.........................................SG.TAVL....LCTT....TIYG...YYE
+A7E5Q2_SCLS1/76-459              TLMELGITPIISSGMVFQLL...................AGTHLIDVNLD.LKADRELYQTAQKLFAIILSMGQATVYV.FTGLYG......QPSD...........LGAGVV..CLLIL..QLVVAGLIVILLDELLQKGYGL.G.SGISLFIATNIC.ESIIWKAFSPTTINT..............GRGPEFEGAVI...ALFHLLLT...............WPNKQRALQEAFYR.......QSL.....PNIMNLLATIVV.FAAVIYLQGFRVEIPVKSSRQ...................RGARGS.YPVRLFYTSNMPIMLQSAL..SSNIF...LISQML.....YSRFSENLLVQL................FGVWEPK.EGS........AQLFATSGIAYYMS...P.PLNFT......................DALLDPIHTAVY.ITYMLVACAIFSKTWIEVSGSSPRDVAKQLKDQGLVMAGHRE..QSMYKELKRIIPTAAAFGGA.CIGALSVGS..DLLGALG.........................................SG.TGIL....LAVT....IIYG...YFE
+Q5KC69_CRYNE/75-459              TLMELGITPIVTSGMIMQLL...................AGAQLIDVDFS.LKDDRALFGAAQKLFAMIISLGQATVYV.LTGLYG......SPSS...........LGAGVC..LLLIL..QLVSASLIVILLDELLTKGYGL.G.SGISLFIATNIC.ESIVWKAFSPNTVNT..............GRGPEFEGAII...ALIHLLFT...............WNDKTRALKEAFYR.......DRL.....PNIMNLLATVAV.FAAVIYLQGFRIEIPIKSSKM...................RGQRGT.YPVKLFYTSNMPIMLQSAL..TSNVF...LVSQML.....AGRFPDNLLVRL................LGVWEPM.ENN.......PTQLGAVSGIAYYMS...A.PHSLT......................SALKDPFHTVIY.IAFIVTACALFSKTWIEVSGSGPRDVAKQLKDQNMTLAGHRD..ASIYKELKRIIPTAAAFGGA.TLGLLSVVA..DMMGALG.........................................SG.TGIL....MATT....IIYG...YFE
+SC61A_ASHGO/75-460               TLMELGVSPIITSSMIFQFL...................QGTQLLQVNLE.SKQDRELFQIAQKVCAIVLTLGQAIVVV.LTGNYG......SVSN...........LGIAIS..LLLIL..QLVFASFIVLLLDELLIKGYGL.G.SGISLFTATNIA.EQIFWKAFAPTTVNN..............GRGTEFEGAVV...ALFHLLSV...............RKDKKRALVEAFYR.......DYL.....PNMFQVLSTVFV.FLFVLYLQGFRYELPVRSTRT...................RGQVGS.YPIKLFYTSNTPIMLQSAL..TSNIF...LTSQLL.....YQKFPNNPIVKM................LGVWGTR.SDAP......YSPNAAISGLSYYIQ...P.PFSFT......................EALLDPIKTVVY.VTFVLGACAMFSRTWIDVSGTSPRDVSKQFKEQGLVINGRRE..TSVYRELKKVIPTAAAFGGA.TIGALSVGS..DLLGTLG.........................................SG.TSIL....MATT....TIYG...YYE
+Q59MJ6_CANAL/76-459              TLMELGISPIVSSGMLFQLL...................QGTKIIHVDMQ.NKNDRETFQTAQKLLAILLAVGQATVYV.LTGMYG......PPSS...........LGVGVC..SLLIL..QLVFASTIVILLDELLQKGYGL.G.SGVSLFTATNTC.EQVFWKAFAPTTSTS..............AKGTEFDGAVV...AMFHLLGS...............RKDKKRALIESFYR.......PNL.....PNMFQLLATLLV.FFAVVYLQGFRIELPMKSTRQ...................RGPYGS.YPIRLFYTSNIPIMLESAL..ASNIF...IISQLL.....FMRWPNNLFVKL................LGTWDAR.AGS........SQLYANGGLAYYIQ...P.PFNFT......................DALLDPIKTTIY.IAFVLGSCAVFSTTWIEISGTSPRDVAKQFKEQGLVIAGHRD..TSAYKELKKIIPIAAAFGGA.TIGALSVVC..DLMGTLG.........................................SG.TSIL....LAVT....TIYG...YYE
+A7SJW4_NEMVE/75-458              TLMELGISPIVTSGLIMQLL...................AGSKIIEVGDT.PK.DRALFNGAQKLFGIIITIGQAVVYV.MTGMYG......DPSD...........LGPGIC..LLIII..QLFCAGLIVLLLDELLQKGYGL.G.SGISLFIATNIC.ETIVWKAFSPATINT..............GRGTEFEGAVI...ALFHLLAT...............RTDKVRGLREAFYR.......QNL.....PNLTNLIATIFV.FGIVIYFQGFRVDLPIKSARY...................RGQYSS.YPIKLFYTSNIPIILQSAL..VSNIY...VISQMM.....SAKFAGNFFVNL................LGTWEEA.GGG.......PARSYPVGGLCYYMS...P.PETVS......................HIIEDPVHACIY.IFFMLGSCAFFSKTWIDVSGSSAKDVAKQLKDQQMVMRGHRD..KSMVHELNRYIPTAAAFGGL.CIGALSVLA..DFLGAIG.........................................SG.TGIL....LAVT....IIYQ...YFE
+A0CFY2_PARTE/73-456              TLMELGISPIVTSGMILQFL...................SGVGFIEVNHS.VREDKVLFNAAQKLLSFIMAIAEGMAYI.WSGAYG......DINQ...........IGAGNA..ILILL..QLTFAGVIVTMLDEMLQKGYGL.G.SGISLFIATNVS.ENILWKSFSPITLST..............EAGTQFEGAII...NFFHLLFT...............KQNTLQALYYAFFR.......ESA.....PNLNNLLATLFV.ISLVIYLQGFRVEVPLASQKI...................RGLVSS.HGIKLFYTSNIPMIIQSTL..VQNVY...FLSQLL.....YRRFKTNFFVKL................LGTWQEA.EFG........GQSVPIGGLAYYMS...P.LRDVK......................DIINDPIHAVVY.VLFVVFMCGFFAKFWIQISGESAKDVARKFKDEQIKIKGLRE..ESMVKYLSGYIPVAAFCGGV.CIGLLTIVA..DILGAIG.........................................SG.TGIL....LAVT....IIYG...YFE
+Q22MG2_TETTH/151-538             TIMELGISPTVTAGMVMQLL...................VGAQILNIDQN.DPVQRSLYEGSQKLLGLIIAFFEAVAYV.WSGMYG......DIEK...........VGYGNA..LLIVL..QLTFAGIIVILLDDLLSKGHGL.GNSAISVFIAINIC.ETIIWKSFSPITYPIP............GFEKEQYEGAIL...NLFHSLFA...............IDNKFVALQNAFYR.......SHL.....PNLASLISTALI.FIVVVYFQGFKVDIALKNDRV...................RGAIQS.YPIKLFYTSNMPIILQSAL..ISNLY...FFSQIL.....YRNFNGNFIVGL................LGKWSIP.EAG.......GSHMVPVGGLVYYLS...P.PHGMI......................EVISDPLHTILY.VVFILTTCALFSKTWIQVSGSSVKDVAKQLKEQGMGLVGSRD..SGLKSHLKRYIPIAATFGGL.CIGALSVVA..DFIGVIG.........................................SG.TGIL....LAVN....IVYG...YFE
+A0CU87_PARTE/77-460              TLMELGISPMVTASMIMQLL...................AGAKLIDVDQN.VKEDKQLYSGAQKLLGILIAFGEAFAYV.WSGMYG......DLDK...........LGAGNA..ILIII..QLVFSAIVMIMIDELLSKGYGI.GNSGTSLFIAINIC.ENIMWKAFSPITHKT..............ELGLEYEGAII...ALLHGLFV...............QSDKISALQSAILR.......DSL.....PNLTNLLATVLV.FLIVIYFQGFKVDIPIKNNKV...................RGGLTS.YPIKLFYTSNIPIILQTAL..VSNLY...FLSQIL.....YRNFKGNFLIRL................LGYYQEL.EN.........GQTVPIGGLVYYVS...P.PRSIS......................EAIFDPIHTILY.TAFILGTCAVFSKTWIDVSGSSPKDVAKQLKEQDMQIVGYRD..SSMKDVLKRYIPIAASFGGM.CIGALTILA..DFLGAIG.........................................SG.TGIL....LSVT....IIYG...YFE
+Q7RLN0_PLAYO/121-506             TLMELGISPIVTSGMVMQLL...................AGSKIIDVDQS.LKEDRTLFQGAQKLLGLLITLGEAIAYV.VSGIYG......NLSE...........IGTGHA..ILIIL..QLFFAGVVVILLDELLQKGYGL.G.SGISLFIATNIC.ETIMWKSFSPTTINT..............DKGIEFEGAII...SLIYCLFT...............EFNKISALKKSFYR.......THA.....PNVTNLLATILV.FLIVIYLQGFRVDLSVKYQTV...................RGQQGT.YPIKLFYTSNIPIILQTAL..VSNLY...FFSQIL.....YKRFSNSILVNI................LGQWQEI.ESN........GTAVPIGGIAYYIS...P.PNSFA......................DITNDPFHTLIY.ISFVLVSCAFFSKTWIEVSGSSAKDVAKQLRDQHIGMRGHRDTPTSLTRVFNRYIPTAAAFGGM.CIGALTILA..DFLGALG.........................................SG.TGIL....LAVT....IIYQ...FYE
+Q4QGX4_LEIMA/77-467              TLMELGISPIVSASLILELL...................AGVRILTYDQN.NREERAVFEGFQKMMGLVITAVEAVAYV.SSGMYG......DPSR...........IGVVMC..GLIVL..QLMVATMICILLDELLQKGWGI.G.SGTSLFIATNVC.DTIIWKAFSPSTINT..............GRGAEFEGAII...AFFHLLVS...............RTDKVRALREAFYR.......PQL.....PNLTNIFSTAVV.FAVVVFFQGFRVPLMTKSKFN...................GNDRQP.YMIKLFYTSNMPIILQTSV..VSNIS...FFSQIL.....SRRFGNRNFLIN...............LLGRWEER.GYNGG....GSGQLFPVGGLAYYLV...P.PATFY......................DLLADPIHAIFY.VVFVLTSCAVFSRLWITISHTAPRDVAKQLASQGRWLVQARESEDDMTRLLEKYIPVAASFGGL.CVGALTIFA..DFLGAIG.........................................SG.TGIL....LSVT....MINQ...YYE
+A5JEK2_NOSBO/75-457              TLMDLGISPVVTASMIMQFL...................GMLELVKVDYN.VKEDKILHGAANRLISLIMTVGSAIVQV.LTGFYG......DPKA...........LGWTYC..ILLMV..QLIFSGVIIILLDELLQKGYGL.G.NGVNLFIASNVC.ESIMWRAFSPKVFFT..............GRGIEFEGSLI...AFFHLLIV...............RKNKFAALYEAFFR.......QNL.....PNMFSLVSTVVL.FAFVIYLQGLRVELKTESTQV...................RGQTGM.YPVKLLYSSTMPIIVQSYV..ISHIC...TISRFL.....YKRFPTYFLVRA................LGVWSSE.GS.........SKYQPIKGLCYYIL...P.PESIF......................DFKLRPFYFLFY.VLFTIISCSMLSRAWVEVSDNTPTQVASQMKKNKMTLKGVRE..VNCASVLSKYIPTAALLGGC.FTSLVVLIS..NLFDTIG.........................................SG.TNIF....LATS....IVHQ...YLE
+A2DH65_TRIVA/75-462              SLMEFGISPIVTSGMILQFL...................CSFGLINRNPS.DPEASALFDAAQKLAGIIMTAFQAGNAI.WSGEYG......IRGE...........IGFVNA..ALIMT..QLVSSAIVVILLDELCQNGYGI.G.SGISLFICTNIC.EMIMWRLFSFNHYSM..............GRGTEYEGLVI...AFFHYLFT...............RKNKLRALRDIVFR.......PQL.....PNLCQLFSTVIV.FGACVYFDQIKINIGLETTVN...................RARPEP.FEIKLFYCSNTPPIIQSTI..LSQLA...GFSRTI.....YFHWPESLATQI................FGVWRSH.NGMS......YDYSTPVSGLIYYLT...A.PQSIQ......................QTIHDPLHTIIY.LIFSLSSAGFISYYYLRFSNQAPADVAEALKKQHLTLKGHREDQKRLEKTLSRYIPTAAALGGI.LVALLSFVA..DFLSAFG.........................................SG.TGII....LAVS....IINQ...FTA
+Q2QM98_ORYSJ/88-448              TVMELGVAPVVTSWVVVRLL...................AALL........FDSDSSTTVASCELLARCLAYVTNASRL.VIG.........IAAALGM.....CGSGGAGNA..ALVVL..QLFAGGVVVVLADLLHETGYGVEGVSAASLLIATNAC.ERAVSHLFSPVKLRL.............AGAGPEFEGPVF...AVTHRVAAAP...........PSWRHKAGALLFTLLR.......LDL.....PNLSNYMTTCVM.FVLAVRLDETHLRRLYRSRPR...................RGTDEF.VPIKLLYTSAMPIMLHASA..VSAFC...V...............DAG.......................GGAA...............YPVGGLVYYVT...P.PSKLL......................VDPGLIHELLIH.SVFVVASCTLLSMAWAEASRSSAREFRTRVIGTGYFVW......DETSRRIDRVIAAAAAVGGF.AVGGLAVYA..GAVGAIG........................................EAG.PELL....FAVL....VIKN...LAE
+Q6AV46_ORYSJ/86-471              TVMELGITPVVTAGTLVQLL...................VGSNLVRADSS.NPDDRALLSAAQKLLSIVITAGEATAYV.LSGAYG......SVGV...........LGAGNA..VLVVL..QLVLGGMVAIFLDELLQKGYGF.G.SGISLFTAANTC.EGVVTRALSPATMDR..............GRGAEFVGAVT...AAAHLLAT...............RARKLSAVREAFFRGG...GGGSL.....PDLRGLAATCAV.FLAAVYLQGVRVALPVRPRNA..................PRSHRGGAYSVRLLYTSGMPVVLLSSA..VSSLY...VVSQAL.....YRRFGGSLLVD.................LLGKWTP.D...........AAVPVGGIAYYVT...A.PASAA......................SAAANPLHAAMY.VAFVLAACAALSRAWVVVSGSSSRDVARRLREQQMVMPGMRE..ASMQRELERYIPAAAALGGV.CVGALTVAA..DLMGAVG.........................................SG.AGML....LAVT....TVYQ...CYE
+Q6C854_YARLI/70-454              TLMELGVGPMVTSGIIFQIL...................GGFQALNVNFD.IRADRELFQSGQKIFALLLTFFHAIFLVFFAQTYGTISTDSAVS.............ELSLGAAVLIVA..QLTAAGLVLILLGEIVDKGYSF.G.SGSGLFTALSVS.QNFMWQNLALLKVHQEFVGS...IPALLMGLWKNGLFNFG...GSYRYVI...................ENSFFRQNLP.........N........LLQLYMSVAV.FMLTIYLNTFRVDIPIKSSRV...................RSLATA.FPVKLLYTGSMCLFLLSAF..SQNVL...IYSQSL.....YVQFPDNLMVQV................LGSWGADG..............SPVGGIAYYI.....SPNNF.........................GYDVIKMVLY.SVYTIVGCTLFSKYWAEISGSAPKDVAKQFQAQSIVIVGQRA..QSAPRELAKVIPVAAAVGGA.VVGAIVAFC..DIFGGLG........................................ASA.APMI....VAVT....SMNN...YFE
+SSH1_YEAST/78-465                TLLEFGLFPNISSGLILQLL...................AGLKVIKVNFK.IQSDRELFQSLTKVFAIVQYVILTNIFI.FAGYF.......GDD............LSVVQI..GLINF..QLVGAGIFTTLLAEVIDKGFGF.S.SGAMIINTVVIA.TNLVADTFGVSQIKVG............EDDQTEAQGALI...NLIQGLRSK..............HKTFIGGIISAFNR.......DYL.....PNLTTTIIVLAI.AIIVCYLQSVRVELPIRSTRA...................RGTNNV.YPIKLLYTGCLSVLFSYTI..LFYIH...IFAFVL.....IQLVAKNEPTHII..............CKIMGHYE.NAN........NLLAVPTFPLSLLA...P.PTSFFK.....................GVTQQPLTFITY.SAFILVTGIWFADKWQAISGSSARDVALEFKDQGITLMGRRE..QNVAKELNKVIPIAAVTGAS.VLSLITVIG..ESLGLKG.........................................KA.AGIV....VGIA....GGFS...LLE
+Q6BT20_DEBHA/78-475              TLLELGLLPVLTSAFIWQLS...................AGFRFINVNLN.LRSDRELYQSGQKLTSFIFAIVYGAGYI.FSGYYNNVIKGYNPFN..........GDSVPVTTLVLIFL..QIVTMSFVTTLMVEIFDKGYCF.G.SGVLCFVALQVA.TNLIRDVVGLELVSLP............NSNKFESYGAAM...NFIKNFR.................INFKSLNYNVLN.........SFTRSQLPNLSQFYIVLVT.VLVLIGVQNYRIELPIRSTKV...................RGMNNV.YPIRLFYTGALPILFAFTV..LTNLQ...VFGYFT.....STLLNNYSQLAASII.........GTWSLDTKSFNL..............NLTSGILYFL.....TPSKSLA.....................QSLLSPIRSVTY.GLAIITLSTWFAYRWSRISGSSPKDISKQFKEQGISISGKRD..ISITKELSRVIPVASVSGAF.VLAALAIAG..ELLGGLG.........................................KG.VAAI....IGVC....GAFG...ILE
+A5DE75_PICGU/20-414              TLLELGLLPVMTSAFLWQLA...................AGLRLVKVNLS.LRSERELFQTGQKLTSFILGIVYTAGLI.ASGYFAPALR..NQTGFE.......DSFPVTTY..VFIFL..QVFVMSAVMTLLVEVFDKGYGF.G.SGILCFIALQAA.SDLVKNIIGLEVVKLA............NSNKFESVGALM...NLIRSFSF................KTLGKNIYNSFNR.......EHL.....PNLTQVYITIVT.LLVVVALQNFRIELPIRSTRA...................RGMNNV.FPIRLLYTGALPLAFAYTV..LTNLQ...VLGYIA.....SQLLESYSPVASS..............VIGKWTID.YRS........SNLKVSSGILYFLS...P.PTSIL......................NTLVSPLKTAAF.TFVVIVLSAWFANIWSSISGSSPKDISKQFKEQGISIAGKRD..ISITKELSRVIPVASVSGAT.VLGLIAVAG..EVLGGAG.........................................KG.VGTI....IGVS....AAFG...VLE
+A3GFV9_PICST/78-476              TLFELGVLPVVTAAFFWQLA...................VGLKLVNVNLG.LRSDRELFQTGQKLTSFVLAIVYGVGLI.YSGYYDNAIRGYDPLSD.........STPYGWY..GLILF..QFLSWSFIITLIVEVFDKGYAF.G.SGALSFLALQTA.TNLIAELVGLEIFPIN............NSNKFESYGALI...NFTRNFSFDI...........SKIGTNVYNSFTRLQ.........LP......NFTSFYITVAT.TLAVVYLQNLRIELPIRSTRA...................RGMNNV.FPIRLLYTGALPVLFAYTV..IANIQ...YFGYLA.....YVVLQKANVSSFALSI.......IASFNLDSYSNRL..............NLTSGALYFF.....SSSPSLL.....................STILSPIRTVVY.SATVIVLATWFAEKWSYISGSAPKDISKQFKDQGISISGKRD..ISITKELSRVIPVAAVSGGF.ILAAIAVAG..DLLGGLG.........................................KS.AATI....VGVS....AAFS...VLE
+A5DWJ5_LODEL/34-436              SLLELGFLPIITSAFLWQLA...................AGLKLININLG.LRYDRELFQLGQKLTAWGLALIFSVGLI.YSGYYDNVIR..GYKVVGG.....SGGVPIWSY..LIIFT..QIFTWQIVLTLIVEIFDKGYGF.G.SGILSFLALQNA.TSFIAELVGLEMFPVV...........NNTLKFESLGALL...NLVRNFSIF.............SPTTTINQIWHAFTR.......VQL.....PNLTQFYITLAT.ILAVVLLQNFRTEISIRSTKV...................RGMNQM.FPIRLLYTGGLPVLFAYTV..IANLQ...VFGFIF.....EAALVKLTASPIVS............TLFANYVVE.PYS........NRLVIKSGVLYFFT...A.SQTLL......................QSIISPLRVVIY.SSTVVGLATWFAYKWSYIAGSSPKDISKQFKEQGISIAGKRD..ISITKEFAKIIPTAAVTGAF.ILSALAVTG..DYLGGLG.........................................RN.VASI....VGVS....SAFG...ILE
+Q5A2C9_CANAL/5-404               TLLELGLLPIITSAFIWQIA...................AGLRLINVNFK.LRIDRELFQTGQKLTSFIFSLIFAIGLI.YSGYYDNAIR..GYNPLQ.......DGIPYGSY..ALILL..QITAWSWIVTLLVEIFDKGYSF.G.SGILCFLAIQSS.TNFIANLLGLENFPVV............NSNKFESYGALM...NLIKNFSIF.............NPKQTVYQIWHSFFR.......IQL.....PNLTQFYISLAS.ILIVVALQNFRIELPIRSTKV...................RGMNNV.FPIRLLYTGGLPVLFAFTV..VANIQ...VVGYLI.....HSVLSKLGTSPIVI............SIIGNYVYN.PSS........NELDLNSGILNYFT...S.SSSLV......................ESIISPIKTTVY.SITIIVLAVWFANKWSYISGSSPKDISKQFKDQGISLAGKRD..ISITKELSRVIPVASVSGAF.ILSVVALIG..DFFGGLG.........................................YG.VASI....IGVT....ASFA...VLE
+Q74L41_LACJO/64-372              SIFSIGLNPLMFSMLIIQLL...................SFTHSFGFDA....LSPKQVQYLMQFLTMIITIIQAALLVFAFTNRRN........................GLEDFEMIL..ILSAGSCLVVWLCYRNMK.YGV.G.ASAPVILTSILN.GAIP.......................................NIISNVK..................LLLTMKYAWIW.........L........AALAIFILLL.IKFWLAFTKAYYPLKVVNPSL.................PASSNLMT.VPLGLNMAAMMMYMVGMAI..LTLPL...MVGRYF.....SSSSL..............................................................................................INNWVFQASFSAVMGILIFYFFT.FVNFDPKEQAKSFRNNHYYIPNIAPG.RPTQRYLNRLIWIIAFPGAV.LNAFQLVFG..LYGGNFL........................GN..............YAG.FAIIPMNVVMIT...........MFM
+B3XPQ8_LACRE/65-377              SLFMVGLNPLMIAMLIIQLL...................TMLRLFYFDT....LSMNQLMKIQQWLTLGFAIIQSTAVTLGLKITTG........................TLDSLAVIL..MLTAGSMFVVWLGNMNMK.FGI.G.GTITLILFNIIS.GSIP.......................................TLLRSIK..................MLAKQSYGPLW.........L........FLAAIAGCIV.LVFWVSFNRAYYPLKMINTSM.................SSHDRPII.LPIGLNMGAMMTYMVGMSL..LMVPT...LLANVL.....GPGSL..............................................................................................FANPYFNMVVSGILAFVLFYFFT.FVQFDPKAQAKAMLQGNNYILGVRPG.EPTRKYLRQILLHVSFLGAL.LNAIQLSFG..LLGGQVL........................GN..............FAG.LAIIPMNMIMIV....MFMQ...GIK
+A1C3L4_STRPA/70-403              TLFSLGIGPTMTMMILWRFL...................ITFKLI......GSWTSNKVNRLQFLLTLAIALLQSFGITNDSKFLLIFGYSH...................STLRIITII..LLTTGTFILNWLCKINSE.RGI.G..GMTVVILVNMI.LTFQSN................................II...RYFSVQQ........................FKFSS.........LI.....QYGLVFFVALSILIWFNILLYKGEYRIPIQRVGL................NTPYHASSY.LPIRVTPAGAMPFMYGMTL..MMLPPYIFVVLLHI.......................................................FPGNQILEYLSVHIG..................................LSQLPG.VICYIFLLYFLSIGFA.YYNYDPYEISKNMRNNGDYISGKKPG.EETIKYIQYVVNSFAQFGAF.TVIIFGGLP..MLAVLLQ..........................GQG....KNSVSIALLI.SNAY....IIVS....LLLG...VIE
+Q3DVD6_STRAG/65-395              GVFSLGIGPMMTTMILLRLF.........................TIGKYSSGVSQKVQQFRQNVVMLVIAIIQGLAITISFQYHNGFS......................LTKLLLATM..ILVTGAYIISWIGNLNAE.YGF.G..GMTILVVVGML.VGQFNN................................IP...LIFELFQ.......................DGYQLA.........I........ILFLLWTLVA.MYLMITFERSEYRIPVMRTSI................HNRLVDDAY.MPIKVNASGGMAFMYVYTL..LMFPQYIIILLRSI.....FPTN..............................P...............DITSYNDYFS.......................................LSSIQG.VVIYMILMLVLSVAFT.FVNIDPTKISEAMRESGDFIPNYRPG.KETQSYLSKICYLFGTFSGF.FMAFLGGVP..LLFALG...........................N.......DDLRTVSSM.TGIF....MMITGMSFMILDEFQVIR
+A5LN99_STRPN/64-389              SIFSVGLSPWMSAMILWQMF...................SFSKRLGLTST....SIEIQDRRKMYLTLMIAVIQSLAVSLRLPVQSSYSA.....................ILVVLMNTI..LLIAGTFFLVWLSDLNAS.MGI.G..GSIVILLSSMV.LNIPQD................................VL...ETFQTVH........................IPTGI.........I........VLLALLTLVF.SYLLALMYRARYLVPVNKIGL................HNRFKRYSY.LEIMLNPAGGMPYMYVMSF..LSVPAYLFILLGFI.....FPNH..............................S...............GLAALSKEFM.......................................IGKPLW.VYVYISVLFLFSIIFA.FVTMNGEEIADRMKKSGEYIYGIYPG.ADTSLFINRLVLRFSVIGGL.FNVVMAGGP..MLFVLF...........................D.......EKLLRLAMI.PGLF....MMFG....GMIF...TIR
+A3CM55_STRSV/64-391              SLFSVGLSPWMSSMLIWQMF...................AVSKRLGLSKL....PLEVQERRRMLLTLVIALIQSVALVLNLPLQEAAGVDM...................TTIMVLDTL..VLMAGTYFLIWLTDLNAA.MGL.G..GSIMIVMASMI.AYIPQD................................IW...NSIQELK........................ISSLW.........L........ALMLVFSLVF.LYLAVTVERSKYRIPVNKINI................HNRFKKYSY.LDIRLNPAGGMPIMYAMTL..VSIPQYFLLIIHFL.....QPEN..............................Q...............LIEQWIEALS.......................................MGSPAW.FILYLLTIFILALAFA.FINISGDQIAERMQKSGEYIENVYPG.GATRRYINGLVTYFALVGAF.YLILISGLP..MMVVLV...........................D.......IRYLRLSMI.PGIF....MIFI....GMVF...SIK
+Q03HZ8_PEDPA/65-396              SLFSVGLGPYMTGMILFQAI...................QLLDIDELNKI....NDYKRGMIQRWISFVIALLQTLQFIYTIREHINFSGIKVW...............GIDYNLIVAFF..VLVAGAMIVAWMSDMITK.YGI.G..GSGVLILPGMI.DSIPRV.....................................LLYGQGL......................GSGAVFF.........TP.....KLWLVLIISVAVVVIFTIFINKAELRIPLQRPFV.................QNDFSESY.LPIRVLAAGSMPFMFTTTV..FMIPS...YIGSFV.....PEG...............................................EFNRFVQNYV....A..................................FDNPVG.ILIYCSIIVFLGYVFS.FMNFQTERLTKNLKKSGDYIFNVVPG.TATRHYLNQRLFHLSTVANI.FFLIIVGTP..LIVGLYL..........................P.......EITNFAFVF.ANIL....ILIT....IIDT...TMD
+A5IW80_STAA9/64-384              NIFTLGLVPWLTSMIILMLI...................SYRNMDKYMKQ....TSLEKHYKERILTLILSVIQSYFVIHEYVSKERVH......................QDNIYLTIL..ILVTGTMLLVWLADKNSR.YGI...AGPMPIVMVSII.KSMMH......................................QKMEYID........................ASHIV..................IALLIILVIITLFILLFIELVEVRIPYIDLMN................VSATNMKSY.LSWKVNPAGSITLMMSISA..FVFLK...SGIHFI.........................................L............SMFNKSISDDMPM.LT..................................FDSPVG.ISVYLVIQMLLGYFLS.RFLINTKQKSKDFLKSGNYFSGVKPG.KDTERYLNYQARRVCWFGSA.LVTVIIGIP..LYFTLFV..........................P.......HLSTEIYFS.VQLI....VLVY....ISIN...IAE
+Q4L9N9_STAHJ/61-383              NVFSLGLGPWLTSLVIIMLL...................NYRNLDQATKQ....TRSEKHYKERIITIVFAIFQSYFVISTYIHNNFIK......................DSNIILLML..ILVAGTMLLVWLADQNIT.YGI...CGPMPIVLTSLI.KSLFNN.....................................QHFFKLS........................VSVLL..................LILVIVTLVIALLILLFIELSEYRLNYKDIMN................NSTNKTPTY.LAWKLNPAGSISIMISLSV..YVLLN...NMINLI.........................................A............TLLGSNANFEFL...S..................................FANPIG.IMFYIVLQIVLSYLLS.RFLINTKKKADEFLKNGNYFDPIRPG.RETERYLNSKARRVCWTGAI.LVALILAVP..LYSTLLV..........................P.......NLSTEIYFS.MQLI....ILVY....ISINIGETIR
+Q5HKR3_STAEQ/61-380              NIFSLGLGPWLSSMIILTLI...................NHKSNDKVKTQ....TRRERHFKERALTLIISAAQGFYIIHSYINKHAIK......................DSNMLILLL..VLITGTLLMVWLADQNTT.YGI...SGPMPIVLMSLV.KSIFN......................................THFPKLN........................SSASL..................ITMIIVLLVLALFILFFIELTEYRIEYNDIMN................ISAKDIPSY.LSWKLNPAGSISIMVSLSL..FMLTN...NIVNFI.........................................G...........RFIVNHNFETHVF...N..................................FTNPVG.ITIYLLLQMILGYFLS.RLLINTKRKSKEFLKNGNYFEGIQPG.QQTEKFLGSKARRICWFGSI.VVAIVLAIP..MYSALLV..........................P.......HLLKEVYFT.TQMI....VFVY....IGIN...IAE
+Q9RSK8_DEIRA/68-413              SIFALGVLPYITASIVIQLL................TT.TIPSLEKLSKE.GEEGRKKINQYTRYAAIALGAVQALFFSLYI..TSNPSFIAVGW.............DPGLFTVLVMVL..TQVAGIAFTMWIGERITE.VGI.G.NGISLIITAGII.AVYPRE................................IA...ATAQLLR.....................SEQTTLLS.........I........LAFIAVILVT.IAGIVYIYQAERRVPVTYARARGGAAGQ.....ARG..AGQ..ATW.LPIKVNQAGVIPVIFASAM..LIIPN...LIASAT.....ATRA..............................P...............EVNAWINSNL......................................TFGQPLY.LALESLLIFGFTYLYN.SVQFDPKRIAEQLREAGGFIPGVRPG.GPTADFLGRISGRLSLWGAI.FLVILTILP..QLVQKAT........................GI..........TTFQFSG.TGLL....IIVG....VALE...TLK
+Q5SHQ8_THET8/71-413              SIFALGIMPYITAAIIMQIL................VT.VVPALEKLSKE.GEEGRRIINQYTRIGGIALGAFQGFFLATAFLGAEGGRFLLPGW.............SPGPFFWFVVVV..TQVAGIALLLWMAERITE.YGI.G.NGTSLIIFAGIVVEWLPQ.................................IL...RTIGLIR.....................TGEVNLVA.........F........LFFLAFIVLA.FAGMAAVQQAERRIPVQYARK...VVGR.....RVY..GGQ..ATY.IPIKLNAAGVIPIIFAAAI..LQIPI...FLAAPF.....QDN...............................................PVLQGIANFF......................................NPTRPSG.LFIEVLLVILFTYVYT.AVQFDPKRIAESLREYGGFIPGIRPG.EPTVKFLEHIVSRLTLWGAL.FLGLVTLLP..QIIQNLT........................GI..........HSIAFSG.IGLL....IVVG....VALD...TLR
+#=GR Q5SHQ8_THET8/71-413   SS    BTT----HCCCCCCCHHHHC................CC.CSCCHHHHHC-.-----CCHHHHHH------------HCCCCT--------S----.............----HHHHHHHH..HHH---HHHHHHHHHHCC.---.-.---CHHHH---CCCCCHH.................................HH...HH-----.....................-----CCH.........H........HHHHHHHHHH.H---HHHHC-EEEEEEE----...----.....---..---..ECE.EEEESS----HHHHHHHHH..CCHHH...HCCTT-.....TTS...............................................TTT---CCCC......................................-TTS---.-HHHHHHHHHHHHHHC.CTSSHHHHHHHHTT------------.-CCCCCCCCCCCCCCC----.----TTTHH..HHHCCC-........................--..........--GGG--.---T....TT--....-HHH...HHH
+SECY_CORGL/73-424                SIFAIGIMPYITASIIVQLL................TV.VIPHFEELKKE.GQSGQAKMMQYTRYLTVALALLQSSGIVALADREQLLGAGIRVLS...........ADRNFFDLIVLVI..TMTAGAVLVMWMGELITE.KGV.G.NGMSLLIFAGIA.TRLPTDGM............................NILG.................................NSGGVV.........F........AVVLASVLIL.VIGVVFVEQGQRRIPVQYAKR...MVGR.....RQY..GGS..STY.LPLKVNQAGVIPVIFASSL..IYMPV...LITQIV.....NSGSLEV.........................SDN...............WWQRNIIAHL......Q...............................TPSSWQY.IVLYFALTIFFSYFYV.SVQYDPAEQAENMKKYGGFIPGIRPG.RPTAEYLGFVMNRLLFVGSL.YLAVIAVLP..NIMLDL.........................GVDA.....GSAGATPFGG.TAIL....ILVS....VALT...TVK
+A8LB12_FRASN/74-414              SVFALGIMPYITSSIIIQLL................VV.VIPRLEQLKKE.GSSGEQKLTQYTRYLTVALGILQATGIVALARSGRL.....FPGCSA......QIIPDTSLFRIVTIVI..TMTAGTAVIMWMGELITA.RGV.G.NGMSLLIFTSIA.AALPSQGG............................RILQ.................................VAGGVV.........F........GLVILLGLAI.VVFVVFVEQSQRRIPVQYAKR...LIGR.....RMY..GGT..STY.LPIKVNQAGIIPVIFASSL..LQLPQ...LVGQVW.....SNQTFQ............................D...............FEQRYLSR.........................................GDHPLY.LVAYGALIIFFTYFYV.AITFNPTEVADNMRKYGGFIPGIRPG.RPTAEYLDHVLSRITLPGSL.FLGVITVLP..LALLNLT........................KD..........QPFPFAG.TSVL....IMVG....VGLE...TVK
+Q83NQ1_TROW8/73-424              SVFALGVMPYITSSIIIQLL................RV.VVPRFEQLYKQ.GQEGQAKLIQYTRYLTIGLAVLQSTTLITVARSGAL..FAASNSPACS.....SLLTDDSWYSTIIIVI..VMTAGTGLIMWLGELITE.RGI.G.NGMSILIFTSIA.AGFPGV................................LV...GVYQT..........................RGFGM.........F........STVVITSLVV.MVGVVFVEQSQRRVPVQYAKR...VVGR.....RIL..GGG..STY.LPIKLNMAGVVPVIFASAI..LRVPS...IIAQFS.....QPAPGQP.........................PAA...............WVVW.INENF......T...............................TGNSPFY.IALYFFMIVGFTYFYV.AVTFNPTEIADNMKNYGGFISGIRPG.VPTANYLSYIIKRITLPGSL.YLGIVSLIP..LIAFALF........................GLSA......DIP...LGG.TSVL....IMVG....VGLD...TVK
+Q8G3Z9_BIFLO/74-421              SIFALGVMPYITASIVVQLL................RV.VIPRFEALHKE.GQSGEAKLTQYTRYLTIGLAVLQSTTILVTARSGAL.....FNYQCD......QVIPDGSVFNLVVMVL..IMTGGTGLIMWMAELVTD.KGI.G.QGMSILIFMSIC.SGF...................................LP...QLWEIGY..................GTNGTDGDWLK.........F........GIVVGVLVVI.LIFVDFVELCQRRVPVQYTRR...MIGR.....KMY..GGS..STY.LPLKINMSGVIPPIFASSI..LAIPT...LIAQFG.....KSDQ..............................S...............WVKW.INANL......A...............................NTTSVWY.IALYALMIVFFCFFYT.SITFNPDETADNMKQYGGFIPGIRAG.NATSRYLTYVMNRLNTVGAV.YLLFVALIP..TVLIMAL........................GL.........NAKLPFGG.TTIL....IIAG....VGLD...TLR
+A7B9M4_9ACTO/72-414              SIFALGIMPYITASIIIQLL................RV.VIPRFDDLHKE.GQTGQAKLTQYTRYLTIFLGILQATTTISLARSGQL.....FQSCNH......DIIKDRSVMTFIMMII..VMMAGTGVIMWLGELITE.RGI.G.NGMSLLIFTSIA.ARLPEQ................................LL...SIGQA..........................GKWGS.........V........AAIVALLLLV.AIAVVYVEQAQRRIPVQYAKR...MIGR.....RQY..GGT..TTY.IPLKINMSGVIPVIFASSI..LALPP...MAAQFG.....SPND..............................K...............WVQW.ISAHF......................................TQGSSFY.LTIYALMTLFFTFFYT.AITFNPDEVADNMKKYGGFIPGYRAG.RPTAEYLRYVINRITSAGAL.YLVIIALLP..SLAIIPL........................QLS........SSQMPFGG.TTLL....IIIG....VGLQ...TVK
+SECY_CHLTR/73-433                TVIALGVVPYISASIIVQLL................VV.FMPTLQREMRESPDQGKRKLGRMTRLFTLVLACVQSLLFAKFALRMNL..VVPGIVLPAMLS.LKLFGVPWVFY..LTTVV..VMITGTLLLMWVGEQISD.KGI.G.NGISLIITLGIL.ASFPSV................................LGSIFNKLNLGS..................QDPS.EFGIVS.........L........LILCAVFVFV.LMATVLIIEGMRKIPVQHARR...IIGR....REVV..GG...GSY.LPLKVNYAGVIPVIFASSL..LMFPA...TIGQFL.....SSES..............................S...............WLKR.IATML......................................SPGSVAY.SIFYVLLIIFFTYFWT.ATQFRPEQIASEMKKNGAFIPGIRQG.KPTQTYLEYTMNRVTLLGAV.FLAVVAILP..SILGRIL........................RVDA......NVSYF.LGG.TAML....IVVG....VILD...TMK
+Q1AU49_RUBXD/70-408              SVFALGIMPYITAAIVMQLM................TV.AIPRLQELARE.GEVGQQKITQYTRVFTLALSFIQSVAMVLFLRSGQFGPVLAG................AGALDLFLVVV..TLTTGVMVTMWFGELITQ.RGL.G.NGISLIITASIL.SQAPNA................................VR...TLIE..........................DGSVLT.........M........VILGIIAVMI.VAAIVFVNEGQRRIPITYAKR...QVGR.....RMS..QGG..TTY.LPLKVNMAGVIPIIFASSL..LIFPV...VITQFA.....AGGDQS............................S...............WLFR.LAQIF......................................APPSAPY.LILYALLIVMFTYFYT.AVQFNPIEHADNLKKSGGYIPGIRPG.QPTALYLNSVLTRITLFGAV.FLAVIAVLP..YLITGAL........................NLP........NSIY.LGG.TSML....IVVG....VSLD...TVR
+Q8RIH6_FUSNN/75-411              SIFSLGIIPYINASIVVSLL................VS.IIPQLEEIQKE.GESGRNRITQWTRYLTIALAIIQGTGVCLWLQSVGLIYNPGI.................SFF..VRTIT..TLTAGTVFLMWVGEQISI.KGI.G.NGVSLIIFLNVI.SRAPSS................................VI...QTIQTMQ......................GNKFLIP.........L........LVLVAFLGTVTIAGIVLFQLGQRKIPIHYVGK...GFSS.....K....GGIGEKSF.IPLRLNTAGVMPVIFASVF..MLIPG...VIVNAL.....PSTL..............................................SIKTTLSIIF......................................GQNHPVY.MILYALVIMFFSFFYT.ALVFDPEKVAENLKQGGGTIPGIRPG.EETVEYLEGVASRITWGGGI.FLAIISILP..YVIFTSM........................GL..........PVY.FGG.TGII....IVVG....VALD...TIQ
+A6DRC9_9BACT/79-428              GV..LGIMPYITASIIMQLM................TP.VFPNLEKLQKD.GSHGRQKLNQYTRYMTIVICAVQSAMMAVAMHTPSK....LLGVPGFED...LVINKGSAFV..IQTTI..IVTASAILIMWLGEQITD.KGL.G.NGASIIITINVL.SSMPQA................................FA...AVYSK.Y..................QE.G.EWNLVQ.........I........LVVVGILFIV.TAATVALVQGMRKIPLKYARD...ASSR.....NAM..IEK..TSY.LPLKVNHAGVMPIIFASAL..MMFPP...MIINKI.....GG................................D...............FART.VAPYF......................................DFGSTSY.LIIQGVMILVFTFFWV.ATQFNPIQIADDLNRSGAFVPGHRPG.EPTSTFLNDTMTRITVAGAI.FLVILALLP..YVLMNAM........................GSGSTD..FIITQF..FGG.TSLL....IMVG....VVLQ...TMQ
+C0ACZ0_9BACT/94-454              AVCALGIMPYISASIIFQLM................TA.VVPSLARLQQE.GDVGRQKLSQYTRYATVLICLIQGALLILALENPTQLFGEGYDIARYGE...IVLVDRTWFL..ISSVI..FMTAGTMLLTWLGEQITQ.RGI.G.NGISLLITIGII.SDLPGA................................MGTLWTLLRAPV..................GT.Q.GISMIS.........L........TFMVILFFAV.TMGIIMVVQGQRKIPVQYAKR...VVGN.....KVM..GGQ..NSF.LPLKVNYSGVMPVIFASAI..LLFPQ...QIFRYL.....GAAFNL............................P...............FLIE.FSNNL......................................MRGHWVY.YVTMTLLILFFSYFWV.SVMFKPIQIAEDLKKYGGYIPGVRPG.EPTAKFLDFVMTRITLAGAI.FLTIIAVFP..DFLNAEL........................NVPQ......RISSF.FGG.TGML....ITVG....VILD...TMK
+Q1Q157_9BACT/75-434              AIFGLGVMPYISASIIFQLL................VG.VVPYLERLQKE.GEVGRKKINQYTRIATVGLCLFQAFVMTRTLYTVEF.....NGVPVIP.....VYLQGVSFQ..LMAAI..LLTTGTMILMWIGEQIEE.HGI.G.SGISIVIMVGII.ERLPWAF.............................NQIV...QNFTFSV..................APAEHQIGIVK.........L........LILLGMFFAI.VGGVVYITQGQRRIPIQQAKH...TRGR.....RVY..GGQ..RHF.LPLRVNQAGVMPIIFAQSL..LIFPA...AIMQGI.....QIRFEPGS........................VGY...............WITSRLSGIL......................................Q.EGVLY.VMLYILLITFFCYFWT.AIQFNPREMSNNMKDYGSFIPGIRPG.HRTAEYLESIMGKITLAGAA.FLSLIAILP..KLVAGGF........................ELNR......AIAGF.YGG.TGLL....IIVG....VALD...MVQ
+A6CGP8_9PLAN/77-435              TIFGLGIMPYISASIIFQLM................GT.VYPPLERLQKE.GEAGRKKINEYTRYATVVICLVQSFFWIRTLAGGFG.....SGTSLIL.....DGYQGLYFQ..IVATI..TMTTGTVFLMWIGEQIDA.YGI.G.NGISLLIMAGIL.ARMPQAGW............................SLIE...PAFEKGI..................ALGT.DTGIDR.........L........LILALVFVFV.VVWVIAITQGQRRIPIQSAKH...VRGR.....RVS..GGQ..RQS.LPLRVNQAGVMPIIFASSL..LMFPY...FLFHGL.....SQYF.ST.........................SAF...............W..AMLDEAF......Q..............................PMSRGFVY.TMSYVVLIYFFCYFWT.AITFNPKDMAENLKDYGSFIPGYRPG.ARTAAYLEQVMVRITYVGAA.FLSLVAIIP..TLVSTWL........................GVDF......LVASF.YGG.TGLL....IVVS....VVLD...LVN
+B4S5A8_PROA2/73-417              SIFSLGIMPYISASIIVQLL................GA.VTPYVQKLQKE.GEEGRQKINQYTRYGTVLIAALQAWGVSVSLASPSSFGTIVVP..............DPGFFFMMTTVL..ILTASTVFVMWLGEKITE.RGI.G.NGISLIIMIGIL.ARFPQS................................VI...AEFQSVS.....................LGSKNWII.........E........FIILALMVLI.VAAVVVLTVGTRRIPVQHAKR...VVGR.....KMY..GGS..TQY.IPMRVNTAGVMPIIFAQSI..MFLPN...TFLSFF.....PES...............................................EVMQNVATIF......................................SYDSWWY.ALMFGTMIVFFTYFYT.AIAFNPKEVADTMRRQGGFIPGVRPG.KSTADFIDNILTRITLPGAI.SLAFIAVLP..TFLTKFA........................NVTP......GFAQF.FGG.TSLL....IIVG....VGLD...TLQ
+Q2S3P5_SALRD/75-414              GIFALGIMPYITASIIIQLM................GA.VVPYFQKLQRE.GEEGRRRITQLTRYGTIGITALQSIGYSINLLAGATGRAVVIN..............STLFT..ITTVV..VLTSGTAFVMWLGERISE.DGI.G.NGISLIITIGII.AFLPQA................................LY...NEIGLI........................GDNFFI.........L........LVEIGVWVLV.AGAVVLVSQGMRRIPVQYAKR...VVGK.....KVQ..GGT..TQY.LPLRVNAAGVMPIIFAQSI..MFIPS...TIASFF.....PNN...............................................ATMQRVGGWF......S...............................DISSMSY.SAVFFVVVVFFTYFYT.AITVNPQEMADTMKRQGGFIPGIRPG.KQTSEFIDTVLTRITLPGSI.FLGLVAIFP..AFAMQA.........................GVSQ......GFAMF.YGG.TSLL....ILVQ....VTLD...TLQ
+A1ZGT4_9SPHI/72-404              SIFALGIMPYISASIVIQLM................EV.AVPYFQKLKKE.GESGFKKKTQITRYLTIVITAAQAIGYIQATIPSNAIMVSQL.................SFT..ISTVI..ILTAGTVFTMWLGEKIDD.RGI.G.QGISLLIMIGII.SRLPQS................................LV...EEVVARS.....................T.GSQVLI.........L........ILEMVVLFFV.VMSVVMLTEATRRIPIQYAKQ...VVGN.....RVY..GGQ..RQY.LPLKVNAAGVMPIIFAQAL..MFVPA...LITPYV.....GG.....................................................ASSAF......S...............................DITTWQY.NLVFGLLIIIFTYFYT.AISVNPKQIADDLKRNGGFIAGVKPG.SDTSEYIDKIMSKITLPGSI.WLAIVAILP..AIAVKF.........................GIQN......SFAQF.YGG.TSLL....IMVG....VVLN...TLQ
+A6EHP4_9SPHI/71-408              SILALGVMPYISASIVVQLL................GI.AVPSFQKMQKE.GESGRKKLNQITRYLTVAITAVQAVGYVKTQVPMEAIVIDHT.................LFF..VMATF..VLAAGTLFVMWLGEKITD.KGI.G.NGISLIIMVGII.ARLPIA................................LY...QEITSRI.....................VSDGGLIA.........L........VLEIVALFAV.VMFTIMIVQGVRKVPVQYAKR...IVGN.....RQF..GGV..RQY.IPLKVNAAGVMPIIFAQAL..MFIPA...TLTQFF.......................................P...............SLQNTWLVQF......S...............................DYTSLAY.SLTFAFLIIAFTFFYT.AITVNPTQMSDDMKKNGGFIPGIKPG.FATSSFIDDVISKITFPGAV.FLAIIAILP..SVAVKF.........................GIKS......EFAHF.YGG.TSLL....ILVG....VVLD...TLQ
+Q11QD2_CYTH3/72-411              SVFGLGIMPYISASIVLQLL................TF.AVPYFQRLQKD.GESGRKTINQYTRILTIFITVAQSIGYLAATLDEGMIYEGMN.................TPFMNVVRIV..TLISGTMFCMWIGERITE.KGI.G.NGISMLIMIGIV.SRLPFA................................LM...AEVSSKN.......................LEGALP.........L........LIEFAALFAV.IMLVVLVQQATRRIPIQYTKQ...IAGG.....KQV..IGQ..RQY.LPLKLIAAGVMPIIFAQSV..MFLPA...IIGSSF.....PDS...............................E...............FATT.IGSTM......S...............................DFTSWQY.NVAFATMIILFTYFYT.AITVNPNSIAEDLRRNGGFIPSVKPG.LATSEYIDDVLTKITLPGSI.FLALLAILP..AFASMT.........................GIEK......EFAYF.YGG.TSLL....IMIG....VVLD...TLQ
+Q1VTY0_9FLAO/73-421              SVFALGIMPYISASIVVQLM................TI.AIPYLQKLQKE.GDSGRKKITQITRWLTIAITLVQGPGYIINLYNILPSSAFLMD...............STFTFVVSSVI..ILTTGCIFAMWLGEKITD.KGI.G.NGISLLIMVGII.ATLPQA................................FI...QEFISRV....................TESNGGLIL.........I........LIELVIWFVI.ILAAVMLVRAVRQIPVQYARK..NASGK....FEKASVGGA..RQF.IPLRLNASGVMPIIFAQAI..MFIPA...AVAGLS.....DS................................................EMAQGITAAF......Q...............................NMFGFWY.SLVFGILIIVFTYFYT.AITVPTNKMADDLKRSGGFIPGIRPG.SETSEYLDRVMSQITLPGSI.FLALIAVFP..AVIVSLL........................NVQQ......GWGLF.FGG.TSLL....IMVG....VAID...TIQ
+Q1NYZ7_9FLAO/72-422              SILSLGIMPYISASILTQLM................CY.MFPSLYKIQQD.GEIGIKKINNITKVLTILISLIQAPVYITILISSNIKENPYNLILI.........HCKKIFI..ITSII..CITTGTFFTMWLGEKIND.KGI.G.NGNSLIIISGIL.SRFIYS................................II...SEIFNRL..................KNNNKLLGIII.........L........LFELFIWLLI.IGISIIIINFVKKIHIQYVNKFYLKNYS....SNEIYLRNE..MKF.LPLKVVYPGVMPIIFSQGI..LLIFI...TIFNKI.......................................N...............NLQL............................................SNNGIWY.NILYSILIIIITFFYT.FLSIPVNKISDDLKINGVYIPNRKPG.KDTCFFLKKIVSQIYLTGSL.LLVIIALLP..SIFISLGG.....................DKNF..........SLF.FGG.TTII....IIVG....GLLDIKYTIN
+A5KHP6_CAMJE/62-402              SIISLGIMPYITASIIMELL................AA.TFPNIGKMKKE..RDSMQKYMQIIRYATIVITLVQSIGVAIGLQSLHG..RGGAGVIM........VEDLNMFI..ALCAI..SMLAGTMLLMWLGEQITQ.RGI.G.NGISLIIFAGIV.SGIPRA................................IS...GTVGQ.I..................NS.G.EMNFLT.........A........FAIFALILIT.IGVIIYVELGERRIPISYSRK...VVMQ.....NQN..KRI..MNY.IPIKLNLSGVIPPIFASAI..LMFPT...TILQTS.....TN................................P...............YLQA.INDFL......................................NPNGYLF.HVLTFLFVIFFAYFYA.SIVFNAKDIAENLKKQGGFIPGIRPG.EGTSSYLNEVASRLTLSGSI.YLGLVATLP..WVLVKFM........................GV..........PFH.FGG.TSVL....IVVQ....VALD...TMR
+A4EA78_9ACTN/52-389              SVFSLGIMPYITSSIILQML................QA.VVPSLHELARE.GEVGQTKITQYSRYLTLALAILNSVGYLFLFKSFGISFNGAGA...............PEIIFDLMIVG..TLTAGAMLIMWIGELITQ.RGI.G.NGMSLIIFANIM.AGLPQA................................IF...SSTE........................GNAGGIIT.........M........VIICAIILLV.IPLIVFLERGQRRIPVSYAKR...VVGR.....RMM..GGQ..TTY.LPIKVNTAGVVPIIFASAL..LYFPA...QIAVFF.....PGIG..............................................WIQA.VASAL.......................................STGWLN.WVLNVVLIVFFAYFYT.SMVFNPDDTADNLKKQGGFIPGVRPG.RATAAYIKNALNKITLPSAV.FLALIAIVP..SIIFSFT........................GN.........HLIQAFGG.TSIL....IMVG....VVLD...TVD
+Q2GEC0_NEOSM/73-411              TLFALNVMPYIVSSIVVQIF................FS.MLKSEGKVSAE..FMNESRLSFYSKLVALFLAFFQGFIIVAGLERTKAFVGGNEE...............FYSLLKYTSVL..TLVCGTFSLIWLGQQINS.RGI.G.NGMSLIIFAGIV.AEMPAI................................FG...NLFSGIG.....................SPGSGILG.........I........FVSLSLLVFV.VFLVVLVERASKNIPVHYPRR......RT..WGSTH..GDA..ASN.IPVKINVSGVIPPIFANAL..ILFPL...TLANFS.....AE................................S...............HLGEFIIRYF......................................SVGQPLY.FLLHSCLLVFFCFFYS.DFVFNTTEISDSLKKGEAIVAGRRPG.ISTKRHLDYVLRRITVVGAA.YLVCICVVP..EIFRNYF........................GF..........DAI.ISG.TSLL....IIVN....VITD...LLS
+Q3YRM8_EHRCJ/72-412              TVFALNVMPYIVSSIIIQLL................SV.TVPRLNELRQN.GELGRMKINNYIRYMTIFFCIVQGSVILLGLEKMNS.....ENSIVV.......IDPGLLFR..IVGIS..SLLGGTMFLLWLGERINK.NGI.G.NGVSMIIFTGIV.AELPGS................................FS...SMFLL....................GKNG.NVPIFV.........I........LLMVLIFFAL.LLLIIFVEKSYRKILVQYPKR...QVKN.....KLY..GSS..STY.IPLKINISGVIPPIFANAL..LLSPI...TVANFH.....QGS...............................P...............WSDF.ILMYF......................................SSGKLLY.IVCYALLIIFFAFFYT.AFVFDAKETSEILKKNGGFVPGKRPG.NATCEYFNYVIKRLTVLGSI.YLTVICIIP..ELIRYNY........................SV..........SFT.LGG.TSFL....IIVN....VIID...TFS
+Q5GSW3_WOLTR/77-416              TILVLNVMPYIVASIVMQLL................SS.AVKGINEVKND.GELGRRRMNSYIRYMTIVFCIFQSVTILIGLERM.......NREGTLV.....VIEPGVMFR..TVGIF..SLLGGTMFLIWLGEQISA.SGI.G.NGISLIIFTGII.SELHNA................................FS...FLLT..L..................NKNG.SMSLLI.........I........LFVFVLFFLL.LLLIIFVESSYRKVTVQYPKK...QFK......RLH..SDD..FTY.IPLKINLSGVIPTIFANAI..LLTPV...SIANFY.....KGH...............................A...............FSDF.ILNYF......................................MANKVVY.IAAYLALIVFFNFFYT.NFIFNPEENADFLKKNGGFIPGRRPG.KHTSDYLQDIVFKLTFIGSA.YLVVICTVP..EVMRYYY........................DM..........PFI.FGG.TSLL....IIVN....VTTD...TIM
+Q0ANS0_MARMM/83-421              AIFVLNVMPYISASIIMQLM................SA.TIPSLEKLKKEGGEQGRQQINQYTRYLTVLLATGQAFAIAIGMNTPNS...EGVALAL.........NPGPFFL..ASTVI..TLVGATMLLLWLGEQITA.RGV.G.NGVSLIIFAGII.SAVPGV................................IG...GALSQ.A..................SS.T.GDGTVL.........V........VGGVLILVG..LLLVVFVERSQRRLLVQYPKR...QQGN.....RMV..GGD..TSF.LPLKLNTAGVIPPIFASSL..LLLPA...TAASFQ.....AQSGP.............................G...............WLQS.AVAIL......................................GPGSPWF.MMAYAAMIIFFCFFYT.SVVSNPDDMAENLRKYGGFLPGIRPG.KRTAEYIDFVMSRLTFIGAL.YLVLICMVP..MMM............................NP..........NTA.LGG.TSLL....IVVS....VTMD...TVS
+A7IPQ0_XANP2/80-418              AIFALNIMPYISASIIIQLL................TS.VSPTLEALKKE.GEAGRKQLNQYTRYLTVVLAVFQAYGIAVGLEG.......SGSVVA.........DPGWFFR..ITTVI..TLTGGTMFLMWLGEQITS.RGI.G.NGTSLIIFGGIV.AELPGA................................FV...RTLQL.G..................RE.G.AISTPL.........I........LAALVLAVVV.IAFIVFMERAQRRLLIQYPKR...QVGN.....RIY..EGQ..SSH.LPLKLNTSGVIPPIFASSL..LLIPT...TIASFL.....QGSGP.............................E...............WLQT.ITTHI......................................GHGRPAY.MVLYVLLIVFFCFFYT.AIVFNPVETADNLKKHGGFIPGIRPG.ERTAEYIDYVLTRITVVGAA.YIAAVCLFP..ELLISYA........................SL..........PFY.FGG.TSLL....IVVS....VTMD...TVS
+SECY_RICCN/70-411                SIFALAIMPYITASIIIQLM................SV.AYKPLENLKKE.GEVGKRKVNQLSRYLTVLLASFQAYGVAISLESIVT...NTGPVVI.........LAGFFFR..ITTVI..TLVVGTMLLMWLGEQITQ.RGI.G.NGTSLIIFIGII.SGVPSA................................II...SMFEL.S..................RK.G.ALS.PL.........I........AIAVCIGVVVLIAIIIFFERAQRKLLVQYPKR...QVGN.....KIY..GGE..ATH.MPLKLNTSGVIPPIFASSI..LLFPA...TLANF......SNSNS.............................E...............TMGM.LTYYL......................................GHGKPVY.ILLYVALIMFFSFFYT.AIVFNSEETANNLRKYGAYIPGKRPG.KNTSDYFDYILTRLTVIGGI.YLSVICVIP..ELLMNKY........................VI..........SLS.LGG.TSFL....IVVN....VVLD...TMT
+Q2G8W0_NOVAD/80-430              SLIALGVMPYITASIVVQLA................AS.LHPALAAMKKE.GESGRKKLNQYTRYGAVLLTAIQGWVLASGLEAYGA..SSGLQAVV.........NPGLLFR..VGAVI..SLIGGTMFLLWLGEQITS.RGI.G.NGVSLIIMAGIV.AQMPKF................................FG...NLFEG.G..................RT.G.SISPFL.........I........FGIVIMLIAL.VIGICFLERATRRLLIQYPKR...ATQR.....GMM..AAD..RSH.LPLKINTAGVIPPIFASSL..LLLPL...TITQFA.....GNSISPDT.......................KMGQ...............AIVT.LNQYL......................................GHGKPLY.MLFYALGIIFFSFFYT.AVVFNPEETAENLKKNGGFIPGIRPG.KNTANYLDYVLTRITVLGAA.YITVVCVVP..EFIMAET........................GM.........GTLF.FGG.TSLL....IVVN....VTVD...TIT
+A6E0Q6_9RHOB/73-411              GIFALGIMPYISASIIVQLM................TA.MVPALEQLKKE.GEQGRKKINQYTRYGTVALATLQSYGLAVSLQSGD......MVSN...........PGMFFI..ASCMI..TLIGGTMFLMWLGEQITA.RGV.G.NGISLIIFVGII.AEVPAA................................LA...QFFAS.G..................RS.G.AVSPAV.........I........VGVMLMVVAV.IAFVVFMERSLRKIHIQYPRR...QVGM.....KIY..DGG..SSH.LPVKVNPAGVIPAIFASSL..LLLPA...TITTFS.....GNTTN.............................P...............VLST.VMAYF......................................GPGQPLY.LLFFTIMIVFFAYFYTFNVAFKTDDVAENLKNQNGFIPGIRPG.KRTAEYLDFVVNRVLVIGSA.YLAAVCLLP..EILRNQF........................AI..........PFY.FGG.TSVL....IVVS....VTMD...TIQ
+Q1UZE8_9RICK/67-404              AIFALGIMPYISSSIIVQLL................TG.VSDYFKNLKAQ.GETGRAKITQITRYGTVILATIQGYGLSIGLQSSAD.....LVIN...........PGLFFT..ITAVS..TIVAGTMFLMWLGEQITQ.RGI.G.NGISLIIFAGIV.AEIPRA................................LV...TTFEL.G..................RT.G.AVSTIM.........I........IGIFVLLVAT.IMFIVFMERALRKILINYPKR...QMGN.....KMY..GGE..SSH.LPLKINQAGVIPAIFASAL..LLLPV...TFSNFS.....FSDND.............................T...............FLN..LSSYF......................................TQGQPLY.MLLYASGIIFFTFFYT.SITFNPTETADNLRKYGGFVPGIRPG.ENTALYIEKIVTKLTTIGAL.YLTIVCLMP..EFLIANY........................PI..........PFY.LGG.TSIL....IVVV....VAID...TVT
+Q3R245_XYLFA/76-424              SIFALNVMPYISASIVVQLA................TH.IFPSLKAMQKE.GESGRRKITQYSRIGAVILAVIQGGSIALALQNQTA..PGGAAVVY.........APGAAFV..MTAIV..ALTAGTVFLMWVGEQVTE.RGI.G.NGVSMIIFAGIV.AGLPGS................................VL...QTIDA.F..................RS.D.ALSLIS.........L........LIIVFIVLSF.TFFVVFVERGLRRIAVNYARR...VEGR.....NSY..MNK..SSF.LPLKLNMAGVIPPIFASSI..LAFPV...TLSIWS.....GQASSNTL........................FGA...............WLQR.VSSAL......................................GPGEPLH.MILFAVLIIGFAFFYT.ALVFSSQETADILKKSGALIPGIRPG.KATSDYVDGVLTRLTAVGSL.YLVIVCLLP..EFMQSRI........................GA..........SFH.FGG.TSLL....IAVV....VVMD...FIS
+A4NK90_HAEIN/76-416              SILALGIMPYISASIVIQLL................AT.VSPALAELKKE.GAAGQRKISKYTRYATVVFATIQAVAISTGLPNM.....LSGLVP..........NVGFSFY..FTSVV..SLVTGTMFLMWLGEQITE.RGI.G.NGISILVFGGIV.AGLPSA................................IL...QTIEQ.A..................RQ.G.QMHPLV.........L........LLIAAIVFAV.TYFVVFVERGQRRIRVEYAKR...QQGR.....QIL..GGH..STH.LPLKVNMANVMPAIFASSI..ILFPA...TLTQWF.....GQNDKF............................E...............WLNN.LSMLL......................................NPGQPLY.LLVYAVAIIFFSFFYT.AMQYNPRDTADNLKKSGAFIPGIRPG.EQTSRYIDKVMTRLTLIGGL.YVTFVCLVP..YIMTSAW........................DV..........KFY.FGG.TSLL....IVVV....VIMD...FIV
+Q057C4_BUCCC/64-407              SIFALGVMPYISSSIIVQLL................TL.ISSYLRNLKKE.GDIGKKTINQYTKYITFFLSIIQSIGVVISLPFLPGMKNIIVF...............ADCYFYIIAVV..SLVTGTIFLMWLGELITT.KGV.G.NGVSLIIFSGII.SGLPAS................................VI...RTYKLIK.....................IKNFSFLY.........V........FFLLLIIFFV.IFIVVFIEKSQRKIIVCYARR...QQGR.....RMY..TAH..HSY.LPLKLNMAGVIPVIFSSSL..IVFPS...ILLTYL.......................................R...............YVFNDYKKIIYFFDFL................................KFKHSIY.LIVNIILIIFFCFFYT.NIIFNVQDTANNLKKSGAFLPGIRPG.LKTAEYIKNIVFKLTTIGSI.YTVFICLIP..DIVRYFF........................KV..........PFN.FGG.TSLL....IVVV....VLIE...FIT
+Q8D1Z2_WIGBR/82-424              SIFSLGIMPHISASIIIQLL................TI.IHPKLSEIKKD.GEFGRRKINKYTRYGTLFLAIIQSISISISLPNMPG...MQELII..........NKGIEFY..ITTIT..SLVTGTIFLMWLGEQITS.RGI.G.NGISILIFSGII.AGLPIE................................VI...KSIEQ.A..................RQ.G.NLNIIT.........V........LISIILVFVI.TYFVVFIERGQRRVIVNYAMR...QKGR.....KIY..AAQ..ITH.LPLKVNMSGVIPAIFASSL..ILFPA...TIASWF.....GEGIGV............................K...............WMSK.IPYYL......................................EPGTFSY.SILYASAIMFFCFFYT.SLVFNSKDTADNLKKSGAFISGIRPG.IKTSQYINKIMMNLTLIGAT.YIALICLMP..DFFRVFI........................KS..........PFH.FGG.TSLL....IVVV....VTID...FMT
+Q6F7T2_ACIAD/83-426              SILALGIMPYISASIIVQLM................ST.VVPSLEALKKE.GEQGKRKINQYTRYGTLLLALVQGVGMCAGLIS.......QGITL..........TSGLAFY..IPAVT..SLVAGTMFLMWLGEQITE.RGI.G.NGISMIIFAGIV.AGLPNQ................................VI...QAFTS.V..................QN.G.QGSLIG.........I........VVFALLSLAV.LAAIVFIEKAQRRIPVNYAQK...QQGR.....RIF..TAQ..QTH.LPLKINMAGVIPAIFASSL..LLFPA...SLGQWL.....GSADPNAG.......................IVKR...............SLQD.LALVL......................................SPGQPLY.LMLFGTLIIFFCYFYT.ALVFSPKEVSENLKRSGAYVPGIRPG.EQTARYLDHILNRLTFIGAI.YITVVCLMP..MILQNSF........................GI..........PFH.LGG.TSLL....IVVV....VVMD...FMA
+Q6Q8W8_9GAMM/67-407              SIFALNVVPYISSAIIMQLF................SN.SIPYLQELKKD.GQAGRNKITQYTRYGTAILAFIQASALAVTLSA.......SGLAY..........VPGPTFF..VSAVF..SVVAGTMFLMWLGEQVSD.RGI.G.NGISIIIATSIL.TGIPGA................................IG...QALEQ.S..................RQ.G.DLSILL.........L........IGIGLLSMAV.IAVVVFIERGQRRITVNYAQR...QQGR.....RMM..QAQ..QSH.LPFKVNMAGVIPAIFASTF..LLFPA...SLSTWF.....GENESL............................S...............FLQS.FSLAL......................................NPGQPLY.ILVFAGLIISFCFIWL.ALTFNTKDVSDNLKRSGAYIAGIRPG.EQTANYIDNVLARLTVFGAI.YLTLICLLP..LALINFAG......................ISP..........TIS.IGG.TSVL....IIVV....VLMD...FMS
+A9BRX1_DELAS/74-413              TVFALGIMPYISASIIMQLM................TY.VVPTFEQLKKE.GESGRRKITQYTRYGTLGLAIFQSLGIAVALESSAG.....LVLS...........PGFGFR..LTAVV..SLTAGTMFLMWLGEQITE.RGL.G.NGISILIFGGIA.AGLPSS................................IG...GLLEL.V..................RT.G.AMSILA.........A........IFIVLVVAAV.TYFVVFVERGQRKILVNYARR...QVGN.....KVY..GGQ..SSH.LPLKLNMAGVIPPIFASSI..ILLPA...TVVNWF.....SAGESM............................R...............WLKD.IASTL......................................TPGQPIY.VMLYATAIIFFCFFYT.ALVFNSRETADNLKKSGAFIPGIRPG.DQTARYIDKILVRLTLAGAV.YITFVCLLP..EFLILKY........................NV..........PFY.FGG.TSLL....IIVV....VTMD...FMA
+Q7DDS8_NEIMB/73-410              SIFAIGIMPYISASIIVQLA................SE.ILPSLKALKKE.GEAGRKVITKYTRYGTVLLAILQSLGVASFVFQ.......QGIVV..........TSSFEFH..VSTVV..SLVTGTMFLMWLGEQITE.RGI.G.NGISLIITAGIA.SGIPSG................................IA...KLVTL.T..................NQ.G.SMSMLT.........A........LFIVFGALLL.IYLVVYFESAQRKIPIHYAKR...QFNG.....RA...GSQ..NTH.MPFKLNMAGVIPPIFASSI..ILFPS...TLLGWF.....GSADTN............................S...............VLHK.IAGLL......................................QHGQLLY.MALFAATVIFFCYFYT.ALVFSPKEMAENLKKSGAFVPGIRPG.EQTSRYLEKVVLRLTLFGAL.YITTICLIP..EFLTTVL........................NV..........PFY.LGG.TSLL....ILVV....VTMD...FST
+Q5NHU8_FRATT/74-416              SIFALGVMPYISASIIFQML................SA.VYPKFIELKKE.GESGQKKITQYTRYLTLALAIVQSFGIVAFVLHQ......DGLVTT.........NNMALFY..LTTIV..SVTTGSMFLMWLGEQITE.RGV.G.NGISLLIFSGIV.ANLPFE................................IS...NTLSQ.A..................NQ.H.VISYLS.........V........WVLLILLLLV.IAFVVFMESAQRKITVNYAKR...QQGR.....KMF..AAQ..TSH.LPLKLNMAGVIPAIFASSI..LMVPG...VLLGWL.....SNYNSL............................S...............WLAD.VAEML......................................QPGSIVY.TVVFAATIIFFCFFYT.SLVLNPKETADNLKKSGAYISGVRPG.EQTAKYIDAVMTRLTLVGSL.YITAICLLP..IFVVKFFA......................QGL..........SFT.FGG.TSLL....IVVV....VMMD...FMA
+Q7WZR8_9GAMM/64-388              SIFSIGLMPYISASIIMQVI................TG.MFLDVE........VSKHKLTSYLRYLTFMLSVIHSLVVSILFLEKSV.....VYY............KKSVVY..LTIIL..TFVTGAIFLMWLGEQITD.KGI.G.NGISLIILSGLV.SVIPNA................................LG...RTLFLTI..................KD.S.SWMYIQ.........I........FKVVSLVLIT.IILVVVIESGQIRIKVSYPRR...LIGK.....KLY..ATQ..SSY.LPLKLNMAGVIPAIFASSS..LIITA...SVG..........................................Q...............WINRSILPQL......................................SPGQPLY.IMFFVLSVIFYSFFYT.AIVLNAKEVSINFKKSGAFIHGMRPG.KQTAGFISKVSSRLNWFGAI.YIVFFSLIP..QLIMVYC........................KI..........PFC.GGG.ISIL....IMVV....VVLD...FLS
+A5EX98_DICNV/69-412              SLLALGVAPYISASIVMQLL................TH.MLPALKDLRQE.GSAGQKKITQYTRYFTLFLAIMQGFAISRTVMAAGMTISAGS.................GFL..LTATI..GLTAGALFMMWLGEQITE.RGI.G.NGISMLIFGGIA.VNMPSG................................IL...GLFNQAK.....................IGEIGYGR.........F........FLLLGIIVSL.FALIVYVERAQRRIKIHYAKR............QQFGTSAMGERFY.LPLKINMAGVIPAIFASAI..ITLLVSGLTLASSL.....PGAAG.............................R...............YLSDLAAGFH.......................................QGAWLY.IATFVLLIILFSFFYT.SIMFENRELADSLKKSSAFIQGFRPG.RQTADYIDTVQERLTFVGAF.YVAFVCVLP..SLVNMGS........................ASG........QVLFLFGG.TSLL....IAVV....VAMD...LMS
+Q6MJ32_BDEBA/70-415              SIFALGIMPYISSSIIFQLL................TS.AIPYLEALKKE.GEQGRRKINQYTRYATVALAIIQGYGISTWLMNSTS..PDGHPLVIA......PTVAFLPFQ..IMTII..TLTAGTCFIMWLGEQITE.RGI.G.NGTSLIIFTGIA.AAIPGG................................AQ...QLWEL.V..................RT.G.EMRFAL.........V........LLLVAFMVAI.IAAVIYMEVAQRRITVQYSQR...QGGG.....GMQ..SMQTPTSH.LPIKLNISGVIPPIFASSL..LMFPA...TMAQFV.....NT................................P...............WLKA.LQDSL......................................NPSGAIF.NIMFVALIVFFSFFYT.EIVFNPNDVAENLKKYGGFVPGVRAG.KSTADYIQRVLERVNVVGCI.YLCTICILP..GIMVSQF........................NV..........PFQ.FGG.TSLL....ILVG....VALD...TAQ
+B5EFS0_GEOBB/71-411              TVFALGIMPYISSSIIFQLL................TV.VLPAVEKLSKE.GDAGRKKIIQYTRYGTIVLAVVQAFGISIGLEAMRG..PAGELVVP.........NPGWGFR..LMTVI..TLTAGTAFIMWLGEQMSE.KGI.G.NGISLIIFAGIV.ARIPTA................................IG...NSFRL.I..................KT.G.ELSLFV.........L........LLIAAVMFAV.IAAVVFMERGQRRIPIHYAKR...VVGL.....KTV..GAQ..SSH.LPLKVNMAGVIPPIFASSI..IMFPA...TVGNFI.....DV................................P...............WVQA.ASKQL......................................APGKLLY.EVLFVAFIVFFCYFYT.AVTFNPVDVADNVKKQGGYVPGIRPG.KETSDFLDAVLTKLTFAGAI.YISAVCVLP..SILIGKF........................NL..........PFY.FGG.TSLL....IAVG....VGMD...TLS
+A3EVQ1_9BACT/75-412              TIFALGIMPYISASIILQLL................TV.VHPTLQAMAKE.GERGRKIITRYTRYLTVLIALVQSFGIALGLEGMNNGQ...FVPH...........PGWSFR..FIVVI..TLTAATTFVMWIGEQITE.RGV.G.NGISLIIFSGII.ARLPAA................................II...NTYKL....................YNQG.EISGFL.........I........LALVVMVFLI.VSSIVFIETARRKIPIQYAKR...LVGN.....KMM..GGQ..STH.IPFKINTAGVIPPIFASSL..ISFPA...IIAGFV.....SV................................P...............WIQS.FGKSL......................................SPGSFSY.TGLYVLLIVFFCFFYT.AVVLNPTDIAENMQKYGGYIPGVRPG.QKTVEYLYRVMNRITFVGAL.YLSIVCVIP..ELLIYQL........................HV..........PFY.FGG.TSLL....IVIG....VSLD...TAQ
+Q1MPP6_LAWIP/71-412              SVFALGIMPYISASIIMQLL................QV.IIPDFKRMAKEEGAAGRYKITQYTRYGTVIITLIQGIGIAIGLESMYS..PTNIPIVL.........EPGWVFR..IVTVL..TLTAGTVLIMWLGEQISE.KGI.G.NGISLIIFSGIV.VGIPGA................................IV...KTYQL.I..................IL.G.DMNILI.........A........LVLMLFMFAV.LTGVVFMERAQRRIPIQYAKR...QLGR.....KVY..GGQ..STH.LPLRVNTAGVIPPIFASSL..LLFPA...TMASFD.....IS................................D...............WLKD.IAVWF......................................SPSTILY.NCIFLVLIFFFCYFYT.AIIFDSKDISENLKKAGGFIPGIRPG.EKTCEYLDGVLSRLTLWGGV.YISIISILP..MMLISQF........................NV..........PFY.FGG.TSIL....ILVG....VAMD...FMS
+SECY_AQUAE/71-412                TVFALGVMPYISASIMMQLL................TV.AIPSLQRLAKEEGDYGRYKINEYTKYLTLFVATVQSLGIAFWIRGQVS..PKGIPVVE.........NPGISFI..LITVL..TLVAGTMFLVWIADRITE.KGI.G.NGASLIIFAGIV.ANFPNA................................VI...QFYEK.V..................KT.G.DIGPLT.........L........LLIIALIIAI.IVGIVYVQEAERRIPIQYPGR...QVGR.....QLY..AGR..KTY.LPIKINPAGVIPIIFAQAL..LLIPS...TLLNFV.....QN................................P...............FIKV.IADMF......................................QPGAIFY.NFLYVTFIVFFTYFYT.AVLINPVELAENLHKAGAFIPGVRPG.QDTVKYLERIINRLIFFGAL.FLSVIALIP..ILISVWF........................NI..........PFY.FGG.TTAL....IVVG....VALD...TFR
+#=GR SECY_AQUAE/71-412     SS    -SS----HHHHHHHHHHHHH................HH.HSS-SSS-S--------HHHHHHHHHHHHHHHHHHH---HHHH----S..------SS.........----THH..HHHHH..HHH---HHHHHHHHHHHH.---.-.---HHHHH---T.TTTTTT................................SS...----S.S..................--.-.----HH.........H........HHHHHHHHHH.H-----S--------------...----.....---..---..---.-----------HHHHHHHH..HHHHH...HHHHS-.....SS................................-...............---T.TTTSS......................................----HHH.HHHHHHHHHHHHHHHH.T-TTHHHHHHHT--------------.-HHHHHHHHHHHHHHH---H.HHHHHHHHH..HHHTTSS........................--..........S--.---.-HHH....HH--....-HHH...HHH
+Q01WB2_SOLUE/74-438              TVFALGIMPYITASIILQLL................TV.VVPTLEKLQKE.GELGRRKITQWTRYLTIILSILQSFGISQGLMGM......QQGIVI.........NPGIGFV..FLTIL..SLTTGTAFIMWLGEQISE.RGV.G.NGMSLIIFTGIV.VGLPNA................................IA...NIYQH.V..................FTIH.DWGAIT.........L........IVLMALMVAV.VAFIVLVERGERRIPVQYAKR...VVGR.....RVM..GGQ..STH.MPLKVNAGGVIPVIFASSI..LAFPQ...TLAQFG.....WVKNL.............................P...............WLSK.TLATI......................................QHGEPMY.YVLFVAGIIFFCFFYV.SIIFNPNEAADNMRKYGGFIPGIRPG.RNTADYMNNILTKITVVGGI.YLAILCLIP..DIMISGIKLHHLWLVGDWIDRVAPRFILEGLGV..........NFY.FGG.TSLL....IVVG....VAMD...TIN
+Q08ZH8_STIAU/26-370              SIFGLGIMPYVSASIIMQLL................AV.VVPSLERLQKE.GASGRQKINQYTRYGSIVLSVVQGIGISRWLASLGR..SDAGQSGFNQI...VVPDDSAWFT..FMTVI..SLTAGTAFIMWLGERITE.RGI.G.NGISLIIFAGIV.AGLLPN................................GK...TLLDM.T..................AQ.G.AIEAAA.........L........VGLAVFMLFI.IAVVVYVERGMRRIPVQYAKR...MAGR.....RMF..AGQ..ATY.FPMKVNTSGVIPPIFAGAL..LSFPA...TLGTWF.......................................P...............FLQT.FRQGL......................................EGNPWLY.NGLFVLLVIFFAYFYT.ALTFRPDDVADNIKKQGGYIPGIRPG.RQTADFIERVLNRITFGGAI.YLATICVIP..TILTQWL........................QV..........PFA.FGG.TALL....IVVG....VALD...TVQ
+A6GCG0_9DELT/70-411              SVFALGIMPYISASIIMQLM................TV.VIPKLEQLQKE.GETGRRKINQYSRYGTVGLALVQGYFMASWLEGQNT.....PGQTLV.......LETGLPFK..LMTML..SLTAGTCFLMWLGEQITE.RGI.G.NGISLIIFAGII.ADMPTA................................SY...QLAQKAI..................DDPE.NFGPLP.........L........AMLLVVVLVV.IAFVVIMERGQRRIPVIYAKR...VVGK.....RMF..GGS..QNY.LPLRINNAGVIPPIFASSI..IMFPA...QIAGMT.....GN................................P...............YLQR.FAAAF......................................SYGNWLY.LTVYVALCIFFCYFYT.QIQFNPVDLADNLKKQNASIPGVRPG.KRTAEHIEAILGRLTFAGSW.YISAVCVLP..VFLQTEF........................NV..........PFY.YGG.TSLL....IVVG....VALD...TAQ
+Q04PV8_LEPBJ/72-436              SIFALGIMPYISSSIVMQLF................MV.LVPSLQKLQKE.GEEGRKKIGQYTKYGTVILCAIQSLAVIQLAKGWST..GTELEPARYPG..LINSSVVPYFY..LIGIL..SITTGTVLLIWLGEQITE.RGI.G.NGISLLIFAGII.GRLPES................................MV...QLFST.......................D.TMDALN.........V........LILLILLILL.ISLTVLLTQGVRKVPLQYGKQ...MVGR.....KMV..QAK..SQS.IPFKVNGANVMPIIFASSL..ILFPQ...TIIQWL.....SSSSE.............................Q...............WAGWAIIMDFFN.PFSQ..............................IWYHALFY.YIIYTSLIIFFAYFYT.AIQFNPAELAENLKKYGGFIPGIRPG.SHTKEYIEKVLNRITLPGAM.FLAGLALAP..YIIIKFL........................DLSSNS..GGGSLVYTFGG.TSLL....IMVG....VALE...TLK
+SECY_BORBU/72-409                SIFMLSIGPYISASIIVQLL................VY.SFPSLKKMQE..GDGGRQKTKKYTKYLTIVAAVVQGYATSLYAKGIPG.....AVTI...........PFYRYI..FVAIL..TVTTGTFILLWFGEQINQ.RGV.G.NGTSLIIFSGIV.VRLQAA................................LF...NLFQS.M..................QDPSQNVNPVF.........V........ILIISIFILV.VILIIYEYKAQMRIAIHYARA............NSN..NTV..SSY.LPIKLNPSGVLPVIFASVL..ITLPL...QILSGF.....AETS..............................S...............IARQ.ILSYL......................................RPNGFYY.TFLNVILIIGFTYFYS.KIQLSPKDISNNIRKNGGTIPGIKSD.E.MEKYLDEIMNKTLFSGSI.FLSIIAIIP..FLVQNIF........................RFPH......DVSRI.MGG.SSLL....IMVG....VALD...TLI
+Q73PL2_TREDE/73-413              SVFMLGVMPYISTQILMQLA................MI.IFPRLKKIAEE..DGGRKKIQVWTRIVTVFVALLQSSAVGTWARAIPGAVVISS.................PVLHLFITMV..TVTTGTMITVWMGEQITA.RGI.G.NGISMLIFAGIV.ARLPQA................................VW...ELIKLVS.....................NNELNLVF.........V........IIAFAMFVGI.IALVVYEQQGQRKIPVHYAKR...VIGR.....KMY..GGQ..NTY.IPFKINPSGVIPIIFASSF..LTFPL...MLSQMW.....GSNVS.............................................WLAS.VARFL......................................RSDGWGY.NVLYVVLIIFFAYFYT.QVALNPTEIAKQIRENGGSIPGIRT..DKTEEYLQKILNRLILPGSL.YLAAIAVLP..TVIQWAF........................SFPR......NISML.MGG.TSLL....ILVG....VDLD...TMS
+Q67JW3_SYMTH/69-405              AIVAMGVTPYINSSIIMQLL................TV.VIPRLEELQKE.GEEGRKKIQQYTRYGAVVLGLVQAFGIGYALRSYGAFYSNS...................WTTLFVIMV..SLTAGTALVMWIGEEITE.KGI.G.NGISLIIFANIV.SRLPYS................................IY...NEILL....................LRAG.QRNIFQ.........P........LLVAVVALLM.VVFVVIINEAVRKIPVEYAKR...VVGR.....RVV..GGQ..RTH.LPIRINQAGVIPLIFASSL..MYFPI...TIAGFF.....PNS...............................D...............FAVF.VGRYL......................................DTRSWWF.MLINALLIVFFTYFYT.AITFNPENVADNIKKNGGFIPGYRPG.RPTAEYLERVSSRLTLVGGL.FLAAVTILP..ITIMSLA........................GV.........QNAY.IGG.SSLL....IVVS....VALE...TTK
+A7FQ38_CLOB1/69-409              SIFAMGVVPYINSSIIMQLL................TI.ALPSLESLSKE.GEEGRKKIQQYTRYGAVILAVIQAFSTYAIIARAGALRDGS...................KLNLFIIII..TVTTASTFLMWFGDKITE.KGI.G.NGISLIIFVNIV.SRFPST................................IY...SIVGL....................QKAE.TVNFVE.........V........IVFIVIALAL.FLLVVIMNLGERRIPVQYAGR...AVGN.....KIY..KGQ..STH.IPINVNSSAVIGIIFAISV..MQFPI...TIGQFW.....PESAFY............................K...............FITLNQYSPF......................................RDKSIAY.IVLYFLLTVFFTWFYT.VVTFKPDEMAENMHKSSGFIPGIRPG.EPTAEYIERVITKSSIIGGT.FAAIIAVFP..IIMAAYS........................KF.........QGIS.FGG.TSML....IMVG....FALD...TIR
+A6LPT1_CLOB8/69-416              SILALGVMPYINASIIIQLL................TV.AIPQLEQLSKE.GDTGRKKIQNATRYVSLGIAFILAYGIFATISSSGATVGLT...................AIQKTIVVF..ALVVGTTFCMWLGDQLTV.KGI.G.NGTSILIFVNII.SRVPAT................................IA...SMMTL....................QQAG.SASIVE.........I........VLFGVFTVFL.LATILYFSLSERRIPVQYAGK..FASGN....SNMV..KSQ..STH.IPLSIIGSAVLAIIFSMSV..MDFPK...TIATLFGGVGESQKEWA............................K...............WVLNNPTSIF......................................NNKSWMY.MVLYAVLTIFFNWFYT.QITFKPDEMSENLHKSAGFVPGVRPG.EETTTYFERVLNRLSFIGGI.LAAVLAVTP..VMIQNYT........................QF.........QNIA.FSG.TGLL....IVIN....VALD...FTR
+Q0SQG4_CLOPS/69-409              SIFALGVVPYINASIIMQLL................TV.AIPKLEQLSKE.GDDGRKKIQKITRYASIVIGAITAYGSYVIIHNVGALKSNS...................PVSMFLILL..TLVVGSTFLMWLGDQITV.KGV.G.NGTSLIIFANIL.SSLPMT................................GY...QIYNL....................SKIG.KINVVE.........I........ALFIFFTLAL.LAGVIYLSLAERRITVQYAGK...AVGN.....KMM..KGQ..STH.IPLSIIGTTVIAIIFAMSV..MSFPT...TIAQFF.....PEAGWS............................Q...............WITGSSYSPF......................................NAKTWMY.PVLYALLTIFFTWFYT.QITFKPDEMAENMHKSSGFIPGIRPG.KPTEIYLEKVLNRISMFGGC.FAAIIAVVP..ILVANYT........................PF.........QGIQ.FGG.TSLL....ILVS....VSLE...IMR
+A9KJH4_CLOPH/71-425              SLFALGIGPYITSSIIMQLL................TI.AIPKLEEMQKD.GESGRKKIAEISRYVTIGLSIIESVAMVIGFSGSGALEGGL..................TFTNIVVITA..SFTAGSAILMWLGERITE.KGV.G.NGISVILLINIV.ANMPRD................................IY...GLIEKFV..................LGESVVKGVTA.........A........IIIVAVILLS.VVLIILLNAAQRKIAVQYAKK...VQGR.....KMV..GGQ..SSH.IPLKVNTAGVIPVIFAVSI..MQFPI...IIASFF.....GVQPARAY........................FWP...............KVLHMLNSQSWFNIKNG...............................EFKYTVG.VLIYMALIVFFAYFYT.SITFNPMEVANNMKKQGGFIPGIRPG.KPTTEYLTKVLNYIIFIGAI.GLMIVAIIP..IFFSGMF........................DA..........HVS.FSG.TSLI....IVVS....VVLE...TMK
+A7VH89_9CLOT/71-420              SIFALNVTPYITASIIIQLL................TI.AIPALEEMQKD.GEDGRKKITAITRFLTIGLAILESAGLAINFGRKGFMDSYN...................FWTVLTMIV..ILTGGSAFVMWLGERVTD.RGV.G.NGISIILLINIV.STMPND................................FK...NIYTQFI..................KDKDPVRMCLI.........A........LLVVAIVVCV.TILVCMLQGAERKIPVQYAKK...VQGR.....KQM..GGQ..SSN.IPLKVNTAGVIPVIFASSL..MAIPS...IITSLF.....GK.SPSGV........................GAK...............ILQG.MSQSYWF.NA.N...............................YPWGFLG.LAVYILLVFFFAYFYT.AITFNPMEIANNMKKSGGFVPGIRPG.KPTQDYLNKILNYIIFIGAV.GLLIVAMIP..MFFNGFF........................SV..........NVS.FGG.TSII....IVVG....VVIE...TMK
+A6BIS2_9FIRM/71-421              SVFALSITPYITSSIIVQLL................TI.AIPQLEEMQRD.GETGRKKIVAITRYLTVGLALIESGAMAVGFGRQGLLVKYN...................FVNAAIVVL..TLTAGSAFLMWIGERITE.KGV.G.NGISIVLVINII.SRIPSD................................MK...TLFDQFV..................KGKAIASACLA.........V........CVIIAIILAL.VVFTVILQDGERRIAVQYSQK...IVGR.....RSY..GGQ..STN.IPLKVNTAGVIPIIFSSSL..MQFPI...VIASFL.....GKDNGSGI........................GSE...............ILRG.LNQSNWCNPEQI..............................KYSW...G.LVLYIVLTVFFAYFYT.SITFNPLEIANNMKKSGGFIPGIRPG.RPTVEYLTKILNYIIFVGAC.GLILVQIVP..ILFNGWL........................GA..........KVS.FGG.TSLI....IIVS....VILE...TLK
+A7VR33_9CLOT/71-423              TLFAMSVTPYINSSIIMQLL................TV.AIPPLERMAKE.GEEGRKKIGAITRYVAVVLGLVQGLAYYLYLRGSSY.....EGTPIVTY...TEGAAGVFTA..IVIVL..VFTAGTAMMMWLGEQINQ.KGI.G.NGISILLFAGIV.ARLPDTVN............................ILVQ...ALQAAWQ..................APDSFGQYYFF.........V........PLFVIIFLAI.IWVIVFMNDAERRIPVQYAKR...VVGR.....KMY..GGQ..STH.LPIKVNMSGVMPIIFASSI..LTIPS...TIQLFV.....TPT...............................G...............FWKT.VLDAL......................................STTGWVY.ALIYFLLILMFAYFYV.AIQYNPIEMANNLRQNNGTIPGIRPG.KPTSDYIQKILSKITLIGAL.FLAVIALLP..IAFSAFT........................GM.........HNLM.MGG.TSVI....ILVG....VALD...TMK
+A6NXF0_9BACE/71-437              TVFALGVQPYINSSIIIQLL................TV.AIPALERLQKEGGEEGRKKIAAITRYTTVAIALLQGFGYFTLINANGLVGSDLP.................TWLAGIIIVL..TFTAGSAFVMWLGEQITE.FGI.G.NGISIILFAGIV.SRFPSM................................LM...NMVQGVQRWSMHLSDEEISAMSNGEAFRNSLVHPAM.........I........PLIIIGILAL.VVFIVFINDSERRIPVQYAKR...VVGR.....KMY..GGQ..SSH.IPLKVNMSGVMPIIFAQAI..ASLPA...TIAAFI.....P.................................G...............GMDSTFMKVF......................................DSNGLVY.AIVYFLLILGFSYFYA.TMQFNPIEVANNLKKNGGFVPGFRPG.KPTADFIYKVLNKITLFGAI.YLAVIALLP..IITSNII........................NLASGS..QMGRSLS.IGG.TSII....IVVG....VALE...TVK
+Q250L2_DESHY/70-413              SVFALSITPYITASIILQLL................TI.VIPSLERLAKE.GEFGRKKITQYTRYGTVILGFIQGFGMTFGLRGALIIPKPGM.................EWAIYLLVAL..ILTAGTAFLMWLGERITE.NGI.G.NGISLIIFAGIV.AGVPDA................................IK...RIAGL....................LSVG.EINVFS.........V........FGLIVIGLGI.IAGVVFIQEGQRRIQVQYAKR...VVGR.....RVY..GGQ..SSH.IPMKVNQAGVIPIIFAISL..LAFPS...TIATWM.....DPAS..............................A...............YVRF.VNTWF....VMN..............................GSLTSIPY.LIVYAVLIIFFTYFYT.AVSFNPVDVADNLKKYGGFIPGLRPG.RATSDYLSKILSRLTLAGGT.FLAMIAVLP..SLVIGLT........................GI.........PNIT.LGG.TSLL....IVVS....VALE...TMK
+Q8R7X3_THETN/69-402              TIFAMSIVPYINASIIMQLL................TI.AIPSLEQLAKE.GEEGRKKIAQYTRYLTVVLALIQAIGMTIGLRSAVINPT.....................FFRLTVIVI..TLTAGTTFLMWLGERITE.NGL.G.NGSSLIIFAGII.SRIPNM................................IY...LTHEY....................IKAG.TSNIFG.........A........IAFVVAELIM.IVLIILATEGQRRIPVQYAKR...VVGR.....RVY..GGQ..STH.IPIRINMAGVIPIIFAISL..LQFPQ...QLATFF.....PHS...............................S...............FYNF.VQKWL......................................STNGLIY.NLLDIFLIIGFTYFYT.AVIFNPQDISDNLKKYGGFIPGIRPG.KPTTEYLTKVLNRIVFVGAL.FLAFIATMP..VVLMNVT........................GL..........QLY.FGG.TALL....IAVG....VALD...TMK
+A4XLR1_CALS8/69-419              SIFAMSVTPYINSSIIMQLL................TI.AIPALEELAKQ.GEEGRKKLAEWTRYGTAILAFLQAVGIYFGLKNAQGLTGGVPVIT..........TQGQGFLGFITITL..ALTAGTVFLMWIGEQITE.NGI.G.NGISLLIFAGII.SRIPNG................................AV...SLWNYVA.................KLNEFSLTSIIG.........V........LLFLVMALAI.IVFIIVIQEGERRIPVQYAKR...IVGR.....RVY..GGQ..STH.IPIKVNIAGVIPIIFAISL..VMLPT...TIAQFF.....PNS...............................G...............FYKF.VKAYF......................................SSGSFWY.TFFYALFIIGFTYFYT.AIVFNPVEIANNLKNNGGFIPGIRPG.KPTVDFITRVLSKVTFAGAL.FLAFIAILP..TLVGLMFR......................HQL..........NIY.FGG.TSLL....IVVG....VALE...TIR
+A3DJJ2_CLOTH/71-411              TIFAMSITPYINASIIIQLL................TV.AIPKLEALAKE.GEEGRKAIAEYTRYGAVVLGFLQATAFYFGLAQAVNERN.....................VLSFITITL..TFTAGTAFLMWLGEQITE.YGI.G.NGISLLIFAGIV.SRGPRG................................ILYLWDLYRLER..................LGKG.ILGIFG.........V........LGVLLLFVVI.IASVVWVDQAERRIPVQYAKR...VVGR.....KMY..GGQ..STH.IPIKVNMAGVLPIIFATSF..VALPA...TIVGFF....FPNSTH.............................P....................VAEYF......R...............................SFQSRIEVAILTGLLIIFFTFFYT.FIQFNPVEVANNLKKNGGFIPGIRPG.KPTSDYIYKVVSRISWFSAL.FLAIIQILP..SLLQAIT........................GI.........RGIW.FAG.TSVL....ILVG....VALE...TVK
+A8MLG0_ALKOO/69-408              TIFALSISPYITSSIIMQLL................TI.AIPSLEALAKE.GEEGSKKIAQYQRYATIILALIQATGISVGLFRGALINQD....................TFSIIVVIL..TLTAGTAFLMWLGEQITE.KGI.G.NGISLLIFAGII.ASLPSS................................LF...TTFAL....................TKAG.QINPLA.........I........ILFIVIAIAM.IVAVVAIEAGTRKIPVQYAKR...VVGR.....KMY..GGQ..SSH.IPLKVNQSGVMPVIFAMSL..LQFPH...TIAYFI.....GSEG..............................G...............FAKF.LNTWL......SP............................TGMPGVFIY.NLLSAVLIIFFTYFYT.AITFNPVEISNNMKQNGGFIPGIRPG.KPTADYINKILTRITLSGAV.FLAIITIVP..TIVLGIT........................HI..........PIS.FGG.TTII....IIVG....VALE...TMK
+Q18CH6_CLOD6/69-406              SLFALGISPYITASIIIQLL................TV.GFESLAELQKS.GEEGKKKINKYTKYTALALAVVQALGITLGIVRSALISNS....................VFFITTVVI..TLVSASMLVMWIGDKITE.KGI.G.NGSSVIIFAGII.SRIPTD................................VI...KISQQ....................VKSG.EVAPWV.........I........VILAVVILLT.VTGVTFIQEATRKIPVQYAKR...VVGR.....KMY..GGQ..SSH.IPMKVNQSGVMPIIFASSL..LAFPQ...TIAMFM.....GPNAQ.............................A...............FVQKYLSMAT......................................EQGFWTY.RSIEILLIIFFSYFYT.TVSFNTEDISKNMKNNGGFIPGIRPG.EPTMDYLNRILTRLTLAGAT.FLAIIAMVP..ALTTHYM........................KV..........NMS.LAG.TSLL....IVVG....VALE...LKR
+B8D0S8_HALOH/72-406              TIFAMSITPYITASIILQLL................TG.VIPRLEELQKQ.GVEGRKKLTQYTRYGTVVLAIIQAFGITMLIGRHNVIVNPN...................LFNLMLIVI..SLTAGTAFLMWLGEQITD.KGI.G.NGISIIIFTSII.SRFPSY................................IH...RNWEL....................YKTG.DITALN.........I........LFFLVLAVVI.IAGVIFIQQGERRIPVQYSKR...VVGR.....KVY..GGR..STH.IPMRINQAGVIPVIFAQAV..LQFPT...VIAAVL.....PY................................G...............WAQD.IATAL......................................EPGKPVH.LVLYAAMIFFFTYFWT.AFTFNPEEVADNMRKSGAFIPGIRPG.KATENFLTRILVRVTLAGAI.FLTVIAIMP..YFISDIT........................RV..........RIS.FGG.TSLL....IMTG....VALQ...TMQ
+#=GC SS_cons                     BTT----HCCCCCCCHHHHC................CC.CSCCCCCHCC-------CCHHHHHHHHHHHHHHHHH-HCCCCC----S..-S----SS.........----THHHHHHHHH..HHH---HHHHHHHHHHCC.---.-.---CHHHH---CCCCCCCT................................CC...HH--S.S..................--.-.---CCH.........H........HHHHHHHHHH.H---HHCHC-EEEEEEE----...----.....---..---..ECE.EEEESS----HHHHHHHHH..CCHHH...HCCCT-.....TTS...............................-...............TTTT.TCCCC......................................-TTSHHH.HHHHHHHHHHHHHHHC.CTTTHHHHHHHCTT------------.-CCCCCCCCCCCCCCC---H.HHHHCCCHH..HHHCCCS........................--..........S-GGG--.-HHC....CC--....-HHH...HHH
+#=GC seq_cons                    olhuLGIhPaIoASIIhQLL...................shspLtclpcp.GcpGRc+lsphoRhholllullQuhuhshhhtths.........................hh..lhhll..pLssGohhlhWLuEhIoc.hGl.G.NGlSLlIhsuIl.sslsts................................lh...phhphh......................t..hshhh.........h........lhhllhhlhl.lhhllalppup++IPlpas+p.................tsp..psa.lPlKlNhuGVlPlIFAsul..lhhPt...hluphh......pt...............................t...............hhtp.lshhh.......................................hpshhY.hhlahshllhFuaFas.shshsPc-lAcsl++pGsaIPGlRPG.csTpcaLs+lls+lohhGul.aluhlullP..pllsshh.....................................h..huG.TulL....IhVu....lsl-...hhc
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.fa
new file mode 100755
index 0000000..9b1f523
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.fa
@@ -0,0 +1,12 @@
+>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium sp. (strain NGR234) GN=NGR_a00980 PE=4 SV=1
+MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP
+N
+>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergillus oryzae GN=hacA PE=2 SV=1
+MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.fasta.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.fasta.out
new file mode 100755
index 0000000..38392e2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.fasta.out
@@ -0,0 +1,5870 @@
+# /usr/local/fasta-36x2/bin/fasta36_t -q example.fa /misc/data0/databases/Uniprot/uniprot_sprot.fasta
+FASTA searches a protein or DNA sequence data bank
+ version 36.04 January, 2010
+Please cite:
+ W.R. Pearson & D.J. Lipman PNAS (1988) 85:2444-2448
+
+Query: example.fa
+  1>>>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium sp. (strain NGR234) GN=NGR_a00980 - 181 aa
+Library: /misc/data0/databases/Uniprot/uniprot_sprot.fasta 181677051 residues in 516081 sequences
+
+       opt      E()
+< 20   558     0:=
+  22     0     0:           one = represents 934 library sequences
+  24     3     0:=
+  26     2    11:*
+  28    11   117:*
+  30   120   710:*
+  32   838  2746:= *
+  34  3876  7447:=====  *
+  36 12656 15294:==============  *
+  38 28083 25276:===========================*===
+  40 44462 35258:=====================================*==========
+  42 53797 43098:==============================================*===========
+  44 55983 47542:==================================================*=========
+  46 48483 48422:===================================================*
+  48 42188 46359:==============================================   *
+  50 36235 42303:=======================================      *
+  52 32159 37191:===================================    *
+  54 27781 31768:==============================    *
+  56 24404 26536:=========================== *
+  58 20107 21785:====================== *
+  60 16997 17647:==================*
+  62 13727 14148:===============*
+  64 11688 11252:============*
+  66  9240  8893:=========*
+  68  7082  6995:=======*
+  70  5456  5482:=====*
+  72  4389  4283:====*
+  74  3394  3340:===*
+  76  2590  2599:==*
+  78  2111  2020:==*
+  80  1752  1569:=*
+  82  1261  1200:=*
+  84   948   951:=*
+  86   795   736:*
+  88   617   569:*          inset = represents 7 library sequences
+  90   401   440:*
+  92   341   341:*         :=======================================*
+  94   233   264:*         :==================================   *
+  96   164   204:*         :========================     *
+  98   145   158:*         :===================== *
+ 100    97   122:*         :==============   *
+ 102    82    94:*         :============ *
+ 104    70    73:*         :==========*
+ 106    31    57:*         :=====   *
+ 108    39    44:*         :======*
+ 110    22    34:*         :====*
+ 112    22    26:*         :===*
+ 114    16    20:*         :==*
+ 116    10    16:*         :==*
+ 118    20    12:*         :=*=
+>120    20     9:*         :=*=
+181677051 residues in 516081 sequences
+Statistics:  Expectation_n fit: rho(ln(x))= 5.0921+/-0.000195; mu= 6.0172+/- 0.011
+ mean_var=67.4672+/-14.288, 0's: 51 Z-trim: 53  B-trim: 3380 in 1/65
+ Lambda= 0.156145
+ statistics sampled from 60000 (278110) to 515494 sequences (mod: 1)
+ Kolmogorov-Smirnov  statistic: 0.0435 (N=29) at  46
+Algorithm: FASTA (3.6 Jan 2009) [optimized]
+Parameters: BL50 matrix (15:-5) ktup: 2
+ join: 42 (0.083), opt: 30 (0.584), open/ext: -10/-2, width:  16
+ Scan time: 11.160
+
+The best scores are:                                      opt bits E(516081)
+sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG  ( 181) 1141 265.5   2e-70
+sp|Q7SY73|ABH6B_XENLA Monoacylglycerol lipase abhd ( 337)  108 33.0     3.6
+
+>>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=R  (181 aa)
+ initn: 1141 init1: 1141 opt: 1141  Z-score: 1399.6  bits: 265.5 E(516081): 2e-70
+Smith-Waterman score: 1141; 100.0% identity (100.0% similar) in 181 aa overlap (1-181:1-181)
+
+               10        20        30        40        50        60
+sp|P55 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|P55 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+               10        20        30        40        50        60
+
+               70        80        90       100       110       120
+sp|P55 TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|P55 TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+               70        80        90       100       110       120
+
+              130       140       150       160       170       180
+sp|P55 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|P55 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP
+              130       140       150       160       170       180
+
+        
+sp|P55 N
+       :
+sp|P55 N
+        
+
+>>sp|Q7SY73|ABH6B_XENLA Monoacylglycerol lipase abhd6-B   (337 aa)
+ initn:  47 init1:  47 opt: 108  Z-score: 138.1  bits: 33.0 E(516081):  3.6
+Smith-Waterman score: 108; 24.6% identity (57.7% similar) in 130 aa overlap (41-164:65-189)
+
+               20        30        40        50        60        70
+sp|P55 SNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGTTADDQLAFVS
+                                     ::: ..  ..:.  ..:...  :  :..:.
+sp|Q7S IRIYYWYWRRALGMQVKYSSYGNYKFCYTARGKPGNKPSVLM--LHGFSAHKDMWLGMVK
+           40        50        60        70          80        90  
+
+               80         90       100         110       120       
+sp|P55 LIADQGETTTVAF-GPEIGSRIAASFMAACGQLQ--HQIATRTGKEERKFKPFAAAGFSV
+       ..  . . . : . : :  :: : .... :::..  ::..   : ..   :::  .: :.
+sp|Q7S FLPKNLHLVCVDMPGHEGTSRSALDYYSICGQVKRIHQFVESIGLNK---KPFHLVGTSM
+            100       110       120       130          140         
+
+          130       140       150       160       170       180    
+sp|P55 R---AGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRPN   
+           ::. :    . . :.. .  : . .    . :..:.                    
+sp|Q7S GGNVAGVYAAQHPTHISSLTLICPAGLMYPIESKFLKQLKVLEKSGDNQRIPLIPSTAGE
+     150       160       170       180       190       200         
+
+sp|Q7S MEDMLRLCSFVRFKIPQQVLQGLIDERIPHNEFYRKLFLALVDEKSRHSLHENMNKIMAP
+     210       220       230       240       250       260         
+
+  2>>>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergillus oryzae GN=hacA - 345 aa
+Library: /misc/data0/databases/Uniprot/uniprot_sprot.fasta 181677051 residues in 516081 sequences
+
+       opt      E()
+< 20   552     0:=
+  22     0     0:           one = represents 937 library sequences
+  24     1     0:=
+  26     0    11:*
+  28     2   117:*
+  30    14   710:*
+  32   257  2746:= *
+  34  2276  7448:===    *
+  36 10190 15296:===========     *
+  38 26420 25279:==========================*==
+  40 42419 35262:=====================================*========
+  42 52939 43104:==============================================*==========
+  44 56211 47547:==================================================*=========
+  46 52753 48428:===================================================*=====
+  48 48517 46364:=================================================*==
+  50 42369 42308:=============================================*
+  52 35656 37195:=======================================*
+  54 30193 31771:=================================*
+  56 24361 26539:==========================  *
+  58 19644 21788:=====================  *
+  60 15073 17649:================= *
+  62 11970 14150:=============  *
+  64  9165 11253:==========  *
+  66  7325  8894:======== *
+  68  5598  6996:====== *
+  70  4251  5482:=====*
+  72  3363  4284:====*
+  74  2804  3340:===*
+  76  2216  2600:==*
+  78  1756  2021:==*
+  80  1503  1569:=*
+  82  1074  1200:=*
+  84   955   951:=*
+  86   697   736:*
+  88   516   569:*          inset = represents 9 library sequences
+  90   465   440:*
+  92   423   341:*         :=====================================*==
+  94   350   264:*         :=============================*=========
+  96   240   204:*         :======================*====
+  98   192   158:*         :=================*====
+ 100   169   122:*         :=============*=====
+ 102   133    95:*         :==========*====
+ 104   130    73:*         :========*======
+ 106    91    57:*         :======*====
+ 108    77    44:*         :====*====
+ 110    59    34:*         :===*===
+ 112    53    26:*         :==*===
+ 114    50    20:*         :==*===
+ 116    42    16:*         :=*===
+ 118    27    12:*         :=*=
+>120   275     9:*         :*==============================
+181677051 residues in 516081 sequences
+Statistics:  Expectation_n fit: rho(ln(x))= 6.2367+/-0.000211; mu= 5.0578+/- 0.012
+ mean_var=113.9719+/-22.498, 0's: 53 Z-trim: 72  B-trim: 0 in 0/66
+ Lambda= 0.120137
+ statistics sampled from 60000 (215252) to 515555 sequences (mod: 1)
+ Kolmogorov-Smirnov  statistic: 0.0383 (N=29) at  50
+Algorithm: FASTA (3.6 Jan 2009) [optimized]
+Parameters: BL50 matrix (15:-5) ktup: 2
+ join: 43 (0.127), opt: 31 (0.659), open/ext: -10/-2, width:  16
+ Scan time: 17.160
+
+The best scores are:                                      opt bits E(516081)
+sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hac ( 345) 2265 403.1 2.8e-111
+sp|Q8TFU8|HAC1_EMENI Transcriptional activator hac ( 350) 1740 312.1   7e-84
+sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac ( 451)  393 78.7 1.6e-13
+sp|P41546|HAC1_YEAST Transcriptional activator HAC ( 238)  240 52.0 9.7e-06
+sp|O24646|HY5_ARATH Transcription factor HY5 OS=Ar ( 168)  225 49.2 4.5e-05
+sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bo ( 261)  200 45.1  0.0013
+sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive elemen ( 519)  203 45.8  0.0015
+sp|Q54WN7|BZPF_DICDI Probable basic-leucine zipper ( 631)  201 45.6  0.0022
+sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=So ( 158)  191 43.3  0.0026
+sp|Q66HA2|CR3L1_RAT Cyclic AMP-responsive element- ( 520)  191 43.8  0.0062
+sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive elemen ( 519)  189 43.4  0.0079
+sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive elemen ( 519)  187 43.1    0.01
+sp|A3LYI0|NST1_PICST Stress response protein NST1  (1234)  190 43.9   0.013
+sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive elemen ( 525)  183 42.4   0.016
+sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive elemen ( 428)  181 41.9   0.018
+sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive elemen ( 520)  182 42.2   0.018
+sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive elemen ( 520)  182 42.2   0.018
+sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive elemen ( 521)  179 41.7   0.026
+sp|P17861|XBP1_HUMAN X-box-binding protein 1 OS=Ho ( 261)  174 40.6   0.029
+sp|P13346|FOSB_MOUSE Protein fosB OS=Mus musculus  ( 338)  175 40.8   0.031
+sp|Q8W191|HYH_ARATH Transcription factor HY5-like  ( 149)  165 38.8   0.056
+sp|P53539|FOSB_HUMAN Protein fosB OS=Homo sapiens  ( 338)  169 39.8   0.064
+sp|Q6QDP7|CR3L2_RAT Cyclic AMP-responsive element- ( 521)  171 40.3   0.069
+sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive elemen ( 456)  169 39.9    0.08
+sp|Q9TUB3|FOSB_CANFA Protein fosB OS=Canis familia ( 338)  166 39.3   0.091
+sp|Q06507|ATF4_MOUSE Cyclic AMP-dependent transcri ( 349)  165 39.1    0.11
+sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element- ( 470)  165 39.2    0.13
+sp|Q90370|MAFB_COTJA Transcription factor MafB OS= ( 311)  161 38.4    0.16
+sp|Q90888|MAFB_CHICK Transcription factor MafB OS= ( 311)  161 38.4    0.16
+sp|O97930|FOS_PIG Proto-oncogene c-Fos OS=Sus scro ( 380)  160 38.3     0.2
+sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive elemen ( 479)  161 38.5    0.22
+sp|P18848|ATF4_HUMAN Cyclic AMP-dependent transcri ( 351)  159 38.1    0.22
+sp|O88479|FOS_MESAU Proto-oncogene c-Fos OS=Mesocr ( 381)  159 38.1    0.23
+sp|P01101|FOS_MOUSE Proto-oncogene c-Fos OS=Mus mu ( 380)  158 37.9    0.26
+sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive elemen ( 461)  159 38.2    0.27
+sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive elemen ( 395)  158 37.9    0.27
+sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF ( 401)  158 37.9    0.27
+sp|Q5R9C9|ATF7_PONAB Cyclic AMP-dependent transcri ( 483)  159 38.2    0.28
+sp|P17544|ATF7_HUMAN Cyclic AMP-dependent transcri ( 494)  159 38.2    0.28
+sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive elemen ( 395)  157 37.8     0.3
+sp|Q9Y5Q3|MAFB_HUMAN Transcription factor MafB OS= ( 323)  154 37.2    0.37
+sp|P01102|FOS_MSVFB p55-v-Fos-transforming protein ( 381)  155 37.4    0.37
+sp|P51145|FOSL2_RAT Fos-related antigen 2 OS=Rattu ( 327)  154 37.2    0.38
+sp|Q9UQ88|CD11A_HUMAN Cell division protein kinase ( 780)  159 38.4     0.4
+sp|Q9WVS8|MK07_MOUSE Mitogen-activated protein kin ( 806)  159 38.4    0.41
+sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive elemen ( 428)  155 37.4    0.41
+sp|P15408|FOSL2_HUMAN Fos-related antigen 2 OS=Hom ( 326)  153 37.0    0.42
+sp|Q8R0S1|ATF7_MOUSE Cyclic AMP-dependent transcri ( 413)  154 37.3    0.45
+sp|P29747|CREBA_DROME Cyclic AMP response element- ( 516)  155 37.5    0.47
+sp|Q2PFS4|MAFB_MACFA Transcription factor MafB OS= ( 323)  152 36.8    0.47
+sp|Q9R1S4|XBP1_RAT X-box-binding protein 1 OS=Ratt ( 267)  150 36.4    0.52
+sp|P54842|MAFB_RAT Transcription factor MafB OS=Ra ( 323)  151 36.6    0.53
+sp|P47930|FOSL2_MOUSE Fos-related antigen 2 OS=Mus ( 326)  151 36.7    0.54
+sp|Q2VZV0|IF2_MAGSA Translation initiation factor  ( 872)  157 38.0    0.55
+sp|Q0CEI3|KAPC_ASPTN Putative transcription factor ( 286)  150 36.4    0.55
+sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive elemen ( 404)  152 36.9    0.56
+sp|Q9ES19|ATF4_RAT Cyclic AMP-dependent transcript ( 347)  151 36.7    0.56
+sp|P54841|MAFB_MOUSE Transcription factor MafB OS= ( 323)  150 36.5     0.6
+sp|O77628|FOS_BOVIN Proto-oncogene c-Fos OS=Bos ta ( 380)  151 36.7     0.6
+sp|A1C9M5|KAPC_ASPCL Putative transcription factor ( 288)  149 36.3    0.62
+sp|Q504L8|MAFB_XENTR Transcription factor MafB OS= ( 316)  149 36.3    0.67
+sp|O57342|MAFA_COTJA Transcription factor MafA OS= ( 286)  148 36.1     0.7
+sp|Q3ZCH6|ATF4_BOVIN Cyclic AMP-dependent transcri ( 348)  149 36.3    0.72
+sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element- ( 367)  149 36.3    0.75
+sp|P12841|FOS_RAT Proto-oncogene c-Fos OS=Rattus n ( 380)  149 36.4    0.77
+sp|Q16520|BATF_HUMAN Basic leucine zipper transcri ( 125)  142 34.7    0.77
+sp|O35426|XBP1_MOUSE X-box-binding protein 1 OS=Mu ( 267)  146 35.7    0.84
+sp|P01100|FOS_HUMAN Proto-oncogene c-Fos OS=Homo s ( 380)  148 36.2    0.86
+sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive elemen ( 357)  147 36.0    0.93
+sp|A4R2R1|NST1_MAGGR Stress response protein NST1  (1319)  155 37.9    0.95
+sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive elemen ( 370)  147 36.0    0.96
+sp|Q8HZP6|FOS_FELCA Proto-oncogene c-Fos OS=Felis  ( 381)  147 36.0    0.98
+sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcr ( 127)  139 34.2     1.1
+sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive elemen ( 508)  147 36.1     1.2
+sp|P42774|GBF1_ARATH G-box-binding factor 1 OS=Ara ( 315)  144 35.4     1.2
+sp|A2R346|KAPC_ASPNC Putative transcription factor ( 283)  143 35.2     1.3
+sp|O42290|MAFA_CHICK Transcription factor MafA OS= ( 286)  143 35.2     1.3
+sp|O43889|CREB3_HUMAN Cyclic AMP-responsive elemen ( 395)  145 35.7     1.3
+sp|O60841|IF2P_HUMAN Eukaryotic translation initia (1220)  151 37.1     1.4
+sp|Q5KGK5|EIF3A_CRYNE Eukaryotic translation initi ( 952)  149 36.7     1.5
+sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcr ( 118)  135 33.5     1.7
+sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive elemen ( 428)  143 35.4     1.7
+sp|Q6DE84|MAFB_XENLA Transcription factor MafB OS= ( 313)  141 34.9     1.7
+sp|Q7TSC1|BAT2_MOUSE Large proline-rich protein BA (2158)  153 37.7     1.7
+sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcr ( 703)  146 36.1     1.7
+sp|Q54Y73|BZPD_DICDI Probable basic-leucine zipper ( 834)  147 36.3     1.8
+sp|P18625|FOSL2_CHICK Fos-related antigen 2 OS=Gal ( 323)  141 34.9     1.8
+sp|Q56TN0|FOS_PHORO Proto-oncogene c-Fos OS=Phodop ( 381)  142 35.1     1.8
+sp|O35284|BATF_MOUSE Basic leucine zipper transcri ( 125)  135 33.5     1.8
+sp|Q16534|HLF_HUMAN Hepatic leukemia factor OS=Hom ( 295)  140 34.7     1.9
+sp|Q8BW74|HLF_MOUSE Hepatic leukemia factor OS=Mus ( 295)  140 34.7     1.9
+sp|Q63ZM7|STABP_XENLA STAM-binding protein-like OS ( 416)  142 35.2     1.9
+sp|P29681|IMPE2_DROME 20-hydroxyecdysone protein O ( 466)  142 35.2     2.1
+sp|O35451|ATF6B_MOUSE Cyclic AMP-dependent transcr ( 699)  144 35.7     2.2
+sp|Q09926|PCR1_SCHPO Transcription factor pcr1 OS= ( 171)  135 33.6     2.3
+sp|O13024|INCEA_XENLA Inner centromere protein A O ( 873)  145 36.0     2.3
+sp|A0JMT0|CA1AB_XENLA Chromatin assembly factor 1  ( 885)  145 36.0     2.3
+sp|Q5RDE1|IF2P_PONAB Eukaryotic translation initia (1220)  147 36.4     2.3
+sp|Q4U1U2|MAFA_XENTR Transcription factor MafA OS= ( 289)  138 34.4     2.3
+sp|Q64709|HLF_RAT Hepatic leukemia factor OS=Rattu ( 295)  138 34.4     2.4
+sp|Q54NF3|Y6434_DICDI Uncharacterized protein DDB_ ( 412)  140 34.8     2.4
+sp|P15336|ATF2_HUMAN Cyclic AMP-dependent transcri ( 505)  141 35.1     2.5
+sp|Q553B1|DDX46_DICDI ATP-dependent RNA helicase d (1151)  146 36.2     2.5
+sp|P48634|BAT2_HUMAN Large proline-rich protein BA (2157)  149 37.0     2.8
+sp|Q5TM26|BAT2_MACMU Large proline-rich protein BA (2160)  149 37.0     2.8
+sp|A3BYC1|HOX25_ORYSJ Homeobox-leucine zipper prot ( 320)  137 34.2     2.9
+sp|P16951|ATF2_MOUSE Cyclic AMP-dependent transcri ( 487)  139 34.7     3.1
+sp|Q96RN5|MED15_HUMAN Mediator of RNA polymerase I ( 788)  142 35.4     3.1
+sp|Q2UNX4|KAPC_ASPOR Putative transcription factor ( 284)  135 33.8     3.3
+sp|Q80U35|ARHGH_MOUSE Rho guanine nucleotide excha (2057)  147 36.6     3.5
+sp|P0C865|MK07_RAT Mitogen-activated protein kinas ( 806)  141 35.2     3.5
+sp|P97875|JDP2_MOUSE Jun dimerization protein 2 OS ( 163)  131 32.9     3.5
+sp|Q78E65|JDP2_RAT Jun dimerization protein 2 OS=R ( 163)  131 32.9     3.5
+sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive elemen ( 368)  136 34.1     3.6
+sp|P48755|FOSL1_MOUSE Fos-related antigen 1 OS=Mus ( 273)  134 33.6     3.6
+sp|A2AJI0|MA7D1_MOUSE MAP7 domain-containing prote ( 846)  141 35.3     3.7
+sp|Q00312|RBF1_CANAL Transcription factor RBF1 OS= ( 527)  138 34.6     3.7
+sp|O35413|SRBS2_RAT Sorbin and SH3 domain-containi (1196)  143 35.7     3.7
+sp|P97876|BATF3_RAT Basic leucine zipper transcrip ( 133)  129 32.5     3.9
+sp|O93602|ATF2_CHICK Cyclic AMP-dependent transcri ( 487)  137 34.4     3.9
+sp|Q5F489|TAF3_CHICK Transcription initiation fact ( 930)  141 35.3     3.9
+sp|Q6CBW0|NST1_YARLI Stress response protein NST1  ( 889)  140 35.1     4.3
+sp|Q9CXK9|RBM33_MOUSE RNA-binding protein 33 OS=Mu (1231)  142 35.6     4.3
+sp|Q554P0|BZPJ_DICDI Probable basic-leucine zipper ( 787)  139 34.9     4.4
+sp|Q55EQ3|Y9086_DICDI Uncharacterized abhydrolase  ( 937)  140 35.1     4.4
+sp|O75037|KI21B_HUMAN Kinesin-like protein KIF21B  (1637)  143 35.8     4.7
+sp|O14273|YET4_SCHPO Meiotically up-regulated prot ( 647)  137 34.5     4.8
+sp|P19880|YAP1_YEAST AP-1-like transcription facto ( 650)  137 34.5     4.8
+sp|Q6IPM2|IQCE_HUMAN IQ domain-containing protein  ( 695)  137 34.5     5.1
+sp|Q98UK4|MAF_DANRE Transcription factor Maf OS=Da ( 327)  132 33.4     5.3
+sp|Q556Q3|IRLF_DICDI Probable serine/threonine-pro (1400)  141 35.4     5.3
+sp|P14233|TGA1B_TOBAC TGACG-sequence-specific DNA- ( 242)  130 32.9     5.4
+sp|Q8CH25|SLTM_MOUSE SAFB-like transcription modul (1031)  139 35.0     5.4
+sp|O81025|P2A03_ARATH Putative protein PHLOEM PROT ( 463)  134 33.8     5.4
+sp|P20226|TBP_HUMAN TATA-box-binding protein OS=Ho ( 339)  132 33.4     5.4
+sp|Q4WG58|PAN1_ASPFU Actin cytoskeleton-regulatory (1467)  141 35.5     5.5
+sp|B0YC95|PAN1_ASPFC Actin cytoskeleton-regulatory (1467)  141 35.5     5.5
+sp|Q00969|ATF2_RAT Cyclic AMP-dependent transcript ( 487)  134 33.9     5.6
+sp|Q8N8S7|ENAH_HUMAN Protein enabled homolog OS=Ho ( 591)  135 34.1     5.7
+sp|Q6MG48|BAT2_RAT Large proline-rich protein BAT2 (2161)  143 35.9     5.8
+sp|P0C5H8|KAPC_EMENI Putative transcription factor ( 278)  130 33.0     5.9
+sp|Q9M7Q3|AI5L6_ARATH ABSCISIC ACID-INSENSITIVE 5- ( 454)  133 33.7       6
+sp|Q6P9R4|ARHGI_MOUSE Rho guanine nucleotide excha (1021)  138 34.8       6
+sp|Q9NWH9|SLTM_HUMAN SAFB-like transcription modul (1034)  138 34.8     6.1
+sp|O60308|K0562_HUMAN Uncharacterized protein KIAA ( 925)  137 34.6     6.3
+sp|A2Z0Q0|HOX25_ORYSI Homeobox-leucine zipper prot ( 260)  129 32.8     6.4
+sp|Q6Y7W6|PERQ2_HUMAN PERQ amino acid-rich with GY (1299)  139 35.1     6.4
+sp|Q4WA21|KAPC_ASPFU Putative transcription factor ( 280)  129 32.8     6.7
+sp|Q9QXL1|KI21B_MOUSE Kinesin-like protein KIF21B  (1668)  140 35.3     6.9
+sp|P21127|CD11B_HUMAN Cell division protein kinase ( 795)  135 34.2     7.2
+sp|Q789F3|MAF_CHICK Transcription factor Maf OS=Ga ( 359)  130 33.0     7.2
+sp|Q6A000|K0753_MOUSE Uncharacterized protein KIAA ( 959)  136 34.4     7.3
+sp|P23091|MAF_AVIS4 Transforming protein Maf OS=Av ( 369)  130 33.1     7.4
+sp|Q5RCJ1|CIP4_PONAB Cdc42-interacting protein 4 O ( 601)  133 33.8     7.4
+sp|P23050|FOS_AVINK p55-v-Fos-transforming protein ( 322)  129 32.8     7.5
+sp|Q80YR5|SAFB2_MOUSE Scaffold attachment factor B ( 991)  136 34.5     7.5
+sp|Q6ZSZ5|ARHGI_HUMAN Rho guanine nucleotide excha (1173)  137 34.7     7.5
+sp|O70191|ATF5_MOUSE Cyclic AMP-dependent transcri ( 283)  128 32.6     7.7
+sp|A6NC98|CC88B_HUMAN Coiled-coil domain-containin (1476)  138 34.9     7.9
+sp|B0WYY2|MOEH_CULQU Moesin/ezrin/radixin homolog  ( 572)  132 33.6       8
+sp|P11939|FOS_CHICK Proto-oncogene c-Fos OS=Gallus ( 367)  129 32.9     8.3
+sp|Q9XUS2|MED29_CAEEL Mediator of RNA polymerase I ( 441)  130 33.1     8.4
+sp|A1D9Z7|KAPC_NEOFI Putative transcription factor ( 280)  127 32.4     8.6
+sp|P29176|FOSX_MSVFR Transforming protein v-Fos/v- ( 244)  126 32.2     8.7
+sp|Q09458|YQ37_CAEEL Uncharacterized protein C09F5 ( 395)  129 32.9     8.7
+sp|P23922|HBP1A_WHEAT Transcription factor HBP-1a  ( 349)  128 32.7       9
+sp|Q5R452|SAFB1_PONAB Scaffold attachment factor B ( 914)  134 34.1       9
+sp|O02756|CEBPD_BOVIN CCAAT/enhancer-binding prote ( 256)  126 32.2       9
+sp|Q03173|ENAH_MOUSE Protein enabled homolog OS=Mu ( 802)  133 33.9     9.2
+sp|P54843|MAF_MOUSE Transcription factor Maf OS=Mu ( 370)  128 32.7     9.4
+sp|P49716|CEBPD_HUMAN CCAAT/enhancer-binding prote ( 269)  126 32.2     9.4
+sp|Q15642|CIP4_HUMAN Cdc42-interacting protein 4 O ( 601)  131 33.4     9.4
+sp|Q54RZ9|BZPG_DICDI Probable basic-leucine zipper ( 372)  128 32.7     9.4
+sp|Q5AXH3|TOF1_EMENI Topoisomerase 1-associated fa (1167)  135 34.3     9.6
+sp|Q498L2|SLTM_XENLA SAFB-like transcription modul ( 998)  134 34.1     9.6
+sp|P0CB49|YLPM1_RAT YLP motif-containing protein 1 (1376)  136 34.6     9.6
+sp|Q39140|TGA6_ARATH Transcription factor TGA6 OS= ( 330)  127 32.5     9.7
+sp|Q8N9W4|GG6L2_HUMAN Golgin subfamily A member 6- ( 650)  131 33.4      10
+
+>>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS  (345 aa)
+ initn: 2265 init1: 2265 opt: 2265  Z-score: 2132.8  bits: 403.1 E(516081): 2.8e-111
+Smith-Waterman score: 2265; 100.0% identity (100.0% similar) in 345 aa overlap (1-345:1-345)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+               10        20        30        40        50        60
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+               70        80        90       100       110       120
+
+              130       140       150       160       170       180
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+              130       140       150       160       170       180
+
+              190       200       210       220       230       240
+sp|Q1X ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+              190       200       210       220       230       240
+
+              250       260       270       280       290       300
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+              250       260       270       280       290       300
+
+              310       320       330       340     
+sp|Q1X EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+       :::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+              310       320       330       340     
+
+>>sp|Q8TFU8|HAC1_EMENI Transcriptional activator hacA OS  (350 aa)
+ initn: 1623 init1: 1623 opt: 1740  Z-score: 1640.9  bits: 312.1 E(516081): 7e-84
+Smith-Waterman score: 1740; 78.9% identity (94.3% similar) in 332 aa overlap (13-344:18-348)
+
+                    10        20        30        40        50     
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKK
+                        .:::.::. ::::::::::::::.. .: .: .::::::::::
+sp|Q8T MKSADRFSPVKMEDAFANSLPTTPSLEVPVLTVSPADTSLQTKNVVAQ-TKPEEKKPAKK
+               10        20        30        40         50         
+
+          60        70        80        90       100       110     
+sp|Q1X RKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+       :::::::::::::::::::::::::::::::::::::::::::::::::::::::::.::
+sp|Q8T RKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLESEK
+      60        70        80        90       100       110         
+
+         120       130       140       150       160       170     
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLF
+       :.::::::::::::.::::::::::::.:::.::::::: .::  .:::..:::::::::
+sp|Q8T IDMEQQNQFLLQRLAQMEAENNRLSQQVAQLSAEVRGSRHSTPTSSSPASVSPTLTPTLF
+     120       130       140       150       160       170         
+
+         180       190       200       210       220       230     
+sp|Q1X KQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL
+       ::: ::.::.::::::::..:::::::::.:::: :..:::::::.::::: ::: ::::
+sp|Q8T KQEGDEVPLDRIPFPTPSVTDYSPTLKPSSLAESPDLTQHPAVSVGGLEGDESALTLFDL
+     180       190       200       210       220       230         
+
+         240       250       260       270       280       290     
+sp|Q1X GSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSM
+       :...::. : :..:::::::: :::.::::.: :::..:::.:::::..:::::::::::
+sp|Q8T GASIKHEPTHDLTAPLSDDDFRRLFNGDSSLESDSSLLEDGFAFDVLDSGDLSAFPFDSM
+     240       250       260       270       280       290         
+
+         300       310       320       330       340      
+sp|Q1X VNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 
+       :.::.:::::: .:...:: : ..::..:.::. ::::.::::::::::  
+sp|Q8T VDFDTEPVTLEDLEQTNGLSDSASCKAASLQPSHGASTSRCDGQGIAAGSA
+     300       310       320       330       340       350
+
+>>sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac1 OS  (451 aa)
+ initn: 467 init1: 378 opt: 414  Z-score: 397.4  bits: 82.4 E(516081): 1.3e-14
+Smith-Waterman score: 446; 31.1% identity (51.8% similar) in 421 aa overlap (7-344:43-450)
+
+                                       10        20        30      
+sp|Q1X                         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN
+                                     . : . ::. :   :.. :.  :    . .
+sp|Q8T EASPAESFLSAPGDNFTSLFADSTPSTLNPRDMMTPDSV-ADIDSRLSVIPESQDAEDDE
+             20        30        40        50         60        70 
+
+         40        50        60        70        80        90      
+sp|Q1X SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA
+       : ....   .  ::::.:::::::: :: :::::::::::::::::::::.::::::: :
+sp|Q8T SHSTSATAPSTSEKKPVKKRKSWGQVLPEPKTNLPPRKRAKTEDEKEQRRVERVLRNRRA
+              80        90       100       110       120       130 
+
+        100       110              120       130       140         
+sp|Q1X AQTSRERKRLEMEKLENEKIQME-------QQNQFLLQRLSQMEAENNRLS---------
+       ::.::::::::.: ::... ..:       . : .:...:....  .. ..         
+sp|Q8T AQSSRERKRLEVEALEKRNKELETLLINVQKTNLILVEELNRFRRSSGVVTRSSSPLDSL
+             140       150       160       170       180       190 
+
+              150       160                         170        180 
+sp|Q1X QQLAQLAAEVRGSRANTPMPG------------------SPATASPTLTPTLFKQ-ERDE
+       :.   :. .. ::: .  : .                  .::. ::.: :   :. .  :
+sp|Q8T QDSITLSQQLFGSRDGQTMSNPEQSLMDQIMRSAANPTVNPASLSPSLPPISDKEFQTKE
+             200       210       220       230       240       250 
+
+             190       200               210       220       230   
+sp|Q1X LPLERIPFPTPSLSDYSPTLKPSTLAE--------SSDVAQHPAVSVAGLEGDGSALPLF
+          :.        . .  : . ..  :        :.: .:.::::..:     .:.:.:
+sp|Q8T EDEEQADEDEEMEQTWHETKEAAAAKEKNSKQSRVSTDSTQRPAVSIGG----DAAVPVF
+             260       270       280       290       300           
+
+                  240                 250       260       270      
+sp|Q1X D-------LGSDLKHHSTDD----------VAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+       .       :: :  :.  ::          ..: :. : .  :....  . :..:. .: 
+sp|Q8T SDDAGANCLGLDPVHQ--DDGPFSIGHSFGLSAALDADRY--LLESQLLASPNASTVDD-
+       310       320         330       340         350       360   
+
+        280       290         300       310                        
+sp|Q1X LAFDVLEGGDLSAF--PFDSMVNFDSEPVTLEGIEMA---------------------HG
+          : : : . . :  :. :  .:: .    .  . :                     : 
+sp|Q8T ---DYLAGDSAACFTNPLPSDYDFDINDFLTDDANHAAYDIVAASNYAAADRELDLEIHD
+               370       380       390       400       410         
+
+           320       330       340     
+sp|Q1X LPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+         ..   . :  ::  :::.  ::  :::.: 
+sp|Q8T PENQIPSRHSIQQPQSGASSHGCDDGGIAVGV
+     420       430       440       450 
+
+>>sp|P41546|HAC1_YEAST Transcriptional activator HAC1 OS  (238 aa)
+ initn: 251 init1: 221 opt: 257  Z-score: 254.0  bits: 54.9 E(516081): 1.3e-06
+Smith-Waterman score: 257; 32.9% identity (60.3% similar) in 219 aa overlap (63-270:16-216)
+
+             40        50        60           70        80         
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP---KTNLPPRKRAKTEDEKEQRRIER
+                                     : .:   :..:::::::::..:::::::::
+sp|P41                MEMTDFELTSNSQSNLAIPTNFKSTLPPRKRAKTKEEKEQRRIER
+                              10        20        30        40     
+
+      90       100       110       120        130        140       
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ-NQFLLQRLSQME-AENNRLSQQLAQLA
+       .:::: ::. :::.:::... :: .   .:.  :.  :..:.. : : .   .  .:.: 
+sp|P41 ILRNRRAAHQSREKKRLHLQYLERKCSLLENLLNSVNLEKLADHEDALTCSHDAFVASLD
+          50        60        70        80        90       100     
+
+         150        160       170       180       190       200    
+sp|Q1X A--EVRGSR-ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS
+          . ...: :.    .:  ..: :.::.         ::.    :.        ::.:.
+sp|P41 EYRDFQSTRGASLDTRASSHSSSDTFTPS---------PLNCTMEPA--------TLSPK
+         110       120       130                140                
+
+           210       220         230       240       250       260 
+sp|Q1X TLAES-SDVAQHPAVSVAGLEG--DGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFH
+       .. .: ::      ...   :.  ....::  : ...:    .. .: :: ::  .  . 
+sp|P41 SMRDSASDQETSWELQMFKTENVPESTTLPAVD-NNNLFDAVASPLADPLCDDIAGNSLP
+      150       160       170       180        190       200       
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+        :.:.. :.                                                   
+sp|P41 FDNSIDLDNWRNPEAQSGLNSFELNDFFITS                             
+       210       220       230                                     
+
+>>sp|O24646|HY5_ARATH Transcription factor HY5 OS=Arabid  (168 aa)
+ initn: 217 init1: 217 opt: 225  Z-score: 226.1  bits: 49.2 E(516081): 4.5e-05
+Smith-Waterman score: 225; 31.8% identity (62.4% similar) in 170 aa overlap (6-167:3-167)
+
+               10             20        30           40        50  
+sp|Q1X MSCDMEKTMSSV--DSLPATP---ASEVPVLTVSP---ADTSLNSADVKTQEVKPEEKKP
+            :.. ::.  .:::..    .: .: : ..    .:  .  .     :.  .: . 
+sp|O24    MQEQATSSLAASSLPSSSERSSSSAPHLEIKEGIESDEEIRRVPEFGGEAVGKETSG
+                  10        20        30        40        50       
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+        .. .. :::     ..   :::..:  :::..:..:.::::..:: .::::.  . .::
+sp|O24 RESGSATGQERTQATVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELE
+        60        70        80        90       100       110       
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       :.  ..:..:. : .::: .. ::. : . : . ... ::. .     :: : ::     
+sp|O24 NRVKDLENKNSELEERLSTLQNENQMLRHILKNTTGNKRGGGG-----GSNADASL    
+       120       130       140       150       160                 
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bos ta  (261 aa)
+ initn: 188 init1: 137 opt: 200  Z-score: 200.1  bits: 45.1 E(516081): 0.0013
+Smith-Waterman score: 200; 29.9% identity (56.9% similar) in 204 aa overlap (16-206:10-196)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                      ::. : .: .:. .:: :.   :      . :            :
+sp|Q3S       MVVVAPAQSPAAGAPKVLLLSGQPAATGGAPAGRALPVMVP------------G
+                     10        20        30        40              
+
+                 70           80        90       100       110     
+sp|Q1X QELPVPK--TNLPP--RKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+       :.   :.  ...::  ::: . :.   :.. ..: :.::.::::.:.::. .: .::.. 
+sp|Q3S QQGASPEGASGVPPQARKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQV
+             50        60        70        80        90       100  
+
+         120              130       140       150       160        
+sp|Q1X IQMEQQNQFLL-------QRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASP
+       ...:..:: ::       ..   . .::..: :.:. . : :   .:.:   :.  .:. 
+sp|Q3S VDLEEENQKLLLENQLLREKTHGLVVENQELRQRLG-MDALVTEEEAETKGNGAGLVAGS
+            110       120       130        140       150       160 
+
+      170       180       190        200       210       220       
+sp|Q1X TLTPTLFKQERDELPLERIPFPTPSLSDYSP-TLKPSTLAESSDVAQHPAVSVAGLEGDG
+       . . .:    : . ::...      :.. :: ::   ::                     
+sp|Q3S AESAAL----RLRAPLQQVQAQLSPLQNISPWTLMALTLQTLSLTSCWAFCSTWTQSCSS
+                 170       180       190       200       210       
+
+       230       240       250       260       270       280       
+sp|Q1X SALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDL
+                                                                   
+sp|Q3S DVLPQSLPAWSSSQKWTQKDPVPYRPPLLHPWGRHQPSWKPLMN                
+       220       230       240       250       260                 
+
+>>sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive element-bi  (519 aa)
+ initn: 134 init1: 134 opt: 203  Z-score: 198.9  bits: 45.8 E(516081): 0.0015
+Smith-Waterman score: 203; 32.7% identity (59.0% similar) in 156 aa overlap (4-152:210-360)
+
+                                          10         20        30  
+sp|Q1X                            MSCDMEKTMSSVDSL-PATPASEVPVLTVSP-A
+                                     : : ..: :    ::.:..   :: :.: :
+sp|A1L PHEVDQFLNLSPKGLECLQMPPTPPSSVGSDSEGSQSPVHPCAPASPTQTPAVLKVAPRA
+     180       190       200       210       220       230         
+
+              40        50             60        70        80      
+sp|Q1X DTSLNSADVKTQEVKPEEKKP-----AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRR
+        .::.:. . :   : . . :      .::   ..  ::: :.::  :     .::  ..
+sp|A1L PSSLSSSPLLTAPHKLQGSGPLLLTEEEKRTLIAEGYPVP-TKLPLSK----AEEKALKK
+     240       250       260       270        280           290    
+
+         90       100       110       120       130       140      
+sp|Q1X IERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL
+       :.: ..:. .:: ::..:.  .. ::..     ..:. : ... ..:  :. : ::: .:
+sp|A1L IRRKIKNKISAQESRRKKKEYVDALEKKVETCSNENHELRRKVENLECTNKSLLQQLHSL
+          300       310       320       330       340       350    
+
+        150       160       170       180       190       200      
+sp|Q1X AAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL
+        : : :                                                      
+sp|A1L QAVVAGKVPRSCRVTGTQTSTCLMVVVLCFSLFLGSFYPGLSPCSSITKADLSREISIHD
+          360       370       380       390       400       410    
+
+>>sp|Q54WN7|BZPF_DICDI Probable basic-leucine zipper tra  (631 aa)
+ initn: 119 init1:  88 opt: 201  Z-score: 195.9  bits: 45.6 E(516081): 0.0022
+Smith-Waterman score: 201; 24.5% identity (55.4% similar) in 233 aa overlap (46-270:363-593)
+
+          20        30        40        50        60            70 
+sp|Q1X PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTN----LP
+                                     : :: :  :::: . .  ::   :    : 
+sp|Q54 NSNNISTQINNLNNNINNQNNQLNGSNNGKKKEEDKSIKKRK-FISSTPVKGENGGTTLI
+            340       350       360       370        380       390 
+
+                80        90       100       110       120         
+sp|Q1X PRKRA--KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL
+       :   .  . ..:..:.: .:...:: :::  :.:..  .. ::..  ..   :. .  :.
+sp|Q54 PTTDGGFNMDEERHQKRQRRLVKNREAAQLFRQRQKAYIQDLEKKVSDLTGTNSEFRARV
+             400       410       420       430       440       450 
+
+     130       140       150        160       170       180        
+sp|Q1X SQMEAENNRLSQQLAQLAAEVRGSRA-NTPMPGSPATASPTLTPTLFKQERDELPLERIP
+         ...::. . .::  :   :  . . . :  :: .: ::. .   : .     :    :
+sp|Q54 ELLNSENKLIREQLLYLRNFVTQAVSFSFPKGGSNGTNSPSGVADQFLNSILP-PGLNSP
+             460       470       480       490       500        510
+
+      190       200       210       220       230       240        
+sp|Q1X FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVA
+       .:   :       .:  ..  ...:.. ..   ...:.  . :. .  :.:  .: ..  
+sp|Q54 LPQGILPAGMNLQNPMIMSAIAEAASKNSTFRQNIQGNLLGTPIPSPQSSLTSNSGNNSP
+              520       530       540       550       560       570
+
+       250       260       270       280       290       300       
+sp|Q1X A-PLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+         ::.... :  ...... .:.:                                     
+sp|Q54 NKPLNNNNNNNNINNNNNNNPSSPNNNLNNNNNISPNSSTSHQVPYLPQNTPPQQSTPNQ
+              580       590       600       610       620       630
+
+>>sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=Solanu  (158 aa)
+ initn: 183 init1: 183 opt: 191  Z-score: 194.6  bits: 43.3 E(516081): 0.0026
+Smith-Waterman score: 191; 36.8% identity (67.4% similar) in 95 aa overlap (60-154:66-157)
+
+      30        40        50        60        70        80         
+sp|Q1X PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER
+                                     ::  :   :.   :::...  .::..:..:
+sp|Q9S SDDEIRRVPEMGGEATGTTSASGRDGVSAAGQAQPSAGTQ---RKRGRSPADKENKRLKR
+          40        50        60        70           80        90  
+
+      90       100       110       120       130       140         
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE
+       .::::..:: .::::.  .  :: .  ..: .:  : .::: .. ::. : . : . .: 
+sp|Q9S LLRNRVSAQQARERKKAYLIDLEARVKELETKNAELEERLSTLQNENQMLRHILKNTTAG
+            100       110       120       130       140       150  
+
+     150       160       170       180       190       200         
+sp|Q1X VRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAES
+       .. .:                                                       
+sp|Q9S AQEGRK                                                      
+                                                                   
+
+>>sp|Q66HA2|CR3L1_RAT Cyclic AMP-responsive element-bind  (520 aa)
+ initn: 133 init1: 133 opt: 191  Z-score: 187.6  bits: 43.8 E(516081): 0.0062
+Smith-Waterman score: 191; 25.3% identity (51.7% similar) in 300 aa overlap (4-290:214-499)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     : . ..:  .  :..:.  .   ... . .
+sp|Q66 AEPPEMSQFLKVTQEDLVQMPPTPPSSHGSDSDGSQSPRSLPPSSPVRPMARSSTAISTS
+           190       200       210       220       230       240   
+
+            40         50        60        70        80        90  
+sp|Q1X SLNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        : .:  : : .. :      .::   ..  :.: :.::  :     .::  .:..: ..
+sp|Q66 PLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TKLPLTK----AEEKALKRVRRKIK
+           250       260       270        280           290        
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  .: ::..   . ..:. : ...  .:. :  : ::: .: . :  
+sp|Q66 NKISAQESRRKKKEYVECLEKKVETYTSENNELWKKVETLETANRTLLQQLQKLQTLVT-
+      300       310       320       330       340       350        
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       :. . :.     .:. : :  .       : :  .    :..:. : :.: . .: .:  
+sp|Q66 SKISRPYK---MAATQTGTCLMVAALCFVLVLGSLAPCLPAFSSGSKTVKEDPVAADSVY
+       360          370       380       390       400       410    
+
+              220             230           240       250       260
+sp|Q1X A--QHPAVSV------AGLEGDGSALPLFDL----GSDLKHHSTDDVAAPLSDDDFNRLF
+       :  : :. :.      ::   ::    :. .    : .::  .    : :  .: . :  
+sp|Q66 AASQMPSRSLLFYDDGAGSWEDGHRGALLPVEPPEGWELKPGGP---AEPRPQDHL-RHD
+          420       430       440       450          460        470
+
+              270       280       290       300       310       320
+sp|Q1X HGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTC
+       :.:: ..  .. ...    :. ..:    :                              
+sp|Q66 HADS-IHETTKYLRETWPEDTEDNGASPNFSHPKEWFHDRDLGPNTTIKLS         
+               480       490       500       510       520         
+
+>>sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive element-bi  (519 aa)
+ initn: 133 init1: 133 opt: 189  Z-score: 185.8  bits: 43.4 E(516081): 0.0079
+Smith-Waterman score: 189; 26.7% identity (53.8% similar) in 240 aa overlap (4-232:215-445)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     : . ..:  .  :..:.  .   ... . .
+sp|Q9Z AEPPEMSQFLKVTPEDLVQMPPTPPSSHGSDSDGSQSPRSLPPSSPVRPMARSSTAISTS
+          190       200       210       220       230       240    
+
+            40         50        60        70        80        90  
+sp|Q1X SLNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        : .:  : : .. :      .::   ..  :.: :.::  :     .::  .:..: ..
+sp|Q9Z PLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TKLPLTK----AEEKALKRVRRKIK
+          250       260       270        280           290         
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  .: ::..   . ..:. : ...  .:. :  : ::: .: . :  
+sp|Q9Z NKISAQESRRKKKEYVECLEKKVETYTSENNELWKKVETLETANRTLLQQLQKLQTLVT-
+     300       310       320       330       340       350         
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       :. . :.     .:. : :  .       : :  .    :..:. : :.: . .: .:  
+sp|Q9Z SKISRPY---KMAATQTGTCLMVAALCFVLVLGSLVPCLPAFSSGSMTVKEDPIAADSVY
+      360          370       380       390       400       410     
+
+              220               230       240       250       260  
+sp|Q1X A--QHPAVSV------AGL--EGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+       :  : :. :.      ::   .: :. ::.                              
+sp|Q9Z AASQMPSRSLLFYDDGAGSWEDGRGALLPVEPPEGWELKPGGPAEQRPQDHLRHDRADSI
+         420       430       440       450       460       470     
+
+>>sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive element-bi  (519 aa)
+ initn: 132 init1: 132 opt: 187  Z-score: 183.9  bits: 43.1 E(516081): 0.01
+Smith-Waterman score: 187; 26.2% identity (53.3% similar) in 240 aa overlap (4-232:215-445)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     : . ..:  .  :..:.  .   ... . .
+sp|Q96 AEPLEVNQFLKVTPEDLVQMPPTPPSSHGSDSDGSQSPRSLPPSSPVRPMARSSTAISTS
+          190       200       210       220       230       240    
+
+            40         50        60        70        80        90  
+sp|Q1X SLNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        : .:  : : .. :      .::   ..  :.: :.::  :     .::  .:..: ..
+sp|Q96 PLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TKLPLTK----AEEKALKRVRRKIK
+          250       260       270        280           290         
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  .: ::..   . ..:. : ...  .:  :  : ::: .: . :  
+sp|Q96 NKISAQESRRKKKEYVECLEKKVETFTSENNELWKKVETLENANRTLLQQLQKLQTLVT-
+     300       310       320       330       340       350         
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS--
+       .. . :.     .:. : :  .       : :  .    : .:. : :.: . :: ..  
+sp|Q96 NKISRPY---KMAATQTGTCLMVAALCFVLVLGSLVPCLPEFSSGSQTVKEDPLAADGVY
+      360          370       380       390       400       410     
+
+              220               230       240       250       260  
+sp|Q1X DVAQHPAVSV------AGLEGDGSA--LPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+        ..: :. :.      :::  :: .  ::.                              
+sp|Q96 TASQMPSRSLLFYDDGAGLWEDGRSTLLPMEPPDGWEINPGGPAEQRPRDHLQHDHLDST
+         420       430       440       450       460       470     
+
+>>sp|A3LYI0|NST1_PICST Stress response protein NST1 OS=P  (1234 aa)
+ initn: 113 init1:  84 opt: 200  Z-score: 191.0  bits: 45.6 E(516081): 0.004
+Smith-Waterman score: 201; 26.6% identity (54.6% similar) in 304 aa overlap (41-332:727-1001)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     . .:.: .:..  :: ..  ..    : .:
+sp|A3L ELKQKQEALKADQRRRKEEAKLKREEEKKKRIEELKRKEEEHKKKVEAQQKKEEEAK-KL
+        700       710       720       730       740       750      
+
+               80        90       100       110       120       130
+sp|Q1X PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS
+         ... :.:.:..... :.  ..    :  .::.::..:  :::... :::.      :.
+sp|A3L KEERKKKAEEERKKKEEEKRQKELLKKQKEEERERLKLEAEENERLEKEQQE------LQ
+         760       770       780       790       800               
+
+              140       150       160       170       180       190
+sp|Q1X QMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFP
+       ...  .:.:  . ::: ::.        . .:: . ::: .  :..:  .  :   .  :
+sp|A3L ELQESQNQLELESAQLPAEL-----AEEINASPDSFSPTKNH-LLEQLYQARP-SSVSGP
+     810       820            830       840        850        860  
+
+                 200       210           220       230       240   
+sp|Q1X T---PSLSDYSPTLKPSTLAESSDVAQ----HPAVSVAGLEGDGSALPLFDLGSDLKHHS
+       :   : .. ..:   : . : :: : .     ::.: : :.: ::  :  .  . . . :
+sp|A3L TTISPPIQ-FTPEAVPPVAAVSSVVPSVVPISPALSGAILNGTGS--P--NSRNAMLYGS
+            870        880       890       900           910       
+
+           250       260       270           280        290        
+sp|Q1X TDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE----DGLAFDV-LEGGDLSAFPFDSMVNF
+       . ..  :      : :  . :.. : ::  .    .: ...  :   .:::  :. . .:
+sp|A3L SAQAQLP------NGLNSSTSNMSPWSSKSRLNSTSGASLQSNLFQPQLSASGFSPFNDF
+       920             930       940       950       960       970 
+
+      300       310       320       330       340                  
+sp|Q1X DSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC             
+        : :.:  ::    ..  ..   ...:.:  ::.                          
+sp|A3L -STPATSAGI---GSVNVNAPLASTAVEPLAGANNGGVWNPSTTSSRNNSIWSNTPNLNN
+              980          990      1000      1010      1020       
+
+sp|A3L ASIWGNTLPSLAGGAGAGASTPSAAHTLPNSAPLASDNELIQVAAYNTFQMLQNSNQLEF
+      1030      1040      1050      1060      1070      1080       
+
+>>sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive element-bi  (525 aa)
+ initn: 143 init1: 143 opt: 183  Z-score: 180.1  bits: 42.4 E(516081): 0.016
+Smith-Waterman score: 183; 31.0% identity (55.7% similar) in 158 aa overlap (4-152:218-368)
+
+                                          10        20             
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVP------VLT
+                                     : :  .: . :::  :.: :       . .
+sp|A2V VDQFLNLCPKEVAPTEALQMPPTPPSSHGSDSEGGQSPTRSLP--PSSPVQSQAGGKMAA
+       190       200       210       220       230         240     
+
+        30           40        50        60        70        80    
+sp|Q1X VSPA---DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ
+        ::.   .. : .:  : :   :      .::   ..  :.: :.::  :     .::  
+sp|A2V RSPSALSNSPLLTAPHKLQGSGPLMLTEEEKRTLVAEGYPIP-TKLPLTK----AEEKAL
+         250       260       270       280        290           300
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       ..:.: ..:. .:: ::..:.  :..::..  .  ..:. : ...  .:. :  : ::: 
+sp|A2V KKIRRKIKNKISAQESRRKKKEYMDSLEKRVENSSSENSELRKKVEVLESTNRTLLQQLQ
+              310       320       330       340       350       360
+
+          150       160       170       180       190       200    
+sp|Q1X QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS
+       .: : : :                                                    
+sp|A2V RLQAMVTGKVTRSCKAAGTQTGTCLMMVVLCFAVIFGSFTQNLDMYSSSSKTIHEPSQYS
+              370       380       390       400       410       420
+
+>>sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive element-bi  (428 aa)
+ initn: 137 init1: 137 opt: 181  Z-score: 179.4  bits: 41.9 E(516081): 0.018
+Smith-Waterman score: 181; 26.9% identity (53.3% similar) in 182 aa overlap (24-200:160-330)
+
+                      10        20        30         40        50  
+sp|Q1X        MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD-VKTQEVKPEEKKP
+                                     ::   .:    :. :: . .. . :: .  
+sp|Q08 MSSVISIQLAEDWNSAPLLIPESCIVNDLPPVCKSTPLPIRLTPADLIAVDALYPELHLT
+     130       140       150       160       170       180         
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+        ....  .::  .  .:::  :     .:.  ....: .::. .:: ::.::.  .. ::
+sp|Q08 EEEKRLLSQEGVALPNNLPLTK----AEERILKKVRRKIRNKQSAQDSRRRKKEYIDGLE
+     190       200       210           220       230       240     
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       ..     .::: : ... ..: .:  :  :: .: . .. .  ..      : .:  .  
+sp|Q08 SRVAACSSQNQELHKKVVELEKHNISLITQLRKLQTLIKQTSNKA------AQTSTCVLI
+         250       260       270       280       290               
+
+            180          190        200       210       220        
+sp|Q1X TLFKQERDELPLERIPF---PTPSLSD-YSPTLKPSTLAESSDVAQHPAVSVAGLEGDGS
+        ::.     .:    ::   :. :  : : ::                            
+sp|Q08 LLFSLALLVFP-SYSPFRSRPSASQEDSYRPTGVISRNILNKGGFSEVADPQASDTLHRA
+     300       310        320       330       340       350        
+
+      230       240       250       260       270       280        
+sp|Q1X ALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLS
+                                                                   
+sp|Q08 QQREEGDPGRHVVPPANPNPEETEPVSNRARTTPEPDEQVLAEPEAAILGQKGEPPGSDN
+      360       370       380       390       400       410        
+
+>>sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive element-bi  (520 aa)
+ initn: 135 init1: 135 opt: 187  Z-score: 183.9  bits: 43.1 E(516081): 0.01
+Smith-Waterman score: 187; 23.9% identity (51.9% similar) in 297 aa overlap (14-297:228-517)
+
+                                10          20        30        40 
+sp|Q1X                  MSCDMEKTMSSVDSLPAT--PASEVPVLTVSPADTSLNSADVK
+                                     ::: :  :.  .:    . ... : .:  :
+sp|Q70 DHLHLPPTPPSSHGSDSEGSLSPNPRLHPFSLPQTHSPSRAAPRAPSALSSSPLLTAPHK
+       200       210       220       230       240       250       
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :   :      .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::
+sp|Q70 LQGSGPLVLTEEEKRTLIAEGYPIP-TKLPLSKS----EEKALKKIRRKIKNKISAQESR
+       260       270       280        290           300       310  
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMP
+       ..:.  :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . 
+sp|Q70 RKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLA
+            320       330       340       350       360       370  
+
+              170       180       190          200         210     
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---
+       :. . .   ..   :      .     :.:. .   : .     .: :  ...: ..   
+sp|Q70 GTQTGTCLMVVVLCFAVAFGSFFQGYGPYPSATKMALPSQHSLQEPYTASVVRSRNLLIY
+            380       390       400       410       420       430  
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+        .:     ..  :... :  .: ::.: . :  .    ..   :  .. ...:.: .  .
+sp|Q70 EEHSPPEESSSPGSAGELGGWDRGSSLLRVSGLESRPDVDLPHF--IISNETSLEKSVLL
+            440       450       460       470         480       490
+
+             280        290       300       310       320       330
+sp|Q1X -FEDGLAFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFG
+        ... :.   :::.. :..  .:  ::                                 
+sp|Q70 ELQQHLVSAKLEGNETLKVVELDRRVNTTF                              
+              500       510       520                              
+
+>>sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive element-bi  (520 aa)
+ initn: 135 init1: 135 opt: 185  Z-score: 182.0  bits: 42.7 E(516081): 0.013
+Smith-Waterman score: 185; 23.9% identity (51.5% similar) in 297 aa overlap (14-297:228-517)
+
+                                10          20        30        40 
+sp|Q1X                  MSCDMEKTMSSVDSLPAT--PASEVPVLTVSPADTSLNSADVK
+                                     ::: :  :.  .:    . ... : .:  :
+sp|Q5R DHLHLPPTPPSSHGSDSEGSLSPNPRLHPFSLPQTHSPSRAAPRAPSALSSSPLLTAPHK
+       200       210       220       230       240       250       
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :   :      .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::
+sp|Q5R LQGSGPLVLTEEEKRTLIAEGYPIP-TKLPLTKS----EEKALKKIRRKIKNKISAQESR
+       260       270       280        290           300       310  
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMP
+       ..:.  :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . 
+sp|Q5R RKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLA
+            320       330       340       350       360       370  
+
+              170       180       190          200         210     
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---
+       :. . .   ..   :      .     :.:. .   : .     .: :  ...: ..   
+sp|Q5R GTQTGTCLMVVVLCFAVAFGSFFQGYGPYPSATKMALPSQHSLQEPYTASVVRSRNLLIY
+            380       390       400       410       420       430  
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+        .:      .  :... :  .: ::.: . :  .    ..   :  .. ...:.: .  .
+sp|Q5R EEHSPPEEPSSPGSAGELGGWDRGSSLLRVSGLESRPDVDLPHF--IISNETSLEKSVLL
+            440       450       460       470         480       490
+
+             280        290       300       310       320       330
+sp|Q1X -FEDGLAFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFG
+        ... :.   :::.. :..  .:  ::                                 
+sp|Q5R ELQQHLVSAKLEGNETLKVVELDRRVNTTF                              
+              500       510       520                              
+
+>>sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive element-bi  (521 aa)
+ initn: 135 init1: 135 opt: 200  Z-score: 196.1  bits: 45.3 E(516081): 0.0021
+Smith-Waterman score: 200; 24.1% identity (52.9% similar) in 291 aa overlap (18-297:234-518)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .::  .:    . . . : .:  : :   :
+sp|Q8B PTPPSSHSSDSEGSLSPNPRLHPFSLSQAHSPARAMPRGPSALSTSPLLTAPHKLQGSGP
+           210       220       230       240       250       260   
+
+        50        60        70        80        90       100       
+sp|Q1X EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE
+             .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::..:.  
+sp|Q8B LVLTEEEKRTLVAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEY
+           270       280            290       300       310        
+
+       110       120       130       140       150        160      
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMPGSPATA
+       :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . :. . .
+sp|Q8B MDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLAGTQTGT
+      320       330       340       350       360       370        
+
+        170       180       190          200         210           
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---AQHPAV
+          ..   :      .     :.:. .   : .  :  .: :  ...: ..    .:  .
+sp|Q8B CLMVVVLCFAVAFGSFFQGYGPYPSATKMALPSQHPLSEPYTASVVRSRNLLIYEEHAPL
+      380       390       400       410       420       430        
+
+      220       230       240       250       260       270        
+sp|Q1X SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV-FEDGL
+         ..  .... :  .: ::.: . :.   : :  :   . :. ...:.: .  . ... :
+sp|Q8B EESSSPASAGELGGWDRGSSLLRASSGLEALPEVDLP-HFLISNETSLEKSVLLELQQHL
+      440       450       460       470        480       490       
+
+       280        290       300       310       320       330      
+sp|Q1X AFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRC
+       . . :::.. :..  ..  ::                                       
+sp|Q8B VSSKLEGNETLKVVELERRVNATF                                    
+       500       510       520                                     
+
+>>sp|P17861|XBP1_HUMAN X-box-binding protein 1 OS=Homo s  (261 aa)
+ initn: 188 init1: 137 opt: 201  Z-score: 201.0  bits: 45.2 E(516081): 0.0011
+Smith-Waterman score: 201; 28.5% identity (58.6% similar) in 186 aa overlap (16-187:10-186)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                      ::  . .: .:. .::...   :      . : ..  . .  : :
+sp|P17       MVVVAAAPNPADGTPKVLLLSGQPASAAGAPAGQALPLMVPAQRGASPEAASGG
+                     10        20        30        40        50    
+
+               70         80        90       100       110         
+sp|Q1X QELPVPKTNLPPRKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME
+           .:..    ::: . :.   :.. ..: :.::.::::.:.::. .: .::.. ...:
+sp|P17 ----LPQA----RKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLE
+                   60        70        80        90       100      
+
+     120              130       140             150       160      
+sp|Q1X QQNQFLL-------QRLSQMEAENNRLSQQL------AQLAAEVRGSRANTPMPGSPATA
+       ..:: ::       ..   . .::..: :.:      :.  ::..:...  :. ::  .:
+sp|P17 EENQKLLLENQLLREKTHGLVVENQELRQRLGMDALVAEEEAEAKGNEVR-PVAGSAESA
+        110       120       130       140       150        160     
+
+        170       180       190       200       210       220      
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGD
+       .  :   : . . .  ::. :                                       
+sp|P17 ALRLRAPLQQVQAQLSPLQNISPWILAVLTLQIQSLISCWAFWTTWTQSCSSNALPQSLP
+         170       180       190       200       210       220     
+
+>>sp|P13346|FOSB_MOUSE Protein fosB OS=Mus musculus GN=F  (338 aa)
+ initn:  80 init1:  80 opt: 175  Z-score: 175.2  bits: 40.8 E(516081): 0.031
+Smith-Waterman score: 175; 25.7% identity (50.9% similar) in 222 aa overlap (9-222:76-290)
+
+                                     10         20        30       
+sp|Q1X                       MSCDMEKTMSSVDSLPATP-ASEVPVLTVSPAD---TS
+                                     .::. .  . : ::. :.  :.: :   ::
+sp|P13 GLGEMPGSFVPTVTAITTSQDLQWLVQPTLISSMAQSQGQPLASQPPA--VDPYDMPGTS
+          50        60        70        80        90         100   
+
+           40        50          60        70          80        90
+sp|Q1X LNSADVKTQEVKPEEKK--PAKKRKSWGQELPVPKTNLP--PRKRAKTEDEKEQRRIERV
+        ..  ...  .     .  :. .  . :     :    :  ::... : .:.:.::..: 
+sp|P13 YSTPGLSAYSTGGASGSGGPSTSTTTSGPVSARPARARPRRPREETLTPEEEEKRRVRRE
+           110       120       130       140       150       160   
+
+              100       110       120       130       140       150
+sp|Q1X LRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV
+        ::. ::   :.:.:   ..:. :  :.:...  : ....... :..::   :.      
+sp|P13 -RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGC
+            170       180       190       200       210       220  
+
+              160       170       180       190       200       210
+sp|Q1X RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+       .    . : ::  : .     :   . ..: .     : : : :   :    : .:. : 
+sp|P13 KIPYEEGPGPGPLAEVRDL--PGSTSAKEDGFGWLLPPPPPPPLPFQSSRDAPPNLTAS-
+            230       240         250       260       270          
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+        .  :  :.: :                                                
+sp|P13 -LFTHSEVQVLGDPFPVVSPSYTSSFVLTCPEVSAFAGAQRTSGSEQPSDPLNSPSLLAL
+      280       290       300       310       320       330        
+
+>>sp|Q8W191|HYH_ARATH Transcription factor HY5-like OS=A  (149 aa)
+ initn: 148 init1: 148 opt: 165  Z-score: 170.6  bits: 38.8 E(516081): 0.056
+Smith-Waterman score: 165; 35.2% identity (76.1% similar) in 71 aa overlap (73-143:68-138)
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+                                     :.:...  .:: : ..:.::::..:: .::
+sp|Q8W GSTCVLSSSADDGVNNPELDQTQNGVSTAKRRRGRNPVDKEYRSLKRLLRNRVSAQQARE
+        40        50        60        70        80        90       
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       ::.. .  ::..  .....:. : ...: .  ::. : ..:                   
+sp|Q8W RKKVYVSDLESRANELQNNNDQLEEKISTLTNENTMLRKMLINTRPKTDDNH        
+       100       110       120       130       140                 
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+
+>>sp|P53539|FOSB_HUMAN Protein fosB OS=Homo sapiens GN=F  (338 aa)
+ initn:  80 init1:  80 opt: 169  Z-score: 169.5  bits: 39.8 E(516081): 0.064
+Smith-Waterman score: 169; 25.7% identity (49.5% similar) in 222 aa overlap (9-222:76-290)
+
+                                     10         20        30       
+sp|Q1X                       MSCDMEKTMSSVDSLPATP-ASEVPVLTVSPAD---TS
+                                     .::. .  . : ::. ::  :.: :   ::
+sp|P53 GLGEMPGSFVPTVTAITTSQDLQWLVQPTLISSMAQSQGQPLASQPPV--VDPYDMPGTS
+          50        60        70        80        90         100   
+
+           40        50          60        70          80        90
+sp|Q1X LNSADVKTQEVKPEEKK--PAKKRKSWGQELPVPKTNLP--PRKRAKTEDEKEQRRIERV
+        ..  ..         .  :. .  . :     :    :  ::... : .:.:.::..: 
+sp|P53 YSTPGMSGYSSGGASGSGGPSTSGTTSGPGPARPARARPRRPREETLTPEEEEKRRVRRE
+           110       120       130       140       150       160   
+
+              100       110       120       130       140       150
+sp|Q1X LRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV
+        ::. ::   :.:.:   ..:. :  :.:...  : ....... :..::   :.      
+sp|P53 -RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGC
+            170       180       190       200       210       220  
+
+              160       170       180       190       200       210
+sp|Q1X RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+       .    . : ::  : .     :     ..: .     : : : :   .    : .:. : 
+sp|P53 KIPYEEGPGPGPLAEVRDL--PGSAPAKEDGFSWLLPPPPPPPLPFQTSQDAPPNLTAS-
+            230       240         250       260       270          
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+        .  :  :.: :                                                
+sp|P53 -LFTHSEVQVLGDPFPVVNPSYTSSFVLTCPEVSAFAGAQRTSGSDQPSDPLNSPSLLAL
+      280       290       300       310       320       330        
+
+>>sp|Q6QDP7|CR3L2_RAT Cyclic AMP-responsive element-bind  (521 aa)
+ initn: 135 init1: 135 opt: 182  Z-score: 179.2  bits: 42.2 E(516081): 0.018
+Smith-Waterman score: 182; 23.4% identity (52.6% similar) in 291 aa overlap (18-297:234-518)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .:.  .:    . . . : .:  : :   :
+sp|Q6Q PTPPSSHSSDSEGSLSPNPRLHPFSLSQAHSPGRAMPRGPSALSTSPLLTAPHKLQGSGP
+           210       220       230       240       250       260   
+
+        50        60        70        80        90       100       
+sp|Q1X EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE
+             .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::..:.  
+sp|Q6Q LVLTEEEKRTLIAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEY
+           270       280            290       300       310        
+
+       110       120       130       140       150        160      
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMPGSPATA
+       :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . :. . .
+sp|Q6Q MDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLAGTQTGT
+      320       330       340       350       360       370        
+
+        170       180       190          200         210           
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---AQHPAV
+          ..   :      :      .:. .   : .  :  .: :  ...: ..    .: ..
+sp|Q6Q CLMVVVLCFAVAFGSLFQGYGLYPSATKMALPSQHPLSEPYTASVVRSRNLLIYEEHSSL
+      380       390       400       410       420       430        
+
+      220       230       240       250       260       270        
+sp|Q1X SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV-FEDGL
+         ..  .... :  .: ::.: . :.   : :  :   . ..  ..:.: .  . ... :
+sp|Q6Q EESSSPASAGELGGWDRGSSLLRASSGLEALPEVDLP-HFIISKETSLEKSVLLELQQHL
+      440       450       460       470        480       490       
+
+       280        290       300       310       320       330      
+sp|Q1X AFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRC
+       . . :::.. :..  ..  ::                                       
+sp|Q6Q VSSKLEGNETLKVVELERRVNATF                                    
+       500       510       520                                     
+
+>>sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-bi  (456 aa)
+ initn: 171 init1: 141 opt: 188  Z-score: 185.6  bits: 43.2 E(516081): 0.0081
+Smith-Waterman score: 188; 26.2% identity (53.3% similar) in 240 aa overlap (48-275:213-434)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q3S SSGDLQQHHLAAPHLLRPGTGHCQELVLTEDEKKLLAKE---GITLP---TQLPLTKY--
+            190       200       210       220             230      
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. ::..      ::: : ... ..: .: 
+sp|Q3S --EERMLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNL
+            240       250       260       270       280       290  
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGS---------PATASPTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ... . :.            . :...:  : ..: : : .  :
+sp|Q3S SLLEQLKKLQAIVVQSTSKSAQTGTCIAVLLFSFALIVLPSISP--FASNRAESPGDFAP
+            300       310       320       330         340       350
+
+         190       200       210       220       230       240     
+sp|Q1X ---FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+          :     .: .  . :.: : .:. :  :. ....:.  . . :     .. . ..: 
+sp|Q3S VRVFSRTLHNDAASRVAPDT-APGSE-APGPGPNTGALQERSPGSP----PGEWESQDTR
+              360       370         380       390           400    
+
+         250       260       270       280       290       300     
+sp|Q1X DVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTL
+        .     : : . : .:.:  : :.... :                              
+sp|Q3S ALDNSTEDLDNSTLVQGNSVKELDQATLLDCAPPEPAVSPGHVGLEAAGGEL        
+          410       420       430       440       450              
+
+>>sp|Q9TUB3|FOSB_CANFA Protein fosB OS=Canis familiaris   (338 aa)
+ initn:  80 init1:  80 opt: 166  Z-score: 166.7  bits: 39.3 E(516081): 0.091
+Smith-Waterman score: 172; 28.8% identity (51.3% similar) in 191 aa overlap (72-237:145-332)
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+                                     ::... : .:.:.::..:  ::. ::   :
+sp|Q9T GGASGSGGPSTSGTTSGPGPARPARARLRRPREETLTPEEEEKRRVRRE-RNKLAAAKCR
+          120       130       140       150       160        170   
+
+             110       120       130       140       150       160 
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPG
+       .:.:   ..:. :  :.:...  : ....... :..::   :.      .    . : ::
+sp|Q9T NRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGCKIPYEEGPGPG
+           180       190       200       210       220       230   
+
+                                170       180       190            
+sp|Q1X S-------PATAS------------PTLTPTLFKQERDELPLERIPFPTPS----LSDYS
+               :..::            :   :  :.  .:  :     . : :    :.:  
+sp|Q9T PLAEVRDLPGSASTKEDGFSWLLPPPPAPPLPFQTSQDAAPNLTASLFTHSEVQVLGDPF
+           240       250       260       270       280       290   
+
+      200       210       220         230       240       250      
+sp|Q1X PTLKPSTLAESSDVAQHPAVSV-AGLE-GDGSALPLFDLGSDLKHHSTDDVAAPLSDDDF
+       :...::    :: :   : ::. :: .  .::  :   :.:                   
+sp|Q9T PVVNPSY--TSSFVLTCPEVSAFAGTQRPSGSDQPTDPLNSPSLLAL             
+           300         310       320       330                     
+
+        260       270       280       290       300       310      
+sp|Q1X NRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPD
+
+>>sp|Q06507|ATF4_MOUSE Cyclic AMP-dependent transcriptio  (349 aa)
+ initn: 123 init1:  91 opt: 165  Z-score: 165.6  bits: 39.1 E(516081): 0.11
+Smith-Waterman score: 165; 28.4% identity (61.5% similar) in 148 aa overlap (18-160:212-349)
+
+                            10        20        30          40     
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD--VKTQEV
+                                     ::...   . .:: .. :.: .   .:...
+sp|Q06 GSEVDISEGDRKPDSAAYITLIPPCVKEEDTPSDNDSGICMSP-ESYLGSPQHSPSTSRA
+             190       200       210       220        230       240
+
+           50        60        70          80        90       100  
+sp|Q1X KPEE-KKPAKKRKSWGQELPVPKTNLPP--RKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+        :..  .:. .: :     : ::   ::     ::.. :: ....... .:..::   :.
+sp|Q06 PPDNLPSPGGSRGS-----PRPKPYDPPGVSLTAKVKTEKLDKKLKKMEQNKTAATRYRQ
+              250            260       270       280       290     
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       .:: :.: : .:  ..:..:. : .. ...  :     : : .:  ::: .:..  .:  
+sp|Q06 KKRAEQEALTGECKELEKKNEALKEKADSLAKEI----QYLKDLIEEVRKARGQKRVP  
+         300       310       320           330       340           
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+
+>>sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element-bind  (470 aa)
+ initn: 153 init1: 153 opt: 174  Z-score: 172.3  bits: 40.8 E(516081): 0.045
+Smith-Waterman score: 174; 26.7% identity (52.6% similar) in 247 aa overlap (48-284:214-438)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q5F GGGDLQQHPLAASQLLGPGSGHCQELVLTEDEKKLLAKE---GVTLP---TQLPLTKY--
+           190       200       210       220             230       
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. :::.      ::: : ... ..: .: 
+sp|Q5F --EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQRKVLHLEKQNL
+           240       250       260       270       280       290   
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGSPATAS---------PTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ..    :.  ..          :...:  :  .. . : . ::
+sp|Q5F SLLEQLKHLQALVVQSTSKPAHAGTCIAVLLLSFVLIILPSISP--FTANKVDSPGDFIP
+           300       310       320       330         340       350 
+
+      190       200        210       220       230       240       
+sp|Q1X FPTPSLSDYSPTLKPSTLAE-SSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDV
+            .  .: ::.  . .. . ::.  : :  .  .:....:   : :. :.    :: 
+sp|Q5F -----VRVFSRTLHNHAASRVAPDVTPGPEVP-GPHKGSSGGLSA-DWGNFLEIPMLDD-
+                  360       370        380       390        400    
+
+       250       260       270       280       290       300       
+sp|Q1X AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+         :  . : . :  ..:. .   ... : .: . : :                       
+sp|Q5F --PTEELDNTTLVLANSTEDLGRATLLDWVASEPLLGQMGLEIPGEEIWLSWVPRWLRVR
+             410       420       430       440       450       460 
+
+       310       320       330       340     
+sp|Q1X IEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                             
+sp|Q5F VVQDALGVL                             
+             470                             
+
+>>sp|Q90370|MAFB_COTJA Transcription factor MafB OS=Cotu  (311 aa)
+ initn: 102 init1: 102 opt: 161  Z-score: 162.5  bits: 38.4 E(516081): 0.16
+Smith-Waterman score: 161; 27.3% identity (62.6% similar) in 139 aa overlap (29-163:171-307)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     .:. .: .: ...:.. .   .. .. : :
+sp|Q90 HHQYPAVTHEDLAGSGHPHHHHHHHHHASPTPSTSSSSSQQLQTSHQQHPPSSSVEDRFS
+              150       160       170       180       190       200
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.::    .:.:  :.:.::. ::. : ..  . ..:::::
+sp|Q90 DDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSCRYKRVQQKHHLENEK
+              210       220       230         240       250        
+
+         120       130       140        150       160       170    
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLTPTL
+        :. :: . : :.....  : .  . .  .::..  : . ...  :.::           
+sp|Q90 TQLIQQVEQLKQEVTRLARERDAYKLKCEKLASNGFREAGSTSDNPSSPEFFM       
+      260       270       280       290       300       310        
+
+          180       190       200       210       220       230    
+sp|Q1X FKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+
+>>sp|Q90888|MAFB_CHICK Transcription factor MafB OS=Gall  (311 aa)
+ initn: 102 init1: 102 opt: 161  Z-score: 162.5  bits: 38.4 E(516081): 0.16
+Smith-Waterman score: 161; 27.3% identity (62.6% similar) in 139 aa overlap (29-163:171-307)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     .:. .: .: ...:.. .   .. .. : :
+sp|Q90 HHQYPAVTHEDLAGSGHPHHHHHHHHQASPTPSTSSSSSQQLQTSHQQHPPSSSVEDRFS
+              150       160       170       180       190       200
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.::    .:.:  :.:.::. ::. : ..  . ..:::::
+sp|Q90 DDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSCRYKRVQQKHHLENEK
+              210       220       230         240       250        
+
+         120       130       140        150       160       170    
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLTPTL
+        :. :: . : :.....  : .  . .  .::..  : . ...  :.::           
+sp|Q90 TQLIQQVEQLKQEVTRLARERDAYKLKCEKLASNGFREAGSTSDNPSSPEFFM       
+      260       270       280       290       300       310        
+
+          180       190       200       210       220       230    
+sp|Q1X FKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+
+>>sp|O97930|FOS_PIG Proto-oncogene c-Fos OS=Sus scrofa G  (380 aa)
+ initn: 100 init1:  68 opt: 166  Z-score: 166.1  bits: 39.3 E(516081):  0.1
+Smith-Waterman score: 166; 28.4% identity (52.4% similar) in 250 aa overlap (9-237:55-297)
+
+                                     10        20           30     
+sp|Q1X                       MSCDMEKTMSSVDSLPATPASEV-PVLT--VSPADTSL
+                                     .:::. .:.. :  . : :   :.:. .: 
+sp|O97 DSLSYYHSPADSFSSMGSPVNAQDFCTDLAVSSVNFIPTVTAISISPDLQWLVQPTLVS-
+           30        40        50        60        70        80    
+
+          40            50        60        70            80       
+sp|Q1X NSADVKTQEVKP----EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTE----DEKEQRRI
+       . :  .:.  .:      .  : .: .  . .:  ...   : :.:.:    .:.:.:::
+sp|O97 SVAPSQTRAPHPYGVPTPSAGAYSRAGAVKTMPGGRAQSIGR-RGKVEQLSPEEEEKRRI
+            90       100       110       120        130       140  
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+       .:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::   
+sp|O97 RRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHR
+             150       160       170       180       190       200 
+
+       150       160       170          180          190       200 
+sp|Q1X AEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTL
+          .    .  .:   ..::  :.   :     : .:   :::   : : ::.    :. 
+sp|O97 PACKIPD-DLGFPEEMSVASLDLSGGLPEAATPESEEAFTLPLLNDPEPKPSVE---PVK
+              210       220       230       240       250          
+
+                210       220       230        240       250       
+sp|Q1X KPSTL---AESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFN
+       : :..   ::  :    :: :  :    . ..: .:: ::                    
+sp|O97 KVSSMELKAEPFDDFLFPASSRPGGSETARSVPDMDLSGSFYAADWEPLHGGSLGMGPMA
+       260       270       280       290       300       310       
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|O97 TELEPLCTPVVTCTPSCTAYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTL
+       320       330       340       350       360       370       
+
+>>sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-bi  (479 aa)
+ initn: 196 init1: 147 opt: 170  Z-score: 168.4  bits: 40.1 E(516081): 0.073
+Smith-Waterman score: 177; 27.0% identity (54.1% similar) in 233 aa overlap (48-258:214-432)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q91 GSGDLQQHSLAASQLLGPGSGHCQELVLTEDEKKLLAKE---GVTLP---TQLPLTKY--
+           190       200       210       220             230       
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. :::.      ::: : ... ..: .: 
+sp|Q91 --EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQRKVLHLEKQNL
+           240       250       260       270       280       290   
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGSPATAS---------PTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ..    :.  ..          :...:  :.... . : . .:
+sp|Q91 SLLEQLKHLQALVVQSTSKPAHAGTCIAVLLLSFALIILPSISP--FNSNKVDSPGDFVP
+           300       310       320       330         340       350 
+
+             190       200       210          220        230       
+sp|Q1X -------FPTPSLSDYSPTLKPSTLAESS--DVAQ-HPAVSVAGLEGD-GSAL--PLFDL
+              . . . :  .: . :.. . .   ::.  : . : .:: .: :. :  :..: 
+sp|Q91 VRVFSRTLHNHAASRVAPDVTPGSEVPGPWPDVGTPHKGPSSGGLSADWGNFLEIPMLDN
+             360       370       380       390       400       410 
+
+         240       250       260       270       280       290     
+sp|Q1X GSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSM
+        ..   .::  .:   : .:..:                                     
+sp|Q91 LTEELDNSTLVLAN--STEDLGRATLLDWVASEPLLSPGRVGLEIPGEMWLSWVPRWLRV
+             420         430       440       450       460         
+
+>>sp|P18848|ATF4_HUMAN Cyclic AMP-dependent transcriptio  (351 aa)
+ initn: 123 init1:  91 opt: 159  Z-score: 160.0  bits: 38.1 E(516081): 0.22
+Smith-Waterman score: 159; 31.6% identity (64.3% similar) in 98 aa overlap (66-160:258-351)
+
+          40        50        60        70           80        90  
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR---AKTEDEKEQRRIERVLR
+                                     ::   :: ..   ::.. :: ....... .
+sp|P18 YLGSPQHSPSTRGSPNRSLPSPGVLCGSARPKPYDPPGEKMVAAKVKGEKLDKKLKKMEQ
+       230       240       250       260       270       280       
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :..::   :..:: :.: : .:  ..:..:. : .: ...  :     : : .:  ::: 
+sp|P18 NKTAATRYRQKKRAEQEALTGECKELEKKNEALKERADSLAKEI----QYLKDLIEEVRK
+       290       300       310       320       330           340   
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       .:..  .:                                                    
+sp|P18 ARGKKRVP                                                    
+           350                                                     
+
+>>sp|O88479|FOS_MESAU Proto-oncogene c-Fos OS=Mesocricet  (381 aa)
+ initn:  87 init1:  55 opt: 159  Z-score: 159.5  bits: 38.1 E(516081): 0.23
+Smith-Waterman score: 159; 25.9% identity (49.0% similar) in 247 aa overlap (2-237:57-298)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|O88 LSYYHSPADSFSSMGSPVNAQDFCTDLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|O88 PSQTRAPHPYGVPTPSTGAYSRAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|O88 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:    .::  ::   :     : .:   :::   : : :::   .   .
+sp|O88 ACKIPD-DLGFPEEMFVASLDLTGGLPEATTPESEEAFSLPLLNDPEPKPSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220        230        240       250       260
+sp|Q1X PSTLAESSDVAQHPAVSV-AGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLF
+           ::  :    :: :  .: :  . ..: .:: ::                       
+sp|O88 VELKAEPFDDFLFPASSRPSGSETTARSVPDMDLSGSFYAADWEPLHSSSLGMGPMVTEL
+             270       280       290       300       310       320 
+
+              270       280       290       300       310       320
+sp|Q1X HGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTC
+                                                                   
+sp|O88 EPLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL
+             330       340       350       360       370       380 
+
+>>sp|P01101|FOS_MOUSE Proto-oncogene c-Fos OS=Mus muscul  (380 aa)
+ initn:  94 init1:  62 opt: 158  Z-score: 158.6  bits: 37.9 E(516081): 0.26
+Smith-Waterman score: 158; 25.2% identity (48.8% similar) in 246 aa overlap (2-237:57-297)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|P01 LSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   . :: .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|P01 PSQTRAPHPYGLPTQSAGAYARAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|P01 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:   ..::  ::   :     : .:   :::   : : :::   .   .
+sp|P01 ACKIPD-DLGFPEEMSVASLDLTGGLPEASTPESEEAFTLPLLNDPEPKPSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220       230        240       250       260 
+sp|Q1X PSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLFH
+           ::  :    :: :  .    . ..:  :: ::                        
+sp|P01 VELKAEPFDDFLFPASSRPSGSETSRSVPDVDLSGSFYAADWEPLHSNSLGMGPMVTELE
+             270       280       290       300       310       320 
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+                                                                   
+sp|P01 PLCTPVVTCTPGCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL 
+             330       340       350       360       370       380 
+
+>>sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-bi  (461 aa)
+ initn: 140 init1: 140 opt: 163  Z-score: 162.1  bits: 38.9 E(516081): 0.16
+Smith-Waterman score: 163; 26.4% identity (52.7% similar) in 201 aa overlap (48-236:218-404)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q68 SSGDLQQHHLGASYLLRPGAGHCQELVLTEDEKKLLAKE---GITLP---TQLPLTKY--
+       190       200       210       220          230              
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. ::..      ::: : ... ..: .: 
+sp|Q68 --EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNL
+       240       250       260       270       280       290       
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGSPATAS---------PTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ... . :. ...          :...:  :  .. : : .  :
+sp|Q68 SLLEQLKKLQAIVVQSTSKSAQTGTCVAVLLLSFALIILPSISP--FGPNKTESPGDFAP
+       300       310       320       330       340         350     
+
+         190       200       210       220       230       240     
+sp|Q1X ---FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+          :     .: .  .  ...  :   . .: ....  :. ::  :  : :         
+sp|Q68 VRVFSRTLHNDAASRVAADAVPGSEAPGPRPEADTTREESPGS--PGADWGFQDTANLTN
+         360       370       380       390         400       410   
+
+         250       260       270       280       290       300     
+sp|Q1X DVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTL
+                                                                   
+sp|Q68 STEELDNATLVLRNATEGLGQVALLDWVAPGPSTGSGRAGLEAAGDEL            
+           420       430       440       450       460             
+
+>>sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive element-bi  (395 aa)
+ initn: 145 init1: 145 opt: 158  Z-score: 158.3  bits: 37.9 E(516081): 0.27
+Smith-Waterman score: 158; 29.3% identity (56.0% similar) in 150 aa overlap (54-199:192-329)
+
+            30        40        50        60         70        80  
+sp|Q1X PVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEK
+                                     ....  ::: . .: ..::  :     .:.
+sp|Q8T AHAHILPRAGTVAPVPCTTLLPCQTLFLTDEEKRLLGQEGVSLP-SHLPLTK----AEER
+             170       180       190       200        210          
+
+             90       100       110       120       130       140  
+sp|Q1X EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ
+         ....: .::. .:: ::.::.  .. ::..      ::: : ......: .:  :  :
+sp|Q8T VLKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSAQNQELQKKVQELERHNISLVAQ
+        220       230       240       250       260       270      
+
+            150       160       170       180          190         
+sp|Q1X LAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF---PTPSLSDYSP
+       : :: . .    :.:   .. : .:  .   ::.     ::    ::   :  .  ::.:
+sp|Q8T LRQLQTLI----AQTS--NKAAQTSTCVLILLFSLALIILP-SFSPFQSRPEAGSEDYQP
+        280             290       300       310        320         
+
+     200       210       220       230       240       250         
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRL
+                                                                   
+sp|Q8T HGVTSRNILTHKDVTENLETQVVESRLREPPGAKDANGSTRTLLEKMGGKPRPSGRIRSV
+     330       340       350       360       370       380         
+
+>>sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF2 OS  (401 aa)
+ initn: 115 init1: 115 opt: 158  Z-score: 158.2  bits: 37.9 E(516081): 0.27
+Smith-Waterman score: 158; 28.6% identity (61.3% similar) in 119 aa overlap (80-198:195-312)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     : .. .:..:.: :: .:. ::.::. .: 
+sp|Q99 QVKSTTSGSSRDHSDDDDELEGETETTRNGDPSDAKRVRRMLSNRESARRSRRRKQAHMT
+          170       180       190       200       210       220    
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT
+       .::..  :.. .:. ::.::...  . :  . .   : :...  ::.. :    .     
+sp|Q99 ELETQVSQLRVENSSLLKRLTDISQRYNDAAVDNRVLKADIETMRAKVKMAEETVKRVTG
+          230       240       250       260       270       280    
+
+     170       180       190       200       210       220         
+sp|Q1X LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSA
+       :.: .:..  .:.    .   . : :: :                               
+sp|Q99 LNP-MFQSMSSEISTIGMQSFSGSPSDTSADTTQDGSKQHFYQPAPTSHMPAQDQKIQNG
+           290       300       310       320       330       340   
+
+>>sp|Q5R9C9|ATF7_PONAB Cyclic AMP-dependent transcriptio  (483 aa)
+ initn: 108 init1: 108 opt: 159  Z-score: 158.1  bits: 38.2 E(516081): 0.28
+Smith-Waterman score: 159; 26.1% identity (62.7% similar) in 153 aa overlap (26-168:277-424)
+
+                    10        20        30        40          50   
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV--KPEEKKPA
+                                     ..:. :.: ...   ..: .  .:.  .::
+sp|Q5R PSGHPIPSEAKMRLKATLTHQVSSINGGCGMVVGSASTMVTARPEQSQILIQHPDAPSPA
+        250       260       270       280       290       300      
+
+            60        70        80        90       100       110   
+sp|Q1X KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN
+       . . : .:  :.:.:.   :.:  .... ..:: . . ::::::.  :....: . .::.
+sp|Q5R QPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEK
+        310         320         330       340       350       360  
+
+           120       130       140               150       160     
+sp|Q1X EKIQMEQQNQFLLQRLSQMEAENNRLSQQL--------AQLAAEVRGSRANTPMPGSPAT
+       .  .. .::  : .... .. :  .:.: :        . :  ...:   ..:  .:  :
+sp|Q5R KAEELTSQNIQLSNEVTLLRNEVAQLKQLLLAHKDCPVTALQKKTQG-YLESPKESSEPT
+            370       380       390       400        410       420 
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+       .::                                                         
+sp|Q5R GSPAPVIQHSSATAPSNGLSVRSAAEAVATSVLTQMASQRTELSMPIQSHVIMTPQSQSA
+             430       440       450       460       470       480 
+
+>>sp|P17544|ATF7_HUMAN Cyclic AMP-dependent transcriptio  (494 aa)
+ initn: 108 init1: 108 opt: 159  Z-score: 158.0  bits: 38.2 E(516081): 0.28
+Smith-Waterman score: 159; 26.1% identity (62.7% similar) in 153 aa overlap (26-168:288-435)
+
+                    10        20        30        40          50   
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV--KPEEKKPA
+                                     ..:. :.: ...   ..: .  .:.  .::
+sp|P17 PSGHPIPSEAKMRLKATLTHQVSSINGGCGMVVGTASTMVTARPEQSQILIQHPDAPSPA
+       260       270       280       290       300       310       
+
+            60        70        80        90       100       110   
+sp|Q1X KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN
+       . . : .:  :.:.:.   :.:  .... ..:: . . ::::::.  :....: . .::.
+sp|P17 QPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEK
+       320         330         340       350       360       370   
+
+           120       130       140               150       160     
+sp|Q1X EKIQMEQQNQFLLQRLSQMEAENNRLSQQL--------AQLAAEVRGSRANTPMPGSPAT
+       .  .. .::  : .... .. :  .:.: :        . :  ...:   ..:  .:  :
+sp|P17 KAEELTSQNIQLSNEVTLLRNEVAQLKQLLLAHKDCPVTALQKKTQG-YLESPKESSEPT
+           380       390       400       410       420        430  
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+       .::                                                         
+sp|P17 GSPAPVIQHSSATAPSNGLSVRSAAEAVATSVLTQMASQRTELSMPIQSHVIMTPQSQSA
+            440       450       460       470       480       490  
+
+>>sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive element-bi  (395 aa)
+ initn: 145 init1: 145 opt: 157  Z-score: 157.4  bits: 37.8 E(516081):  0.3
+Smith-Waterman score: 157; 29.3% identity (56.0% similar) in 150 aa overlap (54-199:192-329)
+
+            30        40        50        60         70        80  
+sp|Q1X PVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEK
+                                     ....  ::: . .: ..::  :     .:.
+sp|Q5U AHAHILPRAGTLAPVPCTTLLPCQTLFLTDEEKRLLGQEGVSLP-SHLPLTK----AEER
+             170       180       190       200        210          
+
+             90       100       110       120       130       140  
+sp|Q1X EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ
+         ....: .::. .:: ::.::.  .. ::..      ::: : ......: .:  :  :
+sp|Q5U VLKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSAQNQELQKKVQELERHNISLVAQ
+        220       230       240       250       260       270      
+
+            150       160       170       180          190         
+sp|Q1X LAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF---PTPSLSDYSP
+       : :: . .    :.:   .. : .:  .   ::.     ::    ::   :  .  ::.:
+sp|Q5U LRQLQTLI----AQTS--NKAAQTSTCVLILLFSLALIILP-SFSPFQGRPEAGPEDYQP
+        280             290       300       310        320         
+
+     200       210       220       230       240       250         
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRL
+                                                                   
+sp|Q5U HGVTSRNILTHKDITENLETQVVESRLREPPEAKDANDSTRTLLEKMGGKPRPSGRIGTV
+     330       340       350       360       370       380         
+
+>>sp|Q9Y5Q3|MAFB_HUMAN Transcription factor MafB OS=Homo  (323 aa)
+ initn: 119 init1: 119 opt: 154  Z-score: 155.8  bits: 37.2 E(516081): 0.37
+Smith-Waterman score: 154; 28.6% identity (57.1% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  :: .   
+sp|Q9Y AYPGAGVAHDELGPHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHATASATAAGG
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|Q9Y NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|Q9Y RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|Q9Y PSSPEFFL                                                    
+         320                                                       
+
+>>sp|P01102|FOS_MSVFB p55-v-Fos-transforming protein OS=  (381 aa)
+ initn:  94 init1:  62 opt: 155  Z-score: 155.7  bits: 37.4 E(516081): 0.37
+Smith-Waterman score: 155; 25.2% identity (48.8% similar) in 246 aa overlap (2-237:57-297)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|P01 LSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTVTATSTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   . :: .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|P01 PSQTRAPHPYGLPTQSAGAYARAEMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|P01 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDKKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:   ..::  ::   :     : .:   :::   : : :::   .   .
+sp|P01 ACKIPD-DLGFPEEMSVASLDLTGGLPEASTPESEEAFTLPLLNDPEPKPSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220       230        240       250       260 
+sp|Q1X PSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLFH
+           ::  :    :: :  .    . ..:  :: ::                        
+sp|P01 VELKAEPFDDFLFPASSRPSGSETSRSVPNVDLSGSFYAADWEPLHSNSLGMGPMVTELE
+             270       280       290       300       310       320 
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+                                                                   
+sp|P01 PLCTPVVTCTPLLRLPELTHAAGPVSSQRRQGSRHPDVPLPELVHYREEKHVFPQRFPST
+             330       340       350       360       370       380 
+
+>>sp|P51145|FOSL2_RAT Fos-related antigen 2 OS=Rattus no  (327 aa)
+ initn:  95 init1:  64 opt: 154  Z-score: 155.7  bits: 37.2 E(516081): 0.38
+Smith-Waterman score: 155; 23.1% identity (55.9% similar) in 229 aa overlap (12-216:38-261)
+
+                                  10        20           30        
+sp|Q1X                    MSCDMEKTMSSVDSLPATPASEVPVL---TVSPAD------
+                                     :: .:.. .. .:..   :..  :      
+sp|P51 NFDTSSRGSSGSPAHAESYSSGGGGQQKFRVD-MPGSGSAFIPTINAITTTSQDLQWMVQ
+        10        20        30         40        50        60      
+
+              40        50        60              70          80   
+sp|Q1X -TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPPRKRAK--TEDEKE
+        : ..: .    . .:    :. .     . :: :       :..  :.: .  . .:.:
+sp|P51 PTVITSMSNPYPRSHPYSPLPGLRSVPGHMALPRPGVIKTIGTTVGRRRRDEQLSPEEEE
+         70        80        90       100       110       120      
+
+            90       100       110       120       130       140   
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL
+       .:::.:  ::. ::   :.:.:   :::..:  ..:.... : ....... :...:  .:
+sp|P51 KRRIRRE-RNKLAAAKCRNRRRELTEKLQTETEELEEEKSGLQKEIAELQKEKEKLEFML
+        130        140       150       160       170       180     
+
+           150          160         170       180       190        
+sp|Q1X AQLAAEVRGS---RANTPMPGSPAT--ASPTLTPTLFKQERDELPLERIPFPTPSLSDYS
+       .  .   . :   : ..:  :  .   .. .. :.. :::    : :  :  . ...  .
+sp|P51 VAHGPVCKISPEERRSSPTSGVQSLRGTGSAVGPVVVKQEP---PEEDSPSSSAGMDKTQ
+         190       200       210       220          230       240  
+
+      200        210       220       230       240       250       
+sp|Q1X PT-LKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        . .:: ..: ..  ...:                                         
+sp|P51 RSVIKPISIAGGGFYGEEPLHTPIVVTSTPAITPGTSNLVFTYPSVLEQESPASPSESCS
+            250       260       270       280       290       300  
+
+>>sp|Q9UQ88|CD11A_HUMAN Cell division protein kinase 11A  (780 aa)
+ initn:  75 init1:  75 opt: 159  Z-score: 155.3  bits: 38.4 E(516081):  0.4
+Smith-Waterman score: 159; 28.9% identity (56.1% similar) in 173 aa overlap (42-208:92-255)
+
+              20        30        40        50        60        70 
+sp|Q1X VDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP
+                                     ... : ...:  :....: ..  : . .  
+sp|Q9U IRNSPYRREDSMEDRGEEDDSLAIKPPQQMSRKEKVHHRKDEKRKEKW-KHARVKEREHE
+              70        80        90       100        110       120
+
+              80        90       100          110       120        
+sp|Q1X PRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEM--EKLENEKIQMEQQNQFLLQR
+        ::: . :..: .:. ::  : . : . :: :: :::.  .: : :. . :::..   :.
+sp|Q9U RRKRHREEQDKARREWERQKRREMAREHSRRERDRLEQLERKRERERKMREQQKEQREQK
+              130       140       150       160       170       180
+
+      130       140        150         160       170       180     
+sp|Q1X LSQMEAENNRLSQQLA-QLAAEVRGSRAN--TPMPGSPATASPTLTPTLFKQERDELPLE
+         . .::. :  ..   ...:. :  : .    . .:  . ::   :    .:: ::   
+sp|Q9U ERERRAEERRKEREARREVSAHHRTMREDYSDKVKASHWSRSPPRPP----RERFELGDG
+              190       200       210       220           230      
+
+         190       200       210       220       230       240     
+sp|Q1X RIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+       :     :. .  .:. ::. : :                                     
+sp|Q9U R----KPGEARPAPAQKPAQLKEEKMEERDLLSDLQDISDSERKTSSAESSSAESGSGSE
+            240       250       260       270       280       290  
+
+>>sp|Q9WVS8|MK07_MOUSE Mitogen-activated protein kinase   (806 aa)
+ initn: 106 init1:  69 opt: 173  Z-score: 168.2  bits: 40.8 E(516081): 0.075
+Smith-Waterman score: 173; 27.0% identity (51.0% similar) in 259 aa overlap (3-236:429-680)
+
+                                           10          20        30
+sp|Q1X                             MSCDMEKTMSSVDSLP--ATPASEVPVLTVSP
+                                     : ::   :   .::  . :: ..  ::..:
+sp|Q9W IRFQPSLQPVASEPVCPDVEMPSPWAPSGDCAME---SPPPALPPCSDPAPDTVDLTLQP
+      400       410       420       430          440       450     
+
+               40        50              60        70         80   
+sp|Q1X ADTSLNSADVKTQEVKPEEKKPA------KKRKSWGQELPVPKTNLP-PRKRAKTEDEKE
+       :  . . :  : . .  .. : :      :. .:  .. :    . : ::: . ......
+sp|Q9W APPASELAPPKREGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQR
+         460       470       480       490       500       510     
+
+            90       100       110       120       130        140  
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR-LSQQ
+       .:. .:  : :      ::..: : :. :     .   .   :  :  . ..:.: : ..
+sp|Q9W EREEKR--RRRQERAKEREKRRQERERKERGAGTLGGPSTDPLAGL--VLSDNDRSLLER
+         520         530       540       550         560       570 
+
+            150       160        170        180        190         
+sp|Q1X LAQLAAEVRGSRANTPMPG-SPATASPTLTPTL-FKQERDEL-PLERIPFPT--PSLSDY
+        ...:     . : .: :. .:..:.:: :::   .:    : :   :: :.  :     
+sp|Q9W WTRMARPPAPAPAPAPAPAPAPSSAQPTSTPTGPVSQSTGPLQPAGSIPGPASQPVCPPP
+             580       590       600       610       620       630 
+
+       200               210       220         230       240       
+sp|Q1X SPTLKPS--------TLAESSDVAQHPAVSVAGLEGDGS--ALPLFDLGSDLKHHSTDDV
+       .:. .:.        :   .: .:..  :  .:: :.:.  .:: :  :           
+sp|Q9W GPVPQPAGPIPAPLQTAPSTSLLASQSLVPPSGLPGSGAPEVLPYFPSGPPPPDPGLTPQ
+             640       650       660       670       680       690 
+
+       250       260       270       280       290       300       
+sp|Q1X AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+                                                                   
+sp|Q9W PSTSESPDVNLVTQQLSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVAD
+             700       710       720       730       740       750 
+
+>>sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive element-bi  (428 aa)
+ initn: 130 init1: 130 opt: 155  Z-score: 155.1  bits: 37.4 E(516081): 0.41
+Smith-Waterman score: 155; 26.8% identity (54.0% similar) in 198 aa overlap (8-199:138-322)
+
+                                      10        20        30       
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVSP---ADTS
+                                     :. . ..  : ::.  : :::.    . : 
+sp|Q50 VSQTQHSLNINFPFDFNGWETGFLPDQAGGTQCASETPQAQPATGFP-LTVKDLLLSGTP
+       110       120       130       140       150        160      
+
+           40        50        60        70        80        90    
+sp|Q1X LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR
+        ..: :. :  .       .::    . . .:. ..:  :     .:.  ..:.: .::.
+sp|Q50 ETAAKVSQQSYQELILTEDEKRLLAKEGMTLPN-QFPLTKY----EERILKKIRRKIRNK
+        170       180       190        200           210       220 
+
+          100       110       120       130       140       150    
+sp|Q1X AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR
+        .:: ::..:.  .. ::..      .:. : ... :.:  :  : .:: .: : : .. 
+sp|Q50 QSAQESRKKKKEYIDGLESRMAACSAHNHELQRKVFQLEKCNISLMEQLRRLQALVMNG-
+             230       240       250       260       270       280 
+
+          160       170       180       190          200       210 
+sp|Q1X ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS---DYSPTLKPSTLAESSD
+       .: :. ..  .    :. ::.      ::  . ::   ..:   :.::            
+sp|Q50 SNKPVQAGTCVLVLLLSFTLIL-----LPNLK-PFTDTKVSQHGDFSPMRVQSRSLHNLQ
+              290       300             310       320       330    
+
+             220       230       240       250       260       270 
+sp|Q1X VAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSS
+                                                                   
+sp|Q50 SSRVLRNLDHPYSMTENAKILPRFPEDKTMEEIASLLGRLHRRPQFTEYDPESHNHSFDQ
+          340       350       360       370       380       390    
+
+>>sp|P15408|FOSL2_HUMAN Fos-related antigen 2 OS=Homo sa  (326 aa)
+ initn:  94 init1:  63 opt: 153  Z-score: 154.8  bits: 37.0 E(516081): 0.42
+Smith-Waterman score: 153; 24.9% identity (54.1% similar) in 233 aa overlap (4-222:39-253)
+
+                                          10         20        30  
+sp|Q1X                            MSCDMEKTMSS-VDSLPATPASEVPVLTVSPAD
+                                     ::  . :. . .. :  .:.     :.:  
+sp|P15 FDTSSRGSSGSPAHAESYSSGGGGQQKFRVDMPGSGSAFIPTINAITTSQDLQWMVQP--
+       10        20        30        40        50        60        
+
+             40        50        60              70          80    
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPPRKRAK--TEDEKEQ
+       : ..: .    . .:    :.       . :: :       :..  :.: .  . .:.:.
+sp|P15 TVITSMSNPYPRSHPYSPLPGLASVPGHMALPRPGVIKTIGTTVGRRRRDEQLSPEEEEK
+         70        80        90       100       110       120      
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       :::.:  ::. ::   :.:.:   :::. :  ..:.... : ....... :...:  .:.
+sp|P15 RRIRRE-RNKLAAAKCRNRRRELTEKLQAETEELEEEKSGLQKEIAELQKEKEKLEFMLV
+        130        140       150       160       170       180     
+
+          150          160         170       180       190         
+sp|Q1X QLAAEVRGS---RANTPMPG-SPA-TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSP
+         .   . :   : . : :: .:  ... ..  .. :::    :::          . ::
+sp|P15 AHGPVCKISPEERRSPPAPGLQPMRSGGGSVGAVVVKQE----PLE----------EDSP
+         190       200       210       220                     230 
+
+     200       210       220       230       240       250         
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRL
+       . . . : ...  . .: .:.::                                     
+sp|P15 SSSSAGLDKAQRSVIKP-ISIAGGFYGEEPLHTPIVVTSTPAVTPGTSNLVFTYPSVLEQ
+             240        250       260       270       280       290
+
+>>sp|Q8R0S1|ATF7_MOUSE Cyclic AMP-dependent transcriptio  (413 aa)
+ initn: 108 init1: 108 opt: 154  Z-score: 154.3  bits: 37.3 E(516081): 0.45
+Smith-Waterman score: 154; 27.5% identity (67.5% similar) in 120 aa overlap (26-143:277-392)
+
+                    10        20        30        40          50   
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV--KPEEKKPA
+                                     ..:. :.: ...   ..: .  .:.  .::
+sp|Q8R PSGHPMPSEAKMRLKATLTHQVSSINGGCGMVVGTASTMVTARPEQNQILIQHPDAPSPA
+        250       260       270       280       290       300      
+
+            60        70        80        90       100       110   
+sp|Q1X KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN
+       . . : .:  :.:.:.   :.:  .... ..:: . . ::::::.  :....: . .::.
+sp|Q8R QPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEK
+        310         320         330       340       350       360  
+
+           120       130       140       150       160       170   
+sp|Q1X EKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPT
+       .  .. .::  : .... .. :  .:.: :                              
+sp|Q8R KAEELTSQNIQLSNEVTLLRNEVAQLKQLLLAHKDCPVTALQKKTQGYLGK         
+            370       380       390       400       410            
+
+>>sp|P29747|CREBA_DROME Cyclic AMP response element-bind  (516 aa)
+ initn: 190 init1: 128 opt: 155  Z-score: 154.0  bits: 37.5 E(516081): 0.47
+Smith-Waterman score: 155; 30.4% identity (55.4% similar) in 148 aa overlap (8-150:370-508)
+
+                                      10        20          30     
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVS--PADTSL
+                                     : ::  :  :. .:   ..:..  :  : :
+sp|P29 LSPNATVSISVANPAGGESSVRVSRTAASITRSSSGSASASGSSTSSTVTTTRQPIHTPL
+     340       350       360       370       380       390         
+
+          40           50        60        70        80        90  
+sp|Q1X NSADVKTQE---VKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        :.. : .    .  ::.:    :   ..  :.:. .::  :     .::  ..:.: ..
+sp|P29 ISSQPKGSTGTLLLTEEEK----RTLLAEGYPIPQ-KLPLTK----AEEKSLKKIRRKIK
+     400       410           420       430            440       450
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  :..:: .   .  .:.   .::  .:  :  : .:: .: : :  
+sp|P29 NKISAQESRRKKKEYMDQLERRVEILVTENHDYKKRLEGLEETNANLLSQLHKLQALVSK
+              460       470       480       490       500       510
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+                                                                   
+sp|P29 HNVKKS                                                      
+                                                                   
+
+>>sp|Q2PFS4|MAFB_MACFA Transcription factor MafB OS=Maca  (323 aa)
+ initn: 146 init1: 117 opt: 152  Z-score: 153.9  bits: 36.8 E(516081): 0.47
+Smith-Waterman score: 152; 28.6% identity (57.1% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  :: .   
+sp|Q2P AYPGAGVAHDELGPHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHATASATAAGG
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|Q2P NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|Q2P RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAHKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|Q2P PSSPEFFL                                                    
+         320                                                       
+
+>>sp|Q9R1S4|XBP1_RAT X-box-binding protein 1 OS=Rattus n  (267 aa)
+ initn: 156 init1: 109 opt: 152  Z-score: 155.0  bits: 36.8 E(516081): 0.41
+Smith-Waterman score: 152; 27.6% identity (56.4% similar) in 163 aa overlap (51-190:23-183)
+
+               30        40        50        60              70    
+sp|Q1X SEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPP-R
+                                     .::.  ..    .: :.      .. :  :
+sp|Q9R         MVVVAAAPSAASAAPKVLLLSGQPASGGRALPLMVPGPRAAGSEASGTPQAR
+                       10        20        30        40        50  
+
+             80        90       100       110       120            
+sp|Q1X KRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQ-------FL
+       :: . :.   :.. ..: :.::.::::.:.::. .: .::.. ...:..::       .:
+sp|Q9R KRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQKLQLENQLL
+             60        70        80        90       100       110  
+
+         130       140               150       160       170       
+sp|Q1X LQRLSQMEAENNRLSQQLAQLA--------AEVRGSRANTPMPGSPATASPTLTPTLFKQ
+        ..   .  ::..:  .:.. :        :: .:. .   . ::  .:.  :   : .:
+sp|Q9R REKTHGLVIENQELRTRLGMNALVTEEVSEAESKGNGVRL-VAGSAESAALRLRAPL-QQ
+            120       130       140       150        160        170
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+        . .:   .  ::                                               
+sp|Q9R VQAQLSPPQNIFPWILTLLPLQILSLISFWAFWTSWTLSCFSNVLPQSLLIWRNSQRSTQ
+              180       190       200       210       220       230
+
+>>sp|P54842|MAFB_RAT Transcription factor MafB OS=Rattus  (323 aa)
+ initn: 119 init1: 119 opt: 151  Z-score: 153.0  bits: 36.6 E(516081): 0.53
+Smith-Waterman score: 151; 27.9% identity (57.8% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  .: .  .
+sp|P54 GYPGAGVTHDELGPHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHAAAAATAAGS
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|P54 NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|P54 RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|P54 PSSPEFFL                                                    
+         320                                                       
+
+>>sp|P47930|FOSL2_MOUSE Fos-related antigen 2 OS=Mus mus  (326 aa)
+ initn:  94 init1:  63 opt: 151  Z-score: 152.9  bits: 36.7 E(516081): 0.54
+Smith-Waterman score: 151; 24.0% identity (56.3% similar) in 229 aa overlap (4-216:39-260)
+
+                                          10         20        30  
+sp|Q1X                            MSCDMEKTMSS-VDSLPATPASEVPVLTVSPAD
+                                     ::  . :. . .. :  .:.     :.:  
+sp|P47 FDTSSRGSSGSPAHAESYSSGGGGQQKFRVDMPGSGSAFIPTINAITTSQDLQWMVQP--
+       10        20        30        40        50        60        
+
+             40        50        60              70          80    
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPPRKRAK--TEDEKEQ
+       : ..: .    . .:    :.       . :: :       :..  :.: .  . .:.:.
+sp|P47 TVITSMSNPYPRSHPYSPLPGLASVPGHMALPRPGVIKTIGTTVGRRRRDEQLSPEEEEK
+         70        80        90       100       110       120      
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLS-QQL
+       :::.:  ::. ::   :.:.:   :::. :  ..:.... : ....... :...:  ...
+sp|P47 RRIRRE-RNKLAAAKCRNRRRELTEKLQAETEELEEEKSGLQKEIAELQKEKEKLEFMKV
+        130        140       150       160       170       180     
+
+                150       160       170       180       190        
+sp|Q1X A-----QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYS
+       :     ... : : :  .. . .  .:.: .. :.. :::    : :  :  . ...  .
+sp|P47 AHGPVCKISPEERRSPPTSGLQSLRGTGS-AVGPVVVKQEP---PEEDSPSSSAGMDKTQ
+         190       200       210        220          230       240 
+
+      200        210       220       230       240       250       
+sp|Q1X PT-LKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        . .:: ..: ..  ...:                                         
+sp|P47 RSVIKPISIAGGGFYGEEPLHTPIVVTSTPAITPGTSNLVFTYPNVLEQESPSSPSESCS
+             250       260       270       280       290       300 
+
+>>sp|Q2VZV0|IF2_MAGSA Translation initiation factor IF-2  (872 aa)
+ initn: 186 init1:  84 opt: 157  Z-score: 152.8  bits: 38.0 E(516081): 0.55
+Smith-Waterman score: 157; 33.6% identity (62.6% similar) in 107 aa overlap (16-119:188-291)
+
+                              10        20        30        40     
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV
+                                     :..::.  :: ...::  .     ..:.: 
+sp|Q2V QSEPEAAAPAAEPVAPTAPVAAAPAPAPATPVAPAQPKPVAAAAPAGDATAVPRARTEEE
+       160       170       180       190       200       210       
+
+          50        60        70           80        90       100  
+sp|Q1X KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK---TEDEKEQRRIERVLRNRAAAQTSRE
+       . ::.. :::: .  .  :: .:. : :. .:   :.   .. : ::  :. ::.. .::
+sp|Q2V EEEEER-AKKRAAAHKPAPVKRTE-PRRRTGKLTITDALTDDDRSERG-RSLAAVKRARE
+       220        230       240        250       260        270    
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       :.::.  .  .::.  :                                           
+sp|Q2V RERLKHMQKGSEKVIREVIVPESITVQELANRMAVRGADVIKCLMRLGVMATINQNIDAD
+          280       290       300       310       320       330    
+
+>>sp|Q0CEI3|KAPC_ASPTN Putative transcription factor kap  (286 aa)
+ initn:  70 init1:  70 opt: 150  Z-score: 152.7  bits: 36.4 E(516081): 0.55
+Smith-Waterman score: 150; 23.4% identity (53.7% similar) in 214 aa overlap (14-223:37-240)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     : :  :  ..:  ...:   . :.:. . :
+sp|Q0C PAPHPSMQTSAQDHADQVLHDQLLAAHQHLSHPQQPRPQAP--ATQPPHMQPNTASPRDQ
+         10        20        30        40          50        60    
+
+             50        60        70         80        90       100 
+sp|Q1X E-VKPEEKKPAKKRKSWGQELPVPKTNLP-PRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       . . :  .  :      :    .:    : :..  ::  ..     .:. .:::: .. :
+sp|Q0C NNIDPAISGSAI----LGAPPQTPPQPEPAPQESPKTYGKRPLSTSKRAAQNRAAQRAFR
+           70            80        90       100       110       120
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MP
+       .::.  ..:::.   :...: . . .. . ..::: .: . . .: ...  :....: .:
+sp|Q0C QRKESYIRKLEE---QVKHQ-EAITEEYKALHAENYQLREYIINLQTRLLDSQGEVPELP
+              130           140       150       160       170      
+
+              170       180        190       200       210         
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERI-PFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.    .:    ::   : ..       : :.    . :   . . .. ..:. .   ..
+sp|Q0C GNIDLNQPRADLTLSAPELQRGNAASAGPAPAGPGPQQSQPNQNQGVGPNDDMNSLNRIA
+        180       190       200       210       220       230      
+
+     220       230       240       250       260       270         
+sp|Q1X VAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       ::::                                                        
+sp|Q0C VAGLGMRKHPNEDANYLGNNFQARRPRTDDNQTGATETTKQEPDGLPVVS          
+        240       250       260       270       280                
+
+>>sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-bi  (404 aa)
+ initn: 145 init1: 145 opt: 181  Z-score: 179.7  bits: 41.9 E(516081): 0.017
+Smith-Waterman score: 181; 26.7% identity (56.0% similar) in 225 aa overlap (1-207:107-318)
+
+                                             10            20      
+sp|Q1X                               MSCDMEKTMSSV--DSLP--ATPASEVPVL
+                                     .::  .. ....  ...:   : . :   .
+sp|Q61 LGSSSSSILHDHNYSLPQEHVSIDLGECEMISCRGRRELTGLAGSTFPFADTESFEKEGF
+         80        90       100       110       120       130      
+
+         30        40          50        60        70        80    
+sp|Q1X TVSPADTSLNSADVKTQEV--KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ
+        :.:      .:. . ...    ::::  .:.   :  ::   ..::  :     .:.  
+sp|Q61 HVTPLPGEERAAEQEMSRLILTEEEKKLLEKE---GLTLP---STLPLTKV----EEQVL
+        140       150       160          170          180          
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       .:..: .::. ::: ::..:.. .  ::.. ...  ::. : ......: .:  : .:: 
+sp|Q61 KRVRRKIRNKRAAQESRKKKKVYVVGLESRVLKYTAQNRELQNKVQRLEEQNLSLLDQLR
+        190       200       210       220       230       240      
+
+          150       160             170        180            190  
+sp|Q1X QLAAEVRGSRANTPMPGSPA------TASPTLTPTLFKQE-RDELPLERIPF-----PTP
+       .: : :    ::    ::        .    :.:...... :  .: : . .       :
+sp|Q61 KLQAMVI-EIANKTSSGSTCVLVLVFSFCLLLVPAMYSSDARGSVPAEYVVLHRKLRALP
+        250        260       270       280       290       300     
+
+            200       210       220       230       240       250  
+sp|Q1X SLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLS
+       : .:..:  :::.:.                                             
+sp|Q61 SEDDHQP--KPSALSSELPMDSTHQSLDSSEHMFLVSSNFSCVLYHAPQAEQPLHWPLWD
+         310         320       330       340       350       360   
+
+>>sp|Q9ES19|ATF4_RAT Cyclic AMP-dependent transcription   (347 aa)
+ initn: 123 init1:  91 opt: 151  Z-score: 152.5  bits: 36.7 E(516081): 0.56
+Smith-Waterman score: 151; 30.9% identity (62.9% similar) in 97 aa overlap (66-160:255-347)
+
+          40        50        60        70          80        90   
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP--RKRAKTEDEKEQRRIERVLRN
+                                     ::   ::     ::.. :: ....... .:
+sp|Q9E SYLGSPQHSPSTSRAPPDSLPSPGVPRGSRPKPYDPPGVSVTAKVKTEKLDKKLKKMEQN
+          230       240       250       260       270       280    
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       ..::   :..:: :.: : .:  ..:..:. : .. ...  :     : : .:  ::: .
+sp|Q9E KTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSLAKEI----QYLKDLIEEVRKA
+          290       300       310       320           330       340
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+       :..  .:                                                     
+sp|Q9E RGKKRVP                                                     
+                                                                   
+
+>>sp|P54841|MAFB_MOUSE Transcription factor MafB OS=Mus   (323 aa)
+ initn: 119 init1: 119 opt: 150  Z-score: 152.0  bits: 36.5 E(516081):  0.6
+Smith-Waterman score: 150; 27.9% identity (57.1% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  .: .   
+sp|P54 GYPGAGVTHDDLGQHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHATAAATAAGG
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|P54 NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|P54 RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|P54 PSSPEFFL                                                    
+         320                                                       
+
+>>sp|O77628|FOS_BOVIN Proto-oncogene c-Fos OS=Bos taurus  (380 aa)
+ initn:  94 init1:  62 opt: 151  Z-score: 152.0  bits: 36.7 E(516081):  0.6
+Smith-Waterman score: 151; 24.0% identity (50.0% similar) in 246 aa overlap (2-237:57-297)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|O77 LSYYHSPADSFSSMGSPVNAQDYCTDLAVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .  . :  . :.   . . .   . .  . .:.:.:::.
+sp|O77 PSQTRAPHPYGVPTPSAGAYSRAGVMKTMTGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|O77 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:   ..::  :.   :     : .:   :::   : : ::.   . . .
+sp|O77 ACKIPD-DLGFPEEMSVASLDLSGGLPEAATPESEEAFTLPLLNDPEPKPSVEPVKSVGS
+             210       220       230       240       250       260 
+
+            210       220       230        240       250       260 
+sp|Q1X PSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLFH
+           ::  :  . :: :  .    . ..: .:: ::                        
+sp|O77 MELKAEPFDDYMFPASSRPSGSETARSVPDMDLSGSFYAADWEPLHGGSLGMGPMATELE
+             270       280       290       300       310       320 
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+                                                                   
+sp|O77 PLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL 
+             330       340       350       360       370       380 
+
+>>sp|A1C9M5|KAPC_ASPCL Putative transcription factor kap  (288 aa)
+ initn: 114 init1:  80 opt: 149  Z-score: 151.7  bits: 36.3 E(516081): 0.62
+Smith-Waterman score: 149; 20.8% identity (56.0% similar) in 159 aa overlap (66-223:83-237)
+
+          40        50        60        70        80        90     
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRA
+                                     :. .:  ..  ::  ..     .:. .:::
+sp|A1C HMQPTTPVARDQNNIDPAISGGAMLAGPQTPQPDLSGQESPKTYGKRPLSTSKRAAQNRA
+             60        70        80        90       100       110  
+
+         100       110       120       130       140       150     
+sp|Q1X AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA
+       : .. :.::. ... ::. :..  .    . . .. ..::: .: . . .: ...  ...
+sp|A1C AQRAFRQRKEAHIRDLEG-KVKAYET---MGEAIKALQAENYQLREYIINLQSRLLDTQG
+            120       130           140       150       160        
+
+          160       170       180       190       200       210    
+sp|Q1X NTP-MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQ
+       ..: .::.   ..:     .     .      .: : :.  .     . .. : ..:. .
+sp|A1C EVPELPGNIDLSQPRGDIPVPAPPTSGTSTSAVPVPPPTAPQQPQPAQNQASAPNDDMNS
+      170       180       190       200       210       220        
+
+          220       230       240       250       260       270    
+sp|Q1X HPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+          ..::::                                                   
+sp|A1C LNRIAVAGLGMRKPPTEEANYLGNSFQQQARRVRPDDGQPDASELTLPKQEPTHGLPLIS
+      230       240       250       260       270       280        
+
+>>sp|Q504L8|MAFB_XENTR Transcription factor MafB OS=Xeno  (316 aa)
+ initn: 139 init1: 109 opt: 149  Z-score: 151.2  bits: 36.3 E(516081): 0.67
+Smith-Waterman score: 149; 26.6% identity (62.6% similar) in 139 aa overlap (29-163:176-312)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     ::. .: .: ...... . .... .. : :
+sp|Q50 QYQGLPHEEMGLPHQHPHHHHHHHHHQPSPSPSGSSSSSQQLQNSHQQHQNSSAVEDRFS
+         150       160       170       180       190       200     
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.:.    .:.:  :.:.::. ::. : ..  . ..:::::
+sp|Q50 DDQLVSMSVRELNRHLRGFTKDDVIRLKQKR--RTLKNRGYAQSCRFKRVQQKHHLENEK
+         210       220       230         240       250       260   
+
+         120       130       140       150        160       170    
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV-RGSRANTPMPGSPATASPTLTPTL
+        :. :: . :  ..:..  : .  . .  .::  . : . ...  :.::           
+sp|Q50 TQLIQQVEQLKLEVSRLARERDAYKIKCEKLANTTFREAGSTSDNPSSPEFFM       
+           270       280       290       300       310             
+
+          180       190       200       210       220       230    
+sp|Q1X FKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+
+>>sp|O57342|MAFA_COTJA Transcription factor MafA OS=Cotu  (286 aa)
+ initn: 125 init1: 125 opt: 148  Z-score: 150.9  bits: 36.1 E(516081):  0.7
+Smith-Waterman score: 148; 34.1% identity (67.1% similar) in 85 aa overlap (83-167:201-281)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|O57 RFSDDQLVSMSVRELNRQLRGFSKEEVIRLKQKR--RTLKNRGYAQSCRYKRVQQRHILE
+              180       190       200         210       220        
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       ::: :...: . : :..:..  : .  ...  .:::  ::   .:  :..: :..     
+sp|O57 NEKCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA--RGFPRETSPPAAPKTTAADFFM
+      230       240       250       260         270       280      
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|Q3ZCH6|ATF4_BOVIN Cyclic AMP-dependent transcriptio  (348 aa)
+ initn: 123 init1:  91 opt: 149  Z-score: 150.6  bits: 36.3 E(516081): 0.72
+Smith-Waterman score: 149; 27.7% identity (61.0% similar) in 141 aa overlap (19-154:210-342)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     :...   . .:: :.::.: . . .  .  
+sp|Q3Z LCSEVVIPEGDSKPDSTTTGFPQCIKEEDAPSDNDSGICMSP-DSSLGSPQDSPSTSRG-
+     180       190       200       210       220        230        
+
+       50        60          70           80        90       100   
+sp|Q1X EKKPAKKRKSWG--QELPVPKTNLPPRKR---AKTEDEKEQRRIERVLRNRAAAQTSRER
+         .: :.  : :  .    ::   :: ..   ::.. :: ....... .:..::   :..
+sp|Q3Z --SPNKSLLSPGALSGSSRPKPYDPPGEKMVAAKVKGEKLDKKLKKMEQNKTAATRYRQK
+         240       250       260       270       280       290     
+
+           110       120       130       140       150       160   
+sp|Q1X KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSP
+       :: :.: : .:  ..:..:. : .. ...  : . :..:.     ::: .:         
+sp|Q3Z KRAEQEALTGECKELEKKNEALKEKADSLAKEIQYLKDQIE----EVRKAREKKRVL   
+         300       310       320       330           340           
+
+           170       180       190       200       210       220   
+sp|Q1X ATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL
+
+>>sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element-bind  (367 aa)
+ initn: 143 init1: 143 opt: 149  Z-score: 150.3  bits: 36.3 E(516081): 0.75
+Smith-Waterman score: 149; 33.3% identity (63.2% similar) in 87 aa overlap (60-146:170-252)
+
+      30        40        50        60        70        80         
+sp|Q1X PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER
+                                     :::  .  ..::  :     .:.  ..:.:
+sp|Q5U PRVSTIAPPPPAALLSCQRLFLTDEEKHLLGQEGVTLPSHLPLTK----AEERILKKIRR
+     140       150       160       170       180           190     
+
+      90       100       110       120       130       140         
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE
+        .::. .:: ::.::.  .. ::..     .::: : ......: .:  :  :. ::   
+sp|Q5U KIRNKQSAQDSRRRKKEYIDGLESRVAACSEQNQKLQRKVQELERQNISLVAQVHQLQKF
+         200       210       220       230       240       250     
+
+     150       160       170       180       190       200         
+sp|Q1X VRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAES
+                                                                   
+sp|Q5U TAQTSSRAAQTSTCVLILLFSLALIILPSFSPFQSQPEARSEGYQLHGVISRNILTHEDM
+         260       270       280       290       300       310     
+
+>>sp|P12841|FOS_RAT Proto-oncogene c-Fos OS=Rattus norve  (380 aa)
+ initn:  93 init1:  61 opt: 150  Z-score: 151.1  bits: 36.5 E(516081): 0.68
+Smith-Waterman score: 150; 27.6% identity (50.4% similar) in 250 aa overlap (8-237:54-297)
+
+                                      10        20           30    
+sp|Q1X                        MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPADTS
+                                     ..::.. .:.. : :  : :   :.:   .
+sp|P12 GDSLSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTVTAISTSPDLQWLVQP---T
+            30        40        50        60        70           80
+
+           40        50         60        70                 80    
+sp|Q1X LNSADVKTQEVKPEEKK-PAKKRKSWGQELPVPKTNLPPR-----KRAKTE----DEKEQ
+       : :. . .:   :.    :. .  ....   : ::    :     .:.:.:    .:.:.
+sp|P12 LVSSVAPSQTRAPHPYGLPTPSTGAYARA-GVVKTMSGGRAQSIGRRGKVEQLSPEEEEK
+               90       100        110       120       130         
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       :::.:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::
+sp|P12 RRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILA
+     140        150       160       170       180       190        
+
+          150       160       170          180          190        
+sp|Q1X QLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYS
+             .    .  .:   ...:  ::   :     : .:   :::   : : :::   .
+sp|P12 AHRPACKIPN-DLGFPEEMSVTSLDLTGGLPEATTPESEEAFTLPLLNDPEPKPSLEPVK
+      200        210       220       230       240       250       
+
+      200       210       220       230        240       250       
+sp|Q1X PTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFN
+          .    ::  :    :: :  .    . ..:  :: ::                    
+sp|P12 NISNMELKAEPFDDFLFPASSRPSGSETARSVPDVDLSGSFYAADWEPLHSSSLGMGPMV
+       260       270       280       290       300       310       
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|P12 TELEPLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTL
+       320       330       340       350       360       370       
+
+>>sp|Q16520|BATF_HUMAN Basic leucine zipper transcriptio  (125 aa)
+ initn: 127 init1: 127 opt: 143  Z-score: 151.0  bits: 34.9 E(516081): 0.69
+Smith-Waterman score: 143; 28.6% identity (56.2% similar) in 112 aa overlap (71-172:17-125)
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+                                     :: :. ...:    ::..:  .:: ::: :
+sp|Q16               MPHSSDSSDSSFSRSPPPGKQDSSDDV---RRVQRREKNRIAAQKS
+                             10        20           30        40   
+
+              110       120       130       140       150       160
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP
+       :.:.  . . :. :. ..:.::  : ....:.  : . ... : .         :.:: :
+sp|Q16 RQRQTQKADTLHLESEDLEKQNAALRKEIKQLTEELKYFTSVLNSHEPLCSVLAASTPSP
+            50        60        70        80        90       100   
+
+                        170       180       190       200       210
+sp|Q1X G----------SPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+                  .: ..:: . :                                      
+sp|Q16 PEVVYSAHAFHQPHVSSPRFQP                                      
+           110       120                                           
+
+>>sp|O35426|XBP1_MOUSE X-box-binding protein 1 OS=Mus mu  (267 aa)
+ initn: 149 init1: 103 opt: 149  Z-score: 152.2  bits: 36.2 E(516081): 0.59
+Smith-Waterman score: 149; 27.0% identity (57.7% similar) in 163 aa overlap (51-190:23-183)
+
+               30        40        50        60              70    
+sp|Q1X SEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPP-R
+                                     .::.  ..    .: :.      .. :  :
+sp|O35         MVVVAAAPSAATAAPKVLLLSGQPASGGRALPLMVPGPRAAGSEASGTPQAR
+                       10        20        30        40        50  
+
+             80        90       100       110       120            
+sp|Q1X KRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN-------QFL
+       :: . :.   :.. ..: :.::.::::.:.::. .: .::.. ...:..:       :.:
+sp|O35 KRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENHKLQLENQLL
+             60        70        80        90       100       110  
+
+         130       140               150       160       170       
+sp|Q1X LQRLSQMEAENNRLSQQLAQLA--------AEVRGSRANTPMPGSPATASPTLTPTLFKQ
+        ..   . .::..:  .:.. .        .:..:: .   . ::  .:.  :   : .:
+sp|O35 REKTHGLVVENQELRTRLGMDTLDPDEVPEVEAKGSGVRL-VAGSAESAALRLCAPL-QQ
+            120       130       140       150        160        170
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+        . .:   .  ::                                               
+sp|O35 VQAQLSPPQNIFPWTLTLLPLQILSLISFWAFWTSWTLSCFSNVLPQSLLVWRNSQRSTQ
+              180       190       200       210       220       230
+
+>>sp|P01100|FOS_HUMAN Proto-oncogene c-Fos OS=Homo sapie  (380 aa)
+ initn:  86 init1:  54 opt: 156  Z-score: 156.7  bits: 37.6 E(516081): 0.33
+Smith-Waterman score: 156; 28.2% identity (51.6% similar) in 248 aa overlap (9-237:55-297)
+
+                                     10        20           30     
+sp|Q1X                       MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPADTSL
+                                     .::.. .:.. : :  : :   :.:: .: 
+sp|P01 DSLSYYHSPADSFSSMGSPVNAQDFCTDLAVSSANFIPTVTAISTSPDLQWLVQPALVS-
+           30        40        50        60        70        80    
+
+          40        50        60        70                 80      
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR-----KRAKTE----DEKEQRR
+       . :  .:.  .:    :: .  ....   : ::    :     .:.:.:    .:.:.::
+sp|P01 SVAPSQTRAPHPF-GVPAPSAGAYSRA-GVVKTMTGGRAQSIGRRGKVEQLSPEEEEKRR
+            90        100        110       120       130       140 
+
+         90       100       110       120       130       140      
+sp|Q1X IERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL
+       :.:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::  
+sp|P01 IRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAH
+              150       160       170       180       190       200
+
+        150       160       170          180          190       200
+sp|Q1X AAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPT
+           .    .  .:   ..::  ::   : .   : .:   :::   : : ::.   .  
+sp|P01 RPACKIPD-DLGFPEEMSVASLDLTGGLPEVATPESEEAFTLPLLNDPEPKPSVEPVKSI
+               210       220       230       240       250         
+
+              210       220       230        240       250         
+sp|Q1X LKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRL
+        .    .:  :    :: :  .    . ..: .:: ::                      
+sp|P01 SSMELKTEPFDDFLFPASSRPSGSETARSVPDMDLSGSFYAADWEPLHSGSLGMGPMATE
+     260       270       280       290       300       310         
+
+     260       270       280       290       300       310         
+sp|Q1X FHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETT
+                                                                   
+sp|P01 LEPLCTPVVTCTPSCTAYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLA
+     320       330       340       350       360       370         
+
+>>sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive element-bi  (357 aa)
+ initn: 113 init1: 113 opt: 147  Z-score: 148.6  bits: 36.0 E(516081): 0.93
+Smith-Waterman score: 147; 27.6% identity (59.3% similar) in 123 aa overlap (52-168:194-315)
+
+              30        40        50        60        70        80 
+sp|Q1X EVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDE
+                                     :: .. .  : .  :. .   :.:.  :: 
+sp|Q8K HSHSHLHAHPAHHQTSPHPPLHTGNQAQVSPATQQMQPTQTIQPPQPTGGRRRRVVDEDP
+           170       180       190       200       210       220   
+
+              90       100       110       120       130       140 
+sp|Q1X KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQ
+        :.:: . . ::::::   :..... . .::..  .. : :. : ...:... :  .:.:
+sp|Q8K DERRR-KFLERNRAAATRCRQKRKVWVMSLEKKAEELTQTNMQLQNEVSMLKNEVAQLKQ
+            230       240       250       260       270       280  
+
+                  150        160       170       180       190     
+sp|Q1X QL-----AQLAAEVRGSRAN-TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS
+        :       ..:  . :..  .:  . ::.  :                           
+sp|Q8K LLLTHKDCPITAMQKESQGYLSPESSPPASPVPACSQQQVIQHNTITTSSSVSEVVGSST
+            290       300       310       320       330       340  
+
+         200       210       220       230       240       250     
+sp|Q1X DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDD
+                                                                   
+sp|Q8K LSQLTTHRTDLNPIL                                             
+            350                                                    
+
+>>sp|A4R2R1|NST1_MAGGR Stress response protein NST1 OS=M  (1319 aa)
+ initn: 158 init1:  64 opt: 171  Z-score: 163.5  bits: 40.6 E(516081): 0.14
+Smith-Waterman score: 171; 22.7% identity (56.7% similar) in 194 aa overlap (43-227:675-868)
+
+             20        30        40        50        60        70  
+sp|Q1X DSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP
+                                     :. : ::.:  :. .  ..:    . .   
+sp|A4R AQAEEKARKDAEKAAEEAERLAEEQRRQEEQRQKNEERKKKKEAQRKAEEEERQRKEAER
+          650       660       670       680       690       700    
+
+             80          90         100       110        120       
+sp|Q1X RKRAKTEDEK--EQRRIERVLRNRA--AAQTSRERKRLEMEKLENE-KIQMEQQNQFLLQ
+        .::. . :.  :: :  :  ...   : . ...:..   :  : : . . :. ..  :.
+sp|A4R LRRAQEQKERQAEQDRKAREAKEKEKKAKEEAKQREKAARELKEREARERKEKADKERLE
+          710       720       730       740       750       760    
+
+       130        140       150       160          170       180   
+sp|Q1X RLSQMEAENN-RLSQQLAQLAAEVRGSRANTPMPGSPA---TASPTLTPTLFKQERDELP
+       . ....::.. : .:. :. :..   . ::.:.: .::   . .:. .:.: ....  . 
+sp|A4R KEAKIKAEKEAREAQRKAERASQKATTLANVPVPTGPARRQSQAPNPAPALPQSQQASVA
+          770       780       790       800       810       820    
+
+           190       200       210       220       230       240   
+sp|Q1X LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHS
+         ..:  .:.:       ::   ...   ..  :.. .  .: :                
+sp|A4R SPQLPTAVPALPKLPTPQKPRRTSQQEPFTSGFAAQQVHGQGAGQYPAPPKAATPVHTSP
+          830       840       850       860       870       880    
+
+           250       260       270       280       290       300   
+sp|Q1X TDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPV
+                                                                   
+sp|A4R GPGGLLSKGSSSQGQSLHSQATSPLGTSLPTSTSLPTPFGMPHPPPNQHYPPGIGPLNAP
+          890       900       910       920       930       940    
+
+>>sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-bi  (370 aa)
+ initn: 205 init1: 145 opt: 160  Z-score: 160.6  bits: 38.3 E(516081):  0.2
+Smith-Waterman score: 160; 29.7% identity (56.5% similar) in 138 aa overlap (18-146:119-256)
+
+                            10        20           30         40   
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVP-VLTVS--PADTSLNSAD-VKTQ
+                                     :::  :: . :::  :.:.  .    :.:.
+sp|Q9D EVVYDSGTLQGTQREAGPTFGLISIQIDQWTPALMVPDACTVSGLPSDSHRHILPRVSTR
+       90       100       110       120       130       140        
+
+            50             60        70        80        90        
+sp|Q1X EVKPEEKKPAKKRKSW-----GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQ
+          :    :. ... .      : :     .:: .      .:.  ..:.: .::. .::
+sp|Q9D APAPPAAMPSCQHHLFLTDEEKQLLAQEGITLPSHLPLTKAEERILKKIRRKIRNKQSAQ
+      150       160       170       180       190       200        
+
+      100       110       120       130       140       150        
+sp|Q1X TSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP
+        ::.::.  .. ::..     .::: : ......: .:  : .:. ::            
+sp|Q9D DSRRRKKEYLDGLESRVAACSEQNQKLQRKVQELERQNIFLMEQVRQLQKLTAQTSSRAA
+      210       220       230       240       250       260        
+
+      160       170       180       190       200       210        
+sp|Q1X MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+                                                                   
+sp|Q9D QTSTCVLILLFSLALIILPSFSPFQGQSEARPEDYQLHGVISRNILTHENVTENLESPVL
+      270       280       290       300       310       320        
+
+>>sp|Q8HZP6|FOS_FELCA Proto-oncogene c-Fos OS=Felis catu  (381 aa)
+ initn:  91 init1:  59 opt: 150  Z-score: 151.1  bits: 36.5 E(516081): 0.68
+Smith-Waterman score: 150; 26.9% identity (50.6% similar) in 249 aa overlap (9-237:55-298)
+
+                                     10        20           30     
+sp|Q1X                       MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPADTSL
+                                     .::.. .:.. : :  : :   :.:   .:
+sp|Q8H DNLSYYHSPADSFSSMGSPVNAQDFCTDLAVSSANFIPTVTAISTSPDLQWLVQP---TL
+           30        40        50        60        70           80 
+
+          40        50         60        70                 80     
+sp|Q1X NSADVKTQEVKPEEKK-PAKKRKSWGQELPVPKTNLPPR-----KRAKTE----DEKEQR
+        :. . .:   :.    :: .  ....   :  ..   :     .:.:.:    .:.:.:
+sp|Q8H VSSVAPSQTRAPHPYGVPAPSAGAYSRAGVVKTVTAGGRAQSIGRRGKVEQLSPEEEEKR
+              90       100       110       120       130       140 
+
+          90       100       110       120       130       140     
+sp|Q1X RIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQ
+       ::.:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   :: 
+sp|Q8H RIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAA
+              150       160       170       180       190       200
+
+         150       160       170          180          190         
+sp|Q1X LAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSP
+            .    .  .:   ..::  :.   :     : .:   :::   : : ::.   . 
+sp|Q8H HRPACKIPD-DLGFPEEMSVASLDLSGGLPEAATPESEEAFTLPLLNDPEPKPSVEPVKS
+               210       220       230       240       250         
+
+     200       210       220       230        240       250        
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNR
+         .    ::  :    :: :  .    . ..: .:: ::                     
+sp|Q8H ISSMELKAEPFDDFLFPASSRPSGSETARSVPDMDLSGSFYAADWEPLHGGSLGMGPMAT
+     260       270       280       290       300       310         
+
+      260       270       280       290       300       310        
+sp|Q1X LFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDET
+                                                                   
+sp|Q8H ELEPLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCGAAHRKGSSSNEPSSDSLSSPTLL
+     320       330       340       350       360       370         
+
+>>sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcripti  (127 aa)
+ initn: 106 init1: 106 opt: 139  Z-score: 147.2  bits: 34.2 E(516081):  1.1
+Smith-Waterman score: 139; 28.6% identity (68.8% similar) in 77 aa overlap (69-145:21-97)
+
+       40        50        60        70        80        90        
+sp|Q1X DVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQ
+                                     : :  .  .   : ..:...:  .::.:::
+sp|Q9N           MSQGLPAAGSVLQRSVAAPGNQPQPQPQQQSPEDDDRKVRRREKNRVAAQ
+                         10        20        30        40        50
+
+      100       110       120       130       140       150        
+sp|Q1X TSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP
+        ::...  . .::..:  ..::.: .: ......  : ..:.. : .             
+sp|Q9N RSRKKQTQKADKLHEEYESLEQENTMLRREIGKLTEELKHLTEALKEHEKMCPLLLCPMN
+               60        70        80        90       100       110
+
+      160       170       180       190       200       210        
+sp|Q1X MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+                                                                   
+sp|Q9N FVPVPPRPDPVAGCLPR                                           
+              120                                                  
+
+>>sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive element-bi  (508 aa)
+ initn: 113 init1: 113 opt: 147  Z-score: 146.6  bits: 36.1 E(516081):  1.2
+Smith-Waterman score: 147; 27.6% identity (59.3% similar) in 123 aa overlap (52-168:345-466)
+
+              30        40        50        60        70        80 
+sp|Q1X EVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDE
+                                     :: .. .  : .  :. .   :.:.  :: 
+sp|Q02 HSHSHLHAHPAHHQTSPHPPLHTGNQAQVSPATQQMQPTQTIQPPQPTGGRRRRVVDEDP
+          320       330       340       350       360       370    
+
+              90       100       110       120       130       140 
+sp|Q1X KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQ
+        :.:: . . ::::::   :..... . .::..  .. : :. : ...:... :  .:.:
+sp|Q02 DERRR-KFLERNRAAATRCRQKRKVWVMSLEKKAEELTQTNMQLQNEVSMLKNEVAQLKQ
+           380       390       400       410       420       430   
+
+                  150        160       170       180       190     
+sp|Q1X QL-----AQLAAEVRGSRAN-TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS
+        :       ..:  . :..  .:  . ::.  :                           
+sp|Q02 LLLTHKDCPITAMQKESQGYLSPESSPPASPVPACSQQQVIQHNTITTSSSVSEVVGSST
+           440       450       460       470       480       490   
+
+         200       210       220       230       240       250     
+sp|Q1X DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDD
+                                                                   
+sp|Q02 LSQLTTHRTDLNPIL                                             
+           500                                                     
+
+>>sp|P42774|GBF1_ARATH G-box-binding factor 1 OS=Arabido  (315 aa)
+ initn: 188 init1: 124 opt: 144  Z-score: 146.5  bits: 35.4 E(516081):  1.2
+Smith-Waterman score: 144; 30.7% identity (60.6% similar) in 127 aa overlap (31-149:176-296)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                                     ::.: .:.  . :   : .        . :
+sp|P42 VTAGSSDENDENANQQEQGSIRKPSFGQMLADASSQSTTGEIQGSVPMKPVAPGTNLNIG
+         150       160       170       180       190       200     
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       ..:   ....:      ..::.: .: .:   :: .:. :: ::. : :.:...  .. .
+sp|P42 MDLWSSQAGVP------VKDERELKRQKRKQSNRESARRSRLRKQAECEQLQQRVESLSN
+         210             220       230       240       250         
+
+                 130           140        150       160       170  
+sp|Q1X QNQFL---LQRLS----QMEAENNRLSQQLAQ-LAAEVRGSRANTPMPGSPATASPTLTP
+       .:: :   :::::    ....::: ....: . :.::                       
+sp|P42 ENQSLRDELQRLSSECDKLKSENNSIQDELQRVLGAEAVANLEQNAAGSKDGEGTN    
+     260       270       280       290       300       310         
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|A2R346|KAPC_ASPNC Putative transcription factor kap  (283 aa)
+ initn: 100 init1:  70 opt: 151  Z-score: 153.7  bits: 36.6 E(516081): 0.48
+Smith-Waterman score: 151; 22.5% identity (52.1% similar) in 213 aa overlap (16-223:44-236)
+
+                              10        20           30         40 
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVL---TVSPAD-TSLNSADVK
+                                     :  :... : .   :.:: : .... :   
+sp|A2R QTSAQDHADQVLHDQLLAAHQHLSHPQQARPQGPTAQPPHMQPNTTSPRDQNNIDPAISG
+            20        30        40        50        60        70   
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       .  ..   . : . . . ::: :            ::  ..     .:. .:::: .. :
+sp|A2R AAMLSGPPQTPPQPEPT-GQESP------------KTYGKRPLSTSKRAAQNRAAQRAFR
+            80        90                    100       110       120
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MP
+       .::.  ..:::..  .... :.     ..:..::: .: . . .: ...  :....: .:
+sp|A2R QRKESYIRKLEEQVKEFDNTNE----TMKQLQAENYQLREYIINLQSRLLDSQGEVPELP
+              130       140           150       160       170      
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+       :.    .:    ..        :    : : :. .  .  .     : . :. .   ..:
+sp|A2R GNIDLNQPRNDISV---PPPGAPAATGPAPGPGGAPQQMQVPNPGAATNEDMNSLNRIAV
+        180       190          200       210       220       230   
+
+              230       240       250       260       270       280
+sp|Q1X AGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFD
+       :::                                                         
+sp|A2R AGLGMRKHPNEEANFLGNNFQARRPRNDDGQPDGSEATKTEPGHGLPVVS          
+           240       250       260       270       280             
+
+>>sp|O42290|MAFA_CHICK Transcription factor MafA OS=Gall  (286 aa)
+ initn: 125 init1: 125 opt: 143  Z-score: 146.2  bits: 35.2 E(516081):  1.3
+Smith-Waterman score: 143; 33.3% identity (67.9% similar) in 84 aa overlap (85-167:201-281)
+
+           60        70        80        90       100       110    
+sp|Q1X KRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE
+                                     .. .:.:.::. ::. : ..  . . ::::
+sp|O42 RFSDDQLVSMSVRELNRQLRGFSKEEVIRLKQNRRTLKNRGYAQSCRYKRVQQRHILENE
+              180       190       200       210       220       230
+
+          120       130       140       150        160       170   
+sp|Q1X KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG-SRANTPMPGSPATASPTLTPT
+       : :...: . : :..:..  : .  ...  .:::  ::  :  .: :..: :..      
+sp|O42 KCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA--RGFPREPSP-PAAPKTTAADFFM 
+              240       250       260         270        280       
+
+           180       190       200       210       220       230   
+sp|Q1X LFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLF
+
+>>sp|O43889|CREB3_HUMAN Cyclic AMP-responsive element-bi  (395 aa)
+ initn: 137 init1: 137 opt: 145  Z-score: 146.2  bits: 35.7 E(516081):  1.3
+Smith-Waterman score: 145; 30.2% identity (62.8% similar) in 129 aa overlap (63-185:159-282)
+
+             40        50        60        70        80        90  
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+                                     : .:.: ::    .::: :.  .:..: .:
+sp|O43 TPQHMEELAEQEIARLVLTDEEKSLLEKEGLILPET-LP---LTKTE-EQILKRVRRKIR
+      130       140       150       160           170        180   
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV--
+       :. .:: ::..:.. .  ::.. ...  ::. : .... .: .:  : .:: .: : :  
+sp|O43 NKRSAQESRRKKKVYVGGLESRVLKYTAQNMELQNKVQLLEEQNLSLLDQLRKLQAMVIE
+           190       200       210       220       230       240   
+
+                 160       170        180       190       200      
+sp|Q1X ---RGSRANTPMPGSPATASPTLTPTLFKQE-RDELPLERIPFPTPSLSDYSPTLKPSTL
+          . : ..: .    ..    :.:...... :  :: :                     
+sp|O43 ISNKTSSSSTCILVLLVSFCLLLVPAMYSSDTRGSLPAEHGVLSRQLRALPSEDPYQLEL
+           250       260       270       280       290       300   
+
+        210       220       230       240       250       260      
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSV
+                                                                   
+sp|O43 PALQSEVPKDSTHQWLDGSDCVLQAPGNTSCLLHYMPQAPSAEPPLEWPFPDLFSEPLCR
+           310       320       330       340       350       360   
+
+>>sp|O60841|IF2P_HUMAN Eukaryotic translation initiation  (1220 aa)
+ initn:  64 init1:  64 opt: 151  Z-score: 145.2  bits: 37.1 E(516081):  1.4
+Smith-Waterman score: 151; 24.4% identity (58.3% similar) in 180 aa overlap (7-183:282-455)
+
+                                       10        20        30      
+sp|Q1X                         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN
+                                     :.  .::.  . ::::  . : . :. . :
+sp|O60 KLKEKEELETGKKDQSKQKESQRKFEEETVKSKVTVDT-GVIPASEEKAETPTAAEDD-N
+             260       270       280        290       300          
+
+         40          50        60        70        80         90   
+sp|Q1X SADVKTQEVKPE--EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE-RVLRN
+        .: : .. : .  ::.  .:.:. :    . :.      . : :.:...:. : :. : 
+sp|O60 EGDKKKKDKKKKKGEKEEKEKEKKKGPSKATVKAMQEALAKLKEEEERQKREEEERIKRL
+     310       320       330       340       350       360         
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       .      .:..:::.:: : .: : :.. .  :.. ... ....: ..  :. . ..  .
+sp|O60 EELEAKRKEEERLEQEKRERKK-QKEKERKERLKKEGKLLTKSQREARARAEATLKLLQA
+     370       380       390        400       410       420        
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+       .. . .:.. .   :   :    ..: ..:                              
+sp|O60 QG-VEVPSKDSL--PKKRPIYEDKKRKKIPQQLESKEVSESMELCAAVEVMEQGVPEKEE
+      430          440       450       460       470       480     
+
+>>sp|Q5KGK5|EIF3A_CRYNE Eukaryotic translation initiatio  (952 aa)
+ initn:  46 init1:  46 opt: 152  Z-score: 147.6  bits: 37.2 E(516081):  1.1
+Smith-Waterman score: 152; 30.7% identity (54.5% similar) in 202 aa overlap (48-230:735-930)
+
+        20        30        40        50          60        70     
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKK--RKSWGQELPVPKTNLPPRKR
+                                     :: : ::.  :..  .:    . ..  :::
+sp|Q5K QRAARELKQRLGRMLEDYEAVKERIESQMQEELKAAKEEARRKIEEEKAQLREKVIKRKR
+          710       720       730       740       750       760    
+
+          80         90         100           110         120      
+sp|Q1X AKTEDE-KEQRRIERVLRNRA--AAQTSRERKR----LEMEKL--ENEKIQMEQQNQFLL
+        . : . :: :. :.  :..   ::: ..:. :    :: :    :... . : : :  :
+sp|Q5K EEKERKLKEAREAEERKRKEEEEAAQKAEEEARAAAALEAEAAAAEQRRAEREAQRQSDL
+          770       780       790       800       810       820    
+
+         130       140       150       160           170           
+sp|Q1X QRL-SQMEAENNRLSQQLAQLAAEVRGSRANTPMPG----SPATASPTLT---PTLFKQE
+       .:. .:.: :.. : .. :. :: . :. :  : :.    .: ::::. .   :. . ..
+sp|Q5K ERIRAQQEREEEALRRRQAEKAAATSGGSAYRP-PARAGTTPPTASPAPSSGGPSWLARR
+          830       840       850        860       870       880   
+
+      180       190       200       210       220       230        
+sp|Q1X RDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSD
+       .          :. :    ::   ::. : .:  :..   :.:: :..  ::        
+sp|Q5K KAMEAQSAGGAPVAS----SPKPVPSNSAAASAPASNGPESIAG-EAEKPALTGSVWRRG
+           890           900       910       920        930        
+
+      240       250       260       270       280       290        
+sp|Q1X LKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNF
+                                                                   
+sp|Q5K MGARRGMPSTRGGA                                              
+      940       950                                                
+
+>>sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcripti  (118 aa)
+ initn: 115 init1: 115 opt: 135  Z-score: 143.8  bits: 33.5 E(516081):  1.7
+Smith-Waterman score: 135; 33.3% identity (77.8% similar) in 63 aa overlap (83-145:28-90)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     ..:...:  .::.::: ::...  . .::.
+sp|Q9D    MSQGPPAVSVLQRSVDAPGNQPQSPKDDDRKVRRREKNRVAAQRSRKKQTQKADKLH
+                  10        20        30        40        50       
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       .:. ..::.:. : ...:... :  .::. : .                           
+sp|Q9D EEHESLEQENSVLRREISKLKEELRHLSEVLKEHEKMCPLLLCPMNFVQLRSDPVASCLP
+        60        70        80        90       100       110       
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+                                                                   
+sp|Q9D R                                                           
+                                                                   
+
+>>sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive element-bi  (428 aa)
+ initn: 130 init1: 130 opt: 144  Z-score: 144.8  bits: 35.5 E(516081):  1.5
+Smith-Waterman score: 144; 25.8% identity (55.1% similar) in 178 aa overlap (25-199:161-322)
+
+                     10        20        30        40        50    
+sp|Q1X       MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAK
+                                     .:. .:  ..  : .   . .  :..:   
+sp|Q1L LPDQSGGTQCASETPQAQQTTGFPLTVKDLLLSGTPEPAAKVSQQSYQELILTEDEKRLL
+              140       150       160       170       180       190
+
+           60        70        80        90       100       110    
+sp|Q1X KRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE
+        ..  :. ::   ...:  :     .:.  ..:.: .::. .:: ::..:.  .. ::..
+sp|Q1L AKE--GMTLP---NQFPLTKY----EERILKKIRRKIRNKQSAQESRKKKKEYIDGLESR
+                   200           210       220       230       240 
+
+          120       130       140       150       160       170    
+sp|Q1X KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTL
+             .:. : ... :.:  :  : .:: .: : : .. .: :. ..  .    :. ::
+sp|Q1L MAACSAHNHELQRKVFQLEKCNISLMEQLRRLQALVMNG-SNKPVQAGTCVLVLLLSFTL
+             250       260       270       280        290       300
+
+          180       190          200       210       220       230 
+sp|Q1X FKQERDELPLERIPFPTPSLS---DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+       .      ::  . ::   ..:   :.::                                
+sp|Q1L IL-----LPNLK-PFTDTKVSQHGDFSPMRVQSRSLHNLQSSRVLRNLDHPYSMTENAKI
+                    310       320       330       340       350    
+
+>>sp|Q6DE84|MAFB_XENLA Transcription factor MafB OS=Xeno  (313 aa)
+ initn: 113 init1: 113 opt: 141  Z-score: 143.8  bits: 34.9 E(516081):  1.7
+Smith-Waterman score: 141; 26.8% identity (60.6% similar) in 142 aa overlap (29-163:171-309)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     ::. .: .: ... :. .   .. .. : :
+sp|Q6D HQYQGVHHEEMGLPHHHPHHHQHQHHQTSPSPSGSSSSSQQLHHQQ-QHSSSSAVEDRFS
+              150       160       170       180        190         
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.:.    .:.:  :.:.::. ::. : ..  . ..::.::
+sp|Q6D DDQLVSMTVRELNRHLRGFTKDDVIRLKQKR--RTLKNRGYAQSCRYKRVQQKHNLEGEK
+     200       210       220       230         240       250       
+
+         120       130       140           150       160       170 
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA----AEVRGSRANTPMPGSPATASPTLT
+        :. :: . : :..:..  : .  . .  .::    .. : . ...  :.::        
+sp|Q6D TQLVQQVEQLKQEVSRLARERDAYKIKCEKLANNNSSNFREAGSTSDNPSSPEFFM    
+       260       270       280       290       300       310       
+
+             180       190       200       210       220       230 
+sp|Q1X PTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+
+>>sp|Q7TSC1|BAT2_MOUSE Large proline-rich protein BAT2 O  (2158 aa)
+ initn:  95 init1:  82 opt: 157  Z-score: 147.5  bits: 38.4 E(516081):  1.1
+Smith-Waterman score: 157; 27.2% identity (48.4% similar) in 217 aa overlap (18-222:378-571)
+
+                            10        20        30          40     
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSL--NSADVKTQEV
+                                     .:.::.:     :  :.   :.   .:. .
+sp|Q7T RDSDEEGAEGHKDSQSAAAEEPETDGKKGTSPGSELP-----PPKTAWTENARPSETEPA
+       350       360       370       380            390       400  
+
+          50             60        70        80           90       
+sp|Q1X KPEEKKPAKKRK-----SWGQELPVPKTNLPPRKRAKTEDEKE---QRRIERVLRNRAAA
+        :  : :    .     .::     :  . :: :    ::: :   ::: .   .   :.
+sp|Q7T PPTPKPPPPPPHRGPVGNWGPPGDYPDRGGPPCKPPAPEDEDEAWRQRRKQSSSEISLAV
+            410       420       430       440       450       460  
+
+       100       110       120       130        140       150      
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEVRGSRAN
+       . .:.:.. : .....:.     ..   :.::.. . : ..::.   :. ::        
+sp|Q7T ERARRRREEEERRMQEERRAACAEK---LKRLDEKFGAPDKRLK---AEPAA--------
+            470       480          490       500                   
+
+        160       170       180       190       200       210      
+sp|Q1X TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD-VAQH
+        : : .::  .:.: :.. :.      :   : :::      :.  : . :  :  ::  
+sp|Q7T -P-PVTPA--APALPPVVPKEIPAAPALPPTPTPTPEKEPEEPAQAPPVQAAPSPGVAPV
+        510         520       530       540       550       560    
+
+         220       230       240       250       260       270     
+sp|Q1X PAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFED
+       :..  .:                                                     
+sp|Q7T PTLVSGGGCTANSNSSGSFEASPVEPQLPSKEGPEPPEEVPPPTTPPAPKMEPKGDGVGS
+          570       580       590       600       610       620    
+
+>>sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcripti  (703 aa)
+ initn:  52 init1:  52 opt: 146  Z-score: 143.7  bits: 36.1 E(516081):  1.7
+Smith-Waterman score: 147; 24.8% identity (51.2% similar) in 254 aa overlap (17-241:260-503)
+
+                             10        20          30           40 
+sp|Q1X               MSCDMEKTMSSVDSLPATPASEVPVLT--VSPADTS---LNSADVK
+                                     :.: : . .:   :.:  .:   : .. ..
+sp|Q99 DGSSGKALPTRKPPLQPKPVVLTTVPMPSRAVPPSTTVLLQSLVQPPPVSPVVLIQGAIR
+     230       240       250       260       270       280         
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       .:   :  . :  .:::     :.: .. ::.      : :  .: .:...:: .:  ::
+sp|Q99 VQPEGPAPSLPRPERKSI-VPAPMPGNSCPPEV-----DAKLLKRQQRMIKNRESACQSR
+     290       300        310       320            330       340   
+
+             110              120       130            140         
+sp|Q1X ERKRLEMEKLEN-------EKIQMEQQNQFLLQRLSQMEAENNRL-----SQQLAQLAAE
+       ..:.  .. ::        .. :....:  : .::  . :::..:     ..... . . 
+sp|Q99 RKKKEYLQGLEARLQAVLADNQQLRRENAALRRRLEALLAENSELKLGSGNRKVVCIMVF
+           350       360       370       380       390       400   
+
+     150        160       170          180               190       
+sp|Q1X VRGSRANT-PMPGSPATASPTLTPTLFK---QERDEL-------PLERI-PFPTPSLSDY
+       .     :  :.  :   ..: ..: . :   : : .:       :.. . :.   : .  
+sp|Q99 LLFIAFNFGPVSISEPPSAP-ISPRMNKGEPQPRRHLLGFSEQEPVQGVEPLQGSSQGPK
+           410       420        430       440       450       460  
+
+       200       210       220       230       240       250       
+sp|Q1X SPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        :  .:.     :...  :. .   :  : .   :: :.:: .:                
+sp|Q99 EPQPSPTDQPSFSNLTAFPGGAKELLLRDLDQ--LF-LSSDCRHFNRTESLRLADELSGW
+            470       480       490          500       510         
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|Q99 VQRHQRGRRKIPQRAQERQKSQPRKKSPPVKAVPIQPPGPPERDSVGQLQLYRHPDRSQP
+     520       530       540       550       560       570         
+
+>>sp|Q54Y73|BZPD_DICDI Probable basic-leucine zipper tra  (834 aa)
+ initn: 124 init1: 124 opt: 147  Z-score: 143.7  bits: 36.3 E(516081):  1.8
+Smith-Waterman score: 147; 26.9% identity (58.3% similar) in 156 aa overlap (10-157:315-458)
+
+                                    10        20        30         
+sp|Q1X                      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD
+                                     :::. .: .  . . .: ..  ::. .. .
+sp|Q54 TSPSSPSTSNMFLTPMVTTTTTSETSSSSDSSVNIIPNNTNTITNIL-IKEEDTNNGNNN
+          290       300       310       320       330        340   
+
+      40        50                60        70        80        90 
+sp|Q1X VKTQEVKPEEK-----KPAKKR---KSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL
+        :...   . .     .:  ..   :  :.: ::  .. :: .  . :::.. .. .:..
+sp|Q54 KKSKKRTIDSRVQNIVHPLTREELLKIAGKE-PVQVVD-PPTH--NQEDERNVKKQRRLI
+           350       360       370        380          390         
+
+             100       110       120       130       140       150 
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR
+       .:: .:: :: ::.. .: ::.   .. :.:       :... :   :.  . ::::.  
+sp|Q54 KNRESAQLSRMRKKIYIEDLEKTISDLTQDN-------SSLKEEVLYLQGLVKQLAAQNS
+     400       410       420       430              440       450  
+
+             160       170       180       190       200       210 
+sp|Q1X GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD
+       .:  :.                                                      
+sp|Q54 NSNNNSVIDINNNNVNNSQQQQQQHQQQQQLNNSNNNNNNNNNNSTNKQQQSKNVKAAGV
+            460       470       480       490       500       510  
+
+>>sp|P18625|FOSL2_CHICK Fos-related antigen 2 OS=Gallus   (323 aa)
+ initn:  94 init1:  63 opt: 141  Z-score: 143.6  bits: 34.9 E(516081):  1.8
+Smith-Waterman score: 141; 24.4% identity (54.8% similar) in 217 aa overlap (68-271:108-311)
+
+        40        50        60        70          80        90     
+sp|Q1X ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK--TEDEKEQRRIERVLRNRA
+                                     :..  :.: .  . .:.:.:::.:  ::. 
+sp|P18 SHPYSHPLPPLSSVAGHTALQRPGVIKTIGTTVGRRRRDEQLSPEEEEKRRIRRE-RNKL
+        80        90       100       110       120       130       
+
+         100       110       120       130       140       150     
+sp|Q1X AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS--
+       ::   :.:.:   :::. :   .:.... : ....... :...:  .:.  .   . :  
+sp|P18 AAAKCRNRRRELTEKLQAETEVLEEEKSVLQKEIAELQKEKEKLEFMLVAHSPVCKISPE
+        140       150       160       170       180       190      
+
+            160       170       180       190          200         
+sp|Q1X -RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSL---SDYSPTLKPSTLAES
+        : . :  .  .. . .   .. :::    :.:.  .:. ::   .    ..:: ..: .
+sp|P18 ERRSPPTSSLQSVRTGASGAVVVKQE----PVEE-EIPSSSLVLDKAQRSVIKPISIAGG
+        200       210       220            230       240       250 
+
+       210       220       230          240       250       260    
+sp|Q1X --SDVAQHPAVSVAGLEGDGSALPLFDLGSD---LKHHSTDDVAAPLSDDDFNRLFHGDS
+         .. : .  . :       .. : .  ::.   . . .. :  .::: ..     :  :
+sp|P18 YYGEEALNTPIVV-------TSTPAITPGSSNLVFTYPNVLDQESPLSPSESCSKAHRRS
+             260              270       280       290       300    
+
+          270       280       290       300       310       320    
+sp|Q1X SVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSS
+       :   :.:                                                     
+sp|P18 SSSGDQSSDSLNSPTLLAL                                         
+          310       320                                            
+
+>>sp|Q56TN0|FOS_PHORO Proto-oncogene c-Fos OS=Phodopus r  (381 aa)
+ initn:  46 init1:  46 opt: 144  Z-score: 145.4  bits: 35.5 E(516081):  1.4
+Smith-Waterman score: 144; 23.5% identity (49.7% similar) in 306 aa overlap (2-291:57-353)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|Q56 LSYYHSPADSFSSMGSPVNAQDFCADLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|Q56 PSQTRAPHPYGVPTPSTGAYSRAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|Q56 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .: . ..::  ::   :     : .:   :::   : :  :: . .   .
+sp|Q56 ACKIPD-DLGFPEDMSVASLDLTGGLPEAATPESEEAFSLPLLNEPEPKTSLESVKSISS
+             210       220       230       240       250       260 
+
+            210       220        230            240        250     
+sp|Q1X PSTLAESSDVAQHPAVSV-AGLEGDGSALPLFDL-GS----DLKH-HSTDDVAAPLSDDD
+           ::  :     : :  .: :  . ..: .:: ::    : .  ::..   .:.. . 
+sp|Q56 MELKAEPFDDFLFSASSRPSGSETTARSVPDMDLSGSFYAADWEPLHSSSLGMGPMATE-
+             270       280       290       300       310       320 
+
+         260       270       280       290       300       310     
+sp|Q1X FNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLP
+       .. :     .  :. ... ....:   :    ..::                        
+sp|Q56 LEPLCTPVVTCTPSCTTYTSSFVFTYPE---TDSFPSCAAAHRKGSSSNEPSSDSLSSPT
+              330       340          350       360       370       
+
+         320       330       340     
+sp|Q1X DETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                     
+sp|Q56 LLAL                          
+       380                           
+
+>>sp|O35284|BATF_MOUSE Basic leucine zipper transcriptio  (125 aa)
+ initn:  98 init1:  98 opt: 135  Z-score: 143.5  bits: 33.5 E(516081):  1.8
+Smith-Waterman score: 135; 28.9% identity (62.2% similar) in 90 aa overlap (71-160:17-103)
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+                                     :: :. ...:    :...:  .:: ::: :
+sp|O35               MPHSSDSSDSSFSRSPPPGKQDSSDDV---RKVQRREKNRIAAQKS
+                             10        20           30        40   
+
+              110       120       130       140       150       160
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP
+       :.:.  . . :. :. ..:.::  : ....:.  : . ... :..         ..:: :
+sp|O35 RQRQTQKADTLHLESEDLEKQNAALRKEIKQLTEELKYFTSVLSSHEPLCSVLASGTPSP
+            50        60        70        80        90       100   
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+                                                                   
+sp|O35 PEVVYSAHAFHQPHISSPRFQP                                      
+           110       120                                           
+
+>>sp|Q16534|HLF_HUMAN Hepatic leukemia factor OS=Homo sa  (295 aa)
+ initn: 130 init1: 130 opt: 140  Z-score: 143.2  bits: 34.7 E(516081):  1.9
+Smith-Waterman score: 140; 25.8% identity (54.3% similar) in 151 aa overlap (2-148:142-290)
+
+                                            10           20        
+sp|Q1X                              MSCDMEKTMSSVDSLPA---TPASEVPVLTV
+                                     .: :.. .   . :::   ::.   :    
+sp|Q16 GLQPASSAAPSVMDLSSRASAPLHPGIPSPNC-MQSPIRPGQLLPANRNTPSPIDPDTIQ
+             120       130       140        150       160       170
+
+       30        40        50        60         70        80       
+sp|Q1X SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQEL-PVPKTNLPPRKRAKTEDEKEQRRI
+        :.    . ::.  . .  .:    .:::   .:: : :  .   ::    .: :...  
+sp|Q16 VPVGYEPDPADLALSSIPGQEMFDPRKRKFSEEELKPQPMIK-KARKVFIPDDLKDDKYW
+              180       190       200       210        220         
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+        :  .:  ::. ::. .::. ...  .   .:..:. : :...... : .. .. ::.  
+sp|Q16 ARRRKNNMAAKRSRDARRLKENQIAIRASFLEKENSALRQEVADLRKELGKCKNILAKYE
+     230       240       250       260       270       280         
+
+       150       160       170       180       190       200       
+sp|Q1X AEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLA
+       :                                                           
+sp|Q16 ARHGPL                                                      
+     290                                                           
+
+>>sp|Q8BW74|HLF_MOUSE Hepatic leukemia factor OS=Mus mus  (295 aa)
+ initn: 130 init1: 130 opt: 140  Z-score: 143.2  bits: 34.7 E(516081):  1.9
+Smith-Waterman score: 140; 25.8% identity (54.3% similar) in 151 aa overlap (2-148:142-290)
+
+                                            10           20        
+sp|Q1X                              MSCDMEKTMSSVDSLPA---TPASEVPVLTV
+                                     .: :.. .   . :::   ::.   :    
+sp|Q8B GLQPASSTAPSVMDLSSRATAPLHPGIPSPNC-MQSPIRPGQLLPANRNTPSPIDPDTIQ
+             120       130       140        150       160       170
+
+       30        40        50        60         70        80       
+sp|Q1X SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQEL-PVPKTNLPPRKRAKTEDEKEQRRI
+        :.    . ::.  . .  .:    .:::   .:: : :  .   ::    .: :...  
+sp|Q8B VPVGYEPDPADLALSSIPGQEMFDPRKRKFSEEELKPQPMIK-KARKVFIPDDLKDDKYW
+              180       190       200       210        220         
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+        :  .:  ::. ::. .::. ...  .   .:..:. : :...... : .. .. ::.  
+sp|Q8B ARRRKNNMAAKRSRDARRLKENQIAIRASFLEKENSALRQEVADLRKELGKCKNILAKYE
+     230       240       250       260       270       280         
+
+       150       160       170       180       190       200       
+sp|Q1X AEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLA
+       :                                                           
+sp|Q8B ARHGPL                                                      
+     290                                                           
+
+>>sp|Q63ZM7|STABP_XENLA STAM-binding protein-like OS=Xen  (416 aa)
+ initn:  60 init1:  60 opt: 153  Z-score: 153.3  bits: 37.1 E(516081): 0.51
+Smith-Waterman score: 153; 29.8% identity (53.0% similar) in 181 aa overlap (39-210:79-238)
+
+       10        20        30        40        50        60        
+sp|Q1X MSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKT
+                                     : :: .: ::.:.  :: :    :.  ::.
+sp|Q63 VYSGEGSIENAFILYNKYITLFIEKLPKHRDYKTANV-PEKKETLKKLK----EIAFPKA
+       50        60        70        80         90           100   
+
+            70        80        90          100       110       120
+sp|Q1X N-----LPPRKRAKTEDEKEQRRIERVLRNRAAA---QTSRERKRLEMEKLENEKIQMEQ
+       .     :  : . . :. .:..: :.  : :  :   : . :..:. . : ..:  :.::
+sp|Q63 EELKKELHKRYKKEYEEYSEKQRKEEEERARRLALQQQLDAEKQRVALLKQQQE--QQEQ
+           110       120       130       140       150         160 
+
+               130       140       150       160       170         
+sp|Q1X QNQFL-LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQER
+        . :  ..: ...:::  :. .:...   :..    ..:.   :.   : .:: :     
+sp|Q63 VQAFEEMMRRKELEAERLRILHQFSKDEPEAEP--LGSPL--IPGMNEPPVTPLL-----
+             170       180       190           200       210       
+
+     180       190       200       210       220       230         
+sp|Q1X DELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL
+          :      : :   : :  ::::. . .:                             
+sp|Q63 ---PSYGTVQPHPPAVDRS--LKPSSYGSNSSGVTSDGLRHVKIPRDVCCKFLQLSENNT
+               220         230       240       250       260       
+
+     240       250       260       270       280       290         
+sp|Q1X KHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFD
+                                                                   
+sp|Q63 QRGVETCGILCGKLLQNEFTVTHVIVPKQSGGPDYCNTESEEELFLIQDQQGLITLGWIH
+       270       280       290       300       310       320       
+
+>>sp|P29681|IMPE2_DROME 20-hydroxyecdysone protein OS=Dr  (466 aa)
+ initn: 103 init1:  74 opt: 142  Z-score: 142.4  bits: 35.2 E(516081):  2.1
+Smith-Waterman score: 142; 25.5% identity (57.1% similar) in 184 aa overlap (8-181:14-192)
+
+                     10        20            30        40        50
+sp|Q1X       MSCDMEKTMSSVDSLPATPASEVPVLTVS----PADTSLNSADVKTQEVKPEEK
+                    ... : .::   : ..::  :     :.  :: . .::..:::::: 
+sp|P29 MKPVALILVFLAISQARVLNLPKE-AIDIPVAIVEDKEPPVALSLVKEEVKAEEVKPEEV
+               10        20         30        40        50         
+
+                60        70        80        90       100         
+sp|Q1X KP-AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+       :: :...:.   .  :     :  :.    : :..  :.. :.     .  .:. . ...
+sp|P29 KPIAQEEKAKDLKEEVKPEIKPEIKEQPKPDIKDE--IKEDLKADIKEEL-KEKIEEQIN
+      60        70        80        90         100        110      
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS--
+       .: : :  .: ... :  . . .: ...  . .. . :.:..   :.. . . ::  .  
+sp|P29 ELPNAK-PLELKEKSLEAEEKPQEIKEEVQQPEIKKEATEIKEEPAQNILKSLPAEETVV
+        120        130       140       150       160       170     
+
+          170       180       190       200       210       220    
+sp|Q1X -PT--LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLE
+        :.  :.:.  .::..:                                           
+sp|P29 VPAEELSPNPVEQEQSENQDAAHPQVRQATQATPTQQSTTQGNFVQQLIQNSPIGQFLNQ
+         180       190       200       210       220       230     
+
+>>sp|O35451|ATF6B_MOUSE Cyclic AMP-dependent transcripti  (699 aa)
+ initn:  52 init1:  52 opt: 146  Z-score: 143.8  bits: 36.1 E(516081):  1.7
+Smith-Waterman score: 147; 23.6% identity (50.8% similar) in 254 aa overlap (16-241:259-500)
+
+                              10        20        30          40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS--LNSADVKTQ
+                                     :.. :  .  :. .:: .   : .. ...:
+sp|O35 SSGKAPATRKPPLQPKPVVLTTVPVPPRAGPTSAAVLLQPLVQQPAVSPVVLIQGAIRVQ
+      230       240       250       260       270       280        
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+          :    :  .:::     :.: .. ::.      : :  .: .:...:: .:  ::..
+sp|O35 PEGPAPAAPRPERKSI-VPAPMPGNSCPPE-----VDAKLLKRQQRMIKNRESACQSRRK
+      290       300        310            320       330       340  
+
+           110              120       130            140       150 
+sp|Q1X KRLEMEKLEN-------EKIQMEQQNQFLLQRLSQMEAENNRL-----SQQLAQLAAEVR
+       :.  .. ::        .. :....:  : .::  . :::. :     ..... . . . 
+sp|O35 KKEYLQGLEARLQAVLADNQQLRRENAALRRRLEALLAENSGLKLGSGNRKVVCIMVFLL
+            350       360       370       380       390       400  
+
+              160       170        180       190       200         
+sp|Q1X GSRANT-PMPGSPATASPTLTPTLFKQE-RDELPLERIPFPTPSLSDYSPTLKPSTLAES
+           :  :.  :    .: ..: . ..: : .  :  .  : :. .     ..:   : .
+sp|O35 FIAFNFGPVSISEPPPAP-MSPRMSREEPRPQRHLLGFSEPGPAHG-----MEPLREAAQ
+            410       420        430       440            450      
+
+     210              220       230            240       250       
+sp|Q1X SDVAQHPAVS-------VAGLEGDGSALPLFDL-----GSDLKHHSTDDVAAPLSDDDFN
+       :   :.:. .       .... : .. : : ::     .:: .:                
+sp|O35 SPGEQQPSSAGRPSFRNLTAFPGGAKELLLRDLDQLFLSSDCRHFNRTESLRLADELSGW
+        460       470       480       490       500       510      
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|O35 VQRHQRGRRKIPHRAQERQKSQLRKKSPPVKPVPTQPPGPPERDPVGQLQLYRHPGRSQP
+        520       530       540       550       560       570      
+
+>>sp|Q09926|PCR1_SCHPO Transcription factor pcr1 OS=Schi  (171 aa)
+ initn: 159 init1: 112 opt: 154  Z-score: 159.5  bits: 36.9 E(516081): 0.23
+Smith-Waterman score: 154; 25.8% identity (55.8% similar) in 163 aa overlap (74-223:4-163)
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+                                     :. ...:::..: .:   ::: ::.  :..
+sp|Q09                            MTAKKKEVDDEKRRRILE---RNRIAASKFRQK
+                                          10           20        30
+
+           110       120       130       140            150        
+sp|Q1X KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL-----AQLAAEVRG-----S
+       :.  ...::.      .:.. :   :::.. :  ::..::      : ....:.     .
+sp|Q09 KKEWIKELEQTANAAFEQSKRLQLLLSQLQQEAFRLKSQLLAHQGCQCSVKIRSVLTDFQ
+               40        50        60        70        80        90
+
+           160       170          180       190       200       210
+sp|Q1X RANTPMPGSPATASPTLTP---TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+        :.. . ..  .  :.  :   .....  .  : .  :       .  : . ::.   .:
+sp|Q09 TAHNALHSQHMAYRPVQPPPGDNMLESVVSVSPTQMHPSLQGLPPNQHPQMPPSSQQPNS
+              100       110       120       130       140       150
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+       : .:.   :.:::                                               
+sp|Q09 DDVQQHMFSAAGLPRSLGGPI                                       
+              160       170                                        
+
+>>sp|O13024|INCEA_XENLA Inner centromere protein A OS=Xe  (873 aa)
+ initn: 111 init1: 111 opt: 145  Z-score: 141.5  bits: 36.0 E(516081):  2.3
+Smith-Waterman score: 145; 25.5% identity (60.6% similar) in 137 aa overlap (41-172:629-763)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     . .:   ..:: :. ..   ::    .  :
+sp|O13 RRKQEEEARRLKVKQMEEEERRHQELLQKKREEEELERQKKIAEAKRLAEQERE--RQLL
+      600       610       620       630       640       650        
+
+               80        90            100       110       120     
+sp|Q1X PPRKRAKTEDEKEQRRIERVLR-----NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL
+         ..: ..: :::. . :..:.     .::: .  ..:.. : .: .... ..::.    
+sp|O13 AEKERLRAEREKERIEKEKALQLQRELERAAQEKEQQRREAEERKKREQQERLEQERLRK
+        660       670       680       690       700       710      
+
+         130       140       150       160       170       180     
+sp|Q1X LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLE
+        :. .... :..: ... : .:: .    ... : .:::  :  .::             
+sp|O13 EQEAKRLQEEEQRKAKEQAAVAASAPVMNVTVDMQNSPACESYEMTPKSCKVPSVKVNED
+        720       730       740       750       760       770      
+
+         190       200       210       220       230       240     
+sp|Q1X RIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+                                                                   
+sp|O13 NYGMDLNSDDSTDDESQPRKPIPAWASGNLLTQAIRQQYYKPIDVDRMYGTIDSPKLEEL
+        780       790       800       810       820       830      
+
+>>sp|A0JMT0|CA1AB_XENLA Chromatin assembly factor 1 subu  (885 aa)
+ initn: 102 init1:  65 opt: 146  Z-score: 142.4  bits: 36.1 E(516081):  2.1
+Smith-Waterman score: 146; 22.8% identity (60.2% similar) in 206 aa overlap (8-210:234-432)
+
+                                      10        20        30       
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNS
+                                     : .:  :  .::....    .: :. . ..
+sp|A0J SSADDDSVSVSSSSSPVSLSSPDVQTGSKFTNGSSPSTSTTPTGKATSNKTS-AEKKKTK
+           210       220       230       240       250        260  
+
+        40        50        60        70        80         90      
+sp|Q1X ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRI-ERVLRNRAA
+         .. .... ::.. :...   ...:   : .   ..: : . ::..:.  :.. .::  
+sp|A0J DKAEKRQAEKEERECARREARAAKDLAKKKREGEREQREKDKKEKKEREDREKAEKNRLK
+            270       280       290       300       310       320  
+
+        100        110       120       130       140       150     
+sp|Q1X AQTSRER-KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA
+        . ..:. . :: .. :..: . :....   .::..   :..:.. . :...  ..  . 
+sp|A0J EEKKKEKLEALEAKQEEKRKKEEEKRQKEEEKRLKE---EEKRIKAEKAEITRFLQ--KP
+            330       340       350          360       370         
+
+          160       170       180       190       200       210    
+sp|Q1X NTPM-PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQ
+       .::. : . : .   ..:  .:.     :: :: :   .  . .  :. .: .:::    
+sp|A0J KTPQAPKTFARSCGKFAPFEIKKGMALAPLCRIDFEQEASEELDIFLQEQT-SESSFLDE
+       380       390       400       410       420        430      
+
+          220       230       240       250       260       270    
+sp|Q1X HPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+                                                                   
+sp|A0J IKKRRPRKMGQTTVPTINSVEVDDVQVLGETDPVLGSNMVLEEHIKDIGVPERKKFGRMK
+        440       450       460       470       480       490      
+
+>>sp|Q5RDE1|IF2P_PONAB Eukaryotic translation initiation  (1220 aa)
+ initn:  64 init1:  64 opt: 147  Z-score: 141.4  bits: 36.4 E(516081):  2.3
+Smith-Waterman score: 147; 23.9% identity (58.3% similar) in 180 aa overlap (7-183:282-455)
+
+                                       10        20        30      
+sp|Q1X                         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN
+                                     :.  ..:.  . ::::  . : . :. . :
+sp|Q5R KLKEKEESETGKKDQSKQKESQRKSEEETVKSKVTLDT-GVIPASEEKAETPTAAEDD-N
+             260       270       280        290       300          
+
+         40          50        60        70        80         90   
+sp|Q1X SADVKTQEVKPE--EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE-RVLRN
+        .: : .. : .  ::.  .:.:. :    . :.      . : :.:...:. : :. : 
+sp|Q5R EGDKKKKDKKKKKGEKEEKEKEKKKGPSKATVKAMQEALAKLKEEEERQKREEEERIKRL
+     310       320       330       340       350       360         
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       .      .:..:::.:: : .: : :.. .  :.. ... ....: ..  :. . ..  .
+sp|Q5R EELEAKRKEEERLEQEKRERKK-QKEKERKERLKKEGKLLTKSQREARARAEATLKLLQA
+     370       380       390        400       410       420        
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+       .. . .:.. .   :   :    ..: ..:                              
+sp|Q5R QG-VEVPSKDSL--PKKRPIYEDKKRKKIPQQLESKEVSESMELCAAVEVMEQGVPEKEE
+      430          440       450       460       470       480     
+
+>>sp|Q4U1U2|MAFA_XENTR Transcription factor MafA OS=Xeno  (289 aa)
+ initn:  96 init1:  96 opt: 138  Z-score: 141.4  bits: 34.4 E(516081):  2.3
+Smith-Waterman score: 138; 30.6% identity (68.2% similar) in 85 aa overlap (83-167:203-284)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|Q4U RFSDEQLVSMSVRELNRQLRGFSKEEVIRLKQKR--RTLKNRGYAQSCRYKRVQQRHILE
+            180       190       200         210       220       230
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       .:: :...: . : :..:..  : .  ...  .::..   .: . :. :.:. :.     
+sp|Q4U TEKCQLQSQVEQLKQEVSRLAKERDLYKDKYEKLASRSFTTRESPPQ-GNPGKANADFFM
+              240       250       260       270        280         
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|Q64709|HLF_RAT Hepatic leukemia factor OS=Rattus no  (295 aa)
+ initn: 127 init1: 127 opt: 138  Z-score: 141.3  bits: 34.4 E(516081):  2.4
+Smith-Waterman score: 138; 29.4% identity (55.9% similar) in 136 aa overlap (16-148:163-290)
+
+                              10        20          30        40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPAS-EVPV-LTVSPADTSLNSADVKTQ
+                                     :  : . .:::    .::: .:.:      
+sp|Q64 PLHPGIPSPNCMQNPIRPGQLLPANRNTPSPIDPDTIQVPVGYEPDPADLALSSIP----
+            140       150       160       170       180            
+
+            50        60         70        80        90       100  
+sp|Q1X EVKPEEKKPAKKRKSWGQEL-PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+          ::   : .:::   .:: : :  .   ::    .: :...   :  .:  ::. ::.
+sp|Q64 --GPEMFDP-RKRKFSEEELKPQPMIK-KARKVFIPDDLKDDKYWARRRKNNMAAKRSRD
+        190        200       210        220       230       240    
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+        .::. ...  .   .:..:. : :...... : .. .. ::.  :              
+sp|Q64 ARRLKENQIAIRASFLEKENSALRQEVADLRKELGKCKNILAKYEARHGPL         
+          250       260       270       280       290              
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+
+>>sp|Q54NF3|Y6434_DICDI Uncharacterized protein DDB_G028  (412 aa)
+ initn:  71 init1:  71 opt: 140  Z-score: 141.2  bits: 34.8 E(516081):  2.4
+Smith-Waterman score: 140; 18.5% identity (63.1% similar) in 157 aa overlap (22-170:171-321)
+
+                        10        20         30        40        50
+sp|Q1X          MSCDMEKTMSSVDSLPATPASEVPV-LTVSPADTSLNSADVKTQEVKPEEK
+                                     ..:.   .. ...: ::     :. .:...
+sp|Q54 VECDFKMATNTPGSEQAQQQQQQQQQQQLGDIPIKQQITSSNNSGNS-----QQQQPQQQ
+              150       160       170       180            190     
+
+               60        70        80        90       100       110
+sp|Q1X KPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEK
+       .  .....  :. :  . .    .. .  ....:..... :...   : . ....:....
+sp|Q54 QQQQQQQQQQQQQPQQQQQQQQPQQQQHLQQQHQQQVQQ-LQQQQLQQQQLQQQQLQQQQ
+         200       210       220       230        240       250    
+
+              120       130       140           150          160   
+sp|Q1X LENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA----AEVRGSRANT---PMPGSP
+       :.....:. : .:.   . .:.. . .   ::: :.     :. . ..:.     : .::
+sp|Q54 LQQQQLQQPQLQQMQQPQQQQQQQQPQYTPQQLMQFQQMQQAQQQQQQAQQLQQQMGSSP
+          260       270       280       290       300       310    
+
+           170       180       190       200       210       220   
+sp|Q1X ATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL
+       . .:::.                                                     
+sp|Q54 THSSPTIKQEGLTGYTQIPQGGIINTNTNLNGTGGVSPNQPMPNSSPILPTNASSVVPPV
+          320       330       340       350       360       370    
+
+>>sp|P15336|ATF2_HUMAN Cyclic AMP-dependent transcriptio  (505 aa)
+ initn:  65 init1:  65 opt: 141  Z-score: 141.0  bits: 35.1 E(516081):  2.5
+Smith-Waterman score: 141; 27.2% identity (62.5% similar) in 136 aa overlap (15-143:278-412)
+
+                               10        20        30        40    
+sp|Q1X                 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ-
+                                     : :. ... : .: . .  . .:. :.:: 
+sp|P15 LVRPVTMVPSVPGIPGPSSPQPVQSEAKMRLKAALTQQHPPVTNGDTVKGHGSGLVRTQS
+       250       260       270       280       290       300       
+
+              50            60        70        80        90       
+sp|Q1X -EVKPEE-KKPAKKRK----SWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA
+        : .:.  ..:: .      : ..  :  ...   :.:: .::  :.:: . . ::::::
+sp|P15 EESRPQSLQQPATSTTETPASPAHTTPQTQSTSGRRRRAANEDPDEKRR-KFLERNRAAA
+       310       320       330       340       350        360      
+
+       100       110       120       130       140       150       
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT
+       .  :..... ...::..  .. . :  : .... .. :  .:.: :              
+sp|P15 SRCRQKRKVWVQSLEKKAEDLSSLNGQLQSEVTLLRNEVAQLKQLLLAHKDCPVTAMQKK
+        370       380       390       400       410       420      
+
+       160       170       180       190       200       210       
+sp|Q1X PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPA
+                                                                   
+sp|P15 SGYHTADKDDSSEDISVPSSPHTEAIQHSSVSTSNGVSSTSKAEAVATSVLTQMADQSTE
+        430       440       450       460       470       480      
+
+>>sp|Q553B1|DDX46_DICDI ATP-dependent RNA helicase ddx46  (1151 aa)
+ initn:  54 init1:  54 opt: 146  Z-score: 140.8  bits: 36.2 E(516081):  2.5
+Smith-Waterman score: 146; 21.7% identity (52.6% similar) in 272 aa overlap (16-275:149-410)
+
+                              10        20          30        40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPA--SEVPVLTVSPADTSLNSADVKTQ
+                                     :  :   :. :..  .:   .    . . :
+sp|Q55 QQQPHIQAPPPAKPRKSRFDQAPETIPIQAPQQPPMISNQPIFKQQPMYQQPMYQQKQQQ
+      120       130       140       150       160       170        
+
+            50          60        70              80          90   
+sp|Q1X EVKPEEKKPAKKRKS--WGQELPVPKTNLPP------RKRAKTEDEKEQRRI--ERVLRN
+          :  ..  :...   . .. : :  . ::      ...  . ....:.:.  : .  .
+sp|Q55 PQPPIFQQQQKQQQPPIFQHHQPPPIYQQPPVYQQQQQQQQPVFQQQQQQRVATEAIQFQ
+      180       190       200       210       220       230        
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       ..  : . :..::..:. :::: ..:: :    ..  . ..:. : .:.: :   .. ::
+sp|Q55 QTPQQLAIEQERLKQER-ENEK-KIEQANLEEEMKKRREKVEQWR-KQKLEQ-ELKASGS
+      240       250         260       270       280         290    
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+        .:.   .:: :.. : : :             ::    . .  ::  :  .: :  ..:
+sp|Q55 -SNSGSTSSPPTTTTTTTKTTAATTTATTSPLTIPSQQQQTATTSPIKKKWSLEEEEETA
+           300       310       320       330       340       350   
+
+           220       230       240       250       260       270   
+sp|Q1X QHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVF
+       : : :.. ..:     ::     ...   ..  ..: ..   ... .. :....: .. .
+sp|Q55 Q-PLVNT-NIEQKEIKLP---PTANIPAAAATTTSATINTTTIKQSIEEDDDIDPLDAYM
+             360          370       380       390       400        
+
+           280       290       300       310       320       330   
+sp|Q1X EDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGAST
+       :.                                                          
+sp|Q55 ENLNKEANLNLKKSKTSQMIDDDEKLEEESEGEDDGKDKTIKKGKKEMLHTDHTSIKYAE
+      410       420       430       440       450       460        
+
+>>sp|P48634|BAT2_HUMAN Large proline-rich protein BAT2 O  (2157 aa)
+ initn: 121 init1:  68 opt: 149  Z-score: 140.0  bits: 37.0 E(516081):  2.8
+Smith-Waterman score: 154; 27.0% identity (50.9% similar) in 222 aa overlap (18-228:380-575)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .: :: :.  .. :.::    ...     :
+sp|P48 SDEEGAEGHRDSQSASGEERPPEADGKKGNSPNSEPPTPKTAWAETS-RPPETEPGPPAP
+     350       360       370       380       390        400        
+
+        50           60        70        80           90       100 
+sp|Q1X EEKKPAKKRK---SWGQELPVPKTNLPPRKRAKTEDEKE---QRRIERVLRNRAAAQTSR
+       .   :  .:    .::     :  . :: :    ::: :   ::: .   .   :.. .:
+sp|P48 KPPLPPPHRGPAGNWGPPGDYPDRGGPPCKPPAPEDEDEAWRQRRKQSSSEISLAVERAR
+      410       420       430       440       450       460        
+
+             110       120       130        140       150       160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEVRGSRANTPMP
+       .:.. : .....:.     ..   :.::.. . : ..::.   :. ::         : :
+sp|P48 RRREEEERRMQEERRAACAEK---LKRLDEKFGAPDKRLK---AEPAA---------P-P
+      470       480          490       500          510            
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+       ..:.: .:   :.. :    :::    : : :. :  .:  .:   :..  . . :. .:
+sp|P48 AAPSTPAPP--PAVPK----ELPAP--PAPPPA-SAPTPEKEPEEPAQAPPAQSTPTPGV
+            520             530          540       550       560   
+
+                  230       240       250       260       270      
+sp|Q1X AG----LEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+       :.    . : ::                                                
+sp|P48 AAAPTLVSGGGSTSSTSSGSFEASPVEPQLPSKEGPEPPEEVPPPTTPPVPKVEPKGDGI
+           570       580       590       600       610       620   
+
+>>sp|Q5TM26|BAT2_MACMU Large proline-rich protein BAT2 O  (2160 aa)
+ initn: 122 init1:  68 opt: 149  Z-score: 140.0  bits: 37.0 E(516081):  2.8
+Smith-Waterman score: 152; 25.6% identity (49.6% similar) in 242 aa overlap (18-251:380-589)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .: ::.:   .. :.::    ...     :
+sp|Q5T SDEEGAEGHKDSQSASGEERPTEADGKKGNSPNSELPPPKTAWAETS-RPPETEPGPPAP
+     350       360       370       380       390        400        
+
+        50           60        70        80           90       100 
+sp|Q1X EEKKPAKKRK---SWGQELPVPKTNLPPRKRAKTEDEKE---QRRIERVLRNRAAAQTSR
+       .   :  .:    .::     :  . :: :    ::: :   ::: .   .   :.. .:
+sp|Q5T KPPLPPPHRGPAGNWGPPGDYPDRGGPPCKPPAPEDEDEAWRQRRKQSSSEISLAVERAR
+      410       420       430       440       450       460        
+
+             110       120       130        140       150       160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEVRGSRANTPMP
+       .:.. : .....:.     ..   :.::.. . : ..::.   :. ::         : :
+sp|Q5T RRREEEERRMQEERRAACAEK---LKRLDEKFGAPDKRLK---AEPAA---------P-P
+      470       480          490       500          510            
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+       ..:.: .:   :.. :    :::    :         ::.  :.   :  . :: : .. 
+sp|Q5T AAPSTPAPP--PAVPK----ELPAPLAP---------SPASAPTPEKEPEESAQAPPAQC
+            520             530                540       550       
+
+              230       240        250       260       270         
+sp|Q1X AGLEGDGSALPLFDLGSDLKHHSTDDV-AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       .   : ..:  : . :.. .  :. .  :.:.                            
+sp|Q5T TPTPGVAAAPTLVSGGGSTSSTSSGSFEASPVEPQLPSKEGPEPPEEVPPPTTPPAPKVE
+       560       570       580       590       600       610       
+
+     280       290       300       310       320       330         
+sp|Q1X DVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQ
+                                                                   
+sp|Q5T PKGDGIGPTRQPPSQGLGYPKYQKSLPPRFQRQQQEQLLKQQQQQQWQQHQQGSAPPTPV
+       620       630       640       650       660       670       
+
+>>sp|A3BYC1|HOX25_ORYSJ Homeobox-leucine zipper protein   (320 aa)
+ initn:  43 init1:  43 opt: 137  Z-score: 139.9  bits: 34.2 E(516081):  2.9
+Smith-Waterman score: 137; 23.4% identity (56.0% similar) in 282 aa overlap (24-294:48-314)
+
+                      10        20        30        40        50   
+sp|Q1X        MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEK---
+                                     : ::..  .  :.  :.  .    .:.   
+sp|A3B YSLERVAYVCERVGSPVMEEAELRRRRRKRPFLTTTHDELELQMEDLVDELYGVDEQGSS
+        20        30        40        50        60        70       
+
+                60        70        80          90       100       
+sp|Q1X -KPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER--VLRNRAAAQTSRERKRLE
+          :.::.  .... . . ..  .:: : : :....  .:  .   ..:.  . .: : .
+sp|A3B SAAARKRRLTAEQVRALERSFEEEKR-KLEPERKSELARRLGIAPRQVAVWFQNRRARWK
+        80        90       100        110       120       130      
+
+       110       120       130       140       150       160       
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS
+        ..:: .  ...  .. ::   . . :.:. : .:.  :. ..... ...: : ::: : 
+sp|A3B TKQLELDFDRLRAAHDELLAGRTALAADNESLRSQVILLTEKLQAN-GKSPSP-SPAPAE
+        140       150       160       170       180         190    
+
+       170       180       190       200       210       220       
+sp|Q1X PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDG
+        : .:.  .. .. . ::.       : : . .   .: . .. ::. ::. ::. .. .
+sp|A3B QTAVPAAPESAKS-FQLEE----GRRLYDAAGSTT-TTNGGGGGVAM-PAARVAAARAAS
+          200        210           220        230        240       
+
+       230         240       250          260       270       280  
+sp|Q1X SALP--LFDLGSDLKHHSTDDVAAPLSDDDF---NRLFHGDSSVEPDSSVFEDGLAFDVL
+       .  :   :  . .    : :: ..  ::::.   . :.  :...  :.  :: ..:  : 
+sp|A3B NDSPESYFAGARSPPSSSEDDCGGAGSDDDYPSSSVLLPVDATLVGDA--FEHAVAATV-
+       250       260       270       280       290         300     
+
+            290       300       310       320       330       340  
+sp|Q1X EGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIA
+        ..:  : :..:                                                
+sp|A3B -AADEEA-PLNSWEWFWN                                          
+           310        320                                          
+
+>>sp|P16951|ATF2_MOUSE Cyclic AMP-dependent transcriptio  (487 aa)
+ initn:  65 init1:  65 opt: 139  Z-score: 139.3  bits: 34.7 E(516081):  3.1
+Smith-Waterman score: 139; 27.2% identity (62.5% similar) in 136 aa overlap (15-143:260-394)
+
+                               10        20        30        40    
+sp|Q1X                 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ-
+                                     : :. ... : .: . .  . .:. :.:: 
+sp|P16 LVRPVTMVPSVPGIPGPSSPQPVQSEAKMRLKAALTQQHPPVTNGDTVKGHGSGLVRTQS
+     230       240       250       260       270       280         
+
+              50            60        70        80        90       
+sp|Q1X -EVKPEE-KKPAKKRK----SWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA
+        : .:.  ..:: .      : ..  :  ...   :.:: .::  :.:: . . ::::::
+sp|P16 EESRPQSLQQPATSTTETPASPAHTTPQTQNTSGRRRRAANEDPDEKRR-KFLERNRAAA
+     290       300       310       320       330        340        
+
+       100       110       120       130       140       150       
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT
+       .  :..... ...::..  .. . :  : .... .. :  .:.: :              
+sp|P16 SRCRQKRKVWVQSLEKKAEDLSSLNGQLQSEVTLLRNEVAQLKQLLLAHKDCPVTAMQKK
+      350       360       370       380       390       400        
+
+       160       170       180       190       200       210       
+sp|Q1X PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPA
+                                                                   
+sp|P16 SGYHTADKDDSSEDLSVPSSPHTEAIQHSSVSTSNGVSSTSKAEAVATSVLTQMADQSTE
+      410       420       430       440       450       460        
+
+>>sp|Q96RN5|MED15_HUMAN Mediator of RNA polymerase II tr  (788 aa)
+ initn: 164 init1:  84 opt: 142  Z-score: 139.3  bits: 35.4 E(516081):  3.1
+Smith-Waterman score: 142; 19.1% identity (59.5% similar) in 220 aa overlap (5-221:119-331)
+
+                                         10        20        30    
+sp|Q1X                           MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS
+                                     : . ::   . :   .. .:  ... ..:.
+sp|Q96 TGGPAAGAAGIGMPPRGPGQSLGGMGSLGAMGQPMSLSGQPPPGTSGMAP-HSMAVVSTA
+       90       100       110       120       130        140       
+
+           40        50        60        70        80        90    
+sp|Q1X LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR
+         ..... :.:  ....  .. ..  :     . .   ... ....   :.... :....
+sp|Q96 TPQTQLQLQQVALQQQQQQQQFQQQQQAALQQQQQQQQQQQFQAQQSAMQQQFQAVVQQQ
+       150       160       170       180       190       200       
+
+          100       110       120       130       140       150    
+sp|Q1X AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR
+          : ...... .. ::.... :. ::.:  :::..:.. .... .::  :   . .. .
+sp|Q96 QQLQQQQQQQQ-HLIKLHHQNQQQIQQQQQQLQRIAQLQLQQQQQQQQQQQQQQQ-QALQ
+       210        220       230       240       250       260      
+
+          160       170        180         190       200       210 
+sp|Q1X ANTPMPGSPATASPTLTPTL-FKQERDEL--PLERIPFPTPSLSDYSPTLKPSTLAESSD
+       :. :.  .:   .:   :.  . :. ...    .. : : :.    . . .:: :  .:.
+sp|Q96 AQPPIQ-QPPMQQPQPPPSQALPQQLQQMHHTQHHQPPPQPQQPPVAQN-QPSQLPPQSQ
+         270        280       290       300       310        320   
+
+             220       230       240       250       260       270 
+sp|Q1X VAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSS
+       .  .: :: :                                                  
+sp|Q96 T--QPLVSQAQALPGQMLYTQPPLKFVRAPMVVQQPPVQPQVQQQQTAVQTAQAAQMVAP
+             330       340       350       360       370       380 
+
+>>sp|Q2UNX4|KAPC_ASPOR Putative transcription factor kap  (284 aa)
+ initn:  70 init1:  70 opt: 142  Z-score: 145.3  bits: 35.0 E(516081):  1.4
+Smith-Waterman score: 142; 24.2% identity (51.6% similar) in 215 aa overlap (16-223:44-237)
+
+                              10        20           30         40 
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVL---TVSPAD-TSLNSADVK
+                                     :  ::.. : .   :.:: : .... :   
+sp|Q2U QTSAQDHADQVLHDQLLAAHQHLSHPQQPRPQPPAAQPPHMQPNTTSPRDQNNIDPAISG
+            20        30        40        50        60        70   
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       .  ..   . : . . . ::: :            ::  ..     .:. .:::: .. :
+sp|Q2U AAMLSGPPQTPPQPEPT-GQESP------------KTYGKRPLSTSKRAAQNRAAQRAFR
+            80        90                    100       110       120
+
+             110       120         130       140       150         
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQF--LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-
+       .::.  ..:::      :: ..:  . . .. ..::: .: . . .: ...  :....: 
+sp|Q2U QRKESYIRKLE------EQVKEFDTMSEAFKALQAENYQLREYIINLQSRLLESQGEVPE
+              130             140       150       160       170    
+
+      160       170       180       190       200       210        
+sp|Q1X MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+       .::.   ..:  :     :            :.:  :  . .  :.  : ..:. .   .
+sp|Q2U LPGNIDLSQPR-TDLNVPQPGAGPATTSSSAPAPP-SGAQQAQPPQGAASNDDMNSLNRI
+          180        190       200        210       220       230  
+
+      220       230       240       250       260       270        
+sp|Q1X SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLA
+       .::::                                                       
+sp|Q2U AVAGLGMRKHPNEEANYLGNNFTGRRTRPDETQADSEVTKTEQAPHGLPMVS        
+            240       250       260       270       280            
+
+>>sp|Q80U35|ARHGH_MOUSE Rho guanine nucleotide exchange   (2057 aa)
+ initn:  95 init1:  56 opt: 147  Z-score: 138.4  bits: 36.6 E(516081):  3.5
+Smith-Waterman score: 147; 24.5% identity (52.9% similar) in 208 aa overlap (19-214:838-1039)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADV-KTQEVKP
+                                     :..: :.  : :     .:  .   : ..:
+sp|Q80 EDRIAGKTPKKKSLSDPSRRGELTGPGFEGPGGE-PIREVEPMLPPSSSEPILAEQWTEP
+       810       820       830       840        850       860      
+
+        50        60        70        80        90       100       
+sp|Q1X EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERK-RL
+       :.  ::. : .  . ::.:     : . .  .: . . ..  ::  : . . :..:  : 
+sp|Q80 EDPAPARGRAQSERSLPAP-----PASSTAHHDFHLDPKLTSVLSPRLTRRGSKKRPARS
+        870       880            890       900       910       920 
+
+        110       120       130       140           150       160  
+sp|Q1X EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA----AEVRGSRANTPMP-G
+         ..:. :. ...: ...   : :. ....  .   .. ..    :   :  . .: : :
+sp|Q80 SHQELRREEGNQDQTGSLTQTRSSSKHVRHASVPATFTPIVVPEPAMSVGPPVAAPEPVG
+             930       940       950       960       970       980 
+
+             170         180         190        200       210      
+sp|Q1X SPATASPTL-TPTLFK-QERDELPLER--IPFPTP-SLSDYSPTLKPSTLAESSDVAQHP
+        :. . :.: .:.:    .:  : :.   .: : : .:    :.  ::: .. : .:.  
+sp|Q80 FPVRGHPALQAPSLEDVTKRYMLTLHSGDVPAPGPVDLPCLPPSAPPSTETKPSGAARAT
+             990      1000      1010      1020      1030      1040 
+
+        220       230       240       250       260       270      
+sp|Q1X AVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+                                                                   
+sp|Q80 PDEPAPASKCCSKPQVDMRKHVTMTLLDTEQSYVESLRTLMQGYMQPLKQPENSLLCDPS
+            1050      1060      1070      1080      1090      1100 
+
+>>sp|P0C865|MK07_RAT Mitogen-activated protein kinase 7   (806 aa)
+ initn: 130 init1:  75 opt: 149  Z-score: 145.7  bits: 36.6 E(516081):  1.3
+Smith-Waterman score: 156; 26.3% identity (50.2% similar) in 259 aa overlap (3-236:429-680)
+
+                                           10          20        30
+sp|Q1X                             MSCDMEKTMSSVDSLP--ATPASEVPVLTVSP
+                                     : ::   :   .::  . :: ..  ::..:
+sp|P0C IRFQPSLQPVASEPVCPDVEMPSPWAPSGDCAME---SPPPALPPCSGPAPDTVDLTLQP
+      400       410       420       430          440       450     
+
+               40        50              60        70         80   
+sp|Q1X ADTSLNSADVKTQEVKPEEKKPA------KKRKSWGQELPVPKTNLP-PRKRAKTEDEKE
+       :  . . :  : . .  .. : :      :. .:  .. :    . : ::: . ......
+sp|P0C APPASELAPPKREGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQR
+         460       470       480       490       500       510     
+
+            90       100       110       120       130        140  
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR-LSQQ
+       .:. .:  : :      ::..: : :. :     .   .   :  :  . ..:.: : ..
+sp|P0C EREEKR--RRRQERAKEREKRRQERERKERGAGTLGGPSTDPLAGL--VLSDNDRSLLER
+         520         530       540       550         560       570 
+
+            150       160        170        180        190         
+sp|Q1X LAQLAAEVRGSRANTPMPG-SPATASPTLTPTL-FKQERDEL-PLERIPFPT--PSLSDY
+        ...:     . : .: :  .:..:.::  :.   .:    : :   :: :.  :     
+sp|P0C WTRMARPPVPAPAPAPAPTPKPSSAQPTSPPNGPVSQSTAPLQPAGSIPGPASQPVCPPP
+             580       590       600       610       620       630 
+
+       200               210       220         230       240       
+sp|Q1X SPTLKPS--------TLAESSDVAQHPAVSVAGLEGDGS--ALPLFDLGSDLKHHSTDDV
+       .:. .:.        :   .: .:..  :  .:: :.:.  .:: :  :           
+sp|P0C GPVPQPAGPVPAPLQTAPSTSLLASQSLVPPSGLPGSGAPEVLPYFPSGPPPPDPGLTPQ
+             640       650       660       670       680       690 
+
+       250       260       270       280       290       300       
+sp|Q1X AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+                                                                   
+sp|P0C PSTSESPDVNLVTQQLSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVAD
+             700       710       720       730       740       750 
+
+>>sp|P97875|JDP2_MOUSE Jun dimerization protein 2 OS=Mus  (163 aa)
+ initn: 109 init1: 109 opt: 131  Z-score: 138.2  bits: 32.9 E(516081):  3.5
+Smith-Waterman score: 131; 27.2% identity (56.3% similar) in 151 aa overlap (16-163:9-155)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                      :.. :. .: :  .:  :.: :. . :.:.:  . .      .  
+sp|P97        MMPGQIPDPSVTAGSLPGL--GPL-TGLPSSALTTEELKYADIRNIGAMIAPL
+                      10          20         30        40        50
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       . : : : .  :.   .  ::.:.:: .:  .:..::   :..:. . : :. :. ..: 
+sp|P97 HFLEV-KLGKRPQPVKSELDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLEL
+                60        70        80        90       100         
+
+              130       140         150       160        170       
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAE--VRGSRANTPMP-GSPATASPTLTPTLFKQ
+       .:  :  .. ... : ..:  .: .      :: . . ::   :.:              
+sp|P97 MNAELKTQIEELKLERQQLILMLNRHRPTCIVRTDSVRTPESEGNPLLEQLDKK      
+     110       120       130       140       150       160         
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+
+>>sp|Q78E65|JDP2_RAT Jun dimerization protein 2 OS=Rattu  (163 aa)
+ initn: 109 init1: 109 opt: 131  Z-score: 138.2  bits: 32.9 E(516081):  3.5
+Smith-Waterman score: 131; 27.2% identity (56.3% similar) in 151 aa overlap (16-163:9-155)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                      :.. :. .: :  .:  :.: :. . :.:.:  . .      .  
+sp|Q78        MMPGQIPDPSVTAGSLPGL--GPL-TGLPSSALTTEELKYADIRNIGAMIAPL
+                      10          20         30        40        50
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       . : : : .  :.   .  ::.:.:: .:  .:..::   :..:. . : :. :. ..: 
+sp|Q78 HFLEV-KLGKRPQPVKSELDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLEL
+                60        70        80        90       100         
+
+              130       140         150       160        170       
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAE--VRGSRANTPMP-GSPATASPTLTPTLFKQ
+       .:  :  .. ... : ..:  .: .      :: . . ::   :.:              
+sp|Q78 MNAELKTQIEELKLERQQLILMLNRHRPTCIVRTDSVRTPESEGNPLLEQLDKK      
+     110       120       130       140       150       160         
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+
+>>sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive element-bi  (368 aa)
+ initn: 134 init1: 134 opt: 151  Z-score: 152.2  bits: 36.7 E(516081): 0.59
+Smith-Waterman score: 151; 25.9% identity (54.7% similar) in 212 aa overlap (20-221:105-301)
+
+                          10        20        30        40         
+sp|Q1X            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEE
+                                     :. .:. .  :::      ..    .  ::
+sp|Q8S PCLVQHDHTYSLSQEHVSIDLDNESYEKERAQMTPLRVEEPAD-----QEIARLILTEEE
+           80        90       100       110            120         
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+       :.  .:.   :  ::     ::  :     .:.  .:..: .::. .:: ::..:.. . 
+sp|Q8S KRLLEKE---GLTLP---GMLPLTKM----EEQVLKRVRRKIRNKKSAQESRRKKKVYVG
+     130          140              150       160       170         
+
+     110       120       130       140       150            160    
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV-----RGSRANTPMPGSPA
+        ::.. ...  ::  : .... .: .:  : .:: .: : :     ..: ..: .     
+sp|Q8S GLESRVLKYTAQNLELQNKVQLLEEQNLSLLDQLRRLQAMVIQTANKASSSSTCVLVLLF
+     180       190       200       210       220       230         
+
+          170        180         190        200        210         
+sp|Q1X TASPTLTPTLFKQE-RDELPLER--IPFPTPSL-SDYSPTLKPSTL-AESSDVAQHPAVS
+       .    :.:...... :  :: :.  .     .: :.  : :.: .: .:    . .: ..
+sp|Q8S SFCLLLVPAMYSSDTRGSLPAEHRVLSRQLRALPSEDPPQLEPPALQSEVPKDSLNPELQ
+     240       250       260       270       280       290         
+
+     220       230       240       250       260       270         
+sp|Q1X VAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       .:                                                          
+sp|Q8S AASNSCCLFHLMPQAPRAEPPLQLPLPDGFSGCSCPDSISPLHANLTREEGWLPTPSPTS
+     300       310       320       330       340       350         
+
+>>sp|P48755|FOSL1_MOUSE Fos-related antigen 1 OS=Mus mus  (273 aa)
+ initn:  97 init1:  97 opt: 150  Z-score: 153.0  bits: 36.4 E(516081): 0.53
+Smith-Waterman score: 150; 26.9% identity (53.4% similar) in 208 aa overlap (44-232:72-265)
+
+            20        30        40        50        60        70   
+sp|Q1X SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR
+                                     . .: . .:.  : . :   : : .   : 
+sp|P48 SIDSSSQELHWMVQPHFLGPTGYPRPLAYPQYSPPQPRPGVIR-ALG---PPPGVRRRPC
+              50        60        70        80            90       
+
+            80        90       100              110       120      
+sp|Q1X KRAKTEDEKEQRRIERVLRNRAAAQTSRERKR-------LEMEKLENEKIQMEQQNQFLL
+       .. . :.: :.::..:  ::. ::   :.:..        : .:::.::  .... . : 
+sp|P48 EQISPEEE-ERRRVRRE-RNKLAAAKCRNRRKELTDFLQAETDKLEDEKSGLQREIEELQ
+       100        110        120       130       140       150     
+
+        130         140       150             160       170        
+sp|Q1X QRLSQMEA--ENNRLSQQLAQLAAEVRGSRANT------PMPGSPATASPTLTP-TLFKQ
+       ..  ..:   : .:   .. .   .  :. ..:      : :: :.    .:.:  ... 
+sp|P48 KQKERLELVLEAHRPICKIPEGDKKDPGGSGSTSGASSPPAPGRPVPCI-SLSPGPVLEP
+         160       170       180       190       200        210    
+
+       180       190       200          210       220       230    
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTL---KPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+       :  . :     . ::::. ..:.:    :::  :  . :.. . : .:   : :. ::  
+sp|P48 EALHTPTL---MTTPSLTPFTPSLVFTYPST-PEPCSSAHRKSSSSSG---DPSSDPLGS
+          220          230       240        250          260       
+
+          240       250       260       270       280       290    
+sp|Q1X LGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDS
+                                                                   
+sp|P48 PTLLAL                                                      
+       270                                                         
+
+>>sp|A2AJI0|MA7D1_MOUSE MAP7 domain-containing protein 1  (846 aa)
+ initn:  93 init1:  59 opt: 141  Z-score: 138.0  bits: 35.3 E(516081):  3.7
+Smith-Waterman score: 141; 24.7% identity (56.2% similar) in 146 aa overlap (4-149:527-669)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     . .:. .. .. ::.::: .:  . ::. .
+sp|A2A PRGTTASPKGRVRRKEEAKESPSPSGPEDKNHRKSRAAEEKEPAAPASPAPSPVPSPTPA
+        500       510       520       530       540       550      
+
+            40        50        60        70        80        90   
+sp|Q1X SLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRN
+       . .. . .:: .  :   ::      .    .:... : .  : : :..:  :.    : 
+sp|A2A QPQKEQSSTQ-IPAETAVPAVPAAPTAPPTAAPSVT-PSKPMAGTTDREEATRLLAEKRR
+        560        570       580       590        600       610    
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       .:  :  ::... ...  ...... ::  .    : .. :::  :  .: :.  :.    
+sp|A2A QAREQREREEQERKLQAERDKRMREEQLAREAEAR-AEREAEARRREEQEAREKAQAEQE
+          620       630       640        650       660       670   
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+                                                                   
+sp|A2A EQERLQKQKEEAEARSREEAERQRQEREKHFQKEEQERQERRKRLEEIMKRTRKSEAAET
+           680       690       700       710       720       730   
+
+>>sp|Q00312|RBF1_CANAL Transcription factor RBF1 OS=Cand  (527 aa)
+ initn: 102 init1:  62 opt: 142  Z-score: 141.7  bits: 35.3 E(516081):  2.3
+Smith-Waterman score: 142; 23.0% identity (57.0% similar) in 200 aa overlap (36-229:263-449)
+
+          10        20        30        40            50        60 
+sp|Q1X EKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEE----KKPAKKRKSWGQ
+                                     :  : : .. ::.:    .. ..  . :  
+sp|Q00 TTVKDATKRQRIAYTKRNKCAYRLVANLYPNEKDQKRKN-KPDEPGHNEENSRISEMWVL
+            240       250       260       270        280       290 
+
+              70        80        90       100       110       120 
+sp|Q1X ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ
+       ..  :. :  :    :    :....  :.: ..   .  .... :..:. .... :..::
+sp|Q00 RMINPQHNHAPDPINK----KKRQKTSRTLVEKPINKP-HHHHLLQQEQQQQQQQQQQQQ
+             300           310       320        330       340      
+
+             130       140       150       160       170           
+sp|Q1X NQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPT--LFKQER
+       .:   :. .: .: :.. .:: :::  ... .   . .: .: . :  :     : .:. 
+sp|Q00 QQ---QQQQQHNA-NSQAQQQAAQLQQQMQQQLQASGLPTTP-NYSELLGQLGQLSQQQS
+           350        360       370       380        390       400 
+
+     180       190       200       210       220       230         
+sp|Q1X DELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL
+       ..  :..::      .. .   .:.  :.. :  :  :. .:..:....:          
+sp|Q00 QQQQLHHIPQQRQRTQSQQSQQQPQQTAHGLD--QPDAAVIAAIEASAAAAVASQGSPNV
+             410       420       430         440       450         
+
+     240       250       260       270       280       290         
+sp|Q1X KHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFD
+                                                                   
+sp|Q00 TAAAVAALQHTQGNEHDAQQQQDRGGNNGGAIDSNVDPSLDPNVDPNVQAHDHSHGLRNS
+     460       470       480       490       500       510         
+
+>>sp|O35413|SRBS2_RAT Sorbin and SH3 domain-containing p  (1196 aa)
+ initn:  70 init1:  70 opt: 143  Z-score: 137.8  bits: 35.7 E(516081):  3.7
+Smith-Waterman score: 143; 26.7% identity (53.9% similar) in 217 aa overlap (18-229:220-425)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     :: .    :  :: ... . : .:::  .:
+sp|O35 TVDRPKDWYKTMFKQIHMVHKPDEDTDMYNTPYTYNAGLYNSPYSAQSHPA-AKTQTYRP
+     190       200       210       220       230       240         
+
+        50        60          70        80         90       100    
+sp|Q1X EEKKPAKKRKSWGQEL--PVPKTNLPPRKRAKTEDEK-EQRRIERVLRNRAAAQTSRERK
+         :. . .  .  .:   :::  ..::: : ..  :: .    .: . .:     :. :.
+sp|O35 LSKSHSDNGTDAFKEATSPVPPPHVPPRPRDQSSTEKHDWDPPDRKVDTRKF--RSEPRS
+      250       260       270       280       290       300        
+
+          110       120       130       140       150       160    
+sp|Q1X RLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPA
+        .:.:  ..  .: :.  . . :  :...   .: :.. :..:.. :  : . :  : : 
+sp|O35 IFEYEPGKSSILQHERPVS-VYQ--SSIDRSLERPSSS-ASMAGDFRKRRKSEPAVGPPR
+        310       320          330       340        350       360  
+
+          170       180       190       200       210         220  
+sp|Q1X TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQH--PAVSVAG
+         .   . .  .  : .::     : :  .:. ::. .::  :...: ..   :  : .:
+sp|O35 GLGDH-SSSRTSPGRADLPGSSSTFTTSFISS-SPS-SPSR-AQGGDDSKMCPPLCSYSG
+             370       380       390         400        410        
+
+            230       240       250       260       270       280  
+sp|Q1X LEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVL
+       :.:. :.                                                     
+sp|O35 LNGSPSSELECCGAYRRHLDVPQDSQRAITFKNGWQMARQNAEIWSSTEEAVSPKIKSRS
+      420       430       440       450       460       470        
+
+>>sp|P97876|BATF3_RAT Basic leucine zipper transcription  (133 aa)
+ initn: 100 init1: 100 opt: 129  Z-score: 137.5  bits: 32.5 E(516081):  3.9
+Smith-Waterman score: 129; 30.2% identity (77.8% similar) in 63 aa overlap (83-145:28-90)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     ..:...:  .::.::: ::...  . .::.
+sp|P97    MSQGPPAGGVLQSSVAAPGNQPQSPKDDDRKVRRREKNRVAAQRSRKKQTQKSDKLH
+                  10        20        30        40        50       
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       .:. ..::.:. : ....... :  .:.. : .                           
+sp|P97 EEHESLEQENSVLRREIAKLKEELRHLTEALKEHEKMCPLLLCPMNFVQLRPDPVASWSA
+        60        70        80        90       100       110       
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+                                                                   
+sp|P97 HDAPDHPSFIWLGTLV                                            
+       120       130                                               
+
+>>sp|O93602|ATF2_CHICK Cyclic AMP-dependent transcriptio  (487 aa)
+ initn: 112 init1:  65 opt: 141  Z-score: 141.2  bits: 35.1 E(516081):  2.4
+Smith-Waterman score: 141; 25.2% identity (58.8% similar) in 131 aa overlap (13-143:275-394)
+
+                                 10        20        30        40  
+sp|Q1X                   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKT
+                                     :.  . :.. : . .  :   ::..  ..:
+sp|O93 GPSSPQPVQSEAKLRLKAALTQQHPQVTNGDTAKGHPSGLVRTQSEEPRPQSLQQPATST
+          250       260       270       280       290       300    
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+        :.     .:...  . : .          :.:: .::  :.:: . . ::::::.  :.
+sp|O93 TETPASPAQPTQQTPNTGGR----------RRRAANEDPDEKRR-KFLERNRAAASRCRQ
+          310       320                 330        340       350   
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       .... ...::..  .. . :  : .... .. :  .:.: :                   
+sp|O93 KRKVWVQSLEKKAEDLSSLNGQLQNEVTLLRNEVAQLKQLLLAHKDCPVTAMQKKSGYHT
+           360       370       380       390       400       410   
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+                                                                   
+sp|O93 ADKDDSSEDISVPSSPHTEAIQHSSVSTSNGVSSTSKAEAVATSVLTQLADQSSEPGLPQ
+           420       430       440       450       460       470   
+
+>>sp|Q5F489|TAF3_CHICK Transcription initiation factor T  (930 aa)
+ initn: 120 init1:  86 opt: 151  Z-score: 146.8  bits: 37.0 E(516081):  1.2
+Smith-Waterman score: 152; 26.1% identity (52.7% similar) in 226 aa overlap (14-232:662-845)
+
+                                10           20        30        40
+sp|Q1X                  MSCDMEKTMSSVDSLP--ATP-ASEVPVLTVSPADTSLNSADV
+                                     :::  .:: : ..:  .. :. . .    .
+sp|Q5F KKDKEKVKDKSKEDKIKPPSAPLVLPPKEMSLPLFSTPTAMRLP--SMLPSLSPMLPEKL
+             640       650       660       670         680         
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+         .. ::.:::  ::.:               .:. . : .::...     ...   .  
+sp|Q5F FEDKEKPKEKKKDKKEK---------------KKKKEREKDKEKEK-----KDKEKERKE
+     690       700                      710       720              
+
+              110       120          130        140       150      
+sp|Q1X RERKRLEMEKLENEKIQMEQ---QNQFLLQRLS-QMEAENNRLSQQLAQLAAEVRGSRAN
+       ::.:. : :: ..:::..:      . .. ::. .. : ....  . .  : :   ..  
+sp|Q5F REKKEKEKEKHKHEKIKVEPVVPAPSPVIPRLTLRVGAGQDKIVISKVVPAPE---AKPA
+     730       740       750       760       770       780         
+
+        160       170       180       190       200       210      
+sp|Q1X TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHP
+       ::. . : :  :. .:.         :..  : :.:  .  .::..:. :  .:     :
+sp|Q5F TPV-SRPKTPPPVPSPV-------PAPVHVTPPPAPVPAPPQPTVSPALLPPAS-----P
+         790       800              810       820       830        
+
+        220       230       240       250       260       270      
+sp|Q1X AVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+       :::.::    ::  :.                                            
+sp|Q5F AVSAAG----GSKAPVRSVVTETVSTYVIRDEWGNQIWFCPGCNKPDDGSPMIGCDDCDD
+               840       850       860       870       880         
+
+>>sp|Q6CBW0|NST1_YARLI Stress response protein NST1 OS=Y  (889 aa)
+ initn: 264 init1:  76 opt: 140  Z-score: 136.7  bits: 35.1 E(516081):  4.3
+Smith-Waterman score: 141; 28.0% identity (58.4% similar) in 161 aa overlap (48-194:477-629)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRK---
+                                     :::. :. :.   ... . : .   .:   
+sp|Q6C KEREKAARKAASEAKQKARQEEQARLAREKEEKRLARIRE-MEERMRLAKEKEEREKEEL
+        450       460       470       480        490       500     
+
+           80         90       100       110       120       130   
+sp|Q1X RAKTEDEKEQRR-IERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME
+       ::. ..:...::  ::. ..:       : .::: :..:::... :...: : ..  ...
+sp|Q6C RARQQQEEDERREKERLEEERI------ENERLEAERIENERLEKEREQQRLEEEKERQR
+         510       520             530       540       550         
+
+           140       150          160          170          180    
+sp|Q1X AENNRLSQQLAQLAAEVRGSRA---NTPMPGS---PATASPTLTPTLFK---QERDELPL
+        ...: .:.: .   : :.: .   . :.::.   ::.   :    : .   :     :.
+sp|Q6C IKEEREKQKLEE-EREKRASMSIPLSKPLPGKTQIPASQPGTSLGGLQQPVPQAAPVAPV
+     560       570        580       590       600       610        
+
+           190       200       210       220       230       240   
+sp|Q1X ERIP-FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHS
+         .:  :.:.:                                                 
+sp|Q6C AMMPQSPSPQLPPGLTQHVAQSQILLDRLTPDPTSRMTPERHTPSPGSTTSNAKTLLDSL
+      620       630       640       650       660       670        
+
+>>sp|Q9CXK9|RBM33_MOUSE RNA-binding protein 33 OS=Mus mu  (1231 aa)
+ initn:  63 init1:  63 opt: 142  Z-score: 136.7  bits: 35.6 E(516081):  4.3
+Smith-Waterman score: 142; 27.1% identity (54.7% similar) in 181 aa overlap (5-169:749-921)
+
+                                         10        20        30    
+sp|Q1X                           MSCDMEKTMSSVDSLPATPASEVPVLTVSPAD-T
+                                     :. :    ..:   : .   :: .:    .
+sp|Q9C PSSSRMQCTPHQGLRHNAASQNISKRPMQQMQPTAPRNSNLRELPIAPSHVLEMSGNRCS
+      720       730       740       750       760       770        
+
+            40         50        60        70               80     
+sp|Q1X SLNSADVKTQ-EVKPEEKKPAKKRKSWGQELPVPKTNLP---PRKRAKTE----DEKEQR
+       :   :.::.  ...:  .  ...:.: :.     :   :   :...:: :    :: :. 
+sp|Q9C STPVAQVKSIVNTSPPCRAVVSSRSSQGNTDAKAKPLSPEAQPKEEAKPEAEFPDEDEET
+      780       790       800       810       820       830        
+
+          90       100       110       120           130       140 
+sp|Q1X RIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ----NQFLLQRLSQMEAENNRLS-
+       :. :.          .:.:::. : :...... .::    .. ::.::.:.. .... . 
+sp|Q9C RLYRL--------KIEEQKRLREEILKQKELRRQQQAGARKKELLERLAQQQQQQQQQQH
+      840               850       860       870       880       890
+
+                150       160       170       180       190        
+sp|Q1X --QQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYS
+         ::  :   .. ::...  .    :: :::                             
+sp|Q9C QPQQQQQQPQQIYGSQTSMEQEELAATPSPTNGNPLLPFPGAQCRQNVKTRLLVKNQDIT
+              900       910       920       930       940       950
+
+      200       210       220       230       240       250        
+sp|Q1X PTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNR
+                                                                   
+sp|Q9C TASVQPKAVNFVPPGANVQHQGQHLRPLKHLRQLPHKVLQVKPMDMEETPHSPQAARVTS
+              960       970       980       990      1000      1010
+
+>>sp|Q554P0|BZPJ_DICDI Probable basic-leucine zipper tra  (787 aa)
+ initn: 125 init1: 125 opt: 139  Z-score: 136.5  bits: 34.9 E(516081):  4.4
+Smith-Waterman score: 139; 27.3% identity (66.7% similar) in 99 aa overlap (80-175:546-644)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     .::: .. .:...::  :. :: :... .:
+sp|Q55 LSREHVLKLSSKEIEEYVSRLKMHHILTQAEEKELKKQRRLVKNREYASQSRSRRKIYVE
+         520       530       540       550       560       570     
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPG---SPATA
+       ..:..  . .:.   . ..:.... ::. :..:: .:.  .... . .   :   ::   
+sp|Q55 NIETKLQKTNQDCASIKSQLNSVKEENKALKKQLYSLTNTLKSNPSLAEAFGKIFSPIGN
+         580       590       600       610       620       630     
+
+        170       180       190       200       210       220      
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGD
+       . : . :::                                                   
+sp|Q55 NKTSSATLFVFFFLFTFTFLFQSSTVTFNSDRVSSIQRNLLSLEETQATEWNIKRAILEE
+         640       650       660       670       680       690     
+
+>>sp|Q55EQ3|Y9086_DICDI Uncharacterized abhydrolase doma  (937 aa)
+ initn: 213 init1:  65 opt: 140  Z-score: 136.4  bits: 35.1 E(516081):  4.4
+Smith-Waterman score: 140; 27.8% identity (61.1% similar) in 144 aa overlap (18-154:283-415)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKT-QEVK
+                                     .:.:.. . :.: . :. ....  . .: :
+sp|Q55 HEVHNEFAKEEFVTYILEWIKERIENAKNESPSSNINTTTTSTTTTTTTTTSSPVVEESK
+            260       270       280       290       300       310  
+
+           50        60        70            80        90       100
+sp|Q1X P--EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTE----DEKEQRRIERVLRNRAAAQTS
+       :  ::.::. ....     :: . . :  ...: :    : ::... ::. ...:::.  
+sp|Q55 PVVEESKPVVEESK-----PVVEESKPVVEESKPEPVVDDSKEKEEKERLEKEEAAAKLE
+            320            330       340       350       360       
+
+              110       120       130       140       150       160
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP
+       .::    .:: : :..  : ... .  .  .   :: . .:: :  ::...  :      
+sp|Q55 KER----LEKEEAERVAKEAEEKRI--KDEKEAQENLEKQQQEAAAAAQAEKERLEKEEA
+       370           380         390       400       410       420 
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+                                                                   
+sp|Q55 DKLEKERLEAEAAAAAQAEKERLEAEAAAAAQAEKERLEAEAAAAVQAEKERLEKEEADR
+             430       440       450       460       470       480 
+
+>>sp|O75037|KI21B_HUMAN Kinesin-like protein KIF21B OS=H  (1637 aa)
+ initn:  66 init1:  66 opt: 143  Z-score: 136.0  bits: 35.8 E(516081):  4.7
+Smith-Waterman score: 143; 26.2% identity (61.0% similar) in 141 aa overlap (41-173:723-857)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     : : .. :. .  :... . .::   ....
+sp|O75 STMECYTEEKANKIKADYEKRLREMNRDLQKLQAAQKEHARLLKNQSRYERELKKLQAEV
+            700       710       720       730       740       750  
+
+                     80        90       100         110       120  
+sp|Q1X PPRKRAKT------EDEKEQRRIERVLRNRAAAQTSRERKRLEME--KLENEKIQMEQQN
+          :.::.      ..:...::. .. :::  :: ..:..: :..   ::..:    .:.
+sp|O75 AEMKKAKVALMKQMREEQQRRRLVETKRNREIAQLKKEQRRQEFQIRALESQK----RQQ
+            760       770       780       790       800            
+
+            130       140       150       160       170       180  
+sp|Q1X QFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDEL
+       ...:.: .:  .   ::.. ... .:   : .   ::  : : .: . : .         
+sp|O75 EMVLRRKTQEVSALRRLAKPMSERVAGRAGLK--PPMLDSGAEVSASTTSSEAESGARSV
+      810       820       830       840         850       860      
+
+            190       200       210       220       230       240  
+sp|Q1X PLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHH
+                                                                   
+sp|O75 SSIVRQWNRKINHFLGDHPAPTVNGTRPARKKFQKKGASQSFSKAARLKWQSLERRIIDI
+        870       880       890       900       910       920      
+
+>>sp|O14273|YET4_SCHPO Meiotically up-regulated protein   (647 aa)
+ initn: 116 init1:  50 opt: 137  Z-score: 135.8  bits: 34.5 E(516081):  4.8
+Smith-Waterman score: 137; 22.2% identity (59.1% similar) in 198 aa overlap (26-217:1-186)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                                .:..:  .. .. ...    . .::  .:. ..  
+sp|O14                          MTTNPDIVKQTKNEIHQVTSRVQEKLDSKSTNAVE
+                                        10        20        30     
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       :.    ....   .. :.  .. ...  .  .. :::..:       .:  : .. : ::
+sp|O14 QNNNSSQASVTKDNKKKAA-KRAKKKAAKKKKQSAAASASST----PVE--EAQHAQEEQ
+          40        50         60        70              80        
+
+                130         140       150       160       170      
+sp|Q1X QNQFLLQR--LSQ--MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFK
+       :.: .::.  ..:  .: . ..... :  .:. . :. .. :  ..:.... : .::   
+sp|O14 QEQTILQEPGFTQTIVEKDADQVDEPLEPIASSALGT-VEPPTDNKPSASTSTAVPT--T
+       90       100       110       120        130       140       
+
+        180       190       200       210         220       230    
+sp|Q1X QERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD--VAQHPAVSVAGLEGDGSALPLFD
+       . :.    :  :  .:: :. : . : .. ..:.:  ::.: :                 
+sp|O14 EARNTSITE--PANSPSSSSSSASTKSTATTQSADYVVAEHFAPQRNDEQLGNSPASITS
+         150         160       170       180       190       200   
+
+          240       250       260       270       280       290    
+sp|Q1X LGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDS
+                                                                   
+sp|O14 KPATTSAAQPSSKVEENMAKATSQPITTAEKEIPELKPIEPEAIMISKEINTTHDQAAAT
+           210       220       230       240       250       260   
+
+>>sp|P19880|YAP1_YEAST AP-1-like transcription factor YA  (650 aa)
+ initn: 100 init1:  66 opt: 137  Z-score: 135.8  bits: 34.5 E(516081):  4.8
+Smith-Waterman score: 140; 23.1% identity (54.9% similar) in 273 aa overlap (28-297:13-259)
+
+               10        20        30         40        50         
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS-LNSADVKTQEVKPEEKKPAKKRKSW
+                                  :::.. . ....  . .:.. :... . .    
+sp|P19                MSVSTAKRSLDVVSPGSLAEFEGSKSRHDEIENEHRRTGTRD---
+                              10        20        30        40     
+
+      60        70        80        90       100       110         
+sp|Q1X GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME
+       :..   :: .    : .: .:   . . .:. .:::: .. ::::. .:..:: .:.:  
+sp|P19 GEDSEQPKKK--GSKTSKKQDLDPETKQKRTAQNRAAQRAFRERKERKMKELE-KKVQSL
+             50          60        70        80        90          
+
+     120       130       140       150       160       170         
+sp|Q1X QQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQER
+       .. :      .: :.: . : .::  :. :..  : .:   ..         :.:  .. 
+sp|P19 ESIQ------QQNEVEATFLRDQLITLVNELKKYRPETRNDSKVLEYLARRDPNLHFSKN
+     100             110       120       130       140       150   
+
+     180       190       200       210       220       230         
+sp|Q1X DELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL
+       .    .  :. ::. .: . ..:     . . . :.:      :..:..     ..:..:
+sp|P19 NVNHSNSEPIDTPN-DDIQENVKQ----KMNFTFQYP------LDNDNDNDNSKNVGKQL
+           160        170           180             190       200  
+
+     240       250       260       270         280       290       
+sp|Q1X KHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF--DVLEGGDLSAFPFDSMVN
+          .  . .::.    .:.  .  :..  .::.  :.:.   :::..   :.  .: . :
+sp|P19 PSPNDPSHSAPM---PINQTQKKLSDATDSSSATLDSLSNSNDVLNNTPNSSTSMDWLDN
+            210          220       230       240       250         
+
+       300       310       320       330       340                 
+sp|Q1X FDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC            
+                                                                   
+sp|P19 VIYTNRFVSGDDGSNSKTKNLDSNMFSNDFNFENQFDEQVSEFCSKMNQVCGTRQCPIPK
+     260       270       280       290       300       310         
+
+>>sp|Q6IPM2|IQCE_HUMAN IQ domain-containing protein E OS  (695 aa)
+ initn:  66 init1:  66 opt: 137  Z-score: 135.4  bits: 34.5 E(516081):  5.1
+Smith-Waterman score: 137; 22.3% identity (50.0% similar) in 238 aa overlap (34-268:455-686)
+
+            10        20        30        40        50        60   
+sp|Q1X DMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQEL
+                                     .:.:   . ::.: :::.   .    .:::
+sp|Q6I KADLEKELECAREGEEERREREEVLREEIQTLTSKLQELQEMKKEEKEDCPEVPHKAQEL
+          430       440       450       460       470       480    
+
+            70        80        90       100       110       120   
+sp|Q1X PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQ
+       :.:     : .:   .:   .   : . : :.  . .:.    .. . . .  . .... 
+sp|Q6I PAPT----PSSRHCEQDWPPDSSEEGLPRPRSPCSDGRRDAAARVLQAQWKVYKHKKKKA
+              490       500       510       520       530       540
+
+           130       140       150       160        170        180 
+sp|Q1X FLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT-LTPTLFKQER-DE
+        : .    ..:       .   ::....::.  . .:: :  .::.  .:. . :   . 
+sp|Q6I VLDEAAVVLQAAFRGHLTRTKLLASKAHGSEPPS-VPGLPDQSSPVPRVPSPIAQATGSP
+              550       560       570        580       590         
+
+             190       200        210       220       230       240
+sp|Q1X LPLERIPFPTPSLSDYSPTLKPSTLAE-SSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+       .  : : .   .:  .    . :. .. .. .:.    :... .::.:. :..    :  
+sp|Q6I VQEEAIVIIQSALRAHLARARHSATGKRTTTAASTRRRSASATHGDASSPPFLAALPD-P
+     600       610       620       630       640       650         
+
+              250       260       270       280       290       300
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+         :  .. :::  :: :     :  . :                                
+sp|Q6I SPSGPQALAPLPGDDVNSDDSDDIVIAPSLPTKNFPV                       
+      660       670       680       690                            
+
+>>sp|Q98UK4|MAF_DANRE Transcription factor Maf OS=Danio   (327 aa)
+ initn:  88 init1:  88 opt: 132  Z-score: 135.1  bits: 33.4 E(516081):  5.3
+Smith-Waterman score: 132; 31.2% identity (61.3% similar) in 93 aa overlap (83-175:243-326)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|Q98 RFSDEQLVNMSVRELNRQLRGVSKEEVIRLKQKR--RTLKNRGYAQSCRYKRVQQRHVLE
+            220       230       240         250       260       270
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       .:: :. :: . : :..:..  : .  ...  .: .   : : :    :: .  .:. .:
+sp|Q98 GEKTQLMQQVDHLKQEISRLVRERDAYKEKYEKLISS--GFREN----GSSSDNNPS-SP
+              280       290       300         310           320    
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+        .:                                                         
+sp|Q98 EFFM                                                        
+                                                                   
+
+>>sp|Q556Q3|IRLF_DICDI Probable serine/threonine-protein  (1400 aa)
+ initn: 120 init1:  84 opt: 141  Z-score: 135.0  bits: 35.4 E(516081):  5.3
+Smith-Waterman score: 141; 17.9% identity (58.7% similar) in 184 aa overlap (6-186:661-844)
+
+                                        10        20        30     
+sp|Q1X                          MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSL
+                                     :  ..  : . . :.  : .  .: . . .
+sp|Q55 DLLFGVINDRLKAPIFINKDKYESLYFVYQEDYQNPSDPFRVLPTRSVDLSKISEGISRM
+              640       650       660       670       680       690
+
+          40        50         60        70        80          90  
+sp|Q1X NSADVKTQEVKPEEKKPAK-KRKSWGQELPVPKTNLPPRKRAKTEDEKEQ--RRIERVLR
+       .. :  ..  : :..:  : :.:.  ..:   : .   ..  . : ::.:  .. . . .
+sp|Q55 KNDDFLNELEKEEKQKKLKTKQKKKIKKLENEKKQKVLQQDKQQEKEKKQNYQQPQDLQQ
+              700       710       720       730       740       750
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       .    ::...... .... .... :..::.:   :. .:....... .::  :  .. ..
+sp|Q55 HNLKIQTQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQSQQQQQQQQSPQQQSQQQS
+              760       770       780       790       800       810
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       ....     .    :   .:   .:.... : ..                          
+sp|Q55 QQSQQKSQQQSQQKSQQQSPPQQQQQQSQQPQQQSQQQSQQKQKHQKQQQQQKQEKQQQK
+              820       830       840       850       860       870
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+                                                                   
+sp|Q55 QEKQQQKQEKPQQKQQLENQIKNLKIEIKKEEENNKEIKNKKEEVEKEKEENNKEIKSKS
+              880       890       900       910       920       930
+
+>>sp|P14233|TGA1B_TOBAC TGACG-sequence-specific DNA-bind  (242 aa)
+ initn: 103 init1: 103 opt: 130  Z-score: 135.0  bits: 32.9 E(516081):  5.4
+Smith-Waterman score: 130; 39.7% identity (68.3% similar) in 63 aa overlap (80-142:181-242)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     :: :..:  :..::: .:: ::.::.  .:
+sp|P14 LKRKKSSEDSNNINIHQKLTNVALSDNVNNDEDEKKRA-RLVRNRESAQLSRQRKKHYVE
+              160       170       180        190       200         
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT
+       .::..   :..  : :  ... . :::  :. :                           
+sp|P14 ELEDKVRIMHSTIQDLNAKVAYIIAENATLKTQ                           
+     210       220       230       240                             
+
+     170       180       190       200       210       220         
+sp|Q1X LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSA
+
+>>sp|Q8CH25|SLTM_MOUSE SAFB-like transcription modulator  (1031 aa)
+ initn: 228 init1: 106 opt: 139  Z-score: 134.9  bits: 35.0 E(516081):  5.4
+Smith-Waterman score: 139; 35.7% identity (63.1% similar) in 84 aa overlap (73-153:644-724)
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-
+                                     :.: .   :.:.:  ::. :.:   .  : 
+sp|Q8C LREHLVRFERLKQAVEFRRRKEIAERERRERERIRIIREREER--ERLQRERERLEIERQ
+           620       630       640       650         660       670 
+
+               110       120       130       140       150         
+sp|Q1X --ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM
+         ::.:.: :.:: :.:..::. .   .:... . :  : .::: .   : :.:      
+sp|Q8C KLERERMERERLERERIRIEQERRREAERIAREREELRRQQQQL-RYEQEKRNSLKRPRD
+             680       690       700       710        720       730
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+                                                                   
+sp|Q8C VDHRRDDPYWSENKKLSLDTEARFGHGSDYRQQSRFLDFSHRERARFPDTASVQSSFERR
+              740       750       760       770       780       790
+
+>>sp|O81025|P2A03_ARATH Putative protein PHLOEM PROTEIN   (463 aa)
+ initn:  79 init1:  49 opt: 134  Z-score: 134.9  bits: 33.8 E(516081):  5.4
+Smith-Waterman score: 134; 29.4% identity (57.5% similar) in 153 aa overlap (4-149:135-280)
+
+                                          10          20        30 
+sp|Q1X                            MSCDMEKTMSSVDSL--PATPASEVPVLTVSPA
+                                     :.:.  ...:.    . :   . :: .  .
+sp|O81 KEEESTVNTLQCIFGSQILDYCIVVFTGGDDLEEDDQTLDDYFRAGCPEFLTKVLRLCGG
+          110       120       130       140       150       160    
+
+              40        50         60         70        80         
+sp|Q1X DTSLNSADVKTQEVKPEEKKPAKKR-KSWGQELP-VPKTNLPPRKRAKTEDEKEQRRIER
+          : .   : .. : :. :    : .. :..   .: :    ::  : :.... :. ::
+sp|O81 RKVLFDNKSKDEKKKVEQVKQLLARVENVGEQTGGIPYTYQLHRK-IKEENDERLREEER
+          170       180       190       200        210       220   
+
+      90         100       110       120        130       140      
+sp|Q1X VL--RNRAAAQTSRERKRLEMEKLENEKIQMEQ-QNQFLLQRLSQMEAENNRLSQQLAQL
+       :.  .::: :. .. .. : :::   ::.:::. .:.   : ..: ::... . :. :. 
+sp|O81 VIESKNRAEAELAEMQQNLLMEK---EKLQMEEAKNK---QLIAQAEANEKLMEQERAKN
+           230       240          250          260       270       
+
+        150       160       170       180       190       200      
+sp|Q1X AAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL
+        ::                                                         
+sp|O81 RAETELAAVMVEKLQMEEEKNKQLIAQANRMICARDLNIEWSHSEEHWKWVNLDHNISSN
+       280       290       300       310       320       330       
+
+>>sp|P20226|TBP_HUMAN TATA-box-binding protein OS=Homo s  (339 aa)
+ initn: 101 init1:  71 opt: 132  Z-score: 134.9  bits: 33.4 E(516081):  5.4
+Smith-Waterman score: 132; 24.8% identity (58.4% similar) in 125 aa overlap (91-212:43-161)
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+                                     ..:  . .  .:..: .... .... :..:
+sp|P20 GLASPQGAMTPGIPIFSPMMPYGTGLTPQPIQNTNSLSILEEQQRQQQQQQQQQQQQQQQ
+             20        30        40        50        60        70  
+
+              130       140       150       160       170          
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFK-QER
+       :.:   :. .:.. .... .:: :  :: :. : ..    :. . :     : ::. :  
+sp|P20 QQQQQQQQQQQQQQQQQQQQQQQAVAAAAVQQSTSQQATQGTSGQA-----PQLFHSQTL
+             80        90       100       110            120       
+
+     180         190       200       210       220       230       
+sp|Q1X DELPLE-RIP-FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+          ::    : .:.: .. ..:    .  .::: .                         
+sp|P20 TTAPLPGTTPLYPSP-MTPMTPITPATPASESSGIVPQLQNIVSTVNLGCKLDLKTIALR
+       130       140        150       160       170       180      
+
+       240       250       260       270       280       290       
+sp|Q1X DLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVN
+                                                                   
+sp|P20 ARNAEYNPKRFAAVIMRIREPRTTALIFSSGKMVCTGAKSEEQSRLAARKYARVVQKLGF
+        190       200       210       220       230       240      
+
+>>sp|Q4WG58|PAN1_ASPFU Actin cytoskeleton-regulatory com  (1467 aa)
+ initn:  53 init1:  53 opt: 141  Z-score: 134.7  bits: 35.5 E(516081):  5.5
+Smith-Waterman score: 141; 23.3% identity (51.1% similar) in 227 aa overlap (38-257:1078-1294)
+
+        10        20        30        40        50        60       
+sp|Q1X TMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK
+                                     :. . .:.  :..    . ..  ...   :
+sp|Q4W TITAEQAAREQAIREEQQAQEEETNRLEMEAQKREEELLKEKEAQEARLRALEEQVRQGK
+      1050      1060      1070      1080      1090      1100       
+
+        70        80        90        100          110       120   
+sp|Q1X TNLPPRKRAKTEDEKEQRRIERVLR-NRAAAQTSRERKR---LEMEKLENEKIQMEQQNQ
+            .:: : : :.  .. : .:  .::  . ..::.:   ::.:.:..:. . ..   
+sp|Q4W IRKQEEKRRKEEAERLAKEKEAALAAQRAEIERAKERERQLQLELERLDEESSSDDEGPV
+      1110      1120      1130      1140      1150      1160       
+
+           130       140       150       160       170       180   
+sp|Q1X FLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD-EL
+        .       :  .   :: :  ..  .  :  .. . :::  .:    :. :: : . . 
+sp|Q4W NITP-----EDSTPTQSQLLPTVTPAAPVSAPESEQAGSPEDTSSQAPPVDFKLETESKN
+      1170           1180      1190      1200      1210      1220  
+
+            190         200       210       220       230       240
+sp|Q1X PLERIPFPTPSLSDYS--PTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+       :  .:   . . .  :  :. .::  . ..::  : .     :  . .. : :  .. :.
+sp|Q4W PYFKITHQATDTQVVSSPPVPQPSFTSPKADV--HSTNPFHRLAKQETSKPAFTGSAPLE
+           1230      1240      1250        1260      1270      1280
+
+              250       260       270       280       290       300
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+       ..:    : : .:::..                                           
+sp|Q4W RKSR---ARPEADDDWSAAGSEFDSSDDDDDERPGGGSAKQLASILFGTMAPPRPLSAMD
+                1290      1300      1310      1320      1330       
+
+>>sp|B0YC95|PAN1_ASPFC Actin cytoskeleton-regulatory com  (1467 aa)
+ initn:  53 init1:  53 opt: 141  Z-score: 134.7  bits: 35.5 E(516081):  5.5
+Smith-Waterman score: 141; 23.3% identity (51.1% similar) in 227 aa overlap (38-257:1078-1294)
+
+        10        20        30        40        50        60       
+sp|Q1X TMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK
+                                     :. . .:.  :..    . ..  ...   :
+sp|B0Y TITAEQAAREQAIREEQQAQEEETNRLEMEAQKREEELLKEKEAQEARLRALEEQVRQGK
+      1050      1060      1070      1080      1090      1100       
+
+        70        80        90        100          110       120   
+sp|Q1X TNLPPRKRAKTEDEKEQRRIERVLR-NRAAAQTSRERKR---LEMEKLENEKIQMEQQNQ
+            .:: : : :.  .. : .:  .::  . ..::.:   ::.:.:..:. . ..   
+sp|B0Y IRKQEEKRRKEEAERLAKEKEAALAAQRAEIERAKERERQLQLELERLDEESSSDDEGPV
+      1110      1120      1130      1140      1150      1160       
+
+           130       140       150       160       170       180   
+sp|Q1X FLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD-EL
+        .       :  .   :: :  ..  .  :  .. . :::  .:    :. :: : . . 
+sp|B0Y NITP-----EDSTPTQSQLLPTVTPAAPVSAPESEQAGSPEDTSSQAPPVDFKLETESKN
+      1170           1180      1190      1200      1210      1220  
+
+            190         200       210       220       230       240
+sp|Q1X PLERIPFPTPSLSDYS--PTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+       :  .:   . . .  :  :. .::  . ..::  : .     :  . .. : :  .. :.
+sp|B0Y PYFKITHQATDTQVVSSPPVPQPSFTSPKADV--HSTNPFHRLAKQETSKPAFTGSAPLE
+           1230      1240      1250        1260      1270      1280
+
+              250       260       270       280       290       300
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+       ..:    : : .:::..                                           
+sp|B0Y RKSR---ARPEADDDWSAAGSEFDSSDDDDDERPGGGSAKQLASILFGTMAPPRPLSAMD
+                1290      1300      1310      1320      1330       
+
+>>sp|Q00969|ATF2_RAT Cyclic AMP-dependent transcription   (487 aa)
+ initn:  65 init1:  65 opt: 134  Z-score: 134.6  bits: 33.9 E(516081):  5.6
+Smith-Waterman score: 134; 26.9% identity (63.9% similar) in 108 aa overlap (41-143:288-394)
+
+               20        30        40         50            60     
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEE-KKPAKKRK----SWGQELPV
+                                     ...: .:.  ..:: .      : ..  : 
+sp|Q00 MRLKAALTQQHPPVTNGDTVKGHGSGLVRAQSEESRPQSLQQPATSTTETPASPAHTTPQ
+       260       270       280       290       300       310       
+
+          70        80        90       100       110       120     
+sp|Q1X PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL
+        ...   :.:: .::  :.:: . . ::::::.  :..... ...::..  .. . :  :
+sp|Q00 TQNTSGRRRRAANEDPDEKRR-KFLERNRAAASRCRQKRKVWVQSLEKKAEDLSSLNGQL
+       320       330        340       350       360       370      
+
+         130       140       150       160       170       180     
+sp|Q1X LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLE
+        .... .. :  .:.: :                                          
+sp|Q00 QSEVTLLRNEVAQLKQLLLAHKDCPVTAMQKKSGYHTADKDDSSEDLSVPSSPHTEAIQH
+        380       390       400       410       420       430      
+
+>>sp|Q8N8S7|ENAH_HUMAN Protein enabled homolog OS=Homo s  (591 aa)
+ initn: 219 init1: 100 opt: 143  Z-score: 141.9  bits: 35.5 E(516081):  2.2
+Smith-Waterman score: 143; 31.2% identity (63.4% similar) in 112 aa overlap (35-142:111-219)
+
+           10        20        30        40        50        60    
+sp|Q1X MEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-L
+                                     ::: ..     . . . ::. ... .:: :
+sp|Q8N RDARQVYGLNFGSKEDANVFASAMMHALEVLNSQETGPTLPRQNSQLPAQVQNGPSQEEL
+               90       100       110       120       130       140
+
+            70        80        90       100        110       120  
+sp|Q1X PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEMEKLENEKIQMEQQN
+        . . .:  ..: :   : :..:.::   .:   .  : ::.::: :.::.:... :.:.
+sp|Q8N EIQRRQLQEQQRQK---ELERERLERERMERERLERERLERERLERERLEQEQLERERQE
+              150          160       170       180       190       
+
+            130         140       150       160       170       180
+sp|Q1X QFLLQRLSQME--AENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+       .   .:: ..:   ...:: .:                                      
+sp|Q8N RERQERLERQERLERQERLERQERLDRERQERQERERLERLERERQERERQEQLEREQLE
+       200       210       220       230       240       250       
+
+>>sp|Q6MG48|BAT2_RAT Large proline-rich protein BAT2 OS=  (2161 aa)
+ initn:  89 init1:  74 opt: 154  Z-score: 144.7  bits: 37.9 E(516081):  1.5
+Smith-Waterman score: 155; 24.2% identity (50.2% similar) in 215 aa overlap (18-229:378-575)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .:.::.:   .. ...:  :    .    :
+sp|Q6M RDSDEEGAEGHKDSQSAAGEEPETDGKKGTSPGSELPPPKTAWTENSRPSETEPAAPPIP
+       350       360       370       380       390       400       
+
+        50           60        70        80        90       100    
+sp|Q1X EEKKPAKKRK---SWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERK
+       .   :  .:    .::     :  . :: :    ::: :  : .:  :...... :   .
+sp|Q6M KPPPPPPHRGPVGNWGPPGDYPDRGGPPCKPPAPEDEDEAWR-QR--RKQSSSEISLAVE
+       410       420       430       440        450         460    
+
+          110       120       130       140       150       160    
+sp|Q1X RLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPA
+       : . .. :.:. ..:..     ..:....   ....    .: ::  .  .. : :. : 
+sp|Q6M RARRRREEEERRMQEERRAACAEKLKRLD---EKFGAPDKRLKAEPAAPPVTPPAPALPP
+          470       480       490          500       510       520 
+
+          170       180       190       200       210       220    
+sp|Q1X TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLE
+       .. :  :::        ::    : :::  .   :.  : . .  .. :  :: .   . 
+sp|Q6M VV-PKETPT-----PPALP--PTPTPTPEKDPEEPAHAPPVQSAPTQ-AGPPAPT--PVS
+                   530         540       550       560          570
+
+          230       240       250       260       270       280    
+sp|Q1X GDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEG
+       : :.:                                                       
+sp|Q6M GGGTASSTSSGSFEASPAEPQLPSKEGPEPPEEVPAPTTPPAPKVEPKGDGVGPTRQPPS
+              580       590       600       610       620       630
+
+>>sp|P0C5H8|KAPC_EMENI Putative transcription factor kap  (278 aa)
+ initn:  70 init1:  70 opt: 152  Z-score: 154.8  bits: 36.8 E(516081): 0.42
+Smith-Waterman score: 169; 22.3% identity (51.2% similar) in 260 aa overlap (17-274:49-268)
+
+                             10        20        30        40      
+sp|Q1X               MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVK
+                                     : :    :. :.:: : .  .  ..   . 
+sp|P0C DHADQVLHDSLLAAQHLSQHPQQPRPQQPNAQPHHLQPTATTSPRDQNNIDPAISGGAML
+       20        30        40        50        60        70        
+
+         50        60        70        80        90       100      
+sp|Q1X PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL
+       :  . ::. . .  .: :            ::  ..     .:. .:::: .. :.::. 
+sp|P0C PPSQPPAQPEPTVEDETP------------KTYGKRPLSTSKRAAQNRAAQRAFRQRKES
+       80        90                   100       110       120      
+
+        110       120       130       140       150        160     
+sp|Q1X EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MPGSPAT
+        ..::: :...   . . . :. . ..::: .: . . .: ...  :....: .::.   
+sp|P0C YIRKLE-EQVK---EYEVMSQEYKALQAENYQLREYVINLQSRLLDSQGEVPELPGNIDL
+        130           140       150       160       170       180  
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+        .:          : :.    .: :.:         .:.  . :.     :  .:.  . 
+sp|P0C NQP----------RTEI---SVPQPAP---------RPGQAGASAPPQGSPQSQVSIAND
+                         190                200       210       220
+
+         230        240       250       260       270       280    
+sp|Q1X DGSALP-LFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEG
+       : ..:  . . :  ...: ...  : ::..   :  .:: ...:. .  :          
+sp|P0C DMNSLNRIAEAGLGMRKHPNEE--AFLSNNFQARRGRGDETADPSETKTEPPTHGLPMVS
+              230       240         250       260       270        
+
+          290       300       310       320       330       340    
+sp|Q1X GDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAG
+
+>>sp|Q9M7Q3|AI5L6_ARATH ABSCISIC ACID-INSENSITIVE 5-like  (454 aa)
+ initn: 112 init1: 112 opt: 142  Z-score: 142.5  bits: 35.2 E(516081):    2
+Smith-Waterman score: 142; 31.7% identity (55.9% similar) in 145 aa overlap (14-145:291-435)
+
+                                10        20            30         
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEV-P-VLTVS--PADTSLNSA-
+                                     : :::  .:: : .: .   : ...: .: 
+sp|Q9M QPQQLIQTQERPFPKQTTIAFSNTVDVVNRSQPATQCQEVKPSILGIHNHPMNNNLLQAV
+              270       280       290       300       310       320
+
+       40             50          60        70        80        90 
+sp|Q1X DVKT----QEVKP-EEKKPAKKRKSW--GQELPVPKTNLPPRKRAKTEDEKEQRRIERVL
+       : ::      :.:  . .:    ::   ..  :::      :: . . ..  .:: .:..
+sp|Q9M DFKTGVTVAAVSPGSQMSPDLTPKSALDASLSPVPYMFGRVRKTGAVLEKVIERRQKRMI
+              330       340       350       360       370       380
+
+             100       110       120       130        140       150
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEV
+       .:: .:  :: ::.    .:: :  :... :. : ..  . :: ..:.: . : :     
+sp|Q9M KNRESAARSRARKQAYTMELEAEIAQLKELNEELQKKQVEIMEKQKNQLLEPLRQPWGMG
+              390       400       410       420       430       440
+
+              160       170       180       190       200       210
+sp|Q1X RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+                                                                   
+sp|Q9M CKRQCLRRTLTGPW                                              
+              450                                                  
+
+>>sp|Q6P9R4|ARHGI_MOUSE Rho guanine nucleotide exchange   (1021 aa)
+ initn:  61 init1:  61 opt: 153  Z-score: 148.1  bits: 37.4 E(516081): 0.99
+Smith-Waterman score: 153; 24.0% identity (52.8% similar) in 246 aa overlap (9-250:628-858)
+
+                                     10        20          30      
+sp|Q1X                       MSCDMEKTMSSVDSLPATPASEVP--VLTVSPADTSLN
+                                     : :..:::..   :.   : :.:    ::.
+sp|Q6P WQGPASSPDSRPCDNSAPSGCCEESPQAVEMPSTESLPTVLELELVHRVQTLSQLLLSLQ
+       600       610       620       630       640       650       
+
+         40        50        60        70        80        90      
+sp|Q1X SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA
+       .. .  :.   : .. : ...    .:   . ::         ....:: .:.  ..::.
+sp|Q6P AV-IAQQDSYVEMQRTAIQEREKQFRLQSTRGNL-------LLEQERQRNFEKQREERAG
+        660       670       680       690              700         
+
+        100       110       120       130       140       150      
+sp|Q1X AQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRAN
+       ..  . . : :... : :. ...:. ..   ::.. :.:  .. :.: :  .:.. .:  
+sp|Q6P VEKLQSQLRQEQQRWERERARQQQELELAGARLQEREGEARQMRQRLDQERTELERQRQA
+     710       720       730       740       750       760         
+
+        160       170       180       190       200       210      
+sp|Q1X TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHP
+                 .   .     .::..: : :  :   .      .: : .:::.. ... :
+sp|Q6P YQHDLERLREAQRAVD----RERERLELLR-RFKKQNT--VPGALPPEVLAEAQPASHPP
+     770       780           790        800         810       820  
+
+        220        230       240        250       260       270    
+sp|Q1X AVSVAGLEGDGS-ALPLFDLGSDLKHHS-TDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+       . .  :::: .. :      :: . : .  :.:  :                        
+sp|Q6P SFNGDGLEGHSAPAKAPGTQGSAMLHGTGPDNVERPEVARWDSAPPESRPAKSDVPIQLL
+            830       840       850       860       870       880  
+
+          280       290       300       310       320       330    
+sp|Q1X DGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTT
+                                                                   
+sp|Q6P SATNQIQRQTAVQQQIPTKLAASTKGGKEKGSKSRGSQRWESSASFDLKQQLLLSKFIGK
+            890       900       910       920       930       940  
+
+>>sp|Q9NWH9|SLTM_HUMAN SAFB-like transcription modulator  (1034 aa)
+ initn: 105 init1: 105 opt: 138  Z-score: 134.0  bits: 34.8 E(516081):  6.1
+Smith-Waterman score: 138; 35.7% identity (63.1% similar) in 84 aa overlap (73-153:645-725)
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-
+                                     :.: .   :.:.:  ::. :.:   .  : 
+sp|Q9N LREHLVRFERLRRAMELRRRREIAERERRERERIRIIREREER--ERLQRERERLEIERQ
+          620       630       640       650         660       670  
+
+               110       120       130       140       150         
+sp|Q1X --ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM
+         ::.:.: :.:: :.:..::. .   .:... . :  : .::: .   : :.:      
+sp|Q9N KLERERMERERLERERIRIEQERRKEAERIAREREELRRQQQQL-RYEQEKRNSLKRPRD
+            680       690       700       710        720       730 
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+                                                                   
+sp|Q9N VDHRRDDPYWSENKKLSLDTDARFGHGSDYSRQQNRFNDFDHRERGRFPESSAVQSSSFE
+             740       750       760       770       780       790 
+
+>>sp|O60308|K0562_HUMAN Uncharacterized protein KIAA0562  (925 aa)
+ initn:  42 init1:  42 opt: 137  Z-score: 133.7  bits: 34.6 E(516081):  6.3
+Smith-Waterman score: 137; 25.1% identity (49.8% similar) in 271 aa overlap (70-317:217-472)
+
+      40        50        60        70        80        90         
+sp|Q1X VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT
+                                     :  :::  .. :. .   ... .  :  : 
+sp|O60 YARKSDYISPLDDLAFDMYQDPEVAQIIRKLDERKREAVQKERYDY-AKKLKQAIADLQK
+        190       200       210       220       230        240     
+
+     100        110          120       130       140       150     
+sp|Q1X SRER-KRLEMEK---LENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA
+         ::  : :.::   .:.:  .. ....   :.. :..::  .  .  . : ::.     
+sp|O60 VGERLGRYEVEKRCAVEKEDYDLAKEKK---QQMEQYRAEVYEQLELHSLLDAELMRRPF
+         250       260       270          280       290       300  
+
+          160           170        180       190       200         
+sp|Q1X NTPM-P----GSPATASPTLTPTLFK-QERDELPLERIPFPTPSLSDYSPTLKPS-----
+       . :. :    :::   .:   :.: . .::        ::   . :.:: :..:.     
+sp|O60 DLPLQPLARSGSPCHQKPM--PSLPQLEERGTENQFAEPFLQEKPSSYSLTISPQHSAVD
+            310       320         330       340       350       360
+
+          210       220       230       240       250        260   
+sp|Q1X TLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAP-LSDDDFNRLFHGD
+        :  ..:   :: ... .:  :   ::       ...:  . :. : .:. :..   .: 
+sp|O60 PLLPATD--PHPKINAESLPYDERPLPA------IRKHYGEAVVEPEMSNADISDARRGG
+                370       380             390       400       410  
+
+               270       280       290       300          310      
+sp|Q1X SSVEPD----SSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPV---TLEGIEMAHGLPD
+          ::.    ... : . :.::: :  : :  . .  ..  . .   . . .::  : : 
+sp|O60 MLGEPEPLTEKALREASSAIDVL-GETLVAEAYCKTWSYREDALLALSKKLMEMPVGTPK
+            420       430        440       450       460       470 
+
+        320       330       340                                    
+sp|Q1X ETTCKTSSVQPGFGASTTRCDGQGIAAGC                               
+       :                                                           
+sp|O60 EDLKNTLRASVFLVRRAIKDIVTSVFQASLKLLKMIITQYIPKHKLSKLETAHCVERTIP
+             480       490       500       510       520       530 
+
+>>sp|A2Z0Q0|HOX25_ORYSI Homeobox-leucine zipper protein   (260 aa)
+ initn:  43 init1:  43 opt: 129  Z-score: 133.6  bits: 32.8 E(516081):  6.4
+Smith-Waterman score: 129; 24.1% identity (57.8% similar) in 249 aa overlap (53-294:21-254)
+
+             30        40        50        60        70        80  
+sp|Q1X VPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK
+                                     :.::.  .... . . ..  .:: : : :.
+sp|A2Z           MEDLVDELYGVDEQGSSSAAARKRRLTAEQVRALERSFEEEKR-KLEPER
+                         10        20        30        40          
+
+               90       100       110       120       130       140
+sp|Q1X EQRRIER--VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLS
+       ...  .:  .   ..:.  . .: : . ..:: .  ...  .. ::   . . :.:. : 
+sp|A2Z KSELARRLGIAPRQVAVWFQNRRARWKTKQLELDFDRLRAAHDELLAGRAALAADNESLR
+      50        60        70        80        90       100         
+
+              150       160       170       180       190       200
+sp|Q1X QQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPT
+       .:.  :. ..... ...: : ::: :  : .:.  .. .. . ::.       : : . .
+sp|A2Z SQVILLTEKLQAN-GKSPSP-SPAPAEQTAVPAAPESAKS-FQLEE----GRCLYDAAGS
+     110       120         130       140        150           160  
+
+              210       220       230         240       250        
+sp|Q1X LKPSTLAESSDVAQHPAVSVAGLEGDGSALP--LFDLGSDLKHHSTDDVAAPLSDDDF--
+          .: . .. ::. ::. ::. .. ..  :   :  . .    : :: ..  ::::.  
+sp|A2Z TT-TTNGGGGGVAM-PAARVAAARAASNDSPESYFAGARSPPSSSEDDCGGAGSDDDYPS
+             170        180       190       200       210       220
+
+         260       270       280       290       300       310     
+sp|Q1X -NRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLP
+        . :.  :...  :.  :: ..:  :  ..:  : :..:                     
+sp|A2Z SSVLLPVDATLVGDA--FEHAVAATV--AADEEA-PLNSWEWFWN               
+              230         240         250        260               
+
+         320       330       340     
+sp|Q1X DETTCKTSSVQPGFGASTTRCDGQGIAAGC
+
+>>sp|Q6Y7W6|PERQ2_HUMAN PERQ amino acid-rich with GYF do  (1299 aa)
+ initn:  85 init1:  85 opt: 140  Z-score: 134.5  bits: 35.2 E(516081):  5.7
+Smith-Waterman score: 140; 31.2% identity (58.9% similar) in 141 aa overlap (48-180:825-957)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     :...  ..:..  ::  . : .    : :.
+sp|Q6Y RRQREQEIALRRQREEEERQQQEEALRRLEERRREEEERRK--QEELLRKQEEEAAKWAR
+          800       810       820       830         840       850  
+
+        80        90       100            110       120       130  
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSR----ERKRLEME-KLENEKIQMEQQNQFLLQRLSQM
+        :.: ..:  :  :: .  :   :    :::: :.: . ..: ....::.:  :.::.:.
+sp|Q6Y EEEEAQRRLEENRLRMEEEAARLRHEEEERKRKELEVQRQKELMRQRQQQQEALRRLQQQ
+            860       870       880       890       900       910  
+
+            140          150       160       170       180         
+sp|Q1X EAENNRLSQQLAQL---AAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF
+       . .     :::::.   .. . :...::    : :: : .    : ..::.         
+sp|Q6Y QQQ-----QQLAQMKLPSSSTWGQQSNTTACQSQATLSLAEIQKL-EEERERQLREEQRR
+                 920       930       940       950        960      
+
+     190       200       210       220       230       240         
+sp|Q1X PTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAA
+                                                                   
+sp|Q6Y QQRELMKALQQQQQQQQQKLSGWGNVSKPSGTTKSLLEIQQEEARQMQKQQQQQQQHQQP
+        970       980       990      1000      1010      1020      
+
+>>sp|Q4WA21|KAPC_ASPFU Putative transcription factor kap  (280 aa)
+ initn: 101 init1:  67 opt: 132  Z-score: 136.0  bits: 33.3 E(516081):  4.7
+Smith-Waterman score: 132; 23.7% identity (54.5% similar) in 156 aa overlap (66-216:75-214)
+
+          40        50        60        70            80        90 
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP----RKRAKTEDEKEQRRIERVL
+                                     :.:   :    ..  ::  ..     .:. 
+sp|Q4W QPPHMQPNTPARDQNNIDPAISGATMLTGPPQTPTQPDVTGQETPKTYGKRPLSTSKRAA
+           50        60        70        80        90       100    
+
+             100       110       120       130       140       150 
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR
+       .:::: .. :.::. ....::. :..  ..   . . .. ..::: .: . . .: ... 
+sp|Q4W QNRAAQRAFRQRKEAHIRELEG-KVKAYES---MGEAIKALQAENYQLREYIINLQSRLL
+          110       120        130          140       150       160
+
+              160       170       180       190       200       210
+sp|Q1X GSRANTP-MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+        :....: .::.   ..:          :.:.:.  ::    . .   :   :.    : 
+sp|Q4W DSQGEVPELPGNIDLSQP----------RSEIPVPPIPNSGTATTTAPPPTAPQQPQPSH
+              170                 180       190       200       210
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+         :: :                                                      
+sp|Q4W --AQAPTSNDDMNSLNRIAVAGLGMRKPPTEEANYLGNNFQAQARRVRPDEGQPEASELP
+                220       230       240       250       260        
+
+>>sp|Q9QXL1|KI21B_MOUSE Kinesin-like protein KIF21B OS=M  (1668 aa)
+ initn:  66 init1:  66 opt: 140  Z-score: 133.1  bits: 35.3 E(516081):  6.9
+Smith-Waterman score: 140; 25.5% identity (62.0% similar) in 137 aa overlap (41-169:724-856)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     : : .. :. .  :... . .::   ....
+sp|Q9Q STMECYTEEKANKIKADYEKRLREMNRDLQKLQAAQKEHARLLKNQSRYERELKKLQAEV
+           700       710       720       730       740       750   
+
+                     80        90       100         110       120  
+sp|Q1X PPRKRAKT------EDEKEQRRIERVLRNRAAAQTSRERKRLEME--KLENEKIQMEQQN
+          :.::.      ..:...::. .. :::  :: ..:..: :..   ::..:    .:.
+sp|Q9Q AEMKKAKVALMKQMREEQQRRRLVETKRNREIAQLKKEQRRQEFQIRALESQK----RQQ
+           760       770       780       790       800             
+
+            130       140       150       160       170       180  
+sp|Q1X QFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDEL
+       ...:.: .:  .   ::.. ... .:   : .  .   :. ..:: :             
+sp|Q9Q EIVLRRKTQEVSALRRLAKPMSERVAGRVGLKPPNMDSGAEVSASTTSSEAESGARSVSS
+     810       820       830       840       850       860         
+
+            190       200       210       220       230       240  
+sp|Q1X PLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHH
+                                                                   
+sp|Q9Q IVRQWNRKIDHFLGDRPTATVNGGRPARKKFQKKGASQSFSKAARLKWQSLERRIIDIVM
+     870       880       890       900       910       920         
+
+>>sp|P21127|CD11B_HUMAN Cell division protein kinase 11B  (795 aa)
+ initn:  68 init1:  68 opt: 135  Z-score: 132.7  bits: 34.2 E(516081):  7.2
+Smith-Waterman score: 135; 27.6% identity (53.0% similar) in 181 aa overlap (41-208:96-272)
+
+               20        30        40        50        60          
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE------LP
+                                     :... : :..:  ....: . :      . 
+sp|P21 PYRREDSMEDRGEEDDSLAIKPPQQMSRKEKVHHRKDEKRKEKRRHRSHSAEGGKHARVK
+          70        80        90       100       110       120     
+
+           70        80        90       100          110       120 
+sp|Q1X VPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEM--EKLENEKIQMEQQ
+         . .   ::: . :..: .:. ::  : . : . :: :: :::.  .: : :. . :::
+sp|P21 EKEREHERRKRHREEQDKARREWERQKRREMAREHSRRERDRLEQLERKRERERKMREQQ
+         130       140       150       160       170       180     
+
+             130       140        150         160       170        
+sp|Q1X NQFLLQRLSQMEAENNRLSQQLA-QLAAEVRGSRAN--TPMPGSPATASPTLTPTLFKQE
+       ..   :.  . .::. :  ..   ...:. :  : .    . .:  . ::   :    .:
+sp|P21 KEQREQKERERRAEERRKEREARREVSAHHRTMREDYSDKVKASHWSRSPPRPP----RE
+         190       200       210       220       230           240 
+
+      180       190        200       210       220       230       
+sp|Q1X RDELPLERIPFPT-PSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+       : ::   : :  . :. ..    ::   . :                             
+sp|P21 RFELGDGRKPGEARPARAQKPAQLKEEKMEERDLLSDLQDISDSERKTSSAESSSAESGS
+             250       260       270       280       290       300 
+
+       240       250       260       270       280       290       
+sp|Q1X DLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVN
+                                                                   
+sp|P21 GSEEEEEEEEEEEEEGSTSEESEEEEEEEEEEEEETGSNSEEASEQSAEEVSEEEMSEDE
+             310       320       330       340       350       360 
+
+>>sp|Q789F3|MAF_CHICK Transcription factor Maf OS=Gallus  (359 aa)
+ initn:  87 init1:  87 opt: 130  Z-score: 132.7  bits: 33.0 E(516081):  7.2
+Smith-Waterman score: 130; 30.5% identity (67.1% similar) in 82 aa overlap (83-163:276-355)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|Q78 RFSDEQLVTMSVRELNRQLRGVSKEEVIRLKQKR--RTLKNRGYAQSCRFKRVQQRHVLE
+         250       260       270         280       290       300   
+
+            120       130       140        150       160       170 
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLT
+       .:: :. :: . : :..:..  : .  ...  .:...  : . ...  :.::        
+sp|Q78 SEKNQLLQQVEHLKQEISRLVRERDAYKEKYEKLVSNGFRENGSSSDNPSSPEFFM    
+           310       320       330       340       350             
+
+             180       190       200       210       220       230 
+sp|Q1X PTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+
+>>sp|Q6A000|K0753_MOUSE Uncharacterized protein KIAA0753  (959 aa)
+ initn:  70 init1:  70 opt: 136  Z-score: 132.5  bits: 34.4 E(516081):  7.3
+Smith-Waterman score: 136; 25.7% identity (51.0% similar) in 253 aa overlap (39-269:542-766)
+
+       10        20        30        40        50          60      
+sp|Q1X MSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRK--SWGQELPVP
+                                     : ..  . :.  .:  . :  .:       
+sp|Q6A RNRPNQPYSKSRLQQTTVSSRLKMNRQPMKDHRAPWIPPNPTSPPASPKCAAWM------
+             520       530       540       550       560           
+
+         70        80         90       100               110       
+sp|Q1X KTNLPPRKRAKTED-EKEQRRIERVLRNRAAAQTSR-------ERKRL-EMEKLENEKIQ
+       :..  ::  :: .. ..:. . :  ::. :  ...:         ::: :.:.:: ....
+sp|Q6A KVKYSPRDAAKEQSLQQEDIHKESQLRGDAEQEAARLSWPDAESSKRLKELEELEAKEME
+         570       580       590       600       610       620     
+
+       120       130       140       150            160        170 
+sp|Q1X MEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV-----RGSRANTPMPGSPATAS-PTLT
+        .:.     :::. .:::..: ...: .: ::      . : . : .  .   :    : 
+sp|Q6A RKQK-----QRLNWLEAETSRRTKELDELKAEEMDRLQKLSVSATQLADKVEEAVLERLK
+              630       640       650       660       670       680
+
+             180       190       200       210       220       230 
+sp|Q1X PTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+       : :.: .: .  .:     .  :.:     .::  : .   : .:: ... .  ..  .:
+sp|Q6A PLLIKAQRVNSSVE----ANSHLKD-----RPSRHAAA---AAQPAEQASDVPFESRNIP
+              690           700               710       720        
+
+                  240       250       260       270       280      
+sp|Q1X -----LFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGD
+            : : . .:  .. : .   :...   ::  :::.  ::                 
+sp|Q6A QLRDCLEDTAHELWARTQDKI---LGSETSARL--GDSKDSPDLETMMLRMEEMEKYQET
+      730       740          750         760       770       780   
+
+        290       300       310       320       330       340      
+sp|Q1X LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 
+                                                                   
+sp|Q6A VRQRYNKIVYADPHLWMHEERNDQNTPAVSEGPLASHPIKITKTATQKCPAVNILLERPC
+           790       800       810       820       830       840   
+
+>>sp|P23091|MAF_AVIS4 Transforming protein Maf OS=Avian   (369 aa)
+ initn:  87 init1:  87 opt: 130  Z-score: 132.5  bits: 33.1 E(516081):  7.4
+Smith-Waterman score: 130; 30.5% identity (67.1% similar) in 82 aa overlap (83-163:276-355)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|P23 RFSDEQLVTMSMRELNRQLRGVSKEEVIRLKQKR--RTLKNRGYAQSCRFKRVQQRHVLE
+         250       260       270         280       290       300   
+
+            120       130       140        150       160       170 
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLT
+       .:: :. :: . : :..:..  : .  ...  .:...  : . ...  :.::        
+sp|P23 SEKNQLLQQVEHLKQEISRLVRERDAYKEKYEKLVSNGFRENGSSSDNPSSPEFFMYPRE
+           310       320       330       340       350       360   
+
+             180       190       200       210       220       230 
+sp|Q1X PTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+                                                                   
+sp|P23 SSTTVM                                                      
+                                                                   
+
+>>sp|Q5RCJ1|CIP4_PONAB Cdc42-interacting protein 4 OS=Po  (601 aa)
+ initn: 111 init1:  73 opt: 149  Z-score: 147.5  bits: 36.5 E(516081):  1.1
+Smith-Waterman score: 149; 25.4% identity (54.2% similar) in 177 aa overlap (29-186:294-463)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR-K
+                                     .:.:.::..     .. .:: . :...: :
+sp|Q5R DSQVLIELHKSGFARPGDVEFEDFSQPMNRAPSDSSLGTP----SDGRPELRGPGRSRTK
+           270       280       290       300           310         
+
+          60                      70        80        90       100 
+sp|Q1X SW--GQEL------------PVPKT--NLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :  :..             :::..  : ::  :.  .      .: . .. : :.  : 
+sp|Q5R RWPFGKKNKPRPPPLSPLGGPVPSALPNGPPSPRSGRDPLAILSEISKSVKPRLASFRSL
+     320       330       340       350       360       370         
+
+             110       120       130       140         150         
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA--EVRGSRANTPM
+       . .:  .   .  ..  ::: . : :   :.: .. .:.... :  :  ...    .::.
+sp|Q5R RGSRGTVVTEDFSHLPPEQQRKRLQQ---QLEERSRELQKEVDQREALKKMKDVYEKTPQ
+     380       390       400          410       420       430      
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+        :.::.  : .: :: . :: .: ...                                 
+sp|Q5R MGDPASLEPQITETLSNIERLKLEVQKYEAWLAEAESRVLSNRGDSLSRHARPPDPPTSA
+        440       450       460       470       480       490      
+
+>>sp|P23050|FOS_AVINK p55-v-Fos-transforming protein OS=  (322 aa)
+ initn:  77 init1:  46 opt: 129  Z-score: 132.4  bits: 32.8 E(516081):  7.5
+Smith-Waterman score: 129; 22.5% identity (49.7% similar) in 306 aa overlap (2-291:12-294)
+
+                         10        20          30        40        
+sp|Q1X           MSCDMEKTMSSVDSLPATPASEVPVL--TVSPADTSLNSADVKTQEVKPE
+                  : ..  :...... :       :.:  .:.:...  .   : .      
+sp|P23 SQDFCTDLAVSSANFVPTVTAISTSPDLQWLVQPTLISSVAPSQNRGHPYGVPAPAPPAA
+               10        20        30        40        50        60
+
+       50        60        70        80        90       100        
+sp|Q1X EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEM
+        ..::  .   :.   . . .   . .  . .:.:.:::.:  ::. ::   :.:.:   
+sp|P23 YSRPAVLKAPGGRGQSIGRRG---KVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELT
+               70        80           90        100       110      
+
+      110       120       130       140             150            
+sp|Q1X EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA------QLAAEVRGSR---ANTPM
+       . :. :  :.:.... :  .....  :...:   ::      ..  :.: :.   : : .
+sp|P23 DTLQAETDQLEEEKSALQAEIANLLKEKEKLEFILAAHRPACKMPEELRFSEELAAATAL
+        120       130       140       150       160       170      
+
+     160        170       180       190       200        210       
+sp|Q1X P-GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL-AESSDVAQHPA
+         :.:   ::. .   :      :::  .    :..    :. .   : ::  :      
+sp|P23 DLGAP---SPAAAEEAFA-----LPL--MTEAPPAVPPKEPSGSGLELKAEPFD----EL
+        180          190              200       210       220      
+
+       220       230       240       250          260       270    
+sp|Q1X VSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPL---SDDDFNRLFHGDSSVEPDSSVFE
+       .  :: .  . ..: .:: .  . ...:    ::   :  ... :     .  :  :.. 
+sp|P23 LFSAGPREASRSVPDMDLPGASSFYASD--WEPLGAGSGGELEPLCTPVVTCTPCPSTYT
+            230       240       250         260       270       280
+
+          280       290       300       310       320       330    
+sp|Q1X DGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTT
+       . ..:   :.   .:::                                           
+sp|P23 STFVFTYPEA---DAFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL               
+              290          300       310       320                 
+
+>>sp|Q80YR5|SAFB2_MOUSE Scaffold attachment factor B2 OS  (991 aa)
+ initn:  94 init1:  94 opt: 146  Z-score: 141.7  bits: 36.2 E(516081):  2.3
+Smith-Waterman score: 146; 26.6% identity (49.0% similar) in 263 aa overlap (5-245:610-858)
+
+                                         10        20        30    
+sp|Q1X                           MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS
+                                     ::.:.  .:.  . :.  : . . :  : :
+sp|Q80 PEDIKKEKDQDELTPGAAGHSRVTKSGSRGMERTVV-MDKSKGEPVISVKATSRSK-DRS
+     580       590       600       610        620       630        
+
+           40             50         60         70        80       
+sp|Q1X LNSADVKTQ-----EVKPEEK-KPAKKRKSWGQ-ELPVPKTNLPPRKRAKTEDEKEQR--
+        .: : :..     ..   .: :  ..:.   : :  . .:.   :.: . . :.:::  
+sp|Q80 SKSQDRKSEGREKRDILSFDKIKEQRERERQRQREREIRETE---RRREREQREREQRLD
+       640       650       660       670          680       690    
+
+                90       100          110       120       130      
+sp|Q1X ----RIE--RVLRNRAAAQTSR---ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN
+           : :  :. :.:   : .:   ::.::: :.:: :....:.. .   ::. .   : 
+sp|Q80 AFQERREKARLQRERMQLQCQRQRLERERLERERLERERMRVERERRKEQQRIMR---ER
+          700       710       720       730       740          750 
+
+        140       150       160       170       180       190      
+sp|Q1X NRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPS--L
+       ..: .:  :: :: .      :.    :  .    :   . .:  :  .   :: :.  .
+sp|Q80 EELRRQQEQLRAEQERRALRRPYD-LDARRDDGYWP---EGKRAALEDRYRDFPRPDHRF
+             760       770        780          790       800       
+
+          200       210       220       230         240       250  
+sp|Q1X SDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP--LFDLGSDLKHHSTDDVAAPLS
+        :..   .     .  :  .   . :   : ::.  :    . :  :.::. :       
+sp|Q80 HDFDHRDRGHYQEHVIDRRDGSRTRVE--ERDGQYYPDDQHSHGRLLEHHAWDSGDGWHG
+       810       820       830         840       850       860     
+
+            260       270       280       290       300       310  
+sp|Q1X DDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAH
+                                                                   
+sp|Q80 YSSDKKLNEGQGLPPPPRVSREWAEHSSQLEEQQVPVWHSAVDTNMTGHEHIRWRGAERG
+         870       880       890       900       910       920     
+
+>>sp|Q6ZSZ5|ARHGI_HUMAN Rho guanine nucleotide exchange   (1173 aa)
+ initn: 100 init1:  65 opt: 137  Z-score: 132.3  bits: 34.7 E(516081):  7.5
+Smith-Waterman score: 137; 25.3% identity (53.7% similar) in 190 aa overlap (80-267:851-1029)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     ....:: .:.  ..::: .  . . : :..
+sp|Q6Z QDSYVETQRAAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERAALEKLQSQLRHEQQ
+              830       840       850       860       870       880
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT
+       . : :.  ..:. .    ::.. :.:  .: ..: :  ::.. .:            .  
+sp|Q6Z RWERERQWQHQELERAGARLQEREGEARQLRERLEQERAELERQRQAYQHDLERLREAQR
+              890       900       910       920       930       940
+
+     170       180       190        200       210       220        
+sp|Q1X LTPTLFKQERDELPLERIPFPTPSLSDYSP-TLKPSTLAESSDVAQHPAVSVAGLEGDG-
+        .    ..::..: : :      . .. .: .: :.::::..  .. :. .  ::::   
+sp|Q6Z AV----ERERERLELLR----RLKKQNTAPGALPPDTLAEAQPPSHPPSFNGEGLEGPRV
+                  950           960       970       980       990  
+
+       230       240       250       260       270       280       
+sp|Q1X SALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDL
+       : ::    :   ..    .::   :    .:: ..:  ..                    
+sp|Q6Z SMLP---SGVGPEYAERPEVARRDSAPTESRLAKSDVPIQLLSATNQFQRQAAVQQQIPT
+              1000      1010      1020      1030      1040         
+
+       290       300       310       320       330       340       
+sp|Q1X SAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC  
+                                                                   
+sp|Q6Z KLAASTKGGKDKGGKSRGSQRWESSASFDLKQQLLLNKLMGKDESTSRNRRSLSPILPGR
+    1050      1060      1070      1080      1090      1100         
+
+>>sp|O70191|ATF5_MOUSE Cyclic AMP-dependent transcriptio  (283 aa)
+ initn:  57 init1:  57 opt: 129  Z-score: 133.1  bits: 32.8 E(516081):  6.8
+Smith-Waterman score: 132; 28.4% identity (52.7% similar) in 148 aa overlap (8-155:155-277)
+
+                                      10        20        30       
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNS
+                                     :....: : .   ::.     .:.:..:..
+sp|O70 PSPPPPPPPAAAPSLPLPLPLPTFDLPQPPTLDTLDLLAVYCRSEA-----GPGDSGLST
+          130       140       150       160       170              
+
+        40        50        60        70        80        90       
+sp|Q1X ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA
+         :  :   :    :          :: :    :  . :.:. ...:.. ..   :..::
+sp|O70 LPVPQQ---PPPLAP----------LPSPARPAPYPSPASTRGDRKQKKRDQ---NKSAA
+     180          190                 200       210          220   
+
+       100       110       120       130       140       150       
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT
+          :.::: : : ::.:   .: .:. : .:  ..: :     : . .:  ::  .:.  
+sp|O70 LRYRQRKRAEGEALEGECQGLEARNRELRERAESVEREI----QYVKDLLIEVYKARSQR
+           230       240       250       260           270         
+
+       160       170       180       190       200       210       
+sp|Q1X PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPA
+                                                                   
+sp|O70 TRST                                                        
+     280                                                           
+
+>>sp|A6NC98|CC88B_HUMAN Coiled-coil domain-containing pr  (1476 aa)
+ initn:  67 init1:  67 opt: 146  Z-score: 139.4  bits: 36.3 E(516081):    3
+Smith-Waterman score: 146; 28.2% identity (55.9% similar) in 195 aa overlap (6-186:276-466)
+
+                                        10        20        30     
+sp|Q1X                          MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSL
+                                     ::.   .::   . . :. .  .     .:
+sp|A6N RAPAEGPSHHLALQLANAKAQLRRLRQELEEKAELLLDSQAEVQGLEAEIRRLRQEAQAL
+         250       260       270       280       290       300     
+
+          40        50        60        70          80        90   
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP-RKRAKT-EDEKEQRRIERVLRN
+        :...:  :.  :: .  ..: .   .::  . .:   :.: .. :  : : . :::: .
+sp|A6N -SGQAKRAELYREEAEALRERAG---RLPRLQEELRRCRERLQAAEAYKSQLEEERVLSG
+          310       320          330       340       350       360 
+
+           100       110       120        130       140            
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQ-RLSQMEAENNRLSQQLAQLAAE---
+          :. .  ...::  . .  ...  :....::. ::.. .:: . : .:. ::: :   
+sp|A6N VLEASKALLEEQLEAARERCARLHETQRENLLLRTRLGEAHAELDSLRHQVDQLAEENVE
+             370       380       390       400       410       420 
+
+       150       160            170       180        190       200 
+sp|Q1X --VRGSRANTPMPGSP-----ATASPTLTPTLFKQERDEL-PLERIPFPTPSLSDYSPTL
+         .. .:.  : ::::     : :.:.:   . . :  .:  :::               
+sp|A6N LELELQRSLEPPPGSPGEAPLAGAAPSLQDEVREAEAGRLRTLERENRELRGLLQVLQGQ
+             430       440       450       460       470       480 
+
+             210       220       230       240       250       260 
+sp|Q1X KPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFH
+                                                                   
+sp|A6N PGGQHPLLEAPREDPVLPVLEEAPQTPVAFDHSPQGLVQKARDGGPQALDLAPPALDSVL
+             490       500       510       520       530       540 
+
+>>sp|B0WYY2|MOEH_CULQU Moesin/ezrin/radixin homolog 1 OS  (572 aa)
+ initn:  83 init1:  83 opt: 132  Z-score: 131.8  bits: 33.6 E(516081):    8
+Smith-Waterman score: 132; 23.7% identity (61.0% similar) in 118 aa overlap (36-151:294-411)
+
+          10        20        30        40        50        60     
+sp|Q1X EKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV
+                                     .. ::. .... .:.: ::...    .: .
+sp|B0W VFFAPRVRINKRILALCMGNHELYMRRRKPDTIDVQQMKAQAREEKNAKQQEREKLQLAL
+           270       280       290       300       310       320   
+
+          70        80          90       100       110       120   
+sp|Q1X PKTNLPPRKRAKTEDE--KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQ
+          .   .:. . ::.  . :...::   :   ::   .: . ....:.  : ..::...
+sp|B0W AARERAEKKQQEYEDRIRNMQEEMERSQANLIEAQDMIRRLEEQLKQLQAAKDDLEQRQN
+           330       340       350       360       370       380   
+
+           130       140       150       160       170       180   
+sp|Q1X FLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELP
+        :   ....:  .:  . . :.:  :.:                                
+sp|B0W ELQVMITRLEETKNMEAAERAKLEDEIRMKQEEVHKIQEEVSVKDSETKRLQEEVEEARR
+           390       400       410       420       430       440   
+
+>>sp|P11939|FOS_CHICK Proto-oncogene c-Fos OS=Gallus gal  (367 aa)
+ initn:  77 init1:  46 opt: 129  Z-score: 131.6  bits: 32.9 E(516081):  8.3
+Smith-Waterman score: 129; 22.5% identity (49.7% similar) in 306 aa overlap (2-291:57-339)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|P11 LTYYPSPADSFSSMGSPVNSQDFCTDLAVSSANFVPTVTAISTSPDLQWLVQPTLISSVA
+         30        40        50        60        70        80      
+
+      30        40        50        60        70        80         
+sp|Q1X PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER
+       :...  .   : .       ..::  .   :.   . . .   . .  . .:.:.:::.:
+sp|P11 PSQNRGHPYGVPAPAPPAAYSRPAVLKAPGGRGQSIGRRG---KVEQLSPEEEEKRRIRR
+         90       100       110       120          130       140   
+
+      90       100       110       120       130       140         
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA-----
+         ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::     
+sp|P11 E-RNKMAAAKCRNRRRELTDTLQAETDQLEEEKSALQAEIANLLKEKEKLEFILAAHRPA
+            150       160       170       180       190       200  
+
+           150          160        170       180       190         
+sp|Q1X -QLAAEVRGSR---ANTPMP-GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSP
+        ..  :.: :.   : : .  :.:   ::. .   :      :::  .    :..    :
+sp|P11 CKMPEELRFSEELAAATALDLGAP---SPAAAEEAFA-----LPL--MTEAPPAVPPKEP
+            210       220          230              240       250  
+
+     200        210       220       230       240       250        
+sp|Q1X TLKPSTL-AESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPL---SDDD
+       . .   : ::  :      .  :: .  . ..: .:: .  . ...:    ::   :  .
+sp|P11 SGSGLELKAEPFD----ELLFSAGPREASRSVPDMDLPGASSFYASD--WEPLGAGSGGE
+            260           270       280       290         300      
+
+         260       270       280       290       300       310     
+sp|Q1X FNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLP
+       .. :     .  :  :.. . ..:   :.   .:::                        
+sp|P11 LEPLCTPVVTCTPCPSTYTSTFVFTYPEA---DAFPSCAAAHRKGSSSNEPSSDSLSSPT
+        310       320       330          340       350       360   
+
+         320       330       340     
+sp|Q1X DETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                     
+sp|P11 LLAL                          
+                                     
+
+>>sp|Q9XUS2|MED29_CAEEL Mediator of RNA polymerase II tr  (441 aa)
+ initn: 138 init1:  68 opt: 130  Z-score: 131.5  bits: 33.1 E(516081):  8.4
+Smith-Waterman score: 130; 26.2% identity (53.9% similar) in 141 aa overlap (112-243:13-152)
+
+              90       100       110       120       130        140
+sp|Q1X KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN-NRLS
+                                     ..... :.::.:  ..: .::. .. ..  
+sp|Q9X                   MSGQGPPPSMTPQQQHMLMQQQQQQQMMRQQQMQQQQMQQQR
+                                 10        20        30        40  
+
+              150         160             170       180       190  
+sp|Q1X QQLAQLAAEVRGSRANTP--MP--GSPATAS----PTLTPTLFKQERDELPLERIPFPTP
+       ::  :  :.   .:: ::  .:  :::. :     : : :    : :. :   ..  :. 
+sp|Q9X QQQIQQQAQQPYQRARTPQMVPQGGSPGGAHLQMHPHLQPQGQMQPRSPLVGAQLQAPSS
+             50        60        70        80        90       100  
+
+            200       210       220       230       240       250  
+sp|Q1X SLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLS
+         .  .::  :. . ..  . :  ..  . .   ::. :  ..  .:.: :         
+sp|Q9X VPTAANPTT-PQMMQQQMGMNQPMSLPPTHVSRPGSVAPPSSVPVNLQHTSGAPGLPGSQ
+            110        120       130       140       150       160 
+
+            260       270       280       290       300       310  
+sp|Q1X DDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAH
+                                                                   
+sp|Q9X MEHQYPMHLQPQQQTLSRPGSQQSQHIQQPGSIQRPGSVLAPGSIPPGGPASQTGPQSIQ
+             170       180       190       200       210       220 
+
+>>sp|A1D9Z7|KAPC_NEOFI Putative transcription factor kap  (280 aa)
+ initn: 101 init1:  67 opt: 131  Z-score: 135.1  bits: 33.1 E(516081):  5.3
+Smith-Waterman score: 131; 23.4% identity (55.0% similar) in 171 aa overlap (66-223:75-231)
+
+          40        50        60        70            80        90 
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP----RKRAKTEDEKEQRRIERVL
+                                     :.:   :    ..  ::  ..     .:. 
+sp|A1D QPPHMQPNTPARDQNNIDPAISGATMLTGPPQTPTQPDVTGQETPKTYGKRPLSTSKRAA
+           50        60        70        80        90       100    
+
+             100       110       120       130       140       150 
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR
+       .:::: .. :.::. ....::. :..  ..   . . .. ..::: .: . . .: ... 
+sp|A1D QNRAAQRAFRQRKEAHIRELEG-KVKAYEN---MGEAIKALQAENYQLREYIINLQSRLL
+          110       120        130          140       150       160
+
+              160       170       180       190       200          
+sp|Q1X GSRANTP-MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS------
+        :....: .::.   ..:          :.:.:.  ::    . .   :   :.      
+sp|A1D DSQGEVPELPGNIDLSQP----------RSEIPVPPIPNSGTTTTAAPPPTAPQQPQPPH
+              170                 180       190       200       210
+
+          210         220       230       240       250       260  
+sp|Q1X TLAESS--DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+       . : .:  :. .   ..::::                                       
+sp|A1D AQAPTSNDDMNSLNRIAVAGLGMRKPPTEEANYLGNNFQAQARRVRPDEGQTEASELPKQ
+              220       230       240       250       260       270
+
+>>sp|P29176|FOSX_MSVFR Transforming protein v-Fos/v-Fox   (244 aa)
+ initn:  82 init1:  50 opt: 132  Z-score: 136.8  bits: 33.3 E(516081):  4.2
+Smith-Waterman score: 132; 23.7% identity (49.6% similar) in 224 aa overlap (2-222:33-242)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  : ..... :       :.:  .:.
+sp|P29 LSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTETAISTSPDLQWLVQPTLVSSVA
+             10        20        30        40        50        60  
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   . :: .    .    :  : :.   . . .   . .  . .:. .:::.
+sp|P29 PSQTRAPHPYGLPTQSAGAYARAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEVKRRIR
+             70        80        90       100          110         
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|P29 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+     120        130       140       150       160       170        
+
+      150       160       170       180       190       200        
+sp|Q1X EVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAE
+         .    .  .:   ..::  ::  :       :::   : : :::   . ..    .  
+sp|P29 ACKIPD-DLGFPEEMSVASLDLTGGL-------LPLLNDPEPKPSLEPVKSSFDDFLFPA
+      180        190       200              210       220       230
+
+      210       220       230       240       250       260        
+sp|Q1X SSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEP
+       ::  ..   .:.::                                              
+sp|P29 SS--GHSGFISMAGWQ                                            
+                240                                                
+
+>>sp|Q09458|YQ37_CAEEL Uncharacterized protein C09F5.7 O  (395 aa)
+ initn:  45 init1:  45 opt: 129  Z-score: 131.2  bits: 32.9 E(516081):  8.7
+Smith-Waterman score: 129; 23.6% identity (55.3% similar) in 208 aa overlap (30-227:29-229)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                                    : :..:   .: ...  :  :: .:: .:  
+sp|Q09  MLLPQPKSTAKKPKGEAKSLVARERKSQPQDSAL--MEVPAKREMP--KKEVKKIRSVH
+                10        20        30          40          50     
+
+               70          80        90       100        110       
+sp|Q1X QELPVPKTNLPP--RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME-KLENEKIQ
+       .   : ::.     ::.. . .  .. . .. .   :. ..: :.:. ::  :: .... 
+sp|Q09 KVESVTKTKSAKLRRKKSYSLSSDNESKYKKSISPAASEEASIEKKKEEMTSKLPEKSVA
+          60        70        80        90       100       110     
+
+       120          130       140       150       160       170    
+sp|Q1X MEQQNQ---FLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTL
+       :.  :.   : ..  ...     . ::. ...:..  .:  .  :: :  ... .     
+sp|Q09 MKTANSPKTFNMELAKKFFEMRMKESQRTSRMATKSDSSLET--MPESSHNSGQSSKSRK
+         120       130       140       150         160       170   
+
+          180        190        200         210       220       230
+sp|Q1X FKQERDE-LPLERIPFPTPSLSDYS-PTLKPSTLA--ESSDVAQHPAVSVAGLEGDGSAL
+        .. : .  ::.:  :   .   .  :  ::. :.  : ......: . .:.:: ::   
+sp|Q09 SQRTRGKSTPLDRNIFKENGEPVWVVPDRKPGELVMNEHGEMVKYPEL-MAALEEDGLEM
+           180       190       200       210       220        230  
+
+              240       250       260       270       280       290
+sp|Q1X PLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAF
+                                                                   
+sp|Q09 EDGKGWFQKMSSYLMGELDQGRIDNKAASKDINPFASMETLEERTDLYFSRETVIYNTTD
+            240       250       260       270       280       290  
+
+>>sp|P23922|HBP1A_WHEAT Transcription factor HBP-1a OS=T  (349 aa)
+ initn: 163 init1:  89 opt: 128  Z-score: 131.0  bits: 32.7 E(516081):    9
+Smith-Waterman score: 128; 29.9% identity (63.9% similar) in 97 aa overlap (59-150:223-319)
+
+       30        40        50        60            70         80   
+sp|Q1X SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE--LPVP--KTNLPP-RKRAKTEDEKE
+                                     ::     :::  . ..:    :..  ::.:
+sp|P23 NKPMPLVPVQSGAVIGVAGPATNLNIGMDYWGATGSSPVPAMRGKVPSGSARGEQWDERE
+            200       210       220       230       240       250  
+
+            90       100       110       120       130       140   
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL
+        .. .: : :: .:. :: ::. : :.: ..   ....:. :  .:.... : ..: .. 
+sp|P23 LKKQKRKLSNRESARRSRLRKQAECEELGQRAEALKSENSSLRIELDRIKKEYEELLSKN
+            260       270       280       290       300       310  
+
+           150       160       170       180       190       200   
+sp|Q1X AQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKP
+       ..: :..                                                     
+sp|P23 TSLKAKLGESGGGGGSDAVPDMNERGDTNGGSHQKEP                       
+            320       330       340                                
+
+>>sp|Q5R452|SAFB1_PONAB Scaffold attachment factor B1 OS  (914 aa)
+ initn:  45 init1:  45 opt: 137  Z-score: 133.8  bits: 34.6 E(516081):  6.3
+Smith-Waterman score: 137; 26.4% identity (60.5% similar) in 129 aa overlap (23-143:572-699)
+
+                       10        20        30        40        50  
+sp|Q1X         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKP
+                                     :::..:. . ..  ..    ..   .::. 
+sp|Q5R QKPGPSERSRATKSGSRGTERTVVMDKSKGVPVISVKTSGSKERASKSLDRKSASREKRS
+             550       560       570       580       590       600 
+
+                    60        70        80        90       100     
+sp|Q1X A-------KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERK
+       .       . :::  .:    .     ..: ... :.:.:.  .. :.: : : .: ::.
+sp|Q5R VVSFDKVKEPRKSRDSESHRVRERSEREQRMQAQWEREERERLEIARERLAFQRQRLERE
+             610       620       630       640       650       660 
+
+          110       120       130       140       150       160    
+sp|Q1X RLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPA
+       :.: :.:: :....:.. .   .:. . : :. : .:.:                     
+sp|Q5R RMERERLERERMHVEHERRREQERIHR-EREELRRQQELRYEQERRPAVRRPYDLDRRDD
+             670       680        690       700       710       720
+
+          170       180       190       200       210       220    
+sp|Q1X TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLE
+                                                                   
+sp|Q5R AYWPEAKRAALDERYHSDFNRQDRFHDFDHRDRGRYPDHSVDRREGSRSMMGEREGQHYP
+              730       740       750       760       770       780
+
+>>sp|O02756|CEBPD_BOVIN CCAAT/enhancer-binding protein d  (256 aa)
+ initn:  86 init1:  86 opt: 130  Z-score: 134.6  bits: 32.9 E(516081):  5.6
+Smith-Waterman score: 148; 26.7% identity (54.1% similar) in 146 aa overlap (19-163:119-245)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     :.: .:. ... :.: .. : . .: . : 
+sp|O02 LLPGGPARLGGPGPAPRPLKREPDWGDGDAPGSLLPAQVAACAQTVVSLA-AAAQPTPPA
+       90       100       110       120       130        140       
+
+       50        60        70        80        90       100        
+sp|Q1X EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEM
+         .:   :.: .   : :  .    ::.  .   : :  .:  ::  :.. ::.. .   
+sp|O02 SPEP--PRRSPAPPAPGPARDKAAGKRGPDRGSPEYR--QRRERNNIAVRKSRDKAK---
+       150         160       170       180         190       200   
+
+      110       120       130       140       150        160       
+sp|Q1X EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG-SRANTPMPGSPATAS
+                  ..:: . :.: .. :::..:.:.. ::. .. :  :    .::.:    
+sp|O02 -----------RRNQEMQQKLVELSAENEKLQQRVEQLTRDLAGLRRFFKQLPGAPFLPG
+                         210       220       230       240         
+
+       170       180       190       200       210       220       
+sp|Q1X PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDG
+                                                                   
+sp|O02 AGAADAR                                                     
+     250                                                           
+
+>>sp|Q03173|ENAH_MOUSE Protein enabled homolog OS=Mus mu  (802 aa)
+ initn: 179 init1:  93 opt: 133  Z-score: 130.8  bits: 33.9 E(516081):  9.2
+Smith-Waterman score: 162; 25.9% identity (52.1% similar) in 259 aa overlap (9-254:105-350)
+
+                                     10        20        30        
+sp|Q1X                       MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSA
+                                     : ... : .  :..  : :..  .:.:   
+sp|Q03 QTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVLNSQEAAQSKV-TATQDSTNLRCI
+           80        90       100       110       120        130   
+
+       40        50        60         70        80        90       
+sp|Q1X DVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA
+              . . . ::. ... .:: : . . .:  ..: : : :.:. . ::. :.:   
+sp|Q03 FCGPTLPRQNSQLPAQVQNGPSQEELEIQRRQLQEQQRQK-ELERERMERERLERERLER
+           140       150       160       170        180       190  
+
+       100       110       120       130        140       150      
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAE-NNRLSQQLAQLAAEV----RG
+       .   ::.:::.:.:: .. . :. ...  .:: ..: : ..:  ..: ::  :     : 
+sp|Q03 ERL-ERERLEQEQLERQRQEREHVERLERERLERLERERQERERERLEQLEREQVEWERE
+             200       210       220       230       240       250 
+
+            160       170        180       190            200      
+sp|Q1X SRANTPMPGSPATASPTLTPTLFK-QERDELPLERIPFPTPSLSDYSP-----TLKPSTL
+        : ..  :.: .. : .  :   . :  .  :       .  .:: .:     :  : : 
+sp|Q03 RRMSNAAPSSDSSLSSAPLPEYSSCQPPSAPPPSYAKVISAPVSDATPDYAVVTALPPTS
+             260       270       280       290       300       310 
+
+        210       220       230        240       250       260     
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSAL-PLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSS
+       .  .   .: :.  :   . :::. :.      : :..:  :  ::. .           
+sp|Q03 TPPTPPLRHAATRFA--TSLGSAFHPV------LPHYAT--VPRPLNKNSRPSSPVNTPS
+             320         330             340         350       360 
+
+         270       280       290       300       310       320     
+sp|Q1X VEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSV
+                                                                   
+sp|Q03 SQPPAAKSCAWPTSNFSPLPPSPPIMISSPPGKATGPRPVLPVCVSSPVPQMPPSPTAPN
+             370       380       390       400       410       420 
+
+>>sp|P54843|MAF_MOUSE Transcription factor Maf OS=Mus mu  (370 aa)
+ initn:  85 init1:  85 opt: 128  Z-score: 130.6  bits: 32.7 E(516081):  9.4
+Smith-Waterman score: 128; 30.5% identity (67.1% similar) in 82 aa overlap (83-163:287-366)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|P54 RFSDEQLVTMSVRELNRQLRGVSKEEVIRLKQKR--RTLKNRGYAQSCRFKRVQQRHVLE
+        260       270       280       290         300       310    
+
+            120       130       140        150       160       170 
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLT
+       .:: :. :: . : :..:..  : .  ...  .:...  : . ...  :.::        
+sp|P54 SEKNQLLQQVDHLKQEISRLVRERDAYKEKYEKLVSNGFRENGSSSDNPSSPEFFM    
+          320       330       340       350       360       370    
+
+             180       190       200       210       220       230 
+sp|Q1X PTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+
+>>sp|P49716|CEBPD_HUMAN CCAAT/enhancer-binding protein d  (269 aa)
+ initn:  90 init1:  90 opt: 126  Z-score: 130.6  bits: 32.2 E(516081):  9.4
+Smith-Waterman score: 128; 25.7% identity (51.4% similar) in 148 aa overlap (19-163:131-258)
+
+                           10        20        30          40      
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT--SLNSADVKTQEVK
+                                     :.: .:. ... :.:  :: .:   :  ..
+sp|P49 LPGGPARPLGPGPAAPRLLKREPDWGDGDAPGSLLPAQVAACAQTVVSLAAAGQPTPPTS
+              110       120       130       140       150       160
+
+         50        60        70        80        90       100      
+sp|Q1X PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL
+       ::  . . ..       : :  .    ::.  .   : :  .:  ::  :.. ::.. . 
+sp|P49 PEPPRSSPRQTP----APGPAREKSAGKRGPDRGSPEYR--QRRERNNIAVRKSRDKAK-
+              170           180       190         200       210    
+
+        110       120       130       140       150        160     
+sp|Q1X EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRAN-TPMPGSPAT
+                    ..:: . :.: .. :::..: :.. ::. .. : :     .:. :  
+sp|P49 -------------RRNQEMQQKLVELSAENEKLHQRVEQLTRDLAGLRQFFKQLPSPPFL
+                        220       230       240       250       260
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+                                                                   
+sp|P49 PAAGTADCR                                                   
+                                                                   
+
+>>sp|Q15642|CIP4_HUMAN Cdc42-interacting protein 4 OS=Ho  (601 aa)
+ initn: 106 init1:  68 opt: 147  Z-score: 145.6  bits: 36.2 E(516081):  1.4
+Smith-Waterman score: 147; 22.4% identity (50.2% similar) in 263 aa overlap (29-272:294-542)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR-K
+                                     .:.:.::.. .    . .:: . :...: :
+sp|Q15 DSHVLIELHKSGFARPGDVEFEDFSQPMNRAPSDSSLGTPS----DGRPELRGPGRSRTK
+           270       280       290       300           310         
+
+          60                      70        80        90       100 
+sp|Q1X SW--GQEL------------PVPKT--NLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :  :..             :::..  : ::  :.  .      .: . .. : :.  : 
+sp|Q15 RWPFGKKNKPRPPPLSPLGGPVPSALPNGPPSPRSGRDPLAILSEISKSVKPRLASFRSL
+     320       330       340       350       360       370         
+
+             110       120       130       140         150         
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA--EVRGSRANTPM
+       . .:  .   .  ..  ::: . : :   :.: .. .:.... :  :  ...    .::.
+sp|Q15 RGSRGTVVTEDFSHLPPEQQRKRLQQ---QLEERSRELQKEVDQREALKKMKDVYEKTPQ
+     380       390       400          410       420       430      
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+        :.::.  : .. :: . :: .: ...         .   . . ..:.. .   . :: :
+sp|Q15 MGDPASLEPQIAETLSNIERLKLEVQKYEAWLAEAESRVLSNRGDSLSRHARPPDPPA-S
+        440       450       460       470       480       490      
+
+     220       230       240       250       260       270         
+sp|Q1X VAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       .    ...::      ..: :. : .  .   .:  .   :  :   :: : .       
+sp|Q15 APPDSSSNSA------SQDTKESSEEPPSEESQDTPIYTEFDEDFEEEPTSPIGHCVAIY
+         500             510       520       530       540         
+
+     280       290       300       310       320       330         
+sp|Q1X DVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQ
+                                                                   
+sp|Q15 HFEGSSEGTISMAEGEDLSLMEEDKGDGWTRVRRKEGGEGYVPTSYLRVTLN        
+     550       560       570       580       590       600         
+
+>>sp|Q54RZ9|BZPG_DICDI Probable basic-leucine zipper tra  (372 aa)
+ initn: 128 init1: 128 opt: 128  Z-score: 130.6  bits: 32.7 E(516081):  9.4
+Smith-Waterman score: 128; 32.8% identity (73.1% similar) in 67 aa overlap (80-146:274-340)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     ..:: .: .:...:: .:. ::.::: .. 
+sp|Q54 LNKEELNTFTTTDMNNYVKQANMVKELSQVEKKELKRQKRLIKNRESAHLSRQRKRERLT
+           250       260       270       280       290       300   
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT
+        ::..  .. ...  . . ::..: ::  :. ...::                       
+sp|Q54 DLEHRVEELSSNSIDINKTLSSLENENLILKAEVGQLFEVINDSPVLSALFYKIASLSQQ
+           310       320       330       340       350       360   
+
+     170       180       190       200       210       220         
+sp|Q1X LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSA
+                                                                   
+sp|Q54 PQKDTIGAY                                                   
+           370                                                     
+
+>>sp|Q5AXH3|TOF1_EMENI Topoisomerase 1-associated factor  (1167 aa)
+ initn:  80 init1:  80 opt: 140  Z-score: 135.1  bits: 35.2 E(516081):  5.2
+Smith-Waterman score: 140; 25.7% identity (51.0% similar) in 241 aa overlap (48-270:936-1166)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     : :.  ::::. :.: :: . .:  :..:.
+sp|Q5A NFGSDSEGEDVIPDGPLFPANPRSKAHALNELKQKRKKRKDKGEEEPVDEETLEERRQAR
+         910       920       930       940       950       960     
+
+        80         90       100       110         120       130    
+sp|Q1X TEDEKEQ-RRIERVLRNRAAAQTSRERKRLEMEKLENEKI--QMEQQNQFLLQRLSQMEA
+        :. . .  .:.  :  .:. . :  .   :. .::.:.   : :. .. ::  :.. : 
+sp|Q5A LENTRWRLAKIKSDLYVHASDEESDAEADQEFFRLEEERRNEQSERIKKALL--LGRTED
+         970       980       990      1000      1010        1020   
+
+          140       150        160       170          180       190
+sp|Q1X ENNRLSQQLAQLAAEVRGSRANTP-MPGSPATASPTLTP---TLFKQERDELPLERIPFP
+        .:.  :.        ::.:.: : . :   :..        :  . :.:.. .. . .:
+sp|Q5A AGNKARQRK-------RGKRSNEPNIAGEEETSGKRRRHSGGTNVELEEDDILMDDMEMP
+          1030             1040      1050      1060      1070      
+
+               200          210       220       230           240  
+sp|Q1X T-PSLSDYSPTLKPS---TLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL----KHH
+       .  : ..:: .   .   ..: . :        . : . : .   .   :.:     ::.
+sp|Q5A SRASSGEYSSNDADAIDKSMAAAEDELYFDDDLAFGRDRDKDETSVDRDGADASSPRKHN
+       1080      1090      1100      1110      1120      1130      
+
+               250       260       270       280       290         
+sp|Q1X STDDVAA---PLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFD
+       . .. :    ::.  .  ::  :   :: ::                             
+sp|Q5A DGSESAEEDIPLAPPNRRRLRAG-FVVESDSE                            
+       1140      1150       1160                                   
+
+     300       310       320       330       340     
+sp|Q1X SEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+
+>>sp|Q498L2|SLTM_XENLA SAFB-like transcription modulator  (998 aa)
+ initn: 101 init1: 101 opt: 134  Z-score: 130.4  bits: 34.1 E(516081):  9.6
+Smith-Waterman score: 134; 31.0% identity (66.7% similar) in 84 aa overlap (73-153:607-689)
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-
+                                     :.: . .  .:.....:. :.:   .  : 
+sp|Q49 REKVERMERIQRFRRAVEMRRSREMAERECRERERIRIMREREELDRLQRERERLEIERQ
+        580       590       600       610       620       630      
+
+               110       120       130       140       150         
+sp|Q1X --ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM
+         ::.:.: :.:: :.:..::. .   .:... . :  : ..:: ..  : :.:      
+sp|Q49 KLERERMERERLERERIRIEQERRREAERIAREREELRRQQEQL-RFEQEKRNSLKRPRD
+        640       650       660       670       680        690     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+                                                                   
+sp|Q49 VDHRRDEPFWNENKKMAVDTDSRFSHGSDFNRQQNRFNDFDHRDRNRYSEGSNVSSFERR
+         700       710       720       730       740       750     
+
+>>sp|P0CB49|YLPM1_RAT YLP motif-containing protein 1 OS=  (1376 aa)
+ initn: 129 init1:  79 opt: 137  Z-score: 131.4  bits: 34.7 E(516081):  8.5
+Smith-Waterman score: 137; 20.1% identity (50.4% similar) in 224 aa overlap (19-227:858-1076)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     : .  :.    :.. ... .  . . ..  
+sp|P0C EFKRDTAAIPSAPVLPPPPVHPSIPPPGPMPMGMPPMSKPPPVQHTVDYGHGRDMPTNKV
+       830       840       850       860       870       880       
+
+       50        60        70        80        90       100        
+sp|Q1X EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS-RERKRLE
+       :. :  .: .   . :.:. .     .:  .:. .. : ..   .: . .:. :. :: .
+sp|P0C EQIPYGERITLRPD-PLPERSAFDADHAGQRDRYDRDRDREPYFDRQSNMTDHRDFKRDR
+       890       900        910       920       930       940      
+
+       110       120       130       140       150       160       
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS
+         . . ...   ....:  .:  . . . :.  ..  . ..  ::.  . :     .   
+sp|P0C ETHRDRDRVLDYERDRF--DRERRPRDDRNQSYRDKKDHSSSRRGGF-DRPSYDRKSDRP
+        950       960         970       980       990       1000   
+
+       170       180       190       200            210            
+sp|Q1X PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTL-----KPSTLAESSDVAQHPA-----
+       :   : .:  ::   : ::.:.:.:::.   : .     :: .  . .:. . :.     
+sp|P0C PYEGPPMFGGERRTYPEERMPLPAPSLGHQPPPVPRVEKKPES-KNVDDILKPPGRESRP
+          1010      1020      1030      1040       1050      1060  
+
+           220       230       240       250       260       270   
+sp|Q1X ----VSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVF
+           : . :: :.:                                              
+sp|P0C ERIVVIMRGLPGSGKTHVAKLIRDKEVEFGGPAPRVLSLDDYFIAEVEKEEKDPDSGKKV
+           1070      1080      1090      1100      1110      1120  
+
+>>sp|Q39140|TGA6_ARATH Transcription factor TGA6 OS=Arab  (330 aa)
+ initn: 124 init1:  89 opt: 127  Z-score: 130.3  bits: 32.5 E(516081):  9.7
+Smith-Waterman score: 127; 36.4% identity (72.7% similar) in 55 aa overlap (77-131:38-91)
+
+         50        60        70        80        90       100      
+sp|Q1X PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL
+                                     ...:. .:. ..:. .:: ::. :: ::. 
+sp|Q39 TDVSTDGDTDHRDLGSDRGHMHAAASDSSDRSKDKLDQKTLRRLAQNREAARKSRLRKKA
+        10        20        30        40        50        60       
+
+        110       120       130       140       150       160      
+sp|Q1X EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATA
+        ...::: .... : .: : ::  :                                   
+sp|Q39 YVQQLENSRLKLTQLEQEL-QRARQQGVFISSSGDQAHSTGGNGALAFDAEHSRWLEEKN
+        70        80         90       100       110       120      
+
+>>sp|Q8N9W4|GG6L2_HUMAN Golgin subfamily A member 6-like  (650 aa)
+ initn: 186 init1:  90 opt: 131  Z-score: 130.1  bits: 33.4 E(516081):   10
+Smith-Waterman score: 131; 24.3% identity (61.7% similar) in 115 aa overlap (41-154:277-386)
+
+               20        30        40        50         60         
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR-KSWGQELPVPKTN
+                                     . .:.. .:::  :.. : : ::       
+sp|Q8N NVKELKRKLERAKFLLPQVQTNTLQEEMWRQEEELREQEKKIRKQEEKMWRQE-----ER
+        250       260       270       280       290            300 
+
+      70        80        90       100       110       120         
+sp|Q1X LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL
+       :  ..    :.:...:: :. ::..      .:..  :..::.... ::..:.. . .. 
+sp|Q8N LREQEGKMREQEEKMRRQEKRLREQEKELREQEKELREQKKLREQEEQMQEQEEKMWEQE
+             310       320       330       340       350       360 
+
+     130       140       150       160       170       180         
+sp|Q1X SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF
+        .:. ..... .:  .:  . .  :                                   
+sp|Q8N EKMREQEEKMWRQEERLWEQEKQMREQEQKMRDQEERMWEQDERLREKEERMREQEKMWE
+             370       380       390       400       410       420 
+
+
+
+526 residues in 2 query   sequences
+181677051 residues in 516081 library sequences
+ Tcomplib [36.04] (8 proc)
+ start: Fri Apr 16 10:09:02 2010 done: Fri Apr 16 10:09:15 2010
+ Total Scan time: 28.320 Total Display time:  0.320
+
+Function used was FASTA [version 36.04 January, 2010]
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.h2.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.h2.out
new file mode 100755
index 0000000..2738b02
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.h2.out
@@ -0,0 +1,4234 @@
+hmmsearch - search a sequence database with a profile HMM
+HMMER 2.3.2 (Oct 2003)
+Copyright (C) 1992-2003 HHMI/Washington University School of Medicine
+Freely distributed under the GNU General Public License (GPL)
+- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+HMM file:                   example.hmm2 [Orn_DAP_Arg_deC]
+Sequence database:          /misc/data0/databases/Uniprot/uniprot_sprot.fasta
+per-sequence score cutoff:  [none]
+per-domain score cutoff:    [none]
+per-sequence Eval cutoff:   <= 10        
+per-domain Eval cutoff:     [none]
+- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+
+Query HMM:   Orn_DAP_Arg_deC
+Accession:   PF00278.15
+Description: Pyridoxal-dependent decarboxylase, C-terminal sheet domain
+  [HMM has been calibrated; E-values are empirical estimates]
+
+Scores for complete sequences (score includes all domains):
+Sequence              Description                       Score    E-value  N 
+--------              -----------                       -----    ------- ---
+sp|O29458|DCDA_ARCFU  Diaminopimelate decarboxylase O   173.5      3e-47   1
+sp|Q9UQW9|DCOR_SCHPO  Ornithine decarboxylase OS=Schi   171.6    1.2e-46   1
+sp|O27390|DCDA_METTH  Diaminopimelate decarboxylase O   162.1    8.4e-44   1
+sp|Q9I8S4|DCOR2_XENLA Ornithine decarboxylase 2 OS=Xe   160.6    2.3e-43   1
+sp|P09057|DCOR_RAT    Ornithine decarboxylase OS=Ratt   160.5    2.5e-43   1
+sp|P14019|DCOR_CRIGR  Ornithine decarboxylase OS=Cric   159.9    3.8e-43   1
+sp|P00860|DCOR_MOUSE  Ornithine decarboxylase OS=Mus    159.8    3.9e-43   1
+sp|P27119|DCOR_MUSPA  Ornithine decarboxylase OS=Mus    159.8    3.9e-43   1
+sp|P27118|DCOR_CHICK  Ornithine decarboxylase (Fragme   158.8      8e-43   1
+sp|P27120|DCOR1_XENLA Ornithine decarboxylase 1 OS=Xe   157.0    2.8e-42   1
+sp|P11926|DCOR_HUMAN  Ornithine decarboxylase OS=Homo   156.9      3e-42   1
+sp|P27117|DCOR_BOVIN  Ornithine decarboxylase OS=Bos    154.1    2.1e-41   1
+sp|P07805|DCOR_TRYBB  Ornithine decarboxylase OS=Tryp   151.2    1.6e-40   1
+sp|Q9X1K5|DCDA_THEMA  Diaminopimelate decarboxylase O   150.5    2.6e-40   1
+sp|P49725|DCOR_PANRE  Ornithine decarboxylase OS=Pana   146.6    3.7e-39   1
+sp|O22616|DCOR_SOLLC  Ornithine decarboxylase OS=Sola   145.8    6.6e-39   1
+sp|P27121|DCOR_NEUCR  Ornithine decarboxylase OS=Neur   145.7    7.3e-39   1
+sp|P50134|DCOR_DATST  Ornithine decarboxylase OS=Datu   145.5    8.2e-39   1
+sp|P08432|DCOR_YEAST  Ornithine decarboxylase OS=Sacc   143.2      4e-38   1
+sp|Q8A2B1|SPEA_BACTN  Biosynthetic arginine decarboxy   142.0    9.1e-38   1
+sp|Q9HUX1|SPEA_PSEAE  Biosynthetic arginine decarboxy   141.0    1.9e-37   1
+sp|Q7NU27|SPEA_CHRVO  Biosynthetic arginine decarboxy   140.9      2e-37   1
+sp|O69203|DCDA_ACTPA  Diaminopimelate decarboxylase O   140.6    2.5e-37   1
+sp|Q8S3N2|DCOR_CAPAN  Ornithine decarboxylase OS=Caps   140.5    2.6e-37   1
+sp|P00861|DCDA_ECOLI  Diaminopimelate decarboxylase O   140.3    3.1e-37   1
+sp|Q7NE10|SPEA_GLOVI  Biosynthetic arginine decarboxy   140.2    3.1e-37   1
+sp|Q58497|DCDA_METJA  Diaminopimelate decarboxylase O   140.0    3.8e-37   1
+sp|Q5LIQ3|SPEA_BACFN  Biosynthetic arginine decarboxy   139.5    5.4e-37   1
+sp|Q64ZT8|SPEA_BACFR  Biosynthetic arginine decarboxy   139.5    5.4e-37   1
+sp|Q87VU3|SPEA_PSESM  Biosynthetic arginine decarboxy   138.1    1.3e-36   1
+sp|P40807|DCOR1_DROME Ornithine decarboxylase 1 OS=Dr   137.4    2.2e-36   1
+sp|B0U1H6|SPEA_XYLFM  Biosynthetic arginine decarboxy   137.4    2.3e-36   1
+sp|Q9PH02|SPEA_XYLFA  Biosynthetic arginine decarboxy   137.4    2.3e-36   1
+sp|O05321|DCDA_PSEFL  Diaminopimelate decarboxylase O   136.5    4.1e-36   1
+sp|B2I6M1|SPEA_XYLF2  Biosynthetic arginine decarboxy   136.3    4.7e-36   1
+sp|Q87F25|SPEA_XYLFT  Biosynthetic arginine decarboxy   136.3    4.7e-36   1
+sp|Q8DHY6|SPEA_THEEB  Biosynthetic arginine decarboxy   136.0    6.1e-36   1
+sp|O67262|DCDA_AQUAE  Diaminopimelate decarboxylase O   135.8    6.8e-36   1
+sp|Q88QC7|SPEA_PSEPK  Biosynthetic arginine decarboxy   134.8    1.3e-35   1
+sp|O14977|AZIN1_HUMAN Antizyme inhibitor 1 OS=Homo sa   133.2    4.2e-35   1
+sp|Q5R7K3|AZIN1_PONAB Antizyme inhibitor 1 OS=Pongo a   133.2    4.2e-35   1
+sp|O35484|AZIN1_MOUSE Antizyme inhibitor 1 OS=Mus mus   132.9    5.1e-35   1
+sp|Q50140|DCDA_MYCLE  Diaminopimelate decarboxylase O   132.9    5.2e-35   1
+sp|A6L012|SPEA_BACV8  Biosynthetic arginine decarboxy   132.8    5.5e-35   1
+sp|P19572|DCDA_PSEAE  Diaminopimelate decarboxylase O   132.5    6.8e-35   1
+sp|Q8YRP3|SPEA_ANASP  Biosynthetic arginine decarboxy   132.3    7.9e-35   1
+sp|P23630|DCDA_BACSU  Diaminopimelate decarboxylase O   131.7    1.2e-34   1
+sp|Q9ZBH5|DCDA_STRCO  Diaminopimelate decarboxylase O   130.8    2.2e-34   1
+sp|Q8K9C4|DCDA_BUCAP  Diaminopimelate decarboxylase O   130.6    2.4e-34   1
+sp|Q0ACK8|SPEA_ALHEH  Biosynthetic arginine decarboxy   130.5    2.7e-34   1
+sp|Q949X7|DCDA1_ARATH Diaminopimelate decarboxylase 1   129.2    6.8e-34   1
+sp|Q94A94|DCDA2_ARATH Diaminopimelate decarboxylase 2   128.9    8.1e-34   1
+sp|P0A5M5|DCDA_MYCBO  Diaminopimelate decarboxylase O   128.6    9.9e-34   1
+sp|P0A5M4|DCDA_MYCTU  Diaminopimelate decarboxylase O   128.6    9.9e-34   1
+sp|P41931|DCOR_CAEEL  Ornithine decarboxylase OS=Caen   127.8    1.7e-33   1
+sp|O50657|DCLO_SELRU  Lysine/ornithine decarboxylase    127.7    1.9e-33   1
+sp|Q9KVL7|DCDA_VIBCH  Diaminopimelate decarboxylase O   127.4    2.4e-33   1
+sp|Q6ZG77|DCDA_ORYSJ  Probable diaminopimelate decarb   126.9    3.1e-33   1
+sp|Q55484|DCDA_SYNY3  Diaminopimelate decarboxylase O   126.7    3.6e-33   1
+sp|Q9JXM2|DCDA_NEIMB  Diaminopimelate decarboxylase O   125.6    8.1e-33   1
+sp|Q8P448|SPEA_XANCP  Biosynthetic arginine decarboxy   125.2      1e-32   1
+sp|Q54UF3|DCOR_DICDI  Probable ornithine decarboxylas   125.0    1.2e-32   1
+sp|Q9Z661|DCDA_ZYMMO  Diaminopimelate decarboxylase O   124.9    1.3e-32   1
+sp|Q9JWA6|DCDA_NEIMA  Diaminopimelate decarboxylase O   123.9    2.6e-32   1
+sp|P40808|DCOR2_DROME Ornithine decarboxylase 2 OS=Dr   123.4    3.6e-32   1
+sp|Q8PFQ5|SPEA_XANAC  Biosynthetic arginine decarboxy   122.9    5.1e-32   1
+sp|P56129|DCDA_HELPY  Diaminopimelate decarboxylase O   122.1      9e-32   1
+sp|Q89AC6|DCDA_BUCBP  Diaminopimelate decarboxylase O   121.5    1.4e-31   1
+sp|P78599|DCOR_CANAL  Ornithine decarboxylase OS=Cand   121.5    1.4e-31   1
+sp|Q8DA54|SPEA_VIBVU  Biosynthetic arginine decarboxy   121.1    1.8e-31   1
+sp|Q7MK24|SPEA_VIBVY  Biosynthetic arginine decarboxy   121.1    1.8e-31   1
+sp|A4Y5Y9|SPEA_SHEPC  Biosynthetic arginine decarboxy   121.1    1.8e-31   1
+sp|A1RKK8|SPEA_SHESW  Biosynthetic arginine decarboxy   121.1    1.8e-31   1
+sp|P57513|DCDA_BUCAI  Diaminopimelate decarboxylase O   121.0      2e-31   1
+sp|Q9RTK2|DCDA_DEIRA  Diaminopimelate decarboxylase O   120.9    2.1e-31   1
+sp|B8CR70|SPEA_SHEPW  Biosynthetic arginine decarboxy   120.8    2.2e-31   1
+sp|A3QDD8|SPEA_SHELP  Biosynthetic arginine decarboxy   120.3    3.2e-31   1
+sp|B8EAI2|SPEA_SHEB2  Biosynthetic arginine decarboxy   119.9    4.1e-31   1
+sp|A3D3G2|SPEA_SHEB5  Biosynthetic arginine decarboxy   119.9    4.1e-31   1
+sp|A6WM65|SPEA_SHEB8  Biosynthetic arginine decarboxy   119.9    4.1e-31   1
+sp|A9KY70|SPEA_SHEB9  Biosynthetic arginine decarboxy   119.9    4.1e-31   1
+sp|P27116|DCOR_LEIDO  Ornithine decarboxylase OS=Leis   119.8    4.5e-31   1
+sp|Q083L6|SPEA_SHEFN  Biosynthetic arginine decarboxy   119.2    6.6e-31   1
+sp|Q8EFU5|SPEA_SHEON  Biosynthetic arginine decarboxy   119.1      7e-31   1
+sp|B1KRD4|SPEA_SHEWM  Biosynthetic arginine decarboxy   118.6      1e-30   1
+sp|Q7V3M9|SPEA_PROMP  Biosynthetic arginine decarboxy   118.5    1.1e-30   1
+sp|A8FWJ3|SPEA_SHESH  Biosynthetic arginine decarboxy   117.5    2.2e-30   1
+sp|Q0HJY2|SPEA_SHESM  Biosynthetic arginine decarboxy   117.3    2.5e-30   1
+sp|Q0HW78|SPEA_SHESR  Biosynthetic arginine decarboxy   117.3    2.5e-30   1
+sp|Q63764|AZIN1_RAT   Antizyme inhibitor 1 OS=Rattus    117.2    2.7e-30   1
+sp|Q9ZME5|DCDA_HELPJ  Diaminopimelate decarboxylase O   117.1    2.9e-30   1
+sp|A0KVN8|SPEA_SHESA  Biosynthetic arginine decarboxy   117.0    3.1e-30   1
+sp|Q8ZHG8|SPEA_YERPE  Biosynthetic arginine decarboxy   117.0    3.1e-30   1
+sp|B5XUB1|SPEA_KLEP3  Biosynthetic arginine decarboxy   116.8    3.5e-30   1
+sp|Q12LW6|SPEA_SHEDO  Biosynthetic arginine decarboxy   116.8    3.5e-30   1
+sp|A2BNH3|SPEA_PROMS  Biosynthetic arginine decarboxy   116.8    3.6e-30   1
+sp|Q87JS8|SPEA_VIBPA  Biosynthetic arginine decarboxy   116.7    3.8e-30   1
+sp|A8H5G3|SPEA_SHEPA  Biosynthetic arginine decarboxy   116.7    3.8e-30   1
+sp|A3PA96|SPEA_PROM0  Biosynthetic arginine decarboxy   116.6    4.1e-30   1
+sp|P41023|DCDA_BACMT  Diaminopimelate decarboxylase O   116.4    4.6e-30   1
+sp|B0TQX3|SPEA_SHEHH  Biosynthetic arginine decarboxy   116.4    4.8e-30   1
+sp|Q31DD8|SPEA_PROM9  Biosynthetic arginine decarboxy   116.4    4.8e-30   1
+sp|Q96412|SPE1_DIACA  Arginine decarboxylase OS=Diant   116.3    4.9e-30   1
+sp|A1S712|SPEA_SHEAM  Biosynthetic arginine decarboxy   116.1    5.9e-30   1
+sp|A8G243|SPEA_PROM2  Biosynthetic arginine decarboxy   115.5    8.8e-30   1
+sp|Q7VEG4|SPEA_PROMA  Biosynthetic arginine decarboxy   115.2    1.1e-29   1
+sp|C4K6F4|SPEA_HAMD5  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|B5F5L1|SPEA_SALA4  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|Q57K30|SPEA_SALCH  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|B5FUJ7|SPEA_SALDC  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|B4THH1|SPEA_SALHS  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|A9N4N1|SPEA_SALPB  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|B4TV55|SPEA_SALSV  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|P60659|SPEA_SALTY  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|P60658|SPEA_SALTI  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|B4T5J3|SPEA_SALNS  Biosynthetic arginine decarboxy   114.9    1.3e-29   1
+sp|P44316|DCDA_HAEIN  Diaminopimelate decarboxylase O   114.9    1.4e-29   1
+sp|P22220|SPE1_AVESA  Arginine decarboxylase OS=Avena   114.8    1.4e-29   1
+sp|Q9X5M1|DCDA_MYCS2  Diaminopimelate decarboxylase O   114.7    1.5e-29   1
+sp|Q9KLD1|SPEA_VIBCH  Biosynthetic arginine decarboxy   114.4    1.9e-29   1
+sp|Q8XCX9|SPEA_ECO57  Biosynthetic arginine decarboxy   114.2    2.2e-29   1
+sp|B5YQD6|SPEA_ECO5E  Biosynthetic arginine decarboxy   114.2    2.2e-29   1
+sp|Q8FE34|SPEA_ECOL6  Biosynthetic arginine decarboxy   114.2    2.2e-29   1
+sp|B1LDE8|SPEA_ECOSM  Biosynthetic arginine decarboxy   114.2    2.2e-29   1
+sp|Q0T0V3|SPEA_SHIF8  Biosynthetic arginine decarboxy   113.9    2.6e-29   1
+sp|Q83Q93|SPEA_SHIFL  Biosynthetic arginine decarboxy   113.9    2.6e-29   1
+sp|B9M6H6|SPEA_GEOSF  Biosynthetic arginine decarboxy   113.6    3.3e-29   1
+sp|P21170|SPEA_ECOLI  Biosynthetic arginine decarboxy   113.6    3.4e-29   1
+sp|B5EIW4|SPEA_GEOBB  Biosynthetic arginine decarboxy   112.8    5.7e-29   1
+sp|C6E3V4|SPEA_GEOSM  Biosynthetic arginine decarboxy   112.8    5.7e-29   1
+sp|A1AS90|SPEA_PELPD  Biosynthetic arginine decarboxy   112.3    8.2e-29   1
+sp|A2BU00|SPEA_PROM5  Biosynthetic arginine decarboxy   112.2    8.6e-29   1
+sp|Q8RQM6|DCDA_COREF  Diaminopimelate decarboxylase O   109.3    6.4e-28   1
+sp|B4F1A4|SPEA_PROMH  Biosynthetic arginine decarboxy   108.8    8.9e-28   1
+sp|P74576|SPEA1_SYNY3 Biosynthetic arginine decarboxy   108.1    1.5e-27   1
+sp|A5GB52|SPEA_GEOUR  Biosynthetic arginine decarboxy   107.3    2.6e-27   1
+sp|Q7U3S0|SPEA_SYNPX  Biosynthetic arginine decarboxy   107.1    2.9e-27   1
+sp|A0A4W3|SPEA_GEOSL  Biosynthetic arginine decarboxy   106.7    3.9e-27   1
+sp|Q39X78|SPEA_GEOMG  Biosynthetic arginine decarboxy   106.4    4.8e-27   1
+sp|A1TY02|SPEA_MARAV  Biosynthetic arginine decarboxy   106.3      5e-27   1
+sp|Q9RXR4|SPEA_DEIRA  Biosynthetic arginine decarboxy   106.0    6.4e-27   1
+sp|P09890|DCDA_CORGL  Diaminopimelate decarboxylase O   105.3      1e-26   1
+sp|O82475|SPE1_BRAJU  Arginine decarboxylase OS=Brass   104.8    1.5e-26   1
+sp|Q39827|SPE1_SOYBN  Arginine decarboxylase OS=Glyci   104.7    1.6e-26   1
+sp|Q7N121|SPEA_PHOLL  Biosynthetic arginine decarboxy   104.7    1.6e-26   1
+sp|B3EAF3|SPEA_GEOLS  Biosynthetic arginine decarboxy   104.5    1.8e-26   1
+sp|A5GWM2|SPEA_SYNR3  Biosynthetic arginine decarboxy   104.5    1.8e-26   1
+sp|Q7UTS2|SPEA_RHOBA  Biosynthetic arginine decarboxy   104.0    2.5e-26   1
+sp|Q9KCM5|DCDA_BACHD  Diaminopimelate decarboxylase O   103.8      3e-26   1
+sp|Q96A70|ADC_HUMAN   Arginine decarboxylase OS=Homo    103.7    3.1e-26   1
+sp|Q43075|SPE1_PEA    Arginine decarboxylase OS=Pisum   102.6    6.5e-26   1
+sp|P72587|SPEA2_SYNY3 Biosynthetic arginine decarboxy   100.6    2.6e-25   1
+sp|Q7TUJ9|SPEA_PROMM  Biosynthetic arginine decarboxy   100.2    3.7e-25   1
+sp|P49726|SPE1_SOLLC  Arginine decarboxylase OS=Solan    98.7      1e-24   1
+sp|Q9PII5|DCDA_CAMJE  Diaminopimelate decarboxylase O    98.5    1.1e-24   1
+sp|A2CDK1|SPEA_PROM3  Biosynthetic arginine decarboxy    98.1    1.5e-24   1
+sp|Q8BVM4|ADC_MOUSE   Antizyme inhibitor 2 OS=Mus mus    97.9    1.7e-24   1
+sp|Q9CL60|SPEA_PASMU  Biosynthetic arginine decarboxy    95.7      8e-24   1
+sp|O23141|SPE2_ARATH  Arginine decarboxylase 2 OS=Ara    94.8    1.5e-23   1
+sp|Q9SNN0|SPE1_ORYSJ  Arginine decarboxylase 1 OS=Ory    94.7    1.6e-23   1
+sp|P31851|TABA_PSESZ  Protein tabA OS=Pseudomonas syr    92.2    8.9e-23   1
+sp|Q9JT25|SPEA_NEIMA  Biosynthetic arginine decarboxy    91.8    1.2e-22   1
+sp|Q9K0U3|SPEA_NEIMB  Biosynthetic arginine decarboxy    91.8    1.2e-22   1
+sp|Q7XRA1|ADC2_ORYSJ  Arginine decarboxylase 2 OS=Ory    91.2    1.8e-22   1
+sp|Q9SI64|SPE1_ARATH  Arginine decarboxylase 1 OS=Ara    88.2    1.5e-21   1
+sp|C4L9A9|SPEA_TOLAT  Biosynthetic arginine decarboxy    87.6    2.2e-21   1
+sp|A0KIP8|SPEA_AERHH  Biosynthetic arginine decarboxy    78.4    1.3e-18   1
+sp|A4SPD6|SPEA_AERS4  Biosynthetic arginine decarboxy    73.6    3.6e-17   1
+sp|P55709|Y4YA_RHISN  Uncharacterized protein y4yA OS    23.1     0.0018   1
+sp|O81160|SPE2_THECC  Arginine decarboxylase (Fragmen    -9.6        1.1   1
+
+Parsed for domains:
+Sequence              Domain  seq-f seq-t    hmm-f hmm-t      score  E-value
+--------              ------- ----- -----    ----- -----      -----  -------
+sp|O29458|DCDA_ARCFU    1/1     285   391 ..     1   123 []   173.5    3e-47
+sp|Q9UQW9|DCOR_SCHPO    1/1     307   426 ..     1   123 []   171.6  1.2e-46
+sp|O27390|DCDA_METTH    1/1     292   398 ..     1   123 []   162.1  8.4e-44
+sp|Q9I8S4|DCOR2_XENLA   1/1     284   405 ..     1   123 []   160.6  2.3e-43
+sp|P09057|DCOR_RAT      1/1     285   408 ..     1   123 []   160.5  2.5e-43
+sp|P14019|DCOR_CRIGR    1/1     282   402 ..     1   123 []   159.9  3.8e-43
+sp|P00860|DCOR_MOUSE    1/1     285   408 ..     1   123 []   159.8  3.9e-43
+sp|P27119|DCOR_MUSPA    1/1     285   408 ..     1   123 []   159.8  3.9e-43
+sp|P27118|DCOR_CHICK    1/1     275   398 ..     1   123 []   158.8    8e-43
+sp|P27120|DCOR1_XENLA   1/1     285   409 ..     1   123 []   157.0  2.8e-42
+sp|P11926|DCOR_HUMAN    1/1     285   408 ..     1   123 []   156.9    3e-42
+sp|P27117|DCOR_BOVIN    1/1     285   408 ..     1   123 []   154.1  2.1e-41
+sp|P07805|DCOR_TRYBB    1/1     283   406 ..     1   123 []   151.2  1.6e-40
+sp|Q9X1K5|DCDA_THEMA    1/1     257   362 ..     1   123 []   150.5  2.6e-40
+sp|P49725|DCOR_PANRE    1/1     294   416 ..     1   123 []   146.6  3.7e-39
+sp|O22616|DCOR_SOLLC    1/1     308   424 ..     1   123 []   145.8  6.6e-39
+sp|P27121|DCOR_NEUCR    1/1     326   471 ..     1   123 []   145.7  7.3e-39
+sp|P50134|DCOR_DATST    1/1     308   424 ..     1   123 []   145.5  8.2e-39
+sp|P08432|DCOR_YEAST    1/1     329   460 ..     1   123 []   143.2    4e-38
+sp|Q8A2B1|SPEA_BACTN    1/1     346   558 ..     1   123 []   142.0  9.1e-38
+sp|Q9HUX1|SPEA_PSEAE    1/1     354   567 ..     1   123 []   141.0  1.9e-37
+sp|Q7NU27|SPEA_CHRVO    1/1     343   556 ..     1   123 []   140.9    2e-37
+sp|O69203|DCDA_ACTPA    1/1     309   415 ..     1   123 []   140.6  2.5e-37
+sp|Q8S3N2|DCOR_CAPAN    1/1     312   428 ..     1   123 []   140.5  2.6e-37
+sp|P00861|DCDA_ECOLI    1/1     279   397 ..     1   123 []   140.3  3.1e-37
+sp|Q7NE10|SPEA_GLOVI    1/1     346   557 ..     1   123 []   140.2  3.1e-37
+sp|Q58497|DCDA_METJA    1/1     305   410 ..     1   123 []   140.0  3.8e-37
+sp|Q5LIQ3|SPEA_BACFN    1/1     346   558 ..     1   123 []   139.5  5.4e-37
+sp|Q64ZT8|SPEA_BACFR    1/1     346   558 ..     1   123 []   139.5  5.4e-37
+sp|Q87VU3|SPEA_PSESM    1/1     354   567 ..     1   123 []   138.1  1.3e-36
+sp|P40807|DCOR1_DROME   1/1     276   391 ..     1   123 []   137.4  2.2e-36
+sp|B0U1H6|SPEA_XYLFM    1/1     343   555 ..     1   123 []   137.4  2.3e-36
+sp|Q9PH02|SPEA_XYLFA    1/1     343   555 ..     1   123 []   137.4  2.3e-36
+sp|O05321|DCDA_PSEFL    1/1     285   390 ..     1   123 []   136.5  4.1e-36
+sp|B2I6M1|SPEA_XYLF2    1/1     343   555 ..     1   123 []   136.3  4.7e-36
+sp|Q87F25|SPEA_XYLFT    1/1     343   555 ..     1   123 []   136.3  4.7e-36
+sp|Q8DHY6|SPEA_THEEB    1/1     353   564 ..     1   123 []   136.0  6.1e-36
+sp|O67262|DCDA_AQUAE    1/1     290   396 ..     1   123 []   135.8  6.8e-36
+sp|Q88QC7|SPEA_PSEPK    1/1     354   567 ..     1   123 []   134.8  1.3e-35
+sp|O14977|AZIN1_HUMAN   1/1     282   406 ..     1   123 []   133.2  4.2e-35
+sp|Q5R7K3|AZIN1_PONAB   1/1     282   406 ..     1   123 []   133.2  4.2e-35
+sp|O35484|AZIN1_MOUSE   1/1     282   406 ..     1   123 []   132.9  5.1e-35
+sp|Q50140|DCDA_MYCLE    1/1     336   449 ..     1   123 []   132.9  5.2e-35
+sp|A6L012|SPEA_BACV8    1/1     346   558 ..     1   123 []   132.8  5.5e-35
+sp|P19572|DCDA_PSEAE    1/1     284   389 ..     1   123 []   132.5  6.8e-35
+sp|Q8YRP3|SPEA_ANASP    1/1     395   606 ..     1   123 []   132.3  7.9e-35
+sp|P23630|DCDA_BACSU    1/1     301   409 ..     1   123 []   131.7  1.2e-34
+sp|Q9ZBH5|DCDA_STRCO    1/1     286   403 ..     1   123 []   130.8  2.2e-34
+sp|Q8K9C4|DCDA_BUCAP    1/1     275   393 ..     1   123 []   130.6  2.4e-34
+sp|Q0ACK8|SPEA_ALHEH    1/1     345   558 ..     1   123 []   130.5  2.7e-34
+sp|Q949X7|DCDA1_ARATH   1/1     351   459 ..     1   123 []   129.2  6.8e-34
+sp|Q94A94|DCDA2_ARATH   1/1     356   464 ..     1   123 []   128.9  8.1e-34
+sp|P0A5M5|DCDA_MYCBO    1/1     311   424 ..     1   123 []   128.6  9.9e-34
+sp|P0A5M4|DCDA_MYCTU    1/1     311   424 ..     1   123 []   128.6  9.9e-34
+sp|P41931|DCOR_CAEEL    1/1     286   407 ..     1   123 []   127.8  1.7e-33
+sp|O50657|DCLO_SELRU    1/1     266   371 ..     1   123 []   127.7  1.9e-33
+sp|Q9KVL7|DCDA_VIBCH    1/1     286   391 ..     1   123 []   127.4  2.4e-33
+sp|Q6ZG77|DCDA_ORYSJ    1/1     356   463 ..     1   123 []   126.9  3.1e-33
+sp|Q55484|DCDA_SYNY3    1/1     332   440 ..     1   123 []   126.7  3.6e-33
+sp|Q9JXM2|DCDA_NEIMB    1/1     276   381 ..     1   123 []   125.6  8.1e-33
+sp|Q8P448|SPEA_XANCP    1/1     343   555 ..     1   123 []   125.2    1e-32
+sp|Q54UF3|DCOR_DICDI    1/1     328   450 ..     1   123 []   125.0  1.2e-32
+sp|Q9Z661|DCDA_ZYMMO    1/1     289   394 ..     1   123 []   124.9  1.3e-32
+sp|Q9JWA6|DCDA_NEIMA    1/1     276   381 ..     1   123 []   123.9  2.6e-32
+sp|P40808|DCOR2_DROME   1/1     276   390 ..     1   123 []   123.4  3.6e-32
+sp|Q8PFQ5|SPEA_XANAC    1/1     343   555 ..     1   123 []   122.9  5.1e-32
+sp|P56129|DCDA_HELPY    1/1     270   377 ..     1   123 []   122.1    9e-32
+sp|Q89AC6|DCDA_BUCBP    1/1     275   393 ..     1   123 []   121.5  1.4e-31
+sp|P78599|DCOR_CANAL    1/1     324   468 ..     1   123 []   121.5  1.4e-31
+sp|Q8DA54|SPEA_VIBVU    1/1     355   571 ..     1   123 []   121.1  1.8e-31
+sp|Q7MK24|SPEA_VIBVY    1/1     354   570 ..     1   123 []   121.1  1.8e-31
+sp|A4Y5Y9|SPEA_SHEPC    1/1     350   566 ..     1   123 []   121.1  1.8e-31
+sp|A1RKK8|SPEA_SHESW    1/1     350   566 ..     1   123 []   121.1  1.8e-31
+sp|P57513|DCDA_BUCAI    1/1     275   393 ..     1   123 []   121.0    2e-31
+sp|Q9RTK2|DCDA_DEIRA    1/1     253   357 ..     1   123 []   120.9  2.1e-31
+sp|B8CR70|SPEA_SHEPW    1/1     350   566 ..     1   123 []   120.8  2.2e-31
+sp|A3QDD8|SPEA_SHELP    1/1     350   566 ..     1   123 []   120.3  3.2e-31
+sp|B8EAI2|SPEA_SHEB2    1/1     350   566 ..     1   123 []   119.9  4.1e-31
+sp|A3D3G2|SPEA_SHEB5    1/1     350   566 ..     1   123 []   119.9  4.1e-31
+sp|A6WM65|SPEA_SHEB8    1/1     350   566 ..     1   123 []   119.9  4.1e-31
+sp|A9KY70|SPEA_SHEB9    1/1     350   566 ..     1   123 []   119.9  4.1e-31
+sp|P27116|DCOR_LEIDO    1/1     509   682 ..     1   123 []   119.8  4.5e-31
+sp|Q083L6|SPEA_SHEFN    1/1     350   566 ..     1   123 []   119.2  6.6e-31
+sp|Q8EFU5|SPEA_SHEON    1/1     350   566 ..     1   123 []   119.1    7e-31
+sp|B1KRD4|SPEA_SHEWM    1/1     350   566 ..     1   123 []   118.6    1e-30
+sp|Q7V3M9|SPEA_PROMP    1/1     355   574 ..     1   123 []   118.5  1.1e-30
+sp|A8FWJ3|SPEA_SHESH    1/1     350   566 ..     1   123 []   117.5  2.2e-30
+sp|Q0HJY2|SPEA_SHESM    1/1     350   566 ..     1   123 []   117.3  2.5e-30
+sp|Q0HW78|SPEA_SHESR    1/1     350   566 ..     1   123 []   117.3  2.5e-30
+sp|Q63764|AZIN1_RAT     1/1     282   406 ..     1   123 []   117.2  2.7e-30
+sp|Q9ZME5|DCDA_HELPJ    1/1     270   377 ..     1   123 []   117.1  2.9e-30
+sp|A0KVN8|SPEA_SHESA    1/1     350   566 ..     1   123 []   117.0  3.1e-30
+sp|Q8ZHG8|SPEA_YERPE    1/1     372   588 ..     1   123 []   117.0  3.1e-30
+sp|B5XUB1|SPEA_KLEP3    1/1     345   561 ..     1   123 []   116.8  3.5e-30
+sp|Q12LW6|SPEA_SHEDO    1/1     350   566 ..     1   123 []   116.8  3.5e-30
+sp|A2BNH3|SPEA_PROMS    1/1     355   574 ..     1   123 []   116.8  3.6e-30
+sp|Q87JS8|SPEA_VIBPA    1/1     354   570 ..     1   123 []   116.7  3.8e-30
+sp|A8H5G3|SPEA_SHEPA    1/1     350   566 ..     1   123 []   116.7  3.8e-30
+sp|A3PA96|SPEA_PROM0    1/1     355   574 ..     1   123 []   116.6  4.1e-30
+sp|P41023|DCDA_BACMT    1/1     301   409 ..     1   123 []   116.4  4.6e-30
+sp|B0TQX3|SPEA_SHEHH    1/1     350   566 ..     1   123 []   116.4  4.8e-30
+sp|Q31DD8|SPEA_PROM9    1/1     355   574 ..     1   123 []   116.4  4.8e-30
+sp|Q96412|SPE1_DIACA    1/1     491   605 ..     1   123 []   116.3  4.9e-30
+sp|A1S712|SPEA_SHEAM    1/1     350   566 ..     1   123 []   116.1  5.9e-30
+sp|A8G243|SPEA_PROM2    1/1     355   574 ..     1   123 []   115.5  8.8e-30
+sp|Q7VEG4|SPEA_PROMA    1/1     355   574 ..     1   123 []   115.2  1.1e-29
+sp|C4K6F4|SPEA_HAMD5    1/1     346   562 ..     1   123 []   114.9  1.3e-29
+sp|B5F5L1|SPEA_SALA4    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|Q57K30|SPEA_SALCH    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|B5FUJ7|SPEA_SALDC    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|B4THH1|SPEA_SALHS    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|A9N4N1|SPEA_SALPB    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|B4TV55|SPEA_SALSV    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|P60659|SPEA_SALTY    1/1     371   587 ..     1   123 []   114.9  1.3e-29
+sp|P60658|SPEA_SALTI    1/1     371   587 ..     1   123 []   114.9  1.3e-29
+sp|B4T5J3|SPEA_SALNS    1/1     345   561 ..     1   123 []   114.9  1.3e-29
+sp|P44316|DCDA_HAEIN    1/1     285   391 ..     1   123 []   114.9  1.4e-29
+sp|P22220|SPE1_AVESA    1/1     355   532 ..     1   123 []   114.8  1.4e-29
+sp|Q9X5M1|DCDA_MYCS2    1/1     336   449 ..     1   123 []   114.7  1.5e-29
+sp|Q9KLD1|SPEA_VIBCH    1/1     354   570 ..     1   123 []   114.4  1.9e-29
+sp|Q8XCX9|SPEA_ECO57    1/1     371   587 ..     1   123 []   114.2  2.2e-29
+sp|B5YQD6|SPEA_ECO5E    1/1     345   561 ..     1   123 []   114.2  2.2e-29
+sp|Q8FE34|SPEA_ECOL6    1/1     371   587 ..     1   123 []   114.2  2.2e-29
+sp|B1LDE8|SPEA_ECOSM    1/1     345   561 ..     1   123 []   114.2  2.2e-29
+sp|Q0T0V3|SPEA_SHIF8    1/1     345   561 ..     1   123 []   113.9  2.6e-29
+sp|Q83Q93|SPEA_SHIFL    1/1     371   587 ..     1   123 []   113.9  2.6e-29
+sp|B9M6H6|SPEA_GEOSF    1/1     346   561 ..     1   123 []   113.6  3.3e-29
+sp|P21170|SPEA_ECOLI    1/1     371   587 ..     1   123 []   113.6  3.4e-29
+sp|B5EIW4|SPEA_GEOBB    1/1     425   561 ..     1   123 []   112.8  5.7e-29
+sp|C6E3V4|SPEA_GEOSM    1/1     425   561 ..     1   123 []   112.8  5.7e-29
+sp|A1AS90|SPEA_PELPD    1/1     425   561 ..     1   123 []   112.3  8.2e-29
+sp|A2BU00|SPEA_PROM5    1/1     355   574 ..     1   123 []   112.2  8.6e-29
+sp|Q8RQM6|DCDA_COREF    1/1     324   437 ..     1   123 []   109.3  6.4e-28
+sp|B4F1A4|SPEA_PROMH    1/1     347   563 ..     1   123 []   108.8  8.9e-28
+sp|P74576|SPEA1_SYNY3   1/1     396   615 ..     1   123 []   108.1  1.5e-27
+sp|A5GB52|SPEA_GEOUR    1/1     346   561 ..     1   123 []   107.3  2.6e-27
+sp|Q7U3S0|SPEA_SYNPX    1/1     351   570 ..     1   123 []   107.1  2.9e-27
+sp|A0A4W3|SPEA_GEOSL    1/1     425   561 ..     1   123 []   106.7  3.9e-27
+sp|Q39X78|SPEA_GEOMG    1/1     425   561 ..     1   123 []   106.4  4.8e-27
+sp|A1TY02|SPEA_MARAV    1/1     350   566 ..     1   123 []   106.3    5e-27
+sp|Q9RXR4|SPEA_DEIRA    1/1     372   586 ..     1   123 []   106.0  6.4e-27
+sp|P09890|DCDA_CORGL    1/1     310   423 ..     1   123 []   105.3    1e-26
+sp|O82475|SPE1_BRAJU    1/1     390   585 ..     1   123 []   104.8  1.5e-26
+sp|Q39827|SPE1_SOYBN    1/1     401   596 ..     1   123 []   104.7  1.6e-26
+sp|Q7N121|SPEA_PHOLL    1/1     347   563 ..     1   123 []   104.7  1.6e-26
+sp|B3EAF3|SPEA_GEOLS    1/1     346   561 ..     1   123 []   104.5  1.8e-26
+sp|A5GWM2|SPEA_SYNR3    1/1     355   566 ..     1   123 []   104.5  1.8e-26
+sp|Q7UTS2|SPEA_RHOBA    1/1     460   592 ..     1   123 []   104.0  2.5e-26
+sp|Q9KCM5|DCDA_BACHD    1/1     301   409 ..     1   123 []   103.8    3e-26
+sp|Q96A70|ADC_HUMAN     1/1     286   409 ..     1   123 []   103.7  3.1e-26
+sp|Q43075|SPE1_PEA      1/1     494   609 ..     1   123 []   102.6  6.5e-26
+sp|P72587|SPEA2_SYNY3   1/1     375   587 ..     1   123 []   100.6  2.6e-25
+sp|Q7TUJ9|SPEA_PROMM    1/1     355   574 ..     1   123 []   100.2  3.7e-25
+sp|P49726|SPE1_SOLLC    1/1     291   492 ..     1   123 []    98.7    1e-24
+sp|Q9PII5|DCDA_CAMJE    1/1     270   375 ..     1   123 []    98.5  1.1e-24
+sp|A2CDK1|SPEA_PROM3    1/1     355   574 ..     1   123 []    98.1  1.5e-24
+sp|Q8BVM4|ADC_MOUSE     1/1     286   408 ..     1   123 []    97.9  1.7e-24
+sp|Q9CL60|SPEA_PASMU    1/1     357   573 ..     1   123 []    95.7    8e-24
+sp|O23141|SPE2_ARATH    1/1     481   596 ..     1   123 []    94.8  1.5e-23
+sp|Q9SNN0|SPE1_ORYSJ    1/1     401   598 ..     1   123 []    94.7  1.6e-23
+sp|P31851|TABA_PSESZ    1/1     278   383 ..     1   123 []    92.2  8.9e-23
+sp|Q9JT25|SPEA_NEIMA    1/1     343   559 ..     1   123 []    91.8  1.2e-22
+sp|Q9K0U3|SPEA_NEIMB    1/1     343   559 ..     1   123 []    91.8  1.2e-22
+sp|Q7XRA1|ADC2_ORYSJ    1/1     381   547 ..     1   123 []    91.2  1.8e-22
+sp|Q9SI64|SPE1_ARATH    1/1     385   584 ..     1   123 []    88.2  1.5e-21
+sp|C4L9A9|SPEA_TOLAT    1/1     433   566 ..     1   123 []    87.6  2.2e-21
+sp|A0KIP8|SPEA_AERHH    1/1     348   564 ..     1   123 []    78.4  1.3e-18
+sp|A4SPD6|SPEA_AERS4    1/1     348   564 ..     1   123 []    73.6  3.6e-17
+sp|P55709|Y4YA_RHISN    1/1     324   439 ..     1   123 []    23.1   0.0018
+sp|O81160|SPE2_THECC    1/1     341   406 .]     1   123 []    -9.6      1.1
+
+Alignments of top-scoring domains:
+sp|O29458|DCDA_ARCFU: domain 1 of 1, from 285 to 391: score 173.5, E = 3e-47
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V +vk+ g+ +         fv+ +d+G++ + ++pa+y+ +
+  sp|O29458|   285    VLITRVNAVKK-GY-KN--------FVA-VDAGFNVL-IRPAMYGSY 319  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h++++ +++d+ep+e++t++GP+C+sgDvlar d++LP   ++evGDl++
+  sp|O29458|   320 HRVAVANKMDAEPEEVYTVVGPICESGDVLAR-DRKLP---KVEVGDLIA 365  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +fdaGAY+++++s++Ng+pr+aeVlv   
+  sp|O29458|   366 VFDAGAYGFVMSSQYNGRPRCAEVLV    391  
+
+sp|Q9UQW9|DCOR_SCHPO: domain 1 of 1, from 307 to 426: score 171.6, E = 1.2e-46
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      tL++nVi+++++++++k         +yy++dGvygs ++++l+d++
+  sp|Q9UQW9|   307    TLAVNVIAKRKLDDEEK--------VMYYVNDGVYGS-LNCILFDHQ 344  
+
+                CS --EEECSS         -TTSSEEEEEEE-----TT--SEE.EEEEE...
+                   hpilpvsr.........ldeeptepvtlaGPtCdsgDvlarFdvsLPlHl
+                   hp++ v + +++   ++l ++  +++ ++GPtCds+Dv+a+ d +LP   
+  sp|Q9UQW9|   345 HPVARVLKcgsrfvyndLVGTGQHRCFIWGPTCDSLDVIAN-DAHLPY-- 391  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   el+vGD+++f+daGAYt ++as+FNgf+   +V++   
+  sp|Q9UQW9|   392 ELNVGDWIYFEDAGAYTVAAASCFNGFKTSRIVYL    426  
+
+sp|O27390|DCDA_METTH: domain 1 of 1, from 292 to 398: score 162.1, E = 8.4e-44
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V ++ke ++ rk        f++ +d+G++++ ++pa+y+ +
+  sp|O27390|   292    YLLTRVNTIKE-SY-RK--------FAG-VDAGFNTL-LRPAMYGSY 326  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+il+ +r+ +ep e+ ++aG+ C+sgD +ar d++LP   e+++GD l+
+  sp|O27390|   327 HHILVAERPLDEPSEKMDVAGNVCESGDLFAR-DRQLP---EINEGDVLA 372  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +++aGAY +s++s++N++prpaeVlv   
+  sp|O27390|   373 IMNAGAYSFSMSSQYNSRPRPAEVLV    398  
+
+sp|Q9I8S4|DCOR2_XENLA: domain 1 of 1, from 284 to 405: score 160.6, E = 2.3e-43
+                CS    EEEEEEEEEEE--S          S-E........EEEEES----S-
+                   *->tLvtnVigvkergg..........drkldlnerlafvyylddGvygs
+                      +L++nVi++ke++ + ++++++++ +         ++yy++dGvygs
+  sp|Q9I8S4|   284    SLAVNVIAKKEVEHsvsddeenesSKS--------IMYYVNDGVYGS 322  
+
+                CS .-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEEE
+                   lpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsLP
+                    +++  +d+ hp +++++++ +++p+++++l+GPtCd++D +a+  v+LP
+  sp|Q9I8S4|   323 -FNCLVFDHAHPKPILHKkpSPDQPLYTSSLWGPTCDGLDQIAE-RVQLP 370  
+
+                CS ...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   lHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                      el+vGD+l+f+++GAYt++++snFNgf++ ++ +    
+  sp|Q9I8S4|   371 ---ELHVGDWLLFENMGAYTIAASSNFNGFQQSPVHYA    405  
+
+sp|P09057|DCOR_RAT: domain 1 of 1, from 285 to 408: score 160.5, E = 2.5e-43
+                CS    EEEEEEEEEEE--S     S-E.. ......EEEEES----S-.-CH
+                   *->tLvtnVigvkergg.....drkld.lnerlafvyylddGvygslpdp
+                      tL++n+i++k++  +++++d+  d+ ne++ ++y ++dGvygs +++
+  sp|P09057|   285    TLAVNIIAKKTVWKeqtgsDDE-DeSNEQTLMYY-VNDGVYGS-FNC 328  
+
+                CS HHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEEE...-
+                   alydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsLPlHle
+                   +lyd+ h  ++++++++++e+ ++++++GPtCd++D + +  +sLP   e
+  sp|P09057|   329 ILYDHAHVKALLQKrpKPDEKYYSSSIWGPTCDGLDRIVE-RCSLP---E 374  
+
+                CS -----EEEES-----SGCC-B-TTT--.-EEEEE   
+                   levGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++vGD+++f+++GAYt ++as+FNgf+rp++++v   
+  sp|P09057|   375 MHVGDWMLFENMGAYTVAAASTFNGFQRPNIYYV    408  
+
+sp|P14019|DCOR_CRIGR: domain 1 of 1, from 282 to 402: score 159.9, E = 3.8e-43
+                CS    EEEEEEEEEEE--S         S-E........EEEEES----S-.
+                   *->tLvtnVigvkergg.........drkldlnerlafvyylddGvygsl
+                      tL++n+i++k ++ ++++++++++++        f+yy++dGvygs 
+  sp|P14019|   282    TLAVNIIAKKIVSKgsddedessEQT--------FMYYVNDGVYGS- 319  
+
+                CS -CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEEE.
+                   pdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsLPl
+                   ++++lyd+ h  ++++++++++e+ ++++++GPtCd++D + +  + LP 
+  sp|P14019|   320 FNCILYDHAHVKPLLPKrpKPDEKYYSSSIWGPTCDGLDRIVE-RCNLP- 367  
+
+                CS ..------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   HlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                     e++vGD+++f+++GAYt ++as+FNgf+rp++++v   
+  sp|P14019|   368 --EMHVGDWMLFENMGAYTVAAASTFNGFQRPSIYYV    402  
+
+sp|P00860|DCOR_MOUSE: domain 1 of 1, from 285 to 408: score 159.8, E = 3.9e-43
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      tL++n+i++k++  +++++++++++++++        f+yy++dGvy
+  sp|P00860|   285    TLAVNIIAKKTVWKeqpgsddedesnEQT--------FMYYVNDGVY 323  
+
+                CS S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEE
+                   gslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvs
+                   gs ++++lyd+ h  ++++++++++e+ ++++++GPtCd++D + +  + 
+  sp|P00860|   324 GS-FNCILYDHAHVKALLQKrpKPDEKYYSSSIWGPTCDGLDRIVE-RCN 371  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   LP   e++vGD+++f+++GAYt ++as+FNgf+rp++++v   
+  sp|P00860|   372 LP---EMHVGDWMLFENMGAYTVAAASTFNGFQRPNIYYV    408  
+
+sp|P27119|DCOR_MUSPA: domain 1 of 1, from 285 to 408: score 159.8, E = 3.9e-43
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      tL++n+i++k++  +++++++++++++++        f+yy++dGvy
+  sp|P27119|   285    TLAVNIIAKKTVWKeqpgsddedesnEQT--------FMYYVNDGVY 323  
+
+                CS S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEE
+                   gslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvs
+                   gs ++++lyd+ h  ++++++++++e+ ++++++GPtCd++D + +  + 
+  sp|P27119|   324 GS-FNCILYDHAHVKALLQKrpKPDEKYYSSSIWGPTCDGLDRIVE-RCN 371  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   LP   e++vGD+++f+++GAYt ++as+FNgf+rp++++v   
+  sp|P27119|   372 LP---EMHVGDWMLFENMGAYTVAAASTFNGFQRPNIYYV    408  
+
+sp|P27118|DCOR_CHICK: domain 1 of 1, from 275 to 398: score 158.8, E = 8e-43
+                CS    EEEEEEEEEEE--S        S-E........EEEEES----S-.-
+                   *->tLvtnVigvkergg........drkldlnerlafvyylddGvygslp
+                      tL++n+i++k ++ ++++++++d++   n+++ ++y ++dGvygs +
+  sp|P27118|   275    TLAVNIIAKKIVSKeqtgsddeDDV---NDKTLMYY-VNDGVYGS-F 316  
+
+                CS CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEEE..
+                   dpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsLPlH
+                   +++lyd+ h  +++++++++++ +++++++GPtCd++D + +  + +P  
+  sp|P27118|   317 NCILYDHAHVKPVLQKrpKPDDGCYSCSIWGPTCDGLDRIVE-RCNMP-- 363  
+
+                CS .------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                    el+vGD+++f+++GAYt ++as+FNgf+rp + +v   
+  sp|P27118|   364 -ELQVGDWILFENMGAYTVAAASTFNGFQRPTIHYV    398  
+
+sp|P27120|DCOR1_XENLA: domain 1 of 1, from 285 to 409: score 157.0, E = 2.8e-42
+                CS    EEEEEEEEEEE--S      S-E.. ......EEEEES----S-.-C
+                   *->tLvtnVigvkergg......drkld.lnerlafvyylddGvygslpd
+                      tL++n+i++k++  ++++++d+  d  n+++ ++y ++dGvygs ++
+  sp|P27120|   285    TLAVNIIAKKVMVNeqsgsdDEE-DaANDKTLMYY-VNDGVYGS-FN 328  
+
+                CS HHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEEE...
+                   palydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsLPlHl
+                   ++l+d+ h  +++ ++++++e+ ++++++GPtCd++D + +  ++LP   
+  sp|P27120|   329 CILFDHAHVKPVLTKkpKPDEKFYSSSIWGPTCDGLDRIVE-RFELP--- 374  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   el+vGD+++f+++GAYt ++as+FNgf+rp  ++v   
+  sp|P27120|   375 ELQVGDWMLFENMGAYTVAAASTFNGFQRPTLYYV    409  
+
+sp|P11926|DCOR_HUMAN: domain 1 of 1, from 285 to 408: score 156.9, E = 3e-42
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      tL++n+i++k +  +++++++++++++++        f+yy++dGvy
+  sp|P11926|   285    TLAVNIIAKKIVLKeqtgsddedessEQT--------FMYYVNDGVY 323  
+
+                CS S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEE
+                   gslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvs
+                   gs ++++lyd+ h  ++++++++++e+ ++++++GPtCd++D + +  + 
+  sp|P11926|   324 GS-FNCILYDHAHVKPLLQKrpKPDEKYYSSSIWGPTCDGLDRIVE-RCD 371  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   LP   e++vGD+++f+++GAYt ++as+FNgf+rp +++v   
+  sp|P11926|   372 LP---EMHVGDWMLFENMGAYTVAAASTFNGFQRPTIYYV    408  
+
+sp|P27117|DCOR_BOVIN: domain 1 of 1, from 285 to 408: score 154.1, E = 2.1e-41
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      tL++n+i++k +  ++++++++++++dr+        f+yy++dGvy
+  sp|P27117|   285    TLAVNIIAKKLVLKeqtgsddeeestDRT--------FMYYVNDGVY 323  
+
+                CS S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEE
+                   gslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvs
+                   gs ++++lyd+ h  ++++++++++e+ ++++++GPtCd++D + +  + 
+  sp|P27117|   324 GS-FNCILYDHAHVKPLLQKrpKPDEKYYSSSIWGPTCDGLDRIVE-RCN 371  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   LP   e++vGD+++f+++GAYt ++as+FNgf+rp +++v   
+  sp|P27117|   372 LP---EMHVGDWMLFENMGAYTVAAASTFNGFQRPTIYYV    408  
+
+sp|P07805|DCOR_TRYBB: domain 1 of 1, from 283 to 406: score 151.2, E = 1.6e-40
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      tL++nVi++k+ +g +++ + + +++++         f+yy++dGvy
+  sp|P07805|   283    TLAVNVIAKKVTPGvqtdvgahaesnAQS--------FMYYVNDGVY 321  
+
+                CS S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEE
+                   gslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvs
+                   gs ++++lyd+    ++ +r++ ++e+++p++++GPtCd++D + +  ++
+  sp|P07805|   322 GS-FNCILYDHAVVRPLPQRepIPNEKLYPSSVWGPTCDGLDQIVE-RYY 369  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   LP   e++vG++l+f+d+GAYt + +s FNgf+ p +++v   
+  sp|P07805|   370 LP---EMQVGEWLLFEDMGAYTVVGTSSFNGFQSPTIYYV    406  
+
+sp|Q9X1K5|DCDA_THEMA: domain 1 of 1, from 257 to 362: score 150.5, E = 2.6e-40
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+ +V+ vk+r+  +         fv+ +d+G++ + ++paly a+
+  sp|Q9X1K5|   257    YLLLRVVLVKRRHN-KA--------FVV-VDGGMNVL-IRPALYSAY 292  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+i ++    ++++ +++++GP+C+sgDv+a  d++LP   e+e+GD+++
+  sp|Q9X1K5|   293 HRIFVLG--KQGKEMRADVVGPLCESGDVIAY-DRELP---EVEPGDIIA 336  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +++aGAY++++++n+N+  rpaeVlv   
+  sp|Q9X1K5|   337 VENAGAYGYTMSNNYNSTTRPAEVLV    362  
+
+sp|P49725|DCOR_PANRE: domain 1 of 1, from 294 to 416: score 146.6, E = 3.7e-39
+                CS    EEEEEEEEEEE--S       S-E........EEEEES----S-.-C
+                   *->tLvtnVigvkergg.......drkldlnerlafvyylddGvygslpd
+                      ++ tnVi+  +++ ++ +++ d++   n+  +++y ++dGvygs ++
+  sp|P49725|   294    SVTTNVIASVKVPAsritekaDDV---NRDGYMYY-MNDGVYGS-FN 335  
+
+                CS HHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEEE...
+                   palydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsLPlHl
+                   + l+d+++p     ++++++ep++pv+++GPtCd++D + +    +P   
+  sp|P49725|   336 CKLFDHYQPRGMPLAehDADEPRFPVCVWGPTCDGLDQVEE-SSVMP--- 381  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   +l +GD+l+++d+GAYt+++as+FNgf  p+++++   
+  sp|P49725|   382 RLYEGDWLYYPDMGAYTSVAASTFNGFDKPKTYYF    416  
+
+sp|O22616|DCOR_SOLLC: domain 1 of 1, from 308 to 424: score 145.8, E = 6.6e-39
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS- 
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalyda.
+                      tL+t++ig+++rg+  k         ++ ++dG+ygs ++++lyd+ 
+  sp|O22616|   308    TLATTIIGKRVRGE-LK--------EYW-INDGLYGS-MNCVLYDHa 343  
+
+                CS    ---EEECSS     -TTSSEEEEEEE-----TT--SEE.EEEEE...
+                   ...lhpilpvsr.....ldeeptepvtlaGPtCdsgDvlarFdvsLPlHl
+                   + +  p ++ s++++ +  +++t+p+t++GPtCd++D++ r d++LP   
+  sp|O22616|   344 tvtATPLACMSNrnnlnCGGSKTFPSTVFGPTCDALDTVLR-DYQLP--- 389  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   el+v+D+l+f+++GAYt +++snFNgf   a+V     
+  sp|O22616|   390 ELQVNDWLIFPNMGAYTKAAGSNFNGFNTSAIVTH    424  
+
+sp|P27121|DCOR_NEUCR: domain 1 of 1, from 326 to 471: score 145.7, E = 7.3e-39
+                CS    EEEEEEEEEEE--S             S-E.. ......EEEEES--
+                   *->tLvtnVigvkergg.............drkld.lnerlafvyylddG
+                      tL++n+i+++++ +++  + +++++ +d+ + +++++ ++vy ++dG
+  sp|P27121|   326    TLACNIIARRTIQDgsavsvsdsssmsDDGSVnNGDARYMVY-VNDG 371  
+
+                CS --S-.-CHHHHS----EEECSS              -TTSSEEEEEEE--
+                   vygslpdpalydalhpilpvsr..............ldeeptepvtlaGP
+                   +yg+ ++++++d++hp++ + r ++++  ++   ++  +e + +++++GP
+  sp|P27121|   372 LYGN-FSSIMFDHQHPVAKILRaggrtmynsvaaheSSAEDAIEYSIWGP 420  
+
+                CS ---TT--SEE.EEEEE...------EEEES-----SGCC-B-TTT--.-E
+                   tCdsgDvlarFdvsLPlHlelevGDllvffdaGAYteslasnFNgfprpa
+                   tCd+ D + +  + + +   l+vGD+l+f+d+GAYt + a++FNgf    
+  sp|P27121|   421 TCDGIDRITE-SIRFRE--ILDVGDWLYFEDMGAYTKCSATTFNGFSNEH 467  
+
+                CS EEEE   
+                   eVlv<-*
+                    V++   
+  sp|P27121|   468 DVIY    471  
+
+sp|P50134|DCOR_DATST: domain 1 of 1, from 308 to 424: score 145.5, E = 8.2e-39
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS- 
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalyda.
+                      tL+t++ig+++rg  +           y+++dG+ygs ++++lyd+ 
+  sp|P50134|   308    TLATTIIGKRVRG--EL--------REYWINDGLYGS-MNCVLYDHa 343  
+
+                CS    ---EEECSS     -TTSSEEEEEEE-----TT--SEE.EEEEE...
+                   ...lhpilpvsr.....ldeeptepvtlaGPtCdsgDvlarFdvsLPlHl
+                   + +  p ++ s++++ +  +++t+p+t++GPtCd++D++ r d++LP   
+  sp|P50134|   344 tvnATPLACMSNrsnlnCGGSKTFPSTVFGPTCDALDTVLR-DYQLP--- 389  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   el+v+D+l+f+++GAYt +++snFNgf   a+V     
+  sp|P50134|   390 ELQVNDWLIFPNMGAYTKAAGSNFNGFNTSAIVTH    424  
+
+sp|P08432|DCOR_YEAST: domain 1 of 1, from 329 to 460: score 143.2, E = 4e-38
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      tL+++Vi+++++++++         ++y ++dGvyg+ ++++l+d++
+  sp|P08432|   329    TLASHVIAKRKLSENEA--------MIY-TNDGVYGN-MNCILFDHQ 365  
+
+                CS --EEECSS                      -TTSSEEEEEEE-----TT-
+                   hpilpvsr......................ldeeptepvtlaGPtCdsgD
+                    p + + +++ + + ++ ++++   ++ ++ ++e  ++v+++GPtCd++D
+  sp|P08432|   366 EPHPRTLYhnlefhyddfesttavldsinkTRSEYPYKVSIWGPTCDGLD 415  
+
+                CS -SEE.EEEEE...------EEEES-----SGCC-B-TTT--.-EEEEE  
+                   vlarFdvsLPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-
+                   ++a+ ++++ +  ++ vGD+ +f+  GAYt+s+a++FNgf+++a +++  
+  sp|P08432|   416 CIAK-EYYMKH--DVIVGDWFYFPALGAYTSSAATQFNGFEQTADIVY   460  
+
+                CS  
+                   *
+                    
+  sp|P08432|     -   -    
+
+sp|Q8A2B1|SPEA_BACTN: domain 1 of 1, from 346 to 558: score 142.0, E = 9.1e-38
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++V+ + ++++ +++++  ++ ++  ++  +  ++ ++++  + 
+  sp|Q8A2B1|   346    VLIFEVLETATLPEwddeeeiapdahelvqelysiwdslnqnkmlea 392  
+
+                CS                                                  S
+                   .................................................d
+                    ++ ++ +++  +  +++  + +++ + ++   + +++ ++  ++ ++ +
+  sp|Q8A2B1|   393 whdaqqireealdlfshgivdlktraqierlywsitreinqiagglkhaP 442  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   + +++l++ la+ y++++++++slpd++++d+++pi+p++rlde p++++
+  sp|Q8A2B1|   443 DEFRgLSKLLADKYFCNFSLFQSLPDSWAIDQIFPIMPIQRLDEKPERSA 492  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   tl + tCds++++a+F ++++   +LP+H+l+  + ++l++f++GAY+e+
+  sp|Q8A2B1|   493 TLQDITCDSDGKIANFistrnvAHYLPVHsLKKTEPYYLAVFLVGAYQEI 542  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++++N+f++++ V+v   
+  sp|Q8A2B1|   543 LGDMHNLFGDTNAVHV    558  
+
+sp|Q9HUX1|SPEA_PSEAE: domain 1 of 1, from 354 to 567: score 141.0, E = 1.9e-37
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t+V++v + +++ ++  + +++++  +   +  ++++ +  +++
+  sp|Q9HUX1|   354    VLITQVTDVERHNDdvpkivdldeqpeivrwlaellgptdaemvtet 400  
+
+                CS                                                   
+                   ..................................................
+                     + ++  ++   +  +++ +  ++   ++      ++ +++ + +++++
+  sp|Q9HUX1|   401 ywrathyigdaaaqyadgkislaqkalaeqcyfaicrrlhnqlkarqrsh 450  
+
+                CS S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEE
+                   drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptep
+                   +++ld+ln++la+ y+++++v++slpd+++++++ pilp++rl eep+++
+  sp|Q9HUX1|   451 RQVLDeLNDKLADKYICNFSVFQSLPDTWAIGQVLPILPLHRLGEEPDRR 500  
+
+                CS EEEE-----TT--SEE.      EEEEE.. .------EEEES-----SG
+                   vtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYte
+                   ++l + tCds++++ ++ ++++ + sLP+H+++  +++l+++f++GAY+e
+  sp|Q9HUX1|   501 AVLQDLTCDSDGKITQYvdeqsiETSLPVHeVKEGEDYLIGVFLVGAYQE 550  
+
+                CS CC-B-TTT--.-EEEEE   
+                   slasnFNgfprpaeVlv<-*
+                   +l++++N+f++++ V v   
+  sp|Q9HUX1|   551 ILGDMHNLFGDTDSVNV    567  
+
+sp|Q7NU27|SPEA_CHRVO: domain 1 of 1, from 343 to 556: score 140.9, E = 2e-37
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV++v +++++  + ++ ++ + + ++  +  + ++++  ++ 
+  sp|Q7NU27|   343    VLLMNVTDVERLPDtvapidkaeelslplrklvelanlndeelvtei 389  
+
+                CS                                                   
+                   ..................................................
+                     + ++  ++ ++   +++ + +++   ++ + +  ++ +++ + +++++
+  sp|Q7NU27|   390 yyrashcvsevsemyaegrlslqekalaedlhatlcrrlhnqlqasqrsq 439  
+
+                CS S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEE
+                   drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptep
+                   ++++d+l++rla+ y+++++v++slpd++++d++ pi+pv+rl+e+pt++
+  sp|Q7NU27|   440 RQVYDeLTDRLADKYFCNFSVFQSLPDTWAIDQVLPIMPVHRLAEQPTRR 489  
+
+                CS EEEE-----TT--SEE.      EEEEE.. .------EEEES-----SG
+                   vtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYte
+                   ++l + tCds+++l ++ ++++ + s+ +H+++    +l+++f++GAY+e
+  sp|Q7NU27|   490 AVLQDLTCDSDGKLKQYvdqqsiESSMSVHeVKQGDEYLIAVFLVGAYQE 539  
+
+                CS CC-B-TTT--.-EEEEE   
+                   slasnFNgfprpaeVlv<-*
+                   +l++++N+f++++ V v   
+  sp|Q7NU27|   540 ILGDMHNLFGDTDSVNV    556  
+
+sp|O69203|DCDA_ACTPA: domain 1 of 1, from 309 to 415: score 140.6, E = 2.5e-37
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      + +++V +vk+ g +r+        fv+ +d+G++++ p+paly+ +
+  sp|O69203|   309    VTLYRVAAVKR-GVRRV--------FVA-VDGGMSDN-PRPALYGSR 344  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   + +++v+  ++++++pvt++G++C++gDvla+ dv+LP+  ++++GDll+
+  sp|O69203|   345 YAVRLVR--RGGRRAPVTVVGRHCEAGDVLAE-DVPLPE--DVRAGDLLA 389  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++ +GAY+++lasn+N ++rp++V v   
+  sp|O69203|   390 VPVTGAYHHALASNYNAVGRPPVVGV    415  
+
+sp|Q8S3N2|DCOR_CAPAN: domain 1 of 1, from 312 to 428: score 140.5, E = 2.6e-37
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS- 
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalyda.
+                      tL+t++ig+++rg  +           y+++dG+ygs ++++lyd+ 
+  sp|Q8S3N2|   312    TLATTIIGKRVRG--DL--------REYWINDGLYGS-MNCVLYDHa 347  
+
+                CS    ---EEECSS     -TTSSEEEEEEE-----TT--SEE.EEEEE...
+                   ...lhpilpvsr.....ldeeptepvtlaGPtCdsgDvlarFdvsLPlHl
+                   + +  p ++ s++ + +  +++ +p+t++GPtCd++D++ r d++ P   
+  sp|Q8S3N2|   348 tvtATPLACMSNrvnlnCSGSKMFPSTIFGPTCDALDTVLR-DYHVP--- 393  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   el+v+D+++f+++GAYt +++snFNgf   a+V     
+  sp|Q8S3N2|   394 ELQVNDWVIFPNMGAYTKAAGSNFNGFNTSAIVTH    428  
+
+sp|P00861|DCDA_ECOLI: domain 1 of 1, from 279 to 397: score 140.3, E = 3.1e-37
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V +vk +g  r         fv  +d+G++++ ++pa+y+ +
+  sp|P00861|   279    VLITQVRSVKQMGS-RH--------FVL-VDAGFNDL-MRPAMYGSY 314  
+
+                CS --EEECSS    -TTSSEEEEEEE-----TT--S       EE.EEEEE.
+                   hpilpvsr....ldeeptepvtlaGPtCdsgDvl.......arFdvsLPl
+                   h+i  + +++++l+ +pt+++++aGP+C+sgDv++++++++ + +++LP 
+  sp|P00861|   315 HHISALAAdgrsLEHAPTVETVVAGPLCESGDVFtqqeggnVE-TRALP- 362  
+
+                CS ..------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   HlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                     e+++GD+lv +d+GAY+ s++sn+N++p+ +eVl+   
+  sp|P00861|   363 --EVKAGDYLVLHDTGAYGASMSSNYNSRPLLPEVLF    397  
+
+sp|Q7NE10|SPEA_GLOVI: domain 1 of 1, from 346 to 557: score 140.2, E = 3.1e-37
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+ V+gv+++  ++++++ +++++  ++  ++ ++ ++++ ++  
+  sp|Q7NE10|   346    VLVFDVMGVSHLQFgepepparnehsiirnlyetytqitpdnvqeaf 392  
+
+                CS                                                 S-
+                   ................................................dr
+                   ++ ++ +++  +    +  + +++ + ++   +  ++  +  ++ +  ++
+  sp|Q7NE10|   393 ndasqfkeealslfalgylglgeraraerlywgccekilnlvreldyiPD 442  
+
+                CS E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEE
+                   kld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvt
+                    l++l++++a +yy++++v++s pd++++d+l+pi+p++rldeep ++ t
+  sp|Q7NE10|   443 ELAdLEKNMASTYYCNFSVFQSAPDSWAIDQLFPIMPIHRLDEEPKARGT 492  
+
+                CS EE-----TT--SEE.      EEEEE.. .------EEEES-----SGCC
+                   laGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtesl
+                   la+ tCds++++++F + ++ +  L lH++++e+ ++l++f+ GAY+e+l
+  sp|Q7NE10|   493 LADLTCDSDGKIDQFidlrdvKGVLELHpVRPEEPYYLGMFLNGAYQEIL 542  
+
+                CS -B-TTT--.-EEEEE   
+                   asnFNgfprpaeVlv<-*
+                   ++++N+f+++++V++   
+  sp|Q7NE10|   543 GDMHNLFGDTNTVHI    557  
+
+sp|Q58497|DCDA_METJA: domain 1 of 1, from 305 to 410: score 140.0, E = 3.8e-37
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+ +V+++ke +   k        +v  +d+G+++  ++pa+y+a+
+  sp|Q58497|   305    YLLGKVHHIKETPV-TK--------WVM-IDAGMNDM-MRPAMYEAY 340  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+i+ +      + e+v++aG +C+s Dv++r d++L+   ++evGD l+
+  sp|Q58497|   341 HHIINCK--VKNEKEVVSIAGGLCESSDVFGR-DRELD---KVEVGDVLA 384  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +fd+GAY++s+a+n+N ++rp  Vl    
+  sp|Q58497|   385 IFDVGAYGISMANNYNARGRPRMVLT    410  
+
+sp|Q5LIQ3|SPEA_BACFN: domain 1 of 1, from 346 to 558: score 139.5, E = 5.4e-37
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++V+ + +++  +++++  ++ ++  ++  +  ++ ++++  + 
+  sp|Q5LIQ3|   346    VLIFEVLETATLPQwddeeeiapdahelvqelygiwdtlnqnkmlea 392  
+
+                CS                                                  S
+                   .................................................d
+                    ++ ++ +++  +  +++  + +++ + ++   + +++ ++  ++ ++ +
+  sp|Q5LIQ3|   393 whdaqqireealdlfshgivdlktraqierlywsitreinqiagglkhaP 442  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   + +++l++ la+ y++++++++slpd++++d+++pi+p++rlde p++++
+  sp|Q5LIQ3|   443 DEFRgLSKLLADKYFCNFSLFQSLPDSWAIDQIFPIMPIQRLDEKPDRSA 492  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   tl + tCds++++a+F ++++   ++P+H+l+ ++ +++++f++GAY+e+
+  sp|Q5LIQ3|   493 TLQDITCDSDGKIANFistrnvAHYMPVHsLKQKEPYYVAVFLVGAYQEI 542  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++++N+f++++ V+v   
+  sp|Q5LIQ3|   543 LGDMHNLFGDTNAVHV    558  
+
+sp|Q64ZT8|SPEA_BACFR: domain 1 of 1, from 346 to 558: score 139.5, E = 5.4e-37
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++V+ + +++  +++++  ++ ++  ++  +  ++ ++++  + 
+  sp|Q64ZT8|   346    VLIFEVLETATLPQwddeeeiapdahelvqelygiwdtlnqnkmlea 392  
+
+                CS                                                  S
+                   .................................................d
+                    ++ ++ +++  +  +++  + +++ + ++   + +++ ++  ++ ++ +
+  sp|Q64ZT8|   393 whdaqqireealdlfshgivdlktraqierlywsitreinqiagglkhaP 442  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   + +++l++ la+ y++++++++slpd++++d+++pi+p++rlde p++++
+  sp|Q64ZT8|   443 DEFRgLSKLLADKYFCNFSLFQSLPDSWAIDQIFPIMPIQRLDEKPDRSA 492  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   tl + tCds++++a+F ++++   ++P+H+l+ ++ +++++f++GAY+e+
+  sp|Q64ZT8|   493 TLQDITCDSDGKIANFistrnvAHYMPVHsLKQKEPYYVAVFLVGAYQEI 542  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++++N+f++++ V+v   
+  sp|Q64ZT8|   543 LGDMHNLFGDTNAVHV    558  
+
+sp|Q87VU3|SPEA_PSESM: domain 1 of 1, from 354 to 567: score 138.1, E = 1.3e-36
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv++V++v + +++ ++  ++++ +++ +   +  ++++ +  +++
+  sp|Q87VU3|   354    MLVVQVTDVEKHNDevpkiadkeslpetvqwlvdllgptdiemvtet 400  
+
+                CS                                                   
+                   ..................................................
+                     + ++  ++  ++  +++ +  ++  +++      ++  ++ + +++++
+  sp|Q87VU3|   401 ywrathymsdiatqyadgkislaekalgeqcyfavcrrlynslkarqrsh 450  
+
+                CS S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEE
+                   drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptep
+                   +++ld+ln++la+ y+++++v++slpd+++++++ pilp++rldeep ++
+  sp|Q87VU3|   451 RQVLDeLNDKLADKYICNFSVFQSLPDTWAIGQVLPILPLHRLDEEPVRR 500  
+
+                CS EEEE-----TT--SEE.      EEEEE.. .------EEEES-----SG
+                   vtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYte
+                   ++l + tCds++++ ++ ++++ + s+P+H+l   +++ll++f++GAY+e
+  sp|Q87VU3|   501 AVLQDLTCDSDGKIKQYvdeqsiETSMPVHsLNEGEDYLLGIFLVGAYQE 550  
+
+                CS CC-B-TTT--.-EEEEE   
+                   slasnFNgfprpaeVlv<-*
+                   +l++++N+f++++ V +   
+  sp|Q87VU3|   551 ILGDMHNLFGDTDSVNI    567  
+
+sp|P40807|DCOR1_DROME: domain 1 of 1, from 276 to 391: score 137.4, E = 2.2e-36
+                CS    EEEEEEEEEEE--S     S-E........EEEEES----S-.-CHH
+                   *->tLvtnVigvkergg.....drkldlnerlafvyylddGvygslpdpa
+                      tLv+++++++e++ + ++ d +        ++y l+dGvygs ++++
+  sp|P40807|   276    TLVCKIHAKREIRNeagklDTV--------MYY-LNDGVYGS-FNCI 312  
+
+                CS HHS-   ---EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-
+                   lyda...lhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHle
+                   lyd++  +   ++ +  ++ p+ ++ ++GP+Cd++D++ + d +LP    
+  sp|P40807|   313 LYDHqvvIAEHYLDN-AESLPHLKSLIWGPSCDALDKISE-DLHLP---N 357  
+
+                CS -----EEEES-----SGCC-B-TTT--.-EEEEE   
+                   levGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   l++GDll+f ++GAYt+  as FNgf+ p++ ++   
+  sp|P40807|   358 LNRGDLLGFRNMGAYTMPIASAFNGFEVPKTLYF    391  
+
+sp|B0U1H6|SPEA_XYLFM: domain 1 of 1, from 343 to 555: score 137.4, E = 2.3e-36
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+ v  +++++ ++  ++++   ++ ++  ++ + ++  +  
+  sp|B0U1H6|   343    VLIANVTEVEAVPEgrvpglcddepavvrhmreiygeldarpaielf 389  
+
+                CS                                                  S
+                   .................................................d
+                    + ++ + ++    + ++ +  ++ + ++     +++ +++ ++++++++
+  sp|B0U1H6|   390 yeaqhfhaeglaaytlgqidlvhrariddlfyaishgvrerlsheekshR 439  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   ++ld+lnerl++ y+++++v+ s+pd +++++++pi+p++rl+e+pt++ 
+  sp|B0U1H6|   440 PVLDeLNERLVDKYFVNFSVFESIPDVWAINQIFPIVPIERLNEAPTRRG 489  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   ++++ tCds++++ ++ ++++ d +LPlH l++ + ++++ff++GAY+e+
+  sp|B0U1H6|   490 VVCDLTCDSDGTVKQYveneslDSALPLHvLRHGEAYRIGFFLVGAYQEI 539  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++ +N+f++++ V v   
+  sp|B0U1H6|   540 LGDIHNLFGDTDAVEV    555  
+
+sp|Q9PH02|SPEA_XYLFA: domain 1 of 1, from 343 to 555: score 137.4, E = 2.3e-36
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+ v  +++++ ++  ++++   ++ ++  ++ + ++  +  
+  sp|Q9PH02|   343    VLIANVTEVEAVPEgrvpgvcddepavvrhmreiygeldarpaielf 389  
+
+                CS                                                  S
+                   .................................................d
+                    + ++ + ++    + ++ +  ++ + ++     +++ +++ ++++++++
+  sp|Q9PH02|   390 yeaqhfhaeglaaytlgqidlvhrariddlfyaishgvrerlsheekshR 439  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   ++ld+lnerl++ y+++++v+ s+pd +++++++pi+p++rl+e+pt++ 
+  sp|Q9PH02|   440 PVLDeLNERLVDKYFVNFSVFESIPDVWAINQIFPIVPIERLNEAPTRRG 489  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   ++++ tCds++++ ++ ++++ d +LPlH l++ + ++++ff++GAY+e+
+  sp|Q9PH02|   490 VVCDLTCDSDGTVKQYveneslDSALPLHvLRHGEAYRIGFFLVGAYQEI 539  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++ +N+f++++ V v   
+  sp|Q9PH02|   540 LGDIHNLFGDTDAVEV    555  
+
+sp|O05321|DCDA_PSEFL: domain 1 of 1, from 285 to 390: score 136.5, E = 4.1e-36
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V + k+ +++++        f++ +d+ ++++ ++paly+a+
+  sp|O05321|   285    VLLTQVEYLKH-TEHKD--------FAI-VDAAMNDL-IRPALYQAW 320  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                     +  v+ ++++ +++++++GP+C+ gD+la+  ++L     le+GDll+
+  sp|O05321|   321 MDVTAVR-PRDTAARSYDIVGPICETGDFLAK-GRELA----LEEGDLLA 364  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +++aGAY+++++sn+N ++r+aeVlv   
+  sp|O05321|   365 VHSAGAYGFVMSSNYNTRGRCAEVLV    390  
+
+sp|B2I6M1|SPEA_XYLF2: domain 1 of 1, from 343 to 555: score 136.3, E = 4.7e-36
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+ v  +++++ ++  ++++   ++ ++  ++ + ++  +  
+  sp|B2I6M1|   343    VLIANVTEVEAVPEgrvpgvcddepavvrhmreiygeldarpaielf 389  
+
+                CS                                                  S
+                   .................................................d
+                    + ++ + ++    + ++ +  ++ + ++     +++ +++ ++++++++
+  sp|B2I6M1|   390 yeaqhfhaeglaaytlgqidlvhrariddlfyaishgvrerlsheekshR 439  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   ++ld+lnerl++ y+++++v+ s+pd +++++++pi+p++rl+e pt++ 
+  sp|B2I6M1|   440 PVLDeLNERLVDKYFVNFSVFESIPDVWAINQIFPIVPIERLNEVPTRRG 489  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   ++++ tCds++++ ++ ++++ d +LPlH l++ + ++++ff++GAY+e+
+  sp|B2I6M1|   490 VVCDLTCDSDGTVKQYveneslDSALPLHvLRHGEAYRIGFFLVGAYQEI 539  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++ +N+f++++ V v   
+  sp|B2I6M1|   540 LGDIHNLFGDTDAVEV    555  
+
+sp|Q87F25|SPEA_XYLFT: domain 1 of 1, from 343 to 555: score 136.3, E = 4.7e-36
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+ v  +++++ ++  ++++   ++ ++  ++ + ++  +  
+  sp|Q87F25|   343    VLIANVTEVEAVPEgrvpgvcddepavvrhmreiygeldarpaielf 389  
+
+                CS                                                  S
+                   .................................................d
+                    + ++ + ++    + ++ +  ++ + ++     +++ +++ ++++++++
+  sp|Q87F25|   390 yeaqhfhaeglaaytlgqidlvhrariddlfyaishgvrerlsheekshR 439  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   ++ld+lnerl++ y+++++v+ s+pd +++++++pi+p++rl+e pt++ 
+  sp|Q87F25|   440 PVLDeLNERLVDKYFVNFSVFESIPDVWAINQIFPIVPIERLNEVPTRRG 489  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   ++++ tCds++++ ++ ++++ d +LPlH l++ + ++++ff++GAY+e+
+  sp|Q87F25|   490 VVCDLTCDSDGTVKQYveneslDSALPLHvLRHGEAYRIGFFLVGAYQEI 539  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++ +N+f++++ V v   
+  sp|Q87F25|   540 LGDIHNLFGDTDAVEV    555  
+
+sp|Q8DHY6|SPEA_THEEB: domain 1 of 1, from 353 to 564: score 136.0, E = 6.1e-36
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+gv+e++  ++++ + +++   ++  ++ +  ++++ ++  
+  sp|Q8DHY6|   353    VLIFNVLGVSEVPKitpepataeehliirnlydtyqaidennyqeay 399  
+
+                CS                                                 S-
+                   ................................................dr
+                   ++  + +++  +  + +  + +++ + ++       +  +  ++++  ++
+  sp|Q8DHY6|   400 ndalqfkgeaislfnfgylslperaraeslfwaccakilgiarqqeyvPD 449  
+
+                CS E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEE
+                   kld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvt
+                   +l++l++ +a +yy++ +v++s pd++++d+l+pi+p++rldeepte+ +
+  sp|Q8DHY6|   450 DLEdLEKIMASIYYINLSVFQSVPDSWAIDQLFPIMPIHRLDEEPTERGI 499  
+
+                CS EE-----TT--SEE.      EEEEE.. .------EEEES-----SGCC
+                   laGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtesl
+                   la+ tCds++++++F + ++ +  L lH++++ + ++l+ f+ GAY+e++
+  sp|Q8DHY6|   500 LADLTCDSDGKIDQFidlrdvKSVLELHpFRPGEPYYLGLFLNGAYQEIM 549  
+
+                CS -B-TTT--.-EEEEE   
+                   asnFNgfprpaeVlv<-*
+                   ++ +N+f++++ V++   
+  sp|Q8DHY6|   550 GNLHNLFGDTNAVHI    564  
+
+sp|O67262|DCDA_AQUAE: domain 1 of 1, from 290 to 396: score 135.8, E = 6.8e-36
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V   k++g  +         f++ +d+G++++ ++p +y+a+
+  sp|O67262|   290    ILITQVQFLKDKGS-KH--------FII-VDAGMNDL-IRPSIYNAY 325  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+i+pv+   e + ++++++GP+C+ gD+la  d++     e+++G++l+
+  sp|O67262|   326 HHIIPVE-TKERKKVVADIVGPICETGDFLAL-DREIE---EVQRGEYLA 370  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +++aGAY+++++s++N +pr+aeVlv   
+  sp|O67262|   371 VLSAGAYGFAMSSHYNMRPRAAEVLV    396  
+
+sp|Q88QC7|SPEA_PSEPK: domain 1 of 1, from 354 to 567: score 134.8, E = 1.3e-35
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv +V++v + +++ ++ ++++  +++ +   +  ++++ +  +++
+  sp|Q88QC7|   354    MLVIQVTDVEKHNDdvptienkealpetvqwlvdllgptdiemvtet 400  
+
+                CS                                                   
+                   ..................................................
+                     + ++  ++   +  +++ + +++   ++      ++ +++ + +++++
+  sp|Q88QC7|   401 ywrathymgdvaaqyadgklslgekalaeqcyfavcrrlhnslkarqrsh 450  
+
+                CS S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEE
+                   drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptep
+                   +++ld+ln++la+ y+++++v++slpd+++++++ pi+p++rldeep ++
+  sp|Q88QC7|   451 RQVLDeLNDKLADKYICNFSVFQSLPDTWAIGQVLPIIPLHRLDEEPMRR 500  
+
+                CS EEEE-----TT--SEE.      EEEEE.. .------EEEES-----SG
+                   vtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYte
+                   ++l + tCds+++++++ ++++ + s+P+H ++  +++ll++f++GAY+e
+  sp|Q88QC7|   501 AVLQDLTCDSDGKINQYvdeqsiETSMPVHaVKEGEDYLLGVFLVGAYQE 550  
+
+                CS CC-B-TTT--.-EEEEE   
+                   slasnFNgfprpaeVlv<-*
+                   +l++++N+f++++ V +   
+  sp|Q88QC7|   551 ILGDMHNLFGDTDSVNI    567  
+
+sp|O14977|AZIN1_HUMAN: domain 1 of 1, from 282 to 406: score 133.2, E = 4.2e-35
+                CS    EEEEEEEEEEE--S             S-E........EEEEES---
+                   *->tLvtnVigvkergg.............drkldlnerlafvyylddGv
+                      tL++n+i++k+++ ++ +++ ++++++++         f+yy++dGv
+  sp|O14977|   282    TLAVNIIAKKVVENdkfpsgvektgsdEPA--------FMYYMNDGV 320  
+
+                CS -S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EE
+                   ygslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdv
+                   ygs +++ l + l  i+ v+++ +++ep+++++l+GP+Cd +D + +  +
+  sp|O14977|   321 YGS-FASKLSEDLNTIPEVHKkyKEDEPLFTSSLWGPSCDELDQIVE-SC 368  
+
+                CS EEE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   sLPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   +LP   el+vGD+l+f ++GA  ++  s FN f+rpa++++   
+  sp|O14977|   369 LLP---ELNVGDWLIFDNMGADSFHEPSAFNDFQRPAIYYM    406  
+
+sp|Q5R7K3|AZIN1_PONAB: domain 1 of 1, from 282 to 406: score 133.2, E = 4.2e-35
+                CS    EEEEEEEEEEE--S             S-E........EEEEES---
+                   *->tLvtnVigvkergg.............drkldlnerlafvyylddGv
+                      tL++n+i++k+++ ++ +++ ++++++++         f+yy++dGv
+  sp|Q5R7K3|   282    TLAVNIIAKKVVENdkfpsgvektgsdEPA--------FMYYMNDGV 320  
+
+                CS -S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EE
+                   ygslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdv
+                   ygs +++ l + l  i+ v+++ +++ep+++++l+GP+Cd +D + +  +
+  sp|Q5R7K3|   321 YGS-FASKLSEDLNTIPEVHKkyKEDEPLFTSSLWGPSCDELDQIVE-SC 368  
+
+                CS EEE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   sLPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   +LP   el+vGD+l+f ++GA  ++  s FN f+rpa++++   
+  sp|Q5R7K3|   369 LLP---ELNVGDWLIFDNMGADSFHEPSAFNDFQRPAIYYM    406  
+
+sp|O35484|AZIN1_MOUSE: domain 1 of 1, from 282 to 406: score 132.9, E = 5.1e-35
+                CS    EEEEEEEEEEE--S             S-E........EEEEES---
+                   *->tLvtnVigvkergg.............drkldlnerlafvyylddGv
+                      tL++n+i++k+++ ++ +++ ++++++++         fvyy++dGv
+  sp|O35484|   282    TLAVNIIAKKVVENdkfssgvekngsdEPA--------FVYYMNDGV 320  
+
+                CS -S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EE
+                   ygslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdv
+                   ygs +++ l + l  i+ v+++ +++ep+++++l+GP+Cd +D + +  +
+  sp|O35484|   321 YGS-FASKLSEDLNTIPEVHKkyKEDEPLFTSSLWGPSCDELDQIVE-SC 368  
+
+                CS EEE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   sLPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   +LP   el+vGD+l+f ++GA  ++  s FN f+rpa++++   
+  sp|O35484|   369 LLP---ELNVGDWLIFDNMGADSFHEPSAFNDFQRPAIYFM    406  
+
+sp|Q50140|DCDA_MYCLE: domain 1 of 1, from 336 to 449: score 132.9, E = 5.2e-35
+                CS    EEEEEEEEEEE--S    S-E........EEEEES----S-.-CHHH
+                   *->tLvtnVigvkergg....drkldlnerlafvyylddGvygslpdpal
+                      + +++V ++k+++ + + +r+        +v  +d+G++++ +++al
+  sp|Q50140|   336    ITLYEVGTIKDVDVsataHRR--------YVS-IDGGMSDN-IRTAL 372  
+
+                CS HS----EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-----
+                   ydalhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevG
+                   yda++ +++vsr  ++p++p++++G +C+sgD++ r d + P   +l++G
+  sp|Q50140|   373 YDAQYDVRLVSRTSDAPAAPASIVGKHCESGDIVVR-DTWVPD--DLKPG 419  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   Dl+++  +GAY++sl+s++N ++rpa+V+v   
+  sp|Q50140|   420 DLVGVAATGAYCYSLSSRYNMLGRPAVVAV    449  
+
+sp|A6L012|SPEA_BACV8: domain 1 of 1, from 346 to 558: score 132.8, E = 5.5e-35
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++V+ + ++++ +++ + ++++++  ++  +  ++ ++++  + 
+  sp|A6L012|   346    VLIFEVLETATLPEmdedfevgendhelvhelyeiwdnlnqsrmvea 392  
+
+                CS                                                  S
+                   .................................................d
+                    ++ ++ +++  +  +++  + +++ + ++   + +++ ++  ++ ++ +
+  sp|A6L012|   393 whdaqqireealdlfshgivdlktraqierlywsvtreinqiasglkhaP 442  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   + +++l++ la+ y++++++++slpd++++d+++pi+p++rlde p++ +
+  sp|A6L012|   443 DEFRkLDKLLADKYFCNFSLFQSLPDSWAIDQIFPIMPIQRLDEKPDRNA 492  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   tl + tCds++++a+F +++     LP+H+l+ +  +++++f++GAY+e+
+  sp|A6L012|   493 TLQDITCDSDGKIANFistryvSHDLPVHsLKGKDAYYIGVFLVGAYQEI 542  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++++N+f++++ V+v   
+  sp|A6L012|   543 LGDMHNLFGDTNAVHV    558  
+
+sp|P19572|DCDA_PSEAE: domain 1 of 1, from 284 to 389: score 132.5, E = 6.8e-35
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V + k+ +++++        f++ +d+ ++++ ++paly+a+
+  sp|P19572|   284    VLLTRVEYLKH-TEHKD--------FAI-VDAAMNDL-IRPALYQAW 319  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                     +  v+ ++++  ++++l+GP+C+ gD+la+ d+ L     l++GDll+
+  sp|P19572|   320 MDVQAVR-PRDAAPRRYDLVGPICETGDFLAK-DRDLA----LAEGDLLA 363  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   + +aGAY+++++sn+N ++r+aeVlv   
+  sp|P19572|   364 VRSAGAYGFVMSSNYNTRGRAAEVLV    389  
+
+sp|Q8YRP3|SPEA_ANASP: domain 1 of 1, from 395 to 606: score 132.3, E = 7.9e-35
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++ V+++++++ ++++++++++++  +   ++ ++ ++++ ++  
+  sp|Q8YRP3|   395    VLIFDVLSTSDVPRdnpeppkegespvinylwetyqsinkenyqefy 441  
+
+                CS                                                 S-
+                   ................................................dr
+                   ++ ++ +++  ++ + +  + +++ + ++      ++  +  ++++  ++
+  sp|Q8YRP3|   442 hdatqfkeeaisrfnlgilrlrerakaerlywaccqkildiirqhdyvPD 491  
+
+                CS E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEE
+                   kld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvt
+                    l++l++ +a +yy++ +v++s pd++++d+l+pi+p++rldeept++ +
+  sp|Q8YRP3|   492 ELEdLEKIMASIYYINLSVFQSAPDCWAIDQLFPIMPIHRLDEEPTQRGI 541  
+
+                CS EE-----TT--SEE.      EEEEE.. .------EEEES-----SGCC
+                   laGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtesl
+                   la+ tCds+++++rF + ++ +  L lH++ + + +++++f+ GAY+e++
+  sp|Q8YRP3|   542 LADLTCDSDGKIDRFidlrdvKSVLELHpFQPGEPYYMGMFLNGAYQEIM 591  
+
+                CS -B-TTT--.-EEEEE   
+                   asnFNgfprpaeVlv<-*
+                   ++ +N+f++++ V++   
+  sp|Q8YRP3|   592 GNLHNLFGDTNAVHI    606  
+
+sp|P23630|DCDA_BACSU: domain 1 of 1, from 301 to 409: score 131.7, E = 1.2e-34
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      t +++V + ke++g r+        +v+ +d+G++++ ++paly+a 
+  sp|P23630|   301    TTLYTVGSQKEVPGVRQ--------YVA-VDGGMNDN-IRPALYQAK 337  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   +  +  +r  e+ + +v++aG +C+sgD l   d+ LP   e+++GDll+
+  sp|P23630|   338 YEAAAANRIGEAHDKTVSIAGKCCESGDMLIW-DIDLP---EVKEGDLLA 383  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +f +GAY++s+a+n+N +prpa+V+v   
+  sp|P23630|   384 VFCTGAYGYSMANNYNRIPRPAVVFV    409  
+
+sp|Q9ZBH5|DCDA_STRCO: domain 1 of 1, from 286 to 403: score 130.8, E = 2.2e-34
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+++V + k +g  +         fv  +d+G++++ ++pa+y+ +
+  sp|Q9ZBH5|   286    VLAAEVRAQKPVGS-NY--------FVL-VDAGFNDL-MRPAMYGSN 321  
+
+                CS --EEECSS   -TTSSEEEEEEE-----TT--SEE.      EEEEE...
+                   hpilpvsr...ldeeptepvtlaGPtCdsgDvlarF......dvsLPlHl
+                   h++ ++++++ ++++ ++ ++laGP+C+sgDv+ + ++++ + v+ P   
+  sp|Q9ZBH5|   322 HRVSVLDAdgaPRASDARDTVLAGPLCESGDVFTQVeggdvePVPVP--- 368  
+
+                CS ------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   elevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   +++vGDl+vf+d+GAY+ s++s++N++p+ +eVlv   
+  sp|Q9ZBH5|   369 RTDVGDLVVFHDTGAYGASMSSTYNSRPLIPEVLV    403  
+
+sp|Q8K9C4|DCDA_BUCAP: domain 1 of 1, from 275 to 393: score 130.6, E = 2.4e-34
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+++V ++k++g+ +         fv  +d+G++++ ++p++y+ +
+  sp|Q8K9C4|   275    ILISQVRAIKKMGD-KN--------FVL-IDAGFNDL-MRPTMYGSY 310  
+
+                CS --EEECSS    -TTSSEEEEEEE-----TT--SEE.      EEEEE..
+                   hpilpvsr....ldeeptepvtlaGPtCdsgDvlarF......dvsLPlH
+                   h++ +v +++++ +e++t  +++ GP+C+sgD++ ++++++ ++++LP  
+  sp|Q8K9C4|   311 HHVSVVTKddrnIHETETIDTIIGGPLCESGDIFTQKeggnitTRKLP-- 358  
+
+                CS .------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                     l++GD+l+f+d+GAY+ s++sn+N +p+  e+l+   
+  sp|Q8K9C4|   359 -ILKIGDYLIFHDVGAYGASMSSNYNTRPLIQEILL    393  
+
+sp|Q0ACK8|SPEA_ALHEH: domain 1 of 1, from 345 to 558: score 130.5, E = 2.7e-34
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vi+  +++g+ +   + +  ++  ++  +  ++ +++++ + 
+  sp|Q0ACK8|   345    VLITDVIDGDRVPGgadllapadaaprvlhelwtvwtgldrrhplea 391  
+
+                CS                                                   
+                   ..................................................
+                    ++  ++  + ++   ++  + +++ + ++  +   +   ++ +++++++
+  sp|Q0ACK8|   392 yhdaahglaeaqelyahgvlnltdraraeriwqavchallqrldprrrph 441  
+
+                CS S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEE
+                   drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptep
+                   ++ ld+lne+la+  ++++++++s+pd +++d+++p+lp++rlde p+ +
+  sp|Q0ACK8|   442 RELLDeLNEKLADKLFCNFSLFQSMPDVWAIDQIFPVLPLQRLDEPPASR 491  
+
+                CS EEEE-----TT--SEE.      EEEEE.. .------EEEES-----SG
+                   vtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYte
+                   ++l + tCds++++  + ++++ + +LPl+++++ + +ll++f++GAY+e
+  sp|Q0ACK8|   492 AVLQDLTCDSDGCIRGYvdrdgvESTLPLPpWRPGEPYLLGIFLVGAYQE 541  
+
+                CS CC-B-TTT--.-EEEEE   
+                   slasnFNgfprpaeVlv<-*
+                   +l++++N+f+++  V v   
+  sp|Q0ACK8|   542 ILGDMHNLFGDTHSVNV    558  
+
+sp|Q949X7|DCDA1_ARATH: domain 1 of 1, from 351 to 459: score 129.2, E = 6.8e-34
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      ++v +V+gvk++g  +         f++ +d+++  + ++p lyda+
+  sp|Q949X7|   351    CFVNHVTGVKTNGT-KN--------FIV-IDGSMAEL-IRPSLYDAY 386  
+
+                CS --EEECSS -TTSSEEEEEEE-----TT--SEE.EEEEE...------EE
+                   hpilpvsr.ldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDll
+                   ++i++vs++++e++  +++++GP C+s D+l++ d++LP   ++  G  l
+  sp|Q949X7|   387 QHIELVSPpPAEAEVTKFDVVGPVCESADFLGK-DRELP---TPPQGAGL 432  
+
+                CS EES-----SGCC-B-TTT--.-EEEEE   
+                   vffdaGAYteslasnFNgfprpaeVlv<-*
+                   v++daGAY++s+as++N+  rp+e++v   
+  sp|Q949X7|   433 VVHDAGAYCMSMASTYNLKMRPPEYWV    459  
+
+sp|Q94A94|DCDA2_ARATH: domain 1 of 1, from 356 to 464: score 128.9, E = 8.1e-34
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      ++v +V+gvk++g  +         f++ +d+++  + ++p lyda+
+  sp|Q94A94|   356    CFVNHVTGVKTNGT-KN--------FIV-IDGSMAEL-IRPSLYDAY 391  
+
+                CS --EEECSS -TTSSEEEEEEE-----TT--SEE.EEEEE...------EE
+                   hpilpvsr.ldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDll
+                   ++i++vs++++e++  +++++GP C+s D+l++ d++LP   ++  G  l
+  sp|Q94A94|   392 QHIELVSPtPPEAEVTKFDVVGPVCESADFLGK-DRELP---TPPQGAGL 437  
+
+                CS EES-----SGCC-B-TTT--.-EEEEE   
+                   vffdaGAYteslasnFNgfprpaeVlv<-*
+                   v++daGAY++s+as++N+  rp+e++v   
+  sp|Q94A94|   438 VVHDAGAYCMSMASTYNLKMRPPEYWV    464  
+
+sp|P0A5M5|DCDA_MYCBO: domain 1 of 1, from 311 to 424: score 128.6, E = 9.9e-34
+                CS    EEEEEEEEEEE--S    S-E........EEEEES----S-.-CHHH
+                   *->tLvtnVigvkergg....drkldlnerlafvyylddGvygslpdpal
+                      + +++V +vk+++ + + +r+        +v  +d+G++++ +++al
+  sp|P0A5M5|   311    ITLYEVGTVKDVDVsataHRR--------YVS-VDGGMSDN-IRTAL 347  
+
+                CS HS----EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-----
+                   ydalhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevG
+                   y+a++ +++vsr  ++p +p+ l+G +C+sgD++ r d + P   ++++G
+  sp|P0A5M5|   348 YGAQYDVRLVSRVSDAPPVPARLVGKHCESGDIIVR-DTWVPD--DIRPG 394  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   Dl+++  +GAY++sl+s++N ++rpa+V+v   
+  sp|P0A5M5|   395 DLVAVAATGAYCYSLSSRYNMVGRPAVVAV    424  
+
+sp|P0A5M4|DCDA_MYCTU: domain 1 of 1, from 311 to 424: score 128.6, E = 9.9e-34
+                CS    EEEEEEEEEEE--S    S-E........EEEEES----S-.-CHHH
+                   *->tLvtnVigvkergg....drkldlnerlafvyylddGvygslpdpal
+                      + +++V +vk+++ + + +r+        +v  +d+G++++ +++al
+  sp|P0A5M4|   311    ITLYEVGTVKDVDVsataHRR--------YVS-VDGGMSDN-IRTAL 347  
+
+                CS HS----EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-----
+                   ydalhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevG
+                   y+a++ +++vsr  ++p +p+ l+G +C+sgD++ r d + P   ++++G
+  sp|P0A5M4|   348 YGAQYDVRLVSRVSDAPPVPARLVGKHCESGDIIVR-DTWVPD--DIRPG 394  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   Dl+++  +GAY++sl+s++N ++rpa+V+v   
+  sp|P0A5M4|   395 DLVAVAATGAYCYSLSSRYNMVGRPAVVAV    424  
+
+sp|P41931|DCOR_CAEEL: domain 1 of 1, from 286 to 407: score 127.8, E = 1.7e-33
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      +Lv+n+i+  e++ ++ ++++++  ++          ++y ++dGvy
+  sp|P41931|   286    SLVANIIHATEVPAskitkdpkdcadHGY--------MYY-INDGVY 323  
+
+                CS S-.-CHHHHS----EEECSS -TTSSEEEEEEE-----TT--SEE.EEEE
+                   gslpdpalydalhpilpvsr.ldeeptepvtlaGPtCdsgDvlarFdvsL
+                   gs ++++l+d+ hpi     + d+ + + +t++GPtCds+D + + + ++
+  sp|P41931|   324 GS-FNCILFDHAHPIGSPLFdTDRNEKFMSTIWGPTCDSLDLVED-KKLM 371  
+
+                CS E...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   PlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   P   +++vG++l+++d+GAYt ++a++FNgf  p   +v   
+  sp|P41931|   372 P---KMNVGEWLYYPDMGAYTLAAATTFNGFSKPVPMYV    407  
+
+sp|O50657|DCLO_SELRU: domain 1 of 1, from 266 to 371: score 127.7, E = 1.9e-33
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       Lvt+Vig+k+rg+ +         +++ ld G+yg+ ++ ++yd++
+  sp|O50657|   266    NLVTSVIGTKTRGE-QP--------WYI-LDEGIYGC-FSGIMYDHW 301  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                    ++l +     ++  p+t+ GP+Cd+ Dvl+r d++ P   el++GD+++
+  sp|O50657|   302 TYPLHCF--GKGNKKPSTFGGPSCDGIDVLYR-DFMAP---ELKIGDKVL 345  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +  +G Yt++ a++FNgf +++++++   
+  sp|O50657|   346 VTEMGSYTSVSATRFNGFYLAPTIIF    371  
+
+sp|Q9KVL7|DCDA_VIBCH: domain 1 of 1, from 286 to 391: score 127.4, E = 2.4e-33
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +Lvt+V   k+ ++++         f++ +d+ ++++ ++paly+a+
+  sp|Q9KVL7|   286    VLVTKVEFLKH-TEHKN--------FAI-IDAAMNDL-IRPALYQAW 321  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   + i+p++ ++++++++++l+GP C+  D+l++ d+ L     l++GDll+
+  sp|Q9KVL7|   322 QDIIPLR-PRQGEAQTYDLVGPVCETSDFLGK-DRDLV----LQEGDLLA 365  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   + + GAY+++++sn+N +pr aeV v   
+  sp|Q9KVL7|   366 VRSSGAYGFTMSSNYNTRPRVAEVMV    391  
+
+sp|Q6ZG77|DCDA_ORYSJ: domain 1 of 1, from 356 to 463: score 126.9, E = 3.1e-33
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      ++v +V+gvk++g  +         f++ +d+++  + ++p ly+a+
+  sp|Q6ZG77|   356    CFVNRVTGVKSNGT-KN--------FIV-VDGSMAEL-IRPSLYGAY 391  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   ++i++vs+ ++++ ++++++GP C+s D+l++ d++LP   +++ G  lv
+  sp|Q6ZG77|   392 QHIELVSPSPDAEVATFDIVGPVCESADFLGK-DRELP---TPDKGAGLV 437  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++daGAY++s+as++N+  rp+e++v   
+  sp|Q6ZG77|   438 VHDAGAYCMSMASTYNLKLRPPEYWV    463  
+
+sp|Q55484|DCDA_SYNY3: domain 1 of 1, from 332 to 440: score 126.7, E = 3.6e-33
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      + +++V g+k+++ +r+        ++  +d+G++++ p+p+ y+ +
+  sp|Q55484|   332    VTAYRVGGRKVVPNIRT--------YIS-VDGGMSDN-PRPITYQSV 368  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   +++++ +r+++e te+vt+aG +C+sgD+l + dv+LP     e+GD++v
+  sp|Q55484|   369 YRVALANRMNDEITETVTVAGKHCESGDILVK-DVALP---AAEPGDIMV 414  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +  +GAY +s+asn+N ++rpa Vlv   
+  sp|Q55484|   415 VAATGAYNHSMASNYNRLGRPAAVLV    440  
+
+sp|Q9JXM2|DCDA_NEIMB: domain 1 of 1, from 276 to 381: score 125.6, E = 8.1e-33
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V  vk  g+++         fv  +d+ ++++ ++palyda+
+  sp|Q9JXM2|   276    SLLTRVEFVKY-GEEKN--------FVM-VDAAMNDL-MRPALYDAY 311  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+i+ v+   +  t ++ ++GP+C+ gD+l++ d++       e+GDll+
+  sp|Q9JXM2|   312 HHIEAVE-TKDIATLTANIVGPICETGDFLGK-DRTIA----CEEGDLLL 355  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   + +aGAY+ s+asn+N + r+aeVlv   
+  sp|Q9JXM2|   356 IRSAGAYGASMASNYNARNRAAEVLV    381  
+
+sp|Q8P448|SPEA_XANCP: domain 1 of 1, from 343 to 555: score 125.2, E = 1e-32
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV  v   ++++ ++ +++++   ++ ++ +++ + ++  +  
+  sp|Q8P448|   343    VLIANVSEVEQAPEgrvpdahddepaairhlreihdeldvrpavelf 389  
+
+                CS                                                  S
+                   .................................................d
+                   ++ ++ + ++ +    ++ + +++ + ++      ++ + + + ++++++
+  sp|Q8P448|   390 qeaqhfhaeglsayalgqidlthrariddlfyaiahgvrarlsfdekshR 439  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   ++ld+lnerl++ y+++++v+ s+pd +++d+++pi+p++rl+e+p ++ 
+  sp|Q8P448|   440 PVLDeLNERLVDKYFVNFSVFESIPDVWAIDQVFPIVPIERLNEAPQRRG 489  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   ++a+ tCds++ +  + ++++ d sLPlH+l + + ++++ff++GAY+e+
+  sp|Q8P448|   490 IIADMTCDSDGMVKTYveneslDSSLPLHgLNPGESYRIGFFLVGAYQEI 539  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++ +N+f++++ V v   
+  sp|Q8P448|   540 LGDIHNLFGDTDAVEV    555  
+
+sp|Q54UF3|DCOR_DICDI: domain 1 of 1, from 328 to 450: score 125.0, E = 1.2e-32
+                CS    EEEEEEEEEEE--S             S-E........EEEEES---
+                   *->tLvtnVigvkergg.............drkldlnerlafvyylddGv
+                      tL+++Vi+++++  +++++++++++++ r+        + yyl dGv
+  sp|Q54UF3|   328    TLAVTVISKRSIKQednrqhprrtsnnMRQ--------YNYYLADGV 366  
+
+                CS -S-.-CHHHHS- ---EEECSS-TTSSEEEEEEE-----TT--SEE.EEE
+                   ygslpdpalyda.lhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvs
+                   ygs ++ + +d+    +l++  +      p+tl+GPtCds Dv+ + d +
+  sp|Q54UF3|   367 YGS-FNNTKFDYaKVEPLLLK-PSTKQPTPCTLFGPTCDSIDVVLK-DTQ 413  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                    P   el++GD+l+f d+GAYt++ +s FNgf +p+++++   
+  sp|Q54UF3|   414 IP---ELKIGDWLYFQDMGAYTIASSSSFNGFCPPPVYYY    450  
+
+sp|Q9Z661|DCDA_ZYMMO: domain 1 of 1, from 289 to 394: score 124.9, E = 1.3e-32
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+++Vi +ke     +        fv+ ld+ ++++  +p+lyda+
+  sp|Q9Z661|   289    VLLSKVIRIKESKT-AR--------FVI-LDAAMNDL-VRPTLYDAY 324  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h i  v   +++ t+ ++++GP C+ gD++ar ++s      ++++Dl++
+  sp|Q9Z661|   325 HEIKAVT--PSAQTYQADIVGPVCETGDIFAR-NRSIS---AVKADDLMA 368  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +++aGAY+ ++as +N++p+ aeV v   
+  sp|Q9Z661|   369 IMSAGAYGATMASAYNSRPLVAEVMV    394  
+
+sp|Q9JWA6|DCDA_NEIMA: domain 1 of 1, from 276 to 381: score 123.9, E = 2.6e-32
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       L+t+V  vk  g+++         fv  +d+ ++++ ++palyda+
+  sp|Q9JWA6|   276    ALLTRVEFVKY-GEEKN--------FVM-VDAAMNDL-MRPALYDAY 311  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+i+ v+ + +    ++ ++GP+C+ gD+l++ d++       e+GDll+
+  sp|Q9JWA6|   312 HHIEAVE-PKNIAPLTANIVGPICETGDFLGK-DRTIA----CEEGDLLL 355  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   + +aGAY+ s+asn+N + r+aeVlv   
+  sp|Q9JWA6|   356 IRSAGAYGASMASNYNARNRAAEVLV    381  
+
+sp|P40808|DCOR2_DROME: domain 1 of 1, from 276 to 390: score 123.4, E = 3.6e-32
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      tL+++V++++e++  ++   ++  +++yyl+dG++g +   ++y+  
+  sp|P40808|   276    TLICKVHAKREVRS-KD---GKLDTMMYYLNDGIFGAFAGMFYYPEE 318  
+
+                CS --EEECSS -TTSSEEEEEEE-----TT--SEE.EEEEE...------EE
+                   hpilpvsr.ldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDll
+                     ++++ ++ ++ p  +++++GP+Cd++D++   d +LP    l++GDll
+  sp|P40808|   319 VAPELYLDeAESLPKLKSVIWGPSCDAMDKIS--DLLLP---NLNPGDLL 363  
+
+                CS EES-----SGCC-B-TTT--.-EEEEE   
+                   vffdaGAYteslasnFNgfprpaeVlv<-*
+                   +f ++GAYt+  as FNgf  p + ++   
+  sp|P40808|   364 GFRNMGAYTMPIASPFNGFDVPETRFF    390  
+
+sp|Q8PFQ5|SPEA_XANAC: domain 1 of 1, from 343 to 555: score 122.9, E = 5.1e-32
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV  v   ++++ ++ +++++   ++ ++ +++ + ++  +  
+  sp|Q8PFQ5|   343    VLIANVSEVEQAPEgrvpdahddepaairhlreihdeldvrpavelf 389  
+
+                CS                                                  S
+                   .................................................d
+                   ++ ++ + ++ +    ++ + +++ + ++      ++ + + + ++++++
+  sp|Q8PFQ5|   390 qeaqhfhaeglsayalgqidlthrariddlfyaiahgvrarlsfdekshR 439  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   ++ld+lnerl++ y+++++v+ s+pd +++d+++pi+p++rl+e+p ++ 
+  sp|Q8PFQ5|   440 PVLDeLNERLVDKYFVNFSVFESIPDVWAIDQVFPIVPIERLNEAPQRRG 489  
+
+                CS EEE-----TT--SEE.      EEEEE.. .------EEEES-----SGC
+                   tlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAYtes
+                   ++a+ tCds++ +  + ++++ d sLPlH+l   + ++++ff++GAY+e+
+  sp|Q8PFQ5|   490 IIADMTCDSDGMVKTYveneslDSSLPLHrLNAGESYRIGFFLVGAYQEI 539  
+
+                CS C-B-TTT--.-EEEEE   
+                   lasnFNgfprpaeVlv<-*
+                   l++ +N+f++++ V v   
+  sp|Q8PFQ5|   540 LGDIHNLFGDTDAVEV    555  
+
+sp|P56129|DCDA_HELPY: domain 1 of 1, from 270 to 377: score 122.1, E = 9e-32
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       L+t+V++ k+    ++        fv+ +d+G+++  ++p ly+a 
+  sp|P56129|   270    ELITQVLYEKKAQN-KR--------FVV-VDAGMNDF-LRPSLYHAK 305  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h i+++ +  + +  p++++GP C+s D++ + d +LP   ele+GD+lv
+  sp|P56129|   306 HAIRVITPSKGREISPCDVVGPVCESSDTFLK-DAHLP---ELEPGDKLV 351  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++ +GAY++s+as++N++p   e ++   
+  sp|P56129|   352 IEKVGAYGSSMASQYNSRPKLLELAL    377  
+
+sp|Q89AC6|DCDA_BUCBP: domain 1 of 1, from 275 to 393: score 121.5, E = 1.4e-31
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +Lv+++  +k+ + +r+        f+  +d G++++ ++pa+y+ +
+  sp|Q89AC6|   275    ILVSEIRVIKK-TNNRT--------FIL-VDSGFNDL-IRPAMYGSY 310  
+
+                CS --EEECSS    -TTSSEEEEEEE-----TT--S  EE.    EEEEE..
+                   hpilpvsr....ldeeptepvtlaGPtCdsgDvl..arF....dvsLPlH
+                   h+i +++r+++  + + t +++++GP+C+sgDv++++++++ +++ LP  
+  sp|Q89AC6|   311 HHISVIPRdgrcVNYDDTIEAVVCGPLCESGDVFtqNEYgdikTRILP-- 358  
+
+                CS .------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                     +++GD+lvf+d+GAY+ s++sn+N++p+ +e+l+   
+  sp|Q89AC6|   359 -NVQIGDFLVFHDTGAYGASMSSNYNSRPLIPEILF    393  
+
+sp|P78599|DCOR_CANAL: domain 1 of 1, from 324 to 468: score 121.5, E = 1.4e-31
+                CS    EEEEEEEEEEE--S      S-E........EEEEES----S-.-CH
+                   *->tLvtnVigvkergg......drkldlnerlafvyylddGvygslpdp
+                      tL+t++i++++++ +++++++++     ++a++y ++dGvyg+ +++
+  sp|P78599|   324    TLITHIIARRDLPTggnnnnNDM----TPSAMLY-INDGVYGN-LNC 364  
+
+                CS HHHS----EEECSS                       -TTSSEEEEEEE-
+                   alydalhpilpvsr.......................ldeeptepvtlaG
+                   +l+d++ p + v  ++++   +++  ++ + ++++++ + +  ++++++G
+  sp|P78599|   365 ILFDHQTPKVYVLTnenqlfykqemmrslsvnnnnnnNNKTDGFKFSIWG 414  
+
+                CS ----TT--SEE.EEEEE...------EEEES-----SGCC-B-TTT--  
+                   PtCdsgDvlarFdvsLPlHlelevGDllvffdaGAYteslasnFNgfp..
+                   PtCd++D++     +L +   ++vGD+l f+++GAYt+++++ FNg+ ++
+  sp|P78599|   415 PTCDGLDCVSS-LAKLSK--NVQVGDWLFFENVGAYTSCASTKFNGLSsg 461  
+
+                CS .-EEEEE   
+                   rpaeVlv<-*
+                    +++ +v   
+  sp|P78599|   462 ETKTLYV    468  
+
+sp|Q8DA54|SPEA_VIBVU: domain 1 of 1, from 355 to 571: score 121.1, E = 1.8e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nVig+ +   ++ ++++++ +   ++  ++  + +++++ +  
+  sp|Q8DA54|   355    VLISNVIGTETYKPetvtepeedfplllnnmwrswlnlhngtdaral 401  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++  + +++  ++  + +++   ++++ +   + ++  ++++
+  sp|Q8DA54|   402 ieiyndtqsdlaevhsqfatgvltlehrawaeqtslriyyelnrlmstkn 451  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ ld+l+erla+  ++++++++slpd++++d+++p+lp+s l+++ 
+  sp|Q8DA54|   452 rfhRPILDeLSERLADKFFVNFSLFQSLPDSWGIDQVFPVLPLSGLQNAA 501  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds++ ++ + ++++ + +LP++ +  ++ +l++ff++GA
+  sp|Q8DA54|   502 DRRAVMLDITCDSDGAIDAYvdgqgiESTLPVPaWNEDEPYLMGFFLVGA 551  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++  V+v   
+  sp|Q8DA54|   552 YQEILGDMHNLFGDTHSVVV    571  
+
+sp|Q7MK24|SPEA_VIBVY: domain 1 of 1, from 354 to 570: score 121.1, E = 1.8e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nVig+ +   ++ ++++++ +   ++  ++  + +++++ +  
+  sp|Q7MK24|   354    VLISNVIGTETYKPetvtepeedfplllnnmwrswlnlhngtdaral 400  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++  + +++  ++  + +++   ++++ +   + ++  ++++
+  sp|Q7MK24|   401 ieiyndtqsdlaevhsqfatgvltlehrawaeqtslriyyelnrlmstkn 450  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ ld+l+erla+  ++++++++slpd++++d+++p+lp+s l+++ 
+  sp|Q7MK24|   451 rfhRPILDeLSERLADKFFVNFSLFQSLPDSWGIDQVFPVLPLSGLQNAA 500  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds++ ++ + ++++ + +LP++ +  ++ +l++ff++GA
+  sp|Q7MK24|   501 DRRAVMLDITCDSDGAIDAYvdgqgiESTLPVPaWNEDEPYLMGFFLVGA 550  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++  V+v   
+  sp|Q7MK24|   551 YQEILGDMHNLFGDTHSVVV    570  
+
+sp|A4Y5Y9|SPEA_SHEPC: domain 1 of 1, from 350 to 566: score 121.1, E = 1.8e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|A4Y5Y9|   350    VLITDVIGTEAYQPeniqppaeespqllhnmwhswseisgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|A4Y5Y9|   397 ieiyhdsqsdlqeaqslfalgqlslaerawaeqanlrvchevqgllstkn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|A4Y5Y9|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff++GA
+  sp|A4Y5Y9|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSAESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A4Y5Y9|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A1RKK8|SPEA_SHESW: domain 1 of 1, from 350 to 566: score 121.1, E = 1.8e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|A1RKK8|   350    VLITDVIGTEAYQPeniqppaeespqllhnmwhswseisgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|A1RKK8|   397 ieiyhdsqsdlqeaqslfalgqlslaerawaeqanlrvchevqgllstkn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|A1RKK8|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff++GA
+  sp|A1RKK8|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSAESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A1RKK8|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|P57513|DCDA_BUCAI: domain 1 of 1, from 275 to 393: score 121.0, E = 2e-31
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+++V ++k++g  +         fv  +d G++++ ++p++y+ +
+  sp|P57513|   275    ILISKVWATKKMGN-KN--------FVL-VDVGFNDL-MRPTMYGSY 310  
+
+                CS --EEECSS    -TTSSEEEEEEE-----TT--SEE.      EEEEE..
+                   hpilpvsr....ldeeptepvtlaGPtCdsgDvlarF......dvsLPlH
+                   h+i ++  ++++++e +t  +++aGP+C+sgD++ ++++++ ++++LP  
+  sp|P57513|   311 HHISVIYGddrkMNEKETIDTVVAGPLCESGDIFTQKeggtvqTRKLP-- 358  
+
+                CS .------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                    +++vGD+l+f+d+GAY+ +++sn+N +p+ +e+l+   
+  sp|P57513|   359 -TIKVGDYLIFHDTGAYGAAMSSNYNTRPLIPEILL    393  
+
+sp|Q9RTK2|DCDA_DEIRA: domain 1 of 1, from 253 to 357: score 120.9, E = 2.1e-31
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L+t+V+g+k+ +g r         f   +d+G+    ++p ly+a 
+  sp|Q9RTK2|   253    WLLTRVVGTKR-TG-RN--------FCL-VDAGMTEF-LRPMLYGAS 287  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   hp +p    d+  te++++aGP C+sgD +ar  v+LP   ++++G ll+
+  sp|Q9RTK2|   288 HPLYPMW--DALATEVWDVAGPACESGDLIAR-GVPLP---TPQRGHLLL 331  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +  aGAY+ s++s+++++prpaeVl+   
+  sp|Q9RTK2|   332 IGEAGAYGASMSSTYLSRPRPAEVLW    357  
+
+sp|B8CR70|SPEA_SHEPW: domain 1 of 1, from 350 to 566: score 120.8, E = 2.2e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+ +   ++  +++++ +   ++  ++ ++ +++ +++  
+  sp|B8CR70|   350    VLLTDVIGTESYKPetilppsedaplllqnmwqswtevsgkadqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++ +++ ++ ++    ++ +  ++   ++ + +  ++ +++ +++ 
+  sp|B8CR70|   397 ieifhdcqsdltevhslfalgqlsladrawaeqinlrvchelqgsmssky 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p++p+s ld +p
+  sp|B8CR70|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVMPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ ++ e  +l++ff++GA
+  sp|B8CR70|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWTQESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|B8CR70|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A3QDD8|SPEA_SHELP: domain 1 of 1, from 350 to 566: score 120.3, E = 3.2e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ + ++++ +++ ++  ++ ++ +++ +++  
+  sp|A3QDD8|   350    VLITDVIGTEAYKPedlqapdeeapqqlknmwdswgevsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++ +++  + ++    ++ + +++   ++ + +   + ++  +++ 
+  sp|A3QDD8|   397 ieiyhdvqsdlaevhslfalgqmslsdrawaeqmnlrvcyelkgvmsgky 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++++d+lne+la+  ++++++++slpd +++d+++p++p+s ld  p
+  sp|A3QDD8|   447 rfhRPVIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVMPLSGLDKKP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff++GA
+  sp|A3QDD8|   497 ERRAVMLDITCDSDGTVDQYvdgqgiETTLPVPaWSAESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A3QDD8|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|B8EAI2|SPEA_SHEB2: domain 1 of 1, from 350 to 566: score 119.9, E = 4.1e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|B8EAI2|   350    VLITDVIGTEAYQPediqppaeespqllhnmwhswselsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  + ++
+  sp|B8EAI2|   397 ieiyhdsqsdlqeahslfalgqlslaerawaeqanlrvchevqgllsakn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|B8EAI2|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  +  +l++ff++GA
+  sp|B8EAI2|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSADSPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|B8EAI2|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A3D3G2|SPEA_SHEB5: domain 1 of 1, from 350 to 566: score 119.9, E = 4.1e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|A3D3G2|   350    VLITDVIGTEAYQPediqppaeespqllhnmwhswselsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  + ++
+  sp|A3D3G2|   397 ieiyhdsqsdlqeahslfalgqlslaerawaeqanlrvchevqgllsakn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|A3D3G2|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  +  +l++ff++GA
+  sp|A3D3G2|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSADSPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A3D3G2|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A6WM65|SPEA_SHEB8: domain 1 of 1, from 350 to 566: score 119.9, E = 4.1e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|A6WM65|   350    VLITDVIGTEAYQPediqppaeespqllhnmwhswselsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  + ++
+  sp|A6WM65|   397 ieiyhdsqsdlqeahslfalgqlslaerawaeqanlrvchevqgllsakn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|A6WM65|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  +  +l++ff++GA
+  sp|A6WM65|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSADSPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A6WM65|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A9KY70|SPEA_SHEB9: domain 1 of 1, from 350 to 566: score 119.9, E = 4.1e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|A9KY70|   350    VLITDVIGTEAYQPediqppaeespqllhnmwhswselsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  + ++
+  sp|A9KY70|   397 ieiyhdsqsdlqeahslfalgqlslaerawaeqanlrvchevqgllsakn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|A9KY70|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  +  +l++ff++GA
+  sp|A9KY70|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSADSPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A9KY70|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|P27116|DCOR_LEIDO: domain 1 of 1, from 509 to 682: score 119.8, E = 4.5e-31
+                CS    EEEEEEEEEEE--S          S-E.. ......EEEEES----S
+                   *->tLvtnVigvkergg..........drkld.lnerlafvyylddGvyg
+                       L++nV + ++++ ++ + +++    +++ ++++++ +y ++dG+y+
+  sp|P27116|   509    ALLMNVFASRTLRLsdvevsrqafQSVVSmDEPEEYQYY-VNDGLYH 554  
+
+                CS -.-CHHHHS----EEECSS                               
+                   slpdpalydalhpilpvsr...............................
+                   s ++++l+d+ hp l++ +++++ ++ +++++     ++++++++ +++ 
+  sp|P27116|   555 S-FNCILFDHAHPTLLLLNdgdgadgvesgteaaavcseeegetslsgpl 603  
+
+                CS                -TTSSEEEEEEE-----TT--SEE.EEEEE...--
+                   ...............ldeeptepvtlaGPtCdsgDvlarFdvsLPlHlel
+                    +++   +  +++++ ++ p++ +t++GPtCds+D++ + ++++P   e+
+  sp|P27116|   604 andplfmsawdrrrsFARRPLRITTIFGPTCDSMDCILK-KQPFP---EM 649  
+
+                CS ----EEEES-----SGCC-B-TTT--.-EEEEE   
+                   evGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   + GD+l+++d+G Yt ++a  FNgf      +v   
+  sp|P27116|   650 KLGDWLLVPDMGSYTTAAAGFFNGFATRRLEWV    682  
+
+sp|Q083L6|SPEA_SHEFN: domain 1 of 1, from 350 to 566: score 119.2, E = 6.6e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ ++++++ ++  ++  ++  + +++ +++  
+  sp|Q083L6|   350    VLITDVIGTEAYQPeniqepsedapqllhnmwqswleisgrydqrai 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|Q083L6|   397 ieiyhdsqsdiseahslfavgqlsladrawaeqanlrvchevkgllsnnn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++++d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|Q083L6|   447 ryhRPVIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  +  +l++ff +GA
+  sp|Q083L6|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSADSPYLIGFFMVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|Q083L6|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|Q8EFU5|SPEA_SHEON: domain 1 of 1, from 350 to 566: score 119.1, E = 7e-31
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++++++++  ++  ++ ++ +++ +++  
+  sp|Q8EFU5|   350    VLITDVIGTEAYQVediqppeeespqllhnmwqswtelsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|Q8EFU5|   397 ieiyhdsqsdlqeaqslfalgqlslaerawaeqanlrvchevqgllstkn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|Q8EFU5|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff +GA
+  sp|Q8EFU5|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSAESPYLIGFFMVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|Q8EFU5|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|B1KRD4|SPEA_SHEWM: domain 1 of 1, from 350 to 566: score 118.6, E = 1e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ ++ ++  ++  ++ ++ +++ +++  
+  sp|B1KRD4|   350    VLITDVIGTEAYKPediqppaedapqllhnmwhswneisgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++ +++ ++ ++    ++ + +++   ++ + +  ++ ++  +++ 
+  sp|B1KRD4|   397 ieiyhdcqsdltevhslfalgqlsltdrawaeqvnlrvchelqgvmssky 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+e+la+  ++++++++slpd +++d+++pi+p+s ld +p
+  sp|B1KRD4|   447 rfhRPIIDeLTEKLADKFFVNFSLFQSLPDAWGIDQVFPIMPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff++GA
+  sp|B1KRD4|   497 ERRAVMLDITCDSDGTIDQYvdgqgiETTLPVPaWSAESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  ++   
+  sp|B1KRD4|   547 YQEILGDMHNLFGDTNSAVI    566  
+
+sp|Q7V3M9|SPEA_PROMP: domain 1 of 1, from 355 to 574: score 118.5, E = 1.1e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++n++g+++++ + + +++++++   ++  ++ ++ ++ ++++++
+  sp|Q7V3M9|   355    VLIFNILGTSHVSSqvkvsdqkkqsliitnlietlnqiknlrdkked 401  
+
+                CS                                                   
+                   ..................................................
+                    ++  +  ++ ++ +++     + +    +++   ++ +    ++  ++ 
+  sp|Q7V3M9|   402 lseiielwndakkfkedclvafrlgficleerayaeeltwacakeianql 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   ++++  +++l+++++ la +yy + +v+ s+pd++++++++pi+p++r+ 
+  sp|Q7V3M9|   452 enneiiHPDLSeITDTLASTYYANLSVFKSIPDTWAINQVFPIIPIHRHL 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eep ++  +a+ tCds+++l++F ++++ + +L lH++e ++++l+++f 
+  sp|Q7V3M9|   502 EEPFCKGHFADLTCDSDGKLNNFidngkiKSLLNLHpPEKNNDYLIGIFM 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   aGAY+e+l++ +N+f+ ++++++   
+  sp|Q7V3M9|   552 AGAYQEALGNFHNLFGNTNVIHI    574  
+
+sp|A8FWJ3|SPEA_SHESH: domain 1 of 1, from 350 to 566: score 117.5, E = 2.2e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     +  ++++++ ++  ++  ++ ++ +++ +++  
+  sp|A8FWJ3|   350    VLITDVIGTEAYKPevieepeteapqllhnmwqswsevsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++ +++ ++ ++    ++ + +++   ++ + +  ++ ++  +++ 
+  sp|A8FWJ3|   397 ieiyhdcqsdlsevhslfalgqlslserawaeqvnlrvchelrdvmspky 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++pi+p+s ld +p
+  sp|A8FWJ3|   447 rfhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPIMPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + + P++++  e  +l++ff++GA
+  sp|A8FWJ3|   497 ERRAVMLDITCDSDGTIDQYvdgqgiETTIPVPtWSAESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A8FWJ3|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|Q0HJY2|SPEA_SHESM: domain 1 of 1, from 350 to 566: score 117.3, E = 2.5e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|Q0HJY2|   350    VLITDVIGTEAYQVediqppaeespqllhnmwqswtelsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|Q0HJY2|   397 ieiyhdsqsdlqeaqslfalgqlslaerawaeqanlrvchevqgllstkn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|Q0HJY2|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff +GA
+  sp|Q0HJY2|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSAESPYLMGFFMVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|Q0HJY2|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|Q0HW78|SPEA_SHESR: domain 1 of 1, from 350 to 566: score 117.3, E = 2.5e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|Q0HW78|   350    VLITDVIGTEAYQVediqppaeespqllhnmwqswtelsgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|Q0HW78|   397 ieiyhdsqsdlqeaqslfalgqlslaerawaeqanlrvchevqgllstkn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|Q0HW78|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff +GA
+  sp|Q0HW78|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSAESPYLMGFFMVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|Q0HW78|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|Q63764|AZIN1_RAT: domain 1 of 1, from 282 to 406: score 117.2, E = 2.7e-30
+                CS    EEEEEEEEEEE--S             S-E........EEEEES---
+                   *->tLvtnVigvkergg.............drkldlnerlafvyylddGv
+                      tL++n+i++k+++ ++ +++ ++++++++         fvyy++dGv
+  sp|Q63764|   282    TLAVNIIAKKVVENdklssgvekngsdEPA--------FVYYMNDGV 320  
+
+                CS -S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EE
+                   ygslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdv
+                   ygs +++ l + l  ++ v+++ +++ep+++++l+GP+Cd +D + +  +
+  sp|Q63764|   321 YGS-FASKLSEDLNTVPEVHKkyKEDEPLFTSSLWGPSCDELDQIVE-SC 368  
+
+                CS EEE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   sLPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   +LP   el vGD+l+f ++GA   +  s F   +rpa++++   
+  sp|Q63764|   369 LLP---ELSVGDWLIFDNMGADSLHGPSAFSDTQRPAIYFM    406  
+
+sp|Q9ZME5|DCDA_HELPJ: domain 1 of 1, from 270 to 377: score 117.1, E = 2.9e-30
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       L+t+V++ k+    ++        fv+ +d+G+++  ++p ly+a 
+  sp|Q9ZME5|   270    ELITQVLYEKKAQN-KR--------FVI-VDAGMNDF-LRPSLYHAK 305  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h i+++ +  + +  p++++GP C+s D++ + d  LP   ele+GD+l+
+  sp|Q9ZME5|   306 HAIRVITPCGGREISPCDVVGPVCESSDTFLK-DANLP---ELEPGDKLA 351  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++ +GAY++s+as++N++p   e ++   
+  sp|Q9ZME5|   352 IEKVGAYGSSMASQYNSRPKLLELAL    377  
+
+sp|A0KVN8|SPEA_SHESA: domain 1 of 1, from 350 to 566: score 117.0, E = 3.1e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ +++++  ++  ++ ++ +++ +++  
+  sp|A0KVN8|   350    VLITDVIGTEAYQVeeiqppaeespqllhnmwqswteisgradqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ ++    ++ +  ++   ++ + +  ++ ++  ++++
+  sp|A0KVN8|   397 ieiyhdsqsdlqeaqslfalgqlslaerawaeqanlrvchevqgllstkn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld +p
+  sp|A0KVN8|   447 ryhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +  e  +l++ff +GA
+  sp|A0KVN8|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWSAESPYLMGFFMVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A0KVN8|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|Q8ZHG8|SPEA_YERPE: domain 1 of 1, from 372 to 588: score 117.0, E = 3.1e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+nVigv +++  ++++++ + ++  ++  ++ ++ ++++++++ 
+  sp|Q8ZHG8|   372    VLVSNVIGVERNEFcepqppeagapraleslwdtwqemqepenrrsl 418  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ +++  ++  + +++   ++   +  ++ +++ ++++
+  sp|Q8ZHG8|   419 rewlhdsqmdlhdvhtqyahgmldlthrawaeqlylsicneiqkqldpsn 468  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld  p
+  sp|Q8ZHG8|   469 rahRPIIDeLQERMADKLYVNFSLFQSMPDAWGIDQLFPVLPLEGLDKPP 518  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds+++++++ ++++  ++ ++P  +++e+  ll+ff +G
+  sp|Q8ZHG8|   519 ERRAVLLDITCDSDGTIDHYidgdgvatTMPMPP-YDPENPPLLGFFMVG 567  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++a V v   
+  sp|Q8ZHG8|   568 AYQEILGNMHNLFGDTAAVDV    588  
+
+sp|B5XUB1|SPEA_KLEP3: domain 1 of 1, from 345 to 561: score 116.8, E = 3.5e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++ +++ ++  ++ ++  ++  + ++++++++ 
+  sp|B5XUB1|   345    VLVSNIIGVERNEYteatppaedaarplqsmwetwlemhetgnrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|B5XUB1|   392 rewlhdsqmdlhdihigyssgtfnlqerawaeqlylnmchevqkqldpsn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+ +y+++++++s+pd +++d+l+p++p++ l+ +p
+  sp|B5XUB1|   442 rahRPIIDeLQERMADKIYVNFSLFQSMPDAWGIDQLFPVMPLEGLNKSP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B5XUB1|   492 ERRAVLLDITCDSDGAIDHYvdgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B5XUB1|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|Q12LW6|SPEA_SHEDO: domain 1 of 1, from 350 to 566: score 116.8, E = 3.5e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ + + ++ ++  ++  ++ ++ +++++++  
+  sp|Q12LW6|   350    VLITDVIGTEAYMPeniqapaedapqllhnmwqswteisgrhdqrai 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++  + ++    ++ +  ++   ++++ +  ++ ++  ++++
+  sp|Q12LW6|   397 ieiyhdsqsdiaeahslfavgqlslmdrawaeqtnlrvchevkgllsnnn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++++d+lne+la+  ++++++++slpd +++d+++p+lp+  ld +p
+  sp|Q12LW6|   447 ryhRPVIDeLNEKLADKLFVNFSLFQSLPDAWGIDQVFPVLPLTCLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++ +++++ +l++ff +GA
+  sp|Q12LW6|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPaWDPANPYLIGFFMVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|Q12LW6|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A2BNH3|SPEA_PROMS: domain 1 of 1, from 355 to 574: score 116.8, E = 3.6e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+g+++++ + +  ++++++   ++  ++  + ++ ++++ +
+  sp|A2BNH3|   355    VLIFNVLGTSHVSSklqifdkknqqliisnlldtfyelkklknkkin 401  
+
+                CS                                                   
+                   ..................................................
+                    ++  +  ++ ++ +++     + +  +  ++   ++ +    ++ +++ 
+  sp|A2BNH3|   402 lsqiielwndakkfkedclvafrlgflslaerayaeeltwacakeisnnl 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   ++++ ++++l++++e la +yy + +++ s+pd++++++++pi+p++r+ 
+  sp|A2BNH3|   452 nndeinHPDLSeITETLASTYYANLSIFKSIPDSWAINQIFPIVPIHRHL 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eep ++  +a+ tCds+++l++F ++++ + +L lH++e + ++l+++f 
+  sp|A2BNH3|   502 EEPFCKGNFADLTCDSDGKLNNFidngkiKSLLNLHkPEEDKDYLIGIFM 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   +GAY+e+l++ +N+f+ +++V++   
+  sp|A2BNH3|   552 TGAYQEALGNLHNLFGSTNVVHI    574  
+
+sp|Q87JS8|SPEA_VIBPA: domain 1 of 1, from 354 to 570: score 116.7, E = 3.8e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nVig+ +   ++ ++ + + +   ++  ++ ++ +++++ +  
+  sp|Q87JS8|   354    VLISNVIGTETYQPeevhelgvdaplllqnmwrnwenlqdgtdaral 400  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++  + +++  ++  + +++   ++ + +   + +++ ++++
+  sp|Q87JS8|   401 ieiyndtqsdlaevhsqfatgvlnleqrawaeqlslriyfelsrkmstkn 450  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ ld+l+erla+  ++++++++slpd +++d+++p+lp+s l +++
+  sp|Q87JS8|   451 rfhRPILDeLSERLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLGDAE 500  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds++ ++++ ++++ + +LP++ +  +  +l++ff++GA
+  sp|Q87JS8|   501 ERRAVMLDITCDSDGAIDHYvdgqgiESTLPVPaWSKDKPYLMGFFLVGA 550  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++   +v   
+  sp|Q87JS8|   551 YQEILGDMHNLFGDTHSAVV    570  
+
+sp|A8H5G3|SPEA_SHEPA: domain 1 of 1, from 350 to 566: score 116.7, E = 3.8e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ ++ ++  ++  ++  + +++ +++  
+  sp|A8H5G3|   350    VLLTDVIGTEAYKPediqppaedapqllhnmwqswievsgkadqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++ +++ ++ ++    ++ +  ++   ++ + +   + +++ + + 
+  sp|A8H5G3|   397 ieiyhdcqsdltevhslfavgqlglaerawaeqvnlrvcyelqgsmsaky 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++++d+lne+la+  ++++++++slpd +++d+++p++p+s ld +p
+  sp|A8H5G3|   447 rfhRPVIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVMPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   + +++  + tCds+++++++ ++++ + +LP++ ++ e  +l++ff++GA
+  sp|A8H5G3|   497 ESRAVMLDITCDSDGTVDQYvegqgiETTLPVPaWTQESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|A8H5G3|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|A3PA96|SPEA_PROM0: domain 1 of 1, from 355 to 574: score 116.6, E = 4.1e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+g+++++ + +  ++++++   ++  ++  + ++ ++++ +
+  sp|A3PA96|   355    VLIFNVLGTSHVSSklqifdkknqqliisnlletyyelkklknkkin 401  
+
+                CS                                                   
+                   ..................................................
+                    ++  +  ++ ++ +++     + +  +  ++   ++      ++ +++ 
+  sp|A3PA96|   402 lsqiielwndakkfkedclvafrlgflslaerayaeelawacakeisnnl 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   ++++ ++++l++++e la +yy + +++ s+pd++++++++pi+p++r+ 
+  sp|A3PA96|   452 nndeinHPDLSeITETLASTYYANLSIFKSIPDSWAINQIFPIVPIHRHL 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eep ++  +a+ tCds+++l++F ++++ + +L lH++e + ++l+++f 
+  sp|A3PA96|   502 EEPFCKGNFADLTCDSDGKLNNFiddgkiKSLLNLHePEKDKDYLIGIFM 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   +GAY+e+l++ +N+f+ +++V++   
+  sp|A3PA96|   552 TGAYQEALGNLHNLFGSTNVVHI    574  
+
+sp|P41023|DCDA_BACMT: domain 1 of 1, from 301 to 409: score 116.4, E = 4.6e-30
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      t ++++ ++k+++  r         +v+ +d+G++++ ++paly+a 
+  sp|P41023|   301    TTLYQIGSRKDVPNVRH--------YVA-VDGGMSDN-IRPALYNAK 337  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   +  ++ +++ +  +e+v++aG +C+sgD l   d +LP   + + +D+l+
+  sp|P41023|   338 YEAVLANKPLAKADETVSIAGKCCESGDMLIW-DLPLP---KADSDDILA 383  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +f +GAY++s+a+n+N +prpa+V+v   
+  sp|P41023|   384 VFCTGAYGYSMANNYNRIPRPAVVFV    409  
+
+sp|B0TQX3|SPEA_SHEHH: domain 1 of 1, from 350 to 566: score 116.4, E = 4.8e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+     ++ +++ ++ ++  ++  ++  + +++ +++  
+  sp|B0TQX3|   350    VLLTDVIGTEAYKPediqppaedapqllhnmwqswvevsgkadqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++ +++ ++ ++    ++ +  ++   ++ + +   + +++ + + 
+  sp|B0TQX3|   397 ieifhdcqsdltevhslfavgqvglaerawaeqvnlrvcyelqgsmsaky 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p++p+s ld +p
+  sp|B0TQX3|   447 rfhRPIIDeLNEKLADKFFVNFSLFQSLPDAWGIDQVFPVMPLSGLDKAP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   + +++  + tCds+++++++ ++++ + +LP++ ++ e  +l++ff++GA
+  sp|B0TQX3|   497 ESRAVMLDITCDSDGTIDQYvdgqgiETTLPVPaWTQESPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f++++  +v   
+  sp|B0TQX3|   547 YQEILGDMHNLFGDTNSAVV    566  
+
+sp|Q31DD8|SPEA_PROM9: domain 1 of 1, from 355 to 574: score 116.4, E = 4.8e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+g+++++ + +  ++++++   ++  ++  + ++ ++++ +
+  sp|Q31DD8|   355    VLIFNVLGTSHVSSklqifdkknqqliisnlletfyelkklknkkin 401  
+
+                CS                                                   
+                   ..................................................
+                    ++  +  ++ ++ +++     + +  +  ++   ++ +    ++ +++ 
+  sp|Q31DD8|   402 lsqiielwndakkfkedclvafrlgflslaerayaeeltwacakeisknl 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   +++  ++++l++++e la +yy + +++ s+pd++++++++pi+p++r+ 
+  sp|Q31DD8|   452 nndainHPDLSeITETLASTYYANLSIFKSIPDSWAINQIFPIVPIHRHL 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eep ++  +a+ tCds+++l++F ++++ + +L lH++e + ++l+++f 
+  sp|Q31DD8|   502 EEPFCKGNFADLTCDSDGKLNNFiddgkiKSLLNLHkPEEDKDYLIGIFM 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   +GAY+e+l++ +N+f+ +++V++   
+  sp|Q31DD8|   552 TGAYQEALGNLHNLFGSTNVVHI    574  
+
+sp|Q96412|SPE1_DIACA: domain 1 of 1, from 491 to 605: score 116.3, E = 4.9e-30
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       Lv++ +gv +     +         +y ++ +v++s+pd +++++l
+  sp|Q96412|   491    ELVSKALGVAD----GV--------CTYNVNLSVFTSIPDFWGIGQL 525  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.   EEEEE.. .-----
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarF...dvsLPlH.lelevG
+                   +pi+p++rld++p ++ +l + tCds++++++F +++ sLPlH+l   +G
+  sp|Q96412|   526 FPIMPIHRLDQQPKARGILSDLTCDSDGKIDKFigdESSLPLHeLSGGEG 575  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++l++f+ GAY e+l+  +N+f+ p++V v   
+  sp|Q96412|   576 YYLGMFLGGAYEEALGGVHNLFGGPSVVRV    605  
+
+sp|A1S712|SPEA_SHEAM: domain 1 of 1, from 350 to 566: score 116.1, E = 5.9e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+t Vig+   + ++ + ++++ ++  ++  ++ ++ +++ +++  
+  sp|A1S712|   350    VLITDVIGTEAYSPedipapeeeapqllhnmwrswneissrldqral 396  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++  + ++    ++ + +++   ++ +    ++ ++  + ++
+  sp|A1S712|   397 ieifhdtqsdlaeaqslfalgqlsledrawaeqcnlavchelqglmnarn 446  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+lne+la+  ++++++++slpd +++d+++p+lp+s ld  p
+  sp|A1S712|   447 ryqRPIIDeLNEKLADRFFVNFSLFQSLPDAWGIDQVFPVLPLSGLDKVP 496  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds+++++++ ++++ + +LP++++  e  +l++ff++GA
+  sp|A1S712|   497 ERRAVMLDITCDSDGIVDQYvdgqgiETTLPVPnWSAEDPYLIGFFLVGA 546  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++ +N+f++++  +v   
+  sp|A1S712|   547 YQEILGDLHNLFGDTNSAVV    566  
+
+sp|A8G243|SPEA_PROM2: domain 1 of 1, from 355 to 574: score 115.5, E = 8.8e-30
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+g+++++ + +  ++++++   ++  ++  + ++ ++++ +
+  sp|A8G243|   355    VLIFNVLGTSHVSSklkiyddkkqsliisnlietfyelkklknkkin 401  
+
+                CS                                                   
+                   ..................................................
+                    ++  +  ++ ++ +++     + +  +  ++   ++ +    ++  ++ 
+  sp|A8G243|   402 lsqiielwndakkfkedclvafrlgflslaerayaeeltwacakeiannl 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   ++++ ++++l +++e la +yy + +++ s+pd++++++++pi+p++r+ 
+  sp|A8G243|   452 nndeinHPDLFeITETLASTYYANLSIFKSIPDCWAINQIFPIMPIHRHL 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eep ++  +a+ tCds+++l+ F ++++ + +L lH++e + ++l+++f 
+  sp|A8G243|   502 EEPFCKGNFADLTCDSDGKLNSFinngkiKSLLNLHePEQDKDYLIGIFM 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   +GAY+e+l++ +N+f+ +++V++   
+  sp|A8G243|   552 TGAYQEALGNLHNLFGNTNVVHI    574  
+
+sp|Q7VEG4|SPEA_PROMA: domain 1 of 1, from 355 to 574: score 115.2, E = 1.1e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nV+g+++++ +   +++++  + ++ +++    ++  ++++ +
+  sp|Q7VEG4|   355    ILIFNVLGTSSVPTqiaietsneclsvknlretlmilhqiceekkid 401  
+
+                CS                                                   
+                   ..................................................
+                    ++ ++  ++  + +++  +  + +  + +++ + ++ +    ++   + 
+  sp|Q7VEG4|   402 vsklqeawndalkfkedalnafrlgfidlterataeqltwacakqiaahl 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   +++ + ++ l+ +n++l+ +yy +++++ s pd++++++l+p lp++rl+
+  sp|Q7VEG4|   452 pndlkiPKELLaINKGLTETYYANISIFRSAPDTWAIQQLFPLLPIHRLQ 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   e p++   +a+ tCds+++larF ++++++++L lH+++ ++++++++f+
+  sp|Q7VEG4|   502 EKPDQLGHFADLTCDSDGKLARFinngqeKFLLELHtVKANENYWIGMFL 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                    GAY+e++++ +N+f+ ++ +++   
+  sp|Q7VEG4|   552 GGAYQEVMGNLHNLFGSTNAIHI    574  
+
+sp|C4K6F4|SPEA_HAMD5: domain 1 of 1, from 346 to 562: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nVigv +++ ++++ +++++++  ++   + ++ ++++++++ 
+  sp|C4K6F4|   346    VLISNVIGVERNEFsppqapekhspraleslwytwqemqkpdhrhsl 392  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++++ ++ +++ +++  + +++   ++   +  ++ +++ ++++
+  sp|C4K6F4|   393 reclhdsqrdlqdvhtqythgildlkqrawaeqlylqichhiqkeldpsd 442  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + ++ ++d+l+er+a+  y+++++++slpd +++++l+pilp++ l++ p
+  sp|C4K6F4|   443 rahRTMIDnLQERMADKLYVNFSLFQSLPDAWGINQLFPILPLEGLNQRP 492  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++l + tCds++++ ++ ++++   +LP ++++ e+  +l+ff +GA
+  sp|C4K6F4|   493 ERRAVLLDITCDSDGIIEHYvdgdgvANTLPIPpYDAENPPILGFFMVGA 542  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++a+V v   
+  sp|C4K6F4|   543 YQEILGNMHNLFGDTAVVEV    562  
+
+sp|B5F5L1|SPEA_SALA4: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B5F5L1|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|B5F5L1|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B5F5L1|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B5F5L1|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B5F5L1|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|Q57K30|SPEA_SALCH: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|Q57K30|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|Q57K30|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|Q57K30|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|Q57K30|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|Q57K30|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|B5FUJ7|SPEA_SALDC: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B5FUJ7|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|B5FUJ7|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B5FUJ7|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B5FUJ7|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B5FUJ7|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|B4THH1|SPEA_SALHS: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B4THH1|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|B4THH1|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B4THH1|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B4THH1|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B4THH1|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|A9N4N1|SPEA_SALPB: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|A9N4N1|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|A9N4N1|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|A9N4N1|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|A9N4N1|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|A9N4N1|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|B4TV55|SPEA_SALSV: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B4TV55|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|B4TV55|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B4TV55|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B4TV55|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B4TV55|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|P60659|SPEA_SALTY: domain 1 of 1, from 371 to 587: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|P60659|   371    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 417  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|P60659|   418 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 467  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|P60659|   468 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 517  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|P60659|   518 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 566  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|P60659|   567 AYQEILGNMHNLFGDTEAVDV    587  
+
+sp|P60658|SPEA_SALTI: domain 1 of 1, from 371 to 587: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|P60658|   371    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 417  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|P60658|   418 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 467  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|P60658|   468 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 517  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|P60658|   518 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 566  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|P60658|   567 AYQEILGNMHNLFGDTEAVDV    587  
+
+sp|B4T5J3|SPEA_SALNS: domain 1 of 1, from 345 to 561: score 114.9, E = 1.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv ++++++++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B4T5J3|   345    VLVSNIIGVERNEYtdptapaedapralqnlwetwqemhkpgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|B4T5J3|   392 rewlhdsqmdlhdihigyssgafslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B4T5J3|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B4T5J3|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B4T5J3|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|P44316|DCDA_HAEIN: domain 1 of 1, from 285 to 391: score 114.9, E = 1.4e-29
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +Lv++V + k+++  r         f++ +d G+++  ++paly+a+
+  sp|P44316|   285    ILVAKVQYLKSNES-RN--------FAI-TDTGMNDM-IRPALYEAY 320  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                     i+ ++r  e + + ++++GP C+  D+l++ +++L     +++GD+++
+  sp|P44316|   321 MNIVEIDRTLEREKAIYDVVGPVCETSDFLGK-QRELS----IAEGDYIA 365  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                     +aGAY+ s++sn+N++ r+aeVlv   
+  sp|P44316|   366 QCSAGAYGASMSSNYNSRARTAEVLV    391  
+
+sp|P22220|SPE1_AVESA: domain 1 of 1, from 355 to 532: score 114.8, E = 1.4e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +++ + ++    + +++++ ++++ +++ ++ +++ ++++ + +++ 
+  sp|P22220|   355    MIILEALSAIPEPKddedeatteqlhgrirdlssklqptglsmssha 401  
+
+                CS                          S-E........EEEEES----S-.-
+                   .........................drkldlnerlafvyylddGvygslp
+                    + ++++ +  + +++ +++ +++ +          + y+++ +v+ ++p
+  sp|P22220|   402 vhikkhgiemyklgkklsksvttdaHTI--------YNYHMNLSVFSLMP 443  
+
+                CS CHHHHS----EEECSS-TTSSEEEEEEE-----TT--SEE.   EEEEE.
+                   dpalydalhpilpvsrldeeptepvtlaGPtCdsgDvlarF...dvsLPl
+                   d +++++l+p +pvsrlde pt+++tl++ tCds++++++F +++ ++Pl
+  sp|P22220|   444 DYWGIQHLFPMMPVSRLDEKPTHKATLVDVTCDSDGKVDKFirdTETMPL 493  
+
+                CS .  .------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   H..lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   H+ ++   G++++++++GAY+e+l++ +N+f+ p+ V v   
+  sp|P22220|   494 HplDPKLGGYYVAVLLTGAYQEALSNKHNLFGGPSLVRV    532  
+
+sp|Q9X5M1|DCDA_MYCS2: domain 1 of 1, from 336 to 449: score 114.7, E = 1.5e-29
+                CS    EEEEEEEEEEE--S    S-E........EEEEES----S-.-CHHH
+                   *->tLvtnVigvkergg....drkldlnerlafvyylddGvygslpdpal
+                      + +++V +vk++  +++ +r+        +v  +d+G++++ +++ l
+  sp|Q9X5M1|   336    ITLYEVGTVKDVAVsqtaHRR--------YVS-VDGGMSDN-IRTSL 372  
+
+                CS HS----EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-----
+                   ydalhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevG
+                   y a++  ++vsr  ++p + + ++G +C+sgD++ r d +     ++++G
+  sp|Q9X5M1|   373 YAAQYDARLVSRVSDAPPALARIVGKHCESGDIVVR-DTWVSD--DIAPG 419  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   Dl+++  +GAY++s++s++N++ rpa+V+v   
+  sp|Q9X5M1|   420 DLIGVAATGAYCYSMSSRYNLLCRPAVVAV    449  
+
+sp|Q9KLD1|SPEA_VIBCH: domain 1 of 1, from 354 to 570: score 114.4, E = 1.9e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+tnVig+   + ++ + ++ + +   ++  ++ ++ +++++++  
+  sp|Q9KLD1|   354    VLITNVIGTEAYSPeeipapgadapmllknmwrgfeevqhgtddral 400  
+
+                CS                                                   
+                   ..................................................
+                    +  ++++++ ++ +++  ++  + +++   ++ + +  ++ +++ ++++
+  sp|Q9KLD1|   401 ieiyndtqsdlseahsqfatgvlnlehrawaeqlslriyhelrqkmsnkn 450  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ ld+l+erla+  ++++++++slpd +++d+++p+lp+s l+e +
+  sp|Q9KLD1|   451 rfhRPILDeLQERLADKFFVNFSLFQSLPDAWGIDQVFPVLPLSGLEEMN 500  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++  + tCds++ + ++ ++++ + +LP++ ++ +  +l++ff++GA
+  sp|Q9KLD1|   501 DRRAVMLDITCDSDGAVEQYvegqgiESTLPVPaWTSDKPYLMGFFLVGA 550  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++   +v   
+  sp|Q9KLD1|   551 YQEILGDMHNLFGDTHSAVV    570  
+
+sp|Q8XCX9|SPEA_ECO57: domain 1 of 1, from 371 to 587: score 114.2, E = 2.2e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|Q8XCX9|   371    VLVSNIIGVERNEYtvptapaedapralqsmwetwqemhepgtrrsl 417  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|Q8XCX9|   418 rewlhdsqmdlhdihigyssgtfslqerawaeqlylsmchevqkqldpqn 467  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|Q8XCX9|   468 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 517  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|Q8XCX9|   518 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 566  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|Q8XCX9|   567 AYQEILGNMHNLFGDTEAVDV    587  
+
+sp|B5YQD6|SPEA_ECO5E: domain 1 of 1, from 345 to 561: score 114.2, E = 2.2e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B5YQD6|   345    VLVSNIIGVERNEYtvptapaedapralqsmwetwqemhepgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|B5YQD6|   392 rewlhdsqmdlhdihigyssgtfslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B5YQD6|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B5YQD6|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B5YQD6|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|Q8FE34|SPEA_ECOL6: domain 1 of 1, from 371 to 587: score 114.2, E = 2.2e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|Q8FE34|   371    VLVSNIIGVERNEYtvptapaedapralqsmwetwqemhepgtrrsl 417  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|Q8FE34|   418 rewlhdsqmdlhdihigyssgtfslqerawaeqlylsmchevqkqldpqn 467  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|Q8FE34|   468 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 517  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|Q8FE34|   518 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 566  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|Q8FE34|   567 AYQEILGNMHNLFGDTEAVDV    587  
+
+sp|B1LDE8|SPEA_ECOSM: domain 1 of 1, from 345 to 561: score 114.2, E = 2.2e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|B1LDE8|   345    VLVSNIIGVERNEYtvptapaedapralqsmwetwqemhepgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|B1LDE8|   392 rewlhdsqmdlhdihigyssgtfslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|B1LDE8|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|B1LDE8|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|B1LDE8|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|Q0T0V3|SPEA_SHIF8: domain 1 of 1, from 345 to 561: score 113.9, E = 2.6e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|Q0T0V3|   345    VLVSNIIGVERNEYtvptapvedapralqsmwetwqemhepgtrrsl 391  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|Q0T0V3|   392 rewlhdsqmdlhdihigyssgtfslqerawaeqlylsmchevqkqldpqn 441  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|Q0T0V3|   442 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 491  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|Q0T0V3|   492 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 540  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|Q0T0V3|   541 AYQEILGNMHNLFGDTEAVDV    561  
+
+sp|Q83Q93|SPEA_SHIFL: domain 1 of 1, from 371 to 587: score 113.9, E = 2.6e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|Q83Q93|   371    VLVSNIIGVERNEYtvptapvedapralqsmwetwqemhepgtrrsl 417  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + ++++ + +++   ++   +  ++ +++ ++++
+  sp|Q83Q93|   418 rewlhdsqmdlhdihigyssgtfslqerawaeqlylsmchevqkqldpqn 467  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|Q83Q93|   468 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 517  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|Q83Q93|   518 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 566  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|Q83Q93|   567 AYQEILGNMHNLFGDTEAVDV    587  
+
+sp|B9M6H6|SPEA_GEOSF: domain 1 of 1, from 346 to 561: score 113.6, E = 3.3e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +LvtnV+ + + + +++ +++    ++  ++ ++  + +++ ++ + 
+  sp|B9M6H6|   346    VLVTNVLNTNTQRLtpdfeeelaaaeklaptvkklvdihksidrysl 392  
+
+                CS                                                   
+                   ..................................................
+                   +++ +++ +  ++  +  + +  + +++   +   ++  ++ ++  ++ +
+  sp|B9M6H6|   393 redyhdtvqliqeavslfnlgyltlneramaewlygkiikkinsivekik 442  
+
+                CS            S-E........EEEEES----S-.-CHHHHS----EEEC
+                   ...........drkldlnerlafvyylddGvygslpdpalydalhpilpv
+                   + +++ ++ + + +         +y+ ++++++s+pd++++d+l+pi+p+
+  sp|B9M6H6|   443 pipeelqnfqlALR--------QTYFANFSLFQSIPDSWAIDQLFPIVPI 484  
+
+                CS SS-TTSSEEEEEEE-----TT--SEE.      EEEEE.. .------EE
+                   srldeeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDll
+                   +rl++ p++ +++a+ tCds++ +  F ++++++  LPlH+ + ++++++
+  sp|B9M6H6|   485 QRLNQKPDVIASIADITCDSDGEITSFvgengrTKFLPLHkIRKDEDYYI 534  
+
+                CS EES-----SGCC-B-TTT--.-EEEEE   
+                   vffdaGAYteslasnFNgfprpaeVlv<-*
+                   +ff+ GAY+e+l++++N+f++++ V++   
+  sp|B9M6H6|   535 GFFLIGAYQEILGDMHNLFGDTNAVHI    561  
+
+sp|P21170|SPEA_ECOLI: domain 1 of 1, from 371 to 587: score 113.6, E = 3.4e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+n+igv +++++ ++ + ++ ++  ++  ++ ++ ++++++++ 
+  sp|P21170|   371    VLVSNIIGVERNEYtvptapaedapralqsmwetwqemhepgtrrsl 417  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ + + +++  + +++   ++   +  ++ +++ ++++
+  sp|P21170|   418 rewlhdsqmdlhdihigyssgifslqerawaeqlylsmchevqkqldpqn 467  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++s+pd +++d+l+p+lp++ ld+ p
+  sp|P21170|   468 rahRPIIDeLQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVP 517  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds++ ++++ ++++  ++ ++P+ +++e+   l+ff +G
+  sp|P21170|   518 ERRAVLLDITCDSDGAIDHYidgdgiatTMPMPE-YDPENPPMLGFFMVG 566  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|P21170|   567 AYQEILGNMHNLFGDTEAVDV    587  
+
+sp|B5EIW4|SPEA_GEOBB: domain 1 of 1, from 425 to 561: score 112.8, E = 5.7e-29
+                CS    EEEEEEEEEEE--S               S-E........EEEEES-
+                   *->tLvtnVigvkergg...............drkldlnerlafvyyldd
+                      ++ +++i +     ++ ++ +++ ++ +   +         +y+ ++
+  sp|B5EIW4|   425    WICSKIIRKINSIVekmkpipdelqnfqlSLR--------QTYFANF 463  
+
+                CS ---S-.-CHHHHS----EEECSS-TTSSEEEEEEE-----TT--SEE.  
+                   GvygslpdpalydalhpilpvsrldeeptepvtlaGPtCdsgDvlarF..
+                   ++++s+pd++++d+l+pi+p++rlde p++ +++a+ tCds++ +  F +
+  sp|B5EIW4|   464 SLFQSIPDSWAIDQLFPIVPIQRLDEKPDVLTSIADITCDSDGEITSFvg 513  
+
+                CS     EEEEE.. .------EEEES-----SGCC-B-TTT--.-EEEEE  
+                   ....dvsLPlH.lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-
+                   +++++ +LPlH+ ++++ ++++ff+ GAY+e+l++++N+f++++ V++  
+  sp|B5EIW4|   514 engrTKALPLHkIKVDEQYYIGFFLIGAYQEILGDMHNLFGDTNAVHI   561  
+
+                CS  
+                   *
+                    
+  sp|B5EIW4|     -   -    
+
+sp|C6E3V4|SPEA_GEOSM: domain 1 of 1, from 425 to 561: score 112.8, E = 5.7e-29
+                CS    EEEEEEEEEEE--S               S-E........EEEEES-
+                   *->tLvtnVigvkergg...............drkldlnerlafvyyldd
+                      ++ +++i +     ++ ++ +++ ++ +   +         +y+ ++
+  sp|C6E3V4|   425    WICSKIIRKINSIVekmkpipdelqnfqlSLR--------QTYFANF 463  
+
+                CS ---S-.-CHHHHS----EEECSS-TTSSEEEEEEE-----TT--SEE.  
+                   GvygslpdpalydalhpilpvsrldeeptepvtlaGPtCdsgDvlarF..
+                   ++++s+pd++++d+l+pi+p++rlde p++ +++a+ tCds++ +  F +
+  sp|C6E3V4|   464 SLFQSIPDSWAIDQLFPIVPIQRLDEKPDVLTSIADITCDSDGEITSFvg 513  
+
+                CS     EEEEE.. .------EEEES-----SGCC-B-TTT--.-EEEEE  
+                   ....dvsLPlH.lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-
+                   +++++ +LPlH+ ++++ ++++ff+ GAY+e+l++++N+f++++ V++  
+  sp|C6E3V4|   514 engrTKALPLHkIKVDEQYYIGFFLIGAYQEILGDMHNLFGDTNAVHI   561  
+
+                CS  
+                   *
+                    
+  sp|C6E3V4|     -   -    
+
+sp|A1AS90|SPEA_PELPD: domain 1 of 1, from 425 to 561: score 112.3, E = 8.2e-29
+                CS    EEEEEEEEEEE--S               S-E........EEEEES-
+                   *->tLvtnVigvkergg...............drkldlnerlafvyyldd
+                      +L t++i +  +  ++ ++ +++ ++ +   +         +y+ ++
+  sp|A1AS90|   425    WLYTRIIKKINNLVekmkpvpeelqnfklSMR--------QTYFANF 463  
+
+                CS ---S-.-CHHHHS----EEECSS-TTSSEEEEEEE-----TT--SEE.  
+                   GvygslpdpalydalhpilpvsrldeeptepvtlaGPtCdsgDvlarF..
+                   ++++s+pd++++d+l+pi+p++rl e p++ +++a+ tCds++ +  F +
+  sp|A1AS90|   464 SLFQSIPDSWAIDQLFPIMPIQRLGEKPDVIASIADITCDSDGEITSFvg 513  
+
+                CS     EEEEE.. .------EEEES-----SGCC-B-TTT--.-EEEEE  
+                   ....dvsLPlH.lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-
+                   +++++ +LPlH+ + ++ ++++ff+ GAY+e+l++ +N+f++++ V++  
+  sp|A1AS90|   514 engrTKYLPLHkIRKNEEYYIGFFLIGAYQEILGDLHNLFGDTNAVHI   561  
+
+                CS  
+                   *
+                    
+  sp|A1AS90|     -   -    
+
+sp|A2BU00|SPEA_PROM5: domain 1 of 1, from 355 to 574: score 112.2, E = 8.6e-29
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++ V+g+++++ + + +++++++   ++  +++++ ++ ++++++
+  sp|A2BU00|   355    VLIFDVLGTSHVSSqikvshqkktsliiknlidthnqlknlrnkked 401  
+
+                CS                                                   
+                   ..................................................
+                    ++  +  ++ ++ +++     + +  + +++   ++ +    ++ +++ 
+  sp|A2BU00|   402 lseiielwndakkfkkdclvafrlgfislgerayaeeltwacakeisshl 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   ++++  +++l++++e l  +yy + +v+ s+pd++++++++pi+p++r+ 
+  sp|A2BU00|   452 dnekiiHPDLSeITETLSSTYYANLSVFKSIPDTWAINQIFPIIPIHRHL 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eep ++  +a+ tCds+++l++F ++++ + +L lH++e ++++l+++f 
+  sp|A2BU00|   502 EEPICKGNFADLTCDSDGKLNNFidngkiKSLLNLHrPEENNDYLIGIFM 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   aGAY+e+l++ +N+f+ ++++++   
+  sp|A2BU00|   552 AGAYQEALGNFHNLFGNTNVIHI    574  
+
+sp|Q8RQM6|DCDA_COREF: domain 1 of 1, from 324 to 437: score 109.3, E = 6.4e-28
+                CS    EEEEEEEEEEE--S    S-E........EEEEES----S-.-CHHH
+                   *->tLvtnVigvkergg....drkldlnerlafvyylddGvygslpdpal
+                      + v++V ++k+++ ++++ r+        ++  +d+G++++ ++pal
+  sp|Q8RQM6|   324    VTVYEVGTIKDVDVddetTRR--------YIS-VDGGMSDN-IRPAL 360  
+
+                CS HS----EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-----
+                   ydalhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevG
+                   y+a +  ++vsr  e++t  + ++G +C+sgD+l + + + P   +++ G
+  sp|Q8RQM6|   361 YGAEYDARVVSRFTEGETTNTRVVGSHCESGDILIN-EATYPS--DIHTG 407  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   Dll+   +GAY+++++s++N f rpa+V v   
+  sp|Q8RQM6|   408 DLLALAATGAYCYAMSSRYNAFARPAVVSV    437  
+
+sp|B4F1A4|SPEA_PROMH: domain 1 of 1, from 347 to 563: score 108.8, E = 8.9e-28
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++nVigv +++ +  +++ ++ +++  +  ++ ++ ++++++++ 
+  sp|B4F1A4|   347    VLISNVIGVERNEFtaitppaedaprpiaslwetweemqtkgnsrsl 393  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ +++  ++  + +++   ++   +  ++ + + ++++
+  sp|B4F1A4|   394 rewlhdsqldlhdvhtqyvhgmlslterawaeelylnicrhiqydldpsn 443  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+ +  y+++++++slpd +++d+l+p+lp++ ld   
+  sp|B4F1A4|   444 rahRPIIDeLQERMSDKFYVNFSLFQSLPDAWGIDQLFPVLPIEGLDKPL 493  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                   +++++l + tCds+++++++ ++++ + ++P + +++e    ++ff +GA
+  sp|B4F1A4|   494 DRRAVLLDITCDSDGIIDHYvdgdgvETTMPMPaYDPEYPPMIGFFMVGA 543  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++a V v   
+  sp|B4F1A4|   544 YQEILGNMHNLFGDTAAVDV    563  
+
+sp|P74576|SPEA1_SYNY3: domain 1 of 1, from 396 to 615: score 108.1, E = 1.5e-27
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L++ V+++ +++ + ++ +++++   ++  ++ ++ + ++ ++  +
+  sp|P74576|   396    VLIFDVVATNDINPplpkvkgkdhailrnlmetwetitvdnyqeayh 442  
+
+                CS                                                S-E
+                   ...............................................drk
+                   + ++ +++  +  + +  + +++ + ++      ++  +  ++++  +++
+  sp|P74576|   443 dveqfkteaislfnfgylglkerakaeelywaccrkilqicrqqeyvPDD 492  
+
+                CS .. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEEE
+                   ld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvtl
+                   l++l+ +la +yy + +v++s pd++++d+l+pi+p++rldeept++ +l
+  sp|P74576|   493 LEnLEVNLASIYYANMSVFQSAPDSWAIDQLFPIMPIHRLDEEPTQRGIL 542  
+
+                CS E-----TT--SEE.      EEEEE..           .------EEEES
+                   aGPtCdsgDvlarF......dvsLPlH...........lelevGDllvff
+                   a+ tCds++++++F + ++ +  L lH+  + +++++++++e+ ++l++f
+  sp|P74576|   543 ADITCDSDGKIDQFidlrdvKSVLELHplievhqpgtpPRVEP-YYLGMF 591  
+
+                CS -----SGCC-B-TTT--.-EEEEE   
+                   daGAYteslasnFNgfprpaeVlv<-*
+                   ++GAY+e++++ +N+f++ ++V++   
+  sp|P74576|   592 LVGAYQEIMGNLHNLFGDINVVHI    615  
+
+sp|A5GB52|SPEA_GEOUR: domain 1 of 1, from 346 to 561: score 107.3, E = 2.6e-27
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +LvtnV+ + + +  ++ + + ++ ++  ++ ++ ++  ++ ++ + 
+  sp|A5GB52|   346    VLVTNVLNTNTQNImpdfeatlneaeklaptvkklediyksidrysl 392  
+
+                CS                                                   
+                   ..................................................
+                   +++ +++ +  ++  +  + +  + +++   +   ++  ++ ++  ++ +
+  sp|A5GB52|   393 redyhdtlqliqeavslfnlgyltlndramaewlygkiirkinsivekik 442  
+
+                CS            S-E........EEEEES----S-.-CHHHHS----EEEC
+                   ...........drkldlnerlafvyylddGvygslpdpalydalhpilpv
+                   + +++ ++ +   +         +y+ ++++++s pd++++d+l+pi+p+
+  sp|A5GB52|   443 pipeelqnfqlSLR--------QTYFANFSLFQSVPDSWAIDQLFPIVPI 484  
+
+                CS SS-TTSSEEEEEEE-----TT--SEE.      EEEEE.. .------EE
+                   srldeeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDll
+                   +rl++ p++ +++a+ tCds++ +  F ++++++  LPlH+ + ++ +++
+  sp|A5GB52|   485 QRLNQKPDVIASIADITCDSDGEITSFvgengrTKFLPLHkIRKDEAYYI 534  
+
+                CS EES-----SGCC-B-TTT--.-EEEEE   
+                   vffdaGAYteslasnFNgfprpaeVlv<-*
+                   +ff+ GAY+e+l++++N+f++++ V++   
+  sp|A5GB52|   535 GFFLIGAYQEILGDMHNLFGDTNAVHI    561  
+
+sp|Q7U3S0|SPEA_SYNPX: domain 1 of 1, from 351 to 570: score 107.1, E = 2.9e-27
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                       Lv+ V+g + ++ + ++ +++++ + ++ +++  + ++ +++ + +
+  sp|Q7U3S0|   351    LLVFDVLGSSALSAsipnasgdepltvrnlrdtlvtiqelsgtadaq 397  
+
+                CS                                                   
+                   ..................................................
+                     + ++  ++  + +++     + +  + +++ + ++ +    +   ++ 
+  sp|Q7U3S0|   398 lvrlqeawndalkfkqdalaafrlgymglpdrasaeqltwacadaiaqrl 447  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   ++++  ++ l+ l+++la +yy + +++ s pd++++d+l+p++p+++l+
+  sp|Q7U3S0|   448 pkeqaiPEELAaLSKALAGTYYANLSIFRSAPDTWAIDQLFPVVPIQKLN 497  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   + pt+ + la+ tCds++ l+rF ++++++++L lH+l+ ++ +l++ f+
+  sp|Q7U3S0|   498 QRPTRLANLADLTCDSDGRLDRFigdgqpKQLLELHeLDDNNPYLIGLFL 547  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                    GAY+e++++ +N+f+ ++ V++   
+  sp|Q7U3S0|   548 SGAYQEVMGNLHNLFGTTNAVHI    570  
+
+sp|A0A4W3|SPEA_GEOSL: domain 1 of 1, from 425 to 561: score 106.7, E = 3.9e-27
+                CS    EEEEEEEEEEE--S                S-E........EEEEES
+                   *->tLvtnVigvkergg................drkldlnerlafvyyld
+                      +L  +++ +   g  ++ ++ +++ ++ +   +         +y+ +
+  sp|A0A4W3|   425    WLHGKILRKIN-GIvekikpipeelqnfqlSLR--------QTYFAN 462  
+
+                CS ----S-.-CHHHHS----EEECSS-TTSSEEEEEEE-----TT--SEE. 
+                   dGvygslpdpalydalhpilpvsrldeeptepvtlaGPtCdsgDvlarF.
+                   +++++s+pd++++d+l+pi+p++rl++ p++ +++a+ tCds++ +  F 
+  sp|A0A4W3|   463 FSLFQSIPDSWAIDQLFPIVPIQRLNQKPDVMASIADITCDSDGEITSFv 512  
+
+                CS      EEEEE.. .------EEEES-----SGCC-B-TTT--.-EEEEE 
+                   .....dvsLPlH.lelevGDllvffdaGAYteslasnFNgfprpaeVlv<
+                   ++++++ +LPlH+ + +++++++ff+ GAY+e+l++++N+f++++ V+v 
+  sp|A0A4W3|   513 gengrTKYLPLHkMRKDEDYFVGFFLIGAYQEILGDMHNLFGDTNAVHV  561  
+
+                CS   
+                   -*
+                     
+  sp|A0A4W3|     -    -    
+
+sp|Q39X78|SPEA_GEOMG: domain 1 of 1, from 425 to 561: score 106.4, E = 4.8e-27
+                CS    EEEEEEEEEEE--S                S-E........EEEEES
+                   *->tLvtnVigvkergg................drkldlnerlafvyyld
+                      +L  +++ +   g  ++ ++ +++ ++ +   +         +y+ +
+  sp|Q39X78|   425    WLHGKILRKIN-GIvekikpipeelqnfqlSLR--------QTYFAN 462  
+
+                CS ----S-.-CHHHHS----EEECSS-TTSSEEEEEEE-----TT--SEE. 
+                   dGvygslpdpalydalhpilpvsrldeeptepvtlaGPtCdsgDvlarF.
+                   +++++s+pd++++d+l+pi+p++rl++ p++ +++a+ tCds++ +  F 
+  sp|Q39X78|   463 FSLFQSIPDSWAIDQLFPIVPIQRLNQKPDVMASIADITCDSDGEITSFv 512  
+
+                CS      EEEEE.. .------EEEES-----SGCC-B-TTT--.-EEEEE 
+                   .....dvsLPlH.lelevGDllvffdaGAYteslasnFNgfprpaeVlv<
+                   ++++++ +LPlH+ + +++++++ff+ GAY+e+l++++N+f++++ V+v 
+  sp|Q39X78|   513 gengrTKYLPLHkIRKDEDYFVGFFLIGAYQEILGDMHNLFGDTNAVHV  561  
+
+                CS   
+                   -*
+                     
+  sp|Q39X78|     -    -    
+
+sp|A1TY02|SPEA_MARAV: domain 1 of 1, from 350 to 566: score 106.3, E = 5e-27
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +LvtnVi++   +++++++++  + + + ++  ++ ++ ++++++++
+  sp|A1TY02|   350    VLVTNVIDREY-PDnreptepaaeapaplqdlwrdleslqdedsprs 395  
+
+                CS                                                   
+                   ..................................................
+                     +  ++  +   + + +  ++  + +++ + ++   +  +  + + ++ 
+  sp|A1TY02|   396 laeiyhdilhamadvhaqfahgllslqeraqaetlyvrccrmlraeldsa 445  
+
+                CS     S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTS
+                   ....drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldee
+                   ++ +++ +d+lne+la   ++++++++slpd +++d+++p++p++ l+++
+  sp|A1TY02|   446 nrahREIIDeLNEKLAEKLFVNFSLFQSLPDVWGIDQIFPVMPINGLNRS 495  
+
+                CS SEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES---
+                   ptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaG
+                     +++++ + tCds++ ++++ ++++ + +LPl++ ++e   l++ff +G
+  sp|A1TY02|   496 LNRRAVIQDITCDSDGRIDQYvdgqgiETTLPLPeHDPESPLLMGFFMTG 545  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++  V v   
+  sp|A1TY02|   546 AYQEILGDMHNLFGDTHSVDV    566  
+
+sp|Q9RXR4|SPEA_DEIRA: domain 1 of 1, from 372 to 586: score 106.0, E = 6.4e-27
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+  V++v   + + ++++ + +++++++  ++  ++ ++ + ++ 
+  sp|Q9RXR4|   372    VLILPVVDVTGPTRnledqeltvpgedshqivrdmyetlenismrny 418  
+
+                CS                                                   
+                   ..................................................
+                   +++ ++  +++++ ++  + +  + +++ +++   +   ++  +  ++++
+  sp|Q9RXR4|   419 resyndavgdkqtlhnlfdlgyvtledrargealfnailrkiakliqgek 468  
+
+                CS   S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSE
+                   ..drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeept
+                     ++ l++l++ la+  ++++++++slpd ++++al+pi+p++rl+e+pt
+  sp|Q9RXR4|   469 yvPDELEdLQKVLADKFICNFSLFQSLPDNWAIGALFPIVPLDRLNEQPT 518  
+
+                CS EEEEEE-----TT--SEE.      EEEEE...------EEEES-----S
+                   epvtlaGPtCdsgDvlarF......dvsLPlHlelevGDllvffdaGAYt
+                   + +tl++ tCds++++ +F + ++ + +LPlH + ++ ++l+ f++GAY+
+  sp|Q9RXR4|   519 RQATLVDITCDSDGKVEKFidlrdvKATLPLHEPGDRPYYLGAFLMGAYQ 568  
+
+                CS GCC-B-TTT--.-EEEEE   
+                   eslasnFNgfprpaeVlv<-*
+                    +l+s +N+f+  +e +v   
+  sp|Q9RXR4|   569 DVLGSAHNLFGKVSEAHV    586  
+
+sp|P09890|DCDA_CORGL: domain 1 of 1, from 310 to 423: score 105.3, E = 1e-26
+                CS    EEEEEEEEEEE--S    S-E........EEEEES----S-.-CHHH
+                   *->tLvtnVigvkergg....drkldlnerlafvyylddGvygslpdpal
+                      + +++V ++k+++ ++++ r+        +++ +d+G++++ ++pal
+  sp|P09890|   310    VTIYEVGTTKDVHVdddkTRR--------YIA-VDGGMSDN-IRPAL 346  
+
+                CS HS----EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...-----
+                   ydalhpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevG
+                   y+  +  ++vsr +e+  +++ ++G +C+sgD+l + d   P   ++  G
+  sp|P09890|   347 YGSEYDARVVSRFAEGDPVSTRIVGSHCESGDILIN-DEIYPS--DITSG 393  
+
+                CS -EEEES-----SGCC-B-TTT--.-EEEEE   
+                   DllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   D+l+   +GAY+++++s++N f rpa+V v   
+  sp|P09890|   394 DFLALAATGAYCYAMSSRYNAFTRPAVVSV    423  
+
+sp|O82475|SPE1_BRAJU: domain 1 of 1, from 390 to 585: score 104.8, E = 1.5e-26
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++ ++  +r+++++++ +   ++ +++ +++ ++  +   ++++
+  sp|O82475|   390    VLIFEAVSAGKRHEttpsdlqfllegyseeargdyenlydavmrgdr 436  
+
+                CS                                              S-E..
+                   .............................................drkld
+                   ++     ++ +++  ++ ++++ + ++  + ++  +  +++ +++d++  
+  sp|O82475|   437 escllyvdqlkqrcveefkegslsieqlagvdglcewvtkeiggsDPV-- 484  
+
+                CS ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEEEE--
+                   lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvtlaGP
+                          +y ++ +v++s+pd +++d+l+pi+p++rld+ p ++ +l + 
+  sp|O82475|   485 ------LTYNVNLSVFHSIPDFWGIDQLFPIVPIHRLDQRPVARGILSDL 528  
+
+                CS ---TT--SEE.   EEEEE...------EEEES-----SGCC-B-TTT--
+                   tCdsgDvlarF...dvsLPlHlelevGDllvffdaGAYteslasnFNgfp
+                   tCds++++++F +++ sLPlH   ++G++l++f+ GAY e+l+  +N+f+
+  sp|O82475|   529 TCDSDGKINKFiggESSLPLHELDNNGYYLGMFLGGAYEEALGGVHNLFG 578  
+
+                CS .-EEEEE   
+                   rpaeVlv<-*
+                    p++V v   
+  sp|O82475|   579 GPSVVRV    585  
+
+sp|Q39827|SPE1_SOYBN: domain 1 of 1, from 401 to 596: score 104.7, E = 1.6e-26
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++ +g+++ +g++ ++  + +   ++ +++ +  ++   +++ +
+  sp|Q39827|   401    VLIFEAVGTSSTNGggappalsahylaeelsedygylselafrgdye 447  
+
+                CS                                             S-E...
+                   ............................................drkldl
+                   +    +++ +++  ++ ++++   ++    ++  +  ++  +  + +   
+  sp|Q39827|   448 tclvyteemkercveqfkqgtvcmeqlaaveglcelvrkavgaaESV--- 494  
+
+                CS .....EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEEEE---
+                   nerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvtlaGPt
+                          y+++ ++++s pd +++++++pi+p++rlde p ++ +l + t
+  sp|Q39827|   495 -----RRYHVNLSIFTSVPDAWGIEQVFPIIPIHRLDEKPSVRGILSDLT 539  
+
+                CS --TT--SEE.   EEEEE.. .------EEEES-----SGCC-B-TTT--
+                   CdsgDvlarF...dvsLPlH.lelevGDllvffdaGAYteslasnFNgfp
+                   Cds++++++F +++ sLPlH+ e  + ++l++f+ GAY e+l+  +N+f+
+  sp|Q39827|   540 CDSDGKIDKFingESSLPLHeMEGGRTYYLGMFLGGAYEEALGGVHNLFG 589  
+
+                CS .-EEEEE   
+                   rpaeVlv<-*
+                    p++V v   
+  sp|Q39827|   590 GPSVVRV    596  
+
+sp|Q7N121|SPEA_PHOLL: domain 1 of 1, from 347 to 563: score 104.7, E = 1.6e-26
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+nVigv +++ ++++++ ++ +++ ++  ++ ++ ++++++++ 
+  sp|Q7N121|   347    VLVSNVIGVERNEFtqttppaedasrpltslwetwqemhsegnrrsl 393  
+
+                CS                                                   
+                   ..................................................
+                   +++ ++++ + ++ +++  ++  + +++   ++   +  ++ +++ ++++
+  sp|Q7N121|   394 reslhdgqldlhdvhtqyahgmldlterawaeelylnicrriqqdldpsn 443  
+
+                CS    S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ...drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   + +++ +d+l+er+a+  y+++++++slpd +++d+l+p+lp++ ld   
+  sp|Q7N121|   444 rahRPIIDeLQERMADKFYVNFSLFQSLPDAWGIDQLFPVLPIEGLDKPL 493  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds+++++++ ++++   + ++P  ++++    ++ff +G
+  sp|Q7N121|   494 DRRAVLLDITCDSDGIVDHYvdgdgvaaTMPMPA-YDPDCPPMIGFFMVG 542  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++a + v   
+  sp|Q7N121|   543 AYQEILGNMHNLFGDTAAIDV    563  
+
+sp|B3EAF3|SPEA_GEOLS: domain 1 of 1, from 346 to 561: score 104.5, E = 1.8e-26
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +LvtnV+ + + +  ++ ++  ++ +++ ++ ++  +  ++ ++ + 
+  sp|B3EAF3|   346    VLVTNVLNTNTQNLmpdyeqileemekpaptvkklldiyksidrysl 392  
+
+                CS                                                   
+                   ..................................................
+                   +++ +++ +  ++  +  + +  + +++   +   ++  ++ ++  ++ +
+  sp|B3EAF3|   393 redyhdtlqlineavslfnlgyltlqdraiaewlyskiikkinsivekik 442  
+
+                CS            S-E........EEEEES----S-.-CHHHHS----EEEC
+                   ...........drkldlnerlafvyylddGvygslpdpalydalhpilpv
+                   + +++ ++ + + +         +y+ ++++++s+pd++++d+l+pi+p+
+  sp|B3EAF3|   443 pipeelqnfqlALR--------QTYFANFSLFQSIPDSWAIDQLFPIMPL 484  
+
+                CS SS-TTSSEEEEEEE-----TT--SEE.      EEEEE.. .------EE
+                   srldeeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDll
+                   +rl + p++ +++a+ tCds++ +  F +++++   LP H+l+ ++++++
+  sp|B3EAF3|   485 QRLGQRPDVMASIADITCDSDGEITSFvgengrSKFLPMHkLKKDEDYYI 534  
+
+                CS EES-----SGCC-B-TTT--.-EEEEE   
+                   vffdaGAYteslasnFNgfprpaeVlv<-*
+                   +ff+ GAY+e+l++ +N+f++++ V++   
+  sp|B3EAF3|   535 GFFLIGAYQEILGDLHNLFGDTNAVHI    561  
+
+sp|A5GWM2|SPEA_SYNR3: domain 1 of 1, from 355 to 566: score 104.5, E = 1.8e-26
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+nV+g + ++ ++ ++  +++    ++ +++ ++ ++++ ++  
+  sp|A5GWM2|   355    VLVFNVLGQSGVNQpsipeavegealivrnlretlsgigpdnlqeaw 401  
+
+                CS                                                   
+                   ..................................................
+                   ++  + +++     + +  + +++++ ++      +   +  +++++ ++
+  sp|A5GWM2|   402 ndalkfkddalaafrlgylsltergkaeqlywaccsaiadllpgeeelpd 451  
+
+                CS        S-E........EEEEES----S-.-CHHHHS----EEECSS-T
+                   .......drkldlnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   + ++ + +           +yy + +v+ s pd++++d+l+p++p++rl+
+  sp|A5GWM2|   452 elkglkaAFA--------STYYANLSVFRSAPDTWAIDQLFPVMPIHRLE 493  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   e+p+e  ++a+ tCds+++larF  +++ + +L lH+l+  + ++++ f+
+  sp|A5GWM2|   494 EQPRELGSFADLTCDSDGKLARFiasgsaKPLLELHeLKDGEPYWIGLFL 543  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                    GAY+e++++ +N+f+ ++ V +   
+  sp|A5GWM2|   544 GGAYQEVMGNLHNLFGSTNAVSI    566  
+
+sp|Q7UTS2|SPEA_RHOBA: domain 1 of 1, from 460 to 592: score 104.0, E = 2.5e-26
+                CS    EEEEEEEEEEE--S  S-E.. ......EEEEES----S-.-CHHHH
+                   *->tLvtnVigvkergg..drkld.lnerlafvyylddGvygslpdpaly
+                       +  +V    e   +++++l++l++ l ++y+ ++++++s+pd++++
+  sp|Q7UTS2|   460    AICHRVRELAESMKerPDDLKhLDRMLSDIYFANFSLFQSMPDSWAI 506  
+
+                CS S----EEECSS-TTSSEEEEEEE-----TT--SEE.      EEEEE.. 
+                   dalhpilpvsrldeeptepvtlaGPtCdsgDvlarF......dvsLPlH.
+                   d+l+pi+p++rl e p + ++l + tCds+++++ F  +++++++L lH+
+  sp|Q7UTS2|   507 DQLFPIMPIHRLLEKPSRHAVLGDITCDSDGKVDAFvcgggrQRTLMLHp 556  
+
+                CS .------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   lelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   l+  + + l++f +GAY+e+l++ +N+f+++  V+v   
+  sp|Q7UTS2|   557 LKSGEPYQLAVFMVGAYQEILGDLHNLFGDTHAVHV    592  
+
+sp|Q9KCM5|DCDA_BACHD: domain 1 of 1, from 301 to 409: score 103.8, E = 3e-26
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      t ++++ ++ke++  r         ++  +d+G++++ ++paly+a 
+  sp|Q9KCM5|   301    TTLYTIGSRKEIPNVRH--------YLS-VDGGMSDN-LRPALYQAE 337  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   +  ++ +r +e+p   +++aG +C+sgD l   d +LP   e +  D+l+
+  sp|Q9KCM5|   338 YEGALANRVNEQPVGMFSVAGKCCESGDMLIW-DLPLP---EANHEDILA 383  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   +f +GAY++s+a+n+N +prp++V+v   
+  sp|Q9KCM5|   384 VFCTGAYGYSMANNYNRIPRPPVVFV    409  
+
+sp|Q96A70|ADC_HUMAN: domain 1 of 1, from 286 to 409: score 103.7, E = 3.1e-26
+                CS    EEEEEEEEEEE--S            S-E........EEEEES----
+                   *->tLvtnVigvkergg............drkldlnerlafvyylddGvy
+                      t+++++i++ke+  ++++++++++++ ++        +vy+ld Gvy
+  sp|Q96A70|   286    TVAVSIIAKKEVLLdqpgreeengstSKT--------IVYHLDEGVY 324  
+
+                CS S-.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEE
+                   gslpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvs
+                   g  ++++l+d + p +++++++  e+p+++++l+GP  d+ D++a+   +
+  sp|Q96A70|   325 GI-FNSVLFDNICPTPILQKkpSTEQPLYSSSLWGPAVDGCDCVAE-GLW 372  
+
+                CS EE...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   LPlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   LP    l+vGD+lvf ++GAYt  ++s F g + + + +    
+  sp|Q96A70|   373 LP---QLHVGDWLVFDNMGAYTVGMGSPFWGTQACHITYA    409  
+
+sp|Q43075|SPE1_PEA: domain 1 of 1, from 494 to 609: score 102.6, E = 6.5e-26
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       L+t+ igvk+    ++          y+++ +v++s pd +++++l
+  sp|Q43075|   494    DLITETIGVKD----PV--------KKYHVNLSVFTSVPDFWGINQL 528  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.   EEEEE..  .----
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarF...dvsLPlH..lelev
+                   +pi+p++rlde pt++ +l + tCds++++++F +++ sLPlH+   +  
+  sp|Q43075|   529 FPIVPIHRLDEKPTARGILSDLTCDSDGKIDKFiggESSLPLHemEGHGG 578  
+
+                CS --EEEES-----SGCC-B-TTT--.-EEEEE   
+                   GDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   G++l++f+ G Y e+l+  +N+f+ p++V v   
+  sp|Q43075|   579 GYYLGMFLGGSYEEALGGLHNLFGGPSVVRV    609  
+
+sp|P72587|SPEA2_SYNY3: domain 1 of 1, from 375 to 587: score 100.6, E = 2.6e-25
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+ V+g    +g +++++++++ ++  ++  +  ++ + ++ +++
+  sp|P72587|   375    VLVFDVLGSNQ-TGfsephppdenahpllknlwecyetitaeqyqeq 420  
+
+                CS                                                  S
+                   .................................................d
+                    ++  + +++ ++  + +  + +++++ ++ +    ++  + +++ +  +
+  sp|P72587|   421 yhdalqlkteasslfnfgylsltergqaeqihwaccrkifeitrqleyiP 470  
+
+                CS -E.. ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEE
+                   rkld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepv
+                   +++  l++ ++++yy++ +v++s p ++  d+l+pilp++ l+e p ++v
+  sp|P72587|   471 EDFQaLDKIMTDIYYVNLSVFQSAPESWSLDQLFPILPIHHLNEKPSQRV 520  
+
+                CS EEE-----TT--SEE.      EEEEE..  .------EEEES-----SG
+                   tlaGPtCdsgDvlarF......dvsLPlH..lelevGDllvffdaGAYte
+                   +la+ tCds+++++rF +  + + +L +H+     + ++l++f++GAY+e
+  sp|P72587|   521 ILADLTCDSDGKIDRFidlwdvKSYLEVHplENDGNPYYLGMFLVGAYQE 570  
+
+                CS CC-B-TTT--.-EEEEE   
+                   slasnFNgfprpaeVlv<-*
+                   ++++ +N+f++ ++V++   
+  sp|P72587|   571 IMGNLHNLFGDINVVHI    587  
+
+sp|Q7TUJ9|SPEA_PROMM: domain 1 of 1, from 355 to 574: score 100.2, E = 3.7e-25
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+ V+g+ +++g  ++++ +++ + ++ +++ ++   ++++  ++
+  sp|Q7TUJ9|   355    ILVFDVLGTGTVPGaipkqtveepltihnlretlsgvmatqkgavse 401  
+
+                CS                                                   
+                   ..................................................
+                    ++ ++  ++  + +++     + +  + +++   ++ ++   +   ++ 
+  sp|Q7TUJ9|   402 isrlqeawndaikfkedalaafrlgyislperalaeqltgacaeaimgql 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   + +++ +++l +l   la +yy + +++ s pd++++++l+p +p++rl+
+  sp|Q7TUJ9|   452 pcnetiPDDLQsLRAVLASTYYANLSIFRSAPDTWAIEQLFPLMPIHRLN 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eept+   +a+ tCds+++l+rF ++++++ +L lH+l+ ++ + +++f+
+  sp|Q7TUJ9|   502 EEPTQLGHFADLTCDSDGKLDRFigngqtKTLLELHnLRQNEAYMIGMFL 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   aGAY+e++++ +N+f+ ++ V++   
+  sp|Q7TUJ9|   552 AGAYQEVMGNLHNLFGSTNAVHI    574  
+
+sp|P49726|SPE1_SOLLC: domain 1 of 1, from 291 to 492: score 98.7, E = 1e-24
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++ ++ ++ + ++++++++ ++  ++ +++ + + ++ +    +
+  sp|P49726|   291    ILIFEAVSASTSHVstqpssgglqslvetlnedaradyrnlsaaavr 337  
+
+                CS                                                 S-
+                   ................................................dr
+                   ++ ++    +++ +++  ++ ++++ + ++    ++  +  ++  +  d+
+  sp|P49726|   338 geydtcliysdqlkqrcveqfkdgsldieqlaavdsicdwvskaigvaDP 387  
+
+                CS E........EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEEE
+                   kldlnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvtl
+                   +         +y+++ +v++s+pd +++ +l+pi+p++rlde pt + +l
+  sp|P49726|   388 V--------RTYHVNLSVFTSIPDFWGFSQLFPIVPIHRLDEKPTMRGIL 429  
+
+                CS E-----TT--SEE.   EEEEE..    .------EEEES-----SGCC-
+                   aGPtCdsgDvlarF...dvsLPlH....lelevGDllvffdaGAYtesla
+                    + tCds++++++F +++ sLPlH+ ++++  + ++l++f+ GAY e+l+
+  sp|P49726|   430 SDLTCDSDGKVDKFiggESSLPLHeigsGDGGR-YYLGMFLGGAYEEALG 478  
+
+                CS B-TTT--.-EEEEE   
+                   snFNgfprpaeVlv<-*
+                     +N+f+ p++V v   
+  sp|P49726|   479 GLHNLFGGPSVVRV    492  
+
+sp|Q9PII5|DCDA_CAMJE: domain 1 of 1, from 270 to 375: score 98.5, E = 1.1e-24
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                       +v++V++ k +   ++        fv+ +d+ ++++ ++p ly+a+
+  sp|Q9PII5|   270    EFVCSVLYEKQNKT-KR--------FVV-VDGAMNDL-IRPSLYEAY 305  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h i++    +++++  ++++G +C+sgD++a+  +sLP    ++ +D++v
+  sp|Q9PII5|   306 HEIILPY--NQGEESLCDVVGGICESGDFFAK-ARSLP---STQSDDIMV 349  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   + ++GAY++s++sn+N +    e ++   
+  sp|Q9PII5|   350 IKNTGAYGFSMSSNYNTRNKVCELAL    375  
+
+sp|A2CDK1|SPEA_PROM3: domain 1 of 1, from 355 to 574: score 98.1, E = 1.5e-24
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+ V+g+ +++g  ++++++++ + ++ +++  +   ++++  ++
+  sp|A2CDK1|   355    ILVFDVLGTGTVPGavpnqtgeepltihnlretlagvmatqkgaase 401  
+
+                CS                                                   
+                   ..................................................
+                    ++ ++  ++  + +++     + +  + +++   ++ +    +   ++ 
+  sp|A2CDK1|   402 isrlqeawndavkfkddalaafrlgyislteralaeqltwacaeaimgql 451  
+
+                CS       S-E.. ......EEEEES----S-.-CHHHHS----EEECSS-T
+                   ......drkld.lnerlafvyylddGvygslpdpalydalhpilpvsrld
+                   + +++ +++l +l   la +yy + +++ s pd++++++l+p +p++rl 
+  sp|A2CDK1|   452 pchetiPDDLQgLRAVLAGTYYANLSIFRSAPDTWAIEQLFPLMPIHRLK 501  
+
+                CS TSSEEEEEEE-----TT--SEE.      EEEEE.. .------EEEES-
+                   eeptepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffd
+                   eept+   +a+ tCds+++l+rF ++++++ +L lH+l+ ++ + +++f+
+  sp|A2CDK1|   502 EEPTQLGHFADLTCDSDGKLDRFigngqtKTLLELHnLRQNEAYMIGMFL 551  
+
+                CS ----SGCC-B-TTT--.-EEEEE   
+                   aGAYteslasnFNgfprpaeVlv<-*
+                   aGAY+e++++ +N+f+ ++ V++   
+  sp|A2CDK1|   552 AGAYQEVMGNLHNLFGSTNAVHI    574  
+
+sp|Q8BVM4|ADC_MOUSE: domain 1 of 1, from 286 to 408: score 97.9, E = 1.7e-24
+                CS    EEEEEEEEEEE--S           S-E........EEEEES----S
+                   *->tLvtnVigvkergg...........drkldlnerlafvyylddGvyg
+                      t+++++++++e+ ++ +++++++  ++         +vyyld Gvyg
+  sp|Q8BVM4|   286    TVAVSIVAKREVLDqasreeqtgaaPKS--------IVYYLDEGVYG 324  
+
+                CS -.-CHHHHS----EEECSS  -TTSSEEEEEEE-----TT--SEE.EEEE
+                   slpdpalydalhpilpvsr..ldeeptepvtlaGPtCdsgDvlarFdvsL
+                     ++++l+d + p + +++++ +++p+++++l+GP  ++ D++a+   +L
+  sp|Q8BVM4|   325 V-FNSVLFDNTCPTPALQKkpSADQPLYSSSLWGPAVEGCDCVAE-GLWL 372  
+
+                CS E...------EEEES-----SGCC-B-TTT--.-EEEEE   
+                   PlHlelevGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                   P    l+vGD+lvf ++GAYt    s   g +   + +    
+  sp|Q8BVM4|   373 P---QLQVGDWLVFDNMGAYTVDTKSLLGGTQARRVTYA    408  
+
+sp|Q9CL60|SPEA_PASMU: domain 1 of 1, from 357 to 573: score 95.7, E = 8e-24
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+nVigv +   ++   + ++ ++  ++  ++  + ++++++++ 
+  sp|Q9CL60|   357    VLVSNVIGVERYKFetlaapakdapsvlhsmwetwvdiqssrekrsl 403  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ + ++ +++ + +  + +++   ++   +  ++ ++  ++++
+  sp|Q9CL60|   404 rswihesqfdlsdvhnqynvgllnleqrawaeqlylnichevgqlfnekh 453  
+
+                CS   S-E .. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ..drk.ld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   +++r+ +d+l+er a+  y+++++++slpd +++d+l+p+ p+s+l++  
+  sp|Q9CL60|   454 rsHRTiIDeLQERFADKLYVNFSLFQSLPDAWGIDQLFPVCPISNLNQPV 503  
+
+                CS EEEEEEE-----TT--SEE.      EEEEE.. .------EEEES----
+                   tepvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGA
+                    ++++l + tCds+++++++ ++++ + ++P +++e ++  ll+ff +GA
+  sp|Q9CL60|   504 SRRAVLLDITCDSDGTIDHYidgdgiTTTMPMPhYEEDNPPLLGFFMVGA 553  
+
+                CS -SGCC-B-TTT--.-EEEEE   
+                   YteslasnFNgfprpaeVlv<-*
+                   Y+e+l++++N+f+++++V v   
+  sp|Q9CL60|   554 YQEILGNMHNLFGDTSTVDV    573  
+
+sp|O23141|SPE2_ARATH: domain 1 of 1, from 481 to 596: score 94.8, E = 1.5e-23
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L  + ig ++    ++        ++y ++ +v++s+pd +++d+l
+  sp|O23141|   481    VL--KAIGASD----PV--------HTYNINLSVFTSIPDLWGIDQL 513  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.   EEEEE..     .-
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarF...dvsLPlH.....le
+                   +pi+p+++ld+ p ++ +l + tCds++++++F +++ sLPlH+ ++++ 
+  sp|O23141|   514 FPIVPIHKLDQRPGARGILSDLTCDSDGKINKFiggESSLPLHeldknGS 563  
+
+                CS -----EEEES-----SGCC-B-TTT--.-EEEEE   
+                   levGDllvffdaGAYteslasnFNgfprpaeVlv<-*
+                     + ++l++f+ GAY e+l+  +N+f+ p++V v   
+  sp|O23141|   564 GGR-YFLGMFLGGAYEEALGGVHNLFGGPSVVRV    596  
+
+sp|Q9SNN0|SPE1_ORYSJ: domain 1 of 1, from 401 to 598: score 94.7, E = 1.6e-23
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv++  + +  +g+ ++ ++   ++ +++ + + ++      +++ 
+  sp|Q9SNN0|   401    VLVFEAFSASA-PGridpatgylldeltddchadyrnlmaaavrgdf 446  
+
+                CS                                              S-E..
+                   .............................................drkld
+                   ++     ++ +++  ++ +++  + ++    ++  +   ++ +  ++   
+  sp|Q9SNN0|   447 dtcalyadqlkrrcadqfkdgvlglehlaavdslceivargmgaaEPP-- 494  
+
+                CS ......EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEEEE--
+                   lnerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvtlaGP
+                          +y+++ +v++slpd +++++ +pi+p++rl e p++  +l + 
+  sp|Q9SNN0|   495 ------RTYHINLSVFTSLPDMWAIGQMFPIIPIQRLGERPAVDGVLSDL 538  
+
+                CS ---TT--SEE.   EEEEE..   .------EEEES-----SGCC-B-TT
+                   tCdsgDvlarF...dvsLPlH...lelevGDllvffdaGAYteslasnFN
+                   tCds++++++F ++  sLPlH+ ++   +G++l++f+ GAY+e+l+  +N
+  sp|Q9SNN0|   539 TCDSDGKVDHFiggRHSLPLHelpVHGTRGYYLGMFLGGAYQEALGGLHN 588  
+
+                CS T--.-EEEEE   
+                   gfprpaeVlv<-*
+                   +f+ p++V v   
+  sp|Q9SNN0|   589 LFGGPSVVRV    598  
+
+sp|P31851|TABA_PSESZ: domain 1 of 1, from 278 to 383: score 92.2, E = 8.9e-23
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +Lv++Vi + ++g  r         +v+ ld++++++ ++p ly+a+
+  sp|P31851|   278    VLVSRVINRCSKG--RE--------IVG-LDASMSAL-MRPGLYGAY 312  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   h+  +    d+ p+ +++++G +C+  D++a  d++LP    + +GDl +
+  sp|P31851|   313 HHLTLPF-ADQRPEGVFDVVGALCENFDKFAV-DRLLP---SPLIGDLAL 357  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++d+GA +++++ ++Ng+ rpae  +   
+  sp|P31851|   358 IHDTGAHGHAMGFTYNGRLRPAELML    383  
+
+sp|Q9JT25|SPEA_NEIMA: domain 1 of 1, from 343 to 559: score 91.8, E = 1.2e-22
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+nVigv +   ++ + ++++ ++  ++  ++ ++ + ++++++ 
+  sp|Q9JT25|   343    VLVANVIGVERYKPrrldapspeaprvlhsmwetwtdisasrekrsl 389  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ +  + +++ + +  +  ++   ++   +  ++ ++  ++++
+  sp|Q9JT25|   390 rswihegqfdladvhnqynvgllslaqrawaeqlylnichevgelfnekh 439  
+
+                CS   S-E .. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ..drk.ld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   +++r+ +d+l+er a+  y+++++++slpd +++d+l+p+ p+  l+e  
+  sp|Q9JT25|   440 rsHRTiIDeLQERFADKLYVNFSLFQSLPDAWGIDQLFPVCPITGLNEPI 489  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds+++++++ ++++  ++ ++P  ++ e+  ll+ff +G
+  sp|Q9JT25|   490 ARRAVLLDITCDSDGTIDHYidgdgiagTMPMPD-YPEEEPPLLGFFMVG 538  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++a+  v   
+  sp|Q9JT25|   539 AYQEILGNMHNLFGDTATADV    559  
+
+sp|Q9K0U3|SPEA_NEIMB: domain 1 of 1, from 343 to 559: score 91.8, E = 1.2e-22
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lv+nVigv +   ++ + ++++ ++  ++  ++ ++ + ++++++ 
+  sp|Q9K0U3|   343    VLVANVIGVERYKPrrldapspeaprvlhsmwetwtdisasrekrsl 389  
+
+                CS                                                   
+                   ..................................................
+                   ++  ++++ +  + +++ + +  +  ++   ++   +  ++ ++  ++++
+  sp|Q9K0U3|   390 rswihegqfdladvhnqynvgllslaqrawaeqlylnichevgelfnekh 439  
+
+                CS   S-E .. ......EEEEES----S-.-CHHHHS----EEECSS-TTSS
+                   ..drk.ld.lnerlafvyylddGvygslpdpalydalhpilpvsrldeep
+                   +++r+ +d+l+er a+  y+++++++slpd +++d+l+p+ p+  l+e  
+  sp|Q9K0U3|   440 rsHRTiIDeLQERFADKLYVNFSLFQSLPDAWGIDQLFPVCPITGLNEPI 489  
+
+                CS EEEEEEE-----TT--SEE.        EEEEE...------EEEES---
+                   tepvtlaGPtCdsgDvlarF........dvsLPlHlelevGDllvffdaG
+                   +++++l + tCds+++++++ ++++  ++ ++P  ++ e+  ll+ff +G
+  sp|Q9K0U3|   490 ARRAVLLDITCDSDGTIDHYidgdgiagTMPMPD-YPEEEPPLLGFFMVG 538  
+
+                CS --SGCC-B-TTT--.-EEEEE   
+                   AYteslasnFNgfprpaeVlv<-*
+                   AY+e+l++++N+f+++a+  v   
+  sp|Q9K0U3|   539 AYQEILGNMHNLFGDTATADV    559  
+
+sp|Q7XRA1|ADC2_ORYSJ: domain 1 of 1, from 381 to 547: score 91.2, E = 1.8e-22
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                       L++++ + +++  ++ ++ +++++ +  +++  + ++++ +  +  
+  sp|Q7XRA1|   381    RLLSKIQDLSSKQPrtahtvnggggvdamhshavelkkhgiemykla 427  
+
+                CS            S-E........EEEEES----S-.-CHHHHS----EEEC
+                   ...........drkldlnerlafvyylddGvygslpdpalydalhpilpv
+                   ++ +++ +++ +          + y+++ +v+ + pd +++++l+p +pv
+  sp|Q7XRA1|   428 kklskrvtgdaNGI--------YNYHMNLSVFSLVPDFWGIGQLFPMMPV 469  
+
+                CS SS-TTSSEEEEEEE-----TT--SEE.   EEEEE..     .------E
+                   srldeeptepvtlaGPtCdsgDvlarF...dvsLPlH.....lelevGDl
+                   srl+e pt   tl++ tCds++++ +F ++ v+LPlH+ ++    + G++
+  sp|Q7XRA1|   470 SRLNEKPTINGTLVDITCDSDGKVEKFirdAVTLPLHplddaAAEHGGYY 519  
+
+                CS EEES-----SGCC-B-TTT--.-EEEEE   
+                   lvffdaGAYteslasnFNgfprpaeVlv<-*
+                   ++ ++ GAY+e+la+ +N+f  p  V v   
+  sp|Q7XRA1|   520 VAALLSGAYQEALACKHNLFSGPTLVRV    547  
+
+sp|Q9SI64|SPE1_ARATH: domain 1 of 1, from 385 to 584: score 88.2, E = 1.5e-21
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +L+++ ++    ++++++++   ++ +++ +++ ++  +   +++++
+  sp|Q9SI64|   385    VLIFEAVSAGQQHEtptdhqfmlegyseevrgdyenlygaamrgdre 431  
+
+                CS                                             S-E...
+                   ............................................drkldl
+                   +     ++ +++  ++ ++++ + ++  + ++  +   +  + +d++   
+  sp|Q9SI64|   432 scllyvdqlkqrcvegfkegslgieqlagvdglcewvikaigasDPV--- 478  
+
+                CS .....EEEEES----S-.-CHHHHS----EEECSS-TTSSEEEEEEE---
+                   nerlafvyylddGvygslpdpalydalhpilpvsrldeeptepvtlaGPt
+                         +y+++ +v++s+pd +++d+l+pi+p+++ld+ p+++ +l + t
+  sp|Q9SI64|   479 -----LTYHVNLSVFTSIPDFWGIDQLFPIVPIHKLDQRPAARGILSDLT 523  
+
+                CS --TT--SEE.   EEEEE..      .------EEEES-----SGCC-B-
+                   CdsgDvlarF...dvsLPlH......lelevGDllvffdaGAYteslasn
+                   Cds++++++F +++ sLPlH+ ++++    + ++l++f+ GAY e+l+  
+  sp|Q9SI64|   524 CDSDGKINKFiggESSLPLHemdnngCSGGR-YYLGMFLGGAYEEALGGV 572  
+
+                CS TTT--.-EEEEE   
+                   FNgfprpaeVlv<-*
+                   +N+f+ p++V v   
+  sp|Q9SI64|   573 HNLFGGPSVVRV    584  
+
+sp|C4L9A9|SPEA_TOLAT: domain 1 of 1, from 433 to 566: score 87.6, E = 2.2e-21
+                CS    EEEEEEEEEEE--SS-E .. ......EEEEES----S-.-CHHHHS
+                   *->tLvtnVigvkerggdrk.ld.lnerlafvyylddGvygslpdpalyd
+                      +L  +V+   +++ +r   d+lne+la+  ++++++++slpd +++d
+  sp|C4L9A9|   433    CLKLKVMLDPVNRMHRNlQDeLNEKLADKCFVNFSLFQSLPDAWGID 479  
+
+                CS ----EEECSS-TTSSEEEEEEE-----TT--SEE.        EEEEE..
+                   alhpilpvsrldeeptepvtlaGPtCdsgDvlarF........dvsLPlH
+                   +++pi+p+s ld++pt++ ++ + tCds++ + ++ ++ + ++  ++P  
+  sp|C4L9A9|   480 QIFPIMPLSGLDQQPTRRGVIMDITCDSDGMIKEYvdgvgienSLPMP-- 527  
+
+                CS .------  EEEES-----SGCC-B-TTT--  .-EEEEE   
+                   lelevGD..llvffdaGAYteslasnFNgfp..rpaeVlv<-*
+                    e++++++++++ff++GAY+e+l++ +N+f++++ aeV++   
+  sp|C4L9A9|   528 -EMRNDEtnYMGFFLVGAYQEILGDLHNLFGdtHSAEVCL    566  
+
+sp|A0KIP8|SPEA_AERHH: domain 1 of 1, from 348 to 564: score 78.4, E = 1.3e-18
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lvtn+ig     + ++ + ++++ ++  ++  ++  + ++++++  
+  sp|A0KIP8|   348    VLVTNIIGAEG-VEmndisapdddaptilqnmwkgwldlrsedpsll 393  
+
+                CS                                                   
+                   ..................................................
+                   +  +++  + ++ +++ + +  + +++   +  ++++    ++  ++ ++
+  sp|A0KIP8|   394 eifhdsvadlgdvntqytmgllnleqrawaemlhqntclalkellnpvnr 443  
+
+                CS  S-E..  ......EEEEES----S-.-CHHHHS----EEECSS-TTSSE
+                   .drkld..lnerlafvyylddGvygslpdpalydalhpilpvsrldeept
+                   ++r l+++l+e+la+  + ++++++slpd +++++++p++p+  l++  t
+  sp|A0KIP8|   444 nHRALAdeLSEKLADKCFANFSLFQSLPDAWGIGQVFPVMPLAGLERPLT 493  
+
+                CS EEEEEE-----TT--SEE.      EEEEE.. .------EEEES-----
+                   epvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAY
+                   ++ +l + tCds++ + ++ ++ + + +LP + +  ++   ++ff++GAY
+  sp|A0KIP8|   494 RRGILMDITCDSDGQVEHYvdglgvESTLPMPvYGEHEECHVGFFLVGAY 543  
+
+                CS SGCC-B-TTT--  .-EEEEE   
+                   teslasnFNgfp..rpaeVlv<-*
+                   +e+l++ +N+f+++++aeV++   
+  sp|A0KIP8|   544 QEILGDLHNLFGdtHCAEVWL    564  
+
+sp|A4SPD6|SPEA_AERS4: domain 1 of 1, from 348 to 564: score 73.6, E = 3.6e-17
+                CS    EEEEEEEEEEE--S                                 
+                   *->tLvtnVigvkergg.................................
+                      +Lvtn ig     + ++ + ++++ ++  ++  ++  + ++++++  
+  sp|A4SPD6|   348    VLVTNLIGAEG-VEmsdisapdedaptllqnmwqgwldlrgedpsll 393  
+
+                CS                                                   
+                   ..................................................
+                   +  +++  + ++ +++ + +  + +++   +  ++++    ++  ++ ++
+  sp|A4SPD6|   394 eifhdsvadlgdvntqytmgllnleqrawaemlhqntclalkemlnpvnr 443  
+
+                CS  S-E..  ......EEEEES----S-.-CHHHHS----EEECSS-TTSSE
+                   .drkld..lnerlafvyylddGvygslpdpalydalhpilpvsrldeept
+                   ++r l+++l+e+la+  + ++++++slpd +++++++p++p+  ld+   
+  sp|A4SPD6|   444 nHRALAdeLSEKLADKCFANFSLFQSLPDAWGIGQVFPVMPLTGLDRPLS 493  
+
+                CS EEEEEE-----TT--SEE.      EEEEE.. .------EEEES-----
+                   epvtlaGPtCdsgDvlarF......dvsLPlH.lelevGDllvffdaGAY
+                   ++ +l + tCds++ + ++ ++ + + +LP +++e ++  +++ff++GAY
+  sp|A4SPD6|   494 RRGILMDITCDSDGQVEHYvdglgvESTLPMPqYEENEVCYVGFFLVGAY 543  
+
+                CS SGCC-B-TTT--  .-EEEEE   
+                   teslasnFNgfp..rpaeVlv<-*
+                   +e+l++ +N+f+++++aeV++   
+  sp|A4SPD6|   544 QEILGDLHNLFGdtHCAEVCL    564  
+
+sp|P55709|Y4YA_RHISN: domain 1 of 1, from 324 to 439: score 23.1, E = 0.0018
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      + v+++  vk +g  +         +v+++ ++ +     ++ +   
+  sp|P55709|   324    ITVFRISRVKALGP-DS--------HVIFVEGSSFSA--CETWFASE 359  
+
+                CS --EEECSS     -TTSSEEEEEEE-----TT--S EE.EEEEE...---
+                   hpilpvsr.....ldeeptepvtlaGPtCdsgDvl.arFdvsLPlHlele
+                   + i p+  + ++   + p +++ laG +C+  Dv+++r   ++P    ++
+  sp|P55709|   360 FLIDPILVpatkaTVQLPPVRAYLAGHSCLDEDVIsNR-WLTFPT--APR 406  
+
+                CS ---EEEES-----SGCC-B -TTT--.-EEEEE   
+                   vGDllvffdaGAYteslas.nFNgfprpaeVlv<-*
+                   +GDllv+ ++G Y++ l  + F  +p+pa ++v   
+  sp|P55709|   407 AGDLLVYANTGGYQMDLLEnEFHRHPMPARFCV    439  
+
+sp|O81160|SPE2_THECC: domain 1 of 1, from 341 to 406: score -9.6, E = 1.1
+                CS    EEEEEEEEEEE--SS-E........EEEEES----S-.-CHHHHS--
+                   *->tLvtnVigvkerggdrkldlnerlafvyylddGvygslpdpalydal
+                      +L  + ig ++    ++        ++y ++ +v++s+pd +++d+l
+  sp|O81160|   341    VL--KAIGASD----PV--------HTYNINLSVFTSIPDLWGIDQL 373  
+
+                CS --EEECSS-TTSSEEEEEEE-----TT--SEE.EEEEE...------EEE
+                   hpilpvsrldeeptepvtlaGPtCdsgDvlarFdvsLPlHlelevGDllv
+                   +pi+p+++ld+ p ++ +l + tCds++++++                  
+  sp|O81160|   374 FPIVPIHKLDQRPGARGILSDLTCDSDGKINK------------------ 405  
+
+                CS ES-----SGCC-B-TTT--.-EEEEE   
+                   ffdaGAYteslasnFNgfprpaeVlv<-*
+                                            +   
+  sp|O81160|   406 -------------------------F    406  
+
+
+Histogram of all scores:
+score    obs    exp  (one = represents 368 sequences)
+-----    ---    ---
+<-187     18      -|=                                                          
+ -187      0      0|                                                           
+ -186      0      0|                                                           
+ -185      1      0|=                                                          
+ -184      1      0|=                                                          
+ -183      1      0|=                                                          
+ -182      1      0|=                                                          
+ -181      2      0|=                                                          
+ -180      2      0|=                                                          
+ -179      7      0|=                                                          
+ -178      6      0|=                                                          
+ -177     14      0|=                                                          
+ -176     14      0|=                                                          
+ -175     17      0|=                                                          
+ -174     17      0|=                                                          
+ -173     36      0|=                                                          
+ -172     48      0|=                                                          
+ -171     65      0|=                                                          
+ -170     61      0|=                                                          
+ -169     67      0|=                                                          
+ -168     79      0|=                                                          
+ -167    125      0|=                                                          
+ -166     97      0|=                                                          
+ -165    103      0|=                                                          
+ -164    133      0|=                                                          
+ -163    136      0|=                                                          
+ -162    109      0|=                                                          
+ -161    171      0|=                                                          
+ -160    122      0|=                                                          
+ -159    235      0|=                                                          
+ -158    158      0|=                                                          
+ -157    103      0|=                                                          
+ -156    149      0|=                                                          
+ -155    123      0|=                                                          
+ -154    154      0|=                                                          
+ -153    121      0|=                                                          
+ -152    115      0|=                                                          
+ -151     98      0|=                                                          
+ -150     86      0|=                                                          
+ -149    123      0|=                                                          
+ -148    112      0|=                                                          
+ -147    116      0|=                                                          
+ -146    113      0|=                                                          
+ -145    128      0|=                                                          
+ -144    123      0|=                                                          
+ -143    125      0|=                                                          
+ -142    153      0|=                                                          
+ -141    119      0|=                                                          
+ -140    132      0|=                                                          
+ -139    146      0|=                                                          
+ -138    183      0|=                                                          
+ -137    205      0|=                                                          
+ -136    297      0|=                                                          
+ -135    267      0|=                                                          
+ -134    278      0|=                                                          
+ -133    401      0|==                                                         
+ -132    571      0|==                                                         
+ -131    341      0|=                                                          
+ -130    426      0|==                                                         
+ -129    416      0|==                                                         
+ -128    361      0|=                                                          
+ -127    396      0|==                                                         
+ -126    439      0|==                                                         
+ -125    407      0|==                                                         
+ -124    416      0|==                                                         
+ -123    384      0|==                                                         
+ -122    403      0|==                                                         
+ -121    476      0|==                                                         
+ -120    497      0|==                                                         
+ -119    583      0|==                                                         
+ -118    506      0|==                                                         
+ -117    569      0|==                                                         
+ -116    653      0|==                                                         
+ -115    724      0|==                                                         
+ -114    817      0|===                                                        
+ -113    975      0|===                                                        
+ -112    867      0|===                                                        
+ -111   1055      0|===                                                        
+ -110   1129      0|====                                                       
+ -109   1130      0|====                                                       
+ -108   1173      0|====                                                       
+ -107   1303      0|====                                                       
+ -106   1511      0|=====                                                      
+ -105   1761      0|=====                                                      
+ -104   1598      0|=====                                                      
+ -103   1922      0|======                                                     
+ -102   1956      0|======                                                     
+ -101   2171      0|======                                                     
+ -100   2341      0|=======                                                    
+  -99   2531      0|=======                                                    
+  -98   2977      0|=========                                                  
+  -97   3395      0|==========                                                 
+  -96   3552      0|==========                                                 
+  -95   3786      0|===========                                                
+  -94   4681      0|=============                                              
+  -93   5018      0|==============                                             
+  -92   5434      0|===============                                            
+  -91   5767      0|================                                           
+  -90   6231      0|=================                                          
+  -89   7348      9|*===================                                       
+  -88   8000     63|*=====================                                     
+  -87   8823    285|*=======================                                   
+  -86   9568    957|==*=======================                                 
+  -85  10619   2509|======*======================                              
+  -84  12082   5363|==============*==================                          
+  -83  13504   9681|==========================*==========                      
+  -82  14969  15206|=========================================*                 
+  -81  15881  21295|============================================             * 
+  -80  17604  27128|================================================          *
+  -79  18526  31969|===================================================       *
+  -78  19609  35332|======================================================    *
+  -77  20829  37040|========================================================= *
+  -76  21100  37180|==========================================================*
+  -75  21674  36011|==========================================================*
+  -74  21586  33869|==========================================================*
+  -73  20963  31094|========================================================= *
+  -72  20694  27986|========================================================= *
+  -71  19128  24780|====================================================      *
+  -70  18231  21650|==================================================        *
+  -69  16942  18707|===============================================   *        
+  -68  14710  16019|========================================   *               
+  -67  13068  13616|====================================*                      
+  -66  11524  11502|===============================*                           
+  -65   9842   9668|==========================*                                
+  -64   8643   8093|=====================*==                                   
+  -63   7470   6752|==================*==                                      
+  -62   6099   5617|===============*=                                          
+  -61   5084   4663|============*=                                             
+  -60   4216   3863|==========*=                                               
+  -59   3641   3195|========*=                                                 
+  -58   2752   2640|=======*                                                   
+  -57   2382   2179|=====*=                                                    
+  -56   1809   1796|====*                                                      
+  -55   1477   1480|====*                                                      
+  -54   1200   1219|===*                                                       
+  -53    943   1003|==*                                                        
+  -52    814    825|==*                                                        
+  -51    660    679|=*                                                         
+  -50    542    558|=*                                                         
+  -49    333    459|=*                                                         
+  -48    341    377|=*                                                         
+  -47    246    310|*                                                          
+  -46    152    255|*                                                          
+  -45    131    209|*                                                          
+  -44    104    172|*                                                          
+  -43    103    141|*                                                          
+  -42     84    116|*                                                          
+  -41     58     95|*                                                          
+  -40     51     78|*                                                          
+  -39     41     64|*                                                          
+  -38     40     52|*                                                          
+  -37     43     43|*                                                          
+  -36     37     35|*                                                          
+  -35     24     29|*                                                          
+  -34     18     24|*                                                          
+  -33     20     19|*                                                          
+  -32     10     16|*                                                          
+  -31     13     13|*                                                          
+  -30      8     10|*                                                          
+  -29      9      9|*                                                          
+  -28      7      7|*                                                          
+  -27      4      6|*                                                          
+  -26      3      4|*                                                          
+  -25      3      4|*                                                          
+  -24      3      3|*                                                          
+  -23      3      2|*                                                          
+> -22    171      -|=                                                          
+
+
+% Statistical details of theoretical EVD fit:
+              mu =   -75.9194
+          lambda =     0.1968
+chi-sq statistic = 6930210.0000
+  P(chi-square)  =          0
+
+Total sequences searched: 516081
+
+Whole sequence top hits:
+tophits_s report:
+     Total hits:           450
+     Satisfying E cutoff:  170
+     Total memory:         106K
+
+Domain top hits:
+tophits_s report:
+     Total hits:           450
+     Satisfying E cutoff:  450
+     Total memory:         1738K
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmm
new file mode 100755
index 0000000..4573ba9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmm
@@ -0,0 +1,845 @@
+HMMER3/b [3.0 | March 2010]
+NAME  US2
+ACC   PF02476.8
+DESC  US2 family
+LENG  126
+ALPH  amino
+RF    no
+CS    no
+MAP   yes
+DATE  Mon Sep  7 22:59:25 2009
+NSEQ  15
+EFFN  2.047119
+CKSUM 2472745667
+GA    25.00 25.00
+TC    30.90 30.00
+NC    19.50 18.80
+STATS LOCAL MSV       -9.7952  0.71252
+STATS LOCAL VITERBI  -10.9655  0.71252
+STATS LOCAL FORWARD   -3.6497  0.71252
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.40416  3.88727  3.02777  2.71996  3.50350  3.04063  3.68795  2.91827  2.73527  2.47221  3.79267  3.14159  2.96869  3.12969  2.82102  2.62876  2.82660  2.71389  3.82655  3.54759
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.00000        *
+      1   2.34670  4.31682  4.05439  3.47793  3.32776  3.84938  2.66035  2.76495  3.37158  1.91436  2.57028  3.74974  4.21994  3.62661  3.60715  3.12590  3.01755  2.57121  4.84475  2.07695      1 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      2   4.15109  5.41832  5.42701  5.12700  3.63307  4.95879  5.56595  2.91941  4.90612  0.30047  3.51230  5.34507  5.30002  5.06992  4.93276  4.72612  4.42698  3.14284  5.71796  4.60202      2 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      3   2.78851  3.29911  3.01652  2.11986  4.42653  3.55112  2.90636  3.87477  2.55345  3.42519  4.21014  1.66336  3.96682  2.90860  3.02817  2.48585  3.02647  3.50167  5.61559  4.24398      3 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      4   2.85690  5.24798  2.62409  2.51660  4.61040  3.07734  3.84047  4.07378  2.62028  3.59668  4.37518  3.05819  4.00214  2.65336  2.76841  1.22963  3.10897  3.66811  5.76382  4.37314      4 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      5   2.93924  5.43691  2.31179  1.96566  4.78534  1.78663  3.87667  4.27598  2.70919  3.76708  4.53863  3.01513  2.87530  2.99941  3.23222  2.10783  3.19391  3.84234  5.91568  4.48077      5 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      6   2.27068  4.39378  3.82717  3.25144  3.51479  3.79342  4.05933  2.03881  3.15326  2.07705  3.49214  3.60400  4.16789  3.04032  2.21285  3.05466  3.00285  2.30840  4.99351  3.77854      6 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      7   2.39276  4.35611  3.83322  3.26034  2.63725  3.77416  4.04981  2.17538  3.18990  2.30768  3.46595  3.60261  2.51739  3.46719  2.89178  2.41776  2.97839  2.61815  4.95386  3.73937      7 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      8   2.77438  5.03745  2.80692  2.40818  4.30229  1.87938  3.78588  2.58629  2.57007  3.31114  4.11303  3.08503  3.97144  2.92514  2.40773  2.57025  3.00881  3.38593  5.53284  4.18255      8 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+      9   2.26357  4.86562  3.25007  2.86977  4.62106  3.45159  4.12399  4.05685  2.96536  3.65600  4.45463  1.32649  2.19487  3.28964  3.40591  2.81724  2.51509  3.59508  5.86238  4.54173      9 - -
+          2.68620  4.42227  2.77522  2.73126  3.46356  2.40515  3.72444  3.29356  2.67743  2.69357  4.24692  2.90349  2.73723  3.18149  2.89803  2.37889  2.77522  2.98521  4.58479  3.61505
+          0.10458  2.35793  5.36366  0.28724  1.38763  0.48576  0.95510
+     10   2.32704  4.96701  3.16601  2.60379  4.21007  3.59040  3.14525  3.62727  2.55302  3.22503  4.03822  3.12005  3.97901  2.53692  1.84100  2.79768  2.77734  2.98540  5.46067  2.92940     11 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+     11   2.72336  4.43267  3.45279  2.90685  3.65155  3.63604  3.86407  3.04486  2.87173  2.07245  3.60133  3.33274  1.93599  3.18048  3.24557  2.50041  2.61116  2.81257  4.91977  3.80947     12 - -
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+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    106   2.24969  5.18261  3.02028  2.34513  4.50002  2.92416  3.71971  3.96582  2.26215  3.16840  4.23224  2.62895  2.63145  2.82642  2.60656  2.47703  2.68781  3.55864  5.63359  4.24132    151 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    107   2.54480  5.19454  3.01926  2.28075  4.51583  3.52840  3.13617  3.98409  2.22358  3.48883  3.25181  3.00605  2.86978  2.62450  2.33315  2.31545  2.73674  3.57242  5.64099  4.24677    152 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    108   2.75016  4.94404  3.15695  2.59825  4.18659  3.57990  3.78426  3.60250  2.57547  2.91718  4.01983  2.74281  2.45182  2.93536  2.20518  2.34303  2.41397  3.27998  4.04575  4.11719    153 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    109   2.26398  4.05764  3.06560  2.51036  4.39901  2.54896  3.74443  3.84602  2.25272  3.39150  4.16777  3.04422  2.87524  2.65445  2.72131  2.11768  2.97823  3.46818  5.57898  4.20769    154 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07101  4.64131  2.83186  0.61958  0.77255  0.48576  0.95510
+    110   2.76046  5.18472  3.00395  2.14146  4.50877  2.70367  3.72285  3.96985  2.25781  3.48012  4.24247  3.01090  2.26603  2.83274  2.52479  2.73721  2.40165  3.56643  5.63555  4.25085    155 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01527  4.58557  5.30792  0.61958  0.77255  0.58724  0.81161
+    111   2.72495  3.64578  2.90703  2.43828  4.04379  3.57864  3.26343  3.12969  2.32905  2.35403  3.90883  3.13631  3.96679  2.96174  2.23423  2.78756  2.74555  3.14825  3.96310  4.03786    156 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01527  4.58557  5.30792  0.61958  0.77255  0.58724  0.81161
+    112   2.36733  5.16210  2.66615  2.21124  4.47780  2.57108  3.70469  3.94260  2.45333  3.01517  4.21303  2.99176  3.34689  2.81242  2.29049  2.70597  2.53911  3.53735  5.61502  4.22334    157 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01527  4.58557  5.30792  0.61958  0.77255  0.42716  1.05658
+    113   2.23858  5.19833  2.68293  2.32073  4.52113  3.52509  3.71637  3.46002  2.46106  3.49447  4.24607  2.64293  3.16012  2.82081  2.30857  2.18857  2.73621  3.57719  5.64569  4.24893    158 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    114   2.77687  5.17264  2.99356  2.19205  4.51615  2.93141  3.77364  3.97692  2.53960  3.50160  4.26921  3.03705  2.84869  2.63710  3.02507  1.68315  2.47437  3.57428  5.67067  4.28366    159 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    115   2.75506  5.14749  3.05477  2.49544  4.45073  3.54533  2.93714  3.90425  1.95330  3.43204  4.20043  3.03276  3.48597  2.66623  2.19703  2.34045  2.74582  3.51581  4.10147  3.44313    160 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04795  4.64131  3.29222  0.61958  0.77255  0.48576  0.95510
+    116   2.29258  5.21021  2.66721  2.09998  4.54181  3.15684  3.69956  4.01831  2.20694  3.50980  3.67373  2.98317  3.02034  2.80053  2.69211  2.27795  2.73869  3.59366  5.65123  4.24857    161 - -
+          2.68608  4.42153  2.77540  2.73125  3.46374  2.40533  3.72515  3.29374  2.67737  2.69375  4.24710  2.90367  2.73659  3.18167  2.89821  2.37865  2.77502  2.98506  4.58497  3.61523
+          1.03604  1.08222  1.18319  0.78012  0.61314  0.54780  0.86328
+    117   2.25146  3.34797  3.21827  2.66147  3.80998  3.48648  2.82319  3.19585  2.62422  2.85967  3.71377  3.13239  3.29098  2.97014  2.76963  2.72203  2.28613  2.91880  5.16656  3.88540    165 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02143  4.24953  4.97187  0.61958  0.77255  0.97957  0.47076
+    118   2.61874  3.30041  3.32643  2.76674  3.67714  3.52511  3.79442  3.06405  2.69957  2.74844  3.62048  3.21139  2.41839  3.04980  2.54662  2.55147  2.86257  2.80887  5.07144  2.94192    166 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02143  4.24953  4.97187  0.61958  0.77255  0.38435  1.14223
+    119   2.36083  5.15406  2.78361  2.44457  4.47236  3.18076  3.69921  3.93730  2.30369  3.45009  4.20725  2.36792  3.89960  2.80680  2.58538  2.05051  2.69872  3.13452  5.60931  4.21780    167 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01553  4.56863  5.29098  0.61958  0.77255  0.41262  1.08446
+    120   2.45907  5.16227  3.06375  2.51036  4.48827  2.61532  3.74374  3.94254  2.33588  3.46364  4.23106  3.04487  3.94748  2.61687  1.91221  2.29289  2.58381  3.54755  5.62736  4.25201    168 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    121   2.16139  4.89249  3.18907  2.63201  4.13532  3.58364  3.80487  3.54372  2.61330  2.54550  3.98445  2.86416  2.78143  2.96674  2.24003  2.31734  2.98107  2.96206  5.42013  4.09838    169 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    122   2.17513  4.59415  3.46236  2.90262  2.59822  3.66477  3.92779  3.14543  2.86587  2.61239  3.71079  3.34807  2.23059  3.19205  2.76821  2.35756  2.98284  2.89681  5.17528  3.91568    170 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    123   1.99124  0.82259  4.67453  4.42051  4.70714  3.29895  5.05582  4.04283  4.30022  3.83321  4.67760  4.05218  4.12111  4.48969  4.40915  1.92222  3.09031  3.47984  6.12915  5.00807    171 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    124   1.93752  1.92547  3.85874  3.30112  3.06163  3.70994  4.11007  2.92026  3.22956  2.65677  3.56237  3.62086  4.14531  2.82845  3.52799  3.00106  2.34259  2.69523  5.04878  3.83334    172 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    125   2.18980  3.60284  3.75529  2.69618  3.52002  3.31856  4.02480  2.04105  3.12555  2.60032  3.50132  3.55083  4.13272  3.41120  3.44366  2.41189  2.34683  2.66004  3.91422  3.76507    173 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01443  4.64131  5.36366  0.61958  0.77255  0.48576  0.95510
+    126   2.20111  2.53484  3.59831  3.04097  3.72004  3.66353  4.00344  3.08392  2.75594  2.24706  3.67475  3.44385  2.80871  3.30799  3.36083  2.05562  2.98643  2.83921  5.14818  3.90786    174 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00974  4.63662        *  0.61958  0.77255  0.00000        *
+//
+HMMER3/b [3.0 | March 2010]
+NAME  Glyco_transf_28
+ACC   PF03033.13
+DESC  Glycosyltransferase family 28 N-terminal domain
+LENG  139
+ALPH  amino
+RF    no
+CS    yes
+MAP   yes
+DATE  Thu Sep 17 23:04:26 2009
+NSEQ  43
+EFFN  7.057312
+CKSUM 3380827595
+GA    26.20 26.20
+TC    26.20 26.20
+NC    26.10 26.10
+STATS LOCAL MSV      -10.0618  0.71071
+STATS LOCAL VITERBI  -10.4218  0.71071
+STATS LOCAL FORWARD   -4.4128  0.71071
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.29906  4.54364  3.15651  2.76769  3.29612  2.64211  3.58261  2.82374  2.88391  2.34808  3.70210  3.32574  3.10653  3.21062  2.94601  2.81037  2.84731  2.47823  4.62934  3.62497
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.00000        *
+      1   2.93769  3.13941  5.38672  4.77915  1.70122  4.59823  4.94655  1.56606  4.56954  2.44086  3.87341  4.76449  4.95352  4.70242  4.57916  3.91536  3.63400  1.37878  5.42857  3.63284      1 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      2   1.77095  4.68927  5.27047  4.65832  3.31701  3.83403  4.82903  2.39711  4.44825  1.50386  3.45619  4.65027  4.85348  4.58284  4.46249  3.80410  2.61655  1.47616  5.32437  4.14802      2 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      3   3.45918  5.40997  6.12011  5.52243  1.94161  5.40694  5.74121  2.17953  5.34266  0.78755  3.05347  5.58027  5.62291  5.34535  5.31319  4.75257  4.34343  1.97842  5.99770  4.93331      3 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      4   1.20249  4.71476  5.01357  4.41617  3.81699  4.43509  4.76547  2.76611  4.25382  2.00341  3.24629  4.51673  4.80462  4.43173  4.35078  2.51054  1.90927  2.46657  5.34242  4.15992      4 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      5   1.99076  3.76121  4.62866  4.06843  4.09298  1.74549  4.75721  2.82870  3.98098  3.18175  4.09010  4.31070  3.62899  4.23085  4.22666  1.89520  2.10421  2.12195  5.58008  4.38005      5 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      6   3.05486  3.17617  5.19573  4.58377  2.89352  1.40599  3.60302  2.22944  4.37947  2.59647  2.94002  4.59133  4.80934  4.51996  4.40504  2.86784  3.51340  2.58711  5.28457  2.19123      6 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      7   2.90647  5.45675  5.35380  5.39797  6.34621  0.24861  6.30413  5.88868  5.65251  5.56345  6.30355  5.02196  2.59956  5.71616  5.70684  3.74536  4.12958  4.91021  7.63753  6.63559      7 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      8   2.34387  5.36275  4.84523  4.50611  5.62866  4.14471  3.59200  5.08251  4.51339  4.74135  5.53867  4.58734  4.91065  4.79173  4.81730  1.42337  0.66712  4.46356  6.95540  5.76208      8 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+      9   1.95982  5.39273  4.39775  3.89193  5.32274  1.43454  4.98655  4.75551  3.80515  4.37259  5.16973  4.21038  4.76129  4.17417  1.04376  2.96811  3.18345  3.41887  6.58573  5.32380      9 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     10   2.58632  5.35332  5.69345  5.71014  6.28930  0.25536  6.35160  5.81044  5.74688  5.50139  6.22075  5.04638  5.02879  5.78916  5.72542  2.98462  3.14628  4.81448  7.62314  6.62906     10 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     11   3.25814  6.94187  0.89104  3.31537  6.24123  4.41195  0.91182  6.01827  4.35918  5.46015  6.39812  3.90853  5.13197  4.34973  5.06102  4.18591  4.69472  5.50334  7.49624  5.87450     11 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     12   3.90367  5.18630  5.94646  5.38362  2.46567  5.25482  5.68940  1.33591  5.22278  2.13244  3.53464  5.42275  5.54472  5.35790  5.25870  4.60625  3.18817  0.97168  6.08782  4.92497     12 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     13   3.22232  5.27822  3.72298  1.45248  1.99544  4.08888  3.61428  3.17259  3.15001  3.51945  4.36031  3.66254  4.47638  2.12662  3.59291  2.96374  3.09243  3.29794  5.80516  2.66914     13 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     14   3.48649  5.29936  4.47447  4.16607  4.84597  3.32975  5.14778  3.01735  4.16787  3.26115  4.84776  3.40279  0.43566  4.49613  4.45155  3.69924  3.88213  3.86894  6.28840  5.05292     14 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     15   1.53476  2.80103  5.12925  4.52164  2.19640  3.10133  4.76405  2.37630  4.33128  2.00233  3.79164  3.67050  4.80133  4.48397  4.37992  2.45051  3.51226  2.92128  5.29325  3.07608     15 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     16   2.23872  4.67144  5.21055  4.59885  3.76547  4.45731  3.90974  1.96305  3.55578  1.54186  3.04678  4.60491  4.82083  4.53407  4.41834  3.76705  3.03012  1.38752  5.29624  4.11920     16 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     17   0.64640  5.20116  4.86088  4.39518  4.97477  3.23067  5.26249  4.35449  4.34217  3.31640  4.92946  4.51377  2.17913  4.60590  4.63081  2.35957  3.79305  2.78916  6.39453  5.19925     17 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     18   3.30712  5.06645  5.74351  5.14848  2.78190  4.99659  5.36022  2.18938  4.95723  0.90493  3.48161  5.16414  5.30378  5.05860  4.96393  4.32753  3.47155  1.43086  5.76818  4.62457     18 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     19   1.07810  4.81373  4.49293  3.91499  3.50455  1.84064  4.60811  2.83063  3.45245  2.79008  3.37036  4.20966  4.69595  4.08450  3.57683  3.19768  3.13014  2.76876  5.41712  4.21299     19 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     20   2.96691  5.68829  2.79227  2.26176  5.02518  3.97404  3.74366  3.67819  2.14960  2.54298  4.73110  2.96936  3.65265  2.54279  2.12052  3.16329  3.08283  2.65727  2.84086  4.71993     20 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     21   1.82278  5.70319  3.45057  1.48668  5.04581  2.65068  3.46686  4.52945  2.52120  4.00704  4.74467  3.44258  4.36746  2.98482  2.41797  3.16335  2.56127  4.09255  6.13697  3.56547     21 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     22   3.36704  5.76646  6.50911  5.93220  2.76232  5.86450  6.18025  3.23546  5.78063  0.35768  3.86169  6.05638  5.96605  5.66411  5.71567  5.24870  4.74311  2.35973  6.23979  5.22216     22 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     23   2.79302  5.56427  3.52094  2.71798  4.85170  4.00514  4.19861  2.85053  2.14289  2.90492  3.14258  3.49984  3.70763  1.72000  1.78011  2.99898  3.43705  3.54174  6.03273  4.66043     23 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     24   2.04287  5.70988  2.78101  2.18866  5.05596  3.30252  3.66219  4.54256  1.98829  3.36426  4.75031  2.78846  4.36380  3.03673  1.68184  3.15888  2.89920  4.10107  6.14189  4.73044     24 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     25   2.29742  5.66410  3.11196  2.23103  3.59540  3.97986  4.16881  4.46354  2.60504  2.55241  4.70971  3.45484  4.37288  2.46995  1.46390  2.89791  3.43014  4.04472  6.10798  3.15213     25 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     26   3.09021  6.33437  2.23725  2.33922  5.65040  0.64949  3.94386  5.16047  3.56024  4.63976  5.43511  3.32053  4.76867  3.78451  4.12190  3.68142  4.03547  3.74190  6.78902  5.31295     26 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.08630  5.64863  2.53628  0.61958  0.77255  0.48576  0.95510
+     27   2.63094  4.79226  4.39260  3.81746  3.88703  4.26730  1.06098  2.56147  3.73551  2.99292  3.90348  3.51166  2.65694  4.00073  4.00531  3.53497  3.45230  2.84521  3.27651  3.21654     27 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00569  5.56802  6.29037  0.61958  0.77255  0.56361  0.84199
+     28   2.57555  5.68647  1.79201  1.53095  5.03256  3.54239  3.62795  3.79209  2.73080  3.99218  4.72691  2.66405  4.33972  2.53170  2.65296  2.84029  3.18899  4.07766  6.11849  4.70679     28 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00548  5.60582  6.32816  0.61958  0.77255  0.68958  0.69673
+     29   2.91482  5.20632  5.97928  5.45483  4.54426  5.34591  5.90750  2.30908  5.32991  3.22994  2.92963  5.52263  5.65674  5.53303  5.42376  4.72118  3.01553  0.45118  6.35187  5.14753     29 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04072  5.60582  3.31795  0.61958  0.77255  0.37662  1.15892
+     30   2.78418  3.20493  3.60021  2.48528  4.61850  3.65024  2.85423  2.37366  2.51471  3.35137  4.45489  3.56042  4.41643  3.38369  1.48829  2.86688  2.90601  3.03938  5.88801  4.55533     30 - E
+          2.68608  4.42275  2.77569  2.73173  3.46102  2.40563  3.72544  3.29250  2.67767  2.69333  4.24669  2.90396  2.73789  3.18196  2.89851  2.37937  2.77504  2.98455  4.57879  3.61300
+          0.34725  1.23236  6.33742  0.80968  0.58879  0.39547  1.11891
+     31   4.53873  5.75446  6.55803  5.97666  3.02975  5.93546  6.26709  1.70405  5.83403  1.02657  1.75033  6.11817  6.00569  5.71555  5.76757  5.32049  4.74858  1.70804  6.30950  5.33623     34 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     32   1.22361  2.59319  5.19534  4.63581  4.05921  1.35468  4.99828  2.73712  4.47459  2.68792  4.06367  4.66358  4.89913  4.64941  4.56620  3.77918  3.65406  2.64489  5.59421  4.41467     35 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     33   2.00418  4.91140  3.54520  3.66802  4.03922  4.25893  4.52307  2.75137  3.22216  2.57063  4.01816  4.04235  4.63648  3.48576  3.93635  2.62032  1.61359  1.63268  5.50191  4.27890     36 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     34   2.84176  4.00494  2.92926  2.55045  5.04013  3.27450  2.32021  3.59682  2.11985  4.00246  4.74038  3.44080  1.69079  2.79466  3.38770  2.62233  2.76225  4.08740  6.13364  4.72491     37 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     35   2.68417  4.09987  2.83001  2.15608  5.04162  3.23200  4.15929  4.52528  2.59986  3.51937  4.74136  2.83550  1.42691  3.25669  2.38398  2.96726  3.42812  4.08870  6.13447  3.76893     38 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     36   2.43836  5.70832  2.08920  2.35861  5.05226  1.82382  4.16067  4.53761  2.71269  3.50119  4.74943  2.06172  4.36661  3.25752  2.49249  2.91624  3.43110  3.40545  6.14161  4.73103     39 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     37   2.61030  3.43970  5.24278  4.62763  2.37418  3.75644  4.78445  2.29887  4.41313  1.32478  2.27768  4.61252  4.81479  3.61984  4.42232  2.71603  3.51426  2.60976  5.27908  3.16351     40 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     38   2.40219  5.58102  2.73385  1.71973  4.87498  3.59313  4.19150  3.11744  2.40033  3.25786  3.63655  3.48893  4.39025  3.30743  2.37825  3.19202  2.84596  2.05258  6.04558  4.66777     41 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     39   2.49830  5.70978  2.22143  1.89093  5.05601  2.83567  3.24683  4.54282  2.42560  4.01556  4.75014  3.02675  2.98146  3.25263  2.64723  2.27352  2.60190  4.10105  6.14177  3.86904     42 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     40   2.61860  5.43884  3.33103  2.59194  1.81097  3.59668  3.74596  4.10636  2.58550  2.34755  3.64065  3.55918  4.42562  2.77398  2.21118  3.01901  2.85160  3.77503  3.89975  3.82894     43 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02653  5.64863  3.78708  0.61958  0.77255  0.48576  0.95510
+     41   2.66121  3.82660  5.21391  3.67621  3.74204  4.43902  4.77197  1.92212  4.39010  1.71667  3.76798  4.59447  3.49216  4.52553  4.40602  3.74954  2.74998  1.26252  3.83796  4.09540     44 - H
+          2.68629  4.42256  2.77550  2.73132  3.46322  2.40528  3.72525  3.29292  2.67748  2.69386  4.24720  2.90349  2.73745  3.18177  2.89831  2.37886  2.77550  2.98279  4.58508  3.61534
+          0.44923  1.02128  6.34981  0.14679  1.99126  0.42420  1.06217
+     42   2.36158  5.67378  3.18340  1.30053  5.00423  3.97795  4.16657  3.62471  2.43915  2.61708  4.71838  3.45126  2.62530  3.26783  2.72511  3.16804  2.61242  4.05655  6.11527  4.71347     47 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     43   2.09482  5.70944  2.93148  1.86851  4.09524  3.01564  4.15679  4.54218  2.16693  4.01514  4.74985  3.07122  4.36331  2.28885  2.98050  2.15760  2.54681  4.10061  6.14153  4.72996     48 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     44   1.37795  5.59810  2.72586  2.66246  3.54866  3.99406  3.01272  4.35411  2.76220  3.88412  3.86262  3.48136  4.38635  3.08036  2.77423  2.53766  2.67144  2.88052  6.05851  3.30217     49 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     45   3.43900  5.95053  3.06829  2.62341  5.27529  0.73752  3.66539  4.76248  2.74184  3.56430  5.00693  2.97992  3.19127  3.48010  3.66405  3.38625  3.68011  4.33227  6.38687  4.96145     50 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     46   3.62830  4.97273  5.60246  4.99568  3.91313  4.83895  5.17776  1.70333  4.79337  0.82878  3.48700  5.00296  3.92535  4.89214  4.79513  4.16106  3.85804  2.01387  5.60263  3.01791     51 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     47   2.20363  5.70614  2.84393  2.02712  3.88221  3.57770  3.28411  3.81338  2.53473  4.01126  4.74691  3.11940  2.35105  2.65918  3.38505  2.52356  2.03209  4.09657  6.13907  4.72835     52 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     48   1.53220  4.67593  5.10933  4.50286  1.72721  3.00917  3.26134  2.61191  4.31649  2.40265  3.36689  4.55098  4.79872  4.47274  4.37192  3.22166  2.86114  2.67789  5.29552  2.70776     53 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02654  5.64863  3.78667  0.61958  0.77255  0.48576  0.95510
+     49   2.59726  3.69266  3.35513  2.14185  4.58314  4.04375  3.30169  3.08155  2.74922  3.61016  4.43182  3.58683  4.43284  3.08861  2.58365  3.24922  3.07762  1.39867  5.86897  3.22793     54 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00536  5.62745  6.34980  0.61958  0.77255  0.59288  0.80460
+     50   2.02433  5.59387  3.19472  2.50997  3.31322  3.27205  4.17198  3.71170  2.71896  2.97911  4.64572  3.46572  1.60144  3.03703  3.04646  2.59347  2.69579  3.96193  6.05232  4.66799     55 - E
+          2.68632  4.42239  2.77533  2.73137  3.46253  2.40526  3.72433  3.29368  2.67754  2.69344  4.24703  2.90360  2.73753  3.18160  2.89814  2.37864  2.77533  2.98502  4.58491  3.61444
+          0.09997  2.37097  6.34980  0.68011  0.70636  0.42417  1.06222
+     51   3.52305  4.87060  5.50860  4.90571  3.28941  4.73605  5.08176  1.30851  4.70206  1.70387  3.90213  4.90031  5.07667  4.82497  4.71148  4.05711  3.22394  1.78054  5.53856  1.84927     58 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     52   2.52287  5.71937  2.73186  2.65862  5.06259  1.33820  4.17038  4.54809  2.77856  4.02400  4.76126  2.85203  2.43436  3.09621  3.18303  2.83662  2.52390  4.10917  6.15305  4.74172     59 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     53   2.38129  3.97034  2.94555  3.39667  4.22295  2.40721  4.41226  2.69831  3.36561  2.30587  4.16490  3.84357  2.10361  3.68447  3.02463  2.27801  2.80648  2.62282  5.63439  4.37896     60 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     54   2.96696  5.71030  1.72735  2.08512  5.05645  2.38575  4.15721  4.54322  2.53100  4.01604  4.75071  3.00889  3.34656  2.57570  2.42393  2.71658  3.22414  3.07544  6.14232  4.73065     61 - -
+          2.68746  4.42877  2.77440  2.73159  3.45260  2.40950  3.72897  3.29357  2.68070  2.68873  4.22499  2.90492  2.73863  3.18036  2.89318  2.38258  2.77818  2.98609  4.55047  3.61741
+          2.01323  0.83442  0.83859  2.91745  0.05559  0.48576  0.95510
+     55   2.71559  4.63275  2.73754  3.28298  3.76598  3.92470  4.18187  2.76732  3.23370  2.07565  3.03079  3.67787  3.31885  3.53077  2.92523  2.74929  2.23309  1.90940  5.21791  3.98787     98 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00923  5.08545  5.80780  0.61958  0.77255  0.41001  1.08958
+     56   3.11524  4.09333  3.13042  2.11992  4.96994  2.28768  4.07612  4.45567  1.91303  3.33072  4.66588  3.35666  2.82995  2.11598  2.63155  2.74853  2.73280  4.01563  6.05795  4.64722     99 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00607  5.50261  6.22496  0.61958  0.77255  0.68595  0.70040
+     57   2.28834  3.10713  4.89876  4.30090  2.46962  2.63000  3.18895  3.08141  4.14358  1.64921  3.75884  2.77682  4.71910  4.32651  3.38156  3.27050  3.44932  2.25175  4.11093  3.03842    100 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00576  5.55637  6.27872  0.61958  0.77255  0.68924  0.69707
+     58   2.48006  5.63553  2.99990  2.71338  4.96617  2.84013  4.12769  4.44205  2.30454  3.46989  3.58326  3.16028  2.55512  2.81658  2.11805  3.12898  3.39102  3.41817  2.08033  4.67490    101 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00561  5.58154  6.30389  0.61958  0.77255  0.78589  0.60828
+     59   1.76074  5.64497  3.06412  2.66361  4.05670  2.70523  4.12515  4.45834  2.62401  3.57293  3.96575  2.60328  4.33022  2.90254  1.81302  2.64234  3.14605  3.08582  6.08393  4.67934    102 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.47096  5.58154  0.98931  0.61958  0.77255  0.78589  0.60828
+     60   2.92901  5.40252  3.19260  2.63642  4.73274  2.84765  3.17005  4.20790  1.70319  3.06882  4.44722  2.79566  3.46837  2.65930  2.58117  2.40018  3.16005  3.36670  5.84392  2.86540    103 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00892  5.11950  5.84185  0.61958  0.77255  1.65400  0.21231
+     61   2.71954  4.47966  4.28092  3.05375  2.45816  2.35097  4.33004  2.64096  3.60132  1.71120  3.59268  3.29059  3.16693  3.84339  3.82738  2.85097  3.19239  2.43189  3.46820  3.88738    104 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.59971  5.11950  0.80957  0.61958  0.77255  0.12741  2.12334
+     62   2.75641  5.52008  2.43083  2.13625  3.01651  3.81258  2.73982  4.33313  2.73967  2.52151  3.44889  2.69618  3.69288  2.20468  2.56131  3.00209  3.26602  3.90502  5.95915  4.55467    105 - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00710  5.34689  6.06923  0.61958  0.77255  0.17434  1.83265
+     63   2.93156  5.39101  3.21807  2.85940  3.02655  3.60411  3.66496  2.97648  2.81288  2.79671  2.39298  3.29713  3.27144  2.97026  3.09653  2.06517  2.12913  2.99917  5.89819  4.56826    106 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     64   2.85405  4.92131  4.21394  3.09028  2.73502  2.88202  4.51324  2.79873  3.12173  2.06118  3.43003  2.80232  2.48812  3.51144  3.50041  2.28401  3.48236  2.52668  3.99314  3.13413    107 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     65   2.18577  5.70999  2.92312  2.43867  5.05629  2.38183  3.77229  4.54314  1.91183  4.01579  4.75033  3.13425  3.33471  2.50443  2.78465  2.40124  2.34743  4.10129  6.14192  4.73022    108 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     66   2.42950  5.31553  2.94072  2.67974  2.86570  2.71143  4.28526  2.85069  2.63839  2.59373  2.73029  2.33872  4.46197  3.46067  3.56693  2.93913  2.25464  3.21841  5.83797  4.52626    109 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     67   2.77454  4.65931  5.23283  4.61841  2.52057  3.55452  4.78329  2.23351  3.82360  1.23264  2.54256  4.60848  2.54131  4.53993  4.41913  3.76115  3.51469  2.37577  5.28089  3.38487    110 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     68   3.04262  4.98391  4.09260  3.52583  3.63948  3.50396  4.46666  3.02695  1.81750  2.15838  3.06580  3.60942  2.99945  3.78836  2.57627  2.63501  2.30923  2.49145  4.14650  4.32539    111 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     69   2.68671  5.69628  2.32394  1.92589  4.02485  3.54535  4.15988  3.77377  2.89641  3.02316  4.73817  2.96854  2.89536  3.03652  2.70378  1.92840  2.47329  3.70395  6.13179  4.72369    112 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     70   2.38136  4.68585  3.85119  4.44534  2.46680  3.28060  4.74832  2.23586  4.27119  1.70165  3.80368  4.52149  2.23481  4.43846  4.34773  3.39443  2.55937  2.00994  5.30460  4.12368    113 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     71   1.72806  5.13536  3.30862  3.30834  2.62686  2.93130  3.50501  3.68209  2.87051  2.08371  3.80103  3.30949  3.15147  3.11546  3.69686  2.93090  3.46258  2.99635  3.22528  3.32108    114 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     72   2.20142  5.70751  2.22427  2.00944  5.05281  3.97006  3.47617  3.45608  2.10414  3.05500  4.74812  3.11891  4.36354  2.85186  2.28636  2.46014  3.42752  4.09827  6.14006  3.67366    115 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+     73   2.98899  5.62738  3.04307  2.40484  3.17942  1.91518  4.17821  3.25308  2.35484  2.65389  4.67695  3.12112  4.37995  2.65802  2.40309  2.90408  3.43123  2.59260  6.08055  4.69065    116 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.48938  5.64863  0.95849  0.61958  0.77255  0.48576  0.95510
+     74   2.64351  3.86966  3.15364  2.74504  3.20339  2.23793  4.15291  2.93647  3.11579  1.92930  3.88371  2.98399  4.29497  3.43261  2.71041  2.83215  3.20209  3.06839  3.34654  3.48892    117 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00850  5.16775  5.89010  0.61958  0.77255  1.60393  0.22453
+     75   2.94982  5.40323  2.87386  2.66563  4.72503  3.38255  3.92229  3.12306  1.92087  2.79413  4.45008  2.76418  3.39974  2.32999  2.16678  2.72879  2.97179  3.35731  3.91643  4.45367    118 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00850  5.16775  5.89010  0.61958  0.77255  1.26752  0.33063
+     76   1.81340  3.78371  3.42935  2.31059  3.38159  2.18972  3.30623  3.76844  2.86173  2.98918  4.21279  3.38324  4.22598  2.74893  3.31837  2.49701  2.74174  3.16240  5.65115  4.32885    119 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00791  5.23893  5.96128  0.61958  0.77255  1.37458  0.29162
+     77   2.69052  4.45556  4.80081  4.19881  3.10308  4.19049  4.51247  2.09205  4.02743  1.85851  2.80123  3.28743  3.45060  3.43425  2.67982  3.49218  2.70438  1.99627  4.02885  3.04691    120 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00771  5.26549  5.98784  0.61958  0.77255  1.48523  0.25676
+     78   2.78557  5.38999  2.93809  2.06487  3.17737  3.14727  3.28276  3.11929  2.24437  2.82631  4.44309  3.05855  4.18303  3.09706  2.00276  2.98404  3.22867  2.75343  5.85133  4.47010    121 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00771  5.26549  5.98784  0.61958  0.77255  1.33587  0.30507
+     79   2.50593  5.50917  2.71686  2.03831  4.01322  3.78239  3.96981  4.33394  1.96062  2.78785  4.55080  3.25127  4.17578  2.12450  2.61451  2.46171  2.92227  3.40908  5.94404  4.53534    122 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00750  5.29208  6.01443  0.61958  0.77255  1.44807  0.26791
+     80   1.66738  4.46548  4.84856  4.24476  3.00862  3.26867  4.53446  2.15265  4.06710  2.23341  3.58343  4.31279  4.57588  4.23119  4.13752  2.25837  2.39931  2.17307  3.58597  3.90416    123 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00750  5.29208  6.01443  0.61958  0.77255  0.98829  0.46555
+     81   2.69056  5.29644  2.73558  2.48675  2.65949  3.88633  4.08802  2.91712  2.11360  2.68551  3.03458  3.04979  4.27659  3.23082  2.23675  3.08725  2.58739  3.63353  5.79235  3.78293    124 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     82   2.29313  4.21160  2.97361  1.84382  3.19787  3.83391  4.02282  4.32456  1.95806  3.82052  3.47459  3.30824  4.22697  2.73981  2.32504  2.86268  2.83366  3.90397  5.96564  3.35013    125 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     83   2.28796  4.63786  4.37566  3.37693  3.23701  3.27415  3.64746  1.94900  3.27839  1.95255  3.75014  4.07563  4.54351  3.95357  3.19804  2.48478  2.56295  2.18135  5.24262  3.60616    126 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     84   3.40562  4.75828  5.37798  4.76440  2.56606  4.59467  4.91240  1.91343  4.55410  0.93541  2.82609  4.76052  4.91756  4.64152  4.54549  3.91332  3.63324  2.48246  3.11876  3.48243    127 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     85   2.22701  5.53802  3.07557  1.99716  4.87239  3.23474  4.01906  2.86055  1.81715  2.84721  4.58150  3.30254  3.50270  2.94930  2.66047  2.51456  3.28425  3.92290  5.97715  3.75153    128 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     86   2.69734  5.51614  2.62869  2.09497  4.84143  3.16832  4.02440  2.87874  2.37555  2.88014  3.02088  2.78727  2.96992  3.12744  2.58017  2.61677  3.05181  3.08716  5.96085  4.56214    129 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     87   2.35444  5.32429  2.57373  2.59301  2.47508  2.88939  3.39015  3.45494  2.50035  2.72605  4.38956  2.97353  4.26968  2.41714  3.33431  3.07839  3.07107  2.96892  4.16855  3.35312    130 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00685  5.38293  6.10528  0.61958  0.77255  1.30051  0.31799
+     88   3.05352  3.68078  3.06639  2.24322  2.98604  3.83380  4.02269  4.32537  1.83085  2.71355  4.56818  3.04450  3.50340  2.67215  2.73702  2.30143  2.57825  3.90455  5.96600  3.71417    131 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07812  5.38293  2.65134  0.61958  0.77255  1.30051  0.31799
+     89   2.46329  3.91657  2.37629  2.44766  4.37268  3.87947  4.08881  2.71063  2.71489  2.51447  3.35155  3.43146  1.80023  3.25710  3.00486  3.08690  3.26156  3.47511  5.67236  4.35462    132 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00735  5.31216  6.03450  0.61958  0.77255  1.41838  0.27721
+     90   2.22219  4.03917  1.83640  2.00809  4.86594  3.79207  3.10443  4.35029  2.54041  3.31840  4.56460  2.94070  4.18581  2.22697  3.20810  2.98135  2.70757  3.91263  5.95734  4.54772    133 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00735  5.31216  6.03450  0.61958  0.77255  1.41838  0.27721
+     91   2.02374  4.65144  3.42434  3.60815  3.76957  3.24995  3.45126  2.68725  3.53571  1.91251  3.76110  3.93888  3.32345  3.80600  3.82133  3.08621  2.34801  1.86316  5.24952  3.33534    134 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00735  5.31216  6.03450  0.61958  0.77255  1.41838  0.27721
+     92   2.80681  3.65023  2.85973  3.65591  3.75049  4.10828  4.38933  2.37964  3.57776  2.19485  3.74537  3.30947  2.79685  3.84162  3.84966  2.44139  2.87658  1.53329  5.23545  4.02741    135 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03735  5.31216  3.45061  0.61958  0.77255  1.19350  0.36120
+     93   2.04359  4.46222  5.00082  4.38848  2.81428  4.24529  4.57650  1.91004  4.18296  2.10399  3.58088  4.39332  3.76476  3.44659  4.20655  3.17927  3.31290  1.81537  2.82267  2.82187    136 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00727  5.32303  6.04538  0.61958  0.77255  1.40166  0.28261
+     94   2.23858  5.51465  2.83499  2.17419  4.85182  1.82003  3.98767  4.33222  2.52716  3.34533  4.55750  3.27020  3.35949  3.08662  2.64430  2.36254  2.93758  3.21992  5.95219  4.54607    137 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00727  5.32303  6.04538  0.61958  0.77255  1.23303  0.34448
+     95   2.11523  4.51659  4.78336  4.18506  1.97658  4.22993  4.54791  2.71253  3.02755  2.41957  3.05873  3.46211  4.59655  4.20771  4.13036  2.73818  2.07674  2.18453  3.75672  3.43703    138 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00707  5.35164  6.07398  0.61958  0.77255  1.35539  0.29820
+     96   2.31149  3.11869  3.96355  2.28109  4.11543  1.16632  4.38840  3.45160  3.38060  2.81010  4.06688  3.81528  4.45345  3.68949  3.74874  3.28851  3.35709  2.52056  5.54421  4.30291    139 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04845  5.35164  3.15687  0.61958  0.77255  1.35539  0.29820
+     97   3.07100  5.52128  2.89054  2.46967  4.83980  1.20456  4.03809  3.16599  2.79794  3.81675  4.57448  3.02952  4.23295  2.53405  3.29052  2.63274  2.74512  3.89868  5.97254  4.57313    140 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00736  5.31055  6.03289  0.61958  0.77255  1.42082  0.27643
+     98   3.08016  2.84137  4.01834  3.44875  2.30196  4.07050  4.31146  3.25562  3.37547  2.97050  3.86966  3.27107  4.44871  3.15666  2.14301  2.79984  3.31175  3.03619  5.30397  1.55733    141 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00736  5.31055  6.03289  0.61958  0.77255  1.18792  0.36364
+     99   2.33853  4.67672  3.54231  3.62184  3.06781  4.11659  2.82899  2.39735  3.55038  2.87930  3.78617  3.95529  3.22793  3.11219  3.39888  2.67993  3.31206  1.61804  3.13049  3.36921    142 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00707  5.35164  6.07398  0.61958  0.77255  0.32806  1.27410
+    100   1.30940  4.50437  2.84479  2.47662  4.99864  3.54883  4.13082  4.47970  2.57769  3.96288  4.70311  3.09263  4.33632  2.87188  3.12773  1.81169  3.39784  3.53365  6.09749  3.78537    143 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00554  5.59483  6.31718  0.61958  0.77255  0.73462  0.65333
+    101   2.48808  5.01870  1.78644  3.38655  3.67180  2.46539  4.38927  3.18044  3.35360  2.05458  4.11686  3.82792  3.54132  3.67010  3.25706  3.12372  2.61797  2.14841  5.58789  4.33589    144 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00554  5.59483  6.31718  0.61958  0.77255  0.73462  0.65333
+    102   2.46874  4.83896  2.61856  3.73742  3.95858  4.25741  4.53031  2.89028  3.67018  1.62486  3.38111  4.08194  1.63013  3.14513  3.96794  3.51805  3.46002  2.30467  5.43603  4.22170    145 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00554  5.59483  6.31718  0.61958  0.77255  0.73462  0.65333
+    103   1.57140  4.68489  4.85515  4.26192  3.78696  3.01725  4.68523  2.73037  4.11726  1.78159  3.80360  4.40779  3.02692  4.31322  3.52842  3.66204  2.93372  1.58658  5.30343  4.11739    146 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00554  5.59483  6.31718  0.61958  0.77255  0.73462  0.65333
+    104   3.24637  3.87409  5.16532  3.63897  2.57938  2.62194  4.74200  2.33848  4.34778  1.81026  2.42308  3.66347  4.77494  4.48744  4.37178  2.64026  2.76197  1.96742  5.24913  2.95826    147 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00554  5.59483  6.31718  0.61958  0.77255  0.53043  0.88758
+    105   2.63073  4.64594  5.21679  4.60293  2.92917  2.43839  4.77104  1.79582  4.39175  1.83003  3.76461  4.59478  4.80130  4.52623  4.40597  3.74850  2.01940  1.92043  5.26937  3.15990    148 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02878  5.62173  3.69885  0.61958  0.77255  0.61959  0.77255
+    106   1.24487  5.59728  3.18667  2.40003  4.90741  1.83643  4.16327  4.36793  2.91658  3.20933  4.65163  3.11657  4.36217  3.27388  3.01921  2.88271  3.41435  3.41542  6.05624  4.66874    149 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00552  5.59847  6.32081  0.61958  0.77255  0.51075  0.91641
+    107   1.58687  5.52620  2.83578  2.96132  4.80552  3.11139  4.19158  3.58457  2.95942  2.44587  4.58540  3.01308  4.38723  2.18078  3.43785  2.10310  2.85800  3.25912  6.00115  4.63411    150 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.59975  0.79617
+    108   2.36620  5.09227  3.89367  3.33080  3.67876  4.14194  3.87949  2.73621  2.55565  2.21582  4.18669  2.98842  2.48751  3.30188  2.77700  2.44752  2.50177  2.72378  3.80523  3.63027    151 - H
+          2.68633  4.42240  2.77534  2.73138  3.46369  2.40494  3.72509  3.29288  2.67756  2.69370  4.24705  2.90361  2.73708  3.18161  2.89761  2.37902  2.77534  2.98474  4.58492  3.61518
+          0.04516  3.16049  6.34834  1.36808  0.29383  0.59975  0.79617
+    109   2.53214  5.14332  3.00676  3.26942  2.70177  3.53589  4.34683  3.69709  2.72470  2.09531  4.23424  3.74266  3.48604  3.32492  2.68870  2.22416  3.44716  2.80421  3.86058  2.20473    157 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.59975  0.79617
+    110   1.78823  3.32950  3.50220  2.53810  4.84226  3.98855  3.18463  4.29030  2.94426  2.23038  4.04679  3.09475  3.65209  2.17120  2.49013  2.49919  3.42121  3.39118  6.02156  4.64747    158 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.59975  0.79617
+    111   2.85861  5.63122  3.07536  2.31266  3.94483  2.13204  3.53324  3.87792  2.22249  3.30810  3.32387  3.12232  4.36330  2.74221  2.30937  3.16153  2.88834  3.12194  4.02657  3.10944    159 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.59975  0.79617
+    112   1.94383  4.98682  3.45086  3.06025  4.12958  2.62202  4.44282  1.57989  3.10033  2.87177  4.08831  3.90679  3.16273  3.75416  3.81453  3.16648  3.46171  1.91046  5.56415  4.32298    160 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.59975  0.79617
+    113   1.80505  5.45502  3.56473  2.78393  4.70903  2.85183  3.39037  4.13509  2.78461  3.72049  4.52152  3.53607  1.49903  2.99146  3.47439  3.22014  3.43197  2.37095  5.94661  3.65294    161 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.59975  0.79617
+    114   1.86164  4.75922  4.61583  4.03286  3.86641  4.33821  4.63386  2.05060  3.92780  2.00118  3.87301  4.27938  2.83722  3.49440  2.57294  3.21459  2.42002  2.02453  5.36759  4.17095    162 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00537  5.62600  6.34834  0.61958  0.77255  0.42056  1.06909
+    115   3.27370  4.72109  4.85227  4.25972  2.47444  4.39416  2.41378  1.93731  4.12076  2.43889  3.83717  1.93460  4.76215  4.32152  3.54670  2.71079  3.09955  2.01857  5.33533  3.44906    163 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    116   2.75719  4.97681  5.66860  5.08503  3.46557  4.93141  5.32601  1.58426  4.90043  1.96963  3.49694  5.09638  5.26269  5.04661  4.92911  4.26413  3.05398  0.92870  5.78647  4.60685    164 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    117   1.33391  5.45400  3.63990  2.84409  4.74292  3.49942  1.38510  4.16098  3.14468  3.76541  4.57956  3.14774  4.49183  3.48947  3.60588  3.30619  2.91460  2.95604  6.00865  4.67503    165 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    118   3.51479  6.06225  2.63801  0.60145  5.38676  4.11647  3.44865  4.88687  3.24679  4.35956  5.12115  3.07002  4.59401  3.54389  3.77093  3.04649  3.23473  4.44480  6.49399  3.82025    166 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    120   3.21370  5.43266  2.77213  3.04450  3.63901  4.04031  3.54256  4.09583  3.03895  2.00656  4.50191  1.61411  3.68415  3.38953  2.83472  2.90545  3.44504  3.76746  5.92768  2.01479    168 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    121   2.06556  5.32418  2.30900  3.12160  3.24451  1.72774  4.28193  3.23174  2.91129  2.76039  4.40249  3.62853  4.45944  2.78313  3.56197  2.30043  3.44879  2.97544  5.84504  4.53131    169 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    122   3.27662  4.72281  3.86158  3.53699  3.82317  4.39796  4.70913  1.15801  4.12548  1.85898  3.83899  4.42505  4.76581  4.32677  2.84517  2.98836  3.50872  1.91766  5.33826  3.55616    170 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    123   2.35686  5.35274  2.90040  3.20541  4.58170  4.11729  4.37093  3.97255  2.88506  2.99975  3.28797  3.70425  0.86109  3.55648  3.65098  3.35871  3.52560  3.68069  5.90415  4.59907    171 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    124   2.87232  4.77530  2.89381  3.36250  2.54625  1.49908  4.64521  2.81375  3.93538  2.17289  3.30580  4.28821  4.72166  4.17229  4.15079  2.90281  3.49887  3.03122  3.77396  2.36967    172 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    125   1.99617  4.74044  4.76157  4.17317  2.36644  3.44291  3.51408  2.49849  2.54450  1.50534  3.52086  4.36980  4.74710  4.26437  3.26823  3.18158  3.09896  2.48578  5.35249  4.16178    173 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    126   1.86344  4.83743  4.42007  3.84445  3.95353  4.30555  4.58462  3.07022  3.76746  2.75580  3.33266  3.54540  3.72831  4.03279  2.73799  2.59230  1.86352  1.78972  5.43731  2.89696    174 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    127   2.12691  5.31419  2.91570  3.12966  3.51348  3.19176  3.47930  3.92581  3.11824  1.89473  4.39323  1.72211  4.46245  3.18843  3.56784  3.05335  2.56281  3.26990  4.08828  4.52553    175 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    128   2.72825  5.47881  3.59854  3.03805  2.01162  4.04448  1.99648  4.15967  1.78641  3.28423  4.54494  3.56186  4.43398  2.80582  2.31892  3.24643  3.12440  3.15889  5.96635  4.62218    176 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    129   2.44466  4.66029  5.22001  4.60641  2.21476  4.44819  2.30709  2.23462  4.39687  2.04739  3.77911  4.60230  3.97432  4.53286  4.41399  3.25622  2.36248  2.07491  3.57567  2.83476    177 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    130   2.75736  3.99746  4.81513  3.46289  2.26903  3.08555  4.69595  2.84410  4.09161  1.81518  2.46502  2.90902  4.75606  3.57331  3.07470  2.58080  3.50463  2.13580  5.34211  3.45244    178 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    131   2.52404  5.56797  2.84310  2.95940  4.85746  3.27991  4.19705  4.30564  2.70415  3.84964  3.63109  3.12698  1.41543  3.31549  3.44001  1.87445  3.43558  2.96808  6.03657  3.77985    179 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    132   2.84492  5.55172  3.21407  2.96699  3.90453  3.09427  4.20032  4.27961  2.19079  3.83024  2.33078  3.25373  3.62341  3.05029  1.97358  2.71696  3.43513  3.12503  2.13801  4.65303    180 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    133   3.21769  5.39065  3.63618  2.76348  2.69889  4.05486  3.68756  3.40192  2.44105  3.64532  4.46359  3.59291  4.44396  2.72966  1.69563  3.25974  2.04264  3.71852  3.54186  2.41914    181 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    134   1.38848  3.80710  4.75501  4.17614  3.93674  4.36496  4.73360  3.25658  4.04967  2.29495  3.94309  4.37949  1.63349  4.28365  2.83366  3.66475  3.54196  2.01188  5.44343  4.25121    182 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    135   2.71168  5.70945  2.00479  2.55836  5.05472  3.97095  4.15854  4.54091  2.16977  3.36346  4.75013  1.70103  3.44870  3.25489  2.94999  2.83164  2.14152  4.10021  6.14195  4.73074    183 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    136   2.59041  4.52108  3.50541  2.94883  4.88267  1.85525  4.19041  3.51527  2.08873  2.55726  4.64066  2.96886  4.38962  3.11122  2.20756  2.25740  2.84825  3.95066  6.04989  4.67089    184 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    137   2.47049  5.23397  3.76291  2.45714  4.42465  4.10336  4.32223  2.21765  2.61567  3.47058  3.60725  3.69325  3.25311  2.24525  3.62093  2.99233  3.11957  1.54060  5.77199  4.47953    185 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    138   2.20898  4.68384  3.68796  4.45456  2.62777  3.11797  2.79903  2.31675  4.27838  1.65444  3.45820  4.52611  4.79200  3.74118  4.35139  3.72929  3.10050  2.13820  5.30254  2.47479    186 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00525  5.64863  6.37098  0.61958  0.77255  0.48576  0.95510
+    139   2.62355  4.66425  5.19052  4.57889  3.38125  4.44444  4.77514  2.09923  4.37569  2.12021  3.37698  4.58892  2.62399  3.57091  4.40305  2.39205  2.72992  1.83682  2.47621  3.33477    187 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00353  5.64692        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmm2 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmm2
new file mode 100755
index 0000000..603e933
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmm2
@@ -0,0 +1,1469 @@
+HMMER2.0  [2.3.2]
+NAME  Orn_DAP_Arg_deC
+ACC   PF00278.15
+DESC  Pyridoxal-dependent decarboxylase, C-terminal sheet domain
+LENG  123
+ALPH  Amino
+RF    no
+CS    yes
+MAP   yes
+COM   /groups/eddy/home/eddys/releases/hmmer-2.3.2/src/hmmbuild example.hmm2 example.sto
+COM   /groups/eddy/home/eddys/releases/hmmer-2.3.2/src/hmmcalibrate example.hmm2
+NSEQ  105
+DATE  Fri Apr 16 11:03:03 2010
+CKSUM 1905
+GA    20.1 20.1
+TC    20.4 20.1
+NC    19.8 20.0
+XT      -8455     -4  -1000  -1000  -8455     -4  -8455     -4 
+NULT      -4  -8455
+NULE     595  -1558     85    338   -294    453  -1158    197    249    902  -1085   -142    -21   -313     45    531    201    384  -1998   -644 
+EVD   -75.919388   0.196776
+HMM        A      C      D      E      F      G      H      I      K      L      M      N      P      Q      R      S      T      V      W      Y    
+         m->m   m->i   m->d   i->m   i->i   d->m   d->d   b->m   m->e
+          -14      *  -6727
+     1   -155    743  -6532  -5896   -780  -5734  -1012    875  -5491   -503    870  -1313  -5784  -5114  -5291     92   1979   1780    532   1378     1
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11881 -12923   -894  -1115   -701  -1378    -14      * 
+     2  -1682  -4022  -6543  -5907     20  -5745  -4617    398  -2271   2820  -3223  -5391  -5795  -5125  -5302  -2634   -242      7  -4482    624     2
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E    -14 -11881  -6717   -894  -1115   -701  -1378      *      * 
+     3    722   -557  -6512  -1872  -3954  -2641  -1278   1497  -2668   1607  -1117  -5364  -5770  -5097  -2208  -4804  -2260   2317  -4458  -4116     3
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+     4    781   1635  -6517  -5881    640   -373  -4592  -3492  -5476  -1388    329  -2095  -5771  -5100  -5277    525   2693    622  -4458    171     4
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+     5  -3883  -5357  -2074   1459  -2040  -2288   1088  -5428    746  -5373  -4446   2000  -2200    728   1586    623    691  -2301  -5540  -4857     5
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+     6  -1426  -5583  -8811  -8513  -6360  -8668  -8868   1788  -8509  -2816  -5025  -8340  -2071  -8517  -8721  -8067  -6096   3514  -8205  -7636     6
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+     7  -1673  -5007  -1267    -19  -2017   -820    776   1913   -631    676    230   -245  -5065   -395   -728  -2172    447   1185  -5281   -167     7
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+     8   1096   -549   1742   -395   -762   1395    276  -2186  -3133   -983  -1302   -432  -4970   -877  -1016    241     27  -4892  -5490   1023     8
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+     9   -229  -5188  -1785  -1839  -5436  -4910  -1020    952   1650   -557  -4297  -3579  -5001   -345    410  -1235    729   2165  -5417  -4782     9
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+    10   -600  -5344  -2136   -198  -2009  -4861  -1131    -59   2674  -3187  -1379  -1844  -2433  -1334   1969    239  -1367   -406  -5531  -1732    10
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11867 -12909   -894  -1115  -1442   -662      *      * 
+    11   -860   -475    333   1492  -5677  -1611   1301   -109    348  -2890  -4445   -576  -2112   -556   1098     89    701    761  -5539   -688    11
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E   -338 -11867  -2261   -894  -1115  -1442   -662      *      * 
+    12   -321  -4996  -1638   -395  -5297  -1286  -3213      9    455    326    119   1051  -1112   -217   1735    -12  -2054    944    101  -1285    12
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -   -106 -11530  -3825   -894  -1115   -211  -2880      *      * 
+    13   -504   -729    478     15  -1016   1089   1111  -2218   -306  -2850   -340    541   1326   -759    526    349     76  -1022   -309  -1630    13
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -   -228 -11759  -2777   -894  -1115  -3468   -137      *      * 
+    14   -242  -5039   1770    933  -1801   1563   -721  -2161   -459  -1886  -4129   -174    -95  -1111   -469   -264   -991   -464  -5223    482    14
+     -   -105   -440    237    138   -405    323    160   -556    176   -377   -675    246    317     80     91    304     73   -368   -262   -208 
+     S  -2192   -987  -1855  -4846    -51  -4737    -55      *      * 
+    15    115  -4610   1102    701  -4931   -112   1059    424    367  -1501  -3699    584    310   -854    706   -336    -53   -359  -4793  -4110   104
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     S     -1 -11065 -12107   -894  -1115   -591  -1573      *      * 
+    16   -705  -5156   1135    146   -660   -230    -53  -2341   1335  -1367   -177     74    386    497   1733  -1890   -685  -1384  -5339   -552   105
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11656 -12698   -894  -1115   -764  -1282      *      * 
+    17   -211  -5273    397   -203  -2303  -1044   -875   -941   1435  -1074    663   -120  -1153    425    945  -1561    770    651    390   -353   106
+     -   -150   -501    234     45   -382    399    105   -627    209   -464   -721    274    393     49     95    360    116   -370   -295   -250 
+     E  -3070  -4950   -237  -1101   -905  -3102   -179      *      * 
+    18  -1922  -1734  -4254  -3627    682  -3479  -2310    488  -3229   2158   -788  -3116  -3507  -2828  -3024    738  -1860    335  -2118   2030   111
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -4  -9069 -10112   -894  -1115  -5057    -44      *      * 
+    19   1009  -3015   1544    246  -3307   -248  -1256  -3038    264    226   1184  -1241  -2687   -806    269    641  -1549   -301  -3215  -2550   112
+     -   -149   -502    235     52   -383    398    103   -628    210   -468   -713    276    394     43     99    358    115   -372   -297   -252 
+     .  -4402    -71 -10280    -12  -6930  -5520    -32      *      * 
+    20   -159  -2362    815  -1710  -2418  -2992  -1745   1755  -1629   1789  -1536    268  -3087    761  -2008   -155  -1770  -1834  -2738  -2270   114
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -3  -9325 -10367   -894  -1115  -3944    -97      *      * 
+    21   -407  -3479    723   1350  -3798    154  -1627  -3551  -1217  -3495  -2570   2119   -267    390  -1729   1140    580  -3100  -3662  -2975   115
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -3  -9672 -10714   -894  -1115  -4804    -53      *      * 
+    22  -2045  -3517   1732   1828  -3837  -3019  -1677   -557   1605  -3532  -2606  -1654    565    509    553  -1926   -323   -723  -3700  -3018   116
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -2  -9799 -10842   -894  -1115  -5367    -35      *      * 
+    23    544   1072   -289    424  -3885     87    862  -3636    701   -468  -2654   1199    486    248   1450  -1972   -346  -3186  -3748  -3065   117
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -2  -9861 -10903   -894  -1115  -5261    -38      *      * 
+    24   -625  -3445  -2090    403  -3692    -78    545  -3392  -1450   1414   1485    935  -3259    174   -276    134    367    154  -3674  -3039   118
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -2  -9926 -10968   -894  -1115  -5278    -38      *      * 
+    25   1936    946  -4718  -4086    784   -799  -2841    541  -3694  -2116  -1470  -3599  -4023   -227   -723  -3055    967    812  -2724   2044   119
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     .     -2  -9986 -11028   -894  -1115    -10  -7116      *      * 
+    26  -2354   -993    765   -741   2318  -2313    261     56  -1928  -5062   2192  -1975  -1470   -322   -278   -671   -878   -306   3093   1303   120
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    27    697  -4060  -6143  -1035  -1022  -5673  -1474    126    -61    619    748   -412  -5727  -1681  -1275  -2400    246   1886   -378   1797   121
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    28    312  -4013  -6531  -5895   -104    233  -4605    666  -1543  -2001  -1105  -1805  -5784  -5113  -5290  -1365  -4127   1204    589   3721   122
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E  -1315 -11881   -742   -894  -1115   -701  -1378      *      * 
+    29  -2952  -2780   -933  -4648   2176  -4498    179   1283  -4246   -769    -56   -149  -4548   -566  -4051  -3582     29   1007   1991   2686   123
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -10567 -11609   -894  -1115    -13  -6832      *      * 
+    30  -1799   2170  -6532  -5896  -1699  -2732  -4605   1539  -5491   1685    378  -5380  -5784  -1976  -5291  -1754    949   1754   -355  -4128   124
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     E     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    31  -5769   -946   3181  -2344  -7805  -1675    -84  -7682  -5228  -7569  -6819   3045  -6358  -4779  -1632  -1659   -730  -7166  -7755  -6824   125
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     S     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    32   1413    221   2283   -680   1069   1075  -4568    302  -5350   -416  -3238  -5290  -5758  -5008  -5217  -1289   -243  -1641  -4491  -4144   126
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    33   -619   -807  -8268  -8621  -8231   3261  -7564  -8059  -8252  -8320  -7339  -1904  -6589  -7668  -7841   1895  -5360  -6713  -8451  -8447   127
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    34   -725  -4015  -6533  -5897    802  -5736  -4607   1501   -746    319   3032  -5382  -5786  -5115   -716  -1693    -63   1977  -4473  -4131   128
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    35  -1024  -5354  -1109   -335   2403  -4874   1499  -5413  -3117  -2899  -4445   1820  -1892   -856  -1712      6   -679  -4972   -335   2983   129
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    36    284    739   1001   -866  -5658   1983   1959  -1651  -1916  -2898    -68   -570  -4969   1365  -3626   -408    579  -1135  -5537  -4860   130
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     S     -1 -11881 -12923   -894  -1115   -701  -1378      *      * 
+    37  -1145    316  -6511  -5877   -164    290   2549  -1140  -5476    909  -1105   1020  -5781  -1796  -5283   1948   -374  -1254  -4472   -579   131
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -  -1456 -11881   -655   -894  -1115   -701  -1378      *      * 
+    38  -1236  -2788  -5320  -4686   1054  -4531  -3404   1409  -4285   1992   3208   -445  -4568  -3899  -4083  -3619   -625   -802  -3250  -2917   132
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+     -      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      * 
+     E      *      *      *      *      *      *      *      *      0 
+//
+HMMER2.0  [2.3.2]
+NAME  NIF3
+ACC   PF01784.11
+DESC  NIF3 (NGG1p interacting factor 3)
+LENG  350
+ALPH  Amino
+RF    no
+CS    no
+MAP   yes
+COM   /groups/eddy/home/eddys/releases/hmmer-2.3.2/src/hmmbuild example.hmm2 example.sto
+COM   /groups/eddy/home/eddys/releases/hmmer-2.3.2/src/hmmcalibrate example.hmm2
+NSEQ  122
+DATE  Fri Apr 16 11:03:03 2010
+CKSUM 8888
+GA    23.4 23.4
+TC    24.1 24.0
+NC    22.0 23.3
+XT      -8455     -4  -1000  -1000  -8455     -4  -8455     -4 
+NULT      -4  -8455
+NULE     595  -1558     85    338   -294    453  -1158    197    249    902  -1085   -142    -21   -313     45    531    201    384  -1998   -644 
+EVD   -180.735001   0.124881
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+         m->m   m->i   m->d   i->m   i->i   d->m   d->d   b->m   m->e
+          -12      *  -6953
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+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   313   3028   -787  -6749  -6114   -672  -1833   -556  -1606  -5709   -742   1358  -2136  -6004  -5332  -2441  -1296  -1094  -1490  -4691   1224   507
+     -   -147   -500    233     43   -381    398    105   -627    210   -466   -721    275    393     45     96    361    119   -370   -295   -250 
+     -    -52  -5902  -5760   -652  -1460   -701  -1378      *      * 
+   314   -840   -916   -924    954  -1292  -1954  -1222    354   1489    384    -63    229  -5169    409   1325  -1726   -725     25  -5710  -1738   510
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12083 -13125   -894  -1115   -798  -1235      *      * 
+   315    899  -5574    687   2560  -1921  -1396    289  -2563  -1217  -3068   -625    428  -5169    -87  -2229    867  -2432  -1711  -5758  -5075   511
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12097 -13139   -894  -1115  -1461   -651      *      * 
+   316     95   1463   -609   -521  -2210  -2039    886   -943    959    981    948    863  -2402    922    410    107  -1666  -2689  -5750  -1850   512
+     -   -146   -500    232     42   -381    402    105   -627    210   -465   -721    275    393     45     95    358    117   -370   -295   -250 
+     -    -93  -6018  -4403  -1529   -614   -372  -2139      *      * 
+   317  -1824  -5533   -289  -1325  -5855   3170    327  -5605   -227  -3134  -4623   1389  -5125  -1577   -774  -1771  -3999  -5156  -5716  -1585   518
+     -   -148   -501    231     42   -382    399    104   -620    211   -465   -722    276    394     47     97    358    118   -371   -296   -251 
+     -    -81  -5304  -5091  -1869   -462   -652  -1459      *      * 
+   318  -2532  -4170  -6683  -6047   -540  -5890  -4761   2445   -755   1652   1043  -5534  -1060  -1069  -1557  -1432   -613   1072  -4628  -4286   525
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -12044 -13086   -894  -1115  -2947   -200      *      * 
+   319   1353   1452  -4569  -4012  -4845  -1711   1504  -1572  -2203   -713  -3942   2036    514  -1963  -1962   1125    739   -930  -5137  -1654   526
+     -   -150   -501    232     42   -381    398    105   -627    212   -467   -709    278    393     44     95    360    116   -366   -295   -250 
+     -    -47  -4962 -13086   -753  -1298   -122  -3625      *      * 
+   320  -2054   -852  -6772  -6137   1060  -3003  -4849    891  -5733   1746   1200  -5622  -6025  -5356  -5533  -5061  -1664   2373  -4713    285   529
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   321   -790  -1100  -7735  -7154    604  -7054  -6024   3140  -6808    589   -513  -6703  -7024  -6431  -6638  -6180  -5266   1569  -5788   -420   530
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   322    557    954   3061    104  -1156  -1917  -4816  -1345  -5676    303   -929  -5578  -5998  -5308  -5493  -1152   -508    -81  -4695   -855   531
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   323   2015   2412  -6754  -6118   -616    -57  -4827   1593  -5713   -157    834  -5602    106  -5336  -5513  -2076  -1178    743  -4692  -4350   532
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   324  -1500  -6174  -1474   -303  -1402   3278  -4305  -6309  -3981  -6251  -5349    201   -184  -3868  -2452   -416   -137  -5841  -6423  -5706   533
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   325 -10320  -8913  -9757 -10035  -9858  -8870   5463 -11349  -9602 -10663 -10609 -10021  -9297  -9868  -2269 -10768 -10436 -11051  -8920  -9653   534
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -22 -12109  -6044   -894  -1115   -701  -1378      *      * 
+   326  -1327  -4596  -2274  -2449   1902  -5537   2630  -4184  -2325  -1230   -177  -2202  -5610  -2101  -4608    977   -622  -2194   2097   3270   535
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -   -232 -12087  -2751   -894  -1115   -269  -2556      *      * 
+   327   2014   -824  -2132   1302   -354   -562   -235  -5437  -1952  -5383   -882   1896   -871   -257   -258   -277  -3836  -1444   -510   -706   536
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11881 -12923   -894  -1115    -42  -5109      *      * 
+   328  -1765  -4255  -2543  -6046  -4214  -3002  -4824     38  -5661  -1657    164  -5570  -6001  -2024  -5492   2120   3060  -1069  -4716  -4372   537
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   329  -8164  -8910  -1363   3949  -9764  -7579  -7291 -10175  -7833  -9827  -9467  -6545  -8137  -7112  -8597  -7842  -8280  -9664  -9039  -9016   538
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   330  -1129  -1191   -538    378  -2348  -5101    484  -1326    460  -1466   -543    342  -5194    361   2394   -150     18   -355   1568    653   539
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   331  -1052  -1054  -1677  -1331   1811    425     98   1074  -2781    117  -3439  -5589   1811  -5321  -5502  -5035  -4346   1268  -4693   1380   540
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   332    542   -787  -6754  -6118   2653   2112  -4827   -834  -5713  -4083   1865  -5602  -6006  -5336  -5513  -5041   -820    -72   1582    973   541
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   333   -265      5  -6739  -2842  -1159  -2121  -1089   1397    361   1301   2190  -1004  -1064  -5327  -5506  -2960  -1137   1672  -4692  -1808   542
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   334   -361  -5587    538   1253  -2156   -513   -428  -1750   1569  -2366  -4676     59    425   1424    846   -556  -4053  -1836   -512     61   543
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   335   1315  -5571    469    318  -2416  -1487    631    107    610    109  -4662  -3730   -660   -572    709   -483    224   -467  -5759   -277   544
+     -   -154   -496    231     40   -383    392     99   -625    214   -454   -690    271    398     58     97    355    112   -366   -288   -256 
+     -   -137  -3470 -13151  -2149   -369   -701  -1378      *      * 
+   336  -1262   -662  -8280  -7661   1293  -7606  -6454   1196  -7306   2645   1075  -7264  -7428  -6718  -7042  -6738  -5833    279   -599  -5794   550
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -12 -12109  -6921   -894  -1115   -701  -1378      *      * 
+   337   2188    468  -2328    -48   -791    676  -1340  -1829    545  -1775   1249  -3861  -5257    634    357  -1018  -4078   -918  -5556   -301   551
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12098 -13140   -894  -1115   -374  -2130      *      * 
+   338    -54  -1071   1092   2178  -5908   -261  -3746  -2803    823  -3250  -4676    375  -2575   1053    923   -712   -769  -2831  -5770  -5087   552
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   339  -1414  -4812  -1405   -792    137  -5421   1251    -69    910    737   -525  -4306  -5500   1059   1392  -1374  -2520   -214   1978   1786   553
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -      0 -12109 -13151   -894  -1115   -701  -1378      *      * 
+   340  -2822  -5568  -2787  -7707    615  -7660  -6585   1049  -7376   2928   -484  -7317  -7500  -6851  -7152  -6806  -2490   -166  -6123  -5923   554
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -23 -12109  -6021   -894  -1115   -701  -1378      *      * 
+   341   -230  -5566   -556   1123  -5887  -1500    128  -2805   1586  -3302   -478    380  -5159   1002   1288    820    386  -1654  -5749  -1889   555
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -11 -12087  -7066   -894  -1115   -812  -1216      *      * 
+   342    223  -5567    315   2160  -5888  -1035  -1341  -1683   1461  -2187  -4656    860  -2314    839    218    -63  -2065  -2876  -5750  -5067   556
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -15 -12088  -6652   -894  -1115  -1842   -472      *      * 
+   343    217  -5549   -287   1057    -23  -1032   1172  -5618   1478   -306   -310    432  -5148    627    822  -3961   -447  -1321   1896   -985   557
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -  -2247 -12074   -342   -894  -1115  -2295   -329      *      * 
+   344    155  -3231   -302   -297   -271   1843  -1807   -609   -216    550  -2355   1719  -3221  -1402  -1933   -243  -2037  -2786   1341  -2895   558
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -   -289  -9829  -2470   -894  -1115   -160  -3251      *      * 
+   345   -718    554  -1351  -2529   2824  -1174  -1315   -544  -1166   1377  -1126  -2257  -1363  -1146  -5220  -2763   -577    262   -411   1025   559
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11930 -12972   -894  -1115  -1499   -630      *      * 
+   346     51  -5474   1479    120  -2041    764   -164  -5546   1119  -2333  -4563    -36   1419    534    571      2  -3940  -2810  -5657  -1376   560
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -   -582 -11991  -1593   -894  -1115  -3630   -121      *      * 
+   347    447  -4927   1668    758  -5248   -160    741  -1220    819   -919  -4017    572    -88    422  -1379  -1937    501   -786    160  -4428   561
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -   -405 -11410  -2034   -894  -1115  -3691   -116      *      * 
+   348    715    316    344   -188     83   -946    546   -282    657    -13  -3695    491   -668    665    447  -1682   -644    -91  -4792    156   562
+     -   -151   -513    231     54   -377    414    119   -623    196   -462   -717    289    387     28     74    348    105   -346   -227   -252 
+     -  -1805   -487 -12119  -1982   -421  -3647   -120      *      * 
+   349   -239  -4711    199   2304  -5032   -417  -2870  -4783    862  -4727  -3800   1156    -80   1017    200   -543  -1392  -2035    163  -4211   583
+     -   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -     -1 -11175 -12217   -894  -1115    -14  -6736      *      * 
+   350   -860    161  -6909  -2858    894  -6127  -5013   2305  -5884    767  -3572  -5773  -6169  -5512  -5690  -5216  -1702   2523   -585  -4528   584
+     -      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      * 
+     -      *      *      *      *      *      *      *      *      0 
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmmsearch.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmmsearch.out
new file mode 100755
index 0000000..f5a5de9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.hmmsearch.out
@@ -0,0 +1,17949 @@
+# hmmsearch :: search profile(s) against a sequence database
+# HMMER 3.0 (March 2010); http://hmmer.org/
+# Copyright (C) 2010 Howard Hughes Medical Institute.
+# Freely distributed under the GNU General Public License (GPLv3).
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# query HMM file:                  example.hmm
+# target sequence database:        /misc/data0/databases/Uniprot/uniprot_sprot.fasta
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+
+Query:       US2  [M=126]
+Accession:   PF02476.8
+Description: US2 family
+Scores for complete sequences (score includes all domains):
+   --- full sequence ---   --- best 1 domain ---    -#dom-
+    E-value  score  bias    E-value  score  bias    exp  N  Sequence              Description
+    ------- ------ -----    ------- ------ -----   ---- --  --------              -----------
+    4.2e-39  138.8   0.3    4.2e-39  138.8   0.2    1.7  2  sp|P06485|US02_HHV11  Protein US2 OS=Human herpesvirus 1 (st
+      2e-38  136.6   0.2    3.6e-38  135.8   0.1    1.4  1  sp|P13292|US02_HHV2H  Protein US2 OS=Human herpesvirus 2 (st
+    1.6e-35  127.2   0.1    2.2e-35  126.8   0.0    1.1  1  sp|Q05106|US453_GAHVG Uncharacterized 16.6 kDa protein OS=Ga
+    2.3e-35  126.8   0.0    3.9e-35  126.0   0.0    1.3  1  sp|P32517|US02_EHV1K  US1 protein OS=Equine herpesvirus 1 (s
+    3.3e-33  119.8   0.0    6.4e-33  118.9   0.0    1.5  1  sp|P28964|US02_EHV1B  Gene 68 protein OS=Equine herpesvirus 
+    2.1e-31  114.0   0.0    3.6e-31  113.2   0.0    1.4  1  sp|Q08099|US02_BHV1S  Protein US2 homolog OS=Bovine herpesvi
+    1.8e-17   68.9   0.0    3.3e-17   68.1   0.0    1.4  1  sp|P24382|US02_SUHVN  Protein US2 homolog OS=Suid herpesviru
+  ------ inclusion threshold ------
+        1.4   14.3   0.1        2.6   13.5   0.0    1.4  1  sp|Q9ZK80|ATPG_HELPJ  ATP synthase gamma chain OS=Helicobact
+        1.4   14.3   0.1        2.6   13.5   0.0    1.4  1  sp|P56082|ATPG_HELPY  ATP synthase gamma chain OS=Helicobact
+        1.5   14.2   0.1        2.9   13.3   0.0    1.4  1  sp|B2UUP1|ATPG_HELPS  ATP synthase gamma chain OS=Helicobact
+        1.5   14.2   0.0        2.9   13.3   0.0    1.4  1  sp|B6JMX3|ATPG_HELP2  ATP synthase gamma chain OS=Helicobact
+        2.6   13.4   0.0        4.8   12.6   0.0    1.4  1  sp|Q17Y79|ATPG_HELAH  ATP synthase gamma chain OS=Helicobact
+        3.6   13.0   0.0        6.6   12.2   0.0    1.4  1  sp|B5Z8D1|ATPG_HELPG  ATP synthase gamma chain OS=Helicobact
+        3.9   12.9   0.0        7.3   12.0   0.0    1.4  1  sp|Q1CSD4|ATPG_HELPH  ATP synthase gamma chain OS=Helicobact
+
+
+Domain annotation for each sequence (and alignments):
+>> sp|P06485|US02_HHV11  Protein US2 OS=Human herpesvirus 1 (strain 17) GN=US2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -2.0   0.0       4.5   1.6e+05      88     116 ..      50      78 ..      49      86 .. 0.74
+   2 !  138.8   0.2   1.1e-43   4.2e-39       2     126 .]     111     247 ..     110     247 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: -2.0 bits;  conditional E-value: 4.5
+                   US2  88 vvdpealreeaslrppepakrseresske 116
+                           vv+p+ lr +a++  + p+++++  ++++
+  sp|P06485|US02_HHV11  50 VVRPANLRRLAEPLMDLPKPTRPIVRTRS 78 
+                           67888888888888888888887777776 PP
+
+  == domain 2    score: 138.8 bits;  conditional E-value: 1.1e-43
+                   US2   2 Lnsgiign.rpyhLWvlGAADLCkpvlelipgpk...RlvavkvpdawagksWalPdelkplltvewtpfeeaalskleallsakrlvY 86 
+                           L+++++++ r+yhLWv+GAADLC p+le++++ +   R++a+k+pdaw+g++Wa+P+++ p++tv+wtpf++a++++le+lls+++++Y
+  sp|P06485|US02_HHV11 111 LHRDQPSPpRLYHLWVVGAADLCVPFLEYAQKIRlgvRFIAIKTPDAWVGEPWAVPTRFLPEWTVAWTPFPAAPNHPLETLLSRYEYQY 199
+                           888888888******************************************************************************** PP
+
+                   US2  87 avvdp..........ealreeaslrppepakrseresskeapsraaccis 126
+                           +vv p          ++lr++++l++p+pa++++ ++s++   r++cc++
+  sp|P06485|US02_HHV11 200 GVVLPgtngrerdcmRWLRSLIALHKPHPATPGPLTTSHP--VRRPCCAC 247
+                           ***************************************9..******97 PP
+
+>> sp|P13292|US02_HHV2H  Protein US2 OS=Human herpesvirus 2 (strain HG52) GN=US2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  135.8   0.1   9.8e-43   3.6e-38       1     126 []     110     246 ..     110     246 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 135.8 bits;  conditional E-value: 9.8e-43
+                   US2   1 lLnsgiign.rpyhLWvlGAADLCkpvlelipgpk...RlvavkvpdawagksWalPdelkplltvewtpfeeaalskleallsakrlv 85 
+                           lL+++++g+ r+yhLWv+GAADLC p++e++++++   R++a+k++daw+g++W+lPd++ p++tv+wtpf++a++++le+lls+++++
+  sp|P13292|US02_HHV2H 110 LLHQERPGPhRLYHLWVVGAADLCVPFFEYAQKTRlgfRFIATKTNDAWVGEPWPLPDRFLPERTVSWTPFPAAPNHPLENLLSRYEYQ 198
+                           599******99****************************************************************************** PP
+
+                   US2  86 Yavvdp........ealreeaslr.ppepakrseresskeapsraaccis 126
+                           Y+vv p        ++lr++++++ +p+pa+++++ ++++  ++++c+++
+  sp|P13292|US02_HHV2H 199 YGVVVPgdrersclRWLRSLVAPHnKPRPASSRPHPATHP--TQRPCFTC 246
+                           ********************99996777777777777777..*****987 PP
+
+>> sp|Q05106|US453_GAHVG  Uncharacterized 16.6 kDa protein OS=Gallid herpesvirus 2 (strain GA) GN=US453 PE=4 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.8   0.0   5.9e-40   2.2e-35       1     124 [.       1     116 [.       1     118 [. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 126.8 bits;  conditional E-value: 5.9e-40
+                    US2   1 lLnsgiignrpyhLWvlGAADLCkpvlelipgpkRlvavkvpdawagksWalPdelkplltvewtpfeeaalskleallsakrlvYav 88 
+                            +L+s+++gn+p++LW++GAAD+C+ +le+ip pkRl+a+kv+++w+g++Wa+Pd++++llt++w+p ++++++++++++s + +vY++
+  sp|Q05106|US453_GAHVG   1 MLESEVSGNAPHSLWIVGAADICRIALECIPLPKRLLAIKVSGTWSGMPWAIPDNIQTLLTSTWEPKFDTPEDRAHFCDSDMVCVYKI 88 
+                            79************************************************************************************** PP
+
+                    US2  89 vdpealreeaslrppepakrseresske..apsraacc 124
+                            +++          pp+p k++e e +++  +p r +cc
+  sp|Q05106|US453_GAHVG  89 LGS----------PPNPLKPPEIEPPQMssTPGRLFCC 116
+                            ***..........4444444444444444457889998 PP
+
+>> sp|P32517|US02_EHV1K  US1 protein OS=Equine herpesvirus 1 (strain Kentucky A) GN=US1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.0   0.0   1.1e-39   3.9e-35       1     124 [.     111     265 ..     111     268 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 126.0 bits;  conditional E-value: 1.1e-39
+                   US2   1 lLnsgiignrpyhLWvlGAADLCkpvlelipgpkRlvavkvpdawagksWalPd.......elkplltvewt................. 65 
+                           +Lns++i+n+pyhLWvlGAADLCkpv++lipgpkR+v+++++d++ +ksW +P+       e++p++tve +                 
+  sp|P32517|US02_EHV1K 111 HLNSSLIINQPYHLWVLGAADLCKPVFDLIPGPKRMVYAEIADEF-HKSW-QPPfvcgklfETIPWTTVEHNhplklraaggedtvvge 197
+                           7********************************************.****.7888***************4445556666677777888 PP
+
+                   US2  66 .pfeeaalskleallsakrlvYavvdp.......ealreeaslrppepakrseresske.apsraacc 124
+                            +f+++++++l++++++ r++Yavvdp       ++ r++ ++rp+e  +r++r++s++ ap+r+ ++
+  sp|P32517|US02_EHV1K 198 cGFSKHSSNSLVHPPTVNRVIYAVVDParlreipAPGRPLPRRRPSEGGMRAPRRRSRApAPARSTAA 265
+                           8**************************999999999999*****************999755555544 PP
+
+>> sp|P28964|US02_EHV1B  Gene 68 protein OS=Equine herpesvirus 1 (strain Ab4p) GN=68 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.9   0.0   1.7e-37   6.4e-33       1     112 [.     111     245 ..     111     262 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 118.9 bits;  conditional E-value: 1.7e-37
+                   US2   1 lLnsgiignrpyhLWvlGAADLCkpvlelipgpkRlvavkvpdawagksWalPd.......elkplltvewt................. 65 
+                           +Lns++i+n+pyhLWvlGAADLCkpv++lipgpkR+v+++++d++ +ksW +P+       e++p++tve +                 
+  sp|P28964|US02_EHV1B 111 HLNSSLIINQPYHLWVLGAADLCKPVFDLIPGPKRMVYAEIADEF-HKSW-QPPfvcgklfETIPWTTVEHNhplklraaggedtvvge 197
+                           7********************************************.****.7888***************4445556666677777888 PP
+
+                   US2  66 .pfeeaalskleallsakrlvYavvdpealreeaslrppepakrsere 112
+                            +f+++++++l+ ++++kr++Yavvdp++lre  ++  p p++r+ ++
+  sp|P28964|US02_EHV1B 198 cGFSKHSSNSLVRPPTVKRVIYAVVDPARLREIPAPGRPLPRRRPSEG 245
+                           8**************************888887776644444443332 PP
+
+>> sp|Q08099|US02_BHV1S  Protein US2 homolog OS=Bovine herpesvirus 1.2 (strain ST) PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.2   0.0   9.8e-36   3.6e-31       1     110 [.     105     208 ..     105     219 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 113.2 bits;  conditional E-value: 9.8e-36
+                   US2   1 lLnsgiignrpyhLWvlGAADLCkpvlelipgpkRlvavkvpdawagksWalPdelkplltvewtpfeeaalskleallsakrlvYavv 89 
+                           lLnsg++g+rp+h+Wv+GAADL++p++++i++++Rlv++++++++ag++W+lP ++ p+++++w+p++++al +l+a  +  rlvY+vv
+  sp|Q08099|US02_BHV1S 105 LLNSGRAGARPFHMWVFGAADLYAPIFAHIAATTRLVYAQLDCTFAGAAWRLP-RRGPAIASPWPPYDTPALPELVAGGVLLRLVYEVV 192
+                           69************************************************999.9********************************** PP
+
+                   US2  90 dpealreeaslrppepakrse 110
+                           d+      a++rp++++++++
+  sp|Q08099|US02_BHV1S 193 DR-----GAAPRPAKREPPCP 208
+                           **.....88889888888765 PP
+
+>> sp|P24382|US02_SUHVN  Protein US2 homolog OS=Suid herpesvirus 1 (strain NIA-3) GN=28K PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   68.1   0.0   8.8e-22   3.3e-17       1     125 [.     135     255 ..     135     256 .] 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 68.1 bits;  conditional E-value: 8.8e-22
+                   US2   1 lLnsgiignrpyhLWvlGAADLCkpvlelipgpkRlvavkvpdawagksWalPdelkplltvewtpfeeaalskleallsakrlvYavv 89 
+                           +Lnsg++g++p+hLW+lGAADLC++vl +++   R +a+  p+a++g++++   +++p+lt++      +al+ ++a + a+r+++a v
+  sp|P24382|US02_SUHVN 135 YLNSGARGTAPIHLWILGAADLCDQVLLAAS---RSTAAGAPGAPTGARLT---RRRPGLTDA------DALDVIVAGIPATRAMFARV 211
+                           8****************************99...****************5...9******99......9******************* PP
+
+                   US2  90 dp..........ealreeaslrppepakrseresskeapsraacci 125
+                           ++          eal++++ +r + +++r+ r++ +e  ++++c+i
+  sp|P24382|US02_SUHVN 212 HNrswrhagewtEALHAQIVTRGDVRRRRGGRGNGRE--RAPRCTI 255
+                           ************************************9..9999987 PP
+
+>> sp|Q9ZK80|ATPG_HELPJ  ATP synthase gamma chain OS=Helicobacter pylori J99 GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   0.0   7.1e-05       2.6      51     107 ..     208     262 ..     203     283 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 7.1e-05
+                   US2  51 alPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           ++P+e+++ +t+e  + e++ l++l+ + + + l Ya++d+  l +e s r ++  +
+  sp|Q9ZK80|ATPG_HELPJ 208 PQPSETQETITSEPSGSEDEILDSLAEKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           5899*************************************..44444444443333 PP
+
+>> sp|P56082|ATPG_HELPY  ATP synthase gamma chain OS=Helicobacter pylori GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   0.0   7.1e-05       2.6      51     107 ..     208     262 ..     203     283 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 7.1e-05
+                   US2  51 alPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           ++P+e+++ +t+e  + e++ l++l+ + + + l Ya++d+  l +e s r ++  +
+  sp|P56082|ATPG_HELPY 208 PQPSETQETITSEPSGSEDEILDSLAEKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           5899*************************************..44444444443333 PP
+
+>> sp|B2UUP1|ATPG_HELPS  ATP synthase gamma chain OS=Helicobacter pylori (strain Shi470) GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   0.0   7.8e-05       2.9      51     107 ..     208     262 ..     203     283 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 7.8e-05
+                   US2  51 alPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           ++P+e+++ +t+e  + e++ l++l+ + + + l Ya++d+  l +e s r ++  +
+  sp|B2UUP1|ATPG_HELPS 208 PQPNETQETITSEPSGSEDEILDSLAEKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           5899*************************************..44444444443333 PP
+
+>> sp|B6JMX3|ATPG_HELP2  ATP synthase gamma chain OS=Helicobacter pylori (strain P12) GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   0.0   7.8e-05       2.9      51     107 ..     208     262 ..     203     283 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 7.8e-05
+                   US2  51 alPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           ++P+e+++ +t+e  + e++ l++l+ + + + l Ya++d+  l +e s r ++  +
+  sp|B6JMX3|ATPG_HELP2 208 PQPNEVQETITSEPSGSEDEILDSLAEKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           5899*************************************..44444444443333 PP
+
+>> sp|Q17Y79|ATPG_HELAH  ATP synthase gamma chain OS=Helicobacter acinonychis (strain Sheeba) GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   0.0   0.00013       4.8      52     107 ..     209     262 ..     201     283 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 12.6 bits;  conditional E-value: 0.00013
+                   US2  52 lPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           +P+e ++ +t+e  + e++ l++l+++ + + l Ya++d+  l +e s r ++  +
+  sp|Q17Y79|ATPG_HELAH 209 QPSEAQETITSEPSGSEDEILDSLAKKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           899*************************************..44444444443333 PP
+
+>> sp|B5Z8D1|ATPG_HELPG  ATP synthase gamma chain OS=Helicobacter pylori (strain G27) GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.2   0.0   0.00018       6.6      51     107 ..     208     262 ..     203     283 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 12.2 bits;  conditional E-value: 0.00018
+                   US2  51 alPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           ++P+e ++ +t+e  + e++ l++l+ + + + l Ya++d+  l +e s r ++  +
+  sp|B5Z8D1|ATPG_HELPG 208 PQPSEAQETITSEPSGSEDEILDSLAEKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           5899*************************************..44444444443333 PP
+
+>> sp|Q1CSD4|ATPG_HELPH  ATP synthase gamma chain OS=Helicobacter pylori (strain HPAG1) GN=atpG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.0    0.0002       7.3      51     107 ..     208     262 ..     203     283 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0002
+                   US2  51 alPdelkplltvewtpfeeaalskleallsakrlvYavvdpealreeaslrppepak 107
+                           ++P+e ++ +t+e  + e++ l++l+ + + + l Ya++d+  l +e s r ++  +
+  sp|Q1CSD4|ATPG_HELPH 208 PQPNEAQETITSEPSGSEDEILDSLAEKYVEYSLYYALIDS--LAAEHSARMQAMDT 262
+                           5899*************************************..44444444443333 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                            1  (126 nodes)
+Target sequences:                     516081  (181677051 residues)
+Passed MSV filter:                      9110  (0.0176523); expected 10321.6 (0.02)
+Passed bias filter:                     7603  (0.0147322); expected 10321.6 (0.02)
+Passed Vit filter:                       423  (0.000819639); expected 516.1 (0.001)
+Passed Fwd filter:                        17  (3.29406e-05); expected 5.2 (1e-05)
+Initial search space (Z):             516081  [actual number of targets]
+Domain search space  (domZ):              14  [number of targets reported over threshold]
+# CPU time: 4.56u 0.07s 00:00:04.63 Elapsed: 00:00:01.60
+# Mc/sec: 14307.07
+//
+Query:       Glyco_transf_28  [M=139]
+Accession:   PF03033.13
+Description: Glycosyltransferase family 28 N-terminal domain
+Scores for complete sequences (score includes all domains):
+   --- full sequence ---   --- best 1 domain ---    -#dom-
+    E-value  score  bias    E-value  score  bias    exp  N  Sequence              Description
+    ------- ------ -----    ------- ------ -----   ---- --  --------              -----------
+      3e-40  142.2   0.0    7.6e-40  140.8   0.0    1.7  1  sp|A7Z4E5|MURG_BACA2  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-40  141.9   0.0    2.3e-38  136.1   0.0    2.5  2  sp|Q65JY0|MURG_BACLD  UDP-N-acetylglucosamine--N-acetylmuram
+    7.6e-40  140.8   0.0    2.8e-39  139.0   0.0    1.9  1  sp|P37585|MURG_BACSU  UDP-N-acetylglucosamine--N-acetylmuram
+      3e-39  138.9   0.0    1.4e-38  136.8   0.0    2.0  1  sp|A8FCY1|MURG_BACP2  UDP-N-acetylglucosamine--N-acetylmuram
+    7.6e-39  137.6   0.0    4.4e-37  131.9   0.0    2.8  1  sp|Q812W5|MURG1_BACCR UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-38  137.0   0.5      4e-38  135.3   0.1    1.9  1  sp|A3MY90|MURG_ACTP2  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-38  136.7   0.0    4.4e-37  131.9   0.0    2.7  1  sp|A0RHT1|MURG2_BACAH UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-38  136.7   0.0    4.4e-37  131.9   0.0    2.7  1  sp|Q636B6|MURG1_BACCZ UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-38  136.7   0.0    4.4e-37  131.9   0.0    2.7  1  sp|Q81JG5|MURG1_BACAN UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-38  136.4   0.0    4.4e-37  131.9   0.0    2.6  1  sp|Q732F8|MURG1_BACC1 UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-38  135.8   0.0    1.8e-37  133.1   0.0    2.3  1  sp|B7GGI2|MURG_ANOFW  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-38  135.7   0.1    4.2e-37  131.9   0.0    2.3  1  sp|A7GRN6|MURG_BACCN  UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-38  135.4   0.4    1.4e-37  133.5   0.1    2.0  1  sp|B0BRH7|MURG_ACTPJ  UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-38  135.4   0.4    1.4e-37  133.5   0.1    2.0  1  sp|B3GZK8|MURG_ACTP7  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-38  135.3   0.0    1.1e-36  130.6   0.0    2.7  1  sp|Q6HEQ4|MURG1_BACHK UDP-N-acetylglucosamine--N-acetylmuram
+    9.4e-38  134.1   0.0      4e-37  132.0   0.0    2.0  1  sp|O07670|MURG_ENTHR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-37  133.3   1.8    2.3e-36  129.6   0.3    2.5  2  sp|A7FM66|MURG_YERP3  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-37  133.3   1.8    2.3e-36  129.6   0.3    2.5  2  sp|B1JK81|MURG_YERPY  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-37  133.3   1.8    2.3e-36  129.6   0.3    2.5  2  sp|B2K4E6|MURG_YERPB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-37  133.3   1.8    2.3e-36  129.6   0.3    2.5  2  sp|Q66EK5|MURG_YERPS  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-37  133.0   1.5    1.4e-36  130.3   0.2    2.3  1  sp|A1JJJ3|MURG_YERE8  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-37  132.8   2.4    2.7e-36  129.3   0.4    2.3  2  sp|A9MQC2|MURG_SALAR  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-37  132.8   1.5    4.5e-37  131.8   1.0    1.5  1  sp|P64869|Y1526_MYCTU Uncharacterized protein Rv1526c/MT1577
+    2.3e-37  132.8   1.5    4.5e-37  131.8   1.0    1.5  1  sp|P64870|Y1553_MYCBO Uncharacterized protein Mb1553c OS=Myc
+    3.1e-37  132.4   0.1    5.6e-37  131.5   0.1    1.5  1  sp|Q65RY6|MURG_MANSM  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-37  132.2   1.8    2.1e-36  129.7   0.2    2.4  1  sp|B2VD91|MURG_ERWT9  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-37  132.2   0.1    7.4e-37  131.2   0.1    1.6  1  sp|Q4QLF8|MURG_HAEI8  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-37  132.1   0.1    7.4e-37  131.2   0.1    1.5  1  sp|A5UIR2|MURG_HAEIG  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-37  132.0   0.1    7.4e-37  131.2   0.1    1.5  1  sp|P45065|MURG_HAEIN  UDP-N-acetylglucosamine--N-acetylmuram
+    4.7e-37  131.8   2.7    5.5e-36  128.3   0.3    2.6  2  sp|A9R124|MURG_YERPG  UDP-N-acetylglucosamine--N-acetylmuram
+    4.7e-37  131.8   2.7    5.5e-36  128.3   0.3    2.6  2  sp|Q1C214|MURG_YERPA  UDP-N-acetylglucosamine--N-acetylmuram
+    4.7e-37  131.8   2.7    5.5e-36  128.3   0.3    2.6  2  sp|Q1CMM7|MURG_YERPN  UDP-N-acetylglucosamine--N-acetylmuram
+    4.7e-37  131.8   2.7    5.5e-36  128.3   0.3    2.6  2  sp|Q8ZIE9|MURG_YERPE  UDP-N-acetylglucosamine--N-acetylmuram
+    5.7e-37  131.5   0.0    3.5e-36  129.0   0.0    2.1  1  sp|O07109|MURG_ENTFA  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-37  131.5   1.2    2.4e-36  129.5   0.1    2.1  1  sp|A3QIM1|MURG_SHELP  UDP-N-acetylglucosamine--N-acetylmuram
+      6e-37  131.5   1.3    3.5e-36  129.0   0.2    2.3  1  sp|A8G9S7|MURG_SERP5  UDP-N-acetylglucosamine--N-acetylmuram
+    6.3e-37  131.4   1.6    3.4e-36  129.0   0.3    2.2  1  sp|B7LWF6|MURG_ESCF3  UDP-N-acetylglucosamine--N-acetylmuram
+    7.1e-37  131.2   2.0    4.3e-36  128.7   0.2    2.3  1  sp|A7MIE5|MURG_ENTS8  UDP-N-acetylglucosamine--N-acetylmuram
+    7.4e-37  131.2   2.7      4e-36  128.8   0.2    2.6  1  sp|C6DEU3|MURG_PECCP  UDP-N-acetylglucosamine--N-acetylmuram
+    8.3e-37  131.0   0.3    1.3e-35  127.1   0.1    2.4  1  sp|Q88V81|MURG_LACPL  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-37  130.9   1.2    8.3e-36  127.8   0.2    2.3  1  sp|Q8Z9G9|MURG_SALTI  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-37  130.9   2.2    1.9e-35  126.6   0.1    2.6  2  sp|B4F111|MURG_PROMH  UDP-N-acetylglucosamine--N-acetylmuram
+    9.9e-37  130.7   2.6    1.4e-35  127.0   0.2    2.3  2  sp|A0L1P2|MURG_SHESA  UDP-N-acetylglucosamine--N-acetylmuram
+    9.9e-37  130.7   2.6    1.4e-35  127.0   0.2    2.3  2  sp|Q0HZR6|MURG_SHESR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-36  130.4   1.6    9.6e-36  127.5   0.3    2.3  1  sp|B5BLC2|MURG_SALPK  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-36  130.4   1.6    9.6e-36  127.5   0.3    2.3  1  sp|Q5PDC8|MURG_SALPA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-36  130.4   0.6    2.3e-36  129.6   0.0    1.8  1  sp|Q9K9T0|MURG_BACHD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-36  130.3   0.0    2.9e-36  129.2   0.0    1.6  1  sp|Q8Y5M2|MURG_LISMO  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.3e-35  127.1   0.3    2.3  1  sp|A9MZL9|MURG_SALPB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.3e-35  127.1   0.3    2.3  1  sp|B4TJ87|MURG_SALHS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.3e-35  127.1   0.3    2.3  1  sp|B4TXH8|MURG_SALSV  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.3e-35  127.1   0.3    2.3  1  sp|B5F7W4|MURG_SALA4  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.3e-35  127.1   0.3    2.3  1  sp|Q8ZRU3|MURG_SALTY  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.3e-35  127.1   0.3    2.3  1  sp|B4SU50|MURG_SALNS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.5e-35  127.0   0.2    2.3  1  sp|A1REZ6|MURG_SHESW  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   1.5    1.5e-35  127.0   0.2    2.3  1  sp|A4Y2N6|MURG_SHEPC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  130.0   0.7    9.6e-36  127.5   0.1    2.2  1  sp|A6T4N3|MURG_KLEP7  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-36  129.9   1.5    1.3e-35  127.1   0.3    2.3  1  sp|B5RH64|MURG_SALG2  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-36  129.9   0.9    6.4e-36  128.1   0.2    2.1  1  sp|A8ALK6|MURG_CITK8  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-36  129.9   1.5    1.3e-35  127.1   0.3    2.2  1  sp|Q57TD0|MURG_SALCH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-36  129.9   1.6    2.2e-35  126.4   0.2    2.4  2  sp|A6WID1|MURG_SHEB8  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-36  129.9   1.6    2.2e-35  126.4   0.2    2.4  2  sp|A9KY29|MURG_SHEB9  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-36  129.9   1.6    2.2e-35  126.4   0.2    2.4  2  sp|B8E698|MURG_SHEB2  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-36  129.8   0.7    9.6e-36  127.5   0.1    2.1  1  sp|B5Y1U7|MURG_KLEP3  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-36  129.6   1.7    2.2e-35  126.4   0.2    2.3  2  sp|A3CZM1|MURG_SHEB5  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-36  129.5   0.3    8.9e-36  127.7   0.1    2.0  1  sp|Q7U336|MURG_HAEDU  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-36  129.5   0.2    4.9e-36  128.5   0.1    1.5  1  sp|B7VJ03|MURG_VIBSL  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-36  129.5   0.4      6e-36  128.2   0.1    1.8  1  sp|Q0I1D3|MURG_HAES1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-36  129.4   1.2    1.3e-35  127.1   0.3    2.2  1  sp|B5FI72|MURG_SALDC  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-36  129.4   0.0    1.3e-35  127.1   0.0    2.1  1  sp|A2RJQ4|MURG_LACLM  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-36  129.4   0.0    1.3e-35  127.1   0.0    2.1  1  sp|Q02XY0|MURG_LACLS  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-36  129.3   1.5    9.4e-36  127.6   0.3    2.1  1  sp|B7MNU9|MURG_ECO81  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-36  129.3   1.5    9.4e-36  127.6   0.3    2.1  1  sp|B7NHJ6|MURG_ECO7I  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-36  129.3   1.5    9.4e-36  127.6   0.3    2.1  1  sp|B7UIE0|MURG_ECO27  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-36  129.3   1.5    9.4e-36  127.6   0.3    2.1  1  sp|Q0TLP9|MURG_ECOL5  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-36  129.3   1.5    9.4e-36  127.6   0.3    2.1  1  sp|Q8FL64|MURG_ECOL6  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-36  129.2   1.6    9.4e-36  127.6   0.3    2.1  1  sp|A1A7D5|MURG_ECOK1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-36  129.2   1.6    9.4e-36  127.6   0.3    2.1  1  sp|B7MAL3|MURG_ECO45  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-36  129.2   1.6    9.4e-36  127.6   0.3    2.1  1  sp|Q1RGA5|MURG_ECOUT  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   2.3    1.2e-35  127.2   0.2    2.4  1  sp|Q6D0I3|MURG_ERWCT  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B5YZC6|MURG_ECO5E  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|Q8X9Y8|MURG_ECO57  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|A7ZHI1|MURG_ECO24  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B1LG27|MURG_ECOSM  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B6HZ67|MURG_ECOSE  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B7M133|MURG_ECO8A  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B7N7W3|MURG_ECOLU  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|Q326E5|MURG_SHIBS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|Q3Z5R9|MURG_SHISS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|Q32K02|MURG_SHIDS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B2U295|MURG_SHIB3  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B1IR88|MURG_ECOLC  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|B1XC67|MURG_ECODH  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|C4ZRI5|MURG_ECOBW  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|P17443|MURG_ECOLI  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   1.3    9.4e-36  127.6   0.3    2.1  1  sp|A7ZW42|MURG_ECOHS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-36  129.1   2.9    3.4e-35  125.8   0.3    2.6  2  sp|A4TQ83|MURG_YERPP  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-36  129.0   0.1    2.6e-35  126.1   0.0    2.4  1  sp|Q9CF92|MURG_LACLA  UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-36  128.9   1.2    3.2e-35  125.8   0.2    2.3  1  sp|B5R2M4|MURG_SALEP  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-36  128.8   1.1    1.3e-35  127.1   0.2    2.1  1  sp|Q0T8A7|MURG_SHIF8  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-36  128.8   1.1    1.3e-35  127.1   0.2    2.1  1  sp|Q83MN4|MURG_SHIFL  UDP-N-acetylglucosamine--N-acetylmuram
+    4.1e-36  128.7   2.5    6.6e-35  124.8   0.2    2.3  2  sp|Q8CX35|MURG_SHEON  UDP-N-acetylglucosamine--N-acetylmuram
+    4.3e-36  128.7   0.0    9.4e-36  127.6   0.0    1.6  1  sp|B8DBP8|MURG_LISMH  UDP-N-acetylglucosamine--N-acetylmuram
+    4.6e-36  128.6   0.0    1.1e-35  127.4   0.0    1.6  1  sp|A0AKD5|MURG_LISW6  UDP-N-acetylglucosamine--N-acetylmuram
+    5.2e-36  128.4   2.9    1.3e-35  127.1   1.0    2.2  1  sp|Q9ZBA5|MURG_STRCO  UDP-N-acetylglucosamine--N-acetylmuram
+    5.5e-36  128.3   0.0    1.2e-35  127.3   0.0    1.6  1  sp|Q929Y2|MURG_LISIN  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-36  128.3   0.5    1.2e-35  127.3   0.1    1.7  1  sp|B8F3B6|MURG_HAEPS  UDP-N-acetylglucosamine--N-acetylmuram
+    5.9e-36  128.2   2.6    1.4e-35  127.0   0.2    2.2  1  sp|Q0HE83|MURG_SHESM  UDP-N-acetylglucosamine--N-acetylmuram
+      6e-36  128.2   0.0    1.3e-35  127.2   0.0    1.6  1  sp|C1KWY8|MURG_LISMC  UDP-N-acetylglucosamine--N-acetylmuram
+      6e-36  128.2   0.0    1.3e-35  127.2   0.0    1.6  1  sp|Q71XX8|MURG_LISMF  UDP-N-acetylglucosamine--N-acetylmuram
+    6.4e-36  128.1   0.1    1.3e-35  127.1   0.1    1.5  1  sp|A1S2F9|MURG_SHEAM  UDP-N-acetylglucosamine--N-acetylmuram
+    9.6e-36  127.5   0.1      2e-35  126.5   0.0    1.6  1  sp|A5UCW8|MURG_HAEIE  UDP-N-acetylglucosamine--N-acetylmuram
+    9.8e-36  127.5   1.0    1.1e-33  120.9   0.1    2.6  2  sp|Q03QH5|MURG_LACBA  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-35  127.4   0.3    2.2e-35  126.4   0.2    1.6  1  sp|Q8DEL0|MURG_VIBVU  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-35  127.4   0.3    2.2e-35  126.4   0.2    1.6  1  sp|Q7MNV1|MURG_VIBVY  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-35  127.2   0.1    2.5e-35  126.2   0.1    1.5  1  sp|Q3IFY0|MURG_PSEHT  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-35  127.1   1.5    3.8e-35  125.6   0.4    2.1  1  sp|B7LFW0|MURG_ECO55  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-35  127.0   0.2    2.4e-35  126.3   0.1    1.4  1  sp|B1KKX7|MURG_SHEWM  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-35  126.3   0.1    4.2e-35  125.5   0.1    1.5  1  sp|Q49929|Y2348_MYCLE Uncharacterized glycosyltransferase ML
+    2.3e-35  126.3   1.8    9.4e-35  124.3   0.2    2.1  1  sp|Q7N147|MURG_PHOLL  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-35  126.3   0.3    7.8e-35  124.6   0.1    1.9  1  sp|A8H984|MURG_SHEPA  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-35  126.1   2.1    5.7e-35  125.0   0.7    2.0  1  sp|Q820F6|MURG_STRAW  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-35  126.1   0.0    1.9e-34  123.3   0.0    2.2  1  sp|Q1WTA0|MURG_LACS1  UDP-N-acetylglucosamine--N-acetylmuram
+      3e-35  125.9   0.7    7.7e-35  124.6   0.5    1.6  1  sp|Q9X4H4|MURG_STRCU  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-35  125.6   1.3    7.1e-35  124.7   0.2    2.0  1  sp|Q12SC6|MURG_SHEDO  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-35  125.5   3.0      6e-35  125.0   0.2    2.2  1  sp|P57817|MURG_PASMU  UDP-N-acetylglucosamine--N-acetylmuram
+    4.3e-35  125.4   1.1    1.1e-34  124.2   0.2    2.0  1  sp|Q87SG4|MURG_VIBPA  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-35  125.4   0.5    1.4e-34  123.7   0.1    1.9  1  sp|B0TQN7|MURG_SHEHH  UDP-N-acetylglucosamine--N-acetylmuram
+    4.7e-35  125.3   0.5    1.7e-34  123.5   0.0    2.0  1  sp|C4L5U5|MURG_EXISA  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-35  125.1   0.5    1.2e-34  124.0   0.1    1.7  1  sp|A9M2H3|MURG_NEIM0  UDP-N-acetylglucosamine--N-acetylmuram
+    7.1e-35  124.7   1.7    1.1e-34  124.1   0.2    1.9  1  sp|Q6LMF6|MURG_PHOPR  UDP-N-acetylglucosamine--N-acetylmuram
+    8.4e-35  124.5   0.2    1.7e-34  123.5   0.1    1.5  1  sp|Q5E2Q0|MURG_VIBF1  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-35  124.4   0.2    1.6e-34  123.6   0.2    1.5  1  sp|P64865|Y1524_MYCTU Uncharacterized glycosyltransferase Rv
+    8.7e-35  124.4   0.2    1.6e-34  123.6   0.2    1.5  1  sp|P64866|Y1551_MYCBO Uncharacterized glycosyltransferase Mb
+      9e-35  124.4   0.2    1.7e-34  123.5   0.1    1.5  1  sp|B5FB35|MURG_VIBFM  UDP-N-acetylglucosamine--N-acetylmuram
+    9.6e-35  124.3   0.3    2.5e-33  119.7   0.2    2.3  2  sp|B2GB78|MURG_LACF3  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-34  124.2   0.1      2e-34  123.3   0.1    1.5  1  sp|B6ELH5|MURG_ALISL  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-34  124.1   0.0    2.4e-34  123.0   0.0    1.6  1  sp|B8CWJ6|MURG_HALOH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-34  124.1   1.2    2.3e-34  123.1   0.2    1.9  1  sp|A7MXR6|MURG_VIBHB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-34  124.1   0.5    3.3e-33  119.3   0.0    2.4  2  sp|A5VJ33|MURG_LACRD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-34  124.1   0.5    3.3e-33  119.3   0.0    2.4  2  sp|B2G6K5|MURG_LACRJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-34  123.8   0.0    3.2e-34  122.6   0.0    1.7  1  sp|Q182Y6|MURG_CLOD6  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-34  123.8   0.2    3.6e-34  122.5   0.2    1.7  1  sp|Q2NVV1|MURG_SODGM  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-34  123.8   0.1    3.6e-34  122.4   0.0    1.8  1  sp|Q07WI5|MURG_SHEFN  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-34  123.8   0.6      3e-34  122.7   0.1    1.7  1  sp|A1KVL3|MURG_NEIMF  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-34  123.7   0.4      3e-34  122.7   0.1    1.6  1  sp|Q9K0Y2|MURG_NEIMB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-34  123.4   0.2    5.6e-34  121.8   0.0    1.8  1  sp|B8CNL1|MURG_SHEPW  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-34  123.3   1.8    1.4e-33  120.6   0.4    2.1  1  sp|C4LA25|MURG_TOLAT  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-34  123.3   0.2    6.1e-34  121.7   0.0    1.8  1  sp|Q9F1N0|MURG_SHEVI  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-34  122.9   0.5    6.5e-34  121.6   0.4    1.7  1  sp|A5F5M9|MURG_VIBC3  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-34  122.9   0.1    9.4e-34  121.1   0.1    1.9  1  sp|Q03W35|MURG_LEUMM  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-34  122.8   2.7    4.4e-34  122.2   1.3    1.7  1  sp|A3Q1L8|MURG_MYCSJ  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-34  122.8   2.7    4.4e-34  122.2   1.3    1.7  1  sp|A1UI54|MURG_MYCSK  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-34  122.8   2.7    4.4e-34  122.2   1.3    1.7  1  sp|Q1B6X1|MURG_MYCSS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-34  122.6   1.5    3.9e-34  122.3   0.3    1.7  1  sp|C3LQU6|MURG_VIBCM  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-34  122.6   1.5    3.9e-34  122.3   0.3    1.7  1  sp|Q9KPG7|MURG_VIBCH  UDP-N-acetylglucosamine--N-acetylmuram
+    4.3e-34  122.2   0.1    7.6e-34  121.4   0.1    1.4  1  sp|A8FQA0|MURG_SHESH  UDP-N-acetylglucosamine--N-acetylmuram
+    6.8e-34  121.5   0.4    1.6e-33  120.3   0.1    1.8  1  sp|B4RQC5|MURG_NEIG2  UDP-N-acetylglucosamine--N-acetylmuram
+    6.8e-34  121.5   0.4    1.6e-33  120.3   0.1    1.8  1  sp|Q5F6L8|MURG_NEIG1  UDP-N-acetylglucosamine--N-acetylmuram
+    7.6e-34  121.4   1.3    1.6e-33  120.4   0.3    2.0  1  sp|B1I4C4|MURG_DESAP  UDP-N-acetylglucosamine--N-acetylmuram
+      8e-34  121.3   1.6      8e-34  121.3   1.1    2.2  1  sp|Q6A9Q2|MURG_PROAC  UDP-N-acetylglucosamine--N-acetylmuram
+    8.6e-34  121.2   0.3    6.8e-33  118.3   0.0    2.4  1  sp|B3WDY2|MURG_LACCB  UDP-N-acetylglucosamine--N-acetylmuram
+    8.6e-34  121.2   0.3    6.8e-33  118.3   0.0    2.4  1  sp|Q039R7|MURG_LACC3  UDP-N-acetylglucosamine--N-acetylmuram
+      9e-34  121.2   0.2    5.8e-33  118.5   0.0    2.3  1  sp|A4J2B1|MURG_DESRM  UDP-N-acetylglucosamine--N-acetylmuram
+    9.5e-34  121.1   0.1    2.3e-33  119.8   0.0    1.7  1  sp|Q47VQ9|MURG_COLP3  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-33  120.9   0.0    2.1e-33  120.0   0.0    1.5  1  sp|B2A2H2|MURG_NATTJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-33  120.3   1.6    2.3e-33  119.8   0.3    1.9  1  sp|Q6NGC8|MURG_CORDI  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-33  120.2   1.5    2.9e-33  119.5   0.3    1.8  1  sp|B4RWX9|MURG_ALTMD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-33  120.2   0.3    3.7e-33  119.2   0.1    1.6  1  sp|Q9JSZ7|MURG_NEIMA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-33  120.1   0.6    5.2e-32  115.5   0.2    2.5  2  sp|B0KFS6|MURG_PSEPG  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-33  119.7   0.8      5e-33  118.7   0.2    1.8  1  sp|A4XQS4|MURG_PSEMY  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-33  119.7   1.1    5.1e-33  118.7   0.4    1.7  1  sp|Q48EF8|MURG_PSE14  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-33  119.7   0.0    2.6e-33  119.7   0.0    1.7  1  sp|Q8R9G6|MURG_THETN  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-33  119.6   0.2    4.7e-32  115.6   0.2    2.3  1  sp|A5W8Q0|MURG_PSEP1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-33  119.5   1.3    3.1e-32  116.2   0.4    2.4  1  sp|Q1I5B8|MURG_PSEE4  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-33  119.5   0.9    6.5e-33  118.4   0.3    1.8  1  sp|Q87WY5|MURG_PSESM  UDP-N-acetylglucosamine--N-acetylmuram
+    3.4e-33  119.3   0.0    5.8e-33  118.5   0.0    1.4  1  sp|C3L230|MURG_CLOB6  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-33  119.3   0.5    6.5e-33  118.4   0.1    1.7  1  sp|A1WC06|MURG_ACISJ  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-33  119.3   0.5    6.5e-33  118.4   0.1    1.7  1  sp|B9MFR2|MURG_DIAST  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-33  119.2   3.2    3.6e-33  119.2   2.2    2.3  1  sp|B8ZQQ0|MURG_MYCLB  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-33  119.2   3.2    3.6e-33  119.2   2.2    2.3  1  sp|O69552|MURG_MYCLE  UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-33  119.2   0.0    2.1e-32  116.8   0.0    1.9  1  sp|Q893R7|MURG_CLOTE  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-33  119.1   0.0    6.5e-33  118.4   0.0    1.4  1  sp|A7GGX9|MURG_CLOBL  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-33  119.1   0.0    6.5e-33  118.4   0.0    1.4  1  sp|B1IKH3|MURG_CLOBK  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-33  119.1   0.0    6.5e-33  118.4   0.0    1.4  1  sp|C1FUF9|MURG_CLOBJ  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-33  119.1   0.0    6.5e-33  118.4   0.0    1.4  1  sp|A5I5J5|MURG_CLOBH  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-33  119.1   0.0    6.5e-33  118.4   0.0    1.4  1  sp|A7FX11|MURG_CLOB1  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-33  119.1   1.1    7.4e-33  118.2   0.4    1.7  1  sp|Q4ZNZ0|MURG_PSEU2  UDP-N-acetylglucosamine--N-acetylmuram
+    4.3e-33  119.0   0.0    4.3e-32  115.7   0.0    2.2  1  sp|A4XI04|MURG_CALS8  UDP-N-acetylglucosamine--N-acetylmuram
+    4.6e-33  118.9   1.2    1.1e-32  117.6   0.8    1.7  1  sp|A0R016|MURG_MYCS2  UDP-N-acetylglucosamine--N-acetylmuram
+    5.1e-33  118.7   0.0      2e-32  116.8   0.0    2.0  1  sp|A8YUN9|MURG_LACH4  UDP-N-acetylglucosamine--N-acetylmuram
+    5.6e-33  118.6   0.6    5.6e-33  118.6   0.4    2.6  1  sp|A1SL80|MURG_NOCSJ  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-33  118.5   1.0    7.1e-32  115.0   0.3    2.4  1  sp|Q88N76|MURG_PSEPK  UDP-N-acetylglucosamine--N-acetylmuram
+    8.3e-33  118.0   0.0    1.4e-32  117.3   0.0    1.4  1  sp|B1KYH7|MURG_CLOBM  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-33  118.0   2.7    1.5e-32  117.2   0.1    2.5  1  sp|Q24TE6|MURG_DESHY  UDP-N-acetylglucosamine--N-acetylmuram
+      9e-33  117.9   1.5    1.8e-32  117.0   0.5    1.9  1  sp|Q3K744|MURG_PSEPF  UDP-N-acetylglucosamine--N-acetylmuram
+    9.4e-33  117.9   0.7    1.7e-31  113.8   0.4    2.4  1  sp|B1J3L2|MURG_PSEPW  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-32  117.8   0.1    1.1e-31  114.4   0.0    2.4  1  sp|B0K3H0|MURG_THEPX  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-32  117.8   0.1    1.1e-31  114.4   0.0    2.4  1  sp|B0K8K7|MURG_THEP3  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-32  117.7   0.0    1.5e-31  114.0   0.0    2.2  1  sp|A3DE27|MURG_CLOTH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-32  117.3   3.8    2.3e-32  116.6   1.1    2.3  1  sp|A1TAW8|MURG_MYCVP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-32  117.1   1.3    7.6e-32  114.9   0.2    2.5  1  sp|B8FT56|MURG_DESHD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-32  116.6   1.2    2.3e-32  116.6   0.8    1.7  1  sp|Q9RWP0|MURG_DEIRA  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-32  116.5   1.3    1.8e-31  113.7   0.3    2.2  1  sp|B2I1J5|MURG_ACIBC  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-32  116.5   1.3    1.8e-31  113.7   0.3    2.2  1  sp|B0V9F5|MURG_ACIBY  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-32  116.5   1.3    1.8e-31  113.7   0.3    2.2  1  sp|B7GV73|MURG_ACIB3  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-32  116.5   1.3    1.8e-31  113.7   0.3    2.2  1  sp|B7ICE5|MURG_ACIB5  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-32  116.5   0.1    2.5e-32  116.5   0.0    2.0  1  sp|A5D145|MURG_PELTS  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-32  116.3   1.2    1.8e-31  113.7   0.3    2.2  1  sp|A3M9Y1|MURG_ACIBT  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-32  116.3   0.0    5.9e-32  115.3   0.0    1.6  1  sp|A9KK83|MURG_CLOPH  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-32  116.0   0.7    7.1e-32  115.0   0.5    1.5  1  sp|C3KCT0|MURG_PSEFS  UDP-N-acetylglucosamine--N-acetylmuram
+    4.5e-32  115.7   0.0    9.5e-32  114.6   0.0    1.6  1  sp|Q03EY2|MURG_PEDPA  UDP-N-acetylglucosamine--N-acetylmuram
+    4.8e-32  115.6   1.5    1.3e-31  114.2   1.0    1.7  1  sp|A0QF52|MURG_MYCA1  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-32  115.4   0.0    2.1e-30  110.2   0.0    2.5  2  sp|Q04B72|MURG_LACDB  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-32  115.4   0.0    2.1e-30  110.2   0.0    2.5  2  sp|Q1GAT5|MURG_LACDA  UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-32  115.1   2.3    9.1e-32  114.7   0.6    2.0  1  sp|Q4K6J3|MURG_PSEF5  UDP-N-acetylglucosamine--N-acetylmuram
+    7.5e-32  114.9   1.2    5.8e-31  112.1   0.3    2.2  1  sp|B0VNZ9|MURG_ACIBS  UDP-N-acetylglucosamine--N-acetylmuram
+    8.8e-32  114.7   0.0      5e-31  112.3   0.0    2.1  1  sp|Q5FKV2|MURG_LACAC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-31  114.5   2.0    7.3e-31  111.7   0.3    2.4  1  sp|A0KPX2|MURG_AERHH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-31  114.3   4.6    1.4e-31  114.1   2.4    1.7  1  sp|A1WYU3|MURG_HALHL  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-31  114.3   2.2    3.1e-31  113.0   1.5    1.7  1  sp|Q73YQ8|MURG_MYCPA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-31  114.3   1.0    2.2e-31  113.4   0.3    1.7  1  sp|B1MXW0|MURG_LEUCK  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-31  114.2   0.4    3.4e-31  112.8   0.3    1.7  1  sp|Q604V7|MURG_METCA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-31  114.2   0.0    2.3e-31  113.3   0.0    1.4  1  sp|B2V1X5|MURG_CLOBA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-31  113.8   0.2    3.4e-31  112.8   0.1    1.5  1  sp|A1U3F8|MURG_MARAV  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-31  113.5   0.0    2.5e-30  110.0   0.0    2.2  1  sp|A8MH36|MURG_ALKOO  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-31  113.5   0.0    5.3e-31  112.2   0.0    1.6  1  sp|B2TLE0|MURG_CLOBB  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-31  113.2   2.0    1.5e-30  110.7   0.3    2.4  1  sp|A4SI56|MURG_AERS4  UDP-N-acetylglucosamine--N-acetylmuram
+      3e-31  113.0   0.0    1.3e-30  111.0   0.0    1.9  1  sp|C4Z1B5|MURG_EUBE2  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-31  113.0   0.3    6.9e-31  111.8   0.2    1.6  1  sp|C1DQ99|MURG_AZOVD  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-31  112.9   1.0    1.8e-30  110.5   0.3    2.1  1  sp|Q6F703|MURG_ACIAD  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-31  112.9   0.0    5.3e-31  112.2   0.0    1.4  1  sp|B1YIT7|MURG_EXIS2  UDP-N-acetylglucosamine--N-acetylmuram
+      5e-31  112.3   2.6    1.2e-30  111.1   1.8    1.6  1  sp|C1CW40|MURG_DEIDV  UDP-N-acetylglucosamine--N-acetylmuram
+    5.1e-31  112.2   0.9    1.9e-30  110.4   0.3    1.9  1  sp|Q47QW9|MURG_THEFY  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-31  112.2   0.0      9e-31  111.4   0.0    1.4  1  sp|A0Q182|MURG_CLONN  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-31  112.2   1.4    5.3e-31  112.2   0.9    2.0  1  sp|A1KKJ6|MURG_MYCBP  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-31  112.2   1.4    5.3e-31  112.2   0.9    2.0  1  sp|C1AQ69|MURG_MYCBT  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-31  112.2   1.4    5.3e-31  112.2   0.9    2.0  1  sp|Q7VEP8|MURG_MYCBO  UDP-N-acetylglucosamine--N-acetylmuram
+    6.3e-31  111.9   0.0      1e-30  111.3   0.0    1.3  1  sp|B0S0Z5|MURG_FINM2  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-31  111.7   0.2    4.9e-30  109.0   0.2    2.1  1  sp|B7UZJ0|MURG_PSEA8  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-31  111.7   0.2    4.9e-30  109.0   0.2    2.1  1  sp|Q02H28|MURG_PSEAB  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-31  111.7   0.2    4.9e-30  109.0   0.2    2.1  1  sp|Q9HW01|MURG_PSEAE  UDP-N-acetylglucosamine--N-acetylmuram
+    7.8e-31  111.6   0.8    7.8e-31  111.6   0.5    2.2  1  sp|A0PTI7|MURG_MYCUA  UDP-N-acetylglucosamine--N-acetylmuram
+    8.2e-31  111.6   0.2    4.9e-30  109.0   0.2    2.1  1  sp|A6VB85|MURG_PSEA7  UDP-N-acetylglucosamine--N-acetylmuram
+    8.5e-31  111.5   0.1    1.5e-30  110.7   0.1    1.4  1  sp|A9KER3|MURG_COXBN  UDP-N-acetylglucosamine--N-acetylmuram
+    8.6e-31  111.5   0.1    1.5e-30  110.7   0.1    1.4  1  sp|A9NA44|MURG_COXBR  UDP-N-acetylglucosamine--N-acetylmuram
+    8.6e-31  111.5   0.1    1.5e-30  110.7   0.1    1.4  1  sp|B6J2Q3|MURG_COXB2  UDP-N-acetylglucosamine--N-acetylmuram
+    8.6e-31  111.5   0.1    1.5e-30  110.7   0.1    1.4  1  sp|B6J5K3|MURG_COXB1  UDP-N-acetylglucosamine--N-acetylmuram
+    8.6e-31  111.5   0.1    1.5e-30  110.7   0.1    1.4  1  sp|Q820X3|MURG_COXBU  UDP-N-acetylglucosamine--N-acetylmuram
+    9.1e-31  111.4   0.0    2.9e-30  109.8   0.0    1.9  1  sp|Q042P9|MURG_LACGA  UDP-N-acetylglucosamine--N-acetylmuram
+    9.6e-31  111.4   1.3    9.6e-31  111.4   0.9    2.1  1  sp|B2HGR6|MURG_MYCMM  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-30  111.2   0.8    2.7e-30  109.9   0.2    1.8  1  sp|Q0VS02|MURG_ALCBS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-30  111.2   2.3    1.1e-30  111.2   1.6    1.8  1  sp|Q0RNP1|MURG_FRAAA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-30  111.0   2.9    2.1e-30  110.3   0.5    2.3  1  sp|Q2RK79|MURG_MOOTA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-30  111.0   2.6    1.3e-30  111.0   1.8    1.7  1  sp|Q1IXV9|MURG_DEIGD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-30  111.0   0.0    5.5e-30  108.9   0.0    2.0  1  sp|Q74JY4|MURG_LACJO  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-30  110.7   0.0    3.9e-30  109.4   0.0    1.7  1  sp|A5MZ55|MURG_CLOK5  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-30  110.5   0.6    3.7e-30  109.5   0.4    1.5  1  sp|A1TKD1|MURG_ACIAC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-30  110.4   0.0    4.3e-30  109.3   0.0    1.6  1  sp|B7J0L2|MURG_BORBZ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-30  110.4   0.0    4.3e-30  109.3   0.0    1.6  1  sp|O51708|MURG_BORBU  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-30  110.3   1.0    4.2e-30  109.3   0.7    1.6  1  sp|Q15Q17|MURG_PSEA6  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-30  110.3   0.0    5.7e-30  108.9   0.0    1.8  1  sp|A7A179|ATG26_YEAS7 Sterol 3-beta-glucosyltransferase OS=S
+    2.3e-30  110.1   0.5    4.8e-30  109.1   0.4    1.6  1  sp|Q1D0T0|MURG_MYXXD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-30  110.0   1.0    2.5e-30  110.0   0.7    1.6  1  sp|Q1QVG7|MURG_CHRSD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-30  110.0   0.5    2.6e-30  110.0   0.3    2.1  1  sp|A4VIH8|MURG_PSEU5  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-30  109.9   0.0    8.3e-30  108.3   0.0    1.8  1  sp|Q38XM8|MURG_LACSS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-30  109.6   0.4    8.3e-30  108.3   0.1    1.8  1  sp|A1SU19|MURG_PSYIN  UDP-N-acetylglucosamine--N-acetylmuram
+    3.4e-30  109.6   0.0    7.1e-30  108.5   0.0    1.6  1  sp|Q31I59|MURG_THICR  UDP-N-acetylglucosamine--N-acetylmuram
+    3.4e-30  109.6   0.0    8.7e-30  108.3   0.0    1.7  1  sp|Q04ET0|MURG_OENOB  UDP-N-acetylglucosamine--N-acetylmuram
+    3.4e-30  109.6   0.9    3.4e-30  109.6   0.6    1.8  1  sp|Q2KVG0|MURG_BORA1  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-30  109.5   0.3    7.1e-30  108.5   0.2    1.5  1  sp|Q5R0M1|MURG_IDILO  UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-30  109.5   0.1      1e-29  108.1   0.0    1.7  1  sp|Q5WAE4|MURG_BACSK  UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-30  109.5   3.4    1.3e-29  107.6   1.0    2.3  1  sp|Q2JD50|MURG_FRASC  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-30  109.4   1.3    8.8e-30  108.2   0.9    1.6  1  sp|B5ELC3|MURG_ACIF5  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-30  109.4   1.3    8.8e-30  108.2   0.9    1.6  1  sp|B7J3V2|MURG_ACIF2  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-30  109.4   0.0    7.7e-30  108.4   0.0    1.5  1  sp|Q0SM88|MURG_BORAP  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-30  109.3   0.3    1.1e-29  107.9   0.2    1.7  1  sp|Q4FQV9|MURG_PSYA2  UDP-N-acetylglucosamine--N-acetylmuram
+    4.5e-30  109.2   0.0    2.9e-29  106.6   0.0    2.2  1  sp|Q730T5|MURG2_BACC1 UDP-N-acetylglucosamine--N-acetylmuram
+    4.8e-30  109.1   0.0    2.6e-29  106.7   0.0    2.1  1  sp|Q1LSW5|MURG_BAUCH  UDP-N-acetylglucosamine--N-acetylmuram
+    5.4e-30  108.9   0.2    9.8e-30  108.1   0.2    1.4  1  sp|Q9WY74|MURG_THEMA  UDP-N-acetylglucosamine--N-acetylmuram
+    5.5e-30  108.9   0.2    9.8e-30  108.1   0.1    1.4  1  sp|B1L9S1|MURG_THESQ  UDP-N-acetylglucosamine--N-acetylmuram
+    5.5e-30  108.9   0.2    9.8e-30  108.1   0.2    1.4  1  sp|A5IKI9|MURG_THEP1  UDP-N-acetylglucosamine--N-acetylmuram
+    5.9e-30  108.8   1.4    1.4e-29  107.5   0.6    1.9  1  sp|A4FLW0|MURG_SACEN  UDP-N-acetylglucosamine--N-acetylmuram
+    6.6e-30  108.6   1.4    1.3e-29  107.7   0.9    1.5  1  sp|Q9RNM6|MURG_ZYMMO  UDP-N-acetylglucosamine--N-acetylmuram
+    7.1e-30  108.5   0.0    1.9e-29  107.1   0.0    1.8  1  sp|Q06321|ATG26_YEAST Sterol 3-beta-glucosyltransferase OS=S
+    7.2e-30  108.5   3.0    1.2e-29  107.8   2.1    1.4  1  sp|Q9PF81|MURG_XYLFA  UDP-N-acetylglucosamine--N-acetylmuram
+    7.9e-30  108.4   1.5    7.9e-30  108.4   1.0    1.9  1  sp|Q5GW41|MURG_XANOR  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-30  108.2   0.2    1.4e-29  107.6   0.1    1.3  1  sp|B2S3B6|MURG_TREPS  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-30  108.2   0.2    1.4e-29  107.6   0.1    1.3  1  sp|O83535|MURG_TREPA  UDP-N-acetylglucosamine--N-acetylmuram
+    9.2e-30  108.2   0.0    1.7e-29  107.3   0.0    1.5  1  sp|Q0AJE1|MURG_NITEC  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-29  108.1   1.1      1e-29  108.1   0.8    1.8  1  sp|B3PCM0|MURG_CELJU  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-29  107.8   0.1      2e-29  107.0   0.1    1.4  1  sp|A5G8K0|MURG_GEOUR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-29  107.8   1.4    1.2e-29  107.8   1.0    2.1  1  sp|A5U4I0|MURG_MYCTA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-29  107.8   1.4    1.2e-29  107.8   1.0    2.1  1  sp|O06224|MURG_MYCTU  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-29  107.7   1.0    1.3e-29  107.7   0.7    2.2  1  sp|Q4JW95|MURG_CORJK  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-29  107.6   0.0    3.3e-29  106.4   0.0    1.6  1  sp|Q97GY4|MURG_CLOAB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-29  107.4   0.0    2.5e-29  106.8   0.0    1.4  1  sp|Q9Z702|MURG_CHLPN  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-29  107.4   0.4    2.8e-29  106.6   0.3    1.4  1  sp|Q1Q944|MURG_PSYCK  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-29  107.3   0.5    5.5e-29  105.6   0.3    1.9  1  sp|C0RE70|MURG_BRUMB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-29  107.3   0.5    5.5e-29  105.6   0.3    1.9  1  sp|Q8YI66|MURG_BRUME  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-29  107.3   1.3    3.8e-29  106.2   0.9    1.6  1  sp|Q3BXF2|MURG_XANC5  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.2   0.5    5.5e-29  105.6   0.3    1.8  1  sp|B2S6Q4|MURG_BRUA1  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.2   0.5    5.5e-29  105.6   0.3    1.8  1  sp|Q2YLY5|MURG_BRUA2  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.2   0.5    5.5e-29  105.6   0.3    1.8  1  sp|Q57C78|MURG_BRUAB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.1   0.0    4.1e-29  106.1   0.0    1.6  1  sp|Q660A8|MURG_BORGA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.1   0.0    3.8e-29  106.2   0.0    1.5  1  sp|B8I6H3|MURG_CLOCE  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.1   0.5    5.5e-29  105.6   0.3    1.8  1  sp|A5VRH7|MURG_BRUO2  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-29  107.1   0.5    5.5e-29  105.6   0.3    1.8  1  sp|B0CHM0|MURG_BRUSI  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-29  107.1   1.4      4e-29  106.1   0.7    1.8  1  sp|A0JV94|MURG_ARTS2  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-29  107.1   0.0    4.1e-29  106.1   0.0    1.5  1  sp|A6TS61|MURG_ALKMQ  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-29  107.1   0.0      4e-29  106.1   0.0    1.5  1  sp|C5D4C2|MURG_GEOSW  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-29  107.1   0.5    5.5e-29  105.6   0.3    1.7  1  sp|A9M690|MURG_BRUC2  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-29  107.0   1.6    6.1e-29  105.5   1.1    1.8  1  sp|Q8PPA8|MURG_XANAC  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-29  107.0   0.5    5.5e-29  105.6   0.3    1.7  1  sp|Q8CY39|MURG_BRUSU  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-29  106.9   1.6      5e-29  105.8   1.1    1.6  1  sp|A1WRL1|MURG_VEREI  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-29  106.7   0.0    1.3e-28  104.4   0.0    2.1  1  sp|Q812T8|MURG2_BACCR UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-29  106.6   3.7    4.8e-29  105.9   2.6    1.4  1  sp|B0U4Z7|MURG_XYLFM  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-29  106.5   0.0    5.3e-29  105.7   0.0    1.4  1  sp|A4IJS4|MURG_GEOTN  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-29  106.4   1.4    3.2e-29  106.4   0.9    1.9  1  sp|Q2NZB8|MURG_XANOM  UDP-N-acetylglucosamine--N-acetylmuram
+    4.6e-29  105.9   0.0    7.6e-29  105.2   0.0    1.4  1  sp|A5FIY3|MURG_FLAJ1  UDP-N-acetylglucosamine--N-acetylmuram
+      6e-29  105.5   0.6    1.6e-28  104.2   0.4    1.7  1  sp|Q39JX0|MURG_BURS3  UDP-N-acetylglucosamine--N-acetylmuram
+    6.9e-29  105.3   3.5    9.4e-29  104.9   1.1    2.1  1  sp|C1A0X5|MURG_RHOE4  UDP-N-acetylglucosamine--N-acetylmuram
+    7.3e-29  105.3   0.3    1.8e-28  103.9   0.1    1.8  1  sp|Q748D6|MURG_GEOSL  UDP-N-acetylglucosamine--N-acetylmuram
+    8.2e-29  105.1   0.1    1.3e-28  104.4   0.1    1.4  1  sp|Q820Y4|MURG_TROWT  UDP-N-acetylglucosamine--N-acetylmuram
+    8.2e-29  105.1   0.1    1.3e-28  104.4   0.1    1.4  1  sp|Q83HK1|MURG_TROW8  UDP-N-acetylglucosamine--N-acetylmuram
+    8.3e-29  105.1   3.4    1.3e-28  104.5   0.9    2.2  1  sp|A4QFM3|MURG_CORGB  UDP-N-acetylglucosamine--N-acetylmuram
+    8.5e-29  105.0   0.5    1.8e-28  104.0   0.1    1.7  1  sp|Q39YL9|MURG_GEOMG  UDP-N-acetylglucosamine--N-acetylmuram
+    8.5e-29  105.0   0.0    1.3e-28  104.5   0.0    1.3  1  sp|A1R0I9|MURG_BORT9  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-29  105.0   0.0      2e-28  103.9   0.0    1.6  1  sp|Q3AAE6|MURG_CARHZ  UDP-N-acetylglucosamine--N-acetylmuram
+    9.1e-29  104.9   3.5    1.3e-28  104.5   0.9    2.2  1  sp|Q8NNN5|MURG_CORGL  UDP-N-acetylglucosamine--N-acetylmuram
+    9.1e-29  104.9   0.0      2e-28  103.8   0.0    1.6  1  sp|Q0TNP7|MURG_CLOP1  UDP-N-acetylglucosamine--N-acetylmuram
+    9.1e-29  104.9   0.0      2e-28  103.8   0.0    1.6  1  sp|Q8XIQ1|MURG_CLOPE  UDP-N-acetylglucosamine--N-acetylmuram
+    9.4e-29  104.9   0.0      2e-28  103.8   0.0    1.6  1  sp|Q0SRB4|MURG_CLOPS  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-28  104.8   2.6    1.9e-28  103.9   1.8    1.5  1  sp|Q5YYX9|MURG_NOCFA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-28  104.7   2.7    1.5e-28  104.3   0.4    2.0  1  sp|A7HH67|MURG_ANADF  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-28  104.6   0.0    2.6e-28  103.5   0.0    1.6  1  sp|Q82VS3|MURG_NITEU  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-28  104.6   3.5    1.3e-28  104.4   1.4    1.9  1  sp|B0RVA5|MURG_XANCB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-28  104.6   0.8    2.9e-28  103.3   0.5    1.7  1  sp|Q2SZI3|MURG_BURTA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-28  104.5   1.3    1.8e-28  104.0   0.3    1.7  1  sp|Q11GS5|MURG_MESSB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-28  104.5   3.6    1.3e-28  104.4   1.4    1.9  1  sp|Q4UQX0|MURG_XANC8  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-28  104.5   3.6    1.3e-28  104.4   1.4    1.9  1  sp|Q8PCK0|MURG_XANCP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-28  104.4   0.8    3.4e-28  103.1   0.5    1.7  1  sp|A3NZL5|MURG_BURP0  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-28  104.3   2.8    1.7e-28  104.1   0.7    1.9  1  sp|Q98KB3|MURG_RHILO  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-28  104.2   1.6    3.5e-28  103.1   1.1    1.6  1  sp|Q0A6K2|MURG_ALHEH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-28  104.2   0.0    3.4e-28  103.1   0.0    1.6  1  sp|A5IGA6|MURG_LEGPC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-28  104.2   0.0    2.6e-28  103.5   0.0    1.4  1  sp|Q5L3H6|MURG_GEOKA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-28  104.1   2.6    2.9e-28  103.3   0.9    2.1  1  sp|A0LTM3|MURG_ACIC1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-28  103.7   0.0    4.3e-28  102.8   0.0    1.5  1  sp|Q3A2G6|MURG_PELCD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-28  103.7   0.2    5.5e-27   99.2   0.0    2.6  1  sp|Q0AYQ8|MURG_SYNWW  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-28  103.5   0.4    7.6e-28  102.0   0.1    1.9  1  sp|Q1LIM6|MURG_RALME  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-28  103.5   2.0    2.1e-27  100.5   0.5    2.2  1  sp|Q92NL9|MURG_RHIME  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-28  103.4   0.7    2.2e-27  100.4   0.3    2.1  1  sp|Q72JP9|MURG_THET2  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-28  103.4   1.3    2.8e-28  103.4   0.9    2.3  1  sp|A1R5F8|MURG_ARTAT  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-28  103.3   3.7    4.9e-28  102.6   2.6    1.4  1  sp|Q87AF9|MURG_XYLFT  UDP-N-acetylglucosamine--N-acetylmuram
+      3e-28  103.3   3.7    4.9e-28  102.6   2.6    1.4  1  sp|B2I9B3|MURG_XYLF2  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   1.4    5.6e-28  102.4   0.3    1.9  1  sp|A6WZQ6|MURG_OCHA4  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   0.7    8.6e-28  101.8   0.5    1.7  1  sp|A1V0R8|MURG_BURMS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   0.7    8.6e-28  101.8   0.5    1.7  1  sp|A2S5U5|MURG_BURM9  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   0.7    8.6e-28  101.8   0.5    1.7  1  sp|A3MR63|MURG_BURM7  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   0.7    8.6e-28  101.8   0.5    1.7  1  sp|Q62GS7|MURG_BURMA  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   0.7    8.6e-28  101.8   0.5    1.7  1  sp|Q63QJ7|MURG_BURPS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-28  103.1   0.7    8.6e-28  101.8   0.5    1.7  1  sp|A3NDW4|MURG_BURP6  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-28  102.9   0.4    8.7e-28  101.8   0.3    1.6  1  sp|Q3J789|MURG_NITOC  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-28  102.9   0.0      6e-28  102.3   0.0    1.3  1  sp|Q8K9T4|MURG_BUCAP  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-28  102.9   0.4    7.8e-28  101.9   0.0    1.7  1  sp|B9M172|MURG_GEOSF  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-28  102.9   0.4    1.1e-27  101.5   0.0    1.9  1  sp|B5EBQ1|MURG_GEOBB  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-28  102.8   0.9    1.1e-27  101.5   0.6    1.7  1  sp|Q3JND8|MURG_BURP1  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-28  102.8   1.1    8.4e-28  101.8   0.3    1.8  1  sp|Q1IKH0|MURG_ACIBL  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-28  102.8   0.1    1.4e-27  101.1   0.0    1.9  1  sp|P74657|MURG_SYNY3  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-28  102.7   0.5    9.7e-28  101.6   0.4    1.6  1  sp|B1YSS4|MURG_BURA4  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-28  102.7   0.5    9.7e-28  101.6   0.4    1.6  1  sp|Q0BIK1|MURG_BURCM  UDP-N-acetylglucosamine--N-acetylmuram
+    5.7e-28  102.4   0.0    2.2e-27  100.5   0.0    1.9  1  sp|Q6HDR3|MURG2_BACHK UDP-N-acetylglucosamine--N-acetylmuram
+    5.7e-28  102.4   0.0    2.2e-27  100.5   0.0    1.9  1  sp|Q81JE6|MURG2_BACAN UDP-N-acetylglucosamine--N-acetylmuram
+    6.2e-28  102.2   0.9    1.3e-27  101.2   0.2    1.8  1  sp|Q0K6M4|MURG_RALEH  UDP-N-acetylglucosamine--N-acetylmuram
+    6.4e-28  102.2   0.0    1.5e-27  101.0   0.0    1.6  1  sp|Q5WY98|MURG_LEGPL  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-28  102.2   0.0    2.2e-27  100.5   0.0    1.8  1  sp|A0RIN0|MURG3_BACAH UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-28  102.1   0.5    1.7e-27  100.9   0.4    1.7  1  sp|Q7W4B4|MURG_BORPA  UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-28  102.1   0.0    1.5e-27  101.0   0.0    1.6  1  sp|Q5X6U5|MURG_LEGPA  UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-28  102.1   0.0    1.5e-27  101.0   0.0    1.6  1  sp|Q5ZXC4|MURG_LEGPH  UDP-N-acetylglucosamine--N-acetylmuram
+    6.9e-28  102.1   0.0    1.1e-27  101.4   0.0    1.4  1  sp|A6M1F0|MURG_CLOB8  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-28  101.9   0.0    1.1e-27  101.4   0.0    1.2  1  sp|B8D7B9|MURG_BUCAT  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-28  101.9   0.0    1.1e-27  101.4   0.0    1.2  1  sp|P57311|MURG_BUCAI  UDP-N-acetylglucosamine--N-acetylmuram
+    8.3e-28  101.8   0.5      2e-27  100.6   0.4    1.7  1  sp|Q7VUQ3|MURG_BORPE  UDP-N-acetylglucosamine--N-acetylmuram
+    8.4e-28  101.8   0.5      2e-27  100.6   0.4    1.7  1  sp|Q7WFS2|MURG_BORBR  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-28  101.8   1.5    3.6e-27   99.8   0.3    2.1  1  sp|B2SYX6|MURG_BURPP  UDP-N-acetylglucosamine--N-acetylmuram
+    9.7e-28  101.6   0.0    1.6e-27  100.9   0.0    1.4  1  sp|B0B8Y7|MURG_CHLT2  UDP-N-acetylglucosamine--N-acetylmuram
+    9.7e-28  101.6   0.0    1.6e-27  100.9   0.0    1.4  1  sp|B0BAL6|MURG_CHLTB  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-27  101.5   0.0    1.5e-27  101.0   0.0    1.2  1  sp|B8D914|MURG_BUCA5  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-27  101.5   0.4    2.4e-27  100.4   0.3    1.6  1  sp|Q47AA4|MURG_DECAR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-27  101.4   0.5    2.3e-27  100.4   0.3    1.5  1  sp|A4JB94|MURG_BURVG  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-27  101.2   0.1    2.2e-27  100.4   0.1    1.4  1  sp|Q2Y638|MURG_NITMU  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-27  101.0   1.1    2.6e-27  100.2   0.2    1.8  1  sp|B2JHG0|MURG_BURP8  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-27  101.0   0.0    2.6e-27  100.2   0.0    1.4  1  sp|O84766|MURG_CHLTR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-27  101.0   0.0    2.6e-27  100.2   0.0    1.4  1  sp|Q3KKT1|MURG_CHLTA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-27  100.8   0.1    3.5e-27   99.8   0.0    1.5  1  sp|A1AU61|MURG_PELPD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-27  100.8   0.0    3.6e-27   99.8   0.0    1.5  1  sp|Q2LR48|MURG_SYNAS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-27  100.7   1.6    3.2e-27   99.9   0.6    1.8  1  sp|Q2G995|MURG_NOVAD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-27  100.7   0.9    4.2e-27   99.5   0.3    1.8  1  sp|A5EY03|MURG_DICNV  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-27  100.6   5.4      2e-27  100.6   0.8    2.4  1  sp|Q8FNU0|MURG_COREF  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-27  100.6   0.9    4.5e-27   99.4   0.6    1.6  1  sp|A9AI96|MURG_BURM1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-27  100.4   0.2    3.9e-27   99.7   0.1    1.4  1  sp|Q21SW9|MURG_RHOFD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-27  100.2   0.0    4.9e-27   99.3   0.0    1.5  1  sp|B5YFT4|MURG_THEYD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-27  100.2   0.0      7e-27   98.8   0.0    1.8  1  sp|A7KAK6|ATG26_PICAN Sterol 3-beta-glucosyltransferase OS=P
+    3.1e-27  100.0   0.7    6.9e-27   98.9   0.1    1.8  1  sp|Q46WZ4|MURG_RALEJ  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-27  100.0   1.6    1.1e-26   98.1   0.3    2.1  1  sp|Q13TZ2|MURG_BURXL  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-27   99.9   0.2    1.1e-26   98.2   0.0    2.0  1  sp|C6DZK6|MURG_GEOSM  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-27   99.5   0.0    7.7e-27   98.7   0.0    1.4  1  sp|A8GVJ7|MURG_RICB8  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-27   99.5   0.0    7.7e-27   98.7   0.0    1.4  1  sp|Q1RI55|MURG_RICBR  UDP-N-acetylglucosamine--N-acetylmuram
+    5.2e-27   99.2   1.7    5.1e-26   96.0   0.7    2.2  1  sp|B5ZWJ4|MURG_RHILW  UDP-N-acetylglucosamine--N-acetylmuram
+    5.4e-27   99.2   0.0      1e-26   98.3   0.0    1.5  1  sp|B0JFZ1|MURG_MICAN  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-27   99.1   0.2    1.3e-26   98.0   0.1    1.6  1  sp|Q31KS7|MURG_SYNE7  UDP-N-acetylglucosamine--N-acetylmuram
+      6e-27   99.1   0.2    1.3e-26   97.9   0.1    1.6  1  sp|Q5N140|MURG_SYNP6  UDP-N-acetylglucosamine--N-acetylmuram
+    6.4e-27   99.0   0.0    1.6e-26   97.6   0.0    1.7  1  sp|Q14I26|MURG_FRAT1  UDP-N-acetylglucosamine--N-acetylmuram
+    6.4e-27   99.0   0.0    1.6e-26   97.6   0.0    1.7  1  sp|Q5NGM4|MURG_FRATT  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-27   98.9   0.0    1.5e-26   97.8   0.0    1.6  1  sp|Q493Q1|MURG_BLOPB  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-27   98.9   0.0    1.1e-26   98.2   0.0    1.4  1  sp|Q92I58|MURG_RICCN  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-27   98.9   0.0    1.1e-26   98.2   0.0    1.4  1  sp|C3PND5|MURG_RICAE  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-27   98.9   0.0    1.1e-26   98.2   0.0    1.4  1  sp|C4K2A6|MURG_RICPU  UDP-N-acetylglucosamine--N-acetylmuram
+    6.6e-27   98.9   0.0      1e-26   98.3   0.0    1.3  1  sp|B2S1A8|MURG_BORHD  UDP-N-acetylglucosamine--N-acetylmuram
+    6.6e-27   98.9   0.0    1.1e-26   98.2   0.0    1.4  1  sp|A8GRZ6|MURG_RICRS  UDP-N-acetylglucosamine--N-acetylmuram
+    6.6e-27   98.9   0.0    1.1e-26   98.2   0.0    1.4  1  sp|B0BXF6|MURG_RICRO  UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-27   98.9   0.5    1.5e-26   97.8   0.4    1.6  1  sp|Q3SMH3|MURG_THIDA  UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-27   98.9   0.9    1.7e-26   97.6   0.7    1.7  1  sp|Q21MG9|MURG_SACD2  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-27   98.5   0.0    6.8e-26   95.6   0.0    2.2  1  sp|B1IAM4|MURG_STRPI  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-27   98.5   0.0    6.8e-26   95.6   0.0    2.2  1  sp|Q04LK0|MURG_STRP2  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-27   98.5   0.0    6.8e-26   95.6   0.0    2.2  1  sp|Q8DQM1|MURG_STRR6  UDP-N-acetylglucosamine--N-acetylmuram
+    8.7e-27   98.5   0.0    6.8e-26   95.6   0.0    2.2  1  sp|B2IN77|MURG_STRPS  UDP-N-acetylglucosamine--N-acetylmuram
+    8.8e-27   98.5   0.0    6.8e-26   95.6   0.0    2.2  1  sp|C1CQG5|MURG_STRZT  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-27   98.5   0.0    6.8e-26   95.6   0.0    2.2  1  sp|C1CD52|MURG_STRZJ  UDP-N-acetylglucosamine--N-acetylmuram
+      9e-27   98.5   0.0    2.4e-26   97.1   0.0    1.7  1  sp|Q634T3|MURG2_BACCZ UDP-N-acetylglucosamine--N-acetylmuram
+      9e-27   98.5   0.3    1.7e-26   97.5   0.2    1.5  1  sp|A1VST6|MURG_POLNA  UDP-N-acetylglucosamine--N-acetylmuram
+      9e-27   98.5   2.0    3.5e-26   96.6   0.8    2.1  1  sp|A6UB85|MURG_SINMW  UDP-N-acetylglucosamine--N-acetylmuram
+    9.2e-27   98.5   0.0    5.5e-26   95.9   0.0    2.0  1  sp|B9DNZ7|MURG_STACT  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-26   98.3   0.5    2.6e-26   97.0   0.4    1.7  1  sp|B4E6J2|MURG_BURCJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-26   98.3   0.5    2.6e-26   97.0   0.4    1.7  1  sp|B1JV78|MURG_BURCC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-26   98.2   0.0    6.8e-26   95.6   0.0    2.1  1  sp|C1C649|MURG_STRP7  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-26   98.2   0.4      3e-26   96.8   0.2    1.7  1  sp|Q2S9Z2|MURG_HAHCH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-26   98.2   0.0    7.6e-26   95.5   0.0    2.2  1  sp|B5E2Z9|MURG_STRP4  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-26   98.2   0.0    7.6e-26   95.5   0.0    2.2  1  sp|C1CJF3|MURG_STRZP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-26   98.1   0.4    2.5e-26   97.1   0.3    1.6  1  sp|A9I4V2|MURG_BORPD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-26   98.0   2.0    1.3e-26   98.0   1.4    2.0  1  sp|B0RIJ3|MURG_CLAMS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-26   97.9   0.0    1.1e-25   95.0   0.0    2.2  1  sp|P0CB60|MURG_STRPN  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-26   97.9   0.0      1e-25   95.0   0.0    2.2  1  sp|B8ZMZ7|MURG_STRPJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-26   97.8   1.6    1.1e-25   94.9   0.7    2.2  1  sp|B3PTW0|MURG_RHIE6  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-26   97.8   1.9    3.3e-26   96.7   1.3    1.6  1  sp|Q0SHS1|MURG_RHOSR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-26   97.7   2.4    3.1e-26   96.8   0.9    2.0  1  sp|Q313Q3|MURG_DESDG  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-26   97.7   0.0    3.1e-26   96.8   0.0    1.5  1  sp|A8F1I4|MURG_RICM5  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-26   97.7   0.0    2.5e-26   97.0   0.0    1.3  1  sp|A6H195|MURG_FLAPJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-26   97.6   1.4    2.6e-26   97.0   0.4    1.8  1  sp|A0K486|MURG_BURCH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-26   97.6   1.4    2.6e-26   97.0   0.4    1.8  1  sp|Q1BZG3|MURG_BURCA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-26   97.6   0.3    3.4e-26   96.6   0.2    1.5  1  sp|Q12EL5|MURG_POLSJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-26   97.5   1.2    4.5e-26   96.2   0.9    1.6  1  sp|Q8UDM8|MURG_AGRT5  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-26   97.3   0.1    3.4e-26   96.6   0.0    1.4  1  sp|B7K5Z6|MURG_CYAP8  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-26   97.3   0.3      8e-26   95.4   0.2    2.0  1  sp|Q2NCZ0|MURG_ERYLH  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-26   97.3   0.0    7.3e-26   95.5   0.0    2.0  1  sp|Q9Y751|ATG26_PICPG Sterol 3-beta-glucosyltransferase OS=P
+    2.1e-26   97.3   0.3    4.2e-26   96.3   0.2    1.5  1  sp|Q5P6Z6|MURG_AZOSE  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-26   97.1   1.7    4.3e-26   96.3   1.1    1.5  1  sp|B6IRG2|MURG_RHOCS  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-26   97.1   0.0    3.9e-26   96.4   0.0    1.4  1  sp|A7TF84|ATG26_VANPO Sterol 3-beta-glucosyltransferase OS=V
+    2.4e-26   97.1   2.4    1.7e-25   94.3   1.4    2.1  1  sp|Q2S528|MURG_SALRD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-26   97.0   0.0    6.5e-26   95.7   0.0    1.7  1  sp|B2SGS8|MURG_FRATM  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-26   97.0   0.0    6.5e-26   95.7   0.0    1.7  1  sp|A4IX64|MURG_FRATW  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-26   96.9   1.6    6.3e-26   95.7   1.1    1.7  1  sp|Q67Q48|MURG_SYMTH  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-26   96.7   0.0    6.6e-26   95.7   0.0    1.6  1  sp|Q6C8M8|ATG26_YARLI Sterol 3-beta-glucosyltransferase OS=Y
+    3.1e-26   96.7   2.1      7e-26   95.6   1.4    1.6  1  sp|C1AU55|MURG_RHOOB  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-26   96.7   0.1    6.8e-26   95.6   0.1    1.6  1  sp|B3E3Y2|MURG_GEOLS  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-26   96.7   0.0    8.1e-26   95.4   0.0    1.7  1  sp|A0Q766|MURG_FRATN  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-26   96.7   0.0    4.9e-26   96.1   0.0    1.3  1  sp|B1WVP7|MURG_CYAA5  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-26   96.5   0.0    6.8e-26   95.6   0.0    1.4  1  sp|B0TY93|MURG_FRAP2  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-26   96.4   0.0    8.7e-26   95.3   0.0    1.6  1  sp|Q68WW7|MURG_RICTY  UDP-N-acetylglucosamine--N-acetylmuram
+    4.1e-26   96.4   0.0    7.5e-26   95.5   0.0    1.5  1  sp|Q6GGZ0|MURG_STAAR  UDP-N-acetylglucosamine--N-acetylmuram
+      5e-26   96.1   0.6    1.4e-25   94.6   0.4    1.7  1  sp|B9JH51|MURG_AGRRK  UDP-N-acetylglucosamine--N-acetylmuram
+    5.6e-26   95.9   0.0    1.2e-25   94.9   0.0    1.6  1  sp|Q6BN88|ATG26_DEBHA Sterol 3-beta-glucosyltransferase OS=D
+    6.1e-26   95.8   0.0    1.6e-25   94.5   0.0    1.7  1  sp|A7NDC0|MURG_FRATF  UDP-N-acetylglucosamine--N-acetylmuram
+    6.1e-26   95.8   0.0    1.6e-25   94.5   0.0    1.7  1  sp|Q0BL37|MURG_FRATO  UDP-N-acetylglucosamine--N-acetylmuram
+    6.1e-26   95.8   0.0    1.6e-25   94.5   0.0    1.7  1  sp|Q2A2I7|MURG_FRATH  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-26   95.7   2.5    6.5e-26   95.7   1.7    1.9  1  sp|A5CS51|MURG_CLAM3  UDP-N-acetylglucosamine--N-acetylmuram
+    6.6e-26   95.7   0.0    1.1e-25   94.9   0.0    1.4  1  sp|Q9ZDC0|MURG_RICPR  UDP-N-acetylglucosamine--N-acetylmuram
+    7.1e-26   95.6   0.0    1.2e-25   94.8   0.0    1.4  1  sp|Q9ZK59|MURG_HELPJ  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-26   95.5   0.0    1.4e-25   94.6   0.0    1.4  1  sp|B7KGH1|MURG_CYAP7  UDP-N-acetylglucosamine--N-acetylmuram
+    7.9e-26   95.4   0.0    1.4e-25   94.6   0.0    1.4  1  sp|Q4L6C8|MURG_STAHJ  UDP-N-acetylglucosamine--N-acetylmuram
+    9.3e-26   95.2   1.4    9.3e-26   95.2   0.9    1.7  1  sp|B4UES1|MURG_ANASK  UDP-N-acetylglucosamine--N-acetylmuram
+    9.8e-26   95.1   3.1    1.4e-25   94.7   1.3    1.8  1  sp|B9JY54|MURG_AGRVS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-25   94.7   1.4    4.4e-25   93.0   0.8    1.9  1  sp|Q1ME33|MURG_RHIL3  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-25   94.6   0.0    2.5e-25   93.8   0.0    1.4  1  sp|A8EZ14|MURG_RICCK  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-25   94.5   0.0    3.8e-25   93.2   0.0    1.7  1  sp|Q5A950|ATG26_CANAL Sterol 3-beta-glucosyltransferase OS=C
+    1.6e-25   94.4   1.3    1.6e-25   94.4   0.9    1.7  1  sp|Q2IG27|MURG_ANADE  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-25   94.1   1.4      2e-25   94.1   1.0    1.7  1  sp|B8J8E8|MURG_ANAD2  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-25   94.0   1.0    5.2e-25   92.8   0.7    1.7  1  sp|C3MEM9|MURG_RHISN  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-25   94.0   0.0    4.1e-25   93.1   0.0    1.5  1  sp|Q1CSB1|MURG_HELPH  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-25   93.9   0.0    4.4e-25   93.0   0.0    1.4  1  sp|P59424|MURG_BUCBP  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-25   93.9   1.4    1.3e-24   91.4   0.8    2.1  1  sp|Q2K6C1|MURG_RHIEC  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.9   0.0    4.1e-25   93.1   0.0    1.4  1  sp|O25770|MURG_HELPY  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.9   0.0    5.7e-25   92.6   0.0    1.6  1  sp|A0M527|MURG_GRAFK  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.9   0.0    4.1e-25   93.1   0.0    1.4  1  sp|B2UUR4|MURG_HELPS  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.8   0.0    4.5e-25   93.0   0.0    1.5  1  sp|Q3K2P3|MURG_STRA1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.8   0.0    4.5e-25   93.0   0.0    1.5  1  sp|Q8CX15|MURG_STRA5  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.8   0.0    4.5e-25   93.0   0.0    1.5  1  sp|Q8E6P0|MURG_STRA3  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-25   93.8   0.0    4.8e-25   92.9   0.0    1.5  1  sp|Q7U346|MURG_BLOFL  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-25   93.7   0.0    4.8e-25   92.9   0.0    1.4  1  sp|Q5HPC0|MURG_STAEQ  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-25   93.7   0.0    4.8e-25   92.9   0.0    1.4  1  sp|Q8CMM3|MURG_STAES  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-25   93.6   0.7    5.8e-25   92.6   0.3    1.7  1  sp|Q01Q48|MURG_SOLUE  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-25   93.6   0.0    4.9e-25   92.8   0.0    1.4  1  sp|B5Z8F1|MURG_HELPG  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-25   93.5   0.0    5.8e-25   92.6   0.0    1.5  1  sp|Q5L524|MURG_CHLAB  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-25   93.5   0.0    5.6e-25   92.7   0.0    1.4  1  sp|Q255W4|MURG_CHLFF  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-25   93.5   0.0    6.7e-25   92.4   0.0    1.5  1  sp|Q820E0|MURG_CHLCV  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-25   93.4   2.3    3.5e-25   93.3   0.2    2.0  1  sp|Q8XVI7|MURG_RALSO  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-25   93.3   0.0    6.6e-25   92.4   0.0    1.4  1  sp|Q4ULT6|MURG_RICFE  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-25   93.2   0.0    6.6e-25   92.4   0.0    1.4  1  sp|Q49XM9|MURG_STAS1  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-25   93.2   0.0    6.5e-25   92.5   0.0    1.4  1  sp|Q119X8|MURG_TRIEI  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-25   93.2   0.0    1.3e-24   91.5   0.0    1.9  1  sp|Q03L97|MURG_STRTD  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-25   93.1   1.0    7.4e-25   92.3   0.7    1.5  1  sp|A0L5N1|MURG_MAGSM  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-25   93.1   3.7    4.2e-25   93.1   1.2    2.0  1  sp|B8H091|MURG_CAUCN  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-25   93.1   3.7    4.2e-25   93.1   1.2    2.0  1  sp|Q9A5A1|MURG_CAUCR  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-25   93.0   0.0    7.8e-25   92.2   0.0    1.4  1  sp|A8GNC7|MURG_RICAH  UDP-N-acetylglucosamine--N-acetylmuram
+    4.7e-25   92.9   0.0    1.5e-24   91.3   0.0    1.9  1  sp|B5XMA2|MURG_STRPZ  UDP-N-acetylglucosamine--N-acetylmuram
+    4.8e-25   92.9   0.0    7.7e-25   92.2   0.0    1.3  1  sp|B6JMZ5|MURG_HELP2  UDP-N-acetylglucosamine--N-acetylmuram
+      5e-25   92.8   0.0      1e-24   91.8   0.0    1.6  1  sp|A7ERM5|ATG26_SCLS1 Sterol 3-beta-glucosyltransferase OS=S
+    5.1e-25   92.8   0.3    1.2e-24   91.6   0.2    1.6  1  sp|Q7V466|MURG_PROMM  UDP-N-acetylglucosamine--N-acetylmuram
+    5.7e-25   92.7   0.3    1.2e-24   91.7   0.2    1.5  1  sp|A2CDG1|MURG_PROM3  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    2.1e-24   90.8   0.0    1.9  1  sp|Q5M0D4|MURG_STRT1  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    2.1e-24   90.8   0.0    1.9  1  sp|Q5M4Y1|MURG_STRT2  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|A6QGX0|MURG_STAAE  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|Q2FYL5|MURG_STAA8  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|Q5HG02|MURG_STAAC  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|Q6G9E3|MURG_STAAS  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|Q8NWR4|MURG_STAAW  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|A5ISU9|MURG_STAA9  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|A6U1N8|MURG_STAA2  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|A7X2A2|MURG_STAA1  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|P65481|MURG_STAAM  UDP-N-acetylglucosamine--N-acetylmuram
+    5.8e-25   92.6   0.0    1.1e-24   91.7   0.0    1.5  1  sp|P65482|MURG_STAAN  UDP-N-acetylglucosamine--N-acetylmuram
+      6e-25   92.6   0.0    1.1e-24   91.7   0.0    1.4  1  sp|Q2YY01|MURG_STAAB  UDP-N-acetylglucosamine--N-acetylmuram
+    6.2e-25   92.5   0.0    2.1e-24   90.8   0.0    1.9  1  sp|Q7MAW5|MURG_PORGI  UDP-N-acetylglucosamine--N-acetylmuram
+    6.3e-25   92.5   0.1    2.1e-24   90.8   0.0    1.9  1  sp|A2RDL0|MURG_STRPG  UDP-N-acetylglucosamine--N-acetylmuram
+    6.4e-25   92.5   0.1    2.1e-24   90.8   0.0    1.9  1  sp|Q5XB05|MURG_STRP6  UDP-N-acetylglucosamine--N-acetylmuram
+    7.5e-25   92.3   0.0    2.5e-24   90.6   0.0    1.9  1  sp|Q1JAT5|MURG_STRPB  UDP-N-acetylglucosamine--N-acetylmuram
+    7.5e-25   92.3   0.0    2.5e-24   90.6   0.0    1.9  1  sp|Q1JKY5|MURG_STRPC  UDP-N-acetylglucosamine--N-acetylmuram
+    9.4e-25   91.9   0.0    2.1e-24   90.8   0.0    1.6  1  sp|B2RIF1|MURG_PORG3  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-24   91.8   0.0    2.4e-24   90.6   0.0    1.6  1  sp|C0M6J2|MURG_STRE4  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-24   91.5   1.0    2.8e-24   90.4   0.7    1.6  1  sp|A1UTC5|MURG_BARBK  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-24   91.5   0.0      3e-24   90.3   0.0    1.6  1  sp|C0MD54|MURG_STRS7  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-24   91.3   0.0    3.2e-24   90.2   0.0    1.6  1  sp|B4U1U4|MURG_STREM  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-24   91.3   0.0    2.7e-24   90.5   0.0    1.5  1  sp|A5CWW1|MURG_VESOH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-24   91.3   1.6    4.1e-24   89.9   1.1    1.7  1  sp|A1A2E9|MURG_BIFAA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-24   91.2   0.0    5.1e-24   89.6   0.0    1.9  1  sp|P65483|MURG_STRP1  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-24   91.2   0.0    5.1e-24   89.6   0.0    1.9  1  sp|P65484|MURG_STRP8  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-24   91.2   0.0    5.1e-24   89.6   0.0    1.9  1  sp|Q48SK9|MURG_STRPM  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-24   91.2   0.0    5.1e-24   89.6   0.0    1.9  1  sp|Q1J5S6|MURG_STRPF  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-24   91.2   0.0      3e-24   90.3   0.0    1.5  1  sp|A8Z3Z7|MURG_STAAT  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-24   91.2   0.0      3e-24   90.3   0.0    1.5  1  sp|Q2FH20|MURG_STAA3  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-24   91.2   0.0    5.1e-24   89.6   0.0    1.9  1  sp|Q1JG11|MURG_STRPD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-24   91.0   0.0      4e-24   89.9   0.0    1.6  1  sp|Q17WB5|MURG_HELAH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.9e-24   90.9   0.1    3.4e-24   90.1   0.1    1.4  1  sp|C6BYG6|MURG_DESAD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-24   90.7   0.5    5.7e-24   89.4   0.2    1.8  1  sp|Q6G2Q5|MURG_BARHE  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-24   90.7   0.2    5.6e-24   89.4   0.1    1.7  1  sp|A9IWA5|MURG_BART1  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-24   90.4   0.0    5.7e-24   89.4   0.0    1.6  1  sp|Q8CUL4|MURG_OCEIH  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-24   90.4   0.0    5.6e-24   89.4   0.0    1.5  1  sp|A6LEU3|MURG_PARD8  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-24   90.2   1.4    3.1e-24   90.2   1.0    1.7  1  sp|Q6AE64|MURG_LEIXX  UDP-N-acetylglucosamine--N-acetylmuram
+    3.3e-24   90.2   0.2    6.9e-24   89.1   0.1    1.6  1  sp|A1K3U6|MURG_AZOSB  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-24   89.9   0.0    6.2e-24   89.3   0.0    1.3  1  sp|Q9PLG2|MURG_CHLMU  UDP-N-acetylglucosamine--N-acetylmuram
+    4.1e-24   89.9   0.6    8.9e-24   88.8   0.4    1.6  1  sp|Q1GRX9|MURG_SPHAL  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-24   89.8   0.0    9.1e-24   88.7   0.0    1.6  1  sp|Q751Z4|ATG26_ASHGO Sterol 3-beta-glucosyltransferase OS=A
+    4.4e-24   89.8   0.1    1.3e-23   88.2   0.0    1.8  1  sp|A4VTK4|MURG_STRSY  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-24   89.8   0.1    1.3e-23   88.2   0.0    1.8  1  sp|A4VZT9|MURG_STRS2  UDP-N-acetylglucosamine--N-acetylmuram
+    4.6e-24   89.7   0.1    9.2e-24   88.7   0.0    1.5  1  sp|B3QWT7|MURG_CHLT3  UDP-N-acetylglucosamine--N-acetylmuram
+    4.6e-24   89.7   0.0      8e-24   88.9   0.0    1.4  1  sp|Q6AJ53|MURG_DESPS  UDP-N-acetylglucosamine--N-acetylmuram
+      5e-24   89.6   0.6    9.4e-24   88.7   0.2    1.6  1  sp|B9K6P7|MURG_THENN  UDP-N-acetylglucosamine--N-acetylmuram
+    5.9e-24   89.3   0.0    1.9e-23   87.7   0.0    1.9  1  sp|Q8K6R7|MURG_STRP3  UDP-N-acetylglucosamine--N-acetylmuram
+    6.9e-24   89.1   0.0    1.3e-23   88.3   0.0    1.5  1  sp|Q54IL5|UGT52_DICDI UDP-sugar-dependent glycosyltransferas
+    7.5e-24   89.0   0.6    1.9e-23   87.7   0.4    1.7  1  sp|B3DQN1|MURG_BIFLD  UDP-N-acetylglucosamine--N-acetylmuram
+    7.5e-24   89.0   0.6    1.9e-23   87.7   0.4    1.7  1  sp|Q8CY50|MURG_BIFLO  UDP-N-acetylglucosamine--N-acetylmuram
+    7.8e-24   89.0   0.0    1.8e-23   87.7   0.0    1.7  1  sp|Q6MIG1|MURG_BDEBA  UDP-N-acetylglucosamine--N-acetylmuram
+    8.4e-24   88.9   0.6    1.5e-23   88.0   0.4    1.5  1  sp|Q7U3U6|MURG_SYNPX  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-24   88.8   0.6    2.2e-23   87.5   0.4    1.7  1  sp|B7GQ78|MURG_BIFLI  UDP-N-acetylglucosamine--N-acetylmuram
+    9.3e-24   88.7   0.0    3.8e-23   86.7   0.0    2.1  1  sp|Q0UY53|ATG26_PHANO Sterol 3-beta-glucosyltransferase OS=P
+    1.2e-23   88.4   0.0    3.6e-23   86.8   0.0    1.8  1  sp|Q8DVE2|MURG_STRMU  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-23   88.4   2.0    1.3e-23   88.2   0.6    1.7  1  sp|Q6N411|MURG_RHOPA  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-23   88.3   0.0    3.2e-23   87.0   0.0    1.8  1  sp|Q6CUV2|ATG26_KLULA Sterol 3-beta-glucosyltransferase OS=K
+    1.3e-23   88.3   0.1      2e-23   87.6   0.1    1.3  1  sp|Q1MPB9|MURG_LAWIP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-23   88.3   0.0      2e-22   84.4   0.0    2.2  1  sp|Q8R5N5|MURG_FUSNN  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-23   88.1   0.3    3.8e-23   86.7   0.1    1.8  1  sp|Q3ANV3|MURG_CHLCH  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-23   88.1   0.0    6.7e-23   85.9   0.0    2.1  1  sp|A8AW15|MURG_STRGC  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-23   87.5   1.7    5.9e-23   86.1   1.2    1.8  1  sp|B8DP79|MURG_DESVM  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-23   87.4   1.2    4.6e-23   86.5   0.8    1.5  1  sp|Q728U8|MURG_DESVH  UDP-N-acetylglucosamine--N-acetylmuram
+      3e-23   87.1   0.0    5.9e-23   86.1   0.0    1.5  1  sp|Q8NJS1|ATG26_LEPMC Sterol 3-beta-glucosyltransferase OS=L
+    3.4e-23   86.9   0.0    6.2e-23   86.0   0.0    1.5  1  sp|Q5KK25|ATG26_CRYNE Sterol 3-beta-glucosyltransferase OS=C
+    3.5e-23   86.8   0.1    9.9e-23   85.4   0.0    1.8  1  sp|Q8YZI3|MURG_ANASP  UDP-N-acetylglucosamine--N-acetylmuram
+    3.6e-23   86.8   0.0      1e-22   85.3   0.0    1.8  1  sp|B9DUV6|MURG_STRU0  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-23   86.7   0.0    7.7e-23   85.7   0.0    1.6  1  sp|Q3M935|MURG_ANAVT  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-23   86.7   0.0    8.2e-23   85.7   0.0    1.6  1  sp|Q7VDZ2|MURG_PROMA  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-23   86.7   0.1    7.7e-23   85.7   0.1    1.5  1  sp|Q0I6M0|MURG_SYNS3  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-23   86.6   0.1    9.6e-23   85.4   0.0    1.6  1  sp|B2J8J9|MURG_NOSP7  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-23   86.6   0.3    4.2e-23   86.6   0.2    1.5  1  sp|A5GPC2|MURG_SYNPW  UDP-N-acetylglucosamine--N-acetylmuram
+    4.5e-23   86.5   2.3    4.5e-23   86.5   1.6    1.8  1  sp|B4RFS0|MURG_PHEZH  UDP-N-acetylglucosamine--N-acetylmuram
+    5.2e-23   86.3   1.4      1e-22   85.4   1.0    1.5  1  sp|A1VBE8|MURG_DESVV  UDP-N-acetylglucosamine--N-acetylmuram
+    6.2e-23   86.1   0.0      1e-22   85.4   0.0    1.4  1  sp|B7IHN7|MURG_THEAB  UDP-N-acetylglucosamine--N-acetylmuram
+    6.3e-23   86.0   0.0    1.3e-22   85.0   0.0    1.6  1  sp|Q7S1I0|ATG26_NEUCR Sterol 3-beta-glucosyltransferase OS=N
+    6.7e-23   85.9   0.4    1.2e-22   85.1   0.3    1.4  1  sp|Q3AVX2|MURG_SYNS9  UDP-N-acetylglucosamine--N-acetylmuram
+    7.2e-23   85.8   0.0    1.5e-22   84.8   0.0    1.6  1  sp|Q4WID6|ATG26_ASPFU Sterol 3-beta-glucosyltransferase OS=A
+    7.2e-23   85.8   0.0    1.5e-22   84.8   0.0    1.6  1  sp|A1CYS1|ATG26_NEOFI Sterol 3-beta-glucosyltransferase OS=N
+    7.8e-23   85.7   0.0    1.7e-22   84.6   0.0    1.6  1  sp|Q8DHY4|MURG_THEEB  UDP-N-acetylglucosamine--N-acetylmuram
+    8.1e-23   85.7   0.4    2.4e-22   84.2   0.0    1.9  1  sp|Q11RH5|MURG_CYTH3  UDP-N-acetylglucosamine--N-acetylmuram
+    8.2e-23   85.6   0.1    1.6e-22   84.7   0.0    1.5  1  sp|A9BDG0|MURG_PROM4  UDP-N-acetylglucosamine--N-acetylmuram
+      9e-23   85.5   0.0    3.6e-22   83.6   0.0    2.0  1  sp|Q73L91|MURG_TREDE  UDP-N-acetylglucosamine--N-acetylmuram
+    9.7e-23   85.4   0.8    9.7e-23   85.4   0.6    1.9  1  sp|C4XK69|MURG_DESMR  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-22   85.3   1.9    2.3e-22   84.2   1.3    1.6  1  sp|A1BAL5|MURG_PARDP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-22   85.1   0.1    4.1e-22   83.4   0.0    1.9  1  sp|A3CLN6|MURG_STRSV  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-22   85.1   0.0    2.5e-22   84.1   0.0    1.6  1  sp|A4SV74|MURG_POLSQ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-22   84.9   0.0    2.6e-22   84.0   0.0    1.4  1  sp|O67238|MURG_AQUAE  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-22   84.7   0.0    2.8e-22   83.9   0.0    1.4  1  sp|Q2U0C3|ATG26_ASPOR Sterol 3-beta-glucosyltransferase OS=A
+    1.6e-22   84.7   0.4    4.4e-22   83.3   0.3    1.8  1  sp|Q3STS8|MURG_NITWN  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-22   84.7   0.3    3.2e-22   83.7   0.2    1.5  1  sp|A1BJX8|MURG_CHLPD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-22   84.6   0.0    3.6e-22   83.6   0.0    1.6  1  sp|A1AWE8|MURG_RUTMC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.7e-22   84.6   0.0    3.2e-22   83.7   0.0    1.5  1  sp|A1CFB3|ATG26_ASPCL Sterol 3-beta-glucosyltransferase OS=A
+    2.1e-22   84.4   2.1      5e-22   83.1   1.4    1.7  1  sp|B8IN64|MURG_METNO  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-22   84.3   0.8    5.1e-22   83.1   0.2    1.9  1  sp|Q6G124|MURG_BARQU  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-22   84.2   1.6      5e-22   83.1   1.1    1.6  1  sp|Q2W0H3|MURG_MAGSA  UDP-N-acetylglucosamine--N-acetylmuram
+    2.8e-22   83.9   0.0    5.3e-22   83.0   0.0    1.5  1  sp|Q0CKU4|ATG26_ASPTN Sterol 3-beta-glucosyltransferase OS=A
+    2.8e-22   83.9   0.4    5.6e-22   82.9   0.2    1.6  1  sp|B1ZU31|MURG_OPITP  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-22   83.9   0.1    5.6e-22   82.9   0.0    1.5  1  sp|A6L071|MURG_BACV8  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-22   83.9   0.3    6.6e-22   82.7   0.2    1.6  1  sp|Q1QNU3|MURG_NITHX  UDP-N-acetylglucosamine--N-acetylmuram
+    3.8e-22   83.5   0.0      1e-21   82.1   0.0    1.7  1  sp|B2V7Y8|MURG_SULSY  UDP-N-acetylglucosamine--N-acetylmuram
+    4.9e-22   83.1   0.2      1e-21   82.1   0.1    1.6  1  sp|Q3AGT7|MURG_SYNSC  UDP-N-acetylglucosamine--N-acetylmuram
+    5.2e-22   83.0   0.0      1e-21   82.1   0.0    1.5  1  sp|Q5B4C9|ATG26_EMENI Sterol 3-beta-glucosyltransferase OS=E
+    7.1e-22   82.6   0.0    1.4e-21   81.7   0.0    1.5  1  sp|A5GW69|MURG_SYNR3  UDP-N-acetylglucosamine--N-acetylmuram
+    7.4e-22   82.6   0.8    7.4e-22   82.6   0.6    2.0  1  sp|A4YZK3|MURG_BRASO  UDP-N-acetylglucosamine--N-acetylmuram
+    7.6e-22   82.5   1.9    7.6e-22   82.5   1.3    2.6  1  sp|Q2RVU4|MURG_RHORT  UDP-N-acetylglucosamine--N-acetylmuram
+    7.8e-22   82.5   0.1    1.8e-21   81.3   0.1    1.6  1  sp|Q2JW21|MURG_SYNJA  UDP-N-acetylglucosamine--N-acetylmuram
+      8e-22   82.4   0.8      8e-22   82.4   0.6    2.0  1  sp|A5EPK4|MURG_BRASB  UDP-N-acetylglucosamine--N-acetylmuram
+    9.4e-22   82.2   0.0    1.8e-21   81.3   0.0    1.5  1  sp|A7KAN4|ATG26_PENCW Sterol 3-beta-glucosyltransferase OS=P
+    1.1e-21   82.0   0.2    2.7e-21   80.8   0.1    1.7  1  sp|Q2JJR4|MURG_SYNJB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-21   81.9   0.0    2.2e-21   81.0   0.0    1.5  1  sp|A2QNQ5|ATG26_ASPNC Sterol 3-beta-glucosyltransferase OS=A
+    1.3e-21   81.8   2.4    2.6e-21   80.8   1.6    1.5  1  sp|Q0AMW7|MURG_MARMM  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-21   81.5   0.0    5.2e-21   79.8   0.0    1.8  1  sp|Q812Y1|MURG3_BACCR UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-21   81.3   2.2      4e-21   80.2   1.5    1.6  1  sp|B4SH49|MURG_PELPB  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-21   81.2   1.0    4.3e-21   80.1   0.4    1.8  1  sp|B4S6Q9|MURG_PROA2  UDP-N-acetylglucosamine--N-acetylmuram
+    2.5e-21   80.8   0.0    4.4e-21   80.0   0.0    1.4  1  sp|A8G2K3|MURG_PROM2  UDP-N-acetylglucosamine--N-acetylmuram
+    2.7e-21   80.8   0.3    5.9e-21   79.6   0.2    1.6  1  sp|Q89FU7|MURG_BRAJA  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-21   80.4   0.0    8.3e-21   79.2   0.0    1.6  1  sp|A0RHC3|MURG1_BACAH UDP-N-acetylglucosamine--N-acetylmuram
+    3.7e-21   80.3   0.0    8.3e-21   79.2   0.0    1.6  1  sp|Q6MBS7|MURG_PARUW  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-21   80.2   0.7    9.7e-21   78.9   0.5    1.7  1  sp|Q0BXU2|MURG_HYPNA  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-21   80.1   0.5    7.5e-21   79.3   0.3    1.4  1  sp|Q8KGD4|MURG_CHLTE  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-21   80.1   0.2    7.7e-21   79.3   0.1    1.5  1  sp|B3QLW4|MURG_CHLP8  UDP-N-acetylglucosamine--N-acetylmuram
+    5.4e-21   79.8   0.2    1.1e-20   78.7   0.1    1.5  1  sp|A6T2F8|MURG_JANMA  UDP-N-acetylglucosamine--N-acetylmuram
+    7.8e-21   79.2   0.0    1.4e-20   78.5   0.0    1.4  1  sp|A5CEL6|MURG_ORITB  UDP-N-acetylglucosamine--N-acetylmuram
+    7.9e-21   79.2   0.0    1.2e-20   78.6   0.0    1.3  1  sp|Q8D2Z6|MURG_WIGBR  UDP-N-acetylglucosamine--N-acetylmuram
+    9.1e-21   79.0   1.4    2.4e-20   77.7   1.0    1.8  1  sp|B0UFC7|MURG_METS4  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-20   78.6   0.7    2.2e-20   77.8   0.5    1.5  1  sp|Q163J0|MURG_ROSDO  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-20   78.6   0.2    3.9e-20   77.0   0.1    1.9  1  sp|A4G8T8|MURG_HERAR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-20   78.6   1.6    2.5e-20   77.6   1.1    1.5  1  sp|Q28NN5|MURG_JANSC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-20   78.6   0.0    2.4e-20   77.6   0.0    1.5  1  sp|Q31CY4|MURG_PROM9  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-20   78.5   2.0    3.2e-20   77.3   1.4    1.7  1  sp|B1ZGP4|MURG_METPB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-20   78.3   0.8    1.5e-20   78.3   0.6    1.8  1  sp|Q5LU63|MURG_SILPO  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-20   78.3   0.0    2.7e-20   77.5   0.0    1.4  1  sp|B3CRE9|MURG_ORITI  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-20   78.1   2.2    2.4e-20   77.7   0.6    1.9  1  sp|Q1GIV1|MURG_SILST  UDP-N-acetylglucosamine--N-acetylmuram
+    2.1e-20   77.8   0.5    5.1e-20   76.6   0.3    1.7  1  sp|Q1GZ01|MURG_METFK  UDP-N-acetylglucosamine--N-acetylmuram
+    2.3e-20   77.7   0.1    7.8e-20   76.0   0.0    1.9  1  sp|B3ET95|MURG_AMOA5  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-20   77.7   0.2    1.2e-19   75.4   0.0    2.0  1  sp|Q8A258|MURG_BACTN  UDP-N-acetylglucosamine--N-acetylmuram
+    2.6e-20   77.5   0.5    5.5e-20   76.5   0.3    1.6  1  sp|Q211T8|MURG_RHOPB  UDP-N-acetylglucosamine--N-acetylmuram
+    2.9e-20   77.4   1.3    5.5e-20   76.5   0.5    1.8  1  sp|Q2IYK8|MURG_RHOP2  UDP-N-acetylglucosamine--N-acetylmuram
+    3.9e-20   77.0   4.1    4.1e-20   76.9   0.9    2.2  1  sp|B1LXZ4|MURG_METRJ  UDP-N-acetylglucosamine--N-acetylmuram
+    4.4e-20   76.8   0.0    7.8e-20   76.0   0.0    1.4  1  sp|A2BNZ2|MURG_PROMS  UDP-N-acetylglucosamine--N-acetylmuram
+    5.1e-20   76.6   0.0    9.9e-20   75.7   0.0    1.5  1  sp|C0R2W7|MURG_WOLWR  UDP-N-acetylglucosamine--N-acetylmuram
+    5.1e-20   76.6   0.0    9.9e-20   75.7   0.0    1.5  1  sp|Q73I55|MURG_WOLPM  UDP-N-acetylglucosamine--N-acetylmuram
+    5.9e-20   76.4   1.8    1.4e-19   75.2   1.3    1.7  1  sp|A9VWV3|MURG_METEP  UDP-N-acetylglucosamine--N-acetylmuram
+    6.1e-20   76.3   1.8    1.4e-19   75.2   1.3    1.7  1  sp|B7KSC1|MURG_METC4  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-20   76.3   0.0    9.5e-20   75.7   0.0    1.3  1  sp|A2C027|MURG_PROM1  UDP-N-acetylglucosamine--N-acetylmuram
+    6.7e-20   76.2   2.3    3.6e-19   73.9   0.7    2.4  1  sp|A3PHS8|MURG_RHOS1  UDP-N-acetylglucosamine--N-acetylmuram
+    7.9e-20   76.0   1.3    2.8e-19   74.2   1.2    1.7  1  sp|A4SH02|MURG_PROVI  UDP-N-acetylglucosamine--N-acetylmuram
+    7.9e-20   76.0   2.2    3.6e-19   73.9   0.7    2.3  1  sp|Q3J4M2|MURG_RHOS4  UDP-N-acetylglucosamine--N-acetylmuram
+    9.5e-20   75.7   0.0    1.7e-19   74.9   0.0    1.4  1  sp|Q7V388|MURG_PROMP  UDP-N-acetylglucosamine--N-acetylmuram
+    9.9e-20   75.7   0.0    1.7e-19   74.9   0.0    1.4  1  sp|A3PAR5|MURG_PROM0  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-19   75.6   0.8      1e-19   75.6   0.6    1.9  1  sp|Q07PT3|MURG_RHOP5  UDP-N-acetylglucosamine--N-acetylmuram
+    1.1e-19   75.5   0.8      3e-19   74.1   0.6    1.8  1  sp|Q133X1|MURG_RHOPS  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-19   75.4   0.1    2.5e-19   74.4   0.1    1.6  1  sp|Q5LIJ7|MURG_BACFN  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-19   75.4   0.1    2.5e-19   74.4   0.1    1.6  1  sp|Q64ZM1|MURG_BACFR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-19   75.3   0.0    2.5e-19   74.4   0.0    1.5  1  sp|A6LLF1|MURG_THEM4  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-19   75.0   0.0    2.4e-19   74.4   0.0    1.3  1  sp|Q46HH6|MURG_PROMT  UDP-N-acetylglucosamine--N-acetylmuram
+    2.4e-19   74.4   2.8    7.8e-19   72.8   1.1    2.2  1  sp|A4WQD5|MURG_RHOS5  UDP-N-acetylglucosamine--N-acetylmuram
+    3.2e-19   74.0   0.0      6e-19   73.1   0.0    1.5  1  sp|A2BUH4|MURG_PROM5  UDP-N-acetylglucosamine--N-acetylmuram
+    6.6e-19   73.0   0.0    1.5e-18   71.8   0.0    1.6  1  sp|Q5GS79|MURG_WOLTR  UDP-N-acetylglucosamine--N-acetylmuram
+      1e-18   72.4   0.2    2.5e-18   71.1   0.1    1.6  1  sp|Q7NPZ9|MURG_CHRVO  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-18   72.2   3.1    2.1e-17   68.1   0.0    2.8  2  sp|Q1AVX3|MURG_RUBXD  UDP-N-acetylglucosamine--N-acetylmuram
+    1.3e-18   72.1   0.1    2.4e-18   71.2   0.1    1.4  1  sp|Q7MBC4|MURG_GLOVI  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-18   71.8   0.0    2.8e-18   70.9   0.0    1.4  1  sp|Q7U322|MURG_HELHP  UDP-N-acetylglucosamine--N-acetylmuram
+      2e-18   71.4   0.6      2e-18   71.4   0.5    1.5  1  sp|Q3B129|MURG_PELLD  UDP-N-acetylglucosamine--N-acetylmuram
+    4.3e-18   70.4   0.1    6.9e-17   66.5   0.0    2.1  1  sp|Q30PK0|MURG_SULDN  UDP-N-acetylglucosamine--N-acetylmuram
+    7.3e-18   69.6   0.3    1.4e-17   68.7   0.2    1.5  1  sp|A2SCY5|MURG_METPP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-17   68.9   0.0      3e-16   64.4   0.0    2.1  2  sp|A0RP87|MURG_CAMFF  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-17   68.5   0.0    6.2e-17   66.6   0.0    2.0  1  sp|B3CM87|MURG_WOLPP  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-17   67.4   3.3    8.1e-17   66.2   2.3    1.7  1  sp|A5FUL0|MURG_ACICJ  UDP-N-acetylglucosamine--N-acetylmuram
+    5.3e-17   66.8   0.0    1.1e-16   65.8   0.0    1.5  1  sp|Q7MAD4|MURG_WOLSU  UDP-N-acetylglucosamine--N-acetylmuram
+    8.9e-17   66.1   0.0    2.8e-16   64.5   0.0    1.8  1  sp|B2KE54|MURG_ELUMP  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-16   65.6   0.4    2.2e-16   64.8   0.3    1.5  1  sp|B3EIK8|MURG_CHLL2  UDP-N-acetylglucosamine--N-acetylmuram
+    1.4e-16   65.4   3.3    1.4e-16   65.4   2.3    2.7  1  sp|A5UZT7|MURG_ROSS1  UDP-N-acetylglucosamine--N-acetylmuram
+    3.1e-16   64.4   0.8    7.2e-16   63.1   0.5    1.7  1  sp|Q5FUJ5|MURG_GLUOX  UDP-N-acetylglucosamine--N-acetylmuram
+    6.5e-16   63.3   0.1    4.4e-15   60.6   0.0    2.2  1  sp|A6Q722|MURG_SULNB  UDP-N-acetylglucosamine--N-acetylmuram
+    1.6e-15   62.0   0.0    3.1e-15   61.1   0.0    1.5  1  sp|B8E325|MURG_DICTD  UDP-N-acetylglucosamine--N-acetylmuram
+    2.2e-15   61.6   0.0    5.6e-15   60.3   0.0    1.7  1  sp|A6Q579|MURG_NITSB  UDP-N-acetylglucosamine--N-acetylmuram
+    3.4e-15   61.0   0.8    1.1e-14   59.3   0.5    1.9  1  sp|Q0BV25|MURG_GRABC  UDP-N-acetylglucosamine--N-acetylmuram
+      4e-15   60.8   0.0    1.3e-14   59.0   0.0    1.9  1  sp|Q5PB22|MURG_ANAMM  UDP-N-acetylglucosamine--N-acetylmuram
+    4.1e-15   60.7   0.0    1.9e-14   58.5   0.0    1.9  1  sp|A7I265|MURG_CAMHC  UDP-N-acetylglucosamine--N-acetylmuram
+    6.3e-15   60.1   1.1    6.3e-15   60.1   0.8    2.2  1  sp|A9FI55|MURG_SORC5  UDP-N-acetylglucosamine--N-acetylmuram
+    8.2e-15   59.7   0.0    1.7e-14   58.7   0.0    1.6  1  sp|B5YEL3|MURG_DICT6  UDP-N-acetylglucosamine--N-acetylmuram
+    1.2e-13   56.0   0.0    2.1e-13   55.1   0.0    1.5  1  sp|A8FM88|MURG_CAMJ8  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-13   55.6   0.0    2.8e-13   54.8   0.0    1.5  1  sp|Q5HU62|MURG_CAMJR  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-13   55.6   0.0    2.8e-13   54.8   0.0    1.5  1  sp|A1W027|MURG_CAMJJ  UDP-N-acetylglucosamine--N-acetylmuram
+    1.5e-13   55.6   0.0    2.8e-13   54.8   0.0    1.5  1  sp|Q9PNQ2|MURG_CAMJE  UDP-N-acetylglucosamine--N-acetylmuram
+    3.5e-13   54.5   0.0    6.4e-13   53.6   0.0    1.5  1  sp|A7H2Z9|MURG_CAMJD  UDP-N-acetylglucosamine--N-acetylmuram
+    7.2e-13   53.4   0.0    1.8e-12   52.2   0.0    1.7  1  sp|A8F4X1|MURG_THELT  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-10   45.7   0.3    3.9e-09   41.3   0.2    2.3  1  sp|Q72R84|MURG_LEPIC  UDP-N-acetylglucosamine--N-acetylmuram
+    1.8e-10   45.7   0.3    3.9e-09   41.3   0.2    2.3  1  sp|Q8F4J1|MURG_LEPIN  UDP-N-acetylglucosamine--N-acetylmuram
+    4.2e-09   41.3   0.0    7.1e-09   40.5   0.0    1.4  1  sp|Q4FPK5|MURG_PELUB  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-09   40.4   0.3    1.5e-07   36.2   0.2    2.3  1  sp|Q04V94|MURG_LEPBJ  UDP-N-acetylglucosamine--N-acetylmuram
+    7.7e-09   40.4   0.3    1.5e-07   36.2   0.2    2.3  1  sp|Q04Y82|MURG_LEPBL  UDP-N-acetylglucosamine--N-acetylmuram
+    3.4e-07   35.1   0.0    9.9e-07   33.5   0.0    1.8  1  sp|Q8TTI1|Y452_METAC  Uncharacterized glycosyltransferase MA
+    2.3e-06   32.4   0.0    3.1e-05   28.7   0.0    2.5  1  sp|Q8TTI0|Y453_METAC  Uncharacterized glycosyltransferase MA
+    2.4e-06   32.3   0.0    1.2e-05   30.0   0.0    2.1  1  sp|Q8PWF3|Y1636_METMA Uncharacterized glycosyltransferase MM
+    7.8e-06   30.6   0.0    2.7e-05   28.9   0.0    2.0  1  sp|O34539|YJIC_BACSU  Uncharacterized UDP-glucosyltransferas
+      2e-05   29.3   0.7    6.6e-05   27.6   0.1    2.2  1  sp|Q53685|OLED_STRAT  Oleandomycin glycosyltransferase OS=St
+      2e-05   29.3   0.0    4.5e-05   28.2   0.0    1.6  1  sp|Q8PZB2|Y582_METMA  Uncharacterized glycosyltransferase MM
+    7.8e-05   27.4   0.1    0.00022   25.9   0.1    1.7  1  sp|P21686|CRTX_PANAN  Zeaxanthin glucosyltransferase OS=Pant
+    0.00056   24.6   0.0     0.0013   23.5   0.0    1.6  1  sp|Q54387|MGT_STRLI   Macrolide glycosyltransferase OS=Strep
+    0.00067   24.4   0.3     0.0017   23.1   0.2    1.6  1  sp|Q01330|CRTX_ESCVU  Zeaxanthin glucosyltransferase OS=Esch
+  ------ inclusion threshold ------
+      0.012   20.4   0.0       0.36   15.5   0.0    2.4  2  sp|O31853|YOJK_BACSU  Uncharacterized UDP-glucosyltransferas
+      0.013   20.2   0.0      0.049   18.4   0.0    1.9  1  sp|B1YIY4|MTNA_EXIS2  Methylthioribose-1-phosphate isomerase
+      0.016   19.9   0.0      0.039   18.6   0.0    1.7  1  sp|Q0WW21|UGAGT_ARATH Anthocyanin 5-O-glucosyltransferase OS
+      0.021   19.6   0.4      0.064   18.0   0.0    2.0  1  sp|Q9Z565|ILVC1_STRCO Ketol-acid reductoisomerase 1 OS=Strep
+      0.022   19.5   0.0      0.051   18.3   0.0    1.7  1  sp|O05496|YDHE_BACSU  Uncharacterized UDP-glucosyltransferas
+      0.022   19.4   0.3      0.064   18.0   0.0    1.9  1  sp|Q9FBT8|ILVC2_STRCO Ketol-acid reductoisomerase 2 OS=Strep
+      0.023   19.4   0.4      0.044   18.5   0.1    1.7  1  sp|Q9SBL1|HMNGT_SORBI Cyanohydrin beta-glucosyltransferase O
+      0.067   17.9   0.2       0.19   16.4   0.1    1.9  1  sp|B1I2P1|MTNA_DESAP  Methylthioribose-1-phosphate isomerase
+       0.08   17.6   0.0        8.6   11.1   0.0    3.1  2  sp|A8AZU1|MUTL_STRGC  DNA mismatch repair protein mutL OS=St
+      0.085   17.6   0.0       0.19   16.4   0.0    1.6  1  sp|Q01198|LIGD_PSEPA  C alpha-dehydrogenase OS=Pseudomonas p
+      0.087   17.5   0.1        1.2   13.8   0.0    2.2  1  sp|Q83RR8|NPD_SHIFL   NAD-dependent deacetylase OS=Shigella 
+      0.089   17.5   0.0       0.24   16.1   0.0    1.7  1  sp|C5D7U5|MTNA_GEOSW  Methylthioribose-1-phosphate isomerase
+       0.11   17.2   0.0        9.4   10.9   0.0    3.1  2  sp|A3CR14|MUTL_STRSV  DNA mismatch repair protein mutL OS=St
+       0.12   17.1   0.0       0.37   15.5   0.0    1.8  1  sp|Q88M09|MTNA_PSEPK  Methylthioribose-1-phosphate isomerase
+       0.13   17.0   0.0       0.45   15.2   0.0    1.9  1  sp|Q5L1E6|MTNA_GEOKA  Methylthioribose-1-phosphate isomerase
+       0.14   16.9   0.1        1.9   13.2   0.0    2.2  1  sp|Q8X8E0|NPD_ECO57   NAD-dependent deacetylase OS=Escherich
+       0.14   16.9   0.1        1.8   13.3   0.0    2.2  1  sp|P75960|NPD_ECOLI   NAD-dependent deacetylase OS=Escherich
+       0.14   16.9   0.8       0.21   16.3   0.5    1.5  1  sp|Q5V467|MAMA1_HALMA Methylaspartate mutase S chain 1 OS=Ha
+       0.14   16.9   0.0       0.65   14.7   0.0    2.1  1  sp|C0MAS4|MUTL_STRE4  DNA mismatch repair protein mutL OS=St
+       0.14   16.8   0.1        1.4   13.6   0.0    2.1  1  sp|P0A2F2|NPD_SALTY   NAD-dependent deacetylase OS=Salmonell
+       0.14   16.8   0.1        1.4   13.6   0.0    2.1  1  sp|P0A2F3|NPD_SALTI   NAD-dependent deacetylase OS=Salmonell
+       0.15   16.8   0.0       0.77   14.5   0.0    2.1  1  sp|C0MGC4|MUTL_STRS7  DNA mismatch repair protein mutL OS=St
+       0.15   16.8   0.0       0.48   15.1   0.0    1.8  1  sp|Q65KK2|MTNA_BACLD  Methylthioribose-1-phosphate isomerase
+       0.15   16.7   0.0        0.5   15.1   0.0    1.9  1  sp|B0KTX5|MTNA_PSEPG  Methylthioribose-1-phosphate isomerase
+       0.16   16.7   0.0       0.41   15.4   0.0    1.7  1  sp|B1J5G5|MTNA_PSEPW  Methylthioribose-1-phosphate isomerase
+       0.16   16.7   0.0       0.51   15.1   0.0    1.9  1  sp|A5W7G2|MTNA_PSEP1  Methylthioribose-1-phosphate isomerase
+       0.17   16.6   0.1       0.86   14.3   0.0    2.1  1  sp|A4ILL1|MTNA_GEOTN  Methylthioribose-1-phosphate isomerase
+       0.18   16.5   0.0       0.77   14.5   0.0    2.0  1  sp|B4U0J7|MUTL_STREM  DNA mismatch repair protein mutL OS=St
+        0.2   16.4   0.1        1.9   13.2   0.0    2.2  1  sp|Q8FIM4|NPD_ECOL6   NAD-dependent deacetylase OS=Escherich
+       0.21   16.3   0.2       0.72   14.6   0.0    2.0  1  sp|B2GFJ7|ILVC_KOCRD  Ketol-acid reductoisomerase OS=Kocuria
+       0.21   16.3   0.3       0.67   14.7   0.0    2.0  1  sp|B1VZ72|ILVC_STRGG  Ketol-acid reductoisomerase OS=Strepto
+       0.22   16.2   0.2       0.73   14.5   0.0    2.0  1  sp|Q59818|ILVC_STRAW  Ketol-acid reductoisomerase OS=Strepto
+       0.26   16.0   0.0        2.9   12.6   0.0    2.4  1  sp|Q731R7|MTNA_BACC1  Methylthioribose-1-phosphate isomerase
+       0.29   15.8   0.0        0.6   14.8   0.0    1.5  1  sp|B1GZW3|TPIS_UNCTG  Triosephosphate isomerase OS=Unculture
+       0.33   15.7   0.1        6.3   11.5   0.0    2.4  1  sp|Q2IWS4|GLYA_RHOP2  Serine hydroxymethyltransferase OS=Rho
+       0.36   15.5   0.0        1.4   13.6   0.0    2.0  1  sp|A7GS56|MTNA_BACCN  Methylthioribose-1-phosphate isomerase
+       0.37   15.5   0.0       0.85   14.3   0.0    1.6  1  sp|B7KF23|ILVC_CYAP7  Ketol-acid reductoisomerase OS=Cyanoth
+       0.39   15.4   0.0          1   14.1   0.0    1.6  1  sp|A5W1E8|RNZ_PSEP1   Ribonuclease Z OS=Pseudomonas putida (
+       0.45   15.2   0.0        1.6   13.5   0.0    1.9  1  sp|B3QSP0|ILVC_CHLT3  Ketol-acid reductoisomerase OS=Chloroh
+       0.46   15.2   0.0        4.5   12.0   0.0    2.3  1  sp|O31662|MTNA_BACSU  Methylthioribose-1-phosphate isomerase
+       0.51   15.0   0.2        2.2   13.0   0.1    2.1  1  sp|C1F6Z5|ILVC_ACIC5  Ketol-acid reductoisomerase OS=Acidoba
+       0.55   14.9   0.1         50    8.6   0.0    2.3  2  sp|Q2G3S7|PYRB_NOVAD  Aspartate carbamoyltransferase OS=Novo
+       0.57   14.9   1.6         25    9.6   0.0    3.0  2  sp|Q96LB3|IFT74_HUMAN Intraflagellar transport protein 74 ho
+       0.58   14.9   0.2        1.6   13.5   0.1    1.8  1  sp|A9AZM5|ILVC_HERA2  Ketol-acid reductoisomerase OS=Herpeto
+       0.64   14.7   0.0        3.9   12.2   0.0    2.0  1  sp|B8HSQ9|SURE_CYAP4  5'-nucleotidase surE OS=Cyanothece sp.
+       0.68   14.6   0.0        2.4   12.9   0.0    1.9  1  sp|Q3SPL2|UVRC_NITWN  UvrABC system protein C OS=Nitrobacter
+       0.68   14.6   0.0        2.8   12.6   0.0    1.8  1  sp|A7Z3X0|MTNA_BACA2  Methylthioribose-1-phosphate isomerase
+       0.69   14.6   0.4         44    8.8   0.1    2.2  2  sp|Q38W65|EFTS_LACSS  Elongation factor Ts OS=Lactobacillus 
+       0.69   14.6   0.0        1.9   13.2   0.0    1.7  1  sp|C3JYK1|TIG_PSEFS   Trigger factor OS=Pseudomonas fluoresc
+       0.71   14.6   0.0        1.7   13.4   0.0    1.7  1  sp|Q1GZA6|BIOB_METFK  Biotin synthase OS=Methylobacillus fla
+       0.71   14.6   0.0        2.5   12.8   0.0    2.0  1  sp|Q635P7|MTNA2_BACCZ Methylthioribose-1-phosphate isomerase
+       0.71   14.6   0.0        1.8   13.3   0.0    1.7  1  sp|O48676|HTGT_ARATH  N-hydroxythioamide S-beta-glucosyltran
+       0.72   14.6   0.1    1.4e+02    7.1   0.0    2.9  2  sp|Q8YRC9|THIOG_ANASP Bifunctional protein thiO/thiG OS=Anab
+       0.73   14.5   0.0         11   10.8   0.0    2.4  1  sp|Q8DW43|ILVC_STRMU  Ketol-acid reductoisomerase OS=Strepto
+       0.73   14.5   0.0        2.3   12.9   0.0    1.9  1  sp|Q81MJ6|MTNA2_BACAN Methylthioribose-1-phosphate isomerase
+       0.74   14.5   0.0        7.7   11.2   0.0    2.4  1  sp|Q6N693|GLYA1_RHOPA Serine hydroxymethyltransferase 1 OS=R
+       0.75   14.5   0.0          2   13.1   0.0    1.7  1  sp|B0C915|MURD_ACAM1  UDP-N-acetylmuramoylalanine--D-glutama
+       0.76   14.5   0.0        3.5   12.4   0.0    2.0  1  sp|Q2KA25|GLYA_RHIEC  Serine hydroxymethyltransferase OS=Rhi
+       0.77   14.5   0.0        6.5   11.5   0.0    2.3  1  sp|Q214H7|GLYA_RHOPB  Serine hydroxymethyltransferase OS=Rho
+       0.79   14.4   0.0        3.8   12.2   0.0    2.2  1  sp|B9DW70|MUTL_STRU0  DNA mismatch repair protein mutL OS=St
+        0.8   14.4   0.0        2.6   12.8   0.0    1.9  1  sp|A0RI38|MTNA2_BACAH Methylthioribose-1-phosphate isomerase
+       0.81   14.4   0.0        2.6   12.8   0.0    1.9  1  sp|Q6HED3|MTNA2_BACHK Methylthioribose-1-phosphate isomerase
+       0.83   14.4   0.0        2.4   12.9   0.0    1.8  1  sp|Q1QIR5|UVRC_NITHX  UvrABC system protein C OS=Nitrobacter
+       0.84   14.3   0.0        4.8   11.9   0.0    2.3  1  sp|A8AVN4|ILVC_STRGC  Ketol-acid reductoisomerase OS=Strepto
+       0.86   14.3   0.3         13   10.4   0.0    2.8  1  sp|Q7V5V5|MURD_PROMM  UDP-N-acetylmuramoylalanine--D-glutama
+        0.9   14.2   0.1        2.4   12.9   0.1    1.8  1  sp|Q47SB6|ILVC_THEFY  Ketol-acid reductoisomerase OS=Thermob
+        0.9   14.2   0.1        1.8   13.3   0.0    1.5  1  sp|A4FMQ5|ILVC_SACEN  Ketol-acid reductoisomerase OS=Sacchar
+       0.91   14.2   0.1        1.3   13.8   0.0    1.3  1  sp|Q5V3R4|TRM56_HALMA tRNA ribose 2'-O-methyltransferase aTr
+       0.91   14.2   0.0         37    9.0   0.0    2.3  2  sp|B8GW68|ENO_CAUCN   Enolase OS=Caulobacter crescentus (str
+       0.91   14.2   0.0         37    9.0   0.0    2.3  2  sp|Q9A7J9|ENO_CAUCR   Enolase OS=Caulobacter crescentus GN=e
+       0.92   14.2   0.2        2.8   12.7   0.1    1.8  1  sp|Q5V3F0|MAMA2_HALMA Methylaspartate mutase S chain 2 OS=Ha
+       0.96   14.2   0.0        4.9   11.9   0.0    2.2  1  sp|B1LZ88|GLYA_METRJ  Serine hydroxymethyltransferase OS=Met
+       0.98   14.1   0.0        2.1   13.0   0.0    1.5  1  sp|P94966|BIOB_METSK  Biotin synthase OS=Methylobacillus sp.
+          1   14.1   0.1        2.4   12.9   0.1    1.7  1  sp|Q3SHE4|ILVC_THIDA  Ketol-acid reductoisomerase OS=Thiobac
+        1.1   14.0   0.0        8.5   11.1   0.0    2.3  1  sp|Q07MT9|GLYA_RHOP5  Serine hydroxymethyltransferase OS=Rho
+        1.1   14.0   0.0        2.6   12.7   0.0    1.8  1  sp|A9VRK3|MTNA1_BACWK Methylthioribose-1-phosphate isomerase
+        1.1   13.9   0.3        5.6   11.7   0.1    2.2  1  sp|A9GW78|ILVC_SORC5  Ketol-acid reductoisomerase OS=Sorangi
+        1.1   13.9   0.0        4.5   12.0   0.0    2.0  1  sp|Q5YRW2|ILVC_NOCFA  Ketol-acid reductoisomerase OS=Nocardi
+        1.2   13.9   0.0        5.6   11.7   0.0    2.2  1  sp|A3CQ86|ILVC_STRSV  Ketol-acid reductoisomerase OS=Strepto
+        1.2   13.8   0.0        7.6   11.2   0.0    2.2  1  sp|Q21AW5|UVRC_RHOPB  UvrABC system protein C OS=Rhodopseudo
+        1.3   13.7   0.0        3.5   12.4   0.0    1.8  1  sp|Q81IK7|MTNA1_BACCR Methylthioribose-1-phosphate isomerase
+        1.3   13.7   0.1    1.9e+02    6.7   0.0    3.2  2  sp|Q5FNN2|PYRG_GLUOX  CTP synthase OS=Gluconobacter oxydans 
+        1.3   13.7   0.1        4.3   12.0   0.1    2.0  1  sp|Q2S9V9|ILVC_HAHCH  Ketol-acid reductoisomerase OS=Hahella
+        1.4   13.6   0.0        2.4   12.9   0.0    1.5  1  sp|Q17QH8|D39U1_BOVIN Epimerase family protein SDR39U1 OS=Bo
+        1.4   13.6   0.1        3.2   12.5   0.1    1.7  1  sp|Q2J6V2|ILVC_FRASC  Ketol-acid reductoisomerase OS=Frankia
+        1.4   13.6   0.2         22    9.8   0.0    2.4  1  sp|A1WUW3|ILVC_HALHL  Ketol-acid reductoisomerase OS=Halorho
+        1.4   13.6   0.1        5.3   11.8   0.1    2.0  1  sp|A8LMD0|PUR9_DINSH  Bifunctional purine biosynthesis prote
+        1.4   13.6   0.2        5.1   11.8   0.1    2.0  1  sp|C5BAT0|GCSP_EDWI9  Glycine dehydrogenase [decarboxylating
+        1.4   13.6   0.0        6.3   11.5   0.0    2.0  1  sp|C1B2M1|ILVC_RHOOB  Ketol-acid reductoisomerase OS=Rhodoco
+        1.4   13.6   0.0        6.3   11.5   0.0    2.0  1  sp|Q0S2H3|ILVC_RHOSR  Ketol-acid reductoisomerase OS=Rhodoco
+        1.4   13.6   0.0        3.5   12.3   0.0    1.7  1  sp|A0R946|MTNA1_BACAH Methylthioribose-1-phosphate isomerase
+        1.4   13.6   0.0        3.5   12.3   0.0    1.7  1  sp|Q81ZC2|MTNA1_BACAN Methylthioribose-1-phosphate isomerase
+        1.5   13.6   0.0        3.5   12.3   0.0    1.7  1  sp|Q6HP54|MTNA1_BACHK Methylthioribose-1-phosphate isomerase
+        1.5   13.5   0.0          6   11.6   0.0    1.9  1  sp|Q1MIU5|GLYA_RHIL3  Serine hydroxymethyltransferase OS=Rhi
+        1.5   13.5   0.0        4.4   12.0   0.0    1.8  1  sp|A8FCG5|MTNA_BACP2  Methylthioribose-1-phosphate isomerase
+        1.6   13.5   0.7        7.3   11.3   0.1    2.2  1  sp|Q63CV4|ILVC2_BACCZ Ketol-acid reductoisomerase 2 OS=Bacil
+        1.6   13.4   0.0        4.7   11.9   0.0    1.8  1  sp|A4J179|ILVC_DESRM  Ketol-acid reductoisomerase OS=Desulfo
+        1.6   13.4   0.0        2.2   13.0   0.0    1.3  1  sp|Q9V030|PAAD_PYRAB  Probable aromatic acid decarboxylase O
+        1.7   13.4   0.7        7.7   11.2   0.1    2.2  1  sp|Q81F27|ILVC2_BACCR Ketol-acid reductoisomerase 2 OS=Bacil
+        1.7   13.4   0.0         28    9.4   0.0    2.6  1  sp|Q03IJ9|ILVC_STRTD  Ketol-acid reductoisomerase OS=Strepto
+        1.7   13.4   0.0         28    9.4   0.0    2.6  1  sp|Q9F0I7|ILVC_STRTR  Ketol-acid reductoisomerase OS=Strepto
+        1.7   13.4   0.1        4.6   11.9   0.0    1.7  1  sp|P26166|YBCC_RHOCA  Uncharacterized 20.5 kDa protein in bc
+        1.7   13.4   0.2        3.8   12.2   0.1    2.1  1  sp|B8I1T8|ILVC_CLOCE  Ketol-acid reductoisomerase OS=Clostri
+        1.7   13.3   0.1         37    9.0   0.0    2.7  1  sp|A4VXL3|ILVC_STRSY  Ketol-acid reductoisomerase OS=Strepto
+        1.7   13.3   0.1         37    9.0   0.0    2.7  1  sp|A4W3V8|ILVC_STRS2  Ketol-acid reductoisomerase OS=Strepto
+        1.8   13.3   0.0        4.4   12.0   0.0    1.7  1  sp|Q3B594|ILVC_PELLD  Ketol-acid reductoisomerase OS=Pelodic
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|B1I8F2|MUTL_STRPI  DNA mismatch repair protein mutL OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|B2IS10|MUTL_STRPS  DNA mismatch repair protein mutL OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|B8ZKC9|MUTL_STRPJ  DNA mismatch repair protein mutL OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|P0A3R1|HEXB_STRPN  DNA mismatch repair protein hexB OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|P0A3R2|HEXB_STRR6  DNA mismatch repair protein hexB OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|Q04MR4|MUTL_STRP2  DNA mismatch repair protein mutL OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|C1CI68|MUTL_STRZP  DNA mismatch repair protein mutL OS=St
+        1.8   13.3   0.0         15   10.3   0.0    2.5  1  sp|C1CP43|MUTL_STRZT  DNA mismatch repair protein mutL OS=St
+        1.8   13.3   1.2        8.8   11.0   0.2    2.7  1  sp|Q8ZQE4|MACB_SALTY  Macrolide export ATP-binding/permease 
+        1.8   13.3   1.2        8.8   11.0   0.2    2.7  1  sp|Q57R58|MACB_SALCH  Macrolide export ATP-binding/permease 
+        1.8   13.2   0.0        3.6   12.3   0.0    1.5  1  sp|Q64550|UD11_RAT    UDP-glucuronosyltransferase 1-1 OS=Rat
+        1.8   13.2   0.0          6   11.6   0.0    1.8  1  sp|B9JCX4|GLYA_AGRRK  Serine hydroxymethyltransferase OS=Agr
+        1.9   13.2   1.2        8.8   11.0   0.2    2.6  1  sp|Q8Z824|MACB_SALTI  Macrolide export ATP-binding/permease 
+        1.9   13.2   0.0        2.7   12.7   0.0    1.2  1  sp|O94475|YC67_SCHPO  Uncharacterized protein C1919.07 OS=Sc
+        1.9   13.2   0.0    2.2e+02    6.5   0.0    2.2  2  sp|P59837|RDH12_BOVIN Retinol dehydrogenase 12 OS=Bos taurus
+        1.9   13.2   0.8        8.8   11.0   0.2    2.4  1  sp|Q5PGK9|MACB_SALPA  Macrolide export ATP-binding/permease 
+          2   13.1   0.8         18   10.0   0.1    2.6  1  sp|Q02CM4|ILVC_SOLUE  Ketol-acid reductoisomerase OS=Solibac
+          2   13.1   0.0         11   10.8   0.0    2.0  1  sp|Q669P6|NPD_YERPS   NAD-dependent deacetylase OS=Yersinia 
+          2   13.1   0.0         11   10.8   0.0    2.0  1  sp|Q8ZFR1|NPD_YERPE   NAD-dependent deacetylase OS=Yersinia 
+          2   13.1   0.1        5.1   11.8   0.1    1.7  1  sp|B9KYS1|ILVC_THERP  Ketol-acid reductoisomerase OS=Thermom
+          2   13.1   0.4         13   10.5   0.1    2.3  1  sp|B4UAN4|ILVC_ANASK  Ketol-acid reductoisomerase OS=Anaerom
+          2   13.1   0.4         13   10.5   0.1    2.3  1  sp|B8J829|ILVC_ANAD2  Ketol-acid reductoisomerase OS=Anaerom
+          2   13.1   0.4         13   10.5   0.1    2.3  1  sp|Q2IJB7|ILVC_ANADE  Ketol-acid reductoisomerase OS=Anaerom
+        2.1   13.1   0.1        5.1   11.8   0.1    1.7  1  sp|Q0RDI8|ILVC_FRAAA  Ketol-acid reductoisomerase OS=Frankia
+        2.1   13.1   1.1        7.1   11.3   0.0    2.3  1  sp|P0ABQ0|COABC_ECOLI Coenzyme A biosynthesis bifunctional p
+        2.1   13.1   1.1        7.1   11.3   0.0    2.3  1  sp|P0ABQ1|COABC_ECOL6 Coenzyme A biosynthesis bifunctional p
+        2.1   13.1   0.1        4.8   11.9   0.0    1.8  1  sp|B2J2U6|ILVC_NOSP7  Ketol-acid reductoisomerase OS=Nostoc 
+        2.1   13.0   0.0        6.4   11.5   0.0    1.8  1  sp|Q89DG9|UVRC_BRAJA  UvrABC system protein C OS=Bradyrhizob
+        2.1   13.0   0.1        5.1   11.8   0.1    1.6  1  sp|Q2S0M9|ILVC_SALRD  Ketol-acid reductoisomerase OS=Salinib
+        2.2   13.0   0.0        4.9   11.9   0.0    1.7  1  sp|Q7NH80|ILVC_GLOVI  Ketol-acid reductoisomerase OS=Gloeoba
+        2.2   13.0   0.1        4.5   12.0   0.1    1.6  1  sp|Q8G6V1|ILVC2_BIFLO Ketol-acid reductoisomerase 2 OS=Bifid
+        2.2   13.0   0.0         33    9.2   0.0    2.2  1  sp|Q2W698|ENO_MAGSA   Enolase OS=Magnetospirillum magneticum
+        2.3   12.9   0.0        5.4   11.7   0.0    1.7  1  sp|Q63GN3|MTNA1_BACCZ Methylthioribose-1-phosphate isomerase
+        2.3   12.9   0.0        5.4   11.7   0.0    1.7  1  sp|B0JRP2|ILVC_MICAN  Ketol-acid reductoisomerase OS=Microcy
+        2.3   12.9   0.0         15   10.3   0.0    2.3  1  sp|C1CBX8|MUTL_STRZJ  DNA mismatch repair protein mutL OS=St
+        2.3   12.9   0.0        5.4   11.7   0.0    1.8  1  sp|Q3SLY0|BIOB_THIDA  Biotin synthase OS=Thiobacillus denitr
+        2.4   12.9   0.0         15   10.3   0.0    2.3  1  sp|B5E6C5|MUTL_STRP4  DNA mismatch repair protein mutL OS=St
+        2.5   12.8   0.0          6   11.6   0.0    1.7  1  sp|B2J6I3|MURD_NOSP7  UDP-N-acetylmuramoylalanine--D-glutama
+        2.5   12.8   0.1         28    9.4   0.0    2.6  1  sp|Q5LXV0|ILVC_STRT1  Ketol-acid reductoisomerase OS=Strepto
+        2.5   12.8   0.1         28    9.4   0.0    2.6  1  sp|Q5M2F2|ILVC_STRT2  Ketol-acid reductoisomerase OS=Strepto
+        2.6   12.8   0.2         95    7.7   0.0    2.3  2  sp|C6A5E6|VATD_THESM  V-type ATP synthase subunit D OS=Therm
+        2.6   12.8   0.1        7.7   11.2   0.0    1.8  1  sp|Q2RIS6|ILVC_MOOTA  Ketol-acid reductoisomerase OS=Moorell
+        2.6   12.7   0.3         74    8.0   0.0    2.9  1  sp|Q3M859|THIOG_ANAVT Bifunctional protein thiO/thiG OS=Anab
+        2.6   12.7   0.0        7.4   11.3   0.0    1.7  1  sp|Q5GS59|RLME_WOLTR  Ribosomal RNA large subunit methyltran
+        2.7   12.7   2.1        2.8   12.7   0.1    2.1  1  sp|B8G7X1|ILVC_CHLAD  Ketol-acid reductoisomerase OS=Chlorof
+        2.8   12.7   0.3          9   11.0   0.1    2.0  1  sp|C5C2I2|ILVC_BEUC1  Ketol-acid reductoisomerase OS=Beutenb
+        2.8   12.6   0.3         13   10.5   0.1    2.1  1  sp|Q5SJ03|ILVC_THET8  Ketol-acid reductoisomerase OS=Thermus
+        2.8   12.6   0.3         13   10.5   0.1    2.1  1  sp|Q72JC8|ILVC_THET2  Ketol-acid reductoisomerase OS=Thermus
+        2.9   12.6   0.0         11   10.8   0.0    2.0  1  sp|Q4JUN9|ILVC_CORJK  Ketol-acid reductoisomerase OS=Coryneb
+        2.9   12.6   0.0        7.5   11.3   0.0    1.7  1  sp|Q2J0X3|UVRC_RHOP2  UvrABC system protein C OS=Rhodopseudo
+        2.9   12.6   0.0         16   10.2   0.0    2.2  1  sp|Q02YY8|ILVC_LACLS  Ketol-acid reductoisomerase OS=Lactoco
+        2.9   12.6   0.1        8.9   11.0   0.0    1.9  1  sp|B9EBF4|ILVC_MACCJ  Ketol-acid reductoisomerase OS=Macroco
+        2.9   12.6   0.0          6   11.6   0.0    1.6  1  sp|Q43716|UFOG_PETHY  Anthocyanidin 3-O-glucosyltransferase 
+          3   12.6   0.0        5.6   11.7   0.0    1.4  1  sp|A5GUT4|SURE_SYNR3  5'-nucleotidase surE OS=Synechococcus 
+          3   12.6   0.2        6.8   11.4   0.0    1.7  1  sp|Q1ARE4|ILVC_RUBXD  Ketol-acid reductoisomerase OS=Rubroba
+          3   12.5   0.4         19   10.0   0.1    2.5  1  sp|A6W7N6|ILVC_KINRD  Ketol-acid reductoisomerase OS=Kineoco
+          3   12.5   0.6    1.4e+02    7.1   0.0    3.1  1  sp|Q11039|DEAD_MYCTU  Cold-shock DEAD box protein A homolog 
+          3   12.5   0.1        9.5   10.9   0.0    1.8  1  sp|Q13BM0|UVRC_RHOPS  UvrABC system protein C OS=Rhodopseudo
+        3.1   12.5   0.0        4.8   11.9   0.0    1.4  1  sp|Q8YMT3|SURE_ANASP  5'-nucleotidase surE OS=Anabaena sp. (
+        3.1   12.5   0.0        8.6   11.1   0.0    1.7  1  sp|Q319M0|SURE_PROM9  5'-nucleotidase surE OS=Prochlorococcu
+        3.1   12.5   0.0        9.9   10.9   0.0    1.9  1  sp|A9VFD5|MTNA2_BACWK Methylthioribose-1-phosphate isomerase
+        3.2   12.5   0.0    2.1e+02    6.6   0.0    2.3  2  sp|A1JRP2|NADA_YERE8  Quinolinate synthase A OS=Yersinia ent
+        3.3   12.4   0.0         18   10.0   0.0    2.2  1  sp|A2RKQ6|ILVC_LACLM  Ketol-acid reductoisomerase OS=Lactoco
+        3.5   12.3   0.5         11   10.7   0.1    2.1  1  sp|Q32DZ9|MACB_SHIDS  Macrolide export ATP-binding/permease 
+        3.5   12.3   0.1         10   10.8   0.1    1.8  1  sp|A5CPY6|ILVC_CLAM3  Ketol-acid reductoisomerase OS=Claviba
+        3.5   12.3   0.1         10   10.8   0.1    1.8  1  sp|B0RIN6|ILVC_CLAMS  Ketol-acid reductoisomerase OS=Claviba
+        3.7   12.3   0.0         14   10.4   0.0    1.9  1  sp|Q8K5J6|MUTL_STRP3  DNA mismatch repair protein mutL OS=St
+        3.7   12.3   0.0         14   10.4   0.0    1.9  1  sp|Q99XN7|MUTL_STRP1  DNA mismatch repair protein mutL OS=St
+        3.7   12.3   0.0         14   10.4   0.0    1.9  1  sp|B5XJ09|MUTL_STRPZ  DNA mismatch repair protein mutL OS=St
+        3.8   12.2   0.0         14   10.4   0.0    1.9  1  sp|A2RGV3|MUTL_STRPG  DNA mismatch repair protein mutL OS=St
+        3.8   12.2   0.0         14   10.4   0.0    1.9  1  sp|Q5X9H5|MUTL_STRP6  DNA mismatch repair protein mutL OS=St
+        3.9   12.2   0.0         11   10.8   0.0    1.7  1  sp|Q3JYM6|MUTL_STRA1  DNA mismatch repair protein mutL OS=St
+        3.9   12.2   0.0         11   10.8   0.0    1.7  1  sp|Q8E2R5|MUTL_STRA3  DNA mismatch repair protein mutL OS=St
+          4   12.2   0.0         12   10.6   0.0    1.8  1  sp|Q9MB73|LGT_CITUN   Limonoid UDP-glucosyltransferase OS=Ci
+        4.1   12.1   0.0         11   10.7   0.0    1.8  1  sp|A8G678|SURE_PROM2  5'-nucleotidase surE OS=Prochlorococcu
+        4.2   12.1   1.1         26    9.5   0.5    2.3  1  sp|A9WP08|ILVC_RENSM  Ketol-acid reductoisomerase OS=Renibac
+        4.8   11.9   0.1        4.8   11.9   0.1    2.1  1  sp|A9WC26|ILVC_CHLAA  Ketol-acid reductoisomerase OS=Chlorof
+        4.8   11.9   0.1        4.8   11.9   0.1    2.1  1  sp|B9LGM7|ILVC_CHLSY  Ketol-acid reductoisomerase OS=Chlorof
+        4.9   11.9   0.0         12   10.7   0.0    1.8  1  sp|A2BSJ2|SURE_PROMS  5'-nucleotidase surE OS=Prochlorococcu
+          5   11.8   0.1         15   10.3   0.0    1.8  1  sp|Q9LR44|IABG1_ARATH Indole-3-acetate beta-glucosyltransfer
+        5.2   11.8   0.3         38    9.0   0.1    2.2  1  sp|O57731|VATD_PYRHO  V-type ATP synthase subunit D OS=Pyroc
+        5.6   11.7   0.0         15   10.3   0.0    1.7  1  sp|A3PEA4|SURE_PROM0  5'-nucleotidase surE OS=Prochlorococcu
+        6.8   11.4   1.8         11   10.7   0.1    2.3  1  sp|P75831|MACB_ECOLI  Macrolide export ATP-binding/permease 
+        7.6   11.2   2.0         11   10.7   0.1    2.3  1  sp|Q83LR7|MACB_SHIFL  Macrolide export ATP-binding/permease 
+        7.7   11.2   2.0         11   10.7   0.1    2.3  1  sp|Q3Z3Q4|MACB_SHISS  Macrolide export ATP-binding/permease 
+        9.5   10.9   1.8         16   10.2   0.1    2.3  1  sp|Q8XED0|MACB_ECO57  Macrolide export ATP-binding/permease 
+
+
+Domain annotation for each sequence (and alignments):
+>> sp|A7Z4E5|MURG_BACA2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  140.8   0.0   1.3e-42   7.6e-40       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 140.8 bits;  conditional E-value: 1.3e-42
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ +e+qrr ++V+   ++t++gle+++ e +++++++i++  ++++kl s++++k++ ++lk+++k+k  lk
+  sp|A7Z4E5|MURG_BACA2   3 IAVSGGGTGGHIYPALAFIKEVQRRHPDVEflyIGTENGLEKKIvERENIPFRAIEIT-GFKRKL-SFENVKTVMRFLKGVKKSKSYLK 89 
+                           6899******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpd+v+g+ggyv +++++aa++ gip++++Eqn++pg++nk+l++++n+v+
+  sp|A7Z4E5|MURG_BACA2  90 EFKPDAVIGTGGYVCGPVVYAAAKMGIPTIIHEQNSLPGITNKFLSKYVNKVA 142
+                           ***************************************************97 PP
+
+>> sp|Q65JY0|MURG_BACLD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.1   0.0     4e-41   2.3e-38       1     138 [.       3     142 ..       3     143 .. 0.99
+   2 ?    3.2   0.0         4   2.2e+03      13     106 ..     203     234 ..     173     251 .. 0.60
+
+  Alignments for each domain:
+  == domain 1    score: 136.1 bits;  conditional E-value: 4e-41
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT+G+++Pa+A+ +e++r   +V+   ++t++gle+ + e +g+++++i++  ++++kl s++++k++ ++lk++++ ke lk
+  sp|Q65JY0|MURG_BACLD   3 IVVSGGGTGGHIYPALAFIKEVKRHHEDVEflyIGTEKGLEKNIvEREGIPFKAIEIT-GFKRKL-SFENVKTVMRFLKGVKECKEELK 89 
+                           799*******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd+v+g+ggyv +++++aa+++gip++++Eqn++pgl+nk+l++++++v+
+  sp|Q65JY0|MURG_BACLD  90 RFKPDAVIGTGGYVCGPVVYAASKLGIPTIIHEQNSLPGLTNKFLSKYVDKVA 142
+                           ***************************************************97 PP
+
+  == domain 2    score: 3.2 bits;  conditional E-value: 4
+                           HHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EE CS
+       Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvad 101
+                           e  +A+ +eL++r+++V                                                              ++ +g+ + d
+  sp|Q65JY0|MURG_BACLD 203 EAVIAMQNELKKRDYQV--------------------------------------------------------------LYVTGEVHYD 229
+                           34455555555555555..............................................................5555555555 PP
+
+                           EE--H CS
+       Glyco_transf_28 102 lalia 106
+                            ++ a
+  sp|Q65JY0|MURG_BACLD 230 KVTAA 234
+                           55444 PP
+
+>> sp|P37585|MURG_BACSU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  139.0   0.0   4.9e-42   2.8e-39       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 139.0 bits;  conditional E-value: 4.9e-42
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ +e+qrr ++V+   ++t++gle+++ e +++++++i++  ++++kl s++++k++ ++lk+++k+k  l+
+  sp|P37585|MURG_BACSU   3 IAISGGGTGGHIYPALAFIKEVQRRHPNVEflyIGTENGLEKKIvERENIPFRSIEIT-GFKRKL-SFENVKTVMRFLKGVKKSKSYLA 89 
+                           6899******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpd+v+g+ggyv +++++aa++ gip++v+Eqn++pg++nk+l++++n+v+
+  sp|P37585|MURG_BACSU  90 EFKPDAVIGTGGYVCGPVVYAAAKMGIPTIVHEQNSLPGITNKFLSKYVNKVA 142
+                           ***************************************************97 PP
+
+>> sp|A8FCY1|MURG_BACP2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.8   0.0   2.4e-41   1.4e-38       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 136.8 bits;  conditional E-value: 2.4e-41
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT+G+++Pa+A+ +e++r  ++V+   ++t++gle+++ e +++++++i++  ++++kl s++++k++ ++lk+++k+k  lk
+  sp|A8FCY1|MURG_BACP2   3 IVISGGGTGGHIYPALAFIKEVKRLHPDVEflyIGTENGLEKKIvERENIPFKAIEIS-GFKRKL-SFDNVKTVMRFLKGVQKSKSYLK 89 
+                           799*******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpd+v+g+ggyv +++++aa++++ip++++Eqn++pg++nk+l+r++n+v+
+  sp|A8FCY1|MURG_BACP2  90 EFKPDAVIGTGGYVCGPVVYAASKLKIPTIIHEQNSLPGITNKFLARYVNKVA 142
+                           ***************************************************97 PP
+
+>> sp|Q812W5|MURG1_BACCR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   7.9e-40   4.4e-37       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 131.9 bits;  conditional E-value: 7.9e-40
+                            EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                            v+++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ ++ag+++++i +  ++++k+ sl+++k++ ++lk+++++k+ +
+  sp|Q812W5|MURG1_BACCR   3 VLVSGGGTGGHIYPALALIREIKKLNPEARflyIGTENGLESTIvPKAGIPFQSIVIS-GFKRKI-SLDNVKTVMRFLKGVQDSKRYI 88 
+                            7899******************************************************.******.********************** PP
+
+                            HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+        Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++++pd+v+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|Q812W5|MURG1_BACCR  89 RRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                            ****************************************************975 PP
+
+>> sp|A3MY90|MURG_ACTP2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  135.3   0.1     7e-41     4e-38       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 135.3 bits;  conditional E-value: 7e-41
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+areLq++G+e+r l+t++++e+ + +++g++++ i++  +l+ k+   + lk +++ +ka+ +a++i+k+++
+  sp|A3MY90|MURG_ACTP2   6 LVMAGGTGGHVFPAIAVARELQKQGWEIRwLGTKDRMEADLvPKHGIPIEFIQIS-GLKGKG-IGALLKAPFAIFKAVMQARKIIKNYQ 92 
+                           789*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+g+p++++Eqn+++gl+n +l++ a +vl
+  sp|A3MY90|MURG_ACTP2  93 PDAVLGMGGYVSGPGGIAAKLCGVPVILHEQNAVAGLTNVWLSKIARRVL 142
+                           **********************************************9986 PP
+
+>> sp|A0RHT1|MURG2_BACAH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   7.9e-40   4.4e-37       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 131.9 bits;  conditional E-value: 7.9e-40
+                            EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                            v+++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ ++ag+++++i +  ++++k+ sl+++k++ ++lk+++++k+ +
+  sp|A0RHT1|MURG2_BACAH   3 VLVSGGGTGGHIYPALALIREIKKLNPEARflyIGTENGLESTIvPKAGIPFQSIVIS-GFKRKI-SLDNVKTVMRFLKGVQDSKRYI 88 
+                            7899******************************************************.******.********************** PP
+
+                            HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+        Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++++pd+v+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|A0RHT1|MURG2_BACAH  89 RRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                            ****************************************************975 PP
+
+>> sp|Q636B6|MURG1_BACCZ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   7.9e-40   4.4e-37       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 131.9 bits;  conditional E-value: 7.9e-40
+                            EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                            v+++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ ++ag+++++i +  ++++k+ sl+++k++ ++lk+++++k+ +
+  sp|Q636B6|MURG1_BACCZ   3 VLVSGGGTGGHIYPALALIREIKKLNPEARflyIGTENGLESTIvPKAGIPFQSIVIS-GFKRKI-SLDNVKTVMRFLKGVQDSKRYI 88 
+                            7899******************************************************.******.********************** PP
+
+                            HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+        Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++++pd+v+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|Q636B6|MURG1_BACCZ  89 RRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                            ****************************************************975 PP
+
+>> sp|Q81JG5|MURG1_BACAN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   7.9e-40   4.4e-37       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 131.9 bits;  conditional E-value: 7.9e-40
+                            EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                            v+++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ ++ag+++++i +  ++++k+ sl+++k++ ++lk+++++k+ +
+  sp|Q81JG5|MURG1_BACAN   3 VLVSGGGTGGHIYPALALIREIKKLNPEARflyIGTENGLESTIvPKAGIPFQSIVIS-GFKRKI-SLDNVKTVMRFLKGVQDSKRYI 88 
+                            7899******************************************************.******.********************** PP
+
+                            HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+        Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++++pd+v+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|Q81JG5|MURG1_BACAN  89 RRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                            ****************************************************975 PP
+
+>> sp|Q732F8|MURG1_BACC1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   7.9e-40   4.4e-37       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 131.9 bits;  conditional E-value: 7.9e-40
+                            EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                            v+++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ ++ag+++++i +  ++++k+ sl+++k++ ++lk+++++k+ +
+  sp|Q732F8|MURG1_BACC1   3 VLVSGGGTGGHIYPALALIREIKKLNPEARflyIGTENGLESTIvPKAGIPFQSIVIS-GFKRKI-SLDNVKTVMRFLKGVQDSKRYI 88 
+                            7899******************************************************.******.********************** PP
+
+                            HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+        Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++++pd+v+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|Q732F8|MURG1_BACC1  89 RRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                            ****************************************************975 PP
+
+>> sp|B7GGI2|MURG_ANOFW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.1   0.0   3.2e-40   1.8e-37       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 133.1 bits;  conditional E-value: 3.2e-40
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT+G+++Pa+A+ +e++++ ++V    ++t++gle+++ + +++++++i++  +l+++l s++++k++ ++ k++r+ k++lk
+  sp|B7GGI2|MURG_ANOFW   3 IVVSGGGTGGHIYPALAFIHEVKKQHPNVDvlyIGTKKGLESTIvPRENIPFHAIDIS-GLKRSL-SFENVKTIVRFIKSVRACKKLLK 89 
+                           799*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyv +++++aa+++gip++++Eqn+ipgl+n +l+r+an+v+
+  sp|B7GGI2|MURG_ANOFW  90 QYKPDVVLGTGGYVCGPVVYAAAKLGIPTIIHEQNSIPGLTNTFLSRYANKVA 142
+                           ***************************************************97 PP
+
+>> sp|A7GRN6|MURG_BACCN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   7.5e-40   4.2e-37       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 131.9 bits;  conditional E-value: 7.5e-40
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ ++ag+++++i +  ++++k+ s++++k++ ++ k+++++k+ ++
+  sp|A7GRN6|MURG_BACCN   3 ILVSGGGTGGHIYPALALIREIKKLHPEARflyIGTENGLESTIvPKAGIPFQSIVIS-GFKRKI-SFDNVKTVMRFVKGVQDSKRYIR 89 
+                           6899******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +++pdvv+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|A7GRN6|MURG_BACCN  90 RFNPDVVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                           ***************************************************975 PP
+
+>> sp|B0BRH7|MURG_ACTPJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.5   0.1   2.5e-40   1.4e-37       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 133.5 bits;  conditional E-value: 2.5e-40
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+areLq++G+e+r l+t++++e+ + +++g++++ i++  +l+ k+   + lk +++ +ka+ +a++i+k+++
+  sp|B0BRH7|MURG_ACTPJ   6 LVMAGGTGGHVFPAIAVARELQKQGWEIRwLGTKDRMEADLvPKHGIPIEFIQIS-GLKGKG-IGALLKAPFAIFKAVMQARKIIKNYQ 92 
+                           789*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+g+p++++Eqn+++gl+n +l++ a +vl
+  sp|B0BRH7|MURG_ACTPJ  93 PDAVLGMGGYVSGPGGIAAKLCGVPVILHEQNAVAGLTNVWLSKIACRVL 142
+                           *******************************************9987775 PP
+
+>> sp|B3GZK8|MURG_ACTP7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.5   0.1   2.5e-40   1.4e-37       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 133.5 bits;  conditional E-value: 2.5e-40
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+areLq++G+e+r l+t++++e+ + +++g++++ i++  +l+ k+   + lk +++ +ka+ +a++i+k+++
+  sp|B3GZK8|MURG_ACTP7   6 LVMAGGTGGHVFPAIAVARELQKQGWEIRwLGTKDRMEADLvPKHGIPIEFIQIS-GLKGKG-IGALLKAPFAIFKAVMQARKIIKNYQ 92 
+                           789*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+g+p++++Eqn+++gl+n +l++ a +vl
+  sp|B3GZK8|MURG_ACTP7  93 PDAVLGMGGYVSGPGGIAAKLCGVPVILHEQNAVAGLTNVWLSKIACRVL 142
+                           *******************************************9987775 PP
+
+>> sp|Q6HEQ4|MURG1_BACHK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.6   0.0     2e-39   1.1e-36       1     139 []       3     143 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 130.6 bits;  conditional E-value: 2e-39
+                            EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                            v+++ggGT+G+++Pa+Al re ++  +e r   ++t++gle+++ +++g+++++i +  ++++k+ sl+++k++ ++lk+++++k+ +
+  sp|Q6HEQ4|MURG1_BACHK   3 VLVSGGGTGGHIYPALALIREIKKLNPEARflyIGTENGLESTIvPKTGIPFQSIVIS-GFKRKI-SLDNVKTVMRFLKGVQDSKRYI 88 
+                            7899******************************************************.******.********************** PP
+
+                            HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+        Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++++pd+v+g+ggyv +++++aa+++gip++v+Eqn++pg++nk+l+r++++v+v
+  sp|Q6HEQ4|MURG1_BACHK  89 RRFNPDIVIGTGGYVCGPVVYAAAKLGIPTIVHEQNSVPGVTNKFLSRYVDKVAV 143
+                            ****************************************************975 PP
+
+>> sp|O07670|MURG_ENTHR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  132.0   0.0   7.1e-40     4e-37       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 132.0 bits;  conditional E-value: 7.1e-40
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ + +++++++ +   +++++gle+++ +e+g+++++++++ ++++kl sl++lk+++ +lk++r+ak+ilk
+  sp|O07670|MURG_ENTHR   3 ILVTGGGTGGHIYPALAFVNYVKTKEPNTEfmyVGAQRGLENKIvPETGMPFRTLEIQ-GFQRKL-SLHNLKTIQLFLKSIREAKKILK 89 
+                           799*******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpdvv+g+ggyv++++++aa+++ ip++++Eqn++pg++nk+l+r++++++
+  sp|O07670|MURG_ENTHR  90 EFKPDVVIGTGGYVSGAVVYAASKLAIPTIIHEQNSVPGITNKFLSRYVDRIA 142
+                           **************************************************986 PP
+
+>> sp|A7FM66|MURG_YERP3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.6   0.3     4e-39   2.3e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.6   0.0       6.1   3.4e+03      38     108 ..     266     342 ..     253     356 .] 0.53
+
+  Alignments for each domain:
+  == domain 1    score: 129.6 bits;  conditional E-value: 4e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|A7FM66|MURG_YERP3   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|A7FM66|MURG_YERP3  96 PDVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.6 bits;  conditional E-value: 6.1
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                         ++                     ++  +l+ +  ++++++++++  +
+  sp|A7FM66|MURG_YERP3 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqPQFT------------------ATSVSSLLAGWDRATLLSMAERARSV 336
+                           567899****99999998888666666555544444443332222..................22333333334444444444444444 PP
+
+                           E--HHH CS
+       Glyco_transf_28 103 aliaal 108
+                           a+  a+
+  sp|A7FM66|MURG_YERP3 337 AIPDAT 342
+                           444333 PP
+
+>> sp|B1JK81|MURG_YERPY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.6   0.3     4e-39   2.3e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.6   0.0       6.1   3.4e+03      38     108 ..     266     342 ..     253     356 .] 0.53
+
+  Alignments for each domain:
+  == domain 1    score: 129.6 bits;  conditional E-value: 4e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|B1JK81|MURG_YERPY   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|B1JK81|MURG_YERPY  96 PDVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.6 bits;  conditional E-value: 6.1
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                         ++                     ++  +l+ +  ++++++++++  +
+  sp|B1JK81|MURG_YERPY 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqPQFT------------------ATSVSSLLAGWDRATLLSMAERARSV 336
+                           567899****99999998888666666555544444443332222..................22333333334444444444444444 PP
+
+                           E--HHH CS
+       Glyco_transf_28 103 aliaal 108
+                           a+  a+
+  sp|B1JK81|MURG_YERPY 337 AIPDAT 342
+                           444333 PP
+
+>> sp|B2K4E6|MURG_YERPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.6   0.3     4e-39   2.3e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.6   0.0       6.1   3.4e+03      38     108 ..     266     342 ..     253     356 .] 0.53
+
+  Alignments for each domain:
+  == domain 1    score: 129.6 bits;  conditional E-value: 4e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|B2K4E6|MURG_YERPB   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|B2K4E6|MURG_YERPB  96 PDVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.6 bits;  conditional E-value: 6.1
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                         ++                     ++  +l+ +  ++++++++++  +
+  sp|B2K4E6|MURG_YERPB 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqPQFT------------------ATSVSSLLAGWDRATLLSMAERARSV 336
+                           567899****99999998888666666555544444443332222..................22333333334444444444444444 PP
+
+                           E--HHH CS
+       Glyco_transf_28 103 aliaal 108
+                           a+  a+
+  sp|B2K4E6|MURG_YERPB 337 AIPDAT 342
+                           444333 PP
+
+>> sp|Q66EK5|MURG_YERPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.6   0.3     4e-39   2.3e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.6   0.0       6.1   3.4e+03      38     108 ..     266     342 ..     253     356 .] 0.53
+
+  Alignments for each domain:
+  == domain 1    score: 129.6 bits;  conditional E-value: 4e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|Q66EK5|MURG_YERPS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|Q66EK5|MURG_YERPS  96 PDVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.6 bits;  conditional E-value: 6.1
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                         ++                     ++  +l+ +  ++++++++++  +
+  sp|Q66EK5|MURG_YERPS 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqPQFT------------------ATSVSSLLAGWDRATLLSMAERARSV 336
+                           567899****99999998888666666555544444443332222..................22333333334444444444444444 PP
+
+                           E--HHH CS
+       Glyco_transf_28 103 aliaal 108
+                           a+  a+
+  sp|Q66EK5|MURG_YERPS 337 AIPDAT 342
+                           444333 PP
+
+>> sp|A1JJJ3|MURG_YERE8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.3   0.2   2.5e-39   1.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 130.3 bits;  conditional E-value: 2.5e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + ++ g+e+  i++  +l+ k+  ++ l+ + + ++a+r+ak+i+++++
+  sp|A1JJJ3|MURG_YERE8   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPKNGIEIDFIEIS-GLRGKG-LMAQLTAPVRIYRAVRQAKKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+gip++++Eqngi+gl+n++l+r a++vl
+  sp|A1JJJ3|MURG_YERE8  96 PDVVLGMGGYVSGPGGLAAWLCGIPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+>> sp|A9MQC2|MURG_SALAR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.3   0.4   4.8e-39   2.7e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.9   0.0       5.2   2.9e+03      38     108 ..     266     342 ..     254     351 .. 0.63
+
+  Alignments for each domain:
+  == domain 1    score: 129.3 bits;  conditional E-value: 4.8e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g++++ i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|A9MQC2|MURG_SALAR   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGINIEFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|A9MQC2|MURG_SALAR  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATTVM 145
+                           *********************************************99885 PP
+
+  == domain 2    score: 2.9 bits;  conditional E-value: 5.2
+                           HHHHHH---EEEE----..........S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHH CS
+       Glyco_transf_28  38 eefveeagleavpigpd..........vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaal 108
+                           ++++++agl+a  ++ +          ++l +     ++++e  ++  + +++  +l+ ++ d+++ +++++ ++ ++ a+
+  sp|A9MQC2|MURG_SALAR 266 VSEIAAAGLPAIFVPFQhkdrqqywnaLPLEN--AGAAKILEQPQF--TAEAVADTLAGWSRDTLLTMAERARAVSILDAT 342
+                           466799*****999999888855555533333..223333333333..456667777777777777777777766666555 PP
+
+>> sp|P64869|Y1526_MYCTU  Uncharacterized protein Rv1526c/MT1577 OS=Mycobacterium tuberculosis GN=Rv1526c PE=4 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.8   1.0   8.1e-40   4.5e-37       1     138 [.       3     144 ..       3     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 131.8 bits;  conditional E-value: 8.1e-40
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----................................S- CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd................................vk 56 
+                            +vla++GTrGdveP++A+++eL+rrGh V++a+pp+l efve+agl+ v++gpd                                v+
+  sp|P64869|Y1526_MYCTU   3 FVLAVHGTRGDVEPCAAVGVELRRRGHAVHMAVPPNLIEFVESAGLTGVAYGPDsdeqintvaafvrnltraqnplnlaravkelfVE 90 
+                            89***********************************************************************************99* PP
+
+                            -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +wa  e+ +tl++la+g                          adl++++++++g++anvaE+++ip ++++++p+++ng++
+  sp|P64869|Y1526_MYCTU  91 GWA--EMGTTLTTLADG--------------------------ADLVMTGQTYHGVAANVAEYYDIPAAALHHFPMQVNGQI 144
+                            ***..99**********..........................*************************************97 PP
+
+>> sp|P64870|Y1553_MYCBO  Uncharacterized protein Mb1553c OS=Mycobacterium bovis GN=Mb1553c PE=4 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.8   1.0   8.1e-40   4.5e-37       1     138 [.       3     144 ..       3     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 131.8 bits;  conditional E-value: 8.1e-40
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----................................S- CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd................................vk 56 
+                            +vla++GTrGdveP++A+++eL+rrGh V++a+pp+l efve+agl+ v++gpd                                v+
+  sp|P64870|Y1553_MYCBO   3 FVLAVHGTRGDVEPCAAVGVELRRRGHAVHMAVPPNLIEFVESAGLTGVAYGPDsdeqintvaafvrnltraqnplnlaravkelfVE 90 
+                            89***********************************************************************************99* PP
+
+                            -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +wa  e+ +tl++la+g                          adl++++++++g++anvaE+++ip ++++++p+++ng++
+  sp|P64870|Y1553_MYCBO  91 GWA--EMGTTLTTLADG--------------------------ADLVMTGQTYHGVAANVAEYYDIPAAALHHFPMQVNGQI 144
+                            ***..99**********..........................*************************************97 PP
+
+>> sp|Q65RY6|MURG_MANSM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.5   0.1     1e-39   5.6e-37       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 131.5 bits;  conditional E-value: 1e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a+ Lq++G++++ l+t++++e+++ +++g++++ i++  +l+ k+   + l  +++ ++a+ +a++i+ ++k
+  sp|Q65RY6|MURG_MANSM   8 LVMAGGTGGHVFPAIAVAQYLQKQGWDICwLGTKDRMEAQLvPKHGIPIEFIQIS-GLRGKG-IKALLGAPFAICRAIMQARKIILRQK 94 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ ++aa+l+g+p++++Eqn+++gl+n +l++ a++vl
+  sp|Q65RY6|MURG_MANSM  95 PDAVLGMGGYVSGPGGVAAKLCGVPVILHEQNAVAGLTNVWLSKIAKRVL 144
+                           ***********************************************997 PP
+
+>> sp|B2VD91|MURG_ERWT9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.7   0.2   3.7e-39   2.1e-36       2     138 ..       7     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 129.7 bits;  conditional E-value: 3.7e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g++++ i +  +l+ k+   + l  +++ ++a+r+a++i+k ++
+  sp|B2VD91|MURG_ERWT9   7 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIEFIRIS-GLRGKG-IKALLAAPLRIFNAWRQARAIMKAWQ 93 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B2VD91|MURG_ERWT9  94 PDVVLGMGGYVSGPGGLAAWSCGIPVVLHEQNGIAGLTNKWLAKIATKVM 143
+                           ***********************************************986 PP
+
+>> sp|Q4QLF8|MURG_HAEI8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.2   0.1   1.3e-39   7.4e-37       2     138 ..       7     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 131.2 bits;  conditional E-value: 1.3e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a++Lq+++++++ l+t++++e+++ +++g++++ i++  +l+ k+   + l  +++ ++a+ +ak+i++e+k
+  sp|Q4QLF8|MURG_HAEI8   7 LVMAGGTGGHVFPAIAVAQTLQKQEWDICwLGTKDRMEAQLvPKYGIPIRFIQIS-GLRGKG-IKALLNAPFAIFRAVLQAKKIIQEEK 93 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++a++aa+l+g+p++++Eqn+i+gl+nkll + a+ vl
+  sp|Q4QLF8|MURG_HAEI8  94 PDAVLGMGGYVSGPAGVAAKLCGVPIILHEQNAIAGLTNKLLGKIATCVL 143
+                           *******************************************9999886 PP
+
+>> sp|A5UIR2|MURG_HAEIG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.2   0.1   1.3e-39   7.4e-37       2     138 ..       7     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 131.2 bits;  conditional E-value: 1.3e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a++Lq+++++++ l+t++++e+++ +++g++++ i++  +l+ k+   + l  +++ ++a+ +ak+i++e+k
+  sp|A5UIR2|MURG_HAEIG   7 LVMAGGTGGHVFPAIAVAQTLQKQEWDICwLGTKDRMEAQLvPKYGIPIRFIQIS-GLRGKG-IKALLNAPFAIFRAVLQAKKIIQEEK 93 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++a++aa+l+g+p++++Eqn+i+gl+nkll + a+ vl
+  sp|A5UIR2|MURG_HAEIG  94 PDAVLGMGGYVSGPAGVAAKLCGVPIILHEQNAIAGLTNKLLGKIATCVL 143
+                           *******************************************9999886 PP
+
+>> sp|P45065|MURG_HAEIN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.2   0.1   1.3e-39   7.4e-37       2     138 ..       7     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 131.2 bits;  conditional E-value: 1.3e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a++Lq+++++++ l+t++++e+++ +++g++++ i++  +l+ k+   + l  +++ ++a+ +ak+i++e+k
+  sp|P45065|MURG_HAEIN   7 LVMAGGTGGHVFPAIAVAQTLQKQEWDICwLGTKDRMEAQLvPKYGIPIRFIQIS-GLRGKG-IKALLNAPFAIFRAVLQAKKIIQEEK 93 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++a++aa+l+g+p++++Eqn+i+gl+nkll + a+ vl
+  sp|P45065|MURG_HAEIN  94 PDAVLGMGGYVSGPAGVAAKLCGVPIILHEQNAIAGLTNKLLGKIATCVL 143
+                           *******************************************9999886 PP
+
+>> sp|A9R124|MURG_YERPG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.3   0.3   9.8e-39   5.5e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.8   0.0       5.3     3e+03      38     116 ..     266     350 ..     254     356 .] 0.56
+
+  Alignments for each domain:
+  == domain 1    score: 128.3 bits;  conditional E-value: 9.8e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|A9R124|MURG_YERPG   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|A9R124|MURG_YERPG  96 PNVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.8 bits;  conditional E-value: 5.3
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                                         ++  +  ++  +l+++  ++++++++++  +
+  sp|A9R124|MURG_YERPG 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqP----------------QF--TATSVSSLLASWDRATLLSMAERARSV 336
+                           567899****99999998888666655433333333332222................22..334444555555555555555555555 PP
+
+                           E--HHHHHHHHHHH CS
+       Glyco_transf_28 103 aliaallagipanv 116
+                           a+  a+ + ++ +v
+  sp|A9R124|MURG_YERPG 337 AIPDATERVAAEVV 350
+                           55555555554444 PP
+
+>> sp|Q1C214|MURG_YERPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.3   0.3   9.8e-39   5.5e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.8   0.0       5.3     3e+03      38     116 ..     266     350 ..     254     356 .] 0.56
+
+  Alignments for each domain:
+  == domain 1    score: 128.3 bits;  conditional E-value: 9.8e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|Q1C214|MURG_YERPA   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|Q1C214|MURG_YERPA  96 PNVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.8 bits;  conditional E-value: 5.3
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                                         ++  +  ++  +l+++  ++++++++++  +
+  sp|Q1C214|MURG_YERPA 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqP----------------QF--TATSVSSLLASWDRATLLSMAERARSV 336
+                           567899****99999998888666655433333333332222................22..334444555555555555555555555 PP
+
+                           E--HHHHHHHHHHH CS
+       Glyco_transf_28 103 aliaallagipanv 116
+                           a+  a+ + ++ +v
+  sp|Q1C214|MURG_YERPA 337 AIPDATERVAAEVV 350
+                           55555555554444 PP
+
+>> sp|Q1CMM7|MURG_YERPN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.3   0.3   9.8e-39   5.5e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.8   0.0       5.3     3e+03      38     116 ..     266     350 ..     254     356 .] 0.56
+
+  Alignments for each domain:
+  == domain 1    score: 128.3 bits;  conditional E-value: 9.8e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|Q1CMM7|MURG_YERPN   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|Q1CMM7|MURG_YERPN  96 PNVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.8 bits;  conditional E-value: 5.3
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                                         ++  +  ++  +l+++  ++++++++++  +
+  sp|Q1CMM7|MURG_YERPN 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqP----------------QF--TATSVSSLLASWDRATLLSMAERARSV 336
+                           567899****99999998888666655433333333332222................22..334444555555555555555555555 PP
+
+                           E--HHHHHHHHHHH CS
+       Glyco_transf_28 103 aliaallagipanv 116
+                           a+  a+ + ++ +v
+  sp|Q1CMM7|MURG_YERPN 337 AIPDATERVAAEVV 350
+                           55555555554444 PP
+
+>> sp|Q8ZIE9|MURG_YERPE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.3   0.3   9.8e-39   5.5e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.8   0.0       5.3     3e+03      38     116 ..     266     350 ..     254     356 .] 0.56
+
+  Alignments for each domain:
+  == domain 1    score: 128.3 bits;  conditional E-value: 9.8e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|Q8ZIE9|MURG_YERPE   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|Q8ZIE9|MURG_YERPE  96 PNVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.8 bits;  conditional E-value: 5.3
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                                         ++  +  ++  +l+++  ++++++++++  +
+  sp|Q8ZIE9|MURG_YERPE 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqP----------------QF--TATSVSSLLASWDRATLLSMAERARSV 336
+                           567899****99999998888666655433333333332222................22..334444555555555555555555555 PP
+
+                           E--HHHHHHHHHHH CS
+       Glyco_transf_28 103 aliaallagipanv 116
+                           a+  a+ + ++ +v
+  sp|Q8ZIE9|MURG_YERPE 337 AIPDATERVAAEVV 350
+                           55555555554444 PP
+
+>> sp|O07109|MURG_ENTFA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.0   0.0   6.2e-39   3.5e-36       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 129.0 bits;  conditional E-value: 6.2e-39
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+++ ++++++ +  +   ++t++gle+++ ++a++++++i+++ +++++l s++++k+++ +l +++kak+i++
+  sp|O07109|MURG_ENTFA   3 ILVTGGGTGGHIYPALSFVEHVKKEAPATEflyVGTENGLESQIvPKAKIPFKTIKIQ-GFKRSL-SPQNFKTIYLFLTSINKAKKIIR 89 
+                           799*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e++pdvv+g+ggyv++++++aa  ++ip++++Eqn+ipg++nk+l+r++++++
+  sp|O07109|MURG_ENTFA  90 EFQPDVVIGTGGYVSGAVVYAAHQLKIPTIIHEQNSIPGMTNKFLSRYVDKIA 142
+                           **************************************************987 PP
+
+>> sp|A3QIM1|MURG_SHELP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.5   0.1   4.3e-39   2.4e-36       1     138 [.       7     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 129.5 bits;  conditional E-value: 4.3e-39
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a++L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  +++ l+++ +a+e++ke+
+  sp|A3QIM1|MURG_SHELP   7 ILIMAGGTGGHVFPALAVAKALAKQGWQVRwLGTADRMEARLvPQHGFDIDFIDIK-GVRGNG-LIRKLAAPFKILRSIMQAREVIKEF 93 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp+vv+g+gg+++++ ++aa+l+gip++++Eqn+ipg++nkll+r a +vl
+  sp|A3QIM1|MURG_SHELP  94 KPHVVLGMGGFASGPGGVAAKLSGIPLVLHEQNAIPGMTNKLLSRIASRVL 144
+                           ***********************************************9986 PP
+
+>> sp|A8G9S7|MURG_SERP5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.0   0.2   6.2e-39   3.5e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 129.0 bits;  conditional E-value: 6.2e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + l+ +++ + a+r+ak+i+++++
+  sp|A8G9S7|MURG_SERP5   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-LKAQLSAPLRIWHAVRQAKAIMRNYQ 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+gip++++Eqngi+gl+n++l+r a++vl
+  sp|A8G9S7|MURG_SERP5  96 PDVVLGMGGYVSGPGGLAAWLCGIPVVLHEQNGIAGLTNRWLARIAKTVL 145
+                           **********************************************9986 PP
+
+>> sp|B7LWF6|MURG_ESCF3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.0   0.3     6e-39   3.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 129.0 bits;  conditional E-value: 6e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L ++G+eVr l+t +++e+ + +++g+e+  i +  +l+ k+   + l  +++ ++a+r+a++i+k +k
+  sp|B7LWF6|MURG_ESCF3   9 MVMAGGTGGHVFPGLAVAHHLIAQGWEVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALLAAPLRIFNAWRQARAIMKAFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7LWF6|MURG_ESCF3  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|A7MIE5|MURG_ENTS8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.7   0.2   7.6e-39   4.3e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 128.7 bits;  conditional E-value: 7.6e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + l+ + + ++a+r+a++i+k++k
+  sp|A7MIE5|MURG_ENTS8   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-VKALLLAPVRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a +v+
+  sp|A7MIE5|MURG_ENTS8  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIASRVM 145
+                           ********************************************999885 PP
+
+>> sp|C6DEU3|MURG_PECCP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.8   0.2   7.1e-39     4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 128.8 bits;  conditional E-value: 7.1e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+  ++ l+ + + ++a+r+a++i+++++
+  sp|C6DEU3|MURG_PECCP   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IWAQLSAPIRIFQAVRQARAIMRRYQ 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+gip++++Eqngi+gl+n++l+  a++vl
+  sp|C6DEU3|MURG_PECCP  96 PDVVLGMGGYVSGPGGLAAWLCGIPVVLHEQNGIAGLTNRWLSHIAKKVL 145
+                           **********************************************9997 PP
+
+>> sp|Q88V81|MURG_LACPL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.1   2.4e-38   1.3e-35       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.4e-38
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al ++L++ ++e     ++t++gle+++ +e+g+++++i+++ +++++l sl+++k+++ +lk++  a++ +k 
+  sp|Q88V81|MURG_LACPL   4 MISGGGTGGHIYPALALIDALKAHDPEAQvqfVGTHRGLESRIvPERGIDFKTIKIQ-GFKRSL-SLQNVKTVYLFLKSVVTARKYIKA 90 
+                           5799**********************99999**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvvvg+ggyv++++++aa+  +ip++++Eqn++ g++nk+l+r++++++
+  sp|Q88V81|MURG_LACPL  91 FKPDVVVGTGGYVSGAVVFAASQMHIPTVIHEQNSVVGVTNKFLSRFVDKIA 142
+                           *************************************************987 PP
+
+>> sp|Q8Z9G9|MURG_SALTI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.8   0.2   1.5e-38   8.3e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.8 bits;  conditional E-value: 1.5e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t++++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|Q8Z9G9|MURG_SALTI   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTSDRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|Q8Z9G9|MURG_SALTI  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|B4F111|MURG_PROMH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.6   0.1   3.5e-38   1.9e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    3.2   0.0         4   2.3e+03      38     116 ..     271     355 ..     257     358 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 126.6 bits;  conditional E-value: 3.5e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a+ Lq +G+++r l+t +++e+++ +++g+e++ i +  +l+ k+   + +  + +  ka+++a++i+k+++
+  sp|B4F111|MURG_PROMH   9 MVMAGGTGGHVFPGLAVAHYLQSQGWDIRwLGTADRMEAQLvPKHGIEIEYIRIS-GLRGKG-VKALIAAPIRIIKAIFQARRIMKRYQ 95 
+                           5899***************************************************.******.9999********************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++vl
+  sp|B4F111|MURG_PROMH  96 PDAVLGMGGYVSGPGGVAAWSCGIPVVLHEQNGIAGLTNRWLSKIAKRVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 3.2 bits;  conditional E-value: 4
+                           HHHHHH---EEEE----....S------...-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHH CS
+       Glyco_transf_28  38 eefveeagleavpigpd....vklwakl..eslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanv 116
+                           ++++++agl+a  ++ +     ++w+ l  e  ++ + + ++  + +++  +l+++  + ++ +++ ++ +a++ a+ + + +++
+  sp|B4F111|MURG_PROMH 271 VSEIAAAGLPAIFVPFQhkdrQQYWNALplENAGAARIIEQNDLTPEAIADTLENWDRHQLMLMAEKAQSVAITDATERVANVII 355
+                           4566999999999999988885555543113344445555555577778888888888888888888888888888777777665 PP
+
+>> sp|A0L1P2|MURG_SHESA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.0   0.2   2.5e-38   1.4e-35       1     138 [.       8     145 ..       8     146 .. 0.99
+   2 ?    3.7   0.1       2.9   1.6e+03      54     117 ..     285     357 ..     254     361 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 127.0 bits;  conditional E-value: 2.5e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|A0L1P2|MURG_SHESA   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LVRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lag+p++++Eqn+ipg++nkll+r an+vl
+  sp|A0L1P2|MURG_SHESA  95 KPDVVLGMGGFASGPGGVAAKLAGVPLVLHEQNAIPGMTNKLLSRIANQVL 145
+                           ************************************************986 PP
+
+  == domain 2    score: 3.7 bits;  conditional E-value: 2.9
+                           -..............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHH CS
+       Glyco_transf_28  54 d..............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanva 117
+                                          v++ a +  +++++++ +      +  ++l++++ + ++++g+++ d+a++ a+ + +++ +a
+  sp|A0L1P2|MURG_SHESA 285 PhavddhqtrnaqvlVEAGAAFLLPQAILDVNKL----VSKLQLLANDR-AELAQMGQRARDVAVLDATEQVAQVCIA 357
+                           3446666666666665666666677777777777....44445555555.6677***************999998876 PP
+
+>> sp|Q0HZR6|MURG_SHESR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.0   0.2   2.5e-38   1.4e-35       1     138 [.       8     145 ..       8     146 .. 0.99
+   2 ?    3.7   0.1       2.9   1.6e+03      54     117 ..     285     357 ..     254     361 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 127.0 bits;  conditional E-value: 2.5e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|Q0HZR6|MURG_SHESR   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LVRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lag+p++++Eqn+ipg++nkll+r an+vl
+  sp|Q0HZR6|MURG_SHESR  95 KPDVVLGMGGFASGPGGVAAKLAGVPLVLHEQNAIPGMTNKLLSRIANQVL 145
+                           ************************************************986 PP
+
+  == domain 2    score: 3.7 bits;  conditional E-value: 2.9
+                           -..............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHH CS
+       Glyco_transf_28  54 d..............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanva 117
+                                          v++ a +  +++++++ +      +  ++l++++ + ++++g+++ d+a++ a+ + +++ +a
+  sp|Q0HZR6|MURG_SHESR 285 PhavddhqtrnaqvlVEAGAAFLLPQAILDVNKL----VSKLQLLANDR-AELAQMGQRARDVAVLDATEQVAQVCIA 357
+                           3446666666666665666666677777777777....44445555555.6677***************999998876 PP
+
+>> sp|B5BLC2|MURG_SALPK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.5   0.3   1.7e-38   9.6e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.5 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B5BLC2|MURG_SALPK   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l+r a++v+
+  sp|B5BLC2|MURG_SALPK  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLARIATTVM 145
+                           **********************************************9885 PP
+
+>> sp|Q5PDC8|MURG_SALPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.5   0.3   1.7e-38   9.6e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.5 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|Q5PDC8|MURG_SALPA   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l+r a++v+
+  sp|Q5PDC8|MURG_SALPA  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLARIATTVM 145
+                           **********************************************9885 PP
+
+>> sp|Q9K9T0|MURG_BACHD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.6   0.0   4.1e-39   2.3e-36       1     138 [.       3     142 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 129.6 bits;  conditional E-value: 4.1e-39
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT+G+++Pa+A+ +e ++r+ +     ++t++gle+++ + +g+++++i +  ++++kl s++++k++ ++l+++++ak++l 
+  sp|Q9K9T0|MURG_BACHD   3 IVVSGGGTGGHIYPALAFINEMKKRDERLDvlyIGTERGLESEIvPREGIPFQTIHIT-GFQRKL-SMENVKTVVRFLRGTKRAKALLN 89 
+                           799***********************877777**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpdvv+g+ggyv +++++aa++++ip++++Eqn++pgl+nk+l+r++++++
+  sp|Q9K9T0|MURG_BACHD  90 EFKPDVVIGTGGYVCGPVVYAAAKLKIPTVIHEQNSVPGLTNKFLSRYVDRIA 142
+                           **************************************************987 PP
+
+>> sp|Q8Y5M2|MURG_LISMO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.2   0.0   5.2e-39   2.9e-36       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 129.2 bits;  conditional E-value: 5.2e-39
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+Al reL++  +e +   ++t++gle+ + + +g+++++i++  +++++l sl+++k++ ++l + +k+k+il+
+  sp|Q8Y5M2|MURG_LISMO   3 VAISGGGTGGHVYPALALIRELKKSHPEAEflyIGTEKGLEAGIvKREGIPFEAIEIT-GFKRSL-SLENIKTVMRFLSGAKKSKQILR 89 
+                           6899******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyv +++++aa++++ip+ ++Eqn+++gl+nk+l+r+ ++v+
+  sp|Q8Y5M2|MURG_LISMO  90 DFKPDVVIGTGGYVCGPVVYAAAKLKIPTLIHEQNSVAGLTNKFLSRYTDKVA 142
+                           **************************************************997 PP
+
+>> sp|A9MZL9|MURG_SALPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|A9MZL9|MURG_SALPB   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|A9MZL9|MURG_SALPB  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|B4TJ87|MURG_SALHS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B4TJ87|MURG_SALHS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B4TJ87|MURG_SALHS  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|B4TXH8|MURG_SALSV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B4TXH8|MURG_SALSV   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B4TXH8|MURG_SALSV  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|B5F7W4|MURG_SALA4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B5F7W4|MURG_SALA4   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B5F7W4|MURG_SALA4  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|Q8ZRU3|MURG_SALTY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|Q8ZRU3|MURG_SALTY   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|Q8ZRU3|MURG_SALTY  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|B4SU50|MURG_SALNS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B4SU50|MURG_SALNS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B4SU50|MURG_SALNS  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|A1REZ6|MURG_SHESW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.0   0.2   2.6e-38   1.5e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.0 bits;  conditional E-value: 2.6e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|A1REZ6|MURG_SHESW   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LVRKLAAPFKVIRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lagip++++Eqn+ipg++nkll+r a++vl
+  sp|A1REZ6|MURG_SHESW  95 KPDVVLGMGGFASGPGGVAARLAGIPLVLHEQNAIPGMTNKLLSRIATQVL 145
+                           ***********************************************9986 PP
+
+>> sp|A4Y2N6|MURG_SHEPC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.0   0.2   2.6e-38   1.5e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.0 bits;  conditional E-value: 2.6e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|A4Y2N6|MURG_SHEPC   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LVRKLAAPFKVIRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lagip++++Eqn+ipg++nkll+r a++vl
+  sp|A4Y2N6|MURG_SHEPC  95 KPDVVLGMGGFASGPGGVAARLAGIPLVLHEQNAIPGMTNKLLSRIATQVL 145
+                           ***********************************************9986 PP
+
+>> sp|A6T4N3|MURG_KLEP7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.5   0.1   1.7e-38   9.6e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.5 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + ++ g+e+  i +  +l+ k+   + l+ + + ++a+r+a++i+k+++
+  sp|A6T4N3|MURG_KLEP7   9 MVMAGGTGGHVFPGLAVAHHLMDQGWQVRwLGTADRMEADLvPKNGIEIDFIRIS-GLRGKG-IKAQLLAPVRIFNAWRQARAIMKRFQ 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|A6T4N3|MURG_KLEP7  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIAKKVM 145
+                           **********************************************9986 PP
+
+>> sp|B5RH64|MURG_SALG2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B5RH64|MURG_SALG2   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B5RH64|MURG_SALG2  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|A8ALK6|MURG_CITK8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.1   0.2   1.1e-38   6.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 128.1 bits;  conditional E-value: 1.1e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|A8ALK6|MURG_CITK8   9 MVMAGGTGGHVFPGLAVAHHLMDQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKQFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|A8ALK6|MURG_CITK8  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|Q57TD0|MURG_SALCH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|Q57TD0|MURG_SALCH   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|Q57TD0|MURG_SALCH  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|A6WID1|MURG_SHEB8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.2   3.9e-38   2.2e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+   2 ?    2.3   0.0         8   4.5e+03      54     116 ..     287     356 ..     254     360 .. 0.67
+
+  Alignments for each domain:
+  == domain 1    score: 126.4 bits;  conditional E-value: 3.9e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|A6WID1|MURG_SHEB8   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LIRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lagip++++Eqn+ipg++nkll+r a++vl
+  sp|A6WID1|MURG_SHEB8  95 KPDVVLGMGGFASGPGGVAARLAGIPLVLHEQNAIPGMTNKLLSRIATQVL 145
+                           ***********************************************9986 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 8
+                           -............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHH CS
+       Glyco_transf_28  54 d............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanv 116
+                                        v++ a +  +++++++ +      + k  l  +  + ++++g+++ d+a++ a+ + +++ +
+  sp|A6WID1|MURG_SHEB8 287 AvddhqtrngqvlVEAGAAFLLPQAILDVNKL-----AGKLQLLANDRTELARMGQRARDVAVLDATEQVAAVCI 356
+                           15555555555555555555566666666666.....4444455555677889************9999988765 PP
+
+>> sp|A9KY29|MURG_SHEB9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.2   3.9e-38   2.2e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+   2 ?    2.3   0.0         8   4.5e+03      54     116 ..     287     356 ..     254     360 .. 0.67
+
+  Alignments for each domain:
+  == domain 1    score: 126.4 bits;  conditional E-value: 3.9e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|A9KY29|MURG_SHEB9   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LIRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lagip++++Eqn+ipg++nkll+r a++vl
+  sp|A9KY29|MURG_SHEB9  95 KPDVVLGMGGFASGPGGVAARLAGIPLVLHEQNAIPGMTNKLLSRIATQVL 145
+                           ***********************************************9986 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 8
+                           -............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHH CS
+       Glyco_transf_28  54 d............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanv 116
+                                        v++ a +  +++++++ +      + k  l  +  + ++++g+++ d+a++ a+ + +++ +
+  sp|A9KY29|MURG_SHEB9 287 AvddhqtrngqvlVEAGAAFLLPQAILDVNKL-----AGKLQLLANDRTELARMGQRARDVAVLDATEQVAAVCI 356
+                           15555555555555555555566666666666.....4444455555677889************9999988765 PP
+
+>> sp|B8E698|MURG_SHEB2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.2   3.9e-38   2.2e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+   2 ?    2.3   0.0         8   4.5e+03      54     116 ..     287     356 ..     254     360 .. 0.67
+
+  Alignments for each domain:
+  == domain 1    score: 126.4 bits;  conditional E-value: 3.9e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|B8E698|MURG_SHEB2   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LIRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lagip++++Eqn+ipg++nkll+r a++vl
+  sp|B8E698|MURG_SHEB2  95 KPDVVLGMGGFASGPGGVAARLAGIPLVLHEQNAIPGMTNKLLSRIATQVL 145
+                           ***********************************************9986 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 8
+                           -............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHH CS
+       Glyco_transf_28  54 d............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanv 116
+                                        v++ a +  +++++++ +      + k  l  +  + ++++g+++ d+a++ a+ + +++ +
+  sp|B8E698|MURG_SHEB2 287 AvddhqtrngqvlVEAGAAFLLPQAILDVNKL-----AGKLQLLANDRTELARMGQRARDVAVLDATEQVAAVCI 356
+                           15555555555555555555566666666666.....4444455555677889************9999988765 PP
+
+>> sp|B5Y1U7|MURG_KLEP3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.5   0.1   1.7e-38   9.6e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.5 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + ++ g+e+  i +  +l+ k+   + l+ + + ++a+r+a++i+k+++
+  sp|B5Y1U7|MURG_KLEP3   9 MVMAGGTGGHVFPGLAVAHHLMDQGWQVRwLGTADRMEADLvPKNGIEIDFIRIS-GLRGKG-IKAQLLAPVRIFNAWRQARAIMKRFQ 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B5Y1U7|MURG_KLEP3  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIAKKVM 145
+                           **********************************************9986 PP
+
+>> sp|A3CZM1|MURG_SHEB5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.2   3.9e-38   2.2e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+   2 ?    2.2   0.0       8.1   4.5e+03      54     116 ..     287     356 ..     255     360 .. 0.67
+
+  Alignments for each domain:
+  == domain 1    score: 126.4 bits;  conditional E-value: 3.9e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|A3CZM1|MURG_SHEB5   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LIRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lagip++++Eqn+ipg++nkll+r a++vl
+  sp|A3CZM1|MURG_SHEB5  95 KPDVVLGMGGFASGPGGVAARLAGIPLVLHEQNAIPGMTNKLLSRIATQVL 145
+                           ***********************************************9986 PP
+
+  == domain 2    score: 2.2 bits;  conditional E-value: 8.1
+                           -............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHH CS
+       Glyco_transf_28  54 d............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanv 116
+                                        v++ a +  +++++++ +      + k  l  +  + ++++g+++ d+a++ a+ + +++ +
+  sp|A3CZM1|MURG_SHEB5 287 AvddhqtrngqvlVEAGAAFLLPQAILDVNKL-----AGKLQLLANDRTELARMGQRARDVAVLDATEQVAAVCI 356
+                           15555555555555555555566666666666.....4444455555677889************9999988765 PP
+
+>> sp|Q7U336|MURG_HAEDU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.7   0.1   1.6e-38   8.9e-36       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.7 bits;  conditional E-value: 1.6e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a+eLq++G++++ l+t++++e+++ ++++++++ i++  +l+ k+  l+ +k ++  lka+ +a  i+k+++
+  sp|Q7U336|MURG_HAEDU   6 LIMAGGTGGHVFPAIAVAQELQKQGWQICwLGTKDRMEAELvPQYNIPIEFIQIS-GLKGKG-VLALIKAPFTILKAVLQALNIIKKYR 92 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+++p++++Eqn+i+gl+n +l++ a++vl
+  sp|Q7U336|MURG_HAEDU  93 PDAVLGMGGYVSGPGGIAARLCNVPIVLHEQNAIAGLTNVWLAKIAKRVL 142
+                           ***********************************************997 PP
+
+>> sp|B7VJ03|MURG_VIBSL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.5   0.1   8.7e-39   4.9e-36       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 128.5 bits;  conditional E-value: 8.7e-39
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+e+r l+t +++e+ + +++g+e+  i+++ +l+ ++  +k +k +++  +a+ +a++++k ++
+  sp|B7VJ03|MURG_VIBSL   8 LVMAGGTGGHVFPGLAVAKKLQQQGWEIRwLGTADRMEADLvPKHGIEIDFIKVK-GLRGQG-VSKLIKAPFQIINAILQARRHIKAWQ 94 
+                           789*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|B7VJ03|MURG_VIBSL  95 PDVVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNQWLSKIAKKVF 144
+                           ***********************************************997 PP
+
+>> sp|Q0I1D3|MURG_HAES1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.2   0.1   1.1e-38     6e-36       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 128.2 bits;  conditional E-value: 1.1e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a+ Lq+++++++ l+t +++e+++ +++g++++ i++  +l+ k+  ++ lk ++  l+a+ +a++i+k+++
+  sp|Q0I1D3|MURG_HAES1   8 LVMAGGTGGHVFPAIAVAQYLQKQDWDICwLGTRDRMEAKLvPKHGIPIEFIQIS-GLRGKG-LITLLKAPFVILRAVLQARKIIKKYQ 94 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l++ip++v+Eqn++ gl+n ll++ a++vl
+  sp|Q0I1D3|MURG_HAES1  95 PDVVLGMGGYVSGPGGVAAKLCNIPVVVHEQNAVLGLTNSLLAKIATRVL 144
+                           ***********************************************997 PP
+
+>> sp|B5FI72|MURG_SALDC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.3   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B5FI72|MURG_SALDC   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B5FI72|MURG_SALDC  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|A2RJQ4|MURG_LACLM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.0   2.4e-38   1.3e-35       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.4e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ + L++++++ +   ++t++gle+++ + ag++ ++++++ +l+++l s++++k++++++k++ +ak+i+k
+  sp|A2RJQ4|MURG_LACLM   3 IIITGGGTGGHIYPALAFLKYLKQEEPDTEvlyIGTKKGLESKIvPRAGIQLKTVDIQ-GLRRSL-SPQNIKTAYKFFKSVSDAKKIMK 89 
+                           689*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyva+++++aa+ ++ip++++E n+ pg++n++l++++++++
+  sp|A2RJQ4|MURG_LACLM  90 DFKPDVVLGTGGYVAGPVVFAAAQLKIPTIIHEGNSFPGITNRFLAKKVDRIA 142
+                           **************************************************987 PP
+
+>> sp|Q02XY0|MURG_LACLS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.0   2.4e-38   1.3e-35       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.4e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ + L++++++ +   ++t++gle+++ + ag++ ++++++ +l+++l s++++k++++++k++ +ak+i+k
+  sp|Q02XY0|MURG_LACLS   3 IIITGGGTGGHIYPALAFLKYLKQEEPDTEvlyIGTKKGLESKIvPRAGIQLKTVDIQ-GLRRSL-SPQNIKTAYKFFKSVSDAKKIMK 89 
+                           689*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyva+++++aa+ ++ip++++E n+ pg++n++l++++++++
+  sp|Q02XY0|MURG_LACLS  90 DFKPDVVLGTGGYVAGPVVFAAAQLKIPTIIHEGNSFPGITNRFLAKKVDRIA 142
+                           **************************************************987 PP
+
+>> sp|B7MNU9|MURG_ECO81  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B7MNU9|MURG_ECO81   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7MNU9|MURG_ECO81  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B7NHJ6|MURG_ECO7I  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B7NHJ6|MURG_ECO7I   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7NHJ6|MURG_ECO7I  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B7UIE0|MURG_ECO27  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B7UIE0|MURG_ECO27   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7UIE0|MURG_ECO27  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q0TLP9|MURG_ECOL5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q0TLP9|MURG_ECOL5   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q0TLP9|MURG_ECOL5  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q8FL64|MURG_ECOL6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q8FL64|MURG_ECOL6   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q8FL64|MURG_ECOL6  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|A1A7D5|MURG_ECOK1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|A1A7D5|MURG_ECOK1   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|A1A7D5|MURG_ECOK1  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B7MAL3|MURG_ECO45  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B7MAL3|MURG_ECO45   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7MAL3|MURG_ECO45  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q1RGA5|MURG_ECOUT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q1RGA5|MURG_ECOUT   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q1RGA5|MURG_ECOUT  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q6D0I3|MURG_ERWCT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.2   0.2   2.2e-38   1.2e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.2 bits;  conditional E-value: 2.2e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + l+ + + ++a+r+a++i+++++
+  sp|Q6D0I3|MURG_ERWCT   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IRAQLSAPIRIFQAVRQARAIMRRYQ 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+l+gip++++Eqngi+gl+n++l+  a++vl
+  sp|Q6D0I3|MURG_ERWCT  96 PDVVLGMGGYVSGPGGLAAWLCGIPVVLHEQNGIAGLTNRWLSHIAKKVL 145
+                           **********************************************9997 PP
+
+>> sp|B5YZC6|MURG_ECO5E  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B5YZC6|MURG_ECO5E   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B5YZC6|MURG_ECO5E  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q8X9Y8|MURG_ECO57  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q8X9Y8|MURG_ECO57   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q8X9Y8|MURG_ECO57  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|A7ZHI1|MURG_ECO24  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|A7ZHI1|MURG_ECO24   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|A7ZHI1|MURG_ECO24  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B1LG27|MURG_ECOSM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B1LG27|MURG_ECOSM   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B1LG27|MURG_ECOSM  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B6HZ67|MURG_ECOSE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B6HZ67|MURG_ECOSE   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B6HZ67|MURG_ECOSE  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B7M133|MURG_ECO8A  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B7M133|MURG_ECO8A   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7M133|MURG_ECO8A  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B7N7W3|MURG_ECOLU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B7N7W3|MURG_ECOLU   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7N7W3|MURG_ECOLU  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q326E5|MURG_SHIBS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q326E5|MURG_SHIBS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q326E5|MURG_SHIBS  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q3Z5R9|MURG_SHISS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q3Z5R9|MURG_SHISS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q3Z5R9|MURG_SHISS  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q32K02|MURG_SHIDS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q32K02|MURG_SHIDS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q32K02|MURG_SHIDS  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B2U295|MURG_SHIB3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B2U295|MURG_SHIB3   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B2U295|MURG_SHIB3  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B1IR88|MURG_ECOLC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B1IR88|MURG_ECOLC   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B1IR88|MURG_ECOLC  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B1XC67|MURG_ECODH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|B1XC67|MURG_ECODH   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B1XC67|MURG_ECODH  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|C4ZRI5|MURG_ECOBW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|C4ZRI5|MURG_ECOBW   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|C4ZRI5|MURG_ECOBW  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|P17443|MURG_ECOLI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|P17443|MURG_ECOLI   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|P17443|MURG_ECOLI  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|A7ZW42|MURG_ECOHS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.3   1.7e-38   9.4e-36       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|A7ZW42|MURG_ECOHS   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|A7ZW42|MURG_ECOHS  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|A4TQ83|MURG_YERPP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.8   0.3     6e-38   3.4e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+   2 ?    2.8   0.0       5.3     3e+03      38     116 ..     266     350 ..     254     356 .] 0.56
+
+  Alignments for each domain:
+  == domain 1    score: 125.8 bits;  conditional E-value: 6e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++ GT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i++  +l+ k+  ++ l+ + + ++a+r+a +i+++++
+  sp|A4TQ83|MURG_YERPP   9 MVMAAGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEASLvPQHGIEIDFIKIS-GLRGKG-LMAQLTAPIRIYRAVRQAQKIMRDYQ 95 
+                           57899**************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vv+g+ggyv+++ ++aa+l+g+p++++Eqngi+gl+n++l+r a++vl
+  sp|A4TQ83|MURG_YERPP  96 PNVVLGMGGYVSGPGGLAAWLCGVPVVLHEQNGIAGLTNRWLARIAKKVL 145
+                           ***********************************************997 PP
+
+  == domain 2    score: 2.8 bits;  conditional E-value: 5.3
+                           HHHHHH---EEEE----........................S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  38 eefveeagleavpigpd........................vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           +++v++agl+a  ++ +                                         ++  +  ++  +l+++  ++++++++++  +
+  sp|A4TQ83|MURG_YERPP 266 VSEVAAAGLPAIFVPFQhkdrqqywnalplekagaakiieqP----------------QF--TATSVSSLLASWDRATLLSMAERARSV 336
+                           567899****99999998888666655433333333332222................22..334444555555555555555555555 PP
+
+                           E--HHHHHHHHHHH CS
+       Glyco_transf_28 103 aliaallagipanv 116
+                           a+  a+ + ++ +v
+  sp|A4TQ83|MURG_YERPP 337 AIPDATERVAAEVV 350
+                           55555555554444 PP
+
+>> sp|Q9CF92|MURG_LACLA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.1   0.0   4.7e-38   2.6e-35       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 126.1 bits;  conditional E-value: 4.7e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ + L + +++ +   ++t++gle+++ ++ag++ ++++++ +l+++l s+++lk++++++k++ +ak+i+k
+  sp|Q9CF92|MURG_LACLA   3 IIITGGGTGGHIYPALAFLKYLEKVEPDTEvlyIGTKKGLEAKIvPQAGIKLKTVDIQ-GLRRSL-SPQNLKTAYKFFKSVSDAKKIMK 89 
+                           689***************************99**************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpdvv+g+ggyva+++++aa+ ++ip++++E n+ pg++n++l++++++++
+  sp|Q9CF92|MURG_LACLA  90 EFKPDVVLGTGGYVAGPVVYAAAQLKIPTIIHEGNSFPGITNRFLAKKVDRIA 142
+                           **************************************************987 PP
+
+>> sp|B5R2M4|MURG_SALEP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.8   0.2   5.8e-38   3.2e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 125.8 bits;  conditional E-value: 5.8e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+ +G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l  +++ ++a+r+a++i+k++k
+  sp|B5R2M4|MURG_SALEP   9 MVMAGGTGGHVFPGLAVAHHLMSQGWQVRwLGTADRMEADLvPKHGIDIDFIRIS-GLRGKG-VKALLAAPLRIFNAWRQARAIMKRFK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n++l++ a++v+
+  sp|B5R2M4|MURG_SALEP  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNQWLAKIATTVM 145
+                           *********************************************99885 PP
+
+>> sp|Q0T8A7|MURG_SHIF8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.2   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a+ L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q0T8A7|MURG_SHIF8   9 MVMAGGTGGHVFPGLAVAHYLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q0T8A7|MURG_SHIF8  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q83MN4|MURG_SHIFL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.2   2.3e-38   1.3e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a+ L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r+a++i+k +k
+  sp|Q83MN4|MURG_SHIFL   9 MVMAGGTGGHVFPGLAVAHYLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRQARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|Q83MN4|MURG_SHIFL  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|Q8CX35|MURG_SHEON  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.8   0.2   1.2e-37   6.6e-35       1     138 [.       8     145 ..       8     146 .. 0.98
+   2 ?    3.8   0.1       2.6   1.5e+03      54     117 ..     285     357 ..     255     361 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 124.8 bits;  conditional E-value: 1.2e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|Q8CX35|MURG_SHEON   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LVRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lag+p++++Eqn+ipg++nkll+r a +vl
+  sp|Q8CX35|MURG_SHEON  95 KPDVVLGMGGFASGPGGVAAKLAGVPLVLHEQNAIPGMTNKLLSRIASQVL 145
+                           *********************************************999886 PP
+
+  == domain 2    score: 3.8 bits;  conditional E-value: 2.6
+                           -..............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHH CS
+       Glyco_transf_28  54 d..............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanva 117
+                                          v++ a +  +++++++ +      +  ++l++++ + ++++g+++ d+a++ a+ + +++ +a
+  sp|Q8CX35|MURG_SHEON 285 PhavddhqtrnaqvlVEAGAAFLLPQAILDVNKL----VSKLQLLANDR-AELARMGQRARDVAVLDATEQVAQVCIA 357
+                           3446666666666665666666677777777777....44445555555.6678***************999998876 PP
+
+>> sp|B8DBP8|MURG_LISMH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.6   0.0   1.7e-38   9.4e-36       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 127.6 bits;  conditional E-value: 1.7e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+Al reL++  +e +   ++t++gle+ + + +g+++++i++  +++++l sl+++k++ ++l + +k+k+il+
+  sp|B8DBP8|MURG_LISMH   3 VAISGGGTGGHVYPALALIRELKKVHPEAEflyIGTEKGLEAGIvKREGIPFEAIEIT-GFKRSL-SLENIKTVMRFLSGAKKSKQILR 89 
+                           6899******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyv +++++aa++++ip+ ++Eqn+++gl+nk+l+r+ ++v+
+  sp|B8DBP8|MURG_LISMH  90 DFKPDVVIGTGGYVCGPVVYAAAKLKIPTLIHEQNSVAGLTNKFLSRYTDKVA 142
+                           **************************************************997 PP
+
+>> sp|A0AKD5|MURG_LISW6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.4   0.0   1.9e-38   1.1e-35       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 127.4 bits;  conditional E-value: 1.9e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+A+ reL++  +e +   ++t++gle+ + + +g+++++i++  +++++l sl+++k++ ++l + +k+k+il+
+  sp|A0AKD5|MURG_LISW6   3 VAISGGGTGGHVYPALAFIRELKKLHPEAEflyIGTEKGLEADIvKREGIPFESIEIT-GFKRSL-SLENVKTIMRFLSGAKKSKQILR 89 
+                           6899******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyv +++++aa++++ip+ ++Eqn+++gl+nk+l+r+ ++v+
+  sp|A0AKD5|MURG_LISW6  90 DFKPDVVIGTGGYVCGPVVYAAAKLKIPTLIHEQNSVAGLTNKFLSRYTDKVA 142
+                           **************************************************997 PP
+
+>> sp|Q9ZBA5|MURG_STRCO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   1.0   2.3e-38   1.3e-35       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G++ePa+Ala++L+r+++ V    l+t++gle+++ +e+g+e   i++  +l++k  +++ ++ + + + +++++++il+
+  sp|Q9ZBA5|MURG_STRCO   3 VVLAGGGTAGHIEPALALADALRRQDPTVGitaLGTERGLETRLvPERGYELALIPAV-PLPRKP-TPELITVPGRLRGTIKATEQILE 89 
+                           79****************************9***************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + k+d+v+gfggyva++a++aa+++g+p++v+E+n++pgl+nk+ +r+a +v+
+  sp|Q9ZBA5|MURG_STRCO  90 RTKADAVAGFGGYVALPAYLAAKRLGVPIVVHEANARPGLANKIGSRYAAQVA 142
+                           *************************************************9987 PP
+
+>> sp|Q929Y2|MURG_LISIN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.3   0.0   2.1e-38   1.2e-35       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 127.3 bits;  conditional E-value: 2.1e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+A+ reL++  +e +   ++t++gle+ + + +g+++++i++  +++++l sl+++k++ ++l + +k+k+il+
+  sp|Q929Y2|MURG_LISIN   3 VAISGGGTGGHVYPALAFIRELKKVHPEAEflyIGTEKGLEAGIvKREGIPFESIEIT-GFKRSL-SLENIKTVMRFLSGAKKSKQILR 89 
+                           6899******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpdvv+g+ggyv +++++aa++++ip+ ++Eqn+i+gl+nk+l+r+ ++v+
+  sp|Q929Y2|MURG_LISIN  90 EFKPDVVIGTGGYVCGPVVYAAAKLKIPTLIHEQNSIAGLTNKFLSRYTDKVA 142
+                           **************************************************997 PP
+
+>> sp|B8F3B6|MURG_HAEPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.3   0.1   2.1e-38   1.2e-35       2     137 ..       6     141 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.3 bits;  conditional E-value: 2.1e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+ reLq++G+e+r l+t++++e+ + +++g++++ i++  +l+ k+   + l+ +++ l+a+ +ak+i+  +k
+  sp|B8F3B6|MURG_HAEPS   6 LVMAGGTGGHVFPAIAVVRELQQQGWEIRwLGTKDRMEADLvPKHGIPIEFIQIS-GLKGKG-IKALLTAPFAILRAVLQAKKIINAYK 92 
+                           789*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+v+g+ggyv+++ +iaa+l+g+p++++Eqn++ gl+n +l++ a + 
+  sp|B8F3B6|MURG_HAEPS  93 PDAVLGMGGYVSGPGGIAAKLCGVPVILHEQNAVVGLTNVWLSKIARRT 141
+                           *******************************************999876 PP
+
+>> sp|Q0HE83|MURG_SHESM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.0   0.2   2.5e-38   1.4e-35       1     138 [.       8     145 ..       8     146 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 127.0 bits;  conditional E-value: 2.5e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++ +++ +ak++++e+
+  sp|Q0HE83|MURG_SHESM   8 ILVMAGGTGGHVFPALAVAKYLAQQGWQVRwLGTADRMEARLvPQYGFDIDFIDIK-GVRGNG-LVRKLAAPFKVVRSILQAKAVIAEF 94 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+lag+p++++Eqn+ipg++nkll+r an+vl
+  sp|Q0HE83|MURG_SHESM  95 KPDVVLGMGGFASGPGGVAAKLAGVPLVLHEQNAIPGMTNKLLSRIANQVL 145
+                           ************************************************986 PP
+
+>> sp|C1KWY8|MURG_LISMC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.2   0.0   2.2e-38   1.3e-35       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 127.2 bits;  conditional E-value: 2.2e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+Al reL++  +e +   ++t++gle+ + + +g+++++i++  +++++l sl+++k++ ++l + +k+k+il+
+  sp|C1KWY8|MURG_LISMC   3 VAISGGGTGGHVYPALALIRELKKIHPEAEflyIGTEKGLEAGIvKREGIPFEAIEIT-GFKRSL-SLENIKTVMRFLSGAKKSKQILR 89 
+                           6899******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyv +++++aa++++ip+ ++Eqn+++gl+nk+l+r+ ++v+
+  sp|C1KWY8|MURG_LISMC  90 DFKPDVVIGTGGYVCGPVVYAAAKLKIPTLIHEQNSVAGLTNKFLSRYTDKVA 142
+                           **************************************************997 PP
+
+>> sp|Q71XX8|MURG_LISMF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.2   0.0   2.2e-38   1.3e-35       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 127.2 bits;  conditional E-value: 2.2e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+Al reL++  +e +   ++t++gle+ + + +g+++++i++  +++++l sl+++k++ ++l + +k+k+il+
+  sp|Q71XX8|MURG_LISMF   3 VAISGGGTGGHVYPALALIRELKKIHPEAEflyIGTEKGLEAGIvKREGIPFEAIEIT-GFKRSL-SLENIKTVMRFLSGAKKSKQILR 89 
+                           6899******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+ggyv +++++aa++++ip+ ++Eqn+++gl+nk+l+r+ ++v+
+  sp|Q71XX8|MURG_LISMF  90 DFKPDVVIGTGGYVCGPVVYAAAKLKIPTLIHEQNSVAGLTNKFLSRYTDKVA 142
+                           **************************************************997 PP
+
+>> sp|A1S2F9|MURG_SHEAM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.1   2.3e-38   1.3e-35       2     138 ..      10     146 ..       9     147 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 127.1 bits;  conditional E-value: 2.3e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+ar+L  +G+++r l+t +++e+++ +++g ++  i+++ +++ ++  l++l  ++++l+++ +a+++++e+k
+  sp|A1S2F9|MURG_SHEAM  10 LVMAGGTGGHVFPALAVARRLASEGWQIRwLGTADRMEARLvPQHGFDIDFIDIQ-GVRGNG-LLRKLAAPFKVLRSVMQARKVIREFK 96 
+                           789****************************************************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+gg+++++ ++aa+l+gip++++Eqn+ipg++nkll+r a++vl
+  sp|A1S2F9|MURG_SHEAM  97 PDVVLGMGGFASGPGGVAAKLCGIPLVLHEQNAIPGMTNKLLSRIATRVL 146
+                           ***********************************************997 PP
+
+>> sp|A5UCW8|MURG_HAEIE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.5   0.0   3.5e-38     2e-35       2     137 ..       7     142 ..       6     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 126.5 bits;  conditional E-value: 3.5e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a++Lq+++++++ l+t++++e+++ +++ ++++ i++  +l+ k+   + +  +++ ++a+ +ak+i++e+k
+  sp|A5UCW8|MURG_HAEIE   7 LVMAGGTGGHVFPAIAVAQTLQKQEWDICwLGTKDRMEAQLvPKYDIPIRFIQIS-GLRGKG-IKALFNAPFAIFRAVLQAKKIIQEEK 93 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+v+g+ggyv+++a++aa+l+g+p++++Eqn+i+gl+nkll + a  v
+  sp|A5UCW8|MURG_HAEIE  94 PDAVLGMGGYVSGPAGVAAKLCGVPIILHEQNAIAGLTNKLLGKIASCV 142
+                           *****************************************99988776 PP
+
+>> sp|Q03QH5|MURG_LACBA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.9   0.1   1.9e-36   1.1e-33       2     138 ..       4     142 ..       3     143 .. 0.97
+   2 ?    4.5   0.0       1.6   8.8e+02      63     130 ..     295     355 ..     267     358 .. 0.70
+
+  Alignments for each domain:
+  == domain 1    score: 120.9 bits;  conditional E-value: 1.9e-36
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al ++L++r+++     +++++gle+++ +++g+++++  ++ +++++l sl+++k+++ +lk++++ak+ +++
+  sp|Q03QH5|MURG_LACBA   4 MVSGGGTGGHIYPALALIKALKKREPNSAvmyVGSERGLESTIvPAKGIPFQATRIQ-GFKRSL-SLENFKTVYLFLKSVHEAKKMIRQ 90 
+                           5899**********************977779*************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvvvg+ggyv++++++aa+++++p+ ++Eqn++ g++n++l+r++++++
+  sp|Q03QH5|MURG_LACBA  91 FKPDVVVGTGGYVSGAVVYAAARLHVPTLIHEQNSVVGITNRFLSRYVDRIA 142
+                           *************************************************986 PP
+
+  == domain 2    score: 4.5 bits;  conditional E-value: 1.6
+                           -HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  63 slktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           + k+  +la +      a ei+kea  d++ ++    ad+++++++l++  a    q+g+p++++++l
+  sp|Q03QH5|MURG_LACBA 295 QTKNANSLATV-----GAAEIIKEA--DLTGETLIAKADQLMTNDALRQDMATASKQLGVPDAADRVL 355
+                           44445555554.....445555554..4777788889**************************99987 PP
+
+>> sp|Q8DEL0|MURG_VIBVU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.2   3.9e-38   2.2e-35       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 126.4 bits;  conditional E-value: 3.9e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+e+r l+t +++e+++ +++g+++  i+++ +l+ ++   + ++ +++ l+a+++ak+++k+++
+  sp|Q8DEL0|MURG_VIBVU   8 MVMAGGTGGHVFPGLAVAKKLQQQGWEIRwLGTADRMEAELvPKHGIDIDFIKVK-GLRGQG-IKRLVLAPFQILNAIFQAKAHIKRWQ 94 
+                           5899***************************************************.*****9.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|Q8DEL0|MURG_VIBVU  95 PDAVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNHWLAKIAKKVF 144
+                           ***********************************************996 PP
+
+>> sp|Q7MNV1|MURG_VIBVY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.2   3.9e-38   2.2e-35       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 126.4 bits;  conditional E-value: 3.9e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+e+r l+t +++e+++ +++g+++  i+++ +l+ ++   + ++ +++ l+a+++ak+++k+++
+  sp|Q7MNV1|MURG_VIBVY   8 MVMAGGTGGHVFPGLAVAKKLQQQGWEIRwLGTADRMEAELvPKHGIDIDFIKVK-GLRGQG-IKRLVLAPFQILNAIFQAKAHIKRWQ 94 
+                           5899***************************************************.*****9.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|Q7MNV1|MURG_VIBVY  95 PDAVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNHWLAKIAKKVF 144
+                           ***********************************************996 PP
+
+>> sp|Q3IFY0|MURG_PSEHT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.2   0.1   4.4e-38   2.5e-35       1     138 [.       5     142 ..       5     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 126.2 bits;  conditional E-value: 4.4e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v+++gGT+G+++P +A+a+ L+++G++V  ++tp+++e++v +++++++  i+++ +++ ++   + +k ++ +l+a+ +a+++lk++
+  sp|Q3IFY0|MURG_PSEHT   5 CVVVAGGTGGHIFPGIAVADYLKQQGWQVSwIGTPDRMEATVvPKHNIDINFINVK-GVRGNG-IKRLIKAPFMVLNAILQARKVLKSE 91 
+                           6999****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+++ggyv ++ +iaa+++gip++++Eqn+i+g++nk+l+++an+vl
+  sp|Q3IFY0|MURG_PSEHT  92 KPDVVLAMGGYVTGPTGIAAKSLGIPLVIHEQNAIAGMSNKWLAKFANRVL 142
+                           *************************************************97 PP
+
+>> sp|B7LFW0|MURG_ECO55  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.6   0.4   6.7e-38   3.8e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 125.6 bits;  conditional E-value: 6.7e-38
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+e+  i +  +l+ k+   + +  +++ ++a+r a++i+k +k
+  sp|B7LFW0|MURG_ECO55   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTADRMEADLvPKHGIEIDFIRIS-GLRGKG-IKALIAAPLRIFNAWRHARAIMKAYK 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+nk+l++ a++v+
+  sp|B7LFW0|MURG_ECO55  96 PDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVM 145
+                           ***********************************************986 PP
+
+>> sp|B1KKX7|MURG_SHEWM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.3   0.1   4.2e-38   2.4e-35       1     138 [.      10     147 ..      10     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 126.3 bits;  conditional E-value: 4.2e-38
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  ++++l+++ +a+ ++ke+
+  sp|B1KKX7|MURG_SHEWM  10 ILIMAGGTGGHVFPALAVAKYLSKQGWKVRwLGTAERMEARLvPQHGFDIDFIDIK-GVRGNG-VVRKLAAPFKVLRSITQARVVIKEF 96 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+gg+++++ ++aa+l+gip++++Eqn+ipg++nk+l+r a +vl
+  sp|B1KKX7|MURG_SHEWM  97 QPDVVLGMGGFASGPGGVAARLSGIPLVLHEQNAIPGMTNKILSRIASQVL 147
+                           *********************************************999886 PP
+
+>> sp|Q49929|Y2348_MYCLE  Uncharacterized glycosyltransferase ML2348 OS=Mycobacterium leprae GN=ML2348 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.5   0.1   7.4e-38   4.2e-35       1     138 [.       3     141 ..       3     142 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 125.5 bits;  conditional E-value: 7.4e-38
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.............................S---- CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.............................vklwa 59 
+                            ++la+ G+rGdveP++Al+ eLqrrGheVr+++pp++ +fve+agl+av++gpd                              ++wa
+  sp|Q49929|Y2348_MYCLE   3 FTLAASGSRGDVEPFAALGLELQRRGHEVRIGVPPDMLRFVESAGLAAVAYGPDtqeflardtysqwrqwwkilppikalqqlRQAWA 90 
+                            78*************************************************************8888888888888888888888888 PP
+
+                            --.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  60 kleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                              ++ + lk+la+g                          adl++++  ++g++anvaE++gip+ v++++p r+ng++
+  sp|Q49929|Y2348_MYCLE  91 --DMATDLKSLADG--------------------------ADLVMTGVVYQGVVANVAEYYGIPFGVLHFVPARVNGKI 141
+                            ..788888888888..........................************************************987 PP
+
+>> sp|Q7N147|MURG_PHOLL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.3   0.2   1.7e-37   9.4e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 124.3 bits;  conditional E-value: 1.7e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++V  l+t +++e+ + +++g++++ i++  +l+ k+   + l  + + +ka+r+ak+i+++++
+  sp|Q7N147|MURG_PHOLL   9 MVMAGGTGGHVFPGLAVAHHLKDQGWDVLwLGTADRMEADLvPKHGIDIEFIQIS-GLRGKG-IKALLAAPVRIFKAIRQAKAIMRRYQ 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ +iaa+ +g+p++++Eqngi+gl+n++l++ a++vl
+  sp|Q7N147|MURG_PHOLL  96 PDVVLGMGGYVSGPGGIAAWMCGVPVVLHEQNGIAGLTNRWLAKIATTVL 145
+                           **********************************************9986 PP
+
+>> sp|A8H984|MURG_SHEPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.6   0.1   1.4e-37   7.8e-35       1     138 [.      10     147 ..      10     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 124.6 bits;  conditional E-value: 1.4e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  +++ l+++ +a++++k++
+  sp|A8H984|MURG_SHEPA  10 ILIMAGGTGGHVFPALAVAKYLSQQGWKVRwLGTAERMEARLvPQHGFDIDFIDIK-GVRGNG-LMRKLAAPFKILRSVMQARAVIKSF 96 
+                           689*****************************************************.****99.9************************ PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+l+gip++++Eqn+ipg++n+ll+r a  vl
+  sp|A8H984|MURG_SHEPA  97 KPDVVMGMGGFASGPGGVAAKLSGIPLVLHEQNAIPGMTNRLLSRIASEVL 147
+                           *********************************************998875 PP
+
+>> sp|Q820F6|MURG_STRAW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.0   0.7     1e-37   5.7e-35       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 125.0 bits;  conditional E-value: 1e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G++ePa+Ala++L+r+++ V    l+t++gle+++ +e+g++   i++  +l++k  +++ ++ + + + ++++a++il+
+  sp|Q820F6|MURG_STRAW   3 VVLAGGGTAGHIEPALALADALRRQDPTVGitaLGTERGLETRLvPERGYDLALIPAV-PLPRKP-TPELITVPGRLRGTIKAAEQILE 89 
+                           79****************************9***************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + k+d+vvgfggyva++ ++aa+++g+p++++E+n++pgl+nk+ +r+a +v+
+  sp|Q820F6|MURG_STRAW  90 RTKADAVVGFGGYVALPGYLAAKRLGVPIVIHEANARPGLANKIGSRYAAQVA 142
+                           *************************************************9987 PP
+
+>> sp|Q1WTA0|MURG_LACS1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.3   0.0   3.4e-37   1.9e-34       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.3 bits;  conditional E-value: 3.4e-37
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al ++ ++++++ +   ++t++gle+++ ++ag++ ++i+++ +++++l sl+++k+++ +lk++++ k+i+++
+  sp|Q1WTA0|MURG_LACS1   4 LISGGGTGGHIYPALALIEAIKQKEPDSEilyVGTHKGLESRIvPSAGVPLKTIKIQ-GFKRSL-SLENFKTVYLFLKSVHDCKKIIRD 90 
+                           789*************************999**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvvvg+ggyv +++++aa++ +ip++v+Eqn+++g++nk+l+r++++v 
+  sp|Q1WTA0|MURG_LACS1  91 FKPDVVVGTGGYVCGAVVYAAARMKIPTFVHEQNSVAGVTNKFLSRFVDKVG 142
+                           *************************************************986 PP
+
+>> sp|Q9X4H4|MURG_STRCU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.6   0.5   1.4e-37   7.7e-35       1     137 [.       3     141 ..       3     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 124.6 bits;  conditional E-value: 1.4e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G++ePa+Ala++L+r+++ V    l+t++gle+++ +e+g+e   i++  +l++k  +++ ++ + + + ++++a++il+
+  sp|Q9X4H4|MURG_STRCU   3 VVLAGGGTAGHIEPALALADALRRQDPTVGitaLGTERGLETRLvPERGYELALIPAV-PLPRKP-TPELITVPGRLRGTIKAAEQILE 89 
+                           79****************************9***************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           + k+d vvgfggyva++ ++aa+++g+p++++E+n++pgl+nk+ +r+a +v
+  sp|Q9X4H4|MURG_STRCU  90 RTKADCVVGFGGYVALPGYLAAKRLGVPIVIHEANARPGLANKIGSRYAARV 141
+                           *************************************************998 PP
+
+>> sp|Q12SC6|MURG_SHEDO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.7   0.2   1.3e-37   7.1e-35       1     138 [.      10     147 ..      10     148 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 124.7 bits;  conditional E-value: 1.3e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  l+tl  +++  +++ +a+e+++e+
+  sp|Q12SC6|MURG_SHEDO  10 ILIMAGGTGGHVFPALAVAKNLAEKGWQVRwLGTADRMEARLvPQHGFDIDFIDIQ-GVRGNG-LLRTLAAPFKIMRSIMQAREVIAEF 96 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp+v++g+gg+++++ ++a +lagip++++Eqn+ipg++nkll+r a++vl
+  sp|Q12SC6|MURG_SHEDO  97 KPQVILGMGGFASGPGGVAGRLAGIPLVLHEQNAIPGMTNKLLARIATKVL 147
+                           ************************************************997 PP
+
+>> sp|P57817|MURG_PASMU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.0   0.2   1.1e-37     6e-35       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 125.0 bits;  conditional E-value: 1.1e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a+ Lq++G++++ l+t +++e+++ ++++++++ i++  +l+ k+   + l+ +++ ++a+ +a++i+k ++
+  sp|P57817|MURG_PASMU   9 LVMAGGTGGHVFPAIAVAQYLQQQGWDICwLGTADRMEAQLvPKHHIPIQFIQIS-GLRGKG-IKALLSAPFSIFRAILQARKIIKAYQ 95 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p++v+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n +l++ a +vl
+  sp|P57817|MURG_PASMU  96 PHAVLGMGGYVSGPGGIAAKLCGIPVILHEQNAVAGLTNSWLAKIARRVL 145
+                           *********************************************99986 PP
+
+>> sp|Q87SG4|MURG_VIBPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.2   0.2   1.9e-37   1.1e-34       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 124.2 bits;  conditional E-value: 1.9e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+e+r l+t +++e+ + +++g+e+  i+++ +l+ ++   + l  +++  +a+ +a++++k+++
+  sp|Q87SG4|MURG_VIBPA   8 MVMAGGTGGHVFPGLAVAKQLQEQGWEIRwLGTADRMEADLvPKHGIEIDFIKVK-GLRGQG-VKRLLAAPFQIINAIMQARAHMKRWQ 94 
+                           5899************************************99*************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|Q87SG4|MURG_VIBPA  95 PDAVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNQWLSKIAKKVF 144
+                           ***********************************************997 PP
+
+>> sp|B0TQN7|MURG_SHEHH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.7   0.1   2.5e-37   1.4e-34       1     138 [.      10     147 ..      10     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.7 bits;  conditional E-value: 2.5e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  +++l  +++  +++ +a++++k++
+  sp|B0TQN7|MURG_SHEHH  10 ILIMAGGTGGHVFPALAVAKYLSQQGWKVRwLGTAERMEARLvPQHGFDIDFIDIK-GVRGNG-LMRKLAAPFKIIRSVMQARAVIKKF 96 
+                           689*****************************************************.****99.99*********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp+vv+g+gg+++++ ++aa+l+gip++++Eqn+ipg++n+ll+r a  vl
+  sp|B0TQN7|MURG_SHEHH  97 KPHVVMGMGGFASGPGGVAAKLSGIPLVLHEQNAIPGMTNRLLSRIASEVL 147
+                           *********************************************998875 PP
+
+>> sp|C4L5U5|MURG_EXISA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.5   0.0     3e-37   1.7e-34       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.5 bits;  conditional E-value: 3e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+Al ++L++r ++     ++t++gle+ + + ag+++++i++  +l+++l sl+++k+++ +lka+r++k+ ++
+  sp|C4L5U5|MURG_EXISA   3 IMISGGGTGGHIYPALALIETLKKRHPDLQvqyIGTENGLEADLvPRAGVPFKSIQIA-GLKRSL-SLENVKTAYWFLKAVRALKKDMA 89 
+                           6799***********************99888***********99*************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +kpdvv+g+gg+v++++++ a  +gip++++Eqn+ipgl+nk+l+++a++v+
+  sp|C4L5U5|MURG_EXISA  90 AFKPDVVIGTGGFVSGPVVYTAQQLGIPTILHEQNSIPGLTNKFLSKKADRVA 142
+                           **************************************************997 PP
+
+>> sp|A9M2H3|MURG_NEIM0  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.0   0.1   2.1e-37   1.2e-34       1     138 [.       6     143 ..       6     144 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 124.0 bits;  conditional E-value: 2.1e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l++gGT+G+++Pa+A+a+ L++rGh+V+ l++++ +ee++ +++g+  ++++++ +++ ++   ++l+ ++  ++++r+a +i++++
+  sp|A9M2H3|MURG_NEIM0   6 FMLMAGGTGGHIFPALAVADSLRARGHHVIwLGSKDSMEERIvPQYGIRLETLAIK-GVRGNG-IKRKLMLPFTLYQTVREAQRIIRKH 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + + v+gfgg+v  + ++aa+l+g+p++++Eqn+++gl+n++l+r+a++vl
+  sp|A9M2H3|MURG_NEIM0  93 RVECVIGFGGFVTFPGGLAAKLLGVPIVIHEQNAVAGLSNRHLSRWAKRVL 143
+                           *************************************************97 PP
+
+>> sp|Q6LMF6|MURG_PHOPR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.1   0.2     2e-37   1.1e-34       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 124.1 bits;  conditional E-value: 2e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+e+r l+t +++e+ + +++g+e+  i+++ +l+ ++  +++l  +++   a+ +a++ +k ++
+  sp|Q6LMF6|MURG_PHOPR   8 LVMAGGTGGHVFPGLAVAKKLQQEGWEIRwLGTADRMEADLvPKHGIEIDFIKVK-GLRGQG-IIRMLAAPFKIVGAILQARKYIKAWQ 94 
+                           789*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ +iaa+l+g+p++++Eqn+++gl+n++l+r a +vl
+  sp|Q6LMF6|MURG_PHOPR  95 PDVVLGMGGYVSGPGGIAAWLSGVPVVLHEQNAVAGLTNQWLSRIAAKVL 144
+                           **********************************************9986 PP
+
+>> sp|Q5E2Q0|MURG_VIBF1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.5   0.1   3.1e-37   1.7e-34       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.5 bits;  conditional E-value: 3.1e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq +G+e+r l+t +++e+ + +++g+e+  i+++ +l+ ++   k +  +++ l a+ +ak+++k ++
+  sp|Q5E2Q0|MURG_VIBF1   9 LVMAGGTGGHVFPGLAVAKQLQSEGWEIRwLGTADRMEADLvPKHGIEIDFIKVK-GLRGQG-LKKLIAAPFQILGAISQAKKHIKAWQ 95 
+                           789*************************************99*************.****99.9999********************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|Q5E2Q0|MURG_VIBF1  96 PDVVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNQWLSKIAKRVF 145
+                           ***********************************************997 PP
+
+>> sp|P64865|Y1524_MYCTU  Uncharacterized glycosyltransferase Rv1524/MT1575 OS=Mycobacterium tuberculosis GN=Rv1524 PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.6   0.2   2.8e-37   1.6e-34       1     138 [.       3     143 ..       3     144 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 123.6 bits;  conditional E-value: 2.8e-37
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----................S------.-HHHCCSHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd................vklwakleslktlkelae 72 
+                            +v+a++GTrGd+eP++A++ eLqrrGh+V+la+pp+l  fve+agl+av++g++                +         +++  l++
+  sp|P64865|Y1524_MYCTU   3 FVVASYGTRGDIEPCAAVGLELQRRGHDVCLAVPPNLIGFVETAGLSAVAYGSRdsqeqldeqflhnawkL---------QNPIKLLR 81 
+                            89****************************************************99988887654444440.........44444444 PP
+
+                            HHHHHHHHHHHHHHHHHH.HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  73 glkalrkakeilkeakpd.vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +  a+  ++e ++e ++  ++v++g   adl+l+++++++++anvaE++gip+++++++p rang++
+  sp|P64865|Y1524_MYCTU  82 E--AMAPVTEGWAELSAMlTPVAAG---ADLLLTGQIYQEVVANVAEHHGIPLAALHFYPVRANGEI 143
+                            4..4444555555544331334444...************************************986 PP
+
+>> sp|P64866|Y1551_MYCBO  Uncharacterized glycosyltransferase Mb1551 OS=Mycobacterium bovis GN=Mb1551 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.6   0.2   2.8e-37   1.6e-34       1     138 [.       3     143 ..       3     144 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 123.6 bits;  conditional E-value: 2.8e-37
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----................S------.-HHHCCSHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd................vklwakleslktlkelae 72 
+                            +v+a++GTrGd+eP++A++ eLqrrGh+V+la+pp+l  fve+agl+av++g++                +         +++  l++
+  sp|P64866|Y1551_MYCBO   3 FVVASYGTRGDIEPCAAVGLELQRRGHDVCLAVPPNLIGFVETAGLSAVAYGSRdsqeqldeqflhnawkL---------QNPIKLLR 81 
+                            89****************************************************99988887654444440.........44444444 PP
+
+                            HHHHHHHHHHHHHHHHHH.HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  73 glkalrkakeilkeakpd.vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +  a+  ++e ++e ++  ++v++g   adl+l+++++++++anvaE++gip+++++++p rang++
+  sp|P64866|Y1551_MYCBO  82 E--AMAPVTEGWAELSAMlTPVAAG---ADLLLTGQIYQEVVANVAEHHGIPLAALHFYPVRANGEI 143
+                            4..4444555555544331334444...************************************986 PP
+
+>> sp|B5FB35|MURG_VIBFM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.5   0.1   3.1e-37   1.7e-34       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.5 bits;  conditional E-value: 3.1e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq +G+e+r l+t +++e+ + +++g+e+  i+++ +l+ ++   k +  +++ l a+ +ak+++k ++
+  sp|B5FB35|MURG_VIBFM   9 LVMAGGTGGHVFPGLAVAKQLQSEGWEIRwLGTADRMEADLvPKHGIEIDFIKVK-GLRGQG-LKKLIAAPFQILGAISQAKKHIKAWQ 95 
+                           789*************************************99*************.****99.9999********************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|B5FB35|MURG_VIBFM  96 PDVVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNQWLSKIAKRVF 145
+                           ***********************************************997 PP
+
+>> sp|B2GB78|MURG_LACF3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.7   0.2   4.4e-36   2.5e-33       2     138 ..       4     142 ..       3     143 .. 0.98
+   2 ?    2.1   0.0         9   5.1e+03      72     114 ..     201     243 ..     186     252 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 119.7 bits;  conditional E-value: 4.4e-36
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al ++L++ +++ +   +++++gle+++ ++ag+  ++ +++ +++++l sl+++k+++ +lka+ +ak+++k+
+  sp|B2GB78|MURG_LACF3   4 MVSGGGTGGHIYPALALIERLKQVEPDTEvlyVGAKRGLETKIvPQAGYRLETMEVQ-GFRRSL-SLENVKTVYLFLKAVAQAKKLIKD 90 
+                           5899*************************99**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pdvv+g+ggyv++++l+aa+++g+p++++Eqn++ g++nk+l+r++n v+
+  sp|B2GB78|MURG_LACF3  91 FRPDVVLGTGGYVSGAVLYAAAKLGVPTVIHEQNSVVGVTNKFLARYVNEVA 142
+                           *************************************************997 PP
+
+  == domain 2    score: 2.1 bits;  conditional E-value: 9
+                           HHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHH CS
+       Glyco_transf_28  72 eglkalrkakeilkeakpdvvvgfggyvadlaliaallagipa 114
+                           + +ka+ +a  ++ e+  +v++++g    d++++a + + i  
+  sp|B2GB78|MURG_LACF3 201 RINKAVVEALPSFNEQPYQVIFATGRKRYDDVMGALAGQPIGD 243
+                           567889999999**********************998776655 PP
+
+>> sp|B6ELH5|MURG_ALISL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.3   0.1   3.6e-37     2e-34       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.3 bits;  conditional E-value: 3.6e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq +G+e+r l+t++++e+ + +++g+e+  i+++ +l+ ++   k l  +++   a+ +ak++++ ++
+  sp|B6ELH5|MURG_ALISL   9 LVMAGGTGGHVFPGLAVAKQLQSEGWEIRwLGTEDRMEADLvPKHGIEIDFIKVK-GLRGQG-LKKLLIAPFQIIGAILQAKKHIQAWQ 95 
+                           789*************************************99*************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a++v+
+  sp|B6ELH5|MURG_ALISL  96 PDVVLGMGGYVSGPGGIAAWLSGIPVVLHEQNAVAGLTNQWLSKIAKRVF 145
+                           ***********************************************997 PP
+
+>> sp|B8CWJ6|MURG_HALOH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.0   0.0   4.3e-37   2.4e-34       2     138 ..       4     140 ..       3     141 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.0 bits;  conditional E-value: 4.3e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v++ggGT+G+++Pa+Ala+ ++++G e+  +++ +gle+++ +e+g +++ i++  +++++l s++ +++l++ ++++ +a+++l+++k
+  sp|B8CWJ6|MURG_HALOH   4 VFTGGGTGGHIYPALALAESFRKKGDEILyIGSNDGLERRIvPEEGFDFQGIEVA-PFPRNL-SVHLFSSLLKTGRGFIQARKLLRKFK 90 
+                           89*****************************************************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+gg+v++++++aa+l++ip++++Eqn+ pgl+n+ll+ ++++++
+  sp|B8CWJ6|MURG_HALOH  91 PDVVIGTGGFVSGPVVLAAALQKIPTVIHEQNAYPGLANRLLAPFVTRIA 140
+                           *********************************************99986 PP
+
+>> sp|A7MXR6|MURG_VIBHB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.1   0.2     4e-37   2.3e-34       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 123.1 bits;  conditional E-value: 4e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+e+r l+t +++e+ + +++g+e+  i+++ +l+ ++   + l  +++  +a+ +a++++k+++
+  sp|A7MXR6|MURG_VIBHB   8 MVMAGGTGGHVFPGLAVAKQLQEQGWEIRwLGTADRMEADLvPKHGIEIDFIKVK-GLRGQG-VKRLLAAPFQIINAIMQARAHMKRWQ 94 
+                           5899************************************99*************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+ +gip++++Eqn+++gl+n++l++ a++v+
+  sp|A7MXR6|MURG_VIBHB  95 PDAVLGMGGYVSGPGGIAAWMSGIPVVLHEQNAVAGLTNQWLSKIAKKVF 144
+                           ***********************************************997 PP
+
+>> sp|A5VJ33|MURG_LACRD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.3   0.0   5.8e-36   3.3e-33       2     138 ..       4     142 ..       3     143 .. 0.98
+   2 ?    2.7   0.0       5.7   3.2e+03      64     129 ..     299     357 ..     237     360 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 119.3 bits;  conditional E-value: 5.8e-36
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al ++L++ +++ +   ++t++gle+++ + ag+e ++   + +++++l sl+++k+++ +l++++ ak+i++e
+  sp|A5VJ33|MURG_LACRD   4 LVSGGGTGGHIYPALALIERLKQVEPDTEvlyVGTTRGLENKIvPDAGIELETMHMQ-GFKRSL-SLENFKTIYLFLNSVHHAKKIISE 90 
+                           789**************************99**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvv+g+ggyv++++l+aa++ +ip++++Eqn++ g++nk+l+r++++++
+  sp|A5VJ33|MURG_LACRD  91 FKPDVVLGTGGYVSGAVLYAAAKKHIPTVIHEQNSVVGVTNKFLSRYVDQIA 142
+                           ************************************************9986 PP
+
+  == domain 2    score: 2.7 bits;  conditional E-value: 5.7
+                           HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEES CS
+       Glyco_transf_28  64 lktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkl 129
+                           +k+   l        k ++ l   ++++++++   +ad ++     ++  a+ aE+ g+p+++++l
+  sp|A5VJ33|MURG_LACRD 299 VKNAQALV-------KNNAGLMITEDKLDARALLTQADKIMEDEEVRKEMAHAAEKMGRPDAADRL 357
+                           44444444.......44888888899999999999999999999999999*********9999876 PP
+
+>> sp|B2G6K5|MURG_LACRJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.3   0.0   5.8e-36   3.3e-33       2     138 ..       4     142 ..       3     143 .. 0.98
+   2 ?    2.7   0.0       5.7   3.2e+03      64     129 ..     299     357 ..     237     360 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 119.3 bits;  conditional E-value: 5.8e-36
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al ++L++ +++ +   ++t++gle+++ + ag+e ++   + +++++l sl+++k+++ +l++++ ak+i++e
+  sp|B2G6K5|MURG_LACRJ   4 LVSGGGTGGHIYPALALIERLKQVEPDTEvlyVGTTRGLENKIvPDAGIELETMHMQ-GFKRSL-SLENFKTIYLFLNSVHHAKKIISE 90 
+                           789**************************99**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvv+g+ggyv++++l+aa++ +ip++++Eqn++ g++nk+l+r++++++
+  sp|B2G6K5|MURG_LACRJ  91 FKPDVVLGTGGYVSGAVLYAAAKKHIPTVIHEQNSVVGVTNKFLSRYVDQIA 142
+                           ************************************************9986 PP
+
+  == domain 2    score: 2.7 bits;  conditional E-value: 5.7
+                           HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEES CS
+       Glyco_transf_28  64 lktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkl 129
+                           +k+   l        k ++ l   ++++++++   +ad ++     ++  a+ aE+ g+p+++++l
+  sp|B2G6K5|MURG_LACRJ 299 VKNAQALV-------KNNAGLMITEDKLDARALLTQADKIMEDEEVRKEMAHAAEKMGRPDAADRL 357
+                           44444444.......44888888899999999999999999999999999*********9999876 PP
+
+>> sp|Q182Y6|MURG_CLOD6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.6   0.0   5.6e-37   3.2e-34       1     138 [.       4     143 ..       4     144 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 122.6 bits;  conditional E-value: 5.6e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l+ggGT+G+v+Pa+A+a++ +++ ++ +   ++t++g+e+++ +++g e ++++++ ++++k+  ++++k++++ +k+l+++++i+k
+  sp|Q182Y6|MURG_CLOD6   4 VLLSGGGTGGHVYPAIAIANKIRDEHPDAEiifVGTEKGIESEIvPKYGFELKTVTVQ-GFKRKI-DFDNVKRVFKLFKGLEQSRKIVK 90 
+                           79***************************999**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd+v+g+ggyv++++l++a+  +ipa+++Eqn+ pg++nk+l++++++vl
+  sp|Q182Y6|MURG_CLOD6  91 KFKPDIVIGTGGYVSGPVLFNASMGKIPAIIHEQNSFPGVTNKILSKTVTKVL 143
+                           ***************************************************97 PP
+
+>> sp|Q2NVV1|MURG_SODGM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.5   0.2   6.3e-37   3.6e-34       2     135 ..       9     142 ..       8     146 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 122.5 bits;  conditional E-value: 6.3e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++Vr l+t +++e+ + +++g+++  i +  +l+ k+   + l+ + + ++alr+a++i++ ++
+  sp|Q2NVV1|MURG_SODGM   9 MVMAGGTGGHVFPGLAVAHHLMAQGWQVRwLGTANRMEADLvPQHGIDIDFIRIS-GLRGKG-LKAQLLAPVRIWRALRQARRIMRAWR 95 
+                           5899************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           pdvv+g+ggyv+++ ++aa+++gip++++Eqngi+gl+n+ l++   
+  sp|Q2NVV1|MURG_SODGM  96 PDVVLGMGGYVSGPGGLAAWSCGIPVVLHEQNGIAGLTNRGLAKISR 142
+                           ***************************************97776655 PP
+
+>> sp|Q07WI5|MURG_SHEFN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.4   0.0   6.4e-37   3.6e-34       1     138 [.      11     148 ..      11     149 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 122.4 bits;  conditional E-value: 6.4e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G+++r l+t +++e+++ +++g +++ i+++ +++ ++  +++l  +++  +++ +ak+++ ++
+  sp|Q07WI5|MURG_SHEFN  11 ILIMAGGTGGHVFPALAVAKYLAEKGWQIRwLGTADRMEARLvPQHGFDIEFIDIK-GVRGNG-LMRKLAAPFKIIRSIIQAKAVIDDF 97 
+                           689*****************************************************.****99.99*********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdv++g+gg+++++ ++a +l+gip++++Eqn+ipgl+nkll++ a++vl
+  sp|Q07WI5|MURG_SHEFN  98 QPDVILGMGGFASGPGGVAGKLSGIPVVLHEQNAIPGLTNKLLSKIAKKVL 148
+                           ************************************************997 PP
+
+>> sp|A1KVL3|MURG_NEIMF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.7   0.1   5.3e-37     3e-34       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 122.7 bits;  conditional E-value: 5.3e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l++gGT+G+++Pa+A+a+ L++rGh+V+ l++++ +ee++ +++g+  ++++++ +++ ++   ++l+ +   ++++r+a +i++++
+  sp|A1KVL3|MURG_NEIMF   6 FMLMAGGTGGHIFPALAVADSLRARGHHVIwLGSKDSMEERIvPQYGIRLETLAIK-GVRGNG-IKRKLMLPVTLYQTVREAQRIIRKH 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + + v+gfgg+v  + ++aa+l+g+p++++Eqn+++gl+n++l+r+a++vl
+  sp|A1KVL3|MURG_NEIMF  93 RVECVIGFGGFVTFPGGLAAKLLGVPIVIHEQNAVAGLSNRHLSRWAKRVL 143
+                           *************************************************97 PP
+
+>> sp|Q9K0Y2|MURG_NEIMB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.7   0.1   5.3e-37     3e-34       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 122.7 bits;  conditional E-value: 5.3e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l++gGT+G+++Pa+A+a+ L++rGh+V+ l++++ +ee++ +++g+  ++++++ +++ ++   ++l+ +   ++++r+a +i++++
+  sp|Q9K0Y2|MURG_NEIMB   6 FMLMAGGTGGHIFPALAVADSLRARGHHVIwLGSKDSMEERIvPQYGIRLETLAIK-GVRGNG-IKRKLMLPVTLYQTVREAQRIIRKH 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + + v+gfgg+v  + ++aa+l+g+p++++Eqn+++gl+n++l+r+a++vl
+  sp|Q9K0Y2|MURG_NEIMB  93 RVECVIGFGGFVTFPGGLAAKLLGVPIVIHEQNAVAGLSNRHLSRWAKRVL 143
+                           *************************************************97 PP
+
+>> sp|B8CNL1|MURG_SHEPW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.8   0.0   9.9e-37   5.6e-34       1     138 [.      10     147 ..      10     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 121.8 bits;  conditional E-value: 9.9e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  ++++ +++ ++  l++l  +++ l+++ +a+ +++++
+  sp|B8CNL1|MURG_SHEPW  10 ILIMAGGTGGHVFPALAVAKYLSQQGWKVRwLGTADRMEARLvPQHGFDIDFLDIK-GVRGNG-LLRKLAAPFKILRSVMQARSVIQDF 96 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+l+gip++++Eqn+ipg++nkll++ a+ vl
+  sp|B8CNL1|MURG_SHEPW  97 KPDVVMGMGGFASGPGGVAARLSGIPLVLHEQNAIPGMTNKLLSKVATEVL 147
+                           *********************************************999886 PP
+
+>> sp|C4LA25|MURG_TOLAT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.6   0.4   2.5e-36   1.4e-33       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 120.6 bits;  conditional E-value: 2.5e-36
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v+++gGT+G+v+P +A+a++Lq+ G++++ l+tp+++e+ + +++g +++ i+++ +l++++  +++l+ +++ +ka+ +a++il++ +
+  sp|C4LA25|MURG_TOLAT   6 VIMAGGTGGHVFPGLAVAHRLQADGWNIHwLGTPDRMEADLvPAHGFPIEFINIR-GLRNHG-LVRKLLAPFQICKAVLQAFMILRRIR 92 
+                           799*************************************99*************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggy+a++ ++aa+l+gip++++Eqn+ +gl+n+ll++ a+++l
+  sp|C4LA25|MURG_TOLAT  93 PDVVLGMGGYAAGPGGVAAKLLGIPVVLHEQNAAAGLTNRLLAKIATRIL 142
+                           **********************************************9987 PP
+
+>> sp|Q9F1N0|MURG_SHEVI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.7   0.0   1.1e-36   6.1e-34       1     138 [.      10     147 ..      10     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 121.7 bits;  conditional E-value: 1.1e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++ ++Vr l+t +++e+++ +++g ++  i+++ +++ ++  l++l  ++++ +++ +a+++++e+
+  sp|Q9F1N0|MURG_SHEVI  10 ILIMAGGTGGHVFPALAVAKYLSQKSWKVRwLGTAERMEARLvPQHGFDIDFIDIK-GVRGNG-LLRKLAAPFKVMRSVMQARRVIQEF 96 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ +iaa+l+gip++++Eqn+ipg++nkll+r a +vl
+  sp|Q9F1N0|MURG_SHEVI  97 KPDVVLGMGGFASGPGGIAARLSGIPLVLHEQNAIPGMTNKLLSRIASKVL 147
+                           ***********************************************9986 PP
+
+>> sp|A5F5M9|MURG_VIBC3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.6   0.4   1.2e-36   6.5e-34       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 121.6 bits;  conditional E-value: 1.2e-36
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+++r l+t +++e+++ +++g+e+  i+++ +l+ ++  ++ lk +++  +a+ +a+++l  ++
+  sp|A5F5M9|MURG_VIBC3   9 MVMAGGTGGHVFPGLAVAKQLQQQGWQIRwLGTADRMEAELvPKHGIEIDFIQVK-GLRGQG-LMRLLKAPFQIVNAILQARRHLLAYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l gip++++Eqn+++gl+n++l++ a +v+
+  sp|A5F5M9|MURG_VIBC3  96 PDAVLGMGGYVSGPGGIAAWLMGIPVVLHEQNAVAGLTNQWLAKIARRVF 145
+                           *********************************************99986 PP
+
+>> sp|Q03W35|MURG_LEUMM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.1   0.1   1.7e-36   9.4e-34       1     137 [.       3     141 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 121.1 bits;  conditional E-value: 1.7e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G+++Pa+Ala+  ++ +++ +   +++++g+e+ + +++g+++++++++ ++++++ sl+++k++  +lka+++ak+i+k
+  sp|Q03W35|MURG_LEUMM   3 IILSGGGTGGHIYPALALAEVIRKHEPDTEflyVGSERGVESNIvPATGMPFEKLTVQ-GFKRSF-SLENIKTVSLFLKAVKEAKKIIK 89 
+                           689*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++ pdvvvg+ggyv++++++aa +++ip++++Eqn+++g++nk+l+r a+++
+  sp|Q03W35|MURG_LEUMM  90 DFDPDVVVGTGGYVSGAVVYAAQRLHIPTVIHEQNSVAGVTNKFLSRGATKI 141
+                           ***********************************************99987 PP
+
+>> sp|A3Q1L8|MURG_MYCSJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.2   1.3   7.9e-37   4.4e-34       1     138 [.       7     146 ..       7     147 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 122.2 bits;  conditional E-value: 7.9e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+laggGT+G+vePa+A+a++L + ++ Vr   l+t++gle+++ +e+g++ + i+p  +l++kl s +  + + ++++a+r+++eil 
+  sp|A3Q1L8|MURG_MYCSJ   7 VLLAGGGTAGHVEPAMAVADALAALEPGVRitaLGTERGLETRLvPERGYALELITPV-PLPRKL-SGDLARLPMRVRRAVRETREILD 93 
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+++++p++v+E+n+ +gl+nk+ +r+a +vl
+  sp|A3Q1L8|MURG_MYCSJ  94 TVHADVVIGFGGYVALPAYLAARRNRVPIVVHEANASAGLANKVGARFARRVL 146
+                           **************************************************997 PP
+
+>> sp|A1UI54|MURG_MYCSK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.2   1.3   7.9e-37   4.4e-34       1     138 [.       7     146 ..       7     147 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 122.2 bits;  conditional E-value: 7.9e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+laggGT+G+vePa+A+a++L + ++ Vr   l+t++gle+++ +e+g++ + i+p  +l++kl s +  + + ++++a+r+++eil 
+  sp|A1UI54|MURG_MYCSK   7 VLLAGGGTAGHVEPAMAVADALAALEPGVRitaLGTERGLETRLvPERGYALELITPV-PLPRKL-SGDLARLPMRVRRAVRETREILD 93 
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+++++p++v+E+n+ +gl+nk+ +r+a +vl
+  sp|A1UI54|MURG_MYCSK  94 TVHADVVIGFGGYVALPAYLAARRNRVPIVVHEANASAGLANKVGARFARRVL 146
+                           **************************************************997 PP
+
+>> sp|Q1B6X1|MURG_MYCSS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.2   1.3   7.9e-37   4.4e-34       1     138 [.       7     146 ..       7     147 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 122.2 bits;  conditional E-value: 7.9e-37
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+laggGT+G+vePa+A+a++L + ++ Vr   l+t++gle+++ +e+g++ + i+p  +l++kl s +  + + ++++a+r+++eil 
+  sp|Q1B6X1|MURG_MYCSS   7 VLLAGGGTAGHVEPAMAVADALAALEPGVRitaLGTERGLETRLvPERGYALELITPV-PLPRKL-SGDLARLPMRVRRAVRETREILD 93 
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+++++p++v+E+n+ +gl+nk+ +r+a +vl
+  sp|Q1B6X1|MURG_MYCSS  94 TVHADVVIGFGGYVALPAYLAARRNRVPIVVHEANASAGLANKVGARFARRVL 146
+                           **************************************************997 PP
+
+>> sp|C3LQU6|MURG_VIBCM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.3   0.3   6.9e-37   3.9e-34       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 122.3 bits;  conditional E-value: 6.9e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+++r l+t +++e+++ +++g+e+  i+++ +l+ ++  ++ lk +++  +a+ +a+++l  ++
+  sp|C3LQU6|MURG_VIBCM   9 MVMAGGTGGHVFPGLAVAKQLQQQGWQIRwLGTADRMEAELvPKHGIEIDFIQVK-GLRGQG-LMRLLKAPFQIVNAILQARRHLLTYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a +v+
+  sp|C3LQU6|MURG_VIBCM  96 PDAVLGMGGYVSGPGGIAAWLLGIPVVLHEQNAVAGLTNQWLAKIARRVF 145
+                           *********************************************99986 PP
+
+>> sp|Q9KPG7|MURG_VIBCH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.3   0.3   6.9e-37   3.9e-34       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 122.3 bits;  conditional E-value: 6.9e-37
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++Lq++G+++r l+t +++e+++ +++g+e+  i+++ +l+ ++  ++ lk +++  +a+ +a+++l  ++
+  sp|Q9KPG7|MURG_VIBCH   9 MVMAGGTGGHVFPGLAVAKQLQQQGWQIRwLGTADRMEAELvPKHGIEIDFIQVK-GLRGQG-LMRLLKAPFQIVNAILQARRHLLTYQ 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggyv+++ +iaa+l+gip++++Eqn+++gl+n++l++ a +v+
+  sp|Q9KPG7|MURG_VIBCH  96 PDAVLGMGGYVSGPGGIAAWLLGIPVVLHEQNAVAGLTNQWLAKIARRVF 145
+                           *********************************************99986 PP
+
+>> sp|A8FQA0|MURG_SHESH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.4   0.1   1.4e-36   7.6e-34       1     138 [.      10     147 ..      10     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 121.4 bits;  conditional E-value: 1.4e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+ L ++G++Vr l+t +++e+++ +++g ++  i+++ +++ ++  l++l  ++++ +++ +a +++ke+
+  sp|A8FQA0|MURG_SHESH  10 ILIMAGGTGGHVFPALAVAKYLCQQGWQVRwLGTAERMEARLvPQHGFDIDFIDIK-GVRGNG-LLRKLAAPFKVIRSIMQAQAVIKEF 96 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpdvv+g+gg+++++ ++aa+l+g p++++Eqn+ipg++nk+l+r a +vl
+  sp|A8FQA0|MURG_SHESH  97 KPDVVLGMGGFASGPGGVAARLSGLPLVLHEQNAIPGMTNKILARIASQVL 147
+                           *********************************************999876 PP
+
+>> sp|B4RQC5|MURG_NEIG2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.3   0.1   2.9e-36   1.6e-33       1     138 [.       6     143 ..       6     144 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 120.3 bits;  conditional E-value: 2.9e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l++gGT+G+++Pa+A+a+ L+ rGh+V+ l++++ +ee++ +++g+  ++++++ + + ++   ++l+ ++  +k++r+a +i++++
+  sp|B4RQC5|MURG_NEIG2   6 FMLMAGGTGGHIFPALAVADSLRVRGHHVIwLGSKDSMEERIvPQYGIRLETLAIK-GIRGNG-IKRKLMLPFTLYKTVREAQRIIRKH 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + + v+gfgg+v  + ++aa+l+g+p++++Eqn+++gl+n++l+r+a++vl
+  sp|B4RQC5|MURG_NEIG2  93 RVECVIGFGGFVTFPGGLAAKLLGVPIVIHEQNAVAGLSNRHLSRWAKRVL 143
+                           *************************************************97 PP
+
+>> sp|Q5F6L8|MURG_NEIG1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.3   0.1   2.9e-36   1.6e-33       1     138 [.       6     143 ..       6     144 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 120.3 bits;  conditional E-value: 2.9e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l++gGT+G+++Pa+A+a+ L+ rGh+V+ l++++ +ee++ +++g+  ++++++ + + ++   ++l+ ++  +k++r+a +i++++
+  sp|Q5F6L8|MURG_NEIG1   6 FMLMAGGTGGHIFPALAVADSLRVRGHHVIwLGSKDSMEERIvPQYGIRLETLAIK-GIRGNG-IKRKLMLPFTLYKTVREAQRIIRKH 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + + v+gfgg+v  + ++aa+l+g+p++++Eqn+++gl+n++l+r+a++vl
+  sp|Q5F6L8|MURG_NEIG1  93 RVECVIGFGGFVTFPGGLAAKLLGVPIVIHEQNAVAGLSNRHLSRWAKRVL 143
+                           *************************************************97 PP
+
+>> sp|B1I4C4|MURG_DESAP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.4   0.3   2.8e-36   1.6e-33       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 120.4 bits;  conditional E-value: 2.8e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G+++Pa+A+a++ +rr ++     ++t++gle+++ + +gl++++i++  +l++ l s+++l  +++ +++l ++  +++
+  sp|B1I4C4|MURG_DESAP   3 VIIAGGGTGGHIYPALAIAEGIKRRHPDADllyVGTSRGLETEIvPRTGLPFHAIPAA-GLKRGL-SPTNLAAVLRAGRGLGASLSLMR 89 
+                           689*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++p+vvvg+ggyv +++++aa+l+gi++ ++Eqn++pgl+n+ l+r+a + +
+  sp|B1I4C4|MURG_DESAP  90 RFRPQVVVGTGGYVCGPVVLAAALRGIKTLIHEQNALPGLTNRMLSRYASRTA 142
+                           *************************************************9875 PP
+
+>> sp|Q6A9Q2|MURG_PROAC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.3   1.1   1.4e-36     8e-34       1     134 [.       4     137 ..       4     140 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 121.3 bits;  conditional E-value: 1.4e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           vvlaggGT+G+  P++A a +Lq+rG  V  ++tp+gle +v +eagl+   i+p  +l++ +   + +k +a+   a+rka e+l++ 
+  sp|Q6A9Q2|MURG_PROAC   4 VVLAGGGTAGHTSPLIATAMALQERGATVScIGTPRGLEGRViPEAGLQLDMIPPV-PLPRTV-NADLFKVPARLAGAVRKAGEVLQRR 90 
+                           79******************************************************.****99.9999999****************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           + dvvvgfggyv+++a++aa++a+ip++++Eqn++pgl+nk+ +r+a
+  sp|Q6A9Q2|MURG_PROAC  91 QTDVVVGFGGYVSLPAYLAARRAKIPVVIHEQNAVPGLANKIAARFA 137
+                           ******************************************99986 PP
+
+>> sp|B3WDY2|MURG_LACCB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.3   0.0   1.2e-35   6.8e-33       2     138 ..       4     142 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 118.3 bits;  conditional E-value: 1.2e-35
+                           EEE-------HHHHHHHHHHHHH---..EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGh..eVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v++ggGT+G+++Pa+Al ++L+++G   +V  ++t++gle+++ +++gl++ +++++ +++++l sl++++++ ++l +l +ak++l++
+  sp|B3WDY2|MURG_LACCB   4 VISGGGTGGHIYPALALIEALKAEGKldDVLyVGTKRGLESRIvPATGLKFATLDLQ-GFKRSL-SLSNFTTVRKFLGSLGEAKKLLQD 90 
+                           799**********************544666**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pd+vvg+ggyv++++l+aa++++ip++++E+n+++g++nk+l+ ++++v+
+  sp|B3WDY2|MURG_LACCB  91 FQPDIVVGTGGYVSGAILFAATRLHIPTVIHESNSVAGVTNKFLSHFVDRVA 142
+                           *************************************************997 PP
+
+>> sp|Q039R7|MURG_LACC3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.3   0.0   1.2e-35   6.8e-33       2     138 ..       4     142 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 118.3 bits;  conditional E-value: 1.2e-35
+                           EEE-------HHHHHHHHHHHHH---..EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGh..eVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v++ggGT+G+++Pa+Al ++L+++G   +V  ++t++gle+++ +++gl++ +++++ +++++l sl++++++ ++l +l +ak++l++
+  sp|Q039R7|MURG_LACC3   4 VISGGGTGGHIYPALALIEALKAEGKldDVLyVGTKRGLESRIvPATGLKFATLDLQ-GFKRSL-SLSNFTTVRKFLGSLGEAKKLLQD 90 
+                           799**********************544666**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pd+vvg+ggyv++++l+aa++++ip++++E+n+++g++nk+l+ ++++v+
+  sp|Q039R7|MURG_LACC3  91 FQPDIVVGTGGYVSGAILFAATRLHIPTVIHESNSVAGVTNKFLSHFVDRVA 142
+                           *************************************************997 PP
+
+>> sp|A4J2B1|MURG_DESRM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.5   0.0     1e-35   5.8e-33       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.5 bits;  conditional E-value: 1e-35
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+A+ar+Lq r  +V    ++t +gle+ + ++a+ ++++i++  +l++k+ sl+++k l++ ++++r+a  i+k 
+  sp|A4J2B1|MURG_DESRM   4 IITGGGTGGHIYPALAIARGLQSRFSKVQilyVGTNRGLEADIvPKANFPFQAITVS-GLQRKI-SLENFKVLWQAYRGYREAVGIIKT 90 
+                           689******************************************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pdvv+g+ggyv ++++ aa+++gip+ ++Eqn+ pg++n++l+++a++v 
+  sp|A4J2B1|MURG_DESRM  91 FNPDVVIGTGGYVCGPVVMAAARRGIPTLIHEQNAFPGITNRILSKFADQVT 142
+                           *************************************************986 PP
+
+>> sp|Q47VQ9|MURG_COLP3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.8   0.0   4.1e-36   2.3e-33       2     137 ..      17     152 ..      16     154 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 119.8 bits;  conditional E-value: 4.1e-36
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +A+a+eL+++G++++ l+t +++e+++ + +g+++  i++  +l+ k   l+tl+ +++ l++l++a++++k  k
+  sp|Q47VQ9|MURG_COLP3  17 LVMAGGTGGHIFPGIAVADELKAQGWKIHwLGTADRMEAQIvPMHGYDISFINIS-GLRGKN-LLTTLVMPFKLLRSLFQARRVIKTVK 103
+                           789****************************************************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pdvv+g+ggy++++ ++aa+l++ip++v+Eqn+ +gl+n+ll+r an+v
+  sp|Q47VQ9|MURG_COLP3 104 PDVVIGMGGYASAPGGLAAWLSKIPLIVHEQNAAAGLSNRLLARIANKV 152
+                           ***********************************************98 PP
+
+>> sp|B2A2H2|MURG_NATTJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.0   0.0   3.6e-36   2.1e-33       1     135 [.       3     139 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 120.0 bits;  conditional E-value: 3.6e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+++Pa+A+ +eL++r   V    ++t++g+e ++ +++g+++ +i+++ +l++k+  l+ +  l ++lk+l ++ +++k
+  sp|B2A2H2|MURG_NATTJ   3 VLVTGGGTGGHIYPALAVINELKERNQIVDilyVGTSKGMEQEIiPNRGIDFAAITVR-GLQRKI-NLEQVYFLRDFLKGLYQSYRLIK 89 
+                           799***********************9999****************************.******.99999999999999********* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +++pdvv+g+ggyv +++l aa+l +ip++++Eqn ipg++nk+l+r+a+
+  sp|B2A2H2|MURG_NATTJ  90 NFTPDVVIGTGGYVCGPVLMAASLMKIPTVLHEQNVIPGITNKFLSRFAD 139
+                           ************************************************98 PP
+
+>> sp|Q6NGC8|MURG_CORDI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.8   0.3   4.2e-36   2.3e-33       1     130 [.       6     135 ..       6     138 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 119.8 bits;  conditional E-value: 4.2e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           vv+aggGT+G++ePa+A+a+ L++rG eV  l+t++gle+ + +e+g e + i+p  ++++k+   + +k +++ l ++ ++++ilke+
+  sp|Q6NGC8|MURG_CORDI   6 VVVAGGGTAGHIEPALAVAESLRHRGAEVVaLGTTKGLETSIvPERGFELRLINPV-PVPRKI-NADLFKLPFRLLATISQTRKILKEF 92 
+                           79******************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                             dvv+gfggyva++a+iaa+l++ip +v+E+n++ g++nkl 
+  sp|Q6NGC8|MURG_CORDI  93 DTDVVIGFGGYVAAPAYIAAKLQKIPFIVHEANARSGMANKLG 135
+                           ****************************************986 PP
+
+>> sp|B4RWX9|MURG_ALTMD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.5   0.3   5.1e-36   2.9e-33       1     138 [.       5     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 119.5 bits;  conditional E-value: 5.1e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+P +A+a++L+++G++++ l+t +++e++v +++ ++++ i+++ +l+ k+  ++ +  + +  k+l++a++i+k+ 
+  sp|B4RWX9|MURG_ALTMD   5 CLIMAGGTGGHVFPGLAVANALRAEGWDIHwLGTAERMEAQVvPKHDIPIHFIPVK-GLRGKG-ISARIQGAVALVKSLFSARRIIKRL 91 
+                           6899****************************************************.******.999999999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pd+vvgfggy++++ ++aa+++gip++v+Eqn+ +g++nkll++ a +vl
+  sp|B4RWX9|MURG_ALTMD  92 QPDIVVGFGGYASGPGGVAAKSLGIPVIVHEQNAAAGMTNKLLSKLASRVL 142
+                           *********************************************999987 PP
+
+>> sp|Q9JSZ7|MURG_NEIMA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.2   0.1   6.5e-36   3.7e-33       1     138 [.       6     143 ..       6     144 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 119.2 bits;  conditional E-value: 6.5e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l++gGT+G+++Pa+A+a+ L++rGh+V+ l++++ +ee++ +++ +  ++++++ +++ ++   ++l+ ++  ++++r+a +i++++
+  sp|Q9JSZ7|MURG_NEIMA   6 FMLMAGGTGGHIFPALAVADSLRARGHHVIwLGSKDSMEERIvPQYDILLETLAIK-GVRGNG-IKRKLMLPFTLYQTVREAQQIIRKH 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + + v+gfgg+v  + ++aa+l+g+p++++Eqn+++gl+n++l+r+a++vl
+  sp|Q9JSZ7|MURG_NEIMA  93 RVECVIGFGGFVTFPGGLAAKLLGVPIVIHEQNAVAGLSNRHLSRWAKRVL 143
+                           *************************************************97 PP
+
+>> sp|B0KFS6|MURG_PSEPG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.5   0.2   9.2e-35   5.2e-32       1     130 [.       8     137 ..       8     144 .. 0.98
+   2 ?    2.3   0.0       7.8   4.4e+03      34      55 ..     209     258 ..     207     352 .. 0.56
+
+  Alignments for each domain:
+  == domain 1    score: 115.5 bits;  conditional E-value: 9.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+ +l+ lk ++   ka+ +a++i+++ 
+  sp|B0KFS6|MURG_PSEPG   8 VLIMAGGTGGHVFPALACAREFQARGYSVHwLGTPRGIENELvPQAGLPLHLIQVS-GLRGKG-KLSLLKAPFTLIKAVLQARRIIRQL 94 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           kp  v+gfggyv ++ ++aa+l+g+p++++Eqn+++g +n+ll
+  sp|B0KFS6|MURG_PSEPG  95 KPVCVLGFGGYVTGPGGVAARLCGVPLVIHEQNARAGTANRLL 137
+                           ****************************************986 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 7.8
+                           TGGGHHHH.HH---EEEE----...........................S CS
+       Glyco_transf_28  34 ppgleefv.eeagleavpigpd...........................v 55 
+                           p gl+++v  +ag ++ pi+++                           v
+  sp|B0KFS6|MURG_PSEPG 209 PAGLRPEVfHQAGKQHAPITAEryheagvaaqvepfikdmaqaygwadmV 258
+                           77788888888888888888886666444444444444444444444440 PP
+
+>> sp|A4XQS4|MURG_PSEMY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.7   0.2   8.9e-36     5e-33       1     137 [.       5     141 ..       5     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 118.7 bits;  conditional E-value: 8.9e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+t++g+e+++ ++agl+ + i++  +l+ k+ +l+ lk +++ l++l +a++i++e 
+  sp|A4XQS4|MURG_PSEMY   5 VLIMAGGTGGHVFPALACAREFQTRGYAVHwLGTSRGIENELvPQAGLPLHLINVS-GLRGKG-KLSLLKAPFQLLRSLLQARRIVREL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p  v+g+ggyv ++ ++aa+lag+p++++Eqn+++g +n+ll+r a+++
+  sp|A4XQS4|MURG_PSEMY  92 QPVCVLGMGGYVTGPGGLAARLAGVPLVIHEQNAVAGTANRLLSRIATRI 141
+                           **********************************************9986 PP
+
+>> sp|Q48EF8|MURG_PSE14  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.7   0.4     9e-36   5.1e-33       1     137 [.       5     141 ..       5     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.7 bits;  conditional E-value: 9e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG++V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+  l+ lk ++  lkal +a++++++ 
+  sp|Q48EF8|MURG_PSE14   5 VLIMAGGTGGHVFPALACAREFQARGYKVHwLGTPRGIENELvPQAGLTLHLINVT-GLRGKG-RLSLLKAPFMLLKALMQARKVVRQV 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp  vvgfggyv ++ ++aa+lag+p++++Eqn+++g +n+ l+ +a +v
+  sp|Q48EF8|MURG_PSE14  92 KPVCVVGFGGYVTGPGGLAAKLAGVPLIIHEQNAVAGTANRSLASFASRV 141
+                           ********************************************999886 PP
+
+>> sp|Q8R9G6|MURG_THETN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.7   0.0   4.6e-36   2.6e-33       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 119.7 bits;  conditional E-value: 4.6e-36
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++PavA+a+e  + + +     ++t++gle+++ + +g e v+i+++ ++++kl s++tlk++++ + ++++a++ilk+
+  sp|Q8R9G6|MURG_THETN   4 LFAGGGTGGHIYPAVAIAKEILKNEQDAQilfVGTEKGLEKELvPREGFELVTIEVQ-GFKRKL-SFDTLKTVYKAFTGFKQANKILKD 90 
+                           89*********************99999999**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kp+vv+g+ggyv +++l aa   +ip+ ++Eqn+ pgl+n+ll+ +++ v+
+  sp|Q8R9G6|MURG_THETN  91 FKPHVVIGTGGYVCGPVLMAAVIKRIPTLIHEQNAFPGLTNRLLSPFVDIVA 142
+                           ***********************************************99886 PP
+
+>> sp|A5W8Q0|MURG_PSEP1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.6   0.2   8.3e-35   4.7e-32       1     130 [.       8     137 ..       8     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 115.6 bits;  conditional E-value: 8.3e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+ +l+ lk ++   ka+ +a++i+++ 
+  sp|A5W8Q0|MURG_PSEP1   8 VLIMAGGTGGHVFPALACAREFQKRGYSVHwLGTPRGIENELvPQAGLPLHLIQVS-GLRGKG-KLSLLKAPFTLVKAVLQARRIIRQL 94 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           kp  v+gfggyv ++ ++aa+l+g+p++++Eqn+++g +n+ll
+  sp|A5W8Q0|MURG_PSEP1  95 KPVCVLGFGGYVTGPGGVAARLCGVPLVIHEQNARAGTANRLL 137
+                           ****************************************986 PP
+
+>> sp|Q1I5B8|MURG_PSEE4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.2   0.4   5.5e-35   3.1e-32       1     134 [.       8     141 ..       8     145 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 116.2 bits;  conditional E-value: 5.5e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+ +l+ lk ++   ka+ +a++i++e 
+  sp|Q1I5B8|MURG_PSEE4   8 VLIMAGGTGGHVFPALACAREFQARGYSVHwLGTPRGIENELvPQAGLPLHLIQVT-GLRGKG-KLSLLKAPFTLVKAVLQARRIVREL 94 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           kp  v+gfggyv ++ ++aa+l+g+p++++Eqn+++g +n+ll   a
+  sp|Q1I5B8|MURG_PSEE4  95 KPVCVIGFGGYVTGPGGVAARLCGVPLVIHEQNARAGTANRLLVPLA 141
+                           *****************************************987665 PP
+
+>> sp|Q87WY5|MURG_PSESM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.3   1.2e-35   6.5e-33       1     137 [.       5     141 ..       5     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG++V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+  l+ lk ++  lkal +a++++++ 
+  sp|Q87WY5|MURG_PSESM   5 VLIMAGGTGGHVFPALACAREFQARGYKVHwLGTPRGIENELiPQAGLPLHLINVT-GLRGKG-RLSLLKAPFMLLKALMQARKVVRQV 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp  vvgfggyv ++ ++aa+lag+p++++Eqn+++g +n+ l+ +a +v
+  sp|Q87WY5|MURG_PSESM  92 KPVCVVGFGGYVTGPGGLAARLAGVPLIIHEQNAVAGTANRSLASFASRV 141
+                           ********************************************999886 PP
+
+>> sp|C3L230|MURG_CLOB6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.5   0.0     1e-35   5.8e-33       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.5 bits;  conditional E-value: 1e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e++g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|C3L230|MURG_CLOB6   4 IIMTGGGTAGHVTPNLALVPELKKLGYEIKyIGSIEGIERKIiEKEGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKKE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|C3L230|MURG_CLOB6  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|A1WC06|MURG_ACISJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.1   1.2e-35   6.5e-33       2     138 ..      52     188 ..      51     189 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +Ala++L++rG++V+ l+tp  +ee++ + +g +++pi+   +++ k+   + l  +++  +a  +a++++++ +
+  sp|A1WC06|MURG_ACISJ  52 LVMAGGTGGHIFPGLALAEALRERGWQVHwLGTPGSMEERLvPPRGFAFEPIDFS-GVRGKG-LKTLLALPLRLARACLQARAVVRRLQ 138
+                           689****************************************************.****99.99999999****************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g ggyv  + +iaa+la+ p+ ++Eqn++pg++nkll+r a++v+
+  sp|A1WC06|MURG_ACISJ 139 PDVVIGLGGYVTFPGGIAARLARKPLLLHEQNSVPGMANKLLSRLATRVY 188
+                           ***********************************************998 PP
+
+>> sp|B9MFR2|MURG_DIAST  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.1   1.2e-35   6.5e-33       2     138 ..      52     188 ..      51     189 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +Ala++L++rG++V+ l+tp  +ee++ + +g +++pi+   +++ k+   + l  +++  +a  +a++++++ +
+  sp|B9MFR2|MURG_DIAST  52 LVMAGGTGGHIFPGLALAEALRERGWQVHwLGTPGSMEERLvPPRGFAFEPIDFS-GVRGKG-LKTLLALPLRLARACLQARAVVRRLQ 138
+                           689****************************************************.****99.99999999****************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g ggyv  + +iaa+la+ p+ ++Eqn++pg++nkll+r a++v+
+  sp|B9MFR2|MURG_DIAST 139 PDVVIGLGGYVTFPGGIAARLARKPLLLHEQNSVPGMANKLLSRLATRVY 188
+                           ***********************************************998 PP
+
+>> sp|B8ZQQ0|MURG_MYCLB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.2   2.2   6.3e-36   3.6e-33       1     138 [.      31     175 ..      31     176 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 119.2 bits;  conditional E-value: 6.3e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++ +++Vr   l+t++gle+++ +e+g++ + i+p  +l++kl + +  + ++++++a+r+++++++
+  sp|B8ZQQ0|MURG_MYCLB  31 VVLAGGGTAGHVEPAMAVADALRALDPQVRitaLGTSRGLETRLvPERGYHLELITPV-PLPRKL-TGDLARLPLRVWRAVRETRAVFE 117
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                             +++vvvgfggyva++a++aa+     +++ip++v+E+n+++g++n++  r+a++vl
+  sp|B8ZQQ0|MURG_MYCLB 118 VVEAHVVVGFGGYVALPAYLAARgiprvRRRIPVVVHEANARAGIANRVGVRTAERVL 175
+                           *******************************************************997 PP
+
+>> sp|O69552|MURG_MYCLE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.2   2.2   6.3e-36   3.6e-33       1     138 [.      31     175 ..      31     176 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 119.2 bits;  conditional E-value: 6.3e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++ +++Vr   l+t++gle+++ +e+g++ + i+p  +l++kl + +  + ++++++a+r+++++++
+  sp|O69552|MURG_MYCLE  31 VVLAGGGTAGHVEPAMAVADALRALDPQVRitaLGTSRGLETRLvPERGYHLELITPV-PLPRKL-TGDLARLPLRVWRAVRETRAVFE 117
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                             +++vvvgfggyva++a++aa+     +++ip++v+E+n+++g++n++  r+a++vl
+  sp|O69552|MURG_MYCLE 118 VVEAHVVVGFGGYVALPAYLAARgiprvRRRIPVVVHEANARAGIANRVGVRTAERVL 175
+                           *******************************************************997 PP
+
+>> sp|Q893R7|MURG_CLOTE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.8   0.0   3.6e-35   2.1e-32       1     138 [.       5     142 ..       5     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 116.8 bits;  conditional E-value: 3.6e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l+ggGT+G+v P ++l  +L++ G+eV  ++t++g+e+ + +++g+++++i ++ kl++++  lk++++++++lk++ +a++i+k++
+  sp|Q893R7|MURG_CLOTE   5 IILTGGGTAGHVTPNISLIPKLKELGYEVQyIGTKDGIEKSLiKKEGIKYHEISSG-KLRRYF-DLKNFTDPFKVLKGIMEARKIIKKE 91 
+                           78******************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp++v++ gg+va++++i+a l+++p++ +E++  pgl+nkl+  ++n+v 
+  sp|Q893R7|MURG_CLOTE  92 KPNIVFSKGGFVAVPVVIGAYLNKVPVISHESDMTPGLANKLSTPYCNKVC 142
+                           ************************************************986 PP
+
+>> sp|A7GGX9|MURG_CLOBL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.0   1.2e-35   6.5e-33       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e++g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|A7GGX9|MURG_CLOBL   4 IIMTGGGTAGHVTPNLALVPELKKSGYEIKyIGSIEGIERKIiEKEGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKRE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|A7GGX9|MURG_CLOBL  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|B1IKH3|MURG_CLOBK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.0   1.2e-35   6.5e-33       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e++g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|B1IKH3|MURG_CLOBK   4 IIMTGGGTAGHVTPNLALVPELKKSGYEIKyIGSIEGIERKIiEKEGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKRE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|B1IKH3|MURG_CLOBK  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|C1FUF9|MURG_CLOBJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.0   1.2e-35   6.5e-33       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e++g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|C1FUF9|MURG_CLOBJ   4 IIMTGGGTAGHVTPNLALVPELKKLGYEIKyIGSIEGIERKIiEKEGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKRE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|C1FUF9|MURG_CLOBJ  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|A5I5J5|MURG_CLOBH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.0   1.2e-35   6.5e-33       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e++g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|A5I5J5|MURG_CLOBH   4 IIMTGGGTAGHVTPNLALVPELKKLGYEIKyIGSIEGIERKIiEKEGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKRE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|A5I5J5|MURG_CLOBH  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|A7FX11|MURG_CLOB1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.0   1.2e-35   6.5e-33       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.4 bits;  conditional E-value: 1.2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e++g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|A7FX11|MURG_CLOB1   4 IIMTGGGTAGHVTPNLALVPELKKLGYEIKyIGSIEGIERKIiEKEGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKRE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|A7FX11|MURG_CLOB1  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|Q4ZNZ0|MURG_PSEU2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.2   0.4   1.3e-35   7.4e-33       1     137 [.       5     141 ..       5     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.2 bits;  conditional E-value: 1.3e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG++V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+  l+ lk ++  lkal +a++++++ 
+  sp|Q4ZNZ0|MURG_PSEU2   5 VLIMAGGTGGHVFPALACAREFQARGYKVHwLGTPRGIENELvPQAGLTLHLINVT-GLRGKG-RLSLLKAPLMLLKALMQARKVVRQV 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp  vvgfggyv ++ ++aa+lag+p++++Eqn+++g +n+ l+ +a +v
+  sp|Q4ZNZ0|MURG_PSEU2  92 KPVCVVGFGGYVTGPGGLAAKLAGVPLIIHEQNAVAGTANRSLASFASRV 141
+                           ********************************************999886 PP
+
+>> sp|A4XI04|MURG_CALS8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.7   0.0   7.7e-35   4.3e-32       1     138 [.       8     147 ..       8     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 115.7 bits;  conditional E-value: 7.7e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT+G+++PavA+a+ L++r  +     ++t +gle+++ +++g++++ i+++ +l+++l ++k++  ++++  ++r+a +ilk
+  sp|A4XI04|MURG_CALS8   8 IVFSGGGTGGHIYPAVAVADYLKKRYNNLNivfIGTNEGLESKIvPQHGYKIEYIQAK-GLKRSL-TVKNVEVFLKFISGYRQALQILK 94 
+                           79***********************99988889*************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + kp+vv+ +ggyv++++ +aa++++i+++++Eqn+ pgl+nk+ +r+++++l
+  sp|A4XI04|MURG_CALS8  95 RIKPKVVFVTGGYVSLPVALAARRLKIKTILHEQNAYPGLANKIISRFCEKIL 147
+                           *************************************************9987 PP
+
+>> sp|A0R016|MURG_MYCS2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  117.6   0.8     2e-35   1.1e-32       1     138 [.      17     161 ..      17     162 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 117.6 bits;  conditional E-value: 2e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++ +++Vr   l+t++gle+++ +++g++ + i+p  +l++k  s + l+ + +++ a+r+++ +l 
+  sp|A0R016|MURG_MYCS2  17 VVLAGGGTAGHVEPAMAVADALRALDPDVRitaLGTQRGLETRLvPQRGYDLELITPV-PLPRKP-SKDLLRLPMRVRTAIRQTRDVLT 103
+                           79********************************************************.*****9.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                             ++dvvvgfggyva++a++aa+     ++++p++v+E+n+++gl+n++ +r a +vl
+  sp|A0R016|MURG_MYCS2 104 GVNADVVVGFGGYVALPAYLAARggltgRRKVPVVVHEANARAGLANRVGARSARRVL 161
+                           ******************************************************9997 PP
+
+>> sp|A8YUN9|MURG_LACH4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.8   0.0   3.5e-35     2e-32       1     137 [.       3     143 ..       3     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 116.8 bits;  conditional E-value: 3.5e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.....EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.....latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+++ggGT+G+++P++A+ ++L++rG+        ++t++gle+++ ++ag+++++i+++ ++++k   lk++ ++  +l+a+++a++i
+  sp|A8YUN9|MURG_LACH4   3 VIFTGGGTGGHIYPIMAIIERLKERGISTNdkilfVGTKKGLESKIvPAAGVNFKTINIQ-GFNRKH-PLKNFETIKLFLQATKSARKI 89 
+                           789*********************************************************.****98.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           lke+kpdvv+g+ggyv+++ +++a++ +ip+ ++E+n++ gl+nk+l  +++++
+  sp|A8YUN9|MURG_LACH4  90 LKEFKPDVVLGTGGYVSGAMVYEAAKMHIPTMIHESNSVVGLANKFLGHYVDRI 143
+                           **************************************************9987 PP
+
+>> sp|A1SL80|MURG_NOCSJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.6   0.4   9.9e-36   5.6e-33       1     139 []       3     143 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 118.6 bits;  conditional E-value: 9.9e-36
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+laggGT+G+  P++A a++L+r +++V+   l+tp+gle++v +eag++ + i+p  +l+++    + lk +++ + a+r++ ++l 
+  sp|A1SL80|MURG_NOCSJ   3 VLLAGGGTAGHTSPLLATADALRRLEPDVEitcLGTPRGLENKVvPEAGYPLELIPPV-PLPRRP-GADLLKVPFRLRAAVRATHAVLD 89 
+                           79********************************************************.****99.9999999**************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           + +pdvvvg+ggyv+ +a++a++++gip++v+Eqn +pgl+n++ +r+a +v+v
+  sp|A1SL80|MURG_NOCSJ  90 RVRPDVVVGYGGYVSMPAYVATRKRGIPLVVHEQNTVPGLANRAGARFAQRVAV 143
+                           **************************************************9975 PP
+
+>> sp|Q88N76|MURG_PSEPK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.0   0.3   1.3e-34   7.1e-32       1     130 [.       8     137 ..       8     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 115.0 bits;  conditional E-value: 1.3e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+ +l+ lk ++   ka+ +a++i+++ 
+  sp|Q88N76|MURG_PSEPK   8 VLIMAGGTGGHVFPALACAREFQARGYSVHwLGTPRGIENELvPQAGLPLHLIQVS-GLRGKG-KLSLLKAPFTLVKAVLQARRIIRQL 94 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           kp  v+gfggyv ++ ++aa+l+g+p++++Eqn+++g +n+ll
+  sp|Q88N76|MURG_PSEPK  95 KPVCVLGFGGYVTGPGGVAARLCGVPLVIHEQNARAGTANRLL 137
+                           ****************************************986 PP
+
+>> sp|B1KYH7|MURG_CLOBM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  117.3   0.0   2.4e-35   1.4e-32       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 117.3 bits;  conditional E-value: 2.4e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  eL++ G+e++ +++ +g+e+++ e +g+e+ pi ++ kl++++  lk++++++++lk++++ak+i+k++
+  sp|B1KYH7|MURG_CLOBM   4 IIMTGGGTAGHVTPNLALVPELKKLGYEIKyIGSIEGIERKIiEREGIEYFPISSG-KLRRYF-DLKNFSDPFKVLKGVFQAKKIIKRE 90 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v++ gg+v ++++iaa l++ip++ +E++  pgl+nkl   ++++v 
+  sp|B1KYH7|MURG_CLOBM  91 KPDIVFSKGGFVTVPVVIAAHLNKIPVIAHESDITPGLANKLATPYCTRVC 141
+                           ********************************************9999985 PP
+
+>> sp|Q24TE6|MURG_DESHY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  117.2   0.1   2.7e-35   1.5e-32       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 117.2 bits;  conditional E-value: 2.7e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+++Pa+A+a++  ++ ++ +   ++t +g+e+++ +eag+e+  + ++ +l++kl sl+tlk   + +kal ++k+ilk
+  sp|Q24TE6|MURG_DESHY   3 VIVTGGGTGGHIYPALAIAKGILAQRPDAEilyIGTREGMEARLvPEAGIEFSGVSGQ-GLPRKL-SLETLKVGGKSFKALWETKQILK 89 
+                           689************************99999**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd+vvg+ggyva+++++ a+l gip+ ++Eqn++pg++nk+l r++ +v+
+  sp|Q24TE6|MURG_DESHY  90 KFKPDLVVGTGGYVAGPVVLTAALFGIPTLLHEQNALPGITNKILTRFVRKVM 142
+                           *************************************************9997 PP
+
+>> sp|Q3K744|MURG_PSEPF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  117.0   0.5   3.1e-35   1.8e-32       1     137 [.       5     141 ..       5     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 117.0 bits;  conditional E-value: 3.1e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agle + i++  +l+ k+ +l+ lk ++  lk++ +a++i+++ 
+  sp|Q3K744|MURG_PSEPF   5 VLIMAGGTGGHVFPALACAREFQARGYTVHwLGTPRGIENDLvPAAGLELHRINAT-GLRGKG-KLSLLKAPFMLLKSVWQARAIIRRL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p  vvgfggyv ++ ++aa+lag+p++v+Eqn+++g +n+ll  +a +v
+  sp|Q3K744|MURG_PSEPF  92 RPVCVVGFGGYVTGPGGLAAKLAGVPVIVHEQNAVAGTANRLLVPFAARV 141
+                           *******************************************9999876 PP
+
+>> sp|B1J3L2|MURG_PSEPW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.8   0.4     3e-34   1.7e-31       1     130 [.       8     137 ..       8     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 113.8 bits;  conditional E-value: 3e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+ +l+ lk ++   ka+ +a++i+ + 
+  sp|B1J3L2|MURG_PSEPW   8 VLIMAGGTGGHVFPALACAREFQARGYTVHwLGTPRGIENELvPQAGLSLHLIQVS-GLRGKG-KLSLLKAPFTLVKAVLQARRIIGQL 94 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           kp  v+gfggyv ++ ++aa+l+g+p++++Eqn+++g +n+ll
+  sp|B1J3L2|MURG_PSEPW  95 KPVCVIGFGGYVTGPGGVAARLCGVPLVIHEQNARAGTANRLL 137
+                           ****************************************986 PP
+
+>> sp|B0K3H0|MURG_THEPX  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.4   0.0     2e-34   1.1e-31       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 114.4 bits;  conditional E-value: 2e-34
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++Pa+A+a+e  + + +     ++t++gle+++ + +g e ++i+++ ++++kl sl+tlk++++   +l++a+ il e
+  sp|B0K3H0|MURG_THEPX   4 LFAGGGTGGHIYPAIAIAKEILKNEKNAQilfVGTKKGLENELvPREGFELKTITVQ-GFKRKL-SLDTLKTIYKAMVGLKEANNILNE 90 
+                           89*********************99999999**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvv+g+ggyv +++l  a+l gip+ ++Eqn+ pgl+nk+l+r+++ v+
+  sp|B0K3H0|MURG_THEPX  91 FKPDVVIGTGGYVCGPVLMMAALKGIPTLIHEQNAFPGLTNKVLSRFVKVVA 142
+                           ***********************************************99776 PP
+
+>> sp|B0K8K7|MURG_THEP3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.4   0.0     2e-34   1.1e-31       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 114.4 bits;  conditional E-value: 2e-34
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++Pa+A+a+e  + + +     ++t++gle+++ + +g e ++i+++ ++++kl sl+tlk++++   +l++a+ il e
+  sp|B0K8K7|MURG_THEP3   4 LFAGGGTGGHIYPAIAIAKEILKNEKNAQilfVGTKKGLENELvPREGFELKTITVQ-GFKRKL-SLDTLKTIYKAMVGLKEANNILNE 90 
+                           89*********************99999999**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvv+g+ggyv +++l  a+l gip+ ++Eqn+ pgl+nk+l+r+++ v+
+  sp|B0K8K7|MURG_THEP3  91 FKPDVVIGTGGYVCGPVLMMAALKGIPTLIHEQNAFPGLTNKVLSRFVKVVA 142
+                           ***********************************************99776 PP
+
+>> sp|A3DE27|MURG_CLOTH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.0   0.0   2.7e-34   1.5e-31       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 114.0 bits;  conditional E-value: 2.7e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G++ P +A+a+  ++r+++ +   ++t++gle+++ + ++ e++ i+++ ++++kl s++tl+ + e +++l +a++i+k
+  sp|A3DE27|MURG_CLOTH   3 VIISGGGTAGHINPGLAIAKYIKKREPDTEilfIGTERGLEARLvPRENFEIKMIKVR-GFKRKL-SMDTLVAVKELFQGLAEARKIIK 89 
+                           6899******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd+v+g+ggyv +++l++a++ +ip+ v+Eqn+ pg++nk+l++++++v+
+  sp|A3DE27|MURG_CLOTH  90 DYKPDLVIGTGGYVCGPVLFNASRMKIPTLVHEQNAFPGVTNKILSKFVDRVA 142
+                           ***************************************************97 PP
+
+>> sp|A1TAW8|MURG_MYCVP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.6   1.1   4.1e-35   2.3e-32       1     138 [.      32     175 ..      32     176 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 116.6 bits;  conditional E-value: 4.1e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G++ePa+A+a++L + +++Vr   l+t++gle+++ +++g++ + i++  +l++kl s + ++ + ++l+a+r++++il 
+  sp|A1TAW8|MURG_MYCVP  32 VVLAGGGTAGHIEPAMAVADALTALDPDVRitaLGTERGLETRLvPQRGYHLELITLV-PLPRKL-SADLFRLPMRVLRAVRQTRRILD 118
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal....lagipanvaEqngipglvnkllprrangvl 138
+                           e ++dvvvgfggyva++a++aa+     +++p++v+E+n+ +g +nk+ +r a +vl
+  sp|A1TAW8|MURG_MYCVP 119 EVSADVVVGFGGYVAVPAYLAARslrtHRRVPVVVHEANASAGWANKVGARSAQRVL 175
+                           **********************97777889***********************9997 PP
+
+>> sp|B8FT56|MURG_DESHD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.9   0.2   1.3e-34   7.6e-32       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 114.9 bits;  conditional E-value: 1.3e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+++Pa+A+a++     ++ +   ++t +g+e+++ +eagle+  + ++ +l++kl sl+tlk   + +kal ++k+ilk
+  sp|B8FT56|MURG_DESHD   3 VIVTGGGTGGHIYPALAIAKGILVHQPDAEilyIGTREGMEARLvPEAGLEFAGVSGQ-GLPRKL-SLETLKVGGKSFKALWETKQILK 89 
+                           689********************999999999**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd+vvg+ggyva+++++ a+l gip+ ++Eqn++pg++nk+l r++ +v+
+  sp|B8FT56|MURG_DESHD  90 KFKPDLVVGTGGYVAGPVVLTAALFGIPTLLHEQNALPGITNKILTRFVRKVM 142
+                           *************************************************9997 PP
+
+>> sp|Q9RWP0|MURG_DEIRA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.6   0.8   4.1e-35   2.3e-32       1     137 [.       4     141 ..       4     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 116.6 bits;  conditional E-value: 4.1e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           vv+a+gGT+G+++PavA a+eL+ rG+eV  ++ + g+ee + e +gl+++ ++++ kl+++++    +++l++ +++l +a+++l+  
+  sp|Q9RWP0|MURG_DEIRA   4 VVMATGGTGGHIYPAVATAKELRGRGYEVAlMGQKGGMEEGIaEREGLTFYGVDAG-KLARSGQGRPDPRQLLKAGQGLAQARRTLAGL 91 
+                           79******************************************************.******************************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p++vvg+gg+++++ ++aa ++gip++++Eqn++ gl+++l  rra  v
+  sp|Q9RWP0|MURG_DEIRA  92 NPAAVVGYGGFASLPGVLAAQSLGIPTILHEQNARLGLTQRLAVRRARAV 141
+                           **********************************************9877 PP
+
+>> sp|B2I1J5|MURG_ACIBC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.7   0.3   3.1e-34   1.8e-31       1     135 [.      12     146 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 113.7 bits;  conditional E-value: 3.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq++G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l  +++ lka+++a++ +k+ 
+  sp|B2I1J5|MURG_ACIBC  12 VMMMAAGTGGHVFPALAVAKQLQQQGCQVSwLATPTGMENRLlKDQNIPIYQIDIQ-GVRGNG-VIRKLAAPFKILKATFSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           k d+v+gfggyva++ ++aa+l+gip+ ++Eqn+++g++n  l+r a+
+  sp|B2I1J5|MURG_ACIBC  99 KVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAK 146
+                           ****************************************99998776 PP
+
+>> sp|B0V9F5|MURG_ACIBY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.7   0.3   3.1e-34   1.8e-31       1     135 [.      12     146 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 113.7 bits;  conditional E-value: 3.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq++G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l  +++ lka+++a++ +k+ 
+  sp|B0V9F5|MURG_ACIBY  12 VMMMAAGTGGHVFPALAVAKQLQQQGCQVSwLATPTGMENRLlKDQNIPIYQIDIQ-GVRGNG-VIRKLAAPFKILKATFSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           k d+v+gfggyva++ ++aa+l+gip+ ++Eqn+++g++n  l+r a+
+  sp|B0V9F5|MURG_ACIBY  99 KVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAK 146
+                           ****************************************99998776 PP
+
+>> sp|B7GV73|MURG_ACIB3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.7   0.3   3.1e-34   1.8e-31       1     135 [.      12     146 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 113.7 bits;  conditional E-value: 3.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq++G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l  +++ lka+++a++ +k+ 
+  sp|B7GV73|MURG_ACIB3  12 VMMMAAGTGGHVFPALAVAKQLQQQGCQVSwLATPTGMENRLlKDQNIPIYQIDIQ-GVRGNG-VIRKLAAPFKILKATFSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           k d+v+gfggyva++ ++aa+l+gip+ ++Eqn+++g++n  l+r a+
+  sp|B7GV73|MURG_ACIB3  99 KVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAK 146
+                           ****************************************99998776 PP
+
+>> sp|B7ICE5|MURG_ACIB5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.7   0.3   3.1e-34   1.8e-31       1     135 [.      12     146 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 113.7 bits;  conditional E-value: 3.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq++G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l  +++ lka+++a++ +k+ 
+  sp|B7ICE5|MURG_ACIB5  12 VMMMAAGTGGHVFPALAVAKQLQQQGCQVSwLATPTGMENRLlKDQNIPIYQIDIQ-GVRGNG-VIRKLAAPFKILKATFSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           k d+v+gfggyva++ ++aa+l+gip+ ++Eqn+++g++n  l+r a+
+  sp|B7ICE5|MURG_ACIB5  99 KVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAK 146
+                           ****************************************99998776 PP
+
+>> sp|A5D145|MURG_PELTS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.5   0.0   4.4e-35   2.5e-32       1     138 [.       3     142 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 116.5 bits;  conditional E-value: 4.4e-35
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+ar+L++r +  +   ++t++g+e+ + +++g ++  i +  +l +kl s+++l+ l++  +++ +a ei+ 
+  sp|A5D145|MURG_PELTS   3 FLVSGGGTGGHIYPALAIARGLKNRYPGAEilyMGTSNGMEADIvPAEGFPFTGISAS-GLERKL-SPRNLLALWQAVRGFCQAVEIIG 89 
+                           799**********************7766666**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++p++v+g+ggyv +++++aa l +ip+ ++Eqn++pg++n++l+r+a +v+
+  sp|A5D145|MURG_PELTS  90 RWRPEAVIGTGGYVCGPVVLAAVLKRIPTLIHEQNALPGVTNRILSRFASRVA 142
+                           **************************************************997 PP
+
+>> sp|A3M9Y1|MURG_ACIBT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.7   0.3   3.1e-34   1.8e-31       1     135 [.      12     146 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 113.7 bits;  conditional E-value: 3.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq++G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l  +++ lka+++a++ +k+ 
+  sp|A3M9Y1|MURG_ACIBT  12 VMMMAAGTGGHVFPALAVAKQLQQQGCQVSwLATPTGMENRLlKDQNIPIYQIDIQ-GVRGNG-VIRKLAAPFKILKATFSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           k d+v+gfggyva++ ++aa+l+gip+ ++Eqn+++g++n  l+r a+
+  sp|A3M9Y1|MURG_ACIBT  99 KVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAK 146
+                           ****************************************99998776 PP
+
+>> sp|A9KK83|MURG_CLOPH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.3   0.0   1.1e-34   5.9e-32       1     134 [.       4     137 ..       4     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 115.3 bits;  conditional E-value: 1.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +vl+ggGT+G+v P +Al  +L+++G+e++ +++ +g+e+++ e+ g++++ i ++ kl+++l  +k++++++++lk++r+ak++lk+ 
+  sp|A9KK83|MURG_CLOPH   4 IVLTGGGTAGHVTPNIALIAGLKEQGYEIHyIGSYEGIERELiEKLGIPYHGISSG-KLRRYL-DIKNFSDPFKVLKGYREAKKLLKNL 90 
+                           79******************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                            p+vv++ gg+va+++++aa++++ipa+++E++  pgl+n+l+   a
+  sp|A9KK83|MURG_CLOPH  91 DPNVVFSKGGFVAVPVVLAAKKRKIPAIIHESDMTPGLANRLCIPSA 137
+                           ****************************************9876555 PP
+
+>> sp|C3KCT0|MURG_PSEFS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.0   0.5   1.3e-34   7.1e-32       1     134 [.       5     138 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 115.0 bits;  conditional E-value: 1.3e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+ +l+ lk ++  lka+ +a++++++ 
+  sp|C3KCT0|MURG_PSEFS   5 VLIMAGGTGGHVFPALACAREFQNRGYTVHwLGTPRGIENELvPNAGLPLHLINVT-GLRGKG-KLSLLKAPFVLLKAVWQARKVIRDV 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           +p  v+gfggyv ++ ++aa+lag+p++v+Eqn+++g +n+ll   a
+  sp|C3KCT0|MURG_PSEFS  92 QPVCVLGFGGYVTGPGGVAAKLAGVPVIVHEQNAVAGTANRLLVPLA 138
+                           *****************************************987665 PP
+
+>> sp|Q03EY2|MURG_PEDPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.6   0.0   1.7e-34   9.5e-32       2     138 ..       4     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 114.6 bits;  conditional E-value: 1.7e-34
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+Al +++++ +++     ++t++gle+++ + +g+++++i+++ +++++l sl+++k++  +l ++ ka++ +ke
+  sp|Q03EY2|MURG_PEDPA   4 MVSGGGTGGHIYPALALIKQVKQSEPDSQilyVGTSKGLESKIvPDSGIDFKTINIQ-GFKRSL-SLENFKTIGLFLSSVVKARKMVKE 90 
+                           5899***********************9999**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpdvv+g+ggyv++++++aa+  g+p++++Eqn++ g++nk+l++++++++
+  sp|Q03EY2|MURG_PEDPA  91 FKPDVVLGTGGYVSGAVVFAASMMGVPTVIHEQNSVVGVTNKFLSKFVKKIA 142
+                           *************************************************987 PP
+
+>> sp|A0QF52|MURG_MYCA1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.2   1.0   2.2e-34   1.3e-31       1     138 [.      34     178 ..      34     179 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 114.2 bits;  conditional E-value: 2.2e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++ +++Vr   l+t +gle+++ +e+g++ + i+p  +l++k  + +  + + ++++a+r+++++l 
+  sp|A0QF52|MURG_MYCA1  34 VVLAGGGTAGHVEPAMAVADALKALDPNVRitsLGTARGLETRLvPERGYDLELITPV-PLPRKP-TGDLARLPSRVWRAVRETRAVLH 120
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+     + ++p++++E+n+ +gl+n++ +r+a +vl
+  sp|A0QF52|MURG_MYCA1 121 AVDADVVIGFGGYVALPAYLAARgvsprKPRVPVVIHEANASAGLANRVGARTAQRVL 178
+                           ***********************99999***************************997 PP
+
+>> sp|Q04B72|MURG_LACDB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.2   0.0   3.7e-33   2.1e-30       1     137 [.       3     143 ..       3     145 .. 0.96
+   2 ?    2.3   0.0       7.8   4.4e+03      71     102 ..     204     235 ..     179     240 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 110.2 bits;  conditional E-value: 3.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.......EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.......latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkak 81 
+                           v+++ggGT+G+++P++Al ++L+++G  ++       ++t++gle+++ ++ag+++++i+++ ++ +k   l+++k+++ +lka+++ak
+  sp|Q04B72|MURG_LACDB   3 VIFSGGGTGGHIYPIMALIERLKEEG--ICqddeilfVGTKKGLESKIvPAAGVNFKTIDIQ-GFDRKH-LLNNVKTIQLFLKATKRAK 87 
+                           689***********************..44568889**************************.****98.******************* PP
+
+                           HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           eil++++pdvv+g+ggyv+++++++a++ +ip+ ++E+n++ g++nk+l  +++++
+  sp|Q04B72|MURG_LACDB  88 EILADFQPDVVLGTGGYVSGAIVYEASKMKIPTMIHESNSVVGVANKFLGHYVDKI 143
+                           ****************************************************9987 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 7.8
+                           HHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  71 aeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           ++ ++ + k+ + lk++  +v++++g+y+ d+
+  sp|Q04B72|MURG_LACDB 204 LAINRVMLKSLMELKKKPYQVIWATGTYYYDA 235
+                           455567888999999999999**999999875 PP
+
+>> sp|Q1GAT5|MURG_LACDA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.2   0.0   3.7e-33   2.1e-30       1     137 [.       3     143 ..       3     145 .. 0.96
+   2 ?    2.3   0.0       7.8   4.4e+03      71     102 ..     204     235 ..     179     240 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 110.2 bits;  conditional E-value: 3.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.......EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.......latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkak 81 
+                           v+++ggGT+G+++P++Al ++L+++G  ++       ++t++gle+++ ++ag+++++i+++ ++ +k   l+++k+++ +lka+++ak
+  sp|Q1GAT5|MURG_LACDA   3 VIFSGGGTGGHIYPIMALIERLKEEG--ICqddeilfVGTKKGLESKIvPAAGVNFKTIDIQ-GFDRKH-LLNNVKTIQLFLKATKRAK 87 
+                           689***********************..44568889**************************.****98.******************* PP
+
+                           HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           eil++++pdvv+g+ggyv+++++++a++ +ip+ ++E+n++ g++nk+l  +++++
+  sp|Q1GAT5|MURG_LACDA  88 EILADFQPDVVLGTGGYVSGAIVYEASKMKIPTMIHESNSVVGVANKFLGHYVDKI 143
+                           ****************************************************9987 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 7.8
+                           HHHHHHHHHHHHHHHHHHHHHHHHC----EEE CS
+       Glyco_transf_28  71 aeglkalrkakeilkeakpdvvvgfggyvadl 102
+                           ++ ++ + k+ + lk++  +v++++g+y+ d+
+  sp|Q1GAT5|MURG_LACDA 204 LAINRVMLKSLMELKKKPYQVIWATGTYYYDA 235
+                           455567888999999999999**999999875 PP
+
+>> sp|Q4K6J3|MURG_PSEF5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.7   0.6   1.6e-34   9.1e-32       1     134 [.       5     138 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 114.7 bits;  conditional E-value: 1.6e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agl+ + i++  +l+ k+ +l+ lk ++   ka+ +a++++++ 
+  sp|Q4K6J3|MURG_PSEF5   5 VLIMAGGTGGHVFPALACAREFQARGYTVHwLGTPRGIENDLvPAAGLPLHLINVS-GLRGKG-KLSLLKAPFVLIKAVLQARRVIRQL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           kp  v+gfggyv ++ ++aa+l+g+p++v+Eqn+++g +n+ll   a
+  sp|Q4K6J3|MURG_PSEF5  92 KPVCVLGFGGYVTGPGGVAAKLSGVPVIVHEQNAVAGTANRLLVPLA 138
+                           *****************************************987665 PP
+
+>> sp|B0VNZ9|MURG_ACIBS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.1   0.3     1e-33   5.8e-31       1     135 [.      12     146 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 112.1 bits;  conditional E-value: 1e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq++G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l  +++ lka+++a++ +k+ 
+  sp|B0VNZ9|MURG_ACIBS  12 VMMMAAGTGGHVFPALAVAKQLQQQGCQVSwLATPIGMENRLlKDQNIPIYQIDIQ-GVRGNG-VIRKLAAPFKILKATFSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           k d+v+gfggyva++ ++aa+l+gip+ ++Eqn+++g++n  l+r a+
+  sp|B0VNZ9|MURG_ACIBS  99 KVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAK 146
+                           ****************************************99998776 PP
+
+>> sp|Q5FKV2|MURG_LACAC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.3   0.0   8.8e-34     5e-31       1     137 [.       3     143 ..       3     145 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 112.3 bits;  conditional E-value: 8.8e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.....EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.....latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+++ggGT+G+++P++A+ ++L++rG+        ++t++gle+++ ++ag+++++i+++ ++++k   lk++ ++  +++a+++a++i
+  sp|Q5FKV2|MURG_LACAC   3 VIFTGGGTGGHIYPIMAIIERLKERGISKNdeilfVGTQKGLESKIvPAAGVNFETIQIQ-GFNRKH-PLKNFETIKLFFQATKSARKI 89 
+                           789***********************87778999**************************.****98.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           l+e+kpdvv+g+ggyv+++ +++a++ +ip+ ++E+n++ gl+nk+l  +++++
+  sp|Q5FKV2|MURG_LACAC  90 LQEFKPDVVLGTGGYVSGAMVYEAAKMHIPTMIHESNSVVGLANKFLGHYVDKI 143
+                           **************************************************9987 PP
+
+>> sp|A0KPX2|MURG_AERHH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.7   0.3   1.3e-33   7.3e-31       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 111.7 bits;  conditional E-value: 1.3e-33
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G+ ++ l+t +++e+++ +++g+++  i+++ +++ ++   + l+ +++  k++ +a+++lk  +
+  sp|A0KPX2|MURG_AERHH   6 LVMAGGTGGHVFPGLAVADRLKAQGWTIHwLGTADRMEAELvPAHGYPISFIDIQ-GVRGNG-IKRLLVAPYRIVKSVLQARRVLKTIR 92 
+                           789****************************************************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+gg+++++ ++aa+l+gip+ ++Eqn+ +gl+nkll+r a++vl
+  sp|A0KPX2|MURG_AERHH  93 PDVVLGMGGFASGPGGVAAWLSGIPLLLHEQNAAAGLTNKLLARLAKRVL 142
+                           ***********************************************997 PP
+
+>> sp|A1WYU3|MURG_HALHL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.1   2.4   2.4e-34   1.4e-31       1     132 [.       6     137 ..       6     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 114.1 bits;  conditional E-value: 2.4e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++a+gGT+G+v+P +A+a++L++rGh+V  l+t  gle +v ++agl+a+ ++++ + + k+   +    +++ ++a+  a ++l+++
+  sp|A1WYU3|MURG_HALHL   6 VAIAAGGTGGHVYPGLAVADALRERGHRVVwLGTRAGLEGRVvPAAGLDAEWLEIG-GMRGKG-LATIAALPWRLGRAVAVAGAALRRQ 92 
+                           799*****************************************************.****99.9************************ PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllpr 132
+                           +pdvv+g+ggyva+++++aa+lag p++++Eqn+++g++n++l+r
+  sp|A1WYU3|MURG_HALHL  93 RPDVVLGMGGYVAGPVGLAARLAGRPLIIHEQNARAGMTNRFLAR 137
+                           ******************************************987 PP
+
+>> sp|Q73YQ8|MURG_MYCPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.0   1.5   5.5e-34   3.1e-31       1     138 [.      34     178 ..      34     179 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 113.0 bits;  conditional E-value: 5.5e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++ +++Vr   l+t +gle+++ +e+g++ + i+p  +l++k  + +  + + ++++a+r+++++l 
+  sp|Q73YQ8|MURG_MYCPA  34 VVLAGGGTAGHVEPAMAVADALKALDPHVRitaLGTARGLETRLvPERGYDLELITPV-PLPRKP-TGDLARLPSRVWRAVRETRAVLH 120
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+     + ++p++++E+n+ +gl+n++ +r+a +vl
+  sp|Q73YQ8|MURG_MYCPA 121 AVDADVVIGFGGYVALPAYLAARgvsprKPRVPVVIHEANASAGLANRVGARTAQRVL 178
+                           ***********************99999***************************997 PP
+
+>> sp|B1MXW0|MURG_LEUCK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.4   0.3   3.9e-34   2.2e-31       1     137 [.       3     141 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 113.4 bits;  conditional E-value: 3.9e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l+ggGT+G+++Pa+Ala+  ++ +++ +   +++++g+e+ + +++g+++++++++ ++ ++l sl+++k+++ +lka++ +k+i+k
+  sp|B1MXW0|MURG_LEUCK   3 VILSGGGTGGHIYPALALAEVIKQHEPDAEflyVGSERGVEANIvPKTGMAFKQLAVQ-GFSRSL-SLHNIKTVQLFLKAVKVSKKIIK 89 
+                           789*******************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           e+kpdvv+g+ggyva+++++aa + +ip++++Eqn+++g++nk+l+r a+++
+  sp|B1MXW0|MURG_LEUCK  90 EFKPDVVIGTGGYVAGAVVYAAQRMNIPTVIHEQNSVAGVTNKFLARGATKI 141
+                           ***********************************************99987 PP
+
+>> sp|Q604V7|MURG_METCA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.8   0.3   6.1e-34   3.4e-31       1     138 [.       5     142 ..       5     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 112.8 bits;  conditional E-value: 6.1e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v+++gGT+G+v+Pa+A+a +L+r+G eV  ++t  gle++v ++ag+++  + +  + + k+   ++ k +a  + a  +a +il++ 
+  sp|Q604V7|MURG_METCA   5 IVILAGGTGGHVFPALAVAGKLRRAGAEVFwMGTRTGLEARVvPAAGYPIDWLSVS-GIRGKG-LASKAKAPAMLGLACLQALRILRRR 91 
+                           799*****************************************************.******.999999999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v+g+gg+va++ ++ a+ +gip++++Eqn ipg +n++l+r an+vl
+  sp|Q604V7|MURG_METCA  92 KPDAVLGMGGFVAGPGGLMARVLGIPLIIHEQNRIPGTTNRWLSRIANRVL 142
+                           ************************************************986 PP
+
+>> sp|B2V1X5|MURG_CLOBA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.3   0.0   4.2e-34   2.3e-31       1     134 [.       6     139 ..       6     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 113.3 bits;  conditional E-value: 4.2e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v+++ggGT+G+v P +Al  +L++ G eV+ +++++g+e+++ ++ ++++ +i ++ kl++++  lk++++++++lk++++a++ilk++
+  sp|B2V1X5|MURG_CLOBA   6 VIMTGGGTAGHVTPNLALVPALKENGFEVKyIGSKDGIEKEIiKNNNIPYFQISSG-KLRRYF-DLKNFSDPFKVLKGIKDANKILKKE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           kpdvv++ gg+va++++iaa l++ip++ +E++  pgl+nkl++ ++
+  sp|B2V1X5|MURG_CLOBA  93 KPDVVFSKGGFVAVPVVIAAHLRKIPVVAHESDMTPGLANKLSAPFC 139
+                           *****************************************988765 PP
+
+>> sp|A1U3F8|MURG_MARAV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.8   0.1     6e-34   3.4e-31       1     137 [.       9     145 ..       9     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 112.8 bits;  conditional E-value: 6e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A ar+Lq+rGheV+ l+++ g+ee++   + ++   i +  +l+ k+ +l+ l+ +++  +al +a ++l++ 
+  sp|A1U3F8|MURG_MARAV   9 FLMMAGGTGGHVFPALATARALQQRGHEVHwLGASGGMEERLiGDTDIPLSLIHIS-GLRGKG-KLALLLAPFRLMRALGEAYTHLRRI 95 
+                           799*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +pd vvg+gg+v ++ +iaa+l + p++++Eqn+i+g++n++l r+ ++v
+  sp|A1U3F8|MURG_MARAV  96 RPDCVVGMGGFVTGPGGIAAWLMRKPLVIHEQNAIAGMTNRWLTRFSETV 145
+                           *******************************************9987665 PP
+
+>> sp|A8MH36|MURG_ALKOO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.0   0.0   4.4e-33   2.5e-30       1     138 [.       3     142 ..       3     143 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 110.0 bits;  conditional E-value: 4.4e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l+ggGT+G+++Pa+++a++ +++ ++ +   ++t++g+e+++ ++ag++++ +++   l++k+ sl+++k++a  lk++ +a++i+k
+  sp|A8MH36|MURG_ALKOO   3 VILSGGGTGGHIYPAISIANKIKEQHPKAEilfIGTENGMESEIvPKAGYPIKYVTVS-YLKRKI-SLHNVKSAAMLLKGIAEARKIIK 89 
+                           789*******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpd+v+g+gg+v +++l+ a+++gi + ++Eqn  pgl+n++l+r++++++
+  sp|A8MH36|MURG_ALKOO  90 EFKPDIVIGTGGFVCGPVLYMASKLGIRTMIHEQNVFPGLTNRILDRYVDRIA 142
+                           **************************************************986 PP
+
+>> sp|B2TLE0|MURG_CLOBB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.2   0.0   9.3e-34   5.3e-31       1     136 [.       6     141 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 112.2 bits;  conditional E-value: 9.3e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v+++ggGT+G+v P +Al   L++ G eV+ +++++g+e+++ ++ ++++ +i ++ kl++++  +k++++++++lk++++a++ilk++
+  sp|B2TLE0|MURG_CLOBB   6 VIMTGGGTAGHVTPNLALVPSLKENGFEVKyIGSKDGIEKEIiKNNNIPYFQISSG-KLRRYF-DFKNFSDPFKVLKGIKDANRILKKE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           kpdv+++ gg+va++++iaa l++ip++ +E++  pgl+nkl++ ++n+
+  sp|B2TLE0|MURG_CLOBB  93 KPDVIFSKGGFVAVPVVIAAHLRKIPVVAHESDMTPGLANKLSAPFCNK 141
+                           ******************************************9999987 PP
+
+>> sp|A4SI56|MURG_AERS4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.7   0.3   2.7e-33   1.5e-30       2     138 ..       6     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 110.7 bits;  conditional E-value: 2.7e-33
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G+ ++ l+t +++e+++ +++g+++  i+++ +++ ++   + l  +++  k++ +a+++lk  +
+  sp|A4SI56|MURG_AERS4   6 LVMAGGTGGHVFPGLAVADRLKAQGWTIHwLGTADRMEAELvPAHGYPISFIDIQ-GVRGNG-IKRLLAAPYRIVKSVLQARRVLKTIR 92 
+                           789****************************************************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+gg+++++ ++aa+l+gip+ ++Eqn+ +gl+nkll+r a++vl
+  sp|A4SI56|MURG_AERS4  93 PDVVLGMGGFASGPGGVAAWLSGIPLLLHEQNAAAGLTNKLLARLAKRVL 142
+                           ***********************************************997 PP
+
+>> sp|C4Z1B5|MURG_EUBE2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.0   0.0   2.2e-33   1.3e-30       1     137 [.       4     140 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 111.0 bits;  conditional E-value: 2.2e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +vl+ggGT+G+v P +Al   L+++G+eV  +++  g+e+++ e  g++++ i ++ kl+++  slk+l++++++l +l++ak+++k+ 
+  sp|C4Z1B5|MURG_EUBE2   4 IVLTGGGTAGHVTPNIALLPSLKEAGYEVFyIGSYTGIEKTLiEDLGIPYYGISSG-KLRRYR-SLKNLSDPFRVLHGLFQAKRLMKKI 90 
+                           79******************************************************.****88.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpd+v++ gg+v++++++aa +++ip++++E++  pgl+nk+ +r+a+++
+  sp|C4Z1B5|MURG_EUBE2  91 KPDIVFSKGGFVSVPVVLAAGSRHIPVIIHESDMTPGLANKIAMRKATKI 140
+                           ***********************************************987 PP
+
+>> sp|C1DQ99|MURG_AZOVD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.8   0.2   1.2e-33   6.9e-31       1     136 [.       5     140 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 111.8 bits;  conditional E-value: 1.2e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agl+ + i+++ +l+ k+   + lk +++  ++l++a++i+ e 
+  sp|C1DQ99|MURG_AZOVD   5 VLIMAGGTGGHVFPALACAREFQARGYAVHwLGTPRGIENDLvPSAGLPLHRIQIG-GLRGKG-LATLLKAPFQLIRSLFQARRIMNEL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           +p  v+g+gg+v ++ ++aa+l g+p++++Eqn+++g +n++l+  a++
+  sp|C1DQ99|MURG_AZOVD  92 RPVCVLGMGGFVTGPGGVAAKLTGAPLVIHEQNAVAGTSNRALAPLADR 140
+                           *****************************************99887776 PP
+
+>> sp|Q6F703|MURG_ACIAD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.5   0.3   3.2e-33   1.8e-30       1     137 [.      12     148 ..      12     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 110.5 bits;  conditional E-value: 3.2e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G+v+Pa+A+a++Lq+ G +V  latp g+e+++ + +++++++i+++ +++ ++  +++l+ +++ lka+ +a++ +k+ 
+  sp|Q6F703|MURG_ACIAD  12 VMMMAAGTGGHVFPALAVAKQLQQHGCQVSwLATPAGMENRLlKDQNIPIYQIDIQ-GVRGNG-AVRKLLAPFKILKATYSAMRYMKQL 98 
+                           67899***************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           k d+v+gfggyva++ ++aa+ +gip+ ++Eqn+++g++n  l+r a +v
+  sp|Q6F703|MURG_ACIAD  99 KVDAVAGFGGYVAGPGGLAARILGIPILIHEQNAVAGFTNTQLARVASKV 148
+                           ****************************************9998888765 PP
+
+>> sp|B1YIT7|MURG_EXIS2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.2   0.0   9.4e-34   5.3e-31       1     138 [.       3     141 ..       3     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 112.2 bits;  conditional E-value: 9.4e-34
+                           EEEE-------HHHHHHHHHHHHH---.EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGh.eVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +v++ggGT+G+++Pa+A+ re  rr + eV  ++t++gle+ + + ag+++++i++  + +++l s++++k+ +++lk++ +++++l++
+  sp|B1YIT7|MURG_EXIS2   3 IVVSGGGTGGHIYPALAMIREIERRTPcEVLyIGTENGLEADIvRRAGIPFESIEIS-GIRRSL-SFENVKTGFRFLKSVVRVRKLLRD 89 
+                           799********************99865888**************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pd+vvg+gg+v +++l+ a++ g ++ v+Eqn++pg++nk+l+r++++v+
+  sp|B1YIT7|MURG_EXIS2  90 FQPDIVVGTGGFVCGPVLYTAAKMGYKTLVHEQNSLPGITNKFLARYVDRVA 141
+                           *************************************************997 PP
+
+>> sp|C1CW40|MURG_DEIDV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.1   1.8   2.1e-33   1.2e-30       1     137 [.       4     141 ..       4     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 111.1 bits;  conditional E-value: 2.1e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           vv+a+gGT+G+++PavA areL +rGhe   l+   g+ee+v +e+gl+++ ++++ kl+++++    ++el++  +++ +a+++l+  
+  sp|C1CW40|MURG_DEIDV   4 VVMATGGTGGHIYPAVATARELNARGHETLlLGQRGGMEERVaAEQGLSFEGVDAG-KLARSGQGRPDPRELFRAVRGVVEARRVLQAR 91 
+                           79******************************************************.******************************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p++vvg+gg+++++ ++aa ++gi+++++Eqn++ gl++++   ra  v
+  sp|C1CW40|MURG_DEIDV  92 RPALVVGYGGFASLPGVLAAQSLGIATVLHEQNARLGLTQRVAVGRARAV 141
+                           ******************************************99999876 PP
+
+>> sp|Q47QW9|MURG_THEFY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.4   0.3   3.3e-33   1.9e-30       1     132 [.       3     136 ..       3     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 110.4 bits;  conditional E-value: 3.3e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+Ala++L+r  ++     l+t++gle ++ + +g+e  +i++  +l++kl +++ l+ + +  +a+  a ++l 
+  sp|Q47QW9|MURG_THEFY   3 VVLAGGGTAGHVEPALALADALRRINPDTQvlcLGTKRGLEQRLvPMRGYELAEIPAV-PLPRKL-TPQLLSVPGRLANAISTAAKHLD 89 
+                           79**************************99999*************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGG CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllpr 132
+                           + ++d++vgfggyva++ ++aa++++ip++v+E+n +pgl+n+l +r
+  sp|Q47QW9|MURG_THEFY  90 RVQADILVGFGGYVATPGYLAARSRRIPIVVHEANPLPGLANRLGAR 136
+                           ******************************************98765 PP
+
+>> sp|A0Q182|MURG_CLONN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.4   0.0   1.6e-33     9e-31       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 111.4 bits;  conditional E-value: 1.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggG++G+v P +Al  +L++ G+e+  ++t++g+e+++ e+++++++ i ++ kl++++  +k++++++++lk++++ak+i+k++
+  sp|A0Q182|MURG_CLONN   6 IIMTGGGSAGHVTPNLALVPKLKELGYEIQyIGTENGIERKIiESENIKYHIISSG-KLRRYF-DIKNFSDPFKVLKGVFEAKKIIKRE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp++v++ gg+v+++++i+a+l++ip++ +E++  pgl+nkl + ++n+v 
+  sp|A0Q182|MURG_CLONN  93 KPNIVFSKGGFVSVPVVIGARLNRIPVISHESDMTPGLANKLAAPFCNKVC 143
+                           ***********************************************9986 PP
+
+>> sp|A1KKJ6|MURG_MYCBP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.2   0.9   9.4e-34   5.3e-31       1     138 [.      38     185 ..      38     186 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 112.2 bits;  conditional E-value: 9.4e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L + +++Vr   l+tp+gle+++ +++g++ + i++  + ++k    +  + + ++++a+r+a+ +l 
+  sp|A1KKJ6|MURG_MYCBP  38 VVLAGGGTAGHVEPAMAVADALVALDPRVRitaLGTPRGLETRLvPQRGYHLELITAV-PMPRKP-GGDLARLPSRVWRAVREARDVLD 124
+                           79********************************************************.****99.999999999************** PP
+
+                           HHHHHHHHHC----EEEE--HHH........HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal........lagipanvaEqngipglvnkllprrangvl 138
+                           +  +dvvvgfggyva++a++aa+        +++ip++++E+n+++gl+n++ + +a++vl
+  sp|A1KKJ6|MURG_MYCBP 125 DVDADVVVGFGGYVALPAYLAARglplpprrRRRIPVVIHEANARAGLANRVGAHTADRVL 185
+                           ***********************************************************97 PP
+
+>> sp|C1AQ69|MURG_MYCBT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.2   0.9   9.4e-34   5.3e-31       1     138 [.      38     185 ..      38     186 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 112.2 bits;  conditional E-value: 9.4e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L + +++Vr   l+tp+gle+++ +++g++ + i++  + ++k    +  + + ++++a+r+a+ +l 
+  sp|C1AQ69|MURG_MYCBT  38 VVLAGGGTAGHVEPAMAVADALVALDPRVRitaLGTPRGLETRLvPQRGYHLELITAV-PMPRKP-GGDLARLPSRVWRAVREARDVLD 124
+                           79********************************************************.****99.999999999************** PP
+
+                           HHHHHHHHHC----EEEE--HHH........HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal........lagipanvaEqngipglvnkllprrangvl 138
+                           +  +dvvvgfggyva++a++aa+        +++ip++++E+n+++gl+n++ + +a++vl
+  sp|C1AQ69|MURG_MYCBT 125 DVDADVVVGFGGYVALPAYLAARglplpprrRRRIPVVIHEANARAGLANRVGAHTADRVL 185
+                           ***********************************************************97 PP
+
+>> sp|Q7VEP8|MURG_MYCBO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.2   0.9   9.4e-34   5.3e-31       1     138 [.      38     185 ..      38     186 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 112.2 bits;  conditional E-value: 9.4e-34
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L + +++Vr   l+tp+gle+++ +++g++ + i++  + ++k    +  + + ++++a+r+a+ +l 
+  sp|Q7VEP8|MURG_MYCBO  38 VVLAGGGTAGHVEPAMAVADALVALDPRVRitaLGTPRGLETRLvPQRGYHLELITAV-PMPRKP-GGDLARLPSRVWRAVREARDVLD 124
+                           79********************************************************.****99.999999999************** PP
+
+                           HHHHHHHHHC----EEEE--HHH........HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal........lagipanvaEqngipglvnkllprrangvl 138
+                           +  +dvvvgfggyva++a++aa+        +++ip++++E+n+++gl+n++ + +a++vl
+  sp|Q7VEP8|MURG_MYCBO 125 DVDADVVVGFGGYVALPAYLAARglplpprrRRRIPVVIHEANARAGLANRVGAHTADRVL 185
+                           ***********************************************************97 PP
+
+>> sp|B0S0Z5|MURG_FINM2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.3   0.0   1.8e-33     1e-30       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 111.3 bits;  conditional E-value: 1.8e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa++l +eL++r+ + +   ++t++gle+ + ++ g+++++i ++ + ++k+   + +k l e +++lr+a++ilk
+  sp|B0S0Z5|MURG_FINM2   3 IIVSGGGTGGHIYPAISLIEELKKRDKDNKilyVGTEKGLESSIvPKLGIDFKTIHVR-GIPRKI-NANSFKALKELFQGLREANKILK 89 
+                           6899***********************99999**************************.888888.77888888888888********* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           e+kpd+v+g+ggyv++++l+ a++ ++++  +Eqn+ pg++n++l+r++++ +
+  sp|B0S0Z5|MURG_FINM2  90 EFKPDLVIGTGGYVSGPILYKATKTKAKVAFHEQNSFPGITNRILSRYVDKYF 142
+                           *************************************************9865 PP
+
+>> sp|B7UZJ0|MURG_PSEA8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.0   0.2   8.7e-33   4.9e-30       1     137 [.       5     141 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 109.0 bits;  conditional E-value: 8.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agl+ + i++  +l+ k+   + +k ++e lk+l++a +++++ 
+  sp|B7UZJ0|MURG_PSEA8   5 VLIMAGGTGGHVFPALACAREFQARGYAVHwLGTPRGIENDLvPKAGLPLHLIQVS-GLRGKG-LKSLVKAPLELLKSLFQALRVIRQL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p  v+g ggyv ++ ++aa+l+g+p++++Eqn+++g +n+ l+  a +v
+  sp|B7UZJ0|MURG_PSEA8  92 RPVCVLGLGGYVTGPGGLAARLNGVPLVIHEQNAVAGTANRSLAPIARRV 141
+                           *****************************************998877765 PP
+
+>> sp|Q02H28|MURG_PSEAB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.0   0.2   8.7e-33   4.9e-30       1     137 [.       5     141 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 109.0 bits;  conditional E-value: 8.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agl+ + i++  +l+ k+   + +k ++e lk+l++a +++++ 
+  sp|Q02H28|MURG_PSEAB   5 VLIMAGGTGGHVFPALACAREFQARGYAVHwLGTPRGIENDLvPKAGLPLHLIQVS-GLRGKG-LKSLVKAPLELLKSLFQALRVIRQL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p  v+g ggyv ++ ++aa+l+g+p++++Eqn+++g +n+ l+  a +v
+  sp|Q02H28|MURG_PSEAB  92 RPVCVLGLGGYVTGPGGLAARLNGVPLVIHEQNAVAGTANRSLAPIARRV 141
+                           *****************************************998877765 PP
+
+>> sp|Q9HW01|MURG_PSEAE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.0   0.2   8.7e-33   4.9e-30       1     137 [.       5     141 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 109.0 bits;  conditional E-value: 8.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agl+ + i++  +l+ k+   + +k ++e lk+l++a +++++ 
+  sp|Q9HW01|MURG_PSEAE   5 VLIMAGGTGGHVFPALACAREFQARGYAVHwLGTPRGIENDLvPKAGLPLHLIQVS-GLRGKG-LKSLVKAPLELLKSLFQALRVIRQL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p  v+g ggyv ++ ++aa+l+g+p++++Eqn+++g +n+ l+  a +v
+  sp|Q9HW01|MURG_PSEAE  92 RPVCVLGLGGYVTGPGGLAARLNGVPLVIHEQNAVAGTANRSLAPIARRV 141
+                           *****************************************998877765 PP
+
+>> sp|A0PTI7|MURG_MYCUA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.6   0.5   1.4e-33   7.8e-31       1     138 [.      22     166 ..      22     167 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 111.6 bits;  conditional E-value: 1.4e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L   +++Vr   l+t++gle+++ +++g++ + i+p  +l++k  s +  + + ++++++r+++++l 
+  sp|A0PTI7|MURG_MYCUA  22 VVLAGGGTAGHVEPAMAVADALSVLEPNVRitaLGTSRGLETRLvPARGYHLELITPV-PLPRKP-SGDLARLPPRVWRSVRETRAVLD 108
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+     +++ip++++E+n+++gl+n++  r+a++vl
+  sp|A0PTI7|MURG_MYCUA 109 LVDADVVIGFGGYVALPAYLAARgipglRRRIPVVIHEANARAGLANRVGLRTADRVL 166
+                           ***************************9****************************97 PP
+
+>> sp|A6VB85|MURG_PSEA7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.0   0.2   8.7e-33   4.9e-30       1     137 [.       5     141 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 109.0 bits;  conditional E-value: 8.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+ + ++agl+ + i++  +l+ k+   + +k ++e lk+l++a +++++ 
+  sp|A6VB85|MURG_PSEA7   5 VLIMAGGTGGHVFPALACAREFQARGYAVHwLGTPRGIENDLvPKAGLPLHLIQVS-GLRGKG-LKSLVKAPLELLKSLFQALRVIRQL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p  v+g ggyv ++ ++aa+l+g+p++++Eqn+++g +n+ l+  a +v
+  sp|A6VB85|MURG_PSEA7  92 RPVCVLGLGGYVTGPGGLAARLNGVPLVIHEQNAVAGTANRSLAPIARRV 141
+                           *****************************************998877765 PP
+
+>> sp|A9KER3|MURG_COXBN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.7   0.1   2.6e-33   1.5e-30       1     135 [.       4     137 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 110.7 bits;  conditional E-value: 2.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+areL++++ +V  l+++ glee++   +  l+  +i++  ++++    l+ l+ +++  +a+++a +i+++
+  sp|A9KER3|MURG_COXBN   4 ILIIAGGTGGHIFPALAVARELREQEVDVQwLGVKGGLEEKLvpDSFPLHLIQIKAF-RGKR---GLQQLLMPLRLVRAVFQAYRIIRQ 88 
+                           6899*************************************9666666666666666.5555...66777778888899********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +kpdv++g+ggyva++ ++aa+  + p++++Eqn+ipgl+n++l++ a+
+  sp|A9KER3|MURG_COXBN  89 FKPDVILGMGGYVAGPGGLAAWITRTPLIIHEQNSIPGLTNRVLAKMAK 137
+                           ********************************************99886 PP
+
+>> sp|A9NA44|MURG_COXBR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.7   0.1   2.6e-33   1.5e-30       1     135 [.       4     137 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 110.7 bits;  conditional E-value: 2.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+areL++++ +V  l+++ glee++   +  l+  +i++  ++++    l+ l+ +++  +a+++a +i+++
+  sp|A9NA44|MURG_COXBR   4 ILIIAGGTGGHIFPALAVARELREQEVDVQwLGVKGGLEEKLvpDSFPLHLIQIKAF-RGKR---GLQQLLMPLRLVRAVFQAYRIIRQ 88 
+                           6899*************************************9666666666666666.5555...66777778888899********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +kpdv++g+ggyva++ ++aa+  + p++++Eqn+ipgl+n++l++ a+
+  sp|A9NA44|MURG_COXBR  89 FKPDVILGMGGYVAGPGGLAAWITRTPLIIHEQNSIPGLTNRVLAKMAK 137
+                           ********************************************99886 PP
+
+>> sp|B6J2Q3|MURG_COXB2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.7   0.1   2.6e-33   1.5e-30       1     135 [.       4     137 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 110.7 bits;  conditional E-value: 2.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+areL++++ +V  l+++ glee++   +  l+  +i++  ++++    l+ l+ +++  +a+++a +i+++
+  sp|B6J2Q3|MURG_COXB2   4 ILIIAGGTGGHIFPALAVARELREQEVDVQwLGVKGGLEEKLvpDSFPLHLIQIKAF-RGKR---GLQQLLMPLRLVRAVFQAYRIIRQ 88 
+                           6899*************************************9666666666666666.5555...66777778888899********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +kpdv++g+ggyva++ ++aa+  + p++++Eqn+ipgl+n++l++ a+
+  sp|B6J2Q3|MURG_COXB2  89 FKPDVILGMGGYVAGPGGLAAWITRTPLIIHEQNSIPGLTNRVLAKMAK 137
+                           ********************************************99886 PP
+
+>> sp|B6J5K3|MURG_COXB1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.7   0.1   2.6e-33   1.5e-30       1     135 [.       4     137 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 110.7 bits;  conditional E-value: 2.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+areL++++ +V  l+++ glee++   +  l+  +i++  ++++    l+ l+ +++  +a+++a +i+++
+  sp|B6J5K3|MURG_COXB1   4 ILIIAGGTGGHIFPALAVARELREQEVDVQwLGVKGGLEEKLvpDSFPLHLIQIKAF-RGKR---GLQQLLMPLRLVRAVFQAYRIIRQ 88 
+                           6899*************************************9666666666666666.5555...66777778888899********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +kpdv++g+ggyva++ ++aa+  + p++++Eqn+ipgl+n++l++ a+
+  sp|B6J5K3|MURG_COXB1  89 FKPDVILGMGGYVAGPGGLAAWITRTPLIIHEQNSIPGLTNRVLAKMAK 137
+                           ********************************************99886 PP
+
+>> sp|Q820X3|MURG_COXBU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.7   0.1   2.6e-33   1.5e-30       1     135 [.       4     137 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 110.7 bits;  conditional E-value: 2.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+areL++++ +V  l+++ glee++   +  l+  +i++  ++++    l+ l+ +++  +a+++a +i+++
+  sp|Q820X3|MURG_COXBU   4 ILIIAGGTGGHIFPALAVARELREQEVDVQwLGVKGGLEEKLvpDSFPLHLIQIKAF-RGKR---GLQQLLMPLRLVRAVFQAYRIIRQ 88 
+                           6899*************************************9666666666666666.5555...66777778888899********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +kpdv++g+ggyva++ ++aa+  + p++++Eqn+ipgl+n++l++ a+
+  sp|Q820X3|MURG_COXBU  89 FKPDVILGMGGYVAGPGGLAAWITRTPLIIHEQNSIPGLTNRVLAKMAK 137
+                           ********************************************99886 PP
+
+>> sp|Q042P9|MURG_LACGA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.8   0.0   5.2e-33   2.9e-30       1     137 [.       3     143 ..       3     145 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 109.8 bits;  conditional E-value: 5.2e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.....EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.....latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+++ggGT+G+++P++Al ++L++r          ++t +gle+++ ++ag+++++++++ ++ +k   lk++ ++  + ka+++ak+i
+  sp|Q042P9|MURG_LACGA   3 VIFSGGGTGGHIYPIMALIERLKERKLVTNdeilfVGTDRGLESKIvPAAGVPFRTLKIK-GFDRKH-PLKNFETIELFIKATKEAKQI 89 
+                           689***********************66659999**************************.****98.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +k++kpdvvvg+ggyv+++++++a++ +ip++++E+n++ gl+nk+l+ +++++
+  sp|Q042P9|MURG_LACGA  90 IKDFKPDVVVGTGGYVSGAIVYEAAKMHIPTIIHESNSVVGLANKFLAHYVDKI 143
+                           ***************************************************987 PP
+
+>> sp|B2HGR6|MURG_MYCMM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.4   0.9   1.7e-33   9.6e-31       1     138 [.      22     166 ..      22     167 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 111.4 bits;  conditional E-value: 1.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L   +++Vr   l+t +gle+++ +++g++ + i+p  +l++k  s +  + + ++++a+r+++++l 
+  sp|B2HGR6|MURG_MYCMM  22 VVLAGGGTAGHVEPAMAVADALSVLEPNVRitaLGTARGLETRLvPARGYHLELITPV-PLPRKP-SGDLARLPPRVWRAVRETRAVLD 108
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH.....HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal.....lagipanvaEqngipglvnkllprrangvl 138
+                              +dvv+gfggyva++a++aa+     +++ip++++E+n+++gl+n++  r+a++vl
+  sp|B2HGR6|MURG_MYCMM 109 LVDADVVIGFGGYVALPAYLAARgipglRRRIPVVIHEANARAGLANRVGLRTADRVL 166
+                           ***************************9****************************97 PP
+
+>> sp|Q0VS02|MURG_ALCBS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.9   0.2   4.8e-33   2.7e-30       1     132 [.       5     136 ..       5     140 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 109.9 bits;  conditional E-value: 4.8e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A+a++L++rG ++  l++++g+e  + +++g+e+ ++ +  +l+  +   ++l+ +++ l+a+ +a+++++  
+  sp|Q0VS02|MURG_ALCBS   5 VLIMAGGTGGHVFPALAVADQLRTRGFDILwLGAENGMEGNLvRQYGYEIAELSVS-RLRGGG-IKRKLTAPFNLLRAVLQARQLIRAR 91 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllpr 132
+                           +p + vgfgg+++++ ++aa+l+++p++v+Eqn++pgl+n+ll+r
+  sp|Q0VS02|MURG_ALCBS  92 QPVLAVGFGGFASGPGGLAARLCKVPVVVHEQNAVPGLTNRLLSR 136
+                           *****************************************9987 PP
+
+>> sp|Q0RNP1|MURG_FRAAA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.2   1.6   1.9e-33   1.1e-30       1     133 [.       5     139 ..       5     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 111.2 bits;  conditional E-value: 1.9e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++++++ r   l+t  gle+++ +++g+e  +++   + +++  +++ lk + + ++a+r+a ++l 
+  sp|Q0RNP1|MURG_FRAAA   5 VVLAGGGTAGHVEPALAVADALRAADPRARltlLGTATGLEARLvPARGYELATVPKV-PMPRRP-TPALLKLPVRLFDAVRQAGATLD 91 
+                           79********************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           + ++dvvvgfggyv+++a++aa+++gip++v+E+n +pg++n+l +r+
+  sp|Q0RNP1|MURG_FRAAA  92 RVRADVVVGFGGYVSVPAYLAARRRGIPIVVHEANPLPGMANRLGARF 139
+                           *******************************************98876 PP
+
+>> sp|Q2RK79|MURG_MOOTA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.3   0.5   3.7e-33   2.1e-30       1     131 [.       3     135 ..       3     142 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 110.3 bits;  conditional E-value: 3.7e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+v+Pa+A+ar+L+++ + V+   ++t +gle+ v + agl+  +i+++ +l ++   +k+++ l + +++l +a + ++
+  sp|Q2RK79|MURG_MOOTA   3 VIITGGGTGGHVYPALAIARGLKEARPGVEllyIGTARGLEADVvPRAGLTLATITVQ-GLVRRQ-VWKNIPALVKTGRGLGEAWQQVR 89 
+                           689*******************************************************.776655.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSG CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllp 131
+                           +++pdvvvg+ggyv++++++aa+l+g+p++++Eqn+ pg++n+ll+
+  sp|Q2RK79|MURG_MOOTA  90 RFRPDVVVGTGGYVSGPVCLAAALQGVPVILHEQNAFPGVTNRLLA 135
+                           ******************************************9875 PP
+
+>> sp|Q1IXV9|MURG_DEIGD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.0   1.8   2.2e-33   1.3e-30       1     137 [.       4     141 ..       4     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 111.0 bits;  conditional E-value: 2.2e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v+a+gGT+G+++PavA+ reL +rGhe   l+   g+ee+v +e+gl+++ ++++ kl+++++    ++el++  +++ +a++ l++a
+  sp|Q1IXV9|MURG_DEIGD   4 IVMATGGTGGHIYPAVAVSRELLARGHEAVlLGQRGGMEERVaAEQGLPFQGVNAG-KLARSGQGRPDPRELLRAARGVAEARAFLRDA 91 
+                           79**************************999*************************.******************************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +p +vvgfgg+++++ ++aa  +gip++++Eqn++ gl+++l + ra  v
+  sp|Q1IXV9|MURG_DEIGD  92 RPGAVVGFGGFASLPGVLAAQTLGIPTVLHEQNARLGLTQRLAAGRARAV 141
+                           *******************************************9999876 PP
+
+>> sp|Q74JY4|MURG_LACJO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.9   0.0   9.8e-33   5.5e-30       1     137 [.       3     143 ..       3     145 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 108.9 bits;  conditional E-value: 9.8e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.....EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.....latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+++ggGT+G+++P++Al ++L++r          ++t +gle+++ ++ag+++++++++ ++ +k   lk++ ++  + ka+++ak+i
+  sp|Q74JY4|MURG_LACJO   3 VIFSGGGTGGHIYPIMALIERLKERKLVTNdeilfVGTDRGLESKIvPAAGVPFKTLKIK-GFDRKH-PLKNFETIELFIKATKEAKQI 89 
+                           689***********************66659999**************************.****98.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +k++kpdvvvg+ggyv+++++++a++ ++p++++E+n++ gl+nk+l+ +++++
+  sp|Q74JY4|MURG_LACJO  90 IKNFKPDVVVGTGGYVSGAIVYEAAKMHVPTIIHESNSVVGLANKFLAHYVDKI 143
+                           ***************************************************987 PP
+
+>> sp|A5MZ55|MURG_CLOK5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.4   0.0   6.9e-33   3.9e-30       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 109.4 bits;  conditional E-value: 6.9e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l+ggG++G+v P +Al  +L++ G+e+  ++t+ g+e+++ e+++++++ i ++ kl++++  +k++++++++ k++++a +i++++
+  sp|A5MZ55|MURG_CLOK5   4 IILTGGGSAGHVTPNLALIPKLKELGYEIQyIGTESGIEREIiENEKIKYHVISSG-KLRRYF-DIKNFTDPFKVIKGIFQAIFIMRKE 90 
+                           78******************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp+vv++ gg+v++++++aa  +gip++ +E++  pgl+n+l++ ++++v 
+  sp|A5MZ55|MURG_CLOK5  91 KPNVVFSKGGFVSVPVVFAAYINGIPVIAHESDITPGLANRLSSPYCTKVC 141
+                           ***********************************************9985 PP
+
+>> sp|A1TKD1|MURG_ACIAC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.5   0.4   6.5e-33   3.7e-30       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 109.5 bits;  conditional E-value: 6.5e-33
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +A+a+eL++rG++V+ l+tp  +e+++ + +g +++pi+   +++ k+   +  + +++ l+a+ +a +++++ +
+  sp|A1TKD1|MURG_ACIAC   8 LVMAGGTGGHIFPGLAVAEELRARGWKVHwLGTPGSMESRIvPPQGFAFEPIDFS-GVRGKG-LATLALLPLRLLRAFWQALAVVRRVQ 94 
+                           689****************************************************.******.99999********************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvvvg ggyv  + +  a l+g p++v+Eqn+++glvnk+l+  a++v+
+  sp|A1TKD1|MURG_ACIAC  95 PDVVVGLGGYVTFPGGMMAVLCGKPLVVHEQNSVAGLVNKVLAGVADRVF 144
+                           ********************************************999997 PP
+
+>> sp|B7J0L2|MURG_BORBZ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.3   0.0   7.6e-33   4.3e-30       1     139 []       7     148 ..       7     148 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 109.3 bits;  conditional E-value: 7.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           + ++ggGT+G+v+P +++ ++L++ + e++   ++ ++ +ee++  e++++++ +i+++ kl++++ s+k++++++++  ++ k++++l
+  sp|B7J0L2|MURG_BORBZ   7 IFFTGGGTGGHVFPGISIIQKLKEFDNEIEffwIGKKNSIEEKLikEQDNIKFISIPCG-KLRRYF-SFKNFTDFFKVILGIIKSFYVL 93 
+                           679****************************************99**************.******.********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kp++++++gg+v+++a+ia++l++i+ + +E +  pgl++k+++++an++++
+  sp|B7J0L2|MURG_BORBZ  94 KKYKPQLIYATGGFVSTPAIIASSLLKIKSITHEMDLDPGLATKINSKFANNIHI 148
+                           ***************************************************9985 PP
+
+>> sp|O51708|MURG_BORBU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.3   0.0   7.6e-33   4.3e-30       1     139 []       7     148 ..       7     148 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 109.3 bits;  conditional E-value: 7.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           + ++ggGT+G+v+P +++ ++L++ + e++   ++ ++ +ee++  e++++++ +i+++ kl++++ s+k++++++++  ++ k++++l
+  sp|O51708|MURG_BORBU   7 IFFTGGGTGGHVFPGISIIQKLKEFDNEIEffwIGKKNSIEEKLikEQDNIKFISIPCG-KLRRYF-SFKNFTDFFKVILGIIKSFYVL 93 
+                           679****************************************99**************.******.********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kp++++++gg+v+++a+ia++l++i+ + +E +  pgl++k+++++an++++
+  sp|O51708|MURG_BORBU  94 KKYKPQLIYATGGFVSTPAIIASSLLKIKSITHEMDLDPGLATKINSKFANNIHI 148
+                           ***************************************************9985 PP
+
+>> sp|Q15Q17|MURG_PSEA6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.3   0.7   7.4e-33   4.2e-30       2     138 ..      16     152 ..      15     153 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 109.3 bits;  conditional E-value: 7.4e-33
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++ ++++ l+t  ++e+ + ++ag e+  i++  +++ ++  ++ l  +++  ka+ +a+ ++k+ k
+  sp|Q15Q17|MURG_PSEA6  16 LVMAGGTGGHVFPGLAVAQALKEQNWHIHwLGTAQRMEADLvPKAGFEISFIDIA-GVRGNG-LVRLLAAPFKIIKAVIQARGVIKQVK 102
+                           789*************************************99*************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+gg+++++ ++aa+l g p++++Eqn+ pg++n+ll+r an+vl
+  sp|Q15Q17|MURG_PSEA6 103 PDVVIGMGGFASGPGGVAAWLMGKPLVLHEQNAAPGMTNRLLARIANKVL 152
+                           ************************************************97 PP
+
+>> sp|A7A179|ATG26_YEAS7  Sterol 3-beta-glucosyltransferase OS=Saccharomyces cerevisiae (strain YJM789) GN=ATG26 PE=3 SV
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.9   0.0     1e-32   5.7e-30       2     138 ..     743     878 ..     742     879 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 108.9 bits;  conditional E-value: 1e-32
+                            EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81 
+                             l+++G+rGdv+P++Al+++L ++Gh+V ++t+ ++++fve++g+++++i+++        v++ +  + +k+l+e+ ++       +
+  sp|A7A179|ATG26_YEAS7 743 GLLTIGSRGDVQPYIALGKGLIKEGHQVVIITHSEFRDFVESHGIQFEEIAGNpvelmslmVENES--MNVKMLREASSK-------F 821
+                            589***************************************************999997777777..899999999999.......* PP
+
+                            HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            + + +a  +++++++++ + ++li++++a++ +++aE+++ip+++++++p+++++++
+  sp|A7A179|ATG26_YEAS7 822 RGWIDALLQTSWEVCNRRKFDILIESPSAMVGIHIAEALQIPYFRAFTMPWTRTRAY 878
+                            *****************************************************9987 PP
+
+>> sp|Q1D0T0|MURG_MYXXD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.1   0.4   8.5e-33   4.8e-30       1     137 [.       4     142 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 109.1 bits;  conditional E-value: 8.5e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G+++P +Ala+e+ +r h+ +   ++t++g+e++v +++g++ + ++++ +l+ k+ +l+ lk l++   a+ ++++il+
+  sp|Q1D0T0|MURG_MYXXD   4 VLIAGGGTGGHLFPGIALAEEVVTRHHRNEvvfVGTERGIESRVvPKEGYPLELVKVQ-GLKGKG-FLSLLKALFALPLAFIESFRILA 90 
+                           799************************755559*************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++kpdvvvg+ggy++++++ aa+l gip+ + Eqn++pg++nk+l r +  v
+  sp|Q1D0T0|MURG_MYXXD  91 RQKPDVVVGVGGYASGPVVMAAWLMGIPTAIQEQNALPGFTNKVLGRIVRVV 142
+                           ********************************************99887655 PP
+
+>> sp|Q1QVG7|MURG_CHRSD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.0   0.7   4.5e-33   2.5e-30       1     138 [.       9     146 ..       9     147 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 110.0 bits;  conditional E-value: 4.5e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v Pa++lar+L++rG  V+ l++p+g+e+++ ++a +  + i++  +l+ ++ + + l+ +++  ka+ +a+++++++
+  sp|Q1QVG7|MURG_CHRSD   9 VLIMAGGTGGHVVPALSLARALRARGVSVEwLGSPRGIENRLvPAADIVLHRIQVA-GLRGNG-MAGWLLAPWRLAKAVWQARQVIAKF 95 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            p++vvg gg+++++ ++aa+l +  ++v+Eqn+++g++n++l+r a+gv+
+  sp|Q1QVG7|MURG_CHRSD  96 DPQLVVGLGGFASGPGGLAAWLMRRRLIVHEQNAVAGMTNRYLSRLADGVY 146
+                           *************************************************98 PP
+
+>> sp|A4VIH8|MURG_PSEU5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.0   0.3   4.6e-33   2.6e-30       1     132 [.       5     136 ..       5     142 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 110.0 bits;  conditional E-value: 4.6e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A are+q+rG+ V+ l+tp+g+e+++ ++agl+ + i++  +l+ k+   + +k +++  ++l++a++i++e 
+  sp|A4VIH8|MURG_PSEU5   5 VLIMAGGTGGHVFPALACAREFQTRGYAVHwLGTPRGIENELvPAAGLPLHLIQVS-GLRGKG-LASLIKAPLQLVRSLFQARRIIREL 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllpr 132
+                           +p  v+g ggyv ++ ++aa+lag+p++++Eqn+++g +n+ l  
+  sp|A4VIH8|MURG_PSEU5  92 RPVCVLGLGGYVTGPGGLAAKLAGVPLVIHEQNAVAGTANRSLVP 136
+                           ****************************************98765 PP
+
+>> sp|Q38XM8|MURG_LACSS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.3   0.0   1.5e-32   8.3e-30       3     138 ..       2     143 ..       1     144 [. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 108.3 bits;  conditional E-value: 1.5e-32
+                           EE-------HHHHHHHHHHHHH---..EEE..EEETGGGHHHH.HH---EEEE----S------....-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   3 laggGTrGdvePavAlareLqrrGh..eVr..latppgleefv.eeagleavpigpdvklwakle...slktlkelaeglkalrkakei 83 
+                           ++ggGT+G+++Pa+Al ++L++rG        ++t++gle+++ + +g+++++++++ +++++++     ++lk++  +  ++++ak+ 
+  sp|Q38XM8|MURG_LACSS   2 ISGGGTGGHIYPALALIERLKQRGLldA-VlyVGTERGLESKIvPDQGIDFKTLEIQ-GFKRSMNlngIKTNLKTIELFMSSIKSAKKM 88 
+                           789*********************6423.36**************************.7777554111568999999999********* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +ke+kpdvv+g+ggyv++ +l+aa+++++p++++Eqn+ +g++nk+l+r++++v+
+  sp|Q38XM8|MURG_LACSS  89 IKEFKPDVVIGTGGYVSGSLLYAASRLKVPTIIHEQNSAAGVTNKFLARFVDKVA 143
+                           *****************************************************97 PP
+
+>> sp|A1SU19|MURG_PSYIN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.3   0.1   1.5e-32   8.3e-30       2     138 ..       8     144 ..       7     145 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 108.3 bits;  conditional E-value: 1.5e-32
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v+++gGT+G+v+P +A+a++L+++G+ V  l+t +++e+++ +++g+e+  i++  + + ++   + l+ + +  k++ +a+ +lk+ +
+  sp|A1SU19|MURG_PSYIN   8 VVMAGGTGGHVFPGLAVADALKEQGWAVSwLGTADRMEAQLvPKHGYEIDFIDIA-GIRGNG-LKRLLMAPIRIIKSIWQARSVLKKRR 94 
+                           899****************************************************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            d+v+g+gg+++++ +iaa++ gip++++Eqn+++gl+n++l+ + ++vl
+  sp|A1SU19|MURG_PSYIN  95 VDLVLGMGGFASGPGGIAAWSMGIPVILHEQNAVAGLTNRILSLFSKRVL 144
+                           ******************************************99888876 PP
+
+>> sp|Q31I59|MURG_THICR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.5   0.0   1.3e-32   7.1e-30       1     138 [.       4     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 108.5 bits;  conditional E-value: 1.3e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+P +Ala++L ++  +   l+t++g+e+++  +a++++++i++  +l+ ++  l+ lk +++++ka+r+a++i++++
+  sp|Q31I59|MURG_THICR   4 ILIMAGGTGGHVFPGLALAEALADKQVKTVwLGTCNGMEKQWvDAAKIPFYTIAIS-GLRGNG-LLGWLKAPFNVFKAWRQARYIIQQE 90 
+                           689*********************9988889*************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            pd+v+g+gg+v ++ ++aal+++ p++++Eqn+ pgl+nkll+ +a++v+
+  sp|Q31I59|MURG_THICR  91 APDLVLGMGGFVCGPGGLAALSLNKPLVLHEQNATPGLTNKLLAPFAKKVI 141
+                           ************************************************986 PP
+
+>> sp|Q04ET0|MURG_OENOB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.3   0.0   1.5e-32   8.7e-30       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 108.3 bits;  conditional E-value: 1.5e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+Al + L + +++ +   +++ +gle  + +++gl+++++ ++ ++ ++l sl+++k++  + ka++k+k i+ 
+  sp|Q04ET0|MURG_OENOB   3 IIVSGGGTGGHIYPALALVESLLKHEPDSKvlyIGSFRGLEGSIvPKTGLDFKQLHVQ-GFSRSL-SLTNFKTVNLFIKAVKKSKHIIH 89 
+                           6899************************9999**************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd+v+g+ggyv++++l+aa +++ip++++Eqn+i+g++nk+l+r a++++
+  sp|Q04ET0|MURG_OENOB  90 DFKPDIVLGTGGYVSGAVLYAAQRLRIPTVINEQNSIAGVTNKFLSRGADRIA 142
+                           *************************************************9987 PP
+
+>> sp|Q2KVG0|MURG_BORA1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.6   0.6   6.1e-33   3.4e-30       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 109.6 bits;  conditional E-value: 6.1e-33
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G++ P +A+a+ L++rG++Vr l+ p+++e ++ +++g+e+ p+  + +l+ ++   + lk ++   +al +a+++++e 
+  sp|Q2KVG0|MURG_BORA1   6 ILIMAGGTGGHIMPGLAVAEILRQRGWQVRwLGNPDKMEGKLvPARGIEMAPLRFQ-GLRGRG-VTALLKLPLLLTRALLQARKHMAEI 92 
+                           689*****************************************************.****99.99*********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+ggyva + ++ a+l++ p++v+Eqn+++g +n++l+r a++vl
+  sp|Q2KVG0|MURG_BORA1  93 QPDVVLGMGGYVAFPGGVVAALRRTPLVVHEQNAVAGTANRWLARMAKNVL 143
+                           ***********************************************9997 PP
+
+>> sp|Q5R0M1|MURG_IDILO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.5   0.2   1.3e-32   7.1e-30       1     138 [.       4     142 ..       4     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 108.5 bits;  conditional E-value: 1.3e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGG.GHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppg.leefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v++a+ GT+G+++Pa+A+a++ ++ G++V  l+t++g le++v ++a+ + ++i    +++ ++   ++l  ++   ka+ + +++lk 
+  sp|Q5R0M1|MURG_IDILO   4 VLIAAAGTGGHIFPALAVAEQMRDNGWQVDwLGTQEGrLESRViPAANFPLHSISMT-GVRGHG-LKRKLFMPFTLAKAVLQCRRLLKT 90 
+                           789*******************************98549******************.****99.777777777777************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +p+vv+ fggyv ++ ++aa+l+gip++v+Eqn+ipg++++ll+ ran+v+
+  sp|Q5R0M1|MURG_IDILO  91 LQPQVVATFGGYVCAPMGLAAKLLGIPLVVHEQNAIPGMTTRLLAPRANKVM 142
+                           **************************************************97 PP
+
+>> sp|Q5WAE4|MURG_BACSK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.1   0.0   1.8e-32     1e-29       1     136 [.       4     139 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 108.1 bits;  conditional E-value: 1.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggG++G+v P +A+ +eL ++++ +  +++ +g+e+++ e+ag+ +  i ++ kl++++  +k+++++a+  +++r+a++ilk +
+  sp|Q5WAE4|MURG_BACSK   4 IIFTGGGSAGHVTPNLAIINELNDKDWSIAyIGSYEGIERQLvEKAGIRYFGISSG-KLRRYM-DWKNVTDIARIANGFRQARKILKAE 90 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           kpdvv++ gg+v ++++ aa  ++ip++++E++  pgl+n+l +r+an+
+  sp|Q5WAE4|MURG_BACSK  91 KPDVVFSKGGFVTVPVVAAAYTLRIPVHLHESDLTPGLANRLAKRFANT 139
+                           ***********************************************97 PP
+
+>> sp|Q2JD50|MURG_FRASC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.6   1.0   2.4e-32   1.3e-29       1     131 [.       5     137 ..       5     141 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.6 bits;  conditional E-value: 2.4e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L++ + +Vr   l+t  gle+++ +++g e  +++   + +++  +++ +k +a++l+a+ +a e+l 
+  sp|Q2JD50|MURG_FRASC   5 VVLAGGGTAGHVEPALAVADALRATDSRVRltlLGTATGLEARLvPARGHELATVPKV-PMPRRP-TPAVFKLPARFLDAICQAGETLD 91 
+                           79********************************************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSG CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllp 131
+                             ++dvvvgfggyv+++a++aa+++gip++v+E+n +pgl+n+l +
+  sp|Q2JD50|MURG_FRASC  92 LVRADVVVGFGGYVSAPAYLAARRRGIPIVVHEANPLPGLANRLGA 137
+                           ******************************************9865 PP
+
+>> sp|B5ELC3|MURG_ACIF5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.2   0.9   1.6e-32   8.8e-30       1     138 [.       5     142 ..       5     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 108.2 bits;  conditional E-value: 1.6e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++a+gGT+G+v+Pa+A+a++L+++G eV+  +t  g+e+++ +e+g++ ++++ + +l+ k+   + l+ ++++ +a+ +a++il++ 
+  sp|B5ELC3|MURG_ACIF5   5 VLIAAGGTGGHVFPALAVADALRAQGVEVTfAGTATGMEARLvPERGYTLHTLDMQ-GLRGKG-IRRWLRAPWRVSRAILQARRILRQT 91 
+                           799***************************889***********************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +vv+g+ggyv ++++iaa+ +g p+ ++Eqn+++gl+n+ll+  a +v+
+  sp|B5ELC3|MURG_ACIF5  92 RSHVVLGMGGYVTAPVGIAAWTLGRPLCLHEQNAVAGLSNRLLAPLARRVF 142
+                           ******************************************998888876 PP
+
+>> sp|B7J3V2|MURG_ACIF2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.2   0.9   1.6e-32   8.8e-30       1     138 [.       5     142 ..       5     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 108.2 bits;  conditional E-value: 1.6e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++a+gGT+G+v+Pa+A+a++L+++G eV+  +t  g+e+++ +e+g++ ++++ + +l+ k+   + l+ ++++ +a+ +a++il++ 
+  sp|B7J3V2|MURG_ACIF2   5 VLIAAGGTGGHVFPALAVADALRAQGVEVTfAGTATGMEARLvPERGYTLHTLDMQ-GLRGKG-IRRWLRAPWRVSRAILQARRILRQT 91 
+                           799***************************889***********************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +vv+g+ggyv ++++iaa+ +g p+ ++Eqn+++gl+n+ll+  a +v+
+  sp|B7J3V2|MURG_ACIF2  92 RSHVVLGMGGYVTAPVGIAAWTLGRPLCLHEQNAVAGLSNRLLAPLARRVF 142
+                           ******************************************998888876 PP
+
+>> sp|Q0SM88|MURG_BORAP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.4   0.0   1.4e-32   7.7e-30       1     139 []       7     148 ..       7     148 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 108.4 bits;  conditional E-value: 1.4e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           + ++ggGT+G+++P +++ ++L++ + e++   ++ ++ +ee++  e+ ++++ +i+++ kl++++ s++++++++++  ++ k+++il
+  sp|Q0SM88|MURG_BORAP   7 IFFTGGGTGGHIFPGISIIQKLKELDNEIEffwIGKKNSIEEKLikEQNNIKFISIPCG-KLRRYF-SFQNFTDFFKVIFGIIKSFYIL 93 
+                           679****************************************99**************.******.********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kp++v+++gg+v+++ +ia++l++i+++ +E +  pgl++k+++++an++++
+  sp|Q0SM88|MURG_BORAP  94 KKYKPQIVYATGGFVSTPTIIASSLLKIKRITHEMDLDPGLATKINSKFANKIYI 148
+                           ****************************************************986 PP
+
+>> sp|Q4FQV9|MURG_PSYA2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.9   0.2   1.9e-32   1.1e-29       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.9 bits;  conditional E-value: 1.9e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++ GT+G+v+Pa+A+ +eL +rG  ++ l+tp+g+e+ + + +g+++++i+ + +l+ k+   + lk +   l a+ ++ +i++ +
+  sp|Q4FQV9|MURG_PSYA2   6 ILMMAAGTGGHVFPALAVSEELSKRGAIIHwLGTPNGMENGLvAPTGYPFHAIEMQ-GLRGKG-IGRLLKMPVTLLSATMAVIKIIRGN 92 
+                           6899**********************9999************9*************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           k+d vvgfggyv+++ +iaa+l + p++++Eqn+i+g++n++l++ a++vl
+  sp|Q4FQV9|MURG_PSYA2  93 KIDMVVGFGGYVSAPGGIAARLTKTPLIIHEQNAIAGMSNRYLAKMATKVL 143
+                           ************************************************997 PP
+
+>> sp|Q730T5|MURG2_BACC1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.6   0.0   5.1e-32   2.9e-29       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 106.6 bits;  conditional E-value: 5.1e-32
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                            +v++ggG++G+v P +A+  +Lq++ +++  ++++ g+e+++ e++g+++++i+++ kl++++  lk++k+++ + k++ +a   +++
+  sp|Q730T5|MURG2_BACC1   4 IVFTGGGSAGHVTPNLAIIPHLQEQNWDISyIGSHQGIEKTIiEKEGIPYYSIASG-KLRRYF-DLKNIKDPFLVMKGVMDAYVRIRK 89 
+                            79******************************************************.******.************************ PP
+
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             kpdv+++ gg+v+++++i+ +l+++p+ ++E++  pgl+nk+  r+a +++
+  sp|Q730T5|MURG2_BACC1  90 LKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIF 141
+                            ***********************************************99987 PP
+
+>> sp|Q1LSW5|MURG_BAUCH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.7   0.0   4.6e-32   2.6e-29       2     138 ..       7     143 ..       6     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 106.7 bits;  conditional E-value: 4.6e-32
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +A+a+   ++G++Vr l+t++++e+ + +++g++++ + +  ++  ++ + ++++ + + l+a+ ++ +i+++++
+  sp|Q1LSW5|MURG_BAUCH   7 IIVAGGTGGHIFPGLAIANNMITQGWDVRwLGTKNRIEADLvPKHGITTYFLSIY-GYGLHG-KKQKILAIVSILQAVLQSYYIMRKWR 93 
+                           6789************************************99*********9999.999999.99999999999*************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pd+v+g+ggy++++ ++aa+ ++ip++++Eqn + gl+n +l+++a++vl
+  sp|Q1LSW5|MURG_BAUCH  94 PDIVLGMGGYISGPCGLAAWMCKIPLVIHEQNRVTGLTNYYLSKFAKKVL 143
+                           ***********************************************997 PP
+
+>> sp|Q9WY74|MURG_THEMA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.1   0.2   1.7e-32   9.8e-30       1     139 []       4     146 ..       4     146 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 108.1 bits;  conditional E-value: 1.7e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeil 84 
+                           v+ aggGT+G+++P++A+ ++L +r  +V+   +a++ +++e+v ++++ e++++ +d  +l + l+++k+l+++++ + a+ ++k++l
+  sp|Q9WY74|MURG_THEMA   4 VAAAGGGTGGHLYPLLAILETLAKRV-DVKvlfFAVKGKIDERVvRKDHPEFETVSIDvRGLLRPLHHPKNLWRTLKIGIATIEVKKHL 91 
+                           5789*********************9.99999**********************7777669999************************* PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kpd+vv +ggy+++++++aa+ +gip++v+Eqn +pgl+ k+l+++a++v+v
+  sp|Q9WY74|MURG_THEMA  92 KRFKPDLVVLTGGYISGVVGLAAKDLGIPIFVHEQNVVPGLAVKVLSQYAKKVFV 146
+                           ****************************************************986 PP
+
+>> sp|B1L9S1|MURG_THESQ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.1   0.1   1.7e-32   9.8e-30       1     139 []       4     146 ..       4     146 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 108.1 bits;  conditional E-value: 1.7e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeil 84 
+                           ++ aggGT+G+++P++A+ ++L +r  +V+   +a++ +++e+v ++++ e++++ +d  +l + l+++k+l+++++ + a+ ++k++l
+  sp|B1L9S1|MURG_THESQ   4 IAAAGGGTGGHLYPLLAILETLAKRV-DVKvlfFAVKGKIDERVvRKDHPEFETVSIDvRGLLRPLHHPKNLWRTLKIGIATIEVKKHL 91 
+                           5789*********************9.99999**********************7777669999************************* PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kpd+vv +ggy+++++++aa+ +gip++v+Eqn +pgl+ k+l+++a++v+v
+  sp|B1L9S1|MURG_THESQ  92 KRFKPDLVVLTGGYISGVVGLAAKDLGIPIFVHEQNVVPGLAVKVLSQYAKKVFV 146
+                           ****************************************************986 PP
+
+>> sp|A5IKI9|MURG_THEP1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.1   0.2   1.7e-32   9.8e-30       1     139 []       4     146 ..       4     146 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 108.1 bits;  conditional E-value: 1.7e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeil 84 
+                           v+ aggGT+G+++P++A+ ++L +r  +V+   +a++ +++e+v ++++ e++++ +d  +l + l+++k+l+++++ + a+ ++k++l
+  sp|A5IKI9|MURG_THEP1   4 VAAAGGGTGGHLYPLLAILETLAKRV-DVKvlfFAVKGKIDERVvRKDHPEFETVSIDvRGLLRPLHHPKNLWRTLKIGIATIEVKKHL 91 
+                           5789*********************9.99999**********************7777669999************************* PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kpd+vv +ggy+++++++aa+ +gip++v+Eqn +pgl+ k+l+++a++v+v
+  sp|A5IKI9|MURG_THEP1  92 KRFKPDLVVLTGGYISGVVGLAAKDLGIPIFVHEQNVVPGLAVKVLSQYAKKVFV 146
+                           ****************************************************986 PP
+
+>> sp|A4FLW0|MURG_SACEN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.5   0.6   2.6e-32   1.4e-29       1     138 [.      22     160 ..      22     161 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 107.5 bits;  conditional E-value: 2.6e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vv+aggGT+G++ePa+Ala++++r  ++ r   l+t++gle+++ +++g++ + ++p  + ++k  +++ lk ++++++++++++e+l 
+  sp|A4FLW0|MURG_SACEN  22 VVVAGGGTAGHIEPALALADAVRRLRPDARvtaLGTERGLENRLvPARGYPLELVPPV-PMPRKP-TPELLKLPLKVRESVKRTREVLD 108
+                           79****************************99**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +  +dvvvgfggyv+++a++a ++ + p++v+E+n+++gl+nk+ +++a++vl
+  sp|A4FLW0|MURG_SACEN 109 RVGADVVVGFGGYVSLPAYLA-ARGKTPIVVHEANARAGLANKVGAKFAERVL 160
+                           ********************5.56789***********************997 PP
+
+>> sp|Q9RNM6|MURG_ZYMMO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.7   0.9   2.3e-32   1.3e-29       2     138 ..       8     142 ..       7     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 107.7 bits;  conditional E-value: 2.3e-32
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +la+gGT+G++ Pa Ala+eL+rrGh+V l+t ++ ++f    + +++++++++ +++  k+  +++++++++g   +++a +++++++
+  sp|Q9RNM6|MURG_ZYMMO   8 ILAAGGTGGHMIPAHALAVELMRRGHHVALVTDERGTRFPeLFKDVQIHQLPAGrLTGGVKG-LFQAMRNIWAG---RERALTLYENFT 92 
+                           79**************************************99***********986666667.89999999999...************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p++vvgfggy a++al+aa +a+ip++++Eqn+++g +n++l+ r++ ++
+  sp|Q9RNM6|MURG_ZYMMO  93 PAAVVGFGGYPALPALLAAFKAKIPTVIHEQNAVMGRTNRFLAGRVDAIA 142
+                           *********************************************99875 PP
+
+>> sp|Q06321|ATG26_YEAST  Sterol 3-beta-glucosyltransferase OS=Saccharomyces cerevisiae GN=ATG26 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.1   0.0   3.5e-32   1.9e-29       2     138 ..     743     878 ..     742     879 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 107.1 bits;  conditional E-value: 3.5e-32
+                            EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81 
+                             l+++G+rGdv+P++Al+++L ++Gh+V ++t+ ++++fve++g+++++i+++        v++ +  + +k+l+e+ ++       +
+  sp|Q06321|ATG26_YEAST 743 GLLTIGSRGDVQPYIALGKGLIKEGHQVVIITHSEFRDFVESHGIQFEEIAGNpvelmslmVENES--MNVKMLREASSK-------F 821
+                            589***************************************************999997777777..899999999999.......* PP
+
+                            HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            + + +a  +++++++++ + ++li++++a++ ++++E+++ip+++++++p+++++++
+  sp|Q06321|ATG26_YEAST 822 RGWIDALLQTSWEVCNRRKFDILIESPSAMVGIHITEALQIPYFRAFTMPWTRTRAY 878
+                            *****************************************************9987 PP
+
+>> sp|Q9PF81|MURG_XYLFA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.8   2.1   2.2e-32   1.2e-29       1     138 [.      15     152 ..      15     153 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.8 bits;  conditional E-value: 2.2e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a +L++rG  V  l+++ ++e+++ +++g+e+++i++  +++ ++ +l+ l ++ ++l a+++a+++l+++
+  sp|Q9PF81|MURG_XYLFA  15 VMILAGGTGGHIFPGLAVAGALRARGVPVVwLGATGKMETHLvPKHGIEIQTIAVS-GVRGHG-MLALLGTPVRVLPAIFAAMRVLRRY 101
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p vvv+fgg++a++ +iaa+l g p++v+Eqn  pg++n++l+r a +vl
+  sp|Q9PF81|MURG_XYLFA 102 RPRVVVSFGGFAAGPGGIAARLMGLPLIVHEQNRAPGMTNRILARVARRVL 152
+                           **********************************************99987 PP
+
+>> sp|Q5GW41|MURG_XANOR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.4   1.0   1.4e-32   7.9e-30       1     138 [.      21     158 ..      21     159 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 108.4 bits;  conditional E-value: 1.4e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L++rG  V+ l++  ++e+++ +++ +++ ++++  +l+ k+ ++k l  ++++ +a+r+a ++l++ 
+  sp|Q5GW41|MURG_XANOR  21 VMILAGGTGGHIFPGLAVAKVLRARGVPVTwLGADGAMETRLvPQHDIPIDTLAIT-GLRGKG-MVKLLGAPLRVMRAVRAAGFVLRKR 107
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|Q5GW41|MURG_XANOR 108 QPRAVISFGGFAAGPGGLAARLLGAPLLVHEQNRAPGMTNKVLSRFARRVL 158
+                           ************************************************997 PP
+
+>> sp|B2S3B6|MURG_TREPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.6   0.1   2.5e-32   1.4e-29       1     139 []      15     154 ..      15     154 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.6 bits;  conditional E-value: 2.5e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vv++ggGT+G+++P +A+ ++L ++   Vr   +++ +g ++ + e+agle++ i+++ k++++  s++++ +++++l ++ ++  il+
+  sp|B2S3B6|MURG_TREPS  15 VVFTGGGTGGHIFPGIAVFQALAQQA-AVRvvwIGAARGADRSIvESAGLEFCGITAG-KWRRYA-SVRNFFDVFRVLVGTVQSYCILR 100
+                           79********************9998.88888**************************.999999.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                             +p+++++ gg+v+++++iaa+l++ip++ +E++  pgl++++++r+a+++lv
+  sp|B2S3B6|MURG_TREPS 101 ALRPQALFSKGGFVSVPPCIAAWLLRIPVVTHESDISPGLATRINARFADRILV 154
+                           **************************************************9985 PP
+
+>> sp|O83535|MURG_TREPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.6   0.1   2.5e-32   1.4e-29       1     139 []      15     154 ..      15     154 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.6 bits;  conditional E-value: 2.5e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vv++ggGT+G+++P +A+ ++L ++   Vr   +++ +g ++ + e+agle++ i+++ k++++  s++++ +++++l ++ ++  il+
+  sp|O83535|MURG_TREPA  15 VVFTGGGTGGHIFPGIAVFQALAQQA-AVRvvwIGAARGADRSIvESAGLEFCGITAG-KWRRYA-SVRNFFDVFRVLVGTVQSYCILR 100
+                           79********************9998.88888**************************.999999.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                             +p+++++ gg+v+++++iaa+l++ip++ +E++  pgl++++++r+a+++lv
+  sp|O83535|MURG_TREPA 101 ALRPQALFSKGGFVSVPPCIAAWLLRIPVVTHESDISPGLATRINARFADRILV 154
+                           **************************************************9985 PP
+
+>> sp|Q0AJE1|MURG_NITEC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.3   0.0     3e-32   1.7e-29       3     138 ..       2     137 ..       1     138 [. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.3 bits;  conditional E-value: 3e-32
+                           EE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   3 laggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           +++gGT+G+v+P +A+ar+ q++G++V+ l+t +g+e+++ +++g +++ i+   +l+ k   ++ l+ +++  ka  +++ il++++p
+  sp|Q0AJE1|MURG_NITEC   2 IMAGGTGGHVFPGLAVARAMQAEGWRVIwLGTRNGMEATLvPQHGFTIELINFS-GLRGKK-PVSYLLLPWRLAKACWQSFCILRRQRP 88 
+                           789***************************************************.****99.*************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++v+g+ggy a++ +i a l+g p+ ++Eqn i+gl+nk+l++ a ++l
+  sp|Q0AJE1|MURG_NITEC  89 QIVLGMGGYPALPGGIMAVLSGKPLLIHEQNRIAGLTNKILAKIASRIL 137
+                           *******************************************999886 PP
+
+>> sp|B3PCM0|MURG_CELJU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.1   0.8   1.8e-32     1e-29       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 108.1 bits;  conditional E-value: 1.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+eL++rG  V+ l+t +g+e+++ ++a+++   i ++ +++ ++   + lk ++   ka+++a  i+++ 
+  sp|B3PCM0|MURG_CELJU   6 ILVMAGGTGGHVFPALAVAEELRARGALVEwLGTAKGIENTLvPKANIPLNLISVE-GVRGRG-LTGLLKAPFLITKAVFQAISIIRKM 92 
+                           789*****************************************************.****99.9************************ PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++d+v+gfgg+++++ ++aa+l+g p++++Eqn+++g +n+ll+r a +vl
+  sp|B3PCM0|MURG_CELJU  93 NADLVLGFGGFASGPGGVAARLLGKPLVIHEQNAVAGTTNRLLARIAQRVL 143
+                           ***********************************************9987 PP
+
+>> sp|A5G8K0|MURG_GEOUR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.0   0.1   3.6e-32     2e-29       2     139 .]       4     143 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 107.0 bits;  conditional E-value: 3.6e-32
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+ +r h  +   ++t++g+e+++ +  g+  + i++  + + +   l++++++a+ l ++ ++++ilke
+  sp|A5G8K0|MURG_GEOUR   4 LIAGGGTGGHLFPGIAVAEEFLARNHSNEvlfVGTERGIEARLlPRLGYRLECITAS-GIKGQS-PLAKIRSAAQLLYGYAQSRRILKE 90 
+                           79************************77777**************************.9**999.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           ++pd+v+g+ggy+++++++aa+  +i ++++Eqn+ipgl+nkll+r+a++v++
+  sp|A5G8K0|MURG_GEOUR  91 FRPDLVLGVGGYASAPVVLAARGMQIRRFIHEQNAIPGLTNKLLARFAEKVFI 143
+                           *************************************************9985 PP
+
+>> sp|A5U4I0|MURG_MYCTA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.8   1.0   2.2e-32   1.2e-29       1     138 [.      38     185 ..      38     186 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.8 bits;  conditional E-value: 2.2e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L + +++Vr   l+t +gle+++ +++g++ + i++  + ++k    +  + + ++++a+r+a+ +l 
+  sp|A5U4I0|MURG_MYCTA  38 VVLAGGGTAGHVEPAMAVADALVALDPRVRitaLGTLRGLETRLvPQRGYHLELITAV-PMPRKP-GGDLARLPSRVWRAVREARDVLD 124
+                           79********************************************************.****99.999999999************** PP
+
+                           HHHHHHHHHC----EEEE--HHH........HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal........lagipanvaEqngipglvnkllprrangvl 138
+                           +  +dvvvgfggyva++a++aa+        +++ip++++E+n+++gl+n++ + +a++vl
+  sp|A5U4I0|MURG_MYCTA 125 DVDADVVVGFGGYVALPAYLAARglplpprrRRRIPVVIHEANARAGLANRVGAHTADRVL 185
+                           ***********************************************************97 PP
+
+>> sp|O06224|MURG_MYCTU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.8   1.0   2.2e-32   1.2e-29       1     138 [.      38     185 ..      38     186 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.8 bits;  conditional E-value: 2.2e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+vePa+A+a++L + +++Vr   l+t +gle+++ +++g++ + i++  + ++k    +  + + ++++a+r+a+ +l 
+  sp|O06224|MURG_MYCTU  38 VVLAGGGTAGHVEPAMAVADALVALDPRVRitaLGTLRGLETRLvPQRGYHLELITAV-PMPRKP-GGDLARLPSRVWRAVREARDVLD 124
+                           79********************************************************.****99.999999999************** PP
+
+                           HHHHHHHHHC----EEEE--HHH........HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal........lagipanvaEqngipglvnkllprrangvl 138
+                           +  +dvvvgfggyva++a++aa+        +++ip++++E+n+++gl+n++ + +a++vl
+  sp|O06224|MURG_MYCTU 125 DVDADVVVGFGGYVALPAYLAARglplpprrRRRIPVVIHEANARAGLANRVGAHTADRVL 185
+                           ***********************************************************97 PP
+
+>> sp|Q4JW95|MURG_CORJK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.7   0.7   2.3e-32   1.3e-29       1     130 [.      13     144 ..      13     147 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 107.7 bits;  conditional E-value: 2.3e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vv+aggGT+G++ePa+A+a++++++ ++ r   l+t++gle+++ +++g + + i+p  ++++kl   +  + +++ +kal+++k++l+
+  sp|Q4JW95|MURG_CORJK  13 VVVAGGGTAGHIEPAMAVAEAVRAQRPDARitaLGTTRGLETTLvPARGFDLQLIPPV-PVPRKL-NKDLATLPLRLRKALKETKRVLR 99 
+                           79********************************************************.****99.99999999*************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           e ++dvv+gfggyv+++a++aa++++ip +v+E+n+++g++nkl 
+  sp|Q4JW95|MURG_CORJK 100 EVEADVVIGFGGYVSAPAYLAARSLKIPFFVHEANARAGVANKLG 144
+                           ******************************************975 PP
+
+>> sp|Q97GY4|MURG_CLOAB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.4   0.0   5.8e-32   3.3e-29       1     137 [.       6     142 ..       6     144 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 106.4 bits;  conditional E-value: 5.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v++ggG++G+v P +Al  +L++ G+e++ ++t++g+e+ + e++++++  i ++ kl++++  +k++++++++  +++++  il+++
+  sp|Q97GY4|MURG_CLOAB   6 IVMTGGGSAGHVTPNLALVPKLKELGYEIEyIGTKDGIERSIiEKENIKYNCISSG-KLRRYI-DIKNFSDPFKVILGIFQSVSILRKK 92 
+                           79******************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp++v++ gg+v+++++iaa +++ip++ +E++  pgl+n++   ++++v
+  sp|Q97GY4|MURG_CLOAB  93 KPNIVFSKGGFVSVPVVIAAHFCRIPVIAHESDITPGLANRIAVPYCTKV 142
+                           ********************************************999987 PP
+
+>> sp|Q9Z702|MURG_CHLPN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.8   0.0   4.5e-32   2.5e-29       1     137 [.       8     142 ..       8     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 106.8 bits;  conditional E-value: 4.5e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v+la+gG++G++ Pa+++ +++ r+G++V l   +gl+++   ++g+++++i+++  l+  l+ +k ++++++ + ++ ka++ lk + 
+  sp|Q9Z702|MURG_CHLPN   8 VALAVGGSGGHIVPALSVKEAFSREGIDV-LLLGKGLKNHPsLQQGISYREIPSG--LPTVLNPIKIMSRTLSLCSGYLKARKELKIFD 93 
+                           79***************************.999**********************..99999*************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+v+gfg+y+++++l+a l+++ip++++Eqn +pg+vn+l++r+a g+
+  sp|Q9Z702|MURG_CHLPN  94 PDLVIGFGSYHSLPVLLAGLSHKIPLFLHEQNLVPGKVNQLFSRYARGI 142
+                           **********************************************997 PP
+
+>> sp|Q1Q944|MURG_PSYCK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.6   0.3     5e-32   2.8e-29       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 106.6 bits;  conditional E-value: 5e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++ GT+G+v+Pa+A+ +eL +rG  ++ l+tp+g+e+ + + +g+++++i+ + +l+ k+   + lk +   l a+ ++ +i++ +
+  sp|Q1Q944|MURG_PSYCK   6 ILMMAAGTGGHVFPALAVSEELTKRGAMIHwLGTPNGMENGLvAPTGYPFHAIEMQ-GLRGKG-IGRLLKMPVTLLSATMAVIKIIRGN 92 
+                           6899**********************9999************9*************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++d+vvgfggyv+++ +iaa+l + p++++Eqn+i+g++n++l++ a++vl
+  sp|Q1Q944|MURG_PSYCK  93 NIDIVVGFGGYVSAPGGIAARLTKTPLIIHEQNAIAGMSNRYLAKMATKVL 143
+                           ************************************************997 PP
+
+>> sp|C0RE70|MURG_BRUMB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|C0RE70|MURG_BRUMB  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|C0RE70|MURG_BRUMB  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|Q8YI66|MURG_BRUME  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|Q8YI66|MURG_BRUME  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|Q8YI66|MURG_BRUME  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|Q3BXF2|MURG_XANC5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.2   0.9   6.7e-32   3.8e-29       1     138 [.      22     159 ..      22     160 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 106.2 bits;  conditional E-value: 6.7e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L++rG  V+ l++ +++e+++ +++ +++ ++++  +l+ k+  +k l  + ++ +a+r+a ++l++ 
+  sp|Q3BXF2|MURG_XANC5  22 VMILAGGTGGHIFPGLAVAKVLRARGVPVTwLGADDAMETRLvPQHDIPIDTLAIS-GLRGKG-VVKLLGAPVRVMRAVRAAGFVLRKR 108
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|Q3BXF2|MURG_XANC5 109 RPRAVISFGGFAAGPGGLAARLLGAPLLVHEQNRAPGMTNKVLSRFARRVL 159
+                           ************************************************997 PP
+
+>> sp|B2S6Q4|MURG_BRUA1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|B2S6Q4|MURG_BRUA1  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|B2S6Q4|MURG_BRUA1  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|Q2YLY5|MURG_BRUA2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|Q2YLY5|MURG_BRUA2  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|Q2YLY5|MURG_BRUA2  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|Q57C78|MURG_BRUAB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|Q57C78|MURG_BRUAB  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|Q57C78|MURG_BRUAB  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|Q660A8|MURG_BORGA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.1   0.0   7.2e-32   4.1e-29       1     138 [.       7     147 ..       7     148 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 106.1 bits;  conditional E-value: 7.2e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           + ++ggGT+G+v+P +++ ++L++ + e++   ++ ++ +ee++  e+ ++++  ++++ kl++++ s++++++++++  ++ k++++l
+  sp|Q660A8|MURG_BORGA   7 IFFTGGGTGGHVFPGISIIQKLKELDNEIEffwIGKKNSIEEKLikEQNNIKFIWVPCG-KLRRYF-SFQNFTDFFKVILGIIKSFYVL 93 
+                           679****************************************99**************.******.********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           k++kp++v+++gg+v+++ +ia++l++i+++ +E +  pgl++k+++++an+++
+  sp|Q660A8|MURG_BORGA  94 KKYKPQIVYATGGFVSTPTIIASSLLKIKRITHEMDLDPGLATKINSKFANKIY 147
+                           ****************************************************98 PP
+
+>> sp|B8I6H3|MURG_CLOCE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.2   0.0   6.7e-32   3.8e-29       1     137 [.       3     141 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 106.2 bits;  conditional E-value: 6.7e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G++ P +A+a+  ++++ e     ++t++gle+++ + +g++ ++i+++ ++++kl sl+tl  + e  +++++a ++lk
+  sp|B8I6H3|MURG_CLOCE   3 VLIAGGGTGGHINPGLAIAKYIKQKEAEADitfVGTKKGLETKLvPREGYPLETITVR-GFKRKL-SLDTLIAIKELIQSFFQASRLLK 89 
+                           799*********************99999999**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           + kpdvv+g+ggyv +++l+ a++ gip+ ++E+n+ pg++n+ll r++  v
+  sp|B8I6H3|MURG_CLOCE  90 RIKPDVVIGTGGYVCGPVLYMAAKKGIPTLIHESNAFPGVTNRLLERYVSYV 141
+                           ***********************************************99766 PP
+
+>> sp|A5VRH7|MURG_BRUO2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|A5VRH7|MURG_BRUO2  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|A5VRH7|MURG_BRUO2  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|B0CHM0|MURG_BRUSI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|B0CHM0|MURG_BRUSI  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|B0CHM0|MURG_BRUSI  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|A0JV94|MURG_ARTS2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.1   0.7   7.1e-32     4e-29       1     133 [.       8     142 ..       8     148 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 106.1 bits;  conditional E-value: 7.1e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G++ P++A+a +L++  ++Vr   ++tp g+e+++ ++agle  +i    +++++  sl+ l+ + +   a+++a +il 
+  sp|A0JV94|MURG_ARTS2   8 VVLAGGGTAGHISPLLAIAAALRDVRPDVRllaVGTPSGMETRLvPAAGLELATISRV-PFPRRP-SLDLLRLPGRLAGAVKQAGRILD 94 
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           +a +dv+vg+ggyv +++++aa++++ip++++E+n ++gl+nk+ +r+
+  sp|A0JV94|MURG_ARTS2  95 DAHADVLVGVGGYVCTPLYLAARRRKIPIVIHEANTRAGLANKVGARF 142
+                           *******************************************99887 PP
+
+>> sp|A6TS61|MURG_ALKMQ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.1   0.0   7.2e-32   4.1e-29       1     138 [.       3     142 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 106.1 bits;  conditional E-value: 7.2e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+a++  ++ ++ +   ++t +gle+++ ++ag+e++ i++   l++k+ s++++k++a+  k+l +a++++k
+  sp|A6TS61|MURG_ALKMQ   3 IMISGGGTGGHIYPAIAIANQITEKHPQAKiqfVGTAKGLESELiPKAGYEIKHITVS-YLRRKI-SFHNVKSIAKLIKGLVEARRLIK 89 
+                           6799******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++pdvv+g+gg+v +++l+ a+++g ++ ++Eqn  pgl+n++l  ++++++
+  sp|A6TS61|MURG_ALKMQ  90 DFNPDVVIGTGGFVCGPVLYMATKLGYKTLIHEQNVFPGLTNRVLGNYVDRIA 142
+                           *************************************************9986 PP
+
+>> sp|C5D4C2|MURG_GEOSW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.1   0.0   7.1e-32     4e-29       1     137 [.       5     142 ..       5     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 106.1 bits;  conditional E-value: 7.1e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++l+ggGT+G+v   +Al  +L+++G+++  ++++ g+e+++  + +g+++ pi ++ kl++++  ++++k+++++lk++++a +i+k+
+  sp|C5D4C2|MURG_GEOSW   5 IILTGGGTAGHVMVNLALIPKLKEQGWDIAyIGSHQGIERELisKVEGVPYFPISTG-KLRRYF-DWNNFKDPFKVLKGTFQAYRIIKK 91 
+                           78**************************************9999999**********.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +kp +v++ gg+v+++++i+a+l+g+p +++E++  pgl+nk+ + +a+++
+  sp|C5D4C2|MURG_GEOSW  92 EKPSIVFSKGGFVSVPVIIGAWLNGVPSIIHESDITPGLANKIAMPFATKI 142
+                           ***********************************************9997 PP
+
+>> sp|A9M690|MURG_BRUC2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|A9M690|MURG_BRUC2  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|A9M690|MURG_BRUC2  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|Q8PPA8|MURG_XANAC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.5   1.1   1.1e-31   6.1e-29       1     138 [.      21     158 ..      21     159 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 105.5 bits;  conditional E-value: 1.1e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L++rG  V+ l++  ++e+++ +++ +++ ++++  +l+ k+  +k l  + ++ +a+r+a ++l++ 
+  sp|Q8PPA8|MURG_XANAC  21 VMILAGGTGGHIFPGLAVAKVLRARGVPVTwLGADGAMETRLvPQHDIPIDTLAIS-GLRGKG-VVKLLGAPVRVMRAVRAAGFVLRKR 107
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|Q8PPA8|MURG_XANAC 108 QPRAVISFGGFAAGPGGLAARLLGAPLLVHEQNRAPGMTNKVLSRFARRVL 158
+                           ************************************************997 PP
+
+>> sp|Q8CY39|MURG_BRUSU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.6   0.3   9.8e-32   5.5e-29       1     137 [.      10     145 ..      10     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 105.6 bits;  conditional E-value: 9.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +fv + a  +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|Q8CY39|MURG_BRUSU  10 IVLAAGGTGGHLFPAEALAHELRARGWDVHLATDARAQRFVgAFAQDHVHVIRSA-TIAGR-NPVALLKTFWSLWQGNLDSRKLFRRLK 96 
+                           79***************************************87777777778888.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+  gip+ ++Eqn+++g +nk l+ r++ +
+  sp|Q8CY39|MURG_BRUSU  97 PKLVVGFGGYPTLPPLYAASNMGIPTLIHEQNAVMGRANKGLAGRVKAI 145
+                           ****************************************999998865 PP
+
+>> sp|A1WRL1|MURG_VEREI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.8   1.1   8.9e-32     5e-29       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 105.8 bits;  conditional E-value: 8.9e-32
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +A+a++L++rG++V+ l++p  +e+++ +++g + ++++   +++ k+   +  + +++ l+a+ +a+++l++ +
+  sp|A1WRL1|MURG_VEREI   8 LIMAGGTGGHIFPGLAVAEALRARGWRVHwLGAPASMEARIaAQHGFALESVTFS-GVRGKG-LATLALLPLRLLRAFWQARAVLRRVQ 94 
+                           689****************************************************.******.99999********************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdv+vg ggy++ +  +  ll++ p++++Eqn+++gl+n+ll+ ra++v+
+  sp|A1WRL1|MURG_VEREI  95 PDVLVGLGGYISFPGALMGLLRRKPLVLHEQNAVAGLANRLLAGRADRVF 144
+                           ***********************************************997 PP
+
+>> sp|Q812T8|MURG2_BACCR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.4   0.0   2.4e-31   1.3e-28       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 104.4 bits;  conditional E-value: 2.4e-31
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                            +v++ggG++G+v P +A+   Lq+  +++  ++++ g+e+++ e++g+++++i ++ kl++++  lk++k+++ + k++ +a   +++
+  sp|Q812T8|MURG2_BACCR   4 IVFTGGGSAGHVTPNLAIIPYLQEDNWDISyIGSHQGIEKTIiEKEGIPYYSISSG-KLRRYF-DLKNIKDPFLVMKGVMDAYVRIRK 89 
+                            79******************************************************.******.************************ PP
+
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             kpdv+++ gg+v+++++i+ +l+++p+ ++E++  pgl+nk+  r+a +++
+  sp|Q812T8|MURG2_BACCR  90 LKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIF 141
+                            ***********************************************99987 PP
+
+>> sp|B0U4Z7|MURG_XYLFM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.9   2.6   8.4e-32   4.8e-29       1     138 [.      15     152 ..      15     153 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 105.9 bits;  conditional E-value: 8.4e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a +L++rG  V  l+++ ++e+++ +++g+e+++i++  +++ ++ +l+ l  + ++l+a+++a+ +l+++
+  sp|B0U4Z7|MURG_XYLFM  15 VMILAGGTGGHIFPGLAVAGALRARGVPVVwLGATGKMETHLvPKHGIEIQTIAVA-GVRGRG-MLALLGAPVRVLRAIFAAMGVLRRY 101
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p vvv+fgg++a++ +iaa++ + p++v+Eqn  pg++n++l+r a++vl
+  sp|B0U4Z7|MURG_XYLFM 102 RPRVVVSFGGFAAGPGGIAARFMRLPLIVHEQNRAPGMTNRVLARVAKRVL 152
+                           ************************************************997 PP
+
+>> sp|A4IJS4|MURG_GEOTN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.7   0.0   9.4e-32   5.3e-29       1     137 [.       5     142 ..       5     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 105.7 bits;  conditional E-value: 9.4e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +vl+ggGT+G+v   vAl  +L+++G+++  +++++g+e+++  + +g++++++ ++ kl++++  +k++k+++++lk++ +a +++++
+  sp|A4IJS4|MURG_GEOTN   5 IVLTGGGTAGHVMVNVALIPKLKEQGWDIVyIGSHEGIEREIigRIDGVPYYSVSTG-KLRRYF-DWKNFKDPFNVLKGVWQAYRLIQK 91 
+                           79****************************************9999***********.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +kpd+v++ gg+v+++++++a+l+g+p +++E++  pgl+nk+ + +a+++
+  sp|A4IJS4|MURG_GEOTN  92 EKPDIVFSKGGFVSVPVILGAWLNGVPSVIHESDLTPGLANKIAMPFATKI 142
+                           **********************************************99987 PP
+
+>> sp|Q2NZB8|MURG_XANOM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.4   0.9   5.8e-32   3.2e-29       1     138 [.      21     158 ..      21     159 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 106.4 bits;  conditional E-value: 5.8e-32
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L +rG  V+ l++  ++e+++ +++ +++ ++++  +l+ k+ ++k l  ++++ +a+r+a ++l++ 
+  sp|Q2NZB8|MURG_XANOM  21 VMILAGGTGGHIFPGLAVAKVLSARGVPVTwLGADGAMETRLvPQHDIPIDTLAIT-GLRGKG-MVKLLGAPLRVMRAVRAAGFVLRKR 107
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|Q2NZB8|MURG_XANOM 108 QPRAVISFGGFAAGPGGLAARLLGAPLLVHEQNRAPGMTNKVLSRFARRVL 158
+                           ************************************************997 PP
+
+>> sp|A5FIY3|MURG_FLAJ1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.2   0.0   1.3e-31   7.6e-29       1     137 [.       6     144 ..       6     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 105.2 bits;  conditional E-value: 1.3e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G+++Pa+A+a+eL+ + ++ +   +++++++e +  ++ag+e++ + +  +l++kl +l++++ +++   +l ++k+i+k
+  sp|A5FIY3|MURG_FLAJ1   6 FILSGGGTGGHIYPAIAIANELKLQFPDAEflfVGAKDKMEMQKvPQAGYEIKGLWIA-GLQRKL-TLQNMMFPLKLASSLLESKRIIK 92 
+                           79**************************************98877*************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++kp+vv+g+gg++++++l aa +agip++v Eqn+ pg++nkll+++an +
+  sp|A5FIY3|MURG_FLAJ1  93 KFKPNVVIGTGGFASGPLLQAAGSAGIPTVVQEQNSFPGITNKLLSKKANAI 144
+                           *************************************************987 PP
+
+>> sp|Q39JX0|MURG_BURS3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.2   0.4   2.8e-31   1.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 104.2 bits;  conditional E-value: 2.8e-31
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ +++ l+a  ++ ++l++ +
+  sp|Q39JX0|MURG_BURS3   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPFNLLRACGQSLAALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l+++a++vlv
+  sp|Q39JX0|MURG_BURS3  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLTNKVLAKFAKRVLV 146
+                           ************************************************986 PP
+
+>> sp|C1A0X5|MURG_RHOE4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.9   1.1   1.7e-31   9.4e-29       1     138 [.      10     155 ..      10     156 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 104.9 bits;  conditional E-value: 1.7e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vv+aggGT+G++ePa+A+a++++++ ++ r   l+t +gle+++ +++g++ + i+p  +l++k  +++ +k + + l ++rk++e+l 
+  sp|C1A0X5|MURG_RHOE4  10 VVVAGGGTAGHIEPALAVADAVKAAQPDTRitaLGTARGLETTLvPARGYTLELIPPV-PLPRKP-TMDLVKLPTRILASVRKTREVLD 96 
+                           79********************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH......HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal......lagipanvaEqngipglvnkllprrangvl 138
+                           +  +dv+vgfggyva++a++aa+      +++ip++++E+n+ +g++nk+ +r a++vl
+  sp|C1A0X5|MURG_RHOE4  97 SVDADVIVGFGGYVALPAYLAARggvlrrRRKIPIVIHEANASAGIANKIGARLATRVL 155
+                           *******************************************************9997 PP
+
+>> sp|Q748D6|MURG_GEOSL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.9   0.1   3.3e-31   1.8e-28       2     138 ..       4     142 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 103.9 bits;  conditional E-value: 3.3e-31
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+ +r+ + +   ++t +g+e++v +++g+  + i++  + + k+ sl+  k la++l ++ ++++ilke
+  sp|Q748D6|MURG_GEOSL   4 LIAGGGTGGHLFPGIAVAEEFLARDKQNEvlfVGTWKGIEARVlPKTGYRLECITAA-GIRGKG-SLARAKGLAKFLYGYAQSRKILKE 90 
+                           79*******************9999766666**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pd+v+g+ggy++++ l aa+  +ip++++Eqn+ipg++n+ l++ a++++
+  sp|Q748D6|MURG_GEOSL  91 FRPDLVLGVGGYASAPTLMAARGMQIPRFIHEQNAIPGFTNRMLAKVADKIF 142
+                           ************************************************9987 PP
+
+>> sp|Q820Y4|MURG_TROWT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.4   0.1   2.4e-31   1.3e-28       1     137 [.       4     140 ..       4     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 104.4 bits;  conditional E-value: 2.4e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++laggGT+G+v P++Ala+ L+  Gh    l+t++g+e+++ +++g+++ +i+   +++++  s + l  +++++ +++ ++ il e+
+  sp|Q820Y4|MURG_TROWT   4 ILLAGGGTAGHVNPLLALADVLKVSGHATFaLGTSEGIESRLvPNSGIDFFTIPKL-PFPRRT-SRHILCFPFKFFSSVKLVRSILIEH 90 
+                           79***************************99************************9.****99.99*********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           k++vvvgfggyva++a+ aa++++ip +v+E+n++pgl+n l + +a+ v
+  sp|Q820Y4|MURG_TROWT  91 KIQVVVGFGGYVAAPAYAAAISLNIPYVVHESNARPGLANLLAAHFAKCV 140
+                           ****************************************9999999876 PP
+
+>> sp|Q83HK1|MURG_TROW8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.4   0.1   2.4e-31   1.3e-28       1     137 [.       4     140 ..       4     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 104.4 bits;  conditional E-value: 2.4e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++laggGT+G+v P++Ala+ L+  Gh    l+t++g+e+++ +++g+++ +i+   +++++  s + l  +++++ +++ ++ il e+
+  sp|Q83HK1|MURG_TROW8   4 ILLAGGGTAGHVNPLLALADVLKVSGHATFaLGTSEGIESRLvPNSGIDFFTIPKL-PFPRRT-SRHILCFPFKFFSSVKLVRSILIEH 90 
+                           79***************************99************************9.****99.99*********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           k++vvvgfggyva++a+ aa++++ip +v+E+n++pgl+n l + +a+ v
+  sp|Q83HK1|MURG_TROW8  91 KIQVVVGFGGYVAAPAYAAAISLNIPYVVHESNARPGLANLLAAHFAKCV 140
+                           ****************************************9999999876 PP
+
+>> sp|A4QFM3|MURG_CORGB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.5   0.9   2.3e-31   1.3e-28       1     129 [.       3     132 ..       3     135 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 104.5 bits;  conditional E-value: 2.3e-31
+                           EEEE-------HHHHHHHHHHHHH-.--EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrr.GheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           vv+aggGT+G++ePa+A+a++L+++ G  V  l+t +gle+++ + +g e + i+p  ++++k   ++ lk ++++ kal +a+++lk+
+  sp|A4QFM3|MURG_CORGB   3 VVVAGGGTAGHIEPALAVAEALRDKhGATVSaLGTARGLETTLvPDRGFELHLIEPV-PVPRKP-NMDLLKLPFRVAKALGQARKALKD 89 
+                           79********************975378888**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEES CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkl 129
+                             +++v+gfggyv+++a+ aa+++g p +v+E+n+++g++nkl
+  sp|A4QFM3|MURG_CORGB  90 TDAQAVIGFGGYVSAPAYMAAKSLGLPFFVHEANARAGMANKL 132
+                           *****************************************97 PP
+
+>> sp|Q39YL9|MURG_GEOMG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.0   0.1   3.1e-31   1.8e-28       2     138 ..       4     142 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 104.0 bits;  conditional E-value: 3.1e-31
+                           EEE-------HHHHHHHHHHH..HH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareL..qrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+  +++G eV  ++t +g+e++v ++ g+  + i++  + + k+ s++  k la++l ++ ++++ilke
+  sp|Q39YL9|MURG_GEOMG   4 LIAGGGTGGHLFPGIAVAEEFlsRKKGNEVLfVGTWRGIEARVlPKLGYRLECITAA-GIRGKG-SVARAKGLAKFLYGYAQSRKILKE 90 
+                           79******************977789*******************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpd+v+g+ggy++++al+aa+  +ip++++Eqn+ipg++nk l+  a++v+
+  sp|Q39YL9|MURG_GEOMG  91 FKPDLVLGVGGYASAPALLAARGMHIPRFIHEQNAIPGFTNKMLATVAERVF 142
+                           ********************************************99999987 PP
+
+>> sp|A1R0I9|MURG_BORT9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.5   0.0   2.2e-31   1.3e-28       1     139 []       7     148 ..       7     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 104.5 bits;  conditional E-value: 2.2e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           + ++ggGT+G+v+P +A+  +L++ + +++   l+ ++ +e+++  e a +++ +i+++ kl++++ sl+++++++++  ++ k+++i+
+  sp|A1R0I9|MURG_BORT9   7 IFFTGGGTGGHVFPGIAIISKLRELDTNIEffwLGQKDSMEDKIikEHAYIKFIAIPSG-KLRRYF-SLQNFTDFFKVIFGIIKSFFII 93 
+                           679******************************************9999**********.******.********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kp++++++gg+v+ +++iaa+l++++ + +E +  pgl++k+++++an++++
+  sp|A1R0I9|MURG_BORT9  94 KKYKPQIIYATGGFVSSPPIIAASLLKVKSITHEMDLDPGLATKINSKFANKIHI 148
+                           ****************************************************985 PP
+
+>> sp|Q3AAE6|MURG_CARHZ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.9   0.0   3.5e-31     2e-28       2     137 ..       4     141 ..       3     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.9 bits;  conditional E-value: 3.5e-31
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v+aggGT+G+++Pa+A+a+  ++  ++ +   ++tp+g+e++v +++g + + ++++ + ++k+ s++tlk l+ + k+l  a+  lk+
+  sp|Q3AAE6|MURG_CARHZ   4 VFAGGGTGGHLYPALAIAQSWKESHPNDEilfVGTPRGIENTVvPKYGFPLYLLPVE-GIPRKV-SWETLKKLFLVPKSLINAFIFLKK 90 
+                           89***********************998889**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +kpd+vvg+ggy++ ++++aa+ ++ip++++Eqn+ pg++nk+l+ r++ v
+  sp|Q3AAE6|MURG_CARHZ  91 EKPDIVVGTGGYASFPVVFAATVLKIPTVIHEQNAYPGIANKILAARVDAV 141
+                           ***********************************************9987 PP
+
+>> sp|Q8NNN5|MURG_CORGL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.5   0.9   2.3e-31   1.3e-28       1     129 [.       3     132 ..       3     135 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 104.5 bits;  conditional E-value: 2.3e-31
+                           EEEE-------HHHHHHHHHHHHH-.--EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrr.GheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           vv+aggGT+G++ePa+A+a++L+++ G  V  l+t +gle+++ + +g e + i+p  ++++k   ++ lk ++++ kal +a+++lk+
+  sp|Q8NNN5|MURG_CORGL   3 VVVAGGGTAGHIEPALAVAEALRDKhGATVSaLGTARGLETTLvPDRGFELHLIEPV-PVPRKP-NMDLLKLPFRVAKALGQARKALKD 89 
+                           79********************975378888**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEES CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkl 129
+                             +++v+gfggyv+++a+ aa+++g p +v+E+n+++g++nkl
+  sp|Q8NNN5|MURG_CORGL  90 TDAQAVIGFGGYVSAPAYMAAKSLGLPFFVHEANARAGMANKL 132
+                           *****************************************97 PP
+
+>> sp|Q0TNP7|MURG_CLOP1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.8   0.0   3.5e-31     2e-28       1     135 [.       6     140 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.8 bits;  conditional E-value: 3.5e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggG++G+v P +Al  +L++ G e++ +++++g+e+++ +++++++++i ++ kl++++  +k++++++++lk++ +a +il+++
+  sp|Q0TNP7|MURG_CLOP1   6 IIMTGGGSAGHVTPNLALVPKLKELGFEIKyIGSKNGIEKEIiTKENIPYYSISSG-KLRRYF-DIKNFTDPFKVLKGVMDASRILSKE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kpdv+++ gg+v ++++iaa+  +ip++ +E++  pgl+nk+ + +++
+  sp|Q0TNP7|MURG_CLOP1  93 KPDVIFSKGGFVTVPVVIAASMKKIPVVSHESDLTPGLANKIASPFCD 140
+                           ******************************************998887 PP
+
+>> sp|Q8XIQ1|MURG_CLOPE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.8   0.0   3.5e-31     2e-28       1     135 [.       6     140 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.8 bits;  conditional E-value: 3.5e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggG++G+v P +Al  +L++ G e++ +++++g+e+++ +++++++++i ++ kl++++  +k++++++++lk++ +a +il+++
+  sp|Q8XIQ1|MURG_CLOPE   6 IIMTGGGSAGHVTPNLALVPKLKELGFEIKyIGSKNGIEKEIiTKENIPYYSISSG-KLRRYF-DIKNFTDPFKVLKGVMDASRILSKE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kpdv+++ gg+v ++++iaa+  +ip++ +E++  pgl+nk+ + +++
+  sp|Q8XIQ1|MURG_CLOPE  93 KPDVIFSKGGFVTVPVVIAASMKKIPVVSHESDLTPGLANKIASPFCD 140
+                           ******************************************998887 PP
+
+>> sp|Q0SRB4|MURG_CLOPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.8   0.0   3.5e-31     2e-28       1     135 [.       6     140 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.8 bits;  conditional E-value: 3.5e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggG++G+v P +Al  +L++ G e++ +++++g+e+++ +++++++++i ++ kl++++  +k++++++++lk++ +a +il+++
+  sp|Q0SRB4|MURG_CLOPS   6 IIMTGGGSAGHVTPNLALVPKLKELGFEIKyIGSKNGIEKEIiTKENIPYYSISSG-KLRRYF-DIKNFTDPFKVLKGVMDASRILSKE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kpdv+++ gg+v ++++iaa+  +ip++ +E++  pgl+nk+ + +++
+  sp|Q0SRB4|MURG_CLOPS  93 KPDVIFSKGGFVTVPVVIAASMKKIPVVSHESDLTPGLANKIASPFCD 140
+                           ******************************************998887 PP
+
+>> sp|Q5YYX9|MURG_NOCFA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.9   1.8   3.4e-31   1.9e-28       1     138 [.      17     162 ..      17     163 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 103.9 bits;  conditional E-value: 3.4e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G++ePa+A+a++L+r ++ +r   l+t++gle+++ +e+g++ + i+p  +l++k  +++ l+ +a+++ ++r++++++ 
+  sp|Q5YYX9|MURG_NOCFA  17 VIVAGGGTAGHIEPALAVADALRRLDPAIRvtaLGTERGLETRLvPERGYPLELIPPV-PLPRKP-TVDLLRLPARVRASVRRTRAVID 103
+                           689*******************************************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH......HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal......lagipanvaEqngipglvnkllprrangvl 138
+                             ++dv++gfggyva++a++aa       ++ +p++v+E+n+ +g++nk+ +r a  vl
+  sp|Q5YYX9|MURG_NOCFA 104 AVQADVIIGFGGYVALPAYLAAGrgvlrrRRAVPVIVHEANAKAGIANKIGARVARAVL 162
+                           *********************999999999********************999998876 PP
+
+>> sp|A7HH67|MURG_ANADF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.3   0.4   2.6e-31   1.5e-28       2     138 ..       4     142 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 104.3 bits;  conditional E-value: 2.6e-31
+                           EEE-------HHHHHHHHHHHHH-..--EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrr..GheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+v+P +Ala+e+  r  G +V  ++t++gle++v ++ag +++ i+++ +l+ k+  l+ l++l+ + +al ++ +il++
+  sp|A7HH67|MURG_ANADF   4 LIAGGGTGGHVFPGIALAEEVVGRhpGNDVVfVGTERGLEAKVvPAAGFPIELIDVK-GLKGKG-ILSLLLNLLLVPRALLQSHRILRK 90 
+                           79*******************6664488999**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pdvvvg+ggy+++++++ a+l++ip+ v Eqn+i+g++n++l r+++ ++
+  sp|A7HH67|MURG_ANADF  91 WRPDVVVGVGGYASGPVVLVAWLLRIPTAVQEQNAIAGFTNRVLGRFVDAAF 142
+                           ***********************************************99865 PP
+
+>> sp|Q82VS3|MURG_NITEU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.5   0.0   4.7e-31   2.6e-28       3     138 ..       2     137 ..       1     138 [. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.5 bits;  conditional E-value: 4.7e-31
+                           EE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   3 laggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           +++gGT+G+v+P +A+ar  q+ G+++  l+t +g+e+ + +++g +++ i+   +l+ k   ++ l+ +++  +a  ++++il++++p
+  sp|Q82VS3|MURG_NITEU   2 IMAGGTGGHVFPGLAVARSMQANGWRIVwLGTRNGMEAALvPQHGFSIELINFS-GLRGKK-LSSYLLLPWRLAQACWQSFRILRRQQP 88 
+                           789***************************************************.****99.9************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +vv+g+ggy a++ +i a l+g p+ ++Eqn i+gl+nk+l++ a+++l
+  sp|Q82VS3|MURG_NITEU  89 QVVLGMGGYPALPGGIMAVLLGKPLLIHEQNRIAGLTNKILAKIADRIL 137
+                           **********************************************987 PP
+
+>> sp|B0RVA5|MURG_XANCB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.4   1.4   2.4e-31   1.3e-28       1     138 [.      22     159 ..      22     160 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 104.4 bits;  conditional E-value: 2.4e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L++rG  V+ l++  ++e+++ +++ +++ ++++  +l+ k+  +k l  + ++ +a+r+a ++l++ 
+  sp|B0RVA5|MURG_XANCB  22 VMILAGGTGGHIFPGLAVAKVLRARGVPVTwLGADGAMETRLvPQHAIQIDTLAIS-GLRGKG-IVKLLGAPVRVMRAVRAAGFVLRKR 108
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|B0RVA5|MURG_XANCB 109 QPRAVISFGGFAAGPGGLAARLLGVPLLVHEQNRAPGMTNKVLSRFARRVL 159
+                           ************************************************997 PP
+
+>> sp|Q2SZI3|MURG_BURTA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.3   0.5   5.2e-31   2.9e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.3 bits;  conditional E-value: 5.2e-31
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l  +++ l+a  ++ ++l++ k
+  sp|Q2SZI3|MURG_BURTA   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LATKLALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|Q2SZI3|MURG_BURTA  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q11GS5|MURG_MESSB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.0   0.3   3.2e-31   1.8e-28       1     137 [.       6     141 ..       6     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 104.0 bits;  conditional E-value: 3.2e-31
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++Pa Ala+eL++rG+ V+lat ++ ++f  +    e+++i++  ++ ++   l+ lk+ ++ +++++++++++ + k
+  sp|Q11GS5|MURG_MESSB   6 ILLSAGGTGGHLFPAEALAHELRARGWSVHLATDKRATRFAgTFPADEIHAIDSA-TFGSRN-PLALLKSGLSIWRGFKQSTALINRLK 92 
+                           79**************************************986666677779999.777777.9************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy  +++l+aa+++++p+ v+Eqn+++g +nk+l+ r++ +
+  sp|Q11GS5|MURG_MESSB  93 PAAVVGFGGYPTLPPLYAATRRQVPTLVHEQNAVMGRANKALAPRVTAI 141
+                           *******************************************999876 PP
+
+>> sp|Q4UQX0|MURG_XANC8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.4   1.4   2.4e-31   1.3e-28       1     138 [.      22     159 ..      22     160 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 104.4 bits;  conditional E-value: 2.4e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L++rG  V+ l++  ++e+++ +++ +++ ++++  +l+ k+  +k l  + ++ +a+r+a ++l++ 
+  sp|Q4UQX0|MURG_XANC8  22 VMILAGGTGGHIFPGLAVAKVLRARGVPVTwLGADGAMETRLvPQHAIQIDTLAIS-GLRGKG-IVKLLGAPVRVMRAVRAAGFVLRKR 108
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|Q4UQX0|MURG_XANC8 109 QPRAVISFGGFAAGPGGLAARLLGVPLLVHEQNRAPGMTNKVLSRFARRVL 159
+                           ************************************************997 PP
+
+>> sp|Q8PCK0|MURG_XANCP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.4   1.4   2.4e-31   1.3e-28       1     138 [.      22     159 ..      22     160 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 104.4 bits;  conditional E-value: 2.4e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a+ L++rG  V+ l++  ++e+++ +++ +++ ++++  +l+ k+  +k l  + ++ +a+r+a ++l++ 
+  sp|Q8PCK0|MURG_XANCP  22 VMILAGGTGGHIFPGLAVAKVLRARGVPVTwLGADGAMETRLvPQHAIQIDTLAIS-GLRGKG-IVKLLGAPVRVMRAVRAAGFVLRKR 108
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v++fgg++a++ ++aa+l+g+p+ v+Eqn  pg++nk+l+r+a +vl
+  sp|Q8PCK0|MURG_XANCP 109 QPRAVISFGGFAAGPGGLAARLLGVPLLVHEQNRAPGMTNKVLSRFARRVL 159
+                           ************************************************997 PP
+
+>> sp|A3NZL5|MURG_BURP0  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.1   0.5     6e-31   3.4e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.1 bits;  conditional E-value: 6e-31
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l++p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|A3NZL5|MURG_BURP0   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGSPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A3NZL5|MURG_BURP0  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q98KB3|MURG_RHILO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.1   0.7   2.9e-31   1.7e-28       1     137 [.       6     141 ..       6     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 104.1 bits;  conditional E-value: 2.9e-31
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gGT+G+++Pa Ala+eL  rG+ V+lat ++ e+f       +++pi++  +  +k   ++ l  +++ ++++r+a +i+ + k
+  sp|Q98KB3|MURG_RHILO   6 ILLAAGGTGGHLFPAEALAHELNGRGWTVHLATDDRAERFAgHFPAAAVHPIQSA-TMGSKN-PIAVLGAFWKIWRGVRQASTIIGRIK 92 
+                           79***************************************6666666677****.777777.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+vvgfggy  +++l+aa+++++p+ ++Eqn+++g +n++l+ r++ +
+  sp|Q98KB3|MURG_RHILO  93 PDAVVGFGGYPTLPPLYAATRRKVPTLIHEQNAVMGRANRALAGRVDAI 141
+                           ********************************************99976 PP
+
+>> sp|Q0A6K2|MURG_ALHEH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.1   1.1   6.2e-31   3.5e-28       1     138 [.       5     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.1 bits;  conditional E-value: 6.2e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+v+Pa+A+a++L+++G  V  l+t +gle++v ++a ++ +++ ++ +l+ ++   + l  ++  l+al +a  +l+++
+  sp|Q0A6K2|MURG_ALHEH   5 VLIMAGGTGGHVFPALAVAERLREQGVPVVwLGTREGLEARVvPAADIPLESLRVR-GLRGNG-LRGWLAAPFVLLRALWQALGVLRRH 91 
+                           789*****************************************************.****99.9999********************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p +v+g+ggy+a++  +aa+l + p++++Eqn+++gl+n+ll+r a +vl
+  sp|Q0A6K2|MURG_ALHEH  92 RPRAVLGMGGYAAGPGAVAAWLTRRPLIIHEQNAVAGLTNRLLSRLARRVL 142
+                           *********************************************999987 PP
+
+>> sp|A5IGA6|MURG_LEGPC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.1   0.0   6.1e-31   3.4e-28       1     137 [.       5     141 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.1 bits;  conditional E-value: 6.1e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v++ggGT+G+v P +Al +e++++G++V+ +++  g+e++  e   ++++ + ++ kl++++ slk+l+++++   ++ ++  ++ + 
+  sp|A5IGA6|MURG_LEGPC   5 IVFTGGGTAGHVTPNIALIKEFRKEGWNVEyIGSVSGIEKEMiEPMDIPFHGVSSG-KLRRYF-SLKNLLDPFKIVLGIIQSSLLFYKI 91 
+                           79******************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpdvv++ gg+va +++++a+l++ip++ +E++  pgl+n+l+  ++n++
+  sp|A5IGA6|MURG_LEGPC  92 KPDVVFSKGGFVAFPVVVGAWLNRIPVVAHESDMSPGLANRLSFPFVNKI 141
+                           *****************************************999988886 PP
+
+>> sp|Q5L3H6|MURG_GEOKA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.5   0.0   4.7e-31   2.6e-28       1     137 [.       5     142 ..       5     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 103.5 bits;  conditional E-value: 4.7e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++l+ggGT+G+v   vAl  +L++ G+++  ++++ g+e+++  + +g++++++ ++ kl++++  +k++k+++++lk++ +a +++++
+  sp|Q5L3H6|MURG_GEOKA   5 IILTGGGTAGHVMVNVALIPKLKELGWDIVyIGSHQGIEREIigRIDGVPYYSVSTG-KLRRYF-DWKNFKDPFNVLKGVWQAYRLIQK 91 
+                           78****************************************9999***********.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +kpdvv++ gg+v+++++++a+l+g+p +++E++  pgl+nk+ + +a+++
+  sp|Q5L3H6|MURG_GEOKA  92 EKPDVVFSKGGFVSVPVILGAWLNGVPSVIHESDLTPGLANKIAMPFATKI 142
+                           **********************************************99987 PP
+
+>> sp|A0LTM3|MURG_ACIC1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.3   0.9   5.2e-31   2.9e-28       1     135 [.       3     139 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 103.3 bits;  conditional E-value: 5.2e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G++ePa+ la++L+rr+  V    l++p+gle+++ +++g +   i++  +l+++l +++ l  + + + a+ ++++il+
+  sp|A0LTM3|MURG_ACIC1   3 VVLAGGGTAGHIEPALTLAEALRRRDVGVGitlLGSPRGLETRLvPARGFDLALIPAV-PLPRRL-TPDLLAVPSRLRAAVGEVERILA 89 
+                           79***************************9****************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           e  +dv+vgfggyva++ ++aa++ g p +v+E+n++pgl+n++ +r+  
+  sp|A0LTM3|MURG_ACIC1  90 ETGADVLVGFGGYVALPGYLAARRTGLPYVVHEANARPGLANRWGARFTR 139
+                           ********************************************998865 PP
+
+>> sp|Q3A2G6|MURG_PELCD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.8   0.0   7.6e-31   4.3e-28       2     137 ..       4     141 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 102.8 bits;  conditional E-value: 7.6e-31
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +laggGT+G+++PavAla++L +++ e     ++t +g+e++v +e+g + + i+++ ++ +++  l++l+ +    +++ +   il++
+  sp|Q3A2G6|MURG_PELCD   4 LLAGGGTGGHLFPAVALAQRLLEQDSEAQvqfVGTARGIEARVlPEQGWPLELIDIR-GFVNQG-LLGKLRMIPCLIRSVWQGLCILRK 90 
+                           89*******************9999888888**************************.****99.999999999999************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++pdvv+g+ggy++++ l+aa+l +ip++++Eqn+ pgl+n+ll  +a  v
+  sp|Q3A2G6|MURG_PELCD  91 FQPDVVLGVGGYASAPMLVAARLKRIPTVIHEQNAWPGLTNRLLGPWARCV 141
+                           *******************************************99988765 PP
+
+>> sp|Q0AYQ8|MURG_SYNWW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.2   0.0   9.8e-30   5.5e-27       1     136 [.       3     140 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 99.2 bits;  conditional E-value: 9.8e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+A+a +L++r  e +   ++t++gle+ + + agl + +i++  +  ++  +lk+ ++l ++ +++++a  i+k
+  sp|Q0AYQ8|MURG_SYNWW   3 FIITGGGTGGHIYPALAIASGLKERLGEAEilyVGTKKGLEANIvPRAGLRFTTIDIS-GIDRSS-MLKASRSLVKFPRSFFQAWDIIK 89 
+                           789**********************8888888**************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           +++pd+v+g+ggyv+ +++ a ++   +++++Eqn+ipgl+n+ l+rr++ 
+  sp|Q0AYQ8|MURG_SYNWW  90 DFQPDIVIGTGGYVSFPIVMAGTFFPSKTVIHEQNAIPGLANRNLARRVDY 140
+                           ***********************************************9985 PP
+
+>> sp|Q1LIM6|MURG_RALME  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.0   0.1   1.3e-30   7.6e-28       2     138 ..       7     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 102.0 bits;  conditional E-value: 1.3e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+ar+L+++G++V  l+   g+e+++ +++ ++++ i+ + +l+ k+  l++l+ +++ l+a+ ++  +l++ k
+  sp|Q1LIM6|MURG_RALME   7 LVMAGGTGGHVFPGLAVARALRDEGWRVVwLGNRTGMEATLvPKHDIPMEYIQFG-GLRGKG-LLTKLLLPLNLLRAFWQSIGALRRVK 93 
+                           789****************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggy+  +a+  a+l+g p++++Eqn+i+gl+nk+l++ a++vl
+  sp|Q1LIM6|MURG_RALME  94 PDVVLGMGGYITFPAGMMASLLGRPLVLHEQNSIAGLANKVLAKVADRVL 143
+                           ***********************************************997 PP
+
+>> sp|Q92NL9|MURG_RHIME  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.5   0.5   3.7e-30   2.1e-27       1     137 [.       6     141 ..       6     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 100.5 bits;  conditional E-value: 3.7e-30
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++la+gGT+G+++Pa Ala+eL++ G+ V+l+t  + e+f+   +++++++vp   ig++       + +k  +++++ + +lr+a+++
+  sp|Q92NL9|MURG_RHIME   6 ILLAAGGTGGHLFPAEALAHELKATGYSVHLVTDSRAERFTgkfPADEIHVVPsatIGSK-------NPVKLARSVWKLWTGLRAARRL 87 
+                           79**************************************99888999999995444444.......599******************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++ kp +vvgfggy  +++l+aa+  gip +++Eqn+++g +nk l+ r++ v
+  sp|Q92NL9|MURG_RHIME  88 IARLKPRAVVGFGGYPTVPPLLAATGMGIPSIIHEQNAVMGRANKMLASRVKAV 141
+                           **************************************************9987 PP
+
+>> sp|Q72JP9|MURG_THET2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.4   0.3   3.9e-30   2.2e-27       1     135 [.       2     134 ..       2     138 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 100.4 bits;  conditional E-value: 3.9e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++l+ggGT+G+++Pa+A+a+eL+rrGh V  l+++ gle+++ +++ +++  i+++ kl ++   +++ + +++g   + +a ++l++ 
+  sp|Q72JP9|MURG_THET2   2 ILLTGGGTGGHLFPALAVAEELRRRGHPVFyLGAEGGLEARLlPKTPIPHALIPAG-KLDRSALRPQEAPKVLQG---VLRAQALLRRL 86 
+                           79******************************************************.****88777777777777...*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +p++v+++ggy+  + + aa+l+gip+ ++Eqn++ gl+n++l+  a+
+  sp|Q72JP9|MURG_THET2  87 RPKAVLSTGGYAGFPGGMAASLLGIPLLLHEQNARLGLANRALAPLAK 134
+                           *****************************************9887665 PP
+
+>> sp|A1R5F8|MURG_ARTAT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  103.4   0.9     5e-31   2.8e-28       1     138 [.      14     153 ..      14     154 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 103.4 bits;  conditional E-value: 5e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           vvlaggGT+G+v P++A+a++ +++ +e     ++tp g+e+++ ++ag+e  +i+   +++++  s + +k +a+   a+r+a++il+
+  sp|A1R5F8|MURG_ARTAT  14 VVLAGGGTAGHVSPLLAIADAIREKRPEAAilaVGTPSGMETRLvPAAGYELATIDRV-PFPRRP-SADLVKLPARLSGAVRQARRILE 100
+                           79****************************9***************************.****99.9999999999999********** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ea++dv+vg+ggyv ++ ++aa++++ip++++E+n  +gl+n++ +r+ n v+
+  sp|A1R5F8|MURG_ARTAT 101 EARADVLVGVGGYVCTPMYLAARKLRIPIVIHEANMKAGLANRVGARFSNHVA 153
+                           ***********************************************999886 PP
+
+>> sp|Q87AF9|MURG_XYLFT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.6   2.6   8.6e-31   4.9e-28       1     138 [.      12     149 ..      12     150 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 102.6 bits;  conditional E-value: 8.6e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a  L++rG  V  l++  ++e+++ +++g+e+++i++  +++ ++ +l+ l  + ++l a+++a+++l+++
+  sp|Q87AF9|MURG_XYLFT  12 VMILAGGTGGHIFPGLAVAGVLRARGVPVVwLGAAGKMETHLvPKHGIEIQTIAVS-GVRGHG-MLALLGAPVRVLPAIFAAMRVLRRY 98 
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p vvv+fgg++a++ +iaa+l g p++v+Eqn  pg++n++l+r a +vl
+  sp|Q87AF9|MURG_XYLFT  99 RPRVVVSFGGFAAGPGGIAARLMGLPLIVHEQNRAPGMTNRVLARVARRVL 149
+                           **********************************************99987 PP
+
+>> sp|B2I9B3|MURG_XYLF2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.6   2.6   8.8e-31   4.9e-28       1     138 [.      15     152 ..      15     153 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 102.6 bits;  conditional E-value: 8.8e-31
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++P +A+a  L++rG  V  l++  ++e+++ +++g+e+++i++  +++ ++ +l+ l  + ++l a+++a+++l+++
+  sp|B2I9B3|MURG_XYLF2  15 VMILAGGTGGHIFPGLAVAGVLRARGVPVVwLGAAGKMETHLvPKHGIEIQTIAVS-GVRGHG-MLALLGAPVRVLPAIFAAMRVLRRY 101
+                           6799****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p vvv+fgg++a++ +iaa+l g p++v+Eqn  pg++n++l+r a +vl
+  sp|B2I9B3|MURG_XYLF2 102 RPRVVVSFGGFAAGPGGIAARLMGLPLIVHEQNRAPGMTNRVLARVARRVL 152
+                           **********************************************99987 PP
+
+>> sp|A6WZQ6|MURG_OCHA4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.4   0.3   9.9e-31   5.6e-28       1     137 [.       6     141 ..       6     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 102.4 bits;  conditional E-value: 9.9e-31
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+lat  +  +f  + a+ +++ i +  + + + + ++ lk++++ +++  ++++++++ k
+  sp|A6WZQ6|MURG_OCHA4   6 IVLAAGGTGGHLFPAEALAHELKARGWDVHLATDARAQRFAgAFAEDHVHVIRSA-TIAGR-NPIALLKTFWSLWQGNLDSRKLFRRLK 92 
+                           79***************************************98888888889999.55554.59************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++v+gfggy  +++l+aa+  +ip+ v+Eqn+++g +nk l+ r++ +
+  sp|A6WZQ6|MURG_OCHA4  93 PKLVAGFGGYPTLPPLYAASNMNIPTMVHEQNAVMGRANKGLAGRVKAI 141
+                           ****************************************999998865 PP
+
+>> sp|A1V0R8|MURG_BURMS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.5   1.5e-30   8.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|A1V0R8|MURG_BURMS   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A1V0R8|MURG_BURMS  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|A2S5U5|MURG_BURM9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.5   1.5e-30   8.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|A2S5U5|MURG_BURM9   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A2S5U5|MURG_BURM9  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|A3MR63|MURG_BURM7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.5   1.5e-30   8.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|A3MR63|MURG_BURM7   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A3MR63|MURG_BURM7  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q62GS7|MURG_BURMA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.5   1.5e-30   8.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|Q62GS7|MURG_BURMA   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|Q62GS7|MURG_BURMA  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q63QJ7|MURG_BURPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.5   1.5e-30   8.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|Q63QJ7|MURG_BURPS   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|Q63QJ7|MURG_BURPS  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|A3NDW4|MURG_BURP6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.5   1.5e-30   8.6e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|A3NDW4|MURG_BURP6   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVRFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A3NDW4|MURG_BURP6  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q3J789|MURG_NITOC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.3   1.6e-30   8.7e-28       1     132 [.       5     136 ..       5     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G+++Pa+A+a++L++ G eV  ++t  gle+++ ++ag++++ i ++ +l+ k+   + l+ +++ l al +a ++l+++
+  sp|Q3J789|MURG_NITOC   5 VLIMAGGTGGHIFPALAVADRLRAWGVEVVwMGTRHGLEAELvPKAGYPIEWISIG-GLRGKG-LTHWLRAPFKLLLALSQALRALRRW 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllpr 132
+                           +p+vv+g gg+v+++ +++a+l++ p+ ++Eqn+i g +n+ll+ 
+  sp|Q3J789|MURG_NITOC  92 QPAVVLGLGGFVSGPGGLGAWLLRRPLLIHEQNAIVGTANRLLAP 136
+                           ****************************************99865 PP
+
+>> sp|Q8K9T4|MURG_BUCAP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.3   0.0   1.1e-30     6e-28       1     135 [.       6     140 ..       6     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 102.3 bits;  conditional E-value: 1.1e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gG++G+v+P + +a++L ++G+++  ++t++++e+++ ++ +++++ i+++ +l+++    + ++++ ++l+++ ++++i+k++
+  sp|Q8K9T4|MURG_BUCAP   6 IIILAGGSGGHVFPGLTIAKHLIKKGWDINwIGTKNKIESEIiPKCNIKIHFIKIQ-GLRNSS-LKNLIMTPINVLNSYLQVRKIIKNW 92 
+                           6899****************************************************.****77.888889999**************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            pd+++g+ggyv+++ ++aa++++ip +++Eqn i+g++nkll++  +
+  sp|Q8K9T4|MURG_BUCAP  93 IPDIILGMGGYVSGPGGLAAWSCKIPFILHEQNKIAGITNKLLSKIST 140
+                           *******************************************98765 PP
+
+>> sp|B9M172|MURG_GEOSF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.9   0.0   1.4e-30   7.8e-28       2     139 .]       4     143 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 101.9 bits;  conditional E-value: 1.4e-30
+                           EEE-------HHHHHHHHHHHHH--..-EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrG..heVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+ +r    eV  ++t++g+e+++ ++ g+  + i +  + + +   l+++k++a  l ++ ++++ilke
+  sp|B9M172|MURG_GEOSF   4 IVAGGGTGGHLFPGIAVAEEFLARNsaNEVLfIGTERGIEARLlPKLGYRLECISAS-GIKGQS-PLTKVKSAALLLYGYSQSRKILKE 90 
+                           68*******************9887224566**************************.9**999.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           ++pdvv+g+ggy+++++++ a+ ++i ++++Eqn+ipgl+nk+l+r a++v++
+  sp|B9M172|MURG_GEOSF  91 FRPDVVLGVGGYASAPVVLSARGLQIRRFIHEQNAIPGLTNKVLARIADKVFI 143
+                           **************************************************985 PP
+
+>> sp|B5EBQ1|MURG_GEOBB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.5   0.0   1.9e-30   1.1e-27       2     139 .]       4     143 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 101.5 bits;  conditional E-value: 1.9e-30
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+ +r +e +   ++t++g+e+++ ++ g++   i +  + +  + ++k+++++ + l ++ ++++ilke
+  sp|B5EBQ1|MURG_GEOBB   4 IIAGGGTGGHLFPGIAVADEFLARSPENEvlfVGTERGIEARLlPKLGYKLALISAS-GMKGMG-TIKKIMSAGRLLYGYSQSRKILKE 90 
+                           68**********************9887777**************************.999988.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           ++pd+v+g+ggy+++++++aa+  gi ++++Eqn+ pgl+nk+l r+++gv++
+  sp|B5EBQ1|MURG_GEOBB  91 FRPDLVLGVGGYASAPIVLAARGMGIRRFIHEQNAFPGLTNKVLGRFVDGVFI 143
+                           **************************************************985 PP
+
+>> sp|Q3JND8|MURG_BURP1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.5   0.6   1.9e-30   1.1e-27       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.5 bits;  conditional E-value: 1.9e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++ q++G++V  l+ p g+e+++ + +g++++ +  + +l+ k+   +++  +++ l+a  ++ ++l++ k
+  sp|Q3JND8|MURG_BURP1   9 MVMAGGTGGHVFPGLAVAHRMQAQGWRVVwLGNPAGMEATLvPRHGIPMEYVHFG-GLRGKG-LATKFALPFNLLRACAQSLRALRRVK 95 
+                           5899***************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ + l g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|Q3JND8|MURG_BURP1  96 PDVVLGMGGYITFPAGLVTVLTGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q1IKH0|MURG_ACIBL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.8   0.3   1.5e-30   8.4e-28       2     137 ..       4     140 ..       3     142 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 101.8 bits;  conditional E-value: 1.5e-30
+                           EEE-------HHHHHHHHHHHHH.---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqr.rGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +laggGT+G+v Pa+A+a+eL++  G eV+ ++t++g+e+++ ++ag + + ++++  l++   +++ +k+ ++  ka+ ++++i++e+
+  sp|Q1IKH0|MURG_ACIBL   4 ILAGGGTGGHVIPALAIAQELKNvHGAEVIfIGTQRGIETRLvPAAGFSLKLVKVG-ALNRVS-FSTRIKTMFDLPKAILESRRIIREF 90 
+                           79********************967*******************************.777755.9************************ PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpdv +g+ggy++++a++aa+l+++p+++ E n  pg++n+l++ +a  +
+  sp|Q1IKH0|MURG_ACIBL  91 KPDVMIGVGGYASGPAMLAARLCRVPTVIFEPNIYPGFANRLVAPFAAAA 140
+                           ******************************************99998765 PP
+
+>> sp|P74657|MURG_SYNY3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.1   0.0   2.6e-30   1.4e-27       2     138 ..       8     141 ..       7     142 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 101.1 bits;  conditional E-value: 2.6e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+Ala++L +++  ++ l++p++le+++  + ++ ++i+++ +++ +  slkt+k  ++ l++++ +++++k++k+
+  sp|P74657|MURG_SYNY3   8 LIAASGTGGHLFPALALAQQLPDYE--IIwLGVPDRLETTLVPRQYPLQTIPVE-GFQGRP-SLKTIKIGWNLLRSVFTVRKLIKSKKI 92 
+                           799********************99..556***********8888888889999.999999.*************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++v+ +ggy+a++a++aa+l++ip++ +E+n ipg+v+ +l r++++v+
+  sp|P74657|MURG_SYNY3  93 NAVATTGGYIAAPAIVAAKLCNIPVIFHESNFIPGKVTTWLGRWCDTVA 141
+                           **********************************************997 PP
+
+>> sp|B1YSS4|MURG_BURA4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.6   0.4   1.7e-30   9.7e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.6 bits;  conditional E-value: 1.7e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ +++ l+a  ++  +l++ +
+  sp|B1YSS4|MURG_BURA4   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPFNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ a+l+g p++++Eqn+i+gl+nk+l+++a++vlv
+  sp|B1YSS4|MURG_BURA4  96 PDVVLGMGGYITFPAGVMAALSGRPLVLHEQNSIAGLANKVLAKFAKRVLV 146
+                           ************************************************986 PP
+
+>> sp|Q0BIK1|MURG_BURCM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.6   0.4   1.7e-30   9.7e-28       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.6 bits;  conditional E-value: 1.7e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ +++ l+a  ++  +l++ +
+  sp|Q0BIK1|MURG_BURCM   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPFNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ a+l+g p++++Eqn+i+gl+nk+l+++a++vlv
+  sp|Q0BIK1|MURG_BURCM  96 PDVVLGMGGYITFPAGVMAALSGRPLVLHEQNSIAGLANKVLAKFAKRVLV 146
+                           ************************************************986 PP
+
+>> sp|Q6HDR3|MURG2_BACHK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.5   0.0   3.9e-30   2.2e-27       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 100.5 bits;  conditional E-value: 3.9e-30
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                            +v++ggG++G+v P +A+   L++  +++  ++++ g+e+++ e++ +++++i+++ kl++++  lk++k+++ + k++ +a   +++
+  sp|Q6HDR3|MURG2_BACHK   4 IVFTGGGSAGHVTPNLAIIPYLKEDNWDISyIGSHQGIEKTIiEKEDIPYYSIASG-KLRRYF-DLKNIKDPFLVMKGVMDAYVRIRK 89 
+                            79******************************************************.******.************************ PP
+
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             kpdv+++ gg+v+++++i+ +l+++p+ ++E++  pgl+nk+  r+a +++
+  sp|Q6HDR3|MURG2_BACHK  90 LKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIF 141
+                            ***********************************************99987 PP
+
+>> sp|Q81JE6|MURG2_BACAN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.5   0.0   3.9e-30   2.2e-27       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 100.5 bits;  conditional E-value: 3.9e-30
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                            +v++ggG++G+v P +A+   L++  +++  ++++ g+e+++ e++ +++++i+++ kl++++  lk++k+++ + k++ +a   +++
+  sp|Q81JE6|MURG2_BACAN   4 IVFTGGGSAGHVTPNLAIIPYLKEDNWDISyIGSHQGIEKTIiEKEDIPYYSIASG-KLRRYF-DLKNIKDPFLVMKGVMDAYVRIRK 89 
+                            79******************************************************.******.************************ PP
+
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             kpdv+++ gg+v+++++i+ +l+++p+ ++E++  pgl+nk+  r+a +++
+  sp|Q81JE6|MURG2_BACAN  90 LKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIF 141
+                            ***********************************************99987 PP
+
+>> sp|Q0K6M4|MURG_RALEH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.2   0.2   2.3e-30   1.3e-27       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.2 bits;  conditional E-value: 2.3e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++V  l+   g+e+++ +++ ++++ i+ + +l+ k+  +++++ +++ l+a+ ++ ++l++ +
+  sp|Q0K6M4|MURG_RALEH   8 LVMAGGTGGHVFPGLAVAHALREQGWKVVwLGNRTGMEATLvPKHDIPMEFIQFG-GLRGKG-LVTKFLLPLNLLRAFWQSIAALRRVR 94 
+                           789****************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p vv+g+ggy+  +a+  a+l+g p++++Eqn+i+gl+nk+l++ a++vl
+  sp|Q0K6M4|MURG_RALEH  95 PSVVLGMGGYITFPAGMMASLLGRPLVLHEQNSIAGLANKVLAKVADRVL 144
+                           ***********************************************997 PP
+
+>> sp|Q5WY98|MURG_LEGPL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.0   0.0   2.6e-30   1.5e-27       1     137 [.       5     141 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.0 bits;  conditional E-value: 2.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v++ggGT+G+v P +Al +e++++G++V+ +++  g+e++  e   ++++ + ++ kl++++ slk+l+++++   ++ ++  ++ + 
+  sp|Q5WY98|MURG_LEGPL   5 IVFTGGGTAGHVTPNIALIKEFRKEGWNVEyIGSVSGIEKEMiEPLDIPFHGVSSG-KLRRYF-SLKNLLDPFKIVLGIIQSSLLFYKI 91 
+                           79****************************************9*************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpdvv++ gg+va +++++a+l++ip++ +E++  pgl+n+l+  ++n++
+  sp|Q5WY98|MURG_LEGPL  92 KPDVVFSKGGFVAFPVVVGAWLNRIPVVAHESDMSPGLANRLSFPFVNKI 141
+                           *****************************************999988886 PP
+
+>> sp|A0RIN0|MURG3_BACAH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.5   0.0   3.9e-30   2.2e-27       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 100.5 bits;  conditional E-value: 3.9e-30
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                            +v++ggG++G+v P +A+   L++  +++  ++++ g+e+++ e++ +++++i+++ kl++++  lk++k+++ + k++ +a   +++
+  sp|A0RIN0|MURG3_BACAH   4 IVFTGGGSAGHVTPNLAIIPYLKEDNWDISyIGSHQGIEKTIiEKEDIPYYSIASG-KLRRYF-DLKNIKDPFLVMKGVMDAYVRIRK 89 
+                            79******************************************************.******.************************ PP
+
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             kpdv+++ gg+v+++++i+ +l+++p+ ++E++  pgl+nk+  r+a +++
+  sp|A0RIN0|MURG3_BACAH  90 LKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIF 141
+                            ***********************************************99987 PP
+
+>> sp|Q7W4B4|MURG_BORPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.9   0.4   2.9e-30   1.7e-27       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.9 bits;  conditional E-value: 2.9e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G++ P +A+a+ L++rG++V  l+ p+++e ++ + +g+e vp+  + +++ ++   + lk ++   +a  +a + l++ 
+  sp|Q7W4B4|MURG_BORPA   6 ILIMAGGTGGHIMPGLAVAEVLRERGWRVLwLGNPDKMEGRLvPPRGIELVPLRFQ-GVRGRG-AAALLKLPFLLARACAQAWRRLADI 92 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+ggyva + ++ a+l++ p++v+Eqn+++g +n++l+r a +vl
+  sp|Q7W4B4|MURG_BORPA  93 RPDVVLGMGGYVAFPGGVMAALRRMPLVVHEQNAVAGTANRWLARLARRVL 143
+                           *********************************************999987 PP
+
+>> sp|Q5X6U5|MURG_LEGPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.0   0.0   2.6e-30   1.5e-27       1     137 [.       5     141 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.0 bits;  conditional E-value: 2.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v++ggGT+G+v P +Al +e++++G++V+ +++  g+e++  e   ++++ + ++ kl++++ slk+l+++++   ++ ++  ++ + 
+  sp|Q5X6U5|MURG_LEGPA   5 IVFTGGGTAGHVTPNIALIKEFRKEGWNVEyIGSVSGIEKEMiEPLDIPFHGVSSG-KLRRYF-SLKNLLDPFKIVLGIIQSSLLFYKI 91 
+                           79****************************************9*************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpdvv++ gg+va +++++a+l++ip++ +E++  pgl+n+l+  ++n++
+  sp|Q5X6U5|MURG_LEGPA  92 KPDVVFSKGGFVAFPVVVGAWLNRIPVVAHESDMSPGLANRLSFPFVNKI 141
+                           *****************************************999988886 PP
+
+>> sp|Q5ZXC4|MURG_LEGPH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.0   0.0   2.6e-30   1.5e-27       1     137 [.       5     141 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.0 bits;  conditional E-value: 2.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v++ggGT+G+v P +Al +e++++G++V+ +++  g+e++  e   ++++ + ++ kl++++ slk+l+++++   ++ ++  ++ + 
+  sp|Q5ZXC4|MURG_LEGPH   5 IVFTGGGTAGHVTPNIALIKEFRKEGWNVEyIGSVSGIEKEMiEPLDIPFHGVSSG-KLRRYF-SLKNLLDPFKIVLGIIQSSLLFYKI 91 
+                           79****************************************9*************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpdvv++ gg+va +++++a+l++ip++ +E++  pgl+n+l+  ++n++
+  sp|Q5ZXC4|MURG_LEGPH  92 KPDVVFSKGGFVAFPVVVGAWLNRIPVVAHESDMSPGLANRLSFPFVNKI 141
+                           *****************************************999988886 PP
+
+>> sp|A6M1F0|MURG_CLOB8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.4   0.0     2e-30   1.1e-27       1     136 [.       6     141 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 101.4 bits;  conditional E-value: 2e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggGT+G+v P +Al  +L++++ e++ +++ +g+e+++ ++ ++++  i ++ kl++++  +k+++++++ lk++ +a +il+++
+  sp|A6M1F0|MURG_CLOB8   6 IIMTGGGTAGHVTPNLALVPKLKQKDFEIKyIGSFDGIEKEIiTKNNIPFFGISCG-KLRRYF-DVKNFTDPFKILKGIAQALKILSKE 92 
+                           689*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           kpdv+++ gg+va++++iaa+  +ip++ +E++  pgl+nkl++ ++++
+  sp|A6M1F0|MURG_CLOB8  93 KPDVIFSKGGFVAVPVVIAASIKKIPVVAHESDMTPGLANKLSAPFCDK 141
+                           ******************************************9988876 PP
+
+>> sp|B8D7B9|MURG_BUCAT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.4   0.0     2e-30   1.1e-27       1     135 [.       6     140 ..       6     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 101.4 bits;  conditional E-value: 2e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gG++G+v+P + +ar L ++G+ V  ++t++ +e+++ +++g++++ i ++ +l++     + + ++   l+a+ ++k+i+k +
+  sp|B8D7B9|MURG_BUCAT   6 IIIMAGGSGGHVFPGLTIARYLIEKGWLVNwIGTKNSIESRIiPKYGIKIHYISIK-GLRNTS-LKNLIISPIYILRAYYAVKKIIKTW 92 
+                           6899****************************************************.****66.666778999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +pd+v+g+ggyv+++ ++a++ ++ip+ ++Eqn i+g++nk+l+r  +
+  sp|B8D7B9|MURG_BUCAT  93 SPDIVLGMGGYVSGPGGVASWNCNIPLLLHEQNKIAGITNKWLSRIST 140
+                           *******************************************99766 PP
+
+>> sp|P57311|MURG_BUCAI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.4   0.0     2e-30   1.1e-27       1     135 [.       6     140 ..       6     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 101.4 bits;  conditional E-value: 2e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gG++G+v+P + +ar L ++G+ V  ++t++ +e+++ +++g++++ i ++ +l++     + + ++   l+a+ ++k+i+k +
+  sp|P57311|MURG_BUCAI   6 IIIMAGGSGGHVFPGLTIARYLIEKGWLVNwIGTKNSIESRIiPKYGIKIHYISIK-GLRNTS-LKNLIISPIYILRAYYAVKKIIKTW 92 
+                           6899****************************************************.****66.666778999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +pd+v+g+ggyv+++ ++a++ ++ip+ ++Eqn i+g++nk+l+r  +
+  sp|P57311|MURG_BUCAI  93 SPDIVLGMGGYVSGPGGVASWNCNIPLLLHEQNKIAGITNKWLSRIST 140
+                           *******************************************99766 PP
+
+>> sp|Q7VUQ3|MURG_BORPE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.6   0.4   3.6e-30     2e-27       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.6 bits;  conditional E-value: 3.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G++ P +A+a+ L++rG++V  l+ p+++e ++ + +g+e vp+  + +++ ++   + lk ++   +a  +a + l++ 
+  sp|Q7VUQ3|MURG_BORPE   6 ILIMAGGTGGHIMPGLAVAEVLRERGWRVLwLGNPDKMEGRLvPPRGIELVPLRFQ-GVRGRG-AAALLKLPFLLARACAQAWRRLADI 92 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+ggyva + ++ a+l++ p++v+Eqn+++g +n++l+r a +vl
+  sp|Q7VUQ3|MURG_BORPE  93 RPDVVLGMGGYVAFPGGVMAALRRTPLVVHEQNAVAGTANRWLARLARRVL 143
+                           *********************************************999987 PP
+
+>> sp|Q7WFS2|MURG_BORBR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.6   0.4   3.6e-30     2e-27       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.6 bits;  conditional E-value: 3.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G++ P +A+a+ L++rG++V  l+ p+++e ++ + +g+e vp+  + +++ ++   + lk ++   +a  +a + l++ 
+  sp|Q7WFS2|MURG_BORBR   6 ILIMAGGTGGHIMPGLAVAEVLRERGWRVLwLGNPDKMEGRLvPPRGIELVPLRFQ-GVRGRG-AAALLKLPFLLARACAQAWRRLADI 92 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+ggyva + ++ a+l++ p++v+Eqn+++g +n++l+r a +vl
+  sp|Q7WFS2|MURG_BORBR  93 RPDVVLGMGGYVAFPGGVMAALRRTPLVVHEQNAVAGTANRWLARLARRVL 143
+                           *********************************************999987 PP
+
+>> sp|B2SYX6|MURG_BURPP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.8   0.3   6.3e-30   3.6e-27       2     139 .]      10     147 ..       9     147 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 99.8 bits;  conditional E-value: 6.3e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a+  q+ G++V  l+ p g+e+++ +++g++++ +  + +l+ k+ + ++l+ + + l+a  ++  +l++ k
+  sp|B2SYX6|MURG_BURPP  10 MVMAGGTGGHVFPGLAVAHLMQAWGWKVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-MKTKLMLPVNLLRACTQSLSVLRRVK 96 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|B2SYX6|MURG_BURPP  97 PDVVLGMGGYITFPAGLMTALSGRPLVLHEQNSIAGLANKVLAKVAKRVLV 147
+                           ***********************************************9986 PP
+
+>> sp|B0B8Y7|MURG_CHLT2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.9   0.0   2.9e-30   1.6e-27       1     137 [.       7     141 ..       7     143 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 100.9 bits;  conditional E-value: 2.9e-30
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G++ Pa+A  +++ ++++eV l   +gl++f+   ++++++ i+++   + +l+ +++++ + + +k++ +a + +++++
+  sp|B0B8Y7|MURG_CHLT2   7 IVLAVGGTGGHIIPALAARETFIHEDIEV-LLLGKGLAHFLgDDSEIAYCDIPSG--SPFSLRVNRMFSGAKQLYKGYVAALQKIRDFT 92 
+                           79***************************.99***********************..44444777777777777777************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+ +gfg+y++++a++a+++++ip++++Eqn +pg+vnkl++r+a+gv
+  sp|B0B8Y7|MURG_CHLT2  93 PDLAIGFGSYHSLPAMLASIRSRIPLFLHEQNIVPGKVNKLFSRFAKGV 141
+                           ***********************************************98 PP
+
+>> sp|B0BAL6|MURG_CHLTB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.9   0.0   2.9e-30   1.6e-27       1     137 [.       7     141 ..       7     143 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 100.9 bits;  conditional E-value: 2.9e-30
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G++ Pa+A  +++ ++++eV l   +gl++f+   ++++++ i+++   + +l+ +++++ + + +k++ +a + +++++
+  sp|B0BAL6|MURG_CHLTB   7 IVLAVGGTGGHIIPALAARETFIHEDIEV-LLLGKGLAHFLgDDSEIAYCDIPSG--SPFSLRVNRMFSGAKQLYKGYVAALQKIRDFT 92 
+                           79***************************.99***********************..44444777777777777777************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+ +gfg+y++++a++a+++++ip++++Eqn +pg+vnkl++r+a+gv
+  sp|B0BAL6|MURG_CHLTB  93 PDLAIGFGSYHSLPAMLASIRSRIPLFLHEQNIVPGKVNKLFSRFAKGV 141
+                           ***********************************************98 PP
+
+>> sp|B8D914|MURG_BUCA5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  101.0   0.0   2.6e-30   1.5e-27       1     135 [.       6     140 ..       6     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 101.0 bits;  conditional E-value: 2.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gG++G+v+P + +ar L ++G+ V  ++t++ +e+++ +++g++++ i ++ +l++     + + ++   l+a+ ++k+i+k +
+  sp|B8D914|MURG_BUCA5   6 IIIMAGGSGGHVFPGLTIARYLIEKGWLVNwIGTKNSIESRIiPTYGIKIHYISIK-GLRNTS-LKNLIISPIYILRAYYAVKKIIKTW 92 
+                           6899****************************************************.****66.666778999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +pd+v+g+ggyv+++ ++a++ ++ip+ ++Eqn i+g++nk+l+r  +
+  sp|B8D914|MURG_BUCA5  93 SPDIVLGMGGYVSGPGGVASWNCNIPLLLHEQNKIAGITNKWLSRIST 140
+                           *******************************************99766 PP
+
+>> sp|Q47AA4|MURG_DECAR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.4   0.3   4.2e-30   2.4e-27       1     138 [.       5     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.4 bits;  conditional E-value: 4.2e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+++Pa+A+a++L+++G++V  l+ p+g+e+++ +++g e+v i+    l+ k+  l++l+ + + l+++ +  +++++ 
+  sp|Q47AA4|MURG_DECAR   5 ILVMAGGTGGHIFPALAVAHKLRDAGWRVVwLGNPEGMEARLvPQHGFEMVWIKFS-ALRGKG-ILRKLLLPVNLLRGFWQGLKAIRQV 91 
+                           789*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kp+vv+g+ggy+  + +  a+l g+p++++Eqn+++gl+n++l+  a++++
+  sp|Q47AA4|MURG_DECAR  92 KPNVVLGMGGYITFPGGMMAALTGVPLVLHEQNSVAGLANRVLASVADRIV 142
+                           *********************************************999986 PP
+
+>> sp|A4JB94|MURG_BURVG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.4   0.3   4.1e-30   2.3e-27       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.4 bits;  conditional E-value: 4.1e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ +++ l+a  ++  +l++ +
+  sp|A4JB94|MURG_BURVG   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPFNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l+++a++vlv
+  sp|A4JB94|MURG_BURVG  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLANKVLAKFAKRVLV 146
+                           ************************************************986 PP
+
+>> sp|Q2Y638|MURG_NITMU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.4   0.1     4e-30   2.2e-27       1     138 [.       5     142 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.4 bits;  conditional E-value: 4e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+P +A+a+ L+++G+++  l+t+ g+e+++ +++g + ++i    +l+ k    + l+ +a+ l a+ ++ +++++ 
+  sp|Q2Y638|MURG_NITMU   5 ILIMAGGTGGHVFPGLAVAEYLKAAGWRIVwLGTEGGMETTLaRQQGHALETIRFS-GLRGKN-VRTWLLLPARLLLAFWQSARVIRKV 91 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+ggy a + +  a+l+  p+ ++Eqn+ipgl+n++l+r a++vl
+  sp|Q2Y638|MURG_NITMU  92 RPDVVLGMGGYPAFPGGMMASLLARPLLIHEQNSIPGLANRILSRLADRVL 142
+                           ************************************************997 PP
+
+>> sp|B2JHG0|MURG_BURP8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.2   0.2   4.6e-30   2.6e-27       2     139 .]      10     147 ..       9     147 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 100.2 bits;  conditional E-value: 4.6e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a+  q+ G++V  l+ p+g+e+++ +++g++++ ++ + +l+ k+ + ++l+ + + l+a  ++  +l++ k
+  sp|B2JHG0|MURG_BURP8  10 MVMAGGTGGHVFPGLAVAHLMQAWGWRVVwLGNPNGMEATLvPKHGIPMEYVQFG-GLRGKG-MKTKLMLPVNLLRACMQSLSVLRRVK 96 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a+  ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|B2JHG0|MURG_BURP8  97 PDVVLGMGGYITFPAGMMTALSGTPLVLHEQNSIAGLANKVLAKLAKRVLV 147
+                           ***********************************************9986 PP
+
+>> sp|O84766|MURG_CHLTR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.2   0.0   4.6e-30   2.6e-27       1     137 [.       7     141 ..       7     143 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 100.2 bits;  conditional E-value: 4.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G++ Pa+A  +++ ++++eV l   +gl++f+   ++++++ i+++   + +l+ +++++ + + +k++ +a + +++++
+  sp|O84766|MURG_CHLTR   7 IVLAVGGTGGHIIPALAARETFIHEDIEV-LLLGKGLAHFLgDDSEVAYCDIPSG--SPFSLRVNRMFSGAKQLYKGYVAALQKIRDFT 92 
+                           79***************************.99***********************..44444777777777777777************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+ +gfg+y++++a++a+++++ip++++Eqn +pg+vnkl++r+a+gv
+  sp|O84766|MURG_CHLTR  93 PDLAIGFGSYHSLPAMLASIRSRIPLFLHEQNIVPGKVNKLFSRFAKGV 141
+                           ***********************************************98 PP
+
+>> sp|Q3KKT1|MURG_CHLTA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.2   0.0   4.6e-30   2.6e-27       1     137 [.       7     141 ..       7     143 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 100.2 bits;  conditional E-value: 4.6e-30
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G++ Pa+A  +++ ++++eV l   +gl++f+   ++++++ i+++   + +l+ +++++ + + +k++ +a + +++++
+  sp|Q3KKT1|MURG_CHLTA   7 IVLAVGGTGGHIIPALAARETFIHEDIEV-LLLGKGLAHFLgDDSEVAYCDIPSG--SPFSLRVNRMFSGAKQLYKGYVAALQKIRDFT 92 
+                           79***************************.99***********************..44444777777777777777************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pd+ +gfg+y++++a++a+++++ip++++Eqn +pg+vnkl++r+a+gv
+  sp|Q3KKT1|MURG_CHLTA  93 PDLAIGFGSYHSLPAMLASIRSRIPLFLHEQNIVPGKVNKLFSRFAKGV 141
+                           ***********************************************98 PP
+
+>> sp|A1AU61|MURG_PELPD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.8   0.0   6.2e-30   3.5e-27       2     138 ..       4     142 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 99.8 bits;  conditional E-value: 6.2e-30
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+  r++      ++t++g+e++  ++ag + + i +  + + k+  l++l+ +a  ++++r++ ++l +
+  sp|A1AU61|MURG_PELPD   4 IIAGGGTGGHLFPGIAVAEEFLSRDPANQvlfVGTERGIEARAvPAAGFPLELISAA-GIRGKG-GLGKLRGAAMMFNGYRQSCRLLDR 90 
+                           68***********************876666**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++pd+v+g+ggy++++ l+aa+ +++p +++Eqn++pg++n+ll+r+a++++
+  sp|A1AU61|MURG_PELPD  91 FRPDAVLGVGGYASLPMLLAARTRQVPSFIHEQNAVPGMTNRLLSRFADRIF 142
+                           *************************************************997 PP
+
+>> sp|Q2LR48|MURG_SYNAS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.8   0.0   6.3e-30   3.6e-27       1     138 [.       5     144 ..       5     145 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 99.8 bits;  conditional E-value: 6.3e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G+++P vA+a+eL rr+ e r   ++t++g+e++v +  g   + ++++ + + ++  ++  + l++   +l ++++i++
+  sp|Q2LR48|MURG_SYNAS   5 VIIAGGGTGGHLFPGVAIAEELLRRDRENRvlfVGTKRGIEKKVlKDLGFRLKLLNVE-GIKGRG-VMRSSLALLKLPGSLMQSMKIIR 91 
+                           689**********************9999999************9999*999999999.555555.555555555555566******** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++pdvv+g+ggy++++a+ aa l gi++ +aEqn+ipgl+n++l r++++v+
+  sp|Q2LR48|MURG_SYNAS  92 DFRPDVVIGVGGYASGPAVMAAHLMGIKTAIAEQNSIPGLTNRILGRFVDRVF 144
+                           **************************************************997 PP
+
+>> sp|Q2G995|MURG_NOVAD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.9   0.6   5.6e-30   3.2e-27       2     138 ..       9     143 ..       8     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 99.9 bits;  conditional E-value: 5.6e-30
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           vla+gGT+G++ Pa Ala+eL rrGh+V l+t ++ ++   + + l+a+ ++++ +l +  + ++ +k l + ++++  a +++++++p
+  sp|Q2G995|MURG_NOVAD   9 VLAAGGTGGHLIPAFALAVELDRRGHHVALVTDERGAKIPgKPDFLPAHVLPAG-RLGK--NPVALFKGLRAIWQGRAMALRLFESFEP 94 
+                           8*****************************************************.9998..789999999999999************* PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             v+gfggy a++al+aa +a+ip++++Eqn++ g vn+ll++r++ ++
+  sp|Q2G995|MURG_NOVAD  95 SCVIGFGGYPALPALLAAHAARIPTVIHEQNAVLGRVNRLLAKRVDAIA 143
+                           *********************************************9875 PP
+
+>> sp|A5EY03|MURG_DICNV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.5   0.3   7.5e-30   4.2e-27       2     138 ..       9     145 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 99.5 bits;  conditional E-value: 7.5e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+ar+  ++G  ++ l+ + g+e +  +eag  ++ i++  +l+ ++  ++ lk ++  ++a+++ak+i++  +
+  sp|A5EY03|MURG_DICNV   9 LFMAGGTGGHVYPALAVARAAAEQGSIIHwLGNQSGFEGKKvPEAGFIFHDIAVY-GLRGNG-VIGWLKAPFMIGRAVFQAKKIMQHIQ 95 
+                           799**********************9999*********9888*************.*****9.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+gg+++++ +iaa+ ++ip+ ++Eqn+++gl+n ll+r an++l
+  sp|A5EY03|MURG_DICNV  96 PDVVIGMGGFASGPGGIAAKILNIPLLIHEQNAVMGLTNALLSRVANTIL 145
+                           **********************************************9986 PP
+
+>> sp|Q8FNU0|MURG_COREF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  100.6   0.8   3.6e-30     2e-27       1     130 [.      10     140 ..      10     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 100.6 bits;  conditional E-value: 3.6e-30
+                           EEEE-------HHHHHHHHHHHHH.---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqr.rGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           vv+aggGT+G++ePa+A+a++L++ +G  V+ l+t +gle+ + + +g + + i+p  ++++    l+ +k ++++ k+lr+a+++l++
+  sp|Q8FNU0|MURG_COREF  10 VVVAGGGTAGHIEPALAVAEALRDgYGATVTaLGTARGLETSLvPDRGFDLRLIEPV-PVPRTP-NLDLVKLPFRVAKSLRQARQVLRD 96 
+                           79********************9769*******************************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                             +++vvgfggyv+++a++aa+++gip +v+E+n+++g++nkl 
+  sp|Q8FNU0|MURG_COREF  97 TGAHAVVGFGGYVSAPAYLAARSLGIPFFVHEANARAGMANKLG 140
+                           *****************************************986 PP
+
+>> sp|A9AI96|MURG_BURM1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.4   0.6   8.1e-30   4.5e-27       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 99.4 bits;  conditional E-value: 8.1e-30
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l  +++ l+a  ++ ++l++ +
+  sp|A9AI96|MURG_BURM1   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLALPFNLLRACAQSLAALRRVR 95 
+                           5899***************************************************.******.99************************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A9AI96|MURG_BURM1  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLANKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q21SW9|MURG_RHOFD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.7   0.1   6.9e-30   3.9e-27       2     138 ..      36     177 ..      35     178 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 99.7 bits;  conditional E-value: 6.9e-30
+                           EEE-------HHHHHHHHHHHHH---EEE......EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr......latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++++gGT+G+++P +Ala++L++rG++V+       a++p +e+++ + +g ++++i+   +++ k+   + ++ +++ l+a  ++ ++
+  sp|Q21SW9|MURG_RHOFD  36 LIMAGGTGGHIFPGLALAHALRERGWRVHwlggagTASQPSMESQLvPPQGFAFESIDFS-GVRGKG-LGTLVRLPWRLLRACWQSVAL 122
+                           689***************************9999999***********************.******.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           l++ +pdvv+g ggy+ ++a++ + l+g +++++Eqn+++g++nk+l+r+a++v+
+  sp|Q21SW9|MURG_RHOFD 123 LRRVQPDVVLGLGGYITLPAGLMSVLLGKALILHEQNSVAGMANKVLARFATRVF 177
+                           *****************************************************97 PP
+
+>> sp|B5YFT4|MURG_THEYD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   99.3   0.0   8.8e-30   4.9e-27       1     138 [.       3     142 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 99.3 bits;  conditional E-value: 8.8e-30
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G+++P +Ala+ L  + +e     ++tp+gle++v +++g+e   i ++ ++  k  ++++ k+l + lk+++++k i+ 
+  sp|B5YFT4|MURG_THEYD   3 VIIAGGGTGGHLFPGIALAESLIGKYPEAQiifVGTPKGLEAKViPKTGYELSFISIQ-GFVGKS-FSEKAKSLKSLLKSMFESKNIIN 89 
+                           689**********************9999999**************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++ pd+v+g+ggy++ ++++aa l +ip+++ Eqn +pgl+nkll + a  v+
+  sp|B5YFT4|MURG_THEYD  90 SFAPDIVFGVGGYASFPVVLAAFLKKIPTIILEQNTVPGLANKLLGKIASAVA 142
+                           *********************************************99998876 PP
+
+>> sp|A7KAK6|ATG26_PICAN  Sterol 3-beta-glucosyltransferase OS=Pichia angusta GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.8   0.0   1.2e-29     7e-27       1     138 [.     790     924 ..     790     925 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 98.8 bits;  conditional E-value: 1.2e-29
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.vklwakleslktlkelaeglkalrkakeilkea 87 
+                            ++l+++G+rGdv+P++Al+++L+++Gh+Vr++t+ ++e++++++g+ + +i++d  +l+a   +++ ++  +++ k+ ++ ++++ ++
+  sp|A7KAK6|ATG26_PICAN 790 FTLLTIGSRGDVQPYIALGKALMKEGHQVRIVTHAEFEPWIKKHGIRFASIAGDpSELMA--LMVTHPTINYNFIKEAKSKFRSWIDD 875
+                            789***************************************************555555..45666555555555555555556555 PP
+
+                            HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                               +v ++  ++++++li+++++   +++aE+++ip+++++++p+++++++
+  sp|A7KAK6|ATG26_PICAN 876 L--LVTSWKACQDTDILIESPSSICGIHIAEKLQIPYFRAFTMPWTRTRAY 924
+                            5..344566679***********************************9987 PP
+
+>> sp|Q46WZ4|MURG_RALEJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.9   0.1   1.2e-29   6.9e-27       2     138 ..       8     144 ..       7     145 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 98.9 bits;  conditional E-value: 1.2e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++L+++G++V  l+   g+e+++ +++ ++++ i+ + +l+ k+  +++++ +++ l+a+ ++  +l++ +
+  sp|Q46WZ4|MURG_RALEJ   8 LVMAGGTGGHVFPGLAVAHALREQGWKVVwLGNRTGMEATLvPKHDIPMEFIQFG-GLRGKG-LVTKFLLPLNLLRAFWQSLGALRRVR 94 
+                           789****************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p vv+g+ggy+  +a+  a+l+g p++++Eqn+i+gl+nk+l++ a++vl
+  sp|Q46WZ4|MURG_RALEJ  95 PSVVLGMGGYITFPAGMMASLLGRPLVLHEQNSIAGLANKVLAKVADRVL 144
+                           ***********************************************997 PP
+
+>> sp|Q13TZ2|MURG_BURXL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.1   0.3     2e-29   1.1e-26       2     139 .]      10     147 ..       9     147 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 98.1 bits;  conditional E-value: 2e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a+  q+ G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ +++ l+a  ++  +l++ k
+  sp|Q13TZ2|MURG_BURXL  10 MVMAGGTGGHVFPGLAVAHLMQAWGWKVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLMLPLNLLRACTQSLSVLRRVK 96 
+                           5899***************************************************.******.99999999****************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|Q13TZ2|MURG_BURXL  97 PDVVLGMGGYITFPAGLMTALSGRPLVLHEQNSIAGLANKVLAKVAKRVLV 147
+                           ***********************************************9986 PP
+
+>> sp|C6DZK6|MURG_GEOSM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.2   0.0   1.9e-29   1.1e-26       2     139 .]       4     143 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 98.2 bits;  conditional E-value: 1.9e-29
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+ +r +e +   ++t++g+e+++ ++ g++   i +  + +  + ++k+++++ + l ++ ++++ilke
+  sp|C6DZK6|MURG_GEOSM   4 IIAGGGTGGHLFPGIAIADEFLARSPENEvlfVGTERGIEARLlPKLGYKLALISAS-GMKGMG-TIKKIMSAGRLLYGYSQSRKILKE 90 
+                           68**********************9887777**************************.999988.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           ++pd+v+g+ggy+++++++aa+  g+ ++++Eqn+ pgl+nk+l r ++gv++
+  sp|C6DZK6|MURG_GEOSM  91 FRPDLVLGVGGYASAPIVLAARGMGVRRFIHEQNAFPGLTNKVLGRIVDGVFI 143
+                           *************************************************9985 PP
+
+>> sp|A8GVJ7|MURG_RICB8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.7   0.0   1.4e-29   7.7e-27       1     138 [.       4     135 ..       4     136 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 98.7 bits;  conditional E-value: 1.4e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vl++gGT+G+++PavAl++eL +r +eV+++t  ++e+ +   agl ++ i+++       +  + l+ l     a++ka ++l + +
+  sp|A8GVJ7|MURG_RICB8   4 IVLVAGGTGGHFFPAVALGEELIKRKYEVHFITDLRCEKYInHDAGLIFHVIDLK-------RPKNILLFLPLLSLAIFKAIKLLFSLS 85 
+                           79*****************************************************.......34444444444445899********** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p +vvgfggy  ++ ++aa+++++p++++Eqn+  g+vn++++ +a++++
+  sp|A8GVJ7|MURG_RICB8  86 PSAVVGFGGYPVVASMFAAIFLRVPIVIHEQNSYLGKVNRFFANFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|Q1RI55|MURG_RICBR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.7   0.0   1.4e-29   7.7e-27       1     138 [.       4     135 ..       4     136 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 98.7 bits;  conditional E-value: 1.4e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vl++gGT+G+++PavAl++eL +r +eV+++t  ++e+ +   agl ++ i+++       +  + l+ l     a++ka ++l + +
+  sp|Q1RI55|MURG_RICBR   4 IVLVAGGTGGHFFPAVALGEELIKRKYEVHFITDLRCEKYInHDAGLIFHVIDLK-------RPKNILLFLPLLSLAIFKAIKLLFSLS 85 
+                           79*****************************************************.......34444444444445899********** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p +vvgfggy  ++ ++aa+++++p++++Eqn+  g+vn++++ +a++++
+  sp|Q1RI55|MURG_RICBR  86 PSAVVGFGGYPVVASMFAAIFLRVPIVIHEQNSYLGKVNRFFANFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|B5ZWJ4|MURG_RHILW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.0   0.7   9.1e-29   5.1e-26       1     137 [.       6     141 ..       6     142 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 96.0 bits;  conditional E-value: 9.1e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+la+gGT+G+v+Pa Ala +L++rG+ V+l+t  + e+     +++++++vp   ig++       + ++  ++l+  + ++r+ak++
+  sp|B5ZWJ4|MURG_RHILW   6 VLLAAGGTGGHVFPAEALAFKLKERGYSVHLVTDSRAERYAgkfPAEEIHVVPsatIGSK-------NPVAVARSLWTLWSGMRAAKKL 87 
+                           79********************************99999887668889999886444444.......366777777777777******* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++ kp +vvgfggy  +++l+aa+++g+p+ ++Eqn+++g +nk+l+ r+ g+
+  sp|B5ZWJ4|MURG_RHILW  88 IQRLKPVIVVGFGGYPTVPPLLAATRLGVPTMIHEQNAVMGRANKALATRVQGI 141
+                           ************************************************999886 PP
+
+>> sp|B0JFZ1|MURG_MICAN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.3   0.0   1.8e-29     1e-26       2     138 ..       9     142 ..       8     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 98.3 bits;  conditional E-value: 1.8e-29
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+Ala++L ++++e  l++p++le  +  + ++ ++i+++ +++ +l  lktlk l+++l+a+ +++ ++k+ +++
+  sp|B0JFZ1|MURG_MICAN   9 LIAASGTGGHLFPALALAERLPDYEIEW-LGVPDRLEQSLVPKTYPLHTIPIE-GFQTRL-GLKTLKILFSQLRAIWQVRSLIKKRQIA 94 
+                           799**********************776.***********7788888889999.999999.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +v+ +ggy+a++ ++aa+la+ip++++E+n ipg+v+k+l r++++v+
+  sp|B0JFZ1|MURG_MICAN  95 AVFTTGGYIAGPTILAARLANIPVILHESNYIPGKVTKVLGRWCDTVA 142
+                           ********************************************9986 PP
+
+>> sp|Q31KS7|MURG_SYNE7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.0   0.1   2.3e-29   1.3e-26       2     138 ..       9     141 ..       8     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 98.0 bits;  conditional E-value: 2.3e-29
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+v+Pa+A+a++L ++ ++  l++p++le+++  + ++ ++i ++ +++ ++  l  ++++++   a++k++++lk+++++
+  sp|Q31KS7|MURG_SYNE7   9 LFAASGTGGHVFPALAVAEALPEAKIDW-LGVPDRLETQLVGDRYPLHTIRVG-GFQGSW--LLRPLTALRLIGAIFKVRRLLKRQQIE 93 
+                           79***********************888.************************.99**77..666777777779*************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +v+ +ggy+a++a+ aa+++gip++++E+n++pg++++ll+r++ +v+
+  sp|Q31KS7|MURG_SYNE7  94 AVFTTGGYIAGPAIAAAWSLGIPVVLHESNALPGKTTRLLSRFCRRVA 141
+                           ********************************************9986 PP
+
+>> sp|Q5N140|MURG_SYNP6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.9   0.1   2.4e-29   1.3e-26       2     138 ..      15     147 ..      14     148 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 97.9 bits;  conditional E-value: 2.4e-29
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+v+Pa+A+a++L ++ ++  l++p++le+++  + ++ ++i ++ +++ ++  l  ++++++   a++k++++lk+++++
+  sp|Q5N140|MURG_SYNP6  15 LFAASGTGGHVFPALAVAEALPEAKIDW-LGVPDRLETQLVGDRYPLHTIRVG-GFQGSW--LLRPLTALRLIGAIFKVRRLLKRQQIE 99 
+                           79***********************888.************************.99**77..666777777779*************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +v+ +ggy+a++a+ aa+++gip++++E+n++pg++++ll+r++ +v+
+  sp|Q5N140|MURG_SYNP6 100 AVFTTGGYIAGPAIAAAWSLGIPVVLHESNALPGKTTRLLSRFCRRVA 147
+                           ********************************************9986 PP
+
+>> sp|Q14I26|MURG_FRAT1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.6   0.0   2.9e-29   1.6e-26       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 97.6 bits;  conditional E-value: 2.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+++e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|Q14I26|MURG_FRAT1   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNNMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+d+v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|Q14I26|MURG_FRAT1  93 LKADLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|Q5NGM4|MURG_FRATT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.6   0.0   2.9e-29   1.6e-26       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 97.6 bits;  conditional E-value: 2.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+++e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|Q5NGM4|MURG_FRATT   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNNMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+d+v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|Q5NGM4|MURG_FRATT  93 LKADLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|Q493Q1|MURG_BLOPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.8   0.0   2.6e-29   1.5e-26       1     138 [.       7     144 ..       7     145 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 97.8 bits;  conditional E-value: 2.6e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gG++G+v+P +++a+ L + G++V  l+t +++e+++ +++g++++ i ++ +++ +  ++k +++l+    a+ +a++i+k +
+  sp|Q493Q1|MURG_BLOPB   7 IMIVAGGSGGHVFPGLSVAHYLINHGYQVVwLGTADRIESKLvPQYGIDIKFIRIN-GWNGEKLHIKCIMPLFIC-LAIYQARKIIKYW 93 
+                           6789****************************************************.777666689999999987.9************ PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v+g+ggyv+++ ++aa+ +g+p++++Eqn i gl+n++l+ + ++vl
+  sp|Q493Q1|MURG_BLOPB  94 KPDIVLGMGGYVSGPGGLAAWTCGVPLIIHEQNRIIGLTNRYLSIFSKKVL 144
+                           *******************************************98888775 PP
+
+>> sp|Q92I58|MURG_RICCN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.2   0.0   1.9e-29   1.1e-26       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 98.2 bits;  conditional E-value: 1.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  +++  +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|Q92I58|MURG_RICCN   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCKQYIkQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIKLLYNMK 85 
+                           689**************************************999***********.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p v+vgfggy   ++++aa+++++p++++Eqn+  g+vnk+++ +a++++
+  sp|Q92I58|MURG_RICCN  86 PSVTVGFGGYPVIAPMFAAIFLRVPIIIHEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|C3PND5|MURG_RICAE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.2   0.0   1.9e-29   1.1e-26       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 98.2 bits;  conditional E-value: 1.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  +++  +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|C3PND5|MURG_RICAE   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCKQYIkQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIKLLYNMK 85 
+                           689**************************************999***********.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p v+vgfggy   ++++aa+++++p++++Eqn+  g+vnk+++ +a++++
+  sp|C3PND5|MURG_RICAE  86 PSVTVGFGGYPVIAPMFAAIFLRVPIIIHEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|C4K2A6|MURG_RICPU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.2   0.0   1.9e-29   1.1e-26       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 98.2 bits;  conditional E-value: 1.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  +++  +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|C4K2A6|MURG_RICPU   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCKQYIkQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIKLLYNMK 85 
+                           689**************************************999***********.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p v+vgfggy   ++++aa+++++p++++Eqn+  g+vnk+++ +a++++
+  sp|C4K2A6|MURG_RICPU  86 PSVTVGFGGYPVIAPMFAAIFLRVPIIIHEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|B2S1A8|MURG_BORHD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.3   0.0   1.8e-29     1e-26       1     139 []       7     148 ..       7     148 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 98.3 bits;  conditional E-value: 1.8e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           + ++ggGT+G+v+P +A+  +L++ + +++   l+ +  +e+ +  e + +++ +i+++ kl++++ sl+++++++++  ++ k+++i+
+  sp|B2S1A8|MURG_BORHD   7 IFFTGGGTGGHVFPGIAIISKLKELDTNIEffwLGQKGSMEDNIikEHEYIKFIAIPSG-KLRRYF-SLQNFTDVFKVIFGIIKSFFII 93 
+                           679******************************************777889********.******.********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           k++kp++++++gg+v+ +++iaa+l++++ + +E +  pgl++k+++++a ++++
+  sp|B2S1A8|MURG_BORHD  94 KKYKPQIIYATGGFVSSPPIIAASLLRVKSITHEMDLDPGLATKINSKFASKIHI 148
+                           **************************************************99985 PP
+
+>> sp|A8GRZ6|MURG_RICRS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.2   0.0   1.9e-29   1.1e-26       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 98.2 bits;  conditional E-value: 1.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  +++  +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|A8GRZ6|MURG_RICRS   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCKQYIkQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIKLLYNMK 85 
+                           689**************************************999***********.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p v+vgfggy   ++++aa+++++p++++Eqn+  g+vnk+++ +a++++
+  sp|A8GRZ6|MURG_RICRS  86 PSVTVGFGGYPVIAPMFAAIFLRVPIIIHEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|B0BXF6|MURG_RICRO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.2   0.0   1.9e-29   1.1e-26       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 98.2 bits;  conditional E-value: 1.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  +++  +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|B0BXF6|MURG_RICRO   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCKQYIkQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIKLLYNMK 85 
+                           689**************************************999***********.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p v+vgfggy   ++++aa+++++p++++Eqn+  g+vnk+++ +a++++
+  sp|B0BXF6|MURG_RICRO  86 PSVTVGFGGYPVIAPMFAAIFLRVPIIIHEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|Q3SMH3|MURG_THIDA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.8   0.4   2.7e-29   1.5e-26       2     138 ..       9     145 ..       8     146 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 97.8 bits;  conditional E-value: 2.7e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+Pa+A+a++L++rG+ V  l+t  gle++v ++ag+++v +  + +++ k+  +k+l+ +a  l a+ ++  ++ + +
+  sp|Q3SMH3|MURG_THIDA   9 MVMAGGTGGHVYPALAVAETLRERGWSVFwLGTRAGLEARVvPAAGIDMVWVSMG-GVRGKG-LVKKLLLPAMLLVAFAQSLGAILRRR 95 
+                           5899***************************************************.******.9************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggy a + +  a+l++ p++v+Eqn++ gl+n+ll+  a++vl
+  sp|Q3SMH3|MURG_THIDA  96 PDVVLGMGGYTAFPGGMMASLLNRPLVVHEQNSVGGLTNRLLACLADRVL 145
+                           *****************************************999998886 PP
+
+>> sp|Q21MG9|MURG_SACD2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.6   0.7   3.1e-29   1.7e-26       1     138 [.      32     175 ..      32     176 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 97.6 bits;  conditional E-value: 3.1e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-......--EEEE----S------.-HHHCCSHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea......gleavpigpdvklwakleslktlkelaeglkalrkak 81 
+                           vv+++gGT+G+v+P +A+a++  +rG ++  l++  g+e+++ ++a       +++ +i++  +++ k+  ++ l  ++++lka+++ak
+  sp|Q21MG9|MURG_SACD2  32 VVIMAGGTGGHVYPGLAVAEAMHQRGFNIAwLGSRGGMEKELvAKAseqmgfDIAFSEIEIS-GVRGKG-RMALLAAPFRVLKAIEQAK 118
+                           799****************************9999999988875553333334777779999.******.******************* PP
+
+                           HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +il++ +p++v+g+gg+va++ + aa++++ip++++Eqn+ +g +nk+l r+an  l
+  sp|Q21MG9|MURG_SACD2 119 QILQKLRPALVIGMGGFVAGPGGMAARKLKIPLVIHEQNAAAGTTNKILRRFANLTL 175
+                           *****************************************************9876 PP
+
+>> sp|B1IAM4|MURG_STRPI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|B1IAM4|MURG_STRPI   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|B1IAM4|MURG_STRPI  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|Q04LK0|MURG_STRP2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|Q04LK0|MURG_STRP2   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|Q04LK0|MURG_STRP2  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|Q8DQM1|MURG_STRR6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|Q8DQM1|MURG_STRR6   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|Q8DQM1|MURG_STRR6  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|B2IN77|MURG_STRPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|B2IN77|MURG_STRPS   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|B2IN77|MURG_STRPS  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|C1CQG5|MURG_STRZT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|C1CQG5|MURG_STRZT   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|C1CQG5|MURG_STRZT  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|C1CD52|MURG_STRZJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|C1CD52|MURG_STRZJ   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|C1CD52|MURG_STRZJ  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|Q634T3|MURG2_BACCZ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.1   0.0   4.3e-29   2.4e-26       1     138 [.       4     141 ..       4     142 .. 0.99
+
+  Alignments for each domain:
+  == domain 1    score: 97.1 bits;  conditional E-value: 4.3e-29
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                            +v++ggG++G+v P +A+   L++  +++  ++++ g+e+++ e++ + +++i+++ kl++++  lk++k+++ + k++ +a   +++
+  sp|Q634T3|MURG2_BACCZ   4 IVFTGGGSAGHVTPNLAIIPYLKEDNWDISyIGSHQGIEKTIiEKEDILYYSIASG-KLRRYF-DLKNIKDPFLVMKGVMDAYVRIRK 89 
+                            79******************************************************.******.************************ PP
+
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             kpdv+++ gg+v+++++i+ +l+++p+ ++E++  pgl+nk+  r+a +++
+  sp|Q634T3|MURG2_BACCZ  90 LKPDVIFSKGGFVSVPVVIGGWLNRVPVLLHESDMTPGLANKIALRFASKIF 141
+                            ***********************************************99987 PP
+
+>> sp|A1VST6|MURG_POLNA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.5   0.2   3.1e-29   1.7e-26       2     138 ..       8     149 ..       7     150 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 97.5 bits;  conditional E-value: 3.1e-29
+                           EEE-------HHHHHHHHHHHHH---EEE......EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr......latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++++gGT+G+++P +A+a++L++rG++V+       a+ p +e+++ + +g ++++i+   +++ k+  ++  + +++ lka+ ++ ++
+  sp|A1VST6|MURG_POLNA   8 LVMAGGTGGHIFPGLAVAEALRERGWRVHwlggkgSAARPSMESQLvPPRGFSFETIDFS-GVRGKG-PVTLALLPLRLLKAFWQSVQV 94 
+                           689***************************88888899**********************.******.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++ kpdvvvg ggy+a +a+  + l+g p++++Eqn+++g+vnk+l+  a++v+
+  sp|A1VST6|MURG_POLNA  95 IRRVKPDVVVGLGGYIAFPAGMMSVLLGKPLVLHEQNSVAGMVNKVLASVADRVF 149
+                           ***************************************************9997 PP
+
+>> sp|A6UB85|MURG_SINMW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.6   0.8   6.1e-29   3.5e-26       1     136 [.       6     140 ..       6     142 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 96.6 bits;  conditional E-value: 6.1e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++la+gGT+G+++Pa Ala+eL++ G+ V+l+t  + e+f    +++++++v+   ig++       + +k  +++++ + +lr+a+++
+  sp|A6UB85|MURG_SINMW   6 ILLAAGGTGGHLFPAEALAHELKASGYSVHLVTDSRAERFAgrfPADEIHVVAsatIGSK-------NPVKLARSAWKLWTGLRAARRL 87 
+                           79**********************************999998778999999885444444.......599******************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           +++ kp +vvgfggy  +++l+aa+  g+p++++Eqn+++g +nk l+ r+  
+  sp|A6UB85|MURG_SINMW  88 ISRLKPMAVVGFGGYPTVPPLLAATGMGVPTIIHEQNAVMGRANKMLASRVAA 140
+                           ***********************************************999876 PP
+
+>> sp|B9DNZ7|MURG_STACT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.9   0.0   9.8e-29   5.5e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.9 bits;  conditional E-value: 9.8e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l    q+rG+e   +++++g+e++  e++  g+++ pi ++ kl++++ s++++k+++++lk++ +a+++lk
+  sp|B9DNZ7|MURG_STACT   4 IAFTGGGTVGHVSVNLSLIPIAQERGYEAFyVGSKNGIEREMiESQlpGIQYFPISSG-KLRRYI-SVENIKDVFKVLKGVLDARKVLK 90 
+                           79****************************************766566888889****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk++ ++a++++
+  sp|B9DNZ7|MURG_STACT  91 KQKPDLLFSKGGFVSVPVVIAARSLNIPVVIHESDITPGLANKISLKFAKKIY 143
+                           **************************************************997 PP
+
+>> sp|B4E6J2|MURG_BURCJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.0   0.4   4.6e-29   2.6e-26       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 97.0 bits;  conditional E-value: 4.6e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ + + l+a  ++  +l++ +
+  sp|B4E6J2|MURG_BURCJ   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPVNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|B4E6J2|MURG_BURCJ  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|B1JV78|MURG_BURCC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.0   0.4   4.6e-29   2.6e-26       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 97.0 bits;  conditional E-value: 4.6e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ + + l+a  ++  +l++ +
+  sp|B1JV78|MURG_BURCC   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPVNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|B1JV78|MURG_BURCC  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|C1C649|MURG_STRP7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|C1C649|MURG_STRP7   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|C1C649|MURG_STRP7  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|Q2S9Z2|MURG_HAHCH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.8   0.2   5.3e-29     3e-26       1     135 [.       6     140 ..       6     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.8 bits;  conditional E-value: 5.3e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A a +L+++G +V  l++  g+ee++   + ++++ i+++ +l+ k+   + l+ + +  +al +a+ +++++
+  sp|Q2S9Z2|MURG_HAHCH   6 FLVMAGGTGGHVYPALASALALREQGANVVwLGARGGMEERIiGRTDIPMRLITIG-GLRGKG-VAALLMAPVNLVRALWQAFSVFRKE 92 
+                           799*****************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kpd v+g+gg+++++ +i a l g p++++Eqn+i+g++n++l+r a 
+  sp|Q2S9Z2|MURG_HAHCH  93 KPDCVLGMGGFASGPGGIVACLTGTPLVIHEQNAIAGMTNRWLARGAR 140
+                           ******************************************998765 PP
+
+>> sp|B5E2Z9|MURG_STRP4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.5   0.0   1.3e-28   7.6e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.5 bits;  conditional E-value: 1.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|B5E2Z9|MURG_STRP4   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVCWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|B5E2Z9|MURG_STRP4  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|C1CJF3|MURG_STRZP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.5   0.0   1.3e-28   7.6e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.5 bits;  conditional E-value: 1.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|C1CJF3|MURG_STRZP   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVCWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|C1CJF3|MURG_STRZP  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|A9I4V2|MURG_BORPD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.1   0.3   4.4e-29   2.5e-26       1     138 [.       6     143 ..       6     144 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 97.1 bits;  conditional E-value: 4.4e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++gGT+G++ P +A+a+ L++rG++V  l+ p+++e ++ + +g++ vp   + +++ ++   ++lk ++  l+a  +a  +l + 
+  sp|A9I4V2|MURG_BORPD   6 VLIMAGGTGGHIMPGLAVADVLRERGWRVLwLGNPDKMEGRLvPPRGIDLVPMHFQ-GVRGRG-VAAMLKLPFLLLRACSQAWGHLTRV 92 
+                           789*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv+g+ggyva + +  a+l+g p++v+Eqn+++g +n++l+r a +vl
+  sp|A9I4V2|MURG_BORPD  93 RPDVVLGMGGYVAFPGGMMAALRGLPLVVHEQNAVAGTANRWLARLARRVL 143
+                           *********************************************999987 PP
+
+>> sp|B0RIJ3|MURG_CLAMS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.0   1.4   2.3e-29   1.3e-26       2     137 ..       5     142 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 98.0 bits;  conditional E-value: 2.3e-29
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +laggGT+G+v P++A+a+eL++r++  +   l+t +gle+++ +++g+e  +i+   +++++    ++++ + ++ +a+ ++++ ++e
+  sp|B0RIJ3|MURG_CLAMS   5 LLAGGGTAGHVNPLLAVADELRAREPGSTilvLGTREGLESRLvPARGYELLTIARL-PFPRRP-NGAAVRFAPAFTRAVGQIRRMIAE 91 
+                           89***********************9887899************************9.****99.999999999*************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                              dvvvgfggy+a++a++aa+++g+p++v+E+n+ pgl+n+l +r a+ v
+  sp|B0RIJ3|MURG_CLAMS  92 RGVDVVVGFGGYAAAPAYLAARRSGVPVVVHEANASPGLANRLGARVATAV 142
+                           ********************************************9999887 PP
+
+>> sp|P0CB60|MURG_STRPN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.0   0.0   1.9e-28   1.1e-25       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.0 bits;  conditional E-value: 1.9e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|P0CB60|MURG_STRPN   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKCGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|P0CB60|MURG_STRPN  91 RLRPQTLFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|B8ZMZ7|MURG_STRPJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.0   0.0   1.9e-28     1e-25       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.0 bits;  conditional E-value: 1.9e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l+ ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i+ 
+  sp|B8ZMZ7|MURG_STRPJ   4 IVFTGGGTVGHVTLNLLLMPKFIEDGWEVHyIGDKRGIEHQEiLKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGIVQSLFIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+ +g+p++++E++  +gl+nk+  ++a++++
+  sp|B8ZMZ7|MURG_STRPJ  91 RLRPQILFSKGGFVSVPPVIAARVSGVPVFIHESDLSMGLANKIAYKFATKMY 143
+                           **************************************************987 PP
+
+>> sp|B3PTW0|MURG_RHIE6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.9   0.7     2e-28   1.1e-25       1     137 [.       6     141 ..       6     142 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 94.9 bits;  conditional E-value: 2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+la+gGT+G+v+Pa Ala +L++rG+ V+l+t  + e+f    +++++++vp   ig++       + ++  ++l+  + ++r+ak++
+  sp|B3PTW0|MURG_RHIE6   6 VLLAAGGTGGHVFPAEALAFKLKERGYSVHLVTDSRAERFAgkfPAEEIHVVPsatIGSK-------NPVAVARSLWTLWSGMRAAKKL 87 
+                           79**************************************98778888888885444444.......366777777777777******* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++ kp +vvgfggy  +++l+aa+++gi+  ++Eqn+++g +nk+l+ r++ +
+  sp|B3PTW0|MURG_RHIE6  88 IQRLKPVIVVGFGGYPTVPPLLAATRLGIASMLHEQNAVMGRANKALAPRVKAI 141
+                           ************************************************999876 PP
+
+>> sp|Q0SHS1|MURG_RHOSR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.7   1.3   5.8e-29   3.3e-26       1     138 [.      10     155 ..      10     156 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 96.7 bits;  conditional E-value: 5.8e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G++ePa+A+a++ ++ +       l+t +gle+++ +e+g++ + i+p  +l++k  +l+ l+ + +++ ++r+++e+l 
+  sp|Q0SHS1|MURG_RHOSR  10 VIVAGGGTAGHIEPALAVADAIKAIDDTAVvtaLGTARGLETTLvPERGYPLELIPPV-PLPRKP-TLDLLRLPGRVRASVRRTREVLD 96 
+                           689********************977433359**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH......HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal......lagipanvaEqngipglvnkllprrangvl 138
+                              +dvvvgfggyva++a++aa       +++ip++v+E+n+ +g++nk+ +rra +vl
+  sp|Q0SHS1|MURG_RHOSR  97 ATGADVVVGFGGYVALPAYLAAGpgllrrRRRIPIVVHEANASAGIANKIGARRAARVL 155
+                           *********************98999999**************************9997 PP
+
+>> sp|Q313Q3|MURG_DESDG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.8   0.9   5.4e-29   3.1e-26       1     139 []       4     143 ..       4     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.8 bits;  conditional E-value: 5.4e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l++gGT+G+++Pa+A+a+e +r+ +      ++ + g e+++ +++g+ ++ ++++ +++   + lk+++ la+   ++ + ++++ 
+  sp|Q313Q3|MURG_DESDG   4 VLLTTGGTGGHIFPALAVAEEIRRQYPAADilfVGGSYGPEARIvPAHGIRFEGLPVR-GVMG--RGLKAPLALAAMTAGVARGMRLVG 89 
+                           79************************99999999************************.9999..77********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +++pdvv+gfggy+a +a++aa+l++ p  v+Eqn++pg++n+ll++ a++v++
+  sp|Q313Q3|MURG_DESDG  90 RFNPDVVIGFGGYAAFAAMVAAKLREKPCAVHEQNSVPGMANRLLAKIADRVFI 143
+                           ***************************************************985 PP
+
+>> sp|A8F1I4|MURG_RICM5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.8   0.0   5.4e-29   3.1e-26       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.8 bits;  conditional E-value: 5.4e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  +++  +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|A8F1I4|MURG_RICM5   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCKQYIkQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIKLLYNMK 85 
+                           689**************************************999***********.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +v+vgfggy   ++++aa+++++p++++Eqn+  g+vnk+++ +a++++
+  sp|A8F1I4|MURG_RICM5  86 SAVTVGFGGYPVIAPMFAAIFLRVPIIIHEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|A6H195|MURG_FLAPJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.0   0.0   4.5e-29   2.5e-26       1     138 [.       6     145 ..       6     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 97.0 bits;  conditional E-value: 4.5e-29
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G+++Pa+A+a+eL+ r ++ +   +++++++e +  ++ag++++ + +  +l++k+ +l++ + +++ l +l k++ i++
+  sp|A6H195|MURG_FLAPJ   6 FILSGGGTGGHIYPAIAIANELKSRFPNCKilfVGAKDKMEMQKvPQAGYDIKGLSIA-GLQRKI-TLQNAMFPFKLLSSLVKSFGIVQ 92 
+                           79**************************************98877*************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpdvv+g+gg++++++l  a+ +gi++++ Eqn+ pg++nkll+++an++ 
+  sp|A6H195|MURG_FLAPJ  93 QFKPDVVIGTGGFASGAVLKVASILGIATVIQEQNSYPGITNKLLSKKANKIC 145
+                           **************************************************985 PP
+
+>> sp|A0K486|MURG_BURCH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.0   0.4   4.6e-29   2.6e-26       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 97.0 bits;  conditional E-value: 4.6e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ + + l+a  ++  +l++ +
+  sp|A0K486|MURG_BURCH   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPVNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|A0K486|MURG_BURCH  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q1BZG3|MURG_BURCA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   97.0   0.4   4.6e-29   2.6e-26       2     139 .]       9     146 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 97.0 bits;  conditional E-value: 4.6e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+v+P +A+a++  ++G++V  l+ p g+e+++ +++g++++ +  + +l+ k+   ++l+ + + l+a  ++  +l++ +
+  sp|Q1BZG3|MURG_BURCA   9 MVMAGGTGGHVFPGLAVAHRMEAAGWRVVwLGNPAGMEATLvPKHGIPMEYVRFG-GLRGKG-LKTKLTLPVNLLRACWQSLGALRRVR 95 
+                           5899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           pdvv+g+ggy+  +a++ ++l+g p++++Eqn+i+gl+nk+l++ a++vlv
+  sp|Q1BZG3|MURG_BURCA  96 PDVVLGMGGYITFPAGVMTALSGRPLVLHEQNSIAGLTNKVLAKLAKRVLV 146
+                           ***********************************************9986 PP
+
+>> sp|Q12EL5|MURG_POLSJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.6   0.2     6e-29   3.4e-26       2     138 ..      35     176 ..      34     177 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.6 bits;  conditional E-value: 6e-29
+                           EEE-------HHHHHHHHHHHHH---EEE......EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr......latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++++gGT+G+++P +A+a++L++rG++V+       a +p +e+++ + +g ++++i+   +++ k+  l+ +  +++ lka+ ++ ++
+  sp|Q12EL5|MURG_POLSJ  35 LVMAGGTGGHIFPGLAVAEALRERGWRVHwlggrgNAGHPSMESQLvPPRGFAFESIDFS-GVRGKG-PLTLVFLPLRLLKAFWQSIQV 121
+                           689***************************77777789**********************.******.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++ kpdvvvg ggy+a +a+  + l+g p++++Eqn+++g+vnk+l+  a++v+
+  sp|Q12EL5|MURG_POLSJ 122 VRRVKPDVVVGLGGYIAFPAGMMSVLLGKPLVLHEQNSVAGMVNKVLAGVADRVF 176
+                           *************************************************999997 PP
+
+>> sp|Q8UDM8|MURG_AGRT5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.2   0.9   7.9e-29   4.5e-26       1     137 [.       6     141 ..       6     142 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 96.2 bits;  conditional E-value: 7.9e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+la+gGT+G+v+Pa Ala++L++rG++V+l+t  + e+     +++++++vp   ig++       + ++ +++l++ + +lr a+++
+  sp|Q8UDM8|MURG_AGRT5   6 VLLAAGGTGGHVFPAEALAHTLKARGYQVHLVTDSRAERYAgkfPADEIHVVPsatIGSK-------NPISVVRSLWKLWVGLRTARRL 87 
+                           79********************************99999887678999999995444444.......599******************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           + + kp +vvgfggy  +++l+a++ +g+p +++Eqn+++g +nk+l+ r++ +
+  sp|Q8UDM8|MURG_AGRT5  88 VTKLKPVAVVGFGGYPTVPPLLASTGLGVPSIIHEQNAVMGRANKALAARVKAI 141
+                           *************************************************99876 PP
+
+>> sp|B7K5Z6|MURG_CYAP8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.6   0.0   6.1e-29   3.4e-26       2     138 ..       5     138 ..       4     139 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.6 bits;  conditional E-value: 6.1e-29
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+Ala++L ++ +e  l++p++le ++  + ++ ++i+++ +++ +   lk+l  l++  +++++++ ++k + +d
+  sp|B7K5Z6|MURG_CYAP8   5 LIAASGTGGHLFPALALAEHLPDYQIEW-LGVPDRLEQTLVGDRYPLHSIAVE-GFQTRS-VLKNLQILFKLIRGIFEVRHLIKTHHID 90 
+                           799********************99776.************************.****99.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           vv+ +ggy+a++a+++a+lagi a+++E+n ipg+v++ll+r++++v+
+  sp|B7K5Z6|MURG_CYAP8  91 VVFTTGGYIAAPAILGARLAGIRAILHESNFIPGKVTRLLSRFCDRVA 138
+                           *********************************************997 PP
+
+>> sp|Q2NCZ0|MURG_ERYLH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.4   0.2   1.4e-28     8e-26       2     137 ..       9     142 ..       8     144 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 95.4 bits;  conditional E-value: 1.4e-28
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           vla+gGT+G++ Pa Ala eL rrGh+V l+t ++ ++   + + l+a+ i+++ ++ +  + l+ +  l +++k+++ ak+++++++p
+  sp|Q2NCZ0|MURG_ERYLH   9 VLAAGGTGGHLLPAFALAAELDRRGHHVALITDERGAKIPgKPDFLPAHVIPAG-RFGK--NPLRWVGGLRAVWKGREMAKRLFESFQP 94 
+                           8*****************************************************.7777..566666666666666************* PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            +vvgfggy a++a++aa+++ ip +++Eqn++ g vn+l + r+  +
+  sp|Q2NCZ0|MURG_ERYLH  95 SAVVGFGGYPALPAMLAASREDIPSIIHEQNAVLGRVNRLQAGRVSAI 142
+                           ****************************************99998766 PP
+
+>> sp|Q9Y751|ATG26_PICPG  Sterol 3-beta-glucosyltransferase OS=Pichia pastoris (strain GS115) GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.5   0.0   1.3e-28   7.3e-26       1     138 [.     763     897 ..     763     898 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.5 bits;  conditional E-value: 1.3e-28
+                            EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrka 80 
+                            +vl+++G+rGdv+P+++la++L ++ h+V+++t+++++++ve++g+e+ +i+++        v++++   s+++lke+ e+       
+  sp|Q9Y751|ATG26_PICPG 763 FVLLTIGSRGDVQPYISLAKGLLAENHKVKIVTHEEFKPWVESYGIEFATIAGNpaelmslmVTHKS--LSVGFLKEAKEK------- 841
+                            89*****************************************************999998888888..799999999999....... PP
+
+                            HHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            ++ +  +  + +++++  +++++li++++a++ +++aE+++ip+++++++p+++++++
+  sp|Q9Y751|ATG26_PICPG 842 FTGWIGELLQSSWDAC--QDADVLIESPSAMAGIHIAEKLQIPYFRAFTMPWTRTRAY 897
+                            999*****99999999..8999********************************9987 PP
+
+>> sp|Q5P6Z6|MURG_AZOSE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.3   0.2   7.5e-29   4.2e-26       2     138 ..       5     141 ..       4     142 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 96.3 bits;  conditional E-value: 7.5e-29
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P vA+a++L+ rG+++  ++ p+g+e+++ +++g+e+  +  +  l+ k+  l++l+ +++ l+++ +a   l++ +
+  sp|Q5P6Z6|MURG_AZOSE   5 LVMAGGTGGHIFPGVAVAEQLRGRGWRIVwMGNPDGMEARIvPQHGYETAWVHFG-ALRGKG-LLRKLLLPLNLLRGFWQALGELRRIR 91 
+                           789****************************************************.******.99************************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggyv  + +  a+l+g p++v+Eqn+++gl+n++l+  a++vl
+  sp|Q5P6Z6|MURG_AZOSE  92 PDVVLGMGGYVTFPGGMMAALLGRPLVVHEQNSVAGLANRVLAGVADRVL 141
+                           *********************************************99997 PP
+
+>> sp|B6IRG2|MURG_RHOCS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.3   1.1   7.6e-29   4.3e-26       1     137 [.       6     140 ..       6     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.3 bits;  conditional E-value: 7.6e-29
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa AlareL +rGh+V l+t  + ++f  + ++++++ i +  +l      l++ ++++e + ++ +a+++l++ +
+  sp|B6IRG2|MURG_RHOCS   6 IVLAAGGTGGHLFPAEALARELLERGHRVVLVTDVRGTAFGdALREVPVHRIRSA-TLGG--GLLGKARTALELGIGTLQARRLLSRLE 91 
+                           79*****************************************************.9999..469************************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p++vvgfggy + +a++aa+ ++ip+ ++Eqn+++g +n+ l+rra  +
+  sp|B6IRG2|MURG_RHOCS  92 PAIVVGFGGYPSFPAVYAAAGLRIPVAIHEQNAVMGRANRMLARRARLI 140
+                           *********************************************9865 PP
+
+>> sp|A7TF84|ATG26_VANPO  Sterol 3-beta-glucosyltransferase OS=Vanderwaltozyma polyspora (strain ATCC 22028 / DSM 70294)
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.4   0.0     7e-29   3.9e-26       2     138 ..     760     895 ..     759     896 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.4 bits;  conditional E-value: 7e-29
+                            EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81 
+                             ++++G+rGdv+P++Ala++L ++Gh V+++t++++++fve +g+++++i++d        v++ a    +++l+e+ ++       +
+  sp|A7TF84|ATG26_VANPO 760 GFLTIGSRGDVQPYIALAKGLIQEGHSVTIITHREFKSFVECHGIDFKEIAGDptklmslmVEHEA--INVGMLMEASSK-------F 838
+                            589********************************************************9999999..69**********.......* PP
+
+                            HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            + +  +   +++++++  ++++li++++a++ +++ E+++ip+++++++p+++++++
+  sp|A7TF84|ATG26_VANPO 839 RGWIHDLLVTTWEACKNLKLDILIESPSAMAGIHISEALQIPYFRAFTMPWTRTRAY 895
+                            *****************************************************9987 PP
+
+>> sp|Q2S528|MURG_SALRD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.3   1.4   3.1e-28   1.7e-25       1     138 [.       8     147 ..       8     148 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 94.3 bits;  conditional E-value: 3.1e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+v+Pa+A+a+++++  ++      +t+++le++  +eag++ +pi+++ +l+++    ++l+ ++++ ++l ++ +++ 
+  sp|Q2S528|MURG_SALRD   8 ILMVGGGTGGHVYPAIAIADAVRALRPDAQivfAGTQDRLEARAvPEAGYALHPITAQ-GLQRRA-VASNLLLPFRVAQGLVQSWRLVG 94 
+                           6899***********************99987779***********************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             +pdv vg+ggyva+++l aa+l+g p+ + Eqn+ +gl+n++l+r a +++
+  sp|Q2S528|MURG_SALRD  95 AIEPDVAVGTGGYVAAPVLMAAWLRGRPLLIQEQNAYAGLTNRVLARLALRIH 147
+                           *********************************************99887776 PP
+
+>> sp|B2SGS8|MURG_FRATM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.7   0.0   1.2e-28   6.5e-26       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 95.7 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|B2SGS8|MURG_FRATM   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNSMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+d+v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|B2SGS8|MURG_FRATM  93 LKADLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|A4IX64|MURG_FRATW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.7   0.0   1.2e-28   6.5e-26       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 95.7 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|A4IX64|MURG_FRATW   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNSMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+d+v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|A4IX64|MURG_FRATW  93 LKADLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|Q67Q48|MURG_SYMTH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.7   1.1   1.1e-28   6.3e-26       2     139 .]       4     143 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 95.7 bits;  conditional E-value: 1.1e-28
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++ggGT+G+++Pa+++ar+L ++++e +   ++t  g e+ + ++ag+++  i ++ ++ + +  l+ ++  ++  ++l +a  ++++
+  sp|Q67Q48|MURG_SYMTH   4 LITGGGTGGHIYPALSIARALTEQDPEAEllyVGTRTGREAAIvPQAGIAFAVISSG-GVVNLG-LLQRVRGGLRAARGLLEALGHIRR 90 
+                           79*******************************************************.999977.99999999999999********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           ++pd+v+g+gg+va+++l aa+la++p+++ Eqn+ pg++n+l +r+a+ v+v
+  sp|Q67Q48|MURG_SYMTH  91 FRPDIVIGTGGFVAGPVLAAARLARVPLVIQEQNAFPGVTNRLAARWATAVFV 143
+                           *************************************************9985 PP
+
+>> sp|Q6C8M8|ATG26_YARLI  Sterol 3-beta-glucosyltransferase OS=Yarrowia lipolytica GN=ATG26 PE=3 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.7   0.0   1.2e-28   6.6e-26       1     138 [.     997    1131 ..     997    1132 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 95.7 bits;  conditional E-value: 1.2e-28
+                             EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHH CS
+        Glyco_transf_28    1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalr 78  
+                             ++l+++G+rGdv+P+++l+++L ++Gh+Vr+at+ ++++++e +g+e++++++d        v +    +s+++l+++a++     
+  sp|Q6C8M8|ATG26_YARLI  997 FTLLTIGSRGDVQPYISLGKALIEEGHRVRIATHSEFKDWIEGYGIEFKEVAGDpselmkimVDHGV--FSVSFLRDAASK----- 1075
+                             789*******************************************************997777777..8***********..... PP
+
+                             HHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   79 kakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                               ++ + ++  + +++++  +  ++li++++a++ +++aE+++ip+++++++p+ +++++
+  sp|Q6C8M8|ATG26_YARLI 1076 --FRGWINELLASSWEAC--QGSDVLIESPSAMAGIHIAEALQIPYFRAFTMPWSRTRAY 1131
+                             ..9999999988887777..78999******************************99987 PP
+
+>> sp|C1AU55|MURG_RHOOB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   1.4   1.2e-28     7e-26       1     138 [.      10     155 ..      10     156 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v++aggGT+G++ePa+A+a++ ++ +       l+t +gle+++ +e+g++ + ++p  +l++k  +l+ l+ + +++ ++r+++e+l 
+  sp|C1AU55|MURG_RHOOB  10 VIVAGGGTAGHIEPALAVADAIKAIDDTAVvtaLGTARGLETTLvPERGYPLELVPPV-PLPRKP-TLDLLRLPGRVRASVRRTREVLD 96 
+                           689********************977433359**************************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHH......HHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal......lagipanvaEqngipglvnkllprrangvl 138
+                              +dvvvgfggyva++a++aa       +++ip++v+E+n+ +g++nk+ +rra +vl
+  sp|C1AU55|MURG_RHOOB  97 ATGADVVVGFGGYVALPAYLAAGpgllrrRRRIPIVVHEANASAGIANKIGARRAARVL 155
+                           *********************98999999**************************9997 PP
+
+>> sp|B3E3Y2|MURG_GEOLS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.1   1.2e-28   6.8e-26       2     139 .]       4     143 ..       3     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++P +A+a+e+  r++      +++++g+e++  +  g++ + i +  + + k+ sl++lk +a    ++ ++++il +
+  sp|B3E3Y2|MURG_GEOLS   4 IVAGGGTGGHLFPGIAVAEEFLSRDPANQvlfVGSERGIEARAiPRLGYQLELISAA-GIRGKG-SLAKLKGAAMMIYGYAQSRKILHR 90 
+                           68***********************876666**************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           ++pd+v+g+ggy++++ + aa+  +ip++++Eqn++pg++nk+l+r an+v++
+  sp|B3E3Y2|MURG_GEOLS  91 FQPDLVLGVGGYASLPMVMAARGMEIPRYIHEQNALPGMSNKVLSRVANKVFI 143
+                           **************************************************985 PP
+
+>> sp|A0Q766|MURG_FRATN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.4   0.0   1.4e-28   8.1e-26       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 95.4 bits;  conditional E-value: 1.4e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  ++++k+  +k+++ +++    + +++ +lk+
+  sp|A0Q766|MURG_FRATN   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNSMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLRSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+d+v+gfggyv++++++aa+l +ip++++Eqn+  gl+n++l+++a+++
+  sp|A0Q766|MURG_FRATN  93 LKADLVIGFGGYVSGPICLAAALINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|B1WVP7|MURG_CYAA5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   96.1   0.0   8.7e-29   4.9e-26       2     138 ..       5     138 ..       4     139 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 96.1 bits;  conditional E-value: 8.7e-29
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+v+Pa+ +a++L +++++  l+tp++le  +  + +++++i ++ +++ +   +k+lk l+  l +++++k++++++k+d
+  sp|B1WVP7|MURG_CYAA5   5 LIAASGTGGHVFPALGVAEKLSDYEIQW-LGTPNRLEQSLVGDRYPFHTISVE-GFQTRS-PIKKLKILLGLLSSIFEVKQLIEQQKID 90 
+                           799*********************9666.************************.****99.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           vv+ +ggy+a  a++aa+l+gipa+++E+n ipg+v+kll+r++++v+
+  sp|B1WVP7|MURG_CYAA5  91 VVFTTGGYIASSAILAAKLSGIPAILHESNYIPGKVTKLLSRFCTTVA 138
+                           ********************************************9986 PP
+
+>> sp|B0TY93|MURG_FRAP2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.6   0.0   1.2e-28   6.8e-26       1     137 [.       8     143 ..       8     145 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 95.6 bits;  conditional E-value: 1.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  +++ k+   +++  ++    ++ ka++ilk+
+  sp|B0TY93|MURG_FRAP2   8 IIITAGGTGGHIYPALAVAEMLRENNANVTwVGTPNSMEANIvpEYFNMQY--IKSS-GVRGKG-LKRKVAFPFTLISSTLKARKILKK 92 
+                           689***************************************655555555..7777.778888.77777777777788999******* PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+d+v+gfggyv++++++aa    ip++++Eqn+  gl+n++l++ a++v
+  sp|B0TY93|MURG_FRAP2  93 LKIDLVIGFGGYVSGPICLAAVQKDIPIIIHEQNAKIGLTNRILAKLATKV 143
+                           **********************************************99998 PP
+
+>> sp|Q68WW7|MURG_RICTY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.3   0.0   1.5e-28   8.7e-26       1     138 [.       4     135 ..       4     136 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 95.3 bits;  conditional E-value: 1.5e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+ V+++t  ++++ + +  ++ ++ ++++       ++++ l+ l   l a+ k+ +++   k
+  sp|Q68WW7|MURG_RICTY   4 IILVAGGTGGHFFPAVALGEELIKRGYIVHFITDLRCKKYInKDMKIIFYLLDLK-------RFSNILLFLPTLLIAFLKSIKLIYHIK 85 
+                           689***************************************************9.......567777777777777888********* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +v++gfggy   ++++aa++++ip++++Eqn+  g+vnk+++r+a++++
+  sp|Q68WW7|MURG_RICTY  86 SCVIIGFGGYPVIAPMFAAIFLRIPIIIHEQNSYLGKVNKFFARFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|Q6GGZ0|MURG_STAAR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.5   0.0   1.3e-28   7.5e-26       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.5 bits;  conditional E-value: 1.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+eV  +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q6GGZ0|MURG_STAAR   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEVLyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|Q6GGZ0|MURG_STAAR  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|B9JH51|MURG_AGRRK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.6   0.4   2.4e-28   1.4e-25       1     136 [.       6     140 ..       6     142 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 94.6 bits;  conditional E-value: 2.4e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++la+gGT+G+v+Pa Ala +L++rG+ V+l+t  + e+     +++++++vp   ig++       + +k  ++l+  + ++r+a+++
+  sp|B9JH51|MURG_AGRRK   6 ILLAAGGTGGHVFPAEALAYKLKERGYSVHLVTDSRAERYAgkfPADEIHVVPsatIGSK-------NPIKVARSLWTLWTGIRAARKL 87 
+                           79********************************99999887678999999995444444.......588999999999999******* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++  kp  vvgfggy  +++l+aa++ g+pa ++Eqn+++g +nk+l+ r+  
+  sp|B9JH51|MURG_AGRRK  88 IRTIKPLCVVGFGGYPTVPPLLAATRMGVPAMIHEQNAVMGRANKALAARVQA 140
+                           ***********************************************999876 PP
+
+>> sp|Q6BN88|ATG26_DEBHA  Sterol 3-beta-glucosyltransferase OS=Debaryomyces hansenii GN=ATG26 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.9   0.0   2.1e-28   1.2e-25       1     138 [.    1050    1184 ..    1050    1185 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 94.9 bits;  conditional E-value: 2.1e-28
+                             EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHH CS
+        Glyco_transf_28    1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalr 78  
+                             ++l+++G+rGdv+P++Al+++L ++Gh+V++at+ ++ee++  +g+++++i+++        v++ +  +sl++lke+ ++     
+  sp|Q6BN88|ATG26_DEBHA 1050 FTLLTIGSRGDVQPYIALGKGLLNEGHNVTIATHSDFEEWIVGHGIKFKTIAGNpvelmslmVTHGS--MSLSFLKEASSK----- 1128
+                             789***************************************************9888777666666..677777777777..... PP
+
+                             HHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   79 kakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                               ++ + ++  d++++++  +  ++li++++a++ a++aE++gip+++++++p+++++++
+  sp|Q6BN88|ATG26_DEBHA 1129 --FRGWIQELLDTSWKAC--QGSDILIESPSAMVGAHIAEALGIPYIRAFTMPWTRTRAY 1184
+                             ..999*****99999999..788999******************************9987 PP
+
+>> sp|A7NDC0|MURG_FRATF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.5   0.0   2.8e-28   1.6e-25       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 94.5 bits;  conditional E-value: 2.8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|A7NDC0|MURG_FRATF   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNSMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+++v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|A7NDC0|MURG_FRATF  93 LKANLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|Q0BL37|MURG_FRATO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.5   0.0   2.8e-28   1.6e-25       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 94.5 bits;  conditional E-value: 2.8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|Q0BL37|MURG_FRATO   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNSMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+++v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|Q0BL37|MURG_FRATO  93 LKANLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|Q2A2I7|MURG_FRATH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.5   0.0   2.8e-28   1.6e-25       1     137 [.       8     143 ..       8     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 94.5 bits;  conditional E-value: 2.8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa+A+a+ L++   +V+ ++tp+ +e+ +  e  ++++  i++  ++++k+  +k+++ +++    + k++ +lk+
+  sp|Q2A2I7|MURG_FRATH   8 IIITAGGTGGHIYPALAIAELLRQNKANVTwVGTPNSMEASIvpEYFNIQF--IKSS-GVRRKG-IIKKITFPLKLAYNTLKSRSLLKK 92 
+                           689***************************************655556666..9999.99****.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            k+++v+gfggyv++++++aa+  +ip++++Eqn+  gl+n++l+++a+++
+  sp|Q2A2I7|MURG_FRATH  93 LKANLVIGFGGYVSGPICLAAAQINIPVIIHEQNAKIGLTNRILAKFATTI 143
+                           ***********************************************9986 PP
+
+>> sp|A5CS51|MURG_CLAM3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.7   1.7   1.2e-28   6.5e-26       2     137 ..       5     142 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 95.7 bits;  conditional E-value: 1.2e-28
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +laggGT+G+v P++A+a+eL++r++  +   l+t +gle+++ +++g+e  +i+   +++++    ++++ + ++ +a+ ++++ ++e
+  sp|A5CS51|MURG_CLAM3   5 LLAGGGTAGHVNPLLAVADELRAREPGSTilvLGTREGLESRLvPARGYELLTIARL-PFPRRP-DGAAVRFAPAFARAVGQIRRMIAE 91 
+                           89***********************9887899************************9.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                             +dvvvgfggy+a++a+ aa++ g+p++v+E+n+ pgl+n+l +r a  v
+  sp|A5CS51|MURG_CLAM3  92 RGIDVVVGFGGYAAAPAYAAARRPGVPVVVHEANASPGLANRLGARVAAAV 142
+                           ******************************************999988766 PP
+
+>> sp|Q9ZDC0|MURG_RICPR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.9   0.0     2e-28   1.1e-25       1     138 [.       4     135 ..       4     136 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 94.9 bits;  conditional E-value: 2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+ V+++t  ++++ + +  ++ ++ ++++ ++ +       ++ l     ++ k+ +++ + k
+  sp|Q9ZDC0|MURG_RICPR   4 IILVAGGTGGHFFPAVALGEELIKRGYIVHFITDLRCKKYInKDMKIIFHILNLK-RFSN------IFLFLPILSITFLKSIRLIYNIK 85 
+                           689****************************************************.4444......44444444456777********* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++v++gfggy   ++++aa++++ip++++Eqn+  g+vnk+++r+a++++
+  sp|Q9ZDC0|MURG_RICPR  86 CCVIIGFGGYPVIAPMFAAIFLRIPIIIHEQNSYLGKVNKFFARFAKKIA 135
+                           ***********************************************986 PP
+
+>> sp|Q9ZK59|MURG_HELPJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.8   0.0   2.2e-28   1.2e-25       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 94.8 bits;  conditional E-value: 2.2e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Ala eL ++G+e + l+++ g ++++ e++ l  +    +++ ++ +k  ++k++++l+ + ka +kakeilk
+  sp|Q9ZK59|MURG_HELPJ   3 FALTGGGTGGHLSIAKALAIELEKQGIEAIyLGSTYGQDKEWfENSPLFSERyfFNTQ-GVVNKS-FFKKIRSLFLQAKAAFKAKEILK 89 
+                           79*************************************************9445555.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|Q9ZK59|MURG_HELPJ  90 KHQITHTISVGGFSAGPASFASLLNKIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|B7KGH1|MURG_CYAP7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.6   0.0   2.5e-28   1.4e-25       2     138 ..       9     142 ..       8     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 94.6 bits;  conditional E-value: 2.5e-28
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+A+a++L ++ +e  l++p++le ++  + ++ ++i+++ +++  + slk +k l+  + ++++++++l+e k+d
+  sp|B7KGH1|MURG_CYAP7   9 LIAASGTGGHLFPALAVAEQLLDYKIEW-LGVPNRLEQTLVPQDYPLHTIAVE-GFQTGF-SLKSVKILLGLFSSVFQVRKLLRERKID 94 
+                           799********************99776.***********99999999*****.999988.99999999999999************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +v+ +ggy+a +a++aa+l+gip++++E+n +pg+v+++++r++ +v+
+  sp|B7KGH1|MURG_CYAP7  95 IVFTTGGYIASPAILAARLEGIPVILHESNYLPGKVTRFFSRWCQTVA 142
+                           *******************************************99886 PP
+
+>> sp|Q4L6C8|MURG_STAHJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.6   0.0   2.4e-28   1.4e-25       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 94.6 bits;  conditional E-value: 2.4e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +  ++Gh+   ++++ g+e++  e++  ++e++pi ++ kl+++l s+++ k+++++lk++ +a+++lk
+  sp|Q4L6C8|MURG_STAHJ   4 IAFTGGGTVGHVSVNLSLIPTATDKGHDAFyIGSKTGIEREMiESQlpNIEYYPISSG-KLRRYL-SVDNAKDVFKVLKGVIDARKVLK 90 
+                           79****************************************776655688999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk++ ++a++++
+  sp|Q4L6C8|MURG_STAHJ  91 REKPDLLFSKGGFVSVPVVIAARSLNIPTIIHESDLTPGLANKISLKFAKKIY 143
+                           **************************************************997 PP
+
+>> sp|B4UES1|MURG_ANASK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.2   0.9   1.6e-28   9.3e-26       2     137 ..       4     141 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 95.2 bits;  conditional E-value: 1.6e-28
+                           EEE-------HHHHHHHHHHHHH---..EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGh..eVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+v+P +Ala+e+ +r +  +V  ++t +gle+ v ++ag +++ i+++ +l+ k+   ++l++l+   +a+ ++ +ilk+
+  sp|B4UES1|MURG_ANASK   4 MVAGGGTGGHVFPGIALAEEVVTRHPanDVVfVGTARGLEASVvPAAGFPIELIEVK-GLKGKG-IAGALLNLLLLPRAFLQSWRILKR 90 
+                           68*******************99987336779*************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++pdvvvg+ggy+++++++ a++ +ip+ v Eqn+i+gl+n+ll r ++ +
+  sp|B4UES1|MURG_ANASK  91 WRPDVVVGVGGYASGPVVLTAWAMRIPTAVQEQNAIAGLTNRLLGRVVKAA 141
+                           *******************************************99887765 PP
+
+>> sp|B9JY54|MURG_AGRVS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.7   1.3   2.4e-28   1.4e-25       1     137 [.       6     141 ..       6     142 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 94.7 bits;  conditional E-value: 2.4e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           ++la+gGT+G+++Pa Ala+eL++rG+ V+l+t  + e+     +++ +++vp   ig++  ++      k+l++l++g   +r+a+ +
+  sp|B9JY54|MURG_AGRVS   6 ILLAAGGTGGHLFPAEALAHELRARGYSVHLVTDSRAERYAgkfPADAIHVVPsatIGSK--NPV--AIAKALLTLWRG---YRAARSL 87 
+                           79*********************************9999985445666666664333333..333..555555555555...******* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++  kp vv+gfggy   ++l+aa+++g++++++Eqn+++g +n++l+ r++ +
+  sp|B9JY54|MURG_AGRVS  88 IAGLKPLVVIGFGGYPTIPPLLAARALGVATVIHEQNAVMGRANRFLAPRVKAI 141
+                           ************************************************999876 PP
+
+>> sp|Q1ME33|MURG_RHIL3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.0   0.8   7.8e-28   4.4e-25       1     136 [.       6     140 ..       6     142 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 93.0 bits;  conditional E-value: 7.8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+la+gGT+G+v+Pa Ala +L++rG+ V+l+t  + e+     +++++++vp   ig++       + ++  ++l+  + ++r+ak++
+  sp|Q1ME33|MURG_RHIL3   6 VLLAAGGTGGHVFPAEALAFKLKERGYSVHLVTDSRAERYAgkfPAEEIHVVPsatIGSK-------NPVAVARSLWTLWSGMRAAKKL 87 
+                           79********************************99999887668889999886444444.......366777777777777******* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           +++ +p +vvgfggy  +++l+aa+++g+p  ++Eqn+++g +nk+l+ r+  
+  sp|Q1ME33|MURG_RHIL3  88 IQRLQPVIVVGFGGYPTVPPLLAATRLGVPSMIHEQNAVMGRANKALATRVQA 140
+                           ***********************************************999876 PP
+
+>> sp|A8EZ14|MURG_RICCK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.8   0.0   4.5e-28   2.5e-25       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 93.8 bits;  conditional E-value: 4.5e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV++++  ++++ +    ++ ++ ++++       +s + ++ l +   a+ ka ++l + k
+  sp|A8EZ14|MURG_RICCK   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFIIDLRCKKYIsQDMKVIFHILDLK-------RSGNIFLFLPRLSIAVLKAIRLLYNIK 85 
+                           689****************************************************.......688899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p v+vgfggy     ++aa ++++p++++Eqn+  g+vnk++  +a++++
+  sp|A8EZ14|MURG_RICCK  86 PSVIVGFGGYPVISSMFAAVFLRVPIIIHEQNSYLGKVNKFFTSFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|Q5A950|ATG26_CANAL  Sterol 3-beta-glucosyltransferase OS=Candida albicans GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.2   0.0   6.7e-28   3.8e-25       1     138 [.    1017    1151 ..    1017    1152 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 93.2 bits;  conditional E-value: 6.7e-28
+                             EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHH CS
+        Glyco_transf_28    1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalr 78  
+                             ++l+++G+rGdv+P++Al+++L ++Gh+V++at+ ++ +++++ gl +++i++d        v++++  +s+++lk+++++     
+  sp|Q5A950|ATG26_CANAL 1017 ITLLTIGSRGDVQPYIALGKGLVKEGHNVTIATHAEFGDWIKTFGLGFKEIAGDpaelmsfmVTHNS--MSVGFLKNAQQK----- 1095
+                             689****************************************************999999888888..899999999999..... PP
+
+                             HHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   79 kakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                               ++++ ++  +++++++  +  ++li++++a+  +++aE++gip+++++++p+++++++
+  sp|Q5A950|ATG26_CANAL 1096 --FRSWISKLLTTSWEAC--QGSDILIESPSAMSGIHIAEALGIPYFRAFTMPWTRTRAY 1151
+                             ..9999999989988887..788999******************************9987 PP
+
+>> sp|Q2IG27|MURG_ANADE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.4   0.9   2.9e-28   1.6e-25       2     137 ..       4     141 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 94.4 bits;  conditional E-value: 2.9e-28
+                           EEE-------HHHHHHHHHHHHH---..EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGh..eVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+v+P +Ala+e+ +r +  +V  ++t +gle+ v ++ag +++ i+++ +l+ k+  +++l++l+   +a+ ++ +il++
+  sp|Q2IG27|MURG_ANADE   4 MVAGGGTGGHVFPGIALAEEVVTRHPanDVVfVGTARGLEASVvPAAGFPIELIEVK-GLKGKG-LVGALLNLLLLPRAFLQSWRILRR 90 
+                           68*******************99987336779*************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++pdvvvg+ggy+++++++ a++ +ip+ v Eqn+i+gl+n+ll r ++ +
+  sp|Q2IG27|MURG_ANADE  91 WRPDVVVGVGGYASGPVVLTAWAMRIPTAVQEQNAIAGLTNRLLGRVVKAA 141
+                           *******************************************99887765 PP
+
+>> sp|B8J8E8|MURG_ANAD2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   94.1   1.0   3.6e-28     2e-25       2     137 ..       4     141 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 94.1 bits;  conditional E-value: 3.6e-28
+                           EEE-------HHHHHHHHHHHHH---..EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGh..eVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+v+P +Ala+e+ +r +  +V  ++t +gle+ v ++ag +++ i+++ +l+ k+   ++l++l+   +a+ ++ +il++
+  sp|B8J8E8|MURG_ANAD2   4 MVAGGGTGGHVFPGIALAEEVVTRHPanDVVfVGTARGLEASVvPAAGFPIELIEVK-GLKGKG-IAGALLNLLLLPRAFLQSWRILRR 90 
+                           68*******************99987336779*************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++pdvvvg+ggy+++++++ a++ +ip+ v Eqn+i+gl+n+ll r ++ +
+  sp|B8J8E8|MURG_ANAD2  91 WRPDVVVGVGGYASGPVVLTAWAMRIPTAVQEQNAIAGLTNRLLGRVVKAA 141
+                           *******************************************99887765 PP
+
+>> sp|C3MEM9|MURG_RHISN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.8   0.7   9.3e-28   5.2e-25       1     136 [.       6     140 ..       6     142 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 92.8 bits;  conditional E-value: 9.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           + la+gGT+G+++Pa Ala+eL++ G+ V+l+t  + e+     +++++++vp   i       +k   +k   ++++ + +lr+a+++
+  sp|C3MEM9|MURG_RHISN   6 IFLAAGGTGGHLFPAEALAHELKASGYAVHLVTDSRAERYAgkfPAEEVHVVPsatI------GSKN-PIKLAQSVWKLWTGLRAARRL 87 
+                           689********************************9999985445666666664333......4444.99******************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++++kp +vvgfggy  +++l+aa+  g+p  ++Eqn+++g +nk l+ r+  
+  sp|C3MEM9|MURG_RHISN  88 IARYKPRAVVGFGGYPTVPPLLAATGMGVPSLIHEQNAVMGRANKMLASRVQA 140
+                           ************************************************99976 PP
+
+>> sp|Q1CSB1|MURG_HELPH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.1   0.0   7.3e-28   4.1e-25       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 93.1 bits;  conditional E-value: 7.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Ala eL ++G+e + l+++ g ++++ e++ l  +    +++ ++ +k  ++k++ +l+ + ka +kakeilk
+  sp|Q1CSB1|MURG_HELPH   3 FALTGGGTGGHLSIAKALAIELEKQGIEAIyLGSTYGQDKEWfENSPLFSERyfFNTQ-GVVNKS-FFKKIGSLFLQAKAAFKAKEILK 89 
+                           79*************************************************9445555.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|Q1CSB1|MURG_HELPH  90 KHQITHTISVGGFSAGPASFASLLNKIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|P59424|MURG_BUCBP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.0   0.0   7.9e-28   4.4e-25       1     134 [.       4     137 ..       4     141 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 93.0 bits;  conditional E-value: 7.9e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT G+++P + +a+ L ++G++V  l+t++++e+++ +++g++++ i++  +++ k   ++ +  +++   a  +ak+i+++ 
+  sp|P59424|MURG_BUCBP   4 IIIMAGGTCGHIFPGLEIAKSLINKGWKVFwLGTSKNIESKIvPKYGITIKYINIS-GVRGKN-LFELMAIPFKLIIACYQAKKIIENI 90 
+                           6899****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           +pd+++g+ggyv+++ +i + l + p++++Eqn i+gl+nkll+++ 
+  sp|P59424|MURG_BUCBP  91 NPDIILGMGGYVSVPGGIISYLYKKPLIIHEQNKIAGLANKLLSKFT 137
+                           *******************************************9986 PP
+
+>> sp|Q2K6C1|MURG_RHIEC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.4   0.8   2.4e-27   1.3e-24       1     137 [.       6     141 ..       6     142 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 91.4 bits;  conditional E-value: 2.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavp...igpdvklwakleslktlkelaeglkalrkakei 83 
+                           v+la+gGT+G+v+Pa Ala +L++rG+ V+l+t  + e+     +++++++vp   ig++       + ++  ++l+  + ++r+ak++
+  sp|Q2K6C1|MURG_RHIEC   6 VLLAAGGTGGHVFPAEALAFKLKERGYSVHLVTDSRAERYAgkfPAEEIHVVPsatIGSK-------NPVAVARSLWTLWSGMRAAKRL 87 
+                           79********************************99999887668889999886444444.......366777777777777******* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++ kp +vvgfggy  +++l+aa+++g++  ++Eqn+++g +nk+l+ r++ +
+  sp|Q2K6C1|MURG_RHIEC  88 IQRLKPVIVVGFGGYPTVPPLLAATRLGVASMLHEQNAVMGRANKALAPRVKAI 141
+                           ************************************************999876 PP
+
+>> sp|O25770|MURG_HELPY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.1   0.0   7.3e-28   4.1e-25       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 93.1 bits;  conditional E-value: 7.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Ala eL ++G+e + l+++ g ++++ e++ l  +    +++ ++ +k  ++k++ +l+ + ka +kakeilk
+  sp|O25770|MURG_HELPY   3 FALTGGGTGGHLSIAKALAIELEKQGIEAIyLGSTYGQDKEWfENSPLFSERyfFNTQ-GVVNKS-FFKKIGSLFLQAKAAFKAKEILK 89 
+                           79*************************************************9445555.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|O25770|MURG_HELPY  90 KHQITHTISVGGFSAGPASFASLLNKIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|A0M527|MURG_GRAFK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.6   0.0     1e-27   5.7e-25       1     135 [.       7     143 ..       7     146 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 92.6 bits;  conditional E-value: 1e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l+ggGT+G+++Pa+A+a+e +rr ++ +   +++++++e +  ++ag+e++ + +  +  +++ slk++  +++   +l k+++i+k
+  sp|A0M527|MURG_GRAFK   7 VILSGGGTGGHIYPAIAIADEIKRRYPNAEilfVGAQDRMEMEKvPQAGYEIKGLWIS-GIDRSF-SLKNFIFPFKLMSSLSKSRKIIK 93 
+                           789*************************************96555*************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           ++kpd+v+g+gg+ ++++l  a++ gip+ + Eqn++pg++n++l++ a 
+  sp|A0M527|MURG_GRAFK  94 KFKPDIVIGTGGFGSGPLLRIAISKGIPTLIQEQNSLPGVTNRILSKNAS 143
+                           *********************************************99875 PP
+
+>> sp|B2UUR4|MURG_HELPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.1   0.0   7.3e-28   4.1e-25       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 93.1 bits;  conditional E-value: 7.3e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Ala eL ++G+e + l+++ g ++++ e++ l  +    +++ ++ +k  ++k++ +l+ + ka +kakeilk
+  sp|B2UUR4|MURG_HELPS   3 FALTGGGTGGHLSIAKALAIELEKQGIEAIyLGSTYGQDKEWfENSPLFSERyfFNTQ-GVVNKS-FFKKIGSLFLQAKAAFKAKEILK 89 
+                           79*************************************************9445555.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|B2UUR4|MURG_HELPS  90 KHQITHTISVGGFSAGPASFASLLNKIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|Q3K2P3|MURG_STRA1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.0   0.0     8e-28   4.5e-25       1     138 [.       5     144 ..       5     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 93.0 bits;  conditional E-value: 8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s+++++++++++ ++ ++ +i++
+  sp|Q3K2P3|MURG_STRA1   5 IVFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHEQiNQSGLdiTFHSIATG-KLRRYF-SWQNMLDVFKVGVGVLQSIAIIA 91 
+                           79*************************************9988***98225666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+++p++v+E++  +gl+nk+  ++a+ ++
+  sp|Q3K2P3|MURG_STRA1  92 KLRPQALFSKGGFVSVPPVVAARLLKVPVFVHESDLSMGLANKIAYKFATIMY 144
+                           ***********************************************999765 PP
+
+>> sp|Q8CX15|MURG_STRA5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.0   0.0     8e-28   4.5e-25       1     138 [.       5     144 ..       5     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 93.0 bits;  conditional E-value: 8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s+++++++++++ ++ ++ +i++
+  sp|Q8CX15|MURG_STRA5   5 IVFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHEQiNQSGLdiTFHSIATG-KLRRYF-SWQNMLDVFKVGVGVLQSIAIIA 91 
+                           79*************************************9988***98225666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+++p++v+E++  +gl+nk+  ++a+ ++
+  sp|Q8CX15|MURG_STRA5  92 KLRPQALFSKGGFVSVPPVVAARLLKVPVFVHESDLSMGLANKIAYKFATIMY 144
+                           ***********************************************999765 PP
+
+>> sp|Q8E6P0|MURG_STRA3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.0   0.0     8e-28   4.5e-25       1     138 [.       5     144 ..       5     145 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 93.0 bits;  conditional E-value: 8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++   ++gl  ++++i+++ kl++++ s+++++++++++ ++ ++ +i++
+  sp|Q8E6P0|MURG_STRA3   5 IVFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHEQiNQSGLdiTFHSIATG-KLRRYF-SWQNMLDVFKVGVGVLQSIAIIA 91 
+                           79*************************************9988***98225666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+++p++v+E++  +gl+nk+  ++a+ ++
+  sp|Q8E6P0|MURG_STRA3  92 KLRPQALFSKGGFVSVPPVVAARLLKVPVFVHESDLSMGLANKIAYKFATIMY 144
+                           ***********************************************999765 PP
+
+>> sp|Q7U346|MURG_BLOFL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.9   0.0   8.6e-28   4.8e-25       1     138 [.       8     146 ..       8     147 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 92.9 bits;  conditional E-value: 8.6e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+++P +++ar L++ G++V  +++++++e+++ + ++++++ i ++ +l+ k    k ++ l+  + a+ ++++i++ +
+  sp|Q7U346|MURG_BLOFL   8 IMIIAGGTGGHIFPGLSVARYLMNHGYKVVwIGSKDRIESELvPVYNIDIKYICIQ-GLRGKKIYQKLITLLFLIFFAMYQSFKIIRCW 95 
+                           6789****************************************************.99998856667777889999************ PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           kpd+v+++ggyv+++ ++ a+l gip++++Eqn i+gl+n++++r+a+++l
+  sp|Q7U346|MURG_BLOFL  96 KPDIVLSMGGYVSGPSSLVAWLYGIPVIIHEQNRIMGLTNRYVSRFAKKIL 146
+                           ************************************************986 PP
+
+>> sp|Q5HPC0|MURG_STAEQ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.9   0.0   8.5e-28   4.8e-25       2     138 ..       5     143 ..       4     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 92.9 bits;  conditional E-value: 8.5e-28
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           + +ggGT G+v   ++l  +  ++Ghe   ++++ g+e++  e++   ++++pi ++ kl+++l s+++ k+++++lk++ +a++ilk+
+  sp|Q5HPC0|MURG_STAEQ   5 AYTGGGTVGHVSVNLSLIPTSIEKGHEAFyIGSKHGIEREMiESQlpDIQYYPISSG-KLRRYL-SFENAKDVFKVLKGILDARKILKK 91 
+                           669**************************************766644688999****.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk++ ++a++++
+  sp|Q5HPC0|MURG_STAEQ  92 QKPDLLFSKGGFVSVPVVIAARSLKIPTIIHESDLTPGLANKISLKFAKKIY 143
+                           *************************************************997 PP
+
+>> sp|Q8CMM3|MURG_STAES  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.9   0.0   8.5e-28   4.8e-25       2     138 ..       5     143 ..       4     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 92.9 bits;  conditional E-value: 8.5e-28
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           + +ggGT G+v   ++l  +  ++Ghe   ++++ g+e++  e++   ++++pi ++ kl+++l s+++ k+++++lk++ +a++ilk+
+  sp|Q8CMM3|MURG_STAES   5 AYTGGGTVGHVSVNLSLIPTSIEKGHEAFyIGSKHGIEREMiESQlpDIQYYPISSG-KLRRYL-SFENAKDVFKVLKGILDARKILKK 91 
+                           669**************************************766644688999****.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk++ ++a++++
+  sp|Q8CMM3|MURG_STAES  92 QKPDLLFSKGGFVSVPVVIAARSLKIPTIIHESDLTPGLANKISLKFAKKIY 143
+                           *************************************************997 PP
+
+>> sp|Q01Q48|MURG_SOLUE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.6   0.3     1e-27   5.8e-25       1     138 [.      14     149 ..      14     150 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 92.6 bits;  conditional E-value: 1e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++aggGT+G+v Pa+A+areL+ rGh+V  ++t+ g+e+++ + +g e+++i+++ +l++    ++++ +l +   ++ k  +++++a
+  sp|Q01Q48|MURG_SOLUE  14 FLMAGGGTGGHVIPALAVARELRSRGHKVFfVGTQHGMEARLvPPEGFEFKTIEIG-GLNQVS-WNQKFATLSRLPITTLKCGRSVRDA 100
+                           79******************************************************.665533.5666666666644455555555555 PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +  +v+++ggyva++++ aal +++p++v E n+ pg++n++ +r + ++l
+  sp|Q01Q48|MURG_SOLUE 101 S--AVFSMGGYVAGPPVMAALVRRVPVVVMEPNAFPGFTNRVIARLVSRAL 149
+                           5..***************************************999887765 PP
+
+>> sp|B5Z8F1|MURG_HELPG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.8   0.0   8.8e-28   4.9e-25       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 92.8 bits;  conditional E-value: 8.8e-28
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Ala eL ++G+e + l+++ g ++++ e++ l  +    +++ ++ +k  ++k++ +l+ + ka +kakeilk
+  sp|B5Z8F1|MURG_HELPG   3 FALTGGGTGGHLSIAKALAIELEKQGIEAIyLGSTYGQDREWfENSPLFSERyfFNTQ-GVVNKS-FFKKIGSLFLQAKAAFKAKEILK 89 
+                           79*************************************************9445555.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|B5Z8F1|MURG_HELPG  90 NHQITHTISVGGFSAGPASFASLLNKIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|Q5L524|MURG_CHLAB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.6   0.0     1e-27   5.8e-25       1     138 [.       8     144 ..       8     145 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 92.6 bits;  conditional E-value: 1e-27
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++la+gG++G++ Pa+A  +++ r+G +V l   +gle++    e+ + +++i+++  l+  ++ +++++++ + + +++kak+ l  +
+  sp|Q5L524|MURG_CHLAB   8 IALAVGGSGGHIVPALATREAFCREGVDV-LLLGKGLENHPslGEQQILYKEIPSG--LPTFVRPITAVRRVCSLYAGYKKAKKELLIF 93 
+                           79***************************.6666666666655999**********..77777899999999999999*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            pdvv+gfg+y+++++l aal+ +ip++++Eqn +pg+vnkl++r+a+gv 
+  sp|Q5L524|MURG_CHLAB  94 DPDVVIGFGSYHSLPVLMAALKKKIPIFLHEQNVVPGKVNKLFSRFAKGVG 144
+                           ************************************************986 PP
+
+>> sp|Q255W4|MURG_CHLFF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.7   0.0     1e-27   5.6e-25       1     138 [.       7     143 ..       7     144 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 92.7 bits;  conditional E-value: 1e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gG++G++ Pa+A  +++ ++G++V  l+   +  + + e+ +++++i+++  l  +   +++++++ + + +++kak+ l  + 
+  sp|Q255W4|MURG_CHLFF   7 IALAVGGSGGHIVPALATRETFCKEGIDVLlLGKGLDNYPNLCEQDIPYREIPSG-SLSISR-PIAAIRNTRSLYIGYKKAKKELIAFG 93 
+                           79***************************66666666666669************.666544.88999999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+gfg+y+++++l aal+ +ip++++Eqn +pg+vnkl++r+a+gv 
+  sp|Q255W4|MURG_CHLFF  94 PDVVIGFGSYHSLPVLMAALKKKIPIFLHEQNLVPGKVNKLFSRFAKGVG 143
+                           ***********************************************986 PP
+
+>> sp|Q820E0|MURG_CHLCV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.4   0.0   1.2e-27   6.7e-25       1     138 [.       8     144 ..       8     145 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 92.4 bits;  conditional E-value: 1.2e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gG++G++ Pa+A  +++ ++G +V  l+   +  + +    +++++i+++++  a    ++++++  + ++++rkak+ l  + 
+  sp|Q820E0|MURG_CHLCV   8 IALAVGGSGGHIVPALATREAFCKEGVDVLlLGKGLDNHPNLCDLDVHYKEIPSGLPTVA--SPVTAIRRMSSLYNGYRKAKKELCIFD 94 
+                           79***************************666666666666699999********66666..889************************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+gfg+y+++++l aal+ +ip++++Eqn ipg vnkl++r+a+gv 
+  sp|Q820E0|MURG_CHLCV  95 PDVVIGFGSYHSLPVLMAALKKKIPIFLHEQNLIPGRVNKLFSRFAKGVG 144
+                           ***********************************************986 PP
+
+>> sp|Q8XVI7|MURG_RALSO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.3   0.2   6.1e-28   3.5e-25       2     138 ..      14     150 ..      13     151 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 93.3 bits;  conditional E-value: 6.1e-28
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++Pa+++ar L +rG++V  l+   g+e ++ +++g + +++  + +++ k+  +++++ +++ l+a+ ++  ++++ +
+  sp|Q8XVI7|MURG_RALSO  14 LVMAGGTGGHIFPALSVARLLAARGWQVVwLGNASGMEGQLvPKHGFPLESVRFG-GVRGKG-LVTKFLLPLNLLRAFWQSLGVVRRVR 100
+                           789****************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vv+g+ggy+  + +  + l+g+p++++Eqn+i+gl+n++l+r a++vl
+  sp|Q8XVI7|MURG_RALSO 101 PNVVLGMGGYITFPGGMMSVLLGAPLVLHEQNSIAGLANRVLARVADRVL 150
+                           ***********************************************997 PP
+
+>> sp|Q4ULT6|MURG_RICFE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.4   0.0   1.2e-27   6.6e-25       1     138 [.       4     135 ..       4     136 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 92.4 bits;  conditional E-value: 1.2e-27
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l++gGT+G+++PavAl++eL +rG+eV+++t  ++ + +  + gl ++ ++++       +s + ++ l +   a+ ka ++l + +
+  sp|Q4ULT6|MURG_RICFE   4 IILVAGGTGGHFFPAVALGEELIKRGYEVHFITDLRCQKYInQNMGLIFHILDLK-------RSDNIFLFLPNLSIAILKAIKLLYNIR 85 
+                           689****************************************************.......45666666666667899********** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             v++gfggy   ++++aa+++++p+++ Eqn+  g+vnk+++ +a++++
+  sp|Q4ULT6|MURG_RICFE  86 SSVIIGFGGYPVIAPMFAAIFLRVPIIIYEQNSYLGKVNKFFASFAKKIA 135
+                           ***********************************************987 PP
+
+>> sp|Q49XM9|MURG_STAS1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.4   0.0   1.2e-27   6.6e-25       1     138 [.       4     143 ..       4     144 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 92.4 bits;  conditional E-value: 1.2e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp...igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +  ++G++   +++++g+e++  e+ l+  +   i ++ kl++++ s++++k+++++lk++ +a+ +lk
+  sp|Q49XM9|MURG_STAS1   4 IAFTGGGTVGHVSVNLSLIPTAIEEGYDTFyIGSKNGIEREMIESQLPSIKyhsISSG-KLRRYI-SWDNIKDIFKVLKGVLDARSVLK 90 
+                           79****************************************6666654443339999.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk++ ++a++++
+  sp|Q49XM9|MURG_STAS1  91 KEKPDLLFSKGGFVSVPVVIAAKSLKIPTIIHESDLTPGLANKISLKFAKKIY 143
+                           **************************************************997 PP
+
+>> sp|Q119X8|MURG_TRIEI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.5   0.0   1.2e-27   6.5e-25       2     138 ..      29     162 ..      28     163 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 92.5 bits;  conditional E-value: 1.2e-27
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+A+a++L+++ +e  l++p++le+++  + ++ ++i ++ ++++kl  ++tlk l +   ++ k++ ilke k +
+  sp|Q119X8|MURG_TRIEI  29 LIAASGTGGHLFPAIAIANQLKDYHIEW-LGVPDRLETKLIPSQYPLHTISVE-GFQQKL-GIETLKVLSRLIGSILKVRHILKEGKFQ 114
+                           799**********************776.***********99***********.******.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            ++ +ggy+a++a+iaa+++g p++++E+n +pg+v+++++r +n v+
+  sp|Q119X8|MURG_TRIEI 115 GLFTTGGYIAAPAIIAARYLGLPVILHESNVLPGKVTRWFSRLCNVVA 162
+                           *****************************************9998775 PP
+
+>> sp|Q03L97|MURG_STRTD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.5   0.0   2.3e-27   1.3e-24       1     138 [.       7     146 ..       7     147 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.5 bits;  conditional E-value: 2.3e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ + G+eV+ ++ + g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i++
+  sp|Q03L97|MURG_STRTD   7 IVFTGGGTVGHVTLNLILIPKFLKDGWEVHyIGDKHGIEHEQiDKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGILQSIAIIA 93 
+                           79*************************************9988***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++ia++l+++p++v+E++  +gl+nk+  ++a++++
+  sp|Q03L97|MURG_STRTD  94 KIRPQALFSKGGFVSVPPVIASKLLRVPVYVHESDLSMGLANKIAYKFATTMF 146
+                           ************************************************99875 PP
+
+>> sp|A0L5N1|MURG_MAGSM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.3   0.7   1.3e-27   7.4e-25       2     138 ..       9     147 ..       8     148 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 92.3 bits;  conditional E-value: 1.3e-27
+                           EEE-------HHHHHHHHHHHHH--..-EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrG..heVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++aggGT+G+++Pa+A+a++ ++r   h V+ ++ ++gle+++ ++ag + ++++++ +l+ k+  +++l++l   l a+ +a+  +++
+  sp|A0L5N1|MURG_MAGSM   9 LIAGGGTGGHLFPALAVAERWRERYglHSVHfIGGQRGLENRLvPNAGFTLETLAVG-QLKGKG-LPHKLRTLGGLLPAVWQARGMVQR 95 
+                           79********************985579*****************************.******.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + p+vv+g+ggy++++a++aa+++gip  ++Eqn+++gl+n+ll+  a +vl
+  sp|A0L5N1|MURG_MAGSM  96 FDPHVVLGVGGYASAPAMVAARSLGIPMALHEQNARAGLTNRLLSHLAQQVL 147
+                           ********************************************99988887 PP
+
+>> sp|B8H091|MURG_CAUCN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.1   1.2   7.5e-28   4.2e-25       2     138 ..       6     141 ..       5     142 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 93.1 bits;  conditional E-value: 7.5e-28
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGG....GHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppg....leefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v+a+gGT+G+++Pa Ala++L +rG++V lat ++     ++f +e+ l+  + +++    +  + l+++k  + +l+++ +a++++k+
+  sp|B8H091|MURG_CAUCN   6 VVAAGGTGGHMFPAQALAEALAARGWRVVLATDDRgalyADKFPAEERLALSAATAK---SN--DPLGMIKAGFVVLQGVMEARAAFKR 89 
+                           89*******************************983432344557777777777777...44..89*********************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             p+vvvgfggy a++al++al++g p++++Eqn++ g vn++l+ r+n v+
+  sp|B8H091|MURG_CAUCN  90 LDPAVVVGFGGYPALPALLGALSQGRPTVIHEQNAVLGRVNRFLAPRVNEVA 141
+                           ************************************************9885 PP
+
+>> sp|Q9A5A1|MURG_CAUCR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   93.1   1.2   7.5e-28   4.2e-25       2     138 ..       6     141 ..       5     142 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 93.1 bits;  conditional E-value: 7.5e-28
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGG....GHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppg....leefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v+a+gGT+G+++Pa Ala++L +rG++V lat ++     ++f +e+ l+  + +++    +  + l+++k  + +l+++ +a++++k+
+  sp|Q9A5A1|MURG_CAUCR   6 VVAAGGTGGHMFPAQALAEALAARGWRVVLATDDRgalyADKFPAEERLALSAATAK---SN--DPLGMIKAGFVVLQGVMEARAAFKR 89 
+                           89*******************************983432344557777777777777...44..89*********************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             p+vvvgfggy a++al++al++g p++++Eqn++ g vn++l+ r+n v+
+  sp|Q9A5A1|MURG_CAUCR  90 LDPAVVVGFGGYPALPALLGALSQGRPTVIHEQNAVLGRVNRFLAPRVNEVA 141
+                           ************************************************9885 PP
+
+>> sp|A8GNC7|MURG_RICAH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.2   0.0   1.4e-27   7.8e-25       1     138 [.       4     135 ..       4     136 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 92.2 bits;  conditional E-value: 1.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gGT+G+++PavAl++eL +rG+eV+++t  ++ + +  + gl ++ ++++       +s++ ++ l +   a+ ka ++l + +
+  sp|A8GNC7|MURG_RICAH   4 IILAAGGTGGHFFPAVALGEELVKRGYEVHFITDLRCQKYInQNLGLIFHILDLK-------RSSNIFLFLPNLSIAILKAIKLLYNIR 85 
+                           78*****************************************************.......788899999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             +++gfg+y     ++aa ++++p++++Eqn+  g+vnk+++ +a++++
+  sp|A8GNC7|MURG_RICAH  86 SSAIIGFGSYPVISSMFAAVFLRVPIIIHEQNSYLGKVNKFFASFAKRIA 135
+                           ***********************************************987 PP
+
+>> sp|B5XMA2|MURG_STRPZ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.3   0.0   2.6e-27   1.5e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.3 bits;  conditional E-value: 2.6e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +il+
+  sp|B5XMA2|MURG_STRPZ   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFILA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|B5XMA2|MURG_STRPZ  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|B6JMZ5|MURG_HELP2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   92.2   0.0   1.4e-27   7.7e-25       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 92.2 bits;  conditional E-value: 1.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Ala eL ++G e + l+++ g ++++ e++ l  +    +++ ++ +k  ++k++ +l+ + ka +kakeilk
+  sp|B6JMZ5|MURG_HELP2   3 FALTGGGTGGHLSIAKALAIELEKQGVEAIyLGSTYGQDKEWfENSPLFSERyfFNTQ-GVVNKS-FFKKINSLFLQVKAAFKAKEILK 89 
+                           79*************************************************9445555.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|B6JMZ5|MURG_HELP2  90 KHQITHTISVGGFSAGPASFASLLNHIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|A7ERM5|ATG26_SCLS1  Sterol 3-beta-glucosyltransferase OS=Sclerotinia sclerotiorum (strain ATCC 18683 / 1980 / Ss-1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.8   0.0   1.8e-27     1e-24       4     138 ..     945    1076 ..     942    1077 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 91.8 bits;  conditional E-value: 1.8e-27
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L+++Gh+ ++at+ +++e++e++g+e+ p+++d        v++    +++++lke+ ++       +
+  sp|A7ERM5|ATG26_SCLS1  945 LTIGSRGDVQPYIALCKGLMAEGHQTKIATHLEFKEWIESHGIEFAPVDGDpaelmricVENGM--FTVSFLKEASSK-------F 1021
+                             79**************************************************999995555555..899999999999.......9 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++    +++++  ++ ++li++++a++ +++aE++ ip+++++++p+++++++
+  sp|A7ERM5|ATG26_SCLS1 1022 RGWIDDLLSSSWRAC--QNSDILIESPSAMAGIHIAEALRIPYFRAFTMPWTRTRAY 1076
+                             999999988888888..788999******************************9987 PP
+
+>> sp|Q7V466|MURG_PROMM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.6   0.2   2.1e-27   1.2e-24       2     137 ..       5     137 ..       4     139 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 91.6 bits;  conditional E-value: 2.1e-27
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++a+ GT+G+++Pa+A+a++L    + V+ l++p++le+++  e ++l++v  g+    +   + l++l++l++ l a+ +++++l+++
+  sp|Q7V466|MURG_PROMM   5 LIAASGTGGHLFPALAVAEALPGS-WSVCwLGVPDRLETQLvpERYELTTVRAGGL---QG--RGLRKLVQLLQLLAATGRVRKLLRKQ 87 
+                           799*******************97.6**************9777777777666655...56..568999999999999*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            +++v+ +ggy+a++a++aa+++gip++++E+n+ipg v++ll r++  v
+  sp|Q7V466|MURG_PROMM  88 GIQTVFTTGGYIAAPAILAARWCGIPVVLHESNAIPGRVTRLLGRFCQVV 137
+                           ******************************************99998765 PP
+
+>> sp|A2CDG1|MURG_PROM3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.2     2e-27   1.2e-24       2     137 ..       5     137 ..       4     139 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 2e-27
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++a+ GT+G+++Pa+A+a+ L +  + V+ l++p++le+++  e ++l++v  g+    +   + l++l++l++ l a+ +++++l+++
+  sp|A2CDG1|MURG_PROM3   5 LIAASGTGGHLFPALAVAESLPAS-WSVCwLGVPDRLETQLvpERYELTTVRAGGL---QG--RGLRKLVQLLQLLAATGRVRKLLRKQ 87 
+                           799******************987.6**************9777777777666655...56..568999999999999*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            +++v+ +ggy+a++a++aa+++gip++++E+n+ipg v++ll r++  v
+  sp|A2CDG1|MURG_PROM3  88 GIQTVFTTGGYIAAPAILAARWCGIPVVLHESNAIPGRVTRLLGRFCQVV 137
+                           ******************************************99998765 PP
+
+>> sp|Q5M0D4|MURG_STRT1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.0   3.6e-27   2.1e-24       1     138 [.       7     146 ..       7     147 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.8 bits;  conditional E-value: 3.6e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ + G+eV+ ++ + g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i++
+  sp|Q5M0D4|MURG_STRT1   7 IVFTGGGTVGHVTLNLILIPKFLKDGWEVHyIGDKHGVEHEQiDKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGILQSIAIIA 93 
+                           79*************************************9988***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++ia++l+++p++v+E++  +gl+nk+  ++a++++
+  sp|Q5M0D4|MURG_STRT1  94 KIRPQALFSKGGFVSVPPVIASKLLRVPVYVHESDLSMGLANKIAYKFATTMF 146
+                           ************************************************99875 PP
+
+>> sp|Q5M4Y1|MURG_STRT2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.0   3.6e-27   2.1e-24       1     138 [.       7     146 ..       7     147 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.8 bits;  conditional E-value: 3.6e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ + G+eV+ ++ + g+e++   ++gl  ++++i+++ kl++++ s++++++++++++++ ++ +i++
+  sp|Q5M4Y1|MURG_STRT2   7 IVFTGGGTVGHVTLNLILIPKFLKDGWEVHyIGDKHGVEHEQiDKSGLdvTFHSIATG-KLRRYF-SWQNMLDVFKVGWGILQSIAIIA 93 
+                           79*************************************9988***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++ia++l+++p++v+E++  +gl+nk+  ++a++++
+  sp|Q5M4Y1|MURG_STRT2  94 KIRPQALFSKGGFVSVPPVIASKLLRVPVYVHESDLSMGLANKIAYKFATTMF 146
+                           ************************************************99875 PP
+
+>> sp|A6QGX0|MURG_STAAE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|A6QGX0|MURG_STAAE   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|A6QGX0|MURG_STAAE  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q2FYL5|MURG_STAA8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q2FYL5|MURG_STAA8   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|Q2FYL5|MURG_STAA8  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q5HG02|MURG_STAAC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q5HG02|MURG_STAAC   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|Q5HG02|MURG_STAAC  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q6G9E3|MURG_STAAS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q6G9E3|MURG_STAAS   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|Q6G9E3|MURG_STAAS  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q8NWR4|MURG_STAAW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q8NWR4|MURG_STAAW   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|Q8NWR4|MURG_STAAW  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|A5ISU9|MURG_STAA9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|A5ISU9|MURG_STAA9   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|A5ISU9|MURG_STAA9  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|A6U1N8|MURG_STAA2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|A6U1N8|MURG_STAA2   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|A6U1N8|MURG_STAA2  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|A7X2A2|MURG_STAA1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|A7X2A2|MURG_STAA1   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|A7X2A2|MURG_STAA1  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|P65481|MURG_STAAM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|P65481|MURG_STAAM   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|P65481|MURG_STAAM  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|P65482|MURG_STAAN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|P65482|MURG_STAAN   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|P65482|MURG_STAAN  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q2YY01|MURG_STAAB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.7   0.0   1.9e-27   1.1e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 91.7 bits;  conditional E-value: 1.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q2YY01|MURG_STAAB   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip++++E++  pgl+nk+  ++a++++
+  sp|Q2YY01|MURG_STAAB  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTIIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q7MAW5|MURG_PORGI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.0   3.7e-27   2.1e-24       1     137 [.      12     150 ..      12     152 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.8 bits;  conditional E-value: 3.7e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGH.HHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgle.efveeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+++a++L+rr +e +   ++++ ++e e+v+ +g+e+v ++++ +l +k   l+++k + ++ +++r a+++++
+  sp|Q7MAW5|MURG_PORGI  12 FIISGGGTGGHIFPAISIADALRRRYPECEilfVGAEGRMEmERVPRSGYEIVGLPIK-GLDRKH-LLSNYKVAIAVIRSMRLANKTIR 98 
+                           7899***************************9********83566*************.****98.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++pd v+g+ggy++++ l  a ++gip+ + Eqn+ +g++nkll+r a ++
+  sp|Q7MAW5|MURG_PORGI  99 NFRPDMVIGVGGYASGPTLRRAHSLGIPTLIQEQNSYAGVTNKLLSRGAHKI 150
+                           **********************************************988776 PP
+
+>> sp|A2RDL0|MURG_STRPG  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.0   3.8e-27   2.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.8 bits;  conditional E-value: 3.8e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|A2RDL0|MURG_STRPG   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++v+
+  sp|A2RDL0|MURG_STRPG  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTVY 144
+                           **************************************************998 PP
+
+>> sp|Q5XB05|MURG_STRP6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.0   3.8e-27   2.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.8 bits;  conditional E-value: 3.8e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q5XB05|MURG_STRP6   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++v+
+  sp|Q5XB05|MURG_STRP6  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTVY 144
+                           **************************************************998 PP
+
+>> sp|Q1JAT5|MURG_STRPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.6   0.0   4.4e-27   2.5e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.6 bits;  conditional E-value: 4.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q1JAT5|MURG_STRPB   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIIA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|Q1JAT5|MURG_STRPB  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|Q1JKY5|MURG_STRPC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.6   0.0   4.4e-27   2.5e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.6 bits;  conditional E-value: 4.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q1JKY5|MURG_STRPC   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIIA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|Q1JKY5|MURG_STRPC  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|B2RIF1|MURG_PORG3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.0   3.7e-27   2.1e-24       1     137 [.      12     150 ..      12     152 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.8 bits;  conditional E-value: 3.7e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGH.HHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgle.efveeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+++a++L+rr +e +   ++++ ++e e+v+ +g+e+v ++++ +l +k   l+++k + ++ +++r a+++++
+  sp|B2RIF1|MURG_PORG3  12 FIISGGGTGGHIFPAISIADALRRRYPECEilfVGAEGRMEmERVPRSGYEIVGLPIK-GLDRKH-LLSNYKVAIAVIRSMRLANKTIR 98 
+                           7899***************************9********83566*************.****98.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++pd v+g+ggy++++ l  a ++gip+ + Eqn+ +g++nkll+r a ++
+  sp|B2RIF1|MURG_PORG3  99 NFRPDMVIGVGGYASGPTLRRAHSLGIPTLIQEQNSYAGVTNKLLSRGAHKI 150
+                           **********************************************988776 PP
+
+>> sp|C0M6J2|MURG_STRE4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.6   0.0   4.2e-27   2.4e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.6 bits;  conditional E-value: 4.2e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+v   + l  ++ + G+eV+ ++  +g+e++  +++gl  ++++i+++ kl++++ s+++l+++++++ ++ ++ +i++
+  sp|C0M6J2|MURG_STRE4   5 IIFTGGGTAGHVTLNLILIPKFIKDGWEVHyIGDDKGIEHQEiKKSGLdvTFHAIATG-KLRRYF-SWQNLLDIFKVGFGVMQSLFIIA 91 
+                           689**************************************99****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+g+pa+++E++  +gl+n++  r+a++++
+  sp|C0M6J2|MURG_STRE4  92 RLRPKALFSKGGFVSVPPVIAARLLGVPAFIHESDLSMGLANRIAYRFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|A1UTC5|MURG_BARBK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.4   0.7   4.9e-27   2.8e-24       1     138 [.       7     143 ..       7     144 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 90.4 bits;  conditional E-value: 4.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           vvl++gGT+G+++Pa Ala+eL++rG++V+lat ++ ++fv   ++ +++ i +  +l ++ + ++ +k+++  l+++ ++  ++++ +
+  sp|A1UTC5|MURG_BARBK   7 VVLVAGGTGGHLFPAEALAVELRQRGYDVHLATDERAKRFVrHFDEKHIHIISSA-TLVRH-HPFALIKTFWLLLRGMVQSWILFRKLR 93 
+                           79***************************************87777777778888.66665.5************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p +v gfggy  ++++  a+l g +++++Eqn+++g +n++l+ r+n ++
+  sp|A1UTC5|MURG_BARBK  94 PVLVGGFGGYPTVPPVWVAALTGRVTFIHEQNAVMGRANRVLATRVNAIA 143
+                           **********************************************9876 PP
+
+>> sp|C0MD54|MURG_STRS7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.3   0.0   5.3e-27     3e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.3 bits;  conditional E-value: 5.3e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+v   + l  ++ + G+eV+ ++  +g+e++  +++gl++    i+++ kl++++ s+++l+++++++ ++ ++ +i++
+  sp|C0MD54|MURG_STRS7   5 IIFTGGGTAGHVTLNLILIPKFIKDGWEVHyIGDDNGIEHQEiKKSGLDVAFhtIATG-KLRRYF-SWQNLLDIFKVGFGVMQSLFIIA 91 
+                           689**************************************99****9755545****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+g+pa+++E++  +gl+n++  r+a++++
+  sp|C0MD54|MURG_STRS7  92 RLRPKALFSKGGFVSVPPVIAARLLGVPAFIHESDLSMGLANRIAYRFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|B4U1U4|MURG_STREM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.2   0.0   5.8e-27   3.2e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.2 bits;  conditional E-value: 5.8e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+v   + l  ++ + G+eV+ ++  +g+e++  +++gl  ++++i+++ kl++++ s+++l+++++++ ++ ++ +i++
+  sp|B4U1U4|MURG_STREM   5 IIFTGGGTAGHVTLNLILIPKFIKDGWEVHyIGDDNGIEHQEiKKSGLdvTFHAIATG-KLRRYF-SWQNLLDAFKVGFGVMQSLFIIA 91 
+                           689**************************************99****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+g+pa+++E++  +gl+n++  r+a++++
+  sp|B4U1U4|MURG_STREM  92 RLRPKALFSKGGFVSVPPVIAARLLGVPAFIHESDLSMGLANRIAYRFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|A5CWW1|MURG_VESOH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.5   0.0   4.7e-27   2.7e-24       1     137 [.       8     144 ..       8     146 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 90.5 bits;  conditional E-value: 4.7e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+++Pa+A+a+eL++   ++  l++  g+e+ + ++++++ +++ +  +l+ k   ++ +k ++    a+ ++ +i+ ++
+  sp|A5CWW1|MURG_VESOH   8 ILIMAGGTGGHIFPALAIANELKKHSSNIQwLGSNLGMENNIiPKHNIKLHTVSSV-GLRGKN-VISLIKAPFLLSYATLQVIKIFLKF 94 
+                           689*****************************************************.****99.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kpdvv+g+gg+ ++  ++ a+  +  ++++Eqn+ipg +nk+l++ a++ 
+  sp|A5CWW1|MURG_VESOH  95 KPDVVLGMGGFTSGIGGLVAWVFKTTLVIHEQNSIPGTTNKILNKIATKT 144
+                           *********************************************99986 PP
+
+>> sp|A1A2E9|MURG_BIFAA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.9   1.1   7.3e-27   4.1e-24       1     135 [.       7     143 ..       7     146 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 89.9 bits;  conditional E-value: 7.3e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHH.HHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglka.lrkakeil 84 
+                           +vlaggGT+G+v P++A+a+  ++ ++e     ++t  gle+ + ++ag e ++i+   ++++  + +k+ +++ +++ka   k++ il
+  sp|A1A2E9|MURG_BIFAA   7 IVLAGGGTAGHVNPLLAVAHVIRELEPEADiavVGTAVGLERDLvPQAGFELETIEKV-PFPR--RPNKAALQFPAKWKAeKAKVRDIL 92 
+                           79**************************99999*********999*************.****..77888888888887615689**** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            +++++vvvgfggy +++++ aa + gip+ ++Eqn+++g++nkl +r+a 
+  sp|A1A2E9|MURG_BIFAA  93 TRHQAQVVVGFGGYTSAPVYAAAHSMGIPIAIHEQNARAGMANKLGARWAS 143
+                           **********************************************99986 PP
+
+>> sp|P65483|MURG_STRP1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.6   0.0     9e-27   5.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 89.6 bits;  conditional E-value: 9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|P65483|MURG_STRP1   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|P65483|MURG_STRP1  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|P65484|MURG_STRP8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.6   0.0     9e-27   5.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 89.6 bits;  conditional E-value: 9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|P65484|MURG_STRP8   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|P65484|MURG_STRP8  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|Q48SK9|MURG_STRPM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.6   0.0     9e-27   5.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 89.6 bits;  conditional E-value: 9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q48SK9|MURG_STRPM   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|Q48SK9|MURG_STRPM  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|Q1J5S6|MURG_STRPF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.6   0.0     9e-27   5.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 89.6 bits;  conditional E-value: 9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q1J5S6|MURG_STRPF   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|Q1J5S6|MURG_STRPF  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|A8Z3Z7|MURG_STAAT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.3   0.0   5.4e-27     3e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.3 bits;  conditional E-value: 5.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|A8Z3Z7|MURG_STAAT   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip+ ++E++  pgl+nk+  ++a++++
+  sp|A8Z3Z7|MURG_STAAT  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTLIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q2FH20|MURG_STAA3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.3   0.0   5.4e-27     3e-24       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.3 bits;  conditional E-value: 5.4e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH-..--EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eea..gleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   ++l  +   +G+e   +++++g+e++  e++  +++++pi ++ kl++++ sl++ k+++++lk++ +a+++lk
+  sp|Q2FH20|MURG_STAA3   4 IAFTGGGTVGHVSVNLSLIPTALSQGYEALyIGSKNGIEREMiESQlpEIKYYPISSG-KLRRYI-SLENAKDVFKVLKGILDARKVLK 90 
+                           79****************************************776644678999****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++kpd++++ gg+v+++++iaa++++ip+ ++E++  pgl+nk+  ++a++++
+  sp|Q2FH20|MURG_STAA3  91 KEKPDLLFSKGGFVSVPVVIAAKSLNIPTLIHESDLTPGLANKIALKFAKKIY 143
+                           *************************************************9997 PP
+
+>> sp|Q1JG11|MURG_STRPD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.6   0.0     9e-27   5.1e-24       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 89.6 bits;  conditional E-value: 9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e++  e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q1JG11|MURG_STRPD   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHTEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|Q1JG11|MURG_STRPD  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|Q17WB5|MURG_HELAH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.9   0.0   7.1e-27     4e-24       1     138 [.       3     142 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 89.9 bits;  conditional E-value: 7.1e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l+ggGT+G++  a Ala eL ++G e + l+++ g ++++ e + l  +    +++ ++ +k  ++k++ +l+ + ka  kakeilk
+  sp|Q17WB5|MURG_HELAH   3 VALTGGGTGGHLSIAKALAIELEKQGVEAIyLGSTYGQDKEWfEDSPLFSECyfFNTQ-GVVNKS-FFKKIGSLFLQAKAALKAKEILK 89 
+                           79**********************************************9887336666.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++++++++gg++a++a++a+ll++ip++++Eqn+i g  n++l+ +a+ v+
+  sp|Q17WB5|MURG_HELAH  90 KHQITHTISVGGFSAGPASFASLLNKIPLYIHEQNAIKGSLNRYLSPKAKAVF 142
+                           *************************************************9987 PP
+
+>> sp|C6BYG6|MURG_DESAD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.1   0.1     6e-27   3.4e-24       1     138 [.       4     141 ..       4     142 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 90.1 bits;  conditional E-value: 6e-27
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +vl++gGT+G+v+Pa+A+a+e ++r ++ +   ++ +   +e+ve ag++++ ++++ ++   +   k +++l+ +  a+  a + +++
+  sp|C6BYG6|MURG_DESAD   4 IVLTTGGTGGHVFPALAVAHEIKNRFPQCEilfIGGKGPEREMVERAGISFKGLPAK-GVLGGG-IKKVFSSLWIV-SAMIMALKEIAS 89 
+                           79***************************999888888888888*************.999988.99999999999.************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +kpd+v+gfggy+   +++aa+l+g+p+ ++Eqn++pg++n++l + +++v+
+  sp|C6BYG6|MURG_DESAD  90 FKPDAVIGFGGYAGFCPVLAAWLLGVPTAIHEQNSVPGVTNRILGKVVKRVF 141
+                           *********************************************9999986 PP
+
+>> sp|Q6G2Q5|MURG_BARHE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.4   0.2     1e-26   5.7e-24       1     136 [.       7     141 ..       7     143 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 89.4 bits;  conditional E-value: 1e-26
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vla+gGT+G+++Pa A+a+eL++rG++V+l+t ++  +fv   ++ +++ i +  ++ ++   ++ +k+++  lk++ ++ +++ + +
+  sp|Q6G2Q5|MURG_BARHE   7 IVLAAGGTGGHLFPAEAVAVELRQRGYDVHLVTDERAQRFVrCFDEEHIHIISSA-TFTRRH-PFSLIKTFWMLLKGMGQSLALFYKLC 93 
+                           79***************************************75555566667777.776655.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           p +v gfggy   ++li a++ + +++++Eqn+++g +n++l+ ++  
+  sp|Q6G2Q5|MURG_BARHE  94 PVLVGGFGGYPTFPPLIVAAFMRRVTFIHEQNAVMGRANRVLAVFVSA 141
+                           *****************************************9988765 PP
+
+>> sp|A9IWA5|MURG_BART1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.4   0.1   9.9e-27   5.6e-24       1     135 [.       7     140 ..       7     143 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 89.4 bits;  conditional E-value: 9.9e-27
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           +vla+gGT+G+++Pa Ala+eL++rG++V+l+t ++ ++fv+    e+  i +  ++ +  + ++ +k++++ lk++ ++ +++ + +p
+  sp|A9IWA5|MURG_BART1   7 IVLAAGGTGGHLFPAEALAVELRQRGYDVHLITDERARSFVRRFDEEHTHIVSSATFTR-CHPFALIKTILSLLKGMGQSLRLFYKLRP 94 
+                           79***************************************666666666555548888.67*************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            +v gfggy + ++l+ a l + +++++Eqn+++g +n++l+ ++ 
+  sp|A9IWA5|MURG_BART1  95 VLVGGFGGYPSFPPLFIAVLMRRVTFIHEQNAVMGRANRVLAIFVR 140
+                           ***************************************9987665 PP
+
+>> sp|Q8CUL4|MURG_OCEIH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.4   0.0     1e-26   5.7e-24       1     137 [.       7     144 ..       7     146 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 89.4 bits;  conditional E-value: 1e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++++ggGT+G+v   +Al    q+rG+e+  +++ +g+e+ +  + +g++++++ ++ kl++++ s ++lk+++++lk++ +a +i+ +
+  sp|Q8CUL4|MURG_OCEIH   7 ILFTGGGTAGHVIVNLALIPYYQERGWEIDyIGSYNGIERDLisPLDGVTYHSVSTG-KLRRYM-SKENLKDPFKVLKGTMQAYRIIGK 93 
+                           79*************************************999999************.****99.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            kp +v++ gg+v+++++ aa+l+g+p +++E++  pgl+nkl+  + ++v
+  sp|Q8CUL4|MURG_OCEIH  94 RKPSIVFSKGGFVSVPVVAAAKLRGVPSIIHESDYTPGLANKLSIPFTKRV 144
+                           ******************************************987777766 PP
+
+>> sp|A6LEU3|MURG_PARD8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.4   0.0     1e-26   5.6e-24       1     137 [.       6     144 ..       6     146 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 89.4 bits;  conditional E-value: 1e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGH.HHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgle.efveeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pa+++a+++++r ++ +   +++++++e ++v++ag+++v +++  ++ +  + ++++k   +  k+lr a+++++
+  sp|A6LEU3|MURG_PARD8   6 IIISGGGTGGHIFPAISIANTFKKRFPDAEilfVGAEDRMEmDKVPAAGYKIVGLPVS-GFDRA-HLMNNVKVMVRLAKSLRLARKTIR 92 
+                           6899**************************99********83566*************.99995.599********************* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           e+kpd+ vg+ggy++++ l  a+++g+pa + Eqn+ +g++nkll+++a ++
+  sp|A6LEU3|MURG_PARD8  93 EFKPDIAVGVGGYASGPTLWMAASQGVPALIQEQNSYAGVTNKLLAKKASKI 144
+                           ************************************************9987 PP
+
+>> sp|Q6AE64|MURG_LEIXX  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.2   1.0   5.6e-27   3.1e-24       2     133 ..       5     138 ..       4     143 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 90.2 bits;  conditional E-value: 5.6e-27
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +laggGT+G+v P++A+a++L+r ++  +   l+t +gle+++ +++g+e  +i+   +++++    ++++ + e ++++r++ e+++ 
+  sp|Q6AE64|MURG_LEIXX   5 LLAGGGTAGHVNPLLAVADRLRRDDPAAEvlvLGTAEGLEARLvPARGYELATIPRL-PFPRRP-NAAAVRFPGEYRRSVRAVGELIRA 91 
+                           89************************99999**************************.****99.99999999**************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                             +++vvgfggy+a++a+ aa++a +p++++E+n++pgl+ +l +r+
+  sp|Q6AE64|MURG_LEIXX  92 RGIAAVVGFGGYAAAPAYSAARKAAVPLILHEANARPGLASRLGARY 138
+                           ****************************************9998876 PP
+
+>> sp|A1K3U6|MURG_AZOSB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.1   0.1   1.2e-26   6.9e-24       2     138 ..       5     141 ..       4     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 89.1 bits;  conditional E-value: 1.2e-26
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++gGT+G+++P +A+a++L+++G+++  ++ p+g+e+++ +++g+++  +  +  l+ k+  +++l+ + + l ++ +a   l++ k
+  sp|A1K3U6|MURG_AZOSB   5 LVMAGGTGGHIFPGIAVAEALRAKGWRIVwMGNPDGMEARIvPSRGYDTAWVRFG-ALRGKG-LVRKLLLPVNLLVGFWQALGQLRRIK 91 
+                           789****************************************************.******.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           pdvv+g+ggy+  + +  a+l+g p++++Eqn+++gl+n++l+  a++vl
+  sp|A1K3U6|MURG_AZOSB  92 PDVVLGMGGYITFPGGMMAALLGWPLVLHEQNSVAGLANRVLAGVADRVL 141
+                           *********************************************99997 PP
+
+>> sp|Q9PLG2|MURG_CHLMU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   89.3   0.0   1.1e-26   6.2e-24       1     137 [.       8     142 ..       8     144 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 89.3 bits;  conditional E-value: 1.1e-26
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           vvla+gGT+G++ Pa+A  +++ ++  eV l   +gl++f+  e  + ++ i+++   + +l+ +++++ + + ++++ +a + +k++ 
+  sp|Q9PLG2|MURG_CHLMU   8 VVLAVGGTGGHIIPALAARETFIKEKVEV-LLLGKGLTRFLeGEPDVLYYDIPSG--SPFSLRPNQMFSGARQLYQGYTAALRMIKSFA 93 
+                           79***************************.99*********88889*********..55555888888888888889************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pdv vgfg+y++++a++a+++ +ip++++Eqn +pg+vnkl++ +a+gv
+  sp|Q9PLG2|MURG_CHLMU  94 PDVAVGFGSYHSLPAILASIRKRIPLFLHEQNVVPGKVNKLFSHFAKGV 142
+                           ***********************************************98 PP
+
+>> sp|Q1GRX9|MURG_SPHAL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.8   0.4   1.6e-26   8.9e-24       1     138 [.       7     142 ..       7     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 88.8 bits;  conditional E-value: 1.6e-26
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gGT+G++ Pa Ala+eL +rGh+V l++ ++  +   + a+le++ ++++ ++      l+ lk +++ +k++r a e++ ++ 
+  sp|Q1GRX9|MURG_SPHAL   7 FLLAAGGTGGHMLPAYALADELIARGHRVALVSDDRGLKIPgAPAELETHVLPAG-RASG--GPLGWLKGALAIRKGRRMAIELIDDFD 92 
+                           79****************************999999999999*************.4444..69************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p+vvvgfggy +++ l+aa + + p++++Eqn++ g vn+l++ r++ v+
+  sp|Q1GRX9|MURG_SPHAL  93 PAVVVGFGGYPSLPSLLAAGATKRPRVIHEQNAVLGRVNRLMAPRVDAVA 142
+                           ***********************************************997 PP
+
+>> sp|Q751Z4|ATG26_ASHGO  Sterol 3-beta-glucosyltransferase OS=Ashbya gossypii GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.7   0.0   1.6e-26   9.1e-24       3     138 ..     781     913 ..     779     914 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 88.7 bits;  conditional E-value: 1.6e-26
+                            EE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHHH CS
+        Glyco_transf_28   3 laggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkake 82 
+                            ++++G+rGdv+P++Al+++L ++Gh+V ++++ ++ ++v+++gl++++i++d        v++ +  + ++ ++e+a+        ++
+  sp|Q751Z4|ATG26_ASHGO 781 MLTIGSRGDVQPYIALGKGLLQEGHRVVVISHAEFGDWVRSHGLQFRAIAGDpaelmalmVQHGS--MNVGLIREAAST-------FR 859
+                            789*************************************************9777666666666..566666666666.......99 PP
+
+                            HHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  83 ilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             + ++  ++ ++++  +  ++li++++a++ +++aE+++ip+++++++p++ ++ +
+  sp|Q751Z4|ATG26_ASHGO 860 NWIRDLLETAWEAC--QGIDVLIESPSAMAGIHIAEALQIPYFRAFTMPWTKTRSY 913
+                            99999999998888..788999*****************************98876 PP
+
+>> sp|A4VTK4|MURG_STRSY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.2   0.0   2.4e-26   1.3e-23       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 88.2 bits;  conditional E-value: 2.4e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ ++G+eV+ ++  +g+e++   ++gl+++   i+++ kl++++ s+++++++++++ ++ ++ +i++
+  sp|A4VTK4|MURG_STRSY   4 IVFTGGGTVGHVTLNLLLIPRFLEEGWEVHyIGDGNGIEHEQvVKSGLDVHFhsIATG-KLRRYF-SFQNMLDVFKVGFGVLQSLTIIA 90 
+                           79*************************************987799998766655****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+++p++++E++  +gl+nk+  ++a++++
+  sp|A4VTK4|MURG_STRSY  91 KIRPQALFSKGGFVSVPPVIAANLLRVPVFIHESDLTMGLANKIAYKFATTMY 143
+                           *************************************************9886 PP
+
+>> sp|A4VZT9|MURG_STRS2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.2   0.0   2.4e-26   1.3e-23       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 88.2 bits;  conditional E-value: 2.4e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ ++G+eV+ ++  +g+e++   ++gl+++   i+++ kl++++ s+++++++++++ ++ ++ +i++
+  sp|A4VZT9|MURG_STRS2   4 IVFTGGGTVGHVTLNLLLIPRFLEEGWEVHyIGDGNGIEHEQvVKSGLDVHFhsIATG-KLRRYF-SFQNMLDVFKVGFGVLQSLTIIA 90 
+                           79*************************************987799998766655****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+++p++++E++  +gl+nk+  ++a++++
+  sp|A4VZT9|MURG_STRS2  91 KIRPQALFSKGGFVSVPPVIAANLLRVPVFIHESDLTMGLANKIAYKFATTMY 143
+                           *************************************************9886 PP
+
+>> sp|B3QWT7|MURG_CHLT3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.7   0.0   1.6e-26   9.2e-24       2     138 ..       4     146 ..       3     147 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 88.7 bits;  conditional E-value: 1.6e-26
+                           EEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------....-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakl...eslktlkelaeglkalrkakei 83 
+                           ++aggGT+G+v+Pa+A+a+e  r   + +   ++t++g+e++  +++g +++ i++  ++++ +   e +++lk + +  ++l +   i
+  sp|B3QWT7|MURG_CHLT3   4 IFAGGGTGGHVFPAIAIAQEILRTQQNAEiqfVGTERGIEATAvPKQGFPMHLIPVA-GVKRGFspkELFENLKVPMRLQRSLSACHDI 91 
+                           79******************99988888778***********99*************.6666552223677889999999********* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           l+++kp+vv+g+gg+v+++++ +a + +ip+ + Eqn+ pg++++ll+ ra  v+
+  sp|B3QWT7|MURG_CHLT3  92 LQREKPNVVIGTGGFVSGPIVWEAQSKKIPTLIQEQNSMPGVTTRLLSLRASEVH 146
+                           *************************************************999887 PP
+
+>> sp|Q6AJ53|MURG_DESPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.9   0.0   1.4e-26     8e-24       1     137 [.       9     147 ..       9     149 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 88.9 bits;  conditional E-value: 1.4e-26
+                           EEEE-------HHHHHHHHHHHHH-..--EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrr..GheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G+++Pa+A a+++ r+  G eV  ++t++++++++ e +g + v+i++  +l+ k  + + +k l+    +  +a +il+
+  sp|Q6AJ53|MURG_DESPS   9 ILLTGGGTGGHLFPAIAAAQQFCREypGAEVLfVGTKRKMDAETlERYGFKGVAINSY-GLKGKN-MRELVKALLVLPISCLQALFILA 95 
+                           79********************9986677888**************************.999999.99999999999999********* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++pd+v+g+ggyv ++++  a+l++ p+ ++Eqn++pgl+n+ l++ +++v
+  sp|Q6AJ53|MURG_DESPS  96 RFRPDLVLGVGGYVTGPVVAMAKLCRRPTLIHEQNSVPGLANRKLAKLVDRV 147
+                           *******************************************999999887 PP
+
+>> sp|B9K6P7|MURG_THENN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.7   0.2   1.7e-26   9.4e-24       1     139 []       4     146 ..       4     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 88.7 bits;  conditional E-value: 1.7e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeil 84 
+                           v+ aggGT+G+++P++A+ ++L +   e +   +a++ +++e+v ++++ e++ +++d  +l + l ++k+++++a++ +a+ kak+ l
+  sp|B9K6P7|MURG_THENN   4 VAAAGGGTGGHLYPLLAILETLSKDV-ETKvlfFAVKGKIDEKVvKQEHPEYEVVTLDvRGLFRPLYHPKNFWRAAKVVNAILKAKKEL 91 
+                           5789******************9976.66667*************8888888777777558889999********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            ++kpdv+v +ggy+++++++aa+  g+p++++Eqn +pgl+ k+++++a +++v
+  sp|B9K6P7|MURG_THENN  92 LRFKPDVIVLTGGYISGVVGLAAKNMGVPIFLHEQNVVPGLAVKTVAKYARKIFV 146
+                           **************************************************99975 PP
+
+>> sp|Q8K6R7|MURG_STRP3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.7   0.0   3.3e-26   1.9e-23       1     138 [.       5     144 ..       5     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 87.7 bits;  conditional E-value: 3.3e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e+   e++gl  ++++i+++ kl++++ s+++l +++++  +l ++ +i++
+  sp|Q8K6R7|MURG_STRP3   5 ILFTGGGTVGHVTLNLILIPKFIKDGWEVHyIGDKNGIEHIEiEKSGLdvTFHAIATG-KLRRYF-SWQNLADVFKVALGLLQSLFIVA 91 
+                           79**************************************999****8335677****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v++++++aa+l+g p++++E++  +gl+nk+  ++a++++
+  sp|Q8K6R7|MURG_STRP3  92 KLRPQALFSKGGFVSVPPVVAAKLLGKPVFIHESDRSMGLANKIAYKFATTMY 144
+                           *************************************************9876 PP
+
+>> sp|Q54IL5|UGT52_DICDI  UDP-sugar-dependent glycosyltransferase 52 OS=Dictyostelium discoideum GN=ugt52 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.3   0.0   2.2e-26   1.3e-23       1     138 [.    1166    1303 ..    1166    1304 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 88.3 bits;  conditional E-value: 2.2e-26
+                             EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----......S------.-HHHCCSHHHHHHHHHH CS
+        Glyco_transf_28    1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpd......vklwakleslktlkelaeglkalrk 79  
+                             ++++++G+rGd++P++Al  +L+++Gh+V+lat++ +++ + +e gl+++p+g+d      +++++ ++++k++ke++++      
+  sp|Q54IL5|UGT52_DICDI 1166 ITILTIGSRGDIQPFIALSLGLKEYGHNVTLATHELYRDLIsKEFGLNYQPLGGDprelmdLCVRNGIFTPKFIKEALSR------ 1245
+                             6799*********************************************************9999999************...... PP
+
+                             HHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   80 akeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                              ++++ ++   +++++++ +++++lia++ + + +++ E ++ip++ ++++p ++++ +
+  sp|Q54IL5|UGT52_DICDI 1246 -FRSFIDDLLLTCWKAVQNSNTQVLIATPGCFAGPHIGEVLQIPFFNAFTMPFTRTRTY 1303
+                             .*****************************************************99976 PP
+
+>> sp|B3DQN1|MURG_BIFLD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.7   0.4   3.3e-26   1.9e-23       1     135 [.       8     144 ..       8     148 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 87.7 bits;  conditional E-value: 3.3e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +vlaggGT+G+v P++A+a + ++ ++      ++t  gle+ + +eag+e  +i+   +++++   l +l+ +a+  +++ k++ il+
+  sp|B3DQN1|MURG_BIFLD   8 IVLAGGGTAGHVNPLLAVAGAIRDIEPTAQvtvIGTAVGLEKDLvPEAGYELDTIEKV-PFPRRP-NLYMLRFPAKWKRETAKVRSILE 94 
+                           79**********************99987777************9*************.****99.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                              +dvv+gfggy++++++  a + gip+ ++Eqn+++g++nkl +r+a+
+  sp|B3DQN1|MURG_BIFLD  95 TRHADVVAGFGGYASAPVYATAHKMGIPIAIHEQNARAGMANKLGARWAD 144
+                           ***********************************************998 PP
+
+>> sp|Q8CY50|MURG_BIFLO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.7   0.4   3.3e-26   1.9e-23       1     135 [.       8     144 ..       8     148 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 87.7 bits;  conditional E-value: 3.3e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +vlaggGT+G+v P++A+a + ++ ++      ++t  gle+ + +eag+e  +i+   +++++   l +l+ +a+  +++ k++ il+
+  sp|Q8CY50|MURG_BIFLO   8 IVLAGGGTAGHVNPLLAVAGAIRDIEPTAQvtvIGTAVGLEKDLvPEAGYELDTIEKV-PFPRRP-NLYMLRFPAKWKRETAKVRSILE 94 
+                           79**********************99987777************9*************.****99.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                              +dvv+gfggy++++++  a + gip+ ++Eqn+++g++nkl +r+a+
+  sp|Q8CY50|MURG_BIFLO  95 TRHADVVAGFGGYASAPVYATAHKMGIPIAIHEQNARAGMANKLGARWAD 144
+                           ***********************************************998 PP
+
+>> sp|Q6MIG1|MURG_BDEBA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.7   0.0   3.3e-26   1.8e-23       1     137 [.       7     145 ..       7     147 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 87.7 bits;  conditional E-value: 3.3e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v+aggGT+G+++P +A+ar+Lq+ ++ ++   ++t +gle+++ + +g + + i+++ +l+ k   ++++k+l++   +l ++ ++l 
+  sp|Q6MIG1|MURG_BDEBA   7 IVIAGGGTGGHIYPGIAIARALQKLDPSIEvhfVGTARGLESKIvPREGFPLHLIESG-QLNVKS-PIQKMKTLLKIPVGLWQSIRLLG 93 
+                           79************************988877**************************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           + kp +v+g+ggy++++ ++aa+  g  + v E n+ pg++n++l+r++++ 
+  sp|Q6MIG1|MURG_BDEBA  94 QLKPLYVIGVGGYASGPFVLAASIIGFNTAVWEPNAMPGMANRILSRFVDKC 145
+                           *************************************************986 PP
+
+>> sp|Q7U3U6|MURG_SYNPX  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.0   0.4   2.7e-26   1.5e-23       2     137 ..       5     137 ..       4     139 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 88.0 bits;  conditional E-value: 2.7e-26
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpd.vklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+ GT+G+++Pa+A+a++L + +++Vr l++p++le+++  a ++  +++++ +++ +  + ++ l+ la+g     ++ +++++++
+  sp|Q7U3U6|MURG_SYNPX   5 LIAASGTGGHLFPALAVAEALPE-DWQVRwLGVPDRLETQLVPARYSLFTVNAGgLQGSRLSKAVQLLLLLAAG----VSVARLIRRER 88 
+                           799******************86.78***************555666666666611555545555555555555....*********** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++v+++ggy+a++a++aa+++g+p++++E+n+ipg v++ll r++  v
+  sp|Q7U3U6|MURG_SYNPX  89 IQLVLSTGGYIAAPAILAARFCGVPTVLHEANAIPGRVTRLLGRFCGAV 137
+                           *****************************************99988666 PP
+
+>> sp|B7GQ78|MURG_BIFLI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.5   0.4     4e-26   2.2e-23       1     135 [.       8     144 ..       8     148 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 87.5 bits;  conditional E-value: 4e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +vlaggGT+G+v P++A+a + ++ ++      ++t  gle+ + +eag+e  +i+   +++++   l +l+ +a+  +++ k++ il+
+  sp|B7GQ78|MURG_BIFLI   8 IVLAGGGTAGHVNPLLAVAGAIRDIEPTAQvtvIGTAVGLEKDLvPEAGYELDTIEKV-PFPRRP-DLYMLRFPAKWKRETAKVRSILE 94 
+                           79**********************99987777************9*************.*****9.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                              +dvv+gfggy++++++  a + gip+ ++Eqn+++g++nkl +r+a+
+  sp|B7GQ78|MURG_BIFLI  95 TRHADVVAGFGGYASAPVYATAHKMGIPIAIHEQNARAGMANKLGARWAD 144
+                           ***********************************************998 PP
+
+>> sp|Q0UY53|ATG26_PHANO  Sterol 3-beta-glucosyltransferase OS=Phaeosphaeria nodorum GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.7   0.0   6.8e-26   3.8e-23       2     138 ..     956    1089 ..     955    1090 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 86.7 bits;  conditional E-value: 6.8e-26
+                             EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHH CS
+        Glyco_transf_28    2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrk 79  
+                             v +++G+rGdv+P+++l +eL ++Gh+ r+at+ ++e++v+++g+++ p+++d        v++    ++++++ke+ ++      
+  sp|Q0UY53|ATG26_PHANO  956 VCLTIGSRGDVQPYISLCKELLKEGHKARIATHAEFEPWVRKHGIDFAPVDGDpaelmricVEHGM--FTYGFIKEANSK------ 1033
+                             6789*******************************************************7777777..8***********...... PP
+
+                             HHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   80 akeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                              ++ + ++ +  +++++  + +++li++++ ++ ++vaE++ ip+++++++p+ +++++
+  sp|Q0UY53|ATG26_PHANO 1034 -FRGWLDDVCSSSWRAC--QGADVLIESPSTMAGIHVAEALEIPYFRAFTMPWSRTRAY 1089
+                             .8888888877777777..8999*******************************99987 PP
+
+>> sp|Q8DVE2|MURG_STRMU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.8   0.0   6.4e-26   3.6e-23       1     138 [.       6     145 ..       6     146 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 86.8 bits;  conditional E-value: 6.4e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH--..-EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeag..leavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ + g+e++  e++   + +++i+++ kl++++ slk++++++++++++ ++ +i+ 
+  sp|Q8DVE2|MURG_STRMU   6 IIFTGGGTVGHVTLNLLLIPRFLKDGWEVHyIGDKHGIEHEQiEQSDfdVIFHSIATG-KLRRYF-SLKNVLDVFKVGWGVLQSLTIMV 92 
+                           689************************************998888761166777****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+v+++ gg+v++++++aa+l++ip++v+E++  +gl+n++  ++a++++
+  sp|Q8DVE2|MURG_STRMU  93 KVRPQVLFSKGGFVSVPPVVAANLLRIPVFVHESDLSMGLANRIAYKFATTMY 145
+                           *************************************************9876 PP
+
+>> sp|Q6N411|MURG_RHOPA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.2   0.6   2.3e-26   1.3e-23       1     138 [.       7     143 ..       7     144 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 88.2 bits;  conditional E-value: 2.3e-26
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE....----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp....igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++la+gGT+G+++Pa Al++ L rrG++Vrl+t  + ++    +gl + +    ++++ +++ +   ++  k++++ + +   a+ ++ 
+  sp|Q6N411|MURG_RHOPA   7 ILLAAGGTGGHLFPAEALGVVLIRRGYRVRLVTDHRATRY---SGLFTAEmtdvVPSE-TVRGRT-PWALAKTALKLGSGALLAFNLIG 90 
+                           79********************************999998...555555533345566.777766.9999******************* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + kp++vvgfggy  +++l+aa+++++p+ ++Eqn+++g +n++l+ r++ ++
+  sp|Q6N411|MURG_RHOPA  91 RLKPAAVVGFGGYPTLPPLLAATWRRVPTLIHEQNAVMGRANRFLAPRVDAIA 143
+                           ************************************************99875 PP
+
+>> sp|Q6CUV2|ATG26_KLULA  Sterol 3-beta-glucosyltransferase OS=Kluyveromyces lactis GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.0   0.0   5.6e-26   3.2e-23       2     138 ..     739     872 ..     738     873 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 87.0 bits;  conditional E-value: 5.6e-26
+                            EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81 
+                             l+++G+rGdv+P++Ala++Lq++GheV++ t+ ++++++ ++++ +++i ++        v++ +  + ++ l+++  +       +
+  sp|Q6CUV2|ATG26_KLULA 739 GLLTIGSRGDVQPYIALAKGLQAEGHEVIILTHGEFKDWIVSHNIGFREISGNpaelislmVQHGS--MNMGLLRDASTN-------F 817
+                            589******************************************************988877777..778888888888.......7 PP
+
+                            HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                             ++ +   d+  +++g++  ++li++++a++ +++aE++ ip+++++++p+++++++
+  sp|Q6CUV2|ATG26_KLULA 818 STWISSLLDT--AWEGCQGIDILIESPSAMAGIHIAEALRIPYFRAFTMPWTRTRAY 872
+                            7777777444..48999************************************9987 PP
+
+>> sp|Q1MPB9|MURG_LAWIP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   87.6   0.1   3.6e-26     2e-23       1     138 [.       5     140 ..       5     141 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 87.6 bits;  conditional E-value: 3.6e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+v+Pa+A+a+++ ++  +   ++++ g e++  ++ +++++ ++++ ++    +++k+++ l++  ka+ ka++il++ 
+  sp|Q1MPB9|MURG_LAWIP   5 IAITTGGTGGHVYPALAVAEQFHDKA-DLFfIGSQYGPEAEMvKTFNIPFYGLPVR-GVLG--RKWKAFSALYSMIKAIVKARKILQKC 89 
+                           789**********************9.5555********9999*************.8888..999*********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            pd+vvgfg+y++ ++l+aa+l +ip+ ++Eqn +pgl+n+ l+r a++v+
+  sp|Q1MPB9|MURG_LAWIP  90 MPDIVVGFGSYASFAPLVAAKLKRIPTAIHEQNVRPGLANRMLARLADRVF 140
+                           ************************************************997 PP
+
+>> sp|Q8R5N5|MURG_FUSNN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.4   0.0   3.5e-25     2e-22       1     135 [.       7     135 ..       7     139 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 84.4 bits;  conditional E-value: 3.5e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v+l++gGT+G+++Pa+A+a++L+ +G+e   +++ +++e+ + +e+g ++  +++          ++ lk++ + lka+r a +++ke+
+  sp|Q8R5N5|MURG_FUSNN   7 VMLTTGGTGGHIYPALAVADRLKIKGIEAVfVGSMERMEKDLvPESGHKFIGVDIS--------VPRGLKNIRKYLKAIRTAYKVIKEE 87 
+                           68**************************999***********9*******666655........55677888888888*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kpd+++gfg+y++++++ia +l++ ++++ Eqn   g +nk + + a+
+  sp|Q8R5N5|MURG_FUSNN  88 KPDAIIGFGNYISVPVIIAGILLRKKIYLQEQNVNIGSANKMFYKIAK 135
+                           ******************************************999887 PP
+
+>> sp|Q3ANV3|MURG_CHLCH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.7   0.1   6.7e-26   3.8e-23       1     139 []       3     147 ..       3     147 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 86.7 bits;  conditional E-value: 6.7e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----...S------.-HHHCCSHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd...vklwakleslktlkelaeglkalrkake 82 
+                           v++aggGT+G+++Pa+A+a eLqr  ++V    ++t+ g+e++  +  g++ + + ++    ++  kl  +++l+ l+++ ++l  + +
+  sp|Q3ANV3|MURG_CHLCH   3 VLFAGGGTGGHLYPAIAMAAELQRLSPNVSvafVGTKSGIEATEvPRLGYKLHLVSVRglkRGFSPKL-LIENLRILFDFARSLGITIQ 90 
+                           79***************************************9988**********9994444444444.66788889999********* PP
+
+                           HHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  83 ilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +l+++ pdvvvg+gg+v++++l+aa l+g ++ + Eqn+ pg++++ll+ +a  v+v
+  sp|Q3ANV3|MURG_CHLCH  91 LLRSEAPDVVVGTGGFVSAPLLFAAQLLGKKTLIQEQNAFPGVTTRLLSLFASEVHV 147
+                           *************************************************99998875 PP
+
+>> sp|A8AW15|MURG_STRGC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.9   0.0   1.2e-25   6.7e-23       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 85.9 bits;  conditional E-value: 1.2e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ ++G++V+ ++ ++g+e +   ++gl  ++++++++ kl++++ s+++l++ +++ ++++++  i+ 
+  sp|A8AW15|MURG_STRGC   4 ILFTGGGTVGHVTLNLLLIPKFIKEGWQVHyIGDKNGIEYQEiQKSGLdvTFHSVATG-KLRRYF-SWQNLLDGFKVIWGIFQSLSIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+g+p++v+E++   gl+nk+  + a++++
+  sp|A8AW15|MURG_STRGC  91 KVRPQALFSKGGFVSVPPVIAARLSGVPVYVHESDLSIGLANKIAYKCATKMY 143
+                           *********************************************99999876 PP
+
+>> sp|B8DP79|MURG_DESVM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.1   1.2   1.1e-25   5.9e-23       1     138 [.       4     142 ..       4     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 86.1 bits;  conditional E-value: 1.1e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l++gGT+G+++Pa+A+a+e  rr ++ r   l+ + g e+ + + agle+v ++++ +++   + l++l  + + + ++ +a  +++
+  sp|B8DP79|MURG_DESVM   4 VILTTGGTGGHIFPALAVAEEITRRYPKARilfLGGQYGPEADLaARAGLEYVGLPVR-GVMG--RGLRALAAAGAMGLGVWRAVSVVR 89 
+                           78********************************************************.9999..7799999999999*********** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++ pd+ vgfggy+a + ++aa+l+g pa ++Eqn+ipgl+n+ll   + +v+
+  sp|B8DP79|MURG_DESVM  90 RFDPDIAVGFGGYAAFAGVLAARLCGRPAAIHEQNAIPGLTNRLLGHVVQRVF 142
+                           *******************************************9988777765 PP
+
+>> sp|Q728U8|MURG_DESVH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.5   0.8   8.2e-26   4.6e-23       1     138 [.       4     142 ..       4     143 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 86.5 bits;  conditional E-value: 8.2e-26
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l++gGT+G+++Pa+A+a+e ++r +e     ++   g e+ + + agl++v ++++ ++    + ++++  ++    ++ +a +++ 
+  sp|Q728U8|MURG_DESVH   4 VILTTGGTGGHIFPALAVAEEIRARYPECSvlfMGGLYGPEADLaARAGLDFVGLPVR-GVLG--RGVRAIGAAFGMAAGIARAYAVMG 89 
+                           78**************************999999999999*9999*************.6555..4455555555555669999***** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++ pd+v+gfggy+a + ++aa+l+g pa ++Eqn++pgl+n++l+r + +v+
+  sp|Q728U8|MURG_DESVH  90 RFDPDIVLGFGGYAAFAGVLAARLRGRPAAIHEQNSVPGLTNRVLSRVVPRVF 142
+                           ***********************************************999886 PP
+
+>> sp|Q8NJS1|ATG26_LEPMC  Sterol 3-beta-glucosyltransferase OS=Leptosphaeria maculans GN=ATG26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.1   0.0     1e-25   5.9e-23       2     138 ..     960    1093 ..     959    1094 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 86.1 bits;  conditional E-value: 1e-25
+                             EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHH CS
+        Glyco_transf_28    2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrk 79  
+                             v +++G+rGdv+P++Al +eL ++Gh+ r+at+ ++e++v+++g+++ p++++        v++    ++++++ke+ ++      
+  sp|Q8NJS1|ATG26_LEPMC  960 VCLTIGSRGDVQPYIALCKELLKEGHKPRIATHAEFEPWVRKHGIDFAPVDGNpaelmricVEHGM--FTYNFMKEANSK------ 1037
+                             6789**************************************************99*997777777..8999****9999...... PP
+
+                             HHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   80 akeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                              ++ + ++ +  +++++  + +++li++++ ++ +++aE++ ip+++++++p+++++++
+  sp|Q8NJS1|ATG26_LEPMC 1038 -FRGWLDDVCSSSWRAC--QGADVLIESPSTMAGIHIAEALEIPYFRAFTMPWTRTRAY 1093
+                             .7888888877777777..8999********************************9987 PP
+
+>> sp|Q5KK25|ATG26_CRYNE  Sterol 3-beta-glucosyltransferase OS=Cryptococcus neoformans GN=ATG26 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.0   0.0   1.1e-25   6.2e-23       4     138 ..    1039    1170 ..    1036    1171 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 86.0 bits;  conditional E-value: 1.1e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----......S------.-HHHCCSHHHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd......vklwakleslktlkelaeglkalrkakei 83  
+                             +++G+rGdv+P++Al ++Lq++Gh  ++at+ +++++ve +g++++++g+d      +++ + ++++++lke +++       ++ 
+  sp|Q5KK25|ATG26_CRYNE 1039 LTIGSRGDVQPYIALCKGLQAEGHITKIATHGEYKAWVEGHGIAFESVGGDpaelmqMCVDNGMFTVSFLKEGLQK-------FRG 1117
+                             79**************************************************999997777777999999999999.......899 PP
+
+                             HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + ++  + +++++  +  ++li++++a+  ++vaE++ ip+ +++++p+++++++
+  sp|Q5KK25|ATG26_CRYNE 1118 WLDDLLNSSWEAC--QGSDLLIESPSAMSGIHVAEALRIPYYRAFTMPWTRTRAY 1170
+                             9999977777776..788999******************************9987 PP
+
+>> sp|Q8YZI3|MURG_ANASP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.4   0.0   1.8e-25   9.9e-23       2     135 ..       9     139 ..       8     143 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 85.4 bits;  conditional E-value: 1.8e-25
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+Ala++L ++++e  l++p++le+++  + ++  +i+++ ++++ l  ++ l+ l +   ++ k++++lk+ + +
+  sp|Q8YZI3|MURG_ANASP   9 LIAASGTGGHLFPAIALAEKLPDYEIEW-LGVPNRLETQLVPKQYPLNTIAVE-GFQQGL-GISSLVILGKLIGSILKVRRLLKQGNFQ 94 
+                           799**********************776.***********8888999999999.999988.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            vv +ggy+a++a+iaa+++g p++ +E+n++pg+v++++  ++ 
+  sp|Q8YZI3|MURG_ANASP  95 GVVTTGGYIAGPAVIAARSLGLPVIFHESNALPGKVTRFFGPWCS 139
+                           **************************************9987765 PP
+
+>> sp|B9DUV6|MURG_STRU0  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.3   0.0   1.8e-25     1e-22       1     138 [.       5     144 ..       5     145 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 85.3 bits;  conditional E-value: 1.8e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT G+v   + l  ++ + G+eV+ ++ ++g+e +   ++g+  ++++i+++ kl++++ s+++l +++++  +l ++  i+ 
+  sp|B9DUV6|MURG_STRU0   5 ILFTGGGTVGHVTLNLILIPKFLKDGWEVHyIGDKKGIEYQEiQKSGYpvTFHAIKTG-KLRRYF-SWQNLIDVFKVATGLLQSLVIIN 91 
+                           79**************************************99988876116777****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + kp+++++ gg+v+++++ia++l g+p++v+E++  +gl+nk+  ++a +++
+  sp|B9DUV6|MURG_STRU0  92 KVKPQALFSKGGFVSVPPVIASRLMGVPVFVHESDLSMGLANKIALKFASTMY 144
+                           ********************************************999987765 PP
+
+>> sp|Q3M935|MURG_ANAVT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.7   0.0   1.4e-25   7.7e-23       2     135 ..       9     139 ..       8     143 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 85.7 bits;  conditional E-value: 1.4e-25
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+Ala++L ++++e  l++p++le+++  + ++  +i+++ ++++ l  l+ l+ l +   ++ k++++lk+ + +
+  sp|Q3M935|MURG_ANAVT   9 LIAASGTGGHLFPAIALAEKLPDYEIEW-LGVPNRLETQLVPKQYPLNTIAVE-GFQQGL-GLSSLVILGKLIGSILKVRRLLKQGNFQ 94 
+                           799**********************776.***********8888999999999.999988.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            vv +ggy+a++a+iaa+++g p++ +E+n++pg+v++++  ++ 
+  sp|Q3M935|MURG_ANAVT  95 GVVTTGGYIAGPAVIAARSLGLPVIFHESNALPGKVTRFFGPWCS 139
+                           **************************************9987765 PP
+
+>> sp|Q7VDZ2|MURG_PROMA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.7   0.0   1.4e-25   8.2e-23       2     138 ..       5     138 ..       4     139 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 85.7 bits;  conditional E-value: 1.4e-25
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+++a+eL +  +++  l++p++le+++  +++++  i+++ +l++  + l+++ +l++   a++ + +++k++++
+  sp|Q7VDZ2|MURG_PROMA   5 LIAASGTGGHIFPALSVAEELPES-WDISwLGVPERLENQLVPTKYDMTVIPVG-GLQS--KGLRKYFQLLKLILAIFFVIYLIKRKQI 89 
+                           799******************987.6***************5555555556666.6677..4488888889998999999********* PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++v+ +ggy+a++a+ia++l+gi ++++E+n+ pg+v++ll ++++ v+
+  sp|Q7VDZ2|MURG_PROMA  90 KLVFTTGGYIAAPAIIASKLCGINVILHESNSYPGKVTRLLGKFCDEVA 138
+                           ********************************************99886 PP
+
+>> sp|Q0I6M0|MURG_SYNS3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.7   0.1   1.4e-25   7.7e-23       2     139 .]       5     139 ..       4     139 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 85.7 bits;  conditional E-value: 1.4e-25
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+++a++L +  + Vr +++p++le+ +    ++  +++++ +l+   + l++l +l + l a  +++++++++++
+  sp|Q0I6M0|MURG_SYNS3   5 LVAASGTGGHLFPALSVADALLEP-WSVRwVGVPDRLETSLVPGRYPLTTVKAG-GLQG--RGLRKLIQLIQLLAASGSIRRLIQRERI 89 
+                           799******************976.7**************95555666666666.6677..5688999999999999************ PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           d+v+ +ggy+a++a++aa+++gip++++E+n+ipg v++ll r++++v+v
+  sp|Q0I6M0|MURG_SYNS3  90 DAVFTTGGYIAAPAILAARWCGIPVVLHESNAIPGRVTRLLGRFCTRVAV 139
+                           **********************************************9975 PP
+
+>> sp|B2J8J9|MURG_NOSP7  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.4   0.0   1.7e-25   9.6e-23       2     137 ..       9     141 ..       8     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 85.4 bits;  conditional E-value: 1.7e-25
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+Ala++L ++ +e  l++p++le+++  ++++  +i+++ ++++ +  l+ ++ + +   ++ ++++ilk+ + +
+  sp|B2J8J9|MURG_NOSP7   9 LIAASGTGGHLFPAIALAEKLPDYQIEW-LGVPNRLETQLVPKEYPLNTIAVE-GFQQGF-GLSSIRIFGKLAGSIIEVRRILKQGNFQ 94 
+                           799********************99776.***********8899999999999.999988.**************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            v+ +ggy+a++a+iaa+++g p++ +E+n++pg+v++++  ++  v
+  sp|B2J8J9|MURG_NOSP7  95 GVFTTGGYIAGPAVIAARSLGLPVVFHESNALPGKVTRFFGPWCSAV 141
+                           ***************************************99988776 PP
+
+>> sp|A5GPC2|MURG_SYNPW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.6   0.2   7.5e-26   4.2e-23       2     138 ..       5     138 ..       4     139 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 86.6 bits;  conditional E-value: 7.5e-26
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++a+ GT+G+++Pa+++a++L  +G+  + l++p++le+++  e + l++  ++++ +l+   + lk++++l++ l a r+++++++++
+  sp|A5GPC2|MURG_SYNPW   5 LIAASGTGGHLFPALSVADALP-AGWSAHwLGVPDRLETTLvpERYPLTT--VNAG-GLQG--RGLKKVVQLLRLLAASRDVRRLIRRN 87 
+                           799******************8.59***************9555555555..6666.6677..6689999999999999********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +dvv+ +ggy+a++a+++a+++g+p++++E+n+ipg v++ll r +++v+
+  sp|A5GPC2|MURG_SYNPW  88 GIDVVFTTGGYIAAPAILGARWSGVPVVLHESNAIPGRVTRLLGRACTQVA 138
+                           *******************************************99999886 PP
+
+>> sp|B4RFS0|MURG_PHEZH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.5   1.6     8e-26   4.5e-23       2     137 ..       6     140 ..       5     142 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 86.5 bits;  conditional E-value: 8e-26
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH......HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv......eeagleavpigpdvklwakleslktlkelaeglkalrkakeil 84 
+                           v+a+gGT+G+++Pa Ala++L +rG+++ la+ ++++         +  gl+a ++ p+       + +++++  +++l++   a++++
+  sp|B4RFS0|MURG_PHEZH   6 VVAAGGTGGHLFPAQALAEALIARGWRIVLASDERVAGLAqdfpaeRRIGLSAATYRPG-------DPVGMMRAGFAVLRGAMHARAAF 87 
+                           89********************************9987641111222335555555555.......9********************** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +e  pdvvvgfggy +++al+aa+l + p++++Eqn+++g +n++l+ ++ +v
+  sp|B4RFS0|MURG_PHEZH  88 REIGPDVVVGFGGYPSAPALVAAILDRRPTVIHEQNAVMGRTNRILAPHVRTV 140
+                           *********************************************99888776 PP
+
+>> sp|A1VBE8|MURG_DESVV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.4   1.0   1.8e-25     1e-22       1     138 [.       4     142 ..       4     143 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 85.4 bits;  conditional E-value: 1.8e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+l++gGT+G+++Pa+A+a+e ++r +e     ++   g e+ + + agl++v ++++ ++    + ++++  ++    ++ +a +++ 
+  sp|A1VBE8|MURG_DESVV   4 VILTTGGTGGHIFPALAVAEEIRARYPECSvlfMGGLYGPEADLaARAGLDFVGLPVR-GVLG--RGVRAIGAAFGMAAGIARAYAVMG 89 
+                           78**************************999999999999*9999*************.6555..4455555555555669999***** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++ pd+v+gfggy+a + ++aa+l+g pa ++Eqn++pg++n++l+r + +v+
+  sp|A1VBE8|MURG_DESVV  90 RFDPDIVLGFGGYAAFAGVLAARLRGRPAAIHEQNSVPGVTNRVLSRVVPRVF 142
+                           ***********************************************999886 PP
+
+>> sp|B7IHN7|MURG_THEAB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.4   0.0   1.8e-25     1e-22       1     139 []       4     144 ..       4     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 85.4 bits;  conditional E-value: 1.8e-25
+                           EEEE-------HHHHHHHHHHHHH--.-EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrG.heVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++agg T+G+++Pa+A+ +eL +   ++V  + ++ +lee+v + ++++ v+++++ +l++ + s++++k+l++ ++a + + + lk+
+  sp|B7IHN7|MURG_THEAB   4 IAVAGGVTGGHLYPALAVLKELEKLTpIDVLyFTVSGKLEERVlKDYNYKKVSLKIQ-GLKRPVYSIENIKRLFKIFNANNIVLKELKK 91 
+                           789*********************9735888**************************.******************************* PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +kpd+v+ +ggyv+ ++++aa++++ip+++ Eqn ipgl+n  l+ +a++v+v
+  sp|B7IHN7|MURG_THEAB  92 FKPDIVFVTGGYVSYPVGTAAKKLKIPLYIQEQNVIPGLANIKLSSFAKKVFV 144
+                           *************************************************9985 PP
+
+>> sp|Q7S1I0|ATG26_NEUCR  Sterol 3-beta-glucosyltransferase OS=Neurospora crassa GN=atg-26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.0   0.0   2.3e-25   1.3e-22       4     138 ..    1016    1147 ..    1013    1148 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 85.0 bits;  conditional E-value: 2.3e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ +++t++++++++e++g+e+ p+++d        +++    +++++l+e+ ++       +
+  sp|Q7S1I0|ATG26_NEUCR 1016 LTIGSRGDVQPYIALCKRLLEEGHRPKIVTHREFKDWIESHGIEFGPVEGDpselmricIENGT--FTYAFLREANSK-------F 1092
+                             79*************************************************9777774444444..677777777777.......7 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++  +  +++  ++  ++li++++a++ +++aE++gip+++++++p+++++++
+  sp|Q7S1I0|ATG26_NEUCR 1093 RGWLDELLTSAWEA--CQGSDLLIESPSAMAGIHIAEALGIPYFRAFTMPWTRTRAY 1147
+                             77877776666555..589999*******************************9987 PP
+
+>> sp|Q3AVX2|MURG_SYNS9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.1   0.3   2.1e-25   1.2e-22       2     138 ..       5     138 ..       4     139 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 85.1 bits;  conditional E-value: 2.1e-25
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+a++L     +V  l++p++le+++  a  +  +++++ +l+   + +++l++l + l a   ++++++ +++
+  sp|Q3AVX2|MURG_SYNS9   5 LIAASGTGGHLFPALAVADALDGHC-QVSwLGVPDRLETELVPARFKLITVNAG-GLQG--RGITKLVQLIRLLAASITVRRLIRTHQI 89 
+                           799******************8876.9**************9999999999999.9999..77************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           d+v+ +ggy+a++a+++a+++g+pa+++E+n+ipg v++ll r++  v+
+  sp|Q3AVX2|MURG_SYNS9  90 DAVFTTGGYIAAPAILGARWCGVPAVLHESNAIPGRVTRLLGRFCSAVA 138
+                           *******************************************998886 PP
+
+>> sp|Q4WID6|ATG26_ASPFU  Sterol 3-beta-glucosyltransferase OS=Aspergillus fumigatus GN=atg26 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.8   0.0   2.7e-25   1.5e-22       4     138 ..     907    1038 ..     904    1039 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 84.8 bits;  conditional E-value: 2.7e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++v+++g+++ p+++d        v++    +++++lke+ ++       +
+  sp|Q4WID6|ATG26_ASPFU  907 LTIGSRGDVQPYIALCKGLLAEGHRPKIATHAEFEPWVRKHGIDFAPVEGDpaelmricVENGM--FTYSFLKEASQK-------F 983 
+                             79**************************************************999884444444..889999999888.......8 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++   ++ +++++++ ++li++++a++ +++aE++ ip+++++++p+ +++++
+  sp|Q4WID6|ATG26_ASPFU  984 RGWIDDL--LSSAWASCQDSDLLIESPSAMAGIHIAEALRIPYFRAFTMPWSRTRAY 1038
+                             8888888..666778889**********************************99987 PP
+
+>> sp|A1CYS1|ATG26_NEOFI  Sterol 3-beta-glucosyltransferase OS=Neosartorya fischeri (strain ATCC 1020 / DSM 3700 / FGSC 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.8   0.0   2.7e-25   1.5e-22       4     138 ..     916    1047 ..     913    1048 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 84.8 bits;  conditional E-value: 2.7e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++v+++g+++ p+++d        v++    +++++lke+ ++       +
+  sp|A1CYS1|ATG26_NEOFI  916 LTIGSRGDVQPYIALCKGLLAEGHRPKIATHAEFEPWVRKHGIDFAPVEGDpaelmricVENGM--FTYSFLKEASQK-------F 992 
+                             79**************************************************999884444444..889999999888.......8 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++   ++ +++++++ ++li++++a++ +++aE++ ip+++++++p+ +++++
+  sp|A1CYS1|ATG26_NEOFI  993 RGWIDDL--LSSAWASCQDSDLLIESPSAMAGIHIAEALRIPYFRAFTMPWSRTRAY 1047
+                             8888888..666778889**********************************99987 PP
+
+>> sp|Q8DHY4|MURG_THEEB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.6   0.0     3e-25   1.7e-22       2     138 ..       8     141 ..       7     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 84.6 bits;  conditional E-value: 3e-25
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+a+eL +++  ++ l++ ++le+++   +++ ++++   +l+ k   +++l++l++++  + +++++lk+   
+  sp|Q8DHY4|MURG_THEEB   8 LIAASGTGGHLFPALAVAQELPEYE--IHwLGVRDRLENQLIPPHYPLHTVNFS-GLQGKT-PWAKLRPLWQFWGVFWQTRQLLKQGDF 92 
+                           799********************99..667***********8888888888888.889988.9************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + v+ +ggy+a++a++aa+++g +a+++E+n++pg+v+++l+ +++ v+
+  sp|Q8DHY4|MURG_THEEB  93 QGVFTTGGYIAAPAILAARSLGRVAILHESNALPGKVTRWLAPWCTLVA 141
+                           ******************************************9999886 PP
+
+>> sp|Q11RH5|MURG_CYTH3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.2   0.0   4.2e-25   2.4e-22       1     137 [.       9     147 ..       9     149 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 84.2 bits;  conditional E-value: 4.2e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++PavA+a++ ++r ++ +   ++++ ++e +  ++ag++++ + +  + ++kl sl++l  ++++  +++kak+i++
+  sp|Q11RH5|MURG_CYTH3   9 IIISGGGTGGHIYPAVAIANAIKARFPDSEilfVGAQGRMEMQKvPAAGYNIEGLWIS-GIQRKL-SLDNLAFPLKVIASYFKAKKIVS 95 
+                           6899*********************9999999********98877*************.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            +kpd+ +g+ggy++ ++l aa+++g+++ + Eqn+ +g++nk+l+++++ +
+  sp|Q11RH5|MURG_CYTH3  96 TFKPDIAIGVGGYASWPLLQAANASGVATLIQEQNSYAGVANKALSKKVKAI 147
+                           ************************************************9976 PP
+
+>> sp|A9BDG0|MURG_PROM4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.7   0.0   2.9e-25   1.6e-22       2     138 ..       5     138 ..       4     139 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 84.7 bits;  conditional E-value: 2.9e-25
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+a++L +  ++V  l+++++le+ +  ++++  +ig++ ++++  + +k ++++++ l a+ ++  +++++++
+  sp|A9BDG0|MURG_PROM4   5 LIAASGTGGHLFPALAVAEALPES-WKVSwLGVSDRLESSLIPKKYQLSTIGVE-GVQS--RGIKRIVQIFKLLAATGSVICLIRRNRI 89 
+                           799******************987.6***************99999********.9999..77************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++v+ +ggy+a++a++aa+l g +++++E+n+ipg++++ll r +++v+
+  sp|A9BDG0|MURG_PROM4  90 QIVLTTGGYIAVPAVLAAKLTGKKVILHESNAIPGKATRLLGRLCDKVA 138
+                           *****************************************99999986 PP
+
+>> sp|Q73L91|MURG_TREDE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.6   0.0   6.4e-25   3.6e-22       1     139 []       4     151 ..       4     151 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 83.6 bits;  conditional E-value: 6.4e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE........----S------.-HHHCCSHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavp........igpdvklwakleslktlkelaeglkal 77 
+                           vv++ggGT+G+++P +A+a++L     e r   +++ +g+++++ e+++l   +        i+++ kl++++ s++++ +++++  ++
+  sp|Q73L91|MURG_TREDE   4 VVFTGGGTGGHIFPGLAVAEALSSSL-ECRivwIGSAKGVDRKIvESSELYSASpsvlefigIPAG-KLRRYF-SFQNFIDVFKVAAGF 89 
+                           79********************9764.444559************999874443355555448888.******.*************** PP
+
+                           HHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  78 rkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                            k+++il + kp  v++ gg+v+++++ aa++++ip++ +E +  pgl++++++++an++lv
+  sp|Q73L91|MURG_TREDE  90 IKSFFILLKLKPVFVFSKGGFVSVPPCAAAKFLKIPVITHECDFSPGLATRINSKFANRILV 151
+                           ***********************************************************985 PP
+
+>> sp|C4XK69|MURG_DESMR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.4   0.6   1.7e-25   9.7e-23       2     138 ..       5     141 ..       4     142 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 85.4 bits;  conditional E-value: 1.7e-25
+                           EEE-------HHHHHHHHHHHHH-..--EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrr..GheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++gGT+G+++Pa+A+a++ +r   G +V ++   g e ++ ++agl++v+++++ ++    + +k+l  ++  l+a+  a + ++e+
+  sp|C4XK69|MURG_DESMR   5 IVTTGGTGGHIFPALAVAEAAMRLspGLDVLFIGGAGPEGELaAKAGLPFVALPAK-GVFG--RGIKALAAPFWMLRAFGLAGARIREF 90 
+                           689*******************985588999999999999999*************.8888..6689999999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +pdvv gfggy+   ++ aa+l g+p+ ++Eqn++pg++nk+l r++++v+
+  sp|C4XK69|MURG_DESMR  91 SPDVVCGFGGYAGFIPVAAARLMGVPTAIHEQNSVPGVTNKVLGRFVDRVF 141
+                           ************************************************997 PP
+
+>> sp|A1BAL5|MURG_PARDP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.2   1.3   4.1e-25   2.3e-22       1     138 [.       7     144 ..       7     145 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 84.2 bits;  conditional E-value: 4.1e-25
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp..igpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++a+gGT+G+++Pa +la++L ++G++V+l t ++ ++   +   e+    + +  + ++ +  l+ l  +++ + ++ +a ++++ +
+  sp|A1BAL5|MURG_PARDP   7 CLIAAGGTGGHMFPAQSLAETLLAQGWRVKLSTDERGARYAGAFPAEVARevVSSA-TTARGG-ALARLAVPFRIGAGVLAAIRAMRAD 93 
+                           689************************************99555555444437777.555556.9999********************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p+vvvgfggy   +a+ aal ++ip+ ++Eqngi+g vn +++rr+++v+
+  sp|A1BAL5|MURG_PARDP  94 RPAVVVGFGGYPTIPAMSAALVLRIPRMIHEQNGIMGRVNMAFARRVDRVA 144
+                           ************************************************986 PP
+
+>> sp|A3CLN6|MURG_STRSV  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.4   0.0   7.3e-25   4.1e-22       1     138 [.       4     143 ..       4     144 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 83.4 bits;  conditional E-value: 7.3e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---..EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagl..eavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v++ggGT G+v   + l  ++ ++G++V+ ++ + g+e +   ++gl  ++++++++ kl++++ s+++l++ +++ ++++++  i+ 
+  sp|A3CLN6|MURG_STRSV   4 IVFTGGGTVGHVTLNLLLIPKFIKEGWQVHyVGDKHGIEYQEiQKSGLdvTFHSVATG-KLRRYF-SWQNLLDGFKVVWGIFQSLGIML 90 
+                           79***************************************99***98334666****.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +p+++++ gg+v+++++iaa+l+g+p++v+E++   gl+nk+  + a++++
+  sp|A3CLN6|MURG_STRSV  91 KVRPQALFSKGGFVSVPPVIAARLSGVPVYVHESDLSIGLANKIAYKCATKMY 143
+                           *********************************************99999876 PP
+
+>> sp|A4SV74|MURG_POLSQ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.1   0.0   4.4e-25   2.5e-22       1     136 [.       6     141 ..       6     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 84.1 bits;  conditional E-value: 4.4e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+++P +A+a+ L+  G++V  l+ + g+e ++ ++ + ++++++ + +l+ k+   ++l+ + +  +a +++ +i+++ 
+  sp|A4SV74|MURG_POLSQ   6 ILVMAGGTGGHIFPGLAVAEYLRICGWNVSwLGNQSGMEYRLvKSCNFPFEAVEFG-GLRGKG-IKAKLMLPINLARACHQSWKIMRRL 92 
+                           789*****************************************************.******.999999999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           kp+vv+g+ggy+  + ++ ++l++ p++++E+n+++g +n++l++ a +
+  sp|A4SV74|MURG_POLSQ  93 KPNVVLGMGGYITFPGGLISKLLKRPLVLHEANSVAGSANRALAKIAMR 141
+                           ******************************************9998765 PP
+
+>> sp|O67238|MURG_AQUAE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   84.0   0.0   4.6e-25   2.6e-22       1     139 []       2     137 ..       2     137 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 84.0 bits;  conditional E-value: 4.6e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp..igpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++++ggGT+G+++Pa+A+ + + +++ +V+ +++++g+e +  ++ +++++  ++++ +l+++  ++++lk ++++lka ++++e lke
+  sp|O67238|MURG_AQUAE   2 IAVSGGGTGGHFFPALAFTNYVLKKE-KVKfIGSKRGIEYE-LKDLIKTEKlfLDVE-PLRERN-FYQKLKAIWKFLKAQEEINEFLKE 86 
+                           6899**********************.***9*******999.677888888446666.777777.************************ PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +  +++  fggy++++++i++ l++  ++++Eqn+ip ++nk+l+++a++vl+
+  sp|O67238|MURG_AQUAE  87 DYRALI--FGGYASLPLGINTVLRRKELFIHEQNSIPSKTNKILSKKAKKVLI 137
+                           **9999..******************************************985 PP
+
+>> sp|Q2U0C3|ATG26_ASPOR  Sterol 3-beta-glucosyltransferase OS=Aspergillus oryzae GN=atg26 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.9   0.0     5e-25   2.8e-22       4     138 ..     897    1028 ..     894    1029 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 83.9 bits;  conditional E-value: 5e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++v+++g+++ p+++d        v++    +++++lke+  +       +
+  sp|Q2U0C3|ATG26_ASPOR  897 LTIGSRGDVQPYIALCKGLLAEGHKPKIATHAEFEPWVRQHGIDFAPVDGDpaelmricVENGM--FTYSFLKEASTK-------F 973 
+                             79**************************************************999994444444..899999999999.......8 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++   ++ +++++++ ++li++++a++ +++aE++ ip+++++++p+ +++++
+  sp|Q2U0C3|ATG26_ASPOR  974 RGWIDDL--LSSAWASCQDSDLLIESPSAMAGIHIAEALRIPYFRAFTMPWSRTRAY 1028
+                             8888888..666778889**********************************99987 PP
+
+>> sp|Q3STS8|MURG_NITWN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.3   0.3   7.8e-25   4.4e-22       1     138 [.       7     143 ..       7     144 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 83.3 bits;  conditional E-value: 7.8e-25
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.....vklwakleslktlkelaeglkalrkakeil 84 
+                           ++la+gGT+G+++Pa Al++eL++rG +Vrl+t  +  +    +gl  + ++       v++++    ++  ++ +    ++  a  ++
+  sp|Q3STS8|MURG_NITWN   7 ILLAAGGTGGHLFPAEALGVELMKRGLRVRLVTDSRALRY---SGLFSKDLTDVvpsetVRGRS---PWALARTGLMLAAGTAVALNLM 89 
+                           79****************************9999887766...566655544444443434444...44444444444445889999** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +  kp++vvgfggy  +++liaa+l+gip++++++n+++g +n +l++r+n ++
+  sp|Q3STS8|MURG_NITWN  90 RVLKPAAVVGFGGYPTLPPLIAARLRGIPTVIHDSNAVMGRANSFLSKRVNAIA 143
+                           ***************************************************976 PP
+
+>> sp|A1BJX8|MURG_CHLPD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.7   0.2   5.7e-25   3.2e-22       1     138 [.       3     146 ..       3     147 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 83.7 bits;  conditional E-value: 5.7e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----..S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd..vklwakleslktlkelaeglkalrkakei 83 
+                           v++aggGT+G+++PavA+a eLq+r ++V+    +t+ g+e++  +  g+  + + ++   ++++ +  +++l  la++  a+r+a +i
+  sp|A1BJX8|MURG_CHLPD   3 VLFAGGGTGGHLYPAVAMAGELQKRVPHVKlsfAGTEAGIEAREiPRLGYRLHLLSVRglKRGRSLGALVDNLGVLADFIGAVRSALAI 91 
+                           79****************************88779999999999999999999999995533444445677788899************ PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + +++pdvvvg+gg+v++++l+aa  +g ++ + Eqn+ pg+++kll+ +a  ++
+  sp|A1BJX8|MURG_CHLPD  92 INSESPDVVVGTGGFVSAPLLLAAQMRGKKTLIQEQNAFPGVTTKLLSLFASEIH 146
+                           ***********************************************99988766 PP
+
+>> sp|A1AWE8|MURG_RUTMC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.6   0.0   6.4e-25   3.6e-22       1     137 [.       5     141 ..       5     143 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 83.6 bits;  conditional E-value: 6.4e-25
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++++gGT+G+++Pa+A+a+eL++   ++  l++  g+e+++ ++++++ +++++  +l+ k   ++ +k l+    a+ +++ i+ ++
+  sp|A1AWE8|MURG_RUTMC   5 ILIMAGGTGGHIFPALAIANELKNHSTHIQwLGSNVGIENEIvPKHNIKLHTVNSV-GLRGKS-VVSLIKALFLLSYATLQIMGIFLKF 91 
+                           689***********************9999**************************.*****9.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp++v+g+gg+ ++  ++ a   +ip++++Eqn+i g +nk+l++ a++ 
+  sp|A1AWE8|MURG_RUTMC  92 KPNIVLGMGGFTSGIGGLVACIFRIPLVIHEQNSISGTTNKILNKIAKKT 141
+                           *********************************************99986 PP
+
+>> sp|A1CFB3|ATG26_ASPCL  Sterol 3-beta-glucosyltransferase OS=Aspergillus clavatus GN=atg26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.7   0.0   5.7e-25   3.2e-22       4     138 ..     913    1044 ..     910    1045 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 83.7 bits;  conditional E-value: 5.7e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++v+ +g+++ p+++d        v++    +++++lke+ ++       +
+  sp|A1CFB3|ATG26_ASPCL  913 LTIGSRGDVQPYIALCKGLLAEGHKPKIATHAEFEPWVRRHGIDFAPVDGDpaelmricVENGM--FTYSFLKEASQK-------F 989 
+                             79**************************************************999884444444..889999999888.......8 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++   ++ +++++++ ++li++++a++ +++aE++ ip+++++++p+ +++++
+  sp|A1CFB3|ATG26_ASPCL  990 RGWIDDL--LSSAWASCQDSDLLIESPSAMAGIHIAEALRIPYFRAFTMPWSRTRAY 1044
+                             8888888..666778889**********************************99987 PP
+
+>> sp|B8IN64|MURG_METNO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.1   1.4   8.9e-25     5e-22       1     135 [.       8     141 ..       8     145 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 83.1 bits;  conditional E-value: 8.9e-25
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S----.--.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwa.kleslktlkelaeglkalrkakeilkea 87 
+                           v+la+gGT+G+++Pa Ala +L++rG++V lat  ++e+   e    e+v+i++ ++  +  l   ++l++l +   ++ +a +++++ 
+  sp|B8IN64|MURG_METNO   8 VLLAAGGTGGHLFPAEALALRLRERGIRVVLATDSRVETLSgEFPASEIVSIPSATPSGRsPLARGAALVTLGR---GFAAALRVVRRL 93 
+                           79***************************************999999999999995555504444555555555...5*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +p+v vgfggy  +++l+aa  +++p+ ++Eqn+++g +n +l+r a+
+  sp|B8IN64|MURG_METNO  94 NPAVAVGFGGYPTVPPLLAAQMLRVPTLLHEQNAVMGRANAFLARGAT 141
+                           ******************************************999876 PP
+
+>> sp|Q6G124|MURG_BARQU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.1   0.2     9e-25   5.1e-22       1     135 [.       7     140 ..       7     143 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 83.1 bits;  conditional E-value: 9e-25
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +vl++gGT+G+++Pa A+a+eL++rG++V+l+t ++ + fv     e+   + +  ++ ++   ++ +k+ +  lk++ ++ +++ + +
+  sp|Q6G124|MURG_BARQU   7 IVLVAGGTGGHLFPAEAVAVELRQRGYDVHLVTDRRAKCFVSCVDEEHTHiVSSA-TFTRRH-PFALIKTCWILLKGMGQSLALFYKLR 93 
+                           79***************************************55555555515555.666655.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           p +v gfggy   ++l+ a+l + +++++Eqn+i+g +n++l+ ++ 
+  sp|Q6G124|MURG_BARQU  94 PVLVGGFGGYPTFPPLLVAALMRCVTFIHEQNAIMGRANRVLAVFVH 140
+                           *****************************************998876 PP
+
+>> sp|Q2W0H3|MURG_MAGSA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.1   1.1   8.8e-25     5e-22       1     138 [.       8     144 ..       8     145 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 83.1 bits;  conditional E-value: 8.8e-25
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gGT+G+v+Pa Ala  L +rG++  l+t ++ ++   +  +le+  i ++ + + ++ +l++l++++e + +l +a+ il + +
+  sp|Q2W0H3|MURG_MAGSA   8 IALAAGGTGGHVFPAEALASVLLDRGYRLALITDKRGAAYGgTLGKLETFRISAG-GIAGRG-KLSALRSALELGLGLIQARSILGRIR 94 
+                           79****************************9999999999989999*********.999999.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p++v+gfggy++++ ++aa+lagip+ ++Eqn++ g +n+ll+ ++ +++
+  sp|Q2W0H3|MURG_MAGSA  95 PAAVIGFGGYASVPGMGAAALAGIPTAIHEQNAVLGRANRLLAGHVRRIA 144
+                           ******************************************99988875 PP
+
+>> sp|Q0CKU4|ATG26_ASPTN  Sterol 3-beta-glucosyltransferase OS=Aspergillus terreus (strain NIH 2624 / FGSC A1156) GN=atg
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   83.0   0.0   9.4e-25   5.3e-22       4     138 ..     903    1034 ..     900    1035 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 83.0 bits;  conditional E-value: 9.4e-25
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++++++g+++ p+++d        v++    +++++lke+  +       +
+  sp|Q0CKU4|ATG26_ASPTN  903 LTIGSRGDVQPYIALCKGLLAEGHRPKIATHAEFEPWIRKHGIDFAPVEGDpaelmricVENGM--FTYSFLKEASMK-------F 979 
+                             79**************************************************999994444444..899999999999.......8 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++      ++ ++++ ++li++++a++ +++aE++ ip+++++++p+++++++
+  sp|Q0CKU4|ATG26_ASPTN  980 RGWIDDLLS--SAWRSCQDSDLLIESPSAMAGIHIAEALRIPYFRAFTMPWTRTRAY 1034
+                             888888855..555666999*********************************9987 PP
+
+>> sp|B1ZU31|MURG_OPITP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.9   0.2     1e-24   5.6e-22       1     138 [.       4     141 ..       4     142 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 82.9 bits;  conditional E-value: 1e-24
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G++ P +Ala++Lq+rGh Vr l++++++++++  +   l++  +++  ++    + ++  + +  + ++l   + +++ 
+  sp|B1ZU31|MURG_OPITP   4 FLISCGGTGGHLSPGIALAEGLQARGHSVRlLISHKKVDARLiaKYPRLDFTRVPGT-GFSL--HPVRLARFIGTQSRGLWFCRGLVRA 89 
+                           7899**************************************9444579*******9.8877..99999999999999*********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           a+p+ vv+fgg+ ++ +++aa+++g+p+ ++E+n +pg + ++l+r+an+v+
+  sp|B1ZU31|MURG_OPITP  90 ARPAGVVAFGGFTSAGVVLAARWRGVPVALHEANRVPGRAIRVLSRFANRVY 141
+                           **************************************************98 PP
+
+>> sp|A6L071|MURG_BACV8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.9   0.0     1e-24   5.6e-22       1     136 [.       7     144 ..       7     147 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 82.9 bits;  conditional E-value: 1e-24
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pav++a++ +++ +e +   ++++ ++e +  ++ag++++ +++  ++ +k   lk+++ l++  k+   a++i+k
+  sp|A6L071|MURG_BACV8   7 IIISGGGTGGHIFPAVSIANAIKEQHPEAEilfVGAEGRMEMQRvPAAGYPIKGLPVA-GFDRKN-LLKNVSVLFKLVKSQLLARKIIK 93 
+                           6899************************************98766*************.****99.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++kp++ vg+ggy++++ l  a   gip+ + Eqn+ +g++nkll+++a +
+  sp|A6L071|MURG_BACV8  94 DFKPHAAVGVGGYASGPTLKMAGMMGIPTLIQEQNSYAGVTNKLLAKKACK 144
+                           *********************************************999866 PP
+
+>> sp|Q1QNU3|MURG_NITHX  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.7   0.2   1.2e-24   6.6e-22       1     138 [.       7     143 ..       7     144 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 82.7 bits;  conditional E-value: 1.2e-24
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE....----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp....igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++la+gGT+G+++Pa Al++eL++r+ +Vrl+t  +  +    +gl  +     ++++ +++ +   l+  ++ +    ++  a  +++
+  sp|Q1QNU3|MURG_NITHX   7 ILLAAGGTGGHLFPAEALGVELMKRDLRVRLVTDSRALRY---SGLFSKDmtdvVPSE-TVRGRS-PLALARTGLMLATGTVVALNLMR 90 
+                           79****************************9999887777...455444422225555.556655.77777777777788999999*** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + kp++v+gfggy  +++liaa+l gip++++++n+++g +n+ll+rr+n ++
+  sp|Q1QNU3|MURG_NITHX  91 RLKPAAVIGFGGYPTLPPLIAARLKGIPTVIHDANAVMGRANRLLSRRVNAIA 143
+                           **************************************************986 PP
+
+>> sp|B2V7Y8|MURG_SULSY  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.1   0.0   1.8e-24     1e-21       1     139 []       4     141 ..       4     141 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 82.1 bits;  conditional E-value: 1.8e-24
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           v ++ggGT+G+++Pa+++a+ L+++G  ++ ++t++g+e++   ++++     ++ +  ++ k   ++++  +++ l +++k+ + +k+
+  sp|B2V7Y8|MURG_SULSY   4 VFISGGGTGGHFYPALSVAENLKEKGFSITyIGTTNGIENKKdfPADEKIL--YPMR-AVRGKS-IVGKIQGVFSLLSTTFKVYKQIKK 88 
+                           5789***********************************996444444444..5555.557777.99********************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +kpd ++ fggy + ++++a+ la++p++++Eqn+ip  +nk+l+ +a++v++
+  sp|B2V7Y8|MURG_SULSY  89 EKPDFSICFGGYTSIPLGLASFLARVPLYIHEQNSIPSYSNKILSYFAKKVFI 141
+                           *************************************************9985 PP
+
+>> sp|Q3AGT7|MURG_SYNSC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.1   0.1   1.9e-24     1e-21       2     138 ..       5     138 ..       4     139 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 82.1 bits;  conditional E-value: 1.9e-24
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++a+ GT+G+++Pa+A+a+++ +    V  +++p++le+++  e  gl  v  g+    +   + lk+l++l++ l a  +++++++++
+  sp|Q3AGT7|MURG_SYNSC   5 LIAASGTGGHLFPALAVAEAVEDLW-LVSwVGVPDRLETQLvpERFGLVCVNAGGL---QG--RGLKKLLQLLRLLLASVSVRRAIRRN 87 
+                           799******************9996.8889**********9888889888666555...66..5699********************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +d+v+ +ggy+a++a++aa+++ ip++++E+n+ipg v++ll r++  v+
+  sp|Q3AGT7|MURG_SYNSC  88 AIDAVFTTGGYIAAPAILAARWCCIPVVLHESNAIPGRVTRLLGRFCSAVA 138
+                           ********************************************9998876 PP
+
+>> sp|Q5B4C9|ATG26_EMENI  Sterol 3-beta-glucosyltransferase OS=Emericella nidulans GN=atg26 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.1   0.0   1.8e-24     1e-21       4     138 ..     901    1032 ..     898    1033 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 82.1 bits;  conditional E-value: 1.8e-24
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----......S------.-HHHCCSHHHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd......vklwakleslktlkelaeglkalrkakei 83  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++v+++g+++ p+++d      +++ + ++++++lke+ ++       ++ 
+  sp|Q5B4C9|ATG26_EMENI  901 LTIGSRGDVQPYIALCKGLLAEGHKPKIATHAEFEPWVRKHGIDFAPVDGDpaelmrLCVENGMFTYSFLKEATAK-------FRG 979 
+                             79**************************************************888884444444788888888888.......999 PP
+
+                             HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + ++     ++++  ++ ++li++++a++ +++aE++ ip+++ +++p+ +++++
+  sp|Q5B4C9|ATG26_EMENI  980 WIDDLLSSAWRAC--QDSDLLIESPSAMAGIHIAEALRIPYFRGFTMPWSRTRAY 1032
+                             9999977777776..8999*******************************99987 PP
+
+>> sp|A5GW69|MURG_SYNR3  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   81.7   0.0   2.5e-24   1.4e-21       2     138 ..       5     138 ..       4     139 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 81.7 bits;  conditional E-value: 2.5e-24
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+a++  +  + Vr l++p++le+++  + ++  ++ ++ +l+   + l++lk+l + l++   ++++++++++
+  sp|A5GW69|MURG_SYNR3   5 LIAASGTGGHLFPALAVADRMPET-WSVRwLGVPDRLERQLVPSRYPLFTVRAG-GLQG--RGLRKLKQLIQLLWSAWPVTRLIRKQEC 89 
+                           799*****************9876.7***************7777777788888.7888..6699999999999999999********* PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +vv+ +ggy+a++a++aa+l++ p++++E+n+ipg v++l+ r++ +v+
+  sp|A5GW69|MURG_SYNR3  90 AVVFTTGGYIAAPAILAARLCRRPVVLHESNAIPGQVTRLFGRFCSRVA 138
+                           ********************************************99986 PP
+
+>> sp|A4YZK3|MURG_BRASO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.6   0.6   1.3e-24   7.4e-22       1     138 [.       8     144 ..       8     145 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 82.6 bits;  conditional E-value: 1.3e-24
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++la+gGT+G+++Pa Al++eL +rG++Vrl+t  +  +     +++ +++vp ++    +++   ++  ++++  + ++ +a+ ++++
+  sp|A4YZK3|MURG_BRASO   8 ILLAAGGTGGHLFPAEALGVELIKRGYRVRLVTDARALKYSglfTKDMIDVVPSETV---RSRS-PVALARTALLLGTGTLAAFNLMRR 92 
+                           79****************************999988776643346666666555544...6655.8999999999999*********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            kp++v+gfggy  +++l+aa+lag+p  ++++n++ g +n++l+ +++ ++
+  sp|A4YZK3|MURG_BRASO  93 LKPAAVIGFGGYPTVPPLLAARLAGVPSLIHDANAVLGRANRFLSAHVKAIA 144
+                           *********************************************9998875 PP
+
+>> sp|Q2RVU4|MURG_RHORT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.5   1.3   1.3e-24   7.6e-22       1     136 [.      19     153 ..      19     156 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 82.5 bits;  conditional E-value: 1.3e-24
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++la+gGT+G+v+Pa Ala eL rrGh+ +l+t ++      +   l+++ i ++ +++ ++  ++ l+   e   +  +a  +l++ +
+  sp|Q2RVU4|MURG_RHORT  19 IALAAGGTGGHVFPAEALAGELIRRGHKLTLITDKRGHVYGgTLGLLDTKRILAG-GVAGRG-VIGRLRGMIELAMGSLQAYGLLRRLR 105
+                           79****************************8887777766657777899998888.777777.77777777777777************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           pdvvvgfggy++++ ++aa++++ p++v+Eqn++pg +n+ll+ r+ +
+  sp|Q2RVU4|MURG_RHORT 106 PDVVVGFGGYASVPTMLAAIRLKLPTVVHEQNAVPGRANRLLAARVSR 153
+                           ******************************************999876 PP
+
+>> sp|Q2JW21|MURG_SYNJA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   81.3   0.1   3.1e-24   1.8e-21       2     138 ..      15     147 ..      14     148 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 81.3 bits;  conditional E-value: 3.1e-24
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ ++L +  +  + l++p +le+++  + ++ + ++    +w+    +++l +l +  +a+ ++++il++ + 
+  sp|Q2JW21|MURG_SYNJA  15 LVAASGTGGHIFPALAVVEQLPTWQI--EwLGVPQRLEAKLVPDRYPLHRVAMS--GWQG-SPWQKLGSLVQLARATLQVRQILASGQF 98 
+                           799*******************9775..55***********9999999999999..5554.59************************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           dvv+ +ggy+a++ ++aa+++g+p+ ++E+n +pg+v+++l r++  v+
+  sp|Q2JW21|MURG_SYNJA  99 DVVLTTGGYIAAPTILAARSLGVPVLLHESNCLPGKVTRWLGRFCRLVA 147
+                           ******************************************9998775 PP
+
+>> sp|A5EPK4|MURG_BRASB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.4   0.6   1.4e-24     8e-22       1     138 [.       8     144 ..       8     145 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 82.4 bits;  conditional E-value: 1.4e-24
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++la+gGT+G+++Pa Al++eL +rG++Vrl+t  +  +     +++ +++vp ++    +++   ++  ++++  + ++ +a+ ++++
+  sp|A5EPK4|MURG_BRASB   8 ILLAAGGTGGHLFPAEALGVELIKRGYRVRLVTDARALRYSglfTKDMIDVVPSETV---RSRS-PVALARTALLLGTGTLAAFNLMRR 92 
+                           79****************************999988766533346666666555555...6655.8999999999999*********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            kp++v+gfggy  +++l+aa+lag+p  ++++n++ g +n++l+ +++ ++
+  sp|A5EPK4|MURG_BRASB  93 LKPAAVIGFGGYPTVPPLLAARLAGVPSLIHDANAVLGRANRFLSAHVKAIA 144
+                           *********************************************9998875 PP
+
+>> sp|A7KAN4|ATG26_PENCW  Sterol 3-beta-glucosyltransferase OS=Penicillium chrysogenum (strain ATCC 28089 / DSM 1075 / W
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   81.3   0.0   3.1e-24   1.8e-21       4     138 ..     889    1020 ..     886    1021 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 81.3 bits;  conditional E-value: 3.1e-24
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++++++g+++ p+++d        v++    +++++l+e+  +       +
+  sp|A7KAN4|ATG26_PENCW  889 LTIGSRGDVQPYIALCKGLLAEGHKPKIATHAEFEPWIRKHGIDFAPVDGDpaelmricVENGM--FTYSFLREASLK-------F 965 
+                             79**************************************************888884444444..888888888888.......8 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++   ++ ++ g++  ++li++++a++ +++aE++ ip+++ +++p+++++++
+  sp|A7KAN4|ATG26_PENCW  966 RGWIDDL--LSSAWIGCQGSDLLIESPSAMAGIHIAEALRIPYFRGFTMPWTRTRAY 1020
+                             8888877..78889***************************************9987 PP
+
+>> sp|Q2JJR4|MURG_SYNJB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   80.8   0.1   4.7e-24   2.7e-21       2     136 ..      15     145 ..      14     148 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 80.8 bits;  conditional E-value: 4.7e-24
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+a++L +  ++++ l++p+++e ++  + ++ + +     +w+    l+ l  la+  +a+ +++++l + + 
+  sp|Q2JJR4|MURG_SYNJB  15 LVAASGTGGHIFPALAVAEQLPD--WQIEwLGVPDRMEGKLVRERYPLHRVVMS--GWQGS-PLHRLQALAQLARATLQVRRLLMSGRF 98 
+                           799******************96..55667***********8888999998888..45545.9999*********************** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           d+v+ +ggy+a++a++aa+++g+p+ ++E+n ipg+v+++l r++  
+  sp|Q2JJR4|MURG_SYNJB  99 DIVLTTGGYIAAPAILAARSLGVPVLLHESNWIPGKVTRWLGRFCQV 145
+                           *****************************************998865 PP
+
+>> sp|A2QNQ5|ATG26_ASPNC  Sterol 3-beta-glucosyltransferase OS=Aspergillus niger (strain CBS 513.88 / FGSC A1513) GN=atg
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   81.0   0.0   3.9e-24   2.2e-21       4     138 ..     902    1033 ..     899    1034 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 81.0 bits;  conditional E-value: 3.9e-24
+                             E-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHH CS
+        Glyco_transf_28    4 aggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkak 81  
+                             +++G+rGdv+P++Al ++L ++Gh+ ++at+ ++e++v+++g+++  +++d        v++    ++++++ke+ ++       +
+  sp|A2QNQ5|ATG26_ASPNC  902 LTIGSRGDVQPYIALCKGLLAEGHRPKIATHAEFEPWVRKHGIDFALVDGDpaelmricVENGM--FTYSFFKEATAK-------F 978 
+                             79**************************************************999995555555..899999999999.......9 PP
+
+                             HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+        Glyco_transf_28   82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138 
+                             + + ++     ++++  +++++li++++a++ +++aE++ ip+++++++p+ +++++
+  sp|A2QNQ5|ATG26_ASPNC  979 RGWIDDLLSSAWKAC--QDTDLLIESPSAMAGIHIAEALRIPYFRAFTMPWSRTRAY 1033
+                             999999966666665..9**********************************99987 PP
+
+>> sp|Q0AMW7|MURG_MARMM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   80.8   1.6   4.6e-24   2.6e-21       1     134 [.       6     138 ..       6     142 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 80.8 bits;  conditional E-value: 4.6e-24
+                           EEEE-------HHHHHHHHHHHHH---EEEEEET.GGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatp.pgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           +++a+gGT+G+++Pa A a++L +rG++Vrl+t  +gl++ +    +++ +i +  +  +  + lk  + ++e  +++ +a+ i+ ++k
+  sp|Q0AMW7|MURG_MARMM   6 CLIAAGGTGGHMFPARAAAEALIARGWQVRLVTDaRGLRHATDFPAVAVDEIHAASPSTK--NPLKLARAALELTQGFAQARSIVGKWK 92 
+                           689***************************776615666666777777777888844444..69999999999999************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           pdv++gfggy a +al  a++ gi+  ++Eqn++ g vn++++ +a
+  sp|Q0AMW7|MURG_MARMM  93 PDVIAGFGGYPAFPALAVARSMGIAFAIHEQNAVLGRVNRVFAAKA 138
+                           *****************************************98776 PP
+
+>> sp|Q812Y1|MURG3_BACCR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.8   0.0   9.2e-24   5.2e-21       1     135 [.       5     137 ..       5     140 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 79.8 bits;  conditional E-value: 9.2e-24
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                            ++++ggGT+G+v   + l  ++ ++G++V+ +++++g+e+ +  +++++ ++ ++ kl++++  ++++k++++  ++  ++  ++k+ 
+  sp|Q812Y1|MURG3_BACCR   5 ILFTGGGTAGHVMINIVLIPKFIEKGWRVEyIGSKNGIEKSL-VQNVKYNSVSTG-KLRRYW-DWDNFKDPFKIIRGCLQSYNLIKKT 89 
+                            79***************************************6.456777778888.89****.************************* PP
+
+                            HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+        Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            kpdv++++gg+v++++ i+a+l+++p+++ E ++  gl+nk+   +a+
+  sp|Q812Y1|MURG3_BACCR  90 KPDVIFSAGGFVSVPVAIGAWLNRVPIIIREPDSTLGLANKIALPFAT 137
+                            *****************************************9877666 PP
+
+>> sp|B4SH49|MURG_PELPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   80.2   1.5   7.1e-24     4e-21       1     138 [.       3     146 ..       3     147 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 80.2 bits;  conditional E-value: 7.1e-24
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----..S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd..vklwakleslktlkelaeglkalrkakei 83 
+                           v++aggGT+G+++Pa+A+a eL++  ++V    ++t+ g+e++  +  g+  + i+++   +++a  + ++++  +a++  al +a ++
+  sp|B4SH49|MURG_PELPB   3 VLFAGGGTGGHLYPAIAMAGELRKLVPDVVisfVGTTGGIEATEvPRLGYRLHLIPVRglKRGRALADIVANIGVIADFVAALGRAAAL 91 
+                           79***************************************9988*********999977667777799******************** PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           ++++ pdvvvg+gg+v++++l+aa l + ++ + Eqn+ pg+++kll+  a  v+
+  sp|B4SH49|MURG_PELPB  92 IAREAPDVVVGTGGFVSAPLLLAAQLMRKKTLIQEQNAFPGVTTKLLAALASEVH 146
+                           *********************************************9988777665 PP
+
+>> sp|B4S6Q9|MURG_PROA2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   80.1   0.4   7.7e-24   4.3e-21       1     138 [.       3     146 ..       3     147 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 80.1 bits;  conditional E-value: 7.7e-24
+                           EEEE-------HHHHHHHHHHHHH-..--EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCS...HHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrr..GheVr.latppgleefv.eeagleavpigpdvklwakleslktlke...laeglkalrkake 82 
+                           +++aggGT+G+++PavA+a++L +   G  V  ++t++g+e++  +  g+  + ++++ ++++ + ++++l +   l+++ +a+ ka  
+  sp|B4S6Q9|MURG_PROA2   3 ILFAGGGTGGHLYPAVAMAERLEQLypGTTVAfVGTERGIEATEiPRLGYRLHLLDVR-GFRRGFSFSDMLNNagvLLDFVRAVVKAAG 90 
+                           79*********************983455555*********9999*************.99999855544444333789999******* PP
+
+                           HHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  83 ilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           i++ ++pdvvvg+gg+v++++l aa l g ++ + Eqn+ pg+++++l+ +a+ v+
+  sp|B4S6Q9|MURG_PROA2  91 IIRAEQPDVVVGTGGFVSGPLLAAAELMGRKTLIQEQNAFPGVTTRFLAAFATEVH 146
+                           ****************************************************9997 PP
+
+>> sp|A8G2K3|MURG_PROM2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   80.0   0.0   7.8e-24   4.4e-21       2     135 ..       8     137 ..       7     141 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 80.0 bits;  conditional E-value: 7.8e-24
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ +e+ ++ ++++ l+++ +l++ +  ++++ +++ ++++ ++ ++ +  + e++     ++++ +ilke+k+
+  sp|A8G2K3|MURG_PROM2   8 LVAASGTGGHIFPALAVSKEVEDK-WNIHwLGVKQRLDSNLIPKKYNLRTLSIKTPRKN-IFLFYQYIEILMS---TFQIIRILKEKKI 91 
+                           799******************887.6999************666777777777733444.4455555555555...8************ PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           ++v+ +ggy++++ +ia+++++ip++++E+n ipg+v+k++   +n
+  sp|A8G2K3|MURG_PROM2  92 NLVFTTGGYISAPTIIASKFLRIPVIIHESNLIPGMVTKYFGFLCN 137
+                           ***************************************9976665 PP
+
+>> sp|Q89FU7|MURG_BRAJA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.6   0.2     1e-23   5.9e-21       1     137 [.       7     142 ..       7     144 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 79.6 bits;  conditional E-value: 1e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++la+gGT+G+++Pa Al++eL rrG +Vrl+t ++  +      ++ +++v+ ++  ++++ ++   + ++la+g   + +a  ++k+
+  sp|Q89FU7|MURG_BRAJA   7 ILLAAGGTGGHLFPAEALGVELIRRGFRVRLVTDERALRYSglfSKDMIDVVSSETA-RGRNPFQVAYAGLTLAAG---TLSAYSLIKR 91 
+                           79****************************999998766533357888888887777.888888777777888888...********** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            kp +vvgfggy  +++l+aa++ag+p +++++n++ g +n++l+ r+  +
+  sp|Q89FU7|MURG_BRAJA  92 LKPVAVVGFGGYPTLPPLVAAKFAGVPGIIHDANAVLGRANRFLSSRVRAI 142
+                           ***********************************************9876 PP
+
+>> sp|A0RHC3|MURG1_BACAH  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylgl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.2   0.0   1.5e-23   8.3e-21       1     130 [.       5     132 ..       5     138 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 79.2 bits;  conditional E-value: 1.5e-23
+                            EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                            ++++ggGT+G+v   + l  +++ +G+ V+ +++++g+e+    +++++ +i ++ kl++++  ++++k++++  k+  ++ +++k+ 
+  sp|A0RHC3|MURG1_BACAH   5 ILFTGGGTAGHVMINMVLIPKFMGKGWGVEyIGSQNGIEKL-LVQNVKYNSISTG-KLRRYW-DWENFKDPFKIIKGCIQSYKLMKRI 89 
+                            79***********************************9999.566788999****.******.************************* PP
+
+                            HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+        Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                            kpdv++++gg+v+++++i+a+ +++p+++ E ++  gl+nk+ 
+  sp|A0RHC3|MURG1_BACAH  90 KPDVIFSAGGFVSVPVVIGAWMNKVPVIIREPDSTLGLANKIA 132
+                            ****************************************985 PP
+
+>> sp|Q6MBS7|MURG_PARUW  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.2   0.0   1.5e-23   8.3e-21       1     135 [.       5     140 ..       5     144 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 79.2 bits;  conditional E-value: 1.5e-23
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+++Pa  la+eL ++ +    l +  gl +      +  +++++ +  +l +k   +k lk +++ l+++ ++ +i+++
+  sp|Q6MBS7|MURG_PARUW   5 FMITAGGTGGHIFPAQGLAQELIKKTYSSSiLFVAGGLSTNKyfDRSIFPFQEVSAS-PLFSKN-PFKLLKGVFNLLRGVWQSIRIIRK 91 
+                           789***********************9998855555554443367777777777777.555555.9*********************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           +kpdvvvgfg+y+ +++l+aa+ ++ip++++E+n+ipg++nk+l+  a 
+  sp|Q6MBS7|MURG_PARUW  92 FKPDVVVGFGSYYTVPPLLAAKILRIPIVLHEANSIPGKANKWLASMAW 140
+                           *******************************************987765 PP
+
+>> sp|Q0BXU2|MURG_HYPNA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.9   0.5   1.7e-23   9.7e-21       1     138 [.      10     146 ..      10     147 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 78.9 bits;  conditional E-value: 1.7e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE.----S-.-----.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp.igpdvk.lwakleslktlkelaeglkalrkakeilkea 87 
+                           v++a+gGT+G+++Pa A+a+e ++rG++  l++  +  +  +    + ++ i++  + +++    ++ +  +++ + ++ +a++++k++
+  sp|Q0BXU2|MURG_HYPNA  10 VIIAAGGTGGHMFPARAFADEMRARGWNTALISDSRGLRYAADFPADWKEeIEAASPnFRKP---WTVPGAALKINAGIARARRLMKQH 95 
+                           689***************************77666555555555555444455443305554...5566666666666*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +p++v+gfggy a +al aa+++g+p++++Eqn++ g vn+ ++++a  v+
+  sp|Q0BXU2|MURG_HYPNA  96 RPALVAGFGGYPAFPALAAARRLGVPIIIHEQNAVLGRVNRQFAKHAQLVA 146
+                           ********************************************9998875 PP
+
+>> sp|Q8KGD4|MURG_CHLTE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.3   0.3   1.3e-23   7.5e-21       1     138 [.       3     146 ..       3     147 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 79.3 bits;  conditional E-value: 1.3e-23
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCS....HHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlke....laeglkalrkak 81 
+                           v++aggGT+G+++P vA+a eL++r + +     +t+ g+e++  +  g+  v  +++ +l++ l s+++l+e    l ++ k+l  a+
+  sp|Q8KGD4|MURG_CHLTE   3 VLFAGGGTGGHLYPGVAMAAELKKRVPGISisfAGTSAGIEATEvPRLGYRLVLFPVR-GLKRGL-SIRALVEnaliLGDFAKSLSMAM 89 
+                           79***********************999997788999***99888*************.777776.55555442222778889999*** PP
+
+                           HHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  82 eilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++++++pdvvvg+ggyv++++l+aa l+g ++ + Eqn+ pg++++ll+r a+ v+
+  sp|Q8KGD4|MURG_CHLTE  90 ALVRKEQPDVVVGTGGYVSAPLLLAAQLSGKKTLIQEQNAFPGVTTRLLARMATEVH 146
+                           *****************************************************9987 PP
+
+>> sp|B3QLW4|MURG_CHLP8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.3   0.1   1.4e-23   7.7e-21       1     138 [.       3     146 ..       3     147 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 79.3 bits;  conditional E-value: 1.4e-23
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----.....S------.-HHHCCSHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd.....vklwakleslktlkelaeglkalrka 80 
+                           v++aggGT+G+++P vA+a eL++  + V+    +tp g+e++  +  g++ + ++++       l+   +  +++  l +++ +l +a
+  sp|B3QLW4|MURG_CHLP8   3 VLFAGGGTGGHLYPGVAMASELKKVVPGVEisfAGTPAGIEATEvPRLGYPLHLLPVRglkrgRSLR---DLAANVGVLKDFGSSLMQA 88 
+                           79***********************9999988889*****99988*************754443333...344555666677777**** PP
+
+                           HHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + i+++++p+vvvg+ggyv++++l+aa l+g ++ + Eqn+ pg++++ l+r a  v+
+  sp|B3QLW4|MURG_CHLP8  89 FSIIRKETPNVVVGTGGYVSAPLLLAAQLSGCKTLIQEQNAFPGVTTRMLARMASEVH 146
+                           ***************************************************9998887 PP
+
+>> sp|A6T2F8|MURG_JANMA  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.7   0.1     2e-23   1.1e-20       2     138 ..       5     141 ..       4     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 78.7 bits;  conditional E-value: 2e-23
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v+++ GT+G+++P +A+a++ ++rG++V  l+t+ g+e+++ ++ag+e+  i+   +l+ k+   +t++ +++   ++   + ilk+ +
+  sp|A6T2F8|MURG_JANMA   5 VIMAAGTGGHIFPGLAIAETMKARGWQVSwLGTSHGMERELvPKAGVEMDIIEFS-GLRGKG-LQHTITGAFKLVASFATCFSILKRRN 91 
+                           7899***************************************************.******.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p +v+g+ggyv ++ +  a+l+g+p+++ ++++  +l+nk+l+  a++vl
+  sp|A6T2F8|MURG_JANMA  92 PGIVLGMGGYVTVPGGWMAKLRGVPVVLVNADAALLLSNKTLMPVAERVL 141
+                           ******************************************99998886 PP
+
+>> sp|A5CEL6|MURG_ORITB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.5   0.0   2.4e-23   1.4e-20       1     138 [.       4     140 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 78.5 bits;  conditional E-value: 2.4e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           + l+ggGT+G+++Pa+Al++eLq+rG++V l+t  ++e+ + + +++++  i   v   +    +k+l    + l a    ++++ +++
+  sp|A5CEL6|MURG_ORITB   4 IFLVGGGTGGHLFPAIALGEELQERGYNVYLITDTRCEKYLLNFNYSFKIhIMNMVSISN--TGIKKLYAYIRILAACITGFKLVYSNS 90 
+                           679*********************************************764222245556..45777777777788899999******* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p ++v+fggy  ++++i+ +l +ip +++Eqn++ gl+n+l+ r+a+ + 
+  sp|A5CEL6|MURG_ORITB  91 PSLIVAFGGYTIAPIIINGILFRIPFILHEQNSVLGLANRLFLRYAKAIT 140
+                           **********************************************9875 PP
+
+>> sp|Q8D2Z6|MURG_WIGBR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.6   0.0   2.2e-23   1.2e-20       1     133 [.       8     140 ..       8     146 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 78.6 bits;  conditional E-value: 2.2e-23
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++++ggG++G+v+  +++a++L + G e+  +++++++e+ + +++++++++i++  +++ +   + +l +l +   ++ k+k+++k +
+  sp|Q8D2Z6|MURG_WIGBR   8 IIITGGGSGGHVFVGLSIAEQLIKIGCEILwIGSSDRIESYLiPKSNIKIYKINVI-GFNGNN-IFLKLISLIKTAYSILKIKKLIKYY 94 
+                           689****************************************************9.999988.999999999999************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           kpd+v+++ggyv+ +  ia++ +++p++++Eqn++pgl+n +l + 
+  sp|Q8D2Z6|MURG_WIGBR  95 KPDIVLSIGGYVSFPGAIATWISKVPLIIHEQNSVPGLSNYILYKL 140
+                           ****************************************988765 PP
+
+>> sp|B0UFC7|MURG_METS4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.7   1.0   4.2e-23   2.4e-20       1     134 [.       8     140 ..       8     145 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 77.7 bits;  conditional E-value: 4.2e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v+la+gGT+G+++Pa Ala +L++rG++V la+  ++e+        e+v+i++ ++  +    l+    ++  ++++ +a +++++ +
+  sp|B0UFC7|MURG_METS4   8 VLLAAGGTGGHLFPAEALALRLRDRGIRVVLASDGRVEALSgGFPASEIVSIPSATPSGR--SPLARGAAFLTLGRGFAAAIRAVRRLN 94 
+                           79***********************************99976555556666777755555..445555555555566************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                           p+vvvgfggy  +++l+aa  +++p+ ++Eqn+++g +n +l+r a
+  sp|B0UFC7|MURG_METS4  95 PAVVVGFGGYPTVPPLLAAQMLRVPTLLHEQNAVMGRANGFLARGA 140
+                           ***************************************9998765 PP
+
+>> sp|Q163J0|MURG_ROSDO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.8   0.5   3.9e-23   2.2e-20       2     137 ..       2     137 ..       1     139 [. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 77.8 bits;  conditional E-value: 3.9e-23
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Ala++  +rG++V+l t  + ++ +    +  ++++i +  ++++ +   ++++ +++ + ++ +a  ++++++
+  sp|Q163J0|MURG_ROSDO   2 LIAAGGTGGHMFPAQALAEAMLNRGWRVKLTTDARGARYTggFPHSTQIEEISSA-TFARGG-IAAKIVAPFKIGAGVLRALLSFRRDR 88 
+                           79*********************************9999977778889999****.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p+vvvgfggy   +al aa l + p+ ++Eqng+ g vn +++ r++ +
+  sp|Q163J0|MURG_ROSDO  89 PAVVVGFGGYPTIPALAAAFLMKLPRMIHEQNGVLGRVNTAFASRVDAI 137
+                           *********************************************9987 PP
+
+>> sp|A4G8T8|MURG_HERAR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.0   0.1   6.9e-23   3.9e-20       2     138 ..       5     141 ..       4     142 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 77.0 bits;  conditional E-value: 6.9e-23
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++ GT+G+++P +A+a++ q+rG+eV+ l+t+ g+e+ + +++g+++ +i    +l+ k+   +t++ +++ l ++   + il++ k
+  sp|A4G8T8|MURG_HERAR   5 LIMAAGTGGHIFPGLAIADTMQARGWEVTwLGTEHGMERDLvPKSGIAMDTISFA-GLRGKG-LRHTVTGVLRLLASFGTCFSILARRK 91 
+                           68999***********************************99*************.******.9************************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p vv+g+ggyv ++ +  a+l+g+p+++ ++++  +l+nk+l   a +vl
+  sp|A4G8T8|MURG_HERAR  92 PGVVLGMGGYVTVPGGWMAKLRGVPLVLLNADAALLLSNKALTPIAQRVL 141
+                           ****************************************9999888876 PP
+
+>> sp|Q28NN5|MURG_JANSC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.6   1.1   4.4e-23   2.5e-20       2     137 ..       7     142 ..       6     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 77.6 bits;  conditional E-value: 4.4e-23
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Al ++  r+G++V+l t  + ++ v   ++ +e++++ +  ++ + +  l++l  +++ + ++  a++ + ++k
+  sp|Q28NN5|MURG_JANSC   7 IIAAGGTGGHMFPAQALSEAMLRKGWRVTLSTDARGARYVggFSHAVEIREVSSA-TFTRGG-ALAKLAVPFRIFGGVLTATARMLREK 93 
+                           689*************************************999************.****99.************************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pdvvvgfggy   +a+ aa+l g p+ ++Eqng+ g vn+++++++  v
+  sp|Q28NN5|MURG_JANSC  94 PDVVVGFGGYPTIPAMAAARLTGRPRMLHEQNGVLGRVNRVFAKHVAHV 142
+                           *******************************************998766 PP
+
+>> sp|Q31CY4|MURG_PROM9  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.6   0.0   4.3e-23   2.4e-20       2     135 ..       8     137 ..       7     141 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 77.6 bits;  conditional E-value: 4.3e-23
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ +e+ + +++++ l++  +l++    ++++ ++++++++ +++++ +  + e++     ++++ +ilke+k+
+  sp|Q31CY4|MURG_PROM9   8 LVAASGTGGHIFPALAVSKEVED-EWNIHwLGVRQRLDANFIPKKYNLRTLNIKTP-RKNIFLFYQYIEILIS---TFQIIRILKEKKI 91 
+                           799*****************976.57***********9988777777777777733.4434466666666666...9************ PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           ++v+ +ggy++++ ++a++l++ip++++E+n ipg+v+k++   +n
+  sp|Q31CY4|MURG_PROM9  92 NLVFTTGGYISAPTIVASKLLRIPIIIHESNVIPGMVTKYFGFLCN 137
+                           ***************************************9976665 PP
+
+>> sp|B1ZGP4|MURG_METPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.3   1.4   5.6e-23   3.2e-20       1     133 [.       8     139 ..       8     145 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 77.3 bits;  conditional E-value: 5.6e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           v++ +gGT+G+++Pa +la +L++rG++V lat  ++++        e+v+i++ ++  +   +l+    ++  ++++ +a +++++ +
+  sp|B1ZGP4|MURG_METPB   8 VLVCAGGTGGHLFPAQSLAYALKARGIRVALATDARVDSIAgDFPAEEIVTIASATPSGR--SMLRRAGAVLTLGRGFGQAARAVRRLN 94 
+                           6899*********************************99887666667777888766677..688888888888888************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           p++vvgfggy  +++++aa l+++p++++Eqn+++g +n +l++ 
+  sp|B1ZGP4|MURG_METPB  95 PAAVVGFGGYPTVPPMLAAQLLRVPTILHEQNAVMGRANGFLAKG 139
+                           ***************************************998875 PP
+
+>> sp|Q5LU63|MURG_SILPO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.3   0.6   2.7e-23   1.5e-20       2     137 ..       7     142 ..       6     144 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 78.3 bits;  conditional E-value: 2.7e-23
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Ala++  r+G++Vrl t  + ++ +    +  e+ ++ +  ++++ +  l++ + + +   ++ ++   +++++
+  sp|Q5LU63|MURG_SILPO   7 MIAAGGTGGHMFPAQALAEAMLRKGWRVRLSTDARGARYTggFPHTTEISQVSSA-TFARGG-ILAKAMVAPRIAAGIAATAWEMRRDR 93 
+                           689**********************************999443444444458888.999999.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pdvvvgfggy + +al+aa+l++ p+ ++Eqng+ g vn+l++rr+  v
+  sp|Q5LU63|MURG_SILPO  94 PDVVVGFGGYPSIPALGAATLLRLPRMIHEQNGVLGRVNQLFARRVACV 142
+                           *********************************************9877 PP
+
+>> sp|B3CRE9|MURG_ORITI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.5   0.0   4.8e-23   2.7e-20       1     138 [.       4     140 ..       4     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 77.5 bits;  conditional E-value: 4.8e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           + l+ggGT+G+++Pa+Al++eLq+rG++V l+t  ++e+ + +++++++  i   v   +    +k+l    + l a    ++++ +++
+  sp|B3CRE9|MURG_ORITI   4 IFLVGGGTGGHLFPAIALGEELQERGYNVYLITDTRCEKYLLNSNYSFKIhIMNMVSISN--TGIKKLYAYIRILAACITGFKLVYSNS 90 
+                           679*********************************************664222235556..45777777777888899999******* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p ++v fggy  ++++i+ +l +ip +++Eqn++ gl+n+l+ r+a+ + 
+  sp|B3CRE9|MURG_ORITI  91 PGLIVTFGGYTIAPIIINGILFKIPFILHEQNSVLGLANRLFLRYAKAIT 140
+                           **********************************************9875 PP
+
+>> sp|Q1GIV1|MURG_SILST  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   77.7   0.6   4.2e-23   2.4e-20       2     137 ..       7     142 ..       6     144 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 77.7 bits;  conditional E-value: 4.2e-23
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Ala++  r+G++V+l t p+ ++ +    +  e+ ++ +  ++++ +  l++ + + +   ++ ++ + +++++
+  sp|Q1GIV1|MURG_SILST   7 LMAAGGTGGHMFPAQALAEAMLRKGWRVKLSTDPRGARYTggFPHMTEITEVSSA-TFARGG-LLAKAMVAPRIAAGVASMAMQMRRDR 93 
+                           79*************************************9644455566668888.999999.7777777778889************* PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           pdvv+gfggy + +al+aa+l+g p+ ++Eqng+ g+vn+ ++ r+  v
+  sp|Q1GIV1|MURG_SILST  94 PDVVIGFGGYPSIPALGAATLLGLPRMIHEQNGVLGKVNQKFATRVAEV 142
+                           ****************************************999988766 PP
+
+>> sp|Q1GZ01|MURG_METFK  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   76.6   0.3   9.1e-23   5.1e-20       2     138 ..       6     142 ..       5     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 76.6 bits;  conditional E-value: 9.1e-23
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++ GT+G+v P +A+a++ q rG++V+ l+t+ g+e+++ + +gl++  ++   + + k+   +tl+  ++   a+ +a ++++e +
+  sp|Q1GZ01|MURG_METFK   6 LIMAAGTGGHVMPGLAIAKTMQSRGWNVHwLGTTHGMENRLvPPSGLPMTLLKFS-GMRGKG-WKHTLLGMFRLVGATWRAWRLMRELQ 92 
+                           68999*************************************************9.888888.888888888888888999999***** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           p++v+g+ggyv ++ + aa+lag+p+ + ++++  +++n++l ++a++vl
+  sp|Q1GZ01|MURG_METFK  93 PQAVLGMGGYVTVPGGWAARLAGVPLAIVNADAALLMSNRALVKHAKRVL 142
+                           ***********************************************997 PP
+
+>> sp|B3ET95|MURG_AMOA5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   76.0   0.0   1.4e-22   7.8e-20       1     137 [.       3     143 ..       3     145 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 76.0 bits;  conditional E-value: 1.4e-22
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------..-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakle.slktlkelaeglkalrkakeil 84 
+                           v+++ggGT+G+v+P +A+a+ L+++  e     +++  ++e    ++ag+++v ++++ + ++kl+  +k+l  +  +l +l k+k+i+
+  sp|B3ET95|MURG_AMOA5   3 VIISGGGTGGHVYPGIAIADVLKQKNAENQilfVGAGGKMEMSQvPAAGYPIVGLPIR-GINRKLKyIWKNLALPIWVLISLWKVKRII 90 
+                           6899********************9999888899******86555*************.7777663278999999999999******** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           k++kp+vv+g+ggy+  + ++ a++ +ip+++ Eqn+ +g++n+ll+++a ++
+  sp|B3ET95|MURG_AMOA5  91 KDFKPNVVIGTGGYAGFPTIYMAARMHIPIVLQEQNAYAGVANRLLAKYAHKI 143
+                           *************************************************9987 PP
+
+>> sp|Q8A258|MURG_BACTN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.4   0.0   2.2e-22   1.2e-19       1     137 [.       7     145 ..       7     147 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 75.4 bits;  conditional E-value: 2.2e-22
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G+++Pav++a++  +  ++ +   ++++ ++e +  + ag+++  +++  ++ +k   +k+++ l +  ++  ka+ i+k
+  sp|Q8A258|MURG_BACTN   7 IIISGGGTGGHIFPAVSIANAIIELRPDAKilfVGAEGRMEMQRvPDAGYKIIGLPIA-GFDRKH-LWKNVSVLIKLARSQWKARSIIK 93 
+                           6899************************************98766*************.****98.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++p+v vg+ggy++++ l  a   g+p+ + Eqn+ +g++nkll+++a+ +
+  sp|Q8A258|MURG_BACTN  94 NFRPQVAVGVGGYASGPTLKTAGMMGVPTLIQEQNSYAGVTNKLLAQKAKAI 145
+                           ***********************************************99976 PP
+
+>> sp|Q211T8|MURG_RHOPB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   76.5   0.3   9.7e-23   5.5e-20       1     138 [.       8     144 ..       8     145 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 76.5 bits;  conditional E-value: 9.7e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE....----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp....igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++la+gGT+G+++Pa Al+++L++rG +Vrl+t  +  +    +gl  +     ++++ +l+ +   ++  +++++ + ++  a  ++ 
+  sp|Q211T8|MURG_RHOPB   8 IMLAAGGTGGHLFPAEALGVALMKRGLRVRLVTDMRALRY---SGLFSRDmvdvVPSE-TLRGRS-PVALARTALKLGTGTLMALSLML 91 
+                           68*******************************9887777...455444443357777.888877.9999******************* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + kp++v+gfggy  +++l+aa+  gip+ v+++n+++g +n++l+ +++ ++
+  sp|Q211T8|MURG_RHOPB  92 RLKPAAVIGFGGYPTLPPLLAARMFGIPTLVHDSNAVMGRANRFLSHKVTAIA 144
+                           ***********************************************999875 PP
+
+>> sp|Q2IYK8|MURG_RHOP2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   76.5   0.5   9.8e-23   5.5e-20       1     137 [.       7     142 ..       7     144 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 76.5 bits;  conditional E-value: 9.8e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++la+gGT+G+++Pa Al++ L++rG +Vrl+t  + ++      ++ +++vp ++    + +   ++  ++ +  + ++ ka +++ +
+  sp|Q2IYK8|MURG_RHOP2   7 ILLAAGGTGGHLFPAEALGVVLMKRGLRVRLVTDSRAMRYSglfSADMIDVVPSETV---RGRT-PWALARTGLMLGAGTAKALALMLR 91 
+                           79****************************999998887743345666666665555...4444.777777778888889********* PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            kp++vvgfggy  +++l+aa++++ip+ ++++n+++g +n+ll++ ++ +
+  sp|Q2IYK8|MURG_RHOP2  92 LKPAAVVGFGGYPTLPPLFAARALRIPTLIHDSNAVMGRANRLLSKGVTAI 142
+                           *********************************************988876 PP
+
+>> sp|B1LXZ4|MURG_METRJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   76.9   0.9   7.2e-23   4.1e-20       1     137 [.       8     143 ..       8     145 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 76.9 bits;  conditional E-value: 7.2e-23
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++l +gGT+G+++Pa +la++L++rG++V lat  ++++   e    e+v+i++ ++  +    lk    ++  ++++  a + +++ +
+  sp|B1LXZ4|MURG_METRJ   8 ILLCAGGTGGHLFPAESLAHALRARGIRVALATDARVDSIAsEFPASEVVTIASATPSGR--SPLKRAGAVLTLGRGFGVAAKEIRRIN 94 
+                           7899***********************************998888899999999977777..578888888888888************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p+++vgfggy  +++++a   +++p++++Eqn+++g +n +l+r a ++
+  sp|B1LXZ4|MURG_METRJ  95 PAAIVGFGGYPTVPPVLAGQILRVPTILHEQNAVMGRANAFLARGARTI 143
+                           ******************************************9988766 PP
+
+>> sp|A2BNZ2|MURG_PROMS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   76.0   0.0   1.4e-22   7.8e-20       2     135 ..       8     137 ..       7     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 76.0 bits;  conditional E-value: 1.4e-22
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ +e+ + +++++ l+++ +l++ +  ++++ ++++++++ ++ + +++ +k l +     +++ +ilke+k+
+  sp|A2BNZ2|MURG_PROMS   8 LVAASGTGGHIFPALAVSKEVED-EWNIHwLGIQQRLDANLIPQKYNLKTLNLKTPRKNIFLFYQYIKILMST----FQIIRILKEKKI 91 
+                           799*****************976.57***************88888888899886677766667777766666....************ PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           ++v+ +ggy++++ ++a++ ++ip++++E+n +pg+v+k++   +n
+  sp|A2BNZ2|MURG_PROMS  92 NLVFTTGGYISAPTIVASKILKIPIIIHESNVVPGMVTKYFGFLCN 137
+                           ***************************************9976665 PP
+
+>> sp|C0R2W7|MURG_WOLWR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.7   0.0   1.8e-22   9.9e-20       1     137 [.       3     130 ..       3     132 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 75.7 bits;  conditional E-value: 1.8e-22
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++la+gGT+G+++Pa+Ala++L+++G++ +l t ++  + +  e++ l+ +   ++ k++   + +  +++ ++         + +++ 
+  sp|C0R2W7|MURG_WOLWR   3 IILATGGTGGHIFPAIALAKALKTQGYNCILFTDKKTNKNTdiESYTLPLRRPSSN-KFKF--FLFLIYSSMLAL--------YQVRKL 80 
+                           78*******************************99988886556666666666655.4444..444444444444........788999 PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp+ v+gfg+y++ + l+aa+ + ip++++Eqn + g vn+++ + a+ +
+  sp|C0R2W7|MURG_WOLWR  81 KPKSVIGFGSYASFPTLLAARVLSIPIILHEQNTVLGRVNRFFFKSAKLI 130
+                           ******************************************99988876 PP
+
+>> sp|Q73I55|MURG_WOLPM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.7   0.0   1.8e-22   9.9e-20       1     137 [.       3     130 ..       3     132 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 75.7 bits;  conditional E-value: 1.8e-22
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           ++la+gGT+G+++Pa+Ala++L+++G++ +l t ++  + +  e++ l+ +   ++ k++   + +  +++ ++         + +++ 
+  sp|Q73I55|MURG_WOLPM   3 IILATGGTGGHIFPAIALAKALKTQGYNCILFTDKKTNKNTdiESYTLPLRRPSSN-KFKF--FLFLIYSSMLAL--------YQVRKL 80 
+                           78*******************************99988886556666666666655.4444..444444444444........788999 PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           kp+ v+gfg+y++ + l+aa+ + ip++++Eqn + g vn+++ + a+ +
+  sp|Q73I55|MURG_WOLPM  81 KPKSVIGFGSYASFPTLLAARVLSIPIILHEQNTVLGRVNRFFFKSAKLI 130
+                           ******************************************99988876 PP
+
+>> sp|A9VWV3|MURG_METEP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.2   1.3   2.5e-22   1.4e-19       1     133 [.       8     139 ..       8     145 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 75.2 bits;  conditional E-value: 2.5e-22
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S-.-----.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvk.lwakleslktlkelaeglkalrkakeilkea 87 
+                           v++ +gGT+G+++Pa +la +L++rG++V lat  ++++        e+v+i++ ++ +++ l+  +++++l +g   + +a +++++ 
+  sp|A9VWV3|MURG_METEP   8 VLVCAGGTGGHLFPAQSLAYALKDRGIRVALATDARVDSIAgDFPAEEIVTIASATPsGRSVLRRAGAVVTLGRG---FGQAARAVRRL 93 
+                           6899********************************998776544555555665544044445555555555555...*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           +p++vvgfggy  +++++aa l+++p++++Eqn+++g +n +l++ 
+  sp|A9VWV3|MURG_METEP  94 NPAAVVGFGGYPTVPPMLAAQLLRVPTILHEQNAVMGRANGFLAKG 139
+                           ****************************************998875 PP
+
+>> sp|B7KSC1|MURG_METC4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.2   1.3   2.5e-22   1.4e-19       1     133 [.       8     139 ..       8     145 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 75.2 bits;  conditional E-value: 2.5e-22
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S-.-----.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvk.lwakleslktlkelaeglkalrkakeilkea 87 
+                           v++ +gGT+G+++Pa +la +L++rG++V lat  ++++        e+v+i++ ++ +++ l+  +++++l +g   + +a +++++ 
+  sp|B7KSC1|MURG_METC4   8 VLVCAGGTGGHLFPAQSLAYALKDRGIRVALATDARVDSIAgDFPAEEIVTIASATPsGRSVLRRAGAVVTLGRG---FGQAARAVRRL 93 
+                           6899********************************998776544555555665544044445555555555555...*********** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           +p++vvgfggy  +++++aa l+++p++++Eqn+++g +n +l++ 
+  sp|B7KSC1|MURG_METC4  94 NPAAVVGFGGYPTVPPMLAAQLLRVPTILHEQNAVMGRANGFLAKG 139
+                           ****************************************998875 PP
+
+>> sp|A2C027|MURG_PROM1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.7   0.0   1.7e-22   9.5e-20       2     138 ..       5     138 ..       4     139 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 75.7 bits;  conditional E-value: 1.7e-22
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+++a+ L +    V l++p++le ++  ++++  +++++ +l+   + +++l +l + l a  ++  +l+++k++
+  sp|A2C027|MURG_PROM1   5 LIAASGTGGHIYPALSFADSLSNSWEIVWLGVPNRLEVELVPEKYNLIKLKVG-GLQG--NIFRKLFDLCKLLFASVQVSVLLRQKKIN 90 
+                           799********************998888********9998888899999999.9999..89*************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           v++ +ggy++++ +++a+ agip+ ++E+n+ipg+v++ll r+++ v+
+  sp|A2C027|MURG_PROM1  91 VIFTTGGYISAPCILGAKMAGIPVLLHESNAIPGKVTRLLGRFCDHVA 138
+                           *******************************************99886 PP
+
+>> sp|A3PHS8|MURG_RHOS1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   73.9   0.7   6.3e-22   3.6e-19       2     137 ..       7     142 ..       6     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 73.9 bits;  conditional E-value: 6.3e-22
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Ala++  rrG++V+l t  + ++      + +e++++ +  ++++ +  l++ + +++   ++ +a + + +++
+  sp|A3PHS8|MURG_RHOS1   7 LIAAGGTGGHMFPAQALAEAMVRRGWRVKLSTDARGARYAggFPHVVEIEEVSSA-TFARGG-PLAKALVPLRIAGGVASAVAGFLRDR 93 
+                           79********************************99999977778899999***9.****99.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p vvvgfggy + +al aa +++ p+ ++Eqng+ g vn+l++ r+  v
+  sp|A3PHS8|MURG_RHOS1  94 PSVVVGFGGYPSIPALSAAVALRLPRMIHEQNGVLGRVNRLFAPRVQAV 142
+                           ******************************************9999876 PP
+
+>> sp|A4SH02|MURG_PROVI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.2   1.2   4.9e-22   2.8e-19       1     138 [.       3     146 ..       3     147 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 74.2 bits;  conditional E-value: 4.9e-22
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----..S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd..vklwakleslktlkelaeglkalrkakei 83 
+                           +++aggGT+G+++PavA+a+e+qr  +       +t++g+e++  +  g+  + ++++   ++++  ++ +++  +a++  al +a ++
+  sp|A4SH02|MURG_PROVI   3 ILFAGGGTGGHLYPAVAMAEEVQRMVPGASvlfAGTSRGIEAREvPRLGYRLHLLEVRglRRGRSLKDMAANIGIAADFAAALASAVAL 91 
+                           79**********************86655554789******9999*******999999664445555789999999************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++++pdvvvg+gg+v++++l+aa l+g ++ + Eqn+ pg++++ll+  a+ v+
+  sp|A4SH02|MURG_PROVI  92 VRRERPDVVVGTGGFVSAPVLFAAQLLGKKTLIQEQNAFPGVTTRLLSALATEVH 146
+                           ************************************************9999887 PP
+
+>> sp|Q3J4M2|MURG_RHOS4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   73.9   0.7   6.3e-22   3.6e-19       2     137 ..       7     142 ..       6     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 73.9 bits;  conditional E-value: 6.3e-22
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Ala++  rrG++V+l t  + ++      + +e++++ +  ++++ +  l++ + +++   ++ +a + + +++
+  sp|Q3J4M2|MURG_RHOS4   7 LIAAGGTGGHMFPAQALAEAMVRRGWRVKLSTDARGARYAggFPHVVEIEEVSSA-TFARGG-PLAKALVPLRIAGGVASAVAGFLRDR 93 
+                           79********************************99999977778899999***9.****99.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p vvvgfggy + +al aa +++ p+ ++Eqng+ g vn+l++ r+  v
+  sp|Q3J4M2|MURG_RHOS4  94 PSVVVGFGGYPSIPALSAAVALRLPRMIHEQNGVLGRVNRLFAPRVQAV 142
+                           ******************************************9999876 PP
+
+>> sp|Q7V388|MURG_PROMP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.9   0.0     3e-22   1.7e-19       2     130 ..       9     133 ..       8     141 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 74.9 bits;  conditional E-value: 3e-22
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ +++ + +++++ l+++++l+++   ++++  +++++++ ++ ++ ++ lk l++     + + +ilke+k+
+  sp|Q7V388|MURG_PROMP   9 LIAASGTGGHIFPALAVSKKVEK-DWDIHwLGVTKRLDSEFVPSKYNLLTLNLETPKKNIFRVFQYLKILFSI----FNIIKILKEKKI 92 
+                           799*****************975.78************99977778888888886666666777777777777....999********* PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           ++v+ +ggy++++ ++aa++++ip++++E+n ipg v+k++
+  sp|Q7V388|MURG_PROMP  93 NLVFTTGGYISAPTILAAKWLKIPVILHESNLIPGTVTKYF 133
+                           **************************************998 PP
+
+>> sp|A3PAR5|MURG_PROM0  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.9   0.0     3e-22   1.7e-19       2     130 ..       8     132 ..       7     141 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 74.9 bits;  conditional E-value: 3e-22
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ +e+ ++ ++++ l+++++l++    ++++ ++++++++ ++    +  + + ++ l +++++  ilke+k+
+  sp|A3PAR5|MURG_PROM0   8 LVAASGTGGHIFPALAVTKEVEDK-WNIHwLGVHKRLDANFIPKKYNLRTLNIKTPRKN----IFLFYQYFRILMSTFQVIWILKEEKI 91 
+                           799******************887.6999********9988777777777777733444....444555555555569*********** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           ++v+ +ggy++++ +ia++l++ip++++E+n ipg+v+k +
+  sp|A3PAR5|MURG_PROM0  92 NLVFTTGGYISAPTIIASKLLRIPVIIHESNLIPGMVTKNF 132
+                           *************************************9876 PP
+
+>> sp|Q07PT3|MURG_RHOP5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   75.6   0.6   1.8e-22     1e-19       1     138 [.       7     143 ..       7     144 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 75.6 bits;  conditional E-value: 1.8e-22
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE....----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp....igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++la+gGT+G+++Pa Al++ L++rG +Vrl+t  +  +    +gl  ++    ++++ +++ +   ++  ++ a  + ++ ka +++ 
+  sp|Q07PT3|MURG_RHOP5   7 ILLAAGGTGGHLFPAEALGVVLMQRGLRVRLVTDSRALRY---SGLFSREmtdvVPSE-TVRGRS-PVALARTGAMLGAGTLKALTLMW 90 
+                           79****************************9999988777...677666633346666.777766.89999999999999********* PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + kp++v+gfggy  +++liaa+l +ip+ v+++n+++g +n++l+ +++ ++
+  sp|Q07PT3|MURG_RHOP5  91 RLKPAAVIGFGGYPTLPPLIAARLMKIPTLVHDSNAVMGRANRFLSAHVTAIA 143
+                           **********************************************9999875 PP
+
+>> sp|Q133X1|MURG_RHOPS  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.1   0.6   5.3e-22     3e-19       1     137 [.       7     142 ..       7     144 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 74.1 bits;  conditional E-value: 5.3e-22
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv...eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           ++la+gGT+G+++Pa Al++ L++rG +Vrl+t  + ++      ++ +++vp ++  +++     ++  ++    + ++  a  ++ +
+  sp|Q133X1|MURG_RHOPS   7 ILLAAGGTGGHLFPAEALGVVLMKRGLRVRLVTDSRAMRYSglfSADMIDVVPSETV-RGRT---PWALARTGVMLGAGTALAIGLMMR 91 
+                           79****************************999988887643356666666665555.3333...55666666666666888999**** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                            +p++v+gfggy  +++l+aa++++ip+ ++++n+++g +n+ll+rr+  +
+  sp|Q133X1|MURG_RHOPS  92 LRPAAVIGFGGYPTLPPLFAARALRIPTLIHDANAVMGRANRLLSRRVSAI 142
+                           ***********************************************9876 PP
+
+>> sp|Q5LIJ7|MURG_BACFN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.4   0.1   4.4e-22   2.5e-19       1     137 [.      16     154 ..      16     156 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 74.4 bits;  conditional E-value: 4.4e-22
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+++Pav++a++ ++  ++     ++++ ++e +  + ag+++  +++  ++ +k   +k++  l++  ++  ka+ i++
+  sp|Q5LIJ7|MURG_BACFN  16 VIISGGGTGGHIFPAVSIANAIKELRPDAQilfVGAEGRMEMQRvPDAGYQIIGLPVA-GFDRKH-LWKNVAVLLKLVRSQWKARNIIR 102
+                           6899**************************99********98766*************.****98.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++p+v vg+ggy++++ l  a   g+p+ + Eqn+ +g++nkll+++a ++
+  sp|Q5LIJ7|MURG_BACFN 103 QFRPQVAVGVGGYASGPTLKMAGMMGVPTLIQEQNSYAGVTNKLLAQKARRI 154
+                           ***********************************************99987 PP
+
+>> sp|Q64ZM1|MURG_BACFR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.4   0.1   4.4e-22   2.5e-19       1     137 [.      16     154 ..      16     156 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 74.4 bits;  conditional E-value: 4.4e-22
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ggGT+G+++Pav++a++ ++  ++     ++++ ++e +  + ag+++  +++  ++ +k   +k++  l++  ++  ka+ i++
+  sp|Q64ZM1|MURG_BACFR  16 VIISGGGTGGHIFPAVSIANAIKELRPDAQilfVGAEGRMEMQRvPDAGYQIIGLPVA-GFDRKH-LWKNVAVLLKLVRSQWKARNIIR 102
+                           6899**************************99********98766*************.****98.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +++p+v vg+ggy++++ l  a   g+p+ + Eqn+ +g++nkll+++a ++
+  sp|Q64ZM1|MURG_BACFR 103 QFRPQVAVGVGGYASGPTLKMAGMMGVPTLIQEQNSYAGVTNKLLAQKARRI 154
+                           ***********************************************99987 PP
+
+>> sp|A6LLF1|MURG_THEM4  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.4   0.0   4.4e-22   2.5e-19       1     139 []       4     144 ..       4     144 .. 0.97
+
+  Alignments for each domain:
+  == domain 1    score: 74.4 bits;  conditional E-value: 4.4e-22
+                           EEEE-------HHHHHHHHHHHHH--.-EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrG.heVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++agg T+G+++Pa+A  +eLq+   ++V  + ++ +lee+v + ++ ++v+++++ +l + l s++++k++++ l+a + +k++lk+
+  sp|A6LLF1|MURG_THEM4   4 IAVAGGVTGGHLYPALATLNELQKITpIDVLyFTVKGKLEEKVlKDYNFKTVSLDVK-GLIRPLYSFGNIKRILKILNAKNIVKKALKD 91 
+                           789*********************7626999**************************.******************************* PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvlv 139
+                           +kpd+ + +ggyv+ ++++ a+ +g  ++++Eqn ipgl+n  l++ a++v+v
+  sp|A6LLF1|MURG_THEM4  92 FKPDIAFVTGGYVSYPVGVTAKQLGFLLYIHEQNVIPGLTNLKLSKIADKVFV 144
+                           *************************************************9985 PP
+
+>> sp|Q46HH6|MURG_PROMT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   74.4   0.0   4.2e-22   2.4e-19       2     138 ..       5     138 ..       4     139 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 74.4 bits;  conditional E-value: 4.2e-22
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+++a+ L +    V l++p +le ++  ++++  +++++ +l+   +s+++l +l + l a  ++  +l+++k++
+  sp|Q46HH6|MURG_PROMT   5 LIAASGTGGHIYPALSFADSLSNSWEIVWLGVPHRLEVELVPEKYNLIKLKVG-GLQG--NSFRKLFNLCKLLFASVQVSVLLRQKKIN 90 
+                           799********************998888********9998888888999999.9999..99*************************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           v++ +ggy++++ +++a+ agip+ ++E+n+ipg+v++ll r+++ v+
+  sp|Q46HH6|MURG_PROMT  91 VIFTTGGYISAPSILGAKMAGIPVLLHESNAIPGKVTRLLGRFCDHVA 138
+                           *******************************************99886 PP
+
+>> sp|A4WQD5|MURG_RHOS5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   72.8   1.1   1.4e-21   7.8e-19       2     137 ..       7     142 ..       6     144 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 72.8 bits;  conditional E-value: 1.4e-21
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++a+gGT+G+++Pa Ala++  rrG++V+l t  + ++      + +e+ ++ ++ ++++ +  l+  + +a+   ++ +a   + +++
+  sp|A4WQD5|MURG_RHOS5   7 LIAAGGTGGHMFPAQALAEAMVRRGWRVKLSTDARGARYAggFPHVVEIDQVSSG-TFARGG-ALARALVPARIAAGVASAVVGFLRDR 93 
+                           79********************************99999877677889999****.999999.999999999999************** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           p+vvvgfggy + +al aa +++ p+ ++Eqng+ g vn+l++ r++ v
+  sp|A4WQD5|MURG_RHOS5  94 PAVVVGFGGYPSIPALSAAVALRLPRMIHEQNGVLGRVNRLFAPRVDAV 142
+                           *********************************************9987 PP
+
+>> sp|A2BUH4|MURG_PROM5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   73.1   0.0   1.1e-21     6e-19       2     130 ..       9     133 ..       8     142 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 73.1 bits;  conditional E-value: 1.1e-21
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++a+ GT+G+++Pa+A+ +e+ ++  +++ l+++++l+++   ++++  +++++   ++  +s+  l + ++ l +++ + +ilke+k+
+  sp|A2BUH4|MURG_PROM5   9 LIAASGTGGHIFPALAVSKEVEKYW-NMHwLGVEKRLDSKFVPRKYNLLTLNLE--TPQ--KSIFILFQYLKILYSTFNIIKILKEKKI 92 
+                           799*******************995.9***********9997777777777777..556..5677888888888889************ PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkll 130
+                           ++v+ +gg+++++ ++aa+l++ip++++E+n ipg v+k++
+  sp|A2BUH4|MURG_PROM5  93 NLVFTTGGFISAPTILAAKLLNIPVIIHESNLIPGTVTKYF 133
+                           **************************************998 PP
+
+>> sp|Q5GS79|MURG_WOLTR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   71.8   0.0   2.7e-21   1.5e-18       1     135 [.       3     128 ..       3     132 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 71.8 bits;  conditional E-value: 2.7e-21
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +vla+gGT+G+++Pa+ lar+ +r+G++ +l + ++  + +  + + l+  + g++ k++   + l  ++           a + +++ 
+  sp|Q5GS79|MURG_WOLTR   3 IVLATGGTGGHIFPAITLARAIKRQGYDSILFADKKTGKNTdvKDYTLPLNKPGGN-KFRF--FLLLIYS--------CVLALYQIRKL 80 
+                           79****************************88887777666346666666655555.4444..3333333........35556889*** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kp++v+gfggy++ + l+aa+ + ip++++Eqn++ g vnk++   a+
+  sp|Q5GS79|MURG_WOLTR  81 KPKLVIGFGGYASFPTLLAAKVLSIPIILHEQNAVLGRVNKFFFNSAE 128
+                           ******************************************977665 PP
+
+>> sp|Q7NPZ9|MURG_CHRVO  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   71.1   0.1   4.4e-21   2.5e-18       1     133 [.       6     138 ..       6     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 71.1 bits;  conditional E-value: 4.4e-21
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           v++++ GT+G++ P +A+a+eLq rG++V  l+t +g+e+++ + +g++ + ++   +++ k+  l+ lk +++   a++++ + + ++
+  sp|Q7NPZ9|MURG_CHRVO   6 VMVMAAGTGGHIVPGLAVAKELQSRGWKVVwLGTRRGMENKLvPPTGIPLERLNFH-GVRGKG-LLGSLKGALQLAGAFFSSAAQIFRH 92 
+                           67899***************************************************.******.************************* PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           +pdvv+g+ggyv ++ ++ a l++ p+++ ++++  +l+nk+l  +
+  sp|Q7NPZ9|MURG_CHRVO  93 RPDVVLGMGGYVCLPGGVMAGLLWKPLVLVNADAGLLLSNKALLPF 138
+                           ********************************99999999987555 PP
+
+>> sp|Q1AVX3|MURG_RUBXD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   68.1   0.0   3.8e-20   2.1e-17      19     139 .]       2     121 ..       1     121 [. 0.93
+   2 ?    3.7   0.1       2.8   1.6e+03       1      24 [.     165     188 ..     165     192 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 68.1 bits;  conditional E-value: 3.8e-20
+                           HHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE-- CS
+       Glyco_transf_28  19 areLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlali 105
+                           a+ L++rG eV  ++++ gle+++ ++ag   +++++  +l+    s +  + l+++  a+ + +++l+e +p +v+g+ggy++++a+ 
+  sp|Q1AVX3|MURG_RUBXD   2 AESLRERGAEVVfFGSESGLERELvPKAGFGLHALPLS-GLAGGPASRARASLLFAR--AVVRCRALLRELRPGAVLGVGGYASAPAVA 87 
+                           889***********************************.999977666666666666..****************************** PP
+
+                           HHHHHHHHHHHHHH----EEEEESSGGGSCCCSC CS
+       Glyco_transf_28 106 aallagipanvaEqngipglvnkllprrangvlv 139
+                           aa+l+gip++++Eqn++pg+vn++  r+a  vlv
+  sp|Q1AVX3|MURG_RUBXD  88 AARLLGIPTFIHEQNSVPGKVNRAAGRFAREVLV 121
+                           ****************************999875 PP
+
+  == domain 2    score: 3.7 bits;  conditional E-value: 2.8
+                           EEEE-------HHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqr 24 
+                           vvl+ gG++G +   +A a++++ 
+  sp|Q1AVX3|MURG_RUBXD 165 VVLVFGGSGGALRINLAAAEAFRG 188
+                           799*****************9986 PP
+
+>> sp|Q7MBC4|MURG_GLOVI  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   71.2   0.1   4.2e-21   2.4e-18       2     134 ..       7     136 ..       6     140 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 71.2 bits;  conditional E-value: 4.2e-21
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                           ++a+ GT+G+++Pa+A+a eL + ++   l++p++le+++    ++ ++++++ +l++k   ++ l  + + + a+r a+ +l++++ +
+  sp|Q7MBC4|MURG_GLOVI   7 LIAASGTGGHIFPALAVAGELSEFEIAW-LGVPDRLENKLVPGRYPLHTVALQ-GLNRKP-GPQWLEAASQTFAAYRYARNLLSQERFA 92 
+                           799**********************444.***********7777888888888.889988.999999999999**************** PP
+
+                           HHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  91 vvvgfggyvadlaliaallagipanvaEqngipglvnkllprra 134
+                            v+ +ggy+a++a++aa++++ pa+ +E+n +pg+v ++l+r+ 
+  sp|Q7MBC4|MURG_GLOVI  93 GVFTTGGYIAAPAVLAARSLNLPAIGHESNVLPGKVIRYLARWM 136
+                           ***************************************99986 PP
+
+>> sp|Q7U322|MURG_HELHP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   70.9   0.0     5e-21   2.8e-18       1     137 [.       2     140 ..       2     141 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 70.9 bits;  conditional E-value: 5e-21
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeilke 86 
+                           ++++ggGT+G++  a Ala+e q+   + + ++++ g ++++ e + l ++ + +d +++ +k   l+++k ++++lka  +a+ ilk+
+  sp|Q7U322|MURG_HELHP   2 FAITGGGTGGHLAIAKALAQEAQKNNQQSIyIGSQIGQDKTWfEGSSLFTHCYFLDsTGVVNKK-GLGKIKAIFKQLKAAWEARNILKK 89 
+                           799***********************99999*******************99888865777766.9*********************** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +k+++v+++gg++a+ a+i+a+l++ p++++Eqn+i g+ n +l  +a+ +
+  sp|Q7U322|MURG_HELHP  90 HKIEYVISVGGFSAGGASIGAILSNTPLFIHEQNAIKGKLNEILTPFAKAI 140
+                           *******************************************99999876 PP
+
+>> sp|Q3B129|MURG_PELLD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   71.4   0.5   3.5e-21     2e-18       1     138 [.       3     146 ..       3     147 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 71.4 bits;  conditional E-value: 3.5e-21
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHH.HH---EEEE----.....S------.-HHHCCSHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefv.eeagleavpigpd.....vklwakleslktlkelaeglkalrka 80 
+                           +++aggGT+G+++PavA+a  L++  + V+    +t  g+e+   +  g+  + i+++       l a l  ++ l+++a+    l++a
+  sp|Q3B129|MURG_PELLD   3 ILFAGGGTGGHLYPAVAMAAMLKEMVPGVElsfAGTASGIEAGEvPRLGYRLHLIPVRglkrgRSLSALLSNIGVLTDFAAS---LFRA 88 
+                           79****************************88889*****99877*************766655555555555555566665...**** PP
+
+                           HHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +++++++pdvvvg+gg+v++++l+aa l+g ++ + Eqn+ pgl+++ll+  a  v+
+  sp|Q3B129|MURG_PELLD  89 AALIRRERPDVVVGTGGFVSAPVLLAAQLLGRKTLIQEQNAFPGLTTRLLSILAREVH 146
+                           ************************************************9997777666 PP
+
+>> sp|Q30PK0|MURG_SULDN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   66.5   0.0   1.2e-19   6.9e-17       3     136 ..       5     140 ..       3     143 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 66.5 bits;  conditional E-value: 1.2e-19
+                           EE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   3 laggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++ggGT+G++  a Al ++  + Ghe + ++++ g +++  e+     + + ++ +++ ++ + l++lk l+ +l+a++++++ilk+++
+  sp|Q30PK0|MURG_SULDN   5 ITGGGTGGHLMIAEALVEACANDGHEAIfIGSTSGQDRKYfEQNSKFSHVYFLQtTGVVNQ-RGLGKLKALWLVLRAFFASRAILKKHN 92 
+                           79************************************99744433333344442255554.599************************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           +++++++gg++a++a++a+l++ ip++++Eqn++ g+ n +l+ +a++
+  sp|Q30PK0|MURG_SULDN  93 IQATYSVGGFSAAAASFASLSRLIPLFIHEQNAVYGKLNSILKPFATR 140
+                           ******************************************999987 PP
+
+>> sp|A2SCY5|MURG_METPP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   68.7   0.2   2.4e-20   1.4e-17       2     137 ..       7     145 ..       6     147 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 68.7 bits;  conditional E-value: 2.4e-20
+                           EEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH....HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVr.latppgleefv....eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           v+++ GT+G++ P +A+a+e q+rG+ V  l+t+ g+e+++    +e+g+e+ +i+   +l+ k+  l+tl+  ++ l a+ +  +il+
+  sp|A2SCY5|MURG_METPP   7 VVMAAGTGGHIIPGLAVAQEMQHRGWTVSwLGTEQGMENRLvppaAESGIEMDTIAFS-GLRGKG-LLHTLTGGLRLLGAFAACAKILR 93 
+                           7899***********************************988766789**********.******.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +   ++v+g+ggyv  + ++ a+l+g p+++ ++++  +++n++l+  a+++
+  sp|A2SCY5|MURG_METPP  94 RRATTAVLGMGGYVCFPGGLMASLLGKPLILVNADAALLMSNRALKPVADRI 145
+                           *******************************************999998887 PP
+
+>> sp|A0RP87|MURG_CAMFF  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   64.4   0.0   5.3e-19     3e-16       1     136 [.       2     139 ..       2     142 .. 0.92
+   2 ?    2.5   0.0       6.7   3.8e+03       2      41 ..     171     210 ..     170     264 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 64.4 bits;  conditional E-value: 5.3e-19
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE..----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp..igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++++ggGT+G++  a Ala eL++rG +V+ +++  g ++++ e + +   +   +++ ++ +k   +++l  l++  k  +k + i+ 
+  sp|A0RP87|MURG_CAMFF   2 IAITGGGTGGHLAIAKALAIELKNRGENVIfIGSNSGQDRMWfEHSDIFKFKyfFPSR-GVVNKK-GIHKLFALLNIIKLAFKCRCIFT 88 
+                           789***************************************9888886544356777.888877.999999999999*********** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           e+++  v+++ggy++++a+++a   + +++++Eqn+i g+ n +l+ ++++
+  sp|A0RP87|MURG_CAMFF  89 EHNISSVISVGGYSSAPASFGAVIFRKKLFIHEQNAIKGKLNSILKPFCKK 139
+                           *******************************************99988876 PP
+
+  == domain 2    score: 2.5 bits;  conditional E-value: 6.7
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH CS
+       Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv 41 
+                           +++gg  +  +  ++Al  +L  + h++ ++ ++g +e  
+  sp|A0RP87|MURG_CAMFF 171 LFLGGSQGASFINSLALNLALNLKNHNINIIHQCGAKELE 210
+                           66777777789999***************99999988873 PP
+
+>> sp|B3CM87|MURG_WOLPP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   66.6   0.0   1.1e-19   6.2e-17       1     137 [.       3     127 ..       3     129 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 66.6 bits;  conditional E-value: 1.1e-19
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           ++la+gGT+G+v+Pa+ la++L+ +Gh+ +l t  +  +  e++ l+ ++  ++ kl+    +l +++ +++         +  ++ kp
+  sp|B3CM87|MURG_WOLPP   3 IILATGGTGGHVFPAITLAKALKVQGHNCILFTDQKTINI-ESYILPLCKPSGN-KLKF--LFLLMYSCVLAL--------YQTRKLKP 79 
+                           78***************************99999988765.9999999887777.5555..334444444444........556999** PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           ++++gfg+y++ + l+aa+ + ip++++Eqn + g vn+++ + a+ +
+  sp|B3CM87|MURG_WOLPP  80 KLIIGFGSYASFPTLLAAKILSIPIVLHEQNTVLGRVNRFFFKSAKLI 127
+                           ****************************************99988876 PP
+
+>> sp|A5FUL0|MURG_ACICJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   66.2   2.3   1.4e-19   8.1e-17       1     135 [.       9     145 ..       9     149 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 66.2 bits;  conditional E-value: 1.4e-19
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +v+a+gGT+G++ Pa ++a+eL+rrG ++ l t  + + +     ag e + +++  +l+ +    + l+ +a+  +++ +a+ il++ 
+  sp|A5FUL0|MURG_ACICJ   9 IVIAAGGTGGHMVPAESVADELMRRGQRIVLMTDARSAGQKsaVFAGCERHVLAGA-GLAGRS-LGRRLLGVAQLARGTVAARHILAKL 95 
+                           79****************************99999999886556788887778888.788877.9999********************* PP
+
+                           HHHHHHHC----EEEE--HHH..HHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaal..lagipanvaEqngipglvnkllprran 135
+                            +++vvgfggy ++++++aa+  +++ ++++++qn++ g +n++l+r+a+
+  sp|A5FUL0|MURG_ACICJ  96 DAAAVVGFGGYPSVPPVLAAAtlRRRPAIVLHDQNAVLGGANRFLARFAD 145
+                           *****************9998778999********************998 PP
+
+>> sp|Q7MAD4|MURG_WOLSU  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   65.8   0.0   1.9e-19   1.1e-16       1     131 [.       3     135 ..       3     140 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 65.8 bits;  conditional E-value: 1.9e-19
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++  a Al++ L  +      +++++g ++ +   e+g + +  ++++ ++ ++   ++++++l ++++a+ +a++ilk
+  sp|Q7MAD4|MURG_WOLSU   3 ILLTGGGTGGHLAIAKALMESLASKNQSLFfIGSQRGQDRSWfeHEEGFKRRFfLETQ-GVVNQR-GIAKIRSLSSQFQAMLEARKILK 89 
+                           79************************9999***********98667777777777777.666655.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSG CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllp 131
+                           +++++ vv++ggy+a++a++aal++gip++++Eqn+  gl n+ll+
+  sp|Q7MAD4|MURG_WOLSU  90 NHQIKRVVSVGGYSAAPASLAALSLGIPLYIHEQNAKVGLLNRLLK 135
+                           ****************************************999876 PP
+
+>> sp|B2KE54|MURG_ELUMP  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   64.5   0.0   4.9e-19   2.8e-16       1     135 [.       4     139 ..       4     143 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 64.5 bits;  conditional E-value: 4.9e-19
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           +++a+gGT+G+++P  +l++eL++r +eV  ++ +++ + ++ ++ + ++++i+   +++++ + ++ +   +++  ++ ++  i+  +
+  sp|B2KE54|MURG_ELUMP   4 FIIASGGTGGHFYPGFSLGKELRKRSYEVLfVVRKEDAAIKTlTKNNFNYKEINFT-GFPRSANPIRHIIFCYKFIVSFWQTLGIINAF 91 
+                           789***************************8666666666666*************.******************************** PP
+
+                           HHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           kpdv+vg+ggy + ++++ a+  gi+  v+++n   gl+nk+++++ n
+  sp|B2KE54|MURG_ELUMP  92 KPDVCVGMGGYLSFPVIVWAKIKGIKSAVHDSNTKIGLANKICAKFTN 139
+                           ******************************************999876 PP
+
+>> sp|B3EIK8|MURG_CHLL2  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   64.8   0.3     4e-19   2.2e-16       1     133 [.       3     141 ..       3     147 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 64.8 bits;  conditional E-value: 4e-19
+                           EEEE-------HHHHHHHHHHHHH-..--EEE.EEETGGGHHHH.HH---EEEE----S------....-HHHCCSHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrr..GheVr.latppgleefv.eeagleavpigpdvklwakle...slktlkelaeglkalrkake 82 
+                           v++aggGT+G+++PavA+a+eL +   G  V   +t++g+e+   +  g+  + ++++ +l++ +     l+++  l ++  al  a  
+  sp|B3EIK8|MURG_CHLL2   3 VLFAGGGTGGHLYPAVAMAVELLKLvpGASVSfAGTKNGIEASEiPRLGYRLHLLPVR-GLKRGGSlraILANVGILIDFAGALINAGG 90 
+                           79**********************8445666688999999998889999999999999.66665530003444455566677899999* PP
+
+                           HHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  83 ilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                           ++++++pdvvvg+gg+v++++l+aa   g  + + Eqn+ pg+++kll+  
+  sp|B3EIK8|MURG_CHLL2  91 LIRRENPDVVVGTGGFVSAPVLLAAQMMGRRTLIQEQNAFPGVTTKLLSIL 141
+                           **********************************************99865 PP
+
+>> sp|A5UZT7|MURG_ROSS1  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   65.4   2.3   2.5e-19   1.4e-16       3     138 ..      20     177 ..      18     178 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 65.4 bits;  conditional E-value: 2.5e-19
+                           EE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.........................S------.-HHH CS
+       Glyco_transf_28   3 laggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.........................vklwakleslkt 66 
+                           l+ggGT+G+v+Pa+A+a +L + G +  +a ++g +++  +++    ++ ++                         v++++ l ++++
+  sp|A5UZT7|MURG_ROSS1  20 LVGGGTGGHVYPALAVAAALNAHGAQFVVADTDGGRNRAMSRHTRWSALYVGsvggmeaalvaresalpfhalpaaaVRGRNPLTMVRN 108
+                           89*************************************777777777444445**********************9999999999999 PP
+
+                           CCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  67 lkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           l +la+g   + +a +++++++p++++g+ggyv +++++aa+la +p+++   + +pgl+ +ll+r an v+
+  sp|A5UZT7|MURG_ROSS1 109 LITLARG---TGAAHRLIARDRPAAILGTGGYVCVPVFLAARLACVPTVIYQPDVVPGLAVRLLARLANLVA 177
+                           9999999...********************************************************999875 PP
+
+>> sp|Q5FUJ5|MURG_GLUOX  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   63.1   0.5   1.3e-18   7.2e-16       1     134 [.       5     142 ..       5     147 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 63.1 bits;  conditional E-value: 1.3e-18
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE....----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavp....igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           +v+a+gGT+G+++Pa A+a  L +rGh+  l t  +  ++  e+gl        +++  +++ k+  ++++  +++ l+++ +a++il+
+  sp|Q5FUJ5|MURG_GLUOX   5 IVIAAGGTGGHFFPAEAVATVLAERGHDLVLMTDARHGRR--ETGLFKDRpqyvLDGA-GVAGKG-LSGKVHGVLALLRGMMEARRILA 89 
+                           79***************************98877766665..4444443334224555.799999.999999***************** PP
+
+                           HHHHHHHHHC----EEEE--HHH....HHHHHHHHHHH----EEEEESSGGGS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaal....lagipanvaEqngipglvnkllprra 134
+                           +  +++vvgfggy + ++l+a++    + + + +++E n++ g +n +l+r+ 
+  sp|Q5FUJ5|MURG_GLUOX  90 SLDAAAVVGFGGYPSIPPLTASRllpsAKRPQMVIHEGNAVLGQANAFLSRFS 142
+                           **********************9888888999*****************9985 PP
+
+>> sp|A6Q722|MURG_SULNB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   60.6   0.0   7.8e-18   4.4e-15       1     135 [.       3     137 ..       3     141 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 60.6 bits;  conditional E-value: 7.8e-18
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           ++++ggGT+G++  + A+ ++L+ ++  + ++++ g ++++ e+++  ++++  d+++  + + +++lk+l+  l+a+ ka+++lk++ 
+  sp|A6Q722|MURG_SULNB   3 IIMTGGGTGGHLAIIKAVKEQLKGEE-LIYIGSTTGQDRQWfENDEDFTETYFFDTRGVVNQRGFGKLKSLWMMLQAMMKARKLLKKYD 90 
+                           689********************999.555***********999998888887775555555699************************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           ++vv+++gg+++++  +aa++a +p++++Eqn+  g  nkll  +a 
+  sp|A6Q722|MURG_SULNB  91 AKVVFSVGGFSSAATAFAAKSASVPLVIHEQNAALGSLNKLLRPYAA 137
+                           ****************************************9988875 PP
+
+>> sp|B8E325|MURG_DICTD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   61.1   0.0   5.5e-18   3.1e-15       1     138 [.       4     135 ..       4     136 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 61.1 bits;  conditional E-value: 5.5e-18
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+v Pa+ +a+   +r ++ +   ++ ++ +ee++ + +++++ +++    ++    +k+l+  +    ++++a +il e
+  sp|B8E325|MURG_DICTD   4 ILFVAGGTGGHVIPALNMADYISERAPHWKisfIGRKNSFEEKLIAGKYDFYGLDII---KS--SDIKKLSYYL----SIKDALKILGE 83 
+                           799**********************9998888*******************555555...33..3444444444....55999****** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            +pd++v fg+y+ +++++a++  + p +++Eqn ipg v+kl+ r+  gv+
+  sp|B8E325|MURG_DICTD  84 LEPDILVVFGSYITVPIIVASIIKKLPFFLHEQNVIPGRVTKLFYRFSQGVA 135
+                           **********************************************999886 PP
+
+>> sp|A6Q579|MURG_NITSB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   60.3   0.0   9.9e-18   5.6e-15       1     138 [.       3     142 ..       3     143 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 60.3 bits;  conditional E-value: 9.9e-18
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp...igpdvklwakleslktlkelaeglkalrkakeil 84 
+                           ++++ggGT+G++  a +l +++++++     +++  g ++ + e+++ ++++    +++ ++ +k   +++++ l +  +a ++ak+++
+  sp|A6Q579|MURG_NITSB   3 ILITGGGTGGHLSVAKSLKEAFKKKDATLYyIGSIQGQDRSWfENDE-DFQKklfFDVE-GVVNKK-GINKIRALTDIVRASFAAKKLI 88 
+                           789***********************9998************65555.44444555555.555555.78888888888899******** PP
+
+                           HHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  85 keakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           k++++d+vv++ggy+a++a++aal ++ p++++Eqn++ g+ n+ll+ +a++v+
+  sp|A6Q579|MURG_NITSB  89 KNESIDAVVSVGGYSAAAASFAALQLNLPLFIHEQNAVKGKLNRLLSPFAKRVF 142
+                           ***************************************************996 PP
+
+>> sp|Q0BV25|MURG_GRABC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   59.3   0.5     2e-17   1.1e-14       1     133 [.      10     144 ..      10     148 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 59.3 bits;  conditional E-value: 2e-17
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETG...GGHHHH.HH--...-EEEE----S------.-HHHCCSHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatpp...gleefv.eeag...leavpigpdvklwakleslktlkelaeglkalrkake 82 
+                           +++a+gGT+G+++Pa Ala eL+rrG ++ l t     gl+++v + +    l+   i+++ + ++     +++  l +g   + ka +
+  sp|Q0BV25|MURG_GRABC  10 IIIAAGGTGGHFFPAEALAAELKRRGRQIVLMTDArsgGLTSTVfADTDrfvLPGAGIAGR-GIRR---AGQAVIALGHG---VVKAGA 91 
+                           689***************************9887611145566633322111333334444.5555...44666666666...****** PP
+
+                           HHHHHHHHHHHHC----EEEE--HHH..HHHHHHHHHHH----EEEEESSGGG CS
+       Glyco_transf_28  83 ilkeakpdvvvgfggyvadlaliaal..lagipanvaEqngipglvnkllprr 133
+                           +l++ ++  +vgfggy   +++++a+  ++++p++++Eqn++ g +n+ll+r+
+  sp|Q0BV25|MURG_GRABC  92 LLRRLEAGCIVGFGGYPCIPPVLGARlrARNVPVILHEQNAVLGRANRLLARK 144
+                           ************************9966789*****************99886 PP
+
+>> sp|Q5PB22|MURG_ANAMM  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   59.0   0.0   2.4e-17   1.3e-14       1     135 [.       4     137 ..       4     141 .. 0.94
+
+  Alignments for each domain:
+  == domain 1    score: 59.0 bits;  conditional E-value: 2.4e-17
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeak 88 
+                           vvla+gGT+G++ Pa+ l + L +rG++  l t   +   + +  g++ + + p   +++++  ++ lk  a    +   +   l++ k
+  sp|Q5PB22|MURG_ANAMM   4 VVLAAGGTGGHIVPAALLCQVLADRGYRCVLYTDQYFLQYTaRFPGIKGYVLLPL--CKRSGGAVRLLKFCALLAYSCVLSYIKLRSLK 90 
+                           79**************************************9999****9998887..67777799999999999999************ PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                           pd+v+gfg y++ ++l+ a+l  + a+++Eqn+++g vn++++ +a 
+  sp|Q5PB22|MURG_ANAMM  91 PDLVIGFGAYASFPVLLSAWLMSVDAVLHEQNSVMGRVNRVFAGYAR 137
+                           ******************************************99986 PP
+
+>> sp|A7I265|MURG_CAMHC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   58.5   0.0   3.4e-17   1.9e-14       1     137 [.       3     141 ..       3     143 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 58.5 bits;  conditional E-value: 3.4e-17
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeilke 86 
+                           ++++ggGT+G++  a  la eL++rG + + +++++g +  + e++ l  +++ ++  ++ +k   ++ +++l++ l   +  ++i+++
+  sp|A7I265|MURG_CAMHC   3 IAITGGGTGGHLTIAKILAYELKKRGLKTIfIGSTNGQDMLWfENSVLFDEKYFLKsSGVVNKK-GISRILSLFKILALSFGCRKIFAK 90 
+                           789***************************************9999998888665532666666.899999999999999********* PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           +  ++v+++ggy++++a + a +++ip++++Eqn+  g+ n ll+r+a++ 
+  sp|A7I265|MURG_CAMHC  91 HDVKAVISVGGYSSAPAAFWAVANKIPLFIHEQNAEIGKINALLKRFAKRF 141
+                           ************************************************985 PP
+
+>> sp|A9FI55|MURG_SORC5  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   60.1   0.8   1.1e-17   6.3e-15       1     138 [.       4     145 ..       4     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 60.1 bits;  conditional E-value: 1.1e-17
+                           EEEE-------HHHHHHHHHHHHH..---EEE...EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqr..rGheVr...latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakei 83 
+                           v++aggGT+G+v+P +A+++++++  r+ e r   ++t +g+e +v  e+g + + + +  +l+  +  +++++ +a+ +  l +a+++
+  sp|A9FI55|MURG_SORC5   4 VLIAGGGTGGHVFPMIAVGDAVRAaaRDEEARvvyVGTARGIEVRVmGERGDNLELLHVL-PLRGGG-LSGFVRGAARAGSVLPEARRL 90 
+                           799*****************998622444555669*******************999999.999999.********************* PP
+
+                           HHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  84 lkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +++  + v ++ ggy+ +++++aa+++g+p+ + E n++ gl+n+ll+  +++++
+  sp|A9FI55|MURG_SORC5  91 VERLDARVALSLGGYAGGPVSLAARSLGVPVAILEPNSVLGLSNRLLAPIVDRAY 145
+                           ***********************************************99999987 PP
+
+>> sp|B5YEL3|MURG_DICT6  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   58.7   0.0     3e-17   1.7e-14       1     138 [.       4     135 ..       4     136 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 58.7 bits;  conditional E-value: 3e-17
+                           EEEE-------HHHHHHHHHHHHH---EEE...EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr...latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           +++++gGT+G+v Pa+ +a+   ++ ++ +   ++ ++ +ee +   +++++ +++    ++    +k+l+  ++      +a +il e
+  sp|B5YEL3|MURG_DICT6   4 ILFVAGGTGGHVIPALNMADYIAQKAPHWKisfVGRKDSFEEGLIRGKYDFYGLNIS---RS--SDVKKLSYYLSI----SDAIKILNE 83 
+                           799*******************9998888888*******************999999...22..244444444444....777****** PP
+
+                           HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                            kpd++v fg+y+ ++++ia++  + p +++Eqn +pg v+kl+  + +gv+
+  sp|B5YEL3|MURG_DICT6  84 VKPDILVVFGSYITVPVIIASIVKKYPFFLHEQNVVPGRVTKLFYEFSEGVA 135
+                           ********************************************99988876 PP
+
+>> sp|A8FM88|MURG_CAMJ8  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   55.1   0.0   3.8e-16   2.1e-13       1     136 [.       3     140 ..       3     143 .. 0.96
+
+  Alignments for each domain:
+  == domain 1    score: 55.1 bits;  conditional E-value: 3.8e-16
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp...igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++     l +   ++ +e   +++++g ++ + e ++ +++   + ++ ++ ++  +++++++l++ lk  ++ +ei+k
+  sp|A8FM88|MURG_CAMJ8   3 IALTGGGTGGHLAIVRCLLESAIKKNIECVyIGSQNGQDKAWFENEVRFKEkffLSSK-GVVNQS-KFGKISSLLHTLKLSKDCREIFK 89 
+                           79**************************889***********999****999989999.999988.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++ +++v+++ggy+a++a++aal+++ p++++Eqn+  g  n ll+ +a++
+  sp|A8FM88|MURG_CAMJ8  90 KYHIQAVFSVGGYSAAPASFAALFSHLPLFIHEQNSKSGSLNMLLKPFATK 140
+                           ***************************************999999998887 PP
+
+>> sp|Q5HU62|MURG_CAMJR  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   54.8   0.0     5e-16   2.8e-13       1     136 [.       3     140 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 54.8 bits;  conditional E-value: 5e-16
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp...igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++     l +   ++ +e   +++++g ++ + e ++ +++   + ++ ++ ++  +++++++l++ lk  ++ +ei+k
+  sp|Q5HU62|MURG_CAMJR   3 IALTGGGTGGHLAIVRCLLESAIKKNIECVyIGSQNGQDKAWFENEVRFKEkffLSSK-GVVNQS-KFDKISSLLHTLKLSKDCREIFK 89 
+                           79**************************889***********999****999988999.888888.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++ +++v+++ggy+a++a++aal+++ p++++Eqn+  g  n ll+ +a++
+  sp|Q5HU62|MURG_CAMJR  90 KYHIQAVFSVGGYSAAPASFAALFSHLPLFIHEQNSKSGSLNMLLKPFATK 140
+                           ***************************************999999998887 PP
+
+>> sp|A1W027|MURG_CAMJJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   54.8   0.0     5e-16   2.8e-13       1     136 [.       3     140 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 54.8 bits;  conditional E-value: 5e-16
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp...igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++     l +   ++ +e   +++++g ++ + e ++ +++   + ++ ++ ++  +++++++l++ lk  ++ +ei+k
+  sp|A1W027|MURG_CAMJJ   3 IALTGGGTGGHLAIVRCLLESAIKKNIECVyIGSQNGQDKAWFENEVRFKEkffLSSK-GVVNQS-KFDKISSLLHTLKLSKDCREIFK 89 
+                           79**************************889***********999****999988999.888888.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++ +++v+++ggy+a++a++aal+++ p++++Eqn+  g  n ll+ +a++
+  sp|A1W027|MURG_CAMJJ  90 KYHIQAVFSVGGYSAAPASFAALFSHLPLFIHEQNSKSGSLNMLLKPFATK 140
+                           ***************************************999999998887 PP
+
+>> sp|Q9PNQ2|MURG_CAMJE  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   54.8   0.0     5e-16   2.8e-13       1     136 [.       3     140 ..       3     143 .. 0.95
+
+  Alignments for each domain:
+  == domain 1    score: 54.8 bits;  conditional E-value: 5e-16
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp...igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++     l +   ++ +e   +++++g ++ + e ++ +++   + ++ ++ ++  +++++++l++ lk  ++ +ei+k
+  sp|Q9PNQ2|MURG_CAMJE   3 IALTGGGTGGHLAIVRCLLESAIKKNIECVyIGSQNGQDKAWFENEVRFKEkffLSSK-GVVNQS-KFDKISSLLHTLKLSKDCREIFK 89 
+                           79**************************889***********999****999988999.888888.9********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++ +++v+++ggy+a++a++aal+++ p++++Eqn+  g  n ll+ +a++
+  sp|Q9PNQ2|MURG_CAMJE  90 KYHIQAVFSVGGYSAAPASFAALFSHLPLFIHEQNSKSGSLNMLLKPFATK 140
+                           ***************************************999999998887 PP
+
+>> sp|A7H2Z9|MURG_CAMJD  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   53.6   0.0   1.1e-15   6.4e-13       1     136 [.       3     140 ..       3     143 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 53.6 bits;  conditional E-value: 1.1e-15
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE...----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp...igpdvklwakleslktlkelaeglkalrkakeilk 85 
+                           ++l+ggGT+G++     l +   ++ +e   +++++g ++ + e +  +++   + ++ ++ ++  +++++++l++ lk  ++ +ei+k
+  sp|A7H2Z9|MURG_CAMJD   3 IALTGGGTGGHLAIVRCLLESAIKKNIECVyIGSQNGQDKAWFENEARFKEkffLSSK-GVVNQN-KFGKISSLLHTLKLSKDCREIFK 89 
+                           79**************************889***********6666666666677777.777777.*********************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrang 136
+                           ++ +++v+++ggy+a++a++aal+++ p++++Eqn+  g  n ll+ +a++
+  sp|A7H2Z9|MURG_CAMJD  90 KYHIQAVFSVGGYSAAPASFAALFSHLPLFIHEQNSKSGSLNMLLKPFATK 140
+                           ***************************************999999998887 PP
+
+>> sp|A8F4X1|MURG_THELT  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   52.2   0.0   3.1e-15   1.8e-12       4     138 ..       6     142 ..       3     143 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 52.2 bits;  conditional E-value: 3.1e-15
+                           E-------HHHHHHHHHHHHH.---EEE.EEETGGGHHHH.HH---EEEE----.S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   4 aggGTrGdvePavAlareLqr.rGheVr.latppgleefv.eeagleavpigpd.vklwakleslktlkelaeglkalrkakeilkeak 88 
+                           aggGT+G+++Pav++ ++L + +  +V+ ++ ++g+e+++ + ++ e++ i++d  +l + + +++++++l++   +  ++  +l+ ++
+  sp|A8F4X1|MURG_THELT   6 AGGGTGGHLYPAVSILEKLAEmKKLNVTyFCLEKGIESKIlPLEHPEYKLIKIDlKGLERPIWKPSNFTRLLKI--SQSESIIALEIKQ 92 
+                           89*****************984568999*************777777777666653777777789999999999..8889999****** PP
+
+                           HHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  89 pdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           +d  + +ggy++ +++   ++++ p ++ Eqn +pgl+nk+l+  a++++
+  sp|A8F4X1|MURG_THELT  93 CDFGLMTGGYISYPVGKVCKKLKKPFFIQEQNVVPGLANKALSLSAKKIF 142
+                           *******************************************9999987 PP
+
+>> sp|Q72R84|MURG_LEPIC  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   41.3   0.2     7e-12   3.9e-09       1     138 [.       4     142 ..       4     143 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 41.3 bits;  conditional E-value: 7e-12
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------...-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakl..eslktlkelaeglkalrkakeilk 85 
+                           +v+++gGT+G++ P vAla+ L +   +  ++ ++ +   +   + + + ++ ++   lw +l   s+++++ + +   ++ k+++i+k
+  sp|Q72R84|MURG_LEPIC   4 IVIVAGGTGGHISPGVALAEVLTELKEK--IGYENLYLYSLvrNKNNPDLEQAPCP-VLWHNLppLSSNFFLFPIRYTIQIIKTFFIFK 89 
+                           799*********************9944..68888766655588888888888888.5555432258888999999999********** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + ++dvv+g+ggy+ +  ++  ++ + ++++ Eqn ipg vn+l+ r+a +v+
+  sp|Q72R84|MURG_LEPIC  90 KLNIDVVIGMGGYSTVSSILYGIFFRKKIYLCEQNTIPGNVNRLFFRFASKVA 142
+                           ************************************************99986 PP
+
+>> sp|Q8F4J1|MURG_LEPIN  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   41.3   0.2     7e-12   3.9e-09       1     138 [.       4     142 ..       4     143 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 41.3 bits;  conditional E-value: 7e-12
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------...-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakl..eslktlkelaeglkalrkakeilk 85 
+                           +v+++gGT+G++ P vAla+ L +   +  ++ ++ +   +   + + + ++ ++   lw +l   s+++++ + +   ++ k+++i+k
+  sp|Q8F4J1|MURG_LEPIN   4 IVIVAGGTGGHISPGVALAEVLTELKEK--IGYENLYLYSLvrNKNNPDLEQAPCP-VLWHNLppLSSNFFLFPIRYTIQIIKTFFIFK 89 
+                           799*********************9944..68888766655588888888888888.5555432258888999999999********** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           + ++dvv+g+ggy+ +  ++  ++ + ++++ Eqn ipg vn+l+ r+a +v+
+  sp|Q8F4J1|MURG_LEPIN  90 KLNIDVVIGMGGYSTVSSILYGIFFRKKIYLCEQNTIPGNVNRLFFRFASKVA 142
+                           ************************************************99986 PP
+
+>> sp|Q4FPK5|MURG_PELUB  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   40.5   0.0   1.3e-11   7.1e-09       1     138 [.       5     138 ..       5     139 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 40.5 bits;  conditional E-value: 1.3e-11
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           +++++gG++G+v Pa  + ++L +   +V + +  + ++f+ +++++ +  +++ +  ++   l  ++++      ++k+   ++++k+
+  sp|Q4FPK5|MURG_PELUB   5 ILISTGGSGGHVIPATIIYKHLEDNF-DVSMTSDFRGVKFLNKDEYNLKIFNVR-PISKN--LLIIPLDFIFMIFLIFKSISFFRKNKI 89 
+                           6899******************9876.***************999999999999.77774..45555555555557899999******* PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCCS CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangvl 138
+                           d+++++ggy +++++++a+ ++i++ + E n + g +nk++  ++ +++
+  sp|Q4FPK5|MURG_PELUB  90 DTLISTGGYMSLPLCLGARILNIKLLLFEPNMVLGRSNKFFLSYCQKIF 138
+                           *****************************************99998875 PP
+
+>> sp|Q04V94|MURG_LEPBJ  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.2   0.2   2.7e-10   1.5e-07       1     137 [.       4     141 ..       4     143 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 36.2 bits;  conditional E-value: 2.7e-10
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------...-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakl..eslktlkelaeglkalrkakeilk 85 
+                           +v+a+gGT+G++ P vAla+ L +   +  ++ ++ +   +   + + + ++ ++   lw +l   s++ ++ +++   ++ k++ ++k
+  sp|Q04V94|MURG_LEPBJ   4 IVIAAGGTGGHISPGVALAEVLTDLKEK--IGYENLYLYSLirNQNNPDLEQAPCP-VLWHNLppLSSNIFLFPFRYTIQILKTFLLFK 89 
+                           79**********************9944..68888877766688888888888888.5555432268999999**************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           + + dvv+g+ggy+ +  ++  +l + ++++ Eqn +pg v +l+ r+an++
+  sp|Q04V94|MURG_LEPBJ  90 KLNVDVVIGMGGYSTVSSILYGILFKKKIYLCEQNTVPGNVSRLFFRFANKA 141
+                           *************************************************997 PP
+
+>> sp|Q04Y82|MURG_LEPBL  UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglu
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.2   0.2   2.7e-10   1.5e-07       1     137 [.       4     141 ..       4     143 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 36.2 bits;  conditional E-value: 2.7e-10
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------...-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakl..eslktlkelaeglkalrkakeilk 85 
+                           +v+a+gGT+G++ P vAla+ L +   +  ++ ++ +   +   + + + ++ ++   lw +l   s++ ++ +++   ++ k++ ++k
+  sp|Q04Y82|MURG_LEPBL   4 IVIAAGGTGGHISPGVALAEVLTDLKEK--IGYENLYLYSLirNQNNPDLEQAPCP-VLWHNLppLSSNIFLFPFRYTIQILKTFLLFK 89 
+                           79**********************9944..68888877766688888888888888.5555432268999999**************** PP
+
+                           HHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSCCC CS
+       Glyco_transf_28  86 eakpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprrangv 137
+                           + + dvv+g+ggy+ +  ++  +l + ++++ Eqn +pg v +l+ r+an++
+  sp|Q04Y82|MURG_LEPBL  90 KLNVDVVIGMGGYSTVSSILYGILFKKKIYLCEQNTVPGNVSRLFFRFANKA 141
+                           *************************************************997 PP
+
+>> sp|Q8TTI1|Y452_METAC  Uncharacterized glycosyltransferase MA_0452 OS=Methanosarcina acetivorans GN=MA_0452 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.5   0.0   1.8e-09   9.9e-07      10     103 ..      13     111 ..       4     164 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 33.5 bits;  conditional E-value: 1.8e-09
+                           --HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.........S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  10 GdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.........vklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           G+   ++Al++eL ++Ghe+++++    +e ve++g++a++i+++         + l       +tlk+++    +  k+ ++l+e+kp
+  sp|Q8TTI1|Y452_METAC  13 GHTSRCLALGKELLNAGHEIKFGAYGYSKELVEKTGYTAQEIPSEiklvgkagsLDLTG--SIEATLKSAQLL--GGPKLLKLLREFKP 97 
+                           9********************************************99988887766666..567777777777..778899******** PP
+
+                           HHHHHC----EEEE CS
+       Glyco_transf_28  90 dvvvgfggyvadla 103
+                           dvvv+   y  +la
+  sp|Q8TTI1|Y452_METAC  98 DVVVSDSYYLGTLA 111
+                           ***87665444444 PP
+
+>> sp|Q8TTI0|Y453_METAC  Uncharacterized glycosyltransferase MA_0453 OS=Methanosarcina acetivorans GN=MA_0453 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.7   0.0   5.5e-08   3.1e-05      10     113 ..      13     118 ..       3     128 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 28.7 bits;  conditional E-value: 5.5e-08
+                           --HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.........S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  10 GdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.........vklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           G+   ++Al++e+ ++GheV +++    +e v+++g++a +i+p+             +     +tl++l  +  ++rk+ ++++  +p
+  sp|Q8TTI0|Y453_METAC  13 GHTSRCLALGKEFLAAGHEVSFGAYGYSRELVRKTGYSAWEIQPEirligetgiFDIGK--SIKETLRNLSPV--GFRKLLKLIEVLEP 97 
+                           9********************************************99987766644444..344455555555..77899999****** PP
+
+                           HHHHHC----EEEE--HHHHHHHH CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagip 113
+                           dvv++ g y+    ++aa+++++p
+  sp|Q8TTI0|Y453_METAC  98 DVVLSDGYYS---GILAARSRKVP 118
+                           ***9988444...44555666655 PP
+
+>> sp|Q8PWF3|Y1636_METMA  Uncharacterized glycosyltransferase MM_1636 OS=Methanosarcina mazei GN=MM_1636 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.0   0.0   2.2e-08   1.2e-05      10     112 ..      13     117 ..       4     143 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 30.0 bits;  conditional E-value: 2.2e-08
+                            --HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.........S------.-HHHCCSHHHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28  10 GdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.........vklwakleslktlkelaeglkalrkakeilkeak 88 
+                            G+   ++Al++eL ++Ghe+++++    ++ ve++g+ +++i+++           l       +tlk++     +  k+ +++k++k
+  sp|Q8PWF3|Y1636_METMA  13 GHTSRCLALGKELLAAGHEIEFGAYGYSRDLVEKTGYRIHEIPSEiklvgkaggFDLSG--SIEATLKNARIL--GGPKVLKLIKDFK 96 
+                            9********************************************99977664422222..334444444444..55689999***** PP
+
+                            HHHHHHC----EEEE--HHHHHHH CS
+        Glyco_transf_28  89 pdvvvgfggyvadlaliaallagi 112
+                            pdvvv+       l ++aa l++i
+  sp|Q8PWF3|Y1636_METMA  97 PDVVVSDS---YYLGTLAAMLLNI 117
+                            ***97755...4444444445555 PP
+
+>> sp|O34539|YJIC_BACSU  Uncharacterized UDP-glucosyltransferase yjiC OS=Bacillus subtilis GN=yjiC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.9   0.0   4.8e-08   2.7e-05       6      93 ..      11     104 ..       6     124 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 28.9 bits;  conditional E-value: 4.8e-08
+                           ------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....S------.-HHHCCSHHHHHHH.HHHHHHHHHHHH CS
+       Glyco_transf_28   6 gGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.....vklwakleslktlkelaeglka.lrkakeilkeak 88 
+                           +++ G+v P +Al ++L ++Gh+V+ at++++++ v +ag ea  + +       + ++ +e+++++++l+++  + l +++e++k+++
+  sp|O34539|YJIC_BACSU  11 IPAYGHVNPTLALVEKLCEKGHRVTYATTEEFAPAVQQAGGEALIYHTSlnidpKQIREMMEKNDAPLSLLKESLSiLPQLEELYKDDQ 99 
+                           5667************************************9999988777777846666556666666666654441568888889998 PP
+
+                           HHHHH CS
+       Glyco_transf_28  89 pdvvv 93 
+                           pd+++
+  sp|O34539|YJIC_BACSU 100 PDLII 104
+                           88874 PP
+
+>> sp|Q53685|OLED_STRAT  Oleandomycin glycosyltransferase OS=Streptomyces antibioticus GN=oleD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.6   0.1   1.2e-07   6.6e-05       1      59 [.      10      75 ..      10     132 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 27.6 bits;  conditional E-value: 1.2e-07
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.......S---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.......vklwa 59
+                          +++ ++ + G+v P++ + reL +rGh+V+ a+pp ++++v+++g   v + +         ++w 
+  sp|Q53685|OLED_STRAT 10 IAMFSIAAHGHVNPSLEVIRELVARGHRVTYAIPPVFADKVAATGPRPVLYHSTlpgpdadPEAWG 75
+                          577889999************************************999988888555556533333 PP
+
+>> sp|Q8PZB2|Y582_METMA  Uncharacterized glycosyltransferase MM_0582 OS=Methanosarcina mazei GN=MM_0582 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.2   0.0     8e-08   4.5e-05      10     112 ..      13     117 ..       3     129 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 28.2 bits;  conditional E-value: 8e-08
+                           --HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.........S------.-HHHCCSHHHHH..HHHHHHHHHHHHH CS
+       Glyco_transf_28  10 GdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.........vklwakleslktlkelaegl..kalrkakeilkea 87 
+                           G+   ++Al++e+ ++GheV +++    +  v ++g++a++i+++                +  k +ke++++l   ++rk+ +++++ 
+  sp|Q8PZB2|Y582_METMA  13 GHTGRCLALGKEFLAAGHEVNFGAYGYSKGLVQKTGYSAYEIPSEiklageagtF------DIRKSIKETLNNLspSGFRKILRLIEKL 95 
+                           99999****************************************7664444332......333444444443322378999999**** PP
+
+                           HHHHHHHC----EEEE--HHHHHHH CS
+       Glyco_transf_28  88 kpdvvvgfggyvadlaliaallagi 112
+                            pdvv++ g y     ++aa ++++
+  sp|Q8PZB2|Y582_METMA  96 DPDVVLSDGYY---TGILAAQKRKV 117
+                           *****998844...34444555554 PP
+
+>> sp|P21686|CRTX_PANAN  Zeaxanthin glucosyltransferase OS=Pantoea ananas GN=crtX PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.9   0.1   3.9e-07   0.00022      11     126 ..      14     131 ..      13     135 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 25.9 bits;  conditional E-value: 3.9e-07
+                           -HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----..........S------.-HHHCCSHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  11 dvePavAlareLqrrGheVrlatppgleefveeagleavpigpd..........vklwakleslktlkelaeglkalrkakeilkeakp 89 
+                           +v  +  la+eL +rGh+V+++ + ++++ + ++ + ++++g+d          + l+a+   +++lk + e         ++  + + 
+  sp|P21686|CRTX_PANAN  14 HVRALQNLAQELVARGHRVTFIQQYDIKHLIDSETIGFHSVGTDshppgaltrvLHLAAHPLGPSMLKLINEM-------ARTTDMLCR 95 
+                           67777779***************************************98887776677766666666666666.......555555555 PP
+
+                           HHHHHC----EEEE--HHHHHHHHHHHHHH----EEE CS
+       Glyco_transf_28  90 dvvvgfggyvadlaliaallagipanvaEqngipglv 126
+                           +++ +f    a++ +i +  + + a vaE++g+p+++
+  sp|P21686|CRTX_PANAN  96 ELPQAFN-DLAVDGVIVDQMEPAGALVAEALGLPFIS 131
+                           5555554.4567777779999999**********986 PP
+
+>> sp|Q54387|MGT_STRLI  Macrolide glycosyltransferase OS=Streptomyces lividans GN=mgt PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.5   0.0   2.2e-06    0.0013       9      54 ..      33      78 ..      25     136 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 23.5 bits;  conditional E-value: 2.2e-06
+                         ---HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE---- CS
+      Glyco_transf_28  9 rGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd 54
+                          G+v P++ + reL +rGh+V+ a+p+ l+++v+eag e +  ++ 
+  sp|Q54387|MGT_STRLI 33 HGHVNPSLEVIRELVARGHRVTYAIPRLLADKVAEAGAEPKLWNST 78
+                         6***********************************9876655555 PP
+
+>> sp|Q01330|CRTX_ESCVU  Zeaxanthin glucosyltransferase OS=Escherichia vulneris GN=crtX PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.1   0.2   2.9e-06    0.0017      15     125 ..      18     125 ..      13     129 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 23.1 bits;  conditional E-value: 2.9e-06
+                           HHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----.....S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC-- CS
+       Glyco_transf_28  15 avAlareLqrrGheVrlatppgleefv.eeagleavpigpd.....vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfgg 97 
+                           + Ala e  +rGh+V++ t +       e++ ++++p+++        +++  +s+++l++l +        + +l +  ++ + ++ +
+  sp|Q01330|CRTX_ESCVU  18 LHALALEMAQRGHRVTFLTGNVASLAEqETERVAFYPLPASvqqaqRNVQQ--QSNGNLLRLIAA-------MSSLTDVLCQQLPAILQ 97 
+                           78**************998887777778**********9998554333333..566666666666.......8888888888888888* PP
+
+                           --EEEE--HHHHHHHHHHHHHH----EE CS
+       Glyco_transf_28  98 yvadlaliaallagipanvaEqngipgl 125
+                           + a++ali +  + +   vaE++g+p++
+  sp|Q01330|CRTX_ESCVU  98 RLAVDALIVDEMEPAGSLVAEALGLPFI 125
+                           **************************97 PP
+
+>> sp|O31853|YOJK_BACSU  Uncharacterized UDP-glucosyltransferase yojK OS=Bacillus subtilis GN=yojK PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.5   0.0   0.00065      0.36       1      53 [.       4      56 ..       4     125 .. 0.82
+   2 ?    2.3   0.0       7.7   4.3e+03      30      98 ..     189     270 ..     181     275 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 15.5 bits;  conditional E-value: 0.00065
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE--- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigp 53
+                          v+++g++  G++ P++ +++eL+ rG +++  + ++++e++++  +e++++  
+  sp|O31853|YOJK_BACSU  4 VLMIGFPGEGHINPSIGVMKELKSRGENITYYAVKEYKEKITALDIEFREYHD 56
+                          678899999*********************9999999****999999999865 PP
+
+  == domain 2    score: 2.3 bits;  conditional E-value: 7.7
+                           EEEETGGGHHHHHH---EEEE----..............S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC--- CS
+       Glyco_transf_28  30 rlatppgleefveeagleavpigpd..............vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggy 98 
+                           ++ t++g+ +  e+ g  +v +gp               + + + l ++++ + + ++ + +++  e+ k++  +vv+++g+ 
+  sp|O31853|YOJK_BACSU 189 IVFTSRGFQPLAEQFGERYVFVGPSiteragnndfpfdqIDNENVL-FISMGTIFNNQKQFFNQCLEVCKDFDGKVVLSIGKH 270
+                           5778999999999999999999999999999999999887777766.999999999999999999999999999999998876 PP
+
+>> sp|B1YIY4|MTNA_EXIS2  Methylthioribose-1-phosphate isomerase OS=Exiguobacterium sibiricum (strain DSM 17290 / JCM 134
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.4   0.0   8.6e-05     0.049      19      70 ..     201     251 ..     190     271 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 18.4 bits;  conditional E-value: 8.6e-05
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSH CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkel 70 
+                            +eLqr+G++V+l+t + ++++++e+ ++a  +g+d +  +++++ +++ ++
+  sp|B1YIY4|MTNA_EXIS2 201 TWELQRAGIDVTLITDNMVAHTIKEKQITAIIVGAD-RITRNGDTANKIGTF 251
+                           69**********************************.888888776666555 PP
+
+>> sp|Q0WW21|UGAGT_ARATH  Anthocyanin 5-O-glucosyltransferase OS=Arabidopsis thaliana GN=UGT75C1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.6   0.0     7e-05     0.039       2      55 ..      15      74 ..      14     130 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 18.6 bits;  conditional E-value: 7e-05
+                           EEE-------HHHHHHHHHHHHH---EEE....EEETGGGHHHHHH---EEEE----..S CS
+        Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVr....latppgleefveeagleavpigpd..v 55
+                           +l+++++ G++ Pa+ la++L + G  V+    + +++++ e   ++gl++   + +  +
+  sp|Q0WW21|UGAGT_ARATH 15 LLVTFPAQGHINPALQLANRLIHHGATVTystaVSAHRRMGEPPSTKGLSFAWFTDGfdD 74
+                           799**********************************************99887776542 PP
+
+>> sp|Q9Z565|ILVC1_STRCO  Ketol-acid reductoisomerase 1 OS=Streptomyces coelicolor GN=ilvC1 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.0   0.0   0.00011     0.064       1      54 [.      20      70 ..      20     105 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 18.0 bits;  conditional E-value: 0.00011
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                           v+++g+G+ G+     A a  L++ G +Vr++ ++g +++   ee+gl +vp++  
+  sp|Q9Z565|ILVC1_STRCO 20 VAVIGYGSQGH-----AHALSLRDSGVDVRVGLHEGSKSKAkaEEQGLRVVPVAEA 70
+                           67888999998.....77999******************9999*********9876 PP
+
+>> sp|O05496|YDHE_BACSU  Uncharacterized UDP-glucosyltransferase ydhE OS=Bacillus subtilis GN=ydhE PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.3   0.0   9.1e-05     0.051       2      49 ..       5      52 ..       4     103 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 18.3 bits;  conditional E-value: 9.1e-05
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEE CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleav 49
+                          +++ +++ G+v P + + +++ ++G++V+ ++++++++++e+ag +++
+  sp|O05496|YDHE_BACSU  5 LILNFPAEGHVNPTLGITKAFSDKGYDVHYISTEKYKKRLEAAGATVH 52
+                          67778999************************************8865 PP
+
+>> sp|Q9FBT8|ILVC2_STRCO  Ketol-acid reductoisomerase 2 OS=Streptomyces coelicolor GN=ilvC2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.0   0.0   0.00011     0.064       1      54 [.      20      70 ..      20     105 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 18.0 bits;  conditional E-value: 0.00011
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                           v+++g+G+ G+     A a  L++ G +Vr++ ++g +++   ee+gl +vp++  
+  sp|Q9FBT8|ILVC2_STRCO 20 VAVIGYGSQGH-----AHALSLRDSGVDVRVGLHEGSKSKAkaEEQGLRVVPVAEA 70
+                           67888999998.....77999******************9999*********9876 PP
+
+>> sp|Q9SBL1|HMNGT_SORBI  Cyanohydrin beta-glucosyltransferase OS=Sorghum bicolor GN=UGT85B1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.5   0.1   7.8e-05     0.044       1      55 [.      13      83 ..      13     152 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 18.5 bits;  conditional E-value: 7.8e-05
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE----...............S CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavpigpd...............v 55
+                           vvl+ ++  G+v P++ lar L +rG +V+ + t+ ++++ ++++g +av  ++                +
+  sp|Q9SBL1|HMNGT_SORBI 13 VVLVPFPGQGHVAPLMQLARLLHARGARVTfVYTQYNYRRLLRAKGEAAVRPPATssarfrieviddglsL 83
+                           688889999*********************************99999988755554555555555555554 PP
+
+>> sp|B1I2P1|MTNA_DESAP  Methylthioribose-1-phosphate isomerase OS=Desulforudis audaxviator (strain MP104C) GN=mtnA PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.4   0.1   0.00034      0.19      18      62 ..     199     242 ..     184     278 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 16.4 bits;  conditional E-value: 0.00034
+                           HHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------. CS
+       Glyco_transf_28  18 lareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakle 62 
+                            a+eL+r+G+eV + + ++++  + + +gl+ v +g+d +++a+++
+  sp|B1I2P1|MTNA_DESAP 199 TAWELMREGIEV-VLVADNMAGYLmAREGLDLVIVGAD-RVAANGD 242
+                           69**********.667777777777*************.8888763 PP
+
+>> sp|A8AZU1|MUTL_STRGC  DNA mismatch repair protein mutL OS=Streptococcus gordonii (strain Challis / ATCC 35105 / CH1 /
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.0     0.015       8.6      55     127 ..     194     265 ..     129     268 .. 0.84
+   2 ?    2.6   0.0       6.1   3.5e+03     105     136 ..     315     346 ..     308     348 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.015
+                           S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  55 vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                            +  +    +++l+++ +g  +l  ak+ ++    d+++++ gyv+++ l+ a++++i + ++  +   +l n
+  sp|A8AZU1|MUTL_STRGC 194 REMTRTA-GSGNLRQAIAGIYGLATAKKMVEISASDLDFEVSGYVSLPELTRANRNYITILINGRYIKNFLLN 265
+                           4455544.789999999*******************************************9998887766666 PP
+
+  == domain 2    score: 2.6 bits;  conditional E-value: 6.1
+                           -HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28 105 iaallagipanvaEqngipglvnkllprrang 136
+                            a +++ i+a + Eq+ ip++   l + ++++
+  sp|A8AZU1|MUTL_STRGC 315 MALISQAIAASLKEQDLIPDALENLAKSTVKR 346
+                           67889****************99999888876 PP
+
+>> sp|Q01198|LIGD_PSEPA  C alpha-dehydrogenase OS=Pseudomonas paucimobilis GN=ligD PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.4   0.0   0.00034      0.19      20      91 ..     173     244 ..     171     279 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 16.4 bits;  conditional E-value: 0.00034
+                           HHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  20 reLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdv 91 
+                           ++L ++G+ V ++tp ++++ + e++ l   ++g+  ++ ++ es++ l ++++ + + +k+ e++k+  +d 
+  sp|Q01198|LIGD_PSEPA 173 QGLEKYGIGVSVCTPANIKSNIaEASRLRPAKYGTS-GYVENEESIASLHSIHQHGLEPEKLAEAIKKGVEDN 244
+                           689*********************************.9999999********************999877665 PP
+
+>> sp|Q83RR8|NPD_SHIFL  NAD-dependent deacetylase OS=Shigella flexneri GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.8   0.0    0.0021       1.2       2      31 ..     209     239 ..     209     254 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.8 bits;  conditional E-value: 0.0021
+                          EEE-------HHHHHHHHHHHHH--.-EEEE CS
+      Glyco_transf_28   2 vlaggGTrGdvePavAlareLqrrG.heVrl 31 
+                          v++++GT G+v+Pa+ + +e +  G h V+l
+  sp|Q83RR8|NPD_SHIFL 209 VFIAIGTSGHVYPAAGFVHEAKLHGaHTVEL 239
+                          789***************9999888344445 PP
+
+>> sp|C5D7U5|MTNA_GEOSW  Methylthioribose-1-phosphate isomerase OS=Geobacillus sp. (strain WCH70) GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.1   0.0   0.00042      0.24      19      69 ..     205     254 ..     198     280 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 16.1 bits;  conditional E-value: 0.00042
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCS CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlke 69 
+                            +eL+++G +V+l+t +  + ++++++++av +g+d + +a++++ +++ +
+  sp|C5D7U5|MTNA_GEOSW 205 TWELMQAGVDVTLITDNMAAQTIKAKNITAVIVGAD-RIAANGDTANKIGT 254
+                           69**********************************.88888877666655 PP
+
+>> sp|A3CR14|MUTL_STRSV  DNA mismatch repair protein mutL OS=Streptococcus sanguinis (strain SK36) GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.9   0.0     0.017       9.4      56     127 ..     195     265 ..     131     268 .. 0.87
+   2 ?    2.2   0.0       8.4   4.7e+03     105     136 ..     315     346 ..     309     348 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 10.9 bits;  conditional E-value: 0.017
+                           ------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  56 klwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           +  +    +++l+++ +g  +l  ak+ ++    d+++++ gyv+++ l+ a++++i + ++  +   +l n
+  sp|A3CR14|MUTL_STRSV 195 EMTRTA-GSGNLRQAIAGIYGLATAKKMVEISASDLDFEVSGYVSLPELTRANRNYITILINGRYIKNFLLN 265
+                           445544.7899999999******************************************9998887766666 PP
+
+  == domain 2    score: 2.2 bits;  conditional E-value: 8.4
+                           -HHHHHHHHHHHHHH----EEEEESSGGGSCC CS
+       Glyco_transf_28 105 iaallagipanvaEqngipglvnkllprrang 136
+                            a +++ i++ + Eq+ ip++   l + ++++
+  sp|A3CR14|MUTL_STRSV 315 MALISQAIATSLKEQDLIPDALENLAKSTVKR 346
+                           67889***************999998888876 PP
+
+>> sp|Q88M09|MTNA_PSEPK  Methylthioribose-1-phosphate isomerase OS=Pseudomonas putida (strain KT2440) GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.5   0.0   0.00066      0.37      19      69 ..     211     260 ..     205     290 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 15.5 bits;  conditional E-value: 0.00066
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCS CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlke 69 
+                           ++eL ++G+ V+l++  +l++  +++g++ v +g+d + +a++++ +++ +
+  sp|Q88M09|MTNA_PSEPK 211 GWELANEGIPVTLCADSALAHLMKTKGITWVVVGAD-CIAANGDMAGKIGT 260
+                           8***********************************.88888877776654 PP
+
+>> sp|Q5L1E6|MTNA_GEOKA  Methylthioribose-1-phosphate isomerase OS=Geobacillus kaustophilus GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.2   0.0    0.0008      0.45      18      69 ..     203     253 ..     197     288 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 15.2 bits;  conditional E-value: 0.0008
+                           HHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCS CS
+       Glyco_transf_28  18 lareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlke 69 
+                            a+eL+++G +V+l+t +  +  ++++g+ a  +g+d + ++++++ +++ +
+  sp|Q5L1E6|MTNA_GEOKA 203 TAWELMQAGVDVTLITDNMAAQAIKAKGIGAIIVGAD-RIAQNGDTANKIGT 253
+                           59***********************************.77777766665554 PP
+
+>> sp|Q8X8E0|NPD_ECO57  NAD-dependent deacetylase OS=Escherichia coli O157:H7 GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.2   0.0    0.0033       1.9       3      31 ..     210     239 ..     209     254 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.2 bits;  conditional E-value: 0.0033
+                          EE-------HHHHHHHHHHHHH--.-EEEE CS
+      Glyco_transf_28   3 laggGTrGdvePavAlareLqrrG.heVrl 31 
+                          ++++GT G+v+Pa+ + +e +  G h V+l
+  sp|Q8X8E0|NPD_ECO57 210 FIAIGTSGHVYPAAGFVHEAKLHGaHTVEL 239
+                          889**************9999888344445 PP
+
+>> sp|P75960|NPD_ECOLI  NAD-dependent deacetylase OS=Escherichia coli (strain K12) GN=npdA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   0.0    0.0031       1.8       3      33 ..     210     241 ..     209     264 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.0031
+                          EE-------HHHHHHHHHHHHH--.-EEEEEE CS
+      Glyco_transf_28   3 laggGTrGdvePavAlareLqrrG.heVrlat 33 
+                          ++++GT G+v+Pa+ + +e +  G h V+l  
+  sp|P75960|NPD_ECOLI 210 FIAIGTSGHVYPAAGFVHEAKLHGaHTVELNL 241
+                          889***************99988834454655 PP
+
+>> sp|Q5V467|MAMA1_HALMA  Methylaspartate mutase S chain 1 OS=Haloarcula marismortui GN=mamA1 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.3   0.5   0.00037      0.21       1      50 [.      10      61 ..      10     147 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 16.3 bits;  conditional E-value: 0.00037
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavp 50
+                           v+l ++G+  +v  +  l ++L ++G eV+ l+++ + +efv +++  +a++
+  sp|Q5V467|MAMA1_HALMA 10 VILGVIGSDAHVVGITILEQALSAAGFEVInLGVQTAQDEFVsAAKSHDAEA 61
+                           57889*************************************7555555554 PP
+
+>> sp|C0MAS4|MUTL_STRE4  DNA mismatch repair protein mutL OS=Streptococcus equi subsp. equi (strain 4047) GN=mutL PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.7   0.0    0.0012      0.65      50     127 ..     189     265 ..     150     268 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 14.7 bits;  conditional E-value: 0.0012
+                           E----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  50 pigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                            i  + +l +     + l+++++g  +l+ ak+ +   ++d+++++gg+v+++ l+ a++++i + ++  +   +l n
+  sp|C0MAS4|MUTL_STRE4 189 LISDGKQLTQTS-GAGDLRQALAGIYGLNTAKKMIDISSADLDFEVGGFVSLPELTRANRNYITILINGRYIKNFLLN 265
+                           555554555544.67889999********************************************9998887766666 PP
+
+>> sp|P0A2F2|NPD_SALTY  NAD-dependent deacetylase OS=Salmonella typhimurium GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   0.0    0.0025       1.4       3      36 ..     210     244 ..     209     259 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 13.6 bits;  conditional E-value: 0.0025
+                          EE-------HHHHHHHHHHHHH--.-EEEEEETGG CS
+      Glyco_transf_28   3 laggGTrGdvePavAlareLqrrG.heVrlatppg 36 
+                          ++++GT G+v+Pa+ + +e +  G h V+l  +p 
+  sp|P0A2F2|NPD_SALTY 210 FIAIGTSGHVYPAAGFVHEAKLHGaHTVELNLEPS 244
+                          889****************9998845555666665 PP
+
+>> sp|P0A2F3|NPD_SALTI  NAD-dependent deacetylase OS=Salmonella typhi GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   0.0    0.0025       1.4       3      36 ..     210     244 ..     209     259 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 13.6 bits;  conditional E-value: 0.0025
+                          EE-------HHHHHHHHHHHHH--.-EEEEEETGG CS
+      Glyco_transf_28   3 laggGTrGdvePavAlareLqrrG.heVrlatppg 36 
+                          ++++GT G+v+Pa+ + +e +  G h V+l  +p 
+  sp|P0A2F3|NPD_SALTI 210 FIAIGTSGHVYPAAGFVHEAKLHGaHTVELNLEPS 244
+                          889****************9998845555666665 PP
+
+>> sp|C0MGC4|MUTL_STRS7  DNA mismatch repair protein mutL OS=Streptococcus equi subsp. zooepidemicus (strain H70) GN=mut
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.5   0.0    0.0014      0.77      56     127 ..     195     265 ..     152     268 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 14.5 bits;  conditional E-value: 0.0014
+                           ------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  56 klwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           +l +     + l+++++g  +l+ ak+ +   ++d+++++gg+v+++ l+ a++++i + ++  +   +l n
+  sp|C0MGC4|MUTL_STRS7 195 QLTQTS-GTGDLRQALAGIYGLNTAKKMIDISSADLDFEVGGFVSLPELTRANRNYITILINGRYIKNFLLN 265
+                           444444.6678999999******************************************9998887766666 PP
+
+>> sp|Q65KK2|MTNA_BACLD  Methylthioribose-1-phosphate isomerase OS=Bacillus licheniformis (strain DSM 13 / ATCC 14580) G
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.1   0.0   0.00085      0.48      18      70 ..     204     255 ..     194     281 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 15.1 bits;  conditional E-value: 0.00085
+                           HHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSH CS
+       Glyco_transf_28  18 lareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkel 70 
+                            a+eL++ G++V+l+t    +++ +e++++av +g+d + ++++++ +++ ++
+  sp|Q65KK2|MTNA_BACLD 204 TAWELMQGGIDVTLITDSMAAHTMKEKNISAVIVGAD-RIARNGDTANKIGTF 255
+                           69***********************************.999988777766655 PP
+
+>> sp|B0KTX5|MTNA_PSEPG  Methylthioribose-1-phosphate isomerase OS=Pseudomonas putida (strain GB-1) GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.1   0.0   0.00089       0.5      19      63 ..     211     254 ..     204     293 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 15.1 bits;  conditional E-value: 0.00089
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.- CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakles 63 
+                           a+eL ++G+ V+l++  +l++  +++g++ v +g+d + +a+++ 
+  sp|B0KTX5|MTNA_PSEPG 211 AWELANEGIPVTLCADSALAHLMKTKGITWVVVGAD-CIAANGDV 254
+                           9***********************************.66665543 PP
+
+>> sp|B1J5G5|MTNA_PSEPW  Methylthioribose-1-phosphate isomerase OS=Pseudomonas putida (strain W619) GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.4   0.0   0.00072      0.41      19      64 ..     211     255 ..     204     291 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 15.4 bits;  conditional E-value: 0.00072
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-H CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwaklesl 64 
+                           a+eL ++G+ V+l++  +l++  +++g++ v +g+d + +a+++  
+  sp|B1J5G5|MTNA_PSEPW 211 AWELANEGIPVTLCADSALAHLMKSKGITWVVVGAD-CIAANGDVA 255
+                           9***********************************.666655444 PP
+
+>> sp|A5W7G2|MTNA_PSEP1  Methylthioribose-1-phosphate isomerase OS=Pseudomonas putida (strain F1 / ATCC 700007) GN=mtnA 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.1   0.0    0.0009      0.51      19      63 ..     211     254 ..     204     292 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 15.1 bits;  conditional E-value: 0.0009
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.- CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakles 63 
+                           a+eL ++G+ V+l++  +l++  +++g++ v +g+d + +a+++ 
+  sp|A5W7G2|MTNA_PSEP1 211 AWELANEGIPVTLCADSALAHLMKTKGITWVVVGAD-CIAANGDV 254
+                           9***********************************.66665543 PP
+
+>> sp|A4ILL1|MTNA_GEOTN  Methylthioribose-1-phosphate isomerase OS=Geobacillus thermodenitrificans (strain NG80-2) GN=mt
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.3   0.0    0.0015      0.86      18      69 ..     203     253 ..     197     287 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 14.3 bits;  conditional E-value: 0.0015
+                           HHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCS CS
+       Glyco_transf_28  18 lareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlke 69 
+                            a+eL+++G +V+l+t +  + ++++++++a  +g+d + ++++++ +++ +
+  sp|A4ILL1|MTNA_GEOTN 203 TAWELMQAGVDVTLITDNMAAQTIKAKNINAIIVGAD-RIAQNGDTANKIGT 253
+                           59***********************************.77776666555544 PP
+
+>> sp|B4U0J7|MUTL_STREM  DNA mismatch repair protein mutL OS=Streptococcus equi subsp. zooepidemicus (strain MGCS10565) 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.5   0.0    0.0014      0.77      56     127 ..     195     265 ..     153     268 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 14.5 bits;  conditional E-value: 0.0014
+                           ------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  56 klwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           +l +     + l+++++g  +l+ ak+ +   ++d+++++gg+v+++ l+ a++++i + ++  +   +l n
+  sp|B4U0J7|MUTL_STREM 195 QLTQTS-GTGDLRQALAGIYGLNTAKKMIDISSADLDFEVGGFVSLPELTRANRNYITILINGRYIKNFLLN 265
+                           444444.6678999999******************************************9998887766666 PP
+
+>> sp|Q8FIM4|NPD_ECOL6  NAD-dependent deacetylase OS=Escherichia coli O6 GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.2   0.0    0.0033       1.9       3      31 ..     210     239 ..     209     254 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.2 bits;  conditional E-value: 0.0033
+                          EE-------HHHHHHHHHHHHH--.-EEEE CS
+      Glyco_transf_28   3 laggGTrGdvePavAlareLqrrG.heVrl 31 
+                          ++++GT G+v+Pa+ + +e +  G h V+l
+  sp|Q8FIM4|NPD_ECOL6 210 FIAIGTSGHVYPAAGFVHEAKLHGaHTVEL 239
+                          889**************9999888344445 PP
+
+>> sp|B2GFJ7|ILVC_KOCRD  Ketol-acid reductoisomerase OS=Kocuria rhizophila (strain ATCC 9341 / DSM 348 / NBRC 103217 / D
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.6   0.0    0.0013      0.72       1      55 [.      20      83 ..      20     110 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 14.6 bits;  conditional E-value: 0.0013
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----............S CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd............v 55
+                          v+++g+G+ G+     A a  L++ G +Vr++  +g +++   e++gl++ +i+              +
+  sp|B2GFJ7|ILVC_KOCRD 20 VAIIGYGSQGH-----AHALNLRDSGVDVRIGLNEGSKSRAkaEAEGLQVMSIAEAakeadvimiltpD 83
+                          57888888888.....7799********************99999****99998773333333333332 PP
+
+>> sp|B1VZ72|ILVC_STRGG  Ketol-acid reductoisomerase OS=Streptomyces griseus subsp. griseus (strain JCM 4626 / NBRC 1335
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.7   0.0    0.0012      0.67       1      50 [.      20      66 ..      20     103 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 14.7 bits;  conditional E-value: 0.0012
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavp 50
+                          v+++g+G+ G+     A a  L++ G +Vr++ ++g +++   ee+gl +v+
+  sp|B1VZ72|ILVC_STRGG 20 VAVLGYGSQGH-----AHALSLRDSGVDVRVGLHEGSKSKAkaEEQGLRVVT 66
+                          67889999999.....77999******************9988999998864 PP
+
+>> sp|Q59818|ILVC_STRAW  Ketol-acid reductoisomerase OS=Streptomyces avermitilis GN=ilvC PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.5   0.0    0.0013      0.73       1      50 [.      20      66 ..      20     106 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 14.5 bits;  conditional E-value: 0.0013
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavp 50
+                          v+++g+G+ G+     A a  L++ G +Vr++ ++g +++   ee+gl +v+
+  sp|Q59818|ILVC_STRAW 20 VAVIGYGSQGH-----AHALSLRDSGVDVRVGLHEGSKSKAkaEEQGLRVVT 66
+                          67888999998.....77999******************9988999998864 PP
+
+>> sp|Q731R7|MTNA_BACC1  Methylthioribose-1-phosphate isomerase OS=Bacillus cereus (strain ATCC 10987) GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   0.0    0.0052       2.9      19      65 ..     205     250 ..     203     298 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 12.6 bits;  conditional E-value: 0.0052
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HH CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslk 65 
+                            +eL+++G++V+l+t +  ++ + +++++a  +g+d +  a++++ +
+  sp|Q731R7|MTNA_BACC1 205 TWELKQAGIDVTLITDNTAAHAIQTKEINAIIVGAD-RIVANGDTAN 250
+                           59**********************************.6666554444 PP
+
+>> sp|B1GZW3|TPIS_UNCTG  Triosephosphate isomerase OS=Uncultured termite group 1 bacterium phylotype Rs-D17 GN=tpiA PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.8   0.0    0.0011       0.6      10      85 ..     119     194 ..     117     214 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 14.8 bits;  conditional E-value: 0.0011
+                           --HHHHHHHHHHHHH---EEE.....EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  10 GdvePavAlareLqrrGheVr.....latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilk 85 
+                            d+ P+v ++++L++r+ +V+       + +gl++ +  +a l++ +++p    wa + + kt ++ +++  +++++ + + 
+  sp|B1GZW3|TPIS_UNCTG 119 ADITPIVCVGETLKERENNVTfsvieKQVRNGLADLTlQQASLTVIAYEPV---WAIG-TGKTATPDQAQ--EVHSFIRKIY 194
+                           7********************77433346789999999*******999999...7744.44444443333..5555544443 PP
+
+>> sp|Q2IWS4|GLYA_RHOP2  Serine hydroxymethyltransferase OS=Rhodopseudomonas palustris (strain HaA2) GN=glyA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.5   0.0     0.011       6.3      13     108 ..      25     121 ..      22     126 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.5 bits;  conditional E-value: 0.011
+                           HHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC--- CS
+       Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggy 98 
+                           e a+A+  eL r+ heV+l+++++++++   e++g  +   ++ + +++++     +++++ae+  a+++ak+++   +++v    g++
+  sp|Q2IWS4|GLYA_RHOP2  25 EIAAAIKGELGRQRHEVELIASENIVSRAvlEAQGSVMTNkYAEGYPGARYY-GGCEFVDVAEN-LAIERAKKLFGAGFANVQPNSGSQ 111
+                           7899**********************99887666654444577777777777.88889999998.999999999999999999999998 PP
+
+                           -EEEE--HHH CS
+       Glyco_transf_28  99 vadlaliaal 108
+                            + ++++a l
+  sp|Q2IWS4|GLYA_RHOP2 112 MNQAVFLALL 121
+                           8888888765 PP
+
+>> sp|A7GS56|MTNA_BACCN  Methylthioribose-1-phosphate isomerase OS=Bacillus cereus subsp. cytotoxis (strain NVH 391-98) 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   0.0    0.0025       1.4      19      66 ..     205     251 ..     198     283 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 13.6 bits;  conditional E-value: 0.0025
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHH CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslkt 66 
+                            +eL+++G +V+l+t +  ++++++++++a  +g+d +  a++++ ++
+  sp|A7GS56|MTNA_BACCN 205 TWELREAGVDVTLITDNMAAHTIRTKNISAIIVGAD-RIVANGDTANK 251
+                           69**********************************.66666655444 PP
+
+>> sp|B7KF23|ILVC_CYAP7  Ketol-acid reductoisomerase OS=Cyanothece sp. (strain PCC 7424) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.3   0.0    0.0015      0.85       1      61 [.      20      76 ..      20     110 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 14.3 bits;  conditional E-value: 0.0015
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------ CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakl 61
+                          v+++g+G+ G+     A a  L++ G++V+++  pg ++    eeagl++++++    ++a +
+  sp|B7KF23|ILVC_CYAP7 20 VAIIGYGSQGH-----AHALNLKDSGIDVIVGLYPGSKSAKkaEEAGLTVHSVADA-AAKADW 76
+                          57888888888.....7799***************99987777*********9998.555433 PP
+
+>> sp|A5W1E8|RNZ_PSEP1  Ribonuclease Z OS=Pseudomonas putida (strain F1 / ATCC 700007) GN=rnz PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.1   0.0    0.0018         1      23     126 ..     138     237 ..     132     244 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 14.1 bits;  conditional E-value: 0.0018
+                          HH---EEE.EEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHH CS
+      Glyco_transf_28  23 qrrGheVr.latppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallag 111
+                           +r + V  + t+ + e+++  + l+a+ i+ + +lw   e  k l+ +++g  +l   +  l++ +p   v ++g  + +al+aa ++g
+  sp|A5W1E8|RNZ_PSEP1 138 SHRVPSVGfVFTEINPEPRLDIQRLDAEGIPRG-PLWG--ELAKGLTVTFNG--QLLNGNDYLRPSRPPQRVIVCGDNDKPALLAAVARG 222
+                          455555555556666666777777888888888.****..88**********..************************************ PP
+
+                          HHHHHHHH----EEE CS
+      Glyco_transf_28 112 ipanvaEqngipglv 126
+                          + + v+E+     +v
+  sp|A5W1E8|RNZ_PSEP1 223 ADVLVHEATFTQAVV 237
+                          *******98766655 PP
+
+>> sp|B3QSP0|ILVC_CHLT3  Ketol-acid reductoisomerase OS=Chloroherpeton thalassium (strain ATCC 35110 / GB-78) GN=ilvC PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   0.0    0.0028       1.6       2      52 ..      20      67 ..      19     101 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 0.0028
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE-- CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpig 52
+                          +++g+G+ G+     A a  L++ G +V+++ +++ +++v  e+agl +++ +
+  sp|B3QSP0|ILVC_CHLT3 20 AVLGFGSQGH-----AHALNLKDSGMNVCVGLKENSASWVkaEKAGLMVEKTA 67
+                          6777777777.....7799**********************99***9887755 PP
+
+>> sp|O31662|MTNA_BACSU  Methylthioribose-1-phosphate isomerase OS=Bacillus subtilis GN=mtnA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.0     0.008       4.5      19      63 ..     205     248 ..     198     257 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.008
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.- CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakles 63 
+                           a+eL++ G++V+l+t    +++ +e+ ++av +g+d + ++++++
+  sp|O31662|MTNA_BACSU 205 AWELMQGGIDVTLITDSMAAHTMKEKQISAVIVGAD-RIAKNGDT 248
+                           9***********************************.76665544 PP
+
+>> sp|C1F6Z5|ILVC_ACIC5  Ketol-acid reductoisomerase OS=Acidobacterium capsulatum (strain ATCC 51196 / DSM 11244 / JCM 7
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.0   0.1     0.004       2.2       1      60 [.      20      75 ..      20     105 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 13.0 bits;  conditional E-value: 0.004
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S----- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwak 60
+                          v+++g+G+ G+     A a +L++ G eVr++  p+ ++    ++agle+ +++    +wa 
+  sp|C1F6Z5|ILVC_ACIC5 20 VAIIGYGSQGH-----AHALGLKDSGVEVRVGLAPNSRSIEkaKKAGLETGTVAEV-AAWAD 75
+                          67888999998.....77899*********999988876555599***99998888.77774 PP
+
+>> sp|Q2G3S7|PYRB_NOVAD  Aspartate carbamoyltransferase OS=Novosphingobium aromaticivorans (strain DSM 12444) GN=pyrB PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    4.0   0.0       2.3   1.3e+03      63     125 ..      93     143 ..      67     145 .. 0.65
+   2 ?    8.6   0.0      0.09        50      22      47 ..     199     225 ..     196     282 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 4.0 bits;  conditional E-value: 2.3
+                           -HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EE CS
+       Glyco_transf_28  63 slktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipgl 125
+                           + ++ +++ +g ++            +d+ +      ad+++i  +++g+++ +aE+ + p l
+  sp|Q2G3S7|PYRB_NOVAD  93 MHAATSSVKKG-ET-----------LIDTAMTLNAMRADAIVIRHASSGAVRLIAEKVDCPVL 143
+                           44444444444.33...........33444445555699******************999976 PP
+
+  == domain 2    score: 8.6 bits;  conditional E-value: 0.09
+                           HHH---EEEEEETGGGHHHH.HH---E CS
+       Glyco_transf_28  22 LqrrGheVrlatppgleefv.eeagle 47 
+                           L + G eVr+++pp+l++   e+ g++
+  sp|Q2G3S7|PYRB_NOVAD 199 LTALGAEVRVCAPPALMPAEiEAMGVT 225
+                           8899*************9998999986 PP
+
+>> sp|Q96LB3|IFT74_HUMAN  Intraflagellar transport protein 74 homolog OS=Homo sapiens GN=IFT74 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    3.2   0.2       4.2   2.4e+03      56      96 ..     349     387 ..     252     421 .. 0.79
+   2 ?    9.6   0.0     0.044        25      28      87 ..     505     562 ..     499     572 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 3.2 bits;  conditional E-value: 4.2
+                            ------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC- CS
+        Glyco_transf_28  56 klwakleslktlkelaeglkalrkakeilkeakpdvvvgfg 96 
+                            +++   e+++++kel ++ +++  + e+++e k + + + +
+  sp|Q96LB3|IFT74_HUMAN 349 EHQG--EMNQKYKELKKREEHMDTFIETFEETKNQELKRKA 387
+                            5666..89**********99999999999999977665544 PP
+
+  == domain 2    score: 9.6 bits;  conditional E-value: 0.044
+                            EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+        Glyco_transf_28  28 eVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                            +++l t+++  +++ e++++e+++++++  l+++  + + l++l +++++l++ ++++ke+
+  sp|Q96LB3|IFT74_HUMAN 505 RMILSTHRNAFKKImEKQNIEYEALKTQ--LQENE-THSQLTNLERKWQHLEQNNFAMKEF 562
+                            46799***********************..66655.*****************99999987 PP
+
+>> sp|A9AZM5|ILVC_HERA2  Ketol-acid reductoisomerase OS=Herpetosiphon aurantiacus (strain ATCC 23779 / DSM 785) GN=ilvC 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   0.1    0.0028       1.6       1      57 [.      20      73 ..      20     110 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 0.0028
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvkl 57
+                          v+++g+G+ G+     A a  L++ G +V ++ ++g +++   e+agl++ ++g  +k+
+  sp|A9AZM5|ILVC_HERA2 20 VAIIGYGSQGH-----AHALNLKDSGVQVVVGLHEGSKSKAkaEAAGLQVLSVGEATKA 73
+                          57888888888.....7799*******************9999******9999987443 PP
+
+>> sp|B8HSQ9|SURE_CYAP4  5'-nucleotidase surE OS=Cyanothece sp. (strain PCC 7425 / ATCC 29141) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.2   0.0    0.0069       3.9      18      59 ..      19      69 ..      15      96 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 12.2 bits;  conditional E-value: 0.0069
+                          HHHHHHH---EEEEEETGGGHHHHHH---E.EEE----.........S---- CS
+       Glyco_transf_28 18 lareLqrrGheVrlatppgleefveeagle.avpigpd.........vklwa 59
+                          la++L ++GheV ++++p+ e+  + +gl+ + pi ++         vk+wa
+  sp|B8HSQ9|SURE_CYAP4 19 LADTLAAAGHEV-MVVCPDRERSATGHGLTlFDPIRAEavaslfhpsVKAWA 69
+                          89**********.****************94566887766666666655555 PP
+
+>> sp|Q3SPL2|UVRC_NITWN  UvrABC system protein C OS=Nitrobacter winogradskyi (strain Nb-255 / ATCC 25391) GN=uvrC PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.0    0.0043       2.4      14      73 ..     601     661 ..     600     667 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.0043
+                           HHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE.----S------.-HHHCCSHHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv.eeagleavp.igpdvklwakleslktlkelaeg 73 
+                           P + + ++L+++ h+  ++++++l+++  +eagl+ vp igp  + +a l++++tlke+ + 
+  sp|Q3SPL2|UVRC_NITWN 601 PVLYFIQRLRDEAHRFVIGSHRKLRRKDiREAGLQEVPgIGPA-RKRALLHHFGTLKEIERA 661
+                           6777899*****************99988**************.9999999*****998765 PP
+
+>> sp|A7Z3X0|MTNA_BACA2  Methylthioribose-1-phosphate isomerase OS=Bacillus amyloliquefaciens (strain FZB42) GN=mtnA PE=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   0.0     0.005       2.8      19      63 ..     205     248 ..     198     262 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 12.6 bits;  conditional E-value: 0.005
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.- CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakles 63 
+                           a+eL++ G++V+l+t    +++ +e++++av +g+d + ++++++
+  sp|A7Z3X0|MTNA_BACA2 205 AWELMQGGIDVTLITDSMAAHTMKEKHISAVIVGAD-RIAKNGDT 248
+                           9***********************************.76666554 PP
+
+>> sp|Q38W65|EFTS_LACSS  Elongation factor Ts OS=Lactobacillus sakei subsp. sakei (strain 23K) GN=tsf PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    8.8   0.1     0.078        44      21     118 ..      40     134 ..      36     138 .. 0.77
+   2 ?    3.9   0.0       2.5   1.4e+03      27     122 ..     177     262 ..     159     273 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 8.8 bits;  conditional E-value: 0.078
+                           HHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHH.HHHHHHHHHHHHHHHHHHC----EEEE--HHH CS
+       Glyco_transf_28  21 eLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglka.lrkakeilkeakpdvvvgfggyvadlaliaal 108
+                           +L+++G    +a   +  ++++++gl+ v+i++++ +  +++s + ++   +++ka l+++ e+++++kp+  +++++   +  +ia++
+  sp|Q38W65|EFTS_LACSS  40 ALREKG----MAKAAKKNDRIAAEGLAGVAIDGNTAAIVEVNSETDFVASNDQFKAlLKDIAETIAKNKPADMAAAEELPMGEGTIASS 124
+                           677777....99999999****************555555566666666666666525679999*******999999888888888887 PP
+
+                           HHHHHHHHHH CS
+       Glyco_transf_28 109 lagipanvaE 118
+                             +  a++ E
+  sp|Q38W65|EFTS_LACSS 125 VINLTAVIGE 134
+                           7777666666 PP
+
+  == domain 2    score: 3.9 bits;  conditional E-value: 2.5
+                           -EEEEEETGGGHHHHHH---EEEE----.......S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHH CS
+       Glyco_transf_28  27 heVrlatppgleefveeagleavpigpd.......vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaal 108
+                           h+V + ++      v  + ++a++++ +       +k+    +  + ++ + eg     ++++ l+e +           +d+a+i ++
+  sp|Q38W65|EFTS_LACSS 177 HDVAMHVSAVNPQYVSREDVPAETLDHErevlteeTKNEG--KPENIIPKIVEG-----RVNKFLSEIS----------LNDQAFIKDS 248
+                           5555555555555555555555555555555554444444..556666666666.....5555555555..........78999***** PP
+
+                           HHHHHHHHHHH--- CS
+       Glyco_transf_28 109 lagipanvaEqngi 122
+                            ++++ +va +ng 
+  sp|Q38W65|EFTS_LACSS 249 DQTVAQFVASKNGS 262
+                           *********99973 PP
+
+>> sp|C3JYK1|TIG_PSEFS  Trigger factor OS=Pseudomonas fluorescens (strain SBW25) GN=tig PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.2   0.0    0.0033       1.9      44     126 ..     121     199 ..      99     208 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 13.2 bits;  conditional E-value: 0.0033
+                          ---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEE CS
+      Glyco_transf_28  44 agleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglv 126
+                          +g++++ + ++  ++     l++++e++++ ++++++ e  +++++++ ++f+g v++ a+ + ++ g ++++   + ipg+ 
+  sp|C3JYK1|TIG_PSEFS 121 DGIAIERLSAE--VAD--SDLDNMLEILRKQNTRFEVAERAAQNEDQLNIDFVGKVDGEAFAGGSAKGTQLVLGSNRMIPGFE 199
+                          56677777777..666..5899**********************************************************985 PP
+
+>> sp|Q1GZA6|BIOB_METFK  Biotin synthase OS=Methylobacillus flagellatus (strain KT / ATCC 51484 / DSM 6875) GN=bioB PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.4   0.0     0.003       1.7      11      97 ..     131     219 ..     131     299 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 13.4 bits;  conditional E-value: 0.003
+                           -HHHHHHHHHHHHH---EEE..EE.ETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC- CS
+       Glyco_transf_28  11 dvePavAlareLqrrGheVr..la.tppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfg 96 
+                           d+eP +A+ re+++ G e +  l+  ++g +e+++eagl+++  ++d +++++   + t ++ +++l++l +++e   + ++  ++g+g
+  sp|Q1GZA6|BIOB_METFK 131 DLEPVLAMIREVKAMGLETCatLGmLKDGQAEQLKEAGLDYYNHNLD-TAPEYYGEVITTRTYQDRLDTLDRVREQDINVCCGGIIGMG 218
+                           89********************873578888899*********9999.77776666666677777777777776666666666666666 PP
+
+                           - CS
+       Glyco_transf_28  97 g 97 
+                           +
+  sp|Q1GZA6|BIOB_METFK 219 E 219
+                           4 PP
+
+>> sp|Q635P7|MTNA2_BACCZ  Methylthioribose-1-phosphate isomerase 2 OS=Bacillus cereus (strain ZK / E33L) GN=mtnA2 PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.8   0.0    0.0044       2.5      19      66 ..     205     251 ..     203     311 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.8 bits;  conditional E-value: 0.0044
+                            HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHH CS
+        Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslkt 66 
+                             +eL+++G++V+l+t +  ++ + +++++a  +g+d +  a++++ ++
+  sp|Q635P7|MTNA2_BACCZ 205 TWELKQAGIDVTLITDNTAAHAIQTKEINAIIVGAD-RIVANGDTANK 251
+                            59**********************************.66665544444 PP
+
+>> sp|O48676|HTGT_ARATH  N-hydroxythioamide S-beta-glucosyltransferase OS=Arabidopsis thaliana GN=UGT74B1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   0.0    0.0032       1.8       1      73 [.      12      87 ..      12     130 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.0032
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....S------.-HHHCCSHHHH CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpd.....vklwakleslktlkelaeg 73
+                          vv++ ++  G++ P v +a++L  +  +V++at+   ++ +++  l+++pi  +     ++ +   +s++t++e ++ 
+  sp|O48676|HTGT_ARATH 12 VVILPYPVQGHLNPMVQFAKRLVSKNVKVTIATTTYTASSITTPSLSVEPISDGfdfipIGIPG--FSVDTYSESFKL 87
+                          678889999******************************************9987777744444..444444444444 PP
+
+>> sp|Q8YRC9|THIOG_ANASP  Bifunctional protein thiO/thiG OS=Anabaena sp. (strain PCC 7120) GN=thiO/thiG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    3.9   0.0       2.5   1.4e+03      16      33 ..      15      32 ..      12      74 .. 0.80
+   2 ?    7.1   0.0      0.25   1.4e+02      87     133 ..     315     361 ..     290     366 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 3.9 bits;  conditional E-value: 2.5
+                           HHHHHHHHH---EEEEEE CS
+        Glyco_transf_28 16 vAlareLqrrGheVrlat 33
+                           +A+a+eL+ rG eV+++ 
+  sp|Q8YRC9|THIOG_ANASP 15 LAIAVELKLRGAEVTVIC 32
+                           8*************9543 PP
+
+  == domain 2    score: 7.1 bits;  conditional E-value: 0.25
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGG CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprr 133
+                            ++p++++++g y ++ +l   ++a i+  + Eq + p+l++++++r 
+  sp|Q8YRC9|THIOG_ANASP 315 HCPNLTLATGHYRNGILLAPITAALIADLIVEQKSDPLLSHFHYSRS 361
+                            78999**************************************9985 PP
+
+>> sp|Q8DW43|ILVC_STRMU  Ketol-acid reductoisomerase OS=Streptococcus mutans GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0     0.019        11       1      54 [.      21      70 ..      21     103 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.019
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGG.GHHHHHH---EEEE---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppg.leefveeagleavpigpd 54
+                          ++++g+G+ G+     A a+ L++ Gh+V++++  g   ++ +e+g +++++g  
+  sp|Q8DW43|ILVC_STRMU 21 IAVIGYGSQGH-----AHAQNLRDSGHDVIIGVRHGkSFDKAKEDGFDTYEVGEA 70
+                          57888899888.....88**************96541445557777777776655 PP
+
+>> sp|Q81MJ6|MTNA2_BACAN  Methylthioribose-1-phosphate isomerase 2 OS=Bacillus anthracis GN=mtnA2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.0    0.0041       2.3      19      66 ..     205     251 ..     203     308 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.0041
+                            HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHH CS
+        Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslkt 66 
+                             +eL+++G++V+l+t +  ++ + +++++a  +g+d +  a++++ ++
+  sp|Q81MJ6|MTNA2_BACAN 205 TWELKQAGIDVTLITDNTAAHAIQTKEISAIIVGAD-RIVANGDTANK 251
+                            59**********************************.66665544444 PP
+
+>> sp|Q6N693|GLYA1_RHOPA  Serine hydroxymethyltransferase 1 OS=Rhodopseudomonas palustris GN=glyA1 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.2   0.0     0.014       7.7      13     107 ..      24     119 ..      21     125 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 11.2 bits;  conditional E-value: 0.014
+                            HHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC-- CS
+        Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfgg 97 
+                            e a+A+  eL r+ heV+l+++++++++   e++g  +   ++ + +++++     +++++ae+  a+ +ak+++  ++++v    g+
+  sp|Q6N693|GLYA1_RHOPA  24 EIAAAIRGELGRQRHEVELIASENIVSRAvlEAQGSVMTNkYAEGYPGNRYY-GGCEFVDVAEN-LAIDRAKKLFGANFANVQPNSGS 109
+                            7899**********************99886666654444577776677777.78888888888.89999999999999999988888 PP
+
+                            --EEEE--HH CS
+        Glyco_transf_28  98 yvadlaliaa 107
+                            + + ++++a 
+  sp|Q6N693|GLYA1_RHOPA 110 QMNQAVFLAL 119
+                            8888888876 PP
+
+>> sp|B0C915|MURD_ACAM1  UDP-N-acetylmuramoylalanine--D-glutamate ligase OS=Acaryochloris marina (strain MBIC 11017) GN=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.1   0.0    0.0035         2      16      73 ..      14      69 ..      12     109 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 13.1 bits;  conditional E-value: 0.0035
+                          HHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHH CS
+       Glyco_transf_28 16 vAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlkelaeg 73
+                          +A ar L+r+G++V ++     e  v +++ l+a+ i++   l+ k+ sl++l el   
+  sp|B0C915|MURD_ACAM1 14 IAAARLLRREGWQVSVGDAGHSEGLVaTQKTLAAEGIPVH--LNLKF-SLSALAELSLD 69
+                          7999**********************************99..44444.55665555444 PP
+
+>> sp|Q2KA25|GLYA_RHIEC  Serine hydroxymethyltransferase OS=Rhizobium etli (strain CFN 42 / ATCC 51251) GN=glyA PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.4   0.0    0.0061       3.5      13     108 ..      20     116 ..      16     121 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 12.4 bits;  conditional E-value: 0.0061
+                           HHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC--- CS
+       Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggy 98 
+                           e + A+++eL r+ he++l+++++++++   e++g  +   ++ + +++++      ++++ae+  a+++ak+++  ++++v    g++
+  sp|Q2KA25|GLYA_RHIEC  20 EIFGAIGKELGRQRHEIELIASENIVSRAvlEAQGSIMTNkYAEGYPGKRYY-GGCQFVDIAEE-LAIERAKKLFGVNFANVQPNSGSQ 106
+                           56779*********************99887766655544588888888888.88899999999.999999999999999999999999 PP
+
+                           -EEEE--HHH CS
+       Glyco_transf_28  99 vadlaliaal 108
+                            + ++++a l
+  sp|Q2KA25|GLYA_RHIEC 107 MNQAVFLALL 116
+                           9999998865 PP
+
+>> sp|Q214H7|GLYA_RHOPB  Serine hydroxymethyltransferase OS=Rhodopseudomonas palustris (strain BisB18) GN=glyA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.5   0.0     0.011       6.5      13     107 ..      32     127 ..      28     133 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 11.5 bits;  conditional E-value: 0.011
+                           HHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC--- CS
+       Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggy 98 
+                           e a+A+a eL r+ he++l+++++++++   e++g  +   ++ + ++ ++     +++++ae+  a+++ak+++   +++v    g++
+  sp|Q214H7|GLYA_RHOPB  32 EIAAAIAGELGRQRHEIELIASENIVSRAvmEAQGSVMTNkYAEGYPGHRYY-GGCEFVDVAEN-LAIERAKKLFGAGFANVQPNSGSQ 118
+                           789**********************999888777755554477775666666.77788888888.899999999999999988888888 PP
+
+                           -EEEE--HH CS
+       Glyco_transf_28  99 vadlaliaa 107
+                            + ++++a 
+  sp|Q214H7|GLYA_RHOPB 119 MNQAVFLAL 127
+                           888888876 PP
+
+>> sp|B9DW70|MUTL_STRU0  DNA mismatch repair protein mutL OS=Streptococcus uberis (strain ATCC BAA-854 / 0140J) GN=mutL 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.2   0.0    0.0067       3.8      65     127 ..     203     265 ..     151     268 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 12.2 bits;  conditional E-value: 0.0067
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           + lk++ +g  +l+ ak+ ++  ++d+++++ gyv+++ l+ a++++i + ++  +   +l n
+  sp|B9DW70|MUTL_STRU0 203 GDLKQAIAGIYGLNTAKKMIEISNADLDFEVSGYVSLPELTRANRNYITILINGRYIKNFLLN 265
+                           5788888999999*************************************9998887766666 PP
+
+>> sp|A0RI38|MTNA2_BACAH  Methylthioribose-1-phosphate isomerase 2 OS=Bacillus thuringiensis (strain Al Hakam) GN=mtnA2 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.8   0.0    0.0046       2.6      19      66 ..     205     251 ..     203     307 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 12.8 bits;  conditional E-value: 0.0046
+                            HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHH CS
+        Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslkt 66 
+                             +eL+++G++V+l+t +  ++ + +++++a  +g+d +  a++++ ++
+  sp|A0RI38|MTNA2_BACAH 205 TWELKQAGIDVTLITDNTAAHAIQTKEINAIIVGAD-RIVANGDTANK 251
+                            59**********************************.66665544444 PP
+
+>> sp|Q6HED3|MTNA2_BACHK  Methylthioribose-1-phosphate isomerase 2 OS=Bacillus thuringiensis subsp. konkukian GN=mtnA2 P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.8   0.0    0.0046       2.6      19      66 ..     205     251 ..     203     307 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 12.8 bits;  conditional E-value: 0.0046
+                            HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHH CS
+        Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslkt 66 
+                             +eL+++G++V+l+t +  ++ + +++++a  +g+d +  a++++ ++
+  sp|Q6HED3|MTNA2_BACHK 205 TWELKQAGIDVTLITDNTAAHAIQTKEINAIIVGAD-RIVANGDTANK 251
+                            59**********************************.66665544444 PP
+
+>> sp|Q1QIR5|UVRC_NITHX  UvrABC system protein C OS=Nitrobacter hamburgensis (strain X14 / DSM 10229) GN=uvrC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.0    0.0042       2.4      14      73 ..     602     662 ..     601     669 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.0042
+                           HHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE.----S------.-HHHCCSHHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv.eeagleavp.igpdvklwakleslktlkelaeg 73 
+                           P + + ++L+++ h+  ++++++l+++  +eagl+ vp igp  + +a l++++tlke+ + 
+  sp|Q1QIR5|UVRC_NITHX 602 PVLYFIQRLRDEAHRFVIGSHRKLRRKDiREAGLQEVPgIGPA-RKRALLHHFGTLKEIERA 662
+                           6777899*****************99988**************.9999999*****998765 PP
+
+>> sp|A8AVN4|ILVC_STRGC  Ketol-acid reductoisomerase OS=Streptococcus gordonii (strain Challis / ATCC 35105 / CH1 / DL1 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0085       4.8       1      50 [.      21      66 ..      21     118 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0085
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGH.HHHHH---EEEE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgle.efveeagleavp 50
+                          ++++g+G+ G+     A a+ L++ Gh+V++++ pg   ++ +e+g ++++
+  sp|A8AVN4|ILVC_STRGC 21 IAVIGYGSQGH-----AHAQNLRDTGHDVIIGVRPGKSfDKAKEDGFDTYT 66
+                          57888889888.....88***************997431333666655555 PP
+
+>> sp|Q7V5V5|MURD_PROMM  UDP-N-acetylmuramoylalanine--D-glutamate ligase OS=Prochlorococcus marinus (strain MIT 9313) GN
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.0     0.024        13      17      68 ..      40      90 ..      34     134 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.024
+                          HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCC CS
+       Glyco_transf_28 17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlk 68
+                          +la  L+ +G+ V+l+ p +l +f+   + l+av i p+  +w +  +l++l+
+  sp|Q7V5V5|MURD_PROMM 40 SLAADLRLQGIAVELGKPLELNSFIpLLDQLDAVVISPG-IAWDHP-TLTALR 90
+                          7999***********************************.777766.666665 PP
+
+>> sp|Q47SB6|ILVC_THEFY  Ketol-acid reductoisomerase OS=Thermobifida fusca (strain YX) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.1    0.0043       2.4       1      50 [.      21      67 ..      21      91 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.0043
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavp 50
+                          v+++g+G+ G+     A a  L++ G +Vr++ p+  +++   ee+gl +v+
+  sp|Q47SB6|ILVC_THEFY 21 VAVIGYGSQGH-----AHALSLRDSGVDVRVGLPESSKSRAkaEEDGLRVVT 67
+                          67888999998.....77999******************9999999998875 PP
+
+>> sp|A4FMQ5|ILVC_SACEN  Ketol-acid reductoisomerase OS=Saccharopolyspora erythraea (strain NRRL 23338) GN=ilvC PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   0.0    0.0032       1.8       1      47 [.      21      64 ..      21      92 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.0032
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---E CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagle 47
+                          v+++g+G+ G+     A a  L++ G +Vr++ p+g +++   ee+gl 
+  sp|A4FMQ5|ILVC_SACEN 21 VAVIGYGSQGH-----AHALSLRDSGADVRIGLPEGSKSRAkaEEEGLR 64
+                          67888999998.....77999*******************987888875 PP
+
+>> sp|Q5V3R4|TRM56_HALMA  tRNA ribose 2'-O-methyltransferase aTrm56 OS=Haloarcula marismortui GN=rrnAC0857 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.8   0.0    0.0022       1.3      30     121 ..      11     103 ..       1     116 [. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 13.8 bits;  conditional E-value: 0.0022
+                            EEEETGGGHHHH.HH---EEEE----....S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHH CS
+        Glyco_transf_28  30 rlatppgleefv.eeagleavpigpd....vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagi 112
+                            rl+  pg +e+  +  gl+a+++g+d      +++  ++ +t+ ++ +++ + +++  + ++++  ++ +f+g+v  l +++ + +++
+  sp|Q5V3R4|TRM56_HALMA  11 RLGHRPGRDERMtTHVGLTARALGADkvvlANAAR--NQADTVIDITDRFGGPFDVASTEEPKR--LIRDFEGRVVHLTMYGEPVQEV 94 
+                            3999999999999**************98544445..699999999999888888888777776..8999****************** PP
+
+                            HHHHHHH-- CS
+        Glyco_transf_28 113 panvaEqng 121
+                             a v E+n 
+  sp|Q5V3R4|TRM56_HALMA  95 EADVREANT 103
+                            *****9985 PP
+
+>> sp|B8GW68|ENO_CAUCN  Enolase OS=Caulobacter crescentus (strain NA1000 / CB15N) GN=eno PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    2.9   0.0       5.1   2.9e+03      24      67 ..     105     146 ..     104     172 .. 0.78
+   2 ?    9.0   0.0     0.066        37      13      48 ..     184     219 ..     183     276 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 2.9 bits;  conditional E-value: 5.1
+                          H---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHC CS
+      Glyco_transf_28  24 rrGheVrlatppgleefv.eeagleavpigpdvklwakleslktl 67 
+                          r G + +l+++ + ++   e+agl+ +++ ++  ++a++  ++ +
+  sp|B8GW68|ENO_CAUCN 105 RLGANAILGVSLATAKAAaESAGLPLYKYVGG--VNARV-LPTPM 146
+                          67999999***99999999*********8887..33333.34444 PP
+
+  == domain 2    score: 9.0 bits;  conditional E-value: 0.066
+                          HHHHHHHHHHHH---EEEEEETGGGHHHHHH---EE CS
+      Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefveeaglea 48 
+                          e + Al ++L+++Gh+  ++ + g+++ +++a+ + 
+  sp|B8GW68|ENO_CAUCN 184 EIFHALKKALKDAGHNTNVGDEGGFAPNLASAEAAL 219
+                          6799**********************9996665444 PP
+
+>> sp|Q9A7J9|ENO_CAUCR  Enolase OS=Caulobacter crescentus GN=eno PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    2.9   0.0       5.1   2.9e+03      24      67 ..     105     146 ..     104     172 .. 0.78
+   2 ?    9.0   0.0     0.066        37      13      48 ..     184     219 ..     183     276 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 2.9 bits;  conditional E-value: 5.1
+                          H---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHC CS
+      Glyco_transf_28  24 rrGheVrlatppgleefv.eeagleavpigpdvklwakleslktl 67 
+                          r G + +l+++ + ++   e+agl+ +++ ++  ++a++  ++ +
+  sp|Q9A7J9|ENO_CAUCR 105 RLGANAILGVSLATAKAAaESAGLPLYKYVGG--VNARV-LPTPM 146
+                          67999999***99999999*********8887..33333.34444 PP
+
+  == domain 2    score: 9.0 bits;  conditional E-value: 0.066
+                          HHHHHHHHHHHH---EEEEEETGGGHHHHHH---EE CS
+      Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefveeaglea 48 
+                          e + Al ++L+++Gh+  ++ + g+++ +++a+ + 
+  sp|Q9A7J9|ENO_CAUCR 184 EIFHALKKALKDAGHNTNVGDEGGFAPNLASAEAAL 219
+                          6799**********************9996665444 PP
+
+>> sp|Q5V3F0|MAMA2_HALMA  Methylaspartate mutase S chain 2 OS=Haloarcula marismortui GN=mamA2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.1    0.0049       2.8       1      54 [.       4      59 ..       4     131 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 12.7 bits;  conditional E-value: 0.0049
+                           EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHH.HH---EEEE---- CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefv.eeagleavpigpd 54
+                           v+l ++G+  +v  +  l r++ ++G +V  l+++    ef+ ++++ +a++i + 
+  sp|Q5V3F0|MAMA2_HALMA  4 VILGVIGSDAHVVGITILERAFEAAGFNVVnLGVQSSQSEFIdAADEHDAEAILVS 59
+                           578899************************************98888888887666 PP
+
+>> sp|B1LZ88|GLYA_METRJ  Serine hydroxymethyltransferase OS=Methylobacterium radiotolerans (strain ATCC 27329 / DSM 1819
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0086       4.9      11      45 ..      24      60 ..      17     125 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0086
+                          -HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH-- CS
+       Glyco_transf_28 11 dvePavAlareLqrrGheVrlatppgleefv..eeag 45
+                          d e a A+a+eL r+ he++l+++++++++   e++g
+  sp|B1LZ88|GLYA_METRJ 24 DPEIAEAVAKELGRQQHEIELIASENIVSRAvlEAQG 60
+                          557888*********************9998755554 PP
+
+>> sp|P94966|BIOB_METSK  Biotin synthase OS=Methylobacillus sp. (strain KT1) GN=bioB PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.0   0.0    0.0038       2.1      11      97 ..     128     216 ..     128     242 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 13.0 bits;  conditional E-value: 0.0038
+                           -HHHHHHHHHHHHH---EEE..EE.ETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC- CS
+       Glyco_transf_28  11 dvePavAlareLqrrGheVr..la.tppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfg 96 
+                           d+eP +A+ re+++ G e +  l+  ++g +e+++eagl+++  ++d +++++   + t ++ +++l++l +++e   + ++  ++g+g
+  sp|P94966|BIOB_METSK 128 DLEPVLAMIREVKAMGLETCatLGmLKDGQAEQLKEAGLDYYNHNLD-TAPEYYGEVITTRTYQDRLDTLDRVREQDINVCCGGIIGMG 215
+                           89********************873578888899*********9999.88877767777777777777777777777777777777766 PP
+
+                           - CS
+       Glyco_transf_28  97 g 97 
+                           +
+  sp|P94966|BIOB_METSK 216 E 216
+                           5 PP
+
+>> sp|Q3SHE4|ILVC_THIDA  Ketol-acid reductoisomerase OS=Thiobacillus denitrificans (strain ATCC 25259) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.1    0.0043       2.4       1      70 [.      19      81 ..      19     119 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.0043
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCCSH CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlkel 70
+                          v+++g+G+ G+     A a+ L++ G +V++a  pg ++    e+agl++++++    + a    l +++++
+  sp|Q3SHE4|ILVC_THIDA 19 VAIVGYGSQGH-----AHANNLKDSGVDVTVALRPGSASAKkaENAGLTVKSVPEA-VAGA---DLVMILTP 81
+                          67888999998.....88******************9887777********99988.2222...33333333 PP
+
+>> sp|Q07MT9|GLYA_RHOP5  Serine hydroxymethyltransferase OS=Rhodopseudomonas palustris (strain BisA53) GN=glyA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.0     0.015       8.5      13     107 ..      25     120 ..      20     126 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.015
+                           HHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC--- CS
+       Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggy 98 
+                           e a+A+a eL r+ he++l+++++++++   e++g  +   ++ + ++ ++     +++++ae+  a+ +ak+++   +++v    g++
+  sp|Q07MT9|GLYA_RHOP5  25 EIAAAIAGELGRQRHEIELIASENIVSRAvlEAQGSVMTNkYAEGYPGHRYY-GGCEFVDVAEN-LAIDRAKKLFGAGFANVQPNSGSQ 111
+                           789***********************99886666644444466665555555.67777777777.788888888888888888777777 PP
+
+                           -EEEE--HH CS
+       Glyco_transf_28  99 vadlaliaa 107
+                            + ++++a 
+  sp|Q07MT9|GLYA_RHOP5 112 MNQAVFLAL 120
+                           777777765 PP
+
+>> sp|A9VRK3|MTNA1_BACWK  Methylthioribose-1-phosphate isomerase 1 OS=Bacillus weihenstephanensis (strain KBAB4) GN=mtnA
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.0    0.0047       2.6      17      63 ..     202     247 ..     193     332 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 12.7 bits;  conditional E-value: 0.0047
+                            HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.- CS
+        Glyco_transf_28  17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakles 63 
+                              a eLqr+G++V+++t  +++++v  + +++av +g+d +++a+++ 
+  sp|A9VRK3|MTNA1_BACWK 202 LTALELQRAGIDVTVITD-NMAAMVmSQGKIDAVIVGCD-RVAANGDV 247
+                            5699*********98875.6777777*************.77776643 PP
+
+>> sp|A9GW78|ILVC_SORC5  Ketol-acid reductoisomerase OS=Sorangium cellulosum (strain So ce56) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.1      0.01       5.6       1      54 [.      20      70 ..      20     105 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.01
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          v+++g+G+ G+     A a  L++ G  V++a p+g +++    +agl++ ++   
+  sp|A9GW78|ILVC_SORC5 20 VAIVGYGSQGH-----AHALNLRDSGVTVIVALPEGSKSRPkaQAAGLQVATVSEA 70
+                          67889999998.....7799********************9988999999887655 PP
+
+>> sp|Q5YRW2|ILVC_NOCFA  Ketol-acid reductoisomerase OS=Nocardia farcinica GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.0    0.0079       4.5       1      59 [.      21      75 ..      21     103 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0079
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwa 59
+                          v+++g+G+ G+     A    L++ G eVr++  +g +++   eeagl++   +++v +wa
+  sp|Q5YRW2|ILVC_NOCFA 21 VAVIGYGSQGH-----AHSLSLRDSGVEVRVGLAEGSKSRPkaEEAGLTV-GTPAEVSAWA 75
+                          56778888888.....55678*********9999999999888*****97.4444446666 PP
+
+>> sp|A3CQ86|ILVC_STRSV  Ketol-acid reductoisomerase OS=Streptococcus sanguinis (strain SK36) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.0      0.01       5.6       1      36 [.      21      51 ..      21     117 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.01
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGG CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppg 36
+                          ++++g+G+ G+     A a+ L++ Gh+V++++ pg
+  sp|A3CQ86|ILVC_STRSV 21 IAVIGYGSQGH-----AHAQNLRDTGHDVIIGVRPG 51
+                          57888889888.....88***************997 PP
+
+>> sp|Q21AW5|UVRC_RHOPB  UvrABC system protein C OS=Rhodopseudomonas palustris (strain BisB18) GN=uvrC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.2   0.0     0.013       7.6      14      72 ..     611     670 ..     610     676 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 11.2 bits;  conditional E-value: 0.013
+                           HHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE.----S------.-HHHCCSHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv.eeagleavp.igpdvklwakleslktlkelae 72 
+                           P + + ++L+++ h+  ++++++l+++  +eagl+  p igp  + +a l++++tlke+ +
+  sp|Q21AW5|UVRC_RHOPB 611 PVLYFIQRLRDEAHRFVIGSHRKLRKKDiREAGLQEIPgIGPS-RKRALLHHFGTLKEIER 670
+                           6777899******************9988**************.9999999*****99876 PP
+
+>> sp|Q81IK7|MTNA1_BACCR  Methylthioribose-1-phosphate isomerase 1 OS=Bacillus cereus (strain ATCC 14579 / DSM 31) GN=mt
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.4   0.0    0.0061       3.5      17      63 ..     202     247 ..     193     276 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.4 bits;  conditional E-value: 0.0061
+                            HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.- CS
+        Glyco_transf_28  17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakles 63 
+                              a eLqr+G++V+++t  +++++v  + +++av +g+d +++a+++ 
+  sp|Q81IK7|MTNA1_BACCR 202 LTALELQRAGIDVTVITD-NMAAMVmSQGKIDAVIVGCD-RVAANGDV 247
+                            5699*********98875.6777777*************.88887744 PP
+
+>> sp|Q5FNN2|PYRG_GLUOX  CTP synthase OS=Gluconobacter oxydans GN=pyrG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    2.8   0.0       5.6   3.2e+03      15      31 ..      21      37 ..      19      42 .. 0.92
+   2 ?    6.7   0.0      0.34   1.9e+02       2      45 ..     137     183 ..     136     223 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 2.8 bits;  conditional E-value: 5.6
+                          HHHHHHHHHH---EEEE CS
+       Glyco_transf_28 15 avAlareLqrrGheVrl 31
+                          ++Ala  Lq+rG++Vr+
+  sp|Q5FNN2|PYRG_GLUOX 21 SAALAALLQARGYKVRM 37
+                          589*************8 PP
+
+  == domain 2    score: 6.7 bits;  conditional E-value: 0.34
+                           EEE-------HH..HHHHHHHHHHH.---EEEEEETGGGHHHHHH-- CS
+       Glyco_transf_28   2 vlaggGTrGdve..PavAlareLqr.rGheVrlatppgleefveeag 45 
+                           ++ +gGT Gd+e  P++   r+L++  Gh  +++++  l + +++ag
+  sp|Q5FNN2|PYRG_GLUOX 137 LVEIGGTVGDIEslPFLEAIRQLRNdLGHAQTMCVHLTLLPYIPAAG 183
+                           66789******98899*99****973699999******999995555 PP
+
+>> sp|Q2S9V9|ILVC_HAHCH  Ketol-acid reductoisomerase OS=Hahella chejuensis (strain KCTC 2396) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.1    0.0076       4.3       1      55 [.      19      82 ..      19     128 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0076
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----............S CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd............v 55
+                          v+++g+G+ G+     A a+ L++ G +V+++  +g  ++   e+agl++++++              +
+  sp|Q2S9V9|ILVC_HAHCH 19 VAIIGYGSQGH-----AHANNLKDSGVDVCVGLRKGSGSWAkaENAGLAVKEVAEAvagadvvmiltpD 82
+                          57888888888.....88**********************999*******9998873333333333332 PP
+
+>> sp|Q17QH8|D39U1_BOVIN  Epimerase family protein SDR39U1 OS=Bos taurus GN=SDR39U1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.0    0.0042       2.4       2      79 ..       3      75 ..       2     121 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.0042
+                           EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHH CS
+        Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrk 79
+                           vl+ggGT+   +   Al + L++rGheV+l++ +   ++++ + l++  ++    ++ +l   +++++++++++a ++
+  sp|Q17QH8|D39U1_BOVIN  3 VLVGGGTG---FIGTALTQLLKARGHEVTLISRKPGPDRITWDDLTTSGLPRC-DAAVNL-AGENILNPLRRWNAAFQ 75
+                           67888888...999****************99999999999999999998888.666666.88888888888666554 PP
+
+>> sp|Q2J6V2|ILVC_FRASC  Ketol-acid reductoisomerase OS=Frankia sp. (strain CcI3) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.5   0.1    0.0057       3.2       1      47 [.      20      63 ..      20     100 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 12.5 bits;  conditional E-value: 0.0057
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---E CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagle 47
+                          v+++g+G+ G+     A a  L++ G +Vr++ p + +++   ee+gl 
+  sp|Q2J6V2|ILVC_FRASC 20 VAVIGYGSQGH-----AHALNLRDSGVDVRVGLPADSRSRAraEEEGLR 63
+                          67888999998.....7799******************99987888876 PP
+
+>> sp|A1WUW3|ILVC_HALHL  Ketol-acid reductoisomerase OS=Halorhodospira halophila (strain DSM 244 / SL1) GN=ilvC PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.8   0.0     0.038        22       1      54 [.      19      69 ..      19      98 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 9.8 bits;  conditional E-value: 0.038
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          v+++g+G+ G+     A a+ L++ G +V ++  pg  +     eagle+ +++  
+  sp|A1WUW3|ILVC_HALHL 19 VAIIGYGSQGH-----AHANNLKESGVNVVVGLRPGSSSAAkaQEAGLEVASVEEA 69
+                          57888888888.....88*******************99998899***99988766 PP
+
+>> sp|A8LMD0|PUR9_DINSH  Bifunctional purine biosynthesis protein purH OS=Dinoroseobacter shibae (strain DFL 12) GN=purH
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.1    0.0093       5.3      15      70 ..      20      71 ..      13      99 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.0093
+                          HHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSH CS
+       Glyco_transf_28 15 avAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkel 70
+                          +v+l+++L +rG  V+l ++ g ++ ++eagl++v +   +++++  ++ + +k+l
+  sp|A8LMD0|PUR9_DINSH 20 LVPLGQALAARG--VELLSTGGTAKALREAGLDVVDVSDVTGFPE--MMDGRVKTL 71
+                          79**********..**********************999977777..565555554 PP
+
+>> sp|C5BAT0|GCSP_EDWI9  Glycine dehydrogenase [decarboxylating] OS=Edwardsiella ictaluri (strain 93-146) GN=gcvP PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.1    0.0091       5.1       1      37 [.     215     251 ..     215     306 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.0091
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGG CS
+       Glyco_transf_28   1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgl 37 
+                           v+l  +GT Gd++ + Al++ L++rG   ++a+ p  
+  sp|C5BAT0|GCSP_EDWI9 215 VLLQQVGTQGDLHDYRALMDSLRERGVITCMAADPLA 251
+                           567789***************************9965 PP
+
+>> sp|C1B2M1|ILVC_RHOOB  Ketol-acid reductoisomerase OS=Rhodococcus opacus (strain B4) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.5   0.0     0.011       6.3       1      48 [.      21      65 ..      21     102 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.5 bits;  conditional E-value: 0.011
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A    L++ G +Vr++ ++g +++   ee+gl++
+  sp|C1B2M1|ILVC_RHOOB 21 VAVIGYGSQGH-----AHSLSLRDSGVDVRIGLKEGSKSRAkaEEQGLTV 65
+                          56778888888.....55678*******************9999999986 PP
+
+>> sp|Q0S2H3|ILVC_RHOSR  Ketol-acid reductoisomerase OS=Rhodococcus sp. (strain RHA1) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.5   0.0     0.011       6.3       1      48 [.      21      65 ..      21     102 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.5 bits;  conditional E-value: 0.011
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A    L++ G +Vr++ ++g +++   ee+gl++
+  sp|Q0S2H3|ILVC_RHOSR 21 VAVIGYGSQGH-----AHSLSLRDSGVDVRIGLKEGSKSRAkaEEQGLTV 65
+                          56778888888.....55678*******************9999999986 PP
+
+>> sp|A0R946|MTNA1_BACAH  Methylthioribose-1-phosphate isomerase 1 OS=Bacillus thuringiensis (strain Al Hakam) GN=mtnA1 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   0.0    0.0062       3.5      17      63 ..     202     247 ..     193     275 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.0062
+                            HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.- CS
+        Glyco_transf_28  17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakles 63 
+                              a eLqr+G++V+++t  +++++v  + +++av +g+d +++a+++ 
+  sp|A0R946|MTNA1_BACAH 202 LTALELQRAGIDVTVITD-NMAAMVmSQGKIDAVIVGCD-RVAANGDV 247
+                            5699*********98875.6777777*************.88887744 PP
+
+>> sp|Q81ZC2|MTNA1_BACAN  Methylthioribose-1-phosphate isomerase 1 OS=Bacillus anthracis GN=mtnA1 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   0.0    0.0062       3.5      17      63 ..     202     247 ..     193     275 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.0062
+                            HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.- CS
+        Glyco_transf_28  17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakles 63 
+                              a eLqr+G++V+++t  +++++v  + +++av +g+d +++a+++ 
+  sp|Q81ZC2|MTNA1_BACAN 202 LTALELQRAGIDVTVITD-NMAAMVmSQGKIDAVIVGCD-RVAANGDV 247
+                            5699*********98875.6777777*************.88887744 PP
+
+>> sp|Q6HP54|MTNA1_BACHK  Methylthioribose-1-phosphate isomerase 1 OS=Bacillus thuringiensis subsp. konkukian GN=mtnA1 P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   0.0    0.0062       3.5      17      63 ..     202     247 ..     193     275 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.0062
+                            HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.- CS
+        Glyco_transf_28  17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakles 63 
+                              a eLqr+G++V+++t  +++++v  + +++av +g+d +++a+++ 
+  sp|Q6HP54|MTNA1_BACHK 202 LTALELQRAGIDVTVITD-NMAAMVmSQGKIDAVIVGCD-RVAANGDV 247
+                            5699*********98875.6777777*************.88887744 PP
+
+>> sp|Q1MIU5|GLYA_RHIL3  Serine hydroxymethyltransferase OS=Rhizobium leguminosarum bv. viciae (strain 3841) GN=glyA PE=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.6   0.0     0.011         6      16     108 ..      23     116 ..      16     121 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 11.6 bits;  conditional E-value: 0.011
+                           HHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EE CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvad 101
+                            A+++eL r+ he++l+++++++++   e++g  +   ++ + +++++      ++++ae+  a+++ak+++  ++++v    g++ + 
+  sp|Q1MIU5|GLYA_RHIL3  23 GAIGKELGRQRHEIELIASENIVSRAvlEAQGSIMTNkYAEGYPGKRYY-GGCQFVDIAEE-LAIERAKKLFGVNFANVQPNSGSQMNQ 109
+                           599********************99887766655544588888888888.88899999999.999999999999999999999999999 PP
+
+                           EE--HHH CS
+       Glyco_transf_28 102 laliaal 108
+                           ++++a l
+  sp|Q1MIU5|GLYA_RHIL3 110 AVFLALL 116
+                           9998865 PP
+
+>> sp|A8FCG5|MTNA_BACP2  Methylthioribose-1-phosphate isomerase OS=Bacillus pumilus (strain SAFR-032) GN=mtnA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.0    0.0078       4.4      19      65 ..     205     250 ..     198     288 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0078
+                           HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HH CS
+       Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslk 65 
+                            +eL++ G +V+l+t +  +++ +e+ ++av +g+d + +++++  +
+  sp|A8FCG5|MTNA_BACP2 205 TWELMQGGVDVTLITDNMAAHTMKEKQISAVIVGAD-RIARNGDAAN 250
+                           69**********************************.7777664443 PP
+
+>> sp|Q63CV4|ILVC2_BACCZ  Ketol-acid reductoisomerase 2 OS=Bacillus cereus (strain ZK / E33L) GN=ilvC2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.3   0.1     0.013       7.3       1      68 [.      19      79 ..      19     103 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 11.3 bits;  conditional E-value: 0.013
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.-HHHCC CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakleslktlk 68
+                           v+++g+G+ G+     A a+ L++ G eV +++ pg   +v +++g e+ ++     ++   + +++l+
+  sp|Q63CV4|ILVC2_BACCZ 19 VAVVGYGSQGH-----AQAQNLRDSGVEVVVGVRPGKSYEVaKADGFEVMSVSEA--VRT-AQVVQMLL 79
+                           67899999999.....669**********************99999998887766..222.24455554 PP
+
+>> sp|A4J179|ILVC_DESRM  Ketol-acid reductoisomerase OS=Desulfotomaculum reducens (strain MI-1) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0084       4.7       1      68 [.      20      81 ..      20     107 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0084
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHCC CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktlk 68
+                          ++++g+G+ G+     A a+ L++ G +V ++  ++ +++   e++gl++ +++   +++a  e ++ l+
+  sp|A4J179|ILVC_DESRM 20 IAVLGYGSQGH-----AQAQSLRDSGLDVVVGLRKDSARWSkaEADGLQVATVPDA-CAQA--EVIQVLL 81
+                          67899999999.....669********************9999**********999.7777..5555554 PP
+
+>> sp|Q9V030|PAAD_PYRAB  Probable aromatic acid decarboxylase OS=Pyrococcus abyssi GN=PYRAB09680 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.0   0.0    0.0039       2.2       1      55 [.       3      76 ..       3     127 .. 0.70
+
+  Alignments for each domain:
+  == domain 1    score: 13.0 bits;  conditional E-value: 0.0039
+                          EEEE-------HHHHHHHHHHHHH---EEE.EEETGGGHHHHHH---EEEE.----..................S CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVr.latppgleefveeagleavp.igpd..................v 55
+                          vv+a+ G+ G ++  + l ++L++ GheV+ la++ g++    e+g+e++p    d                   
+  sp|Q9V030|PAAD_PYRAB  3 VVVAITGASGTIYG-IKLYETLRDLGHEVIlLASKTGIKVAKYETGIEVKPdFSEDelfapiasgsypfdamviA 76
+                          68888899998886.5699***********888888888877999999988544445666666666555555551 PP
+
+>> sp|Q81F27|ILVC2_BACCR  Ketol-acid reductoisomerase 2 OS=Bacillus cereus (strain ATCC 14579 / DSM 31) GN=ilvC2 PE=3 SV
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.2   0.1     0.014       7.7       1      54 [.      19      68 ..      19     104 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 11.2 bits;  conditional E-value: 0.014
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE---- CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpd 54
+                           v+++g+G+ G+     A a+ L++ G eV +++ pg   +v +++g e+ ++   
+  sp|Q81F27|ILVC2_BACCR 19 VAVVGYGSQGH-----AQAQNLRDSGVEVVVGVRPGKSYEVaKADGFEVMSVSEA 68
+                           67899999999.....669**********************99999998877766 PP
+
+>> sp|Q03IJ9|ILVC_STRTD  Ketol-acid reductoisomerase OS=Streptococcus thermophilus (strain ATCC BAA-491 / LMD-9) GN=ilvC
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   0.0      0.05        28       1      52 [.      21      68 ..      21     117 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.05
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGH.HHHHH---EEEE-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgle.efveeagleavpig 52
+                          ++++g+G+ G+     A  + L++ Gh+V++++ pg   ++ +e+g ++++++
+  sp|Q03IJ9|ILVC_STRTD 21 IAVIGYGSQGH-----AHSQNLRDTGHDVIIGVRPGKSfDKAKEDGFDTYTVA 68
+                          56778888888.....6789*************99743144466666666555 PP
+
+>> sp|Q9F0I7|ILVC_STRTR  Ketol-acid reductoisomerase OS=Streptococcus thermophilus GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   0.0      0.05        28       1      52 [.      21      68 ..      21     117 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.05
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGH.HHHHH---EEEE-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgle.efveeagleavpig 52
+                          ++++g+G+ G+     A  + L++ Gh+V++++ pg   ++ +e+g ++++++
+  sp|Q9F0I7|ILVC_STRTR 21 IAVIGYGSQGH-----AHSQNLRDTGHDVIIGVRPGKSfDKAKEDGFDTYTVA 68
+                          56778888888.....6789*************99743144466666666555 PP
+
+>> sp|P26166|YBCC_RHOCA  Uncharacterized 20.5 kDa protein in bchF-crtJ intergenic region OS=Rhodobacter capsulatus PE=4 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0082       4.6      14      90 ..      88     168 ..      83     184 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0082
+                           HHHHHHHHHHH---EEEEEETGGGHHHH...HH---EEEE----....S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv...eeagleavpigpd....vklwakleslktlkelaeglkalrkakeilkeakpd 90 
+                            a+ +a eL+rrG  Vr++  pgl +     +++  +a  i+++    v+  a  + +ktl++l +g + + ++  ++ +++++
+  sp|P26166|YBCC_RHOCA  88 GALIVAMELRRRGVSVRIVFAPGLSDLSrlmATTRFDAALITVGsmdrVEICA--KLVKTLSSLTKG-RMRVAIGGAIVSQRAE 168
+                           57889*****************9987644245555555556666666655555..336666666666.4444555555555555 PP
+
+>> sp|B8I1T8|ILVC_CLOCE  Ketol-acid reductoisomerase OS=Clostridium cellulolyticum (strain ATCC 35319 / DSM 5812 / JCM 6
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.2   0.1    0.0067       3.8       1      54 [.      20      70 ..      20     303 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 12.2 bits;  conditional E-value: 0.0067
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          v+++g+G+ G+     A a+ L++ G +V+++ +p  +++   e++gl+a+  +  
+  sp|B8I1T8|ILVC_CLOCE 20 VAVIGYGSQGH-----AHAQNLKDSGVNVIVGLTPSSARRKqvEADGLKAYDTAEA 70
+                          67888999998.....88**************99998765444******9775544 PP
+
+>> sp|A4VXL3|ILVC_STRSY  Ketol-acid reductoisomerase OS=Streptococcus suis (strain 05ZYH33) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.0   0.0     0.066        37       1      35 [.      21      50 ..      21      90 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 9.0 bits;  conditional E-value: 0.066
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETG CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatpp 35
+                          ++++g+G+ G+     A a+ L++ Gh+V++++  
+  sp|A4VXL3|ILVC_STRSY 21 IAVIGYGSQGH-----AHAQNLRDTGHDVIIGVRA 50
+                          57888889888.....88**************976 PP
+
+>> sp|A4W3V8|ILVC_STRS2  Ketol-acid reductoisomerase OS=Streptococcus suis (strain 98HAH33) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.0   0.0     0.066        37       1      35 [.      21      50 ..      21      90 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 9.0 bits;  conditional E-value: 0.066
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETG CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatpp 35
+                          ++++g+G+ G+     A a+ L++ Gh+V++++  
+  sp|A4W3V8|ILVC_STRS2 21 IAVIGYGSQGH-----AHAQNLRDTGHDVIIGVRA 50
+                          57888889888.....88**************976 PP
+
+>> sp|Q3B594|ILVC_PELLD  Ketol-acid reductoisomerase OS=Pelodictyon luteolum (strain DSM 273) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.0    0.0079       4.4       1      59 [.      19      73 ..      19     116 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0079
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwa 59
+                          ++++g+G+ G+     A a  L++ G +V+++  p+  +    +eagl ++p++  vk wa
+  sp|Q3B594|ILVC_PELLD 19 IAVLGYGSQGH-----AHALNLKDSGMNVCVGLRPDSSSCAkaREAGLRVEPVADAVK-WA 73
+                          67889999998.....7799*****************9998889********999833.33 PP
+
+>> sp|B1I8F2|MUTL_STRPI  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae (strain Hungary19A-6) GN=mutL PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|B1I8F2|MUTL_STRPI 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|B2IS10|MUTL_STRPS  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae (strain CGSP14) GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|B2IS10|MUTL_STRPS 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|B8ZKC9|MUTL_STRPJ  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae (strain ATCC 700669 / Spain 23F-1)
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|B8ZKC9|MUTL_STRPJ 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|P0A3R1|HEXB_STRPN  DNA mismatch repair protein hexB OS=Streptococcus pneumoniae GN=hexB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|P0A3R1|HEXB_STRPN 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|P0A3R2|HEXB_STRR6  DNA mismatch repair protein hexB OS=Streptococcus pneumoniae (strain ATCC BAA-255 / R6) GN=hexB
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|P0A3R2|HEXB_STRR6 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|Q04MR4|MUTL_STRP2  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae serotype 2 (strain D39 / NCTC 7466
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|Q04MR4|MUTL_STRP2 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|C1CI68|MUTL_STRZP  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae (strain P1031) GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|C1CI68|MUTL_STRZP 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|C1CP43|MUTL_STRZT  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae (strain Taiwan19F-14) GN=mutL PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15      65     128 ..     203     266 ..     172     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|C1CP43|MUTL_STRZT 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|Q8ZQE4|MACB_SALTY  Macrolide export ATP-binding/permease protein macB OS=Salmonella typhimurium GN=macB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.2     0.016       8.8      16      59 ..     184     248 ..     181     304 .. 0.61
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.016
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S---- CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwa 59 
+                           +A+ r+L++rGh V+++t++ l +  +e+ +e++  ++                       ++w+
+  sp|Q8ZQE4|MACB_SALTY 184 MAILRQLRDRGHTVIIVTHDPLIAAQAERIIEIHDGKIVhnppaqekkreqgvdaavvntAPGWR 248
+                           89*****************9998888777777776444455666777777777777777655555 PP
+
+>> sp|Q57R58|MACB_SALCH  Macrolide export ATP-binding/permease protein macB OS=Salmonella choleraesuis GN=macB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.2     0.016       8.8      16      59 ..     184     248 ..     181     304 .. 0.61
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.016
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S---- CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwa 59 
+                           +A+ r+L++rGh V+++t++ l +  +e+ +e++  ++                       ++w+
+  sp|Q57R58|MACB_SALCH 184 MAILRQLRDRGHTVIIVTHDPLIAAQAERIIEIHDGKIVhnppaqekkreqgvdaavvntAPGWR 248
+                           89*****************9998888777777776444455666777777777777777655555 PP
+
+>> sp|Q64550|UD11_RAT  UDP-glucuronosyltransferase 1-1 OS=Rattus norvegicus GN=Ugt1a1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   0.0    0.0064       3.6      15      92 ..      45     123 ..      39     172 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.0064
+                         HHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----........S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHH CS
+     Glyco_transf_28  15 avAlareLqrrGheVrlatppgleefveeagleavpigpd........vklwakleslktlkelaeglkalrkakeilkeakpdvv 92 
+                          + + ++Lq++GheV +++p++  +  e + ++++++++                 +++  ++++++   l ++ +++ + k d +
+  sp|Q64550|UD11_RAT  45 MLGVIQQLQQKGHEVVVIAPEASIHIKEGSFYTMRKYPVPfqnenvtaA-------FVELGRSVFDQDPFLLRVVKTYNKVKRDSS 123
+                         57899****************999999********99999665333330.......344444444444444444444444444444 PP
+
+>> sp|B9JCX4|GLYA_AGRRK  Serine hydroxymethyltransferase OS=Agrobacterium radiobacter (strain K84 / ATCC BAA-868) GN=gly
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.6   0.0     0.011         6      13     108 ..      20     116 ..      17     121 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.6 bits;  conditional E-value: 0.011
+                           HHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE.----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC--- CS
+       Glyco_transf_28  13 ePavAlareLqrrGheVrlatppgleefv..eeagleavp.igpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggy 98 
+                           e + A+++eL r+ he++l+++++++++   e++g  +   ++ + +++++      ++++ae+  a+++ak+++  ++++v    g++
+  sp|B9JCX4|GLYA_AGRRK  20 EIFGAIGKELGRQRHEIELIASENIVSRAvlEAQGSIMTNkYAEGYPGKRYY-GGCQYVDIAEE-LAIERAKKLFGVNFANVQPNSGSQ 106
+                           66789*********************99887666655544577777888888.88889999999.999999999999999999999999 PP
+
+                           -EEEE--HHH CS
+       Glyco_transf_28  99 vadlaliaal 108
+                            + ++++a l
+  sp|B9JCX4|GLYA_AGRRK 107 MNQAVFLALL 116
+                           9988888765 PP
+
+>> sp|Q8Z824|MACB_SALTI  Macrolide export ATP-binding/permease protein macB OS=Salmonella typhi GN=macB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.2     0.016       8.8      16      59 ..     184     248 ..     181     304 .. 0.61
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.016
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S---- CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwa 59 
+                           +A+ r+L++rGh V+++t++ l +  +e+ +e++  ++                       ++w+
+  sp|Q8Z824|MACB_SALTI 184 MAILRQLRDRGHTVIIVTHDPLIAAQAERIIEIHDGKIVhnppaqekkreqgvdaavvntAPGWR 248
+                           89*****************9998888777777776444455666777777777777777655555 PP
+
+>> sp|O94475|YC67_SCHPO  Uncharacterized protein C1919.07 OS=Schizosaccharomyces pombe GN=SPCC1919.07 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.0    0.0047       2.7      43     134 ..      80     181 ..      70     185 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 12.7 bits;  conditional E-value: 0.0047
+                           H---EEEE----...........S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EE.EE--HHHHHHHHHHHHHH CS
+       Glyco_transf_28  43 eagleavpigpd...........vklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvad.laliaallagipanvaEq 119
+                            ++l+a+p+++             + ++  e ++ ++e  e  k+++++++ +  +kp+v ++ ++  +d + ++++  + +p+ ++E+
+  sp|O94475|YC67_SCHPO  80 YSKLQARPLTGLgisnqkpkskvRTIQR--EEVADMLESVEHEKSIQEFRKRYNVQKPKVNISHAEAEEDiDSFLESMDQSAPPSITED 166
+                           5566666644445667788877777888..7888999999999*******************9888776627899999*********** PP
+
+                           ----EEEEESSGGGS CS
+       Glyco_transf_28 120 ngipglvnkllprra 134
+                            g  +++  +++++ 
+  sp|O94475|YC67_SCHPO 167 KGENYISSNHSSMHI 181
+                           *********999976 PP
+
+>> sp|P59837|RDH12_BOVIN  Retinol dehydrogenase 12 OS=Bos taurus GN=RDH12 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    6.5   0.0      0.39   2.2e+02      19      73 ..      56     108 ..      53     136 .. 0.78
+   2 ?    4.4   0.0       1.7   9.7e+02      34      79 ..     211     265 ..     205     284 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 6.5 bits;  conditional E-value: 0.39
+                            HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHH CS
+        Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeg 73 
+                            areL rrG +V +a  + l+ + ++++++a + +++  l +kl  l+  k++ ++
+  sp|P59837|RDH12_BOVIN  56 ARELARRGARVYIACRDVLKGESAASEIQADTKNSQ-VLVRKL-DLSDTKSIRAF 108
+                            89****************************999999.555556.55555555544 PP
+
+  == domain 2    score: 4.4 bits;  conditional E-value: 1.7
+                            TGGGHHHHHH---EEEE----.............S------.-HHHCCSHHHHHHHHHH CS
+        Glyco_transf_28  34 ppgleefveeagleavpigpd.............vklwakleslktlkelaeglkalrk 79 
+                            +++l+++++ +g++++++ p+               lw+   ++ +lk+++eg  a  +
+  sp|P59837|RDH12_BOVIN 211 TRELAKRLKGTGVTTYAVHPGivrsklvrhsfllCLLWR--LFSPFLKTTWEG--AQTS 265
+                            688999***************************999999..79*********9..4444 PP
+
+>> sp|Q5PGK9|MACB_SALPA  Macrolide export ATP-binding/permease protein macB OS=Salmonella paratyphi A GN=macB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.2     0.016       8.8      16      59 ..     184     248 ..     181     304 .. 0.61
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.016
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S---- CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwa 59 
+                           +A+ r+L++rGh V+++t++ l +  +e+ +e++  ++                       ++w+
+  sp|Q5PGK9|MACB_SALPA 184 MAILRQLRDRGHTVIIVTHDPLIAAQAERIIEIHDGKIVhnppaqekkreqgvdaavvntAPGWR 248
+                           89*****************9998888777777776444455666777777777777777655555 PP
+
+>> sp|Q02CM4|ILVC_SOLUE  Ketol-acid reductoisomerase OS=Solibacter usitatus (strain Ellin6076) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.0   0.1     0.032        18       1      48 [.      20      64 ..      20      90 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 10.0 bits;  conditional E-value: 0.032
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A a  L++ G +V ++ p g +++   e+agl++
+  sp|Q02CM4|ILVC_SOLUE 20 VAIIGYGSQGH-----AHALNLRDSGVDVVVGLPAGSKSTAkaEAAGLKV 64
+                          57888888888.....7799*******************99989999975 PP
+
+>> sp|Q669P6|NPD_YERPS  NAD-dependent deacetylase OS=Yersinia pseudotuberculosis GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0     0.019        11       3      21 ..     208     226 ..     207     257 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.019
+                          EE-------HHHHHHHHHH CS
+      Glyco_transf_28   3 laggGTrGdvePavAlare 21 
+                          ++++GT G+v+Pa+ + +e
+  sp|Q669P6|NPD_YERPS 208 FISIGTSGHVYPAAGFVHE 226
+                          789**********998877 PP
+
+>> sp|Q8ZFR1|NPD_YERPE  NAD-dependent deacetylase OS=Yersinia pestis GN=npdA PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0     0.019        11       3      21 ..     208     226 ..     207     257 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.019
+                          EE-------HHHHHHHHHH CS
+      Glyco_transf_28   3 laggGTrGdvePavAlare 21 
+                          ++++GT G+v+Pa+ + +e
+  sp|Q8ZFR1|NPD_YERPE 208 FISIGTSGHVYPAAGFVHE 226
+                          789**********998877 PP
+
+>> sp|B9KYS1|ILVC_THERP  Ketol-acid reductoisomerase OS=Thermomicrobium roseum (strain ATCC 27502 / DSM 5159 / P-2) GN=i
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.1     0.009       5.1       1      69 [.      20      82 ..      20      94 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.009
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCS CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeagleavpigpdvklwakleslktlke 69
+                          v+++g+G+ G+     A a+ L++ G +V ++ ++g +++ +++   ++ ++p+ +++a+++ +++l++
+  sp|B9KYS1|ILVC_THERP 20 VAVLGYGSQGH-----AHAQNLRDSGVQVVVGLHEGSRSRERAKSDGFEVLTPR-EAAARGDIISMLMP 82
+                          67889999998.....88*********************996666667778888.88888888888776 PP
+
+>> sp|B4UAN4|ILVC_ANASK  Ketol-acid reductoisomerase OS=Anaeromyxobacter sp. (strain K) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.5   0.1     0.023        13       1      48 [.      20      64 ..      20     104 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.5 bits;  conditional E-value: 0.023
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A a  L++ G +Vr++   g +++   e agl +
+  sp|B4UAN4|ILVC_ANASK 20 VAIIGYGSQGH-----AHALNLRDSGVDVRVGLAAGSKSKAkaEGAGLRV 64
+                          57888888888.....7799**********66666666666448888765 PP
+
+>> sp|B8J829|ILVC_ANAD2  Ketol-acid reductoisomerase OS=Anaeromyxobacter dehalogenans (strain 2CP-1 / ATCC BAA-258) GN=i
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.5   0.1     0.023        13       1      48 [.      20      64 ..      20     103 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.5 bits;  conditional E-value: 0.023
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A a  L++ G +Vr++   g +++   e agl +
+  sp|B8J829|ILVC_ANAD2 20 VAIIGYGSQGH-----AHALNLRDSGVDVRVGLAAGSKSKAkaEGAGLRV 64
+                          57888888888.....7799**********66666666666448888765 PP
+
+>> sp|Q2IJB7|ILVC_ANADE  Ketol-acid reductoisomerase OS=Anaeromyxobacter dehalogenans (strain 2CP-C) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.5   0.1     0.023        13       1      48 [.      20      64 ..      20     103 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.5 bits;  conditional E-value: 0.023
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A a  L++ G +Vr++   g +++   e agl +
+  sp|Q2IJB7|ILVC_ANADE 20 VAIIGYGSQGH-----AHALNLRDSGVDVRVGLAAGSKSKAkaEGAGLRV 64
+                          57888888888.....7799**********66666666666448888765 PP
+
+>> sp|Q0RDI8|ILVC_FRAAA  Ketol-acid reductoisomerase OS=Frankia alni (strain ACN14a) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.1    0.0091       5.1       1      45 [.      20      59 ..      20      95 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.0091
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHHHH-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefveeag 45
+                          v+++g+G+ G+     A a  L++ G +Vr++ p + +++ ++a+
+  sp|Q0RDI8|ILVC_FRAAA 20 VAVIGYGSQGH-----AHALNLRDSGVDVRVGLPADSRSRAKAAE 59
+                          67888999998.....7799*******************995543 PP
+
+>> sp|P0ABQ0|COABC_ECOLI  Coenzyme A biosynthesis bifunctional protein coaBC OS=Escherichia coli (strain K12) GN=coaBC P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.3   0.0     0.013       7.1      18      54 ..      24      61 ..      23     135 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 11.3 bits;  conditional E-value: 0.013
+                           HHHHHHH---EEEEEETGGGHHHHHH---EEEE.---- CS
+        Glyco_transf_28 18 lareLqrrGheVrlatppgleefveeagleavp.igpd 54
+                           l r+L++rG +Vr+a +++ ++f++   l+av+ +++ 
+  sp|P0ABQ0|COABC_ECOLI 24 LVRRLRDRGADVRVAMTEAAKAFITPLSLQAVSgYPVS 61
+                           689*********************98888888766655 PP
+
+>> sp|P0ABQ1|COABC_ECOL6  Coenzyme A biosynthesis bifunctional protein coaBC OS=Escherichia coli O6 GN=coaBC PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.3   0.0     0.013       7.1      18      54 ..      24      61 ..      23     135 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 11.3 bits;  conditional E-value: 0.013
+                           HHHHHHH---EEEEEETGGGHHHHHH---EEEE.---- CS
+        Glyco_transf_28 18 lareLqrrGheVrlatppgleefveeagleavp.igpd 54
+                           l r+L++rG +Vr+a +++ ++f++   l+av+ +++ 
+  sp|P0ABQ1|COABC_ECOL6 24 LVRRLRDRGADVRVAMTEAAKAFITPLSLQAVSgYPVS 61
+                           689*********************98888888766655 PP
+
+>> sp|B2J2U6|ILVC_NOSP7  Ketol-acid reductoisomerase OS=Nostoc punctiforme (strain ATCC 29133 / PCC 73102) GN=ilvC PE=3 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0085       4.8       1      64 [.      20      76 ..      20     170 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0085
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-H CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwaklesl 64
+                          ++++g+G+ G+     A a  L++ G +V+++  pg ++    e+agl++++++    ++a    +
+  sp|B2J2U6|ILVC_NOSP7 20 IAIIGYGSQGH-----AHALNLKDSGLNVIVGLYPGSKSVAkaEAAGLTVKSVADA-ANAA---DF 76
+                          57888888888.....7799****************9998888*********9998.3333...22 PP
+
+>> sp|Q89DG9|UVRC_BRAJA  UvrABC system protein C OS=Bradyrhizobium japonicum GN=uvrC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.5   0.0     0.011       6.4      14      73 ..     598     658 ..     597     665 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 11.5 bits;  conditional E-value: 0.011
+                           HHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE.----S------.-HHHCCSHHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv.eeagleavp.igpdvklwakleslktlkelaeg 73 
+                           P + + ++L+++ h+  ++++++l+++  +eagl+  p igp  + +a l++++tlke+ + 
+  sp|Q89DG9|UVRC_BRAJA 598 PVLYFIQRLRDEAHRFVIGSHRKLRKKDiREAGLQEIPgIGPS-RKRALLHHFGTLKEIERA 658
+                           6777899******************9988**************.999999******998775 PP
+
+>> sp|Q2S0M9|ILVC_SALRD  Ketol-acid reductoisomerase OS=Salinibacter ruber (strain DSM 13855) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.1     0.009       5.1       1      63 [.      17      73 ..      17     104 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.009
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakles 63
+                          v+++g+G+ G+     A a  L + G +V ++  pg  ++   e++gl++  ig    +w   + 
+  sp|Q2S0M9|ILVC_SALRD 17 VAVIGYGSQGH-----AHALNLHDSGVDVAVGLRPGSSSRPkaEQQGLTVMDIGEA-AAWG--DV 73
+                          67888899888.....7799*****************999999***********99.7777..33 PP
+
+>> sp|Q7NH80|ILVC_GLOVI  Ketol-acid reductoisomerase OS=Gloeobacter violaceus GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0086       4.9       1      59 [.      22      76 ..      22     122 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0086
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwa 59
+                          ++++g+G+ G+     A a  L++ G++V+++  +g +++   e++gl+++p +    ++a
+  sp|Q7NH80|ILVC_GLOVI 22 IAIVGYGSQGH-----AHALNLKDSGIDVIVGLYEGSRSWAraENEGLAVYPTAEA-AAKA 76
+                          67888999998.....7799********************99999****9887766.3333 PP
+
+>> sp|Q8G6V1|ILVC2_BIFLO  Ketol-acid reductoisomerase 2 OS=Bifidobacterium longum GN=ilvC2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.1    0.0081       4.5       1      54 [.      21      71 ..      21     110 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0081
+                           EEEE-------HHHHHHHHHHHHH---EEEEEETG..GGHHHHHH---EEEE---- CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatpp..gleefveeagleavpigpd 54
+                           v+++g+G+ G+     A a  L++ G +V ++  p  + +ef +e+gle++p+g  
+  sp|Q8G6V1|ILVC2_BIFLO 21 VAILGYGSQGH-----AHALNLRDSGVDVVVGLRPtsKSVEFAKEQGLEVKPVGEA 71
+                           67889999998.....7799**********9998822467788**********987 PP
+
+>> sp|Q2W698|ENO_MAGSA  Enolase OS=Magnetospirillum magneticum (strain AMB-1 / ATCC 700264) GN=eno PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.2   0.0     0.059        33      15      53 ..     186     224 ..     183     275 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 9.2 bits;  conditional E-value: 0.059
+                          HHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE--- CS
+      Glyco_transf_28  15 avAlareLqrrGheVrlatppgleefveeagleavpigp 53 
+                          + Al ++L+++Gh+  ++ + g+++ +++a+++   i  
+  sp|Q2W698|ENO_MAGSA 186 FHALKKTLKDAGHNTNVGDEGGFAPNLKSAEMALDFIMK 224
+                          78*************************999998877655 PP
+
+>> sp|Q63GN3|MTNA1_BACCZ  Methylthioribose-1-phosphate isomerase 1 OS=Bacillus cereus (strain ZK / E33L) GN=mtnA1 PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.0    0.0097       5.4      17      63 ..     202     247 ..     193     275 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0097
+                            HHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S------.- CS
+        Glyco_transf_28  17 AlareLqrrGheVrlatppgleefv.eeagleavpigpdvklwakles 63 
+                              a eLqr+G++V+++t  +++++v  + +++av +g+d +++a+++ 
+  sp|Q63GN3|MTNA1_BACCZ 202 LTALELQRAGIDVTVITD-NMAAMVmSQGKVDAVIVGCD-RVAANGDV 247
+                            5699*********98875.67777779************.88887744 PP
+
+>> sp|B0JRP2|ILVC_MICAN  Ketol-acid reductoisomerase OS=Microcystis aeruginosa (strain NIES-843) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.0    0.0096       5.4       1      54 [.      20      70 ..      20     140 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0096
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          ++++g+G+ G+     A a  L++ G +V+++  pg ++ +  +eag++++ ++  
+  sp|B0JRP2|ILVC_MICAN 20 IAIIGYGSQGH-----AHALNLKDSGVNVIVGLYPGSKSAIkaKEAGIPVYDVAEA 70
+                          57888888888.....7799*********************999*****9888766 PP
+
+>> sp|C1CBX8|MUTL_STRZJ  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae (strain JJA) GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.027        15      65     128 ..     203     266 ..     173     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.027
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|C1CBX8|MUTL_STRZJ 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|Q3SLY0|BIOB_THIDA  Biotin synthase OS=Thiobacillus denitrificans (strain ATCC 25259) GN=bioB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.0    0.0097       5.4      12      80 ..     114     184 ..     113     279 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0097
+                           HHHHHHHHHHHHH---EEE..EE.ETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHH CS
+       Glyco_transf_28  12 vePavAlareLqrrGheVr..la.tppgleefveeagleavpigpdvklwakleslktlkelaeglkalrka 80 
+                           +eP +A+ re+++ G e +  l+  ++g +e+++eagl+++  ++d ++++    + t ++ +++l++l+++
+  sp|Q3SLY0|BIOB_THIDA 114 LEPVLAMVREVKALGLETCatLGmLKDGQAEQLKEAGLDYYNHNLD-TAPEFYGEIITTRDYQDRLDTLERV 184
+                           69*******************873578888899********99999.5554111222333333343334333 PP
+
+>> sp|B5E6C5|MUTL_STRP4  DNA mismatch repair protein mutL OS=Streptococcus pneumoniae serotype 19F (strain G54) GN=mutL 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.027        15      65     128 ..     203     266 ..     173     268 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.027
+                           HHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEE CS
+       Glyco_transf_28  65 ktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvnk 128
+                           + l+++ +g  +l +ak+ ++ ++ d+++++ g+v+++ l+ a++++i ++++  +   +l n+
+  sp|B5E6C5|MUTL_STRP4 203 GQLRQAIAGIYGLVSAKKMIEIENSDLDFEISGFVSLPELTRANRNYISLFINGRYIKNFLLNR 266
+                           56777788888999*************************************9988877776665 PP
+
+>> sp|B2J6I3|MURD_NOSP7  UDP-N-acetylmuramoylalanine--D-glutamate ligase OS=Nostoc punctiforme (strain ATCC 29133 / PCC 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.6   0.0     0.011         6      16      55 ..      14      60 ..      11     138 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.6 bits;  conditional E-value: 0.011
+                          HHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----......S CS
+       Glyco_transf_28 16 vAlareLqrrGheVrlatppgleefv.eeagleavpigpd......v 55
+                          vA ar L+r+G+eV+l   +  ++ +  +++l+a++i+++      +
+  sp|B2J6I3|MURD_NOSP7 14 VAAARLLKREGWEVELSDGNTSKTLLqQQQELAAEQITVKlgqsleL 60
+                          899**********************************9994444440 PP
+
+>> sp|Q5LXV0|ILVC_STRT1  Ketol-acid reductoisomerase OS=Streptococcus thermophilus (strain CNRZ 1066) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   0.0      0.05        28       1      52 [.      21      68 ..      21     117 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.05
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGH.HHHHH---EEEE-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgle.efveeagleavpig 52
+                          ++++g+G+ G+     A  + L++ Gh+V++++ pg   ++ +e+g ++++++
+  sp|Q5LXV0|ILVC_STRT1 21 IAVIGYGSQGH-----AHSQNLRDTGHDVIIGVRPGKSfDKAKEDGFDTYTVA 68
+                          56778888888.....6789*************99743144466666666555 PP
+
+>> sp|Q5M2F2|ILVC_STRT2  Ketol-acid reductoisomerase OS=Streptococcus thermophilus (strain ATCC BAA-250 / LMG 18311) GN=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   0.0      0.05        28       1      52 [.      21      68 ..      21     117 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.05
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGH.HHHHH---EEEE-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgle.efveeagleavpig 52
+                          ++++g+G+ G+     A  + L++ Gh+V++++ pg   ++ +e+g ++++++
+  sp|Q5M2F2|ILVC_STRT2 21 IAVIGYGSQGH-----AHSQNLRDTGHDVIIGVRPGKSfDKAKEDGFDTYTVA 68
+                          56778888888.....6789*************99743144466666666555 PP
+
+>> sp|C6A5E6|VATD_THESM  V-type ATP synthase subunit D OS=Thermococcus sibiricus (strain MM 739 / DSM 12597) GN=atpD PE=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    3.2   0.0       4.1   2.3e+03      66     100 ..      13      47 ..       5      74 .. 0.79
+   2 ?    7.7   0.0      0.17        95      29      87 ..     104     160 ..      98     205 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 3.2 bits;  conditional E-value: 4.1
+                           HCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----E CS
+       Glyco_transf_28  66 tlkelaeglkalrkakeilkeakpdvvvgfggyva 100
+                           +l++l ++ k  +k  +ilke++++++++f + ++
+  sp|C6A5E6|VATD_THESM  13 ELLRLKRRIKLAEKGHKILKEKQDALIMEFFTIYD 47 
+                           678899999999***************99876544 PP
+
+  == domain 2    score: 7.7 bits;  conditional E-value: 0.17
+                           EEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  29 Vrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilkea 87 
+                           V l+  +g+++   e+g+++v+  p+v + a  e++++++el  +l +++++ + l+++
+  sp|C6A5E6|VATD_THESM 104 VPLIEAEGFRRDPYERGYAFVSTSPKVDVTA--ETFEEVLELVTRLAEIEETLKRLAKE 160
+                           557777899999999***********88888..99999999999988888888888765 PP
+
+>> sp|Q2RIS6|ILVC_MOOTA  Ketol-acid reductoisomerase OS=Moorella thermoacetica (strain ATCC 39073) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.2   0.0     0.014       7.7       1      67 [.      20      80 ..      20     103 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 11.2 bits;  conditional E-value: 0.014
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-HHHC CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwakleslktl 67
+                          ++++g+G+ G+ +     a+ L++ G +V ++  p+ +++    +agle+++++    + a  + ++ l
+  sp|Q2RIS6|ILVC_MOOTA 20 IAVMGYGSQGHSQ-----AQNLKDSGLDVVVGLRPESKSRAaaQAAGLEVKTVAEA-AAEA--DIIQIL 80
+                          6789999999966.....9*********************998999***9999877.4444..445554 PP
+
+>> sp|Q3M859|THIOG_ANAVT  Bifunctional protein thiO/thiG OS=Anabaena variabilis (strain ATCC 29413 / PCC 7937) GN=thiO/t
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    8.0   0.0      0.13        74      87     135 ..     315     363 ..     291     366 .. 0.92
+
+  Alignments for each domain:
+  == domain 1    score: 8.0 bits;  conditional E-value: 0.13
+                            HHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEEESSGGGSC CS
+        Glyco_transf_28  87 akpdvvvgfggyvadlaliaallagipanvaEqngipglvnkllprran 135
+                            +++++++++g y ++ +l   ++a i+ ++ Eq + p+l++++++r+ +
+  sp|Q3M859|THIOG_ANAVT 315 HCANLTLATGHYRNGILLAPITAALIADFIVEQKSDPLLSHFHYSRFQK 363
+                            6778999*************************************99865 PP
+
+>> sp|Q5GS59|RLME_WOLTR  Ribosomal RNA large subunit methyltransferase E OS=Wolbachia sp. subsp. Brugia malayi (strain T
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.3   0.0     0.013       7.4      24      93 ..      58     124 ..      54     128 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 11.3 bits;  conditional E-value: 0.013
+                           H---EEE.EEETGGGHHHH.HH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  24 rrGheVr.latppgleefv.eeagleavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvv 93 
+                           ++G ++  l+++pg  ++v  ++g+++v+i+++   +   ++++ +k ++   ++l+ ++e +k++k dv++
+  sp|Q5GS59|RLME_WOLTR  58 QAGQKIVdLGASPGGWSQVaSQKGVKVVAIDIK---PV--NTISGVKYIQYDINELETLRERFKDQKFDVIL 124
+                           44444444*************************...66..99************************999875 PP
+
+>> sp|B8G7X1|ILVC_CHLAD  Ketol-acid reductoisomerase OS=Chloroflexus aggregans (strain MD-66 / DSM 9485) GN=ilvC PE=3 SV
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.1    0.0049       2.8       2      54 ..      21      70 ..      20     103 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 12.7 bits;  conditional E-value: 0.0049
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          +++g+G+ G+     A ar L + G +Vr++  pg +++   eeagl++ +++  
+  sp|B8G7X1|ILVC_CHLAD 21 AIIGFGSQGH-----AHARNLADSGLDVRVGLYPGSKSWAkvEEAGLKVMTVAEA 70
+                          5667777776.....789********************9999******9888766 PP
+
+>> sp|C5C2I2|ILVC_BEUC1  Ketol-acid reductoisomerase OS=Beutenbergia cavernae (strain ATCC BAA-8 / DSM 12333 / NBRC 1643
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.1     0.016         9       1      52 [.      20      68 ..      20      98 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.016
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpig 52
+                          v+++g+G+ G+     A a  L++ G +Vr++  +g +++   e++gl++ +++
+  sp|C5C2I2|ILVC_BEUC1 20 VAVIGYGSQGH-----AHALNLRDSGVDVRVGLREGSASRAkaENEGLKVLTVP 68
+                          67888999998.....7799*******************998899999887665 PP
+
+>> sp|Q5SJ03|ILVC_THET8  Ketol-acid reductoisomerase OS=Thermus thermophilus (strain HB8 / ATCC 27634 / DSM 579) GN=ilvC
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.5   0.1     0.022        13       2      54 ..      20      69 ..      19     111 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 10.5 bits;  conditional E-value: 0.022
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          +++g+G+ G+     A a  L++ G +Vr++  +g +++   e+agl + p++  
+  sp|Q5SJ03|ILVC_THET8 20 AVLGFGSQGH-----AHALNLKDSGVDVRVGLRKGSRSWEkaEAAGLRVLPVAEA 69
+                          6777777777.....7799******************99988999*999887765 PP
+
+>> sp|Q72JC8|ILVC_THET2  Ketol-acid reductoisomerase OS=Thermus thermophilus (strain HB27 / ATCC BAA-163 / DSM 7039) GN=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.5   0.1     0.022        13       2      54 ..      20      69 ..      19     111 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 10.5 bits;  conditional E-value: 0.022
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          +++g+G+ G+     A a  L++ G +Vr++  +g +++   e+agl + p++  
+  sp|Q72JC8|ILVC_THET2 20 AVLGFGSQGH-----AHALNLKDSGVDVRVGLRKGSRSWEkaEAAGLRVLPVAEA 69
+                          6777777777.....7799******************99988999*999887765 PP
+
+>> sp|Q4JUN9|ILVC_CORJK  Ketol-acid reductoisomerase OS=Corynebacterium jeikeium (strain K411) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0     0.019        11       1      49 [.      21      66 ..      21      97 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.019
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleav 49
+                          v+++g+G+ G+     A a+ L++ G eV ++  +g +++   eeag +++
+  sp|Q4JUN9|ILVC_CORJK 21 VAIIGYGSQGH-----AHAQNLRESGVEVVIGLREGSKSRAkaEEAGFTVK 66
+                          57888888888.....88**********************98888887765 PP
+
+>> sp|Q2J0X3|UVRC_RHOP2  UvrABC system protein C OS=Rhodopseudomonas palustris (strain HaA2) GN=uvrC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.3   0.0     0.013       7.5      14      72 ..     607     666 ..     606     672 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 11.3 bits;  conditional E-value: 0.013
+                           HHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE.----S------.-HHHCCSHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv.eeagleavp.igpdvklwakleslktlkelae 72 
+                           P + + ++L+++ h+  ++++++l+++  +eagl+  p igp  + +a l++++tlke+ +
+  sp|Q2J0X3|UVRC_RHOP2 607 PVLYFIQRLRDEAHRFVIGSHRKLRKKDiREAGLQEIPgIGPS-RKRALLHHFGTLKEIER 666
+                           6777899******************9988**************.9999999*****99876 PP
+
+>> sp|Q02YY8|ILVC_LACLS  Ketol-acid reductoisomerase OS=Lactococcus lactis subsp. cremoris (strain SK11) GN=ilvC PE=3 SV
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.2   0.0     0.028        16       1      36 [.      21      51 ..      21     101 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.2 bits;  conditional E-value: 0.028
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGG CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppg 36
+                          ++++g+G+ G+     A a+ L++ Gh+V++++  g
+  sp|Q02YY8|ILVC_LACLS 21 IAVIGYGSQGH-----AHAQNLRDSGHDVIIGVRQG 51
+                          57888899888.....88**************9765 PP
+
+>> sp|B9EBF4|ILVC_MACCJ  Ketol-acid reductoisomerase OS=Macrococcus caseolyticus (strain JCSC5402) GN=ilvC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.0     0.016       8.9       1      57 [.      20      70 ..      20     113 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.016
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE----S-- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpdvkl 57
+                          ++++g+G+ G+     A a  L++ G++V +++ +g  ++  ee+g +a+ +     +
+  sp|B9EBF4|ILVC_MACCJ 20 IAVLGYGSQGH-----AHALNLKDSGYDVVIGVREGQSRTKaEEDGFQAYDVSEA--V 70
+                          67889999998.....7799***************9988888******9988777..2 PP
+
+>> sp|Q43716|UFOG_PETHY  Anthocyanidin 3-O-glucosyltransferase OS=Petunia hybrida GN=RT PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.6   0.0     0.011         6      10      43 ..      23      56 ..      21     167 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.6 bits;  conditional E-value: 0.011
+                          --HHHHHHHHHHHHH---EEEEEETGGGHHHHHH CS
+       Glyco_transf_28 10 GdvePavAlareLqrrGheVrlatppgleefvee 43
+                          G++ P+v la++L  +G +V + t  g +++v++
+  sp|Q43716|UFOG_PETHY 23 GHISPFVQLANKLSSYGVKVSFFTASGNASRVKS 56
+                          9********************9999988888865 PP
+
+>> sp|A5GUT4|SURE_SYNR3  5'-nucleotidase surE OS=Synechococcus sp. (strain RCC307) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.0    0.0099       5.6      15      56 ..      20      60 ..      18      99 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0099
+                          HHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE.----S- CS
+       Glyco_transf_28 15 avAlareLqrrGheVrlatppgleefveeagleavp.igpdvk 56
+                          + Ala+e  rrGh V+ +++p+ e+  + +gl+ ++ i ++ +
+  sp|A5GUT4|SURE_SYNR3 20 IKALAHEAARRGHSVT-VVCPDQERSATGHGLTLQSpIRAE-Q 60
+                          679************6.5789999999******98767777.3 PP
+
+>> sp|Q1ARE4|ILVC_RUBXD  Ketol-acid reductoisomerase OS=Rubrobacter xylanophilus (strain DSM 9941 / NBRC 16129) GN=ilvC 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.4   0.0     0.012       6.8       2      64 ..      20      76 ..      19     121 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.4 bits;  conditional E-value: 0.012
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S------.-H CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwaklesl 64
+                          +++g+G+ G+     A a  L++ G eV+++  +g +++   eeagl + +i+     wa  e +
+  sp|Q1ARE4|ILVC_RUBXD 20 AVLGFGSQGH-----AHALNLRDSGCEVTVGLYRGSASWPkaEEAGLRVAEIPET-VRWA--EVV 76
+                          6777777777.....7799********************999**********999.5555..333 PP
+
+>> sp|A6W7N6|ILVC_KINRD  Ketol-acid reductoisomerase OS=Kineococcus radiotolerans (strain ATCC BAA-149 / DSM 14245 / SRS
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.0   0.1     0.033        19       2      48 ..      21      64 ..      20     106 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 10.0 bits;  conditional E-value: 0.033
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          +++g+G+ G+     A a  L++ G +V ++ ++g +++   ee+gl++
+  sp|A6W7N6|ILVC_KINRD 21 AVLGFGSQGH-----AHALSLRDSGVDVVVGLKEGSKSRAkaEEQGLTV 64
+                          6777777777.....77999*******************9999999986 PP
+
+>> sp|Q11039|DEAD_MYCTU  Cold-shock DEAD box protein A homolog OS=Mycobacterium tuberculosis GN=deaD PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    7.1   0.0      0.25   1.4e+02      23      52 ..     129     158 ..     121     262 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 7.1 bits;  conditional E-value: 0.25
+                           HH---EEEEEETGGGHHHHHH---EEEE-- CS
+       Glyco_transf_28  23 qrrGheVrlatppgleefveeagleavpig 52 
+                            rrG +V ++tp ++ +++e a l+   ++
+  sp|Q11039|DEAD_MYCTU 129 LRRGAQVVVGTPGRMIDHLERATLDLSRVD 158
+                           59********************99887655 PP
+
+>> sp|Q13BM0|UVRC_RHOPS  UvrABC system protein C OS=Rhodopseudomonas palustris (strain BisB5) GN=uvrC PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.9   0.0     0.017       9.5      14      72 ..     607     666 ..     606     672 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 10.9 bits;  conditional E-value: 0.017
+                           HHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE.----S------.-HHHCCSHHH CS
+       Glyco_transf_28  14 PavAlareLqrrGheVrlatppgleefv.eeagleavp.igpdvklwakleslktlkelae 72 
+                           P + + ++L+++ h+  ++++++l+++  +eagl+  p igp  + +a l++++tlke+ +
+  sp|Q13BM0|UVRC_RHOPS 607 PVLYFIQRLRDEAHRFVIGSHRKLRKKDiREAGLQEIPgIGPT-RKRALLHHFGTLKEIER 666
+                           6777899******************9988*********9****.9999999*****99876 PP
+
+>> sp|Q8YMT3|SURE_ANASP  5'-nucleotidase surE OS=Anabaena sp. (strain PCC 7120) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0    0.0085       4.8      18     105 ..      19     127 ..      16     156 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0085
+                           HHHHHHH---EEEEEETGGGHHHHHH---EEEE.----........................S------.-HHHCCSHHHHHHHHHHHH CS
+       Glyco_transf_28  18 lareLqrrGheVrlatppgleefveeagleavp.igpd........................vklwakleslktlkelaeglkalrkak 81 
+                           la++L ++Gh+V++ ++p+ e+  + +gl+ ++ i ++                        + lwa les+  l+    + ++ +  +
+  sp|Q8YMT3|SURE_ANASP  19 LANALAEAGHDVTV-VCPDRERSATGHGLTLHQpIRAEivesifhpaikawacdgtpsdcvkLALWALLESPPDLVLSGIN-QGANLGT 105
+                           89**********76.566777777******987699999999999998888888888888887777777777777666666.6667777 PP
+
+                           HHHHHHHHHHHHHC----EEEE-- CS
+       Glyco_transf_28  82 eilkeakpdvvvgfggyvadlali 105
+                           eil + +  v+++++g +++ ++i
+  sp|Q8YMT3|SURE_ANASP 106 EILYSGT--VSAAMEGMIEGIPSI 127
+                           7776666..666666666666655 PP
+
+>> sp|Q319M0|SURE_PROM9  5'-nucleotidase surE OS=Prochlorococcus marinus (strain MIT 9312) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.0     0.015       8.6      16      54 ..      20      58 ..      17     106 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.015
+                          HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE.---- CS
+       Glyco_transf_28 16 vAlareLqrrGheVrlatppgleefveeagleavp.igpd 54
+                           Ala+  q+rGh+V+ +++p+ e+  + +gl+ ++ + ++
+  sp|Q319M0|SURE_PROM9 20 RALAKSAQKRGHKVT-VVCPDQERSATGHGLTLQSpLRVE 58
+                          59************6.5788999999*****987645555 PP
+
+>> sp|A9VFD5|MTNA2_BACWK  Methylthioribose-1-phosphate isomerase 2 OS=Bacillus weihenstephanensis (strain KBAB4) GN=mtnA
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.9   0.0     0.017       9.9      19      66 ..     205     251 ..     203     300 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 10.9 bits;  conditional E-value: 0.017
+                            HHHHHH---EEEEEETGGGHHHHHH---EEEE----S------.-HHH CS
+        Glyco_transf_28  19 areLqrrGheVrlatppgleefveeagleavpigpdvklwakleslkt 66 
+                             +eL++++++V+l+t +  ++ +++++++a  +g+d +  +++++ ++
+  sp|A9VFD5|MTNA2_BACWK 205 TWELKQADIDVTLITDNTAAHAIRTKEINAIIVGAD-RIVENGDTANK 251
+                            59**********************************.55444444433 PP
+
+>> sp|A1JRP2|NADA_YERE8  Quinolinate synthase A OS=Yersinia enterocolitica serotype O:8 / biotype 1B (strain 8081) GN=na
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    3.4   0.0       3.5     2e+03      47     107 ..      15      73 ..       8      82 .. 0.84
+   2 ?    6.6   0.0      0.37   2.1e+02      85     132 ..     226     276 ..     191     278 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 3.4 bits;  conditional E-value: 3.5
+                           EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HH CS
+       Glyco_transf_28  47 eavpigpdvklwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaa 107
+                           +a+p+++d  + +k +  +++k+l+++++a+  a +   ++  ++  ++gg+vad +  a 
+  sp|A1JRP2|NADA_YERE8  15 PARPVPLD--VDQKAFYREKIKTLLKQRDAVLVAHYYTDPEIQALAEETGGCVADSLEMAR 73 
+                           68888888..555558999********99999999999999999999*******9887665 PP
+
+  == domain 2    score: 6.6 bits;  conditional E-value: 0.37
+                           HHHHHHHHHH...C----EEEE--HHHHHHHHHHHHHH----EEEEESSGG CS
+       Glyco_transf_28  85 keakpdvvvg...fggyvadlaliaallagipanvaEqngipglvnkllpr 132
+                            +++p++vv+   ++g  + l++ a +l + +++va ++gi +++++++p 
+  sp|A1JRP2|NADA_YERE8 226 HPESPQAVVDmadAVGSTSQLIMAAKTLPQKKLIVATDRGIFYKMQQACPD 276
+                           555666665411157889**************************9999885 PP
+
+>> sp|A2RKQ6|ILVC_LACLM  Ketol-acid reductoisomerase OS=Lactococcus lactis subsp. cremoris (strain MG1363) GN=ilvC PE=3 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.0   0.0     0.032        18       1      36 [.      21      51 ..      21     101 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.0 bits;  conditional E-value: 0.032
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGG CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppg 36
+                          ++++g+G+ G+     A a+ L++ Gh+V++++  g
+  sp|A2RKQ6|ILVC_LACLM 21 IAVIGYGSQGH-----AHAQNLRDSGHDVIIGVRQG 51
+                          57888899888.....88**************9765 PP
+
+>> sp|Q32DZ9|MACB_SHIDS  Macrolide export ATP-binding/permease protein macB OS=Shigella dysenteriae serotype 1 (strain S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.1     0.019        11      16     110 ..     184     298 ..     181     304 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.019
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S------.-HHHCCSHHHH.H..HHHHHH CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwakleslktlkelaeg.l..kalrka 80 
+                           +A+ ++L++rGh V+++t++  ++  +e+ +e++  ++                      v +w+  ++++ + e++   +   a +k+
+  sp|Q32DZ9|MACB_SHIDS 184 MAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVrnppaidkvnvaggtepvvntVSGWR--QFVSGFNEALTMaWraLAANKM 270
+                           8999***************9999988888888887555555788888888888888888877777..3344443333330200333333 PP
+
+                           HHHHHHHHHHHHHHC----EEEE--HHHHH CS
+       Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaalla 110
+                           +++l +    +++g+++ v+ ++++ a+++
+  sp|Q32DZ9|MACB_SHIDS 271 RTLLTMLG--IIIGIASVVSIVVVGDAAKQ 298
+                           33333333..66666666666666666655 PP
+
+>> sp|A5CPY6|ILVC_CLAM3  Ketol-acid reductoisomerase OS=Clavibacter michiganensis subsp. michiganensis (strain NCPPB 382
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.1     0.018        10       1      59 [.      20      74 ..      20     109 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.018
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwa 59
+                          v+++g+G+ G+     A a  L++ G eV ++ ++g +++   ee+g ++ + ++d  +wa
+  sp|A5CPY6|ILVC_CLAM3 20 VAVIGYGSQGH-----AHALNLRDSGVEVVIGLKEGSTSRAkaEEQGFTV-KTPSDASAWA 74
+                          67888999998.....7799********************9956666555.5555546666 PP
+
+>> sp|B0RIN6|ILVC_CLAMS  Ketol-acid reductoisomerase OS=Clavibacter michiganensis subsp. sepedonicus (strain ATCC 33113 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.1     0.018        10       1      59 [.      20      74 ..      20     109 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.018
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE----S---- CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpdvklwa 59
+                          v+++g+G+ G+     A a  L++ G eV ++ ++g +++   ee+g ++ + ++d  +wa
+  sp|B0RIN6|ILVC_CLAMS 20 VAVIGYGSQGH-----AHALNLRDSGVEVVIGLKEGSTSRAkaEEQGFTV-KTPSDASAWA 74
+                          67888999998.....7799********************9956666555.5555546666 PP
+
+>> sp|Q8K5J6|MUTL_STRP3  DNA mismatch repair protein mutL OS=Streptococcus pyogenes serotype M3 GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.0     0.024        14      57     127 ..     196     265 ..     158     268 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.024
+                           -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           l +     + l+++ +g  +l+ +k+ l+  ++d+++++ gyv+++ l+ a++++  + v+  +   +l n
+  sp|Q8K5J6|MUTL_STRP3 196 LTQTS-GTGDLRQAIAGIYGLNTTKKMLAISNADLDFEVSGYVSLPELTRANRNYMTILVNGRYIKNFLLN 265
+                           55544.567788888999999**********************************9999988877666666 PP
+
+>> sp|Q99XN7|MUTL_STRP1  DNA mismatch repair protein mutL OS=Streptococcus pyogenes serotype M1 GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.0     0.024        14      57     127 ..     196     265 ..     158     268 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.024
+                           -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           l +     + l+++ +g  +l+ +k+ l+  ++d+++++ gyv+++ l+ a++++  + v+  +   +l n
+  sp|Q99XN7|MUTL_STRP1 196 LTQTS-GTGDLRQAIAGIYGLNTTKKMLAISNADLDFEVSGYVSLPELTRANRNYMTILVNGRYIKNFLLN 265
+                           55544.567788888999999**********************************9999988877666666 PP
+
+>> sp|B5XJ09|MUTL_STRPZ  DNA mismatch repair protein mutL OS=Streptococcus pyogenes serotype M49 (strain NZ131) GN=mutL 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.0     0.024        14      57     127 ..     196     265 ..     158     268 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.024
+                           -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           l +     + l+++ +g  +l+ +k+ l+  ++d+++++ gyv+++ l+ a++++  + v+  +   +l n
+  sp|B5XJ09|MUTL_STRPZ 196 LTQTS-GTGDLRQAIAGIYGLNTTKKMLAISNADLDFEVSGYVSLPELTRANRNYMTILVNGRYIKNFLLN 265
+                           55544.567788888999999**********************************9999988877666666 PP
+
+>> sp|A2RGV3|MUTL_STRPG  DNA mismatch repair protein mutL OS=Streptococcus pyogenes serotype M5 (strain Manfredo) GN=mut
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.0     0.024        14      57     127 ..     196     265 ..     158     268 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.024
+                           -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           l +     + l+++ +g  +l+ +k+ l+  ++d+++++ gyv+++ l+ a++++  + v+  +   +l n
+  sp|A2RGV3|MUTL_STRPG 196 LTQTS-GTGDLRQAIAGIYGLNTTKKMLAISNADLDFEVSGYVSLPELTRANRNYMTILVNGRYIKNFLLN 265
+                           55544.567788888999999**********************************9999988877666666 PP
+
+>> sp|Q5X9H5|MUTL_STRP6  DNA mismatch repair protein mutL OS=Streptococcus pyogenes serotype M6 GN=mutL PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.0     0.024        14      57     127 ..     196     265 ..     158     268 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.024
+                           -----.-HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EEEE CS
+       Glyco_transf_28  57 lwakleslktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipglvn 127
+                           l +     + l+++ +g  +l+ +k+ l+  ++d+++++ gyv+++ l+ a++++  + v+  +   +l n
+  sp|Q5X9H5|MUTL_STRP6 196 LTQTS-GTGDLRQAIAGIYGLNTTKKMLAISNADLDFEVSGYVSLPELTRANRNYMTILVNGRYIKNFLLN 265
+                           55544.567788888999999**********************************9999988877666666 PP
+
+>> sp|Q3JYM6|MUTL_STRA1  DNA mismatch repair protein mutL OS=Streptococcus agalactiae serotype Ia GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0     0.019        11      63     125 ..     201     263 ..     168     268 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.019
+                           -HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EE CS
+       Glyco_transf_28  63 slktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipgl 125
+                             + l+++ +g  +l+ ak+ ++  ++d+++++ gyv+++ l+ a++++i + ++  +   +l
+  sp|Q3JYM6|MUTL_STRA1 201 GTGDLRQAIAGIYGLNTAKKMIEISNADLDFEISGYVSLPELTRANRNYITLLINGRYIKNFL 263
+                           566788888999999***********************************9999877766655 PP
+
+>> sp|Q8E2R5|MUTL_STRA3  DNA mismatch repair protein mutL OS=Streptococcus agalactiae serotype III GN=mutL PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0     0.019        11      63     125 ..     201     263 ..     168     268 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.019
+                           -HHHCCSHHHHHHHHHHHHHHHHHHHHHHHHHC----EEEE--HHHHHHHHHHHHHH----EE CS
+       Glyco_transf_28  63 slktlkelaeglkalrkakeilkeakpdvvvgfggyvadlaliaallagipanvaEqngipgl 125
+                             + l+++ +g  +l+ ak+ ++  ++d+++++ gyv+++ l+ a++++i + ++  +   +l
+  sp|Q8E2R5|MUTL_STRA3 201 GTGDLRQAIAGIYGLNTAKKMIEISNADLDFEISGYVSLPELTRANRNYITLLINGRYIKNFL 263
+                           566788888999999***********************************9999877766655 PP
+
+>> sp|Q9MB73|LGT_CITUN  Limonoid UDP-glucosyltransferase OS=Citrus unshiu PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.6   0.0     0.021        12       1      54 [.       9      63 ..       9     141 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 10.6 bits;  conditional E-value: 0.021
+                         EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH.HH---EEEE---- CS
+      Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv.eeagleavpigpd 54
+                         v+l++++  G+v P++ l+r L  +G   +l tp+ + ++  ++ + +++p +++
+  sp|Q9MB73|LGT_CITUN  9 VLLVSFPGHGHVNPLLRLGRLLASKGFFLTLTTPESFGKQMrKAGNFTYEPTPVG 63
+                         68999999*********************************55555677776655 PP
+
+>> sp|A8G678|SURE_PROM2  5'-nucleotidase surE OS=Prochlorococcus marinus (strain MIT 9215) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.0      0.02        11      17      54 ..      21      58 ..      18     136 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.02
+                          HHHHHHHH---EEEEEETGGGHHHHHH---EEEE.---- CS
+       Glyco_transf_28 17 AlareLqrrGheVrlatppgleefveeagleavp.igpd 54
+                          Ala+  q+rGh+V++ ++p+ e+  + +gl+ ++ + ++
+  sp|A8G678|SURE_PROM2 21 ALAKSAQKRGHKVKV-VCPDQERSATGHGLTLQSpLRVE 58
+                          9************96.67888888899999987645555 PP
+
+>> sp|A9WP08|ILVC_RENSM  Ketol-acid reductoisomerase OS=Renibacterium salmoninarum (strain ATCC 33209 / DSM 20767 / IFO 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.5   0.5     0.046        26       1      48 [.      20      64 ..      20     104 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 9.5 bits;  conditional E-value: 0.046
+                          EEEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EE CS
+       Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeaglea 48
+                          v+++g+G+ G+     A a  L++ G +Vr++  +g  ++   e++gl +
+  sp|A9WP08|ILVC_RENSM 20 VAVIGYGSQGH-----AHALSLRDSGVDVRVGLAEGSQSRAkaEAEGLRV 64
+                          67888999998.....77999*********99999999998878888876 PP
+
+>> sp|A9WC26|ILVC_CHLAA  Ketol-acid reductoisomerase OS=Chloroflexus aurantiacus (strain ATCC 29366 / DSM 635 / J-10-fl)
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.1    0.0085       4.8       2      54 ..      21      70 ..      20     102 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0085
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          +++g+G+ G+     A ar L + G +Vr++  pg +++   e+agl++ +++  
+  sp|A9WC26|ILVC_CHLAA 21 AIIGFGSQGH-----AHARNLADSGLDVRVGLYPGSKSWAkvEAAGLKVMTVAEA 70
+                          5667777776.....789********************9999*****99887766 PP
+
+>> sp|B9LGM7|ILVC_CHLSY  Ketol-acid reductoisomerase OS=Chloroflexus aurantiacus (strain ATCC 29364 / DSM 637 / Y-400-fl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.1    0.0085       4.8       2      54 ..      21      70 ..      20     102 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 11.9 bits;  conditional E-value: 0.0085
+                          EEE-------HHHHHHHHHHHHH---EEEEEETGGGHHHH..HH---EEEE---- CS
+       Glyco_transf_28  2 vlaggGTrGdvePavAlareLqrrGheVrlatppgleefv..eeagleavpigpd 54
+                          +++g+G+ G+     A ar L + G +Vr++  pg +++   e+agl++ +++  
+  sp|B9LGM7|ILVC_CHLSY 21 AIIGFGSQGH-----AHARNLADSGLDVRVGLYPGSKSWAkvEAAGLKVMTVAEA 70
+                          5667777776.....789********************9999*****99887766 PP
+
+>> sp|A2BSJ2|SURE_PROMS  5'-nucleotidase surE OS=Prochlorococcus marinus (strain AS9601) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.0      0.02        12      17      53 ..      21      57 ..      18     150 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.02
+                          HHHHHHHH---EEEEEETGGGHHHHHH---EEEE.--- CS
+       Glyco_transf_28 17 AlareLqrrGheVrlatppgleefveeagleavp.igp 53
+                          Ala+  q+rGh+V++ ++p+ e+  + +gl+ ++ + +
+  sp|A2BSJ2|SURE_PROMS 21 ALAKSAQKRGHKVKV-VCPDQERSATGHGLTLQSpLRV 57
+                          9************96.6788888889999998754554 PP
+
+>> sp|Q9LR44|IABG1_ARATH  Indole-3-acetate beta-glucosyltransferase 1 OS=Arabidopsis thaliana GN=UGT75B1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.026        15       1      32 [.       6      38 ..       6      43 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.026
+                           EEEE-------HHHHHHHHHHHHH-.--EEEEE CS
+        Glyco_transf_28  1 vvlaggGTrGdvePavAlareLqrr.GheVrla 32
+                           ++l+++++ G+v P++ +ar+L +r G +V+++
+  sp|Q9LR44|IABG1_ARATH  6 FLLVTFPAQGHVNPSLRFARRLIKRtGARVTFV 38
+                           79********************87646777655 PP
+
+>> sp|O57731|VATD_PYRHO  V-type ATP synthase subunit D OS=Pyrococcus horikoshii GN=atpD PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.0   0.1     0.068        38      26      86 ..     101     159 ..      80     170 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 9.0 bits;  conditional E-value: 0.068
+                           --EEEEEETGGGHHHHHH---EEEE----S------.-HHHCCSHHHHHHHHHHHHHHHHH CS
+       Glyco_transf_28  26 GheVrlatppgleefveeagleavpigpdvklwakleslktlkelaeglkalrkakeilke 86 
+                           G +V l+  p+l+++  e+g+++v+ ++ v  +a  e++++++ela +l +++++ + l +
+  sp|O57731|VATD_PYRHO 101 GVRVPLIEVPELKRKASERGYAFVSTTSTVDMAA--EKFEEVLELAIRLAEVEESLKRLGK 159
+                           556669999*******************988999..99**********8888888887765 PP
+
+>> sp|A3PEA4|SURE_PROM0  5'-nucleotidase surE OS=Prochlorococcus marinus (strain MIT 9301) GN=surE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.0     0.027        15      17      50 ..      21      53 ..      18     102 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.027
+                          HHHHHHHH---EEEEEETGGGHHHHHH---EEEE CS
+       Glyco_transf_28 17 AlareLqrrGheVrlatppgleefveeagleavp 50
+                          Ala+  q+rGh+V++ ++p+ e+  + +gl+ ++
+  sp|A3PEA4|SURE_PROM0 21 ALAKSAQKRGHKVKV-VCPDQERSATGHGLTLQS 53
+                          9************96.678888888999999875 PP
+
+>> sp|P75831|MACB_ECOLI  Macrolide export ATP-binding/permease protein macB OS=Escherichia coli (strain K12) GN=macB PE=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.1     0.019        11      16     110 ..     184     298 ..     181     304 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.019
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S------.-HHHCCSHHHH.H..HHHHHH CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwakleslktlkelaeg.l..kalrka 80 
+                           +A+ ++L++rGh V+++t++  ++  +e+ +e++  ++                      v +w+  ++++ + e++   +   a +k+
+  sp|P75831|MACB_ECOLI 184 MAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVrnppaiekvnvtggtepvvntVSGWR--QFVSGFNEALTMaWraLAANKM 270
+                           8999***************9999988888888887555556788888888888888888877777..3344443333330200333333 PP
+
+                           HHHHHHHHHHHHHHC----EEEE--HHHHH CS
+       Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaalla 110
+                           +++l +    +++g+++ v+ ++++ a+++
+  sp|P75831|MACB_ECOLI 271 RTLLTMLG--IIIGIASVVSIVVVGDAAKQ 298
+                           33333333..66666666666666666655 PP
+
+>> sp|Q83LR7|MACB_SHIFL  Macrolide export ATP-binding/permease protein macB OS=Shigella flexneri GN=macB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.1      0.02        11      16     110 ..     184     298 ..     181     304 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.02
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S------.-HHHCCSHHHH.H..HHHHHH CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwakleslktlkelaeg.l..kalrka 80 
+                           +A+ ++L++rGh V+++t++  ++  +e+ +e++  ++                      v +w+  ++++ + e++   +   a +k+
+  sp|Q83LR7|MACB_SHIFL 184 MAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVrnppaiekvnvaggtepvvntVSGWR--QFVSGFNEALTMaWraLAANKM 270
+                           8999***************9999988888888887555556788888888888888888877777..3344443333330200333333 PP
+
+                           HHHHHHHHHHHHHHC----EEEE--HHHHH CS
+       Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaalla 110
+                           +++l +    +++g+++ v+ ++++ a+++
+  sp|Q83LR7|MACB_SHIFL 271 RTLLTMLG--IIIGIASVVSIVVVGDAAKQ 298
+                           33333333..66666666666666666655 PP
+
+>> sp|Q3Z3Q4|MACB_SHISS  Macrolide export ATP-binding/permease protein macB OS=Shigella sonnei (strain Ss046) GN=macB PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.1      0.02        11      16     110 ..     184     298 ..     181     304 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.02
+                           HHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S------.-HHHCCSHHHH.H..HHHHHH CS
+       Glyco_transf_28  16 vAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwakleslktlkelaeg.l..kalrka 80 
+                           +A+ ++L++rGh V+++t++  ++  +e+ +e++  ++                      v +w+  ++++ + e++   +   a +k+
+  sp|Q3Z3Q4|MACB_SHISS 184 MAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVrnppaiekvnvaggtepvvntVSGWR--QFVSGFNEALTMaWraLAANKM 270
+                           8999***************9999988888888887555556788888888888888888877777..3344443333330200333333 PP
+
+                           HHHHHHHHHHHHHHC----EEEE--HHHHH CS
+       Glyco_transf_28  81 keilkeakpdvvvgfggyvadlaliaalla 110
+                           +++l +    +++g+++ v+ ++++ a+++
+  sp|Q3Z3Q4|MACB_SHISS 271 RTLLTMLG--IIIGIASVVSIVVVGDAAKQ 298
+                           33333333..66666666666666666655 PP
+
+>> sp|Q8XED0|MACB_ECO57  Macrolide export ATP-binding/permease protein macB OS=Escherichia coli O157:H7 GN=macB PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.2   0.1     0.029        16      15     108 ..     183     296 ..     180     304 .. 0.59
+
+  Alignments for each domain:
+  == domain 1    score: 10.2 bits;  conditional E-value: 0.029
+                           HHHHHHHHHH---EEEEEETGGGHHHHHH---EEEE----.....................S------.-HHHCCSHHHH.H..HHHHH CS
+       Glyco_transf_28  15 avAlareLqrrGheVrlatppgleefveeagleavpigpd.....................vklwakleslktlkelaeg.l..kalrk 79 
+                            +A+ ++L++rGh V+++t++  ++  +e+ +e++  ++                        +w+  ++++ + e++   +   a +k
+  sp|Q8XED0|MACB_ECO57 183 VMAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVrnppaiekvnvaggtepvvntASGWR--QFVSGFNEALTMaWraLAANK 269
+                           5899****************9888888888777776444455677777777777777777744444..222222222222010033333 PP
+
+                           HHHHHHHHHHHHHHHC----EEEE--HHH CS
+       Glyco_transf_28  80 akeilkeakpdvvvgfggyvadlaliaal 108
+                           ++++l +    +++g+++ v+ ++++ a+
+  sp|Q8XED0|MACB_ECO57 270 MRTLLTMLG--IIIGIASVVSIVVVGDAA 296
+                           333333333..555555555555555555 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                            1  (139 nodes)
+Target sequences:                     516081  (181677051 residues)
+Passed MSV filter:                     24810  (0.0480738); expected 10321.6 (0.02)
+Passed bias filter:                    19491  (0.0377673); expected 10321.6 (0.02)
+Passed Vit filter:                      3048  (0.00590605); expected 516.1 (0.001)
+Passed Fwd filter:                       917  (0.00177685); expected 5.2 (1e-05)
+Initial search space (Z):             516081  [actual number of targets]
+Domain search space  (domZ):             916  [number of targets reported over threshold]
+# CPU time: 6.72u 0.07s 00:00:06.79 Elapsed: 00:00:02.00
+# Mc/sec: 12563.74
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.ncbi-blastp.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.ncbi-blastp.out
new file mode 100755
index 0000000..26b75ef
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.ncbi-blastp.out
@@ -0,0 +1,437 @@
+BLASTP 2.2.22 [Sep-27-2009]
+
+
+Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer, 
+Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997), 
+"Gapped BLAST and PSI-BLAST: a new generation of protein database search
+programs",  Nucleic Acids Res. 25:3389-3402.
+
+Reference for compositional score matrix adjustment: Altschul, Stephen F., 
+John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
+Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
+using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
+
+Query= sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium
+sp. (strain NGR234) GN=NGR_a00980 PE=4 SV=1
+         (181 letters)
+
+Database: uniprot_sprot.fasta 
+           516,081 sequences; 181,677,051 total letters
+
+Searching..................................................done
+
+
+
+                                                                 Score    E
+Sequences producing significant alignments:                      (bits) Value
+
+sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium s...   325   1e-88
+sp|B2VCH7|MTLD_ERWT9 Mannitol-1-phosphate 5-dehydrogenase OS=Erw...    31   3.8  
+sp|Q9CZP0|UFSP1_MOUSE Ufm1-specific protease 1 OS=Mus musculus G...    30   7.3  
+
+>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium sp.
+           (strain NGR234) GN=NGR_a00980 PE=4 SV=1
+          Length = 181
+
+ Score =  325 bits (832), Expect = 1e-88,   Method: Compositional matrix adjust.
+ Identities = 163/181 (90%), Positives = 163/181 (90%)
+
+Query: 1   MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT 60
+           MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+Sbjct: 1   MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT 60
+
+Query: 61  TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF 120
+           TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+Sbjct: 61  TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF 120
+
+Query: 121 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSXXXXXXXXXXXXXXXXXXSRP 180
+           AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERS                  SRP
+Sbjct: 121 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP 180
+
+Query: 181 N 181
+           N
+Sbjct: 181 N 181
+
+
+>sp|B2VCH7|MTLD_ERWT9 Mannitol-1-phosphate 5-dehydrogenase
+          OS=Erwinia tasmaniensis (strain DSM 17950 / Et1/99)
+          GN=mtlD PE=3 SV=1
+          Length = 382
+
+ Score = 31.2 bits (69), Expect = 3.8,   Method: Compositional matrix adjust.
+ Identities = 17/52 (32%), Positives = 32/52 (61%), Gaps = 6/52 (11%)
+
+Query: 42 GKMAEIDAILITDVNGIGTTADDQLAFVSLIADQGETTTVAFGPEIGSRIAA 93
+          G+ A+I+  ++  VN + +++DD +A ++ +    +  T A GP+I  RIAA
+Sbjct: 52 GEQAQIE--IVNGVNAVHSSSDDIIALIAEV----DIVTTAVGPQILERIAA 97
+
+
+>sp|Q9CZP0|UFSP1_MOUSE Ufm1-specific protease 1 OS=Mus musculus
+           GN=Ufsp1 PE=1 SV=1
+          Length = 217
+
+ Score = 30.0 bits (66), Expect = 7.3,   Method: Compositional matrix adjust.
+ Identities = 15/44 (34%), Positives = 22/44 (50%)
+
+Query: 111 GKEERKFKPFAAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFI 154
+           G+EER +  F   G  V  G  AD  +  +L I    G+EV+ +
+Sbjct: 129 GEEERLYSHFTTGGGPVMVGGDADAQSKALLGICEGPGSEVYVL 172
+
+
+BLASTP 2.2.22 [Sep-27-2009]
+
+
+Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer, 
+Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997), 
+"Gapped BLAST and PSI-BLAST: a new generation of protein database search
+programs",  Nucleic Acids Res. 25:3389-3402.
+
+Reference for compositional score matrix adjustment: Altschul, Stephen F., 
+John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
+Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
+using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
+
+Query= sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA
+OS=Aspergillus oryzae GN=hacA PE=2 SV=1
+         (345 letters)
+
+Database: uniprot_sprot.fasta 
+           516,081 sequences; 181,677,051 total letters
+
+Searching..................................................done
+
+
+
+                                                                 Score    E
+Sequences producing significant alignments:                      (bits) Value
+
+sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergill...   602   e-171
+sp|Q8TFU8|HAC1_EMENI Transcriptional activator hacA OS=Emericell...   416   e-115
+sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac1 OS=Trichoder...    84   2e-15
+sp|P41546|HAC1_YEAST Transcriptional activator HAC1 OS=Saccharom...    58   1e-07
+sp|O24646|HY5_ARATH Transcription factor HY5 OS=Arabidopsis thal...    41   0.010
+sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=Solanum lycopers...    38   0.12 
+sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-binding prot...    34   1.5  
+sp|A1URL3|PYRD_BARBK Dihydroorotate dehydrogenase OS=Bartonella ...    34   1.6  
+sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-binding prot...    34   1.9  
+sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-binding prot...    33   2.1  
+sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element-binding protei...    33   2.6  
+sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-binding prot...    33   2.9  
+sp|Q8W191|HYH_ARATH Transcription factor HY5-like OS=Arabidopsis...    32   5.7  
+sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bos taurus GN=XB...    32   5.8  
+sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element-binding protei...    32   9.0  
+sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-binding prot...    32   9.3  
+
+>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergillus
+           oryzae GN=hacA PE=2 SV=1
+          Length = 345
+
+ Score =  602 bits (1552), Expect = e-171,   Method: Compositional matrix adjust.
+ Identities = 303/345 (87%), Positives = 303/345 (87%)
+
+Query: 1   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVXXXXXXXXXXXXSWG 60
+           MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV            SWG
+Sbjct: 1   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG 60
+
+Query: 61  QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQ 120
+           QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS               IQMEQ
+Sbjct: 61  QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ 120
+
+Query: 121 QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMXXXXXXXXXXXXXXXFKQERD 180
+           QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM               FKQERD
+Sbjct: 121 QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD 180
+
+Query: 181 ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK 240
+           ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+Sbjct: 181 ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK 240
+
+Query: 241 HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS 300
+           HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+Sbjct: 241 HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS 300
+
+Query: 301 EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 345
+           EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+Sbjct: 301 EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 345
+
+
+>sp|Q8TFU8|HAC1_EMENI Transcriptional activator hacA OS=Emericella
+           nidulans GN=hacA PE=2 SV=2
+          Length = 350
+
+ Score =  416 bits (1069), Expect = e-115,   Method: Compositional matrix adjust.
+ Identities = 225/332 (67%), Positives = 254/332 (76%), Gaps = 1/332 (0%)
+
+Query: 13  DSLPATPASEVPVLTVSPADTSLNSADVKTQEVXXXXXXXXXXXXSWGQELPVPKTNLPP 72
+           +SLP TP+ EVPVLTVSPADTSL + +V  Q              SWGQELPVPKTNLPP
+Sbjct: 18  NSLPTTPSLEVPVLTVSPADTSLQTKNVVAQ-TKPEEKKPAKKRKSWGQELPVPKTNLPP 76
+
+Query: 73  RKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQM 132
+           RKRAKTEDEKEQRRIERVLRNRAAAQTS               I MEQQNQFLLQRL+QM
+Sbjct: 77  RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLESEKIDMEQQNQFLLQRLAQM 136
+
+Query: 133 EAENNRLSQQLAQLAAEVRGSRANTPMXXXXXXXXXXXXXXXFKQERDELPLERIPFPTP 192
+           EAENNRLSQQ+AQL+AEVRGSR +TP                FKQE DE+PL+RIPFPTP
+Sbjct: 137 EAENNRLSQQVAQLSAEVRGSRHSTPTSSSPASVSPTLTPTLFKQEGDEVPLDRIPFPTP 196
+
+Query: 193 SLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLS 252
+           S++DYSPTLKPS+LAES D+ QHPAVSV GLEGD SAL LFDLG+ +KH  T D+ APLS
+Sbjct: 197 SVTDYSPTLKPSSLAESPDLTQHPAVSVGGLEGDESALTLFDLGASIKHEPTHDLTAPLS 256
+
+Query: 253 DDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAH 312
+           DDDF RLF+GDSS+E DSS+ EDG AFDVL+ GDLSAFPFDSMV+FD+EPVTLE +E  +
+Sbjct: 257 DDDFRRLFNGDSSLESDSSLLEDGFAFDVLDSGDLSAFPFDSMVDFDTEPVTLEDLEQTN 316
+
+Query: 313 GLPDETTCKTSSVQPGFGASTTRCDGQGIAAG 344
+           GL D  +CK +S+QP  GAST+RCDGQGIAAG
+Sbjct: 317 GLSDSASCKAASLQPSHGASTSRCDGQGIAAG 348
+
+
+>sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac1 OS=Trichoderma
+           reesei GN=hac1 PE=2 SV=1
+          Length = 451
+
+ Score = 84.0 bits (206), Expect = 2e-15,   Method: Compositional matrix adjust.
+ Identities = 38/43 (88%), Positives = 40/43 (93%)
+
+Query: 58  SWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+           SWGQ LP PKTNLPPRKRAKTEDEKEQRR+ERVLRNR AAQ+S
+Sbjct: 93  SWGQVLPEPKTNLPPRKRAKTEDEKEQRRVERVLRNRRAAQSS 135
+
+
+>sp|P41546|HAC1_YEAST Transcriptional activator HAC1
+           OS=Saccharomyces cerevisiae GN=HAC1 PE=1 SV=2
+          Length = 238
+
+ Score = 58.2 bits (139), Expect = 1e-07,   Method: Compositional matrix adjust.
+ Identities = 28/41 (68%), Positives = 33/41 (80%), Gaps = 3/41 (7%)
+
+Query: 63  LPVP---KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+           L +P   K+ LPPRKRAKT++EKEQRRIER+LRNR AA  S
+Sbjct: 16  LAIPTNFKSTLPPRKRAKTKEEKEQRRIERILRNRRAAHQS 56
+
+
+>sp|O24646|HY5_ARATH Transcription factor HY5 OS=Arabidopsis
+           thaliana GN=HY5 PE=1 SV=1
+          Length = 168
+
+ Score = 41.2 bits (95), Expect = 0.010,   Method: Compositional matrix adjust.
+ Identities = 27/80 (33%), Positives = 39/80 (48%)
+
+Query: 60  GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQME 119
+           GQE          RKR +T  EKE +R++R+LRNR +AQ +                 +E
+Sbjct: 65  GQERTQATVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELENRVKDLE 124
+
+Query: 120 QQNQFLLQRLSQMEAENNRL 139
+            +N  L +RLS ++ EN  L
+Sbjct: 125 NKNSELEERLSTLQNENQML 144
+
+
+>sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=Solanum
+           lycopersicum GN=HY5 PE=2 SV=1
+          Length = 158
+
+ Score = 37.7 bits (86), Expect = 0.12,   Method: Compositional matrix adjust.
+ Identities = 26/80 (32%), Positives = 41/80 (51%), Gaps = 3/80 (3%)
+
+Query: 60  GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQME 119
+           GQ  P   T    RKR ++  +KE +R++R+LRNR +AQ +                ++E
+Sbjct: 66  GQAQPSAGTQ---RKRGRSPADKENKRLKRLLRNRVSAQQARERKKAYLIDLEARVKELE 122
+
+Query: 120 QQNQFLLQRLSQMEAENNRL 139
+            +N  L +RLS ++ EN  L
+Sbjct: 123 TKNAELEERLSTLQNENQML 142
+
+
+>sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-binding protein
+           3 OS=Mus musculus GN=Creb3 PE=2 SV=2
+          Length = 404
+
+ Score = 34.3 bits (77), Expect = 1.5,   Method: Compositional matrix adjust.
+ Identities = 20/71 (28%), Positives = 35/71 (49%)
+
+Query: 80  DEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQMEAENNRL 139
+           +E+  +R+ R +RN+ AAQ S               ++   QN+ L  ++ ++E +N  L
+Sbjct: 182 EEQVLKRVRRKIRNKRAAQESRKKKKVYVVGLESRVLKYTAQNRELQNKVQRLEEQNLSL 241
+
+Query: 140 SQQLAQLAAEV 150
+             QL +L A V
+Sbjct: 242 LDQLRKLQAMV 252
+
+
+>sp|A1URL3|PYRD_BARBK Dihydroorotate dehydrogenase OS=Bartonella
+           bacilliformis (strain ATCC 35685 / KC583) GN=pyrD PE=3
+           SV=1
+          Length = 362
+
+ Score = 33.9 bits (76), Expect = 1.6,   Method: Compositional matrix adjust.
+ Identities = 28/70 (40%), Positives = 36/70 (51%), Gaps = 11/70 (15%)
+
+Query: 227 GSALPLF-DLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGL---AFDVL 282
+           G ++P+F  L  DL     DDVAA LS  DF      D  V  ++++F  GL   AF + 
+Sbjct: 205 GFSIPIFLKLAPDLTEQELDDVAAELSLSDF------DGLVVSNTTLFRQGLKKSAF-MN 257
+
+Query: 283 EGGDLSAFPF 292
+           EGG LS  P 
+Sbjct: 258 EGGGLSGRPL 267
+
+
+>sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-binding protein
+           3-like protein 3 OS=Bos taurus GN=CREB3L3 PE=2 SV=1
+          Length = 456
+
+ Score = 33.9 bits (76), Expect = 1.9,   Method: Compositional matrix adjust.
+ Identities = 20/71 (28%), Positives = 34/71 (47%)
+
+Query: 80  DEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQMEAENNRL 139
+           +E+  ++I R +RN+ +AQ S                    QNQ L +++  +E +N  L
+Sbjct: 235 EERMLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNLSL 294
+
+Query: 140 SQQLAQLAAEV 150
+            +QL +L A V
+Sbjct: 295 LEQLKKLQAIV 305
+
+
+>sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-binding protein
+           3-like protein 3 OS=Homo sapiens GN=CREB3L3 PE=1 SV=2
+          Length = 461
+
+ Score = 33.5 bits (75), Expect = 2.1,   Method: Compositional matrix adjust.
+ Identities = 20/71 (28%), Positives = 34/71 (47%)
+
+Query: 80  DEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQMEAENNRL 139
+           +E+  ++I R +RN+ +AQ S                    QNQ L +++  +E +N  L
+Sbjct: 240 EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNLSL 299
+
+Query: 140 SQQLAQLAAEV 150
+            +QL +L A V
+Sbjct: 300 LEQLKKLQAIV 310
+
+
+>sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element-binding protein
+           3-like protein 3 OS=Rattus norvegicus GN=Creb3l3 PE=2
+           SV=1
+          Length = 470
+
+ Score = 33.1 bits (74), Expect = 2.6,   Method: Compositional matrix adjust.
+ Identities = 22/83 (26%), Positives = 36/83 (43%)
+
+Query: 68  TNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQ 127
+             LP +      +E+  ++I R +RN+ +AQ S                    QNQ L +
+Sbjct: 224 VTLPTQLPLTKYEERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQR 283
+
+Query: 128 RLSQMEAENNRLSQQLAQLAAEV 150
+           ++  +E +N  L +QL  L A V
+Sbjct: 284 KVLHLEKQNLSLLEQLKHLQALV 306
+
+
+>sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-binding protein
+           3-like protein 3 OS=Mus musculus GN=Creb3l3 PE=2 SV=1
+          Length = 479
+
+ Score = 33.1 bits (74), Expect = 2.9,   Method: Compositional matrix adjust.
+ Identities = 22/83 (26%), Positives = 36/83 (43%)
+
+Query: 68  TNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQ 127
+             LP +      +E+  ++I R +RN+ +AQ S                    QNQ L +
+Sbjct: 224 VTLPTQLPLTKYEERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQR 283
+
+Query: 128 RLSQMEAENNRLSQQLAQLAAEV 150
+           ++  +E +N  L +QL  L A V
+Sbjct: 284 KVLHLEKQNLSLLEQLKHLQALV 306
+
+
+>sp|Q8W191|HYH_ARATH Transcription factor HY5-like OS=Arabidopsis
+           thaliana GN=HYH PE=1 SV=1
+          Length = 149
+
+ Score = 32.3 bits (72), Expect = 5.7,   Method: Compositional matrix adjust.
+ Identities = 19/71 (26%), Positives = 35/71 (49%)
+
+Query: 73  RKRAKTEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQM 132
+           R+R +   +KE R ++R+LRNR +AQ +                +++  N  L +++S +
+Sbjct: 68  RRRGRNPVDKEYRSLKRLLRNRVSAQQARERKKVYVSDLESRANELQNNNDQLEEKISTL 127
+
+Query: 133 EAENNRLSQQL 143
+             EN  L + L
+Sbjct: 128 TNENTMLRKML 138
+
+
+>sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bos taurus GN=XBP1
+           PE=2 SV=1
+          Length = 261
+
+ Score = 32.0 bits (71), Expect = 5.8,   Method: Compositional matrix adjust.
+ Identities = 25/86 (29%), Positives = 41/86 (47%), Gaps = 10/86 (11%)
+
+Query: 68  TNLPP--RKRAK-TEDEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQF 124
+           + +PP  RKR + T    E++ + R L+NR AAQT+               + +E++NQ 
+Sbjct: 52  SGVPPQARKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQK 111
+
+Query: 125 LL-------QRLSQMEAENNRLSQQL 143
+           LL       ++   +  EN  L Q+L
+Sbjct: 112 LLLENQLLREKTHGLVVENQELRQRL 137
+
+
+>sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element-binding protein
+           3-like protein 4 OS=Rattus norvegicus GN=Creb3l4 PE=2
+           SV=1
+          Length = 367
+
+ Score = 31.6 bits (70), Expect = 9.0,   Method: Compositional matrix adjust.
+ Identities = 18/67 (26%), Positives = 33/67 (49%)
+
+Query: 80  DEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQMEAENNRL 139
+           +E+  ++I R +RN+ +AQ S                   +QNQ L +++ ++E +N  L
+Sbjct: 186 EERILKKIRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSEQNQKLQRKVQELERQNISL 245
+
+Query: 140 SQQLAQL 146
+             Q+ QL
+Sbjct: 246 VAQVHQL 252
+
+
+>sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-binding protein
+           3-like protein 4 OS=Mus musculus GN=Creb3l4 PE=1 SV=1
+          Length = 370
+
+ Score = 31.6 bits (70), Expect = 9.3,   Method: Compositional matrix adjust.
+ Identities = 18/67 (26%), Positives = 34/67 (50%)
+
+Query: 80  DEKEQRRIERVLRNRAAAQTSXXXXXXXXXXXXXXXIQMEQQNQFLLQRLSQMEAENNRL 139
+           +E+  ++I R +RN+ +AQ S                   +QNQ L +++ ++E +N  L
+Sbjct: 190 EERILKKIRRKIRNKQSAQDSRRRKKEYLDGLESRVAACSEQNQKLQRKVQELERQNIFL 249
+
+Query: 140 SQQLAQL 146
+            +Q+ QL
+Sbjct: 250 MEQVRQL 256
+
+
+  Database: uniprot_sprot.fasta
+    Posted date:  Apr 12, 2010  9:48 AM
+  Number of letters in database: 181,677,051
+  Number of sequences in database:  516,081
+  
+Lambda     K      H
+   0.317    0.128    0.360 
+
+Gapped
+Lambda     K      H
+   0.267   0.0410    0.140 
+
+
+Matrix: BLOSUM62
+Gap Penalties: Existence: 11, Extension: 1
+Number of Sequences: 516081
+Number of Hits to DB: 151,440,785
+Number of extensions: 5635886
+Number of successful extensions: 14148
+Number of sequences better than 10.0: 43
+Number of HSP's gapped: 14298
+Number of HSP's successfully gapped: 44
+Length of database: 181,677,051
+Neighboring words threshold: 11
+Window for multiple hits: 40
+X1: 16 ( 7.3 bits)
+X2: 38 (14.6 bits)
+X3: 64 (24.7 bits)
+S1: 41 (21.7 bits)
+S2: 66 (30.0 bits)
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.phmmer.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.phmmer.out
new file mode 100755
index 0000000..7c63df7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.phmmer.out
@@ -0,0 +1,3477 @@
+# phmmer :: search a protein sequence against a protein database
+# HMMER 3.0 (March 2010); http://hmmer.org/
+# Copyright (C) 2010 Howard Hughes Medical Institute.
+# Freely distributed under the GNU General Public License (GPLv3).
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# query sequence file:             example.fa
+# target sequence database:        /misc/data0/databases/Uniprot/uniprot_sprot.fasta
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+
+Query:       sp|P55685|Y4WG_RHISN  [L=181]
+Description: Uncharacterized protein y4wG OS=Rhizobium sp. (strain NGR234) GN=NGR_a00980 PE=4 SV=1
+Scores for complete sequences (score includes all domains):
+   --- full sequence ---   --- best 1 domain ---    -#dom-
+    E-value  score  bias    E-value  score  bias    exp  N  Sequence              Description
+    ------- ------ -----    ------- ------ -----   ---- --  --------              -----------
+   1.9e-115  387.7   2.1   2.1e-115  387.6   1.4    1.0  1  sp|P55685|Y4WG_RHISN  Uncharacterized protein y4wG OS=Rhizob
+  ------ inclusion threshold ------
+        1.7   13.5   0.0        7.4   11.4   0.0    1.9  2  sp|A1VDW9|HEM1_DESVV  Glutamyl-tRNA reductase OS=Desulfovibr
+        2.1   13.1   0.0        9.5   11.0   0.0    1.9  2  sp|Q72C23|HEM1_DESVH  Glutamyl-tRNA reductase OS=Desulfovibr
+        2.8   12.7   0.1         22    9.8   0.1    2.0  2  sp|C0ZYA2|RIMP_RHOE4  Ribosome maturation factor rimP OS=Rho
+        2.9   12.7   0.1    4.7e+02    5.5   0.0    2.2  2  sp|Q98G87|UBIG_RHILO  3-demethylubiquinone-9 3-methyltransfe
+        3.6   12.4   0.1         13   10.6   0.0    1.8  2  sp|B2VCH7|MTLD_ERWT9  Mannitol-1-phosphate 5-dehydrogenase O
+        4.5   12.1   0.5         11   10.8   0.3    1.7  1  sp|A1WE19|RLMN_VEREI  Ribosomal RNA large subunit methyltran
+        4.6   12.0   1.0        7.6   11.3   0.1    1.8  2  sp|Q2J713|RLMN_FRASC  Ribosomal RNA large subunit methyltran
+        5.4   11.8   0.0         12   10.7   0.0    1.5  2  sp|Q9CZP0|UFSP1_MOUSE Ufm1-specific protease 1 OS=Mus muscul
+        7.4   11.4   0.2         32    9.3   0.0    1.9  2  sp|Q21KT6|RLMN_SACD2  Ribosomal RNA large subunit methyltran
+        7.5   11.4   0.0        9.9   11.0   0.0    1.3  1  sp|Q7W7U1|NADD_BORPA  Probable nicotinate-nucleotide adenyly
+        7.9   11.3   0.9    5.7e+02    5.2   0.0    3.1  3  sp|Q8C6Y6|ASB14_MOUSE Ankyrin repeat and SOCS box protein 14
+          8   11.3   0.1         13   10.6   0.1    1.4  1  sp|Q8Y3H7|Y003_RALSO  UPF0161 protein RSc0003 OS=Ralstonia s
+        8.1   11.2   0.7    2.4e+02    6.4   0.0    2.8  3  sp|A4G4J9|RLMN_HERAR  Ribosomal RNA large subunit methyltran
+        8.8   11.1   0.2         16   10.2   0.2    1.4  1  sp|B8F3W8|LEUC_HAEPS  3-isopropylmalate dehydratase large su
+        9.6   11.0   0.0         12   10.7   0.0    1.1  1  sp|Q07074|YH007_YEAST Uncharacterized protein YHR007C-A OS=S
+        9.7   11.0   1.5    1.9e+02    6.8   0.1    2.8  3  sp|A6SZX3|RLMN_JANMA  Ribosomal RNA large subunit methyltran
+        9.7   11.0   2.6         12   10.7   0.4    2.0  2  sp|A2SHB8|RLMN_METPP  Ribosomal RNA large subunit methyltran
+
+
+Domain annotation for each sequence (and alignments):
+>> sp|P55685|Y4WG_RHISN  Uncharacterized protein y4wG OS=Rhizobium sp. (strain NGR234) GN=NGR_a00980 PE=4 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  387.6   1.4  7.5e-120  2.1e-115       1     181 []       1     181 []       1     181 [] 1.00
+
+  Alignments for each domain:
+  == domain 1    score: 387.6 bits;  conditional E-value: 7.5e-120
+  sp|P55685|Y4WG_RHISN   1 ltascrirrnsnsaqkstlgwsalstsdskvfyrvawllgrgklaeidailitdvngigttaddqlafvsliadqgetttvafgpeigs 89 
+                           +tascrirrnsnsaqkst+gwsalstsdskvfyrvawllgrgk+aeidailitdvngigttaddqlafvsliadqgetttvafgpeigs
+  sp|P55685|Y4WG_RHISN   1 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGTTADDQLAFVSLIADQGETTTVAFGPEIGS 89 
+                           8**************************************************************************************** PP
+
+  sp|P55685|Y4WG_RHISN  90 riaasflaacgqlqhqiatrtgkeerkfkpfaaagfsvraglaadgsnsgllsistvagaevhfiaterslrelenqltllleqlrlrs 178
+                           riaasf+aacgqlqhqiatrtgkeerkfkpfaaagfsvraglaadgsnsg+lsistvagaevhfiaterslrelenqltllleqlrlrs
+  sp|P55685|Y4WG_RHISN  90 RIAASFMAACGQLQHQIATRTGKEERKFKPFAAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRS 178
+                           ***************************************************************************************** PP
+
+  sp|P55685|Y4WG_RHISN 179 rpn 181
+                           rpn
+  sp|P55685|Y4WG_RHISN 179 RPN 181
+                           **8 PP
+
+>> sp|A1VDW9|HEM1_DESVV  Glutamyl-tRNA reductase OS=Desulfovibrio vulgaris subsp. vulgaris (strain DP4) GN=hemA PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.4   0.0   0.00026       7.4      63     108 ..      39      86 ..      10     104 .. 0.76
+   2 ?   -1.1   0.0       1.8     5e+04      36      50 ..     185     199 ..     172     225 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.4 bits;  conditional E-value: 0.00026
+  sp|P55685|Y4WG_RHISN  63 ddqlafvsli..adqgetttvafgpeigsriaasflaacgqlqhqiat 108
+                           dd ++ v ++  +++ e   v+ gpe+ sr+  ++ aa gq++h++a 
+  sp|A1VDW9|HEM1_DESVV  39 DDVVSEVLILstCNRVEILAVGRGPEVVSRVLRGWAAARGQCEHDLAP 86 
+                           55554444431156778889999*********************9985 PP
+
+  == domain 2    score: -1.1 bits;  conditional E-value: 1.8
+  sp|P55685|Y4WG_RHISN  36 awllgrgklaeidai 50 
+                           a l+g g +ae+ a 
+  sp|A1VDW9|HEM1_DESVV 185 AMLIGAGEMAELAAT 199
+                           789999999999775 PP
+
+>> sp|Q72C23|HEM1_DESVH  Glutamyl-tRNA reductase OS=Desulfovibrio vulgaris (strain Hildenborough / ATCC 29579 / NCIMB 83
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.0   0.00033       9.5      63     108 ..      39      86 ..      10     104 .. 0.76
+   2 ?   -1.1   0.0       1.8     5e+04      36      50 ..     185     199 ..     172     225 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.00033
+  sp|P55685|Y4WG_RHISN  63 ddqlafvsli..adqgetttvafgpeigsriaasflaacgqlqhqiat 108
+                           dd ++ v ++  +++ e   v+ gpe+ sr+  ++ aa gq++h++a 
+  sp|Q72C23|HEM1_DESVH  39 DDVVSEVLILstCNRVEILAVGRGPEVVSRVLRGWSAARGQCEHDLAP 86 
+                           55554444431156778889999*********************9985 PP
+
+  == domain 2    score: -1.1 bits;  conditional E-value: 1.8
+  sp|P55685|Y4WG_RHISN  36 awllgrgklaeidai 50 
+                           a l+g g +ae+ a 
+  sp|Q72C23|HEM1_DESVH 185 AMLIGAGEMAELAAT 199
+                           789999999999775 PP
+
+>> sp|C0ZYA2|RIMP_RHOE4  Ribosome maturation factor rimP OS=Rhodococcus erythropolis (strain PR4 / NBRC 100887) GN=rimP 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.8   0.1   0.00077        22      36      76 ..      93     131 ..      82     148 .. 0.83
+   2 ?    0.6   0.0      0.53   1.5e+04      40      65 ..     167     192 ..     155     200 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 9.8 bits;  conditional E-value: 0.00077
+  sp|P55685|Y4WG_RHISN  36 awllgrgklaeidailitdvngigttaddqlafvsliadqg 76 
+                            w   rg+ a+id    t v+ igt  dd +a v  i+ +g
+  sp|C0ZYA2|RIMP_RHOE4  93 HWRRARGRKARIDLAGETVVGRIGTLNDDSVAVV--IGGRG 131
+                           699**************************99976..45555 PP
+
+  == domain 2    score: 0.6 bits;  conditional E-value: 0.53
+  sp|P55685|Y4WG_RHISN  40 grgklaeidailitdvngigttaddq 65 
+                             g+    da+ +td +g+ +  dd+
+  sp|C0ZYA2|RIMP_RHOE4 167 PEGRAVPSDAVDLTDDSGVDSVEDDE 192
+                           56888899************999997 PP
+
+>> sp|Q98G87|UBIG_RHILO  3-demethylubiquinone-9 3-methyltransferase OS=Rhizobium loti GN=ubiG PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    5.5   0.0     0.016   4.7e+02     101     123 ..      44      66 ..      32      95 .. 0.81
+   2 ?    5.2   0.0      0.02   5.8e+02      71     103 ..     122     156 ..     107     175 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 5.5 bits;  conditional E-value: 0.016
+  sp|P55685|Y4WG_RHISN 101 qlqhqiatrtgkeerkfkpfaaa 123
+                            ++ qia r g++ r  +pf + 
+  sp|Q98G87|UBIG_RHILO  44 YIRDQIAARFGRDPRAARPFEGL 66 
+                           5789****************754 PP
+
+  == domain 2    score: 5.2 bits;  conditional E-value: 0.02
+  sp|P55685|Y4WG_RHISN  71 liadqgetttvafgpeigsriaa..sflaacgqlq 103
+                            +ad get  v    e+  ++a    f+a cgq+ 
+  sp|Q98G87|UBIG_RHILO 122 DLADAGETFDVILNMEVVEHVADidLFVAKCGQMV 156
+                           589*****************99633699*****85 PP
+
+>> sp|B2VCH7|MTLD_ERWT9  Mannitol-1-phosphate 5-dehydrogenase OS=Erwinia tasmaniensis (strain DSM 17950 / Et1/99) GN=mtl
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.6   0.0   0.00046        13      44      96 ..      54     100 ..      45     113 .. 0.76
+   2 ?   -1.7   0.0       2.8   7.9e+04      40      77 ..     248     282 ..     233     293 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 10.6 bits;  conditional E-value: 0.00046
+  sp|P55685|Y4WG_RHISN  44 laeidailitdvngigttaddqlafvsliadqgetttvafgpeigsriaasfl 96 
+                           +a+i+  ++  vn + +++dd +a   lia+  +  t a gp+i  riaa++ 
+  sp|B2VCH7|MTLD_ERWT9  54 QAQIE--IVNGVNAVHSSSDDIIA---LIAEV-DIVTTAVGPQILERIAAGMA 100
+                           55554..56788999999998655...67765.5667799*********9865 PP
+
+  == domain 2    score: -1.7 bits;  conditional E-value: 2.8
+  sp|P55685|Y4WG_RHISN  40 grgklaeidailitdvngigttaddqlafvsliadqge 77 
+                            +g + e  a+li      g  ad + a+++ i ++ e
+  sp|B2VCH7|MTLD_ERWT9 248 VQGAMEESGAVLIK---RYGFAADKHAAYIQKIINRFE 282
+                           56888888888875...568889999999988887766 PP
+
+>> sp|A1WE19|RLMN_VEREI  Ribosomal RNA large subunit methyltransferase N OS=Verminephrobacter eiseniae (strain EF01-2) G
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.3    0.0004        11      56     119 ..     304     362 ..     276     388 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.0004
+  sp|P55685|Y4WG_RHISN  56 ngigttaddq.lafvsliadqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeerkfkp 119
+                           +g+  +a dq laf ++++  g  ttv      g+ ia    aacgql  ++  rt   er  k 
+  sp|A1WE19|RLMN_VEREI 304 SGLLRSAHDQiLAFAQVLGAAGIVTTVRK--TRGDDIA----AACGQLAGDVRDRTRVAERMAKQ 362
+                           5666777777479************9974..5677776....69************999998775 PP
+
+>> sp|Q2J713|RLMN_FRASC  Ribosomal RNA large subunit methyltransferase N OS=Frankia sp. (strain CcI3) GN=rlmN PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -2.8   0.1         6   1.7e+05      77     108 ..     135     156 ..     120     169 .. 0.57
+   2 ?   11.3   0.1   0.00027       7.6      42     119 ..     324     395 ..     316     413 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: -2.8 bits;  conditional E-value: 6
+  sp|P55685|Y4WG_RHISN  77 etttvafgpeigsriaasflaacgqlqhqiat 108
+                           +  tv+   + g+ +++ f+a          t
+  sp|Q2J713|RLMN_FRASC 135 DRATVCVSSQAGCGMGCPFCA----------T 156
+                           445555555555555555544..........2 PP
+
+  == domain 2    score: 11.3 bits;  conditional E-value: 0.00027
+  sp|P55685|Y4WG_RHISN  42 gklaeidailitdvngigtta...ddqlafvsliadqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeerkfkp 119
+                           g+la+++ i +   +g    a     q afv  + d+g  ttv      g  ia    aacgql  +     gk er  +p
+  sp|Q2J713|RLMN_FRASC 324 GRLAHVNLIPLNPTGGSSWRAsapAGQRAFVRRLRDRGIVTTVRD--TRGREIA----AACGQLAAE---PAGKPERTDRP 395
+                           6778888888877777655441114799**************974..4566666....69***9755...55777777776 PP
+
+>> sp|Q9CZP0|UFSP1_MOUSE  Ufm1-specific protease 1 OS=Mus musculus GN=Ufsp1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.0    0.0004        12     107     155 ..     126     173 ..     104     189 .. 0.84
+   2 ?   -2.1   0.0       3.6     1e+05      17      37 ..     192     213 ..     180     215 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.0004
+   sp|P55685|Y4WG_RHISN 107 atrtgkeerkfkpfaaagfsvraglaadgsnsgllsistvagaevhfia 155
+                            +   g eer +  f  +g  v  g  ad ++  ll+i+   g+ev+ + 
+  sp|Q9CZP0|UFSP1_MOUSE 126 G-LRGEEERLYSHFTTGGGPVMVGGDADAQSKALLGICEGPGSEVYVLI 173
+                            3.459***************************************98765 PP
+
+  == domain 2    score: -2.1 bits;  conditional E-value: 3.6
+   sp|P55685|Y4WG_RHISN  17 stlgwsal.stsdskvfyrvaw 37 
+                            + +gw+ + s  ds  fy +++
+  sp|Q9CZP0|UFSP1_MOUSE 192 GWVGWQKVkSVFDSNSFYNLCF 213
+                            4578876537789999998875 PP
+
+>> sp|Q21KT6|RLMN_SACD2  Ribosomal RNA large subunit methyltransferase N OS=Saccharophagus degradans (strain 2-40 / ATCC
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -0.8   0.0       1.4     4e+04      74     156 ..     105     129 ..      83     158 .. 0.62
+   2 ?    9.3   0.0    0.0011        32      67     115 ..     324     366 ..     312     381 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: -0.8 bits;  conditional E-value: 1.4
+  sp|P55685|Y4WG_RHISN  74 dqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeerkfkpfaaagfsvraglaadgsnsgllsistvagaevhfiat 156
+                            +g+  t++   ++g+ + +sf+a                                                          t
+  sp|Q21KT6|RLMN_SACD2 105 PDGDRGTLCVSSQVGCSLDCSFCA----------------------------------------------------------T 129
+                           234444555555555555555544..........................................................3 PP
+
+  == domain 2    score: 9.3 bits;  conditional E-value: 0.0011
+  sp|P55685|Y4WG_RHISN  67 afvsliadqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeer 115
+                            f +++ d g tttv      g+     + aacgql  q+  rt + +r
+  sp|Q21KT6|RLMN_SACD2 324 RFQQILIDAGYTTTVRT--TRGDD----IDAACGQLAGQVNDRTKRSQR 366
+                           58889999999999974..34554....5689************88776 PP
+
+>> sp|Q7W7U1|NADD_BORPA  Probable nicotinate-nucleotide adenylyltransferase OS=Bordetella parapertussis GN=nadD PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.0   0.00035       9.9     105     152 ..     146     193 ..     100     197 .] 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.00035
+  sp|P55685|Y4WG_RHISN 105 qiatrtgkeerkfkpfaaagfsvraglaadgsnsgllsistvagaevh 152
+                             a r   +e  f p+a +  ++r  laad + +gll     a    h
+  sp|Q7W7U1|NADD_BORPA 146 LAAHRRQLHELPFAPMAVSASDIRQRLAADAATDGLLPEPVAAYIATH 193
+                           34557778999*************************987666655555 PP
+
+>> sp|Q8C6Y6|ASB14_MOUSE  Ankyrin repeat and SOCS box protein 14 OS=Mus musculus GN=Asb14 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    5.2   0.0      0.02   5.7e+02     124     158 ..     216     249 ..     205     256 .. 0.83
+   2 ?    1.6   0.0      0.26   7.3e+03     131     166 ..     320     355 ..     309     361 .. 0.86
+   3 ?    0.2   0.1      0.68   1.9e+04     149     178 ..     522     553 ..     518     554 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 5.2 bits;  conditional E-value: 0.02
+   sp|P55685|Y4WG_RHISN 124 gfsvraglaadgsnsgllsistvagaevhfiater 158
+                            gf+    laa+g+++g++++    ga+vh  a++ 
+  sp|Q8C6Y6|ASB14_MOUSE 216 GFTP-LALAAQGGHTGIMQLLLQKGADVHSQASDS 249
+                            6654.469*********************988775 PP
+
+  == domain 2    score: 1.6 bits;  conditional E-value: 0.26
+   sp|P55685|Y4WG_RHISN 131 laadgsnsgllsistvagaevhfiaterslrelenq 166
+                            +aa g++  +l +   ag +v+f+  +r  ++ ++q
+  sp|Q8C6Y6|ASB14_MOUSE 320 CAAAGAHPHCLELLIQAGFDVNFMLDQRIRKHYDDQ 355
+                            68899999*****************99988887776 PP
+
+  == domain 3    score: 0.2 bits;  conditional E-value: 0.68
+   sp|P55685|Y4WG_RHISN 149 aevhfi.aterslrelen.qltllleqlrlrs 178
+                             e+hfi a  rsl++l + ++  ++ +lrlr+
+  sp|Q8C6Y6|ASB14_MOUSE 522 PEIHFIlANPRSLQHLCRlKIRKCMGRLRLRC 553
+                            589*9847789**9986526777888888885 PP
+
+>> sp|Q8Y3H7|Y003_RALSO  UPF0161 protein RSc0003 OS=Ralstonia solanacearum GN=RSc0003 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.6   0.1   0.00044        13      64     101 ..      22      59 ..      10      68 .. 0.90
+
+  Alignments for each domain:
+  == domain 1    score: 10.6 bits;  conditional E-value: 0.00044
+  sp|P55685|Y4WG_RHISN  64 dqlafvsliadqgetttvafgpeigsriaasflaacgq 101
+                            q+ f+  ++d  +   +  gp igs +aa  l+ c  
+  sp|Q8Y3H7|Y003_RALSO  22 AQCRFLPTCSDYARDAVLTHGPAIGSYLAAKRLCRCHP 59 
+                           5889999***************************9975 PP
+
+>> sp|A4G4J9|RLMN_HERAR  Ribosomal RNA large subunit methyltransferase N OS=Herminiimonas arsenicoxydans GN=rlmN PE=3 SV
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    0.1   0.0      0.77   2.2e+04      93     133 ..      14      53 ..      10      72 .. 0.82
+   2 ?    0.8   0.0      0.46   1.3e+04     136     153 ..     101     118 ..      79     143 .. 0.78
+   3 ?    6.4   0.0    0.0085   2.4e+02      67     117 ..     321     365 ..     289     375 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 0.1 bits;  conditional E-value: 0.77
+  sp|P55685|Y4WG_RHISN  93 asflaacgqlqhqiatrtgkeerkfkpfaaagfsvraglaa 133
+                           a+ +a cg+l  +   r  + +r +  f+a+ f+    la 
+  sp|A4G4J9|RLMN_HERAR  14 AQLIAYCGELGEK-PFRAKQLQRWIHQFGASDFDAMTDLAK 53 
+                           677899**99876.578888899999*****9999888875 PP
+
+  == domain 2    score: 0.8 bits;  conditional E-value: 0.46
+  sp|P55685|Y4WG_RHISN 136 snsgllsistvagaevhf 153
+                            n g l+ist ag+ v+ 
+  sp|A4G4J9|RLMN_HERAR 101 ENRGTLCISTQAGCAVNC 118
+                           589999999999998753 PP
+
+  == domain 3    score: 6.4 bits;  conditional E-value: 0.0085
+  sp|P55685|Y4WG_RHISN  67 afvsliadqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeerkf 117
+                           af +++ d g  tt+      g+    ++ aacgql  ++  rt  ++r  
+  sp|A4G4J9|RLMN_HERAR 321 AFAQVLMDGGLVTTIRK--TRGD----DIDAACGQLAGEVQDRTRVQDRMK 365
+                           78888888888888753..3344....45689************9998864 PP
+
+>> sp|B8F3W8|LEUC_HAEPS  3-isopropylmalate dehydratase large subunit OS=Haemophilus parasuis serovar 5 (strain SH0165) G
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.2   0.2   0.00057        16      88     168 ..     135     218 ..      90     229 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.2 bits;  conditional E-value: 0.00057
+  sp|P55685|Y4WG_RHISN  88 gsriaasflaacgqlqhqiatrtgkeerkfkpfaaagfsvraglaadgsnsgllsistvagaevhfia.terslrel..enqlt 168
+                           g+  a +f  +  +++h +at+t k+ r  k        vr g+ a      +++ +t+ag+  h +  +  ++r+l  e+++t
+  sp|B8F3W8|LEUC_HAEPS 135 GAFGALAFGIGTSEVEHVLATQTVKQARAKKMKIEVRGKVREGITAKDIVLAIIGKTTMAGGTGHVVEfCGEAIRDLsmEGRMT 218
+                           33446678888999**************99988888889***********************9998752456777752244555 PP
+
+>> sp|Q07074|YH007_YEAST  Uncharacterized protein YHR007C-A OS=Saccharomyces cerevisiae GN=YHR007C-A PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.0   0.00041        12     142     173 ..      32      62 ..      27      68 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.00041
+   sp|P55685|Y4WG_RHISN 142 sistvagaevhfiaterslrelenqltllleq 173
+                            s+ t+  a vh+i t+ + ++ enql lll q
+  sp|Q07074|YH007_YEAST  32 SLPTLL-APVHYIPTRLTHHQAENQLFLLLFQ 62 
+                            555554.78*******************9987 PP
+
+>> sp|A6SZX3|RLMN_JANMA  Ribosomal RNA large subunit methyltransferase N OS=Janthinobacterium sp. (strain Marseille) GN=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    0.1   0.0      0.76   2.2e+04      93     133 ..      13      52 ..      10      71 .. 0.81
+   2 ?    0.7   0.0      0.49   1.4e+04     136     153 ..     100     117 ..      75     135 .. 0.77
+   3 ?    6.8   0.1    0.0066   1.9e+02      67     117 ..     322     366 ..     307     376 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 0.1 bits;  conditional E-value: 0.76
+  sp|P55685|Y4WG_RHISN  93 asflaacgqlqhqiatrtgkeerkfkpfaaagfsvraglaa 133
+                           a+ +a cg+l  +   r  + +r +  f+a+ f+    la 
+  sp|A6SZX3|RLMN_JANMA  13 AQLIAYCGELGEK-PFRAKQLQRWIHQFGASDFDAMTDLAK 52 
+                           6778999999866.5788888999999****9999888875 PP
+
+  == domain 2    score: 0.7 bits;  conditional E-value: 0.49
+  sp|P55685|Y4WG_RHISN 136 snsgllsistvagaevhf 153
+                            n g l+ist ag+ v+ 
+  sp|A6SZX3|RLMN_JANMA 100 ENRGTLCISTQAGCAVNC 117
+                           589999999999998753 PP
+
+  == domain 3    score: 6.8 bits;  conditional E-value: 0.0066
+  sp|P55685|Y4WG_RHISN  67 afvsliadqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeerkf 117
+                           af +++ d g  ttv      g+    ++ aacgql  ++  rt  ++r  
+  sp|A6SZX3|RLMN_JANMA 322 AFAQVLMDAGIVTTVRK--TRGD----DIDAACGQLAGEVQDRTRVQDRMK 366
+                           78888899999888863..3444....45689************9998864 PP
+
+>> sp|A2SHB8|RLMN_METPP  Ribosomal RNA large subunit methyltransferase N OS=Methylibium petroleiphilum (strain PM1) GN=r
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -0.7   0.0       1.3   3.8e+04      95     116 ..     135     156 ..      78     166 .. 0.59
+   2 ?   10.7   0.4   0.00042        12      66     139 ..     319     387 ..     291     393 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: -0.7 bits;  conditional E-value: 1.3
+  sp|P55685|Y4WG_RHISN  95 flaacgqlqhqiatrtgkeerk 116
+                           ++a   + +hq+  r g  er 
+  sp|A2SHB8|RLMN_METPP 135 IVAQLWHAEHQLRARLGTTERV 156
+                           4445555667777777777765 PP
+
+  == domain 2    score: 10.7 bits;  conditional E-value: 0.00042
+  sp|P55685|Y4WG_RHISN  66 lafvsliadqgetttvafgpeigsriaasflaacgqlqhqiatrtgkeerkfk.pfaaagfsvraglaadgsnsg 139
+                            af +l+ d g  ttv      g+    ++ aacgql  ++  rt  + r  + p+a   ++      ad + sg
+  sp|A2SHB8|RLMN_METPP 319 QAFAQLLVDGGLVTTVRR--TRGD----DIDAACGQLAGEVQDRTNAQARMRRaPIAIRPIDSAVQRRADAAPSG 387
+                           489999999999999964..3354....45689************999885443888887777777777777766 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                            1  (181 nodes)
+Target sequences:                     516081  (181677051 residues)
+Passed MSV filter:                     11913  (0.0230836); expected 10321.6 (0.02)
+Passed bias filter:                    11913  (0.0230836); expected 10321.6 (0.02)
+Passed Vit filter:                      1904  (0.00368934); expected 516.1 (0.001)
+Passed Fwd filter:                        38  (7.36319e-05); expected 5.2 (1e-05)
+Initial search space (Z):             516081  [actual number of targets]
+Domain search space  (domZ):              18  [number of targets reported over threshold]
+# CPU time: 6.07u 0.08s 00:00:06.15 Elapsed: 00:00:02.46
+# Mc/sec: 13367.30
+//
+Query:       sp|Q1XGE2|HAC1_ASPOR  [L=345]
+Description: Transcriptional activator hacA OS=Aspergillus oryzae GN=hacA PE=2 SV=1
+Scores for complete sequences (score includes all domains):
+   --- full sequence ---   --- best 1 domain ---    -#dom-
+    E-value  score  bias    E-value  score  bias    exp  N  Sequence              Description
+    ------- ------ -----    ------- ------ -----   ---- --  --------              -----------
+     2e-228  762.1   3.5   2.2e-228  762.0   2.4    1.0  1  sp|Q1XGE2|HAC1_ASPOR  Transcriptional activator hacA OS=Aspe
+   1.2e-169  568.8   2.3   1.5e-169  568.6   1.6    1.0  1  sp|Q8TFU8|HAC1_EMENI  Transcriptional activator hacA OS=Emer
+    1.5e-26   98.4   9.3    1.5e-26   98.4   6.4    3.2  3  sp|Q8TFF3|HAC1_TRIRE  Transcriptional activator hac1 OS=Tric
+    1.3e-12   52.6   5.6    1.3e-12   52.6   3.9    1.7  1  sp|P41546|HAC1_YEAST  Transcriptional activator HAC1 OS=Sacc
+      6e-11   47.1   2.6    6.9e-11   46.9   1.8    1.1  1  sp|O24646|HY5_ARATH   Transcription factor HY5 OS=Arabidopsi
+    4.6e-07   34.3   0.7      6e-07   33.9   0.5    1.3  1  sp|Q3SZZ2|XBP1_BOVIN  X-box-binding protein 1 OS=Bos taurus 
+    7.8e-07   33.6   5.7    9.5e-07   33.3   3.9    1.1  1  sp|Q9SM50|HY5_SOLLC   Transcription factor HY5 OS=Solanum ly
+    1.7e-06   32.5   2.8    2.4e-06   32.0   2.0    1.3  1  sp|P17861|XBP1_HUMAN  X-box-binding protein 1 OS=Homo sapien
+    9.6e-06   30.0   4.8    1.2e-05   29.6   3.4    1.1  1  sp|Q8W191|HYH_ARATH   Transcription factor HY5-like OS=Arabi
+    2.2e-05   28.8   0.0    3.8e-05   28.0   0.0    1.3  1  sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive element-binding 
+    6.8e-05   27.2   2.5     0.0001   26.6   1.7    1.3  1  sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-binding 
+    7.1e-05   27.1   3.1    0.00011   26.6   2.2    1.4  1  sp|Q9R1S4|XBP1_RAT    X-box-binding protein 1 OS=Rattus norv
+    0.00017   25.8   0.5    0.00027   25.2   0.3    1.3  1  sp|Q54WN7|BZPF_DICDI  Probable basic-leucine zipper transcri
+    0.00023   25.5   0.8     0.0004   24.7   0.2    1.6  1  sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive element-binding 
+    0.00023   25.4   4.5    0.00023   25.4   3.1    1.6  1  sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF2 OS=Petro
+    0.00028   25.2   0.2    0.00056   24.2   0.2    1.4  1  sp|Q5FVM5|CR3L3_RAT   Cyclic AMP-responsive element-binding 
+    0.00029   25.1   3.1    0.00044   24.5   2.2    1.3  1  sp|O35426|XBP1_MOUSE  X-box-binding protein 1 OS=Mus musculu
+    0.00031   25.0   0.1    0.00043   24.5   0.0    1.2  1  sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-binding 
+    0.00058   24.1   0.3    0.00058   24.1   0.2    1.7  1  sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-binding 
+     0.0006   24.1   2.0     0.0006   24.1   1.4    1.8  2  sp|O57342|MAFA_COTJA  Transcription factor MafA OS=Coturnix 
+    0.00063   24.0   3.1     0.0012   23.1   2.2    1.4  1  sp|Q5UEM7|CR3L4_RAT   Cyclic AMP-responsive element-binding 
+    0.00077   23.7   2.0    0.00089   23.5   0.3    1.7  1  sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive element-binding 
+    0.00091   23.5   3.2     0.0035   21.5   1.0    2.0  2  sp|Q90370|MAFB_COTJA  Transcription factor MafB OS=Coturnix 
+    0.00095   23.4   0.1     0.0015   22.7   0.0    1.4  1  sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-binding 
+      0.001   23.3   0.4     0.0019   22.4   0.3    1.3  1  sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive element-binding 
+     0.0011   23.3   0.6     0.0021   22.3   0.4    1.4  1  sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive element-binding 
+     0.0012   23.1   3.7     0.0043   21.3   1.3    2.0  2  sp|Q90888|MAFB_CHICK  Transcription factor MafB OS=Gallus ga
+     0.0013   23.0   0.2     0.0013   23.0   0.1    1.6  1  sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-binding 
+     0.0014   22.9   0.1     0.0023   22.2   0.1    1.3  1  sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive element-binding 
+     0.0014   22.9   1.3     0.0021   22.3   0.2    1.8  1  sp|Q9Y5Q3|MAFB_HUMAN  Transcription factor MafB OS=Homo sapi
+     0.0016   22.7   0.1     0.0027   22.0   0.1    1.3  1  sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive element-binding 
+     0.0017   22.6   1.7      0.044   17.9   0.8    2.1  2  sp|Q6DE84|MAFB_XENLA  Transcription factor MafB OS=Xenopus l
+     0.0018   22.6   0.0     0.0032   21.7   0.0    1.5  1  sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive element-binding 
+     0.0018   22.6   0.1     0.0028   21.9   0.0    1.2  1  sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive element-binding 
+     0.0021   22.3   1.7     0.0023   22.2   0.2    1.7  1  sp|P54842|MAFB_RAT    Transcription factor MafB OS=Rattus no
+     0.0021   22.3   0.1     0.0032   21.7   0.0    1.2  1  sp|Q6QDP7|CR3L2_RAT   Cyclic AMP-responsive element-binding 
+     0.0021   22.3   0.2     0.0024   22.1   0.2    1.0  1  sp|Q16520|BATF_HUMAN  Basic leucine zipper transcriptional f
+     0.0023   22.1   0.3     0.0023   22.1   0.2    1.8  1  sp|P54841|MAFB_MOUSE  Transcription factor MafB OS=Mus muscu
+     0.0027   21.9   0.3     0.0027   21.9   0.2    1.8  1  sp|Q2PFS4|MAFB_MACFA  Transcription factor MafB OS=Macaca fa
+     0.0029   21.8   2.4     0.0029   21.8   1.6    1.8  2  sp|O42290|MAFA_CHICK  Transcription factor MafA OS=Gallus ga
+      0.003   21.8   3.8     0.0033   21.6   2.6    1.1  1  sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcriptional f
+     0.0037   21.5   0.0     0.0066   20.7   0.0    1.5  1  sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive element-binding 
+      0.004   21.4   0.0      0.004   21.4   0.0    1.6  1  sp|Q66HA2|CR3L1_RAT   Cyclic AMP-responsive element-binding 
+     0.0043   21.3   3.0      0.011   19.9   2.1    1.7  1  sp|P17544|ATF7_HUMAN  Cyclic AMP-dependent transcription fac
+     0.0053   21.0   0.9     0.0092   20.2   0.6    1.3  1  sp|O43889|CREB3_HUMAN Cyclic AMP-responsive element-binding 
+     0.0054   20.9   2.2     0.0054   20.9   1.5    1.7  1  sp|Q8R0S1|ATF7_MOUSE  Cyclic AMP-dependent transcription fac
+     0.0057   20.9   3.2      0.014   19.6   2.2    1.6  1  sp|Q5R9C9|ATF7_PONAB  Cyclic AMP-dependent transcription fac
+     0.0068   20.6   0.1     0.0076   20.5   0.1    1.1  1  sp|O35284|BATF_MOUSE  Basic leucine zipper transcriptional f
+     0.0084   20.3   0.3      0.012   19.8   0.2    1.2  1  sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive element-binding 
+     0.0089   20.2   5.8      0.014   19.6   3.7    1.5  1  sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive element-binding 
+     0.0097   20.1   4.3      0.012   19.9   2.9    1.1  1  sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcriptional f
+  ------ inclusion threshold ------
+      0.012   19.9   4.4      0.029   18.5   1.1    2.0  2  sp|Q504L8|MAFB_XENTR  Transcription factor MafB OS=Xenopus t
+      0.012   19.8   5.2      0.012   19.8   3.6    1.8  1  sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive element-binding 
+      0.016   19.4   2.1      0.026   18.7   1.5    1.3  1  sp|Q4U1U2|MAFA_XENTR  Transcription factor MafA OS=Xenopus t
+      0.018   19.3   1.8       0.32   15.1   1.3    2.0  2  sp|P23091|MAF_AVIS4   Transforming protein Maf OS=Avian musc
+      0.018   19.2   0.4      0.026   18.7   0.3    1.2  1  sp|P81269|ATF1_MOUSE  Cyclic AMP-dependent transcription fac
+      0.019   19.2   1.6       0.38   14.9   1.2    2.0  2  sp|Q789F3|MAF_CHICK   Transcription factor Maf OS=Gallus gal
+       0.02   19.1   0.1      0.042   18.0   0.1    1.5  1  sp|P29747|CREBA_DROME Cyclic AMP response element-binding pr
+       0.02   19.0   0.5      0.034   18.3   0.3    1.3  1  sp|P18848|ATF4_HUMAN  Cyclic AMP-dependent transcription fac
+      0.024   18.8   1.8       0.33   15.1   0.9    2.1  2  sp|P54844|MAF_RAT     Transcription factor Maf OS=Rattus nor
+      0.024   18.8   1.5       0.43   14.7   1.0    2.1  2  sp|O75444|MAF_HUMAN   Transcription factor Maf OS=Homo sapie
+      0.024   18.8   3.3      0.032   18.4   2.3    1.1  1  sp|P97876|BATF3_RAT   Basic leucine zipper transcriptional f
+      0.025   18.8   0.3      0.025   18.8   0.2    1.7  1  sp|Q06507|ATF4_MOUSE  Cyclic AMP-dependent transcription fac
+      0.025   18.7   1.5       0.43   14.7   1.0    2.1  2  sp|A7Z017|MAF_BOVIN   Transcription factor Maf OS=Bos taurus
+      0.026   18.7   1.7       0.53   14.4   1.2    2.2  2  sp|Q0V9K1|MAF_XENTR   Transcription factor Maf OS=Xenopus tr
+      0.028   18.6   0.3      0.047   17.9   0.2    1.4  1  sp|Q08DA8|ATF1_BOVIN  Cyclic AMP-dependent transcription fac
+      0.029   18.5   0.3       0.03   18.5   0.2    1.1  1  sp|O60675|MAFK_HUMAN  Transcription factor MafK OS=Homo sapi
+       0.03   18.5   2.0       0.48   14.5   1.1    2.1  2  sp|P54843|MAF_MOUSE   Transcription factor Maf OS=Mus muscul
+      0.036   18.2   0.3       0.05   17.8   0.2    1.2  1  sp|P18846|ATF1_HUMAN  Cyclic AMP-dependent transcription fac
+      0.039   18.1   1.9      0.039   18.1   1.3    2.2  1  sp|P42774|GBF1_ARATH  G-box-binding factor 1 OS=Arabidopsis 
+      0.039   18.1   0.4      0.039   18.1   0.3    1.1  1  sp|Q61827|MAFK_MOUSE  Transcription factor MafK OS=Mus muscu
+      0.046   17.9   0.9      0.058   17.6   0.6    1.1  1  sp|P14233|TGA1B_TOBAC TGACG-sequence-specific DNA-binding pr
+      0.051   17.7   0.6      0.086   17.0   0.4    1.3  1  sp|Q6NW59|ATF4_DANRE  Cyclic AMP-dependent transcription fac
+      0.067   17.3   2.3       0.15   16.2   1.6    1.6  1  sp|O24160|TGA21_TOBAC TGACG-sequence-specific DNA-binding pr
+       0.07   17.3   2.8       0.21   15.7   1.3    1.9  2  sp|Q98UK4|MAF_DANRE   Transcription factor Maf OS=Danio reri
+      0.071   17.3   0.8       0.11   16.7   0.6    1.2  1  sp|A3KMR8|MAFA_DANRE  Transcription factor MafA OS=Danio rer
+      0.078   17.1   0.7       0.09   16.9   0.5    1.1  1  sp|Q90596|MAFK_CHICK  Transcription factor MafK OS=Gallus ga
+      0.079   17.1   0.5       0.13   16.4   0.3    1.4  1  sp|Q3ZCH6|ATF4_BOVIN  Cyclic AMP-dependent transcription fac
+      0.086   17.0   1.2      0.088   17.0   0.8    1.1  1  sp|P97875|JDP2_MOUSE  Jun dimerization protein 2 OS=Mus musc
+      0.086   17.0   1.2      0.088   17.0   0.8    1.1  1  sp|Q78E65|JDP2_RAT    Jun dimerization protein 2 OS=Rattus n
+      0.092   16.9   0.2       0.15   16.2   0.2    1.3  1  sp|P12959|OP2_MAIZE   Regulatory protein opaque-2 OS=Zea may
+      0.093   16.9   6.4      0.093   16.9   4.4    2.1  2  sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive element-binding 
+      0.093   16.9   4.3       0.16   16.1   3.0    1.3  1  sp|Q39140|TGA6_ARATH  Transcription factor TGA6 OS=Arabidops
+      0.098   16.8   4.3       0.19   15.9   2.9    1.4  1  sp|P23923|HBP1B_WHEAT Transcription factor HBP-1b(c38) OS=Tr
+       0.11   16.7   1.0       0.21   15.7   0.7    1.6  1  sp|Q00322|CEBPD_MOUSE CCAAT/enhancer-binding protein delta O
+       0.11   16.6   3.2       0.18   15.9   2.2    1.3  1  sp|Q39163|TGA5_ARATH  Transcription factor TGA5 OS=Arabidops
+       0.12   16.5   1.0       0.21   15.7   0.7    1.3  1  sp|Q54RZ9|BZPG_DICDI  Probable basic-leucine zipper transcri
+       0.12   16.5   0.5       0.21   15.7   0.3    1.3  1  sp|Q8CF90|MAFA_MOUSE  Transcription factor MafA OS=Mus muscu
+       0.13   16.4   0.2       0.13   16.4   0.2    1.8  1  sp|Q9ES19|ATF4_RAT    Cyclic AMP-dependent transcription fac
+       0.15   16.2   3.5       0.26   15.4   2.4    1.3  1  sp|P43273|TGA2_ARATH  Transcription factor TGA2 OS=Arabidops
+       0.16   16.1   5.8       0.22   15.7   1.5    2.1  2  sp|Q98UK5|MAFB_DANRE  Transcription factor MafB OS=Danio rer
+       0.17   16.0   1.5       0.38   14.9   1.0    1.6  1  sp|P16951|ATF2_MOUSE  Cyclic AMP-dependent transcription fac
+       0.18   15.9   2.1        0.5   14.5   0.1    2.1  2  sp|P27925|CREB1_BOVIN Cyclic AMP-responsive element-binding 
+       0.19   15.9   1.4       0.41   14.8   1.0    1.6  1  sp|P15336|ATF2_HUMAN  Cyclic AMP-dependent transcription fac
+       0.19   15.9   2.6       0.46   14.6   1.8    1.6  1  sp|O35451|ATF6B_MOUSE Cyclic AMP-dependent transcription fac
+       0.19   15.9   7.0       0.36   15.0   4.8    1.4  1  sp|Q2VZV0|IF2_MAGSA   Translation initiation factor IF-2 OS=
+       0.21   15.7   1.1       0.37   14.9   0.8    1.5  1  sp|Q6ZDF3|TRAB1_ORYSJ bZIP transcription factor TRAB1 OS=Ory
+       0.22   15.7   1.6        0.5   14.5   1.1    1.6  1  sp|Q6P788|ATF5_RAT    Cyclic AMP-dependent transcription fac
+       0.22   15.6   6.7       0.22   15.6   4.7    2.2  2  sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive element-binding 
+       0.23   15.6   0.3          1   13.5   0.1    1.9  2  sp|Q66J36|NFIL3_XENLA Nuclear factor interleukin-3-regulated
+       0.29   15.3   0.6       0.52   14.4   0.4    1.3  1  sp|Q8NHW3|MAFA_HUMAN  Transcription factor MafA OS=Homo sapi
+       0.37   14.9   0.5       0.76   13.9   0.3    1.5  1  sp|O88479|FOS_MESAU   Proto-oncogene c-Fos OS=Mesocricetus a
+       0.38   14.9   0.1       0.62   14.2   0.0    1.3  1  sp|P23922|HBP1A_WHEAT Transcription factor HBP-1a OS=Triticu
+       0.39   14.9   0.2       0.45   14.6   0.1    1.0  1  sp|Q90595|MAFF_CHICK  Transcription factor MafF OS=Gallus ga
+       0.39   14.8   3.0       0.76   13.9   0.4    2.1  2  sp|P53450|FOS_TAKRU   Proto-oncogene c-Fos OS=Takifugu rubri
+       0.43   14.7   2.8        1.1   13.3   1.9    1.7  1  sp|Q00969|ATF2_RAT    Cyclic AMP-dependent transcription fac
+       0.43   14.7   0.2       0.78   13.8   0.2    1.5  1  sp|O97930|FOS_PIG     Proto-oncogene c-Fos OS=Sus scrofa GN=
+       0.51   14.5   0.1       0.84   13.7   0.1    1.5  1  sp|P79145|CREM_CANFA  cAMP-responsive element modulator OS=C
+       0.52   14.4   2.9        1.1   13.3   2.0    1.6  1  sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcription fac
+       0.53   14.4   0.1       0.85   13.7   0.1    1.4  1  sp|P01101|FOS_MOUSE   Proto-oncogene c-Fos OS=Mus musculus G
+       0.54   14.4   0.1       0.54   14.4   0.1    1.8  1  sp|P15337|CREB1_RAT   Cyclic AMP-responsive element-binding 
+       0.54   14.4   0.1       0.54   14.4   0.1    1.9  1  sp|P16220|CREB1_HUMAN Cyclic AMP-responsive element-binding 
+       0.54   14.4   0.1       0.54   14.4   0.1    1.9  1  sp|Q01147|CREB1_MOUSE Cyclic AMP-responsive element-binding 
+       0.57   14.3   3.5        1.1   13.3   2.4    1.5  1  sp|O93602|ATF2_CHICK  Cyclic AMP-dependent transcription fac
+       0.63   14.1   0.7       0.75   13.9   0.5    1.1  1  sp|Q90889|MAFG_CHICK  Transcription factor MafG OS=Gallus ga
+       0.64   14.1   0.1          1   13.5   0.1    1.3  1  sp|P79702|FOS_CYPCA   Proto-oncogene c-Fos OS=Cyprinus carpi
+       0.64   14.1   3.7          1   13.5   2.5    1.2  1  sp|Q8X229|FCR3_CANAL  Fluconazole resistance protein 3 OS=Ca
+       0.65   14.1   0.3        1.3   13.1   0.2    1.6  1  sp|P12841|FOS_RAT     Proto-oncogene c-Fos OS=Rattus norvegi
+       0.71   14.0   4.9        1.3   13.1   3.4    1.4  1  sp|P49716|CEBPD_HUMAN CCAAT/enhancer-binding protein delta O
+       0.72   14.0   0.3       0.72   14.0   0.2    1.7  1  sp|Q554P0|BZPJ_DICDI  Probable basic-leucine zipper transcri
+       0.74   13.9   0.1       0.74   13.9   0.1    2.2  1  sp|Q55E93|BZPE_DICDI  Probable basic-leucine zipper transcri
+       0.75   13.9   0.2        1.1   13.4   0.1    1.2  1  sp|P51984|CREB_CHLVR  Cyclic AMP-responsive element-binding 
+       0.77   13.9   0.2          1   13.4   0.1    1.3  1  sp|P01102|FOS_MSVFB   p55-v-Fos-transforming protein OS=FBJ 
+       0.81   13.8   0.1        1.3   13.1   0.0    1.6  1  sp|O77628|FOS_BOVIN   Proto-oncogene c-Fos OS=Bos taurus GN=
+       0.82   13.8   4.0        0.9   13.6   2.7    1.1  1  sp|Q8WYK2|JDP2_HUMAN  Jun dimerization protein 2 OS=Homo sap
+       0.86   13.7   1.4        2.3   12.3   1.0    1.8  1  sp|Q60925|DBP_MOUSE   D site-binding protein OS=Mus musculus
+        0.9   13.6   0.6        1.5   12.9   0.4    1.3  1  sp|P14232|TGA1A_TOBAC TGACG-sequence-specific DNA-binding pr
+       0.96   13.6   1.4        2.3   12.3   1.0    1.7  1  sp|P16443|DBP_RAT     D site-binding protein OS=Rattus norve
+       0.97   13.5   0.0        1.5   12.9   0.0    1.3  1  sp|Q68EL6|NFIL3_DANRE Nuclear factor interleukin-3-regulated
+       0.98   13.5   0.2        1.7   12.7   0.2    1.5  1  sp|P01100|FOS_HUMAN   Proto-oncogene c-Fos OS=Homo sapiens G
+          1   13.5   2.7        1.5   12.9   1.9    1.2  1  sp|Q9C5Q2|AI5L3_ARATH ABSCISIC ACID-INSENSITIVE 5-like prote
+        1.1   13.4   0.2        2.1   12.4   0.2    1.4  1  sp|Q5FW38|NFIL3_XENTR Nuclear factor interleukin-3-regulated
+        1.1   13.4   0.1        1.9   12.5   0.1    1.5  1  sp|Q8HZP6|FOS_FELCA   Proto-oncogene c-Fos OS=Felis catus GN
+        1.2   13.3   3.1        1.9   12.6   2.2    1.3  1  sp|Q9SJN0|ABI5_ARATH  Protein ABSCISIC ACID-INSENSITIVE 5 OS
+        1.2   13.2   3.6        1.9   12.6   2.5    1.2  1  sp|P42777|GBF4_ARATH  G-box-binding factor 4 OS=Arabidopsis 
+        1.3   13.1   6.2        1.8   12.6   4.3    1.2  1  sp|P15407|FOSL1_HUMAN Fos-related antigen 1 OS=Homo sapiens 
+        1.3   13.1   0.6        1.5   12.9   0.4    1.1  1  sp|O15525|MAFG_HUMAN  Transcription factor MafG OS=Homo sapi
+        1.4   13.0   0.1        2.5   12.2   0.0    1.3  1  sp|P40535|ACA2_YEAST  ATF/CREB activator 2 OS=Saccharomyces 
+        1.5   12.9   0.2        1.7   12.7   0.2    1.1  1  sp|A7YY73|MAFF_BOVIN  Transcription factor MafF OS=Bos tauru
+        1.6   12.9   0.4    1.9e+02    6.0   0.1    2.1  2  sp|Q8PY58|PSMR_METMA  Proteasome-activating nucleotidase OS=
+        1.6   12.8   0.5        3.2   11.8   0.4    1.5  1  sp|Q56TN0|FOS_PHORO   Proto-oncogene c-Fos OS=Phodopus robor
+        1.7   12.7   1.1        2.8   12.0   0.8    1.4  1  sp|P23050|FOS_AVINK   p55-v-Fos-transforming protein OS=Avia
+        1.8   12.6   2.3        2.8   12.0   1.6    1.2  1  sp|Q9LES3|AI5L2_ARATH ABSCISIC ACID-INSENSITIVE 5-like prote
+          2   12.5   2.7        3.5   11.7   1.8    1.4  1  sp|Q84JK2|FD_ARATH    Protein FD OS=Arabidopsis thaliana GN=
+          2   12.5   0.7        2.3   12.3   0.5    1.1  1  sp|A5PJV0|MAFG_BOVIN  Transcription factor MafG OS=Bos tauru
+          2   12.5   0.7        2.3   12.3   0.5    1.1  1  sp|O54790|MAFG_MOUSE  Transcription factor MafG OS=Mus muscu
+          2   12.5   2.7        3.4   11.7   1.9    1.3  1  sp|Q39234|TGA3_ARATH  Transcription factor TGA3 OS=Arabidops
+        2.2   12.4   1.4        3.3   11.8   1.0    1.3  1  sp|P07049|CPPB_NEIGO  Cryptic plasmid protein B OS=Neisseria
+        2.2   12.3   1.2        3.8   11.6   0.9    1.4  1  sp|P11939|FOS_CHICK   Proto-oncogene c-Fos OS=Gallus gallus 
+        2.5   12.2   0.0        2.9   12.0   0.0    1.3  1  sp|P29176|FOSX_MSVFR  Transforming protein v-Fos/v-Fox OS=FB
+        2.5   12.2   0.9        2.9   12.0   0.6    1.1  1  sp|O54791|MAFF_MOUSE  Transcription factor MafF OS=Mus muscu
+        2.7   12.1   0.3    1.9e+02    6.0   0.1    2.1  2  sp|Q8TI88|PSMR_METAC  Proteasome-activating nucleotidase OS=
+        2.8   12.0   0.4        5.5   11.1   0.3    1.4  1  sp|O08750|NFIL3_MOUSE Nuclear factor interleukin-3-regulated
+        2.8   12.0   0.7        3.4   11.7   0.5    1.1  1  sp|Q76MX4|MAFG_RAT    Transcription factor MafG OS=Rattus no
+          3   11.9   1.2        6.4   10.9   0.8    1.5  1  sp|P20482|CNC_DROME   Segmentation protein cap'n'collar OS=D
+        3.1   11.9   0.3        5.3   11.1   0.2    1.3  1  sp|Q90Z72|NFIL3_CHICK Nuclear factor interleukin-3-regulated
+        3.2   11.8   2.4        5.6   11.0   1.7    1.3  1  sp|Q9VWW0|CREBB_DROME Cyclic AMP response element-binding pr
+        3.2   11.8   2.0        4.9   11.2   1.4    1.3  1  sp|Q8BKJ9|SIRT7_MOUSE NAD-dependent deacetylase sirtuin-7 OS
+        3.3   11.8   0.2        6.3   10.9   0.1    1.5  1  sp|Q56TT7|FOS_PHOCM   Proto-oncogene c-Fos OS=Phodopus campb
+        3.3   11.8   0.5        5.8   11.0   0.3    1.3  1  sp|Q6IMZ0|NFIL3_RAT   Nuclear factor interleukin-3-regulated
+        3.5   11.7   5.3       0.94   13.6   1.6    1.4  1  sp|P38749|YAP3_YEAST  AP-1-like transcription factor YAP3 OS
+        3.7   11.6   0.4        5.5   11.0   0.2    1.2  1  sp|Q08D88|NFIL3_BOVIN Nuclear factor interleukin-3-regulated
+        3.8   11.6   0.4        5.9   11.0   0.3    1.2  1  sp|Q16649|NFIL3_HUMAN Nuclear factor interleukin-3-regulated
+        3.8   11.6   3.0        6.6   10.8   2.1    1.3  1  sp|Q9C7S0|BZI60_ARATH bZIP transcription factor 60 OS=Arabid
+        3.9   11.6   0.8        5.5   11.1   0.6    1.2  1  sp|P78962|ATF21_SCHPO Transcription factor atf21 OS=Schizosa
+          4   11.5   0.1        6.9   10.7   0.1    1.5  1  sp|Q1LZH5|CREM_BOVIN  cAMP-responsive element modulator OS=B
+        4.2   11.4   0.0        7.3   10.7   0.0    1.3  1  sp|B1MX63|THIE_LEUCK  Thiamine-phosphate pyrophosphorylase O
+        4.6   11.3   2.8        6.7   10.8   2.0    1.2  1  sp|Q5AVK6|NOP16_EMENI Nucleolar protein 16 OS=Emericella nid
+        4.6   11.3   1.0        5.5   11.1   0.7    1.1  1  sp|Q9ULX9|MAFF_HUMAN  Transcription factor MafF OS=Homo sapi
+        4.6   11.3   0.4        5.7   11.0   0.3    1.2  1  sp|P53567|CEBPG_HUMAN CCAAT/enhancer-binding protein gamma O
+        4.8   11.2   0.7         21    9.2   0.3    2.1  1  sp|Q2V2M9|FHOD3_HUMAN FH1/FH2 domain-containing protein 3 OS
+        4.9   11.2   0.1        7.1   10.7   0.1    1.3  1  sp|Q03060|CREM_HUMAN  cAMP-responsive element modulator OS=H
+        4.9   11.2   0.1         11   10.0   0.1    1.5  1  sp|O68007|BACB_BACLI  Bacitracin synthase 2 OS=Bacillus lich
+        5.1   11.2   0.5        7.6   10.6   0.4    1.2  1  sp|Q5VPE3|HOX2_ORYSJ  Homeobox-leucine zipper protein HOX2 O
+        5.1   11.2   0.5        7.6   10.6   0.4    1.2  1  sp|Q84U86|HOX2_ORYSI  Homeobox-leucine zipper protein HOX2 O
+        5.4   11.1   0.0        6.6   10.8   0.0    1.1  1  sp|Q65US7|THIE_MANSM  Thiamine-phosphate pyrophosphorylase O
+        5.4   11.1   0.2        8.6   10.4   0.2    1.2  1  sp|P07948|LYN_HUMAN   Tyrosine-protein kinase Lyn OS=Homo sa
+        5.4   11.1   9.6        1.1   13.4   4.3    1.6  1  sp|Q16534|HLF_HUMAN   Hepatic leukemia factor OS=Homo sapien
+        5.5   11.1   0.9        6.6   10.8   0.6    1.2  1  sp|Q9XGJ4|GGM13_GNEGN MADS-box protein GGM13 OS=Gnetum gnemo
+        5.8   11.0   0.6        9.2   10.3   0.4    1.3  1  sp|P27921|JUND_CHICK  Transcription factor jun-D OS=Gallus g
+        5.9   10.9   1.0        8.8   10.4   0.7    1.2  1  sp|Q5XHX8|THEG_RAT    Testicular haploid expressed gene prot
+          6   10.9   2.3        8.7   10.4   1.6    1.2  1  sp|P18847|ATF3_HUMAN  Cyclic AMP-dependent transcription fac
+        6.1   10.9   5.5        8.7   10.4   3.8    1.2  1  sp|P24068|OCS1_MAIZE  Ocs element-binding factor 1 OS=Zea ma
+        6.2   10.9   6.0         11   10.1   4.2    1.3  1  sp|P20393|NR1D1_HUMAN Nuclear receptor subfamily 1 group D m
+        6.3   10.9  12.2         10   10.2   8.1    1.6  1  sp|P13346|FOSB_MOUSE  Protein fosB OS=Mus musculus GN=Fosb P
+        6.4   10.8   2.1         13    9.8   1.5    1.4  1  sp|P42775|GBF2_ARATH  G-box-binding factor 2 OS=Arabidopsis 
+        6.5   10.8  11.4         20    9.2   7.9    1.8  1  sp|Q09926|PCR1_SCHPO  Transcription factor pcr1 OS=Schizosac
+        6.9   10.7   2.2         11   10.0   1.5    1.3  1  sp|P24813|YAP2_YEAST  AP-1-like transcription activator YAP2
+          7   10.7   9.2        1.9   12.5   4.4    1.5  1  sp|Q64709|HLF_RAT     Hepatic leukemia factor OS=Rattus norv
+        7.3   10.6   0.4         12    9.9   0.3    1.3  1  sp|Q02100|SKO1_YEAST  CRE-binding bZIP protein SKO1 OS=Sacch
+        7.7   10.6   0.0         11   10.0   0.0    1.2  1  sp|P50198|LINX_PSEPA  2,5-dichloro-2,5-cyclohexadiene-1,4-di
+        7.7   10.6   5.8         10   10.2   4.0    1.1  1  sp|Q6DGM8|JDP2_DANRE  Jun dimerization protein 2 OS=Danio re
+        7.8   10.6   0.5        9.1   10.3   0.4    1.2  1  sp|A2Z0Q0|HOX25_ORYSI Homeobox-leucine zipper protein HOX25 
+        7.9   10.5   0.5         13    9.8   0.3    1.2  1  sp|Q9UPR3|SMG5_HUMAN  Protein SMG5 OS=Homo sapiens GN=SMG5 P
+        8.1   10.5   6.6        1.1   13.3   1.4    1.9  1  sp|Q41558|HBP1C_WHEAT Transcription factor HBP-1b(c1) (Fragm
+        8.2   10.5  11.7         13    9.9   7.9    1.5  1  sp|O02756|CEBPD_BOVIN CCAAT/enhancer-binding protein delta O
+        8.6   10.4   0.2         17    9.4   0.2    1.4  1  sp|Q63315|CAD22_RAT   Cadherin-22 OS=Rattus norvegicus GN=Cd
+        8.7   10.4   0.2         17    9.4   0.2    1.4  1  sp|Q9WTP5|CAD22_MOUSE Cadherin-22 OS=Mus musculus GN=Cdh22 P
+        9.3   10.3   3.3        8.4   10.5   0.5    1.8  2  sp|Q5FUV3|ATE_GLUOX   Putative arginyl-tRNA--protein transfe
+        9.5   10.3   5.0         17    9.4   3.5    1.4  1  sp|Q99091|CPRF3_PETCR Light-inducible protein CPRF3 OS=Petro
+        9.5   10.3  10.3        1.3   13.1   4.4    1.5  1  sp|Q8BW74|HLF_MOUSE   Hepatic leukemia factor OS=Mus musculu
+        9.9   10.2   0.4         17    9.5   0.3    1.4  1  sp|Q9JLC6|TEF_MOUSE   Thyrotroph embryonic factor OS=Mus mus
+         10   10.2   0.5         15    9.6   0.4    1.2  1  sp|Q92172|TEF_CHICK   Transcription factor VBP OS=Gallus gal
+
+
+Domain annotation for each sequence (and alignments):
+>> sp|Q1XGE2|HAC1_ASPOR  Transcriptional activator hacA OS=Aspergillus oryzae GN=hacA PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  762.0   2.4  8.7e-232  2.2e-228       1     345 []       1     345 []       1     345 [] 1.00
+
+  Alignments for each domain:
+  == domain 1    score: 762.0 bits;  conditional E-value: 8.7e-232
+  sp|Q1XGE2|HAC1_ASPOR   1 lscdlektlssvdslpatpasevpvltvspadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrrier 89 
+                           +scd+ekt+ssvdslpatpasevpvltvspadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrrier
+  sp|Q1XGE2|HAC1_ASPOR   1 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER 89 
+                           8**************************************************************************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR  90 vlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasptltptlfkqe 178
+                           vlrnraaaqtsrerkrle+eklenekiq+eqqnqfllqrlsq+eaennrlsqqlaqlaaevrgsrantp+pgspatasptltptlfkqe
+  sp|Q1XGE2|HAC1_ASPOR  90 VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+                           ***************************************************************************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 179 rdelpleripfptpslsdysptlkpstlaessdvaqhpavsvaglegdgsalplfdlgsdlkhhstddvaaplsdddfnrlfhgdssve 267
+                           rdelpleripfptpslsdysptlkpstlaessdvaqhpavsvaglegdgsalplfdlgsdlkhhstddvaaplsdddfnrlfhgdssve
+  sp|Q1XGE2|HAC1_ASPOR 179 RDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVE 267
+                           ***************************************************************************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 268 pdssvfedglafdvleggdlsafpfdslvnfdsepvtlegielahglpdettcktssvqpgfgasttrcdgqgiaagc 345
+                           pdssvfedglafdvleggdlsafpfds+vnfdsepvtlegie+ahglpdettcktssvqpgfgasttrcdgqgiaagc
+  sp|Q1XGE2|HAC1_ASPOR 268 PDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 345
+                           ****************************************************************************** PP
+
+>> sp|Q8TFU8|HAC1_EMENI  Transcriptional activator hacA OS=Emericella nidulans GN=hacA PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  568.6   1.6  5.8e-173  1.5e-169      11     344 ..      16     348 ..       9     349 .. 0.98
+
+  Alignments for each domain:
+  == domain 1    score: 568.6 bits;  conditional E-value: 5.8e-173
+  sp|Q1XGE2|HAC1_ASPOR  11 svdslpatpasevpvltvspadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqt 99 
+                             +slp tp+ evpvltvspadtsl++ +v  q  kpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqt
+  sp|Q8TFU8|HAC1_EMENI  16 FANSLPTTPSLEVPVLTVSPADTSLQTKNVVAQ-TKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT 103
+                           4689*************************9876.7****************************************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 100 srerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasptltptlfkqerdelplerip 188
+                           srerkrle+ekle+eki++eqqnqfllqrl+q+eaennrlsqq+aql+aevrgsr +tp   spa+ sptltptlfkqe de+pl+rip
+  sp|Q8TFU8|HAC1_EMENI 104 SRERKRLEMEKLESEKIDMEQQNQFLLQRLAQMEAENNRLSQQVAQLSAEVRGSRHSTPTSSSPASVSPTLTPTLFKQEGDEVPLDRIP 192
+                           ***************************************************************************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 189 fptpslsdysptlkpstlaessdvaqhpavsvaglegdgsalplfdlgsdlkhhstddvaaplsdddfnrlfhgdssvepdssvfedgl 277
+                           fptps++dysptlkps+laes d+ qhpavsv+glegd sal lfdlg+ +kh  t d+ aplsdddf+rlf+gdss+e dss+ edg+
+  sp|Q8TFU8|HAC1_EMENI 193 FPTPSVTDYSPTLKPSSLAESPDLTQHPAVSVGGLEGDESALTLFDLGASIKHEPTHDLTAPLSDDDFRRLFNGDSSLESDSSLLEDGF 281
+                           ***************************************************************************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 278 afdvleggdlsafpfdslvnfdsepvtlegielahglpdettcktssvqpgfgasttrcdgqgiaag 344
+                           afdvl+ gdlsafpfds+v+fd+epvtle +e+ +gl d  +ck +s+qp  gast+rcdgqgiaag
+  sp|Q8TFU8|HAC1_EMENI 282 AFDVLDSGDLSAFPFDSMVDFDTEPVTLEDLEQTNGLSDSASCKAASLQPSHGASTSRCDGQGIAAG 348
+                           ******************************************************************9 PP
+
+>> sp|Q8TFF3|HAC1_TRIRE  Transcriptional activator hac1 OS=Trichoderma reesei GN=hac1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.4   6.4   5.8e-30   1.5e-26      47     119 ..      82     154 ..      45     184 .. 0.86
+   2 ?   -0.5   0.0       7.1   1.8e+04     209     234 ..     287     308 ..     278     351 .. 0.70
+   3 ?    3.2   0.0      0.52   1.3e+03     315     344 ..     421     450 ..     356     451 .] 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 98.4 bits;  conditional E-value: 5.8e-30
+  sp|Q1XGE2|HAC1_ASPOR  47 peekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqle 119
+                             ekkp kkrkswgq lp pktnlpprkraktedekeqrr+ervlrnr aaq+srerkrle+e le +  +le
+  sp|Q8TFF3|HAC1_TRIRE  82 TSEKKPVKKRKSWGQVLPEPKTNLPPRKRAKTEDEKEQRRVERVLRNRRAAQSSRERKRLEVEALEKRNKELE 154
+                           469*************************************************************997765554 PP
+
+  == domain 2    score: -0.5 bits;  conditional E-value: 7.1
+  sp|Q1XGE2|HAC1_ASPOR 209 ssdvaqhpavsvaglegdgsalplfd 234
+                           s+d  q+pavs++g   d +a+p+f 
+  sp|Q8TFF3|HAC1_TRIRE 287 STDSTQRPAVSIGG---D-AAVPVFS 308
+                           67778888888754...3.5667763 PP
+
+  == domain 3    score: 3.2 bits;  conditional E-value: 0.52
+  sp|Q1XGE2|HAC1_ASPOR 315 pdettcktssvqpgfgasttrcdgqgiaag 344
+                            ++   + s  qp  gas+  cd  gia g
+  sp|Q8TFF3|HAC1_TRIRE 421 ENQIPSRHSIQQPQSGASSHGCDDGGIAVG 450
+                           455566778889****************98 PP
+
+>> sp|P41546|HAC1_YEAST  Transcriptional activator HAC1 OS=Saccharomyces cerevisiae GN=HAC1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   52.6   3.9     5e-16   1.3e-12      67     119 ..      23      75 ..      12     145 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 52.6 bits;  conditional E-value: 5e-16
+  sp|Q1XGE2|HAC1_ASPOR  67 ktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqle 119
+                           k+ lpprkrakt++ekeqrrier+lrnr aa+ sre+krl+l+ le++   le
+  sp|P41546|HAC1_YEAST  23 KSTLPPRKRAKTKEEKEQRRIERILRNRRAAHQSREKKRLHLQYLERKCSLLE 75 
+                           789******************************************98765555 PP
+
+>> sp|O24646|HY5_ARATH  Transcription factor HY5 OS=Arabidopsis thaliana GN=HY5 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   46.9   1.8   2.7e-14   6.9e-11      59     153 ..      64     158 ..      49     167 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 46.9 bits;  conditional E-value: 2.7e-14
+  sp|Q1XGE2|HAC1_ASPOR  59 wgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                            gqe      +   rkr++t  eke +r++r+lrnr +aq +rerk+  l  len+  +le +n  l +rls l+ en+ l + l    
+   sp|O24646|HY5_ARATH  64 TGQERTQATVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKNTT 152
+                           57777777777789******************************************************************999998888 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 148 aevrgs 153
+                           +  rg+
+   sp|O24646|HY5_ARATH 153 GNKRGG 158
+                           888876 PP
+
+>> sp|Q3SZZ2|XBP1_BOVIN  X-box-binding protein 1 OS=Bos taurus GN=XBP1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.9   0.5   2.4e-10     6e-07      68     145 ..      52     139 ..      10     208 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 33.9 bits;  conditional E-value: 2.4e-10
+  sp|Q1XGE2|HAC1_ASPOR  68 tnlpp..rkrak.tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfll.......qrlsqleaennrlsqqlaq 145
+                           +++pp  rkr + t+   e++ ++r l+nr aaqt+r+rk+ ++  le++ ++le++nq ll       ++   l  en+ l q+l++
+  sp|Q3SZZ2|XBP1_BOVIN  52 SGVPPqaRKRQRlTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQKLLlenqllrEKTHGLVVENQELRQRLGM 139
+                           56677334554436778999***********************************999876622211112233455667777776654 PP
+
+>> sp|Q9SM50|HY5_SOLLC  Transcription factor HY5 OS=Solanum lycopersicum GN=HY5 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.3   3.9   3.7e-10   9.5e-07      72     148 ..      75     151 ..      62     158 .] 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 33.3 bits;  conditional E-value: 3.7e-10
+  sp|Q1XGE2|HAC1_ASPOR  72 prkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                            rkr+++  +ke +r++r+lrnr +aq +rerk+  l  le +  +le +n  l +rls l+ en+ l + l    a
+   sp|Q9SM50|HY5_SOLLC  75 QRKRGRSPADKENKRLKRLLRNRVSAQQARERKKAYLIDLEARVKELETKNAELEERLSTLQNENQMLRHILKNTTA 151
+                           69*****************************************99********************999887766555 PP
+
+>> sp|P17861|XBP1_HUMAN  X-box-binding protein 1 OS=Homo sapiens GN=XBP1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   32.0   2.0   9.4e-10   2.4e-06      72     186 ..      58     185 ..      14     194 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 32.0 bits;  conditional E-value: 9.4e-10
+  sp|Q1XGE2|HAC1_ASPOR  72 prkrak.tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfll.......qrlsqleaennrlsqqlaq..la... 147
+                            rkr + t+   e++ ++r l+nr aaqt+r+rk+ ++  le++ ++le++nq ll       ++   l  en+ l q+l++  l    
+  sp|P17861|XBP1_HUMAN  58 ARKRQRlTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQKLLlenqllrEKTHGLVVENQELRQRLGMdaLVaee 146
+                           366655367788999**********************************9998765332111133445667898899888652232122 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 148 .aevrgsrantplpgspatasptltptlfkqerdelpler 186
+                            ae +g+    p+ gs  +a+  l   l + + +  pl+ 
+  sp|P17861|XBP1_HUMAN 147 eAEAKGNEV-RPVAGSAESAALRLRAPLQQVQAQLSPLQN 185
+                           234444433.477788777777777666655555556665 PP
+
+>> sp|Q8W191|HYH_ARATH  Transcription factor HY5-like OS=Arabidopsis thaliana GN=HYH PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.6   3.4   4.9e-09   1.2e-05      72     144 ..      67     139 ..      56     146 .. 0.93
+
+  Alignments for each domain:
+  == domain 1    score: 29.6 bits;  conditional E-value: 4.9e-09
+  sp|Q1XGE2|HAC1_ASPOR  72 prkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                            r+r++   +ke r ++r+lrnr +aq +rerk++ +  le++  +l+  n+ l +++s l  en  l ++l 
+   sp|Q8W191|HYH_ARATH  67 KRRRGRNPVDKEYRSLKRLLRNRVSAQQARERKKVYVSDLESRANELQNNNDQLEEKISTLTNENTMLRKMLI 139
+                           69999*************************************************************9998876 PP
+
+>> sp|A1L224|CR3L2_DANRE  Cyclic AMP-responsive element-binding protein 3-like protein 2 OS=Danio rerio GN=creb3l2 PE=2 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.0   0.0   1.5e-08   3.8e-05      14     155 ..     221     363 ..     208     384 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 28.0 bits;  conditional E-value: 1.5e-08
+   sp|Q1XGE2|HAC1_ASPOR  14 slpatpasevpvltvsp.adtslnsadvktqevkpeekkpa.....kkrkswgqelpvpktnlpprkraktedekeqrriervlrnra 95 
+                            + pa+p +   vl v+p a +sl+s+ + t   k +   p       kr    +  pvp t lp  k     +ek  ++i+r ++n+ 
+  sp|A1L224|CR3L2_DANRE 221 CAPASPTQTPAVLKVAPrAPSSLSSSPLLTAPHKLQGSGPLllteeEKRTLIAEGYPVP-TKLPLSK----AEEKALKKIRRKIKNKI 303
+                            56999999889999999567899999999988888888875222225777778888888.6777544....468999*********** PP
+
+   sp|Q1XGE2|HAC1_ASPOR  96 aaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsra 155
+                            +aq sr++k+  ++ le +   +  +n+ l +++  le+ n  l qql  l a v g   
+  sp|A1L224|CR3L2_DANRE 304 SAQESRRKKKEYVDALEKKVETCSNENHELRRKVENLECTNKSLLQQLHSLQAVVAGKVP 363
+                            **********99*****98888999****************************9999644 PP
+
+>> sp|Q9D2A5|CR3L4_MOUSE  Cyclic AMP-responsive element-binding protein 3-like protein 4 OS=Mus musculus GN=Creb3l4 PE=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   26.6   1.7   4.1e-08    0.0001      76     147 ..     186     257 ..     114     274 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 26.6 bits;  conditional E-value: 4.1e-08
+   sp|Q1XGE2|HAC1_ASPOR  76 aktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                                +e+  ++i+r +rn+ +aq sr+rk+  l+ le++   + +qnq l +++++le +n  l +q+ ql 
+  sp|Q9D2A5|CR3L4_MOUSE 186 LTKAEERILKKIRRKIRNKQSAQDSRRRKKEYLDGLESRVAACSEQNQKLQRKVQELERQNIFLMEQVRQLQ 257
+                            44456788999*****************************************************99998875 PP
+
+>> sp|Q9R1S4|XBP1_RAT  X-box-binding protein 1 OS=Rattus norvegicus GN=Xbp1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   26.6   2.2   4.2e-08   0.00011      73     127 ..      52     106 ..      37     148 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 26.6 bits;  conditional E-value: 4.2e-08
+  sp|Q1XGE2|HAC1_ASPOR  73 rkrak.tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllq 127
+                           rkr + t+   e++ ++r l+nr aaqt+r+rk+ ++  le++ ++le++nq l q
+    sp|Q9R1S4|XBP1_RAT  52 RKRQRlTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQKL-Q 106
+                           55554267788999***********************************99965.3 PP
+
+>> sp|Q54WN7|BZPF_DICDI  Probable basic-leucine zipper transcription factor F OS=Dictyostelium discoideum GN=bzpF PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.2   0.3   1.1e-07   0.00027      46     175 ..     363     498 ..     347     593 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 25.2 bits;  conditional E-value: 1.1e-07
+  sp|Q1XGE2|HAC1_ASPOR  46 kpeekkpakkrkswgqelpvpk....tnlpp.rkr.aktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqr 128
+                           k ee k  kkrk      pv      t l p        ++e++q+r +r+++nr aaq  r+r++  ++ le +  +l   n  +  r
+  sp|Q54WN7|BZPF_DICDI 363 KKEEDKSIKKRKFI-SSTPVKGenggTTLIPtTDGgFNMDEERHQKRQRRLVKNREAAQLFRQRQKAYIQDLEKKVSDLTGTNSEFRAR 450
+                           56677777777754.44566431122444440443135677899******************************999******9999** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 129 lsqleaennrlsqqlaqlaaevrgs.rantplpgspatasptltptlf 175
+                           +  l +en  + +ql  l   v  +   + p  gs +t sp+     f
+  sp|Q54WN7|BZPF_DICDI 451 VELLNSENKLIREQLLYLRNFVTQAvSFSFPKGGSNGTNSPSGVADQF 498
+                           *****************9988765415678999999999998665555 PP
+
+>> sp|A2VD01|CR3L2_XENLA  Cyclic AMP-responsive element-binding protein 3-like protein 2 OS=Xenopus laevis GN=creb3l2 PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.7   0.2   1.6e-07    0.0004      60     157 ..     281     373 ..     241     392 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 24.7 bits;  conditional E-value: 1.6e-07
+   sp|Q1XGE2|HAC1_ASPOR  60 gqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                             +  p+p t lp  k     +ek  ++i+r ++n+ +aq sr++k+  ++ le +      +n  l +++  le+ n+ l qql +l 
+  sp|A2VD01|CR3L2_XENLA 281 AEGYPIP-TKLPLTK----AEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKRVENSSSENSELRKKVEVLESTNRTLLQQLQRLQ 363
+                            5556666.5666543....368999****************************99889999*************************** PP
+
+   sp|Q1XGE2|HAC1_ASPOR 148 aevrgsrant 157
+                            a v g   ++
+  sp|A2VD01|CR3L2_XENLA 364 AMVTGKVTRS 373
+                            ***9976554 PP
+
+>> sp|Q99090|CPRF2_PETCR  Light-inducible protein CPRF2 OS=Petroselinum crispum GN=CPRF2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.4   3.1   9.1e-08   0.00023      77     162 ..     192     277 ..     187     312 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 25.4 bits;  conditional E-value: 9.1e-08
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgs 162
+                            +  d  + +r++r+l nr +a+ sr+rk+ ++  le +  ql+ +n  ll+rl+++  + n  + +   l a++   ra   +   
+  sp|Q99090|CPRF2_PETCR 192 RNGDPSDAKRVRRMLSNRESARRSRRRKQAHMTELETQVSQLRVENSSLLKRLTDISQRYNDAAVDNRVLKADIETMRAKVKMAEE 277
+                            56788999*************************************************99999999999999999999999888655 PP
+
+>> sp|Q5FVM5|CR3L3_RAT  Cyclic AMP-responsive element-binding protein 3-like protein 3 OS=Rattus norvegicus GN=Creb3l3 P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.2   0.2   2.2e-07   0.00056      77     154 ..     233     310 ..     219     328 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 24.2 bits;  conditional E-value: 2.2e-07
+  sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsr 154
+                              +e+  ++i+r +rn+ +aq sr++k+  ++ len+   +  qnq l +++ +le +n  l +ql +l a v  s 
+   sp|Q5FVM5|CR3L3_RAT 233 TKYEERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQRKVLHLEKQNLSLLEQLKHLQALVVQST 310
+                           4456788899***********************************************************999876554 PP
+
+>> sp|O35426|XBP1_MOUSE  X-box-binding protein 1 OS=Mus musculus GN=Xbp1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.5   2.2   1.7e-07   0.00044      73     127 ..      52     106 ..      36     135 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 24.5 bits;  conditional E-value: 1.7e-07
+  sp|Q1XGE2|HAC1_ASPOR  73 rkrak.tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllq 127
+                           rkr + t+   e++ ++r l+nr aaqt+r+rk+ ++  le++ ++le++n+ l q
+  sp|O35426|XBP1_MOUSE  52 RKRQRlTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENHKL-Q 106
+                           55554267788999*********************************9998754.3 PP
+
+>> sp|Q61817|CREB3_MOUSE  Cyclic AMP-responsive element-binding protein 3 OS=Mus musculus GN=Creb3 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.5   0.0   1.7e-07   0.00043      80     151 ..     182     253 ..     163     315 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 24.5 bits;  conditional E-value: 1.7e-07
+   sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevr 151
+                            +e+  +r++r +rn+ aaq sr++k++ +  le++ ++   qn+ l  ++++le +n  l +ql +l a v 
+  sp|Q61817|CREB3_MOUSE 182 EEQVLKRVRRKIRNKRAAQESRKKKKVYVVGLESRVLKYTAQNRELQNKVQRLEEQNLSLLDQLRKLQAMVI 253
+                            4566799***********************************************************999774 PP
+
+>> sp|Q91XE9|CR3L3_MOUSE  Cyclic AMP-responsive element-binding protein 3-like protein 3 OS=Mus musculus GN=Creb3l3 PE=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.1   0.2   2.3e-07   0.00058      77     154 ..     233     310 ..     219     329 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 24.1 bits;  conditional E-value: 2.3e-07
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsr 154
+                               +e+  ++i+r +rn+ +aq sr++k+  ++ len+   +  qnq l +++ +le +n  l +ql +l a v  s 
+  sp|Q91XE9|CR3L3_MOUSE 233 TKYEERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQRKVLHLEKQNLSLLEQLKHLQALVVQST 310
+                            4456788899***********************************************************999876554 PP
+
+>> sp|O57342|MAFA_COTJA  Transcription factor MafA OS=Coturnix coturnix japonica GN=MAFA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -0.8   0.1       8.7   2.2e+04     156     180 ..      69      93 ..      22      97 .. 0.76
+   2 !   24.1   1.4   2.3e-07    0.0006      85     167 ..     201     281 ..     174     285 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: -0.8 bits;  conditional E-value: 8.7
+  sp|Q1XGE2|HAC1_ASPOR 156 ntplpgspatasptltptlfkqerd 180
+                             p pg+  +a+pt  p   k + +
+  sp|O57342|MAFA_COTJA  69 CAPSPGGQPSAGPTAAPLGSKPQLE 93 
+                           4688888888999988876666655 PP
+
+  == domain 2    score: 24.1 bits;  conditional E-value: 2.3e-07
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatas 167
+                           ++ +r l+nr+ aq++r ++  + + lenek+ql+ q + l q +s+l  e++   ++  +laa  rg    t  p +p t +
+  sp|O57342|MAFA_COTJA 201 KQKRRTLKNRGYAQSCRYKRVQQRHILENEKCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA--RGFPRETSPPAAPKTTA 281
+                           445699***********988888999************************************98..89888898899998865 PP
+
+>> sp|Q5UEM7|CR3L4_RAT  Cyclic AMP-responsive element-binding protein 3-like protein 4 OS=Rattus norvegicus GN=Creb3l4 P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.1   2.2   4.8e-07    0.0012      78     148 ..     184     254 ..     165     270 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 23.1 bits;  conditional E-value: 4.8e-07
+  sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                             +e+  ++i+r +rn+ +aq sr+rk+  ++ le++   + +qnq l +++++le +n  l  q+ ql  
+   sp|Q5UEM7|CR3L4_RAT 184 KAEERILKKIRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSEQNQKLQRKVQELERQNISLVAQVHQLQK 254
+                           346788899**************************************************999988888753 PP
+
+>> sp|Q08CW8|CR3L4_XENTR  Cyclic AMP-responsive element-binding protein 3-like protein 4 OS=Xenopus tropicalis GN=creb3l
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.5   0.3   3.5e-07   0.00089      24     151 ..     160     284 ..     150     296 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 23.5 bits;  conditional E-value: 3.5e-07
+   sp|Q1XGE2|HAC1_ASPOR  24 pvltvspadtslnsadvk.tqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrlelek 110
+                            pv+  +p    l  ad+   + + pe       ++   qe      nlp  k     +e+  ++++r +rn+ +aq sr+rk+  ++ 
+  sp|Q08CW8|CR3L4_XENTR 160 PVCKSTPLPIRLTPADLIaVDALYPELHLTEEEKRLLSQEGVALPNNLPLTK----AEERILKKVRRKIRNKQSAQDSRRRKKEYIDG 243
+                            4444555555566666430344556666555566666677655557888655....3578889999********************** PP
+
+   sp|Q1XGE2|HAC1_ASPOR 111 lenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevr 151
+                            le++   +  qnq l +++ +le +n  l  ql +l   ++
+  sp|Q08CW8|CR3L4_XENTR 244 LESRVAACSSQNQELHKKVVELEKHNISLITQLRKLQTLIK 284
+                            ********************************999877665 PP
+
+>> sp|Q90370|MAFB_COTJA  Transcription factor MafB OS=Coturnix coturnix japonica GN=MAFB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.5   0.0       1.8   4.5e+03     115     178 ..      15      81 ..       8     103 .. 0.70
+   2 !   21.5   1.0   1.4e-06    0.0035      53     149 ..     195     292 ..     168     309 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 1.5 bits;  conditional E-value: 1.8
+  sp|Q1XGE2|HAC1_ASPOR 115 kiqleqqnqfllqrlsqle...aennrlsqqlaqlaaevrgsrantpl..pgspatasptltptlfkqe 178
+                            + +e  n+f l++++  +   ++n+r ++++ +l     gs ++tp+  p s   +sp+++pt  k +
+  sp|Q90370|MAFB_COTJA  15 PLAMEYVNDFDLMKFDVKKeplGRNDRSGRHCTRLQ--PAGSVSSTPIstPCSSVPSSPSFSPTEQKTH 81 
+                           567888888888877643312257788888877764..4677777775446777778999999976655 PP
+
+  == domain 2    score: 21.5 bits;  conditional E-value: 1.4e-06
+  sp|Q1XGE2|HAC1_ASPOR  53 akkrkswgqelpvpktnlpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrls 140
+                              r s  q + +    l  + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l q +++l  e++   
+  sp|Q90370|MAFB_COTJA 195 VEDRFSDDQLVSMSVRELNRHLRGFTKDEVIRlKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVTRLARERDAYK 283
+                           555666666666666667777888999987552556799***********988888999*********************999998877 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 141 qqlaqlaae 149
+                            ++ +la+ 
+  sp|Q90370|MAFB_COTJA 284 LKCEKLASN 292
+                           777777654 PP
+
+>> sp|Q68CJ9|CR3L3_HUMAN  Cyclic AMP-responsive element-binding protein 3-like protein 3 OS=Homo sapiens GN=CREB3L3 PE=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.7   0.0   6.1e-07    0.0015      77     161 ..     237     321 ..     222     385 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 22.7 bits;  conditional E-value: 6.1e-07
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpg 161
+                               +e+  ++i+r +rn+ +aq sr++k+  ++ le +   +  qnq l +++ +le +n  l +ql +l a v  s + + + g
+  sp|Q68CJ9|CR3L3_HUMAN 237 TKYEERVLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNLSLLEQLKKLQAIVVQSTSKSAQTG 321
+                            345678889*************************************************************998877776666655 PP
+
+>> sp|Q1LYG4|CR3LB_DANRE  Cyclic AMP-responsive element-binding protein 3-like protein 3-B OS=Danio rerio GN=creb3l3b PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.4   0.3   7.4e-07    0.0019      78     160 ..     205     286 ..     190     305 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 22.4 bits;  conditional E-value: 7.4e-07
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplp 160
+                              +e+  ++i+r +rn+ +aq sr++k+  ++ le++   +  +n+ l +++ qle  n  l +ql +l a v  + +n p+ 
+  sp|Q1LYG4|CR3LB_DANRE 205 KYEERILKKIRRKIRNKQSAQESRKKKKEYIDGLESRMAACSAHNHELQRKVFQLEKCNISLMEQLRRLQALVMNG-SNKPVQ 286
+                            346788899************************************************************9988643.466655 PP
+
+>> sp|Q502F0|CR3LA_DANRE  Cyclic AMP-responsive element-binding protein 3-like protein 3-A OS=Danio rerio GN=creb3l3a PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.3   0.4   8.1e-07    0.0021      78     160 ..     205     286 ..     187     305 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 22.3 bits;  conditional E-value: 8.1e-07
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplp 160
+                              +e+  ++i+r +rn+ +aq sr++k+  ++ le++   +  +n+ l +++ qle  n  l +ql +l a v  + +n p+ 
+  sp|Q502F0|CR3LA_DANRE 205 KYEERILKKIRRKIRNKQSAQESRKKKKEYIDGLESRMAACSAHNHELQRKVFQLEKCNISLMEQLRRLQALVMNG-SNKPVQ 286
+                            446788899************************************************************9988643.466655 PP
+
+>> sp|Q90888|MAFB_CHICK  Transcription factor MafB OS=Gallus gallus GN=MAFB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.5   0.0       1.8   4.5e+03     115     178 ..      15      81 ..       8     103 .. 0.70
+   2 !   21.3   1.3   1.7e-06    0.0043      52     149 ..     194     292 ..     167     309 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 1.5 bits;  conditional E-value: 1.8
+  sp|Q1XGE2|HAC1_ASPOR 115 kiqleqqnqfllqrlsqle...aennrlsqqlaqlaaevrgsrantpl..pgspatasptltptlfkqe 178
+                            + +e  n+f l++++  +   ++n+r ++++ +l     gs ++tp+  p s   +sp+++pt  k +
+  sp|Q90888|MAFB_CHICK  15 PLAMEYVNDFDLMKFDVKKeplGRNDRSGRHCTRLQ--PAGSVSSTPIstPCSSVPSSPSFSPTEQKTH 81 
+                           567888888888877643312257788888877764..4677777775446777778999999976655 PP
+
+  == domain 2    score: 21.3 bits;  conditional E-value: 1.7e-06
+  sp|Q1XGE2|HAC1_ASPOR  52 pakkrkswgqelpvpktnlpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrl 139
+                               r s  q + +    l  + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l q +++l  e++  
+  sp|Q90888|MAFB_CHICK 194 SVEDRFSDDQLVSMSVRELNRHLRGFTKDEVIRlKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVTRLARERDAY 282
+                           4555666666666666677777889999997552556799***********988888999*********************99999887 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 140 sqqlaqlaae 149
+                             ++ +la+ 
+  sp|Q90888|MAFB_CHICK 283 KLKCEKLASN 292
+                           7777777654 PP
+
+>> sp|Q3SYZ3|CR3L3_BOVIN  Cyclic AMP-responsive element-binding protein 3-like protein 3 OS=Bos taurus GN=CREB3L3 PE=2 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.0   0.1     5e-07    0.0013      77     161 ..     232     316 ..     217     371 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 23.0 bits;  conditional E-value: 5e-07
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpg 161
+                               +e+  ++i+r +rn+ +aq sr++k+  ++ le +   +  qnq l +++ +le +n  l +ql +l a v  s + + + g
+  sp|Q3SYZ3|CR3L3_BOVIN 232 TKYEERMLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNLSLLEQLKKLQAIVVQSTSKSAQTG 316
+                            4456788899************************************************************998877766655555 PP
+
+>> sp|Q5RCM9|CR3L2_PONAB  Cyclic AMP-responsive element-binding protein 3-like protein 2 OS=Pongo abelii GN=CREB3L2 PE=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.2   0.1   9.1e-07    0.0023      54     159 ..     270     370 ..     226     388 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 22.2 bits;  conditional E-value: 9.1e-07
+   sp|Q1XGE2|HAC1_ASPOR  54 kkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                             kr    +  p+p t lp  k     +ek  ++i+r ++n+ +aq sr++k+  ++ le +   +  +n  l +++  le  n+ l q
+  sp|Q5RCM9|CR3L2_PONAB 270 EKRTLIAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQ 352
+                            5555666667776.5676544....468999****************************988889999******************** PP
+
+   sp|Q1XGE2|HAC1_ASPOR 142 qlaqlaaevrgsrantpl 159
+                            ql +l   v g  ++t  
+  sp|Q5RCM9|CR3L2_PONAB 353 QLQKLQTLVMGKVSRTCK 370
+                            *******99998777754 PP
+
+>> sp|Q9Y5Q3|MAFB_HUMAN  Transcription factor MafB OS=Homo sapiens GN=MAFB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.3   0.2   8.3e-07    0.0021      72     148 ..     226     303 ..     170     321 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 22.3 bits;  conditional E-value: 8.3e-07
+  sp|Q1XGE2|HAC1_ASPOR  72 prkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                            + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l q +s+l  e++    ++ +la 
+  sp|Q9Y5Q3|MAFB_HUMAN 226 RHLRGFTKDEVIRlKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLAN 303
+                           55677788886541556799***********988888999**********************9999887666655553 PP
+
+>> sp|Q70SY1|CR3L2_HUMAN  Cyclic AMP-responsive element-binding protein 3-like protein 2 OS=Homo sapiens GN=CREB3L2 PE=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.0   0.1     1e-06    0.0027      54     159 ..     270     370 ..     226     388 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 22.0 bits;  conditional E-value: 1e-06
+   sp|Q1XGE2|HAC1_ASPOR  54 kkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                             kr    +  p+p t lp  k     +ek  ++i+r ++n+ +aq sr++k+  ++ le +   +  +n  l +++  le  n+ l q
+  sp|Q70SY1|CR3L2_HUMAN 270 EKRTLIAEGYPIP-TKLPLSK----SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQ 352
+                            5566666667777.6676543....468999****************************988889999******************** PP
+
+   sp|Q1XGE2|HAC1_ASPOR 142 qlaqlaaevrgsrantpl 159
+                            ql +l   v g  ++t  
+  sp|Q70SY1|CR3L2_HUMAN 353 QLQKLQTLVMGKVSRTCK 370
+                            *******99998777754 PP
+
+>> sp|Q6DE84|MAFB_XENLA  Transcription factor MafB OS=Xenopus laevis GN=mafb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    3.2   0.0      0.52   1.3e+03     115     182 ..      15      86 ..       8     100 .. 0.76
+   2 !   17.9   0.8   1.7e-05     0.044      70     143 ..     211     285 ..     168     310 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 3.2 bits;  conditional E-value: 0.52
+  sp|Q1XGE2|HAC1_ASPOR 115 kiqleqqnqfllqrls.qleaennrlsqqlaql.aaevrgsrantpl..pgspatasptltptlfkqerdel 182
+                            + +e  n+f l++++ + e  ++r ++ + q+   +  gs ++tp+  p s   +sp+++pt  k + d+l
+  sp|Q6DE84|MAFB_XENLA  15 PLAMEYLNDFDLMKFDvKKEPLGGRPDRAIRQCnRLQPTGSVSSTPIstPCSSVPSSPSFSPTEHKTHLDDL 86 
+                           567888888888877624556667777777776234778999999975578888999******999998887 PP
+
+  == domain 2    score: 17.9 bits;  conditional E-value: 1.7e-05
+  sp|Q1XGE2|HAC1_ASPOR  70 lpprkraktedek.eqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqql 143
+                           l  + r+ t+d+  + ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++    ++
+  sp|Q6DE84|MAFB_XENLA 211 LNRHLRGFTKDDViRLKQKRRTLKNRGYAQSCRYKRVQQKHNLEGEKTQLVQQVEQLKQEVSRLARERDAYKIKC 285
+                           5555677777765144566799***********99888999**********************999987665554 PP
+
+>> sp|Q9Z125|CR3L1_MOUSE  Cyclic AMP-responsive element-binding protein 3-like protein 1 OS=Mus musculus GN=Creb3l1 PE=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.7   0.0   1.3e-06    0.0032      59     160 ..     271     366 ..     215     434 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 21.7 bits;  conditional E-value: 1.3e-06
+   sp|Q1XGE2|HAC1_ASPOR  59 wgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql 146
+                              +  p+p t lp  k     +ek  +r++r ++n+ +aq sr++k+  +e le +      +n  l +++  le  n+ l qql +l
+  sp|Q9Z125|CR3L1_MOUSE 271 IAEGYPIP-TKLPLTK----AEEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETYTSENNELWKKVETLETANRTLLQQLQKL 353
+                            55556666.5666543....368999*********************99****9877778899999*******************999 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 147 aaevrgsrantplp 160
+                               v  s+ + p  
+  sp|Q9Z125|CR3L1_MOUSE 354 QTLVT-SKISRPYK 366
+                            88775.55555554 PP
+
+>> sp|Q8BH52|CR3L2_MOUSE  Cyclic AMP-responsive element-binding protein 3-like protein 2 OS=Mus musculus GN=Creb3l2 PE=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.9   0.0   1.1e-06    0.0028      55     159 ..     271     370 ..     230     391 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 21.9 bits;  conditional E-value: 1.1e-06
+   sp|Q1XGE2|HAC1_ASPOR  55 krkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqq 142
+                            kr    +  p+p t lp  k     +ek  ++i+r ++n+ +aq sr++k+  ++ le +   +  +n  l +++  le  n+ l qq
+  sp|Q8BH52|CR3L2_MOUSE 271 KRTLVAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQ 353
+                            555555566666.5666543....468999****************************988889999********************* PP
+
+   sp|Q1XGE2|HAC1_ASPOR 143 laqlaaevrgsrantpl 159
+                            l +l   v g  ++t  
+  sp|Q8BH52|CR3L2_MOUSE 354 LQKLQTLVMGKVSRTCK 370
+                            ******99998777754 PP
+
+>> sp|P54842|MAFB_RAT  Transcription factor MafB OS=Rattus norvegicus GN=Mafb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.2   0.2   9.1e-07    0.0023      72     148 ..     226     303 ..     172     321 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 22.2 bits;  conditional E-value: 9.1e-07
+  sp|Q1XGE2|HAC1_ASPOR  72 prkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                            + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l q +s+l  e++    ++ +la 
+    sp|P54842|MAFB_RAT 226 RHLRGFTKDEVIRlKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLAN 303
+                           55677788886541556799***********988888999**********************9999887666655553 PP
+
+>> sp|Q6QDP7|CR3L2_RAT  Cyclic AMP-responsive element-binding protein 3-like protein 2 OS=Rattus norvegicus GN=Creb3l2 P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.7   0.0   1.3e-06    0.0032      59     159 ..     275     370 ..     234     387 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 21.7 bits;  conditional E-value: 1.3e-06
+  sp|Q1XGE2|HAC1_ASPOR  59 wgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                             +  p+p t lp  k     +ek  ++i+r ++n+ +aq sr++k+  ++ le +   +  +n  l +++  le  n+ l qql +l 
+   sp|Q6QDP7|CR3L2_RAT 275 IAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQ 358
+                           55556666.5666543....468999****************************988889999************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 148 aevrgsrantpl 159
+                             v g  ++t  
+   sp|Q6QDP7|CR3L2_RAT 359 TLVMGKVSRTCK 370
+                           *99998777754 PP
+
+>> sp|Q16520|BATF_HUMAN  Basic leucine zipper transcriptional factor ATF-like OS=Homo sapiens GN=BATF PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.1   0.2   9.3e-07    0.0024      71     135 ..      17      78 ..      12     108 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 22.1 bits;  conditional E-value: 9.3e-07
+  sp|Q1XGE2|HAC1_ASPOR  71 pprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleae 135
+                           pp k+   +   + rr++r  +nr aaq sr+r+  + + l+ e  +le+qn  l + + ql  e
+  sp|Q16520|BATF_HUMAN  17 PPGKQ---DSSDDVRRVQRREKNRIAAQKSRQRQTQKADTLHLESEDLEKQNAALRKEIKQLTEE 78 
+                           44444...44445799***************************************9999998766 PP
+
+>> sp|P54841|MAFB_MOUSE  Transcription factor MafB OS=Mus musculus GN=Mafb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.1   0.2   9.1e-07    0.0023      72     148 ..     226     303 ..     172     321 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 22.1 bits;  conditional E-value: 9.1e-07
+  sp|Q1XGE2|HAC1_ASPOR  72 prkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                            + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l q +s+l  e++    ++ +la 
+  sp|P54841|MAFB_MOUSE 226 RHLRGFTKDEVIRlKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLAN 303
+                           45677788886541556799***********988888999**********************9999887666655553 PP
+
+>> sp|Q2PFS4|MAFB_MACFA  Transcription factor MafB OS=Macaca fascicularis GN=MAFB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.9   0.2   1.1e-06    0.0027      72     147 ..     226     302 ..     170     321 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 21.9 bits;  conditional E-value: 1.1e-06
+  sp|Q1XGE2|HAC1_ASPOR  72 prkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                            + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l q +s+l  e++    ++ +la
+  sp|Q2PFS4|MAFB_MACFA 226 RHLRGFTKDEVIRlKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAHKVKCEKLA 302
+                           55677788886541556799***********988888999********************99988876554444444 PP
+
+>> sp|O42290|MAFA_CHICK  Transcription factor MafA OS=Gallus gallus GN=MAFA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -0.8   0.1       8.7   2.2e+04     156     180 ..      69      93 ..      22      97 .. 0.76
+   2 !   21.8   1.6   1.1e-06    0.0029      84     167 ..     200     281 ..     174     286 .] 0.81
+
+  Alignments for each domain:
+  == domain 1    score: -0.8 bits;  conditional E-value: 8.7
+  sp|Q1XGE2|HAC1_ASPOR 156 ntplpgspatasptltptlfkqerd 180
+                             p pg+  +a+pt  p   k + +
+  sp|O42290|MAFA_CHICK  69 CAPSPGGQPSAGPTAAPLGSKPQLE 93 
+                           4688888888999988876666655 PP
+
+  == domain 2    score: 21.8 bits;  conditional E-value: 1.1e-06
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatas 167
+                            ++ +r l+nr+ aq++r ++  + + lenek+ql+ q + l q +s+l  e++   ++  +laa  rg       p +p t +
+  sp|O42290|MAFA_CHICK 200 LKQNRRTLKNRGYAQSCRYKRVQQRHILENEKCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA--RGFPREPSPPAAPKTTA 281
+                           3556799***********988888999****************************9****99998..67655555567776654 PP
+
+>> sp|Q9NR55|BATF3_HUMAN  Basic leucine zipper transcriptional factor ATF-like 3 OS=Homo sapiens GN=BATF3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.6   2.6   1.3e-06    0.0033      70     143 ..      22      95 ..      12     124 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 21.6 bits;  conditional E-value: 1.3e-06
+   sp|Q1XGE2|HAC1_ASPOR  70 lpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqql 143
+                             p  +  +   e ++r+++r  +nr aaq sr+++  + +kl+ e   leq+n +l + +++l  e  +l++ l
+  sp|Q9NR55|BATF3_HUMAN  22 QPQPQPQQQSPEDDDRKVRRREKNRVAAQRSRKKQTQKADKLHEEYESLEQENTMLRREIGKLTEELKHLTEAL 95 
+                            33333334445667788889999*********************************999999998888887766 PP
+
+>> sp|Q96BA8|CR3L1_HUMAN  Cyclic AMP-responsive element-binding protein 3-like protein 1 OS=Homo sapiens GN=CREB3L1 PE=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   20.7   0.0   2.6e-06    0.0066      60     156 ..     272     362 ..     219     434 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 20.7 bits;  conditional E-value: 2.6e-06
+   sp|Q1XGE2|HAC1_ASPOR  60 gqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                             +  p+p t lp  k     +ek  +r++r ++n+ +aq sr++k+  +e le +   +  +n  l +++  le  n+ l qql +l 
+  sp|Q96BA8|CR3L1_HUMAN 272 AEGYPIP-TKLPLTK----AEEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETFTSENNELWKKVETLENANRTLLQQLQKLQ 354
+                            5556666.5666543....468999*********************99*****988889999**********************9998 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 148 aevrgsran 156
+                              v     +
+  sp|Q96BA8|CR3L1_HUMAN 355 TLVTNK-IS 362
+                            877543.33 PP
+
+>> sp|Q66HA2|CR3L1_RAT  Cyclic AMP-responsive element-binding protein 3-like protein 1 OS=Rattus norvegicus GN=Creb3l1 P
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.4   0.0   1.6e-06     0.004      59     160 ..     270     365 ..     215     432 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 21.4 bits;  conditional E-value: 1.6e-06
+  sp|Q1XGE2|HAC1_ASPOR  59 wgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                             +  p+p t lp  k     +ek  +r++r ++n+ +aq sr++k+  +e le +      +n  l +++  le  n+ l qql +l 
+   sp|Q66HA2|CR3L1_RAT 270 IAEGYPIP-TKLPLTK----AEEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETYTSENNELWKKVETLETANRTLLQQLQKLQ 353
+                           55556666.5666543....368999*********************99****9877778899999*******************9998 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 148 aevrgsrantplp 160
+                             v  s+ + p  
+   sp|Q66HA2|CR3L1_RAT 354 TLVT-SKISRPYK 365
+                           8775.45555543 PP
+
+>> sp|P17544|ATF7_HUMAN  Cyclic AMP-dependent transcription factor ATF-7 OS=Homo sapiens GN=ATF7 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   19.9   2.1   4.4e-06     0.011      46     141 ..     310     401 ..     285     419 .. 0.69
+
+  Alignments for each domain:
+  == domain 1    score: 19.9 bits;  conditional E-value: 4.4e-06
+  sp|Q1XGE2|HAC1_ASPOR  46 kpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqlea 134
+                            p+   pa+ + s  q  p p t+   r+r   +++ ++rr + + rnraaa  +r++++l +  le +  +l  qn  l   ++ l+ 
+  sp|P17544|ATF7_HUMAN 310 HPDAPSPAQPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEKKAEELTSQNIQLSNEVTLLRN 394
+                           4666777777766555..788886..344444444455666566669********************9999999999777776666665 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 135 ennrlsq 141
+                           e  +l q
+  sp|P17544|ATF7_HUMAN 395 EVAQLKQ 401
+                           5555554 PP
+
+>> sp|O43889|CREB3_HUMAN  Cyclic AMP-responsive element-binding protein 3 OS=Homo sapiens GN=CREB3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   20.2   0.6   3.6e-06    0.0092      77     150 ..     169     241 ..     157     255 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 20.2 bits;  conditional E-value: 3.6e-06
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaev 150
+                            kte e+  +r++r +rn+ +aq sr++k++ +  le++ ++   qn+ l  +++ le +n  l +ql +l a v
+  sp|O43889|CREB3_HUMAN 169 KTE-EQILKRVRRKIRNKRSAQESRRKKKVYVGGLESRVLKYTAQNMELQNKVQLLEEQNLSLLDQLRKLQAMV 241
+                            555.456789*********************************************************9998876 PP
+
+>> sp|Q8R0S1|ATF7_MOUSE  Cyclic AMP-dependent transcription factor ATF-7 OS=Mus musculus GN=Atf7 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   20.9   1.5   2.1e-06    0.0054      46     140 ..     299     389 ..     274     401 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 20.9 bits;  conditional E-value: 2.1e-06
+  sp|Q1XGE2|HAC1_ASPOR  46 kpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqlea 134
+                            p+   pa+ + s  q  p p t+   r+r   +++ ++rr + + rnraaa  +r++++l +  le +  +l  qn  l   ++ l+ 
+  sp|Q8R0S1|ATF7_MOUSE 299 HPDAPSPAQPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEKKAEELTSQNIQLSNEVTLLRN 383
+                           4666777777766555..788886..344444444455666566669********************9999999999777766666665 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 135 ennrls 140
+                           e  +l 
+  sp|Q8R0S1|ATF7_MOUSE 384 EVAQLK 389
+                           555554 PP
+
+>> sp|Q5R9C9|ATF7_PONAB  Cyclic AMP-dependent transcription factor ATF-7 OS=Pongo abelii GN=ATF7 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   19.6   2.2   5.4e-06     0.014      46     141 ..     299     390 ..     275     408 .. 0.70
+
+  Alignments for each domain:
+  == domain 1    score: 19.6 bits;  conditional E-value: 5.4e-06
+  sp|Q1XGE2|HAC1_ASPOR  46 kpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqlea 134
+                            p+   pa+ + s  q  p p t+   r+r   +++ ++rr + + rnraaa  +r++++l +  le +  +l  qn  l   ++ l+ 
+  sp|Q5R9C9|ATF7_PONAB 299 HPDAPSPAQPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEKKAEELTSQNIQLSNEVTLLRN 383
+                           4666677777766555..788886..344444444455666566669********************9999999999777776666665 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 135 ennrlsq 141
+                           e  +l q
+  sp|Q5R9C9|ATF7_PONAB 384 EVAQLKQ 390
+                           5555554 PP
+
+>> sp|O35284|BATF_MOUSE  Basic leucine zipper transcriptional factor ATF-like OS=Mus musculus GN=Batf PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   20.5   0.1     3e-06    0.0076      71     135 ..      17      78 ..      12     107 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 20.5 bits;  conditional E-value: 3e-06
+  sp|Q1XGE2|HAC1_ASPOR  71 pprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleae 135
+                           pp k+  +    + r+++r  +nr aaq sr+r+  + + l+ e  +le+qn  l + + ql  e
+  sp|O35284|BATF_MOUSE  17 PPGKQDSS---DDVRKVQRREKNRIAAQKSRQRQTQKADTLHLESEDLEKQNAALRKEIKQLTEE 78 
+                           55554444...45688999999*********************************9999998766 PP
+
+>> sp|Q8SQ19|CREB3_BOVIN  Cyclic AMP-responsive element-binding protein 3 OS=Bos taurus GN=CREB3 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   19.8   0.2   4.8e-06     0.012      79     151 ..     149     221 ..     134     274 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 19.8 bits;  conditional E-value: 4.8e-06
+   sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevr 151
+                             +e+  +r++r +rn+ +aq sr++k++ +  le++ ++   qn  l  +++ le +n  l +ql +l a v 
+  sp|Q8SQ19|CREB3_BOVIN 149 MEEQVLKRVRRKIRNKKSAQESRRKKKVYVGGLESRVLKYTAQNLELQNKVQLLEEQNLSLLDQLRRLQAMVI 221
+                            3466779***************************************9999*99***************99875 PP
+
+>> sp|Q8TEY5|CR3L4_HUMAN  Cyclic AMP-responsive element-binding protein 3-like protein 4 OS=Homo sapiens GN=CREB3L4 PE=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   19.6   3.7   5.5e-06     0.014      78     150 ..     212     284 ..     191     299 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 19.6 bits;  conditional E-value: 5.5e-06
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaev 150
+                              +e+  ++++r +rn+ +aq sr+rk+  ++ le++   +  qnq l +++++le +n  l  ql ql   +
+  sp|Q8TEY5|CR3L4_HUMAN 212 KAEERVLKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSAQNQELQKKVQELERHNISLVAQLRQLQTLI 284
+                            346788899******************************************************9999997654 PP
+
+>> sp|Q9D275|BATF3_MOUSE  Basic leucine zipper transcriptional factor ATF-like 3 OS=Mus musculus GN=Batf3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   19.9   2.9   4.6e-06     0.012      81     143 ..      26      88 ..      12      96 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 19.9 bits;  conditional E-value: 4.6e-06
+   sp|Q1XGE2|HAC1_ASPOR  81 ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqql 143
+                            + ++r+++r  +nr aaq sr+++  + +kl+ e   leq+n  l + +s+l+ e ++ls+ l
+  sp|Q9D275|BATF3_MOUSE  26 KDDDRKVRRREKNRVAAQRSRKKQTQKADKLHEEHESLEQENSVLRREISKLKEELRHLSEVL 88 
+                            335677888889*****************************************9999998766 PP
+
+>> sp|Q504L8|MAFB_XENTR  Transcription factor MafB OS=Xenopus tropicalis GN=mafb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.9   0.0       1.3   3.3e+03     116     182 ..      16      86 ..       8     100 .. 0.70
+   2 ?   18.5   1.1   1.2e-05     0.029      54     147 ..     201     295 ..     173     314 .. 0.66
+
+  Alignments for each domain:
+  == domain 1    score: 1.9 bits;  conditional E-value: 1.3
+  sp|Q1XGE2|HAC1_ASPOR 116 iqleqqnqfllqrls.qleaennrlsqqlaql.aaevrgsrantpl..pgspatasptltptlfkqerdel 182
+                           + +e  n+f l++++ + e  ++r ++ +  +   +  gs ++tp+  p s   +sp+++pt  k + del
+  sp|Q504L8|MAFB_XENTR  16 LAMEYVNDFDLMKFDvKKEPLGGRPDRAIRPCnRLQPTGSVSSTPIstPCSSVPSSPSFSPTEQKTHMDEL 86 
+                           56677777766666523444555555555444134667888888864577888899999999999999997 PP
+
+  == domain 2    score: 18.5 bits;  conditional E-value: 1.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  54 kkrkswgqelpvpktnlpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                             r s  q + +    l  + r+ t+d+  + ++ +r l+nr+ aq++r ++  + + lenek ql qq + l   +s+l  e++    
+  sp|Q504L8|MAFB_XENTR 201 EDRFSDDQLVSMSVRELNRHLRGFTKDDVIRlKQKRRTLKNRGYAQSCRFKRVQQKHHLENEKTQLIQQVEQLKLEVSRLARERDAYKI 289
+                           55555555555555666667788887775441566799***********988888999********99998888888888888776655 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 142 qlaqla 147
+                           ++ +la
+  sp|Q504L8|MAFB_XENTR 290 KCEKLA 295
+                           444444 PP
+
+>> sp|Q5UEM8|CR3L4_MACFA  Cyclic AMP-responsive element-binding protein 3-like protein 4 OS=Macaca fascicularis GN=CREB3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.8   3.6   4.8e-06     0.012      78     150 ..     212     284 ..     191     299 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 19.8 bits;  conditional E-value: 4.8e-06
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaev 150
+                              +e+  ++++r +rn+ +aq sr+rk+  ++ le++   +  qnq l +++++le +n  l  ql ql   +
+  sp|Q5UEM8|CR3L4_MACFA 212 KAEERVLKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSAQNQELQKKVQELERHNISLVAQLRQLQTLI 284
+                            346788899******************************************************9999997654 PP
+
+>> sp|Q4U1U2|MAFA_XENTR  Transcription factor MafA OS=Xenopus tropicalis GN=mafa PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.7   1.5     1e-05     0.026      85     167 ..     203     284 ..     181     288 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 18.7 bits;  conditional E-value: 1e-05
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatas 167
+                           ++ +r l+nr+ aq++r ++  + + le ek+ql+ q + l q +s+l  e++   ++  +la++   +r + p  g+p+ a+
+  sp|Q4U1U2|MAFA_XENTR 203 KQKRRTLKNRGYAQSCRYKRVQQRHILETEKCQLQSQVEQLKQEVSRLAKERDLYKDKYEKLASRSFTTRES-PPQGNPGKAN 284
+                           445699***********988888999***************************99999999*9998888765.5568888775 PP
+
+>> sp|P23091|MAF_AVIS4  Transforming protein Maf OS=Avian musculoaponeurotic fibrosarcoma virus AS42 GN=V-MAF PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.8   0.0       1.4   3.7e+03     114     168 ..      15      68 ..       6      80 .. 0.72
+   2 ?   15.1   1.3   0.00013      0.32      85     148 ..     276     339 ..     253     362 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 1.8 bits;  conditional E-value: 1.4
+  sp|Q1XGE2|HAC1_ASPOR 114 ekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                             + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+   sp|P23091|MAF_AVIS4  15 SPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           5678999999988886511455799999999999987..5999999994.3444333 PP
+
+  == domain 2    score: 15.1 bits;  conditional E-value: 0.00013
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l +
+   sp|P23091|MAF_AVIS4 276 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVEHLKQEISRLVRERDAYKEKYEKLVS 339
+                           445699***********988889999**********************9999988887777765 PP
+
+>> sp|P81269|ATF1_MOUSE  Cyclic AMP-dependent transcription factor ATF-1 OS=Mus musculus GN=Atf1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.7   0.3     1e-05     0.026      75     131 ..     204     259 ..     167     265 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 18.7 bits;  conditional E-value: 1e-05
+  sp|Q1XGE2|HAC1_ASPOR  75 raktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                             kt+d +  rr  r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|P81269|ATF1_MOUSE 204 TTKTDDPQ-LRREIRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKT 259
+                           46776665.566669************99999999****************998865 PP
+
+>> sp|Q789F3|MAF_CHICK  Transcription factor Maf OS=Gallus gallus GN=MAF PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.8   0.0       1.4   3.5e+03     114     168 ..      15      68 ..       6      81 .. 0.72
+   2 ?   14.9   1.2   0.00015      0.38      85     148 ..     276     339 ..     254     357 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 1.8 bits;  conditional E-value: 1.4
+  sp|Q1XGE2|HAC1_ASPOR 114 ekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                             + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+   sp|Q789F3|MAF_CHICK  15 SPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           5678999999988886511455799999999999987..5999999994.3443333 PP
+
+  == domain 2    score: 14.9 bits;  conditional E-value: 0.00015
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l +
+   sp|Q789F3|MAF_CHICK 276 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVEHLKQEISRLVRERDAYKEKYEKLVS 339
+                           445699***********988889999**********************9999988877766654 PP
+
+>> sp|P29747|CREBA_DROME  Cyclic AMP response element-binding protein A OS=Drosophila melanogaster GN=CrebA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.0   0.1   1.6e-05     0.042      64     149 ..     427     507 ..     383     513 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 18.0 bits;  conditional E-value: 1.6e-05
+   sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaae 149
+                            p+p+  lp  k     +ek  ++i+r ++n+ +aq sr++k+  +++le++   l  +n+   +rl  le  n  l  ql +l a 
+  sp|P29747|CREBA_DROME 427 PIPQ-KLPLTK----AEEKSLKKIRRKIKNKISAQESRRKKKEYMDQLERRVEILVTENHDYKKRLEGLEETNANLLSQLHKLQAL 507
+                            5554.344322....4689999***************************98777788899999*******9999999999998775 PP
+
+>> sp|P18848|ATF4_HUMAN  Cyclic AMP-dependent transcription factor ATF-4 OS=Homo sapiens GN=ATF4 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.3   0.3   1.3e-05     0.034      75     155 ..     270     346 ..     242     351 .] 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 18.3 bits;  conditional E-value: 1.3e-05
+  sp|Q1XGE2|HAC1_ASPOR  75 raktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsra 155
+                            ak + ek +++++++ +n+ aa   r++kr e+e l +e  +le++n+ l +r + l  e     q l +l  evr +r+
+  sp|P18848|ATF4_HUMAN 270 AAKVKGEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNEALKERADSLAKEI----QYLKDLIEEVRKARG 346
+                           48999*************************************************99987775....445555555655554 PP
+
+>> sp|P54844|MAF_RAT  Transcription factor Maf OS=Rattus norvegicus GN=Maf PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    2.0   0.0       1.2   3.1e+03     113     168 ..      14      68 ..       5      87 .. 0.74
+   2 ?   15.1   0.9   0.00013      0.33      85     148 ..     286     349 ..     264     368 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 2.0 bits;  conditional E-value: 1.2
+  sp|Q1XGE2|HAC1_ASPOR 113 nekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                              + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+     sp|P54844|MAF_RAT  14 TSPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           56678999999988886511456799999999999987..5999999994.3443333 PP
+
+  == domain 2    score: 15.1 bits;  conditional E-value: 0.00013
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l +
+     sp|P54844|MAF_RAT 286 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVDHLKQEISRLVRERDAYKEKYEKLVS 349
+                           445699***********988889999**********************9999988887777654 PP
+
+>> sp|O75444|MAF_HUMAN  Transcription factor Maf OS=Homo sapiens GN=MAF PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.9   0.0       1.3   3.4e+03     113     168 ..      14      68 ..       5      80 .. 0.72
+   2 ?   14.7   1.0   0.00017      0.43      85     147 ..     290     352 ..     268     371 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 1.9 bits;  conditional E-value: 1.3
+  sp|Q1XGE2|HAC1_ASPOR 113 nekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                              + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+   sp|O75444|MAF_HUMAN  14 TSPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           56678999999988886511456799999999999987..5999999994.3444333 PP
+
+  == domain 2    score: 14.7 bits;  conditional E-value: 0.00017
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l 
+   sp|O75444|MAF_HUMAN 290 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVDHLKQEISRLVRERDAYKEKYEKLV 352
+                           445699***********988889999**********************999998877766665 PP
+
+>> sp|P97876|BATF3_RAT  Basic leucine zipper transcriptional factor ATF-like 3 OS=Rattus norvegicus GN=Batf3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.4   2.3   1.2e-05     0.032      81     143 ..      26      88 ..      14      96 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 18.4 bits;  conditional E-value: 1.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  81 ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqql 143
+                           + ++r+++r  +nr aaq sr+++  + +kl+ e   leq+n  l + +++l+ e ++l++ l
+   sp|P97876|BATF3_RAT  26 KDDDRKVRRREKNRVAAQRSRKKQTQKSDKLHEEHESLEQENSVLRREIAKLKEELRHLTEAL 88 
+                           335677888889***************************************999998888766 PP
+
+>> sp|Q06507|ATF4_MOUSE  Cyclic AMP-dependent transcription factor ATF-4 OS=Mus musculus GN=Atf4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.8   0.2   9.7e-06     0.025      63     155 ..     254     344 ..     220     349 .] 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 18.8 bits;  conditional E-value: 9.7e-06
+  sp|Q1XGE2|HAC1_ASPOR  63 lpvpktnlppr..kraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaae 149
+                            p pk   pp     ak + ek +++++++ +n+ aa   r++kr e+e l +e  +le++n+ l ++ + l  e     q l +l  e
+  sp|Q06507|ATF4_MOUSE 254 SPRPKPYDPPGvsLTAKVKTEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSLAKEI----QYLKDLIEE 338
+                           477777778862257999**********************************************999988887665....445555556 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 150 vrgsra 155
+                           vr +r+
+  sp|Q06507|ATF4_MOUSE 339 VRKARG 344
+                           665554 PP
+
+>> sp|A7Z017|MAF_BOVIN  Transcription factor Maf OS=Bos taurus GN=MAF PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.9   0.0       1.4   3.5e+03     113     168 ..      14      68 ..       5      80 .. 0.72
+   2 ?   14.7   1.0   0.00017      0.43      85     147 ..     294     356 ..     272     375 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 1.9 bits;  conditional E-value: 1.4
+  sp|Q1XGE2|HAC1_ASPOR 113 nekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                              + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+   sp|A7Z017|MAF_BOVIN  14 TSPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           56678999999988886511456799999999999987..5999999994.3444333 PP
+
+  == domain 2    score: 14.7 bits;  conditional E-value: 0.00017
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l 
+   sp|A7Z017|MAF_BOVIN 294 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVDHLKQEISRLVRERDAYKEKYEKLV 356
+                           445699***********988889999**********************999998877766665 PP
+
+>> sp|Q0V9K1|MAF_XENTR  Transcription factor Maf OS=Xenopus tropicalis GN=maf PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    2.0   0.0       1.2   3.2e+03     113     168 ..      14      68 ..       5      78 .. 0.72
+   2 ?   14.4   1.2   0.00021      0.53      85     146 ..     267     328 ..     245     349 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 2.0 bits;  conditional E-value: 1.2
+  sp|Q1XGE2|HAC1_ASPOR 113 nekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                              + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+   sp|Q0V9K1|MAF_XENTR  14 TSPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           56678999999988886511456799999999999987..5999999994.4444333 PP
+
+  == domain 2    score: 14.4 bits;  conditional E-value: 0.00021
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql 146
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l
+   sp|Q0V9K1|MAF_XENTR 267 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVEHLKQEISRLLRERDAYKEKYEKL 328
+                           445699***********988889999*********************999988777666554 PP
+
+>> sp|Q08DA8|ATF1_BOVIN  Cyclic AMP-dependent transcription factor ATF-1 OS=Bos taurus GN=ATF1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.9   0.2   1.9e-05     0.047      74     131 ..     204     260 ..     165     268 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 17.9 bits;  conditional E-value: 1.9e-05
+  sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           + +kt+d + +r i r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|Q08DA8|ATF1_BOVIN 204 QTSKTDDPQLKREI-RLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKT 260
+                           45788887776666.89***********99999999****************998865 PP
+
+>> sp|O60675|MAFK_HUMAN  Transcription factor MafK OS=Homo sapiens GN=MAFK PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.5   0.2   1.2e-05      0.03      78     166 ..      45     134 ..       9     155 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 18.5 bits;  conditional E-value: 1.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  78 tedek.eqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspat 165
+                           t++e  + ++ +r l+nr+ a ++r ++  + e le+++++l+q+ + l +  s ++ e + l  +   l    r    +   p   at
+  sp|O60675|MAFK_HUMAN  45 TKEEVtRLKQRRRTLKNRGYAASCRIKRVTQKEELERQRVELQQEVEKLARENSSMRLELDALRSKYEALQTFARTVARGPVAPSKVAT 133
+                           44433023445699************9999****************************9999998887777766654333333444444 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 166 a 166
+                            
+  sp|O60675|MAFK_HUMAN 134 T 134
+                           3 PP
+
+>> sp|P54843|MAF_MOUSE  Transcription factor Maf OS=Mus musculus GN=Maf PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.9   0.0       1.3   3.3e+03     113     168 ..      14      68 ..       5      80 .. 0.72
+   2 ?   14.5   1.1   0.00019      0.48      85     148 ..     287     350 ..     265     368 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 1.9 bits;  conditional E-value: 1.3
+  sp|Q1XGE2|HAC1_ASPOR 113 nekiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                              + +e  n+f l+++   +   e +r+  q+++l a   gs ++tp+  +p+++ p
+   sp|P54843|MAF_MOUSE  14 TSPLAMEYVNDFDLMKFEvkKEPVETDRIISQCGRLIA--GGSLSSTPMS-TPCSSVP 68 
+                           56778999999988886511456799999999999987..5999999994.3444333 PP
+
+  == domain 2    score: 14.5 bits;  conditional E-value: 0.00019
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  +l +
+   sp|P54843|MAF_MOUSE 287 KQKRRTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVDHLKQEISRLVRERDAYKEKYEKLVS 350
+                           445699***********988889999**********************9999988877766654 PP
+
+>> sp|P18846|ATF1_HUMAN  Cyclic AMP-dependent transcription factor ATF-1 OS=Homo sapiens GN=ATF1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.8   0.2     2e-05      0.05      74     131 ..     205     261 ..     166     269 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 17.8 bits;  conditional E-value: 2e-05
+  sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           +  kt+d + +r i r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|P18846|ATF1_HUMAN 205 QTTKTDDPQLKREI-RLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKT 261
+                           45788887766666.89***********99999999****************998865 PP
+
+>> sp|P42774|GBF1_ARATH  G-box-binding factor 1 OS=Arabidopsis thaliana GN=GBF1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.1   1.3   1.5e-05     0.039      77     142 ..     216     281 ..     176     302 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 18.1 bits;  conditional E-value: 1.5e-05
+  sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqq 142
+                             +de+e +r +r   nr +a+ sr rk+ e+e+l+++   l  +nq l + l++l +e ++l  +
+  sp|P42774|GBF1_ARATH 216 PVKDERELKRQKRKQSNRESARRSRLRKQAECEQLQQRVESLSNENQSLRDELQRLSSECDKLKSE 281
+                           5689********************************998899999999976666666666555433 PP
+
+>> sp|Q61827|MAFK_MOUSE  Transcription factor MafK OS=Mus musculus GN=Mafk PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.1   0.3   1.5e-05     0.039      78     165 ..      45     133 ..       9     155 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 18.1 bits;  conditional E-value: 1.5e-05
+  sp|Q1XGE2|HAC1_ASPOR  78 tedek.eqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspat 165
+                           t++e  + ++ +r l+nr+ a ++r ++  + e le+++++l+q+ + l +  s ++ e + l  +   l    r    +   p   at
+  sp|Q61827|MAFK_MOUSE  45 TKEEVtRLKQRRRTLKNRGYAASCRIKRVTQKEELERQRVELQQEVEKLARENSSMRLELDALRSKYEALQTFARTVARGPVTPTKVAT 133
+                           44433023445699************9999**************************999999988877776665543333223333333 PP
+
+>> sp|P14233|TGA1B_TOBAC  TGACG-sequence-specific DNA-binding protein TGA-1B (Fragment) OS=Nicotiana tabacum GN=TGA1B PE
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.6   0.6   2.3e-05     0.058      80     140 ..     181     240 ..     166     242 .] 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 17.6 bits;  conditional E-value: 2.3e-05
+   sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrls 140
+                            de e++r  r++rnr +aq sr+rk+  +e le++   ++   q l  +++ + aen  l 
+  sp|P14233|TGA1B_TOBAC 181 DEDEKKR-ARLVRNRESAQLSRQRKKHYVEELEDKVRIMHSTIQDLNAKVAYIIAENATLK 240
+                            5555555.6899*********************9877788899999999999999998775 PP
+
+>> sp|Q6NW59|ATF4_DANRE  Cyclic AMP-dependent transcription factor ATF-4 OS=Danio rerio GN=atf4 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.0   0.4   3.4e-05     0.086      47     144 ..     230     327 ..     200     338 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 17.0 bits;  conditional E-value: 3.4e-05
+  sp|Q1XGE2|HAC1_ASPOR  47 peekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleae 135
+                             +  p+ + k + +  p     l  r +  +   k +++++++ +n+ aa   r++kr+e+e l +e  +le++n+ l ++ + l  e
+  sp|Q6NW59|ATF4_DANRE 230 QSDLEPSSRAKPYSRPDPEASPALKGRVKTSSGAPKVEKKLKKMEQNKTAATRYRQKKRVEQESLNSECSELEKKNRELSEKADSLSRE 318
+                           55667888888888766666666666666666778999**************************************9998888877766 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 136 nnrlsqqla 144
+                            + l + l 
+  sp|Q6NW59|ATF4_DANRE 319 IQYLRDLLE 327
+                           655544443 PP
+
+>> sp|O24160|TGA21_TOBAC  TGACG-sequence-specific DNA-binding protein TGA-2.1 OS=Nicotiana tabacum GN=TGA21 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.2   1.6   6.1e-05      0.15      82     133 ..     165     215 ..     155     236 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 16.2 bits;  conditional E-value: 6.1e-05
+   sp|Q1XGE2|HAC1_ASPOR  82 keqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqle 133
+                             +q+ ++r+ +nr aa+ sr rk+  +++len +++l q  q l qr  q+ 
+  sp|O24160|TGA21_TOBAC 165 LDQKTLRRLAQNREAARKSRLRKKAYVQQLENSRLKLSQLEQDL-QRARQQG 215
+                            4788899999***************************9999975.6665543 PP
+
+>> sp|Q98UK4|MAF_DANRE  Transcription factor Maf OS=Danio rerio GN=maf PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -0.1   0.0       5.2   1.3e+04     115     165 ..      16      65 ..       5      86 .. 0.60
+   2 ?   15.7   1.3   8.2e-05      0.21      85     144 ..     243     302 ..     221     324 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: -0.1 bits;  conditional E-value: 5.2
+  sp|Q1XGE2|HAC1_ASPOR 115 kiqleqqnqfllqrls..qleaennrlsqqlaqlaaevrgsrantplpgspat 165
+                            + +e  n+f l+++   +   e +r   q+++l a   gs ++tp+  +p++
+   sp|Q98UK4|MAF_DANRE  16 PLAMEYVNDFDLMKFEvkKEPVEPDRSISQCSRLIA--GGSLSSTPMS-TPCS 65 
+                           556677777766665311233455555555555554..4667777773.3333 PP
+
+  == domain 2    score: 15.7 bits;  conditional E-value: 8.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                           ++ +r l+nr+ aq++r ++  + + le+ek ql qq + l q +s+l  e++   ++  
+   sp|Q98UK4|MAF_DANRE 243 KQKRRTLKNRGYAQSCRYKRVQQRHVLEGEKTQLMQQVDHLKQEISRLVRERDAYKEKYE 302
+                           445699***********988889999*********************9999887766655 PP
+
+>> sp|A3KMR8|MAFA_DANRE  Transcription factor MafA OS=Danio rerio GN=mafa PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.7   0.6   4.2e-05      0.11      85     165 ..     225     305 ..     200     315 .] 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 16.7 bits;  conditional E-value: 4.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspat 165
+                           ++ +r l+nr+ aq++r ++  + + le+ek+ l+ q + l q +++l  e++   ++  +la++   + +nt  p s   
+  sp|A3KMR8|MAFA_DANRE 225 KQKRRTLKNRGYAQSCRYKRVQQRHMLESEKCTLQSQVEQLKQDVARLIKERDLYKEKYEKLASRAFNGGGNTRDPSSGNH 305
+                           445699***********998889999**************************************99999999988877554 PP
+
+>> sp|Q90596|MAFK_CHICK  Transcription factor MafK OS=Gallus gallus GN=MAFK PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.9   0.5   3.5e-05      0.09      84     164 ..      52     132 ..      31     154 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 16.9 bits;  conditional E-value: 3.5e-05
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspa 164
+                            ++ +r l+nr+ a ++r ++  + e le+++++l+q+ + l +  s ++ e + l  +   l    r    +   p   a
+  sp|Q90596|MAFK_CHICK  52 LKQRRRTLKNRGYAASCRIKRVTQKEELERQRVELQQEVEKLARENSSMKLELDALRSKYEALQTFARTVARGPITPTKVA 132
+                           3344699************9999***************************9999998887777666554333222233333 PP
+
+>> sp|Q3ZCH6|ATF4_BOVIN  Cyclic AMP-dependent transcription factor ATF-4 OS=Bos taurus GN=ATF4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.4   0.3   5.2e-05      0.13      75     145 ..     267     337 ..     228     346 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 16.4 bits;  conditional E-value: 5.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  75 raktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                            ak + ek +++++++ +n+ aa   r++kr e+e l +e  +le++n+ l ++ + l  e + l +q+ +
+  sp|Q3ZCH6|ATF4_BOVIN 267 AAKVKGEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSLAKEIQYLKDQIEE 337
+                           48999**********************************************99999999888888887754 PP
+
+>> sp|P97875|JDP2_MOUSE  Jun dimerization protein 2 OS=Mus musculus GN=Jdp2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.0   0.8   3.5e-05     0.088      77     145 ..      65     134 ..       9     157 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 17.0 bits;  conditional E-value: 3.5e-05
+  sp|Q1XGE2|HAC1_ASPOR  77 kte.dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                           k+e de e+rr +r  +n+ aa  +r +k+ + e l++e  +le +n  l  ++ +l+ e+++l  +l +
+  sp|P97875|JDP2_MOUSE  65 KSElDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLELMNAELKTQIEELKLERQQLILMLNR 134
+                           3333888999999999****************************************99999998777654 PP
+
+>> sp|Q78E65|JDP2_RAT  Jun dimerization protein 2 OS=Rattus norvegicus GN=Jdp2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.0   0.8   3.5e-05     0.088      77     145 ..      65     134 ..       9     157 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 17.0 bits;  conditional E-value: 3.5e-05
+  sp|Q1XGE2|HAC1_ASPOR  77 kte.dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                           k+e de e+rr +r  +n+ aa  +r +k+ + e l++e  +le +n  l  ++ +l+ e+++l  +l +
+    sp|Q78E65|JDP2_RAT  65 KSElDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLELMNAELKTQIEELKLERQQLILMLNR 134
+                           3333888999999999****************************************99999998777654 PP
+
+>> sp|P12959|OP2_MAIZE  Regulatory protein opaque-2 OS=Zea mays GN=O2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.2   0.2   5.8e-05      0.15      85     159 ..     227     301 ..     221     342 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 16.2 bits;  conditional E-value: 5.8e-05
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantpl 159
+                            r+++   nr +a+ sr rk  +l+ le++  ql+ +n  ll+r++ l  + n  + +   l a++   ra   +
+   sp|P12959|OP2_MAIZE 227 ERVRKKESNRESARRSRYRKAAHLKELEDQVAQLKAENSCLLRRIAALNQKYNDANVDNRVLRADMETLRAKVKM 301
+                           46777778***************************************9999998888888888888877776655 PP
+
+>> sp|Q8K1L0|CREB5_MOUSE  Cyclic AMP-responsive element-binding protein 5 OS=Mus musculus GN=Creb5 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    0.8   0.9       2.9   7.3e+03     141     170 ..      19      48 ..      10     124 .. 0.63
+   2 ?   16.9   4.4   3.7e-05     0.093      51     143 ..     193     284 ..     182     322 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 0.8 bits;  conditional E-value: 2.9
+   sp|Q1XGE2|HAC1_ASPOR 141 qqlaqlaaevrgsrantplpgspatasptl 170
+                            +q   + a + g+  n  +pgs a   p  
+  sp|Q8K1L0|CREB5_MOUSE  19 RQRQPMPASMPGTLPNPTMPGSSAVLMPME 48 
+                            455567788899999999999988877753 PP
+
+  == domain 2    score: 16.9 bits;  conditional E-value: 3.7e-05
+   sp|Q1XGE2|HAC1_ASPOR  51 kpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennr 138
+                             pa ++ +  q +  p+     r+r   ed   +rr + + rnraaa  +r+++++ +  le +  +l q n+ l   +s+l+ e  +
+  sp|Q8K1L0|CREB5_MOUSE 193 SPATQQMQPTQTIQPPQPTGGRRRRVVDEDPD-ERRRKFLERNRAAATRCRQKRKVWVMSLEKKAEELTQTNMQLQNEVSMLKNEVAQ 279
+                            57777777778888888777667777666655.55667889**********************9999***999999999999888877 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 139 lsqql 143
+                            l q l
+  sp|Q8K1L0|CREB5_MOUSE 280 LKQLL 284
+                            77655 PP
+
+>> sp|Q39140|TGA6_ARATH  Transcription factor TGA6 OS=Arabidopsis thaliana GN=TGA6 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.1   3.0   6.4e-05      0.16      77     131 ..      38      91 ..      33     102 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 16.1 bits;  conditional E-value: 6.4e-05
+  sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           +++d+ +q+ ++r+ +nr aa+ sr rk+  +++len +++l q  q  lqr  q
+  sp|Q39140|TGA6_ARATH  38 RSKDKLDQKTLRRLAQNREAARKSRLRKKAYVQQLENSRLKLTQLEQE-LQRARQ 91 
+                           5679999**********************************9998886.466555 PP
+
+>> sp|P23923|HBP1B_WHEAT  Transcription factor HBP-1b(c38) OS=Triticum aestivum PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.9   2.9   7.3e-05      0.19      73     131 ..      37      91 ..      30     106 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 15.9 bits;  conditional E-value: 7.3e-05
+   sp|Q1XGE2|HAC1_ASPOR  73 rkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                            r r k  d+k +r   r+ +nr aa+ sr rk+  +++len +++l q  q  lqr  q
+  sp|P23923|HBP1B_WHEAT  37 RSRDKNGDQKTMR---RLAQNREAARKSRLRKKAYVQQLENSRLKLTQLEQE-LQRARQ 91 
+                            6666666666665...5679*************************9998886.466555 PP
+
+>> sp|Q00322|CEBPD_MOUSE  CCAAT/enhancer-binding protein delta OS=Mus musculus GN=Cebpd PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.7   0.7   8.1e-05      0.21      98     169 ..     195     263 ..     142     267 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 15.7 bits;  conditional E-value: 8.1e-05
+   sp|Q1XGE2|HAC1_ASPOR  98 qtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspataspt 169
+                            +  rer  + ++k    + + +++nq + q+l +l aen +l q++ ql  ++ g r       sp    pt
+  sp|Q00322|CEBPD_MOUSE 195 RQRRERNNIAVRK---SRDKAKRRNQEMQQKLVELSAENEKLHQRVEQLTRDLAGLRQFFKKLPSPPFLPPT 263
+                            3345555555555...44456789999****************************99876655555555555 PP
+
+>> sp|Q39163|TGA5_ARATH  Transcription factor TGA5 OS=Arabidopsis thaliana GN=TGA5 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.9   2.2     7e-05      0.18      79     131 ..      40      91 ..      34     109 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 15.9 bits;  conditional E-value: 7e-05
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           + + +q+ ++r+ +nr aa+ sr rk+  +++len +++l q  q  lqr  q
+  sp|Q39163|TGA5_ARATH  40 KSKMDQKTLRRLAQNREAARKSRLRKKAYVQQLENSRLKLTQLEQE-LQRARQ 91 
+                           4567899999*****************************9998886.466655 PP
+
+>> sp|Q54RZ9|BZPG_DICDI  Probable basic-leucine zipper transcription factor G OS=Dictyostelium discoideum GN=bzpG PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.7   0.7   8.4e-05      0.21      80     149 ..     274     343 ..     262     352 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 15.7 bits;  conditional E-value: 8.4e-05
+  sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaae 149
+                           ++ke +r +r+++nr +a+ sr+rkr +l  le++  +l   +  + + ls le en  l  +++ql   
+  sp|Q54RZ9|BZPG_DICDI 274 EKKELKRQKRLIKNRESAHLSRQRKRERLTDLEHRVEELSSNSIDINKTLSSLENENLILKAEVGQLFEV 343
+                           578999***************************9888888877788899********9999999998654 PP
+
+>> sp|Q8CF90|MAFA_MOUSE  Transcription factor MafA OS=Mus musculus GN=Mafa PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.7   0.3   8.2e-05      0.21      85     168 ..     262     348 ..     237     356 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 15.7 bits;  conditional E-value: 8.2e-05
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevr.g..srantplpgspatasp 168
+                           ++ +r l+nr+ aq++r ++  + + le+ek+ql+ q + l   +++l  e++   ++  +la++   g  + a+ p   spa a+p
+  sp|Q8CF90|MAFA_MOUSE 262 KQKRRTLKNRGYAQSCRFKRVQQRHILESEKCQLQSQVEQLKLEVGRLAKERDLYKEKYEKLAGRGGpGgaGGAGFPREPSPAQAGP 348
+                           445699***********988888999**********999999999999999999998888888753212113456666667777776 PP
+
+>> sp|Q9ES19|ATF4_RAT  Cyclic AMP-dependent transcription factor ATF-4 OS=Rattus norvegicus GN=Atf4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.4   0.2     5e-05      0.13      74     155 ..     265     342 ..     230     347 .] 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 16.4 bits;  conditional E-value: 5e-05
+  sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsra 155
+                             ak + ek +++++++ +n+ aa   r++kr e+e l +e  +le++n+ l ++ + l  e     q l +l  evr +r+
+    sp|Q9ES19|ATF4_RAT 265 VTAKVKTEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSLAKEI----QYLKDLIEEVRKARG 342
+                           46899999*******************************************999988887665....444555555555554 PP
+
+>> sp|P43273|TGA2_ARATH  Transcription factor TGA2 OS=Arabidopsis thaliana GN=TGA2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.4   2.4    0.0001      0.26      79     131 ..      40      91 ..      31     103 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 15.4 bits;  conditional E-value: 0.0001
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           + + +q+ ++r+ +nr aa+ sr rk+  +++len +++l q  q  lqr  q
+  sp|P43273|TGA2_ARATH  40 KGKMDQKTLRRLAQNREAARKSRLRKKAYVQQLENSRLKLTQLEQE-LQRARQ 91 
+                           5567899999*****************************9998886.466655 PP
+
+>> sp|Q98UK5|MAFB_DANRE  Transcription factor MafB OS=Danio rerio GN=mafb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.7   0.1       1.5   3.9e+03     132     182 ..      36      86 ..       8     120 .. 0.64
+   2 ?   15.7   1.5   8.5e-05      0.22      73     144 ..     259     331 ..     241     354 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 1.7 bits;  conditional E-value: 1.5
+  sp|Q1XGE2|HAC1_ASPOR 132 leaennrlsqqlaqlaaevrgsrantpl..pgspatasptltptlfkqerdel 182
+                           + a+++   +q+ +l  + +gs ++tp+  p s   +sp+++pt  k + +el
+  sp|Q98UK5|MAFB_DANRE  36 MAAHDRANIRQCNRL--QPQGSVSSTPIstPCSSVPSSPSFSPTEQKNHLEEL 86 
+                           333333333444444..567888888864477888889999999888777765 PP
+
+  == domain 2    score: 15.7 bits;  conditional E-value: 8.5e-05
+  sp|Q1XGE2|HAC1_ASPOR  73 rkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                           + r+ t+de  + ++ +r l+nr+ aq++r ++  + + lenek ql  q + l q +++l  e++    ++ 
+  sp|Q98UK5|MAFB_DANRE 259 HLRGFTKDEVIRlKQKRRTLKNRGYAQSCRFKRVQQKHLLENEKTQLINQVEQLKQEINRLARERDAYKLKCE 331
+                           5577788886541556799**********99888888899********9999999999999888876655544 PP
+
+>> sp|P16951|ATF2_MOUSE  Cyclic AMP-dependent transcription factor ATF-2 OS=Mus musculus GN=Atf2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.9   1.0   0.00015      0.38      64     125 ..     316     376 ..     262     402 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 14.9 bits;  conditional E-value: 0.00015
+  sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfl 125
+                           p  +     r+ra  ed  e+rr + + rnraaa  +r+++++ ++ le +  +l   n  l
+  sp|P16951|ATF2_MOUSE 316 PQTQNTSGRRRRAANEDPDEKRR-KFLERNRAAASRCRQKRKVWVQSLEKKAEDLSSLNGQL 376
+                           44444455678888888877776.6788******************9998776666655544 PP
+
+>> sp|P27925|CREB1_BOVIN  Cyclic AMP-responsive element-binding protein 1 OS=Bos taurus GN=CREB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    0.6   0.1       3.2   8.1e+03     140     211 ..      20      94 ..      10     104 .. 0.62
+   2 ?   14.5   0.1    0.0002       0.5      78     131 ..     262     315 ..     240     320 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 0.6 bits;  conditional E-value: 3.2
+   sp|Q1XGE2|HAC1_ASPOR 140 sqqlaqlaaevrgsrantplpgspatas.ptltptlfkqerdelpleripfptpsl..sdysptlkpstlaessd 211
+                            sqq+   a     + a+  +p + at+s pt+t       +       i    ps+  s    t++ st+aes d
+  sp|P27925|CREB1_BOVIN  20 SQQMTVQAQPQIATLAQVSMPAAHATSSaPTVTLVQLPNGQTVQVHGVIQAAQPSViqSPQVQTVQISTIAESED 94 
+                            566665555556788999999999997537777555444333322233444444441155566777788888776 PP
+
+  == domain 2    score: 14.5 bits;  conditional E-value: 0.0002
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                              +e  ++r  r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|P27925|CREB1_BOVIN 262 PAEEAARKREVRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKA 315
+                            445667778889************99999999****************998865 PP
+
+>> sp|P15336|ATF2_HUMAN  Cyclic AMP-dependent transcription factor ATF-2 OS=Homo sapiens GN=ATF2 PE=1 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.8   1.0   0.00016      0.41      63     125 ..     333     394 ..     281     420 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 14.8 bits;  conditional E-value: 0.00016
+  sp|Q1XGE2|HAC1_ASPOR  63 lpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfl 125
+                            p  ++    r+ra  ed  e+rr + + rnraaa  +r+++++ ++ le +  +l   n  l
+  sp|P15336|ATF2_HUMAN 333 TPQTQSTSGRRRRAANEDPDEKRR-KFLERNRAAASRCRQKRKVWVQSLEKKAEDLSSLNGQL 394
+                           444555566789999999888777.6788******************9998776666655544 PP
+
+>> sp|O35451|ATF6B_MOUSE  Cyclic AMP-dependent transcription factor ATF-6 beta OS=Mus musculus GN=Atf6b PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.6   1.8   0.00018      0.46      38     137 ..     283     383 ..     257     391 .. 0.63
+
+  Alignments for each domain:
+  == domain 1    score: 14.6 bits;  conditional E-value: 0.00018
+   sp|Q1XGE2|HAC1_ASPOR  38 advktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklen.......ekiql 118
+                            + ++ q   p    p   rks     p+p  ++pp   ak       +r +r+++nr +a  sr++k+  l+ le        +  ql
+  sp|O35451|ATF6B_MOUSE 283 GAIRVQPEGPAPAAPRPERKSIV-PAPMPGNSCPPEVDAK-----LLKRQQRMIKNRESACQSRRKKKEYLQGLEArlqavlaDNQQL 364
+                            45666666666667777777764.5788889999986555.....5667788999**9998898888766666654110111133344 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 119 eqqnqfllqrlsqleaenn 137
+                            +++n  l +rl  l aen+
+  sp|O35451|ATF6B_MOUSE 365 RRENAALRRRLEALLAENS 383
+                            4555555555555555554 PP
+
+>> sp|Q2VZV0|IF2_MAGSA  Translation initiation factor IF-2 OS=Magnetospirillum magneticum (strain AMB-1 / ATCC 700264) G
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.0   4.8   0.00014      0.36      13     118 ..     185     290 ..     176     325 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 15.0 bits;  conditional E-value: 0.00014
+  sp|Q1XGE2|HAC1_ASPOR  13 dslpatpasevpvltvspadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprkrak...tedekeqrriervlrnraaaq 98 
+                            + p  pa+  pv   +pa  +      +t+e    e   akkr +  +  pv +t  p r+ +k   t+   ++ r er  r+ aa +
+   sp|Q2VZV0|IF2_MAGSA 185 PATPVAPAQPKPVAAAAPAGDATAVPRARTEEEEE-EEERAKKRAAAHKPAPVKRTE-PRRRTGKltiTDALTDDDRSERG-RSLAAVK 270
+                           567899999**********9999999999998765.556699999999888888875.44444453224555667777774.7889999 PP
+
+  sp|Q1XGE2|HAC1_ASPOR  99 tsrerkrleleklenekiql 118
+                            +rer rl+  +  +ek+  
+   sp|Q2VZV0|IF2_MAGSA 271 RARERERLKHMQKGSEKVIR 290
+                           99*****9876666777654 PP
+
+>> sp|Q6ZDF3|TRAB1_ORYSJ  bZIP transcription factor TRAB1 OS=Oryza sativa subsp. japonica GN=TRAB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.9   0.8   0.00015      0.37      64     139 ..     210     287 ..     174     312 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 14.9 bits;  conditional E-value: 0.00015
+   sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpprkraktedek.eqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq.leaennrl 139
+                            p p  ++   +r+    ek  +rr +r+++nr +a  sr rk+     le e  +l++qn+ l ++  + +e + n +
+  sp|Q6ZDF3|TRAB1_ORYSJ 210 PYPFEGVIRGRRSGGNVEKvVERRQRRMIKNRESAARSRARKQAYTMELEAEVQKLKEQNMELQKKQEEiMEMQKNFF 287
+                            55555554444544444442689999*****************99999***999999999987766544367776655 PP
+
+>> sp|Q6P788|ATF5_RAT  Cyclic AMP-dependent transcription factor ATF-5 OS=Rattus norvegicus GN=Atf5 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.5   1.1    0.0002       0.5      73     141 ..     200     265 ..     171     280 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 14.5 bits;  conditional E-value: 0.0002
+  sp|Q1XGE2|HAC1_ASPOR  73 rkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                              a t+ +++q++ +   +n++aa   r+rkr e e le+e   le +n+ l +r   +e e + + +
+    sp|Q6P788|ATF5_RAT 200 PSPASTRGDRKQKKRD---QNKSAALRYRQRKRAEGEALEGECQGLEARNRELRERAESVEREIQYVKD 265
+                           3446666666665544...79***********************************9999988665544 PP
+
+>> sp|Q02930|CREB5_HUMAN  Cyclic AMP-responsive element-binding protein 5 OS=Homo sapiens GN=CREB5 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -0.7   1.8       8.3   2.1e+04     141     171 ..     170     200 ..     144     276 .. 0.63
+   2 ?   15.6   4.7   8.8e-05      0.22      51     143 ..     344     435 ..     333     472 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: -0.7 bits;  conditional E-value: 8.3
+   sp|Q1XGE2|HAC1_ASPOR 141 qqlaqlaaevrgsrantplpgspatasptlt 171
+                            +q   + a + g+  n  +pgs a   p   
+  sp|Q02930|CREB5_HUMAN 170 RQRQPMPASMPGTLPNPTMPGSSAVLMPMER 200
+                            4555677888899999999999888777543 PP
+
+  == domain 2    score: 15.6 bits;  conditional E-value: 8.8e-05
+   sp|Q1XGE2|HAC1_ASPOR  51 kpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennr 138
+                             pa ++ +  q +  p+     r+r   ed   +rr + + rnraaa  +r+++++ +  le +  +l q n+ l   +s+l+ e  +
+  sp|Q02930|CREB5_HUMAN 344 SPATQQMQPTQTIQPPQPTGGRRRRVVDEDPD-ERRRKFLERNRAAATRCRQKRKVWVMSLEKKAEELTQTNMQLQNEVSMLKNEVAQ 430
+                            57777777778888787777667777666655.55667889**********************9999***999999999999888877 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 139 lsqql 143
+                            l q l
+  sp|Q02930|CREB5_HUMAN 431 LKQLL 435
+                            77654 PP
+
+>> sp|Q66J36|NFIL3_XENLA  Nuclear factor interleukin-3-regulated protein OS=Xenopus laevis GN=nfil3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   0.1    0.0004         1      63     130 ..      44     113 ..      25     140 .. 0.79
+   2 ?   -0.5   0.0         7   1.8e+04      29      51 ..     196     218 ..     179     228 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 0.0004
+   sp|Q1XGE2|HAC1_ASPOR  63 lpvp.ktnlpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrls 130
+                            lpv  k++   rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l 
+  sp|Q66J36|NFIL3_XENLA  44 LPVKnKSSSCRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDMVLENKLIALGEENASLKTELL 113
+                            66642555667899999998766155799999**************************999987766655 PP
+
+  == domain 2    score: -0.5 bits;  conditional E-value: 7
+   sp|Q1XGE2|HAC1_ASPOR  29 spadtslnsadvktqevkpeekk 51 
+                            s  +++++s d+k+q++k e+  
+  sp|Q66J36|NFIL3_XENLA 196 STIQSNCRSTDIKSQRIKQEQME 218
+                            4556788999********99875 PP
+
+>> sp|Q8NHW3|MAFA_HUMAN  Transcription factor MafA OS=Homo sapiens GN=MAFA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.4   0.4    0.0002      0.52      85     167 ..     255     335 ..     230     345 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 14.4 bits;  conditional E-value: 0.0002
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaev.rgsrantplpgspatas 167
+                           ++ +r l+nr+ aq++r ++  + + le+ek+ql+ q + l   +++l  e++   ++  +la++   gs ++    g p   s
+  sp|Q8NHW3|MAFA_HUMAN 255 KQKRRTLKNRGYAQSCRFKRVQQRHILESEKCQLQSQVEQLKLEVGRLAKERDLYKEKYEKLAGRGgPGSAGGA---GFPREPS 335
+                           445699***********988888999**********99999999999999999999998888875313443333...3333333 PP
+
+>> sp|O88479|FOS_MESAU  Proto-oncogene c-Fos OS=Mesocricetus auratus GN=FOS PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.9   0.3    0.0003      0.76      79     234 ..     134     294 ..     118     303 .. 0.65
+
+  Alignments for each domain:
+  == domain 1    score: 13.9 bits;  conditional E-value: 0.0003
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatas 167
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la     ++    +  +p     as
+   sp|O88479|FOS_MESAU 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMFVAS 220
+                           467788999885.899999999999999999************999999999999999998877765433332.223344555555555 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 168 ptlt...p...tlfkqerdelpleripfptpslsdysptlkpstlaessdvaqhpavs.vaglegdgsalplfd 234
+                             lt   p   t   +e   lpl   p p psl            ae  d   +pa s  +g e    ++p +d
+   sp|O88479|FOS_MESAU 221 LDLTgglPeatTPESEEAFSLPLLNDPEPKPSLEPVKSISNVELKAEPFDDFLFPASSrPSGSETTARSVPDMD 294
+                           55552221111223445556777777777777776666666666666666666666552345555555555555 PP
+
+>> sp|P23922|HBP1A_WHEAT  Transcription factor HBP-1a OS=Triticum aestivum PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.2   0.0   0.00024      0.62      64     137 ..     232     306 ..     220     328 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 14.2 bits;  conditional E-value: 0.00024
+   sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpp.rkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaenn 137
+                            p  +  +p    r+   de+e ++ +r l nr +a+ sr rk+ e+e l ++   l+ +n  l   l++++ e  
+  sp|P23922|HBP1A_WHEAT 232 PAMRGKVPSgSARGEQWDERELKKQKRKLSNRESARRSRLRKQAECEELGQRAEALKSENSSLRIELDRIKKEYE 306
+                            33444555413577788********************************99988889999888777777776655 PP
+
+>> sp|Q90595|MAFF_CHICK  Transcription factor MafF OS=Gallus gallus GN=MAFF PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.6   0.1   0.00018      0.45      84     167 ..      52     134 ..      31     144 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 14.6 bits;  conditional E-value: 0.00018
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatas 167
+                            ++ +r l+nr+ a ++r ++ ++ e l+ +k++le + + l +  + ++ e + l  +   l +  r   a+ p p   atas
+  sp|Q90595|MAFF_CHICK  52 LKQRRRTLKNRGYAASCRVKRVCQKEELQKQKMELEWEVDKLARENAAMRLELDTLRGKYEALQGFARTVAAHGP-PAKVATAS 134
+                           3344699*******************************9999999999999999999999999998888888877.77778876 PP
+
+>> sp|P53450|FOS_TAKRU  Proto-oncogene c-Fos OS=Takifugu rubripes GN=fos PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.9   0.4    0.0003      0.76      73     144 ..     112     182 ..      41     223 .. 0.74
+   2 ?    1.1   0.0       2.3   5.8e+03      17      42 ..     316     340 ..     301     359 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 13.9 bits;  conditional E-value: 0.0003
+  sp|Q1XGE2|HAC1_ASPOR  73 rkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                           r    t +e e++ri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  rl   la
+   sp|P53450|FOS_TAKRU 112 RVEQTTPEEEEKKRIRRE-RNKQAAAKCRNRRRELTDTLQAETDQLEDEKSSLQNDIANLLKEKERLEFILA 182
+                           444557788889999886.788788888999998899**********9999999999999989888876665 PP
+
+  == domain 2    score: 1.1 bits;  conditional E-value: 2.3
+  sp|Q1XGE2|HAC1_ASPOR  17 atpasevpvltvspadtslnsadvkt 42 
+                             p +  pv+t++pa t+l s+ v t
+   sp|P53450|FOS_TAKRU 316 FEPLC-TPVVTCTPACTTLTSSFVFT 340
+                           34433.69************998877 PP
+
+>> sp|Q00969|ATF2_RAT  Cyclic AMP-dependent transcription factor ATF-2 OS=Rattus norvegicus GN=Atf2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   1.9   0.00044       1.1      64     125 ..     316     376 ..     283     402 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.00044
+  sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfl 125
+                           p  +     r+ra  ed  e+rr + + rnraaa  +r+++++ ++ le +  +l   n  l
+    sp|Q00969|ATF2_RAT 316 PQTQNTSGRRRRAANEDPDEKRR-KFLERNRAAASRCRQKRKVWVQSLEKKAEDLSSLNGQL 376
+                           44444445688888888887776.6788******************9998776666655544 PP
+
+>> sp|O97930|FOS_PIG  Proto-oncogene c-Fos OS=Sus scrofa GN=FOS PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.8   0.2   0.00031      0.78      79     146 ..     134     200 ..      77     302 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 13.8 bits;  conditional E-value: 0.00031
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql 146
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la  
+     sp|O97930|FOS_PIG 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAH 200
+                           467788999885.899899999999999999***********99999999999888888887766643 PP
+
+>> sp|P79145|CREM_CANFA  cAMP-responsive element modulator OS=Canis familiaris GN=CREM PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.7   0.1   0.00033      0.84      80     131 ..     299     350 ..     227     354 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 13.7 bits;  conditional E-value: 0.00033
+  sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           +e  ++r  r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|P79145|CREM_CANFA 299 EEATRKRELRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKA 350
+                           4556677789************99999999****************998865 PP
+
+>> sp|Q99941|ATF6B_HUMAN  Cyclic AMP-dependent transcription factor ATF-6 beta OS=Homo sapiens GN=ATF6B PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   2.0   0.00045       1.1      37     138 ..     285     387 ..     252     393 .. 0.70
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.00045
+   sp|Q1XGE2|HAC1_ASPOR  37 sadvktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklen.......ekiq 117
+                            ++ ++ q   p    p   rks     p+p  ++pp   ak       +r +r+++nr +a  sr++k+  l+ le        +  q
+  sp|Q99941|ATF6B_HUMAN 285 QGAIRVQPEGPAPSLPRPERKSIV-PAPMPGNSCPPEVDAK-----LLKRQQRMIKNRESACQSRRKKKEYLQGLEArlqavlaDNQQ 366
+                            455777777788888888899874.6799999999987665.....5567778999**998888888876666665411111113446 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 118 leqqnqfllqrlsqleaennr 138
+                            l+++n  l +rl  l aen+ 
+  sp|Q99941|ATF6B_HUMAN 367 LRRENAALRRRLEALLAENSE 387
+                            666677777777777777765 PP
+
+>> sp|P01101|FOS_MOUSE  Proto-oncogene c-Fos OS=Mus musculus GN=Fos PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.7   0.1   0.00033      0.85      79     146 ..     134     200 ..      81     297 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 13.7 bits;  conditional E-value: 0.00033
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql 146
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la  
+   sp|P01101|FOS_MOUSE 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAH 200
+                           467788999885.899889999999999999***********99999999999888888887766643 PP
+
+>> sp|P15337|CREB1_RAT  Cyclic AMP-responsive element-binding protein 1 OS=Rattus norvegicus GN=Creb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.4   0.1   0.00021      0.54      78     131 ..     278     331 ..     257     336 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 14.4 bits;  conditional E-value: 0.00021
+  sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                             +e  ++r  r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+   sp|P15337|CREB1_RAT 278 PAEEAARKREVRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKA 331
+                           445667778889************99999999****************998865 PP
+
+>> sp|P16220|CREB1_HUMAN  Cyclic AMP-responsive element-binding protein 1 OS=Homo sapiens GN=CREB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.4   0.1   0.00021      0.54      78     131 ..     278     331 ..     257     336 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 14.4 bits;  conditional E-value: 0.00021
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                              +e  ++r  r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|P16220|CREB1_HUMAN 278 PAEEAARKREVRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKA 331
+                            445667778889************99999999****************998865 PP
+
+>> sp|Q01147|CREB1_MOUSE  Cyclic AMP-responsive element-binding protein 1 OS=Mus musculus GN=Creb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.4   0.1   0.00021      0.54      78     131 ..     278     331 ..     257     336 .. 0.86
+
+  Alignments for each domain:
+  == domain 1    score: 14.4 bits;  conditional E-value: 0.00021
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                              +e  ++r  r+++nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|Q01147|CREB1_MOUSE 278 PAEEAARKREVRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKA 331
+                            445667778889************99999999****************998865 PP
+
+>> sp|O93602|ATF2_CHICK  Cyclic AMP-dependent transcription factor ATF-2 OS=Gallus gallus GN=ATF2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   2.4   0.00044       1.1      66     129 ..     319     380 ..     260     403 .. 0.68
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.00044
+  sp|Q1XGE2|HAC1_ASPOR  66 pktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrl 129
+                           p t+   r+ra  ed  e+rr + + rnraaa  +r+++++ ++ le +  +l   n  l   +
+  sp|O93602|ATF2_CHICK 319 PNTG-GRRRRAANEDPDEKRR-KFLERNRAAASRCRQKRKVWVQSLEKKAEDLSSLNGQLQNEV 380
+                           3332.3477888888877776.6788******************99987766666665554444 PP
+
+>> sp|Q90889|MAFG_CHICK  Transcription factor MafG OS=Gallus gallus GN=MAFG PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.9   0.5    0.0003      0.75      84     165 ..      52     134 ..      30     146 .. 0.70
+
+  Alignments for each domain:
+  == domain 1    score: 13.9 bits;  conditional E-value: 0.0003
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql..aaevrgsrantplpgspat 165
+                            ++ +r l+nr+ a ++r ++  + e le +k +l+q+ + l    + ++ e + l  +   l   a+       tp+ g p t
+  sp|Q90889|MAFG_CHICK  52 LKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASMKMELDALRSKYEALqnFARTVARSPVTPVRG-PLT 134
+                           3444699************9999***************999999888888877777654433300333333334566666.333 PP
+
+>> sp|P79702|FOS_CYPCA  Proto-oncogene c-Fos OS=Cyprinus carpio GN=fos PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   0.1   0.00039         1      66     145 ..      97     175 ..      39     207 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 0.00039
+  sp|Q1XGE2|HAC1_ASPOR  66 pktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                           p +n   r    + +e e++r++r  rn+ aa  +r r+r   + l+ e  +le++   l   ++ l  e  rl   la 
+   sp|P79702|FOS_CYPCA  97 PNSNKRARAEQLSPEEEEKKRVRRE-RNKMAAAKCRNRRRELTDTLQAETDELEDEKSALQNDIANLLKEKERLEFILAA 175
+                           4556555555556678888888775.8999999999999998999*********99999999999999999999877764 PP
+
+>> sp|Q8X229|FCR3_CANAL  Fluconazole resistance protein 3 OS=Candida albicans GN=FCR3 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.5   2.5    0.0004         1      81     140 ..     208     267 ..     197     289 .. 0.87
+
+  Alignments for each domain:
+  == domain 1    score: 13.5 bits;  conditional E-value: 0.0004
+  sp|Q1XGE2|HAC1_ASPOR  81 ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrls 140
+                             e+ +++r  +nraa +  rerk  +l+ le + +  e+++q ll+ l q++ +n  ++
+  sp|Q8X229|FCR3_CANAL 208 TEEELQMKRKAQNRAAQRAFRERKESKLKELEAKLLASEEERQKLLDELEQIKKQNISIA 267
+                           4567788999******************************************99997665 PP
+
+>> sp|P12841|FOS_RAT  Proto-oncogene c-Fos OS=Rattus norvegicus GN=Fos PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.1   0.2   0.00052       1.3      79     145 ..     134     199 ..     116     297 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 13.1 bits;  conditional E-value: 0.00052
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la 
+     sp|P12841|FOS_RAT 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAA 199
+                           467788999885.899889999999999999***********9999998999888888888766654 PP
+
+>> sp|P49716|CEBPD_HUMAN  CCAAT/enhancer-binding protein delta OS=Homo sapiens GN=CEBPD PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.1   3.4   0.00052       1.3      82     159 ..     192     253 ..     129     266 .. 0.53
+
+  Alignments for each domain:
+  == domain 1    score: 13.1 bits;  conditional E-value: 0.00052
+   sp|Q1XGE2|HAC1_ASPOR  82 keqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantpl 159
+                             e              +  rer  + ++     + + +++nq + q+l +l aen +l q++ ql  ++ g r    +
+  sp|P49716|CEBPD_HUMAN 192 PE-------------YRQRRERNNIAVR---KSRDKAKRRNQEMQQKLVELSAENEKLHQRVEQLTRDLAGLRQFFKQ 253
+                            11.............1222333333333...33445567777788888888888888888888888888887764432 PP
+
+>> sp|Q554P0|BZPJ_DICDI  Probable basic-leucine zipper transcription factor J OS=Dictyostelium discoideum GN=bzpJ PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.0   0.2   0.00028      0.72      79     148 ..     545     614 ..     535     644 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 14.0 bits;  conditional E-value: 0.00028
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa 148
+                            +eke ++ +r+++nr  a  sr r+++ +e +e +  +  q+   +  +l+ ++ en  l +ql  l  
+  sp|Q554P0|BZPJ_DICDI 545 AEEKELKKQRRLVKNREYASQSRSRRKIYVENIETKLQKTNQDCASIKSQLNSVKEENKALKKQLYSLTN 614
+                           46899999999**********************9866556666677888999************988865 PP
+
+>> sp|Q55E93|BZPE_DICDI  Probable basic-leucine zipper transcription factor E OS=Dictyostelium discoideum GN=bzpE PE=3 S
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.9   0.1   0.00029      0.74      85     146 ..     248     309 ..     243     324 .. 0.88
+
+  Alignments for each domain:
+  == domain 1    score: 13.9 bits;  conditional E-value: 0.00029
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql 146
+                           r+ +r+l+nr aaq  r+r++  +  le++   le  n   l ++s+l  en+ + +++  l
+  sp|Q55E93|BZPE_DICDI 248 RKNRRLLKNREAAQLFRQRQKEYINSLESKASSLEASNTTALSKVSHLTEENQLMKDKVRYL 309
+                           77789*******************************************99998887776655 PP
+
+>> sp|P51984|CREB_CHLVR  Cyclic AMP-responsive element-binding protein OS=Chlorohydra viridissima GN=CREB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.4   0.1   0.00043       1.1      76     131 ..     184     239 ..     149     243 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 13.4 bits;  conditional E-value: 0.00043
+  sp|Q1XGE2|HAC1_ASPOR  76 aktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                            +  +e  ++r  r+ +nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|P51984|CREB_CHLVR 184 HQLAEEATRKRELRLYKNREAARECRRKKKEYVKCLENRVAVLENQNKALIEELKS 239
+                           444566777788899***********99999999****************998865 PP
+
+>> sp|P01102|FOS_MSVFB  p55-v-Fos-transforming protein OS=FBJ murine osteosarcoma virus GN=V-FOS PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.4   0.1    0.0004         1      79     146 ..     134     200 ..      84     298 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 13.4 bits;  conditional E-value: 0.0004
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaql 146
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la  
+   sp|P01102|FOS_MSVFB 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDKKSALQTEIANLLKEKEKLEFILAAH 200
+                           467788999885.899999999999999999***********99999999999988888887766643 PP
+
+>> sp|O77628|FOS_BOVIN  Proto-oncogene c-Fos OS=Bos taurus GN=FOS PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.1   0.0   0.00052       1.3      79     144 ..     134     198 ..      79     298 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 13.1 bits;  conditional E-value: 0.00052
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la
+   sp|O77628|FOS_BOVIN 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILA 198
+                           467788999885.899888899999999999**********9999888888888777777766555 PP
+
+>> sp|Q8WYK2|JDP2_HUMAN  Jun dimerization protein 2 OS=Homo sapiens GN=JDP2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   2.7   0.00035       0.9      78     145 ..      67     134 ..      30     157 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 13.6 bits;  conditional E-value: 0.00035
+  sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                             de e+rr +r  +n+ aa  +r +k+ + e l++e  +le +n  l  ++ +l+ e+++l  +l +
+  sp|Q8WYK2|JDP2_HUMAN  67 ELDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLELMNAELKTQIEELKQERQQLILMLNR 134
+                           34888999999999**********************************99999999999988776654 PP
+
+>> sp|Q60925|DBP_MOUSE  D site-binding protein OS=Mus musculus GN=Dbp PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   1.0   0.00092       2.3      38     135 ..     210     307 ..     184     323 .. 0.69
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.00092
+  sp|Q1XGE2|HAC1_ASPOR  38 advktqevkpeek.kpakkrkswgqel.pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqf 124
+                           ad+    +  +e   p + r s  +el p p      rk    e++k+++   r  +n  aa+ sr+ +rl+  ++  +   le++n  
+   sp|Q60925|DBP_MOUSE 210 ADLALSSIPGHETfDPRRHRFS-EEELkPQP-IMKKARKVQVPEEQKDEKYWSRRYKNNEAAKRSRDARRLKENQISVRAAFLEKENAL 296
+                           4444444444443034444444.34441333.334567777789999*******************************99*******99 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 125 llqrlsqleae 135
+                           l q +  ++ e
+   sp|Q60925|DBP_MOUSE 297 LRQEVVAVRQE 307
+                           99987665555 PP
+
+>> sp|P14232|TGA1A_TOBAC  TGACG-sequence-specific DNA-binding protein TGA-1A OS=Nicotiana tabacum GN=TGA1A PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.4   0.00058       1.5      85     125 ..      74     114 ..      59     133 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.00058
+   sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfl 125
+                            + ++r+ +nr aa+ sr rk+  +++len k++l q  q l
+  sp|P14232|TGA1A_TOBAC  74 KVLRRLAQNREAARKSRLRKKAYVQQLENSKLKLIQLEQEL 114
+                            45678899***********************9988877755 PP
+
+>> sp|P16443|DBP_RAT  D site-binding protein OS=Rattus norvegicus GN=Dbp PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   1.0   0.00092       2.3      38     135 ..     210     307 ..     184     323 .. 0.69
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.00092
+  sp|Q1XGE2|HAC1_ASPOR  38 advktqevkpeek.kpakkrkswgqel.pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqf 124
+                           ad+    +  +e   p + r s  +el p p      rk    e++k+++   r  +n  aa+ sr+ +rl+  ++  +   le++n  
+     sp|P16443|DBP_RAT 210 ADLALSSIPGHETfDPRRHRFS-EEELkPQP-IMKKARKVQVPEEQKDEKYWSRRYKNNEAAKRSRDARRLKENQISVRAAFLEKENAL 296
+                           4444444444443034444444.34441333.334567777789999*******************************99*******99 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 125 llqrlsqleae 135
+                           l q +  ++ e
+     sp|P16443|DBP_RAT 297 LRQEVVAVRQE 307
+                           99987665555 PP
+
+>> sp|Q68EL6|NFIL3_DANRE  Nuclear factor interleukin-3-regulated protein OS=Danio rerio GN=nfil3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.0   0.00059       1.5      71     131 ..      50     111 ..      39     184 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.00059
+   sp|Q1XGE2|HAC1_ASPOR  71 pprkraktedekeqr.riervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                              rkr    dek++    er  +n  aa+ sre++rl    len+ + l ++n  l   l  
+  sp|Q68EL6|NFIL3_DANRE  50 CRRKREFIPDEKKDNlYWERRRKNNEAAKRSREKRRLNDMVLENKLMALGEENASLKAELLS 111
+                            5688888888876551679**************************99999999877666655 PP
+
+>> sp|P01100|FOS_HUMAN  Proto-oncogene c-Fos OS=Homo sapiens GN=FOS PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.2   0.00069       1.7      79     144 ..     134     198 ..     120     294 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 12.7 bits;  conditional E-value: 0.00069
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la
+   sp|P01100|FOS_HUMAN 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILA 198
+                           467788999885.899888899999999999**********9999988888888887777766555 PP
+
+>> sp|Q9C5Q2|AI5L3_ARATH  ABSCISIC ACID-INSENSITIVE 5-like protein 3 OS=Arabidopsis thaliana GN=DPBF4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   1.9   0.00059       1.5      70     133 ..     175     239 ..     165     242 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.00059
+   sp|Q1XGE2|HAC1_ASPOR  70 lpprkrakte..dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqle 133
+                             p rkr   e  ++  +rr +r+++nr +a  sr rk+   + le +  +le++n+  l+rl ++e
+  sp|Q9C5Q2|AI5L3_ARATH 175 APGRKRVAGEivEKTVERRQKRMIKNRESAARSRARKQAYTHELEIKVSRLEEENEK-LRRLKEVE 239
+                            58889877662244568999**************************999*****996.57777665 PP
+
+>> sp|Q5FW38|NFIL3_XENTR  Nuclear factor interleukin-3-regulated protein OS=Xenopus tropicalis GN=nfil3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.4   0.2   0.00083       2.1      71     132 ..      60     122 ..      43     150 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 12.4 bits;  conditional E-value: 0.00083
+   sp|Q1XGE2|HAC1_ASPOR  71 pprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsql 132
+                              rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l  l
+  sp|Q5FW38|NFIL3_XENTR  60 CRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDMVLENKLIALGEENASLKTELLSL 122
+                            46788888888766156799999**************************99998877666555 PP
+
+>> sp|Q8HZP6|FOS_FELCA  Proto-oncogene c-Fos OS=Felis catus GN=FOS PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.5   0.1   0.00076       1.9      79     144 ..     135     199 ..     124     298 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 12.5 bits;  conditional E-value: 0.00076
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la
+   sp|Q8HZP6|FOS_FELCA 135 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILA 199
+                           467788999885.899888899999999999**********9999888888888777777765554 PP
+
+>> sp|Q9SJN0|ABI5_ARATH  Protein ABSCISIC ACID-INSENSITIVE 5 OS=Arabidopsis thaliana GN=ABI5 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   2.2   0.00076       1.9      70     141 ..     340     411 ..     327     435 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 12.6 bits;  conditional E-value: 0.00076
+  sp|Q1XGE2|HAC1_ASPOR  70 lpprkrakte..dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                           l  rkr      ++  +rr +r+++nr +a  sr rk+     le e  ql+++n  l + l++le ++   +q
+  sp|Q9SJN0|ABI5_ARATH 340 LRGRKRVVDGpvEKVVERRQRRMIKNRESAARSRARKQAYTVELEAELNQLKEENAQLKHALAELERKRK--QQ 411
+                           555666543210233579999*************************************999998876543..33 PP
+
+>> sp|P42777|GBF4_ARATH  G-box-binding factor 4 OS=Arabidopsis thaliana GN=GBF4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   2.5   0.00074       1.9      77     134 ..     181     238 ..     170     259 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 12.6 bits;  conditional E-value: 0.00074
+  sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqlea 134
+                              d+   +r +r+++nr +a  srerk+  +  le    +le++n+ ll+ + +   
+  sp|P42777|GBF4_ARATH 181 EAMDKAAAQRQKRMIKNRESAARSRERKQAYQVELETLAAKLEEENEQLLKEIEESTK 238
+                           45677788899************************************99998876554 PP
+
+>> sp|P15407|FOSL1_HUMAN  Fos-related antigen 1 OS=Homo sapiens GN=FOSL1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   4.3   0.00072       1.8      64     202 ..      88     234 ..      64     263 .. 0.61
+
+  Alignments for each domain:
+  == domain 1    score: 12.6 bits;  conditional E-value: 0.00072
+   sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpprkraktedekeqrriervlrnraaaqtsr.erkrl......eleklenekiqleqqnqfllqrlsqle..aennrlsqq 142
+                            p p  +  p  +   e e e+rr++r  rn+ aa  +r +rk l      e +kle+ek  l+++ + l ++  +le   e +r   +
+  sp|P15407|FOSL1_HUMAN  88 PPPGVRRRPCEQISPE-EEERRRVRRE-RNKLAAAKCRnRRKELtdflqaETDKLEDEKSGLQREIEELQKQKERLElvLEAHRPICK 173
+                            5566666666665544.5577888776.666555555505554432222256778888777777666665555554422466777777 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 143 laqlaaev.rgsrantplpgspatasptltptlfkq.erdelpleripfptpslsdysptlk 202
+                            + + a e   gs ++t  p +p+   p+++ +     e + l      + tpsl+ ++p+l 
+  sp|P15407|FOSL1_HUMAN 174 IPEGAKEGdTGSTSGTSSPPAPCRPVPCISLSPGPVlEPEALHTP-TLMTTPSLTPFTPSLV 234
+                            777777642689999999999988888765433322033333333.3467899999999874 PP
+
+>> sp|O15525|MAFG_HUMAN  Transcription factor MafG OS=Homo sapiens GN=MAFG PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.9   0.4   0.00059       1.5      84     152 ..      52     120 ..      30     144 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 12.9 bits;  conditional E-value: 0.00059
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrg 152
+                            ++ +r l+nr+ a ++r ++  + e le +k +l+q+ + l    + ++ e + l  +   l    r 
+  sp|O15525|MAFG_HUMAN  52 LKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASMKLELDALRSKYEALQTFART 120
+                           3444699************9999***************9999999999999888887766655554443 PP
+
+>> sp|P40535|ACA2_YEAST  ATF/CREB activator 2 OS=Saccharomyces cerevisiae GN=CST6 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.2   0.0   0.00098       2.5      85     133 ..     427     475 ..     363     484 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 12.2 bits;  conditional E-value: 0.00098
+  sp|Q1XGE2|HAC1_ASPOR  85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqle 133
+                           +r + + rnr aa  +r+rk++ + +l+ e  +++++n++ll++l+  e
+  sp|P40535|ACA2_YEAST 427 KRARLLERNRIAASKCRQRKKVAQLQLQKEFNEIKDENRILLKKLNYYE 475
+                           34444558***********************************998765 PP
+
+>> sp|A7YY73|MAFF_BOVIN  Transcription factor MafF OS=Bos taurus GN=MAFF PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.2   0.00069       1.7      84     174 ..      52     139 ..      32     170 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 12.7 bits;  conditional E-value: 0.00069
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasptltp 172
+                            ++ +r l+nr+ a ++r ++ ++ e l+ +k +le++ + l +  + ++ e + l  ++  l +  r   a     g  a  +p    
+  sp|A7YY73|MAFF_BOVIN  52 LKQRRRTLKNRGYAASCRVKRVCQKEELQKQKSELEREVDKLARENAAMRLELDALRGKCEALQGFARSVAA---ARGPAALVAPASVI 137
+                           3444699*******************************9999999999999988887776666555444332...33444445555555 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 173 tl 174
+                           t+
+  sp|A7YY73|MAFF_BOVIN 138 TI 139
+                           55 PP
+
+>> sp|Q8PY58|PSMR_METMA  Proteasome-activating nucleotidase OS=Methanosarcina mazei GN=pan PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    6.0   0.1     0.075   1.9e+02     110     154 ..      26      70 ..      22      95 .. 0.82
+   2 ?    5.0   0.0      0.15   3.8e+02     115     194 ..     255     332 ..     236     374 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 6.0 bits;  conditional E-value: 0.075
+  sp|Q1XGE2|HAC1_ASPOR 110 klenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsr 154
+                            ++++  qle +n fl +++sq+e+e + l  q  +   e+r  +
+  sp|Q8PY58|PSMR_METMA  26 SVQDRVRQLESRNSFLEEQCSQIESEKRYLENQKIKYEREIRKLQ 70 
+                           566677799*********************999999999998655 PP
+
+  == domain 2    score: 5.0 bits;  conditional E-value: 0.15
+  sp|Q1XGE2|HAC1_ASPOR 115 kiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasp.tltptlfkqerdelpleripfptpsl 194
+                            i +++ + +  +rl++  + ++ +++ l ql ae+ g   +  +    at  p  l p + +  r +  l ++p+p   +
+  sp|Q8PY58|PSMR_METMA 255 IIFIDELDSIAARRLNETTGADREVQRTLMQLLAEMDGFDKRKNIRIIAATNRPdVLDPAILRPGRFDR-LVHVPMPG--I 332
+                           4567778888999*******9*****************8777777778888888358899999998764.55666664..3 PP
+
+>> sp|Q56TN0|FOS_PHORO  Proto-oncogene c-Fos OS=Phodopus roborovskii GN=FOS PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.4    0.0012       3.2      79     142 ..     134     196 ..     118     251 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.0012
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqq 142
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   
+   sp|Q56TN0|FOS_PHORO 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFI 196
+                           467788999885.899888899999999899**********99988888888777777666555 PP
+
+>> sp|P23050|FOS_AVINK  p55-v-Fos-transforming protein OS=Avian retrovirus NK24 GN=V-FOS PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.8    0.0011       2.8      79     140 ..      88     148 ..      41     168 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0011
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrls 140
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l 
+   sp|P23050|FOS_AVINK  88 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEEEKSALQAEIANLLKEKEKLE 148
+                           467788999885.899889999999999999**********999888888877777766665 PP
+
+>> sp|Q9LES3|AI5L2_ARATH  ABSCISIC ACID-INSENSITIVE 5-like protein 2 OS=Arabidopsis thaliana GN=DPBF3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   1.6    0.0011       2.8      68     126 ..     207     268 ..     199     276 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0011
+   sp|Q1XGE2|HAC1_ASPOR  68 tnlpprkrakted...ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfll 126
+                            t+ p rkr  + +   +  +rr +r+++nr +a  sr rk+   + le +  +le++n+ l 
+  sp|Q9LES3|AI5L2_ARATH 207 TQTPGRKRVASGEvveKTVERRQKRMIKNRESAARSRARKQAYTHELEIKVSRLEEENERLR 268
+                            77899999766542214458999**************************9999**9998765 PP
+
+>> sp|Q84JK2|FD_ARATH  Protein FD OS=Arabidopsis thaliana GN=FD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   1.8    0.0014       3.5      66     133 ..     197     264 ..     188     281 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0014
+  sp|Q1XGE2|HAC1_ASPOR  66 pktnlpprkraktede.keqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqle 133
+                           p +++  +kr++  +e    rr +r+++nr +a  sr rk+     le e  +l+ +n  l ++ +ql+
+    sp|Q84JK2|FD_ARATH 197 PSSSFG-KKRGQDSNEgSGNRRHKRMIKNRESAARSRARKQAYTNELELEVAHLQAENARLKRQQDQLK 264
+                           555554.455554444167899**************************999999999998877777664 PP
+
+>> sp|A5PJV0|MAFG_BOVIN  Transcription factor MafG OS=Bos taurus GN=MAFG PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   0.5    0.0009       2.3      84     151 ..      52     119 ..      30     144 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.0009
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevr 151
+                            ++ +r l+nr+ a ++r ++  + e le +k +l+q+ + l    + ++ e + l  +   l    r
+  sp|A5PJV0|MAFG_BOVIN  52 LKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASMKLELDALRSKYEALQNFAR 119
+                           3444699************9999***************999999988888888877665544443333 PP
+
+>> sp|O54790|MAFG_MOUSE  Transcription factor MafG OS=Mus musculus GN=Mafg PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.3   0.5    0.0009       2.3      84     151 ..      52     119 ..      30     144 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 12.3 bits;  conditional E-value: 0.0009
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevr 151
+                            ++ +r l+nr+ a ++r ++  + e le +k +l+q+ + l    + ++ e + l  +   l    r
+  sp|O54790|MAFG_MOUSE  52 LKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASMKLELDALRSKYEALQNFAR 119
+                           3444699************9999***************999999988888888877665544443333 PP
+
+>> sp|Q39234|TGA3_ARATH  Transcription factor TGA3 OS=Arabidopsis thaliana GN=TGA3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   1.9    0.0014       3.4      77     131 ..      90     144 ..      82     161 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0014
+  sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                           + ed+  ++  +r+ +nr aa+ sr rk+ ++++le  +++l q  q l++  +q
+  sp|Q39234|TGA3_ARATH  90 QDEDRINDKMKRRLAQNREAARKSRLRKKAHVQQLEESRLKLSQLEQELVRARQQ 144
+                           456666677778899*****************************99988876555 PP
+
+>> sp|P07049|CPPB_NEIGO  Cryptic plasmid protein B OS=Neisseria gonorrhoeae GN=cppB PE=4 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   1.0    0.0013       3.3     108     151 ..     147     194 ..     122     204 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 11.8 bits;  conditional E-value: 0.0013
+  sp|Q1XGE2|HAC1_ASPOR 108 leklenekiqleqqnq....fllqrlsqleaennrlsqqlaqlaaevr 151
+                           l  le+    +eq+ +     l +rl++le en  l+qqla laae+ 
+  sp|P07049|CPPB_NEIGO 147 LAELESNHAAIEQRMMkaltHLGERLAELEQENTSLAQQLASLAAELE 194
+                           5566666666666554111156689********************984 PP
+
+>> sp|P11939|FOS_CHICK  Proto-oncogene c-Fos OS=Gallus gallus GN=FOS PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.6   0.9    0.0015       3.8      79     140 ..     133     193 ..      88     212 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 11.6 bits;  conditional E-value: 0.0015
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrls 140
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l 
+   sp|P11939|FOS_CHICK 133 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEEEKSALQAEIANLLKEKEKLE 193
+                           467788999885.899889999999999999**********999888888877777666665 PP
+
+>> sp|P29176|FOSX_MSVFR  Transforming protein v-Fos/v-Fox OS=FBR murine osteosarcoma virus GN=FOS-FOX PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.0    0.0011       2.9      80     144 ..     111     174 ..      54     239 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0011
+  sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                           +e  +rri+r  rn+ aa  +r r+r   + l+ e  qle++   l   ++ l  e  +l   la
+  sp|P29176|FOSX_MSVFR 111 EEEVKRRIRR-ERNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILA 174
+                           4555788877.5899999999999999999**********9999988888888877777766555 PP
+
+>> sp|O54791|MAFF_MOUSE  Transcription factor MafF OS=Mus musculus GN=Maff PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.0   0.6    0.0011       2.9      84     168 ..      52     133 ..      32     154 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 12.0 bits;  conditional E-value: 0.0011
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasp 168
+                            ++ +r l+nr+ a ++r ++ ++ e l+ +k +le++ + l +  + ++ e + l  ++  l +  r   a     g  a  +p
+  sp|O54791|MAFF_MOUSE  52 LKQRRRTLKNRGYAASCRVKRVCQKEELQKQKSELEREVDKLARENAAMRLELDALRGKCEALQGFARSVAA---ARGPAALVAP 133
+                           3444699*******************************9999999999999888887666655554443322...2233333444 PP
+
+>> sp|Q8TI88|PSMR_METAC  Proteasome-activating nucleotidase OS=Methanosarcina acetivorans GN=pan PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    6.0   0.1     0.075   1.9e+02     110     154 ..      26      70 ..      22      95 .. 0.82
+   2 ?    4.1   0.0      0.28   7.1e+02     115     190 ..     255     330 ..     236     363 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 6.0 bits;  conditional E-value: 0.075
+  sp|Q1XGE2|HAC1_ASPOR 110 klenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsr 154
+                            ++++  qle +n fl +++sq+e+e + l  q  +   e+r  +
+  sp|Q8TI88|PSMR_METAC  26 SVQDRVRQLESRNSFLEEQCSQIESEKRYLENQKIKYEREIRKLQ 70 
+                           566677799*********************999999999998655 PP
+
+  == domain 2    score: 4.1 bits;  conditional E-value: 0.28
+  sp|Q1XGE2|HAC1_ASPOR 115 kiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasp.tltptlfkqerdelpleripfp 190
+                            i +++ + +  +rl++  + ++ +++ l ql ae+ g   +  +    at  p  l p + +  r +  l ++p+p
+  sp|Q8TI88|PSMR_METAC 255 IIFIDELDSIAARRLNETTGADREVQRTLMQLLAEMDGFDKRKNIRIIAATNRPdVLDPAILRPGRFDR-LVHVPMP 330
+                           4567778888999******999****************8777777777888887357899999988764.5566665 PP
+
+>> sp|O08750|NFIL3_MOUSE  Nuclear factor interleukin-3-regulated protein OS=Mus musculus GN=Nfil3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.3    0.0021       5.5      69     129 ..      58     119 ..      51     142 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.0021
+   sp|Q1XGE2|HAC1_ASPOR  69 nlpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrl 129
+                            +   rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l
+  sp|O08750|NFIL3_MOUSE  58 SACRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDLVLENKLIALGEENATLKAEL 119
+                            5567899999998766155789999**************************99998876655 PP
+
+>> sp|Q76MX4|MAFG_RAT  Transcription factor MafG OS=Rattus norvegicus GN=Mafg PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.7   0.5    0.0013       3.4      84     149 ..      79     144 ..      57     170 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 11.7 bits;  conditional E-value: 0.0013
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaae 149
+                            ++ +r l+nr+ a ++r ++  + e le +k +l+q+ + l    + ++ e + l  +   l   
+    sp|Q76MX4|MAFG_RAT  79 LKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASMKLELDALRSKYEALQNF 144
+                           3444699************9999***************9999998888888888776655444433 PP
+
+>> sp|P20482|CNC_DROME  Segmentation protein cap'n'collar OS=Drosophila melanogaster GN=cnc PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.9   0.8    0.0025       6.4      85     152 ..    1197    1264 ..    1154    1284 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.9 bits;  conditional E-value: 0.0025
+  sp|Q1XGE2|HAC1_ASPOR   85 rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrg 152 
+                            r i+r  +n+ aaq +r+rk  ++  le+e   + ++   l q  ++le+e+ r+s ++a+l  +v  
+   sp|P20482|CNC_DROME 1197 RDIRRRGKNKVAAQNCRKRKLDQILTLEDEVNAVVKRKTQLNQDRDHLESERKRISNKFAMLHRHVFQ 1264
+                            67889999**********************988888888899999****************9988754 PP
+
+>> sp|Q90Z72|NFIL3_CHICK  Nuclear factor interleukin-3-regulated protein OS=Gallus gallus GN=NFIL3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.2    0.0021       5.3      70     130 ..      59     120 ..      54     145 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.0021
+   sp|Q1XGE2|HAC1_ASPOR  70 lpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrls 130
+                               rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l 
+  sp|Q90Z72|NFIL3_CHICK  59 ACRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDLVLENKLIALGEENATLKAELL 120
+                            557899999898766155789999**************************999988766655 PP
+
+>> sp|Q9VWW0|CREBB_DROME  Cyclic AMP response element-binding protein B OS=Drosophila melanogaster GN=CrebB-17A PE=1 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   1.7    0.0022       5.6      78     131 ..     296     348 ..     289     355 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.0022
+   sp|Q1XGE2|HAC1_ASPOR  78 tedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                             ed+ ++r i r+ +nr aa+ +r++k+  ++ len+   le qn+ l++ l  
+  sp|Q9VWW0|CREBB_DROME 296 AEDQTRKREI-RLQKNREAARECRRKKKEYIKCLENRVAVLENQNKALIEELKS 348
+                            4666666555.899***********99999******************998865 PP
+
+>> sp|Q8BKJ9|SIRT7_MOUSE  NAD-dependent deacetylase sirtuin-7 OS=Mus musculus GN=Sirt7 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.2   1.4    0.0019       4.9      74     164 ..      19     111 ..      12     174 .. 0.75
+
+  Alignments for each domain:
+  == domain 1    score: 11.2 bits;  conditional E-value: 0.0019
+   sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeq.rriervlrnraaaqtsrerkrl..eleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantp 158
+                            +r + e+++e+ r++ r+lr  aa + s e  rl  e e l  e     ++++ l +r  ++  +   l +++ +la+ vr +r    
+  sp|Q8BKJ9|SIRT7_MOUSE  19 RRLREEQQRERlRQVSRILRKAAAER-SAEEGRLlaESEDLVTELQGRSRRREGLKRRQEEVCDDPEELRRKVRELAGAVRSARHLVV 105
+                            4556666666547899***9766555.55555542477889988777888888899999999899999**************998777 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 159 lpgspa 164
+                              g+  
+  sp|Q8BKJ9|SIRT7_MOUSE 106 YTGAGI 111
+                            766654 PP
+
+>> sp|Q56TT7|FOS_PHOCM  Proto-oncogene c-Fos OS=Phodopus campbelli GN=FOS PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.9   0.1    0.0025       6.3      79     144 ..     134     198 ..     118     301 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 10.9 bits;  conditional E-value: 0.0025
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqla 144
+                            +e e+rri+r  rn+ aa  +r r+r   + l+ e  +le++   l   ++ l  e  +l   la
+   sp|Q56TT7|FOS_PHOCM 134 PEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDHLEDEKSALQTEIANLLKEKEKLEFILA 198
+                           467788999885.88888889999999889999999999999998888888888888777766655 PP
+
+>> sp|Q6IMZ0|NFIL3_RAT  Nuclear factor interleukin-3-regulated protein OS=Rattus norvegicus GN=Nfil3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.3    0.0023       5.8      69     129 ..      58     119 ..      51     140 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.0023
+  sp|Q1XGE2|HAC1_ASPOR  69 nlpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrl 129
+                           +   rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l
+   sp|Q6IMZ0|NFIL3_RAT  58 SACRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDLVLENKLIALGEENATLKAEL 119
+                           5567899999998766155789999**************************99998776655 PP
+
+>> sp|P38749|YAP3_YEAST  AP-1-like transcription factor YAP3 OS=Saccharomyces cerevisiae GN=YAP3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   1.6   0.00037      0.94      81     140 ..     142     201 ..     127     211 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 13.6 bits;  conditional E-value: 0.00037
+  sp|Q1XGE2|HAC1_ASPOR  81 ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrls 140
+                             ++ + ++  +nraa +  rerk  +++ l+++ ++ e+ +q ll+ + +l+  n  ++
+  sp|P38749|YAP3_YEAST 142 VPDDSKAKKKAQNRAAQKAFRERKEARMKELQDKLLESERNRQSLLKEIEELRKANTEIN 201
+                           555666777889*************************************99998887765 PP
+
+>> sp|Q08D88|NFIL3_BOVIN  Nuclear factor interleukin-3-regulated protein OS=Bos taurus GN=NFIL3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.2    0.0022       5.5      70     129 ..      59     119 ..      52     142 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.0022
+   sp|Q1XGE2|HAC1_ASPOR  70 lpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrl 129
+                               rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l
+  sp|Q08D88|NFIL3_BOVIN  59 ACRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDLVLENKLIALGEENATLKAEL 119
+                            567899999898766155789999**************************99998876655 PP
+
+>> sp|Q16649|NFIL3_HUMAN  Nuclear factor interleukin-3-regulated protein OS=Homo sapiens GN=NFIL3 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.3    0.0023       5.9      70     129 ..      59     119 ..      52     141 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.0023
+   sp|Q1XGE2|HAC1_ASPOR  70 lpprkraktedekeq.rriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrl 129
+                               rkr    dek++    e+  +n  aa+ sre++rl    len+ i l ++n  l   l
+  sp|Q16649|NFIL3_HUMAN  59 ACRRKREFIPDEKKDaMYWEKRRKNNEAAKRSREKRRLNDLVLENKLIALGEENATLKAEL 119
+                            567899999898766155789999**************************99998876655 PP
+
+>> sp|Q9C7S0|BZI60_ARATH  bZIP transcription factor 60 OS=Arabidopsis thaliana GN=BZIP60 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   2.1    0.0026       6.6      80     142 ..     137     199 ..     132     215 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.0026
+   sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqq 142
+                            d+   ++ +r +rnr aa  srerk+  ++ le +   le++   l + l  + aen+ l   
+  sp|Q9C7S0|BZI60_ARATH 137 DDAVAKKRRRRVRNRDAAVRSRERKKEYVQDLEKKSKYLERECLRLGRMLECFVAENQSLRYC 199
+                            444455556778**********************99999999988888888899999877654 PP
+
+>> sp|P78962|ATF21_SCHPO  Transcription factor atf21 OS=Schizosaccharomyces pombe GN=atf21 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.6    0.0022       5.5      74     143 ..     261     327 ..     237     343 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.0022
+   sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenek.iqleqqnqfllqrlsqleaennrlsqql 143
+                                t d k++r +e   rnr aa  +r++k+l  + le    i +e q++ l   +sql+ e   l  ql
+  sp|P78962|ATF21_SCHPO 261 SNNETPDMKRRRFLE---RNRIAASKCRQKKKLWTQNLEKTAhIACE-QSKALRILVSQLREEVICLKNQL 327
+                            455677777666666...7*******************986515555.56667777899888877776654 PP
+
+>> sp|Q1LZH5|CREM_BOVIN  cAMP-responsive element modulator OS=Bos taurus GN=CREM PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.1    0.0027       6.9      80     130 ..     299     349 ..     227     355 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.0027
+  sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrls 130
+                           +e  ++r  r+++nr aa+ +r+rk+  ++ le++   le qn+ l++ l 
+  sp|Q1LZH5|CREM_BOVIN 299 EEATRKRELRLMKNREAAKECRRRKKEYVKCLESRVAVLEVQNKKLIEELE 349
+                           4556677789****************99*******99*******9998876 PP
+
+>> sp|B1MX63|THIE_LEUCK  Thiamine-phosphate pyrophosphorylase OS=Leuconostoc citreum (strain KM20) GN=thiE PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.0    0.0029       7.3     189     227 ..     139     177 ..     130     187 .. 0.91
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.0029
+  sp|Q1XGE2|HAC1_ASPOR 189 fptpslsdysptlkpstlaessdvaqhpavsvaglegdg 227
+                           f t s sd  p +  s l++   +a+hp v+++g++ d 
+  sp|B1MX63|THIE_LEUCK 139 FATTSKSDAKPPIGISGLSQLIRIAHHPIVAIGGIQRDN 177
+                           8999********************************996 PP
+
+>> sp|Q5AVK6|NOP16_EMENI  Nucleolar protein 16 OS=Emericella nidulans GN=nop16 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   2.0    0.0026       6.7      29     114 ..     136     219 ..     127     236 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.0026
+   sp|Q1XGE2|HAC1_ASPOR  29 spadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprk...raktedekeqrriervlrnraaaqtsrerkrleleklen 113
+                            +p +  ln+      e+kp+ kk a +     q+l +   n+ p+k   ++k e+e   r ie+   n aa   +r+rk   +++ e+
+  sp|Q5AVK6|NOP16_EMENI 136 NPLNDPLNDLSDNEPEIKPQVKKAANQ---IVQQLEIQADNVAPKKprhQSKREEEWITRLIEKHGDNYAA--MARDRKLNPMQQTEG 218
+                            688888999888999******999876...46999999999987552114555666666666666656554..579999999998887 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 114 e 114
+                            +
+  sp|Q5AVK6|NOP16_EMENI 219 D 219
+                            6 PP
+
+>> sp|Q9ULX9|MAFF_HUMAN  Transcription factor MafF OS=Homo sapiens GN=MAFF PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.1   0.7    0.0022       5.5      84     152 ..      52     120 ..      32     144 .. 0.74
+
+  Alignments for each domain:
+  == domain 1    score: 11.1 bits;  conditional E-value: 0.0022
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrg 152
+                            ++ +r l+nr+ a ++r ++ ++ e l+ +k +le++ + l +  + ++ e + l  ++  l +  r 
+  sp|Q9ULX9|MAFF_HUMAN  52 LKQRRRTLKNRGYAASCRVKRVCQKEELQKQKSELEREVDKLARENAAMRLELDALRGKCEALQGFARS 120
+                           3444699******************************99999999888988888877665555444443 PP
+
+>> sp|P53567|CEBPG_HUMAN  CCAAT/enhancer-binding protein gamma OS=Homo sapiens GN=CEBPG PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.0   0.3    0.0023       5.7      90     147 ..      58     112 ..      21     117 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 11.0 bits;  conditional E-value: 0.0023
+   sp|Q1XGE2|HAC1_ASPOR  90 vlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqla 147
+                            + rn    +  rer  + ++     +++ +q+ q  lqr++ql+ en rl  ++  l 
+  sp|P53567|CEBPG_HUMAN  58 MDRNSDEYRQRRERNNMAVK---KSRLKSKQKAQDTLQRVNQLKEENERLEAKIKLLT 112
+                            55565555566666666554...56888999999****************98887665 PP
+
+>> sp|Q2V2M9|FHOD3_HUMAN  FH1/FH2 domain-containing protein 3 OS=Homo sapiens GN=FHOD3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.2   0.3    0.0081        21      56     167 ..     412     524 ..     366     535 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 9.2 bits;  conditional E-value: 0.0081
+   sp|Q1XGE2|HAC1_ASPOR  56 rkswgqelpv.pktnlpprkraktedekeqrriervlrnr.aaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                            r s g  +p  p +++ p + a+ e       +   +r++  +    rer+r e e  + ++i+ e++n+f  + l ql ae +    
+  sp|Q2V2M9|FHOD3_HUMAN 412 RPSSGSSVPTtPTSSVSPPQEARWERSSPSGLLTSSFRQHqESLAAERERRRQEREE-RLQRIEREERNKFRYKYLEQLAAEEHEKEL 498
+                            566677777525556777778888888877777776665414556779999998876.4579*****************999875433 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 142 qlaqlaaevrgsrantplpgspatas 167
+                            +   ++        +   p +pa+ +
+  sp|Q2V2M9|FHOD3_HUMAN 499 RSRSVSRGRADLSLDLTSPAAPACLA 524
+                            32222222222223444455555554 PP
+
+>> sp|Q03060|CREM_HUMAN  cAMP-responsive element modulator OS=Homo sapiens GN=CREM PE=1 SV=5
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.7   0.1    0.0028       7.1      80     130 ..     299     349 ..     230     355 .. 0.89
+
+  Alignments for each domain:
+  == domain 1    score: 10.7 bits;  conditional E-value: 0.0028
+  sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrls 130
+                           +e  ++r  r+++nr aa+ +r+rk+  ++ le++   le qn+ l++ l 
+  sp|Q03060|CREM_HUMAN 299 EEATRKRELRLMKNREAAKECRRRKKEYVKCLESRVAVLEVQNKKLIEELE 349
+                           4556677789****************99*******99*******9998876 PP
+
+>> sp|O68007|BACB_BACLI  Bacitracin synthase 2 OS=Bacillus licheniformis GN=bacB PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.0   0.1    0.0045        11     181     256 ..     353     428 ..     325     464 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 10.0 bits;  conditional E-value: 0.0045
+  sp|Q1XGE2|HAC1_ASPOR 181 elpleripfptpslsdysptlkpstla..essdvaqhpavsvaglegdgsalplfdlgsdlkhhstddvaaplsdddf 256
+                            l l+  p    ++s+y  t+k +tl   e++d      +   gl  d s  plfd   dl+h   dd+a+  +   f
+  sp|O68007|BACB_BACLI 353 TLALRNRPKGNMTFSEYVQTVKNNTLKayENQDYQFDALIEHLGLTHDMSRNPLFDTMFDLQH--ADDFASEAGGGHF 428
+                           5778888888999************95347888888888999*******************99..5788876665555 PP
+
+>> sp|Q5VPE3|HOX2_ORYSJ  Homeobox-leucine zipper protein HOX2 OS=Oryza sativa subsp. japonica GN=HOX2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.6   0.4     0.003       7.6     106     251 ..     160     302 ..     135     307 .. 0.63
+
+  Alignments for each domain:
+  == domain 1    score: 10.6 bits;  conditional E-value: 0.003
+  sp|Q1XGE2|HAC1_ASPOR 106 leleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa.evr..gsrantplpgspatasptltptlfkqerdelpleripfpt 191
+                           ++ ++ + +  q e + ++l + + +l  en rl ++la+l a +     + a+  +p s a a+ t++p++ +      p        
+  sp|Q5VPE3|HOX2_ORYSJ 160 FQNRRARTKLKQTEVDCEYLKRWCERLADENKRLEKELADLRAlKAApsPASASAMQPSSSAAATLTMCPSCRRVATAGAPH------Q 242
+                           44444444444666677788888888999**********9976233311445677889999999999999876655444443......3 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 192 pslsdysptlkpstlaessdvaqhpavsvag...legdgsalplfdlgsdlkhhstddvaapl 251
+                           p+ ++  p    +t++ ss  a   av+vag   l    + +p     +d   +st + aapl
+  sp|Q5VPE3|HOX2_ORYSJ 243 PNHQQCHPKS-NTTISSSSTAA--AAVAVAGgnvLPSHCQFFPAAAAAADRTSQSTWNAAAPL 302
+                           5556666643.34555555544..456666633345555666666677788888888888887 PP
+
+>> sp|Q84U86|HOX2_ORYSI  Homeobox-leucine zipper protein HOX2 OS=Oryza sativa subsp. indica GN=HOX2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.6   0.4     0.003       7.6     106     251 ..     160     302 ..     135     307 .. 0.63
+
+  Alignments for each domain:
+  == domain 1    score: 10.6 bits;  conditional E-value: 0.003
+  sp|Q1XGE2|HAC1_ASPOR 106 leleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaa.evr..gsrantplpgspatasptltptlfkqerdelpleripfpt 191
+                           ++ ++ + +  q e + ++l + + +l  en rl ++la+l a +     + a+  +p s a a+ t++p++ +      p        
+  sp|Q84U86|HOX2_ORYSI 160 FQNRRARTKLKQTEVDCEYLKRWCERLADENKRLEKELADLRAlKAApsPASASAMQPSSSAAATLTMCPSCRRVATAGAPH------Q 242
+                           44444444444666677788888888999**********9976233311445677889999999999999876655444443......3 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 192 pslsdysptlkpstlaessdvaqhpavsvag...legdgsalplfdlgsdlkhhstddvaapl 251
+                           p+ ++  p    +t++ ss  a   av+vag   l    + +p     +d   +st + aapl
+  sp|Q84U86|HOX2_ORYSI 243 PNHQQCHPKS-NTTISSSSTAA--AAVAVAGgnvLPSHCQFFPAAAAAADRTSQSTWNAAAPL 302
+                           5556666643.34555555544..456666633345555666666677788888888888887 PP
+
+>> sp|Q65US7|THIE_MANSM  Thiamine-phosphate pyrophosphorylase OS=Mannheimia succiniciproducens (strain MBEL55E) GN=thiE 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.0    0.0026       6.6     135     238 ..      95     196 ..      54     199 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.0026
+  sp|Q1XGE2|HAC1_ASPOR 135 ennrlsqqlaqlaaevrgsrantplpgspatasptltptlfkqerdelpleri.p.fptpslsdysptlkpstlaessdva.qhpavsv 220
+                           ++ +++q+   +   +r +r n p+ g       tl   l  ++r+++    + p fpt s +d+sp +  + + +  +++ + p+v++
+  sp|Q65US7|THIE_MANSM  95 DGIHVGQKDTAVETILRNTR-NKPIIGLS---INTLAQALANKDRQDIDYFGVgPiFPTNSKADHSPLVGMNFIRQIRQLGiDKPCVAI 179
+                           55555555555555555554.67777754...457777777777777776655324*******************999986378***** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 221 aglegdgsalplfdlgsd 238
+                           +g++ + +a+ l  lg+d
+  sp|Q65US7|THIE_MANSM 180 GGIKEESAAI-LRRLGAD 196
+                           ***9876665.6777776 PP
+
+>> sp|P07948|LYN_HUMAN  Tyrosine-protein kinase Lyn OS=Homo sapiens GN=LYN PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.2    0.0034       8.6      36      87 ..      15      67 ..       7      73 .. 0.84
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.0034
+  sp|Q1XGE2|HAC1_ASPOR 36 nsadvktqevkpeekkp.akkrkswgqelpvpktnlpprkraktedekeqrri 87
+                          ++ d+ktq v+  e+    +   s  q+ pvp ++l p +r +t+d  eq  i
+   sp|P07948|LYN_HUMAN 15 DGVDLKTQPVRNTERTIyVRDPTSNKQQRPVPESQLLPGQRFQTKDPEEQGDI 67
+                          5689*******9888761566678889********************999765 PP
+
+>> sp|Q16534|HLF_HUMAN  Hepatic leukemia factor OS=Homo sapiens GN=HLF PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.4   4.3   0.00042       1.1      21     145 ..     163     287 ..     141     293 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 13.4 bits;  conditional E-value: 0.00042
+  sp|Q1XGE2|HAC1_ASPOR  21 sevpvltvspadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrlele 109
+                              p     p     + ad+    +  +e    +krk   +el         rk    +d k+++   r  +n  aa+ sr+ +rl+  
+   sp|Q16534|HLF_HUMAN 163 PIDPDTIQVPVGYEPDPADLALSSIPGQEMFDPRKRKFSEEELKPQPMIKKARKVFIPDDLKDDKYWARRRKNNMAAKRSRDARRLKEN 251
+                           3334444457777778888888999999998889999888888533334467888889999**************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 110 klenekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                           ++  +   le++n  l q +++l+ e +++   la+
+   sp|Q16534|HLF_HUMAN 252 QIAIRASFLEKENSALRQEVADLRKELGKCKNILAK 287
+                           ********************9999998888777776 PP
+
+>> sp|Q9XGJ4|GGM13_GNEGN  MADS-box protein GGM13 OS=Gnetum gnemon GN=GGM13 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.8   0.6    0.0026       6.6      74     147 ..      92     165 ..      75     230 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.8 bits;  conditional E-value: 0.0026
+   sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenekiql.eqqnqfllqrlsqleaennrlsqqlaqla 147
+                             r k e+ek q  i+r++     + t  e  +l + +le+   ++  ++nq +lq+l  l+ + + l +q ++l+
+  sp|Q9XGJ4|GGM13_GNEGN  92 TRMKNENEKLQTNIRRMMGEDLTSLTMTELHHLGQ-QLESASSRVrSRKNQLMLQQLENLRRKERILEDQNSHLC 165
+                            689**************************999975.57766555415789*****99988777666665544333 PP
+
+>> sp|P27921|JUND_CHICK  Transcription factor jun-D OS=Gallus gallus GN=JUND PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.4    0.0036       9.2      71     139 ..     230     298 ..     195     308 .. 0.70
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.0036
+  sp|Q1XGE2|HAC1_ASPOR  71 pprkraktedekeqrrier.vlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrl 139
+                           pp       d +e+ + er  lrnr aa  +r+rk  ++ +le +   l+ qn  l    s l+ +  +l
+  sp|P27921|JUND_CHICK 230 PPLSPI-DMDTQERIKAERkRLRNRIAASKCRKRKLERISRLEEKVKSLKSQNTELASTASLLREQVAQL 298
+                           333333.344555555555269************999999999777778999987776666655554444 PP
+
+>> sp|Q5XHX8|THEG_RAT  Testicular haploid expressed gene protein OS=Rattus norvegicus GN=Theg PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   0.7    0.0034       8.8     117     205 ..     218     300 ..     182     318 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.0034
+  sp|Q1XGE2|HAC1_ASPOR 117 qleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspatasptltptlfkqerdelpleripfptpslsdysptlkpst 205
+                            le q    l+rl+  + +nn  s  +++++   r ++   p p +   a p    tl  +e d +     p p p +sdy+  l+ +t
+    sp|Q5XHX8|THEG_RAT 218 TLEYQASNRLKRLATPKIRNNIWSINMSEVSQVSRAAQMAVPTPRTLRLAKPRAPATLL-EEWDPM-----PKPKPYVSDYNRLLQLAT 300
+                           45556666799*****************************************9877776.567755.....679999****99887655 PP
+
+>> sp|P18847|ATF3_HUMAN  Cyclic AMP-dependent transcription factor ATF-3 OS=Homo sapiens GN=ATF3 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   1.6    0.0034       8.7      76     158 ..      82     163 ..      71     168 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.0034
+  sp|Q1XGE2|HAC1_ASPOR  76 aktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqql..aqlaaevrgsrantp 158
+                           a  ede+++rr e   rn+ aa  +r +k+ + e l+ e  +le  n  l  ++ +l+ e ++l  +l   +  + vr + ++tp
+  sp|P18847|ATF3_HUMAN  82 APEEDERKKRRRE---RNKIAAAKCRNKKKEKTECLQKESEKLESVNAELKAQIEELKNEKQHLIYMLnlHRPTCIVRAQNGRTP 163
+                           4456666666655...7999999***************************99999999999988765411455666777777776 PP
+
+>> sp|P24068|OCS1_MAIZE  Ocs element-binding factor 1 OS=Zea mays GN=OBF1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.4   3.8    0.0034       8.7      84     149 ..      25      90 ..      12     101 .. 0.77
+
+  Alignments for each domain:
+  == domain 1    score: 10.4 bits;  conditional E-value: 0.0034
+  sp|Q1XGE2|HAC1_ASPOR  84 qrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaae 149
+                           +rr +r l nr +a+ sr rk+ +l+ l +e  +l+ +n  +  r  ++ ++  r+ q+   l a+
+  sp|P24068|OCS1_MAIZE  25 HRREKRRLSNRESARRSRLRKQQHLDELVQEVARLQADNARVAARARDIASQYTRVEQENTVLRAR 90 
+                           577778888999999999999999999999988888888888888888888888888876655543 PP
+
+>> sp|P20393|NR1D1_HUMAN  Nuclear receptor subfamily 1 group D member 1 OS=Homo sapiens GN=NR1D1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.1   4.2    0.0043        11      83     197 ..     173     288 ..     159     298 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 10.1 bits;  conditional E-value: 0.0043
+   sp|Q1XGE2|HAC1_ASPOR  83 eqrriervlrnraaaqtsrerkrlel....eklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrantplpgspat. 165
+                            e   i r+ rnr+  q +r +k l +    + ++  +i  ++++++l +  s +   nn+ls q+     e   ++  tp p +p+  
+  sp|P20393|NR1D1_HUMAN 173 ENCSIVRINRNRC--QQCRFKKCLSVgmsrDAVRFGRIPKREKQRMLAEMQSAMNLANNQLSSQC---PLETSPTQHPTPGPMGPSPp 255
+                            5556778888875..66777776654111145677788888888889999999999999999875...45666667777777666541 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 166 asptltptl.fkqerdelpleripfptpslsdy 197
+                             +p  +p + f q  ++l   r p p p++ d 
+  sp|P20393|NR1D1_HUMAN 256 PAPVPSPLVgFSQFPQQLTPPRSPSPEPTVEDV 288
+                            4577777655999999************99885 PP
+
+>> sp|P13346|FOSB_MOUSE  Protein fosB OS=Mus musculus GN=Fosb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.2   8.1    0.0039        10      69     164 ..     142     236 ..     130     297 .. 0.72
+
+  Alignments for each domain:
+  == domain 1    score: 10.2 bits;  conditional E-value: 0.0039
+  sp|Q1XGE2|HAC1_ASPOR  69 nlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsrant 157
+                              pr    t +e e+rr++r  rn+ aa  +r r+r   ++l+ e  qle++   l   +++l+ e  rl   l      ++      
+  sp|P13346|FOSB_MOUSE 142 PRRPREETLTPEEEEKRRVRRE-RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGCKIPYEEG 229
+                           445788888999999***9885.89999999999999999*****************************99877655444444444455 PP
+
+  sp|Q1XGE2|HAC1_ASPOR 158 plpgspa 164
+                           p pg  a
+  sp|P13346|FOSB_MOUSE 230 PGPGPLA 236
+                           5555544 PP
+
+>> sp|P42775|GBF2_ARATH  G-box-binding factor 2 OS=Arabidopsis thaliana GN=GBF2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.8   1.5    0.0051        13      80     152 ..     246     322 ..     236     329 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 9.8 bits;  conditional E-value: 0.0051
+  sp|Q1XGE2|HAC1_ASPOR  80 dekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqq....laqlaaevrg 152
+                           +eke +r +r   nr +a+ sr rk+ e e+l  +   l  +n+ l  +l+ql  e+ +l  +    l ql a+  g
+  sp|P42775|GBF2_ARATH 246 NEKEVKREKRKQSNRESARRSRLRKQAETEQLSVKVDALVAENMSLRSKLGQLNNESEKLRLEneaiLDQLKAQATG 322
+                           79999***************************998889999***********9877665543211224566666655 PP
+
+>> sp|Q09926|PCR1_SCHPO  Transcription factor pcr1 OS=Schizosaccharomyces pombe GN=pcr1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.2   7.9    0.0079        20      74     145 ..       4      73 ..       1     169 [. 0.60
+
+  Alignments for each domain:
+  == domain 1    score: 9.2 bits;  conditional E-value: 0.0079
+  sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqql.aq 145
+                           k+   +dek++r +e   rnr aa   r++k+  ++ le+      +q++ l   lsql+ e  rl  ql a+
+  sp|Q09926|PCR1_SCHPO   4 KKKEVDDEKRRRILE---RNRIAASKFRQKKKEWIKELEQTANAAFEQSKRLQLLLSQLQQEAFRLKSQLlAH 73 
+                           445567777666555...7***********9987777776665555555555556777777777776554122 PP
+
+>> sp|P24813|YAP2_YEAST  AP-1-like transcription activator YAP2 OS=Saccharomyces cerevisiae GN=CAD1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.0   1.5    0.0045        11      64     121 ..      29      80 ..      15     105 .. 0.73
+
+  Alignments for each domain:
+  == domain 1    score: 10.0 bits;  conditional E-value: 0.0045
+  sp|Q1XGE2|HAC1_ASPOR  64 pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqq 121
+                           p  k + p rkr  +e   + r   r  +nraa +  r+rk  +++ l+  +++l +q
+  sp|P24813|YAP2_YEAST  29 PKRKVGRPGRKRIDSE--AKSR---RTAQNRAAQRAFRDRKEAKMKSLQE-RVELLEQ 80 
+                           5566777888876544..3334...6789****************99974.5544333 PP
+
+>> sp|Q64709|HLF_RAT  Hepatic leukemia factor OS=Rattus norvegicus GN=Hlf PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.5   4.4   0.00076       1.9      24     145 ..     166     287 ..     141     293 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 12.5 bits;  conditional E-value: 0.00076
+  sp|Q1XGE2|HAC1_ASPOR  24 pvltvspadtslnsadvktqevkpeekkpakkrkswgqel.pvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrlelekl 111
+                           p     p     + ad+    +   e    +krk   +el p p      rk    +d k+++   r  +n  aa+ sr+ +rl+  ++
+     sp|Q64709|HLF_RAT 166 PDTIQVPVGYEPDPADLALSSIPGPEMFDPRKRKFSEEELkPQPMI-KKARKVFIPDDLKDDKYWARRRKNNMAAKRSRDARRLKENQI 253
+                           3334446666667788877777655565566777767777244444.457888889999****************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 112 enekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                             +   le++n  l q +++l+ e +++   la+
+     sp|Q64709|HLF_RAT 254 AIRASFLEKENSALRQEVADLRKELGKCKNILAK 287
+                           ******************9999998888777776 PP
+
+>> sp|Q02100|SKO1_YEAST  CRE-binding bZIP protein SKO1 OS=Saccharomyces cerevisiae GN=SKO1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.9   0.3    0.0047        12      79     120 ..     425     466 ..     390     481 .. 0.83
+
+  Alignments for each domain:
+  == domain 1    score: 9.9 bits;  conditional E-value: 0.0047
+  sp|Q1XGE2|HAC1_ASPOR  79 edekeqrriervlrnraaaqtsrerkrleleklenekiqleq 120
+                            +e+e++r e + rnr aa   r+rk+  ++k+en+    e 
+  sp|Q02100|SKO1_YEAST 425 NEEQERKRKEFLERNRVAASKFRKRKKEYIKKIENDLQFYES 466
+                           3567888999999**********************8655555 PP
+
+>> sp|P50198|LINX_PSEPA  2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase OS=Pseudomonas paucimobilis GN=linX PE=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.0   0.0    0.0045        11     138     190 ..     164     217 ..     158     225 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 10.0 bits;  conditional E-value: 0.0045
+  sp|Q1XGE2|HAC1_ASPOR 138 rlsqqlaqlaaevrgsrantplpgspata.sptltptlfkqerdelpleripfp 190
+                           r+  + a l    rg r nt +pg+  t  +  + p + kq+  ++p+ ++  p
+  sp|P50198|LINX_PSEPA 164 RIMSKAAALEFVDRGVRVNTIVPGGMNTPiTANVPPDVLKQQTSQIPMGKLGDP 217
+                           5566677777888**********9876641567899************998766 PP
+
+>> sp|Q6DGM8|JDP2_DANRE  Jun dimerization protein 2 OS=Danio rerio GN=jdp2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.2   4.0    0.0039        10      76     141 ..      62     128 ..      48     142 .. 0.82
+
+  Alignments for each domain:
+  == domain 1    score: 10.2 bits;  conditional E-value: 0.0039
+  sp|Q1XGE2|HAC1_ASPOR  76 aktede.keqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsq 141
+                            k+ed+  ++r+ +r  +n+ aa  +r rk+ + + l+ e  +le+ n  l  ++ +l++e+++l  
+  sp|Q6DGM8|JDP2_DANRE  62 IKSEDDdDDERKKRRREKNKVAAARCRNRKKERTDFLQKESERLEMLNSDLKSQIEELKSERQQLIV 128
+                           566554145666677789*************************************999999988765 PP
+
+>> sp|A2Z0Q0|HOX25_ORYSI  Homeobox-leucine zipper protein HOX25 OS=Oryza sativa subsp. indica GN=HOX25 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.3   0.4    0.0036       9.1      53     173 ..      21     140 ..      13     219 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 10.3 bits;  conditional E-value: 0.0036
+   sp|Q1XGE2|HAC1_ASPOR  53 akkrkswgqelpvpktnlpprkraktedek..eqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennr 138
+                            a+kr+   +++     ++   kr k e e+  e  r   +  ++ a   + +r r + ++le +  +l+  ++ ll   + l a+n  
+  sp|A2Z0Q0|HOX25_ORYSI  21 ARKRRLTAEQVRALERSFEEEKR-KLEPERksELARRLGIAPRQVAVWFQNRRARWKTKQLELDFDRLRAAHDELLAGRAALAADNES 107
+                            67777777777777777766665.444444013333334556667777788889999999999999999999999999999******* PP
+
+   sp|Q1XGE2|HAC1_ASPOR 139 lsqqlaqlaaevrgsrantplpgspatasptltpt 173
+                            l  q+  l  +++   + +p p spa a  t  p 
+  sp|A2Z0Q0|HOX25_ORYSI 108 LRSQVILLTEKLQA-NGKSPSP-SPAPAEQTAVPA 140
+                            ****9988877764.5677887.799999888886 PP
+
+>> sp|Q9UPR3|SMG5_HUMAN  Protein SMG5 OS=Homo sapiens GN=SMG5 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.8   0.3    0.0052        13     112     173 ..     800     860 ..     792     901 .. 0.78
+
+  Alignments for each domain:
+  == domain 1    score: 9.8 bits;  conditional E-value: 0.0052
+  sp|Q1XGE2|HAC1_ASPOR 112 enekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsr..antplpgspatasptltpt 173
+                           e+e + ++ q qf   r++q ea++nrl +++aql  ++  s+  ++  +p + +  sp l p 
+  sp|Q9UPR3|SMG5_HUMAN 800 EQESLLQQAQAQF---RMAQEEARRNRLMRDMAQLRLQLEVSQleGSLQQPKAQSAMSPYLVPD 860
+                           5555555666666...899***************998776665115677888888899999886 PP
+
+>> sp|Q41558|HBP1C_WHEAT  Transcription factor HBP-1b(c1) (Fragment) OS=Triticum aestivum PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.3   1.4   0.00044       1.1      77     131 ..     183     236 ..     142     250 .. 0.85
+
+  Alignments for each domain:
+  == domain 1    score: 13.3 bits;  conditional E-value: 0.00044
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsq 131
+                            k++d+ +++ ++r+ +nr aa+ sr rk+  ++ le+ +++l q  q  lqr  q
+  sp|Q41558|HBP1C_WHEAT 183 KSRDKLDHKSLRRLAQNREAARKSRLRKKAYIQNLESSRLKLTQLEQE-LQRARQ 236
+                            778999999999****************************99998886.466555 PP
+
+>> sp|O02756|CEBPD_BOVIN  CCAAT/enhancer-binding protein delta OS=Bos taurus GN=CEBPD PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.9   7.9     0.005        13      74     164 ..     171     246 ..     115     253 .. 0.57
+
+  Alignments for each domain:
+  == domain 1    score: 9.9 bits;  conditional E-value: 0.005
+   sp|Q1XGE2|HAC1_ASPOR  74 kraktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrlsqqlaqlaaevrgsra.ntplp 160
+                            kr+  +   e              +  rer  + ++k    + + +++nq + q+l +l aen +l+q++ ql  ++ g r     lp
+  sp|O02756|CEBPD_BOVIN 171 KRGPDRGSPEY-------------RQRRERNNIAVRK---SRDKAKRRNQEMQQKLVELSAENEKLQQRVEQLTRDLAGLRRfFKQLP 242
+                            33222222222.............2233344443333...333456777788888888888888888888888888888765145678 PP
+
+   sp|Q1XGE2|HAC1_ASPOR 161 gspa 164
+                            g+p 
+  sp|O02756|CEBPD_BOVIN 243 GAPF 246
+                            8875 PP
+
+>> sp|Q63315|CAD22_RAT  Cadherin-22 OS=Rattus norvegicus GN=Cdh22 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   0.2    0.0068        17     254     299 ..     713     759 ..     681     767 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.0068
+  sp|Q1XGE2|HAC1_ASPOR 254 ddfnrlfhgdssvepdssvfedglafdv.leggdlsafpfdslvnfd 299
+                            + + l +g ss epd svf+d ++  v l   dls  p+d++  + 
+   sp|Q63315|CAD22_RAT 713 SERHSLPRGPSSPEPDFSVFRDFISRKVaLADADLSVPPYDAFQTYA 759
+                           45567889****************998747899********987765 PP
+
+>> sp|Q9WTP5|CAD22_MOUSE  Cadherin-22 OS=Mus musculus GN=Cdh22 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   0.2    0.0068        17     254     299 ..     713     759 ..     681     767 .. 0.80
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.0068
+   sp|Q1XGE2|HAC1_ASPOR 254 ddfnrlfhgdssvepdssvfedglafdv.leggdlsafpfdslvnfd 299
+                             + + l +g ss epd svf+d ++  v l   dls  p+d++  + 
+  sp|Q9WTP5|CAD22_MOUSE 713 SERHSLPRGPSSPEPDFSVFRDFISRKVaLADADLSVPPYDAFQTYA 759
+                            45567889****************998747899********987765 PP
+
+>> sp|Q5FUV3|ATE_GLUOX  Putative arginyl-tRNA--protein transferase OS=Gluconobacter oxydans GN=ate PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    1.9   0.0       1.4   3.5e+03     177     224 ..       2      49 ..       1      56 [. 0.89
+   2 ?   10.5   0.5    0.0033       8.4     137     193 ..      48     102 ..      39     127 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 1.9 bits;  conditional E-value: 1.4
+  sp|Q1XGE2|HAC1_ASPOR 177 qerdelpleripfptpslsdysptlkpstlaessdvaqhpavsvagle 224
+                           q+r +l     p p+p l d +     + la  + va h  +s ag++
+   sp|Q5FUV3|ATE_GLUOX   2 QHRPQLFYTTAPAPCPYLPDRTERKVLTELAGPDAVALHNRLSQAGFR 49 
+                           78999999999**********99988899999999*********9987 PP
+
+  == domain 2    score: 10.5 bits;  conditional E-value: 0.0033
+  sp|Q1XGE2|HAC1_ASPOR 137 nrlsqqlaqlaaevrgsrantplpgspatasptltptlfkqerdelpleripfptps 193
+                            r s+ +a  a  + g+ra tp+    at +pt t   ++ ++ +l +  ip p p+
+   sp|Q5FUV3|ATE_GLUOX  48 FRRSHAIAY-APVCVGCRACTPMRIPAATFAPTRTQKKIRSRHTDLVVNIIP-PVPT 102
+                           455566654.45567**********9****************99**999997.5554 PP
+
+>> sp|Q99091|CPRF3_PETCR  Light-inducible protein CPRF3 OS=Petroselinum crispum GN=CPRF3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.4   3.5    0.0068        17      77     132 ..     190     248 ..     179     269 .. 0.81
+
+  Alignments for each domain:
+  == domain 1    score: 9.4 bits;  conditional E-value: 0.0068
+   sp|Q1XGE2|HAC1_ASPOR  77 ktedekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfl...lqrlsql 132
+                            +  de+e +r +r   nr +a+ sr rk+ + + l+ +   l ++n++l   lqr+s+ 
+  sp|Q99091|CPRF3_PETCR 190 RVNDERELKRQRRKQSNRESARRSRLRKQAKSDELQERLDNLSKENRILrknLQRISEA 248
+                            467999999999************************999999****9993334555544 PP
+
+>> sp|Q8BW74|HLF_MOUSE  Hepatic leukemia factor OS=Mus musculus GN=Hlf PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.1   4.4   0.00051       1.3      23     145 ..     165     287 ..     142     293 .. 0.79
+
+  Alignments for each domain:
+  == domain 1    score: 13.1 bits;  conditional E-value: 0.00051
+  sp|Q1XGE2|HAC1_ASPOR  23 vpvltvspadtslnsadvktqevkpeekkpakkrkswgqelpvpktnlpprkraktedekeqrriervlrnraaaqtsrerkrlelekl 111
+                            p     p     + ad+    +  +e    +krk   +el         rk    +d k+++   r  +n  aa+ sr+ +rl+  ++
+   sp|Q8BW74|HLF_MOUSE 165 DPDTIQVPVGYEPDPADLALSSIPGQEMFDPRKRKFSEEELKPQPMIKKARKVFIPDDLKDDKYWARRRKNNMAAKRSRDARRLKENQI 253
+                           34444456777778888888899999998889999888888533334467888889999****************************** PP
+
+  sp|Q1XGE2|HAC1_ASPOR 112 enekiqleqqnqfllqrlsqleaennrlsqqlaq 145
+                             +   le++n  l q +++l+ e +++   la+
+   sp|Q8BW74|HLF_MOUSE 254 AIRASFLEKENSALRQEVADLRKELGKCKNILAK 287
+                           ******************9999998888777776 PP
+
+>> sp|Q9JLC6|TEF_MOUSE  Thyrotroph embryonic factor OS=Mus musculus GN=Tef PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.5   0.3    0.0066        17      52     134 ..     201     282 ..     152     292 .. 0.71
+
+  Alignments for each domain:
+  == domain 1    score: 9.5 bits;  conditional E-value: 0.0066
+  sp|Q1XGE2|HAC1_ASPOR  52 pakkrkswgqelpvpktnlpprkrakted.ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqlea 134
+                           p k r  + +e   p+  +   k+    d +k+++   r  +n  aa+ sr+ +rl+  ++  +   le++n  l   +++l+ 
+   sp|Q9JLC6|TEF_MOUSE 201 PRKHR--FAEEDLKPQPMIKKAKKVFVPDeQKDEKYWTRRKKNNVAAKRSRDARRLKENQITIRAAFLEKENTALRTEVAELRK 282
+                           43333..3344444666666666666555157788889999****************999999999999999988777776665 PP
+
+>> sp|Q92172|TEF_CHICK  Transcription factor VBP OS=Gallus gallus GN=TEF PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.6   0.4    0.0059        15      54     139 ..     214     299 ..     176     308 .. 0.76
+
+  Alignments for each domain:
+  == domain 1    score: 9.6 bits;  conditional E-value: 0.0059
+  sp|Q1XGE2|HAC1_ASPOR  54 kkrkswgqelpvpktnlpprkrakted.ekeqrriervlrnraaaqtsrerkrleleklenekiqleqqnqfllqrlsqleaennrl 139
+                           +k+k   ++l  p+  +   k+    d +k+++   r  +n  aa+ sr+ +rl+  ++  +   le++n  l   +++l+ e +r+
+   sp|Q92172|TEF_CHICK 214 RKHKFTEEDL-KPQPMIKKAKKVFVPDeQKDEKYWTRRKKNNVAAKRSRDARRLKENQITIRAAFLEKENTALRTEVAELRKEVGRC 299
+                           4555444444.3555555556655555167888889999*********************99999*****99999998888887775 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                            1  (345 nodes)
+Target sequences:                     516081  (181677051 residues)
+Passed MSV filter:                     21797  (0.0422356); expected 10321.6 (0.02)
+Passed bias filter:                    21797  (0.0422356); expected 10321.6 (0.02)
+Passed Vit filter:                      6030  (0.0116842); expected 516.1 (0.001)
+Passed Fwd filter:                      1516  (0.00293752); expected 5.2 (1e-05)
+Initial search space (Z):             516081  [actual number of targets]
+Domain search space  (domZ):             203  [number of targets reported over threshold]
+# CPU time: 21.11u 0.09s 00:00:21.20 Elapsed: 00:00:03.64
+# Mc/sec: 17219.39
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.psiblast.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.psiblast.out
new file mode 100755
index 0000000..b6890a1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.psiblast.out
@@ -0,0 +1,4544 @@
+BLASTP 2.2.22 [Sep-27-2009]
+
+
+Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer, 
+Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997), 
+"Gapped BLAST and PSI-BLAST: a new generation of protein database search
+programs",  Nucleic Acids Res. 25:3389-3402.
+
+
+Reference for composition-based statistics:
+Schaffer, Alejandro A., L. Aravind, Thomas L. Madden,
+Sergei Shavirin, John L. Spouge, Yuri I. Wolf,  
+Eugene V. Koonin, and Stephen F. Altschul (2001), 
+"Improving the accuracy of PSI-BLAST protein database searches with 
+composition-based statistics and other refinements",  Nucleic Acids Res. 29:2994-3005.
+
+Query= A3CM55.1
+         (328 letters)
+
+Database: uniprot_sprot.fasta 
+           516,081 sequences; 181,677,051 total letters
+
+Searching..................................................done
+
+
+
+                                                                 Score    E
+Sequences producing significant alignments:                      (bits) Value
+
+sp|P78283|SECY_VIBCH Preprotein translocase subunit secY OS=Vibr...   276   2e-73
+sp|P43804|SECY_HAEIN Preprotein translocase subunit secY OS=Haem...   275   3e-73
+sp|Q9HWF5|SECY_PSEAE Preprotein translocase subunit secY OS=Pseu...   273   1e-72
+sp|Q59912|SECY_STRGB Preprotein translocase subunit secY OS=Stre...   268   4e-71
+sp|Q05217|SECY_STACT Preprotein translocase subunit secY OS=Stap...   264   5e-70
+sp|Q59916|SECY_STRGR Preprotein translocase subunit secY OS=Stre...   260   1e-68
+sp|O33006|SECY_MYCLE Preprotein translocase subunit secY OS=Myco...   259   3e-68
+sp|P38376|SECY_CORGL Preprotein translocase subunit secY OS=Cory...   258   4e-68
+sp|P77964|SECY_SYNY3 Preprotein translocase subunit secY OS=Syne...   258   5e-68
+sp|P27148|SECY_LACLC Preprotein translocase subunit secY OS=Lact...   256   2e-67
+sp|Q8CNF3|SECY_STAES Preprotein translocase subunit secY OS=Stap...   255   3e-67
+sp|Q5HM19|SECY_STAEQ Preprotein translocase subunit secY OS=Stap...   255   3e-67
+sp|P46785|SECY_STRCO Preprotein translocase subunit secY OS=Stre...   255   3e-67
+sp|P49977|SECY_STRLI Preprotein translocase subunit secY OS=Stre...   255   4e-67
+sp|P93690|SECY_SPIOL Preprotein translocase subunit secY, chloro...   255   4e-67
+sp|Q7A086|SECY_STAAW Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|Q6G791|SECY_STAAS Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|Q6GEK3|SECY_STAAR Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|Q7A468|SECY_STAAN Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|Q99S39|SECY_STAAM Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|Q5HDX8|SECY_STAAC Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|O08387|SECY_STAA8 Preprotein translocase subunit secY OS=Stap...   254   5e-67
+sp|P58118|SECY_LACLA Preprotein translocase subunit secY OS=Lact...   254   7e-67
+sp|P0A5Z2|SECY_MYCTU Preprotein translocase subunit secY OS=Myco...   253   9e-67
+sp|P0A5Z3|SECY_MYCBO Preprotein translocase subunit secY OS=Myco...   253   9e-67
+sp|P43416|SECY_STRSC Preprotein translocase subunit secY OS=Stre...   253   9e-67
+sp|Q9XQU4|SECY_PEA Preprotein translocase subunit secY, chloropl...   252   2e-66
+sp|P0AGA5|SECY_SHIFL Preprotein translocase subunit secY OS=Shig...   252   2e-66
+sp|P0AGA2|SECY_ECOLI Preprotein translocase subunit secY OS=Esch...   252   2e-66
+sp|P0AGA3|SECY_ECOL6 Preprotein translocase subunit secY OS=Esch...   252   2e-66
+sp|P0AGA4|SECY_ECO57 Preprotein translocase subunit secY OS=Esch...   252   2e-66
+sp|Q05207|SECY_BACLD Preprotein translocase subunit secY OS=Baci...   250   8e-66
+sp|O63066|SECY_MAIZE Preprotein translocase subunit secY, chloro...   250   8e-66
+sp|P16336|SECY_BACSU Preprotein translocase subunit secY OS=Baci...   249   2e-65
+sp|P38375|SECY_BACHD Preprotein translocase subunit secY OS=Baci...   247   7e-65
+sp|Q38885|SECY_ARATH Preprotein translocase subunit secY, chloro...   247   7e-65
+sp|P0A4H1|SECY_SYNP6 Preprotein translocase subunit secY OS=Syne...   246   1e-64
+sp|P0A4H0|SECY_SYNE7 Preprotein translocase subunit secY OS=Syne...   246   1e-64
+sp|Q6ZG25|SECY_ORYSJ Preprotein translocase subunit secY, chloro...   246   2e-64
+sp|P51297|SECY_PORPU Preprotein translocase subunit secY OS=Porp...   244   8e-64
+sp|O66491|SECY_AQUAE Preprotein translocase subunit secY OS=Aqui...   240   1e-62
+sp|Q4UMQ9|SECY_RICFE Preprotein translocase subunit secY OS=Rick...   240   1e-62
+sp|Q68W98|SECY_RICTY Preprotein translocase subunit secY OS=Rick...   238   3e-62
+sp|Q92GY6|SECY_RICCN Preprotein translocase subunit secY OS=Rick...   238   4e-62
+sp|Q1RHP1|SECY_RICBR Preprotein translocase subunit secY OS=Rick...   238   6e-62
+sp|P38397|SECY_PYRSA Preprotein translocase subunit secY (Fragme...   237   7e-62
+sp|Q9ZCS5|SECY_RICPR Preprotein translocase subunit secY OS=Rick...   237   9e-62
+sp|P28539|SECY_CHLTR Preprotein translocase subunit secY OS=Chla...   236   1e-61
+sp|Q1XDJ1|SECY_PORYE Preprotein translocase subunit secY OS=Porp...   236   1e-61
+sp|P28527|SECY_GUITH Preprotein translocase subunit secY OS=Guil...   233   2e-60
+sp|Q89A85|SECY_BUCBP Preprotein translocase subunit secY OS=Buch...   231   3e-60
+sp|P57571|SECY_BUCAI Preprotein translocase subunit secY OS=Buch...   231   6e-60
+sp|Q8K969|SECY_BUCAP Preprotein translocase subunit secY OS=Buch...   226   2e-58
+sp|Q59548|SECY_MYCPN Preprotein translocase subunit secY OS=Myco...   224   9e-58
+sp|Q9PJN1|SECY_CHLMU Preprotein translocase subunit secY OS=Chla...   222   2e-57
+sp|P33108|SECY_MICLU Preprotein translocase subunit secY OS=Micr...   222   3e-57
+sp|O52351|SECY_MYCGA Preprotein translocase subunit secY OS=Myco...   221   7e-57
+sp|P10250|SECY_MYCCT Preprotein translocase subunit secY OS=Myco...   219   2e-56
+sp|P47416|SECY_MYCGE Preprotein translocase subunit secY OS=Myco...   218   3e-56
+sp|Q9Z7S5|SECY_CHLPN Preprotein translocase subunit secY OS=Chla...   217   9e-56
+sp|O25879|SECY_HELPY Preprotein translocase subunit secY OS=Heli...   214   6e-55
+sp|Q9ZJS9|SECY_HELPJ Preprotein translocase subunit secY OS=Heli...   214   7e-55
+sp|O59442|SECY_PYRHO Preprotein translocase subunit secY OS=Pyro...   211   6e-54
+sp|P49976|SECY_BUCAK Preprotein translocase subunit secY (Fragme...   211   7e-54
+sp|Q870W0|SC61A_NEUCR Protein transport protein SEC61 subunit al...   210   8e-54
+sp|Q9V1V8|SECY_PYRAB Preprotein translocase subunit secY OS=Pyro...   210   1e-53
+sp|Q8U019|SECY_PYRFU Preprotein translocase subunit secY OS=Pyro...   210   1e-53
+sp|Q54XK2|SC61A_DICDI Protein transport protein Sec61 subunit al...   208   3e-53
+sp|P49461|SECY_ODOSI Preprotein translocase subunit secY OS=Odon...   205   5e-52
+sp|O51451|SECY_BORBU Preprotein translocase subunit secY OS=Borr...   204   8e-52
+sp|Q5NVM7|S61A2_PONAB Protein transport protein Sec61 subunit al...   203   1e-51
+sp|Q96TW8|SC61A_HANAN Protein transport protein SEC61 subunit al...   203   2e-51
+sp|P78979|SC61A_YARLI Protein transport protein SEC61 subunit al...   203   2e-51
+sp|Q9JLR1|S61A2_MOUSE Protein transport protein Sec61 subunit al...   202   3e-51
+sp|Q9H9S3|S61A2_HUMAN Protein transport protein Sec61 subunit al...   202   3e-51
+sp|Q2KHX4|S61A2_BOVIN Protein transport protein Sec61 subunit al...   202   3e-51
+sp|Q90ZM2|S61A1_DANRE Protein transport protein Sec61 subunit al...   202   3e-51
+sp|Q8AY32|SC61A_GADOC Protein transport protein Sec61 subunit al...   202   3e-51
+sp|Q98SN8|S61A2_ONCMY Protein transport protein Sec61 subunit al...   201   4e-51
+sp|Q5EA68|S61A1_BOVIN Protein transport protein Sec61 subunit al...   201   5e-51
+sp|P61621|S61A1_RAT Protein transport protein Sec61 subunit alph...   201   5e-51
+sp|Q5R5L5|S61A1_PONAB Protein transport protein Sec61 subunit al...   201   5e-51
+sp|P61620|S61A1_MOUSE Protein transport protein Sec61 subunit al...   201   5e-51
+sp|P61619|S61A1_HUMAN Protein transport protein Sec61 subunit al...   201   5e-51
+sp|Q7T278|SC61A_HARAN Protein transport protein Sec61 subunit al...   201   6e-51
+sp|Q7T277|SC61A_DISMA Protein transport protein Sec61 subunit al...   201   6e-51
+sp|Q8AY36|SC61A_PAGBO Protein transport protein Sec61 subunit al...   201   7e-51
+sp|Q8AY35|SC61A_NOTAN Protein transport protein Sec61 subunit al...   201   7e-51
+sp|Q8AY34|SC61A_HEMAM Protein transport protein Sec61 subunit al...   201   8e-51
+sp|Q90YL4|S61A2_DANRE Protein transport protein Sec61 subunit al...   201   8e-51
+sp|Q8AY31|SC61A_BOVVA Protein transport protein Sec61 subunit al...   200   9e-51
+sp|P38377|S61A1_CANFA Protein transport protein Sec61 subunit al...   200   1e-50
+sp|Q9P8E3|SC61A_CANAL Protein transport protein SEC61 subunit al...   199   1e-50
+sp|Q6FRY3|SC61A_CANGA Protein transport protein SEC61 subunit al...   199   2e-50
+sp|Q752H7|SC61A_ASHGO Protein transport protein SEC61 subunit al...   199   2e-50
+sp|P25014|SECY_CYAPA Preprotein translocase subunit secY OS=Cyan...   199   2e-50
+sp|Q6CPY9|SC61A_KLULA Protein transport protein SEC61 subunit al...   199   3e-50
+sp|Q6BN08|SC61A_DEBHA Protein transport protein SEC61 subunit al...   198   4e-50
+sp|Q8AY33|SC61A_BORSA Protein transport protein Sec61 subunit al...   198   4e-50
+sp|Q98SN9|S61A1_ONCMY Protein transport protein Sec61 subunit al...   198   5e-50
+sp|P46249|SECY_CYACA Preprotein translocase subunit secY OS=Cyan...   193   1e-48
+sp|P32915|SC61A_YEAST Protein transport protein SEC61 OS=Sacchar...   193   2e-48
+sp|Q25147|SC61A_HALRO Protein transport protein Sec61 subunit al...   192   4e-48
+sp|O26134|SECY_METTH Preprotein translocase subunit secY OS=Meth...   191   5e-48
+sp|P38379|SC61A_PYRSA Protein transport protein Sec61 subunit al...   188   5e-47
+sp|Q37143|SECY_ANTSP Preprotein translocase subunit secY OS=Anti...   184   8e-46
+sp|Q60175|SECY_METJA Preprotein translocase subunit secY OS=Meth...   183   1e-45
+sp|P28540|SECY_PAVLU Preprotein translocase subunit secY OS=Pavl...   179   3e-44
+sp|P79088|SC61A_SCHPO Protein transport protein sec61 subunit al...   178   5e-44
+sp|P28541|SECY_METVA Preprotein translocase subunit secY OS=Meth...   174   6e-43
+sp|Q9YDD0|SECY_AERPE Preprotein translocase subunit secY OS=Aero...   171   5e-42
+sp|O28377|SECY_ARCFU Preprotein translocase subunit secY OS=Arch...   171   7e-42
+sp|P28542|SECY_HALMA Preprotein translocase subunit secY OS=Halo...   165   3e-40
+sp|Q9HPB1|SECY_HALSA Preprotein translocase subunit secY OS=Halo...   162   4e-39
+sp|Q977V3|SECY_HALVO Preprotein translocase subunit secY OS=Halo...   156   2e-37
+sp|P49978|SECY_SULAC Preprotein translocase subunit secY OS=Sulf...   140   2e-32
+sp|Q9UX84|SECY_SULSO Preprotein translocase subunit secY OS=Sulf...   131   9e-30
+sp|P38353|SSH1_YEAST Sec sixty-one protein homolog OS=Saccharomy...   127   7e-29
+sp|O42965|YGMH_SCHPO Uncharacterized protein C19G7.17 OS=Schizos...   117   1e-25
+sp|P72179|SECY_PARDE Preprotein translocase subunit secY (Fragme...    99   5e-20
+sp|P28620|SECY_BACST Preprotein translocase subunit secY (Fragme...    74   1e-12
+sp|P0C6V7|R1AB_BEV Replicase polyprotein 1ab OS=Berne virus GN=r...    34   1.0  
+sp|P0C6F3|R1A_BEV Replicase polyprotein 1a OS=Berne virus GN=1a ...    34   1.1  
+sp|Q49VR4|LTAS_STAS1 Glycerol phosphate lipoteichoic acid syntha...    33   3.2  
+sp|Q5HR16|LTAS_STAEQ Glycerol phosphate lipoteichoic acid syntha...    33   3.6  
+sp|Q8CQ10|LTAS_STAES Glycerol phosphate lipoteichoic acid syntha...    32   4.0  
+sp|Q6P6T5|OCLN_RAT Occludin OS=Rattus norvegicus GN=Ocln PE=2 SV=1     32   4.4  
+sp|P94493|YNCC_BACSU Putative metabolite transport protein yncC ...    32   5.7  
+sp|Q7A1I3|LTAS_STAAW Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q6GBB1|LTAS_STAAS Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q6GIS3|LTAS_STAAR Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q7A6U1|LTAS_STAAN Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q99VQ4|LTAS_STAAM Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q5HHV4|LTAS_STAAC Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q2G093|LTAS_STAA8 Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q2FIS2|LTAS_STAA3 Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|Q2YSL2|LTAS_STAAB Glycerol phosphate lipoteichoic acid syntha...    32   6.0  
+sp|P0C6V8|R1AB_BRV1 Replicase polyprotein 1ab OS=Breda virus 1 G...    32   6.7  
+sp|P0C6F4|R1A_BRV1 Replicase polyprotein 1a OS=Breda virus 1 GN=...    32   7.6  
+
+>sp|P78283|SECY_VIBCH Preprotein translocase subunit secY OS=Vibrio
+           cholerae GN=secY PE=3 SV=2
+          Length = 444
+
+ Score =  276 bits (706), Expect = 2e-73,   Method: Composition-based stats.
+ Identities = 82/326 (25%), Positives = 158/326 (48%), Gaps = 20/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+ ++G+ P++S+ ++ Q+  V     L++L  E +  RR         TLV+A  Q++ 
+Sbjct: 76  SILALGIMPYISASIVVQLLTVVH-PALAELKKEGEAGRRKISQYTRYGTLVLATFQAIG 134
+
+Query: 55  LVLNLPLQ--EAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMI 111
+           +   LP        +D T   ++ T+ L+ GT FL+WL +     G+G    +++ A ++
+Sbjct: 135 IATGLPNMVNNLVVIDQTMFTLIATVSLVTGTMFLMWLGEQITERGIGNGISILIFAGIV 194
+
+Query: 112 AYIPQDIWNSIQELKIS---SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFK 168
+           A +P+ I  +I++ +      L L L+ V +   +Y  V +ER + RI VN        K
+Sbjct: 195 AGLPKAIGQTIEQARQGELHVLLLLLIAVLAFAVIYFVVFMERGQRRIVVNYAKRQQGRK 254
+
+Query: 169 ----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHF--LQPENQLIEQWIEALSMG 222
+               + ++L +++N AG +P ++A +++  P                  +     ALS G
+Sbjct: 255 VFAAQSTHLPLKINMAGVIPAIFASSIILFPGTLAQWFGQNGESSTFGWLTDVSLALSPG 314
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + +LY   I      +  +  +  + A+ ++KSG ++  + PG  T +YI+ ++T  
+Sbjct: 315 QPLYVMLYAAAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRL 374
+
+Query: 283 ALVGAFYLILISGLP-MMVVLVDIRY 307
+            L GA Y+  I  +P  M+V  ++R+
+Sbjct: 375 TLAGALYITFICLIPEFMMVAWNVRF 400
+
+
+>sp|P43804|SECY_HAEIN Preprotein translocase subunit secY
+           OS=Haemophilus influenzae GN=secY PE=3 SV=1
+          Length = 441
+
+ Score =  275 bits (704), Expect = 3e-73,   Method: Composition-based stats.
+ Identities = 71/324 (21%), Positives = 143/324 (44%), Gaps = 19/324 (5%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           S+ ++G+ P++S+ ++ Q+ A      L++L  E               T+V A IQ+VA
+Sbjct: 76  SILALGIMPYISASIVIQLLATVS-PALAELKKEGAAGQRKISKYTRYATVVFATIQAVA 134
+
+Query: 55  LVLNLPLQ--EAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMI 111
+           +   LP            +      + L+ GT FL+WL +     G+G    ++V   ++
+Sbjct: 135 ISTGLPNMLSGLVPNVGFSFYFTSVVSLVTGTMFLMWLGEQITERGIGNGISILVFGGIV 194
+
+Query: 112 AYIPQDIWNSIQELKISSLW---LALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRF- 167
+           A +P  I  +I++ +   +    L L+        Y  V VER + RI V          
+Sbjct: 195 AGLPSAILQTIEQARQGQMHPLVLLLIAAIVFAVTYFVVFVERGQRRIRVEYAKRQQGRQ 254
+
+Query: 168 ---KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSP 224
+                 ++L +++N A  MP ++A +++  P            + + +      L+ G P
+Sbjct: 255 ILGGHSTHLPLKVNMANVMPAIFASSIILFPATLTQWFGQ-NDKFEWLNNLSMLLNPGQP 313
+
+Query: 225 AWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFAL 284
+            + ++Y + I   +  +  +  +    A+ ++KSG +I  + PG  T RYI+ ++T   L
+Sbjct: 314 LYLLVYAVAIIFFSFFYTAMQYNPRDTADNLKKSGAFIPGIRPGEQTSRYIDKVMTRLTL 373
+
+Query: 285 VGAFYLILISGLPMMV-VLVDIRY 307
+           +G  Y+  +  +P ++    D+++
+Sbjct: 374 IGGLYVTFVCLVPYIMTSAWDVKF 397
+
+
+>sp|Q9HWF5|SECY_PSEAE Preprotein translocase subunit secY
+           OS=Pseudomonas aeruginosa GN=secY PE=3 SV=1
+          Length = 442
+
+ Score =  273 bits (698), Expect = 1e-72,   Method: Composition-based stats.
+ Identities = 73/322 (22%), Positives = 155/322 (48%), Gaps = 17/322 (5%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+   +    L +L  E +  RR         T+V+AL+Q++ 
+Sbjct: 75  SIFALGIMPYISASIIMQLMT-AISPQLEQLKKEGESGRRKISQYTRYGTVVLALVQAIG 133
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+           + + L  Q  A  +      +     +AG  F++WL +     G+G    M++ A ++A 
+Sbjct: 134 MSVGLGSQGVAFSNDFGFYFVAVTTFVAGAMFMMWLGEQITERGVGNGISMLIFAGIVAG 193
+
+Query: 114 IPQDIWNSIQELKISSLWLALML---VFSLVFLYLAVTVERSKYRIPVNKINIHNRFK-- 168
+           +P+ I  S +  +   + +  ++   + ++  +   V +ER + RI V+        K  
+Sbjct: 194 LPRAIGQSFESARQGDINIFALIGVGLLAVAIIAFVVFIERGQRRIAVHYAKRQQGRKVF 253
+
+Query: 169 --KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAW 226
+             + S+L +++N AG +P ++A +++  P          +     ++   +A++ G P  
+Sbjct: 254 AAQTSHLPLKVNMAGVIPAIFASSILLFPASLGSWFGQSEGLG-WLQDVAQAIAPGQPLN 312
+
+Query: 227 FILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVG 286
+            +L+   I      +  +  +   +AE ++KSG +I  + PG  + RYI+G++T   + G
+Sbjct: 313 ILLFTAGIVFFCFFYTALMFNPKDVAENLKKSGAFIPGIRPGEQSARYIDGVLTRLTMFG 372
+
+Query: 287 AFYLILISGLP-MMVVLVDIRY 307
+           A Y+  +  LP  +VV   + +
+Sbjct: 373 ALYMTAVCLLPQFLVVAAHVPF 394
+
+
+>sp|Q59912|SECY_STRGB Preprotein translocase subunit secY
+           OS=Streptomyces galbus GN=secY PE=3 SV=1
+          Length = 437
+
+ Score =  268 bits (686), Expect = 4e-71,   Method: Composition-based stats.
+ Identities = 71/322 (22%), Positives = 142/322 (44%), Gaps = 26/322 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F++G+ P++++ +I Q+  V     L  L  E Q            LT+ +A++Q   
+Sbjct: 73  TIFALGIMPYITASIILQLLTVV-IPRLEALKKEGQAGTAKITQYTRYLTVALAILQGTG 131
+
+Query: 55  LVLNLPLQEAAG----------VDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-I 103
+           LV         G                 +   + + AGT  ++WL +L    G+G    
+Sbjct: 132 LVATARSAPLFGRCSVGGQIVPDQSIFTTITMVICMTAGTCVVMWLGELITDRGIGNGMS 191
+
+Query: 104 MIVMASMIAYIPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           +++  S+ A  P  +W   ++  ++  W+    ++   L+ + L V VE+++ RIPV   
+Sbjct: 192 ILMFISIAATFPSALWAIKKQGTLAGGWIEFGTVIAVGLIMVALVVFVEQAQRRIPVQYA 251
+
+Query: 162 ----NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+                  +     +Y+ +++N AG +P+++A +L+ IP                +EQ   
+Sbjct: 252 KRMIGRRSYGGTSTYIPLKVNQAGVIPVIFASSLLYIPALVAQFAGGNSGWKSWVEQ--N 309
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+                 P + + Y L I   A  +  I+ + +++A+ M+K G +I  +  G  T  Y++ 
+Sbjct: 310 LTKGDHPIYIVTYFLLIVFFAFFYVAISFNPEEVADNMKKYGGFIPGIRAGRPTAEYLSY 369
+
+Query: 278 LVTYFALVGAFYLILISGLPMM 299
+           ++      G+ YL LI+ +P M
+Sbjct: 370 VLNRITWPGSLYLGLIALVPTM 391
+
+
+>sp|Q05217|SECY_STACT Preprotein translocase subunit secY
+           OS=Staphylococcus carnosus (strain TM300) GN=secY PE=3
+           SV=2
+          Length = 430
+
+ Score =  264 bits (676), Expect = 5e-70,   Method: Composition-based stats.
+ Identities = 62/319 (19%), Positives = 149/319 (46%), Gaps = 24/319 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      ++   +    R+          +++A IQS+ 
+Sbjct: 69  SIFAMGIMPYITASIVMQLLQMDIVPKFTEWAKQGDVGRKKLNNVTRYFAIILAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  +VL  GT FL+WL +     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIIDPSPMSYLLIAIVLTTGTAFLLWLGEQITQYGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q+  +         L +A +++  ++    AV V ++  +IP+     
+Sbjct: 189 LSTLPSSLIQFYQQAFVGQSDTTMAWLQVAGLVIGLVLLTMGAVYVLQAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+            +        +YL +++N AG +P+++AM    +P+   +      P+    +Q     +
+Sbjct: 249 QSTQRLGSNATYLPLKVNSAGVIPVIFAMAFFLLPRTLTMFF----PKADWAQQIANTAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I      +AF+ ++ +++++ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNIGMVIYIILIIAFTYFYAFVQVNPEKMSDNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMM 299
+               VG+ +L +I+ LP++
+Sbjct: 365 RLTFVGSIFLAVIAILPIL 383
+
+
+>sp|Q59916|SECY_STRGR Preprotein translocase subunit secY
+           OS=Streptomyces griseus GN=secY PE=3 SV=1
+          Length = 437
+
+ Score =  260 bits (664), Expect = 1e-68,   Method: Composition-based stats.
+ Identities = 73/325 (22%), Positives = 147/325 (45%), Gaps = 26/325 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F++G+ P++++ +I Q+  V     L  L  E Q            LT+ +A++Q   
+Sbjct: 72  TIFALGIMPYITASIILQLLTVV-IPRLEALKKEGQSGTAKITQYTRYLTVALAILQGTG 130
+
+Query: 55  LVLNLPLQ----------EAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIM 104
+           LV                +          ++  L + AGT  ++WL +L    G+G  + 
+Sbjct: 131 LVATARSGALFQNCSVGSQIVADKSIFTTIIMVLTMTAGTPPVMWLGELITDRGIGNGMS 190
+
+Query: 105 I-VMASMIAYIPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVN-- 159
+           I +  S+ A  P  +W   +  K++  W+    +++   V + L V VE+++ RIPV   
+Sbjct: 191 IPMFISIAATFPGALWAIKESGKLADGWIEFGTVILIGFVMVALVVFVEQAQRRIPVQLP 250
+
+Query: 160 --KINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+              I   +     +Y+ +++N AG +P+++A +L+ IP   +   +        I+    
+Sbjct: 251 KRMIGRRSYGGTSTYIPLKVNQAGVIPVIFASSLLYIPALIVQFSNSQAGWATWIQD--N 308
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+            ++   P +   Y + I   A  +  I+ + D++A+ M+K G +I  +  G  T  Y++ 
+Sbjct: 309 FVTGDHPYYIATYFVLIVFFAFFYVAISFNPDEVADNMKKYGGFIPGIRAGRPTAEYLSY 368
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVL 302
+           ++      G+ YL LI+ +P M + 
+Sbjct: 369 VLNRITWPGSLYLGLIALVPTMALA 393
+
+
+>sp|O33006|SECY_MYCLE Preprotein translocase subunit secY
+           OS=Mycobacterium leprae GN=secY PE=3 SV=1
+          Length = 438
+
+ Score =  259 bits (662), Expect = 3e-68,   Method: Composition-based stats.
+ Identities = 70/348 (20%), Positives = 146/348 (41%), Gaps = 30/348 (8%)
+
+Query: 3   FSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVALV 56
+            +VG+ P++++ +I Q+  V       +L  E Q            L + +A++Q+ ++V
+Sbjct: 74  LTVGVMPYITASIIVQLLTVV-IPRFEELRKEGQAGQAKMTQYTRYLAIALAVLQATSIV 132
+
+Query: 57  LNLPLQE--------AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVM 107
+                                   +V+  LV+  G   ++W+ +L    G+G    +++ 
+Sbjct: 133 ALAANGGLLQGCQEDIISDQSIFSLVVIVLVMTGGAALVMWMGELITERGIGNGMSLLIF 192
+
+Query: 108 ASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI----NI 163
+             + A IP +    +       +  A + + +LV +   V VE+ + RIPV         
+Sbjct: 193 VGIAARIPAEGKQILDS--RGGVIFAAVCLAALVIIVGVVFVEQGQRRIPVQYAKRMVGR 250
+
+Query: 164 HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQP---ENQLIEQWIEALS 220
+                  +YL +++N AG +P+++A +L+ IP     ++        ++   +     LS
+Sbjct: 251 RMYGGTSTYLPLKVNQAGVIPVIFASSLIYIPHLITQLVRSGSGGVGKSWWDKFVGTYLS 310
+
+Query: 221 -MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLV 279
+               P +  +Y   I      +  +  + D+ A+ M+K G +I  + PG  T  Y+  ++
+Sbjct: 311 DPADPVYINIYFGLIIFFTYFYVSVTFNPDERADEMKKFGGFIPGIRPGRPTADYLRYVL 370
+
+Query: 280 TYFALVGAFYLILISGLPMMVVLVD----IRYLRLSMIPGIFMIFIGM 323
+           +   L G+ YL  I+ LP + + +     ++ L       + MI +G+
+Sbjct: 371 SRITLPGSIYLGAIAVLPNLFLQIGNGGEVQNLPFGGTAVLIMIGVGL 418
+
+
+>sp|P38376|SECY_CORGL Preprotein translocase subunit secY
+           OS=Corynebacterium glutamicum GN=secY PE=3 SV=1
+          Length = 440
+
+ Score =  258 bits (660), Expect = 4e-68,   Method: Composition-based stats.
+ Identities = 71/328 (21%), Positives = 146/328 (44%), Gaps = 26/328 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           S+F++G+ P++++ +I Q+  V       +L  E Q            LT+ +AL+QS  
+Sbjct: 73  SIFAIGIMPYITASIIVQLLTVV-IPHFEELKKEGQSGQAKMMQYTRYLTVALALLQSSG 131
+
+Query: 55  LV--------LNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMI 105
+           +V        L   ++  +       +++  + + AG   ++W+ +L    G+G    ++
+Sbjct: 132 IVALADREQLLGAGIRVLSADRNFFDLIVLVITMTAGAVLVMWMGELITEKGVGNGMSLL 191
+
+Query: 106 VMASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI---- 161
+           + A +   +P D  N +       +  A++L   L+ +   V VE+ + RIPV       
+Sbjct: 192 IFAGIATRLPTDGMNIL--GNSGGVVFAVVLASVLILVIGVVFVEQGQRRIPVQYAKRMV 249
+
+Query: 162 NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQ---PENQLIEQWIEA 218
+                    +YL +++N AG +P+++A +L+ +P     I++       +N      I  
+Sbjct: 250 GRRQYGGSSTYLPLKVNQAGVIPVIFASSLIYMPVLITQIVNSGSLEVSDNWWQRNIIAH 309
+
+Query: 219 LS-MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+           L    S  + +LY       +  +  +     + AE M+K G +I  + PG  T  Y+  
+Sbjct: 310 LQTPSSWQYIVLYFALTIFFSYFYVSVQYDPAEQAENMKKYGGFIPGIRPGRPTAEYLGF 369
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVLVDI 305
+           ++     VG+ YL +I+ LP +++ + +
+Sbjct: 370 VMNRLLFVGSLYLAVIAVLPNIMLDLGV 397
+
+
+>sp|P77964|SECY_SYNY3 Preprotein translocase subunit secY
+           OS=Synechocystis sp. (strain PCC 6803) GN=secY PE=3 SV=1
+          Length = 442
+
+ Score =  258 bits (659), Expect = 5e-68,   Method: Composition-based stats.
+ Identities = 70/320 (21%), Positives = 150/320 (46%), Gaps = 19/320 (5%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+            +F++G+ P++++ +I Q+   +          E +  RR        +     +IQ + 
+Sbjct: 79  GIFALGILPYINASIIMQLLTAAIPALEDLQKNEGEAGRRKISQYSRYIAFGWCIIQGLG 138
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+           L + L L+  A       +    L + AG+ F++W+++L    G+G    +++  +++A 
+Sbjct: 139 LTVGL-LRPYANNYGPLFIFQTVLAITAGSMFVMWISELITERGIGNGASLLIFVNIVAT 197
+
+Query: 114 IPQDIWNSIQ----ELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHN---- 165
+           +PQ +  +I+      + S   + L+++  LV +   V V+    RIP+           
+Sbjct: 198 LPQTLGQTIEYAQSGGRQSITAVVLLMLVFLVMIVGIVFVQEGTRRIPIISARRQVGKKL 257
+
+Query: 166 RFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHF---LQPENQLIEQWIEALSMG 222
+             ++ SYL +RLN  G MPI++A  ++ +P            L    ++  Q   AL  G
+Sbjct: 258 YRERTSYLPLRLNQGGVMPIIFASAVLILPSSLAGFATGNEGLGGFGEIFVQISNALRPG 317
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+           +  + ++Y + IF  +  +A + ++ + +++ ++K G  I  + PG  T +Y+ G++   
+Sbjct: 318 TWVYTVVYSVMIFFFSYFYASLIVNPEDVSKNLKKMGSSIPGIRPGKKTEQYLEGVLNRL 377
+
+Query: 283 ALVGAFYLILISGLPMMVVL 302
+             +GA +L  ++ LP+ V  
+Sbjct: 378 TFLGAIFLSFVATLPIFVEQ 397
+
+
+>sp|P27148|SECY_LACLC Preprotein translocase subunit secY
+           OS=Lactococcus lactis subsp. cremoris GN=secY PE=3 SV=3
+          Length = 439
+
+ Score =  256 bits (654), Expect = 2e-67,   Method: Composition-based stats.
+ Identities = 74/329 (22%), Positives = 159/329 (48%), Gaps = 21/329 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           SLF++G+SP++++ +I Q+  +       +   + +  RR        +TLV+A+ QS+ 
+Sbjct: 69  SLFAMGVSPYITASIIVQLLQMDILPKFVEWSKQGEIGRRKLNQATRYITLVLAMAQSIG 128
+
+Query: 55  LVLNLPLQE---AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     ++  ++L  G+  + W+ +     G G    +I+ A +
+Sbjct: 129 ITAGFQAMSSLNIVQNPNWQSYLMIGVLLTTGSMVVTWMGEQINEKGFGSGVSVIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKI---------SSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           ++ IP  I +   E  +         S +++  +++ ++V +Y+   V++++ ++P+   
+Sbjct: 189 VSGIPSAIKSVYDEKFLNVRPSEIPMSWIFVIGLILSAIVIIYVTTFVQQAERKVPIQYT 248
+
+Query: 162 NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPEN-QLIEQWIEALS 220
+            +       SYL +R+NPAG +P+++A ++ + P   L  +   Q  N   +     ALS
+Sbjct: 249 KLTQGAPTSSYLPLRVNPAGVIPVIFAGSITTAPATILQFLQRSQGSNVGWLSTLQNALS 308
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             +    + Y L I +    ++F+ ++ +++AE +QK G YI +V PG  T +Y++ L+ 
+Sbjct: 309 YTTWTGMLFYALLIVLFTFFYSFVQVNPEKMAENLQKQGSYIPSVRPGKGTEKYVSRLLM 368
+
+Query: 281 YFALVGAFYLILISGLPMMVVL-VDIRYL 308
+             A VG+ +L LIS +P+       +  +
+Sbjct: 369 RLATVGSLFLGLISIIPIAAQNVWGLPKI 397
+
+
+>sp|Q8CNF3|SECY_STAES Preprotein translocase subunit secY
+           OS=Staphylococcus epidermidis (strain ATCC 12228)
+           GN=secY PE=3 SV=1
+          Length = 430
+
+ Score =  255 bits (652), Expect = 3e-67,   Method: Composition-based stats.
+ Identities = 65/309 (21%), Positives = 146/309 (47%), Gaps = 24/309 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      ++   + +  RR          +++A IQS+ 
+Sbjct: 69  SIFAMGIMPYITASIVMQLLQMDIVPKFTEWAKQGEMGRRKINNVTRYFAIILAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +          +          +L  +VL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGQLIIEKSVMSYLLIAVVLTAGTAFLIWLGDQITQFGVGNGISLIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q + +         L +  ++V  ++    A+ V  +K +IP+     
+Sbjct: 189 LSTLPSSLEQFAQSVFVGQDDTSLAWLKILGLIVALILLTVGAIFVLEAKRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+            +      + +YL +++N AG +P+++AM    +P+   L      P+ +  +   +  +
+Sbjct: 249 QSAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLFF----PKAEWAQNIADTAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    I+Y++ I   A  +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNIGMIIYVVLIIAFAYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFY 289
+               VG+ +
+Sbjct: 365 RLTFVGSIF 373
+
+
+>sp|Q5HM19|SECY_STAEQ Preprotein translocase subunit secY
+           OS=Staphylococcus epidermidis (strain ATCC 35984 /
+           RP62A) GN=secY PE=3 SV=1
+          Length = 430
+
+ Score =  255 bits (652), Expect = 3e-67,   Method: Composition-based stats.
+ Identities = 65/309 (21%), Positives = 146/309 (47%), Gaps = 24/309 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      ++   + +  RR          +++A IQS+ 
+Sbjct: 69  SIFAMGIMPYITASIVMQLLQMDIVPKFTEWAKQGEMGRRKINNVTRYFAIILAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +          +          +L  +VL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGQLIIEKSVMSYLLIAVVLTAGTAFLIWLGDQITQFGVGNGISLIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q + +         L +  ++V  ++    A+ V  +K +IP+     
+Sbjct: 189 LSTLPSSLEQFAQSVFVGQDDTSLAWLKILGLIVALILLTVGAIFVLEAKRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+            +      + +YL +++N AG +P+++AM    +P+   L      P+ +  +   +  +
+Sbjct: 249 QSAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLFF----PKAEWAQNIADTAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    I+Y++ I   A  +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNIGMIIYVVLIIAFAYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFY 289
+               VG+ +
+Sbjct: 365 RLTFVGSIF 373
+
+
+>sp|P46785|SECY_STRCO Preprotein translocase subunit secY
+           OS=Streptomyces coelicolor GN=secY PE=3 SV=2
+          Length = 437
+
+ Score =  255 bits (652), Expect = 3e-67,   Method: Composition-based stats.
+ Identities = 71/325 (21%), Positives = 146/325 (44%), Gaps = 26/325 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F++G+ P++++ +I Q+  V     L  L  E Q            LT+ +A++Q   
+Sbjct: 73  TVFALGIMPYITASIILQLLTVV-IPRLEALKKEGQAGTAKITQYTRYLTVALAILQGTG 131
+
+Query: 55  LVLNLPLQ----------EAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-I 103
+           LV                +          V+  + + AGT  ++WL +L    G+G    
+Sbjct: 132 LVATARSGALFSGCTVAGQIVPDQAIFTTVVMVICMTAGTCVVMWLGELITDRGIGNGMS 191
+
+Query: 104 MIVMASMIAYIPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           +++  S+ A  P  +W   ++ +++  W+    +++  LV + L V VE+++ RIPV   
+Sbjct: 192 ILMFISIAATFPSALWAIKKQGELADGWIEFGTVILVGLVMVGLVVFVEQAQRRIPVQYA 251
+
+Query: 162 ----NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+                  +     +Y+ +++N AG +P+++A +L+ IP   +   +        I +   
+Sbjct: 252 KRMIGRRSYGGTSTYIPLKVNQAGVIPVIFASSLLYIPALIVQFSNSTAGWATWITK--N 309
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+                +    ILY   I   A  +  I+ + +++A+ M+K G +I  +  G  T  Y++ 
+Sbjct: 310 LADTAATPHIILYFFLIVFFAFFYVAISFNPEEVADNMKKYGGFIPGIRAGRPTAEYLSY 369
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVL 302
+           ++      G+ YL LI+ +P M + 
+Sbjct: 370 VLNRITWPGSLYLGLIALVPTMALA 394
+
+
+>sp|P49977|SECY_STRLI Preprotein translocase subunit secY
+           OS=Streptomyces lividans GN=secY PE=3 SV=1
+          Length = 437
+
+ Score =  255 bits (651), Expect = 4e-67,   Method: Composition-based stats.
+ Identities = 71/325 (21%), Positives = 146/325 (44%), Gaps = 26/325 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F++G+ P++++ +I Q+  V     L  L  E Q            LT+ +A++Q   
+Sbjct: 73  TVFALGIMPYITASIILQLLTVV-IPRLEALKKEGQAGTAKITQYTRYLTVALAILQGTG 131
+
+Query: 55  LVLNLPLQ----------EAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-I 103
+           LV                +          V+  + + AGT  ++WL +L    G+G    
+Sbjct: 132 LVATARSGALFSGCTVAGQIVPDQAIFTTVVMVICMTAGTCVVMWLGELITDRGIGNGMS 191
+
+Query: 104 MIVMASMIAYIPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           +++  S+ A  P  +W   ++ +++  W+    +++  LV + L V VE+++ RIPV   
+Sbjct: 192 ILMFISIAATFPSALWAIKKQGELADGWIEFGTVILVGLVMVGLVVFVEQAQRRIPVQYA 251
+
+Query: 162 ----NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+                  +     +Y+ +++N AG +P+++A +L+ IP   +   +        I +   
+Sbjct: 252 KRMIGRRSYGGTSTYIPLKVNQAGVIPVIFASSLLYIPALIVQFSNSTAGWATWITK--N 309
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+                +    ILY   I   A  +  I+ + +++A+ M+K G +I  +  G  T  Y++ 
+Sbjct: 310 LADTAATPHIILYFFLIVFFAFFYVAISFNPEEVADNMKKYGGFIPGIRAGRPTAEYLSY 369
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVL 302
+           ++      G+ YL LI+ +P M + 
+Sbjct: 370 VLNRITWPGSLYLGLIALVPTMALA 394
+
+
+>sp|P93690|SECY_SPIOL Preprotein translocase subunit secY,
+           chloroplastic OS=Spinacia oleracea GN=SECY PE=2 SV=1
+          Length = 545
+
+ Score =  255 bits (651), Expect = 4e-67,   Method: Composition-based stats.
+ Identities = 62/315 (19%), Positives = 151/315 (47%), Gaps = 20/315 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+            + S+G+ P++++ +++Q+ +            E +  R+         ++  AL+Q++ 
+Sbjct: 190 GICSLGIVPFINAQIVFQLLSQVYPKLQDLQKKEGEAGRKKIKQYTQYASVGFALVQAIG 249
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+            VL L  +       T  ++   ++L  G+ F  +L +  + + LG    +++  ++I+Y
+Sbjct: 250 QVLFL--RPYVNDYSTEWVLSSVILLTLGSVFTTYLGERISDLKLGNGTSLLIFTNIISY 307
+
+Query: 114 IPQDIWNSIQELKISSLW--LALMLVFSLVFLYLAVTVERSKYRIPVNKI----NIHNRF 167
+           +P     ++ E      +  LA+++V  +  ++  V V+ ++ +IP+N            
+Sbjct: 308 LPASFGRTVAEAYQEGNYTGLAIIVVSFVSLVFGIVYVQEAERKIPMNYASRYSGKSGGL 367
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+           +K +YL  ++N AG MPI+++ + +S+P               ++++   AL+ G   + 
+Sbjct: 368 QKSAYLPFKVNSAGVMPIIFSTSSLSLPATLARFTGLD-----ILKKAAVALTPGGSFYL 422
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+              +L I      + F+ +  D ++E++++ G  I  V PG +T  YI  +++  +++G+
+Sbjct: 423 PTNILLIAFFNYYYTFLQLDPDDVSEQLKRQGASIPLVRPGKSTAAYIKTVLSRISVLGS 482
+
+Query: 288 FYLILISGLPMMVVL 302
+            +L +++  P +V  
+Sbjct: 483 GFLAILAAGPAVVEQ 497
+
+
+>sp|Q7A086|SECY_STAAW Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain MW2) GN=secY PE=3 SV=1
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|Q6G791|SECY_STAAS Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain MSSA476) GN=secY PE=3
+           SV=1
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|Q6GEK3|SECY_STAAR Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain MRSA252) GN=secY PE=3
+           SV=1
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|Q7A468|SECY_STAAN Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain N315) GN=secY PE=1 SV=1
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|Q99S39|SECY_STAAM Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain Mu50 / ATCC 700699)
+           GN=secY PE=3 SV=1
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|Q5HDX8|SECY_STAAC Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain COL) GN=secY PE=3 SV=1
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|O08387|SECY_STAA8 Preprotein translocase subunit secY
+           OS=Staphylococcus aureus (strain NCTC 8325) GN=secY PE=3
+           SV=2
+          Length = 430
+
+ Score =  254 bits (650), Expect = 5e-67,   Method: Composition-based stats.
+ Identities = 72/327 (22%), Positives = 152/327 (46%), Gaps = 25/327 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      S+   + +  RR        L + +A IQS+ 
+Sbjct: 69  SIFAMGIVPYITASIVMQLLQMDIVPKFSEWAKQGEVGRRKLNNVTRYLAISLAFIQSIG 128
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  LVL AGT FLIWL D     G+G    +I+ A +
+Sbjct: 129 MAFQFNNYLKGALIINQSIMSYLLIALVLTAGTAFLIWLGDQITQFGVGNGISIIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKIS-------SLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           ++ +P  +    Q   +         L +  +LV  ++    A+ V  +  +IP+     
+Sbjct: 189 LSTLPASLIQFGQTAFVGQEDTSLAWLKVLGLLVSLILLTVGAIYVLEAVRKIPIQYAKK 248
+
+Query: 164 HNR---FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+                   + +YL +++N AG +P+++AM    +P+   L      P+ +  +    A +
+Sbjct: 249 QTAQRLGSQATYLPLKVNSAGVIPVIFAMAFFLLPRTLTLF----YPDKEWAQNIANAAN 304
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             S    ++Y++ I +    +AF+ ++ +++A+ ++K G Y+  + PG  T++YI  ++ 
+Sbjct: 305 PSSNVGMVVYIVLIILFTYFYAFVQVNPEKMADNLKKQGSYVPGIRPGEQTKKYITKVLY 364
+
+Query: 281 YFALVGAFYLILISGLPMMVV-LVDIR 306
+               VG+ +L +IS LP++    + + 
+Sbjct: 365 RLTFVGSIFLAVISILPILATKFMGLP 391
+
+
+>sp|P58118|SECY_LACLA Preprotein translocase subunit secY
+           OS=Lactococcus lactis subsp. lactis GN=secY PE=3 SV=1
+          Length = 439
+
+ Score =  254 bits (649), Expect = 7e-67,   Method: Composition-based stats.
+ Identities = 74/329 (22%), Positives = 159/329 (48%), Gaps = 21/329 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           SLF++G+SP++++ +I Q+  +       +   + +  RR        +TLV+A+ QS+ 
+Sbjct: 69  SLFAMGVSPYITASIIVQLLQMDILPKFVEWSKQGEIGRRKLNQATRYITLVLAMAQSIG 128
+
+Query: 55  LVLNLPLQE---AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     ++   +L  G+  + W+ +     G G    +I+ A +
+Sbjct: 129 ITAGFQAMSSLNIVQNPNWQSYLMIGAILTTGSMVVTWMGEQINEKGFGSGVSVIIFAGI 188
+
+Query: 111 IAYIPQDIWNSIQELKI---------SSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           ++ IP  + +   E  +         S L++  +++ +++ +Y+   V++++ ++P+   
+Sbjct: 189 VSSIPSAVKSVYDEKFLNVRPSEIPMSWLFVIGLVLSAIIIIYVTTFVQQAERKVPIQYT 248
+
+Query: 162 NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPEN-QLIEQWIEALS 220
+            +       SYL +R+NPAG +P+++A ++ + P   L  +   Q  N   +    +ALS
+Sbjct: 249 KLTQGAPTSSYLPLRVNPAGVIPVIFAGSITTAPATILQFLQRSQGSNVGWLSTLQDALS 308
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+             +    + Y L I +    ++F+ ++ +++AE +QK G YI +V PG  T +Y++ L+ 
+Sbjct: 309 YTTWTGMLFYALLIVLFTFFYSFVQVNPEKMAENLQKQGSYIPSVRPGKGTEKYVSRLLM 368
+
+Query: 281 YFALVGAFYLILISGLPMMVVL-VDIRYL 308
+             A VGA +L LIS +P+       +  +
+Sbjct: 369 RLATVGALFLGLISIIPIAAQNVWGLPKI 397
+
+
+>sp|P0A5Z2|SECY_MYCTU Preprotein translocase subunit secY
+           OS=Mycobacterium tuberculosis GN=secY PE=3 SV=1
+          Length = 441
+
+ Score =  253 bits (648), Expect = 9e-67,   Method: Composition-based stats.
+ Identities = 70/350 (20%), Positives = 149/350 (42%), Gaps = 30/350 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F+VG+ P++++ +I Q+  V       +L  E Q            L + +A++Q+ +
+Sbjct: 75  TVFAVGVMPYITASIIVQLLTVV-IPRFEELRKEGQAGQSKMTQYTRYLAIALAILQATS 133
+
+Query: 55  LVLNLPLQE--------AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMI 105
+           +V                        +V+  LV+  G   ++W+ +L    G+G    ++
+Sbjct: 134 IVALAANGGLLQGCSLDIIADQSIFTLVVIVLVMTGGAALVMWMGELITERGIGNGMSLL 193
+
+Query: 106 VMASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI---- 161
+           +   + A IP +  + ++      +    +   +L+ +   V VE+ + RIPV       
+Sbjct: 194 IFVGIAARIPAEGQSILES--RGGVVFTAVCAAALIIIVGVVFVEQGQRRIPVQYAKRMV 251
+
+Query: 162 NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQP---ENQLIEQWIEA 218
+                    +YL +++N AG +P+++A +L+ IP     +I         +   +     
+Sbjct: 252 GRRMYGGTSTYLPLKVNQAGVIPVIFASSLIYIPHLITQLIRSGSGVVGNSWWDKFVGTY 311
+
+Query: 219 LS-MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+           LS   +  +  +Y   I      +  I  + D+ A+ M+K G +I  + PG  T  Y+  
+Sbjct: 312 LSDPSNLVYIGIYFGLIIFFTYFYVSITFNPDERADEMKKFGGFIPGIRPGRPTADYLRY 371
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVLVD----IRYLRLSMIPGIFMIFIGM 323
+           +++   L G+ YL +I+ LP + + +     ++ L       + MI +G+
+Sbjct: 372 VLSRITLPGSIYLGVIAVLPNLFLQIGAGGTVQNLPFGGTAVLIMIGVGL 421
+
+
+>sp|P0A5Z3|SECY_MYCBO Preprotein translocase subunit secY
+           OS=Mycobacterium bovis GN=secY PE=3 SV=1
+          Length = 441
+
+ Score =  253 bits (648), Expect = 9e-67,   Method: Composition-based stats.
+ Identities = 70/350 (20%), Positives = 149/350 (42%), Gaps = 30/350 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F+VG+ P++++ +I Q+  V       +L  E Q            L + +A++Q+ +
+Sbjct: 75  TVFAVGVMPYITASIIVQLLTVV-IPRFEELRKEGQAGQSKMTQYTRYLAIALAILQATS 133
+
+Query: 55  LVLNLPLQE--------AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMI 105
+           +V                        +V+  LV+  G   ++W+ +L    G+G    ++
+Sbjct: 134 IVALAANGGLLQGCSLDIIADQSIFTLVVIVLVMTGGAALVMWMGELITERGIGNGMSLL 193
+
+Query: 106 VMASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI---- 161
+           +   + A IP +  + ++      +    +   +L+ +   V VE+ + RIPV       
+Sbjct: 194 IFVGIAARIPAEGQSILES--RGGVVFTAVCAAALIIIVGVVFVEQGQRRIPVQYAKRMV 251
+
+Query: 162 NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQP---ENQLIEQWIEA 218
+                    +YL +++N AG +P+++A +L+ IP     +I         +   +     
+Sbjct: 252 GRRMYGGTSTYLPLKVNQAGVIPVIFASSLIYIPHLITQLIRSGSGVVGNSWWDKFVGTY 311
+
+Query: 219 LS-MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+           LS   +  +  +Y   I      +  I  + D+ A+ M+K G +I  + PG  T  Y+  
+Sbjct: 312 LSDPSNLVYIGIYFGLIIFFTYFYVSITFNPDERADEMKKFGGFIPGIRPGRPTADYLRY 371
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVLVD----IRYLRLSMIPGIFMIFIGM 323
+           +++   L G+ YL +I+ LP + + +     ++ L       + MI +G+
+Sbjct: 372 VLSRITLPGSIYLGVIAVLPNLFLQIGAGGTVQNLPFGGTAVLIMIGVGL 421
+
+
+>sp|P43416|SECY_STRSC Preprotein translocase subunit secY
+           OS=Streptomyces scabies GN=secY PE=3 SV=1
+          Length = 437
+
+ Score =  253 bits (648), Expect = 9e-67,   Method: Composition-based stats.
+ Identities = 70/325 (21%), Positives = 144/325 (44%), Gaps = 26/325 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           ++F++G+ P++++ +I Q+  V     L  L  E Q            LT+ +A++Q   
+Sbjct: 73  TIFALGIMPYITASIILQLLTVV-IPRLEALKKEGQSGTAKITQYTRYLTVALAVLQGTG 131
+
+Query: 55  LVLNLPLQEAAG----------VDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-I 103
+           LV                     D     +   + + AGT  ++WL +L    G+G    
+Sbjct: 132 LVATARSGALFSQCPQANNIVPDDSIFTTLTMVVTMTAGTAVVMWLGELITDRGIGNGMS 191
+
+Query: 104 MIVMASMIAYIPQDIWNSIQELKI--SSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           +++  S+ A  P  +W+  ++  +    +   +++   LV + L V VE+++ RIPV   
+Sbjct: 192 ILMFISIAATFPSALWSIKEQGDLAGGWIEFGIVIAVGLVMVALVVFVEQAQRRIPVQYA 251
+
+Query: 162 ----NIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+                  +     +Y+ +++N AG +P+++A +L+ IP   +            I++   
+Sbjct: 252 KRMIGRRSYGGTSTYIPLKVNQAGIIPVIFASSLLYIPALVVQFSGSTAGWAAWIQK--N 309
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+                +PA   +Y   I   A  +  I+ + +++A+ M+K G +I  +  G  T  Y++ 
+Sbjct: 310 LADTAAPAHITVYFFLIIFFAFFYVAISFNPEEVADNMKKYGGFIPGIRAGRPTAEYLSY 369
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVL 302
+           ++      G+ YL LI+ +P M + 
+Sbjct: 370 VLNRITWPGSLYLGLIALVPTMALA 394
+
+
+>sp|Q9XQU4|SECY_PEA Preprotein translocase subunit secY,
+           chloroplastic OS=Pisum sativum GN=SECY PE=2 SV=1
+          Length = 527
+
+ Score =  252 bits (645), Expect = 2e-66,   Method: Composition-based stats.
+ Identities = 56/315 (17%), Positives = 145/315 (46%), Gaps = 20/315 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+            + S+G+ P++++ +++Q+ A            E +             ++  A++Q++ 
+Sbjct: 171 GICSLGIVPFINAQIVFQLLAQVYPKLQDLQKKEGEAGRKKLLQYTRYASVGFAIVQAIG 230
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+            VL L  +  A    T   +   ++L  G+ F  ++ +    + LG    +++  ++I+Y
+Sbjct: 231 QVLFL--RPYANDFTTEWALTSVILLTLGSVFTTYIGEQITELKLGNGTSLLIFTNIISY 288
+
+Query: 114 IPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKINI----HNRF 167
+           +P     +  +    + ++ L  ++V   + +   V V+ ++ +IP+N  +         
+Sbjct: 289 LPASFGRTFSQAFSDANYVGLVTIIVSFFLLVLGIVYVQEAERKIPINYASRFTSKSGGI 348
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+           +K +YL  ++N +G MPI+++ + +++P            +   +     AL+ G   + 
+Sbjct: 349 EKSAYLPFKVNSSGVMPIIFSTSSLALPGTLARFTGLSSLKTAAV-----ALNPGGSFYL 403
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+              +L I      + F+ +  D ++E++++ G  I  V PG +T  +I  +++  +++G+
+Sbjct: 404 PFNILLIAFFNYYYTFLQLDPDDVSEQLKRQGASIPLVRPGKSTATFIKTVLSRISVLGS 463
+
+Query: 288 FYLILISGLPMMVVL 302
+            +L +++  P +V  
+Sbjct: 464 TFLAILAAGPAVVEQ 478
+
+
+>sp|P0AGA5|SECY_SHIFL Preprotein translocase subunit secY
+           OS=Shigella flexneri GN=secY PE=3 SV=1
+          Length = 443
+
+ Score =  252 bits (645), Expect = 2e-66,   Method: Composition-based stats.
+ Identities = 76/326 (23%), Positives = 151/326 (46%), Gaps = 21/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+  V     L+++  E +  RR         TLV+A+ QS+ 
+Sbjct: 76  SIFALGIMPYISASIIIQLLTVVH-PTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIG 134
+
+Query: 55  LVLNLPLQE----AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIV-MAS 109
+           +   LP                     + L+ GT FL+WL +     G+G  I I+  A 
+Sbjct: 135 IATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAG 194
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTV---ERSKYRIPVNKINIHNR 166
+           ++A +P  I ++I++ +   L   ++L+ +++   +   V   ER + RI VN       
+Sbjct: 195 IVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQG 254
+
+Query: 167 FK----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +    + ++L +++N AG +P ++A +++  P             N  +      L  G
+Sbjct: 255 RRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWN-WLTTISLYLQPG 313
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + +LY   I      +  +  +  + A+ ++KSG ++  + PG  T +YI+ ++T  
+Sbjct: 314 QPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRL 373
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+            LVGA Y+  I  +P  +   + + +
+Sbjct: 374 TLVGALYITFICLIPEFMRDAMKVPF 399
+
+
+>sp|P0AGA2|SECY_ECOLI Preprotein translocase subunit secY
+           OS=Escherichia coli (strain K12) GN=secY PE=1 SV=1
+          Length = 443
+
+ Score =  252 bits (645), Expect = 2e-66,   Method: Composition-based stats.
+ Identities = 76/326 (23%), Positives = 151/326 (46%), Gaps = 21/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+  V     L+++  E +  RR         TLV+A+ QS+ 
+Sbjct: 76  SIFALGIMPYISASIIIQLLTVVH-PTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIG 134
+
+Query: 55  LVLNLPLQE----AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIV-MAS 109
+           +   LP                     + L+ GT FL+WL +     G+G  I I+  A 
+Sbjct: 135 IATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAG 194
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTV---ERSKYRIPVNKINIHNR 166
+           ++A +P  I ++I++ +   L   ++L+ +++   +   V   ER + RI VN       
+Sbjct: 195 IVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQG 254
+
+Query: 167 FK----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +    + ++L +++N AG +P ++A +++  P             N  +      L  G
+Sbjct: 255 RRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWN-WLTTISLYLQPG 313
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + +LY   I      +  +  +  + A+ ++KSG ++  + PG  T +YI+ ++T  
+Sbjct: 314 QPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRL 373
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+            LVGA Y+  I  +P  +   + + +
+Sbjct: 374 TLVGALYITFICLIPEFMRDAMKVPF 399
+
+
+>sp|P0AGA3|SECY_ECOL6 Preprotein translocase subunit secY
+           OS=Escherichia coli O6 GN=secY PE=3 SV=1
+          Length = 443
+
+ Score =  252 bits (645), Expect = 2e-66,   Method: Composition-based stats.
+ Identities = 76/326 (23%), Positives = 151/326 (46%), Gaps = 21/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+  V     L+++  E +  RR         TLV+A+ QS+ 
+Sbjct: 76  SIFALGIMPYISASIIIQLLTVVH-PTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIG 134
+
+Query: 55  LVLNLPLQE----AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIV-MAS 109
+           +   LP                     + L+ GT FL+WL +     G+G  I I+  A 
+Sbjct: 135 IATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAG 194
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTV---ERSKYRIPVNKINIHNR 166
+           ++A +P  I ++I++ +   L   ++L+ +++   +   V   ER + RI VN       
+Sbjct: 195 IVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQG 254
+
+Query: 167 FK----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +    + ++L +++N AG +P ++A +++  P             N  +      L  G
+Sbjct: 255 RRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWN-WLTTISLYLQPG 313
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + +LY   I      +  +  +  + A+ ++KSG ++  + PG  T +YI+ ++T  
+Sbjct: 314 QPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRL 373
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+            LVGA Y+  I  +P  +   + + +
+Sbjct: 374 TLVGALYITFICLIPEFMRDAMKVPF 399
+
+
+>sp|P0AGA4|SECY_ECO57 Preprotein translocase subunit secY
+           OS=Escherichia coli O157:H7 GN=secY PE=3 SV=1
+          Length = 443
+
+ Score =  252 bits (645), Expect = 2e-66,   Method: Composition-based stats.
+ Identities = 76/326 (23%), Positives = 151/326 (46%), Gaps = 21/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+  V     L+++  E +  RR         TLV+A+ QS+ 
+Sbjct: 76  SIFALGIMPYISASIIIQLLTVVH-PTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIG 134
+
+Query: 55  LVLNLPLQE----AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIV-MAS 109
+           +   LP                     + L+ GT FL+WL +     G+G  I I+  A 
+Sbjct: 135 IATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAG 194
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTV---ERSKYRIPVNKINIHNR 166
+           ++A +P  I ++I++ +   L   ++L+ +++   +   V   ER + RI VN       
+Sbjct: 195 IVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQG 254
+
+Query: 167 FK----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +    + ++L +++N AG +P ++A +++  P             N  +      L  G
+Sbjct: 255 RRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWN-WLTTISLYLQPG 313
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + +LY   I      +  +  +  + A+ ++KSG ++  + PG  T +YI+ ++T  
+Sbjct: 314 QPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRL 373
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+            LVGA Y+  I  +P  +   + + +
+Sbjct: 374 TLVGALYITFICLIPEFMRDAMKVPF 399
+
+
+>sp|Q05207|SECY_BACLD Preprotein translocase subunit secY
+           OS=Bacillus licheniformis (strain DSM 13 / ATCC 14580)
+           GN=secY PE=3 SV=2
+          Length = 431
+
+ Score =  250 bits (640), Expect = 8e-66,   Method: Composition-based stats.
+ Identities = 68/325 (20%), Positives = 147/325 (45%), Gaps = 26/325 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+ ++G+ P++++ +I Q+  +      ++   + +  RR         T+V+  IQ++ 
+Sbjct: 68  SILAMGIMPYITASIIIQLLQMDVVPKFTEWSKQGEVGRRKLAQFTRYFTIVLGFIQALG 127
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                     +L  +VL AGT FL+WL +   + G+G    +I+ A +
+Sbjct: 128 MSYGFNNMAGGALITDPGVGTYLLIAIVLTAGTAFLMWLGEQITSHGVGNGISIIIFAGI 187
+
+Query: 111 IAYIPQDIWNSI--------QELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKIN 162
+           +A IPQ I             +L +  + + ++LV  L  +   + ++++  +I +    
+Sbjct: 188 VAGIPQTINQIYAQQFVDAGDQLFLQIIKVVVILVAILAIVVGVIFIQQAVRKISIQYAK 247
+
+Query: 163 IHNR----FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEA 218
+              R      + ++L +++NPAG +P+++A+  ++ P+            N       + 
+Sbjct: 248 GSGRSPVPGGQSTHLPLKVNPAGVIPVIFAVAFITTPRTVATFFGSNDVTN----WIQKT 303
+
+Query: 219 LSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGL 278
+                P    +Y   I      +AF+ ++ +Q+A+ ++K G YI  V PG  T+  I  +
+Sbjct: 304 FDYTHPVGMGVYAALIIAFTYFYAFVQVNPEQMADNLKKQGGYIPGVRPGKMTQDRITSI 363
+
+Query: 279 VTYFALVGAFYLILISGLPMMVVLV 303
+           +     VG+ +L +I+ LP++ V +
+Sbjct: 364 LYRLTFVGSIFLAVIAILPVLFVNI 388
+
+
+>sp|O63066|SECY_MAIZE Preprotein translocase subunit secY,
+           chloroplastic OS=Zea mays GN=SECY PE=2 SV=1
+          Length = 553
+
+ Score =  250 bits (640), Expect = 8e-66,   Method: Composition-based stats.
+ Identities = 56/315 (17%), Positives = 148/315 (46%), Gaps = 20/315 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+            + S+G+ P++++ +++Q+ A            E +             ++  A++Q++ 
+Sbjct: 195 GICSLGIVPFINAQIVFQLLAQLYPKLQDLQRKEGEAGRKKVLQYTRYASVGFAIVQAIG 254
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+            VL L  +       T  ++    +L  G+ F  ++ +  + + LG    +++  S+I+Y
+Sbjct: 255 QVLYL--RPYVNDFSTEWVLTSVTLLTLGSVFTTFIGERISDLKLGNGTSLLIFTSIISY 312
+
+Query: 114 IPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKINIHNRF---- 167
+           +P     ++ +      ++ L  +++  L+ +   V V+ ++ +IP+N  + ++      
+Sbjct: 313 LPASFGRTVAQAFQDGNYVGLLTIILSFLLLVLGIVYVQEAERKIPLNYASRYSSRTGEL 372
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+           ++ +YL  ++N +G MPI+++ + +++P                +++   AL+ G   + 
+Sbjct: 373 QRSAYLPFKVNSSGVMPIIFSTSSLALPGTLARFSGLDF-----LKKAAIALNPGGALYL 427
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+              +L I      + F+ +  D ++E++++ G  I  V PG +T  YI  ++   +++G+
+Sbjct: 428 PTNVLLIAFFNYYYTFLQLDPDDLSEQLKRQGASIPLVRPGKSTAAYIKTVLNRISVLGS 487
+
+Query: 288 FYLILISGLPMMVVL 302
+            +L +++  P +V  
+Sbjct: 488 AFLAVLAAGPSLVEQ 502
+
+
+>sp|P16336|SECY_BACSU Preprotein translocase subunit secY
+           OS=Bacillus subtilis GN=secY PE=3 SV=1
+          Length = 431
+
+ Score =  249 bits (636), Expect = 2e-65,   Method: Composition-based stats.
+ Identities = 65/329 (19%), Positives = 148/329 (44%), Gaps = 27/329 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G++P++++ +I Q+  +      ++   + +  RR         T+V+  IQ++ 
+Sbjct: 68  SIFAMGITPYITASIIIQLLQMDVVPKFTEWSKQGEVGRRKLAQFTRYFTIVLGFIQALG 127
+
+Query: 55  LVLNLPL---QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+           +                  +  ++  LVL  GT FL+WL +   + G+G    +I+ A +
+Sbjct: 128 MSYGFNNLANGMLIEKSGVSTYLIIALVLTGGTAFLMWLGEQITSHGVGNGISIIIFAGI 187
+
+Query: 111 IAYIPQDIWNSIQELKISS--------LWLALMLVFSLVFLYLAVTVERSKYRIPVNKIN 162
+           ++ IP+ I    +   + S        + +AL+++  L  +   + ++++  +I +    
+Sbjct: 188 VSSIPKTIGQIYETQFVGSNDQLFIHIVKVALLVIAILAVIVGVIFIQQAVRKIAIQYAK 247
+
+Query: 163 IHN----RFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEA 218
+                     + ++L +++NPAG +P+++A+  +  P+            N + +     
+Sbjct: 248 GTGRSPAGGGQSTHLPLKVNPAGVIPVIFAVAFLITPRTIASFFG----TNDVTKWIQNN 303
+
+Query: 219 LSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGL 278
+                P    +Y+  I      +AF+ ++ +Q+A+ ++K G YI  V PG  T+  I  +
+Sbjct: 304 FDNTHPVGMAIYVALIIAFTYFYAFVQVNPEQMADNLKKQGGYIPGVRPGKMTQDRITSI 363
+
+Query: 279 VTYFALVGAFYLILISGLP-MMVVLVDIR 306
+           +     VG+ +L +IS LP   +    + 
+Sbjct: 364 LYRLTFVGSIFLAVISILPIFFIQFAGLP 392
+
+
+>sp|P38375|SECY_BACHD Preprotein translocase subunit secY
+           OS=Bacillus halodurans GN=secY PE=3 SV=2
+          Length = 430
+
+ Score =  247 bits (632), Expect = 7e-65,   Method: Composition-based stats.
+ Identities = 71/321 (22%), Positives = 149/321 (46%), Gaps = 24/321 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++++ ++ Q+  +      ++   E +  RR         T+V+  IQ++ 
+Sbjct: 68  SIFAMGIMPYITASIVMQLLQMDVVPKFAEWAKEGEAGRRKLAQFTRYGTIVLGFIQALG 127
+
+Query: 55  LVLNLP--LQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMI 111
+           + +               ++ +   LVL AGT FL+WL +   A G+G    +I+ A + 
+Sbjct: 128 MSVGFNNFFPGLIPNPSVSVYLFIALVLTAGTAFLMWLGEQITAKGVGNGISIIIFAGIA 187
+
+Query: 112 AYIPQDIWNSI--------QELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+           A IP  +            ++L ++ + + L+ +  L  +   + V+++  +IPV     
+Sbjct: 188 AGIPNGLNLIYSTRIQDAGEQLFLNIVVILLLALAILAIIVGVIFVQQALRKIPVQYAKR 247
+
+Query: 164 HNRF----KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEAL 219
+                    + ++L +++N AG +P+++A++L   P     +     P    +   IE  
+Sbjct: 248 LVGRNPVGGQSTHLPLKVNAAGVIPVIFALSLFIFPPTVAGLFGSDHPVAAWV---IETF 304
+
+Query: 220 SMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLV 279
+               P    +Y L I      + FI ++ +++AE ++K G YI  + PG AT+ YI  ++
+Sbjct: 305 DYTHPIGMAVYALLIIGFTYFYTFIQVNPERMAENLKKQGGYIPGIRPGKATQTYITRIL 364
+
+Query: 280 TYFALVGAFYLILISGLPMMV 300
+                VG+ +L +++ LP+  
+Sbjct: 365 YRLTFVGSLFLAVVAILPVFF 385
+
+
+>sp|Q38885|SECY_ARATH Preprotein translocase subunit secY,
+           chloroplastic OS=Arabidopsis thaliana GN=SECY PE=1 SV=2
+          Length = 551
+
+ Score =  247 bits (632), Expect = 7e-65,   Method: Composition-based stats.
+ Identities = 58/316 (18%), Positives = 143/316 (45%), Gaps = 20/316 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+            + S+G+ P++++ +++Q+ A            E +             ++  A++Q++ 
+Sbjct: 193 GICSLGIVPFINAQIVFQLLAQVYPKLQDLQKKEGEAGRKKILQYTRYASVGFAIVQAIG 252
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+            V  L  +       T  +V    +L  G+    ++ +  + + LG    +++  S+I+Y
+Sbjct: 253 QVFYL--RPYVNDFSTEWVVSSVTLLTLGSVLTTYIGERISDLKLGNGTSLLIFTSIISY 310
+
+Query: 114 IPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKINIH----NRF 167
+           +P     +  E      +  L  ++V  L+ +   V V+ ++ +IP+N  + +       
+Sbjct: 311 LPASFGRTTAEALQEGNYTGLGTIVVSFLLLVLGIVYVQEAERKIPLNYASRYTSKAGGL 370
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+           +K +YL  ++N AG MPI+++ + +++P                ++    AL+ G   + 
+Sbjct: 371 QKSAYLPFKVNSAGVMPIIFSTSSLALPATLARFTGI-----SALKNVAFALTPGGSFYL 425
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+              +L I      + F+ +  D ++E++++ G  I  V PG +T  +I  ++   +++G+
+Sbjct: 426 PTNILLIAFFNYYYTFLQLDPDDVSEQLKRQGASIPLVRPGKSTALFIKTVLGRISVLGS 485
+
+Query: 288 FYLILISGLPMMVVLV 303
+            +L +++  P +V  +
+Sbjct: 486 AFLAVLAAGPAVVEQI 501
+
+
+>sp|P0A4H1|SECY_SYNP6 Preprotein translocase subunit secY
+           OS=Synechococcus sp. (strain ATCC 27144 / PCC 6301 /
+           SAUG 1402/1) GN=secY PE=3 SV=1
+          Length = 439
+
+ Score =  246 bits (630), Expect = 1e-64,   Method: Composition-based stats.
+ Identities = 68/319 (21%), Positives = 150/319 (47%), Gaps = 25/319 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+            +F++G+ P++++ +I Q+   +          E +  RR        ++L  AL+QS+ 
+Sbjct: 83  GVFALGILPYINASIILQLLTAAVPALEDLQKNEGEAGRRKIAQLTRYVSLGWALLQSIV 142
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+           + +   +   A        +   L L+AG+ F++W+++L    G+G    +++  +++A 
+Sbjct: 143 IAVW--VTRYAVTPGPLFTIQTALALVAGSMFVMWISELITERGIGNGASLLIFLNIVAT 200
+
+Query: 114 IPQDIWNSIQELKISS----LWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI----HN 165
+           +P+ +  +++  +         + ++L+  L  +   V V+    RIPV           
+Sbjct: 201 LPRSLQQTLELAQSGDRSTVGGIVILLIVFLATIVGIVFVQEGTRRIPVVSARRQVGNRV 260
+
+Query: 166 RFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGS-- 223
+             ++ SYL +RLN  G MPI++A  ++ +P             N+++ +    LS     
+Sbjct: 261 YSERSSYLPLRLNQGGVMPIIFASAILVLPFSLANFT-----SNEVVLRIANYLSPNGPT 315
+
+Query: 224 -PAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+              + + YL+ I   +  ++ + ++   +A+ ++K G  I  V PG AT +Y+ G++   
+Sbjct: 316 PWIYALFYLVLIVAFSYFYSSLILNPVDLAQNLKKMGSSIPGVRPGRATSQYVQGVLNRL 375
+
+Query: 283 ALVGAFYLILISGLPMMVV 301
+            ++GA +L L++ +P  V 
+Sbjct: 376 TILGAVFLGLVAIIPTAVE 394
+
+
+>sp|P0A4H0|SECY_SYNE7 Preprotein translocase subunit secY
+           OS=Synechococcus elongatus (strain PCC 7942) GN=secY
+           PE=3 SV=1
+          Length = 439
+
+ Score =  246 bits (630), Expect = 1e-64,   Method: Composition-based stats.
+ Identities = 68/319 (21%), Positives = 150/319 (47%), Gaps = 25/319 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+            +F++G+ P++++ +I Q+   +          E +  RR        ++L  AL+QS+ 
+Sbjct: 83  GVFALGILPYINASIILQLLTAAVPALEDLQKNEGEAGRRKIAQLTRYVSLGWALLQSIV 142
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+           + +   +   A        +   L L+AG+ F++W+++L    G+G    +++  +++A 
+Sbjct: 143 IAVW--VTRYAVTPGPLFTIQTALALVAGSMFVMWISELITERGIGNGASLLIFLNIVAT 200
+
+Query: 114 IPQDIWNSIQELKISS----LWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI----HN 165
+           +P+ +  +++  +         + ++L+  L  +   V V+    RIPV           
+Sbjct: 201 LPRSLQQTLELAQSGDRSTVGGIVILLIVFLATIVGIVFVQEGTRRIPVVSARRQVGNRV 260
+
+Query: 166 RFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGS-- 223
+             ++ SYL +RLN  G MPI++A  ++ +P             N+++ +    LS     
+Sbjct: 261 YSERSSYLPLRLNQGGVMPIIFASAILVLPFSLANFT-----SNEVVLRIANYLSPNGPT 315
+
+Query: 224 -PAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+              + + YL+ I   +  ++ + ++   +A+ ++K G  I  V PG AT +Y+ G++   
+Sbjct: 316 PWIYALFYLVLIVAFSYFYSSLILNPVDLAQNLKKMGSSIPGVRPGRATSQYVQGVLNRL 375
+
+Query: 283 ALVGAFYLILISGLPMMVV 301
+            ++GA +L L++ +P  V 
+Sbjct: 376 TILGAVFLGLVAIIPTAVE 394
+
+
+>sp|Q6ZG25|SECY_ORYSJ Preprotein translocase subunit secY,
+           chloroplastic OS=Oryza sativa subsp. japonica GN=SECY
+           PE=2 SV=1
+          Length = 556
+
+ Score =  246 bits (629), Expect = 2e-64,   Method: Composition-based stats.
+ Identities = 54/316 (17%), Positives = 148/316 (46%), Gaps = 20/316 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+            + S+G+ P++++ +++Q+ A            E +             ++  A++Q++ 
+Sbjct: 198 GICSLGIVPFINAQIVFQLLAQLYPKLQDLQKKEGEAGRKKVLQYTRYASVGFAIVQAIG 257
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+            VL L  +       T  ++    +L  G+ F  ++ +  + + LG    +++  S+I+Y
+Sbjct: 258 QVLFL--RPYVNDFSTEWVLTSVTLLTLGSVFTTFIGERISDLKLGNGTSLLIFTSIISY 315
+
+Query: 114 IPQDIWNSIQELKISSLWLAL--MLVFSLVFLYLAVTVERSKYRIPVNKINI----HNRF 167
+           +P     ++ +      ++ L  +++  L  +   V V+ ++ +IP+N  +         
+Sbjct: 316 LPASFGRTVAQAFQDGNYVGLLTIILSFLFLVLGIVYVQEAERKIPLNYASRYSSRSGGL 375
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+           ++ +YL  ++N +G MPI+++ + +++P              + +++   +L+ G   + 
+Sbjct: 376 QRSAYLPFKVNSSGVMPIIFSTSSLALPGTLARFTGL-----EFLKKAAISLNPGGALYI 430
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+              +L I      + F+ +  D ++E++++ G  I  V PG +T  +I  +++  +++G+
+Sbjct: 431 PTNVLLIAFFNYYYTFLQLDPDDLSEQLKRQGASIPLVRPGKSTAAFIKTVLSNISVLGS 490
+
+Query: 288 FYLILISGLPMMVVLV 303
+            +L +++  P +V  +
+Sbjct: 491 AFLAVLAAGPSVVEQI 506
+
+
+>sp|P51297|SECY_PORPU Preprotein translocase subunit secY
+           OS=Porphyra purpurea GN=secY PE=3 SV=1
+          Length = 411
+
+ Score =  244 bits (623), Expect = 8e-64,   Method: Composition-based stats.
+ Identities = 73/323 (22%), Positives = 149/323 (46%), Gaps = 22/323 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR-------MLLTLVIALIQSV 53
+            +F++G+ P+++S ++ Q+        L KL  E  E  R         L L  A +QS 
+Sbjct: 62  GIFALGIVPYINSSIVMQLLT-KIIPDLEKLQKEEGELGRQKITQITRYLALGWATLQSG 120
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIA 112
+           A+ +   ++        T +    L L AG+  ++WL++L    G+G    +++  ++++
+Sbjct: 121 AISIW--VKPYVFNWNFTFVCESVLALTAGSMIIMWLSELITEKGIGNGASLLIFQNIVS 178
+
+Query: 113 YIPQDIWNSIQELKISS--LWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKK- 169
+            +P++   S  +   S+  +   L +V  L+ + + + V+    RI +       +    
+Sbjct: 179 GLPKNFTQSFFDANYSNTSIKFGLFIVIFLLMIIITIFVQEGTRRIKIISARQLGKSSIL 238
+
+Query: 170 --YSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+              SYL ++LN  G MPI++A   +++P Y   +      +N  + Q +         + 
+Sbjct: 239 DPNSYLPLKLNQGGVMPIVFASASMALPAYLTQLT-----QNTFLLQVLYLFCPNGSLYL 293
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+           +LY + I   +  +  I ++ + IA  ++K G  I N+ PG AT  Y+  ++     +GA
+Sbjct: 294 VLYSVLILFFSYFYTSIVMNPEDIATNLKKMGASIPNIRPGQATIDYLQVILNRLTFLGA 353
+
+Query: 288 FYLILISGLPMMVVLV-DIRYLR 309
+            +L  ++ +P ++  V  I+ LR
+Sbjct: 354 TFLFTVALIPFIIEKVAQIQNLR 376
+
+
+>sp|O66491|SECY_AQUAE Preprotein translocase subunit secY OS=Aquifex
+           aeolicus GN=secY PE=1 SV=1
+          Length = 429
+
+ Score =  240 bits (612), Expect = 1e-62,   Method: Composition-based stats.
+ Identities = 77/329 (23%), Positives = 156/329 (47%), Gaps = 28/329 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ-------ERRRMLLTLVIALIQSV 53
+           ++F++G+ P++S+ ++ Q+  V+    L +L  E               LTL +A +QS+
+Sbjct: 71  TVFALGVMPYISASIMMQLLTVA-IPSLQRLAKEEGDYGRYKINEYTKYLTLFVATVQSL 129
+
+Query: 54  ALVLNLPLQ------EAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIV 106
+            +   +  Q              + +++  L L+AGT FL+W+ D     G+G    +I+
+Sbjct: 130 GIAFWIRGQVSPKGIPVVENPGISFILITVLTLVAGTMFLVWIADRITEKGIGNGASLII 189
+
+Query: 107 MASMIAYIPQDIWNSIQELKISS---LWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI 163
+            A ++A  P  +    +++K      L L L++   +  +   V V+ ++ RIP+     
+Sbjct: 190 FAGIVANFPNAVIQFYEKVKTGDIGPLTLLLIIALIIAIIVGIVYVQEAERRIPIQYPGR 249
+
+Query: 164 HNRF----KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEAL 219
+                    + +YL I++NPAG +PI++A  L+ IP   L  +     +N  I+   +  
+Sbjct: 250 QVGRQLYAGRKTYLPIKINPAGVIPIIFAQALLLIPSTLLNFV-----QNPFIKVIADMF 304
+
+Query: 220 SMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLV 279
+             G+  +  LY+  I      +  + I+  ++AE + K+G +I  V PG  T +Y+  ++
+Sbjct: 305 QPGAIFYNFLYVTFIVFFTYFYTAVLINPVELAENLHKAGAFIPGVRPGQDTVKYLERII 364
+
+Query: 280 TYFALVGAFYLILISGLPMMVVLV-DIRY 307
+                 GA +L +I+ +P+++ +  +I +
+Sbjct: 365 NRLIFFGALFLSVIALIPILISVWFNIPF 393
+
+
+>sp|Q4UMQ9|SECY_RICFE Preprotein translocase subunit secY
+           OS=Rickettsia felis GN=secY PE=3 SV=1
+          Length = 433
+
+ Score =  240 bits (612), Expect = 1e-62,   Method: Composition-based stats.
+ Identities = 66/344 (19%), Positives = 155/344 (45%), Gaps = 25/344 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++ + P++++ +I Q+ +V+ +  L  L  E +  +R        LT+++A  Q+  
+Sbjct: 70  SIFALAIMPYITASIIIQLMSVAYKP-LENLKKEGEVGKRKVNQLSRYLTVLLASFQAYG 128
+
+Query: 55  LVLNL-----PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMA 108
+           + ++L            +      V   + L+ GT  L+WL +     G+G    +I+  
+Sbjct: 129 VAISLESIVTNTGPVVILAGFFFRVTTVITLVVGTMLLMWLGEQITQRGIGNGTSLIIFI 188
+
+Query: 109 SMIAYIPQDIWNSIQELKISSLWLALMLVFSL---VFLYLAVTVERSKYRIPVNKINIH- 164
+            +I+ +P  I +  +  +  +L   + L   +   V + + +  E+++ ++ V       
+Sbjct: 189 GIISGVPSAIISMFELSRKGALSPLIALAVCIGVVVLIAIIIFFEKAQRKLLVQYPKRQV 248
+
+Query: 165 ---NRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSM 221
+                  + +++ ++LN +G +P ++A +++  P             ++ +      L  
+Sbjct: 249 GNKIYGGEATHMPLKLNTSGVIPPIFASSILLFPATLANF---SNSNSETMGMLTYYLGH 305
+
+Query: 222 GSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTY 281
+           G P + +LY+  I   +  +  I  + ++ A  ++K G YI    PG  T  Y + ++T 
+Sbjct: 306 GKPVYILLYVALIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSDYFDYILTR 365
+
+Query: 282 FALVGAFYLILISGLPMMVVLVDIRYLRLSMIPGIFMIFIGMVF 325
+             ++G  YL +I  +P ++  ++   + LS+    F+I + +V 
+Sbjct: 366 LTVIGGIYLSVICVIPELL--MNKYVISLSLGGTSFLIVVNVVL 407
+
+
+>sp|Q68W98|SECY_RICTY Preprotein translocase subunit secY
+           OS=Rickettsia typhi GN=secY PE=3 SV=1
+          Length = 433
+
+ Score =  238 bits (609), Expect = 3e-62,   Method: Composition-based stats.
+ Identities = 65/344 (18%), Positives = 157/344 (45%), Gaps = 25/344 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++ + P++++ +I Q+ +V+ +  L  L  E +  +R        LT+++A  Q+  
+Sbjct: 70  SIFALAIMPYITASIIIQLMSVAYKP-LENLKKEGESGKRKINQLSRYLTVLLASFQAYG 128
+
+Query: 55  LVLNL-----PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMA 108
+           + L+L            +      V   + L+ GT  L+WL +     G+G    +I+  
+Sbjct: 129 VALSLESMVTNTGPVVILAGFFFRVTTVITLVVGTMLLMWLGEQITQRGIGNGTSLIIFI 188
+
+Query: 109 SMIAYIPQDIWNSIQELKISSLWLAL---MLVFSLVFLYLAVTVERSKYRIPVNKINIH- 164
+            +I+ +P  I +  +  +  +L   +   + +  ++ + + +  E+++ ++ V       
+Sbjct: 189 GIISGVPSAIISMFELSRKGALSPLIAITVCIGVVLLIAIIIFFEKAQRKLLVQYPKRQV 248
+
+Query: 165 ---NRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSM 221
+                  + +++ ++LN +G +P ++A +++  P             ++ +      L  
+Sbjct: 249 GNKIYGGEATHMPLKLNTSGVIPPIFASSILLFPTTLANF---SNSNSETMSMLSYYLGH 305
+
+Query: 222 GSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTY 281
+           G P + +LY++ I   +  +  I  + ++ A  ++K G YI    PG  T  Y + ++T 
+Sbjct: 306 GKPVYILLYVVLIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSDYFDYILTR 365
+
+Query: 282 FALVGAFYLILISGLPMMVVLVDIRYLRLSMIPGIFMIFIGMVF 325
+             ++G  YL +I  +P ++  ++   + LS+    F+I + +V 
+Sbjct: 366 LTVIGGLYLSIICVIPELL--MNKYVISLSLGGTSFLIVVNVVL 407
+
+
+>sp|Q92GY6|SECY_RICCN Preprotein translocase subunit secY
+           OS=Rickettsia conorii GN=secY PE=3 SV=1
+          Length = 433
+
+ Score =  238 bits (608), Expect = 4e-62,   Method: Composition-based stats.
+ Identities = 65/344 (18%), Positives = 155/344 (45%), Gaps = 25/344 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++ + P++++ +I Q+ +V+ +  L  L  E +  +R        LT+++A  Q+  
+Sbjct: 70  SIFALAIMPYITASIIIQLMSVAYKP-LENLKKEGEVGKRKVNQLSRYLTVLLASFQAYG 128
+
+Query: 55  LVLNL-----PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMA 108
+           + ++L            +      +   + L+ GT  L+WL +     G+G    +I+  
+Sbjct: 129 VAISLESIVTNTGPVVILAGFFFRITTVITLVVGTMLLMWLGEQITQRGIGNGTSLIIFI 188
+
+Query: 109 SMIAYIPQDIWNSIQELKISSLWLALMLVFSL---VFLYLAVTVERSKYRIPVNKINIH- 164
+            +I+ +P  I +  +  +  +L   + +   +   V + + +  ER++ ++ V       
+Sbjct: 189 GIISGVPSAIISMFELSRKGALSPLIAIAVCIGVVVLIAIIIFFERAQRKLLVQYPKRQV 248
+
+Query: 165 ---NRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSM 221
+                  + +++ ++LN +G +P ++A +++  P             ++ +      L  
+Sbjct: 249 GNKIYGGEATHMPLKLNTSGVIPPIFASSILLFPATLANF---SNSNSETMGMLTYYLGH 305
+
+Query: 222 GSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTY 281
+           G P + +LY+  I   +  +  I  + ++ A  ++K G YI    PG  T  Y + ++T 
+Sbjct: 306 GKPVYILLYVALIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSDYFDYILTR 365
+
+Query: 282 FALVGAFYLILISGLPMMVVLVDIRYLRLSMIPGIFMIFIGMVF 325
+             ++G  YL +I  +P ++  ++   + LS+    F+I + +V 
+Sbjct: 366 LTVIGGIYLSVICVIPELL--MNKYVISLSLGGTSFLIVVNVVL 407
+
+
+>sp|Q1RHP1|SECY_RICBR Preprotein translocase subunit secY
+           OS=Rickettsia bellii (strain RML369-C) GN=secY PE=3 SV=1
+          Length = 433
+
+ Score =  238 bits (607), Expect = 6e-62,   Method: Composition-based stats.
+ Identities = 65/344 (18%), Positives = 156/344 (45%), Gaps = 25/344 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++ + P++++ +I Q+ +V+ +  L  L  E +  +R        LT+++A +Q+  
+Sbjct: 70  SIFALAIMPYITASIIIQLMSVAYKP-LENLKKEGEAGKRKINQLSRYLTVLLASLQAYG 128
+
+Query: 55  LVLNL-----PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMA 108
+           + ++L            +      +   + L+ GT  L+WL +     G+G    +I+  
+Sbjct: 129 VAVSLESIVTNTGPVVIIPGLFFKITTVITLVVGTMLLMWLGEQITQRGIGNGTSLIIFI 188
+
+Query: 109 SMIAYIPQDIWNSIQELKISSLWLALMLVFS---LVFLYLAVTVERSKYRIPVNKINIH- 164
+            +I+ +P  I +  +  +  +L   + +      ++ + + +  E+++ ++ V       
+Sbjct: 189 GIISGVPSAIISMFELSRKGALSPLVAIAVCAGVVILISIIIFFEKAQRKLLVQYPKRQV 248
+
+Query: 165 ---NRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSM 221
+                    +Y+ ++LN +G +P ++A +++  P             ++++      L  
+Sbjct: 249 GNKIYGGDSTYMPLKLNTSGVIPPIFASSILLFPATLANF---SSSNSEIMNMLTYYLGH 305
+
+Query: 222 GSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTY 281
+           G P + +LY+  I   +  +  I  + ++ A  ++K G YI    PG  T  Y + ++T 
+Sbjct: 306 GKPIYILLYVALIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSEYFDYILTR 365
+
+Query: 282 FALVGAFYLILISGLPMMVVLVDIRYLRLSMIPGIFMIFIGMVF 325
+             +VG  YL +I  +P ++  ++   + LS+    F+I + +V 
+Sbjct: 366 LTVVGGIYLSVICIIPELL--MNKYVISLSLGGTSFLIVVNVVL 407
+
+
+>sp|P38397|SECY_PYRSA Preprotein translocase subunit secY (Fragment)
+           OS=Pyrenomonas salina GN=secY PE=3 SV=1
+          Length = 412
+
+ Score =  237 bits (606), Expect = 7e-62,   Method: Composition-based stats.
+ Identities = 70/314 (22%), Positives = 146/314 (46%), Gaps = 22/314 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLE-VQERRRM------LLTLVIALIQSV 53
+            +F++G+ P++++ ++ Q  A +    L KL  E  +  R+          L  A IQS+
+Sbjct: 68  GIFALGIVPYINASIVIQ-LATTSIPNLEKLQKEEGEAGRQKISQITRYRALGWAAIQSL 126
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIA 112
+            +     ++       +  +V  TL L  G+  ++W ++     G+G    +++  ++IA
+Sbjct: 127 GVSFW--VRPYVFNWDSQFVVQMTLALTTGSMLIMWFSEQITEKGIGNGPSLLIFINIIA 184
+
+Query: 113 YIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSY 172
+            +P+ I      +  ++    L+++ S+      + +   +Y I +  +  H   K+ SY
+Sbjct: 185 GLPKLIQQKSNAISSTNQTTELVVLASISVYDSRIFIRDRRYYI-LQTVGRH--CKQTSY 241
+
+Query: 173 LDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSP---AWFIL 229
+           L +RLN  G MPI++A  ++ +P Y   +I     +NQ + + +  LS  S     + I 
+Sbjct: 242 LPLRLNQGGVMPIIFASAILVLPAYLGQVI-----QNQFVLKLVTLLSPNSSDKNLYLIF 296
+
+Query: 230 YLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFY 289
+           Y   I   +  +A + I+ + +++ ++K    I  V PG AT  Y+   +     +GA +
+Sbjct: 297 YFSLILFFSYFYASLIINPNDVSQNLKKMESSIPGVRPGKATTDYLQKTLNRLTFLGALF 356
+
+Query: 290 LILISGLPMMVVLV 303
+           L  I+ +P ++  +
+Sbjct: 357 LAFIAVVPSIIENI 370
+
+
+>sp|Q9ZCS5|SECY_RICPR Preprotein translocase subunit secY
+           OS=Rickettsia prowazekii GN=secY PE=3 SV=1
+          Length = 433
+
+ Score =  237 bits (605), Expect = 9e-62,   Method: Composition-based stats.
+ Identities = 65/344 (18%), Positives = 156/344 (45%), Gaps = 25/344 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++ + P++++ +I Q+ +V+ +  L  L  E +  +R        LT+++A  Q+  
+Sbjct: 70  SIFALAIMPYITASIIIQLMSVAYKP-LENLKKEGETGKRKINQLSRYLTVLLASFQAYG 128
+
+Query: 55  LVLNL-----PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMA 108
+           + L+L            +      V   + L+ GT  L+WL +     G+G    +I+  
+Sbjct: 129 VALSLESMVTNTGPVVILAGFFFRVTTVITLVVGTILLMWLGEQITQRGIGNGTSLIIFI 188
+
+Query: 109 SMIAYIPQDIWNSIQELKISSLWLAL---MLVFSLVFLYLAVTVERSKYRIPVNKINIH- 164
+            +I+ +P  I +  +  +  +L   +   + +  ++ + + +  E+++ ++ V       
+Sbjct: 189 GIISGVPSAIISMFELSRKGALSPLIAITVCIGVVLLIAIIIFFEKAQRKLLVQYPKRQV 248
+
+Query: 165 ---NRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSM 221
+                  + +++ ++LN +G +P ++A +++  P             +  +      L  
+Sbjct: 249 GNKIYGGEATHMPLKLNTSGVIPPIFASSILLFPTTLASF---SNSNSDTMSMLTYYLGH 305
+
+Query: 222 GSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTY 281
+           G P + +LY++ I   +  +  I  + ++ A  ++K G YI    PG  T  Y + ++T 
+Sbjct: 306 GKPVYILLYVVLIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSDYFDYILTR 365
+
+Query: 282 FALVGAFYLILISGLPMMVVLVDIRYLRLSMIPGIFMIFIGMVF 325
+             ++G  YL +I  +P ++  ++   + LS+    F+I + +V 
+Sbjct: 366 LTVIGGIYLSVICVIPELL--MNKYVISLSLGGTSFLIVVNVVL 407
+
+
+>sp|P28539|SECY_CHLTR Preprotein translocase subunit secY
+           OS=Chlamydia trachomatis GN=secY PE=3 SV=3
+          Length = 457
+
+ Score =  236 bits (604), Expect = 1e-61,   Method: Composition-based stats.
+ Identities = 71/336 (21%), Positives = 146/336 (43%), Gaps = 36/336 (10%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRML------LTLVIALIQSV- 53
+           ++ ++G+ P++S+ +I Q+  V       ++     + +R L       TLV+A +QS+ 
+Sbjct: 73  TVIALGVVPYISASIIVQLLVVFMPTLQREMRESPDQGKRKLGRMTRLFTLVLACVQSLL 132
+
+Query: 54  -------------ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLG 100
+                         +VL   L            +   +V++ GT  L+W+ +  +  G+G
+Sbjct: 133 FAKFALRMNLVVPGIVLPAMLSLKLFGVPWVFYLTTVVVMITGTLLLMWVGEQISDKGIG 192
+
+Query: 101 GSIMIVMA-SMIAYIPQDIWNSIQELKISS--------LWLALMLVFSLVFLYLAVTVER 151
+             I +++   ++A  P  + +   +L + S        + L ++    +  L   V +  
+Sbjct: 193 NGISLIITLGILASFPSVLGSIFNKLNLGSQDPSEFGIVSLLILCAVFVFVLMATVLIIE 252
+
+Query: 152 SKYRIPVNKINI----HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQP 207
+              +IPV                SYL +++N AG +P+++A +L+  P      +     
+Sbjct: 253 GMRKIPVQHARRIIGRREVVGGGSYLPLKVNYAGVIPVIFASSLLMFPATIGQFL---SS 309
+
+Query: 208 ENQLIEQWIEALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYP 267
+           E+  +++    LS GS A+ I Y+L I      +       +QIA  M+K+G +I  +  
+Sbjct: 310 ESSWLKRIATMLSPGSVAYSIFYVLLIIFFTYFWTATQFRPEQIASEMKKNGAFIPGIRQ 369
+
+Query: 268 GGATRRYINGLVTYFALVGAFYLILISGLPMMVVLV 303
+           G  T+ Y+   +    L+GA +L +++ LP ++  +
+Sbjct: 370 GKPTQTYLEYTMNRVTLLGAVFLAVVAILPSILGRI 405
+
+
+>sp|Q1XDJ1|SECY_PORYE Preprotein translocase subunit secY
+           OS=Porphyra yezoensis GN=secY PE=3 SV=1
+          Length = 411
+
+ Score =  236 bits (604), Expect = 1e-61,   Method: Composition-based stats.
+ Identities = 74/323 (22%), Positives = 148/323 (45%), Gaps = 22/323 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR-------MLLTLVIALIQSV 53
+            +F++G+ P+++S ++ Q+        L KL  E  E  R         L L  A +QS 
+Sbjct: 62  GIFALGIVPYINSSIVMQLLT-KIVPNLEKLQKEEGELGRQKITQITRYLALGWATLQSG 120
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIA 112
+           A+ +   ++          +    L L AG+  ++WL++L    G+G    +++  ++++
+Sbjct: 121 AISIW--VKPYVFNWNFAFVCESVLALTAGSMIIMWLSELITEKGIGNGASLLIFQNIVS 178
+
+Query: 113 YIPQDIWNSIQELKI--SSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKK- 169
+            +P++   S  +     +SL   L +   L+ + + + V+    RI +       +    
+Sbjct: 179 GLPKNFTQSFFDASYSNASLKFGLFIAIFLLMIIITICVQEGTRRIKIISARQLGKSSIL 238
+
+Query: 170 --YSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+              SYL ++LN  G MPI++A   +++P Y   II     +N+ + Q +         + 
+Sbjct: 239 DPNSYLPLKLNQGGVMPIVFASASMALPSYLTQII-----QNKTLLQILYLFCPNGSLYL 293
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+           +LY   I   +  +  I ++ + IA  ++K G  I N+ PG AT  Y+  ++     +GA
+Sbjct: 294 LLYCALILFFSYFYTSIVMNPEDIAINLKKMGASIPNIRPGQATIDYLQVILNRLTFLGA 353
+
+Query: 288 FYLILISGLPMMVVLV-DIRYLR 309
+            +L  ++ +P ++  V  I+ LR
+Sbjct: 354 SFLFTVALIPFIIEKVTQIQNLR 376
+
+
+>sp|P28527|SECY_GUITH Preprotein translocase subunit secY
+           OS=Guillardia theta GN=secY PE=3 SV=2
+          Length = 420
+
+ Score =  233 bits (594), Expect = 2e-60,   Method: Composition-based stats.
+ Identities = 63/316 (19%), Positives = 143/316 (45%), Gaps = 18/316 (5%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR-------MLLTLVIALIQSV 53
+            +F++G+ P++++ +I Q  A +    L KL  E  E  R         + LV ALIQS+
+Sbjct: 68  GVFALGIVPYINASIIVQ-LATNSIPSLEKLQKEEGELGRQKIVQLTRYVALVWALIQSI 126
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIA 112
+            +     ++          +   +L L  G+  ++W ++     G+G    +++  ++I+
+Sbjct: 127 GVSFW--VRPYVFNWDLNFVFAMSLTLTIGSMLIMWFSEQITEKGIGNGPSLLIFINIIS 184
+
+Query: 113 YIPQDIWNSIQELKISSLWLALMLVFSLV--FLYLAVTVERSKYRIPVNKINIHNRF--- 167
+            +P+ + + IQ  +++   L + ++  +    +   + ++    RIP+       +    
+Sbjct: 185 GLPKLLQSQIQSTRLNIQALDIFVLVFIFSVMIIGIIFIQEGIKRIPIISARQLGKGQMD 244
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWF 227
+            K SYL ++LN +G MPI++A  ++ +P Y   ++   Q     +    +  S     + 
+Sbjct: 245 NKTSYLPLKLNQSGVMPIIFASAVLVLPAYLAQLVSNEQLRT--VLHLFDGTSNNKLLYL 302
+
+Query: 228 ILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGA 287
+           + Y   I   +  +  + ++ + +++ ++K    I  V PG AT  Y+   +     +GA
+Sbjct: 303 LFYFTLILFFSYFYTSLILNPNDVSKNLKKMESSIYGVRPGKATTEYLQKTLNRLTFLGA 362
+
+Query: 288 FYLILISGLPMMVVLV 303
+            +L  I+ +P ++  +
+Sbjct: 363 LFLAFIAIVPNIIETL 378
+
+
+>sp|Q89A85|SECY_BUCBP Preprotein translocase subunit secY
+           OS=Buchnera aphidicola subsp. Baizongia pistaciae
+           GN=secY PE=3 SV=1
+          Length = 441
+
+ Score =  231 bits (591), Expect = 3e-60,   Method: Composition-based stats.
+ Identities = 68/326 (20%), Positives = 152/326 (46%), Gaps = 21/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++SS +I Q+  +       ++  + ++ R         +TL++A +QS  
+Sbjct: 77  SIFALGIMPFISSSIIVQILTLIH-PKFIEMKKDGEQGRHRINKYIRYITLILAALQSFG 135
+
+Query: 55  LVLNLPLQE----AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASM 110
+           + ++LP              +   +  + L+ GT FL+WL +L    G+G  I I++ S 
+Sbjct: 136 MSISLPNIPGLKDVIIDPSISFYGIAIISLITGTIFLMWLGELITEKGIGNGISIIIFSG 195
+
+Query: 111 -IAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYL---AVTVERSKYRIPVNKINI--- 163
+            ++ +P    N++++++  SL + L     +V   +    V +ERS+ +I ++       
+Sbjct: 196 IVSGLPSSFLNTVEKVRQGSLHVLLFCFIGIVIFLVTLLVVYIERSQRKITISYAKRNLG 255
+
+Query: 164 -HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+                   ++L ++LN +G +P ++A ++V  P              + +   +  L   
+Sbjct: 256 HRTYSMNSTHLPLKLNMSGVIPAIFASSIVLFPATIASWFGNRD-HFKWLVDIVFYLQPT 314
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + + Y+  I      +  +  +  + A+ ++KSG +I  + PG  T +YIN ++   
+Sbjct: 315 KPLYILTYITAIIFFCFFYTGLAFNPRETADNLKKSGAFILGIRPGEKTAQYINKIMLRL 374
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+             +G+ Y+  I  +P ++   +D+ +
+Sbjct: 375 TFLGSMYMAFICLVPELMRFFMDVPF 400
+
+
+>sp|P57571|SECY_BUCAI Preprotein translocase subunit secY
+           OS=Buchnera aphidicola subsp. Acyrthosiphon pisum
+           GN=secY PE=3 SV=1
+          Length = 437
+
+ Score =  231 bits (589), Expect = 6e-60,   Method: Composition-based stats.
+ Identities = 75/326 (23%), Positives = 157/326 (48%), Gaps = 23/326 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+  +     LS++  E +             TL++AL+QS+ 
+Sbjct: 76  SIFALGIMPYISASIIIQLLTLVY-PTLSEIKKEGESGRHRINQYTRYATLILALVQSIG 134
+
+Query: 55  LVLNLPL----QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASM 110
+           + + LP     +           ++  + L+  T FL+WL +L    G+G  I I++   
+Sbjct: 135 IAMTLPNIAGIRSIIINTDFYFYLIAIISLVTSTMFLMWLGELITEYGIGNGISIIIFIG 194
+
+Query: 111 IAY-IPQDIWNSIQELKISSLWLALMLVFSLV---FLYLAVTVERSKYRIPVNKINIHNR 166
+           I   +P  I N+I++ +   L + L L   L+    ++L V +ER + +I V+       
+Sbjct: 195 IIAGLPSAIGNTIEKTRQGDLHILLFLFILLLIFSVIFLVVFMERGQRKIVVHYAQRQQG 254
+
+Query: 167 FKKY----SYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            + Y    ++L +++N AG +P ++A ++V  P   +      +  ++ + + +  L   
+Sbjct: 255 RRIYETPSTHLPLKINMAGVIPAIFASSIVLFPATIISW---CKVNHEWLTKILFYLQPN 311
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+              + ILY+  I      +  +  +  + A+ ++KSG +I  + PG  T +YIN ++   
+Sbjct: 312 QFLYLILYISAIVFFCFFYTGLVFNPRETADNLKKSGAFISGIRPGEQTAKYINKIMLRL 371
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+            LVG+ Y+  I  +P  +   +++ +
+Sbjct: 372 TLVGSLYITFICLIPEFMRSAMNVPF 397
+
+
+>sp|Q8K969|SECY_BUCAP Preprotein translocase subunit secY
+           OS=Buchnera aphidicola subsp. Schizaphis graminum
+           GN=secY PE=3 SV=1
+          Length = 439
+
+ Score =  226 bits (576), Expect = 2e-58,   Method: Composition-based stats.
+ Identities = 76/326 (23%), Positives = 156/326 (47%), Gaps = 21/326 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++SS +I Q+  +     LS++  E +  R          TLV+AL QS+ 
+Sbjct: 76  SIFALGIMPYISSSIIIQLLTLV-IPSLSEIKKEGEVGRTKINQYTRYTTLVLALFQSIG 134
+
+Query: 55  LVLNLP----LQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMAS 109
+           +V +LP    + +              ++L+ GT FL+WL +L        G  +I+   
+Sbjct: 135 IVTSLPKISGMNQIIIHPDFYFYFTAIIILVTGTMFLMWLGELITECGIGNGISIIIFIG 194
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLALMLVFSLVFL---YLAVTVERSKYRIPVNKINIHNR 166
+           +IA +P  I ++I++ +   L + L L   ++     +L V +ERS+ +I ++       
+Sbjct: 195 IIAGLPSAIVHTIEQTRQGDLHILLFLCVLILIFSVVFLVVFIERSQRKIIIHYAQRQKG 254
+
+Query: 167 FK----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +    + ++L +++N AG +P ++A ++V  P   +        +  L++         
+Sbjct: 255 RRIYSTQSTHLPLKINMAGVIPAIFASSVVLFPVTIISWFGID-RKCYLLKTIFFYFQPN 313
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+            P + ILY+ +I      +  +  +  + A+ ++KSG +I  + PG  T +YIN ++   
+Sbjct: 314 QPLYLILYVFSIIFFCFFYTGLVFNPRETADNLKKSGGFISGIRPGEQTAKYINKIMIRL 373
+
+Query: 283 ALVGAFYLILISGLPMMV-VLVDIRY 307
+            L G+ Y+  I  +P  +   +++ +
+Sbjct: 374 TLFGSLYIAFICLIPEFMRSAMNVPF 399
+
+
+>sp|Q59548|SECY_MYCPN Preprotein translocase subunit secY
+           OS=Mycoplasma pneumoniae GN=secY PE=3 SV=1
+          Length = 477
+
+ Score =  224 bits (571), Expect = 9e-58,   Method: Composition-based stats.
+ Identities = 70/326 (21%), Positives = 157/326 (48%), Gaps = 29/326 (8%)
+
+Query: 3   FSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRML------LTLVIALIQSVALV 56
+           F+VG+SP++S+ ++ Q+ +      LSKL    +  RR +      +TL  AL+QS A++
+Sbjct: 85  FAVGISPYISAQIVMQLLSTDLIPPLSKLVNSGEVGRRKIEMITRIITLPFALVQSFAVI 144
+
+Query: 57  LNLPLQE------AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMAS 109
+                            + +  +    + + AGTY  ++L D  +  G+G  I +++++ 
+Sbjct: 145 QIATNSGGGSSPITLKNNGSDFVAFYIIAMTAGTYLSVFLGDTISKKGIGNGITLLILSG 204
+
+Query: 110 MIAYIPQDIWN----------SIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVN 159
+           ++A +P+              +I     +++   +  +  +  L+    + +   +IP+ 
+Sbjct: 205 ILAQLPEGFIAAYSVLSGVVVTINATLTTAISFFIYFMAFVTLLFATTFITQETRKIPIQ 264
+
+Query: 160 KINIHNRFKKY--SYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+           +       +     YL I++N AG +P+++A +++SIP          QP+ +      +
+Sbjct: 265 QSGQGLVTESSALPYLPIKVNSAGVIPVIFASSIMSIPVTIAQF----QPQTESRWFVED 320
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+            LS+  P   +LY + + + +  +++I I+ +++A+  +KSG +I  + PG  T ++I  
+Sbjct: 321 YLSLSKPTGIVLYGILVILFSFFYSYIQINPERLAKNFEKSGRFIPGIRPGKDTEKHIAR 380
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVLV 303
+           ++     +GA +L +I+ +P +V  +
+Sbjct: 381 VLVRINFIGAPFLTVIAIIPYIVSAL 406
+
+
+>sp|Q9PJN1|SECY_CHLMU Preprotein translocase subunit secY
+           OS=Chlamydia muridarum GN=secY PE=3 SV=1
+          Length = 457
+
+ Score =  222 bits (567), Expect = 2e-57,   Method: Composition-based stats.
+ Identities = 69/336 (20%), Positives = 144/336 (42%), Gaps = 36/336 (10%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRML------LTLVIALIQSV- 53
+           ++ ++G+ P++S+ +I Q+  V       ++     + +R L       TL++A +QS+ 
+Sbjct: 73  TVIALGVVPYISASIIVQLLVVFMPTLQREMREAPDQGKRKLGRMTRLFTLLLACVQSLL 132
+
+Query: 54  -------------ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLG 100
+                         +VL   L            +   +V+  GT  L+W+ +  +  G+G
+Sbjct: 133 FAKFALRMNLVVPGIVLPAMLSLKLFGIPCVFYLTTVVVMTTGTLLLMWIGEQISDKGIG 192
+
+Query: 101 GSIMIVMA-SMIAYIPQDIWNSIQELKISS--------LWLALMLVFSLVFLYLAVTVER 151
+             I +++   M+A  P  + +   +L + S        + L ++    +  L   V +  
+Sbjct: 193 NGISLIITLGMLASFPSVLGSIFNKLNLGSQDPSEFGIVSLLVLCAVFVFVLMATVLIIE 252
+
+Query: 152 SKYRIPVNKINI----HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQP 207
+              ++PV                SYL +++N AG +P+++A +L+  P      +     
+Sbjct: 253 GVRKVPVQHARRIIGRREVLGGGSYLPLKVNYAGVIPVIFASSLLMFPATIGQFL---SS 309
+
+Query: 208 ENQLIEQWIEALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYP 267
+           E+  +++    LS GS  + I Y+L I      +       +QIA  M+K+G +I  +  
+Sbjct: 310 ESSWLKRIATMLSPGSVVYSIFYVLLIIFFTYFWTATQFRPEQIASEMKKNGAFIPGIRQ 369
+
+Query: 268 GGATRRYINGLVTYFALVGAFYLILISGLPMMVVLV 303
+           G  T+ Y+   +    L+GA +L +++ LP ++  +
+Sbjct: 370 GKPTQSYLEYTMNRVTLLGAVFLAVVAILPSILGRI 405
+
+
+>sp|P33108|SECY_MICLU Preprotein translocase subunit secY
+           OS=Micrococcus luteus GN=secY PE=3 SV=1
+          Length = 436
+
+ Score =  222 bits (566), Expect = 3e-57,   Method: Composition-based stats.
+ Identities = 65/326 (19%), Positives = 132/326 (40%), Gaps = 27/326 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER------RRMLLTLV-------- 46
+           S+F++G+ P++++ +I Q+  V       +L  E +            LTL         
+Sbjct: 73  SVFALGIMPYITASIIVQLLRVV-IPRFEQLHQERRRGQATLTQYTRYLTLALALLQATT 131
+
+Query: 47  IALIQSVALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMI 105
+           +A +     +L   L           ++L  + L  G   ++W  +     G+G    ++
+Sbjct: 132 MASLARTGALLGCSL-PLLRDGSILTVLLVVIALTTGCLIVMWFGERITENGVGNGMSLL 190
+
+Query: 106 VMASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHN 165
+           +  S+ A  P  +   +Q         A+++   L+ +   V VE S+ RIPV       
+Sbjct: 191 IFTSIAAGFPAGLGQVVQT--QGWRVFAIVMGIGLLTMLAIVFVEESQRRIPVQYAKRQI 248
+
+Query: 166 R----FKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQ--LIEQWIEAL 219
+                    +Y+ +++N A  +P+++A +++ +P   +              I       
+Sbjct: 249 GSRTVGGSSTYIPVKVNMANVIPVIFASSVLMLPGILIQFNTPQDGSAPAPWITWLSRYF 308
+
+Query: 220 -SMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGL 278
+            S   P +  LY L I      +  I  +  +I++ M++ G +I    P G T RY+  +
+Sbjct: 309 GSGDHPVYMALYFLLIIGFTYFYVSITFNPVEISDNMKRYGGFIPASAPAGPTERYLQYV 368
+
+Query: 279 VTYFAL-VGAFYLILISGLPMMVVLV 303
+           ++     VGA YL +++ +P++   V
+Sbjct: 369 ISRITFVVGALYLGIVAMIPLIAFAV 394
+
+
+>sp|O52351|SECY_MYCGA Preprotein translocase subunit secY
+           OS=Mycoplasma gallisepticum GN=secY PE=3 SV=2
+          Length = 498
+
+ Score =  221 bits (563), Expect = 7e-57,   Method: Composition-based stats.
+ Identities = 82/324 (25%), Positives = 156/324 (48%), Gaps = 27/324 (8%)
+
+Query: 3   FSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVALV 56
+           F+VG+SP++S+ +I Q+ +      LSKL    +  RR        +TL  A++Q+ A++
+Sbjct: 82  FAVGISPYISAQIIMQLLSTDLIPPLSKLAKSGELGRRRIELITRFVTLPFAVVQAFAII 141
+
+Query: 57  LNLPLQEAAG----VDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMASMI 111
+             +  Q                   + + AGTY  I++ D+ +  G+G  I +++++ ++
+Sbjct: 142 ALINNQRNGAIRFENGGILHQAFYIVTMTAGTYIGIFIGDIISKKGVGNGITLLILSGIL 201
+
+Query: 112 AYIPQDIWNSI----------QELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKI 161
+           A +P                   +  S++  +L  +  LV L     V  S  RIP+ + 
+Sbjct: 202 ARLPDGFIVMYRVLGGVIISTNPILTSAINFSLYFLAFLVLLLAISFVNSSTRRIPIQQT 261
+
+Query: 162 NIHNRFK--KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEAL 219
+                    K  YL I+LN AG +P+++A +++SIP          QP+++      + L
+Sbjct: 262 GEGMVLGNEKLPYLPIKLNAAGVIPVIFASSIMSIPITIAEF----QPQSEARWFVEDYL 317
+
+Query: 220 SMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLV 279
+           S+ +P    LY++ I I    +++I I+ +Q+AE   KS ++I  V PG  T ++I  ++
+Sbjct: 318 SLRTPVGISLYVILIIIFTFFYSYIQINPEQLAENFNKSHKFIPGVRPGLDTEKHITKVL 377
+
+Query: 280 TYFALVGAFYLILISGLPMMVVLV 303
+                +GA +L +++ +P ++ LV
+Sbjct: 378 MRINFIGAPFLAIVAVIPYIISLV 401
+
+
+>sp|P10250|SECY_MYCCT Preprotein translocase subunit secY
+           OS=Mycoplasma capricolum subsp. capricolum (strain
+           California kid / ATCC 27343 / NCTC 10154) GN=secY PE=3
+           SV=2
+          Length = 482
+
+ Score =  219 bits (558), Expect = 2e-56,   Method: Composition-based stats.
+ Identities = 70/332 (21%), Positives = 157/332 (47%), Gaps = 29/332 (8%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRML------LTLVIALIQSVA 54
+           S+ ++G+SP++++ +I Q+ +      L++     +  R+ L      + +  AL+Q+ A
+Sbjct: 93  SILALGVSPYITASIIVQLLSTDVIPVLTRWSKSGERGRKKLDKLTKIIMIPFALMQAEA 152
+
+Query: 55  LVLNLPLQEAAGVD---------MTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMI 105
+            +  L  Q                    +L  LV++ G++F++W+ D     G+G  I I
+Sbjct: 153 TIFTLSSQGLIIPGWDNTNAIANSAFYYILIPLVMLGGSFFMLWIADQITIKGIGNGISI 212
+
+Query: 106 VMASMIAY-IPQDIWNSIQE-----------LKISSLWLALMLVFSLVFLYLAVTVERSK 153
+           V+   I   +P ++ ++ +                 L   + +   L+ +   V +  ++
+Sbjct: 213 VIFIGIIISMPSNLKSTFEYWVSNSGEEANIFFSGLLNFMIYISVFLLVILSVVIMNEAE 272
+
+Query: 154 YRIPVNKINI--HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQL 211
+            +IP+ +      +  +   YL ++LN AG +P+++A  ++S P     II  + P++  
+Sbjct: 273 RKIPIQQTGSGLTDSSEHTPYLPLKLNNAGVIPVIFASAIISTPITISQIIEAVNPDSGF 332
+
+Query: 212 IEQWIEALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGAT 271
+           +    + LS  +     ++ + I +    ++ + I+ ++IAE  QKSG +I  + PG  T
+Sbjct: 333 VIFTRDYLSFNTWWGISIFGILIVLFTFLYSQVQINPEKIAENFQKSGTFIPGIKPGKDT 392
+
+Query: 272 RRYINGLVTYFALVGAFYLILISGLPMMVVLV 303
+            +Y+ G++   ++VG+ +L +I+ LP ++  +
+Sbjct: 393 TKYLTGIINRLSVVGSVFLAIIALLPYVISKL 424
+
+
+>sp|P47416|SECY_MYCGE Preprotein translocase subunit secY
+           OS=Mycoplasma genitalium GN=secY PE=3 SV=1
+          Length = 475
+
+ Score =  218 bits (557), Expect = 3e-56,   Method: Composition-based stats.
+ Identities = 73/325 (22%), Positives = 158/325 (48%), Gaps = 29/325 (8%)
+
+Query: 3   FSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRML------LTLVIALIQSVALV 56
+           F+VG+SP++S+ +I Q+ +      LSKL    +  RR +      +TL  AL+Q+ A++
+Sbjct: 83  FAVGISPYISAQIIMQLLSTDLIPPLSKLVNSGEVGRRKIEMITRIITLPFALVQAFAVI 142
+
+Query: 57  LNLPLQEAAG------VDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMAS 109
+                              +  +    + + AGTY  ++L D  +  G+G  I +++++ 
+Sbjct: 143 QIATNAGTGSSPISLANSGSEFIAFYIIAMTAGTYMAVFLGDTISKKGVGNGITLLILSG 202
+
+Query: 110 MIAYIPQDIWNSIQELK----------ISSLWLALMLVFSLVFLYLAVTVERSKYRIPVN 159
+           +++ +PQ    +   L            +++   +  +  LV L+    + ++  +IP+ 
+Sbjct: 203 ILSQLPQGFIAAYNVLSGIVITLTPQLTAAISFFIYFLAFLVLLFATTFITQATRKIPIQ 262
+
+Query: 160 KINIH--NRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIE 217
+           +      +  K   YL I++N AG +P+++A +++SIP          QP+ +      +
+Sbjct: 263 QSGQGLVSEVKTLPYLPIKVNAAGVIPVIFASSIMSIPVTIAQF----QPQTESRWFVED 318
+
+Query: 218 ALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYING 277
+            LS+ +P    LY + + + +  +++I I+ +++A+  +KSG +I  + PG  T ++I  
+Sbjct: 319 YLSLSTPVGIFLYAVLVILFSFFYSYIQINPERLAKNFEKSGRFIPGIRPGNDTEKHIAR 378
+
+Query: 278 LVTYFALVGAFYLILISGLPMMVVL 302
+           ++     +GA +L +I+ +P +V  
+Sbjct: 379 VLIRINFIGAPFLTVIAIIPYIVSY 403
+
+
+>sp|Q9Z7S5|SECY_CHLPN Preprotein translocase subunit secY
+           OS=Chlamydia pneumoniae GN=secY PE=3 SV=1
+          Length = 457
+
+ Score =  217 bits (553), Expect = 9e-56,   Method: Composition-based stats.
+ Identities = 68/336 (20%), Positives = 146/336 (43%), Gaps = 36/336 (10%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSV- 53
+           ++ ++G+ P++S+ +I Q+F V       ++     + +R       L T+ +A+IQS+ 
+Sbjct: 73  TVIALGVVPYISASIIVQLFLVFMPALQREMRESSDQGKRRIGRLTRLFTVALAVIQSLL 132
+
+Query: 54  -------------ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLG 100
+                         +VL   L            +   +V+  GT  L+W+ +  +  G+G
+Sbjct: 133 FAKFALRMNLTIPGIVLPTLLSSKLFGVPWIFYITTVVVMTTGTLLLMWIGEQISDKGIG 192
+
+Query: 101 GSIMIVMA-SMIAYIPQDIWNSIQELKISS--------LWLALMLVFSLVFLYLAVTVER 151
+             I +++A  +++  P  + + + +L + S        + + ++ +  +  L   + +  
+Sbjct: 193 NGISLIIALGILSSFPSVLGSIVNKLNLGSQDSSDLGLISILILALVFVFVLITTILIIE 252
+
+Query: 152 SKYRIPVNKINI----HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQP 207
+              +IPV                SYL +++N AG +P+++A +L+  P      I     
+Sbjct: 253 GVRKIPVQYARRVIGRREVPGGGSYLPLKVNYAGVIPVIFASSLLMFPATIGQFI---AS 309
+
+Query: 208 ENQLIEQWIEALSMGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYP 267
+           E+  +++    L+ GS  + I Y+L I      +       +QIA  M+K+  +I  +  
+Sbjct: 310 ESSWMKRIAALLAPGSLVYSICYVLLIIFFTYFWTATQFHPEQIASEMKKNNAFIPGIRQ 369
+
+Query: 268 GGATRRYINGLVTYFALVGAFYLILISGLPMMVVLV 303
+           G  T+ Y+   +    L+GA +L  I+ LP ++  +
+Sbjct: 370 GKPTQHYLEYTMNRVTLLGALFLAAIAILPSLLGCL 405
+
+
+>sp|O25879|SECY_HELPY Preprotein translocase subunit secY
+           OS=Helicobacter pylori GN=secY PE=3 SV=1
+          Length = 420
+
+ Score =  214 bits (546), Expect = 6e-55,   Method: Composition-based stats.
+ Identities = 75/326 (23%), Positives = 159/326 (48%), Gaps = 24/326 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR-----MLLTLVIALIQSVAL 55
+           S+ S+G+ P+++S +I ++ + +    L+K+  E    ++       LT++I LIQ+V++
+Sbjct: 62  SIISLGIMPYITSSIIMELLS-ATFPNLAKMKKERDGMQKYMQIVRYLTILITLIQAVSV 120
+
+Query: 56  VLN-----LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMAS 109
+            +           A  +DM   M++    ++ GT  L+W+ +     G+G    +I+ A 
+Sbjct: 121 SVGLRSISGGANGAIMIDMQVFMIVSAFSMLTGTMLLMWIGEQITQRGVGNGISLIIFAG 180
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLA---LMLVFSLVFLYLAVTVERSKYRIPVNKIN---- 162
+           +++ IP  I  +   +    + +     +++  L  ++  + VE ++ RIP++       
+Sbjct: 181 IVSGIPSAISGTFNLVNTGVINILMLIGIVLIVLATIFAIIYVELAERRIPISYARKVVM 240
+
+Query: 163 IHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +   +  +Y+ I+LN +G +P ++A  L+  P   L         N+ ++   + LS  
+Sbjct: 241 QNQNKRIMNYIPIKLNLSGVIPPIFASALLVFPSTILQ----QATSNKTLQAVADFLSPQ 296
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+             A+ IL  L I   A  ++ I  +   IA+ ++++G YI  + PG  T  ++N + +  
+Sbjct: 297 GYAYNILMFLLIIFFAYFYSSIVFNSKDIADNLRRNGGYIPGLRPGEGTSSFLNSVASKL 356
+
+Query: 283 ALVGAFYLILISGLPMMVV-LVDIRY 307
+            L G+ YL LIS +P ++V  + + +
+Sbjct: 357 TLWGSLYLALISTVPWILVKAMGVPF 382
+
+
+>sp|Q9ZJS9|SECY_HELPJ Preprotein translocase subunit secY
+           OS=Helicobacter pylori J99 GN=secY PE=3 SV=1
+          Length = 420
+
+ Score =  214 bits (546), Expect = 7e-55,   Method: Composition-based stats.
+ Identities = 75/326 (23%), Positives = 159/326 (48%), Gaps = 24/326 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR-----MLLTLVIALIQSVAL 55
+           S+ S+G+ P+++S +I ++ + +    L+K+  E    ++       LT++I LIQ+V++
+Sbjct: 62  SIISLGIMPYITSSIIMELLS-ATFPNLAKMKKERDGMQKYMQIVRYLTILITLIQAVSV 120
+
+Query: 56  VLN-----LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMAS 109
+            +           A  +DM   M++    ++ GT  L+W+ +     G+G    +I+ A 
+Sbjct: 121 SVGLRSISGGANGAIMIDMQVFMIVSAFSMLTGTMLLMWIGEQITQRGVGNGISLIIFAG 180
+
+Query: 110 MIAYIPQDIWNSIQELKISSLWLA---LMLVFSLVFLYLAVTVERSKYRIPVNKIN---- 162
+           +++ IP  I  +   +    + +     +++  L  ++  + VE ++ RIP++       
+Sbjct: 181 IVSGIPSAISGTFNLVNTGVINILMLIGIVLIVLATIFAIIYVELAERRIPISYARKVVM 240
+
+Query: 163 IHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +   +  +Y+ I+LN +G +P ++A  L+  P   L         N+ ++   + LS  
+Sbjct: 241 QNQNKRIMNYIPIKLNLSGVIPPIFASALLVFPSTILQ----QATSNKTLQAIADFLSPQ 296
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYF 282
+             A+ IL  L I   A  ++ I  +   IA+ ++++G YI  + PG  T  ++N + +  
+Sbjct: 297 GYAYNILMFLLIIFFAYFYSSIVFNSKDIADNLRRNGGYIPGLRPGEGTSSFLNAVASKL 356
+
+Query: 283 ALVGAFYLILISGLPMMVV-LVDIRY 307
+            L G+ YL LIS +P ++V  + + +
+Sbjct: 357 TLWGSLYLALISTVPWILVKAMGVPF 382
+
+
+>sp|O59442|SECY_PYRHO Preprotein translocase subunit secY
+           OS=Pyrococcus horikoshii GN=secY PE=3 SV=1
+          Length = 468
+
+ Score =  211 bits (538), Expect = 6e-54,   Method: Composition-based stats.
+ Identities = 59/364 (16%), Positives = 127/364 (34%), Gaps = 64/364 (17%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR---MLLTLVIALIQSVALVL 57
+           S+ ++G+ P +++ +I Q+   S+ + L     E +   +    + ++ +   ++   VL
+Sbjct: 72  SILTLGIGPIVTAGIILQLLVGSELIRLDLANPEDRRFYQALQRVFSVFMCFFEAAIWVL 131
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMA--------- 108
+                        TI  L  + L  G   LI L +L +  G+G  I + +A         
+Sbjct: 132 GGAFGRVGVDVTYTIATLMIIQLALGGIILIVLDELVSKWGIGSGISLFIAAGVSQRILT 191
+
+Query: 109 -------------------SMIAYIPQDIWNSIQELKISSLWL------ALMLVFSLVFL 143
+                              +++  IP  I + +      +L+        + +  +++  
+Sbjct: 192 RSLNPLTDPNIIDPLTGKPAIVGAIPYFIQHILDGDLKGALYRGGSAPDMIAVTATIIVF 251
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLII- 202
+            + V  E  +  IP+    +  R +      I+      +PI+    L +  Q +  ++ 
+Sbjct: 252 LVVVYFESMRVEIPLGYRGVTIRGR----YPIKFLYVSNIPIILTFALYANIQLWARVLD 307
+
+Query: 203 --------HFLQPENQLIEQWIEALSMGSPAWF--------ILYLLTIFILALAFAFI-- 244
+                    F       I  ++  +      +         I+YL+   I +L F F+  
+Sbjct: 308 RFGHPWLGRFDPVTGNPIGGFVLYVIPPRNIFTVIDNPVRAIIYLILTIIFSLLFGFLWV 367
+
+Query: 245 ---NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTYFALVGAFYLILISGLPMMV 300
+               +    IA ++Q++G  I        T  R +   + Y    G+  + LIS L   +
+Sbjct: 368 ELTGLDARTIARQLQRAGLQIPGFRRDPRTLERVLQKYIPYVTFWGSLTVALISVLADFL 427
+
+Query: 301 VLVD 304
+             + 
+Sbjct: 428 GALG 431
+
+
+>sp|P49976|SECY_BUCAK Preprotein translocase subunit secY (Fragment)
+           OS=Buchnera aphidicola subsp. Acyrthosiphon kondoi
+           GN=secY PE=3 SV=1
+          Length = 356
+
+ Score =  211 bits (537), Expect = 7e-54,   Method: Composition-based stats.
+ Identities = 62/283 (21%), Positives = 124/283 (43%), Gaps = 20/283 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+           S+F++G+ P++S+ +I Q+  V     L+++  E +  RR         TLV+A+ QS+ 
+Sbjct: 76  SIFALGIMPYISASIIIQLLTVVH-PALAEVKKEGEAGRRKISQYTRYGTLVLAIFQSIG 134
+
+Query: 55  LVLNLPLQE----AAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAM-GLGGSIMIVMAS 109
+           +   LP                     + L+ GT FL+WL +         G  +I+ A 
+Sbjct: 135 IATGLPNMPGMQGLVMNPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAG 194
+
+Query: 110 MIAYIPQDIWNSIQELKISSLW---LALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNR 166
+           ++A +P  + ++I++ +   L    L L+ V      +  V +ER + RI VN       
+Sbjct: 195 IVAGLPPAVAHTIEQARQGDLHFLLLLLVAVLVFAVTFFVVFIERGQRRIVVNYAKRQQG 254
+
+Query: 167 FK----KYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMG 222
+            +    + ++L +++N AG +P ++A +++  P             N  +      L  G
+Sbjct: 255 RRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWN-WLTTVSLYLQPG 313
+
+Query: 223 SPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENV 265
+            P + +LY   I      +  +  +  + A+ ++KSG ++  +
+Sbjct: 314 QPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGI 356
+
+
+>sp|Q870W0|SC61A_NEUCR Protein transport protein SEC61 subunit alpha
+           OS=Neurospora crassa GN=sec-61 PE=3 SV=1
+          Length = 476
+
+ Score =  210 bits (536), Expect = 8e-54,   Method: Composition-based stats.
+ Identities = 61/391 (15%), Positives = 131/391 (33%), Gaps = 78/391 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLS---KLPLEVQERRRMLLTLVIALIQSVALVL 57
+           +L  +G++P +SS +++Q+ A +  + ++   K   E+ +  + L  +++++  +   V 
+Sbjct: 76  TLMELGITPIISSGMVFQLLAGTHMIDVNLDLKADRELYQTAQKLFAVILSIGTATVYVF 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGS-IMIVMASMIAYI- 114
+                  +      I+ L  L L+     +I L +L     GLG    + +  ++   I 
+Sbjct: 136 TGLYGPPS-DLGAGIVFLLILQLVVAGMIVILLDELLQKGYGLGSGISLFIATNICESIM 194
+
+Query: 115 -----PQDI----WNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                P  I        +   I+   L +                       L+ +LV  
+Sbjct: 195 WKAFSPTSINTGRGPEYEGAVIALFHLLMTWDNKQRALYEAFYRQNLPNIMNLLATLVVF 254
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+              + ++  +  IPV           Y    IRL     MPIM    L S       +++
+Sbjct: 255 AAVIYLQGFRVEIPVKSSRQRGARGSY---PIRLFYTSNMPIMLQSALSSNVFLISQMLY 311
+
+Query: 204 FLQPEN------------------QLIEQWIEALSMGSPA-----------WFILYLLTI 234
+               EN                    +   +  +S                 +I Y+LT 
+Sbjct: 312 SRFSENLLVRLFGVWEAKEGTAQLSAVSGLVYYMSPPLNFKDALLDPIHTAVYIAYMLTA 371
+
+Query: 235 FILALAFAFINI---SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLI 291
+                +  +I +   S   +A++++  G  +       +  + +  ++   A  G   + 
+Sbjct: 372 -CAVFSKTWIEVSGSSPRDVAKQLKDQGLVMAGHRE-QSMYKELKRIIPTAAAFGGACIG 429
+
+Query: 292 LISGLPMMVVLVDI---RYLRLSMIPGIFMI 319
+            +S    ++  +       L +++I G F I
+Sbjct: 430 ALSVASDLMGALGSGTGTLLAVTIIYGYFEI 460
+
+
+>sp|Q9V1V8|SECY_PYRAB Preprotein translocase subunit secY
+           OS=Pyrococcus abyssi GN=secY PE=3 SV=1
+          Length = 468
+
+ Score =  210 bits (536), Expect = 1e-53,   Method: Composition-based stats.
+ Identities = 57/364 (15%), Positives = 128/364 (35%), Gaps = 64/364 (17%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR---MLLTLVIALIQSVALVL 57
+           S+ ++G+ P +++ +I Q+   S+ + L     E +   +    + ++ +  +++   VL
+Sbjct: 72  SILTLGIGPIVTAGIILQLLVGSEIIKLDLANPEDRRFYQALQRVFSVFMCFLEAAIWVL 131
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMA--------- 108
+                         I  L  L L  G   LI L +L +  G+G  I + +A         
+Sbjct: 132 GGAFGRVGVDVTYAIAALMILQLAFGGIILIVLDELVSKWGIGSGISLFIAAGVSQRILT 191
+
+Query: 109 -------------------SMIAYIPQDIWNSIQELKISSLWLALM------LVFSLVFL 143
+                              +++  IP  I + ++     +L+          ++ +++  
+Sbjct: 192 RSLNPLTDPNIIDPLTGKPAIVGAIPYFIQHILKGDLKGALYRGGTAPDMMAVIATIIVF 251
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLII- 202
+            + V  E  +  IP+    +  R +      IR      +PI+    L +  Q +  ++ 
+Sbjct: 252 LVVVYFESMRVEIPLGYRGVTIRGR----YPIRFLYVSNIPIILTFALYANIQLWARVLD 307
+
+Query: 203 --------HFLQPENQLIEQWIEALSMGSPAWFIL--------YLLTIFILALAFAFI-- 244
+                    F       +  ++  +      + ++        YL+   I +L F F+  
+Sbjct: 308 RLGHPWLGTFDPTTGNPVGGFVLYVIPPRSIFTVIDNPVRALVYLILTVISSLIFGFLWV 367
+
+Query: 245 ---NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTYFALVGAFYLILISGLPMMV 300
+               +    IA ++Q++G  I        T  R +   + Y    G+  + LI+ L   +
+Sbjct: 368 ELTGLDARTIARQLQRAGLQIPGFRRDPRTLERVLQKYIPYVTFWGSLTVALIAVLADFL 427
+
+Query: 301 VLVD 304
+             + 
+Sbjct: 428 GALG 431
+
+
+>sp|Q8U019|SECY_PYRFU Preprotein translocase subunit secY
+           OS=Pyrococcus furiosus GN=secY PE=3 SV=1
+          Length = 468
+
+ Score =  210 bits (535), Expect = 1e-53,   Method: Composition-based stats.
+ Identities = 59/364 (16%), Positives = 129/364 (35%), Gaps = 64/364 (17%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR---MLLTLVIALIQSVALVL 57
+           S+ ++G+ P +++ +I Q+   S+ + L     E +   +    + ++ +   ++   +L
+Sbjct: 72  SILTLGIGPIVTAGIILQLLVGSEIIKLDLANPEDRRFYQALQRVFSVFMCFFEAAVWIL 131
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMA--------- 108
+                         I VL  L L  G   LI L +L +  G+G  I + +A         
+Sbjct: 132 GGAFGRVGVDVTYAIAVLMILQLAMGGIVLIILDELVSKWGIGSGISLFIAAGVSQTILT 191
+
+Query: 109 -------------------SMIAYIPQDIWNSIQELKISSLWL------ALMLVFSLVFL 143
+                              +++  IP  I + ++     +++        L +V ++V  
+Sbjct: 192 RSLNPLTDPNIIDPLTGQPAIVGAIPYFIQHILKGDLWGAIYRGGSAPDMLSVVATIVVF 251
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLII- 202
+           ++ V  E  +  IP+    +  R        IR      +PI+    L +  Q +  ++ 
+Sbjct: 252 FIVVYFESMRVEIPLGYRGVTVRGS----YPIRFLYVSNIPIILTFALYANIQLWARVLD 307
+
+Query: 203 --------HFLQPENQLIEQWIEALSMGSPAW--------FILYLLTIFILALAFAFI-- 244
+                    F       I  ++  +      +         I+YL+   I +L F ++  
+Sbjct: 308 RLGHPWLGRFDPTTGSPISGFVLYVIPPRNIFSVIDNPVRAIVYLILTVIFSLLFGYLWV 367
+
+Query: 245 ---NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTYFALVGAFYLILISGLPMMV 300
+               +    IA ++Q++G  I        T  + +   + Y    G+  + LI+ L   +
+Sbjct: 368 ELTGLDARSIARQLQRAGLQIPGFRRDPRTLEKVLQRYIPYVTFWGSLTVALIAVLADFL 427
+
+Query: 301 VLVD 304
+             + 
+Sbjct: 428 GALG 431
+
+
+>sp|Q54XK2|SC61A_DICDI Protein transport protein Sec61 subunit alpha
+           OS=Dictyostelium discoideum GN=sec61a PE=3 SV=1
+          Length = 475
+
+ Score =  208 bits (531), Expect = 3e-53,   Method: Composition-based stats.
+ Identities = 50/373 (13%), Positives = 127/373 (34%), Gaps = 75/373 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S ++ Q+ A +K + + +     +      + L  ++I + Q VA + 
+Sbjct: 75  TLMELGISPIVTSGMVMQLLAGAKLIEIDQSVKADRDLFSAAQKLFGMLICVGQGVAYIW 134
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGS-IMIVMASMIAYI- 114
+           +    + A +       L  L L      ++ L +L     G+G    + +  ++   I 
+Sbjct: 135 SGSYGDPAVLGFGNC-FLIVLQLFFAGIIVMLLDELLQKGYGIGSGISLFIATNICETIV 193
+
+Query: 115 -----PQDI----WNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                P  +        +   I+   L L                       L+ +++  
+Sbjct: 194 WKTFSPTTVSVGKGTEFEGAVIALFHLLLTRNDKVRALKEAFYRQNLPNITNLLATVLIF 253
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+            + +  +  +  +PV    +  +   Y    I+L     +PI+    LVS   +   +++
+Sbjct: 254 MVVIYFQGFRVDLPVKSTRVSGQQGTY---PIKLFYTSNIPIILQSALVSNLYFISQLLY 310
+
+Query: 204 FLQPEN------------------QLIEQWIEALS-----------MGSPAWFILYLLTI 234
+              P+N                    +      +S                ++I ++LT 
+Sbjct: 311 RRFPDNILVNLFGAWRTSEYSQQMIPVSGLTYYISSPNNMSAVLADPFHALFYITFMLTS 370
+
+Query: 235 FILALAFAFINI---SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLI 291
+             L  +  +I +   S   +A++++     ++      +  + +N  +   A  G   + 
+Sbjct: 371 CAL-FSKVWIEVSGSSARDVAKQLKDQQMTMKGHR-DTSVIKELNRYIPTAAAFGGLCIG 428
+
+Query: 292 LISGLPMMVVLVD 304
+            ++ +   +  + 
+Sbjct: 429 ALTVVADFMGAIG 441
+
+
+>sp|P49461|SECY_ODOSI Preprotein translocase subunit secY
+           OS=Odontella sinensis GN=secY PE=3 SV=1
+          Length = 425
+
+ Score =  205 bits (521), Expect = 5e-52,   Method: Composition-based stats.
+ Identities = 72/323 (22%), Positives = 142/323 (43%), Gaps = 25/323 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM-------LLTLVIALIQSV 53
+            LF++ + P++++ +I Q+  VS   GLSKL  E     R        LLTL  +LIQS 
+Sbjct: 66  GLFTLNIFPYINASIIMQLL-VSLLPGLSKLQKEGGAEARRSINSLTRLLTLGWSLIQST 124
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIA 112
+           ++   L  + A       +     + L  G   ++WL+++    GLG    +++  ++++
+Sbjct: 125 SVAFYL--KRALFEWNLVLAFEIVIWLTTGAMIVLWLSEIITEYGLGNGPSLLIYTNIVS 182
+
+Query: 113 YIPQDIWNSI--QELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI------- 163
+            +P  +   I     K+      L      V LY  V ++    ++ +            
+Sbjct: 183 SLPGFVKQVITESSGKVPIGSWLLSGFVLFVALYGIVLLQEGMRKVYLISSKQLNQTSLP 242
+
+Query: 164 ---HNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALS 220
+               +  +   Y+ +R N AG MPI+    ++ IP  F+  +  L+    LI   +   S
+Sbjct: 243 FSGSSNLESGYYIPLRFNQAGVMPIILTTAVLVIP-TFIYNLGLLRILTPLITLPVFVKS 301
+
+Query: 221 MGSPAWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVT 280
+                +++ Y + I + +L ++ I ++   +++ +QK    I  + PG  T  Y+  ++ 
+Sbjct: 302 Y-KIIYWVSYFVLILLFSLFYSTIVVNPKDLSDELQKMAVSIPGIRPGVETTFYLKQVMK 360
+
+Query: 281 YFALVGAFYLILISGLPMMVVLV 303
+              L+GA  L L++ LP ++  +
+Sbjct: 361 RVTLLGAIMLALLATLPNIIQAI 383
+
+
+>sp|O51451|SECY_BORBU Preprotein translocase subunit secY
+           OS=Borrelia burgdorferi GN=secY PE=3 SV=1
+          Length = 434
+
+ Score =  204 bits (519), Expect = 8e-52,   Method: Composition-based stats.
+ Identities = 59/314 (18%), Positives = 144/314 (45%), Gaps = 15/314 (4%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQE----RRRMLLTLVIALIQSVALV 56
+           S+F + + P++S+ +I Q+   S          +       +    LT+V A++Q  A  
+Sbjct: 72  SIFMLSIGPYISASIIVQLLVYSFPSLKKMQEGDGGRQKTKKYTKYLTIVAAVVQGYATS 131
+
+Query: 57  LNL-PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI 114
+           L    +  A  +     + +  L +  GT+ L+W  +     G+G    +I+ + ++  +
+Sbjct: 132 LYAKGIPGAVTIPFYRYIFVAILTVTTGTFILLWFGEQINQRGVGNGTSLIIFSGIVVRL 191
+
+Query: 115 PQDIWNSIQEL-----KISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKK 169
+              ++N  Q +      ++ +++ L++   ++ + L +   +++ RI ++    ++    
+Sbjct: 192 QAALFNLFQSMQDPSQNVNPVFVILIISIFILVVILIIYEYKAQMRIAIHYARANSNNTV 251
+
+Query: 170 YSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWFIL 229
+            SYL I+LNP+G +P+++A  L+++P   L I+      + +  Q +  L      +  L
+Sbjct: 252 SSYLPIKLNPSGVLPVIFASVLITLP---LQILSGFAETSSIARQILSYLRPNGFYYTFL 308
+
+Query: 230 YLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFY 289
+            ++ I      ++ I +S   I+  ++K+G  I  +       +Y++ ++      G+ +
+Sbjct: 309 NVILIIGFTYFYSKIQLSPKDISNNIRKNGGTIPGIKSDE-MEKYLDEIMNKTLFSGSIF 367
+
+Query: 290 LILISGLPMMVVLV 303
+           L +I+ +P +V  +
+Sbjct: 368 LSIIAIIPFLVQNI 381
+
+
+>sp|Q5NVM7|S61A2_PONAB Protein transport protein Sec61 subunit alpha
+           isoform 2 OS=Pongo abelii GN=SEC61A2 PE=2 SV=1
+          Length = 476
+
+ Score =  203 bits (518), Expect = 1e-51,   Method: Composition-based stats.
+ Identities = 60/392 (15%), Positives = 126/392 (32%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + A +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPAEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 ---PQDI----WNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+              P  I        +   I+   L                         L+ ++    +
+Sbjct: 195 ASSPTTINTGRGTEFEGAVIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +YS   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYSSYPIKLFYTSNIPIILQSALVSNLYVISQMLSVR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N                      +      LS       IL       +  IF+L  
+Sbjct: 312 FSGNFLVNLLGQWADVSGGGPARSYPVGGLCYYLSPPESMGAILEDPVHVVVYIIFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRDTSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q96TW8|SC61A_HANAN Protein transport protein SEC61 subunit alpha
+           OS=Hansenula anomala GN=SEC61 PE=3 SV=1
+          Length = 479
+
+ Score =  203 bits (516), Expect = 2e-51,   Method: Composition-based stats.
+ Identities = 59/372 (15%), Positives = 129/372 (34%), Gaps = 73/372 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLS---KLPLEVQERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP +SS +++Q+   ++ L ++   K   E  +  + L  +++++ Q+   VL
+Sbjct: 76  TLMELGISPIVSSGMVFQLLQGTQLLDVNLESKTDRETFQTAQKLFAILLSIGQATVYVL 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMI----- 111
+                  +      + +L  L L+     +I L +L     GLG  I + MA+ I     
+Sbjct: 136 TGIYGRPS-DLGVGVCLLLILQLVFAGIIVILLDELLQKGYGLGSGISLFMATNICEQIF 194
+
+Query: 112 --AYIPQDI----WNSIQELKISSLWLALM----------------------LVFSLVFL 143
+             A+ P  +     +  +   ++   L  +                      L+ + +  
+Sbjct: 195 WKAFAPTTVNNGRGDEFEGAVVALFHLLSVRKDKRRALVEAFYRQNLPNIFQLLATFIVF 254
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+           +L V ++  +Y IPV       +   Y    I+L      PIM    L S       ++ 
+Sbjct: 255 FLVVYLQGFRYEIPVRSTRQRGQNGLY---PIKLFYTSNTPIMLQSALTSNFFIISQMLF 311
+
+Query: 204 FLQPENQLIE------------------QWIEALSMG--------SPAWFILYLLTIFIL 237
+              P N ++                        +            P   ++Y+  +  +
+Sbjct: 312 QRFPLNPVVRLFGVWDARPGSAQLFASNGLAYYIQPPLSLTEALLDPIKTVIYVSFVLSV 371
+
+Query: 238 ALAFA--FINIS---GDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F+  +I IS      +A++ +  G  I       +  + +  ++   A  G   +  
+Sbjct: 372 CALFSKTWIEISGTAPRDVAKQFKDQGLVIAG-RRETSVYKELKRIIPTAAAFGGASIGA 430
+
+Query: 293 ISGLPMMVVLVD 304
+           +S    ++  + 
+Sbjct: 431 LSVACDLLGTLG 442
+
+
+>sp|P78979|SC61A_YARLI Protein transport protein SEC61 subunit alpha
+           OS=Yarrowia lipolytica GN=SEC61 PE=3 SV=2
+          Length = 471
+
+ Score =  203 bits (516), Expect = 2e-51,   Method: Composition-based stats.
+ Identities = 50/371 (13%), Positives = 119/371 (32%), Gaps = 73/371 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLS---KLPLEVQERRRMLLTLVIALIQSVALVL 57
+           SL  +G++P +SS +++Q+   ++ + ++   K   E+ +  + L  ++++L Q+   VL
+Sbjct: 76  SLMELGITPIVSSGMVFQLLGGTQLIEVNMDLKSDRELYQTAQKLFAIILSLGQATVYVL 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGS-IMIVMASMIAYI- 114
+                         + +L    L+     +I L +L     GLG    + +  ++   I 
+Sbjct: 136 TGMYGPPK-DLGVGVCLLLIFQLVLAALVVILLDELLQKGYGLGSGISLFIATNICEQIF 194
+
+Query: 115 ---------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                     +      +   ++ + L                         LV ++   
+Sbjct: 195 WKAFAPTTVNKGRGYEFEGAIVAFVHLLFTRKDKKRAIIEAFTRQDLPNMSQLVTTVAIF 254
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+              + ++  +  IPV        +  +    I+L     +PIM    L S       ++ 
+Sbjct: 255 AAVIYLQGFRVDIPVKSSKQRGPYGVF---PIKLFYTSNLPIMLQSALTSNIFIISQMLF 311
+
+Query: 204 FLQPEN------------------QLIEQWIEALSMG--------SPAWFILYLLTIFIL 237
+              P N                    +      +            P   ++Y+  +  +
+Sbjct: 312 KKFPTNVLVRLLGVWDGREGMQQLFPVSGIAYYMQPPFNAKEALADPVKTVIYIAFVLGV 371
+
+Query: 238 ALAFAFINI-----SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F+   I     S   +A++ ++ G  I       A  + +  ++   A  G   +  
+Sbjct: 372 CAVFSATWIEISGSSPRDVAKQFKEQGLVIAGRRETSAY-KELKRIIPTAAAFGGATIGA 430
+
+Query: 293 ISGLPMMVVLV 303
+           +S    ++  +
+Sbjct: 431 LSVASDLLGAL 441
+
+
+>sp|Q9JLR1|S61A2_MOUSE Protein transport protein Sec61 subunit alpha
+           isoform 2 OS=Mus musculus GN=Sec61a2 PE=2 SV=3
+          Length = 476
+
+ Score =  202 bits (514), Expect = 3e-51,   Method: Composition-based stats.
+ Identities = 59/392 (15%), Positives = 126/392 (32%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + A +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPAEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 ---PQDI----WNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+              P  I        +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTINTGRGTEFEGAVIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +YS   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYSSYPIKLFYTSNIPIILQSALVSNLYVISQMLSVR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFI------LYLLTIFILAL 239
+              N                      +      LS       I      + +  IF+L  
+Sbjct: 312 FSGNFLVNLLGQWADVSGGGPARSYPVGGLCYYLSPPESMGAIFEDPVHVVVYIIFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRDTSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q9H9S3|S61A2_HUMAN Protein transport protein Sec61 subunit alpha
+           isoform 2 OS=Homo sapiens GN=SEC61A2 PE=2 SV=3
+          Length = 476
+
+ Score =  202 bits (514), Expect = 3e-51,   Method: Composition-based stats.
+ Identities = 59/392 (15%), Positives = 126/392 (32%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + A +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPAEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 ---PQDI----WNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+              P  I        +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTINTGRGTEFEGAVIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +YS   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYSSYPIKLFYTSNIPIILQSALVSNLYVISQMLSVR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFI------LYLLTIFILAL 239
+              N                      +      LS       I      + +  IF+L  
+Sbjct: 312 FSGNFLVNLLGQWADVSGGGPARSYPVGGLCYYLSPPESMGAIFEDPVHVVVYIIFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRDTSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q2KHX4|S61A2_BOVIN Protein transport protein Sec61 subunit alpha
+           isoform 2 OS=Bos taurus GN=SEC61A2 PE=2 SV=3
+          Length = 476
+
+ Score =  202 bits (514), Expect = 3e-51,   Method: Composition-based stats.
+ Identities = 59/392 (15%), Positives = 126/392 (32%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + A +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPAEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 ---PQDI----WNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+              P  I        +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTINTGRGTEFEGAVIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +YS   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYSSYPIKLFYTSNIPIILQSALVSNLYVISQMLSVR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFI------LYLLTIFILAL 239
+              N                      +      LS       I      + +  IF+L  
+Sbjct: 312 FSGNFLVNLLGQWADVSGGGPARSYPVGGLCYYLSPPESMGAIFEDPVHVVVYIIFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRDTSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q90ZM2|S61A1_DANRE Protein transport protein Sec61 subunit
+           alpha-like 1 OS=Danio rerio GN=sec61al1 PE=2 SV=3
+          Length = 476
+
+ Score =  202 bits (514), Expect = 3e-51,   Method: Composition-based stats.
+ Identities = 53/392 (13%), Positives = 124/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N                      +      LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDTSSGGPARAYPVGGLCYYLSPPESFGSVLDDPVHAVIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q8AY32|SC61A_GADOC Protein transport protein Sec61 subunit alpha
+           OS=Gadus ogac GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  202 bits (514), Expect = 3e-51,   Method: Composition-based stats.
+ Identities = 53/392 (13%), Positives = 123/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +V+   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLVIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N                      +       S       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDTSTGGPARAYPVGGLCYYFSPPESFGSVLDDPVHASIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q98SN8|S61A2_ONCMY Protein transport protein Sec61 subunit alpha
+           isoform B OS=Oncorhynchus mykiss GN=sec61ab PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (513), Expect = 4e-51,   Method: Composition-based stats.
+ Identities = 52/392 (13%), Positives = 122/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSDMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLLATVFVFGV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N                      +       S       +L       +   F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDTSSGGPARAYPVGGLCYYFSPPESFGSVLDDPIHAAIYICFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q5EA68|S61A1_BOVIN Protein transport protein Sec61 subunit alpha
+           isoform 1 OS=Bos taurus GN=SEC61A1 PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (513), Expect = 5e-51,   Method: Composition-based stats.
+ Identities = 56/392 (14%), Positives = 124/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  + I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMTITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGVCLLITIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSAR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNLLVSLLGTWSDTSSGGPARAYPVGGLCYYLSPPESFGSVLEDPVHAVVYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|P61621|S61A1_RAT Protein transport protein Sec61 subunit alpha
+           isoform 1 OS=Rattus norvegicus GN=Sec61a1 PE=2 SV=2
+          Length = 476
+
+ Score =  201 bits (513), Expect = 5e-51,   Method: Composition-based stats.
+ Identities = 56/392 (14%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLITIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSAR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNLLVSLLGTWSDTSSGGPARAYPVGGLCYYLSPPESFGSVLEDPVHAVVYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q5R5L5|S61A1_PONAB Protein transport protein Sec61 subunit alpha
+           isoform 1 OS=Pongo abelii GN=SEC61A1 PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (513), Expect = 5e-51,   Method: Composition-based stats.
+ Identities = 56/392 (14%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLITIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSAR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNLLVSLLGTWSDTSSGGPARAYPVGGLCYYLSPPESFGSVLEDPVHAVVYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|P61620|S61A1_MOUSE Protein transport protein Sec61 subunit alpha
+           isoform 1 OS=Mus musculus GN=Sec61a1 PE=2 SV=2
+          Length = 476
+
+ Score =  201 bits (513), Expect = 5e-51,   Method: Composition-based stats.
+ Identities = 56/392 (14%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLITIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSAR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNLLVSLLGTWSDTSSGGPARAYPVGGLCYYLSPPESFGSVLEDPVHAVVYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|P61619|S61A1_HUMAN Protein transport protein Sec61 subunit alpha
+           isoform 1 OS=Homo sapiens GN=SEC61A1 PE=1 SV=2
+          Length = 476
+
+ Score =  201 bits (513), Expect = 5e-51,   Method: Composition-based stats.
+ Identities = 56/392 (14%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLITIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSAR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNLLVSLLGTWSDTSSGGPARAYPVGGLCYYLSPPESFGSVLEDPVHAVVYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q7T278|SC61A_HARAN Protein transport protein Sec61 subunit alpha
+           OS=Harpagifer antarcticus GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (512), Expect = 6e-51,   Method: Composition-based stats.
+ Identities = 54/392 (13%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNILNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDATSGGPARAYPVAGLCYYLSPPESFGSVLDDPVHAAIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q7T277|SC61A_DISMA Protein transport protein Sec61 subunit alpha
+           OS=Dissostichus mawsoni GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (512), Expect = 6e-51,   Method: Composition-based stats.
+ Identities = 54/392 (13%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNILNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDATSGGPARAYPVAGLCYYLSPPESFGSVLDDPVHAAIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q8AY36|SC61A_PAGBO Protein transport protein Sec61 subunit alpha
+           OS=Pagothenia borchgrevinki GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (511), Expect = 7e-51,   Method: Composition-based stats.
+ Identities = 54/392 (13%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNILNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDATSGGPARAYPVAGLCYYLSPPESFGSVLDDPVHAAIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q8AY35|SC61A_NOTAN Protein transport protein Sec61 subunit alpha
+           OS=Notothenia angustata GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (511), Expect = 7e-51,   Method: Composition-based stats.
+ Identities = 54/392 (13%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNILNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDATSGGPARAYPVAGLCYYLSPPESFGSVLDDPVHAAIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q8AY34|SC61A_HEMAM Protein transport protein Sec61 subunit alpha
+           OS=Hemitripterus americanus GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (511), Expect = 8e-51,   Method: Composition-based stats.
+ Identities = 55/392 (14%), Positives = 126/392 (32%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K +G+   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIGVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREGFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDATSGGPARAYPVAGLCYYLSPPESFGSVLDDPVHAGIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q90YL4|S61A2_DANRE Protein transport protein Sec61 subunit
+           alpha-like 2 OS=Danio rerio GN=sec61al2 PE=2 SV=3
+          Length = 476
+
+ Score =  201 bits (511), Expect = 8e-51,   Method: Composition-based stats.
+ Identities = 55/392 (14%), Positives = 124/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q+V  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAVVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N                      +      LS       +L       +  IF+L  
+Sbjct: 312 FSGNFLVNLLGTWSDTSTGGPARAYPVGGLCYYLSPPESFGTVLEDPIHAIIYIIFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q8AY31|SC61A_BOVVA Protein transport protein Sec61 subunit alpha
+           OS=Bovichtus variegatus GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  200 bits (510), Expect = 9e-51,   Method: Composition-based stats.
+ Identities = 53/392 (13%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G++P ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGIAPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFGPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDATTSGPARAYPVAGLCYYLSPPESFGSVLDDPVHAVIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|P38377|S61A1_CANFA Protein transport protein Sec61 subunit alpha
+           isoform 1 OS=Canis familiaris GN=SEC61A1 PE=1 SV=3
+          Length = 476
+
+ Score =  200 bits (510), Expect = 1e-50,   Method: Composition-based stats.
+ Identities = 56/392 (14%), Positives = 125/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLITIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGMEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATIFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSAR 311
+
+Query: 206 QPENQLIE--------------------QWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N L+                          LS       +L       +  +F+L  
+Sbjct: 312 FSGNLLVSLLGTWSDTSSGGPARAYPVGGLCHYLSPPESFGSVLEDPVHAVVYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGA 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S L   +  +       L +++I   F IF+
+Sbjct: 431 LSVLADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q9P8E3|SC61A_CANAL Protein transport protein SEC61 subunit alpha
+           OS=Candida albicans GN=SEC61 PE=3 SV=1
+          Length = 479
+
+ Score =  199 bits (508), Expect = 1e-50,   Method: Composition-based stats.
+ Identities = 57/374 (15%), Positives = 122/374 (32%), Gaps = 77/374 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPL---EVQERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP +SS +++Q+   +K + +        E  +  + LL +++A+ Q+   VL
+Sbjct: 76  TLMELGISPIVSSGMLFQLLQGTKIIHVDMQNKNDRETFQTAQKLLAILLAVGQATVYVL 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMI----- 111
+                  + + +    +L  L L+  +  +I L +L     GLG  + +  A+       
+Sbjct: 136 TGMYGPPSSLGVGVCSLL-ILQLVFASTIVILLDELLQKGYGLGSGVSLFTATNTCEQVF 194
+
+Query: 112 --AYIP----QDIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+             A+ P               ++   L                         L+ +L+  
+Sbjct: 195 WKAFAPTTSTSAKGTEFDGAVVAMFHLLGSRKDKKRALIESFYRPNLPNMFQLLATLLVF 254
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+           +  V ++  +  +P+        +  Y    IRL     +PIM    L S       ++ 
+Sbjct: 255 FAVVYLQGFRIELPMKSTRQRGPYGSY---PIRLFYTSNIPIMLESALASNIFIISQLLF 311
+
+Query: 204 FLQPENQLIE------------------QWIEALSMGSPAWFILYLLTIFILALAFAFI- 244
+              P N  ++                       +    P  F   LL      +  AF+ 
+Sbjct: 312 MRWPNNLFVKLLGTWDARAGSSQLYANGGLAYYIQP--PFNFTDALLDPIKTTIYIAFVL 369
+
+Query: 245 --------------NISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYL 290
+                           S   +A++ ++ G  I       A  + +  ++   A  G   +
+Sbjct: 370 GSCAVFSTTWIEISGTSPRDVAKQFKEQGLVIAGHRDTSAY-KELKKIIHIAAAFGGATI 428
+
+Query: 291 ILISGLPMMVVLVD 304
+             +S +  ++  + 
+Sbjct: 429 GALSVVCDLMGTLG 442
+
+
+>sp|Q6FRY3|SC61A_CANGA Protein transport protein SEC61 subunit alpha
+           OS=Candida glabrata GN=SEC61 PE=3 SV=1
+          Length = 479
+
+ Score =  199 bits (507), Expect = 2e-50,   Method: Composition-based stats.
+ Identities = 54/373 (14%), Positives = 119/373 (31%), Gaps = 74/373 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR---MLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S +I+Q    ++ L +S    E +E  +    +  +++   Q++ +V+
+Sbjct: 75  TLMELGVSPIITSSMIFQFLQGTQLLQVSLDSKEDRELYQIAQKVCAIILTFGQALVVVM 134
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMIA---- 112
+                  +      I +L    LM  ++ ++ L +L     GLG  I +  A+ IA    
+Sbjct: 135 TGNYGSPS-DLGIAISLLLIFQLMFASFIVLLLDELLTKGYGLGSGISLFTATNIAENIF 193
+
+Query: 113 -------YIPQDIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                   +        +   I+   L  +                      ++ ++   
+Sbjct: 194 WKAFAPTTVNSGRGKEFEGAVIAFFHLLAVRKDKKRALVEAFYRENLPNMFQVIATVFVF 253
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+              + ++  +Y +PV    +     + +   I+L      PIM    L S       I+ 
+Sbjct: 254 LFVLYLQGFRYELPVKSTKVR---GQMAIYPIKLFYTSNTPIMLQSALSSNIFLISQILF 310
+
+Query: 204 FLQPENQ-------------------LIEQWIEALSMGSPAWFILY------LLTIFILA 238
+              P N                     +      L         L       + T F+L 
+Sbjct: 311 QKYPSNPVIRLFGVWGIRPGTNGPQVPLSGISYYLQPIGSLKMALLDPIKTVIYTAFVLG 370
+
+Query: 239 LAFAFIN-------ISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLI 291
+               F          S   +A++ ++ G  I       +  + +  ++   A  G   + 
+Sbjct: 371 TCALFSKTWIEISGTSAKDVAKQFKEQGMVINGKRET-SVYKELKKIIPTAAAFGGATIG 429
+
+Query: 292 LISGLPMMVVLVD 304
+            +S    ++  + 
+Sbjct: 430 ALSVGSDLLGALG 442
+
+
+>sp|Q752H7|SC61A_ASHGO Protein transport protein SEC61 subunit alpha
+           OS=Ashbya gossypii GN=SEC61 PE=3 SV=1
+          Length = 480
+
+ Score =  199 bits (507), Expect = 2e-50,   Method: Composition-based stats.
+ Identities = 50/374 (13%), Positives = 123/374 (32%), Gaps = 75/374 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S +I+Q    ++ L ++    + +   +  + +  +V+ L Q++ +VL
+Sbjct: 75  TLMELGVSPIITSSMIFQFLQGTQLLQVNLESKQDRELFQIAQKVCAIVLTLGQAIVVVL 134
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDL-NAAMGLGGSIMIVMASMIA---- 112
+                         I +L  L L+  ++ ++ L +L     GLG  I +  A+ IA    
+Sbjct: 135 TGNYGS-VSNLGIAISLLLILQLVFASFIVLLLDELLIKGYGLGSGISLFTATNIAEQIF 193
+
+Query: 113 -------YIPQDIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                   +        +   ++   L  +                      ++ ++   
+Sbjct: 194 WKAFAPTTVNNGRGTEFEGAVVALFHLLSVRKDKKRALVEAFYRDYLPNMFQVLSTVFVF 253
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+              + ++  +Y +PV       +   Y    I+L      PIM    L S       +++
+Sbjct: 254 LFVLYLQGFRYELPVRSTRTRGQVGSY---PIKLFYTSNTPIMLQSALTSNIFLTSQLLY 310
+
+Query: 204 FLQPENQLIE--------------------QWIEALSMG--------SPAWFILYLLTIF 235
+              P N +++                         +            P   ++Y+  + 
+Sbjct: 311 QKFPNNPIVKMLGVWGTRSDAPYSPNAAISGLSYYIQPPFSFTEALLDPIKTVVYVTFVL 370
+
+Query: 236 ILALAFAFINIS-----GDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYL 290
+                F+   I         ++++ ++ G  I       +  R +  ++   A  G   +
+Sbjct: 371 GACAMFSRTWIDVSGTSPRDVSKQFKEQGLVING-RRETSVYRELKKVIPTAAAFGGATI 429
+
+Query: 291 ILISGLPMMVVLVD 304
+             +S    ++  + 
+Sbjct: 430 GALSVGSDLLGTLG 443
+
+
+>sp|P25014|SECY_CYAPA Preprotein translocase subunit secY
+           OS=Cyanophora paradoxa GN=secY PE=3 SV=2
+          Length = 492
+
+ Score =  199 bits (507), Expect = 2e-50,   Method: Composition-based stats.
+ Identities = 70/337 (20%), Positives = 138/337 (40%), Gaps = 31/337 (9%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQE-------RRRMLLTLVIALIQSV 53
+             F++G+ P+M++    Q+        L +   E +E       +    LT++ A IQS+
+Sbjct: 109 GFFTLGILPYMNASFFLQVLT-KILPSLERFQKEQEEIAQREFKKWTRYLTVIWAFIQSI 167
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMASMIA 112
+            +     ++  A      + +   + L  G   ++ + +    +GL     +++  ++IA
+Sbjct: 168 VISWIW-IRPYALNWDFFLGLKVVVALTLGAVIVMIIAEQITEIGLTNGSSLLIFINIIA 226
+
+Query: 113 YIPQDIWNSIQE----LKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFK 168
+            IP  I                 L L L  S + +++ + ++ S   +PV         +
+Sbjct: 227 RIPNSIEQLFNSNINWTFPMISSLILSLSLSFITMFVIIGLQESGRPVPVLIARQEAERQ 286
+
+Query: 169 KY-------------SYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQW 215
+           K+             +Y+  +L PAG MP+++A T+  +        +FL  +     Q 
+Sbjct: 287 KFNEPITEAERRKTQAYIFFQLLPAGIMPVIFASTIFDL--ALPAFTNFLLQQGNWGYQL 344
+
+Query: 216 IEALSMGSPAWFILYLLTIFILALAFAF-INISGDQIAERMQKSGEYIENVYPGGATRRY 274
+           I++    S      YL+TI + +  +A  I I+   +AE +      I  V PG  T+ Y
+Sbjct: 345 IKSFPFNSLFKDFCYLITIMLFSSNYALTIMINPKTLAENLNSMNALIPGVRPGSETKVY 404
+
+Query: 275 INGLVTYFALVGAFYLILISGLPMMVV-LVDIRYLRL 310
+              L+     +G+F L L+  LP +V   + +  L++
+Sbjct: 405 SEQLIHRLNFIGSFVLALVCILPSIVERSLGLPKLQI 441
+
+
+>sp|Q6CPY9|SC61A_KLULA Protein transport protein SEC61 subunit alpha
+           OS=Kluyveromyces lactis GN=SEC61 PE=3 SV=1
+          Length = 480
+
+ Score =  199 bits (506), Expect = 3e-50,   Method: Composition-based stats.
+ Identities = 51/374 (13%), Positives = 124/374 (33%), Gaps = 75/374 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR---MLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S +I+Q    ++ L ++    + +E  +    +  +++   Q++ +VL
+Sbjct: 75  TLMELGVSPIITSSMIFQFLQGTQLLQVNMENKQDRELYQIAQKVFAILLTFGQAIVVVL 134
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMI----- 111
+                + +      I +L    L+  ++ ++ L +L +   GLG  I +  A+ I     
+Sbjct: 135 TGNYGKPS-DLGLAISLLLIFQLIFASFTVLLLDELLSKGYGLGSGISLFTATNIAEQIT 193
+
+Query: 112 --AYIPQDI----WNSIQELKISSLWLALM----------------------LVFSLVFL 143
+             A+ P  +        +   I+   L  +                      +  ++   
+Sbjct: 194 WKAFAPTTVNVGRGQEFEGAVIALFHLLAIRKDKKRALVEAFYRENLPNMFQVFSTIGVF 253
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+              + ++  +Y +P+       ++  Y    I+L      PIM    L S       I++
+Sbjct: 254 LSVLYLQGFRYELPIKSTRTRGQYGSY---PIKLFYTSNTPIMLQSALTSNIFLISQILY 310
+
+Query: 204 FLQPENQLIE--------------------QWIEALSMG--------SPAWFILYLLTIF 235
+                N L++                         +            P   ++Y+  + 
+Sbjct: 311 QRFSTNPLVKLLGVWGTRAGAPAGQQVALSGLSYYIQPPFSVTDALLDPIKTVVYVGFVL 370
+
+Query: 236 ILALAFAFINI-----SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYL 290
+                F+   I     S   +A++ +  G  I          + +  ++   A  G   +
+Sbjct: 371 GACALFSKTWIEISGTSPRDVAKQFKDQGLTINGKRET-NVYKELKKIIPTAAAFGGAVI 429
+
+Query: 291 ILISGLPMMVVLVD 304
+             +S    ++  + 
+Sbjct: 430 GALSVGSDLLGTLG 443
+
+
+>sp|Q6BN08|SC61A_DEBHA Protein transport protein SEC61 subunit alpha
+           OS=Debaryomyces hansenii GN=SEC61 PE=3 SV=1
+          Length = 479
+
+ Score =  198 bits (504), Expect = 4e-50,   Method: Composition-based stats.
+ Identities = 55/372 (14%), Positives = 123/372 (33%), Gaps = 73/372 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP +S+ +++Q+   +K + +       +   +  + L  +++A+ Q+   VL
+Sbjct: 76  TLMELGISPIVSAGMVFQLLQGTKLITVDMSNKNDRDQFQTAQKLFAILLAVGQATVYVL 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMI----- 111
+                  + +     ++L   ++ AG   +I L +L     GLG  I +  A+ +     
+Sbjct: 136 TGMYGPPSSLGTGVCLLLVLQLVFAG-IVVILLDELLQKGYGLGSGISLFTATNVCEQVF 194
+
+Query: 112 --AYIPQ----DIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+             A+ P           +   ++   L                         L+ ++   
+Sbjct: 195 WKAFAPTTSNIGKGTEFEGAVVALFHLLGSRKDKKRALLEAFYRSHLPNMFQLIATVFVF 254
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+            L V ++  +  +P+        +  Y    IRL     +PIM    L S       ++ 
+Sbjct: 255 LLVVYLQGFRIELPIKSTRQRGPYGLY---PIRLFYTSNIPIMLQSALSSNIFIISQMLF 311
+
+Query: 204 FLQPENQLIE------------------QWIEALSMG--------SPAWFILYLLTIFIL 237
+              P N  ++                       +            P   I+Y++ +   
+Sbjct: 312 VRWPNNIFVKILGSWDTRQGAAQLYAVSGLAYYIQPPLSFTEALLDPIKTIIYIIFVLGS 371
+
+Query: 238 ALAFAFINI-----SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F+   I     S   +A++ ++ G  I       A  R +  ++   A  G   +  
+Sbjct: 372 CAVFSTTWIEISGASPRDVAKQFKEQGLVIAGHRDTSAY-RELKKIIPTAAAFGGATIGA 430
+
+Query: 293 ISGLPMMVVLVD 304
+           +S    ++  + 
+Sbjct: 431 LSVFCDLMGTLG 442
+
+
+>sp|Q8AY33|SC61A_BORSA Protein transport protein Sec61 subunit alpha
+           OS=Boreogadus saida GN=sec61a PE=2 SV=3
+          Length = 476
+
+ Score =  198 bits (504), Expect = 4e-50,   Method: Composition-based stats.
+ Identities = 54/392 (13%), Positives = 126/392 (32%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + Q++  V+ 
+Sbjct: 75  TLMELGISPIVTSDLIMQLLAGAKIIEVGDSPKDRALFNGAQKLFGMIITIGQAIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +V+   + +AG   L+    L    GLG    +++  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLVIIIQLFVAGLIVLLLDELLQKGYGLGSGISLLIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLMNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPENQL--------------------IEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N +                    +      LS       +L       +  +F+L  
+Sbjct: 312 FSGNFIVNLLGTWSDTSTGGPARAYPVGGLCYFLSPPESFGSVLDDPVHAAIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMRGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|Q98SN9|S61A1_ONCMY Protein transport protein Sec61 subunit alpha
+           isoform A OS=Oncorhynchus mykiss GN=sec61aa PE=2 SV=3
+          Length = 476
+
+ Score =  198 bits (503), Expect = 5e-50,   Method: Composition-based stats.
+ Identities = 54/392 (13%), Positives = 124/392 (31%), Gaps = 75/392 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G+SP ++S LI Q+ A +K + +   P +       + L  ++I + QS+  V+ 
+Sbjct: 75  TLMELGISPIVTSGLIMQLLAGAKIIEVGDTPKDRALFNGAQKLFGMIITIGQSIVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAYI--- 114
+               + + +     +++   + +AG   L+    L    GLG    + +  ++   I   
+Sbjct: 135 GMYGDPSEMGAGICLLIIIQLFVAGLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 115 -------PQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+                          +   I+   L                         L+ ++    +
+Sbjct: 195 AFSPTTVNTGRGTEFEGAIIALFHLLATRTDKVRALREAFYRQNLPNLLNLIATVFVFAV 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +Y+   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYNTYPIKLFYTSNIPIILQSALVSNLYVISQMLSTR 311
+
+Query: 206 QPEN--------------------QLIEQWIEALSMGSPAWFIL------YLLTIFILAL 239
+              N                      +      LS       +L       +  +F+L  
+Sbjct: 312 FSGNFLVNLLGTWSDTSTGGPARAYPVGGLCYFLSPPESFGSVLDDPIHAAIYIVFMLGS 371
+
+Query: 240 AFAFINI-------SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLIL 292
+              F          S   +A+++++    +            +N  +   A  G   +  
+Sbjct: 372 CAFFSKTWIEVSGSSAKDVAKQLKEQQMVMGGHRETSMVHE-LNRYIPTAAAFGGLCIGG 430
+
+Query: 293 ISGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           +S +   +  +       L +++I   F IF+
+Sbjct: 431 LSVMADFLGAIGSGTGILLAVTIIYQYFEIFV 462
+
+
+>sp|P46249|SECY_CYACA Preprotein translocase subunit secY
+           OS=Cyanidium caldarium GN=secY PE=3 SV=2
+          Length = 410
+
+ Score =  193 bits (492), Expect = 1e-48,   Method: Composition-based stats.
+ Identities = 59/313 (18%), Positives = 134/313 (42%), Gaps = 16/313 (5%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERR------RMLLTLVIALIQSVA 54
+           S+F++G+ P++++ +  Q+ + +          E +  +         L+   A I+S+A
+Sbjct: 62  SVFALGIIPYINATITIQILSSAFPALKKLQSEEGEIGKKKLNKITKYLSFCFAFIESLA 121
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+           +VL L  Q+ A       +V  TL+L++G   ++WL D  +  G+G    +I+  ++ + 
+Sbjct: 122 IVLRL--QKYAFDWNLYFIVQTTLILISGAMLVMWLADNISYKGIGTGASVIIFVNIASA 179
+
+Query: 114 IPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINI---HNRFKKY 170
+             + + N +    I  L  A      +  +   V V+ +  ++P+         + +   
+Sbjct: 180 FAKFLLNQLFVHSIKFLDFASYFALIVFSIACIVFVQEAIRKVPIISAKQLDSTSFYSND 239
+
+Query: 171 SYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWFILY 230
+            +L +R+N  G MPI+ A +L+++  Y +               +I  +      + +LY
+Sbjct: 240 YFLPLRINQGGVMPIILASSLLALVDYVIRY----GLSTLQAVYFINDILPFKILFLLLY 295
+
+Query: 231 LLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYL 290
+              I      +  + ++  +++  ++K+   I ++ PG  T ++    +    L G+ +L
+Sbjct: 296 SAFIIFFNYLYCSLVLNCFELSNNLKKASVVIPSIRPGKMTEKFFKDTLDNLTLFGSGFL 355
+
+Query: 291 ILISGLPMMVVLV 303
+             I   P  +  V
+Sbjct: 356 AFIVLAPNFLEFV 368
+
+
+>sp|P32915|SC61A_YEAST Protein transport protein SEC61
+           OS=Saccharomyces cerevisiae GN=SEC61 PE=1 SV=1
+          Length = 480
+
+ Score =  193 bits (491), Expect = 2e-48,   Method: Composition-based stats.
+ Identities = 54/373 (14%), Positives = 124/373 (33%), Gaps = 74/373 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGL---SKLPLEVQERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S +I+Q    ++ L +   SK   E+ +  + +  +++ L Q++ +V+
+Sbjct: 76  TLLELGVSPIITSSMIFQFLQGTQLLQIRPESKQDRELFQIAQKVCAIILILGQALVVVM 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMIA---- 112
+                  + + +    +L    LM  +  ++ L +L +   GLG  I +  A+ IA    
+Sbjct: 136 TGNYGAPSDLGLPIC-LLLIFQLMFASLIVMLLDELLSKGYGLGSGISLFTATNIAEQIF 194
+
+Query: 113 -------YIPQDIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                   +        +   I+   L  +                      ++ ++   
+Sbjct: 195 WRAFAPTTVNSGRGKEFEGAVIAFFHLLAVRKDKKRALVEAFYRTNLPNMFQVLMTVAIF 254
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+              + ++  +Y +P+    +  +   Y    I+L      PIM    L S       I+ 
+Sbjct: 255 LFVLYLQGFRYELPIRSTKVRGQIGIY---PIKLFYTSNTPIMLQSALTSNIFLISQILF 311
+
+Query: 204 FLQPENQLIE-------------------QWIEALSM------------GSPAWFILYLL 232
+              P N LI                         +               +  +    L 
+Sbjct: 312 QKYPTNPLIRLIGVWGIRPGTQGPQMALSGLAYYIQPLMSLSEALLDPIKTIVYITFVLG 371
+
+Query: 233 TIFILALAFAFIN-ISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLI 291
+           +  + +  +  I+  S   IA++ +  G  I       +  R +  ++   A  G   + 
+Sbjct: 372 SCAVFSKTWIEISGTSPRDIAKQFKDQGMVINGKRET-SIYRELKKIIPTAAAFGGATIG 430
+
+Query: 292 LISGLPMMVVLVD 304
+            +S    ++  + 
+Sbjct: 431 ALSVGSDLLGTLG 443
+
+
+>sp|Q25147|SC61A_HALRO Protein transport protein Sec61 subunit alpha
+           OS=Halocynthia roretzi PE=2 SV=1
+          Length = 475
+
+ Score =  192 bits (488), Expect = 4e-48,   Method: Composition-based stats.
+ Identities = 59/391 (15%), Positives = 131/391 (33%), Gaps = 74/391 (18%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEV--QERRRMLLTLVIALIQSVALVLN 58
+           +L  +G++P ++S LI Q+ A +K + +   P +       + L  ++I + Q+V  V+ 
+Sbjct: 75  TLMELGITPIVTSGLIMQLLAGAKLIEVGDTPKDRALFNGAQKLFGMIITIGQAVVYVMT 134
+
+Query: 59  LPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASMI------- 111
+               + + +     +++   + +A    L+    L    GLG  I + +A+ I       
+Sbjct: 135 GMYGDPSDMGAGICLLIIIQLFIASLIVLLLDELLQKGYGLGSGISLFIATNICETIVWK 194
+
+Query: 112 ----AYIPQDIWNSIQELKISSLWLALM----------------------LVFSLVFLYL 145
+               A +        +   I+   L                         L  +++   +
+Sbjct: 195 SFSPATVNTGRGTEFEGAVIALFHLLATRSDKVRALREAFYRPNLPNLMNLSATILVFGI 254
+
+Query: 146 AVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFL 205
+            +  +  +  +P+          +YS   I+L     +PI+    LVS       ++   
+Sbjct: 255 VIYFQGFRVDLPIKSAR---YRGQYSSYPIKLFYTSNIPIILQSALVSGLYVISQMLAIR 311
+
+Query: 206 QPENQLIEQ-------------------WIEALSMGSPAWFI-------LYLLTIFILAL 239
+              N  I                         LS     + +       L  +T  + + 
+Sbjct: 312 FRGNFFIGLLGVWEDVEGGGPARSYPVALCYYLSPPESFFSMFLDPIHGLLYITFMLGSC 371
+
+Query: 240 AF---AFINIS---GDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLILI 293
+           AF    +I +S      +A+++++    +       +    +N  +   A  G   +  +
+Sbjct: 372 AFFSKTWIEVSGSAAKDVAKQLKEQQMVMRGHRE-KSMIHELNRYIPTAAAFGGLCIGAL 430
+
+Query: 294 SGLPMMVVLVDIR---YLRLSMIPGIFMIFI 321
+           S L   +  +       L +++I   F IF+
+Sbjct: 431 SVLADFIGAIGSGTGILLAVTIIYQYFEIFV 461
+
+
+>sp|O26134|SECY_METTH Preprotein translocase subunit secY
+           OS=Methanobacterium thermoautotrophicum GN=secY PE=3
+           SV=1
+          Length = 456
+
+ Score =  191 bits (486), Expect = 5e-48,   Method: Composition-based stats.
+ Identities = 52/345 (15%), Positives = 118/345 (34%), Gaps = 51/345 (14%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           S+ ++G+ P +S+ +I Q+    K L L     E +   +  + LL +V    +++  VL
+Sbjct: 73  SILTLGIGPIVSASIILQLLVGGKILKLDLSRHEDKAFFQGLQKLLAIVFTFFEALIFVL 132
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASMIA----- 112
+              L  +A       + +  L L  G   +I+L ++ +  G G  + + +A+ ++     
+Sbjct: 133 TGSLAPSA----PQFVWVLILQLTIGGILIIFLDEVVSKWGFGSGVGLFIAAGVSQEIIV 188
+
+Query: 113 -----------------YIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYR 155
+                             I   ++           +  L ++  +    + V  E  +  
+Sbjct: 189 GAFNPLSAPTQPGVPAGRITGFLYLLFTGQSPDFQYYVLPVLALIAVFLVVVYAESMRVE 248
+
+Query: 156 IPVNK-INIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQ-------P 207
+           IP++                +R   A  MP++    L+   Q    +   L         
+Sbjct: 249 IPISMGGGKRLSRGAVGKYPLRFIYASNMPVILTSALLLNVQLLANVFQKLGYPILGTVS 308
+
+Query: 208 ENQLIEQWIEALSMGS--------PAWFILYLLTIFILALAFAFI-----NISGDQIAER 254
+             Q ++     L+           P   + Y +    L + FA++     NI    +A +
+Sbjct: 309 NGQAVDGLAYLLTAPRSIDALILDPFRVVFYAVVFIGLCVLFAWLWVEISNIGPRHVARQ 368
+
+Query: 255 MQKSGEYIENVYPGG-ATRRYINGLVTYFALVGAFYLILISGLPM 298
+           + + G  I           + +   +    ++G  ++ L++ +  
+Sbjct: 369 LYQMGMQIPGFRSSRGQFEKILKRYIPTITILGGAFVGLLAFVAD 413
+
+
+>sp|P38379|SC61A_PYRSA Protein transport protein Sec61 subunit alpha
+           OS=Pyrenomonas salina PE=2 SV=1
+          Length = 494
+
+ Score =  188 bits (478), Expect = 5e-47,   Method: Composition-based stats.
+ Identities = 62/374 (16%), Positives = 132/374 (35%), Gaps = 74/374 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S L+ Q+ A SK + + +   E +   +  + LL ++I + +SVA VL
+Sbjct: 78  TLMELGISPIVTSGLVMQLLAGSKIIDVDQGTKEDKTLFQGAQKLLGILITIGESVAYVL 137
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMI----- 111
+           +    +   +      +L  + L      +I L +L     G+G +I + +A+ +     
+Sbjct: 138 SGMYGDVKDLGAGN-AILIIVQLFTSGIIVICLDELLQKGYGIGSAISLFIATNVCESIV 196
+
+Query: 112 ------AYIPQDIWNSIQELKISSLWLALM----------------------LVFSLVFL 143
+                   I        +   ++   L +                       L+ +++  
+Sbjct: 197 WKSFSPTTINTGRGTEFEGALVALFQLMITKTDKVRALQEAFYRQNLPNVTNLLATVLVF 256
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+            L V  +  +  +P+          ++    I+L     MPI+    LVS   +   I++
+Sbjct: 257 VLVVYFQGFQVELPITPAKSKGMAGQF--YPIKLFYTSNMPIILQTALVSNLYFISQILY 314
+
+Query: 204 FLQPENQLI--------------------EQWIEALSMGSPAWFIL------YLLTIFIL 237
+              PEN +I                          +S  +    I+       L  IFIL
+Sbjct: 315 KRYPENIIIHILGRWEEPEMSVSGQMRPVGGIAYYISPLNSFAEIVSDPVHALLYIIFIL 374
+
+Query: 238 ALAFAFIN-------ISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYL 290
+           A    F          S   ++++++     ++      + +R +N  +   A  G   +
+Sbjct: 375 ASCALFSKTWIQVSGTSASDVSKQLRDQQMVMKGFRAS-SMQRELNRYIPTAAAFGGMCI 433
+
+Query: 291 ILISGLPMMVVLVD 304
+             +S +   +  + 
+Sbjct: 434 GALSIVADFMGAIG 447
+
+
+>sp|Q37143|SECY_ANTSP Preprotein translocase subunit secY
+           OS=Antithamnion sp. GN=secY PE=3 SV=1
+          Length = 405
+
+ Score =  184 bits (467), Expect = 8e-46,   Method: Composition-based stats.
+ Identities = 61/315 (19%), Positives = 141/315 (44%), Gaps = 24/315 (7%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRM------LLTLVIALIQSVA 54
+            +F++G+ P++ + +I Q+         +    E +  R+        LTL+ ALIQS++
+Sbjct: 62  GIFALGIVPYIYASIIIQLLIKLIPYLENLQKEEGEIGRQKINQLTRYLTLLWALIQSLS 121
+
+Query: 55  LVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASMIAY 113
+           + + +             +      L   +   +W +++ +  G+G    +++  ++I+ 
+Sbjct: 122 IAIWINHM------YLIHLFELCASLTTSSMIAMWFSEIISEYGVGNGPSLLIFQNIISS 175
+
+Query: 114 IPQDIWNSIQELKISSLWL--ALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYS 171
+           IP+++ N    +  ++  L  +L+L F ++ L + + ++  + +I +       +  + +
+Sbjct: 176 IPKNLQNYTFNIGTTNTVLNGSLILSFGIIILIINILIQEGERKIAILSAKQLGKINELN 235
+
+Query: 172 Y---LDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWFI 228
+           +     ++LN  G MP ++A  +V         +      N  I Q+I         +  
+Sbjct: 236 HKVIFLLKLNQGGVMPFVFASAVV------HTFLFISNNTNSKITQFINLFLPNQFLYLP 289
+
+Query: 229 LYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAF 288
+           LYL+ I   +  +  + ++ + IA+ ++K G  I N+ PG  T +Y+N  +    L+GA 
+Sbjct: 290 LYLIFIITFSYVYTSLILNPEDIAKNLKKMGASIPNIRPGSETIKYLNTRINRLTLIGAC 349
+
+Query: 289 YLILISGLPMMVVLV 303
+           +L  I+  P +   +
+Sbjct: 350 FLFTITLFPTITYYI 364
+
+
+>sp|Q60175|SECY_METJA Preprotein translocase subunit secY
+           OS=Methanocaldococcus jannaschii GN=secY PE=1 SV=2
+          Length = 436
+
+ Score =  183 bits (466), Expect = 1e-45,   Method: Composition-based stats.
+ Identities = 48/338 (14%), Positives = 127/338 (37%), Gaps = 41/338 (12%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           +L ++G+ P +++ +I Q+   S  + +     E +   +  + LL++++  +++V  V 
+Sbjct: 69  TLITLGIGPIVTAGIIMQLLVGSGIIQMDLSIPENRALFQGCQKLLSIIMCFVEAVLFVG 128
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMASMIAYI-- 114
+                    +    +  L  + +  G+  LI+L ++ +  G+G  I + + A +   I  
+Sbjct: 129 AGAFG----ILTPLLAFLVIIQIAFGSIILIYLDEIVSKYGIGSGIGLFIAAGVSQTIFV 184
+
+Query: 115 -----PQDIWNSIQELKISSLWLALM--LVFSLVFLYLAVTVERSKYRIPVNKINIHNRF 167
+                   +W  +  L      +  +  ++ +++   + V  E  +  IP+    I    
+Sbjct: 185 GALGPEGYLWKFLNSLIQGVPNIEYIAPIIGTIIVFLMVVYAECMRVEIPLAHGRIKGAV 244
+
+Query: 168 KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH-------FLQPENQLIEQWIEALS 220
+            KY    I+      +P++ A  L +  Q + L ++             + ++     LS
+Sbjct: 245 GKY---PIKFVYVSNIPVILAAALFANIQLWGLALYRMGIPILGHYEGGRAVDGIAYYLS 301
+
+Query: 221 MG--------SPAWFILYLLTIFILALAFAFI-----NISGDQIAERMQKSGEYIENVYP 267
+                      P   I+Y++ + I  + F         +    +A+R+   G  I+    
+Sbjct: 302 TPYGLSSVISDPIHAIVYMIAMIITCVMFGIFWVETTGLDPKSMAKRIGSLGMAIKGFRK 361
+
+Query: 268 G-GATRRYINGLVTYFALVGAFYLILISGLPMMVVLVD 304
+              A    +   +    ++ + ++  ++ +   +  + 
+Sbjct: 362 SEKAIEHRLKRYIPPLTVMSSAFVGFLATIANFIGALG 399
+
+
+>sp|P28540|SECY_PAVLU Preprotein translocase subunit secY OS=Pavlova
+           lutherii GN=secY PE=3 SV=2
+          Length = 419
+
+ Score =  179 bits (455), Expect = 3e-44,   Method: Composition-based stats.
+ Identities = 67/337 (19%), Positives = 146/337 (43%), Gaps = 23/337 (6%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQE-------RRRMLLTLVIALIQSV 53
+           S+ ++GL P+ S+ L  Q   V       KL  E  E       R   +LT++  +I+S 
+Sbjct: 66  SILTLGLGPFFSASLAVQFL-VKLYPAFEKLQNEEGEEGRKTIVRYTRILTVLFCIIESF 124
+
+Query: 54  ALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMASMIA 112
+            L  +L  +       +    +    +  G+  L+WL+++    G+G    ++++   ++
+Sbjct: 125 FLSNSL--RSFVFNWNSISYFVVAAAVTTGSLVLVWLSEVITERGIGNGSSLLILIGNLS 182
+
+Query: 113 YIPQDI----WNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRF- 167
+                I    ++S+     S+L++  +++  +  L  +   +    +IPV          
+Sbjct: 183 RFRFLINKDDFDSLNVSSQSNLYIIYIIITLVSMLIFSTLSQEGARKIPVVSAKQLIDGV 242
+
+Query: 168 ---KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSP 224
+               + SY+ IR   AG +PI+++ +++         I  L   N      ++++++   
+Sbjct: 243 EDDMRRSYIPIRFGQAGVVPIIFSSSILLF---LTTSIKQLPNANIATRVILDSVNLQQI 299
+
+Query: 225 AWFILYLLTIFILALAFAFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFAL 284
+            +F  +L+ I   +  +  I +S   IA+ ++K    I++  PG AT+ YI   +   + 
+Sbjct: 300 FYFFTFLVLIIFFSFFYTLIILSPSDIAKNLKKMSSVIQDTKPGVATKVYIRKFILQASF 359
+
+Query: 285 VGAFYLILISGLPMMV-VLVDIRYLRLSMIPGIFMIF 320
+           VG+  L  +  +P ++   + +  L +S I  + + F
+Sbjct: 360 VGSILLSALILIPSILAAALGVHPLSISGITSLILSF 396
+
+
+>sp|P79088|SC61A_SCHPO Protein transport protein sec61 subunit alpha
+           OS=Schizosaccharomyces pombe GN=sec61 PE=2 SV=1
+          Length = 479
+
+ Score =  178 bits (452), Expect = 5e-44,   Method: Composition-based stats.
+ Identities = 49/371 (13%), Positives = 118/371 (31%), Gaps = 71/371 (19%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRR---MLLTLVIALIQSVALVL 57
+           +L  +G+SP ++S ++ Q+   S+ + ++      +E  +     L ++IA  Q+ A VL
+Sbjct: 76  TLMELGISPIVTSSMLVQLLVGSQLIEVNMELKSDREMYQLVQKFLAIIIAFGQATAYVL 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMIVMASM------- 110
+                    +     ++L   +  A    L+    L    GLG  I + +A++       
+Sbjct: 136 TGMYGRPQDLGAGICLLLILQLAAASLIVLLLDELLQKGYGLGSGISLFIATINCENIFW 195
+
+Query: 111 IAYIPQDI----WNSIQELKISSLWLALM-----------------------------LV 137
+            A+ P           +   I+ +++                                  
+Sbjct: 196 KAFSPTTYHIANGVQFEGAVINFVYVMFTWDNKAAALYQAFFRSGLTSSQIQLPNLWNFF 255
+
+Query: 138 FSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQY 197
+            +L+   + + ++  +  IP+           +    ++L      PIM    L S   +
+Sbjct: 256 ATLLVFGVVIYLQDFRVEIPIRSQKFRGYRSTF---PVKLLYTSNTPIMLQSALTSNLFF 312
+
+Query: 198 FLLIIHFLQPENQLIE-----------QWIEALSMGSPAWFILY-----LLTIFILALAF 241
+              ++      N L+                 LS  +     L      L+ +F    A 
+Sbjct: 313 ASRLLFNRFSSNFLVRFLGVWEQTATSGLSYYLSPPASFQDALIDPIHTLVYVFFTMFAC 372
+
+Query: 242 AFIN--------ISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLILI 293
+           A  +         S   +A++++     +     G +  + +  ++   A +    +  +
+Sbjct: 373 ALFSKLWIEVSGASPRDVAKQLKSQQLVMAGHREG-SMYKELKRIIPTAAWLSGAVVGAL 431
+
+Query: 294 SGLPMMVVLVD 304
+           +    ++  + 
+Sbjct: 432 AVASDLLGALG 442
+
+
+>sp|P28541|SECY_METVA Preprotein translocase subunit secY
+           OS=Methanococcus vannielii GN=secY PE=3 SV=1
+          Length = 438
+
+ Score =  174 bits (443), Expect = 6e-43,   Method: Composition-based stats.
+ Identities = 49/340 (14%), Positives = 121/340 (35%), Gaps = 43/340 (12%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ---ERRRMLLTLVIALIQSVALVL 57
+           +L ++G+ P +++ +I Q+   S+ + L       +   +  + L  + +  +++V  V 
+Sbjct: 68  TLITLGIGPIVTAGIIMQLLVGSELISLDLSKPMNRALFQGLQKLFGIFLCFLEAVMFVG 127
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMASMIAYI-- 114
+                    V  +T+ ++  L L  G   +I+L ++ +  G+G  I + + A +   I  
+Sbjct: 128 AGAFG----VVNSTLALILVLQLALGAILVIYLDEIVSRYGIGSGIGLFIAAGVAQTIFV 183
+
+Query: 115 -----PQDIWNSIQELKISSLWL----ALMLVFSLVFLYLAVTVERSKYRIPVNKINIHN 165
+                   +W     + + SL +     L ++ +L    + V VE  +  IP+    +  
+Sbjct: 184 GAFGAEGYLWKFFSAMSVGSLGIAFEYILPILSTLFVFLVVVYVESIRVEIPLAHGRVKG 243
+
+Query: 166 RFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH-------FLQPENQLIEQWIEA 218
+              KY    I+      +P++ A  L +  Q + + +                +      
+Sbjct: 244 AVGKY---PIKFIYVSNLPVILAAALFANIQLWGMFLDRMGYPILGQYSNGTAVSGIAYY 300
+
+Query: 219 LSMG--------SPAWFILYLLTIFILALAFAFI-----NISGDQIAERMQKSGEYIENV 265
+            S           P   I Y L + I  + F         +    +A+++      I+  
+Sbjct: 301 FSTPYGISNIISDPLHAIFYTLMMVIFCILFGLFWVETSGLDAKSMAKKLGNLDMAIKGF 360
+
+Query: 266 YPG-GATRRYINGLVTYFALVGAFYLILISGLPMMVVLVD 304
+                +  + +   +    ++G+ ++  ++        + 
+Sbjct: 361 RKSQKSIEQRLKRYIKPITVMGSAFVGFLAAAADFTGALG 400
+
+
+>sp|Q9YDD0|SECY_AERPE Preprotein translocase subunit secY
+           OS=Aeropyrum pernix GN=secY PE=3 SV=2
+          Length = 457
+
+ Score =  171 bits (435), Expect = 5e-42,   Method: Composition-based stats.
+ Identities = 47/348 (13%), Positives = 120/348 (34%), Gaps = 47/348 (13%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER---RRMLLTLVIALIQSVALVL 57
+           +L  +G+ P +++ LI Q+   +K + L     E + +    + +L L  A +++VA  +
+Sbjct: 73  TLMELGIGPIVTASLIIQVLVGAKIIKLDLADPEGRRKFTSAQKVLALAFAALEAVAFTV 132
+
+Query: 58  NLPL-QEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGG-SIMIVMASMIAYI 114
+                   A         L +L L  G   +I+  ++     G+G    + ++A +   +
+Sbjct: 133 GGRYWVGTAIEPGPLDYALVSLQLFLGALLVIYFDEVMQKGWGIGSAISLFILAGVAQGV 192
+
+Query: 115 PQDIWNSIQELKISSLWLALML--------------------VFSLVFLYLAVTVERSKY 154
+              I+ +I  +      +  ++                      +L  + L V ++  + 
+Sbjct: 193 VWSIFGTIPGVAQDYGLVPAIISNPDLTLLARPNGFPDLTGFFTTLAAIILLVYLQAMRV 252
+
+Query: 155 RIPVNKINIHNRFKKYSYLDIRLNPAGGMPI----MYAMTLVSIPQYFLLIIHFLQPENQ 210
+            IP+            S + ++      +PI    +    L+ + +     +       Q
+Sbjct: 253 EIPITSER---FKGIRSRVPLQFIYVTNIPILLVGILVSDLLLVQRLLADYLGVESRAYQ 309
+
+Query: 211 LIEQWIEALSMGS--------PAWFILYLLTIFILALAFAFI-----NISGDQIAERMQK 257
+           +    +  LS           P    +++ +  +L++ F ++      ++  + AER+ K
+Sbjct: 310 IYSSIVYYLSPPRGVVQSIADPVKTAVFIASWTVLSIVFGYMWVEIAGLNPREQAERLIK 369
+
+Query: 258 SGEYIENVYPGGAT-RRYINGLVTYFALVGAFYLILISGLPMMVVLVD 304
+            G  I  +        R +   +     + +  +  +  +  +     
+Sbjct: 370 GGLAIPGMRSDPRVLERVLRRYIYPLTFLSSLIVAALVIVADIFGAYG 417
+
+
+>sp|O28377|SECY_ARCFU Preprotein translocase subunit secY
+           OS=Archaeoglobus fulgidus GN=secY PE=3 SV=1
+          Length = 493
+
+ Score =  171 bits (434), Expect = 7e-42,   Method: Composition-based stats.
+ Identities = 44/383 (11%), Positives = 123/383 (32%), Gaps = 82/383 (21%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERR---RMLLTLVIALIQSVALVL 57
+           S+ ++G+ P +++ +I Q+   +  + L     E +      +  L  V+  ++++  + 
+Sbjct: 73  SIIALGIGPIVTASIILQLLVGAGIIKLDLTNPEDRAAYQDFQRFLVFVMIAVEAIPQIA 132
+
+Query: 58  NL------PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGS-IMIVMASM 110
+                    L    GV    I  L  + L  G   ++++ ++ +  G+G    + ++A +
+Sbjct: 133 GGLLKPDLNLAAQLGVSPGIISFLIFIQLFIGGVLIVYMDEVVSKWGIGSGVSLFILAGI 192
+
+Query: 111 IAYIPQDIW----------------------------NSIQELKISSLWLALMLVFSL-- 140
+              I   ++                                   ++ L +   ++  +  
+Sbjct: 193 AQSIVVGLFNWVIPPNSAMPAGIIPRWIWIAQNYPLDQLFTGSGLAFLLIQGGILALITT 252
+
+Query: 141 -VFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFL 199
+              + L V  E ++  IP+          ++    I+L  A  +P+++   L +      
+Sbjct: 253 AAIILLVVFFEGTRVEIPLAHAVARGARGRF---PIKLIYASVLPMIFVRALQANVVALG 309
+
+Query: 200 LII-------HFLQPENQLIEQWIEALSM----------------------GSPAWFILY 230
+            ++              + +   +  L                             ++  
+Sbjct: 310 QVLHARGVTIFGEFVNGKAVSGLMFFLQPVSSPYDWIPSLVKSQGAAFAAIPDWMIYLHL 369
+
+Query: 231 LLTIFILALA---FAFI-----NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTY 281
+           L+   IL +    FA+       +    +A ++ KSG  +           R ++  +  
+Sbjct: 370 LIDALILVVGGIIFAWFWVETSGMDARTVASQIAKSGMQVPGFRKSPQVLERVLSRYIPK 429
+
+Query: 282 FALVGAFYLILISGLPMMVVLVD 304
+             ++G   + +++ +  M+  + 
+Sbjct: 430 VTILGGAIIGILTLVANMLGTIG 452
+
+
+>sp|P28542|SECY_HALMA Preprotein translocase subunit secY
+           OS=Haloarcula marismortui GN=secY PE=3 SV=2
+          Length = 487
+
+ Score =  165 bits (419), Expect = 3e-40,   Method: Composition-based stats.
+ Identities = 51/380 (13%), Positives = 129/380 (33%), Gaps = 79/380 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ----ERRRMLLTLVIALIQSVALV 56
+           S+  +G+ P +++ ++ Q+   +  LGL+           +  + LL LV+  +  + +V
+Sbjct: 73  SIMQLGIGPIVTASIVLQLLGGADLLGLNTQDDPRDQILYQGLQKLLVLVMICLTGLPMV 132
+
+Query: 57  LNLPLQEA-------AGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMA 108
+                  A        G+    +  L    +  G   ++++ ++ +  G+G  I + ++A
+Sbjct: 133 FAGGFLPADTAVANSLGIGTAGVQWLIFAQMFVGGVLILFMDEVISKWGVGSGIGLFIVA 192
+
+Query: 109 SMIAYI------PQDIWNSIQELKISSLWL-----------------------ALMLVFS 139
+            +   +         + NS   +    L++                        L L  +
+Sbjct: 193 GVSQRLVGGLLTAPFLGNSEGIIYTWYLFITGERGTGPVLAADGLQTVLLQGELLGLFTT 252
+
+Query: 140 LVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFL 199
+           ++   + V  E  +  IP++   +     ++    ++L  A  +P++    L +  Q+  
+Sbjct: 253 VLIFAVVVYAESVRVEIPLSNARVKGARGRF---PVKLIYASVLPMILVRALQANIQFLG 309
+
+Query: 200 LIIH--------------FLQPENQLIEQWIEALSMGSPAWFI---------------LY 230
+            I++                QP   L        S G   W++               + 
+Sbjct: 310 RILNAQLGSMPAFLGTYANGQPTGGLFYFLAPIQSRGDWMWWLEGTAQPVWQILTRVGID 369
+
+Query: 231 LLTIFILALAFAFI-----NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTYFAL 284
+           L  + +    FA       ++  +  A+++  SG  I           + +   +    +
+Sbjct: 370 LFVMLVGGAVFAVFWVETTDMGPEATAKQIHNSGMQIPGFRQNVGVIEKVLERYIPQVTV 429
+
+Query: 285 VGAFYLILISGLPMMVVLVD 304
+           +G   + L++ +  M+  + 
+Sbjct: 430 IGGALVGLLAVMANMLGTIG 449
+
+
+>sp|Q9HPB1|SECY_HALSA Preprotein translocase subunit secY
+           OS=Halobacterium salinarium GN=secY PE=3 SV=1
+          Length = 491
+
+ Score =  162 bits (410), Expect = 4e-39,   Method: Composition-based stats.
+ Identities = 48/383 (12%), Positives = 123/383 (32%), Gaps = 83/383 (21%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQE----RRRMLLTLVIALIQSVALV 56
+           ++  +G+ P +++ ++ Q+   +  LGL        +      +  L  V+ ++    +V
+Sbjct: 72  TVLQLGIGPIVTASIVLQLLGGANLLGLDTDNDPRDQAIYQGLQKFLVGVMVVLTGAPMV 131
+
+Query: 57  LNLPLQEAAGV-------DMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSIMI---- 105
+                 + +             + VL    + AG   L+++ ++ +  G+G  I +    
+Sbjct: 132 FLGNFLQPSQQLAQSMPGGAFGVEVLIFAQIAAGGILLLFMDEVISKWGVGSGIGLFIVA 191
+
+Query: 106 ----------------------------VMASMIAYIPQDIWNSIQELKISSLWLALMLV 137
+                                       ++   ++ +P  +  S  E  +    +   L+
+Sbjct: 192 GVSQSLVGGLVFWEGGVGSQGLLPTWFDIIVGNVSNMPPLLSGSGIEFLLMQAGILG-LL 250
+
+Query: 138 FSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQY 197
+            +L    + V  E  +  IP++   +     ++    ++L  A  +P++    L +  Q+
+Sbjct: 251 TTLFIYVVVVYAESVRVEIPLSHARVKGARGRF---PVKLIYASVLPMILVRALQANIQF 307
+
+Query: 198 FLL-----------IIHFLQPENQLIEQWIEAL----SMGSPAWFI-------LYLLTIF 235
+                          +       Q+       L    S  +  W+          +L   
+Sbjct: 308 LGQILNSTLASMPTWLGVYGGNGQVTGGLFYYLAPIYSPNAWMWWTSGATAARWQVLIRI 367
+
+Query: 236 ILALAFAFI-------------NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTY 281
+            + L+F  I             ++  D  A ++Q SG  I           + +   +  
+Sbjct: 368 AIDLSFMIIGGAIFAIFWVETADMGPDATARQIQNSGMQIPGFRKNQGVIEKVMERYIPQ 427
+
+Query: 282 FALVGAFYLILISGLPMMVVLVD 304
+             ++G   + L++ +  M+  + 
+Sbjct: 428 VTVIGGALVGLLAVMANMLGTIG 450
+
+
+>sp|Q977V3|SECY_HALVO Preprotein translocase subunit secY
+           OS=Halobacterium volcanii GN=secY PE=3 SV=1
+          Length = 488
+
+ Score =  156 bits (395), Expect = 2e-37,   Method: Composition-based stats.
+ Identities = 45/380 (11%), Positives = 124/380 (32%), Gaps = 79/380 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQ----ERRRMLLTLVIALIQSVALV 56
+           S+  +G+ P +++ ++ Q+   +  LGL            +  + LL  V+  +  + +V
+Sbjct: 73  SVLQLGIGPIVTASIVLQLLGGADLLGLDTDNNPRDQVLYQGLQKLLVGVMICLTGLPMV 132
+
+Query: 57  LNLPLQEA-------AGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLGGSI-MIVMA 108
+                  A        G+    +  L    +  G   ++++ ++ +  G+G  + + ++A
+Sbjct: 133 FAGNFLPADQAVATSLGIGTVGVKGLIFAQIAVGGVLILFMDEIVSKWGVGSGVGLFIIA 192
+
+Query: 109 SMIAYI------------PQDIWNSIQELKISSLWLALM---LVFSLVF----------- 142
+            +   +                + +   +   ++ L      L+ ++             
+Sbjct: 193 GVSQQLVGGLFSWQGLGGTSGFFATWIGIITGAIELPASPTDLLSTVFLGQGQLLALITT 252
+
+Query: 143 ---LYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFL 199
+                + V  E  +  IP++   +     ++    ++L  A  +P++    L +  Q+  
+Sbjct: 253 LLIFGIVVYAESVRVEIPLSHARVKGARGRF---PVKLIYASVLPMILVRALQANIQFLG 309
+
+Query: 200 LIIHFLQP----------ENQLIEQWIEALSM----GSPAWF---------------ILY 230
+             ++                Q+    +  L+         WF               ++ 
+Sbjct: 310 RFLNSSWVGMPAWLGQYTSGQVTGGLLYYLAPIQSRSDWMWFLGLTSADPLDIAIRVLID 369
+
+Query: 231 LLTIFILALAFAFI-----NISGDQIAERMQKSGEYIENVYPGGAT-RRYINGLVTYFAL 284
+           L+ + +    FA        +     A+++Q SG  I           R +   +    +
+Sbjct: 370 LIFMIVGGAVFAIFWVETTGMGPKSTAQQIQNSGMQIPGFRRNPQVIERVMERYIPQVTV 429
+
+Query: 285 VGAFYLILISGLPMMVVLVD 304
+           +G   + L++ +  M+  + 
+Sbjct: 430 IGGALVGLLAVMANMLGTIG 449
+
+
+>sp|P49978|SECY_SULAC Preprotein translocase subunit secY
+           OS=Sulfolobus acidocaldarius GN=secY PE=3 SV=1
+          Length = 463
+
+ Score =  140 bits (353), Expect = 2e-32,   Method: Composition-based stats.
+ Identities = 46/357 (12%), Positives = 113/357 (31%), Gaps = 57/357 (15%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRMLLTLVIALIQSVALVLNLP 60
+           +L  +G+ P ++S LI Q+   SK + +     E + +        +ALI  +       
+Sbjct: 74  TLAQLGIGPVITSGLIMQILVGSKLINVDLTTQEGKSKFTQ-AEKALALIFIIVESSLFG 132
+
+Query: 61  LQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGS-IMIVMASM-------- 110
+                      + ++  + L+  +Y ++ L ++     GLG    + +MA +        
+Sbjct: 133 YVFTRATSNILLPIIVVVQLIIASYIILLLDEMIQKGWGLGSGVSLFIMAGIMKVIFWNM 192
+
+Query: 111 ------------IAYIPQDIWNSIQELKISSLWL-----------ALMLVFSLVFLYLAV 147
+                       + + P  +        +  + L            + L+ ++    L V
+Sbjct: 193 FGIVSVQSQNLPVGFFPLLVSYITSGRNLQEIVLNTSSTTPYQPDLIGLIATVGLTILIV 252
+
+Query: 148 TVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHF-LQ 206
+            +  +   IPV    +       + + +       +P+++   L +  Q F  + +    
+Sbjct: 253 YLVNTNIYIPVTTQRLRGIR---TTVPLNFLYVSSIPVIFVSVLGADIQLFASLANSISN 309
+
+Query: 207 PENQLIEQWIEALSMG-------------SPAWFILYLLTIFILALAFAFI-----NISG 248
+             + ++     A                  P    +Y     +L++ F  +      +  
+Sbjct: 310 SASGILTDIANAFFFPPQGVPHSVYALVVDPVGAAIYAAVFIVLSIVFGMLWIDVAGLDP 369
+
+Query: 249 DQIAERMQKSGEYIENVYPGGA-TRRYINGLVTYFALVGAFYLILISGLPMMVVLVD 304
+              AE+M +SG  I  +          ++  +       +  + LI+ +   +    
+Sbjct: 370 KTQAEQMIRSGIEIPGMRTNPRIIEGILSKYIYALGFFSSLIVGLIAVVATFLGTYG 426
+
+
+>sp|Q9UX84|SECY_SULSO Preprotein translocase subunit secY
+           OS=Sulfolobus solfataricus GN=secY PE=3 SV=1
+          Length = 469
+
+ Score =  131 bits (329), Expect = 9e-30,   Method: Composition-based stats.
+ Identities = 49/363 (13%), Positives = 118/363 (32%), Gaps = 62/363 (17%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQER---RRMLLTLVIALIQSVALVL 57
+           +L  +G+ P +++ LI Q+ A SK + +     + + +    +  L  +  L++S     
+Sbjct: 73  TLAQLGIGPIITAGLIMQILAGSKLISIDLNDPDDRVKFTEAQKGLAFIFILVESALFGY 132
+
+Query: 58  NLPLQEAAGVDMTTIMV-LDTLVLMAGTYFLIWLTDLNAA-MGLGGS-IMIVMASM---- 110
+            L             +  +    L+  TY ++ L +L     GLG    + ++A +    
+Sbjct: 133 VLARTSTTINASILFIAGIVIAQLIVATYLILLLDELIQKGWGLGSGVSLFILAGVMKIM 192
+
+Query: 111 ----------------IAYIPQDIWNSIQELKISSLWL-----------ALMLVFSLVFL 143
+                           I + P           + +L +            + LV ++  +
+Sbjct: 193 FWDMFGIASVSSQNLPIGFFPALFTALASHSDVLNLIVNTSTKNLFQPDLVGLVTTIALI 252
+
+Query: 144 YLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIH 203
+            + + +      IPV    +    +    + +       +P+++   L S  Q F  +  
+Sbjct: 253 IITIYLTTMTIEIPVTSQKLRGIRRT---IPLNFLYVSSIPVIFVAVLGSDIQLFASLAS 309
+
+Query: 204 FLQPENQLIEQWI---------EALSMGSPAWFIL-------YLLTIFILALAFAFI--- 244
+           ++ P    I   +          +    S    +L       Y +   +L++ F  +   
+Sbjct: 310 YVSPSASNILNTVSGVFFFPPPNSAIPHSIYAVVLDPLGALEYAVVFIVLSILFGILWVD 369
+
+Query: 245 --NISGDQIAERMQKSGEYIENVYPG-GATRRYINGLVTYFALVGAFYLILISGLPMMVV 301
+              +     A+++ ++G  I  V          +   +   A   +  + LI+    ++ 
+Sbjct: 370 VAGLDPATQAQQLVEAGIEIPGVRNNPKIIEGILARYIYPLAFFSSIIVGLIAVFATLLG 429
+
+Query: 302 LVD 304
+              
+Sbjct: 430 AYG 432
+
+
+>sp|P38353|SSH1_YEAST Sec sixty-one protein homolog OS=Saccharomyces
+           cerevisiae GN=SSH1 PE=1 SV=1
+          Length = 490
+
+ Score =  127 bits (321), Expect = 7e-29,   Method: Composition-based stats.
+ Identities = 60/376 (15%), Positives = 119/376 (31%), Gaps = 77/376 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLSKLPLEVQERRRMLLTLVIALIQSVALVLNLP 60
+           +L   GL P +SS LI Q+ A  K + ++   ++        LT V A++Q V L     
+Sbjct: 78  TLLEFGLFPNISSGLILQLLAGLKVIKVN-FKIQSDRELFQSLTKVFAIVQYVILTNIFI 136
+
+Query: 61  LQEAAGVDMTTIMV-LDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMIVMASMIAY----- 113
+                G D++ + + L    L+    F   L ++     G     MI+   +IA      
+Sbjct: 137 FAGYFGDDLSVVQIGLINFQLVGAGIFTTLLAEVIDKGFGFSSGAMIINTVVIATNLVAD 196
+
+Query: 114 ----------------IPQDIWNSIQELKISSLWLALMLVFSL---------------VF 142
+                               + N IQ L+         ++ +                  
+Sbjct: 197 TFGVSQIKVGEDDQTEAQGALINLIQGLRSKHKTFIGGIISAFNRDYLPNLTTTIIVLAI 256
+
+Query: 143 LYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLII 202
+             +   ++  +  +P+           Y    I+L   G + ++++ T++     F  ++
+Sbjct: 257 AIIVCYLQSVRVELPIRSTRARGTNNVY---PIKLLYTGCLSVLFSYTILFYIHIFAFVL 313
+
+Query: 203 HFLQPENQLI--------------------EQWIEALSMGSPAW---------FILYLLT 233
+             L  +N+                         +  L+  +  +         FI Y   
+Sbjct: 314 IQLVAKNEPTHIICKIMGHYENANNLLAVPTFPLSLLAPPTSFFKGVTQQPLTFITYSAF 373
+
+Query: 234 IFILALAF-----AFINISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAF 288
+           I +  + F     A    S   +A   +  G  +          + +N ++   A+ GA 
+Sbjct: 374 ILVTGIWFADKWQAISGSSARDVALEFKDQGITLMG-RREQNVAKELNKVIPIAAVTGAS 432
+
+Query: 289 YLILISGLPMMVVLVD 304
+            L LI+ +   + L  
+Sbjct: 433 VLSLITVIGESLGLKG 448
+
+
+>sp|O42965|YGMH_SCHPO Uncharacterized protein C19G7.17
+           OS=Schizosaccharomyces pombe GN=SPBC19G7.17 PE=2 SV=2
+          Length = 475
+
+ Score =  117 bits (294), Expect = 1e-25,   Method: Composition-based stats.
+ Identities = 40/372 (10%), Positives = 127/372 (34%), Gaps = 77/372 (20%)
+
+Query: 1   SLFSVGLSPWMSSMLIWQMFAVSKRLGLS---KLPLEVQERRRMLLTLVIALIQSVALVL 57
+            L   GL+P   S  + Q+ A  K++ ++    +   + +  + +++ ++ LI +V  V 
+Sbjct: 76  GLMITGLAPIYLSSFLLQILASKKKIAVNFNLIIDRVLFQNAQKVVSALLYLILAVTYVS 135
+
+Query: 58  NLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAA-MGLGGSIMI-----VMASM- 110
+           +      + + +    ++  L +       I+L ++     GLG   ++     ++ ++ 
+Sbjct: 136 SGYYGSFSDLGIFRF-IMLILQIFLPGIVCIYLCEIIEKGHGLGSGPVLLLGSHILGNIM 194
+
+Query: 111 ----------------------IAYIPQDIWNSIQE-------LKISSLWLALMLVFSLV 141
+                                 +     ++++   +       L  S     +  +  + 
+Sbjct: 195 WDVLSLHRYPVNESGDSQYQGALVGFAFNLFSFKNKFSSLRSILFRSEGLSFVQFLVCIA 254
+
+Query: 142 FLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLI 201
+                +     +  +P+    +    + +    ++L     +P++Y  +++S    F   
+Sbjct: 255 VFATFMYTLNIRIDVPIRSSRVRGVRQNF---PLKLLYTSVIPLIYFYSILSHLLVFAYA 311
+
+Query: 202 IHFLQPEN--------------------QLIEQWIEALSMG--------SPAWFILYLLT 233
+           ++ L P +                    QL+   +  L            P   ++Y +T
+Sbjct: 312 LYSLCPNSLITRLLVQYSPIDTFAEHKLQLVGGLVYFLYPPLGLSEALLHPVHTVIYTIT 371
+
+Query: 234 IFILALAFAFINIS-----GDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAF 288
+           +  + + F+ + ++        +    +++   I          + +  ++   A + AF
+Sbjct: 372 LICITIYFSLLWMNATAGGPRDVLLFFKENQLVIAGYREATML-KELEKIIPIAAKLSAF 430
+
+Query: 289 YLILISGLPMMV 300
+           ++ ++S +  + 
+Sbjct: 431 FVSILSVIAGIF 442
+
+
+>sp|P72179|SECY_PARDE Preprotein translocase subunit secY (Fragment)
+           OS=Paracoccus denitrificans GN=secY PE=3 SV=1
+          Length = 182
+
+ Score = 98.7 bits (245), Expect = 5e-20,   Method: Composition-based stats.
+ Identities = 21/113 (18%), Positives = 48/113 (42%), Gaps = 3/113 (2%)
+
+Query: 186 MYAMTLVSIPQYFLLIIHFLQPENQLIEQWIEALSMGSPAWFILYLLTIFILALAFAF-I 244
+           ++A +L+ +P               ++   +     G P + + +   I      + + +
+Sbjct: 1   IFASSLLLLPVTISTFSGNQ--TGPIMSTVLAYFGPGQPLYLLFFAAMIVFFTYFYTYNV 58
+
+Query: 245 NISGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLILISGLP 297
+           +   + +AE ++  G +I  + PG  T  Y+  +VT   ++G+ YL  +  LP
+Sbjct: 59  SFKTEDVAENLKNQGGFIPGIRPGKRTEDYLTYVVTRVLVIGSAYLAFVCLLP 111
+
+
+>sp|P28620|SECY_BACST Preprotein translocase subunit secY (Fragment)
+           OS=Bacillus stearothermophilus GN=secY PE=3 SV=1
+          Length = 99
+
+ Score = 74.0 bits (181), Expect = 1e-12,   Method: Composition-based stats.
+ Identities = 20/57 (35%), Positives = 35/57 (61%)
+
+Query: 247 SGDQIAERMQKSGEYIENVYPGGATRRYINGLVTYFALVGAFYLILISGLPMMVVLV 303
+           + +Q+AE ++K G YI  + PG  T+ Y+  ++    LVG+ +L +I+ LP+  V V
+Sbjct: 1   NPEQMAENLKKQGGYIPGIRPGKNTQEYVTRILYRLTLVGSVFLAVIAVLPVFFVNV 57
+
+
+>sp|P0C6V7|R1AB_BEV Replicase polyprotein 1ab OS=Berne virus GN=rep
+            PE=1 SV=1
+          Length = 6857
+
+ Score = 34.4 bits (78), Expect = 1.0,   Method: Composition-based stats.
+ Identities = 12/102 (11%), Positives = 39/102 (38%), Gaps = 12/102 (11%)
+
+Query: 135  MLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSI 194
+             +   +V ++  + +   +  I +     ++ FK ++Y+  +L     + +++   +V +
+Sbjct: 3061 YVFVFIVVIFTVIFLILIRLYIVM-----YSYFKVFTYVVFKLLFVNIIMVLF---VVCL 3112
+
+Query: 195  PQYFLLIIHFLQPE----NQLIEQWIEALSMGSPAWFILYLL 232
+            P     ++  L          +           P +++L+ L
+Sbjct: 3113 PPLVPGVVFVLALWLCDSVMFLLYLAFLSLFILPWFYVLFFL 3154
+
+
+>sp|P0C6F3|R1A_BEV Replicase polyprotein 1a OS=Berne virus GN=1a PE=1
+            SV=1
+          Length = 4569
+
+ Score = 34.4 bits (78), Expect = 1.1,   Method: Composition-based stats.
+ Identities = 12/102 (11%), Positives = 39/102 (38%), Gaps = 12/102 (11%)
+
+Query: 135  MLVFSLVFLYLAVTVERSKYRIPVNKINIHNRFKKYSYLDIRLNPAGGMPIMYAMTLVSI 194
+             +   +V ++  + +   +  I +     ++ FK ++Y+  +L     + +++   +V +
+Sbjct: 3061 YVFVFIVVIFTVIFLILIRLYIVM-----YSYFKVFTYVVFKLLFVNIIMVLF---VVCL 3112
+
+Query: 195  PQYFLLIIHFLQPE----NQLIEQWIEALSMGSPAWFILYLL 232
+            P     ++  L          +           P +++L+ L
+Sbjct: 3113 PPLVPGVVFVLALWLCDSVMFLLYLAFLSLFILPWFYVLFFL 3154
+
+
+>sp|Q49VR4|LTAS_STAS1 Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus saprophyticus subsp. saprophyticus
+           (strain ATCC 15305 / DSM 20229) GN=ltaS PE=3 SV=1
+          Length = 646
+
+ Score = 32.8 bits (74), Expect = 3.2,   Method: Composition-based stats.
+ Identities = 11/81 (13%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  L +   TYF  ++       GL    I+++    +  +   I+   +  K  
+Sbjct: 11  FAFFILTVLTVTLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLIALVLSIFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFIFIGGFILTFLLYANVVYF 91
+
+
+>sp|Q5HR16|LTAS_STAEQ Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus epidermidis (strain ATCC 35984 /
+           RP62A) GN=ltaS PE=3 SV=1
+          Length = 646
+
+ Score = 32.8 bits (74), Expect = 3.6,   Method: Composition-based stats.
+ Identities = 9/91 (9%), Positives = 26/91 (28%), Gaps = 1/91 (1%)
+
+Query: 60  PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDI 118
+                  + +    +L    +   TYF  ++       GL    I+++    +  +   +
+Sbjct: 1   MSLPKKKIGIFAFFLLTVFTITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLIALVLSV 60
+
+Query: 119 WNSIQELKISSLWLALMLVFSLVFLYLAVTV 149
+           +   +  K          + + +     V  
+Sbjct: 61  FLFFKGKKAFWFIFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q8CQ10|LTAS_STAES Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus epidermidis (strain ATCC 12228)
+           GN=ltaS PE=3 SV=1
+          Length = 646
+
+ Score = 32.4 bits (73), Expect = 4.0,   Method: Composition-based stats.
+ Identities = 10/91 (10%), Positives = 26/91 (28%), Gaps = 1/91 (1%)
+
+Query: 60  PLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDI 118
+                  + +    +L    +   TYF  ++       GL    I+I+    +  +   +
+Sbjct: 1   MSLPKKKIGIFAFFLLTVFTITLKTYFSYYVDFSLGVKGLVQNLILIMNPYSLIALVLSV 60
+
+Query: 119 WNSIQELKISSLWLALMLVFSLVFLYLAVTV 149
+           +   +  K          + + +     V  
+Sbjct: 61  FLFFKGKKAFWFIFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q6P6T5|OCLN_RAT Occludin OS=Rattus norvegicus GN=Ocln PE=2 SV=1
+          Length = 523
+
+ Score = 32.4 bits (73), Expect = 4.4,   Method: Composition-based stats.
+ Identities = 11/132 (8%), Positives = 42/132 (31%), Gaps = 21/132 (15%)
+
+Query: 42  LLTLVIALIQSVALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAMGLG- 100
+           L       I S+ + +   ++          +++  +  + G   ++++  +   MG+  
+Sbjct: 142 LAMAAFCFIASLVIFVTSVIRSGMSRTRRYYLIVIIVSAILG--IMVFIATIVYIMGVNP 199
+
+Query: 101 ----GSIMI---VMASMIAYI--PQDIWNSIQELK--------ISSLWLALMLVFSLVFL 143
+                  M    +   + +    P      + +            ++ + L  +  + F 
+Sbjct: 200 TAQASGSMYGSQIYT-ICSQFYTPGGTGLYVDQYLYHYCVVDPQEAIAIVLGFMIIVAFA 258
+
+Query: 144 YLAVTVERSKYR 155
+            + V   +++ +
+Sbjct: 259 LIIVFAVKTRRK 270
+
+
+>sp|P94493|YNCC_BACSU Putative metabolite transport protein yncC
+           OS=Bacillus subtilis GN=yncC PE=3 SV=2
+          Length = 471
+
+ Score = 32.0 bits (72), Expect = 5.7,   Method: Composition-based stats.
+ Identities = 14/105 (13%), Positives = 38/105 (36%), Gaps = 2/105 (1%)
+
+Query: 44  TLVIALIQSVALVLNLPLQEAAGVDMTTIMVLDTLVLMAGTYFLIWLTDLNAAM--GLGG 101
+           T  + LI   ++VL+  +     V   T++ L  +    G    + + ++      GLG 
+Sbjct: 332 TTALLLIAIFSIVLDGSMALPYVVLSLTVLFLAFMQGCVGPVTWLVIAEIFPQRLRGLGS 391
+
+Query: 102 SIMIVMASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLA 146
+            I +    ++ ++    +  +      S    + +   ++ +   
+Sbjct: 392 GISVFFLWILNFVIGFAFPILLSSVGLSFTFFIFVALGVLAIGFV 436
+
+
+>sp|Q7A1I3|LTAS_STAAW Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain MW2) GN=ltaS PE=1 SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q6GBB1|LTAS_STAAS Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain MSSA476) GN=ltaS PE=3
+           SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q6GIS3|LTAS_STAAR Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain MRSA252) GN=ltaS PE=3
+           SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q7A6U1|LTAS_STAAN Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain N315) GN=ltaS PE=1 SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q99VQ4|LTAS_STAAM Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain Mu50 / ATCC 700699)
+           GN=ltaS PE=1 SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q5HHV4|LTAS_STAAC Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain COL) GN=ltaS PE=3 SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q2G093|LTAS_STAA8 Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain NCTC 8325) GN=ltaS PE=1
+           SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q2FIS2|LTAS_STAA3 Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain USA300) GN=ltaS PE=3
+           SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|Q2YSL2|LTAS_STAAB Glycerol phosphate lipoteichoic acid synthase
+           OS=Staphylococcus aureus (strain bovine RF122 / ET3-1)
+           GN=ltaS PE=3 SV=1
+          Length = 646
+
+ Score = 32.0 bits (72), Expect = 6.0,   Method: Composition-based stats.
+ Identities = 9/81 (11%), Positives = 25/81 (30%), Gaps = 1/81 (1%)
+
+Query: 70  TTIMVLDTLVLMAGTYFLIWLTDLNAAMGL-GGSIMIVMASMIAYIPQDIWNSIQELKIS 128
+               +L  + +   TYF  ++       GL    I+++    +  +   ++   +  K  
+Sbjct: 11  FAFFLLTVITITLKTYFSYYVDFSLGVKGLVQNLILLMNPYSLVALVLSVFLFFKGKKAF 70
+
+Query: 129 SLWLALMLVFSLVFLYLAVTV 149
+                   + + +     V  
+Sbjct: 71  WFMFIGGFLLTFLLYANVVYF 91
+
+
+>sp|P0C6V8|R1AB_BRV1 Replicase polyprotein 1ab OS=Breda virus 1 GN=rep
+            PE=2 SV=1
+          Length = 6733
+
+ Score = 31.7 bits (71), Expect = 6.7,   Method: Composition-based stats.
+ Identities = 16/137 (11%), Positives = 48/137 (35%), Gaps = 23/137 (16%)
+
+Query: 108  ASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRF 167
+             +++  +P     + + +      + + +   +    L + +        V      + F
+Sbjct: 2926 TNIVECLP-----TFEIISPYVFVVLVAIFTIVFLFLLRMYI--------VMY----SYF 2968
+
+Query: 168  KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPE-NQLIEQWIEA--LSMGSP 224
+            K ++Y+  +L     + +++   +V +P     ++  L       +   +    LS+   
+Sbjct: 2969 KVFTYVVFKLLFVNTVMVLF---VVCLPPLVPGVVFVLALWLCDSVVFLLYLAVLSLFIL 3025
+
+Query: 225  AWFILYLLTIFILALAF 241
+             WF + L  + +    F
+Sbjct: 3026 PWFYVMLFVLIVGGFVF 3042
+
+
+>sp|P0C6F4|R1A_BRV1 Replicase polyprotein 1a OS=Breda virus 1 GN=1a
+            PE=3 SV=1
+          Length = 4445
+
+ Score = 31.7 bits (71), Expect = 7.6,   Method: Composition-based stats.
+ Identities = 16/137 (11%), Positives = 48/137 (35%), Gaps = 23/137 (16%)
+
+Query: 108  ASMIAYIPQDIWNSIQELKISSLWLALMLVFSLVFLYLAVTVERSKYRIPVNKINIHNRF 167
+             +++  +P     + + +      + + +   +    L + +        V      + F
+Sbjct: 2926 TNIVECLP-----TFEIISPYVFVVLVAIFTIVFLFLLRMYI--------VMY----SYF 2968
+
+Query: 168  KKYSYLDIRLNPAGGMPIMYAMTLVSIPQYFLLIIHFLQPE-NQLIEQWIEA--LSMGSP 224
+            K ++Y+  +L     + +++   +V +P     ++  L       +   +    LS+   
+Sbjct: 2969 KVFTYVVFKLLFVNTVMVLF---VVCLPPLVPGVVFVLALWLCDSVVFLLYLAVLSLFIL 3025
+
+Query: 225  AWFILYLLTIFILALAF 241
+             WF + L  + +    F
+Sbjct: 3026 PWFYVMLFVLIVGGFVF 3042
+
+
+  Database: uniprot_sprot.fasta
+    Posted date:  Apr 12, 2010  9:48 AM
+  Number of letters in database: 181,677,051
+  Number of sequences in database:  516,081
+  
+Lambda     K      H
+   0.320    0.164    0.454 
+
+Lambda     K      H
+   0.267   0.0500    0.140 
+
+
+Matrix: BLOSUM62
+Gap Penalties: Existence: 11, Extension: 1
+Number of Hits to DB: 133,748,572
+Number of Sequences: 516081
+Number of extensions: 6364856
+Number of successful extensions: 37324
+Number of sequences better than 10.0: 789
+Number of HSP's better than 10.0 without gapping: 141
+Number of HSP's successfully gapped in prelim test: 648
+Number of HSP's that attempted gapping in prelim test: 35714
+Number of HSP's gapped (non-prelim): 1353
+length of query: 328
+length of database: 181,677,051
+effective HSP length: 117
+effective length of query: 211
+effective length of database: 121,295,574
+effective search space: 25593366114
+effective search space used: 25593366114
+T: 11
+A: 40
+X1: 16 ( 7.4 bits)
+X2: 38 (14.6 bits)
+X3: 64 (24.7 bits)
+S1: 40 (21.1 bits)
+S2: 70 (31.3 bits)
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.ssearch.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.ssearch.out
new file mode 100755
index 0000000..55add39
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.ssearch.out
@@ -0,0 +1,5812 @@
+# /usr/local/fasta-36x2/bin/ssearch36_t -q example.fa /misc/data0/databases/Uniprot/uniprot_sprot.fasta
+SSEARCH searches a sequence data bank
+ version 36.04 January, 2010
+Please cite:
+ T. F. Smith and M. S. Waterman, (1981) J. Mol. Biol. 147:195-197; 
+ W.R. Pearson (1991) Genomics 11:635-650
+
+Query: example.fa
+  1>>>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium sp. (strain NGR234) GN=NGR_a00980 - 181 aa
+Library: /misc/data0/databases/Uniprot/uniprot_sprot.fasta 181677051 residues in 516081 sequences
+
+       opt      E()
+< 20   552     0:=
+  22     4     0:=          one = represents 790 library sequences
+  24    11     0:=
+  26    44    11:*
+  28   185   117:*
+  30   984   711:*=
+  32  3307  2749:===*=
+  34  8676  7455:=========*=
+  36 16592 15311:===================*==
+  38 27252 25304:================================*==
+  40 36214 35297:============================================*=
+  42 43422 43146:======================================================*
+  44 46626 47594:===========================================================*
+  46 47359 48476:===========================================================*
+  48 45135 46410:==========================================================*
+  50 40548 42349:==================================================== *
+  52 35616 37232:============================================== *
+  54 30462 31803:======================================= *
+  56 26378 26565:=================================*
+  58 21901 21809:===========================*
+  60 17755 17667:======================*
+  62 13618 14164:=================*
+  64 11354 11264:==============*
+  66  8741  8903:===========*
+  68  7286  7003:========*=
+  70  5736  5488:======*=
+  72  4389  4288:=====*
+  74  3439  3343:====*
+  76  2941  2602:===*
+  78  2125  2023:==*
+  80  1817  1571:=*=
+  82  1255  1201:=*
+  84  1079   952:=*
+  86   779   736:*
+  88   622   570:*          inset = represents 7 library sequences
+  90   407   441:*
+  92   310   341:*         :=======================================*
+  94   252   264:*         :==================================== *
+  96   207   204:*         :=============================*
+  98   169   158:*         :======================*==
+ 100   146   122:*         :=================*===
+ 102    94    95:*         :=============*
+ 104    80    73:*         :==========*=
+ 106    44    57:*         :======= *
+ 108    42    44:*         :======*
+ 110    34    34:*         :====*
+ 112    24    26:*         :===*
+ 114    20    20:*         :==*
+ 116    20    16:*         :==*
+ 118    10    12:*         :=*
+>120    18     9:*         :=*=
+181677051 residues in 516081 sequences
+Statistics:  Expectation_n fit: rho(ln(x))= 6.5893+/-0.000186; mu= 5.4925+/- 0.010
+ mean_var=54.1928+/-11.354, 0's: 59 Z-trim: 59  B-trim: 3232 in 1/65
+ Lambda= 0.174222
+ statistics sampled from 60000 (279906) to 516065 sequences (mod: 1)
+ Kolmogorov-Smirnov  statistic: 0.0128 (N=29) at  42
+Algorithm: Smith-Waterman (SSE2, Michael Farrar 2006) (7.1 Aug 2009)
+Parameters: BL50 matrix (15:-5), open/ext: -10/-2
+ Scan time: 12.010
+
+The best scores are:                                      s-w bits E(516081)
+sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG  ( 181) 1141 292.6 1.4e-78
+sp|Q7SY73|ABH6B_XENLA Monoacylglycerol lipase abhd ( 337)  108 32.9     4.1
+
+>>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=R  (181 aa)
+ s-w opt: 1141  Z-score: 1545.9  bits: 292.6 E(516081): 1.4e-78
+Smith-Waterman score: 1141; 100.0% identity (100.0% similar) in 181 aa overlap (1-181:1-181)
+
+               10        20        30        40        50        60
+sp|P55 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|P55 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+               10        20        30        40        50        60
+
+               70        80        90       100       110       120
+sp|P55 TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|P55 TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+               70        80        90       100       110       120
+
+              130       140       150       160       170       180
+sp|P55 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|P55 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP
+              130       140       150       160       170       180
+
+        
+sp|P55 N
+       :
+sp|P55 N
+        
+
+>>sp|Q7SY73|ABH6B_XENLA Monoacylglycerol lipase abhd6-B   (337 aa)
+ s-w opt: 108  Z-score: 137.2  bits: 32.9 E(516081):  4.1
+Smith-Waterman score: 108; 24.6% identity (57.7% similar) in 130 aa overlap (41-164:65-189)
+
+               20        30        40        50        60        70
+sp|P55 SNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGTTADDQLAFVS
+                                     ::: ..  ..:.  ..:...  :  :..:.
+sp|Q7S IRIYYWYWRRALGMQVKYSSYGNYKFCYTARGKPGNKPSVLM--LHGFSAHKDMWLGMVK
+           40        50        60        70          80        90  
+
+               80         90       100         110       120       
+sp|P55 LIADQGETTTVAF-GPEIGSRIAASFMAACGQLQ--HQIATRTGKEERKFKPFAAAGFSV
+       ..  . . . : . : :  :: : .... :::..  ::..   : ..   :::  .: :.
+sp|Q7S FLPKNLHLVCVDMPGHEGTSRSALDYYSICGQVKRIHQFVESIGLNK---KPFHLVGTSM
+            100       110       120       130          140         
+
+          130       140       150       160       170       180    
+sp|P55 R---AGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRPN   
+           ::. :    . . :.. .  : . .    . :..:.                    
+sp|Q7S GGNVAGVYAAQHPTHISSLTLICPAGLMYPIESKFLKQLKVLEKSGDNQRIPLIPSTAGE
+     150       160       170       180       190       200         
+
+sp|Q7S MEDMLRLCSFVRFKIPQQVLQGLIDERIPHNEFYRKLFLALVDEKSRHSLHENMNKIMAP
+     210       220       230       240       250       260         
+
+  2>>>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergillus oryzae GN=hacA - 345 aa
+Library: /misc/data0/databases/Uniprot/uniprot_sprot.fasta 181677051 residues in 516081 sequences
+
+       opt      E()
+< 20   549     0:=
+  22     0     0:           one = represents 1023 library sequences
+  24     1     0:=
+  26     0    11:*
+  28     1   117:*
+  30    41   711:*
+  32   346  2748:= *
+  34  1976  7453:==     *
+  36  6380 15306:=======       *
+  38 17052 25295:=================       *
+  40 31636 35284:===============================   *
+  42 47449 43131:==========================================*====
+  44 57813 47577:==============================================*==========
+  46 61372 48459:===============================================*============
+  48 56648 46394:=============================================*==========
+  50 48468 42334:=========================================*======
+  52 40207 37219:====================================*===
+  54 32033 31792:===============================*
+  56 25118 26556:=========================*
+  58 19256 21802:===================  *
+  60 14861 17661:===============  *
+  62 11182 14159:===========  *
+  64  8664 11260:=========  *
+  66  7032  8900:======= *
+  68  5657  7000:======*
+  70  4343  5486:=====*
+  72  3344  4287:====*
+  74  2668  3342:===*
+  76  2281  2601:==*
+  78  1739  2022:=*
+  80  1412  1570:=*
+  82  1245  1201:=*
+  84   964   951:*
+  86   779   736:*
+  88   638   570:*          inset = represents 9 library sequences
+  90   494   441:*
+  92   425   341:*         :=====================================*==
+  94   339   264:*         :=============================*========
+  96   280   204:*         :======================*=========
+  98   218   158:*         :=================*=======
+ 100   199   122:*         :=============*=========
+ 102   153    95:*         :==========*======
+ 104   125    73:*         :========*=====
+ 106   106    57:*         :======*=====
+ 108    82    44:*         :====*=====
+ 110    99    34:*         :===*=======
+ 112    64    26:*         :==*=====
+ 114    66    20:*         :==*=====
+ 116    43    16:*         :=*===
+ 118    30    12:*         :=*==
+>120   203     9:*         :*======================
+181677051 residues in 516081 sequences
+Statistics:  Expectation_n fit: rho(ln(x))= 8.6553+/-0.00021; mu= 1.0570+/- 0.012
+ mean_var=116.4100+/-22.696, 0's: 69 Z-trim: 86  B-trim: 0 in 0/64
+ Lambda= 0.118872
+ statistics sampled from 60000 (216003) to 515883 sequences (mod: 1)
+ Kolmogorov-Smirnov  statistic: 0.0572 (N=29) at  40
+Algorithm: Smith-Waterman (SSE2, Michael Farrar 2006) (7.1 Aug 2009)
+Parameters: BL50 matrix (15:-5), open/ext: -10/-2
+ Scan time: 17.720
+
+The best scores are:                                      s-w bits E(516081)
+sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hac ( 345) 2265 397.3 1.6e-109
+sp|Q8TFU8|HAC1_EMENI Transcriptional activator hac ( 350) 1740 307.2   2e-82
+sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac ( 451)  446 85.3 1.7e-15
+sp|P41546|HAC1_YEAST Transcriptional activator HAC ( 238)  257 52.9 4.9e-06
+sp|O24646|HY5_ARATH Transcription factor HY5 OS=Ar ( 168)  225 47.5 0.00016
+sp|P17861|XBP1_HUMAN X-box-binding protein 1 OS=Ho ( 261)  201 43.3  0.0042
+sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bo ( 261)  200 43.1  0.0048
+sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive elemen ( 519)  203 43.6  0.0068
+sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=So ( 158)  191 41.6  0.0083
+sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive elemen ( 521)  200 43.1  0.0097
+sp|Q54WN7|BZPF_DICDI Probable basic-leucine zipper ( 631)  201 43.3    0.01
+sp|A3LYI0|NST1_PICST Stress response protein NST1  (1234)  201 43.3   0.021
+sp|Q66HA2|CR3L1_RAT Cyclic AMP-responsive element- ( 520)  191 41.6   0.028
+sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive elemen ( 456)  188 41.1   0.035
+sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive elemen ( 519)  189 41.2   0.036
+sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive elemen ( 519)  187 40.9   0.045
+sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive elemen ( 520)  187 40.9   0.045
+sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive elemen ( 520)  185 40.5   0.058
+sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive elemen ( 404)  181 39.9   0.071
+sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive elemen ( 525)  183 40.2   0.074
+sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive elemen ( 428)  181 39.9   0.076
+sp|Q6QDP7|CR3L2_RAT Cyclic AMP-responsive element- ( 521)  182 40.0   0.082
+sp|P13346|FOSB_MOUSE Protein fosB OS=Mus musculus  ( 338)  175 38.9    0.12
+sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive elemen ( 479)  177 39.2    0.14
+sp|Q5A2K0|NST1_CANAL Stress response protein NST1  (1399)  186 40.7    0.14
+sp|Q8W191|HYH_ARATH Transcription factor HY5-like  ( 149)  165 37.2    0.17
+sp|Q9TUB3|FOSB_CANFA Protein fosB OS=Canis familia ( 338)  172 38.3    0.17
+sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element- ( 470)  174 38.7    0.19
+sp|P0C5H8|KAPC_EMENI Putative transcription factor ( 278)  169 37.8     0.2
+sp|P53539|FOSB_HUMAN Protein fosB OS=Homo sapiens  ( 338)  169 37.8    0.25
+sp|P79702|FOS_CYPCA Proto-oncogene c-Fos OS=Cyprin ( 347)  168 37.6    0.29
+sp|Q0D9R7|ARFS_ORYSJ Auxin response factor 19 OS=O (1161)  178 39.3     0.3
+sp|P15407|FOSL1_HUMAN Fos-related antigen 1 OS=Hom ( 271)  165 37.1    0.32
+sp|Q5B3C8|NST1_EMENI Stress response protein nst1  (1125)  176 39.0    0.37
+sp|Q9WVS8|MK07_MOUSE Mitogen-activated protein kin ( 806)  173 38.5    0.38
+sp|O97930|FOS_PIG Proto-oncogene c-Fos OS=Sus scro ( 380)  166 37.3     0.4
+sp|Q06507|ATF4_MOUSE Cyclic AMP-dependent transcri ( 349)  165 37.1    0.41
+sp|Q90370|MAFB_COTJA Transcription factor MafB OS= ( 311)  161 36.5    0.59
+sp|Q90888|MAFB_CHICK Transcription factor MafB OS= ( 311)  161 36.5    0.59
+sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive elemen ( 461)  163 36.8     0.7
+sp|Q09926|PCR1_SCHPO Transcription factor pcr1 OS= ( 171)  154 35.3    0.73
+sp|O88778|BSN_RAT Protein bassoon OS=Rattus norveg (3938)  181 39.8    0.74
+sp|Q8VCH8|UBXN4_MOUSE UBX domain-containing protei ( 506)  163 36.8    0.77
+sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive elemen ( 370)  160 36.3    0.79
+sp|A4R2R1|NST1_MAGGR Stress response protein NST1  (1319)  171 38.1    0.79
+sp|P18848|ATF4_HUMAN Cyclic AMP-dependent transcri ( 351)  159 36.1    0.85
+sp|O88479|FOS_MESAU Proto-oncogene c-Fos OS=Mesocr ( 381)  159 36.1    0.92
+sp|A5PKJ4|MK07_BOVIN Mitogen-activated protein kin ( 781)  165 37.1    0.94
+sp|Q1DQC1|PAN1_COCIM Actin cytoskeleton-regulatory (1485)  170 37.9       1
+sp|P01101|FOS_MOUSE Proto-oncogene c-Fos OS=Mus mu ( 380)  158 35.9       1
+sp|Q6NW59|ATF4_DANRE Cyclic AMP-dependent transcri ( 339)  157 35.8       1
+sp|Q76LL6|FHOD3_MOUSE FH1/FH2 domain-containing pr (1578)  170 37.9     1.1
+sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive elemen ( 395)  158 35.9     1.1
+sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF ( 401)  158 35.9     1.1
+sp|Q5R9C9|ATF7_PONAB Cyclic AMP-dependent transcri ( 483)  159 36.1     1.2
+sp|P17544|ATF7_HUMAN Cyclic AMP-dependent transcri ( 494)  159 36.1     1.2
+sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive elemen ( 395)  157 35.8     1.2
+sp|P51145|FOSL2_RAT Fos-related antigen 2 OS=Rattu ( 327)  155 35.4     1.3
+sp|P01100|FOS_HUMAN Proto-oncogene c-Fos OS=Homo s ( 380)  156 35.6     1.3
+sp|Q03173|ENAH_MOUSE Protein enabled homolog OS=Mu ( 802)  162 36.6     1.4
+sp|Q9Y5Q3|MAFB_HUMAN Transcription factor MafB OS= ( 323)  154 35.3     1.4
+sp|Q9R1S4|XBP1_RAT X-box-binding protein 1 OS=Ratt ( 267)  152 34.9     1.5
+sp|P01102|FOS_MSVFB p55-v-Fos-transforming protein ( 381)  155 35.4     1.5
+sp|P10158|FOSL1_RAT Fos-related antigen 1 OS=Rattu ( 275)  152 34.9     1.5
+sp|Q6Y7W8|PERQ2_MOUSE PERQ amino acid-rich with GY (1291)  165 37.1     1.6
+sp|P15408|FOSL2_HUMAN Fos-related antigen 2 OS=Hom ( 326)  153 35.1     1.6
+sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive elemen ( 428)  155 35.4     1.7
+sp|A2R346|KAPC_ASPNC Putative transcription factor ( 283)  151 34.7     1.8
+sp|Q2PFS4|MAFB_MACFA Transcription factor MafB OS= ( 323)  152 34.9     1.8
+sp|Q8R0S1|ATF7_MOUSE Cyclic AMP-dependent transcri ( 413)  154 35.2     1.8
+sp|P48755|FOSL1_MOUSE Fos-related antigen 1 OS=Mus ( 273)  150 34.6     1.9
+sp|Q9UQ88|CD11A_HUMAN Cell division protein kinase ( 780)  159 36.1     1.9
+sp|Q16520|BATF_HUMAN Basic leucine zipper transcri ( 125)  143 33.4       2
+sp|Q0CEI3|KAPC_ASPTN Putative transcription factor ( 286)  150 34.6       2
+sp|P54842|MAFB_RAT Transcription factor MafB OS=Ra ( 323)  151 34.7       2
+sp|P29747|CREBA_DROME Cyclic AMP response element- ( 516)  155 35.4       2
+sp|P47930|FOSL2_MOUSE Fos-related antigen 2 OS=Mus ( 326)  151 34.7       2
+sp|Q63ZM7|STABP_XENLA STAM-binding protein-like OS ( 416)  153 35.1     2.1
+sp|Q91496|FOS_TETFL Proto-oncogene c-Fos OS=Tetrao ( 374)  152 34.9     2.1
+sp|O35426|XBP1_MOUSE X-box-binding protein 1 OS=Mu ( 267)  149 34.4     2.1
+sp|Q9ES19|ATF4_RAT Cyclic AMP-dependent transcript ( 347)  151 34.7     2.2
+sp|O02756|CEBPD_BOVIN CCAAT/enhancer-binding prote ( 256)  148 34.2     2.3
+sp|P54841|MAFB_MOUSE Transcription factor MafB OS= ( 323)  150 34.6     2.3
+sp|A1C9M5|KAPC_ASPCL Putative transcription factor ( 288)  149 34.4     2.3
+sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive elemen ( 368)  151 34.7     2.3
+sp|O77628|FOS_BOVIN Proto-oncogene c-Fos OS=Bos ta ( 380)  151 34.7     2.4
+sp|Q6NS15|MED15_XENLA Mediator of RNA polymerase I ( 777)  157 35.7     2.4
+sp|P94517|YSCB_BACSU Uncharacterized protein yscB  ( 221)  146 33.9     2.5
+sp|Q504L8|MAFB_XENTR Transcription factor MafB OS= ( 316)  149 34.4     2.5
+sp|O57342|MAFA_COTJA Transcription factor MafA OS= ( 286)  148 34.2     2.5
+sp|P12841|FOS_RAT Proto-oncogene c-Fos OS=Rattus n ( 380)  150 34.6     2.7
+sp|Q8HZP6|FOS_FELCA Proto-oncogene c-Fos OS=Felis  ( 381)  150 34.6     2.7
+sp|Q56TT7|FOS_PHOCM Proto-oncogene c-Fos OS=Phodop ( 381)  150 34.6     2.7
+sp|Q2VZV0|IF2_MAGSA Translation initiation factor  ( 872)  157 35.7     2.7
+sp|Q3ZCH6|ATF4_BOVIN Cyclic AMP-dependent transcri ( 348)  149 34.4     2.8
+sp|Q5HZY0|UBXN4_RAT UBX domain-containing protein  ( 506)  152 34.9     2.8
+sp|P0C865|MK07_RAT Mitogen-activated protein kinas ( 806)  156 35.6     2.8
+sp|Q9N0J3|CEBPD_SHEEP CCAAT/enhancer-binding prote ( 255)  146 33.9     2.9
+sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element- ( 367)  149 34.4     2.9
+sp|A0JMK9|CAF1A_DANRE Chromatin assembly factor 1  ( 863)  156 35.6       3
+sp|Q96JK9|MAML3_HUMAN Mastermind-like protein 3 OS (1134)  158 35.9     3.2
+sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcr ( 127)  139 32.7     3.2
+sp|Q9C0A6|SETD5_HUMAN SET domain-containing protei (1442)  160 36.2     3.2
+sp|B3DM43|SOX5_XENTR Transcription factor Sox-5 OS ( 753)  154 35.2     3.4
+sp|A5FV21|IF2_ACICJ Translation initiation factor  ( 887)  155 35.4     3.5
+sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive elemen ( 357)  147 34.0     3.6
+sp|Q9H254|SPTN4_HUMAN Spectrin beta chain, brain 3 (2564)  164 36.9     3.6
+sp|B2AWS3|PAN1_PODAN Actin cytoskeleton-regulatory (1441)  159 36.0     3.6
+sp|Q61827|MAFK_MOUSE Transcription factor MafK OS= ( 156)  139 32.7       4
+sp|O60675|MAFK_HUMAN Transcription factor MafK OS= ( 156)  139 32.7       4
+sp|Q4QRL3|CC88B_MOUSE Coiled-coil domain-containin (1481)  158 35.9     4.2
+sp|P53450|FOS_TAKRU Proto-oncogene c-Fos OS=Takifu ( 376)  146 33.9     4.3
+sp|Q9UPA5|BSN_HUMAN Protein bassoon OS=Homo sapien (3926)  166 37.2     4.4
+sp|O88737|BSN_MOUSE Protein bassoon OS=Mus musculu (3942)  166 37.2     4.4
+sp|P42774|GBF1_ARATH G-box-binding factor 1 OS=Ara ( 315)  144 33.5     4.5
+sp|Q7ZVN7|MED15_DANRE Mediator of RNA polymerase I ( 809)  152 34.9     4.6
+sp|O42290|MAFA_CHICK Transcription factor MafA OS= ( 286)  143 33.4     4.6
+sp|A9V549|EIF3A_MONBE Eukaryotic translation initi (1052)  154 35.2     4.7
+sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcr ( 118)  135 32.0     4.8
+sp|Q5RCJ1|CIP4_PONAB Cdc42-interacting protein 4 O ( 601)  149 34.4     4.8
+sp|O43889|CREB3_HUMAN Cyclic AMP-responsive elemen ( 395)  145 33.7       5
+sp|O35284|BATF_MOUSE Basic leucine zipper transcri ( 125)  135 32.0     5.1
+sp|Q2UNX4|KAPC_ASPOR Putative transcription factor ( 284)  142 33.2     5.1
+sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive elemen ( 508)  147 34.0     5.1
+sp|Q6P9R4|ARHGI_MOUSE Rho guanine nucleotide excha (1021)  153 35.0     5.2
+sp|Q5F489|TAF3_CHICK Transcription initiation fact ( 930)  152 34.9     5.3
+sp|Q5HZG4|TAF3_MOUSE Transcription initiation fact ( 932)  152 34.9     5.3
+sp|Q9UKV3|ACINU_HUMAN Apoptotic chromatin condensa (1341)  155 35.4     5.4
+sp|Q5KGK5|EIF3A_CRYNE Eukaryotic translation initi ( 952)  152 34.9     5.4
+sp|Q56TN0|FOS_PHORO Proto-oncogene c-Fos OS=Phodop ( 381)  144 33.5     5.5
+sp|Q3KQU3|MA7D1_HUMAN MAP7 domain-containing prote ( 841)  150 34.5     6.1
+sp|Q15642|CIP4_HUMAN Cdc42-interacting protein 4 O ( 601)  147 34.0     6.1
+sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive elemen ( 428)  144 33.5     6.2
+sp|Q6DE84|MAFB_XENLA Transcription factor MafB OS= ( 313)  141 33.0     6.4
+sp|P18625|FOSL2_CHICK Fos-related antigen 2 OS=Gal ( 323)  141 33.0     6.6
+sp|Q3UHR0|BAHC1_MOUSE BAH and coiled-coil domain-c (2643)  159 36.0     6.7
+sp|Q8BW74|HLF_MOUSE Hepatic leukemia factor OS=Mus ( 295)  140 32.9     6.8
+sp|Q16534|HLF_HUMAN Hepatic leukemia factor OS=Hom ( 295)  140 32.9     6.8
+sp|Q9NZ53|PDXL2_HUMAN Podocalyxin-like protein 2 O ( 605)  146 33.9     6.9
+sp|Q7TSC1|BAT2_MOUSE Large proline-rich protein BA (2158)  157 35.7     6.9
+sp|O35451|ATF6B_MOUSE Cyclic AMP-dependent transcr ( 699)  147 34.0     7.1
+sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcr ( 703)  147 34.0     7.2
+sp|Q3UIW5|RNF10_MOUSE RING finger protein 10 OS=Mu ( 804)  148 34.2     7.3
+sp|Q6C908|PAN1_YARLI Actin cytoskeleton-regulatory (1634)  154 35.2     7.5
+sp|Q9W705|NCOA2_XENLA Nuclear receptor coactivator (1516)  153 35.0     7.8
+sp|O60841|IF2P_HUMAN Eukaryotic translation initia (1220)  151 34.7     7.9
+sp|P15205|MAP1B_RAT Microtubule-associated protein (2459)  157 35.7     7.9
+sp|Q9M7Q3|AI5L6_ARATH ABSCISIC ACID-INSENSITIVE 5- ( 454)  142 33.2     8.3
+sp|Q69022|EBNA2_EBVA8 Epstein-Barr nuclear antigen ( 454)  142 33.2     8.3
+sp|Q9ES64|USH1C_MOUSE Harmonin OS=Mus musculus GN= ( 910)  148 34.2     8.3
+sp|Q4U1U2|MAFA_XENTR Transcription factor MafA OS= ( 289)  138 32.5     8.4
+sp|P29681|IMPE2_DROME 20-hydroxyecdysone protein O ( 466)  142 33.2     8.5
+sp|Q54Y73|BZPD_DICDI Probable basic-leucine zipper ( 834)  147 34.0     8.6
+sp|Q64709|HLF_RAT Hepatic leukemia factor OS=Rattu ( 295)  138 32.5     8.6
+sp|Q6MG48|BAT2_RAT Large proline-rich protein BAT2 (2161)  155 35.3     8.8
+sp|Q54HX6|MYBI_DICDI Myb-like protein I OS=Dictyos ( 977)  148 34.2       9
+sp|Q90596|MAFK_CHICK Transcription factor MafK OS= ( 156)  132 31.5     9.1
+sp|Q4VYS1|FOXP2_XENLA Forkhead box protein P2 OS=X ( 706)  145 33.7     9.2
+sp|Q54NF3|Y6434_DICDI Uncharacterized protein DDB_ ( 412)  140 32.8     9.5
+sp|Q0CPW4|PAN1_ASPTN Actin cytoskeleton-regulatory (1469)  151 34.7     9.5
+sp|Q8N8S7|ENAH_HUMAN Protein enabled homolog OS=Ho ( 591)  143 33.3     9.7
+sp|Q00312|RBF1_CANAL Transcription factor RBF1 OS= ( 527)  142 33.2     9.7
+sp|P48634|BAT2_HUMAN Large proline-rich protein BA (2157)  154 35.2     9.9
+
+>>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS  (345 aa)
+ s-w opt: 2265  Z-score: 2101.4  bits: 397.3 E(516081): 1.6e-109
+Smith-Waterman score: 2265; 100.0% identity (100.0% similar) in 345 aa overlap (1-345:1-345)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+               10        20        30        40        50        60
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+               70        80        90       100       110       120
+
+              130       140       150       160       170       180
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+              130       140       150       160       170       180
+
+              190       200       210       220       230       240
+sp|Q1X ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+              190       200       210       220       230       240
+
+              250       260       270       280       290       300
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+       ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+              250       260       270       280       290       300
+
+              310       320       330       340     
+sp|Q1X EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+       :::::::::::::::::::::::::::::::::::::::::::::
+sp|Q1X EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+              310       320       330       340     
+
+>>sp|Q8TFU8|HAC1_EMENI Transcriptional activator hacA OS  (350 aa)
+ s-w opt: 1740  Z-score: 1614.7  bits: 307.2 E(516081): 2e-82
+Smith-Waterman score: 1740; 78.9% identity (94.3% similar) in 332 aa overlap (13-344:18-348)
+
+                    10        20        30        40        50     
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKK
+                        .:::.::. ::::::::::::::.. .: .: .::::::::::
+sp|Q8T MKSADRFSPVKMEDAFANSLPTTPSLEVPVLTVSPADTSLQTKNVVAQ-TKPEEKKPAKK
+               10        20        30        40         50         
+
+          60        70        80        90       100       110     
+sp|Q1X RKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+       :::::::::::::::::::::::::::::::::::::::::::::::::::::::::.::
+sp|Q8T RKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLESEK
+      60        70        80        90       100       110         
+
+         120       130       140       150       160       170     
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLF
+       :.::::::::::::.::::::::::::.:::.::::::: .::  .:::..:::::::::
+sp|Q8T IDMEQQNQFLLQRLAQMEAENNRLSQQVAQLSAEVRGSRHSTPTSSSPASVSPTLTPTLF
+     120       130       140       150       160       170         
+
+         180       190       200       210       220       230     
+sp|Q1X KQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL
+       ::: ::.::.::::::::..:::::::::.:::: :..:::::::.::::: ::: ::::
+sp|Q8T KQEGDEVPLDRIPFPTPSVTDYSPTLKPSSLAESPDLTQHPAVSVGGLEGDESALTLFDL
+     180       190       200       210       220       230         
+
+         240       250       260       270       280       290     
+sp|Q1X GSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSM
+       :...::. : :..:::::::: :::.::::.: :::..:::.:::::..:::::::::::
+sp|Q8T GASIKHEPTHDLTAPLSDDDFRRLFNGDSSLESDSSLLEDGFAFDVLDSGDLSAFPFDSM
+     240       250       260       270       280       290         
+
+         300       310       320       330       340      
+sp|Q1X VNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 
+       :.::.:::::: .:...:: : ..::..:.::. ::::.::::::::::  
+sp|Q8T VDFDTEPVTLEDLEQTNGLSDSASCKAASLQPSHGASTSRCDGQGIAAGSA
+     300       310       320       330       340       350
+
+>>sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac1 OS  (451 aa)
+ s-w opt: 446  Z-score: 413.4  bits: 85.3 E(516081): 1.7e-15
+Smith-Waterman score: 446; 31.1% identity (51.8% similar) in 421 aa overlap (7-344:43-450)
+
+                                       10        20        30      
+sp|Q1X                         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN
+                                     . : . ::. :   :.. :.  :    . .
+sp|Q8T EASPAESFLSAPGDNFTSLFADSTPSTLNPRDMMTPDSV-ADIDSRLSVIPESQDAEDDE
+             20        30        40        50         60        70 
+
+         40        50        60        70        80        90      
+sp|Q1X SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA
+       : ....   .  ::::.:::::::: :: :::::::::::::::::::::.::::::: :
+sp|Q8T SHSTSATAPSTSEKKPVKKRKSWGQVLPEPKTNLPPRKRAKTEDEKEQRRVERVLRNRRA
+              80        90       100       110       120       130 
+
+        100       110              120       130       140         
+sp|Q1X AQTSRERKRLEMEKLENEKIQME-------QQNQFLLQRLSQMEAENNRLS---------
+       ::.::::::::.: ::... ..:       . : .:...:....  .. ..         
+sp|Q8T AQSSRERKRLEVEALEKRNKELETLLINVQKTNLILVEELNRFRRSSGVVTRSSSPLDSL
+             140       150       160       170       180       190 
+
+              150       160                         170        180 
+sp|Q1X QQLAQLAAEVRGSRANTPMPG------------------SPATASPTLTPTLFKQ-ERDE
+       :.   :. .. ::: .  : .                  .::. ::.: :   :. .  :
+sp|Q8T QDSITLSQQLFGSRDGQTMSNPEQSLMDQIMRSAANPTVNPASLSPSLPPISDKEFQTKE
+             200       210       220       230       240       250 
+
+             190       200               210       220       230   
+sp|Q1X LPLERIPFPTPSLSDYSPTLKPSTLAE--------SSDVAQHPAVSVAGLEGDGSALPLF
+          :.        . .  : . ..  :        :.: .:.::::..:     .:.:.:
+sp|Q8T EDEEQADEDEEMEQTWHETKEAAAAKEKNSKQSRVSTDSTQRPAVSIGG----DAAVPVF
+             260       270       280       290       300           
+
+                  240                 250       260       270      
+sp|Q1X D-------LGSDLKHHSTDD----------VAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+       .       :: :  :.  ::          ..: :. : .  :....  . :..:. .: 
+sp|Q8T SDDAGANCLGLDPVHQ--DDGPFSIGHSFGLSAALDADRY--LLESQLLASPNASTVDD-
+       310       320         330       340         350       360   
+
+        280       290         300       310                        
+sp|Q1X LAFDVLEGGDLSAF--PFDSMVNFDSEPVTLEGIEMA---------------------HG
+          : : : . . :  :. :  .:: .    .  . :                     : 
+sp|Q8T ---DYLAGDSAACFTNPLPSDYDFDINDFLTDDANHAAYDIVAASNYAAADRELDLEIHD
+               370       380       390       400       410         
+
+           320       330       340     
+sp|Q1X LPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+         ..   . :  ::  :::.  ::  :::.: 
+sp|Q8T PENQIPSRHSIQQPQSGASSHGCDDGGIAVGV
+     420       430       440       450 
+
+>>sp|P41546|HAC1_YEAST Transcriptional activator HAC1 OS  (238 aa)
+ s-w opt: 257  Z-score: 243.3  bits: 52.9 E(516081): 4.9e-06
+Smith-Waterman score: 257; 32.9% identity (60.3% similar) in 219 aa overlap (63-270:16-216)
+
+             40        50        60           70        80         
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP---KTNLPPRKRAKTEDEKEQRRIER
+                                     : .:   :..:::::::::..:::::::::
+sp|P41                MEMTDFELTSNSQSNLAIPTNFKSTLPPRKRAKTKEEKEQRRIER
+                              10        20        30        40     
+
+      90       100       110       120        130        140       
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ-NQFLLQRLSQME-AENNRLSQQLAQLA
+       .:::: ::. :::.:::... :: .   .:.  :.  :..:.. : : .   .  .:.: 
+sp|P41 ILRNRRAAHQSREKKRLHLQYLERKCSLLENLLNSVNLEKLADHEDALTCSHDAFVASLD
+          50        60        70        80        90       100     
+
+         150        160       170       180       190       200    
+sp|Q1X A--EVRGSR-ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS
+          . ...: :.    .:  ..: :.::.         ::.    :.        ::.:.
+sp|P41 EYRDFQSTRGASLDTRASSHSSSDTFTPS---------PLNCTMEPA--------TLSPK
+         110       120       130                140                
+
+           210       220         230       240       250       260 
+sp|Q1X TLAES-SDVAQHPAVSVAGLEG--DGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFH
+       .. .: ::      ...   :.  ....::  : ...:    .. .: :: ::  .  . 
+sp|P41 SMRDSASDQETSWELQMFKTENVPESTTLPAVD-NNNLFDAVASPLADPLCDDIAGNSLP
+      150       160       170       180        190       200       
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+        :.:.. :.                                                   
+sp|P41 FDNSIDLDNWRNPEAQSGLNSFELNDFFITS                             
+       210       220       230                                     
+
+>>sp|O24646|HY5_ARATH Transcription factor HY5 OS=Arabid  (168 aa)
+ s-w opt: 225  Z-score: 216.5  bits: 47.5 E(516081): 0.00016
+Smith-Waterman score: 225; 31.8% identity (62.4% similar) in 170 aa overlap (6-167:3-167)
+
+               10             20        30           40        50  
+sp|Q1X MSCDMEKTMSSV--DSLPATP---ASEVPVLTVSP---ADTSLNSADVKTQEVKPEEKKP
+            :.. ::.  .:::..    .: .: : ..    .:  .  .     :.  .: . 
+sp|O24    MQEQATSSLAASSLPSSSERSSSSAPHLEIKEGIESDEEIRRVPEFGGEAVGKETSG
+                  10        20        30        40        50       
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+        .. .. :::     ..   :::..:  :::..:..:.::::..:: .::::.  . .::
+sp|O24 RESGSATGQERTQATVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELE
+        60        70        80        90       100       110       
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       :.  ..:..:. : .::: .. ::. : . : . ... ::. .     :: : ::     
+sp|O24 NRVKDLENKNSELEERLSTLQNENQMLRHILKNTTGNKRGGGG-----GSNADASL    
+       120       130       140       150       160                 
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|P17861|XBP1_HUMAN X-box-binding protein 1 OS=Homo s  (261 aa)
+ s-w opt: 201  Z-score: 190.7  bits: 43.3 E(516081): 0.0042
+Smith-Waterman score: 201; 28.5% identity (58.6% similar) in 186 aa overlap (16-187:10-186)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                      ::  . .: .:. .::...   :      . : ..  . .  : :
+sp|P17       MVVVAAAPNPADGTPKVLLLSGQPASAAGAPAGQALPLMVPAQRGASPEAASGG
+                     10        20        30        40        50    
+
+               70         80        90       100       110         
+sp|Q1X QELPVPKTNLPPRKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME
+           .:..    ::: . :.   :.. ..: :.::.::::.:.::. .: .::.. ...:
+sp|P17 ----LPQA----RKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLE
+                   60        70        80        90       100      
+
+     120              130       140             150       160      
+sp|Q1X QQNQFLL-------QRLSQMEAENNRLSQQL------AQLAAEVRGSRANTPMPGSPATA
+       ..:: ::       ..   . .::..: :.:      :.  ::..:...  :. ::  .:
+sp|P17 EENQKLLLENQLLREKTHGLVVENQELRQRLGMDALVAEEEAEAKGNEVR-PVAGSAESA
+        110       120       130       140       150        160     
+
+        170       180       190       200       210       220      
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGD
+       .  :   : . . .  ::. :                                       
+sp|P17 ALRLRAPLQQVQAQLSPLQNISPWILAVLTLQIQSLISCWAFWTTWTQSCSSNALPQSLP
+         170       180       190       200       210       220     
+
+>>sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bos ta  (261 aa)
+ s-w opt: 200  Z-score: 189.7  bits: 43.1 E(516081): 0.0048
+Smith-Waterman score: 200; 29.9% identity (56.9% similar) in 204 aa overlap (16-206:10-196)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                      ::. : .: .:. .:: :.   :      . :            :
+sp|Q3S       MVVVAPAQSPAAGAPKVLLLSGQPAATGGAPAGRALPVMVP------------G
+                     10        20        30        40              
+
+                 70           80        90       100       110     
+sp|Q1X QELPVPK--TNLPP--RKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+       :.   :.  ...::  ::: . :.   :.. ..: :.::.::::.:.::. .: .::.. 
+sp|Q3S QQGASPEGASGVPPQARKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQV
+             50        60        70        80        90       100  
+
+         120              130       140       150       160        
+sp|Q1X IQMEQQNQFLL-------QRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASP
+       ...:..:: ::       ..   . .::..: :.:. . : :   .:.:   :.  .:. 
+sp|Q3S VDLEEENQKLLLENQLLREKTHGLVVENQELRQRLG-MDALVTEEEAETKGNGAGLVAGS
+            110       120       130        140       150       160 
+
+      170       180       190        200       210       220       
+sp|Q1X TLTPTLFKQERDELPLERIPFPTPSLSDYSP-TLKPSTLAESSDVAQHPAVSVAGLEGDG
+       . . .:    : . ::...      :.. :: ::   ::                     
+sp|Q3S AESAAL----RLRAPLQQVQAQLSPLQNISPWTLMALTLQTLSLTSCWAFCSTWTQSCSS
+                 170       180       190       200       210       
+
+       230       240       250       260       270       280       
+sp|Q1X SALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDL
+                                                                   
+sp|Q3S DVLPQSLPAWSSSQKWTQKDPVPYRPPLLHPWGRHQPSWKPLMN                
+       220       230       240       250       260                 
+
+>>sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive element-bi  (519 aa)
+ s-w opt: 203  Z-score: 187.0  bits: 43.6 E(516081): 0.0068
+Smith-Waterman score: 203; 32.7% identity (59.0% similar) in 156 aa overlap (4-152:210-360)
+
+                                          10         20        30  
+sp|Q1X                            MSCDMEKTMSSVDSL-PATPASEVPVLTVSP-A
+                                     : : ..: :    ::.:..   :: :.: :
+sp|A1L PHEVDQFLNLSPKGLECLQMPPTPPSSVGSDSEGSQSPVHPCAPASPTQTPAVLKVAPRA
+     180       190       200       210       220       230         
+
+              40        50             60        70        80      
+sp|Q1X DTSLNSADVKTQEVKPEEKKP-----AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRR
+        .::.:. . :   : . . :      .::   ..  ::: :.::  :     .::  ..
+sp|A1L PSSLSSSPLLTAPHKLQGSGPLLLTEEEKRTLIAEGYPVP-TKLPLSK----AEEKALKK
+     240       250       260       270        280           290    
+
+         90       100       110       120       130       140      
+sp|Q1X IERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL
+       :.: ..:. .:: ::..:.  .. ::..     ..:. : ... ..:  :. : ::: .:
+sp|A1L IRRKIKNKISAQESRRKKKEYVDALEKKVETCSNENHELRRKVENLECTNKSLLQQLHSL
+          300       310       320       330       340       350    
+
+        150       160       170       180       190       200      
+sp|Q1X AAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL
+        : : :                                                      
+sp|A1L QAVVAGKVPRSCRVTGTQTSTCLMVVVLCFSLFLGSFYPGLSPCSSITKADLSREISIHD
+          360       370       380       390       400       410    
+
+>>sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=Solanu  (158 aa)
+ s-w opt: 191  Z-score: 185.4  bits: 41.6 E(516081): 0.0083
+Smith-Waterman score: 191; 36.8% identity (67.4% similar) in 95 aa overlap (60-154:66-157)
+
+      30        40        50        60        70        80         
+sp|Q1X PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER
+                                     ::  :   :.   :::...  .::..:..:
+sp|Q9S SDDEIRRVPEMGGEATGTTSASGRDGVSAAGQAQPSAGTQ---RKRGRSPADKENKRLKR
+          40        50        60        70           80        90  
+
+      90       100       110       120       130       140         
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE
+       .::::..:: .::::.  .  :: .  ..: .:  : .::: .. ::. : . : . .: 
+sp|Q9S LLRNRVSAQQARERKKAYLIDLEARVKELETKNAELEERLSTLQNENQMLRHILKNTTAG
+            100       110       120       130       140       150  
+
+     150       160       170       180       190       200         
+sp|Q1X VRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAES
+       .. .:                                                       
+sp|Q9S AQEGRK                                                      
+                                                                   
+
+>>sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive element-bi  (521 aa)
+ s-w opt: 200  Z-score: 184.2  bits: 43.1 E(516081): 0.0097
+Smith-Waterman score: 200; 24.1% identity (52.9% similar) in 291 aa overlap (18-297:234-518)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .::  .:    . . . : .:  : :   :
+sp|Q8B PTPPSSHSSDSEGSLSPNPRLHPFSLSQAHSPARAMPRGPSALSTSPLLTAPHKLQGSGP
+           210       220       230       240       250       260   
+
+        50        60        70        80        90       100       
+sp|Q1X EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE
+             .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::..:.  
+sp|Q8B LVLTEEEKRTLVAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEY
+           270       280            290       300       310        
+
+       110       120       130       140       150        160      
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMPGSPATA
+       :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . :. . .
+sp|Q8B MDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLAGTQTGT
+      320       330       340       350       360       370        
+
+        170       180       190          200         210           
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---AQHPAV
+          ..   :      .     :.:. .   : .  :  .: :  ...: ..    .:  .
+sp|Q8B CLMVVVLCFAVAFGSFFQGYGPYPSATKMALPSQHPLSEPYTASVVRSRNLLIYEEHAPL
+      380       390       400       410       420       430        
+
+      220       230       240       250       260       270        
+sp|Q1X SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV-FEDGL
+         ..  .... :  .: ::.: . :.   : :  :   . :. ...:.: .  . ... :
+sp|Q8B EESSSPASAGELGGWDRGSSLLRASSGLEALPEVDLP-HFLISNETSLEKSVLLELQQHL
+      440       450       460       470        480       490       
+
+       280        290       300       310       320       330      
+sp|Q1X AFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRC
+       . . :::.. :..  ..  ::                                       
+sp|Q8B VSSKLEGNETLKVVELERRVNATF                                    
+       500       510       520                                     
+
+>>sp|Q54WN7|BZPF_DICDI Probable basic-leucine zipper tra  (631 aa)
+ s-w opt: 201  Z-score: 183.6  bits: 43.3 E(516081): 0.01
+Smith-Waterman score: 201; 24.5% identity (55.4% similar) in 233 aa overlap (46-270:363-593)
+
+          20        30        40        50        60            70 
+sp|Q1X PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTN----LP
+                                     : :: :  :::: . .  ::   :    : 
+sp|Q54 NSNNISTQINNLNNNINNQNNQLNGSNNGKKKEEDKSIKKRK-FISSTPVKGENGGTTLI
+            340       350       360       370        380       390 
+
+                80        90       100       110       120         
+sp|Q1X PRKRA--KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL
+       :   .  . ..:..:.: .:...:: :::  :.:..  .. ::..  ..   :. .  :.
+sp|Q54 PTTDGGFNMDEERHQKRQRRLVKNREAAQLFRQRQKAYIQDLEKKVSDLTGTNSEFRARV
+             400       410       420       430       440       450 
+
+     130       140       150        160       170       180        
+sp|Q1X SQMEAENNRLSQQLAQLAAEVRGSRA-NTPMPGSPATASPTLTPTLFKQERDELPLERIP
+         ...::. . .::  :   :  . . . :  :: .: ::. .   : .     :    :
+sp|Q54 ELLNSENKLIREQLLYLRNFVTQAVSFSFPKGGSNGTNSPSGVADQFLNSILP-PGLNSP
+             460       470       480       490       500        510
+
+      190       200       210       220       230       240        
+sp|Q1X FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVA
+       .:   :       .:  ..  ...:.. ..   ...:.  . :. .  :.:  .: ..  
+sp|Q54 LPQGILPAGMNLQNPMIMSAIAEAASKNSTFRQNIQGNLLGTPIPSPQSSLTSNSGNNSP
+              520       530       540       550       560       570
+
+       250       260       270       280       290       300       
+sp|Q1X A-PLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+         ::.... :  ...... .:.:                                     
+sp|Q54 NKPLNNNNNNNNINNNNNNNPSSPNNNLNNNNNISPNSSTSHQVPYLPQNTPPQQSTPNQ
+              580       590       600       610       620       630
+
+>>sp|A3LYI0|NST1_PICST Stress response protein NST1 OS=P  (1234 aa)
+ s-w opt: 201  Z-score: 178.2  bits: 43.3 E(516081): 0.021
+Smith-Waterman score: 201; 26.6% identity (54.6% similar) in 304 aa overlap (41-332:727-1001)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     . .:.: .:..  :: ..  ..    : .:
+sp|A3L ELKQKQEALKADQRRRKEEAKLKREEEKKKRIEELKRKEEEHKKKVEAQQKKEEEAK-KL
+        700       710       720       730       740       750      
+
+               80        90       100       110       120       130
+sp|Q1X PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS
+         ... :.:.:..... :.  ..    :  .::.::..:  :::... :::.      :.
+sp|A3L KEERKKKAEEERKKKEEEKRQKELLKKQKEEERERLKLEAEENERLEKEQQE------LQ
+         760       770       780       790       800               
+
+              140       150       160       170       180       190
+sp|Q1X QMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFP
+       ...  .:.:  . ::: ::.        . .:: . ::: .  :..:  .  :   .  :
+sp|A3L ELQESQNQLELESAQLPAEL-----AEEINASPDSFSPTKNH-LLEQLYQARP-SSVSGP
+     810       820            830       840        850        860  
+
+                 200       210           220       230       240   
+sp|Q1X T---PSLSDYSPTLKPSTLAESSDVAQ----HPAVSVAGLEGDGSALPLFDLGSDLKHHS
+       :   : .. ..:   : . : :: : .     ::.: : :.: ::  :  .  . . . :
+sp|A3L TTISPPIQ-FTPEAVPPVAAVSSVVPSVVPISPALSGAILNGTGS--P--NSRNAMLYGS
+            870        880       890       900           910       
+
+           250       260       270           280        290        
+sp|Q1X TDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE----DGLAFDV-LEGGDLSAFPFDSMVNF
+       . ..  :      : :  . :.. : ::  .    .: ...  :   .:::  :. . .:
+sp|A3L SAQAQLP------NGLNSSTSNMSPWSSKSRLNSTSGASLQSNLFQPQLSASGFSPFNDF
+       920             930       940       950       960       970 
+
+      300       310       320       330       340                  
+sp|Q1X DSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC             
+        : :.:  ::    ..  ..   ...:.:  ::.                          
+sp|A3L -STPATSAGI---GSVNVNAPLASTAVEPLAGANNGGVWNPSTTSSRNNSIWSNTPNLNN
+              980          990      1000      1010      1020       
+
+sp|A3L ASIWGNTLPSLAGGAGAGASTPSAAHTLPNSAPLASDNELIQVAAYNTFQMLQNSNQLEF
+      1030      1040      1050      1060      1070      1080       
+
+>>sp|Q66HA2|CR3L1_RAT Cyclic AMP-responsive element-bind  (520 aa)
+ s-w opt: 191  Z-score: 175.9  bits: 41.6 E(516081): 0.028
+Smith-Waterman score: 191; 25.3% identity (51.7% similar) in 300 aa overlap (4-290:214-499)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     : . ..:  .  :..:.  .   ... . .
+sp|Q66 AEPPEMSQFLKVTQEDLVQMPPTPPSSHGSDSDGSQSPRSLPPSSPVRPMARSSTAISTS
+           190       200       210       220       230       240   
+
+            40         50        60        70        80        90  
+sp|Q1X SLNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        : .:  : : .. :      .::   ..  :.: :.::  :     .::  .:..: ..
+sp|Q66 PLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TKLPLTK----AEEKALKRVRRKIK
+           250       260       270        280           290        
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  .: ::..   . ..:. : ...  .:. :  : ::: .: . :  
+sp|Q66 NKISAQESRRKKKEYVECLEKKVETYTSENNELWKKVETLETANRTLLQQLQKLQTLVT-
+      300       310       320       330       340       350        
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       :. . :.     .:. : :  .       : :  .    :..:. : :.: . .: .:  
+sp|Q66 SKISRPYK---MAATQTGTCLMVAALCFVLVLGSLAPCLPAFSSGSKTVKEDPVAADSVY
+       360          370       380       390       400       410    
+
+              220             230           240       250       260
+sp|Q1X A--QHPAVSV------AGLEGDGSALPLFDL----GSDLKHHSTDDVAAPLSDDDFNRLF
+       :  : :. :.      ::   ::    :. .    : .::  .    : :  .: . :  
+sp|Q66 AASQMPSRSLLFYDDGAGSWEDGHRGALLPVEPPEGWELKPGGP---AEPRPQDHL-RHD
+          420       430       440       450          460        470
+
+              270       280       290       300       310       320
+sp|Q1X HGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTC
+       :.:: ..  .. ...    :. ..:    :                              
+sp|Q66 HADS-IHETTKYLRETWPEDTEDNGASPNFSHPKEWFHDRDLGPNTTIKLS         
+               480       490       500       510       520         
+
+>>sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-bi  (456 aa)
+ s-w opt: 188  Z-score: 174.2  bits: 41.1 E(516081): 0.035
+Smith-Waterman score: 188; 26.2% identity (53.3% similar) in 240 aa overlap (48-275:213-434)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q3S SSGDLQQHHLAAPHLLRPGTGHCQELVLTEDEKKLLAKE---GITLP---TQLPLTKY--
+            190       200       210       220             230      
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. ::..      ::: : ... ..: .: 
+sp|Q3S --EERMLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNL
+            240       250       260       270       280       290  
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGS---------PATASPTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ... . :.            . :...:  : ..: : : .  :
+sp|Q3S SLLEQLKKLQAIVVQSTSKSAQTGTCIAVLLFSFALIVLPSISP--FASNRAESPGDFAP
+            300       310       320       330         340       350
+
+         190       200       210       220       230       240     
+sp|Q1X ---FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+          :     .: .  . :.: : .:. :  :. ....:.  . . :     .. . ..: 
+sp|Q3S VRVFSRTLHNDAASRVAPDT-APGSE-APGPGPNTGALQERSPGSP----PGEWESQDTR
+              360       370         380       390           400    
+
+         250       260       270       280       290       300     
+sp|Q1X DVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTL
+        .     : : . : .:.:  : :.... :                              
+sp|Q3S ALDNSTEDLDNSTLVQGNSVKELDQATLLDCAPPEPAVSPGHVGLEAAGGEL        
+          410       420       430       440       450              
+
+>>sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive element-bi  (519 aa)
+ s-w opt: 189  Z-score: 174.0  bits: 41.2 E(516081): 0.036
+Smith-Waterman score: 189; 26.7% identity (53.8% similar) in 240 aa overlap (4-232:215-445)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     : . ..:  .  :..:.  .   ... . .
+sp|Q9Z AEPPEMSQFLKVTPEDLVQMPPTPPSSHGSDSDGSQSPRSLPPSSPVRPMARSSTAISTS
+          190       200       210       220       230       240    
+
+            40         50        60        70        80        90  
+sp|Q1X SLNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        : .:  : : .. :      .::   ..  :.: :.::  :     .::  .:..: ..
+sp|Q9Z PLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TKLPLTK----AEEKALKRVRRKIK
+          250       260       270        280           290         
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  .: ::..   . ..:. : ...  .:. :  : ::: .: . :  
+sp|Q9Z NKISAQESRRKKKEYVECLEKKVETYTSENNELWKKVETLETANRTLLQQLQKLQTLVT-
+     300       310       320       330       340       350         
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       :. . :.     .:. : :  .       : :  .    :..:. : :.: . .: .:  
+sp|Q9Z SKISRPY---KMAATQTGTCLMVAALCFVLVLGSLVPCLPAFSSGSMTVKEDPIAADSVY
+      360          370       380       390       400       410     
+
+              220               230       240       250       260  
+sp|Q1X A--QHPAVSV------AGL--EGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+       :  : :. :.      ::   .: :. ::.                              
+sp|Q9Z AASQMPSRSLLFYDDGAGSWEDGRGALLPVEPPEGWELKPGGPAEQRPQDHLRHDRADSI
+         420       430       440       450       460       470     
+
+>>sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive element-bi  (519 aa)
+ s-w opt: 187  Z-score: 172.2  bits: 40.9 E(516081): 0.045
+Smith-Waterman score: 187; 26.2% identity (53.3% similar) in 240 aa overlap (4-232:215-445)
+
+                                          10        20        30   
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT
+                                     : . ..:  .  :..:.  .   ... . .
+sp|Q96 AEPLEVNQFLKVTPEDLVQMPPTPPSSHGSDSDGSQSPRSLPPSSPVRPMARSSTAISTS
+          190       200       210       220       230       240    
+
+            40         50        60        70        80        90  
+sp|Q1X SLNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        : .:  : : .. :      .::   ..  :.: :.::  :     .::  .:..: ..
+sp|Q96 PLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TKLPLTK----AEEKALKRVRRKIK
+          250       260       270        280           290         
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  .: ::..   . ..:. : ...  .:  :  : ::: .: . :  
+sp|Q96 NKISAQESRRKKKEYVECLEKKVETFTSENNELWKKVETLENANRTLLQQLQKLQTLVT-
+     300       310       320       330       340       350         
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS--
+       .. . :.     .:. : :  .       : :  .    : .:. : :.: . :: ..  
+sp|Q96 NKISRPY---KMAATQTGTCLMVAALCFVLVLGSLVPCLPEFSSGSQTVKEDPLAADGVY
+      360          370       380       390       400       410     
+
+              220               230       240       250       260  
+sp|Q1X DVAQHPAVSV------AGLEGDGSA--LPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+        ..: :. :.      :::  :: .  ::.                              
+sp|Q96 TASQMPSRSLLFYDDGAGLWEDGRSTLLPMEPPDGWEINPGGPAEQRPRDHLQHDHLDST
+         420       430       440       450       460       470     
+
+>>sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive element-bi  (520 aa)
+ s-w opt: 187  Z-score: 172.2  bits: 40.9 E(516081): 0.045
+Smith-Waterman score: 187; 23.9% identity (51.9% similar) in 297 aa overlap (14-297:228-517)
+
+                                10          20        30        40 
+sp|Q1X                  MSCDMEKTMSSVDSLPAT--PASEVPVLTVSPADTSLNSADVK
+                                     ::: :  :.  .:    . ... : .:  :
+sp|Q70 DHLHLPPTPPSSHGSDSEGSLSPNPRLHPFSLPQTHSPSRAAPRAPSALSSSPLLTAPHK
+       200       210       220       230       240       250       
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :   :      .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::
+sp|Q70 LQGSGPLVLTEEEKRTLIAEGYPIP-TKLPLSKS----EEKALKKIRRKIKNKISAQESR
+       260       270       280        290           300       310  
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMP
+       ..:.  :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . 
+sp|Q70 RKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLA
+            320       330       340       350       360       370  
+
+              170       180       190          200         210     
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---
+       :. . .   ..   :      .     :.:. .   : .     .: :  ...: ..   
+sp|Q70 GTQTGTCLMVVVLCFAVAFGSFFQGYGPYPSATKMALPSQHSLQEPYTASVVRSRNLLIY
+            380       390       400       410       420       430  
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+        .:     ..  :... :  .: ::.: . :  .    ..   :  .. ...:.: .  .
+sp|Q70 EEHSPPEESSSPGSAGELGGWDRGSSLLRVSGLESRPDVDLPHF--IISNETSLEKSVLL
+            440       450       460       470         480       490
+
+             280        290       300       310       320       330
+sp|Q1X -FEDGLAFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFG
+        ... :.   :::.. :..  .:  ::                                 
+sp|Q70 ELQQHLVSAKLEGNETLKVVELDRRVNTTF                              
+              500       510       520                              
+
+>>sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive element-bi  (520 aa)
+ s-w opt: 185  Z-score: 170.3  bits: 40.5 E(516081): 0.058
+Smith-Waterman score: 185; 23.9% identity (51.5% similar) in 297 aa overlap (14-297:228-517)
+
+                                10          20        30        40 
+sp|Q1X                  MSCDMEKTMSSVDSLPAT--PASEVPVLTVSPADTSLNSADVK
+                                     ::: :  :.  .:    . ... : .:  :
+sp|Q5R DHLHLPPTPPSSHGSDSEGSLSPNPRLHPFSLPQTHSPSRAAPRAPSALSSSPLLTAPHK
+       200       210       220       230       240       250       
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :   :      .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::
+sp|Q5R LQGSGPLVLTEEEKRTLIAEGYPIP-TKLPLTKS----EEKALKKIRRKIKNKISAQESR
+       260       270       280        290           300       310  
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMP
+       ..:.  :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . 
+sp|Q5R RKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLA
+            320       330       340       350       360       370  
+
+              170       180       190          200         210     
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---
+       :. . .   ..   :      .     :.:. .   : .     .: :  ...: ..   
+sp|Q5R GTQTGTCLMVVVLCFAVAFGSFFQGYGPYPSATKMALPSQHSLQEPYTASVVRSRNLLIY
+            380       390       400       410       420       430  
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+        .:      .  :... :  .: ::.: . :  .    ..   :  .. ...:.: .  .
+sp|Q5R EEHSPPEEPSSPGSAGELGGWDRGSSLLRVSGLESRPDVDLPHF--IISNETSLEKSVLL
+            440       450       460       470         480       490
+
+             280        290       300       310       320       330
+sp|Q1X -FEDGLAFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFG
+        ... :.   :::.. :..  .:  ::                                 
+sp|Q5R ELQQHLVSAKLEGNETLKVVELDRRVNTTF                              
+              500       510       520                              
+
+>>sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-bi  (404 aa)
+ s-w opt: 181  Z-score: 168.6  bits: 39.9 E(516081): 0.071
+Smith-Waterman score: 181; 26.7% identity (56.0% similar) in 225 aa overlap (1-207:107-318)
+
+                                             10            20      
+sp|Q1X                               MSCDMEKTMSSV--DSLP--ATPASEVPVL
+                                     .::  .. ....  ...:   : . :   .
+sp|Q61 LGSSSSSILHDHNYSLPQEHVSIDLGECEMISCRGRRELTGLAGSTFPFADTESFEKEGF
+         80        90       100       110       120       130      
+
+         30        40          50        60        70        80    
+sp|Q1X TVSPADTSLNSADVKTQEV--KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ
+        :.:      .:. . ...    ::::  .:.   :  ::   ..::  :     .:.  
+sp|Q61 HVTPLPGEERAAEQEMSRLILTEEEKKLLEKE---GLTLP---STLPLTKV----EEQVL
+        140       150       160          170          180          
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       .:..: .::. ::: ::..:.. .  ::.. ...  ::. : ......: .:  : .:: 
+sp|Q61 KRVRRKIRNKRAAQESRKKKKVYVVGLESRVLKYTAQNRELQNKVQRLEEQNLSLLDQLR
+        190       200       210       220       230       240      
+
+          150       160             170        180            190  
+sp|Q1X QLAAEVRGSRANTPMPGSPA------TASPTLTPTLFKQE-RDELPLERIPF-----PTP
+       .: : :    ::    ::        .    :.:...... :  .: : . .       :
+sp|Q61 KLQAMVI-EIANKTSSGSTCVLVLVFSFCLLLVPAMYSSDARGSVPAEYVVLHRKLRALP
+        250        260       270       280       290       300     
+
+            200       210       220       230       240       250  
+sp|Q1X SLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLS
+       : .:..:  :::.:.                                             
+sp|Q61 SEDDHQP--KPSALSSELPMDSTHQSLDSSEHMFLVSSNFSCVLYHAPQAEQPLHWPLWD
+         310         320       330       340       350       360   
+
+>>sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive element-bi  (525 aa)
+ s-w opt: 183  Z-score: 168.4  bits: 40.2 E(516081): 0.074
+Smith-Waterman score: 183; 31.0% identity (55.7% similar) in 158 aa overlap (4-152:218-368)
+
+                                          10        20             
+sp|Q1X                            MSCDMEKTMSSVDSLPATPASEVP------VLT
+                                     : :  .: . :::  :.: :       . .
+sp|A2V VDQFLNLCPKEVAPTEALQMPPTPPSSHGSDSEGGQSPTRSLP--PSSPVQSQAGGKMAA
+       190       200       210       220       230         240     
+
+        30           40        50        60        70        80    
+sp|Q1X VSPA---DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ
+        ::.   .. : .:  : :   :      .::   ..  :.: :.::  :     .::  
+sp|A2V RSPSALSNSPLLTAPHKLQGSGPLMLTEEEKRTLVAEGYPIP-TKLPLTK----AEEKAL
+         250       260       270       280        290           300
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       ..:.: ..:. .:: ::..:.  :..::..  .  ..:. : ...  .:. :  : ::: 
+sp|A2V KKIRRKIKNKISAQESRRKKKEYMDSLEKRVENSSSENSELRKKVEVLESTNRTLLQQLQ
+              310       320       330       340       350       360
+
+          150       160       170       180       190       200    
+sp|Q1X QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS
+       .: : : :                                                    
+sp|A2V RLQAMVTGKVTRSCKAAGTQTGTCLMMVVLCFAVIFGSFTQNLDMYSSSSKTIHEPSQYS
+              370       380       390       400       410       420
+
+>>sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive element-bi  (428 aa)
+ s-w opt: 181  Z-score: 168.2  bits: 39.9 E(516081): 0.076
+Smith-Waterman score: 181; 26.9% identity (53.3% similar) in 182 aa overlap (24-200:160-330)
+
+                      10        20        30         40        50  
+sp|Q1X        MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD-VKTQEVKPEEKKP
+                                     ::   .:    :. :: . .. . :: .  
+sp|Q08 MSSVISIQLAEDWNSAPLLIPESCIVNDLPPVCKSTPLPIRLTPADLIAVDALYPELHLT
+     130       140       150       160       170       180         
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+        ....  .::  .  .:::  :     .:.  ....: .::. .:: ::.::.  .. ::
+sp|Q08 EEEKRLLSQEGVALPNNLPLTK----AEERILKKVRRKIRNKQSAQDSRRRKKEYIDGLE
+     190       200       210           220       230       240     
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       ..     .::: : ... ..: .:  :  :: .: . .. .  ..      : .:  .  
+sp|Q08 SRVAACSSQNQELHKKVVELEKHNISLITQLRKLQTLIKQTSNKA------AQTSTCVLI
+         250       260       270       280       290               
+
+            180          190        200       210       220        
+sp|Q1X TLFKQERDELPLERIPF---PTPSLSD-YSPTLKPSTLAESSDVAQHPAVSVAGLEGDGS
+        ::.     .:    ::   :. :  : : ::                            
+sp|Q08 LLFSLALLVFP-SYSPFRSRPSASQEDSYRPTGVISRNILNKGGFSEVADPQASDTLHRA
+     300       310        320       330       340       350        
+
+      230       240       250       260       270       280        
+sp|Q1X ALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLS
+                                                                   
+sp|Q08 QQREEGDPGRHVVPPANPNPEETEPVSNRARTTPEPDEQVLAEPEAAILGQKGEPPGSDN
+      360       370       380       390       400       410        
+
+>>sp|Q6QDP7|CR3L2_RAT Cyclic AMP-responsive element-bind  (521 aa)
+ s-w opt: 182  Z-score: 167.5  bits: 40.0 E(516081): 0.082
+Smith-Waterman score: 182; 23.4% identity (52.6% similar) in 291 aa overlap (18-297:234-518)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .:.  .:    . . . : .:  : :   :
+sp|Q6Q PTPPSSHSSDSEGSLSPNPRLHPFSLSQAHSPGRAMPRGPSALSTSPLLTAPHKLQGSGP
+           210       220       230       240       250       260   
+
+        50        60        70        80        90       100       
+sp|Q1X EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE
+             .::   ..  :.: :.::  :     .::  ..:.: ..:. .:: ::..:.  
+sp|Q6Q LVLTEEEKRTLIAEGYPIP-TKLPLTK----SEEKALKKIRRKIKNKISAQESRRKKKEY
+           270       280            290       300       310        
+
+       110       120       130       140       150        160      
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT-PMPGSPATA
+       :..::..  .   .:  : ...  .:  :  : ::: .: . : :. . :  . :. . .
+sp|Q6Q MDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQTLVMGKVSRTCKLAGTQTGT
+      320       330       340       350       360       370        
+
+        170       180       190          200         210           
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPS---LSDYSPTLKPST--LAESSDV---AQHPAV
+          ..   :      :      .:. .   : .  :  .: :  ...: ..    .: ..
+sp|Q6Q CLMVVVLCFAVAFGSLFQGYGLYPSATKMALPSQHPLSEPYTASVVRSRNLLIYEEHSSL
+      380       390       400       410       420       430        
+
+      220       230       240       250       260       270        
+sp|Q1X SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV-FEDGL
+         ..  .... :  .: ::.: . :.   : :  :   . ..  ..:.: .  . ... :
+sp|Q6Q EESSSPASAGELGGWDRGSSLLRASSGLEALPEVDLP-HFIISKETSLEKSVLLELQQHL
+      440       450       460       470        480       490       
+
+       280        290       300       310       320       330      
+sp|Q1X AFDVLEGGD-LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRC
+       . . :::.. :..  ..  ::                                       
+sp|Q6Q VSSKLEGNETLKVVELERRVNATF                                    
+       500       510       520                                     
+
+>>sp|P13346|FOSB_MOUSE Protein fosB OS=Mus musculus GN=F  (338 aa)
+ s-w opt: 175  Z-score: 164.5  bits: 38.9 E(516081): 0.12
+Smith-Waterman score: 175; 25.7% identity (50.9% similar) in 222 aa overlap (9-222:76-290)
+
+                                     10         20        30       
+sp|Q1X                       MSCDMEKTMSSVDSLPATP-ASEVPVLTVSPAD---TS
+                                     .::. .  . : ::. :.  :.: :   ::
+sp|P13 GLGEMPGSFVPTVTAITTSQDLQWLVQPTLISSMAQSQGQPLASQPPA--VDPYDMPGTS
+          50        60        70        80        90         100   
+
+           40        50          60        70          80        90
+sp|Q1X LNSADVKTQEVKPEEKK--PAKKRKSWGQELPVPKTNLP--PRKRAKTEDEKEQRRIERV
+        ..  ...  .     .  :. .  . :     :    :  ::... : .:.:.::..: 
+sp|P13 YSTPGLSAYSTGGASGSGGPSTSTTTSGPVSARPARARPRRPREETLTPEEEEKRRVRRE
+           110       120       130       140       150       160   
+
+              100       110       120       130       140       150
+sp|Q1X LRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV
+        ::. ::   :.:.:   ..:. :  :.:...  : ....... :..::   :.      
+sp|P13 -RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGC
+            170       180       190       200       210       220  
+
+              160       170       180       190       200       210
+sp|Q1X RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+       .    . : ::  : .     :   . ..: .     : : : :   :    : .:. : 
+sp|P13 KIPYEEGPGPGPLAEVRDL--PGSTSAKEDGFGWLLPPPPPPPLPFQSSRDAPPNLTAS-
+            230       240         250       260       270          
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+        .  :  :.: :                                                
+sp|P13 -LFTHSEVQVLGDPFPVVSPSYTSSFVLTCPEVSAFAGAQRTSGSEQPSDPLNSPSLLAL
+      280       290       300       310       320       330        
+
+>>sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-bi  (479 aa)
+ s-w opt: 177  Z-score: 163.6  bits: 39.2 E(516081): 0.14
+Smith-Waterman score: 177; 27.0% identity (54.1% similar) in 233 aa overlap (48-258:214-432)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q91 GSGDLQQHSLAASQLLGPGSGHCQELVLTEDEKKLLAKE---GVTLP---TQLPLTKY--
+           190       200       210       220             230       
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. :::.      ::: : ... ..: .: 
+sp|Q91 --EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQRKVLHLEKQNL
+           240       250       260       270       280       290   
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGSPATAS---------PTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ..    :.  ..          :...:  :.... . : . .:
+sp|Q91 SLLEQLKHLQALVVQSTSKPAHAGTCIAVLLLSFALIILPSISP--FNSNKVDSPGDFVP
+           300       310       320       330         340       350 
+
+             190       200       210          220        230       
+sp|Q1X -------FPTPSLSDYSPTLKPSTLAESS--DVAQ-HPAVSVAGLEGD-GSAL--PLFDL
+              . . . :  .: . :.. . .   ::.  : . : .:: .: :. :  :..: 
+sp|Q91 VRVFSRTLHNHAASRVAPDVTPGSEVPGPWPDVGTPHKGPSSGGLSADWGNFLEIPMLDN
+             360       370       380       390       400       410 
+
+         240       250       260       270       280       290     
+sp|Q1X GSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSM
+        ..   .::  .:   : .:..:                                     
+sp|Q91 LTEELDNSTLVLAN--STEDLGRATLLDWVASEPLLSPGRVGLEIPGEMWLSWVPRWLRV
+             420         430       440       450       460         
+
+>>sp|Q5A2K0|NST1_CANAL Stress response protein NST1 OS=C  (1399 aa)
+ s-w opt: 186  Z-score: 163.3  bits: 40.7 E(516081): 0.14
+Smith-Waterman score: 186; 20.1% identity (55.0% similar) in 358 aa overlap (32-334:788-1145)
+
+              10        20        30        40        50           
+sp|Q1X SCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSW--
+                                     .. :.. . : .... ...:  ..::.   
+sp|Q5A KRKEEELKAKEEEQRLQKEKLKAEQKKRKEEARLKKEEEKKKKIEEQKRKEEEHRKKVEA
+       760       770       780       790       800       810       
+
+      60        70        80        90       100       110         
+sp|Q1X GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME
+        :.  .   .:  ..: :.:.:..:.. :.  ..    :  .:... :. . . :. . .
+sp|Q5A QQKREAEAKKLKEERRRKAEEERKQKEEEKKQKELLKKQKEEEKRQKELLRKQREEEKEK
+       820       830       840       850       860       870       
+
+     120       130       140       150               160           
+sp|Q1X QQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM--------PGS----PATAS
+       .  ..  .: . :  ....:..:.    ... .. ::.:.        :::    :.::.
+sp|Q5A EAARLEEERTKLMVNDDDELARQIEVEKSKLSAAVANNPLLNHLYQPSPGSAPTTPSTAN
+       880       890       900       910       920       930       
+
+        170                  180                 190         200   
+sp|Q1X -PTLTPT-----------LFKQERDELPLERIPF----------PTPSLSDY--SPTLKP
+        :.:.:            . .:.....  :..:           : ::.:..  :   .:
+sp|Q5A LPALSPLQSASAKLMSQQFEQQHQQQVSQEKLPQTSNIQSPNQQPHPSISSFQFSSEYNP
+       940       950       960       970       980       990       
+
+             210              220       230       240       250    
+sp|Q1X --STLAESSDVAQHPAV-------SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDD
+         :.. ..:.. ..:..       :.  :.:..  .:    . .:   .:....   : .
+sp|Q5A NASVFHNNSSLLSNPSIMNSPRTTSTNLLNGNSPIVPNVTTNISLGATNTSNLSPWSSKS
+      1000      1010      1020      1030      1040      1050       
+
+                260       270       280       290         300      
+sp|Q1X DFNRL------FHGDSSVEPDSSVFEDGLAFDVLEGGDLSAF-PF-DSMVNFDSEPVTLE
+        .: :      : : ..    ...  .:..  : ..:..: :  : : .:.   . .   
+sp|Q5A RLNSLSNSTQPFIGGNQFTQTNTASFNGVGNAVQQSGNFSPFNAFSDPLVSDAFKAAGPA
+      1060      1070      1080      1090      1100      1110       
+
+        310       320       330       340                          
+sp|Q1X GIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC                     
+       :..    : . .. ..:. : :..: ::                                
+sp|Q5A GMNSNIWLNSSNVGNNSGNQSGISAPTTTSTNTSSRNNSIWGNTNPNKVTEPSLLNNNNN
+      1120      1130      1140      1150      1160      1170       
+
+>>sp|Q8W191|HYH_ARATH Transcription factor HY5-like OS=A  (149 aa)
+ s-w opt: 165  Z-score: 161.8  bits: 37.2 E(516081): 0.17
+Smith-Waterman score: 165; 35.2% identity (76.1% similar) in 71 aa overlap (73-143:68-138)
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+                                     :.:...  .:: : ..:.::::..:: .::
+sp|Q8W GSTCVLSSSADDGVNNPELDQTQNGVSTAKRRRGRNPVDKEYRSLKRLLRNRVSAQQARE
+        40        50        60        70        80        90       
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       ::.. .  ::..  .....:. : ...: .  ::. : ..:                   
+sp|Q8W RKKVYVSDLESRANELQNNNDQLEEKISTLTNENTMLRKMLINTRPKTDDNH        
+       100       110       120       130       140                 
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+
+>>sp|Q9TUB3|FOSB_CANFA Protein fosB OS=Canis familiaris   (338 aa)
+ s-w opt: 172  Z-score: 161.7  bits: 38.3 E(516081): 0.17
+Smith-Waterman score: 172; 28.8% identity (51.3% similar) in 191 aa overlap (72-237:145-332)
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+                                     ::... : .:.:.::..:  ::. ::   :
+sp|Q9T GGASGSGGPSTSGTTSGPGPARPARARLRRPREETLTPEEEEKRRVRRE-RNKLAAAKCR
+          120       130       140       150       160        170   
+
+             110       120       130       140       150       160 
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPG
+       .:.:   ..:. :  :.:...  : ....... :..::   :.      .    . : ::
+sp|Q9T NRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGCKIPYEEGPGPG
+           180       190       200       210       220       230   
+
+                                170       180       190            
+sp|Q1X S-------PATAS------------PTLTPTLFKQERDELPLERIPFPTPS----LSDYS
+               :..::            :   :  :.  .:  :     . : :    :.:  
+sp|Q9T PLAEVRDLPGSASTKEDGFSWLLPPPPAPPLPFQTSQDAAPNLTASLFTHSEVQVLGDPF
+           240       250       260       270       280       290   
+
+      200       210       220         230       240       250      
+sp|Q1X PTLKPSTLAESSDVAQHPAVSV-AGLE-GDGSALPLFDLGSDLKHHSTDDVAAPLSDDDF
+       :...::    :: :   : ::. :: .  .::  :   :.:                   
+sp|Q9T PVVNPSY--TSSFVLTCPEVSAFAGTQRPSGSDQPTDPLNSPSLLAL             
+           300         310       320       330                     
+
+        260       270       280       290       300       310      
+sp|Q1X NRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPD
+
+>>sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element-bind  (470 aa)
+ s-w opt: 174  Z-score: 160.9  bits: 38.7 E(516081): 0.19
+Smith-Waterman score: 174; 26.7% identity (52.6% similar) in 247 aa overlap (48-284:214-438)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q5F GGGDLQQHPLAASQLLGPGSGHCQELVLTEDEKKLLAKE---GVTLP---TQLPLTKY--
+           190       200       210       220             230       
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. :::.      ::: : ... ..: .: 
+sp|Q5F --EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLENRMSACTAQNQELQRKVLHLEKQNL
+           240       250       260       270       280       290   
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGSPATAS---------PTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ..    :.  ..          :...:  :  .. . : . ::
+sp|Q5F SLLEQLKHLQALVVQSTSKPAHAGTCIAVLLLSFVLIILPSISP--FTANKVDSPGDFIP
+           300       310       320       330         340       350 
+
+      190       200        210       220       230       240       
+sp|Q1X FPTPSLSDYSPTLKPSTLAE-SSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDV
+            .  .: ::.  . .. . ::.  : :  .  .:....:   : :. :.    :: 
+sp|Q5F -----VRVFSRTLHNHAASRVAPDVTPGPEVP-GPHKGSSGGLSA-DWGNFLEIPMLDD-
+                  360       370        380       390        400    
+
+       250       260       270       280       290       300       
+sp|Q1X AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+         :  . : . :  ..:. .   ... : .: . : :                       
+sp|Q5F --PTEELDNTTLVLANSTEDLGRATLLDWVASEPLLGQMGLEIPGEEIWLSWVPRWLRVR
+             410       420       430       440       450       460 
+
+       310       320       330       340     
+sp|Q1X IEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                             
+sp|Q5F VVQDALGVL                             
+             470                             
+
+>>sp|P0C5H8|KAPC_EMENI Putative transcription factor kap  (278 aa)
+ s-w opt: 169  Z-score: 160.5  bits: 37.8 E(516081):  0.2
+Smith-Waterman score: 169; 22.3% identity (51.2% similar) in 260 aa overlap (17-274:49-268)
+
+                             10        20        30        40      
+sp|Q1X               MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVK
+                                     : :    :. :.:: : .  .  ..   . 
+sp|P0C DHADQVLHDSLLAAQHLSQHPQQPRPQQPNAQPHHLQPTATTSPRDQNNIDPAISGGAML
+       20        30        40        50        60        70        
+
+         50        60        70        80        90       100      
+sp|Q1X PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL
+       :  . ::. . .  .: :            ::  ..     .:. .:::: .. :.::. 
+sp|P0C PPSQPPAQPEPTVEDETP------------KTYGKRPLSTSKRAAQNRAAQRAFRQRKES
+       80        90                   100       110       120      
+
+        110       120       130       140       150        160     
+sp|Q1X EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MPGSPAT
+        ..::: :...   . . . :. . ..::: .: . . .: ...  :....: .::.   
+sp|P0C YIRKLE-EQVK---EYEVMSQEYKALQAENYQLREYVINLQSRLLDSQGEVPELPGNIDL
+        130           140       150       160       170       180  
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+        .:          : :.    .: :.:         .:.  . :.     :  .:.  . 
+sp|P0C NQP----------RTEI---SVPQPAP---------RPGQAGASAPPQGSPQSQVSIAND
+                         190                200       210       220
+
+         230        240       250       260       270       280    
+sp|Q1X DGSALP-LFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEG
+       : ..:  . . :  ...: ...  : ::..   :  .:: ...:. .  :          
+sp|P0C DMNSLNRIAEAGLGMRKHPNEE--AFLSNNFQARRGRGDETADPSETKTEPPTHGLPMVS
+              230       240         250       260       270        
+
+          290       300       310       320       330       340    
+sp|Q1X GDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAG
+
+>>sp|P53539|FOSB_HUMAN Protein fosB OS=Homo sapiens GN=F  (338 aa)
+ s-w opt: 169  Z-score: 158.9  bits: 37.8 E(516081): 0.25
+Smith-Waterman score: 169; 25.7% identity (49.5% similar) in 222 aa overlap (9-222:76-290)
+
+                                     10         20        30       
+sp|Q1X                       MSCDMEKTMSSVDSLPATP-ASEVPVLTVSPAD---TS
+                                     .::. .  . : ::. ::  :.: :   ::
+sp|P53 GLGEMPGSFVPTVTAITTSQDLQWLVQPTLISSMAQSQGQPLASQPPV--VDPYDMPGTS
+          50        60        70        80        90         100   
+
+           40        50          60        70          80        90
+sp|Q1X LNSADVKTQEVKPEEKK--PAKKRKSWGQELPVPKTNLP--PRKRAKTEDEKEQRRIERV
+        ..  ..         .  :. .  . :     :    :  ::... : .:.:.::..: 
+sp|P53 YSTPGMSGYSSGGASGSGGPSTSGTTSGPGPARPARARPRRPREETLTPEEEEKRRVRRE
+           110       120       130       140       150       160   
+
+              100       110       120       130       140       150
+sp|Q1X LRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV
+        ::. ::   :.:.:   ..:. :  :.:...  : ....... :..::   :.      
+sp|P53 -RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAELQKEKERLEFVLVAHKPGC
+            170       180       190       200       210       220  
+
+              160       170       180       190       200       210
+sp|Q1X RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+       .    . : ::  : .     :     ..: .     : : : :   .    : .:. : 
+sp|P53 KIPYEEGPGPGPLAEVRDL--PGSAPAKEDGFSWLLPPPPPPPLPFQTSQDAPPNLTAS-
+            230       240         250       260       270          
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+        .  :  :.: :                                                
+sp|P53 -LFTHSEVQVLGDPFPVVNPSYTSSFVLTCPEVSAFAGAQRTSGSDQPSDPLNSPSLLAL
+      280       290       300       310       320       330        
+
+>>sp|P79702|FOS_CYPCA Proto-oncogene c-Fos OS=Cyprinus c  (347 aa)
+ s-w opt: 168  Z-score: 157.8  bits: 37.6 E(516081): 0.29
+Smith-Waterman score: 168; 21.7% identity (55.5% similar) in 299 aa overlap (6-291:39-319)
+
+                                        10        20           30  
+sp|Q1X                          MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPAD
+                                     : ..::.. .:.. : :  : :   :.:  
+sp|P79 DCDASSRCSTASAAAESVACYPLNQTQKFTELSVSSASFVPTVTAISSCPDLQWMVQPMV
+       10        20        30        40        50        60        
+
+             40        50        60        70        80        90  
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+       .:.  ..  ..  .:.   :  : .  : .   :..:   : .  . .:.:..:..:  :
+sp|P79 SSVAPSNGGARSYNPN---PYPKMRVTGTK--SPNSNKRARAEQLSPEEEEKKRVRRE-R
+       70        80           90         100       110       120   
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. ::   :.:.:   . :. :  ..:.... : . ....  :..::   ::       .
+sp|P79 NKMAAAKCRNRRRELTDTLQAETDELEDEKSALQNDIANLLKEKERLEFILA-------A
+            130       140       150       160       170            
+
+            160       170        180       190        200       210
+sp|Q1X SRANTPMPGSPATASPTLT-PTLFKQERDELPLERIPFPTPSLSD-YSPTLKPSTLAESS
+        .    .:.: ..  :. . : . .   . .     :  : : :. .: : . .... . 
+sp|P79 HKPICKIPSSSVSPIPAASVPEIHSITTSVVSTANAPVTTSSSSSLFSSTASTDSFGSTV
+         180       190       200       210       220       230     
+
+                      220       230       240       250       260  
+sp|Q1X DVAQ-HPAV-------SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+       .... .:..       . : ::  . ..:  ::.:.:  .. ... .: ...:.. :   
+sp|P79 EISDLEPTLEESLELLAKAELE-TARSVPDVDLSSSLYARDWESLYTP-ANNDLEPLCTP
+         240       250        260       270       280        290   
+
+            270       280       290       300       310       320  
+sp|Q1X DSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKT
+         .  :  ... ....:   :.   ..::                               
+sp|P79 VVTRTPACTTYTSSFTFTYPEN---DVFPSCGPVHRRGSSSNDQSSDSLNSPTLLTL   
+           300       310          320       330       340          
+
+>>sp|Q0D9R7|ARFS_ORYSJ Auxin response factor 19 OS=Oryza  (1161 aa)
+ s-w opt: 178  Z-score: 157.4  bits: 39.3 E(516081):  0.3
+Smith-Waterman score: 178; 22.4% identity (58.4% similar) in 250 aa overlap (1-237:530-774)
+
+                                             10        20        30
+sp|Q1X                               MSCDMEKTMSSVDSLPATPASEVPVLTVSP
+                                     .:   .. . ....:     :   .: .: 
+sp|Q0D NIQFNTPKLSQQMQPVNELAKAGIPLNQLGVSTKPQEQIHDASNLQRQQPSMNHMLPLSQ
+     500       510       520       530       540       550         
+
+               40        50        60        70        80        90
+sp|Q1X ADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERV
+       :.:.:..:.: .:.   ...  . . .. .   :.   .   ... . .....:.. ...
+sp|Q0D AQTNLGQAQVLVQNQMQQQHASSTQGQQPATSQPLLLPQQQQQQQQQQQQQQQQQQQQKL
+     560       570       580       590       600       610         
+
+              100            110        120        130       140   
+sp|Q1X LRNRAAAQTSRERKRL-----EMEKLENEKIQM-EQQNQF-LLQRLSQMEAENNRLSQQ-
+       :...      .....:     .. .: :...:. .:: :. :::.:.:..  .. :::  
+sp|Q0D LQQQQQQLLLQQQQQLSKMPAQLSSLANQQFQLTDQQLQLQLLQKLQQQQ--QSLLSQPA
+     620       630       640       650       660         670       
+
+              150       160       170        180       190         
+sp|Q1X --LAQLAAEVRGSRANTPMPGSPATASPTLTPT-LFKQERDELPLERIPFPTPSLSDYSP
+         ::::    . ..    :  .  . : ::.   .. :.  ..: .  :.: :  .. . 
+sp|Q0D VTLAQLPLIQEQQKLLLDMQ-QQLSNSQTLSQQQMMPQQSTKVPSQNTPLPLPVQQEPQQ
+       680       690        700       710       720       730      
+
+     200         210       220       230       240       250       
+sp|Q1X TL--KPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        :  : . ::..:..:  :..::  .   ::  ::.  :.                    
+sp|Q0D KLLQKQAMLADTSEAAVPPTTSVNVISTTGS--PLMTTGATHSVLTEEIPSCSTSPSTAN
+        740       750       760         770       780       790    
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|Q0D GNHLLQPILGRNKHCSMINTEKVPQSAAPMSVPSSLEAVTATPRMMKDSPKLNHNVKQSV
+          800       810       820       830       840       850    
+
+>>sp|P15407|FOSL1_HUMAN Fos-related antigen 1 OS=Homo sa  (271 aa)
+ s-w opt: 165  Z-score: 157.0  bits: 37.1 E(516081): 0.32
+Smith-Waterman score: 165; 28.3% identity (53.7% similar) in 205 aa overlap (44-232:72-263)
+
+            20        30        40        50        60        70   
+sp|Q1X SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR
+                                     . .: . .:.  : . :   : : .   : 
+sp|P15 NTMSGSQELQWMVQPHFLGPSSYPRPLTYPQYSPPQPRPGVIR-ALG---PPPGVRRRPC
+              50        60        70        80            90       
+
+            80        90       100              110       120      
+sp|Q1X KRAKTEDEKEQRRIERVLRNRAAAQTSRERKR-------LEMEKLENEKIQMEQQNQFLL
+       .. . :.: :.::..:  ::. ::   :.:..        : .:::.::  .... . : 
+sp|P15 EQISPEEE-ERRRVRRE-RNKLAAAKCRNRRKELTDFLQAETDKLEDEKSGLQREIEELQ
+       100        110        120       130       140       150     
+
+        130         140       150        160         170        180
+sp|Q1X QRLSQMEA--ENNRLSQQLAQLAAEV-RGSRANTPMPGSPATASP--TLTP-TLFKQERD
+       ..  ..:   : .:   .. . : :   :: ..:  : .:    :  .:.:  ... :  
+sp|P15 KQKERLELVLEAHRPICKIPEGAKEGDTGSTSGTSSPPAPCRPVPCISLSPGPVLEPEAL
+         160       170       180       190       200       210     
+
+              190       200          210       220       230       
+sp|Q1X ELPLERIPFPTPSLSDYSPTL---KPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+       . :     . ::::. ..:.:    :::  :    :.. . : .:   : :. ::     
+sp|P15 HTPTL---MTTPSLTPFTPSLVFTYPST-PEPCASAHRKSSSSSG---DPSSDPLGSPTL
+         220          230       240        250          260        
+
+       240       250       260       270       280       290       
+sp|Q1X DLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVN
+                                                                   
+sp|P15 LAL                                                         
+      270                                                          
+
+>>sp|Q5B3C8|NST1_EMENI Stress response protein nst1 OS=E  (1125 aa)
+ s-w opt: 176  Z-score: 155.8  bits: 39.0 E(516081): 0.37
+Smith-Waterman score: 176; 24.5% identity (55.0% similar) in 302 aa overlap (43-340:528-798)
+
+             20        30        40        50        60        70  
+sp|Q1X DSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP
+                                     :: : ::..  :...   .:    . .   
+sp|Q5B KKRLAKLAKDEEKARREAQKAAEEAAAKAEQERKLEEQRKKKEEQRKKRE---AERKAQE
+       500       510       520       530       540          550    
+
+             80        90       100       110       120       130  
+sp|Q1X RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM
+       ..::. : ::..:  :.  :.. : . .::.:. : .. :. : . ... ..  :. .: 
+sp|Q5B EERARKEAEKHKRLREERERQEEAERRQREQKEQEKKRREEAKRKEREERELREQKAKQE
+          560       570       580       590       600       610    
+
+              140       150       160        170       180         
+sp|Q1X EAEN--NRLSQQLAQLAAEVRGSRANTPMPGSPATASP-TLTPTLFKQERDELPLE-RIP
+       . ..  .. :..  . .:. ...:: . .: ::..  : . ::.. :      : . : :
+sp|Q5B RERKAQDEQSRRERERVAQEQAKRAPNLQPVSPVSPPPESATPVVSKAP---TPAKGRRP
+          620       630       640       650       660          670 
+
+      190       200       210       220       230       240        
+sp|Q1X FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVA
+           : :. ::  . :. ::.:.:. .   :.   ...::..: .  :  . :      .
+sp|Q5B SQQGSHSS-SPRSQ-SASAEASQVSPR---SAPLSQSSGSSIPKYGSGHPILHPHP---G
+              680        690          700       710       720      
+
+      250       260       270       280       290       300        
+sp|Q1X APLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGI
+       ::.:   ..:  :   .. :..    .::.     : .: ..:  :   ...    :.:.
+sp|Q5B APMSP--LGRT-H-PPGLSPSNPPGLSGLVPRPPMGHELPTYPPHSSPYMNQ----LRGF
+             730         740       750       760       770         
+
+      310       320       330       340                            
+sp|Q1X EMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC                       
+          .:.:         : ::....     :.:                            
+sp|Q5B PAPNGIP---------VLPGMNGTRPMPPGRGFPLDAPGIPFHAQPPFSGIFSPQPSGLP
+         780                790       800       810       820      
+
+sp|Q5B HGHSRQPSNSFERSPLDTSAQPFPISRPSPIKRPPSTQQEQRNSRRDVDDLSAQLGSSAL
+        830       840       850       860       870       880      
+
+>>sp|Q9WVS8|MK07_MOUSE Mitogen-activated protein kinase   (806 aa)
+ s-w opt: 173  Z-score: 155.7  bits: 38.5 E(516081): 0.38
+Smith-Waterman score: 173; 27.0% identity (51.0% similar) in 259 aa overlap (3-236:429-680)
+
+                                           10          20        30
+sp|Q1X                             MSCDMEKTMSSVDSLP--ATPASEVPVLTVSP
+                                     : ::   :   .::  . :: ..  ::..:
+sp|Q9W IRFQPSLQPVASEPVCPDVEMPSPWAPSGDCAME---SPPPALPPCSDPAPDTVDLTLQP
+      400       410       420       430          440       450     
+
+               40        50              60        70         80   
+sp|Q1X ADTSLNSADVKTQEVKPEEKKPA------KKRKSWGQELPVPKTNLP-PRKRAKTEDEKE
+       :  . . :  : . .  .. : :      :. .:  .. :    . : ::: . ......
+sp|Q9W APPASELAPPKREGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQR
+         460       470       480       490       500       510     
+
+            90       100       110       120       130        140  
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR-LSQQ
+       .:. .:  : :      ::..: : :. :     .   .   :  :  . ..:.: : ..
+sp|Q9W EREEKR--RRRQERAKEREKRRQERERKERGAGTLGGPSTDPLAGL--VLSDNDRSLLER
+         520         530       540       550         560       570 
+
+            150       160        170        180        190         
+sp|Q1X LAQLAAEVRGSRANTPMPG-SPATASPTLTPTL-FKQERDEL-PLERIPFPT--PSLSDY
+        ...:     . : .: :. .:..:.:: :::   .:    : :   :: :.  :     
+sp|Q9W WTRMARPPAPAPAPAPAPAPAPSSAQPTSTPTGPVSQSTGPLQPAGSIPGPASQPVCPPP
+             580       590       600       610       620       630 
+
+       200               210       220         230       240       
+sp|Q1X SPTLKPS--------TLAESSDVAQHPAVSVAGLEGDGS--ALPLFDLGSDLKHHSTDDV
+       .:. .:.        :   .: .:..  :  .:: :.:.  .:: :  :           
+sp|Q9W GPVPQPAGPIPAPLQTAPSTSLLASQSLVPPSGLPGSGAPEVLPYFPSGPPPPDPGLTPQ
+             640       650       660       670       680       690 
+
+       250       260       270       280       290       300       
+sp|Q1X AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+                                                                   
+sp|Q9W PSTSESPDVNLVTQQLSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVAD
+             700       710       720       730       740       750 
+
+>>sp|O97930|FOS_PIG Proto-oncogene c-Fos OS=Sus scrofa G  (380 aa)
+ s-w opt: 166  Z-score: 155.2  bits: 37.3 E(516081):  0.4
+Smith-Waterman score: 166; 28.4% identity (52.4% similar) in 250 aa overlap (9-237:55-297)
+
+                                     10        20           30     
+sp|Q1X                       MSCDMEKTMSSVDSLPATPASEV-PVLT--VSPADTSL
+                                     .:::. .:.. :  . : :   :.:. .: 
+sp|O97 DSLSYYHSPADSFSSMGSPVNAQDFCTDLAVSSVNFIPTVTAISISPDLQWLVQPTLVS-
+           30        40        50        60        70        80    
+
+          40            50        60        70            80       
+sp|Q1X NSADVKTQEVKP----EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTE----DEKEQRRI
+       . :  .:.  .:      .  : .: .  . .:  ...   : :.:.:    .:.:.:::
+sp|O97 SVAPSQTRAPHPYGVPTPSAGAYSRAGAVKTMPGGRAQSIGR-RGKVEQLSPEEEEKRRI
+            90       100       110       120        130       140  
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+       .:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::   
+sp|O97 RRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHR
+             150       160       170       180       190       200 
+
+       150       160       170          180          190       200 
+sp|Q1X AEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTL
+          .    .  .:   ..::  :.   :     : .:   :::   : : ::.    :. 
+sp|O97 PACKIPD-DLGFPEEMSVASLDLSGGLPEAATPESEEAFTLPLLNDPEPKPSVE---PVK
+              210       220       230       240       250          
+
+                210       220       230        240       250       
+sp|Q1X KPSTL---AESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFN
+       : :..   ::  :    :: :  :    . ..: .:: ::                    
+sp|O97 KVSSMELKAEPFDDFLFPASSRPGGSETARSVPDMDLSGSFYAADWEPLHGGSLGMGPMA
+       260       270       280       290       300       310       
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|O97 TELEPLCTPVVTCTPSCTAYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTL
+       320       330       340       350       360       370       
+
+>>sp|Q06507|ATF4_MOUSE Cyclic AMP-dependent transcriptio  (349 aa)
+ s-w opt: 165  Z-score: 155.0  bits: 37.1 E(516081): 0.41
+Smith-Waterman score: 165; 28.4% identity (61.5% similar) in 148 aa overlap (18-160:212-349)
+
+                            10        20        30          40     
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD--VKTQEV
+                                     ::...   . .:: .. :.: .   .:...
+sp|Q06 GSEVDISEGDRKPDSAAYITLIPPCVKEEDTPSDNDSGICMSP-ESYLGSPQHSPSTSRA
+             190       200       210       220        230       240
+
+           50        60        70          80        90       100  
+sp|Q1X KPEE-KKPAKKRKSWGQELPVPKTNLPP--RKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+        :..  .:. .: :     : ::   ::     ::.. :: ....... .:..::   :.
+sp|Q06 PPDNLPSPGGSRGS-----PRPKPYDPPGVSLTAKVKTEKLDKKLKKMEQNKTAATRYRQ
+              250            260       270       280       290     
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       .:: :.: : .:  ..:..:. : .. ...  :     : : .:  ::: .:..  .:  
+sp|Q06 KKRAEQEALTGECKELEKKNEALKEKADSLAKEI----QYLKDLIEEVRKARGQKRVP  
+         300       310       320           330       340           
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+
+>>sp|Q90370|MAFB_COTJA Transcription factor MafB OS=Cotu  (311 aa)
+ s-w opt: 161  Z-score: 152.2  bits: 36.5 E(516081): 0.59
+Smith-Waterman score: 161; 27.3% identity (62.6% similar) in 139 aa overlap (29-163:171-307)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     .:. .: .: ...:.. .   .. .. : :
+sp|Q90 HHQYPAVTHEDLAGSGHPHHHHHHHHHASPTPSTSSSSSQQLQTSHQQHPPSSSVEDRFS
+              150       160       170       180       190       200
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.::    .:.:  :.:.::. ::. : ..  . ..:::::
+sp|Q90 DDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSCRYKRVQQKHHLENEK
+              210       220       230         240       250        
+
+         120       130       140        150       160       170    
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLTPTL
+        :. :: . : :.....  : .  . .  .::..  : . ...  :.::           
+sp|Q90 TQLIQQVEQLKQEVTRLARERDAYKLKCEKLASNGFREAGSTSDNPSSPEFFM       
+      260       270       280       290       300       310        
+
+          180       190       200       210       220       230    
+sp|Q1X FKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+
+>>sp|Q90888|MAFB_CHICK Transcription factor MafB OS=Gall  (311 aa)
+ s-w opt: 161  Z-score: 152.2  bits: 36.5 E(516081): 0.59
+Smith-Waterman score: 161; 27.3% identity (62.6% similar) in 139 aa overlap (29-163:171-307)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     .:. .: .: ...:.. .   .. .. : :
+sp|Q90 HHQYPAVTHEDLAGSGHPHHHHHHHHQASPTPSTSSSSSQQLQTSHQQHPPSSSVEDRFS
+              150       160       170       180       190       200
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.::    .:.:  :.:.::. ::. : ..  . ..:::::
+sp|Q90 DDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSCRYKRVQQKHHLENEK
+              210       220       230         240       250        
+
+         120       130       140        150       160       170    
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLTPTL
+        :. :: . : :.....  : .  . .  .::..  : . ...  :.::           
+sp|Q90 TQLIQQVEQLKQEVTRLARERDAYKLKCEKLASNGFREAGSTSDNPSSPEFFM       
+      260       270       280       290       300       310        
+
+          180       190       200       210       220       230    
+sp|Q1X FKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+
+>>sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-bi  (461 aa)
+ s-w opt: 163  Z-score: 150.9  bits: 36.8 E(516081):  0.7
+Smith-Waterman score: 163; 26.4% identity (52.7% similar) in 201 aa overlap (48-236:218-404)
+
+        20        30        40        50        60        70       
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK
+                                     .:::   :.   :  ::   :.::  :   
+sp|Q68 SSGDLQQHHLGASYLLRPGAGHCQELVLTEDEKKLLAKE---GITLP---TQLPLTKY--
+       190       200       210       220          230              
+
+        80        90       100       110       120       130       
+sp|Q1X TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN
+         .:.  ..:.: .::. .:: ::..:.  .. ::..      ::: : ... ..: .: 
+sp|Q68 --EERVLKKIRRKIRNKQSAQESRKKKKEYIDGLETRMSACTAQNQELQRKVLHLEKQNL
+       240       250       260       270       280       290       
+
+       140       150       160                170       180        
+sp|Q1X RLSQQLAQLAAEVRGSRANTPMPGSPATAS---------PTLTPTLFKQERDELPLERIP
+        : .:: .: : :  : ... . :. ...          :...:  :  .. : : .  :
+sp|Q68 SLLEQLKKLQAIVVQSTSKSAQTGTCVAVLLLSFALIILPSISP--FGPNKTESPGDFAP
+       300       310       320       330       340         350     
+
+         190       200       210       220       230       240     
+sp|Q1X ---FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+          :     .: .  .  ...  :   . .: ....  :. ::  :  : :         
+sp|Q68 VRVFSRTLHNDAASRVAADAVPGSEAPGPRPEADTTREESPGS--PGADWGFQDTANLTN
+         360       370       380       390         400       410   
+
+         250       260       270       280       290       300     
+sp|Q1X DVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTL
+                                                                   
+sp|Q68 STEELDNATLVLRNATEGLGQVALLDWVAPGPSTGSGRAGLEAAGDEL            
+           420       430       440       450       460             
+
+>>sp|Q09926|PCR1_SCHPO Transcription factor pcr1 OS=Schi  (171 aa)
+ s-w opt: 154  Z-score: 150.5  bits: 35.3 E(516081): 0.73
+Smith-Waterman score: 154; 25.8% identity (55.8% similar) in 163 aa overlap (74-223:4-163)
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+                                     :. ...:::..: .:   ::: ::.  :..
+sp|Q09                            MTAKKKEVDDEKRRRILE---RNRIAASKFRQK
+                                          10           20        30
+
+           110       120       130       140            150        
+sp|Q1X KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL-----AQLAAEVRG-----S
+       :.  ...::.      .:.. :   :::.. :  ::..::      : ....:.     .
+sp|Q09 KKEWIKELEQTANAAFEQSKRLQLLLSQLQQEAFRLKSQLLAHQGCQCSVKIRSVLTDFQ
+               40        50        60        70        80        90
+
+           160       170          180       190       200       210
+sp|Q1X RANTPMPGSPATASPTLTP---TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+        :.. . ..  .  :.  :   .....  .  : .  :       .  : . ::.   .:
+sp|Q09 TAHNALHSQHMAYRPVQPPPGDNMLESVVSVSPTQMHPSLQGLPPNQHPQMPPSSQQPNS
+              100       110       120       130       140       150
+
+              220       230       240       250       260       270
+sp|Q1X DVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS
+       : .:.   :.:::                                               
+sp|Q09 DDVQQHMFSAAGLPRSLGGPI                                       
+              160       170                                        
+
+>>sp|O88778|BSN_RAT Protein bassoon OS=Rattus norvegicus  (3938 aa)
+ s-w opt: 181  Z-score: 150.4  bits: 39.8 E(516081): 0.74
+Smith-Waterman score: 181; 26.0% identity (55.7% similar) in 235 aa overlap (15-236:2294-2524)
+
+                               10        20        30        40    
+sp|Q1X                 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQE
+                                     :::  : : :. :..:  . .. : :    
+sp|O88 STIPPAEGPVYLGKPAAAKASGAGGPPRPELPAGGAREEPLSTTAPP-AVIKEAPVAQAP
+          2270      2280      2290      2300      2310       2320  
+
+           50        60        70        80          90       100  
+sp|Q1X VKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDE--KEQRRIERVLRNRAAAQTSRE
+       . :  .:::    . :.   :    .  ...:. ::.  :.:... .. :.:.  .  :.
+sp|O88 APPPGQKPAGDAAA-GSGSGVLGRPVMEKEEASQEDRQRKQQEQLLQLERERVELEKLRQ
+           2330       2340      2350      2360      2370      2380 
+
+            110          120        130        140       150       
+sp|Q1X RKRLEMEKLENEKIQME---QQNQFLLQR-LSQMEA-ENNRLSQQLAQLAAEVRGSRANT
+         ::. :.:: :.....   ...:.:.:: :..... ... :.::  .  :.   .: . 
+sp|O88 L-RLQ-EELERERVELQRHREEEQLLVQRELQELQTIKHHVLQQQQEERQAQFALQREQL
+              2390      2400      2410      2420      2430         
+
+       160       170       180       190        200       210      
+sp|Q1X PMPGSPATASPTLTPTLFKQERDELPLERIPFP-TPSLSDYSPTLKPSTLAESSDV---A
+        .          :   : .: ...   .. ::: :    . .:    . ::....     
+sp|O88 AQQRLQLEQIQQLQQQLQQQLEEQKQRQKAPFPATCEAPSRGPPPAATELAQNGQYWPPL
+    2440      2450      2460      2470      2480      2490         
+
+            220       230        240       250       260       270 
+sp|Q1X QHPA-VSVAGLEGDGSAL-PLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSS
+        : : ..::: :: :.:  :..  :                                   
+sp|O88 THTAFIAVAGTEGPGQAREPVLHRGLPSSASDMSLQTEEQWEAGRSGIKKRHSMPRLRDA
+    2500      2510      2520      2530      2540      2550         
+
+>>sp|Q8VCH8|UBXN4_MOUSE UBX domain-containing protein 4   (506 aa)
+ s-w opt: 163  Z-score: 150.1  bits: 36.8 E(516081): 0.77
+Smith-Waterman score: 163; 22.8% identity (51.4% similar) in 333 aa overlap (19-337:146-459)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     : :.   :  .:: ....:  .   :   .
+sp|Q8V KGEASVTNDNQSESSVSTPSASFEPDVCENPESKNTELCETPATSDIKSDTATGGECTGH
+         120       130       140       150       160       170     
+
+       50        60        70        80        90       100        
+sp|Q1X EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEM
+       ...  . .   .:.     :    :   : :...:..: :.. :.    .   ::..   
+sp|Q8V DSHSQEPHGCSNQRPAEDLTVRVERLTKKLEERREEKRKEEAQRE---IKKEIERRKTGK
+         180       190       200       210       220          230  
+
+      110       120       130           140       150       160    
+sp|Q1X EKLENEKIQMEQQNQFLLQRLSQMEAEN----NRLSQQLAQLAAEVRGSRANTPMPGSPA
+       : :. .. : :. .. .:.. :. .::.    .:..::.:   :: :..:      .  :
+sp|Q8V EMLDYKRKQEEELTKRMLEERSREKAEDRAARERIKQQIALDRAE-RAARFAKTKEAEAA
+            240       250       260       270        280       290 
+
+          170             180       190       200       210        
+sp|Q1X TASPTLTP---TLFKQE---RDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+        :.  ::    :  :.:   ::.  . :: :  :. :...  . ::  :   .. :  : 
+sp|Q8V KAAALLTKQAGTEVKRESTARDRSTIARIQFRLPDGSSFTNQF-PSD-APLEEARQFAAQ
+             300       310       320       330         340         
+
+      220       230           240       250       260       270    
+sp|Q1X SVAGLEGDGSALPLFD----LGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+       .:..  :. :   .:        : :..  :   :: .  .   :  :    .: .:. .
+sp|Q8V TVGNTYGNFSLATMFPRREFTREDYKRRLLDLELAPSA--SVVLLPAG----RPATSIVH
+     350       360       370       380         390           400   
+
+          280       290       300       310       320       330    
+sp|Q1X DGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTT
+       .. . :.        .:: ..  . :.      . ...  : .:. ...:..:. .::..
+sp|Q8V SS-SGDIWTLLGTVLYPFLAIWRLISN------FLFSNPPPAQTSARATSTEPSNSASSS
+            410       420             430       440       450      
+
+          340                                            
+sp|Q1X RCDGQGIAAGC                                       
+       . .                                               
+sp|Q8V KSEKREPVRKRMLEKRGEDFKKEGKIYRLRTQDDGEDENNTWNGNSTQQM
+        460       470       480       490       500      
+
+>>sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-bi  (370 aa)
+ s-w opt: 160  Z-score: 149.9  bits: 36.3 E(516081): 0.79
+Smith-Waterman score: 160; 29.7% identity (56.5% similar) in 138 aa overlap (18-146:119-256)
+
+                            10        20           30         40   
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVP-VLTVS--PADTSLNSAD-VKTQ
+                                     :::  :: . :::  :.:.  .    :.:.
+sp|Q9D EVVYDSGTLQGTQREAGPTFGLISIQIDQWTPALMVPDACTVSGLPSDSHRHILPRVSTR
+       90       100       110       120       130       140        
+
+            50             60        70        80        90        
+sp|Q1X EVKPEEKKPAKKRKSW-----GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQ
+          :    :. ... .      : :     .:: .      .:.  ..:.: .::. .::
+sp|Q9D APAPPAAMPSCQHHLFLTDEEKQLLAQEGITLPSHLPLTKAEERILKKIRRKIRNKQSAQ
+      150       160       170       180       190       200        
+
+      100       110       120       130       140       150        
+sp|Q1X TSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP
+        ::.::.  .. ::..     .::: : ......: .:  : .:. ::            
+sp|Q9D DSRRRKKEYLDGLESRVAACSEQNQKLQRKVQELERQNIFLMEQVRQLQKLTAQTSSRAA
+      210       220       230       240       250       260        
+
+      160       170       180       190       200       210        
+sp|Q1X MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+                                                                   
+sp|Q9D QTSTCVLILLFSLALIILPSFSPFQGQSEARPEDYQLHGVISRNILTHENVTENLESPVL
+      270       280       290       300       310       320        
+
+>>sp|A4R2R1|NST1_MAGGR Stress response protein NST1 OS=M  (1319 aa)
+ s-w opt: 171  Z-score: 149.9  bits: 38.1 E(516081): 0.79
+Smith-Waterman score: 171; 22.7% identity (56.7% similar) in 194 aa overlap (43-227:675-868)
+
+             20        30        40        50        60        70  
+sp|Q1X DSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP
+                                     :. : ::.:  :. .  ..:    . .   
+sp|A4R AQAEEKARKDAEKAAEEAERLAEEQRRQEEQRQKNEERKKKKEAQRKAEEEERQRKEAER
+          650       660       670       680       690       700    
+
+             80          90         100       110        120       
+sp|Q1X RKRAKTEDEK--EQRRIERVLRNRA--AAQTSRERKRLEMEKLENE-KIQMEQQNQFLLQ
+        .::. . :.  :: :  :  ...   : . ...:..   :  : : . . :. ..  :.
+sp|A4R LRRAQEQKERQAEQDRKAREAKEKEKKAKEEAKQREKAARELKEREARERKEKADKERLE
+          710       720       730       740       750       760    
+
+       130        140       150       160          170       180   
+sp|Q1X RLSQMEAENN-RLSQQLAQLAAEVRGSRANTPMPGSPA---TASPTLTPTLFKQERDELP
+       . ....::.. : .:. :. :..   . ::.:.: .::   . .:. .:.: ....  . 
+sp|A4R KEAKIKAEKEAREAQRKAERASQKATTLANVPVPTGPARRQSQAPNPAPALPQSQQASVA
+          770       780       790       800       810       820    
+
+           190       200       210       220       230       240   
+sp|Q1X LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHS
+         ..:  .:.:       ::   ...   ..  :.. .  .: :                
+sp|A4R SPQLPTAVPALPKLPTPQKPRRTSQQEPFTSGFAAQQVHGQGAGQYPAPPKAATPVHTSP
+          830       840       850       860       870       880    
+
+           250       260       270       280       290       300   
+sp|Q1X TDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPV
+                                                                   
+sp|A4R GPGGLLSKGSSSQGQSLHSQATSPLGTSLPTSTSLPTPFGMPHPPPNQHYPPGIGPLNAP
+          890       900       910       920       930       940    
+
+>>sp|P18848|ATF4_HUMAN Cyclic AMP-dependent transcriptio  (351 aa)
+ s-w opt: 159  Z-score: 149.4  bits: 36.1 E(516081): 0.85
+Smith-Waterman score: 159; 31.6% identity (64.3% similar) in 98 aa overlap (66-160:258-351)
+
+          40        50        60        70           80        90  
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR---AKTEDEKEQRRIERVLR
+                                     ::   :: ..   ::.. :: ....... .
+sp|P18 YLGSPQHSPSTRGSPNRSLPSPGVLCGSARPKPYDPPGEKMVAAKVKGEKLDKKLKKMEQ
+       230       240       250       260       270       280       
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :..::   :..:: :.: : .:  ..:..:. : .: ...  :     : : .:  ::: 
+sp|P18 NKTAATRYRQKKRAEQEALTGECKELEKKNEALKERADSLAKEI----QYLKDLIEEVRK
+       290       300       310       320       330           340   
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       .:..  .:                                                    
+sp|P18 ARGKKRVP                                                    
+           350                                                     
+
+>>sp|O88479|FOS_MESAU Proto-oncogene c-Fos OS=Mesocricet  (381 aa)
+ s-w opt: 159  Z-score: 148.7  bits: 36.1 E(516081): 0.92
+Smith-Waterman score: 159; 25.9% identity (49.0% similar) in 247 aa overlap (2-237:57-298)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|O88 LSYYHSPADSFSSMGSPVNAQDFCTDLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|O88 PSQTRAPHPYGVPTPSTGAYSRAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|O88 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:    .::  ::   :     : .:   :::   : : :::   .   .
+sp|O88 ACKIPD-DLGFPEEMFVASLDLTGGLPEATTPESEEAFSLPLLNDPEPKPSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220        230        240       250       260
+sp|Q1X PSTLAESSDVAQHPAVSV-AGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLF
+           ::  :    :: :  .: :  . ..: .:: ::                       
+sp|O88 VELKAEPFDDFLFPASSRPSGSETTARSVPDMDLSGSFYAADWEPLHSSSLGMGPMVTEL
+             270       280       290       300       310       320 
+
+              270       280       290       300       310       320
+sp|Q1X HGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTC
+                                                                   
+sp|O88 EPLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL
+             330       340       350       360       370       380 
+
+>>sp|A5PKJ4|MK07_BOVIN Mitogen-activated protein kinase   (781 aa)
+ s-w opt: 165  Z-score: 148.5  bits: 37.1 E(516081): 0.94
+Smith-Waterman score: 165; 27.0% identity (48.0% similar) in 244 aa overlap (3-236:429-655)
+
+                                           10        20        30  
+sp|Q1X                             MSCDMEKTMSSVDSLPATPASEVPVLTVSPAD
+                                     : ::.   .    :. :: ..  ::..:  
+sp|A5P IRFQPSLQPVASEPGCPDVEMPSPWAPSGDCAMESPPPAPLPCPG-PAPDTIDLTLQPPP
+      400       410       420       430       440        450       
+
+             40        50              60        70         80     
+sp|Q1X TSLNSADVKTQEVKPEEKKPA------KKRKSWGQELPVPKTNLP-PRKRAKTEDEKEQR
+        . . :  : . .  .. : :      :. .:  .. :    . : ::: . .......:
+sp|A5P PASEPAPPKKEGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQRER
+       460       470       480       490       500       510       
+
+          90       100       110       120       130       140     
+sp|Q1X RIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQ
+       . .:  : :      ::..: : :. :         .   :  :  . ..:.:   .: .
+sp|A5P EEKR--RRRQERAKEREKRRQERERKERGAGVSGGPSADPLAGL--VLSDNDR---SLLE
+       520         530       540       550         560          570
+
+         150       160       170        180       190       200    
+sp|Q1X LAAEVRGSRANTPMPGSPATASPTLTPTL-FKQERDELPLERIPFPTPSLSDYSPTLKPS
+            : .:   :   .:::: :   :.    :    ::    : :.:. .   :.  :.
+sp|A5P -----RWTRMAQPPAPAPATARPPSPPAGPATQPTGPLPQPACPPPAPAAG---PA-APQ
+                   580       590       600       610           620 
+
+          210       220         230       240       250       260  
+sp|Q1X TLAESSDVAQHPAVSVAGLEGDG--SALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHG
+       : : :. .: .: :   :: : .  :.:: :  :                          
+sp|A5P TTAASGLLAPQPLVPPPGLPGPSALSVLPYFPSGPPPPDPGGAPQPSTSESPDVTLVTQQ
+             630       640       650       660       670       680 
+
+            270       280       290       300       310       320  
+sp|Q1X DSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKT
+                                                                   
+sp|A5P LSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVADGPQDGQADSASLSAS
+             690       700       710       720       730       740 
+
+>>sp|Q1DQC1|PAN1_COCIM Actin cytoskeleton-regulatory com  (1485 aa)
+ s-w opt: 170  Z-score: 148.0  bits: 37.9 E(516081):    1
+Smith-Waterman score: 170; 23.6% identity (51.8% similar) in 284 aa overlap (5-265:989-1264)
+
+                                         10        20              
+sp|Q1X                           MSCDMEKTMSSVDSLPATPASEVP----------
+                                     . .  : : : :  :.:. :          
+sp|Q1D RQEREKREKEERRRRAEEEDAKREAERQKRLAQEKSPVTSPPPKPSSKKPPPPPSRKVRT
+      960       970       980       990      1000      1010        
+
+            30        40        50        60        70        80   
+sp|Q1X -VLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKE
+        :     :  . .:. ..  ... :::. : :... .::    . .    :: . :  .:
+sp|Q1D DVTESVEAKKAEDSVVASKARAEQEEKERALKQEQEAQEAERKQLE-DEAKRQEEELARE
+     1020      1030      1040      1050      1060       1070       
+
+            90         100       110       120       130           
+sp|Q1X QRRIERVLR--NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR---
+       ..  .  ::  .. . : . .... . .: . ::   :.. ..  :: ...:: . :   
+sp|Q1D KEAAQARLRALEEQVRQGKIKKQEEKRRKQQAEKEAKEKEARLAAQR-AELEAAQARERE
+      1080      1090      1100      1110      1120       1130      
+
+      140       150       160       170          180       190     
+sp|Q1X LSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDELPLERIPFPTPSLS
+       :..:: ... :  .:  . :.  .: :..:: .   :. : :     :   .: :. .  
+sp|Q1D LQRQLENMGEEESSSDDEGPIEITPQTSTPTQSQVLPAPFPQPSP--PTAALPVPAIQEP
+       1140      1150      1160      1170      1180        1190    
+
+         200       210       220       230       240       250     
+sp|Q1X DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPL----
+       : . . .::    :   . .:. ..   : . :  : :    .:...:. ..: :     
+sp|Q1D DQDVAREPSPTLPSPVETPEPVKQTLPPETE-SRNPYF---RQLSQQSAPSAAQPTHEMQ
+         1200      1210      1220       1230         1240      1250
+
+             260       270       280       290       300       310 
+sp|Q1X SDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMA
+       : . :.:: . .:.                                              
+sp|Q1D STNPFHRLAQQESTSKSAFTTDATVPGPLERKSRVRPEEDDWSAAESENESDEDDDRVAG
+             1260      1270      1280      1290      1300      1310
+
+>>sp|P01101|FOS_MOUSE Proto-oncogene c-Fos OS=Mus muscul  (380 aa)
+ s-w opt: 158  Z-score: 147.8  bits: 35.9 E(516081):    1
+Smith-Waterman score: 158; 25.2% identity (48.8% similar) in 246 aa overlap (2-237:57-297)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|P01 LSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   . :: .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|P01 PSQTRAPHPYGLPTQSAGAYARAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|P01 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:   ..::  ::   :     : .:   :::   : : :::   .   .
+sp|P01 ACKIPD-DLGFPEEMSVASLDLTGGLPEASTPESEEAFTLPLLNDPEPKPSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220       230        240       250       260 
+sp|Q1X PSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLFH
+           ::  :    :: :  .    . ..:  :: ::                        
+sp|P01 VELKAEPFDDFLFPASSRPSGSETSRSVPDVDLSGSFYAADWEPLHSNSLGMGPMVTELE
+             270       280       290       300       310       320 
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+                                                                   
+sp|P01 PLCTPVVTCTPGCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL 
+             330       340       350       360       370       380 
+
+>>sp|Q6NW59|ATF4_DANRE Cyclic AMP-dependent transcriptio  (339 aa)
+ s-w opt: 157  Z-score: 147.8  bits: 35.8 E(516081):    1
+Smith-Waterman score: 157; 22.5% identity (63.8% similar) in 138 aa overlap (18-154:204-338)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     ::  :  .   : .:....   :. . .. 
+sp|Q6N APQDEHTEVPVLHPAGIMLSLSPSHIVVLLTPKEEQNISDCSDSDSGIS---VSGSPAHQ
+           180       190       200       210       220          230
+
+        50        60        70        80        90       100       
+sp|Q1X EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE
+        . .:... : ...  :  .  :  : ....   : ....... .:..::   :..::.:
+sp|Q6N SDLEPSSRAKPYSRPDPEASPALKGRVKTSSGAPKVEKKLKKMEQNKTAATRYRQKKRVE
+              240       250       260       270       280       290
+
+       110       120       130       140        150       160      
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL-AAEVRGSRANTPMPGSPATA
+       .:.:..:  ..:..:. : .. ...  : . : . : .. .:. : :.            
+sp|Q6N QESLNSECSELEKKNRELSEKADSLSREIQYLRDLLEEMRTAKQRKSKR           
+              300       310       320       330                    
+
+        170       180       190       200       210       220      
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGD
+
+>>sp|Q76LL6|FHOD3_MOUSE FH1/FH2 domain-containing protei  (1578 aa)
+ s-w opt: 170  Z-score: 147.5  bits: 37.9 E(516081):  1.1
+Smith-Waterman score: 170; 25.1% identity (52.5% similar) in 259 aa overlap (7-235:509-759)
+
+                                       10        20        30      
+sp|Q1X                         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN
+                                     :.  ..:.:: .: :   ... .  :. : 
+sp|Q76 GGTSGPEASRPAARLLPPSPGLATRPSTAPKVSPTIDKLPYVPHSPFHLFSYDFEDSPLL
+      480       490       500       510       520       530        
+
+         40        50        60        70        80        90      
+sp|Q1X SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL-----
+       . : :  . . :..    . .:. .  : :  .  :   ..  . .. :     :     
+sp|Q76 TKD-KGGDSQTENRYSNFSSNSFQSSRPSPGPSGSPSYASSFSSPQDTRSSPSGLLTSSF
+      540        550       560       570       580       590       
+
+              100       110       120           130       140      
+sp|Q1X -RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF----LLQRLSQMEAENNRLSQQLAQL
+        ... .  . :::.: : :. . ..:. :..:.:    : .:  : .:...:  . : ::
+sp|Q76 RQHQESLAAERERRRQEREE-RLQRIEREERNKFNREYLDKREEQRQARGERY-KYLEQL
+       600       610        620       630       640        650     
+
+                  150           160        170       180       190 
+sp|Q1X AAE----------VRGSRANTPM----PGSPATASPT-LTPTLFKQERDELPLERIPFPT
+       :::          :  .::.  .    :..::  ::.  .:.  .::   ::.   : ::
+sp|Q76 AAETQEKEPRSQSVSRGRADLSLDLSLPAAPAPPSPSSQSPSADSQE--ALPVPSSP-PT
+         660       670       680       690       700         710   
+
+                  200       210       220       230       240      
+sp|Q1X ---PSLS--DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDD
+          :..:  :. : :.  .   .....:  : .  : :.  .  :...:           
+sp|Q76 LQCPQVSGKDHEPELEAEAGQGADEASQDIASAHRGAES--QEEPVLELEPEERASLSEK
+            720       730       740       750         760       770
+
+        250       260       270       280       290       300      
+sp|Q1X VAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLE
+                                                                   
+sp|Q76 ERQNEEVNERDNCSASSISSSSSTLEREEKEDKLSEDRATGLWSTSLQDVGVNGQCGDIL
+              780       790       800       810       820       830
+
+>>sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive element-bi  (395 aa)
+ s-w opt: 158  Z-score: 147.5  bits: 35.9 E(516081):  1.1
+Smith-Waterman score: 158; 29.3% identity (56.0% similar) in 150 aa overlap (54-199:192-329)
+
+            30        40        50        60         70        80  
+sp|Q1X PVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEK
+                                     ....  ::: . .: ..::  :     .:.
+sp|Q8T AHAHILPRAGTVAPVPCTTLLPCQTLFLTDEEKRLLGQEGVSLP-SHLPLTK----AEER
+             170       180       190       200        210          
+
+             90       100       110       120       130       140  
+sp|Q1X EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ
+         ....: .::. .:: ::.::.  .. ::..      ::: : ......: .:  :  :
+sp|Q8T VLKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSAQNQELQKKVQELERHNISLVAQ
+        220       230       240       250       260       270      
+
+            150       160       170       180          190         
+sp|Q1X LAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF---PTPSLSDYSP
+       : :: . .    :.:   .. : .:  .   ::.     ::    ::   :  .  ::.:
+sp|Q8T LRQLQTLI----AQTS--NKAAQTSTCVLILLFSLALIILP-SFSPFQSRPEAGSEDYQP
+        280             290       300       310        320         
+
+     200       210       220       230       240       250         
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRL
+                                                                   
+sp|Q8T HGVTSRNILTHKDVTENLETQVVESRLREPPGAKDANGSTRTLLEKMGGKPRPSGRIRSV
+     330       340       350       360       370       380         
+
+>>sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF2 OS  (401 aa)
+ s-w opt: 158  Z-score: 147.4  bits: 35.9 E(516081):  1.1
+Smith-Waterman score: 158; 28.6% identity (61.3% similar) in 119 aa overlap (80-198:195-312)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     : .. .:..:.: :: .:. ::.::. .: 
+sp|Q99 QVKSTTSGSSRDHSDDDDELEGETETTRNGDPSDAKRVRRMLSNRESARRSRRRKQAHMT
+          170       180       190       200       210       220    
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT
+       .::..  :.. .:. ::.::...  . :  . .   : :...  ::.. :    .     
+sp|Q99 ELETQVSQLRVENSSLLKRLTDISQRYNDAAVDNRVLKADIETMRAKVKMAEETVKRVTG
+          230       240       250       260       270       280    
+
+     170       180       190       200       210       220         
+sp|Q1X LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSA
+       :.: .:..  .:.    .   . : :: :                               
+sp|Q99 LNP-MFQSMSSEISTIGMQSFSGSPSDTSADTTQDGSKQHFYQPAPTSHMPAQDQKIQNG
+           290       300       310       320       330       340   
+
+>>sp|Q5R9C9|ATF7_PONAB Cyclic AMP-dependent transcriptio  (483 aa)
+ s-w opt: 159  Z-score: 146.8  bits: 36.1 E(516081):  1.2
+Smith-Waterman score: 159; 26.1% identity (62.7% similar) in 153 aa overlap (26-168:277-424)
+
+                    10        20        30        40          50   
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV--KPEEKKPA
+                                     ..:. :.: ...   ..: .  .:.  .::
+sp|Q5R PSGHPIPSEAKMRLKATLTHQVSSINGGCGMVVGSASTMVTARPEQSQILIQHPDAPSPA
+        250       260       270       280       290       300      
+
+            60        70        80        90       100       110   
+sp|Q1X KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN
+       . . : .:  :.:.:.   :.:  .... ..:: . . ::::::.  :....: . .::.
+sp|Q5R QPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEK
+        310         320         330       340       350       360  
+
+           120       130       140               150       160     
+sp|Q1X EKIQMEQQNQFLLQRLSQMEAENNRLSQQL--------AQLAAEVRGSRANTPMPGSPAT
+       .  .. .::  : .... .. :  .:.: :        . :  ...:   ..:  .:  :
+sp|Q5R KAEELTSQNIQLSNEVTLLRNEVAQLKQLLLAHKDCPVTALQKKTQG-YLESPKESSEPT
+            370       380       390       400        410       420 
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+       .::                                                         
+sp|Q5R GSPAPVIQHSSATAPSNGLSVRSAAEAVATSVLTQMASQRTELSMPIQSHVIMTPQSQSA
+             430       440       450       460       470       480 
+
+>>sp|P17544|ATF7_HUMAN Cyclic AMP-dependent transcriptio  (494 aa)
+ s-w opt: 159  Z-score: 146.6  bits: 36.1 E(516081):  1.2
+Smith-Waterman score: 159; 26.1% identity (62.7% similar) in 153 aa overlap (26-168:288-435)
+
+                    10        20        30        40          50   
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV--KPEEKKPA
+                                     ..:. :.: ...   ..: .  .:.  .::
+sp|P17 PSGHPIPSEAKMRLKATLTHQVSSINGGCGMVVGTASTMVTARPEQSQILIQHPDAPSPA
+       260       270       280       290       300       310       
+
+            60        70        80        90       100       110   
+sp|Q1X KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN
+       . . : .:  :.:.:.   :.:  .... ..:: . . ::::::.  :....: . .::.
+sp|P17 QPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEK
+       320         330         340       350       360       370   
+
+           120       130       140               150       160     
+sp|Q1X EKIQMEQQNQFLLQRLSQMEAENNRLSQQL--------AQLAAEVRGSRANTPMPGSPAT
+       .  .. .::  : .... .. :  .:.: :        . :  ...:   ..:  .:  :
+sp|P17 KAEELTSQNIQLSNEVTLLRNEVAQLKQLLLAHKDCPVTALQKKTQG-YLESPKESSEPT
+           380       390       400       410       420        430  
+
+         170       180       190       200       210       220     
+sp|Q1X ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG
+       .::                                                         
+sp|P17 GSPAPVIQHSSATAPSNGLSVRSAAEAVATSVLTQMASQRTELSMPIQSHVIMTPQSQSA
+            440       450       460       470       480       490  
+
+>>sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive element-bi  (395 aa)
+ s-w opt: 157  Z-score: 146.6  bits: 35.8 E(516081):  1.2
+Smith-Waterman score: 157; 29.3% identity (56.0% similar) in 150 aa overlap (54-199:192-329)
+
+            30        40        50        60         70        80  
+sp|Q1X PVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEK
+                                     ....  ::: . .: ..::  :     .:.
+sp|Q5U AHAHILPRAGTLAPVPCTTLLPCQTLFLTDEEKRLLGQEGVSLP-SHLPLTK----AEER
+             170       180       190       200        210          
+
+             90       100       110       120       130       140  
+sp|Q1X EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ
+         ....: .::. .:: ::.::.  .. ::..      ::: : ......: .:  :  :
+sp|Q5U VLKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSAQNQELQKKVQELERHNISLVAQ
+        220       230       240       250       260       270      
+
+            150       160       170       180          190         
+sp|Q1X LAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF---PTPSLSDYSP
+       : :: . .    :.:   .. : .:  .   ::.     ::    ::   :  .  ::.:
+sp|Q5U LRQLQTLI----AQTS--NKAAQTSTCVLILLFSLALIILP-SFSPFQGRPEAGPEDYQP
+        280             290       300       310        320         
+
+     200       210       220       230       240       250         
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRL
+                                                                   
+sp|Q5U HGVTSRNILTHKDITENLETQVVESRLREPPEAKDANDSTRTLLEKMGGKPRPSGRIGTV
+     330       340       350       360       370       380         
+
+>>sp|P51145|FOSL2_RAT Fos-related antigen 2 OS=Rattus no  (327 aa)
+ s-w opt: 155  Z-score: 146.2  bits: 35.4 E(516081):  1.3
+Smith-Waterman score: 155; 23.1% identity (55.9% similar) in 229 aa overlap (12-216:38-261)
+
+                                  10        20           30        
+sp|Q1X                    MSCDMEKTMSSVDSLPATPASEVPVL---TVSPAD------
+                                     :: .:.. .. .:..   :..  :      
+sp|P51 NFDTSSRGSSGSPAHAESYSSGGGGQQKFRVD-MPGSGSAFIPTINAITTTSQDLQWMVQ
+        10        20        30         40        50        60      
+
+              40        50        60              70          80   
+sp|Q1X -TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPPRKRAK--TEDEKE
+        : ..: .    . .:    :. .     . :: :       :..  :.: .  . .:.:
+sp|P51 PTVITSMSNPYPRSHPYSPLPGLRSVPGHMALPRPGVIKTIGTTVGRRRRDEQLSPEEEE
+         70        80        90       100       110       120      
+
+            90       100       110       120       130       140   
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL
+       .:::.:  ::. ::   :.:.:   :::..:  ..:.... : ....... :...:  .:
+sp|P51 KRRIRRE-RNKLAAAKCRNRRRELTEKLQTETEELEEEKSGLQKEIAELQKEKEKLEFML
+        130        140       150       160       170       180     
+
+           150          160         170       180       190        
+sp|Q1X AQLAAEVRGS---RANTPMPGSPAT--ASPTLTPTLFKQERDELPLERIPFPTPSLSDYS
+       .  .   . :   : ..:  :  .   .. .. :.. :::    : :  :  . ...  .
+sp|P51 VAHGPVCKISPEERRSSPTSGVQSLRGTGSAVGPVVVKQEP---PEEDSPSSSAGMDKTQ
+         190       200       210       220          230       240  
+
+      200        210       220       230       240       250       
+sp|Q1X PT-LKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        . .:: ..: ..  ...:                                         
+sp|P51 RSVIKPISIAGGGFYGEEPLHTPIVVTSTPAITPGTSNLVFTYPSVLEQESPASPSESCS
+            250       260       270       280       290       300  
+
+>>sp|P01100|FOS_HUMAN Proto-oncogene c-Fos OS=Homo sapie  (380 aa)
+ s-w opt: 156  Z-score: 146.0  bits: 35.6 E(516081):  1.3
+Smith-Waterman score: 156; 28.2% identity (51.6% similar) in 248 aa overlap (9-237:55-297)
+
+                                     10        20           30     
+sp|Q1X                       MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPADTSL
+                                     .::.. .:.. : :  : :   :.:: .: 
+sp|P01 DSLSYYHSPADSFSSMGSPVNAQDFCTDLAVSSANFIPTVTAISTSPDLQWLVQPALVS-
+           30        40        50        60        70        80    
+
+          40        50        60        70                 80      
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR-----KRAKTE----DEKEQRR
+       . :  .:.  .:    :: .  ....   : ::    :     .:.:.:    .:.:.::
+sp|P01 SVAPSQTRAPHPF-GVPAPSAGAYSRA-GVVKTMTGGRAQSIGRRGKVEQLSPEEEEKRR
+            90        100        110       120       130       140 
+
+         90       100       110       120       130       140      
+sp|Q1X IERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL
+       :.:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::  
+sp|P01 IRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAH
+              150       160       170       180       190       200
+
+        150       160       170          180          190       200
+sp|Q1X AAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPT
+           .    .  .:   ..::  ::   : .   : .:   :::   : : ::.   .  
+sp|P01 RPACKIPD-DLGFPEEMSVASLDLTGGLPEVATPESEEAFTLPLLNDPEPKPSVEPVKSI
+               210       220       230       240       250         
+
+              210       220       230        240       250         
+sp|Q1X LKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRL
+        .    .:  :    :: :  .    . ..: .:: ::                      
+sp|P01 SSMELKTEPFDDFLFPASSRPSGSETARSVPDMDLSGSFYAADWEPLHSGSLGMGPMATE
+     260       270       280       290       300       310         
+
+     260       270       280       290       300       310         
+sp|Q1X FHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETT
+                                                                   
+sp|P01 LEPLCTPVVTCTPSCTAYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLA
+     320       330       340       350       360       370         
+
+>>sp|Q03173|ENAH_MOUSE Protein enabled homolog OS=Mus mu  (802 aa)
+ s-w opt: 162  Z-score: 145.5  bits: 36.6 E(516081):  1.4
+Smith-Waterman score: 162; 25.9% identity (52.1% similar) in 259 aa overlap (9-254:105-350)
+
+                                     10        20        30        
+sp|Q1X                       MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSA
+                                     : ... : .  :..  : :..  .:.:   
+sp|Q03 QTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVLNSQEAAQSKV-TATQDSTNLRCI
+           80        90       100       110       120        130   
+
+       40        50        60         70        80        90       
+sp|Q1X DVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA
+              . . . ::. ... .:: : . . .:  ..: : : :.:. . ::. :.:   
+sp|Q03 FCGPTLPRQNSQLPAQVQNGPSQEELEIQRRQLQEQQRQK-ELERERMERERLERERLER
+           140       150       160       170        180       190  
+
+       100       110       120       130        140       150      
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAE-NNRLSQQLAQLAAEV----RG
+       .   ::.:::.:.:: .. . :. ...  .:: ..: : ..:  ..: ::  :     : 
+sp|Q03 ERL-ERERLEQEQLERQRQEREHVERLERERLERLERERQERERERLEQLEREQVEWERE
+             200       210       220       230       240       250 
+
+            160       170        180       190            200      
+sp|Q1X SRANTPMPGSPATASPTLTPTLFK-QERDELPLERIPFPTPSLSDYSP-----TLKPSTL
+        : ..  :.: .. : .  :   . :  .  :       .  .:: .:     :  : : 
+sp|Q03 RRMSNAAPSSDSSLSSAPLPEYSSCQPPSAPPPSYAKVISAPVSDATPDYAVVTALPPTS
+             260       270       280       290       300       310 
+
+        210       220       230        240       250       260     
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSAL-PLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSS
+       .  .   .: :.  :   . :::. :.      : :..:  :  ::. .           
+sp|Q03 TPPTPPLRHAATRFA--TSLGSAFHPV------LPHYAT--VPRPLNKNSRPSSPVNTPS
+             320         330             340         350       360 
+
+         270       280       290       300       310       320     
+sp|Q1X VEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSV
+                                                                   
+sp|Q03 SQPPAAKSCAWPTSNFSPLPPSPPIMISSPPGKATGPRPVLPVCVSSPVPQMPPSPTAPN
+             370       380       390       400       410       420 
+
+>>sp|Q9Y5Q3|MAFB_HUMAN Transcription factor MafB OS=Homo  (323 aa)
+ s-w opt: 154  Z-score: 145.4  bits: 35.3 E(516081):  1.4
+Smith-Waterman score: 154; 28.6% identity (57.1% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  :: .   
+sp|Q9Y AYPGAGVAHDELGPHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHATASATAAGG
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|Q9Y NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|Q9Y RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|Q9Y PSSPEFFL                                                    
+         320                                                       
+
+>>sp|Q9R1S4|XBP1_RAT X-box-binding protein 1 OS=Rattus n  (267 aa)
+ s-w opt: 152  Z-score: 145.1  bits: 34.9 E(516081):  1.5
+Smith-Waterman score: 152; 27.6% identity (56.4% similar) in 163 aa overlap (51-190:23-183)
+
+               30        40        50        60              70    
+sp|Q1X SEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPP-R
+                                     .::.  ..    .: :.      .. :  :
+sp|Q9R         MVVVAAAPSAASAAPKVLLLSGQPASGGRALPLMVPGPRAAGSEASGTPQAR
+                       10        20        30        40        50  
+
+             80        90       100       110       120            
+sp|Q1X KRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQ-------FL
+       :: . :.   :.. ..: :.::.::::.:.::. .: .::.. ...:..::       .:
+sp|Q9R KRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQKLQLENQLL
+             60        70        80        90       100       110  
+
+         130       140               150       160       170       
+sp|Q1X LQRLSQMEAENNRLSQQLAQLA--------AEVRGSRANTPMPGSPATASPTLTPTLFKQ
+        ..   .  ::..:  .:.. :        :: .:. .   . ::  .:.  :   : .:
+sp|Q9R REKTHGLVIENQELRTRLGMNALVTEEVSEAESKGNGVRL-VAGSAESAALRLRAPL-QQ
+            120       130       140       150        160        170
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+        . .:   .  ::                                               
+sp|Q9R VQAQLSPPQNIFPWILTLLPLQILSLISFWAFWTSWTLSCFSNVLPQSLLIWRNSQRSTQ
+              180       190       200       210       220       230
+
+>>sp|P01102|FOS_MSVFB p55-v-Fos-transforming protein OS=  (381 aa)
+ s-w opt: 155  Z-score: 145.0  bits: 35.4 E(516081):  1.5
+Smith-Waterman score: 155; 25.2% identity (48.8% similar) in 246 aa overlap (2-237:57-297)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|P01 LSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTVTATSTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   . :: .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|P01 PSQTRAPHPYGLPTQSAGAYARAEMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|P01 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDKKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:   ..::  ::   :     : .:   :::   : : :::   .   .
+sp|P01 ACKIPD-DLGFPEEMSVASLDLTGGLPEASTPESEEAFTLPLLNDPEPKPSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220       230        240       250       260 
+sp|Q1X PSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLFH
+           ::  :    :: :  .    . ..:  :: ::                        
+sp|P01 VELKAEPFDDFLFPASSRPSGSETSRSVPNVDLSGSFYAADWEPLHSNSLGMGPMVTELE
+             270       280       290       300       310       320 
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+                                                                   
+sp|P01 PLCTPVVTCTPLLRLPELTHAAGPVSSQRRQGSRHPDVPLPELVHYREEKHVFPQRFPST
+             330       340       350       360       370       380 
+
+>>sp|P10158|FOSL1_RAT Fos-related antigen 1 OS=Rattus no  (275 aa)
+ s-w opt: 152  Z-score: 144.8  bits: 34.9 E(516081):  1.5
+Smith-Waterman score: 152; 27.1% identity (53.6% similar) in 207 aa overlap (44-232:74-267)
+
+            20        30        40        50        60        70   
+sp|Q1X SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR
+                                     . .: . .:.  : . :   : : .   : 
+sp|P10 NAVSGSQELQWMVQPHFLGPSGYPRPLTYPQYSPPQPRPGVIR-ALG---PPPGVRRRPC
+            50        60        70        80            90         
+
+            80        90       100              110       120      
+sp|Q1X KRAKTEDEKEQRRIERVLRNRAAAQTSRERKR-------LEMEKLENEKIQMEQQNQFLL
+       .. . :.: :.::..:  ::. ::   :.:..        : .:::.::  .... . : 
+sp|P10 EQISPEEE-ERRRVRRE-RNKLAAAKCRNRRKELTDFLQAETDKLEDEKSGLQREIEELQ
+     100        110        120       130       140       150       
+
+        130         140       150       160            170         
+sp|Q1X QRLSQMEA--ENNRLSQQLAQLAAEVRGSRANTPMPGSP-ATASP----TLTP-TLFKQE
+       ..  ..:   : .:   .. .   .  :. ..:   ::: .   :    .:.:  ... :
+sp|P10 KQKERLELVLEAHRPICKIPEEDKKDTGGTSSTSGAGSPPGPCRPVPCISLSPGPVLEPE
+       160       170       180       190       200       210       
+
+      180       190       200          210       220       230     
+sp|Q1X RDELPLERIPFPTPSLSDYSPTL---KPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL
+         . :     . ::::. ..:.:    :::  :  . :.. . : .:   : :. ::   
+sp|P10 ALHTPTL---MTTPSLTPFTPSLVFTYPST-PEPCSSAHRKSSSSSG---DPSSDPLGSP
+       220          230       240        250       260          270
+
+         240       250       260       270       280       290     
+sp|Q1X GSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSM
+                                                                   
+sp|P10 TLLAL                                                       
+                                                                   
+
+>>sp|Q6Y7W8|PERQ2_MOUSE PERQ amino acid-rich with GYF do  (1291 aa)
+ s-w opt: 165  Z-score: 144.5  bits: 37.1 E(516081):  1.6
+Smith-Waterman score: 165; 24.2% identity (51.3% similar) in 273 aa overlap (13-267:284-545)
+
+                                 10          20        30        40
+sp|Q1X                   MSCDMEKTMSSVDSLPA--TPASEVPVLTVSPADTSLNSADV
+                                     ::::      .:  . : . . . :.   :
+sp|Q6Y RRFEFDFRDRDDERGYRRVRSGSGSIDDDRDSLPEWCLEDAEEEMGTFDSSGAFLSLKKV
+           260       270       280       290       300       310   
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+       . . . :::..   .    :.:     ..    ..::  :. ..:. :..  .::.:..:
+sp|Q6Y QKEPI-PEEQEMDFRPVEEGEER--SDSDSSHNEEAKEPDKTNRREGEKT--DRAGAEAS
+            320       330         340       350       360          
+
+                       110       120       130          140        
+sp|Q1X RE---------RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN---NRLSQQLAQLAA
+       .:         :     ..  .:  :.:....   ... . : ::   : :: .. . . 
+sp|Q6Y EEVPQTSLSSARPGTPSDHQPQEATQFERKDEPKAEQVEKAEEENRSENSLSAKVPSRGD
+      370       380       390       400       410       420        
+
+      150         160       170         180       190       200    
+sp|Q1X EV--RGSRANTPMPGSPATASPTL--TPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS
+       :.   ... .::.:  : :::: :  .: .        :.:     .:..:. :   .:.
+sp|Q6Y ETVPASQQPSTPLP--PDTASPLLILSPPVPTPSSASRPVETAAVEAPGMSSVST--EPD
+      430       440         450       460       470       480      
+
+          210       220       230       240       250       260    
+sp|Q1X TLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDS
+            . . :.    :: :.   :::    : : :..: .  :. ::  . ... .. : 
+sp|Q6Y DEEGLKHLEQQAEKMVAYLQD--SALDDERLTSKLQEHRAKGVSIPLMHEAMQKWYYKDP
+          490       500         510       520       530       540  
+
+          270       280       290       300       310       320    
+sp|Q1X SVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSS
+       . :                                                         
+sp|Q6Y QGEIQGPFNNQEMAEWFQAGYFTMSLLVKRACDESFQPLGDIMKMWGRVPFSPGPAPPPH
+            550       560       570       580       590       600  
+
+>>sp|P15408|FOSL2_HUMAN Fos-related antigen 2 OS=Homo sa  (326 aa)
+ s-w opt: 153  Z-score: 144.4  bits: 35.1 E(516081):  1.6
+Smith-Waterman score: 153; 24.9% identity (54.1% similar) in 233 aa overlap (4-222:39-253)
+
+                                          10         20        30  
+sp|Q1X                            MSCDMEKTMSS-VDSLPATPASEVPVLTVSPAD
+                                     ::  . :. . .. :  .:.     :.:  
+sp|P15 FDTSSRGSSGSPAHAESYSSGGGGQQKFRVDMPGSGSAFIPTINAITTSQDLQWMVQP--
+       10        20        30        40        50        60        
+
+             40        50        60              70          80    
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPPRKRAK--TEDEKEQ
+       : ..: .    . .:    :.       . :: :       :..  :.: .  . .:.:.
+sp|P15 TVITSMSNPYPRSHPYSPLPGLASVPGHMALPRPGVIKTIGTTVGRRRRDEQLSPEEEEK
+         70        80        90       100       110       120      
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       :::.:  ::. ::   :.:.:   :::. :  ..:.... : ....... :...:  .:.
+sp|P15 RRIRRE-RNKLAAAKCRNRRRELTEKLQAETEELEEEKSGLQKEIAELQKEKEKLEFMLV
+        130        140       150       160       170       180     
+
+          150          160         170       180       190         
+sp|Q1X QLAAEVRGS---RANTPMPG-SPA-TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSP
+         .   . :   : . : :: .:  ... ..  .. :::    :::          . ::
+sp|P15 AHGPVCKISPEERRSPPAPGLQPMRSGGGSVGAVVVKQE----PLE----------EDSP
+         190       200       210       220                     230 
+
+     200       210       220       230       240       250         
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRL
+       . . . : ...  . .: .:.::                                     
+sp|P15 SSSSAGLDKAQRSVIKP-ISIAGGFYGEEPLHTPIVVTSTPAVTPGTSNLVFTYPSVLEQ
+             240        250       260       270       280       290
+
+>>sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive element-bi  (428 aa)
+ s-w opt: 155  Z-score: 144.1  bits: 35.4 E(516081):  1.7
+Smith-Waterman score: 155; 26.8% identity (54.0% similar) in 198 aa overlap (8-199:138-322)
+
+                                      10        20        30       
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVSP---ADTS
+                                     :. . ..  : ::.  : :::.    . : 
+sp|Q50 VSQTQHSLNINFPFDFNGWETGFLPDQAGGTQCASETPQAQPATGFP-LTVKDLLLSGTP
+       110       120       130       140       150        160      
+
+           40        50        60        70        80        90    
+sp|Q1X LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR
+        ..: :. :  .       .::    . . .:. ..:  :     .:.  ..:.: .::.
+sp|Q50 ETAAKVSQQSYQELILTEDEKRLLAKEGMTLPN-QFPLTKY----EERILKKIRRKIRNK
+        170       180       190        200           210       220 
+
+          100       110       120       130       140       150    
+sp|Q1X AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR
+        .:: ::..:.  .. ::..      .:. : ... :.:  :  : .:: .: : : .. 
+sp|Q50 QSAQESRKKKKEYIDGLESRMAACSAHNHELQRKVFQLEKCNISLMEQLRRLQALVMNG-
+             230       240       250       260       270       280 
+
+          160       170       180       190          200       210 
+sp|Q1X ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS---DYSPTLKPSTLAESSD
+       .: :. ..  .    :. ::.      ::  . ::   ..:   :.::            
+sp|Q50 SNKPVQAGTCVLVLLLSFTLIL-----LPNLK-PFTDTKVSQHGDFSPMRVQSRSLHNLQ
+              290       300             310       320       330    
+
+             220       230       240       250       260       270 
+sp|Q1X VAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSS
+                                                                   
+sp|Q50 SSRVLRNLDHPYSMTENAKILPRFPEDKTMEEIASLLGRLHRRPQFTEYDPESHNHSFDQ
+          340       350       360       370       380       390    
+
+>>sp|A2R346|KAPC_ASPNC Putative transcription factor kap  (283 aa)
+ s-w opt: 151  Z-score: 143.7  bits: 34.7 E(516081):  1.8
+Smith-Waterman score: 151; 22.5% identity (52.1% similar) in 213 aa overlap (16-223:44-236)
+
+                              10        20           30         40 
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVL---TVSPAD-TSLNSADVK
+                                     :  :... : .   :.:: : .... :   
+sp|A2R QTSAQDHADQVLHDQLLAAHQHLSHPQQARPQGPTAQPPHMQPNTTSPRDQNNIDPAISG
+            20        30        40        50        60        70   
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       .  ..   . : . . . ::: :            ::  ..     .:. .:::: .. :
+sp|A2R AAMLSGPPQTPPQPEPT-GQESP------------KTYGKRPLSTSKRAAQNRAAQRAFR
+            80        90                    100       110       120
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MP
+       .::.  ..:::..  .... :.     ..:..::: .: . . .: ...  :....: .:
+sp|A2R QRKESYIRKLEEQVKEFDNTNE----TMKQLQAENYQLREYIINLQSRLLDSQGEVPELP
+              130       140           150       160       170      
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+       :.    .:    ..        :    : : :. .  .  .     : . :. .   ..:
+sp|A2R GNIDLNQPRNDISV---PPPGAPAATGPAPGPGGAPQQMQVPNPGAATNEDMNSLNRIAV
+        180       190          200       210       220       230   
+
+              230       240       250       260       270       280
+sp|Q1X AGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFD
+       :::                                                         
+sp|A2R AGLGMRKHPNEEANFLGNNFQARRPRNDDGQPDGSEATKTEPGHGLPVVS          
+           240       250       260       270       280             
+
+>>sp|Q2PFS4|MAFB_MACFA Transcription factor MafB OS=Maca  (323 aa)
+ s-w opt: 152  Z-score: 143.6  bits: 34.9 E(516081):  1.8
+Smith-Waterman score: 152; 28.6% identity (57.1% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  :: .   
+sp|Q2P AYPGAGVAHDELGPHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHATASATAAGG
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|Q2P NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|Q2P RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAHKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|Q2P PSSPEFFL                                                    
+         320                                                       
+
+>>sp|Q8R0S1|ATF7_MOUSE Cyclic AMP-dependent transcriptio  (413 aa)
+ s-w opt: 154  Z-score: 143.4  bits: 35.2 E(516081):  1.8
+Smith-Waterman score: 154; 27.5% identity (67.5% similar) in 120 aa overlap (26-143:277-392)
+
+                    10        20        30        40          50   
+sp|Q1X      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV--KPEEKKPA
+                                     ..:. :.: ...   ..: .  .:.  .::
+sp|Q8R PSGHPMPSEAKMRLKATLTHQVSSINGGCGMVVGTASTMVTARPEQNQILIQHPDAPSPA
+        250       260       270       280       290       300      
+
+            60        70        80        90       100       110   
+sp|Q1X KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN
+       . . : .:  :.:.:.   :.:  .... ..:: . . ::::::.  :....: . .::.
+sp|Q8R QPQVSPAQ--PTPSTG--GRRRRTVDEDPDERRQRFLERNRAAASRCRQKRKLWVSSLEK
+        310         320         330       340       350       360  
+
+           120       130       140       150       160       170   
+sp|Q1X EKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPT
+       .  .. .::  : .... .. :  .:.: :                              
+sp|Q8R KAEELTSQNIQLSNEVTLLRNEVAQLKQLLLAHKDCPVTALQKKTQGYLGK         
+            370       380       390       400       410            
+
+>>sp|P48755|FOSL1_MOUSE Fos-related antigen 1 OS=Mus mus  (273 aa)
+ s-w opt: 150  Z-score: 143.0  bits: 34.6 E(516081):  1.9
+Smith-Waterman score: 150; 26.9% identity (53.4% similar) in 208 aa overlap (44-232:72-265)
+
+            20        30        40        50        60        70   
+sp|Q1X SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR
+                                     . .: . .:.  : . :   : : .   : 
+sp|P48 SIDSSSQELHWMVQPHFLGPTGYPRPLAYPQYSPPQPRPGVIR-ALG---PPPGVRRRPC
+              50        60        70        80            90       
+
+            80        90       100              110       120      
+sp|Q1X KRAKTEDEKEQRRIERVLRNRAAAQTSRERKR-------LEMEKLENEKIQMEQQNQFLL
+       .. . :.: :.::..:  ::. ::   :.:..        : .:::.::  .... . : 
+sp|P48 EQISPEEE-ERRRVRRE-RNKLAAAKCRNRRKELTDFLQAETDKLEDEKSGLQREIEELQ
+       100        110        120       130       140       150     
+
+        130         140       150             160       170        
+sp|Q1X QRLSQMEA--ENNRLSQQLAQLAAEVRGSRANT------PMPGSPATASPTLTP-TLFKQ
+       ..  ..:   : .:   .. .   .  :. ..:      : :: :.    .:.:  ... 
+sp|P48 KQKERLELVLEAHRPICKIPEGDKKDPGGSGSTSGASSPPAPGRPVPCI-SLSPGPVLEP
+         160       170       180       190       200        210    
+
+       180       190       200          210       220       230    
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTL---KPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+       :  . :     . ::::. ..:.:    :::  :  . :.. . : .:   : :. ::  
+sp|P48 EALHTPTL---MTTPSLTPFTPSLVFTYPST-PEPCSSAHRKSSSSSG---DPSSDPLGS
+          220          230       240        250          260       
+
+          240       250       260       270       280       290    
+sp|Q1X LGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDS
+                                                                   
+sp|P48 PTLLAL                                                      
+       270                                                         
+
+>>sp|Q9UQ88|CD11A_HUMAN Cell division protein kinase 11A  (780 aa)
+ s-w opt: 159  Z-score: 143.0  bits: 36.1 E(516081):  1.9
+Smith-Waterman score: 159; 28.9% identity (56.1% similar) in 173 aa overlap (42-208:92-255)
+
+              20        30        40        50        60        70 
+sp|Q1X VDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP
+                                     ... : ...:  :....: ..  : . .  
+sp|Q9U IRNSPYRREDSMEDRGEEDDSLAIKPPQQMSRKEKVHHRKDEKRKEKW-KHARVKEREHE
+              70        80        90       100        110       120
+
+              80        90       100          110       120        
+sp|Q1X PRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEM--EKLENEKIQMEQQNQFLLQR
+        ::: . :..: .:. ::  : . : . :: :: :::.  .: : :. . :::..   :.
+sp|Q9U RRKRHREEQDKARREWERQKRREMAREHSRRERDRLEQLERKRERERKMREQQKEQREQK
+              130       140       150       160       170       180
+
+      130       140        150         160       170       180     
+sp|Q1X LSQMEAENNRLSQQLA-QLAAEVRGSRAN--TPMPGSPATASPTLTPTLFKQERDELPLE
+         . .::. :  ..   ...:. :  : .    . .:  . ::   :    .:: ::   
+sp|Q9U ERERRAEERRKEREARREVSAHHRTMREDYSDKVKASHWSRSPPRPP----RERFELGDG
+              190       200       210       220           230      
+
+         190       200       210       220       230       240     
+sp|Q1X RIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTD
+       :     :. .  .:. ::. : :                                     
+sp|Q9U R----KPGEARPAPAQKPAQLKEEKMEERDLLSDLQDISDSERKTSSAESSSAESGSGSE
+            240       250       260       270       280       290  
+
+>>sp|Q16520|BATF_HUMAN Basic leucine zipper transcriptio  (125 aa)
+ s-w opt: 143  Z-score: 142.8  bits: 33.4 E(516081):    2
+Smith-Waterman score: 143; 28.6% identity (56.2% similar) in 112 aa overlap (71-172:17-125)
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+                                     :: :. ...:    ::..:  .:: ::: :
+sp|Q16               MPHSSDSSDSSFSRSPPPGKQDSSDDV---RRVQRREKNRIAAQKS
+                             10        20           30        40   
+
+              110       120       130       140       150       160
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP
+       :.:.  . . :. :. ..:.::  : ....:.  : . ... : .         :.:: :
+sp|Q16 RQRQTQKADTLHLESEDLEKQNAALRKEIKQLTEELKYFTSVLNSHEPLCSVLAASTPSP
+            50        60        70        80        90       100   
+
+                        170       180       190       200       210
+sp|Q1X G----------SPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+                  .: ..:: . :                                      
+sp|Q16 PEVVYSAHAFHQPHVSSPRFQP                                      
+           110       120                                           
+
+>>sp|Q0CEI3|KAPC_ASPTN Putative transcription factor kap  (286 aa)
+ s-w opt: 150  Z-score: 142.7  bits: 34.6 E(516081):    2
+Smith-Waterman score: 150; 23.4% identity (53.7% similar) in 214 aa overlap (14-223:37-240)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     : :  :  ..:  ...:   . :.:. . :
+sp|Q0C PAPHPSMQTSAQDHADQVLHDQLLAAHQHLSHPQQPRPQAP--ATQPPHMQPNTASPRDQ
+         10        20        30        40          50        60    
+
+             50        60        70         80        90       100 
+sp|Q1X E-VKPEEKKPAKKRKSWGQELPVPKTNLP-PRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       . . :  .  :      :    .:    : :..  ::  ..     .:. .:::: .. :
+sp|Q0C NNIDPAISGSAI----LGAPPQTPPQPEPAPQESPKTYGKRPLSTSKRAAQNRAAQRAFR
+           70            80        90       100       110       120
+
+             110       120       130       140       150        160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MP
+       .::.  ..:::.   :...: . . .. . ..::: .: . . .: ...  :....: .:
+sp|Q0C QRKESYIRKLEE---QVKHQ-EAITEEYKALHAENYQLREYIINLQTRLLDSQGEVPELP
+              130           140       150       160       170      
+
+              170       180        190       200       210         
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERI-PFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.    .:    ::   : ..       : :.    . :   . . .. ..:. .   ..
+sp|Q0C GNIDLNQPRADLTLSAPELQRGNAASAGPAPAGPGPQQSQPNQNQGVGPNDDMNSLNRIA
+        180       190       200       210       220       230      
+
+     220       230       240       250       260       270         
+sp|Q1X VAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       ::::                                                        
+sp|Q0C VAGLGMRKHPNEDANYLGNNFQARRPRTDDNQTGATETTKQEPDGLPVVS          
+        240       250       260       270       280                
+
+>>sp|P54842|MAFB_RAT Transcription factor MafB OS=Rattus  (323 aa)
+ s-w opt: 151  Z-score: 142.6  bits: 34.7 E(516081):    2
+Smith-Waterman score: 151; 27.9% identity (57.8% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  .: .  .
+sp|P54 GYPGAGVTHDELGPHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHAAAAATAAGS
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|P54 NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|P54 RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|P54 PSSPEFFL                                                    
+         320                                                       
+
+>>sp|P29747|CREBA_DROME Cyclic AMP response element-bind  (516 aa)
+ s-w opt: 155  Z-score: 142.6  bits: 35.4 E(516081):    2
+Smith-Waterman score: 155; 30.4% identity (55.4% similar) in 148 aa overlap (8-150:370-508)
+
+                                      10        20          30     
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVS--PADTSL
+                                     : ::  :  :. .:   ..:..  :  : :
+sp|P29 LSPNATVSISVANPAGGESSVRVSRTAASITRSSSGSASASGSSTSSTVTTTRQPIHTPL
+     340       350       360       370       380       390         
+
+          40           50        60        70        80        90  
+sp|Q1X NSADVKTQE---VKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+        :.. : .    .  ::.:    :   ..  :.:. .::  :     .::  ..:.: ..
+sp|P29 ISSQPKGSTGTLLLTEEEK----RTLLAEGYPIPQ-KLPLTK----AEEKSLKKIRRKIK
+     400       410           420       430            440       450
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       :. .:: ::..:.  :..:: .   .  .:.   .::  .:  :  : .:: .: : :  
+sp|P29 NKISAQESRRKKKEYMDQLERRVEILVTENHDYKKRLEGLEETNANLLSQLHKLQALVSK
+              460       470       480       490       500       510
+
+            160       170       180       190       200       210  
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+                                                                   
+sp|P29 HNVKKS                                                      
+                                                                   
+
+>>sp|P47930|FOSL2_MOUSE Fos-related antigen 2 OS=Mus mus  (326 aa)
+ s-w opt: 151  Z-score: 142.6  bits: 34.7 E(516081):    2
+Smith-Waterman score: 151; 24.0% identity (56.3% similar) in 229 aa overlap (4-216:39-260)
+
+                                          10         20        30  
+sp|Q1X                            MSCDMEKTMSS-VDSLPATPASEVPVLTVSPAD
+                                     ::  . :. . .. :  .:.     :.:  
+sp|P47 FDTSSRGSSGSPAHAESYSSGGGGQQKFRVDMPGSGSAFIPTINAITTSQDLQWMVQP--
+       10        20        30        40        50        60        
+
+             40        50        60              70          80    
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPPRKRAK--TEDEKEQ
+       : ..: .    . .:    :.       . :: :       :..  :.: .  . .:.:.
+sp|P47 TVITSMSNPYPRSHPYSPLPGLASVPGHMALPRPGVIKTIGTTVGRRRRDEQLSPEEEEK
+         70        80        90       100       110       120      
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLS-QQL
+       :::.:  ::. ::   :.:.:   :::. :  ..:.... : ....... :...:  ...
+sp|P47 RRIRRE-RNKLAAAKCRNRRRELTEKLQAETEELEEEKSGLQKEIAELQKEKEKLEFMKV
+        130        140       150       160       170       180     
+
+                150       160       170       180       190        
+sp|Q1X A-----QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYS
+       :     ... : : :  .. . .  .:.: .. :.. :::    : :  :  . ...  .
+sp|P47 AHGPVCKISPEERRSPPTSGLQSLRGTGS-AVGPVVVKQEP---PEEDSPSSSAGMDKTQ
+         190       200       210        220          230       240 
+
+      200        210       220       230       240       250       
+sp|Q1X PT-LKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        . .:: ..: ..  ...:                                         
+sp|P47 RSVIKPISIAGGGFYGEEPLHTPIVVTSTPAITPGTSNLVFTYPNVLEQESPSSPSESCS
+             250       260       270       280       290       300 
+
+>>sp|Q63ZM7|STABP_XENLA STAM-binding protein-like OS=Xen  (416 aa)
+ s-w opt: 153  Z-score: 142.4  bits: 35.1 E(516081):  2.1
+Smith-Waterman score: 153; 29.8% identity (53.0% similar) in 181 aa overlap (39-210:79-238)
+
+       10        20        30        40        50        60        
+sp|Q1X MSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKT
+                                     : :: .: ::.:.  :: :    :.  ::.
+sp|Q63 VYSGEGSIENAFILYNKYITLFIEKLPKHRDYKTANV-PEKKETLKKLK----EIAFPKA
+       50        60        70        80         90           100   
+
+            70        80        90          100       110       120
+sp|Q1X N-----LPPRKRAKTEDEKEQRRIERVLRNRAAA---QTSRERKRLEMEKLENEKIQMEQ
+       .     :  : . . :. .:..: :.  : :  :   : . :..:. . : ..:  :.::
+sp|Q63 EELKKELHKRYKKEYEEYSEKQRKEEEERARRLALQQQLDAEKQRVALLKQQQE--QQEQ
+           110       120       130       140       150         160 
+
+               130       140       150       160       170         
+sp|Q1X QNQFL-LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQER
+        . :  ..: ...:::  :. .:...   :..    ..:.   :.   : .:: :     
+sp|Q63 VQAFEEMMRRKELEAERLRILHQFSKDEPEAEP--LGSPL--IPGMNEPPVTPLL-----
+             170       180       190           200       210       
+
+     180       190       200       210       220       230         
+sp|Q1X DELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL
+          :      : :   : :  ::::. . .:                             
+sp|Q63 ---PSYGTVQPHPPAVDRS--LKPSSYGSNSSGVTSDGLRHVKIPRDVCCKFLQLSENNT
+               220         230       240       250       260       
+
+     240       250       260       270       280       290         
+sp|Q1X KHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFD
+                                                                   
+sp|Q63 QRGVETCGILCGKLLQNEFTVTHVIVPKQSGGPDYCNTESEEELFLIQDQQGLITLGWIH
+       270       280       290       300       310       320       
+
+>>sp|Q91496|FOS_TETFL Proto-oncogene c-Fos OS=Tetraodon   (374 aa)
+ s-w opt: 152  Z-score: 142.4  bits: 34.9 E(516081):  2.1
+Smith-Waterman score: 152; 24.1% identity (56.4% similar) in 241 aa overlap (15-248:47-278)
+
+                               10        20        30         40   
+sp|Q1X                 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN-SADVKTQ
+                                     : :. :: ::..:.  .. .:.  ..  ..
+sp|Q91 SASPSDNVYYPSPAGSYSSMGSPQSQDLTDLTASSASFVPTVTAISTSPDLQWMVQPLVS
+         20        30        40        50        60        70      
+
+            50         60        70            80        90        
+sp|Q1X EVKPEEK-KPAKKRKSWGQELPVPKTNLPPRKRAKTE----DEKEQRRIERVLRNRAAAQ
+        : : .. .: .   :. . .    .. :  ::...:    .:.:..::.:  ::. :: 
+sp|Q91 SVAPSRRAHPYSPSPSYKRTVMRSGASKPHAKRGRVEQTTPEEEEKKRIRRE-RNKQAAA
+         80        90       100       110       120        130     
+
+      100       110       120       130       140       150        
+sp|Q1X TSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR-GSRANT
+         :.:.:   ..:. :  :.: ... : . ....  :..::   ::      .  :. ..
+sp|Q91 KCRNRRRELTDSLQAETDQLEAEKSSLQNDIANLLKEKERLEFILAAHQPICKIPSQMDS
+         140       150       160       170       180       190     
+
+       160       170       180       190       200       210       
+sp|Q1X PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPA
+        .:   .. ::  . . ..   .  :   .:  :   :..:   . :.   .:.  .   
+sp|Q91 DFP--VVSMSP--VHAYLSTAASTQPQTSVPEATTVTSSHSTFTSTSNSIFGSN--SDSL
+           200         210       220       230       240           
+
+       220       230       240       250       260       270       
+sp|Q1X VSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGL
+       .:.: .  . :.. . :: :.. ..: : .:                             
+sp|Q91 LSTATV--SDSVVKMTDLESSVLEESLDLLAKTEVETVEVPDVNLSSSLYTAQDWEPLHA
+     250         260       270       280       290       300       
+
+       280       290       300       310       320       330       
+sp|Q1X AFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCD
+                                                                   
+sp|Q91 TIGSSDFEPLCTPVVTCTPACTTITSSFVFTFPEAETFPTCCVAHRRGSNSNDQSSDSLS
+       310       320       330       340       350       360       
+
+>>sp|O35426|XBP1_MOUSE X-box-binding protein 1 OS=Mus mu  (267 aa)
+ s-w opt: 149  Z-score: 142.3  bits: 34.4 E(516081):  2.1
+Smith-Waterman score: 149; 27.0% identity (57.7% similar) in 163 aa overlap (51-190:23-183)
+
+               30        40        50        60              70    
+sp|Q1X SEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK------TNLPP-R
+                                     .::.  ..    .: :.      .. :  :
+sp|O35         MVVVAAAPSAATAAPKVLLLSGQPASGGRALPLMVPGPRAAGSEASGTPQAR
+                       10        20        30        40        50  
+
+             80        90       100       110       120            
+sp|Q1X KRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN-------QFL
+       :: . :.   :.. ..: :.::.::::.:.::. .: .::.. ...:..:       :.:
+sp|O35 KRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENHKLQLENQLL
+             60        70        80        90       100       110  
+
+         130       140               150       160       170       
+sp|Q1X LQRLSQMEAENNRLSQQLAQLA--------AEVRGSRANTPMPGSPATASPTLTPTLFKQ
+        ..   . .::..:  .:.. .        .:..:: .   . ::  .:.  :   : .:
+sp|O35 REKTHGLVVENQELRTRLGMDTLDPDEVPEVEAKGSGVRL-VAGSAESAALRLCAPL-QQ
+            120       130       140       150        160        170
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+        . .:   .  ::                                               
+sp|O35 VQAQLSPPQNIFPWTLTLLPLQILSLISFWAFWTSWTLSCFSNVLPQSLLVWRNSQRSTQ
+              180       190       200       210       220       230
+
+>>sp|Q9ES19|ATF4_RAT Cyclic AMP-dependent transcription   (347 aa)
+ s-w opt: 151  Z-score: 142.0  bits: 34.7 E(516081):  2.2
+Smith-Waterman score: 151; 30.9% identity (62.9% similar) in 97 aa overlap (66-160:255-347)
+
+          40        50        60        70          80        90   
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP--RKRAKTEDEKEQRRIERVLRN
+                                     ::   ::     ::.. :: ....... .:
+sp|Q9E SYLGSPQHSPSTSRAPPDSLPSPGVPRGSRPKPYDPPGVSVTAKVKTEKLDKKLKKMEQN
+          230       240       250       260       270       280    
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       ..::   :..:: :.: : .:  ..:..:. : .. ...  :     : : .:  ::: .
+sp|Q9E KTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSLAKEI----QYLKDLIEEVRKA
+          290       300       310       320           330       340
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+       :..  .:                                                     
+sp|Q9E RGKKRVP                                                     
+                                                                   
+
+>>sp|O02756|CEBPD_BOVIN CCAAT/enhancer-binding protein d  (256 aa)
+ s-w opt: 148  Z-score: 141.7  bits: 34.2 E(516081):  2.3
+Smith-Waterman score: 148; 26.7% identity (54.1% similar) in 146 aa overlap (19-163:119-245)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     :.: .:. ... :.: .. : . .: . : 
+sp|O02 LLPGGPARLGGPGPAPRPLKREPDWGDGDAPGSLLPAQVAACAQTVVSLA-AAAQPTPPA
+       90       100       110       120       130        140       
+
+       50        60        70        80        90       100        
+sp|Q1X EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEM
+         .:   :.: .   : :  .    ::.  .   : :  .:  ::  :.. ::.. .   
+sp|O02 SPEP--PRRSPAPPAPGPARDKAAGKRGPDRGSPEYR--QRRERNNIAVRKSRDKAK---
+       150         160       170       180         190       200   
+
+      110       120       130       140       150        160       
+sp|Q1X EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG-SRANTPMPGSPATAS
+                  ..:: . :.: .. :::..:.:.. ::. .. :  :    .::.:    
+sp|O02 -----------RRNQEMQQKLVELSAENEKLQQRVEQLTRDLAGLRRFFKQLPGAPFLPG
+                         210       220       230       240         
+
+       170       180       190       200       210       220       
+sp|Q1X PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDG
+                                                                   
+sp|O02 AGAADAR                                                     
+     250                                                           
+
+>>sp|P54841|MAFB_MOUSE Transcription factor MafB OS=Mus   (323 aa)
+ s-w opt: 150  Z-score: 141.7  bits: 34.6 E(516081):  2.3
+Smith-Waterman score: 150; 27.9% identity (57.1% similar) in 154 aa overlap (14-163:174-319)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     :  :.::...:.   .:.  .  .: .   
+sp|P54 GYPGAGVTHDDLGQHAHPHHHHHHQASPPPSSAASPAQQLPTSHPGPGPHATAAATAAGG
+           150       160       170       180       190       200   
+
+            50        60        70        80           90       100
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTS
+       . . :.      : :  : . .   .:  . :. :.::    .:.:  :.:.::. ::. 
+sp|P54 NGSVED------RFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQKR--RTLKNRGYAQSC
+                 210       220       230       240         250     
+
+              110       120       130       140        150         
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPM
+       : ..  . ..::::: :. :: . : :..:..  : .  . .  .::    : . ...  
+sp|P54 RYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKCEKLANSGFREAGSTSDS
+         260       270       280       290       300       310     
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+       :.::                                                        
+sp|P54 PSSPEFFL                                                    
+         320                                                       
+
+>>sp|A1C9M5|KAPC_ASPCL Putative transcription factor kap  (288 aa)
+ s-w opt: 149  Z-score: 141.7  bits: 34.4 E(516081):  2.3
+Smith-Waterman score: 149; 20.8% identity (56.0% similar) in 159 aa overlap (66-223:83-237)
+
+          40        50        60        70        80        90     
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRA
+                                     :. .:  ..  ::  ..     .:. .:::
+sp|A1C HMQPTTPVARDQNNIDPAISGGAMLAGPQTPQPDLSGQESPKTYGKRPLSTSKRAAQNRA
+             60        70        80        90       100       110  
+
+         100       110       120       130       140       150     
+sp|Q1X AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA
+       : .. :.::. ... ::. :..  .    . . .. ..::: .: . . .: ...  ...
+sp|A1C AQRAFRQRKEAHIRDLEG-KVKAYET---MGEAIKALQAENYQLREYIINLQSRLLDTQG
+            120       130           140       150       160        
+
+          160       170       180       190       200       210    
+sp|Q1X NTP-MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQ
+       ..: .::.   ..:     .     .      .: : :.  .     . .. : ..:. .
+sp|A1C EVPELPGNIDLSQPRGDIPVPAPPTSGTSTSAVPVPPPTAPQQPQPAQNQASAPNDDMNS
+      170       180       190       200       210       220        
+
+          220       230       240       250       260       270    
+sp|Q1X HPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+          ..::::                                                   
+sp|A1C LNRIAVAGLGMRKPPTEEANYLGNSFQQQARRVRPDDGQPDASELTLPKQEPTHGLPLIS
+      230       240       250       260       270       280        
+
+>>sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive element-bi  (368 aa)
+ s-w opt: 151  Z-score: 141.6  bits: 34.7 E(516081):  2.3
+Smith-Waterman score: 151; 25.9% identity (54.7% similar) in 212 aa overlap (20-221:105-301)
+
+                          10        20        30        40         
+sp|Q1X            MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEE
+                                     :. .:. .  :::      ..    .  ::
+sp|Q8S PCLVQHDHTYSLSQEHVSIDLDNESYEKERAQMTPLRVEEPAD-----QEIARLILTEEE
+           80        90       100       110            120         
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+       :.  .:.   :  ::     ::  :     .:.  .:..: .::. .:: ::..:.. . 
+sp|Q8S KRLLEKE---GLTLP---GMLPLTKM----EEQVLKRVRRKIRNKKSAQESRRKKKVYVG
+     130          140              150       160       170         
+
+     110       120       130       140       150            160    
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV-----RGSRANTPMPGSPA
+        ::.. ...  ::  : .... .: .:  : .:: .: : :     ..: ..: .     
+sp|Q8S GLESRVLKYTAQNLELQNKVQLLEEQNLSLLDQLRRLQAMVIQTANKASSSSTCVLVLLF
+     180       190       200       210       220       230         
+
+          170        180         190        200        210         
+sp|Q1X TASPTLTPTLFKQE-RDELPLER--IPFPTPSL-SDYSPTLKPSTL-AESSDVAQHPAVS
+       .    :.:...... :  :: :.  .     .: :.  : :.: .: .:    . .: ..
+sp|Q8S SFCLLLVPAMYSSDTRGSLPAEHRVLSRQLRALPSEDPPQLEPPALQSEVPKDSLNPELQ
+     240       250       260       270       280       290         
+
+     220       230       240       250       260       270         
+sp|Q1X VAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       .:                                                          
+sp|Q8S AASNSCCLFHLMPQAPRAEPPLQLPLPDGFSGCSCPDSISPLHANLTREEGWLPTPSPTS
+     300       310       320       330       340       350         
+
+>>sp|O77628|FOS_BOVIN Proto-oncogene c-Fos OS=Bos taurus  (380 aa)
+ s-w opt: 151  Z-score: 141.3  bits: 34.7 E(516081):  2.4
+Smith-Waterman score: 151; 24.0% identity (50.0% similar) in 246 aa overlap (2-237:57-297)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|O77 LSYYHSPADSFSSMGSPVNAQDYCTDLAVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .  . :  . :.   . . .   . .  . .:.:.:::.
+sp|O77 PSQTRAPHPYGVPTPSAGAYSRAGVMKTMTGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|O77 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .:   ..::  :.   :     : .:   :::   : : ::.   . . .
+sp|O77 ACKIPD-DLGFPEEMSVASLDLSGGLPEAATPESEEAFTLPLLNDPEPKPSVEPVKSVGS
+             210       220       230       240       250       260 
+
+            210       220       230        240       250       260 
+sp|Q1X PSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNRLFH
+           ::  :  . :: :  .    . ..: .:: ::                        
+sp|O77 MELKAEPFDDYMFPASSRPSGSETARSVPDMDLSGSFYAADWEPLHGGSLGMGPMATELE
+             270       280       290       300       310       320 
+
+             270       280       290       300       310       320 
+sp|Q1X GDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCK
+                                                                   
+sp|O77 PLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTLLAL 
+             330       340       350       360       370       380 
+
+>>sp|Q6NS15|MED15_XENLA Mediator of RNA polymerase II tr  (777 aa)
+ s-w opt: 157  Z-score: 141.1  bits: 35.7 E(516081):  2.4
+Smith-Waterman score: 157; 20.1% identity (53.1% similar) in 273 aa overlap (30-297:282-540)
+
+                10        20        30        40        50         
+sp|Q1X  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSW
+                                     : .  ..  ... :.:   ...   . .  
+sp|Q6N QRIAHLQQMQQMQQQQQQQQQQQQQQQQQPPPQQVMQLQQMQQQQVAQSQQQQLLSTQPQ
+             260       270       280       290       300       310 
+
+      60        70        80        90       100        110        
+sp|Q1X GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERK-RLEMEKLENEKIQM
+       .  : : . ..: .    :   ..:.... . . ::  : . ... . . ..  ... :.
+sp|Q6N APSL-VAQGQIPSQVMPVTLTPQQQQQLKILQQVRAQQQQQAQHQAQQQAQQQAHQQAQQ
+              320       330       340       350       360       370
+
+      120       130       140       150       160       170        
+sp|Q1X EQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT-PTLFKQ
+       . :.:   :  .:.  .  . .:: :: ::. ....:.        .. :... :.  .:
+sp|Q6N QAQQQAQQQAAQQQAQQAAQQAQQQAQQAAQQQAAQAHLAAGQVTQNSIPVMSSPSPVQQ
+              380       390       400       410       420       430
+
+       180       190       200       210       220       230       
+sp|Q1X ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGS
+        .   :.   : :.:. :.  :  .:.     :.:.. :: : ...  . :  :     :
+sp|Q6N VQTPQPMPPPPQPSPQPSQ--PMSQPN-----SNVSSGPAPSPSSFMPSPSPQP---SQS
+              440         450            460       470          480
+
+       240       250       260       270        280       290      
+sp|Q1X DLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV-FEDGLAFDVLEGGDLSAF--PFDS
+         . .. .. ..: :   .:   . .: . : :.   :.   .: :.  .:: .  :.  
+sp|Q6N PASARTPQNFSVP-SPGPLNTPGNPNSVMSPASNNQSEEQQYLDKLK--QLSKYIEPLRR
+              490        500       510       520         530       
+
+          300       310       320       330       340              
+sp|Q1X MVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC         
+       :.:                                                         
+sp|Q6N MINKIDKNEERKKDLSKMKSLLDILTDPNKRCPLKTLQKCEIALEKLKNDMAVPTPPPPT
+       540       550       560       570       580       590       
+
+>>sp|P94517|YSCB_BACSU Uncharacterized protein yscB OS=B  (221 aa)
+ s-w opt: 146  Z-score: 141.0  bits: 33.9 E(516081):  2.5
+Smith-Waterman score: 146; 26.5% identity (56.9% similar) in 181 aa overlap (7-183:28-188)
+
+                                    10        20          30       
+sp|Q1X                      MSCDMEKTMSSVDSLPATPASEVP--VLTVSPADTSLN-
+                                  :. ..: .  : : .:.   .  ..:.. ... 
+sp|P94 MNKLIQLALFFTLMLTGCSNSSTSSESKVETTVKTTAAFPQKELEKELKKLKPVSLDMKF
+               10        20        30        40        50        60
+
+         40        50        60        70        80        90      
+sp|Q1X SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA
+        . . :.  : . :. :.:... . :  . :      :: : ..:: .:.       : :
+sp|P94 ESPLATELGKRKAKEEAEKQRQIAAEKKLEKER--EAKRKKQQEEKAERQ-------RLA
+               70        80        90         100              110 
+
+        100        110       120       130       140       150     
+sp|Q1X AQTSRERKRL-EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA
+        : . ::.:: : :.    . ..:.: :  .:. .. .::..: ::   :  .:. .: .
+sp|P94 EQQAAERQRLAEAER----QAELERQRQAAIQKEQKANAEKKRQSQAQRQ-QTEAPSSNS
+             120           130       140       150        160      
+
+         160       170       180       190       200       210     
+sp|Q1X NTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQH
+       . : :.: . .. :.     .:  .:::                                
+sp|P94 QDP-PSSSSQTDKTI-----QQPASELPDDDGYGYEERKKWHDDQVEWGIKQGYIDPEDA
+         170       180            190       200       210       220
+
+>>sp|Q504L8|MAFB_XENTR Transcription factor MafB OS=Xeno  (316 aa)
+ s-w opt: 149  Z-score: 140.9  bits: 34.4 E(516081):  2.5
+Smith-Waterman score: 149; 26.6% identity (62.6% similar) in 139 aa overlap (29-163:176-312)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     ::. .: .: ...... . .... .. : :
+sp|Q50 QYQGLPHEEMGLPHQHPHHHHHHHHHQPSPSPSGSSSSSQQLQNSHQQHQNSSAVEDRFS
+         150       160       170       180       190       200     
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.:.    .:.:  :.:.::. ::. : ..  . ..:::::
+sp|Q50 DDQLVSMSVRELNRHLRGFTKDDVIRLKQKR--RTLKNRGYAQSCRFKRVQQKHHLENEK
+         210       220       230         240       250       260   
+
+         120       130       140       150        160       170    
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV-RGSRANTPMPGSPATASPTLTPTL
+        :. :: . :  ..:..  : .  . .  .::  . : . ...  :.::           
+sp|Q50 TQLIQQVEQLKLEVSRLARERDAYKIKCEKLANTTFREAGSTSDNPSSPEFFM       
+           270       280       290       300       310             
+
+          180       190       200       210       220       230    
+sp|Q1X FKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD
+
+>>sp|O57342|MAFA_COTJA Transcription factor MafA OS=Cotu  (286 aa)
+ s-w opt: 148  Z-score: 140.8  bits: 34.2 E(516081):  2.5
+Smith-Waterman score: 148; 34.1% identity (67.1% similar) in 85 aa overlap (83-167:201-281)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|O57 RFSDDQLVSMSVRELNRQLRGFSKEEVIRLKQKR--RTLKNRGYAQSCRYKRVQQRHILE
+              180       190       200         210       220        
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       ::: :...: . : :..:..  : .  ...  .:::  ::   .:  :..: :..     
+sp|O57 NEKCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA--RGFPRETSPPAAPKTTAADFFM
+      230       240       250       260         270       280      
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|P12841|FOS_RAT Proto-oncogene c-Fos OS=Rattus norve  (380 aa)
+ s-w opt: 150  Z-score: 140.4  bits: 34.6 E(516081):  2.7
+Smith-Waterman score: 150; 27.6% identity (50.4% similar) in 250 aa overlap (8-237:54-297)
+
+                                      10        20           30    
+sp|Q1X                        MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPADTS
+                                     ..::.. .:.. : :  : :   :.:   .
+sp|P12 GDSLSYYHSPADSFSSMGSPVNTQDFCADLSVSSANFIPTVTAISTSPDLQWLVQP---T
+            30        40        50        60        70           80
+
+           40        50         60        70                 80    
+sp|Q1X LNSADVKTQEVKPEEKK-PAKKRKSWGQELPVPKTNLPPR-----KRAKTE----DEKEQ
+       : :. . .:   :.    :. .  ....   : ::    :     .:.:.:    .:.:.
+sp|P12 LVSSVAPSQTRAPHPYGLPTPSTGAYARA-GVVKTMSGGRAQSIGRRGKVEQLSPEEEEK
+               90       100        110       120       130         
+
+           90       100       110       120       130       140    
+sp|Q1X RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA
+       :::.:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::
+sp|P12 RRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILA
+     140        150       160       170       180       190        
+
+          150       160       170          180          190        
+sp|Q1X QLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYS
+             .    .  .:   ...:  ::   :     : .:   :::   : : :::   .
+sp|P12 AHRPACKIPN-DLGFPEEMSVTSLDLTGGLPEATTPESEEAFTLPLLNDPEPKPSLEPVK
+      200        210       220       230       240       250       
+
+      200       210       220       230        240       250       
+sp|Q1X PTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFN
+          .    ::  :    :: :  .    . ..:  :: ::                    
+sp|P12 NISNMELKAEPFDDFLFPASSRPSGSETARSVPDVDLSGSFYAADWEPLHSSSLGMGPMV
+       260       270       280       290       300       310       
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|P12 TELEPLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCAAAHRKGSSSNEPSSDSLSSPTL
+       320       330       340       350       360       370       
+
+>>sp|Q8HZP6|FOS_FELCA Proto-oncogene c-Fos OS=Felis catu  (381 aa)
+ s-w opt: 150  Z-score: 140.4  bits: 34.6 E(516081):  2.7
+Smith-Waterman score: 150; 26.9% identity (50.6% similar) in 249 aa overlap (9-237:55-298)
+
+                                     10        20           30     
+sp|Q1X                       MSCDMEKTMSSVDSLPATPA-SEVPVLT--VSPADTSL
+                                     .::.. .:.. : :  : :   :.:   .:
+sp|Q8H DNLSYYHSPADSFSSMGSPVNAQDFCTDLAVSSANFIPTVTAISTSPDLQWLVQP---TL
+           30        40        50        60        70           80 
+
+          40        50         60        70                 80     
+sp|Q1X NSADVKTQEVKPEEKK-PAKKRKSWGQELPVPKTNLPPR-----KRAKTE----DEKEQR
+        :. . .:   :.    :: .  ....   :  ..   :     .:.:.:    .:.:.:
+sp|Q8H VSSVAPSQTRAPHPYGVPAPSAGAYSRAGVVKTVTAGGRAQSIGRRGKVEQLSPEEEEKR
+              90       100       110       120       130       140 
+
+          90       100       110       120       130       140     
+sp|Q1X RIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQ
+       ::.:  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   :: 
+sp|Q8H RIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAA
+              150       160       170       180       190       200
+
+         150       160       170          180          190         
+sp|Q1X LAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSP
+            .    .  .:   ..::  :.   :     : .:   :::   : : ::.   . 
+sp|Q8H HRPACKIPD-DLGFPEEMSVASLDLSGGLPEAATPESEEAFTLPLLNDPEPKPSVEPVKS
+               210       220       230       240       250         
+
+     200       210       220       230        240       250        
+sp|Q1X TLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GSDLKHHSTDDVAAPLSDDDFNR
+         .    ::  :    :: :  .    . ..: .:: ::                     
+sp|Q8H ISSMELKAEPFDDFLFPASSRPSGSETARSVPDMDLSGSFYAADWEPLHGGSLGMGPMAT
+     260       270       280       290       300       310         
+
+      260       270       280       290       300       310        
+sp|Q1X LFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDET
+                                                                   
+sp|Q8H ELEPLCTPVVTCTPSCTTYTSSFVFTYPEADSFPSCGAAHRKGSSSNEPSSDSLSSPTLL
+     320       330       340       350       360       370         
+
+>>sp|Q56TT7|FOS_PHOCM Proto-oncogene c-Fos OS=Phodopus c  (381 aa)
+ s-w opt: 150  Z-score: 140.4  bits: 34.6 E(516081):  2.7
+Smith-Waterman score: 150; 23.5% identity (50.0% similar) in 306 aa overlap (2-291:57-353)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|Q56 LSYYHSPADSFSSMGSPVNAQDFCADLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|Q56 PSQTRAPHPYGVPTPPTGAYSRAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  ..:.... :  .....  :...:   ::    
+sp|Q56 RE-RNKMAAAKCRNRRRELTDTLQAETDHLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .: . ..::  ::   :     : .:   :::   : :  ::   .   .
+sp|Q56 ACKIPD-DLGFPEDMSVASLDLTGGLPEATTPESEEAFSLPLLNDPEPKTSLEPVKSISN
+             210       220       230       240       250       260 
+
+            210       220        230            240        250     
+sp|Q1X PSTLAESSDVAQHPAVSV-AGLEGDGSALPLFDL-GS----DLKH-HSTDDVAAPLSDDD
+           ::  :    :: :  .: :  . ..: .:: ::    : .  ::..   .:.. . 
+sp|Q56 MELKAEPFDDFLFPASSRPSGSETTARSVPDMDLSGSFYAADWEPLHSSSLGMGPMATE-
+             270       280       290       300       310       320 
+
+         260       270       280       290       300       310     
+sp|Q1X FNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLP
+       .. :     .  :. ... ....:   :.   ..::                        
+sp|Q56 LEPLCTPVVTCTPSCTTYTSSFVFTYPEA---DSFPSCAAAHRKGSSSNEPSSDSLSSPT
+              330       340          350       360       370       
+
+         320       330       340     
+sp|Q1X DETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                     
+sp|Q56 LLAL                          
+       380                           
+
+>>sp|Q2VZV0|IF2_MAGSA Translation initiation factor IF-2  (872 aa)
+ s-w opt: 157  Z-score: 140.2  bits: 35.7 E(516081):  2.7
+Smith-Waterman score: 157; 33.6% identity (62.6% similar) in 107 aa overlap (16-119:188-291)
+
+                              10        20        30        40     
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV
+                                     :..::.  :: ...::  .     ..:.: 
+sp|Q2V QSEPEAAAPAAEPVAPTAPVAAAPAPAPATPVAPAQPKPVAAAAPAGDATAVPRARTEEE
+       160       170       180       190       200       210       
+
+          50        60        70           80        90       100  
+sp|Q1X KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK---TEDEKEQRRIERVLRNRAAAQTSRE
+       . ::.. :::: .  .  :: .:. : :. .:   :.   .. : ::  :. ::.. .::
+sp|Q2V EEEEER-AKKRAAAHKPAPVKRTE-PRRRTGKLTITDALTDDDRSERG-RSLAAVKRARE
+       220        230       240        250       260        270    
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+       :.::.  .  .::.  :                                           
+sp|Q2V RERLKHMQKGSEKVIREVIVPESITVQELANRMAVRGADVIKCLMRLGVMATINQNIDAD
+          280       290       300       310       320       330    
+
+>>sp|Q3ZCH6|ATF4_BOVIN Cyclic AMP-dependent transcriptio  (348 aa)
+ s-w opt: 149  Z-score: 140.2  bits: 34.4 E(516081):  2.8
+Smith-Waterman score: 149; 27.7% identity (61.0% similar) in 141 aa overlap (19-154:210-342)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     :...   . .:: :.::.: . . .  .  
+sp|Q3Z LCSEVVIPEGDSKPDSTTTGFPQCIKEEDAPSDNDSGICMSP-DSSLGSPQDSPSTSRG-
+     180       190       200       210       220        230        
+
+       50        60          70           80        90       100   
+sp|Q1X EKKPAKKRKSWG--QELPVPKTNLPPRKR---AKTEDEKEQRRIERVLRNRAAAQTSRER
+         .: :.  : :  .    ::   :: ..   ::.. :: ....... .:..::   :..
+sp|Q3Z --SPNKSLLSPGALSGSSRPKPYDPPGEKMVAAKVKGEKLDKKLKKMEQNKTAATRYRQK
+         240       250       260       270       280       290     
+
+           110       120       130       140       150       160   
+sp|Q1X KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSP
+       :: :.: : .:  ..:..:. : .. ...  : . :..:.     ::: .:         
+sp|Q3Z KRAEQEALTGECKELEKKNEALKEKADSLAKEIQYLKDQIE----EVRKAREKKRVL   
+         300       310       320       330           340           
+
+           170       180       190       200       210       220   
+sp|Q1X ATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL
+
+>>sp|Q5HZY0|UBXN4_RAT UBX domain-containing protein 4 OS  (506 aa)
+ s-w opt: 152  Z-score: 140.0  bits: 34.9 E(516081):  2.8
+Smith-Waterman score: 152; 24.4% identity (53.0% similar) in 279 aa overlap (73-337:200-459)
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+                                     :   : :...:..: :.. :.    .   :
+sp|Q5H GECAGHDSLSQEPPGCSNQRPAEDLTVRVERLTKKLEERREEKRKEEAQRE---IKKEIE
+     170       180       190       200       210       220         
+
+            110       120       130           140       150        
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN----NRLSQQLAQLAAEVRGSRANTP
+       :..   : :. .. : :. .. .:.. :. .::.    .:..::.:   :: :..:    
+sp|Q5H RRKTGKEMLDYKRKQEEELTKRMLEERSREKAEDRAARERIKQQIALDRAE-RAARFAKT
+        230       240       250       260       270        280     
+
+      160       170             180       190       200       210  
+sp|Q1X MPGSPATASPTLTPTL---FKQE---RDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+         .  : :.  :.       :.:   ::.  . :: :  :. :...  . ::  :   ..
+sp|Q5H KEAEAAKAAALLAKQAEAEVKRESSTRDRSTIARIQFRLPDGSSFTNQF-PSD-APLEEA
+         290       300       310       320       330         340   
+
+            220       230           240       250       260        
+sp|Q1X AQHPAVSVAGLEGDGSALPLFD----LGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEP
+        :  : .:..  :. :   .:        : :..  :   :: ..  .    .  .:. :
+sp|Q5H RQFAAQTVGNTYGNFSLATMFPRREFTREDYKRKLLDLELAPSASVVLLPAGRPATSIVP
+           350       360       370       380       390       400   
+
+      270       280       290       300       310       320        
+sp|Q1X DSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPG
+       .::    :  . .: :  :  .:: ..  . :. .      ...  : .:. ...:..:.
+sp|Q5H SSS----GDIWTLL-GTVL--YPFLAIWRLISNFL------FSNPPPAQTSARATSTEPS
+               410          420       430             440       450
+
+      330       340                                            
+sp|Q1X FGASTTRCDGQGIAAGC                                       
+        .::... .                                               
+sp|Q5H NSASSSKSEKREPVRKRVLEKRGEDFKKEGKIYRLRTQDDGEDENNTWNGNSTQQM
+              460       470       480       490       500      
+
+>>sp|P0C865|MK07_RAT Mitogen-activated protein kinase 7   (806 aa)
+ s-w opt: 156  Z-score: 139.9  bits: 35.6 E(516081):  2.8
+Smith-Waterman score: 156; 26.3% identity (50.2% similar) in 259 aa overlap (3-236:429-680)
+
+                                           10          20        30
+sp|Q1X                             MSCDMEKTMSSVDSLP--ATPASEVPVLTVSP
+                                     : ::   :   .::  . :: ..  ::..:
+sp|P0C IRFQPSLQPVASEPVCPDVEMPSPWAPSGDCAME---SPPPALPPCSGPAPDTVDLTLQP
+      400       410       420       430          440       450     
+
+               40        50              60        70         80   
+sp|Q1X ADTSLNSADVKTQEVKPEEKKPA------KKRKSWGQELPVPKTNLP-PRKRAKTEDEKE
+       :  . . :  : . .  .. : :      :. .:  .. :    . : ::: . ......
+sp|P0C APPASELAPPKREGAISDNTKAALKAALLKSLRSRLRDGPSAPLEAPEPRKPVTAQERQR
+         460       470       480       490       500       510     
+
+            90       100       110       120       130        140  
+sp|Q1X QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR-LSQQ
+       .:. .:  : :      ::..: : :. :     .   .   :  :  . ..:.: : ..
+sp|P0C EREEKR--RRRQERAKEREKRRQERERKERGAGTLGGPSTDPLAGL--VLSDNDRSLLER
+         520         530       540       550         560       570 
+
+            150       160        170        180        190         
+sp|Q1X LAQLAAEVRGSRANTPMPG-SPATASPTLTPTL-FKQERDEL-PLERIPFPT--PSLSDY
+        ...:     . : .: :  .:..:.::  :.   .:    : :   :: :.  :     
+sp|P0C WTRMARPPVPAPAPAPAPTPKPSSAQPTSPPNGPVSQSTAPLQPAGSIPGPASQPVCPPP
+             580       590       600       610       620       630 
+
+       200               210       220         230       240       
+sp|Q1X SPTLKPS--------TLAESSDVAQHPAVSVAGLEGDGS--ALPLFDLGSDLKHHSTDDV
+       .:. .:.        :   .: .:..  :  .:: :.:.  .:: :  :           
+sp|P0C GPVPQPAGPVPAPLQTAPSTSLLASQSLVPPSGLPGSGAPEVLPYFPSGPPPPDPGLTPQ
+             640       650       660       670       680       690 
+
+       250       260       270       280       290       300       
+sp|Q1X AAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEG
+                                                                   
+sp|P0C PSTSESPDVNLVTQQLSKSQVEDPLPPVFSGTPKGSGAGYGVGFDLEEFLNQSFDMGVAD
+             700       710       720       730       740       750 
+
+>>sp|Q9N0J3|CEBPD_SHEEP CCAAT/enhancer-binding protein d  (255 aa)
+ s-w opt: 146  Z-score: 139.9  bits: 33.9 E(516081):  2.9
+Smith-Waterman score: 146; 26.7% identity (54.1% similar) in 146 aa overlap (19-163:118-244)
+
+                           10        20        30        40        
+sp|Q1X             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE
+                                     :.: .:. ... :.: .. : . .: . : 
+sp|Q9N LLPGGPARLGGPGPAPRPLKREPDWGDGDAPGSLLPAQVAACAQTVVSLAPA-AQPTPP-
+        90       100       110       120       130        140      
+
+       50        60        70        80        90       100        
+sp|Q1X EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEM
+         .:   :.: .   : :  .    ::.  .   : :  .:  ::  :.. ::.. .   
+sp|Q9N -ASPDPPRRSPAPPAPGPARDKAAGKRGPDRGSPEYR--QRRERNNIAVRKSRDKAK---
+          150       160       170       180         190            
+
+      110       120       130       140       150        160       
+sp|Q1X EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG-SRANTPMPGSPATAS
+                  ..:: . :.: .. :::..:.:.. ::. .. :  :    .::.:    
+sp|Q9N -----------RRNQEMQQKLVELSAENEKLQQRVEQLTRDLAGLRRFFKQLPGAPFLPG
+                200       210       220       230       240        
+
+       170       180       190       200       210       220       
+sp|Q1X PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDG
+                                                                   
+sp|Q9N AGAADAR                                                     
+      250                                                          
+
+>>sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element-bind  (367 aa)
+ s-w opt: 149  Z-score: 139.7  bits: 34.4 E(516081):  2.9
+Smith-Waterman score: 149; 33.3% identity (63.2% similar) in 87 aa overlap (60-146:170-252)
+
+      30        40        50        60        70        80         
+sp|Q1X PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER
+                                     :::  .  ..::  :     .:.  ..:.:
+sp|Q5U PRVSTIAPPPPAALLSCQRLFLTDEEKHLLGQEGVTLPSHLPLTK----AEERILKKIRR
+     140       150       160       170       180           190     
+
+      90       100       110       120       130       140         
+sp|Q1X VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE
+        .::. .:: ::.::.  .. ::..     .::: : ......: .:  :  :. ::   
+sp|Q5U KIRNKQSAQDSRRRKKEYIDGLESRVAACSEQNQKLQRKVQELERQNISLVAQVHQLQKF
+         200       210       220       230       240       250     
+
+     150       160       170       180       190       200         
+sp|Q1X VRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAES
+                                                                   
+sp|Q5U TAQTSSRAAQTSTCVLILLFSLALIILPSFSPFQSQPEARSEGYQLHGVISRNILTHEDM
+         260       270       280       290       300       310     
+
+>>sp|A0JMK9|CAF1A_DANRE Chromatin assembly factor 1 subu  (863 aa)
+ s-w opt: 156  Z-score: 139.4  bits: 35.6 E(516081):    3
+Smith-Waterman score: 156; 25.3% identity (55.5% similar) in 229 aa overlap (1-215:208-432)
+
+                                             10        20        30
+sp|Q1X                               MSCDMEKTMSSVDSLPATPASEVPVLTVSP
+                                     .:    .. : . : :  :.. .:.   .:
+sp|A0J DSDTEEEEEEEEEEEEQQQEAEVSHGNESVLSTGSTSSASVIASSPE-PSKSAPT---TP
+       180       190       200       210       220        230      
+
+                 40        50        60         70        80       
+sp|Q1X ADTS-LNSAD-VKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRI
+       :.:: .:.:. :: . .:  ...  :.:.   .: :         .:. ...  ::... 
+sp|A0J ASTSRINAANKVKRRSLKSVQEQEEKQRQRDEKERLKQEAKAAKEKKKEEARKMKEEKER
+           240       250       260       270       280       290   
+
+        90       100        110       120       130         140    
+sp|Q1X ERVLRNRAAAQTSRERK-RLEMEKLENEKIQMEQQNQFLLQRLSQM--EAENNRLSQQLA
+       :.  ...   .  ::.: : : :: .. : . ::... .  .: .   . :..::...  
+sp|A0J EKKEKKEKDEKERREKKERDEKEKADKLKAKEEQRQMKIEAKLEEKRKKEEEKRLKEEKD
+           300       310       320       330       340       350   
+
+              150         160       170       180       190        
+sp|Q1X QLAAE----VRG-SRANTPM-PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYS
+       .. ::    .:  .. .: . : . :.:   ..:  .: . .  :: :.      : : .
+sp|A0J RIKAEKAEITRFLQKPKTQLAPKTLASACGKFAPFEIKAHMSLAPLTRVQCEDSVLEDLD
+           360       370       380       390       400       410   
+
+      200         210       220       230       240       250      
+sp|Q1X PTL-KP-STLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDF
+         : .: :::   .: . :                                         
+sp|A0J RYLAQPDSTLNGLKDWTGHKPRSSGPTRPRHSAQGDCVVITESQKADDGPDRSRYGRMKL
+           420       430       440       450       460       470   
+
+>>sp|Q96JK9|MAML3_HUMAN Mastermind-like protein 3 OS=Hom  (1134 aa)
+ s-w opt: 158  Z-score: 139.0  bits: 35.9 E(516081):  3.2
+Smith-Waterman score: 158; 22.8% identity (53.1% similar) in 254 aa overlap (8-250:390-619)
+
+                                      10        20        30       
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNS
+                                     : .:. :. .:::.  :.   :::. ...:
+sp|Q96 DPSHSPFAHVSMGSPQARPSSSGPPFSTVSTATSLPSVASTPAAPNPA--SSPANCAVQS
+     360       370       380       390       400         410       
+
+        40        50        60        70        80        90       
+sp|Q1X ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA
+        .. .:   : .  :   : . :  :    ...     . .   . .    . :.. :: 
+sp|Q96 PQTPNQAHTPGQAPP---RPGNGYLLNPAAVTVAGSASGPVAVPSSDMSPAEQLKQMAAQ
+       420       430          440       450       460       470    
+
+       100       110       120       130       140       150       
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT
+       :  ..: .: ..: .... :..::.:   :. .:.. ..:. :.  . :.        ..
+sp|Q96 Q--QQRAKLMQQKQQQQQQQQQQQQQ---QQQQQQQQHSNQTSNW-SPLGPP------SS
+            480       490          500       510        520        
+
+       160           170       180       190              200      
+sp|Q1X PMPGSPATA----SPTLTPTLFKQERDELPLERIPFPTPSLSDYSP-------TLKPSTL
+       :. :.  ::    :: . :  :...   .:     .   ....: :       . .:..:
+sp|Q96 PY-GAAFTAEKPNSPMMYPQAFNNQNPIVPPMANNLQKTTMNNYLPQNHMNMINQQPNNL
+             530       540       550       560       570       580 
+
+        210       220       230       240       250       260      
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSV
+       . .:   ::  ..       :.. ::  ...::... :  :: :                
+sp|Q96 GTNSLNKQHNILTY------GNTKPLTHFNADLSQRMTPPVANPNKNPLMPYIQQQQQQQ
+             590             600       610       620       630     
+
+        270       280       290       300       310       320      
+sp|Q1X EPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQ
+                                                                   
+sp|Q96 QQQQQQQQQQQPPPPQLQAPRAHLSEDQKRLLLMKQKGVMNQPMAYAALPSHGQEQHPVG
+         640       650       660       670       680       690     
+
+>>sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcripti  (127 aa)
+ s-w opt: 139  Z-score: 139.0  bits: 32.7 E(516081):  3.2
+Smith-Waterman score: 139; 28.6% identity (68.8% similar) in 77 aa overlap (69-145:21-97)
+
+       40        50        60        70        80        90        
+sp|Q1X DVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQ
+                                     : :  .  .   : ..:...:  .::.:::
+sp|Q9N           MSQGLPAAGSVLQRSVAAPGNQPQPQPQQQSPEDDDRKVRRREKNRVAAQ
+                         10        20        30        40        50
+
+      100       110       120       130       140       150        
+sp|Q1X TSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP
+        ::...  . .::..:  ..::.: .: ......  : ..:.. : .             
+sp|Q9N RSRKKQTQKADKLHEEYESLEQENTMLRREIGKLTEELKHLTEALKEHEKMCPLLLCPMN
+               60        70        80        90       100       110
+
+      160       170       180       190       200       210        
+sp|Q1X MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+                                                                   
+sp|Q9N FVPVPPRPDPVAGCLPR                                           
+              120                                                  
+
+>>sp|Q9C0A6|SETD5_HUMAN SET domain-containing protein 5   (1442 aa)
+ s-w opt: 160  Z-score: 139.0  bits: 36.2 E(516081):  3.2
+Smith-Waterman score: 160; 21.2% identity (49.9% similar) in 359 aa overlap (2-331:410-760)
+
+                                            10        20        30 
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVLTVSPA
+                                     .: ..:   ..  ::  :    : : .  :
+sp|Q9C TKDAEVTIAFDYEYSNCNYKVDCACHKGNRNCPIQKRNPNATELPLLPPP--PSLPTIGA
+     380       390       400       410       420         430       
+
+              40        50        60        70        80        90 
+sp|Q1X DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL
+       .:   .:  :  :.. ...   ..  . .::.:   :    .... . .:: ... :.:.
+sp|Q9C ETRRRKARRKELEMEQQNEASEENNDQQSQEVPEKVTVSSDHEEVDNPEEKPEEEKEEVI
+       440       450       460       470       480       490       
+
+                100         110       120       130       140      
+sp|Q1X ---RNRAAAQTSRERKRLE--MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL
+          .: : .. .:: ...:  :. .:: . . ....: : :  :..:  ..     ... 
+sp|Q9C DDQENLAHSRRTREDRKVEAIMHAFENLEKRKKRRDQPLEQSNSDVEITTTTSETPVGEE
+       500       510       520       530       540       550       
+
+              150       160       170       180       190          
+sp|Q1X A------AEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPS-------
+       .      .:: .: .:. .:..: ... .   .  .:  :    . .: : :.       
+sp|Q9C TKTEAPESEVSNSVSNVTIPSTPQSVGVNTRRS--SQAGDIAAEKLVPKPPPAKPSRPRP
+       560       570       580       590         600       610     
+
+              200       210       220       230       240          
+sp|Q1X ---LSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAA-
+          .: :  .       ...  ::.  .: :.::  ::     .: .  .  : :. .  
+sp|Q9C KSRISRYRTSSAQRLKRQKQANAQQAELSQAALEEGGSN----SLVTPTEAGSLDSSGEN
+         620       630       640       650           660       670 
+
+      250       260       270       280           290       300    
+sp|Q1X -PLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSA----FPFDSMVNFDSEPVT
+        ::. .: . .    : :.  .: .     . : :  . .:     : .  . . ..:..
+sp|Q9C RPLTGSDPTVVSITGSHVNRAASKYPKTKKYLVTEWLNDKAEKQECPVECPLRITTDPTV
+             680       690       700       710       720       730 
+
+           310        320       330       340                      
+sp|Q1X LEG-IEMAHGL-PDETTCKTSSVQPGFGASTTRCDGQGIAAGC                 
+       :   ..:  ::  .   : : .    ::.                               
+sp|Q9C LATTLNMLPGLIHSPLICTTPKHYIRFGSPFIPERRRRPLLPDGTFSSCKKRWIKQALEE
+             740       750       760       770       780       790 
+
+>>sp|B3DM43|SOX5_XENTR Transcription factor Sox-5 OS=Xen  (753 aa)
+ s-w opt: 154  Z-score: 138.6  bits: 35.2 E(516081):  3.4
+Smith-Waterman score: 154; 23.3% identity (50.0% similar) in 236 aa overlap (95-327:224-436)
+
+           70        80        90       100       110       120    
+sp|Q1X VPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF
+                                     ::.:  ..:...:. : ..:.:  .::. .
+sp|B3D EKERQLMAMINQLTSLREQLLAAHDEQKKLAASQIEKQRQQMELAKQQQEQIARQQQQLL
+           200       210       220       230       240       250   
+
+          130       140       150       160       170          180 
+sp|Q1X LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE---RDE
+         :.  ..  .. ... ::  :   :      : . .. :. .  : :  :. .    : 
+sp|B3D QQQHKINLLQQQIQVQGQLPPLMIPVFPPDQRT-LAAAAAAQQGFLIPPGFSYKPGCSDP
+           260       270       280        290       300       310  
+
+             190       200       210       220       230       240 
+sp|Q1X LPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKH
+        :.. ::    . .  .: : :  : .   .::  :..:.     :. ::       .  
+sp|B3D YPVQLIPTTMAAAAAATPGLAPLQLQQLY-AAQLAAMQVS----PGAKLP------GVPP
+            320       330       340        350                 360 
+
+             250       260       270       280       290       300 
+sp|Q1X HSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSE
+        . .....: :       .: :.:.       .:    :: .  .::: :  :  .  : 
+sp|B3D SNLSNAVSPSS-------IHTDKSTSSPPPKTKD----DVTQPLNLSAKPKGSDSKSPSS
+             370              380           390       400       410
+
+             310       320       330       340                     
+sp|Q1X PVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC                
+       :.. .  ... .:  .  :.::.  :                                  
+sp|B3D PTSPHIPRLSSALAHKPICSTSASTPLRVNSIDILSSITSPGYLNDHDAVTKAIQEARQM
+              420       430       440       450       460       470
+
+>>sp|A5FV21|IF2_ACICJ Translation initiation factor IF-2  (887 aa)
+ s-w opt: 155  Z-score: 138.2  bits: 35.4 E(516081):  3.5
+Smith-Waterman score: 155; 26.7% identity (49.2% similar) in 240 aa overlap (41-255:41-271)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     ... :. : .:  :.  . : :   :..  
+sp|A5F KGRLSLRPVNRGELGRTVDAGSVRQSFSHGRSKVVQVEVRK--KRGGAAGAETGRPSA--
+               20        30        40        50          60        
+
+               80        90       100       110                    
+sp|Q1X PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQM------------
+       : :  . .   .     :.. :.::... .::  ::: :. :.:::..            
+sp|A5F PSRASGGAAAPRGLTAAEQAARQRAVVEQQREAARLEAERREQEKISILSAAEEARRKAE
+         70        80        90       100       110       120      
+
+       120       130       140         150       160          170  
+sp|Q1X -EQQNQFLLQRLSQMEAENNRLSQQLAQL--AAEVRGSRANTPMPG---SPATASPTLTP
+        : .     .:: . : :  :  .. :.   :::.  . :  : :.   :: .: :  .:
+sp|A5F EEARAAEEAERL-RAEEEARRREEEEAERRRAAEASQATAAPPAPAAAASPRAAMP--AP
+        130        140       150       160       170       180     
+
+            180       190       200              210       220     
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL-------AESSDVAQHPAVSVAGLEG
+       :    .    : .:   :.:  .. : ::.  .         :.:  :..:. ..:  . 
+sp|A5F TAAPARPGAAPARRTA-PVPPATSASETLRLRAARTGRDEEEEASRPARRPGSGAAPSRK
+           190        200       210       220       230       240  
+
+         230       240       250       260       270       280     
+sp|Q1X DGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGG
+        .   :   .:.: .. .  :: : :: ::                              
+sp|A5F PSVPAPK-KVGDDRRRGARIDVQAALSGDDERVRSLASVRRQRDRERRQAELERLRSDQV
+             250       260       270       280       290       300 
+
+>>sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive element-bi  (357 aa)
+ s-w opt: 147  Z-score: 138.1  bits: 34.0 E(516081):  3.6
+Smith-Waterman score: 147; 27.6% identity (59.3% similar) in 123 aa overlap (52-168:194-315)
+
+              30        40        50        60        70        80 
+sp|Q1X EVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDE
+                                     :: .. .  : .  :. .   :.:.  :: 
+sp|Q8K HSHSHLHAHPAHHQTSPHPPLHTGNQAQVSPATQQMQPTQTIQPPQPTGGRRRRVVDEDP
+           170       180       190       200       210       220   
+
+              90       100       110       120       130       140 
+sp|Q1X KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQ
+        :.:: . . ::::::   :..... . .::..  .. : :. : ...:... :  .:.:
+sp|Q8K DERRR-KFLERNRAAATRCRQKRKVWVMSLEKKAEELTQTNMQLQNEVSMLKNEVAQLKQ
+            230       240       250       260       270       280  
+
+                  150        160       170       180       190     
+sp|Q1X QL-----AQLAAEVRGSRAN-TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS
+        :       ..:  . :..  .:  . ::.  :                           
+sp|Q8K LLLTHKDCPITAMQKESQGYLSPESSPPASPVPACSQQQVIQHNTITTSSSVSEVVGSST
+            290       300       310       320       330       340  
+
+         200       210       220       230       240       250     
+sp|Q1X DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDD
+                                                                   
+sp|Q8K LSQLTTHRTDLNPIL                                             
+            350                                                    
+
+>>sp|Q9H254|SPTN4_HUMAN Spectrin beta chain, brain 3 OS=  (2564 aa)
+ s-w opt: 164  Z-score: 138.1  bits: 36.9 E(516081):  3.6
+Smith-Waterman score: 164; 22.5% identity (53.9% similar) in 204 aa overlap (6-203:2186-2384)
+
+                                        10        20         30    
+sp|Q1X                          MSCDMEKTMSSVDSLPATPASEVPV-LTVSPADTS
+                                     :. .  .: ::  :.   :. : ..: :..
+sp|Q9H GLEPLARRASDTLSAEVRTRVGYVRQELKPERLQPRIDRLPEIPGRVEPAALPAAPEDAA
+        2160      2170      2180      2190      2200      2210     
+
+            40        50        60        70          80        90 
+sp|Q1X LNSAD-VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA--KTEDEKEQRRIERVL
+        . :  . ...:.:   .: ....:  .   .:.   : :...  ..:.  ..:: ::  
+sp|Q9H ETPATPAAAEQVRP---RP-ERQESADRAEELPRRRRPERQESVDQSEEAARRRRPERQE
+        2220         2230       2240      2250      2260      2270 
+
+             100       110       120       130       140       150 
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR
+         .  :  :    : :. . . :. . . . :   ..   ....  . .  ::... ...
+sp|Q9H SAEHEAAHSLTLGRYEQMERRRERRERRLERQESSEQEMPIRGDLVKGKATLADIVEQLQ
+            2280      2290      2300      2310      2320      2330 
+
+             160       170       180       190         200         
+sp|Q1X GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPT-PSLSDY-SPTLKPSTLAES
+        ..:.  .:..:.  .:   :     .  ::: :: : :  :   :  .:  .:      
+sp|Q9H EKEAGPGLPAGPSLPQPRELPPGRLPNGLELP-ERTPRPDRPRARDRPKPRRRPRPREGG
+            2340      2350      2360       2370      2380      2390
+
+     210       220       230       240       250       260         
+sp|Q1X SDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPD
+                                                                   
+sp|Q9H EGGGSRRSRSAPAQGGSAPAPPPPPTHTVQHEGFLLRKRELDANRKSSNRSWVSLYCVLS
+             2400      2410      2420      2430      2440      2450
+
+>>sp|B2AWS3|PAN1_PODAN Actin cytoskeleton-regulatory com  (1441 aa)
+ s-w opt: 159  Z-score: 138.0  bits: 36.0 E(516081):  3.6
+Smith-Waterman score: 159; 23.5% identity (50.4% similar) in 341 aa overlap (16-333:1015-1335)
+
+                              10        20        30        40     
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV
+                                     :  :. ..:   :.   .  ..:  :..: 
+sp|B2A AERQARIAEETGAPAPAAQAAVPKPEGKKPPPPPSRKTP--KVDDRRAEEEAAARKAEEG
+          990      1000      1010      1020        1030      1040  
+
+          50        60        70         80        90       100    
+sp|Q1X KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKT-EDEKEQRRIERVLRNRAAAQTSRERK
+       . :...  ..:..  .::         ..:::  :::  ..: :   : .:  .  :. :
+sp|B2A RLERERGEQERQT--REL---------EERAKDQEDELAKERAEADARLKALEEQVRQGK
+           1050                 1060      1070      1080      1090 
+
+          110          120       130          140       150        
+sp|Q1X RLEMEKLENEKIQM---EQQNQFLLQRLSQMEAENNR---LSQQLAQLAAEVRGSRANT-
+         . :. ...:  :   ..:.  : :: ...::  .:   : .::  : .:  .:  .  
+sp|B2A LKKEEEKRKKKAAMAEAKEQEAKLAQRRAEIEAARKREEELRKQLEALDVEDSSSDDDEG
+            1100      1110      1120      1130      1140      1150 
+
+       160       170         180       190          200            
+sp|Q1X PMPGSPATASPTLTPTLF--KQERDELPLERIPFPT---PSLSDYSPTLKPST------L
+       :   .: ...:::  .    .:: .  :   .: :.   :..   ::.   :        
+sp|B2A PEQITPQASTPTLGGSQVGGSQELEPAPPTPVPAPVQSPPQIVTSSPAETESRNPYFRMR
+            1160      1170      1180      1190      1200      1210 
+
+        210       220       230       240       250       260      
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSV
+       :......  : .  : .       :  :....  :. :. .:::  .   .:    :.. 
+sp|B2A AQAAETTPAPPAPPAPVAPPPPPQP--DVSTNPFHRMTQAAAAPAPSGPVSRKRPEDDGW
+            1220      1230        1240      1250      1260         
+
+        270       280           290       300       310       320  
+sp|Q1X EPDSSVFEDGLAFDVLEGGD----LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKT
+         :.   .:    :  . :.    :... : .:.    .:..  : . : . :  .:  .
+sp|B2A GSDKE--DDDEDSDDDRPGQGAAHLASILFGTMA--PPRPLSATGDKSAAASPP-VTSPV
+    1270        1280      1290      1300        1310       1320    
+
+            330       340                                          
+sp|Q1X SSVQPGFGASTTRCDGQGIAAGC                                     
+       .:  :.. . :                                                 
+sp|B2A ASPPPAIPSPTAAGAPPAPPPPPPMPGMGAPPPPPPPPPMPGSGAPAAPPPPPPPAPGGA
+         1330      1340      1350      1360      1370      1380    
+
+>>sp|Q61827|MAFK_MOUSE Transcription factor MafK OS=Mus   (156 aa)
+ s-w opt: 139  Z-score: 137.3  bits: 32.7 E(516081):    4
+Smith-Waterman score: 139; 26.4% identity (56.6% similar) in 159 aa overlap (47-193:5-156)
+
+         20        30        40        50        60                
+sp|Q1X ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTN-------
+                                     :. .:  : .:  :.. :: . .       
+sp|Q61                           MTTNPKPNKALKVKKEAGENAPVLSDDELVSMSV
+                                         10        20        30    
+
+        70        80           90       100       110       120    
+sp|Q1X --LPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF
+         :  . :. :..:    .:::  :.:.::. : . : ..  . :.:: ......:. . 
+sp|Q61 RELNQHLRGLTKEEVTRLKQRR--RTLKNRGYAASCRIKRVTQKEELERQRVELQQEVEK
+           40        50          60        70        80        90  
+
+          130       140       150       160       170       180    
+sp|Q1X LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPL
+       : .. :.:. : . : ..   : . .: . :  :.  .:. .. : . :. :.   ::  
+sp|Q61 LARENSSMRLELDALRSKYEALQTFAR-TVARGPV--TPTKVATTSVITIVKSA--ELSS
+            100       110        120         130       140         
+
+          190       200       210       220       230       240    
+sp|Q1X ERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHST
+         .:: . :                                                   
+sp|Q61 TSVPFSAAS                                                   
+       150                                                         
+
+>>sp|O60675|MAFK_HUMAN Transcription factor MafK OS=Homo  (156 aa)
+ s-w opt: 139  Z-score: 137.3  bits: 32.7 E(516081):    4
+Smith-Waterman score: 139; 26.4% identity (56.6% similar) in 159 aa overlap (47-193:5-156)
+
+         20        30        40        50        60                
+sp|Q1X ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTN-------
+                                     :. .:  : .:  :.. :: . .       
+sp|O60                           MTTNPKPNKALKVKKEAGENAPVLSDDELVSMSV
+                                         10        20        30    
+
+        70        80           90       100       110       120    
+sp|Q1X --LPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF
+         :  . :. :..:    .:::  :.:.::. : . : ..  . :.:: ......:. . 
+sp|O60 RELNQHLRGLTKEEVTRLKQRR--RTLKNRGYAASCRIKRVTQKEELERQRVELQQEVEK
+           40        50          60        70        80        90  
+
+          130       140       150       160       170       180    
+sp|Q1X LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPL
+       : .. :.:. : . : ..   : . .: . :  :.  .:. .. : . :. :.   ::  
+sp|O60 LARENSSMRLELDALRSKYEALQTFAR-TVARGPV--APSKVATTSVITIVKST--ELSS
+            100       110        120         130       140         
+
+          190       200       210       220       230       240    
+sp|Q1X ERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHST
+         .:: . :                                                   
+sp|O60 TSVPFSAAS                                                   
+       150                                                         
+
+>>sp|Q4QRL3|CC88B_MOUSE Coiled-coil domain-containing pr  (1481 aa)
+ s-w opt: 158  Z-score: 136.9  bits: 35.9 E(516081):  4.2
+Smith-Waterman score: 158; 28.6% identity (57.8% similar) in 185 aa overlap (6-180:281-460)
+
+                                        10        20        30     
+sp|Q1X                          MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSL
+                                     ::. . .::   . . :. .  .     .:
+sp|Q4Q NASAEGVSHHLALQLTNAKAQLRRLRQEVEEKAEQLLDSQAEVQGLEAEIRRLRQETQAL
+              260       270       280       290       300       310
+
+          40        50        60        70           80        90  
+sp|Q1X NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK---TEDEKEQRRIERVLR
+        ::..:  :.  :: .  ..: .   .::  . .:  : : :   .:  : : . :::: 
+sp|Q4Q -SAQAKRAELYREEAEALRERAG---RLPRLQEELR-RCREKLQAAEVFKGQLEEERVLS
+               320       330          340        350       360     
+
+            100       110       120        130       140           
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQ-RLSQMEAENNRLSQQLAQLAAE--
+       .   :.    ...::. . .. ...  :....::. ::.. .:. . : .:: ::. :  
+sp|Q4Q EALEASKVLLEEQLEVARERSARLHETQRENLLLRTRLGEAHADLDSLRHQLEQLVEENV
+         370       380       390       400       410       420     
+
+        150       160        170       180       190       200     
+sp|Q1X ---VRGSRANTPMPGSPATAS-PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPST
+          .. .:.  : ::::. :: :  .:.:  . :.                         
+sp|Q4Q ELELELQRSLEPPPGSPGEASLPGAAPSLQDEVREAEAGRLRAVERENRELRGQLQMLQA
+         430       440       450       460       470       480     
+
+         210       220       230       240       250       260     
+sp|Q1X LAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSS
+                                                                   
+sp|Q4Q QLGSQHPLLEEQRENSRQPPVPNRDPATPSALHHSPQSPACQIGGEGSESLDLPSPASYS
+         490       500       510       520       530       540     
+
+>>sp|P53450|FOS_TAKRU Proto-oncogene c-Fos OS=Takifugu r  (376 aa)
+ s-w opt: 146  Z-score: 136.8  bits: 33.9 E(516081):  4.3
+Smith-Waterman score: 146; 25.9% identity (57.5% similar) in 247 aa overlap (15-248:48-279)
+
+                               10        20        30              
+sp|Q1X                 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN-------S
+                                     : :. :: .:..:.  .. .:.       :
+sp|P53 ASPVGDNLYYPSPAGSYSSMGSPQSQDFTDLTASSASFIPTVTAISTSPDLQWMVQPLIS
+        20        30        40        50        60        70       
+
+        40        50        60        70          80        90     
+sp|Q1X ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK--TEDEKEQRRIERVLRNRA
+       . . .....:   .:. ::    ..  . :..   :.:..  : .:.:..::.:  ::. 
+sp|P53 SVAPSHRAHPYSPSPSYKRTV--MRSAASKAH-GKRSRVEQTTPEEEEKKRIRRE-RNKQ
+        80        90         100        110       120        130   
+
+         100       110       120       130       140       150     
+sp|Q1X AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR-GSR
+       ::   :.:.:   . :. :  :.:.... : . ....  :..::   ::      .  :.
+sp|P53 AAAKCRNRRRELTDTLQAETDQLEDEKSSLQNDIANLLKEKERLEFILAAHQPICKIPSQ
+           140       150       160       170       180       190   
+
+          160          170       180       190       200       210 
+sp|Q1X ANTPMPGSPATASPT---LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD
+        .: .  : .. ::.   :. :.  : .  .:  .    : : : .. : . : .. :::
+sp|P53 MDTDF--SVVSMSPVHACLSTTVSTQLQTSIP--EATTVTSSHSTFTST-SNSIFSGSSD
+             200       210       220         230        240        
+
+             220       230       240       250       260       270 
+sp|Q1X VAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSS
+             .:.: .  ..:.. . :: :.. ..: : .:                       
+sp|P53 ----SLLSTATV--SNSVVKMTDLDSSVLEESLDLLAKTEAETARSVPDVNLSNSLFAAQ
+          250         260       270       280       290       300  
+
+             280       290       300       310       320       330 
+sp|Q1X VFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGA
+                                                                   
+sp|P53 DWEPLHATISSSDFEPLCTPVVTCTPACTTLTSSFVFTFPEAETFPTCGVAHRRRSNSND
+            310       320       330       340       350       360  
+
+>>sp|Q9UPA5|BSN_HUMAN Protein bassoon OS=Homo sapiens GN  (3926 aa)
+ s-w opt: 166  Z-score: 136.5  bits: 37.2 E(516081):  4.4
+Smith-Waterman score: 166; 25.7% identity (58.3% similar) in 187 aa overlap (16-189:2328-2510)
+
+                              10        20        30          40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS--LNSADVKTQ
+                                     ::  :.. :   ..:.  :  :.    . .
+sp|Q9U RPEMPVGAAREEPLPTTTPAAIKEAAGAPAPAPLAGQKPPADAAPGGGSGALSRPGFEKE
+      2300      2310      2320      2330      2340      2350       
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+       :.. ::..  .:..    .:   ...:   .. . ..: :..:.: . :.:   :   .:
+sp|Q9U EASQEERQ--RKQQEQLLQLERERVELEKLRQLRLQEELERERVE-LQRHREEEQLLVQR
+      2360        2370      2380      2390      2400       2410    
+
+           110       120            130          140       150     
+sp|Q1X KRLEMEKLENEKIQMEQ---QNQFLLQR--LSQ--MEAEN-NRLSQQLAQLAAEVRGSRA
+       .  :.. .... .:..:   : :: :::  :.:  .. :. ..:.::: :   : . .: 
+sp|Q9U ELQELQTIKHHVLQQQQEERQAQFALQREQLAQQRLQLEQIQQLQQQLQQQLEEQK-QRQ
+         2420      2430      2440      2450      2460      2470    
+
+         160          170       180       190       200       210  
+sp|Q1X NTPMPGS---PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDV
+       ..:.:..   :. . :  .  : .. .   :: .  :                       
+sp|Q9U KAPFPAACEAPGRGPPLAAAELAQNGQYWPPLTHAAFIAMAGPEGLGQPREPVLHRGLPS
+          2480      2490      2500      2510      2520      2530   
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+                                                                   
+sp|Q9U SASDMSLQTEEQWEASRSGIKKRHSMPRLRDACELESGTEPCVVRRIADSSVQTDDEDGE
+          2540      2550      2560      2570      2580      2590   
+
+>>sp|O88737|BSN_MOUSE Protein bassoon OS=Mus musculus GN  (3942 aa)
+ s-w opt: 166  Z-score: 136.5  bits: 37.2 E(516081):  4.4
+Smith-Waterman score: 166; 24.2% identity (57.5% similar) in 186 aa overlap (16-189:2336-2518)
+
+                              10        20        30          40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS--LNSADVKTQ
+                                     :: : .. :.  .. .. :  :.    . .
+sp|O88 PAGVAREEPFSTTAPAVIKEAPVAPAPGPAPAPPPGQKPAGEAAAGSGSGVLSRPASEKE
+        2310      2320      2330      2340      2350      2360     
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+       :.. :...  .:..    .:   ...:   .. . ..: :..:.: . :.:   :   .:
+sp|O88 EASQEDRQ--RKQQEQLLQLERERVELEKLRQLRLQEELERERVE-LQRHREEEQLLVQR
+        2370        2380      2390      2400       2410      2420  
+
+           110       120            130         140       150      
+sp|Q1X KRLEMEKLENEKIQMEQ---QNQFLLQR--LSQ--MEAENNRLSQQLAQLAAEVRGSRAN
+       .  :.. .... .:..:   : :: :::  :.:  .. :. .  ::  ::  : . .: .
+sp|O88 ELQELQTIKQHVLQQQQEERQAQFALQREQLAQQRLQLEQIQQLQQQLQLQLEEQKQRQK
+           2430      2440      2450      2460      2470      2480  
+
+        160          170       180       190       200       210   
+sp|Q1X TPMPGS---PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+       .:.:..   :. . :  .  : .. .   :: .  :                        
+sp|O88 APFPATCEAPSRGPPPAATELAQNGQYWPPLTHAAFIAVAGTEGPGQPREPVLHRGLPSS
+           2490      2500      2510      2520      2530      2540  
+
+           220       230       240       250       260       270   
+sp|Q1X QHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVF
+                                                                   
+sp|O88 ASDMSLQTEEQWEAGRSGIKKRHSMPRLRDACEPESGPDPSTVRRIADSSVQTDDEEGEG
+           2550      2560      2570      2580      2590      2600  
+
+>>sp|P42774|GBF1_ARATH G-box-binding factor 1 OS=Arabido  (315 aa)
+ s-w opt: 144  Z-score: 136.3  bits: 33.5 E(516081):  4.5
+Smith-Waterman score: 144; 30.7% identity (60.6% similar) in 127 aa overlap (31-149:176-296)
+
+               10        20        30        40        50        60
+sp|Q1X MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+                                     ::.: .:.  . :   : .        . :
+sp|P42 VTAGSSDENDENANQQEQGSIRKPSFGQMLADASSQSTTGEIQGSVPMKPVAPGTNLNIG
+         150       160       170       180       190       200     
+
+               70        80        90       100       110       120
+sp|Q1X QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+       ..:   ....:      ..::.: .: .:   :: .:. :: ::. : :.:...  .. .
+sp|P42 MDLWSSQAGVP------VKDERELKRQKRKQSNRESARRSRLRKQAECEQLQQRVESLSN
+         210             220       230       240       250         
+
+                 130           140        150       160       170  
+sp|Q1X QNQFL---LQRLS----QMEAENNRLSQQLAQ-LAAEVRGSRANTPMPGSPATASPTLTP
+       .:: :   :::::    ....::: ....: . :.::                       
+sp|P42 ENQSLRDELQRLSSECDKLKSENNSIQDELQRVLGAEAVANLEQNAAGSKDGEGTN    
+     260       270       280       290       300       310         
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|Q7ZVN7|MED15_DANRE Mediator of RNA polymerase II tr  (809 aa)
+ s-w opt: 152  Z-score: 136.2  bits: 34.9 E(516081):  4.6
+Smith-Waterman score: 152; 20.8% identity (56.0% similar) in 259 aa overlap (58-297:322-573)
+
+        30        40        50        60        70        80       
+sp|Q1X VSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRI
+                                     :  :.. ::.     ... .. ....: ..
+sp|Q7Z QMQQQQQLQVQAQGQPQVQGQGGAVQMPPHSQQQQVLVPQMVQGQHSQMSALSQQQQLKL
+             300       310       320       330       340       350 
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+       ..... :   : ...... .... .... :..::.:   :. .: . .. .  :: .::.
+sp|Q7Z QQAMQARMQQQQQQQQQQQQQQQQQQQQQQQQQQQQ--QQQQQQHQQQQVQQVQQASQLT
+             360       370       380         390       400         
+
+                  150           160       170       180        190 
+sp|Q1X A-----------EV--RGSRA--NTPMPGSPATASPTLTPTLFKQERDELPLE-RIPFPT
+       :           ..  :  ::  :. .: .:.. .    :   ..  .  :.. . :   
+sp|Q7Z AVPGQMMPRPGMQIPPRLPRATPNSAIPQNPVAIGGQQMPQAQQMMSSPSPVQVQTPQSM
+     410       420       430       440       450       460         
+
+             200       210       220       230       240       250 
+sp|Q1X PSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPL
+       :   . .:. .: . .. ..:.. :. : .:.. . :  :  . .:.   .:   . .: 
+sp|Q7Z PPPPQPQPSPQPPS-SQPNSVSSGPTPSPGGFQPSPSPQPSQSPASSRTPQSYP-LQVP-
+     470       480        490       500       510       520        
+
+             260        270       280       290         300        
+sp|Q1X SDDDFNRLFHGDSSVEP-DSSVFEDGLAFDVLEGGDLSAF--PFDSMVNFDSEPVTLEGI
+       :   .:   . .: . :  .:  :: : .: :.  .:: .  :.  :.:           
+sp|Q7Z SPGPLNTPGNPSSVMSPAGASQSEDQLYMDKLR--QLSKYIEPLRRMINKIDKNEDRKKD
+        530       540       550         560       570       580    
+
+      310       320       330       340                            
+sp|Q1X EMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC                       
+                                                                   
+sp|Q7Z LSKMKSLLNILTDPNTRCPLKTLQKCEIALEKLKNDMAVPTPPPPPVPCTKKQYLCQPIL
+          590       600       610       620       630       640    
+
+>>sp|O42290|MAFA_CHICK Transcription factor MafA OS=Gall  (286 aa)
+ s-w opt: 143  Z-score: 136.2  bits: 33.4 E(516081):  4.6
+Smith-Waterman score: 143; 33.3% identity (67.9% similar) in 84 aa overlap (85-167:201-281)
+
+           60        70        80        90       100       110    
+sp|Q1X KRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE
+                                     .. .:.:.::. ::. : ..  . . ::::
+sp|O42 RFSDDQLVSMSVRELNRQLRGFSKEEVIRLKQNRRTLKNRGYAQSCRYKRVQQRHILENE
+              180       190       200       210       220       230
+
+          120       130       140       150        160       170   
+sp|Q1X KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG-SRANTPMPGSPATASPTLTPT
+       : :...: . : :..:..  : .  ...  .:::  ::  :  .: :..: :..      
+sp|O42 KCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA--RGFPREPSP-PAAPKTTAADFFM 
+              240       250       260         270        280       
+
+           180       190       200       210       220       230   
+sp|Q1X LFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLF
+
+>>sp|A9V549|EIF3A_MONBE Eukaryotic translation initiatio  (1052 aa)
+ s-w opt: 154  Z-score: 135.9  bits: 35.2 E(516081):  4.7
+Smith-Waterman score: 154; 27.1% identity (56.2% similar) in 203 aa overlap (41-231:770-966)
+
+               20        30        40        50        60        70
+sp|Q1X SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL
+                                     :: : . :        :.  ::  . . . 
+sp|A9V EKARVDHAKALGLKELLKAFAPDKDAYIEEKTAERRKEYMAKLDDFKQRMQEQKI-RLER
+     740       750       760       770       780       790         
+
+                   80          90       100       110        120   
+sp|Q1X PPRKRAKTE----DEKEQRRI--ERVLRNRAAAQTSRERKRLEMEKLEN-EKIQMEQQNQ
+         :.: . :    .:.:::::  :.  :..   ...::..: :. :::. :. .::. ..
+sp|A9V EERERKREEKRRAEEEEQRRIKQEEEDRKQREREAKREQERQEQLKLEEAERKKMEEATK
+      800       810       820       830       840       850        
+
+           130        140       150         160       170       180
+sp|Q1X FLLQRLSQMEA-ENNRLSQQLAQLAAEV--RGSRANTPMPGSPATASPTLTPTLFKQERD
+       .  ::  :..: :...::.  :: .  .  :..:...:  ..:..    .  . .: . .
+sp|A9V LQRQREEQVRAREQEKLSNLSAQTSQPTWKRSARSDAPTTAAPSS----MRVSSWKGDAS
+      860       870       880       890       900           910    
+
+              190       200        210        220       230        
+sp|Q1X ELPLERIPFPTPSLSDYSPTLKP-STLAESSDVA-QHPAVSVAGLEGDGSALPLFDLGSD
+       .   .  ::  :: .    . .  : :.. .: : .  . : .::   :.  :       
+sp|A9V DDSGRSQPF-RPSRGGERDSGRSFSGLGDRGDRAPRDTGRSFSGLGDRGDRAPRDTGRSF
+          920        930       940       950       960       970   
+
+      240       250       260       270       280       290        
+sp|Q1X LKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNF
+                                                                   
+sp|A9V SGLGDRAPRDFSGRSEPSRSGPRDFSGRSEAGRTSGERRALHVPSGGADKPSGDNVWRSS
+           980       990      1000      1010      1020      1030   
+
+>>sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcripti  (118 aa)
+ s-w opt: 135  Z-score: 135.9  bits: 32.0 E(516081):  4.8
+Smith-Waterman score: 135; 33.3% identity (77.8% similar) in 63 aa overlap (83-145:28-90)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     ..:...:  .::.::: ::...  . .::.
+sp|Q9D    MSQGPPAVSVLQRSVDAPGNQPQSPKDDDRKVRRREKNRVAAQRSRKKQTQKADKLH
+                  10        20        30        40        50       
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       .:. ..::.:. : ...:... :  .::. : .                           
+sp|Q9D EEHESLEQENSVLRREISKLKEELRHLSEVLKEHEKMCPLLLCPMNFVQLRSDPVASCLP
+        60        70        80        90       100       110       
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+                                                                   
+sp|Q9D R                                                           
+                                                                   
+
+>>sp|Q5RCJ1|CIP4_PONAB Cdc42-interacting protein 4 OS=Po  (601 aa)
+ s-w opt: 149  Z-score: 135.8  bits: 34.4 E(516081):  4.8
+Smith-Waterman score: 149; 25.4% identity (54.2% similar) in 177 aa overlap (29-186:294-463)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR-K
+                                     .:.:.::..     .. .:: . :...: :
+sp|Q5R DSQVLIELHKSGFARPGDVEFEDFSQPMNRAPSDSSLGTP----SDGRPELRGPGRSRTK
+           270       280       290       300           310         
+
+          60                      70        80        90       100 
+sp|Q1X SW--GQEL------------PVPKT--NLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :  :..             :::..  : ::  :.  .      .: . .. : :.  : 
+sp|Q5R RWPFGKKNKPRPPPLSPLGGPVPSALPNGPPSPRSGRDPLAILSEISKSVKPRLASFRSL
+     320       330       340       350       360       370         
+
+             110       120       130       140         150         
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA--EVRGSRANTPM
+       . .:  .   .  ..  ::: . : :   :.: .. .:.... :  :  ...    .::.
+sp|Q5R RGSRGTVVTEDFSHLPPEQQRKRLQQ---QLEERSRELQKEVDQREALKKMKDVYEKTPQ
+     380       390       400          410       420       430      
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+        :.::.  : .: :: . :: .: ...                                 
+sp|Q5R MGDPASLEPQITETLSNIERLKLEVQKYEAWLAEAESRVLSNRGDSLSRHARPPDPPTSA
+        440       450       460       470       480       490      
+
+>>sp|O43889|CREB3_HUMAN Cyclic AMP-responsive element-bi  (395 aa)
+ s-w opt: 145  Z-score: 135.4  bits: 33.7 E(516081):    5
+Smith-Waterman score: 145; 30.2% identity (62.8% similar) in 129 aa overlap (63-185:159-282)
+
+             40        50        60        70        80        90  
+sp|Q1X TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR
+                                     : .:.: ::    .::: :.  .:..: .:
+sp|O43 TPQHMEELAEQEIARLVLTDEEKSLLEKEGLILPET-LP---LTKTE-EQILKRVRRKIR
+      130       140       150       160           170        180   
+
+            100       110       120       130       140       150  
+sp|Q1X NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV--
+       :. .:: ::..:.. .  ::.. ...  ::. : .... .: .:  : .:: .: : :  
+sp|O43 NKRSAQESRRKKKVYVGGLESRVLKYTAQNMELQNKVQLLEEQNLSLLDQLRKLQAMVIE
+           190       200       210       220       230       240   
+
+                 160       170        180       190       200      
+sp|Q1X ---RGSRANTPMPGSPATASPTLTPTLFKQE-RDELPLERIPFPTPSLSDYSPTLKPSTL
+          . : ..: .    ..    :.:...... :  :: :                     
+sp|O43 ISNKTSSSSTCILVLLVSFCLLLVPAMYSSDTRGSLPAEHGVLSRQLRALPSEDPYQLEL
+           250       260       270       280       290       300   
+
+        210       220       230       240       250       260      
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSV
+                                                                   
+sp|O43 PALQSEVPKDSTHQWLDGSDCVLQAPGNTSCLLHYMPQAPSAEPPLEWPFPDLFSEPLCR
+           310       320       330       340       350       360   
+
+>>sp|O35284|BATF_MOUSE Basic leucine zipper transcriptio  (125 aa)
+ s-w opt: 135  Z-score: 135.4  bits: 32.0 E(516081):  5.1
+Smith-Waterman score: 135; 28.9% identity (62.2% similar) in 90 aa overlap (71-160:17-103)
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+                                     :: :. ...:    :...:  .:: ::: :
+sp|O35               MPHSSDSSDSSFSRSPPPGKQDSSDDV---RKVQRREKNRIAAQKS
+                             10        20           30        40   
+
+              110       120       130       140       150       160
+sp|Q1X RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP
+       :.:.  . . :. :. ..:.::  : ....:.  : . ... :..         ..:: :
+sp|O35 RQRQTQKADTLHLESEDLEKQNAALRKEIKQLTEELKYFTSVLSSHEPLCSVLASGTPSP
+            50        60        70        80        90       100   
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+                                                                   
+sp|O35 PEVVYSAHAFHQPHISSPRFQP                                      
+           110       120                                           
+
+>>sp|Q2UNX4|KAPC_ASPOR Putative transcription factor kap  (284 aa)
+ s-w opt: 142  Z-score: 135.3  bits: 33.2 E(516081):  5.1
+Smith-Waterman score: 142; 24.2% identity (51.6% similar) in 215 aa overlap (16-223:44-237)
+
+                              10        20           30         40 
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVL---TVSPAD-TSLNSADVK
+                                     :  ::.. : .   :.:: : .... :   
+sp|Q2U QTSAQDHADQVLHDQLLAAHQHLSHPQQPRPQPPAAQPPHMQPNTTSPRDQNNIDPAISG
+            20        30        40        50        60        70   
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       .  ..   . : . . . ::: :            ::  ..     .:. .:::: .. :
+sp|Q2U AAMLSGPPQTPPQPEPT-GQESP------------KTYGKRPLSTSKRAAQNRAAQRAFR
+            80        90                    100       110       120
+
+             110       120         130       140       150         
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQF--LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-
+       .::.  ..:::      :: ..:  . . .. ..::: .: . . .: ...  :....: 
+sp|Q2U QRKESYIRKLE------EQVKEFDTMSEAFKALQAENYQLREYIINLQSRLLESQGEVPE
+              130             140       150       160       170    
+
+      160       170       180       190       200       210        
+sp|Q1X MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV
+       .::.   ..:  :     :            :.:  :  . .  :.  : ..:. .   .
+sp|Q2U LPGNIDLSQPR-TDLNVPQPGAGPATTSSSAPAPP-SGAQQAQPPQGAASNDDMNSLNRI
+          180        190       200        210       220       230  
+
+      220       230       240       250       260       270        
+sp|Q1X SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLA
+       .::::                                                       
+sp|Q2U AVAGLGMRKHPNEEANYLGNNFTGRRTRPDETQADSEVTKTEQAPHGLPMVS        
+            240       250       260       270       280            
+
+>>sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive element-bi  (508 aa)
+ s-w opt: 147  Z-score: 135.3  bits: 34.0 E(516081):  5.1
+Smith-Waterman score: 147; 27.6% identity (59.3% similar) in 123 aa overlap (52-168:345-466)
+
+              30        40        50        60        70        80 
+sp|Q1X EVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDE
+                                     :: .. .  : .  :. .   :.:.  :: 
+sp|Q02 HSHSHLHAHPAHHQTSPHPPLHTGNQAQVSPATQQMQPTQTIQPPQPTGGRRRRVVDEDP
+          320       330       340       350       360       370    
+
+              90       100       110       120       130       140 
+sp|Q1X KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQ
+        :.:: . . ::::::   :..... . .::..  .. : :. : ...:... :  .:.:
+sp|Q02 DERRR-KFLERNRAAATRCRQKRKVWVMSLEKKAEELTQTNMQLQNEVSMLKNEVAQLKQ
+           380       390       400       410       420       430   
+
+                  150        160       170       180       190     
+sp|Q1X QL-----AQLAAEVRGSRAN-TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS
+        :       ..:  . :..  .:  . ::.  :                           
+sp|Q02 LLLTHKDCPITAMQKESQGYLSPESSPPASPVPACSQQQVIQHNTITTSSSVSEVVGSST
+           440       450       460       470       480       490   
+
+         200       210       220       230       240       250     
+sp|Q1X DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDD
+                                                                   
+sp|Q02 LSQLTTHRTDLNPIL                                             
+           500                                                     
+
+>>sp|Q6P9R4|ARHGI_MOUSE Rho guanine nucleotide exchange   (1021 aa)
+ s-w opt: 153  Z-score: 135.2  bits: 35.0 E(516081):  5.2
+Smith-Waterman score: 153; 24.0% identity (52.8% similar) in 246 aa overlap (9-250:628-858)
+
+                                     10        20          30      
+sp|Q1X                       MSCDMEKTMSSVDSLPATPASEVP--VLTVSPADTSLN
+                                     : :..:::..   :.   : :.:    ::.
+sp|Q6P WQGPASSPDSRPCDNSAPSGCCEESPQAVEMPSTESLPTVLELELVHRVQTLSQLLLSLQ
+       600       610       620       630       640       650       
+
+         40        50        60        70        80        90      
+sp|Q1X SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA
+       .. .  :.   : .. : ...    .:   . ::         ....:: .:.  ..::.
+sp|Q6P AV-IAQQDSYVEMQRTAIQEREKQFRLQSTRGNL-------LLEQERQRNFEKQREERAG
+        660       670       680       690              700         
+
+        100       110       120       130       140       150      
+sp|Q1X AQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRAN
+       ..  . . : :... : :. ...:. ..   ::.. :.:  .. :.: :  .:.. .:  
+sp|Q6P VEKLQSQLRQEQQRWERERARQQQELELAGARLQEREGEARQMRQRLDQERTELERQRQA
+     710       720       730       740       750       760         
+
+        160       170       180       190       200       210      
+sp|Q1X TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHP
+                 .   .     .::..: : :  :   .      .: : .:::.. ... :
+sp|Q6P YQHDLERLREAQRAVD----RERERLELLR-RFKKQNT--VPGALPPEVLAEAQPASHPP
+     770       780           790        800         810       820  
+
+        220        230       240        250       260       270    
+sp|Q1X AVSVAGLEGDGS-ALPLFDLGSDLKHHS-TDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+       . .  :::: .. :      :: . : .  :.:  :                        
+sp|Q6P SFNGDGLEGHSAPAKAPGTQGSAMLHGTGPDNVERPEVARWDSAPPESRPAKSDVPIQLL
+            830       840       850       860       870       880  
+
+          280       290       300       310       320       330    
+sp|Q1X DGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTT
+                                                                   
+sp|Q6P SATNQIQRQTAVQQQIPTKLAASTKGGKEKGSKSRGSQRWESSASFDLKQQLLLSKFIGK
+            890       900       910       920       930       940  
+
+>>sp|Q5F489|TAF3_CHICK Transcription initiation factor T  (930 aa)
+ s-w opt: 152  Z-score: 135.1  bits: 34.9 E(516081):  5.3
+Smith-Waterman score: 152; 26.1% identity (52.7% similar) in 226 aa overlap (14-232:662-845)
+
+                                10           20        30        40
+sp|Q1X                  MSCDMEKTMSSVDSLP--ATP-ASEVPVLTVSPADTSLNSADV
+                                     :::  .:: : ..:  .. :. . .    .
+sp|Q5F KKDKEKVKDKSKEDKIKPPSAPLVLPPKEMSLPLFSTPTAMRLP--SMLPSLSPMLPEKL
+             640       650       660       670         680         
+
+               50        60        70        80        90       100
+sp|Q1X KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS
+         .. ::.:::  ::.:               .:. . : .::...     ...   .  
+sp|Q5F FEDKEKPKEKKKDKKEK---------------KKKKEREKDKEKEK-----KDKEKERKE
+     690       700                      710       720              
+
+              110       120          130        140       150      
+sp|Q1X RERKRLEMEKLENEKIQMEQ---QNQFLLQRLS-QMEAENNRLSQQLAQLAAEVRGSRAN
+       ::.:. : :: ..:::..:      . .. ::. .. : ....  . .  : :   ..  
+sp|Q5F REKKEKEKEKHKHEKIKVEPVVPAPSPVIPRLTLRVGAGQDKIVISKVVPAPE---AKPA
+     730       740       750       760       770       780         
+
+        160       170       180       190       200       210      
+sp|Q1X TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHP
+       ::. . : :  :. .:.         :..  : :.:  .  .::..:. :  .:     :
+sp|Q5F TPV-SRPKTPPPVPSPV-------PAPVHVTPPPAPVPAPPQPTVSPALLPPAS-----P
+         790       800              810       820       830        
+
+        220       230       240       250       260       270      
+sp|Q1X AVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+       :::.::    ::  :.                                            
+sp|Q5F AVSAAG----GSKAPVRSVVTETVSTYVIRDEWGNQIWFCPGCNKPDDGSPMIGCDDCDD
+               840       850       860       870       880         
+
+>>sp|Q5HZG4|TAF3_MOUSE Transcription initiation factor T  (932 aa)
+ s-w opt: 152  Z-score: 135.1  bits: 34.9 E(516081):  5.3
+Smith-Waterman score: 152; 27.2% identity (52.0% similar) in 202 aa overlap (14-203:664-845)
+
+                                10        20        30        40   
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ
+                                     .::    : : : .. :: . .    .  .
+sp|Q5H KRERERLKEKNREDKIKAPPTQLVLPPKEMALPLFSPSAVRVPAMLPAFSPMLPEKLFEE
+           640       650       660       670       680       690   
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+       . ::.::.  : .:               .:. : : :::... ::   .:   .  ::.
+sp|Q5H KEKPKEKERKKDKK---------------EKKKKKEKEKEKEKKER---EREKERREREK
+           700                      710       720          730     
+
+           110       120          130        140       150         
+sp|Q1X KRLEMEKLENEKIQMEQ---QNQFLLQRLS-QMEAENNRLSQQLAQLAAEVRGS----RA
+       .. : :: ..:::..:      . .. ::. .. : ....  . .  : :.. .    : 
+sp|Q5H REKEKEKHKHEKIKVEPVIPAPSPVIPRLTLRVGAGQDKIVISKVVPAPEAKPAPSLNRP
+         740       750       760       770       780       790     
+
+         160           170       180       190       200       210 
+sp|Q1X NTPMPGS---PATASPT-LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD
+       .:: :.    :. .::: : : :. :      :  .: :.:.::  . .  :        
+sp|Q5H KTPPPAPVPIPVRVSPTPLQPPLLTQAAVCPAL--MPSPAPALSGIGSAKAPVRSVVTET
+         800       810       820         830       840       850   
+
+             220       230       240       250       260       270 
+sp|Q1X VAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSS
+                                                                   
+sp|Q5H VSTYVIRDEWGNQIWICPGCNKPDDGSPMIGCDDCDDWYHWPCVGIMAAPPEEMQWFCPK
+           860       870       880       890       900       910   
+
+>>sp|Q9UKV3|ACINU_HUMAN Apoptotic chromatin condensation  (1341 aa)
+ s-w opt: 155  Z-score: 134.9  bits: 35.4 E(516081):  5.4
+Smith-Waterman score: 155; 25.8% identity (55.1% similar) in 256 aa overlap (46-283:294-535)
+
+          20        30        40        50        60          70   
+sp|Q1X PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV--PKTNLPPR
+                                     : .:    :. :  :.:.:   :.  .  :
+sp|Q9U DRNLKTEEEEEEEEEEEEDDEEEEGDDEGQKSREAPILKEFKEEGEEIPRVKPEEMMDER
+           270       280       290       300       310       320   
+
+            80        90       100          110          120       
+sp|Q1X KRAKTEDEKEQRRIERVLRNRAAAQTS---RERKRLEMEK---LENEKIQMEQQNQFLLQ
+        ........  .:  :  :..  :. :   :.... ::.    ::.:. .. ...: : .
+sp|Q9U PKTRSQEQEVLERGGRFTRSQEEARKSHLARQQQEKEMKTTSPLEEEEREI-KSSQGLKE
+           330       340       350       360       370        380  
+
+       130       140         150       160        170       180    
+sp|Q1X RLSQMEAENNRLSQQLAQLAA--EVRGSRANTPMPG-SPATASPTLTPTLFKQERDELPL
+       . ..        ... :.:.:  :  .:. .:: :  .  ..::   : : ..:. : :.
+sp|Q9U KSKSPSPPRLTEDRKKASLVALPEQTASEEETPPPLLTKEASSPPPHPQLHSEEEIE-PM
+            390       400       410       420       430        440 
+
+          190       200       210         220       230       240  
+sp|Q1X ERIPFPTPSLSDYSPTLKPSTLAESSD--VAQHPAVSVAGLEGDGSALPLFDLGSDLKHH
+       :  : : : : . ::   :.: :.. .  :.:: .  :.::       :: .  :: : .
+sp|Q9U EG-PAP-PVLIQLSP---PNTDADTRELLVSQHTVQLVGGLS------PLSS-PSDTKAE
+               450          460       470             480          
+
+                 250       260       270       280       290       
+sp|Q1X ST-----DDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVN
+       :      .. . :: . .    . .....::.:.   . : . . :              
+sp|Q9U SPAEKVPEESVLPLVQKSTLADYSAQKDLEPESDRSAQPLPLKIEELALAKGITEECLKQ
+     490       500       510       520       530       540         
+
+       300       310       320       330       340                 
+sp|Q1X FDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC            
+                                                                   
+sp|Q9U PSLEQKEGRRASHTLLPSHRLKQSADSSSSRSSSSSSSSSRSRSRSPDSSGSRSHSPLRS
+     550       560       570       580       590       600         
+
+>>sp|Q5KGK5|EIF3A_CRYNE Eukaryotic translation initiatio  (952 aa)
+ s-w opt: 152  Z-score: 134.9  bits: 34.9 E(516081):  5.4
+Smith-Waterman score: 152; 30.7% identity (54.5% similar) in 202 aa overlap (48-230:735-930)
+
+        20        30        40        50          60        70     
+sp|Q1X TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKK--RKSWGQELPVPKTNLPPRKR
+                                     :: : ::.  :..  .:    . ..  :::
+sp|Q5K QRAARELKQRLGRMLEDYEAVKERIESQMQEELKAAKEEARRKIEEEKAQLREKVIKRKR
+          710       720       730       740       750       760    
+
+          80         90         100           110         120      
+sp|Q1X AKTEDE-KEQRRIERVLRNRA--AAQTSRERKR----LEMEKL--ENEKIQMEQQNQFLL
+        . : . :: :. :.  :..   ::: ..:. :    :: :    :... . : : :  :
+sp|Q5K EEKERKLKEAREAEERKRKEEEEAAQKAEEEARAAAALEAEAAAAEQRRAEREAQRQSDL
+          770       780       790       800       810       820    
+
+         130       140       150       160           170           
+sp|Q1X QRL-SQMEAENNRLSQQLAQLAAEVRGSRANTPMPG----SPATASPTLT---PTLFKQE
+       .:. .:.: :.. : .. :. :: . :. :  : :.    .: ::::. .   :. . ..
+sp|Q5K ERIRAQQEREEEALRRRQAEKAAATSGGSAYRP-PARAGTTPPTASPAPSSGGPSWLARR
+          830       840       850        860       870       880   
+
+      180       190       200       210       220       230        
+sp|Q1X RDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSD
+       .          :. :    ::   ::. : .:  :..   :.:: :..  ::        
+sp|Q5K KAMEAQSAGGAPVAS----SPKPVPSNSAAASAPASNGPESIAG-EAEKPALTGSVWRRG
+           890           900       910       920        930        
+
+      240       250       260       270       280       290        
+sp|Q1X LKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNF
+                                                                   
+sp|Q5K MGARRGMPSTRGGA                                              
+      940       950                                                
+
+>>sp|Q56TN0|FOS_PHORO Proto-oncogene c-Fos OS=Phodopus r  (381 aa)
+ s-w opt: 144  Z-score: 134.8  bits: 33.5 E(516081):  5.5
+Smith-Waterman score: 144; 23.5% identity (49.7% similar) in 306 aa overlap (2-291:57-353)
+
+                                            10        20           
+sp|Q1X                              MSCDMEKTMSSVDSLPATPASEVPVL--TVS
+                                     : ..  :...... :       :.:  .:.
+sp|Q56 LSYYHSPADSFSSMGSPVNAQDFCADLSVSSANFIPTVTAISTSPDLQWLVQPTLVSSVA
+         30        40        50        60        70        80      
+
+      30         40        50        60        70        80        
+sp|Q1X PADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE
+       :..:   .   : :  .    .    :  : :.   . . .   . .  . .:.:.:::.
+sp|Q56 PSQTRAPHPYGVPTPSTGAYSRAGMVKTVSGGRAQSIGRRG---KVEQLSPEEEEKRRIR
+         90       100       110       120          130       140   
+
+       90       100       110       120       130       140        
+sp|Q1X RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       :  ::. ::   :.:.:   . :. :  :.:.... :  .....  :...:   ::    
+sp|Q56 RE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEIANLLKEKEKLEFILAAHRP
+            150       160       170       180       190       200  
+
+      150       160       170          180          190       200  
+sp|Q1X EVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LPLERIPFPTPSLSDYSPTLK
+         .    .  .: . ..::  ::   :     : .:   :::   : :  :: . .   .
+sp|Q56 ACKIPD-DLGFPEDMSVASLDLTGGLPEAATPESEEAFSLPLLNEPEPKTSLESVKSISS
+             210       220       230       240       250       260 
+
+            210       220        230            240        250     
+sp|Q1X PSTLAESSDVAQHPAVSV-AGLEGDGSALPLFDL-GS----DLKH-HSTDDVAAPLSDDD
+           ::  :     : :  .: :  . ..: .:: ::    : .  ::..   .:.. . 
+sp|Q56 MELKAEPFDDFLFSASSRPSGSETTARSVPDMDLSGSFYAADWEPLHSSSLGMGPMATE-
+             270       280       290       300       310       320 
+
+         260       270       280       290       300       310     
+sp|Q1X FNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLP
+       .. :     .  :. ... ....:   :    ..::                        
+sp|Q56 LEPLCTPVVTCTPSCTTYTSSFVFTYPE---TDSFPSCAAAHRKGSSSNEPSSDSLSSPT
+              330       340          350       360       370       
+
+         320       330       340     
+sp|Q1X DETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                     
+sp|Q56 LLAL                          
+       380                           
+
+>>sp|Q3KQU3|MA7D1_HUMAN MAP7 domain-containing protein 1  (841 aa)
+ s-w opt: 150  Z-score: 134.0  bits: 34.5 E(516081):  6.1
+Smith-Waterman score: 150; 24.6% identity (48.9% similar) in 264 aa overlap (16-258:555-812)
+
+                              10        20        30         40    
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS-LNSADVKTQE
+                                     :: : .: :  . .:.:.. :.:  . .  
+sp|Q3K DKSQSKRRASNEKESAAPASPAPSPAPSPTPAPPQKEQPP-AETPTDAAVLTSPPAPAPP
+          530       540       550       560        570       580   
+
+           50        60        70        80              90        
+sp|Q1X VKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK------EQRRIERVLRNRAAAQ
+       : : .   .   .  . .: . :     ..: . :.:.      ..:  :. :  .: :.
+sp|Q3K VTPSKPMAGTTDREEATRLLAEKRRQAREQREREEQERRLQAERDKRMREEQLAREAEAR
+           590       600       610       620       630       640   
+
+      100          110       120              130       140        
+sp|Q1X TSRE---RKRLEMEKLENEKIQMEQQNQFLLQRL-------SQMEAENNRLSQQLA-QLA
+       . ::   :.: :.:    :: : ::..:  ::.        :. ::: .:: ..   :  
+sp|Q3K AEREAEARRREEQEA--REKAQAEQEEQERLQKQKEEAEARSREEAERQRLEREKHFQQQ
+           650         660       670       680       690       700 
+
+       150       160       170       180        190       200      
+sp|Q1X AEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLE-RIPFPTPSLSDYSPTLKPSTL
+        . :  : .        : .  .. :  ::.  :   .   : :. ..   :: :.  ..
+sp|Q3K EQERQERRKRLEEIMKRTRKSEVSETKQKQDSKEANANGSSPEPVKAVEARSPGLQKEAV
+             710       720       730       740       750       760 
+
+        210       220       230       240         250       260    
+sp|Q1X AESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAA--PLSDDDFNRLFHGDS
+        .   . :.:  :. . :  .:   : .  . :  :. .  ..  : .: ...:      
+sp|Q3K QKEEPIPQEPQWSLPSKELPAS---LVNGLQPLPAHQENGFSTNGPSGDKSLSRTPETLL
+             770       780          790       800       810        
+
+          270       280       290       300       310       320    
+sp|Q1X SVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSS
+                                                                   
+sp|Q3K PFAEAEAFLKKAVVQSPQVTEVL                                     
+      820       830       840                                      
+
+>>sp|Q15642|CIP4_HUMAN Cdc42-interacting protein 4 OS=Ho  (601 aa)
+ s-w opt: 147  Z-score: 133.9  bits: 34.0 E(516081):  6.1
+Smith-Waterman score: 147; 22.4% identity (50.2% similar) in 263 aa overlap (29-272:294-542)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR-K
+                                     .:.:.::.. .    . .:: . :...: :
+sp|Q15 DSHVLIELHKSGFARPGDVEFEDFSQPMNRAPSDSSLGTPS----DGRPELRGPGRSRTK
+           270       280       290       300           310         
+
+          60                      70        80        90       100 
+sp|Q1X SW--GQEL------------PVPKT--NLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+        :  :..             :::..  : ::  :.  .      .: . .. : :.  : 
+sp|Q15 RWPFGKKNKPRPPPLSPLGGPVPSALPNGPPSPRSGRDPLAILSEISKSVKPRLASFRSL
+     320       330       340       350       360       370         
+
+             110       120       130       140         150         
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA--EVRGSRANTPM
+       . .:  .   .  ..  ::: . : :   :.: .. .:.... :  :  ...    .::.
+sp|Q15 RGSRGTVVTEDFSHLPPEQQRKRLQQ---QLEERSRELQKEVDQREALKKMKDVYEKTPQ
+     380       390       400          410       420       430      
+
+     160       170       180       190       200       210         
+sp|Q1X PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS
+        :.::.  : .. :: . :: .: ...         .   . . ..:.. .   . :: :
+sp|Q15 MGDPASLEPQIAETLSNIERLKLEVQKYEAWLAEAESRVLSNRGDSLSRHARPPDPPA-S
+        440       450       460       470       480       490      
+
+     220       230       240       250       260       270         
+sp|Q1X VAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAF
+       .    ...::      ..: :. : .  .   .:  .   :  :   :: : .       
+sp|Q15 APPDSSSNSA------SQDTKESSEEPPSEESQDTPIYTEFDEDFEEEPTSPIGHCVAIY
+         500             510       520       530       540         
+
+     280       290       300       310       320       330         
+sp|Q1X DVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQ
+                                                                   
+sp|Q15 HFEGSSEGTISMAEGEDLSLMEEDKGDGWTRVRRKEGGEGYVPTSYLRVTLN        
+     550       560       570       580       590       600         
+
+>>sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive element-bi  (428 aa)
+ s-w opt: 144  Z-score: 133.9  bits: 33.5 E(516081):  6.2
+Smith-Waterman score: 144; 25.8% identity (55.1% similar) in 178 aa overlap (25-199:161-322)
+
+                     10        20        30        40        50    
+sp|Q1X       MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAK
+                                     .:. .:  ..  : .   . .  :..:   
+sp|Q1L LPDQSGGTQCASETPQAQQTTGFPLTVKDLLLSGTPEPAAKVSQQSYQELILTEDEKRLL
+              140       150       160       170       180       190
+
+           60        70        80        90       100       110    
+sp|Q1X KRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE
+        ..  :. ::   ...:  :     .:.  ..:.: .::. .:: ::..:.  .. ::..
+sp|Q1L AKE--GMTLP---NQFPLTKY----EERILKKIRRKIRNKQSAQESRKKKKEYIDGLESR
+                   200           210       220       230       240 
+
+          120       130       140       150       160       170    
+sp|Q1X KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTL
+             .:. : ... :.:  :  : .:: .: : : .. .: :. ..  .    :. ::
+sp|Q1L MAACSAHNHELQRKVFQLEKCNISLMEQLRRLQALVMNG-SNKPVQAGTCVLVLLLSFTL
+             250       260       270       280        290       300
+
+          180       190          200       210       220       230 
+sp|Q1X FKQERDELPLERIPFPTPSLS---DYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+       .      ::  . ::   ..:   :.::                                
+sp|Q1L IL-----LPNLK-PFTDTKVSQHGDFSPMRVQSRSLHNLQSSRVLRNLDHPYSMTENAKI
+                    310       320       330       340       350    
+
+>>sp|Q6DE84|MAFB_XENLA Transcription factor MafB OS=Xeno  (313 aa)
+ s-w opt: 141  Z-score: 133.6  bits: 33.0 E(516081):  6.4
+Smith-Waterman score: 141; 26.8% identity (60.6% similar) in 142 aa overlap (29-163:171-309)
+
+                 10        20        30        40        50        
+sp|Q1X   MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS
+                                     ::. .: .: ... :. .   .. .. : :
+sp|Q6D HQYQGVHHEEMGLPHHHPHHHQHQHHQTSPSPSGSSSSSQQLHHQQ-QHSSSSAVEDRFS
+              150       160       170       180        190         
+
+       60        70        80           90       100       110     
+sp|Q1X WGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEK
+         : . .   .:  . :. :.:.    .:.:  :.:.::. ::. : ..  . ..::.::
+sp|Q6D DDQLVSMTVRELNRHLRGFTKDDVIRLKQKR--RTLKNRGYAQSCRYKRVQQKHNLEGEK
+     200       210       220       230         240       250       
+
+         120       130       140           150       160       170 
+sp|Q1X IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA----AEVRGSRANTPMPGSPATASPTLT
+        :. :: . : :..:..  : .  . .  .::    .. : . ...  :.::        
+sp|Q6D TQLVQQVEQLKQEVSRLARERDAYKIKCEKLANNNSSNFREAGSTSDNPSSPEFFM    
+       260       270       280       290       300       310       
+
+             180       190       200       210       220       230 
+sp|Q1X PTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP
+
+>>sp|P18625|FOSL2_CHICK Fos-related antigen 2 OS=Gallus   (323 aa)
+ s-w opt: 141  Z-score: 133.4  bits: 33.0 E(516081):  6.6
+Smith-Waterman score: 141; 24.4% identity (54.8% similar) in 217 aa overlap (68-271:108-311)
+
+        40        50        60        70          80        90     
+sp|Q1X ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK--TEDEKEQRRIERVLRNRA
+                                     :..  :.: .  . .:.:.:::.:  ::. 
+sp|P18 SHPYSHPLPPLSSVAGHTALQRPGVIKTIGTTVGRRRRDEQLSPEEEEKRRIRRE-RNKL
+        80        90       100       110       120       130       
+
+         100       110       120       130       140       150     
+sp|Q1X AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS--
+       ::   :.:.:   :::. :   .:.... : ....... :...:  .:.  .   . :  
+sp|P18 AAAKCRNRRRELTEKLQAETEVLEEEKSVLQKEIAELQKEKEKLEFMLVAHSPVCKISPE
+        140       150       160       170       180       190      
+
+            160       170       180       190          200         
+sp|Q1X -RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSL---SDYSPTLKPSTLAES
+        : . :  .  .. . .   .. :::    :.:.  .:. ::   .    ..:: ..: .
+sp|P18 ERRSPPTSSLQSVRTGASGAVVVKQE----PVEE-EIPSSSLVLDKAQRSVIKPISIAGG
+        200       210       220            230       240       250 
+
+       210       220       230          240       250       260    
+sp|Q1X --SDVAQHPAVSVAGLEGDGSALPLFDLGSD---LKHHSTDDVAAPLSDDDFNRLFHGDS
+         .. : .  . :       .. : .  ::.   . . .. :  .::: ..     :  :
+sp|P18 YYGEEALNTPIVV-------TSTPAITPGSSNLVFTYPNVLDQESPLSPSESCSKAHRRS
+             260              270       280       290       300    
+
+          270       280       290       300       310       320    
+sp|Q1X SVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSS
+       :   :.:                                                     
+sp|P18 SSSGDQSSDSLNSPTLLAL                                         
+          310       320                                            
+
+>>sp|Q3UHR0|BAHC1_MOUSE BAH and coiled-coil domain-conta  (2643 aa)
+ s-w opt: 159  Z-score: 133.2  bits: 36.0 E(516081):  6.7
+Smith-Waterman score: 159; 23.0% identity (49.5% similar) in 382 aa overlap (8-338:860-1230)
+
+                                      10        20          30     
+sp|Q1X                        MSCDMEKTMSSVDSLPATPASEVPVLTV--SPADTSL
+                                     .: ::  ::   :... .:    .:  :  
+sp|Q3U SLWMGGHSYGLGHPALHQNLPPGFPASVPGSMPSVFPLPQDAATQLVILPSEPTPHTTPH
+     830       840       850       860       870       880         
+
+          40            50        60        70        80        90 
+sp|Q1X NSADVKTQE-VKPE---EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL
+       . :.:  :  . :     . ::.. .  ::        ::  .:..   ..:   ...  
+sp|Q3U TLAEVMDQASLWPPMYGARGPASHMQHPGQ--------LPVYSRSQLLRQQELYALQQQQ
+     890       900       910               920       930       940 
+
+             100       110       120        130       140          
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL-LQRLSQMEAENNRLSQQLAQLAAE-
+       ...   : ...... .... .... :... .: : :::..:.. . .   ..: . : : 
+sp|Q3U QQQQQQQQQQQQQQQQQQQQQQQQQQQHRATQALELQRVAQFQRKPEDRHMELEEAAQEK
+             950       960       970       980       990      1000 
+
+         150       160        170               180         190    
+sp|Q1X ----VRGSRANTPMP-GSPATASPTL--------TPTLFKQERDELPLER--IPFPTPSL
+           ..   : :::  :.:..:.  :        .:::        :  :   :   :  
+sp|Q3U TPKSTHKPVALTPMAKGTPSSATAGLVKLSPCCQSPTLKTPASCPTPPPRPSAPCTLPIC
+            1010      1020      1030      1040      1050      1060 
+
+             200       210       220                  230       240
+sp|Q1X SDYSP---TLKPSTLAESSDVAQHPAVSVAGLEGDGS-----------ALPLFDLGSDLK
+          ::   .  :::. ..:. .:. ..... :: : .           .::    .:::.
+sp|Q3U PTGSPGPGSKVPSTM-DKSEEGQRAGTNLTTLEPDLTPGLNPTAGLDLSLPSDVHSSDLQ
+            1070       1080      1090      1100      1110      1120
+
+              250       260        270          280       290      
+sp|Q1X HHSTDDVAAPLSDDDFNRLF-HGDSSVEPDSSVFEDGL---AFDVLEGGDLSAFPFDSMV
+         .: ....: .  .  : :  :.       .. : ::   : :. .  ::. .:     
+sp|Q3U DPKTMQTTTPGTRPEPPRTFLPGEPPPCSPRNLEEPGLLSRARDATQ--DLANLPPPVEG
+             1130      1140      1150      1160        1170        
+
+        300                 310       320       330       340      
+sp|Q1X NFDS----EPVTLEGIE------MAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 
+       ..      .:  :::..      . .:   :.: .:.:.: :.    :  .:        
+sp|Q3U GLPPGKAEDPSPLEGLQALKFGDLLEGGGTEATGQTNSTQGGMQNERTVDQGAPQPPLGA
+     1180      1190      1200      1210      1220      1230        
+
+sp|Q3U TPQALEQEAGSPAALDKREGPQKVPDVAQLQEEETQLEESGGDSEVDWGTPNHSHPPKAL
+     1240      1250      1260      1270      1280      1290        
+
+>>sp|Q8BW74|HLF_MOUSE Hepatic leukemia factor OS=Mus mus  (295 aa)
+ s-w opt: 140  Z-score: 133.2  bits: 32.9 E(516081):  6.8
+Smith-Waterman score: 140; 25.8% identity (54.3% similar) in 151 aa overlap (2-148:142-290)
+
+                                            10           20        
+sp|Q1X                              MSCDMEKTMSSVDSLPA---TPASEVPVLTV
+                                     .: :.. .   . :::   ::.   :    
+sp|Q8B GLQPASSTAPSVMDLSSRATAPLHPGIPSPNC-MQSPIRPGQLLPANRNTPSPIDPDTIQ
+             120       130       140        150       160       170
+
+       30        40        50        60         70        80       
+sp|Q1X SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQEL-PVPKTNLPPRKRAKTEDEKEQRRI
+        :.    . ::.  . .  .:    .:::   .:: : :  .   ::    .: :...  
+sp|Q8B VPVGYEPDPADLALSSIPGQEMFDPRKRKFSEEELKPQPMIK-KARKVFIPDDLKDDKYW
+              180       190       200       210        220         
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+        :  .:  ::. ::. .::. ...  .   .:..:. : :...... : .. .. ::.  
+sp|Q8B ARRRKNNMAAKRSRDARRLKENQIAIRASFLEKENSALRQEVADLRKELGKCKNILAKYE
+     230       240       250       260       270       280         
+
+       150       160       170       180       190       200       
+sp|Q1X AEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLA
+       :                                                           
+sp|Q8B ARHGPL                                                      
+     290                                                           
+
+>>sp|Q16534|HLF_HUMAN Hepatic leukemia factor OS=Homo sa  (295 aa)
+ s-w opt: 140  Z-score: 133.2  bits: 32.9 E(516081):  6.8
+Smith-Waterman score: 140; 25.8% identity (54.3% similar) in 151 aa overlap (2-148:142-290)
+
+                                            10           20        
+sp|Q1X                              MSCDMEKTMSSVDSLPA---TPASEVPVLTV
+                                     .: :.. .   . :::   ::.   :    
+sp|Q16 GLQPASSAAPSVMDLSSRASAPLHPGIPSPNC-MQSPIRPGQLLPANRNTPSPIDPDTIQ
+             120       130       140        150       160       170
+
+       30        40        50        60         70        80       
+sp|Q1X SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQEL-PVPKTNLPPRKRAKTEDEKEQRRI
+        :.    . ::.  . .  .:    .:::   .:: : :  .   ::    .: :...  
+sp|Q16 VPVGYEPDPADLALSSIPGQEMFDPRKRKFSEEELKPQPMIK-KARKVFIPDDLKDDKYW
+              180       190       200       210        220         
+
+        90       100       110       120       130       140       
+sp|Q1X ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA
+        :  .:  ::. ::. .::. ...  .   .:..:. : :...... : .. .. ::.  
+sp|Q16 ARRRKNNMAAKRSRDARRLKENQIAIRASFLEKENSALRQEVADLRKELGKCKNILAKYE
+     230       240       250       260       270       280         
+
+       150       160       170       180       190       200       
+sp|Q1X AEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLA
+       :                                                           
+sp|Q16 ARHGPL                                                      
+     290                                                           
+
+>>sp|Q9NZ53|PDXL2_HUMAN Podocalyxin-like protein 2 OS=Ho  (605 aa)
+ s-w opt: 146  Z-score: 133.0  bits: 33.9 E(516081):  6.9
+Smith-Waterman score: 146; 25.3% identity (51.9% similar) in 285 aa overlap (32-294:107-375)
+
+              10        20        30        40          50         
+sp|Q1X SCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE--EKKPAKKRKSW
+                                     :.::. . . .. : :.  ::  . .  : 
+sp|Q9N PGSGFPSEENEESRILQPPQYFWEEEEELNDSSLDLGPT-ADYVFPDLTEKAGSIEDTSQ
+         80        90       100       110        120       130     
+
+      60             70               80        90       100       
+sp|Q1X GQELP-----VPKTNL-------PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE
+       .::::     .:: ::       :::.. . :.:.:.:. :.: .     :  .:...: 
+sp|Q9N AQELPNLPSPLPKMNLVEPPWHMPPREEEEEEEEEEEREKEEVEK-----QEEEEEEELL
+         140       150       160       170       180            190
+
+       110       120       130       140       150       160       
+sp|Q1X MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS
+         .  .:. .  :  .: :   ::  . ..   .. .. :.   : .... :  .:.   
+sp|Q9N PVNGSQEEAK-PQVRDFSLTSSSQTPGATKSRHEDSGDQASS--GVEVESSM--GPSLLL
+              200        210       220       230           240     
+
+       170        180       190       200       210       220      
+sp|Q1X PTLTPTLFKQ-ERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGD
+       :..:::     ..:    :      :. .       :.   :.:. :   :....: . .
+sp|Q9N PSVTPTTVTPGDQDSTSQEAEATVLPAAGLGVEFEAPQ---EASEEATAGAAGLSGQHEE
+         250       260       270       280          290       300  
+
+        230          240       250       260       270        280  
+sp|Q1X GSALPLFDLG---SDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVF-EDGLAFDVL
+         ::: :      :  .: . : ...  : .  . :  ::  . :.:... .. :  ..:
+sp|Q9N VPALPSFPQTTAPSGAEHPDEDPLGSRTSAS--SPLAPGDMELTPSSATLGQEDLNQQLL
+            310       320       330         340       350       360
+
+               290       300       310       320       330         
+sp|Q1X EGGDLSA---FPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQ
+       ::    :   .:.::                                             
+sp|Q9N EGQAAEAQSRIPWDSTQVICKDWSNLAGKNYIILNMTENIDCEVFRQHRGPQLLALVEEV
+              370       380       390       400       410       420
+
+>>sp|Q7TSC1|BAT2_MOUSE Large proline-rich protein BAT2 O  (2158 aa)
+ s-w opt: 157  Z-score: 132.9  bits: 35.7 E(516081):  6.9
+Smith-Waterman score: 157; 27.2% identity (48.4% similar) in 217 aa overlap (18-222:378-571)
+
+                            10        20        30          40     
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSL--NSADVKTQEV
+                                     .:.::.:     :  :.   :.   .:. .
+sp|Q7T RDSDEEGAEGHKDSQSAAAEEPETDGKKGTSPGSELP-----PPKTAWTENARPSETEPA
+       350       360       370       380            390       400  
+
+          50             60        70        80           90       
+sp|Q1X KPEEKKPAKKRK-----SWGQELPVPKTNLPPRKRAKTEDEKE---QRRIERVLRNRAAA
+        :  : :    .     .::     :  . :: :    ::: :   ::: .   .   :.
+sp|Q7T PPTPKPPPPPPHRGPVGNWGPPGDYPDRGGPPCKPPAPEDEDEAWRQRRKQSSSEISLAV
+            410       420       430       440       450       460  
+
+       100       110       120       130        140       150      
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEVRGSRAN
+       . .:.:.. : .....:.     ..   :.::.. . : ..::.   :. ::        
+sp|Q7T ERARRRREEEERRMQEERRAACAEK---LKRLDEKFGAPDKRLK---AEPAA--------
+            470       480          490       500                   
+
+        160       170       180       190       200       210      
+sp|Q1X TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD-VAQH
+        : : .::  .:.: :.. :.      :   : :::      :.  : . :  :  ::  
+sp|Q7T -P-PVTPA--APALPPVVPKEIPAAPALPPTPTPTPEKEPEEPAQAPPVQAAPSPGVAPV
+        510         520       530       540       550       560    
+
+         220       230       240       250       260       270     
+sp|Q1X PAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFED
+       :..  .:                                                     
+sp|Q7T PTLVSGGGCTANSNSSGSFEASPVEPQLPSKEGPEPPEEVPPPTTPPAPKMEPKGDGVGS
+          570       580       590       600       610       620    
+
+>>sp|O35451|ATF6B_MOUSE Cyclic AMP-dependent transcripti  (699 aa)
+ s-w opt: 147  Z-score: 132.7  bits: 34.0 E(516081):  7.1
+Smith-Waterman score: 147; 23.6% identity (50.8% similar) in 254 aa overlap (16-241:259-500)
+
+                              10        20        30          40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS--LNSADVKTQ
+                                     :.. :  .  :. .:: .   : .. ...:
+sp|O35 SSGKAPATRKPPLQPKPVVLTTVPVPPRAGPTSAAVLLQPLVQQPAVSPVVLIQGAIRVQ
+      230       240       250       260       270       280        
+
+            50        60        70        80        90       100   
+sp|Q1X EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER
+          :    :  .:::     :.: .. ::.      : :  .: .:...:: .:  ::..
+sp|O35 PEGPAPAAPRPERKSI-VPAPMPGNSCPPE-----VDAKLLKRQQRMIKNRESACQSRRK
+      290       300        310            320       330       340  
+
+           110              120       130            140       150 
+sp|Q1X KRLEMEKLEN-------EKIQMEQQNQFLLQRLSQMEAENNRL-----SQQLAQLAAEVR
+       :.  .. ::        .. :....:  : .::  . :::. :     ..... . . . 
+sp|O35 KKEYLQGLEARLQAVLADNQQLRRENAALRRRLEALLAENSGLKLGSGNRKVVCIMVFLL
+            350       360       370       380       390       400  
+
+              160       170        180       190       200         
+sp|Q1X GSRANT-PMPGSPATASPTLTPTLFKQE-RDELPLERIPFPTPSLSDYSPTLKPSTLAES
+           :  :.  :    .: ..: . ..: : .  :  .  : :. .     ..:   : .
+sp|O35 FIAFNFGPVSISEPPPAP-MSPRMSREEPRPQRHLLGFSEPGPAHG-----MEPLREAAQ
+            410       420        430       440            450      
+
+     210              220       230            240       250       
+sp|Q1X SDVAQHPAVS-------VAGLEGDGSALPLFDL-----GSDLKHHSTDDVAAPLSDDDFN
+       :   :.:. .       .... : .. : : ::     .:: .:                
+sp|O35 SPGEQQPSSAGRPSFRNLTAFPGGAKELLLRDLDQLFLSSDCRHFNRTESLRLADELSGW
+        460       470       480       490       500       510      
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|O35 VQRHQRGRRKIPHRAQERQKSQLRKKSPPVKPVPTQPPGPPERDPVGQLQLYRHPGRSQP
+        520       530       540       550       560       570      
+
+>>sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcripti  (703 aa)
+ s-w opt: 147  Z-score: 132.7  bits: 34.0 E(516081):  7.2
+Smith-Waterman score: 147; 24.8% identity (51.2% similar) in 254 aa overlap (17-241:260-503)
+
+                             10        20          30           40 
+sp|Q1X               MSCDMEKTMSSVDSLPATPASEVPVLT--VSPADTS---LNSADVK
+                                     :.: : . .:   :.:  .:   : .. ..
+sp|Q99 DGSSGKALPTRKPPLQPKPVVLTTVPMPSRAVPPSTTVLLQSLVQPPPVSPVVLIQGAIR
+     230       240       250       260       270       280         
+
+              50        60        70        80        90       100 
+sp|Q1X TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR
+       .:   :  . :  .:::     :.: .. ::.      : :  .: .:...:: .:  ::
+sp|Q99 VQPEGPAPSLPRPERKSI-VPAPMPGNSCPPEV-----DAKLLKRQQRMIKNRESACQSR
+     290       300        310       320            330       340   
+
+             110              120       130            140         
+sp|Q1X ERKRLEMEKLEN-------EKIQMEQQNQFLLQRLSQMEAENNRL-----SQQLAQLAAE
+       ..:.  .. ::        .. :....:  : .::  . :::..:     ..... . . 
+sp|Q99 RKKKEYLQGLEARLQAVLADNQQLRRENAALRRRLEALLAENSELKLGSGNRKVVCIMVF
+           350       360       370       380       390       400   
+
+     150        160       170          180               190       
+sp|Q1X VRGSRANT-PMPGSPATASPTLTPTLFK---QERDEL-------PLERI-PFPTPSLSDY
+       .     :  :.  :   ..: ..: . :   : : .:       :.. . :.   : .  
+sp|Q99 LLFIAFNFGPVSISEPPSAP-ISPRMNKGEPQPRRHLLGFSEQEPVQGVEPLQGSSQGPK
+           410       420        430       440       450       460  
+
+       200       210       220       230       240       250       
+sp|Q1X SPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFN
+        :  .:.     :...  :. .   :  : .   :: :.:: .:                
+sp|Q99 EPQPSPTDQPSFSNLTAFPGGAKELLLRDLDQ--LF-LSSDCRHFNRTESLRLADELSGW
+            470       480       490          500       510         
+
+       260       270       280       290       300       310       
+sp|Q1X RLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDE
+                                                                   
+sp|Q99 VQRHQRGRRKIPQRAQERQKSQPRKKSPPVKAVPIQPPGPPERDSVGQLQLYRHPDRSQP
+     520       530       540       550       560       570         
+
+>>sp|Q3UIW5|RNF10_MOUSE RING finger protein 10 OS=Mus mu  (804 aa)
+ s-w opt: 148  Z-score: 132.5  bits: 34.2 E(516081):  7.3
+Smith-Waterman score: 148; 24.4% identity (55.0% similar) in 209 aa overlap (80-285:588-784)
+
+      50        60        70        80        90       100         
+sp|Q1X KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+                                     :. :.:. .:  ...:  .  ::: :.:::
+sp|Q3U SHLPLTCEFSICELALQPPVVSKETLEMFSDDIEKRKRQR--QKKAREERRRER-RIEME
+       560       570       580       590         600        610    
+
+     110       120       130          140       150       160      
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRL---SQQLAQLAAEVRGSRANTPMPGSPATA
+         ::..     . .. :. :.:. : :.     .. :.  ..: .:. . .:.  ::.. 
+sp|Q3U --ENKRQGRYPEVHIPLENLQQFPAFNSYTCPSDSALGPTSTEGHGALSLSPLSRSPGSH
+            620       630       640       650       660       670  
+
+        170       180       190       200       210       220      
+sp|Q1X SPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGD
+       .  :   :     .  :     : . :: : :: :. . . . . .      ..:  . :
+sp|Q3U ADFLLTPLSPTASQGSP----SFCVGSLEDDSPFLSFAQMLRVGKAKADGWPKTAPKKDD
+            680           690       700       710       720        
+
+        230       240       250       260       270       280      
+sp|Q1X GSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGD
+       .: .:   . :: .  ..: : .:  ...:.. ... . .. :. .  : :. :  .:: 
+sp|Q3U NSLVPPAPVDSDGESDNSDRVPVPSFQNSFSQAIEA-AFMKLDTPATSDPLSED--RGGK
+      730       740       750       760        770       780       
+
+        290       300       310       320       330       340     
+sp|Q1X LSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+                                                                  
+sp|Q3U KRKRQKQKLLFSTSVVHTK                                        
+         790       800                                            
+
+>>sp|Q6C908|PAN1_YARLI Actin cytoskeleton-regulatory com  (1634 aa)
+ s-w opt: 154  Z-score: 132.4  bits: 35.2 E(516081):  7.5
+Smith-Waterman score: 154; 26.2% identity (50.6% similar) in 320 aa overlap (16-311:1113-1403)
+
+                              10        20         30        40    
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVS-PADTSLNSADVKTQE
+                                     :::  . .:.. :: ::: :    :   .:
+sp|Q6C SPAVASPAATPAVSSPAPVSRGVPAPAAATPATDPATTPAVPVSAPADDS----DSDDEE
+           1090      1100      1110      1120      1130            
+
+           50        60        70        80        90       100    
+sp|Q1X VKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERK
+           ::  :.::.   ::    : .   .:.   :.::.:..         ::.  : ::
+sp|Q6C Y---EKLMAQKRE---QEERFKKQQEADKKK---EEEKKQKK---------AAKEERMRK
+        1140         1150      1160         1170               1180
+
+           110        120       130       140       150        160 
+sp|Q1X -RLEMEKLEN-EKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG-SRANTPMPG
+        : :::  :  ::   :.:.    ..    :::..  .  :: .. .. . : . : . .
+sp|Q6C LREEMEANEAREKAWKESQS----KEAEADEAEGDVGAAALAAFSNKATAPSTTPTAVAA
+             1190      1200          1210      1220      1230      
+
+               170       180               190       200       210 
+sp|Q1X SP--ATASPTLTPTLFKQERDELPLERI--------PFPTPSLSDYSPTLKPSTLAESSD
+       .:  ::..:. .        :. :..:.          :. .  : .: :.:.:  ..  
+sp|Q6C TPPVATSTPSPAAPTVPAADDNNPFHRLNNGGDAAAAAPAAGGEDNNPFLRPGT--NQPI
+       1240      1250      1260      1270      1280      1290      
+
+              220       230         240       250        260       
+sp|Q1X VAQHPA-VSVAGLEGDGSALP--LFDLGSDLKHHSTDDVAAPLS-DDDFNRLFHGDSSVE
+       .:  ::  : :  :.   . :  . .  .. .  ..::    .: :.: .. .:  ...:
+sp|Q6C AAPSPASFSEAPKEAPKPVDPVKISNQRANQRAAKNDDDDWGMSSDEDDDQDYHRGNAAE
+         1300      1310      1320      1330      1340      1350    
+
+       270       280           290         300       310       320 
+sp|Q1X PDSSVFEDGLAFDVLE----GGDLSAFPFDSMVNFD--SEPVTLEGIEMAHGLPDETTCK
+         :..:.  .:  . .    :. ..: :  :       . ::.  ..:.:          
+sp|Q6C LASQLFRT-MAPPIQRQPTGGAPITATPTGSAPAAPPAAPPVAPAAVEVAVAASEATPGP
+         1360       1370      1380      1390      1400      1410   
+
+             330       340                                         
+sp|Q1X TSSVQPGFGASTTRCDGQGIAAGC                                    
+                                                                   
+sp|Q6C ESAPPAPPMPEINIPPATEAPSAPAATEAPPAPPSAPTTIETTHLPPPVDTHNDMSSSEF
+          1420      1430      1440      1450      1460      1470   
+
+>>sp|Q9W705|NCOA2_XENLA Nuclear receptor coactivator 2 O  (1516 aa)
+ s-w opt: 153  Z-score: 132.1  bits: 35.0 E(516081):  7.8
+Smith-Waterman score: 153; 22.4% identity (54.8% similar) in 290 aa overlap (61-333:1188-1460)
+
+               40        50        60        70        80        90
+sp|Q1X ADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERV
+                                     :.:  : .:.   . :       : : .  
+sp|Q9W RPGLRPTGMVQNQPNQLRLQLQHRLQAQNRQQLMNPINNVSNMNLAMRPGVPGQLREQGP
+      1160      1170      1180      1190      1200      1210       
+
+              100         110       120       130       140        
+sp|Q1X LRNRAAAQTSRE--RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA
+       .  .  :: .::   ..:....:.... :..::.:   :. .:.. .... .::  . : 
+sp|Q9W INAQMLAQRQREILSQHLRQKQLQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQHRAM
+      1220      1230      1240      1250      1260      1270       
+
+      150         160       170       180            190       200 
+sp|Q1X EVRGSRANTP--MPGSPATASPTLTPTLFKQERDELPLER-----IPFPTPSLSDYSPTL
+        .:..    :  : :: .  .   .: . .   ...:.       :: : :  : .:: .
+sp|Q9W MMRSQGLAMPPNMVGSGGIPASINSPRIPQGSTQQFPFPPNYGTGIPSPPPFTSPFSP-V
+      1280      1290      1300      1310      1320      1330       
+
+                 210       220         230       240       250     
+sp|Q1X KPS----TLAESSDVAQHPAVSVAGLEGD--GSALPLFDLGSDLKHHSTDDVAAPLSDDD
+        ::    .:..::  ...  ..  :. :.  :.  :.  .. ...:.. . . . .:...
+sp|Q9W PPSPGSQSLSHSSLHGSQMNLANQGIMGSMGGQYGPV--MNPQMQHNAFQFANSGMSQQS
+       1340      1350      1360      1370        1380      1390    
+
+         260       270       280       290         300       310   
+sp|Q1X FNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVN--FDSEPVTLEGIEMAHG
+        .  : : ..  :.: ..   .      :   :..  .:..:  ..::   :.:   :.:
+sp|Q9W -DPGFTGATT--PQSPIMSPRM------GHIQSSMMQQSQANPAYQSE---LNG--WAQG
+          1400        1410            1420      1430           1440
+
+           320       330       340                                 
+sp|Q1X LPDETTCKTSSVQPGFGASTTRCDGQGIAAGC                            
+        :  ..  ...  : :: ..                                        
+sp|Q9W NPAGNSMFSQQSPPHFGQQSGTSMYNSNNMNISVSMAANGNGMNNMNQMTGQINMTSVTS
+             1450      1460      1470      1480      1490      1500
+
+>>sp|O60841|IF2P_HUMAN Eukaryotic translation initiation  (1220 aa)
+ s-w opt: 151  Z-score: 132.0  bits: 34.7 E(516081):  7.9
+Smith-Waterman score: 151; 24.4% identity (58.3% similar) in 180 aa overlap (7-183:282-455)
+
+                                       10        20        30      
+sp|Q1X                         MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLN
+                                     :.  .::.  . ::::  . : . :. . :
+sp|O60 KLKEKEELETGKKDQSKQKESQRKFEEETVKSKVTVDT-GVIPASEEKAETPTAAEDD-N
+             260       270       280        290       300          
+
+         40          50        60        70        80         90   
+sp|Q1X SADVKTQEVKPE--EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE-RVLRN
+        .: : .. : .  ::.  .:.:. :    . :.      . : :.:...:. : :. : 
+sp|O60 EGDKKKKDKKKKKGEKEEKEKEKKKGPSKATVKAMQEALAKLKEEEERQKREEEERIKRL
+     310       320       330       340       350       360         
+
+           100       110       120       130       140       150   
+sp|Q1X RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS
+       .      .:..:::.:: : .: : :.. .  :.. ... ....: ..  :. . ..  .
+sp|O60 EELEAKRKEEERLEQEKRERKK-QKEKERKERLKKEGKLLTKSQREARARAEATLKLLQA
+     370       380       390        400       410       420        
+
+           160       170       180       190       200       210   
+sp|Q1X RANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVA
+       .. . .:.. .   :   :    ..: ..:                              
+sp|O60 QG-VEVPSKDSL--PKKRPIYEDKKRKKIPQQLESKEVSESMELCAAVEVMEQGVPEKEE
+      430          440       450       460       470       480     
+
+>>sp|P15205|MAP1B_RAT Microtubule-associated protein 1B   (2459 aa)
+ s-w opt: 157  Z-score: 131.9  bits: 35.7 E(516081):  7.9
+Smith-Waterman score: 157; 21.8% identity (54.5% similar) in 330 aa overlap (12-323:595-900)
+
+                                  10        20        30        40 
+sp|Q1X                    MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVK
+                                     :.: :..  .:::    :  . :  .:.: 
+sp|P15 PEATKASQVEKTPKVESKEKVIVKKDKPGKVESKPSVTEKEVP----SKEEQSPVKAEV-
+          570       580       590       600           610          
+
+              50        60           70         80        90       
+sp|Q1X TQEVKPEEKKPAKKRKSWGQEL---PVPKTNLPPRKR-AKTEDEKEQRRIERVLRNRAAA
+       ....  : :  . : :   .:.   :  : .  :.:. :: ::.   .. :.  ...:  
+sp|P15 AEKAATESKPKVTKDKVVKKEIKTKPEEKKEEKPKKEVAKKEDKTPLKKDEKPKKEEAKK
+     620       630       640       650       660       670         
+
+       100       110       120            130       140       150  
+sp|Q1X QTSRERKRLEMEKLENEKIQMEQ-----QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG
+       . ..: :. : ..:..: .. :      ...   .. .... :... .... ... ... 
+sp|P15 EIKKEIKKEEKKELKKE-VKKETPLKDAKKEVKKDEKKEVKKEEKEPKKEIKKISKDIKK
+     680       690        700       710       720       730        
+
+            160       170       180       190       200            
+sp|Q1X SRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPT--LKP---STLA
+       :   ::.  .   :.  : : . :.:.   : .. :. . .:.: . .  .:    .: :
+sp|P15 S---TPLSDTKKPAA--LKPKVAKKEE---PTKKEPIAAGKLKDKGKVKVIKKEGKTTEA
+         740       750         760          770       780       790
+
+       210       220       230       240       250       260       
+sp|Q1X ESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGD----
+        .. :.   ....::. ..: :  :    : ..  : .:..      ::..:   .    
+sp|P15 AATAVGTAAVAAAAGVAASGPAKELEAERSLMS--SPEDLTK-----DFEELKAEEIDVA
+              800       810       820         830            840   
+
+           270       280       290       300       310       320   
+sp|Q1X SSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTS
+       ....:.  ..::   .   : :.  ..  .. :.  :     :::  ..:   :  :. .
+sp|P15 KDIKPQLELIEDEEKLKETEPGEAYVIQKETEVSKGSAESPDEGITTTEG---EGECEQT
+           850       860       870       880       890          900
+
+           330       340                                           
+sp|Q1X SVQPGFGASTTRCDGQGIAAGC                                      
+                                                                   
+sp|P15 PEELEPVEKQGVDDIEKFEDEGAGFEESSEAGDYEEKAETEEAEEPEEDGEDNVSGSASK
+              910       920       930       940       950       960
+
+>>sp|Q9M7Q3|AI5L6_ARATH ABSCISIC ACID-INSENSITIVE 5-like  (454 aa)
+ s-w opt: 142  Z-score: 131.6  bits: 33.2 E(516081):  8.3
+Smith-Waterman score: 142; 31.7% identity (55.9% similar) in 145 aa overlap (14-145:291-435)
+
+                                10        20            30         
+sp|Q1X                  MSCDMEKTMSSVDSLPATPASEV-P-VLTVS--PADTSLNSA-
+                                     : :::  .:: : .: .   : ...: .: 
+sp|Q9M QPQQLIQTQERPFPKQTTIAFSNTVDVVNRSQPATQCQEVKPSILGIHNHPMNNNLLQAV
+              270       280       290       300       310       320
+
+       40             50          60        70        80        90 
+sp|Q1X DVKT----QEVKP-EEKKPAKKRKSW--GQELPVPKTNLPPRKRAKTEDEKEQRRIERVL
+       : ::      :.:  . .:    ::   ..  :::      :: . . ..  .:: .:..
+sp|Q9M DFKTGVTVAAVSPGSQMSPDLTPKSALDASLSPVPYMFGRVRKTGAVLEKVIERRQKRMI
+              330       340       350       360       370       380
+
+             100       110       120       130        140       150
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEV
+       .:: .:  :: ::.    .:: :  :... :. : ..  . :: ..:.: . : :     
+sp|Q9M KNRESAARSRARKQAYTMELEAEIAQLKELNEELQKKQVEIMEKQKNQLLEPLRQPWGMG
+              390       400       410       420       430       440
+
+              160       170       180       190       200       210
+sp|Q1X RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS
+                                                                   
+sp|Q9M CKRQCLRRTLTGPW                                              
+              450                                                  
+
+>>sp|Q69022|EBNA2_EBVA8 Epstein-Barr nuclear antigen 2 O  (454 aa)
+ s-w opt: 142  Z-score: 131.6  bits: 33.2 E(516081):  8.3
+Smith-Waterman score: 142; 24.4% identity (47.3% similar) in 205 aa overlap (10-209:236-424)
+
+                                    10        20         30        
+sp|Q1X                      MSCDMEKTMSSVDSLPATPAS-EVPVLTVSPADTSLNSA
+                                     :.  .::  :.:  .: .:.::      .:
+sp|Q69 PPTAPQRLTLGHQLSLPPHPPPHQSTPHCSSDSTGLPPPPTSYSIPSMTLSPEPLPPPAA
+         210       220       230       240       250       260     
+
+       40          50        60          70        80        90    
+sp|Q1X DVKTQE--VKPEEKKPAKKRKSWGQEL--PVPKTNLPPRKRAKTEDEKEQRRIERVLRNR
+        ..     .  ..  :      :   .  :.: :. :: .  .  :. . :   :  :.:
+sp|Q69 PAHPLPGVIYDQQALPPTPGPPWWPPVRDPTPTTQTPPTNTKQGPDQGQGRG--R-WRGR
+         270       280       290       300       310          320  
+
+          100       110       120       130       140       150    
+sp|Q1X AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR
+       .     : . : .:.:: . .    . ..  . .:: . .    : :  .   . . :  
+sp|Q69 G-----RSKGRGRMHKLPEPRRPGPDTSSPSMPQLSPVVS----LHQGQGPENSPTPGPS
+                 330       340       350           360       370   
+
+          160       170       180       190       200       210    
+sp|Q1X ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQ
+       .  :.     .:.: ..:    .  :    :. ::  :: . : :::.:. : ::     
+sp|Q69 TAGPVCRVTPSATPDISPIHEPESSDS---EEPPFLFPS-DWYPPTLEPAELDESWEGIF
+           380       390       400           410       420         
+
+          220       230       240       250       260       270    
+sp|Q1X HPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFE
+                                                                   
+sp|Q69 ETTESHSSDEENVGGPSKRPRTSTQ                                   
+     430       440       450                                       
+
+>>sp|Q9ES64|USH1C_MOUSE Harmonin OS=Mus musculus GN=Ush1  (910 aa)
+ s-w opt: 148  Z-score: 131.5  bits: 34.2 E(516081):  8.3
+Smith-Waterman score: 148; 23.1% identity (48.9% similar) in 333 aa overlap (15-333:386-687)
+
+                               10        20         30         40  
+sp|Q1X                 MSCDMEKTMSSVDSLPATPASEV-PVLTVSPADTS-LNSADVKT
+                                     :: : ..:: ::   .: . . .   : : 
+sp|Q9E YRKEMEQISEEEEKFKKQWEEDWGSKEQLILPKTITAEVHPVPLRKPKSFGWFYRYDGKF
+         360       370       380       390       400       410     
+
+             50        60        70        80        90       100  
+sp|Q1X QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+         .. . :.  : . .  :.:   : .:  ...   : :.  .. ...  :: : ..: :
+sp|Q9E PTIRKKAKEKKKAKYDSLQDLRKNKKELEFEQKLYKEKEEMLEKEKQLKINRLAQEVS-E
+         420       430       440       450       460       470     
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+        .: ..:  :.::      .:. ..:: :     .:: .:...   :.    .. : :  
+sp|Q9E TEREDLE--ESEK------TQYWVERLCQ-----TRL-EQISSAENEIPEMTTGPPPP--
+          480               490             500       510          
+
+            170               180       190         200       210  
+sp|Q1X PATASPTLTPT--------LFKQERDELPLERIPFP--TPSLSDYSPTLKPSTLAESSDV
+       : ..::   :         :   . :..::. . .:  :::     :  .: ..   : :
+sp|Q9E PPSVSPLAPPLRRFAGGIHLHTTDLDDIPLDMFYYPPKTPSALPVMP--HPPSVNSPSKV
+      520       530       540       550       560         570      
+
+            220       230       240       250       260       270  
+sp|Q1X AQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSV
+          :..  .:  ...:        :   ...   .  :   .  .. .   . ..:  :.
+sp|Q9E PAPPVLPSSGHVSSSS--------SPWVQRTPPPIPIPPPPSIPTQDL---TPTRPLPSA
+        580       590               600       610          620     
+
+            280       290        300        310       320       330
+sp|Q1X FEDGLAFDVLEGGDLSAFPFDSM-VNFDS-EPVTLEGIEMAHGLPDETTCKTSSVQPGFG
+       .:..:.   .. ::  . : :.  .:  : .: .    : .     .: : . .   : :
+sp|Q9E LEEALGNHPFRTGD-PGHPADDWEANTHSGKPSSSPTTERSFPPAPKTFCPSPQPPRGPG
+         630        640       650       660       670       680    
+
+              340                                                  
+sp|Q1X ASTTRCDGQGIAAGC                                             
+       .::                                                         
+sp|Q9E VSTISKPVMVHQEHNFVYRPAVKSEVLPQEMLKRMVVYQTAFRQDFRKYEEGFDPYSMFS
+          690       700       710       720       730       740    
+
+>>sp|Q4U1U2|MAFA_XENTR Transcription factor MafA OS=Xeno  (289 aa)
+ s-w opt: 138  Z-score: 131.5  bits: 32.5 E(516081):  8.4
+Smith-Waterman score: 138; 30.6% identity (68.2% similar) in 85 aa overlap (83-167:203-284)
+
+             60        70        80        90       100       110  
+sp|Q1X AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE
+                                     .:.:  :.:.::. ::. : ..  . . ::
+sp|Q4U RFSDEQLVSMSVRELNRQLRGFSKEEVIRLKQKR--RTLKNRGYAQSCRYKRVQQRHILE
+            180       190       200         210       220       230
+
+            120       130       140       150       160       170  
+sp|Q1X NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP
+       .:: :...: . : :..:..  : .  ...  .::..   .: . :. :.:. :.     
+sp|Q4U TEKCQLQSQVEQLKQEVSRLAKERDLYKDKYEKLASRSFTTRESPPQ-GNPGKANADFFM
+              240       250       260       270        280         
+
+            180       190       200       210       220       230  
+sp|Q1X TLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL
+
+>>sp|P29681|IMPE2_DROME 20-hydroxyecdysone protein OS=Dr  (466 aa)
+ s-w opt: 142  Z-score: 131.3  bits: 33.2 E(516081):  8.5
+Smith-Waterman score: 142; 25.5% identity (57.1% similar) in 184 aa overlap (8-181:14-192)
+
+                     10        20            30        40        50
+sp|Q1X       MSCDMEKTMSSVDSLPATPASEVPVLTVS----PADTSLNSADVKTQEVKPEEK
+                    ... : .::   : ..::  :     :.  :: . .::..:::::: 
+sp|P29 MKPVALILVFLAISQARVLNLPKE-AIDIPVAIVEDKEPPVALSLVKEEVKAEEVKPEEV
+               10        20         30        40        50         
+
+                60        70        80        90       100         
+sp|Q1X KP-AKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEME
+       :: :...:.   .  :     :  :.    : :..  :.. :.     .  .:. . ...
+sp|P29 KPIAQEEKAKDLKEEVKPEIKPEIKEQPKPDIKDE--IKEDLKADIKEEL-KEKIEEQIN
+      60        70        80        90         100        110      
+
+     110       120       130       140       150       160         
+sp|Q1X KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS--
+       .: : :  .: ... :  . . .: ...  . .. . :.:..   :.. . . ::  .  
+sp|P29 ELPNAK-PLELKEKSLEAEEKPQEIKEEVQQPEIKKEATEIKEEPAQNILKSLPAEETVV
+        120        130       140       150       160       170     
+
+          170       180       190       200       210       220    
+sp|Q1X -PT--LTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLE
+        :.  :.:.  .::..:                                           
+sp|P29 VPAEELSPNPVEQEQSENQDAAHPQVRQATQATPTQQSTTQGNFVQQLIQNSPIGQFLNQ
+         180       190       200       210       220       230     
+
+>>sp|Q54Y73|BZPD_DICDI Probable basic-leucine zipper tra  (834 aa)
+ s-w opt: 147  Z-score: 131.3  bits: 34.0 E(516081):  8.6
+Smith-Waterman score: 147; 26.9% identity (58.3% similar) in 156 aa overlap (10-157:315-458)
+
+                                    10        20        30         
+sp|Q1X                      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD
+                                     :::. .: .  . . .: ..  ::. .. .
+sp|Q54 TSPSSPSTSNMFLTPMVTTTTTSETSSSSDSSVNIIPNNTNTITNIL-IKEEDTNNGNNN
+          290       300       310       320       330        340   
+
+      40        50                60        70        80        90 
+sp|Q1X VKTQEVKPEEK-----KPAKKR---KSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL
+        :...   . .     .:  ..   :  :.: ::  .. :: .  . :::.. .. .:..
+sp|Q54 KKSKKRTIDSRVQNIVHPLTREELLKIAGKE-PVQVVD-PPTH--NQEDERNVKKQRRLI
+           350       360       370        380          390         
+
+             100       110       120       130       140       150 
+sp|Q1X RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR
+       .:: .:: :: ::.. .: ::.   .. :.:       :... :   :.  . ::::.  
+sp|Q54 KNRESAQLSRMRKKIYIEDLEKTISDLTQDN-------SSLKEEVLYLQGLVKQLAAQNS
+     400       410       420       430              440       450  
+
+             160       170       180       190       200       210 
+sp|Q1X GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD
+       .:  :.                                                      
+sp|Q54 NSNNNSVIDINNNNVNNSQQQQQQHQQQQQLNNSNNNNNNNNNNSTNKQQQSKNVKAAGV
+            460       470       480       490       500       510  
+
+>>sp|Q64709|HLF_RAT Hepatic leukemia factor OS=Rattus no  (295 aa)
+ s-w opt: 138  Z-score: 131.3  bits: 32.5 E(516081):  8.6
+Smith-Waterman score: 138; 29.4% identity (55.9% similar) in 136 aa overlap (16-148:163-290)
+
+                              10        20          30        40   
+sp|Q1X                MSCDMEKTMSSVDSLPATPAS-EVPV-LTVSPADTSLNSADVKTQ
+                                     :  : . .:::    .::: .:.:      
+sp|Q64 PLHPGIPSPNCMQNPIRPGQLLPANRNTPSPIDPDTIQVPVGYEPDPADLALSSIP----
+            140       150       160       170       180            
+
+            50        60         70        80        90       100  
+sp|Q1X EVKPEEKKPAKKRKSWGQEL-PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE
+          ::   : .:::   .:: : :  .   ::    .: :...   :  .:  ::. ::.
+sp|Q64 --GPEMFDP-RKRKFSEEELKPQPMIK-KARKVFIPDDLKDDKYWARRRKNNMAAKRSRD
+        190        200       210        220       230       240    
+
+            110       120       130       140       150       160  
+sp|Q1X RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS
+        .::. ...  .   .:..:. : :...... : .. .. ::.  :              
+sp|Q64 ARRLKENQIAIRASFLEKENSALRQEVADLRKELGKCKNILAKYEARHGPL         
+          250       260       270       280       290              
+
+            170       180       190       200       210       220  
+sp|Q1X PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAG
+
+>>sp|Q6MG48|BAT2_RAT Large proline-rich protein BAT2 OS=  (2161 aa)
+ s-w opt: 155  Z-score: 131.1  bits: 35.3 E(516081):  8.8
+Smith-Waterman score: 155; 24.2% identity (50.2% similar) in 215 aa overlap (18-229:378-575)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .:.::.:   .. ...:  :    .    :
+sp|Q6M RDSDEEGAEGHKDSQSAAGEEPETDGKKGTSPGSELPPPKTAWTENSRPSETEPAAPPIP
+       350       360       370       380       390       400       
+
+        50           60        70        80        90       100    
+sp|Q1X EEKKPAKKRK---SWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERK
+       .   :  .:    .::     :  . :: :    ::: :  : .:  :...... :   .
+sp|Q6M KPPPPPPHRGPVGNWGPPGDYPDRGGPPCKPPAPEDEDEAWR-QR--RKQSSSEISLAVE
+       410       420       430       440        450         460    
+
+          110       120       130       140       150       160    
+sp|Q1X RLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPA
+       : . .. :.:. ..:..     ..:....   ....    .: ::  .  .. : :. : 
+sp|Q6M RARRRREEEERRMQEERRAACAEKLKRLD---EKFGAPDKRLKAEPAAPPVTPPAPALPP
+          470       480       490          500       510       520 
+
+          170       180       190       200       210       220    
+sp|Q1X TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLE
+       .. :  :::        ::    : :::  .   :.  : . .  .. :  :: .   . 
+sp|Q6M VV-PKETPT-----PPALP--PTPTPTPEKDPEEPAHAPPVQSAPTQ-AGPPAPT--PVS
+                   530         540       550       560          570
+
+          230       240       250       260       270       280    
+sp|Q1X GDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEG
+       : :.:                                                       
+sp|Q6M GGGTASSTSSGSFEASPAEPQLPSKEGPEPPEEVPAPTTPPAPKVEPKGDGVGPTRQPPS
+              580       590       600       610       620       630
+
+>>sp|Q54HX6|MYBI_DICDI Myb-like protein I OS=Dictyosteli  (977 aa)
+ s-w opt: 148  Z-score: 131.0  bits: 34.2 E(516081):    9
+Smith-Waterman score: 148; 17.5% identity (58.7% similar) in 223 aa overlap (36-252:628-845)
+
+          10        20        30        40        50        60     
+sp|Q1X EKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV
+                                     ::..   :. .  ...  ....   :.  .
+sp|Q54 NNNNNNNNNINNNNNNNNGNNINNNNNNNNNSSNQIIQQQQQVQQQQMQQQQMMMQNQII
+       600       610       620       630       640       650       
+
+          70         80        90       100       110       120    
+sp|Q1X PKTNLP-PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF
+       :   .: :....   . . :..... .. .   : ...... .... .... :..::.: 
+sp|Q54 PTLPMPSPQSQVLQSQFQPQQQMQQQMQMQYQQQQQQQQQQQQQQQQQQQQQQQQQQQQ-
+       660       670       680       690       700       710       
+
+          130       140       150       160       170       180    
+sp|Q1X LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDE-LP
+         :. .:.. .... .::. :   .. .. .:.    :  ... . .:.  ...:   . 
+sp|Q54 --QQQQQQQQQQQQQQQQIYQ--QNLNSNSGNSSPNISSINGDFVRSPNYNNKKRPPPVN
+          720       730         740       750       760       770  
+
+           190          200        210       220       230         
+sp|Q1X LERIPFPTPSLS---DYSPTLKPS-TLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL
+       . :  ::.  ::   ..::. .:  .: ....   . . . ..  :. : : :    :  
+sp|Q54 VSRPEFPVTPLSGSPSHSPAQSPHYNLNNGNNNNGNGSSNSSSYSGNQSPLGLVPSPSLS
+            780       790       800       810       820       830  
+
+     240       250       260       270       280       290         
+sp|Q1X KHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFD
+        :  .  ...: :                                               
+sp|Q54 LHPPSPLITSPTSHSIRWPGPLNNTLMYDYRRMEPSHGINYVPLQQSPHAPPQQSPHFNN
+            840       850       860       870       880       890  
+
+>>sp|Q90596|MAFK_CHICK Transcription factor MafK OS=Gall  (156 aa)
+ s-w opt: 132  Z-score: 130.9  bits: 31.5 E(516081):  9.1
+Smith-Waterman score: 132; 25.2% identity (56.6% similar) in 159 aa overlap (47-193:5-156)
+
+         20        30        40        50        60                
+sp|Q1X ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTN-------
+                                     :. .:  : ..  :.. :: . .       
+sp|Q90                           MTTNPKPNKALKVKEESGENAPVLSDDELVSMSV
+                                         10        20        30    
+
+        70        80           90       100       110       120    
+sp|Q1X --LPPRKRAKTEDEK---EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF
+         :  . :. :..:    .:::  :.:.::. : . : ..  . :.:: ......:. . 
+sp|Q90 RELNQHLRGLTKEEVIRLKQRR--RTLKNRGYAASCRIKRVTQKEELERQRVELQQEVEK
+           40        50          60        70        80        90  
+
+          130       140       150       160       170       180    
+sp|Q1X LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPL
+       : .. :.:. : . : ..   : . .: . :  :.  .:. .. : . :. :.   :.  
+sp|Q90 LARENSSMKLELDALRSKYEALQTFAR-TVARGPI--TPTKVATTSVITIVKSA--EISS
+            100       110        120         130       140         
+
+          190       200       210       220       230       240    
+sp|Q1X ERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHST
+         .:: . :                                                   
+sp|Q90 SSVPFSAAS                                                   
+       150                                                         
+
+>>sp|Q4VYS1|FOXP2_XENLA Forkhead box protein P2 OS=Xenop  (706 aa)
+ s-w opt: 145  Z-score: 130.8  bits: 33.7 E(516081):  9.2
+Smith-Waterman score: 145; 20.1% identity (51.2% similar) in 344 aa overlap (10-321:36-373)
+
+                                    10        20        30         
+sp|Q1X                      MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSAD
+                                     :: :.  .. .: : .: ..  ..   . .
+sp|Q4V ATETISNSSMNQNGMSTLSSQLDAGSRDGRSSSDT--SSEVSTVELLHLQQQQALQAARQ
+          10        20        30        40          50        60   
+
+      40        50        60        70        80        90         
+sp|Q1X VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT
+       .  :.     :.: ...:.   ..::  . . :  .. : .. .:   ..::  .     
+sp|Q4V LLLQQQTSGLKSPKNNEKQRPLQVPVSMAMMTP--QVITPQQMQQILQQQVLSPQQLQAL
+            70        80        90         100       110       120 
+
+     100       110       120       130       140       150         
+sp|Q1X SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT--
+        .... . ... . ...  .::.:. :: :.:.. .... .::  :   . . .. .   
+sp|Q4V LQQQQAVMLQQQQLQEFYKKQQEQLHLQLLQQQQQQQQQQQQQQQQQQQQQQQQQQQQQQ
+             130       140       150       160       170       180 
+
+              160       170                   180          190     
+sp|Q1X -------PMPGSPATASPTLTPTLF------------KQERDELPLER---IPFPTPSLS
+              : ::. :  .  :.   .            .:..  : :.:   : .: :: :
+sp|Q4V QQQQQPQPHPGKQAKEQQQLAAQQLVFQQQLLQMQQLQQQQHLLNLQRQGLISIP-PSQS
+             190       200       210       220       230        240
+
+         200       210         220       230       240       250   
+sp|Q1X DYSPTLKPSTLAESSDVAQ--HPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSD
+              :..    ... :  . ...: ..: .:     .:: ....  .:. ...  : 
+sp|Q4V ALPVQSLPQAGLSPAEIQQLWKEVTGVHSMEDNGIKHGGLDLTTNISSSTTSTTTSKASP
+              250       260       270       280       290       300
+
+            260          270       280       290       300         
+sp|Q1X D-DFNRLFHGDSSV---EPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIE
+           . :..:..::   . :::  :.  :  .: :  .  .:    .  :     :. ..
+sp|Q4V PITHHSLLNGQASVLSARRDSSSHEETGASHTLYGHGVCKWPGCENICEDFGQF-LKHLN
+              310       320       330       340       350          
+
+     310         320       330       340                           
+sp|Q1X MAHGLPDETT--CKTSSVQPGFGASTTRCDGQGIAAGC                      
+         :.: :..:  :.                                              
+sp|Q4V NEHALDDRSTAQCRVQMQVVQQLEIQLSKERERLQAMMTHLHMRPSEPKPSPKPLNLVST
+     360       370       380       390       400       410         
+
+>>sp|Q54NF3|Y6434_DICDI Uncharacterized protein DDB_G028  (412 aa)
+ s-w opt: 140  Z-score: 130.5  bits: 32.8 E(516081):  9.5
+Smith-Waterman score: 140; 18.5% identity (63.1% similar) in 157 aa overlap (22-170:171-321)
+
+                        10        20         30        40        50
+sp|Q1X          MSCDMEKTMSSVDSLPATPASEVPV-LTVSPADTSLNSADVKTQEVKPEEK
+                                     ..:.   .. ...: ::     :. .:...
+sp|Q54 VECDFKMATNTPGSEQAQQQQQQQQQQQLGDIPIKQQITSSNNSGNS-----QQQQPQQQ
+              150       160       170       180            190     
+
+               60        70        80        90       100       110
+sp|Q1X KPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEK
+       .  .....  :. :  . .    .. .  ....:..... :...   : . ....:....
+sp|Q54 QQQQQQQQQQQQQPQQQQQQQQPQQQQHLQQQHQQQVQQ-LQQQQLQQQQLQQQQLQQQQ
+         200       210       220       230        240       250    
+
+              120       130       140           150          160   
+sp|Q1X LENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA----AEVRGSRANT---PMPGSP
+       :.....:. : .:.   . .:.. . .   ::: :.     :. . ..:.     : .::
+sp|Q54 LQQQQLQQPQLQQMQQPQQQQQQQQPQYTPQQLMQFQQMQQAQQQQQQAQQLQQQMGSSP
+          260       270       280       290       300       310    
+
+           170       180       190       200       210       220   
+sp|Q1X ATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL
+       . .:::.                                                     
+sp|Q54 THSSPTIKQEGLTGYTQIPQGGIINTNTNLNGTGGVSPNQPMPNSSPILPTNASSVVPPV
+          320       330       340       350       360       370    
+
+>>sp|Q0CPW4|PAN1_ASPTN Actin cytoskeleton-regulatory com  (1469 aa)
+ s-w opt: 151  Z-score: 130.5  bits: 34.7 E(516081):  9.5
+Smith-Waterman score: 151; 24.8% identity (53.4% similar) in 266 aa overlap (16-268:1032-1284)
+
+                              10        20        30        40     
+sp|Q1X                MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEV
+                                     :: :. .. . ... .... ..:: .. .:
+sp|Q0C LREQERQRRLAEERGTPAQPSTKPIGKKPPPAPPSRRARTDSADQSEAK-KAAD-EAAKV
+            1010      1020      1030      1040      1050           
+
+          50        60        70        80        90        100    
+sp|Q1X KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRN-RAAAQTSRERK
+       .   .. : ....  ::  . . .   :.: . :  ::..  :  ::  .  .: .. .:
+sp|Q0C EQTAREQAIREEQQVQEEETKRLEDEARQR-EEEFMKEKEAQEARLRALQEQVQQGKIKK
+    1060      1070      1080       1090      1100      1110        
+
+           110       120       130       140         150       160 
+sp|Q1X RLEME-KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA--EVRGSRANTPMPG
+       . : . : : :.   ::. ..  :: ...:: ..:  :   .: :  :  .:  . :  .
+sp|Q0C QEEKRRKEEAERRAKEQEAKLAAQR-AELEAAKERERQLQRELEAMEEESSSDDEGPEFA
+     1120      1130      1140       1150      1160      1170       
+
+             170       180       190       200        210       220
+sp|Q1X SPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAES-SDVAQHPAVSV
+       .: ..::. :         : :  . : : :     .: .   .  :. .. :  :: : 
+sp|Q0C TPRNGSPAQT---------EAPTAEAPPPPPPAPATAPPVPAIAEPEAPTSPATSPASSR
+      1180               1190      1200      1210      1220        
+
+               230          240       250           260       270  
+sp|Q1X AGLEGDG-SALPLFD-LG--SDLKHHSTDDVAAPLSD----DDFNRLFHGDSSVEPDSSV
+       :.:  .. :  : :  .:  .: .   . ..:.  ::    . :.:: . . :. :    
+sp|Q0C ANLSPEAESKNPWFKKIGQPADSQPAPVPQAATTPSDTHSTNPFHRLAQQQESTAPAFTG
+     1230      1240      1250      1260      1270      1280        
+
+            280       290       300       310       320       330  
+sp|Q1X FEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGAS
+                                                                   
+sp|Q0C SAPLERKTRARPEDDDDWSAAGSEFDSSDDEDDRAGGGSAKQLASILFGTMAPPRPLSAM
+     1290      1300      1310      1320      1330      1340        
+
+>>sp|Q8N8S7|ENAH_HUMAN Protein enabled homolog OS=Homo s  (591 aa)
+ s-w opt: 143  Z-score: 130.4  bits: 33.3 E(516081):  9.7
+Smith-Waterman score: 143; 31.2% identity (63.4% similar) in 112 aa overlap (35-142:111-219)
+
+           10        20        30        40        50        60    
+sp|Q1X MEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-L
+                                     ::: ..     . . . ::. ... .:: :
+sp|Q8N RDARQVYGLNFGSKEDANVFASAMMHALEVLNSQETGPTLPRQNSQLPAQVQNGPSQEEL
+               90       100       110       120       130       140
+
+            70        80        90       100        110       120  
+sp|Q1X PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEMEKLENEKIQMEQQN
+        . . .:  ..: :   : :..:.::   .:   .  : ::.::: :.::.:... :.:.
+sp|Q8N EIQRRQLQEQQRQK---ELERERLERERMERERLERERLERERLERERLEQEQLERERQE
+              150          160       170       180       190       
+
+            130         140       150       160       170       180
+sp|Q1X QFLLQRLSQME--AENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+       .   .:: ..:   ...:: .:                                      
+sp|Q8N RERQERLERQERLERQERLERQERLDRERQERQERERLERLERERQERERQEQLEREQLE
+       200       210       220       230       240       250       
+
+>>sp|Q00312|RBF1_CANAL Transcription factor RBF1 OS=Cand  (527 aa)
+ s-w opt: 142  Z-score: 130.4  bits: 33.2 E(516081):  9.7
+Smith-Waterman score: 142; 23.0% identity (57.0% similar) in 200 aa overlap (36-229:263-449)
+
+          10        20        30        40            50        60 
+sp|Q1X EKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEE----KKPAKKRKSWGQ
+                                     :  : : .. ::.:    .. ..  . :  
+sp|Q00 TTVKDATKRQRIAYTKRNKCAYRLVANLYPNEKDQKRKN-KPDEPGHNEENSRISEMWVL
+            240       250       260       270        280       290 
+
+              70        80        90       100       110       120 
+sp|Q1X ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ
+       ..  :. :  :    :    :....  :.: ..   .  .... :..:. .... :..::
+sp|Q00 RMINPQHNHAPDPINK----KKRQKTSRTLVEKPINKP-HHHHLLQQEQQQQQQQQQQQQ
+             300           310       320        330       340      
+
+             130       140       150       160       170           
+sp|Q1X NQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPT--LFKQER
+       .:   :. .: .: :.. .:: :::  ... .   . .: .: . :  :     : .:. 
+sp|Q00 QQ---QQQQQHNA-NSQAQQQAAQLQQQMQQQLQASGLPTTP-NYSELLGQLGQLSQQQS
+           350        360       370       380        390       400 
+
+     180       190       200       210       220       230         
+sp|Q1X DELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL
+       ..  :..::      .. .   .:.  :.. :  :  :. .:..:....:          
+sp|Q00 QQQQLHHIPQQRQRTQSQQSQQQPQQTAHGLD--QPDAAVIAAIEASAAAAVASQGSPNV
+             410       420       430         440       450         
+
+     240       250       260       270       280       290         
+sp|Q1X KHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFD
+                                                                   
+sp|Q00 TAAAVAALQHTQGNEHDAQQQQDRGGNNGGAIDSNVDPSLDPNVDPNVQAHDHSHGLRNS
+     460       470       480       490       500       510         
+
+>>sp|P48634|BAT2_HUMAN Large proline-rich protein BAT2 O  (2157 aa)
+ s-w opt: 154  Z-score: 130.2  bits: 35.2 E(516081):  9.9
+Smith-Waterman score: 154; 27.0% identity (50.9% similar) in 222 aa overlap (18-228:380-575)
+
+                            10        20        30        40       
+sp|Q1X              MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKP
+                                     .: :: :.  .. :.::    ...     :
+sp|P48 SDEEGAEGHRDSQSASGEERPPEADGKKGNSPNSEPPTPKTAWAETS-RPPETEPGPPAP
+     350       360       370       380       390        400        
+
+        50           60        70        80           90       100 
+sp|Q1X EEKKPAKKRK---SWGQELPVPKTNLPPRKRAKTEDEKE---QRRIERVLRNRAAAQTSR
+       .   :  .:    .::     :  . :: :    ::: :   ::: .   .   :.. .:
+sp|P48 KPPLPPPHRGPAGNWGPPGDYPDRGGPPCKPPAPEDEDEAWRQRRKQSSSEISLAVERAR
+      410       420       430       440       450       460        
+
+             110       120       130        140       150       160
+sp|Q1X ERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEVRGSRANTPMP
+       .:.. : .....:.     ..   :.::.. . : ..::.   :. ::         : :
+sp|P48 RRREEEERRMQEERRAACAEK---LKRLDEKFGAPDKRLK---AEPAA---------P-P
+      470       480          490       500          510            
+
+              170       180       190       200       210       220
+sp|Q1X GSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSV
+       ..:.: .:   :.. :    :::    : : :. :  .:  .:   :..  . . :. .:
+sp|P48 AAPSTPAPP--PAVPK----ELPAP--PAPPPA-SAPTPEKEPEEPAQAPPAQSTPTPGV
+            520             530          540       550       560   
+
+                  230       240       250       260       270      
+sp|Q1X AG----LEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDG
+       :.    . : ::                                                
+sp|P48 AAAPTLVSGGGSTSSTSSGSFEASPVEPQLPSKEGPEPPEEVPPPTTPPVPKVEPKGDGI
+           570       580       590       600       610       620   
+
+
+
+526 residues in 2 query   sequences
+181677051 residues in 516081 library sequences
+ Tcomplib [36.04] (8 proc)
+ start: Fri Apr 16 09:19:16 2010 done: Fri Apr 16 09:19:21 2010
+ Total Scan time: 29.730 Total Display time:  0.360
+
+Function used was SSEARCH [version 36.04 January, 2010]
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.sto
new file mode 100755
index 0000000..478447d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.sto
@@ -0,0 +1,552 @@
+# STOCKHOLM 1.0
+#=GF ID   Orn_DAP_Arg_deC
+#=GF AC   PF00278.15
+#=GF DE   Pyridoxal-dependent decarboxylase, C-terminal sheet domain
+#=GF AU   Finn RD, Griffiths-Jones SR
+#=GF SE   Prosite
+#=GF GA   20.10 20.10;
+#=GF TC   20.40 20.10;
+#=GF NC   19.80 20.00;
+#=GF BM   hmmbuild HMM.ann SEED.ann
+#=GF SM   hmmsearch -Z 9421015 -E 1000 HMM pfamseq
+#=GF TP   Domain
+#=GF RN   [1]
+#=GF RM   10378276
+#=GF RT   Structure of mammalian ornithine decarboxylase at 1.6 A
+#=GF RT   resolution: stereochemical implications of PLP-dependent amino
+#=GF RT   acid decarboxylases. 
+#=GF RA   Kern AD, Oliveira MA, Coffino P, Hackert ML; 
+#=GF RL   Structure Fold Des 1999;7:567-581.
+#=GF DR   INTERPRO; IPR000183;
+#=GF DR   PROSITE; PDOC00685;
+#=GF DR   SCOP; 1qu4; fa;
+#=GF DR   HOMSTRAD; Orn_Arg_deC_NC;
+#=GF DR   HOMSTRAD; Orn_DAP_Arg_deC;
+#=GF CC   These pyridoxal-dependent decarboxylases act on ornithine,
+#=GF CC   lysine,  arginine and related substrates.  
+#=GF SQ   105
+#=GS O14439_USTMA/296-443  AC O14439.1
+#=GS O01579_CAEEL/298-416  AC O01579.1
+#=GS AZIN1_HUMAN/282-406   AC O14977.2
+#=GS ADC_MOUSE/286-408     AC Q8BVM4.1
+#=GS Q7DFY1_SELRU/266-371  AC Q7DFY1.1
+#=GS Q7UFM7_RHOBA/290-397  AC Q7UFM7.1
+#=GS Q7MC63_VIBVY/293-399  AC Q7MC63.1
+#=GS Q70GM6_CHLRE/256-376  AC Q70GM6.1
+#=GS A8BFD3_GIALA/305-445  AC A8BFD3.1
+#=GS DCOR_SOLLC/308-424    AC O22616.2
+#=GS Q7PV11_ANOGA/282-398  AC Q7PV11.4
+#=GS Q7Q083_ANOGA/289-408  AC Q7Q083.4
+#=GS Q7PZ99_ANOGA/280-394  AC Q7PZ99.4
+#=GS DCOR2_DROME/276-390   AC P40808.2
+#=GS A9NCJ9_COXBR/264-371  AC A9NCJ9.1
+#=GS Q98K89_RHILO/273-385  AC Q98K89.1
+#=GS Q6SF82_9BACT/264-372  AC Q6SF82.1
+#=GS Q9X2I6_THEMA/263-370  AC Q9X2I6.1
+#=GS Q82VZ0_NITEU/286-391  AC Q82VZ0.1
+#=GS Q5LXE4_SILPO/280-393  AC Q5LXE4.1
+#=GS Q7CRV2_AGRT5/264-377  AC Q7CRV2.2
+#=GS Q8PS97_METMA/278-390  AC Q8PS97.1
+#=GS Q5YT58_NOCFA/255-366  AC Q5YT58.1
+#=GS O69865_STRCO/277-392  AC O69865.1
+#=GS Q5XQ82_9ARCH/314-419  AC Q5XQ82.1
+#=GS Q604F1_METCA/244-348  AC Q604F1.1
+#=GS Q7VZY7_BORPE/241-343  AC Q7VZY7.1
+#=GS Q88IS0_PSEPK/241-343  AC Q88IS0.1
+#=GS Q5HSR6_CAMJR/244-361  AC Q5HSR6.1
+#=GS P73562_SYNY3/258-365  AC P73562.1
+#=GS Q9RUH6_DEIRA/278-394  AC Q9RUH6.1
+#=GS Q7MAL4_WOLSU/251-357  AC Q7MAL4.1
+#=GS O24865_HELPY/267-385  AC O24865.1
+#=GS Q5LVU5_SILPO/266-369  AC Q5LVU5.1
+#=GS Q72EZ9_DESVH/261-367  AC Q72EZ9.1
+#=GS Q57LZ4_SALCH/318-441  AC Q57LZ4.1
+#=GS Q82HL1_STRAW/330-442  AC Q82HL1.1
+#=GS Q75JL7_DICDI/295-407  AC Q75JL7.1
+#=GS Q7WXK3_RALEH/291-407  AC Q7WXK3.1
+#=GS Q7A862_STAAN/277-393  AC Q7A862.1
+#=GS Q5SEM5_RALSO/282-398  AC Q5SEM5.1
+#=GS Q76KY1_STRHA/280-393  AC Q76KY1.1
+#=GS Q8RKC5_ERWCH/297-409  AC Q8RKC5.1
+#=GS Q7CYS1_AGRT5/270-383  AC Q7CYS1.2
+#=GS Q7N8H2_PHOLL/306-419  AC Q7N8H2.1
+#=GS Q82VG2_NITEU/296-409  AC Q82VG2.1
+#=GS Q5YWM9_NOCFA/340-451  AC Q5YWM9.1
+#=GS Q72WM6_DESVH/318-424  AC Q72WM6.1
+#=GS Q62F85_BURMA/278-395  AC Q62F85.1
+#=GS Q7NPE5_GLOVI/307-415  AC Q7NPE5.1
+#=GS Q7A0X5_STAAW/290-398  AC Q7A0X5.1
+#=GS DCDA_MYCS2/336-449    AC Q9X5M1.1
+#=GS DCDA_ACTPA/309-415    AC O69203.1
+#=GS Q8TY23_METKA/277-383  AC Q8TY23.1
+#=GS Q7N7F9_PHOLL/289-407  AC Q7N7F9.1
+#=GS Q8F7A1_LEPIN/276-395  AC Q8F7A1.1
+#=GS Q8GGR7_STRAZ/284-405  AC Q8GGR7.1
+#=GS DCDA_METJA/305-410    AC Q58497.1
+#=GS DCDA_METJA/305-410    DR PDB; 1tuf B; 315-420;
+#=GS DCDA_METJA/305-410    DR PDB; 1twi D; 315-420;
+#=GS DCDA_METJA/305-410    DR PDB; 1tuf A; 315-420;
+#=GS DCDA_METJA/305-410    DR PDB; 1twi A; 315-420;
+#=GS DCDA_METJA/305-410    DR PDB; 1twi C; 315-420;
+#=GS DCDA_METJA/305-410    DR PDB; 1twi B; 315-420;
+#=GS Q7ULZ0_RHOBA/283-389  AC Q7ULZ0.1
+#=GS Q6SHW6_9BACT/289-395  AC Q6SHW6.1
+#=GS Q5V5E3_HALMA/306-412  AC Q5V5E3.1
+#=GS DCDA_METTH/292-398    AC O27390.1
+#=GS Q87EA9_XYLFT/758-866  AC Q87EA9.1
+#=GS DCDA1_ARATH/351-459   AC Q949X7.1
+#=GS DCDA_PSEFL/285-390    AC O05321.1
+#=GS Q5FPL4_GLUOX/282-390  AC Q5FPL4.1
+#=GS Q9A681_CAUCR/288-394  AC Q9A681.1
+#=GS Q5FEQ0_EHRRW/291-397  AC Q5FEQ0.1
+#=GS Q7MT14_PORGI/263-379  AC Q7MT14.1
+#=GS Q6MM66_BDEBA/286-391  AC Q6MM66.1
+#=GS Q6L350_PICTO/286-391  AC Q6L350.1
+#=GS Q97AJ0_THEVO/281-380  AC Q97AJ0.1
+#=GS Q728N7_DESVH/285-394  AC Q728N7.1
+#=GS Q62B72_BURMA/307-413  AC Q62B72.1
+#=GS Q66B85_YERPS/267-374  AC Q66B85.1
+#=GS Q5NIN9_FRATT/298-400  AC Q5NIN9.1
+#=GS Q8XS02_RALSO/281-396  AC Q8XS02.1
+#=GS SPEA_XYLFT/343-555    AC Q87F25.1
+#=GS Q5NHM0_FRATT/327-467  AC Q5NHM0.1
+#=GS SPEA_PROMP/355-574    AC Q7V3M9.1
+#=GS SPEA_GLOVI/346-557    AC Q7NE10.1
+#=GS Q6MQU4_BDEBA/373-587  AC Q6MQU4.1
+#=GS Q72F01_DESVH/373-585  AC Q72F01.1
+#=GS Q5SHU0_THET8/347-559  AC Q5SHU0.1
+#=GS SPEA_BACTN/346-558    AC Q8A2B1.1
+#=GS O25176_HELPY/412-542  AC O25176.1
+#=GS SPE2_ARATH/396-596    AC O23141.1
+#=GS O04429_DIACA/405-605  AC O04429.1
+#=GS SPE1_AVESA/355-532    AC P22220.1
+#=GS Q5X0L3_LEGPL/343-556  AC Q5X0L3.1
+#=GS SPEA_CHRVO/343-556    AC Q7NU27.1
+#=GS SPEA_VIBVY/354-570    AC Q7MK24.1
+#=GS Q7PZA0_ANOGA/274-386  AC Q7PZA0.3
+#=GS Q60D03_SOLDE/147-257  AC Q60D03.2
+#=GS DCOR_NEUCR/326-471    AC P27121.1
+#=GS DCOR_YEAST/329-460    AC P08432.1
+#=GS DCOR_CANAL/324-468    AC P78599.1
+#=GS Q84527_PBCV1/263-371  AC Q84527.1
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 A; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 H; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 C; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 F; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva H; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 E; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva D; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 D; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 G; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva C; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva E; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nv9 B; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva B; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva F; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva A; 263-371;
+#=GS Q84527_PBCV1/263-371  DR PDB; 2nva G; 263-371;
+#=GS Q5MNH7_NEOUN/277-400  AC Q5MNH7.1
+#=GS Q58P26_ENTHI/268-382  AC Q58P26.1
+#=GS O15696_PLAFA/807-931  AC O15696.1
+#=GS DCOR_LEIDO/509-682    AC P27116.1
+#=GS P78829_SCHPO/238-357  AC P78829.1
+#=GS O76203_HAECO/287-407  AC O76203.1
+#=GS DCOR_PANRE/294-416    AC P49725.1
+O14439_USTMA/296-443             ALATNIIAVRRGEPSAAM..................................................................................DHVEAT........PKAQVMYY.QNDGLYGS.FNCVIFDHVKFIQSSDAGPRVRVRADDWVARG........................ASGECGRLALQQEAMTLESCSVWGPTCDSID.CV...RD.........HVELPK........GLQVGDWLVYENMGAYTICAAS.TFNGIR..RSEIRYT
+O01579_CAEEL/298-416             TLCTNVIGKRAMDAKFI...................................................................................TNDDFD.........DGVGFVYQTNDGVYGS.FGCKQMDI....KPLCKPLDVE............................................NDSEEQLHFGTILGPTLDGTD.VA..............QRLMKS.......RQLRVGEWLVWEQMGAFTIPVDS.EHS.....VPPVYYY
+AZIN1_HUMAN/282-406              TLAVNIIAKKVVENDKFP.................................................................................SGVEKTG.......SDEPAFMYY.MNDGVYGS.FASKLSED....LNTIPEVHKK............................................YKEDEPLFTSSLWGPSCDELD.QI...VE.........SCLLP.........ELNVGDWLIFDNMGADSFHEPS.AFNDFQ..RPAIYYM
+ADC_MOUSE/286-408                TVAVSIVAKREVLDQASR..................................................................................EEQTGA........APKSIVYY.LDEGVYGV.FNSVLFDN....TCPTPALQKK............................................PSADQPLYSSSLWGPAVEGCD.CV...AE.........GLWLP.........QLQVGDWLVFDNMGAYTVDTKS.LLGGTQ..ARRVTYA
+Q7DFY1_SELRU/266-371             NLVTSVIGTKTRG...........................................................................................EQ.............PWYILDEGIYGC.FSGIMYDH....WTYPLHCF................................................GKGNKKPSTFGGPSCDGID.VL...YR.........DFMAP.........ELKIGDKVLVTEMGSYTSVSAT.RFNGFY..LAPTIIF
+Q7UFM7_RHOBA/290-397             TLITRVIGKSRRWE..........................................................................................LP.............WFF.LDDGIYGS.FSGKIFDH....TDFPLLVEN..............................................DGSRETVPCVVAGPTCDSTD.IV...SR.........DQWLP.........DLEVGELVLVPSMGAYAAASAS.PFNGLP..MANSVAI
+Q7MC63_VIBVY/293-399             TSVASVMGQAEREG..........................................................................................QI.............WYY.LDDGIYGS.FSGLMFDD....ARYPLTTI...............................................KQGGELIPSVLSGPTCDSVD.VI...AE.........NILLP.........KLNNGDLVIGRTMGAYTSATAT.DFNFFK..RAQTIAL
+Q70GM6_CHLRE/256-376             TLLTPVYGQRDRVAAD.....................................................................................GSVKK.............DYW.LTDGLYGS.FNCILYDG....QNPGYKVVRSPL........................................MADSTDSRTFLSTLWGPTCDSAD.CV...YK.........DVTLP.........VLRNGDWLMWNNAGAYTVAGAC.DFNGIEFTTPGKLYV
+A8BFD3_GIALA/305-445             TLGTRIYGRRIIFDKIEDNS.............................................................................CLTEKEIME....SGKASINEVKYY.VGDGVYGY.YNAILFDH....VVPHLRFTDKHGNR...................................KELSGAHAGSSLNTSSIFGPTCDSLD.CI...LK.........ERKLP.........LLDVGDWVITDAFGAYTYAAAT.EFNGIP..HVSVVCC
+DCOR_SOLLC/308-424               TLATTIIGKRVRGE..........................................................................................LK.............EYW.INDGLYGS.MNCVLYDHATVTATPLACMSNRN.........................................NLNCGGSKTFPSTVFGPTCDALD.TV...LR.........DYQLP.........ELQVNDWLIFPNMGAYTKAAGS.NFNGFN..TSAIVTH
+#=GR DCOR_SOLLC/308-424    sAS   ......................................................................................................................................................................................................................*.........................................................................
+Q7PV11_ANOGA/282-398             TLVSFVDSKRVMKEKQPD..................................................................................GTEKTR.............MYYYLNDGIFGT.FYCTAHEA....QPAIPIVER..............................................KTGAKDFPTSVWGPTCDVMD.LI...LP.........DVMLP.........ELNVGDSVVFENCGAYGQVLAC.RFNGFP..LPKVIAY
+Q7Q083_ANOGA/289-408             TLLTTVQGKKIVRDDA.....................................................................................GQIQQ.............MMYYINDGVFGTLFDWLSLREIKDLKRAVPLVRR.............................................EREHEPAFPTTIWGPTCDSTD.IV...CE.........DVPYP.........EHHIGDYIVFENLGAYGMTFAT.NFNGFP..KPTVQVY
+Q7PZ99_ANOGA/280-394             TLVTNVQSKRV.CLNAR...................................................................................TGTIDR.............MMYYLNDGVYAS.FNSILYDH....QVPQPKLIG..............................................GQAGKQYKSTLWGPTCDALD.QL...IE.........TIALP.........ELQIDDWVVFENMGAYTIPVAS.PFNGFE..LPKVYCY
+DCOR2_DROME/276-390              TLICKVHAKREVRSKD.....................................................................................GKLDT.............MMYYLNDGIFGAFAGMFYYPE....EVAPELYLD.............................................EAESLPKLKSVIWGPSCDAMD.KI...S..........DLLLP.........NLNPGDLLGFRNMGAYTMPIAS.PFNGFD..VPETRFF
+#=GR DCOR2_DROME/276-390   sAS   ......................................................................................................................................................................................................................*.........................................................................
+A9NCJ9_COXBR/264-371             SVIVNVELRKDD...........................................................................................................ILY.INDGTYGSLFDAGIPHF....IFPVHLLRPK............................................HTADVDLLPFSFYGPTCDSLD.YM...KG.........PFYLPN........DIKAGDYIEIGQMGAYGRTLST.AFNGFK..QREGVIM
+Q98K89_RHILO/273-385             SLIVRVLLRKGK...........................................................................................................RLY.INDGIWASLSDSWTGKI....TLPARFIPDPAI.......................................RTRNGAEKNVVPFKVCGATCDSVD.IL...SR.........PFWLPE........TVDTGDWIEIGHIGAYSLSLRT.RFNGFY..PDTFVEV
+Q6SF82_9BACT/264-372             TLATQIKALRGL...........................................................................................................RTVFLNDGVYGL.LSEFRDLG....VSQRYQAWRA...........................................GSKLAGPSAAYTVFGPTCDSID.KL...PS.........PLHLPK........SIQEGDYLLFSEIGAYSLSLAT.AFNGYG..GCEIVAV
+Q9X2I6_THEMA/263-370             WLVTKVLLKSERSG..........................................................................................EK.............WVY.IDAGVFHG.LAETIQNF....EYEIRVLG...............................................KEREELEEYHLAGPTCDSVD.VI...YD.........RIFLPK........SITLNDLVCFINAGAYTVEYNT.RFNGIE..PPKMVFI
+Q82VZ0_NITEU/286-391             CFVCRVVGTATRNG..........................................................................................KR.............WMY.WDAGIFGGIIE..VSEG....LRYEILTQ................................................RNGSLIPWSVAGPTCDSVD.VL...MH.........DEMLPE........DIQENDFIFIPNAGAYTTSYAS.NFNGFP..LPDVVVI
+Q5LXE4_SILPO/280-393             AIAAEVLLVSRKSGH.......................................................................................DLHR.............WVY.LDIGKFSG.LAETMDEA....IRYQFLTE...............................................REHEPTGPCILAGPSCDSAD.VLY.EKK.........PVQLPL........GLRDGDRIVIRNCGAYTSTYASVGFNGFP..PLDVVAI
+Q7CRV2_AGRT5/264-377             VIKAEVVLVSK....................................................................................................KSDNDNHRWVF.LDIGKFGG.LAETMDEA....IRYPIRTE...............................................RDQDEMQPCVLAGPTCDSAD.VL...YEK.......NMYPLPV........SLTIGDEVLIEGTGAYTTTYSAVAFNGFE..PLKAYVI
+Q8PS97_METMA/278-390             IIVSEVIMIAKKARF.......................................................................................NQYK.............WVY.LDIGKFGG.LIETLDEC....IKYPIFCD................................................KKGCAEEVILAGPTCDSMD.ILY.EHH.........KYSFPH........TMRDGNRVYIFTTGAYTQSYSSICFNGFP..PLKAYVI
+Q5YT58_NOCFA/255-366             TIHAEVVAVRIAPD.........................................................................................GRR.............WVY.LDIGRYNG.MAETENEY....IAYRFVTE...............................................RDGDPVDEAVVAGPTCDGDD.VLY.QRT.........RVLLPT........TLRAGDRVQILDTGAYTASYSSVSFNGFP..PLTVHVS
+O69865_STRCO/277-392             AIRAHVVRLTERRAAD.....................................................................................GERQH.............WLY.LSCGKFNG.LYEM..DA....LQYRLVFPG..............................................HPDGPCVPAVVAGPTCDSDD.AYSHEEG.........LVPVPA........ALASGDPVWVLSCGAYATSYTTRGFNGFA..PLPYAFA
+Q5XQ82_9ARCH/314-419             MVVSVIGTAKRGD...........................................................................................NM.............WAY.IDAGIYSGLLDYVIKDK....VFEISILDR.............................................TEPSSKTYKYLLSGPTSDALD.FL...G..........EYSFKK........QLNAGDKLIIKNCGAYTFVLGT.HFGGFN.....HFGF
+Q604F1_METCA/244-348             YLVASVIDVFNSG...........................................................................................GK.............TVAVLDSSINHH.PEVFEYQR....SPRLAEV.................................................CEEGRETAILAGGTCLAGD.LF...G..........EYALPT........RPRIGDRLVFEDVGAYTLVKAN.RFNGHN..LPSIYRW
+Q7VZY7_BORPE/241-343             TLEVTVLDVMRNE............................................................................................K.............NLAIVDAATEAHMLDLLIYRM....SARVQP...................................................DQGPHRYVIYGNSCLAGD.VF...G..........EFSFES........PLQPGSRISIQDAAGYTMVKKN.WFNGVR..MPAIAIR
+Q88IS0_PSEPK/241-343             SLEVTVLDTLYNG............................................................................................K.............HLAVVDSSIEAHLLDLLIYRL....NAKMAP...................................................NDGEHTYMVCGKSCLAGD.IF...G..........EYQFDR........PLAIGDRLSFIDTAGYTMVKKN.WFNGLK..MPSIVVK
+Q5HSR6_CAMJR/244-361             NLVASVVDIIENE............................................................................................K.............QIAILDTSSEAHMPDTIIMPY....TSEVLNARILATRE....................................NEKISDLKENEFSYLLTGNTCLAGD.VM...G..........EYAFDK........KLKIGDKIVFLDQIHYTIVKNT.TFNGIR..LPNLMLL
+P73562_SYNY3/258-365             FLLSTVEDLIETP...........................................................................................EF.............THAMLDVSFTAHMPDCLEMPY....RPEVRGAR...............................................VPQTGDTVYRLGGSSCLAGD.FL...G..........DYAFDQ........PLQVGDRLIFEDMMHYTMVKTT.TFNGVH..HPAIGCL
+Q9RUH6_DEIRA/278-394             WLVSSVLDVVHNV............................................................................................K.............DAALLDVSVSAHMPDVLEMPY....RPRILGAGDPPLD.....................................DHREAQDTGSGYPYIIGGTTCLAGD.VV...G..........EYVFPH........ELKVGSRVVFDDMIHYTMVKTT.FFNGVK..HPDIGIL
+Q7MAL4_WOLSU/251-357             FLLGEVVDVVRNG............................................................................................M.............EIAILDISAAAHMPDCLEMPY....RPMVRGSA...............................................EAGEKRYSYRLGGPTCLAGD.VI...G..........DYSFDS........PLKVGDQLIFEDMIHYTIVKNN.TFNGVP..LPSIGVI
+O24865_HELPY/267-385             FLIASVIDIVQND............................................................................................Q.............EIAILDASFSAHMPDCLEMPY....RPSIFKVSVENDEE...................................LIEVEKGENQGAFSYFLGGPTCLAGD.FM...G..........SFSFET........PLKRGDKIVFQDMLHYTIVKNN.SFNGVP..LPSLARL
+Q5LVU5_SILPO/266-369             ILVGEILDLPSNG............................................................................................M.............DLAITDISATCHMPDVIEAPY....RPALMDE..................................................ADSGHTYRLGGPSCLAGD.VI...G..........DYTWDQ........PLTIGQRFAFLDQAHYSMVKTN.TFNGVP..LPTIALW
+Q72EZ9_DESVH/261-367             VLLCSVLDVVQAD............................................................................................V.............PVVILDTSAAAHMPDVLEMPY....RPGCIGSG...............................................LPDEKAWTCRLAGKSCLAGD.VV...G..........DYSFDR........PLRPGDRLAFLDMAIYSMVKTT.TFNGLQ..LPAIALY
+Q57LZ4_SALCH/318-441             VLLTEVSCEKRK...........................................................................................................TNYDLNGNVECH.VEWKFVDA....GYSVLSDSQHFDWFF.................................YVYNASRMTAAHDAWVKLAGPLCDGGD.YFHMGVKG.......EEFLLPK........ETHVGDIVAFLDAGAYAIESQT.VYNNRP..RTGVVMI
+Q82HL1_STRAW/330-442             TVVARVEYAKSAGG..........................................................................................RA.............VAV.THAGVQVA.TRTVYAPA....SWPLRITAYDA.........................................KGHPKAGPEVVQDVAGPACFAGD.LL...AV.........GRALP.........LLEQGDHVAALDTGAYYFAHHY.AYNSLA..RPGIYGF
+Q75JL7_DICDI/295-407             VVVSTVEYTKSSGD..........................................................................................RE.............IAI.CHAGANMY.IRTVYQFP....LWRIRVTIFDS.........................................NGEYKTGNEKITDIAGPCCFAAD.VL...VK.........ERLLP.........PIKKDDFIMAHDSGAYMLSSYS.HYNLRL..APPIFSF
+Q7WXK3_RALEH/291-407             YYAMEVIDVKHAFD..........................................................................................RA.............FVV.ACGGTHHF.RTPYAQGH....SHPFRVLPVESWR......................................YPFARPGVRDARVSVVGQLCTPKD.VL...AQ.........DAPVD.........SVRAGDMVVFPYAGAYAWHISHHDFLRHP..HPQHCYL
+Q7A862_STAAN/277-393             YYVTEVLDIKKVHG..........................................................................................AW.............YAI.LRGGTQQF.RLPVSWQH....NHPFEIYRYKDNP......................................YSFEKVSISRQDTTLVGQLCTPKD.VF...AR.........EVQID.........AISTGDVIVFKYAGAYGWSISHHDFLSHP..HPEFIYL
+Q5SEM5_RALSO/282-398             YYVTEVVDIKRNHG..........................................................................................KW.............FAV.LRGGTHHF.RLTASWQH....NHPFAIVPNAQWT......................................YPFARPSVQAQAVTLCGELCTPKD.VL...AR.........DVVVD.........RLSVGDRIVFQLAGAYGWHISHHDFLSHP..HPERRFV
+Q76KY1_STRHA/280-393             TLLTRVVNIKVSRG..........................................................................................RK.............FVV.IDAGINTF.GGMSGLGR....LLPVAVEPEYT.........................................GSAEATELTDVASLAGPLCTPGD.IL...GR.........EIRLP.........ELAPGDLVTIPNAGAYGVTASLLMFLGRP..APVEVVL
+Q8RKC5_ERWCH/297-409             LFVTRVNTLKTAGG..........................................................................................KT.............FAV.CDGGANCH.SAAAGLNSMLRKNFPLLRLGD..............................................NQGRPLQPYQVSGPLCTPTD.LL...GD.........NVLLP.........TLEVDDLIGITHSGAYGLTASPGSFLSFG..YPVEVMV
+Q7CYS1_AGRT5/270-383             LYVVEVNSVKT.......................................................................................................SRGTTFVV.TDGGMHHHLAASGNLGQIVKRNYPIVAPAM..............................................MQAAHDETATIVGPLCTPLD.TL...AR.........NATLP.........KLNAGDLLAILQSGAYGASASPGGFLSHT..VAKEVLV
+Q7N8H2_PHOLL/306-419             IYVTKIVERKISHD..........................................................................................MT.............FLV.TDGGMNHHLSASGNLGQLIRRNYPAIIGNK..............................................IKGEKRETVNIVGPLCTPLD.IL...VH.........QGDMS.........VATPGDLVVIFQSGAYGLSASPNNFLSQT..NAVEVLV
+Q82VG2_NITEU/296-409             IYVCRVLEKKISRG..........................................................................................QT.............FLV.TNGGLHHHLAASGNFGQVIRKNYPVAIGNK..............................................MKIDETEIVSVVGPLCTPLD.LL...AD.........RMELS.........RAEPGDLVVVFQSGAYGLTASPTAFLSHP..ASLEVLI
+Q5YWM9_NOCFA/340-451             LTLASVEFVKELGD..........................................................................................GT.............VLVTLDLSRDTVTPADQEVMV....DPLVLPGAR..............................................RDDGPAVGVYFAGRLCLERDLIT...TR.........QVFLPG........LPAPGDVVVFPNTAAYHMDLSA.STAARW..APPRRWV
+Q72WM6_DESVH/318-424             LLLTRVKAVKERPG.........................................................................................AEP.............FAI.TDGGRLSQ.AYPCDFEW....HEAFLAND...............................................LRRPLARAYTVTGRVCTRSD.WL...YR.........GKVMP.........ELASGDILAVLDAGAYFSSYAM.NF.AFP..RAAVVGV
+Q62F85_BURMA/278-395             VFVTRVRAVKVWDD..........................................................................................RV.............IAV.CDGGMSHN.FLLAKTEAVLKTWAAPTLVPAGT.........................................ADAHRAPNARPITFVGNTCNRAD.VI...GR.........LERHPR........LPQPGDFVVFSQCGAYHHSYTVSGFLSHK...PAQVYI
+Q7NPE5_GLOVI/307-415             ATAYTVGSTKTIPS.........................................................................................IRK.............YFS.VDGGMSDN.PRPITYKA....LYTAVVANK..............................................MHDGRREKVTVAGKHCESGD.VL...LR.........DVELP.........PLERGDCLVVFSTGAYNCSMAS.NYNRIP..RPAAVLV
+Q7A0X5_STAAW/290-398             VTLYEVGTIKEIPE.........................................................................................INK.............YVS.IDGGMSDH.IRTALYDA....KYQALLVN...............................................RNEEADDSVTIAGKLCESGD.II...IK.........DAKLPS........SVKRGDYLAILSTGAYHYSMAS.NYNQMQ..KPSVFFL
+DCDA_MYCS2/336-449               ITLYEVGTVKDVAVSQ.....................................................................................TAHRR.............YVS.VDGGMSDN.IRTSLYAA....QYDARLVSR..............................................VSDAPPALARIVGKHCESGD.IV...VR.........DTWVSD........DIAPGDLIGVAATGAYCYSMSS.RYNLLC..RPAVVAV
+DCDA_ACTPA/309-415               VTLYRVAAVKR.GV.........................................................................................RRV.............FVA.VDGGMSDN.PRPALYGS....RYAVRLVR................................................RGGRRAPVTVVGRHCEAGD.VL...AE.........DVPLPE........DVRAGDLLAVPVTGAYHHALAS.NYNAVG..RPPVVGV
+Q8TY23_METKA/277-383             ILVTSVRQVKR.GR..........................................................................................RR.............WVF.VDTGMNAL.IRPALYDA....YHEVVVHG...............................................GDYSATEKASVAGPLCESGD.VL...AE.........DRELPI........DISEGDLVVFLSAGAYCESMAS.NYNCYP..IPGSVVV
+Q7N7F9_PHOLL/289-407             VLMTEVRAVKQ.MG.........................................................................................NRN.............YVL.VDAGFNDL.MRPVMYGS....YHHISVLPADG..........................................RKIEQLPLRETLVAGPLCESGD.IF...TQVEG..GGIAPRALP.........PVQVGDYLVFHDTGAYGASMSS.NYNSRP..LISEVLF
+Q8F7A1_LEPIN/276-395             SILTTVDDVVS.TGP.......................................................................................GGYT.............FVK.LDAGMDVN.TRPSLYAA....KHPLVVVSKE............................................GVHSGKTADYVYVGHCCESGD.LF..............TQAEGGGPITRITGEAKLGDYVVMEGAGAYCSSMSTKNYNSFP..ETAEVLV
+Q8GGR7_STRAZ/284-405             SLVTKVIDKAD.TGA.......................................................................................EGNS.............FLK.INSGLTEI.ARPSYYGV....QHPIVSVPATG.........................................GAERAADDREEFNVVGHCCIAGD.VL..TAK.........QEELAPVP....LGRTEIGDYVVIERAGSYCSSMSMKNFNSYP..EAAEVLR
+DCDA_METJA/305-410               YLLGKVHHIKE.TP.........................................................................................VTK.............WVM.IDAGMNDM.MRPAMYEA....YHHIINCK................................................VKNEKEVVSIAGGLCESSD.VF...GR.........DRELD.........KVEVGDVLAIFDVGAYGISMAN.NYNARG..RPRMVLT
+#=GR DCDA_METJA/305-410    SS    -EE--EEEEEE.-S.........................................................................................S-E.............EEE.E-----S-.-HHHHH--....---EEESS................................................--SSEEEEEEE-----TT-.--...--.........-EEEE.........-------EEES-------TT-B.-TTT--..--EEEEE
+Q7ULZ0_RHOBA/283-389             YLITKVINQKS.SY..........................................................................................KD.............YVG.VDACMSNL.MRPGMYGA....YHHITVMGK..............................................EDQPADRTVDIVGSLCENND.KF...AI.........DRKMP.........ATEVGDIAVIHDAGAHGHSMGF.QYNGRL..RSAEIVF
+Q6SHW6_9BACT/289-395             ILLAQVTGIKD.SY..........................................................................................KT.............FIG.LDAGMETL.MRPALYGA....VHRIYKVGA..............................................LMEEQNLTVDITGRICENTD.RL...AI.........DIPFP.........DVAEGDLIAIMDTGAYGYAMAH.QFNTRP..RPAEVLI
+Q5V5E3_HALMA/306-412             CILTEVNTVKE.TP.........................................................................................AAT.............VVG.VDASLATL.IRPAMFGS....YHPIRNVT...............................................APEREAEPVSVGGPCCTSAD.VF...CT.........DRPLA.........RPERTDLLAIGNAGAYGYELAN.QFHSQP..RPAEVAF
+DCDA_METTH/292-398               YLLTRVNTIKE.SY..........................................................................................RK.............FAG.VDAGFNTL.LRPAMYGS....YHHILVAER..............................................PLDEPSEKMDVAGNVCESGD.LF...AR.........DRQLP.........EINEGDVLAIMNAGAYSFSMSS.QYNSRP..RPAEVLV
+Q87EA9_XYLFT/758-866             VLLTRVTQVIE.KD.........................................................................................DIL.............RVG.LEAGMHTL.IRPALYDA....WHGVENLTR..............................................LDETPHVLCDVVGPICESSD.VF...GR.........RRHLPA........ATASGDLMLIADAGAYGFSMAS.TYNLRG..LPAEVVL
+DCDA1_ARATH/351-459              CFVNHVTGVKT.NG.........................................................................................TKN.............FIV.IDGSMAEL.IRPSLYDA....YQHIELVSP.............................................PPAEAEVTKFDVVGPVCESAD.FL...GK.........DRELP.........TPPQGAGLVVHDAGAYCMSMAS.TYNLKM..RPPEYWV
+DCDA_PSEFL/285-390               VLLTQVEYLKH.TE.........................................................................................HKD.............FAI.VDAAMNDL.IRPALYQA....WMDVTAVR...............................................PRDTAARSYDIVGPICETGD.FL...AK.........GRELA..........LEEGDLLAVHSAGAYGFVMSS.NYNTRG..RCAEVLV
+Q5FPL4_GLUOX/282-390             ILLTRVIETKA.GN..........................................................................................PD.............FVV.LDAAMNDL.ARPSLYES....WHGIMPVAP.............................................NGLTSLTKLWDIVGPVCESSD.IF...AR.........DRALPA........DTKRGDLIALLDTGAYGSVMSS.TYNTRP..LAAQVLI
+Q9A681_CAUCR/288-394             VLVSEVIHVHERPE.........................................................................................GRK.............FLV.IDAAMNDL.VRPAMYDA....FHDIRPVI................................................QRTGETVYDVVGPVCETGD.TF...TR.........DRALP.........PFAAGDLVAFMSAGAYGAAMAS.EYNTRP..LVPEVLV
+Q5FEQ0_EHRRW/291-397             ILLAKVLYHKS.NY.........................................................................................EKN.............HLV.LDTGMNDL.IRPALYNA....EHTIIPAV...............................................VSSKSHLSFDIVGPICESDD.TF...AY.........SYWIN.........NVDNNEIVAICTVGAYGSSMSS.NYNSRP..LVPEVIV
+Q7MT14_PORGI/263-379             SLITQVLYIKE.GK.........................................................................................AKK.............FAI.VDAGMTDL.VRPALYEA....HHQIRLVQPGEWT.....................................MRATSPSAALTEKYDVVGPICESSD.VF...ER.........ELLMP.........ELKRGDYLAIRSAGAYGAVMAS.SYNMRP..LPGSLFS
+Q6MM66_BDEBA/286-391             ALITQVQYIKE.TS.........................................................................................AKT.............FVI.VDAGMNHL.IRPSLYEA....THRIEPLK................................................RKDAAFVVDVVGPICESSD.FF...AK.........EISLT.........KVQEGDFVAIMDSGAYGYSMAS.VYNLQE..LPLEICI
+Q6L350_PICTO/286-391             IALATVTDLKN.YG..........................................................................................RS.............IAG.TDLGMNIL.IRPALYGA....VHEIICIN...............................................KNDDKLFNYDITGQICENTD.FT...GL.........NVKLP.........GLEPGDILGIMNAGAYVSSMSS.NYNSLS..RAAEVLI
+Q97AJ0_THEVO/281-380             ILVGKVYDVYN..............................................................................................G.............FVG.TDIGMNIN.IRHALYGA....EHRFYALT................................................GRSDEAEYIVTGQICENTD.VT...GR............LTG........KVQIGDLVAMYDAGAYIYSMSS.NYNGRF..RPTEVIV
+Q728N7_DESVH/285-394             LLLGSVHSVKS.NG.........................................................................................ANR.............YVG.TDLGFNVL.ARPVMYDA....HHDIEVYRED............................................GAPSDLLLPQTVVGNICESGD.II...AR.........NRPLP.........PVEEGDILGVLDAGAYGYVMSS.SYNQRM..RPAEVLI
+Q62B72_BURMA/307-413             MLVLRVAYVELKRN..........................................................................................RR.............FVG.LNGGFNLA.IEPAFYDL...PCEPVPCVR................................................RPGPAQSVCVAGNINEALD.VW...GN.........DVSLP.........PVEPGDFIALLNAGGYASSMSS.NHCLRG..QFRELAL
+Q66B85_YERPS/267-374             YLVTRIVFAKCR.............................................................................................Y.............STNVITTAVPGTNIRSAQYHN....HRKVLIIPE.............................................RPVNCEHSVADVYGSNCYEND.II...AK.........NVPVPF........DLSLDDKIAIFSCGAYDIMNSSDWIRK....RPPIIVI
+Q5NIN9_FRATT/298-400             ALLTTIVGTREQNE.........................................................................................DFQ.............SLI.TDAGIHTI...PTISTY....RHPIYHLK................................................TDSYHKKTLLLGPSCMQHD.FL...HD.........DIFLP.........KLEYGDKLLIDGVGAYNISRNN.EFIHLK....PSVIL
+Q8XS02_RALSO/281-396             VLLTGIKRDIVQH...........................................................................................SL.............GNIVVTDGSRMLMPSAQLRNR....AHHTVFLDAAF.........................................NEVVDYSRRCVAKVRGRSILRNDYIL...PG.........DVVAPE........TVKAGEYMLILDVGAYCATQHM.EFLNVP..PAGEVLV
+SPEA_XYLFT/343-555               VLIANVTEVEAVPEGRVPGVCDDEPAVVRHMREIYGELDARPAIELFYEAQHFHA.......EGLAAYTLGQIDLVHRARIDDLFYAISHGVRERLSHEEKSHRPV....LDELNERLVDKYFVNFSVFESIPDVWAINQ....IFPIVPIER..............................................LNEVPTRRGVVCDLTCDSDG.TV...KQYVE..NESLDSALPLH.....VLRHGEAYRIGFFLVGAYQEILGD.IHNLFG..DTDAVEV
+Q5NHM0_FRATT/327-467             LLITKPLIKQHESDIENEILHQ..........................................................................QWLDREVSLGELQSYLPQNQKNTQQAWLNFSIFQSLPDHWGIDQ....KFPILPLEF..............................................FNSYVTSEVKLYDISCDVDG.VV.....K......STSEYIEI........ATDNIEYIVFMCVGAYQGMLSA.KHNMLG..NISAVNI
+SPEA_PROMP/355-574               VLIFNILGTSHVSSQVKVSDQKKQSLIITNLIETLNQIKNLRDKKEDLSEIIELWNDAKKFKEDCLVAFRLGFICLEERAYAEELTWACAKEIANQLENNEIIHPD....LSEITDTLASTYYANLSVFKSIPDTWAINQ....VFPIIPIHR..............................................HLEEPFCKGHFADLTCDSDG.KL...NNFID..NGKIKSLLNLH.....PPEKNNDYLIGIFMAGAYQEALGN.FHNLFG..NTNVIHI
+SPEA_GLOVI/346-557               VLVFDVMGVSHLQFGEPEPPARNEHSIIRNLYETYTQITPDNVQEAFNDASQFKE........EALSLFALGYLGLGERARAERLYWGCCEKILNLVRELDYIPDE....LADLEKNMASTYYCNFSVFQSAPDSWAIDQ....LFPIMPIHR..............................................LDEEPKARGTLADLTCDSDG.KI...DQFID..LRDVKGVLELH.....PVRPEEPYYLGMFLNGAYQEILGD.MHNLFG..DTNTVHI
+Q6MQU4_BDEBA/373-587             VLVFNVMGVNDLHRHEPPRPATKTDHSIMQDMQYIFEKVNKDNINECFNDLEQAK.......QETLQLFTYGVLSLEQRAWCESMYFAIATKMIKLARATPDCEDI....VAALGKELCDTYFSNFSVFQSVPDSWAVGQ....LFPVIPIHR..............................................LGEEPKREATLADLTCDSDG.VI...EKFIDTASGEPKETIRLH.....QFTEGQQYYLGVFLTGAYQEILGD.LHNLFG..DTDAVHI
+Q72F01_DESVH/373-585             MLLFNILDVSRVEIGNLPDALPEDTPEPVRNMREVLAGMTLRNLQECYNDALYYR.......DAVRQLFLTGQVTLRQRTLSERLFWAIMKRIAQEKQKLKHVPKD....LAEIDVALADIYYGNFSVFQSLPDSWAIDQ....LFPVMPVHR..............................................LQELPSRQGILSDITCDSDG.RI...DHFID..PQGMKGTLDLH.....PLRDGEEYYLGVFLVGAYQETLGD.LHNLLG..DTNVVSV
+Q5SHU0_THET8/347-559             VLVLQVIDVIAPPGEARPSPPPPEAHPLVKELWESLQSLSPKNFQEVYHDAFADK.......ETLQTLYDLGLVSLRDRALAEEIFYHIARRVQTIAQNLPYVPDE....LEDLEKLLADKLVCNFSVFQSLPDAWAIHQ....LFPVVPLSR..............................................LLEPPTRRATLVDISCDSDG.KM...DRFID..LHDVRQTLPVH.....PVRPGEPYYLGVFLVGAYQDVLGS.NHNLFG..QVGEAHV
+SPEA_BACTN/346-558               VLIFEVLETATLPEWDDEEEIAPDAHELVQELYSIWDSLNQNKMLEAWHDAQQIR.......EEALDLFSHGIVDLKTRAQIERLYWSITREINQIAGGLKHAPDE....FRGLSKLLADKYFCNFSLFQSLPDSWAIDQ....IFPIMPIQR..............................................LDEKPERSATLQDITCDSDG.KI...ANFIS..TRNVAHYLPVH.....SLKKTEPYYLAVFLVGAYQEILGD.MHNLFG..DTNAVHV
+O25176_HELPY/412-542             VL..........AHLIVKKAV............................................................................QLLYVKDHN.D..ILRIQEQVQERYLLNCSFFQSLPDYWGLRQ....NFPVMPLNK..............................................LDEKPTRSASLWDITCDSDG.EI...A.F......DSTKPLFLHD....IDIDEEEYFLAFFLVGAYQEVLGM.KHNLFT..HPTEFSV
+SPE2_ARATH/396-596               VLIFEAVSADKPMVHQATPGDIQFLLEGNEEARANYEDLYAAVMRGDHESCLLY..........VDQLKQRCVEGFKEGVLSIEQLASVDGLCEWVLKAIGASDPV.............HTYNINLSVFTSIPDLWGIDQ....LFPIVPIHK..............................................LDQRPGARGILSDLTCDSDG.KI...NKFI.....GGESSLPLHEL.DKNGSGGR.YFLGMFLGGAYEEALGG.VHNLFG..GPSVVRV
+O04429_DIACA/405-605             ILVFEAVSSSSSASPPMPGSTLALDYLVDGLTDEVKGEYRSLTAAAMRGEYESCL.......MYSGMLKQRCVELFKDGCLGMEQLAAVDGLCELVSKALGVADGV.............CTYNVNLSVFTSIPDFWGIGQ....LFPIMPIHR..............................................LDQQPKARGILSDLTCDSDG.KI...DKFI.....GDESSLPLH.....ELSGGEGYYLGMFLGGAYEEALGG.VHNLFG..GPSVVRV
+SPE1_AVESA/355-532               MIILEALSAIPEPKDDEDEATTEQLHGRIRDLSSKLQPTGLS..................................MSSHAVHIKKHGIEMYKLGKKLSKSVTTDA..........HTIYNYHMNLSVFSLMPDYWGIQH....LFPMMPVSR..............................................LDEKPTHKATLVDVTCDSDG.KV...DKFI.....RDTETMPLHP....LDPKLGGYYVAVLLTGAYQEALSN.KHNLFG..GPSLVRV
+Q5X0L3_LEGPL/343-556             VLISNITDVEIINKAPVLPEISEDDSHVIRDIYDTYQAITDSSPTEIYNYAAHSLN......EAHSLFKHGVISLQEKAKVEAFYTNICMEIKDKLDEENPSEKAL....LMRINECMAAKIFCNISFFQSIPDAWAIGQ....IFPVAPISQ..............................................LNRTLSMHSVLQDLTCDSDG.TI...KQYPG..SSCVTTTLMLP.....SYDINNPYNIGFFLVGAYQEILGN.LHNLFG..DTNSLDV
+SPEA_CHRVO/343-556               VLLMNVTDVERLPDTVAPIDKAEELSLPLRKLVELANLNDEELVTEIYYRASHCVS......EVSEMYAEGRLSLQEKALAEDLHATLCRRLHNQLQASQRSQRQV....YDELTDRLADKYFCNFSVFQSLPDTWAIDQ....VLPIMPVHR..............................................LAEQPTRRAVLQDLTCDSDG.KL...KQYVD..QQSIESSMSVH.....EVKQGDEYLIAVFLVGAYQEILGD.MHNLFG..DTDSVNV
+SPEA_VIBVY/354-570               VLISNVIGTETYKPETVTEPEEDFPLLLNNMWRSWLNLHNGTDARALIEIYNDTQSD...LAEVHSQFATGVLTLEHRAWAEQTSLRIYYELNRLMSTKNRFHRPI....LDELSERLADKFFVNFSLFQSLPDSWGIDQ....VFPVLPLSG..............................................LQNAADRRAVMLDITCDSDG.AI...DAYVD..GQGIESTLPVP.....AWNEDEPYLMGFFLVGAYQEILGD.MHNLFG..DTHSVVV
+Q7PZA0_ANOGA/274-386             TALVNVVSKSYEKDVD.....................................................................................GAVVR.............VRYYVDDGLYDT.FDWCDDQG....SGPLLQED...............................................KRGAPCVRSVIYGRTMCEHD.VI...RE.........EISLP.........EHEIGDCLVFPNRGAYAKLLGR.GHNGFR..PTGTKVC
+Q60D03_SOLDE/147-257             TLVTHVIGKRVRG...........................................................................................EK.............IEYWIDEGIYGS.FRPTLYNS...CFVGIKTISM..............................................KESCEIGESTIYGPSCDSLD.AV...AV.........DIKLP.........ELELDDLIVFYDMGAYSKCAGT.KFNGFDMLSTPTYIV
+DCOR_NEUCR/326-471               TLACNIIARRTIQDGSAVSV.............................................................................SDSSSMSDD.G..SVNNGDARYMVY.VNDGLYGN.FSSIMFDH....QHPVAKILRAGGRTMY................................NSVAAHESSAEDAIEYSIWGPTCDGID.RI...TE.........SIRFRE........ILDVGDWLYFEDMGAYTKCSAT.TFNGFS..NEHDVIY
+#=GR DCOR_NEUCR/326-471    sAS   ......................................................................................................................................................................................................................*.........................................................................
+DCOR_YEAST/329-460               TLASHVIAKRKLSE.........................................................................................NEA.............MIY.TNDGVYGN.MNCILFDH....QEPHPRTLYHNLEFHYDDFE........................STTAVLDSINKTRSEYPYKVSIWGPTCDGLD.CI...AK.........EYYMKH........DVIVGDWFYFPALGAYTSSAAT.QFNGFE..QTADIVY
+#=GR DCOR_YEAST/329-460    sAS   ......................................................................................................................................................................................................................*.........................................................................
+DCOR_CANAL/324-468               TLITHIIARRDLPTGGN...................................................................................NNNNDM.........TPSAMLY.INDGVYGN.LNCILFDH....QTPKVYVLTNENQLFYKQEM.......................MRSLSVNNNNNNNNKTDGFKFSIWGPTCDGLD.CV...SS.........LAKLSK........NVQVGDWLFFENVGAYTSCAST.KFNGLSSGETKTLYV
+#=GR DCOR_CANAL/324-468    sAS   ......................................................................................................................................................................................................................*.........................................................................
+Q84527_PBCV1/263-371             VLATQVIGKRVRD...........................................................................................GL.............YEYFFNESTYGG.FSNVIFEK....SVPTPQLLRD............................................VPDDEEYVPSVLYGCTCDGVD.VI...NH.........NVALP.........ELHIGDWVYFPSWGAYTNVLTT.SFNGFG...EYDVYY
+#=GR Q84527_PBCV1/263-371  SS    EEEEEB---EE--...........................................................................................--.............EEEEBS------.-THHHHS-....-----EESS-............................................--TT--EEEEEEE--------.-S...EE.........EEEEE.........------EEEES-----SGGG--.------...-EEEEE
+Q5MNH7_NEOUN/277-400             YLAVKVVARRVNATAF.....................................................................................GHEPA............TRLY.INDGIYSNFMMRFIVNM....TFSPAAVIREGVW......................................HDQADHTMRGEACSLWGRSCDSND.CI...NR.........DCRLGP........EVRVGDWLVFKDMGAYTTVCNT.TFNGFT..SSNHTIY
+Q58P26_ENTHI/268-382             HLVSSLHGKRVRIQN.......................................................................................GKKQ.............IEYTSGDGLHGSFGCCIWFEK....QKSCECITQK............................................VNENTKMYESIIYGPSCNGSD.KV...A..........TQELPE........MEPGKDWLLFPNMGAYTISMAT.NFNGFE..ERNHVIY
+O15696_PLAFA/807-931             SKLGNITNIKKKVVNI.....................................................................................NDNRY...........NYFSYYVSDSIYGC.FSGIIFDE....YNRCPIYVIKNKN.....................................NPNQNFMNFNLYLANVFGQSCDGLD.MI...NS.........ITYLP.........ECYINDWLLYEYAGAYTFVSSS.NFNGFK..KCKKVYI
+DCOR_LEIDO/509-682               ALLMNVFASRTLRLSDVEVS..............................................................................RQAFQSVV.....SMDEPEEYQYY.VNDGLYHS.FNCILFDH....AHPTLLLLNDGDGADGVESGTEAAAVCSEEEGETSLSGPLANDPLFMSAWDRRRSFARRPLRITTIFGPTCDSMD.CI...LK.........KQPFP.........EMKLGDWLLVPDMGSYTTAAAG.FFNGFA..TRRLEWV
+#=GR DCOR_LEIDO/509-682    sAS   ......................................................................................................................................................................................................................*.........................................................................
+P78829_SCHPO/238-357             TLAVNVIAKRKLDDE........................................................................................EKV.............MYY.VNDGVYGS.LNCILFDH....QHPVARVLKCGSR.....................................FVYNDLVGTGQHRCFIWGPTCDSLD.VI...AN.........DAHLPY........EPNVGDWIYFEDAGAYTVAAAS.CFNGFK..TSRIVYL
+O76203_HAECO/287-407             TLVCNIIHATEVSAEKIT..................................................................................KRPEDV........EERGFMYY.VNDGVYGS.FNCILFDH....VQPVGTPLF..............................................DEIAQEYPSTIWGPTCDSLD.KI....E.........DQKLMR........MMSVGEWIVYRNMGAYTCSAST.TFNGFQ..RPNAIYM
+DCOR_PANRE/294-416               SVTTNVIASVKVPASRIT..................................................................................EKADDV........NRDGYMYY.MNDGVYGS.FNCKLFDH....YQPRGMPLAE............................................HDADEPRFPVCVWGPTCDGLD.QV...EE.........SSVMP.........RLYEGDWLYYPDMGAYTSVAAS.TFNGFD..KPKTYYF
+#=GR DCOR_PANRE/294-416    sAS   ......................................................................................................................................................................................................................*.........................................................................
+#=GC SS_cons                     EEEEEEEEEEE--S.........................................................................................S-E.............EEEEES----S-.-CHHHHS-....---EEECSS-............................................--TTSSEEEEEEE-----TT-.-S...EE.........EEEEE.........------EEEES-----SGCC-B.-TTT--...-EEEEE
+#=GC seq_cons                    sLlspVhsh+p.st..........................................................................................tt.............hhh.lssGhhsp.hsshhhst....hhslhhht...............................................hpspstttsslsGsoC-usD.hl...sp.........chhLP.........plp.GDhlshhssGAYshshus.saNuhs..tsshlhl
+//
+# STOCKHOLM 1.0
+#=GF ID   NIF3
+#=GF AC   PF01784.11
+#=GF DE   NIF3 (NGG1p interacting factor 3)
+#=GF PI   DUF34;
+#=GF AU   Bashton M, Bateman A
+#=GF SE   Pfam-B_1006 (release 4.2)
+#=GF GA   23.40 23.40;
+#=GF TC   24.10 24.00;
+#=GF NC   22.00 23.30;
+#=GF BM   hmmbuild HMM.ann SEED.ann
+#=GF SM   hmmsearch -Z 9421015 -E 1000 HMM pfamseq
+#=GF TP   Family
+#=GF RN   [1]
+#=GF RM   8663102
+#=GF RT   Transcriptional activation by yeast PDR1p is inhibited by its
+#=GF RT   association with NGG1p/ADA3p. 
+#=GF RA   Martens JA, Genereaux J, Saleh A, Brandl CJ; 
+#=GF RL   J Biol Chem 1996;271:15884-15890.
+#=GF RN   [2]
+#=GF RM   11124544
+#=GF RT   Isolation and characterization of a novel human gene, NIF3L1,
+#=GF RT   and its mouse ortholog, Nif3l1, highly conserved from bacteria
+#=GF RT   to mammals. 
+#=GF RA   Tascou S, Uedelhoven J, Dixkens C, Nayernia K, Engel W, Burfeind
+#=GF RA   P; 
+#=GF RL   Cytogenet Cell Genet 2000;90:330-336.
+#=GF DR   INTERPRO; IPR002678;
+#=GF DR   SCOP; 1nmp; fa;
+#=GF CC   This family contains several NIF3 (NGG1p interacting factor 3)
+#=GF CC   protein homologues. NIF3 interacts with the yeast
+#=GF CC   transcriptional coactivator NGG1p which is part of the ADA
+#=GF CC   complex, the exact function of this interaction is unknown
+#=GF CC   [1,2].
+#=GF SQ   122
+#=GS Q6AQL0_DESPS/7-255   AC Q6AQL0.1
+#=GS Q1NWG7_9DELT/9-267   AC Q1NWG7.1
+#=GS Q1JZJ5_DESAC/11-364  AC Q1JZJ5.1
+#=GS B3E3Z5_GEOLS/16-365  AC B3E3Z5.1
+#=GS B5EBN8_GEOBB/8-355   AC B5EBN8.1
+#=GS A0LHK1_SYNFM/6-257   AC A0LHK1.1
+#=GS Q1ASW8_RUBXD/7-359   AC Q1ASW8.1
+#=GS Q24T08_DESHY/7-373   AC Q24T08.1
+#=GS Q67RW0_SYMTH/3-355   AC Q67RW0.1
+#=GS A6NV06_9BACE/2-238   AC A6NV06.1
+#=GS A7VVR8_9CLOT/6-241   AC A7VVR8.1
+#=GS Q2S0R3_SALRD/53-405  AC Q2S0R3.1
+#=GS A7V376_BACUN/5-351   AC A7V376.1
+#=GS Q7MTC6_PORGI/5-351   AC Q7MTC6.1
+#=GS Q11U42_CYTH3/6-352   AC Q11U42.1
+#=GS A6ENK7_9BACT/5-358   AC A6ENK7.1
+#=GS A3ZRR2_9PLAN/11-256  AC A3ZRR2.1
+#=GS Q7UDY5_RHOBA/21-282  AC Q7UDY5.1
+#=GS A4ECC5_9ACTN/5-252   AC A4ECC5.1
+#=GS Q83GL0_TROWT/12-270  AC Q83GL0.1
+#=GS A7BDB0_9ACTO/13-271  AC A7BDB0.1
+#=GS A0LTB3_ACIC1/18-373  AC A0LTB3.1
+#=GS Q6AFH9_LEIXX/10-259  AC Q6AFH9.1
+#=GS Q6M3K0_CORGL/8-362   AC Q6M3K0.1
+#=GS A8ZUC2_DESOH/8-358   AC A8ZUC2.1
+#=GS Q6M164_METMP/5-237   AC Q6M164.1
+#=GS A3MU59_PYRCJ/10-266  AC A3MU59.1
+#=GS Q8TZC0_METKA/12-224  AC Q8TZC0.1
+#=GS A5UKQ3_METS3/5-218   AC A5UKQ3.1
+#=GS Q2FPY1_METHJ/5-230   AC Q2FPY1.1
+#=GS Y1146_METTH/8-215    AC O27214.1
+#=GS Q8TW44_METKA/6-234   AC Q8TW44.1
+#=GS Q0W3L4_UNCMA/5-231   AC Q0W3L4.1
+#=GS Q12Z61_METBU/5-232   AC Q12Z61.1
+#=GS A0ZGU3_NODSP/5-248   AC A0ZGU3.1
+#=GS Q310X0_DESDG/5-312   AC Q310X0.1
+#=GS Q1MR73_LAWIP/5-246   AC Q1MR73.1
+#=GS A1VDX4_DESVV/5-310   AC A1VDX4.1
+#=GS Q7MQP7_WOLSU/6-230   AC Q7MQP7.1
+#=GS Q7VIG7_HELHP/17-261  AC Q7VIG7.1
+#=GS Y959_HELPY/6-231     AC O25613.1
+#=GS A8EW77_ARCB4/5-232   AC A8EW77.1
+#=GS Q30TF6_SULDN/5-228   AC Q30TF6.1
+#=GS A7GZB8_CAMC5/5-228   AC A7GZB8.1
+#=GS A7SAJ3_NEMVE/5-336   AC A7SAJ3.1
+#=GS Q4CW43_TRYCR/7-273   AC Q4CW43.1
+#=GS Q5KCX5_CRYNE/12-280  AC Q5KCX5.1
+#=GS NIF3_SCHPO/9-265     AC O94404.1
+#=GS Q7S5H9_NEUCR/62-330  AC Q7S5H9.2
+#=GS A6SM83_BOTFB/24-302  AC A6SM83.1
+#=GS Q5B6Z5_EMENI/15-342  AC Q5B6Z5.1
+#=GS Q4KMJ5_DANRE/5-334   AC Q4KMJ5.1
+#=GS A4IGP2_XENTR/5-334   AC A4IGP2.1
+#=GS Q6P1B7_MOUSE/31-363  AC Q6P1B7.1
+#=GS NIF3L_DICDI/12-341   AC Q55E83.1
+#=GS Q8SV52_ENCCU/5-229   AC Q8SV52.1
+#=GS Q6FQE2_CANGA/13-283  AC Q6FQE2.1
+#=GS A3LS90_PICST/8-261   AC A3LS90.1
+#=GS Q86F61_SCHJA/5-335   AC Q86F61.1
+#=GS Q14P57_SPICI/5-233   AC Q14P57.1
+#=GS Q2SRY9_MYCCT/5-244   AC Q2SRY9.1
+#=GS Q6F1J4_MESFL/5-244   AC Q6F1J4.1
+#=GS Q8EUT6_MYCPE/5-240   AC Q8EUT6.1
+#=GS Q4A5V5_MYCS5/5-245   AC Q4A5V5.2
+#=GS Q6KI02_MYCMO/6-252   AC Q6KI02.1
+#=GS A5IY53_MYCAP/5-248   AC A5IY53.1
+#=GS Q601Y7_MYCH2/5-239   AC Q601Y7.1
+#=GS Y351_UREPA/10-250    AC Q9PQE0.1
+#=GS Q7NB92_MYCGA/5-241   AC Q7NB92.1
+#=GS Q3F0L5_BACTI/6-294   AC Q3F0L5.1
+#=GS Q0SN38_BORAP/5-237   AC Q0SN38.1
+#=GS A9B0A0_HERA2/5-242   AC A9B0A0.1
+#=GS Q1IWV8_DEIGD/21-255  AC Q1IWV8.1
+#=GS Q73KL0_TREDE/5-248   AC Q73KL0.1
+#=GS Q2LUC1_SYNAS/5-241   AC Q2LUC1.1
+#=GS Y1777_ARCFU/5-234    AC O28497.1
+#=GS Y1424_PYRAB/5-239    AC Q9UYT3.1
+#=GS Y1766_HALSA/5-242    AC Q9HP80.1
+#=GS A8B7G6_GIALA/7-257   AC A8B7G6.1
+#=GS A5EYD5_DICNV/5-236   AC A5EYD5.1
+#=GS Q5WY60_LEGPL/6-241   AC Q5WY60.1
+#=GS Y291_BUCAP/5-236     AC Q8K9N4.1
+#=GS Q1Z5P6_PHOPR/5-241   AC Q1Z5P6.1
+#=GS Q6FCJ5_ACIAD/6-241   AC Q6FCJ5.1
+#=GS A2S764_BURM9/5-237   AC A2S764.1
+#=GS A5CVR4_VESOH/6-235   AC A5CVR4.1
+#=GS Q21U81_RHOFD/6-241   AC Q21U81.1
+#=GS A6GMA8_9BURK/8-242   AC A6GMA8.1
+#=GS A0L3K9_MAGSM/6-241   AC A0L3K9.1
+#=GS A3YBU9_9GAMM/11-248  AC A3YBU9.1
+#=GS Q6MC02_PARUW/7-241   AC Q6MC02.1
+#=GS Y108_CHLTR/5-240     AC O84110.1
+#=GS Q609U6_METCA/7-244   AC Q609U6.1
+#=GS A9VML6_BACWK/5-238   AC A9VML6.1
+#=GS A6TKN7_ALKMQ/5-263   AC A6TKN7.1
+#=GS A4J511_DESRM/5-303   AC A4J511.1
+#=GS Q3Z2K6_SHISS/9-274   AC Q3Z2K6.1
+#=GS Q022B6_SOLUE/14-253  AC Q022B6.1
+#=GS A4IP70_GEOTN/7-250   AC A4IP70.1
+#=GS Y1125_STAEQ/5-353    AC Q5HNY9.1
+#=GS A5KQA2_9FIRM/5-253   AC A5KQA2.1
+#=GS Q8RE15_FUSNN/5-246   AC Q8RE15.1
+#=GS A0Q1P0_CLONN/7-258   AC A0Q1P0.1
+#=GS Q0TNV6_CLOP1/5-249   AC Q0TNV6.1
+#=GS B8CXH0_HALOH/6-355   AC B8CXH0.1
+#=GS Y1073_LACLA/5-244    AC Q9CGM3.1
+#=GS A5LFS5_STRPN/5-252   AC A5LFS5.1
+#=GS Q4ETV8_LISMO/8-360   AC Q4ETV8.1
+#=GS Q038U7_LACC3/6-251   AC Q038U7.1
+#=GS B3XRX7_LACRE/6-257   AC B3XRX7.1
+#=GS Q5FJU7_LACAC/6-251   AC Q5FJU7.1
+#=GS Q03Y42_LEUMM/5-248   AC Q03Y42.1
+#=GS A8MG99_ALKOO/7-357   AC A8MG99.1
+#=GS A4XK84_CALS8/6-353   AC A4XK84.1
+#=GS B0K888_THEP3/7-356   AC B0K888.1
+#=GS Q18BX9_CLOD6/5-352   AC Q18BX9.1
+#=GS A0RIR2_BACAH/9-360   AC A0RIR2.1
+#=GS A4J7B6_DESRM/6-358   AC A4J7B6.1
+#=GS Q0AZ81_SYNWW/7-359   AC Q0AZ81.1
+#=GS Q3AEW6_CARHZ/6-353   AC Q3AEW6.1
+#=GS B8I6N4_CLOCE/5-249   AC B8I6N4.1
+#=GS A3DDU7_CLOTH/7-355   AC A3DDU7.1
+Q6AQL0_DESPS/7-255              DILESIEGDAPKSLA..E.SW.DNV.............................GL...LVG..........DKER..........................QVKRVLVGLDPTTSLLAEAIE......LG.ADTVITHHP...V.IF................HPLSAIDTS....TPVGIIIEQALL.H...........KISLIASHTNLDSAAS.GVSQALA.IAL.....GLE.........KCCPLLPSSEGI...............................................................................................................EGTGLGCL.AEFST.P....LLWEDFCDLLLERL.SV.........LS......VQVA.......G.SVPKRVA.....RVA..LCGGSGS..GFAE..KAYRAGA..D..VYITAEI...........KHDVARWA..EEC.....S......FC..LVDAGHYATEQFAVSL.....MANSLRRA..AGLSG...............WNIEV
+Q1NWG7_9DELT/9-267              KLLTLLDTVSPFSQA..A.AW.DNV.............................GL...MVG..........AVHR..........................EVSGILLALDPTPDLLEECRH......HH.CNTIITHHP...P.IF................HPLPSIRTD....QPEGQLVSQAIK.D...........DINLLACHTNLDVVAD.GVSDVLA.RLL.....GIT.........ASAPLEPLERPAGAQAA.....................................................................................................TGAKAPLSGFGRY.GQLAS.P....MAGEEFLARISDRL.KL.........PA......LSVA.......G.PIPRQVS.....TVA..VCGGSGS..ELAR..RAAEVGA..D..IYITAEV...........KHATARWA..ENR.....G......LC..VVDAGHFATENPVVAA.....WAELIKAQ.LATTGH................PVPV
+Q1JZJ5_DESAC/11-364             DLVGWLNRNYPQSLA..E.EW.DNV.............................GL...QVG..........DLNQ..........................EITKVMVALEPTEQTIKQAID......HH.CQLLISHHP...L.LF................KPLKKISKN....DETGRILFAAIQ.N...........NLAIVSAHTNLDHAAD.GLNDWLA.ECL.....DLG.........ATTPLLPPRSGDLVKLVVFVPEDDTDRVATALFKAGAGHIGGYDHCSFRNRGTGTFRPGTDTQP.......FIGQTGQDERVDEVRLETIVPRHRLAATLQRMEKAHPYEEVAYDLIPLENRRQDIGLGRI.GRLAE.P....LSLEELAHRCKDKL.DC.........AA......LRIV......AA.EQPRPVN.....KVA..VCGGSGA..SLIH..EAARQGA..D..VLITGDI...........KYHEAMAA..RSL.....G......LA..LIDAGHFATEHLMAPA.....LASRLDHY.SQTQGW................NMAI
+B3E3Z5_GEOLS/16-365             DIAGIINKKYPFRLA..E.DW.DNV.............................GL...QLG..........DTTK..........................SVTRIMVALDPLPQVITSALD......HN.CDLLVTHHP...L.IF................SPLRQITSS....TSTGNSLLLAAQ.G...........GLALLAMHTNYDIATD.GLNDLLA.DRI.....GLQ.........QTRPLKITSRDELIKLVVFVPEEQLATVRSALLPHAESIGNYQDCSFSTRGEGTFLPLAGAEP........AIGTIGKQEKVAEQRLELLLRRDQLSRAIRTLLAVHPYEEPAFDCYPLLNEAAAKGLGRI.GYLPE.P....VVLADWAGSVAKQL.DC.........ET......LRFV.......G.DTGRSIR.....KIA..LCSGSGS..SLLH..DAIRAGA..D..LLLTGDL...........KYHEAREA..EAQ.....G......IA..LLDAGHFGTEILMVAA.....IQEFLGNA.LAQAG..................HSV
+B5EBN8_GEOBB/8-355              DISGITGKIAPTHLA..E.SW.DNV.............................GL...QLG..........DPSS..........................QVSRIMVALDPGRPAVEAAVE......IG.CQLLITHHP...F.IF................TPLKKISTA....DETGRLAILALK.N...........DLSIISLHTNFDIAPG.GVNDLLA.GLL.....GIQ.........GAQPLRITGGDEYVKMVLFAPSGCEEKLLGALSPFMPHIGNYRDCSYQGEGTGRFTPLPGARP........FVGEVGASHAEPESRLEILLVKERIAAAVAALKGAHPYEEPAYDLYPVLNRGEAYGLGRI.GKLAE.P....VTAGAYALQVKERL.AA.........TG......VRLV.......G.DPARQVK.....KVA..LCGGSGA..SLIH..EAQRKGA..D..LLVTADV...........KYHEAREA..EAL.....G......LA..LLDAGHFSTEYPMVQG.....LAGQLRAA.LQAK....................RF
+A0LHK1_SYNFM/6-257              DVMDWVDAYAPFRFS..A.GW.DRC.............................GL...QVG..........DPEA..........................ELSRLLVALDPGSTTLGEALS......LK.CQCVVTHHP...L.IF................QPLESVRAD....VFPGKLIMTAVR.E...........GISLICAHTNLDAARA.GTNEQLA.RVF.....ALQ.........GVTPLEIDAAWQD............................................................................................................EPRYAGMGCV.GELPA.E....MSLDGLASFAAAAM.GG.........GA......VRVV.......G.EPGRSVR.....RVA..VCTGSGG..GLLD..AVITGRA..D..VYITGDV...........KYHDAMRA..EEH.....G......LA..VIDIGHFSSERVVLQP.....LAEYLRSRAVGQEA.................GLEV
+Q1ASW8_RUBXD/7-359              QVVEAVERLAPPELA..E.GW.DNC.............................GL...QVG..........DLSS..........................EVSRVLVALTPLPEVFDEAEE......EG.ADFLLLHHP...L.LF................RPVRSLDTS....GYPGDLVARAVR.A...........GITVYAAHTSYDAAPG.GVSEALA.AAL.....GLR.........GPLEV.VSPRGSLRKLVVFVPEEHADGVAEALAGEGAGVIGDYTHCTFRAPGTGTFLGGEASSP.......AVGERGRLERVPEVRLETVVPAHLARRAVAAAKAAHPYEEVALDLYPVDGHPQDCGYGRV.GRLPE.P....LSPEELRERVSEAL.GA.........PA......RLVA......NP.SPGERVE.....RVA..ALGGSGG..SFLP..EVAAAGA..G..AYVTGDL...........DYHDALLA..ESL.....G......LA..AIDAGHAPTELPALAP.....LARRLEEL.CGVPAA................ASRV
+Q24T08_DESHY/7-373              LIAQIIERVAPKAWA..E.EW.DNV.............................GL...LVG..........DFAA..........................PVERILVALDATPEVLQEARE......KD.VQLIVAHHP...I.LF................RALKNLRSD....NQSARLPIQMIQ.S...........GIAYYAAHTNLDQSPL.SSSWSLG.KAL.....ELE.........KMEHLKLTHAEKLVKLVTFVPKDHAEAVRQALVNVGVGEGITDGPHASEYAECFFTVVGTGMFRPLNNAHPTIGEVGELTRVEEIRLESILPENRIDRVVKALQKAHPYEEPAYDLIPLYNRGASRGYGVI.GYLKV.P....ESLGSFARKLSAGL.RKLAPASLAEEPK......VRAS.......G.NTEQILR.....KIA..IVNGSGG..SFIS..QALFKGA..D..LLITGDV...........DHHEVLDA..LEA.....G......LP..IMDMGHFWGEIPMVKT.....LAEHLKAE.KALAG..................VEV
+Q67RW0_SYMTH/3-355              NIAAYIEELAPLYWA..E.SW.DNV.............................GL...QVG..........DPGA..........................AVQRVLVALELTDPVLEEAES......LG.CDMVVVHHP...P.IF................RPLKALRFD....NRPARRLLRLIR.G...........GIALYAAHTNLDQAAG.MTNDTLA.AAA.....GLT.........EFEVLKQAGEERYVKLVVFVPRGHEDAVRDALAGAGAGHIGNYSHCTFQAPGTGTFLPLEGTNP.......FIGQQGRLERVEELRLETIVPESAAAQAVQAMIAAHPYEEVAYDLYPLANPGKVRGHGRI.GRLAQ.P....VSLAQLAERLKQAL.RT.........PA......VRVV.......G.DPERMVT.....TVA..VGAGAGA..DLIR..PAASRGA..D..VLVTGDV...........KYHEAQDA..LDL.....G......LA..LVDVGHYNSEAGAIGS.....LAAYLRER.LAADGH................PVEV
+A6NV06_9BACE/2-238              DVYRFLDGKAPFSTQ..M.SF.DNA.............................GF...LVG..........HGDK..........................EVHTILVALDITETVVEEAAQ......AG.AELIVSHHP...V.IF................LPAKHITDQ....DPSGRKLLALLE.Y...........NIAAICAHTNLDIAPG.GVNDALA.QAL.....GLE.........QIGPFS......................................................................................................................EDGLGRT.GVISG.A....LSAEAFAAQVKERL.GA.........NG......VRFV.........DGGRLVC.....KVA..VGGGACG..DMGP..AAIACGC..D..TFVTSDV...........KYHEFQEA..EAL.....G......LN..LIDAGHYPTENVVCPV.....LADWLQEG.FPDV....................RV
+A7VVR8_9CLOT/6-241              EIYRYLNEIAPFSTA..M.DF.DNA.............................GF...LVG..........DGKT..........................EVTKALVTLDITAQSVRQARE......KG.AQLIVSHHP...V.IF................HPLKRLLSN........SVPYLLAK.E...........GIGAICAHTNLDMAPG.GVNDCLA.AAL.....ELS.........GRMEVAFYG...................................................................................................................ELPCCVM.GTLAQ.P....MEPKSFAAFVKERL.SC.........EG......IRYV.........AGNRPVR.....KVA..LCSGAGG..EFLF..DAMEKGA..D..AFVTGEV...........KHHEILAA..KEA.....G......LT..LVDGGHFKTEDIAMEP.....LRERLSRA.FPGI....................EF
+Q2S0R3_SALRD/53-405             DITTALEAWAPPGSA..Q.DY.DNV.............................GL...QVG..........DASR..........................SVTSAVLALDATPAVLAEAKA......HD.AELVVTHHP...L.LF................RPLDGVTAD....GYVSNLALQFAE.A...........GIGLYSIHTNLDAAPE.GVSFALA.ERL.....GLT.........DVGFLDG.FADTLYKLAVFVPEDAFDEVRRALADAGAGRIGDYEACAFASEGTGFFKPGAGADP......HIGTAGGDVESAHERKLEVEVARWNLSSVMAALQEAHPYEEVAHDLYPVKQKNSRAGLGAL.GHLEA.P....MPLSAFLDRVATRL.DA.........GS......LRYA.......G.DPDATVE.....RVA..VCGGAGS..DFIG..TARGAGA..D..AYVTADV...........KYHEFFET..LGH.....DGT..PQMA..LVDPGHYETEALTEAL.....LRDRLRET.FPQV....................DW
+A7V376_BACUN/5-351              ELVSALERFAPLPLQ..D.GF.DNA.............................GL...QIG..........LTDA..........................EATGALLCLDVTEAVLDEAIA......LG.YNVVISHHP...L.IF................KGYKSITGR....DYVERCILKAIK.N...........DIVVYAAHTNLDNAPG.GVNFKIA.EKI.....GLK.........NVRILEA.KENALVKLTTFVPTAQAEDVRKALFDAGCGNIGNYDLCSYNMEGEGTFRAREGATP.......YCGAIGELHTEREVRIETIIPAYKKAATVKALLAAHPYEEPVYDIYPLQNSWPQAGAGVI.GELEV.P....ETELEFLKRIKKTF.EV.........GC......LRHN.......K.LLGREIQ.....TVA..LCGGAGA..FLMP..LAIRNRA..D..VFITGEI...........KYHDYFGH..DTD............IL..LAEIGHYESEQYTKEI.....FYTIIRDL.FPHF....................EV
+Q7MTC6_PORGI/5-351              DIIEAIEAVCPRAYQ..E.SY.DNS.............................GV...QVG..........DTKR..........................EATGALLCVDVTEAVLEEAIR......LG.CNLVIAHHP...I.LF................KPLKRLTGS....SYVERCVELAVR.H...........GLVLYAAHTNADNAPQ.GLNALLA.ERF.....GLL.........NTRPLEP.LQGKLLELVTFVPTEYADAVRQALWQAGAGRLGHYDCCSFSHAGTGTFRAAEGANP.......FVGAISELHHEAEERISLVLPAYRQGTVLQALHAAHPYELPAVSLIPLANDHPSAGGGIV.GDLPS.P....ISEREMLLHIKEVF.GL.........KV......LSHS.......A.WRERPLR.....RMA..ICGGSGA..FMWR..RAAQEGA..D..LFLTGEA...........KYNDFFDA..GEH............LL..LVTIGHYESEEVANEL.....FMRIISQK.FPTF....................AT
+Q11U42_CYTH3/6-352              DLISYLEQIAPLAYQ..E.DY.DNC.............................GL...LVG..........DRQQ..........................TCTGVVVCLDVIEEVVNEAIS......KG.YNLIVAHHP...F.IF................KGVKKITGS....NYVERIIIKAIQ.H...........NIAIYAIHTNLDNIEG.GVSGMLA.QKL.....GLI.........HTEILSP.KKGLLSKLVTFVPTTHTEQLLQGIFSTGAGSIGNYSECSYTVTGTGSFKPNEKANP.......TIGTANQAEQVEENRIEIIYPNHLERQVIRALHAHHPYEVPAYDLIALQNRNTEVGSGFV.GELEK.S....MTKEDFLAFITARL.SL.........TC......IRYT.......T.AFQGEIK.....KVA..LCGGSGS..FLLK..NAIASKA..D..VLITADF...........KYHDFFDA..EDR............IL..VCDIGHYESEIHTKEL.....LMNVLTKK.FANI....................AV
+A6ENK7_9BACT/5-358              EIINELELLAPQAYA..E.GF.DNT.............................GL...LVG..........DANA..........................EVSGILVTLDTLETIVDEAIA......SD.CNLIVSFHP...I.IF................SGLKKITGK....NYVERVVLKAIK.N...........DIAIYAIHTALDNSFN.GVNAGIC.DRL.....QLS.........NRKILIP.QKGTIKKLITYVPTEEATALKQALFNVGAGSIGNYDNCSFSTNGTGTYKGNENSNP.......VVGAKHEFIAADETQISVTFPKHLESIIIKTLHEAHSYEEVAYEVLTLENTNQHIGMGMI.GALKN.P....MEEADFLNYLKKQM.NV.........AV......VRHS.......S.LRNKTIK.....KVA..VLGGSGS..FAIA..AAKGAGA..D..VFITADL...........KYHDFYTA..ESE............IL..LADIGHYESEQFTKEL.....LHTFLSKK.ISNFAPA.............LSRGKV
+A3ZRR2_9PLAN/11-256             QLCRYLDQFAPVALA..E.SW.DNV.............................GL...LVG..........DRAA..........................AVNKLMTCLTITPEVVEEALA......GG.ANMIVAHHP...L.PF................RALKRITAD....DTVGRMLLQLIA.A...........GVAIYSPHTGFDSAAA.GINQQLA.AGL.....GLT.........DVSPLKPFDNPA..............................................................................................................LAPLGSGRY.GKLTA.P....QTLAQFAAVVREFL.QI.........EY......VQVV.......G.GADQKVT.....QPA..VACGAAG..EFLG..TAITLGC..D..CLLLGET...........NFHTSLEA..KAQ.....G......VA..LVLVGHYASERFAIET.....LADQLTAE.FSDL....................KC
+Q7UDY5_RHOBA/21-282             SICQSLSAIAPLKLA..E.EW.DNV.............................GL...LLG..........DRSA..........................EAHRILTCLTITPAVVEEATE......LA.ANLIVAHHP...L.PF................KPMARITTD....SAASAMVWNLCR.A...........GIAVYSAHTAYDSARL.GINEQWA.NRL.....DLT.........SIKPLTPSLDD................................................................................................................PTLGSGRY.GELSE.P....MTAREFLSFAAKSC.GS.........TR......PRLV.......G.DFDRSIR.....RVA..IGCGSGG..SFVG..AARRKGC..D..VLLTGEA...........TLHTCLEA..ENT.....G......LT..MALVGHHASERFAMET.....LAEQLLREIQPLHETFAGDQD...SSPPDPSGNWV
+A4ECC5_9ACTN/5-252              ELERALLARYPKADA..E.GW.DHV.............................GL...SVG..........DPAA..........................EIAGVACALDATEANVRRAQD......AG.ANVLLTHHP...V.YI................KAPEAFCPADASRPQCSAALYEAAR.C...........GVSIISLHTNLDCSHE..ARVCLS.ELL.....GAA.........PVSSLEHVDDP................................................................................................................EATGLGAL.ATLND.P....CTLRDLATRAATAFGSD.................PRVW........GEADRPCR.....TVA..ILGGSLG..DFGE..LAIAAGA..D..VVVTGEA...........GYHVAQDL..ALR.....G......LP..VILLGHDRSEEPFVDI.....LMNSAVDAGVDPR...................HAI
+Q83GL0_TROWT/12-270             VLCATFESMWPSSDA..C.EW.DNV.............................GL...LCG..........FPGL..........................SVERVHFVVDVTSATINEAIK......AG.ADLLVSHHP...L.IF................KPIKKLTCD....TYESFLLSQLIE.S...........KCALFSVHTNADIAPD.GLAQHWS.HLI.....GLR.........NVKPVRY....CPESPS.....................................................................................................VDSTETQYGFGRI.GDLAE.P....VSLYDFAKDLKAFL.PET.......VGG......IMVA.......G.DEAKEIH.....SAA..VVPGAGD..DFLD..LVLDLPA..D..VYVTSDL...........RHHPAVGF..REK.....GILIRKNTA..LICVSHWASEWLWLGY.....AAELIKKR.FPDL....................SI
+A7BDB0_9ACTO/13-271             DVMALMESWYPAATA..Q.SW.DRV.............................GL...IVG..........DPAA..........................PVRSILLALDPTAAIADQAVAGPSGDGQS.FDMVITHHP...L.LL................RGASFLPVT....DPKGGVVTTLIR.S...........GIALFNAHTNADVACD.GVATALA.DLI.....GLR.........DTTPLEP....CGTD.........................................................................................................AEGHEIGLGRV.GTVDE......TTLGSFADHVASVL.PAG.......PSG......LFVG.......G.DENATVQ.....RVA..VLGGAGD..SALE..VARAAGV..D..AYLTADL...........RHHPASEH..LEG.....G.....APA..LLCGSHWATESPWLPV.....LARKLREA.ARAADV................ELRV
+A0LTB3_ACIC1/18-373             DVVAVLNQLYPPALA..A.EW.DAV.............................GL...VCG..........EPSQ..........................AVRRILFAVDPVPSVAAEAIE......RG.VDLLVTHHP...L.YL................RGTSSVAAT....TAKGRVVHELIR.A...........GIALFTAHTNADHANP.GVSDALA.AAL.....GVT.........ELRPLDPLPAQPIDKLVTFAPADAVERILDVLSAAGAGAIGAYSRCAWTTDGIGTFRPNPGAHP.......TIGTIGRIETVPEVRVEMVLPRARRDAVIAALLAAHPYEEPAYDVIPLAERPGRAGTGRI.GRLDQ.P....ESLADFVDRVRAAL.PAT.......PGG......GRYA.......G.DPDRLVH.....IVA..VCGGAGD..GYLQ..TAAGAGA..D..VYVTADL...........RHHPASEI.TAET.....G......IA..LVDMPHWATEWPWLPD.....AAARLREA.LGAAGF................TVNI
+Q6AFH9_LEIXX/10-259             TVREAAETLWPLSGA..E.SW.DAP.............................GL...VCG..........DPAA..........................SVERILLAVDAVAATVEEAIE......TR.SDLLIAHHP...L.LL................RGVTSIAED....RYKGALLAKLIR.G...........GCALLAAHTNVDVVAQ.GTSAVLA.ARL.....GLT.........GTTP.......IVP..........................................................................................................AADGVTGIGRV.GTLSR.P....STLGALARSLAGLL.PPT.......AGG......VRAA.......G.DFHQPVS.....RVA..LCGGAGD..SLLG..SAAVLGA..D..VYITADL...........RHHPASEA..REQALAGGG......PA..LLDVSHWASEWLWLET.....AAGQLRAA.LPGL....................EV
+Q6M3K0_CORGL/8-362              DIRRILDEAYPPALA..E.SW.DKV.............................GL...ICG..........DPTE..........................SVKRVGLALDCTQAVADKAVD......MG.LDMLIIHHP...L.LL................RGVTSVAAD....EPKGKVIHTLIR.G...........GVALFSAHTNADSARP.GVNDKLA.ELV.....GIT.........AGRPIATRLLGGMDKWGVHVLPRMQRTLKKMLFDAGAGAIGDYRECAFEIEGTGQFRPVEGANPA....EGDVDKLFKSLELRIEFVAPRNLRARLTSVLREAHPYEEPAFDIVEMHSAESLENATGLGRV.GELPE.P....MRLADFVQQVANNL.PVT.......EWG......VRAT.......G.DPEQMVS.....RVA..VSSGSGD..SFLN..DVIKLGV..D..VYVTSDL...........RHHPVDEY..LRE....GG......PA..VIDTAHWASEFPWTSQ.....AQEILQDK.APQV....................EV
+A8ZUC2_DESOH/8-358              DMVAIMNRLAPPDLA..E.TW.DNC.............................GL...QAG..........CFDQ..........................EVKTVLVALDPSSAVVRDACD......RD.VDLLITHHP...L.FL................SPPRSVDFS....RMPGTAIFLAAT.H...........GLSIFSAHTNLDSAEG.GLNDRCA.ECI.....GLQ.........NVRVLSRAGQTDHVKLAFFVPVEHEARLLEALAATPAGAWGRYSSCSFSVRGTGRFQPLEGAVP......FIGRTGEIVAVEEVRVEAIVPRRDLDGVVRVLKQAHPYETMAYDVFPLAGGIEPLHGLGRI.GEVEP......STLEVFAGRVKQRF.GV.........DR......VGVA.......G.DMAMPVK.....TVA..VCSGAGS..SLIR..DFLTSGA..D..VFVSGDL...........KYHDAMAV..VEA.....G......RA..LIDVGHFETEHLVVEL.....LVDRLTRE.TAAAG..................YEV
+Q6M164_METMP/5-237              EIIKIIEKFAPKELAVPR....DNI.............................GL...QVG.........LNLEK..........................EVETLGIALDPSLEVIKKAES......EN.VDFLFTHHP...I.LK................DPIRNFTGP......IYKKLKILTK.K...........DIPLYSAHTNLDICKN.GLNDCLA.ELY.....NLK.........DVKNLY......................................................................................................................EDGLGRV.GTFDG.......TFEDILKITKENIFAV.........PQ......TVVP.......KSIYDKKQL.....KVA..VLSGYGLSQDSI...KYVSNFA..D..VYISGDL...........THHSKIIA..EEL.....G......IT..VIDGTHYGTEVYGLKS.....FLKYLEKN..........................I
+A3MU59_PYRCJ/10-266             DVVEVLESIAPPSLA..MEEHRNRL.............................GL...VVGPLHG..LEEV..............................AVERIGFSLNPSIRAIRAAVE......RG.AQLLVVHHE...YFLF...................PRAEDSAPVIYSYRDRVLELLRRH...........RLYLYAAHTNWDFAEG.GNFDTLA.RLL.....GLE..........ARPLPLKLGN................................................................................................................LVLKKAVLAAELPR.P....MKLRELAQYVKERL..............GL..RHIAYV........DGGREEVR.....RVA..LSTGGGFFVDFVV..QLADLGF..D..VYISGEL...........SEEAAEVA..KDL.....G......IG..LIAATHYQTEYIGMVE.....LRRRTEEE.LRRRG..................LQA
+Q8TZC0_METKA/12-224             GVLEVLEGLAPFDLA..V.EG.DEV.............................GL...VAG..........DPSD..........................SVDRVVVCLDLTPQLVRRLSP.........ETLVISHHP.........................................VPGPLLERV...........RSPVIVFHSNWDAARA...AEALA.EWL.....GLE.........DVRKPDPLAAE.........................................................................................................................GRFDG.......TLEDLLSRVEDAL.NP.........PE......IRVV.........ATKNRIH.....RVI..VVSGFGLSTDRFV.RLAAKEGA..D..AVVSGDL...........THRTAVVA..RVL.....G......VT..CVDATHARTELPGLKE.....LAEELSKR.LR.......................V
+A5UKQ3_METS3/5-218              EIIEFIDKNIPKNLA..L.EN.DEI.............................GFKKEYNL............NQ..........................DISSIKIFMDLYPEFDTQKTN..........TLILTHHP...P.LF...............N..........................P...........KTPTYTIHSNWDIING.GANEALA.ETL.....KLN.........VISPFDK.....................................................................................................................TTNIGRI.CKTDK.......SFGDFEKDILDSF............NE......IRIV......NKPSSSKKLN.....KIG..IVSGFGLKNSEYI.KLARKLNL..D..LLISGDL...........TQESAVLA..KNL.....N......IT..LIDLGHHSSEVPGLYK.....LKELLKPLN.........................I
+Q2FPY1_METHJ/5-230              ELFSRFEQDIPPSYA..V.PG.DQN.............................GY..................IGTLD...................PHIFDVQKILVLMDYILPESPNIDY.......SLYDLLVLHHP.......................PPIS......................P...........VIPTYVIHSNWDIVTG.GACDALA.DAL.....NIT.........SFDVLDE.....................................................................................................................STGIGRI.GGIDR.ETEDIITQGRFIHEIMATL.RV.........HD......IRTV.......NCNRFQPVG.....TIC..VISGFGLTPPLIS..KAISKGV..D..IVVSGDL...........THPGAVLA..KNA.....N......IT..LIDATHHATELPGLYR.....LGEMISSY....G...................LDV
+Y1146_METTH/8-215               SLIELMDRVAPPELA..L.PG.DRI.............................GYHGPEI.........................................EVEAVLVLMDYLEDVAVDG...........YDLLVLHHP.......................PEVE......................P...........PIPYLTVHSNWDVADG.GACDALA.DAL.....GLD.........VESFLDP.....................................................................................................................DTGVDRI.CRADL.......SLEELLE.RTGVL.NP.........ET......LRVV.........NPREYVD.....RVA..VVSGFGLSDKSLI.MRAWSEGV..S..AYLSGDL...........THGPAILG..RNM.....D......LT..LIDAGHHATEMPGLHR.....LREVI.ED.FG.......................V
+Q8TW44_METKA/6-234              EVIDFVEELAPPDLA..E.DW.DNP.............................GI...QVCP........PGGLD.........................RKAERVLVALDAT.HALERAGD.........ADLVLTHHP...L.LF................RPPRRIGGR......WYRVLRAVLE.A...........DAVFYAAHTNLDRAEG.GVADTLA.RRL.....NLR....................VE............................................................................................................REACDGFGRL.CEVPG.......SEEELLNALRNLS.PL.................TTVY.........GDWEGVS.....RVL..VVPGAAP.DGLVM..ECLRCGV..D..AVIAGEI...........KYHTRAEL..LEE.....G......IA..VVELGHEYSELPGVQE.....LARRVREE.FRD......................L
+Q0W3L4_UNCMA/5-231              DLVKLLEAIAPPDLA..E.DF.DHGK...........................IGL...IVP...........GYH..........................RVNKVATALDPTPFVIERAID......MH.AEAIVVHHT...L.IW................NPVTALTPD......MAGVLKLLLE.N...........DISLYSMHTNYDRAPG.GVNDTLA.DLL.....GLK.........DTVAVDLCRA..........................................................................................................................GVVET......QSLADFAASASRALKVD.................VEVV........GRLNKDVC.....TIV..TAAGSAFREALP...IAKQLNA..D..VLVSSEL...........RHDVIRDR..GNV.....A..........LISAPHYFTEAPAMKR.....LADVLNSKN.........................V
+Q12Z61_METBU/5-232              KVVETLEEIAPPELA..E.DF.DIDR...........................IGL...TLD...........LDN..........................DIKRIAVALDPTEYVLERAAQ......IG.ADMLITHHT...L.IF................HSVNLISKE......LAGLLKIAFD.N...........EISLYSMHTNYDSAKG.GVNDVLA.QRL.....GLN.........DVY.........................................................................................................................EVGMGRI.GTIDE......CPLDVFIDHVAKSLNTH.................LQYV.........GEKDTIK.....KVM..VFGGSGFKDDYLD..IARDNDV..D..AYVSAEL...........KHDVLRSY..DDL.....L..........LVDATHYATENPAMET.....LCERLKDL.LK.......................I
+A0ZGU3_NODSP/5-248              DLITWFEEWANPAWC..E.SW.DNC.............................GW...QIQ.........PGVLS..........................EKARVLVCLTPTLAVMQEAIA......LH.ANLIFAHHP...L.IF................SPLKSLCSG....EAIAEMARLAFT.H...........NIGIYSAHTNFDQVQD.GTADVLA.QIL.....DLQ.........SATPIVPTQA..................................................................................................................GLGYGRV.GLLEP.C....LTLQELLAKIHTRL.AP.........PH......LIFS......PTADLQQNIS.....RVA..VLGGSGA..SYIS..AVVKTQA..Q..VYLTSDC...........KFHQFQES..RDR.....H......LI..LIDAGHYATERPACDR.....LVQKFMSLNLDW......................V
+Q310X0_DESDG/5-312              DFIHMIERIAPVCGA..A.EW.DNS.............................GV...QVA..........SRCT..........................EIHSVAVALDPSEANIEKAVS......QG.ADFFLAHHP...L.AF.................KPQPLSGN....DSYFRSVSQLIT.N...........DICLYSAHTSLDANPA.GPVGWLA.ESL.....KLQ.........NCKTLEPTAASMQHRIIAPSAASGSIPAVIAGSIRCRHIQGIGYEF..........................................EFDTEDIVYETAADHIRQVLPAGTSLLKAEERAGRRELGLGIS.GSLPC.R....LSWHEFVQLLEKSVERT.................FWTT.......CGPVPETVE.....TVA..YCTGSGS..SLAE..TAFARGA..D..VFITGDV...........KYHTALDT..TGC................IIDVGHFSLEEEMMRR.....FAALLAAGAPD.......................L
+Q1MR73_LAWIP/5-246              NIINIIEEVAPLSVA..A.TW.DNS.............................GV...QVA..........SSQD..........................EIFCLAVCLDPTPESVYKASE......LG.ANMILSHHP...LGLR................PRFPTIIDN......YYSVLKLLLS.K...........NILLYSAHTSLDANLY.GPASWLA.EVL.....ELH.........ECSVLESIHTTNG............................................................................................................VSSQYGFGRI.GHFSS.P....VPVENFCQRIYPLIGEA.................VPRL.......IGELPRQIY.....RVA..FCPGAGA..EYAA..EAARQKA..D..ILITGDV...........KYHQALEF..........S......LP..VLDVGHFCLEEEMMRR.....FSQYLQSVLLD.......................V
+A1VDX4_DESVV/5-310              RIIETIEKTALPAAA..A.PW.DHC.............................GV...QVA..........AARD..........................DVHALAVCLDPTPDNVVKAAA......LG.ADFVLAHHP.....LL................LQPRYLDRV....DAHHEVVRTLLT.R...........DIWLYGAHTSLDANPA.GPVAWFA.DEL.....ALE.........GRRVLEPTFTRQRITHRIVGMGAHLAAVAALPAVLKARAGDDDLV............................................VSCNAEDWAQLEVALRALPDGDRPMLPMAPEYPAEVWGIGII.GDLPA.P....LAWDDFIRRVGQLV.PL.........DG......ATFC........GSPPPVIS.....RVG..YCTGSGS..SLAS..DAFAMNA..D..IFITGDV...........KYHTALDT..TGP................IIDVGHFSLEEEMMRR.....FALRLQEDLPD.......................V
+Q7MQP7_WOLSU/6-230              EVLGFLEEISPLALQ..E.PW.DNS.............................GL...LVG..........SGGE..........................EVNSIYVALEATLKLVESLPP.........HSLLITHHP...L.LF................KPLKALLWE....EYPANILRALIQ.K...........NLSLIALHTNFDQTH...LGRYVASEVL.....GFS........G............................................................................................................................VEMEGYV.GYFPL.K....MSTHELASHLKRAL.GL.........ER......IATV.........GQERYLE.....RGA..IITGSGG..SLAP..SIKA.....D..ALLTGDI...........KYHDAMIA..KSL.....G......IN..LFDIGHYESERFFGEI.....LASVLKKHLNHL......................I
+Q7VIG7_HELHP/17-261             EIYELCNTISPFNTQ..E.SW.DKS.............................GL...NLG..........SFHN..........................EYTDIVLCLEVNLAIALSLKP.........NTLLITHHP...L.FF................NPTAQMITD....TYPHNIAAILIR.K...........NCSLISLHTNFDKSH...LNTYLTHQIL.................QWHHFVPS....................................................................................................................EDGLLMS.GKIPP......ISLQKLAQDVCKKL.NA.........PSVSFVQGDDITFLNQESQASHTNDAIT.....EAY..VVCGSGC..SLLS..QIQPNPH..I..CLLTGDI...........KHHDAMMA..KSM.....G......IS..LIDIGHYESEKYFVEI.....FDSILQNVGYN.......................A
+Y959_HELPY/6-231                EVLVVLNRLSPFELQ..E.SW.DNS.............................GL...NVG..........SENS..........................EFSEIVACLEITLKIALNAPQ.........NALIITHHP...L.IF................KPLKTLNDE....IYPGNILKILIQ.K...........NVSVISMHTNFDKTH...LNKHFAHALLE..FDGLV.....................................................................................................................................EKGLMLV.KENAN......IEFDALVKKIKSSL.GV.........GS......LACV.........KSSQTIK.....DLA..FVCGSGA..SMFSSLKAQS........CLITGDV...........KYHDAMIA..QSL.....G......IS..LIDATHYYSERGFALI.....VAEILHSFNYL.......................V
+A8EW77_ARCB4/5-232              EIYDVLNEISPFELQ..E.KW.DNS.............................GI...LVG..........SFED..........................EIENVYISMDLDLELAKDLKP.........NSLIITHHP...L.IF................SGIKRVNFD....TYSTKILKELIK.K...........DISLISMHTNIDKTH...LNKYVIEKIL.....GFK........I............................................................................................................................ENSSEFI.SYCNV.N....MNFDELVKYVSNKL.NL.........KT......TKVV.........RSKEFIK.....DIA..VVTGSAM..SLLD..QIKA.....D..CFLTGDI...........KYHDAMEA..KAR.....N......IS..LIDIRHYESECYFNSLVE.TLLEEYLKKNKLK.......................A
+Q30TF6_SULDN/5-228              QIYDFLDSLSPFELQ..E.KW.DNS.............................GL...LVG..........DFNQ..........................DVKKIVLSIDVDESLIDSMEE.........GTLLITHHP...I.IF................GGLKQLEFN....KYPANLLQKMIQ.K...........NISNISMHTNFDQTH...LNEYVATEIL.....GYK........I............................................................................................................................AQKDGFV.AYLDI.D....EDFDFFALKVASAF.SL.........PH......AKCV.........KSSQRVK.....RVA..LTTGSGS..SLIK..SIKA.....D..CFLTGDI...........KYHDAMEA..KSI.....N......LS..MIDIGHFESERFFADI.....LFKHLKNLGLE.......................A
+A7GZB8_CAMC5/5-228              EIYKILDAIAPFDIQ..E.SW.DNS.............................GL...LVG..........SLES..........................EFERIYLSLDLSREILENALP.........NSLFITHHP...L.IF................KGLKSLNFS....YYPSNLIRKMIE.K...........NISLISMHTNADLAF...LNEHFTREIL.....GFE........P............................................................................................................................SEKDGFL.MYCEV.K....FSFDELACFLKEKL.RV.........ET......IRAV.........HAKDEIS.....RIC..VCTGSGA..DLIG..EVRA.....D..AFLTGDL...........KYHQALEA..KEN.....G......IN..LFDIGHFESERYFGAA.....LAKYLQNLEIE.......................V
+A7SAJ3_NEMVE/5-336              EVVSNLESWAPTSLA..E.KW.DNV.............................GL...LVE.........PSGQH..........................NVRSILLTNDLTEKVLQEAIE......KR.ANMIISYHP...P.IF................VPLKRLTSK....SFKERIIVKAIE.E...........RIAIYSPHTAFDAVFG.GVNDWLA.KGL.....GRG.........SVDPITYSMEACVKGCDYNVTAIAPSTEAAEKINSQINSLGGIGSNSIGKTERF...........................GDPALPKIVTHCSGDTLSAVMQILQSYTIYYLEIYQLAKKPIPGTGSGRL.CTLDT.P....VTLPDIIHRIKKHL.QL.........PH......LRVAY....APSKAKDTLLS.....TVA..LCAGSGA..SVL.....QGVAA..D..VYLTGEM...........SHHEVLEA..VSR.....G......VH..VILCEHSNTERGFLVP.....FRQQLYNM.LSGQ...................VQV
+Q4CW43_TRYCR/7-273              RVMVAMGEIAPLWLA..DQSW.DNV.............................GL...LVE.........SPDSN..........................NSGIVLLTVDLTPEVMEECLR......HN.VEVIVAYHP...P.IF................TAFKRLTLA....DPKQKIILQTVR.H...........GASIYSPHTSLDAAKG.GINDWLA.SIVDS.SG............ACRPIQPCECVNRHGNGGF.................................................................................................GGNDNDELSVGIGRL.VALHQ.P....KTMATLVNDIKTGL.RI.........PT......VRVSL....PHGWSGNTSVH.....SVA..ICAGSGS..SVF.....RMIREHVD..VLLSGEM...........GHHEVLAA..NAK.....G......QA..VILCEHTNTERGYLEKELLPKLQQKLEKG.VR.......................I
+Q5KCX5_CRYNE/12-280             LIKRVWERIAPLQLA..ERSW.DNV.............................GP...IIEA........PYPNP..........................SHRQVLLTIDLTPSVCAEALK......HPSLSLIVSYHP...P.IF................RGLKSLTLS....DPLQASLLKLSA.K...........GISVFAPHTSLDATPN.GINTWLI.KPFIPISISHD.........PIIPSDPLESF................................................................................................................EGAGMGRI.AKLSE.P....LDIRQAIKMVKDHL.SL.........DF......VQLAE.....PQPDVRKPIK.....SVA..VCAGSGG..SVF.....KGVEA..D..LLITGEM...........SHHEILAY..VAS.....G......TT..VILTNHTNTERPYLSHVLQPWLQEELNKE.TKDHSNEYG.........ANGGKWEV
+NIF3_SCHPO/9-265                KLKKVVESIYNPKLA..D.SW.DNT.............................GL...LLEA........PFPRT..........................NASSVLLTIDLTEKVAEEAIS......NKLVSSIVAYHP...I.IF................RGLKAITME....DPQQRSLLKLAA.E...........GIHVYSPHTAVDAAVD.GVNDWLA.QGIAGGRNNIK.........SVVPTQQNSVMA...............................................................................................................EAEGYGRI.CELKI.P....TTLRELVQRAKELT.GL.........QY......VQVC......APNGLDSHIS.....KVS..LCAGSGG..SVV.....MNTDA..D..LYFTGEL...........SHHQVLAA..MAK.....G......IS..VILCGHSNTERGYLKDVMCQKLASSFHKEGVDA.....................NV
+Q7S5H9_NEUCR/62-330             RVVAAMRALYPEQLA..DKAW.DNV.............................GL...LQENI......AVAGQD..........................VPQTVLLTNDLTVAVAEEAIR......KR.ASVIVSYHP...F.IF................RGLKSVTLA....DPQQRILLQLAQ.A...........NIAVYSPHTAVDAAPG.GMNDWLA.DMLDGHGVETKR.......SICQPISSSITASLP..........................................................................................................PAFFNSGYGRL.VELGH.P....VYLGNIIKAYAEGLGGL.........NH......IMIAA.....PKDKKVTTIR.....SVG..ICAGSGA..DVL.....KNCDA..D..MIVTGEM...........THHYALAL..TMK.....G......KV..VMTVFHSNSERKFLKKRLQPQLQAQLEKEGVKHP....................EV
+A6SM83_BOTFB/24-302             TVVLTTRGVSFVTYL..WGSFTDNI.............................QV...LLEA........PHREN.........................HLKDSVLLTVDLTKGVADEAIR......RK.DSIIITYHP...I.IF................RGLKAVTLA....NSQQSSLLRLAQ.E...........GISVYSPHTAVDAAPE.GLNDWLA.DIV.................TNRPLKKNQSVDTESIDHERSI..........................................................................................VNSIKDIPDGFEGAGYGRI.VRFKQ.P....QKLGDLVARMQSSL............QIGGRISGLSVAVPQSIPRGKKSSIEIS.....SIG..ICAGSGG..SML.....NGLDV..D..LLFTGEL...........SHHEALAA..VEQ.....G......KC..VVTAFHSNTERAYLKDRMQSALEEVMEGN.AD.......................I
+Q5B6Z5_EMENI/15-342             AVVNSMRKLYPESLA..DKSF.DNT.............................GL...LLEA.......PFNPTR.........................RQKNSVLLTIDLTKAVADEAIA......RK.DSVVVAYHP...I.IF................RGLKSLTFN....DPQQQSLLRLAA.E...........GISVYSPHTAVDATPG.GMGDWLC.DVVTGATTPSSS.......SSVADLESPPSALYSAPTYPKPGPVSPSTSSK........................................................................IIPHTRSTIHPSPAPVPSGLEDAGMGRL.VTFAE.P....QPLASVIDNIASGVGYP.........GG......IPIAIP...QSASVEDIKIR.....TVG..VCPGSGS..SVLM....KGVKQIPD..LLFTGEM...........SHHETLFA..IEN.....G......SV..VVALAHSNTERGYLRAVMKDKLEGVLKGEWAELRTEEGKGEEAGLNEVYEDETCEV
+Q4KMJ5_DANRE/5-334              GVLEVLEQLAPLSLA..E.SW.DNV.............................GL...LVE.........PSRPR..........................PIKTILLTNDLTAAVMDEAVG......MK.CDLIVSYHP...P.LF................RPFKRLLQK....DWKQRLAVRAIE.N...........GIGIFSPHTSWDSVEG.GVNDWLV.GGM.....GRG.........KVSVLSQAVSSGAQKHRVEFSCMDDGEVNSLLEQLRHTEGSETFQCTRINSES.............................GGQQVNLTCGSSALTGAVQILLSHPHASKSLNITQVQQPPLLGCGQGRL.SVLEE.P....VSVSTAVQKMKTHL.GL.........PH......LRLAL....GDQQTLDSMVK.....TVA..VCAGSGA..SVI.....QGVTA..D..LYITGEM...........SHHEVLDA..VSK.....G......TS..VILSEHSNSERGFLGV.....FRERLSAR.LDHT...................VSI
+A4IGP2_XENTR/5-334              SVVSRLNVLTPPALA..E.GW.DNV.............................GL...LVE.........PSPPH..........................QVHKLLLTNDLTEDVLDEAID......TG.ANMILSYHP...P.VF................KALKRITQK....SWKERLVVKALE.K...........HLAVYSPHTSCDALAN.GVNDWLA.RAL.....GPS.........KSVPLRASTSLTYPGGVGHLLEFRLDPAGNIMSRLNGIQGVSVCTSTARHDGD.............................NGTRVSLSCSQNALVEVLSILSEEPQVYNSLQLLTLQKPPLVDTGMGRL.CTLSE.P....VSIAAALERIKKHL.HL.........PH......LRLAL....GRGRTLESSVS.....MAA..VCAGSGS..SIL.....SGVPA..E..LYLTGEM...........SHHDVLDA..VAE.....G......RS..VVLCEHSNSERGYLQE.....LGGQIRQA.LEGQ...................VQV
+Q6P1B7_MOUSE/31-363             ALLSSLNDFASLSFA..E.SW.DNV.............................GL...LVE.........PSPPH..........................TVNTLFLTNDLTEEVMDEALQ......KK.ADFILSYHP...P.IF................RPMKHITWK....TWKECLVIRALE.N...........RVAVYSPHTAYDAAPQ.GVNSWLA.KGL.....GTC.........TTRPIHPSRAPDYPTEGAHRLEFSVNRSQDLDKVMSTLRGVGGVSVTSFPARCD..........................GEEQTRISLNCTQKTLMQVLAFLSQDRQLYQKTEILSLEKPLLLHTGMGRL.CTLDE.S....VSLAIMIERIKTHL.KL.........SH......LRLAL....GVGRTLESQVK.....VVA..LCAGSGG..SVL.....QGVEA..D..LYLTGEM...........SHHDVLDA..ASK.....G......IN..VILCEHSNTERGFLSE.....LQEMLGVH.FENK...................INI
+NIF3L_DICDI/12-341              EVLKKLGELIPLNLA..E.KW.DNV.............................GL...LVEP........SNTDS.........................MDIERIFLTNDLTEPVLQEAIN......EK.ASFIISYHP...P.LF................NQFKTVNQK....SISQRIAIKSIE.N...........RIPIYSPHSALDSCDG.GLNDWIS.NALIKLNSGKG.........RSKPITPYQESLKSTQKISIYLHTNQPLTAEILKQLELNSNFQFYSTDK.....................................IELSCDQQQLLILINLIKSFSNEIKNWDIINQEKVLSLNNGSGKL.VTLDDDG....IDIDVIVKGVKELF.NI.........EY......VRIGR.....PLSGESKKIK.....TIS..LCAGSGG..SVV.....FNAKA..D..LYLTGEL...........THHAILDA..CAK.....G......SY..VIVCDHSNSERDYLPQILKPNLEKLFNGR.IK.......................V
+Q8SV52_ENCCU/5-229              EVSKAIDRFASLRRA..KTDW.DNV.............................GV...IVD...........SGT..........................QDKKILLTIDLTEPVLEECIH......LG.VKNVVAYHP...I.IF................KAVKKLGSK.......ESIVIGCIK.N...........GINVFTPHSALDP....LMNTYVY.NMI.................NSGPFFYKKN..........................................................................................................................CGPNT......STIGNAIRILKERS.GL.........ES......FRIC........LAREHTME.....SVPEFMHVGVGA........TFRNVLLKNS..IVITGEM...........SHHDLLSC..IAN.....G......AS..VILMEHSNSERICLGH.....ISAKLKEE.LPEY....................EI
+Q6FQE2_CANGA/13-283             KALEVIRAAFPEKYA..DKSF.DNT.............................GL...LIDCSS....NEESHAN..........................NAVKMLLTVDLTSRVADEAVK......QG.CNLILAYHP...F.IF................PSWNRLNPQ...TNVQHASAIKLIQ.N...........NISVYSPHTAVDAVDG.GVNDWLV.ESLVPKTVNIT.........TKECIESTANTAP............................................................................................................HDPITGYGRY.FKLDK.A....VTLQEVVDVLKKNT.GL.........SH......VQIASLP.YEISGNLHHEVQ.....TVA..VCAGSGS..GVF.....RNLKETPD..LYVTGEL...........SHHEVLKY..KEM.....G......KA..VILCNHSNTERGYVKTSMLQLLKRHDTAGLLQD......................V
+A3LS90_PICST/8-261              RAVKAVQKFYPIALA..DKTW.DNT.............................GL...LLDSS......SDNIKS..........................DQLNILLTIDLTQSVAEEAVK......KS.ANFIVAYHP...F.IF................RGLKSITTK....DPQQRSLIKLIQ.N...........NISVYSPHTAVDSAYG.GVNDYLV.DGITY.GFDIQ.........SREAIEKDENA................................................................................................................QDCGMGRI.VTLKK.P....APLSKLIGNVKCSL.GL.........KY......VQIAR....GSGTSKDHEVS.....TIA..ICAGAGG..SVF.....KGIKA..D..LYFTGEL...........SHHEALYF..TES.....G......SS..IITTNHSNTERAFLKV.....IKKQLSET.LQDA....................NV
+Q86F61_SCHJA/5-335              KIIQLLDMYCLPHLA..E.KW.DNV.............................GL...LIE.........PSPPH..........................RVNKIFITNDLTEQVLDEAIS......QK.SGLIVSYHP...P.IF................SSLKKLTQQ....HWKQRVVIRCIE.N...........KIAVFSPHTGLDAKFG.GINDWLL.EPL.....AVR.........EKKSLTRSPAINQATSRLNVVMNQNFGDFVMSTGVGVCTTNIMSDAG.........................................LTAVVTCAESDLKRVLDMAEALQIFVVSKDTIQQTREEGCGRL.VTLQF.P....VHLKAVIAAYKKFL.NV.........EH......LTVAP....GLGKTLDCSVQ.....TVA..VCAGSGG..SLLC.QTPASFAA..D..LFITGEL...........SHHDRLEA..ISR.....G......IS..VILAGHSVTERGFFKERFIPDFRQLLSAV.YDPGDI...............PHLEL
+Q14P57_SPICI/5-233              KLYQEIETDFSLKVA..C.KW.DYS.............................GH...QYG............NKN........................HFVAKIMVCLDLTSEVITAAIA......KQ.INVIITHHP...F.CF................GKKKRIQRI....PYKQTIIELLNK.H...........QIAVYALHTNYD.....GLMNELILQEL.....NTQ.........KIVAFDDNL...........................................................................................................................TKIGHIS....LTADEIIMKLKAIF.KI.........TT......VQHN.......LPKLDQPIK.....TVA..LAAGAAG.N......VIANIDQNID..LFITGEV...........KWDQWVLA..NEK.....Q......LA..VICFNHY.MEDFFTAA.....FAGYLTRK.FPT......................L
+Q2SRY9_MYCCT/5-244              NIISYLNQLFNPKKA..S.NW.DHV.............................GF...QFE............YKKL.....................NNINISKVLVCLDLTNDCLEFAIS......NQ.IQLIITRHP...F.IF................NELKLEKKN....PNKKQMIKKLNK.H...........KILVFSIHTNYDSSIKQNLLEILN.KKL.................KINSFKKYGKDKE............................................................................................................SNL........FYLDQ.K....ISVNDLINDLKEIF.SL.........NQ......IRLN......SNISLDTKIK.....NFY..LTSGSGA........STMIENMLKD.CTFITGEV...........KWDQWIYA..NSN.....N......VN..LIEIGHY.AENHFIDD.....LKNKLQIK.FKD......................I
+Q6F1J4_MESFL/5-244              KLIKYLEKKFPANKA..Y.EW.DNV.............................GI...QKF............NKKVV...................NFDKEISNVLITMDLNNESLKQMEN......SK.IDFIITRHP...F.IF................NELKKEKEN....PFKKELIKYLTK.E...........DIYVFSIHTNYDICGYKAFIDLLT.NAF.................KIKSAKFPLFNKE............................................................................................................YLE........VNLNS.D....ISKDDLIQNLKNVF.QV.........KT......IQIN........SDENFKTS.....KFL..INQGSGA........SSMISKQIQD.CVFITGEA...........KWSDWIYA..NDN.....N......VT..LITVGHY.MENYFIND.....IEERLSNN.FKD......................I
+Q8EUT6_MYCPE/5-240              DFYYLLDSIYKIDSQ..D.EW.DNS.............................GI......Y.......EFGSDN..........................VLINPILSLDINLDVVDYAIE......NN.SNLILSHHP...V.FI................DPLDQKKKH......IKSIFQKLEE.H...........NISVISLHTCFDKNPK.GTTYQII.KRL.................KGFNISRSKKSPY.............................................................................................................LF........FGVSNSK....LTLADLVKKIKNNL.EI.........EY......VNVL.......SSKLDKNNNKPKHIKIA..AVGGSGS..SEIE.TIIKKDKI..D..FFITSEV...........KWHLWNKN..SQD.....Y......FT..ILEIPHS.VEKVFIKT.....IKEKFKN...........................I
+Q4A5V5_MYCS5/5-245              ELASFLEYLYPKDNA..E.EW.DPV.............................GF...SLS............YKN........................MLVRGVITCLDVTKEIVNFAIE......NN.YNFIVSHHP...FLFY...................EDLNEELNTYFYKKEIYELCKK.H...........KISLFSLHTNYDSDKN.GTSYQVA.KFL.....NLF.........DSPAHKELKTVSK............................................................................................................YAY........CFKDN......LSVSELAKAAKNSY.KI.........DS......LATN.......VSDLDAKFN.....SFC..IIAGSGA..SEIS.QLKRQYKI..D..LFLSSDF...........KWSDYLFY..DQS.....K......IN..FLEIAHL.QESVFALD.....LARLLNQH.FPD......................L
+Q6KI02_MYCMO/6-252              DLINYLESFYPFEKA..E.LW.DKV.............................GFSFLSKN............LK..........................QIKKILICLDFDFEAFEKVMK......ND.IDLIITHHP...F.YF..................EDTLEEEFLKNPYKSKIESVFKKLN...........NKSIYTLHTNFDNHFE.GTSYLIA.EQL.................GYTNFLKTNNN................................................................................................................Q........AVITKVN....ENFKDIVDKIKSSF.NF.........TY......VISN.......LKETDEIVKTKKTWKIA..IFAGAGD....IN..LINQFKDNYDFDLLITSDL...........KWNTLISLASNQK.....E......IN..YLIVPHK.IEEVFIAK.....IETLLKEK.FSN.....................KL
+A5IY53_MYCAP/5-248              KITNYLIKQYPLENK..E.EW.DPA.............................GW...SLK.........FNLSE..........................KINGIVVALDLTSEILEKALC......LN.ANLIITHHP...FKFY...................KTWEEEFINAPYKSQILKTLKQ.K...........RINVLCLHTNYDNHKF.GTSFQIA.KML.....DLE........QNIAHFENSNYP.........................................................................................................................IAIKNVN....FKFKELVLLINQKL.NL.........HQ......MRTNI....DFDESKNKIIK.....NIA..VFSGSGA....IS..EISKVDCTYD..LIITSDI...........KWSDWLTY..KEL.....K......IP..ILEISHL.DEQVFIYD.....IYNQLSSN.FRDI....................TI
+Q601Y7_MYCH2/5-239              EVGDFLLEKFPLQNC..Q.NW.DKC.............................GWQFLFDT........................................KFLGATICLDLTNDVLDFALK......NS.SNLIITHHP...FFFY...................QTKKEEYAYSPYKKKLTFLLKK.K...........LISVISLHTNFDSKEN.QTAFSII.KQCGFDFEKIE.........KIDEF...............................................................................................................................NILFQTS....ADFNEILKKISLNT.NL.........TT......FRSN........VEKNFFPK.....KVA..ILPGSGG...ILACLQAKKQKA..D..LIITSDL...........KWSDQITL..YHK.....K......IK..VLEIPHL.IEQVFVFE.....IERILKEK.YSK......................I
+Y351_UREPA/10-250               DILNFLTKKYDLSKA..E.AW.DKN.............................G.....LFF........D..EQ.........................QTINNVQIALDITDDVVNDAIL......NN.ANLIISHHP...L.FT................N..QDSNDEV.NYFVNIDLIEKIKK.N...........KISLIHLHTAFDASAN.GMSMQMA.KRL.....GL..............LNLKQDEQNP..........................................................................................................YLVV........GELKL.G....VSVDYISRIIKQKF.LS.........PI......IKYN......NVFRLETNLK.....KIG..IIGGSGY..KFAD.DAFNRYQL..D..MLITSDL...........KYHNWLDA..QAK.....K......QN..IIDMNHL.SESIFIDV.....IYDELTKF.YGND...................ANL
+Q7NB92_MYCGA/5-241              RITDWVLKEFPLRNQ..L.SF.DNA.............................KLINHKNL............TN..........................QLTKVLVCADYDRFNFELAKK......HN.ANLIISHHP.....MF................INHQDLKSD....AFIAKAYQDFYQ.N...........NRSFLVLHTAYDFSPN.GAHSYFF.KLL.................KIKKFDPNPINHY.............................................................................................................YR........FEID.......CSLEQLISDLKKI.............EYIDQVQYLSTA.........KFKKKLK.....KGL..ICLGSGYSSDQLDLELFKQY....D..LLITGDL...........KWSSWINA..INH.....E......IN..VIDIGHH.VESIFIDH.....IGELLVEK.FHD.....................QL
+Q3F0L5_BACTI/6-294              EIVSKLDIELDIKSF....GK.DSAFSQFIPMVYEPLKFDWKSVFEKDFVELFNGL...MLK............GD.........................ANVKKIFLAVFPTDEVLERFIE.....ESNSGDLLFMHHP...L.LMEC...........GDPKGVWGKGFV....PIKEKYIKQIKE.K...........KLSFYTCHVPMDYHANLGTSVAIA.KQL.....NAE.........IIDGFLTSSIN.................................................................................................................NEDLVLI.CNIEE......KSTSELTSHLKEIF..D.................IPYVD.....FEGKNINNVK.....KIA..IVAGCGDKVSWME..EAEKRGV..Q..AYITGEIHCHIDNEYGKQRYKQMMDY...VS.....N......TSMSLIGVSHSASEYLVHKT....LMKEWFENN.FD.......................I
+Q0SN38_BORAP/5-237              DLFFKLNSIFDIKKYEHV.DK.NLN.............................GL...QVGD........L..SA..........................EVNKVAFAVDASYSTLKEAKG.........NDFLITHHG...I.FW................SKKERIISN......MYNKVKFLIE.N...........NLALYSVHLPMDAHSVYSHSKVFS.DFL.....GLT.........NPFAFANYE...................................................................................................................GFNLGII.ADSA.......FSFSE....ILEKI.............KKKNKHILFSK.........KFKEKVN.....KVA..IVSGSGY.S.FFE..EALHYDI..D..LFITGDT...........SHQIYSLA..EEC.....G......VS..LIFAGHYFTETFGLIK.....LMEDFKIQ.ED.......................L
+A9B0A0_HERA2/5-242              ELVRYLDSYLQTAKF..R.DA.SLN.............................GL...QVE...........GRD..........................EVKTIALAVDASLQAIEAAIA......GN.ADLLLTHHG...L.FW................GNAQPLVGW......LGRRIKRLMA.A...........DCSLYTSHLPLDAHGEVGNNAQLL.KLL.....GWE.........MVQPFGDYR...................................................................................................................GQMLGFI.GQLTT.P....LSIEGLVAHVKSTL.AI.........PEN....EIKVW.......G.QTSRGIK.....RVG..VVSGDGA..SELE..QALRDGC..D..ALLTGEV...........NYAAVFPS..IEA.....D......MP..LICAGHYHTETLGVKA.....LGAHLEQT.FR.......................V
+Q1IWV8_DEIGD/21-255             TLVRWLNEYLNIGAY..P.DP.SLN.............................GL...QI.............EGT........................DTIRRVAASVDTSIKTLQDAAD......SG.ADLLLVHHG...L.FW................GKPLALTGP......HRTRVRTALM.A...........DLNLYAAHIPLDAHPEVGNNAMMA.RAL.....SLQ.........SLRPFGDWQ...................................................................................................................GHKIGLA.GELPF.S....QSLQD....FADRI............QKLTGEICLVHA.........GGQPQVQ.....RLG..IVSGSGA.S.AVA..EAAAAGL..D..TLLTGEP...........EHKHFHDA..FEY.....G......VN..VIYAGHYETEVFGVRA.....LAARLEEE.FG.......................L
+Q73KL0_TREDE/5-248              ELDLYFTELLNIDAFAAQ.DL.SQN.............................GV...QVQ............NSG........................KEIKKVAFAVDACLQSIKEAAE......RK.ADMLFVHHG...L.FW................SRSLRIMGN......HYHRIKALLD.N...........DIVLYAVHLPLDAHPLYGNNIGLA.RRL.....ELE.........NLKEFGMYR...................................................................................................................GLNIGFY.GSLPL.K....EGSEE.GLELDEIINKL.........FPQGEKPANILP.........FGPKKIK.....TIG..IISGGAA.S.EID..DAIALGL..D..LYITGEI...........EHITYHNA..LEN.....R......IN..VIAGGHYQTETVGVQL.....VAKKLELD.TN.......................L
+Q2LUC1_SYNAS/5-241              RITDYIDSYLDIHSY..H.DD.SAN.............................GL...QV.............ENT........................GNVKKIGLAVDACHESISRACR......AG.CDLLIVHHG...L.FW................GSQQLIVDN......HYQRIRALIM.A...........DLALYAAHIPLDAHPIIGHNRVIA.EHL.....DLE.........DIEPFALHH...................................................................................................................GKHIGVK.GRFRQ.S....GSRAE....AAIWI............EKELGACRGLLE.........FGPETIS.....TVA..VVAGSATDIELFR..ELKRDGI..D..FFVTGEP...........KYAAYHMA..KEF.....G......LN..IFYGGHYQTETFGIKA.....LGEHLQRL.FA.......................I
+Y1777_ARCFU/5-234               EVVRFLDDFLEINSY..Q.DV.SNN.............................GL...QV.............EGS........................EEVKKVAFAVDASMESFRAAKA......VN.ADMLVVHHG...L.IW................GGIGYIRGI......VKRRIEFLLR.S...........NLSLYAAHLPLDAHREVGNNAVIL.RKI.....GAE.........PQEEFGEYK...................................................................................................................GVKIGFS.AKLEK.A....TAVGE....IAEKL..............G...PAMVLP.........FGEERVR.....KVA..AVSGKGC.F.ALN..EAIDAGV..E..LFITGEP...........EHEAYHLA..KEG.....G......IN..VFFLGHYESEKFGVQS.....LMEVVREK.LG.......................I
+Y1424_PYRAB/5-239               EIVSFLDEYLSISSY..P.DK.SSN.............................GL...QV.............EGK........................EEVERIAFAVDACLDTIAKARA......FN.ADMLIVHHG...I.IW................GGVSYVKGL......FAKRLKALLS.S...........EMNLYVAHIPLDVHPEVGNNVQLL.KLL.....NLE.........PLEPFGEYK...................................................................................................................GIKIGYI.GEFEE.P....KPLPM....IAQIL..A.........EKLPVDYVRSYE.........FGLQEIK.....RVA..VVSGAGG.F.AIE..EA.SEKA..D..LLITGEI...........SHADYRTA..EDL.....R......VS..VIAAGHYATETLGVKA.....LMKLVREK.FG.......................V
+Y1766_HALSA/5-242               DVTSRYNDRLRVTDY..A.DA.ATN.............................GL...QVG............PGD........................RSVERIAFAVDAAAATISDAVE......WG.ADLLVVHHG...V.AW................GGLDAVTGR......EYDRIAALVD.G...........ECALYAAHLPLDGHPELGNAAHVA.DVL.....GLT.........QRSPFGDHS...................................................................................................................GEQIGLQ.GQLPD.P....TSAPA....LSKSLAAA.........LPTGDQPVQVLD.........VGPAELT.....DVA..VVTGSGA.D.WLR..EAEANGV..D..ALVTGEG...........KGKLYHEA..REA.....G......VS..VFLAGHYATETGGVRA.....L.EAVADD.WG.......................V
+A8B7G6_GIALA/7-257              QLLQFLSEVYEEQ....P.DG.QYN.............................GL...QV.............EGR........................KEIRTLVTGVSLCGDLIAEAVH......RN.ADAILVHHG...F.FG................KSFLRVTDS......IKKRLTPLLK.H...........DINLFAYHLPMDAHPIIGHNAQLC.KAA.....GLLLEKFYSCGCYCENPGNLSG..................................................................................................................LEIIRRL.SEFCD.RRAYEVDTRTP...QQNDLCSS.........TFYGTRVWPFNS.......SFAINSPPK.....RVY..ICSGGSS.G.LID..EI..EDV..D..LFIFGEP...........KESAISTA..RDR.....G......IS..MAALGHWRSEQPGLWA.....IGDLISKQ.LS.......................I
+A5EYD5_DICNV/5-236              FLVSHLNELLQIRKF..R.DY.APN.............................GL...QI.............AGR........................AEIQTVVTAVSASQAAIDFAVA......NN.ADALLVHHG...Y.FW...............KGEAAELVGV......KRKRIATLLH.H...........EINLLAYHLPLDQHATLGNNALFG.QAL.................SAHNISQSS...................................................................................................................FDDFLWQ.GDIET......VSASQ....WIAAV............EKILQRSIIAVG.........NTQKMIQ.....KIA..WCTGAAQ.D.LLL..QAHAEGA..D..AFLTGEY...........AERSYHEA..REC.....D......ML..FLVCGHHSTETFGVRA.....LGDYLAAT.QG.......................L
+Q5WY60_LEGPL/6-241              ELSLFLLDFLNCSQY..Q.DY.APN.............................GI...QV.............EGK........................DKIKRICTAVSASEDVISQAIE......QQ.ADALLVHHG...Y.FW...............KGENPVISGM......KRRRIAKLLG.H...........NMNLFAYHLPLDCHPELGNNASLA.NLL.....LIE.........SPEMHKVNN...................................................................................................................TANLLWS.GKLSK.A....MNSEQ....FSSFL............ERKLGRYPVHIA.........GNEKMIH.....SIA..WCTGAAQ.D.FIE..EAYQLSV..D..AYLSGEV...........SERTFYQA..MEL.....G......IQ..YFSCGHHATERFGIQS.....LGIYLANH.FD.......................L
+Y291_BUCAP/5-236                LLEKIINKKLSSDQY..S.DV.VPN.............................GL...QI.............EGE........................KIIKKIITGVTACQELLDKALS......YG.ANAIIVHHG...Y.FW...............KNESQCIHNM......TRKRLTTILS.N...........NINLYSWHIPLDIHPKLGNNAQIA.KKL.................NIRIKGY.....................................................................................................................ILPYLFW.GTLEE.N....INAFD....FSKKI............EKKYEKKPIHIY........ANAPIYIS.....RIA..WCSGRGQ.N.FIK..QAYNFGI..D..AFLTGEI...........SEETMHIA..KEL.....G......IH..FFSIGHHATEKDGIKS.....LGKWLNNK.YD.......................L
+Q1Z5P6_PHOPR/5-241              KLEAALNELLSPHLI..K.DY.CPN.............................GL...QV.............EGK........................TQVKKIITGVTACQALIERAIE......EK.ADALLVHHG...F.FW...............KGEPAEIRGM......KFRRIKALIE.N...........GINLYAYHLPLDVHPELGNNAKLA.QML.....ELE.........VIGGLEDGN...................................................................................................................PRSVAMY.GQLDK.T....ITGAE....LASRL............SIGLHREPLHIG........DNAPADIK.....TVG..WCTGGGQ.D.YID..LAAQKGL..D..AFISGEI...........SERTVHTA..REL.....G......IH..YFAAGHHATERYGVKA.....LGEWLAQE.HQ.......................F
+Q6FCJ5_ACIAD/6-241              EIVQWCDQTLSSNQF..K.DY.APN.............................GL...QI.............EGA........................SEVNHILCAVTASDAAIDAAIE......AG.ANVLLVHHG...Y.FW...............KGEPYPITGM......RGRRIKKLIQ.H...........NISLLAYHLPLDAHPSLGNNAAIA.DLL.....ELK.........HIEALDPNE...................................................................................................................KFPIGNI.GDLKQ.A....LSPEA....FKAKL............QDVFDFNIIHLP.........AQVESIQ.....KVG..FCTGGAQ.D.FIH..QAAVQGC..D..AYISGEV...........SERTFYEA..QEL.....N......VH..YYACGHHATERYGVQR.....LGKALSEH.FS.......................L
+A2S764_BURM9/5-237              ELELYLNNTLEIGRF..K.DY.SPN.............................GL...QV.............EGR........................RKIEKIATGVTASLAFLDRALE......WG.ADAVLVHHG...Y.FW...............RHEAPQITGR......KYQRLKRLLA.N...........DLNLFAFHLPLDAHPEFGNNAQLG.ERL.....GLI.........GDARFG......................................................................................................................DQDLGWL.ATLPM.P....VSLEH....FTAKV............ENTLGRAPLVLG.........DLDQQLR.....RVA..WCTGGAQ.S.FFD..AAIEAGA..D..VFLTGEV...........SEHVTHAA..AES.....G......VA..FVAAGHHATERFGIQA.....LGQHLSER.FD.......................L
+A5CVR4_VESOH/6-235              TLSEYCHDYLDVDTF..D.DY.CPN.............................GL...QI.............EGR........................QQIRKIIAGVSVNQDLIERVID......EK.ADALFVHHG...L.FW...............QNESLVITGI......KKNRIKILLE.K...........NINLFAYHLPLDAHLIVGNNIQLA.MHL.....NIV.........NPTPI.......................................................................................................................GDTLVWQ.GEVK.......LSLIE....VSQLV............QDITQRIPLVFG.........DLNQQIK.....KIA..WCTGDAQ.S.YIK..HAINIGA..D..CFITGEI...........SEQTPAIA..KEN.....N......IA..FISAGHYATERYGVQA.....LCQHLSEK.FN.......................V
+Q21U81_RHOFD/6-241              QLLQAFDALLQPERF..R.DY.GPN.............................GL...QV.............EGT........................DTVRKIVSGVTASRALIEAAIA......AQ.ADTIFVHHG...L.FW...............RAQDGRITGW......LKARLALLLA.A...........DINLFAYHLPLDAHAELGNNAQLG.LKL.....GLR.........ALTRFG......................................................................................................................EQELGFL.GEPMASAS..FASAET....LAQHI............EYVLNRPVALVG.........PAHSAIK.....KVA..WCSGGGQ.N.YFE..AAIAAGA..D..AFITGEI...........SEPQAHLA..REC.....G......VA..YLACGHHASERYGAPA.....VAAQVAAQ.FG.......................L
+A6GMA8_9BURK/8-242              VLEHDLRELLDQARM..S.DY.CPN.............................GL...QL.............EGK........................PRIQRLLTGVTASRALIELAAE......LN.ADAILVHHG...L.MW...............KGDPQVVTGF......RKERLQLALA.H...........DLNVFAYHLPLDKHPELGNNAQLG.NML.....GWP.........STRVVG......................................................................................................................DKGLVHL.GVLPT.P....QPLSA....LVRQV............SDVLGHHVQVEG.......NSDPERSVA.....TVA..WCTGGAP.G.YVE..EAALQGA..D..LYLTGEL...........SEPAVHVA..REC.....N......VS..LLGAGHHATERCGVKA.....LGEWIAQR.YG.......................I
+A0L3K9_MAGSM/6-241              EIETHLRNILQCDRI..D.DY.CPN.............................GV...QV.............RGG........................HNITRVVSGVTACMALFEAAVA......VN.AQLIITHHG...L.FW...............NKDPRVVEGM......LKHRLKLLLE.H...........DITLMGFHLPLDMHPELGNNAQIL.NRL.....QLI.........AGEPFGVYK...................................................................................................................GSALSKM.GHWEQ.S....LSLDQ....VQQKL............QKLFGGEPLVLP.........YGPPNIR.....KVA..VCSGGAP.E.LIH..EAVTAGA..D..LFLTGEA...........SEPVYHVA..REM.....G......IH..FVAAGHHRTEMFGVQA.....VGERLAQT.FS.......................L
+A3YBU9_9GAMM/11-248             AFEKKLTAILKPNKF..K.DY.APN.............................GL...QV.............QGC........................DEIAKVVTGVTACQALIDEAIR......LN.ADAIFVHHG...Y.FW...............KGESQVITGI......KYQRISRLIK.N...........DINLYAYHLPLDAHPELGNNAQLV.KMF.....NLK.........NPRSLQSYLPL.................................................................................................................DESIGVI.AEFEQ.A....LEIEQ....VKERI............EKALGRDVLFEA.........SGKKLIK.....TVA..LCSGGAQ.G.YIE..QAVEMDA..D..LYLTGEV...........SEQTIHLA..REH.....G......IH..FVAAGHHATERYGAKA.....MAKFIMEE.LG.......................V
+Q6MC02_PARUW/7-241              NLKELLTQIFPEEGL..I.DY.CPN.............................GL...QV.............EGK........................SEIKILATAVSASLNTIQMAIE......KN.VDALIVHHG...I.FW...............QRDSYVIEGT......KREKLFTLLK.S...........GVSLFAYHLPLDKHLILGNNWKAA.HDL.....GWE.........KLEPFAFMN...................................................................................................................GIPIGVK.GKIKP......TKREI....VKANL............ERYYQHSANCAL.........GGPELIQ.....TLA..LVSGGAH.K.SIL..DAGRDRV..D..AFITGSF...........DEPTWHQA..FEE.....K......IN..FYALGHSATERVGPQA.....LAKYLEEQ.LK.......................T
+Y108_CHLTR/5-240                DLLNILNELLHPEYF..S.DY.GPN.............................GL...QVG............NAQ........................TAIRKVAVAVTADLATIEKAIA......CE.ANVLLVHHG...I.FW...............KGMPYSITGI......LYQRMQRLME.G...........NIQLIAYHLPLDAHTTIGNNWKVA.RDL.....GWE.........QLESFGSS....................................................................................................................QPSLGVK.GVFPE......MEVHD....FISQL............SAYYQTPVLAKA........LGGKKRVS.....SAA..LISGGAY.R.EIS..EAKNQQV..D..CFITGNF...........DEPAWSLA..HEL.....A......IH..FLAFGHTATEKVGPKA.....LAQYLKGA.GL.......................E
+Q609U6_METCA/7-244              ALERFLAGLLNPGAF..A.DY.GPN.............................GL...QV.............EGR........................EEIRRIAFAVSATAHSIAAAAE......WQ.ADALIVHHG...L.FWK..............FHGARPLVGP......FARRVFPLVR.Q...........AINLFAYHLPLDAHPEIGNAAVLG.HRI.....GLG.........EQAPFGDHQ...................................................................................................................GCPTGVR.GRLRE.S....LPASA....LRERL............AEILEHPVLLAT........PDATAPVC.....TIG..IITGGAN.G.GWA..EAAKAGL..D..AYITGEM...........SEHDWHEA..QEA.....G......IH..MYAGGHNATERFGIQA.....LMERIGRD.LE.......................V
+A9VML6_BACWK/5-238              QFKEHITSLFEEHLN..KYGD.DEY.............................GF...TH...........ISKE..........................EFHKIGYTTNLTLETIEEAYQ......NG.VDMIVTHHA........................PWSFLFGM......EEACIEKLKE.Y...........EMNHFWIHLPLDFVKF.GTCTSLF.NEI.....GID.........TILEYSTYE...................................................................................................................EEELPGI.GEYKE.A....IPFSNLVEKLEERM..E.........EK......VKSW.......K.NHDRPVK.....RIA..ILTGAGNNTNLIE..RALEKGC..D..TYITGEK...........TLYTVQHA..KFK.....R......IN..LIVGSHTFTEVFGVES.....LARKLKER.DRA......................I
+A6TKN7_ALKMQ/5-263              EIMDIALELAGLNEI....PA.DS..............................GI...IVE............GE..........................HIKKVAIGVDMELAEMLLARD......LG.VDLVITHHPSGGS.PRINLHKVMDNQIDSMIRAGVPINKAQKALKEKKDEIERGLHVSNYDRAVSAAKLLKMPFMGIHTPTDILAERKVQGLLD.EKL.....................................................................................................................................................KEQPK......ATLQDIIKALETLP.EY.........QRTMAKPAVRVG.........AKDDYAG.....KTFVTMAGGTGGGKNVIK..AYFEAGV..G..TLVAMHM...........PEDVIKSV..REQ.....N......IG.NVVVAGHMASDSVGINE.....FAKALEEKG.........................I
+A4J511_DESRM/5-303              EIYDLVIKMGIEH.........DPR.............................GLEVVQKQLTKEKKKIEDLKEDEKKEVDQDRLFNPYTDTRVLYGELNREVKRILVGVDMEVAEVLLADRLE..EKGKKIDLIMAHHPEGKA.MAGLYDVMH.LQEDLLAQLGVPINVAEGIMAGRIAEVRRGLMPVNHNRAVDAARLLDIPLMCCHTPADNMVT....EYVQ.KKI.....................................................................................................................................................AENNC......ETLGDIVKVLKQIP.EYAAAVKTGAGPT......IVVG.........SKDRSAG.....KVFVDMTGGTSGSEDAYA..KLSTAGV..G..TLVVMHI...........SEKHRKEA..EKN.....H......VN..VIIAGHMASDSLGMNL.....ILDDLEKQG.........................V
+Q3Z2K6_SHISS/9-274              DLNCFLNSMVAVSQP....TV.DKII...........................FGA...EAT........................................LINKIGTCWIASMDVLRKAVF......EG.VNIIITHEP...T.FYSYADLEGDDLEFSWARKIMDYTRGELSYLKIIEQKKEFLHK.N...........NLVIIRCHDVMDREPTFGMSKALA.QQL.....ELD.........VTNIVA......................................................................................................................SDEMYCV.YAIDP......DSAINITKRFAKNL.............KIYNLPGIQFY........GDKARVVR.....TVG..IGAG.....CFCDPIQYMEYQA..DYYITINDSI..........KTWVQTQYS..KDS.....G......LP..MAVIGHSVAEEAGMRR.....LASYLDLHSGYPCIH...............FTGGC
+Q022B6_SOLUE/14-253             QVVERIQKNAGVPWQ..PESL.DTF..................................KAG..........DPAT..........................PVTGIATTGMATMDVLNRASK......AR.TNLVLTLEP...T.FF................GRLDPQAAN....DPVYAAKQEFIRKN...........ALVVWRFTDHWRARKPDPFPTGLA.AVL.....GST.....................................................................................................................................KYQVADDVFRYDVPP....ITLTVLAGDLAKRLKAR.........AG......IRVI........GDPQSRVR.....RIA..LLPGLST........LAAAMKALPECDLLLAGETREWE...SVEYVHDTVASG..QKK.....G..........MIMLGRVMSEDPGMNA.....CAGWLKTL.VPE......................V
+A4IP70_GEOTN/7-250              TVMERLTACVETRSP....TV.DTL.............................KYGDSSM.........................................EVKGIAVSFMPTYRVIEQAVQ......AG.ANLLISHEG...L.FYS.............HAGDAETMKND....PVYQEKVRLICE.S...........GIAIYRFHDQWHRYQPDGIMVGLV.RAL.....GWE....................SY............................................................................................................VSEYQSAATI.VTIPR......ILARDMVKYVKERL..............GI..SFIRVA........GDLSTICT.....RIG..LLAGYRGHGSLTI.PLFEKEKL..D..AIIYGEGPE.......WETPEYVRDA..VHQ.....G......KRKVLVVLGHAESEEPGMRY.....LAQKLREM.FPT......................I
+Y1125_STAEQ/5-353               ELMEVLNNHVPFHQA..E.SW.DNV.............................GL...LIG..........NDKL..........................DITGILTTLDCTDDVVNQAIE......LN.TNTIIAHHP...L.IF................KGVKRIVED....GY.GSIIRKLIQ.N...........NINLIALHTNLDVNPK.GVNRMLA.DQI.....GLE.........NISMINT.NSSYYYKVQTFIPKNYIEDFKDSLNELGLAKEGNYEYCFFESEGKGQFKPVGDAS........PYIGKLDSIEYVDEIKLEFMIKDNELEITKRAILDNHPYETPVFDFIKMNKESEYGLGII.GQLNQ.T....MTLDEFSEYAKKQL.NI.........PS......VRYT.......G.QHDSPIK.....KVA..IIGGSGI..GFEY..KASQLGA..D..VFVTGDI...........KHHDALDA..KIQ.....N......VN..LLDINHY.SEYVMKEG.....LKELLEKW.LFKYEN................QFPI
+A5KQA2_9FIRM/5-253              EIIQVIEASYPKEAA..L.DF.DNV.............................GL...LAG..........RLEK..........................EVSKVYLALDATEEVIDKAIA......LG.TDMLITHHP...L.IF................SPMKRVTDE....DFIGRRVVKLLQ.N...........DISYYAMHTNYDVL...GMAKLAE.DIL.....GIE.........KTYVLDVTMEKD..............................................................................................................GAEEGIGRI.GMLER.E....MTLEECCLYVKHKL.KL.........GS......VKVY.......G.DMKKNVH.....CLA..VSPGAGK..SAIM..PAIKKGA..D..VLVTGDI...........GHHDGIDA..VEQ.....G......LA..VIDAGHYGTEYIFIDD.....MKCFLHEK.LPVLDV...............MSIPI
+Q8RE15_FUSNN/5-246              DIINILEKKFPKINA..E.EW.DNI.............................GL...LIG..........DYDK..........................EVKKIQFSLDATLESIENAIS......EK.VDMLITHHP...I.IF................KAIKDITEQ....NILGKKIRNLIK.N...........DINVYSIHTNLDSSIE.GLNDYVL.KKI.....GIS.........EYKILDFDEEK.................................................................................................................NCGIGRI.FKLNE.E....KNLKKFIEELKLKL.KI.........LN......LRVI.......SNDLNKKIK.....KVA..LINGSAM..NYWK..KAKKEKV..D..LFITGDV...........SYHDALDA..LEN.....G......LS..VIDFGHYESEYFFYEI.....LIEELKDN....N...................LEF
+A0Q1P0_CLONN/7-258              DFKNIVEEFAPVKLK..L.SY.DNV.............................GL...MVG..........ELNN..........................EIGNILVTLDCTLDVIEEAKA......KN.CNFIFAHHP...L.LY................KKPSSITSE....TLVGRKILELIK.N...........NISLYSAHTNLDSVKD.GINDTVM.KLL.....KIK.........NCKTIEFSEGKDE............................................................................................................DDDVSGLGRV.GTLES.P....ITVKEMCNRVKEVL.NT.........PF......VRYI.......G.EDSKEIK.....TIA..VINGSGQ..DYFN..RARNMGA..E..CIITGDT...........TYHVISDY..NED.....G......VV..VIDGGHFPTEWIAFKD.....ICVRLQEK.IKEAGF................ENKI
+Q0TNV6_CLOP1/5-249              DIINIIEDIAPVNLK..E.GF.DNV.............................GL...MVG..........DREK..........................NITKILLALDCTEEVIKEAKE......MG.AELILTHHP...L.LF................RKPSTITTD....TLLGRKIISLIK.D...........DINLYSAHTNWDSVKG.GLNDTLV.EIL.....GFN.........KGIIMDKSPVD................................................................................................................SEAGIGRV.VELTK.E....MTVLEIINLIKSSL.GI.........KN......LRYA.......G.DLNEVIK.....KIA..IVNGSGQ..DFFG..DAKKLGA..D..LIITGDT...........TYHFVSDY..KEM.....G......LN..ILDIGHFNSEWPVLIK.....VSEKVKER.LDSD...................VEF
+B8CXH0_HALOH/6-355              NIVGVMNEIAPRFLA..M.DW.DNP.............................GL...QIG..........YFSQ..........................EINRVLVTLDVTEEVVEEAIE......EN.CQLIISHHP...L.LF................KGLKSIHDK....SYNGRVVLKAIK.N...........NIAVLSAHTNFDIVGS.GINDYLS.HLL.....GLS.........DIQPLKVTGEKPYIKLVVFIPESHFDVVRKEILDSGLAGFIGNYSHTSFSVKGEGTFKPLEGSN......PFTGQKGHLARVEELRLETIIPANNISKVIDIIKKVHPYEEVAYDLYPLNNTGEKYGLGRI.GLLEK.G....IKLVDFVDIVKEKL.GI.........RH......IRYT.......G.NYDNIVK.....RIA..VCSGSGG..DLIR..EARNKRA..D..LYITGDI...........KYHDAQLA..SEL.....G......LA..VVDAGHYGTEKHVKSL.....LVGLLTDK.FKEN....................GF
+Y1073_LACLA/5-244               DFMLEYEKFCPKELA..V.EG.DPV.............................GL...QVG..........NPND..........................ELTKVLVTLDIREQTVAEAKA......LG.VNLIIAKHP...L.IF................RPLSALTSM....NDQEKLVLDLAR.A...........GIAVYTSHTNIDVVTG.GLNDYFS.QLL.....GMT.........DIEVLDD.....................................................................................................................EEGLGRV.GNIEL......TELSVLTEKVKASF.GL.........DR......LRLIT.....YDHNLTQKIG.....RIA..ICGGSGG..KLWP..KALEKKA..D..IYITGDI...........YYHVGHDM..LSA.....G......LL..GIDPGHY.IEHAFIRL.....VADKLRSFDMGV.....................KI
+A5LFS5_STRPN/5-252              EVIQAYEAFCPQEFS..M.EG.DSR.............................GL...QIG..........TLDK..........................GIQRVMVALDIREETVAEAIE......KG.VDLIIVKHA...P.IF................RPIKDLLAS....RPQNQIYIDLIK.H...........DIAVYVSHTNIDIVEN.GLNDWFC.QML.....GIE.........ETTYLQE....T..............................................................................................................GPERGIGRI.GNI.Q.P....QTFWELAQQVKQVF.DL.........DS......LRMVHY...QEN.DLQKPIS.....RVA..ICGGSGQ..SFYK..DALAKGA..D..VYITGDI...........YYHTAQDM..LSD.....G......LL..ALDPGHY.IEVLFVEK.....IAALLTQW.KEKKGW................ELEI
+Q4ETV8_LISMO/8-360              EYTAIMEKIAPKKLA..M.EG.DPI.............................GL...QVG..........DLSR..........................KVRKIMFTLDVLEEVVDEAIE......KK.VDLIIAHHP...F.LY................RPTQHIDTT....TKQGKMIKKLIK.H...........DITVFAAHTNLDIAQG.GVNDILA.DLL.....HLQ.........NTTMIEETYSEPYCKIAVYVPENELESVRLALVNNGAGQIGTEYTECTFHTTGIGSFKPGANAN......PTIGEKDALTSVPEFKIEAIFPQYLTETITKAVKIAHPYEEPAIDVYTLEMQTYKEGLGRV.GMLPK.K....LGMVSFIDKLKTAF.AI.........DN......VRFI.......G.DLKTTVH.....KVA..IIGGDGN..KFIH..QAKSTGA..D..VFITGDV...........YYHTGHDL..LAI.....N......LP..TIDAGH.NIEKVMKGY.....LKNKMEEQ.AKILDY................EAEF
+Q038U7_LACC3/6-251              QIINRFEDFAPLSLA..W.ER.DPS.............................GL...QLG..........NPDK..........................PVKTVLVTLDVRPEVVTEAEA......IH.ADMIFSHHP...A.MF................RPVHNLDLR....VPQNAMYAQILK.D...........DLLVYAAHTNLDRVQD.GMNDWLA.EAL.....GLS.........QVVPFINEGE..................................................................................................................GANMGRI.GLLPD.K....IRLDAFVEQVKAAY.NV.........KG......LRVV.......ARDLDRLVQ.....KVA..ILGGDGG..DAFN..DAKQAGA..D..VFITGDV...........YYHTGHDM..LAA.....D......LP..VIDPGHH.IESIMKGK.....VATLINEW..ADAEG...............WDVKA
+B3XRX7_LACRE/6-257              QLIVRFEKFANPQLA..E.KW.DHV.............................GL...QIG..........NPDL..........................QITRLMTTLDVRPEVVDEAIE......QN.VDFIFAHHP...I.MF................HPAKDLDTR....DPQNAMYAKLLA.N...........NITVYAAHTNLDAANG.GMNDWLA.DQL.....HLT.........NTVPLVPAGNDPI............................................................................................................SGEPVGMGRI.GELAE.P....LTPQKFAKYCMDVF.GI.........RG......LRLIV....NPL.DQEREIK.....RVA..VLGGAGQ..DFYQ..QALEAGA..D..AYVTGDV...........SYHFAHDM..IAN.....H......LV..VIDSGHH.IEVVAAHQ.....LANLITQW.KNENN..................WQF
+Q5FJU7_LACAC/6-251              DIVERLRKDFPEDIA..S.QG.DPV.............................GM...QIG..........SMES..........................DVTNVMTTLDVRPQVVEEAVE......KG.VNLIISHHP...V.MF................RPAKNLDYA....NPQNAMYGNIIK.N...........NITVYSIHTNSDKAQN.GSADWQA.EEL.....GLK.........DIEPFCLDDD..................................................................................................................GIAMGRK.GKLPK.T....MSAYDFAFYVKDKM.DI.........KM......ARLI.......TASNEKPIT.....TVG..FICGDGG..KYWT..RALDDNL..D..AFITGDV...........YYHVGHDM..ISS.....G......LT..VVDPGHY.TENLFKYK.....VFDRLKKW..NKENN...............WNVGV
+Q03Y42_LEUMM/5-248              ELIDKIELFAPKQLA..E.EG.DPT.............................GL...QIG..........DPKQ..........................PVHRVMTALDVRPEVVQEAID......NQ.VNFIWAHHE...V.MF................FPAKNLDLS....QPQNRMYADLIQ.H...........HIVVYASHTNMDSAQG.GMNDWLA.EAL.....GIQ.........DVVPLVPNVDK.................................................................................................................KTGLGRI.GQLEQ.P....ISVQEYAVKIRDLF.HV.........QA......VRVI.......AKDVTKPIQ.....KIA..VLGGDGG..RWWR..VAQQAGA..D..AYVTADV...........YYHVGHDI..LAS.....N......FI..VIDPDHH.MEAIANEK.....MVDKVKEWFGDTV....................DV
+A8MG99_ALKOO/7-357              EIINIIENLAPLRYA..Y.QW.DNV.............................GL...QIG..........SRSD..........................EVQRILIALEVTDEVLEEAVK......NN.VDMIISHHP...L.IF................SPLKKIIKE....DLKGKLLYKAIR.N...........NISVYSTHTNMDIAPN.GLNDYVA.NLL.....GLK.........DMEVLDVTEKSTYYKLAVFTPVGHEEKVAEAICSAGAGHIGNYSNCTFRVNGTGTFLPLEGTNP.......FIGAQGQGEKVEEIKIETIVPQGNLKSVVKAMLKVHPYEEVAYDIYPLENEGPVLGIGRM.GYLPH.A....VSIADLANKIKDIF.NI.........EH......IKIA.......G.DLKAHIN.....KVA..IINGSGA..EYIK..LAMHRGC..Q..CVITGDV...........KYHDAQDA..ISQ.....G......MN..VIDMGHYHSEKVFPKL.....LIDYLSKK.VEEKD..................LNV
+A4XK84_CALS8/6-353              EIATFLENYFPKKLS..Y.DW.DNV.............................GL...QVG..........SFSA..........................KVDSILICVDVTEDVLNEAKD......LG.VRLVISHHP...L.IF................QGLKSIKDD....TPEGRLIIDTIK.N...........DIAILSFHTNADVSKH.GINFYLA.KLL.....NLE.........NIEGLSVKQKNGYFKIVVYVPSDYKDEVLEAMAQEGAGFVGKYSHCFFAVEGQGCFKPQEGANP.......FVGKIGELERVDEVRLESIVPEEKLKNVIKAMLKAHPYEEVAYDIYRLENDISYECIGVI.GQ..R.S....IEAENLIKELKEKL.NL.........SF......VKAS.........LVKNQFK.....KIA..IVSGSGK..DFIK..DVYFKGA..D..CFISGEI...........GHHGILLA..RSL.....G......LS..TIEIGHYESEKVFIDI.....VFELFDKF.DKKDK..................LKI
+B0K888_THEP3/7-356              VIASIMDKLAPRKFA..E.EW.DNV.............................GL...LVG..........DGSK..........................DVSKILVALDATFEVVKEAID......KK.VDMIVTHHP...L.IF................KPIKNVKAD....NPVGSLLIQLIK.N...........DISLYAAHTSFDIAPN.GMNDILC.NVL.....GIY.........DREVLDVTYSEGYKKIAVYVPQGYEEIVKNAMCNAGAGFIGNYSNSTFQTQGIGTYKPLEGTNP.......FIGEIGKIEKVEEVKIETVVPQKYLEKVINAMLNVHPYEEVAYDVYPLENLKEEYGLGRI.GTISE......TTLKELALQVKAKL.KI.........NN......LRVV.......G.DPNKKIK.....KVA..VCGGSGA..SLIH..KAVSRGA..D..VLITADI...........GYHDAVEA..QHL.....G......LS..LIDAGHFATENIAVRF.....IAEYIIDE.TQKQG..................NEI
+Q18BX9_CLOD6/5-352              SLTRKIEKKYPLNLA..E.DW.DNV.............................GL...IVG..........DFDM..........................DVKKVLVSLEANEDVIDEAIS......KN.IDLIVTHHP...F.IF................GKINKINSG....DLKGRLIQKLIK.N...........DISLYSMHTNFDIAFD.GLNDYFM.EIM.....EFG.........NSKVLDITKSENLYKLAVYVPHNYSDELRKVLSNSGAGHIGNYSDCTFSIEGEGQFKPLEGSNP.......FLGSVNDIETVNEVKIETVVPQKLLGGVISSMLDAHPYEEVAYDLYKLENKGEIFGLGRI.SKLDK.S....MTLESLSRKIKEKL.NM.........KH......IRVV.......G.NLSTDIT.....KVA..VVTGAGS..EFVK..KAKRQGA..E..VLITGDV...........KYHEAQDA..LDI.....G......MC..IVDCGHFDTEDIFKNV.....MKRFLDEF....SE..................IEV
+A0RIR2_BACAH/9-360              EIISLFESMYPKHLA..M.EG.DKI.............................GL...QIG..........ALNK..........................PVQHVLIALDVTEEVVDEAIQ......LG.ANVIIAHHP...L.IF................NPLKAIHTD....KAYGKIIEKCIK.N...........DIAIYAAHTNVDVAKG.GVNDLLA.EAL.....GLQ.........NTEVLAPTYAEEMKKIVVFVPETHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFIPQEGTNP.......YIGETGQLERVEEVRIETIIPASLQRKVIKAIVTAHPYEEVAYDVYPLDNKGETLGLGKI.GYLQE.E....MTLGQFAEHVKKSL.DV.........KG......ARVV.......G.KLDDKVR.....KVA..VLGGDGN..KYIN..QAKFKGA..D..VYVTGDM...........YYHVAHDA..MML.....G......LN..IVDPGH.NVEKVMKQG.....VQKQLQEK.VDAKKL................NVNI
+A4J7B6_DESRM/6-358              EIVSMLEQIAPRHLA..E.EW.DNS.............................GW...QVG..........DPAA..........................GVSKVLLTLDVDAVVVREAVE......KQ.VNLIISHHP...L.LM................KGIKNIRLD....EPKGELIAQLIK.N...........NIGLYAAHTNLDSAAG.GVNEQLA.KRL.....GLQ.........NIEVLHPAKGEKHLKLVVFVPVQQVEGVQRAISQAGAGWIGNYSDCTFSVQGEGTFRPLEGTNP.......FIGQQGQLEQVAESRLETIVPASKIKTVLKAMLEAHPYEEVAYDLYPLENQTSNAGLGRI.GHLAE.T....QSFADFIIAVKEAL.GL.........AS......VKVG.......G.SMWKDVR.....RIA..VCGGSGA..ELWP..IAFAKGA..D..VYITGDI...........KYHTAQDM..LAS.....G......LN..FIDAGHFATEHVILPE.....LQRILSEA.CVKKNL................VVEF
+Q0AZ81_SYNWW/7-359              DIIGIMEEHFPPWLA..E.AW.DNS.............................GL...QLG..........STNK..........................AVKKAAVALDLDESILNQALE......LK.VAMIITHHP...L.FF................KPLKQINYE....SPVGRLIQRIVK.A...........GISVYAAHSNLDAAEK.GLNQILA.ELL.....GLQ.........DIDILGNHKKEELYKLVVFVPASHYEEVRRAINAAGAGFIGNYSDCSFRVRGTGTFRPGAGTQP.......FLGQEGELEEADEFRLETVVRKRELAQVMQAMQEAHPYEEVAFDIFRLEQAGKGYSMGRY.GFLPE.E....TKLGDYARQVKETL.GL.........EA......VRVV.......G.DLNKVIR.....KVA..IVSGSGA..SLIP..GISQQGV..D..LLVTGDL...........KYHEARDA..EAL.....G......LA..IIDAGHQGTEEIISPH.....LSRFLEKE.CQKRGM................KVDF
+Q3AEW6_CARHZ/6-353              EIAAVIEEKFPRKLA..M.EW.DNP.............................GW...QI...........YFEK..........................EVHKVLLALDITAATVDFALN......EK.VDLIITHHP...L.FF................KPLKSLTFE....RKETLPLLKLLE.K...........QISVYAIHTNLDVAFG.GINDYLA.ELL.....ELQ.........EVKPLGEEIFEKLYKLSVFVPESHWETVREAMGAAGAGFIGNYSHCTFNTRGIGTFLPLEGTNP.......YIGAVGKLERVEEVKIETIVPERLLAKVVKAMLKVHPYEEVAYDIYPLENKNYLGGMGRI.G.LTG.K....KSFKEFLALVAEKL.GI.........EN......LRYG.......G.DLNSVPK.....KVA..VVTGAGG..SYWP..KAKFAGA..D..IFLSGDI...........KYHEAVSM..IEA.....G......LN..FIDAGHWETERIFTEL.....LLPLLR....KIEGL................SIVV
+B8I6N4_CLOCE/5-249              DIINFLNEIAPWRYA..E.EW.DSV.............................GL...MVG..........SRES..........................YVTKILLCMDVTSDVISEAAQ......CG.AQMILSHHP...F.IF................SKLKSIDME....TFKGEQIANLIK.N...........NISVVSAHTNLDTAPG.GVNDTLA.ESL.....HLT.........NSRNLKPYMPKGL.............................................................................................................ECDLGMGKV.GELQN.S....KSFDEFVIDVKKSL.CI.........EN......LRII.......G.VKPKKVK.....KVA..VFCGSFD..DDLE..SLKSLKV..D..VLVTGDI...........KYHIALDA..AQM.....G......LC..IVDAGHFATERIILPK.....LRDTLNKR.FKE......................L
+A3DDU7_CLOTH/7-355              DIIKYMEELAPVSLA..E.DY.DNV.............................GL...LIG..........SRES..........................TVERIFVCLDVTSKTVDEAVA......KK.ADLIVSHHP...V.IF................KGLKRINED....DPKGNIIYKLIR.N...........NIGVYSAHTNLDVAHG.GVNNYLS.SIL.....GLK.........DIISLKDYKAEKLYKVVVFVPHESVDAVRDAMSRAGAGWIGNYSDCSFMTAGTGTFRPLEGTNP.......YIGTTGNLEKVDEYRIETVVSQRNLKKVIEAMIKVHPYEEVAYDVYPLEIKGRQYGMGNV.GVLDK.P....KSLDEFIAVVKEKL.GV.........KN......VRVI.......G.ETNKEIE.....KVA..VFCGSFD..RDVM..EAAKSKA..D..VLVTGDV...........KYHDAVDM..LEI.....G......MC..VIDAGHFNTERIIADR.....LAQLI.....KENFP................EVEV
+#=GC seq_cons                   clhphlcphhPhphu..p.sa.Dss.............................GL....ls............pp..........................plp+lhlslDso.pllccAlp......ts.sshllsHHP...l.ha................pshcplssp......htphlhpLlc.s...........sIslauhHTshDss.s.GhNshLA.chL.....slp.........shpsht......................................................................................................................thuhGhl.Gplsp.s....hohpphhthlpppl.th.........tt......lphs.........shspplp.....+VA..lsuGuGs..phlt..pAhptss..D..lalTG-l...........paHsshpA..ppt.....G......ls..llssGHatoEphhhpt.....ltchLppp.ht.......................l
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.wu-blastp.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.wu-blastp.out
new file mode 100755
index 0000000..01071b3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/examples/example.wu-blastp.out
@@ -0,0 +1,7086 @@
+BLASTP 2.0MP-WashU [04-May-2006] [linux26-x64-I32LPF64 2006-05-10T17:22:28]
+
+Copyright (C) 1996-2006 Washington University, Saint Louis, Missouri USA.
+All Rights Reserved.
+
+Reference:  Gish, W. (1996-2006) http://blast.wustl.edu
+
+Query=  sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium sp.
+    (strain NGR234) GN=NGR_a00980 PE=4 SV=1
+        (181 letters; record 1)
+
+Database:  uniprot_sprot_wu.fasta
+           516,081 sequences; 181,677,051 total letters.
+Searching....10....20....30....40....50....60....70....80....90....100% done
+
+                                                                     Smallest
+                                                                       Sum
+                                                              High  Probability
+Sequences producing High-scoring Segment Pairs:              Score  P(N)      N
+
+sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhiz...   897  9.1e-90   1
+sp|Q07074|YH007_YEAST Uncharacterized protein YHR007C-A O...    60  0.74      1
+sp|Q8XVA0|Y2931_RALSO UPF0135 protein RSc2931 OS=Ralstoni...    74  0.995     1
+sp|P33890|TIR2_YEAST Cold shock-induced protein TIR2 OS=S...    74  0.995     1
+sp|A7HGP8|CH602_ANADF 60 kDa chaperonin 2 OS=Anaeromyxoba...    78  0.996     1
+sp|Q608F1|Y1541_METCA UPF0350 protein MCA1541 OS=Methyloc...    58  0.9999    1
+
+
+>sp|P55685|Y4WG_RHISN Uncharacterized protein y4wG OS=Rhizobium sp. (strain
+            NGR234) GN=NGR_a00980 PE=4 SV=1
+        Length = 181
+
+ Score = 897 (320.8 bits), Expect = 9.1e-90, P = 9.1e-90
+ Identities = 181/181 (100%), Positives = 181/181 (100%)
+
+Query:     1 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT 60
+             MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT
+Sbjct:     1 MTASCRIRRNSNSAQKSTMGWSALSTSDSKVFYRVAWLLGRGKMAEIDAILITDVNGIGT 60
+
+Query:    61 TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF 120
+             TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF
+Sbjct:    61 TADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQLQHQIATRTGKEERKFKPF 120
+
+Query:   121 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP 180
+             AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP
+Sbjct:   121 AAAGFSVRAGLAADGSNSGMLSISTVAGAEVHFIATERSLRELENQLTLLLEQLRLRSRP 180
+
+Query:   181 N 181
+             N
+Sbjct:   181 N 181
+
+
+>sp|Q07074|YH007_YEAST Uncharacterized protein YHR007C-A OS=Saccharomyces
+            cerevisiae GN=YHR007C-A PE=1 SV=2
+        Length = 71
+
+ Score = 60 (26.2 bits), Expect = 1.3, P = 0.74
+ Identities = 16/33 (48%), Positives = 21/33 (63%)
+
+Query:   141 LSISTVAGAEVHFIATERSLRELENQLTLLLEQ 173
+             LS+ T+  A VH+I T  +  + ENQL LLL Q
+Sbjct:    31 LSLPTLL-APVHYIPTRLTHHQAENQLFLLLFQ 62
+
+
+>sp|Q8XVA0|Y2931_RALSO UPF0135 protein RSc2931 OS=Ralstonia solanacearum
+            GN=RSc2931 PE=3 SV=1
+        Length = 248
+
+ Score = 74 (31.1 bits), Expect = 5.2, P = 0.995
+ Identities = 37/131 (28%), Positives = 56/131 (42%)
+
+Query:    42 GKMAEIDAILITDVNGIGTTADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAACGQ 101
+             G  A++ A+L   +   G   DD+L ++  + +   TT  AF   + +R+    +   G 
+Sbjct:   107 GNNAQLGALL--GIQPTGRFGDDELGWIGTLPEA--TTLGAFAEVVAARLDRMPLVIGGA 162
+
+Query:   102 LQ--HQIATRTGKEERKFKPFAAAGFSVRAGLAADGSNSGMLSISTVA--GAEVHFIATE 157
+              +  H I   TG  +  F    +AG  V     A    + +   S VA  GA  H  ATE
+Sbjct:   163 DRPVHTIGWCTGGAQGWFDAAVSAGVDVYLSGEASEQTTHLARESGVAYIGAGHH--ATE 220
+
+Query:   158 RS-LRELENQL 167
+             R  +R L N L
+Sbjct:   221 RGGVRALGNHL 231
+
+
+>sp|P33890|TIR2_YEAST Cold shock-induced protein TIR2 OS=Saccharomyces
+            cerevisiae GN=TIR2 PE=2 SV=1
+        Length = 251
+
+ Score = 74 (31.1 bits), Expect = 5.4, P = 0.995
+ Identities = 30/124 (24%), Positives = 49/124 (39%)
+
+Query:    29 SKVFYRVAWLLGRGKMAEIDAILITDVNGIGTTADDQLAFVSLIADQGETTTVAFGPEIG 88
+             SK+   V W   R  + E++++L T      +T     A  S +A   ETT+ A      
+Sbjct:    89 SKMLTMVPWYSSR-LLPELESLLGTSTTAASSTEASSAATSSAVASSSETTSSAVASS-- 145
+
+Query:    89 SRIAASFMAACGQLQHQIATRTGKEERKFKPFAAAGFSVRAGLAADGSNSGMLSI---ST 145
+             S   +S +A+  +     AT +          +    S +A  +   S+S + S    ST
+Sbjct:   146 SEATSSAVASSSEASSSAATSSAVASSSEATSSTVASSTKAASSTKASSSAVSSAVASST 205
+
+Query:   146 VAGA 149
+              A A
+Sbjct:   206 KASA 209
+
+
+>sp|A7HGP8|CH602_ANADF 60 kDa chaperonin 2 OS=Anaeromyxobacter sp. (strain
+            Fw109-5) GN=groL2 PE=3 SV=1
+        Length = 547
+
+ Score = 78 (32.5 bits), Expect = 5.6, P = 0.996
+ Identities = 32/116 (27%), Positives = 48/116 (41%)
+
+Query:    39 LGRGKMAEIDAILITDVNGIGTTADDQLAFVSLIADQGETTTVAFGPEIGSRIAASFMAA 98
+             LGR K   ID    T V+G G  AD + A V  I  Q E TT  +  E      A  +  
+Sbjct:   317 LGRAKRISIDKDNTTIVDGAGQKADIE-ARVKTIRAQIEETTSDYDREKLQERLAKLVGG 375
+
+Query:    99 CGQLQHQIATRTGKEERKFK---PFAAAGFSVRAGLAADGSNSGMLSISTVAGAEV 151
+                +    AT T  +E+K +      A   +V  G+   G  + + ++  + G +V
+Sbjct:   376 VAVINVGAATETEMKEKKARVEDALHATRAAVEEGIVPGGGVAYLRAVKALEGVKV 431
+
+
+>sp|Q608F1|Y1541_METCA UPF0350 protein MCA1541 OS=Methylococcus capsulatus
+            GN=MCA1541 PE=3 SV=1
+        Length = 83
+
+ Score = 58 (25.5 bits), Expect = 9.0, P = 0.9999
+ Identities = 26/76 (34%), Positives = 35/76 (46%)
+
+Query:    34 RVAWLLGRGKMAEIDAILITDVNGIGTTAD--DQLAFVSLI----ADQGETTTVAFGPEI 87
+             R+ W   RG MAE+D +L   V+G    AD  ++ AF  L+    AD     T    PE 
+Sbjct:     6 RLLWSCRRG-MAELDRVLALYVHGAYQEADVSERQAFERLLDLQDADLWRCLTGLARPED 64
+
+Query:    88 GS--RIAASFMAACGQ 101
+              +   +AA   A  GQ
+Sbjct:    65 PALAALAAKLRALVGQ 80
+
+
+Parameters:
+
+  ctxfactor=1.00
+  E=10
+
+  Query                        -----  As Used  -----    -----  Computed  ----
+  Frame  MatID Matrix name     Lambda    K       H      Lambda    K       H
+   +0      0   BLOSUM62        0.318   0.129   0.360    same    same    same
+               Q=9,R=2         0.244   0.0300  0.180     n/a     n/a     n/a
+
+  Query
+  Frame  MatID  Length  Eff.Length     E    S W   T  X   E2     S2
+   +0      0      181       181       9.8  75 3  11 22  0.41    32
+                                                    31  0.40    35
+
+
+Statistics:
+
+  Database:  /misc/data0/databases/Uniprot/uniprot_sprot_wu.fasta
+   Title:  uniprot_sprot_wu.fasta
+   Posted:  9:42:10 AM EDT Apr 12, 2010
+   Created:  9:42:26 AM EDT Apr 12, 2010
+   Format:  XDF-1
+   # of letters in database:  181,677,051
+   # of sequences in database:  516,081
+   # of database sequences satisfying E:  6
+  No. of states in DFA:  569 (121 KB)
+  Total size of DFA:  245 KB (2103 KB)
+  Time to generate neighborhood:  0.00u 0.00s 0.00t   Elapsed:  00:00:00
+  No. of threads or processors used:  8
+  Search cpu time:  10.70u 0.06s 10.76t   Elapsed:  00:00:01
+  Total cpu time:  10.70u 0.06s 10.76t   Elapsed:  00:00:01
+  Start:  Fri Apr 16 09:13:43 2010   End:  Fri Apr 16 09:13:44 2010
+
+EXIT CODE 0
+
+BLASTP 2.0MP-WashU [04-May-2006] [linux26-x64-I32LPF64 2006-05-10T17:22:28]
+
+Copyright (C) 1996-2006 Washington University, Saint Louis, Missouri USA.
+All Rights Reserved.
+
+Reference:  Gish, W. (1996-2006) http://blast.wustl.edu
+
+Query=  sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergillus
+    oryzae GN=hacA PE=2 SV=1
+        (345 letters; record 2)
+
+Database:  uniprot_sprot_wu.fasta
+           516,081 sequences; 181,677,051 total letters.
+Searching....10....20....30....40....50....60....70....80....90....100% done
+
+                                                                     Smallest
+                                                                       Sum
+                                                              High  Probability
+Sequences producing High-scoring Segment Pairs:              Score  P(N)      N
+
+sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=As...  1765  9.6e-182  1
+sp|Q8TFU8|HAC1_EMENI Transcriptional activator hacA OS=Em...  1348  1.5e-137  1
+sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac1 OS=Tr...   303  1.8e-31   2
+sp|P41546|HAC1_YEAST Transcriptional activator HAC1 OS=Sa...   184  9.3e-14   1
+sp|O24646|HY5_ARATH Transcription factor HY5 OS=Arabidops...   170  3.4e-12   1
+sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=Solanum l...   140  7.0e-09   1
+sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bos tauru...   150  3.2e-08   1
+sp|P17861|XBP1_HUMAN X-box-binding protein 1 OS=Homo sapi...   150  3.2e-08   1
+sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive element-bindi...   156  3.7e-08   1
+sp|Q8W191|HYH_ARATH Transcription factor HY5-like OS=Arab...   127  1.9e-07   1
+sp|A3LYI0|NST1_PICST Stress response protein NST1 OS=Pich...   148  9.6e-07   1
+sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive element-bindi...   136  6.4e-06   1
+sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive element-bindi...   136  6.4e-06   1
+sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive element-bindi...   136  6.5e-06   1
+sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-bindi...   132  1.2e-05   1
+sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive element-bindi...   133  1.4e-05   1
+sp|Q66HA2|CR3L1_RAT Cyclic AMP-responsive element-binding...   131  2.3e-05   1
+sp|Q54WN7|BZPF_DICDI Probable basic-leucine zipper transc...   132  2.4e-05   1
+sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive element-bindi...   130  3.0e-05   1
+sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcriptiona...   104  6.0e-05   1
+sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcriptiona...   104  6.0e-05   1
+sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive element-bindi...   127  6.4e-05   1
+sp|O88778|BSN_RAT Protein bassoon OS=Rattus norvegicus GN...   136  7.2e-05   1
+sp|Q6QDP7|CR3L2_RAT Cyclic AMP-responsive element-binding...   125  0.00011   1
+sp|Q9WVS8|MK07_MOUSE Mitogen-activated protein kinase 7 O...   127  0.00012   1
+sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive element-bindi...   123  0.00013   1
+sp|Q16520|BATF_HUMAN Basic leucine zipper transcriptional...   100  0.00016   1
+sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-bindi...   121  0.00017   1
+sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF2 OS=Pe...   121  0.00020   1
+sp|P97876|BATF3_RAT Basic leucine zipper transcriptional ...    99  0.00021   1
+sp|Q5B3C8|NST1_EMENI Stress response protein nst1 OS=Emer...   125  0.00029   1
+sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-bindi...   115  0.00030   2
+sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-bindi...   120  0.00032   1
+sp|Q6NW59|ATF4_DANRE Cyclic AMP-dependent transcription f...   118  0.00032   1
+sp|Q9R1S4|XBP1_RAT X-box-binding protein 1 OS=Rattus norv...   116  0.00032   1
+sp|Q06507|ATF4_MOUSE Cyclic AMP-dependent transcription f...   118  0.00034   1
+sp|P18848|ATF4_HUMAN Cyclic AMP-dependent transcription f...   117  0.00044   1
+sp|O35284|BATF_MOUSE Basic leucine zipper transcriptional...    96  0.00044   1
+sp|P13346|FOSB_MOUSE Protein fosB OS=Mus musculus GN=Fosb...   116  0.00053   1
+sp|Q90888|MAFB_CHICK Transcription factor MafB OS=Gallus ...   115  0.00059   1
+sp|Q90370|MAFB_COTJA Transcription factor MafB OS=Coturni...   115  0.00059   1
+sp|O35426|XBP1_MOUSE X-box-binding protein 1 OS=Mus muscu...   113  0.00071   1
+sp|P51145|FOSL2_RAT Fos-related antigen 2 OS=Rattus norve...   114  0.00084   1
+sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-bindi...   116  0.00089   1
+sp|A4R2R1|NST1_MAGGR Stress response protein NST1 OS=Magn...   121  0.00097   1
+sp|O57342|MAFA_COTJA Transcription factor MafA OS=Coturni...   112  0.0011    1
+sp|O60675|MAFK_HUMAN Transcription factor MafK OS=Homo sa...   103  0.0012    1
+sp|P15407|FOSL1_HUMAN Fos-related antigen 1 OS=Homo sapie...   111  0.0012    1
+sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element-binding...   115  0.0014    2
+sp|Q03173|ENAH_MOUSE Protein enabled homolog OS=Mus muscu...   117  0.0015    1
+sp|P53539|FOSB_HUMAN Protein fosB OS=Homo sapiens GN=FOSB...   112  0.0015    1
+sp|Q2VZV0|IF2_MAGSA Translation initiation factor IF-2 OS...   117  0.0016    1
+sp|Q61827|MAFK_MOUSE Transcription factor MafK OS=Mus mus...   102  0.0017    1
+sp|P29747|CREBA_DROME Cyclic AMP response element-binding...   117  0.0018    2
+sp|O88479|FOS_MESAU Proto-oncogene c-Fos OS=Mesocricetus ...   112  0.0019    1
+sp|Q9TUB3|FOSB_CANFA Protein fosB OS=Canis familiaris GN=...   111  0.0019    1
+sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive element-bindi...   112  0.0020    1
+sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive element-bindi...   112  0.0020    1
+sp|Q9ES19|ATF4_RAT Cyclic AMP-dependent transcription fac...   111  0.0020    1
+sp|P79702|FOS_CYPCA Proto-oncogene c-Fos OS=Cyprinus carp...   111  0.0020    1
+sp|Q8N8S7|ENAH_HUMAN Protein enabled homolog OS=Homo sapi...   114  0.0021    1
+sp|P47930|FOSL2_MOUSE Fos-related antigen 2 OS=Mus muscul...   110  0.0023    1
+sp|Q5R9C9|ATF7_PONAB Cyclic AMP-dependent transcription f...   112  0.0027    1
+sp|P17544|ATF7_HUMAN Cyclic AMP-dependent transcription f...   112  0.0028    1
+sp|Q9Y5Q3|MAFB_HUMAN Transcription factor MafB OS=Homo sa...   109  0.0030    1
+sp|Q9UQ88|CD11A_HUMAN Cell division protein kinase 11A OS...   118  0.0032    2
+sp|O43889|CREB3_HUMAN Cyclic AMP-responsive element-bindi...   110  0.0033    1
+sp|Q3ZCH6|ATF4_BOVIN Cyclic AMP-dependent transcription f...   109  0.0034    1
+sp|Q8R0S1|ATF7_MOUSE Cyclic AMP-dependent transcription f...   110  0.0035    1
+sp|P42774|GBF1_ARATH G-box-binding factor 1 OS=Arabidopsi...   108  0.0037    1
+sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive element-bindi...   109  0.0038    1
+sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element-binding...   111  0.0038    2
+sp|P54842|MAFB_RAT Transcription factor MafB OS=Rattus no...   108  0.0039    1
+sp|A5PKJ4|MK07_BOVIN Mitogen-activated protein kinase 7 O...   113  0.0039    1
+sp|P01101|FOS_MOUSE Proto-oncogene c-Fos OS=Mus musculus ...   109  0.0040    1
+sp|O13024|INCEA_XENLA Inner centromere protein A OS=Xenop...   113  0.0045    1
+sp|Q2PFS4|MAFB_MACFA Transcription factor MafB OS=Macaca ...   107  0.0050    1
+sp|Q5KGK5|EIF3A_CRYNE Eukaryotic translation initiation f...   113  0.0050    1
+sp|O97930|FOS_PIG Proto-oncogene c-Fos OS=Sus scrofa GN=F...   108  0.0051    1
+sp|P01102|FOS_MSVFB p55-v-Fos-transforming protein OS=FBJ...   108  0.0051    1
+sp|Q09926|PCR1_SCHPO Transcription factor pcr1 OS=Schizos...   100  0.0057    1
+sp|Q90596|MAFK_CHICK Transcription factor MafK OS=Gallus ...    98  0.0062    1
+sp|Q504L8|MAFB_XENTR Transcription factor MafB OS=Xenopus...   106  0.0062    1
+sp|Q1DQC1|PAN1_COCIM Actin cytoskeleton-regulatory comple...   114  0.0065    1
+sp|P54841|MAFB_MOUSE Transcription factor MafB OS=Mus mus...   106  0.0065    1
+sp|Q5A2K0|NST1_CANAL Stress response protein NST1 OS=Cand...   113  0.0078    1
+sp|Q8VCH8|UBXN4_MOUSE UBX domain-containing protein 4 OS=...   108  0.0079    1
+sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive element-bindi...   107  0.0079    1
+sp|P10158|FOSL1_RAT Fos-related antigen 1 OS=Rattus norve...   104  0.0080    1
+sp|P97875|JDP2_MOUSE Jun dimerization protein 2 OS=Mus mu...    98  0.0081    1
+sp|Q78E65|JDP2_RAT Jun dimerization protein 2 OS=Rattus n...    98  0.0081    1
+sp|P15408|FOSL2_HUMAN Fos-related antigen 2 OS=Homo sapie...   105  0.0085    1
+sp|O42290|MAFA_CHICK Transcription factor MafA OS=Gallus ...   104  0.0087    1
+sp|A1C9M5|KAPC_ASPCL Putative transcription factor kapC O...   103  0.010     2
+sp|P0C865|MK07_RAT Mitogen-activated protein kinase 7 OS=...   109  0.011     1
+sp|Q15424|SAFB1_HUMAN Scaffold attachment factor B1 OS=Ho...   109  0.013     1
+sp|O60841|IF2P_HUMAN Eukaryotic translation initiation fa...   110  0.014     1
+sp|Q5RDE1|IF2P_PONAB Eukaryotic translation initiation fa...   110  0.014     1
+sp|Q9M7Q3|AI5L6_ARATH ABSCISIC ACID-INSENSITIVE 5-like pr...   105  0.014     1
+sp|A9V549|EIF3A_MONBE Eukaryotic translation initiation f...   109  0.015     1
+sp|Q9UKV3|ACINU_HUMAN Apoptotic chromatin condensation in...   110  0.016     1
+sp|Q63ZM7|STABP_XENLA STAM-binding protein-like OS=Xenopu...   104  0.016     1
+sp|Q4QRL3|CC88B_MOUSE Coiled-coil domain-containing prote...   110  0.018     1
+sp|P01100|FOS_HUMAN Proto-oncogene c-Fos OS=Homo sapiens ...   103  0.018     1
+sp|P12841|FOS_RAT Proto-oncogene c-Fos OS=Rattus norvegic...   103  0.018     1
+sp|P19880|YAP1_YEAST AP-1-like transcription factor YAP1 ...    96  0.019     2
+sp|Q8CH25|SLTM_MOUSE SAFB-like transcription modulator OS...   108  0.019     1
+sp|Q9NWH9|SLTM_HUMAN SAFB-like transcription modulator OS...   108  0.019     1
+sp|Q16534|HLF_HUMAN Hepatic leukemia factor OS=Homo sapie...   101  0.020     1
+sp|Q8BW74|HLF_MOUSE Hepatic leukemia factor OS=Mus muscul...   101  0.020     1
+sp|Q6CBW0|NST1_YARLI Stress response protein NST1 OS=Yarr...   107  0.021     1
+sp|Q498L2|SLTM_XENLA SAFB-like transcription modulator OS...   105  0.022     2
+sp|Q1E554|CGR1_COCIM rRNA-processing protein CGR1 OS=Cocc...    89  0.023     1
+sp|Q91496|FOS_TETFL Proto-oncogene c-Fos OS=Tetraodon flu...   102  0.023     1
+sp|Q9ESN9|JIP3_MOUSE C-Jun-amino-terminal kinase-interact...    98  0.023     2
+sp|P53450|FOS_TAKRU Proto-oncogene c-Fos OS=Takifugu rubr...   102  0.023     1
+sp|Q05682|CALD1_HUMAN Caldesmon OS=Homo sapiens GN=CALD1 ...   106  0.023     1
+sp|O77628|FOS_BOVIN Proto-oncogene c-Fos OS=Bos taurus GN...   102  0.024     1
+sp|Q56TT7|FOS_PHOCM Proto-oncogene c-Fos OS=Phodopus camp...   102  0.024     1
+sp|Q0CEI3|KAPC_ASPTN Putative transcription factor kapC O...   100  0.024     1
+sp|Q6P9R4|ARHGI_MOUSE Rho guanine nucleotide exchange fac...   107  0.024     1
+sp|P29681|IMPE2_DROME 20-hydroxyecdysone protein OS=Droso...   103  0.025     1
+sp|A2AJI0|MA7D1_MOUSE MAP7 domain-containing protein 1 OS...   106  0.025     1
+sp|Q5R452|SAFB1_PONAB Scaffold attachment factor B1 OS=Po...   106  0.028     1
+sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive element-bindi...   102  0.028     1
+sp|Q9D439|CCD11_MOUSE Coiled-coil domain-containing prote...   103  0.028     1
+sp|P48755|FOSL1_MOUSE Fos-related antigen 1 OS=Mus muscul...    99  0.029     1
+sp|Q6DE84|MAFB_XENLA Transcription factor MafB OS=Xenopus...   100  0.029     1
+sp|Q54RZ9|BZPG_DICDI Probable basic-leucine zipper transc...   101  0.030     1
+sp|A0JMK9|CAF1A_DANRE Chromatin assembly factor 1 subunit...   109  0.030     2
+sp|P18625|FOSL2_CHICK Fos-related antigen 2 OS=Gallus gal...   100  0.030     1
+sp|A2R346|KAPC_ASPNC Putative transcription factor kapC O...    99  0.031     1
+sp|Q8HZP6|FOS_FELCA Proto-oncogene c-Fos OS=Felis catus G...   101  0.031     1
+sp|P26042|MOES_PIG Moesin OS=Sus scrofa GN=MSN PE=2 SV=3       103  0.033     1
+sp|Q2HJ49|MOES_BOVIN Moesin OS=Bos taurus GN=MSN PE=2 SV=3     103  0.033     1
+sp|A5FV21|IF2_ACICJ Translation initiation factor IF-2 OS...   105  0.034     1
+sp|A6SCT6|DBP3_BOTFB ATP-dependent RNA helicase dbp3 OS=B...   103  0.034     1
+sp|Q7PGE8|EIF3A_ANOGA Eukaryotic translation initiation f...   106  0.035     1
+sp|O77788|NFM_BOVIN Neurofilament medium polypeptide OS=B...   105  0.036     1
+sp|Q9JTB5|IF2_NEIMA Translation initiation factor IF-2 OS...   105  0.038     1
+sp|Q9JYD2|IF2_NEIMB Translation initiation factor IF-2 OS...   105  0.038     1
+sp|A1KV51|IF2_NEIMF Translation initiation factor IF-2 OS...   105  0.038     1
+sp|P0C5H8|KAPC_EMENI Putative transcription factor kapC O...    98  0.038     1
+sp|Q80YR5|SAFB2_MOUSE Scaffold attachment factor B2 OS=Mu...   105  0.039     1
+sp|Q56TN0|FOS_PHORO Proto-oncogene c-Fos OS=Phodopus robo...   100  0.039     1
+sp|Q4U1U2|MAFA_XENTR Transcription factor MafA OS=Xenopus...    98  0.041     1
+sp|P26038|MOES_HUMAN Moesin OS=Homo sapiens GN=MSN PE=1 SV=3   102  0.042     1
+sp|Q64709|HLF_RAT Hepatic leukemia factor OS=Rattus norve...    98  0.043     1
+sp|A0JMT0|CA1AB_XENLA Chromatin assembly factor 1 subunit...   104  0.044     1
+sp|Q6Y7W6|PERQ2_HUMAN PERQ amino acid-rich with GYF domai...   112  0.044     2
+sp|Q8WYK2|JDP2_HUMAN Jun dimerization protein 2 OS=Homo s...    92  0.045     1
+sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive element-bindi...    99  0.046     1
+sp|Q9C0A6|SETD5_HUMAN SET domain-containing protein 5 OS=...   106  0.046     1
+sp|Q92575|UBXN4_HUMAN UBX domain-containing protein 4 OS=...   101  0.046     1
+sp|Q5R4I3|UBXN4_PONAB UBX domain-containing protein 4 OS=...   101  0.046     1
+sp|P14233|TGA1B_TOBAC TGACG-sequence-specific DNA-binding...    96  0.048     1
+sp|A9M1D5|IF2_NEIM0 Translation initiation factor IF-2 OS...   104  0.048     1
+sp|Q554P0|BZPJ_DICDI Probable basic-leucine zipper transc...   103  0.049     1
+sp|Q8N9W4|GG6L2_HUMAN Golgin subfamily A member 6-like pr...   102  0.049     1
+sp|Q8N300|CCD23_HUMAN Coiled-coil domain-containing prote...    77  0.050     1
+sp|O81025|P2A03_ARATH Putative protein PHLOEM PROTEIN 2-L...   100  0.052     1
+sp|O35763|MOES_RAT Moesin OS=Rattus norvegicus GN=Msn PE=...   101  0.055     1
+sp|Q9Z220|TSG10_RAT Testis-specific gene 10 protein OS=Ra...   102  0.055     1
+sp|Q32N93|INCEB_XENLA Inner centromere protein B OS=Xenop...   103  0.056     1
+sp|Q95XZ5|NPBL_CAEEL Nipped-B-like protein pqn-85 OS=Caen...   107  0.056     1
+sp|Q6CT90|EIF3A_KLULA Eukaryotic translation initiation f...   103  0.059     1
+sp|Q5F489|TAF3_CHICK Transcription initiation factor TFII...   103  0.059     1
+sp|P42775|GBF2_ARATH G-box-binding factor 2 OS=Arabidopsi...    98  0.060     1
+sp|Q55EQ3|Y9086_DICDI Uncharacterized abhydrolase domain-...   103  0.060     1
+sp|Q54LU8|Y8646_DICDI Probable serine/threonine-protein k...    98  0.060     2
+sp|P94517|YSCB_BACSU Uncharacterized protein yscB OS=Baci...    94  0.066     1
+sp|Q2UKG6|EIF3A_ASPOR Eukaryotic translation initiation f...   103  0.067     1
+sp|Q9Y592|CCD41_HUMAN Coiled-coil domain-containing prote...   101  0.069     1
+sp|Q6Y7W8|PERQ2_MOUSE PERQ amino acid-rich with GYF domai...   111  0.069     2
+sp|Q8X229|FCR3_CANAL Fluconazole resistance protein 3 OS=...    98  0.069     1
+sp|P26041|MOES_MOUSE Moesin OS=Mus musculus GN=Msn PE=1 SV=3   100  0.070     1
+sp|Q9TW28|MYOM_DICDI Myosin-M heavy chain OS=Dictyosteliu...   105  0.072     1
+sp|Q9NZ53|PDXL2_HUMAN Podocalyxin-like protein 2 OS=Homo ...   100  0.074     1
+sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive element-bindi...    99  0.075     1
+sp|Q5HZG4|TAF3_MOUSE Transcription initiation factor TFII...   102  0.076     1
+sp|A0LE19|IF2_MAGSM Translation initiation factor IF-2 OS...   102  0.077     1
+sp|Q869E1|DNLI1_DICDI DNA ligase 1 OS=Dictyostelium disco...   103  0.078     1
+sp|P22793|TRHY_SHEEP Trichohyalin OS=Ovis aries GN=TCHH P...   104  0.081     1
+sp|O70191|ATF5_MOUSE Cyclic AMP-dependent transcription f...    95  0.085     1
+sp|Q39140|TGA6_ARATH Transcription factor TGA6 OS=Arabido...    96  0.085     1
+sp|Q68EL6|NFIL3_DANRE Nuclear factor interleukin-3-regula...    98  0.085     1
+sp|Q55FW7|GLE1_DICDI Nucleoporin GLE1 OS=Dictyostelium di...   101  0.086     1
+sp|Q3TLH4|BA2L2_MOUSE Protein BAT2-like 2 OS=Mus musculus...    89  0.092     2
+sp|Q04323|UBXN1_HUMAN UBX domain-containing protein 1 OS=...    95  0.092     1
+sp|P23922|HBP1A_WHEAT Transcription factor HBP-1a OS=Trit...    96  0.092     1
+sp|Q9C5Q2|AI5L3_ARATH ABSCISIC ACID-INSENSITIVE 5-like pr...    94  0.094     1
+sp|Q54TD7|DDX24_DICDI ATP-dependent RNA helicase ddx24 OS...   101  0.097     1
+sp|Q5F797|IF2_NEIG1 Translation initiation factor IF-2 OS...   101  0.098     1
+sp|B4RMZ3|IF2_NEIG2 Translation initiation factor IF-2 OS...   101  0.098     1
+sp|Q86AH4|Y8592_DICDI Putative uncharacterized protein DD...    99  0.099     1
+sp|Q8IIG7|YPF05_PLAF7 Uncharacterized protein PF11_0207 O...   101  0.10      1
+sp|B2KI97|THOC2_RHIFE THO complex subunit 2 OS=Rhinolophu...   103  0.11      1
+sp|Q9UM54|MYO6_HUMAN Myosin-VI OS=Homo sapiens GN=MYO6 PE...   102  0.11      1
+sp|Q3KQU3|MA7D1_HUMAN MAP7 domain-containing protein 1 OS...   100  0.11      1
+sp|Q14244|MAP7_HUMAN Ensconsin OS=Homo sapiens GN=MAP7 PE...    98  0.11      2
+sp|P29596|ATF3_RAT Cyclic AMP-dependent transcription fac...    90  0.11      1
+sp|Q5TM26|BAT2_MACMU Large proline-rich protein BAT2 OS=M...   104  0.11      1
+sp|Q0IHP2|INCE_XENTR Inner centromere protein OS=Xenopus ...   100  0.12      1
+sp|Q9NQS7|INCE_HUMAN Inner centromere protein OS=Homo sap...   100  0.12      1
+sp|Q5HZY0|UBXN4_RAT UBX domain-containing protein 4 OS=Ra...    97  0.12      1
+sp|Q90595|MAFF_CHICK Transcription factor MafF OS=Gallus ...    87  0.12      1
+sp|Q6ZSZ5|ARHGI_HUMAN Rho guanine nucleotide exchange fac...   101  0.12      1
+sp|Q7PS12|MOEH_ANOGA Moesin/ezrin/radixin homolog 1 OS=An...    98  0.12      1
+sp|P12957|CALD1_CHICK Caldesmon OS=Gallus gallus GN=CALD1...    99  0.13      1
+sp|Q08DA8|ATF1_BOVIN Cyclic AMP-dependent transcription f...    93  0.13      1
+sp|Q94126|CES2_CAEEL Cell death specification protein 2 O...    91  0.13      1
+sp|O66547|Y157_AQUAE Uncharacterized protein aq_157 OS=Aq...    88  0.13      1
+sp|A6ZRZ0|NST1_YEAS7 Stress response protein NST1 OS=Sacc...   101  0.13      1
+sp|P53935|NST1_YEAST Stress response protein NST1 OS=Sacc...   101  0.13      1
+sp|A3BYC1|HOX25_ORYSJ Homeobox-leucine zipper protein HOX...    94  0.13      1
+sp|B1AZI6|THOC2_MOUSE THO complex subunit 2 OS=Mus muscul...   102  0.13      1
+sp|Q9H254|SPTN4_HUMAN Spectrin beta chain, brain 3 OS=Hom...   104  0.14      1
+sp|Q2UNX4|KAPC_ASPOR Putative transcription factor kapC O...    93  0.14      1
+sp|Q9JJ50|HGS_RAT Hepatocyte growth factor-regulated tyro...    94  0.14      2
+sp|Q2KII1|ATF3_BOVIN Cyclic AMP-dependent transcription f...    89  0.14      1
+sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcription ...    98  0.14      1
+sp|Q7TSC1|BAT2_MOUSE Large proline-rich protein BAT2 OS=M...   103  0.14      1
+sp|Q4I877|NDE1_GIBZE Nuclear distribution protein nudE ho...    97  0.14      1
+sp|Q84WU4|GOGC3_ARATH Golgin candidate 3 OS=Arabidopsis t...    98  0.15      1
+sp|Q499N6|UBXN1_RAT UBX domain-containing protein 1 OS=Ra...    93  0.15      1
+sp|B4PPK2|FOSL_DROYA Transcription factor kayak OS=Drosop...    81  0.15      3
+sp|A4R8N4|PAN1_MAGGR Actin cytoskeleton-regulatory comple...   101  0.15      1
+sp|B2AWS3|PAN1_PODAN Actin cytoskeleton-regulatory comple...   101  0.15      1
+sp|Q92545|TM131_HUMAN Transmembrane protein 131 OS=Homo s...   102  0.15      1
+sp|Q38W81|IF2_LACSS Translation initiation factor IF-2 OS...    99  0.16      1
+sp|Q789F3|MAF_CHICK Transcription factor Maf OS=Gallus ga...    94  0.16      1
+sp|P49716|CEBPD_HUMAN CCAAT/enhancer-binding protein delt...    92  0.16      1
+sp|P81269|ATF1_MOUSE Cyclic AMP-dependent transcription f...    92  0.16      1
+sp|P23091|MAF_AVIS4 Transforming protein Maf OS=Avian mus...    94  0.16      1
+sp|P18846|ATF1_HUMAN Cyclic AMP-dependent transcription f...    92  0.16      1
+sp|Q07283|TRHY_HUMAN Trichohyalin OS=Homo sapiens GN=TCHH...   102  0.16      1
+sp|Q4X1V0|NDE1_ASPFU Nuclear distribution protein nudE ho...    95  0.17      2
+sp|Q8R1H8|BATF2_MOUSE Basic leucine zipper transcriptiona...    79  0.17      2
+sp|Q66J36|NFIL3_XENLA Nuclear factor interleukin-3-regula...    95  0.17      1
+sp|P13816|GARP_PLAFF Glutamic acid-rich protein OS=Plasmo...    97  0.17      1
+sp|P38749|YAP3_YEAST AP-1-like transcription factor YAP3 ...    93  0.17      1
+sp|Q3UIW5|RNF10_MOUSE RING finger protein 10 OS=Mus muscu...    99  0.18      2
+sp|P23923|HBP1B_WHEAT Transcription factor HBP-1b(c38) OS...    93  0.18      1
+sp|Q9D5R3|CCD41_MOUSE Coiled-coil domain-containing prote...    97  0.18      1
+sp|Q9QXL2|KI21A_MOUSE Kinesin-like protein KIF21A OS=Mus ...   101  0.18      1
+sp|Q9UPT6|JIP3_HUMAN C-Jun-amino-terminal kinase-interact...    95  0.18      2
+sp|P16884|NFH_RAT Neurofilament heavy polypeptide OS=Ratt...    99  0.18      1
+sp|Q60765|ATF3_MOUSE Cyclic AMP-dependent transcription f...    88  0.18      1
+sp|Q9N0J3|CEBPD_SHEEP CCAAT/enhancer-binding protein delt...    91  0.18      1
+sp|A5DLJ8|NST1_PICGU Stress response protein NST1 OS=Pich...    99  0.18      1
+sp|A5DHL9|EIF3A_PICGU Eukaryotic translation initiation f...    98  0.19      1
+sp|Q6NXA9|UBXN1_DANRE UBX domain-containing protein 1 OS=...    92  0.19      1
+sp|O02756|CEBPD_BOVIN CCAAT/enhancer-binding protein delt...    91  0.19      1
+sp|O88735|MAP7_MOUSE Ensconsin OS=Mus musculus GN=Map7 PE...    97  0.19      1
+sp|Q99105|MYSU_RABIT Myosin heavy chain, embryonic smooth...    95  0.19      1
+sp|Q9M7Q2|AI5L7_ARATH ABSCISIC ACID-INSENSITIVE 5-like pr...    94  0.20      1
+sp|Q9HCM9|TRI39_HUMAN Tripartite motif-containing protein...    95  0.20      1
+sp|Q1XHU0|TRI39_PANTR Tripartite motif-containing protein...    95  0.20      1
+sp|Q7SHT5|PXR1_NEUCR Protein pxr-1 OS=Neurospora crassa G...    93  0.20      1
+sp|Q32LJ0|CCD23_BOVIN Coiled-coil domain-containing prote...    71  0.21      1
+sp|Q99LQ4|CCD23_MOUSE Coiled-coil domain-containing prote...    71  0.21      1
+sp|Q4KLG3|CCD23_RAT Coiled-coil domain-containing protein...    71  0.21      1
+sp|Q54XG7|DIMA_DICDI Basic-leucine zipper transcription f...    99  0.21      1
+sp|Q54CY3|Y4489_DICDI Putative uncharacterized protein DD...    86  0.21      1
+sp|B0KWH8|THOC2_CALJA THO complex subunit 2 OS=Callithrix...   100  0.21      1
+sp|Q7Z4V5|HDGR2_HUMAN Hepatoma-derived growth factor-rela...    96  0.21      1
+sp|P15205|MAP1B_RAT Microtubule-associated protein 1B OS=...   102  0.22      3
+sp|Q98UK4|MAF_DANRE Transcription factor Maf OS=Danio rer...    92  0.22      1
+sp|O75037|KI21B_HUMAN Kinesin-like protein KIF21B OS=Homo...   108  0.22      2
+sp|Q02040|SF17A_HUMAN Splicing factor, arginine/serine-ri...    96  0.22      1
+sp|P82179|TRDN_CANFA Triadin OS=Canis familiaris GN=TRDN ...    96  0.22      1
+sp|B0WYY2|MOEH_CULQU Moesin/ezrin/radixin homolog 1 OS=Cu...    95  0.22      1
+sp|Q556Q3|IRLF_DICDI Probable serine/threonine-protein ki...    99  0.23      1
+sp|P18847|ATF3_HUMAN Cyclic AMP-dependent transcription f...    87  0.23      1
+sp|Q5RCJ1|CIP4_PONAB Cdc42-interacting protein 4 OS=Pongo...    95  0.24      1
+sp|Q1RM35|CC104_DANRE Coiled-coil domain-containing prote...    92  0.24      1
+sp|A2Z0Q0|HOX25_ORYSI Homeobox-leucine zipper protein HOX...    90  0.24      1
+sp|P15336|ATF2_HUMAN Cyclic AMP-dependent transcription f...    94  0.24      1
+sp|O88453|SAFB1_RAT Scaffold attachment factor B1 OS=Ratt...    97  0.24      1
+sp|B0YC95|PAN1_ASPFC Actin cytoskeleton-regulatory comple...    99  0.24      1
+sp|Q4WG58|PAN1_ASPFU Actin cytoskeleton-regulatory comple...    99  0.24      1
+sp|A6NC98|CC88B_HUMAN Coiled-coil domain-containing prote...    99  0.25      1
+sp|A6R7X5|PAN1_AJECN Actin cytoskeleton-regulatory comple...    99  0.25      1
+sp|Q05D44|IF2P_MOUSE Eukaryotic translation initiation fa...    98  0.25      1
+sp|P54843|MAF_MOUSE Transcription factor Maf OS=Mus muscu...    92  0.26      1
+sp|O75444|MAF_HUMAN Transcription factor Maf OS=Homo sapi...    92  0.26      1
+sp|A7Z017|MAF_BOVIN Transcription factor Maf OS=Bos tauru...    92  0.26      1
+sp|A5PJN1|TAP26_BOVIN Thyroid transcription factor 1-asso...    89  0.27      1
+sp|O24160|TGA21_TOBAC TGACG-sequence-specific DNA-binding...    93  0.27      1
+sp|Q54Y73|BZPD_DICDI Probable basic-leucine zipper transc...    96  0.27      1
+sp|Q5FW38|NFIL3_XENTR Nuclear factor interleukin-3-regula...    93  0.27      1
+sp|Q39163|TGA5_ARATH Transcription factor TGA5 OS=Arabido...    91  0.27      1
+sp|Q90889|MAFG_CHICK Transcription factor MafG OS=Gallus ...    85  0.27      1
+sp|O35451|ATF6B_MOUSE Cyclic AMP-dependent transcription ...    95  0.28      1
+sp|Q9QXL1|KI21B_MOUSE Kinesin-like protein KIF21B OS=Mus ...   107  0.28      2
+sp|Q5RG44|K1211_DANRE Uncharacterized protein KIAA1211 ho...    97  0.28      1
+sp|P48634|BAT2_HUMAN Large proline-rich protein BAT2 OS=H...   100  0.28      1
+sp|C0QTL9|IF2_PERMH Translation initiation factor IF-2 OS...    96  0.28      1
+sp|P53352|INCE_CHICK Inner centromere protein OS=Gallus g...    96  0.28      1
+sp|Q8BKJ9|SIRT7_MOUSE NAD-dependent deacetylase sirtuin-7...    92  0.29      1
+sp|Q5XIB5|CCD86_RAT Coiled-coil domain-containing protein...    91  0.29      1
+sp|O93602|ATF2_CHICK Cyclic AMP-dependent transcription f...    93  0.29      1
+sp|P16951|ATF2_MOUSE Cyclic AMP-dependent transcription f...    93  0.29      1
+sp|Q5QTY8|IF2_IDILO Translation initiation factor IF-2 OS...    96  0.29      1
+sp|Q6FUQ5|FYV7_CANGA rRNA-processing protein FYV7 OS=Cand...    84  0.29      1
+sp|P37934|MAAY3_SCHCO Mating-type protein A-alpha Y3 OS=S...    97  0.29      2
+sp|Q99089|CPRF1_PETCR Common plant regulatory factor 1 OS...    92  0.29      1
+sp|Q3ZBU9|UBXN4_BOVIN UBX domain-containing protein 4 OS=...    93  0.30      1
+sp|P34511|YMX3_CAEEL Uncharacterized protein K06H7.3 OS=C...    94  0.30      1
+sp|Q8C0Q2|ZHX3_MOUSE Zinc fingers and homeoboxes protein ...    96  0.31      1
+sp|Q5B5B0|PAN1_EMENI Actin cytoskeleton-regulatory comple...    98  0.31      1
+sp|A2AG50|MA7D2_MOUSE MAP7 domain-containing protein 2 OS...    95  0.31      1
+sp|Q4PBP6|NST1_USTMA Stress response protein NST1 OS=Usti...    98  0.31      1
+sp|Q7KZI7|MARK2_HUMAN Serine/threonine-protein kinase MAR...    95  0.31      1
+sp|Q03484|CEBPD_RAT CCAAT/enhancer-binding protein delta ...    89  0.31      1
+sp|Q80VM7|ANR24_MOUSE Ankyrin repeat domain-containing pr...    96  0.32      1
+sp|P54844|MAF_RAT Transcription factor Maf OS=Rattus norv...    91  0.32      1
+sp|B1ZDQ8|IF2_METPB Translation initiation factor IF-2 OS...    96  0.32      1
+sp|Q99LI8|HGS_MOUSE Hepatocyte growth factor-regulated ty...    94  0.32      2
+sp|Q6BUE3|PXR1_DEBHA Protein PXR1 OS=Debaryomyces hanseni...    90  0.32      1
+sp|Q7RWT1|EIF3A_NEUCR Eukaryotic translation initiation f...    96  0.32      1
+sp|Q6ZDF3|TRAB1_ORYSJ bZIP transcription factor TRAB1 OS=...    90  0.32      1
+sp|Q8NI27|THOC2_HUMAN THO complex subunit 2 OS=Homo sapie...    98  0.33      1
+sp|B1MTK1|THOC2_CALMO THO complex subunit 2 OS=Callicebus...    98  0.33      1
+sp|Q8N4C8|MINK1_HUMAN Misshapen-like kinase 1 OS=Homo sap...    93  0.33      2
+sp|P42776|GBF3_ARATH G-box-binding factor 3 OS=Arabidopsi...    91  0.33      1
+sp|A1D9Z7|KAPC_NEOFI Putative transcription factor kapC O...    89  0.34      1
+sp|Q4G091|MICLK_RAT MICAL C-terminal-like protein OS=Ratt...    94  0.34      1
+sp|Q6P788|ATF5_RAT Cyclic AMP-dependent transcription fac...    89  0.34      1
+sp|Q9Y2D1|ATF5_HUMAN Cyclic AMP-dependent transcription f...    89  0.34      1
+sp|P43273|TGA2_ARATH Transcription factor TGA2 OS=Arabido...    90  0.34      1
+sp|Q795Q5|YTTA_BACSU Uncharacterized membrane protein ytt...    88  0.34      1
+sp|Q32LP2|RADI_BOVIN Radixin OS=Bos taurus GN=RDX PE=2 SV=1     93  0.35      1
+sp|Q9PU45|RADI_CHICK Radixin OS=Gallus gallus GN=RDX PE=2...    93  0.35      1
+sp|P35241|RADI_HUMAN Radixin OS=Homo sapiens GN=RDX PE=1 ...    93  0.35      1
+sp|P26044|RADI_PIG Radixin OS=Sus scrofa GN=RDX PE=2 SV=1       93  0.35      1
+sp|Q2KHR3|QSER1_HUMAN Glutamine and serine-rich protein 1...    98  0.35      1
+sp|Q54NF3|Y6434_DICDI Uncharacterized protein DDB_G028529...    91  0.36      1
+sp|Q99091|CPRF3_PETCR Light-inducible protein CPRF3 OS=Pe...    89  0.36      1
+sp|P30427|PLEC1_RAT Plectin-1 OS=Rattus norvegicus GN=Ple...   102  0.36      1
+sp|Q553B1|DDX46_DICDI ATP-dependent RNA helicase ddx46 OS...    96  0.36      1
+sp|Q5AXH3|TOF1_EMENI Topoisomerase 1-associated factor 1 ...    96  0.37      1
+sp|Q0V9K1|MAF_XENTR Transcription factor Maf OS=Xenopus t...    90  0.37      1
+sp|A6RW62|NST1_BOTFB Stress response protein nst1 OS=Botr...    96  0.37      1
+sp|A7EMM3|NST1_SCLS1 Stress response protein nst1 OS=Scle...    96  0.37      1
+sp|Q869T2|Y7634_DICDI Putative uncharacterized protein DD...    92  0.37      1
+sp|A1DC51|PAN1_NEOFI Actin cytoskeleton-regulatory comple...    97  0.37      1
+sp|Q960X8|HRS_DROME Hepatocyte growth factor-regulated ty...    94  0.37      1
+sp|Q5BJY9|K1C18_RAT Keratin, type I cytoskeletal 18 OS=Ra...    91  0.37      1
+sp|Q6BUT3|NST1_DEBHA Stress response protein NST1 OS=Deba...    96  0.37      1
+sp|A1CD74|PAN1_ASPCL Actin cytoskeleton-regulatory comple...    97  0.37      1
+sp|Q09202|YP23_CAEEL Uncharacterized protein AH6.3 OS=Cae...    87  0.38      1
+sp|B2GUV7|IF2P_RAT Eukaryotic translation initiation fact...    96  0.38      1
+sp|A5F4W4|ZAPB_VIBC3 Cell division protein zapB OS=Vibrio...    68  0.38      1
+sp|Q9KNP5|ZAPB_VIBCH Cell division protein zapB OS=Vibrio...    68  0.38      1
+sp|C3LSB5|ZAPB_VIBCM Cell division protein zapB OS=Vibrio...    68  0.38      1
+sp|P97820|M4K4_MOUSE Mitogen-activated protein kinase kin...    96  0.39      1
+sp|P34099|KAPC_DICDI cAMP-dependent protein kinase cataly...    93  0.39      1
+sp|O95819|M4K4_HUMAN Mitogen-activated protein kinase kin...    96  0.39      1
+sp|P11115|CPC1_NEUCR Cross-pathway control protein 1 OS=N...    88  0.39      1
+sp|P42777|GBF4_ARATH G-box-binding factor 4 OS=Arabidopsi...    88  0.39      1
+sp|A3KMR8|MAFA_DANRE Transcription factor MafA OS=Danio r...    89  0.39      1
+sp|O60132|TEA4_SCHPO Tip elongation aberrant protein Tea4...    94  0.39      1
+sp|Q7KQM6|PERQ1_DROME PERQ amino acid-rich with GYF domai...    97  0.39      1
+sp|Q9ZLW8|PGBA_HELPJ Plasminogen-binding protein pgbA OS=...    91  0.40      1
+sp|O25249|PGBA_HELPY Plasminogen-binding protein pgbA OS=...    91  0.40      1
+sp|Q13164|MK07_HUMAN Mitogen-activated protein kinase 7 O...    83  0.40      2
+sp|Q1DXU0|EIF3A_COCIM Eukaryotic translation initiation f...    95  0.40      1
+sp|O14964|HGS_HUMAN Hepatocyte growth factor-regulated ty...    90  0.41      2
+sp|Q0CUP6|EIF3A_ASPTN Eukaryotic translation initiation f...    95  0.41      1
+sp|A5DXA0|NST1_LODEL Stress response protein NST1 OS=Lodd...    97  0.41      1
+sp|Q4WA21|KAPC_ASPFU Putative transcription factor kapC O...    88  0.41      1
+sp|Q54GQ1|MTMR_DICDI Myotubularin-related protein DDB_G02...    96  0.41      1
+sp|P23614|BASP1_CHICK Brain acid soluble protein 1 homolo...    87  0.41      1
+sp|Q8SSQ0|GEFR_DICDI Ras guanine nucleotide exchange fact...    93  0.41      2
+sp|Q7Z4S6|KI21A_HUMAN Kinesin-like protein KIF21A OS=Homo...    97  0.41      1
+sp|Q2KI00|F107B_BOVIN Protein FAM107B OS=Bos taurus GN=FA...    80  0.41      1
+sp|Q08014|MEDB_GIALA Median body protein OS=Giardia lambl...    94  0.41      1
+sp|Q9M7Q5|AI5L4_ARATH ABSCISIC ACID-INSENSITIVE 5-like pr...    90  0.42      1
+sp|Q09458|YQ37_CAEEL Uncharacterized protein C09F5.7 OS=C...    90  0.42      1
+sp|Q6MG48|BAT2_RAT Large proline-rich protein BAT2 OS=Rat...    98  0.42      1
+sp|Q9WU62|INCE_MOUSE Inner centromere protein OS=Mus musc...    94  0.42      1
+sp|P26043|RADI_MOUSE Radixin OS=Mus musculus GN=Rdx PE=1 ...    92  0.43      1
+sp|Q12234|RUD3_YEAST GRIP domain-containing protein RUD3 ...    91  0.43      1
+sp|Q98TA5|CA1AA_XENLA Chromatin assembly factor 1 subunit...    94  0.43      1
+sp|Q07E15|CTTB2_MUSPF Cortactin-binding protein 2 OS=Must...    76  0.44      3
+sp|Q1MTN9|RLF2_SCHPO Chromatin assembly factor 1 subunit ...    90  0.44      2
+sp|P07197|NFM_HUMAN Neurofilament medium polypeptide OS=H...    94  0.44      1
+sp|Q6IP50|UBX1A_XENLA UBX domain-containing protein 1-A O...    88  0.44      1
+sp|Q922Y1|UBXN1_MOUSE UBX domain-containing protein 1 OS=...    88  0.44      1
+sp|Q5JR59|MTUS2_HUMAN Microtubule-associated tumor suppre...    84  0.45      2
+sp|P14918|EXTN_MAIZE Extensin OS=Zea mays GN=HRGP PE=2 SV=1     73  0.45      2
+sp|C1D8X2|IF2_LARHH Translation initiation factor IF-2 OS...    94  0.46      1
+sp|Q7SAF6|CEF1_NEUCR Pre-mRNA-splicing factor cef-1 OS=Ne...    93  0.46      1
+sp|A6VLC4|ZAPB_ACTSZ Cell division protein zapB OS=Actino...    67  0.46      1
+sp|P72929|Y1021_SYNY3 Uncharacterized protein sll1021 OS=...    86  0.47      2
+sp|O14273|YET4_SCHPO Meiotically up-regulated protein C8C...    92  0.47      1
+sp|Q6DGM8|JDP2_DANRE Jun dimerization protein 2 OS=Danio ...    82  0.48      1
+sp|Q8GT73|BH119_ARATH Transcription factor bHLH119 OS=Ara...    91  0.48      1
+sp|C1FXW9|THOC2_DASNO THO complex subunit 2 OS=Dasypus no...    96  0.48      1
+sp|P12270|TPR_HUMAN Nucleoprotein TPR OS=Homo sapiens GN=...    88  0.49      2
+sp|P29176|FOSX_MSVFR Transforming protein v-Fos/v-Fox OS=...    86  0.50      1
+sp|Q9UPN4|AZI1_HUMAN 5-azacytidine-induced protein 1 OS=H...    94  0.50      1
+sp|P78559|MAP1A_HUMAN Microtubule-associated protein 1A O...    75  0.51      2
+sp|Q5AVK6|NOP16_EMENI Nucleolar protein 16 OS=Emericella ...    86  0.51      1
+sp|Q9H098|F107B_HUMAN Protein FAM107B OS=Homo sapiens GN=...    79  0.51      1
+sp|P20226|TBP_HUMAN TATA-box-binding protein OS=Homo sapi...    88  0.51      1
+sp|Q08E13|RNF10_BOVIN RING finger protein 10 OS=Bos tauru...    89  0.52      2
+sp|Q9VL63|U430_DROME UPF0430 protein CG31712 OS=Drosophil...    87  0.52      1
+sp|Q13061|TRDN_HUMAN Triadin OS=Homo sapiens GN=TRDN PE=1...    92  0.52      1
+sp|Q9ES64|USH1C_MOUSE Harmonin OS=Mus musculus GN=Ush1c P...    93  0.52      1
+sp|Q86AF3|BZPH_DICDI Probable basic-leucine zipper transc...    92  0.52      2
+sp|Q9Y520|BA2L2_HUMAN Protein BAT2-like 2 OS=Homo sapiens...    98  0.53      1
+sp|Q9LES3|AI5L2_ARATH ABSCISIC ACID-INSENSITIVE 5-like pr...    87  0.53      1
+sp|Q55E93|BZPE_DICDI Probable basic-leucine zipper transc...    89  0.53      1
+sp|Q15147|PLCB4_HUMAN 1-phosphatidylinositol-4,5-bisphosp...    94  0.54      1
+sp|Q9QW07|PLCB4_RAT 1-phosphatidylinositol-4,5-bisphospha...    94  0.54      1
+sp|Q9QWW1|HOME2_MOUSE Homer protein homolog 2 OS=Mus musc...    88  0.54      1
+sp|Q98UK5|MAFB_DANRE Transcription factor MafB OS=Danio r...    88  0.54      1
+sp|Q9JJ89|CCD86_MOUSE Coiled-coil domain-containing prote...    89  0.54      1
+sp|Q499E4|DZI1L_MOUSE Zinc finger protein DZIP1L OS=Mus m...    92  0.55      1
+sp|P34618|CEC1_CAEEL Chromo domain-containing protein cec...    87  0.55      1
+sp|Q75JP5|Y2471_DICDI Calponin homology domain-containing...    95  0.55      2
+sp|Q1E1H4|NST1_COCIM Stress response protein NST1 OS=Cocc...    94  0.55      1
+sp|P05661|MYSA_DROME Myosin heavy chain, muscle OS=Drosop...    96  0.56      1
+sp|Q9UPA5|BSN_HUMAN Protein bassoon OS=Homo sapiens GN=BS...    98  0.56      2
+sp|Q55D99|PAKA_DICDI Serine/threonine-protein kinase pakA...    88  0.57      2
+sp|A5PKL7|LZTS2_BOVIN Leucine zipper putative tumor suppr...    91  0.57      1
+sp|Q7RWR8|CWC26_NEUCR Pre-mRNA-splicing factor cwc-26 OS=...    88  0.57      1
+sp|P35710|SOX5_MOUSE Transcription factor SOX-5 OS=Mus mu...    84  0.57      3
+sp|P24152|EXTN_SORBI Extensin OS=Sorghum bicolor GN=HRGP ...    75  0.58      2
+sp|Q9Z2Q8|FOS_CRIGR Proto-oncogene c-Fos OS=Cricetulus gr...    88  0.58      1
+sp|B4GIF2|EIF3J_DROPE Eukaryotic translation initiation f...    85  0.58      1
+sp|Q8I1E5|EIF3J_DROPS Eukaryotic translation initiation f...    85  0.58      1
+sp|Q9R269|PEPL_MOUSE Periplakin OS=Mus musculus GN=Ppl PE...    93  0.59      2
+sp|P35711|SOX5_HUMAN Transcription factor SOX-5 OS=Homo s...    82  0.59      3
+sp|Q9ZJP4|TONB_HELPJ Protein tonB OS=Helicobacter pylori ...    86  0.59      1
+sp|Q6NY15|TSG10_MOUSE Testis-specific gene 10 protein OS=...    91  0.59      1
+sp|Q9Y4D1|DAAM1_HUMAN Disheveled-associated activator of ...    93  0.59      1
+sp|P28741|KIF3A_MOUSE Kinesin-like protein KIF3A OS=Mus m...    91  0.59      1
+sp|Q9PTD7|CING_XENLA Cingulin OS=Xenopus laevis GN=cgn PE...    94  0.60      1
+sp|O94685|UCP8_SCHPO UBA domain-containing protein 8 OS=S...    92  0.60      1
+sp|P20482|CNC_DROME Segmentation protein cap'n'collar OS=...    94  0.60      1
+sp|P56095|AP1_KLULA AP-1-like transcription factor OS=Klu...    90  0.60      1
+sp|P51984|CREB_CHLVR Cyclic AMP-responsive element-bindin...    85  0.60      1
+sp|Q00969|ATF2_RAT Cyclic AMP-dependent transcription fac...    89  0.61      1
+sp|Q29GR8|MOEH_DROPS Moesin/ezrin/radixin homolog 1 OS=Dr...    90  0.61      1
+sp|Q10PR4|HSFA9_ORYSJ Heat stress transcription factor A-...    88  0.62      1
+sp|Q15642|CIP4_HUMAN Cdc42-interacting protein 4 OS=Homo ...    90  0.62      1
+sp|Q1LUE5|ZCH18_DANRE Zinc finger CCCH domain-containing ...    93  0.62      1
+sp|B0W6N3|EIF3A_CULQU Eukaryotic translation initiation f...    93  0.62      1
+sp|Q5XJV7|SETD5_MOUSE SET domain-containing protein 5 OS=...    94  0.62      1
+sp|B3EX63|CING_SORAR Cingulin OS=Sorex araneus GN=CGN PE=...    93  0.62      1
+sp|Q2UDY8|PAN1_ASPOR Actin cytoskeleton-regulatory comple...    94  0.63      1
+sp|Q5R7F9|MA7D2_PONAB MAP7 domain-containing protein 2 OS...    91  0.63      1
+sp|O88801|HOME2_RAT Homer protein homolog 2 OS=Rattus nor...    87  0.63      1
+sp|Q8R424|STABP_RAT STAM-binding protein OS=Rattus norveg...    88  0.63      1
+sp|Q6NS15|MED15_XENLA Mediator of RNA polymerase II trans...    91  0.64      1
+sp|Q6RFY2|PHAR3_RAT Phosphatase and actin regulator 3 OS=...    89  0.64      1
+sp|Q8C2B3|HDAC7_MOUSE Histone deacetylase 7 OS=Mus muscul...    71  0.64      2
+sp|Q54DE2|Y4323_DICDI Putative uncharacterized protein DD...    65  0.64      1
+sp|P41425|Y020_NPVAC Uncharacterized 8.0 kDa protein in E...    65  0.64      1
+sp|A3MZY9|ZAPB_ACTP2 Cell division protein zapB OS=Actino...    65  0.64      1
+sp|B3H152|ZAPB_ACTP7 Cell division protein zapB OS=Actino...    65  0.64      1
+sp|O88737|BSN_MOUSE Protein bassoon OS=Mus musculus GN=Bs...    98  0.64      1
+sp|B7GKC7|GRPE_ANOFW Protein grpE OS=Anoxybacillus flavit...    83  0.65      1
+sp|Q9CXK9|RBM33_MOUSE RNA-binding protein 33 OS=Mus muscu...    93  0.65      1
+sp|Q6CJZ6|MED2_KLULA Mediator of RNA polymerase II transc...    84  0.65      2
+sp|P14105|MYH9_CHICK Myosin-9 OS=Gallus gallus GN=MYH9 PE...    95  0.65      1
+sp|A1WLI3|IF2_VEREI Translation initiation factor IF-2 OS...    92  0.65      1
+sp|Q62736|CALD1_RAT Non-muscle caldesmon OS=Rattus norveg...    89  0.65      1
+sp|Q5F3P8|SET1B_CHICK Histone-lysine N-methyltransferase ...    95  0.66      1
+sp|Q96JK9|MAML3_HUMAN Mastermind-like protein 3 OS=Homo s...    96  0.66      2
+sp|Q5NVN6|CEP63_PONAB Centrosomal protein of 63 kDa OS=Po...    89  0.66      1
+sp|Q9ZKY5|PGBB_HELPJ Plasminogen-binding protein pgbB OS=...    89  0.66      1
+sp|P18850|ATF6A_HUMAN Cyclic AMP-dependent transcription ...    90  0.67      1
+sp|Q8N1L9|BATF2_HUMAN Basic leucine zipper transcriptiona...    85  0.67      1
+sp|Q9HD67|MYO10_HUMAN Myosin-X OS=Homo sapiens GN=MYO10 P...    95  0.67      1
+sp|Q0VF49|K2012_HUMAN Uncharacterized protein KIAA2012 OS...    89  0.67      1
+sp|Q9JM52|MINK1_MOUSE Misshapen-like kinase 1 OS=Mus musc...    93  0.67      1
+sp|Q90Z72|NFIL3_CHICK Nuclear factor interleukin-3-regula...    88  0.67      1
+sp|P23050|FOS_AVINK p55-v-Fos-transforming protein OS=Avi...    86  0.67      1
+sp|Q32PF6|DBP_BOVIN D site-binding protein OS=Bos taurus ...    86  0.68      1
+sp|Q10586|DBP_HUMAN D site-binding protein OS=Homo sapien...    86  0.68      1
+sp|Q60925|DBP_MOUSE D site-binding protein OS=Mus musculu...    86  0.68      1
+sp|P16443|DBP_RAT D site-binding protein OS=Rattus norveg...    86  0.68      1
+sp|Q66H89|CCD41_RAT Coiled-coil domain-containing protein...    90  0.68      1
+sp|Q54IE8|IRLE_DICDI Probable serine/threonine-protein ki...    93  0.68      1
+sp|B4RXT8|IF2_ALTMD Translation initiation factor IF-2 OS...    91  0.69      1
+sp|Q4R628|KIF3A_MACFA Kinesin-like protein KIF3A OS=Macac...    90  0.69      1
+sp|P46150|MOEH_DROME Moesin/ezrin/radixin homolog 1 OS=Dr...    89  0.69      1
+sp|A2QUR1|SFH5_ASPNC Phosphatidylinositol transfer protei...    88  0.69      1
+sp|P05411|JUN_AVIS1 Viral jun-transforming protein OS=Avi...    85  0.70      1
+sp|Q5ZIA2|MAP7_CHICK Ensconsin OS=Gallus gallus GN=MAP7 P...    90  0.70      1
+sp|Q09YM8|CTTB2_RABIT Cortactin-binding protein 2 OS=Oryc...    78  0.70      2
+sp|Q0CP15|NST1_ASPTN Stress response protein nst1 OS=Aspe...    92  0.70      1
+sp|A8MPH9|FOSLD_DROME Transcription factor kayak, isoform...    83  0.71      2
+sp|Q9QXS1|PLEC1_MOUSE Plectin-1 OS=Mus musculus GN=Plec1 ...    98  0.71      1
+sp|Q9WVE9|ITSN1_RAT Intersectin-1 OS=Rattus norvegicus GN...    97  0.71      2
+sp|A2QC41|MED21_ASPNC Mediator of RNA polymerase II trans...    82  0.71      1
+
+WARNING:  Descriptions of 665 database sequences were not reported due to the
+          limiting value of parameter V = 500.
+
+NOTE:  You might consider using a low-complexity sequence filter to reduce the
+       number of spurious matches that may be appearing in the output.  See
+       the filter and wordmask options at
+       http://blast.wustl.edu/blast/parameters.html#filter.
+
+
+>sp|Q1XGE2|HAC1_ASPOR Transcriptional activator hacA OS=Aspergillus oryzae
+            GN=hacA PE=2 SV=1
+        Length = 345
+
+ Score = 1765 (626.4 bits), Expect = 9.6e-182, P = 9.6e-182
+ Identities = 345/345 (100%), Positives = 345/345 (100%)
+
+Query:     1 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG 60
+             MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG
+Sbjct:     1 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWG 60
+
+Query:    61 QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ 120
+             QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ
+Sbjct:    61 QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ 120
+
+Query:   121 QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD 180
+             QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD
+Sbjct:   121 QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERD 180
+
+Query:   181 ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK 240
+             ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK
+Sbjct:   181 ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLK 240
+
+Query:   241 HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS 300
+             HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS
+Sbjct:   241 HHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDS 300
+
+Query:   301 EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 345
+             EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC
+Sbjct:   301 EPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAGC 345
+
+
+>sp|Q8TFU8|HAC1_EMENI Transcriptional activator hacA OS=Emericella nidulans
+            GN=hacA PE=2 SV=2
+        Length = 350
+
+ Score = 1348 (479.6 bits), Expect = 1.5e-137, P = 1.5e-137
+ Identities = 262/332 (78%), Positives = 293/332 (88%)
+
+Query:    13 DSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP 72
+             +SLP TP+ EVPVLTVSPADTSL + +V  Q  KPEEKKPAKKRKSWGQELPVPKTNLPP
+Sbjct:    18 NSLPTTPSLEVPVLTVSPADTSLQTKNVVAQ-TKPEEKKPAKKRKSWGQELPVPKTNLPP 76
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+             RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE+EKI MEQQNQFLLQRL+QM
+Sbjct:    77 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLESEKIDMEQQNQFLLQRLAQM 136
+
+Query:   133 EAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTP 192
+             EAENNRLSQQ+AQL+AEVRGSR +TP   SPA+ SPTLTPTLFKQE DE+PL+RIPFPTP
+Sbjct:   137 EAENNRLSQQVAQLSAEVRGSRHSTPTSSSPASVSPTLTPTLFKQEGDEVPLDRIPFPTP 196
+
+Query:   193 SLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLS 252
+             S++DYSPTLKPS+LAES D+ QHPAVSV GLEGD SAL LFDLG+ +KH  T D+ APLS
+Sbjct:   197 SVTDYSPTLKPSSLAESPDLTQHPAVSVGGLEGDESALTLFDLGASIKHEPTHDLTAPLS 256
+
+Query:   253 DDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIEMAH 312
+             DDDF RLF+GDSS+E DSS+ EDG AFDVL+ GDLSAFPFDSMV+FD+EPVTLE +E  +
+Sbjct:   257 DDDFRRLFNGDSSLESDSSLLEDGFAFDVLDSGDLSAFPFDSMVDFDTEPVTLEDLEQTN 316
+
+Query:   313 GLPDETTCKTSSVQPGFGASTTRCDGQGIAAG 344
+             GL D  +CK +S+QP  GAST+RCDGQGIAAG
+Sbjct:   317 GLSDSASCKAASLQPSHGASTSRCDGQGIAAG 348
+
+
+>sp|Q8TFF3|HAC1_TRIRE Transcriptional activator hac1 OS=Trichoderma reesei
+            GN=hac1 PE=2 SV=1
+        Length = 451
+
+ Score = 303 (111.7 bits), Expect = 1.8e-31, Sum P(2) = 1.8e-31
+ Identities = 88/209 (42%), Positives = 112/209 (53%)
+
+Query:     7 KTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP 66
+             + M + DS+ A   S + V+  S       S           EKKP KKRKSWGQ LP P
+Sbjct:    43 RDMMTPDSV-ADIDSRLSVIPESQDAEDDESHSTSATAPSTSEKKPVKKRKSWGQVLPEP 101
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLL 126
+             KTNLPPRKRAKTEDEKEQRR+ERVLRNR AAQ+SRERKRLE+E LE       ++N+ L 
+Sbjct:   102 KTNLPPRKRAKTEDEKEQRRVERVLRNRRAAQSSRERKRLEVEALE-------KRNKELE 154
+
+Query:   127 QRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLER 186
+               L  ++  N  L ++L +      G    +  P      S TL+  LF   RD   +  
+Sbjct:   155 TLLINVQKTNLILVEELNRFRRS-SGVVTRSSSPLDSLQDSITLSQQLFGS-RDGQTMSN 212
+
+Query:   187 IPFPTPSLSDY------SPTLKPSTLAES 209
+                P  SL D       +PT+ P++L+ S
+Sbjct:   213 ---PEQSLMDQIMRSAANPTVNPASLSPS 238
+
+ Score = 61 (26.5 bits), Expect = 1.8e-31, Sum P(2) = 1.8e-31
+ Identities = 25/95 (26%), Positives = 45/95 (47%)
+
+Query:   253 DDDFNRLFHGDSSV---EPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNFDSEPVTLEGIE 309
+             DDD+     GDS+     P  S ++  +   + +  + +A+   +  N+ +    L+ +E
+Sbjct:   361 DDDY---LAGDSAACFTNPLPSDYDFDINDFLTDDANHAAYDIVAASNYAAADRELD-LE 416
+
+Query:   310 MAHGLPDETTCKTSSVQPGFGASTTRCDGQGIAAG 344
+             + H   ++   + S  QP  GAS+  CD  GIA G
+Sbjct:   417 I-HDPENQIPSRHSIQQPQSGASSHGCDDGGIAVG 450
+
+
+>sp|P41546|HAC1_YEAST Transcriptional activator HAC1 OS=Saccharomyces
+            cerevisiae GN=HAC1 PE=1 SV=2
+        Length = 238
+
+ Score = 184 (69.8 bits), Expect = 9.3e-14, P = 9.3e-14
+ Identities = 69/214 (32%), Positives = 103/214 (48%)
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ-NQFL 125
+             K+ LPPRKRAKT++EKEQRRIER+LRNR AA  SRE+KRL ++ LE +   +E   N   
+Sbjct:    23 KSTLPPRKRAKTKEEKEQRRIERILRNRRAAHQSREKKRLHLQYLERKCSLLENLLNSVN 82
+
+Query:   126 LQRLSQME----AENNRLSQQLAQLA--AEVRGSRANTPMPGSPATASPTLTPTLFKQER 179
+             L++L+  E      ++     L +       RG+  +T    S  ++S T TP+      
+Sbjct:    83 LEKLADHEDALTCSHDAFVASLDEYRDFQSTRGASLDTR--ASSHSSSDTFTPS------ 134
+
+Query:   180 DELPLERIPFPTPSLSDYSPTLKPSTLAES-SDVAQHPAVSVAGLEG--DGSALPLFDLG 236
+                PL     P         TL P ++ +S SD      + +   E   + + LP  D  
+Sbjct:   135 ---PLNCTMEPA--------TLSPKSMRDSASDQETSWELQMFKTENVPESTTLPAVD-N 182
+
+Query:   237 SDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDS 270
+             ++L       +A PL DD        D+S++ D+
+Sbjct:   183 NNLFDAVASPLADPLCDDIAGNSLPFDNSIDLDN 216
+
+
+>sp|O24646|HY5_ARATH Transcription factor HY5 OS=Arabidopsis thaliana GN=HY5
+            PE=1 SV=1
+        Length = 168
+
+ Score = 170 (64.9 bits), Expect = 3.4e-12, P = 3.4e-12
+ Identities = 46/146 (31%), Positives = 69/146 (47%)
+
+Query:    10 SSVDSLPATPASEVPVLTVSP---ADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP 66
+             SS+ S     +S  P L +     +D  +        E   +E    +   + GQE    
+Sbjct:    12 SSLPSSSERSSSSAPHLEIKEGIESDEEIRRVPEFGGEAVGKETSGRESGSATGQERTQA 71
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLL 126
+                   RKR +T  EKE +R++R+LRNR +AQ +RERK+  + +LEN    +E +N  L 
+Sbjct:    72 TVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELENRVKDLENKNSELE 131
+
+Query:   127 QRLSQMEAENNRLSQQLAQLAAEVRG 152
+             +RLS ++ EN  L   L       RG
+Sbjct:   132 ERLSTLQNENQMLRHILKNTTGNKRG 157
+
+
+>sp|Q9SM50|HY5_SOLLC Transcription factor HY5 OS=Solanum lycopersicum GN=HY5
+            PE=2 SV=1
+        Length = 158
+
+ Score = 140 (54.3 bits), Expect = 7.0e-09, P = 7.0e-09
+ Identities = 35/95 (36%), Positives = 53/95 (55%)
+
+Query:    60 GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME 119
+             GQ  P   T    RKR ++  +KE +R++R+LRNR +AQ +RERK+  +  LE    ++E
+Sbjct:    66 GQAQPSAGTQ---RKRGRSPADKENKRLKRLLRNRVSAQQARERKKAYLIDLEARVKELE 122
+
+Query:   120 QQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+              +N  L +RLS ++ EN  L   L    A  +  R
+Sbjct:   123 TKNAELEERLSTLQNENQMLRHILKNTTAGAQEGR 157
+
+
+>sp|Q3SZZ2|XBP1_BOVIN X-box-binding protein 1 OS=Bos taurus GN=XBP1 PE=2 SV=1
+        Length = 261
+
+ Score = 150 (57.9 bits), Expect = 3.2e-08, P = 3.2e-08
+ Identities = 53/160 (33%), Positives = 81/160 (50%)
+
+Query:    60 GQELPVPK--TNLPP--RKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE 114
+             GQ+   P+  + +PP  RKR + T    E++ + R L+NR AAQT+R+RK+  M +LE +
+Sbjct:    42 GQQGASPEGASGVPPQARKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQ 101
+
+Query:   115 KIQMEQQNQFLL---QRLSQ----MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS 167
+              + +E++NQ LL   Q L +    +  EN  L Q+L  + A V    A T   G+   A 
+Sbjct:   102 VVDLEEENQKLLLENQLLREKTHGLVVENQELRQRLG-MDALVTEEEAETKGNGAGLVAG 160
+
+Query:   168 PTLTPTLFKQERDELPLERIPFPTPSLSDYSP-TLKPSTL 206
+                +  L    R   PL+++      L + SP TL   TL
+Sbjct:   161 SAESAAL----RLRAPLQQVQAQLSPLQNISPWTLMALTL 196
+
+
+>sp|P17861|XBP1_HUMAN X-box-binding protein 1 OS=Homo sapiens GN=XBP1 PE=1 SV=2
+        Length = 261
+
+ Score = 150 (57.9 bits), Expect = 3.2e-08, P = 3.2e-08
+ Identities = 55/186 (29%), Positives = 92/186 (49%)
+
+Query:    16 PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR 75
+             PA    +V +L+  PA  +   A      + P ++  + +  S G    +P+     RKR
+Sbjct:    10 PADGTPKVLLLSGQPASAAGAPAGQALPLMVPAQRGASPEAASGG----LPQA----RKR 61
+
+Query:    76 AK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLL---QRLSQ 131
+              + T    E++ + R L+NR AAQT+R+RK+  M +LE + + +E++NQ LL   Q L +
+Sbjct:    62 QRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQKLLLENQLLRE 121
+
+Query:   132 ----MEAENNRLSQQL------AQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDE 181
+                 +  EN  L Q+L      A+  AE +G+    P+ GS  +A+  L   L + +   
+Sbjct:   122 KTHGLVVENQELRQRLGMDALVAEEEAEAKGNEVR-PVAGSAESAALRLRAPLQQVQAQL 180
+
+Query:   182 LPLERI 187
+              PL+ I
+Sbjct:   181 SPLQNI 186
+
+
+>sp|A1L224|CR3L2_DANRE Cyclic AMP-responsive element-binding protein 3-like
+            protein 2 OS=Danio rerio GN=creb3l2 PE=2 SV=1
+        Length = 519
+
+ Score = 156 (60.0 bits), Expect = 3.7e-08, P = 3.7e-08
+ Identities = 51/156 (32%), Positives = 78/156 (50%)
+
+Query:     4 DMEKTMSSVDSL-PATPASEVPVLTVSP-ADTSLNSADVKTQEVKPEEKKPA-----KKR 56
+             D E + S V    PA+P     VL V+P A +SL+S+ + T   K +   P      +KR
+Sbjct:   210 DSEGSQSPVHPCAPASPTQTPAVLKVAPRAPSSLSSSPLLTAPHKLQGSGPLLLTEEEKR 269
+
+Query:    57 KSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKI 116
+                 +  PVP T LP  K     +EK  ++I R ++N+ +AQ SR +K+  ++ LE +  
+Sbjct:   270 TLIAEGYPVP-TKLPLSKA----EEKALKKIRRKIKNKISAQESRRKKKEYVDALEKKVE 324
+
+Query:   117 QMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG 152
+                 +N  L +++  +E  N  L QQL  L A V G
+Sbjct:   325 TCSNENHELRRKVENLECTNKSLLQQLHSLQAVVAG 360
+
+
+>sp|Q8W191|HYH_ARATH Transcription factor HY5-like OS=Arabidopsis thaliana
+            GN=HYH PE=1 SV=1
+        Length = 149
+
+ Score = 127 (49.8 bits), Expect = 1.9e-07, P = 1.9e-07
+ Identities = 25/71 (35%), Positives = 45/71 (63%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+             R+R +   +KE R ++R+LRNR +AQ +RERK++ +  LE+   +++  N  L +++S +
+Sbjct:    68 RRRGRNPVDKEYRSLKRLLRNRVSAQQARERKKVYVSDLESRANELQNNNDQLEEKISTL 127
+
+Query:   133 EAENNRLSQQL 143
+               EN  L + L
+Sbjct:   128 TNENTMLRKML 138
+
+
+>sp|A3LYI0|NST1_PICST Stress response protein NST1 OS=Pichia stipitis GN=NST1
+            PE=3 SV=2
+        Length = 1234
+
+ Score = 148 (57.2 bits), Expect = 9.6e-07, P = 9.6e-07
+ Identities = 57/195 (29%), Positives = 95/195 (48%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             + +E+K +E++  KK ++  ++    K  L   ++ K E+E++++  E+  +     Q  
+Sbjct:   727 RIEELKRKEEEHKKKVEAQQKKEEEAK-KLKEERKKKAEEERKKKEEEKRQKELLKKQKE 785
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+              ER+RL++E  ENE+++ EQQ       L +++   N+L  + AQL AE+     N    
+Sbjct:   786 EERERLKLEAEENERLEKEQQE------LQELQESQNQLELESAQLPAEL-AEEINA--- 835
+
+Query:   161 GSPATASPTLTPTLFKQERDELPLERIPFPT---PSLSDYSPTLKPSTLAESSDVAQ--- 214
+              SP + SPT    L +Q     P   +  PT   P +  ++P   P   A SS V     
+Sbjct:   836 -SPDSFSPTKNH-LLEQLYQARP-SSVSGPTTISPPIQ-FTPEAVPPVAAVSSVVPSVVP 891
+
+Query:   215 -HPAVSVAGLEGDGS 228
+               PA+S A L G GS
+Sbjct:   892 ISPALSGAILNGTGS 906
+
+ Score = 102 (41.0 bits), Expect = 0.11, P = 0.10
+ Identities = 43/168 (25%), Positives = 78/168 (46%)
+
+Query:    40 VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT 99
+             V+ Q+ K EE K  K+ +    E    K     R++   + +KE+ R ER L+  A    
+Sbjct:   742 VEAQQKKEEEAKKLKEERKKKAEEERKKKEEEKRQKELLKKQKEEER-ER-LKLEAEENE 799
+
+Query:   100 SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ-MEAENNRLSQQLAQLAAEVRGSRANTP 158
+               E+++ E+++L+  + Q+E ++  L   L++ + A  +  S     L  ++  +R ++ 
+Sbjct:   800 RLEKEQQELQELQESQNQLELESAQLPAELAEEINASPDSFSPTKNHLLEQLYQARPSS- 858
+
+Query:   159 MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL 206
+             + G P T SP   P  F  E    P+  +    PS+   SP L  + L
+Sbjct:   859 VSG-PTTISP---PIQFTPEAVP-PVAAVSSVVPSVVPISPALSGAIL 901
+
+
+>sp|Q70SY1|CR3L2_HUMAN Cyclic AMP-responsive element-binding protein 3-like
+            protein 2 OS=Homo sapiens GN=CREB3L2 PE=1 SV=2
+        Length = 520
+
+ Score = 136 (52.9 bits), Expect = 6.4e-06, P = 6.4e-06
+ Identities = 44/146 (30%), Positives = 70/146 (47%)
+
+Query:    14 SLPAT--PASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP 71
+             SLP T  P+   P    + + + L +A  K Q   P      +KR    +  P+P T LP
+Sbjct:   228 SLPQTHSPSRAAPRAPSALSSSPLLTAPHKLQGSGPLVLTEEEKRTLIAEGYPIP-TKLP 286
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+               K     +EK  ++I R ++N+ +AQ SR +K+  M+ LE +      +N  L +++  
+Sbjct:   287 LSK----SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEV 342
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANT 157
+             +E  N  L QQL +L   V G  + T
+Sbjct:   343 LENTNRTLLQQLQKLQTLVMGKVSRT 368
+
+
+>sp|Q5RCM9|CR3L2_PONAB Cyclic AMP-responsive element-binding protein 3-like
+            protein 2 OS=Pongo abelii GN=CREB3L2 PE=2 SV=1
+        Length = 520
+
+ Score = 136 (52.9 bits), Expect = 6.4e-06, P = 6.4e-06
+ Identities = 44/146 (30%), Positives = 70/146 (47%)
+
+Query:    14 SLPAT--PASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP 71
+             SLP T  P+   P    + + + L +A  K Q   P      +KR    +  P+P T LP
+Sbjct:   228 SLPQTHSPSRAAPRAPSALSSSPLLTAPHKLQGSGPLVLTEEEKRTLIAEGYPIP-TKLP 286
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+               K     +EK  ++I R ++N+ +AQ SR +K+  M+ LE +      +N  L +++  
+Sbjct:   287 LTK----SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEV 342
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANT 157
+             +E  N  L QQL +L   V G  + T
+Sbjct:   343 LENTNRTLLQQLQKLQTLVMGKVSRT 368
+
+
+>sp|Q8BH52|CR3L2_MOUSE Cyclic AMP-responsive element-binding protein 3-like
+            protein 2 OS=Mus musculus GN=Creb3l2 PE=2 SV=1
+        Length = 521
+
+ Score = 136 (52.9 bits), Expect = 6.5e-06, P = 6.5e-06
+ Identities = 71/291 (24%), Positives = 120/291 (41%)
+
+Query:    18 TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK 77
+             +PA  +P    + + + L +A  K Q   P      +KR    +  P+P T LP  K   
+Sbjct:   234 SPARAMPRGPSALSTSPLLTAPHKLQGSGPLVLTEEEKRTLVAEGYPIP-TKLPLTK--- 289
+
+Query:    78 TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN 137
+               +EK  ++I R ++N+ +AQ SR +K+  M+ LE +      +N  L +++  +E  N 
+Sbjct:   290 -SEEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNR 348
+
+Query:   138 RLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTL-FKQERDELPLERIPFPTPS--- 193
+              L QQL +L   V G  + T       T +  +   L F            P+P+ +   
+Sbjct:   349 TLLQQLQKLQTLVMGKVSRTCKLAGTQTGTCLMVVVLCFAVAFGSFFQGYGPYPSATKMA 408
+
+Query:   194 LSDYSPTLKPST--LAESSDVA---QHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVA 248
+             L    P  +P T  +  S ++    +H  +  +        L  +D GS L   S+   A
+Sbjct:   409 LPSQHPLSEPYTASVVRSRNLLIYEEHAPLEESSSPASAGELGGWDRGSSLLRASSGLEA 468
+
+Query:   249 APLSDDDFNRLFHGDSSVEPDSSV-FEDGLAFDVLEGGD-LSAFPFDSMVN 297
+              P  D   + L   ++S+E    +  +  L    LEG + L     +  VN
+Sbjct:   469 LPEVDLP-HFLISNETSLEKSVLLELQQHLVSSKLEGNETLKVVELERRVN 518
+
+
+>sp|Q61817|CREB3_MOUSE Cyclic AMP-responsive element-binding protein 3 OS=Mus
+            musculus GN=Creb3 PE=2 SV=2
+        Length = 404
+
+ Score = 132 (51.5 bits), Expect = 1.2e-05, P = 1.2e-05
+ Identities = 54/194 (27%), Positives = 90/194 (46%)
+
+Query:    26 LTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQR 85
+             +T  P +      ++    +  EEKK  +K     + L +P T LP  K     +E+  +
+Sbjct:   138 VTPLPGEERAAEQEMSRLILTEEEKKLLEK-----EGLTLPST-LPLTK----VEEQVLK 187
+
+Query:    86 RIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQ 145
+             R+ R +RN+ AAQ SR++K++ +  LE+  ++   QN+ L  ++ ++E +N  L  QL +
+Sbjct:   188 RVRRKIRNKRAAQESRKKKKVYVVGLESRVLKYTAQNRELQNKVQRLEEQNLSLLDQLRK 247
+
+Query:   146 LAAEVRGSRANTPMPGSPATASPT------LTPTLFKQE-RDELPLERIPF-----PTPS 193
+             L A V    AN    GS             L P ++  + R  +P E +         PS
+Sbjct:   248 LQAMVI-EIANKTSSGSTCVLVLVFSFCLLLVPAMYSSDARGSVPAEYVVLHRKLRALPS 306
+
+Query:   194 LSDYSPTLKPSTLA 207
+               D+ P  KPS L+
+Sbjct:   307 EDDHQP--KPSALS 318
+
+
+>sp|A2VD01|CR3L2_XENLA Cyclic AMP-responsive element-binding protein 3-like
+            protein 2 OS=Xenopus laevis GN=creb3l2 PE=2 SV=1
+        Length = 525
+
+ Score = 133 (51.9 bits), Expect = 1.4e-05, P = 1.4e-05
+ Identities = 45/156 (28%), Positives = 77/156 (49%)
+
+Query:     4 DMEKTMSSVDSLP-ATPA-SEVPVLTVSPADTSLNSADVKTQEVKPEEKKPA-----KKR 56
+             D E   S   SLP ++P  S+      + + ++L+++ + T   K +   P      +KR
+Sbjct:   218 DSEGGQSPTRSLPPSSPVQSQAGGKMAARSPSALSNSPLLTAPHKLQGSGPLMLTEEEKR 277
+
+Query:    57 KSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKI 116
+                 +  P+P T LP  K     +EK  ++I R ++N+ +AQ SR +K+  M+ LE    
+Sbjct:   278 TLVAEGYPIP-TKLPLTKA----EEKALKKIRRKIKNKISAQESRRKKKEYMDSLEKRVE 332
+
+Query:   117 QMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG 152
+                 +N  L +++  +E+ N  L QQL +L A V G
+Sbjct:   333 NSSSENSELRKKVEVLESTNRTLLQQLQRLQAMVTG 368
+
+
+>sp|Q66HA2|CR3L1_RAT Cyclic AMP-responsive element-binding protein 3-like
+            protein 1 OS=Rattus norvegicus GN=Creb3l1 PE=2 SV=1
+        Length = 520
+
+ Score = 131 (51.2 bits), Expect = 2.3e-05, P = 2.3e-05
+ Identities = 68/222 (30%), Positives = 102/222 (45%)
+
+Query:    14 SLPATPASEV-PVLTVSPA-DTS-LNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTN 69
+             SLP  P+S V P+   S A  TS L +A  K Q    P      +KR    +  P+P T 
+Sbjct:   223 SLP--PSSPVRPMARSSTAISTSPLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TK 279
+
+Query:    70 LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             LP  K     +EK  +R+ R ++N+ +AQ SR +K+  +E LE +      +N  L +++
+Sbjct:   280 LPLTKA----EEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETYTSENNELWKKV 335
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF 189
+               +E  N  L QQL +L   V  S+ + P       A+ T T  +       L L  +  
+Sbjct:   336 ETLETANRTLLQQLQKLQTLVT-SKISRPYK---MAATQTGTCLMVAALCFVLVLGSLAP 391
+
+Query:   190 PTPSLSDYSPTLKPSTLAESSDVA--QHPAVSVAGLE-GDGS 228
+               P+ S  S T+K   +A  S  A  Q P+ S+   + G GS
+Sbjct:   392 CLPAFSSGSKTVKEDPVAADSVYAASQMPSRSLLFYDDGAGS 433
+
+
+>sp|Q54WN7|BZPF_DICDI Probable basic-leucine zipper transcription factor F
+            OS=Dictyostelium discoideum GN=bzpF PE=3 SV=1
+        Length = 631
+
+ Score = 132 (51.5 bits), Expect = 2.4e-05, P = 2.4e-05
+ Identities = 57/233 (24%), Positives = 101/233 (43%)
+
+Query:    46 KPEEKKPAKKRKSWGQELPVPKTN----LPPRKRA--KTEDEKEQRRIERVLRNRAAAQT 99
+             K EE K  KKRK +    PV   N    L P        ++E+ Q+R  R+++NR AAQ 
+Sbjct:   363 KKEEDKSIKKRK-FISSTPVKGENGGTTLIPTTDGGFNMDEERHQKRQRRLVKNREAAQL 421
+
+Query:   100 SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA-NTP 158
+              R+R++  ++ LE +   +   N     R+  + +EN  + +QL  L   V  + + + P
+Sbjct:   422 FRQRQKAYIQDLEKKVSDLTGTNSEFRARVELLNSENKLIREQLLYLRNFVTQAVSFSFP 481
+
+Query:   159 MPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAV 218
+               GS  T SP+     F        L   P P   L        P  ++  ++ A   + 
+Sbjct:   482 KGGSNGTNSPSGVADQFLNSILPPGLNS-PLPQGILPAGMNLQNPMIMSAIAEAASKNST 540
+
+Query:   219 SVAGLEGDGSALPLFDLGSDLKHHSTDDVA-APLSDDDFNRLFHGDSSVEPDS 270
+                 ++G+    P+    S L  +S ++    PL++++ N   + +++  P S
+Sbjct:   541 FRQNIQGNLLGTPIPSPQSSLTSNSGNNSPNKPLNNNNNNNNINNNNNNNPSS 593
+
+
+>sp|Q9Z125|CR3L1_MOUSE Cyclic AMP-responsive element-binding protein 3-like
+            protein 1 OS=Mus musculus GN=Creb3l1 PE=2 SV=2
+        Length = 519
+
+ Score = 130 (50.8 bits), Expect = 3.0e-05, P = 3.0e-05
+ Identities = 68/222 (30%), Positives = 102/222 (45%)
+
+Query:    14 SLPATPASEV-PVLTVSPA-DTS-LNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTN 69
+             SLP  P+S V P+   S A  TS L +A  K Q    P      +KR    +  P+P T 
+Sbjct:   224 SLP--PSSPVRPMARSSTAISTSPLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TK 280
+
+Query:    70 LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             LP  K     +EK  +R+ R ++N+ +AQ SR +K+  +E LE +      +N  L +++
+Sbjct:   281 LPLTKA----EEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETYTSENNELWKKV 336
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF 189
+               +E  N  L QQL +L   V  S+ + P       A+ T T  +       L L  +  
+Sbjct:   337 ETLETANRTLLQQLQKLQTLVT-SKISRPYK---MAATQTGTCLMVAALCFVLVLGSLVP 392
+
+Query:   190 PTPSLSDYSPTLKPSTLAESSDVA--QHPAVSVAGLE-GDGS 228
+               P+ S  S T+K   +A  S  A  Q P+ S+   + G GS
+Sbjct:   393 CLPAFSSGSMTVKEDPIAADSVYAASQMPSRSLLFYDDGAGS 434
+
+
+>sp|Q9NR55|BATF3_HUMAN Basic leucine zipper transcriptional factor ATF-like 3
+            OS=Homo sapiens GN=BATF3 PE=1 SV=1
+        Length = 127
+
+ Score = 104 (41.7 bits), Expect = 6.0e-05, P = 6.0e-05
+ Identities = 22/77 (28%), Positives = 42/77 (54%)
+
+Query:    69 NLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQR 128
+             N P  +  +   E + R++ R  +NR AAQ SR+++  + +KL  E   +EQ+N  L + 
+Sbjct:    21 NQPQPQPQQQSPEDDDRKVRRREKNRVAAQRSRKKQTQKADKLHEEYESLEQENTMLRRE 80
+
+Query:   129 LSQMEAENNRLSQQLAQ 145
+             + ++  E   L++ L +
+Sbjct:    81 IGKLTEELKHLTEALKE 97
+
+
+>sp|Q9D275|BATF3_MOUSE Basic leucine zipper transcriptional factor ATF-like 3
+            OS=Mus musculus GN=Batf3 PE=2 SV=1
+        Length = 118
+
+ Score = 104 (41.7 bits), Expect = 6.0e-05, P = 6.0e-05
+ Identities = 21/63 (33%), Positives = 39/63 (61%)
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             + R++ R  +NR AAQ SR+++  + +KL  E   +EQ+N  L + +S+++ E   LS+ 
+Sbjct:    28 DDRKVRRREKNRVAAQRSRKKQTQKADKLHEEHESLEQENSVLRREISKLKEELRHLSEV 87
+
+Query:   143 LAQ 145
+             L +
+Sbjct:    88 LKE 90
+
+
+>sp|Q96BA8|CR3L1_HUMAN Cyclic AMP-responsive element-binding protein 3-like
+            protein 1 OS=Homo sapiens GN=CREB3L1 PE=1 SV=1
+        Length = 519
+
+ Score = 127 (49.8 bits), Expect = 6.4e-05, P = 6.4e-05
+ Identities = 66/223 (29%), Positives = 101/223 (45%)
+
+Query:    14 SLPATPASEV-PVLTVSPA-DTS-LNSADVKTQEVK-PEEKKPAKKRKSWGQELPVPKTN 69
+             SLP  P+S V P+   S A  TS L +A  K Q    P      +KR    +  P+P T 
+Sbjct:   224 SLP--PSSPVRPMARSSTAISTSPLLTAPHKLQGTSGPLLLTEEEKRTLIAEGYPIP-TK 280
+
+Query:    70 LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             LP  K     +EK  +R+ R ++N+ +AQ SR +K+  +E LE +      +N  L +++
+Sbjct:   281 LPLTKA----EEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETFTSENNELWKKV 336
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF 189
+               +E  N  L QQL +L   V  ++ + P       A+ T T  +       L L  +  
+Sbjct:   337 ETLENANRTLLQQLQKLQTLVT-NKISRPYK---MAATQTGTCLMVAALCFVLVLGSLVP 392
+
+Query:   190 PTPSLSDYSPTLKPSTLAESS--DVAQHPAVSVAGLEGDGSAL 230
+               P  S  S T+K   LA       +Q P+ S+   + DG+ L
+Sbjct:   393 CLPEFSSGSQTVKEDPLAADGVYTASQMPSRSLLFYD-DGAGL 434
+
+
+>sp|O88778|BSN_RAT Protein bassoon OS=Rattus norvegicus GN=Bsn PE=1 SV=3
+        Length = 3938
+
+ Score = 136 (52.9 bits), Expect = 7.2e-05, P = 7.2e-05
+ Identities = 59/227 (25%), Positives = 102/227 (44%)
+
+Query:    15 LPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRK 74
+             LPA  A E P+ T +P    +  A V      P  +KPA    + G    V    +  ++
+Sbjct:  2294 LPAGGAREEPLSTTAPPAV-IKEAPVAQAPAPPPGQKPAGDAAA-GSGSGVLGRPVMEKE 2351
+
+Query:    75 RAKTEDE--KEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME---QQNQFLLQR- 128
+              A  ED   K+Q ++ ++ R R   +  R+  RL+ E+LE E+++++   ++ Q L+QR 
+Sbjct:  2352 EASQEDRQRKQQEQLLQLERERVELEKLRQL-RLQ-EELERERVELQRHREEEQLLVQRE 2409
+
+Query:   129 LSQMEA-ENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERI 187
+             L +++  +++ L QQ  +  A+    R               L   L +Q  ++   ++ 
+Sbjct:  2410 LQELQTIKHHVLQQQQEERQAQFALQREQLAQQRLQLEQIQQLQQQLQQQLEEQKQRQKA 2469
+
+Query:   188 PFP-TPSLSDYSPTLKPSTLAESSDV---AQHPA-VSVAGLEGDGSA 229
+             PFP T       P    + LA++        H A ++VAG EG G A
+Sbjct:  2470 PFPATCEAPSRGPPPAATELAQNGQYWPPLTHTAFIAVAGTEGPGQA 2516
+
+ Score = 111 (44.1 bits), Expect = 0.039, P = 0.039
+ Identities = 47/191 (24%), Positives = 87/191 (45%)
+
+Query:    12 VDSLPATPASEVPVLTVSPADTS--LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTN 69
+             V   PA P  + P    +    S  L    ++ +E   E+++  +K++    +L   +  
+Sbjct:  2318 VAQAPAPPPGQKPAGDAAAGSGSGVLGRPVMEKEEASQEDRQ--RKQQEQLLQLERERVE 2375
+
+Query:    70 LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ---QNQFLL 126
+             L   ++ + ++E E+ R+E + R+R   Q   +R+  E++ +++  +Q +Q   Q QF L
+Sbjct:  2376 LEKLRQLRLQEELERERVE-LQRHREEEQLLVQRELQELQTIKHHVLQQQQEERQAQFAL 2434
+
+Query:   127 QR--LSQ--MEAEN-NRLSQQLAQLAAEVRGSRANTPMPGS---PATASPTLTPTLFKQE 178
+             QR  L+Q  ++ E   +L QQL Q   E +  R   P P +   P+   P     L +  
+Sbjct:  2435 QREQLAQQRLQLEQIQQLQQQLQQQLEEQK-QRQKAPFPATCEAPSRGPPPAATELAQNG 2493
+
+Query:   179 RDELPLERIPF 189
+             +   PL    F
+Sbjct:  2494 QYWPPLTHTAF 2504
+
+
+>sp|Q6QDP7|CR3L2_RAT Cyclic AMP-responsive element-binding protein 3-like
+            protein 2 OS=Rattus norvegicus GN=Creb3l2 PE=2 SV=1
+        Length = 521
+
+ Score = 125 (49.1 bits), Expect = 0.00011, P = 0.00011
+ Identities = 41/130 (31%), Positives = 63/130 (48%)
+
+Query:    29 SPADTS-LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRI 87
+             S   TS L +A  K Q   P      +KR    +  P+P T LP  K     +EK  ++I
+Sbjct:   244 SALSTSPLLTAPHKLQGSGPLVLTEEEKRTLIAEGYPIP-TKLPLTK----SEEKALKKI 298
+
+Query:    88 ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA 147
+              R ++N+ +AQ SR +K+  M+ LE +      +N  L +++  +E  N  L QQL +L 
+Sbjct:   299 RRKIKNKISAQESRRKKKEYMDSLEKKVESCSTENLELRKKVEVLENTNRTLLQQLQKLQ 358
+
+Query:   148 AEVRGSRANT 157
+               V G  + T
+Sbjct:   359 TLVMGKVSRT 368
+
+
+>sp|Q9WVS8|MK07_MOUSE Mitogen-activated protein kinase 7 OS=Mus musculus
+            GN=Mapk7 PE=1 SV=1
+        Length = 806
+
+ Score = 127 (49.8 bits), Expect = 0.00012, P = 0.00012
+ Identities = 71/258 (27%), Positives = 109/258 (42%)
+
+Query:     3 CDMEKTMSSVDSLP--ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR---K 57
+             C ME   S   +LP  + PA +   LT+ PA  +   A  K +    +  K A K    K
+Sbjct:   429 CAME---SPPPALPPCSDPAPDTVDLTLQPAPPASELAPPKREGAISDNTKAALKAALLK 485
+
+Query:    58 SWGQEL---PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE 114
+             S    L   P      P  ++  T  E+++ R E+  R +  A+  RE++R E E+ E  
+Sbjct:   486 SLRSRLRDGPSAPLEAPEPRKPVTAQERQREREEKRRRRQERAK-EREKRRQERERKERG 544
+
+Query:   115 KIQMEQQNQFLLQRLSQMEAENNR-LSQQLAQLAAEVRGSRANTPMPG-SPATASPTLTP 172
+                +   +   L  L  + ++N+R L ++  ++A     + A  P P  +P++A PT TP
+Sbjct:   545 AGTLGGPSTDPLAGL--VLSDNDRSLLERWTRMARPPAPAPAPAPAPAPAPSSAQPTSTP 602
+
+Query:   173 T-LFKQERDEL-PLERIPFPT--PSLSDYSPTLKPS--------TLAESSDVAQHPAVSV 220
+             T    Q    L P   IP P   P      P  +P+        T   +S +A    V  
+Sbjct:   603 TGPVSQSTGPLQPAGSIPGPASQPVCPPPGPVPQPAGPIPAPLQTAPSTSLLASQSLVPP 662
+
+Query:   221 AGLEGDGS--ALPLFDLG 236
+             +GL G G+   LP F  G
+Sbjct:   663 SGLPGSGAPEVLPYFPSG 680
+
+
+>sp|Q08CW8|CR3L4_XENTR Cyclic AMP-responsive element-binding protein 3-like
+            protein 4 OS=Xenopus tropicalis GN=creb3l4 PE=2 SV=1
+        Length = 428
+
+ Score = 123 (48.4 bits), Expect = 0.00013, P = 0.00013
+ Identities = 36/129 (27%), Positives = 63/129 (48%)
+
+Query:    24 PVLTVSPADTSLNSAD-VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK 82
+             PV   +P    L  AD +    + PE     ++++   QE      NLP  K     +E+
+Sbjct:   160 PVCKSTPLPIRLTPADLIAVDALYPELHLTEEEKRLLSQEGVALPNNLPLTKA----EER 215
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+               +++ R +RN+ +AQ SR RK+  ++ LE+       QNQ L +++ ++E  N  L  Q
+Sbjct:   216 ILKKVRRKIRNKQSAQDSRRRKKEYIDGLESRVAACSSQNQELHKKVVELEKHNISLITQ 275
+
+Query:   143 LAQLAAEVR 151
+             L +L   ++
+Sbjct:   276 LRKLQTLIK 284
+
+
+>sp|Q16520|BATF_HUMAN Basic leucine zipper transcriptional factor ATF-like
+            OS=Homo sapiens GN=BATF PE=1 SV=1
+        Length = 125
+
+ Score = 100 (40.3 bits), Expect = 0.00016, P = 0.00016
+ Identities = 28/90 (31%), Positives = 45/90 (50%)
+
+Query:    71 PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS 130
+             PP K+  ++D    RR++R  +NR AAQ SR+R+  + + L  E   +E+QN  L + + 
+Sbjct:    17 PPGKQDSSDDV---RRVQRREKNRIAAQKSRQRQTQKADTLHLESEDLEKQNAALRKEIK 73
+
+Query:   131 QMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+             Q+  E    +  L           A+TP P
+Sbjct:    74 QLTEELKYFTSVLNSHEPLCSVLAASTPSP 103
+
+
+>sp|Q9D2A5|CR3L4_MOUSE Cyclic AMP-responsive element-binding protein 3-like
+            protein 4 OS=Mus musculus GN=Creb3l4 PE=1 SV=1
+        Length = 370
+
+ Score = 121 (47.7 bits), Expect = 0.00017, P = 0.00017
+ Identities = 41/138 (29%), Positives = 68/138 (49%)
+
+Query:    18 TPASEVP-VLTVS--PADTSLNSAD-VKTQEVKPEEKKPAKKRKSW-----GQELPVPKT 68
+             TPA  VP   TVS  P+D+  +    V T+   P    P+ +   +      Q L     
+Sbjct:   119 TPALMVPDACTVSGLPSDSHRHILPRVSTRAPAPPAAMPSCQHHLFLTDEEKQLLAQEGI 178
+
+Query:    69 NLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQR 128
+              LP        +E+  ++I R +RN+ +AQ SR RK+  ++ LE+      +QNQ L ++
+Sbjct:   179 TLPSHLPLTKAEERILKKIRRKIRNKQSAQDSRRRKKEYLDGLESRVAACSEQNQKLQRK 238
+
+Query:   129 LSQMEAENNRLSQQLAQL 146
+             + ++E +N  L +Q+ QL
+Sbjct:   239 VQELERQNIFLMEQVRQL 256
+
+ Score = 92 (37.4 bits), Expect = 0.30, P = 0.26
+ Identities = 27/90 (30%), Positives = 49/90 (54%)
+
+Query:    70 LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE---------NEKIQ--- 117
+             LP        +E+  ++I R +RN+ +AQ SR RK+  ++ LE         N+K+Q   
+Sbjct:   180 LPSHLPLTKAEERILKKIRRKIRNKQSAQDSRRRKKEYLDGLESRVAACSEQNQKLQRKV 239
+
+Query:   118 --MEQQNQFLLQRLSQMEAENNRLSQQLAQ 145
+               +E+QN FL++++ Q++    + S + AQ
+Sbjct:   240 QELERQNIFLMEQVRQLQKLTAQTSSRAAQ 269
+
+
+>sp|Q99090|CPRF2_PETCR Light-inducible protein CPRF2 OS=Petroselinum crispum
+            GN=CPRF2 PE=2 SV=2
+        Length = 401
+
+ Score = 121 (47.7 bits), Expect = 0.00020, P = 0.00020
+ Identities = 30/103 (29%), Positives = 50/103 (48%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             D  + +R+ R+L NR +A+ SR RK+  M +LE +  Q+  +N  LL+RL+ +    N  
+Sbjct:   195 DPSDAKRVRRMLSNRESARRSRRRKQAHMTELETQVSQLRVENSSLLKRLTDISQRYNDA 254
+
+Query:   140 SQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDEL 182
+             +     L A++   RA   M          L P +F+    E+
+Sbjct:   255 AVDNRVLKADIETMRAKVKMAEETVKRVTGLNP-MFQSMSSEI 296
+
+
+>sp|P97876|BATF3_RAT Basic leucine zipper transcriptional factor ATF-like 3
+            OS=Rattus norvegicus GN=Batf3 PE=1 SV=1
+        Length = 133
+
+ Score = 99 (39.9 bits), Expect = 0.00021, P = 0.00021
+ Identities = 19/63 (30%), Positives = 39/63 (61%)
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             + R++ R  +NR AAQ SR+++  + +KL  E   +EQ+N  L + +++++ E   L++ 
+Sbjct:    28 DDRKVRRREKNRVAAQRSRKKQTQKSDKLHEEHESLEQENSVLRREIAKLKEELRHLTEA 87
+
+Query:   143 LAQ 145
+             L +
+Sbjct:    88 LKE 90
+
+
+>sp|Q5B3C8|NST1_EMENI Stress response protein nst1 OS=Emericella nidulans
+            GN=nst1 PE=3 SV=1
+        Length = 1125
+
+ Score = 125 (49.1 bits), Expect = 0.00029, P = 0.00029
+ Identities = 60/227 (26%), Positives = 99/227 (43%)
+
+Query:    31 ADTSLNSADVKT-QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER 89
+             A  +   A  K  QE K EE++  K+ +   +E    +      +RA+ E EK +R  E 
+Sbjct:   515 AQKAAEEAAAKAEQERKLEEQRKKKEEQRKKREA---ERKAQEEERARKEAEKHKRLREE 571
+
+Query:    90 VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA---QL 146
+               R   A +  RE+K  E ++ E  K + E++ + L ++ ++ E E     +Q     + 
+Sbjct:   572 RERQEEAERRQREQKEQEKKRREEAK-RKEREERELREQKAKQERERKAQDEQSRRERER 630
+
+Query:   147 AAEVRGSRANTPMPGSPATASP-TLTPTLFKQERDELPLE-RIPFPTPSLSDYSPTLKPS 204
+              A+ +  RA    P SP +  P + TP + K      P + R P    S S  SP  + S
+Sbjct:   631 VAQEQAKRAPNLQPVSPVSPPPESATPVVSKAPT---PAKGRRPSQQGSHSS-SPRSQ-S 685
+
+Query:   205 TLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPL 251
+               AE+S V+   A      +  GS++P +  G  + H       +PL
+Sbjct:   686 ASAEASQVSPRSAPLS---QSSGSSIPKYGSGHPILHPHPGAPMSPL 729
+
+
+>sp|Q91XE9|CR3L3_MOUSE Cyclic AMP-responsive element-binding protein 3-like
+            protein 3 OS=Mus musculus GN=Creb3l3 PE=2 SV=1
+        Length = 479
+
+ Score = 115 (45.5 bits), Expect = 0.00030, Sum P(2) = 0.00030
+ Identities = 38/115 (33%), Positives = 59/115 (51%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             +EKK   K    G  LP   T LP  K     +E+  ++I R +RN+ +AQ SR++K+  
+Sbjct:   214 DEKKLLAKE---GVTLP---TQLPLTKY----EERVLKKIRRKIRNKQSAQESRKKKKEY 263
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS 162
+             ++ LEN       QNQ L +++  +E +N  L +QL  L A V  S +     G+
+Sbjct:   264 IDGLENRMSACTAQNQELQRKVLHLEKQNLSLLEQLKHLQALVVQSTSKPAHAGT 318
+
+ Score = 47 (21.6 bits), Expect = 0.00030, Sum P(2) = 0.00030
+ Identities = 12/42 (28%), Positives = 19/42 (45%)
+
+Query:    15 LPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR 56
+             LP+TP  E P   V  +  +++     T  + PEE   +  R
+Sbjct:   130 LPSTPCPEPPRTQVQESSVAIDLDMWSTDTLYPEEPAGSPSR 171
+
+
+>sp|Q3SYZ3|CR3L3_BOVIN Cyclic AMP-responsive element-binding protein 3-like
+            protein 3 OS=Bos taurus GN=CREB3L3 PE=2 SV=1
+        Length = 456
+
+ Score = 120 (47.3 bits), Expect = 0.00032, P = 0.00032
+ Identities = 63/240 (26%), Positives = 102/240 (42%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             +EKK   K    G  LP   T LP  K     +E+  ++I R +RN+ +AQ SR++K+  
+Sbjct:   213 DEKKLLAKE---GITLP---TQLPLTKY----EERMLKKIRRKIRNKQSAQESRKKKKEY 262
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS----- 162
+             ++ LE        QNQ L +++  +E +N  L +QL +L A V  S + +   G+     
+Sbjct:   263 IDGLETRMSACTAQNQELQRKVLHLEKQNLSLLEQLKKLQAIVVQSTSKSAQTGTCIAVL 322
+
+Query:   163 ----PATASPTLTPTLFKQERDELPLERIP---FPTPSLSDYSPTLKPSTLAESSDVAQH 215
+                      P+++P  F   R E P +  P   F     +D +  + P T A  S+ A  
+Sbjct:   323 LFSFALIVLPSISP--FASNRAESPGDFAPVRVFSRTLHNDAASRVAPDT-APGSE-APG 378
+
+Query:   216 PAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFED 275
+             P  +   L+      P      + +   T  +     D D + L  G+S  E D +   D
+Sbjct:   379 PGPNTGALQERSPGSP----PGEWESQDTRALDNSTEDLDNSTLVQGNSVKELDQATLLD 434
+
+
+>sp|Q6NW59|ATF4_DANRE Cyclic AMP-dependent transcription factor ATF-4 OS=Danio
+            rerio GN=atf4 PE=2 SV=1
+        Length = 339
+
+ Score = 118 (46.6 bits), Expect = 0.00032, P = 0.00032
+ Identities = 31/138 (22%), Positives = 69/138 (50%)
+
+Query:    18 TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK 77
+             TP  E  +   S +D+ ++   V        + +P+ + K + +  P     L  R +  
+Sbjct:   204 TPKEEQNISDCSDSDSGIS---VSGSPAHQSDLEPSSRAKPYSRPDPEASPALKGRVKTS 260
+
+Query:    78 TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN 137
+             +   K +++++++ +N+ AA   R++KR+E E L +E  ++E++N+ L ++   +  E  
+Sbjct:   261 SGAPKVEKKLKKMEQNKTAATRYRQKKRVEQESLNSECSELEKKNRELSEKADSLSREIQ 320
+
+Query:   138 RLSQQLAQL-AAEVRGSR 154
+              L   L ++  A+ R S+
+Sbjct:   321 YLRDLLEEMRTAKQRKSK 338
+
+
+>sp|Q9R1S4|XBP1_RAT X-box-binding protein 1 OS=Rattus norvegicus GN=Xbp1 PE=2
+            SV=1
+        Length = 267
+
+ Score = 116 (45.9 bits), Expect = 0.00032, P = 0.00032
+ Identities = 26/64 (40%), Positives = 42/64 (65%)
+
+Query:    73 RKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             RKR + T    E++ + R L+NR AAQT+R+RK+  M +LE + + +E++NQ  LQ  +Q
+Sbjct:    52 RKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENQ-KLQLENQ 110
+
+Query:   132 MEAE 135
+             +  E
+Sbjct:   111 LLRE 114
+
+
+>sp|Q06507|ATF4_MOUSE Cyclic AMP-dependent transcription factor ATF-4 OS=Mus
+            musculus GN=Atf4 PE=1 SV=1
+        Length = 349
+
+ Score = 118 (46.6 bits), Expect = 0.00034, P = 0.00034
+ Identities = 42/148 (28%), Positives = 69/148 (46%)
+
+Query:    18 TPASEVPVLTVSPADTSLNSAD--VKTQEVKPEE-KKPAKKRKSWGQELPVPKTNLPP-- 72
+             TP+     + +SP ++ L S      T    P+    P   R S     P PK   PP  
+Sbjct:   212 TPSDNDSGICMSP-ESYLGSPQHSPSTSRAPPDNLPSPGGSRGS-----PRPKPYDPPGV 265
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+                AK + EK  ++++++ +N+ AA   R++KR E E L  E  ++E++N+ L ++   +
+Sbjct:   266 SLTAKVKTEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSL 325
+
+Query:   133 EAENNRLSQQLAQLAAEVRGSRANTPMP 160
+               E     Q L  L  EVR +R    +P
+Sbjct:   326 AKE----IQYLKDLIEEVRKARGQKRVP 349
+
+
+>sp|P18848|ATF4_HUMAN Cyclic AMP-dependent transcription factor ATF-4 OS=Homo
+            sapiens GN=ATF4 PE=1 SV=3
+        Length = 351
+
+ Score = 117 (46.2 bits), Expect = 0.00044, P = 0.00044
+ Identities = 31/98 (31%), Positives = 53/98 (54%)
+
+Query:    66 PKTNLPPRKR---AKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN 122
+             PK   PP ++   AK + EK  ++++++ +N+ AA   R++KR E E L  E  ++E++N
+Sbjct:   258 PKPYDPPGEKMVAAKVKGEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKN 317
+
+Query:   123 QFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+             + L +R   +  E     Q L  L  EVR +R    +P
+Sbjct:   318 EALKERADSLAKE----IQYLKDLIEEVRKARGKKRVP 351
+
+
+>sp|O35284|BATF_MOUSE Basic leucine zipper transcriptional factor ATF-like
+            OS=Mus musculus GN=Batf PE=2 SV=1
+        Length = 125
+
+ Score = 96 (38.9 bits), Expect = 0.00045, P = 0.00044
+ Identities = 26/90 (28%), Positives = 45/90 (50%)
+
+Query:    71 PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS 130
+             PP K+  ++D    R+++R  +NR AAQ SR+R+  + + L  E   +E+QN  L + + 
+Sbjct:    17 PPGKQDSSDDV---RKVQRREKNRIAAQKSRQRQTQKADTLHLESEDLEKQNAALRKEIK 73
+
+Query:   131 QMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+             Q+  E    +  L+          + TP P
+Sbjct:    74 QLTEELKYFTSVLSSHEPLCSVLASGTPSP 103
+
+
+>sp|P13346|FOSB_MOUSE Protein fosB OS=Mus musculus GN=Fosb PE=2 SV=1
+        Length = 338
+
+ Score = 116 (45.9 bits), Expect = 0.00053, P = 0.00053
+ Identities = 43/151 (28%), Positives = 65/151 (43%)
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             PR+   T +E+E+RR+ R  RN+ AA   R R+R   ++L+ E  Q+E++   L   +++
+Sbjct:   145 PREETLTPEEEEKRRVRRE-RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAE 203
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPT 191
+             ++ E  RL   L       +      P PG  A        T  K++     L   P P 
+Sbjct:   204 LQKEKERLEFVLVAHKPGCKIPYEEGPGPGPLAEVRDLPGSTSAKEDGFGWLLP--PPPP 261
+
+Query:   192 PSLSDYSPTLKPSTLAESSDVAQHPAVSVAG 222
+             P L   S    P  L  S  +  H  V V G
+Sbjct:   262 PPLPFQSSRDAPPNLTAS--LFTHSEVQVLG 290
+
+
+>sp|Q90888|MAFB_CHICK Transcription factor MafB OS=Gallus gallus GN=MAFB PE=1
+            SV=1
+        Length = 311
+
+ Score = 115 (45.5 bits), Expect = 0.00059, P = 0.00059
+ Identities = 36/137 (26%), Positives = 68/137 (49%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ-RRI 87
+             +P+ +S +S  ++T   +       + R S  Q + +    L    R  T+DE  + ++ 
+Sbjct:   171 TPSTSSSSSQQLQTSHQQHPPSSSVEDRFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQK 230
+
+Query:    88 ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA 147
+              R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L Q ++++  E +    +  +LA
+Sbjct:   231 RRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVTRLARERDAYKLKCEKLA 290
+
+Query:   148 AE-VRGSRANTPMPGSP 163
+             +   R + + +  P SP
+Sbjct:   291 SNGFREAGSTSDNPSSP 307
+
+
+>sp|Q90370|MAFB_COTJA Transcription factor MafB OS=Coturnix coturnix japonica
+            GN=MAFB PE=1 SV=1
+        Length = 311
+
+ Score = 115 (45.5 bits), Expect = 0.00059, P = 0.00059
+ Identities = 36/137 (26%), Positives = 68/137 (49%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ-RRI 87
+             +P+ +S +S  ++T   +       + R S  Q + +    L    R  T+DE  + ++ 
+Sbjct:   171 TPSTSSSSSQQLQTSHQQHPPSSSVEDRFSDDQLVSMSVRELNRHLRGFTKDEVIRLKQK 230
+
+Query:    88 ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA 147
+              R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L Q ++++  E +    +  +LA
+Sbjct:   231 RRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVTRLARERDAYKLKCEKLA 290
+
+Query:   148 AE-VRGSRANTPMPGSP 163
+             +   R + + +  P SP
+Sbjct:   291 SNGFREAGSTSDNPSSP 307
+
+
+>sp|O35426|XBP1_MOUSE X-box-binding protein 1 OS=Mus musculus GN=Xbp1 PE=2 SV=2
+        Length = 267
+
+ Score = 113 (44.8 bits), Expect = 0.00071, P = 0.00071
+ Identities = 27/79 (34%), Positives = 45/79 (56%)
+
+Query:    73 RKRAK-TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN-------QF 124
+             RKR + T    E++ + R L+NR AAQT+R+RK+  M +LE + + +E++N       Q 
+Sbjct:    52 RKRQRLTHLSPEEKALRRKLKNRVAAQTARDRKKARMSELEQQVVDLEEENHKLQLENQL 111
+
+Query:   125 LLQRLSQMEAENNRLSQQL 143
+             L ++   +  EN  L  +L
+Sbjct:   112 LREKTHGLVVENQELRTRL 130
+
+
+>sp|P51145|FOSL2_RAT Fos-related antigen 2 OS=Rattus norvegicus GN=Fosl2 PE=2
+            SV=1
+        Length = 327
+
+ Score = 114 (45.2 bits), Expect = 0.00084, P = 0.00084
+ Identities = 41/158 (25%), Positives = 76/158 (48%)
+
+Query:    68 TNLPPRKRAK--TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             T +  R+R +  + +E+E+RRI R  RN+ AA   R R+R   EKL+ E  ++E++   L
+Sbjct:   109 TTVGRRRRDEQLSPEEEEKRRIRRE-RNKLAAAKCRNRRRELTEKLQTETEELEEEKSGL 167
+
+Query:   126 LQRLSQMEAENNRLSQQLA------QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQER 179
+              + +++++ E  +L   L       +++ E R S   + +     T S  + P + KQE 
+Sbjct:   168 QKEIAELQKEKEKLEFMLVAHGPVCKISPEERRSSPTSGVQSLRGTGS-AVGPVVVKQEP 226
+
+Query:   180 DELPLERIPFPTPSLSDYSPT-LKPSTLAESSDVAQHP 216
+              E   E  P  +  +     + +KP ++A      + P
+Sbjct:   227 PE---EDSPSSSAGMDKTQRSVIKPISIAGGGFYGEEP 261
+
+
+>sp|Q68CJ9|CR3L3_HUMAN Cyclic AMP-responsive element-binding protein 3-like
+            protein 3 OS=Homo sapiens GN=CREB3L3 PE=1 SV=2
+        Length = 461
+
+ Score = 116 (45.9 bits), Expect = 0.00090, P = 0.00089
+ Identities = 52/180 (28%), Positives = 82/180 (45%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             +EKK   K    G  LP   T LP  K     +E+  ++I R +RN+ +AQ SR++K+  
+Sbjct:   218 DEKKLLAKE---GITLP---TQLPLTKY----EERVLKKIRRKIRNKQSAQESRKKKKEY 267
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS 167
+             ++ LE        QNQ L +++  +E +N  L +QL +L A V  S + +   G+   A 
+Sbjct:   268 IDGLETRMSACTAQNQELQRKVLHLEKQNLSLLEQLKKLQAIVVQSTSKSAQTGT-CVAV 326
+
+Query:   168 PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDG 227
+               L+  L        P    P  T S  D++P    S    +   ++  A +V G E  G
+Sbjct:   327 LLLSFALIILPSIS-PFG--PNKTESPGDFAPVRVFSRTLHNDAASRVAADAVPGSEAPG 383
+
+
+>sp|A4R2R1|NST1_MAGGR Stress response protein NST1 OS=Magnaporthe grisea
+            GN=NST1 PE=3 SV=1
+        Length = 1319
+
+ Score = 121 (47.7 bits), Expect = 0.00097, P = 0.00097
+ Identities = 41/170 (24%), Positives = 85/170 (50%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK--EQRRIERVLRNRA--AAQ 98
+             Q  K EE+K  K+ +   +E    +      +RA+ + E+  EQ R  R  + +   A +
+Sbjct:   675 QRQKNEERKKKKEAQRKAEEEERQRKEAERLRRAQEQKERQAEQDRKAREAKEKEKKAKE 734
+
+Query:    99 TSRERKRLEMEKLENE-KIQMEQQNQFLLQRLSQMEAENN-RLSQQLAQLAAEVRGSRAN 156
+              +++R++   E  E E + + E+ ++  L++ ++++AE   R +Q+ A+ A++   + AN
+Sbjct:   735 EAKQREKAARELKEREARERKEKADKERLEKEAKIKAEKEAREAQRKAERASQKATTLAN 794
+
+Query:   157 TPMPGSPA---TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKP 203
+              P+P  PA   + +P   P L + ++  +   ++P   P+L       KP
+Sbjct:   795 VPVPTGPARRQSQAPNPAPALPQSQQASVASPQLPTAVPALPKLPTPQKP 844
+
+ Score = 87 (35.7 bits), Expect = 5.1, P = 0.994
+ Identities = 26/108 (24%), Positives = 52/108 (48%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR 94
+             L   D +T++ K +++K A+KR+    +    +     RK A+   E+ +R  E   R  
+Sbjct:   614 LAQEDRETEKRKAKKQKEAQKRRDKALQKKQAQAEEKARKDAEKAAEEAERLAEEQRRQE 673
+
+Query:    95 AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+                Q + ERK+   +K    K + E++ +   +RL + + +  R ++Q
+Sbjct:   674 EQRQKNEERKK---KKEAQRKAEEEERQRKEAERLRRAQEQKERQAEQ 718
+
+
+>sp|O57342|MAFA_COTJA Transcription factor MafA OS=Coturnix coturnix japonica
+            GN=MAFA PE=1 SV=1
+        Length = 286
+
+ Score = 112 (44.5 bits), Expect = 0.0011, P = 0.0011
+ Identities = 29/85 (34%), Positives = 48/85 (56%)
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             +Q+R  R L+NR  AQ+ R ++  +   LENEK Q++ Q + L Q +S++  E +   ++
+Sbjct:   201 KQKR--RTLKNRGYAQSCRYKRVQQRHILENEKCQLQSQVEQLKQEVSRLAKERDLYKEK 258
+
+Query:   143 LAQLAAEVRGSRANTPMPGSPATAS 167
+               +LAA  RG    T  P +P T +
+Sbjct:   259 YEKLAA--RGFPRETSPPAAPKTTA 281
+
+
+>sp|O60675|MAFK_HUMAN Transcription factor MafK OS=Homo sapiens GN=MAFK PE=1
+            SV=1
+        Length = 156
+
+ Score = 103 (41.3 bits), Expect = 0.0012, P = 0.0012
+ Identities = 42/159 (26%), Positives = 73/159 (45%)
+
+Query:    47 PEEKKPAKKRKSWGQELPVPKTN---------LPPRKRAKTEDEK---EQRRIERVLRNR 94
+             P+  K  K +K  G+  PV   +         L    R  T++E    +QRR  R L+NR
+Sbjct:     5 PKPNKALKVKKEAGENAPVLSDDELVSMSVRELNQHLRGLTKEEVTRLKQRR--RTLKNR 62
+
+Query:    95 AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+               A + R ++  + E+LE ++++++Q+ + L +  S M  E + L  +   L    R + 
+Sbjct:    63 GYAASCRIKRVTQKEELERQRVELQQEVEKLARENSSMRLELDALRSKYEALQTFAR-TV 121
+
+Query:   155 ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPS 193
+             A  P+  +P+  + T   T+ K    EL    +PF   S
+Sbjct:   122 ARGPV--APSKVATTSVITIVKST--ELSSTSVPFSAAS 156
+
+
+>sp|P15407|FOSL1_HUMAN Fos-related antigen 1 OS=Homo sapiens GN=FOSL1 PE=1 SV=1
+        Length = 271
+
+ Score = 111 (44.1 bits), Expect = 0.0012, P = 0.0012
+ Identities = 54/184 (29%), Positives = 88/184 (47%)
+
+Query:    64 PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL------EMEKLENEKIQ 117
+             P P     P ++   E+E E+RR+ R     AAA+    RK L      E +KLE+EK  
+Sbjct:    88 PPPGVRRRPCEQISPEEE-ERRRVRRERNKLAAAKCRNRRKELTDFLQAETDKLEDEKSG 146
+
+Query:   118 MEQQNQFLLQRLSQMEA--ENNRLSQQLAQLAAEV-RGSRANTPMPGSPATASP--TLTP 172
+             ++++ + L ++  ++E   E +R   ++ + A E   GS + T  P +P    P  +L+P
+Sbjct:   147 LQREIEELQKQKERLELVLEAHRPICKIPEGAKEGDTGSTSGTSSPPAPCRPVPCISLSP 206
+
+Query:   173 -TLFKQERDELPLERIPFPTPSLSDYSPTLK---PSTLAESSDVAQHPAVSVAGLEGDGS 228
+               + + E    P       TPSL+ ++P+L    PST  E    A   + S +G   D S
+Sbjct:   207 GPVLEPEALHTPTL---MTTPSLTPFTPSLVFTYPST-PEPCASAHRKSSSSSG---DPS 259
+
+Query:   229 ALPL 232
+             + PL
+Sbjct:   260 SDPL 263
+
+
+>sp|Q5FVM5|CR3L3_RAT Cyclic AMP-responsive element-binding protein 3-like
+            protein 3 OS=Rattus norvegicus GN=Creb3l3 PE=2 SV=1
+        Length = 470
+
+ Score = 115 (45.5 bits), Expect = 0.0014, Sum P(2) = 0.0014
+ Identities = 38/115 (33%), Positives = 59/115 (51%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             +EKK   K    G  LP   T LP  K     +E+  ++I R +RN+ +AQ SR++K+  
+Sbjct:   214 DEKKLLAKE---GVTLP---TQLPLTKY----EERVLKKIRRKIRNKQSAQESRKKKKEY 263
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS 162
+             ++ LEN       QNQ L +++  +E +N  L +QL  L A V  S +     G+
+Sbjct:   264 IDGLENRMSACTAQNQELQRKVLHLEKQNLSLLEQLKHLQALVVQSTSKPAHAGT 318
+
+ Score = 40 (19.1 bits), Expect = 0.0014, Sum P(2) = 0.0014
+ Identities = 11/42 (26%), Positives = 19/42 (45%)
+
+Query:    15 LPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR 56
+             LP+T   E P   V  +  +++     T  + PEE+  +  R
+Sbjct:   130 LPSTACPEPPRTQVHESSVAIDLDMWSTDTLYPEEQAGSPSR 171
+
+
+>sp|Q03173|ENAH_MOUSE Protein enabled homolog OS=Mus musculus GN=Enah PE=1 SV=2
+        Length = 802
+
+ Score = 117 (46.2 bits), Expect = 0.0015, P = 0.0015
+ Identities = 57/225 (25%), Positives = 97/225 (43%)
+
+Query:     9 MSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPK 67
+             M +++ L +  A++  V T +   T+L          +   + PA+ +    QE L + +
+Sbjct:   105 MHALEVLNSQEAAQSKV-TATQDSTNLRCIFCGPTLPRQNSQLPAQVQNGPSQEELEIQR 163
+
+Query:    68 TNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQ 127
+               L  ++R K E E+E+   ER+ R R   +   ER+RLE E+LE ++ + E   +   +
+Sbjct:   164 RQLQEQQRQK-ELERERMERERLERERLERERL-ERERLEQEQLERQRQEREHVERLERE 221
+
+Query:   128 RLSQMEAENN-RLSQQLAQLAAEV----RGSRANTPMPGSPATASPTLTPTLFKQERDEL 182
+             RL ++E E   R  ++L QL  E     R  R +   P S ++ S    P     +    
+Sbjct:   222 RLERLERERQERERERLEQLEREQVEWERERRMSNAAPSSDSSLSSAPLPEYSSCQPPSA 281
+
+Query:   183 P----LERIPFPTPSLS-DYSP-TLKPSTLAESSDVAQHPAVSVA 221
+             P     + I  P    + DY+  T  P T    +   +H A   A
+Sbjct:   282 PPPSYAKVISAPVSDATPDYAVVTALPPTSTPPTPPLRHAATRFA 326
+
+
+>sp|P53539|FOSB_HUMAN Protein fosB OS=Homo sapiens GN=FOSB PE=1 SV=1
+        Length = 338
+
+ Score = 112 (44.5 bits), Expect = 0.0015, P = 0.0015
+ Identities = 42/151 (27%), Positives = 64/151 (42%)
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             PR+   T +E+E+RR+ R  RN+ AA   R R+R   ++L+ E  Q+E++   L   +++
+Sbjct:   145 PREETLTPEEEEKRRVRRE-RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAE 203
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPT 191
+             ++ E  RL   L       +      P PG P      L P     + D       P P 
+Sbjct:   204 LQKEKERLEFVLVAHKPGCKIPYEEGPGPG-PLAEVRDL-PGSAPAKEDGFSWLLPPPPP 261
+
+Query:   192 PSLSDYSPTLKPSTLAESSDVAQHPAVSVAG 222
+             P L   +    P  L  S  +  H  V V G
+Sbjct:   262 PPLPFQTSQDAPPNLTAS--LFTHSEVQVLG 290
+
+
+>sp|Q2VZV0|IF2_MAGSA Translation initiation factor IF-2 OS=Magnetospirillum
+            magneticum (strain AMB-1 / ATCC 700264) GN=infB PE=3 SV=1
+        Length = 872
+
+ Score = 117 (46.2 bits), Expect = 0.0016, P = 0.0016
+ Identities = 36/107 (33%), Positives = 57/107 (53%)
+
+Query:    16 PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR 75
+             P  PA   PV   +PA  +      +T+E + EE++ AKKR +  +  PV +T  P R+ 
+Sbjct:   188 PVAPAQPKPVAAAAPAGDATAVPRARTEEEEEEEER-AKKRAAAHKPAPVKRTE-PRRRT 245
+
+Query:    76 AK---TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME 119
+              K   T+   +  R ER  R+ AA + +RER+RL+  +  +EK+  E
+Sbjct:   246 GKLTITDALTDDDRSERG-RSLAAVKRARERERLKHMQKGSEKVIRE 291
+
+
+>sp|Q61827|MAFK_MOUSE Transcription factor MafK OS=Mus musculus GN=Mafk PE=2
+            SV=1
+        Length = 156
+
+ Score = 102 (41.0 bits), Expect = 0.0017, P = 0.0017
+ Identities = 42/159 (26%), Positives = 72/159 (45%)
+
+Query:    47 PEEKKPAKKRKSWGQELPVPKTN---------LPPRKRAKTEDEK---EQRRIERVLRNR 94
+             P+  K  K +K  G+  PV   +         L    R  T++E    +QRR  R L+NR
+Sbjct:     5 PKPNKALKVKKEAGENAPVLSDDELVSMSVRELNQHLRGLTKEEVTRLKQRR--RTLKNR 62
+
+Query:    95 AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+               A + R ++  + E+LE ++++++Q+ + L +  S M  E + L  +   L    R + 
+Sbjct:    63 GYAASCRIKRVTQKEELERQRVELQQEVEKLARENSSMRLELDALRSKYEALQTFAR-TV 121
+
+Query:   155 ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPS 193
+             A  P+  +P   + T   T+ K    EL    +PF   S
+Sbjct:   122 ARGPV--TPTKVATTSVITIVKSA--ELSSTSVPFSAAS 156
+
+
+>sp|P29747|CREBA_DROME Cyclic AMP response element-binding protein A
+            OS=Drosophila melanogaster GN=CrebA PE=1 SV=2
+        Length = 516
+
+ Score = 117 (46.2 bits), Expect = 0.0018, Sum P(2) = 0.0018
+ Identities = 45/147 (30%), Positives = 72/147 (48%)
+
+Query:     8 TMSSVDSLPATPASEVPVLTVS--PADTSLNSADVK--TQEVKPEEKKPAKKRKSWGQEL 63
+             T SS  S  A+ +S    +T +  P  T L S+  K  T  +   E++   KR    +  
+Sbjct:   370 TRSSSGSASASGSSTSSTVTTTRQPIHTPLISSQPKGSTGTLLLTEEE---KRTLLAEGY 426
+
+Query:    64 PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQ 123
+             P+P+  LP  K     +EK  ++I R ++N+ +AQ SR +K+  M++LE     +  +N 
+Sbjct:   427 PIPQ-KLPLTKA----EEKSLKKIRRKIKNKISAQESRRKKKEYMDQLERRVEILVTENH 481
+
+Query:   124 FLLQRLSQMEAENNRLSQQLAQLAAEV 150
+                +RL  +E  N  L  QL +L A V
+Sbjct:   482 DYKKRLEGLEETNANLLSQLHKLQALV 508
+
+ Score = 38 (18.4 bits), Expect = 0.0018, Sum P(2) = 0.0018
+ Identities = 8/12 (66%), Positives = 9/12 (75%)
+
+Query:    10 SSVDSLPATPAS 21
+             S VDSLP +P S
+Sbjct:    71 SDVDSLPDSPKS 82
+
+
+>sp|O88479|FOS_MESAU Proto-oncogene c-Fos OS=Mesocricetus auratus GN=FOS PE=3
+            SV=1
+        Length = 381
+
+ Score = 112 (44.5 bits), Expect = 0.0019, P = 0.0019
+ Identities = 54/176 (30%), Positives = 74/176 (42%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P     AS  LT   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMFVASLDLTGGLPEATTPESEEAFSLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS-VAGLEGDGSALPLFDL-GS 237
+             L   P P PSL            AE  D    PA S  +G E    ++P  DL GS
+Sbjct:   243 LLNDPEPKPSLEPVKSISNVELKAEPFDDFLFPASSRPSGSETTARSVPDMDLSGS 298
+
+
+>sp|Q9TUB3|FOSB_CANFA Protein fosB OS=Canis familiaris GN=FOSB PE=3 SV=1
+        Length = 338
+
+ Score = 111 (44.1 bits), Expect = 0.0019, P = 0.0019
+ Identities = 37/141 (26%), Positives = 60/141 (42%)
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             PR+   T +E+E+RR+ R  RN+ AA   R R+R   ++L+ E  Q+E++   L   +++
+Sbjct:   145 PREETLTPEEEEKRRVRRE-RNKLAAAKCRNRRRELTDRLQAETDQLEEEKAELESEIAE 203
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDEL---PLERIP 188
+             ++ E  RL   L       +      P PG  A           K++       P    P
+Sbjct:   204 LQKEKERLEFVLVAHKPGCKIPYEEGPGPGPLAEVRDLPGSASTKEDGFSWLLPPPPAPP 263
+
+Query:   189 FPTPSLSDYSPTLKPSTLAES 209
+              P  +  D +P L  S    S
+Sbjct:   264 LPFQTSQDAAPNLTASLFTHS 284
+
+
+>sp|Q8TEY5|CR3L4_HUMAN Cyclic AMP-responsive element-binding protein 3-like
+            protein 4 OS=Homo sapiens GN=CREB3L4 PE=1 SV=1
+        Length = 395
+
+ Score = 112 (44.5 bits), Expect = 0.0020, P = 0.0020
+ Identities = 30/94 (31%), Positives = 55/94 (58%)
+
+Query:    54 KKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE 112
+             ++++  GQE + +P ++LP  K     +E+  +++ R +RN+ +AQ SR RK+  ++ LE
+Sbjct:   192 EEKRLLGQEGVSLP-SHLPLTKA----EERVLKKVRRKIRNKQSAQDSRRRKKEYIDGLE 246
+
+Query:   113 NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+             +       QNQ L +++ ++E  N  L  QL QL
+Sbjct:   247 SRVAACSAQNQELQKKVQELERHNISLVAQLRQL 280
+
+
+>sp|Q5UEM8|CR3L4_MACFA Cyclic AMP-responsive element-binding protein 3-like
+            protein 4 OS=Macaca fascicularis GN=CREB3L4 PE=2 SV=1
+        Length = 395
+
+ Score = 112 (44.5 bits), Expect = 0.0020, P = 0.0020
+ Identities = 30/94 (31%), Positives = 55/94 (58%)
+
+Query:    54 KKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLE 112
+             ++++  GQE + +P ++LP  K     +E+  +++ R +RN+ +AQ SR RK+  ++ LE
+Sbjct:   192 EEKRLLGQEGVSLP-SHLPLTKA----EERVLKKVRRKIRNKQSAQDSRRRKKEYIDGLE 246
+
+Query:   113 NEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+             +       QNQ L +++ ++E  N  L  QL QL
+Sbjct:   247 SRVAACSAQNQELQKKVQELERHNISLVAQLRQL 280
+
+
+>sp|Q9ES19|ATF4_RAT Cyclic AMP-dependent transcription factor ATF-4 OS=Rattus
+            norvegicus GN=Atf4 PE=1 SV=1
+        Length = 347
+
+ Score = 111 (44.1 bits), Expect = 0.0020, P = 0.0020
+ Identities = 30/97 (30%), Positives = 51/97 (52%)
+
+Query:    66 PKTNLPP--RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQ 123
+             PK   PP     AK + EK  ++++++ +N+ AA   R++KR E E L  E  ++E++N+
+Sbjct:   255 PKPYDPPGVSVTAKVKTEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNE 314
+
+Query:   124 FLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+              L ++   +  E     Q L  L  EVR +R    +P
+Sbjct:   315 ALKEKADSLAKE----IQYLKDLIEEVRKARGKKRVP 347
+
+
+>sp|P79702|FOS_CYPCA Proto-oncogene c-Fos OS=Cyprinus carpio GN=fos PE=2 SV=1
+        Length = 347
+
+ Score = 111 (44.1 bits), Expect = 0.0020, P = 0.0020
+ Identities = 58/256 (22%), Positives = 109/256 (42%)
+
+Query:     6 EKTMSSVDSLPATPA-SEVPVLT--VSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQE 62
+             E ++SS   +P   A S  P L   V P  +S+  ++   +   P    P  K +  G +
+Sbjct:    39 ELSVSSASFVPTVTAISSCPDLQWMVQPMVSSVAPSNGGARSYNPN---PYPKMRVTGTK 95
+
+Query:    63 LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN 122
+              P   +N   R    + +E+E++R+ R  RN+ AA   R R+R   + L+ E  ++E + 
+Sbjct:    96 SP--NSNKRARAEQLSPEEEEKKRVRRE-RNKMAAAKCRNRRRELTDTLQAETDELEDEK 152
+
+Query:   123 QFLLQRLSQMEAENNRLSQQLAQLAAEVR-GSRANTPMPGSPATASPTLTPTLFKQERDE 181
+               L   ++ +  E  RL   LA      +  S + +P+P +      ++T ++       
+Sbjct:   153 SALQNDIANLLKEKERLEFILAAHKPICKIPSSSVSPIPAASVPEIHSITTSVVSTANAP 212
+
+Query:   182 LPLERIP--FP-TPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSD 238
+             +        F  T S   +  T++ S L  + + +    ++ A LE    ++P  DL S 
+Sbjct:   213 VTTSSSSSLFSSTASTDSFGSTVEISDLEPTLEESLE-LLAKAELE-TARSVPDVDLSSS 270
+
+Query:   239 LKHHSTDDVAAPLSDD 254
+             L     + +  P ++D
+Sbjct:   271 LYARDWESLYTPANND 286
+
+
+>sp|Q8N8S7|ENAH_HUMAN Protein enabled homolog OS=Homo sapiens GN=ENAH PE=1 SV=2
+        Length = 591
+
+ Score = 114 (45.2 bits), Expect = 0.0021, P = 0.0021
+ Identities = 35/112 (31%), Positives = 57/112 (50%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRN 93
+             LNS +      +   + PA+ +    QE L + +  L  ++R K   E E+ R+ER    
+Sbjct:   111 LNSQETGPTLPRQNSQLPAQVQNGPSQEELEIQRRQLQEQQRQK---ELERERLERERME 167
+
+Query:    94 RAAAQTSR-ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA--ENNRLSQQ 142
+             R   +  R ER+RLE E+LE E+++ E+Q +   +RL + E      RL +Q
+Sbjct:   168 RERLERERLERERLERERLEQEQLERERQERERQERLERQERLERQERLERQ 219
+
+ Score = 102 (41.0 bits), Expect = 0.045, P = 0.044
+ Identities = 33/109 (30%), Positives = 55/109 (50%)
+
+Query:    37 SADVKTQEV-KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK--EQRRIERVLRN 93
+             SA +   EV   +E  P   R++   +LP    N P ++  + +  +  EQ+R + + R 
+Sbjct:   102 SAMMHALEVLNSQETGPTLPRQN--SQLPAQVQNGPSQEELEIQRRQLQEQQRQKELERE 159
+
+Query:    94 RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             R   +   ER+RLE E+LE E+++ E+  Q  L+R  Q      RL +Q
+Sbjct:   160 RLERERM-ERERLERERLERERLERERLEQEQLERERQERERQERLERQ 207
+
+ Score = 96 (38.9 bits), Expect = 0.20, P = 0.19
+ Identities = 38/132 (28%), Positives = 66/132 (50%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKE-QRRIERVLRNRAAAQTSRERKRLE 107
+             E++  ++ +   ++L   +     ++R + ++  E Q R+ER  R     Q  +ER+RLE
+Sbjct:   177 ERERLERERLEQEQLERERQERERQERLERQERLERQERLERQERLDRERQERQERERLE 236
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNR-LSQQLAQLAAE-----VRGSRANTPMPG 161
+               +LE E+ + E+Q Q  L+R  Q+E E  R +S   A  + E     V G  ++   PG
+Sbjct:   237 --RLERERQERERQEQ--LER-EQLEWERERRISSAAAPASVETPLNSVLGD-SSASEPG 290
+
+Query:   162 SPATASPTLTPT 173
+               A + P  TP+
+Sbjct:   291 LQAASQPAETPS 302
+
+
+>sp|P47930|FOSL2_MOUSE Fos-related antigen 2 OS=Mus musculus GN=Fosl2 PE=2 SV=1
+        Length = 326
+
+ Score = 110 (43.8 bits), Expect = 0.0023, P = 0.0023
+ Identities = 41/158 (25%), Positives = 78/158 (49%)
+
+Query:    68 TNLPPRKRAK--TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             T +  R+R +  + +E+E+RRI R  RN+ AA   R R+R   EKL+ E  ++E++   L
+Sbjct:   108 TTVGRRRRDEQLSPEEEEKRRIRRE-RNKLAAAKCRNRRRELTEKLQAETEELEEEKSGL 166
+
+Query:   126 LQRLSQMEAENNRLS-QQLA-----QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQER 179
+              + +++++ E  +L   ++A     +++ E R S   + +     T S  + P + KQE 
+Sbjct:   167 QKEIAELQKEKEKLEFMKVAHGPVCKISPEERRSPPTSGLQSLRGTGS-AVGPVVVKQEP 225
+
+Query:   180 DELPLERIPFPTPSLSDYSPT-LKPSTLAESSDVAQHP 216
+              E   E  P  +  +     + +KP ++A      + P
+Sbjct:   226 PE---EDSPSSSAGMDKTQRSVIKPISIAGGGFYGEEP 260
+
+
+>sp|Q5R9C9|ATF7_PONAB Cyclic AMP-dependent transcription factor ATF-7 OS=Pongo
+            abelii GN=ATF7 PE=2 SV=1
+        Length = 483
+
+ Score = 112 (44.5 bits), Expect = 0.0027, P = 0.0027
+ Identities = 45/153 (29%), Positives = 72/153 (47%)
+
+Query:    26 LTVSPADTSLNSADVKTQEV--KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKE 83
+             + V  A T + +   ++Q +   P+   PA+ + S  Q  P P T     +R +T DE  
+Sbjct:   277 MVVGSASTMVTARPEQSQILIQHPDAPSPAQPQVSPAQ--PTPSTG---GRRRRTVDEDP 331
+
+Query:    84 QRRIERVL-RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+               R +R L RNRAAA   R++++L +  LE +  ++  QN  L   ++ +  E  +L Q 
+Sbjct:   332 DERRQRFLERNRAAASRCRQKRKLWVSSLEKKAEELTSQNIQLSNEVTLLRNEVAQLKQL 391
+
+Query:   143 L-AQLAAEVRGSRANTP-MPGSPATAS-PTLTP 172
+             L A     V   +  T     SP  +S PT +P
+Sbjct:   392 LLAHKDCPVTALQKKTQGYLESPKESSEPTGSP 424
+
+
+>sp|P17544|ATF7_HUMAN Cyclic AMP-dependent transcription factor ATF-7 OS=Homo
+            sapiens GN=ATF7 PE=1 SV=2
+        Length = 494
+
+ Score = 112 (44.5 bits), Expect = 0.0028, P = 0.0028
+ Identities = 45/153 (29%), Positives = 72/153 (47%)
+
+Query:    26 LTVSPADTSLNSADVKTQEV--KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKE 83
+             + V  A T + +   ++Q +   P+   PA+ + S  Q  P P T     +R +T DE  
+Sbjct:   288 MVVGTASTMVTARPEQSQILIQHPDAPSPAQPQVSPAQ--PTPSTG---GRRRRTVDEDP 342
+
+Query:    84 QRRIERVL-RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+               R +R L RNRAAA   R++++L +  LE +  ++  QN  L   ++ +  E  +L Q 
+Sbjct:   343 DERRQRFLERNRAAASRCRQKRKLWVSSLEKKAEELTSQNIQLSNEVTLLRNEVAQLKQL 402
+
+Query:   143 L-AQLAAEVRGSRANTP-MPGSPATAS-PTLTP 172
+             L A     V   +  T     SP  +S PT +P
+Sbjct:   403 LLAHKDCPVTALQKKTQGYLESPKESSEPTGSP 435
+
+
+>sp|Q9Y5Q3|MAFB_HUMAN Transcription factor MafB OS=Homo sapiens GN=MAFB PE=1
+            SV=2
+        Length = 323
+
+ Score = 109 (43.4 bits), Expect = 0.0030, P = 0.0030
+ Identities = 42/152 (27%), Positives = 70/152 (46%)
+
+Query:    14 SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR 73
+             S  A+PA ++P     P   +  SA         E+      R S  Q + +    L   
+Sbjct:   174 SSAASPAQQLPTSHPGPGPHATASATAAGGNGSVED------RFSDDQLVSMSVRELNRH 227
+
+Query:    74 KRAKTEDEKEQ-RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+              R  T+DE  + ++  R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L Q +S++
+Sbjct:   228 LRGFTKDEVIRLKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRL 287
+
+Query:   133 EAENNRLSQQLAQLA-AEVRGSRANTPMPGSP 163
+               E +    +  +LA +  R + + +  P SP
+Sbjct:   288 ARERDAYKVKCEKLANSGFREAGSTSDSPSSP 319
+
+
+>sp|Q9UQ88|CD11A_HUMAN Cell division protein kinase 11A OS=Homo sapiens
+            GN=CDK11A PE=1 SV=3
+        Length = 780
+
+ Score = 118 (46.6 bits), Expect = 0.0032, Sum P(2) = 0.0032
+ Identities = 50/173 (28%), Positives = 79/173 (45%)
+
+Query:    42 TQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR 101
+             +++ K   +K  K+++ W +   V +     RKR + E +K +R  ER  R   A + SR
+Sbjct:    92 SRKEKVHHRKDEKRKEKW-KHARVKEREHERRKRHREEQDKARREWERQKRREMAREHSR 150
+
+Query:   102 -ERKRLEM--EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA-QLAAEVRGSRAN- 156
+              ER RLE    K E E+   EQQ +   Q+  +  AE  R  ++   +++A  R  R + 
+Sbjct:   151 RERDRLEQLERKRERERKMREQQKEQREQKERERRAEERRKEREARREVSAHHRTMREDY 210
+
+Query:   157 -TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAE 208
+                +  S  + SP   P    +ER EL   R     P  +  +P  KP+ L E
+Sbjct:   211 SDKVKASHWSRSPPRPP----RERFELGDGR----KPGEARPAPAQKPAQLKE 255
+
+ Score = 39 (18.8 bits), Expect = 0.0032, Sum P(2) = 0.0032
+ Identities = 12/45 (26%), Positives = 21/45 (46%)
+
+Query:   259 LFHGDSSVEPDSSVFED-GLAFDVLEGGDLSAFPFDSMVNFDSEP 302
+             LF G+S ++  + VF++ G   + +  G  S  P    + F   P
+Sbjct:   622 LFPGNSEIDQINKVFKELGTPSEKIWPG-YSELPVVKKMTFSEHP 665
+
+
+>sp|O43889|CREB3_HUMAN Cyclic AMP-responsive element-binding protein 3 OS=Homo
+            sapiens GN=CREB3 PE=1 SV=1
+        Length = 395
+
+ Score = 110 (43.8 bits), Expect = 0.0033, P = 0.0033
+ Identities = 39/129 (30%), Positives = 67/129 (51%)
+
+Query:    63 LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN 122
+             L +P+T LP     KTE E+  +R+ R +RN+ +AQ SR +K++ +  LE+  ++   QN
+Sbjct:   159 LILPET-LP---LTKTE-EQILKRVRRKIRNKRSAQESRRKKKVYVGGLESRVLKYTAQN 213
+
+Query:   123 QFLLQRLSQMEAENNRLSQQLAQLAAEV-----RGSRANTPMPGSPATASPTLTPTLFKQ 177
+               L  ++  +E +N  L  QL +L A V     + S ++T +     +    L P ++  
+Sbjct:   214 MELQNKVQLLEEQNLSLLDQLRKLQAMVIEISNKTSSSSTCILVLLVSFCLLLVPAMYSS 273
+
+Query:   178 E-RDELPLE 185
+             + R  LP E
+Sbjct:   274 DTRGSLPAE 282
+
+
+>sp|Q3ZCH6|ATF4_BOVIN Cyclic AMP-dependent transcription factor ATF-4 OS=Bos
+            taurus GN=ATF4 PE=1 SV=1
+        Length = 348
+
+ Score = 109 (43.4 bits), Expect = 0.0034, P = 0.0034
+ Identities = 35/133 (26%), Positives = 65/133 (48%)
+
+Query:    19 PASEVPVLTVSPADTSLNSAD--VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR- 75
+             P+     + +SP D+SL S      T    P +   +    S G   P P    PP ++ 
+Sbjct:   210 PSDNDSGICMSP-DSSLGSPQDSPSTSRGSPNKSLLSPGALS-GSSRPKPYD--PPGEKM 265
+
+Query:    76 --AKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+               AK + EK  ++++++ +N+ AA   R++KR E E L  E  ++E++N+ L ++   + 
+Sbjct:   266 VAAKVKGEKLDKKLKKMEQNKTAATRYRQKKRAEQEALTGECKELEKKNEALKEKADSLA 325
+
+Query:   134 AENNRLSQQLAQL 146
+              E   L  Q+ ++
+Sbjct:   326 KEIQYLKDQIEEV 338
+
+
+>sp|Q8R0S1|ATF7_MOUSE Cyclic AMP-dependent transcription factor ATF-7 OS=Mus
+            musculus GN=Atf7 PE=1 SV=1
+        Length = 413
+
+ Score = 110 (43.8 bits), Expect = 0.0035, P = 0.0035
+ Identities = 36/121 (29%), Positives = 59/121 (48%)
+
+Query:    26 LTVSPADTSLNSADVKTQEV--KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKE 83
+             + V  A T + +   + Q +   P+   PA+ + S  Q  P P T     +R +T DE  
+Sbjct:   277 MVVGTASTMVTARPEQNQILIQHPDAPSPAQPQVSPAQ--PTPSTG---GRRRRTVDEDP 331
+
+Query:    84 QRRIERVL-RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+               R +R L RNRAAA   R++++L +  LE +  ++  QN  L   ++ +  E  +L Q 
+Sbjct:   332 DERRQRFLERNRAAASRCRQKRKLWVSSLEKKAEELTSQNIQLSNEVTLLRNEVAQLKQL 391
+
+Query:   143 L 143
+             L
+Sbjct:   392 L 392
+
+
+>sp|P42774|GBF1_ARATH G-box-binding factor 1 OS=Arabidopsis thaliana GN=GBF1
+            PE=1 SV=2
+        Length = 315
+
+ Score = 108 (43.1 bits), Expect = 0.0037, P = 0.0037
+ Identities = 30/79 (37%), Positives = 48/79 (60%)
+
+Query:    79 EDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL---LQRLS----Q 131
+             +DE+E +R +R   NR +A+ SR RK+ E E+L+     +  +NQ L   LQRLS    +
+Sbjct:   218 KDERELKRQKRKQSNRESARRSRLRKQAECEQLQQRVESLSNENQSLRDELQRLSSECDK 277
+
+Query:   132 MEAENNRLSQQLAQ-LAAE 149
+             +++ENN +  +L + L AE
+Sbjct:   278 LKSENNSIQDELQRVLGAE 296
+
+ Score = 81 (33.6 bits), Expect = 3.9, P = 0.98
+ Identities = 38/127 (29%), Positives = 64/127 (50%)
+
+Query:    23 VPVLTVSPADTSLN-SADVKTQE----VKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK 77
+             VP+  V+P  T+LN   D+ + +    VK E +   +KRK   +E    ++ L  RK+A 
+Sbjct:   191 VPMKPVAPG-TNLNIGMDLWSSQAGVPVKDERELKRQKRKQSNRE-SARRSRL--RKQA- 245
+
+Query:    78 TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN 137
+              E E+ Q+R+E +     + +   +R   E +KL++E   ++ +    LQR+   EA  N
+Sbjct:   246 -ECEQLQQRVESLSNENQSLRDELQRLSSECDKLKSENNSIQDE----LQRVLGAEAVAN 300
+
+Query:   138 RLSQQLA 144
+              L Q  A
+Sbjct:   301 -LEQNAA 306
+
+
+>sp|Q8SQ19|CREB3_BOVIN Cyclic AMP-responsive element-binding protein 3 OS=Bos
+            taurus GN=CREB3 PE=2 SV=2
+        Length = 368
+
+ Score = 109 (43.4 bits), Expect = 0.0038, P = 0.0038
+ Identities = 56/212 (26%), Positives = 97/212 (45%)
+
+Query:    20 ASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTE 79
+             A   P+    PAD  +    + T+E    EK+  +K    G  LP     LP  K     
+Sbjct:   105 AQMTPLRVEEPADQEIARL-ILTEE----EKRLLEKE---GLTLP---GMLPLTKM---- 149
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             +E+  +R+ R +RN+ +AQ SR +K++ +  LE+  ++   QN  L  ++  +E +N  L
+Sbjct:   150 EEQVLKRVRRKIRNKKSAQESRRKKKVYVGGLESRVLKYTAQNLELQNKVQLLEEQNLSL 209
+
+Query:   140 SQQLAQLAAEV-----RGSRANTPMPGSPATASPTLTPTLFKQE-RDELPLER--IPFPT 191
+               QL +L A V     + S ++T +     +    L P ++  + R  LP E   +    
+Sbjct:   210 LDQLRRLQAMVIQTANKASSSSTCVLVLLFSFCLLLVPAMYSSDTRGSLPAEHRVLSRQL 269
+
+Query:   192 PSL-SDYSPTLKPSTL-AESSDVAQHPAVSVA 221
+              +L S+  P L+P  L +E    + +P +  A
+Sbjct:   270 RALPSEDPPQLEPPALQSEVPKDSLNPELQAA 301
+
+
+>sp|Q5UEM7|CR3L4_RAT Cyclic AMP-responsive element-binding protein 3-like
+            protein 4 OS=Rattus norvegicus GN=Creb3l4 PE=2 SV=1
+        Length = 367
+
+ Score = 111 (44.1 bits), Expect = 0.0038, Sum P(2) = 0.0038
+ Identities = 29/87 (33%), Positives = 50/87 (57%)
+
+Query:    60 GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME 119
+             GQE     ++LP  K     +E+  ++I R +RN+ +AQ SR RK+  ++ LE+      
+Sbjct:   170 GQEGVTLPSHLPLTKA----EERILKKIRRKIRNKQSAQDSRRRKKEYIDGLESRVAACS 225
+
+Query:   120 QQNQFLLQRLSQMEAENNRLSQQLAQL 146
+             +QNQ L +++ ++E +N  L  Q+ QL
+Sbjct:   226 EQNQKLQRKVQELERQNISLVAQVHQL 252
+
+ Score = 37 (18.1 bits), Expect = 0.0038, Sum P(2) = 0.0038
+ Identities = 9/18 (50%), Positives = 11/18 (61%)
+
+Query:    19 PASEVPVLTVSPADTSLN 36
+             P S+VP L  S +D  LN
+Sbjct:    29 PPSKVPGLQKSESDDFLN 46
+
+
+>sp|P54842|MAFB_RAT Transcription factor MafB OS=Rattus norvegicus GN=Mafb PE=1
+            SV=1
+        Length = 323
+
+ Score = 108 (43.1 bits), Expect = 0.0039, P = 0.0039
+ Identities = 41/152 (26%), Positives = 70/152 (46%)
+
+Query:    14 SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR 73
+             S  A+PA ++P     P   +  +A         E+      R S  Q + +    L   
+Sbjct:   174 SSAASPAQQLPTSHPGPGPHAAAAATAAGSNGSVED------RFSDDQLVSMSVRELNRH 227
+
+Query:    74 KRAKTEDEKEQ-RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+              R  T+DE  + ++  R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L Q +S++
+Sbjct:   228 LRGFTKDEVIRLKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRL 287
+
+Query:   133 EAENNRLSQQLAQLA-AEVRGSRANTPMPGSP 163
+               E +    +  +LA +  R + + +  P SP
+Sbjct:   288 ARERDAYKVKCEKLANSGFREAGSTSDSPSSP 319
+
+
+>sp|A5PKJ4|MK07_BOVIN Mitogen-activated protein kinase 7 OS=Bos taurus GN=MAPK7
+            PE=2 SV=1
+        Length = 781
+
+ Score = 113 (44.8 bits), Expect = 0.0039, P = 0.0039
+ Identities = 67/243 (27%), Positives = 94/243 (38%)
+
+Query:     3 CDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR---KSW 59
+             C ME    +    P  PA +   LT+ P   +   A  K +    +  K A K    KS 
+Sbjct:   429 CAMESPPPAPLPCPG-PAPDTIDLTLQPPPPASEPAPPKKEGAISDNTKAALKAALLKSL 487
+
+Query:    60 GQEL---PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKI 116
+                L   P      P  ++  T  E+++ R E+  R +  A+  RE++R E E+ E    
+Sbjct:   488 RSRLRDGPSAPLEAPEPRKPVTAQERQREREEKRRRRQERAK-EREKRRQERERKERGAG 546
+
+Query:   117 QMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPT-LF 175
+                  +   L  L  + ++N+R    L +     R +R   P   +PATA P   P    
+Sbjct:   547 VSGGPSADPLAGL--VLSDNDR---SLLE-----RWTRMAQPPAPAPATARPPSPPAGPA 596
+
+Query:   176 KQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDG--SALPLF 233
+              Q    LP    P P P+     P   P T A S  +A  P V   GL G    S LP F
+Sbjct:   597 TQPTGPLPQPACPPPAPAAG---PAA-PQTTAASGLLAPQPLVPPPGLPGPSALSVLPYF 652
+
+Query:   234 DLG 236
+               G
+Sbjct:   653 PSG 655
+
+
+>sp|P01101|FOS_MOUSE Proto-oncogene c-Fos OS=Mus musculus GN=Fos PE=1 SV=1
+        Length = 380
+
+ Score = 109 (43.4 bits), Expect = 0.0040, P = 0.0040
+ Identities = 65/247 (26%), Positives = 101/247 (40%)
+
+Query:     2 SCDMEKTMSSVDSLPATPASEVPVL--TVSPADTSL-NSADVKTQEVKPEEKKPAKKRKS 58
+             S +   T++++ + P       P L  +V+P+ T   +   + TQ      +    K  S
+Sbjct:    57 SANFIPTVTAISTSPDLQWLVQPTLVSSVAPSQTRAPHPYGLPTQSAGAYARAGMVKTVS 116
+
+Query:    59 WGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQM 118
+              G+   + +     +    + +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+
+Sbjct:   117 GGRAQSIGRRG---KVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQL 172
+
+Query:   119 EQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLF 175
+             E +   L   ++ +  E  +L   LA      +    +   P   + AS  LT   P   
+Sbjct:   173 EDEKSALQTEIANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMSVASLDLTGGLPEAS 231
+
+Query:   176 KQERDE---LPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS-VAGLEGDGSALP 231
+               E +E   LPL   P P PSL            AE  D    PA S  +G E   S +P
+Sbjct:   232 TPESEEAFTLPLLNDPEPKPSLEPVKSISNVELKAEPFDDFLFPASSRPSGSETSRS-VP 290
+
+Query:   232 LFDL-GS 237
+               DL GS
+Sbjct:   291 DVDLSGS 297
+
+
+>sp|O13024|INCEA_XENLA Inner centromere protein A OS=Xenopus laevis GN=incenp-A
+            PE=1 SV=1
+        Length = 873
+
+ Score = 113 (44.8 bits), Expect = 0.0045, P = 0.0045
+ Identities = 35/137 (25%), Positives = 65/137 (47%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR-----NRA 95
+             + +E    +KK A+ ++   QE    +  L  ++R + E EKE+   E+ L+      RA
+Sbjct:   629 REEEELERQKKIAEAKRLAEQERE--RQLLAEKERLRAEREKERIEKEKALQLQRELERA 686
+
+Query:    96 AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA 155
+             A +  ++R+  E  K   ++ ++EQ+     Q   +++ E  R +++ A +AA       
+Sbjct:   687 AQEKEQQRREAEERKKREQQERLEQERLRKEQEAKRLQEEEQRKAKEQAAVAASAPVMNV 746
+
+Query:   156 NTPMPGSPATASPTLTP 172
+                M  SPA  S  +TP
+Sbjct:   747 TVDMQNSPACESYEMTP 763
+
+ Score = 97 (39.2 bits), Expect = 0.26, P = 0.23
+ Identities = 29/86 (33%), Positives = 52/86 (60%)
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE--KIQMEQQNQF 124
+             K N P +   KTE EKE++R++  LR +  A+  R++K  E +K + E  K++ E++ + 
+Sbjct:   484 KRNTPLKTDPKTE-EKERQRLD-ALRKKEEAELQRKQKIEEGKKRKQEELKVRREERLRK 541
+
+Query:   125 LLQ---RLSQMEAENNR-LSQQLAQL 146
+             +LQ   R+ Q+E E  + + Q+ AQ+
+Sbjct:   542 VLQARERVEQLEEEKKKKIEQKFAQI 567
+
+ Score = 85 (35.0 bits), Expect = 5.3, P = 0.995
+ Identities = 35/124 (28%), Positives = 58/124 (46%)
+
+Query:    38 ADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA----KTEDEKEQRRIERVLRN 93
+             A  K    K EE +  +K++   + L V +     R+      K  +E+E  R +++   
+Sbjct:   584 AKKKMTAKKQEEVECRRKQEEEARRLKVKQMEEEERRHQELLQKKREEEELERQKKIAEA 643
+
+Query:    94 RAAAQTSRERKRL-EMEKL--ENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+             +  A+  RER+ L E E+L  E EK ++E++    LQR  ++E       QQ  +  AE 
+Sbjct:   644 KRLAEQERERQLLAEKERLRAEREKERIEKEKALQLQR--ELERAAQEKEQQRRE--AEE 699
+
+Query:   151 RGSR 154
+             R  R
+Sbjct:   700 RKKR 703
+
+
+>sp|Q2PFS4|MAFB_MACFA Transcription factor MafB OS=Macaca fascicularis GN=MAFB
+            PE=2 SV=1
+        Length = 323
+
+ Score = 107 (42.7 bits), Expect = 0.0050, P = 0.0050
+ Identities = 42/152 (27%), Positives = 70/152 (46%)
+
+Query:    14 SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR 73
+             S  A+PA ++P     P   +  SA         E+      R S  Q + +    L   
+Sbjct:   174 SSAASPAQQLPTSHPGPGPHATASATAAGGNGSVED------RFSDDQLVSMSVRELNRH 227
+
+Query:    74 KRAKTEDEKEQ-RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+              R  T+DE  + ++  R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L Q +S++
+Sbjct:   228 LRGFTKDEVIRLKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRL 287
+
+Query:   133 EAENNRLSQQLAQLA-AEVRGSRANTPMPGSP 163
+               E +    +  +LA +  R + + +  P SP
+Sbjct:   288 ARERDAHKVKCEKLANSGFREAGSTSDSPSSP 319
+
+
+>sp|Q5KGK5|EIF3A_CRYNE Eukaryotic translation initiation factor 3 subunit A
+            OS=Cryptococcus neoformans GN=TIF32 PE=3 SV=1
+        Length = 952
+
+ Score = 113 (44.8 bits), Expect = 0.0050, P = 0.0050
+ Identities = 55/195 (28%), Positives = 78/195 (40%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             K +E K + ++   KRK   +E  + +      ++ K E+E  Q+  E     RAAA   
+Sbjct:   747 KIEEEKAQLREKVIKRKREEKERKLKEAREAEERKRKEEEEAAQKAEEEA---RAAAALE 803
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRL-SQMEAENNRLSQQLAQLAAEVRGSRANTPM 159
+              E    E  + E E      Q Q  L+R+ +Q E E   L ++ A+ AA   G  A  P 
+Sbjct:   804 AEAAAAEQRRAEREA-----QRQSDLERIRAQQEREEEALRRRQAEKAAATSGGSAYRP- 857
+
+Query:   160 PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDY----SPTLKPSTLAESSDVAQH 215
+             P    T  PT +P         L   R      S        SP   PS  A +S  A +
+Sbjct:   858 PARAGTTPPTASPAPSSGGPSWLA-RRKAMEAQSAGGAPVASSPKPVPSNSAAASAPASN 916
+
+Query:   216 PAVSVAGLEGDGSAL 230
+                S+AG E +  AL
+Sbjct:   917 GPESIAG-EAEKPAL 930
+
+
+>sp|O97930|FOS_PIG Proto-oncogene c-Fos OS=Sus scrofa GN=FOS PE=3 SV=2
+        Length = 380
+
+ Score = 108 (43.1 bits), Expect = 0.0051, P = 0.0051
+ Identities = 51/175 (29%), Positives = 73/175 (41%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  L+   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMSVASLDLSGGLPEAATPESEEAFTLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GS 237
+             L   P P PS+            AE  D    PA S  G      ++P  DL GS
+Sbjct:   243 LLNDPEPKPSVEPVKKVSSMELKAEPFDDFLFPASSRPGGSETARSVPDMDLSGS 297
+
+
+>sp|P01102|FOS_MSVFB p55-v-Fos-transforming protein OS=FBJ murine osteosarcoma
+            virus GN=V-FOS PE=3 SV=1
+        Length = 381
+
+ Score = 108 (43.1 bits), Expect = 0.0052, P = 0.0051
+ Identities = 55/176 (31%), Positives = 75/176 (42%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDKKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  LT   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMSVASLDLTGGLPEASTPESEEAFTLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS-VAGLEGDGSALPLFDL-GS 237
+             L   P P PSL            AE  D    PA S  +G E   S +P  DL GS
+Sbjct:   243 LLNDPEPKPSLEPVKSISNVELKAEPFDDFLFPASSRPSGSETSRS-VPNVDLSGS 297
+
+
+>sp|Q09926|PCR1_SCHPO Transcription factor pcr1 OS=Schizosaccharomyces pombe
+            GN=pcr1 PE=1 SV=1
+        Length = 171
+
+ Score = 100 (40.3 bits), Expect = 0.0057, P = 0.0057
+ Identities = 40/163 (24%), Positives = 69/163 (42%)
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERKR---LEMEKLENEKIQMEQQNQFLLQRLS 130
+             K+ + +DEK +R +ER   NR AA   R++K+    E+E+  N   +  ++ Q LL +L 
+Sbjct:     4 KKKEVDDEKRRRILER---NRIAASKFRQKKKEWIKELEQTANAAFEQSKRLQLLLSQLQ 60
+
+Query:   131 Q--MEAENNRLSQQLAQLAAEVRG-----SRANTPMPGSPATASPTLTP---TLFKQERD 180
+             Q     ++  L+ Q  Q + ++R        A+  +        P   P    + +    
+Sbjct:    61 QEAFRLKSQLLAHQGCQCSVKIRSVLTDFQTAHNALHSQHMAYRPVQPPPGDNMLESVVS 120
+
+Query:   181 ELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL 223
+               P +  P       +  P + PS+   +SD  Q    S AGL
+Sbjct:   121 VSPTQMHPSLQGLPPNQHPQMPPSSQQPNSDDVQQHMFSAAGL 163
+
+
+>sp|Q90596|MAFK_CHICK Transcription factor MafK OS=Gallus gallus GN=MAFK PE=1
+            SV=1
+        Length = 156
+
+ Score = 98 (39.6 bits), Expect = 0.0062, P = 0.0062
+ Identities = 40/159 (25%), Positives = 73/159 (45%)
+
+Query:    47 PEEKKPAKKRKSWGQELPVPKTN---------LPPRKRAKTEDEK---EQRRIERVLRNR 94
+             P+  K  K ++  G+  PV   +         L    R  T++E    +QRR  R L+NR
+Sbjct:     5 PKPNKALKVKEESGENAPVLSDDELVSMSVRELNQHLRGLTKEEVIRLKQRR--RTLKNR 62
+
+Query:    95 AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+               A + R ++  + E+LE ++++++Q+ + L +  S M+ E + L  +   L    R + 
+Sbjct:    63 GYAASCRIKRVTQKEELERQRVELQQEVEKLARENSSMKLELDALRSKYEALQTFAR-TV 121
+
+Query:   155 ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPS 193
+             A  P+  +P   + T   T+ K    E+    +PF   S
+Sbjct:   122 ARGPI--TPTKVATTSVITIVKSA--EISSSSVPFSAAS 156
+
+
+>sp|Q504L8|MAFB_XENTR Transcription factor MafB OS=Xenopus tropicalis GN=mafb
+            PE=2 SV=1
+        Length = 316
+
+ Score = 106 (42.4 bits), Expect = 0.0063, P = 0.0062
+ Identities = 35/137 (25%), Positives = 66/137 (48%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ-RRI 87
+             SP+ +S +S  ++    + +     + R S  Q + +    L    R  T+D+  + ++ 
+Sbjct:   176 SPSGSSSSSQQLQNSHQQHQNSSAVEDRFSDDQLVSMSVRELNRHLRGFTKDDVIRLKQK 235
+
+Query:    88 ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA 147
+              R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L   +S++  E +    +  +LA
+Sbjct:   236 RRTLKNRGYAQSCRFKRVQQKHHLENEKTQLIQQVEQLKLEVSRLARERDAYKIKCEKLA 295
+
+Query:   148 -AEVRGSRANTPMPGSP 163
+                 R + + +  P SP
+Sbjct:   296 NTTFREAGSTSDNPSSP 312
+
+
+>sp|Q1DQC1|PAN1_COCIM Actin cytoskeleton-regulatory complex protein PAN1
+            OS=Coccidioides immitis GN=PAN1 PE=3 SV=1
+        Length = 1485
+
+ Score = 114 (45.2 bits), Expect = 0.0065, P = 0.0065
+ Identities = 69/271 (25%), Positives = 102/271 (37%)
+
+Query:    16 PATPASEVPV-LTVS-PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR 73
+             P  P+ +V   +T S  A  + +S        + EEK+ A K++   QE    +  L   
+Sbjct:  1009 PPPPSRKVRTDVTESVEAKKAEDSVVASKARAEQEEKERALKQEQEAQE--AERKQL--E 1064
+
+Query:    74 KRAKTEDEKEQRRIERV-LRNRAAAQTSRERKRLEME----KLENEKIQMEQQNQFLLQR 128
+               AK ++E+  R  E    R RA  +  R+ K  + E    K + EK   E++ +   QR
+Sbjct:  1065 DEAKRQEEELAREKEAAQARLRALEEQVRQGKIKKQEEKRRKQQAEKEAKEKEARLAAQR 1124
+
+Query:   129 --LSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPT---LTPTLFKQERDELP 183
+               L   +A    L +QL  +  E   S    P+  +P T++PT   + P  F Q     P
+Sbjct:  1125 AELEAAQARERELQRQLENMGEEESSSDDEGPIEITPQTSTPTQSQVLPAPFPQPSP--P 1182
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHS 243
+                +P P     D     +PS    S      P       E + S  P F     L   S
+Sbjct:  1183 TAALPVPAIQEPDQDVAREPSPTLPSPVETPEPVKQTLPPETE-SRNPYF---RQLSQQS 1238
+
+Query:   244 TDDVAAPLSDDDFNRLFHGDSSVEPDS-SVF 273
+                 A P  +      FH  +  E  S S F
+Sbjct:  1239 APSAAQPTHEMQSTNPFHRLAQQESTSKSAF 1269
+
+
+>sp|P54841|MAFB_MOUSE Transcription factor MafB OS=Mus musculus GN=Mafb PE=1
+            SV=1
+        Length = 323
+
+ Score = 106 (42.4 bits), Expect = 0.0065, P = 0.0065
+ Identities = 41/152 (26%), Positives = 70/152 (46%)
+
+Query:    14 SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR 73
+             S  A+PA ++P     P   +  +A         E+      R S  Q + +    L   
+Sbjct:   174 SSAASPAQQLPTSHPGPGPHATAAATAAGGNGSVED------RFSDDQLVSMSVRELNRH 227
+
+Query:    74 KRAKTEDEKEQ-RRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+              R  T+DE  + ++  R L+NR  AQ+ R ++  +   LENEK Q+ QQ + L Q +S++
+Sbjct:   228 LRGFTKDEVIRLKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRL 287
+
+Query:   133 EAENNRLSQQLAQLA-AEVRGSRANTPMPGSP 163
+               E +    +  +LA +  R + + +  P SP
+Sbjct:   288 ARERDAYKVKCEKLANSGFREAGSTSDSPSSP 319
+
+
+>sp|Q5A2K0|NST1_CANAL Stress response protein NST1 OS=Candida albicans GN=NST1
+            PE=3 SV=1
+        Length = 1399
+
+ Score = 113 (44.8 bits), Expect = 0.0078, P = 0.0078
+ Identities = 42/189 (22%), Positives = 84/189 (44%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             K +E K +E++  KK ++  Q+       L   +R K E+E++Q+  E+  +     Q  
+Sbjct:   800 KIEEQKRKEEEHRKKVEAQ-QKREAEAKKLKEERRRKAEEERKQKEEEKKQKELLKKQKE 858
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM- 159
+              E+++ E+ + + E+ + ++  +   +R   M  +++ L++Q+    +++  + AN P+ 
+Sbjct:   859 EEKRQKELLRKQREEEKEKEAARLEEERTKLMVNDDDELARQIEVEKSKLSAAVANNPLL 918
+
+Query:   160 -------PGS-PATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTL-AESS 210
+                    PGS P T S    P L   +     L    F        S    P T   +S 
+Sbjct:   919 NHLYQPSPGSAPTTPSTANLPALSPLQSASAKLMSQQFEQQHQQQVSQEKLPQTSNIQSP 978
+
+Query:   211 DVAQHPAVS 219
+             +   HP++S
+Sbjct:   979 NQQPHPSIS 987
+
+ Score = 86 (35.3 bits), Expect = 7.0, P = 0.9991
+ Identities = 28/115 (24%), Positives = 62/115 (53%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             K +E+K  ++K   K K   Q+L   K     RK  + + ++E++R+++  + +A  +  
+Sbjct:   729 KERELKKLKQKEKAKEKKRLQQLA--KEEERKRKEEELKAKEEEQRLQKE-KLKAEQKKR 785
+
+Query:   101 RERKRLEMEKLENEKIQ----MEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+             +E  RL+ E+ + +KI+     E++++  ++   + EAE  +L ++  + A E R
+Sbjct:   786 KEEARLKKEEEKKKKIEEQKRKEEEHRKKVEAQQKREAEAKKLKEERRRKAEEER 840
+
+
+>sp|Q8VCH8|UBXN4_MOUSE UBX domain-containing protein 4 OS=Mus musculus GN=Ubxn4
+            PE=1 SV=1
+        Length = 506
+
+ Score = 108 (43.1 bits), Expect = 0.0079, P = 0.0079
+ Identities = 57/225 (25%), Positives = 92/225 (40%)
+
+Query:    19 PASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKT 78
+             P S+   L  +PA + + S      E    +    +      Q      T    R   K 
+Sbjct:   146 PESKNTELCETPATSDIKSDTATGGECTGHDSHSQEPHGCSNQRPAEDLTVRVERLTKKL 205
+
+Query:    79 EDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN- 137
+             E+ +E++R E   R     +   ER++   E L+ ++ Q E+  + +L+  S+ +AE+  
+Sbjct:   206 EERREEKRKEEAQRE---IKKEIERRKTGKEMLDYKRKQEEELTKRMLEERSREKAEDRA 262
+
+Query:   138 ---RLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTP---TLFKQE---RDELPLERIP 188
+                R+ QQ+A   AE R +R         A A+  LT    T  K+E   RD   + RI 
+Sbjct:   263 ARERIKQQIALDRAE-RAARFAKTKEAEAAKAAALLTKQAGTEVKRESTARDRSTIARIQ 321
+
+Query:   189 FPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLF 233
+             F  P  S ++    PS  A   +  Q  A +V    G+ S   +F
+Sbjct:   322 FRLPDGSSFTNQF-PSD-APLEEARQFAAQTVGNTYGNFSLATMF 364
+
+
+>sp|Q502F0|CR3LA_DANRE Cyclic AMP-responsive element-binding protein 3-like
+            protein 3-A OS=Danio rerio GN=creb3l3a PE=2 SV=1
+        Length = 428
+
+ Score = 107 (42.7 bits), Expect = 0.0080, P = 0.0079
+ Identities = 50/195 (25%), Positives = 86/195 (44%)
+
+Query:     8 TMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK 67
+             T  + ++  A PA+  P LTV   D  L+       +V  +  +     +   + L    
+Sbjct:   138 TQCASETPQAQPATGFP-LTVK--DLLLSGTPETAAKVSQQSYQELILTEDEKRLLAKEG 194
+
+Query:    68 TNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQ 127
+               LP +      +E+  ++I R +RN+ +AQ SR++K+  ++ LE+        N  L +
+Sbjct:   195 MTLPNQFPLTKYEERILKKIRRKIRNKQSAQESRKKKKEYIDGLESRMAACSAHNHELQR 254
+
+Query:   128 RLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERI 187
+             ++ Q+E  N  L +QL +L A V    +N P+          L+ TL       LP  + 
+Sbjct:   255 KVFQLEKCNISLMEQLRRLQALVMNG-SNKPVQAGTCVLVLLLSFTLIL-----LPNLK- 307
+
+Query:   188 PFPTPSLS---DYSP 199
+             PF    +S   D+SP
+Sbjct:   308 PFTDTKVSQHGDFSP 322
+
+
+>sp|P10158|FOSL1_RAT Fos-related antigen 1 OS=Rattus norvegicus GN=Fosl1 PE=2
+            SV=1
+        Length = 275
+
+ Score = 104 (41.7 bits), Expect = 0.0081, P = 0.0080
+ Identities = 51/185 (27%), Positives = 84/185 (45%)
+
+Query:    64 PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL------EMEKLENEKIQ 117
+             P P     P ++   E+E E+RR+ R     AAA+    RK L      E +KLE+EK  
+Sbjct:    90 PPPGVRRRPCEQISPEEE-ERRRVRRERNKLAAAKCRNRRKELTDFLQAETDKLEDEKSG 148
+
+Query:   118 MEQQNQFLLQRLSQMEA--ENNRLSQQLAQLAAEVRGSRANTPMPGSP-ATASPTLTPTL 174
+             ++++ + L ++  ++E   E +R   ++ +   +  G  ++T   GSP     P   P +
+Sbjct:   149 LQREIEELQKQKERLELVLEAHRPICKIPEEDKKDTGGTSSTSGAGSPPGPCRPV--PCI 206
+
+Query:   175 FKQERDELPLERIPFPT----PSLSDYSPTLK---PSTLAESSDVAQHPAVSVAGLEGDG 227
+                    L  E +  PT    PSL+ ++P+L    PST    S   +  + S     GD 
+Sbjct:   207 SLSPGPVLEPEALHTPTLMTTPSLTPFTPSLVFTYPSTPEPCSSAHRKSSSS----SGDP 262
+
+Query:   228 SALPL 232
+             S+ PL
+Sbjct:   263 SSDPL 267
+
+
+>sp|P97875|JDP2_MOUSE Jun dimerization protein 2 OS=Mus musculus GN=Jdp2 PE=1
+            SV=2
+        Length = 163
+
+ Score = 98 (39.6 bits), Expect = 0.0081, P = 0.0081
+ Identities = 43/152 (28%), Positives = 71/152 (46%)
+
+Query:    16 PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR 75
+             P+  A  +P L   P  T L S+ + T+E+K  + +      +    L V K    P+  
+Sbjct:     9 PSVTAGSLPGL--GPL-TGLPSSALTTEELKYADIRNIGAMIAPLHFLEV-KLGKRPQP- 63
+
+Query:    76 AKTE-DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA 134
+              K+E DE+E+RR  R  +N+ AA   R +K+   E L+ E  ++E  N  L  ++ +++ 
+Sbjct:    64 VKSELDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLELMNAELKTQIEELKL 123
+
+Query:   135 ENNRLSQQLAQLAAE--VRGSRANTP-MPGSP 163
+             E  +L   L +      VR     TP   G+P
+Sbjct:   124 ERQQLILMLNRHRPTCIVRTDSVRTPESEGNP 155
+
+
+>sp|Q78E65|JDP2_RAT Jun dimerization protein 2 OS=Rattus norvegicus GN=Jdp2
+            PE=1 SV=1
+        Length = 163
+
+ Score = 98 (39.6 bits), Expect = 0.0081, P = 0.0081
+ Identities = 43/152 (28%), Positives = 71/152 (46%)
+
+Query:    16 PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR 75
+             P+  A  +P L   P  T L S+ + T+E+K  + +      +    L V K    P+  
+Sbjct:     9 PSVTAGSLPGL--GPL-TGLPSSALTTEELKYADIRNIGAMIAPLHFLEV-KLGKRPQP- 63
+
+Query:    76 AKTE-DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA 134
+              K+E DE+E+RR  R  +N+ AA   R +K+   E L+ E  ++E  N  L  ++ +++ 
+Sbjct:    64 VKSELDEEEERRKRRREKNKVAAARCRNKKKERTEFLQRESERLELMNAELKTQIEELKL 123
+
+Query:   135 ENNRLSQQLAQLAAE--VRGSRANTP-MPGSP 163
+             E  +L   L +      VR     TP   G+P
+Sbjct:   124 ERQQLILMLNRHRPTCIVRTDSVRTPESEGNP 155
+
+
+>sp|P15408|FOSL2_HUMAN Fos-related antigen 2 OS=Homo sapiens GN=FOSL2 PE=1 SV=1
+        Length = 326
+
+ Score = 105 (42.0 bits), Expect = 0.0086, P = 0.0085
+ Identities = 37/125 (29%), Positives = 64/125 (51%)
+
+Query:    68 TNLPPRKRAK--TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             T +  R+R +  + +E+E+RRI R  RN+ AA   R R+R   EKL+ E  ++E++   L
+Sbjct:   108 TTVGRRRRDEQLSPEEEEKRRIRRE-RNKLAAAKCRNRRRELTEKLQAETEELEEEKSGL 166
+
+Query:   126 LQRLSQMEAENNRLSQQLAQLAAEVRGS---RANTPMPG-SPA-TASPTLTPTLFKQERD 180
+              + +++++ E  +L   L       + S   R + P PG  P  +   ++   + KQE  
+Sbjct:   167 QKEIAELQKEKEKLEFMLVAHGPVCKISPEERRSPPAPGLQPMRSGGGSVGAVVVKQE-- 224
+
+Query:   181 ELPLE 185
+               PLE
+Sbjct:   225 --PLE 227
+
+
+>sp|O42290|MAFA_CHICK Transcription factor MafA OS=Gallus gallus GN=MAFA PE=1
+            SV=1
+        Length = 286
+
+ Score = 104 (41.7 bits), Expect = 0.0087, P = 0.0087
+ Identities = 26/79 (32%), Positives = 43/79 (54%)
+
+Query:    89 RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA 148
+             R L+NR  AQ+ R ++  +   LENEK Q++ Q + L Q +S++  E +   ++  +LAA
+Sbjct:   205 RTLKNRGYAQSCRYKRVQQRHILENEKCQLQSQVEQLKQEVSRLAKERDLYKEKYEKLAA 264
+
+Query:   149 EVRGSRANTPMPGSPATAS 167
+               RG       P +P T +
+Sbjct:   265 --RGFPREPSPPAAPKTTA 281
+
+
+>sp|A1C9M5|KAPC_ASPCL Putative transcription factor kapC OS=Aspergillus
+            clavatus GN=kapC PE=3 SV=2
+        Length = 288
+
+ Score = 103 (41.3 bits), Expect = 0.011, Sum P(2) = 0.010
+ Identities = 33/159 (20%), Positives = 67/159 (42%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P+ +L  ++  KT  ++     +R  +NRAA +  R+RK   +  LE +    E   +  
+Sbjct:    83 PQPDLSGQESPKTYGKRPLSTSKRAAQNRAAQRAFRQRKEAHIRDLEGKVKAYETMGE-- 140
+
+Query:   126 LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MPGSPATASPTLTPTLFKQERDELPL 184
+                +  ++AEN +L + +  L + +  ++   P +PG+   + P     +          
+Sbjct:   141 --AIKALQAENYQLREYIINLQSRLLDTQGEVPELPGNIDLSQPRGDIPVPAPPTSGTST 198
+
+Query:   185 ERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL 223
+               +P P P+        +    A + D+     ++VAGL
+Sbjct:   199 SAVPVPPPTAPQQPQPAQNQASAPNDDMNSLNRIAVAGL 237
+
+ Score = 38 (18.4 bits), Expect = 0.011, Sum P(2) = 0.010
+ Identities = 8/17 (47%), Positives = 10/17 (58%)
+
+Query:   299 DSEPVTLEGIEMAHGLP 315
+             D+  +TL   E  HGLP
+Sbjct:   269 DASELTLPKQEPTHGLP 285
+
+
+>sp|P0C865|MK07_RAT Mitogen-activated protein kinase 7 OS=Rattus norvegicus
+            GN=Mapk7 PE=1 SV=1
+        Length = 806
+
+ Score = 109 (43.4 bits), Expect = 0.011, P = 0.011
+ Identities = 69/258 (26%), Positives = 106/258 (41%)
+
+Query:     3 CDMEKTMSSVDSLP--ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKR---K 57
+             C ME   S   +LP  + PA +   LT+ PA  +   A  K +    +  K A K    K
+Sbjct:   429 CAME---SPPPALPPCSGPAPDTVDLTLQPAPPASELAPPKREGAISDNTKAALKAALLK 485
+
+Query:    58 SWGQEL---PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE 114
+             S    L   P      P  ++  T  E+++ R E+  R +  A+  RE++R E E+ E  
+Sbjct:   486 SLRSRLRDGPSAPLEAPEPRKPVTAQERQREREEKRRRRQERAK-EREKRRQERERKERG 544
+
+Query:   115 KIQMEQQNQFLLQRLSQMEAENNR-LSQQLAQLAAEVRGSRANTPMPG-SPATASPTLTP 172
+                +   +   L  L  + ++N+R L ++  ++A     + A  P P   P++A PT  P
+Sbjct:   545 AGTLGGPSTDPLAGL--VLSDNDRSLLERWTRMARPPVPAPAPAPAPTPKPSSAQPTSPP 602
+
+Query:   173 T-LFKQERDEL-PLERIPFPT--PSLSDYSPTLKPS--------TLAESSDVAQHPAVSV 220
+                  Q    L P   IP P   P      P  +P+        T   +S +A    V  
+Sbjct:   603 NGPVSQSTAPLQPAGSIPGPASQPVCPPPGPVPQPAGPVPAPLQTAPSTSLLASQSLVPP 662
+
+Query:   221 AGLEGDGS--ALPLFDLG 236
+             +GL G G+   LP F  G
+Sbjct:   663 SGLPGSGAPEVLPYFPSG 680
+
+
+>sp|Q15424|SAFB1_HUMAN Scaffold attachment factor B1 OS=Homo sapiens GN=SAFB
+            PE=1 SV=4
+        Length = 915
+
+ Score = 109 (43.4 bits), Expect = 0.013, P = 0.013
+ Identities = 32/95 (33%), Positives = 52/95 (54%)
+
+Query:    50 KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEM 108
+             K+P K R S        ++    R +A+ E E E+ R+E + R R A Q  R ER+R+E 
+Sbjct:   609 KEPRKSRDSESHSRVRERSEREQRMQAQWERE-ERERLE-IARERLAFQRQRLERERMER 666
+
+Query:   109 EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL 143
+             E+LE E++ +E + +   +R+ + E E  R  Q+L
+Sbjct:   667 ERLERERMHVEHERRREQERIHR-EREELRRQQEL 700
+
+
+>sp|O60841|IF2P_HUMAN Eukaryotic translation initiation factor 5B OS=Homo
+            sapiens GN=EIF5B PE=1 SV=4
+        Length = 1220
+
+ Score = 110 (43.8 bits), Expect = 0.014, P = 0.014
+ Identities = 60/257 (23%), Positives = 109/257 (42%)
+
+Query:     7 KTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE--EKKPAKKRKSWGQELP 64
+             K+  +VD+    PASE    T + A+   N  D K ++ K +  EK+  +K K  G    
+Sbjct:   282 KSKVTVDT-GVIPASEEKAETPTAAEDD-NEGDKKKKDKKKKKGEKEEKEKEKKKGPSKA 339
+
+Query:    65 VPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF 124
+               K       + K E+E+++R  E     R       E KR E E+LE EK + ++Q + 
+Sbjct:   340 TVKAMQEALAKLKEEEERQKREEEE----RIKRLEELEAKRKEEERLEQEKRERKKQKE- 394
+
+Query:   125 LLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPL 184
+               +R  +++ E   L++  +Q  A  R + A   +  +     P+         +D LP 
+Sbjct:   395 -KERKERLKKEGKLLTK--SQREARAR-AEATLKLLQAQGVEVPS---------KDSLPK 441
+
+Query:   185 ERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL-EGDGSALPLF-DLGSDLKHH 242
+             +R  +           L+   ++ES ++     V   G+ E + +  P+  +   D +  
+Sbjct:   442 KRPIYEDKKRKKIPQQLESKEVSESMELCAAVEVMEQGVPEKEETPPPVEPEEEEDTEDA 501
+
+Query:   243 STDDVAAPLSDDDFNRL 259
+               DD  A  SD++  ++
+Sbjct:   502 GLDDWEAMASDEETEKV 518
+
+
+>sp|Q5RDE1|IF2P_PONAB Eukaryotic translation initiation factor 5B OS=Pongo
+            abelii GN=EIF5B PE=2 SV=2
+        Length = 1220
+
+ Score = 110 (43.8 bits), Expect = 0.014, P = 0.014
+ Identities = 61/260 (23%), Positives = 110/260 (42%)
+
+Query:     6 EKTMSSVDSLPA--TPASEVPVLTVSPADTSLNSADVKTQEVKPE--EKKPAKKRKSWGQ 61
+             E+T+ S  +L     PASE    T + A+   N  D K ++ K +  EK+  +K K  G 
+Sbjct:   278 EETVKSKVTLDTGVIPASEEKAETPTAAEDD-NEGDKKKKDKKKKKGEKEEKEKEKKKGP 336
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+                  K       + K E+E+++R  E     R       E KR E E+LE EK + ++Q
+Sbjct:   337 SKATVKAMQEALAKLKEEEERQKREEEE----RIKRLEELEAKRKEEERLEQEKRERKKQ 392
+
+Query:   122 NQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDE 181
+              +   +R  +++ E   L++  +Q  A  R + A   +  +     P+         +D 
+Sbjct:   393 KE--KERKERLKKEGKLLTK--SQREARAR-AEATLKLLQAQGVEVPS---------KDS 438
+
+Query:   182 LPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL-EGDGSALPLF-DLGSDL 239
+             LP +R  +           L+   ++ES ++     V   G+ E + +  P+  +   D 
+Sbjct:   439 LPKKRPIYEDKKRKKIPQQLESKEVSESMELCAAVEVMEQGVPEKEETPPPVEPEEEEDT 498
+
+Query:   240 KHHSTDDVAAPLSDDDFNRL 259
+             +    DD  A  SD++  ++
+Sbjct:   499 EDAGLDDWEAMASDEETEKV 518
+
+
+>sp|Q9M7Q3|AI5L6_ARATH ABSCISIC ACID-INSENSITIVE 5-like protein 6
+            OS=Arabidopsis thaliana GN=ABF3 PE=1 SV=1
+        Length = 454
+
+ Score = 105 (42.0 bits), Expect = 0.015, P = 0.014
+ Identities = 47/145 (32%), Positives = 72/145 (49%)
+
+Query:    14 SLPATPASEV-P-VLTVS--PADTSLNSA-DVKT----QEVKP-EEKKPAKKRKS-WGQE 62
+             S PAT   EV P +L +   P + +L  A D KT      V P  +  P    KS     
+Sbjct:   291 SQPATQCQEVKPSILGIHNHPMNNNLLQAVDFKTGVTVAAVSPGSQMSPDLTPKSALDAS 350
+
+Query:    63 L-PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+             L PVP      RK     ++  +RR +R+++NR +A  SR RK+    +LE E  Q+++ 
+Sbjct:   351 LSPVPYMFGRVRKTGAVLEKVIERRQKRMIKNRESAARSRARKQAYTMELEAEIAQLKEL 410
+
+Query:   122 NQFLLQRLSQ-MEAENNRLSQQLAQ 145
+             N+ L ++  + ME + N+L + L Q
+Sbjct:   411 NEELQKKQVEIMEKQKNQLLEPLRQ 435
+
+
+>sp|A9V549|EIF3A_MONBE Eukaryotic translation initiation factor 3 subunit A
+            OS=Monosiga brevicollis GN=33388 PE=3 SV=1
+        Length = 1052
+
+ Score = 109 (43.4 bits), Expect = 0.016, P = 0.015
+ Identities = 41/140 (29%), Positives = 65/140 (46%)
+
+Query:    39 DVKTQEVKPEEKKP-AKKRKSWGQELPVPKTNLPPRKRAKTEDEK------EQRRI--ER 89
+             D   +E   E +K    K   + Q +   K  L   +R +  +EK      EQRRI  E 
+Sbjct:   764 DAYIEEKTAERRKEYMAKLDDFKQRMQEQKIRLEREERERKREEKRRAEEEEQRRIKQEE 823
+
+Query:    90 VLRNRAAAQTSRERKRLEMEKLEN-EKIQMEQQNQFLLQRLSQMEA-ENNRLSQQLAQLA 147
+               R +   +  RE++R E  KLE  E+ +ME+  +   QR  Q+ A E  +LS   AQ +
+Sbjct:   824 EDRKQREREAKREQERQEQLKLEEAERKKMEEATKLQRQREEQVRAREQEKLSNLSAQTS 883
+
+Query:   148 AEV--RGSRANTPMPGSPAT 165
+                  R +R++ P   +P++
+Sbjct:   884 QPTWKRSARSDAPTTAAPSS 903
+
+ Score = 90 (36.7 bits), Expect = 1.9, P = 0.85
+ Identities = 35/141 (24%), Positives = 63/141 (44%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEM 108
+             E+K A++RK +  +L   K  +  +K     +E+E++R E+    RA  +  R  K+ E 
+Sbjct:   768 EEKTAERRKEYMAKLDDFKQRMQEQKIRLEREERERKREEK---RRAEEEEQRRIKQEEE 824
+
+Query:   109 EKLENEK-IQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS 167
+             ++ + E+  + EQ+ Q   ++L   EAE  ++ +            RA      S  +A 
+Sbjct:   825 DRKQREREAKREQERQ---EQLKLEEAERKKMEEATKLQRQREEQVRAREQEKLSNLSAQ 881
+
+Query:   168 PTLTPTLFKQERDELPLERIP 188
+              T  PT  +  R + P    P
+Sbjct:   882 -TSQPTWKRSARSDAPTTAAP 901
+
+
+>sp|Q9UKV3|ACINU_HUMAN Apoptotic chromatin condensation inducer in the nucleus
+            OS=Homo sapiens GN=ACIN1 PE=1 SV=1
+        Length = 1341
+
+ Score = 110 (43.8 bits), Expect = 0.016, P = 0.016
+ Identities = 53/190 (27%), Positives = 88/190 (46%)
+
+Query:    46 KPEEKKPAKKRKSWGQELP--VPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-E 102
+             K  E    K+ K  G+E+P   P+  +  R + ++++++   R  R  R++  A+ S   
+Sbjct:   294 KSREAPILKEFKEEGEEIPRVKPEEMMDERPKTRSQEQEVLERGGRFTRSQEEARKSHLA 353
+
+Query:   103 RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN--RLSQ--QLAQLAA--EVRGSRAN 156
+             R++ E E      ++ E++     Q L +     +  RL++  + A L A  E   S   
+Sbjct:   354 RQQQEKEMKTTSPLEEEEREIKSSQGLKEKSKSPSPPRLTEDRKKASLVALPEQTASEEE 413
+
+Query:   157 TPMPG-SPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSD--VA 213
+             TP P  +   +SP   P L  +E  E P+E  P P P L   SP   P+T A++ +  V+
+Sbjct:   414 TPPPLLTKEASSPPPHPQLHSEEEIE-PMEG-PAP-PVLIQLSP---PNTDADTRELLVS 467
+
+Query:   214 QHPAVSVAGL 223
+             QH    V GL
+Sbjct:   468 QHTVQLVGGL 477
+
+
+>sp|Q63ZM7|STABP_XENLA STAM-binding protein-like OS=Xenopus laevis GN=stambp
+            PE=2 SV=1
+        Length = 416
+
+ Score = 104 (41.7 bits), Expect = 0.017, P = 0.016
+ Identities = 52/179 (29%), Positives = 77/179 (43%)
+
+Query:    39 DVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR---KRAKTEDEK---EQRRIERVLR 92
+             D KT  V PE+K+  KK K    E+  PK     +   KR K E E+   +QR+ E    
+Sbjct:    79 DYKTANV-PEKKETLKKLK----EIAFPKAEELKKELHKRYKKEYEEYSEKQRKEEEERA 133
+
+Query:    93 NRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL-LQRLSQMEAENNRLSQQLAQLAAEVR 151
+              R A Q   + ++  +  L+ ++ Q EQ   F  + R  ++EAE  R+  Q ++   E  
+Sbjct:   134 RRLALQQQLDAEKQRVALLKQQQEQQEQVQAFEEMMRRKELEAERLRILHQFSK--DEPE 191
+
+Query:   152 GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS 210
+                  +P+   P    P +TP L        P      P P   D S  LKPS+   +S
+Sbjct:   192 AEPLGSPL--IPGMNEPPVTPLL--------PSYGTVQPHPPAVDRS--LKPSSYGSNS 238
+
+
+>sp|Q4QRL3|CC88B_MOUSE Coiled-coil domain-containing protein 88B OS=Mus
+            musculus GN=Ccdc88b PE=1 SV=2
+        Length = 1481
+
+ Score = 110 (43.8 bits), Expect = 0.018, P = 0.018
+ Identities = 49/182 (26%), Positives = 76/182 (41%)
+
+Query:     6 EKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV 65
+             EK    +DS       E  +  +   +T   SA  K  E+  EE +  ++R      L  
+Sbjct:   281 EKAEQLLDSQAEVQGLEAEIRRLRQ-ETQALSAQAKRAELYREEAEALRERAGRLPRLQE 339
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+                    + +A  E  K Q   ERVL     A      ++LE+ +  + ++   Q+   L
+Sbjct:   340 ELRRCREKLQA-AEVFKGQLEEERVLSEALEASKVLLEEQLEVARERSARLHETQRENLL 398
+
+Query:   126 LQ-RLSQMEAENNRLSQQLAQLAAE-----VRGSRANTPMPGSPATAS-PTLTPTLFKQE 178
+             L+ RL +  A+ + L  QL QL  E     +   R+  P PGSP  AS P   P+L  + 
+Sbjct:   399 LRTRLGEAHADLDSLRHQLEQLVEENVELELELQRSLEPPPGSPGEASLPGAAPSLQDEV 458
+
+Query:   179 RD 180
+             R+
+Sbjct:   459 RE 460
+
+ Score = 92 (37.4 bits), Expect = 1.6, P = 0.81
+ Identities = 24/81 (29%), Positives = 42/81 (51%)
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             +R + E E+ Q  +  V R R   Q  R   R  + +LE E+ Q+E Q+Q L +   Q++
+Sbjct:  1164 RRLQNEHERAQMLLAEVSRERGELQGERGELRSRLARLELERAQLEIQSQQLRESNQQLD 1223
+
+Query:   134 AENNRLSQQLAQLAAEVRGSR 154
+                 RL+ Q  +L  ++R ++
+Sbjct:  1224 LSACRLTTQ-CELLTQLRSAQ 1243
+
+
+>sp|P01100|FOS_HUMAN Proto-oncogene c-Fos OS=Homo sapiens GN=FOS PE=1 SV=1
+        Length = 380
+
+ Score = 103 (41.3 bits), Expect = 0.019, P = 0.018
+ Identities = 50/175 (28%), Positives = 72/175 (41%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  LT   P +   E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMSVASLDLTGGLPEVATPESEEAFTLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GS 237
+             L   P P PS+             E  D    PA S         ++P  DL GS
+Sbjct:   243 LLNDPEPKPSVEPVKSISSMELKTEPFDDFLFPASSRPSGSETARSVPDMDLSGS 297
+
+
+>sp|P12841|FOS_RAT Proto-oncogene c-Fos OS=Rattus norvegicus GN=Fos PE=1 SV=1
+        Length = 380
+
+ Score = 103 (41.3 bits), Expect = 0.019, P = 0.018
+ Identities = 51/175 (29%), Positives = 71/175 (40%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   +  S  LT   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACKIPN-DLGFPEEMSVTSLDLTGGLPEATTPESEEAFTLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GS 237
+             L   P P PSL            AE  D    PA S         ++P  DL GS
+Sbjct:   243 LLNDPEPKPSLEPVKNISNMELKAEPFDDFLFPASSRPSGSETARSVPDVDLSGS 297
+
+
+>sp|P19880|YAP1_YEAST AP-1-like transcription factor YAP1 OS=Saccharomyces
+            cerevisiae GN=YAP1 PE=1 SV=2
+        Length = 650
+
+ Score = 96 (38.9 bits), Expect = 0.019, Sum P(2) = 0.019
+ Identities = 36/131 (27%), Positives = 61/131 (46%)
+
+Query:    28 VSPADTS-LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRR 86
+             VSP   +    +  +  E++ E ++   +    G++   PK      K +K +D   + +
+Sbjct:    13 VSPGSLAEFEGSKSRHDEIENEHRRTGTRD---GEDSEQPKKK--GSKTSKKQDLDPETK 67
+
+Query:    87 IERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+              +R  +NRAA +  RERK  +M++LE +K+Q  +  Q       Q E E   L  QL  L
+Sbjct:    68 QKRTAQNRAAQRAFRERKERKMKELE-KKVQSLESIQ------QQNEVEATFLRDQLITL 120
+
+Query:   147 AAEVRGSRANT 157
+               E++  R  T
+Sbjct:   121 VNELKKYRPET 131
+
+ Score = 53 (23.7 bits), Expect = 0.019, Sum P(2) = 0.019
+ Identities = 25/114 (21%), Positives = 50/114 (43%)
+
+Query:   160 PGSPA---TASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHP 216
+             PGS      A+    P+L +  ++++P        P  +  +  L+P + ++S +   + 
+Sbjct:   438 PGSTGIGNNAASNTNPSLLQSSKEDIPFINANLAFPDDNSTNIQLQPFSESQSQNKFDYD 497
+
+Query:   217 AV-SVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPD 269
+                  +  EG+     LF  G  L+    D  AA +SDD+ + + +   + EP+
+Sbjct:   498 MFFRDSSKEGNN----LF--GEFLEDDDDDKKAANMSDDESSLIKNQLINEEPE 545
+
+
+>sp|Q8CH25|SLTM_MOUSE SAFB-like transcription modulator OS=Mus musculus GN=Sltm
+            PE=1 SV=1
+        Length = 1031
+
+ Score = 108 (43.1 bits), Expect = 0.019, P = 0.019
+ Identities = 30/84 (35%), Positives = 49/84 (58%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSR---ERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             R+R +   E+E+R  ER+ R R   +  R   ER+R+E E+LE E+I++EQ+ +   +R+
+Sbjct:   644 RERIRIIREREER--ERLQRERERLEIERQKLERERMERERLERERIRIEQERRREAERI 701
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGS 153
+             ++   E  R  QQL +   E R S
+Sbjct:   702 AREREELRRQQQQL-RYEQEKRNS 724
+
+ Score = 103 (41.3 bits), Expect = 0.069, P = 0.067
+ Identities = 33/117 (28%), Positives = 64/117 (54%)
+
+Query:    39 DVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAK-TEDEKEQRRIERVLRNRAAA 97
+             D + +E+ P EK   ++ +         K  +  R+R +  E E+ +R   R++R R   
+Sbjct:   597 DYRRKEILPFEKMKEQRLREHLVRFERLKQAVEFRRRKEIAERERRERERIRIIREREER 656
+
+Query:    98 QT-SRERKRLEME--KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+             +   RER+RLE+E  KLE E+++ E+  +   +R+ ++E E  R ++++A+   E+R
+Sbjct:   657 ERLQRERERLEIERQKLERERMERERLER---ERI-RIEQERRREAERIAREREELR 709
+
+
+>sp|Q9NWH9|SLTM_HUMAN SAFB-like transcription modulator OS=Homo sapiens GN=SLTM
+            PE=1 SV=2
+        Length = 1034
+
+ Score = 108 (43.1 bits), Expect = 0.020, P = 0.019
+ Identities = 30/84 (35%), Positives = 49/84 (58%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSR---ERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             R+R +   E+E+R  ER+ R R   +  R   ER+R+E E+LE E+I++EQ+ +   +R+
+Sbjct:   645 RERIRIIREREER--ERLQRERERLEIERQKLERERMERERLERERIRIEQERRKEAERI 702
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGS 153
+             ++   E  R  QQL +   E R S
+Sbjct:   703 AREREELRRQQQQL-RYEQEKRNS 725
+
+ Score = 100 (40.3 bits), Expect = 0.15, P = 0.14
+ Identities = 33/117 (28%), Positives = 65/117 (55%)
+
+Query:    39 DVKTQEVKPEEK-KPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA 97
+             D + +E+ P EK K  + R+   +   + +     R+R   E E+ +R   R++R R   
+Sbjct:   598 DYRRKEILPFEKMKEQRLREHLVRFERLRRAMELRRRREIAERERRERERIRIIREREER 657
+
+Query:    98 QT-SRERKRLEME--KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+             +   RER+RLE+E  KLE E+++ E+  +   +R+ ++E E  + ++++A+   E+R
+Sbjct:   658 ERLQRERERLEIERQKLERERMERERLER---ERI-RIEQERRKEAERIAREREELR 710
+
+
+>sp|Q16534|HLF_HUMAN Hepatic leukemia factor OS=Homo sapiens GN=HLF PE=2 SV=1
+        Length = 295
+
+ Score = 101 (40.6 bits), Expect = 0.020, P = 0.020
+ Identities = 39/151 (25%), Positives = 67/151 (44%)
+
+Query:     2 SCDMEKTMSSVDSLPA---TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS 58
+             +C M+  +     LPA   TP+   P     P     + AD+    +  +E    +KRK 
+Sbjct:   142 NC-MQSPIRPGQLLPANRNTPSPIDPDTIQVPVGYEPDPADLALSSIPGQEMFDPRKRKF 200
+
+Query:    59 WGQEL-PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQ 117
+               +EL P P      RK    +D K+ +   R  +N  AA+ SR+ +RL+  ++      
+Sbjct:   201 SEEELKPQPMIK-KARKVFIPDDLKDDKYWARRRKNNMAAKRSRDARRLKENQIAIRASF 259
+
+Query:   118 MEQQNQFLLQRLSQMEAENNRLSQQLAQLAA 148
+             +E++N  L Q ++ +  E  +    LA+  A
+Sbjct:   260 LEKENSALRQEVADLRKELGKCKNILAKYEA 290
+
+
+>sp|Q8BW74|HLF_MOUSE Hepatic leukemia factor OS=Mus musculus GN=Hlf PE=2 SV=1
+        Length = 295
+
+ Score = 101 (40.6 bits), Expect = 0.020, P = 0.020
+ Identities = 39/151 (25%), Positives = 67/151 (44%)
+
+Query:     2 SCDMEKTMSSVDSLPA---TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS 58
+             +C M+  +     LPA   TP+   P     P     + AD+    +  +E    +KRK 
+Sbjct:   142 NC-MQSPIRPGQLLPANRNTPSPIDPDTIQVPVGYEPDPADLALSSIPGQEMFDPRKRKF 200
+
+Query:    59 WGQEL-PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQ 117
+               +EL P P      RK    +D K+ +   R  +N  AA+ SR+ +RL+  ++      
+Sbjct:   201 SEEELKPQPMIK-KARKVFIPDDLKDDKYWARRRKNNMAAKRSRDARRLKENQIAIRASF 259
+
+Query:   118 MEQQNQFLLQRLSQMEAENNRLSQQLAQLAA 148
+             +E++N  L Q ++ +  E  +    LA+  A
+Sbjct:   260 LEKENSALRQEVADLRKELGKCKNILAKYEA 290
+
+
+>sp|Q6CBW0|NST1_YARLI Stress response protein NST1 OS=Yarrowia lipolytica
+            GN=NST1 PE=3 SV=1
+        Length = 889
+
+ Score = 107 (42.7 bits), Expect = 0.021, P = 0.021
+ Identities = 43/157 (27%), Positives = 72/157 (45%)
+
+Query:    74 KRAKTEDEKEQRRIERV-LRNRAAAQTSRERKRLEMEKLENEKIQMEQ-QNQFL-----L 126
+             +R +   EKE+R  E +  R +      RE++RLE E++ENE+++ E+ +N+ L      
+Sbjct:   489 ERMRLAKEKEEREKEELRARQQQEEDERREKERLEEERIENERLEAERIENERLEKEREQ 548
+
+Query:   127 QRLSQMEAENNRLSQQLA-QLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLE 185
+             QRL + E E  R+ ++   Q   E R  RA+  +P S      T  P      +    L 
+Sbjct:   549 QRLEE-EKERQRIKEEREKQKLEEEREKRASMSIPLSKPLPGKTQIPA----SQPGTSLG 603
+
+Query:   186 RIPFPTPSLSDYSPT-LKPSTLAES--SDVAQHPAVS 219
+              +  P P  +  +P  + P + +      + QH A S
+Sbjct:   604 GLQQPVPQAAPVAPVAMMPQSPSPQLPPGLTQHVAQS 640
+
+ Score = 104 (41.7 bits), Expect = 0.045, P = 0.044
+ Identities = 43/158 (27%), Positives = 75/158 (47%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRL 106
+             EEK+ A+ R+   + + + K      +R K E    Q++ E   R +   +  R E +RL
+Sbjct:   477 EEKRLARIREM-EERMRLAKEK---EEREKEELRARQQQEEDERREKERLEEERIENERL 532
+
+Query:   107 EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA---NTPMPGS- 162
+             E E++ENE+++ E++ Q L +   +   +  R  Q+L +   E R S +   + P+PG  
+Sbjct:   533 EAERIENERLEKEREQQRLEEEKERQRIKEEREKQKLEE-EREKRASMSIPLSKPLPGKT 591
+
+Query:   163 --PATASPTLTPTLFK---QERDELPLERIP-FPTPSL 194
+               PA+   T    L +   Q     P+  +P  P+P L
+Sbjct:   592 QIPASQPGTSLGGLQQPVPQAAPVAPVAMMPQSPSPQL 629
+
+ Score = 91 (37.1 bits), Expect = 1.2, P = 0.70
+ Identities = 42/181 (23%), Positives = 72/181 (39%)
+
+Query:    44 EVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER 103
+             E K +EK+  K  +    E    K      ++A+   EKE++R+ R+       + ++E+
+Sbjct:   441 ERKQQEKEREKAARKAASEA---KQKARQEEQARLAREKEEKRLARIREMEERMRLAKEK 497
+
+Query:   104 KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSP 163
+             +  E E+L   + Q E+  +   +RL +   EN RL       A  +   R         
+Sbjct:   498 EEREKEELRARQ-QQEEDERREKERLEEERIENERLE------AERIENERLEKER--EQ 548
+
+Query:   164 ATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL 223
+                         K+ER++  LE       S+S   P  KP    ++   A  P  S+ GL
+Sbjct:   549 QRLEEEKERQRIKEEREKQKLEEEREKRASMS--IPLSKPLP-GKTQIPASQPGTSLGGL 605
+
+Query:   224 E 224
+             +
+Sbjct:   606 Q 606
+
+ Score = 84 (34.6 bits), Expect = 7.0, P = 0.9990
+ Identities = 33/120 (27%), Positives = 59/120 (49%)
+
+Query:    37 SADVKT--QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR 94
+             +A VK   Q+++ E+K    ++++  Q+    K      ++A  E+EK +   ER  R +
+Sbjct:   368 AAQVKAELQQMEEEKKTLDLEKEARDQQRRERKKEKKRAQKAIKEEEKRKAAAEREEREK 427
+
+Query:    95 AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+               A+ + ER RLE E+ + EK   E++      R +  EA+     ++ A+LA E    R
+Sbjct:   428 REAEEA-ERLRLEAERKQQEK---EREKA---ARKAASEAKQKARQEEQARLAREKEEKR 480
+
+ Score = 76 (31.8 bits), Expect = 0.85, Sum P(2) = 0.57
+ Identities = 27/101 (26%), Positives = 48/101 (47%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             +E + ++++  KK K   Q+    +     RK A   +E+E+R  E   R R  A+  ++
+Sbjct:   389 KEARDQQRRERKKEKKRAQKAIKEEEK---RKAAAEREEREKREAEEAERLRLEAERKQQ 445
+
+Query:   103 RKRLEM--EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQ 141
+              K  E    K  +E  Q  +Q +    RL++ E E  RL++
+Sbjct:   446 EKEREKAARKAASEAKQKARQEE--QARLAR-EKEEKRLAR 483
+
+ Score = 61 (26.5 bits), Expect = 0.85, Sum P(2) = 0.57
+ Identities = 25/91 (27%), Positives = 38/91 (41%)
+
+Query:   129 LSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIP 188
+             L+Q  A++  L  +L            +TP PGS  + + TL  +L +  +   P    P
+Sbjct:   633 LTQHVAQSQILLDRLTPDPTSRMTPERHTPSPGSTTSNAKTLLDSLLRPAQG--PSTPPP 690
+
+Query:   189 FP-TP--SLSDYSPTLKPSTLAESSDVAQHP 216
+              P TP  S+S  +P     T+     V Q P
+Sbjct:   691 GPGTPRSSISHVAPVGAIGTIGSPGQVNQQP 721
+
+
+>sp|Q498L2|SLTM_XENLA SAFB-like transcription modulator OS=Xenopus laevis
+            GN=sltm PE=2 SV=1
+        Length = 998
+
+ Score = 105 (42.0 bits), Expect = 0.022, Sum P(2) = 0.022
+ Identities = 26/84 (30%), Positives = 48/84 (57%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSR---ERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             R+R +    +E+  ++R+ R R   +  R   ER+R+E E+LE E+I++EQ+ +   +R+
+Sbjct:   607 RERERIRIMREREELDRLQRERERLEIERQKLERERMERERLERERIRIEQERRREAERI 666
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGS 153
+             ++   E  R  +QL +   E R S
+Sbjct:   667 AREREELRRQQEQL-RFEQEKRNS 689
+
+ Score = 47 (21.6 bits), Expect = 0.022, Sum P(2) = 0.022
+ Identities = 15/56 (26%), Positives = 25/56 (44%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP-PRKRAKTEDEKE 83
+             S   +S+   D ++ +    EKK  K+ K   +E     T +P P    K E+ K+
+Sbjct:   456 SKTQSSVKKDDRRSSD--KAEKKDGKELKKDSKEKSESATTVPSPESSKKNEERKK 509
+
+ Score = 44 (20.5 bits), Expect = 0.045, Sum P(2) = 0.044
+ Identities = 16/78 (20%), Positives = 32/78 (41%)
+
+Query:     6 EKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV 65
+             E++ + V+ L     +E      S  D     +D++ +E + +EKK         QE+  
+Sbjct:   120 EESATFVNVLSTEEENETK--QTSHFDNPERGSDIQAEEAEEDEKKDVTGSGDVTQEISK 177
+
+Query:    66 PKTNLPPRKRAKTEDEKE 83
+             P  +       + ++E E
+Sbjct:   178 PLHSGDNESELRIKEEME 195
+
+
+>sp|Q1E554|CGR1_COCIM rRNA-processing protein CGR1 OS=Coccidioides immitis
+            GN=CGR1 PE=3 SV=1
+        Length = 130
+
+ Score = 89 (36.4 bits), Expect = 0.023, P = 0.023
+ Identities = 32/124 (25%), Positives = 60/124 (48%)
+
+Query:     9 MSSVDSLPATPASE-VPVLTVSPADTSLNSADVKTQEVKPEEKK----PAKKRKSWGQEL 63
+             MSS +  PA PA E  P    +PA  +     ++       + K    P K + S+ + L
+Sbjct:     1 MSSTEPAPA-PAPEPAPAPAAAPAAAAAAPKGMRKNGKNWHDVKTPFRPTKGQTSYARRL 59
+
+Query:    64 PVPKTNLPPRKRAKT-EDEKE---QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME 119
+                K     +++ K  ++EKE   QRRI+ + ++R AA+  +ER     EK+  ++++  
+Sbjct:    60 EERKAMAAIKEKEKEMKEEKEAERQRRIQAI-KDRRAAKEEKERYEKMAEKMHRKRVERR 118
+
+Query:   120 QQNQ 123
+             ++ +
+Sbjct:   119 KRRE 122
+
+
+>sp|Q91496|FOS_TETFL Proto-oncogene c-Fos OS=Tetraodon fluviatilis GN=fos PE=3
+            SV=1
+        Length = 374
+
+ Score = 102 (41.0 bits), Expect = 0.023, P = 0.023
+ Identities = 38/136 (27%), Positives = 59/136 (43%)
+
+Query:    15 LPATPASEVPVLTVSPADTSLN-SADVKTQEVKPEEKK-PAKKRKSWGQELPVPKTNLPP 72
+             L A+ AS VP +T       L          V P  +  P     S+ + +     + P 
+Sbjct:    47 LTASSASFVPTVTAISTSPDLQWMVQPLVSSVAPSRRAHPYSPSPSYKRTVMRSGASKPH 106
+
+Query:    73 RKRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQR 128
+              KR + E    +E+E++RI R  RN+ AA   R R+R   + L+ E  Q+E +   L   
+Sbjct:   107 AKRGRVEQTTPEEEEKKRIRRE-RNKQAAAKCRNRRRELTDSLQAETDQLEAEKSSLQND 165
+
+Query:   129 LSQMEAENNRLSQQLA 144
+             ++ +  E  RL   LA
+Sbjct:   166 IANLLKEKERLEFILA 181
+
+
+>sp|Q9ESN9|JIP3_MOUSE C-Jun-amino-terminal kinase-interacting protein 3 OS=Mus
+            musculus GN=Mapk8ip3 PE=1 SV=1
+        Length = 1337
+
+ Score = 98 (39.6 bits), Expect = 0.023, Sum P(2) = 0.023
+ Identities = 40/152 (26%), Positives = 69/152 (45%)
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRN-RAAAQTSRERKRLEMEKL------ENE 114
+             E  V K  L   K+AK + E   + +E  L+  ++ A T+R   R E+E +      E +
+Sbjct:   455 EQEVLKGELEAAKQAKVKLENRIKELEEELKRVKSEAVTARREPREEVEDVSSYLCTELD 514
+
+Query:   115 KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS---RANTPMPGSPATASPTLT 171
+             KI M Q+ +F    ++++  E N+  ++L +L   VR +   RA+   P        T+ 
+Sbjct:   515 KIPMAQRRRFTRVEMARVLMERNQYKERLMELQEAVRWTEMIRASREHPSVQEKKKSTIW 574
+
+Query:   172 P---TLFKQERDELPLERIPFPTPSLSDYSPT 200
+                  LF       P +R  +P+ ++   SPT
+Sbjct:   575 QFFSRLFSSSSSPPPAKR-SYPSVNIHYKSPT 605
+
+ Score = 57 (25.1 bits), Expect = 0.023, Sum P(2) = 0.023
+ Identities = 18/58 (31%), Positives = 25/58 (43%)
+
+Query:     8 TMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV 65
+             T S+  +   TP S VP   V+P + SL          K   K+  +KR S   E+ V
+Sbjct:   266 TPSTTGTKSNTPTSSVPSAAVTPLNESLQPLGDYVSVTK-NNKQAREKRNSRNMEVQV 322
+
+
+>sp|P53450|FOS_TAKRU Proto-oncogene c-Fos OS=Takifugu rubripes GN=fos PE=3 SV=1
+        Length = 376
+
+ Score = 102 (41.0 bits), Expect = 0.023, P = 0.023
+ Identities = 63/245 (25%), Positives = 104/245 (42%)
+
+Query:    15 LPATPASEVPVLTVSPADTSLN-SADVKTQEVKPEEKK-PAKKRKSWGQELPVPKTNLPP 72
+             L A+ AS +P +T       L          V P  +  P     S+ + +     +   
+Sbjct:    48 LTASSASFIPTVTAISTSPDLQWMVQPLISSVAPSHRAHPYSPSPSYKRTVMRSAASKAH 107
+
+Query:    73 RKRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQR 128
+              KR++ E    +E+E++RI R  RN+ AA   R R+R   + L+ E  Q+E +   L   
+Sbjct:   108 GKRSRVEQTTPEEEEKKRIRRE-RNKQAAAKCRNRRRELTDTLQAETDQLEDEKSSLQND 166
+
+Query:   129 LSQMEAENNRLSQQLA--QLAAEVRGSRANTPMPGSPATASPT---LTPTLFKQERDELP 183
+             ++ +  E  RL   LA  Q   ++  S+ +T    S  + SP    L+ T+  Q +  +P
+Sbjct:   167 IANLLKEKERLEFILAAHQPICKIP-SQMDTDF--SVVSMSPVHACLSTTVSTQLQTSIP 223
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHS 243
+                    T S S ++ T   S  + SSD      +S A +    S + + DL S +   S
+Sbjct:   224 --EATTVTSSHSTFTSTSN-SIFSGSSD----SLLSTATVSN--SVVKMTDLDSSVLEES 274
+
+Query:   244 TDDVA 248
+              D +A
+Sbjct:   275 LDLLA 279
+
+
+>sp|Q05682|CALD1_HUMAN Caldesmon OS=Homo sapiens GN=CALD1 PE=1 SV=2
+        Length = 793
+
+ Score = 106 (42.4 bits), Expect = 0.024, P = 0.023
+ Identities = 33/148 (22%), Positives = 74/148 (50%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             Q +K EEK+ A++R+   +E    K     R+RA+ E+E E+ ++E   RN+   Q   +
+Sbjct:   343 QRIKEEEKRAAEERQRIKEE---EKRAAEERQRARAEEE-EKAKVEEQKRNK---QLEEK 395
+
+Query:   103 RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS 162
+             ++ ++  K++ EK++ + + +++    ++ +A+ ++L   + +   E +G++        
+Sbjct:   396 KRAMQETKIKGEKVEQKIEGKWV----NEKKAQEDKLQTAVLKKQGEEKGTKVQAKREKL 451
+
+Query:   163 PATASPTLTPTLFKQER---DELPLERI 187
+                  PT      K E+   D+ P E +
+Sbjct:   452 QED-KPTFKKEEIKDEKIKKDKEPKEEV 478
+
+ Score = 97 (39.2 bits), Expect = 0.49, Sum P(2) = 0.39
+ Identities = 42/168 (25%), Positives = 66/168 (39%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+             R+R +TE E E  ++++  +  A      ++KR E  K+  E+ Q  +Q +    R  + 
+Sbjct:   541 RRRGETESE-EFEKLKQKQQEAALELEELKKKREERRKVLEEEEQRRKQEE--ADRKLRE 597
+
+Query:   133 EAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLE-RIPFPT 191
+             E E  RL +++ +  AE    R   P  G      P      F  +   L +E R  F  
+Sbjct:   598 EEEKRRLKEEIERRRAEAAEKRQKMPEDGLSDDKKPF---KCFTPKGSSLKIEERAEFLN 654
+
+Query:   192 PSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL 239
+              S+   S        A  S +        + +EG  SA P     SDL
+Sbjct:   655 KSVQKSSGVKSTHQAAIVSKIDSRLEQYTSAIEGTKSAKPTKPAASDL 702
+
+ Score = 85 (35.0 bits), Expect = 4.7, P = 0.991
+ Identities = 23/91 (25%), Positives = 47/91 (51%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             + ++ EEK+ A++R+   +E    K     R+R K E+++     +R+      A   R+
+Sbjct:   315 ERMREEEKRAAEERQRIKEE---EKRAAEERQRIKEEEKRAAEERQRIKEEEKRAAEERQ 371
+
+Query:   103 RKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             R R E E  E  K++ +++N+ L ++   M+
+Sbjct:   372 RARAEEE--EKAKVEEQKRNKQLEEKKRAMQ 400
+
+ Score = 40 (19.1 bits), Expect = 0.49, Sum P(2) = 0.39
+ Identities = 13/53 (24%), Positives = 23/53 (43%)
+
+Query:    32 DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ 84
+             +  L +A +K Q  +   K  AK+ K    +    K  +   K  K ++ KE+
+Sbjct:   425 EDKLQTAVLKKQGEEKGTKVQAKREKLQEDKPTFKKEEIKDEKIKKDKEPKEE 477
+
+
+>sp|O77628|FOS_BOVIN Proto-oncogene c-Fos OS=Bos taurus GN=FOS PE=2 SV=2
+        Length = 380
+
+ Score = 102 (41.0 bits), Expect = 0.024, P = 0.024
+ Identities = 50/175 (28%), Positives = 72/175 (41%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  L+   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMSVASLDLSGGLPEAATPESEEAFTLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GS 237
+             L   P P PS+            AE  D    PA S         ++P  DL GS
+Sbjct:   243 LLNDPEPKPSVEPVKSVGSMELKAEPFDDYMFPASSRPSGSETARSVPDMDLSGS 297
+
+
+>sp|Q56TT7|FOS_PHOCM Proto-oncogene c-Fos OS=Phodopus campbelli GN=FOS PE=3
+            SV=1
+        Length = 381
+
+ Score = 102 (41.0 bits), Expect = 0.024, P = 0.024
+ Identities = 52/176 (29%), Positives = 73/176 (41%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E   +E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDHLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  LT   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEDMSVASLDLTGGLPEATTPESEEAFSLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS-VAGLEGDGSALPLFDL-GS 237
+             L   P P  SL            AE  D    PA S  +G E    ++P  DL GS
+Sbjct:   243 LLNDPEPKTSLEPVKSISNMELKAEPFDDFLFPASSRPSGSETTARSVPDMDLSGS 298
+
+
+>sp|Q0CEI3|KAPC_ASPTN Putative transcription factor kapC OS=Aspergillus terreus
+            (strain NIH 2624 / FGSC A1156) GN=kapC PE=3 SV=2
+        Length = 286
+
+ Score = 100 (40.3 bits), Expect = 0.025, P = 0.024
+ Identities = 39/161 (24%), Positives = 67/161 (41%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P+    P++  KT  ++     +R  +NRAA +  R+RK   + KLE    Q++ Q + +
+Sbjct:    85 PQPEPAPQESPKTYGKRPLSTSKRAAQNRAAQRAFRQRKESYIRKLEE---QVKHQ-EAI 140
+
+Query:   126 LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MPGSPATASPTLTPTLFKQERDELPL 184
+              +    + AEN +L + +  L   +  S+   P +PG+     P    TL   E      
+Sbjct:   141 TEEYKALHAENYQLREYIINLQTRLLDSQGEVPELPGNIDLNQPRADLTLSAPELQRGNA 200
+
+Query:   185 ERI-PFPT-PSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL 223
+                 P P  P      P      +  + D+     ++VAGL
+Sbjct:   201 ASAGPAPAGPGPQQSQPNQNQG-VGPNDDMNSLNRIAVAGL 240
+
+
+>sp|Q6P9R4|ARHGI_MOUSE Rho guanine nucleotide exchange factor 18 OS=Mus
+            musculus GN=Arhgef18 PE=2 SV=1
+        Length = 1021
+
+ Score = 107 (42.7 bits), Expect = 0.025, P = 0.024
+ Identities = 61/246 (24%), Positives = 101/246 (41%)
+
+Query:     9 MSSVDSLPATPASEVP--VLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP 66
+             M S +SLP     E+   V T+S    SL +  +  Q+   E ++ A + +     L   
+Sbjct:   628 MPSTESLPTVLELELVHRVQTLSQLLLSLQAV-IAQQDSYVEMQRTAIQEREKQFRLQST 686
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLL 126
+             + NL        E E+ QR  E+    RA  +  + + R E ++ E E+ + +Q+ +   
+Sbjct:   687 RGNL------LLEQER-QRNFEKQREERAGVEKLQSQLRQEQQRWERERARQQQELELAG 739
+
+Query:   127 QRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLER 186
+              RL + E E  ++ Q+L Q   E+   R            +         +ER+ L L R
+Sbjct:   740 ARLQEREGEARQMRQRLDQERTELERQRQAYQHDLERLREAQRAVD----RERERLELLR 795
+
+Query:   187 IPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGS-ALPLFDLGSDLKHHS-T 244
+               F   +       L P  LAE+   +  P+ +  GLEG  + A      GS + H +  
+Sbjct:   796 -RFKKQNT--VPGALPPEVLAEAQPASHPPSFNGDGLEGHSAPAKAPGTQGSAMLHGTGP 852
+
+Query:   245 DDVAAP 250
+             D+V  P
+Sbjct:   853 DNVERP 858
+
+
+>sp|P29681|IMPE2_DROME 20-hydroxyecdysone protein OS=Drosophila melanogaster
+            GN=ImpE2 PE=1 SV=1
+        Length = 466
+
+ Score = 103 (41.3 bits), Expect = 0.025, P = 0.025
+ Identities = 45/186 (24%), Positives = 86/186 (46%)
+
+Query:     8 TMSSVDSLPATPASEVPVLTVS----PADTSLNSADVKTQEVKPEEKKPA---KKRKSWG 60
+             + + V +LP   A ++PV  V     P   SL   +VK +EVKPEE KP    +K K   
+Sbjct:    14 SQARVLNLPKE-AIDIPVAIVEDKEPPVALSLVKEEVKAEEVKPEEVKPIAQEEKAKDLK 72
+
+Query:    61 QEL-PVPKTNLPPRKRAKTEDE-KEQRR--IERVLRNRAAAQTSRERKRLEMEKLENEKI 116
+             +E+ P  K  +  + +   +DE KE  +  I+  L+ +   Q +       +E L+ + +
+Sbjct:    73 EEVKPEIKPEIKEQPKPDIKDEIKEDLKADIKEELKEKIEEQINELPNAKPLE-LKEKSL 131
+
+Query:   117 QMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE-VRGSRANTPMPGSPATASPTLTPTLF 175
+             + E++ Q + + + Q E     + ++  ++  E  +    + P   +    +  L+P   
+Sbjct:   132 EAEEKPQEIKEEVQQPE-----IKKEATEIKEEPAQNILKSLPAEETVVVPAEELSPNPV 186
+
+Query:   176 KQERDE 181
+             +QE+ E
+Sbjct:   187 EQEQSE 192
+
+
+>sp|A2AJI0|MA7D1_MOUSE MAP7 domain-containing protein 1 OS=Mus musculus
+            GN=Map7d1 PE=1 SV=1
+        Length = 846
+
+ Score = 106 (42.4 bits), Expect = 0.026, P = 0.025
+ Identities = 37/143 (25%), Positives = 58/143 (40%)
+
+Query:     7 KTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP 66
+             K+ ++ +  PA PAS  P    SP           TQ +  E   PA            P
+Sbjct:   530 KSRAAEEKEPAAPASPAPSPVPSPTPAQPQKEQSSTQ-IPAETAVPAVPAAPTAPPTAAP 588
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLL 126
+                 P +  A T D +E  R+    R +A  Q  RE +  +++  E +K   E+Q     
+Sbjct:   589 SVT-PSKPMAGTTDREEATRLLAEKRRQAREQREREEQERKLQA-ERDKRMREEQLAREA 646
+
+Query:   127 QRLSQMEAENNRLSQQLAQLAAE 149
+             +  ++ EAE  R  +Q A+  A+
+Sbjct:   647 EARAEREAEARRREEQEAREKAQ 669
+
+ Score = 95 (38.5 bits), Expect = 0.41, P = 0.34
+ Identities = 41/180 (22%), Positives = 81/180 (45%)
+
+Query:     6 EKTMSSVDSLPATPASEVPVLTVS-PADTSLNSADV------KTQEVKPEEKKPAKKRKS 58
+             E  + +V + P  P +  P +T S P   + +  +       K ++ + + ++  ++RK 
+Sbjct:   570 ETAVPAVPAAPTAPPTAAPSVTPSKPMAGTTDREEATRLLAEKRRQAREQREREEQERKL 629
+
+Query:    59 WGQ-ELPVPKTNLPPRKRAKTEDEKE-QRRIERVLRNRAAAQTSRERKRLEMEKLENE-- 114
+               + +  + +  L     A+ E E E +RR E+  R +A A+   E++RL+ +K E E  
+Sbjct:   630 QAERDKRMREEQLAREAEARAEREAEARRREEQEAREKAQAE-QEEQERLQKQKEEAEAR 688
+
+Query:   115 -KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA-NTPMPGSPATASPTLTP 172
+              + + E+Q Q   +   + E E     ++L ++    R S A  T    +  TA+    P
+Sbjct:   689 SREEAERQRQEREKHFQKEEQERQERRKRLEEIMKRTRKSEAAETKKQDAKETAANNSGP 748
+
+ Score = 92 (37.4 bits), Expect = 0.048, Sum P(2) = 0.047
+ Identities = 37/148 (25%), Positives = 67/148 (45%)
+
+Query:     7 KTMSSVDSLPATPASEVPVLTVSPA--DTSLNSADVKTQ-----EVKPEEKKPAKKRKSW 59
+             KT ++   LP  P +    ++  PA       S++ K++        P E KP++ R S 
+Sbjct:    58 KTATNPKQLPLEPGNPTGQISPQPAPPQEECPSSEAKSRGPTPTATGPREAKPSR-RSSQ 116
+
+Query:    60 GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME 119
+                  VP ++ PP K+   +   E+ ++ +  R   A   +  +K + +EK E  K   E
+Sbjct:   117 PSPTTVPASDSPPAKQ-DVKKAGERHKLAKERREERAKYLAA-KKAVWLEKEEKAKALRE 174
+
+Query:   120 QQNQFLLQRLSQ--MEAENNRLSQQLAQ 145
+             +Q Q   +RL +  ++AE  R + +  Q
+Sbjct:   175 KQLQERRRRLEEQRLKAEQRRAALEERQ 202
+
+ Score = 56 (24.8 bits), Expect = 0.048, Sum P(2) = 0.047
+ Identities = 20/72 (27%), Positives = 30/72 (41%)
+
+Query:   133 EAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTP 192
+             E +N+R S+   +       S A +P+P SP  A P       +Q   ++P E      P
+Sbjct:   524 EDKNHRKSRAAEEKEPAAPASPAPSPVP-SPTPAQPQK-----EQSSTQIPAETAVPAVP 577
+
+Query:   193 SLSDYSPTLKPS 204
+             +     PT  PS
+Sbjct:   578 AAPTAPPTAAPS 589
+
+
+>sp|Q5R452|SAFB1_PONAB Scaffold attachment factor B1 OS=Pongo abelii GN=SAFB
+            PE=2 SV=1
+        Length = 914
+
+ Score = 106 (42.4 bits), Expect = 0.028, P = 0.028
+ Identities = 32/95 (33%), Positives = 53/95 (55%)
+
+Query:    50 KKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR-ERKRLEM 108
+             K+P K R S    +   ++    R +A+ E E E+ R+E + R R A Q  R ER+R+E 
+Sbjct:   609 KEPRKSRDSESHRVR-ERSEREQRMQAQWERE-ERERLE-IARERLAFQRQRLERERMER 665
+
+Query:   109 EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL 143
+             E+LE E++ +E + +   +R+ + E E  R  Q+L
+Sbjct:   666 ERLERERMHVEHERRREQERIHR-EREELRRQQEL 699
+
+
+>sp|Q1LYG4|CR3LB_DANRE Cyclic AMP-responsive element-binding protein 3-like
+            protein 3-B OS=Danio rerio GN=creb3l3b PE=3 SV=2
+        Length = 428
+
+ Score = 102 (41.0 bits), Expect = 0.029, P = 0.028
+ Identities = 36/123 (29%), Positives = 61/123 (49%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             +E+  ++I R +RN+ +AQ SR++K+  ++ LE+        N  L +++ Q+E  N  L
+Sbjct:   207 EERILKKIRRKIRNKQSAQESRKKKKEYIDGLESRMAACSAHNHELQRKVFQLEKCNISL 266
+
+Query:   140 SQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS---D 196
+              +QL +L A V    +N P+          L+ TL       LP  + PF    +S   D
+Sbjct:   267 MEQLRRLQALVMNG-SNKPVQAGTCVLVLLLSFTLIL-----LPNLK-PFTDTKVSQHGD 319
+
+Query:   197 YSP 199
+             +SP
+Sbjct:   320 FSP 322
+
+
+>sp|Q9D439|CCD11_MOUSE Coiled-coil domain-containing protein 11 OS=Mus musculus
+            GN=Ccdc11 PE=2 SV=3
+        Length = 514
+
+ Score = 103 (41.3 bits), Expect = 0.029, P = 0.028
+ Identities = 29/114 (25%), Positives = 55/114 (48%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             Q+++ E  K  +KR+  G+E  +    L  R+  +   EKE  R+   ++ +  A+  RE
+Sbjct:   319 QDLQDEADKKKQKREEMGREQKIYNDYLMQRREEEKAQEKELNRLLEDIKAKKLAEKDRE 378
+
+Query:   103 -------RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+                    RK+L  E +   K+Q++++ Q  L+   ++     R+S+ L  L  E
+Sbjct:   379 LALQRAARKQLMNEVMNTRKLQVQERLQRKLREQEELALHEQRISESLKVLHQE 432
+
+
+>sp|P48755|FOSL1_MOUSE Fos-related antigen 1 OS=Mus musculus GN=Fosl1 PE=2 SV=2
+        Length = 273
+
+ Score = 99 (39.9 bits), Expect = 0.029, P = 0.029
+ Identities = 51/185 (27%), Positives = 83/185 (44%)
+
+Query:    64 PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL------EMEKLENEKIQ 117
+             P P     P ++   E+E E+RR+ R     AAA+    RK L      E +KLE+EK  
+Sbjct:    88 PPPGVRRRPCEQISPEEE-ERRRVRRERNKLAAAKCRNRRKELTDFLQAETDKLEDEKSG 146
+
+Query:   118 MEQQNQFLLQRLSQMEA--ENNRLSQQLAQLAAEVRGSRANTPMPGSP-ATASPTLTPTL 174
+             ++++ + L ++  ++E   E +R   ++ +   +  G   +T    SP A   P   P +
+Sbjct:   147 LQREIEELQKQKERLELVLEAHRPICKIPEGDKKDPGGSGSTSGASSPPAPGRPV--PCI 204
+
+Query:   175 FKQERDELPLERIPFPT----PSLSDYSPTLK---PSTLAESSDVAQHPAVSVAGLEGDG 227
+                    L  E +  PT    PSL+ ++P+L    PST    S   +  + S     GD 
+Sbjct:   205 SLSPGPVLEPEALHTPTLMTTPSLTPFTPSLVFTYPSTPEPCSSAHRKSSSS----SGDP 260
+
+Query:   228 SALPL 232
+             S+ PL
+Sbjct:   261 SSDPL 265
+
+
+>sp|Q6DE84|MAFB_XENLA Transcription factor MafB OS=Xenopus laevis GN=mafb PE=2
+            SV=1
+        Length = 313
+
+ Score = 100 (40.3 bits), Expect = 0.029, P = 0.029
+ Identities = 36/140 (25%), Positives = 67/140 (47%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQ-RRI 87
+             SP+ +S +S  +  Q+ +       + R S  Q + +    L    R  T+D+  + ++ 
+Sbjct:   171 SPSGSSSSSQQLHHQQ-QHSSSSAVEDRFSDDQLVSMTVRELNRHLRGFTKDDVIRLKQK 229
+
+Query:    88 ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA 147
+              R L+NR  AQ+ R ++  +   LE EK Q+ QQ + L Q +S++  E +    +  +LA
+Sbjct:   230 RRTLKNRGYAQSCRYKRVQQKHNLEGEKTQLVQQVEQLKQEVSRLARERDAYKIKCEKLA 289
+
+Query:   148 ----AEVRGSRANTPMPGSP 163
+                 +  R + + +  P SP
+Sbjct:   290 NNNSSNFREAGSTSDNPSSP 309
+
+
+>sp|Q54RZ9|BZPG_DICDI Probable basic-leucine zipper transcription factor G
+            OS=Dictyostelium discoideum GN=bzpG PE=3 SV=1
+        Length = 372
+
+ Score = 101 (40.6 bits), Expect = 0.030, P = 0.030
+ Identities = 24/80 (30%), Positives = 44/80 (55%)
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             K     ++KE +R +R+++NR +A  SR+RKR  +  LE+   ++   +  + + LS +E
+Sbjct:   268 KELSQVEKKELKRQKRLIKNRESAHLSRQRKRERLTDLEHRVEELSSNSIDINKTLSSLE 327
+
+Query:   134 AENNRLSQQLAQLAAEVRGS 153
+              EN  L  ++ QL   +  S
+Sbjct:   328 NENLILKAEVGQLFEVINDS 347
+
+
+>sp|A0JMK9|CAF1A_DANRE Chromatin assembly factor 1 subunit A OS=Danio rerio
+            GN=chaf1a PE=1 SV=1
+        Length = 863
+
+ Score = 109 (43.4 bits), Expect = 0.030, Sum P(2) = 0.030
+ Identities = 57/229 (24%), Positives = 99/229 (43%)
+
+Query:     1 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTS-LNSAD-VKTQEVKPEEKKPAKKRKS 58
+             +S     + S + S P  P+   P    +PA TS +N+A+ VK + +K  +++  K+R+ 
+Sbjct:   208 LSTGSTSSASVIASSPE-PSKSAPT---TPASTSRINAANKVKRRSLKSVQEQEEKQRQR 263
+
+Query:    59 WGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERK-RLEMEKLENEKI 116
+               +E L         +K+ +    KE++  E+  +     +  RE+K R E EK +  K 
+Sbjct:   264 DEKERLKQEAKAAKEKKKEEARKMKEEKEREKKEKKEKDEKERREKKERDEKEKADKLKA 323
+
+Query:   117 QMEQQNQFLLQRLSQM--EAENNRLSQQLAQLAAEVRG-----SRANTPM-PGSPATASP 168
+             + EQ+   +  +L +   + E  RL ++  ++ AE         +  T + P + A+A  
+Sbjct:   324 KEEQRQMKIEAKLEEKRKKEEEKRLKEEKDRIKAEKAEITRFLQKPKTQLAPKTLASACG 383
+
+Query:   169 TLTPTLFKQERDELPLERIPFPTPSLSDYSPTL-KP-STLAESSDVAQH 215
+                P   K      PL R+      L D    L +P STL    D   H
+Sbjct:   384 KFAPFEIKAHMSLAPLTRVQCEDSVLEDLDRYLAQPDSTLNGLKDWTGH 432
+
+ Score = 40 (19.1 bits), Expect = 0.030, Sum P(2) = 0.030
+ Identities = 16/51 (31%), Positives = 19/51 (37%)
+
+Query:   236 GSDLKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGD 286
+             G  L H   DD      DDD +     D    P   + E   A +  EGGD
+Sbjct:   524 GESLSHSEGDDDDEAGEDDDDD-----DGFFVPHGYLSEGEGALEDEEGGD 569
+
+
+>sp|P18625|FOSL2_CHICK Fos-related antigen 2 OS=Gallus gallus GN=FOSL2 PE=1
+            SV=1
+        Length = 323
+
+ Score = 100 (40.3 bits), Expect = 0.031, P = 0.030
+ Identities = 39/146 (26%), Positives = 70/146 (47%)
+
+Query:    68 TNLPPRKRAK--TEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             T +  R+R +  + +E+E+RRI R  RN+ AA   R R+R   EKL+ E   +E++   L
+Sbjct:   108 TTVGRRRRDEQLSPEEEEKRRIRRE-RNKLAAAKCRNRRRELTEKLQAETEVLEEEKSVL 166
+
+Query:   126 LQRLSQMEAENNRLSQQLAQLAAEVRGS---RANTPMPGSPATASPTLTPTLFKQERDEL 182
+              + +++++ E  +L   L   +   + S   R + P     +  +      + KQE  E 
+Sbjct:   167 QKEIAELQKEKEKLEFMLVAHSPVCKISPEERRSPPTSSLQSVRTGASGAVVVKQEPVE- 225
+
+Query:   183 PLERIPFPTPSLSDYSPT-LKPSTLA 207
+               E IP  +  L     + +KP ++A
+Sbjct:   226 --EEIPSSSLVLDKAQRSVIKPISIA 249
+
+
+>sp|A2R346|KAPC_ASPNC Putative transcription factor kapC OS=Aspergillus niger
+            (strain CBS 513.88 / FGSC A1513) GN=kapC PE=3 SV=2
+        Length = 283
+
+ Score = 99 (39.9 bits), Expect = 0.031, P = 0.031
+ Identities = 36/159 (22%), Positives = 69/159 (43%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P+     ++  KT  ++     +R  +NRAA +  R+RK   + KLE +  + +  N+  
+Sbjct:    85 PQPEPTGQESPKTYGKRPLSTSKRAAQNRAAQRAFRQRKESYIRKLEEQVKEFDNTNE-- 142
+
+Query:   126 LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTP-MPGSPATASPTLTPTLFKQERDELPL 184
+                + Q++AEN +L + +  L + +  S+   P +PG+     P    ++        P 
+Sbjct:   143 --TMKQLQAENYQLREYIINLQSRLLDSQGEVPELPGNIDLNQPRNDISV---PPPGAPA 197
+
+Query:   185 ERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL 223
+                P P P  +     +     A + D+     ++VAGL
+Sbjct:   198 ATGPAPGPGGAPQQMQVPNPGAATNEDMNSLNRIAVAGL 236
+
+
+>sp|Q8HZP6|FOS_FELCA Proto-oncogene c-Fos OS=Felis catus GN=FOS PE=2 SV=1
+        Length = 381
+
+ Score = 101 (40.6 bits), Expect = 0.031, P = 0.031
+ Identities = 50/175 (28%), Positives = 72/175 (41%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   126 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 184
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  L+   P     E +E   LP
+Sbjct:   185 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEEMSVASLDLSGGLPEAATPESEEAFTLP 243
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDL-GS 237
+             L   P P PS+            AE  D    PA S         ++P  DL GS
+Sbjct:   244 LLNDPEPKPSVEPVKSISSMELKAEPFDDFLFPASSRPSGSETARSVPDMDLSGS 298
+
+
+>sp|P26042|MOES_PIG Moesin OS=Sus scrofa GN=MSN PE=2 SV=3
+        Length = 577
+
+ Score = 103 (41.3 bits), Expect = 0.034, P = 0.033
+ Identities = 26/103 (25%), Positives = 52/103 (50%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPR-KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EKK  +  +   +++   K  L  R K+ + + +K Q+ +E   R   A +  R+R + E
+Sbjct:   326 EKKKREMAEKEKEKIEREKEELMERLKQIEEQTKKAQQELEEQTRRALALEQERKRAQSE 385
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+              EKL  E+ + E+  + LL+     +    +L+ ++A+L A +
+Sbjct:   386 AEKLAKERQEAEEAKEALLKASRDQKKTQEQLALEMAELTARI 428
+
+ Score = 102 (41.0 bits), Expect = 0.043, P = 0.042
+ Identities = 30/97 (30%), Positives = 51/97 (52%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P T    + +A+  +EK Q+++ER L          E+K+ EM + E EKI+ E++   L
+Sbjct:   297 PDTIEVQQMKAQAREEKHQKQMERAL-------LENEKKKREMAEKEKEKIEREKEE--L 347
+
+Query:   126 LQRLSQMEAENNRLSQQLAQ-----LAAEVRGSRANT 157
+             ++RL Q+E +  +  Q+L +     LA E    RA +
+Sbjct:   348 MERLKQIEEQTKKAQQELEEQTRRALALEQERKRAQS 384
+
+
+>sp|Q2HJ49|MOES_BOVIN Moesin OS=Bos taurus GN=MSN PE=2 SV=3
+        Length = 577
+
+ Score = 103 (41.3 bits), Expect = 0.034, P = 0.033
+ Identities = 26/103 (25%), Positives = 51/103 (49%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPR-KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EKK  +  +   +++   K  L  R K+ + + +K Q+ +E   R     +  R+R + E
+Sbjct:   326 EKKKREMAEKEKEKIEREKEELMERLKQIEEQTKKAQQELEEQTRRALELEQERKRAQSE 385
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+              EKL  E+ + E+  + LLQ     +    +L+ ++A+L A +
+Sbjct:   386 AEKLAKERQEAEEAKEALLQASQDQKKTQEQLALEMAELTARI 428
+
+ Score = 101 (40.6 bits), Expect = 0.056, P = 0.055
+ Identities = 25/80 (31%), Positives = 45/80 (56%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P T    + +A+  +EK Q+++ER L          E+K+ EM + E EKI+ E++   L
+Sbjct:   297 PDTIEVQQMKAQAREEKHQKQMERAL-------LENEKKKREMAEKEKEKIEREKEE--L 347
+
+Query:   126 LQRLSQMEAENNRLSQQLAQ 145
+             ++RL Q+E +  +  Q+L +
+Sbjct:   348 MERLKQIEEQTKKAQQELEE 367
+
+
+>sp|A5FV21|IF2_ACICJ Translation initiation factor IF-2 OS=Acidiphilium cryptum
+            (strain JF-5) GN=infB PE=3 SV=1
+        Length = 887
+
+ Score = 105 (42.0 bits), Expect = 0.035, P = 0.034
+ Identities = 59/225 (26%), Positives = 89/225 (39%)
+
+Query:    48 EEKKP-AKKRKSWGQELP--VPKTNLPPRKRAKTEDEKEQRRIERVLRNR------AAAQ 98
+             E  +P A  R S G   P  +       R+RA  E ++E  R+E   R +      +AA+
+Sbjct:    60 ETGRPSAPSRASGGAAAPRGLTAAEQAARQRAVVEQQREAARLEAERREQEKISILSAAE 119
+
+Query:    99 TSRERKRLEMEKLEN-EKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT 157
+              +R +   E    E  E+++ E++     +R  + EAE  R ++     AA    + A +
+Sbjct:   120 EARRKAEEEARAAEEAERLRAEEE----ARRREEEEAERRRAAEASQATAAPPAPAAAAS 175
+
+Query:   158 PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPA 217
+             P    PA   PT  P          P  R   P P  +  S TL+        D  +  A
+Sbjct:   176 PRAAMPA---PTAAPA----RPGAAPARRTA-PVPPATSASETLRLRAARTGRD-EEEEA 226
+
+Query:   218 VSVAGLEGDGSA------LPL-FDLGSDLKHHSTDDVAAPLSDDD 255
+                A   G G+A      +P    +G D +  +  DV A LS DD
+Sbjct:   227 SRPARRPGSGAAPSRKPSVPAPKKVGDDRRRGARIDVQAALSGDD 271
+
+ Score = 94 (38.1 bits), Expect = 0.56, P = 0.43
+ Identities = 54/219 (24%), Positives = 81/219 (36%)
+
+Query:    27 TVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRR 86
+             TV       + +  +++ V+ E +K  K+  + G E   P    P R        +    
+Sbjct:    27 TVDAGSVRQSFSHGRSKVVQVEVRK--KRGGAAGAETGRPSA--PSRASGGAAAPRGLTA 82
+
+Query:    87 IERVLRNRAAAQTSRERKRLEMEKLENEKIQM-----------EQQNQFL--LQRLSQME 133
+              E+  R RA  +  RE  RLE E+ E EKI +           E++ +     +RL + E
+Sbjct:    83 AEQAARQRAVVEQQREAARLEAERREQEKISILSAAEEARRKAEEEARAAEEAERL-RAE 141
+
+Query:   134 AENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDELPLERIPFP 190
+              E  R  ++ A+       S+A    P   A ASP      PT         P  R   P
+Sbjct:   142 EEARRREEEEAERRRAAEASQATAAPPAPAAAASPRAAMPAPTAAPARPGAAPARRTA-P 200
+
+Query:   191 TPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSA 229
+              P  +  S TL+        D  +  A   A   G G+A
+Sbjct:   201 VPPATSASETLRLRAARTGRD-EEEEASRPARRPGSGAA 238
+
+
+>sp|A6SCT6|DBP3_BOTFB ATP-dependent RNA helicase dbp3 OS=Botryotinia fuckeliana
+            (strain B05.10) GN=dbp3 PE=3 SV=1
+        Length = 592
+
+ Score = 103 (41.3 bits), Expect = 0.035, P = 0.034
+ Identities = 52/186 (27%), Positives = 84/186 (45%)
+
+Query:    32 DTSLNSAD--VKTQEVKP-EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE 88
+             DT LNS D  +K    K  +EKK  K++KS  +++  P T   P +  + E  KE RR  
+Sbjct:     8 DTELNSGDNDIKISSKKSRKEKKDKKEKKS--KDVEEPTTESTPIE-VEVES-KEARRER 63
+
+Query:    89 RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAA 148
+             + L+    AQ + E++  E EK   E I+            +  +AE  RL + L +   
+Sbjct:    64 KRLKKEKKAQEA-EKETEEEEKSGVEAIEPASDANAAADAKAAKKAEKARL-KALKKEGK 121
+
+Query:   149 EVRGSRANTPMPGSPATASPTLTPTLFKQERD--ELPLERIP-FPTP---SLSD---YSP 199
+             E +     +    +PA+ +P    T + ++ +   LP   I  F T    +++D    S 
+Sbjct:   122 EEKADSTKSIETAAPASVTPQQNGTTYTEDPNLSGLPQSEIDSFLTTHFITITDPLSTSA 181
+
+Query:   200 TLKPST 205
+             TL+P T
+Sbjct:   182 TLRPLT 187
+
+
+>sp|Q7PGE8|EIF3A_ANOGA Eukaryotic translation initiation factor 3 subunit A
+            OS=Anopheles gambiae GN=eIF3-S10 PE=3 SV=4
+        Length = 1121
+
+ Score = 106 (42.4 bits), Expect = 0.036, P = 0.035
+ Identities = 47/146 (32%), Positives = 65/146 (44%)
+
+Query:    35 LNSADVKTQEVKPEEKKP-AKKRKSWGQELPVP-KTNLPPR-------KRAK--TEDEKE 83
+             L   DV  Q++K E     A+K K + Q L    K  L  R       +R K   E E+E
+Sbjct:   754 LPDRDVYWQQLKNERGNQFAEKLKQFNQALEEERKRRLADRVVKRREERRMKWLKEKEEE 813
+
+Query:    84 QRRIERVLRNRAAAQTSRERKRLEMEK-LENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             +RRIE  LR +       E  R+E E+  E  +IQ E+  Q   ++L+  E    R  ++
+Sbjct:   814 RRRIEEELRKQ-----KEEADRIERERRAEERRIQDEKNRQLAEKQLAIAEEVERRRREE 868
+
+Query:   143 LAQLAAEVRGSRANTPMPGSPATASP 168
+             L Q+  E  G R   P  G PA   P
+Sbjct:   869 LEQMK-EADGRRERRPAAG-PAEPKP 892
+
+
+>sp|O77788|NFM_BOVIN Neurofilament medium polypeptide OS=Bos taurus GN=NEFM
+            PE=1 SV=3
+        Length = 926
+
+ Score = 105 (42.0 bits), Expect = 0.037, P = 0.036
+ Identities = 51/193 (26%), Positives = 86/193 (44%)
+
+Query:    39 DVKTQEVKP-EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAA 97
+             +VK +E +  EEK+ A++     ++ PV K   P  K  + E E+E+ + E      AA 
+Sbjct:   488 EVKEEEAEEKEEKEEAEEEVVAAKKSPV-KATAPELKEEEGEKEEEEGQEEEEEEEEAAK 546
+
+Query:    98 QTSRERKRLEME-KLENEKIQMEQQNQFLLQRLSQ---MEAENNRLSQQLAQ-------L 146
+                 E    E E   E E+ + E++ +   +   +    EA+  +  ++ A+       L
+Sbjct:   547 SDQAEEGGSEKEGSSEKEEGEQEEEGETEAEGEGEEAAAEAKEEKKMEEKAEEVAPKEEL 606
+
+Query:   147 AAEVR---GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKP 203
+             AAE +     +A +P+  SP T SPT      K    + P  + P     ++  SPT K 
+Sbjct:   607 AAEAKVEKPEKAKSPVAKSPTTKSPTAKSPEAKSPEAKSPTAKSPTAKSPVAK-SPTAK- 664
+
+Query:   204 STLAESSDVAQHP 216
+             S  A+S + A+ P
+Sbjct:   665 SPEAKSPE-AKSP 676
+
+
+>sp|Q9JTB5|IF2_NEIMA Translation initiation factor IF-2 OS=Neisseria
+            meningitidis serogroup A GN=infB PE=3 SV=1
+        Length = 962
+
+ Score = 105 (42.0 bits), Expect = 0.038, P = 0.038
+ Identities = 41/169 (24%), Positives = 69/169 (40%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR- 75
+             A PA++ P  T + A+T+  +A+ K  E    EK  A K  S     P  K   P  +R 
+Sbjct:   151 AKPAAQKP--TEAKAETAPVAAETKPAEESKAEKAQADKMPSKKPAEPKEKAAKPKHERN 208
+
+Query:    76 AKTEDEKEQRRI------ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+              K +D K+  +       + V+     AQ   E +R    +   E +  E+Q +   +  
+Sbjct:   209 GKGKDAKKPAKPAAPAVPQPVVSAEEQAQRDEEARRAAALRAHQEALLKEKQERQARREA 268
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+              + +AE    + Q A+   +     A  P   +PA  +  + P   K+E
+Sbjct:   269 MKQQAEQQAKAAQEAKTGRQRPAKPAEKPQAAAPAVENKPVNPAKAKKE 317
+
+
+>sp|Q9JYD2|IF2_NEIMB Translation initiation factor IF-2 OS=Neisseria
+            meningitidis serogroup B GN=infB PE=3 SV=1
+        Length = 962
+
+ Score = 105 (42.0 bits), Expect = 0.038, P = 0.038
+ Identities = 41/169 (24%), Positives = 69/169 (40%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR- 75
+             A PA++ P  T + A+T+  +A+ K  E    EK  A K  S     P  K   P  +R 
+Sbjct:   151 AKPAAQKP--TEAKAETAPVAAETKPAEESKAEKAQADKMPSEKPAEPKEKAAKPKHERN 208
+
+Query:    76 AKTEDEKEQRRI------ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+              K +D K+  +       + V+     AQ   E +R    +   E +  E+Q +   +  
+Sbjct:   209 GKGKDAKKPAKPAAPAVPQPVVSAEEQAQRDEEARRAAALRAHQEALLKEKQERQARREA 268
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+              + +AE    + Q A+   +     A  P   +PA  +  + P   K+E
+Sbjct:   269 MKQQAEQQAKAAQEAKTGRQRPAKPAEKPQAAAPAVENKPVNPAKAKKE 317
+
+
+>sp|A1KV51|IF2_NEIMF Translation initiation factor IF-2 OS=Neisseria
+            meningitidis serogroup C / serotype 2a (strain ATCC 700532 / FAM18)
+            GN=infB PE=3 SV=1
+        Length = 962
+
+ Score = 105 (42.0 bits), Expect = 0.038, P = 0.038
+ Identities = 41/169 (24%), Positives = 69/169 (40%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR- 75
+             A PA++ P  T + A+T+  +A+ K  E    EK  A K  S     P  K   P  +R 
+Sbjct:   151 AKPAAQKP--TEAKAETAPVAAETKPAEESKAEKAQADKMPSKKPAEPKEKAAKPKHERN 208
+
+Query:    76 AKTEDEKEQRRI------ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+              K +D K+  +       + V+     AQ   E +R    +   E +  E+Q +   +  
+Sbjct:   209 GKGKDAKKPAKPAAPAVPQPVVSAEEQAQRDEEARRAAALRAHQEALLKEKQERQARREA 268
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+              + +AE    + Q A+   +     A  P   +PA  +  + P   K+E
+Sbjct:   269 MKQQAEQQAKAAQEAKTGRQRPAKPAEKPQAAAPAVENKPVNPAKAKKE 317
+
+
+>sp|P0C5H8|KAPC_EMENI Putative transcription factor kapC OS=Emericella nidulans
+            GN=kapC PE=3 SV=1
+        Length = 278
+
+ Score = 98 (39.6 bits), Expect = 0.039, P = 0.038
+ Identities = 36/147 (24%), Positives = 65/147 (44%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             A P    P  T SP D +     +    + P  + PA+   +   E P            
+Sbjct:    49 AQPHHLQPTATTSPRDQNNIDPAISGGAMLPPSQPPAQPEPTVEDETP------------ 96
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+             KT  ++     +R  +NRAA +  R+RK   + KLE E+++   + + + Q    ++AEN
+Sbjct:    97 KTYGKRPLSTSKRAAQNRAAQRAFRQRKESYIRKLE-EQVK---EYEVMSQEYKALQAEN 152
+
+Query:   137 NRLSQQLAQLAAEVRGSRANTP-MPGS 162
+              +L + +  L + +  S+   P +PG+
+Sbjct:   153 YQLREYVINLQSRLLDSQGEVPELPGN 179
+
+
+>sp|Q80YR5|SAFB2_MOUSE Scaffold attachment factor B2 OS=Mus musculus GN=Safb2
+            PE=1 SV=2
+        Length = 991
+
+ Score = 105 (42.0 bits), Expect = 0.040, P = 0.039
+ Identities = 50/163 (30%), Positives = 81/163 (49%)
+
+Query:     5 MEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ-----EVKPEEK-KPAKKRKS 58
+             ME+T+  +D     P   V   + S  D S  S D K++     ++   +K K  ++R+ 
+Sbjct:   610 MERTVV-MDKSKGEPVISVKATSRSK-DRSSKSQDRKSEGREKRDILSFDKIKEQRERER 667
+
+Query:    59 WGQ-ELPVPKTNLPPRKRAKTEDEKEQR------RIE--RVLRNRAAAQTSR---ERKRL 106
+               Q E  + +T    R+R + + E+EQR      R E  R+ R R   Q  R   ER+RL
+Sbjct:   668 QRQREREIRETE---RRREREQREREQRLDAFQERREKARLQRERMQLQCQRQRLERERL 724
+
+Query:   107 EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+             E E+LE E++++E++ +   QR+ +   E   L +Q  QL AE
+Sbjct:   725 ERERLERERMRVERERRKEQQRIMR---EREELRRQQEQLRAE 764
+
+
+>sp|Q56TN0|FOS_PHORO Proto-oncogene c-Fos OS=Phodopus roborovskii GN=FOS PE=3
+            SV=1
+        Length = 381
+
+ Score = 100 (40.3 bits), Expect = 0.040, P = 0.039
+ Identities = 52/176 (29%), Positives = 73/176 (41%)
+
+Query:    74 KRAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+             +R K E    +E+E+RRI R  RN+ AA   R R+R   + L+ E  Q+E +   L   +
+Sbjct:   125 RRGKVEQLSPEEEEKRRIRRE-RNKMAAAKCRNRRRELTDTLQAETDQLEDEKSALQTEI 183
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLT---PTLFKQERDE---LP 183
+             + +  E  +L   LA      +    +   P   + AS  LT   P     E +E   LP
+Sbjct:   184 ANLLKEKEKLEFILAAHRPACK-IPDDLGFPEDMSVASLDLTGGLPEAATPESEEAFSLP 242
+
+Query:   184 LERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS-VAGLEGDGSALPLFDL-GS 237
+             L   P P  SL            AE  D     A S  +G E    ++P  DL GS
+Sbjct:   243 LLNEPEPKTSLESVKSISSMELKAEPFDDFLFSASSRPSGSETTARSVPDMDLSGS 298
+
+
+>sp|Q4U1U2|MAFA_XENTR Transcription factor MafA OS=Xenopus tropicalis GN=mafa
+            PE=2 SV=1
+        Length = 289
+
+ Score = 98 (39.6 bits), Expect = 0.042, P = 0.041
+ Identities = 26/85 (30%), Positives = 47/85 (55%)
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             +Q+R  R L+NR  AQ+ R ++  +   LE EK Q++ Q + L Q +S++  E +    +
+Sbjct:   203 KQKR--RTLKNRGYAQSCRYKRVQQRHILETEKCQLQSQVEQLKQEVSRLAKERDLYKDK 260
+
+Query:   143 LAQLAAEVRGSRANTPMPGSPATAS 167
+               +LA+    +R + P  G+P  A+
+Sbjct:   261 YEKLASRSFTTRESPPQ-GNPGKAN 284
+
+
+>sp|P26038|MOES_HUMAN Moesin OS=Homo sapiens GN=MSN PE=1 SV=3
+        Length = 577
+
+ Score = 102 (41.0 bits), Expect = 0.043, P = 0.042
+ Identities = 26/103 (25%), Positives = 51/103 (49%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPR-KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EKK  +  +   +++   K  L  R K+ + + +K Q+ +E   R     +  R+R + E
+Sbjct:   326 EKKKREMAEKEKEKIEREKEELMERLKQIEEQTKKAQQELEEQTRRALELEQERKRAQSE 385
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+              EKL  E+ + E+  + LLQ     +    +L+ ++A+L A +
+Sbjct:   386 AEKLAKERQEAEEAKEALLQASRDQKKTQEQLALEMAELTARI 428
+
+ Score = 101 (40.6 bits), Expect = 0.056, P = 0.055
+ Identities = 25/80 (31%), Positives = 45/80 (56%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P T    + +A+  +EK Q+++ER       A    E+K+ EM + E EKI+ E++   L
+Sbjct:   297 PDTIEVQQMKAQAREEKHQKQMER-------AMLENEKKKREMAEKEKEKIEREKEE--L 347
+
+Query:   126 LQRLSQMEAENNRLSQQLAQ 145
+             ++RL Q+E +  +  Q+L +
+Sbjct:   348 MERLKQIEEQTKKAQQELEE 367
+
+
+>sp|Q64709|HLF_RAT Hepatic leukemia factor OS=Rattus norvegicus GN=Hlf PE=2
+            SV=1
+        Length = 295
+
+ Score = 98 (39.6 bits), Expect = 0.044, P = 0.043
+ Identities = 39/151 (25%), Positives = 66/151 (43%)
+
+Query:     2 SCDMEKTMSSVDSLPA---TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKS 58
+             +C M+  +     LPA   TP+   P     P     + AD+    +   E    +KRK 
+Sbjct:   142 NC-MQNPIRPGQLLPANRNTPSPIDPDTIQVPVGYEPDPADLALSSIPGPEMFDPRKRKF 200
+
+Query:    59 WGQEL-PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQ 117
+               +EL P P      RK    +D K+ +   R  +N  AA+ SR+ +RL+  ++      
+Sbjct:   201 SEEELKPQPMIK-KARKVFIPDDLKDDKYWARRRKNNMAAKRSRDARRLKENQIAIRASF 259
+
+Query:   118 MEQQNQFLLQRLSQMEAENNRLSQQLAQLAA 148
+             +E++N  L Q ++ +  E  +    LA+  A
+Sbjct:   260 LEKENSALRQEVADLRKELGKCKNILAKYEA 290
+
+
+>sp|A0JMT0|CA1AB_XENLA Chromatin assembly factor 1 subunit A-B OS=Xenopus
+            laevis GN=chaf1a-B PE=2 SV=2
+        Length = 885
+
+ Score = 104 (41.7 bits), Expect = 0.045, P = 0.044
+ Identities = 32/114 (28%), Positives = 56/114 (49%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIE 88
+             S +  SL+S DV+T         P+      G+      +N    ++ KT+D+ E+R+ E
+Sbjct:   216 SSSPVSLSSPDVQTGSKFTNGSSPSTSTTPTGKAT----SNKTSAEKKKTKDKAEKRQAE 271
+
+Query:    89 RVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             +  R   A + +R  K L  +K E E+ Q E+  +   +R  + +AE NRL ++
+Sbjct:   272 KEERE-CARREARAAKDLAKKKREGEREQREKDKKEKKEREDREKAEKNRLKEE 324
+
+ Score = 103 (41.3 bits), Expect = 0.058, P = 0.056
+ Identities = 47/206 (22%), Positives = 91/206 (44%)
+
+Query:     8 TMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPK 67
+             T  S  S   TP  +      S A+        + ++ + EE++ A++     ++L   K
+Sbjct:   234 TNGSSPSTSTTPTGKATSNKTS-AEKKKTKDKAEKRQAEKEERECARREARAAKDLAKKK 292
+
+Query:    68 TNLPPRKRAKTEDEKEQRRI-ERVLRNRAAAQTSRER-KRLEMEKLENEKIQMEQQNQFL 125
+                   +R K + EK++R   E+  +NR   +  +E+ + LE ++ E  K + E++ +  
+Sbjct:   293 REGEREQREKDKKEKKEREDREKAEKNRLKEEKKKEKLEALEAKQEEKRKKEEEKRQKEE 352
+
+Query:   126 LQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM-PGSPATASPTLTPTLFKQERDELPL 184
+              +RL +   E  R+  + A++   ++  +  TP  P + A +     P   K+     PL
+Sbjct:   353 EKRLKE---EEKRIKAEKAEITRFLQ--KPKTPQAPKTFARSCGKFAPFEIKKGMALAPL 407
+
+Query:   185 ERIPFPTPSLSDYSPTLKPSTLAESS 210
+              RI F   +  +    L+  T +ESS
+Sbjct:   408 CRIDFEQEASEELDIFLQEQT-SESS 432
+
+
+>sp|Q6Y7W6|PERQ2_HUMAN PERQ amino acid-rich with GYF domain-containing protein
+            2 OS=Homo sapiens GN=GIGYF2 PE=1 SV=1
+        Length = 1299
+
+ Score = 112 (44.5 bits), Expect = 0.045, Sum P(2) = 0.044
+ Identities = 40/140 (28%), Positives = 73/140 (52%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EE++  ++ +   +EL + K      K A+ E+E+ QRR+E    NR   +    R R E
+Sbjct:   824 EERRREEEERRKQEEL-LRKQEEEAAKWAR-EEEEAQRRLEE---NRLRMEEEAARLRHE 878
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEA----ENNRLSQQLAQL---AAEVRGSRANTPMP 160
+              E+ + +++++++Q + + QR  Q EA    +  +  QQLAQ+   ++   G ++NT   
+Sbjct:   879 EEERKRKELEVQRQKELMRQRQQQQEALRRLQQQQQQQQLAQMKLPSSSTWGQQSNTTAC 938
+
+Query:   161 GSPATASPTLTPTLFKQERD 180
+              S AT S      L ++ER+
+Sbjct:   939 QSQATLSLAEIQKL-EEERE 957
+
+ Score = 39 (18.8 bits), Expect = 0.045, Sum P(2) = 0.044
+ Identities = 9/33 (27%), Positives = 18/33 (54%)
+
+Query:     1 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADT 33
+             M  D+++ +S + S  A+P   +P    +P+ T
+Sbjct:   429 MVADVQQPLSQIPSDTASPLLILPPPVPNPSPT 461
+
+
+>sp|Q8WYK2|JDP2_HUMAN Jun dimerization protein 2 OS=Homo sapiens GN=JDP2 PE=1
+            SV=1
+        Length = 163
+
+ Score = 92 (37.4 bits), Expect = 0.046, P = 0.045
+ Identities = 36/123 (29%), Positives = 56/123 (45%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKR---AKTE-DEKEQRRIERVLRNRAAAQTSRER 103
+             EE K A  R       P+    +   KR    K+E DE+E+RR  R  +N+ AA   R +
+Sbjct:    33 EELKYADIRNLGAMIAPLHFLEVKLGKRPQPVKSELDEEEERRKRRREKNKVAAARCRNK 92
+
+Query:   104 KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE--VRGSRANTP-MP 160
+             K+   E L+ E  ++E  N  L  ++ +++ E  +L   L +      VR     TP   
+Sbjct:    93 KKERTEFLQRESERLELMNAELKTQIEELKQERQQLILMLNRHRPTCIVRTDSVKTPESE 152
+
+Query:   161 GSP 163
+             G+P
+Sbjct:   153 GNP 155
+
+
+>sp|Q8K1L0|CREB5_MOUSE Cyclic AMP-responsive element-binding protein 5 OS=Mus
+            musculus GN=Creb5 PE=2 SV=3
+        Length = 357
+
+ Score = 99 (39.9 bits), Expect = 0.047, P = 0.046
+ Identities = 28/92 (30%), Positives = 49/92 (53%)
+
+Query:    52 PAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKL 111
+             PA ++    Q +  P+     R+R   ED  E+RR + + RNRAAA   R+++++ +  L
+Sbjct:   194 PATQQMQPTQTIQPPQPTGGRRRRVVDEDPDERRR-KFLERNRAAATRCRQKRKVWVMSL 252
+
+Query:   112 ENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL 143
+             E +  ++ Q N  L   +S ++ E  +L Q L
+Sbjct:   253 EKKAEELTQTNMQLQNEVSMLKNEVAQLKQLL 284
+
+
+>sp|Q9C0A6|SETD5_HUMAN SET domain-containing protein 5 OS=Homo sapiens GN=SETD5
+            PE=1 SV=2
+        Length = 1442
+
+ Score = 106 (42.4 bits), Expect = 0.047, P = 0.046
+ Identities = 45/204 (22%), Positives = 87/204 (42%)
+
+Query:     2 SCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQ 61
+             +C ++K   +   LP  P    P L    A+T    A  K  E++ + +   +      Q
+Sbjct:   410 NCPIQKRNPNATELPLLPPP--PSLPTIGAETRRRKARRKELEMEQQNEASEENNDQQSQ 467
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVL---RNRAAAQTSRERKRLE--MEKLENEKI 116
+             E+P   T     +     +EK +   E V+    N A ++ +RE +++E  M   EN + 
+Sbjct:   468 EVPEKVTVSSDHEEVDNPEEKPEEEKEEVIDDQENLAHSRRTREDRKVEAIMHAFENLEK 527
+
+Query:   117 QMEQQNQFLLQRLSQME----AENNRLSQQLAQLA--AEVRGSRANTPMPGSPATASPTL 170
+             + ++++Q L Q  S +E         + ++    A  +EV  S +N  +P +P +     
+Sbjct:   528 RKKRRDQPLEQSNSDVEITTTTSETPVGEETKTEAPESEVSNSVSNVTIPSTPQSVGVN- 586
+
+Query:   171 TPTLFKQERDELPLER-IPFPTPS 193
+               T    +  ++  E+ +P P P+
+Sbjct:   587 --TRRSSQAGDIAAEKLVPKPPPA 608
+
+
+>sp|Q92575|UBXN4_HUMAN UBX domain-containing protein 4 OS=Homo sapiens GN=UBXN4
+            PE=1 SV=2
+        Length = 508
+
+ Score = 101 (40.6 bits), Expect = 0.047, P = 0.046
+ Identities = 58/224 (25%), Positives = 98/224 (43%)
+
+Query:    22 EVPVLTVSPADTSLN--SADVKTQEVKPE---EKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             E+P  + + +DT+    SA   T   +P    +++PA+      + L      L  R+  
+Sbjct:   156 EIPPTSDTKSDTATGGESAGHATSSQEPSGCSDQRPAEDLNIRVERLT---KKLEERREE 212
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+             K ++E EQR I++ +  R   +   + KR + E+L   K  +E++N+      ++  A  
+Sbjct:   213 KRKEE-EQREIKKEIERRKTGKEMLDYKRKQEEELT--KRMLEERNR----EKAEDRAAR 265
+
+Query:   137 NRLSQQLAQLAAEVRGSR-ANTPMPGSPATASPTLTPTL---FKQE---RDELPLERIPF 189
+              R+ QQ+A   AE R +R A T      A A+  L        K+E   R+   + RI F
+Sbjct:   266 ERIKQQIALDRAE-RAARFAKTKEEVEAAKAAALLAKQAEMEVKRESYARERSTVARIQF 324
+
+Query:   190 PTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLF 233
+               P  S ++    PS  A   +  Q  A +V    G+ S   +F
+Sbjct:   325 RLPDGSSFTNQF-PSD-APLEEARQFAAQTVGNTYGNFSLATMF 366
+
+
+>sp|Q5R4I3|UBXN4_PONAB UBX domain-containing protein 4 OS=Pongo abelii GN=UBXN4
+            PE=2 SV=1
+        Length = 508
+
+ Score = 101 (40.6 bits), Expect = 0.047, P = 0.046
+ Identities = 58/224 (25%), Positives = 98/224 (43%)
+
+Query:    22 EVPVLTVSPADTSLN--SADVKTQEVKPE---EKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             E+P  + + +DT+    SA   T   +P    +++PA+      + L      L  R+  
+Sbjct:   156 EIPPTSDTKSDTATGGESAGHATSSQEPSGCSDQRPAEDLNIRVERLT---KKLEERREE 212
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+             K ++E EQR I++ +  R   +   + KR + E+L   K  +E++N+      ++  A  
+Sbjct:   213 KRKEE-EQREIKKEIERRKTGKEMLDYKRKQEEELT--KRMLEERNR----EKAEDRAAR 265
+
+Query:   137 NRLSQQLAQLAAEVRGSR-ANTPMPGSPATASPTLTPTL---FKQE---RDELPLERIPF 189
+              R+ QQ+A   AE R +R A T      A A+  L        K+E   R+   + RI F
+Sbjct:   266 ERIKQQIALDRAE-RAARFAKTKEEVEAAKAAALLAKQAEMEVKRESYARERSTVARIQF 324
+
+Query:   190 PTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLF 233
+               P  S ++    PS  A   +  Q  A +V    G+ S   +F
+Sbjct:   325 RLPDGSSFTNQF-PSD-APLEEARQFAAQTVGNTYGNFSLATMF 366
+
+
+>sp|P14233|TGA1B_TOBAC TGACG-sequence-specific DNA-binding protein TGA-1B
+            (Fragment) OS=Nicotiana tabacum GN=TGA1B PE=2 SV=1
+        Length = 242
+
+ Score = 96 (38.9 bits), Expect = 0.049, P = 0.048
+ Identities = 25/63 (39%), Positives = 40/63 (63%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             DE E++R  R++RNR +AQ SR+RK+  +E+LE++   M    Q L  +++ + AEN  L
+Sbjct:   181 DEDEKKRA-RLVRNRESAQLSRQRKKHYVEELEDKVRIMHSTIQDLNAKVAYIIAENATL 239
+
+Query:   140 SQQ 142
+               Q
+Sbjct:   240 KTQ 242
+
+
+>sp|A9M1D5|IF2_NEIM0 Translation initiation factor IF-2 OS=Neisseria
+            meningitidis serogroup C (strain 053442) GN=infB PE=3 SV=1
+        Length = 962
+
+ Score = 104 (41.7 bits), Expect = 0.049, P = 0.048
+ Identities = 41/169 (24%), Positives = 69/169 (40%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR- 75
+             A PA++ P  T + A+T+  +A+ K  E    EK  A K  S     P  K   P  +R 
+Sbjct:   151 AKPAAQKP--TEAKAETAPVAAETKPAEESKAEKAQADKMPSKKPAEPKEKAAKPKHERN 208
+
+Query:    76 AKTEDEKEQRRI------ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+              K +D K+  +       + V+     AQ   E +R    +   E +  E+Q +   +  
+Sbjct:   209 GKGKDAKKPAKPAAPAVPQPVVSAEEQAQRDEEARRAAALRAHQEALLKEKQERQARREA 268
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+              + +AE    + Q A+   +     A  P   +PA  +  + P   K+E
+Sbjct:   269 MKQQAEQQAKAAQEAKTGRQRPAKPAEKPQAAAPALENKPVNPAKAKKE 317
+
+
+>sp|Q554P0|BZPJ_DICDI Probable basic-leucine zipper transcription factor J
+            OS=Dictyostelium discoideum GN=bzpJ PE=3 SV=1
+        Length = 787
+
+ Score = 103 (41.3 bits), Expect = 0.050, P = 0.049
+ Identities = 27/99 (27%), Positives = 52/99 (52%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             +EKE ++  R+++NR  A  SR R+++ +E +E +  +  Q    +  +L+ ++ EN  L
+Sbjct:   546 EEKELKKQRRLVKNREYASQSRSRRKIYVENIETKLQKTNQDCASIKSQLNSVKEENKAL 605
+
+Query:   140 SQQLAQLAAEVRGSRANTPMPG---SPATASPTLTPTLF 175
+              +QL  L   ++ + +     G   SP   + T + TLF
+Sbjct:   606 KKQLYSLTNTLKSNPSLAEAFGKIFSPIGNNKTSSATLF 644
+
+
+>sp|Q8N9W4|GG6L2_HUMAN Golgin subfamily A member 6-like protein 2 OS=Homo
+            sapiens PE=2 SV=2
+        Length = 650
+
+ Score = 102 (41.0 bits), Expect = 0.051, P = 0.049
+ Identities = 27/105 (25%), Positives = 56/105 (53%)
+
+Query:    43 QEVKPEEKKPAKKR-KSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSR 101
+             +E++ +EKK  K+  K W QE       L  ++    E E++ RR E+ LR +      +
+Sbjct:   279 EELREQEKKIRKQEEKMWRQE-----ERLREQEGKMREQEEKMRRQEKRLREQEKELREQ 333
+
+Query:   102 ERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+             E++  E +KL  ++ QM++Q + + ++  +M  +  ++ +Q  +L
+Sbjct:   334 EKELREQKKLREQEEQMQEQEEKMWEQEEKMREQEEKMWRQEERL 378
+
+ Score = 85 (35.0 bits), Expect = 3.7, P = 0.98
+ Identities = 25/93 (26%), Positives = 46/93 (49%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRL- 106
+             EEK   ++ K W QE  + +     R++ +   ++E+R  E+  R R   +  RE++++ 
+Sbjct:   361 EEKMREQEEKMWRQEERLWEQEKQMREQEQKMRDQEERMWEQDERLREKEERMREQEKMW 420
+
+Query:   107 -EMEKLENEKIQMEQQNQFLLQRLSQMEAENNR 138
+              ++EK+  EK   EQ+ +   Q     E E  R
+Sbjct:   421 EQVEKMREEKKMQEQEKKTRDQEEKMQEEERIR 453
+
+ Score = 84 (34.6 bits), Expect = 4.8, P = 0.992
+ Identities = 21/108 (19%), Positives = 54/108 (50%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR 94
+             L   + K +E + + ++  K+ +   +EL   +  L  +K+ + ++E+ Q + E++    
+Sbjct:   302 LREQEGKMREQEEKMRRQEKRLREQEKELREQEKELREQKKLREQEEQMQEQEEKMWEQE 361
+
+Query:    95 AAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+                +   E+   + E+L  ++ QM +Q Q +  +  +M  ++ RL ++
+Sbjct:   362 EKMREQEEKMWRQEERLWEQEKQMREQEQKMRDQEERMWEQDERLREK 409
+
+ Score = 82 (33.9 bits), Expect = 7.9, P = 0.9996
+ Identities = 26/108 (24%), Positives = 58/108 (53%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQ--ELPVPKTNLPPRKRAKTEDEK--EQRRI-ERVLRNRAAA 97
+             + ++ +E++  ++ K W Q  ++   K      K+ + ++EK  E+ RI ER  + R   
+Sbjct:   404 ERLREKEERMREQEKMWEQVEKMREEKKMQEQEKKTRDQEEKMQEEERIREREKKMREEE 463
+
+Query:    98 QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA---ENNRLSQQ 142
+             +T RE++  +M+K E E +  +++ ++  QRL + +    E  ++ +Q
+Sbjct:   464 ETMREQEE-KMQKQE-ENMWEQEEKEWQQQRLPEQKEKLWEQEKMQEQ 509
+
+
+>sp|Q8N300|CCD23_HUMAN Coiled-coil domain-containing protein 23 OS=Homo sapiens
+            GN=CCDC23 PE=2 SV=1
+        Length = 66
+
+ Score = 77 (32.2 bits), Expect = 0.051, P = 0.050
+ Identities = 17/54 (31%), Positives = 33/54 (61%)
+
+Query:    71 PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF 124
+             PP ++ KT+ ++   R+E+  + ++A Q  ++R+R E+  L     ++EQQ QF
+Sbjct:     3 PPARKEKTKVKESVSRVEKA-KQKSAQQELKQRQRAEIYALNRVMTELEQQ-QF 54
+
+
+>sp|O81025|P2A03_ARATH Putative protein PHLOEM PROTEIN 2-LIKE A3 OS=Arabidopsis
+            thaliana GN=PP2A3 PE=2 SV=1
+        Length = 463
+
+ Score = 100 (40.3 bits), Expect = 0.054, P = 0.052
+ Identities = 38/120 (31%), Positives = 65/120 (54%)
+
+Query:    41 KTQEVKPEEKKPAKKR-KSWGQELP-VPKTNLPPRKRAKTEDEKEQRRIERVL--RNRAA 96
+             K ++ K E+ K    R ++ G++   +P T    RK  K E+++  R  ERV+  +NRA 
+Sbjct:   174 KDEKKKVEQVKQLLARVENVGEQTGGIPYTYQLHRK-IKEENDERLREEERVIESKNRAE 232
+
+Query:    97 AQTSRERKRLEMEKLENEKIQMEQ-QNQFLL------QRLSQMEAENNRLSQQLAQLAAE 149
+             A+ +  ++ L MEK   EK+QME+ +N+ L+      ++L + E   NR   +LA +  E
+Sbjct:   233 AELAEMQQNLLMEK---EKLQMEEAKNKQLIAQAEANEKLMEQERAKNRAETELAAVMVE 289
+
+
+>sp|O35763|MOES_RAT Moesin OS=Rattus norvegicus GN=Msn PE=1 SV=3
+        Length = 577
+
+ Score = 101 (40.6 bits), Expect = 0.056, P = 0.055
+ Identities = 26/103 (25%), Positives = 51/103 (49%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPR-KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EKK  +  +   +++   K  L  + K+ + + +K Q+ +E   R     +  R+R + E
+Sbjct:   326 EKKKRELAEKEKEKIEREKEELMEKLKQIEEQTKKAQQELEEQTRRALELEQERKRAQSE 385
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+              EKL  E+ + E+  + LLQ     +    +L+ ++A+L A V
+Sbjct:   386 AEKLAKERQEAEEAKEALLQASRDQKKTQEQLASEMAELTARV 428
+
+ Score = 95 (38.5 bits), Expect = 0.26, P = 0.23
+ Identities = 23/80 (28%), Positives = 45/80 (56%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P T    + +A+  +EK Q+++ER L          E+K+ E+ + E EKI+ E++   L
+Sbjct:   297 PDTIEVQQMKAQAREEKHQKQMERAL-------LENEKKKRELAEKEKEKIEREKEE--L 347
+
+Query:   126 LQRLSQMEAENNRLSQQLAQ 145
+             +++L Q+E +  +  Q+L +
+Sbjct:   348 MEKLKQIEEQTKKAQQELEE 367
+
+ Score = 81 (33.6 bits), Expect = 8.9, P = 0.9999
+ Identities = 29/99 (29%), Positives = 49/99 (49%)
+
+Query:    73 RKRAKTEDEK-EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ-NQF-LLQRL 129
+             RKRA++E EK  + R E      A  Q SR++K+ + E+L +E  ++  + +Q  + ++ 
+Sbjct:   379 RKRAQSEAEKLAKERQEAEEAKEALLQASRDQKKTQ-EQLASEMAELTARVSQLEMARKK 437
+
+Query:   130 SQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASP 168
+              + EAE      Q+ Q   E   +   T M  +P  A P
+Sbjct:   438 KESEAEECHQKAQMVQEDLEKTRAELKTAM-STPHVAEP 475
+
+
+>sp|Q9Z220|TSG10_RAT Testis-specific gene 10 protein OS=Rattus norvegicus
+            GN=Tsga10 PE=1 SV=2
+        Length = 712
+
+ Score = 102 (41.0 bits), Expect = 0.057, P = 0.055
+ Identities = 52/182 (28%), Positives = 76/182 (41%)
+
+Query:    44 EVKPEEKKPAKKRKSWGQELP-----VPKTNLPPRKRAKTEDEKEQRRIE-RVLRNRAAA 97
+             +VK E +  +KK      EL      V  TNL   K       +E   +E   L+N   +
+Sbjct:   361 KVKQENQALSKKLNDTHNELSDIKQKVQDTNLEVNKLKNILKSEESTNLEVNKLKNILKS 420
+
+Query:    98 QTSRERKRLEM--------EKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+             + S  R+ +E         E  EN+  Q+E +N  L   L   EAE NRL +++  L  E
+Sbjct:   421 EESENRQIMEQLRKANEDAENWENKARQLEAENNTLKLELITAEAEGNRLKEKVDALNRE 480
+
+Query:   150 VRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPS-LSDYSPTLKPSTLAE 208
+             V     N         A  TL  +L K E +   L+++ F   S L+D S T +     +
+Sbjct:   481 VE-QHLNAERSYKSQIA--TLHKSLVKMEEE---LQKVQFEKVSALADLSSTRELCIKLD 534
+
+Query:   209 SS 210
+             SS
+Sbjct:   535 SS 536
+
+
+>sp|Q32N93|INCEB_XENLA Inner centromere protein B OS=Xenopus laevis GN=incenp-B
+            PE=2 SV=1
+        Length = 892
+
+ Score = 103 (41.3 bits), Expect = 0.058, P = 0.056
+ Identities = 38/144 (26%), Positives = 70/144 (48%)
+
+Query:    39 DVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL-PPRKRAKTEDEKE---QRRIERVLRNR 94
+             +++ Q+   E K+ A++ +   +++   K  L   R+R + E EK    QR +ER  + +
+Sbjct:   651 EMERQKKMAEAKRLAEQERE--RQVFAEKERLRAERERERIEREKALQLQRELERAAQEK 708
+
+Query:    95 AAAQTSRE--RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRG 152
+                +   E  +KR + ++LE E+++  +  Q + +RL   E +  +  +Q A  AA V  
+Sbjct:   709 EQQRREAEERKKREQQQRLEQERLERLRTEQEV-KRLQ--EEQQRKAKEQAAAAAAPVMN 765
+
+Query:   153 SRANTPMPGSPATASPTLTPTLFK 176
+                   M  SPA  S  +TP  +K
+Sbjct:   766 --VTVDMQNSPACESYEMTPKSYK 787
+
+ Score = 91 (37.1 bits), Expect = 1.2, P = 0.70
+ Identities = 26/86 (30%), Positives = 52/86 (60%)
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF-- 124
+             K N P +   K+E EKE++R++  LR +  A+  R++K  E +K + E++++ ++++   
+Sbjct:   502 KRNTPLKPDPKSE-EKERQRLD-ALRKKEEAELQRKQKIEEGKKRKQEELKLRREDRLRK 559
+
+Query:   125 LLQ---RLSQMEAENNR-LSQQLAQL 146
+             +LQ   R+ Q+E E  +   Q+ AQ+
+Sbjct:   560 VLQARERVEQLEEEKKKKFEQKFAQI 585
+
+ Score = 87 (35.7 bits), Expect = 3.3, P = 0.96
+ Identities = 32/132 (24%), Positives = 61/132 (46%)
+
+Query:    46 KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKR 105
+             K  E++  +++K   +   + +     +  A+ E  + +R  ER+ R +A  Q  RE +R
+Sbjct:   645 KKREEEEMERQKKMAEAKRLAEQERERQVFAEKERLRAERERERIEREKAL-QLQRELER 703
+
+Query:   106 LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPAT 165
+                EK +  +   E++ +   QRL Q   E  R  Q++ +L  E +  +A      + A 
+Sbjct:   704 AAQEKEQQRREAEERKKREQQQRLEQERLERLRTEQEVKRLQEEQQ-RKAKEQ---AAAA 759
+
+Query:   166 ASPTLTPTLFKQ 177
+             A+P +  T+  Q
+Sbjct:   760 AAPVMNVTVDMQ 771
+
+ Score = 83 (34.3 bits), Expect = 9.0, P = 0.9999
+ Identities = 34/129 (26%), Positives = 62/129 (48%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTN---LPPRKRAKTEDEKEQRRIE--RVLRNRA 95
+             K +EV+   K+  + RK   +++   +     L  +KR + E E++++  E  R+     
+Sbjct:   610 KQEEVECRRKQEEEARKLKAKQMEEEERRHQELLQKKREEEEMERQKKMAEAKRLAEQER 669
+
+Query:    96 AAQTSRERKRL----EMEKLENEK-IQMEQQNQFLLQRLSQM--EAENNRLSQQLAQLAA 148
+               Q   E++RL    E E++E EK +Q++++ +   Q   Q   EAE  +  +Q  +L  
+Sbjct:   670 ERQVFAEKERLRAERERERIEREKALQLQRELERAAQEKEQQRREAEERKKREQQQRLEQ 729
+
+Query:   149 EVRGSRANT 157
+             E R  R  T
+Sbjct:   730 E-RLERLRT 737
+
+
+>sp|Q95XZ5|NPBL_CAEEL Nipped-B-like protein pqn-85 OS=Caenorhabditis elegans
+            GN=pqn-85 PE=2 SV=2
+        Length = 2203
+
+ Score = 107 (42.7 bits), Expect = 0.058, P = 0.056
+ Identities = 58/197 (29%), Positives = 94/197 (47%)
+
+Query:    32 DTSLNSADVKTQEVK----PEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRI 87
+             D+S+ S+  K  E +     +E+K  ++RK   QEL   +      KR +  +EK     
+Sbjct:   177 DSSVISSHQKLYEEQCRQIEKERKEQEERKR-KQELEEQRKRNEELKRLRIAEEKRLLEE 235
+
+Query:    88 ERVLRNRAAAQTSRERKRLE-MEKLENEK---IQMEQQNQFLLQRLSQMEAENNRLSQQL 143
+             ++ LR +   +   E KRLE   +LE+E+     +E Q Q +LQ+   M+AE N+   ++
+Sbjct:   236 QQRLREQMERERLAEIKRLEEAARLEDERRIAADIEAQKQAMLQK---MQAEQNKHIAEV 292
+
+Query:   144 AQLAAEV--RGSRANTPMPGSPATASPTLTPTLFKQERDELP--LERIPFPTPSLSDYS- 198
+              +  +E+  R +R + PM         TL  T F      LP  L+ IPFP  S+ D + 
+Sbjct:   293 ERQRSELEERFARVSQPM---------TLVGTHF------LPNFLDMIPFPYESMVDSTL 337
+
+Query:   199 PTL----KPSTLAESSD 211
+             P +    + S + ES D
+Sbjct:   338 PQVFDMERDSAILESCD 354
+
+
+>sp|Q6CT90|EIF3A_KLULA Eukaryotic translation initiation factor 3 subunit A
+            OS=Kluyveromyces lactis GN=TIF32 PE=3 SV=1
+        Length = 925
+
+ Score = 103 (41.3 bits), Expect = 0.061, P = 0.059
+ Identities = 28/102 (27%), Positives = 55/102 (53%)
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ---NQFLLQRLS 130
+             K A+ E+ K+QR IE+V + R  A+ +  +  +E E  E E +  E++    +   +R++
+Sbjct:   801 KEAQLEEAKKQR-IEQVRKERYEAKVAEIQAAIEAEAAEKEALAKEEELAKRRAERERIN 859
+
+Query:   131 QMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATA-SPTLT 171
+             +   E  R  +++ +L  +  GS  ++P+P +P  A +P  T
+Sbjct:   860 KERDEIARKQREIEELLEKKNGSSRSSPVPSTPTPAPAPAQT 901
+
+
+>sp|Q5F489|TAF3_CHICK Transcription initiation factor TFIID subunit 3 OS=Gallus
+            gallus GN=TAF3 PE=2 SV=1
+        Length = 930
+
+ Score = 103 (41.3 bits), Expect = 0.061, P = 0.059
+ Identities = 60/236 (25%), Positives = 98/236 (41%)
+
+Query:     4 DMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPE---EKKPAKKRKSWG 60
+             D EK           P S  P L + P + SL      T    P       P    K + 
+Sbjct:   634 DKEKVKDKSKEDKIKPPS-AP-LVLPPKEMSLPLFSTPTAMRLPSMLPSLSPMLPEKLF- 690
+
+Query:    61 QELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ 120
+             ++   PK     +K  K + E+E+ + E+  +++   +  RE+K  E EK ++EKI++E 
+Sbjct:   691 EDKEKPKEKKKDKKEKKKKKEREKDK-EKEKKDKEKERKEREKKEKEKEKHKHEKIKVEP 749
+
+Query:   121 ---QNQFLLQRLS-QMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFK 176
+                    ++ RL+ ++ A  +++       A E + +   TP+   P T  P  +P    
+Sbjct:   750 VVPAPSPVIPRLTLRVGAGQDKIVISKVVPAPEAKPA---TPV-SRPKTPPPVPSPV--- 802
+
+Query:   177 QERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPL 232
+                   P+   P P P  +   PT+ P+ L  +S     PAVS AG    GS  P+
+Sbjct:   803 ----PAPVHVTPPPAPVPAPPQPTVSPALLPPAS-----PAVSAAG----GSKAPV 845
+
+
+>sp|P42775|GBF2_ARATH G-box-binding factor 2 OS=Arabidopsis thaliana GN=GBF2
+            PE=1 SV=1
+        Length = 360
+
+ Score = 98 (39.6 bits), Expect = 0.061, P = 0.060
+ Identities = 29/81 (35%), Positives = 44/81 (54%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM--EAENN 137
+             +EKE +R +R   NR +A+ SR RK+ E E+L  +   +  +N  L  +L Q+  E+E  
+Sbjct:   246 NEKEVKREKRKQSNRESARRSRLRKQAETEQLSVKVDALVAENMSLRSKLGQLNNESEKL 305
+
+Query:   138 RLSQQ--LAQLAAEVRGSRAN 156
+             RL  +  L QL A+  G   N
+Sbjct:   306 RLENEAILDQLKAQATGKTEN 326
+
+
+>sp|Q55EQ3|Y9086_DICDI Uncharacterized abhydrolase domain-containing protein
+            DDB_G0269086 OS=Dictyostelium discoideum GN=DDB_G0269086 PE=1 SV=2
+        Length = 937
+
+ Score = 103 (41.3 bits), Expect = 0.062, P = 0.060
+ Identities = 41/145 (28%), Positives = 66/145 (45%)
+
+Query:    18 TPASEVPVLTVSPADTSLNSADVKT-QEVKP--EEKKPAKKRKSWGQELPVPKTNLPPRK 74
+             +P+S +   T S   T+  +      +E KP  EE KP  +        PV + + P  +
+Sbjct:   283 SPSSNINTTTTSTTTTTTTTTSSPVVEESKPVVEESKPVVEESK-----PVVEESKPVVE 337
+
+Query:    75 RAKTE----DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS 130
+              +K E    D KE+   ER+ +  AAA+  +ER    +EK E E++  E + + +     
+Sbjct:   338 ESKPEPVVDDSKEKEEKERLEKEEAAAKLEKER----LEKEEAERVAKEAEEKRIKD--- 390
+
+Query:   131 QMEAENN-RLSQQLAQLAAEVRGSR 154
+             + EA+ N    QQ A  AA+    R
+Sbjct:   391 EKEAQENLEKQQQEAAAAAQAEKER 415
+
+ Score = 102 (41.0 bits), Expect = 0.079, P = 0.076
+ Identities = 44/176 (25%), Positives = 80/176 (45%)
+
+Query:    13 DSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP 72
+             +S P    S+ PV+  S  +  ++ +  K ++ + E+++ A K +    E    +     
+Sbjct:   324 ESKPVVEESK-PVVEESKPEPVVDDSKEKEEKERLEKEEAAAKLEKERLEKEEAERVAKE 382
+
+Query:    73 RKRAKTEDEKE-QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+              +  + +DEKE Q  +E+  +  AAA    E++RLE E  E +K++ E+      +  + 
+Sbjct:   383 AEEKRIKDEKEAQENLEKQ-QQEAAAAAQAEKERLEKE--EADKLEKERLEA---EAAAA 436
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERI 187
+              +AE  RL  + A  AA+    R    +    A A       L K+E D L  E++
+Sbjct:   437 AQAEKERLEAEAAA-AAQAEKER----LEAEAAAAVQAEKERLEKEEADRLEKEKL 487
+
+ Score = 90 (36.7 bits), Expect = 1.6, P = 0.80
+ Identities = 39/125 (31%), Positives = 58/125 (46%)
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRER-KRLEMEKLENEKIQMEQQN-QF 124
+             K  L     A  + EKE+   E      AAAQ  +ER ++ E E+LE EK++ E    Q 
+Sbjct:   639 KERLEAEAAAAAQAEKEKLEAEA----EAAAQAEKERLEKEEAERLEKEKLEAEAAAAQA 694
+
+Query:   125 LLQRLSQMEAENNRLSQ-QLAQLAAEVRGSRANTP-MPGSPATASPTLTPTLFKQERDEL 182
+               +RL   EAE    +Q +  +L AE   ++A    +    A A+      L K+E + L
+Sbjct:   695 EKERL---EAEAAAAAQAEKEKLEAEAAAAQAEKERLEAEAAAAAQAEKERLEKEETERL 751
+
+Query:   183 PLERI 187
+               ER+
+Sbjct:   752 EKERL 756
+
+
+>sp|Q54LU8|Y8646_DICDI Probable serine/threonine-protein kinase DDB_G0286465
+            OS=Dictyostelium discoideum GN=DDB_G0286465 PE=3 SV=1
+        Length = 1221
+
+ Score = 98 (39.6 bits), Expect = 0.062, Sum P(2) = 0.060
+ Identities = 23/79 (29%), Positives = 43/79 (54%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+             +K+ K   EKE +  E+    +   Q   ER++LE ++LE ++++ EQQ +  L+R   +
+Sbjct:  1105 KKQEKENKEKENKEKEK---KQLEKQKQLEREKLEKDRLEKDRLEKEQQEKDCLEREKFL 1161
+
+Query:   133 EAENNRLSQQLAQLAAEVR 151
+             E E     Q+  +L  E++
+Sbjct:  1162 ENERLEKEQEREKLEKEIK 1180
+
+ Score = 52 (23.4 bits), Expect = 0.062, Sum P(2) = 0.060
+ Identities = 17/79 (21%), Positives = 32/79 (40%)
+
+Query:     7 KTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP 66
+             K   S  S  +T  S+V + + S + +S +S+   +            K K+        
+Sbjct:   536 KESPSSSSTTSTSTSQVLIKSDSDSSSSASSSSSSSSSSSSSSSSSLPKSKNKSNRSKDN 595
+
+Query:    67 KTNLPPRKRAKTEDEKEQR 85
+             ++ L P KR  T+ +K  +
+Sbjct:   596 QSKLDPEKRLLTKLKKSMK 614
+
+ Score = 46 (21.3 bits), Expect = 0.25, Sum P(2) = 0.22
+ Identities = 9/28 (32%), Positives = 18/28 (64%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNL 70
+             ++ K +EK+  K+++  G+E  +PK  L
+Sbjct:   755 EKEKEKEKEKEKEKEEEGEEGNIPKEKL 782
+
+
+>sp|P94517|YSCB_BACSU Uncharacterized protein yscB OS=Bacillus subtilis GN=yscB
+            PE=4 SV=2
+        Length = 221
+
+ Score = 94 (38.1 bits), Expect = 0.068, P = 0.066
+ Identities = 47/170 (27%), Positives = 78/170 (45%)
+
+Query:    29 SPADTSLNSADVKTQEVKPEEK--KPAKKRK--SWGQELPVP-KTNLPPRKRAKTEDEKE 83
+             S +  S     VKT    P+++  K  KK K  S   +   P  T L  RK AK E EK 
+Sbjct:    22 STSSESKVETTVKTTAAFPQKELEKELKKLKPVSLDMKFESPLATELGKRK-AKEEAEK- 79
+
+Query:    84 QRRI--------ERVLRNRAAAQTSRERKRL-EMEKLENEKI-QMEQQNQFLLQRLSQME 133
+             QR+I        ER  + +   +   ER+RL E +  E +++ + E+Q +   QR + ++
+Sbjct:    80 QRQIAAEKKLEKEREAKRKKQQEEKAERQRLAEQQAAERQRLAEAERQAELERQRQAAIQ 139
+
+Query:   134 AENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELP 183
+              E    +++  Q  A+ + + A +     P ++S     T+ +Q   ELP
+Sbjct:   140 KEQKANAEKKRQSQAQRQQTEAPSSNSQDPPSSSSQTDKTI-QQPASELP 188
+
+
+>sp|Q2UKG6|EIF3A_ASPOR Eukaryotic translation initiation factor 3 subunit A
+            OS=Aspergillus oryzae GN=tif32 PE=3 SV=1
+        Length = 1038
+
+ Score = 103 (41.3 bits), Expect = 0.069, P = 0.067
+ Identities = 30/127 (23%), Positives = 60/127 (47%)
+
+Query:    54 KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN 113
+             K+ + + +     + +   +K+ + ++ +++RR ER  R  A  +   E +R++ E+ E 
+Sbjct:   799 KRHEEFERRRKAAERDFEAKKKQRIKEVQDRRRRERAEREEAERRQKEEEERIKREE-EE 857
+
+Query:   114 EKIQMEQQNQFLLQRLSQMEAENNRLS-----QQLAQLAAEVRGSRANTPMPGSPATASP 168
+                + E++ + L +  ++ E E  +L      Q+  +  AE R +   T  P  PA A P
+Sbjct:   858 RAAKEEERRRVLAEEKAKREEERKKLDEIALKQKQREEEAEARRASRKTGFPEPPARAEP 917
+
+Query:   169 TLT-PTL 174
+               T P L
+Sbjct:   918 ERTAPRL 924
+
+
+>sp|Q9Y592|CCD41_HUMAN Coiled-coil domain-containing protein 41 OS=Homo sapiens
+            GN=CCDC41 PE=1 SV=2
+        Length = 693
+
+ Score = 101 (40.6 bits), Expect = 0.071, P = 0.069
+ Identities = 44/183 (24%), Positives = 79/183 (43%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE- 107
+             EK   +K+  W +E       +  R+  K    KE+ +   + + +  +    + KRL+ 
+Sbjct:   517 EKTLEEKQIQWLEEKHKLHERITDREE-KYNQAKEKLQRAAIAQKKRKSLHENKLKRLQE 575
+
+Query:   108 -MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATA 166
+              +E LE +K ++E +NQ L ++    E +  RL ++L  +       R+   +P  P TA
+Sbjct:   576 KVEVLEAKKEELETENQVLNRQNVPFE-DYTRLQKRLKDIQRRHNEFRSLILVPNMPPTA 634
+
+Query:   167 SPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLA---ESSDVAQHPAVSVAGL 223
+             S  + P  F Q    +P   +PFP P + +     + S L    E  +  Q   +   G 
+Sbjct:   635 S--INPVSF-QSSAMVPSMELPFP-PHMQEEQHQRELSLLRKRLEELETTQRKQLEELGS 690
+
+Query:   224 EGD 226
+              G+
+Sbjct:   691 SGE 693
+
+ Score = 83 (34.3 bits), Expect = 6.7, P = 0.999
+ Identities = 31/119 (26%), Positives = 54/119 (45%)
+
+Query:    32 DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL 91
+             +  L     + +++  E+    +K K  G E  V +     ++ ++ + E  QR   R L
+Sbjct:   192 NVDLTKDSKRVEQLAREKVYLCQKLK--GLEAEVAELKAE-KENSEAQVENAQRIQVRQL 248
+
+Query:    92 RNRAAAQTSRERKR----LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+                 A   S E ++    L  E+LE E     +QN FL+ +L + E E N LS ++ +L
+Sbjct:   249 AEMQATVRSLEAEKQSANLRAERLEKELQSSSEQNTFLINKLHKAEREINTLSSKVKEL 307
+
+
+>sp|Q6Y7W8|PERQ2_MOUSE PERQ amino acid-rich with GYF domain-containing protein
+            2 OS=Mus musculus GN=Gigyf2 PE=1 SV=2
+        Length = 1291
+
+ Score = 111 (44.1 bits), Expect = 0.072, Sum P(2) = 0.069
+ Identities = 67/271 (24%), Positives = 111/271 (40%)
+
+Query:    13 DSLP--ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL 70
+             DSLP      +E  + T   +   L+   V+ + + PEE++   +    G+E     ++ 
+Sbjct:   284 DSLPEWCLEDAEEEMGTFDSSGAFLSLKKVQKEPI-PEEQEMDFRPVEEGEERS--DSDS 340
+
+Query:    71 PPRKRAKTEDEKEQRRIERVLRNRAAA-----QTSRERKR--LEMEKLENEKIQMEQQNQ 123
+                + AK  D+  +R  E+  R  A A     QTS    R     +    E  Q E++++
+Sbjct:   341 SHNEEAKEPDKTNRREGEKTDRAGAEASEEVPQTSLSSARPGTPSDHQPQEATQFERKDE 400
+
+Query:   124 FLLQRLSQMEAEN---NRLSQQLAQLAAEV--RGSRANTPMPGSPATASPTL--TPTLFK 176
+                +++ + E EN   N LS ++     E      + +TP+P  P TASP L  +P +  
+Sbjct:   401 PKAEQVEKAEEENRSENSLSAKVPSRGDETVPASQQPSTPLP--PDTASPLLILSPPVPT 458
+
+Query:   177 QERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLG 236
+                   P+E      P +S  S   +P        + Q     VA L+   SAL    L 
+Sbjct:   459 PSSASRPVETAAVEAPGMSSVST--EPDDEEGLKHLEQQAEKMVAYLQD--SALDDERLT 514
+
+Query:   237 SDLKHHSTDDVAAPLSDDDFNRLFHGDSSVE 267
+             S L+ H    V+ PL  +   + ++ D   E
+Sbjct:   515 SKLQEHRAKGVSIPLMHEAMQKWYYKDPQGE 545
+
+ Score = 111 (44.1 bits), Expect = 0.091, Sum P(3) = 0.087
+ Identities = 40/140 (28%), Positives = 72/140 (51%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EE++  ++ +   +EL + K      K A+ E+E+ QRR+E    NR   +    R R E
+Sbjct:   825 EERRREEEERRKQEEL-LRKQEEEAAKWAR-EEEEAQRRLEE---NRLRMEEEAARLRHE 879
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEA----ENNRLSQQLAQL---AAEVRGSRANTPMP 160
+              E+ + +++++++Q   + QR  Q EA    +  +  QQLAQ+   ++   G ++NT   
+Sbjct:   880 EEERKRKELELQRQKDLMRQRQQQQEALRRLQQQQQQQQLAQMKLPSSSTWGQQSNTATC 939
+
+Query:   161 GSPATASPTLTPTLFKQERD 180
+              S AT S      L ++ER+
+Sbjct:   940 QSQATLSLAEIQKL-EEERE 958
+
+ Score = 39 (18.8 bits), Expect = 0.091, Sum P(3) = 0.087
+ Identities = 13/39 (33%), Positives = 20/39 (51%)
+
+Query:    10 SSVDSLPATPASEVPVLTVSPADTSLNSAD--VKTQEVK 46
+             S   S P  P +  P+L +SP   + +SA   V+T  V+
+Sbjct:   434 SQQPSTPLPPDTASPLLILSPPVPTPSSASRPVETAAVE 472
+
+ Score = 38 (18.4 bits), Expect = 0.072, Sum P(2) = 0.069
+ Identities = 7/20 (35%), Positives = 12/20 (60%)
+
+Query:   246 DVAAPLSDDDFNRLFHGDSS 265
+             +V +P    D+ R + GD+S
+Sbjct:  1169 EVESPYEVHDYTRAYLGDTS 1188
+
+
+>sp|Q8X229|FCR3_CANAL Fluconazole resistance protein 3 OS=Candida albicans
+            GN=FCR3 PE=3 SV=1
+        Length = 399
+
+ Score = 98 (39.6 bits), Expect = 0.072, P = 0.069
+ Identities = 21/62 (33%), Positives = 40/62 (64%)
+
+Query:    75 RAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA 134
+             R  +E  +E+ +++R  +NRAA +  RERK  ++++LE + +  E++ Q LL  L Q++ 
+Sbjct:   202 RDDSELTEEELQMKRKAQNRAAQRAFRERKESKLKELEAKLLASEEERQKLLDELEQIKK 261
+
+Query:   135 EN 136
+             +N
+Sbjct:   262 QN 263
+
+
+>sp|P26041|MOES_MOUSE Moesin OS=Mus musculus GN=Msn PE=1 SV=3
+        Length = 577
+
+ Score = 100 (40.3 bits), Expect = 0.072, P = 0.070
+ Identities = 25/103 (24%), Positives = 51/103 (49%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPR-KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EKK  +  +   +++   K  L  + K+ + + +K Q+ +E   R     +  R+R + E
+Sbjct:   326 EKKKRELAEKEKEKIEREKEELMEKLKQIEEQTKKAQQELEEQTRRALELEQERKRAQSE 385
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+              EKL  E+ + E+  + LLQ     +    +L+ ++A+L A +
+Sbjct:   386 AEKLAKERQEAEEAKEALLQASRDQKKTQEQLASEMAELTARI 428
+
+ Score = 95 (38.5 bits), Expect = 0.26, P = 0.23
+ Identities = 23/80 (28%), Positives = 45/80 (56%)
+
+Query:    66 PKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFL 125
+             P T    + +A+  +EK Q+++ER L          E+K+ E+ + E EKI+ E++   L
+Sbjct:   297 PDTIEVQQMKAQAREEKHQKQMERAL-------LENEKKKRELAEKEKEKIEREKEE--L 347
+
+Query:   126 LQRLSQMEAENNRLSQQLAQ 145
+             +++L Q+E +  +  Q+L +
+Sbjct:   348 MEKLKQIEEQTKKAQQELEE 367
+
+
+>sp|Q9TW28|MYOM_DICDI Myosin-M heavy chain OS=Dictyostelium discoideum GN=myoM
+            PE=1 SV=1
+        Length = 1737
+
+ Score = 105 (42.0 bits), Expect = 0.074, P = 0.072
+ Identities = 57/223 (25%), Positives = 92/223 (41%)
+
+Query:    55 KRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL-RNRAAAQTSRERKRLEMEKLEN 113
+             KRK   ++  + +      +R K E E+++R  E+ L R R   +   ER+R E EK E 
+Sbjct:   941 KRKEEERKKELERQRKEEEERQK-ELERQRREEEKELERKRKEEERELERQRKEEEK-EQ 998
+
+Query:   114 EKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPA---TASPTL 170
+             E+ + E++ +   ++  + E E  R  ++  +   E   S  +  +  SP+   T + T 
+Sbjct:   999 ERKRKEEEKEQERKKKEEKEIEKKRKEEEKKKKKNEQNLSLPSLDITNSPSLINTTTTTT 1058
+
+Query:   171 TPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSAL 230
+             T T         PL     P PS         PS+ + SS     P+     L    S  
+Sbjct:  1059 TTTTTTTNTSSPPLSPPISPRPST--------PSSTSSSSSTTSSPSTKKQLLFKFNSIS 1110
+
+Query:   231 PLFDLGSDLKHHSTDDVAAPLSDDDFNRLFHGDSSV--EPDSS 271
+              L  L   L H S+        D++ N   +GDS++    DSS
+Sbjct:  1111 NL--LSKSL-HGSSHSDKNSKEDNNSNNNNNGDSTIILSSDSS 1150
+
+ Score = 101 (40.6 bits), Expect = 0.20, P = 0.18
+ Identities = 46/164 (28%), Positives = 75/164 (45%)
+
+Query:    46 KPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL-RNRAAAQTSRERK 104
+             K EE+K   +R+   +E    +     R+  K E E++++  ER L R R   +  +ERK
+Sbjct:   943 KEEERKKELERQRKEEEERQKELERQRREEEK-ELERKRKEEERELERQRKEEEKEQERK 1001
+
+Query:   105 RLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPA 164
+             R E EK E E+ + E++   + ++  + E +  +  Q L+  + ++     N+P   +  
+Sbjct:  1002 RKEEEK-EQERKKKEEKE--IEKKRKEEEKKKKKNEQNLSLPSLDI----TNSPSLINTT 1054
+
+Query:   165 TASPTLTPTLFKQERDELPLERIPFP-TPSL--SDYSPTLKPST 205
+             T + T T T        L     P P TPS   S  S T  PST
+Sbjct:  1055 TTTTTTTTTTTNTSSPPLSPPISPRPSTPSSTSSSSSTTSSPST 1098
+
+
+>sp|Q9NZ53|PDXL2_HUMAN Podocalyxin-like protein 2 OS=Homo sapiens GN=PODXL2
+            PE=1 SV=1
+        Length = 605
+
+ Score = 100 (40.3 bits), Expect = 0.077, P = 0.074
+ Identities = 68/283 (24%), Positives = 109/283 (38%)
+
+Query:    32 DTSLNSADVKTQEVKPE--EKKPAKKRKSWGQELP-----VPKTNL--PPRKRAKTEDEK 82
+             D+SL+        V P+  EK  + +  S  QELP     +PK NL  PP      E+E+
+Sbjct:   107 DSSLDLGPT-ADYVFPDLTEKAGSIEDTSQAQELPNLPSPLPKMNLVEPPWHMPPREEEE 165
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ-NQFLLQRLSQMEAENNRLSQ 141
+             E+   E   R +   +   E +  E+  +   + + + Q   F L   SQ         +
+Sbjct:   166 EEEEEEE--REKEEVEKQEEEEEEELLPVNGSQEEAKPQVRDFSLTSSSQTPGATKSRHE 223
+
+Query:   142 QLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFK---QERDELPLERIPFPTPSLSDYS 198
+                  A+   G    + M   P+   P++TPT      Q+      E    P   L    
+Sbjct:   224 DSGDQASS--GVEVESSM--GPSLLLPSVTPTTVTPGDQDSTSQEAEATVLPAAGLG--- 276
+
+Query:   199 PTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD---LGSDLKHHSTDDVAAPLSDDD 255
+               ++     E+S+ A   A  ++G   +  ALP F      S  +H   D + +  S   
+Sbjct:   277 --VEFEAPQEASEEATAGAAGLSGQHEEVPALPSFPQTTAPSGAEHPDEDPLGSRTSAS- 333
+
+Query:   256 FNRLFHGDSSVEPDSSVF-EDGLAFDVLEGGDLSA---FPFDS 294
+              + L  GD  + P S+   ++ L   +LEG    A    P+DS
+Sbjct:   334 -SPLAPGDMELTPSSATLGQEDLNQQLLEGQAAEAQSRIPWDS 375
+
+
+>sp|Q02930|CREB5_HUMAN Cyclic AMP-responsive element-binding protein 5 OS=Homo
+            sapiens GN=CREB5 PE=1 SV=2
+        Length = 508
+
+ Score = 99 (39.9 bits), Expect = 0.078, P = 0.075
+ Identities = 28/92 (30%), Positives = 49/92 (53%)
+
+Query:    52 PAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKL 111
+             PA ++    Q +  P+     R+R   ED  E+RR + + RNRAAA   R+++++ +  L
+Sbjct:   345 PATQQMQPTQTIQPPQPTGGRRRRVVDEDPDERRR-KFLERNRAAATRCRQKRKVWVMSL 403
+
+Query:   112 ENEKIQMEQQNQFLLQRLSQMEAENNRLSQQL 143
+             E +  ++ Q N  L   +S ++ E  +L Q L
+Sbjct:   404 EKKAEELTQTNMQLQNEVSMLKNEVAQLKQLL 435
+
+
+>sp|Q5HZG4|TAF3_MOUSE Transcription initiation factor TFIID subunit 3 OS=Mus
+            musculus GN=Taf3 PE=1 SV=2
+        Length = 932
+
+ Score = 102 (41.0 bits), Expect = 0.079, P = 0.076
+ Identities = 55/202 (27%), Positives = 87/202 (43%)
+
+Query:    14 SLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPR 73
+             +LP    S V V  + PA + +    +  ++ KP+EK+  K +K                
+Sbjct:   664 ALPLFSPSAVRVPAMLPAFSPMLPEKLFEEKEKPKEKERKKDKKE--------------- 708
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ---QNQFLLQRLS 130
+             K+ K E EKE+ + ER    R   +  RE++  E EK ++EKI++E        ++ RL+
+Sbjct:   709 KKKKKEKEKEKEKKER---EREKERREREKREKEKEKHKHEKIKVEPVIPAPSPVIPRLT 765
+
+Query:   131 -QMEAENNRLSQQLAQLAAEVRGS----RANTPMPGS---PATASPT-LTPTLFKQERDE 181
+              ++ A  +++       A E + +    R  TP P     P   SPT L P L  Q    
+Sbjct:   766 LRVGAGQDKIVISKVVPAPEAKPAPSLNRPKTPPPAPVPIPVRVSPTPLQPPLLTQAA-V 824
+
+Query:   182 LPLERIPFPTPSLSDYSPTLKP 203
+              P   +P P P+LS       P
+Sbjct:   825 CPA-LMPSPAPALSGIGSAKAP 845
+
+ Score = 80 (33.2 bits), Expect = 4.4, Sum P(2) = 0.99
+ Identities = 38/160 (23%), Positives = 76/160 (47%)
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             P+++ + +D+KE+++ +   + +   +  RE++R E EK E EK +  +  +  ++ +  
+Sbjct:   697 PKEKERKKDKKEKKKKKEKEKEKEKKEREREKERREREKREKEK-EKHKHEKIKVEPV-- 753
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPT 191
+             + A +  + +   ++ A       +  +P   A  +P+L        R + P    P P 
+Sbjct:   754 IPAPSPVIPRLTLRVGAGQDKIVISKVVPAPEAKPAPSLN-------RPKTPP---PAPV 803
+
+Query:   192 PSLSDYSPT-LKPSTLAESSDV-AQHPAVSVAGLEGDGSA 229
+             P     SPT L+P  L +++   A  P+ + A L G GSA
+Sbjct:   804 PIPVRVSPTPLQPPLLTQAAVCPALMPSPAPA-LSGIGSA 842
+
+ Score = 50 (22.7 bits), Expect = 4.4, Sum P(2) = 0.99
+ Identities = 21/87 (24%), Positives = 40/87 (45%)
+
+Query:     4 DMEKTMSSVDSLPATPASEVPVLTVSPADTSL-NSADVKTQEVKPEEKKPAKKRKSWGQE 62
+             +M  T   + S   +P +  P+         L +S DVK +++K E K   KK++     
+Sbjct:   485 NMPPTFPYISSPSISPPTPEPLHKGYEEKAKLPSSVDVK-KKLKKELKTKLKKKEKQRDR 543
+
+Query:    63 LPVPKTNLPPRKRAKTEDEKEQRRIER 89
+                 + N   ++R+K +D+  +R  E+
+Sbjct:   544 ERERERN---KERSKEKDKMREREKEK 567
+
+ Score = 48 (22.0 bits), Expect = 7.0, Sum P(2) = 0.9991
+ Identities = 20/59 (33%), Positives = 27/59 (45%)
+
+Query:    17 ATPASEVPVLTVSP-ADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRK 74
+             A P+ + P+L  +P A + L  A  K  E K    K   K  S GQ+   PK  L P +
+Sbjct:   240 APPSPQPPML--APFAKSQLPIA--KPLETKSFTPKTKTKASSPGQKTKSPKAALSPAR 294
+
+
+>sp|A0LE19|IF2_MAGSM Translation initiation factor IF-2 OS=Magnetococcus sp.
+            (strain MC-1) GN=infB PE=3 SV=1
+        Length = 949
+
+ Score = 102 (41.0 bits), Expect = 0.080, P = 0.077
+ Identities = 34/144 (23%), Positives = 63/144 (43%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER-VLRNRAAAQT 99
+             K +E+  EEKK A K    G+E  + +   P    AK ++ + +R+ E    R +A  + 
+Sbjct:    70 KPEEI--EEKKEAPKSPKRGEERHILRPLTPEEIEAKQKELEAKRQAEEEAARQKAEQEA 127
+
+Query:   100 SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPM 159
+             +R+++  E  + + E+ +  +Q Q       + EA   +  ++ A+ AA    +    P 
+Sbjct:   128 ARQKQEAEAARRKAEQ-EAARQKQ-------EAEAARRKAEEEAARAAAAAPAAPVAAPA 179
+
+Query:   160 PGSPATASPTLTPTLFKQERDELP 183
+               +PA       P +  Q   E P
+Sbjct:   180 EAAPAVPVAVAEPVVVAQPAPEAP 203
+
+
+>sp|Q869E1|DNLI1_DICDI DNA ligase 1 OS=Dictyostelium discoideum GN=lig1 PE=3
+            SV=1
+        Length = 1192
+
+ Score = 103 (41.3 bits), Expect = 0.081, P = 0.078
+ Identities = 45/187 (24%), Positives = 84/187 (44%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTN-LPPR-KRAKTEDEKEQRRIERVLRNRAAAQ 98
+             K +E K +++K  K+++   +EL   K   L  + K  K +++KE+   E+  + +   +
+Sbjct:   246 KEKEEKDKKEKELKEKELKEKELKDKKEKELKEKEKELKDKEKKEKELKEKEKKEKEEKE 305
+
+Query:    99 TSR-ERKRLEM-EKLENEKIQMEQQNQFLLQR-LSQMEAENNRL-SQQLAQLAAEVRGSR 154
+               + E+K  E+ EK E EK + E + + L ++ L + E +   L S +   +       R
+Sbjct:   306 KEKKEKKEKELKEKEEKEKKEKELKEKELKEKELKEKELKEKELTSPKKETIDISDLFKR 365
+
+Query:   155 ANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQ 214
+             AN     S  T++   + T  KQ+ D  P      P+P L     T   +T   +S    
+Sbjct:   366 ANAEAKSSVPTSTSKNSKTNKKQKVDHKPTATTKKPSPVLEAKQSTTTTTTTTTTSTATT 425
+
+Query:   215 HPAVSVA 221
+               + S++
+Sbjct:   426 ISSKSIS 432
+
+ Score = 88 (36.0 bits), Expect = 3.5, P = 0.97
+ Identities = 44/189 (23%), Positives = 82/189 (43%)
+
+Query:    32 DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL 91
+             +  L   + K +E K +EKK  +++    +EL   K      K  K + EKE +  E+ L
+Sbjct:   227 EKELKEKESKEKEKKEKEKKEKEEKDKKEKEL---KEKELKEKELKDKKEKELKEKEKEL 283
+
+Query:    92 RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+             +++   +   + K  + EK E EK + E++ + L ++  + + E     ++L +   E++
+Sbjct:   284 KDKEKKEKELKEKE-KKEKEEKEKEKKEKKEKELKEKEEKEKKEKELKEKELKE--KELK 340
+
+Query:   152 GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLS--------DYSPTL-- 201
+                       SP   +  ++  LFK+   E     +P  T   S        D+ PT   
+Sbjct:   341 EKELKEKELTSPKKETIDISD-LFKRANAEAK-SSVPTSTSKNSKTNKKQKVDHKPTATT 398
+
+Query:   202 -KPSTLAES 209
+              KPS + E+
+Sbjct:   399 KKPSPVLEA 407
+
+
+>sp|P22793|TRHY_SHEEP Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+        Length = 1549
+
+ Score = 104 (41.7 bits), Expect = 0.085, P = 0.081
+ Identities = 29/104 (27%), Positives = 53/104 (50%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             E+++  ++RK   +EL   +  L   K+   ED ++++ +E+V   R   Q  RE++R E
+Sbjct:   736 EKRRQVRERKYLEEELQQEEDRLQREKQLLREDREKRQYLEKVELQREEEQLQREKRRQE 795
+
+Query:   108 MEKL--ENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+              E+   E E ++ E++     Q+L + E E  R  +   QL  E
+Sbjct:   796 RERQYREEELLREEERLHRKEQQLQREECEKRRRQELERQLEEE 839
+
+ Score = 97 (39.2 bits), Expect = 0.49, P = 0.39
+ Identities = 33/130 (25%), Positives = 64/130 (49%)
+
+Query:    30 PADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQR---- 85
+             P D  L    +K QE++   ++   + K   +E  + +     ++    E+E +QR    
+Sbjct:   122 PQDRQLEERRLKRQELEELAEEEELREKQVRREQRLQRRE---QEEYGGEEELQQRPKGR 178
+
+Query:    86 RIERVLRN--RAAAQTSRERKRLEMEKLENEKIQM-EQQNQFLLQRLSQMEAENNRLSQQ 142
+              +E +L    R   Q  RER+RL++E+ + ++ ++ E+Q +  LQ+    E +  RL ++
+Sbjct:   179 ELEELLNREQRFERQEQRERQRLQVEQQQRQRGELRERQEEVQLQKRETQELQRERLEEE 238
+
+Query:   143 LAQLAAEVRG 152
+               QL  + RG
+Sbjct:   239 -QQLQKQKRG 247
+
+ Score = 96 (38.9 bits), Expect = 0.63, P = 0.47
+ Identities = 28/115 (24%), Positives = 61/115 (53%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQELPV-PKTNLPPRKRAKTEDEKEQRRIERV-LR 92
+             L   + + Q  + E+++  ++ K + +++ +  +  L   +R K   E+E++ +E+V LR
+Sbjct:   428 LQREEEQLQREEREKRRRQEREKQYLEKVELWEEEQLQREEREKRRQEREKQYLEKVELR 487
+
+Query:    93 NRAAAQTS-RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+                  Q   RE++R E E+   EK++++++ Q  LQR  + +    R  Q L ++
+Sbjct:   488 EEEQLQRQEREKRRQERERQYLEKVELQEEEQ--LQREEREKRRQERERQYLEKV 540
+
+ Score = 94 (38.1 bits), Expect = 1.0, P = 0.65
+ Identities = 26/101 (25%), Positives = 55/101 (54%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTN-LPPRKRAKTEDEKEQRRIERV-LRNRAAAQTS-RERKR 105
+             EK+  ++ + + +++ + +   L   +R K   E+E++ +E+V L+     Q   RE++R
+Sbjct:   498 EKRRQERERQYLEKVELQEEEQLQREEREKRRQERERQYLEKVELQEEEQLQRQEREKRR 557
+
+Query:   106 LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+              E EK   EK++++++ Q  LQR  + +    R  Q L ++
+Sbjct:   558 QEREKQYLEKVELQEEEQ--LQRQERQKRRQEREKQYLEKV 596
+
+ Score = 93 (37.8 bits), Expect = 1.3, P = 0.74
+ Identities = 26/101 (25%), Positives = 56/101 (55%)
+
+Query:    49 EKKPAKKRKSWGQELPV-PKTNLPPRKRAKTEDEKEQRRIERV-LRNRAAAQTS-RERKR 105
+             EK+  ++ K + +++ +  +  L  ++R K   E+E++ +E+V L+     Q   RE++R
+Sbjct:   470 EKRRQEREKQYLEKVELREEEQLQRQEREKRRQERERQYLEKVELQEEEQLQREEREKRR 529
+
+Query:   106 LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+              E E+   EK++++++ Q  LQR  + +    R  Q L ++
+Sbjct:   530 QERERQYLEKVELQEEEQ--LQRQEREKRRQEREKQYLEKV 568
+
+ Score = 91 (37.1 bits), Expect = 2.2, P = 0.89
+ Identities = 25/109 (22%), Positives = 56/109 (51%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTN-LPPRKRAKTEDEKEQRRIERV-LRNRAAAQTS-RERKR 105
+             EK+  ++ + + +++ + +   L  ++R K   E+E++ +E+V L+     Q   R+++R
+Sbjct:   526 EKRRQERERQYLEKVELQEEEQLQRQEREKRRQEREKQYLEKVELQEEEQLQRQERQKRR 585
+
+Query:   106 LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+              E EK   EK++++++ Q   Q   +   E  R   +  +L  E +  R
+Sbjct:   586 QEREKQYLEKVELQEEEQLQRQEREKRRQERERQYLEKVELQEEEQVQR 634
+
+ Score = 89 (36.4 bits), Expect = 3.7, P = 0.97
+ Identities = 25/81 (30%), Positives = 42/81 (51%)
+
+Query:    75 RAKTEDEKEQRRIERVLRNRAAAQTSRERK-RLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             R + E+E ++RR     +     Q   E + RL+ EKL+ EK + E++ Q+   R  +++
+Sbjct:   366 RWQLEEESQRRRYTLYAKPAQREQVREEEQLRLKEEKLQREKRRQERERQY---REVELQ 422
+
+Query:   134 AENNRLSQQLAQLAAEVRGSR 154
+              E  RL ++  QL  E R  R
+Sbjct:   423 REEERLQREEEQLQREEREKR 443
+
+ Score = 89 (36.4 bits), Expect = 3.7, P = 0.97
+ Identities = 23/93 (24%), Positives = 50/93 (53%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTN-LPPRKRAKTEDEKEQRRIERV-LRNRAAAQTS-RERKR 105
+             EK+  ++ K + +++ + +   L  ++R K   E+E++ +E+V L+     Q   RE++R
+Sbjct:   554 EKRRQEREKQYLEKVELQEEEQLQRQERQKRRQEREKQYLEKVELQEEEQLQRQEREKRR 613
+
+Query:   106 LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR 138
+              E E+   EK++++++ Q   Q   +   E  R
+Sbjct:   614 QERERQYLEKVELQEEEQVQRQEREKRRQERER 646
+
+ Score = 89 (36.4 bits), Expect = 3.7, P = 0.97
+ Identities = 30/114 (26%), Positives = 59/114 (51%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             + Q  + E+++  ++R+   +EL   +  L   ++   E E+E+RR ER  R        
+Sbjct:   631 QVQRQEREKRRQERERQYLEKELQRQEERLQEEEQLLRE-EREKRRQERE-RQYLEKVEL 688
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+             +E ++L+ E  E EK + E++ Q+L +   +++ +  RL ++  QL  E R  R
+Sbjct:   689 QEEEQLQRE--EREKRRQERERQYLEKE--ELQRQEERLQREKEQLQREDREKR 738
+
+ Score = 88 (36.0 bits), Expect = 4.7, P = 0.991
+ Identities = 28/117 (23%), Positives = 62/117 (52%)
+
+Query:    40 VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIER---VLRNRAA 96
+             ++ +E++ +E++  ++++   +E    +  +  RK  + E ++E+ R++R   +LR    
+Sbjct:   711 LEKEELQRQEERLQREKEQLQREDREKRRQVRERKYLEEELQQEEDRLQREKQLLREDRE 770
+
+Query:    97 AQTSRERKRL--EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+              +   E+  L  E E+L+ EK + E++ Q+  + L + E   +R  QQL +   E R
+Sbjct:   771 KRQYLEKVELQREEEQLQREKRRQERERQYREEELLREEERLHRKEQQLQREECEKR 827
+
+ Score = 88 (36.0 bits), Expect = 4.7, P = 0.991
+ Identities = 29/125 (23%), Positives = 62/125 (49%)
+
+Query:    32 DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL 91
+             +  L   + + QE +   ++  +KR+   +   + K  L   ++ + E E+E+RR ER  
+Sbjct:   650 EKELQRQEERLQEEEQLLREEREKRRQERERQYLEKVELQEEEQLQRE-EREKRRQERER 708
+
+Query:    92 RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL--SQMEAENNRLSQQLAQLAAE 149
+             +     +  R+ +RL+ EK + ++   E++ Q   ++    +++ E +RL ++  QL  E
+Sbjct:   709 QYLEKEELQRQEERLQREKEQLQREDREKRRQVRERKYLEEELQQEEDRLQRE-KQLLRE 767
+
+Query:   150 VRGSR 154
+              R  R
+Sbjct:   768 DREKR 772
+
+ Score = 87 (35.7 bits), Expect = 6.1, P = 0.998
+ Identities = 31/111 (27%), Positives = 57/111 (51%)
+
+Query:    40 VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT 99
+             V+ QE +  +++  +KR+   +   + K  L   ++ + + E+E+RR ER  R     + 
+Sbjct:   596 VELQEEEQLQRQEREKRRQERERQYLEKVELQEEEQVQRQ-EREKRRQERE-RQYLEKEL 653
+
+Query:   100 SRERKRL-EMEKL---ENEKIQMEQQNQFL----LQRLSQMEAENNRLSQQ 142
+              R+ +RL E E+L   E EK + E++ Q+L    LQ   Q++ E     +Q
+Sbjct:   654 QRQEERLQEEEQLLREEREKRRQERERQYLEKVELQEEEQLQREEREKRRQ 704
+
+ Score = 87 (35.7 bits), Expect = 6.1, P = 0.998
+ Identities = 29/115 (25%), Positives = 59/115 (51%)
+
+Query:    40 VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT 99
+             V+ QE +  +++  +KR+   ++  + K  L   ++ + + E+E+RR ER  +     + 
+Sbjct:   568 VELQEEEQLQRQERQKRRQEREKQYLEKVELQEEEQLQRQ-EREKRRQERERQYLEKVEL 626
+
+Query:   100 SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+               E    ++++ E EK + E++ Q+L + L + E    RL ++  QL  E R  R
+Sbjct:   627 QEEE---QVQRQEREKRRQERERQYLEKELQRQE---ERLQEE-EQLLREEREKR 674
+
+
+>sp|O70191|ATF5_MOUSE Cyclic AMP-dependent transcription factor ATF-5 OS=Mus
+            musculus GN=Atf5 PE=1 SV=2
+        Length = 283
+
+ Score = 95 (38.5 bits), Expect = 0.088, P = 0.085
+ Identities = 30/93 (32%), Positives = 48/93 (51%)
+
+Query:    63 LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN 122
+             LP P    P    A T  +++Q++ ++   N++AA   R+RKR E E LE E   +E +N
+Sbjct:   192 LPSPARPAPYPSPASTRGDRKQKKRDQ---NKSAALRYRQRKRAEGEALEGECQGLEARN 248
+
+Query:   123 QFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA 155
+             + L +R   +E E     Q +  L  EV  +R+
+Sbjct:   249 RELRERAESVERE----IQYVKDLLIEVYKARS 277
+
+
+>sp|Q39140|TGA6_ARATH Transcription factor TGA6 OS=Arabidopsis thaliana GN=TGA6
+            PE=1 SV=2
+        Length = 330
+
+ Score = 96 (38.9 bits), Expect = 0.089, P = 0.085
+ Identities = 20/55 (36%), Positives = 38/55 (69%)
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             +++D+ +Q+ + R+ +NR AA+ SR RK+  +++LEN ++++ Q  Q L QR  Q
+Sbjct:    38 RSKDKLDQKTLRRLAQNREAARKSRLRKKAYVQQLENSRLKLTQLEQEL-QRARQ 91
+
+
+>sp|Q68EL6|NFIL3_DANRE Nuclear factor interleukin-3-regulated protein OS=Danio
+            rerio GN=nfil3 PE=2 SV=1
+        Length = 462
+
+ Score = 98 (39.6 bits), Expect = 0.089, P = 0.085
+ Identities = 42/152 (27%), Positives = 70/152 (46%)
+
+Query:    73 RKRAKTEDEKEQRRI-ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             RKR    DEK+     ER  +N  AA+ SRE++RL    LEN+ + + ++N  L   L  
+Sbjct:    52 RKREFIPDEKKDNLYWERRRKNNEAAKRSREKRRLNDMVLENKLMALGEENASLKAELLS 111
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQER-DELPLERIPFP 190
+             ++     +S   A  A EV+    +T      A     ++P+  K     +L   R+   
+Sbjct:   112 LKLRFGLVSS--AAYAQEVQNISTSTA-----ALYQDFMSPSATKDSYPSDLEPTRLTSS 164
+
+Query:   191 TPSLSDYSPTLKPSTLAESSDVAQ-HPAVSVA 221
+               S+  +SP    S  ++SS V Q  P ++++
+Sbjct:   165 CISVIKHSPHSALSDGSDSSTVTQGSPLINIS 196
+
+
+>sp|Q55FW7|GLE1_DICDI Nucleoporin GLE1 OS=Dictyostelium discoideum GN=gle1 PE=3
+            SV=1
+        Length = 837
+
+ Score = 101 (40.6 bits), Expect = 0.089, P = 0.086
+ Identities = 30/107 (28%), Positives = 55/107 (51%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKT--NLPPRKRAKTEDEKEQRRI-ERVLRNRAAAQT 99
+             QE K +++K  K+ K   Q+    +    L   K  K + EKEQ++  E+ L+       
+Sbjct:   390 QEQKEKQEKLEKEEKEKEQQEQQKQLLIKLAKEKEEKEKFEKEQQQQKEKELQKEKELLQ 449
+
+Query:   100 SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQL 146
+              +E+++ E EKL+ ++ Q +QQ Q   Q+L Q + + N+ +  L  +
+Sbjct:   450 QKEKEK-EKEKLQQQQQQQQQQQQQQQQQLQQQQQQQNQQNNNLGYI 495
+
+ Score = 89 (36.4 bits), Expect = 1.8, P = 0.84
+ Identities = 26/98 (26%), Positives = 52/98 (53%)
+
+Query:    48 EEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             E+KK  +K++   QE    +  L      K E EKEQ+  ++ L  + A +   E+++ E
+Sbjct:   377 EQKKREEKQRQLQQEQKEKQEKLE-----KEEKEKEQQEQQKQLLIKLAKE-KEEKEKFE 430
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQ 145
+              E+ + ++ +++++ + L Q+  + E E  +L QQ  Q
+Sbjct:   431 KEQQQQKEKELQKEKELLQQK--EKEKEKEKLQQQQQQ 466
+
+
+>sp|Q3TLH4|BA2L2_MOUSE Protein BAT2-like 2 OS=Mus musculus GN=Bat2l2 PE=1 SV=2
+        Length = 2828
+
+ Score = 89 (36.4 bits), Expect = 0.096, Sum P(2) = 0.092
+ Identities = 30/106 (28%), Positives = 54/106 (50%)
+
+Query:    43 QEVKPEEKKPA---KKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT 99
+             +E + EE++ A   +K K   ++L + +    P +  + E EKE+   ER L      + 
+Sbjct:   468 EERRMEEQRKAACAEKLKQLDEKLGIIEKQPSPEELREREREKER---ERELEKEKEREL 524
+
+Query:   100 SRER-KRLEMEKLENEKIQMEQQNQFL--LQRLSQMEAENNRLSQQ 142
+              +E+ K+ EME+   ++ ++EQQ +    LQRL + E E     Q+
+Sbjct:   525 EKEQEKQREMERARQQEKELEQQREKEQELQRLREQEKEGEPKEQE 570
+
+ Score = 70 (29.7 bits), Expect = 9.4, Sum P(2) = 0.99992
+ Identities = 33/143 (23%), Positives = 55/143 (38%)
+
+Query:     7 KTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVP 66
+             K  SS D    TP S      V  A ++ +S+ + TQ   P  K P  K   + QE   P
+Sbjct:   345 KESSSEDQTAKTPESTENRKEVDEASSTKSSSQIPTQP--PVTKSPYGKGPPFNQERG-P 401
+
+Query:    67 KTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLL 126
+              ++LPP  +   +        +R +  R     S+       E  +  + Q  + +  + 
+Sbjct:   402 SSHLPPPPKLLAQQHPPPP--DRQIPGRQGPFPSKPPVPDNDEIWKQRRKQQSEISAAVE 459
+
+Query:   127 QRLSQMEAENNRLSQQLAQLAAE 149
+             +   + E E  R+ +Q     AE
+Sbjct:   460 RARKRREEEERRMEEQRKAACAE 482
+
+ Score = 67 (28.6 bits), Expect = 0.096, Sum P(2) = 0.092
+ Identities = 33/138 (23%), Positives = 52/138 (37%)
+
+Query:   140 SQQLAQLAAEVRGSRANTPMPGSPATASPTL-TPTL-FKQERDELPLERIP----FPTPS 193
+             S  +  LA+ +  +  ++P P   ATA P++ TP +        +PL         P P 
+Sbjct:  1816 SASIPILASALAPATVSSPTPVVSATAVPSISTPAVPASAPTASVPLAPASAASTVPPPG 1875
+
+Query:   194 LSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDD-VAAPLS 252
+             L    P   P T  ES+ +      +       G ++P       L     D  VAAP  
+Sbjct:  1876 LDSADPDPDPQTSPESTRLPSAQTSNGTDFVAAGKSMPTSQSHGSLTAELWDSKVAAPAV 1935
+
+Query:   253 DDDFNRLFHGDSSVEPDS 270
+              +D ++     S  +P S
+Sbjct:  1936 LNDISKKLGPISPPQPPS 1953
+
+ Score = 52 (23.4 bits), Expect = 3.0, Sum P(2) = 0.95
+ Identities = 15/53 (28%), Positives = 22/53 (41%)
+
+Query:   158 PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESS 210
+             P+P S +   P  T +         P   +P PTP L+  S T+    L  +S
+Sbjct:  1768 PVPTSASAPVPASTSSPVTASSSSQP--SVPAPTPVLASASTTVSVPILTSAS 1818
+
+
+>sp|Q04323|UBXN1_HUMAN UBX domain-containing protein 1 OS=Homo sapiens GN=UBXN1
+            PE=1 SV=2
+        Length = 297
+
+ Score = 95 (38.5 bits), Expect = 0.096, P = 0.092
+ Identities = 35/146 (23%), Positives = 69/146 (47%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL-RNRAAAQTSRERKRLE 107
+             E KPA   +   QE       L  +K+ + E+ +E+  +ER   R R   + S  R+RL+
+Sbjct:    81 EGKPALSEEE-RQEQTKRMLELVAQKQREREEREEREALERERQRRRQGQELSAARQRLQ 139
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSP---- 163
+              +++       E++ +   + L+  +    ++ +  A+ A +  GS  + P P +P    
+Sbjct:   140 EDEMRRAA---EERRREKAEELAARQRVREKIERDKAERAKKYGGSVGSQPPPVAPEPGP 196
+
+Query:   164 ATASPTLTPTLFKQERDELPLE-RIP 188
+               +SP+  P   K+E D+  ++ R+P
+Sbjct:   197 VPSSPSQEPPT-KREYDQCRIQVRLP 221
+
+ Score = 77 (32.2 bits), Expect = 9.9, P = 0.99995
+ Identities = 44/142 (30%), Positives = 64/142 (45%)
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERK-RLEMEKLENEKIQMEQQNQFLL---QRL 129
+             K A +E+E+ Q + +R+L     AQ  RER+ R E E LE E+ Q  +Q Q L    QRL
+Sbjct:    83 KPALSEEER-QEQTKRMLE--LVAQKQREREEREEREALERER-QRRRQGQELSAARQRL 138
+
+Query:   130 SQME---AENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLER 186
+              + E   A   R  ++  +LAA     R    +    A  +     ++  Q     P+  
+Sbjct:   139 QEDEMRRAAEERRREKAEELAAR---QRVREKIERDKAERAKKYGGSVGSQPP---PVAP 192
+
+Query:   187 IPFPTPSLSDYSPTLKPSTLAE 208
+              P P PS    SP+ +P T  E
+Sbjct:   193 EPGPVPS----SPSQEPPTKRE 210
+
+
+>sp|P23922|HBP1A_WHEAT Transcription factor HBP-1a OS=Triticum aestivum PE=2
+            SV=1
+        Length = 349
+
+ Score = 96 (38.9 bits), Expect = 0.097, P = 0.092
+ Identities = 29/97 (29%), Positives = 49/97 (50%)
+
+Query:    59 WGQ--ELPVP--KTNLPPRK-RAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN 113
+             WG     PVP  +  +P    R +  DE+E ++ +R L NR +A+ SR RK+ E E+L  
+Sbjct:   223 WGATGSSPVPAMRGKVPSGSARGEQWDERELKKQKRKLSNRESARRSRLRKQAECEELGQ 282
+
+Query:   114 EKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEV 150
+                 ++ +N  L   L +++ E   L  +   L A++
+Sbjct:   283 RAEALKSENSSLRIELDRIKKEYEELLSKNTSLKAKL 319
+
+
+>sp|Q9C5Q2|AI5L3_ARATH ABSCISIC ACID-INSENSITIVE 5-like protein 3
+            OS=Arabidopsis thaliana GN=DPBF4 PE=1 SV=1
+        Length = 262
+
+ Score = 94 (38.1 bits), Expect = 0.099, P = 0.094
+ Identities = 23/65 (35%), Positives = 42/65 (64%)
+
+Query:    71 PPRKRAKTE--DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQR 128
+             P RKR   E  ++  +RR +R+++NR +A  SR RK+    +LE +  ++E++N+  L+R
+Sbjct:   176 PGRKRVAGEIVEKTVERRQKRMIKNRESAARSRARKQAYTHELEIKVSRLEEENE-KLRR 234
+
+Query:   129 LSQME 133
+             L ++E
+Sbjct:   235 LKEVE 239
+
+
+>sp|Q54TD7|DDX24_DICDI ATP-dependent RNA helicase ddx24 OS=Dictyostelium
+            discoideum GN=ddx24 PE=3 SV=1
+        Length = 940
+
+ Score = 101 (40.6 bits), Expect = 0.10, P = 0.097
+ Identities = 26/114 (22%), Positives = 60/114 (52%)
+
+Query:    32 DTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQR-RIERV 90
+             D + N  + + +EVKP++K   +K++   Q+ P  +   P +K  K E +KE+  ++E  
+Sbjct:   168 DDNDNDFEDEEEEVKPQQKLQKQKQQEQKQKQPQKQPQQPNKKNNKKELQKEEEEQMEEE 227
+
+Query:    91 LRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNR--LSQQ 142
+                    Q   E K ++ + ++ +K++ ++Q +   + ++++E    R  +S+Q
+Sbjct:   228 KEEEEVQQEEEEEKEIK-KPIKEKKVKTQKQIEAAKKNINKLEKIKKRKEISEQ 280
+
+
+>sp|Q5F797|IF2_NEIG1 Translation initiation factor IF-2 OS=Neisseria
+            gonorrhoeae (strain ATCC 700825 / FA 1090) GN=infB PE=3 SV=1
+        Length = 943
+
+ Score = 101 (40.6 bits), Expect = 0.10, P = 0.098
+ Identities = 43/162 (26%), Positives = 68/162 (41%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             A PA++ P  T + A+T+  +A+ K  E K +  KP  +R   G++   P     P    
+Sbjct:   151 AKPAAQKP--TEAKAETAPVAAETKPAEPKEKAVKPKHERNGKGKDAKKPAKPAAPAVPQ 208
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+                  +EQ + +   R RAAA       R   E L  EK    Q+ Q   + + Q +AE 
+Sbjct:   209 PVVSAEEQAQRDEEAR-RAAAL------RAHQEALLKEK----QERQARREAMKQ-QAEQ 256
+
+Query:   137 NRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+                + Q A+   +     A  P   +PA  +  + P   K+E
+Sbjct:   257 QAKAAQEAKTGRQRPAKPAEKPQAAAPAVENKPVNPAKAKKE 298
+
+
+>sp|B4RMZ3|IF2_NEIG2 Translation initiation factor IF-2 OS=Neisseria
+            gonorrhoeae (strain NCCP11945) GN=infB PE=3 SV=1
+        Length = 943
+
+ Score = 101 (40.6 bits), Expect = 0.10, P = 0.098
+ Identities = 43/162 (26%), Positives = 68/162 (41%)
+
+Query:    17 ATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             A PA++ P  T + A+T+  +A+ K  E K +  KP  +R   G++   P     P    
+Sbjct:   151 AKPAAQKP--TEAKAETAPVAAETKPAEPKEKAVKPKHERNGKGKDAKKPAKPAAPAVPQ 208
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+                  +EQ + +   R RAAA       R   E L  EK    Q+ Q   + + Q +AE 
+Sbjct:   209 PVVSAEEQAQRDEEAR-RAAAL------RAHQEALLKEK----QERQARREAMKQ-QAEQ 256
+
+Query:   137 NRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQE 178
+                + Q A+   +     A  P   +PA  +  + P   K+E
+Sbjct:   257 QAKAAQEAKTGRQRPAKPAEKPQAAAPAVENKPVNPAKAKKE 298
+
+
+>sp|Q86AH4|Y8592_DICDI Putative uncharacterized protein DDB_G0271982
+            OS=Dictyostelium discoideum GN=DDB_G0271982 PE=4 SV=1
+        Length = 629
+
+ Score = 99 (39.9 bits), Expect = 0.10, P = 0.099
+ Identities = 47/192 (24%), Positives = 80/192 (41%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             K +E + E++K  +K K   +E    K     R+R +  + + +R  ER        +  
+Sbjct:   310 KEKEKEKEKEKEKEKEKEIEKEREKEKEREREREREREREREREREREREREREKEKEKE 369
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLS-QMEAENNRLSQQLAQLAAEVRGSRANTPM 159
+             RER+R E E+ E E+   E++ +F  +R   + E E  +L+    +    +R +  +  +
+Sbjct:   370 RERER-ERER-ERER---EREKEFEKERREREKEREREKLNITKDKEKQVIRETTIDETL 424
+
+Query:   160 PGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVS 219
+                     PT   T  K      P+     P PS++ YS +L PS     S  A     S
+Sbjct:   425 -NKETPHKPTPHITTKKSPNLTPPISSTASP-PSVTTYS-SLIPSIPTPQSAAATTTTPS 481
+
+Query:   220 VAGLEGDGSALP 231
+              A L    + +P
+Sbjct:   482 SATLTAVSATIP 493
+
+
+>sp|Q8IIG7|YPF05_PLAF7 Uncharacterized protein PF11_0207 OS=Plasmodium
+            falciparum (isolate 3D7) GN=PF11_0207 PE=4 SV=1
+        Length = 964
+
+ Score = 101 (40.6 bits), Expect = 0.11, P = 0.10
+ Identities = 33/134 (24%), Positives = 69/134 (51%)
+
+Query:    39 DVKTQEVKPEEKKPAKKRKSWGQELP--VPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA 96
+             ++K +EVK E K+  ++ K   +E+   + +     ++  K E ++E + I+  L+N  +
+Sbjct:   616 EIK-EEVKEEIKEVKEEIKEVKEEIKEEIKEVKEEIKEEVKEEIKEEIKEIKEELKNDIS 674
+
+Query:    97 AQTSRERKRLEMEKLENEKIQMEQQNQFLLQR-LSQMEAENNRLSQQLAQLAAEVRGSRA 155
+             ++T++E K  E +K E EK +   +   + Q+ L + E  N +L +Q  +   E+R    
+Sbjct:   675 SETTKEEKNTEHKKEETEKKKFIPKRVIMYQQELKEKEERNLKLLEQQRK-EREMRLQLI 733
+
+Query:   156 NTPMPGSPATASPT 169
+              +   G+ +T  P+
+Sbjct:   734 RSKTQGTSSTFIPS 747
+
+
+>sp|B2KI97|THOC2_RHIFE THO complex subunit 2 OS=Rhinolophus ferrumequinum
+            GN=THOC2 PE=3 SV=1
+        Length = 1576
+
+ Score = 103 (41.3 bits), Expect = 0.11, P = 0.11
+ Identities = 49/188 (26%), Positives = 88/188 (46%)
+
+Query:    36 NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRA 95
+             NS+   ++ VK  +K+  K+++   +E   P T   P  R   +D KE+ + ER  ++  
+Sbjct:  1257 NSSSNSSKTVKENDKEKGKEKEKEKKE-KTPATT--PEARILGKDGKEKPKEERPNKDEK 1313
+
+Query:    96 AAQTSRERKRLEMEK---LENEKIQMEQQNQFL--LQRLSQMEAENNRLSQQLAQLAAEV 150
+             A +T     + + EK    + EK++ E+    +  ++  S  E E  +   +   +A E+
+Sbjct:  1314 ARETKERTPKSDKEKEKFKKEEKVKDEKFKTTVPNVESKSTQEKEREKEPSRERDIAKEM 1373
+
+Query:   151 RGSRAN------TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS 204
+             + S+ N      TP+ GS    SP     + + ER++   +    P+PS   +S T+K S
+Sbjct:  1374 K-SKENVKGGEKTPVSGS--LKSPVPRSDIAEPEREQKRRKIDTHPSPS---HSSTVKDS 1427
+
+Query:   205 T--LAESS 210
+                L ESS
+Sbjct:  1428 LIELKESS 1435
+
+
+>sp|Q9UM54|MYO6_HUMAN Myosin-VI OS=Homo sapiens GN=MYO6 PE=1 SV=4
+        Length = 1294
+
+ Score = 102 (41.0 bits), Expect = 0.11, P = 0.11
+ Identities = 37/146 (25%), Positives = 69/146 (47%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             +E++ E K+  +  K   +E    +  L    + K E+E+ ++R +   R +A  +    
+Sbjct:   931 EEMEKERKRREEDEKRRRKEEEERRMKLEMEAKRKQEEEERKKREDDEKRIQAEVEAQLA 990
+
+Query:   103 RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGS 162
+             R++ E E  +   ++ E++++ L  R++Q EAE   L    AQ    +R S  + P+  +
+Sbjct:   991 RQK-EEESQQQAVLEQERRDRELALRIAQSEAE---LISDEAQADLALRRSLDSYPVSKN 1046
+
+Query:   163 PATASPTLTPTLFKQERDELPLERIP 188
+               T  P +TP    +E  E  L R P
+Sbjct:  1047 DGTR-PKMTPEQMAKEMSEF-LSRGP 1070
+
+ Score = 85 (35.0 bits), Expect = 8.2, P = 0.9997
+ Identities = 35/145 (24%), Positives = 69/145 (47%)
+
+Query:    11 SVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNL 70
+             S+D+L A   S +  +T        ++  VK+ E      +  K+++   + L   +  +
+Sbjct:   877 SIDTLMAKIKSTM--MTQEQIQKEYDAL-VKSSEELLSALQKKKQQEEEAERLRRIQEEM 933
+
+Query:    71 PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENE--KIQMEQQNQFLLQR 128
+                ++ + EDEK +R+ E   R +   +  R+++  E +K E++  +IQ E + Q   Q+
+Sbjct:   934 EKERKRREEDEKRRRKEEEERRMKLEMEAKRKQEEEERKKREDDEKRIQAEVEAQLARQK 993
+
+Query:   129 L--SQMEA--ENNRLSQQLAQLAAE 149
+                SQ +A  E  R  ++LA   A+
+Sbjct:   994 EEESQQQAVLEQERRDRELALRIAQ 1018
+
+
+>sp|Q3KQU3|MA7D1_HUMAN MAP7 domain-containing protein 1 OS=Homo sapiens
+            GN=MAP7D1 PE=1 SV=1
+        Length = 841
+
+ Score = 100 (40.3 bits), Expect = 0.12, P = 0.11
+ Identities = 53/211 (25%), Positives = 88/211 (41%)
+
+Query:    16 PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKR 75
+             P TP+  +   T     T L  A+ + Q  +  E++  ++R    ++  + +  L     
+Sbjct:   583 PVTPSKPMAGTTDREEATRL-LAEKRRQAREQREREEQERRLQAERDKRMREEQLAREAE 641
+
+Query:    76 AKTEDEKE-QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA 134
+             A+ E E E +RR E+  R +A A+   E++RL+ +K E E    E+  +   QRL     
+Sbjct:   642 ARAEREAEARRREEQEAREKAQAE-QEEQERLQKQKEEAEARSREEAER---QRL----- 692
+
+Query:   135 ENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLE-RIPFPTPS 193
+             E  +  QQ  Q   E R  R    M     T    ++ T  KQ+  E       P P  +
+Sbjct:   693 EREKHFQQQEQERQE-RRKRLEEIMK---RTRKSEVSETKQKQDSKEANANGSSPEPVKA 748
+
+Query:   194 LSDYSPTLKPSTLAESSDVAQHPAVSVAGLE 224
+             +   SP L+   + +   + Q P  S+   E
+Sbjct:   749 VEARSPGLQKEAVQKEEPIPQEPQWSLPSKE 779
+
+ Score = 87 (35.7 bits), Expect = 3.1, P = 0.95
+ Identities = 36/128 (28%), Positives = 51/128 (39%)
+
+Query:    16 PATPASEVPVLTVSPADTS-LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRK 74
+             PA P  E P    +P D + L S       V P +       +     L   K      +
+Sbjct:   555 PAPPQKEQPPAE-TPTDAAVLTSPPAPAPPVTPSKPMAGTTDREEATRLLAEKRRQAREQ 613
+
+Query:    75 RAKTEDEK------EQRRIERVLRNRAAAQTSRERKRLEMEKLE-NEKIQMEQQNQFLLQ 127
+             R + E E+      ++R  E  L   A A+  RE +    E+ E  EK Q EQ+ Q  LQ
+Sbjct:   614 REREEQERRLQAERDKRMREEQLAREAEARAEREAEARRREEQEAREKAQAEQEEQERLQ 673
+
+Query:   128 RLSQMEAE 135
+             +  + EAE
+Sbjct:   674 KQKE-EAE 680
+
+ Score = 83 (34.3 bits), Expect = 8.4, P = 0.9998
+ Identities = 34/136 (25%), Positives = 64/136 (47%)
+
+Query:    16 PATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKP--AKKRKSWGQELP--VPKTNLP 71
+             P +P+ +V      P + S  S++ K++   P    P  A+  +   Q  P  VP ++ P
+Sbjct:    68 PESPSGQVGPRPAPPQEES-PSSEAKSRGPTPPAMGPRDARPPRRSSQPSPTAVPASDSP 126
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             P K+ + +   E+ ++ +  R   A   +  +K + +EK E  K   E+Q Q   +RL +
+Sbjct:   127 PTKQ-EVKKAGERHKLAKERREERAKYLAA-KKAVWLEKEEKAKALREKQLQERRRRLEE 184
+
+Query:   132 --MEAENNRLSQQLAQ 145
+               ++AE  R + +  Q
+Sbjct:   185 QRLKAEQRRAALEERQ 200
+
+
+>sp|Q14244|MAP7_HUMAN Ensconsin OS=Homo sapiens GN=MAP7 PE=1 SV=1
+        Length = 749
+
+ Score = 98 (39.6 bits), Expect = 0.17, P = 0.15
+ Identities = 39/146 (26%), Positives = 67/146 (45%)
+
+Query:    14 SLPATPASEVPVLTVSPADTSLNSADVKTQE--VKPEE--KKPAKKRKSWGQELPVPKTN 69
+             S PA      P +  +P+ T   SA VKT      PEE  +  A+KR+   ++    K  
+Sbjct:   441 SAPAPAPVPTPAMVSAPSSTVNASASVKTSAGTTDPEEATRLLAEKRRLAREQRE--KEE 498
+
+Query:    70 LPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRL 129
+                R++ + E +K +   +RV   R   +   E +RLE E+   ++ Q+++Q +    R 
+Sbjct:   499 RERREQEELERQKREELAQRVAEERTTRR-EEESRRLEAEQAREKEEQLQRQAEERALR- 556
+
+Query:   130 SQMEAEN-NRLSQQLAQLAAEVRGSR 154
+              + EAE   R  ++ A++  E    R
+Sbjct:   557 EREEAERAQRQKEEEARVREEAERVR 582
+
+ Score = 92 (37.4 bits), Expect = 0.12, Sum P(2) = 0.11
+ Identities = 25/119 (21%), Positives = 57/119 (47%)
+
+Query:    75 RAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA 134
+             R + E E+ QR+ E   R R  A+  R+ +    ++ E E+++ +++ + +++R  + EA
+Sbjct:   556 REREEAERAQRQKEEEARVREEAERVRQEREKHFQREEQERLERKKRLEEIMKRTRRTEA 615
+
+Query:   135 ENNRLSQQL-AQLA-AEVRGSRANTPMP---GSPATASPTLTPTLFKQERDELPLERIP 188
+              + + S Q    +A   + G    + +P    +P    P  +P +    + ++ +E  P
+Sbjct:   616 TDKKTSDQRNGDIAKGALTGGTEVSALPCTTNAPGNGKPVGSPHVVTSHQSKVTVESTP 674
+
+ Score = 51 (23.0 bits), Expect = 0.12, Sum P(2) = 0.11
+ Identities = 22/70 (31%), Positives = 32/70 (45%)
+
+Query:    11 SVDSLPATP--ASEVPVLTVSPADTSL------NSADVKTQ-EVKPEEKKPAKKRKSWGQ 61
+             S+  LP TP   S +P  +V  A   +      N   VK + +V+PE+K P K+ +    
+Sbjct:   335 SLPHLPGTPRPTSSLPPGSVKAAPAQVRPPSPGNIRPVKREVKVEPEKKDPEKEPQKVAN 394
+
+Query:    62 ELPVPKTNLP 71
+             E P  K   P
+Sbjct:   395 E-PSLKGRAP 403
+
+
+>sp|P29596|ATF3_RAT Cyclic AMP-dependent transcription factor ATF-3 OS=Rattus
+            norvegicus GN=Atf3 PE=2 SV=1
+        Length = 181
+
+ Score = 90 (36.7 bits), Expect = 0.12, P = 0.11
+ Identities = 29/99 (29%), Positives = 48/99 (48%)
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+             E+ V K+ + P      EDE+++RR ER   N+ AA   R +K+ + E L+ E  ++E  
+Sbjct:    73 EMSVTKSEVAPE-----EDERKRRRRER---NKIAAAKCRNKKKEKTECLQKESEKLESV 124
+
+Query:   122 NQFLLQRLSQMEAENNRLSQQLA--QLAAEVRGSRANTP 158
+             N  L  ++ +++ E   L   L   +    VR     TP
+Sbjct:   125 NAELKAQIEELKNEKQHLIYMLNLHRPTCIVRAQNGRTP 163
+
+
+>sp|Q5TM26|BAT2_MACMU Large proline-rich protein BAT2 OS=Macaca mulatta GN=BAT2
+            PE=3 SV=1
+        Length = 2160
+
+ Score = 104 (41.7 bits), Expect = 0.12, P = 0.11
+ Identities = 49/196 (25%), Positives = 84/196 (42%)
+
+Query:    18 TPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRK---SWGQELPVPKTNLPPRK 74
+             +P SE+P    + A+TS    + +     P+   P   R    +WG     P    PP K
+Sbjct:   380 SPNSELPPPKTAWAETS-RPPETEPGPPAPKPPLPPPHRGPAGNWGPPGDYPDRGGPPCK 438
+
+Query:    75 RAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEA 134
+                 EDE E  R +R  R +++++ S   +R    + E E+   E++     ++L +++ 
+Sbjct:   439 PPAPEDEDEAWR-QR--RKQSSSEISLAVERARRRREEEERRMQEERRAACAEKLKRLDE 495
+
+Query:   135 ENNRLSQQL-AQLAAEVRGSRANTPMPG------SPATASPTLTPTLFKQ--ERDELPLE 185
+             +     ++L A+ AA         P P       +P   SP   PT  K+  E  + P  
+Sbjct:   496 KFGAPDKRLKAEPAAPPAAPSTPAPPPAVPKELPAPLAPSPASAPTPEKEPEESAQAPPA 555
+
+Query:   186 RIPFPTPSLSDYSPTL 201
+             +   PTP ++  +PTL
+Sbjct:   556 QCT-PTPGVAA-APTL 569
+
+
+>sp|Q0IHP2|INCE_XENTR Inner centromere protein OS=Xenopus tropicalis GN=incenp
+            PE=2 SV=1
+        Length = 898
+
+ Score = 100 (40.3 bits), Expect = 0.12, P = 0.12
+ Identities = 42/152 (27%), Positives = 71/152 (46%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTED---EKEQRRIERV-LRNRAAAQ 98
+             Q+ + EE+   +K+ +  + L   +     R+R + +    EKE+ R ER  +    A Q
+Sbjct:   642 QKKREEEELERQKKIAEAKRLAEQRQAEQERERQREQQLLAEKERLRAERERIEREKALQ 701
+
+Query:    99 TSRERKRLEMEKLEN-----EKIQMEQQNQFLLQRLSQM--EAENNRLSQQLAQLAAEVR 151
+               RE +R   EK +      E+ + EQQ +   +RL ++  E E  RL ++  + A E +
+Sbjct:   702 LQRELERAAQEKEQQRREAEERKKREQQERLEQERLERLHKEQEAKRLQEEQQRKAKE-Q 760
+
+Query:   152 GSRANTP-------MPGSPATASPTLTPTLFK 176
+              + A+ P       M  SPA  S  +TP  +K
+Sbjct:   761 AAAASAPVMNVTVDMQNSPACESYEMTPKSYK 792
+
+ Score = 85 (35.0 bits), Expect = 5.5, P = 0.996
+ Identities = 31/112 (27%), Positives = 56/112 (50%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPP--RK-RAKTEDEKEQRRIERVLRNRAAA 97
+             K +E +  E+K  KK  +  QE    +       RK +AK  +E+E+R  + + + R   
+Sbjct:   589 KVREDRMAEEKAKKKITAKKQEEVECRRRQEEEARKLKAKQMEEEERRHQDLLQKKREEE 648
+
+Query:    98 QTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+             +  R++K  E ++L  ++ Q EQ+ +   QR  Q+ AE  RL  +  ++  E
+Sbjct:   649 ELERQKKIAEAKRLAEQR-QAEQERE--RQREQQLLAEKERLRAERERIERE 697
+
+
+>sp|Q9NQS7|INCE_HUMAN Inner centromere protein OS=Homo sapiens GN=INCENP PE=1
+            SV=3
+        Length = 918
+
+ Score = 100 (40.3 bits), Expect = 0.13, P = 0.12
+ Identities = 39/136 (28%), Positives = 66/136 (48%)
+
+Query:    18 TPASEVPVL-TVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             TP+S  P    V P  T L++   + Q +      P    KS+       K N P R   
+Sbjct:   478 TPSSPCPASKVVRPLRTFLHTVQ-RNQMLMTPTSAPRSVMKSF------IKRNTPLRMDP 530
+
+Query:    77 KTED-EKEQRRIERVLRNRAAAQTSRER-KRLEMEKLENEKIQMEQQNQFLLQ---RLSQ 131
+             K    EKE++R+E + R   A Q  R++ +  +  +LE  K++ E++ + +LQ   R+ Q
+Sbjct:   531 KCSFVEKERQRLENLRRKEEAEQLRRQKVEEDKRRRLEEVKLKREERLRKVLQARERVEQ 590
+
+Query:   132 MEAENNR-LSQQLAQL 146
+             M+ E  + + Q+ AQ+
+Sbjct:   591 MKEEKKKQIEQKFAQI 606
+
+ Score = 94 (38.1 bits), Expect = 0.58, P = 0.44
+ Identities = 28/116 (24%), Positives = 58/116 (50%)
+
+Query:    37 SADVKTQEVKPEEKKPAKKRK-SWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRA 95
+             +A  K +EV+   K+  + R+  W Q+    + +    ++ K   E+EQ R+ +    + 
+Sbjct:   627 AAAKKMEEVEARRKQEEEARRLRWLQQEEEERRHQELLQKKK---EEEQERLRKAAEAKR 683
+
+Query:    96 AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+              A+  RE++R E E+ E E+ + E++ Q   ++  Q+  +  R  Q+  Q   E++
+Sbjct:   684 LAE-QREQERREQERREQERREQERREQERREQERQLAEQERRREQERLQAERELQ 738
+
+ Score = 91 (37.1 bits), Expect = 1.2, P = 0.71
+ Identities = 29/118 (24%), Positives = 56/118 (47%)
+
+Query:    39 DVKTQEVKPE---EKKPAKKRKSWG-QELPVPKTNLPPRKRAK-TEDEKEQRRIERVLRN 93
+             D KT++ K E   E+K  KK  +   +E+   +      +R +  + E+E+RR + +L+ 
+Sbjct:   607 DEKTEKAKEERLAEEKAKKKAAAKKMEEVEARRKQEEEARRLRWLQQEEEERRHQELLQK 666
+
+Query:    94 RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+             +   +  R RK  E ++L  ++ Q  ++ +   Q   + E       +Q  QLA + R
+Sbjct:   667 KKEEEQERLRKAAEAKRLAEQREQERREQERREQERREQERREQERREQERQLAEQER 724
+
+ Score = 90 (36.7 bits), Expect = 1.6, P = 0.80
+ Identities = 40/144 (27%), Positives = 70/144 (48%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK-EQRRIERVLRNRAAAQT 99
+             K +E + E  + A + K   ++    +     R++ + E E+ EQ R E+  R  A  + 
+Sbjct:   666 KKKEEEQERLRKAAEAKRLAEQREQERREQERREQERREQERREQERREQE-RQLAEQER 724
+
+Query:   100 SRERKRLEMEK--LENEK---IQMEQQNQFLLQRLSQMEAEN---NRLSQQLAQLAAEVR 151
+              RE++RL+ E+   E EK   +Q EQ  + L ++  + E +     +L ++  + A E  
+Sbjct:   725 RREQERLQAERELQEREKALRLQKEQLQRELEEKKKKEEQQRLAERQLQEEQEKKAKEAA 784
+
+Query:   152 G-SRA-NTPMP-GSPATASPTLTP 172
+             G S+A N  +   SPA  S  +TP
+Sbjct:   785 GASKALNVTVDVQSPACTSYQMTP 808
+
+ Score = 84 (34.6 bits), Expect = 7.2, P = 0.9993
+ Identities = 35/165 (21%), Positives = 77/165 (46%)
+
+Query:    34 SLNSAD-VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVL- 91
+             ++++ D V  +E++ E ++   +  S   EL +PKT  P +K     + +++RRI  V  
+Sbjct:    25 NMDNKDLVWLEEIQEEAERMFTREFSKEPEL-MPKT--PSQK-----NRRKKRRISYVQD 76
+
+Query:    92 RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+              NR   +    R++    +L + +++ +      +++L+ +  EN  + +++ + AA   
+Sbjct:    77 ENRDPIRRRLSRRKSRSSQLSSRRLRSKDS----VEKLATVVGENGSVLRRVTRAAAAAA 132
+
+Query:   152 GSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSD 196
+              +      P SP   SPT+     K E +    + +P     +S+
+Sbjct:   133 AATMALAAPSSPTPESPTMLTK--KPEDNHTQCQLVPVVEIGISE 175
+
+
+>sp|Q5HZY0|UBXN4_RAT UBX domain-containing protein 4 OS=Rattus norvegicus
+            GN=Ubxn4 PE=2 SV=1
+        Length = 506
+
+ Score = 97 (39.2 bits), Expect = 0.13, P = 0.12
+ Identities = 67/279 (24%), Positives = 116/279 (41%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQM 132
+             R   K E+ +E++R E   R     +   ER++   E L+ ++ Q E+  + +L+  S+ 
+Sbjct:   200 RLTKKLEERREEKRKEEAQRE---IKKEIERRKTGKEMLDYKRKQEEELTKRMLEERSRE 256
+
+Query:   133 EAENN----RLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTL---FKQE---RDEL 182
+             +AE+     R+ QQ+A   AE R +R         A A+  L        K+E   RD  
+Sbjct:   257 KAEDRAARERIKQQIALDRAE-RAARFAKTKEAEAAKAAALLAKQAEAEVKRESSTRDRS 315
+
+Query:   183 PLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFD----LGSD 238
+              + RI F  P  S ++    PS  A   +  Q  A +V    G+ S   +F        D
+Sbjct:   316 TIARIQFRLPDGSSFTNQF-PSD-APLEEARQFAAQTVGNTYGNFSLATMFPRREFTRED 373
+
+Query:   239 LKHHSTDDVAAPLSDDDFNRLFHGDSSVEPDSSVFEDGLAFDVLEGGDLSAFPFDSMVNF 298
+              K    D   AP +           +S+ P SS    G  + +L G  L  +PF ++   
+Sbjct:   374 YKRKLLDLELAPSASVVLLPAGRPATSIVPSSS----GDIWTLL-GTVL--YPFLAIWRL 426
+
+Query:   299 DSEPVTLEGIEMAHGLPDETTCKTSSVQPGFGASTTRCD 337
+                   +     ++  P +T+ + +S +P   AS+++ +
+Sbjct:   427 ------ISNFLFSNPPPAQTSARATSTEPSNSASSSKSE 459
+
+
+>sp|Q90595|MAFF_CHICK Transcription factor MafF OS=Gallus gallus GN=MAFF PE=1
+            SV=1
+        Length = 149
+
+ Score = 87 (35.7 bits), Expect = 0.13, P = 0.12
+ Identities = 32/106 (30%), Positives = 53/106 (50%)
+
+Query:    63 LPVPKTNLPPRKRAKTEDEK-EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+             L V + N   R  +K E  + +QRR  R L+NR  A + R ++  + E+L+ +K+++E +
+Sbjct:    32 LSVRELNHHLRGLSKEEVARLKQRR--RTLKNRGYAASCRVKRVCQKEELQKQKMELEWE 89
+
+Query:   122 NQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS 167
+                L +  + M  E + L  +   L    R   A+ P P   ATAS
+Sbjct:    90 VDKLARENAAMRLELDTLRGKYEALQGFARTVAAHGP-PAKVATAS 134
+
+
+>sp|Q6ZSZ5|ARHGI_HUMAN Rho guanine nucleotide exchange factor 18 OS=Homo
+            sapiens GN=ARHGEF18 PE=1 SV=2
+        Length = 1173
+
+ Score = 101 (40.6 bits), Expect = 0.13, P = 0.12
+ Identities = 42/154 (27%), Positives = 69/154 (44%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             +++ QR  E+    RAA +  + + R E ++ E E+    Q+ +    RL + E E  +L
+Sbjct:   851 EQERQRNFEKQREERAALEKLQSQLRHEQQRWERERQWQHQELERAGARLQEREGEARQL 910
+
+Query:   140 SQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSP 199
+              ++L Q  AE+   R            +        ++ER EL L R+        + +P
+Sbjct:   911 RERLEQERAELERQRQAYQHDLERLREAQRAVER--ERERLEL-LRRL-----KKQNTAP 962
+
+Query:   200 -TLKPSTLAESSDVAQHPAVSVAGLEGDG-SALP 231
+               L P TLAE+   +  P+ +  GLEG   S LP
+Sbjct:   963 GALPPDTLAEAQPPSHPPSFNGEGLEGPRVSMLP 996
+
+
+>sp|Q7PS12|MOEH_ANOGA Moesin/ezrin/radixin homolog 1 OS=Anopheles gambiae
+            GN=Moe PE=3 SV=4
+        Length = 624
+
+ Score = 98 (39.6 bits), Expect = 0.13, P = 0.12
+ Identities = 26/118 (22%), Positives = 61/118 (51%)
+
+Query:    36 NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKE--QRRIERVLRN 93
+             ++ DV+  + +  ++K AK+++    +L +       +K+ + ED     Q  +ER   N
+Sbjct:   299 DTIDVQQMKAQARDEKNAKQQEREKLQLALAARERAEKKQQEYEDRLRSMQEEMERKQAN 358
+
+Query:    94 RAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+              + AQ +  R + ++ +++  K ++EQ+   L + + ++E   N  + + A+L  E+R
+Sbjct:   359 LSEAQDTIRRLQEQLNQVQAAKEELEQRQNELHEMMQRLEETKNMEATERAKLEEEIR 416
+
+
+>sp|P12957|CALD1_CHICK Caldesmon OS=Gallus gallus GN=CALD1 PE=1 SV=2
+        Length = 771
+
+ Score = 99 (39.9 bits), Expect = 0.13, P = 0.13
+ Identities = 41/144 (28%), Positives = 63/144 (43%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEK---EQRRIERVLRNRAAAQT 99
+             + +K EE+K A + K   +E    K     R+RAK E+EK   E+R   +    R AA+ 
+Sbjct:   261 ERLKAEEEKKAAEEKQKAEE---EKKAAEERERAKAEEEKRAAEERERAKAEEERKAAE- 316
+
+Query:   100 SRERKRLEME-KLENEKIQMEQQNQFLLQRLSQME---AENNRLSQQLAQLAAEVRGSRA 155
+              RER + E E K   E+ + E++ +   +R    E   A   R   +  + AAE R  RA
+Sbjct:   317 ERERAKAEEERKAAEERAKAEEERKAAEERAKAEEERKAAEERAKAEKERKAAEER-ERA 375
+
+Query:   156 NTPMPGSPATASPTLTPTLFKQER 179
+                     A     L     K+++
+Sbjct:   376 KAEEEKRAAEEKARLEAEKLKEKK 399
+
+ Score = 98 (39.6 bits), Expect = 0.17, P = 0.16
+ Identities = 44/188 (23%), Positives = 81/188 (43%)
+
+Query:    31 ADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERV 90
+             A+    +A+ + +    EEK+ A++R+    E    +     R+RAK E+E++    ER 
+Sbjct:   278 AEEEKKAAEERERAKAEEEKRAAEERERAKAE--EERKAAEERERAKAEEERKAAE-ERA 334
+
+Query:    91 LRNRAAAQTSRERKRLEME-KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+              +     + + ER + E E K   E+ + E++ +   +R      E  R +++ A+L AE
+Sbjct:   335 -KAEEERKAAEERAKAEEERKAAEERAKAEKERKAAEERERAKAEEEKRAAEEKARLEAE 393
+
+Query:   150 VRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSD-YSPTLKPSTLAE 208
+                 +    M    A         L KQE D+    ++     SL +   PT K   + +
+Sbjct:   394 KLKEKKK--MEEKKAQEEKAQANLLRKQEEDKEA--KVEAKKESLPEKLQPTSKKDQVKD 449
+
+Query:   209 SSDVAQHP 216
+             + D  + P
+Sbjct:   450 NKDKEKAP 457
+
+ Score = 82 (33.9 bits), Expect = 9.7, P = 0.99994
+ Identities = 44/196 (22%), Positives = 76/196 (38%)
+
+Query:    52 PAKKRKSWGQELPVPKT----NLPPRKRAK--TEDEKEQRRIERVLRNRAAAQTSRERKR 105
+             P +K ++  +EL  PK     N   R   K     E    +++   +  A      +++R
+Sbjct:   472 PEQKAQNGERELTTPKLKSTENAFGRSNLKGAANAEAGSEKLKEKQQEAAVELDELKKRR 531
+
+Query:   106 LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPAT 165
+              E  K+  E+ Q ++Q +   +R  + E E  R+ +++ +  AE    R   P  G    
+Sbjct:   532 EERRKILEEEEQKKKQEE--AERKIREEEEKKRMKEEIERRRAEAAEKRQKVPEDGVSEE 589
+
+Query:   166 ASPTLTPTLFKQERDELPLE-RIPFPTPSLSDYSPTLKPS-TLAESSDVAQHPAVSVAGL 223
+               P      F  +   L +E R  F   S       +KP+ T A  S +        + +
+Sbjct:   590 KKPF---KCFSPKGSSLKIEERAEFLNKSAQKSG--MKPAHTTAVVSKIDSRLEQYTSAV 644
+
+Query:   224 EGDGSALPLFDLGSDL 239
+              G+ +A P     SDL
+Sbjct:   645 VGNKAAKPAKPAASDL 660
+
+
+>sp|Q08DA8|ATF1_BOVIN Cyclic AMP-dependent transcription factor ATF-1 OS=Bos
+            taurus GN=ATF1 PE=2 SV=1
+        Length = 270
+
+ Score = 93 (37.8 bits), Expect = 0.13, P = 0.13
+ Identities = 20/58 (34%), Positives = 38/58 (65%)
+
+Query:    76 AKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             +KT+D + +R I R+++NR AA+  R +K+  ++ LEN    +E QN+ L++ L  ++
+Sbjct:   206 SKTDDPQLKREI-RLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKTLK 262
+
+
+>sp|Q94126|CES2_CAEEL Cell death specification protein 2 OS=Caenorhabditis
+            elegans GN=ces-2 PE=1 SV=1
+        Length = 211
+
+ Score = 91 (37.1 bits), Expect = 0.14, P = 0.13
+ Identities = 33/123 (26%), Positives = 64/123 (52%)
+
+Query:    26 LTVSPADTSLNSADV--KTQEVKPEEK---KPAKKRKSW--GQELPVPKTNLPPRKRAKT 78
+             L + P D SL + ++   T+++K E++    P   R S         P+ + P RK +  
+Sbjct:    52 LGILPFD-SLPTTNLLTPTKKIKLEDELCASPVSSRSSTVSSSHFSSPQRS-PSRKMSVP 109
+
+Query:    79 --EDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+               E++K+    ER  +N  AA+ SR+ +R + E++ ++   +E++N  L  ++S +E E 
+Sbjct:   110 IPEEKKDSAYFERRRKNNDAAKRSRDARRQKEEQIASKAHALERENMQLRGKVSSLEQEA 169
+
+Query:   137 NRL 139
+              +L
+Sbjct:   170 AQL 172
+
+
+>sp|O66547|Y157_AQUAE Uncharacterized protein aq_157 OS=Aquifex aeolicus
+            GN=aq_157 PE=3 SV=1
+        Length = 162
+
+ Score = 88 (36.0 bits), Expect = 0.14, P = 0.13
+ Identities = 30/102 (29%), Positives = 60/102 (58%)
+
+Query:    34 SLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRN 93
+             SL+ A V T +V  E K  AK +     EL   +  L   ++   E +K+   +++ L +
+Sbjct:    21 SLDFACVDTNKVIRESKFIAKAQT----EL---RKELEKYQKLIQEKQKKLEALKKSLES 73
+
+Query:    94 RAAAQTSRERKRLEMEKLENE--KIQMEQQNQFLLQRLSQME 133
+             +A ++ ++E+K  E+E+LE+E  K+Q+E Q++ L ++ +++E
+Sbjct:    74 KALSEKAKEKKAKEIEQLEDELRKLQVEAQSK-LSRKKAELE 114
+
+
+>sp|A6ZRZ0|NST1_YEAS7 Stress response protein NST1 OS=Saccharomyces cerevisiae
+            (strain YJM789) GN=NST1 PE=3 SV=1
+        Length = 1240
+
+ Score = 101 (40.6 bits), Expect = 0.14, P = 0.13
+ Identities = 32/112 (28%), Positives = 61/112 (54%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR 94
+             L   +++ +E + ++ + AK++K   +E    K  L  ++R +   EK++++ E + R R
+Sbjct:   681 LEEREMRRREAQRKKVEEAKRKKD--EER---KRRLEEQQRREEMQEKQRKQKEELKRKR 735
+
+Query:    95 AAAQTS-RERKRLEMEKLENEKIQMEQQ-----NQFLLQRLSQMEAENNRLS 140
+                +   RE+KRLE EKL+ EK + E+Q     +    Q+L++ +   N LS
+Sbjct:   736 EEEKKRIREQKRLEQEKLQKEKEEEERQRLIAEDALRKQKLNEEQTSANILS 787
+
+ Score = 92 (37.4 bits), Expect = 1.4, P = 0.74
+ Identities = 47/193 (24%), Positives = 78/193 (40%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             K +E K   KK  ++R+   +E    K     RK+    DE+ +RR+E   R     +  
+Sbjct:   669 KREEEKERLKKELEEREMRRREAQRKKVEEAKRKK----DEERKRRLEEQQRREEMQEKQ 724
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+             R++K     K E EK ++ +Q +   ++L Q E E     + +A+ A  +R  + N    
+Sbjct:   725 RKQKEELKRKREEEKKRIREQKRLEQEKL-QKEKEEEERQRLIAEDA--LRKQKLNEEQ- 780
+
+Query:   161 GSPATASPTLTPTLFKQERDELPLERIPFP--TPSLSDYSPTLKPSTLAESSDVAQHPAV 218
+                 T++  L+   F +     P+     P  T    D S ++    L   + VA    V
+Sbjct:   781 ----TSANILSAKPFTENGVGNPVSSQSHPNMTNYQEDNSCSINDEILKMVNSVAASKPV 836
+
+Query:   219 SVAGLEGDGSALP 231
+             S  G       LP
+Sbjct:   837 SPTGFNVHDLLLP 849
+
+ Score = 86 (35.3 bits), Expect = 6.1, P = 0.998
+ Identities = 25/110 (22%), Positives = 55/110 (50%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             +E + + +K  KK+K   +E    +     ++  K + E+E+ R+++ L  R   +   +
+Sbjct:   633 EEKRKKREKEEKKQKKREKEKEKKRLQQLAKEEEKRKREEEKERLKKELEEREMRRREAQ 692
+
+Query:   103 RKRLE---MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+             RK++E    +K E  K ++E+Q     QR  +M+ +  +  ++L +   E
+Sbjct:   693 RKKVEEAKRKKDEERKRRLEEQ-----QRREEMQEKQRKQKEELKRKREE 737
+
+
+>sp|P53935|NST1_YEAST Stress response protein NST1 OS=Saccharomyces cerevisiae
+            GN=NST1 PE=1 SV=1
+        Length = 1240
+
+ Score = 101 (40.6 bits), Expect = 0.14, P = 0.13
+ Identities = 32/112 (28%), Positives = 61/112 (54%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNR 94
+             L   +++ +E + ++ + AK++K   +E    K  L  ++R +   EK++++ E + R R
+Sbjct:   681 LEEREMRRREAQRKKVEEAKRKKD--EER---KRRLEEQQRREEMQEKQRKQKEELKRKR 735
+
+Query:    95 AAAQTS-RERKRLEMEKLENEKIQMEQQ-----NQFLLQRLSQMEAENNRLS 140
+                +   RE+KRLE EKL+ EK + E+Q     +    Q+L++ +   N LS
+Sbjct:   736 EEEKKRIREQKRLEQEKLQKEKEEEERQRLIAEDALRKQKLNEEQTSANILS 787
+
+ Score = 92 (37.4 bits), Expect = 1.4, P = 0.74
+ Identities = 47/193 (24%), Positives = 78/193 (40%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             K +E K   KK  ++R+   +E    K     RK+    DE+ +RR+E   R     +  
+Sbjct:   669 KREEEKERLKKELEEREMRRREAQRKKVEEAKRKK----DEERKRRLEEQQRREEMQEKQ 724
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+             R++K     K E EK ++ +Q +   ++L Q E E     + +A+ A  +R  + N    
+Sbjct:   725 RKQKEELKRKREEEKKRIREQKRLEQEKL-QKEKEEEERQRLIAEDA--LRKQKLNEEQ- 780
+
+Query:   161 GSPATASPTLTPTLFKQERDELPLERIPFP--TPSLSDYSPTLKPSTLAESSDVAQHPAV 218
+                 T++  L+   F +     P+     P  T    D S ++    L   + VA    V
+Sbjct:   781 ----TSANILSAKPFTENGVGNPVSSQSHPNMTNYQEDNSCSINDEILKMVNSVAASKPV 836
+
+Query:   219 SVAGLEGDGSALP 231
+             S  G       LP
+Sbjct:   837 SPTGFNVHDLLLP 849
+
+ Score = 86 (35.3 bits), Expect = 6.1, P = 0.998
+ Identities = 25/110 (22%), Positives = 55/110 (50%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             +E + + +K  KK+K   +E    +     ++  K + E+E+ R+++ L  R   +   +
+Sbjct:   633 EEKRKKREKEEKKQKKREKEKEKKRLQQLAKEEEKRKREEEKERLKKELEEREMRRREAQ 692
+
+Query:   103 RKRLE---MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAE 149
+             RK++E    +K E  K ++E+Q     QR  +M+ +  +  ++L +   E
+Sbjct:   693 RKKVEEAKRKKDEERKRRLEEQ-----QRREEMQEKQRKQKEELKRKREE 737
+
+
+>sp|A3BYC1|HOX25_ORYSJ Homeobox-leucine zipper protein HOX25 OS=Oryza sativa
+            subsp. japonica GN=HOX25 PE=2 SV=2
+        Length = 320
+
+ Score = 94 (38.1 bits), Expect = 0.14, P = 0.13
+ Identities = 62/269 (23%), Positives = 107/269 (39%)
+
+Query:    24 PVLTVSPADTSLNSADVKTQEVKPEEK----KPAKKRKSWGQELPVPKTNLPPRKRAKTE 79
+             P LT +  +  L   D+  +    +E+      A+KR+   +++   + +    KR K E
+Sbjct:    48 PFLTTTHDELELQMEDLVDELYGVDEQGSSSAAARKRRLTAEQVRALERSFEEEKR-KLE 106
+
+Query:    80 DEKEQRRIER--VLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENN 137
+              E++     R  +   + A      R R + ++LE +  ++   +  LL   + + A+N 
+Sbjct:   107 PERKSELARRLGIAPRQVAVWFQNRRARWKTKQLELDFDRLRAAHDELLAGRTALAADNE 166
+
+Query:   138 RLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDY 197
+              L  Q+  L  +++ +   +P P SPA A  T  P    +      LE        L D 
+Sbjct:   167 SLRSQVILLTEKLQAN-GKSPSP-SPAPAEQTAVPAA-PESAKSFQLEE----GRRLYDA 219
+
+Query:   198 SPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALP--LFDLGSDLKHHSTDDVAAPLSDDD 255
+             + +   +T      VA  PA  VA      +  P   F         S DD     SDDD
+Sbjct:   220 AGSTT-TTNGGGGGVAM-PAARVAAARAASNDSPESYFAGARSPPSSSEDDCGGAGSDDD 277
+
+Query:   256 F---NRLFHGDSSVEPDSSVFEDGLAFDV 281
+             +   + L   D+++  D+  FE  +A  V
+Sbjct:   278 YPSSSVLLPVDATLVGDA--FEHAVAATV 304
+
+
+>sp|B1AZI6|THOC2_MOUSE THO complex subunit 2 OS=Mus musculus GN=Thoc2 PE=3 SV=1
+        Length = 1594
+
+ Score = 102 (41.0 bits), Expect = 0.14, P = 0.13
+ Identities = 44/182 (24%), Positives = 83/182 (45%)
+
+Query:    36 NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRA 95
+             NS     + VK  +K+  K+++   +E   P T   P  RA  +D KE+ + ER  +   
+Sbjct:  1257 NSGSNSNKAVKENDKEKVKEKEKEKKE-KTPATT--PEARALGKDSKEKPKEERPNKEDK 1313
+
+Query:    96 AAQTSRERKRLEMEKLENEKIQMEQQNQF-----LLQRLSQMEAENNRLSQQLAQLAAEV 150
+             A +T     + + EK + +K +  +  +F     +++  S  E E  +   +   +A E+
+Sbjct:  1314 ARETKERTPKSDKEKEKFKKEEKAKDEKFKTTVPIVESKSTQEREREKEPSRERDVAKEM 1373
+
+Query:   151 RGSRAN------TPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPS 204
+             + S+ N      TP+ GS    SP     + + +R++   +    P+PS   +S T+K S
+Sbjct:  1374 K-SKENVKGGEKTPVSGS--LKSPVPRSDISEPDREQKRRKIDSHPSPS---HSSTVKDS 1427
+
+Query:   205 TL 206
+              +
+Sbjct:  1428 LI 1429
+
+
+>sp|Q9H254|SPTN4_HUMAN Spectrin beta chain, brain 3 OS=Homo sapiens GN=SPTBN4
+            PE=1 SV=2
+        Length = 2564
+
+ Score = 104 (41.7 bits), Expect = 0.15, P = 0.14
+ Identities = 51/210 (24%), Positives = 80/210 (38%)
+
+Query:     6 EKTMSSVDSLPATPASEVPV-LTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELP 64
+             E+    +D LP  P    P  L  +P D    +A+        E+ +P  +R    QE  
+Sbjct:  2186 ERLQPRIDRLPEIPGRVEPAALPAAPED----AAETPATPAAAEQVRPRPER----QESA 2237
+
+Query:    65 VPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQF 124
+                  LP R+R + ++  +Q   E   R R   Q S E +      L   + QME++ + 
+Sbjct:  2238 DRAEELPRRRRPERQESVDQSE-EAARRRRPERQESAEHEAAHSLTLGRYE-QMERRRER 2295
+
+Query:   125 LLQRLSQMEAENNRL---------SQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLF 175
+               +RL + E+    +            LA +  +++   A   +P  P+   P   P   
+Sbjct:  2296 RERRLERQESSEQEMPIRGDLVKGKATLADIVEQLQEKEAGPGLPAGPSLPQPRELPPGR 2355
+
+Query:   176 KQERDELPLERIPFPT-PSLSDY-SPTLKP 203
+                  ELP ER P P  P   D   P  +P
+Sbjct:  2356 LPNGLELP-ERTPRPDRPRARDRPKPRRRP 2384
+
+
+>sp|Q2UNX4|KAPC_ASPOR Putative transcription factor kapC OS=Aspergillus oryzae
+            GN=kapC PE=3 SV=2
+        Length = 284
+
+ Score = 93 (37.8 bits), Expect = 0.15, P = 0.14
+ Identities = 49/213 (23%), Positives = 86/213 (40%)
+
+Query:    16 PATPASEVPVL---TVSPAD-TSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP 71
+             P  PA++ P +   T SP D  +++ A      +    + P +   + GQE P       
+Sbjct:    44 PQPPAAQPPHMQPNTTSPRDQNNIDPAISGAAMLSGPPQTPPQPEPT-GQESP------- 95
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+                  KT  ++     +R  +NRAA +  R+RK   + KLE +  + +  ++        
+Sbjct:    96 -----KTYGKRPLSTSKRAAQNRAAQRAFRQRKESYIRKLEEQVKEFDTMSE----AFKA 146
+
+Query:   132 MEAENNRLSQQLAQLAAEVRGSRANTP-MPGSPATASPTLTPTLFKQERDELPLERIPFP 190
+             ++AEN +L + +  L + +  S+   P +PG+   + P  T     Q            P
+Sbjct:   147 LQAENYQLREYIINLQSRLLESQGEVPELPGNIDLSQPR-TDLNVPQPGAGPATTSSSAP 205
+
+Query:   191 TPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGL 223
+              P  S       P   A + D+     ++VAGL
+Sbjct:   206 APP-SGAQQAQPPQGAASNDDMNSLNRIAVAGL 237
+
+
+>sp|Q9JJ50|HGS_RAT Hepatocyte growth factor-regulated tyrosine kinase substrate
+            OS=Rattus norvegicus GN=Hgs PE=1 SV=1
+        Length = 776
+
+ Score = 94 (38.1 bits), Expect = 0.15, Sum P(2) = 0.14
+ Identities = 34/100 (34%), Positives = 52/100 (52%)
+
+Query:    82 KEQRRIERVLRNRAAAQTSRERKRLEMEKLE--NEKIQ--MEQQNQFLLQRLSQMEAENN 137
+             +E+ R E+ LR RAA +  R+R+    +KLE   +K Q  +E Q Q  +QRL + E E  
+Sbjct:   487 REEHR-EK-LR-RAAEEAERQRQIQLAQKLEIMRQKKQEYLEVQRQLAIQRLQEQEKERQ 543
+
+Query:   138 -RLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFK 176
+              RL QQ  +   ++R      P+P +   A PT    L++
+Sbjct:   544 MRLEQQ--KQTVQMRAQMPAFPLPYAQLQAMPTAGGVLYQ 581
+
+ Score = 48 (22.0 bits), Expect = 0.15, Sum P(2) = 0.14
+ Identities = 23/79 (29%), Positives = 35/79 (44%)
+
+Query:     6 EKTMSSVDSLPATPASE-VPVLTVSPADTSLNSADVKT-----QEVKPE----------E 49
+             ++ M    +  A P SE  P+ + +P   SL S+ V +     +++ PE          E
+Sbjct:   277 KERMRQKSTYTAHPKSEPAPLASSAPPAGSLYSSPVNSSAPLAEDIDPELARYLNRNYWE 336
+
+Query:    50 KKPAKKRKSWGQELPVPKT 68
+             KK  + RKS     PVP T
+Sbjct:   337 KKQEEARKSPTPSAPVPLT 355
+
+
+>sp|Q2KII1|ATF3_BOVIN Cyclic AMP-dependent transcription factor ATF-3 OS=Bos
+            taurus GN=ATF3 PE=2 SV=1
+        Length = 181
+
+ Score = 89 (36.4 bits), Expect = 0.15, P = 0.14
+ Identities = 29/99 (29%), Positives = 47/99 (47%)
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+             E+ V K  + P      EDE+++RR ER   N+ AA   R +K+ + E L+ E  ++E  
+Sbjct:    73 EMSVTKAEVAPE-----EDERKKRRRER---NKIAAAKCRNKKKEKTECLQKESEKLESV 124
+
+Query:   122 NQFLLQRLSQMEAENNRLSQQLA--QLAAEVRGSRANTP 158
+             N  L  ++ +++ E   L   L   +    VR     TP
+Sbjct:   125 NAELKAQIEELKNEKQHLIYMLNLHRPTCIVRAQNGRTP 163
+
+
+>sp|Q99941|ATF6B_HUMAN Cyclic AMP-dependent transcription factor ATF-6 beta
+            OS=Homo sapiens GN=ATF6B PE=1 SV=2
+        Length = 703
+
+ Score = 98 (39.6 bits), Expect = 0.15, P = 0.14
+ Identities = 39/135 (28%), Positives = 62/135 (45%)
+
+Query:    17 ATPASEVPVLT--VSPADTS---LNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLP 71
+             A P S   +L   V P   S   L    ++ Q   P    P  +RKS     P+P  + P
+Sbjct:   260 AVPPSTTVLLQSLVQPPPVSPVVLIQGAIRVQPEGPAPSLPRPERKSI-VPAPMPGNSCP 318
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLEN-------EKIQMEQQNQF 124
+             P       D K  +R +R+++NR +A  SR +K+  ++ LE        +  Q+ ++N  
+Sbjct:   319 PEV-----DAKLLKRQQRMIKNRESACQSRRKKKEYLQGLEARLQAVLADNQQLRRENAA 373
+
+Query:   125 LLQRLSQMEAENNRL 139
+             L +RL  + AEN+ L
+Sbjct:   374 LRRRLEALLAENSEL 388
+
+
+>sp|Q7TSC1|BAT2_MOUSE Large proline-rich protein BAT2 OS=Mus musculus GN=Bat2
+            PE=1 SV=1
+        Length = 2158
+
+ Score = 103 (41.3 bits), Expect = 0.16, P = 0.14
+ Identities = 58/227 (25%), Positives = 93/227 (40%)
+
+Query:    18 TPASEVPVLTVSPADTSL--NSADVKTQEVKPEEKKPAKKRK-----SWGQELPVPKTNL 70
+             +P SE+P     P  T+   N+   +T+   P  K P          +WG     P    
+Sbjct:   378 SPGSELP-----PPKTAWTENARPSETEPAPPTPKPPPPPPHRGPVGNWGPPGDYPDRGG 432
+
+Query:    71 PPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS 130
+             PP K    EDE E  R +R  R +++++ S   +R    + E E+   E++     ++L 
+Sbjct:   433 PPCKPPAPEDEDEAWR-QR--RKQSSSEISLAVERARRRREEEERRMQEERRAACAEKLK 489
+
+Query:   131 QMEAENNRLSQQL-AQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF 189
+             +++ +     ++L A+ AA         P P +PA  +P L P + K+      L   P 
+Sbjct:   490 RLDEKFGAPDKRLKAEPAA---------P-PVTPA--APALPPVVPKEIPAAPALPPTPT 537
+
+Query:   190 PTPSLSDYSPTLKPST-LAESSDVAQHPA-VSVAGLEGDGSALPLFD 234
+             PTP      P   P    A S  VA  P  VS  G   + ++   F+
+Sbjct:   538 PTPEKEPEEPAQAPPVQAAPSPGVAPVPTLVSGGGCTANSNSSGSFE 584
+
+
+>sp|Q4I877|NDE1_GIBZE Nuclear distribution protein nudE homolog 1 OS=Gibberella
+            zeae GN=NDE1 PE=3 SV=1
+        Length = 583
+
+ Score = 97 (39.2 bits), Expect = 0.16, P = 0.14
+ Identities = 46/161 (28%), Positives = 74/161 (45%)
+
+Query:    80 DEKEQRRIERVLRNRAA---AQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+             + K  + IER +         +  RE+ R+E ++L  E   ++ + + L  +  + E+ +
+Sbjct:   137 ESKYNQAIERAVMMEEEIKIGEQEREQLRIESQRLREELGDLKIEAELLQDKFKKQESRH 196
+
+Query:   137 -NRLSQQLAQLAAEV-RGSRANTPMPGSPATASPTLTPTLFKQ-ERDELPLERIPFP-TP 192
+              + +S  L+ LA+    G  A+   PGS A++    TPT  K    D   L  +P P +P
+Sbjct:   197 LSTISTDLSVLASPTFDGHPAS---PGSTASSPLITTPTDSKSMTEDGDTLSELPDPPSP 253
+
+Query:   193 SLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEG-DGSALPL 232
+              +SD S  L P  +A S   A    VS + L   D S  PL
+Sbjct:   254 PMSDVSAPL-PK-VAASRPSAHRRTVSRSRLPSTDISTTPL 292
+
+
+>sp|Q84WU4|GOGC3_ARATH Golgin candidate 3 OS=Arabidopsis thaliana GN=GC3 PE=1
+            SV=1
+        Length = 712
+
+ Score = 98 (39.6 bits), Expect = 0.16, P = 0.15
+ Identities = 35/122 (28%), Positives = 64/122 (52%)
+
+Query:    74 KRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQME---QQNQFL---LQ 127
+             +R ++E  KE+    R+ +N+ + + S+ R  L+ + LE + +QM+   Q++  +   ++
+Sbjct:   218 ERKRSESFKEELESMRLDKNKTSMEISKMRSELDAKLLEIKHLQMKLTGQESHAIGPGME 277
+
+Query:   128 RLSQ----MEAENNRLSQQLAQLAAEVRGSRANTPMPGSP-ATASPTLTP-TLFKQERDE 181
+              L +    +E ENN L  + ++L A +  SR  T     P AT S T  P TL K++ + 
+Sbjct:   278 HLKEVNKALEKENNELKLKRSELEAALEESRKLTNSKVFPDATESLTRHPSTLDKEKPES 337
+
+Query:   182 LP 183
+              P
+Sbjct:   338 FP 339
+
+
+>sp|Q499N6|UBXN1_RAT UBX domain-containing protein 1 OS=Rattus norvegicus
+            GN=Ubxn1 PE=2 SV=2
+        Length = 297
+
+ Score = 93 (37.8 bits), Expect = 0.16, P = 0.15
+ Identities = 43/181 (23%), Positives = 78/181 (43%)
+
+Query:    19 PASEVPVLTVSPADTSLNSADVKTQEVKPE-------EKKPAKKRKSWGQELPVPKTNLP 71
+             P  + P+ T  P    L      +++V PE       E KP    +   QE       L 
+Sbjct:    46 PDVDEPLET--PLSHILGREPTPSEQVGPEGSGSAAGESKPVLTEEE-RQEQTKRMLELV 102
+
+Query:    72 PRKRAKTEDEKEQRRIERVL-RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLS 130
+              +K+ + E+ +E+  +ER   R R   + S  R++L+ +++     +  ++    L    
+Sbjct:   103 AQKQREREEREEREALEREKQRRRQGQELSAARQKLQEDEIRRAAEERRREKAEELAARQ 162
+
+Query:   131 QMEAENNRLSQQLAQLAAEVRGSRANTPM--PGSPATASPTLTPTLFKQERDELPLE-RI 187
+             ++  +  R   + AQ      GSR++ P   PG P  +SP   P   K+E D+  ++ R+
+Sbjct:   163 RVREKIERDKAERAQKYGGTVGSRSSPPATDPG-PVPSSPRQEPPT-KREYDQCRIQVRL 220
+
+Query:   188 P 188
+             P
+Sbjct:   221 P 221
+
+
+>sp|B4PPK2|FOSL_DROYA Transcription factor kayak OS=Drosophila yakuba GN=kay
+            PE=3 SV=1
+        Length = 552
+
+ Score = 81 (33.6 bits), Expect = 0.16, Sum P(3) = 0.15
+ Identities = 20/73 (27%), Positives = 36/73 (49%)
+
+Query:    72 PRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             P +      E+EQ+R  R  RN+ AA   R+R+  +  +L  E  Q+E++   + + +  
+Sbjct:   201 PNRSTNMTPEEEQKRAVRRERNKQAAARCRKRRVDQTNELTEEVEQLEKRGDSMRKEIEA 260
+
+Query:   132 MEAENNRLSQQLA 144
+             +    N+L   LA
+Sbjct:   261 LTMSKNQLEYCLA 273
+
+ Score = 53 (23.7 bits), Expect = 0.16, Sum P(3) = 0.15
+ Identities = 21/59 (35%), Positives = 27/59 (45%)
+
+Query:   183 PLERIPFPTPSLSDY--SPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDL 239
+             P +RI  P  S   +    TL   T A S  + Q P  S A + G GSA P+   GS +
+Sbjct:   382 PSKRITLPPMSTMPHVHMSTLMTPTGASSGSL-QTPITSTAPV-GFGSAFPVTTNGSSI 438
+
+ Score = 42 (19.8 bits), Expect = 0.16, Sum P(3) = 0.15
+ Identities = 13/34 (38%), Positives = 20/34 (58%)
+
+Query:    10 SSVDSLPATPASEVPVLTVSPADTSLNSADVKTQ 43
+             S V+SLP  PA +V +   S ++ S N++   TQ
+Sbjct:    95 SGVNSLPIQPAYDVNLAQGSDSEDS-NASYNDTQ 127
+
+
+>sp|A4R8N4|PAN1_MAGGR Actin cytoskeleton-regulatory complex protein PAN1
+            OS=Magnaporthe grisea GN=PAN1 PE=3 SV=1
+        Length = 1431
+
+ Score = 101 (40.6 bits), Expect = 0.17, P = 0.15
+ Identities = 48/191 (25%), Positives = 79/191 (41%)
+
+Query:    37 SADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAA 96
+             +A     E KP    P++K     +E    K      +R   E E++QR++  +    A 
+Sbjct:  1022 AASAPKTEAKPPPPPPSRKAAP-DRETAAKKAE---EERLAQEQEEQQRQMREM---EAK 1074
+
+Query:    97 AQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRAN 156
+             A+   +    E    E     +E+Q   L  R  ++EA   R  +   QL  E      +
+Sbjct:  1075 AKAEEDALARENSAAEARLKALEEQEAKLAARRQEIEAAKRREEELQRQL--EAMNEEGS 1132
+
+Query:   157 TPMPGSPATASPTL-TPTLFKQERDELPLERIPFPTPSLSD-YSPTLKP--STLAESSD- 211
+             +     PA  +P   TPT+  QE     LER P P P +++  + +  P    L++SS+ 
+Sbjct:  1133 SSDDDEPAQITPQASTPTVGSQE-----LERKPSPPPQVAEPKTESRNPYFRMLSQSSEG 1187
+
+Query:   212 -VAQHPAVSVA 221
+               +  P  SV+
+Sbjct:  1188 PTSVSPQASVS 1198
+
+
+>sp|B2AWS3|PAN1_PODAN Actin cytoskeleton-regulatory complex protein PAN1
+            OS=Podospora anserina GN=PAN1 PE=3 SV=1
+        Length = 1441
+
+ Score = 101 (40.6 bits), Expect = 0.17, P = 0.15
+ Identities = 48/180 (26%), Positives = 80/180 (44%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRK---RAKT-EDEKEQRRIERVLRNRAA 96
+             K  + + EE+  A+K +    E    +     R+   RAK  EDE  + R E   R +A 
+Sbjct:  1024 KVDDRRAEEEAAARKAEEGRLERERGEQERQTRELEERAKDQEDELAKERAEADARLKAL 1083
+
+Query:    97 AQTSRERKRLEMEKLENEKIQM---EQQNQFLLQRLSQMEAENNRLSQQLAQLAA-EVRG 152
+              +  R+ K  + E+   +K  M   ++Q   L QR +++EA   R  +   QL A +V  
+Sbjct:  1084 EEQVRQGKLKKEEEKRKKKAAMAEAKEQEAKLAQRRAEIEAARKREEELRKQLEALDVED 1143
+
+Query:   153 SRANT---PMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAES 209
+             S ++    P   +P  ++PTL  +     ++  P    P P P  S   P +  S+ AE+
+Sbjct:  1144 SSSDDDEGPEQITPQASTPTLGGSQVGGSQELEPAPPTPVPAPVQSP--PQIVTSSPAET 1201
+
+
+>sp|Q92545|TM131_HUMAN Transmembrane protein 131 OS=Homo sapiens GN=TMEM131
+            PE=1 SV=2
+        Length = 1834
+
+ Score = 102 (41.0 bits), Expect = 0.17, P = 0.15
+ Identities = 45/200 (22%), Positives = 83/200 (41%)
+
+Query:    21 SEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTED 80
+             S++  L +   D   +  D    EV  E+  P+   KS G+  P+ +   PP+K+ + E 
+Sbjct:  1296 SDITSL-IEAMDKDFDHHDSPALEVFTEQP-PSPLPKSKGKGKPLQRKVKPPKKQEEKEK 1353
+
+Query:    81 EKEQRRIERVLRNRAA----AQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+             + + +  E  L++  A    + T+ E    + E L  E  + ++  Q + ++     ++ 
+Sbjct:  1354 KGKGKPQEDELKDSLADDDSSSTTTETSNPDTEPLLKEDTEKQKGKQAMPEKHESEMSQV 1413
+
+Query:   137 NRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSD 196
+              + S++L  +  E+       P    P++     TP L  ++R  LP  +IP PT   S 
+Sbjct:  1414 KQKSKKLLNIKKEI-------PTDVKPSSLELPYTPPLESKQRRNLP-SKIPLPTAMTSG 1465
+
+Query:   197 YSPTLKPSTLAESSDVAQHP 216
+                     T   S  V   P
+Sbjct:  1466 SKSRNAQKTKGTSKLVDNRP 1485
+
+
+>sp|Q38W81|IF2_LACSS Translation initiation factor IF-2 OS=Lactobacillus sakei
+            subsp. sakei (strain 23K) GN=infB PE=3 SV=1
+        Length = 937
+
+ Score = 99 (39.9 bits), Expect = 0.17, P = 0.16
+ Identities = 48/198 (24%), Positives = 75/198 (37%)
+
+Query:     4 DMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQEL 63
+             + EKT+ +     ATPA+  P    +P       A  K++  K +  K A +R+    + 
+Sbjct:    41 NQEKTLRAAFQTKATPAASKPATPAAP------KASEKSESGKIKINKTAIRRRPEADKK 94
+
+Query:    64 PVPKTNLPPRKRAKTEDEKE--QRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+             P   +N  P+  A    +    Q R      N  +A+ +  R         N + +    
+Sbjct:    95 PAQHSNNRPQANANRNGQASNGQNRTNNARPNNNSARPNNSRPNTNSRPNNNSQNRSTSA 154
+
+Query:   122 NQ--FLLQRLSQMEAENNR----LSQQLAQLAAEVRGSR--ANTPMPGSPATASPTLTPT 173
+             N    L +++SQ  A   R    + QQ  Q  A+ +  R  AN P P +   AS    P+
+Sbjct:   155 NHPMSLQEQISQANARRQRTQERIQQQREQREADEKKRREQANRPRP-TRNNASNN-RPS 212
+
+Query:   174 LFKQERDELPLERIPFPT 191
+               K      P    P PT
+Sbjct:   213 NGKPTNGARPTTNSPRPT 230
+
+
+>sp|Q789F3|MAF_CHICK Transcription factor Maf OS=Gallus gallus GN=MAF PE=1 SV=1
+        Length = 359
+
+ Score = 94 (38.1 bits), Expect = 0.17, P = 0.16
+ Identities = 25/82 (30%), Positives = 47/82 (57%)
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             +Q+R  R L+NR  AQ+ R ++  +   LE+EK Q+ QQ + L Q +S++  E +   ++
+Sbjct:   276 KQKR--RTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVEHLKQEISRLVRERDAYKEK 333
+
+Query:   143 LAQLAAE-VRGSRANTPMPGSP 163
+               +L +   R + +++  P SP
+Sbjct:   334 YEKLVSNGFRENGSSSDNPSSP 355
+
+
+>sp|P49716|CEBPD_HUMAN CCAAT/enhancer-binding protein delta OS=Homo sapiens
+            GN=CEBPD PE=1 SV=2
+        Length = 269
+
+ Score = 92 (37.4 bits), Expect = 0.17, P = 0.16
+ Identities = 32/130 (24%), Positives = 57/130 (43%)
+
+Query:    19 PASEVPVLTVSPADT--SLNSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA 76
+             P S +P    + A T  SL +A   T    PE  + + ++       P P       KR 
+Sbjct:   131 PGSLLPAQVAACAQTVVSLAAAGQPTPPTSPEPPRSSPRQTP----APGPAREKSAGKRG 186
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+                   E R  +R  RN  A + SR++ +   ++++ + +++  +N+ L QR+ Q+  + 
+Sbjct:   187 PDRGSPEYR--QRRERNNIAVRKSRDKAKRRNQEMQQKLVELSAENEKLHQRVEQLTRDL 244
+
+Query:   137 NRLSQQLAQL 146
+               L Q   QL
+Sbjct:   245 AGLRQFFKQL 254
+
+ Score = 88 (36.0 bits), Expect = 0.49, P = 0.39
+ Identities = 29/98 (29%), Positives = 48/98 (48%)
+
+Query:    60 GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE-RKRLEMEKLENEKIQ- 117
+             GQ  P P +  PPR   +        R E+    R   + S E R+R E   +   K + 
+Sbjct:   153 GQPTP-PTSPEPPRSSPRQTPAPGPAR-EKSAGKRGPDRGSPEYRQRRERNNIAVRKSRD 210
+
+Query:   118 -MEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+               +++NQ + Q+L ++ AEN +L Q++ QL  ++ G R
+Sbjct:   211 KAKRRNQEMQQKLVELSAENEKLHQRVEQLTRDLAGLR 248
+
+
+>sp|P81269|ATF1_MOUSE Cyclic AMP-dependent transcription factor ATF-1 OS=Mus
+            musculus GN=Atf1 PE=2 SV=1
+        Length = 269
+
+ Score = 92 (37.4 bits), Expect = 0.17, P = 0.16
+ Identities = 20/57 (35%), Positives = 37/57 (64%)
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             KT+D + +R I R+++NR AA+  R +K+  ++ LEN    +E QN+ L++ L  ++
+Sbjct:   206 KTDDPQLRREI-RLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKTLK 261
+
+
+>sp|P23091|MAF_AVIS4 Transforming protein Maf OS=Avian musculoaponeurotic
+            fibrosarcoma virus AS42 GN=V-MAF PE=1 SV=1
+        Length = 369
+
+ Score = 94 (38.1 bits), Expect = 0.18, P = 0.16
+ Identities = 25/82 (30%), Positives = 47/82 (57%)
+
+Query:    83 EQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQ 142
+             +Q+R  R L+NR  AQ+ R ++  +   LE+EK Q+ QQ + L Q +S++  E +   ++
+Sbjct:   276 KQKR--RTLKNRGYAQSCRFKRVQQRHVLESEKNQLLQQVEHLKQEISRLVRERDAYKEK 333
+
+Query:   143 LAQLAAE-VRGSRANTPMPGSP 163
+               +L +   R + +++  P SP
+Sbjct:   334 YEKLVSNGFRENGSSSDNPSSP 355
+
+
+>sp|P18846|ATF1_HUMAN Cyclic AMP-dependent transcription factor ATF-1 OS=Homo
+            sapiens GN=ATF1 PE=1 SV=2
+        Length = 271
+
+ Score = 92 (37.4 bits), Expect = 0.18, P = 0.16
+ Identities = 20/57 (35%), Positives = 37/57 (64%)
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQME 133
+             KT+D + +R I R+++NR AA+  R +K+  ++ LEN    +E QN+ L++ L  ++
+Sbjct:   208 KTDDPQLKREI-RLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKTLK 263
+
+
+>sp|Q07283|TRHY_HUMAN Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+        Length = 1943
+
+ Score = 102 (41.0 bits), Expect = 0.18, P = 0.16
+ Identities = 28/120 (23%), Positives = 65/120 (54%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             + Q +K E+++  ++R    +E+   +      +R K E+ +E+RR +++L++    +  
+Sbjct:   586 RQQRLKREQEERLEQRLK-REEVERLEQEERREQRLKREEPEEERR-QQLLKSEEQEERR 643
+
+Query:   101 RERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP 160
+             +++ R E ++   ++++ E++ + L QRL + E E  R  Q+LA+   E    R  + +P
+Sbjct:   644 QQQLRREQQERREQRLKREEEEERLEQRLKR-EHEEERREQELAEEEQEQARERIKSRIP 702
+
+ Score = 101 (40.6 bits), Expect = 0.23, P = 0.21
+ Identities = 31/116 (26%), Positives = 59/116 (50%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRA-KTEDEKEQRRIERVLRNRAAAQT 99
+             + Q +K EE+K  ++ +   +E  + +     R +  K E+E+ Q+R++R    R   + 
+Sbjct:   546 REQLLKREEEKRLEQER---REQRLKREQEERRDQLLKREEERRQQRLKREQEERLEQRL 602
+
+Query:   100 SRER-KRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+              RE  +RLE E+   ++++ E+  +   Q+L + E +  R  QQL +   E R  R
+Sbjct:   603 KREEVERLEQEERREQRLKREEPEEERRQQLLKSEEQEERRQQQLRREQQERREQR 658
+
+ Score = 100 (40.3 bits), Expect = 0.30, P = 0.26
+ Identities = 30/112 (26%), Positives = 61/112 (54%)
+
+Query:    40 VKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQT 99
+             ++ +E K +E++P ++R+   +E  + K      +R + E+E++Q+R+ R  + R   + 
+Sbjct:   253 LRKEEEKLQEEEPQRQRELQEEEEQLRKLERQELRRERQEEEQQQQRLRREQQLRRKQE- 311
+
+Query:   100 SRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+               ER+  + E+ E ++ + EQQ +   Q+L + + E  R  QQL +   E R
+Sbjct:   312 -EERREQQEERREQQE-RREQQEERREQQLRREQEE--RREQQLRREQEEER 359
+
+ Score = 90 (36.7 bits), Expect = 3.7, P = 0.97
+ Identities = 31/108 (28%), Positives = 57/108 (52%)
+
+Query:    48 EEKKPAKKRKS-WGQELPVPKTNLPPRKRAKTEDEKEQRRIER--VLRNRAAAQTSRERK 104
+             EE+K  +KR++   +E    +   P R+R   E+E++ R++ER  + R R   +  ++R 
+Sbjct:   241 EEEKEWRKRETVLRKEEEKLQEEEPQRQRELQEEEEQLRKLERQELRRERQEEEQQQQRL 300
+
+Query:   105 RLEME-KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVR 151
+             R E + + + E+ + EQQ +   Q+  + E +  R  QQL +   E R
+Sbjct:   301 RREQQLRRKQEEERREQQEERREQQ-ERREQQEERREQQLRREQEERR 347
+
+ Score = 90 (36.7 bits), Expect = 3.7, P = 0.97
+ Identities = 29/119 (24%), Positives = 59/119 (49%)
+
+Query:    41 KTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTS 100
+             + ++ + ++K   K+ +  G+E P  +      K+ + E+E +Q   E++LR     +  
+Sbjct:   956 RERQYRKDKKLQQKEEQLLGEE-PEKRRRQEREKKYREEEELQQEE-EQLLREEREKRRR 1013
+
+Query:   101 RE-----RKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSR 154
+             +E     RK+ E+++ E E++  E++ +  LQ   +   E   L Q+  QL  E R +R
+Sbjct:  1014 QEWERQYRKKDELQQ-EEEQLLREEREKRRLQERERQYREEEELQQEEEQLLGEERETR 1071
+
+ Score = 90 (36.7 bits), Expect = 3.7, P = 0.97
+ Identities = 32/119 (26%), Positives = 59/119 (49%)
+
+Query:    43 QEVKPEE-KKPAKKRKSW-GQELPVPKTNLPPRKRAKTEDEKEQRRIERVLR----NRAA 96
+             QE + +  K+  ++R+ W  +E    +     RK+    D++E+RR ER L+     R  
+Sbjct:   440 QERREQRLKREQEERRDWLKREEETERHEQERRKQQLKRDQEEERR-ERWLKLEEEERRE 498
+
+Query:    97 AQTSRERK-RLEMEKLENEKIQMEQQNQFLLQRL---SQMEAENNRLSQQLAQLAAEVR 151
+              Q  RE++ R E E+   ++++ +++ + L QRL    Q+  E     +QL +   E R
+Sbjct:   499 QQERREQQLRREQEERREQRLKRQEEEERLQQRLRSEQQLRREQEERREQLLKREEEKR 557
+
+ Score = 89 (36.4 bits), Expect = 4.7, P = 0.991
+ Identities = 33/111 (29%), Positives = 55/111 (49%)
+
+Query:    43 QEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE 102
+             ++++ EE+K AK+R    QE           KR + E +++ R  E++L+ R   Q  R 
+Sbjct:  1297 EQLEREEQKEAKRRDRKSQEEKQLLREEREEKRRRQETDRKFREEEQLLQEREE-QPLRR 1355
+
+Query:   103 RKRLEMEKLENEKIQMEQQNQFLL--QRLSQMEAENNRLSQQLAQLAAEVR 151
+             ++R + +  E E    EQ  +FL   QRL + E E   L ++  QL  + R
+Sbjct:  1356 QER-DRKFREEELRHQEQGRKFLEEEQRLRRQERERKFLKEE-QQLRCQER 1404
+
+
+>sp|Q4X1V0|NDE1_ASPFU Nuclear distribution protein nudE homolog 1
+            OS=Aspergillus fumigatus GN=nde1 PE=3 SV=1
+        Length = 621
+
+ Score = 95 (38.5 bits), Expect = 0.18, Sum P(2) = 0.17
+ Identities = 39/131 (29%), Positives = 63/131 (48%)
+
+Query:   107 EMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMP-GSPAT 165
+             EM   E E+ ++  +NQ L   LS ++ E   + ++L    AE++ SR   P+   SP+T
+Sbjct:   178 EMRAGEQEREKLRIENQRLRDELSDLKIETEIIHEKLRN--AELQNSRRRKPISLRSPST 235
+
+Query:   166 ASPTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHP-AVSVAGLE 224
+                  TP LF +     P   I   +P  S  +PTLK S ++ ++     P + S + L 
+Sbjct:   236 PQ---TPDLFNRS----PASSI-VSSPLFS--TPTLKTSLMSATATPPSPPISESSSSLR 285
+
+Query:   225 GDGSALPLFDL 235
+                +A+P F L
+Sbjct:   286 KSMNAMPGFPL 296
+
+ Score = 84 (34.6 bits), Expect = 4.6, P = 0.99
+ Identities = 33/134 (24%), Positives = 62/134 (46%)
+
+Query:    80 DEKEQRRIERVL---RNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAEN 136
+             + K    IER +       A +  RE+ R+E ++L +E   ++ + + + ++L   E +N
+Sbjct:   162 ESKYNVAIERAVLLEEEMRAGEQEREKLRIENQRLRDELSDLKIETEIIHEKLRNAELQN 221
+
+Query:   137 NRLSQQLAQLAAEVRGSRANTP-----MPGSPATASPTL-TPTLFKQERDELPLERIPFP 190
+             +R  + ++  +     S   TP      P S   +SP   TPTL   +   +     P P
+Sbjct:   222 SRRRKPISLRSP----STPQTPDLFNRSPASSIVSSPLFSTPTL---KTSLMSATATP-P 273
+
+Query:   191 TPSLSDYSPTLKPS 204
+             +P +S+ S +L+ S
+Sbjct:   274 SPPISESSSSLRKS 287
+
+ Score = 44 (20.5 bits), Expect = 0.18, Sum P(2) = 0.17
+ Identities = 12/40 (30%), Positives = 22/40 (55%)
+
+Query:    81 EKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQ 120
+             +   R +E  L     A  S +R+RL  EK+++ K ++E+
+Sbjct:    40 QASSRELEAELEKDIEA--SEKRERLLKEKVDSLKYEVEE 77
+
+
+>sp|Q8R1H8|BATF2_MOUSE Basic leucine zipper transcriptional factor ATF-like 2
+            OS=Mus musculus GN=Batf2 PE=2 SV=1
+        Length = 277
+
+ Score = 79 (32.9 bits), Expect = 0.18, Sum P(2) = 0.17
+ Identities = 15/59 (25%), Positives = 35/59 (59%)
+
+Query:    77 KTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAE 135
+             +T+  + Q+++++  +NR AAQ SR++   + + L  +   +E+QN  L + +  ++ E
+Sbjct:    12 ETDLGESQKQLKKKQKNRVAAQRSRQKHTSKADALHQQHESLEKQNHALRKEIQALQTE 70
+
+ Score = 52 (23.4 bits), Expect = 0.18, Sum P(2) = 0.17
+ Identities = 20/68 (29%), Positives = 27/68 (39%)
+
+Query:   137 NRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPF----PTP 192
+             N   +QL          RA    PG  +  SP L P+L      +  + R P     P+P
+Sbjct:   117 NGCQEQLGLFQTPGSSPRAQHLSPGPCSHESPGLLPSLLPSLAFDPLMVRTPLAQLSPSP 176
+
+Query:   193 SLSDYSPT 200
+              LS  SP+
+Sbjct:   177 VLSASSPS 184
+
+
+>sp|Q66J36|NFIL3_XENLA Nuclear factor interleukin-3-regulated protein
+            OS=Xenopus laevis GN=nfil3 PE=2 SV=1
+        Length = 456
+
+ Score = 95 (38.5 bits), Expect = 0.19, P = 0.17
+ Identities = 35/132 (26%), Positives = 62/132 (46%)
+
+Query:    31 ADTSLNSADVKTQEVKP-EEKKPAKKRKSWGQELPVP-KTNLPPRKRAKTEDEKEQRRI- 87
+             AD+ + +  V +  +    E   +     +   LPV  K++   RKR    DEK+     
+Sbjct:    11 ADSRMENILVLSSNIPDMSESMDSSNDMLYSDGLPVKNKSSSCRRKREFIPDEKKDAMYW 70
+
+Query:    88 ERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLA 147
+             E+  +N  AA+ SRE++RL    LEN+ I + ++N  L   L  ++ +   +S      A
+Sbjct:    71 EKRRKNNEAAKRSREKRRLNDMVLENKLIALGEENASLKTELLSLKLKFGLISS--TSYA 128
+
+Query:   148 AEVRGSRANTPM 159
+              E++   ++T M
+Sbjct:   129 QEIQKVTSSTAM 140
+
+
+>sp|P13816|GARP_PLAFF Glutamic acid-rich protein OS=Plasmodium falciparum
+            (isolate FC27 / Papua New Guinea) GN=GARP PE=4 SV=1
+        Length = 678
+
+ Score = 97 (39.2 bits), Expect = 0.19, P = 0.17
+ Identities = 33/142 (23%), Positives = 65/142 (45%)
+
+Query:    36 NSADVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRA 95
+             N ++ K ++ + EE      +K   Q+    K      K+ K ++EKE+++ E+  +   
+Sbjct:   242 NISEDKKEDHQQEEMLKTLDKKERKQKEKEMKEQEKIEKKKKKQEEKEKKKQEKERKK-- 299
+
+Query:    96 AAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRA 155
+               Q  +ERK+ E E  + +KI+ E++ +   ++  +   + N  + Q     +E   +  
+Sbjct:   300 --QEKKERKQKEKEMKKQKKIEKERKKKEEKEKKKKKHDKENEETMQQPDQTSEETNNEI 357
+
+Query:   156 NTPMPGSPATASPTLTPTLFKQ 177
+               P+P SP T     TP   K+
+Sbjct:   358 MVPLP-SPLT--DVTTPEEHKE 376
+
+
+>sp|P38749|YAP3_YEAST AP-1-like transcription factor YAP3 OS=Saccharomyces
+            cerevisiae GN=YAP3 PE=1 SV=1
+        Length = 330
+
+ Score = 93 (37.8 bits), Expect = 0.19, P = 0.17
+ Identities = 17/67 (25%), Positives = 39/67 (58%)
+
+Query:    76 AKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAE 135
+             A  E+  +  + ++  +NRAA +  RERK   M++L+++ ++ E+  Q LL+ + ++   
+Sbjct:   137 AHNENVPDDSKAKKKAQNRAAQKAFRERKEARMKELQDKLLESERNRQSLLKEIEELRKA 196
+
+Query:   136 NNRLSQQ 142
+             N  ++ +
+Sbjct:   197 NTEINAE 203
+
+
+>sp|Q3UIW5|RNF10_MOUSE RING finger protein 10 OS=Mus musculus GN=Rnf10 PE=2
+            SV=2
+        Length = 804
+
+ Score = 99 (39.9 bits), Expect = 0.19, Sum P(2) = 0.18
+ Identities = 51/209 (24%), Positives = 87/209 (41%)
+
+Query:    80 DEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRL 139
+             D+ E+R+ +R  + +A  +  RER R+EME  EN++     +    L+ L Q  A N+  
+Sbjct:   588 DDIEKRKRQR--QKKAREERRRER-RIEME--ENKRQGRYPEVHIPLENLQQFPAFNSYT 642
+
+Query:   140 ---SQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIPFPTPSLSD 196
+                   L   + E  G+ + +P+  SP + +  L   L        P     F   SL D
+Sbjct:   643 CPSDSALGPTSTEGHGALSLSPLSRSPGSHADFLLTPLSPTASQGSP----SFCVGSLED 698
+
+Query:   197 YSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHHSTDDVAAPLSDDDF 256
+              SP L  + +              A  + D S +P   + SD +  ++D V  P   + F
+Sbjct:   699 DSPFLSFAQMLRVGKAKADGWPKTAPKKDDNSLVPPAPVDSDGESDNSDRVPVPSFQNSF 758
+
+Query:   257 NRLFHGDSSVEPDSSVFEDGLAFDVLEGG 285
+             ++     + ++ D+    D L+ D   GG
+Sbjct:   759 SQAIEA-AFMKLDTPATSDPLSED--RGG 784
+
+ Score = 42 (19.8 bits), Expect = 0.19, Sum P(2) = 0.18
+ Identities = 11/57 (19%), Positives = 27/57 (47%)
+
+Query:     1 MSCDMEKTMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRK 57
+             MS D+ +    +  LP T    +  L + P   S  + ++ + +++  +++  KK +
+Sbjct:   546 MSEDVRQRHRYLSHLPLTCEFSICELALQPPVVSKETLEMFSDDIEKRKRQRQKKAR 602
+
+
+>sp|P23923|HBP1B_WHEAT Transcription factor HBP-1b(c38) OS=Triticum aestivum
+            PE=2 SV=1
+        Length = 332
+
+ Score = 93 (37.8 bits), Expect = 0.19, P = 0.18
+ Identities = 24/59 (40%), Positives = 36/59 (61%)
+
+Query:    73 RKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQNQFLLQRLSQ 131
+             R R K  D+K  RR+ +   NR AA+ SR RK+  +++LEN ++++ Q  Q L QR  Q
+Sbjct:    37 RSRDKNGDQKTMRRLAQ---NREAARKSRLRKKAYVQQLENSRLKLTQLEQEL-QRARQ 91
+
+
+>sp|Q9D5R3|CCD41_MOUSE Coiled-coil domain-containing protein 41 OS=Mus musculus
+            GN=Ccdc41 PE=2 SV=2
+        Length = 692
+
+ Score = 97 (39.2 bits), Expect = 0.19, P = 0.18
+ Identities = 44/182 (24%), Positives = 78/182 (42%)
+
+Query:    49 EKKPAKKRKSWGQELPVPKTNLPPRKRAKTE-DEKEQRRIERVLRNRAAAQTSRERKRLE 107
+             EK   +K+  W +E       +  R+    +  EK QR      + ++  +   +R + +
+Sbjct:   516 EKTLEEKQIQWLEEKHKLHERITDREEKYNQAKEKLQRAATAQKKRKSLHENKLKRLQEK 575
+
+Query:   108 MEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATAS 167
+             +E LE +K ++E +NQ L ++    E E  RL ++L  +       R+   +P  P TAS
+Sbjct:   576 VEVLEAKKEELETENQVLNRQNVPFE-EYTRLQKRLKDIQRRHNEFRSLILVPNMPPTAS 634
+
+Query:   168 PTLTPTLFKQERDELPLERIPFPTPSLSDYSPTLKPSTLA---ESSDVAQHPAVSVAGLE 224
+               ++P  F Q    +P   + FP P L +     + S L    E  +  Q   +   G  
+Sbjct:   635 --ISPANF-QSAVTVPGAELSFP-PHLQEEQHQRELSLLRKRLEELETTQRKQLEELGSP 690
+
+Query:   225 GD 226
+             G+
+Sbjct:   691 GE 692
+
+
+>sp|Q9QXL2|KI21A_MOUSE Kinesin-like protein KIF21A OS=Mus musculus GN=Kif21a
+            PE=1 SV=2
+        Length = 1672
+
+ Score = 101 (40.6 bits), Expect = 0.20, P = 0.18
+ Identities = 39/164 (23%), Positives = 77/164 (46%)
+
+Query:    35 LNSADVKTQEVKPEEKKPAKKRKSWGQE-LPVPKTNLPPRKRAKTEDEKEQRRIERVLRN 93
+             L +A  +   +   + +  K+ K   Q+ + + KT +   K+ K E EK   R+    RN
+Sbjct:   737 LQTAQKEHARLLKNQSQYEKQLKKLQQDVMEMKKTKVRLMKQMKEEQEKA--RLTESRRN 794
+
+Query:    94 RAAAQTSRE-RKR-LEMEKLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLA-QLAAEV 150
+             R  AQ  ++ RKR  ++  LE +K   E   +   + ++ +  +   +S ++A ++  ++
+Sbjct:   795 REIAQLKKDQRKRDHQLRLLEAQKRNQEVVLRRKTEEVTALRRQVRPMSDKVAGKVTRKL 854
+
+Query:   151 RGSRANTPMPGSPATASPTLTPTLFKQERDELPLERIP-FPTPS 193
+               S +  P  GS A +    T     Q++  +P+ R+   PTP+
+Sbjct:   855 SSSESPAPDTGSSAASGEADTSRPGTQQKMRIPVARVQALPTPT 898
+
+
+>sp|Q9UPT6|JIP3_HUMAN C-Jun-amino-terminal kinase-interacting protein 3 OS=Homo
+            sapiens GN=MAPK8IP3 PE=1 SV=3
+        Length = 1336
+
+ Score = 95 (38.5 bits), Expect = 0.20, Sum P(2) = 0.18
+ Identities = 38/152 (25%), Positives = 69/152 (45%)
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRN-RAAAQTSRERKRLEMEKL------ENE 114
+             E  V +  L   K+AK + E   + +E  L+  ++ A  +R   + E E +      E++
+Sbjct:   454 EQEVLRGELEAAKQAKVKLENRIKELEEELKRVKSEAIIARREPKEEAEDVSSYLCTESD 513
+
+Query:   115 KIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGS---RANTPMPGSPATASPTLT 171
+             KI M Q+ +F    ++++  E N+  ++L +L   VR +   RA+   P        T+ 
+Sbjct:   514 KIPMAQRRRFTRVEMARVLMERNQYKERLMELQEAVRWTEMIRASREHPSVQEKKKSTIW 573
+
+Query:   172 P---TLFKQERDELPLERIPFPTPSLSDYSPT 200
+                  LF       P +R P+P+ ++   SPT
+Sbjct:   574 QFFSRLFSSSSSPPPAKR-PYPSVNIHYKSPT 604
+
+ Score = 51 (23.0 bits), Expect = 0.20, Sum P(2) = 0.18
+ Identities = 18/58 (31%), Positives = 25/58 (43%)
+
+Query:     8 TMSSVDSLPATPASEVPVLTVSPADTSLNSADVKTQEVKPEEKKPAKKRKSWGQELPV 65
+             T S+  +   TP S VP   V+P + SL          K   K+  +KR S   E+ V
+Sbjct:   265 TPSTTGTKSNTPTSSVPSAAVTPLNESLQPLGDYGVGSK-NSKRAREKRDSRNMEVQV 321
+
+
+>sp|P16884|NFH_RAT Neurofilament heavy polypeptide OS=Rattus norvegicus GN=Nefh
+            PE=1 SV=4
+        Length = 1072
+
+ Score = 99 (39.9 bits), Expect = 0.20, P = 0.18
+ Identities = 57/248 (22%), Positives = 93/248 (37%)
+
+Query:     6 EKTMSSVDSLPATPAS-EVPVLTVSPADTSLNSAD-VKTQEVK-PEEKKPAKKRKSWGQE 62
+             EK  S V      PA  + P    SP      S +  KT +VK PE K PAK+      +
+Sbjct:   784 EKAKSPVKEEIKPPAEVKSPEKAKSPMKEEAKSPEKAKTLDVKSPEAKTPAKEEAKRPAD 843
+
+Query:    63 LPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQN 122
+             +  P+    P K      EKE+ R E+V   +   ++  E    E++  E  K ++E++ 
+Sbjct:   844 IRSPEQVKSPAKEEAKSPEKEETRTEKVAPKKEEVKSPVE----EVKAKEPPK-KVEEEK 898
+
+Query:   123 QFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANTPMPGSPATASPTLTPTLFKQERDEL 182
+                  +    E++ +   ++  +  AE +      P   SP  A         K+++   
+Sbjct:   899 TPATPKTEVKESKKDEAPKEAQKPKAEEKEPLTEKPKD-SPGEAKKEEA----KEKKAAA 953
+
+Query:   183 PLERIPFPTPSLSDYSPTLKPSTLAESSDVAQHPAVSVAGLEGDGSALPLFDLGSDLKHH 242
+             P E     TP+        KP   AE +  A+ P+      +     +P      D K  
+Sbjct:   954 PEEE----TPAKLGVKEEAKPKEKAEDAK-AKEPSKPSEKEKPKKEEVPAAPEKKDTKEE 1008
+
+Query:   243 STDDVAAP 250
+              T +   P
+Sbjct:  1009 KTTESKKP 1016
+
+
+>sp|Q60765|ATF3_MOUSE Cyclic AMP-dependent transcription factor ATF-3 OS=Mus
+            musculus GN=Atf3 PE=2 SV=1
+        Length = 181
+
+ Score = 88 (36.0 bits), Expect = 0.20, P = 0.18
+ Identities = 29/99 (29%), Positives = 47/99 (47%)
+
+Query:    62 ELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRERKRLEMEKLENEKIQMEQQ 121
+             E+ V K+   P      EDE+++RR ER   N+ AA   R +K+ + E L+ E  ++E  
+Sbjct:    73 EMSVTKSEAAPE-----EDERKRRRRER---NKIAAAKCRNKKKEKTECLQKESEKLESV 124
+
+Query:   122 NQFLLQRLSQMEAENNRLSQQLA--QLAAEVRGSRANTP 158
+             N  L  ++ +++ E   L   L   +    VR     TP
+Sbjct:   125 NAELKAQIEELKNEKQHLIYMLNLHRPTCIVRAQNGRTP 163
+
+
+>sp|Q9N0J3|CEBPD_SHEEP CCAAT/enhancer-binding protein delta OS=Ovis aries
+            GN=CEBPD PE=3 SV=1
+        Length = 255
+
+ Score = 91 (37.1 bits), Expect = 0.20, P = 0.18
+ Identities = 28/104 (26%), Positives = 51/104 (49%)
+
+Query:    64 PVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQTSRE-RKRLEMEKLENEKIQ--MEQ 120
+             P P  +  P +R+         R ++    R   + S E R+R E   +   K +   ++
+Sbjct:   142 PTPPASPDPPRRSPAPPAPGPAR-DKAAGKRGPDRGSPEYRQRRERNNIAVRKSRDKAKR 200
+
+Query:   121 QNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRAN-TPMPGSP 163
+             +NQ + Q+L ++ AEN +L Q++ QL  ++ G R     +PG+P
+Sbjct:   201 RNQEMQQKLVELSAENEKLQQRVEQLTRDLAGLRRFFKQLPGAP 244
+
+
+>sp|A5DLJ8|NST1_PICGU Stress response protein NST1 OS=Pichia guilliermondii
+            GN=NST1 PE=3 SV=2
+        Length = 1107
+
+ Score = 99 (39.9 bits), Expect = 0.20, P = 0.18
+ Identities = 42/202 (20%), Positives = 91/202 (45%)
+
+Query:    39 DVKTQEVKPEEKKPAKKRKSWGQELPVPKTNLPPRKRAKTEDEKEQRRIERVLRNRAAAQ 98
+             D + +  + EE+   ++ +   +EL   +       R K E+EK +R  E  L+  A  +
+Sbjct:   632 DEERRRKEEEERAREEELRLKQEELRAEQKRRKEEARQKKEEEKRKRIEELRLKKEAEKK 691
+
+Query:    99 TSRERKRLEME-KLENEKIQMEQQNQFLLQRLSQMEAENNRLSQQLAQLAAEVRGSRANT 157
+                E++R E E K + E+   E++ + ++++  Q++ E     +Q  +        +   
+Sbjct:   692 KQEEKERKERELKEKKERESKEKEEREMMEKKEQLKKEQQPKVEQTQE--------KPQA 743
+
+Query:   158 PMPGSPATASPTLT-PTLFKQERDELPLERIPFPTPSLSD-YSPTLKPSTLAES--SDVA 213
+             P P   + ++P+++ P   +Q+     L+    PT  L +  S  L+  +L +   S ++
+Sbjct:   744 P-PSQTSQSNPSVSDPISSRQDNSVSSLD----PTHDLQNAISSGLEQLSLGQQPMSHIS 798
+
+Query:   214 QHPAVSVAGLEGDGSALPLFDL 235
+               P+ S++ L     + P  D+
+Sbjct:   799 SQPSQSISQLPIQPPSQPFLDM 820
+
+WARNING:  HSPs involving 915 database sequences were not reported due to the
+          limiting value of parameter B = 250.
+
+NOTE:  You may want to consider using a low-complexity sequence filter to
+       reduce the number of spurious matches that may be appearing in the
+       output.  See the filter option at
+       http://blast.wustl.edu/blast/parameters.html#filter.
+
+
+Parameters:
+
+  ctxfactor=1.00
+  E=10
+
+  Query                        -----  As Used  -----    -----  Computed  ----
+  Frame  MatID Matrix name     Lambda    K       H      Lambda    K       H
+   +0      0   BLOSUM62        0.309   0.127   0.355    same    same    same
+               Q=9,R=2         0.244   0.0300  0.180     n/a     n/a     n/a
+
+  Query
+  Frame  MatID  Length  Eff.Length     E    S W   T  X   E2     S2
+   +0      0      345       345       8.6  80 3  11 23  0.50    34
+                                                    33  0.45    37
+
+
+Statistics:
+
+  Database:  /misc/data0/databases/Uniprot/uniprot_sprot_wu.fasta
+   Title:  uniprot_sprot_wu.fasta
+   Posted:  9:42:10 AM EDT Apr 12, 2010
+   Created:  9:42:26 AM EDT Apr 12, 2010
+   Format:  XDF-1
+   # of letters in database:  181,677,051
+   # of sequences in database:  516,081
+   # of database sequences satisfying E:  1165
+  No. of states in DFA:  594 (126 KB)
+  Total size of DFA:  363 KB (2145 KB)
+  Time to generate neighborhood:  0.00u 0.00s 0.00t   Elapsed:  00:00:00
+  No. of threads or processors used:  8
+  Search cpu time:  26.59u 0.08s 26.67t   Elapsed:  00:00:04
+  Total cpu time:  37.32u 0.15s 37.47t   Elapsed:  00:00:05
+  Start:  Fri Apr 16 09:13:43 2010   End:  Fri Apr 16 09:13:48 2010
+NOTES ISSUED:  2
+WARNINGS ISSUED:  2
+
+EXIT CODE 0
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/fasta2profmark b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/fasta2profmark
new file mode 100755
index 0000000..c972ff1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/fasta2profmark
@@ -0,0 +1,11 @@
+#! /usr/bin/perl
+
+use demotic_fasta;
+
+while (&demotic_fasta::parse(\*STDIN))
+{
+    &demotic_fasta::profmarkout(\*STDOUT);
+}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/fasta2tbl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/fasta2tbl
new file mode 100755
index 0000000..f840da6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/fasta2tbl
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_fasta;
+
+while (&demotic_fasta::parse(\*STDIN))
+{
+    &demotic_fasta::tblout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/h22profmark b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/h22profmark
new file mode 100755
index 0000000..84c8b01
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/h22profmark
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_h2;
+
+while (&demotic_h2::parse(\*STDIN))
+{
+    &demotic_h2::profmarkout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/h22tbl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/h22tbl
new file mode 100755
index 0000000..f30be04
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/h22tbl
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_h2;
+
+while (&demotic_h2::parse(\*STDIN))
+{
+    &demotic_h2::tblout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/hmmer2profmark b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/hmmer2profmark
new file mode 100755
index 0000000..19e1830
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/hmmer2profmark
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_hmmer;
+
+while (&demotic_hmmer::parse(\*STDIN))
+{
+    &demotic_hmmer::profmarkout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/hmmer2tbl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/hmmer2tbl
new file mode 100755
index 0000000..08e8d8a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/hmmer2tbl
@@ -0,0 +1,10 @@
+#! /usr/bin/perl
+
+use demotic_hmmer;
+
+while (&demotic_hmmer::parse(\*STDIN))
+{
+    &demotic_hmmer::tblout(\*STDOUT);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/infernal_tab2gff.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/infernal_tab2gff.pl
new file mode 100755
index 0000000..058d933
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/infernal_tab2gff.pl
@@ -0,0 +1,269 @@
+#!/usr/bin/perl -w -I/groups/eddy/home/jonest/Demotic
+
+# TAJ 6/23/08 last mod 7/10/08
+# Purpose: flexibly convert "cmsearch --tabfile TAB.out" output to GFF format
+# Based upon my "blastn2gff.pl" script. 
+#
+# OUTPUT GFF2 format:
+# ------------------
+# CONTIG   METHOD      TYPE            START      END      SCORE    ORI   FRAME  GENE "genename"; note "free text"
+# $contig  $method     $type           $GFFstart  $GFFend  $score   $ori  "."    $gene_name       $note 
+# na       "Infernal"  "Infernal_hit"  na         na       na       na    "."    ::$cm_name[i]    ""             # Defaults
+# na       -m          -t              na         na       na       na    na     -g               -n             # Options
+#
+# Todo List
+# -----------------------------------------------------
+# (1) Allow for GFF3 format output
+# (2) Possibly all switch to produce separate GFF files for each report
+# -----------------------------------------------------
+
+use strict;
+use demotic_infernal_tab; 
+use Getopt::Std;
+getopts ('E:s:G:l:m:t:g:n:u:d:b');
+our ($opt_E, $opt_s, $opt_G, $opt_l, $opt_m, $opt_t, $opt_g, $opt_n, $opt_b, $opt_u, $opt_d);
+
+(my $script = $0) =~ s/^.*\///;
+my $USAGE = "
+Parse cmsearch tabfile output, filter hits on user-supplied cutoffs, and output hits
+in GFF2 format. 
+======================================================================================
+   USAGE: $script <options> tabfile.out > foo.gff
+======================================================================================
+     tabfile.out ==> Output file created by using cmsearch switch '--tabfile tab.out' 
+                     from Infernal rc1.0
+
+OPTIONS
+--------------------------------------------------------------------------------------
+ -E  Eval_cutoff       (E)-value cutoff -- reject hits with E-value > Eval_cutoff
+ -s  score_cutoff      (s)score cutoff -- reject hits with bitscore < score_cutoff
+ -G  GC_cutoff         (G)C percent cutoff (0..100) -- reject hits with GC < GC_cutoff
+ -l  len_cutoff        (l)ength cutoff -- reject hits with length < len_cutoff
+ -m  method            (m)ethod. Default is 'Infernal'        # for GFF output
+ -t  type              (t)ype. Default is 'Infernal_hit'      # for GFF output
+ -g  gene_name         (g)ene name. Default is CM query name  # for GFF output  (1)
+ -n  \"a short note\"  (n)ote. No default                     # for GFF output
+ -u  X                 (u)pstream pad   -- add X NTs to BEGINNING of all hits   (2)
+ -d  Y                 (d)ownstream pad -- add Y Nts to END       of all hits   (2)
+--------------------------------------------------------------------------------------
+
+NOTES:
+ (1) == Default behavior obtains a (non-unique) 'gene name' from the CM name. For 
+        multiple CM queries having the same name, Infernal differentiates the models
+        by adding a '.N' version (eg CM.1, CM.2, etc). Specifying the gene name by '-g' 
+        results in the same gene name being used for all hits in all reports contained 
+        in that tabfile. 
+ (2) == The values always add to the length of the feature. X and Y cannot be negative!
+        It's highly recommended that you use the '-n NOTE' feature to annotate the 
+        changes made to the GFF start and end sites due to these flags. Script warns
+        when padding beyond the 5' end of the contig (and sets it to 1), but cannot edge
+        detect for the 3' end of the contig. 
+
+*************      While this script can parse 'tabfile' files with output from 
+*  WARNING  *      multiple queries (possibly containing very different CMs), only one
+*************      GENE name, METHOD and TYPE will be added to all GFF lines created!
+";
+
+my $CMs          = 0;     # number of CMs in tabfile
+my $hits         = 0;     # number of hits within current CM
+my $Eval_cutoff  = 10000; # arbitrarily large E-value default cutoff
+my $score_cutoff = -1000; # arbitrarily low bitscore default cutoff
+my $GC_cutoff    = 0;     # minimum %GC cutoff 
+my $len_cutoff   = 0;     # minimum length cutoff
+my $up_pad       = 0;     # add X NTs to upstream/start of hit   NB: applies to all hits!
+my $down_pad     = 0;     # add Y NTs to downstream/end of hit   NB: applies to all hits!
+my $pass_filter  = 0;
+ 
+# get cutoff & coord padding options (NB: opt's m,t,g,n  obtained during sub print_GFF2)
+$Eval_cutoff  = $opt_E              if ($opt_E);
+$score_cutoff = $opt_s              if ($opt_s); 
+$GC_cutoff    = $opt_G              if ($opt_G); 
+$len_cutoff   = $opt_l              if ($opt_l);
+$up_pad       = $opt_u              if ($opt_u);
+$down_pad     = $opt_d              if ($opt_d);
+if ($up_pad   !~ /^\+?\d+$/) { die "Illegal pad: '$up_pad'; must be a whole positive number.";   }
+if ($down_pad !~ /^\+?\d+$/) { die "Illegal pad: '$down_pad'; must be a whole positive number."; }
+if (($up_pad > 100000) || ($down_pad > 100000)) {
+    die "Whoa, whoa! Slow down their Feyman. You're being a bit excessive with your pads. --mgmt";
+}
+
+
+#  =========================================================
+#  |   demotic_infernal_tab -- Parameters                  |
+#  =========================================================
+# 
+#  Returns SINGLE STRING; applies to entire tabfile (regardless of no. of CMs)
+#  ----------------------------------------------------------------------------
+#    $model_num     # number of CM's used in the search                               # check
+#    $command       # command line used to run search                                 # check
+#    $date          # date search was run                                             # check
+#    $db_recs       # number of records in target DB                                  # check
+#    $db_size       # DB size (in MB)                                                 # check
+#
+#  Returns LIST; 0th position in list corresponds to 1st CM in the tabfile 
+#        EX:  $cm_name[2]      # name of the CM query used in 3rd report
+#  ----------------------------------------------------------------------------
+#    @cm_name       # Covariation Model(s) name; 1st model is 0th in array            # check
+#    @time_expect   # expected run time (quoted, not converting into hr:min)          # check
+#    @time_actual   # actual run time   (quoted, not converting into hr:min)          # check
+#    @num_hits      # tracks number of hits for each model                            # check
+#
+#  Returns 2D ARRAY [i][j];
+#     "i" = list of CMs in report (as above); frequently only 1 report, or i=0
+#     "j" = list of _hits_ for each CM (0th -> 1st hit), in order appearing in report
+#        EX:  ${$GC[1]}->[3]   # GC value of 4th (3+1) hit in the 2nd (1+1) search 
+#  ----------------------------------------------------------------------------
+#    @t_name        # (2D); target fasta record name                                  # check
+#    @t_start       # (2D); start location in fasta target \___   For "-" ori hits,   # check
+#    @t_stop        # (2D); stop  location in fasta target /      t_start > t_stop    # check
+#    @q_start       # (2D); start location in CM query     \___   Regardless of ori,  # check
+#    @q_stop        # (2D); stop  location in CM query     /      q_start < q_stop    # check
+#    @bitscore      # (2D); bit score                                                 # check
+#    @Eval          # (2D); E-value  // can be in scientific notation                 # check
+#    @GC            # (2D); %GC                                                       # check
+#  =========================================================
+
+
+# Parse infernal 'tabfile'; possibly involving multiple query CMs
+die $USAGE unless (@ARGV == 1);
+my $tabfile = shift;
+open (TABFILE, "$tabfile") || die "Can't open $tabfile. You fuckin' wif me?"; 
+&demotic_infernal_tab::parse(\*TABFILE); 
+close TABFILE;
+
+$CMs  = $demotic_infernal_tab::model_num;                  # number of query CMs
+
+# For all hits, for all CMs in tabfile report -> print in GFF2 formt if passes all cutoffs
+foreach my $rep_num (0..$CMs-1) {                          # looping over i CMs
+    $hits = $demotic_infernal_tab::num_hits[$rep_num]; 
+    foreach my $hit_num (0..$hits-1) {                     # looping over j hits from ith CM 
+	$pass_filter = &filter_hit($rep_num, $hit_num); 
+	if ($pass_filter) {
+	    if ($pass_filter) {
+		&print_GFF2 ($rep_num, $hit_num);
+	    }
+	    else  {  next;  } 
+	}
+    }
+}
+
+
+############# Validation -- Make sure I'm parsing hit list for all CMs properly  #############
+if ($opt_b) {      # Thouroughly embarassing parse dump, for manual validation // not complete
+    foreach my $rep (0..($CMs-1)) {
+	my $name = $demotic_infernal_tab::cm_name[$rep]; 
+	$hits = $demotic_infernal_tab::num_hits[$rep];
+	print "------------------------------------------------\n";
+	print "Model \#", ($rep+1), " ==> cm_name: [$name]  containing $hits hits\n"; 
+	print "------------------------------------------------\n";
+	foreach my $j (0..$hits-1) { # looping over all hits for that CM
+	    my $contig  = $demotic_infernal_tab::t_name[$rep]->[$j];
+	    my $start_t = $demotic_infernal_tab::t_start[$rep]->[$j];
+	    my $stop_t  = $demotic_infernal_tab::t_stop[$rep]->[$j];
+	    my $start_q = $demotic_infernal_tab::q_start[$rep]->[$j];
+	    my $stop_q  = $demotic_infernal_tab::q_stop[$rep]->[$j]; 
+	    my $score   = $demotic_infernal_tab::bitscore[$rep]->[$j]; 
+	    my $e_val   = $demotic_infernal_tab::Eval[$rep]->[$j]; 
+	    my $gc      = $demotic_infernal_tab::GC[$rep]->[$j]; 
+	    print "#", ($j+1), ": ",  $contig, 
+	          "  Tar:S-E: ",      $start_t, "-", $stop_t, 
+	          "  Que:S-E: ",      $start_q, "-", $stop_q, 
+	          "  Score: ",        $score, 
+	          "  E-val: ",        $e_val, 
+	          "  %GC: ",          $gc, 
+	          "\n";
+	}
+    }
+}
+
+################# Subroutines  ######################
+
+sub filter_hit {
+# INPUT:  Index to _i_th CM in tabfile, _j_th hit for given CM
+# OUTPUT: 1 if hit passes command line criteria, 0 if it fails the filter
+    my $CM_i   = shift;
+    my $hit_j  = shift; 
+    my $evalue = $demotic_infernal_tab::Eval[$CM_i]->[$hit_j];
+    my $score  = $demotic_infernal_tab::bitscore[$CM_i]->[$hit_j];
+    my $gc     = $demotic_infernal_tab::GC[$CM_i]->[$hit_j];
+    my $begin  = $demotic_infernal_tab::t_start[$CM_i]->[$hit_j];
+    my $end    = $demotic_infernal_tab::t_stop[$CM_i]->[$hit_j];
+    my $len    = 0;
+    if ($begin < $end ) {  $len = $end   - $begin + 1;  }
+    else                {  $len = $begin - $end   + 1;  }
+    if (($evalue <= $Eval_cutoff) && 
+        ($score  >= $score_cutoff) && 
+        ($gc     >= $GC_cutoff) && 
+        ($len    >= $len_cutoff)) {
+	return 1;   # passes all cutoff criteria
+    }
+    else {
+	return 0;   # does not pass all cutoff criteria
+    }
+}
+
+sub print_GFF2 {
+# INPUT:  Index to _i_th CM in tabfile, _j_th hit for given CM
+#         e.g. $demotic_infernal_tab::foo[$i]->[$j]
+# OUTPUT: Infernal hit in GFF2 format (see following)
+# contig    method   type     start     end      score    ori    frame   gene "genename"; note "blah blah"
+# $ctg      $method  $type    $GFFstart $GFFstop $score   $ori   $frame  $gene            $note
+
+    my $CM_i   = shift;
+    my $hit_j  = shift; 
+    my $ctg    = $demotic_infernal_tab::t_name[$CM_i]->[$hit_j];
+    my $start  = $demotic_infernal_tab::t_start[$CM_i]->[$hit_j];
+    my $stop   = $demotic_infernal_tab::t_stop[$CM_i]->[$hit_j];
+    my $score  = $demotic_infernal_tab::bitscore[$CM_i]->[$hit_j];
+    my $frame  = ".";  # used only for CDS
+    my $ori    = "";
+    my $gene   = "gene \"$demotic_infernal_tab::cm_name[$CM_i]\"";     # default
+    my $method = "Infernal";                                           # default
+    my $type   = "Infernal_hit";                                       # default
+    my $note   = "";                                                   # default
+    my $GFFstart = 0;
+    my $GFFstop  = 0;
+    my $over     = 0;
+    if ($opt_g) {  $gene = "gene \"$opt_g\"";  }                       # change default?
+    if ($opt_m) {  $method = "$opt_m";  }                              # change default?
+    if ($opt_t) {  $type = "$opt_t";   }                               # change default?
+    if ($opt_n) {  $note = "; note \"$opt_n\"";  }                     # change default?
+# Note: Unlike blastn, target start/stop dictates ori; while query_start is always <= query_stop.
+###########################################
+#      ========>>>>>>>>>>>>>=========
+#              |           |
+#     (target) start       stop  
+###########################################
+    if ($start <= $stop ) {             
+	$ori = "+";                     
+	$GFFstart = $start - $up_pad;   
+	if ($GFFstart < 1) {
+	    $over = ($GFFstart * -1) + 1;  # distance beyond 5' end of contig
+	    $GFFstart = 1;
+	    warn "(${ctg}:${start}-${stop}) couldn't be padded the full $up_pad NTs! START set to 1.";
+	    print "\# For following hit; pad overshot $over NTs beyond 5' end of hit; START set to 1\n";
+	}
+	$GFFstop  = $stop  + $down_pad; # Can't warn against overpadding; I don't know end of ctg!
+	print ("$ctg\t$method\t$type\t$GFFstart\t$GFFstop\t$score\t$ori\t$frame\t${gene}$note\n");
+    }  
+###########################################
+#     ========<<<<<<<<<<<<<=========
+#             |           |      
+#    (target) stop        start
+###########################################
+    elsif ($start > $stop) {            
+	$ori = "-";                     
+	$GFFstart = $stop  - $down_pad; 
+	if ($GFFstart < 1) {
+	    $over = ($GFFstart * -1) + 1;  # distance beyond 5' end of contig
+	    $GFFstart = 1;
+	    warn "(${ctg}:${start}-${stop}) couldn't be padded the full $up_pad NTs! START set to 1.";
+	    print "\# For following hit; pad overshot $over NTs beyond 3' end of hit; START set to 1\n";
+	}
+	$GFFstop  = $start + $up_pad;   # Can't warn against overpadding; I don't know end of ctg!
+	print ("$ctg\t$method\t$type\t$GFFstart\t$GFFstop\t$score\t$ori\t$frame\t${gene}$note\n");
+    }
+    if ($GFFstart > $GFFstop) {     # meager error checking...
+	die "Illegal GFF coords: GFFstart ($GFFstart) > GFFstop ($GFFstop)\n!"; 
+    }
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/fasta-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/fasta-profmark.out
new file mode 100755
index 0000000..4c1656c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/fasta-profmark.out
@@ -0,0 +1,180 @@
+2e-70	265.5	sp|P55685|Y4WG_RHISN	sp|P55685|Y4WG_RHISN
+3.6	33.0	sp|Q7SY73|ABH6B_XENLA	sp|P55685|Y4WG_RHISN
+2.8e-111	403.1	sp|Q1XGE2|HAC1_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+7e-84	312.1	sp|Q8TFU8|HAC1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+1.6e-13	78.7	sp|Q8TFF3|HAC1_TRIRE	sp|Q1XGE2|HAC1_ASPOR
+9.7e-06	52.0	sp|P41546|HAC1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+4.5e-05	49.2	sp|O24646|HY5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.0013	45.1	sp|Q3SZZ2|XBP1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0015	45.8	sp|A1L224|CR3L2_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0022	45.6	sp|Q54WN7|BZPF_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0026	43.3	sp|Q9SM50|HY5_SOLLC	sp|Q1XGE2|HAC1_ASPOR
+0.0062	43.8	sp|Q66HA2|CR3L1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0079	43.4	sp|Q9Z125|CR3L1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.01	43.1	sp|Q96BA8|CR3L1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.013	43.9	sp|A3LYI0|NST1_PICST	sp|Q1XGE2|HAC1_ASPOR
+0.016	42.4	sp|A2VD01|CR3L2_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.018	41.9	sp|Q08CW8|CR3L4_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.018	42.2	sp|Q70SY1|CR3L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.018	42.2	sp|Q5RCM9|CR3L2_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.026	41.7	sp|Q8BH52|CR3L2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.029	40.6	sp|P17861|XBP1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.031	40.8	sp|P13346|FOSB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.056	38.8	sp|Q8W191|HYH_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.064	39.8	sp|P53539|FOSB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.069	40.3	sp|Q6QDP7|CR3L2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.08	39.9	sp|Q3SYZ3|CR3L3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.091	39.3	sp|Q9TUB3|FOSB_CANFA	sp|Q1XGE2|HAC1_ASPOR
+0.11	39.1	sp|Q06507|ATF4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.13	39.2	sp|Q5FVM5|CR3L3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.16	38.4	sp|Q90370|MAFB_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.16	38.4	sp|Q90888|MAFB_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.2	38.3	sp|O97930|FOS_PIG	sp|Q1XGE2|HAC1_ASPOR
+0.22	38.5	sp|Q91XE9|CR3L3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.22	38.1	sp|P18848|ATF4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.23	38.1	sp|O88479|FOS_MESAU	sp|Q1XGE2|HAC1_ASPOR
+0.26	37.9	sp|P01101|FOS_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.27	38.2	sp|Q68CJ9|CR3L3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.27	37.9	sp|Q8TEY5|CR3L4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.27	37.9	sp|Q99090|CPRF2_PETCR	sp|Q1XGE2|HAC1_ASPOR
+0.28	38.2	sp|Q5R9C9|ATF7_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.28	38.2	sp|P17544|ATF7_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.3	37.8	sp|Q5UEM8|CR3L4_MACFA	sp|Q1XGE2|HAC1_ASPOR
+0.37	37.2	sp|Q9Y5Q3|MAFB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.37	37.4	sp|P01102|FOS_MSVFB	sp|Q1XGE2|HAC1_ASPOR
+0.38	37.2	sp|P51145|FOSL2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.4	38.4	sp|Q9UQ88|CD11A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.41	38.4	sp|Q9WVS8|MK07_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.41	37.4	sp|Q502F0|CR3LA_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.42	37.0	sp|P15408|FOSL2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.45	37.3	sp|Q8R0S1|ATF7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.47	37.5	sp|P29747|CREBA_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.47	36.8	sp|Q2PFS4|MAFB_MACFA	sp|Q1XGE2|HAC1_ASPOR
+0.52	36.4	sp|Q9R1S4|XBP1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.53	36.6	sp|P54842|MAFB_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.54	36.7	sp|P47930|FOSL2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.55	38.0	sp|Q2VZV0|IF2_MAGSA	sp|Q1XGE2|HAC1_ASPOR
+0.55	36.4	sp|Q0CEI3|KAPC_ASPTN	sp|Q1XGE2|HAC1_ASPOR
+0.56	36.9	sp|Q61817|CREB3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.56	36.7	sp|Q9ES19|ATF4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.6	36.5	sp|P54841|MAFB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.6	36.7	sp|O77628|FOS_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.62	36.3	sp|A1C9M5|KAPC_ASPCL	sp|Q1XGE2|HAC1_ASPOR
+0.67	36.3	sp|Q504L8|MAFB_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.7	36.1	sp|O57342|MAFA_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.72	36.3	sp|Q3ZCH6|ATF4_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.75	36.3	sp|Q5UEM7|CR3L4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.77	36.4	sp|P12841|FOS_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.77	34.7	sp|Q16520|BATF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.84	35.7	sp|O35426|XBP1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.86	36.2	sp|P01100|FOS_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.93	36.0	sp|Q8K1L0|CREB5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.95	37.9	sp|A4R2R1|NST1_MAGGR	sp|Q1XGE2|HAC1_ASPOR
+0.96	36.0	sp|Q9D2A5|CR3L4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.98	36.0	sp|Q8HZP6|FOS_FELCA	sp|Q1XGE2|HAC1_ASPOR
+1.1	34.2	sp|Q9NR55|BATF3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.2	36.1	sp|Q02930|CREB5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.2	35.4	sp|P42774|GBF1_ARATH	sp|Q1XGE2|HAC1_ASPOR
+1.3	35.2	sp|A2R346|KAPC_ASPNC	sp|Q1XGE2|HAC1_ASPOR
+1.3	35.2	sp|O42290|MAFA_CHICK	sp|Q1XGE2|HAC1_ASPOR
+1.3	35.7	sp|O43889|CREB3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.4	37.1	sp|O60841|IF2P_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.5	36.7	sp|Q5KGK5|EIF3A_CRYNE	sp|Q1XGE2|HAC1_ASPOR
+1.7	33.5	sp|Q9D275|BATF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.7	35.4	sp|Q1LYG4|CR3LB_DANRE	sp|Q1XGE2|HAC1_ASPOR
+1.7	34.9	sp|Q6DE84|MAFB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+1.7	37.7	sp|Q7TSC1|BAT2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.7	36.1	sp|Q99941|ATF6B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.8	36.3	sp|Q54Y73|BZPD_DICDI	sp|Q1XGE2|HAC1_ASPOR
+1.8	34.9	sp|P18625|FOSL2_CHICK	sp|Q1XGE2|HAC1_ASPOR
+1.8	35.1	sp|Q56TN0|FOS_PHORO	sp|Q1XGE2|HAC1_ASPOR
+1.8	33.5	sp|O35284|BATF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.9	34.7	sp|Q16534|HLF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.9	34.7	sp|Q8BW74|HLF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.9	35.2	sp|Q63ZM7|STABP_XENLA	sp|Q1XGE2|HAC1_ASPOR
+2.1	35.2	sp|P29681|IMPE2_DROME	sp|Q1XGE2|HAC1_ASPOR
+2.2	35.7	sp|O35451|ATF6B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2.3	33.6	sp|Q09926|PCR1_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+2.3	36.0	sp|O13024|INCEA_XENLA	sp|Q1XGE2|HAC1_ASPOR
+2.3	36.0	sp|A0JMT0|CA1AB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+2.3	36.4	sp|Q5RDE1|IF2P_PONAB	sp|Q1XGE2|HAC1_ASPOR
+2.3	34.4	sp|Q4U1U2|MAFA_XENTR	sp|Q1XGE2|HAC1_ASPOR
+2.4	34.4	sp|Q64709|HLF_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.4	34.8	sp|Q54NF3|Y6434_DICDI	sp|Q1XGE2|HAC1_ASPOR
+2.5	35.1	sp|P15336|ATF2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+2.5	36.2	sp|Q553B1|DDX46_DICDI	sp|Q1XGE2|HAC1_ASPOR
+2.8	37.0	sp|P48634|BAT2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+2.8	37.0	sp|Q5TM26|BAT2_MACMU	sp|Q1XGE2|HAC1_ASPOR
+2.9	34.2	sp|A3BYC1|HOX25_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+3.1	34.7	sp|P16951|ATF2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.1	35.4	sp|Q96RN5|MED15_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.3	33.8	sp|Q2UNX4|KAPC_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+3.5	36.6	sp|Q80U35|ARHGH_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.5	35.2	sp|P0C865|MK07_RAT	sp|Q1XGE2|HAC1_ASPOR
+3.5	32.9	sp|P97875|JDP2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.5	32.9	sp|Q78E65|JDP2_RAT	sp|Q1XGE2|HAC1_ASPOR
+3.6	34.1	sp|Q8SQ19|CREB3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+3.6	33.6	sp|P48755|FOSL1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.7	35.3	sp|A2AJI0|MA7D1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.7	34.6	sp|Q00312|RBF1_CANAL	sp|Q1XGE2|HAC1_ASPOR
+3.7	35.7	sp|O35413|SRBS2_RAT	sp|Q1XGE2|HAC1_ASPOR
+3.9	32.5	sp|P97876|BATF3_RAT	sp|Q1XGE2|HAC1_ASPOR
+3.9	34.4	sp|O93602|ATF2_CHICK	sp|Q1XGE2|HAC1_ASPOR
+3.9	35.3	sp|Q5F489|TAF3_CHICK	sp|Q1XGE2|HAC1_ASPOR
+4.3	35.1	sp|Q6CBW0|NST1_YARLI	sp|Q1XGE2|HAC1_ASPOR
+4.3	35.6	sp|Q9CXK9|RBM33_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+4.4	34.9	sp|Q554P0|BZPJ_DICDI	sp|Q1XGE2|HAC1_ASPOR
+4.4	35.1	sp|Q55EQ3|Y9086_DICDI	sp|Q1XGE2|HAC1_ASPOR
+4.7	35.8	sp|O75037|KI21B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.8	34.5	sp|O14273|YET4_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+4.8	34.5	sp|P19880|YAP1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+5.1	34.5	sp|Q6IPM2|IQCE_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.3	33.4	sp|Q98UK4|MAF_DANRE	sp|Q1XGE2|HAC1_ASPOR
+5.3	35.4	sp|Q556Q3|IRLF_DICDI	sp|Q1XGE2|HAC1_ASPOR
+5.4	32.9	sp|P14233|TGA1B_TOBAC	sp|Q1XGE2|HAC1_ASPOR
+5.4	35.0	sp|Q8CH25|SLTM_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+5.4	33.8	sp|O81025|P2A03_ARATH	sp|Q1XGE2|HAC1_ASPOR
+5.4	33.4	sp|P20226|TBP_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.5	35.5	sp|Q4WG58|PAN1_ASPFU	sp|Q1XGE2|HAC1_ASPOR
+5.5	35.5	sp|B0YC95|PAN1_ASPFC	sp|Q1XGE2|HAC1_ASPOR
+5.6	33.9	sp|Q00969|ATF2_RAT	sp|Q1XGE2|HAC1_ASPOR
+5.7	34.1	sp|Q8N8S7|ENAH_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.8	35.9	sp|Q6MG48|BAT2_RAT	sp|Q1XGE2|HAC1_ASPOR
+5.9	33.0	sp|P0C5H8|KAPC_EMENI	sp|Q1XGE2|HAC1_ASPOR
+6	33.7	sp|Q9M7Q3|AI5L6_ARATH	sp|Q1XGE2|HAC1_ASPOR
+6	34.8	sp|Q6P9R4|ARHGI_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+6.1	34.8	sp|Q9NWH9|SLTM_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.3	34.6	sp|O60308|K0562_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.4	32.8	sp|A2Z0Q0|HOX25_ORYSI	sp|Q1XGE2|HAC1_ASPOR
+6.4	35.1	sp|Q6Y7W6|PERQ2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.7	32.8	sp|Q4WA21|KAPC_ASPFU	sp|Q1XGE2|HAC1_ASPOR
+6.9	35.3	sp|Q9QXL1|KI21B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.2	34.2	sp|P21127|CD11B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+7.2	33.0	sp|Q789F3|MAF_CHICK	sp|Q1XGE2|HAC1_ASPOR
+7.3	34.4	sp|Q6A000|K0753_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.4	33.1	sp|P23091|MAF_AVIS4	sp|Q1XGE2|HAC1_ASPOR
+7.4	33.8	sp|Q5RCJ1|CIP4_PONAB	sp|Q1XGE2|HAC1_ASPOR
+7.5	32.8	sp|P23050|FOS_AVINK	sp|Q1XGE2|HAC1_ASPOR
+7.5	34.5	sp|Q80YR5|SAFB2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.5	34.7	sp|Q6ZSZ5|ARHGI_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+7.7	32.6	sp|O70191|ATF5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.9	34.9	sp|A6NC98|CC88B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+8	33.6	sp|B0WYY2|MOEH_CULQU	sp|Q1XGE2|HAC1_ASPOR
+8.3	32.9	sp|P11939|FOS_CHICK	sp|Q1XGE2|HAC1_ASPOR
+8.4	33.1	sp|Q9XUS2|MED29_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+8.6	32.4	sp|A1D9Z7|KAPC_NEOFI	sp|Q1XGE2|HAC1_ASPOR
+8.7	32.2	sp|P29176|FOSX_MSVFR	sp|Q1XGE2|HAC1_ASPOR
+8.7	32.9	sp|Q09458|YQ37_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+9	32.7	sp|P23922|HBP1A_WHEAT	sp|Q1XGE2|HAC1_ASPOR
+9	34.1	sp|Q5R452|SAFB1_PONAB	sp|Q1XGE2|HAC1_ASPOR
+9	32.2	sp|O02756|CEBPD_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+9.2	33.9	sp|Q03173|ENAH_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+9.4	32.7	sp|P54843|MAF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+9.4	32.2	sp|P49716|CEBPD_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+9.4	33.4	sp|Q15642|CIP4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+9.4	32.7	sp|Q54RZ9|BZPG_DICDI	sp|Q1XGE2|HAC1_ASPOR
+9.6	34.3	sp|Q5AXH3|TOF1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+9.6	34.1	sp|Q498L2|SLTM_XENLA	sp|Q1XGE2|HAC1_ASPOR
+9.6	34.6	sp|P0CB49|YLPM1_RAT	sp|Q1XGE2|HAC1_ASPOR
+9.7	32.5	sp|Q39140|TGA6_ARATH	sp|Q1XGE2|HAC1_ASPOR
+10	33.4	sp|Q8N9W4|GG6L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/fasta-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/fasta-tbl.out
new file mode 100755
index 0000000..8aa88fd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/fasta-tbl.out
@@ -0,0 +1,180 @@
+2e-70	100	1	181	sp|P55685|Y4WG_RHISN	1	181	sp|P55685|Y4WG_RHISN	Uncharacterized protein y4wG OS=R 
+3.6	24	41	164	sp|P55685|Y4WG_RHISN	65	189	sp|Q7SY73|ABH6B_XENLA	Monoacylglycerol lipase abhd6-B  
+2.8e-111	100	1	345	sp|Q1XGE2|HAC1_ASPOR	1	345	sp|Q1XGE2|HAC1_ASPOR	Transcriptional activator hacA OS 
+7e-84	78	13	344	sp|Q1XGE2|HAC1_ASPOR	18	348	sp|Q8TFU8|HAC1_EMENI	Transcriptional activator hacA OS 
+1.3e-14	31	7	344	sp|Q1XGE2|HAC1_ASPOR	43	450	sp|Q8TFF3|HAC1_TRIRE	Transcriptional activator hac1 OS 
+1.3e-06	32	63	270	sp|Q1XGE2|HAC1_ASPOR	16	216	sp|P41546|HAC1_YEAST	Transcriptional activator HAC1 OS 
+4.5e-05	31	6	167	sp|Q1XGE2|HAC1_ASPOR	3	167	sp|O24646|HY5_ARATH	Transcription factor HY5 OS=Arabid 
+0.0013	29	16	206	sp|Q1XGE2|HAC1_ASPOR	10	196	sp|Q3SZZ2|XBP1_BOVIN	X-box-binding protein 1 OS=Bos ta 
+0.0015	32	4	152	sp|Q1XGE2|HAC1_ASPOR	210	360	sp|A1L224|CR3L2_DANRE	Cyclic AMP-responsive element-bi 
+0.0022	24	46	270	sp|Q1XGE2|HAC1_ASPOR	363	593	sp|Q54WN7|BZPF_DICDI	Probable basic-leucine zipper tra 
+0.0026	36	60	154	sp|Q1XGE2|HAC1_ASPOR	66	157	sp|Q9SM50|HY5_SOLLC	Transcription factor HY5 OS=Solanu 
+0.0062	25	4	290	sp|Q1XGE2|HAC1_ASPOR	214	499	sp|Q66HA2|CR3L1_RAT	Cyclic AMP-responsive element-bind 
+0.0079	26	4	232	sp|Q1XGE2|HAC1_ASPOR	215	445	sp|Q9Z125|CR3L1_MOUSE	Cyclic AMP-responsive element-bi 
+0.01	26	4	232	sp|Q1XGE2|HAC1_ASPOR	215	445	sp|Q96BA8|CR3L1_HUMAN	Cyclic AMP-responsive element-bi 
+0.004	26	41	332	sp|Q1XGE2|HAC1_ASPOR	727	1001	sp|A3LYI0|NST1_PICST	Stress response protein NST1 OS=P 
+0.016	31	4	152	sp|Q1XGE2|HAC1_ASPOR	218	368	sp|A2VD01|CR3L2_XENLA	Cyclic AMP-responsive element-bi 
+0.018	26	24	200	sp|Q1XGE2|HAC1_ASPOR	160	330	sp|Q08CW8|CR3L4_XENTR	Cyclic AMP-responsive element-bi 
+0.01	23	14	297	sp|Q1XGE2|HAC1_ASPOR	228	517	sp|Q70SY1|CR3L2_HUMAN	Cyclic AMP-responsive element-bi 
+0.013	23	14	297	sp|Q1XGE2|HAC1_ASPOR	228	517	sp|Q5RCM9|CR3L2_PONAB	Cyclic AMP-responsive element-bi 
+0.0021	24	18	297	sp|Q1XGE2|HAC1_ASPOR	234	518	sp|Q8BH52|CR3L2_MOUSE	Cyclic AMP-responsive element-bi 
+0.0011	28	16	187	sp|Q1XGE2|HAC1_ASPOR	10	186	sp|P17861|XBP1_HUMAN	X-box-binding protein 1 OS=Homo s 
+0.031	25	9	222	sp|Q1XGE2|HAC1_ASPOR	76	290	sp|P13346|FOSB_MOUSE	Protein fosB OS=Mus musculus GN=F 
+0.056	35	73	143	sp|Q1XGE2|HAC1_ASPOR	68	138	sp|Q8W191|HYH_ARATH	Transcription factor HY5-like OS=A 
+0.064	25	9	222	sp|Q1XGE2|HAC1_ASPOR	76	290	sp|P53539|FOSB_HUMAN	Protein fosB OS=Homo sapiens GN=F 
+0.018	23	18	297	sp|Q1XGE2|HAC1_ASPOR	234	518	sp|Q6QDP7|CR3L2_RAT	Cyclic AMP-responsive element-bind 
+0.0081	26	48	275	sp|Q1XGE2|HAC1_ASPOR	213	434	sp|Q3SYZ3|CR3L3_BOVIN	Cyclic AMP-responsive element-bi 
+0.091	28	72	237	sp|Q1XGE2|HAC1_ASPOR	145	332	sp|Q9TUB3|FOSB_CANFA	Protein fosB OS=Canis familiaris  
+0.11	28	18	160	sp|Q1XGE2|HAC1_ASPOR	212	349	sp|Q06507|ATF4_MOUSE	Cyclic AMP-dependent transcriptio 
+0.045	26	48	284	sp|Q1XGE2|HAC1_ASPOR	214	438	sp|Q5FVM5|CR3L3_RAT	Cyclic AMP-responsive element-bind 
+0.16	27	29	163	sp|Q1XGE2|HAC1_ASPOR	171	307	sp|Q90370|MAFB_COTJA	Transcription factor MafB OS=Cotu 
+0.16	27	29	163	sp|Q1XGE2|HAC1_ASPOR	171	307	sp|Q90888|MAFB_CHICK	Transcription factor MafB OS=Gall 
+0.1	28	9	237	sp|Q1XGE2|HAC1_ASPOR	55	297	sp|O97930|FOS_PIG	Proto-oncogene c-Fos OS=Sus scrofa G 
+0.073	27	48	258	sp|Q1XGE2|HAC1_ASPOR	214	432	sp|Q91XE9|CR3L3_MOUSE	Cyclic AMP-responsive element-bi 
+0.22	31	66	160	sp|Q1XGE2|HAC1_ASPOR	258	351	sp|P18848|ATF4_HUMAN	Cyclic AMP-dependent transcriptio 
+0.23	25	2	237	sp|Q1XGE2|HAC1_ASPOR	57	298	sp|O88479|FOS_MESAU	Proto-oncogene c-Fos OS=Mesocricet 
+0.26	25	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|P01101|FOS_MOUSE	Proto-oncogene c-Fos OS=Mus muscul 
+0.16	26	48	236	sp|Q1XGE2|HAC1_ASPOR	218	404	sp|Q68CJ9|CR3L3_HUMAN	Cyclic AMP-responsive element-bi 
+0.27	29	54	199	sp|Q1XGE2|HAC1_ASPOR	192	329	sp|Q8TEY5|CR3L4_HUMAN	Cyclic AMP-responsive element-bi 
+0.27	28	80	198	sp|Q1XGE2|HAC1_ASPOR	195	312	sp|Q99090|CPRF2_PETCR	Light-inducible protein CPRF2 OS 
+0.28	26	26	168	sp|Q1XGE2|HAC1_ASPOR	277	424	sp|Q5R9C9|ATF7_PONAB	Cyclic AMP-dependent transcriptio 
+0.28	26	26	168	sp|Q1XGE2|HAC1_ASPOR	288	435	sp|P17544|ATF7_HUMAN	Cyclic AMP-dependent transcriptio 
+0.3	29	54	199	sp|Q1XGE2|HAC1_ASPOR	192	329	sp|Q5UEM8|CR3L4_MACFA	Cyclic AMP-responsive element-bi 
+0.37	28	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|Q9Y5Q3|MAFB_HUMAN	Transcription factor MafB OS=Homo 
+0.37	25	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|P01102|FOS_MSVFB	p55-v-Fos-transforming protein OS= 
+0.38	23	12	216	sp|Q1XGE2|HAC1_ASPOR	38	261	sp|P51145|FOSL2_RAT	Fos-related antigen 2 OS=Rattus no 
+0.4	28	42	208	sp|Q1XGE2|HAC1_ASPOR	92	255	sp|Q9UQ88|CD11A_HUMAN	Cell division protein kinase 11A 
+0.075	27	3	236	sp|Q1XGE2|HAC1_ASPOR	429	680	sp|Q9WVS8|MK07_MOUSE	Mitogen-activated protein kinase  
+0.41	26	8	199	sp|Q1XGE2|HAC1_ASPOR	138	322	sp|Q502F0|CR3LA_DANRE	Cyclic AMP-responsive element-bi 
+0.42	24	4	222	sp|Q1XGE2|HAC1_ASPOR	39	253	sp|P15408|FOSL2_HUMAN	Fos-related antigen 2 OS=Homo sa 
+0.45	27	26	143	sp|Q1XGE2|HAC1_ASPOR	277	392	sp|Q8R0S1|ATF7_MOUSE	Cyclic AMP-dependent transcriptio 
+0.47	30	8	150	sp|Q1XGE2|HAC1_ASPOR	370	508	sp|P29747|CREBA_DROME	Cyclic AMP response element-bind 
+0.47	28	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|Q2PFS4|MAFB_MACFA	Transcription factor MafB OS=Maca 
+0.41	27	51	190	sp|Q1XGE2|HAC1_ASPOR	23	183	sp|Q9R1S4|XBP1_RAT	X-box-binding protein 1 OS=Rattus n 
+0.53	27	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|P54842|MAFB_RAT	Transcription factor MafB OS=Rattus 
+0.54	24	4	216	sp|Q1XGE2|HAC1_ASPOR	39	260	sp|P47930|FOSL2_MOUSE	Fos-related antigen 2 OS=Mus mus 
+0.55	33	16	119	sp|Q1XGE2|HAC1_ASPOR	188	291	sp|Q2VZV0|IF2_MAGSA	Translation initiation factor IF-2 
+0.55	23	14	223	sp|Q1XGE2|HAC1_ASPOR	37	240	sp|Q0CEI3|KAPC_ASPTN	Putative transcription factor kap 
+0.017	26	1	207	sp|Q1XGE2|HAC1_ASPOR	107	318	sp|Q61817|CREB3_MOUSE	Cyclic AMP-responsive element-bi 
+0.56	30	66	160	sp|Q1XGE2|HAC1_ASPOR	255	347	sp|Q9ES19|ATF4_RAT	Cyclic AMP-dependent transcription  
+0.6	27	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|P54841|MAFB_MOUSE	Transcription factor MafB OS=Mus  
+0.6	24	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|O77628|FOS_BOVIN	Proto-oncogene c-Fos OS=Bos taurus 
+0.62	20	66	223	sp|Q1XGE2|HAC1_ASPOR	83	237	sp|A1C9M5|KAPC_ASPCL	Putative transcription factor kap 
+0.67	26	29	163	sp|Q1XGE2|HAC1_ASPOR	176	312	sp|Q504L8|MAFB_XENTR	Transcription factor MafB OS=Xeno 
+0.7	34	83	167	sp|Q1XGE2|HAC1_ASPOR	201	281	sp|O57342|MAFA_COTJA	Transcription factor MafA OS=Cotu 
+0.72	27	19	154	sp|Q1XGE2|HAC1_ASPOR	210	342	sp|Q3ZCH6|ATF4_BOVIN	Cyclic AMP-dependent transcriptio 
+0.75	33	60	146	sp|Q1XGE2|HAC1_ASPOR	170	252	sp|Q5UEM7|CR3L4_RAT	Cyclic AMP-responsive element-bind 
+0.68	27	8	237	sp|Q1XGE2|HAC1_ASPOR	54	297	sp|P12841|FOS_RAT	Proto-oncogene c-Fos OS=Rattus norve 
+0.69	28	71	172	sp|Q1XGE2|HAC1_ASPOR	17	125	sp|Q16520|BATF_HUMAN	Basic leucine zipper transcriptio 
+0.59	27	51	190	sp|Q1XGE2|HAC1_ASPOR	23	183	sp|O35426|XBP1_MOUSE	X-box-binding protein 1 OS=Mus mu 
+0.33	28	9	237	sp|Q1XGE2|HAC1_ASPOR	55	297	sp|P01100|FOS_HUMAN	Proto-oncogene c-Fos OS=Homo sapie 
+0.93	27	52	168	sp|Q1XGE2|HAC1_ASPOR	194	315	sp|Q8K1L0|CREB5_MOUSE	Cyclic AMP-responsive element-bi 
+0.14	22	43	227	sp|Q1XGE2|HAC1_ASPOR	675	868	sp|A4R2R1|NST1_MAGGR	Stress response protein NST1 OS=M 
+0.2	29	18	146	sp|Q1XGE2|HAC1_ASPOR	119	256	sp|Q9D2A5|CR3L4_MOUSE	Cyclic AMP-responsive element-bi 
+0.68	26	9	237	sp|Q1XGE2|HAC1_ASPOR	55	298	sp|Q8HZP6|FOS_FELCA	Proto-oncogene c-Fos OS=Felis catu 
+1.1	28	69	145	sp|Q1XGE2|HAC1_ASPOR	21	97	sp|Q9NR55|BATF3_HUMAN	Basic leucine zipper transcripti 
+1.2	27	52	168	sp|Q1XGE2|HAC1_ASPOR	345	466	sp|Q02930|CREB5_HUMAN	Cyclic AMP-responsive element-bi 
+1.2	30	31	149	sp|Q1XGE2|HAC1_ASPOR	176	296	sp|P42774|GBF1_ARATH	G-box-binding factor 1 OS=Arabido 
+0.48	22	16	223	sp|Q1XGE2|HAC1_ASPOR	44	236	sp|A2R346|KAPC_ASPNC	Putative transcription factor kap 
+1.3	33	85	167	sp|Q1XGE2|HAC1_ASPOR	201	281	sp|O42290|MAFA_CHICK	Transcription factor MafA OS=Gall 
+1.3	30	63	185	sp|Q1XGE2|HAC1_ASPOR	159	282	sp|O43889|CREB3_HUMAN	Cyclic AMP-responsive element-bi 
+1.4	24	7	183	sp|Q1XGE2|HAC1_ASPOR	282	455	sp|O60841|IF2P_HUMAN	Eukaryotic translation initiation 
+1.1	30	48	230	sp|Q1XGE2|HAC1_ASPOR	735	930	sp|Q5KGK5|EIF3A_CRYNE	Eukaryotic translation initiatio 
+1.7	33	83	145	sp|Q1XGE2|HAC1_ASPOR	28	90	sp|Q9D275|BATF3_MOUSE	Basic leucine zipper transcripti 
+1.5	25	25	199	sp|Q1XGE2|HAC1_ASPOR	161	322	sp|Q1LYG4|CR3LB_DANRE	Cyclic AMP-responsive element-bi 
+1.7	26	29	163	sp|Q1XGE2|HAC1_ASPOR	171	309	sp|Q6DE84|MAFB_XENLA	Transcription factor MafB OS=Xeno 
+1.1	27	18	222	sp|Q1XGE2|HAC1_ASPOR	378	571	sp|Q7TSC1|BAT2_MOUSE	Large proline-rich protein BAT2 O 
+1.7	24	17	241	sp|Q1XGE2|HAC1_ASPOR	260	503	sp|Q99941|ATF6B_HUMAN	Cyclic AMP-dependent transcripti 
+1.8	26	10	157	sp|Q1XGE2|HAC1_ASPOR	315	458	sp|Q54Y73|BZPD_DICDI	Probable basic-leucine zipper tra 
+1.8	24	68	271	sp|Q1XGE2|HAC1_ASPOR	108	311	sp|P18625|FOSL2_CHICK	Fos-related antigen 2 OS=Gallus  
+1.4	23	2	291	sp|Q1XGE2|HAC1_ASPOR	57	353	sp|Q56TN0|FOS_PHORO	Proto-oncogene c-Fos OS=Phodopus r 
+1.8	28	71	160	sp|Q1XGE2|HAC1_ASPOR	17	103	sp|O35284|BATF_MOUSE	Basic leucine zipper transcriptio 
+1.9	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q16534|HLF_HUMAN	Hepatic leukemia factor OS=Homo sa 
+1.9	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q8BW74|HLF_MOUSE	Hepatic leukemia factor OS=Mus mus 
+0.51	29	39	210	sp|Q1XGE2|HAC1_ASPOR	79	238	sp|Q63ZM7|STABP_XENLA	STAM-binding protein-like OS=Xen 
+2.1	25	8	181	sp|Q1XGE2|HAC1_ASPOR	14	192	sp|P29681|IMPE2_DROME	20-hydroxyecdysone protein OS=Dr 
+1.7	23	16	241	sp|Q1XGE2|HAC1_ASPOR	259	500	sp|O35451|ATF6B_MOUSE	Cyclic AMP-dependent transcripti 
+0.23	25	74	223	sp|Q1XGE2|HAC1_ASPOR	4	163	sp|Q09926|PCR1_SCHPO	Transcription factor pcr1 OS=Schi 
+2.3	25	41	172	sp|Q1XGE2|HAC1_ASPOR	629	763	sp|O13024|INCEA_XENLA	Inner centromere protein A OS=Xe 
+2.1	22	8	210	sp|Q1XGE2|HAC1_ASPOR	234	432	sp|A0JMT0|CA1AB_XENLA	Chromatin assembly factor 1 subu 
+2.3	23	7	183	sp|Q1XGE2|HAC1_ASPOR	282	455	sp|Q5RDE1|IF2P_PONAB	Eukaryotic translation initiation 
+2.3	30	83	167	sp|Q1XGE2|HAC1_ASPOR	203	284	sp|Q4U1U2|MAFA_XENTR	Transcription factor MafA OS=Xeno 
+2.4	29	16	148	sp|Q1XGE2|HAC1_ASPOR	163	290	sp|Q64709|HLF_RAT	Hepatic leukemia factor OS=Rattus no 
+2.4	18	22	170	sp|Q1XGE2|HAC1_ASPOR	171	321	sp|Q54NF3|Y6434_DICDI	Uncharacterized protein DDB_G028 
+2.5	27	15	143	sp|Q1XGE2|HAC1_ASPOR	278	412	sp|P15336|ATF2_HUMAN	Cyclic AMP-dependent transcriptio 
+2.5	21	16	275	sp|Q1XGE2|HAC1_ASPOR	149	410	sp|Q553B1|DDX46_DICDI	ATP-dependent RNA helicase ddx46 
+2.8	27	18	228	sp|Q1XGE2|HAC1_ASPOR	380	575	sp|P48634|BAT2_HUMAN	Large proline-rich protein BAT2 O 
+2.8	25	18	251	sp|Q1XGE2|HAC1_ASPOR	380	589	sp|Q5TM26|BAT2_MACMU	Large proline-rich protein BAT2 O 
+2.9	23	24	294	sp|Q1XGE2|HAC1_ASPOR	48	314	sp|A3BYC1|HOX25_ORYSJ	Homeobox-leucine zipper protein  
+3.1	27	15	143	sp|Q1XGE2|HAC1_ASPOR	260	394	sp|P16951|ATF2_MOUSE	Cyclic AMP-dependent transcriptio 
+3.1	19	5	221	sp|Q1XGE2|HAC1_ASPOR	119	331	sp|Q96RN5|MED15_HUMAN	Mediator of RNA polymerase II tr 
+1.4	24	16	223	sp|Q1XGE2|HAC1_ASPOR	44	237	sp|Q2UNX4|KAPC_ASPOR	Putative transcription factor kap 
+3.5	24	19	214	sp|Q1XGE2|HAC1_ASPOR	838	1039	sp|Q80U35|ARHGH_MOUSE	Rho guanine nucleotide exchange  
+1.3	26	3	236	sp|Q1XGE2|HAC1_ASPOR	429	680	sp|P0C865|MK07_RAT	Mitogen-activated protein kinase 7  
+3.5	27	16	163	sp|Q1XGE2|HAC1_ASPOR	9	155	sp|P97875|JDP2_MOUSE	Jun dimerization protein 2 OS=Mus 
+3.5	27	16	163	sp|Q1XGE2|HAC1_ASPOR	9	155	sp|Q78E65|JDP2_RAT	Jun dimerization protein 2 OS=Rattu 
+0.59	25	20	221	sp|Q1XGE2|HAC1_ASPOR	105	301	sp|Q8SQ19|CREB3_BOVIN	Cyclic AMP-responsive element-bi 
+0.53	26	44	232	sp|Q1XGE2|HAC1_ASPOR	72	265	sp|P48755|FOSL1_MOUSE	Fos-related antigen 1 OS=Mus mus 
+3.7	24	4	149	sp|Q1XGE2|HAC1_ASPOR	527	669	sp|A2AJI0|MA7D1_MOUSE	MAP7 domain-containing protein 1 
+2.3	23	36	229	sp|Q1XGE2|HAC1_ASPOR	263	449	sp|Q00312|RBF1_CANAL	Transcription factor RBF1 OS=Cand 
+3.7	26	18	229	sp|Q1XGE2|HAC1_ASPOR	220	425	sp|O35413|SRBS2_RAT	Sorbin and SH3 domain-containing p 
+3.9	30	83	145	sp|Q1XGE2|HAC1_ASPOR	28	90	sp|P97876|BATF3_RAT	Basic leucine zipper transcription 
+2.4	25	13	143	sp|Q1XGE2|HAC1_ASPOR	275	394	sp|O93602|ATF2_CHICK	Cyclic AMP-dependent transcriptio 
+1.2	26	14	232	sp|Q1XGE2|HAC1_ASPOR	662	845	sp|Q5F489|TAF3_CHICK	Transcription initiation factor T 
+4.3	28	48	194	sp|Q1XGE2|HAC1_ASPOR	477	629	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Y 
+4.3	27	5	169	sp|Q1XGE2|HAC1_ASPOR	749	921	sp|Q9CXK9|RBM33_MOUSE	RNA-binding protein 33 OS=Mus mu 
+4.4	27	80	175	sp|Q1XGE2|HAC1_ASPOR	546	644	sp|Q554P0|BZPJ_DICDI	Probable basic-leucine zipper tra 
+4.4	27	18	154	sp|Q1XGE2|HAC1_ASPOR	283	415	sp|Q55EQ3|Y9086_DICDI	Uncharacterized abhydrolase doma 
+4.7	26	41	173	sp|Q1XGE2|HAC1_ASPOR	723	857	sp|O75037|KI21B_HUMAN	Kinesin-like protein KIF21B OS=H 
+4.8	22	26	217	sp|Q1XGE2|HAC1_ASPOR	1	186	sp|O14273|YET4_SCHPO	Meiotically up-regulated protein  
+4.8	23	28	297	sp|Q1XGE2|HAC1_ASPOR	13	259	sp|P19880|YAP1_YEAST	AP-1-like transcription factor YA 
+5.1	22	34	268	sp|Q1XGE2|HAC1_ASPOR	455	686	sp|Q6IPM2|IQCE_HUMAN	IQ domain-containing protein E OS 
+5.3	31	83	175	sp|Q1XGE2|HAC1_ASPOR	243	326	sp|Q98UK4|MAF_DANRE	Transcription factor Maf OS=Danio  
+5.3	17	6	186	sp|Q1XGE2|HAC1_ASPOR	661	844	sp|Q556Q3|IRLF_DICDI	Probable serine/threonine-protein 
+5.4	39	80	142	sp|Q1XGE2|HAC1_ASPOR	181	242	sp|P14233|TGA1B_TOBAC	TGACG-sequence-specific DNA-bind 
+5.4	35	73	153	sp|Q1XGE2|HAC1_ASPOR	644	724	sp|Q8CH25|SLTM_MOUSE	SAFB-like transcription modulator 
+5.4	29	4	149	sp|Q1XGE2|HAC1_ASPOR	135	280	sp|O81025|P2A03_ARATH	Putative protein PHLOEM PROTEIN  
+5.4	24	91	212	sp|Q1XGE2|HAC1_ASPOR	43	161	sp|P20226|TBP_HUMAN	TATA-box-binding protein OS=Homo s 
+5.5	23	38	257	sp|Q1XGE2|HAC1_ASPOR	1078	1294	sp|Q4WG58|PAN1_ASPFU	Actin cytoskeleton-regulatory com 
+5.5	23	38	257	sp|Q1XGE2|HAC1_ASPOR	1078	1294	sp|B0YC95|PAN1_ASPFC	Actin cytoskeleton-regulatory com 
+5.6	26	41	143	sp|Q1XGE2|HAC1_ASPOR	288	394	sp|Q00969|ATF2_RAT	Cyclic AMP-dependent transcription  
+2.2	31	35	142	sp|Q1XGE2|HAC1_ASPOR	111	219	sp|Q8N8S7|ENAH_HUMAN	Protein enabled homolog OS=Homo s 
+1.5	24	18	229	sp|Q1XGE2|HAC1_ASPOR	378	575	sp|Q6MG48|BAT2_RAT	Large proline-rich protein BAT2 OS= 
+0.42	22	17	274	sp|Q1XGE2|HAC1_ASPOR	49	268	sp|P0C5H8|KAPC_EMENI	Putative transcription factor kap 
+2	31	14	145	sp|Q1XGE2|HAC1_ASPOR	291	435	sp|Q9M7Q3|AI5L6_ARATH	ABSCISIC ACID-INSENSITIVE 5-like 
+0.99	24	9	250	sp|Q1XGE2|HAC1_ASPOR	628	858	sp|Q6P9R4|ARHGI_MOUSE	Rho guanine nucleotide exchange  
+6.1	35	73	153	sp|Q1XGE2|HAC1_ASPOR	645	725	sp|Q9NWH9|SLTM_HUMAN	SAFB-like transcription modulator 
+6.3	25	70	317	sp|Q1XGE2|HAC1_ASPOR	217	472	sp|O60308|K0562_HUMAN	Uncharacterized protein KIAA0562 
+6.4	24	53	294	sp|Q1XGE2|HAC1_ASPOR	21	254	sp|A2Z0Q0|HOX25_ORYSI	Homeobox-leucine zipper protein  
+5.7	31	48	180	sp|Q1XGE2|HAC1_ASPOR	825	957	sp|Q6Y7W6|PERQ2_HUMAN	PERQ amino acid-rich with GYF do 
+4.7	23	66	216	sp|Q1XGE2|HAC1_ASPOR	75	214	sp|Q4WA21|KAPC_ASPFU	Putative transcription factor kap 
+6.9	25	41	169	sp|Q1XGE2|HAC1_ASPOR	724	856	sp|Q9QXL1|KI21B_MOUSE	Kinesin-like protein KIF21B OS=M 
+7.2	27	41	208	sp|Q1XGE2|HAC1_ASPOR	96	272	sp|P21127|CD11B_HUMAN	Cell division protein kinase 11B 
+7.2	30	83	163	sp|Q1XGE2|HAC1_ASPOR	276	355	sp|Q789F3|MAF_CHICK	Transcription factor Maf OS=Gallus 
+7.3	25	39	269	sp|Q1XGE2|HAC1_ASPOR	542	766	sp|Q6A000|K0753_MOUSE	Uncharacterized protein KIAA0753 
+7.4	30	83	163	sp|Q1XGE2|HAC1_ASPOR	276	355	sp|P23091|MAF_AVIS4	Transforming protein Maf OS=Avian  
+1.1	25	29	186	sp|Q1XGE2|HAC1_ASPOR	294	463	sp|Q5RCJ1|CIP4_PONAB	Cdc42-interacting protein 4 OS=Po 
+7.5	22	2	291	sp|Q1XGE2|HAC1_ASPOR	12	294	sp|P23050|FOS_AVINK	p55-v-Fos-transforming protein OS= 
+2.3	26	5	245	sp|Q1XGE2|HAC1_ASPOR	610	858	sp|Q80YR5|SAFB2_MOUSE	Scaffold attachment factor B2 OS 
+7.5	25	80	267	sp|Q1XGE2|HAC1_ASPOR	851	1029	sp|Q6ZSZ5|ARHGI_HUMAN	Rho guanine nucleotide exchange  
+6.8	28	8	155	sp|Q1XGE2|HAC1_ASPOR	155	277	sp|O70191|ATF5_MOUSE	Cyclic AMP-dependent transcriptio 
+3	28	6	186	sp|Q1XGE2|HAC1_ASPOR	276	466	sp|A6NC98|CC88B_HUMAN	Coiled-coil domain-containing pr 
+8	23	36	151	sp|Q1XGE2|HAC1_ASPOR	294	411	sp|B0WYY2|MOEH_CULQU	Moesin/ezrin/radixin homolog 1 OS 
+8.3	22	2	291	sp|Q1XGE2|HAC1_ASPOR	57	339	sp|P11939|FOS_CHICK	Proto-oncogene c-Fos OS=Gallus gal 
+8.4	26	112	243	sp|Q1XGE2|HAC1_ASPOR	13	152	sp|Q9XUS2|MED29_CAEEL	Mediator of RNA polymerase II tr 
+5.3	23	66	223	sp|Q1XGE2|HAC1_ASPOR	75	231	sp|A1D9Z7|KAPC_NEOFI	Putative transcription factor kap 
+4.2	23	2	222	sp|Q1XGE2|HAC1_ASPOR	33	242	sp|P29176|FOSX_MSVFR	Transforming protein v-Fos/v-Fox  
+8.7	23	30	227	sp|Q1XGE2|HAC1_ASPOR	29	229	sp|Q09458|YQ37_CAEEL	Uncharacterized protein C09F5.7 O 
+9	29	59	150	sp|Q1XGE2|HAC1_ASPOR	223	319	sp|P23922|HBP1A_WHEAT	Transcription factor HBP-1a OS=T 
+6.3	26	23	143	sp|Q1XGE2|HAC1_ASPOR	572	699	sp|Q5R452|SAFB1_PONAB	Scaffold attachment factor B1 OS 
+5.6	26	19	163	sp|Q1XGE2|HAC1_ASPOR	119	245	sp|O02756|CEBPD_BOVIN	CCAAT/enhancer-binding protein d 
+9.2	25	9	254	sp|Q1XGE2|HAC1_ASPOR	105	350	sp|Q03173|ENAH_MOUSE	Protein enabled homolog OS=Mus mu 
+9.4	30	83	163	sp|Q1XGE2|HAC1_ASPOR	287	366	sp|P54843|MAF_MOUSE	Transcription factor Maf OS=Mus mu 
+9.4	25	19	163	sp|Q1XGE2|HAC1_ASPOR	131	258	sp|P49716|CEBPD_HUMAN	CCAAT/enhancer-binding protein d 
+1.4	22	29	272	sp|Q1XGE2|HAC1_ASPOR	294	542	sp|Q15642|CIP4_HUMAN	Cdc42-interacting protein 4 OS=Ho 
+9.4	32	80	146	sp|Q1XGE2|HAC1_ASPOR	274	340	sp|Q54RZ9|BZPG_DICDI	Probable basic-leucine zipper tra 
+5.2	25	48	270	sp|Q1XGE2|HAC1_ASPOR	936	1166	sp|Q5AXH3|TOF1_EMENI	Topoisomerase 1-associated factor 
+9.6	31	73	153	sp|Q1XGE2|HAC1_ASPOR	607	689	sp|Q498L2|SLTM_XENLA	SAFB-like transcription modulator 
+8.5	20	19	227	sp|Q1XGE2|HAC1_ASPOR	858	1076	sp|P0CB49|YLPM1_RAT	YLP motif-containing protein 1 OS= 
+9.7	36	77	131	sp|Q1XGE2|HAC1_ASPOR	38	91	sp|Q39140|TGA6_ARATH	Transcription factor TGA6 OS=Arab 
+10	24	41	154	sp|Q1XGE2|HAC1_ASPOR	277	386	sp|Q8N9W4|GG6L2_HUMAN	Golgin subfamily A member 6-like 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/h2-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/h2-profmark.out
new file mode 100755
index 0000000..6328f82
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/h2-profmark.out
@@ -0,0 +1,170 @@
+3e-47	173.5	sp|O29458|DCDA_ARCFU	Orn_DAP_Arg_deC
+1.2e-46	171.6	sp|Q9UQW9|DCOR_SCHPO	Orn_DAP_Arg_deC
+8.4e-44	162.1	sp|O27390|DCDA_METTH	Orn_DAP_Arg_deC
+2.3e-43	160.6	sp|Q9I8S4|DCOR2_XENLA	Orn_DAP_Arg_deC
+2.5e-43	160.5	sp|P09057|DCOR_RAT	Orn_DAP_Arg_deC
+3.8e-43	159.9	sp|P14019|DCOR_CRIGR	Orn_DAP_Arg_deC
+3.9e-43	159.8	sp|P00860|DCOR_MOUSE	Orn_DAP_Arg_deC
+3.9e-43	159.8	sp|P27119|DCOR_MUSPA	Orn_DAP_Arg_deC
+8e-43	158.8	sp|P27118|DCOR_CHICK	Orn_DAP_Arg_deC
+2.8e-42	157.0	sp|P27120|DCOR1_XENLA	Orn_DAP_Arg_deC
+3e-42	156.9	sp|P11926|DCOR_HUMAN	Orn_DAP_Arg_deC
+2.1e-41	154.1	sp|P27117|DCOR_BOVIN	Orn_DAP_Arg_deC
+1.6e-40	151.2	sp|P07805|DCOR_TRYBB	Orn_DAP_Arg_deC
+2.6e-40	150.5	sp|Q9X1K5|DCDA_THEMA	Orn_DAP_Arg_deC
+3.7e-39	146.6	sp|P49725|DCOR_PANRE	Orn_DAP_Arg_deC
+6.6e-39	145.8	sp|O22616|DCOR_SOLLC	Orn_DAP_Arg_deC
+7.3e-39	145.7	sp|P27121|DCOR_NEUCR	Orn_DAP_Arg_deC
+8.2e-39	145.5	sp|P50134|DCOR_DATST	Orn_DAP_Arg_deC
+4e-38	143.2	sp|P08432|DCOR_YEAST	Orn_DAP_Arg_deC
+9.1e-38	142.0	sp|Q8A2B1|SPEA_BACTN	Orn_DAP_Arg_deC
+1.9e-37	141.0	sp|Q9HUX1|SPEA_PSEAE	Orn_DAP_Arg_deC
+2e-37	140.9	sp|Q7NU27|SPEA_CHRVO	Orn_DAP_Arg_deC
+2.5e-37	140.6	sp|O69203|DCDA_ACTPA	Orn_DAP_Arg_deC
+2.6e-37	140.5	sp|Q8S3N2|DCOR_CAPAN	Orn_DAP_Arg_deC
+3.1e-37	140.3	sp|P00861|DCDA_ECOLI	Orn_DAP_Arg_deC
+3.1e-37	140.2	sp|Q7NE10|SPEA_GLOVI	Orn_DAP_Arg_deC
+3.8e-37	140.0	sp|Q58497|DCDA_METJA	Orn_DAP_Arg_deC
+5.4e-37	139.5	sp|Q5LIQ3|SPEA_BACFN	Orn_DAP_Arg_deC
+5.4e-37	139.5	sp|Q64ZT8|SPEA_BACFR	Orn_DAP_Arg_deC
+1.3e-36	138.1	sp|Q87VU3|SPEA_PSESM	Orn_DAP_Arg_deC
+2.2e-36	137.4	sp|P40807|DCOR1_DROME	Orn_DAP_Arg_deC
+2.3e-36	137.4	sp|B0U1H6|SPEA_XYLFM	Orn_DAP_Arg_deC
+2.3e-36	137.4	sp|Q9PH02|SPEA_XYLFA	Orn_DAP_Arg_deC
+4.1e-36	136.5	sp|O05321|DCDA_PSEFL	Orn_DAP_Arg_deC
+4.7e-36	136.3	sp|B2I6M1|SPEA_XYLF2	Orn_DAP_Arg_deC
+4.7e-36	136.3	sp|Q87F25|SPEA_XYLFT	Orn_DAP_Arg_deC
+6.1e-36	136.0	sp|Q8DHY6|SPEA_THEEB	Orn_DAP_Arg_deC
+6.8e-36	135.8	sp|O67262|DCDA_AQUAE	Orn_DAP_Arg_deC
+1.3e-35	134.8	sp|Q88QC7|SPEA_PSEPK	Orn_DAP_Arg_deC
+4.2e-35	133.2	sp|O14977|AZIN1_HUMAN	Orn_DAP_Arg_deC
+4.2e-35	133.2	sp|Q5R7K3|AZIN1_PONAB	Orn_DAP_Arg_deC
+5.1e-35	132.9	sp|O35484|AZIN1_MOUSE	Orn_DAP_Arg_deC
+5.2e-35	132.9	sp|Q50140|DCDA_MYCLE	Orn_DAP_Arg_deC
+5.5e-35	132.8	sp|A6L012|SPEA_BACV8	Orn_DAP_Arg_deC
+6.8e-35	132.5	sp|P19572|DCDA_PSEAE	Orn_DAP_Arg_deC
+7.9e-35	132.3	sp|Q8YRP3|SPEA_ANASP	Orn_DAP_Arg_deC
+1.2e-34	131.7	sp|P23630|DCDA_BACSU	Orn_DAP_Arg_deC
+2.2e-34	130.8	sp|Q9ZBH5|DCDA_STRCO	Orn_DAP_Arg_deC
+2.4e-34	130.6	sp|Q8K9C4|DCDA_BUCAP	Orn_DAP_Arg_deC
+2.7e-34	130.5	sp|Q0ACK8|SPEA_ALHEH	Orn_DAP_Arg_deC
+6.8e-34	129.2	sp|Q949X7|DCDA1_ARATH	Orn_DAP_Arg_deC
+8.1e-34	128.9	sp|Q94A94|DCDA2_ARATH	Orn_DAP_Arg_deC
+9.9e-34	128.6	sp|P0A5M5|DCDA_MYCBO	Orn_DAP_Arg_deC
+9.9e-34	128.6	sp|P0A5M4|DCDA_MYCTU	Orn_DAP_Arg_deC
+1.7e-33	127.8	sp|P41931|DCOR_CAEEL	Orn_DAP_Arg_deC
+1.9e-33	127.7	sp|O50657|DCLO_SELRU	Orn_DAP_Arg_deC
+2.4e-33	127.4	sp|Q9KVL7|DCDA_VIBCH	Orn_DAP_Arg_deC
+3.1e-33	126.9	sp|Q6ZG77|DCDA_ORYSJ	Orn_DAP_Arg_deC
+3.6e-33	126.7	sp|Q55484|DCDA_SYNY3	Orn_DAP_Arg_deC
+8.1e-33	125.6	sp|Q9JXM2|DCDA_NEIMB	Orn_DAP_Arg_deC
+1e-32	125.2	sp|Q8P448|SPEA_XANCP	Orn_DAP_Arg_deC
+1.2e-32	125.0	sp|Q54UF3|DCOR_DICDI	Orn_DAP_Arg_deC
+1.3e-32	124.9	sp|Q9Z661|DCDA_ZYMMO	Orn_DAP_Arg_deC
+2.6e-32	123.9	sp|Q9JWA6|DCDA_NEIMA	Orn_DAP_Arg_deC
+3.6e-32	123.4	sp|P40808|DCOR2_DROME	Orn_DAP_Arg_deC
+5.1e-32	122.9	sp|Q8PFQ5|SPEA_XANAC	Orn_DAP_Arg_deC
+9e-32	122.1	sp|P56129|DCDA_HELPY	Orn_DAP_Arg_deC
+1.4e-31	121.5	sp|Q89AC6|DCDA_BUCBP	Orn_DAP_Arg_deC
+1.4e-31	121.5	sp|P78599|DCOR_CANAL	Orn_DAP_Arg_deC
+1.8e-31	121.1	sp|Q8DA54|SPEA_VIBVU	Orn_DAP_Arg_deC
+1.8e-31	121.1	sp|Q7MK24|SPEA_VIBVY	Orn_DAP_Arg_deC
+1.8e-31	121.1	sp|A4Y5Y9|SPEA_SHEPC	Orn_DAP_Arg_deC
+1.8e-31	121.1	sp|A1RKK8|SPEA_SHESW	Orn_DAP_Arg_deC
+2e-31	121.0	sp|P57513|DCDA_BUCAI	Orn_DAP_Arg_deC
+2.1e-31	120.9	sp|Q9RTK2|DCDA_DEIRA	Orn_DAP_Arg_deC
+2.2e-31	120.8	sp|B8CR70|SPEA_SHEPW	Orn_DAP_Arg_deC
+3.2e-31	120.3	sp|A3QDD8|SPEA_SHELP	Orn_DAP_Arg_deC
+4.1e-31	119.9	sp|B8EAI2|SPEA_SHEB2	Orn_DAP_Arg_deC
+4.1e-31	119.9	sp|A3D3G2|SPEA_SHEB5	Orn_DAP_Arg_deC
+4.1e-31	119.9	sp|A6WM65|SPEA_SHEB8	Orn_DAP_Arg_deC
+4.1e-31	119.9	sp|A9KY70|SPEA_SHEB9	Orn_DAP_Arg_deC
+4.5e-31	119.8	sp|P27116|DCOR_LEIDO	Orn_DAP_Arg_deC
+6.6e-31	119.2	sp|Q083L6|SPEA_SHEFN	Orn_DAP_Arg_deC
+7e-31	119.1	sp|Q8EFU5|SPEA_SHEON	Orn_DAP_Arg_deC
+1e-30	118.6	sp|B1KRD4|SPEA_SHEWM	Orn_DAP_Arg_deC
+1.1e-30	118.5	sp|Q7V3M9|SPEA_PROMP	Orn_DAP_Arg_deC
+2.2e-30	117.5	sp|A8FWJ3|SPEA_SHESH	Orn_DAP_Arg_deC
+2.5e-30	117.3	sp|Q0HJY2|SPEA_SHESM	Orn_DAP_Arg_deC
+2.5e-30	117.3	sp|Q0HW78|SPEA_SHESR	Orn_DAP_Arg_deC
+2.7e-30	117.2	sp|Q63764|AZIN1_RAT	Orn_DAP_Arg_deC
+2.9e-30	117.1	sp|Q9ZME5|DCDA_HELPJ	Orn_DAP_Arg_deC
+3.1e-30	117.0	sp|A0KVN8|SPEA_SHESA	Orn_DAP_Arg_deC
+3.1e-30	117.0	sp|Q8ZHG8|SPEA_YERPE	Orn_DAP_Arg_deC
+3.5e-30	116.8	sp|B5XUB1|SPEA_KLEP3	Orn_DAP_Arg_deC
+3.5e-30	116.8	sp|Q12LW6|SPEA_SHEDO	Orn_DAP_Arg_deC
+3.6e-30	116.8	sp|A2BNH3|SPEA_PROMS	Orn_DAP_Arg_deC
+3.8e-30	116.7	sp|Q87JS8|SPEA_VIBPA	Orn_DAP_Arg_deC
+3.8e-30	116.7	sp|A8H5G3|SPEA_SHEPA	Orn_DAP_Arg_deC
+4.1e-30	116.6	sp|A3PA96|SPEA_PROM0	Orn_DAP_Arg_deC
+4.6e-30	116.4	sp|P41023|DCDA_BACMT	Orn_DAP_Arg_deC
+4.8e-30	116.4	sp|B0TQX3|SPEA_SHEHH	Orn_DAP_Arg_deC
+4.8e-30	116.4	sp|Q31DD8|SPEA_PROM9	Orn_DAP_Arg_deC
+4.9e-30	116.3	sp|Q96412|SPE1_DIACA	Orn_DAP_Arg_deC
+5.9e-30	116.1	sp|A1S712|SPEA_SHEAM	Orn_DAP_Arg_deC
+8.8e-30	115.5	sp|A8G243|SPEA_PROM2	Orn_DAP_Arg_deC
+1.1e-29	115.2	sp|Q7VEG4|SPEA_PROMA	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|C4K6F4|SPEA_HAMD5	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|B5F5L1|SPEA_SALA4	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|Q57K30|SPEA_SALCH	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|B5FUJ7|SPEA_SALDC	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|B4THH1|SPEA_SALHS	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|A9N4N1|SPEA_SALPB	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|B4TV55|SPEA_SALSV	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|P60659|SPEA_SALTY	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|P60658|SPEA_SALTI	Orn_DAP_Arg_deC
+1.3e-29	114.9	sp|B4T5J3|SPEA_SALNS	Orn_DAP_Arg_deC
+1.4e-29	114.9	sp|P44316|DCDA_HAEIN	Orn_DAP_Arg_deC
+1.4e-29	114.8	sp|P22220|SPE1_AVESA	Orn_DAP_Arg_deC
+1.5e-29	114.7	sp|Q9X5M1|DCDA_MYCS2	Orn_DAP_Arg_deC
+1.9e-29	114.4	sp|Q9KLD1|SPEA_VIBCH	Orn_DAP_Arg_deC
+2.2e-29	114.2	sp|Q8XCX9|SPEA_ECO57	Orn_DAP_Arg_deC
+2.2e-29	114.2	sp|B5YQD6|SPEA_ECO5E	Orn_DAP_Arg_deC
+2.2e-29	114.2	sp|Q8FE34|SPEA_ECOL6	Orn_DAP_Arg_deC
+2.2e-29	114.2	sp|B1LDE8|SPEA_ECOSM	Orn_DAP_Arg_deC
+2.6e-29	113.9	sp|Q0T0V3|SPEA_SHIF8	Orn_DAP_Arg_deC
+2.6e-29	113.9	sp|Q83Q93|SPEA_SHIFL	Orn_DAP_Arg_deC
+3.3e-29	113.6	sp|B9M6H6|SPEA_GEOSF	Orn_DAP_Arg_deC
+3.4e-29	113.6	sp|P21170|SPEA_ECOLI	Orn_DAP_Arg_deC
+5.7e-29	112.8	sp|B5EIW4|SPEA_GEOBB	Orn_DAP_Arg_deC
+5.7e-29	112.8	sp|C6E3V4|SPEA_GEOSM	Orn_DAP_Arg_deC
+8.2e-29	112.3	sp|A1AS90|SPEA_PELPD	Orn_DAP_Arg_deC
+8.6e-29	112.2	sp|A2BU00|SPEA_PROM5	Orn_DAP_Arg_deC
+6.4e-28	109.3	sp|Q8RQM6|DCDA_COREF	Orn_DAP_Arg_deC
+8.9e-28	108.8	sp|B4F1A4|SPEA_PROMH	Orn_DAP_Arg_deC
+1.5e-27	108.1	sp|P74576|SPEA1_SYNY3	Orn_DAP_Arg_deC
+2.6e-27	107.3	sp|A5GB52|SPEA_GEOUR	Orn_DAP_Arg_deC
+2.9e-27	107.1	sp|Q7U3S0|SPEA_SYNPX	Orn_DAP_Arg_deC
+3.9e-27	106.7	sp|A0A4W3|SPEA_GEOSL	Orn_DAP_Arg_deC
+4.8e-27	106.4	sp|Q39X78|SPEA_GEOMG	Orn_DAP_Arg_deC
+5e-27	106.3	sp|A1TY02|SPEA_MARAV	Orn_DAP_Arg_deC
+6.4e-27	106.0	sp|Q9RXR4|SPEA_DEIRA	Orn_DAP_Arg_deC
+1e-26	105.3	sp|P09890|DCDA_CORGL	Orn_DAP_Arg_deC
+1.5e-26	104.8	sp|O82475|SPE1_BRAJU	Orn_DAP_Arg_deC
+1.6e-26	104.7	sp|Q39827|SPE1_SOYBN	Orn_DAP_Arg_deC
+1.6e-26	104.7	sp|Q7N121|SPEA_PHOLL	Orn_DAP_Arg_deC
+1.8e-26	104.5	sp|B3EAF3|SPEA_GEOLS	Orn_DAP_Arg_deC
+1.8e-26	104.5	sp|A5GWM2|SPEA_SYNR3	Orn_DAP_Arg_deC
+2.5e-26	104.0	sp|Q7UTS2|SPEA_RHOBA	Orn_DAP_Arg_deC
+3e-26	103.8	sp|Q9KCM5|DCDA_BACHD	Orn_DAP_Arg_deC
+3.1e-26	103.7	sp|Q96A70|ADC_HUMAN	Orn_DAP_Arg_deC
+6.5e-26	102.6	sp|Q43075|SPE1_PEA	Orn_DAP_Arg_deC
+2.6e-25	100.6	sp|P72587|SPEA2_SYNY3	Orn_DAP_Arg_deC
+3.7e-25	100.2	sp|Q7TUJ9|SPEA_PROMM	Orn_DAP_Arg_deC
+1e-24	98.7	sp|P49726|SPE1_SOLLC	Orn_DAP_Arg_deC
+1.1e-24	98.5	sp|Q9PII5|DCDA_CAMJE	Orn_DAP_Arg_deC
+1.5e-24	98.1	sp|A2CDK1|SPEA_PROM3	Orn_DAP_Arg_deC
+1.7e-24	97.9	sp|Q8BVM4|ADC_MOUSE	Orn_DAP_Arg_deC
+8e-24	95.7	sp|Q9CL60|SPEA_PASMU	Orn_DAP_Arg_deC
+1.5e-23	94.8	sp|O23141|SPE2_ARATH	Orn_DAP_Arg_deC
+1.6e-23	94.7	sp|Q9SNN0|SPE1_ORYSJ	Orn_DAP_Arg_deC
+8.9e-23	92.2	sp|P31851|TABA_PSESZ	Orn_DAP_Arg_deC
+1.2e-22	91.8	sp|Q9JT25|SPEA_NEIMA	Orn_DAP_Arg_deC
+1.2e-22	91.8	sp|Q9K0U3|SPEA_NEIMB	Orn_DAP_Arg_deC
+1.8e-22	91.2	sp|Q7XRA1|ADC2_ORYSJ	Orn_DAP_Arg_deC
+1.5e-21	88.2	sp|Q9SI64|SPE1_ARATH	Orn_DAP_Arg_deC
+2.2e-21	87.6	sp|C4L9A9|SPEA_TOLAT	Orn_DAP_Arg_deC
+1.3e-18	78.4	sp|A0KIP8|SPEA_AERHH	Orn_DAP_Arg_deC
+3.6e-17	73.6	sp|A4SPD6|SPEA_AERS4	Orn_DAP_Arg_deC
+0.0018	23.1	sp|P55709|Y4YA_RHISN	Orn_DAP_Arg_deC
+1.1	-9.6	sp|O81160|SPE2_THECC	Orn_DAP_Arg_deC
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/h2-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/h2-tbl.out
new file mode 100755
index 0000000..0dbc01e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/h2-tbl.out
@@ -0,0 +1,170 @@
+3e-47	0	1	123	Orn_DAP_Arg_deC	285	391	sp|O29458|DCDA_ARCFU	Diaminopimelate decarboxylase O  
+1.2e-46	0	1	123	Orn_DAP_Arg_deC	307	426	sp|Q9UQW9|DCOR_SCHPO	Ornithine decarboxylase OS=Schi  
+8.4e-44	0	1	123	Orn_DAP_Arg_deC	292	398	sp|O27390|DCDA_METTH	Diaminopimelate decarboxylase O  
+2.3e-43	0	1	123	Orn_DAP_Arg_deC	284	405	sp|Q9I8S4|DCOR2_XENLA	Ornithine decarboxylase 2 OS=Xe  
+2.5e-43	0	1	123	Orn_DAP_Arg_deC	285	408	sp|P09057|DCOR_RAT	Ornithine decarboxylase OS=Ratt  
+3.8e-43	0	1	123	Orn_DAP_Arg_deC	282	402	sp|P14019|DCOR_CRIGR	Ornithine decarboxylase OS=Cric  
+3.9e-43	0	1	123	Orn_DAP_Arg_deC	285	408	sp|P00860|DCOR_MOUSE	Ornithine decarboxylase OS=Mus   
+3.9e-43	0	1	123	Orn_DAP_Arg_deC	285	408	sp|P27119|DCOR_MUSPA	Ornithine decarboxylase OS=Mus   
+8e-43	0	1	123	Orn_DAP_Arg_deC	275	398	sp|P27118|DCOR_CHICK	Ornithine decarboxylase (Fragme  
+2.8e-42	0	1	123	Orn_DAP_Arg_deC	285	409	sp|P27120|DCOR1_XENLA	Ornithine decarboxylase 1 OS=Xe  
+3e-42	0	1	123	Orn_DAP_Arg_deC	285	408	sp|P11926|DCOR_HUMAN	Ornithine decarboxylase OS=Homo  
+2.1e-41	0	1	123	Orn_DAP_Arg_deC	285	408	sp|P27117|DCOR_BOVIN	Ornithine decarboxylase OS=Bos   
+1.6e-40	0	1	123	Orn_DAP_Arg_deC	283	406	sp|P07805|DCOR_TRYBB	Ornithine decarboxylase OS=Tryp  
+2.6e-40	0	1	123	Orn_DAP_Arg_deC	257	362	sp|Q9X1K5|DCDA_THEMA	Diaminopimelate decarboxylase O  
+3.7e-39	0	1	123	Orn_DAP_Arg_deC	294	416	sp|P49725|DCOR_PANRE	Ornithine decarboxylase OS=Pana  
+6.6e-39	0	1	123	Orn_DAP_Arg_deC	308	424	sp|O22616|DCOR_SOLLC	Ornithine decarboxylase OS=Sola  
+7.3e-39	0	1	123	Orn_DAP_Arg_deC	326	471	sp|P27121|DCOR_NEUCR	Ornithine decarboxylase OS=Neur  
+8.2e-39	0	1	123	Orn_DAP_Arg_deC	308	424	sp|P50134|DCOR_DATST	Ornithine decarboxylase OS=Datu  
+4e-38	0	1	123	Orn_DAP_Arg_deC	329	460	sp|P08432|DCOR_YEAST	Ornithine decarboxylase OS=Sacc  
+9.1e-38	0	1	123	Orn_DAP_Arg_deC	346	558	sp|Q8A2B1|SPEA_BACTN	Biosynthetic arginine decarboxy  
+1.9e-37	0	1	123	Orn_DAP_Arg_deC	354	567	sp|Q9HUX1|SPEA_PSEAE	Biosynthetic arginine decarboxy  
+2e-37	0	1	123	Orn_DAP_Arg_deC	343	556	sp|Q7NU27|SPEA_CHRVO	Biosynthetic arginine decarboxy  
+2.5e-37	0	1	123	Orn_DAP_Arg_deC	309	415	sp|O69203|DCDA_ACTPA	Diaminopimelate decarboxylase O  
+2.6e-37	0	1	123	Orn_DAP_Arg_deC	312	428	sp|Q8S3N2|DCOR_CAPAN	Ornithine decarboxylase OS=Caps  
+3.1e-37	0	1	123	Orn_DAP_Arg_deC	279	397	sp|P00861|DCDA_ECOLI	Diaminopimelate decarboxylase O  
+3.1e-37	0	1	123	Orn_DAP_Arg_deC	346	557	sp|Q7NE10|SPEA_GLOVI	Biosynthetic arginine decarboxy  
+3.8e-37	0	1	123	Orn_DAP_Arg_deC	305	410	sp|Q58497|DCDA_METJA	Diaminopimelate decarboxylase O  
+5.4e-37	0	1	123	Orn_DAP_Arg_deC	346	558	sp|Q5LIQ3|SPEA_BACFN	Biosynthetic arginine decarboxy  
+5.4e-37	0	1	123	Orn_DAP_Arg_deC	346	558	sp|Q64ZT8|SPEA_BACFR	Biosynthetic arginine decarboxy  
+1.3e-36	0	1	123	Orn_DAP_Arg_deC	354	567	sp|Q87VU3|SPEA_PSESM	Biosynthetic arginine decarboxy  
+2.2e-36	0	1	123	Orn_DAP_Arg_deC	276	391	sp|P40807|DCOR1_DROME	Ornithine decarboxylase 1 OS=Dr  
+2.3e-36	0	1	123	Orn_DAP_Arg_deC	343	555	sp|B0U1H6|SPEA_XYLFM	Biosynthetic arginine decarboxy  
+2.3e-36	0	1	123	Orn_DAP_Arg_deC	343	555	sp|Q9PH02|SPEA_XYLFA	Biosynthetic arginine decarboxy  
+4.1e-36	0	1	123	Orn_DAP_Arg_deC	285	390	sp|O05321|DCDA_PSEFL	Diaminopimelate decarboxylase O  
+4.7e-36	0	1	123	Orn_DAP_Arg_deC	343	555	sp|B2I6M1|SPEA_XYLF2	Biosynthetic arginine decarboxy  
+4.7e-36	0	1	123	Orn_DAP_Arg_deC	343	555	sp|Q87F25|SPEA_XYLFT	Biosynthetic arginine decarboxy  
+6.1e-36	0	1	123	Orn_DAP_Arg_deC	353	564	sp|Q8DHY6|SPEA_THEEB	Biosynthetic arginine decarboxy  
+6.8e-36	0	1	123	Orn_DAP_Arg_deC	290	396	sp|O67262|DCDA_AQUAE	Diaminopimelate decarboxylase O  
+1.3e-35	0	1	123	Orn_DAP_Arg_deC	354	567	sp|Q88QC7|SPEA_PSEPK	Biosynthetic arginine decarboxy  
+4.2e-35	0	1	123	Orn_DAP_Arg_deC	282	406	sp|O14977|AZIN1_HUMAN	Antizyme inhibitor 1 OS=Homo sa  
+4.2e-35	0	1	123	Orn_DAP_Arg_deC	282	406	sp|Q5R7K3|AZIN1_PONAB	Antizyme inhibitor 1 OS=Pongo a  
+5.1e-35	0	1	123	Orn_DAP_Arg_deC	282	406	sp|O35484|AZIN1_MOUSE	Antizyme inhibitor 1 OS=Mus mus  
+5.2e-35	0	1	123	Orn_DAP_Arg_deC	336	449	sp|Q50140|DCDA_MYCLE	Diaminopimelate decarboxylase O  
+5.5e-35	0	1	123	Orn_DAP_Arg_deC	346	558	sp|A6L012|SPEA_BACV8	Biosynthetic arginine decarboxy  
+6.8e-35	0	1	123	Orn_DAP_Arg_deC	284	389	sp|P19572|DCDA_PSEAE	Diaminopimelate decarboxylase O  
+7.9e-35	0	1	123	Orn_DAP_Arg_deC	395	606	sp|Q8YRP3|SPEA_ANASP	Biosynthetic arginine decarboxy  
+1.2e-34	0	1	123	Orn_DAP_Arg_deC	301	409	sp|P23630|DCDA_BACSU	Diaminopimelate decarboxylase O  
+2.2e-34	0	1	123	Orn_DAP_Arg_deC	286	403	sp|Q9ZBH5|DCDA_STRCO	Diaminopimelate decarboxylase O  
+2.4e-34	0	1	123	Orn_DAP_Arg_deC	275	393	sp|Q8K9C4|DCDA_BUCAP	Diaminopimelate decarboxylase O  
+2.7e-34	0	1	123	Orn_DAP_Arg_deC	345	558	sp|Q0ACK8|SPEA_ALHEH	Biosynthetic arginine decarboxy  
+6.8e-34	0	1	123	Orn_DAP_Arg_deC	351	459	sp|Q949X7|DCDA1_ARATH	Diaminopimelate decarboxylase 1  
+8.1e-34	0	1	123	Orn_DAP_Arg_deC	356	464	sp|Q94A94|DCDA2_ARATH	Diaminopimelate decarboxylase 2  
+9.9e-34	0	1	123	Orn_DAP_Arg_deC	311	424	sp|P0A5M5|DCDA_MYCBO	Diaminopimelate decarboxylase O  
+9.9e-34	0	1	123	Orn_DAP_Arg_deC	311	424	sp|P0A5M4|DCDA_MYCTU	Diaminopimelate decarboxylase O  
+1.7e-33	0	1	123	Orn_DAP_Arg_deC	286	407	sp|P41931|DCOR_CAEEL	Ornithine decarboxylase OS=Caen  
+1.9e-33	0	1	123	Orn_DAP_Arg_deC	266	371	sp|O50657|DCLO_SELRU	Lysine/ornithine decarboxylase   
+2.4e-33	0	1	123	Orn_DAP_Arg_deC	286	391	sp|Q9KVL7|DCDA_VIBCH	Diaminopimelate decarboxylase O  
+3.1e-33	0	1	123	Orn_DAP_Arg_deC	356	463	sp|Q6ZG77|DCDA_ORYSJ	Probable diaminopimelate decarb  
+3.6e-33	0	1	123	Orn_DAP_Arg_deC	332	440	sp|Q55484|DCDA_SYNY3	Diaminopimelate decarboxylase O  
+8.1e-33	0	1	123	Orn_DAP_Arg_deC	276	381	sp|Q9JXM2|DCDA_NEIMB	Diaminopimelate decarboxylase O  
+1e-32	0	1	123	Orn_DAP_Arg_deC	343	555	sp|Q8P448|SPEA_XANCP	Biosynthetic arginine decarboxy  
+1.2e-32	0	1	123	Orn_DAP_Arg_deC	328	450	sp|Q54UF3|DCOR_DICDI	Probable ornithine decarboxylas  
+1.3e-32	0	1	123	Orn_DAP_Arg_deC	289	394	sp|Q9Z661|DCDA_ZYMMO	Diaminopimelate decarboxylase O  
+2.6e-32	0	1	123	Orn_DAP_Arg_deC	276	381	sp|Q9JWA6|DCDA_NEIMA	Diaminopimelate decarboxylase O  
+3.6e-32	0	1	123	Orn_DAP_Arg_deC	276	390	sp|P40808|DCOR2_DROME	Ornithine decarboxylase 2 OS=Dr  
+5.1e-32	0	1	123	Orn_DAP_Arg_deC	343	555	sp|Q8PFQ5|SPEA_XANAC	Biosynthetic arginine decarboxy  
+9e-32	0	1	123	Orn_DAP_Arg_deC	270	377	sp|P56129|DCDA_HELPY	Diaminopimelate decarboxylase O  
+1.4e-31	0	1	123	Orn_DAP_Arg_deC	275	393	sp|Q89AC6|DCDA_BUCBP	Diaminopimelate decarboxylase O  
+1.4e-31	0	1	123	Orn_DAP_Arg_deC	324	468	sp|P78599|DCOR_CANAL	Ornithine decarboxylase OS=Cand  
+1.8e-31	0	1	123	Orn_DAP_Arg_deC	355	571	sp|Q8DA54|SPEA_VIBVU	Biosynthetic arginine decarboxy  
+1.8e-31	0	1	123	Orn_DAP_Arg_deC	354	570	sp|Q7MK24|SPEA_VIBVY	Biosynthetic arginine decarboxy  
+1.8e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A4Y5Y9|SPEA_SHEPC	Biosynthetic arginine decarboxy  
+1.8e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A1RKK8|SPEA_SHESW	Biosynthetic arginine decarboxy  
+2e-31	0	1	123	Orn_DAP_Arg_deC	275	393	sp|P57513|DCDA_BUCAI	Diaminopimelate decarboxylase O  
+2.1e-31	0	1	123	Orn_DAP_Arg_deC	253	357	sp|Q9RTK2|DCDA_DEIRA	Diaminopimelate decarboxylase O  
+2.2e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|B8CR70|SPEA_SHEPW	Biosynthetic arginine decarboxy  
+3.2e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A3QDD8|SPEA_SHELP	Biosynthetic arginine decarboxy  
+4.1e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|B8EAI2|SPEA_SHEB2	Biosynthetic arginine decarboxy  
+4.1e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A3D3G2|SPEA_SHEB5	Biosynthetic arginine decarboxy  
+4.1e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A6WM65|SPEA_SHEB8	Biosynthetic arginine decarboxy  
+4.1e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A9KY70|SPEA_SHEB9	Biosynthetic arginine decarboxy  
+4.5e-31	0	1	123	Orn_DAP_Arg_deC	509	682	sp|P27116|DCOR_LEIDO	Ornithine decarboxylase OS=Leis  
+6.6e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|Q083L6|SPEA_SHEFN	Biosynthetic arginine decarboxy  
+7e-31	0	1	123	Orn_DAP_Arg_deC	350	566	sp|Q8EFU5|SPEA_SHEON	Biosynthetic arginine decarboxy  
+1e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|B1KRD4|SPEA_SHEWM	Biosynthetic arginine decarboxy  
+1.1e-30	0	1	123	Orn_DAP_Arg_deC	355	574	sp|Q7V3M9|SPEA_PROMP	Biosynthetic arginine decarboxy  
+2.2e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A8FWJ3|SPEA_SHESH	Biosynthetic arginine decarboxy  
+2.5e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|Q0HJY2|SPEA_SHESM	Biosynthetic arginine decarboxy  
+2.5e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|Q0HW78|SPEA_SHESR	Biosynthetic arginine decarboxy  
+2.7e-30	0	1	123	Orn_DAP_Arg_deC	282	406	sp|Q63764|AZIN1_RAT	Antizyme inhibitor 1 OS=Rattus   
+2.9e-30	0	1	123	Orn_DAP_Arg_deC	270	377	sp|Q9ZME5|DCDA_HELPJ	Diaminopimelate decarboxylase O  
+3.1e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A0KVN8|SPEA_SHESA	Biosynthetic arginine decarboxy  
+3.1e-30	0	1	123	Orn_DAP_Arg_deC	372	588	sp|Q8ZHG8|SPEA_YERPE	Biosynthetic arginine decarboxy  
+3.5e-30	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B5XUB1|SPEA_KLEP3	Biosynthetic arginine decarboxy  
+3.5e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|Q12LW6|SPEA_SHEDO	Biosynthetic arginine decarboxy  
+3.6e-30	0	1	123	Orn_DAP_Arg_deC	355	574	sp|A2BNH3|SPEA_PROMS	Biosynthetic arginine decarboxy  
+3.8e-30	0	1	123	Orn_DAP_Arg_deC	354	570	sp|Q87JS8|SPEA_VIBPA	Biosynthetic arginine decarboxy  
+3.8e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A8H5G3|SPEA_SHEPA	Biosynthetic arginine decarboxy  
+4.1e-30	0	1	123	Orn_DAP_Arg_deC	355	574	sp|A3PA96|SPEA_PROM0	Biosynthetic arginine decarboxy  
+4.6e-30	0	1	123	Orn_DAP_Arg_deC	301	409	sp|P41023|DCDA_BACMT	Diaminopimelate decarboxylase O  
+4.8e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|B0TQX3|SPEA_SHEHH	Biosynthetic arginine decarboxy  
+4.8e-30	0	1	123	Orn_DAP_Arg_deC	355	574	sp|Q31DD8|SPEA_PROM9	Biosynthetic arginine decarboxy  
+4.9e-30	0	1	123	Orn_DAP_Arg_deC	491	605	sp|Q96412|SPE1_DIACA	Arginine decarboxylase OS=Diant  
+5.9e-30	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A1S712|SPEA_SHEAM	Biosynthetic arginine decarboxy  
+8.8e-30	0	1	123	Orn_DAP_Arg_deC	355	574	sp|A8G243|SPEA_PROM2	Biosynthetic arginine decarboxy  
+1.1e-29	0	1	123	Orn_DAP_Arg_deC	355	574	sp|Q7VEG4|SPEA_PROMA	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	346	562	sp|C4K6F4|SPEA_HAMD5	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B5F5L1|SPEA_SALA4	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|Q57K30|SPEA_SALCH	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B5FUJ7|SPEA_SALDC	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B4THH1|SPEA_SALHS	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|A9N4N1|SPEA_SALPB	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B4TV55|SPEA_SALSV	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	371	587	sp|P60659|SPEA_SALTY	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	371	587	sp|P60658|SPEA_SALTI	Biosynthetic arginine decarboxy  
+1.3e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B4T5J3|SPEA_SALNS	Biosynthetic arginine decarboxy  
+1.4e-29	0	1	123	Orn_DAP_Arg_deC	285	391	sp|P44316|DCDA_HAEIN	Diaminopimelate decarboxylase O  
+1.4e-29	0	1	123	Orn_DAP_Arg_deC	355	532	sp|P22220|SPE1_AVESA	Arginine decarboxylase OS=Avena  
+1.5e-29	0	1	123	Orn_DAP_Arg_deC	336	449	sp|Q9X5M1|DCDA_MYCS2	Diaminopimelate decarboxylase O  
+1.9e-29	0	1	123	Orn_DAP_Arg_deC	354	570	sp|Q9KLD1|SPEA_VIBCH	Biosynthetic arginine decarboxy  
+2.2e-29	0	1	123	Orn_DAP_Arg_deC	371	587	sp|Q8XCX9|SPEA_ECO57	Biosynthetic arginine decarboxy  
+2.2e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B5YQD6|SPEA_ECO5E	Biosynthetic arginine decarboxy  
+2.2e-29	0	1	123	Orn_DAP_Arg_deC	371	587	sp|Q8FE34|SPEA_ECOL6	Biosynthetic arginine decarboxy  
+2.2e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|B1LDE8|SPEA_ECOSM	Biosynthetic arginine decarboxy  
+2.6e-29	0	1	123	Orn_DAP_Arg_deC	345	561	sp|Q0T0V3|SPEA_SHIF8	Biosynthetic arginine decarboxy  
+2.6e-29	0	1	123	Orn_DAP_Arg_deC	371	587	sp|Q83Q93|SPEA_SHIFL	Biosynthetic arginine decarboxy  
+3.3e-29	0	1	123	Orn_DAP_Arg_deC	346	561	sp|B9M6H6|SPEA_GEOSF	Biosynthetic arginine decarboxy  
+3.4e-29	0	1	123	Orn_DAP_Arg_deC	371	587	sp|P21170|SPEA_ECOLI	Biosynthetic arginine decarboxy  
+5.7e-29	0	1	123	Orn_DAP_Arg_deC	425	561	sp|B5EIW4|SPEA_GEOBB	Biosynthetic arginine decarboxy  
+5.7e-29	0	1	123	Orn_DAP_Arg_deC	425	561	sp|C6E3V4|SPEA_GEOSM	Biosynthetic arginine decarboxy  
+8.2e-29	0	1	123	Orn_DAP_Arg_deC	425	561	sp|A1AS90|SPEA_PELPD	Biosynthetic arginine decarboxy  
+8.6e-29	0	1	123	Orn_DAP_Arg_deC	355	574	sp|A2BU00|SPEA_PROM5	Biosynthetic arginine decarboxy  
+6.4e-28	0	1	123	Orn_DAP_Arg_deC	324	437	sp|Q8RQM6|DCDA_COREF	Diaminopimelate decarboxylase O  
+8.9e-28	0	1	123	Orn_DAP_Arg_deC	347	563	sp|B4F1A4|SPEA_PROMH	Biosynthetic arginine decarboxy  
+1.5e-27	0	1	123	Orn_DAP_Arg_deC	396	615	sp|P74576|SPEA1_SYNY3	Biosynthetic arginine decarboxy  
+2.6e-27	0	1	123	Orn_DAP_Arg_deC	346	561	sp|A5GB52|SPEA_GEOUR	Biosynthetic arginine decarboxy  
+2.9e-27	0	1	123	Orn_DAP_Arg_deC	351	570	sp|Q7U3S0|SPEA_SYNPX	Biosynthetic arginine decarboxy  
+3.9e-27	0	1	123	Orn_DAP_Arg_deC	425	561	sp|A0A4W3|SPEA_GEOSL	Biosynthetic arginine decarboxy  
+4.8e-27	0	1	123	Orn_DAP_Arg_deC	425	561	sp|Q39X78|SPEA_GEOMG	Biosynthetic arginine decarboxy  
+5e-27	0	1	123	Orn_DAP_Arg_deC	350	566	sp|A1TY02|SPEA_MARAV	Biosynthetic arginine decarboxy  
+6.4e-27	0	1	123	Orn_DAP_Arg_deC	372	586	sp|Q9RXR4|SPEA_DEIRA	Biosynthetic arginine decarboxy  
+1e-26	0	1	123	Orn_DAP_Arg_deC	310	423	sp|P09890|DCDA_CORGL	Diaminopimelate decarboxylase O  
+1.5e-26	0	1	123	Orn_DAP_Arg_deC	390	585	sp|O82475|SPE1_BRAJU	Arginine decarboxylase OS=Brass  
+1.6e-26	0	1	123	Orn_DAP_Arg_deC	401	596	sp|Q39827|SPE1_SOYBN	Arginine decarboxylase OS=Glyci  
+1.6e-26	0	1	123	Orn_DAP_Arg_deC	347	563	sp|Q7N121|SPEA_PHOLL	Biosynthetic arginine decarboxy  
+1.8e-26	0	1	123	Orn_DAP_Arg_deC	346	561	sp|B3EAF3|SPEA_GEOLS	Biosynthetic arginine decarboxy  
+1.8e-26	0	1	123	Orn_DAP_Arg_deC	355	566	sp|A5GWM2|SPEA_SYNR3	Biosynthetic arginine decarboxy  
+2.5e-26	0	1	123	Orn_DAP_Arg_deC	460	592	sp|Q7UTS2|SPEA_RHOBA	Biosynthetic arginine decarboxy  
+3e-26	0	1	123	Orn_DAP_Arg_deC	301	409	sp|Q9KCM5|DCDA_BACHD	Diaminopimelate decarboxylase O  
+3.1e-26	0	1	123	Orn_DAP_Arg_deC	286	409	sp|Q96A70|ADC_HUMAN	Arginine decarboxylase OS=Homo   
+6.5e-26	0	1	123	Orn_DAP_Arg_deC	494	609	sp|Q43075|SPE1_PEA	Arginine decarboxylase OS=Pisum  
+2.6e-25	0	1	123	Orn_DAP_Arg_deC	375	587	sp|P72587|SPEA2_SYNY3	Biosynthetic arginine decarboxy  
+3.7e-25	0	1	123	Orn_DAP_Arg_deC	355	574	sp|Q7TUJ9|SPEA_PROMM	Biosynthetic arginine decarboxy  
+1e-24	0	1	123	Orn_DAP_Arg_deC	291	492	sp|P49726|SPE1_SOLLC	Arginine decarboxylase OS=Solan   
+1.1e-24	0	1	123	Orn_DAP_Arg_deC	270	375	sp|Q9PII5|DCDA_CAMJE	Diaminopimelate decarboxylase O   
+1.5e-24	0	1	123	Orn_DAP_Arg_deC	355	574	sp|A2CDK1|SPEA_PROM3	Biosynthetic arginine decarboxy   
+1.7e-24	0	1	123	Orn_DAP_Arg_deC	286	408	sp|Q8BVM4|ADC_MOUSE	Antizyme inhibitor 2 OS=Mus mus   
+8e-24	0	1	123	Orn_DAP_Arg_deC	357	573	sp|Q9CL60|SPEA_PASMU	Biosynthetic arginine decarboxy   
+1.5e-23	0	1	123	Orn_DAP_Arg_deC	481	596	sp|O23141|SPE2_ARATH	Arginine decarboxylase 2 OS=Ara   
+1.6e-23	0	1	123	Orn_DAP_Arg_deC	401	598	sp|Q9SNN0|SPE1_ORYSJ	Arginine decarboxylase 1 OS=Ory   
+8.9e-23	0	1	123	Orn_DAP_Arg_deC	278	383	sp|P31851|TABA_PSESZ	Protein tabA OS=Pseudomonas syr   
+1.2e-22	0	1	123	Orn_DAP_Arg_deC	343	559	sp|Q9JT25|SPEA_NEIMA	Biosynthetic arginine decarboxy   
+1.2e-22	0	1	123	Orn_DAP_Arg_deC	343	559	sp|Q9K0U3|SPEA_NEIMB	Biosynthetic arginine decarboxy   
+1.8e-22	0	1	123	Orn_DAP_Arg_deC	381	547	sp|Q7XRA1|ADC2_ORYSJ	Arginine decarboxylase 2 OS=Ory   
+1.5e-21	0	1	123	Orn_DAP_Arg_deC	385	584	sp|Q9SI64|SPE1_ARATH	Arginine decarboxylase 1 OS=Ara   
+2.2e-21	0	1	123	Orn_DAP_Arg_deC	433	566	sp|C4L9A9|SPEA_TOLAT	Biosynthetic arginine decarboxy   
+1.3e-18	0	1	123	Orn_DAP_Arg_deC	348	564	sp|A0KIP8|SPEA_AERHH	Biosynthetic arginine decarboxy   
+3.6e-17	0	1	123	Orn_DAP_Arg_deC	348	564	sp|A4SPD6|SPEA_AERS4	Biosynthetic arginine decarboxy   
+0.0018	0	1	123	Orn_DAP_Arg_deC	324	439	sp|P55709|Y4YA_RHISN	Uncharacterized protein y4yA OS   
+1.1	0	1	123	Orn_DAP_Arg_deC	341	406	sp|O81160|SPE2_THECC	Arginine decarboxylase (Fragmen   
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/hmmsearch-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/hmmsearch-profmark.out
new file mode 100755
index 0000000..a0ae509
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/hmmsearch-profmark.out
@@ -0,0 +1,930 @@
+4.2e-39	138.8	sp|P06485|US02_HHV11	US2
+2e-38	136.6	sp|P13292|US02_HHV2H	US2
+1.6e-35	127.2	sp|Q05106|US453_GAHVG	US2
+2.3e-35	126.8	sp|P32517|US02_EHV1K	US2
+3.3e-33	119.8	sp|P28964|US02_EHV1B	US2
+2.1e-31	114.0	sp|Q08099|US02_BHV1S	US2
+1.8e-17	68.9	sp|P24382|US02_SUHVN	US2
+1.4	14.3	sp|Q9ZK80|ATPG_HELPJ	US2
+1.4	14.3	sp|P56082|ATPG_HELPY	US2
+1.5	14.2	sp|B2UUP1|ATPG_HELPS	US2
+1.5	14.2	sp|B6JMX3|ATPG_HELP2	US2
+2.6	13.4	sp|Q17Y79|ATPG_HELAH	US2
+3.6	13.0	sp|B5Z8D1|ATPG_HELPG	US2
+3.9	12.9	sp|Q1CSD4|ATPG_HELPH	US2
+3e-40	142.2	sp|A7Z4E5|MURG_BACA2	Glyco_transf_28
+3.6e-40	141.9	sp|Q65JY0|MURG_BACLD	Glyco_transf_28
+7.6e-40	140.8	sp|P37585|MURG_BACSU	Glyco_transf_28
+3e-39	138.9	sp|A8FCY1|MURG_BACP2	Glyco_transf_28
+7.6e-39	137.6	sp|Q812W5|MURG1_BACCR	Glyco_transf_28
+1.1e-38	137.0	sp|A3MY90|MURG_ACTP2	Glyco_transf_28
+1.5e-38	136.7	sp|A0RHT1|MURG2_BACAH	Glyco_transf_28
+1.5e-38	136.7	sp|Q636B6|MURG1_BACCZ	Glyco_transf_28
+1.5e-38	136.7	sp|Q81JG5|MURG1_BACAN	Glyco_transf_28
+1.8e-38	136.4	sp|Q732F8|MURG1_BACC1	Glyco_transf_28
+2.7e-38	135.8	sp|B7GGI2|MURG_ANOFW	Glyco_transf_28
+2.9e-38	135.7	sp|A7GRN6|MURG_BACCN	Glyco_transf_28
+3.7e-38	135.4	sp|B0BRH7|MURG_ACTPJ	Glyco_transf_28
+3.7e-38	135.4	sp|B3GZK8|MURG_ACTP7	Glyco_transf_28
+3.8e-38	135.3	sp|Q6HEQ4|MURG1_BACHK	Glyco_transf_28
+9.4e-38	134.1	sp|O07670|MURG_ENTHR	Glyco_transf_28
+1.6e-37	133.3	sp|A7FM66|MURG_YERP3	Glyco_transf_28
+1.6e-37	133.3	sp|B1JK81|MURG_YERPY	Glyco_transf_28
+1.6e-37	133.3	sp|B2K4E6|MURG_YERPB	Glyco_transf_28
+1.6e-37	133.3	sp|Q66EK5|MURG_YERPS	Glyco_transf_28
+2e-37	133.0	sp|A1JJJ3|MURG_YERE8	Glyco_transf_28
+2.2e-37	132.8	sp|A9MQC2|MURG_SALAR	Glyco_transf_28
+2.3e-37	132.8	sp|P64869|Y1526_MYCTU	Glyco_transf_28
+2.3e-37	132.8	sp|P64870|Y1553_MYCBO	Glyco_transf_28
+3.1e-37	132.4	sp|Q65RY6|MURG_MANSM	Glyco_transf_28
+3.5e-37	132.2	sp|B2VD91|MURG_ERWT9	Glyco_transf_28
+3.6e-37	132.2	sp|Q4QLF8|MURG_HAEI8	Glyco_transf_28
+3.8e-37	132.1	sp|A5UIR2|MURG_HAEIG	Glyco_transf_28
+4e-37	132.0	sp|P45065|MURG_HAEIN	Glyco_transf_28
+4.7e-37	131.8	sp|A9R124|MURG_YERPG	Glyco_transf_28
+4.7e-37	131.8	sp|Q1C214|MURG_YERPA	Glyco_transf_28
+4.7e-37	131.8	sp|Q1CMM7|MURG_YERPN	Glyco_transf_28
+4.7e-37	131.8	sp|Q8ZIE9|MURG_YERPE	Glyco_transf_28
+5.7e-37	131.5	sp|O07109|MURG_ENTFA	Glyco_transf_28
+5.8e-37	131.5	sp|A3QIM1|MURG_SHELP	Glyco_transf_28
+6e-37	131.5	sp|A8G9S7|MURG_SERP5	Glyco_transf_28
+6.3e-37	131.4	sp|B7LWF6|MURG_ESCF3	Glyco_transf_28
+7.1e-37	131.2	sp|A7MIE5|MURG_ENTS8	Glyco_transf_28
+7.4e-37	131.2	sp|C6DEU3|MURG_PECCP	Glyco_transf_28
+8.3e-37	131.0	sp|Q88V81|MURG_LACPL	Glyco_transf_28
+8.9e-37	130.9	sp|Q8Z9G9|MURG_SALTI	Glyco_transf_28
+8.9e-37	130.9	sp|B4F111|MURG_PROMH	Glyco_transf_28
+9.9e-37	130.7	sp|A0L1P2|MURG_SHESA	Glyco_transf_28
+9.9e-37	130.7	sp|Q0HZR6|MURG_SHESR	Glyco_transf_28
+1.3e-36	130.4	sp|B5BLC2|MURG_SALPK	Glyco_transf_28
+1.3e-36	130.4	sp|Q5PDC8|MURG_SALPA	Glyco_transf_28
+1.3e-36	130.4	sp|Q9K9T0|MURG_BACHD	Glyco_transf_28
+1.4e-36	130.3	sp|Q8Y5M2|MURG_LISMO	Glyco_transf_28
+1.7e-36	130.0	sp|A9MZL9|MURG_SALPB	Glyco_transf_28
+1.7e-36	130.0	sp|B4TJ87|MURG_SALHS	Glyco_transf_28
+1.7e-36	130.0	sp|B4TXH8|MURG_SALSV	Glyco_transf_28
+1.7e-36	130.0	sp|B5F7W4|MURG_SALA4	Glyco_transf_28
+1.7e-36	130.0	sp|Q8ZRU3|MURG_SALTY	Glyco_transf_28
+1.7e-36	130.0	sp|B4SU50|MURG_SALNS	Glyco_transf_28
+1.7e-36	130.0	sp|A1REZ6|MURG_SHESW	Glyco_transf_28
+1.7e-36	130.0	sp|A4Y2N6|MURG_SHEPC	Glyco_transf_28
+1.7e-36	130.0	sp|A6T4N3|MURG_KLEP7	Glyco_transf_28
+1.7e-36	129.9	sp|B5RH64|MURG_SALG2	Glyco_transf_28
+1.8e-36	129.9	sp|A8ALK6|MURG_CITK8	Glyco_transf_28
+1.8e-36	129.9	sp|Q57TD0|MURG_SALCH	Glyco_transf_28
+1.8e-36	129.9	sp|A6WID1|MURG_SHEB8	Glyco_transf_28
+1.8e-36	129.9	sp|A9KY29|MURG_SHEB9	Glyco_transf_28
+1.8e-36	129.9	sp|B8E698|MURG_SHEB2	Glyco_transf_28
+2e-36	129.8	sp|B5Y1U7|MURG_KLEP3	Glyco_transf_28
+2.2e-36	129.6	sp|A3CZM1|MURG_SHEB5	Glyco_transf_28
+2.4e-36	129.5	sp|Q7U336|MURG_HAEDU	Glyco_transf_28
+2.4e-36	129.5	sp|B7VJ03|MURG_VIBSL	Glyco_transf_28
+2.5e-36	129.5	sp|Q0I1D3|MURG_HAES1	Glyco_transf_28
+2.5e-36	129.4	sp|B5FI72|MURG_SALDC	Glyco_transf_28
+2.6e-36	129.4	sp|A2RJQ4|MURG_LACLM	Glyco_transf_28
+2.6e-36	129.4	sp|Q02XY0|MURG_LACLS	Glyco_transf_28
+2.7e-36	129.3	sp|B7MNU9|MURG_ECO81	Glyco_transf_28
+2.7e-36	129.3	sp|B7NHJ6|MURG_ECO7I	Glyco_transf_28
+2.7e-36	129.3	sp|B7UIE0|MURG_ECO27	Glyco_transf_28
+2.7e-36	129.3	sp|Q0TLP9|MURG_ECOL5	Glyco_transf_28
+2.7e-36	129.3	sp|Q8FL64|MURG_ECOL6	Glyco_transf_28
+2.9e-36	129.2	sp|A1A7D5|MURG_ECOK1	Glyco_transf_28
+2.9e-36	129.2	sp|B7MAL3|MURG_ECO45	Glyco_transf_28
+2.9e-36	129.2	sp|Q1RGA5|MURG_ECOUT	Glyco_transf_28
+3.1e-36	129.1	sp|Q6D0I3|MURG_ERWCT	Glyco_transf_28
+3.1e-36	129.1	sp|B5YZC6|MURG_ECO5E	Glyco_transf_28
+3.1e-36	129.1	sp|Q8X9Y8|MURG_ECO57	Glyco_transf_28
+3.1e-36	129.1	sp|A7ZHI1|MURG_ECO24	Glyco_transf_28
+3.1e-36	129.1	sp|B1LG27|MURG_ECOSM	Glyco_transf_28
+3.1e-36	129.1	sp|B6HZ67|MURG_ECOSE	Glyco_transf_28
+3.1e-36	129.1	sp|B7M133|MURG_ECO8A	Glyco_transf_28
+3.1e-36	129.1	sp|B7N7W3|MURG_ECOLU	Glyco_transf_28
+3.1e-36	129.1	sp|Q326E5|MURG_SHIBS	Glyco_transf_28
+3.1e-36	129.1	sp|Q3Z5R9|MURG_SHISS	Glyco_transf_28
+3.2e-36	129.1	sp|Q32K02|MURG_SHIDS	Glyco_transf_28
+3.2e-36	129.1	sp|B2U295|MURG_SHIB3	Glyco_transf_28
+3.2e-36	129.1	sp|B1IR88|MURG_ECOLC	Glyco_transf_28
+3.2e-36	129.1	sp|B1XC67|MURG_ECODH	Glyco_transf_28
+3.2e-36	129.1	sp|C4ZRI5|MURG_ECOBW	Glyco_transf_28
+3.2e-36	129.1	sp|P17443|MURG_ECOLI	Glyco_transf_28
+3.2e-36	129.1	sp|A7ZW42|MURG_ECOHS	Glyco_transf_28
+3.2e-36	129.1	sp|A4TQ83|MURG_YERPP	Glyco_transf_28
+3.5e-36	129.0	sp|Q9CF92|MURG_LACLA	Glyco_transf_28
+3.7e-36	128.9	sp|B5R2M4|MURG_SALEP	Glyco_transf_28
+3.8e-36	128.8	sp|Q0T8A7|MURG_SHIF8	Glyco_transf_28
+3.8e-36	128.8	sp|Q83MN4|MURG_SHIFL	Glyco_transf_28
+4.1e-36	128.7	sp|Q8CX35|MURG_SHEON	Glyco_transf_28
+4.3e-36	128.7	sp|B8DBP8|MURG_LISMH	Glyco_transf_28
+4.6e-36	128.6	sp|A0AKD5|MURG_LISW6	Glyco_transf_28
+5.2e-36	128.4	sp|Q9ZBA5|MURG_STRCO	Glyco_transf_28
+5.5e-36	128.3	sp|Q929Y2|MURG_LISIN	Glyco_transf_28
+5.8e-36	128.3	sp|B8F3B6|MURG_HAEPS	Glyco_transf_28
+5.9e-36	128.2	sp|Q0HE83|MURG_SHESM	Glyco_transf_28
+6e-36	128.2	sp|C1KWY8|MURG_LISMC	Glyco_transf_28
+6e-36	128.2	sp|Q71XX8|MURG_LISMF	Glyco_transf_28
+6.4e-36	128.1	sp|A1S2F9|MURG_SHEAM	Glyco_transf_28
+9.6e-36	127.5	sp|A5UCW8|MURG_HAEIE	Glyco_transf_28
+9.8e-36	127.5	sp|Q03QH5|MURG_LACBA	Glyco_transf_28
+1e-35	127.4	sp|Q8DEL0|MURG_VIBVU	Glyco_transf_28
+1e-35	127.4	sp|Q7MNV1|MURG_VIBVY	Glyco_transf_28
+1.3e-35	127.2	sp|Q3IFY0|MURG_PSEHT	Glyco_transf_28
+1.3e-35	127.1	sp|B7LFW0|MURG_ECO55	Glyco_transf_28
+1.4e-35	127.0	sp|B1KKX7|MURG_SHEWM	Glyco_transf_28
+2.3e-35	126.3	sp|Q49929|Y2348_MYCLE	Glyco_transf_28
+2.3e-35	126.3	sp|Q7N147|MURG_PHOLL	Glyco_transf_28
+2.3e-35	126.3	sp|A8H984|MURG_SHEPA	Glyco_transf_28
+2.6e-35	126.1	sp|Q820F6|MURG_STRAW	Glyco_transf_28
+2.8e-35	126.1	sp|Q1WTA0|MURG_LACS1	Glyco_transf_28
+3e-35	125.9	sp|Q9X4H4|MURG_STRCU	Glyco_transf_28
+4e-35	125.6	sp|Q12SC6|MURG_SHEDO	Glyco_transf_28
+4e-35	125.5	sp|P57817|MURG_PASMU	Glyco_transf_28
+4.3e-35	125.4	sp|Q87SG4|MURG_VIBPA	Glyco_transf_28
+4.4e-35	125.4	sp|B0TQN7|MURG_SHEHH	Glyco_transf_28
+4.7e-35	125.3	sp|C4L5U5|MURG_EXISA	Glyco_transf_28
+5.3e-35	125.1	sp|A9M2H3|MURG_NEIM0	Glyco_transf_28
+7.1e-35	124.7	sp|Q6LMF6|MURG_PHOPR	Glyco_transf_28
+8.4e-35	124.5	sp|Q5E2Q0|MURG_VIBF1	Glyco_transf_28
+8.7e-35	124.4	sp|P64865|Y1524_MYCTU	Glyco_transf_28
+8.7e-35	124.4	sp|P64866|Y1551_MYCBO	Glyco_transf_28
+9e-35	124.4	sp|B5FB35|MURG_VIBFM	Glyco_transf_28
+9.6e-35	124.3	sp|B2GB78|MURG_LACF3	Glyco_transf_28
+1e-34	124.2	sp|B6ELH5|MURG_ALISL	Glyco_transf_28
+1.1e-34	124.1	sp|B8CWJ6|MURG_HALOH	Glyco_transf_28
+1.1e-34	124.1	sp|A7MXR6|MURG_VIBHB	Glyco_transf_28
+1.2e-34	124.1	sp|A5VJ33|MURG_LACRD	Glyco_transf_28
+1.2e-34	124.1	sp|B2G6K5|MURG_LACRJ	Glyco_transf_28
+1.4e-34	123.8	sp|Q182Y6|MURG_CLOD6	Glyco_transf_28
+1.4e-34	123.8	sp|Q2NVV1|MURG_SODGM	Glyco_transf_28
+1.4e-34	123.8	sp|Q07WI5|MURG_SHEFN	Glyco_transf_28
+1.4e-34	123.8	sp|A1KVL3|MURG_NEIMF	Glyco_transf_28
+1.5e-34	123.7	sp|Q9K0Y2|MURG_NEIMB	Glyco_transf_28
+1.8e-34	123.4	sp|B8CNL1|MURG_SHEPW	Glyco_transf_28
+2e-34	123.3	sp|C4LA25|MURG_TOLAT	Glyco_transf_28
+2e-34	123.3	sp|Q9F1N0|MURG_SHEVI	Glyco_transf_28
+2.6e-34	122.9	sp|A5F5M9|MURG_VIBC3	Glyco_transf_28
+2.7e-34	122.9	sp|Q03W35|MURG_LEUMM	Glyco_transf_28
+2.8e-34	122.8	sp|A3Q1L8|MURG_MYCSJ	Glyco_transf_28
+2.8e-34	122.8	sp|A1UI54|MURG_MYCSK	Glyco_transf_28
+2.8e-34	122.8	sp|Q1B6X1|MURG_MYCSS	Glyco_transf_28
+3.3e-34	122.6	sp|C3LQU6|MURG_VIBCM	Glyco_transf_28
+3.3e-34	122.6	sp|Q9KPG7|MURG_VIBCH	Glyco_transf_28
+4.3e-34	122.2	sp|A8FQA0|MURG_SHESH	Glyco_transf_28
+6.8e-34	121.5	sp|B4RQC5|MURG_NEIG2	Glyco_transf_28
+6.8e-34	121.5	sp|Q5F6L8|MURG_NEIG1	Glyco_transf_28
+7.6e-34	121.4	sp|B1I4C4|MURG_DESAP	Glyco_transf_28
+8e-34	121.3	sp|Q6A9Q2|MURG_PROAC	Glyco_transf_28
+8.6e-34	121.2	sp|B3WDY2|MURG_LACCB	Glyco_transf_28
+8.6e-34	121.2	sp|Q039R7|MURG_LACC3	Glyco_transf_28
+9e-34	121.2	sp|A4J2B1|MURG_DESRM	Glyco_transf_28
+9.5e-34	121.1	sp|Q47VQ9|MURG_COLP3	Glyco_transf_28
+1.1e-33	120.9	sp|B2A2H2|MURG_NATTJ	Glyco_transf_28
+1.7e-33	120.3	sp|Q6NGC8|MURG_CORDI	Glyco_transf_28
+1.7e-33	120.2	sp|B4RWX9|MURG_ALTMD	Glyco_transf_28
+1.8e-33	120.2	sp|Q9JSZ7|MURG_NEIMA	Glyco_transf_28
+1.9e-33	120.1	sp|B0KFS6|MURG_PSEPG	Glyco_transf_28
+2.5e-33	119.7	sp|A4XQS4|MURG_PSEMY	Glyco_transf_28
+2.5e-33	119.7	sp|Q48EF8|MURG_PSE14	Glyco_transf_28
+2.6e-33	119.7	sp|Q8R9G6|MURG_THETN	Glyco_transf_28
+2.8e-33	119.6	sp|A5W8Q0|MURG_PSEP1	Glyco_transf_28
+2.8e-33	119.5	sp|Q1I5B8|MURG_PSEE4	Glyco_transf_28
+2.9e-33	119.5	sp|Q87WY5|MURG_PSESM	Glyco_transf_28
+3.4e-33	119.3	sp|C3L230|MURG_CLOB6	Glyco_transf_28
+3.5e-33	119.3	sp|A1WC06|MURG_ACISJ	Glyco_transf_28
+3.5e-33	119.3	sp|B9MFR2|MURG_DIAST	Glyco_transf_28
+3.6e-33	119.2	sp|B8ZQQ0|MURG_MYCLB	Glyco_transf_28
+3.6e-33	119.2	sp|O69552|MURG_MYCLE	Glyco_transf_28
+3.7e-33	119.2	sp|Q893R7|MURG_CLOTE	Glyco_transf_28
+3.8e-33	119.1	sp|A7GGX9|MURG_CLOBL	Glyco_transf_28
+3.8e-33	119.1	sp|B1IKH3|MURG_CLOBK	Glyco_transf_28
+3.8e-33	119.1	sp|C1FUF9|MURG_CLOBJ	Glyco_transf_28
+3.8e-33	119.1	sp|A5I5J5|MURG_CLOBH	Glyco_transf_28
+3.8e-33	119.1	sp|A7FX11|MURG_CLOB1	Glyco_transf_28
+3.8e-33	119.1	sp|Q4ZNZ0|MURG_PSEU2	Glyco_transf_28
+4.3e-33	119.0	sp|A4XI04|MURG_CALS8	Glyco_transf_28
+4.6e-33	118.9	sp|A0R016|MURG_MYCS2	Glyco_transf_28
+5.1e-33	118.7	sp|A8YUN9|MURG_LACH4	Glyco_transf_28
+5.6e-33	118.6	sp|A1SL80|MURG_NOCSJ	Glyco_transf_28
+5.8e-33	118.5	sp|Q88N76|MURG_PSEPK	Glyco_transf_28
+8.3e-33	118.0	sp|B1KYH7|MURG_CLOBM	Glyco_transf_28
+8.7e-33	118.0	sp|Q24TE6|MURG_DESHY	Glyco_transf_28
+9e-33	117.9	sp|Q3K744|MURG_PSEPF	Glyco_transf_28
+9.4e-33	117.9	sp|B1J3L2|MURG_PSEPW	Glyco_transf_28
+1e-32	117.8	sp|B0K3H0|MURG_THEPX	Glyco_transf_28
+1e-32	117.8	sp|B0K8K7|MURG_THEP3	Glyco_transf_28
+1e-32	117.7	sp|A3DE27|MURG_CLOTH	Glyco_transf_28
+1.4e-32	117.3	sp|A1TAW8|MURG_MYCVP	Glyco_transf_28
+1.6e-32	117.1	sp|B8FT56|MURG_DESHD	Glyco_transf_28
+2.3e-32	116.6	sp|Q9RWP0|MURG_DEIRA	Glyco_transf_28
+2.5e-32	116.5	sp|B2I1J5|MURG_ACIBC	Glyco_transf_28
+2.5e-32	116.5	sp|B0V9F5|MURG_ACIBY	Glyco_transf_28
+2.5e-32	116.5	sp|B7GV73|MURG_ACIB3	Glyco_transf_28
+2.5e-32	116.5	sp|B7ICE5|MURG_ACIB5	Glyco_transf_28
+2.5e-32	116.5	sp|A5D145|MURG_PELTS	Glyco_transf_28
+2.9e-32	116.3	sp|A3M9Y1|MURG_ACIBT	Glyco_transf_28
+2.9e-32	116.3	sp|A9KK83|MURG_CLOPH	Glyco_transf_28
+3.6e-32	116.0	sp|C3KCT0|MURG_PSEFS	Glyco_transf_28
+4.5e-32	115.7	sp|Q03EY2|MURG_PEDPA	Glyco_transf_28
+4.8e-32	115.6	sp|A0QF52|MURG_MYCA1	Glyco_transf_28
+5.3e-32	115.4	sp|Q04B72|MURG_LACDB	Glyco_transf_28
+5.3e-32	115.4	sp|Q1GAT5|MURG_LACDA	Glyco_transf_28
+6.7e-32	115.1	sp|Q4K6J3|MURG_PSEF5	Glyco_transf_28
+7.5e-32	114.9	sp|B0VNZ9|MURG_ACIBS	Glyco_transf_28
+8.8e-32	114.7	sp|Q5FKV2|MURG_LACAC	Glyco_transf_28
+1.1e-31	114.5	sp|A0KPX2|MURG_AERHH	Glyco_transf_28
+1.2e-31	114.3	sp|A1WYU3|MURG_HALHL	Glyco_transf_28
+1.2e-31	114.3	sp|Q73YQ8|MURG_MYCPA	Glyco_transf_28
+1.2e-31	114.3	sp|B1MXW0|MURG_LEUCK	Glyco_transf_28
+1.3e-31	114.2	sp|Q604V7|MURG_METCA	Glyco_transf_28
+1.3e-31	114.2	sp|B2V1X5|MURG_CLOBA	Glyco_transf_28
+1.7e-31	113.8	sp|A1U3F8|MURG_MARAV	Glyco_transf_28
+2.1e-31	113.5	sp|A8MH36|MURG_ALKOO	Glyco_transf_28
+2.1e-31	113.5	sp|B2TLE0|MURG_CLOBB	Glyco_transf_28
+2.6e-31	113.2	sp|A4SI56|MURG_AERS4	Glyco_transf_28
+3e-31	113.0	sp|C4Z1B5|MURG_EUBE2	Glyco_transf_28
+3.1e-31	113.0	sp|C1DQ99|MURG_AZOVD	Glyco_transf_28
+3.1e-31	112.9	sp|Q6F703|MURG_ACIAD	Glyco_transf_28
+3.2e-31	112.9	sp|B1YIT7|MURG_EXIS2	Glyco_transf_28
+5e-31	112.3	sp|C1CW40|MURG_DEIDV	Glyco_transf_28
+5.1e-31	112.2	sp|Q47QW9|MURG_THEFY	Glyco_transf_28
+5.3e-31	112.2	sp|A0Q182|MURG_CLONN	Glyco_transf_28
+5.3e-31	112.2	sp|A1KKJ6|MURG_MYCBP	Glyco_transf_28
+5.3e-31	112.2	sp|C1AQ69|MURG_MYCBT	Glyco_transf_28
+5.3e-31	112.2	sp|Q7VEP8|MURG_MYCBO	Glyco_transf_28
+6.3e-31	111.9	sp|B0S0Z5|MURG_FINM2	Glyco_transf_28
+7.7e-31	111.7	sp|B7UZJ0|MURG_PSEA8	Glyco_transf_28
+7.7e-31	111.7	sp|Q02H28|MURG_PSEAB	Glyco_transf_28
+7.7e-31	111.7	sp|Q9HW01|MURG_PSEAE	Glyco_transf_28
+7.8e-31	111.6	sp|A0PTI7|MURG_MYCUA	Glyco_transf_28
+8.2e-31	111.6	sp|A6VB85|MURG_PSEA7	Glyco_transf_28
+8.5e-31	111.5	sp|A9KER3|MURG_COXBN	Glyco_transf_28
+8.6e-31	111.5	sp|A9NA44|MURG_COXBR	Glyco_transf_28
+8.6e-31	111.5	sp|B6J2Q3|MURG_COXB2	Glyco_transf_28
+8.6e-31	111.5	sp|B6J5K3|MURG_COXB1	Glyco_transf_28
+8.6e-31	111.5	sp|Q820X3|MURG_COXBU	Glyco_transf_28
+9.1e-31	111.4	sp|Q042P9|MURG_LACGA	Glyco_transf_28
+9.6e-31	111.4	sp|B2HGR6|MURG_MYCMM	Glyco_transf_28
+1e-30	111.2	sp|Q0VS02|MURG_ALCBS	Glyco_transf_28
+1.1e-30	111.2	sp|Q0RNP1|MURG_FRAAA	Glyco_transf_28
+1.2e-30	111.0	sp|Q2RK79|MURG_MOOTA	Glyco_transf_28
+1.3e-30	111.0	sp|Q1IXV9|MURG_DEIGD	Glyco_transf_28
+1.3e-30	111.0	sp|Q74JY4|MURG_LACJO	Glyco_transf_28
+1.5e-30	110.7	sp|A5MZ55|MURG_CLOK5	Glyco_transf_28
+1.8e-30	110.5	sp|A1TKD1|MURG_ACIAC	Glyco_transf_28
+1.9e-30	110.4	sp|B7J0L2|MURG_BORBZ	Glyco_transf_28
+1.9e-30	110.4	sp|O51708|MURG_BORBU	Glyco_transf_28
+2e-30	110.3	sp|Q15Q17|MURG_PSEA6	Glyco_transf_28
+2.1e-30	110.3	sp|A7A179|ATG26_YEAS7	Glyco_transf_28
+2.3e-30	110.1	sp|Q1D0T0|MURG_MYXXD	Glyco_transf_28
+2.5e-30	110.0	sp|Q1QVG7|MURG_CHRSD	Glyco_transf_28
+2.6e-30	110.0	sp|A4VIH8|MURG_PSEU5	Glyco_transf_28
+2.7e-30	109.9	sp|Q38XM8|MURG_LACSS	Glyco_transf_28
+3.3e-30	109.6	sp|A1SU19|MURG_PSYIN	Glyco_transf_28
+3.4e-30	109.6	sp|Q31I59|MURG_THICR	Glyco_transf_28
+3.4e-30	109.6	sp|Q04ET0|MURG_OENOB	Glyco_transf_28
+3.4e-30	109.6	sp|Q2KVG0|MURG_BORA1	Glyco_transf_28
+3.6e-30	109.5	sp|Q5R0M1|MURG_IDILO	Glyco_transf_28
+3.7e-30	109.5	sp|Q5WAE4|MURG_BACSK	Glyco_transf_28
+3.7e-30	109.5	sp|Q2JD50|MURG_FRASC	Glyco_transf_28
+3.8e-30	109.4	sp|B5ELC3|MURG_ACIF5	Glyco_transf_28
+3.8e-30	109.4	sp|B7J3V2|MURG_ACIF2	Glyco_transf_28
+3.9e-30	109.4	sp|Q0SM88|MURG_BORAP	Glyco_transf_28
+4.2e-30	109.3	sp|Q4FQV9|MURG_PSYA2	Glyco_transf_28
+4.5e-30	109.2	sp|Q730T5|MURG2_BACC1	Glyco_transf_28
+4.8e-30	109.1	sp|Q1LSW5|MURG_BAUCH	Glyco_transf_28
+5.4e-30	108.9	sp|Q9WY74|MURG_THEMA	Glyco_transf_28
+5.5e-30	108.9	sp|B1L9S1|MURG_THESQ	Glyco_transf_28
+5.5e-30	108.9	sp|A5IKI9|MURG_THEP1	Glyco_transf_28
+5.9e-30	108.8	sp|A4FLW0|MURG_SACEN	Glyco_transf_28
+6.6e-30	108.6	sp|Q9RNM6|MURG_ZYMMO	Glyco_transf_28
+7.1e-30	108.5	sp|Q06321|ATG26_YEAST	Glyco_transf_28
+7.2e-30	108.5	sp|Q9PF81|MURG_XYLFA	Glyco_transf_28
+7.9e-30	108.4	sp|Q5GW41|MURG_XANOR	Glyco_transf_28
+8.9e-30	108.2	sp|B2S3B6|MURG_TREPS	Glyco_transf_28
+8.9e-30	108.2	sp|O83535|MURG_TREPA	Glyco_transf_28
+9.2e-30	108.2	sp|Q0AJE1|MURG_NITEC	Glyco_transf_28
+1e-29	108.1	sp|B3PCM0|MURG_CELJU	Glyco_transf_28
+1.2e-29	107.8	sp|A5G8K0|MURG_GEOUR	Glyco_transf_28
+1.2e-29	107.8	sp|A5U4I0|MURG_MYCTA	Glyco_transf_28
+1.2e-29	107.8	sp|O06224|MURG_MYCTU	Glyco_transf_28
+1.3e-29	107.7	sp|Q4JW95|MURG_CORJK	Glyco_transf_28
+1.4e-29	107.6	sp|Q97GY4|MURG_CLOAB	Glyco_transf_28
+1.5e-29	107.4	sp|Q9Z702|MURG_CHLPN	Glyco_transf_28
+1.6e-29	107.4	sp|Q1Q944|MURG_PSYCK	Glyco_transf_28
+1.7e-29	107.3	sp|C0RE70|MURG_BRUMB	Glyco_transf_28
+1.7e-29	107.3	sp|Q8YI66|MURG_BRUME	Glyco_transf_28
+1.7e-29	107.3	sp|Q3BXF2|MURG_XANC5	Glyco_transf_28
+1.9e-29	107.2	sp|B2S6Q4|MURG_BRUA1	Glyco_transf_28
+1.9e-29	107.2	sp|Q2YLY5|MURG_BRUA2	Glyco_transf_28
+1.9e-29	107.2	sp|Q57C78|MURG_BRUAB	Glyco_transf_28
+1.9e-29	107.1	sp|Q660A8|MURG_BORGA	Glyco_transf_28
+1.9e-29	107.1	sp|B8I6H3|MURG_CLOCE	Glyco_transf_28
+1.9e-29	107.1	sp|A5VRH7|MURG_BRUO2	Glyco_transf_28
+1.9e-29	107.1	sp|B0CHM0|MURG_BRUSI	Glyco_transf_28
+2e-29	107.1	sp|A0JV94|MURG_ARTS2	Glyco_transf_28
+2e-29	107.1	sp|A6TS61|MURG_ALKMQ	Glyco_transf_28
+2e-29	107.1	sp|C5D4C2|MURG_GEOSW	Glyco_transf_28
+2e-29	107.1	sp|A9M690|MURG_BRUC2	Glyco_transf_28
+2e-29	107.0	sp|Q8PPA8|MURG_XANAC	Glyco_transf_28
+2e-29	107.0	sp|Q8CY39|MURG_BRUSU	Glyco_transf_28
+2.2e-29	106.9	sp|A1WRL1|MURG_VEREI	Glyco_transf_28
+2.7e-29	106.7	sp|Q812T8|MURG2_BACCR	Glyco_transf_28
+2.9e-29	106.6	sp|B0U4Z7|MURG_XYLFM	Glyco_transf_28
+3.1e-29	106.5	sp|A4IJS4|MURG_GEOTN	Glyco_transf_28
+3.2e-29	106.4	sp|Q2NZB8|MURG_XANOM	Glyco_transf_28
+4.6e-29	105.9	sp|A5FIY3|MURG_FLAJ1	Glyco_transf_28
+6e-29	105.5	sp|Q39JX0|MURG_BURS3	Glyco_transf_28
+6.9e-29	105.3	sp|C1A0X5|MURG_RHOE4	Glyco_transf_28
+7.3e-29	105.3	sp|Q748D6|MURG_GEOSL	Glyco_transf_28
+8.2e-29	105.1	sp|Q820Y4|MURG_TROWT	Glyco_transf_28
+8.2e-29	105.1	sp|Q83HK1|MURG_TROW8	Glyco_transf_28
+8.3e-29	105.1	sp|A4QFM3|MURG_CORGB	Glyco_transf_28
+8.5e-29	105.0	sp|Q39YL9|MURG_GEOMG	Glyco_transf_28
+8.5e-29	105.0	sp|A1R0I9|MURG_BORT9	Glyco_transf_28
+8.7e-29	105.0	sp|Q3AAE6|MURG_CARHZ	Glyco_transf_28
+9.1e-29	104.9	sp|Q8NNN5|MURG_CORGL	Glyco_transf_28
+9.1e-29	104.9	sp|Q0TNP7|MURG_CLOP1	Glyco_transf_28
+9.1e-29	104.9	sp|Q8XIQ1|MURG_CLOPE	Glyco_transf_28
+9.4e-29	104.9	sp|Q0SRB4|MURG_CLOPS	Glyco_transf_28
+1e-28	104.8	sp|Q5YYX9|MURG_NOCFA	Glyco_transf_28
+1.1e-28	104.7	sp|A7HH67|MURG_ANADF	Glyco_transf_28
+1.1e-28	104.6	sp|Q82VS3|MURG_NITEU	Glyco_transf_28
+1.2e-28	104.6	sp|B0RVA5|MURG_XANCB	Glyco_transf_28
+1.2e-28	104.6	sp|Q2SZI3|MURG_BURTA	Glyco_transf_28
+1.2e-28	104.5	sp|Q11GS5|MURG_MESSB	Glyco_transf_28
+1.3e-28	104.5	sp|Q4UQX0|MURG_XANC8	Glyco_transf_28
+1.3e-28	104.5	sp|Q8PCK0|MURG_XANCP	Glyco_transf_28
+1.3e-28	104.4	sp|A3NZL5|MURG_BURP0	Glyco_transf_28
+1.5e-28	104.3	sp|Q98KB3|MURG_RHILO	Glyco_transf_28
+1.5e-28	104.2	sp|Q0A6K2|MURG_ALHEH	Glyco_transf_28
+1.5e-28	104.2	sp|A5IGA6|MURG_LEGPC	Glyco_transf_28
+1.6e-28	104.2	sp|Q5L3H6|MURG_GEOKA	Glyco_transf_28
+1.7e-28	104.1	sp|A0LTM3|MURG_ACIC1	Glyco_transf_28
+2.1e-28	103.7	sp|Q3A2G6|MURG_PELCD	Glyco_transf_28
+2.2e-28	103.7	sp|Q0AYQ8|MURG_SYNWW	Glyco_transf_28
+2.5e-28	103.5	sp|Q1LIM6|MURG_RALME	Glyco_transf_28
+2.6e-28	103.5	sp|Q92NL9|MURG_RHIME	Glyco_transf_28
+2.8e-28	103.4	sp|Q72JP9|MURG_THET2	Glyco_transf_28
+2.8e-28	103.4	sp|A1R5F8|MURG_ARTAT	Glyco_transf_28
+2.9e-28	103.3	sp|Q87AF9|MURG_XYLFT	Glyco_transf_28
+3e-28	103.3	sp|B2I9B3|MURG_XYLF2	Glyco_transf_28
+3.3e-28	103.1	sp|A6WZQ6|MURG_OCHA4	Glyco_transf_28
+3.3e-28	103.1	sp|A1V0R8|MURG_BURMS	Glyco_transf_28
+3.3e-28	103.1	sp|A2S5U5|MURG_BURM9	Glyco_transf_28
+3.3e-28	103.1	sp|A3MR63|MURG_BURM7	Glyco_transf_28
+3.3e-28	103.1	sp|Q62GS7|MURG_BURMA	Glyco_transf_28
+3.3e-28	103.1	sp|Q63QJ7|MURG_BURPS	Glyco_transf_28
+3.3e-28	103.1	sp|A3NDW4|MURG_BURP6	Glyco_transf_28
+3.9e-28	102.9	sp|Q3J789|MURG_NITOC	Glyco_transf_28
+3.9e-28	102.9	sp|Q8K9T4|MURG_BUCAP	Glyco_transf_28
+4e-28	102.9	sp|B9M172|MURG_GEOSF	Glyco_transf_28
+4e-28	102.9	sp|B5EBQ1|MURG_GEOBB	Glyco_transf_28
+4.2e-28	102.8	sp|Q3JND8|MURG_BURP1	Glyco_transf_28
+4.2e-28	102.8	sp|Q1IKH0|MURG_ACIBL	Glyco_transf_28
+4.2e-28	102.8	sp|P74657|MURG_SYNY3	Glyco_transf_28
+4.4e-28	102.7	sp|B1YSS4|MURG_BURA4	Glyco_transf_28
+4.4e-28	102.7	sp|Q0BIK1|MURG_BURCM	Glyco_transf_28
+5.7e-28	102.4	sp|Q6HDR3|MURG2_BACHK	Glyco_transf_28
+5.7e-28	102.4	sp|Q81JE6|MURG2_BACAN	Glyco_transf_28
+6.2e-28	102.2	sp|Q0K6M4|MURG_RALEH	Glyco_transf_28
+6.4e-28	102.2	sp|Q5WY98|MURG_LEGPL	Glyco_transf_28
+6.5e-28	102.2	sp|A0RIN0|MURG3_BACAH	Glyco_transf_28
+6.7e-28	102.1	sp|Q7W4B4|MURG_BORPA	Glyco_transf_28
+6.7e-28	102.1	sp|Q5X6U5|MURG_LEGPA	Glyco_transf_28
+6.7e-28	102.1	sp|Q5ZXC4|MURG_LEGPH	Glyco_transf_28
+6.9e-28	102.1	sp|A6M1F0|MURG_CLOB8	Glyco_transf_28
+7.7e-28	101.9	sp|B8D7B9|MURG_BUCAT	Glyco_transf_28
+7.7e-28	101.9	sp|P57311|MURG_BUCAI	Glyco_transf_28
+8.3e-28	101.8	sp|Q7VUQ3|MURG_BORPE	Glyco_transf_28
+8.4e-28	101.8	sp|Q7WFS2|MURG_BORBR	Glyco_transf_28
+8.7e-28	101.8	sp|B2SYX6|MURG_BURPP	Glyco_transf_28
+9.7e-28	101.6	sp|B0B8Y7|MURG_CHLT2	Glyco_transf_28
+9.7e-28	101.6	sp|B0BAL6|MURG_CHLTB	Glyco_transf_28
+1e-27	101.5	sp|B8D914|MURG_BUCA5	Glyco_transf_28
+1.1e-27	101.5	sp|Q47AA4|MURG_DECAR	Glyco_transf_28
+1.2e-27	101.4	sp|A4JB94|MURG_BURVG	Glyco_transf_28
+1.3e-27	101.2	sp|Q2Y638|MURG_NITMU	Glyco_transf_28
+1.5e-27	101.0	sp|B2JHG0|MURG_BURP8	Glyco_transf_28
+1.5e-27	101.0	sp|O84766|MURG_CHLTR	Glyco_transf_28
+1.5e-27	101.0	sp|Q3KKT1|MURG_CHLTA	Glyco_transf_28
+1.8e-27	100.8	sp|A1AU61|MURG_PELPD	Glyco_transf_28
+1.8e-27	100.8	sp|Q2LR48|MURG_SYNAS	Glyco_transf_28
+1.8e-27	100.7	sp|Q2G995|MURG_NOVAD	Glyco_transf_28
+1.9e-27	100.7	sp|A5EY03|MURG_DICNV	Glyco_transf_28
+2e-27	100.6	sp|Q8FNU0|MURG_COREF	Glyco_transf_28
+2e-27	100.6	sp|A9AI96|MURG_BURM1	Glyco_transf_28
+2.3e-27	100.4	sp|Q21SW9|MURG_RHOFD	Glyco_transf_28
+2.6e-27	100.2	sp|B5YFT4|MURG_THEYD	Glyco_transf_28
+2.7e-27	100.2	sp|A7KAK6|ATG26_PICAN	Glyco_transf_28
+3.1e-27	100.0	sp|Q46WZ4|MURG_RALEJ	Glyco_transf_28
+3.1e-27	100.0	sp|Q13TZ2|MURG_BURXL	Glyco_transf_28
+3.3e-27	99.9	sp|C6DZK6|MURG_GEOSM	Glyco_transf_28
+4.4e-27	99.5	sp|A8GVJ7|MURG_RICB8	Glyco_transf_28
+4.4e-27	99.5	sp|Q1RI55|MURG_RICBR	Glyco_transf_28
+5.2e-27	99.2	sp|B5ZWJ4|MURG_RHILW	Glyco_transf_28
+5.4e-27	99.2	sp|B0JFZ1|MURG_MICAN	Glyco_transf_28
+5.8e-27	99.1	sp|Q31KS7|MURG_SYNE7	Glyco_transf_28
+6e-27	99.1	sp|Q5N140|MURG_SYNP6	Glyco_transf_28
+6.4e-27	99.0	sp|Q14I26|MURG_FRAT1	Glyco_transf_28
+6.4e-27	99.0	sp|Q5NGM4|MURG_FRATT	Glyco_transf_28
+6.5e-27	98.9	sp|Q493Q1|MURG_BLOPB	Glyco_transf_28
+6.5e-27	98.9	sp|Q92I58|MURG_RICCN	Glyco_transf_28
+6.5e-27	98.9	sp|C3PND5|MURG_RICAE	Glyco_transf_28
+6.5e-27	98.9	sp|C4K2A6|MURG_RICPU	Glyco_transf_28
+6.6e-27	98.9	sp|B2S1A8|MURG_BORHD	Glyco_transf_28
+6.6e-27	98.9	sp|A8GRZ6|MURG_RICRS	Glyco_transf_28
+6.6e-27	98.9	sp|B0BXF6|MURG_RICRO	Glyco_transf_28
+6.7e-27	98.9	sp|Q3SMH3|MURG_THIDA	Glyco_transf_28
+6.7e-27	98.9	sp|Q21MG9|MURG_SACD2	Glyco_transf_28
+8.7e-27	98.5	sp|B1IAM4|MURG_STRPI	Glyco_transf_28
+8.7e-27	98.5	sp|Q04LK0|MURG_STRP2	Glyco_transf_28
+8.7e-27	98.5	sp|Q8DQM1|MURG_STRR6	Glyco_transf_28
+8.7e-27	98.5	sp|B2IN77|MURG_STRPS	Glyco_transf_28
+8.8e-27	98.5	sp|C1CQG5|MURG_STRZT	Glyco_transf_28
+8.9e-27	98.5	sp|C1CD52|MURG_STRZJ	Glyco_transf_28
+9e-27	98.5	sp|Q634T3|MURG2_BACCZ	Glyco_transf_28
+9e-27	98.5	sp|A1VST6|MURG_POLNA	Glyco_transf_28
+9e-27	98.5	sp|A6UB85|MURG_SINMW	Glyco_transf_28
+9.2e-27	98.5	sp|B9DNZ7|MURG_STACT	Glyco_transf_28
+1e-26	98.3	sp|B4E6J2|MURG_BURCJ	Glyco_transf_28
+1.1e-26	98.3	sp|B1JV78|MURG_BURCC	Glyco_transf_28
+1.1e-26	98.2	sp|C1C649|MURG_STRP7	Glyco_transf_28
+1.1e-26	98.2	sp|Q2S9Z2|MURG_HAHCH	Glyco_transf_28
+1.1e-26	98.2	sp|B5E2Z9|MURG_STRP4	Glyco_transf_28
+1.1e-26	98.2	sp|C1CJF3|MURG_STRZP	Glyco_transf_28
+1.1e-26	98.1	sp|A9I4V2|MURG_BORPD	Glyco_transf_28
+1.3e-26	98.0	sp|B0RIJ3|MURG_CLAMS	Glyco_transf_28
+1.4e-26	97.9	sp|P0CB60|MURG_STRPN	Glyco_transf_28
+1.4e-26	97.9	sp|B8ZMZ7|MURG_STRPJ	Glyco_transf_28
+1.4e-26	97.8	sp|B3PTW0|MURG_RHIE6	Glyco_transf_28
+1.5e-26	97.8	sp|Q0SHS1|MURG_RHOSR	Glyco_transf_28
+1.5e-26	97.7	sp|Q313Q3|MURG_DESDG	Glyco_transf_28
+1.6e-26	97.7	sp|A8F1I4|MURG_RICM5	Glyco_transf_28
+1.6e-26	97.7	sp|A6H195|MURG_FLAPJ	Glyco_transf_28
+1.7e-26	97.6	sp|A0K486|MURG_BURCH	Glyco_transf_28
+1.7e-26	97.6	sp|Q1BZG3|MURG_BURCA	Glyco_transf_28
+1.7e-26	97.6	sp|Q12EL5|MURG_POLSJ	Glyco_transf_28
+1.8e-26	97.5	sp|Q8UDM8|MURG_AGRT5	Glyco_transf_28
+2e-26	97.3	sp|B7K5Z6|MURG_CYAP8	Glyco_transf_28
+2.1e-26	97.3	sp|Q2NCZ0|MURG_ERYLH	Glyco_transf_28
+2.1e-26	97.3	sp|Q9Y751|ATG26_PICPG	Glyco_transf_28
+2.1e-26	97.3	sp|Q5P6Z6|MURG_AZOSE	Glyco_transf_28
+2.3e-26	97.1	sp|B6IRG2|MURG_RHOCS	Glyco_transf_28
+2.4e-26	97.1	sp|A7TF84|ATG26_VANPO	Glyco_transf_28
+2.4e-26	97.1	sp|Q2S528|MURG_SALRD	Glyco_transf_28
+2.5e-26	97.0	sp|B2SGS8|MURG_FRATM	Glyco_transf_28
+2.6e-26	97.0	sp|A4IX64|MURG_FRATW	Glyco_transf_28
+2.7e-26	96.9	sp|Q67Q48|MURG_SYMTH	Glyco_transf_28
+3.1e-26	96.7	sp|Q6C8M8|ATG26_YARLI	Glyco_transf_28
+3.1e-26	96.7	sp|C1AU55|MURG_RHOOB	Glyco_transf_28
+3.2e-26	96.7	sp|B3E3Y2|MURG_GEOLS	Glyco_transf_28
+3.2e-26	96.7	sp|A0Q766|MURG_FRATN	Glyco_transf_28
+3.2e-26	96.7	sp|B1WVP7|MURG_CYAA5	Glyco_transf_28
+3.8e-26	96.5	sp|B0TY93|MURG_FRAP2	Glyco_transf_28
+3.8e-26	96.4	sp|Q68WW7|MURG_RICTY	Glyco_transf_28
+4.1e-26	96.4	sp|Q6GGZ0|MURG_STAAR	Glyco_transf_28
+5e-26	96.1	sp|B9JH51|MURG_AGRRK	Glyco_transf_28
+5.6e-26	95.9	sp|Q6BN88|ATG26_DEBHA	Glyco_transf_28
+6.1e-26	95.8	sp|A7NDC0|MURG_FRATF	Glyco_transf_28
+6.1e-26	95.8	sp|Q0BL37|MURG_FRATO	Glyco_transf_28
+6.1e-26	95.8	sp|Q2A2I7|MURG_FRATH	Glyco_transf_28
+6.5e-26	95.7	sp|A5CS51|MURG_CLAM3	Glyco_transf_28
+6.6e-26	95.7	sp|Q9ZDC0|MURG_RICPR	Glyco_transf_28
+7.1e-26	95.6	sp|Q9ZK59|MURG_HELPJ	Glyco_transf_28
+7.7e-26	95.5	sp|B7KGH1|MURG_CYAP7	Glyco_transf_28
+7.9e-26	95.4	sp|Q4L6C8|MURG_STAHJ	Glyco_transf_28
+9.3e-26	95.2	sp|B4UES1|MURG_ANASK	Glyco_transf_28
+9.8e-26	95.1	sp|B9JY54|MURG_AGRVS	Glyco_transf_28
+1.3e-25	94.7	sp|Q1ME33|MURG_RHIL3	Glyco_transf_28
+1.4e-25	94.6	sp|A8EZ14|MURG_RICCK	Glyco_transf_28
+1.6e-25	94.5	sp|Q5A950|ATG26_CANAL	Glyco_transf_28
+1.6e-25	94.4	sp|Q2IG27|MURG_ANADE	Glyco_transf_28
+2e-25	94.1	sp|B8J8E8|MURG_ANAD2	Glyco_transf_28
+2.1e-25	94.0	sp|C3MEM9|MURG_RHISN	Glyco_transf_28
+2.1e-25	94.0	sp|Q1CSB1|MURG_HELPH	Glyco_transf_28
+2.3e-25	93.9	sp|P59424|MURG_BUCBP	Glyco_transf_28
+2.3e-25	93.9	sp|Q2K6C1|MURG_RHIEC	Glyco_transf_28
+2.4e-25	93.9	sp|O25770|MURG_HELPY	Glyco_transf_28
+2.4e-25	93.9	sp|A0M527|MURG_GRAFK	Glyco_transf_28
+2.4e-25	93.9	sp|B2UUR4|MURG_HELPS	Glyco_transf_28
+2.4e-25	93.8	sp|Q3K2P3|MURG_STRA1	Glyco_transf_28
+2.4e-25	93.8	sp|Q8CX15|MURG_STRA5	Glyco_transf_28
+2.4e-25	93.8	sp|Q8E6P0|MURG_STRA3	Glyco_transf_28
+2.4e-25	93.8	sp|Q7U346|MURG_BLOFL	Glyco_transf_28
+2.7e-25	93.7	sp|Q5HPC0|MURG_STAEQ	Glyco_transf_28
+2.7e-25	93.7	sp|Q8CMM3|MURG_STAES	Glyco_transf_28
+2.9e-25	93.6	sp|Q01Q48|MURG_SOLUE	Glyco_transf_28
+2.9e-25	93.6	sp|B5Z8F1|MURG_HELPG	Glyco_transf_28
+3.1e-25	93.5	sp|Q5L524|MURG_CHLAB	Glyco_transf_28
+3.2e-25	93.5	sp|Q255W4|MURG_CHLFF	Glyco_transf_28
+3.2e-25	93.5	sp|Q820E0|MURG_CHLCV	Glyco_transf_28
+3.3e-25	93.4	sp|Q8XVI7|MURG_RALSO	Glyco_transf_28
+3.6e-25	93.3	sp|Q4ULT6|MURG_RICFE	Glyco_transf_28
+3.9e-25	93.2	sp|Q49XM9|MURG_STAS1	Glyco_transf_28
+3.9e-25	93.2	sp|Q119X8|MURG_TRIEI	Glyco_transf_28
+4e-25	93.2	sp|Q03L97|MURG_STRTD	Glyco_transf_28
+4e-25	93.1	sp|A0L5N1|MURG_MAGSM	Glyco_transf_28
+4.2e-25	93.1	sp|B8H091|MURG_CAUCN	Glyco_transf_28
+4.2e-25	93.1	sp|Q9A5A1|MURG_CAUCR	Glyco_transf_28
+4.4e-25	93.0	sp|A8GNC7|MURG_RICAH	Glyco_transf_28
+4.7e-25	92.9	sp|B5XMA2|MURG_STRPZ	Glyco_transf_28
+4.8e-25	92.9	sp|B6JMZ5|MURG_HELP2	Glyco_transf_28
+5e-25	92.8	sp|A7ERM5|ATG26_SCLS1	Glyco_transf_28
+5.1e-25	92.8	sp|Q7V466|MURG_PROMM	Glyco_transf_28
+5.7e-25	92.7	sp|A2CDG1|MURG_PROM3	Glyco_transf_28
+5.8e-25	92.6	sp|Q5M0D4|MURG_STRT1	Glyco_transf_28
+5.8e-25	92.6	sp|Q5M4Y1|MURG_STRT2	Glyco_transf_28
+5.8e-25	92.6	sp|A6QGX0|MURG_STAAE	Glyco_transf_28
+5.8e-25	92.6	sp|Q2FYL5|MURG_STAA8	Glyco_transf_28
+5.8e-25	92.6	sp|Q5HG02|MURG_STAAC	Glyco_transf_28
+5.8e-25	92.6	sp|Q6G9E3|MURG_STAAS	Glyco_transf_28
+5.8e-25	92.6	sp|Q8NWR4|MURG_STAAW	Glyco_transf_28
+5.8e-25	92.6	sp|A5ISU9|MURG_STAA9	Glyco_transf_28
+5.8e-25	92.6	sp|A6U1N8|MURG_STAA2	Glyco_transf_28
+5.8e-25	92.6	sp|A7X2A2|MURG_STAA1	Glyco_transf_28
+5.8e-25	92.6	sp|P65481|MURG_STAAM	Glyco_transf_28
+5.8e-25	92.6	sp|P65482|MURG_STAAN	Glyco_transf_28
+6e-25	92.6	sp|Q2YY01|MURG_STAAB	Glyco_transf_28
+6.2e-25	92.5	sp|Q7MAW5|MURG_PORGI	Glyco_transf_28
+6.3e-25	92.5	sp|A2RDL0|MURG_STRPG	Glyco_transf_28
+6.4e-25	92.5	sp|Q5XB05|MURG_STRP6	Glyco_transf_28
+7.5e-25	92.3	sp|Q1JAT5|MURG_STRPB	Glyco_transf_28
+7.5e-25	92.3	sp|Q1JKY5|MURG_STRPC	Glyco_transf_28
+9.4e-25	91.9	sp|B2RIF1|MURG_PORG3	Glyco_transf_28
+1e-24	91.8	sp|C0M6J2|MURG_STRE4	Glyco_transf_28
+1.3e-24	91.5	sp|A1UTC5|MURG_BARBK	Glyco_transf_28
+1.3e-24	91.5	sp|C0MD54|MURG_STRS7	Glyco_transf_28
+1.4e-24	91.3	sp|B4U1U4|MURG_STREM	Glyco_transf_28
+1.4e-24	91.3	sp|A5CWW1|MURG_VESOH	Glyco_transf_28
+1.5e-24	91.3	sp|A1A2E9|MURG_BIFAA	Glyco_transf_28
+1.5e-24	91.2	sp|P65483|MURG_STRP1	Glyco_transf_28
+1.5e-24	91.2	sp|P65484|MURG_STRP8	Glyco_transf_28
+1.5e-24	91.2	sp|Q48SK9|MURG_STRPM	Glyco_transf_28
+1.6e-24	91.2	sp|Q1J5S6|MURG_STRPF	Glyco_transf_28
+1.6e-24	91.2	sp|A8Z3Z7|MURG_STAAT	Glyco_transf_28
+1.6e-24	91.2	sp|Q2FH20|MURG_STAA3	Glyco_transf_28
+1.6e-24	91.2	sp|Q1JG11|MURG_STRPD	Glyco_transf_28
+1.8e-24	91.0	sp|Q17WB5|MURG_HELAH	Glyco_transf_28
+1.9e-24	90.9	sp|C6BYG6|MURG_DESAD	Glyco_transf_28
+2.3e-24	90.7	sp|Q6G2Q5|MURG_BARHE	Glyco_transf_28
+2.3e-24	90.7	sp|A9IWA5|MURG_BART1	Glyco_transf_28
+2.8e-24	90.4	sp|Q8CUL4|MURG_OCEIH	Glyco_transf_28
+2.8e-24	90.4	sp|A6LEU3|MURG_PARD8	Glyco_transf_28
+3.1e-24	90.2	sp|Q6AE64|MURG_LEIXX	Glyco_transf_28
+3.3e-24	90.2	sp|A1K3U6|MURG_AZOSB	Glyco_transf_28
+3.9e-24	89.9	sp|Q9PLG2|MURG_CHLMU	Glyco_transf_28
+4.1e-24	89.9	sp|Q1GRX9|MURG_SPHAL	Glyco_transf_28
+4.2e-24	89.8	sp|Q751Z4|ATG26_ASHGO	Glyco_transf_28
+4.4e-24	89.8	sp|A4VTK4|MURG_STRSY	Glyco_transf_28
+4.4e-24	89.8	sp|A4VZT9|MURG_STRS2	Glyco_transf_28
+4.6e-24	89.7	sp|B3QWT7|MURG_CHLT3	Glyco_transf_28
+4.6e-24	89.7	sp|Q6AJ53|MURG_DESPS	Glyco_transf_28
+5e-24	89.6	sp|B9K6P7|MURG_THENN	Glyco_transf_28
+5.9e-24	89.3	sp|Q8K6R7|MURG_STRP3	Glyco_transf_28
+6.9e-24	89.1	sp|Q54IL5|UGT52_DICDI	Glyco_transf_28
+7.5e-24	89.0	sp|B3DQN1|MURG_BIFLD	Glyco_transf_28
+7.5e-24	89.0	sp|Q8CY50|MURG_BIFLO	Glyco_transf_28
+7.8e-24	89.0	sp|Q6MIG1|MURG_BDEBA	Glyco_transf_28
+8.4e-24	88.9	sp|Q7U3U6|MURG_SYNPX	Glyco_transf_28
+8.9e-24	88.8	sp|B7GQ78|MURG_BIFLI	Glyco_transf_28
+9.3e-24	88.7	sp|Q0UY53|ATG26_PHANO	Glyco_transf_28
+1.2e-23	88.4	sp|Q8DVE2|MURG_STRMU	Glyco_transf_28
+1.2e-23	88.4	sp|Q6N411|MURG_RHOPA	Glyco_transf_28
+1.2e-23	88.3	sp|Q6CUV2|ATG26_KLULA	Glyco_transf_28
+1.3e-23	88.3	sp|Q1MPB9|MURG_LAWIP	Glyco_transf_28
+1.3e-23	88.3	sp|Q8R5N5|MURG_FUSNN	Glyco_transf_28
+1.4e-23	88.1	sp|Q3ANV3|MURG_CHLCH	Glyco_transf_28
+1.4e-23	88.1	sp|A8AW15|MURG_STRGC	Glyco_transf_28
+2.2e-23	87.5	sp|B8DP79|MURG_DESVM	Glyco_transf_28
+2.4e-23	87.4	sp|Q728U8|MURG_DESVH	Glyco_transf_28
+3e-23	87.1	sp|Q8NJS1|ATG26_LEPMC	Glyco_transf_28
+3.4e-23	86.9	sp|Q5KK25|ATG26_CRYNE	Glyco_transf_28
+3.5e-23	86.8	sp|Q8YZI3|MURG_ANASP	Glyco_transf_28
+3.6e-23	86.8	sp|B9DUV6|MURG_STRU0	Glyco_transf_28
+3.8e-23	86.7	sp|Q3M935|MURG_ANAVT	Glyco_transf_28
+3.8e-23	86.7	sp|Q7VDZ2|MURG_PROMA	Glyco_transf_28
+3.9e-23	86.7	sp|Q0I6M0|MURG_SYNS3	Glyco_transf_28
+4.2e-23	86.6	sp|B2J8J9|MURG_NOSP7	Glyco_transf_28
+4.2e-23	86.6	sp|A5GPC2|MURG_SYNPW	Glyco_transf_28
+4.5e-23	86.5	sp|B4RFS0|MURG_PHEZH	Glyco_transf_28
+5.2e-23	86.3	sp|A1VBE8|MURG_DESVV	Glyco_transf_28
+6.2e-23	86.1	sp|B7IHN7|MURG_THEAB	Glyco_transf_28
+6.3e-23	86.0	sp|Q7S1I0|ATG26_NEUCR	Glyco_transf_28
+6.7e-23	85.9	sp|Q3AVX2|MURG_SYNS9	Glyco_transf_28
+7.2e-23	85.8	sp|Q4WID6|ATG26_ASPFU	Glyco_transf_28
+7.2e-23	85.8	sp|A1CYS1|ATG26_NEOFI	Glyco_transf_28
+7.8e-23	85.7	sp|Q8DHY4|MURG_THEEB	Glyco_transf_28
+8.1e-23	85.7	sp|Q11RH5|MURG_CYTH3	Glyco_transf_28
+8.2e-23	85.6	sp|A9BDG0|MURG_PROM4	Glyco_transf_28
+9e-23	85.5	sp|Q73L91|MURG_TREDE	Glyco_transf_28
+9.7e-23	85.4	sp|C4XK69|MURG_DESMR	Glyco_transf_28
+1e-22	85.3	sp|A1BAL5|MURG_PARDP	Glyco_transf_28
+1.2e-22	85.1	sp|A3CLN6|MURG_STRSV	Glyco_transf_28
+1.2e-22	85.1	sp|A4SV74|MURG_POLSQ	Glyco_transf_28
+1.4e-22	84.9	sp|O67238|MURG_AQUAE	Glyco_transf_28
+1.6e-22	84.7	sp|Q2U0C3|ATG26_ASPOR	Glyco_transf_28
+1.6e-22	84.7	sp|Q3STS8|MURG_NITWN	Glyco_transf_28
+1.6e-22	84.7	sp|A1BJX8|MURG_CHLPD	Glyco_transf_28
+1.7e-22	84.6	sp|A1AWE8|MURG_RUTMC	Glyco_transf_28
+1.7e-22	84.6	sp|A1CFB3|ATG26_ASPCL	Glyco_transf_28
+2.1e-22	84.4	sp|B8IN64|MURG_METNO	Glyco_transf_28
+2.2e-22	84.3	sp|Q6G124|MURG_BARQU	Glyco_transf_28
+2.2e-22	84.2	sp|Q2W0H3|MURG_MAGSA	Glyco_transf_28
+2.8e-22	83.9	sp|Q0CKU4|ATG26_ASPTN	Glyco_transf_28
+2.8e-22	83.9	sp|B1ZU31|MURG_OPITP	Glyco_transf_28
+2.9e-22	83.9	sp|A6L071|MURG_BACV8	Glyco_transf_28
+2.9e-22	83.9	sp|Q1QNU3|MURG_NITHX	Glyco_transf_28
+3.8e-22	83.5	sp|B2V7Y8|MURG_SULSY	Glyco_transf_28
+4.9e-22	83.1	sp|Q3AGT7|MURG_SYNSC	Glyco_transf_28
+5.2e-22	83.0	sp|Q5B4C9|ATG26_EMENI	Glyco_transf_28
+7.1e-22	82.6	sp|A5GW69|MURG_SYNR3	Glyco_transf_28
+7.4e-22	82.6	sp|A4YZK3|MURG_BRASO	Glyco_transf_28
+7.6e-22	82.5	sp|Q2RVU4|MURG_RHORT	Glyco_transf_28
+7.8e-22	82.5	sp|Q2JW21|MURG_SYNJA	Glyco_transf_28
+8e-22	82.4	sp|A5EPK4|MURG_BRASB	Glyco_transf_28
+9.4e-22	82.2	sp|A7KAN4|ATG26_PENCW	Glyco_transf_28
+1.1e-21	82.0	sp|Q2JJR4|MURG_SYNJB	Glyco_transf_28
+1.2e-21	81.9	sp|A2QNQ5|ATG26_ASPNC	Glyco_transf_28
+1.3e-21	81.8	sp|Q0AMW7|MURG_MARMM	Glyco_transf_28
+1.5e-21	81.5	sp|Q812Y1|MURG3_BACCR	Glyco_transf_28
+1.8e-21	81.3	sp|B4SH49|MURG_PELPB	Glyco_transf_28
+2e-21	81.2	sp|B4S6Q9|MURG_PROA2	Glyco_transf_28
+2.5e-21	80.8	sp|A8G2K3|MURG_PROM2	Glyco_transf_28
+2.7e-21	80.8	sp|Q89FU7|MURG_BRAJA	Glyco_transf_28
+3.5e-21	80.4	sp|A0RHC3|MURG1_BACAH	Glyco_transf_28
+3.7e-21	80.3	sp|Q6MBS7|MURG_PARUW	Glyco_transf_28
+3.9e-21	80.2	sp|Q0BXU2|MURG_HYPNA	Glyco_transf_28
+4.2e-21	80.1	sp|Q8KGD4|MURG_CHLTE	Glyco_transf_28
+4.2e-21	80.1	sp|B3QLW4|MURG_CHLP8	Glyco_transf_28
+5.4e-21	79.8	sp|A6T2F8|MURG_JANMA	Glyco_transf_28
+7.8e-21	79.2	sp|A5CEL6|MURG_ORITB	Glyco_transf_28
+7.9e-21	79.2	sp|Q8D2Z6|MURG_WIGBR	Glyco_transf_28
+9.1e-21	79.0	sp|B0UFC7|MURG_METS4	Glyco_transf_28
+1.2e-20	78.6	sp|Q163J0|MURG_ROSDO	Glyco_transf_28
+1.2e-20	78.6	sp|A4G8T8|MURG_HERAR	Glyco_transf_28
+1.3e-20	78.6	sp|Q28NN5|MURG_JANSC	Glyco_transf_28
+1.3e-20	78.6	sp|Q31CY4|MURG_PROM9	Glyco_transf_28
+1.3e-20	78.5	sp|B1ZGP4|MURG_METPB	Glyco_transf_28
+1.5e-20	78.3	sp|Q5LU63|MURG_SILPO	Glyco_transf_28
+1.6e-20	78.3	sp|B3CRE9|MURG_ORITI	Glyco_transf_28
+1.8e-20	78.1	sp|Q1GIV1|MURG_SILST	Glyco_transf_28
+2.1e-20	77.8	sp|Q1GZ01|MURG_METFK	Glyco_transf_28
+2.3e-20	77.7	sp|B3ET95|MURG_AMOA5	Glyco_transf_28
+2.4e-20	77.7	sp|Q8A258|MURG_BACTN	Glyco_transf_28
+2.6e-20	77.5	sp|Q211T8|MURG_RHOPB	Glyco_transf_28
+2.9e-20	77.4	sp|Q2IYK8|MURG_RHOP2	Glyco_transf_28
+3.9e-20	77.0	sp|B1LXZ4|MURG_METRJ	Glyco_transf_28
+4.4e-20	76.8	sp|A2BNZ2|MURG_PROMS	Glyco_transf_28
+5.1e-20	76.6	sp|C0R2W7|MURG_WOLWR	Glyco_transf_28
+5.1e-20	76.6	sp|Q73I55|MURG_WOLPM	Glyco_transf_28
+5.9e-20	76.4	sp|A9VWV3|MURG_METEP	Glyco_transf_28
+6.1e-20	76.3	sp|B7KSC1|MURG_METC4	Glyco_transf_28
+6.5e-20	76.3	sp|A2C027|MURG_PROM1	Glyco_transf_28
+6.7e-20	76.2	sp|A3PHS8|MURG_RHOS1	Glyco_transf_28
+7.9e-20	76.0	sp|A4SH02|MURG_PROVI	Glyco_transf_28
+7.9e-20	76.0	sp|Q3J4M2|MURG_RHOS4	Glyco_transf_28
+9.5e-20	75.7	sp|Q7V388|MURG_PROMP	Glyco_transf_28
+9.9e-20	75.7	sp|A3PAR5|MURG_PROM0	Glyco_transf_28
+1e-19	75.6	sp|Q07PT3|MURG_RHOP5	Glyco_transf_28
+1.1e-19	75.5	sp|Q133X1|MURG_RHOPS	Glyco_transf_28
+1.2e-19	75.4	sp|Q5LIJ7|MURG_BACFN	Glyco_transf_28
+1.2e-19	75.4	sp|Q64ZM1|MURG_BACFR	Glyco_transf_28
+1.3e-19	75.3	sp|A6LLF1|MURG_THEM4	Glyco_transf_28
+1.6e-19	75.0	sp|Q46HH6|MURG_PROMT	Glyco_transf_28
+2.4e-19	74.4	sp|A4WQD5|MURG_RHOS5	Glyco_transf_28
+3.2e-19	74.0	sp|A2BUH4|MURG_PROM5	Glyco_transf_28
+6.6e-19	73.0	sp|Q5GS79|MURG_WOLTR	Glyco_transf_28
+1e-18	72.4	sp|Q7NPZ9|MURG_CHRVO	Glyco_transf_28
+1.2e-18	72.2	sp|Q1AVX3|MURG_RUBXD	Glyco_transf_28
+1.3e-18	72.1	sp|Q7MBC4|MURG_GLOVI	Glyco_transf_28
+1.6e-18	71.8	sp|Q7U322|MURG_HELHP	Glyco_transf_28
+2e-18	71.4	sp|Q3B129|MURG_PELLD	Glyco_transf_28
+4.3e-18	70.4	sp|Q30PK0|MURG_SULDN	Glyco_transf_28
+7.3e-18	69.6	sp|A2SCY5|MURG_METPP	Glyco_transf_28
+1.2e-17	68.9	sp|A0RP87|MURG_CAMFF	Glyco_transf_28
+1.6e-17	68.5	sp|B3CM87|MURG_WOLPP	Glyco_transf_28
+3.5e-17	67.4	sp|A5FUL0|MURG_ACICJ	Glyco_transf_28
+5.3e-17	66.8	sp|Q7MAD4|MURG_WOLSU	Glyco_transf_28
+8.9e-17	66.1	sp|B2KE54|MURG_ELUMP	Glyco_transf_28
+1.2e-16	65.6	sp|B3EIK8|MURG_CHLL2	Glyco_transf_28
+1.4e-16	65.4	sp|A5UZT7|MURG_ROSS1	Glyco_transf_28
+3.1e-16	64.4	sp|Q5FUJ5|MURG_GLUOX	Glyco_transf_28
+6.5e-16	63.3	sp|A6Q722|MURG_SULNB	Glyco_transf_28
+1.6e-15	62.0	sp|B8E325|MURG_DICTD	Glyco_transf_28
+2.2e-15	61.6	sp|A6Q579|MURG_NITSB	Glyco_transf_28
+3.4e-15	61.0	sp|Q0BV25|MURG_GRABC	Glyco_transf_28
+4e-15	60.8	sp|Q5PB22|MURG_ANAMM	Glyco_transf_28
+4.1e-15	60.7	sp|A7I265|MURG_CAMHC	Glyco_transf_28
+6.3e-15	60.1	sp|A9FI55|MURG_SORC5	Glyco_transf_28
+8.2e-15	59.7	sp|B5YEL3|MURG_DICT6	Glyco_transf_28
+1.2e-13	56.0	sp|A8FM88|MURG_CAMJ8	Glyco_transf_28
+1.5e-13	55.6	sp|Q5HU62|MURG_CAMJR	Glyco_transf_28
+1.5e-13	55.6	sp|A1W027|MURG_CAMJJ	Glyco_transf_28
+1.5e-13	55.6	sp|Q9PNQ2|MURG_CAMJE	Glyco_transf_28
+3.5e-13	54.5	sp|A7H2Z9|MURG_CAMJD	Glyco_transf_28
+7.2e-13	53.4	sp|A8F4X1|MURG_THELT	Glyco_transf_28
+1.8e-10	45.7	sp|Q72R84|MURG_LEPIC	Glyco_transf_28
+1.8e-10	45.7	sp|Q8F4J1|MURG_LEPIN	Glyco_transf_28
+4.2e-09	41.3	sp|Q4FPK5|MURG_PELUB	Glyco_transf_28
+7.7e-09	40.4	sp|Q04V94|MURG_LEPBJ	Glyco_transf_28
+7.7e-09	40.4	sp|Q04Y82|MURG_LEPBL	Glyco_transf_28
+3.4e-07	35.1	sp|Q8TTI1|Y452_METAC	Glyco_transf_28
+2.3e-06	32.4	sp|Q8TTI0|Y453_METAC	Glyco_transf_28
+2.4e-06	32.3	sp|Q8PWF3|Y1636_METMA	Glyco_transf_28
+7.8e-06	30.6	sp|O34539|YJIC_BACSU	Glyco_transf_28
+2e-05	29.3	sp|Q53685|OLED_STRAT	Glyco_transf_28
+2e-05	29.3	sp|Q8PZB2|Y582_METMA	Glyco_transf_28
+7.8e-05	27.4	sp|P21686|CRTX_PANAN	Glyco_transf_28
+0.00056	24.6	sp|Q54387|MGT_STRLI	Glyco_transf_28
+0.00067	24.4	sp|Q01330|CRTX_ESCVU	Glyco_transf_28
+0.012	20.4	sp|O31853|YOJK_BACSU	Glyco_transf_28
+0.013	20.2	sp|B1YIY4|MTNA_EXIS2	Glyco_transf_28
+0.016	19.9	sp|Q0WW21|UGAGT_ARATH	Glyco_transf_28
+0.021	19.6	sp|Q9Z565|ILVC1_STRCO	Glyco_transf_28
+0.022	19.5	sp|O05496|YDHE_BACSU	Glyco_transf_28
+0.022	19.4	sp|Q9FBT8|ILVC2_STRCO	Glyco_transf_28
+0.023	19.4	sp|Q9SBL1|HMNGT_SORBI	Glyco_transf_28
+0.067	17.9	sp|B1I2P1|MTNA_DESAP	Glyco_transf_28
+0.08	17.6	sp|A8AZU1|MUTL_STRGC	Glyco_transf_28
+0.085	17.6	sp|Q01198|LIGD_PSEPA	Glyco_transf_28
+0.087	17.5	sp|Q83RR8|NPD_SHIFL	Glyco_transf_28
+0.089	17.5	sp|C5D7U5|MTNA_GEOSW	Glyco_transf_28
+0.11	17.2	sp|A3CR14|MUTL_STRSV	Glyco_transf_28
+0.12	17.1	sp|Q88M09|MTNA_PSEPK	Glyco_transf_28
+0.13	17.0	sp|Q5L1E6|MTNA_GEOKA	Glyco_transf_28
+0.14	16.9	sp|Q8X8E0|NPD_ECO57	Glyco_transf_28
+0.14	16.9	sp|P75960|NPD_ECOLI	Glyco_transf_28
+0.14	16.9	sp|Q5V467|MAMA1_HALMA	Glyco_transf_28
+0.14	16.9	sp|C0MAS4|MUTL_STRE4	Glyco_transf_28
+0.14	16.8	sp|P0A2F2|NPD_SALTY	Glyco_transf_28
+0.14	16.8	sp|P0A2F3|NPD_SALTI	Glyco_transf_28
+0.15	16.8	sp|C0MGC4|MUTL_STRS7	Glyco_transf_28
+0.15	16.8	sp|Q65KK2|MTNA_BACLD	Glyco_transf_28
+0.15	16.7	sp|B0KTX5|MTNA_PSEPG	Glyco_transf_28
+0.16	16.7	sp|B1J5G5|MTNA_PSEPW	Glyco_transf_28
+0.16	16.7	sp|A5W7G2|MTNA_PSEP1	Glyco_transf_28
+0.17	16.6	sp|A4ILL1|MTNA_GEOTN	Glyco_transf_28
+0.18	16.5	sp|B4U0J7|MUTL_STREM	Glyco_transf_28
+0.2	16.4	sp|Q8FIM4|NPD_ECOL6	Glyco_transf_28
+0.21	16.3	sp|B2GFJ7|ILVC_KOCRD	Glyco_transf_28
+0.21	16.3	sp|B1VZ72|ILVC_STRGG	Glyco_transf_28
+0.22	16.2	sp|Q59818|ILVC_STRAW	Glyco_transf_28
+0.26	16.0	sp|Q731R7|MTNA_BACC1	Glyco_transf_28
+0.29	15.8	sp|B1GZW3|TPIS_UNCTG	Glyco_transf_28
+0.33	15.7	sp|Q2IWS4|GLYA_RHOP2	Glyco_transf_28
+0.36	15.5	sp|A7GS56|MTNA_BACCN	Glyco_transf_28
+0.37	15.5	sp|B7KF23|ILVC_CYAP7	Glyco_transf_28
+0.39	15.4	sp|A5W1E8|RNZ_PSEP1	Glyco_transf_28
+0.45	15.2	sp|B3QSP0|ILVC_CHLT3	Glyco_transf_28
+0.46	15.2	sp|O31662|MTNA_BACSU	Glyco_transf_28
+0.51	15.0	sp|C1F6Z5|ILVC_ACIC5	Glyco_transf_28
+0.55	14.9	sp|Q2G3S7|PYRB_NOVAD	Glyco_transf_28
+0.57	14.9	sp|Q96LB3|IFT74_HUMAN	Glyco_transf_28
+0.58	14.9	sp|A9AZM5|ILVC_HERA2	Glyco_transf_28
+0.64	14.7	sp|B8HSQ9|SURE_CYAP4	Glyco_transf_28
+0.68	14.6	sp|Q3SPL2|UVRC_NITWN	Glyco_transf_28
+0.68	14.6	sp|A7Z3X0|MTNA_BACA2	Glyco_transf_28
+0.69	14.6	sp|Q38W65|EFTS_LACSS	Glyco_transf_28
+0.69	14.6	sp|C3JYK1|TIG_PSEFS	Glyco_transf_28
+0.71	14.6	sp|Q1GZA6|BIOB_METFK	Glyco_transf_28
+0.71	14.6	sp|Q635P7|MTNA2_BACCZ	Glyco_transf_28
+0.71	14.6	sp|O48676|HTGT_ARATH	Glyco_transf_28
+0.72	14.6	sp|Q8YRC9|THIOG_ANASP	Glyco_transf_28
+0.73	14.5	sp|Q8DW43|ILVC_STRMU	Glyco_transf_28
+0.73	14.5	sp|Q81MJ6|MTNA2_BACAN	Glyco_transf_28
+0.74	14.5	sp|Q6N693|GLYA1_RHOPA	Glyco_transf_28
+0.75	14.5	sp|B0C915|MURD_ACAM1	Glyco_transf_28
+0.76	14.5	sp|Q2KA25|GLYA_RHIEC	Glyco_transf_28
+0.77	14.5	sp|Q214H7|GLYA_RHOPB	Glyco_transf_28
+0.79	14.4	sp|B9DW70|MUTL_STRU0	Glyco_transf_28
+0.8	14.4	sp|A0RI38|MTNA2_BACAH	Glyco_transf_28
+0.81	14.4	sp|Q6HED3|MTNA2_BACHK	Glyco_transf_28
+0.83	14.4	sp|Q1QIR5|UVRC_NITHX	Glyco_transf_28
+0.84	14.3	sp|A8AVN4|ILVC_STRGC	Glyco_transf_28
+0.86	14.3	sp|Q7V5V5|MURD_PROMM	Glyco_transf_28
+0.9	14.2	sp|Q47SB6|ILVC_THEFY	Glyco_transf_28
+0.9	14.2	sp|A4FMQ5|ILVC_SACEN	Glyco_transf_28
+0.91	14.2	sp|Q5V3R4|TRM56_HALMA	Glyco_transf_28
+0.91	14.2	sp|B8GW68|ENO_CAUCN	Glyco_transf_28
+0.91	14.2	sp|Q9A7J9|ENO_CAUCR	Glyco_transf_28
+0.92	14.2	sp|Q5V3F0|MAMA2_HALMA	Glyco_transf_28
+0.96	14.2	sp|B1LZ88|GLYA_METRJ	Glyco_transf_28
+0.98	14.1	sp|P94966|BIOB_METSK	Glyco_transf_28
+1	14.1	sp|Q3SHE4|ILVC_THIDA	Glyco_transf_28
+1.1	14.0	sp|Q07MT9|GLYA_RHOP5	Glyco_transf_28
+1.1	14.0	sp|A9VRK3|MTNA1_BACWK	Glyco_transf_28
+1.1	13.9	sp|A9GW78|ILVC_SORC5	Glyco_transf_28
+1.1	13.9	sp|Q5YRW2|ILVC_NOCFA	Glyco_transf_28
+1.2	13.9	sp|A3CQ86|ILVC_STRSV	Glyco_transf_28
+1.2	13.8	sp|Q21AW5|UVRC_RHOPB	Glyco_transf_28
+1.3	13.7	sp|Q81IK7|MTNA1_BACCR	Glyco_transf_28
+1.3	13.7	sp|Q5FNN2|PYRG_GLUOX	Glyco_transf_28
+1.3	13.7	sp|Q2S9V9|ILVC_HAHCH	Glyco_transf_28
+1.4	13.6	sp|Q17QH8|D39U1_BOVIN	Glyco_transf_28
+1.4	13.6	sp|Q2J6V2|ILVC_FRASC	Glyco_transf_28
+1.4	13.6	sp|A1WUW3|ILVC_HALHL	Glyco_transf_28
+1.4	13.6	sp|A8LMD0|PUR9_DINSH	Glyco_transf_28
+1.4	13.6	sp|C5BAT0|GCSP_EDWI9	Glyco_transf_28
+1.4	13.6	sp|C1B2M1|ILVC_RHOOB	Glyco_transf_28
+1.4	13.6	sp|Q0S2H3|ILVC_RHOSR	Glyco_transf_28
+1.4	13.6	sp|A0R946|MTNA1_BACAH	Glyco_transf_28
+1.4	13.6	sp|Q81ZC2|MTNA1_BACAN	Glyco_transf_28
+1.5	13.6	sp|Q6HP54|MTNA1_BACHK	Glyco_transf_28
+1.5	13.5	sp|Q1MIU5|GLYA_RHIL3	Glyco_transf_28
+1.5	13.5	sp|A8FCG5|MTNA_BACP2	Glyco_transf_28
+1.6	13.5	sp|Q63CV4|ILVC2_BACCZ	Glyco_transf_28
+1.6	13.4	sp|A4J179|ILVC_DESRM	Glyco_transf_28
+1.6	13.4	sp|Q9V030|PAAD_PYRAB	Glyco_transf_28
+1.7	13.4	sp|Q81F27|ILVC2_BACCR	Glyco_transf_28
+1.7	13.4	sp|Q03IJ9|ILVC_STRTD	Glyco_transf_28
+1.7	13.4	sp|Q9F0I7|ILVC_STRTR	Glyco_transf_28
+1.7	13.4	sp|P26166|YBCC_RHOCA	Glyco_transf_28
+1.7	13.4	sp|B8I1T8|ILVC_CLOCE	Glyco_transf_28
+1.7	13.3	sp|A4VXL3|ILVC_STRSY	Glyco_transf_28
+1.7	13.3	sp|A4W3V8|ILVC_STRS2	Glyco_transf_28
+1.8	13.3	sp|Q3B594|ILVC_PELLD	Glyco_transf_28
+1.8	13.3	sp|B1I8F2|MUTL_STRPI	Glyco_transf_28
+1.8	13.3	sp|B2IS10|MUTL_STRPS	Glyco_transf_28
+1.8	13.3	sp|B8ZKC9|MUTL_STRPJ	Glyco_transf_28
+1.8	13.3	sp|P0A3R1|HEXB_STRPN	Glyco_transf_28
+1.8	13.3	sp|P0A3R2|HEXB_STRR6	Glyco_transf_28
+1.8	13.3	sp|Q04MR4|MUTL_STRP2	Glyco_transf_28
+1.8	13.3	sp|C1CI68|MUTL_STRZP	Glyco_transf_28
+1.8	13.3	sp|C1CP43|MUTL_STRZT	Glyco_transf_28
+1.8	13.3	sp|Q8ZQE4|MACB_SALTY	Glyco_transf_28
+1.8	13.3	sp|Q57R58|MACB_SALCH	Glyco_transf_28
+1.8	13.2	sp|Q64550|UD11_RAT	Glyco_transf_28
+1.8	13.2	sp|B9JCX4|GLYA_AGRRK	Glyco_transf_28
+1.9	13.2	sp|Q8Z824|MACB_SALTI	Glyco_transf_28
+1.9	13.2	sp|O94475|YC67_SCHPO	Glyco_transf_28
+1.9	13.2	sp|P59837|RDH12_BOVIN	Glyco_transf_28
+1.9	13.2	sp|Q5PGK9|MACB_SALPA	Glyco_transf_28
+2	13.1	sp|Q02CM4|ILVC_SOLUE	Glyco_transf_28
+2	13.1	sp|Q669P6|NPD_YERPS	Glyco_transf_28
+2	13.1	sp|Q8ZFR1|NPD_YERPE	Glyco_transf_28
+2	13.1	sp|B9KYS1|ILVC_THERP	Glyco_transf_28
+2	13.1	sp|B4UAN4|ILVC_ANASK	Glyco_transf_28
+2	13.1	sp|B8J829|ILVC_ANAD2	Glyco_transf_28
+2	13.1	sp|Q2IJB7|ILVC_ANADE	Glyco_transf_28
+2.1	13.1	sp|Q0RDI8|ILVC_FRAAA	Glyco_transf_28
+2.1	13.1	sp|P0ABQ0|COABC_ECOLI	Glyco_transf_28
+2.1	13.1	sp|P0ABQ1|COABC_ECOL6	Glyco_transf_28
+2.1	13.1	sp|B2J2U6|ILVC_NOSP7	Glyco_transf_28
+2.1	13.0	sp|Q89DG9|UVRC_BRAJA	Glyco_transf_28
+2.1	13.0	sp|Q2S0M9|ILVC_SALRD	Glyco_transf_28
+2.2	13.0	sp|Q7NH80|ILVC_GLOVI	Glyco_transf_28
+2.2	13.0	sp|Q8G6V1|ILVC2_BIFLO	Glyco_transf_28
+2.2	13.0	sp|Q2W698|ENO_MAGSA	Glyco_transf_28
+2.3	12.9	sp|Q63GN3|MTNA1_BACCZ	Glyco_transf_28
+2.3	12.9	sp|B0JRP2|ILVC_MICAN	Glyco_transf_28
+2.3	12.9	sp|C1CBX8|MUTL_STRZJ	Glyco_transf_28
+2.3	12.9	sp|Q3SLY0|BIOB_THIDA	Glyco_transf_28
+2.4	12.9	sp|B5E6C5|MUTL_STRP4	Glyco_transf_28
+2.5	12.8	sp|B2J6I3|MURD_NOSP7	Glyco_transf_28
+2.5	12.8	sp|Q5LXV0|ILVC_STRT1	Glyco_transf_28
+2.5	12.8	sp|Q5M2F2|ILVC_STRT2	Glyco_transf_28
+2.6	12.8	sp|C6A5E6|VATD_THESM	Glyco_transf_28
+2.6	12.8	sp|Q2RIS6|ILVC_MOOTA	Glyco_transf_28
+2.6	12.7	sp|Q3M859|THIOG_ANAVT	Glyco_transf_28
+2.6	12.7	sp|Q5GS59|RLME_WOLTR	Glyco_transf_28
+2.7	12.7	sp|B8G7X1|ILVC_CHLAD	Glyco_transf_28
+2.8	12.7	sp|C5C2I2|ILVC_BEUC1	Glyco_transf_28
+2.8	12.6	sp|Q5SJ03|ILVC_THET8	Glyco_transf_28
+2.8	12.6	sp|Q72JC8|ILVC_THET2	Glyco_transf_28
+2.9	12.6	sp|Q4JUN9|ILVC_CORJK	Glyco_transf_28
+2.9	12.6	sp|Q2J0X3|UVRC_RHOP2	Glyco_transf_28
+2.9	12.6	sp|Q02YY8|ILVC_LACLS	Glyco_transf_28
+2.9	12.6	sp|B9EBF4|ILVC_MACCJ	Glyco_transf_28
+2.9	12.6	sp|Q43716|UFOG_PETHY	Glyco_transf_28
+3	12.6	sp|A5GUT4|SURE_SYNR3	Glyco_transf_28
+3	12.6	sp|Q1ARE4|ILVC_RUBXD	Glyco_transf_28
+3	12.5	sp|A6W7N6|ILVC_KINRD	Glyco_transf_28
+3	12.5	sp|Q11039|DEAD_MYCTU	Glyco_transf_28
+3	12.5	sp|Q13BM0|UVRC_RHOPS	Glyco_transf_28
+3.1	12.5	sp|Q8YMT3|SURE_ANASP	Glyco_transf_28
+3.1	12.5	sp|Q319M0|SURE_PROM9	Glyco_transf_28
+3.1	12.5	sp|A9VFD5|MTNA2_BACWK	Glyco_transf_28
+3.2	12.5	sp|A1JRP2|NADA_YERE8	Glyco_transf_28
+3.3	12.4	sp|A2RKQ6|ILVC_LACLM	Glyco_transf_28
+3.5	12.3	sp|Q32DZ9|MACB_SHIDS	Glyco_transf_28
+3.5	12.3	sp|A5CPY6|ILVC_CLAM3	Glyco_transf_28
+3.5	12.3	sp|B0RIN6|ILVC_CLAMS	Glyco_transf_28
+3.7	12.3	sp|Q8K5J6|MUTL_STRP3	Glyco_transf_28
+3.7	12.3	sp|Q99XN7|MUTL_STRP1	Glyco_transf_28
+3.7	12.3	sp|B5XJ09|MUTL_STRPZ	Glyco_transf_28
+3.8	12.2	sp|A2RGV3|MUTL_STRPG	Glyco_transf_28
+3.8	12.2	sp|Q5X9H5|MUTL_STRP6	Glyco_transf_28
+3.9	12.2	sp|Q3JYM6|MUTL_STRA1	Glyco_transf_28
+3.9	12.2	sp|Q8E2R5|MUTL_STRA3	Glyco_transf_28
+4	12.2	sp|Q9MB73|LGT_CITUN	Glyco_transf_28
+4.1	12.1	sp|A8G678|SURE_PROM2	Glyco_transf_28
+4.2	12.1	sp|A9WP08|ILVC_RENSM	Glyco_transf_28
+4.8	11.9	sp|A9WC26|ILVC_CHLAA	Glyco_transf_28
+4.8	11.9	sp|B9LGM7|ILVC_CHLSY	Glyco_transf_28
+4.9	11.9	sp|A2BSJ2|SURE_PROMS	Glyco_transf_28
+5	11.8	sp|Q9LR44|IABG1_ARATH	Glyco_transf_28
+5.2	11.8	sp|O57731|VATD_PYRHO	Glyco_transf_28
+5.6	11.7	sp|A3PEA4|SURE_PROM0	Glyco_transf_28
+6.8	11.4	sp|P75831|MACB_ECOLI	Glyco_transf_28
+7.6	11.2	sp|Q83LR7|MACB_SHIFL	Glyco_transf_28
+7.7	11.2	sp|Q3Z3Q4|MACB_SHISS	Glyco_transf_28
+9.5	10.9	sp|Q8XED0|MACB_ECO57	Glyco_transf_28
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/hmmsearch-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/hmmsearch-tbl.out
new file mode 100755
index 0000000..b979e53
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/hmmsearch-tbl.out
@@ -0,0 +1,972 @@
+4.5	0	88	116	US2	50	78	sp|P06485|US02_HHV11	
+1.1e-43	0	2	126	US2	111	247	sp|P06485|US02_HHV11	
+9.8e-43	0	1	126	US2	110	246	sp|P13292|US02_HHV2H	
+5.9e-40	0	1	124	US2	1	116	sp|Q05106|US453_GAHVG	
+1.1e-39	0	1	124	US2	111	265	sp|P32517|US02_EHV1K	
+1.7e-37	0	1	112	US2	111	245	sp|P28964|US02_EHV1B	
+9.8e-36	0	1	110	US2	105	208	sp|Q08099|US02_BHV1S	
+8.8e-22	0	1	125	US2	135	255	sp|P24382|US02_SUHVN	
+7.1e-05	0	51	107	US2	208	262	sp|Q9ZK80|ATPG_HELPJ	
+7.1e-05	0	51	107	US2	208	262	sp|P56082|ATPG_HELPY	
+7.8e-05	0	51	107	US2	208	262	sp|B2UUP1|ATPG_HELPS	
+7.8e-05	0	51	107	US2	208	262	sp|B6JMX3|ATPG_HELP2	
+0.00013	0	52	107	US2	209	262	sp|Q17Y79|ATPG_HELAH	
+0.00018	0	51	107	US2	208	262	sp|B5Z8D1|ATPG_HELPG	
+0.0002	0	51	107	US2	208	262	sp|Q1CSD4|ATPG_HELPH	
+1.3e-42	0	1	138	Glyco_transf_28	3	142	sp|A7Z4E5|MURG_BACA2	
+4e-41	0	1	138	Glyco_transf_28	3	142	sp|Q65JY0|MURG_BACLD	
+4	0	13	106	Glyco_transf_28	203	234	sp|Q65JY0|MURG_BACLD	
+4.9e-42	0	1	138	Glyco_transf_28	3	142	sp|P37585|MURG_BACSU	
+2.4e-41	0	1	138	Glyco_transf_28	3	142	sp|A8FCY1|MURG_BACP2	
+7.9e-40	0	1	139	Glyco_transf_28	3	143	sp|Q812W5|MURG1_BACCR	
+7e-41	0	2	138	Glyco_transf_28	6	142	sp|A3MY90|MURG_ACTP2	
+7.9e-40	0	1	139	Glyco_transf_28	3	143	sp|A0RHT1|MURG2_BACAH	
+7.9e-40	0	1	139	Glyco_transf_28	3	143	sp|Q636B6|MURG1_BACCZ	
+7.9e-40	0	1	139	Glyco_transf_28	3	143	sp|Q81JG5|MURG1_BACAN	
+7.9e-40	0	1	139	Glyco_transf_28	3	143	sp|Q732F8|MURG1_BACC1	
+3.2e-40	0	1	138	Glyco_transf_28	3	142	sp|B7GGI2|MURG_ANOFW	
+7.5e-40	0	1	139	Glyco_transf_28	3	143	sp|A7GRN6|MURG_BACCN	
+2.5e-40	0	2	138	Glyco_transf_28	6	142	sp|B0BRH7|MURG_ACTPJ	
+2.5e-40	0	2	138	Glyco_transf_28	6	142	sp|B3GZK8|MURG_ACTP7	
+2e-39	0	1	139	Glyco_transf_28	3	143	sp|Q6HEQ4|MURG1_BACHK	
+7.1e-40	0	1	138	Glyco_transf_28	3	142	sp|O07670|MURG_ENTHR	
+4e-39	0	2	138	Glyco_transf_28	9	145	sp|A7FM66|MURG_YERP3	
+6.1	0	38	108	Glyco_transf_28	266	342	sp|A7FM66|MURG_YERP3	
+4e-39	0	2	138	Glyco_transf_28	9	145	sp|B1JK81|MURG_YERPY	
+6.1	0	38	108	Glyco_transf_28	266	342	sp|B1JK81|MURG_YERPY	
+4e-39	0	2	138	Glyco_transf_28	9	145	sp|B2K4E6|MURG_YERPB	
+6.1	0	38	108	Glyco_transf_28	266	342	sp|B2K4E6|MURG_YERPB	
+4e-39	0	2	138	Glyco_transf_28	9	145	sp|Q66EK5|MURG_YERPS	
+6.1	0	38	108	Glyco_transf_28	266	342	sp|Q66EK5|MURG_YERPS	
+2.5e-39	0	2	138	Glyco_transf_28	9	145	sp|A1JJJ3|MURG_YERE8	
+4.8e-39	0	2	138	Glyco_transf_28	9	145	sp|A9MQC2|MURG_SALAR	
+5.2	0	38	108	Glyco_transf_28	266	342	sp|A9MQC2|MURG_SALAR	
+8.1e-40	0	1	138	Glyco_transf_28	3	144	sp|P64869|Y1526_MYCTU	
+8.1e-40	0	1	138	Glyco_transf_28	3	144	sp|P64870|Y1553_MYCBO	
+1e-39	0	2	138	Glyco_transf_28	8	144	sp|Q65RY6|MURG_MANSM	
+3.7e-39	0	2	138	Glyco_transf_28	7	143	sp|B2VD91|MURG_ERWT9	
+1.3e-39	0	2	138	Glyco_transf_28	7	143	sp|Q4QLF8|MURG_HAEI8	
+1.3e-39	0	2	138	Glyco_transf_28	7	143	sp|A5UIR2|MURG_HAEIG	
+1.3e-39	0	2	138	Glyco_transf_28	7	143	sp|P45065|MURG_HAEIN	
+9.8e-39	0	2	138	Glyco_transf_28	9	145	sp|A9R124|MURG_YERPG	
+5.3	0	38	116	Glyco_transf_28	266	350	sp|A9R124|MURG_YERPG	
+9.8e-39	0	2	138	Glyco_transf_28	9	145	sp|Q1C214|MURG_YERPA	
+5.3	0	38	116	Glyco_transf_28	266	350	sp|Q1C214|MURG_YERPA	
+9.8e-39	0	2	138	Glyco_transf_28	9	145	sp|Q1CMM7|MURG_YERPN	
+5.3	0	38	116	Glyco_transf_28	266	350	sp|Q1CMM7|MURG_YERPN	
+9.8e-39	0	2	138	Glyco_transf_28	9	145	sp|Q8ZIE9|MURG_YERPE	
+5.3	0	38	116	Glyco_transf_28	266	350	sp|Q8ZIE9|MURG_YERPE	
+6.2e-39	0	1	138	Glyco_transf_28	3	142	sp|O07109|MURG_ENTFA	
+4.3e-39	0	1	138	Glyco_transf_28	7	144	sp|A3QIM1|MURG_SHELP	
+6.2e-39	0	2	138	Glyco_transf_28	9	145	sp|A8G9S7|MURG_SERP5	
+6e-39	0	2	138	Glyco_transf_28	9	145	sp|B7LWF6|MURG_ESCF3	
+7.6e-39	0	2	138	Glyco_transf_28	9	145	sp|A7MIE5|MURG_ENTS8	
+7.1e-39	0	2	138	Glyco_transf_28	9	145	sp|C6DEU3|MURG_PECCP	
+2.4e-38	0	2	138	Glyco_transf_28	4	142	sp|Q88V81|MURG_LACPL	
+1.5e-38	0	2	138	Glyco_transf_28	9	145	sp|Q8Z9G9|MURG_SALTI	
+3.5e-38	0	2	138	Glyco_transf_28	9	145	sp|B4F111|MURG_PROMH	
+4	0	38	116	Glyco_transf_28	271	355	sp|B4F111|MURG_PROMH	
+2.5e-38	0	1	138	Glyco_transf_28	8	145	sp|A0L1P2|MURG_SHESA	
+2.9	0	54	117	Glyco_transf_28	285	357	sp|A0L1P2|MURG_SHESA	
+2.5e-38	0	1	138	Glyco_transf_28	8	145	sp|Q0HZR6|MURG_SHESR	
+2.9	0	54	117	Glyco_transf_28	285	357	sp|Q0HZR6|MURG_SHESR	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B5BLC2|MURG_SALPK	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q5PDC8|MURG_SALPA	
+4.1e-39	0	1	138	Glyco_transf_28	3	142	sp|Q9K9T0|MURG_BACHD	
+5.2e-39	0	1	138	Glyco_transf_28	3	142	sp|Q8Y5M2|MURG_LISMO	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|A9MZL9|MURG_SALPB	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|B4TJ87|MURG_SALHS	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|B4TXH8|MURG_SALSV	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|B5F7W4|MURG_SALA4	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|Q8ZRU3|MURG_SALTY	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|B4SU50|MURG_SALNS	
+2.6e-38	0	1	138	Glyco_transf_28	8	145	sp|A1REZ6|MURG_SHESW	
+2.6e-38	0	1	138	Glyco_transf_28	8	145	sp|A4Y2N6|MURG_SHEPC	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|A6T4N3|MURG_KLEP7	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|B5RH64|MURG_SALG2	
+1.1e-38	0	2	138	Glyco_transf_28	9	145	sp|A8ALK6|MURG_CITK8	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|Q57TD0|MURG_SALCH	
+3.9e-38	0	1	138	Glyco_transf_28	8	145	sp|A6WID1|MURG_SHEB8	
+8	0	54	116	Glyco_transf_28	287	356	sp|A6WID1|MURG_SHEB8	
+3.9e-38	0	1	138	Glyco_transf_28	8	145	sp|A9KY29|MURG_SHEB9	
+8	0	54	116	Glyco_transf_28	287	356	sp|A9KY29|MURG_SHEB9	
+3.9e-38	0	1	138	Glyco_transf_28	8	145	sp|B8E698|MURG_SHEB2	
+8	0	54	116	Glyco_transf_28	287	356	sp|B8E698|MURG_SHEB2	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B5Y1U7|MURG_KLEP3	
+3.9e-38	0	1	138	Glyco_transf_28	8	145	sp|A3CZM1|MURG_SHEB5	
+8.1	0	54	116	Glyco_transf_28	287	356	sp|A3CZM1|MURG_SHEB5	
+1.6e-38	0	2	138	Glyco_transf_28	6	142	sp|Q7U336|MURG_HAEDU	
+8.7e-39	0	2	138	Glyco_transf_28	8	144	sp|B7VJ03|MURG_VIBSL	
+1.1e-38	0	2	138	Glyco_transf_28	8	144	sp|Q0I1D3|MURG_HAES1	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|B5FI72|MURG_SALDC	
+2.4e-38	0	1	138	Glyco_transf_28	3	142	sp|A2RJQ4|MURG_LACLM	
+2.4e-38	0	1	138	Glyco_transf_28	3	142	sp|Q02XY0|MURG_LACLS	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7MNU9|MURG_ECO81	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7NHJ6|MURG_ECO7I	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7UIE0|MURG_ECO27	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q0TLP9|MURG_ECOL5	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q8FL64|MURG_ECOL6	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|A1A7D5|MURG_ECOK1	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7MAL3|MURG_ECO45	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q1RGA5|MURG_ECOUT	
+2.2e-38	0	2	138	Glyco_transf_28	9	145	sp|Q6D0I3|MURG_ERWCT	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B5YZC6|MURG_ECO5E	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q8X9Y8|MURG_ECO57	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|A7ZHI1|MURG_ECO24	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B1LG27|MURG_ECOSM	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B6HZ67|MURG_ECOSE	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7M133|MURG_ECO8A	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7N7W3|MURG_ECOLU	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q326E5|MURG_SHIBS	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q3Z5R9|MURG_SHISS	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|Q32K02|MURG_SHIDS	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B2U295|MURG_SHIB3	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B1IR88|MURG_ECOLC	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B1XC67|MURG_ECODH	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|C4ZRI5|MURG_ECOBW	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|P17443|MURG_ECOLI	
+1.7e-38	0	2	138	Glyco_transf_28	9	145	sp|A7ZW42|MURG_ECOHS	
+6e-38	0	2	138	Glyco_transf_28	9	145	sp|A4TQ83|MURG_YERPP	
+5.3	0	38	116	Glyco_transf_28	266	350	sp|A4TQ83|MURG_YERPP	
+4.7e-38	0	1	138	Glyco_transf_28	3	142	sp|Q9CF92|MURG_LACLA	
+5.8e-38	0	2	138	Glyco_transf_28	9	145	sp|B5R2M4|MURG_SALEP	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|Q0T8A7|MURG_SHIF8	
+2.3e-38	0	2	138	Glyco_transf_28	9	145	sp|Q83MN4|MURG_SHIFL	
+1.2e-37	0	1	138	Glyco_transf_28	8	145	sp|Q8CX35|MURG_SHEON	
+2.6	0	54	117	Glyco_transf_28	285	357	sp|Q8CX35|MURG_SHEON	
+1.7e-38	0	1	138	Glyco_transf_28	3	142	sp|B8DBP8|MURG_LISMH	
+1.9e-38	0	1	138	Glyco_transf_28	3	142	sp|A0AKD5|MURG_LISW6	
+2.3e-38	0	1	138	Glyco_transf_28	3	142	sp|Q9ZBA5|MURG_STRCO	
+2.1e-38	0	1	138	Glyco_transf_28	3	142	sp|Q929Y2|MURG_LISIN	
+2.1e-38	0	2	137	Glyco_transf_28	6	141	sp|B8F3B6|MURG_HAEPS	
+2.5e-38	0	1	138	Glyco_transf_28	8	145	sp|Q0HE83|MURG_SHESM	
+2.2e-38	0	1	138	Glyco_transf_28	3	142	sp|C1KWY8|MURG_LISMC	
+2.2e-38	0	1	138	Glyco_transf_28	3	142	sp|Q71XX8|MURG_LISMF	
+2.3e-38	0	2	138	Glyco_transf_28	10	146	sp|A1S2F9|MURG_SHEAM	
+3.5e-38	0	2	137	Glyco_transf_28	7	142	sp|A5UCW8|MURG_HAEIE	
+1.9e-36	0	2	138	Glyco_transf_28	4	142	sp|Q03QH5|MURG_LACBA	
+1.6	0	63	130	Glyco_transf_28	295	355	sp|Q03QH5|MURG_LACBA	
+3.9e-38	0	2	138	Glyco_transf_28	8	144	sp|Q8DEL0|MURG_VIBVU	
+3.9e-38	0	2	138	Glyco_transf_28	8	144	sp|Q7MNV1|MURG_VIBVY	
+4.4e-38	0	1	138	Glyco_transf_28	5	142	sp|Q3IFY0|MURG_PSEHT	
+6.7e-38	0	2	138	Glyco_transf_28	9	145	sp|B7LFW0|MURG_ECO55	
+4.2e-38	0	1	138	Glyco_transf_28	10	147	sp|B1KKX7|MURG_SHEWM	
+7.4e-38	0	1	138	Glyco_transf_28	3	141	sp|Q49929|Y2348_MYCLE	
+1.7e-37	0	2	138	Glyco_transf_28	9	145	sp|Q7N147|MURG_PHOLL	
+1.4e-37	0	1	138	Glyco_transf_28	10	147	sp|A8H984|MURG_SHEPA	
+1e-37	0	1	138	Glyco_transf_28	3	142	sp|Q820F6|MURG_STRAW	
+3.4e-37	0	2	138	Glyco_transf_28	4	142	sp|Q1WTA0|MURG_LACS1	
+1.4e-37	0	1	137	Glyco_transf_28	3	141	sp|Q9X4H4|MURG_STRCU	
+1.3e-37	0	1	138	Glyco_transf_28	10	147	sp|Q12SC6|MURG_SHEDO	
+1.1e-37	0	2	138	Glyco_transf_28	9	145	sp|P57817|MURG_PASMU	
+1.9e-37	0	2	138	Glyco_transf_28	8	144	sp|Q87SG4|MURG_VIBPA	
+2.5e-37	0	1	138	Glyco_transf_28	10	147	sp|B0TQN7|MURG_SHEHH	
+3e-37	0	1	138	Glyco_transf_28	3	142	sp|C4L5U5|MURG_EXISA	
+2.1e-37	0	1	138	Glyco_transf_28	6	143	sp|A9M2H3|MURG_NEIM0	
+2e-37	0	2	138	Glyco_transf_28	8	144	sp|Q6LMF6|MURG_PHOPR	
+3.1e-37	0	2	138	Glyco_transf_28	9	145	sp|Q5E2Q0|MURG_VIBF1	
+2.8e-37	0	1	138	Glyco_transf_28	3	143	sp|P64865|Y1524_MYCTU	
+2.8e-37	0	1	138	Glyco_transf_28	3	143	sp|P64866|Y1551_MYCBO	
+3.1e-37	0	2	138	Glyco_transf_28	9	145	sp|B5FB35|MURG_VIBFM	
+4.4e-36	0	2	138	Glyco_transf_28	4	142	sp|B2GB78|MURG_LACF3	
+9	0	72	114	Glyco_transf_28	201	243	sp|B2GB78|MURG_LACF3	
+3.6e-37	0	2	138	Glyco_transf_28	9	145	sp|B6ELH5|MURG_ALISL	
+4.3e-37	0	2	138	Glyco_transf_28	4	140	sp|B8CWJ6|MURG_HALOH	
+4e-37	0	2	138	Glyco_transf_28	8	144	sp|A7MXR6|MURG_VIBHB	
+5.8e-36	0	2	138	Glyco_transf_28	4	142	sp|A5VJ33|MURG_LACRD	
+5.7	0	64	129	Glyco_transf_28	299	357	sp|A5VJ33|MURG_LACRD	
+5.8e-36	0	2	138	Glyco_transf_28	4	142	sp|B2G6K5|MURG_LACRJ	
+5.7	0	64	129	Glyco_transf_28	299	357	sp|B2G6K5|MURG_LACRJ	
+5.6e-37	0	1	138	Glyco_transf_28	4	143	sp|Q182Y6|MURG_CLOD6	
+6.3e-37	0	2	135	Glyco_transf_28	9	142	sp|Q2NVV1|MURG_SODGM	
+6.4e-37	0	1	138	Glyco_transf_28	11	148	sp|Q07WI5|MURG_SHEFN	
+5.3e-37	0	1	138	Glyco_transf_28	6	143	sp|A1KVL3|MURG_NEIMF	
+5.3e-37	0	1	138	Glyco_transf_28	6	143	sp|Q9K0Y2|MURG_NEIMB	
+9.9e-37	0	1	138	Glyco_transf_28	10	147	sp|B8CNL1|MURG_SHEPW	
+2.5e-36	0	2	138	Glyco_transf_28	6	142	sp|C4LA25|MURG_TOLAT	
+1.1e-36	0	1	138	Glyco_transf_28	10	147	sp|Q9F1N0|MURG_SHEVI	
+1.2e-36	0	2	138	Glyco_transf_28	9	145	sp|A5F5M9|MURG_VIBC3	
+1.7e-36	0	1	137	Glyco_transf_28	3	141	sp|Q03W35|MURG_LEUMM	
+7.9e-37	0	1	138	Glyco_transf_28	7	146	sp|A3Q1L8|MURG_MYCSJ	
+7.9e-37	0	1	138	Glyco_transf_28	7	146	sp|A1UI54|MURG_MYCSK	
+7.9e-37	0	1	138	Glyco_transf_28	7	146	sp|Q1B6X1|MURG_MYCSS	
+6.9e-37	0	2	138	Glyco_transf_28	9	145	sp|C3LQU6|MURG_VIBCM	
+6.9e-37	0	2	138	Glyco_transf_28	9	145	sp|Q9KPG7|MURG_VIBCH	
+1.4e-36	0	1	138	Glyco_transf_28	10	147	sp|A8FQA0|MURG_SHESH	
+2.9e-36	0	1	138	Glyco_transf_28	6	143	sp|B4RQC5|MURG_NEIG2	
+2.9e-36	0	1	138	Glyco_transf_28	6	143	sp|Q5F6L8|MURG_NEIG1	
+2.8e-36	0	1	138	Glyco_transf_28	3	142	sp|B1I4C4|MURG_DESAP	
+1.4e-36	0	1	134	Glyco_transf_28	4	137	sp|Q6A9Q2|MURG_PROAC	
+1.2e-35	0	2	138	Glyco_transf_28	4	142	sp|B3WDY2|MURG_LACCB	
+1.2e-35	0	2	138	Glyco_transf_28	4	142	sp|Q039R7|MURG_LACC3	
+1e-35	0	2	138	Glyco_transf_28	4	142	sp|A4J2B1|MURG_DESRM	
+4.1e-36	0	2	137	Glyco_transf_28	17	152	sp|Q47VQ9|MURG_COLP3	
+3.6e-36	0	1	135	Glyco_transf_28	3	139	sp|B2A2H2|MURG_NATTJ	
+4.2e-36	0	1	130	Glyco_transf_28	6	135	sp|Q6NGC8|MURG_CORDI	
+5.1e-36	0	1	138	Glyco_transf_28	5	142	sp|B4RWX9|MURG_ALTMD	
+6.5e-36	0	1	138	Glyco_transf_28	6	143	sp|Q9JSZ7|MURG_NEIMA	
+9.2e-35	0	1	130	Glyco_transf_28	8	137	sp|B0KFS6|MURG_PSEPG	
+7.8	0	34	55	Glyco_transf_28	209	258	sp|B0KFS6|MURG_PSEPG	
+8.9e-36	0	1	137	Glyco_transf_28	5	141	sp|A4XQS4|MURG_PSEMY	
+9e-36	0	1	137	Glyco_transf_28	5	141	sp|Q48EF8|MURG_PSE14	
+4.6e-36	0	2	138	Glyco_transf_28	4	142	sp|Q8R9G6|MURG_THETN	
+8.3e-35	0	1	130	Glyco_transf_28	8	137	sp|A5W8Q0|MURG_PSEP1	
+5.5e-35	0	1	134	Glyco_transf_28	8	141	sp|Q1I5B8|MURG_PSEE4	
+1.2e-35	0	1	137	Glyco_transf_28	5	141	sp|Q87WY5|MURG_PSESM	
+1e-35	0	1	138	Glyco_transf_28	4	141	sp|C3L230|MURG_CLOB6	
+1.2e-35	0	2	138	Glyco_transf_28	52	188	sp|A1WC06|MURG_ACISJ	
+1.2e-35	0	2	138	Glyco_transf_28	52	188	sp|B9MFR2|MURG_DIAST	
+6.3e-36	0	1	138	Glyco_transf_28	31	175	sp|B8ZQQ0|MURG_MYCLB	
+6.3e-36	0	1	138	Glyco_transf_28	31	175	sp|O69552|MURG_MYCLE	
+3.6e-35	0	1	138	Glyco_transf_28	5	142	sp|Q893R7|MURG_CLOTE	
+1.2e-35	0	1	138	Glyco_transf_28	4	141	sp|A7GGX9|MURG_CLOBL	
+1.2e-35	0	1	138	Glyco_transf_28	4	141	sp|B1IKH3|MURG_CLOBK	
+1.2e-35	0	1	138	Glyco_transf_28	4	141	sp|C1FUF9|MURG_CLOBJ	
+1.2e-35	0	1	138	Glyco_transf_28	4	141	sp|A5I5J5|MURG_CLOBH	
+1.2e-35	0	1	138	Glyco_transf_28	4	141	sp|A7FX11|MURG_CLOB1	
+1.3e-35	0	1	137	Glyco_transf_28	5	141	sp|Q4ZNZ0|MURG_PSEU2	
+7.7e-35	0	1	138	Glyco_transf_28	8	147	sp|A4XI04|MURG_CALS8	
+2e-35	0	1	138	Glyco_transf_28	17	161	sp|A0R016|MURG_MYCS2	
+3.5e-35	0	1	137	Glyco_transf_28	3	143	sp|A8YUN9|MURG_LACH4	
+9.9e-36	0	1	139	Glyco_transf_28	3	143	sp|A1SL80|MURG_NOCSJ	
+1.3e-34	0	1	130	Glyco_transf_28	8	137	sp|Q88N76|MURG_PSEPK	
+2.4e-35	0	1	138	Glyco_transf_28	4	141	sp|B1KYH7|MURG_CLOBM	
+2.7e-35	0	1	138	Glyco_transf_28	3	142	sp|Q24TE6|MURG_DESHY	
+3.1e-35	0	1	137	Glyco_transf_28	5	141	sp|Q3K744|MURG_PSEPF	
+3e-34	0	1	130	Glyco_transf_28	8	137	sp|B1J3L2|MURG_PSEPW	
+2e-34	0	2	138	Glyco_transf_28	4	142	sp|B0K3H0|MURG_THEPX	
+2e-34	0	2	138	Glyco_transf_28	4	142	sp|B0K8K7|MURG_THEP3	
+2.7e-34	0	1	138	Glyco_transf_28	3	142	sp|A3DE27|MURG_CLOTH	
+4.1e-35	0	1	138	Glyco_transf_28	32	175	sp|A1TAW8|MURG_MYCVP	
+1.3e-34	0	1	138	Glyco_transf_28	3	142	sp|B8FT56|MURG_DESHD	
+4.1e-35	0	1	137	Glyco_transf_28	4	141	sp|Q9RWP0|MURG_DEIRA	
+3.1e-34	0	1	135	Glyco_transf_28	12	146	sp|B2I1J5|MURG_ACIBC	
+3.1e-34	0	1	135	Glyco_transf_28	12	146	sp|B0V9F5|MURG_ACIBY	
+3.1e-34	0	1	135	Glyco_transf_28	12	146	sp|B7GV73|MURG_ACIB3	
+3.1e-34	0	1	135	Glyco_transf_28	12	146	sp|B7ICE5|MURG_ACIB5	
+4.4e-35	0	1	138	Glyco_transf_28	3	142	sp|A5D145|MURG_PELTS	
+3.1e-34	0	1	135	Glyco_transf_28	12	146	sp|A3M9Y1|MURG_ACIBT	
+1.1e-34	0	1	134	Glyco_transf_28	4	137	sp|A9KK83|MURG_CLOPH	
+1.3e-34	0	1	134	Glyco_transf_28	5	138	sp|C3KCT0|MURG_PSEFS	
+1.7e-34	0	2	138	Glyco_transf_28	4	142	sp|Q03EY2|MURG_PEDPA	
+2.2e-34	0	1	138	Glyco_transf_28	34	178	sp|A0QF52|MURG_MYCA1	
+3.7e-33	0	1	137	Glyco_transf_28	3	143	sp|Q04B72|MURG_LACDB	
+7.8	0	71	102	Glyco_transf_28	204	235	sp|Q04B72|MURG_LACDB	
+3.7e-33	0	1	137	Glyco_transf_28	3	143	sp|Q1GAT5|MURG_LACDA	
+7.8	0	71	102	Glyco_transf_28	204	235	sp|Q1GAT5|MURG_LACDA	
+1.6e-34	0	1	134	Glyco_transf_28	5	138	sp|Q4K6J3|MURG_PSEF5	
+1e-33	0	1	135	Glyco_transf_28	12	146	sp|B0VNZ9|MURG_ACIBS	
+8.8e-34	0	1	137	Glyco_transf_28	3	143	sp|Q5FKV2|MURG_LACAC	
+1.3e-33	0	2	138	Glyco_transf_28	6	142	sp|A0KPX2|MURG_AERHH	
+2.4e-34	0	1	132	Glyco_transf_28	6	137	sp|A1WYU3|MURG_HALHL	
+5.5e-34	0	1	138	Glyco_transf_28	34	178	sp|Q73YQ8|MURG_MYCPA	
+3.9e-34	0	1	137	Glyco_transf_28	3	141	sp|B1MXW0|MURG_LEUCK	
+6.1e-34	0	1	138	Glyco_transf_28	5	142	sp|Q604V7|MURG_METCA	
+4.2e-34	0	1	134	Glyco_transf_28	6	139	sp|B2V1X5|MURG_CLOBA	
+6e-34	0	1	137	Glyco_transf_28	9	145	sp|A1U3F8|MURG_MARAV	
+4.4e-33	0	1	138	Glyco_transf_28	3	142	sp|A8MH36|MURG_ALKOO	
+9.3e-34	0	1	136	Glyco_transf_28	6	141	sp|B2TLE0|MURG_CLOBB	
+2.7e-33	0	2	138	Glyco_transf_28	6	142	sp|A4SI56|MURG_AERS4	
+2.2e-33	0	1	137	Glyco_transf_28	4	140	sp|C4Z1B5|MURG_EUBE2	
+1.2e-33	0	1	136	Glyco_transf_28	5	140	sp|C1DQ99|MURG_AZOVD	
+3.2e-33	0	1	137	Glyco_transf_28	12	148	sp|Q6F703|MURG_ACIAD	
+9.4e-34	0	1	138	Glyco_transf_28	3	141	sp|B1YIT7|MURG_EXIS2	
+2.1e-33	0	1	137	Glyco_transf_28	4	141	sp|C1CW40|MURG_DEIDV	
+3.3e-33	0	1	132	Glyco_transf_28	3	136	sp|Q47QW9|MURG_THEFY	
+1.6e-33	0	1	138	Glyco_transf_28	6	143	sp|A0Q182|MURG_CLONN	
+9.4e-34	0	1	138	Glyco_transf_28	38	185	sp|A1KKJ6|MURG_MYCBP	
+9.4e-34	0	1	138	Glyco_transf_28	38	185	sp|C1AQ69|MURG_MYCBT	
+9.4e-34	0	1	138	Glyco_transf_28	38	185	sp|Q7VEP8|MURG_MYCBO	
+1.8e-33	0	1	138	Glyco_transf_28	3	142	sp|B0S0Z5|MURG_FINM2	
+8.7e-33	0	1	137	Glyco_transf_28	5	141	sp|B7UZJ0|MURG_PSEA8	
+8.7e-33	0	1	137	Glyco_transf_28	5	141	sp|Q02H28|MURG_PSEAB	
+8.7e-33	0	1	137	Glyco_transf_28	5	141	sp|Q9HW01|MURG_PSEAE	
+1.4e-33	0	1	138	Glyco_transf_28	22	166	sp|A0PTI7|MURG_MYCUA	
+8.7e-33	0	1	137	Glyco_transf_28	5	141	sp|A6VB85|MURG_PSEA7	
+2.6e-33	0	1	135	Glyco_transf_28	4	137	sp|A9KER3|MURG_COXBN	
+2.6e-33	0	1	135	Glyco_transf_28	4	137	sp|A9NA44|MURG_COXBR	
+2.6e-33	0	1	135	Glyco_transf_28	4	137	sp|B6J2Q3|MURG_COXB2	
+2.6e-33	0	1	135	Glyco_transf_28	4	137	sp|B6J5K3|MURG_COXB1	
+2.6e-33	0	1	135	Glyco_transf_28	4	137	sp|Q820X3|MURG_COXBU	
+5.2e-33	0	1	137	Glyco_transf_28	3	143	sp|Q042P9|MURG_LACGA	
+1.7e-33	0	1	138	Glyco_transf_28	22	166	sp|B2HGR6|MURG_MYCMM	
+4.8e-33	0	1	132	Glyco_transf_28	5	136	sp|Q0VS02|MURG_ALCBS	
+1.9e-33	0	1	133	Glyco_transf_28	5	139	sp|Q0RNP1|MURG_FRAAA	
+3.7e-33	0	1	131	Glyco_transf_28	3	135	sp|Q2RK79|MURG_MOOTA	
+2.2e-33	0	1	137	Glyco_transf_28	4	141	sp|Q1IXV9|MURG_DEIGD	
+9.8e-33	0	1	137	Glyco_transf_28	3	143	sp|Q74JY4|MURG_LACJO	
+6.9e-33	0	1	138	Glyco_transf_28	4	141	sp|A5MZ55|MURG_CLOK5	
+6.5e-33	0	2	138	Glyco_transf_28	8	144	sp|A1TKD1|MURG_ACIAC	
+7.6e-33	0	1	139	Glyco_transf_28	7	148	sp|B7J0L2|MURG_BORBZ	
+7.6e-33	0	1	139	Glyco_transf_28	7	148	sp|O51708|MURG_BORBU	
+7.4e-33	0	2	138	Glyco_transf_28	16	152	sp|Q15Q17|MURG_PSEA6	
+1e-32	0	2	138	Glyco_transf_28	743	878	sp|A7A179|ATG26_YEAS7	
+8.5e-33	0	1	137	Glyco_transf_28	4	142	sp|Q1D0T0|MURG_MYXXD	
+4.5e-33	0	1	138	Glyco_transf_28	9	146	sp|Q1QVG7|MURG_CHRSD	
+4.6e-33	0	1	132	Glyco_transf_28	5	136	sp|A4VIH8|MURG_PSEU5	
+1.5e-32	0	3	138	Glyco_transf_28	2	143	sp|Q38XM8|MURG_LACSS	
+1.5e-32	0	2	138	Glyco_transf_28	8	144	sp|A1SU19|MURG_PSYIN	
+1.3e-32	0	1	138	Glyco_transf_28	4	141	sp|Q31I59|MURG_THICR	
+1.5e-32	0	1	138	Glyco_transf_28	3	142	sp|Q04ET0|MURG_OENOB	
+6.1e-33	0	1	138	Glyco_transf_28	6	143	sp|Q2KVG0|MURG_BORA1	
+1.3e-32	0	1	138	Glyco_transf_28	4	142	sp|Q5R0M1|MURG_IDILO	
+1.8e-32	0	1	136	Glyco_transf_28	4	139	sp|Q5WAE4|MURG_BACSK	
+2.4e-32	0	1	131	Glyco_transf_28	5	137	sp|Q2JD50|MURG_FRASC	
+1.6e-32	0	1	138	Glyco_transf_28	5	142	sp|B5ELC3|MURG_ACIF5	
+1.6e-32	0	1	138	Glyco_transf_28	5	142	sp|B7J3V2|MURG_ACIF2	
+1.4e-32	0	1	139	Glyco_transf_28	7	148	sp|Q0SM88|MURG_BORAP	
+1.9e-32	0	1	138	Glyco_transf_28	6	143	sp|Q4FQV9|MURG_PSYA2	
+5.1e-32	0	1	138	Glyco_transf_28	4	141	sp|Q730T5|MURG2_BACC1	
+4.6e-32	0	2	138	Glyco_transf_28	7	143	sp|Q1LSW5|MURG_BAUCH	
+1.7e-32	0	1	139	Glyco_transf_28	4	146	sp|Q9WY74|MURG_THEMA	
+1.7e-32	0	1	139	Glyco_transf_28	4	146	sp|B1L9S1|MURG_THESQ	
+1.7e-32	0	1	139	Glyco_transf_28	4	146	sp|A5IKI9|MURG_THEP1	
+2.6e-32	0	1	138	Glyco_transf_28	22	160	sp|A4FLW0|MURG_SACEN	
+2.3e-32	0	2	138	Glyco_transf_28	8	142	sp|Q9RNM6|MURG_ZYMMO	
+3.5e-32	0	2	138	Glyco_transf_28	743	878	sp|Q06321|ATG26_YEAST	
+2.2e-32	0	1	138	Glyco_transf_28	15	152	sp|Q9PF81|MURG_XYLFA	
+1.4e-32	0	1	138	Glyco_transf_28	21	158	sp|Q5GW41|MURG_XANOR	
+2.5e-32	0	1	139	Glyco_transf_28	15	154	sp|B2S3B6|MURG_TREPS	
+2.5e-32	0	1	139	Glyco_transf_28	15	154	sp|O83535|MURG_TREPA	
+3e-32	0	3	138	Glyco_transf_28	2	137	sp|Q0AJE1|MURG_NITEC	
+1.8e-32	0	1	138	Glyco_transf_28	6	143	sp|B3PCM0|MURG_CELJU	
+3.6e-32	0	2	139	Glyco_transf_28	4	143	sp|A5G8K0|MURG_GEOUR	
+2.2e-32	0	1	138	Glyco_transf_28	38	185	sp|A5U4I0|MURG_MYCTA	
+2.2e-32	0	1	138	Glyco_transf_28	38	185	sp|O06224|MURG_MYCTU	
+2.3e-32	0	1	130	Glyco_transf_28	13	144	sp|Q4JW95|MURG_CORJK	
+5.8e-32	0	1	137	Glyco_transf_28	6	142	sp|Q97GY4|MURG_CLOAB	
+4.5e-32	0	1	137	Glyco_transf_28	8	142	sp|Q9Z702|MURG_CHLPN	
+5e-32	0	1	138	Glyco_transf_28	6	143	sp|Q1Q944|MURG_PSYCK	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|C0RE70|MURG_BRUMB	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|Q8YI66|MURG_BRUME	
+6.7e-32	0	1	138	Glyco_transf_28	22	159	sp|Q3BXF2|MURG_XANC5	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|B2S6Q4|MURG_BRUA1	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|Q2YLY5|MURG_BRUA2	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|Q57C78|MURG_BRUAB	
+7.2e-32	0	1	138	Glyco_transf_28	7	147	sp|Q660A8|MURG_BORGA	
+6.7e-32	0	1	137	Glyco_transf_28	3	141	sp|B8I6H3|MURG_CLOCE	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|A5VRH7|MURG_BRUO2	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|B0CHM0|MURG_BRUSI	
+7.1e-32	0	1	133	Glyco_transf_28	8	142	sp|A0JV94|MURG_ARTS2	
+7.2e-32	0	1	138	Glyco_transf_28	3	142	sp|A6TS61|MURG_ALKMQ	
+7.1e-32	0	1	137	Glyco_transf_28	5	142	sp|C5D4C2|MURG_GEOSW	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|A9M690|MURG_BRUC2	
+1.1e-31	0	1	138	Glyco_transf_28	21	158	sp|Q8PPA8|MURG_XANAC	
+9.8e-32	0	1	137	Glyco_transf_28	10	145	sp|Q8CY39|MURG_BRUSU	
+8.9e-32	0	2	138	Glyco_transf_28	8	144	sp|A1WRL1|MURG_VEREI	
+2.4e-31	0	1	138	Glyco_transf_28	4	141	sp|Q812T8|MURG2_BACCR	
+8.4e-32	0	1	138	Glyco_transf_28	15	152	sp|B0U4Z7|MURG_XYLFM	
+9.4e-32	0	1	137	Glyco_transf_28	5	142	sp|A4IJS4|MURG_GEOTN	
+5.8e-32	0	1	138	Glyco_transf_28	21	158	sp|Q2NZB8|MURG_XANOM	
+1.3e-31	0	1	137	Glyco_transf_28	6	144	sp|A5FIY3|MURG_FLAJ1	
+2.8e-31	0	2	139	Glyco_transf_28	9	146	sp|Q39JX0|MURG_BURS3	
+1.7e-31	0	1	138	Glyco_transf_28	10	155	sp|C1A0X5|MURG_RHOE4	
+3.3e-31	0	2	138	Glyco_transf_28	4	142	sp|Q748D6|MURG_GEOSL	
+2.4e-31	0	1	137	Glyco_transf_28	4	140	sp|Q820Y4|MURG_TROWT	
+2.4e-31	0	1	137	Glyco_transf_28	4	140	sp|Q83HK1|MURG_TROW8	
+2.3e-31	0	1	129	Glyco_transf_28	3	132	sp|A4QFM3|MURG_CORGB	
+3.1e-31	0	2	138	Glyco_transf_28	4	142	sp|Q39YL9|MURG_GEOMG	
+2.2e-31	0	1	139	Glyco_transf_28	7	148	sp|A1R0I9|MURG_BORT9	
+3.5e-31	0	2	137	Glyco_transf_28	4	141	sp|Q3AAE6|MURG_CARHZ	
+2.3e-31	0	1	129	Glyco_transf_28	3	132	sp|Q8NNN5|MURG_CORGL	
+3.5e-31	0	1	135	Glyco_transf_28	6	140	sp|Q0TNP7|MURG_CLOP1	
+3.5e-31	0	1	135	Glyco_transf_28	6	140	sp|Q8XIQ1|MURG_CLOPE	
+3.5e-31	0	1	135	Glyco_transf_28	6	140	sp|Q0SRB4|MURG_CLOPS	
+3.4e-31	0	1	138	Glyco_transf_28	17	162	sp|Q5YYX9|MURG_NOCFA	
+2.6e-31	0	2	138	Glyco_transf_28	4	142	sp|A7HH67|MURG_ANADF	
+4.7e-31	0	3	138	Glyco_transf_28	2	137	sp|Q82VS3|MURG_NITEU	
+2.4e-31	0	1	138	Glyco_transf_28	22	159	sp|B0RVA5|MURG_XANCB	
+5.2e-31	0	2	139	Glyco_transf_28	9	146	sp|Q2SZI3|MURG_BURTA	
+3.2e-31	0	1	137	Glyco_transf_28	6	141	sp|Q11GS5|MURG_MESSB	
+2.4e-31	0	1	138	Glyco_transf_28	22	159	sp|Q4UQX0|MURG_XANC8	
+2.4e-31	0	1	138	Glyco_transf_28	22	159	sp|Q8PCK0|MURG_XANCP	
+6e-31	0	2	139	Glyco_transf_28	9	146	sp|A3NZL5|MURG_BURP0	
+2.9e-31	0	1	137	Glyco_transf_28	6	141	sp|Q98KB3|MURG_RHILO	
+6.2e-31	0	1	138	Glyco_transf_28	5	142	sp|Q0A6K2|MURG_ALHEH	
+6.1e-31	0	1	137	Glyco_transf_28	5	141	sp|A5IGA6|MURG_LEGPC	
+4.7e-31	0	1	137	Glyco_transf_28	5	142	sp|Q5L3H6|MURG_GEOKA	
+5.2e-31	0	1	135	Glyco_transf_28	3	139	sp|A0LTM3|MURG_ACIC1	
+7.6e-31	0	2	137	Glyco_transf_28	4	141	sp|Q3A2G6|MURG_PELCD	
+9.8e-30	0	1	136	Glyco_transf_28	3	140	sp|Q0AYQ8|MURG_SYNWW	
+1.3e-30	0	2	138	Glyco_transf_28	7	143	sp|Q1LIM6|MURG_RALME	
+3.7e-30	0	1	137	Glyco_transf_28	6	141	sp|Q92NL9|MURG_RHIME	
+3.9e-30	0	1	135	Glyco_transf_28	2	134	sp|Q72JP9|MURG_THET2	
+5e-31	0	1	138	Glyco_transf_28	14	153	sp|A1R5F8|MURG_ARTAT	
+8.6e-31	0	1	138	Glyco_transf_28	12	149	sp|Q87AF9|MURG_XYLFT	
+8.8e-31	0	1	138	Glyco_transf_28	15	152	sp|B2I9B3|MURG_XYLF2	
+9.9e-31	0	1	137	Glyco_transf_28	6	141	sp|A6WZQ6|MURG_OCHA4	
+1.5e-30	0	2	139	Glyco_transf_28	9	146	sp|A1V0R8|MURG_BURMS	
+1.5e-30	0	2	139	Glyco_transf_28	9	146	sp|A2S5U5|MURG_BURM9	
+1.5e-30	0	2	139	Glyco_transf_28	9	146	sp|A3MR63|MURG_BURM7	
+1.5e-30	0	2	139	Glyco_transf_28	9	146	sp|Q62GS7|MURG_BURMA	
+1.5e-30	0	2	139	Glyco_transf_28	9	146	sp|Q63QJ7|MURG_BURPS	
+1.5e-30	0	2	139	Glyco_transf_28	9	146	sp|A3NDW4|MURG_BURP6	
+1.6e-30	0	1	132	Glyco_transf_28	5	136	sp|Q3J789|MURG_NITOC	
+1.1e-30	0	1	135	Glyco_transf_28	6	140	sp|Q8K9T4|MURG_BUCAP	
+1.4e-30	0	2	139	Glyco_transf_28	4	143	sp|B9M172|MURG_GEOSF	
+1.9e-30	0	2	139	Glyco_transf_28	4	143	sp|B5EBQ1|MURG_GEOBB	
+1.9e-30	0	2	139	Glyco_transf_28	9	146	sp|Q3JND8|MURG_BURP1	
+1.5e-30	0	2	137	Glyco_transf_28	4	140	sp|Q1IKH0|MURG_ACIBL	
+2.6e-30	0	2	138	Glyco_transf_28	8	141	sp|P74657|MURG_SYNY3	
+1.7e-30	0	2	139	Glyco_transf_28	9	146	sp|B1YSS4|MURG_BURA4	
+1.7e-30	0	2	139	Glyco_transf_28	9	146	sp|Q0BIK1|MURG_BURCM	
+3.9e-30	0	1	138	Glyco_transf_28	4	141	sp|Q6HDR3|MURG2_BACHK	
+3.9e-30	0	1	138	Glyco_transf_28	4	141	sp|Q81JE6|MURG2_BACAN	
+2.3e-30	0	2	138	Glyco_transf_28	8	144	sp|Q0K6M4|MURG_RALEH	
+2.6e-30	0	1	137	Glyco_transf_28	5	141	sp|Q5WY98|MURG_LEGPL	
+3.9e-30	0	1	138	Glyco_transf_28	4	141	sp|A0RIN0|MURG3_BACAH	
+2.9e-30	0	1	138	Glyco_transf_28	6	143	sp|Q7W4B4|MURG_BORPA	
+2.6e-30	0	1	137	Glyco_transf_28	5	141	sp|Q5X6U5|MURG_LEGPA	
+2.6e-30	0	1	137	Glyco_transf_28	5	141	sp|Q5ZXC4|MURG_LEGPH	
+2e-30	0	1	136	Glyco_transf_28	6	141	sp|A6M1F0|MURG_CLOB8	
+2e-30	0	1	135	Glyco_transf_28	6	140	sp|B8D7B9|MURG_BUCAT	
+2e-30	0	1	135	Glyco_transf_28	6	140	sp|P57311|MURG_BUCAI	
+3.6e-30	0	1	138	Glyco_transf_28	6	143	sp|Q7VUQ3|MURG_BORPE	
+3.6e-30	0	1	138	Glyco_transf_28	6	143	sp|Q7WFS2|MURG_BORBR	
+6.3e-30	0	2	139	Glyco_transf_28	10	147	sp|B2SYX6|MURG_BURPP	
+2.9e-30	0	1	137	Glyco_transf_28	7	141	sp|B0B8Y7|MURG_CHLT2	
+2.9e-30	0	1	137	Glyco_transf_28	7	141	sp|B0BAL6|MURG_CHLTB	
+2.6e-30	0	1	135	Glyco_transf_28	6	140	sp|B8D914|MURG_BUCA5	
+4.2e-30	0	1	138	Glyco_transf_28	5	142	sp|Q47AA4|MURG_DECAR	
+4.1e-30	0	2	139	Glyco_transf_28	9	146	sp|A4JB94|MURG_BURVG	
+4e-30	0	1	138	Glyco_transf_28	5	142	sp|Q2Y638|MURG_NITMU	
+4.6e-30	0	2	139	Glyco_transf_28	10	147	sp|B2JHG0|MURG_BURP8	
+4.6e-30	0	1	137	Glyco_transf_28	7	141	sp|O84766|MURG_CHLTR	
+4.6e-30	0	1	137	Glyco_transf_28	7	141	sp|Q3KKT1|MURG_CHLTA	
+6.2e-30	0	2	138	Glyco_transf_28	4	142	sp|A1AU61|MURG_PELPD	
+6.3e-30	0	1	138	Glyco_transf_28	5	144	sp|Q2LR48|MURG_SYNAS	
+5.6e-30	0	2	138	Glyco_transf_28	9	143	sp|Q2G995|MURG_NOVAD	
+7.5e-30	0	2	138	Glyco_transf_28	9	145	sp|A5EY03|MURG_DICNV	
+3.6e-30	0	1	130	Glyco_transf_28	10	140	sp|Q8FNU0|MURG_COREF	
+8.1e-30	0	2	139	Glyco_transf_28	9	146	sp|A9AI96|MURG_BURM1	
+6.9e-30	0	2	138	Glyco_transf_28	36	177	sp|Q21SW9|MURG_RHOFD	
+8.8e-30	0	1	138	Glyco_transf_28	3	142	sp|B5YFT4|MURG_THEYD	
+1.2e-29	0	1	138	Glyco_transf_28	790	924	sp|A7KAK6|ATG26_PICAN	
+1.2e-29	0	2	138	Glyco_transf_28	8	144	sp|Q46WZ4|MURG_RALEJ	
+2e-29	0	2	139	Glyco_transf_28	10	147	sp|Q13TZ2|MURG_BURXL	
+1.9e-29	0	2	139	Glyco_transf_28	4	143	sp|C6DZK6|MURG_GEOSM	
+1.4e-29	0	1	138	Glyco_transf_28	4	135	sp|A8GVJ7|MURG_RICB8	
+1.4e-29	0	1	138	Glyco_transf_28	4	135	sp|Q1RI55|MURG_RICBR	
+9.1e-29	0	1	137	Glyco_transf_28	6	141	sp|B5ZWJ4|MURG_RHILW	
+1.8e-29	0	2	138	Glyco_transf_28	9	142	sp|B0JFZ1|MURG_MICAN	
+2.3e-29	0	2	138	Glyco_transf_28	9	141	sp|Q31KS7|MURG_SYNE7	
+2.4e-29	0	2	138	Glyco_transf_28	15	147	sp|Q5N140|MURG_SYNP6	
+2.9e-29	0	1	137	Glyco_transf_28	8	143	sp|Q14I26|MURG_FRAT1	
+2.9e-29	0	1	137	Glyco_transf_28	8	143	sp|Q5NGM4|MURG_FRATT	
+2.6e-29	0	1	138	Glyco_transf_28	7	144	sp|Q493Q1|MURG_BLOPB	
+1.9e-29	0	1	138	Glyco_transf_28	4	135	sp|Q92I58|MURG_RICCN	
+1.9e-29	0	1	138	Glyco_transf_28	4	135	sp|C3PND5|MURG_RICAE	
+1.9e-29	0	1	138	Glyco_transf_28	4	135	sp|C4K2A6|MURG_RICPU	
+1.8e-29	0	1	139	Glyco_transf_28	7	148	sp|B2S1A8|MURG_BORHD	
+1.9e-29	0	1	138	Glyco_transf_28	4	135	sp|A8GRZ6|MURG_RICRS	
+1.9e-29	0	1	138	Glyco_transf_28	4	135	sp|B0BXF6|MURG_RICRO	
+2.7e-29	0	2	138	Glyco_transf_28	9	145	sp|Q3SMH3|MURG_THIDA	
+3.1e-29	0	1	138	Glyco_transf_28	32	175	sp|Q21MG9|MURG_SACD2	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|B1IAM4|MURG_STRPI	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|Q04LK0|MURG_STRP2	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|Q8DQM1|MURG_STRR6	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|B2IN77|MURG_STRPS	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|C1CQG5|MURG_STRZT	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|C1CD52|MURG_STRZJ	
+4.3e-29	0	1	138	Glyco_transf_28	4	141	sp|Q634T3|MURG2_BACCZ	
+3.1e-29	0	2	138	Glyco_transf_28	8	149	sp|A1VST6|MURG_POLNA	
+6.1e-29	0	1	136	Glyco_transf_28	6	140	sp|A6UB85|MURG_SINMW	
+9.8e-29	0	1	138	Glyco_transf_28	4	143	sp|B9DNZ7|MURG_STACT	
+4.6e-29	0	2	139	Glyco_transf_28	9	146	sp|B4E6J2|MURG_BURCJ	
+4.6e-29	0	2	139	Glyco_transf_28	9	146	sp|B1JV78|MURG_BURCC	
+1.2e-28	0	1	138	Glyco_transf_28	4	143	sp|C1C649|MURG_STRP7	
+5.3e-29	0	1	135	Glyco_transf_28	6	140	sp|Q2S9Z2|MURG_HAHCH	
+1.3e-28	0	1	138	Glyco_transf_28	4	143	sp|B5E2Z9|MURG_STRP4	
+1.3e-28	0	1	138	Glyco_transf_28	4	143	sp|C1CJF3|MURG_STRZP	
+4.4e-29	0	1	138	Glyco_transf_28	6	143	sp|A9I4V2|MURG_BORPD	
+2.3e-29	0	2	137	Glyco_transf_28	5	142	sp|B0RIJ3|MURG_CLAMS	
+1.9e-28	0	1	138	Glyco_transf_28	4	143	sp|P0CB60|MURG_STRPN	
+1.9e-28	0	1	138	Glyco_transf_28	4	143	sp|B8ZMZ7|MURG_STRPJ	
+2e-28	0	1	137	Glyco_transf_28	6	141	sp|B3PTW0|MURG_RHIE6	
+5.8e-29	0	1	138	Glyco_transf_28	10	155	sp|Q0SHS1|MURG_RHOSR	
+5.4e-29	0	1	139	Glyco_transf_28	4	143	sp|Q313Q3|MURG_DESDG	
+5.4e-29	0	1	138	Glyco_transf_28	4	135	sp|A8F1I4|MURG_RICM5	
+4.5e-29	0	1	138	Glyco_transf_28	6	145	sp|A6H195|MURG_FLAPJ	
+4.6e-29	0	2	139	Glyco_transf_28	9	146	sp|A0K486|MURG_BURCH	
+4.6e-29	0	2	139	Glyco_transf_28	9	146	sp|Q1BZG3|MURG_BURCA	
+6e-29	0	2	138	Glyco_transf_28	35	176	sp|Q12EL5|MURG_POLSJ	
+7.9e-29	0	1	137	Glyco_transf_28	6	141	sp|Q8UDM8|MURG_AGRT5	
+6.1e-29	0	2	138	Glyco_transf_28	5	138	sp|B7K5Z6|MURG_CYAP8	
+1.4e-28	0	2	137	Glyco_transf_28	9	142	sp|Q2NCZ0|MURG_ERYLH	
+1.3e-28	0	1	138	Glyco_transf_28	763	897	sp|Q9Y751|ATG26_PICPG	
+7.5e-29	0	2	138	Glyco_transf_28	5	141	sp|Q5P6Z6|MURG_AZOSE	
+7.6e-29	0	1	137	Glyco_transf_28	6	140	sp|B6IRG2|MURG_RHOCS	
+7e-29	0	2	138	Glyco_transf_28	760	895	sp|A7TF84|ATG26_VANPO	
+3.1e-28	0	1	138	Glyco_transf_28	8	147	sp|Q2S528|MURG_SALRD	
+1.2e-28	0	1	137	Glyco_transf_28	8	143	sp|B2SGS8|MURG_FRATM	
+1.2e-28	0	1	137	Glyco_transf_28	8	143	sp|A4IX64|MURG_FRATW	
+1.1e-28	0	2	139	Glyco_transf_28	4	143	sp|Q67Q48|MURG_SYMTH	
+1.2e-28	0	1	138	Glyco_transf_28	997	1131	sp|Q6C8M8|ATG26_YARLI	
+1.2e-28	0	1	138	Glyco_transf_28	10	155	sp|C1AU55|MURG_RHOOB	
+1.2e-28	0	2	139	Glyco_transf_28	4	143	sp|B3E3Y2|MURG_GEOLS	
+1.4e-28	0	1	137	Glyco_transf_28	8	143	sp|A0Q766|MURG_FRATN	
+8.7e-29	0	2	138	Glyco_transf_28	5	138	sp|B1WVP7|MURG_CYAA5	
+1.2e-28	0	1	137	Glyco_transf_28	8	143	sp|B0TY93|MURG_FRAP2	
+1.5e-28	0	1	138	Glyco_transf_28	4	135	sp|Q68WW7|MURG_RICTY	
+1.3e-28	0	1	138	Glyco_transf_28	4	143	sp|Q6GGZ0|MURG_STAAR	
+2.4e-28	0	1	136	Glyco_transf_28	6	140	sp|B9JH51|MURG_AGRRK	
+2.1e-28	0	1	138	Glyco_transf_28	1050	1184	sp|Q6BN88|ATG26_DEBHA	
+2.8e-28	0	1	137	Glyco_transf_28	8	143	sp|A7NDC0|MURG_FRATF	
+2.8e-28	0	1	137	Glyco_transf_28	8	143	sp|Q0BL37|MURG_FRATO	
+2.8e-28	0	1	137	Glyco_transf_28	8	143	sp|Q2A2I7|MURG_FRATH	
+1.2e-28	0	2	137	Glyco_transf_28	5	142	sp|A5CS51|MURG_CLAM3	
+2e-28	0	1	138	Glyco_transf_28	4	135	sp|Q9ZDC0|MURG_RICPR	
+2.2e-28	0	1	138	Glyco_transf_28	3	142	sp|Q9ZK59|MURG_HELPJ	
+2.5e-28	0	2	138	Glyco_transf_28	9	142	sp|B7KGH1|MURG_CYAP7	
+2.4e-28	0	1	138	Glyco_transf_28	4	143	sp|Q4L6C8|MURG_STAHJ	
+1.6e-28	0	2	137	Glyco_transf_28	4	141	sp|B4UES1|MURG_ANASK	
+2.4e-28	0	1	137	Glyco_transf_28	6	141	sp|B9JY54|MURG_AGRVS	
+7.8e-28	0	1	136	Glyco_transf_28	6	140	sp|Q1ME33|MURG_RHIL3	
+4.5e-28	0	1	138	Glyco_transf_28	4	135	sp|A8EZ14|MURG_RICCK	
+6.7e-28	0	1	138	Glyco_transf_28	1017	1151	sp|Q5A950|ATG26_CANAL	
+2.9e-28	0	2	137	Glyco_transf_28	4	141	sp|Q2IG27|MURG_ANADE	
+3.6e-28	0	2	137	Glyco_transf_28	4	141	sp|B8J8E8|MURG_ANAD2	
+9.3e-28	0	1	136	Glyco_transf_28	6	140	sp|C3MEM9|MURG_RHISN	
+7.3e-28	0	1	138	Glyco_transf_28	3	142	sp|Q1CSB1|MURG_HELPH	
+7.9e-28	0	1	134	Glyco_transf_28	4	137	sp|P59424|MURG_BUCBP	
+2.4e-27	0	1	137	Glyco_transf_28	6	141	sp|Q2K6C1|MURG_RHIEC	
+7.3e-28	0	1	138	Glyco_transf_28	3	142	sp|O25770|MURG_HELPY	
+1e-27	0	1	135	Glyco_transf_28	7	143	sp|A0M527|MURG_GRAFK	
+7.3e-28	0	1	138	Glyco_transf_28	3	142	sp|B2UUR4|MURG_HELPS	
+8e-28	0	1	138	Glyco_transf_28	5	144	sp|Q3K2P3|MURG_STRA1	
+8e-28	0	1	138	Glyco_transf_28	5	144	sp|Q8CX15|MURG_STRA5	
+8e-28	0	1	138	Glyco_transf_28	5	144	sp|Q8E6P0|MURG_STRA3	
+8.6e-28	0	1	138	Glyco_transf_28	8	146	sp|Q7U346|MURG_BLOFL	
+8.5e-28	0	2	138	Glyco_transf_28	5	143	sp|Q5HPC0|MURG_STAEQ	
+8.5e-28	0	2	138	Glyco_transf_28	5	143	sp|Q8CMM3|MURG_STAES	
+1e-27	0	1	138	Glyco_transf_28	14	149	sp|Q01Q48|MURG_SOLUE	
+8.8e-28	0	1	138	Glyco_transf_28	3	142	sp|B5Z8F1|MURG_HELPG	
+1e-27	0	1	138	Glyco_transf_28	8	144	sp|Q5L524|MURG_CHLAB	
+1e-27	0	1	138	Glyco_transf_28	7	143	sp|Q255W4|MURG_CHLFF	
+1.2e-27	0	1	138	Glyco_transf_28	8	144	sp|Q820E0|MURG_CHLCV	
+6.1e-28	0	2	138	Glyco_transf_28	14	150	sp|Q8XVI7|MURG_RALSO	
+1.2e-27	0	1	138	Glyco_transf_28	4	135	sp|Q4ULT6|MURG_RICFE	
+1.2e-27	0	1	138	Glyco_transf_28	4	143	sp|Q49XM9|MURG_STAS1	
+1.2e-27	0	2	138	Glyco_transf_28	29	162	sp|Q119X8|MURG_TRIEI	
+2.3e-27	0	1	138	Glyco_transf_28	7	146	sp|Q03L97|MURG_STRTD	
+1.3e-27	0	2	138	Glyco_transf_28	9	147	sp|A0L5N1|MURG_MAGSM	
+7.5e-28	0	2	138	Glyco_transf_28	6	141	sp|B8H091|MURG_CAUCN	
+7.5e-28	0	2	138	Glyco_transf_28	6	141	sp|Q9A5A1|MURG_CAUCR	
+1.4e-27	0	1	138	Glyco_transf_28	4	135	sp|A8GNC7|MURG_RICAH	
+2.6e-27	0	1	138	Glyco_transf_28	5	144	sp|B5XMA2|MURG_STRPZ	
+1.4e-27	0	1	138	Glyco_transf_28	3	142	sp|B6JMZ5|MURG_HELP2	
+1.8e-27	0	4	138	Glyco_transf_28	945	1076	sp|A7ERM5|ATG26_SCLS1	
+2.1e-27	0	2	137	Glyco_transf_28	5	137	sp|Q7V466|MURG_PROMM	
+2e-27	0	2	137	Glyco_transf_28	5	137	sp|A2CDG1|MURG_PROM3	
+3.6e-27	0	1	138	Glyco_transf_28	7	146	sp|Q5M0D4|MURG_STRT1	
+3.6e-27	0	1	138	Glyco_transf_28	7	146	sp|Q5M4Y1|MURG_STRT2	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|A6QGX0|MURG_STAAE	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|Q2FYL5|MURG_STAA8	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|Q5HG02|MURG_STAAC	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|Q6G9E3|MURG_STAAS	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|Q8NWR4|MURG_STAAW	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|A5ISU9|MURG_STAA9	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|A6U1N8|MURG_STAA2	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|A7X2A2|MURG_STAA1	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|P65481|MURG_STAAM	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|P65482|MURG_STAAN	
+1.9e-27	0	1	138	Glyco_transf_28	4	143	sp|Q2YY01|MURG_STAAB	
+3.7e-27	0	1	137	Glyco_transf_28	12	150	sp|Q7MAW5|MURG_PORGI	
+3.8e-27	0	1	138	Glyco_transf_28	5	144	sp|A2RDL0|MURG_STRPG	
+3.8e-27	0	1	138	Glyco_transf_28	5	144	sp|Q5XB05|MURG_STRP6	
+4.4e-27	0	1	138	Glyco_transf_28	5	144	sp|Q1JAT5|MURG_STRPB	
+4.4e-27	0	1	138	Glyco_transf_28	5	144	sp|Q1JKY5|MURG_STRPC	
+3.7e-27	0	1	137	Glyco_transf_28	12	150	sp|B2RIF1|MURG_PORG3	
+4.2e-27	0	1	138	Glyco_transf_28	5	144	sp|C0M6J2|MURG_STRE4	
+4.9e-27	0	1	138	Glyco_transf_28	7	143	sp|A1UTC5|MURG_BARBK	
+5.3e-27	0	1	138	Glyco_transf_28	5	144	sp|C0MD54|MURG_STRS7	
+5.8e-27	0	1	138	Glyco_transf_28	5	144	sp|B4U1U4|MURG_STREM	
+4.7e-27	0	1	137	Glyco_transf_28	8	144	sp|A5CWW1|MURG_VESOH	
+7.3e-27	0	1	135	Glyco_transf_28	7	143	sp|A1A2E9|MURG_BIFAA	
+9e-27	0	1	138	Glyco_transf_28	5	144	sp|P65483|MURG_STRP1	
+9e-27	0	1	138	Glyco_transf_28	5	144	sp|P65484|MURG_STRP8	
+9e-27	0	1	138	Glyco_transf_28	5	144	sp|Q48SK9|MURG_STRPM	
+9e-27	0	1	138	Glyco_transf_28	5	144	sp|Q1J5S6|MURG_STRPF	
+5.4e-27	0	1	138	Glyco_transf_28	4	143	sp|A8Z3Z7|MURG_STAAT	
+5.4e-27	0	1	138	Glyco_transf_28	4	143	sp|Q2FH20|MURG_STAA3	
+9e-27	0	1	138	Glyco_transf_28	5	144	sp|Q1JG11|MURG_STRPD	
+7.1e-27	0	1	138	Glyco_transf_28	3	142	sp|Q17WB5|MURG_HELAH	
+6e-27	0	1	138	Glyco_transf_28	4	141	sp|C6BYG6|MURG_DESAD	
+1e-26	0	1	136	Glyco_transf_28	7	141	sp|Q6G2Q5|MURG_BARHE	
+9.9e-27	0	1	135	Glyco_transf_28	7	140	sp|A9IWA5|MURG_BART1	
+1e-26	0	1	137	Glyco_transf_28	7	144	sp|Q8CUL4|MURG_OCEIH	
+1e-26	0	1	137	Glyco_transf_28	6	144	sp|A6LEU3|MURG_PARD8	
+5.6e-27	0	2	133	Glyco_transf_28	5	138	sp|Q6AE64|MURG_LEIXX	
+1.2e-26	0	2	138	Glyco_transf_28	5	141	sp|A1K3U6|MURG_AZOSB	
+1.1e-26	0	1	137	Glyco_transf_28	8	142	sp|Q9PLG2|MURG_CHLMU	
+1.6e-26	0	1	138	Glyco_transf_28	7	142	sp|Q1GRX9|MURG_SPHAL	
+1.6e-26	0	3	138	Glyco_transf_28	781	913	sp|Q751Z4|ATG26_ASHGO	
+2.4e-26	0	1	138	Glyco_transf_28	4	143	sp|A4VTK4|MURG_STRSY	
+2.4e-26	0	1	138	Glyco_transf_28	4	143	sp|A4VZT9|MURG_STRS2	
+1.6e-26	0	2	138	Glyco_transf_28	4	146	sp|B3QWT7|MURG_CHLT3	
+1.4e-26	0	1	137	Glyco_transf_28	9	147	sp|Q6AJ53|MURG_DESPS	
+1.7e-26	0	1	139	Glyco_transf_28	4	146	sp|B9K6P7|MURG_THENN	
+3.3e-26	0	1	138	Glyco_transf_28	5	144	sp|Q8K6R7|MURG_STRP3	
+2.2e-26	0	1	138	Glyco_transf_28	1166	1303	sp|Q54IL5|UGT52_DICDI	
+3.3e-26	0	1	135	Glyco_transf_28	8	144	sp|B3DQN1|MURG_BIFLD	
+3.3e-26	0	1	135	Glyco_transf_28	8	144	sp|Q8CY50|MURG_BIFLO	
+3.3e-26	0	1	137	Glyco_transf_28	7	145	sp|Q6MIG1|MURG_BDEBA	
+2.7e-26	0	2	137	Glyco_transf_28	5	137	sp|Q7U3U6|MURG_SYNPX	
+4e-26	0	1	135	Glyco_transf_28	8	144	sp|B7GQ78|MURG_BIFLI	
+6.8e-26	0	2	138	Glyco_transf_28	956	1089	sp|Q0UY53|ATG26_PHANO	
+6.4e-26	0	1	138	Glyco_transf_28	6	145	sp|Q8DVE2|MURG_STRMU	
+2.3e-26	0	1	138	Glyco_transf_28	7	143	sp|Q6N411|MURG_RHOPA	
+5.6e-26	0	2	138	Glyco_transf_28	739	872	sp|Q6CUV2|ATG26_KLULA	
+3.6e-26	0	1	138	Glyco_transf_28	5	140	sp|Q1MPB9|MURG_LAWIP	
+3.5e-25	0	1	135	Glyco_transf_28	7	135	sp|Q8R5N5|MURG_FUSNN	
+6.7e-26	0	1	139	Glyco_transf_28	3	147	sp|Q3ANV3|MURG_CHLCH	
+1.2e-25	0	1	138	Glyco_transf_28	4	143	sp|A8AW15|MURG_STRGC	
+1.1e-25	0	1	138	Glyco_transf_28	4	142	sp|B8DP79|MURG_DESVM	
+8.2e-26	0	1	138	Glyco_transf_28	4	142	sp|Q728U8|MURG_DESVH	
+1e-25	0	2	138	Glyco_transf_28	960	1093	sp|Q8NJS1|ATG26_LEPMC	
+1.1e-25	0	4	138	Glyco_transf_28	1039	1170	sp|Q5KK25|ATG26_CRYNE	
+1.8e-25	0	2	135	Glyco_transf_28	9	139	sp|Q8YZI3|MURG_ANASP	
+1.8e-25	0	1	138	Glyco_transf_28	5	144	sp|B9DUV6|MURG_STRU0	
+1.4e-25	0	2	135	Glyco_transf_28	9	139	sp|Q3M935|MURG_ANAVT	
+1.4e-25	0	2	138	Glyco_transf_28	5	138	sp|Q7VDZ2|MURG_PROMA	
+1.4e-25	0	2	139	Glyco_transf_28	5	139	sp|Q0I6M0|MURG_SYNS3	
+1.7e-25	0	2	137	Glyco_transf_28	9	141	sp|B2J8J9|MURG_NOSP7	
+7.5e-26	0	2	138	Glyco_transf_28	5	138	sp|A5GPC2|MURG_SYNPW	
+8e-26	0	2	137	Glyco_transf_28	6	140	sp|B4RFS0|MURG_PHEZH	
+1.8e-25	0	1	138	Glyco_transf_28	4	142	sp|A1VBE8|MURG_DESVV	
+1.8e-25	0	1	139	Glyco_transf_28	4	144	sp|B7IHN7|MURG_THEAB	
+2.3e-25	0	4	138	Glyco_transf_28	1016	1147	sp|Q7S1I0|ATG26_NEUCR	
+2.1e-25	0	2	138	Glyco_transf_28	5	138	sp|Q3AVX2|MURG_SYNS9	
+2.7e-25	0	4	138	Glyco_transf_28	907	1038	sp|Q4WID6|ATG26_ASPFU	
+2.7e-25	0	4	138	Glyco_transf_28	916	1047	sp|A1CYS1|ATG26_NEOFI	
+3e-25	0	2	138	Glyco_transf_28	8	141	sp|Q8DHY4|MURG_THEEB	
+4.2e-25	0	1	137	Glyco_transf_28	9	147	sp|Q11RH5|MURG_CYTH3	
+2.9e-25	0	2	138	Glyco_transf_28	5	138	sp|A9BDG0|MURG_PROM4	
+6.4e-25	0	1	139	Glyco_transf_28	4	151	sp|Q73L91|MURG_TREDE	
+1.7e-25	0	2	138	Glyco_transf_28	5	141	sp|C4XK69|MURG_DESMR	
+4.1e-25	0	1	138	Glyco_transf_28	7	144	sp|A1BAL5|MURG_PARDP	
+7.3e-25	0	1	138	Glyco_transf_28	4	143	sp|A3CLN6|MURG_STRSV	
+4.4e-25	0	1	136	Glyco_transf_28	6	141	sp|A4SV74|MURG_POLSQ	
+4.6e-25	0	1	139	Glyco_transf_28	2	137	sp|O67238|MURG_AQUAE	
+5e-25	0	4	138	Glyco_transf_28	897	1028	sp|Q2U0C3|ATG26_ASPOR	
+7.8e-25	0	1	138	Glyco_transf_28	7	143	sp|Q3STS8|MURG_NITWN	
+5.7e-25	0	1	138	Glyco_transf_28	3	146	sp|A1BJX8|MURG_CHLPD	
+6.4e-25	0	1	137	Glyco_transf_28	5	141	sp|A1AWE8|MURG_RUTMC	
+5.7e-25	0	4	138	Glyco_transf_28	913	1044	sp|A1CFB3|ATG26_ASPCL	
+8.9e-25	0	1	135	Glyco_transf_28	8	141	sp|B8IN64|MURG_METNO	
+9e-25	0	1	135	Glyco_transf_28	7	140	sp|Q6G124|MURG_BARQU	
+8.8e-25	0	1	138	Glyco_transf_28	8	144	sp|Q2W0H3|MURG_MAGSA	
+9.4e-25	0	4	138	Glyco_transf_28	903	1034	sp|Q0CKU4|ATG26_ASPTN	
+1e-24	0	1	138	Glyco_transf_28	4	141	sp|B1ZU31|MURG_OPITP	
+1e-24	0	1	136	Glyco_transf_28	7	144	sp|A6L071|MURG_BACV8	
+1.2e-24	0	1	138	Glyco_transf_28	7	143	sp|Q1QNU3|MURG_NITHX	
+1.8e-24	0	1	139	Glyco_transf_28	4	141	sp|B2V7Y8|MURG_SULSY	
+1.9e-24	0	2	138	Glyco_transf_28	5	138	sp|Q3AGT7|MURG_SYNSC	
+1.8e-24	0	4	138	Glyco_transf_28	901	1032	sp|Q5B4C9|ATG26_EMENI	
+2.5e-24	0	2	138	Glyco_transf_28	5	138	sp|A5GW69|MURG_SYNR3	
+1.3e-24	0	1	138	Glyco_transf_28	8	144	sp|A4YZK3|MURG_BRASO	
+1.3e-24	0	1	136	Glyco_transf_28	19	153	sp|Q2RVU4|MURG_RHORT	
+3.1e-24	0	2	138	Glyco_transf_28	15	147	sp|Q2JW21|MURG_SYNJA	
+1.4e-24	0	1	138	Glyco_transf_28	8	144	sp|A5EPK4|MURG_BRASB	
+3.1e-24	0	4	138	Glyco_transf_28	889	1020	sp|A7KAN4|ATG26_PENCW	
+4.7e-24	0	2	136	Glyco_transf_28	15	145	sp|Q2JJR4|MURG_SYNJB	
+3.9e-24	0	4	138	Glyco_transf_28	902	1033	sp|A2QNQ5|ATG26_ASPNC	
+4.6e-24	0	1	134	Glyco_transf_28	6	138	sp|Q0AMW7|MURG_MARMM	
+9.2e-24	0	1	135	Glyco_transf_28	5	137	sp|Q812Y1|MURG3_BACCR	
+7.1e-24	0	1	138	Glyco_transf_28	3	146	sp|B4SH49|MURG_PELPB	
+7.7e-24	0	1	138	Glyco_transf_28	3	146	sp|B4S6Q9|MURG_PROA2	
+7.8e-24	0	2	135	Glyco_transf_28	8	137	sp|A8G2K3|MURG_PROM2	
+1e-23	0	1	137	Glyco_transf_28	7	142	sp|Q89FU7|MURG_BRAJA	
+1.5e-23	0	1	130	Glyco_transf_28	5	132	sp|A0RHC3|MURG1_BACAH	
+1.5e-23	0	1	135	Glyco_transf_28	5	140	sp|Q6MBS7|MURG_PARUW	
+1.7e-23	0	1	138	Glyco_transf_28	10	146	sp|Q0BXU2|MURG_HYPNA	
+1.3e-23	0	1	138	Glyco_transf_28	3	146	sp|Q8KGD4|MURG_CHLTE	
+1.4e-23	0	1	138	Glyco_transf_28	3	146	sp|B3QLW4|MURG_CHLP8	
+2e-23	0	2	138	Glyco_transf_28	5	141	sp|A6T2F8|MURG_JANMA	
+2.4e-23	0	1	138	Glyco_transf_28	4	140	sp|A5CEL6|MURG_ORITB	
+2.2e-23	0	1	133	Glyco_transf_28	8	140	sp|Q8D2Z6|MURG_WIGBR	
+4.2e-23	0	1	134	Glyco_transf_28	8	140	sp|B0UFC7|MURG_METS4	
+3.9e-23	0	2	137	Glyco_transf_28	2	137	sp|Q163J0|MURG_ROSDO	
+6.9e-23	0	2	138	Glyco_transf_28	5	141	sp|A4G8T8|MURG_HERAR	
+4.4e-23	0	2	137	Glyco_transf_28	7	142	sp|Q28NN5|MURG_JANSC	
+4.3e-23	0	2	135	Glyco_transf_28	8	137	sp|Q31CY4|MURG_PROM9	
+5.6e-23	0	1	133	Glyco_transf_28	8	139	sp|B1ZGP4|MURG_METPB	
+2.7e-23	0	2	137	Glyco_transf_28	7	142	sp|Q5LU63|MURG_SILPO	
+4.8e-23	0	1	138	Glyco_transf_28	4	140	sp|B3CRE9|MURG_ORITI	
+4.2e-23	0	2	137	Glyco_transf_28	7	142	sp|Q1GIV1|MURG_SILST	
+9.1e-23	0	2	138	Glyco_transf_28	6	142	sp|Q1GZ01|MURG_METFK	
+1.4e-22	0	1	137	Glyco_transf_28	3	143	sp|B3ET95|MURG_AMOA5	
+2.2e-22	0	1	137	Glyco_transf_28	7	145	sp|Q8A258|MURG_BACTN	
+9.7e-23	0	1	138	Glyco_transf_28	8	144	sp|Q211T8|MURG_RHOPB	
+9.8e-23	0	1	137	Glyco_transf_28	7	142	sp|Q2IYK8|MURG_RHOP2	
+7.2e-23	0	1	137	Glyco_transf_28	8	143	sp|B1LXZ4|MURG_METRJ	
+1.4e-22	0	2	135	Glyco_transf_28	8	137	sp|A2BNZ2|MURG_PROMS	
+1.8e-22	0	1	137	Glyco_transf_28	3	130	sp|C0R2W7|MURG_WOLWR	
+1.8e-22	0	1	137	Glyco_transf_28	3	130	sp|Q73I55|MURG_WOLPM	
+2.5e-22	0	1	133	Glyco_transf_28	8	139	sp|A9VWV3|MURG_METEP	
+2.5e-22	0	1	133	Glyco_transf_28	8	139	sp|B7KSC1|MURG_METC4	
+1.7e-22	0	2	138	Glyco_transf_28	5	138	sp|A2C027|MURG_PROM1	
+6.3e-22	0	2	137	Glyco_transf_28	7	142	sp|A3PHS8|MURG_RHOS1	
+4.9e-22	0	1	138	Glyco_transf_28	3	146	sp|A4SH02|MURG_PROVI	
+6.3e-22	0	2	137	Glyco_transf_28	7	142	sp|Q3J4M2|MURG_RHOS4	
+3e-22	0	2	130	Glyco_transf_28	9	133	sp|Q7V388|MURG_PROMP	
+3e-22	0	2	130	Glyco_transf_28	8	132	sp|A3PAR5|MURG_PROM0	
+1.8e-22	0	1	138	Glyco_transf_28	7	143	sp|Q07PT3|MURG_RHOP5	
+5.3e-22	0	1	137	Glyco_transf_28	7	142	sp|Q133X1|MURG_RHOPS	
+4.4e-22	0	1	137	Glyco_transf_28	16	154	sp|Q5LIJ7|MURG_BACFN	
+4.4e-22	0	1	137	Glyco_transf_28	16	154	sp|Q64ZM1|MURG_BACFR	
+4.4e-22	0	1	139	Glyco_transf_28	4	144	sp|A6LLF1|MURG_THEM4	
+4.2e-22	0	2	138	Glyco_transf_28	5	138	sp|Q46HH6|MURG_PROMT	
+1.4e-21	0	2	137	Glyco_transf_28	7	142	sp|A4WQD5|MURG_RHOS5	
+1.1e-21	0	2	130	Glyco_transf_28	9	133	sp|A2BUH4|MURG_PROM5	
+2.7e-21	0	1	135	Glyco_transf_28	3	128	sp|Q5GS79|MURG_WOLTR	
+4.4e-21	0	1	133	Glyco_transf_28	6	138	sp|Q7NPZ9|MURG_CHRVO	
+3.8e-20	0	19	139	Glyco_transf_28	2	121	sp|Q1AVX3|MURG_RUBXD	
+2.8	0	1	24	Glyco_transf_28	165	188	sp|Q1AVX3|MURG_RUBXD	
+4.2e-21	0	2	134	Glyco_transf_28	7	136	sp|Q7MBC4|MURG_GLOVI	
+5e-21	0	1	137	Glyco_transf_28	2	140	sp|Q7U322|MURG_HELHP	
+3.5e-21	0	1	138	Glyco_transf_28	3	146	sp|Q3B129|MURG_PELLD	
+1.2e-19	0	3	136	Glyco_transf_28	5	140	sp|Q30PK0|MURG_SULDN	
+2.4e-20	0	2	137	Glyco_transf_28	7	145	sp|A2SCY5|MURG_METPP	
+5.3e-19	0	1	136	Glyco_transf_28	2	139	sp|A0RP87|MURG_CAMFF	
+6.7	0	2	41	Glyco_transf_28	171	210	sp|A0RP87|MURG_CAMFF	
+1.1e-19	0	1	137	Glyco_transf_28	3	127	sp|B3CM87|MURG_WOLPP	
+1.4e-19	0	1	135	Glyco_transf_28	9	145	sp|A5FUL0|MURG_ACICJ	
+1.9e-19	0	1	131	Glyco_transf_28	3	135	sp|Q7MAD4|MURG_WOLSU	
+4.9e-19	0	1	135	Glyco_transf_28	4	139	sp|B2KE54|MURG_ELUMP	
+4e-19	0	1	133	Glyco_transf_28	3	141	sp|B3EIK8|MURG_CHLL2	
+2.5e-19	0	3	138	Glyco_transf_28	20	177	sp|A5UZT7|MURG_ROSS1	
+1.3e-18	0	1	134	Glyco_transf_28	5	142	sp|Q5FUJ5|MURG_GLUOX	
+7.8e-18	0	1	135	Glyco_transf_28	3	137	sp|A6Q722|MURG_SULNB	
+5.5e-18	0	1	138	Glyco_transf_28	4	135	sp|B8E325|MURG_DICTD	
+9.9e-18	0	1	138	Glyco_transf_28	3	142	sp|A6Q579|MURG_NITSB	
+2e-17	0	1	133	Glyco_transf_28	10	144	sp|Q0BV25|MURG_GRABC	
+2.4e-17	0	1	135	Glyco_transf_28	4	137	sp|Q5PB22|MURG_ANAMM	
+3.4e-17	0	1	137	Glyco_transf_28	3	141	sp|A7I265|MURG_CAMHC	
+1.1e-17	0	1	138	Glyco_transf_28	4	145	sp|A9FI55|MURG_SORC5	
+3e-17	0	1	138	Glyco_transf_28	4	135	sp|B5YEL3|MURG_DICT6	
+3.8e-16	0	1	136	Glyco_transf_28	3	140	sp|A8FM88|MURG_CAMJ8	
+5e-16	0	1	136	Glyco_transf_28	3	140	sp|Q5HU62|MURG_CAMJR	
+5e-16	0	1	136	Glyco_transf_28	3	140	sp|A1W027|MURG_CAMJJ	
+5e-16	0	1	136	Glyco_transf_28	3	140	sp|Q9PNQ2|MURG_CAMJE	
+1.1e-15	0	1	136	Glyco_transf_28	3	140	sp|A7H2Z9|MURG_CAMJD	
+3.1e-15	0	4	138	Glyco_transf_28	6	142	sp|A8F4X1|MURG_THELT	
+7e-12	0	1	138	Glyco_transf_28	4	142	sp|Q72R84|MURG_LEPIC	
+7e-12	0	1	138	Glyco_transf_28	4	142	sp|Q8F4J1|MURG_LEPIN	
+1.3e-11	0	1	138	Glyco_transf_28	5	138	sp|Q4FPK5|MURG_PELUB	
+2.7e-10	0	1	137	Glyco_transf_28	4	141	sp|Q04V94|MURG_LEPBJ	
+2.7e-10	0	1	137	Glyco_transf_28	4	141	sp|Q04Y82|MURG_LEPBL	
+1.8e-09	0	10	103	Glyco_transf_28	13	111	sp|Q8TTI1|Y452_METAC	
+5.5e-08	0	10	113	Glyco_transf_28	13	118	sp|Q8TTI0|Y453_METAC	
+2.2e-08	0	10	112	Glyco_transf_28	13	117	sp|Q8PWF3|Y1636_METMA	
+4.8e-08	0	6	93	Glyco_transf_28	11	104	sp|O34539|YJIC_BACSU	
+1.2e-07	0	1	59	Glyco_transf_28	10	75	sp|Q53685|OLED_STRAT	
+8e-08	0	10	112	Glyco_transf_28	13	117	sp|Q8PZB2|Y582_METMA	
+3.9e-07	0	11	126	Glyco_transf_28	14	131	sp|P21686|CRTX_PANAN	
+2.2e-06	0	9	54	Glyco_transf_28	33	78	sp|Q54387|MGT_STRLI	
+2.9e-06	0	15	125	Glyco_transf_28	18	125	sp|Q01330|CRTX_ESCVU	
+0.00065	0	1	53	Glyco_transf_28	4	56	sp|O31853|YOJK_BACSU	
+7.7	0	30	98	Glyco_transf_28	189	270	sp|O31853|YOJK_BACSU	
+8.6e-05	0	19	70	Glyco_transf_28	201	251	sp|B1YIY4|MTNA_EXIS2	
+7e-05	0	2	55	Glyco_transf_28	15	74	sp|Q0WW21|UGAGT_ARATH	
+0.00011	0	1	54	Glyco_transf_28	20	70	sp|Q9Z565|ILVC1_STRCO	
+9.1e-05	0	2	49	Glyco_transf_28	5	52	sp|O05496|YDHE_BACSU	
+0.00011	0	1	54	Glyco_transf_28	20	70	sp|Q9FBT8|ILVC2_STRCO	
+7.8e-05	0	1	55	Glyco_transf_28	13	83	sp|Q9SBL1|HMNGT_SORBI	
+0.00034	0	18	62	Glyco_transf_28	199	242	sp|B1I2P1|MTNA_DESAP	
+0.015	0	55	127	Glyco_transf_28	194	265	sp|A8AZU1|MUTL_STRGC	
+6.1	0	105	136	Glyco_transf_28	315	346	sp|A8AZU1|MUTL_STRGC	
+0.00034	0	20	91	Glyco_transf_28	173	244	sp|Q01198|LIGD_PSEPA	
+0.0021	0	2	31	Glyco_transf_28	209	239	sp|Q83RR8|NPD_SHIFL	
+0.00042	0	19	69	Glyco_transf_28	205	254	sp|C5D7U5|MTNA_GEOSW	
+0.017	0	56	127	Glyco_transf_28	195	265	sp|A3CR14|MUTL_STRSV	
+8.4	0	105	136	Glyco_transf_28	315	346	sp|A3CR14|MUTL_STRSV	
+0.00066	0	19	69	Glyco_transf_28	211	260	sp|Q88M09|MTNA_PSEPK	
+0.0008	0	18	69	Glyco_transf_28	203	253	sp|Q5L1E6|MTNA_GEOKA	
+0.0033	0	3	31	Glyco_transf_28	210	239	sp|Q8X8E0|NPD_ECO57	
+0.0031	0	3	33	Glyco_transf_28	210	241	sp|P75960|NPD_ECOLI	
+0.00037	0	1	50	Glyco_transf_28	10	61	sp|Q5V467|MAMA1_HALMA	
+0.0012	0	50	127	Glyco_transf_28	189	265	sp|C0MAS4|MUTL_STRE4	
+0.0025	0	3	36	Glyco_transf_28	210	244	sp|P0A2F2|NPD_SALTY	
+0.0025	0	3	36	Glyco_transf_28	210	244	sp|P0A2F3|NPD_SALTI	
+0.0014	0	56	127	Glyco_transf_28	195	265	sp|C0MGC4|MUTL_STRS7	
+0.00085	0	18	70	Glyco_transf_28	204	255	sp|Q65KK2|MTNA_BACLD	
+0.00089	0	19	63	Glyco_transf_28	211	254	sp|B0KTX5|MTNA_PSEPG	
+0.00072	0	19	64	Glyco_transf_28	211	255	sp|B1J5G5|MTNA_PSEPW	
+0.0009	0	19	63	Glyco_transf_28	211	254	sp|A5W7G2|MTNA_PSEP1	
+0.0015	0	18	69	Glyco_transf_28	203	253	sp|A4ILL1|MTNA_GEOTN	
+0.0014	0	56	127	Glyco_transf_28	195	265	sp|B4U0J7|MUTL_STREM	
+0.0033	0	3	31	Glyco_transf_28	210	239	sp|Q8FIM4|NPD_ECOL6	
+0.0013	0	1	55	Glyco_transf_28	20	83	sp|B2GFJ7|ILVC_KOCRD	
+0.0012	0	1	50	Glyco_transf_28	20	66	sp|B1VZ72|ILVC_STRGG	
+0.0013	0	1	50	Glyco_transf_28	20	66	sp|Q59818|ILVC_STRAW	
+0.0052	0	19	65	Glyco_transf_28	205	250	sp|Q731R7|MTNA_BACC1	
+0.0011	0	10	85	Glyco_transf_28	119	194	sp|B1GZW3|TPIS_UNCTG	
+0.011	0	13	108	Glyco_transf_28	25	121	sp|Q2IWS4|GLYA_RHOP2	
+0.0025	0	19	66	Glyco_transf_28	205	251	sp|A7GS56|MTNA_BACCN	
+0.0015	0	1	61	Glyco_transf_28	20	76	sp|B7KF23|ILVC_CYAP7	
+0.0018	0	23	126	Glyco_transf_28	138	237	sp|A5W1E8|RNZ_PSEP1	
+0.0028	0	2	52	Glyco_transf_28	20	67	sp|B3QSP0|ILVC_CHLT3	
+0.008	0	19	63	Glyco_transf_28	205	248	sp|O31662|MTNA_BACSU	
+0.004	0	1	60	Glyco_transf_28	20	75	sp|C1F6Z5|ILVC_ACIC5	
+2.3	0	63	125	Glyco_transf_28	93	143	sp|Q2G3S7|PYRB_NOVAD	
+0.09	0	22	47	Glyco_transf_28	199	225	sp|Q2G3S7|PYRB_NOVAD	
+4.2	0	56	96	Glyco_transf_28	349	387	sp|Q96LB3|IFT74_HUMAN	
+0.044	0	28	87	Glyco_transf_28	505	562	sp|Q96LB3|IFT74_HUMAN	
+0.0028	0	1	57	Glyco_transf_28	20	73	sp|A9AZM5|ILVC_HERA2	
+0.0069	0	18	59	Glyco_transf_28	19	69	sp|B8HSQ9|SURE_CYAP4	
+0.0043	0	14	73	Glyco_transf_28	601	661	sp|Q3SPL2|UVRC_NITWN	
+0.005	0	19	63	Glyco_transf_28	205	248	sp|A7Z3X0|MTNA_BACA2	
+0.078	0	21	118	Glyco_transf_28	40	134	sp|Q38W65|EFTS_LACSS	
+2.5	0	27	122	Glyco_transf_28	177	262	sp|Q38W65|EFTS_LACSS	
+0.0033	0	44	126	Glyco_transf_28	121	199	sp|C3JYK1|TIG_PSEFS	
+0.003	0	11	97	Glyco_transf_28	131	219	sp|Q1GZA6|BIOB_METFK	
+0.0044	0	19	66	Glyco_transf_28	205	251	sp|Q635P7|MTNA2_BACCZ	
+0.0032	0	1	73	Glyco_transf_28	12	87	sp|O48676|HTGT_ARATH	
+2.5	0	16	33	Glyco_transf_28	15	32	sp|Q8YRC9|THIOG_ANASP	
+0.25	0	87	133	Glyco_transf_28	315	361	sp|Q8YRC9|THIOG_ANASP	
+0.019	0	1	54	Glyco_transf_28	21	70	sp|Q8DW43|ILVC_STRMU	
+0.0041	0	19	66	Glyco_transf_28	205	251	sp|Q81MJ6|MTNA2_BACAN	
+0.014	0	13	107	Glyco_transf_28	24	119	sp|Q6N693|GLYA1_RHOPA	
+0.0035	0	16	73	Glyco_transf_28	14	69	sp|B0C915|MURD_ACAM1	
+0.0061	0	13	108	Glyco_transf_28	20	116	sp|Q2KA25|GLYA_RHIEC	
+0.011	0	13	107	Glyco_transf_28	32	127	sp|Q214H7|GLYA_RHOPB	
+0.0067	0	65	127	Glyco_transf_28	203	265	sp|B9DW70|MUTL_STRU0	
+0.0046	0	19	66	Glyco_transf_28	205	251	sp|A0RI38|MTNA2_BACAH	
+0.0046	0	19	66	Glyco_transf_28	205	251	sp|Q6HED3|MTNA2_BACHK	
+0.0042	0	14	73	Glyco_transf_28	602	662	sp|Q1QIR5|UVRC_NITHX	
+0.0085	0	1	50	Glyco_transf_28	21	66	sp|A8AVN4|ILVC_STRGC	
+0.024	0	17	68	Glyco_transf_28	40	90	sp|Q7V5V5|MURD_PROMM	
+0.0043	0	1	50	Glyco_transf_28	21	67	sp|Q47SB6|ILVC_THEFY	
+0.0032	0	1	47	Glyco_transf_28	21	64	sp|A4FMQ5|ILVC_SACEN	
+0.0022	0	30	121	Glyco_transf_28	11	103	sp|Q5V3R4|TRM56_HALMA	
+5.1	0	24	67	Glyco_transf_28	105	146	sp|B8GW68|ENO_CAUCN	
+0.066	0	13	48	Glyco_transf_28	184	219	sp|B8GW68|ENO_CAUCN	
+5.1	0	24	67	Glyco_transf_28	105	146	sp|Q9A7J9|ENO_CAUCR	
+0.066	0	13	48	Glyco_transf_28	184	219	sp|Q9A7J9|ENO_CAUCR	
+0.0049	0	1	54	Glyco_transf_28	4	59	sp|Q5V3F0|MAMA2_HALMA	
+0.0086	0	11	45	Glyco_transf_28	24	60	sp|B1LZ88|GLYA_METRJ	
+0.0038	0	11	97	Glyco_transf_28	128	216	sp|P94966|BIOB_METSK	
+0.0043	0	1	70	Glyco_transf_28	19	81	sp|Q3SHE4|ILVC_THIDA	
+0.015	0	13	107	Glyco_transf_28	25	120	sp|Q07MT9|GLYA_RHOP5	
+0.0047	0	17	63	Glyco_transf_28	202	247	sp|A9VRK3|MTNA1_BACWK	
+0.01	0	1	54	Glyco_transf_28	20	70	sp|A9GW78|ILVC_SORC5	
+0.0079	0	1	59	Glyco_transf_28	21	75	sp|Q5YRW2|ILVC_NOCFA	
+0.01	0	1	36	Glyco_transf_28	21	51	sp|A3CQ86|ILVC_STRSV	
+0.013	0	14	72	Glyco_transf_28	611	670	sp|Q21AW5|UVRC_RHOPB	
+0.0061	0	17	63	Glyco_transf_28	202	247	sp|Q81IK7|MTNA1_BACCR	
+5.6	0	15	31	Glyco_transf_28	21	37	sp|Q5FNN2|PYRG_GLUOX	
+0.34	0	2	45	Glyco_transf_28	137	183	sp|Q5FNN2|PYRG_GLUOX	
+0.0076	0	1	55	Glyco_transf_28	19	82	sp|Q2S9V9|ILVC_HAHCH	
+0.0042	0	2	79	Glyco_transf_28	3	75	sp|Q17QH8|D39U1_BOVIN	
+0.0057	0	1	47	Glyco_transf_28	20	63	sp|Q2J6V2|ILVC_FRASC	
+0.038	0	1	54	Glyco_transf_28	19	69	sp|A1WUW3|ILVC_HALHL	
+0.0093	0	15	70	Glyco_transf_28	20	71	sp|A8LMD0|PUR9_DINSH	
+0.0091	0	1	37	Glyco_transf_28	215	251	sp|C5BAT0|GCSP_EDWI9	
+0.011	0	1	48	Glyco_transf_28	21	65	sp|C1B2M1|ILVC_RHOOB	
+0.011	0	1	48	Glyco_transf_28	21	65	sp|Q0S2H3|ILVC_RHOSR	
+0.0062	0	17	63	Glyco_transf_28	202	247	sp|A0R946|MTNA1_BACAH	
+0.0062	0	17	63	Glyco_transf_28	202	247	sp|Q81ZC2|MTNA1_BACAN	
+0.0062	0	17	63	Glyco_transf_28	202	247	sp|Q6HP54|MTNA1_BACHK	
+0.011	0	16	108	Glyco_transf_28	23	116	sp|Q1MIU5|GLYA_RHIL3	
+0.0078	0	19	65	Glyco_transf_28	205	250	sp|A8FCG5|MTNA_BACP2	
+0.013	0	1	68	Glyco_transf_28	19	79	sp|Q63CV4|ILVC2_BACCZ	
+0.0084	0	1	68	Glyco_transf_28	20	81	sp|A4J179|ILVC_DESRM	
+0.0039	0	1	55	Glyco_transf_28	3	76	sp|Q9V030|PAAD_PYRAB	
+0.014	0	1	54	Glyco_transf_28	19	68	sp|Q81F27|ILVC2_BACCR	
+0.05	0	1	52	Glyco_transf_28	21	68	sp|Q03IJ9|ILVC_STRTD	
+0.05	0	1	52	Glyco_transf_28	21	68	sp|Q9F0I7|ILVC_STRTR	
+0.0082	0	14	90	Glyco_transf_28	88	168	sp|P26166|YBCC_RHOCA	
+0.0067	0	1	54	Glyco_transf_28	20	70	sp|B8I1T8|ILVC_CLOCE	
+0.066	0	1	35	Glyco_transf_28	21	50	sp|A4VXL3|ILVC_STRSY	
+0.066	0	1	35	Glyco_transf_28	21	50	sp|A4W3V8|ILVC_STRS2	
+0.0079	0	1	59	Glyco_transf_28	19	73	sp|Q3B594|ILVC_PELLD	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|B1I8F2|MUTL_STRPI	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|B2IS10|MUTL_STRPS	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|B8ZKC9|MUTL_STRPJ	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|P0A3R1|HEXB_STRPN	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|P0A3R2|HEXB_STRR6	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|Q04MR4|MUTL_STRP2	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|C1CI68|MUTL_STRZP	
+0.026	0	65	128	Glyco_transf_28	203	266	sp|C1CP43|MUTL_STRZT	
+0.016	0	16	59	Glyco_transf_28	184	248	sp|Q8ZQE4|MACB_SALTY	
+0.016	0	16	59	Glyco_transf_28	184	248	sp|Q57R58|MACB_SALCH	
+0.0064	0	15	92	Glyco_transf_28	45	123	sp|Q64550|UD11_RAT	
+0.011	0	13	108	Glyco_transf_28	20	116	sp|B9JCX4|GLYA_AGRRK	
+0.016	0	16	59	Glyco_transf_28	184	248	sp|Q8Z824|MACB_SALTI	
+0.0047	0	43	134	Glyco_transf_28	80	181	sp|O94475|YC67_SCHPO	
+0.39	0	19	73	Glyco_transf_28	56	108	sp|P59837|RDH12_BOVIN	
+1.7	0	34	79	Glyco_transf_28	211	265	sp|P59837|RDH12_BOVIN	
+0.016	0	16	59	Glyco_transf_28	184	248	sp|Q5PGK9|MACB_SALPA	
+0.032	0	1	48	Glyco_transf_28	20	64	sp|Q02CM4|ILVC_SOLUE	
+0.019	0	3	21	Glyco_transf_28	208	226	sp|Q669P6|NPD_YERPS	
+0.019	0	3	21	Glyco_transf_28	208	226	sp|Q8ZFR1|NPD_YERPE	
+0.009	0	1	69	Glyco_transf_28	20	82	sp|B9KYS1|ILVC_THERP	
+0.023	0	1	48	Glyco_transf_28	20	64	sp|B4UAN4|ILVC_ANASK	
+0.023	0	1	48	Glyco_transf_28	20	64	sp|B8J829|ILVC_ANAD2	
+0.023	0	1	48	Glyco_transf_28	20	64	sp|Q2IJB7|ILVC_ANADE	
+0.0091	0	1	45	Glyco_transf_28	20	59	sp|Q0RDI8|ILVC_FRAAA	
+0.013	0	18	54	Glyco_transf_28	24	61	sp|P0ABQ0|COABC_ECOLI	
+0.013	0	18	54	Glyco_transf_28	24	61	sp|P0ABQ1|COABC_ECOL6	
+0.0085	0	1	64	Glyco_transf_28	20	76	sp|B2J2U6|ILVC_NOSP7	
+0.011	0	14	73	Glyco_transf_28	598	658	sp|Q89DG9|UVRC_BRAJA	
+0.009	0	1	63	Glyco_transf_28	17	73	sp|Q2S0M9|ILVC_SALRD	
+0.0086	0	1	59	Glyco_transf_28	22	76	sp|Q7NH80|ILVC_GLOVI	
+0.0081	0	1	54	Glyco_transf_28	21	71	sp|Q8G6V1|ILVC2_BIFLO	
+0.059	0	15	53	Glyco_transf_28	186	224	sp|Q2W698|ENO_MAGSA	
+0.0097	0	17	63	Glyco_transf_28	202	247	sp|Q63GN3|MTNA1_BACCZ	
+0.0096	0	1	54	Glyco_transf_28	20	70	sp|B0JRP2|ILVC_MICAN	
+0.027	0	65	128	Glyco_transf_28	203	266	sp|C1CBX8|MUTL_STRZJ	
+0.0097	0	12	80	Glyco_transf_28	114	184	sp|Q3SLY0|BIOB_THIDA	
+0.027	0	65	128	Glyco_transf_28	203	266	sp|B5E6C5|MUTL_STRP4	
+0.011	0	16	55	Glyco_transf_28	14	60	sp|B2J6I3|MURD_NOSP7	
+0.05	0	1	52	Glyco_transf_28	21	68	sp|Q5LXV0|ILVC_STRT1	
+0.05	0	1	52	Glyco_transf_28	21	68	sp|Q5M2F2|ILVC_STRT2	
+4.1	0	66	100	Glyco_transf_28	13	47	sp|C6A5E6|VATD_THESM	
+0.17	0	29	87	Glyco_transf_28	104	160	sp|C6A5E6|VATD_THESM	
+0.014	0	1	67	Glyco_transf_28	20	80	sp|Q2RIS6|ILVC_MOOTA	
+0.13	0	87	135	Glyco_transf_28	315	363	sp|Q3M859|THIOG_ANAVT	
+0.013	0	24	93	Glyco_transf_28	58	124	sp|Q5GS59|RLME_WOLTR	
+0.0049	0	2	54	Glyco_transf_28	21	70	sp|B8G7X1|ILVC_CHLAD	
+0.016	0	1	52	Glyco_transf_28	20	68	sp|C5C2I2|ILVC_BEUC1	
+0.022	0	2	54	Glyco_transf_28	20	69	sp|Q5SJ03|ILVC_THET8	
+0.022	0	2	54	Glyco_transf_28	20	69	sp|Q72JC8|ILVC_THET2	
+0.019	0	1	49	Glyco_transf_28	21	66	sp|Q4JUN9|ILVC_CORJK	
+0.013	0	14	72	Glyco_transf_28	607	666	sp|Q2J0X3|UVRC_RHOP2	
+0.028	0	1	36	Glyco_transf_28	21	51	sp|Q02YY8|ILVC_LACLS	
+0.016	0	1	57	Glyco_transf_28	20	70	sp|B9EBF4|ILVC_MACCJ	
+0.011	0	10	43	Glyco_transf_28	23	56	sp|Q43716|UFOG_PETHY	
+0.0099	0	15	56	Glyco_transf_28	20	60	sp|A5GUT4|SURE_SYNR3	
+0.012	0	2	64	Glyco_transf_28	20	76	sp|Q1ARE4|ILVC_RUBXD	
+0.033	0	2	48	Glyco_transf_28	21	64	sp|A6W7N6|ILVC_KINRD	
+0.25	0	23	52	Glyco_transf_28	129	158	sp|Q11039|DEAD_MYCTU	
+0.017	0	14	72	Glyco_transf_28	607	666	sp|Q13BM0|UVRC_RHOPS	
+0.0085	0	18	105	Glyco_transf_28	19	127	sp|Q8YMT3|SURE_ANASP	
+0.015	0	16	54	Glyco_transf_28	20	58	sp|Q319M0|SURE_PROM9	
+0.017	0	19	66	Glyco_transf_28	205	251	sp|A9VFD5|MTNA2_BACWK	
+3.5	0	47	107	Glyco_transf_28	15	73	sp|A1JRP2|NADA_YERE8	
+0.37	0	85	132	Glyco_transf_28	226	276	sp|A1JRP2|NADA_YERE8	
+0.032	0	1	36	Glyco_transf_28	21	51	sp|A2RKQ6|ILVC_LACLM	
+0.019	0	16	110	Glyco_transf_28	184	298	sp|Q32DZ9|MACB_SHIDS	
+0.018	0	1	59	Glyco_transf_28	20	74	sp|A5CPY6|ILVC_CLAM3	
+0.018	0	1	59	Glyco_transf_28	20	74	sp|B0RIN6|ILVC_CLAMS	
+0.024	0	57	127	Glyco_transf_28	196	265	sp|Q8K5J6|MUTL_STRP3	
+0.024	0	57	127	Glyco_transf_28	196	265	sp|Q99XN7|MUTL_STRP1	
+0.024	0	57	127	Glyco_transf_28	196	265	sp|B5XJ09|MUTL_STRPZ	
+0.024	0	57	127	Glyco_transf_28	196	265	sp|A2RGV3|MUTL_STRPG	
+0.024	0	57	127	Glyco_transf_28	196	265	sp|Q5X9H5|MUTL_STRP6	
+0.019	0	63	125	Glyco_transf_28	201	263	sp|Q3JYM6|MUTL_STRA1	
+0.019	0	63	125	Glyco_transf_28	201	263	sp|Q8E2R5|MUTL_STRA3	
+0.021	0	1	54	Glyco_transf_28	9	63	sp|Q9MB73|LGT_CITUN	
+0.02	0	17	54	Glyco_transf_28	21	58	sp|A8G678|SURE_PROM2	
+0.046	0	1	48	Glyco_transf_28	20	64	sp|A9WP08|ILVC_RENSM	
+0.0085	0	2	54	Glyco_transf_28	21	70	sp|A9WC26|ILVC_CHLAA	
+0.0085	0	2	54	Glyco_transf_28	21	70	sp|B9LGM7|ILVC_CHLSY	
+0.02	0	17	53	Glyco_transf_28	21	57	sp|A2BSJ2|SURE_PROMS	
+0.026	0	1	32	Glyco_transf_28	6	38	sp|Q9LR44|IABG1_ARATH	
+0.068	0	26	86	Glyco_transf_28	101	159	sp|O57731|VATD_PYRHO	
+0.027	0	17	50	Glyco_transf_28	21	53	sp|A3PEA4|SURE_PROM0	
+0.019	0	16	110	Glyco_transf_28	184	298	sp|P75831|MACB_ECOLI	
+0.02	0	16	110	Glyco_transf_28	184	298	sp|Q83LR7|MACB_SHIFL	
+0.02	0	16	110	Glyco_transf_28	184	298	sp|Q3Z3Q4|MACB_SHISS	
+0.029	0	15	108	Glyco_transf_28	183	296	sp|Q8XED0|MACB_ECO57	
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ncbi-blastp-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ncbi-blastp-profmark.out
new file mode 100755
index 0000000..002fb9f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ncbi-blastp-profmark.out
@@ -0,0 +1,19 @@
+1e-88	325.0	sp|P55685|Y4WG_RHISN	sp|P55685|Y4WG_RHISN
+3.8	31.0	sp|B2VCH7|MTLD_ERWT9	sp|P55685|Y4WG_RHISN
+7.3	30.0	sp|Q9CZP0|UFSP1_MOUSE	sp|P55685|Y4WG_RHISN
+0	602.0	sp|Q1XGE2|HAC1_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+0	416.0	sp|Q8TFU8|HAC1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+2e-15	84.0	sp|Q8TFF3|HAC1_TRIRE	sp|Q1XGE2|HAC1_ASPOR
+1e-07	58.0	sp|P41546|HAC1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+0.01	41.0	sp|O24646|HY5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.12	38.0	sp|Q9SM50|HY5_SOLLC	sp|Q1XGE2|HAC1_ASPOR
+1.5	34.0	sp|Q61817|CREB3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.6	34.0	sp|A1URL3|PYRD_BARBK	sp|Q1XGE2|HAC1_ASPOR
+1.9	34.0	sp|Q3SYZ3|CR3L3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+2.1	33.0	sp|Q68CJ9|CR3L3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+2.6	33.0	sp|Q5FVM5|CR3L3_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.9	33.0	sp|Q91XE9|CR3L3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+5.7	32.0	sp|Q8W191|HYH_ARATH	sp|Q1XGE2|HAC1_ASPOR
+5.8	32.0	sp|Q3SZZ2|XBP1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+9	32.0	sp|Q5UEM7|CR3L4_RAT	sp|Q1XGE2|HAC1_ASPOR
+9.3	32.0	sp|Q9D2A5|CR3L4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ncbi-blastp-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ncbi-blastp-tbl.out
new file mode 100755
index 0000000..283ddf4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ncbi-blastp-tbl.out
@@ -0,0 +1,19 @@
+1e-88	90	1	181	sp|P55685|Y4WG_RHISN	1	181	sp|P55685|Y4WG_RHISN	Uncharacterized protein y4wG OS=Rhizobium sp.
+3.8	32	42	93	sp|P55685|Y4WG_RHISN	52	97	sp|B2VCH7|MTLD_ERWT9	Mannitol-1-phosphate 5-dehydrogenase
+7.3	34	111	154	sp|P55685|Y4WG_RHISN	129	172	sp|Q9CZP0|UFSP1_MOUSE	Ufm1-specific protease 1 OS=Mus musculus
+e-171	87	1	345	sp|Q1XGE2|HAC1_ASPOR	1	345	sp|Q1XGE2|HAC1_ASPOR	Transcriptional activator hacA OS=Aspergillus
+e-115	67	13	344	sp|Q1XGE2|HAC1_ASPOR	18	348	sp|Q8TFU8|HAC1_EMENI	Transcriptional activator hacA OS=Emericella
+2e-15	88	58	100	sp|Q1XGE2|HAC1_ASPOR	93	135	sp|Q8TFF3|HAC1_TRIRE	Transcriptional activator hac1 OS=Trichoderma
+1e-07	68	63	100	sp|Q1XGE2|HAC1_ASPOR	16	56	sp|P41546|HAC1_YEAST	Transcriptional activator HAC1
+0.010	33	60	139	sp|Q1XGE2|HAC1_ASPOR	65	144	sp|O24646|HY5_ARATH	Transcription factor HY5 OS=Arabidopsis
+0.12	32	60	139	sp|Q1XGE2|HAC1_ASPOR	66	142	sp|Q9SM50|HY5_SOLLC	Transcription factor HY5 OS=Solanum
+1.5	28	80	150	sp|Q1XGE2|HAC1_ASPOR	182	252	sp|Q61817|CREB3_MOUSE	Cyclic AMP-responsive element-binding protein
+1.6	40	227	292	sp|Q1XGE2|HAC1_ASPOR	205	267	sp|A1URL3|PYRD_BARBK	Dihydroorotate dehydrogenase OS=Bartonella
+1.9	28	80	150	sp|Q1XGE2|HAC1_ASPOR	235	305	sp|Q3SYZ3|CR3L3_BOVIN	Cyclic AMP-responsive element-binding protein
+2.1	28	80	150	sp|Q1XGE2|HAC1_ASPOR	240	310	sp|Q68CJ9|CR3L3_HUMAN	Cyclic AMP-responsive element-binding protein
+2.6	26	68	150	sp|Q1XGE2|HAC1_ASPOR	224	306	sp|Q5FVM5|CR3L3_RAT	Cyclic AMP-responsive element-binding protein
+2.9	26	68	150	sp|Q1XGE2|HAC1_ASPOR	224	306	sp|Q91XE9|CR3L3_MOUSE	Cyclic AMP-responsive element-binding protein
+5.7	26	73	143	sp|Q1XGE2|HAC1_ASPOR	68	138	sp|Q8W191|HYH_ARATH	Transcription factor HY5-like OS=Arabidopsis
+5.8	29	68	143	sp|Q1XGE2|HAC1_ASPOR	52	137	sp|Q3SZZ2|XBP1_BOVIN	X-box-binding protein 1 OS=Bos taurus GN=XBP1
+9.0	26	80	146	sp|Q1XGE2|HAC1_ASPOR	186	252	sp|Q5UEM7|CR3L4_RAT	Cyclic AMP-responsive element-binding protein
+9.3	26	80	146	sp|Q1XGE2|HAC1_ASPOR	190	256	sp|Q9D2A5|CR3L4_MOUSE	Cyclic AMP-responsive element-binding protein
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/phmmer-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/phmmer-profmark.out
new file mode 100755
index 0000000..16e0686
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/phmmer-profmark.out
@@ -0,0 +1,221 @@
+1.9e-115	387.7	sp|P55685|Y4WG_RHISN	sp|P55685|Y4WG_RHISN
+1.7	13.5	sp|A1VDW9|HEM1_DESVV	sp|P55685|Y4WG_RHISN
+2.1	13.1	sp|Q72C23|HEM1_DESVH	sp|P55685|Y4WG_RHISN
+2.8	12.7	sp|C0ZYA2|RIMP_RHOE4	sp|P55685|Y4WG_RHISN
+2.9	12.7	sp|Q98G87|UBIG_RHILO	sp|P55685|Y4WG_RHISN
+3.6	12.4	sp|B2VCH7|MTLD_ERWT9	sp|P55685|Y4WG_RHISN
+4.5	12.1	sp|A1WE19|RLMN_VEREI	sp|P55685|Y4WG_RHISN
+4.6	12.0	sp|Q2J713|RLMN_FRASC	sp|P55685|Y4WG_RHISN
+5.4	11.8	sp|Q9CZP0|UFSP1_MOUSE	sp|P55685|Y4WG_RHISN
+7.4	11.4	sp|Q21KT6|RLMN_SACD2	sp|P55685|Y4WG_RHISN
+7.5	11.4	sp|Q7W7U1|NADD_BORPA	sp|P55685|Y4WG_RHISN
+7.9	11.3	sp|Q8C6Y6|ASB14_MOUSE	sp|P55685|Y4WG_RHISN
+8	11.3	sp|Q8Y3H7|Y003_RALSO	sp|P55685|Y4WG_RHISN
+8.1	11.2	sp|A4G4J9|RLMN_HERAR	sp|P55685|Y4WG_RHISN
+8.8	11.1	sp|B8F3W8|LEUC_HAEPS	sp|P55685|Y4WG_RHISN
+9.6	11.0	sp|Q07074|YH007_YEAST	sp|P55685|Y4WG_RHISN
+9.7	11.0	sp|A6SZX3|RLMN_JANMA	sp|P55685|Y4WG_RHISN
+9.7	11.0	sp|A2SHB8|RLMN_METPP	sp|P55685|Y4WG_RHISN
+2e-228	762.1	sp|Q1XGE2|HAC1_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+1.2e-169	568.8	sp|Q8TFU8|HAC1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+1.5e-26	98.4	sp|Q8TFF3|HAC1_TRIRE	sp|Q1XGE2|HAC1_ASPOR
+1.3e-12	52.6	sp|P41546|HAC1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+6e-11	47.1	sp|O24646|HY5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+4.6e-07	34.3	sp|Q3SZZ2|XBP1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+7.8e-07	33.6	sp|Q9SM50|HY5_SOLLC	sp|Q1XGE2|HAC1_ASPOR
+1.7e-06	32.5	sp|P17861|XBP1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+9.6e-06	30.0	sp|Q8W191|HYH_ARATH	sp|Q1XGE2|HAC1_ASPOR
+2.2e-05	28.8	sp|A1L224|CR3L2_DANRE	sp|Q1XGE2|HAC1_ASPOR
+6.8e-05	27.2	sp|Q9D2A5|CR3L4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.1e-05	27.1	sp|Q9R1S4|XBP1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00017	25.8	sp|Q54WN7|BZPF_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.00023	25.5	sp|A2VD01|CR3L2_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.00023	25.4	sp|Q99090|CPRF2_PETCR	sp|Q1XGE2|HAC1_ASPOR
+0.00028	25.2	sp|Q5FVM5|CR3L3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00029	25.1	sp|O35426|XBP1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00031	25.0	sp|Q61817|CREB3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00058	24.1	sp|Q91XE9|CR3L3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0006	24.1	sp|O57342|MAFA_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.00063	24.0	sp|Q5UEM7|CR3L4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00077	23.7	sp|Q08CW8|CR3L4_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.00091	23.5	sp|Q90370|MAFB_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.00095	23.4	sp|Q68CJ9|CR3L3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.001	23.3	sp|Q1LYG4|CR3LB_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0011	23.3	sp|Q502F0|CR3LA_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0012	23.1	sp|Q90888|MAFB_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.0013	23.0	sp|Q3SYZ3|CR3L3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0014	22.9	sp|Q5RCM9|CR3L2_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.0014	22.9	sp|Q9Y5Q3|MAFB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0016	22.7	sp|Q70SY1|CR3L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0017	22.6	sp|Q6DE84|MAFB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.0018	22.6	sp|Q9Z125|CR3L1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0018	22.6	sp|Q8BH52|CR3L2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0021	22.3	sp|P54842|MAFB_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0021	22.3	sp|Q6QDP7|CR3L2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0021	22.3	sp|Q16520|BATF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0023	22.1	sp|P54841|MAFB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0027	21.9	sp|Q2PFS4|MAFB_MACFA	sp|Q1XGE2|HAC1_ASPOR
+0.0029	21.8	sp|O42290|MAFA_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.003	21.8	sp|Q9NR55|BATF3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0037	21.5	sp|Q96BA8|CR3L1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.004	21.4	sp|Q66HA2|CR3L1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0043	21.3	sp|P17544|ATF7_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0053	21.0	sp|O43889|CREB3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0054	20.9	sp|Q8R0S1|ATF7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0057	20.9	sp|Q5R9C9|ATF7_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.0068	20.6	sp|O35284|BATF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0084	20.3	sp|Q8SQ19|CREB3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0089	20.2	sp|Q8TEY5|CR3L4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0097	20.1	sp|Q9D275|BATF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.012	19.9	sp|Q504L8|MAFB_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.012	19.8	sp|Q5UEM8|CR3L4_MACFA	sp|Q1XGE2|HAC1_ASPOR
+0.016	19.4	sp|Q4U1U2|MAFA_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.018	19.3	sp|P23091|MAF_AVIS4	sp|Q1XGE2|HAC1_ASPOR
+0.018	19.2	sp|P81269|ATF1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.019	19.2	sp|Q789F3|MAF_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.02	19.1	sp|P29747|CREBA_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.02	19.0	sp|P18848|ATF4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.024	18.8	sp|P54844|MAF_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.024	18.8	sp|O75444|MAF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.024	18.8	sp|P97876|BATF3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.025	18.8	sp|Q06507|ATF4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.025	18.7	sp|A7Z017|MAF_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.026	18.7	sp|Q0V9K1|MAF_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.028	18.6	sp|Q08DA8|ATF1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.029	18.5	sp|O60675|MAFK_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.03	18.5	sp|P54843|MAF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.036	18.2	sp|P18846|ATF1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.039	18.1	sp|P42774|GBF1_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.039	18.1	sp|Q61827|MAFK_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.046	17.9	sp|P14233|TGA1B_TOBAC	sp|Q1XGE2|HAC1_ASPOR
+0.051	17.7	sp|Q6NW59|ATF4_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.067	17.3	sp|O24160|TGA21_TOBAC	sp|Q1XGE2|HAC1_ASPOR
+0.07	17.3	sp|Q98UK4|MAF_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.071	17.3	sp|A3KMR8|MAFA_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.078	17.1	sp|Q90596|MAFK_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.079	17.1	sp|Q3ZCH6|ATF4_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.086	17.0	sp|P97875|JDP2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.086	17.0	sp|Q78E65|JDP2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.092	16.9	sp|P12959|OP2_MAIZE	sp|Q1XGE2|HAC1_ASPOR
+0.093	16.9	sp|Q8K1L0|CREB5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.093	16.9	sp|Q39140|TGA6_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.098	16.8	sp|P23923|HBP1B_WHEAT	sp|Q1XGE2|HAC1_ASPOR
+0.11	16.7	sp|Q00322|CEBPD_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.11	16.6	sp|Q39163|TGA5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.12	16.5	sp|Q54RZ9|BZPG_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.12	16.5	sp|Q8CF90|MAFA_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.13	16.4	sp|Q9ES19|ATF4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.15	16.2	sp|P43273|TGA2_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.16	16.1	sp|Q98UK5|MAFB_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.17	16.0	sp|P16951|ATF2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.18	15.9	sp|P27925|CREB1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.19	15.9	sp|P15336|ATF2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.19	15.9	sp|O35451|ATF6B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.19	15.9	sp|Q2VZV0|IF2_MAGSA	sp|Q1XGE2|HAC1_ASPOR
+0.21	15.7	sp|Q6ZDF3|TRAB1_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+0.22	15.7	sp|Q6P788|ATF5_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.22	15.6	sp|Q02930|CREB5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.23	15.6	sp|Q66J36|NFIL3_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.29	15.3	sp|Q8NHW3|MAFA_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.37	14.9	sp|O88479|FOS_MESAU	sp|Q1XGE2|HAC1_ASPOR
+0.38	14.9	sp|P23922|HBP1A_WHEAT	sp|Q1XGE2|HAC1_ASPOR
+0.39	14.9	sp|Q90595|MAFF_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.39	14.8	sp|P53450|FOS_TAKRU	sp|Q1XGE2|HAC1_ASPOR
+0.43	14.7	sp|Q00969|ATF2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.43	14.7	sp|O97930|FOS_PIG	sp|Q1XGE2|HAC1_ASPOR
+0.51	14.5	sp|P79145|CREM_CANFA	sp|Q1XGE2|HAC1_ASPOR
+0.52	14.4	sp|Q99941|ATF6B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.53	14.4	sp|P01101|FOS_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.54	14.4	sp|P15337|CREB1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.54	14.4	sp|P16220|CREB1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.54	14.4	sp|Q01147|CREB1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.57	14.3	sp|O93602|ATF2_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.63	14.1	sp|Q90889|MAFG_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.64	14.1	sp|P79702|FOS_CYPCA	sp|Q1XGE2|HAC1_ASPOR
+0.64	14.1	sp|Q8X229|FCR3_CANAL	sp|Q1XGE2|HAC1_ASPOR
+0.65	14.1	sp|P12841|FOS_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.71	14.0	sp|P49716|CEBPD_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.72	14.0	sp|Q554P0|BZPJ_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.74	13.9	sp|Q55E93|BZPE_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.75	13.9	sp|P51984|CREB_CHLVR	sp|Q1XGE2|HAC1_ASPOR
+0.77	13.9	sp|P01102|FOS_MSVFB	sp|Q1XGE2|HAC1_ASPOR
+0.81	13.8	sp|O77628|FOS_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.82	13.8	sp|Q8WYK2|JDP2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.86	13.7	sp|Q60925|DBP_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.9	13.6	sp|P14232|TGA1A_TOBAC	sp|Q1XGE2|HAC1_ASPOR
+0.96	13.6	sp|P16443|DBP_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.97	13.5	sp|Q68EL6|NFIL3_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.98	13.5	sp|P01100|FOS_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1	13.5	sp|Q9C5Q2|AI5L3_ARATH	sp|Q1XGE2|HAC1_ASPOR
+1.1	13.4	sp|Q5FW38|NFIL3_XENTR	sp|Q1XGE2|HAC1_ASPOR
+1.1	13.4	sp|Q8HZP6|FOS_FELCA	sp|Q1XGE2|HAC1_ASPOR
+1.2	13.3	sp|Q9SJN0|ABI5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+1.2	13.2	sp|P42777|GBF4_ARATH	sp|Q1XGE2|HAC1_ASPOR
+1.3	13.1	sp|P15407|FOSL1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.3	13.1	sp|O15525|MAFG_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.4	13.0	sp|P40535|ACA2_YEAST	sp|Q1XGE2|HAC1_ASPOR
+1.5	12.9	sp|A7YY73|MAFF_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+1.6	12.9	sp|Q8PY58|PSMR_METMA	sp|Q1XGE2|HAC1_ASPOR
+1.6	12.8	sp|Q56TN0|FOS_PHORO	sp|Q1XGE2|HAC1_ASPOR
+1.7	12.7	sp|P23050|FOS_AVINK	sp|Q1XGE2|HAC1_ASPOR
+1.8	12.6	sp|Q9LES3|AI5L2_ARATH	sp|Q1XGE2|HAC1_ASPOR
+2	12.5	sp|Q84JK2|FD_ARATH	sp|Q1XGE2|HAC1_ASPOR
+2	12.5	sp|A5PJV0|MAFG_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+2	12.5	sp|O54790|MAFG_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2	12.5	sp|Q39234|TGA3_ARATH	sp|Q1XGE2|HAC1_ASPOR
+2.2	12.4	sp|P07049|CPPB_NEIGO	sp|Q1XGE2|HAC1_ASPOR
+2.2	12.3	sp|P11939|FOS_CHICK	sp|Q1XGE2|HAC1_ASPOR
+2.5	12.2	sp|P29176|FOSX_MSVFR	sp|Q1XGE2|HAC1_ASPOR
+2.5	12.2	sp|O54791|MAFF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2.7	12.1	sp|Q8TI88|PSMR_METAC	sp|Q1XGE2|HAC1_ASPOR
+2.8	12.0	sp|O08750|NFIL3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2.8	12.0	sp|Q76MX4|MAFG_RAT	sp|Q1XGE2|HAC1_ASPOR
+3	11.9	sp|P20482|CNC_DROME	sp|Q1XGE2|HAC1_ASPOR
+3.1	11.9	sp|Q90Z72|NFIL3_CHICK	sp|Q1XGE2|HAC1_ASPOR
+3.2	11.8	sp|Q9VWW0|CREBB_DROME	sp|Q1XGE2|HAC1_ASPOR
+3.2	11.8	sp|Q8BKJ9|SIRT7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.3	11.8	sp|Q56TT7|FOS_PHOCM	sp|Q1XGE2|HAC1_ASPOR
+3.3	11.8	sp|Q6IMZ0|NFIL3_RAT	sp|Q1XGE2|HAC1_ASPOR
+3.5	11.7	sp|P38749|YAP3_YEAST	sp|Q1XGE2|HAC1_ASPOR
+3.7	11.6	sp|Q08D88|NFIL3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+3.8	11.6	sp|Q16649|NFIL3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.8	11.6	sp|Q9C7S0|BZI60_ARATH	sp|Q1XGE2|HAC1_ASPOR
+3.9	11.6	sp|P78962|ATF21_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+4	11.5	sp|Q1LZH5|CREM_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+4.2	11.4	sp|B1MX63|THIE_LEUCK	sp|Q1XGE2|HAC1_ASPOR
+4.6	11.3	sp|Q5AVK6|NOP16_EMENI	sp|Q1XGE2|HAC1_ASPOR
+4.6	11.3	sp|Q9ULX9|MAFF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.6	11.3	sp|P53567|CEBPG_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.8	11.2	sp|Q2V2M9|FHOD3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.9	11.2	sp|Q03060|CREM_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.9	11.2	sp|O68007|BACB_BACLI	sp|Q1XGE2|HAC1_ASPOR
+5.1	11.2	sp|Q5VPE3|HOX2_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+5.1	11.2	sp|Q84U86|HOX2_ORYSI	sp|Q1XGE2|HAC1_ASPOR
+5.4	11.1	sp|Q65US7|THIE_MANSM	sp|Q1XGE2|HAC1_ASPOR
+5.4	11.1	sp|P07948|LYN_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.4	11.1	sp|Q16534|HLF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.5	11.1	sp|Q9XGJ4|GGM13_GNEGN	sp|Q1XGE2|HAC1_ASPOR
+5.8	11.0	sp|P27921|JUND_CHICK	sp|Q1XGE2|HAC1_ASPOR
+5.9	10.9	sp|Q5XHX8|THEG_RAT	sp|Q1XGE2|HAC1_ASPOR
+6	10.9	sp|P18847|ATF3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.1	10.9	sp|P24068|OCS1_MAIZE	sp|Q1XGE2|HAC1_ASPOR
+6.2	10.9	sp|P20393|NR1D1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.3	10.9	sp|P13346|FOSB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+6.4	10.8	sp|P42775|GBF2_ARATH	sp|Q1XGE2|HAC1_ASPOR
+6.5	10.8	sp|Q09926|PCR1_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+6.9	10.7	sp|P24813|YAP2_YEAST	sp|Q1XGE2|HAC1_ASPOR
+7	10.7	sp|Q64709|HLF_RAT	sp|Q1XGE2|HAC1_ASPOR
+7.3	10.6	sp|Q02100|SKO1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+7.7	10.6	sp|P50198|LINX_PSEPA	sp|Q1XGE2|HAC1_ASPOR
+7.7	10.6	sp|Q6DGM8|JDP2_DANRE	sp|Q1XGE2|HAC1_ASPOR
+7.8	10.6	sp|A2Z0Q0|HOX25_ORYSI	sp|Q1XGE2|HAC1_ASPOR
+7.9	10.5	sp|Q9UPR3|SMG5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+8.1	10.5	sp|Q41558|HBP1C_WHEAT	sp|Q1XGE2|HAC1_ASPOR
+8.2	10.5	sp|O02756|CEBPD_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+8.6	10.4	sp|Q63315|CAD22_RAT	sp|Q1XGE2|HAC1_ASPOR
+8.7	10.4	sp|Q9WTP5|CAD22_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+9.3	10.3	sp|Q5FUV3|ATE_GLUOX	sp|Q1XGE2|HAC1_ASPOR
+9.5	10.3	sp|Q99091|CPRF3_PETCR	sp|Q1XGE2|HAC1_ASPOR
+9.5	10.3	sp|Q8BW74|HLF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+9.9	10.2	sp|Q9JLC6|TEF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+10	10.2	sp|Q92172|TEF_CHICK	sp|Q1XGE2|HAC1_ASPOR
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/phmmer-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/phmmer-tbl.out
new file mode 100755
index 0000000..a85d3a9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/phmmer-tbl.out
@@ -0,0 +1,261 @@
+7.5e-120	0	1	181	sp|P55685|Y4WG_RHISN	1	181	sp|P55685|Y4WG_RHISN	
+0.00026	0	63	108	sp|P55685|Y4WG_RHISN	39	86	sp|A1VDW9|HEM1_DESVV	
+1.8	0	36	50	sp|P55685|Y4WG_RHISN	185	199	sp|A1VDW9|HEM1_DESVV	
+0.00033	0	63	108	sp|P55685|Y4WG_RHISN	39	86	sp|Q72C23|HEM1_DESVH	
+1.8	0	36	50	sp|P55685|Y4WG_RHISN	185	199	sp|Q72C23|HEM1_DESVH	
+0.00077	0	36	76	sp|P55685|Y4WG_RHISN	93	131	sp|C0ZYA2|RIMP_RHOE4	
+0.53	0	40	65	sp|P55685|Y4WG_RHISN	167	192	sp|C0ZYA2|RIMP_RHOE4	
+0.016	0	101	123	sp|P55685|Y4WG_RHISN	44	66	sp|Q98G87|UBIG_RHILO	
+0.02	0	71	103	sp|P55685|Y4WG_RHISN	122	156	sp|Q98G87|UBIG_RHILO	
+0.00046	0	44	96	sp|P55685|Y4WG_RHISN	54	100	sp|B2VCH7|MTLD_ERWT9	
+2.8	0	40	77	sp|P55685|Y4WG_RHISN	248	282	sp|B2VCH7|MTLD_ERWT9	
+0.0004	0	56	119	sp|P55685|Y4WG_RHISN	304	362	sp|A1WE19|RLMN_VEREI	
+6	0	77	108	sp|P55685|Y4WG_RHISN	135	156	sp|Q2J713|RLMN_FRASC	
+0.00027	0	42	119	sp|P55685|Y4WG_RHISN	324	395	sp|Q2J713|RLMN_FRASC	
+0.0004	0	107	155	sp|P55685|Y4WG_RHISN	126	173	sp|Q9CZP0|UFSP1_MOUSE	
+3.6	0	17	37	sp|P55685|Y4WG_RHISN	192	213	sp|Q9CZP0|UFSP1_MOUSE	
+1.4	0	74	156	sp|P55685|Y4WG_RHISN	105	129	sp|Q21KT6|RLMN_SACD2	
+0.0011	0	67	115	sp|P55685|Y4WG_RHISN	324	366	sp|Q21KT6|RLMN_SACD2	
+0.00035	0	105	152	sp|P55685|Y4WG_RHISN	146	193	sp|Q7W7U1|NADD_BORPA	
+0.02	0	124	158	sp|P55685|Y4WG_RHISN	216	249	sp|Q8C6Y6|ASB14_MOUSE	
+0.26	0	131	166	sp|P55685|Y4WG_RHISN	320	355	sp|Q8C6Y6|ASB14_MOUSE	
+0.68	0	149	178	sp|P55685|Y4WG_RHISN	522	553	sp|Q8C6Y6|ASB14_MOUSE	
+0.00044	0	64	101	sp|P55685|Y4WG_RHISN	22	59	sp|Q8Y3H7|Y003_RALSO	
+0.77	0	93	133	sp|P55685|Y4WG_RHISN	14	53	sp|A4G4J9|RLMN_HERAR	
+0.46	0	136	153	sp|P55685|Y4WG_RHISN	101	118	sp|A4G4J9|RLMN_HERAR	
+0.0085	0	67	117	sp|P55685|Y4WG_RHISN	321	365	sp|A4G4J9|RLMN_HERAR	
+0.00057	0	88	168	sp|P55685|Y4WG_RHISN	135	218	sp|B8F3W8|LEUC_HAEPS	
+0.00041	0	142	173	sp|P55685|Y4WG_RHISN	32	62	sp|Q07074|YH007_YEAST	
+0.76	0	93	133	sp|P55685|Y4WG_RHISN	13	52	sp|A6SZX3|RLMN_JANMA	
+0.49	0	136	153	sp|P55685|Y4WG_RHISN	100	117	sp|A6SZX3|RLMN_JANMA	
+0.0066	0	67	117	sp|P55685|Y4WG_RHISN	322	366	sp|A6SZX3|RLMN_JANMA	
+1.3	0	95	116	sp|P55685|Y4WG_RHISN	135	156	sp|A2SHB8|RLMN_METPP	
+0.00042	0	66	139	sp|P55685|Y4WG_RHISN	319	387	sp|A2SHB8|RLMN_METPP	
+8.7e-232	0	1	345	sp|Q1XGE2|HAC1_ASPOR	1	345	sp|Q1XGE2|HAC1_ASPOR	
+5.8e-173	0	11	344	sp|Q1XGE2|HAC1_ASPOR	16	348	sp|Q8TFU8|HAC1_EMENI	
+5.8e-30	0	47	119	sp|Q1XGE2|HAC1_ASPOR	82	154	sp|Q8TFF3|HAC1_TRIRE	
+7.1	0	209	234	sp|Q1XGE2|HAC1_ASPOR	287	308	sp|Q8TFF3|HAC1_TRIRE	
+0.52	0	315	344	sp|Q1XGE2|HAC1_ASPOR	421	450	sp|Q8TFF3|HAC1_TRIRE	
+5e-16	0	67	119	sp|Q1XGE2|HAC1_ASPOR	23	75	sp|P41546|HAC1_YEAST	
+2.7e-14	0	59	153	sp|Q1XGE2|HAC1_ASPOR	64	158	sp|O24646|HY5_ARATH	
+2.4e-10	0	68	145	sp|Q1XGE2|HAC1_ASPOR	52	139	sp|Q3SZZ2|XBP1_BOVIN	
+3.7e-10	0	72	148	sp|Q1XGE2|HAC1_ASPOR	75	151	sp|Q9SM50|HY5_SOLLC	
+9.4e-10	0	72	186	sp|Q1XGE2|HAC1_ASPOR	58	185	sp|P17861|XBP1_HUMAN	
+4.9e-09	0	72	144	sp|Q1XGE2|HAC1_ASPOR	67	139	sp|Q8W191|HYH_ARATH	
+1.5e-08	0	14	155	sp|Q1XGE2|HAC1_ASPOR	221	363	sp|A1L224|CR3L2_DANRE	
+4.1e-08	0	76	147	sp|Q1XGE2|HAC1_ASPOR	186	257	sp|Q9D2A5|CR3L4_MOUSE	
+4.2e-08	0	73	127	sp|Q1XGE2|HAC1_ASPOR	52	106	sp|Q9R1S4|XBP1_RAT	
+1.1e-07	0	46	175	sp|Q1XGE2|HAC1_ASPOR	363	498	sp|Q54WN7|BZPF_DICDI	
+1.6e-07	0	60	157	sp|Q1XGE2|HAC1_ASPOR	281	373	sp|A2VD01|CR3L2_XENLA	
+9.1e-08	0	77	162	sp|Q1XGE2|HAC1_ASPOR	192	277	sp|Q99090|CPRF2_PETCR	
+2.2e-07	0	77	154	sp|Q1XGE2|HAC1_ASPOR	233	310	sp|Q5FVM5|CR3L3_RAT	
+1.7e-07	0	73	127	sp|Q1XGE2|HAC1_ASPOR	52	106	sp|O35426|XBP1_MOUSE	
+1.7e-07	0	80	151	sp|Q1XGE2|HAC1_ASPOR	182	253	sp|Q61817|CREB3_MOUSE	
+2.3e-07	0	77	154	sp|Q1XGE2|HAC1_ASPOR	233	310	sp|Q91XE9|CR3L3_MOUSE	
+8.7	0	156	180	sp|Q1XGE2|HAC1_ASPOR	69	93	sp|O57342|MAFA_COTJA	
+2.3e-07	0	85	167	sp|Q1XGE2|HAC1_ASPOR	201	281	sp|O57342|MAFA_COTJA	
+4.8e-07	0	78	148	sp|Q1XGE2|HAC1_ASPOR	184	254	sp|Q5UEM7|CR3L4_RAT	
+3.5e-07	0	24	151	sp|Q1XGE2|HAC1_ASPOR	160	284	sp|Q08CW8|CR3L4_XENTR	
+1.8	0	115	178	sp|Q1XGE2|HAC1_ASPOR	15	81	sp|Q90370|MAFB_COTJA	
+1.4e-06	0	53	149	sp|Q1XGE2|HAC1_ASPOR	195	292	sp|Q90370|MAFB_COTJA	
+6.1e-07	0	77	161	sp|Q1XGE2|HAC1_ASPOR	237	321	sp|Q68CJ9|CR3L3_HUMAN	
+7.4e-07	0	78	160	sp|Q1XGE2|HAC1_ASPOR	205	286	sp|Q1LYG4|CR3LB_DANRE	
+8.1e-07	0	78	160	sp|Q1XGE2|HAC1_ASPOR	205	286	sp|Q502F0|CR3LA_DANRE	
+1.8	0	115	178	sp|Q1XGE2|HAC1_ASPOR	15	81	sp|Q90888|MAFB_CHICK	
+1.7e-06	0	52	149	sp|Q1XGE2|HAC1_ASPOR	194	292	sp|Q90888|MAFB_CHICK	
+5e-07	0	77	161	sp|Q1XGE2|HAC1_ASPOR	232	316	sp|Q3SYZ3|CR3L3_BOVIN	
+9.1e-07	0	54	159	sp|Q1XGE2|HAC1_ASPOR	270	370	sp|Q5RCM9|CR3L2_PONAB	
+8.3e-07	0	72	148	sp|Q1XGE2|HAC1_ASPOR	226	303	sp|Q9Y5Q3|MAFB_HUMAN	
+1e-06	0	54	159	sp|Q1XGE2|HAC1_ASPOR	270	370	sp|Q70SY1|CR3L2_HUMAN	
+0.52	0	115	182	sp|Q1XGE2|HAC1_ASPOR	15	86	sp|Q6DE84|MAFB_XENLA	
+1.7e-05	0	70	143	sp|Q1XGE2|HAC1_ASPOR	211	285	sp|Q6DE84|MAFB_XENLA	
+1.3e-06	0	59	160	sp|Q1XGE2|HAC1_ASPOR	271	366	sp|Q9Z125|CR3L1_MOUSE	
+1.1e-06	0	55	159	sp|Q1XGE2|HAC1_ASPOR	271	370	sp|Q8BH52|CR3L2_MOUSE	
+9.1e-07	0	72	148	sp|Q1XGE2|HAC1_ASPOR	226	303	sp|P54842|MAFB_RAT	
+1.3e-06	0	59	159	sp|Q1XGE2|HAC1_ASPOR	275	370	sp|Q6QDP7|CR3L2_RAT	
+9.3e-07	0	71	135	sp|Q1XGE2|HAC1_ASPOR	17	78	sp|Q16520|BATF_HUMAN	
+9.1e-07	0	72	148	sp|Q1XGE2|HAC1_ASPOR	226	303	sp|P54841|MAFB_MOUSE	
+1.1e-06	0	72	147	sp|Q1XGE2|HAC1_ASPOR	226	302	sp|Q2PFS4|MAFB_MACFA	
+8.7	0	156	180	sp|Q1XGE2|HAC1_ASPOR	69	93	sp|O42290|MAFA_CHICK	
+1.1e-06	0	84	167	sp|Q1XGE2|HAC1_ASPOR	200	281	sp|O42290|MAFA_CHICK	
+1.3e-06	0	70	143	sp|Q1XGE2|HAC1_ASPOR	22	95	sp|Q9NR55|BATF3_HUMAN	
+2.6e-06	0	60	156	sp|Q1XGE2|HAC1_ASPOR	272	362	sp|Q96BA8|CR3L1_HUMAN	
+1.6e-06	0	59	160	sp|Q1XGE2|HAC1_ASPOR	270	365	sp|Q66HA2|CR3L1_RAT	
+4.4e-06	0	46	141	sp|Q1XGE2|HAC1_ASPOR	310	401	sp|P17544|ATF7_HUMAN	
+3.6e-06	0	77	150	sp|Q1XGE2|HAC1_ASPOR	169	241	sp|O43889|CREB3_HUMAN	
+2.1e-06	0	46	140	sp|Q1XGE2|HAC1_ASPOR	299	389	sp|Q8R0S1|ATF7_MOUSE	
+5.4e-06	0	46	141	sp|Q1XGE2|HAC1_ASPOR	299	390	sp|Q5R9C9|ATF7_PONAB	
+3e-06	0	71	135	sp|Q1XGE2|HAC1_ASPOR	17	78	sp|O35284|BATF_MOUSE	
+4.8e-06	0	79	151	sp|Q1XGE2|HAC1_ASPOR	149	221	sp|Q8SQ19|CREB3_BOVIN	
+5.5e-06	0	78	150	sp|Q1XGE2|HAC1_ASPOR	212	284	sp|Q8TEY5|CR3L4_HUMAN	
+4.6e-06	0	81	143	sp|Q1XGE2|HAC1_ASPOR	26	88	sp|Q9D275|BATF3_MOUSE	
+1.3	0	116	182	sp|Q1XGE2|HAC1_ASPOR	16	86	sp|Q504L8|MAFB_XENTR	
+1.2e-05	0	54	147	sp|Q1XGE2|HAC1_ASPOR	201	295	sp|Q504L8|MAFB_XENTR	
+4.8e-06	0	78	150	sp|Q1XGE2|HAC1_ASPOR	212	284	sp|Q5UEM8|CR3L4_MACFA	
+1e-05	0	85	167	sp|Q1XGE2|HAC1_ASPOR	203	284	sp|Q4U1U2|MAFA_XENTR	
+1.4	0	114	168	sp|Q1XGE2|HAC1_ASPOR	15	68	sp|P23091|MAF_AVIS4	
+0.00013	0	85	148	sp|Q1XGE2|HAC1_ASPOR	276	339	sp|P23091|MAF_AVIS4	
+1e-05	0	75	131	sp|Q1XGE2|HAC1_ASPOR	204	259	sp|P81269|ATF1_MOUSE	
+1.4	0	114	168	sp|Q1XGE2|HAC1_ASPOR	15	68	sp|Q789F3|MAF_CHICK	
+0.00015	0	85	148	sp|Q1XGE2|HAC1_ASPOR	276	339	sp|Q789F3|MAF_CHICK	
+1.6e-05	0	64	149	sp|Q1XGE2|HAC1_ASPOR	427	507	sp|P29747|CREBA_DROME	
+1.3e-05	0	75	155	sp|Q1XGE2|HAC1_ASPOR	270	346	sp|P18848|ATF4_HUMAN	
+1.2	0	113	168	sp|Q1XGE2|HAC1_ASPOR	14	68	sp|P54844|MAF_RAT	
+0.00013	0	85	148	sp|Q1XGE2|HAC1_ASPOR	286	349	sp|P54844|MAF_RAT	
+1.3	0	113	168	sp|Q1XGE2|HAC1_ASPOR	14	68	sp|O75444|MAF_HUMAN	
+0.00017	0	85	147	sp|Q1XGE2|HAC1_ASPOR	290	352	sp|O75444|MAF_HUMAN	
+1.2e-05	0	81	143	sp|Q1XGE2|HAC1_ASPOR	26	88	sp|P97876|BATF3_RAT	
+9.7e-06	0	63	155	sp|Q1XGE2|HAC1_ASPOR	254	344	sp|Q06507|ATF4_MOUSE	
+1.4	0	113	168	sp|Q1XGE2|HAC1_ASPOR	14	68	sp|A7Z017|MAF_BOVIN	
+0.00017	0	85	147	sp|Q1XGE2|HAC1_ASPOR	294	356	sp|A7Z017|MAF_BOVIN	
+1.2	0	113	168	sp|Q1XGE2|HAC1_ASPOR	14	68	sp|Q0V9K1|MAF_XENTR	
+0.00021	0	85	146	sp|Q1XGE2|HAC1_ASPOR	267	328	sp|Q0V9K1|MAF_XENTR	
+1.9e-05	0	74	131	sp|Q1XGE2|HAC1_ASPOR	204	260	sp|Q08DA8|ATF1_BOVIN	
+1.2e-05	0	78	166	sp|Q1XGE2|HAC1_ASPOR	45	134	sp|O60675|MAFK_HUMAN	
+1.3	0	113	168	sp|Q1XGE2|HAC1_ASPOR	14	68	sp|P54843|MAF_MOUSE	
+0.00019	0	85	148	sp|Q1XGE2|HAC1_ASPOR	287	350	sp|P54843|MAF_MOUSE	
+2e-05	0	74	131	sp|Q1XGE2|HAC1_ASPOR	205	261	sp|P18846|ATF1_HUMAN	
+1.5e-05	0	77	142	sp|Q1XGE2|HAC1_ASPOR	216	281	sp|P42774|GBF1_ARATH	
+1.5e-05	0	78	165	sp|Q1XGE2|HAC1_ASPOR	45	133	sp|Q61827|MAFK_MOUSE	
+2.3e-05	0	80	140	sp|Q1XGE2|HAC1_ASPOR	181	240	sp|P14233|TGA1B_TOBAC	
+3.4e-05	0	47	144	sp|Q1XGE2|HAC1_ASPOR	230	327	sp|Q6NW59|ATF4_DANRE	
+6.1e-05	0	82	133	sp|Q1XGE2|HAC1_ASPOR	165	215	sp|O24160|TGA21_TOBAC	
+5.2	0	115	165	sp|Q1XGE2|HAC1_ASPOR	16	65	sp|Q98UK4|MAF_DANRE	
+8.2e-05	0	85	144	sp|Q1XGE2|HAC1_ASPOR	243	302	sp|Q98UK4|MAF_DANRE	
+4.2e-05	0	85	165	sp|Q1XGE2|HAC1_ASPOR	225	305	sp|A3KMR8|MAFA_DANRE	
+3.5e-05	0	84	164	sp|Q1XGE2|HAC1_ASPOR	52	132	sp|Q90596|MAFK_CHICK	
+5.2e-05	0	75	145	sp|Q1XGE2|HAC1_ASPOR	267	337	sp|Q3ZCH6|ATF4_BOVIN	
+3.5e-05	0	77	145	sp|Q1XGE2|HAC1_ASPOR	65	134	sp|P97875|JDP2_MOUSE	
+3.5e-05	0	77	145	sp|Q1XGE2|HAC1_ASPOR	65	134	sp|Q78E65|JDP2_RAT	
+5.8e-05	0	85	159	sp|Q1XGE2|HAC1_ASPOR	227	301	sp|P12959|OP2_MAIZE	
+2.9	0	141	170	sp|Q1XGE2|HAC1_ASPOR	19	48	sp|Q8K1L0|CREB5_MOUSE	
+3.7e-05	0	51	143	sp|Q1XGE2|HAC1_ASPOR	193	284	sp|Q8K1L0|CREB5_MOUSE	
+6.4e-05	0	77	131	sp|Q1XGE2|HAC1_ASPOR	38	91	sp|Q39140|TGA6_ARATH	
+7.3e-05	0	73	131	sp|Q1XGE2|HAC1_ASPOR	37	91	sp|P23923|HBP1B_WHEAT	
+8.1e-05	0	98	169	sp|Q1XGE2|HAC1_ASPOR	195	263	sp|Q00322|CEBPD_MOUSE	
+7e-05	0	79	131	sp|Q1XGE2|HAC1_ASPOR	40	91	sp|Q39163|TGA5_ARATH	
+8.4e-05	0	80	149	sp|Q1XGE2|HAC1_ASPOR	274	343	sp|Q54RZ9|BZPG_DICDI	
+8.2e-05	0	85	168	sp|Q1XGE2|HAC1_ASPOR	262	348	sp|Q8CF90|MAFA_MOUSE	
+5e-05	0	74	155	sp|Q1XGE2|HAC1_ASPOR	265	342	sp|Q9ES19|ATF4_RAT	
+0.0001	0	79	131	sp|Q1XGE2|HAC1_ASPOR	40	91	sp|P43273|TGA2_ARATH	
+1.5	0	132	182	sp|Q1XGE2|HAC1_ASPOR	36	86	sp|Q98UK5|MAFB_DANRE	
+8.5e-05	0	73	144	sp|Q1XGE2|HAC1_ASPOR	259	331	sp|Q98UK5|MAFB_DANRE	
+0.00015	0	64	125	sp|Q1XGE2|HAC1_ASPOR	316	376	sp|P16951|ATF2_MOUSE	
+3.2	0	140	211	sp|Q1XGE2|HAC1_ASPOR	20	94	sp|P27925|CREB1_BOVIN	
+0.0002	0	78	131	sp|Q1XGE2|HAC1_ASPOR	262	315	sp|P27925|CREB1_BOVIN	
+0.00016	0	63	125	sp|Q1XGE2|HAC1_ASPOR	333	394	sp|P15336|ATF2_HUMAN	
+0.00018	0	38	137	sp|Q1XGE2|HAC1_ASPOR	283	383	sp|O35451|ATF6B_MOUSE	
+0.00014	0	13	118	sp|Q1XGE2|HAC1_ASPOR	185	290	sp|Q2VZV0|IF2_MAGSA	
+0.00015	0	64	139	sp|Q1XGE2|HAC1_ASPOR	210	287	sp|Q6ZDF3|TRAB1_ORYSJ	
+0.0002	0	73	141	sp|Q1XGE2|HAC1_ASPOR	200	265	sp|Q6P788|ATF5_RAT	
+8.3	0	141	171	sp|Q1XGE2|HAC1_ASPOR	170	200	sp|Q02930|CREB5_HUMAN	
+8.8e-05	0	51	143	sp|Q1XGE2|HAC1_ASPOR	344	435	sp|Q02930|CREB5_HUMAN	
+0.0004	0	63	130	sp|Q1XGE2|HAC1_ASPOR	44	113	sp|Q66J36|NFIL3_XENLA	
+7	0	29	51	sp|Q1XGE2|HAC1_ASPOR	196	218	sp|Q66J36|NFIL3_XENLA	
+0.0002	0	85	167	sp|Q1XGE2|HAC1_ASPOR	255	335	sp|Q8NHW3|MAFA_HUMAN	
+0.0003	0	79	234	sp|Q1XGE2|HAC1_ASPOR	134	294	sp|O88479|FOS_MESAU	
+0.00024	0	64	137	sp|Q1XGE2|HAC1_ASPOR	232	306	sp|P23922|HBP1A_WHEAT	
+0.00018	0	84	167	sp|Q1XGE2|HAC1_ASPOR	52	134	sp|Q90595|MAFF_CHICK	
+0.0003	0	73	144	sp|Q1XGE2|HAC1_ASPOR	112	182	sp|P53450|FOS_TAKRU	
+2.3	0	17	42	sp|Q1XGE2|HAC1_ASPOR	316	340	sp|P53450|FOS_TAKRU	
+0.00044	0	64	125	sp|Q1XGE2|HAC1_ASPOR	316	376	sp|Q00969|ATF2_RAT	
+0.00031	0	79	146	sp|Q1XGE2|HAC1_ASPOR	134	200	sp|O97930|FOS_PIG	
+0.00033	0	80	131	sp|Q1XGE2|HAC1_ASPOR	299	350	sp|P79145|CREM_CANFA	
+0.00045	0	37	138	sp|Q1XGE2|HAC1_ASPOR	285	387	sp|Q99941|ATF6B_HUMAN	
+0.00033	0	79	146	sp|Q1XGE2|HAC1_ASPOR	134	200	sp|P01101|FOS_MOUSE	
+0.00021	0	78	131	sp|Q1XGE2|HAC1_ASPOR	278	331	sp|P15337|CREB1_RAT	
+0.00021	0	78	131	sp|Q1XGE2|HAC1_ASPOR	278	331	sp|P16220|CREB1_HUMAN	
+0.00021	0	78	131	sp|Q1XGE2|HAC1_ASPOR	278	331	sp|Q01147|CREB1_MOUSE	
+0.00044	0	66	129	sp|Q1XGE2|HAC1_ASPOR	319	380	sp|O93602|ATF2_CHICK	
+0.0003	0	84	165	sp|Q1XGE2|HAC1_ASPOR	52	134	sp|Q90889|MAFG_CHICK	
+0.00039	0	66	145	sp|Q1XGE2|HAC1_ASPOR	97	175	sp|P79702|FOS_CYPCA	
+0.0004	0	81	140	sp|Q1XGE2|HAC1_ASPOR	208	267	sp|Q8X229|FCR3_CANAL	
+0.00052	0	79	145	sp|Q1XGE2|HAC1_ASPOR	134	199	sp|P12841|FOS_RAT	
+0.00052	0	82	159	sp|Q1XGE2|HAC1_ASPOR	192	253	sp|P49716|CEBPD_HUMAN	
+0.00028	0	79	148	sp|Q1XGE2|HAC1_ASPOR	545	614	sp|Q554P0|BZPJ_DICDI	
+0.00029	0	85	146	sp|Q1XGE2|HAC1_ASPOR	248	309	sp|Q55E93|BZPE_DICDI	
+0.00043	0	76	131	sp|Q1XGE2|HAC1_ASPOR	184	239	sp|P51984|CREB_CHLVR	
+0.0004	0	79	146	sp|Q1XGE2|HAC1_ASPOR	134	200	sp|P01102|FOS_MSVFB	
+0.00052	0	79	144	sp|Q1XGE2|HAC1_ASPOR	134	198	sp|O77628|FOS_BOVIN	
+0.00035	0	78	145	sp|Q1XGE2|HAC1_ASPOR	67	134	sp|Q8WYK2|JDP2_HUMAN	
+0.00092	0	38	135	sp|Q1XGE2|HAC1_ASPOR	210	307	sp|Q60925|DBP_MOUSE	
+0.00058	0	85	125	sp|Q1XGE2|HAC1_ASPOR	74	114	sp|P14232|TGA1A_TOBAC	
+0.00092	0	38	135	sp|Q1XGE2|HAC1_ASPOR	210	307	sp|P16443|DBP_RAT	
+0.00059	0	71	131	sp|Q1XGE2|HAC1_ASPOR	50	111	sp|Q68EL6|NFIL3_DANRE	
+0.00069	0	79	144	sp|Q1XGE2|HAC1_ASPOR	134	198	sp|P01100|FOS_HUMAN	
+0.00059	0	70	133	sp|Q1XGE2|HAC1_ASPOR	175	239	sp|Q9C5Q2|AI5L3_ARATH	
+0.00083	0	71	132	sp|Q1XGE2|HAC1_ASPOR	60	122	sp|Q5FW38|NFIL3_XENTR	
+0.00076	0	79	144	sp|Q1XGE2|HAC1_ASPOR	135	199	sp|Q8HZP6|FOS_FELCA	
+0.00076	0	70	141	sp|Q1XGE2|HAC1_ASPOR	340	411	sp|Q9SJN0|ABI5_ARATH	
+0.00074	0	77	134	sp|Q1XGE2|HAC1_ASPOR	181	238	sp|P42777|GBF4_ARATH	
+0.00072	0	64	202	sp|Q1XGE2|HAC1_ASPOR	88	234	sp|P15407|FOSL1_HUMAN	
+0.00059	0	84	152	sp|Q1XGE2|HAC1_ASPOR	52	120	sp|O15525|MAFG_HUMAN	
+0.00098	0	85	133	sp|Q1XGE2|HAC1_ASPOR	427	475	sp|P40535|ACA2_YEAST	
+0.00069	0	84	174	sp|Q1XGE2|HAC1_ASPOR	52	139	sp|A7YY73|MAFF_BOVIN	
+0.075	0	110	154	sp|Q1XGE2|HAC1_ASPOR	26	70	sp|Q8PY58|PSMR_METMA	
+0.15	0	115	194	sp|Q1XGE2|HAC1_ASPOR	255	332	sp|Q8PY58|PSMR_METMA	
+0.0012	0	79	142	sp|Q1XGE2|HAC1_ASPOR	134	196	sp|Q56TN0|FOS_PHORO	
+0.0011	0	79	140	sp|Q1XGE2|HAC1_ASPOR	88	148	sp|P23050|FOS_AVINK	
+0.0011	0	68	126	sp|Q1XGE2|HAC1_ASPOR	207	268	sp|Q9LES3|AI5L2_ARATH	
+0.0014	0	66	133	sp|Q1XGE2|HAC1_ASPOR	197	264	sp|Q84JK2|FD_ARATH	
+0.0009	0	84	151	sp|Q1XGE2|HAC1_ASPOR	52	119	sp|A5PJV0|MAFG_BOVIN	
+0.0009	0	84	151	sp|Q1XGE2|HAC1_ASPOR	52	119	sp|O54790|MAFG_MOUSE	
+0.0014	0	77	131	sp|Q1XGE2|HAC1_ASPOR	90	144	sp|Q39234|TGA3_ARATH	
+0.0013	0	108	151	sp|Q1XGE2|HAC1_ASPOR	147	194	sp|P07049|CPPB_NEIGO	
+0.0015	0	79	140	sp|Q1XGE2|HAC1_ASPOR	133	193	sp|P11939|FOS_CHICK	
+0.0011	0	80	144	sp|Q1XGE2|HAC1_ASPOR	111	174	sp|P29176|FOSX_MSVFR	
+0.0011	0	84	168	sp|Q1XGE2|HAC1_ASPOR	52	133	sp|O54791|MAFF_MOUSE	
+0.075	0	110	154	sp|Q1XGE2|HAC1_ASPOR	26	70	sp|Q8TI88|PSMR_METAC	
+0.28	0	115	190	sp|Q1XGE2|HAC1_ASPOR	255	330	sp|Q8TI88|PSMR_METAC	
+0.0021	0	69	129	sp|Q1XGE2|HAC1_ASPOR	58	119	sp|O08750|NFIL3_MOUSE	
+0.0013	0	84	149	sp|Q1XGE2|HAC1_ASPOR	79	144	sp|Q76MX4|MAFG_RAT	
+0.0025	0	85	152	sp|Q1XGE2|HAC1_ASPOR	1197	1264	sp|P20482|CNC_DROME	
+0.0021	0	70	130	sp|Q1XGE2|HAC1_ASPOR	59	120	sp|Q90Z72|NFIL3_CHICK	
+0.0022	0	78	131	sp|Q1XGE2|HAC1_ASPOR	296	348	sp|Q9VWW0|CREBB_DROME	
+0.0019	0	74	164	sp|Q1XGE2|HAC1_ASPOR	19	111	sp|Q8BKJ9|SIRT7_MOUSE	
+0.0025	0	79	144	sp|Q1XGE2|HAC1_ASPOR	134	198	sp|Q56TT7|FOS_PHOCM	
+0.0023	0	69	129	sp|Q1XGE2|HAC1_ASPOR	58	119	sp|Q6IMZ0|NFIL3_RAT	
+0.00037	0	81	140	sp|Q1XGE2|HAC1_ASPOR	142	201	sp|P38749|YAP3_YEAST	
+0.0022	0	70	129	sp|Q1XGE2|HAC1_ASPOR	59	119	sp|Q08D88|NFIL3_BOVIN	
+0.0023	0	70	129	sp|Q1XGE2|HAC1_ASPOR	59	119	sp|Q16649|NFIL3_HUMAN	
+0.0026	0	80	142	sp|Q1XGE2|HAC1_ASPOR	137	199	sp|Q9C7S0|BZI60_ARATH	
+0.0022	0	74	143	sp|Q1XGE2|HAC1_ASPOR	261	327	sp|P78962|ATF21_SCHPO	
+0.0027	0	80	130	sp|Q1XGE2|HAC1_ASPOR	299	349	sp|Q1LZH5|CREM_BOVIN	
+0.0029	0	189	227	sp|Q1XGE2|HAC1_ASPOR	139	177	sp|B1MX63|THIE_LEUCK	
+0.0026	0	29	114	sp|Q1XGE2|HAC1_ASPOR	136	219	sp|Q5AVK6|NOP16_EMENI	
+0.0022	0	84	152	sp|Q1XGE2|HAC1_ASPOR	52	120	sp|Q9ULX9|MAFF_HUMAN	
+0.0023	0	90	147	sp|Q1XGE2|HAC1_ASPOR	58	112	sp|P53567|CEBPG_HUMAN	
+0.0081	0	56	167	sp|Q1XGE2|HAC1_ASPOR	412	524	sp|Q2V2M9|FHOD3_HUMAN	
+0.0028	0	80	130	sp|Q1XGE2|HAC1_ASPOR	299	349	sp|Q03060|CREM_HUMAN	
+0.0045	0	181	256	sp|Q1XGE2|HAC1_ASPOR	353	428	sp|O68007|BACB_BACLI	
+0.003	0	106	251	sp|Q1XGE2|HAC1_ASPOR	160	302	sp|Q5VPE3|HOX2_ORYSJ	
+0.003	0	106	251	sp|Q1XGE2|HAC1_ASPOR	160	302	sp|Q84U86|HOX2_ORYSI	
+0.0026	0	135	238	sp|Q1XGE2|HAC1_ASPOR	95	196	sp|Q65US7|THIE_MANSM	
+0.0034	0	36	87	sp|Q1XGE2|HAC1_ASPOR	15	67	sp|P07948|LYN_HUMAN	
+0.00042	0	21	145	sp|Q1XGE2|HAC1_ASPOR	163	287	sp|Q16534|HLF_HUMAN	
+0.0026	0	74	147	sp|Q1XGE2|HAC1_ASPOR	92	165	sp|Q9XGJ4|GGM13_GNEGN	
+0.0036	0	71	139	sp|Q1XGE2|HAC1_ASPOR	230	298	sp|P27921|JUND_CHICK	
+0.0034	0	117	205	sp|Q1XGE2|HAC1_ASPOR	218	300	sp|Q5XHX8|THEG_RAT	
+0.0034	0	76	158	sp|Q1XGE2|HAC1_ASPOR	82	163	sp|P18847|ATF3_HUMAN	
+0.0034	0	84	149	sp|Q1XGE2|HAC1_ASPOR	25	90	sp|P24068|OCS1_MAIZE	
+0.0043	0	83	197	sp|Q1XGE2|HAC1_ASPOR	173	288	sp|P20393|NR1D1_HUMAN	
+0.0039	0	69	164	sp|Q1XGE2|HAC1_ASPOR	142	236	sp|P13346|FOSB_MOUSE	
+0.0051	0	80	152	sp|Q1XGE2|HAC1_ASPOR	246	322	sp|P42775|GBF2_ARATH	
+0.0079	0	74	145	sp|Q1XGE2|HAC1_ASPOR	4	73	sp|Q09926|PCR1_SCHPO	
+0.0045	0	64	121	sp|Q1XGE2|HAC1_ASPOR	29	80	sp|P24813|YAP2_YEAST	
+0.00076	0	24	145	sp|Q1XGE2|HAC1_ASPOR	166	287	sp|Q64709|HLF_RAT	
+0.0047	0	79	120	sp|Q1XGE2|HAC1_ASPOR	425	466	sp|Q02100|SKO1_YEAST	
+0.0045	0	138	190	sp|Q1XGE2|HAC1_ASPOR	164	217	sp|P50198|LINX_PSEPA	
+0.0039	0	76	141	sp|Q1XGE2|HAC1_ASPOR	62	128	sp|Q6DGM8|JDP2_DANRE	
+0.0036	0	53	173	sp|Q1XGE2|HAC1_ASPOR	21	140	sp|A2Z0Q0|HOX25_ORYSI	
+0.0052	0	112	173	sp|Q1XGE2|HAC1_ASPOR	800	860	sp|Q9UPR3|SMG5_HUMAN	
+0.00044	0	77	131	sp|Q1XGE2|HAC1_ASPOR	183	236	sp|Q41558|HBP1C_WHEAT	
+0.005	0	74	164	sp|Q1XGE2|HAC1_ASPOR	171	246	sp|O02756|CEBPD_BOVIN	
+0.0068	0	254	299	sp|Q1XGE2|HAC1_ASPOR	713	759	sp|Q63315|CAD22_RAT	
+0.0068	0	254	299	sp|Q1XGE2|HAC1_ASPOR	713	759	sp|Q9WTP5|CAD22_MOUSE	
+1.4	0	177	224	sp|Q1XGE2|HAC1_ASPOR	2	49	sp|Q5FUV3|ATE_GLUOX	
+0.0033	0	137	193	sp|Q1XGE2|HAC1_ASPOR	48	102	sp|Q5FUV3|ATE_GLUOX	
+0.0068	0	77	132	sp|Q1XGE2|HAC1_ASPOR	190	248	sp|Q99091|CPRF3_PETCR	
+0.00051	0	23	145	sp|Q1XGE2|HAC1_ASPOR	165	287	sp|Q8BW74|HLF_MOUSE	
+0.0066	0	52	134	sp|Q1XGE2|HAC1_ASPOR	201	282	sp|Q9JLC6|TEF_MOUSE	
+0.0059	0	54	139	sp|Q1XGE2|HAC1_ASPOR	214	299	sp|Q92172|TEF_CHICK	
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/psiblast-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/psiblast-profmark.out
new file mode 100755
index 0000000..df2b96b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/psiblast-profmark.out
@@ -0,0 +1,139 @@
+2e-73	276.0	sp|P78283|SECY_VIBCH	A3CM55.1
+3e-73	275.0	sp|P43804|SECY_HAEIN	A3CM55.1
+1e-72	273.0	sp|Q9HWF5|SECY_PSEAE	A3CM55.1
+4e-71	268.0	sp|Q59912|SECY_STRGB	A3CM55.1
+5e-70	264.0	sp|Q05217|SECY_STACT	A3CM55.1
+1e-68	260.0	sp|Q59916|SECY_STRGR	A3CM55.1
+3e-68	259.0	sp|O33006|SECY_MYCLE	A3CM55.1
+4e-68	258.0	sp|P38376|SECY_CORGL	A3CM55.1
+5e-68	258.0	sp|P77964|SECY_SYNY3	A3CM55.1
+2e-67	256.0	sp|P27148|SECY_LACLC	A3CM55.1
+3e-67	255.0	sp|Q8CNF3|SECY_STAES	A3CM55.1
+3e-67	255.0	sp|Q5HM19|SECY_STAEQ	A3CM55.1
+3e-67	255.0	sp|P46785|SECY_STRCO	A3CM55.1
+4e-67	255.0	sp|P49977|SECY_STRLI	A3CM55.1
+4e-67	255.0	sp|P93690|SECY_SPIOL	A3CM55.1
+5e-67	254.0	sp|Q7A086|SECY_STAAW	A3CM55.1
+5e-67	254.0	sp|Q6G791|SECY_STAAS	A3CM55.1
+5e-67	254.0	sp|Q6GEK3|SECY_STAAR	A3CM55.1
+5e-67	254.0	sp|Q7A468|SECY_STAAN	A3CM55.1
+5e-67	254.0	sp|Q99S39|SECY_STAAM	A3CM55.1
+5e-67	254.0	sp|Q5HDX8|SECY_STAAC	A3CM55.1
+5e-67	254.0	sp|O08387|SECY_STAA8	A3CM55.1
+7e-67	254.0	sp|P58118|SECY_LACLA	A3CM55.1
+9e-67	253.0	sp|P0A5Z2|SECY_MYCTU	A3CM55.1
+9e-67	253.0	sp|P0A5Z3|SECY_MYCBO	A3CM55.1
+9e-67	253.0	sp|P43416|SECY_STRSC	A3CM55.1
+2e-66	252.0	sp|Q9XQU4|SECY_PEA	A3CM55.1
+2e-66	252.0	sp|P0AGA5|SECY_SHIFL	A3CM55.1
+2e-66	252.0	sp|P0AGA2|SECY_ECOLI	A3CM55.1
+2e-66	252.0	sp|P0AGA3|SECY_ECOL6	A3CM55.1
+2e-66	252.0	sp|P0AGA4|SECY_ECO57	A3CM55.1
+8e-66	250.0	sp|Q05207|SECY_BACLD	A3CM55.1
+8e-66	250.0	sp|O63066|SECY_MAIZE	A3CM55.1
+2e-65	249.0	sp|P16336|SECY_BACSU	A3CM55.1
+7e-65	247.0	sp|P38375|SECY_BACHD	A3CM55.1
+7e-65	247.0	sp|Q38885|SECY_ARATH	A3CM55.1
+1e-64	246.0	sp|P0A4H1|SECY_SYNP6	A3CM55.1
+1e-64	246.0	sp|P0A4H0|SECY_SYNE7	A3CM55.1
+2e-64	246.0	sp|Q6ZG25|SECY_ORYSJ	A3CM55.1
+8e-64	244.0	sp|P51297|SECY_PORPU	A3CM55.1
+1e-62	240.0	sp|O66491|SECY_AQUAE	A3CM55.1
+1e-62	240.0	sp|Q4UMQ9|SECY_RICFE	A3CM55.1
+3e-62	238.0	sp|Q68W98|SECY_RICTY	A3CM55.1
+4e-62	238.0	sp|Q92GY6|SECY_RICCN	A3CM55.1
+6e-62	238.0	sp|Q1RHP1|SECY_RICBR	A3CM55.1
+7e-62	237.0	sp|P38397|SECY_PYRSA	A3CM55.1
+9e-62	237.0	sp|Q9ZCS5|SECY_RICPR	A3CM55.1
+1e-61	236.0	sp|P28539|SECY_CHLTR	A3CM55.1
+1e-61	236.0	sp|Q1XDJ1|SECY_PORYE	A3CM55.1
+2e-60	233.0	sp|P28527|SECY_GUITH	A3CM55.1
+3e-60	231.0	sp|Q89A85|SECY_BUCBP	A3CM55.1
+6e-60	231.0	sp|P57571|SECY_BUCAI	A3CM55.1
+2e-58	226.0	sp|Q8K969|SECY_BUCAP	A3CM55.1
+9e-58	224.0	sp|Q59548|SECY_MYCPN	A3CM55.1
+2e-57	222.0	sp|Q9PJN1|SECY_CHLMU	A3CM55.1
+3e-57	222.0	sp|P33108|SECY_MICLU	A3CM55.1
+7e-57	221.0	sp|O52351|SECY_MYCGA	A3CM55.1
+2e-56	219.0	sp|P10250|SECY_MYCCT	A3CM55.1
+3e-56	218.0	sp|P47416|SECY_MYCGE	A3CM55.1
+9e-56	217.0	sp|Q9Z7S5|SECY_CHLPN	A3CM55.1
+6e-55	214.0	sp|O25879|SECY_HELPY	A3CM55.1
+7e-55	214.0	sp|Q9ZJS9|SECY_HELPJ	A3CM55.1
+6e-54	211.0	sp|O59442|SECY_PYRHO	A3CM55.1
+7e-54	211.0	sp|P49976|SECY_BUCAK	A3CM55.1
+8e-54	210.0	sp|Q870W0|SC61A_NEUCR	A3CM55.1
+1e-53	210.0	sp|Q9V1V8|SECY_PYRAB	A3CM55.1
+1e-53	210.0	sp|Q8U019|SECY_PYRFU	A3CM55.1
+3e-53	208.0	sp|Q54XK2|SC61A_DICDI	A3CM55.1
+5e-52	205.0	sp|P49461|SECY_ODOSI	A3CM55.1
+8e-52	204.0	sp|O51451|SECY_BORBU	A3CM55.1
+1e-51	203.0	sp|Q5NVM7|S61A2_PONAB	A3CM55.1
+2e-51	203.0	sp|Q96TW8|SC61A_HANAN	A3CM55.1
+2e-51	203.0	sp|P78979|SC61A_YARLI	A3CM55.1
+3e-51	202.0	sp|Q9JLR1|S61A2_MOUSE	A3CM55.1
+3e-51	202.0	sp|Q9H9S3|S61A2_HUMAN	A3CM55.1
+3e-51	202.0	sp|Q2KHX4|S61A2_BOVIN	A3CM55.1
+3e-51	202.0	sp|Q90ZM2|S61A1_DANRE	A3CM55.1
+3e-51	202.0	sp|Q8AY32|SC61A_GADOC	A3CM55.1
+4e-51	201.0	sp|Q98SN8|S61A2_ONCMY	A3CM55.1
+5e-51	201.0	sp|Q5EA68|S61A1_BOVIN	A3CM55.1
+5e-51	201.0	sp|P61621|S61A1_RAT	A3CM55.1
+5e-51	201.0	sp|Q5R5L5|S61A1_PONAB	A3CM55.1
+5e-51	201.0	sp|P61620|S61A1_MOUSE	A3CM55.1
+5e-51	201.0	sp|P61619|S61A1_HUMAN	A3CM55.1
+6e-51	201.0	sp|Q7T278|SC61A_HARAN	A3CM55.1
+6e-51	201.0	sp|Q7T277|SC61A_DISMA	A3CM55.1
+7e-51	201.0	sp|Q8AY36|SC61A_PAGBO	A3CM55.1
+7e-51	201.0	sp|Q8AY35|SC61A_NOTAN	A3CM55.1
+8e-51	201.0	sp|Q8AY34|SC61A_HEMAM	A3CM55.1
+8e-51	201.0	sp|Q90YL4|S61A2_DANRE	A3CM55.1
+9e-51	200.0	sp|Q8AY31|SC61A_BOVVA	A3CM55.1
+1e-50	200.0	sp|P38377|S61A1_CANFA	A3CM55.1
+1e-50	199.0	sp|Q9P8E3|SC61A_CANAL	A3CM55.1
+2e-50	199.0	sp|Q6FRY3|SC61A_CANGA	A3CM55.1
+2e-50	199.0	sp|Q752H7|SC61A_ASHGO	A3CM55.1
+2e-50	199.0	sp|P25014|SECY_CYAPA	A3CM55.1
+3e-50	199.0	sp|Q6CPY9|SC61A_KLULA	A3CM55.1
+4e-50	198.0	sp|Q6BN08|SC61A_DEBHA	A3CM55.1
+4e-50	198.0	sp|Q8AY33|SC61A_BORSA	A3CM55.1
+5e-50	198.0	sp|Q98SN9|S61A1_ONCMY	A3CM55.1
+1e-48	193.0	sp|P46249|SECY_CYACA	A3CM55.1
+2e-48	193.0	sp|P32915|SC61A_YEAST	A3CM55.1
+4e-48	192.0	sp|Q25147|SC61A_HALRO	A3CM55.1
+5e-48	191.0	sp|O26134|SECY_METTH	A3CM55.1
+5e-47	188.0	sp|P38379|SC61A_PYRSA	A3CM55.1
+8e-46	184.0	sp|Q37143|SECY_ANTSP	A3CM55.1
+1e-45	183.0	sp|Q60175|SECY_METJA	A3CM55.1
+3e-44	179.0	sp|P28540|SECY_PAVLU	A3CM55.1
+5e-44	178.0	sp|P79088|SC61A_SCHPO	A3CM55.1
+6e-43	174.0	sp|P28541|SECY_METVA	A3CM55.1
+5e-42	171.0	sp|Q9YDD0|SECY_AERPE	A3CM55.1
+7e-42	171.0	sp|O28377|SECY_ARCFU	A3CM55.1
+3e-40	165.0	sp|P28542|SECY_HALMA	A3CM55.1
+4e-39	162.0	sp|Q9HPB1|SECY_HALSA	A3CM55.1
+2e-37	156.0	sp|Q977V3|SECY_HALVO	A3CM55.1
+2e-32	140.0	sp|P49978|SECY_SULAC	A3CM55.1
+9e-30	131.0	sp|Q9UX84|SECY_SULSO	A3CM55.1
+7e-29	127.0	sp|P38353|SSH1_YEAST	A3CM55.1
+1e-25	117.0	sp|O42965|YGMH_SCHPO	A3CM55.1
+5e-20	99.0	sp|P72179|SECY_PARDE	A3CM55.1
+1e-12	74.0	sp|P28620|SECY_BACST	A3CM55.1
+1	34.0	sp|P0C6V7|R1AB_BEV	A3CM55.1
+1.1	34.0	sp|P0C6F3|R1A_BEV	A3CM55.1
+3.2	33.0	sp|Q49VR4|LTAS_STAS1	A3CM55.1
+3.6	33.0	sp|Q5HR16|LTAS_STAEQ	A3CM55.1
+4	32.0	sp|Q8CQ10|LTAS_STAES	A3CM55.1
+4.4	32.0	sp|Q6P6T5|OCLN_RAT	A3CM55.1
+5.7	32.0	sp|P94493|YNCC_BACSU	A3CM55.1
+6	32.0	sp|Q7A1I3|LTAS_STAAW	A3CM55.1
+6	32.0	sp|Q6GBB1|LTAS_STAAS	A3CM55.1
+6	32.0	sp|Q6GIS3|LTAS_STAAR	A3CM55.1
+6	32.0	sp|Q7A6U1|LTAS_STAAN	A3CM55.1
+6	32.0	sp|Q99VQ4|LTAS_STAAM	A3CM55.1
+6	32.0	sp|Q5HHV4|LTAS_STAAC	A3CM55.1
+6	32.0	sp|Q2G093|LTAS_STAA8	A3CM55.1
+6	32.0	sp|Q2FIS2|LTAS_STAA3	A3CM55.1
+6	32.0	sp|Q2YSL2|LTAS_STAAB	A3CM55.1
+6.7	32.0	sp|P0C6V8|R1AB_BRV1	A3CM55.1
+7.6	32.0	sp|P0C6F4|R1A_BRV1	A3CM55.1
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/psiblast-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/psiblast-tbl.out
new file mode 100755
index 0000000..b956383
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/psiblast-tbl.out
@@ -0,0 +1,139 @@
+2e-73	25	1	307	A3CM55.1	76	400	sp|P78283|SECY_VIBCH	Preprotein translocase subunit secY OS=Vibrio
+3e-73	21	1	307	A3CM55.1	76	397	sp|P43804|SECY_HAEIN	Preprotein translocase subunit secY
+1e-72	22	1	307	A3CM55.1	75	394	sp|Q9HWF5|SECY_PSEAE	Preprotein translocase subunit secY
+4e-71	22	1	299	A3CM55.1	73	391	sp|Q59912|SECY_STRGB	Preprotein translocase subunit secY
+5e-70	19	1	299	A3CM55.1	69	383	sp|Q05217|SECY_STACT	Preprotein translocase subunit secY
+1e-68	22	1	302	A3CM55.1	72	393	sp|Q59916|SECY_STRGR	Preprotein translocase subunit secY
+3e-68	20	3	323	A3CM55.1	74	418	sp|O33006|SECY_MYCLE	Preprotein translocase subunit secY
+4e-68	21	1	305	A3CM55.1	73	397	sp|P38376|SECY_CORGL	Preprotein translocase subunit secY
+5e-68	21	1	302	A3CM55.1	79	397	sp|P77964|SECY_SYNY3	Preprotein translocase subunit secY
+2e-67	22	1	308	A3CM55.1	69	397	sp|P27148|SECY_LACLC	Preprotein translocase subunit secY
+3e-67	21	1	289	A3CM55.1	69	373	sp|Q8CNF3|SECY_STAES	Preprotein translocase subunit secY
+3e-67	21	1	289	A3CM55.1	69	373	sp|Q5HM19|SECY_STAEQ	Preprotein translocase subunit secY
+3e-67	21	1	302	A3CM55.1	73	394	sp|P46785|SECY_STRCO	Preprotein translocase subunit secY
+4e-67	21	1	302	A3CM55.1	73	394	sp|P49977|SECY_STRLI	Preprotein translocase subunit secY
+4e-67	19	1	302	A3CM55.1	190	497	sp|P93690|SECY_SPIOL	Preprotein translocase subunit secY,
+5e-67	22	1	306	A3CM55.1	69	391	sp|Q7A086|SECY_STAAW	Preprotein translocase subunit secY
+5e-67	22	1	306	A3CM55.1	69	391	sp|Q6G791|SECY_STAAS	Preprotein translocase subunit secY
+5e-67	22	1	306	A3CM55.1	69	391	sp|Q6GEK3|SECY_STAAR	Preprotein translocase subunit secY
+5e-67	22	1	306	A3CM55.1	69	391	sp|Q7A468|SECY_STAAN	Preprotein translocase subunit secY
+5e-67	22	1	306	A3CM55.1	69	391	sp|Q99S39|SECY_STAAM	Preprotein translocase subunit secY
+5e-67	22	1	306	A3CM55.1	69	391	sp|Q5HDX8|SECY_STAAC	Preprotein translocase subunit secY
+5e-67	22	1	306	A3CM55.1	69	391	sp|O08387|SECY_STAA8	Preprotein translocase subunit secY
+7e-67	22	1	308	A3CM55.1	69	397	sp|P58118|SECY_LACLA	Preprotein translocase subunit secY
+9e-67	20	1	323	A3CM55.1	75	421	sp|P0A5Z2|SECY_MYCTU	Preprotein translocase subunit secY
+9e-67	20	1	323	A3CM55.1	75	421	sp|P0A5Z3|SECY_MYCBO	Preprotein translocase subunit secY
+9e-67	21	1	302	A3CM55.1	73	394	sp|P43416|SECY_STRSC	Preprotein translocase subunit secY
+2e-66	17	1	302	A3CM55.1	171	478	sp|Q9XQU4|SECY_PEA	Preprotein translocase subunit secY,
+2e-66	23	1	307	A3CM55.1	76	399	sp|P0AGA5|SECY_SHIFL	Preprotein translocase subunit secY
+2e-66	23	1	307	A3CM55.1	76	399	sp|P0AGA2|SECY_ECOLI	Preprotein translocase subunit secY
+2e-66	23	1	307	A3CM55.1	76	399	sp|P0AGA3|SECY_ECOL6	Preprotein translocase subunit secY
+2e-66	23	1	307	A3CM55.1	76	399	sp|P0AGA4|SECY_ECO57	Preprotein translocase subunit secY
+8e-66	20	1	303	A3CM55.1	68	388	sp|Q05207|SECY_BACLD	Preprotein translocase subunit secY
+8e-66	17	1	302	A3CM55.1	195	502	sp|O63066|SECY_MAIZE	Preprotein translocase subunit secY,
+2e-65	19	1	306	A3CM55.1	68	392	sp|P16336|SECY_BACSU	Preprotein translocase subunit secY
+7e-65	22	1	300	A3CM55.1	68	385	sp|P38375|SECY_BACHD	Preprotein translocase subunit secY
+7e-65	18	1	303	A3CM55.1	193	501	sp|Q38885|SECY_ARATH	Preprotein translocase subunit secY,
+1e-64	21	1	301	A3CM55.1	83	394	sp|P0A4H1|SECY_SYNP6	Preprotein translocase subunit secY
+1e-64	21	1	301	A3CM55.1	83	394	sp|P0A4H0|SECY_SYNE7	Preprotein translocase subunit secY
+2e-64	17	1	303	A3CM55.1	198	506	sp|Q6ZG25|SECY_ORYSJ	Preprotein translocase subunit secY,
+8e-64	22	1	309	A3CM55.1	62	376	sp|P51297|SECY_PORPU	Preprotein translocase subunit secY
+1e-62	23	1	307	A3CM55.1	71	393	sp|O66491|SECY_AQUAE	Preprotein translocase subunit secY OS=Aquifex
+1e-62	19	1	325	A3CM55.1	70	407	sp|Q4UMQ9|SECY_RICFE	Preprotein translocase subunit secY
+3e-62	18	1	325	A3CM55.1	70	407	sp|Q68W98|SECY_RICTY	Preprotein translocase subunit secY
+4e-62	18	1	325	A3CM55.1	70	407	sp|Q92GY6|SECY_RICCN	Preprotein translocase subunit secY
+6e-62	18	1	325	A3CM55.1	70	407	sp|Q1RHP1|SECY_RICBR	Preprotein translocase subunit secY
+7e-62	22	1	303	A3CM55.1	68	370	sp|P38397|SECY_PYRSA	Preprotein translocase subunit secY (Fragment)
+9e-62	18	1	325	A3CM55.1	70	407	sp|Q9ZCS5|SECY_RICPR	Preprotein translocase subunit secY
+1e-61	21	1	303	A3CM55.1	73	405	sp|P28539|SECY_CHLTR	Preprotein translocase subunit secY
+1e-61	22	1	309	A3CM55.1	62	376	sp|Q1XDJ1|SECY_PORYE	Preprotein translocase subunit secY
+2e-60	19	1	303	A3CM55.1	68	378	sp|P28527|SECY_GUITH	Preprotein translocase subunit secY
+3e-60	20	1	307	A3CM55.1	77	400	sp|Q89A85|SECY_BUCBP	Preprotein translocase subunit secY
+6e-60	23	1	307	A3CM55.1	76	397	sp|P57571|SECY_BUCAI	Preprotein translocase subunit secY
+2e-58	23	1	307	A3CM55.1	76	399	sp|Q8K969|SECY_BUCAP	Preprotein translocase subunit secY
+9e-58	21	3	303	A3CM55.1	85	406	sp|Q59548|SECY_MYCPN	Preprotein translocase subunit secY
+2e-57	20	1	303	A3CM55.1	73	405	sp|Q9PJN1|SECY_CHLMU	Preprotein translocase subunit secY
+3e-57	19	1	303	A3CM55.1	73	394	sp|P33108|SECY_MICLU	Preprotein translocase subunit secY
+7e-57	25	3	303	A3CM55.1	82	401	sp|O52351|SECY_MYCGA	Preprotein translocase subunit secY
+2e-56	21	1	303	A3CM55.1	93	424	sp|P10250|SECY_MYCCT	Preprotein translocase subunit secY
+3e-56	22	3	302	A3CM55.1	83	403	sp|P47416|SECY_MYCGE	Preprotein translocase subunit secY
+9e-56	20	1	303	A3CM55.1	73	405	sp|Q9Z7S5|SECY_CHLPN	Preprotein translocase subunit secY
+6e-55	23	1	307	A3CM55.1	62	382	sp|O25879|SECY_HELPY	Preprotein translocase subunit secY
+7e-55	23	1	307	A3CM55.1	62	382	sp|Q9ZJS9|SECY_HELPJ	Preprotein translocase subunit secY
+6e-54	16	1	304	A3CM55.1	72	431	sp|O59442|SECY_PYRHO	Preprotein translocase subunit secY
+7e-54	21	1	265	A3CM55.1	76	356	sp|P49976|SECY_BUCAK	Preprotein translocase subunit secY (Fragment)
+8e-54	15	1	319	A3CM55.1	76	460	sp|Q870W0|SC61A_NEUCR	Protein transport protein SEC61 subunit alpha
+1e-53	15	1	304	A3CM55.1	72	431	sp|Q9V1V8|SECY_PYRAB	Preprotein translocase subunit secY
+1e-53	16	1	304	A3CM55.1	72	431	sp|Q8U019|SECY_PYRFU	Preprotein translocase subunit secY
+3e-53	13	1	304	A3CM55.1	75	441	sp|Q54XK2|SC61A_DICDI	Protein transport protein Sec61 subunit alpha
+5e-52	22	1	303	A3CM55.1	66	383	sp|P49461|SECY_ODOSI	Preprotein translocase subunit secY
+8e-52	18	1	303	A3CM55.1	72	381	sp|O51451|SECY_BORBU	Preprotein translocase subunit secY
+1e-51	15	1	321	A3CM55.1	75	462	sp|Q5NVM7|S61A2_PONAB	Protein transport protein Sec61 subunit alpha
+2e-51	15	1	304	A3CM55.1	76	442	sp|Q96TW8|SC61A_HANAN	Protein transport protein SEC61 subunit alpha
+2e-51	13	1	303	A3CM55.1	76	441	sp|P78979|SC61A_YARLI	Protein transport protein SEC61 subunit alpha
+3e-51	15	1	321	A3CM55.1	75	462	sp|Q9JLR1|S61A2_MOUSE	Protein transport protein Sec61 subunit alpha
+3e-51	15	1	321	A3CM55.1	75	462	sp|Q9H9S3|S61A2_HUMAN	Protein transport protein Sec61 subunit alpha
+3e-51	15	1	321	A3CM55.1	75	462	sp|Q2KHX4|S61A2_BOVIN	Protein transport protein Sec61 subunit alpha
+3e-51	13	1	321	A3CM55.1	75	462	sp|Q90ZM2|S61A1_DANRE	Protein transport protein Sec61 subunit
+3e-51	13	1	321	A3CM55.1	75	462	sp|Q8AY32|SC61A_GADOC	Protein transport protein Sec61 subunit alpha
+4e-51	13	1	321	A3CM55.1	75	462	sp|Q98SN8|S61A2_ONCMY	Protein transport protein Sec61 subunit alpha
+5e-51	14	1	321	A3CM55.1	75	462	sp|Q5EA68|S61A1_BOVIN	Protein transport protein Sec61 subunit alpha
+5e-51	14	1	321	A3CM55.1	75	462	sp|P61621|S61A1_RAT	Protein transport protein Sec61 subunit alpha
+5e-51	14	1	321	A3CM55.1	75	462	sp|Q5R5L5|S61A1_PONAB	Protein transport protein Sec61 subunit alpha
+5e-51	14	1	321	A3CM55.1	75	462	sp|P61620|S61A1_MOUSE	Protein transport protein Sec61 subunit alpha
+5e-51	14	1	321	A3CM55.1	75	462	sp|P61619|S61A1_HUMAN	Protein transport protein Sec61 subunit alpha
+6e-51	13	1	321	A3CM55.1	75	462	sp|Q7T278|SC61A_HARAN	Protein transport protein Sec61 subunit alpha
+6e-51	13	1	321	A3CM55.1	75	462	sp|Q7T277|SC61A_DISMA	Protein transport protein Sec61 subunit alpha
+7e-51	13	1	321	A3CM55.1	75	462	sp|Q8AY36|SC61A_PAGBO	Protein transport protein Sec61 subunit alpha
+7e-51	13	1	321	A3CM55.1	75	462	sp|Q8AY35|SC61A_NOTAN	Protein transport protein Sec61 subunit alpha
+8e-51	14	1	321	A3CM55.1	75	462	sp|Q8AY34|SC61A_HEMAM	Protein transport protein Sec61 subunit alpha
+8e-51	14	1	321	A3CM55.1	75	462	sp|Q90YL4|S61A2_DANRE	Protein transport protein Sec61 subunit
+9e-51	13	1	321	A3CM55.1	75	462	sp|Q8AY31|SC61A_BOVVA	Protein transport protein Sec61 subunit alpha
+1e-50	14	1	321	A3CM55.1	75	462	sp|P38377|S61A1_CANFA	Protein transport protein Sec61 subunit alpha
+1e-50	15	1	304	A3CM55.1	76	442	sp|Q9P8E3|SC61A_CANAL	Protein transport protein SEC61 subunit alpha
+2e-50	14	1	304	A3CM55.1	75	442	sp|Q6FRY3|SC61A_CANGA	Protein transport protein SEC61 subunit alpha
+2e-50	13	1	304	A3CM55.1	75	443	sp|Q752H7|SC61A_ASHGO	Protein transport protein SEC61 subunit alpha
+2e-50	20	1	310	A3CM55.1	109	441	sp|P25014|SECY_CYAPA	Preprotein translocase subunit secY
+3e-50	13	1	304	A3CM55.1	75	443	sp|Q6CPY9|SC61A_KLULA	Protein transport protein SEC61 subunit alpha
+4e-50	14	1	304	A3CM55.1	76	442	sp|Q6BN08|SC61A_DEBHA	Protein transport protein SEC61 subunit alpha
+4e-50	13	1	321	A3CM55.1	75	462	sp|Q8AY33|SC61A_BORSA	Protein transport protein Sec61 subunit alpha
+5e-50	13	1	321	A3CM55.1	75	462	sp|Q98SN9|S61A1_ONCMY	Protein transport protein Sec61 subunit alpha
+1e-48	18	1	303	A3CM55.1	62	368	sp|P46249|SECY_CYACA	Preprotein translocase subunit secY
+2e-48	14	1	304	A3CM55.1	76	443	sp|P32915|SC61A_YEAST	Protein transport protein SEC61
+4e-48	15	1	321	A3CM55.1	75	461	sp|Q25147|SC61A_HALRO	Protein transport protein Sec61 subunit alpha
+5e-48	15	1	298	A3CM55.1	73	413	sp|O26134|SECY_METTH	Preprotein translocase subunit secY
+5e-47	16	1	304	A3CM55.1	78	447	sp|P38379|SC61A_PYRSA	Protein transport protein Sec61 subunit alpha
+8e-46	19	1	303	A3CM55.1	62	364	sp|Q37143|SECY_ANTSP	Preprotein translocase subunit secY
+1e-45	14	1	304	A3CM55.1	69	399	sp|Q60175|SECY_METJA	Preprotein translocase subunit secY
+3e-44	19	1	320	A3CM55.1	66	396	sp|P28540|SECY_PAVLU	Preprotein translocase subunit secY OS=Pavlova
+5e-44	13	1	304	A3CM55.1	76	442	sp|P79088|SC61A_SCHPO	Protein transport protein sec61 subunit alpha
+6e-43	14	1	304	A3CM55.1	68	400	sp|P28541|SECY_METVA	Preprotein translocase subunit secY
+5e-42	13	1	304	A3CM55.1	73	417	sp|Q9YDD0|SECY_AERPE	Preprotein translocase subunit secY
+7e-42	11	1	304	A3CM55.1	73	452	sp|O28377|SECY_ARCFU	Preprotein translocase subunit secY
+3e-40	13	1	304	A3CM55.1	73	449	sp|P28542|SECY_HALMA	Preprotein translocase subunit secY
+4e-39	12	1	304	A3CM55.1	72	450	sp|Q9HPB1|SECY_HALSA	Preprotein translocase subunit secY
+2e-37	11	1	304	A3CM55.1	73	449	sp|Q977V3|SECY_HALVO	Preprotein translocase subunit secY
+2e-32	12	1	304	A3CM55.1	74	426	sp|P49978|SECY_SULAC	Preprotein translocase subunit secY
+9e-30	13	1	304	A3CM55.1	73	432	sp|Q9UX84|SECY_SULSO	Preprotein translocase subunit secY
+7e-29	15	1	304	A3CM55.1	78	448	sp|P38353|SSH1_YEAST	Sec sixty-one protein homolog OS=Saccharomyces
+1e-25	10	1	300	A3CM55.1	76	442	sp|O42965|YGMH_SCHPO	Uncharacterized protein C19G7.17
+5e-20	18	186	297	A3CM55.1	1	111	sp|P72179|SECY_PARDE	Preprotein translocase subunit secY (Fragment)
+1e-12	35	247	303	A3CM55.1	1	57	sp|P28620|SECY_BACST	Preprotein translocase subunit secY (Fragment)
+1.0	11	135	232	A3CM55.1	3061	3154	sp|P0C6V7|R1AB_BEV	Replicase polyprotein 1ab OS=Berne virus GN=rep
+1.1	11	135	232	A3CM55.1	3061	3154	sp|P0C6F3|R1A_BEV	Replicase polyprotein 1a OS=Berne virus GN=1a PE=1
+3.2	13	70	149	A3CM55.1	11	91	sp|Q49VR4|LTAS_STAS1	Glycerol phosphate lipoteichoic acid synthase
+3.6	9	60	149	A3CM55.1	1	91	sp|Q5HR16|LTAS_STAEQ	Glycerol phosphate lipoteichoic acid synthase
+4.0	10	60	149	A3CM55.1	1	91	sp|Q8CQ10|LTAS_STAES	Glycerol phosphate lipoteichoic acid synthase
+4.4	8	42	155	A3CM55.1	142	270	sp|Q6P6T5|OCLN_RAT	Occludin OS=Rattus norvegicus GN=Ocln PE=2 SV=1
+5.7	13	44	146	A3CM55.1	332	436	sp|P94493|YNCC_BACSU	Putative metabolite transport protein yncC
+6.0	11	70	149	A3CM55.1	11	91	sp|Q7A1I3|LTAS_STAAW	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q6GBB1|LTAS_STAAS	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q6GIS3|LTAS_STAAR	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q7A6U1|LTAS_STAAN	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q99VQ4|LTAS_STAAM	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q5HHV4|LTAS_STAAC	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q2G093|LTAS_STAA8	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q2FIS2|LTAS_STAA3	Glycerol phosphate lipoteichoic acid synthase
+6.0	11	70	149	A3CM55.1	11	91	sp|Q2YSL2|LTAS_STAAB	Glycerol phosphate lipoteichoic acid synthase
+6.7	11	108	241	A3CM55.1	2926	3042	sp|P0C6V8|R1AB_BRV1	Replicase polyprotein 1ab OS=Breda virus 1 GN=rep
+7.6	11	108	241	A3CM55.1	2926	3042	sp|P0C6F4|R1A_BRV1	Replicase polyprotein 1a OS=Breda virus 1 GN=1a
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ssearch-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ssearch-profmark.out
new file mode 100755
index 0000000..748a56a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ssearch-profmark.out
@@ -0,0 +1,165 @@
+1.4e-78	292.6	sp|P55685|Y4WG_RHISN	sp|P55685|Y4WG_RHISN
+4.1	32.9	sp|Q7SY73|ABH6B_XENLA	sp|P55685|Y4WG_RHISN
+1.6e-109	397.3	sp|Q1XGE2|HAC1_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+2e-82	307.2	sp|Q8TFU8|HAC1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+1.7e-15	85.3	sp|Q8TFF3|HAC1_TRIRE	sp|Q1XGE2|HAC1_ASPOR
+4.9e-06	52.9	sp|P41546|HAC1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+0.00016	47.5	sp|O24646|HY5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.0042	43.3	sp|P17861|XBP1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0048	43.1	sp|Q3SZZ2|XBP1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0068	43.6	sp|A1L224|CR3L2_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0083	41.6	sp|Q9SM50|HY5_SOLLC	sp|Q1XGE2|HAC1_ASPOR
+0.0097	43.1	sp|Q8BH52|CR3L2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.01	43.3	sp|Q54WN7|BZPF_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.021	43.3	sp|A3LYI0|NST1_PICST	sp|Q1XGE2|HAC1_ASPOR
+0.028	41.6	sp|Q66HA2|CR3L1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.035	41.1	sp|Q3SYZ3|CR3L3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.036	41.2	sp|Q9Z125|CR3L1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.045	40.9	sp|Q96BA8|CR3L1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.045	40.9	sp|Q70SY1|CR3L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.058	40.5	sp|Q5RCM9|CR3L2_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.071	39.9	sp|Q61817|CREB3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.074	40.2	sp|A2VD01|CR3L2_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.076	39.9	sp|Q08CW8|CR3L4_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.082	40.0	sp|Q6QDP7|CR3L2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.12	38.9	sp|P13346|FOSB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.14	39.2	sp|Q91XE9|CR3L3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.14	40.7	sp|Q5A2K0|NST1_CANAL	sp|Q1XGE2|HAC1_ASPOR
+0.17	37.2	sp|Q8W191|HYH_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.17	38.3	sp|Q9TUB3|FOSB_CANFA	sp|Q1XGE2|HAC1_ASPOR
+0.19	38.7	sp|Q5FVM5|CR3L3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.2	37.8	sp|P0C5H8|KAPC_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.25	37.8	sp|P53539|FOSB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.29	37.6	sp|P79702|FOS_CYPCA	sp|Q1XGE2|HAC1_ASPOR
+0.3	39.3	sp|Q0D9R7|ARFS_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+0.32	37.1	sp|P15407|FOSL1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.37	39.0	sp|Q5B3C8|NST1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.38	38.5	sp|Q9WVS8|MK07_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.4	37.3	sp|O97930|FOS_PIG	sp|Q1XGE2|HAC1_ASPOR
+0.41	37.1	sp|Q06507|ATF4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.59	36.5	sp|Q90370|MAFB_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.59	36.5	sp|Q90888|MAFB_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.7	36.8	sp|Q68CJ9|CR3L3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.73	35.3	sp|Q09926|PCR1_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+0.74	39.8	sp|O88778|BSN_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.77	36.8	sp|Q8VCH8|UBXN4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.79	36.3	sp|Q9D2A5|CR3L4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.79	38.1	sp|A4R2R1|NST1_MAGGR	sp|Q1XGE2|HAC1_ASPOR
+0.85	36.1	sp|P18848|ATF4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.92	36.1	sp|O88479|FOS_MESAU	sp|Q1XGE2|HAC1_ASPOR
+0.94	37.1	sp|A5PKJ4|MK07_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+1	37.9	sp|Q1DQC1|PAN1_COCIM	sp|Q1XGE2|HAC1_ASPOR
+1	35.9	sp|P01101|FOS_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1	35.8	sp|Q6NW59|ATF4_DANRE	sp|Q1XGE2|HAC1_ASPOR
+1.1	37.9	sp|Q76LL6|FHOD3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.1	35.9	sp|Q8TEY5|CR3L4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.1	35.9	sp|Q99090|CPRF2_PETCR	sp|Q1XGE2|HAC1_ASPOR
+1.2	36.1	sp|Q5R9C9|ATF7_PONAB	sp|Q1XGE2|HAC1_ASPOR
+1.2	36.1	sp|P17544|ATF7_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.2	35.8	sp|Q5UEM8|CR3L4_MACFA	sp|Q1XGE2|HAC1_ASPOR
+1.3	35.4	sp|P51145|FOSL2_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.3	35.6	sp|P01100|FOS_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.4	36.6	sp|Q03173|ENAH_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.4	35.3	sp|Q9Y5Q3|MAFB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.5	34.9	sp|Q9R1S4|XBP1_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.5	35.4	sp|P01102|FOS_MSVFB	sp|Q1XGE2|HAC1_ASPOR
+1.5	34.9	sp|P10158|FOSL1_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.6	37.1	sp|Q6Y7W8|PERQ2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.6	35.1	sp|P15408|FOSL2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.7	35.4	sp|Q502F0|CR3LA_DANRE	sp|Q1XGE2|HAC1_ASPOR
+1.8	34.7	sp|A2R346|KAPC_ASPNC	sp|Q1XGE2|HAC1_ASPOR
+1.8	34.9	sp|Q2PFS4|MAFB_MACFA	sp|Q1XGE2|HAC1_ASPOR
+1.8	35.2	sp|Q8R0S1|ATF7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.9	34.6	sp|P48755|FOSL1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.9	36.1	sp|Q9UQ88|CD11A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+2	33.4	sp|Q16520|BATF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+2	34.6	sp|Q0CEI3|KAPC_ASPTN	sp|Q1XGE2|HAC1_ASPOR
+2	34.7	sp|P54842|MAFB_RAT	sp|Q1XGE2|HAC1_ASPOR
+2	35.4	sp|P29747|CREBA_DROME	sp|Q1XGE2|HAC1_ASPOR
+2	34.7	sp|P47930|FOSL2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2.1	35.1	sp|Q63ZM7|STABP_XENLA	sp|Q1XGE2|HAC1_ASPOR
+2.1	34.9	sp|Q91496|FOS_TETFL	sp|Q1XGE2|HAC1_ASPOR
+2.1	34.4	sp|O35426|XBP1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2.2	34.7	sp|Q9ES19|ATF4_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.3	34.2	sp|O02756|CEBPD_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+2.3	34.6	sp|P54841|MAFB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+2.3	34.4	sp|A1C9M5|KAPC_ASPCL	sp|Q1XGE2|HAC1_ASPOR
+2.3	34.7	sp|Q8SQ19|CREB3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+2.4	34.7	sp|O77628|FOS_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+2.4	35.7	sp|Q6NS15|MED15_XENLA	sp|Q1XGE2|HAC1_ASPOR
+2.5	33.9	sp|P94517|YSCB_BACSU	sp|Q1XGE2|HAC1_ASPOR
+2.5	34.4	sp|Q504L8|MAFB_XENTR	sp|Q1XGE2|HAC1_ASPOR
+2.5	34.2	sp|O57342|MAFA_COTJA	sp|Q1XGE2|HAC1_ASPOR
+2.7	34.6	sp|P12841|FOS_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.7	34.6	sp|Q8HZP6|FOS_FELCA	sp|Q1XGE2|HAC1_ASPOR
+2.7	34.6	sp|Q56TT7|FOS_PHOCM	sp|Q1XGE2|HAC1_ASPOR
+2.7	35.7	sp|Q2VZV0|IF2_MAGSA	sp|Q1XGE2|HAC1_ASPOR
+2.8	34.4	sp|Q3ZCH6|ATF4_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+2.8	34.9	sp|Q5HZY0|UBXN4_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.8	35.6	sp|P0C865|MK07_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.9	33.9	sp|Q9N0J3|CEBPD_SHEEP	sp|Q1XGE2|HAC1_ASPOR
+2.9	34.4	sp|Q5UEM7|CR3L4_RAT	sp|Q1XGE2|HAC1_ASPOR
+3	35.6	sp|A0JMK9|CAF1A_DANRE	sp|Q1XGE2|HAC1_ASPOR
+3.2	35.9	sp|Q96JK9|MAML3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.2	32.7	sp|Q9NR55|BATF3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.2	36.2	sp|Q9C0A6|SETD5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.4	35.2	sp|B3DM43|SOX5_XENTR	sp|Q1XGE2|HAC1_ASPOR
+3.5	35.4	sp|A5FV21|IF2_ACICJ	sp|Q1XGE2|HAC1_ASPOR
+3.6	34.0	sp|Q8K1L0|CREB5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+3.6	36.9	sp|Q9H254|SPTN4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.6	36.0	sp|B2AWS3|PAN1_PODAN	sp|Q1XGE2|HAC1_ASPOR
+4	32.7	sp|Q61827|MAFK_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+4	32.7	sp|O60675|MAFK_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.2	35.9	sp|Q4QRL3|CC88B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+4.3	33.9	sp|P53450|FOS_TAKRU	sp|Q1XGE2|HAC1_ASPOR
+4.4	37.2	sp|Q9UPA5|BSN_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+4.4	37.2	sp|O88737|BSN_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+4.5	33.5	sp|P42774|GBF1_ARATH	sp|Q1XGE2|HAC1_ASPOR
+4.6	34.9	sp|Q7ZVN7|MED15_DANRE	sp|Q1XGE2|HAC1_ASPOR
+4.6	33.4	sp|O42290|MAFA_CHICK	sp|Q1XGE2|HAC1_ASPOR
+4.7	35.2	sp|A9V549|EIF3A_MONBE	sp|Q1XGE2|HAC1_ASPOR
+4.8	32.0	sp|Q9D275|BATF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+4.8	34.4	sp|Q5RCJ1|CIP4_PONAB	sp|Q1XGE2|HAC1_ASPOR
+5	33.7	sp|O43889|CREB3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.1	32.0	sp|O35284|BATF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+5.1	33.2	sp|Q2UNX4|KAPC_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+5.1	34.0	sp|Q02930|CREB5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.2	35.0	sp|Q6P9R4|ARHGI_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+5.3	34.9	sp|Q5F489|TAF3_CHICK	sp|Q1XGE2|HAC1_ASPOR
+5.3	34.9	sp|Q5HZG4|TAF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+5.4	35.4	sp|Q9UKV3|ACINU_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+5.4	34.9	sp|Q5KGK5|EIF3A_CRYNE	sp|Q1XGE2|HAC1_ASPOR
+5.5	33.5	sp|Q56TN0|FOS_PHORO	sp|Q1XGE2|HAC1_ASPOR
+6.1	34.5	sp|Q3KQU3|MA7D1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.1	34.0	sp|Q15642|CIP4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.2	33.5	sp|Q1LYG4|CR3LB_DANRE	sp|Q1XGE2|HAC1_ASPOR
+6.4	33.0	sp|Q6DE84|MAFB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+6.6	33.0	sp|P18625|FOSL2_CHICK	sp|Q1XGE2|HAC1_ASPOR
+6.7	36.0	sp|Q3UHR0|BAHC1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+6.8	32.9	sp|Q8BW74|HLF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+6.8	32.9	sp|Q16534|HLF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.9	33.9	sp|Q9NZ53|PDXL2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.9	35.7	sp|Q7TSC1|BAT2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.1	34.0	sp|O35451|ATF6B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.2	34.0	sp|Q99941|ATF6B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+7.3	34.2	sp|Q3UIW5|RNF10_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+7.5	35.2	sp|Q6C908|PAN1_YARLI	sp|Q1XGE2|HAC1_ASPOR
+7.8	35.0	sp|Q9W705|NCOA2_XENLA	sp|Q1XGE2|HAC1_ASPOR
+7.9	34.7	sp|O60841|IF2P_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+7.9	35.7	sp|P15205|MAP1B_RAT	sp|Q1XGE2|HAC1_ASPOR
+8.3	33.2	sp|Q9M7Q3|AI5L6_ARATH	sp|Q1XGE2|HAC1_ASPOR
+8.3	33.2	sp|Q69022|EBNA2_EBVA8	sp|Q1XGE2|HAC1_ASPOR
+8.3	34.2	sp|Q9ES64|USH1C_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+8.4	32.5	sp|Q4U1U2|MAFA_XENTR	sp|Q1XGE2|HAC1_ASPOR
+8.5	33.2	sp|P29681|IMPE2_DROME	sp|Q1XGE2|HAC1_ASPOR
+8.6	34.0	sp|Q54Y73|BZPD_DICDI	sp|Q1XGE2|HAC1_ASPOR
+8.6	32.5	sp|Q64709|HLF_RAT	sp|Q1XGE2|HAC1_ASPOR
+8.8	35.3	sp|Q6MG48|BAT2_RAT	sp|Q1XGE2|HAC1_ASPOR
+9	34.2	sp|Q54HX6|MYBI_DICDI	sp|Q1XGE2|HAC1_ASPOR
+9.1	31.5	sp|Q90596|MAFK_CHICK	sp|Q1XGE2|HAC1_ASPOR
+9.2	33.7	sp|Q4VYS1|FOXP2_XENLA	sp|Q1XGE2|HAC1_ASPOR
+9.5	32.8	sp|Q54NF3|Y6434_DICDI	sp|Q1XGE2|HAC1_ASPOR
+9.5	34.7	sp|Q0CPW4|PAN1_ASPTN	sp|Q1XGE2|HAC1_ASPOR
+9.7	33.3	sp|Q8N8S7|ENAH_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+9.7	33.2	sp|Q00312|RBF1_CANAL	sp|Q1XGE2|HAC1_ASPOR
+9.9	35.2	sp|P48634|BAT2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ssearch-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ssearch-tbl.out
new file mode 100755
index 0000000..f0ec10d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/ssearch-tbl.out
@@ -0,0 +1,165 @@
+1.4e-78	100	1	181	sp|P55685|Y4WG_RHISN	1	181	sp|P55685|Y4WG_RHISN	Uncharacterized protein y4wG OS=R 
+4.1	24	41	164	sp|P55685|Y4WG_RHISN	65	189	sp|Q7SY73|ABH6B_XENLA	Monoacylglycerol lipase abhd6-B  
+1.6e-109	100	1	345	sp|Q1XGE2|HAC1_ASPOR	1	345	sp|Q1XGE2|HAC1_ASPOR	Transcriptional activator hacA OS 
+2e-82	78	13	344	sp|Q1XGE2|HAC1_ASPOR	18	348	sp|Q8TFU8|HAC1_EMENI	Transcriptional activator hacA OS 
+1.7e-15	31	7	344	sp|Q1XGE2|HAC1_ASPOR	43	450	sp|Q8TFF3|HAC1_TRIRE	Transcriptional activator hac1 OS 
+4.9e-06	32	63	270	sp|Q1XGE2|HAC1_ASPOR	16	216	sp|P41546|HAC1_YEAST	Transcriptional activator HAC1 OS 
+0.00016	31	6	167	sp|Q1XGE2|HAC1_ASPOR	3	167	sp|O24646|HY5_ARATH	Transcription factor HY5 OS=Arabid 
+0.0042	28	16	187	sp|Q1XGE2|HAC1_ASPOR	10	186	sp|P17861|XBP1_HUMAN	X-box-binding protein 1 OS=Homo s 
+0.0048	29	16	206	sp|Q1XGE2|HAC1_ASPOR	10	196	sp|Q3SZZ2|XBP1_BOVIN	X-box-binding protein 1 OS=Bos ta 
+0.0068	32	4	152	sp|Q1XGE2|HAC1_ASPOR	210	360	sp|A1L224|CR3L2_DANRE	Cyclic AMP-responsive element-bi 
+0.0083	36	60	154	sp|Q1XGE2|HAC1_ASPOR	66	157	sp|Q9SM50|HY5_SOLLC	Transcription factor HY5 OS=Solanu 
+0.0097	24	18	297	sp|Q1XGE2|HAC1_ASPOR	234	518	sp|Q8BH52|CR3L2_MOUSE	Cyclic AMP-responsive element-bi 
+0.01	24	46	270	sp|Q1XGE2|HAC1_ASPOR	363	593	sp|Q54WN7|BZPF_DICDI	Probable basic-leucine zipper tra 
+0.021	26	41	332	sp|Q1XGE2|HAC1_ASPOR	727	1001	sp|A3LYI0|NST1_PICST	Stress response protein NST1 OS=P 
+0.028	25	4	290	sp|Q1XGE2|HAC1_ASPOR	214	499	sp|Q66HA2|CR3L1_RAT	Cyclic AMP-responsive element-bind 
+0.035	26	48	275	sp|Q1XGE2|HAC1_ASPOR	213	434	sp|Q3SYZ3|CR3L3_BOVIN	Cyclic AMP-responsive element-bi 
+0.036	26	4	232	sp|Q1XGE2|HAC1_ASPOR	215	445	sp|Q9Z125|CR3L1_MOUSE	Cyclic AMP-responsive element-bi 
+0.045	26	4	232	sp|Q1XGE2|HAC1_ASPOR	215	445	sp|Q96BA8|CR3L1_HUMAN	Cyclic AMP-responsive element-bi 
+0.045	23	14	297	sp|Q1XGE2|HAC1_ASPOR	228	517	sp|Q70SY1|CR3L2_HUMAN	Cyclic AMP-responsive element-bi 
+0.058	23	14	297	sp|Q1XGE2|HAC1_ASPOR	228	517	sp|Q5RCM9|CR3L2_PONAB	Cyclic AMP-responsive element-bi 
+0.071	26	1	207	sp|Q1XGE2|HAC1_ASPOR	107	318	sp|Q61817|CREB3_MOUSE	Cyclic AMP-responsive element-bi 
+0.074	31	4	152	sp|Q1XGE2|HAC1_ASPOR	218	368	sp|A2VD01|CR3L2_XENLA	Cyclic AMP-responsive element-bi 
+0.076	26	24	200	sp|Q1XGE2|HAC1_ASPOR	160	330	sp|Q08CW8|CR3L4_XENTR	Cyclic AMP-responsive element-bi 
+0.082	23	18	297	sp|Q1XGE2|HAC1_ASPOR	234	518	sp|Q6QDP7|CR3L2_RAT	Cyclic AMP-responsive element-bind 
+0.12	25	9	222	sp|Q1XGE2|HAC1_ASPOR	76	290	sp|P13346|FOSB_MOUSE	Protein fosB OS=Mus musculus GN=F 
+0.14	27	48	258	sp|Q1XGE2|HAC1_ASPOR	214	432	sp|Q91XE9|CR3L3_MOUSE	Cyclic AMP-responsive element-bi 
+0.14	20	32	334	sp|Q1XGE2|HAC1_ASPOR	788	1145	sp|Q5A2K0|NST1_CANAL	Stress response protein NST1 OS=C 
+0.17	35	73	143	sp|Q1XGE2|HAC1_ASPOR	68	138	sp|Q8W191|HYH_ARATH	Transcription factor HY5-like OS=A 
+0.17	28	72	237	sp|Q1XGE2|HAC1_ASPOR	145	332	sp|Q9TUB3|FOSB_CANFA	Protein fosB OS=Canis familiaris  
+0.19	26	48	284	sp|Q1XGE2|HAC1_ASPOR	214	438	sp|Q5FVM5|CR3L3_RAT	Cyclic AMP-responsive element-bind 
+0.2	22	17	274	sp|Q1XGE2|HAC1_ASPOR	49	268	sp|P0C5H8|KAPC_EMENI	Putative transcription factor kap 
+0.25	25	9	222	sp|Q1XGE2|HAC1_ASPOR	76	290	sp|P53539|FOSB_HUMAN	Protein fosB OS=Homo sapiens GN=F 
+0.29	21	6	291	sp|Q1XGE2|HAC1_ASPOR	39	319	sp|P79702|FOS_CYPCA	Proto-oncogene c-Fos OS=Cyprinus c 
+0.3	22	1	237	sp|Q1XGE2|HAC1_ASPOR	530	774	sp|Q0D9R7|ARFS_ORYSJ	Auxin response factor 19 OS=Oryza 
+0.32	28	44	232	sp|Q1XGE2|HAC1_ASPOR	72	263	sp|P15407|FOSL1_HUMAN	Fos-related antigen 1 OS=Homo sa 
+0.37	24	43	340	sp|Q1XGE2|HAC1_ASPOR	528	798	sp|Q5B3C8|NST1_EMENI	Stress response protein nst1 OS=E 
+0.38	27	3	236	sp|Q1XGE2|HAC1_ASPOR	429	680	sp|Q9WVS8|MK07_MOUSE	Mitogen-activated protein kinase  
+0.4	28	9	237	sp|Q1XGE2|HAC1_ASPOR	55	297	sp|O97930|FOS_PIG	Proto-oncogene c-Fos OS=Sus scrofa G 
+0.41	28	18	160	sp|Q1XGE2|HAC1_ASPOR	212	349	sp|Q06507|ATF4_MOUSE	Cyclic AMP-dependent transcriptio 
+0.59	27	29	163	sp|Q1XGE2|HAC1_ASPOR	171	307	sp|Q90370|MAFB_COTJA	Transcription factor MafB OS=Cotu 
+0.59	27	29	163	sp|Q1XGE2|HAC1_ASPOR	171	307	sp|Q90888|MAFB_CHICK	Transcription factor MafB OS=Gall 
+0.7	26	48	236	sp|Q1XGE2|HAC1_ASPOR	218	404	sp|Q68CJ9|CR3L3_HUMAN	Cyclic AMP-responsive element-bi 
+0.73	25	74	223	sp|Q1XGE2|HAC1_ASPOR	4	163	sp|Q09926|PCR1_SCHPO	Transcription factor pcr1 OS=Schi 
+0.74	26	15	236	sp|Q1XGE2|HAC1_ASPOR	2294	2524	sp|O88778|BSN_RAT	Protein bassoon OS=Rattus norvegicus 
+0.77	22	19	337	sp|Q1XGE2|HAC1_ASPOR	146	459	sp|Q8VCH8|UBXN4_MOUSE	UBX domain-containing protein 4  
+0.79	29	18	146	sp|Q1XGE2|HAC1_ASPOR	119	256	sp|Q9D2A5|CR3L4_MOUSE	Cyclic AMP-responsive element-bi 
+0.79	22	43	227	sp|Q1XGE2|HAC1_ASPOR	675	868	sp|A4R2R1|NST1_MAGGR	Stress response protein NST1 OS=M 
+0.85	31	66	160	sp|Q1XGE2|HAC1_ASPOR	258	351	sp|P18848|ATF4_HUMAN	Cyclic AMP-dependent transcriptio 
+0.92	25	2	237	sp|Q1XGE2|HAC1_ASPOR	57	298	sp|O88479|FOS_MESAU	Proto-oncogene c-Fos OS=Mesocricet 
+0.94	27	3	236	sp|Q1XGE2|HAC1_ASPOR	429	655	sp|A5PKJ4|MK07_BOVIN	Mitogen-activated protein kinase  
+1	23	5	265	sp|Q1XGE2|HAC1_ASPOR	989	1264	sp|Q1DQC1|PAN1_COCIM	Actin cytoskeleton-regulatory com 
+1	25	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|P01101|FOS_MOUSE	Proto-oncogene c-Fos OS=Mus muscul 
+1	22	18	154	sp|Q1XGE2|HAC1_ASPOR	204	338	sp|Q6NW59|ATF4_DANRE	Cyclic AMP-dependent transcriptio 
+1.1	25	7	235	sp|Q1XGE2|HAC1_ASPOR	509	759	sp|Q76LL6|FHOD3_MOUSE	FH1/FH2 domain-containing protei 
+1.1	29	54	199	sp|Q1XGE2|HAC1_ASPOR	192	329	sp|Q8TEY5|CR3L4_HUMAN	Cyclic AMP-responsive element-bi 
+1.1	28	80	198	sp|Q1XGE2|HAC1_ASPOR	195	312	sp|Q99090|CPRF2_PETCR	Light-inducible protein CPRF2 OS 
+1.2	26	26	168	sp|Q1XGE2|HAC1_ASPOR	277	424	sp|Q5R9C9|ATF7_PONAB	Cyclic AMP-dependent transcriptio 
+1.2	26	26	168	sp|Q1XGE2|HAC1_ASPOR	288	435	sp|P17544|ATF7_HUMAN	Cyclic AMP-dependent transcriptio 
+1.2	29	54	199	sp|Q1XGE2|HAC1_ASPOR	192	329	sp|Q5UEM8|CR3L4_MACFA	Cyclic AMP-responsive element-bi 
+1.3	23	12	216	sp|Q1XGE2|HAC1_ASPOR	38	261	sp|P51145|FOSL2_RAT	Fos-related antigen 2 OS=Rattus no 
+1.3	28	9	237	sp|Q1XGE2|HAC1_ASPOR	55	297	sp|P01100|FOS_HUMAN	Proto-oncogene c-Fos OS=Homo sapie 
+1.4	25	9	254	sp|Q1XGE2|HAC1_ASPOR	105	350	sp|Q03173|ENAH_MOUSE	Protein enabled homolog OS=Mus mu 
+1.4	28	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|Q9Y5Q3|MAFB_HUMAN	Transcription factor MafB OS=Homo 
+1.5	27	51	190	sp|Q1XGE2|HAC1_ASPOR	23	183	sp|Q9R1S4|XBP1_RAT	X-box-binding protein 1 OS=Rattus n 
+1.5	25	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|P01102|FOS_MSVFB	p55-v-Fos-transforming protein OS= 
+1.5	27	44	232	sp|Q1XGE2|HAC1_ASPOR	74	267	sp|P10158|FOSL1_RAT	Fos-related antigen 1 OS=Rattus no 
+1.6	24	13	267	sp|Q1XGE2|HAC1_ASPOR	284	545	sp|Q6Y7W8|PERQ2_MOUSE	PERQ amino acid-rich with GYF do 
+1.6	24	4	222	sp|Q1XGE2|HAC1_ASPOR	39	253	sp|P15408|FOSL2_HUMAN	Fos-related antigen 2 OS=Homo sa 
+1.7	26	8	199	sp|Q1XGE2|HAC1_ASPOR	138	322	sp|Q502F0|CR3LA_DANRE	Cyclic AMP-responsive element-bi 
+1.8	22	16	223	sp|Q1XGE2|HAC1_ASPOR	44	236	sp|A2R346|KAPC_ASPNC	Putative transcription factor kap 
+1.8	28	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|Q2PFS4|MAFB_MACFA	Transcription factor MafB OS=Maca 
+1.8	27	26	143	sp|Q1XGE2|HAC1_ASPOR	277	392	sp|Q8R0S1|ATF7_MOUSE	Cyclic AMP-dependent transcriptio 
+1.9	26	44	232	sp|Q1XGE2|HAC1_ASPOR	72	265	sp|P48755|FOSL1_MOUSE	Fos-related antigen 1 OS=Mus mus 
+1.9	28	42	208	sp|Q1XGE2|HAC1_ASPOR	92	255	sp|Q9UQ88|CD11A_HUMAN	Cell division protein kinase 11A 
+2	28	71	172	sp|Q1XGE2|HAC1_ASPOR	17	125	sp|Q16520|BATF_HUMAN	Basic leucine zipper transcriptio 
+2	23	14	223	sp|Q1XGE2|HAC1_ASPOR	37	240	sp|Q0CEI3|KAPC_ASPTN	Putative transcription factor kap 
+2	27	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|P54842|MAFB_RAT	Transcription factor MafB OS=Rattus 
+2	30	8	150	sp|Q1XGE2|HAC1_ASPOR	370	508	sp|P29747|CREBA_DROME	Cyclic AMP response element-bind 
+2	24	4	216	sp|Q1XGE2|HAC1_ASPOR	39	260	sp|P47930|FOSL2_MOUSE	Fos-related antigen 2 OS=Mus mus 
+2.1	29	39	210	sp|Q1XGE2|HAC1_ASPOR	79	238	sp|Q63ZM7|STABP_XENLA	STAM-binding protein-like OS=Xen 
+2.1	24	15	248	sp|Q1XGE2|HAC1_ASPOR	47	278	sp|Q91496|FOS_TETFL	Proto-oncogene c-Fos OS=Tetraodon  
+2.1	27	51	190	sp|Q1XGE2|HAC1_ASPOR	23	183	sp|O35426|XBP1_MOUSE	X-box-binding protein 1 OS=Mus mu 
+2.2	30	66	160	sp|Q1XGE2|HAC1_ASPOR	255	347	sp|Q9ES19|ATF4_RAT	Cyclic AMP-dependent transcription  
+2.3	26	19	163	sp|Q1XGE2|HAC1_ASPOR	119	245	sp|O02756|CEBPD_BOVIN	CCAAT/enhancer-binding protein d 
+2.3	27	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|P54841|MAFB_MOUSE	Transcription factor MafB OS=Mus  
+2.3	20	66	223	sp|Q1XGE2|HAC1_ASPOR	83	237	sp|A1C9M5|KAPC_ASPCL	Putative transcription factor kap 
+2.3	25	20	221	sp|Q1XGE2|HAC1_ASPOR	105	301	sp|Q8SQ19|CREB3_BOVIN	Cyclic AMP-responsive element-bi 
+2.4	24	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|O77628|FOS_BOVIN	Proto-oncogene c-Fos OS=Bos taurus 
+2.4	20	30	297	sp|Q1XGE2|HAC1_ASPOR	282	540	sp|Q6NS15|MED15_XENLA	Mediator of RNA polymerase II tr 
+2.5	26	7	183	sp|Q1XGE2|HAC1_ASPOR	28	188	sp|P94517|YSCB_BACSU	Uncharacterized protein yscB OS=B 
+2.5	26	29	163	sp|Q1XGE2|HAC1_ASPOR	176	312	sp|Q504L8|MAFB_XENTR	Transcription factor MafB OS=Xeno 
+2.5	34	83	167	sp|Q1XGE2|HAC1_ASPOR	201	281	sp|O57342|MAFA_COTJA	Transcription factor MafA OS=Cotu 
+2.7	27	8	237	sp|Q1XGE2|HAC1_ASPOR	54	297	sp|P12841|FOS_RAT	Proto-oncogene c-Fos OS=Rattus norve 
+2.7	26	9	237	sp|Q1XGE2|HAC1_ASPOR	55	298	sp|Q8HZP6|FOS_FELCA	Proto-oncogene c-Fos OS=Felis catu 
+2.7	23	2	291	sp|Q1XGE2|HAC1_ASPOR	57	353	sp|Q56TT7|FOS_PHOCM	Proto-oncogene c-Fos OS=Phodopus c 
+2.7	33	16	119	sp|Q1XGE2|HAC1_ASPOR	188	291	sp|Q2VZV0|IF2_MAGSA	Translation initiation factor IF-2 
+2.8	27	19	154	sp|Q1XGE2|HAC1_ASPOR	210	342	sp|Q3ZCH6|ATF4_BOVIN	Cyclic AMP-dependent transcriptio 
+2.8	24	73	337	sp|Q1XGE2|HAC1_ASPOR	200	459	sp|Q5HZY0|UBXN4_RAT	UBX domain-containing protein 4 OS 
+2.8	26	3	236	sp|Q1XGE2|HAC1_ASPOR	429	680	sp|P0C865|MK07_RAT	Mitogen-activated protein kinase 7  
+2.9	26	19	163	sp|Q1XGE2|HAC1_ASPOR	118	244	sp|Q9N0J3|CEBPD_SHEEP	CCAAT/enhancer-binding protein d 
+2.9	33	60	146	sp|Q1XGE2|HAC1_ASPOR	170	252	sp|Q5UEM7|CR3L4_RAT	Cyclic AMP-responsive element-bind 
+3	25	1	215	sp|Q1XGE2|HAC1_ASPOR	208	432	sp|A0JMK9|CAF1A_DANRE	Chromatin assembly factor 1 subu 
+3.2	22	8	250	sp|Q1XGE2|HAC1_ASPOR	390	619	sp|Q96JK9|MAML3_HUMAN	Mastermind-like protein 3 OS=Hom 
+3.2	28	69	145	sp|Q1XGE2|HAC1_ASPOR	21	97	sp|Q9NR55|BATF3_HUMAN	Basic leucine zipper transcripti 
+3.2	21	2	331	sp|Q1XGE2|HAC1_ASPOR	410	760	sp|Q9C0A6|SETD5_HUMAN	SET domain-containing protein 5  
+3.4	23	95	327	sp|Q1XGE2|HAC1_ASPOR	224	436	sp|B3DM43|SOX5_XENTR	Transcription factor Sox-5 OS=Xen 
+3.5	26	41	255	sp|Q1XGE2|HAC1_ASPOR	41	271	sp|A5FV21|IF2_ACICJ	Translation initiation factor IF-2 
+3.6	27	52	168	sp|Q1XGE2|HAC1_ASPOR	194	315	sp|Q8K1L0|CREB5_MOUSE	Cyclic AMP-responsive element-bi 
+3.6	22	6	203	sp|Q1XGE2|HAC1_ASPOR	2186	2384	sp|Q9H254|SPTN4_HUMAN	Spectrin beta chain, brain 3 OS= 
+3.6	23	16	333	sp|Q1XGE2|HAC1_ASPOR	1015	1335	sp|B2AWS3|PAN1_PODAN	Actin cytoskeleton-regulatory com 
+4	26	47	193	sp|Q1XGE2|HAC1_ASPOR	5	156	sp|Q61827|MAFK_MOUSE	Transcription factor MafK OS=Mus  
+4	26	47	193	sp|Q1XGE2|HAC1_ASPOR	5	156	sp|O60675|MAFK_HUMAN	Transcription factor MafK OS=Homo 
+4.2	28	6	180	sp|Q1XGE2|HAC1_ASPOR	281	460	sp|Q4QRL3|CC88B_MOUSE	Coiled-coil domain-containing pr 
+4.3	25	15	248	sp|Q1XGE2|HAC1_ASPOR	48	279	sp|P53450|FOS_TAKRU	Proto-oncogene c-Fos OS=Takifugu r 
+4.4	25	16	189	sp|Q1XGE2|HAC1_ASPOR	2328	2510	sp|Q9UPA5|BSN_HUMAN	Protein bassoon OS=Homo sapiens GN 
+4.4	24	16	189	sp|Q1XGE2|HAC1_ASPOR	2336	2518	sp|O88737|BSN_MOUSE	Protein bassoon OS=Mus musculus GN 
+4.5	30	31	149	sp|Q1XGE2|HAC1_ASPOR	176	296	sp|P42774|GBF1_ARATH	G-box-binding factor 1 OS=Arabido 
+4.6	20	58	297	sp|Q1XGE2|HAC1_ASPOR	322	573	sp|Q7ZVN7|MED15_DANRE	Mediator of RNA polymerase II tr 
+4.6	33	85	167	sp|Q1XGE2|HAC1_ASPOR	201	281	sp|O42290|MAFA_CHICK	Transcription factor MafA OS=Gall 
+4.7	27	41	231	sp|Q1XGE2|HAC1_ASPOR	770	966	sp|A9V549|EIF3A_MONBE	Eukaryotic translation initiatio 
+4.8	33	83	145	sp|Q1XGE2|HAC1_ASPOR	28	90	sp|Q9D275|BATF3_MOUSE	Basic leucine zipper transcripti 
+4.8	25	29	186	sp|Q1XGE2|HAC1_ASPOR	294	463	sp|Q5RCJ1|CIP4_PONAB	Cdc42-interacting protein 4 OS=Po 
+5	30	63	185	sp|Q1XGE2|HAC1_ASPOR	159	282	sp|O43889|CREB3_HUMAN	Cyclic AMP-responsive element-bi 
+5.1	28	71	160	sp|Q1XGE2|HAC1_ASPOR	17	103	sp|O35284|BATF_MOUSE	Basic leucine zipper transcriptio 
+5.1	24	16	223	sp|Q1XGE2|HAC1_ASPOR	44	237	sp|Q2UNX4|KAPC_ASPOR	Putative transcription factor kap 
+5.1	27	52	168	sp|Q1XGE2|HAC1_ASPOR	345	466	sp|Q02930|CREB5_HUMAN	Cyclic AMP-responsive element-bi 
+5.2	24	9	250	sp|Q1XGE2|HAC1_ASPOR	628	858	sp|Q6P9R4|ARHGI_MOUSE	Rho guanine nucleotide exchange  
+5.3	26	14	232	sp|Q1XGE2|HAC1_ASPOR	662	845	sp|Q5F489|TAF3_CHICK	Transcription initiation factor T 
+5.3	27	14	203	sp|Q1XGE2|HAC1_ASPOR	664	845	sp|Q5HZG4|TAF3_MOUSE	Transcription initiation factor T 
+5.4	25	46	283	sp|Q1XGE2|HAC1_ASPOR	294	535	sp|Q9UKV3|ACINU_HUMAN	Apoptotic chromatin condensation 
+5.4	30	48	230	sp|Q1XGE2|HAC1_ASPOR	735	930	sp|Q5KGK5|EIF3A_CRYNE	Eukaryotic translation initiatio 
+5.5	23	2	291	sp|Q1XGE2|HAC1_ASPOR	57	353	sp|Q56TN0|FOS_PHORO	Proto-oncogene c-Fos OS=Phodopus r 
+6.1	24	16	258	sp|Q1XGE2|HAC1_ASPOR	555	812	sp|Q3KQU3|MA7D1_HUMAN	MAP7 domain-containing protein 1 
+6.1	22	29	272	sp|Q1XGE2|HAC1_ASPOR	294	542	sp|Q15642|CIP4_HUMAN	Cdc42-interacting protein 4 OS=Ho 
+6.2	25	25	199	sp|Q1XGE2|HAC1_ASPOR	161	322	sp|Q1LYG4|CR3LB_DANRE	Cyclic AMP-responsive element-bi 
+6.4	26	29	163	sp|Q1XGE2|HAC1_ASPOR	171	309	sp|Q6DE84|MAFB_XENLA	Transcription factor MafB OS=Xeno 
+6.6	24	68	271	sp|Q1XGE2|HAC1_ASPOR	108	311	sp|P18625|FOSL2_CHICK	Fos-related antigen 2 OS=Gallus  
+6.7	23	8	338	sp|Q1XGE2|HAC1_ASPOR	860	1230	sp|Q3UHR0|BAHC1_MOUSE	BAH and coiled-coil domain-conta 
+6.8	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q8BW74|HLF_MOUSE	Hepatic leukemia factor OS=Mus mus 
+6.8	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q16534|HLF_HUMAN	Hepatic leukemia factor OS=Homo sa 
+6.9	25	32	294	sp|Q1XGE2|HAC1_ASPOR	107	375	sp|Q9NZ53|PDXL2_HUMAN	Podocalyxin-like protein 2 OS=Ho 
+6.9	27	18	222	sp|Q1XGE2|HAC1_ASPOR	378	571	sp|Q7TSC1|BAT2_MOUSE	Large proline-rich protein BAT2 O 
+7.1	23	16	241	sp|Q1XGE2|HAC1_ASPOR	259	500	sp|O35451|ATF6B_MOUSE	Cyclic AMP-dependent transcripti 
+7.2	24	17	241	sp|Q1XGE2|HAC1_ASPOR	260	503	sp|Q99941|ATF6B_HUMAN	Cyclic AMP-dependent transcripti 
+7.3	24	80	285	sp|Q1XGE2|HAC1_ASPOR	588	784	sp|Q3UIW5|RNF10_MOUSE	RING finger protein 10 OS=Mus mu 
+7.5	26	16	311	sp|Q1XGE2|HAC1_ASPOR	1113	1403	sp|Q6C908|PAN1_YARLI	Actin cytoskeleton-regulatory com 
+7.8	22	61	333	sp|Q1XGE2|HAC1_ASPOR	1188	1460	sp|Q9W705|NCOA2_XENLA	Nuclear receptor coactivator 2 O 
+7.9	24	7	183	sp|Q1XGE2|HAC1_ASPOR	282	455	sp|O60841|IF2P_HUMAN	Eukaryotic translation initiation 
+7.9	21	12	323	sp|Q1XGE2|HAC1_ASPOR	595	900	sp|P15205|MAP1B_RAT	Microtubule-associated protein 1B  
+8.3	31	14	145	sp|Q1XGE2|HAC1_ASPOR	291	435	sp|Q9M7Q3|AI5L6_ARATH	ABSCISIC ACID-INSENSITIVE 5-like 
+8.3	24	10	209	sp|Q1XGE2|HAC1_ASPOR	236	424	sp|Q69022|EBNA2_EBVA8	Epstein-Barr nuclear antigen 2 O 
+8.3	23	15	333	sp|Q1XGE2|HAC1_ASPOR	386	687	sp|Q9ES64|USH1C_MOUSE	Harmonin OS=Mus musculus GN=Ush1 
+8.4	30	83	167	sp|Q1XGE2|HAC1_ASPOR	203	284	sp|Q4U1U2|MAFA_XENTR	Transcription factor MafA OS=Xeno 
+8.5	25	8	181	sp|Q1XGE2|HAC1_ASPOR	14	192	sp|P29681|IMPE2_DROME	20-hydroxyecdysone protein OS=Dr 
+8.6	26	10	157	sp|Q1XGE2|HAC1_ASPOR	315	458	sp|Q54Y73|BZPD_DICDI	Probable basic-leucine zipper tra 
+8.6	29	16	148	sp|Q1XGE2|HAC1_ASPOR	163	290	sp|Q64709|HLF_RAT	Hepatic leukemia factor OS=Rattus no 
+8.8	24	18	229	sp|Q1XGE2|HAC1_ASPOR	378	575	sp|Q6MG48|BAT2_RAT	Large proline-rich protein BAT2 OS= 
+9	17	36	252	sp|Q1XGE2|HAC1_ASPOR	628	845	sp|Q54HX6|MYBI_DICDI	Myb-like protein I OS=Dictyosteli 
+9.1	25	47	193	sp|Q1XGE2|HAC1_ASPOR	5	156	sp|Q90596|MAFK_CHICK	Transcription factor MafK OS=Gall 
+9.2	20	10	321	sp|Q1XGE2|HAC1_ASPOR	36	373	sp|Q4VYS1|FOXP2_XENLA	Forkhead box protein P2 OS=Xenop 
+9.5	18	22	170	sp|Q1XGE2|HAC1_ASPOR	171	321	sp|Q54NF3|Y6434_DICDI	Uncharacterized protein DDB_G028 
+9.5	24	16	268	sp|Q1XGE2|HAC1_ASPOR	1032	1284	sp|Q0CPW4|PAN1_ASPTN	Actin cytoskeleton-regulatory com 
+9.7	31	35	142	sp|Q1XGE2|HAC1_ASPOR	111	219	sp|Q8N8S7|ENAH_HUMAN	Protein enabled homolog OS=Homo s 
+9.7	23	36	229	sp|Q1XGE2|HAC1_ASPOR	263	449	sp|Q00312|RBF1_CANAL	Transcription factor RBF1 OS=Cand 
+9.9	27	18	228	sp|Q1XGE2|HAC1_ASPOR	380	575	sp|P48634|BAT2_HUMAN	Large proline-rich protein BAT2 O 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/wu-blastp-profmark.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/wu-blastp-profmark.out
new file mode 100755
index 0000000..0ae92c3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/wu-blastp-profmark.out
@@ -0,0 +1,506 @@
+0	897.0	sp|P55685|Y4WG_RHISN	sp|P55685|Y4WG_RHISN
+1.34707	60.0	sp|Q07074|YH007_YEAST	sp|P55685|Y4WG_RHISN
+5.29832	74.0	sp|Q8XVA0|Y2931_RALSO	sp|P55685|Y4WG_RHISN
+5.29832	74.0	sp|P33890|TIR2_YEAST	sp|P55685|Y4WG_RHISN
+5.52146	78.0	sp|A7HGP8|CH602_ANADF	sp|P55685|Y4WG_RHISN
+9.21034	58.0	sp|Q608F1|Y1541_METCA	sp|P55685|Y4WG_RHISN
+0	1765.0	sp|Q1XGE2|HAC1_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+0	1348.0	sp|Q8TFU8|HAC1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0	303.0	sp|Q8TFF3|HAC1_TRIRE	sp|Q1XGE2|HAC1_ASPOR
+9.30367e-14	184.0	sp|P41546|HAC1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+3.39995e-12	170.0	sp|O24646|HY5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+7e-09	140.0	sp|Q9SM50|HY5_SOLLC	sp|Q1XGE2|HAC1_ASPOR
+3.2e-08	150.0	sp|Q3SZZ2|XBP1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+3.2e-08	150.0	sp|P17861|XBP1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+3.7e-08	156.0	sp|A1L224|CR3L2_DANRE	sp|Q1XGE2|HAC1_ASPOR
+1.9e-07	127.0	sp|Q8W191|HYH_ARATH	sp|Q1XGE2|HAC1_ASPOR
+9.6e-07	148.0	sp|A3LYI0|NST1_PICST	sp|Q1XGE2|HAC1_ASPOR
+6.40002e-06	136.0	sp|Q70SY1|CR3L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.40002e-06	136.0	sp|Q5RCM9|CR3L2_PONAB	sp|Q1XGE2|HAC1_ASPOR
+6.50002e-06	136.0	sp|Q8BH52|CR3L2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.20001e-05	132.0	sp|Q61817|CREB3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.40001e-05	133.0	sp|A2VD01|CR3L2_XENLA	sp|Q1XGE2|HAC1_ASPOR
+2.30003e-05	131.0	sp|Q66HA2|CR3L1_RAT	sp|Q1XGE2|HAC1_ASPOR
+2.40003e-05	132.0	sp|Q54WN7|BZPF_DICDI	sp|Q1XGE2|HAC1_ASPOR
+3.00005e-05	130.0	sp|Q9Z125|CR3L1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+6.00018e-05	104.0	sp|Q9NR55|BATF3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+6.00018e-05	104.0	sp|Q9D275|BATF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+6.4002e-05	127.0	sp|Q96BA8|CR3L1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+7.20026e-05	136.0	sp|O88778|BSN_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.000110006	125.0	sp|Q6QDP7|CR3L2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.000120007	127.0	sp|Q9WVS8|MK07_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.000130008	123.0	sp|Q08CW8|CR3L4_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.000160013	100.0	sp|Q16520|BATF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.000170014	121.0	sp|Q9D2A5|CR3L4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00020002	121.0	sp|Q99090|CPRF2_PETCR	sp|Q1XGE2|HAC1_ASPOR
+0.000210022	99.0	sp|P97876|BATF3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.000290042	125.0	sp|Q5B3C8|NST1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.000300045	115.0	sp|Q91XE9|CR3L3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.000320051	120.0	sp|Q3SYZ3|CR3L3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.000320051	118.0	sp|Q6NW59|ATF4_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.000320051	116.0	sp|Q9R1S4|XBP1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.000340058	118.0	sp|Q06507|ATF4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.000440097	117.0	sp|P18848|ATF4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.000440097	96.0	sp|O35284|BATF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00053014	116.0	sp|P13346|FOSB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.000590174	115.0	sp|Q90888|MAFB_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.000590174	115.0	sp|Q90370|MAFB_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.000710252	113.0	sp|O35426|XBP1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.000840353	114.0	sp|P51145|FOSL2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.000890396	116.0	sp|Q68CJ9|CR3L3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.000970471	121.0	sp|A4R2R1|NST1_MAGGR	sp|Q1XGE2|HAC1_ASPOR
+0.00110061	112.0	sp|O57342|MAFA_COTJA	sp|Q1XGE2|HAC1_ASPOR
+0.00120072	103.0	sp|O60675|MAFK_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00120072	111.0	sp|P15407|FOSL1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00140098	115.0	sp|Q5FVM5|CR3L3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00150113	117.0	sp|Q03173|ENAH_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00150113	112.0	sp|P53539|FOSB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00160128	117.0	sp|Q2VZV0|IF2_MAGSA	sp|Q1XGE2|HAC1_ASPOR
+0.00170145	102.0	sp|Q61827|MAFK_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00180162	117.0	sp|P29747|CREBA_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.00190181	112.0	sp|O88479|FOS_MESAU	sp|Q1XGE2|HAC1_ASPOR
+0.00190181	111.0	sp|Q9TUB3|FOSB_CANFA	sp|Q1XGE2|HAC1_ASPOR
+0.002002	112.0	sp|Q8TEY5|CR3L4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.002002	112.0	sp|Q5UEM8|CR3L4_MACFA	sp|Q1XGE2|HAC1_ASPOR
+0.002002	111.0	sp|Q9ES19|ATF4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.002002	111.0	sp|P79702|FOS_CYPCA	sp|Q1XGE2|HAC1_ASPOR
+0.00210221	114.0	sp|Q8N8S7|ENAH_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00230265	110.0	sp|P47930|FOSL2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00270365	112.0	sp|Q5R9C9|ATF7_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.00280393	112.0	sp|P17544|ATF7_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00300451	109.0	sp|Q9Y5Q3|MAFB_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00320513	118.0	sp|Q9UQ88|CD11A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00330546	110.0	sp|O43889|CREB3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00340579	109.0	sp|Q3ZCH6|ATF4_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.00350614	110.0	sp|Q8R0S1|ATF7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00370686	108.0	sp|P42774|GBF1_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.00380724	109.0	sp|Q8SQ19|CREB3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.00380724	111.0	sp|Q5UEM7|CR3L4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00390762	108.0	sp|P54842|MAFB_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00390762	113.0	sp|A5PKJ4|MK07_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.00400802	109.0	sp|P01101|FOS_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00451016	113.0	sp|O13024|INCEA_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.00501254	107.0	sp|Q2PFS4|MAFB_MACFA	sp|Q1XGE2|HAC1_ASPOR
+0.00501254	113.0	sp|Q5KGK5|EIF3A_CRYNE	sp|Q1XGE2|HAC1_ASPOR
+0.00511305	108.0	sp|O97930|FOS_PIG	sp|Q1XGE2|HAC1_ASPOR
+0.00511305	108.0	sp|P01102|FOS_MSVFB	sp|Q1XGE2|HAC1_ASPOR
+0.00571631	100.0	sp|Q09926|PCR1_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+0.0062193	98.0	sp|Q90596|MAFK_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.0062193	106.0	sp|Q504L8|MAFB_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.00652122	114.0	sp|Q1DQC1|PAN1_COCIM	sp|Q1XGE2|HAC1_ASPOR
+0.00652122	106.0	sp|P54841|MAFB_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00783058	113.0	sp|Q5A2K0|NST1_CANAL	sp|Q1XGE2|HAC1_ASPOR
+0.00793137	108.0	sp|Q8VCH8|UBXN4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00793137	107.0	sp|Q502F0|CR3LA_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.00803217	104.0	sp|P10158|FOSL1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00813298	98.0	sp|P97875|JDP2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.00813298	98.0	sp|Q78E65|JDP2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.00853633	105.0	sp|P15408|FOSL2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.00873807	104.0	sp|O42290|MAFA_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.0100503	103.0	sp|A1C9M5|KAPC_ASPCL	sp|Q1XGE2|HAC1_ASPOR
+0.0110609	109.0	sp|P0C865|MK07_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0130852	109.0	sp|Q15424|SAFB1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0140989	110.0	sp|O60841|IF2P_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0140989	110.0	sp|Q5RDE1|IF2P_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.0140989	105.0	sp|Q9M7Q3|AI5L6_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.0151136	109.0	sp|A9V549|EIF3A_MONBE	sp|Q1XGE2|HAC1_ASPOR
+0.0161294	110.0	sp|Q9UKV3|ACINU_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0161294	104.0	sp|Q63ZM7|STABP_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.018164	110.0	sp|Q4QRL3|CC88B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.018164	103.0	sp|P01100|FOS_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.018164	103.0	sp|P12841|FOS_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0191828	96.0	sp|P19880|YAP1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+0.0191828	108.0	sp|Q8CH25|SLTM_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0191828	108.0	sp|Q9NWH9|SLTM_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0202027	101.0	sp|Q16534|HLF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0202027	101.0	sp|Q8BW74|HLF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0212236	107.0	sp|Q6CBW0|NST1_YARLI	sp|Q1XGE2|HAC1_ASPOR
+0.0222456	105.0	sp|Q498L2|SLTM_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.0232686	89.0	sp|Q1E554|CGR1_COCIM	sp|Q1XGE2|HAC1_ASPOR
+0.0232686	102.0	sp|Q91496|FOS_TETFL	sp|Q1XGE2|HAC1_ASPOR
+0.0232686	98.0	sp|Q9ESN9|JIP3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0232686	102.0	sp|P53450|FOS_TAKRU	sp|Q1XGE2|HAC1_ASPOR
+0.0232686	106.0	sp|Q05682|CALD1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0242927	102.0	sp|O77628|FOS_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0242927	102.0	sp|Q56TT7|FOS_PHOCM	sp|Q1XGE2|HAC1_ASPOR
+0.0242927	100.0	sp|Q0CEI3|KAPC_ASPTN	sp|Q1XGE2|HAC1_ASPOR
+0.0242927	107.0	sp|Q6P9R4|ARHGI_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0253178	103.0	sp|P29681|IMPE2_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.0253178	106.0	sp|A2AJI0|MA7D1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0283995	106.0	sp|Q5R452|SAFB1_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.0283995	102.0	sp|Q1LYG4|CR3LB_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0283995	103.0	sp|Q9D439|CCD11_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0294288	99.0	sp|P48755|FOSL1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0294288	100.0	sp|Q6DE84|MAFB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.0304592	101.0	sp|Q54RZ9|BZPG_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0304592	109.0	sp|A0JMK9|CAF1A_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0304592	100.0	sp|P18625|FOSL2_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.0314907	99.0	sp|A2R346|KAPC_ASPNC	sp|Q1XGE2|HAC1_ASPOR
+0.0314907	101.0	sp|Q8HZP6|FOS_FELCA	sp|Q1XGE2|HAC1_ASPOR
+0.0335568	103.0	sp|P26042|MOES_PIG	sp|Q1XGE2|HAC1_ASPOR
+0.0335568	103.0	sp|Q2HJ49|MOES_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0345914	105.0	sp|A5FV21|IF2_ACICJ	sp|Q1XGE2|HAC1_ASPOR
+0.0345914	103.0	sp|A6SCT6|DBP3_BOTFB	sp|Q1XGE2|HAC1_ASPOR
+0.0356272	106.0	sp|Q7PGE8|EIF3A_ANOGA	sp|Q1XGE2|HAC1_ASPOR
+0.036664	105.0	sp|O77788|NFM_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.0387408	105.0	sp|Q9JTB5|IF2_NEIMA	sp|Q1XGE2|HAC1_ASPOR
+0.0387408	105.0	sp|Q9JYD2|IF2_NEIMB	sp|Q1XGE2|HAC1_ASPOR
+0.0387408	105.0	sp|A1KV51|IF2_NEIMF	sp|Q1XGE2|HAC1_ASPOR
+0.0387408	98.0	sp|P0C5H8|KAPC_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.0397809	105.0	sp|Q80YR5|SAFB2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0397809	100.0	sp|Q56TN0|FOS_PHORO	sp|Q1XGE2|HAC1_ASPOR
+0.0418642	98.0	sp|Q4U1U2|MAFA_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.0429075	102.0	sp|P26038|MOES_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0439519	98.0	sp|Q64709|HLF_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0449974	104.0	sp|A0JMT0|CA1AB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.0449974	112.0	sp|Q6Y7W6|PERQ2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0460439	92.0	sp|Q8WYK2|JDP2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0470916	99.0	sp|Q8K1L0|CREB5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0470916	106.0	sp|Q9C0A6|SETD5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0470916	101.0	sp|Q92575|UBXN4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0470916	101.0	sp|Q5R4I3|UBXN4_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.0491902	96.0	sp|P14233|TGA1B_TOBAC	sp|Q1XGE2|HAC1_ASPOR
+0.0491902	104.0	sp|A9M1D5|IF2_NEIM0	sp|Q1XGE2|HAC1_ASPOR
+0.0502412	103.0	sp|Q554P0|BZPJ_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0502412	102.0	sp|Q8N9W4|GG6L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0512933	77.0	sp|Q8N300|CCD23_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0534008	100.0	sp|O81025|P2A03_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.0565704	101.0	sp|O35763|MOES_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0565704	102.0	sp|Q9Z220|TSG10_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.0576291	103.0	sp|Q32N93|INCEB_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.0576291	107.0	sp|Q95XZ5|NPBL_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+0.0608121	103.0	sp|Q6CT90|EIF3A_KLULA	sp|Q1XGE2|HAC1_ASPOR
+0.0608121	103.0	sp|Q5F489|TAF3_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.0618754	98.0	sp|P42775|GBF2_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.0618754	103.0	sp|Q55EQ3|Y9086_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0618754	98.0	sp|Q54LU8|Y8646_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0682788	94.0	sp|P94517|YSCB_BACSU	sp|Q1XGE2|HAC1_ASPOR
+0.0693501	103.0	sp|Q2UKG6|EIF3A_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+0.071496	101.0	sp|Q9Y592|CCD41_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.071496	111.0	sp|Q6Y7W8|PERQ2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.071496	98.0	sp|Q8X229|FCR3_CANAL	sp|Q1XGE2|HAC1_ASPOR
+0.0725707	100.0	sp|P26041|MOES_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0747235	105.0	sp|Q9TW28|MYOM_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.076881	100.0	sp|Q9NZ53|PDXL2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0779615	99.0	sp|Q02930|CREB5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0790432	102.0	sp|Q5HZG4|TAF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.080126	102.0	sp|A0LE19|IF2_MAGSM	sp|Q1XGE2|HAC1_ASPOR
+0.0812101	103.0	sp|Q869E1|DNLI1_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0844692	104.0	sp|P22793|TRHY_SHEEP	sp|Q1XGE2|HAC1_ASPOR
+0.0888312	95.0	sp|O70191|ATF5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0888312	96.0	sp|Q39140|TGA6_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.0888312	98.0	sp|Q68EL6|NFIL3_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.0899247	101.0	sp|Q55FW7|GLE1_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.0965109	89.0	sp|Q3TLH4|BA2L2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.0965109	95.0	sp|Q04323|UBXN1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.0965109	96.0	sp|P23922|HBP1A_WHEAT	sp|Q1XGE2|HAC1_ASPOR
+0.098716	94.0	sp|Q9C5Q2|AI5L3_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.102033	101.0	sp|Q54TD7|DDX24_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.103141	101.0	sp|Q5F797|IF2_NEIG1	sp|Q1XGE2|HAC1_ASPOR
+0.103141	101.0	sp|B4RMZ3|IF2_NEIG2	sp|Q1XGE2|HAC1_ASPOR
+0.10425	99.0	sp|Q86AH4|Y8592_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.105361	101.0	sp|Q8IIG7|YPF05_PLAF7	sp|Q1XGE2|HAC1_ASPOR
+0.116534	103.0	sp|B2KI97|THOC2_RHIFE	sp|Q1XGE2|HAC1_ASPOR
+0.116534	102.0	sp|Q9UM54|MYO6_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.116534	100.0	sp|Q3KQU3|MA7D1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.116534	98.0	sp|Q14244|MAP7_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.116534	90.0	sp|P29596|ATF3_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.116534	104.0	sp|Q5TM26|BAT2_MACMU	sp|Q1XGE2|HAC1_ASPOR
+0.127833	100.0	sp|Q0IHP2|INCE_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.127833	100.0	sp|Q9NQS7|INCE_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.127833	97.0	sp|Q5HZY0|UBXN4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.127833	87.0	sp|Q90595|MAFF_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.127833	101.0	sp|Q6ZSZ5|ARHGI_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.127833	98.0	sp|Q7PS12|MOEH_ANOGA	sp|Q1XGE2|HAC1_ASPOR
+0.139262	99.0	sp|P12957|CALD1_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.139262	93.0	sp|Q08DA8|ATF1_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.139262	91.0	sp|Q94126|CES2_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+0.139262	88.0	sp|O66547|Y157_AQUAE	sp|Q1XGE2|HAC1_ASPOR
+0.139262	101.0	sp|A6ZRZ0|NST1_YEAS7	sp|Q1XGE2|HAC1_ASPOR
+0.139262	101.0	sp|P53935|NST1_YEAST	sp|Q1XGE2|HAC1_ASPOR
+0.139262	94.0	sp|A3BYC1|HOX25_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+0.139262	102.0	sp|B1AZI6|THOC2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.150823	104.0	sp|Q9H254|SPTN4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.150823	93.0	sp|Q2UNX4|KAPC_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+0.150823	94.0	sp|Q9JJ50|HGS_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.150823	89.0	sp|Q2KII1|ATF3_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.150823	98.0	sp|Q99941|ATF6B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.150823	103.0	sp|Q7TSC1|BAT2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.150823	97.0	sp|Q4I877|NDE1_GIBZE	sp|Q1XGE2|HAC1_ASPOR
+0.162519	98.0	sp|Q84WU4|GOGC3_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.162519	93.0	sp|Q499N6|UBXN1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.162519	81.0	sp|B4PPK2|FOSL_DROYA	sp|Q1XGE2|HAC1_ASPOR
+0.162519	101.0	sp|A4R8N4|PAN1_MAGGR	sp|Q1XGE2|HAC1_ASPOR
+0.162519	101.0	sp|B2AWS3|PAN1_PODAN	sp|Q1XGE2|HAC1_ASPOR
+0.162519	102.0	sp|Q92545|TM131_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.174353	99.0	sp|Q38W81|IF2_LACSS	sp|Q1XGE2|HAC1_ASPOR
+0.174353	94.0	sp|Q789F3|MAF_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.174353	92.0	sp|P49716|CEBPD_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.174353	92.0	sp|P81269|ATF1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.174353	94.0	sp|P23091|MAF_AVIS4	sp|Q1XGE2|HAC1_ASPOR
+0.174353	92.0	sp|P18846|ATF1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.174353	102.0	sp|Q07283|TRHY_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.18633	95.0	sp|Q4X1V0|NDE1_ASPFU	sp|Q1XGE2|HAC1_ASPOR
+0.18633	79.0	sp|Q8R1H8|BATF2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.18633	95.0	sp|Q66J36|NFIL3_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.18633	97.0	sp|P13816|GARP_PLAFF	sp|Q1XGE2|HAC1_ASPOR
+0.18633	93.0	sp|P38749|YAP3_YEAST	sp|Q1XGE2|HAC1_ASPOR
+0.198451	99.0	sp|Q3UIW5|RNF10_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.198451	93.0	sp|P23923|HBP1B_WHEAT	sp|Q1XGE2|HAC1_ASPOR
+0.198451	97.0	sp|Q9D5R3|CCD41_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.198451	101.0	sp|Q9QXL2|KI21A_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.198451	95.0	sp|Q9UPT6|JIP3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.198451	99.0	sp|P16884|NFH_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.198451	88.0	sp|Q60765|ATF3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.198451	91.0	sp|Q9N0J3|CEBPD_SHEEP	sp|Q1XGE2|HAC1_ASPOR
+0.198451	99.0	sp|A5DLJ8|NST1_PICGU	sp|Q1XGE2|HAC1_ASPOR
+0.210721	98.0	sp|A5DHL9|EIF3A_PICGU	sp|Q1XGE2|HAC1_ASPOR
+0.210721	92.0	sp|Q6NXA9|UBXN1_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.210721	91.0	sp|O02756|CEBPD_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.210721	97.0	sp|O88735|MAP7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.210721	95.0	sp|Q99105|MYSU_RABIT	sp|Q1XGE2|HAC1_ASPOR
+0.223144	94.0	sp|Q9M7Q2|AI5L7_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.223144	95.0	sp|Q9HCM9|TRI39_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.223144	95.0	sp|Q1XHU0|TRI39_PANTR	sp|Q1XGE2|HAC1_ASPOR
+0.223144	93.0	sp|Q7SHT5|PXR1_NEUCR	sp|Q1XGE2|HAC1_ASPOR
+0.235722	71.0	sp|Q32LJ0|CCD23_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.235722	71.0	sp|Q99LQ4|CCD23_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.235722	71.0	sp|Q4KLG3|CCD23_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.235722	99.0	sp|Q54XG7|DIMA_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.235722	86.0	sp|Q54CY3|Y4489_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.235722	100.0	sp|B0KWH8|THOC2_CALJA	sp|Q1XGE2|HAC1_ASPOR
+0.235722	96.0	sp|Q7Z4V5|HDGR2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.248461	102.0	sp|P15205|MAP1B_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.248461	92.0	sp|Q98UK4|MAF_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.248461	108.0	sp|O75037|KI21B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.248461	96.0	sp|Q02040|SF17A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.248461	96.0	sp|P82179|TRDN_CANFA	sp|Q1XGE2|HAC1_ASPOR
+0.248461	95.0	sp|B0WYY2|MOEH_CULQU	sp|Q1XGE2|HAC1_ASPOR
+0.261365	99.0	sp|Q556Q3|IRLF_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.261365	87.0	sp|P18847|ATF3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.274437	95.0	sp|Q5RCJ1|CIP4_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.274437	92.0	sp|Q1RM35|CC104_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.274437	90.0	sp|A2Z0Q0|HOX25_ORYSI	sp|Q1XGE2|HAC1_ASPOR
+0.274437	94.0	sp|P15336|ATF2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.274437	97.0	sp|O88453|SAFB1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.274437	99.0	sp|B0YC95|PAN1_ASPFC	sp|Q1XGE2|HAC1_ASPOR
+0.274437	99.0	sp|Q4WG58|PAN1_ASPFU	sp|Q1XGE2|HAC1_ASPOR
+0.287682	99.0	sp|A6NC98|CC88B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.287682	99.0	sp|A6R7X5|PAN1_AJECN	sp|Q1XGE2|HAC1_ASPOR
+0.287682	98.0	sp|Q05D44|IF2P_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.301105	92.0	sp|P54843|MAF_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.301105	92.0	sp|O75444|MAF_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.301105	92.0	sp|A7Z017|MAF_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.314711	89.0	sp|A5PJN1|TAP26_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.314711	93.0	sp|O24160|TGA21_TOBAC	sp|Q1XGE2|HAC1_ASPOR
+0.314711	96.0	sp|Q54Y73|BZPD_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.314711	93.0	sp|Q5FW38|NFIL3_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.314711	91.0	sp|Q39163|TGA5_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.314711	85.0	sp|Q90889|MAFG_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.328504	95.0	sp|O35451|ATF6B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.328504	107.0	sp|Q9QXL1|KI21B_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.328504	97.0	sp|Q5RG44|K1211_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.328504	100.0	sp|P48634|BAT2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.328504	96.0	sp|C0QTL9|IF2_PERMH	sp|Q1XGE2|HAC1_ASPOR
+0.328504	96.0	sp|P53352|INCE_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.34249	92.0	sp|Q8BKJ9|SIRT7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.34249	91.0	sp|Q5XIB5|CCD86_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.34249	93.0	sp|O93602|ATF2_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.34249	93.0	sp|P16951|ATF2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.34249	96.0	sp|Q5QTY8|IF2_IDILO	sp|Q1XGE2|HAC1_ASPOR
+0.34249	84.0	sp|Q6FUQ5|FYV7_CANGA	sp|Q1XGE2|HAC1_ASPOR
+0.34249	97.0	sp|P37934|MAAY3_SCHCO	sp|Q1XGE2|HAC1_ASPOR
+0.34249	92.0	sp|Q99089|CPRF1_PETCR	sp|Q1XGE2|HAC1_ASPOR
+0.356675	93.0	sp|Q3ZBU9|UBXN4_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.356675	94.0	sp|P34511|YMX3_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+0.371064	96.0	sp|Q8C0Q2|ZHX3_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.371064	98.0	sp|Q5B5B0|PAN1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.371064	95.0	sp|A2AG50|MA7D2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.371064	98.0	sp|Q4PBP6|NST1_USTMA	sp|Q1XGE2|HAC1_ASPOR
+0.371064	95.0	sp|Q7KZI7|MARK2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.371064	89.0	sp|Q03484|CEBPD_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.385662	96.0	sp|Q80VM7|ANR24_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.385662	91.0	sp|P54844|MAF_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.385662	96.0	sp|B1ZDQ8|IF2_METPB	sp|Q1XGE2|HAC1_ASPOR
+0.385662	94.0	sp|Q99LI8|HGS_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.385662	90.0	sp|Q6BUE3|PXR1_DEBHA	sp|Q1XGE2|HAC1_ASPOR
+0.385662	96.0	sp|Q7RWT1|EIF3A_NEUCR	sp|Q1XGE2|HAC1_ASPOR
+0.385662	90.0	sp|Q6ZDF3|TRAB1_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+0.400478	98.0	sp|Q8NI27|THOC2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.400478	98.0	sp|B1MTK1|THOC2_CALMO	sp|Q1XGE2|HAC1_ASPOR
+0.400478	93.0	sp|Q8N4C8|MINK1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.400478	91.0	sp|P42776|GBF3_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.415515	89.0	sp|A1D9Z7|KAPC_NEOFI	sp|Q1XGE2|HAC1_ASPOR
+0.415515	94.0	sp|Q4G091|MICLK_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.415515	89.0	sp|Q6P788|ATF5_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.415515	89.0	sp|Q9Y2D1|ATF5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.415515	90.0	sp|P43273|TGA2_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.415515	88.0	sp|Q795Q5|YTTA_BACSU	sp|Q1XGE2|HAC1_ASPOR
+0.430783	93.0	sp|Q32LP2|RADI_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.430783	93.0	sp|Q9PU45|RADI_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.430783	93.0	sp|P35241|RADI_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.430783	93.0	sp|P26044|RADI_PIG	sp|Q1XGE2|HAC1_ASPOR
+0.430783	98.0	sp|Q2KHR3|QSER1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.446287	91.0	sp|Q54NF3|Y6434_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.446287	89.0	sp|Q99091|CPRF3_PETCR	sp|Q1XGE2|HAC1_ASPOR
+0.446287	102.0	sp|P30427|PLEC1_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.446287	96.0	sp|Q553B1|DDX46_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.462035	96.0	sp|Q5AXH3|TOF1_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.462035	90.0	sp|Q0V9K1|MAF_XENTR	sp|Q1XGE2|HAC1_ASPOR
+0.462035	96.0	sp|A6RW62|NST1_BOTFB	sp|Q1XGE2|HAC1_ASPOR
+0.462035	96.0	sp|A7EMM3|NST1_SCLS1	sp|Q1XGE2|HAC1_ASPOR
+0.462035	92.0	sp|Q869T2|Y7634_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.462035	97.0	sp|A1DC51|PAN1_NEOFI	sp|Q1XGE2|HAC1_ASPOR
+0.462035	94.0	sp|Q960X8|HRS_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.462035	91.0	sp|Q5BJY9|K1C18_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.462035	96.0	sp|Q6BUT3|NST1_DEBHA	sp|Q1XGE2|HAC1_ASPOR
+0.462035	97.0	sp|A1CD74|PAN1_ASPCL	sp|Q1XGE2|HAC1_ASPOR
+0.478036	87.0	sp|Q09202|YP23_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+0.478036	96.0	sp|B2GUV7|IF2P_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.478036	68.0	sp|A5F4W4|ZAPB_VIBC3	sp|Q1XGE2|HAC1_ASPOR
+0.478036	68.0	sp|Q9KNP5|ZAPB_VIBCH	sp|Q1XGE2|HAC1_ASPOR
+0.478036	68.0	sp|C3LSB5|ZAPB_VIBCM	sp|Q1XGE2|HAC1_ASPOR
+0.494296	96.0	sp|P97820|M4K4_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.494296	93.0	sp|P34099|KAPC_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.494296	96.0	sp|O95819|M4K4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.494296	88.0	sp|P11115|CPC1_NEUCR	sp|Q1XGE2|HAC1_ASPOR
+0.494296	88.0	sp|P42777|GBF4_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.494296	89.0	sp|A3KMR8|MAFA_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.494296	94.0	sp|O60132|TEA4_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+0.494296	97.0	sp|Q7KQM6|PERQ1_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.510826	91.0	sp|Q9ZLW8|PGBA_HELPJ	sp|Q1XGE2|HAC1_ASPOR
+0.510826	91.0	sp|O25249|PGBA_HELPY	sp|Q1XGE2|HAC1_ASPOR
+0.510826	83.0	sp|Q13164|MK07_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.510826	95.0	sp|Q1DXU0|EIF3A_COCIM	sp|Q1XGE2|HAC1_ASPOR
+0.527633	90.0	sp|O14964|HGS_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.527633	95.0	sp|Q0CUP6|EIF3A_ASPTN	sp|Q1XGE2|HAC1_ASPOR
+0.527633	97.0	sp|A5DXA0|NST1_LODEL	sp|Q1XGE2|HAC1_ASPOR
+0.527633	88.0	sp|Q4WA21|KAPC_ASPFU	sp|Q1XGE2|HAC1_ASPOR
+0.527633	96.0	sp|Q54GQ1|MTMR_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.527633	87.0	sp|P23614|BASP1_CHICK	sp|Q1XGE2|HAC1_ASPOR
+0.527633	93.0	sp|Q8SSQ0|GEFR_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.527633	97.0	sp|Q7Z4S6|KI21A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.527633	80.0	sp|Q2KI00|F107B_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.527633	94.0	sp|Q08014|MEDB_GIALA	sp|Q1XGE2|HAC1_ASPOR
+0.544727	90.0	sp|Q9M7Q5|AI5L4_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.544727	90.0	sp|Q09458|YQ37_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+0.544727	98.0	sp|Q6MG48|BAT2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.544727	94.0	sp|Q9WU62|INCE_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.562119	92.0	sp|P26043|RADI_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.562119	91.0	sp|Q12234|RUD3_YEAST	sp|Q1XGE2|HAC1_ASPOR
+0.562119	94.0	sp|Q98TA5|CA1AA_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.579818	76.0	sp|Q07E15|CTTB2_MUSPF	sp|Q1XGE2|HAC1_ASPOR
+0.579818	90.0	sp|Q1MTN9|RLF2_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+0.579818	94.0	sp|P07197|NFM_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.579818	88.0	sp|Q6IP50|UBX1A_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.579818	88.0	sp|Q922Y1|UBXN1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.597837	84.0	sp|Q5JR59|MTUS2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.597837	73.0	sp|P14918|EXTN_MAIZE	sp|Q1XGE2|HAC1_ASPOR
+0.616186	94.0	sp|C1D8X2|IF2_LARHH	sp|Q1XGE2|HAC1_ASPOR
+0.616186	93.0	sp|Q7SAF6|CEF1_NEUCR	sp|Q1XGE2|HAC1_ASPOR
+0.616186	67.0	sp|A6VLC4|ZAPB_ACTSZ	sp|Q1XGE2|HAC1_ASPOR
+0.634878	86.0	sp|P72929|Y1021_SYNY3	sp|Q1XGE2|HAC1_ASPOR
+0.634878	92.0	sp|O14273|YET4_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+0.653926	82.0	sp|Q6DGM8|JDP2_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.653926	91.0	sp|Q8GT73|BH119_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.653926	96.0	sp|C1FXW9|THOC2_DASNO	sp|Q1XGE2|HAC1_ASPOR
+0.673345	88.0	sp|P12270|TPR_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.693147	86.0	sp|P29176|FOSX_MSVFR	sp|Q1XGE2|HAC1_ASPOR
+0.693147	94.0	sp|Q9UPN4|AZI1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.71335	75.0	sp|P78559|MAP1A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.71335	86.0	sp|Q5AVK6|NOP16_EMENI	sp|Q1XGE2|HAC1_ASPOR
+0.71335	79.0	sp|Q9H098|F107B_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.71335	88.0	sp|P20226|TBP_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.733969	89.0	sp|Q08E13|RNF10_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.733969	87.0	sp|Q9VL63|U430_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.733969	92.0	sp|Q13061|TRDN_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.733969	93.0	sp|Q9ES64|USH1C_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.733969	92.0	sp|Q86AF3|BZPH_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.755023	98.0	sp|Q9Y520|BA2L2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.755023	87.0	sp|Q9LES3|AI5L2_ARATH	sp|Q1XGE2|HAC1_ASPOR
+0.755023	89.0	sp|Q55E93|BZPE_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.776529	94.0	sp|Q15147|PLCB4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.776529	94.0	sp|Q9QW07|PLCB4_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.776529	88.0	sp|Q9QWW1|HOME2_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.776529	88.0	sp|Q98UK5|MAFB_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.776529	89.0	sp|Q9JJ89|CCD86_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.798508	92.0	sp|Q499E4|DZI1L_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.798508	87.0	sp|P34618|CEC1_CAEEL	sp|Q1XGE2|HAC1_ASPOR
+0.798508	95.0	sp|Q75JP5|Y2471_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.798508	94.0	sp|Q1E1H4|NST1_COCIM	sp|Q1XGE2|HAC1_ASPOR
+0.820981	96.0	sp|P05661|MYSA_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.820981	98.0	sp|Q9UPA5|BSN_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.84397	88.0	sp|Q55D99|PAKA_DICDI	sp|Q1XGE2|HAC1_ASPOR
+0.84397	91.0	sp|A5PKL7|LZTS2_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+0.84397	88.0	sp|Q7RWR8|CWC26_NEUCR	sp|Q1XGE2|HAC1_ASPOR
+0.84397	84.0	sp|P35710|SOX5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.867501	75.0	sp|P24152|EXTN_SORBI	sp|Q1XGE2|HAC1_ASPOR
+0.867501	88.0	sp|Q9Z2Q8|FOS_CRIGR	sp|Q1XGE2|HAC1_ASPOR
+0.867501	85.0	sp|B4GIF2|EIF3J_DROPE	sp|Q1XGE2|HAC1_ASPOR
+0.867501	85.0	sp|Q8I1E5|EIF3J_DROPS	sp|Q1XGE2|HAC1_ASPOR
+0.891598	93.0	sp|Q9R269|PEPL_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.891598	82.0	sp|P35711|SOX5_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.891598	86.0	sp|Q9ZJP4|TONB_HELPJ	sp|Q1XGE2|HAC1_ASPOR
+0.891598	91.0	sp|Q6NY15|TSG10_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.891598	93.0	sp|Q9Y4D1|DAAM1_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.891598	91.0	sp|P28741|KIF3A_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.916291	94.0	sp|Q9PTD7|CING_XENLA	sp|Q1XGE2|HAC1_ASPOR
+0.916291	92.0	sp|O94685|UCP8_SCHPO	sp|Q1XGE2|HAC1_ASPOR
+0.916291	94.0	sp|P20482|CNC_DROME	sp|Q1XGE2|HAC1_ASPOR
+0.916291	90.0	sp|P56095|AP1_KLULA	sp|Q1XGE2|HAC1_ASPOR
+0.916291	85.0	sp|P51984|CREB_CHLVR	sp|Q1XGE2|HAC1_ASPOR
+0.941609	89.0	sp|Q00969|ATF2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.941609	90.0	sp|Q29GR8|MOEH_DROPS	sp|Q1XGE2|HAC1_ASPOR
+0.967584	88.0	sp|Q10PR4|HSFA9_ORYSJ	sp|Q1XGE2|HAC1_ASPOR
+0.967584	90.0	sp|Q15642|CIP4_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+0.967584	93.0	sp|Q1LUE5|ZCH18_DANRE	sp|Q1XGE2|HAC1_ASPOR
+0.967584	93.0	sp|B0W6N3|EIF3A_CULQU	sp|Q1XGE2|HAC1_ASPOR
+0.967584	94.0	sp|Q5XJV7|SETD5_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+0.967584	93.0	sp|B3EX63|CING_SORAR	sp|Q1XGE2|HAC1_ASPOR
+0.994252	94.0	sp|Q2UDY8|PAN1_ASPOR	sp|Q1XGE2|HAC1_ASPOR
+0.994252	91.0	sp|Q5R7F9|MA7D2_PONAB	sp|Q1XGE2|HAC1_ASPOR
+0.994252	87.0	sp|O88801|HOME2_RAT	sp|Q1XGE2|HAC1_ASPOR
+0.994252	88.0	sp|Q8R424|STABP_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.02165	91.0	sp|Q6NS15|MED15_XENLA	sp|Q1XGE2|HAC1_ASPOR
+1.02165	89.0	sp|Q6RFY2|PHAR3_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.02165	71.0	sp|Q8C2B3|HDAC7_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.02165	65.0	sp|Q54DE2|Y4323_DICDI	sp|Q1XGE2|HAC1_ASPOR
+1.02165	65.0	sp|P41425|Y020_NPVAC	sp|Q1XGE2|HAC1_ASPOR
+1.02165	65.0	sp|A3MZY9|ZAPB_ACTP2	sp|Q1XGE2|HAC1_ASPOR
+1.02165	65.0	sp|B3H152|ZAPB_ACTP7	sp|Q1XGE2|HAC1_ASPOR
+1.02165	98.0	sp|O88737|BSN_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.04982	83.0	sp|B7GKC7|GRPE_ANOFW	sp|Q1XGE2|HAC1_ASPOR
+1.04982	93.0	sp|Q9CXK9|RBM33_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.04982	84.0	sp|Q6CJZ6|MED2_KLULA	sp|Q1XGE2|HAC1_ASPOR
+1.04982	95.0	sp|P14105|MYH9_CHICK	sp|Q1XGE2|HAC1_ASPOR
+1.04982	92.0	sp|A1WLI3|IF2_VEREI	sp|Q1XGE2|HAC1_ASPOR
+1.04982	89.0	sp|Q62736|CALD1_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.07881	95.0	sp|Q5F3P8|SET1B_CHICK	sp|Q1XGE2|HAC1_ASPOR
+1.07881	96.0	sp|Q96JK9|MAML3_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.07881	89.0	sp|Q5NVN6|CEP63_PONAB	sp|Q1XGE2|HAC1_ASPOR
+1.07881	89.0	sp|Q9ZKY5|PGBB_HELPJ	sp|Q1XGE2|HAC1_ASPOR
+1.10866	90.0	sp|P18850|ATF6A_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.10866	85.0	sp|Q8N1L9|BATF2_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.10866	95.0	sp|Q9HD67|MYO10_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.10866	89.0	sp|Q0VF49|K2012_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.10866	93.0	sp|Q9JM52|MINK1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.10866	88.0	sp|Q90Z72|NFIL3_CHICK	sp|Q1XGE2|HAC1_ASPOR
+1.10866	86.0	sp|P23050|FOS_AVINK	sp|Q1XGE2|HAC1_ASPOR
+1.13943	86.0	sp|Q32PF6|DBP_BOVIN	sp|Q1XGE2|HAC1_ASPOR
+1.13943	86.0	sp|Q10586|DBP_HUMAN	sp|Q1XGE2|HAC1_ASPOR
+1.13943	86.0	sp|Q60925|DBP_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.13943	86.0	sp|P16443|DBP_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.13943	90.0	sp|Q66H89|CCD41_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.13943	93.0	sp|Q54IE8|IRLE_DICDI	sp|Q1XGE2|HAC1_ASPOR
+1.17118	91.0	sp|B4RXT8|IF2_ALTMD	sp|Q1XGE2|HAC1_ASPOR
+1.17118	90.0	sp|Q4R628|KIF3A_MACFA	sp|Q1XGE2|HAC1_ASPOR
+1.17118	89.0	sp|P46150|MOEH_DROME	sp|Q1XGE2|HAC1_ASPOR
+1.17118	88.0	sp|A2QUR1|SFH5_ASPNC	sp|Q1XGE2|HAC1_ASPOR
+1.20397	85.0	sp|P05411|JUN_AVIS1	sp|Q1XGE2|HAC1_ASPOR
+1.20397	90.0	sp|Q5ZIA2|MAP7_CHICK	sp|Q1XGE2|HAC1_ASPOR
+1.20397	78.0	sp|Q09YM8|CTTB2_RABIT	sp|Q1XGE2|HAC1_ASPOR
+1.20397	92.0	sp|Q0CP15|NST1_ASPTN	sp|Q1XGE2|HAC1_ASPOR
+1.23787	83.0	sp|A8MPH9|FOSLD_DROME	sp|Q1XGE2|HAC1_ASPOR
+1.23787	98.0	sp|Q9QXS1|PLEC1_MOUSE	sp|Q1XGE2|HAC1_ASPOR
+1.23787	97.0	sp|Q9WVE9|ITSN1_RAT	sp|Q1XGE2|HAC1_ASPOR
+1.23787	82.0	sp|A2QC41|MED21_ASPNC	sp|Q1XGE2|HAC1_ASPOR
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/wu-blastp-tbl.out b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/wu-blastp-tbl.out
new file mode 100755
index 0000000..3ee41b8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/regress/wu-blastp-tbl.out
@@ -0,0 +1,369 @@
+9.1e-90	100	1	181	sp|P55685|Y4WG_RHISN	1	181	sp|P55685|Y4WG_RHISN	Uncharacterized protein y4wG OS=Rhizobium sp. (strain
+1.3	48	141	173	sp|P55685|Y4WG_RHISN	31	62	sp|Q07074|YH007_YEAST	Uncharacterized protein YHR007C-A OS=Saccharomyces
+5.2	28	42	167	sp|P55685|Y4WG_RHISN	107	231	sp|Q8XVA0|Y2931_RALSO	UPF0135 protein RSc2931 OS=Ralstonia solanacearum
+5.4	24	29	149	sp|P55685|Y4WG_RHISN	89	209	sp|P33890|TIR2_YEAST	Cold shock-induced protein TIR2 OS=Saccharomyces
+5.6	27	39	151	sp|P55685|Y4WG_RHISN	317	431	sp|A7HGP8|CH602_ANADF	60 kDa chaperonin 2 OS=Anaeromyxobacter sp. (strain
+9.0	34	34	101	sp|P55685|Y4WG_RHISN	6	80	sp|Q608F1|Y1541_METCA	UPF0350 protein MCA1541 OS=Methylococcus capsulatus
+9.6e-182	100	1	345	sp|Q1XGE2|HAC1_ASPOR	1	345	sp|Q1XGE2|HAC1_ASPOR	Transcriptional activator hacA OS=Aspergillus oryzae
+1.5e-137	78	13	344	sp|Q1XGE2|HAC1_ASPOR	18	348	sp|Q8TFU8|HAC1_EMENI	Transcriptional activator hacA OS=Emericella nidulans
+1.8e-31	42	7	209	sp|Q1XGE2|HAC1_ASPOR	43	238	sp|Q8TFF3|HAC1_TRIRE	Transcriptional activator hac1 OS=Trichoderma reesei
+1.8e-31	26	253	344	sp|Q1XGE2|HAC1_ASPOR	361	450	sp|Q8TFF3|HAC1_TRIRE	Transcriptional activator hac1 OS=Trichoderma reesei
+9.3e-14	32	67	270	sp|Q1XGE2|HAC1_ASPOR	23	216	sp|P41546|HAC1_YEAST	Transcriptional activator HAC1 OS=Saccharomyces
+3.4e-12	31	10	152	sp|Q1XGE2|HAC1_ASPOR	12	157	sp|O24646|HY5_ARATH	Transcription factor HY5 OS=Arabidopsis thaliana GN=HY5
+7.0e-09	36	60	154	sp|Q1XGE2|HAC1_ASPOR	66	157	sp|Q9SM50|HY5_SOLLC	Transcription factor HY5 OS=Solanum lycopersicum GN=HY5
+3.2e-08	33	60	206	sp|Q1XGE2|HAC1_ASPOR	42	196	sp|Q3SZZ2|XBP1_BOVIN	X-box-binding protein 1 OS=Bos taurus GN=XBP1 PE=2 SV=1
+3.2e-08	29	16	187	sp|Q1XGE2|HAC1_ASPOR	10	186	sp|P17861|XBP1_HUMAN	X-box-binding protein 1 OS=Homo sapiens GN=XBP1 PE=1 SV=2
+3.7e-08	32	4	152	sp|Q1XGE2|HAC1_ASPOR	210	360	sp|A1L224|CR3L2_DANRE	Cyclic AMP-responsive element-binding protein 3-like
+1.9e-07	35	73	143	sp|Q1XGE2|HAC1_ASPOR	68	138	sp|Q8W191|HYH_ARATH	Transcription factor HY5-like OS=Arabidopsis thaliana
+9.6e-07	29	41	228	sp|Q1XGE2|HAC1_ASPOR	727	906	sp|A3LYI0|NST1_PICST	Stress response protein NST1 OS=Pichia stipitis GN=NST1
+0.11	25	40	206	sp|Q1XGE2|HAC1_ASPOR	742	901	sp|A3LYI0|NST1_PICST	Stress response protein NST1 OS=Pichia stipitis GN=NST1
+6.4e-06	30	14	157	sp|Q1XGE2|HAC1_ASPOR	228	368	sp|Q70SY1|CR3L2_HUMAN	Cyclic AMP-responsive element-binding protein 3-like
+6.4e-06	30	14	157	sp|Q1XGE2|HAC1_ASPOR	228	368	sp|Q5RCM9|CR3L2_PONAB	Cyclic AMP-responsive element-binding protein 3-like
+6.5e-06	24	18	297	sp|Q1XGE2|HAC1_ASPOR	234	518	sp|Q8BH52|CR3L2_MOUSE	Cyclic AMP-responsive element-binding protein 3-like
+1.2e-05	27	26	207	sp|Q1XGE2|HAC1_ASPOR	138	318	sp|Q61817|CREB3_MOUSE	Cyclic AMP-responsive element-binding protein 3 OS=Mus
+1.4e-05	28	4	152	sp|Q1XGE2|HAC1_ASPOR	218	368	sp|A2VD01|CR3L2_XENLA	Cyclic AMP-responsive element-binding protein 3-like
+2.3e-05	30	14	228	sp|Q1XGE2|HAC1_ASPOR	223	433	sp|Q66HA2|CR3L1_RAT	Cyclic AMP-responsive element-binding protein 3-like
+2.4e-05	24	46	270	sp|Q1XGE2|HAC1_ASPOR	363	593	sp|Q54WN7|BZPF_DICDI	Probable basic-leucine zipper transcription factor F
+3.0e-05	30	14	228	sp|Q1XGE2|HAC1_ASPOR	224	434	sp|Q9Z125|CR3L1_MOUSE	Cyclic AMP-responsive element-binding protein 3-like
+6.0e-05	28	69	145	sp|Q1XGE2|HAC1_ASPOR	21	97	sp|Q9NR55|BATF3_HUMAN	Basic leucine zipper transcriptional factor ATF-like 3
+6.0e-05	33	83	145	sp|Q1XGE2|HAC1_ASPOR	28	90	sp|Q9D275|BATF3_MOUSE	Basic leucine zipper transcriptional factor ATF-like 3
+6.4e-05	29	14	230	sp|Q1XGE2|HAC1_ASPOR	224	434	sp|Q96BA8|CR3L1_HUMAN	Cyclic AMP-responsive element-binding protein 3-like
+7.2e-05	25	15	229	sp|Q1XGE2|HAC1_ASPOR	2294	2516	sp|O88778|BSN_RAT	Protein bassoon OS=Rattus norvegicus GN=Bsn PE=1 SV=3
+0.039	24	12	189	sp|Q1XGE2|HAC1_ASPOR	2318	2504	sp|O88778|BSN_RAT	Protein bassoon OS=Rattus norvegicus GN=Bsn PE=1 SV=3
+0.00011	31	29	157	sp|Q1XGE2|HAC1_ASPOR	244	368	sp|Q6QDP7|CR3L2_RAT	Cyclic AMP-responsive element-binding protein 3-like
+0.00012	27	3	236	sp|Q1XGE2|HAC1_ASPOR	429	680	sp|Q9WVS8|MK07_MOUSE	Mitogen-activated protein kinase 7 OS=Mus musculus
+0.00013	27	24	151	sp|Q1XGE2|HAC1_ASPOR	160	284	sp|Q08CW8|CR3L4_XENTR	Cyclic AMP-responsive element-binding protein 3-like
+0.00016	31	71	160	sp|Q1XGE2|HAC1_ASPOR	17	103	sp|Q16520|BATF_HUMAN	Basic leucine zipper transcriptional factor ATF-like
+0.00017	29	18	146	sp|Q1XGE2|HAC1_ASPOR	119	256	sp|Q9D2A5|CR3L4_MOUSE	Cyclic AMP-responsive element-binding protein 3-like
+0.30	30	70	145	sp|Q1XGE2|HAC1_ASPOR	180	269	sp|Q9D2A5|CR3L4_MOUSE	Cyclic AMP-responsive element-binding protein 3-like
+0.00020	29	80	182	sp|Q1XGE2|HAC1_ASPOR	195	296	sp|Q99090|CPRF2_PETCR	Light-inducible protein CPRF2 OS=Petroselinum crispum
+0.00021	30	83	145	sp|Q1XGE2|HAC1_ASPOR	28	90	sp|P97876|BATF3_RAT	Basic leucine zipper transcriptional factor ATF-like 3
+0.00029	26	31	251	sp|Q1XGE2|HAC1_ASPOR	515	729	sp|Q5B3C8|NST1_EMENI	Stress response protein nst1 OS=Emericella nidulans
+0.00030	33	48	162	sp|Q1XGE2|HAC1_ASPOR	214	318	sp|Q91XE9|CR3L3_MOUSE	Cyclic AMP-responsive element-binding protein 3-like
+0.00030	28	15	56	sp|Q1XGE2|HAC1_ASPOR	130	171	sp|Q91XE9|CR3L3_MOUSE	Cyclic AMP-responsive element-binding protein 3-like
+0.00032	26	48	275	sp|Q1XGE2|HAC1_ASPOR	213	434	sp|Q3SYZ3|CR3L3_BOVIN	Cyclic AMP-responsive element-binding protein 3-like
+0.00032	22	18	154	sp|Q1XGE2|HAC1_ASPOR	204	338	sp|Q6NW59|ATF4_DANRE	Cyclic AMP-dependent transcription factor ATF-4 OS=Danio
+0.00032	40	73	135	sp|Q1XGE2|HAC1_ASPOR	52	114	sp|Q9R1S4|XBP1_RAT	X-box-binding protein 1 OS=Rattus norvegicus GN=Xbp1 PE=2
+0.00034	28	18	160	sp|Q1XGE2|HAC1_ASPOR	212	349	sp|Q06507|ATF4_MOUSE	Cyclic AMP-dependent transcription factor ATF-4 OS=Mus
+0.00044	31	66	160	sp|Q1XGE2|HAC1_ASPOR	258	351	sp|P18848|ATF4_HUMAN	Cyclic AMP-dependent transcription factor ATF-4 OS=Homo
+0.00045	28	71	160	sp|Q1XGE2|HAC1_ASPOR	17	103	sp|O35284|BATF_MOUSE	Basic leucine zipper transcriptional factor ATF-like
+0.00053	28	72	222	sp|Q1XGE2|HAC1_ASPOR	145	290	sp|P13346|FOSB_MOUSE	Protein fosB OS=Mus musculus GN=Fosb PE=2 SV=1
+0.00059	26	29	163	sp|Q1XGE2|HAC1_ASPOR	171	307	sp|Q90888|MAFB_CHICK	Transcription factor MafB OS=Gallus gallus GN=MAFB PE=1
+0.00059	26	29	163	sp|Q1XGE2|HAC1_ASPOR	171	307	sp|Q90370|MAFB_COTJA	Transcription factor MafB OS=Coturnix coturnix japonica
+0.00071	34	73	143	sp|Q1XGE2|HAC1_ASPOR	52	130	sp|O35426|XBP1_MOUSE	X-box-binding protein 1 OS=Mus musculus GN=Xbp1 PE=2 SV=2
+0.00084	25	68	216	sp|Q1XGE2|HAC1_ASPOR	109	261	sp|P51145|FOSL2_RAT	Fos-related antigen 2 OS=Rattus norvegicus GN=Fosl2 PE=2
+0.00090	28	48	227	sp|Q1XGE2|HAC1_ASPOR	218	383	sp|Q68CJ9|CR3L3_HUMAN	Cyclic AMP-responsive element-binding protein 3-like
+0.00097	24	43	203	sp|Q1XGE2|HAC1_ASPOR	675	844	sp|A4R2R1|NST1_MAGGR	Stress response protein NST1 OS=Magnaporthe grisea
+5.1	24	35	142	sp|Q1XGE2|HAC1_ASPOR	614	718	sp|A4R2R1|NST1_MAGGR	Stress response protein NST1 OS=Magnaporthe grisea
+0.0011	34	83	167	sp|Q1XGE2|HAC1_ASPOR	201	281	sp|O57342|MAFA_COTJA	Transcription factor MafA OS=Coturnix coturnix japonica
+0.0012	26	47	193	sp|Q1XGE2|HAC1_ASPOR	5	156	sp|O60675|MAFK_HUMAN	Transcription factor MafK OS=Homo sapiens GN=MAFK PE=1
+0.0012	29	64	232	sp|Q1XGE2|HAC1_ASPOR	88	263	sp|P15407|FOSL1_HUMAN	Fos-related antigen 1 OS=Homo sapiens GN=FOSL1 PE=1 SV=1
+0.0014	33	48	162	sp|Q1XGE2|HAC1_ASPOR	214	318	sp|Q5FVM5|CR3L3_RAT	Cyclic AMP-responsive element-binding protein 3-like
+0.0014	26	15	56	sp|Q1XGE2|HAC1_ASPOR	130	171	sp|Q5FVM5|CR3L3_RAT	Cyclic AMP-responsive element-binding protein 3-like
+0.0015	25	9	221	sp|Q1XGE2|HAC1_ASPOR	105	326	sp|Q03173|ENAH_MOUSE	Protein enabled homolog OS=Mus musculus GN=Enah PE=1 SV=2
+0.0015	27	72	222	sp|Q1XGE2|HAC1_ASPOR	145	290	sp|P53539|FOSB_HUMAN	Protein fosB OS=Homo sapiens GN=FOSB PE=1 SV=1
+0.0016	33	16	119	sp|Q1XGE2|HAC1_ASPOR	188	291	sp|Q2VZV0|IF2_MAGSA	Translation initiation factor IF-2 OS=Magnetospirillum
+0.0017	26	47	193	sp|Q1XGE2|HAC1_ASPOR	5	156	sp|Q61827|MAFK_MOUSE	Transcription factor MafK OS=Mus musculus GN=Mafk PE=2
+0.0018	30	8	150	sp|Q1XGE2|HAC1_ASPOR	370	508	sp|P29747|CREBA_DROME	Cyclic AMP response element-binding protein A
+0.0018	66	10	21	sp|Q1XGE2|HAC1_ASPOR	71	82	sp|P29747|CREBA_DROME	Cyclic AMP response element-binding protein A
+0.0019	30	74	237	sp|Q1XGE2|HAC1_ASPOR	125	298	sp|O88479|FOS_MESAU	Proto-oncogene c-Fos OS=Mesocricetus auratus GN=FOS PE=3
+0.0019	26	72	209	sp|Q1XGE2|HAC1_ASPOR	145	284	sp|Q9TUB3|FOSB_CANFA	Protein fosB OS=Canis familiaris GN=FOSB PE=3 SV=1
+0.0020	31	54	146	sp|Q1XGE2|HAC1_ASPOR	192	280	sp|Q8TEY5|CR3L4_HUMAN	Cyclic AMP-responsive element-binding protein 3-like
+0.0020	31	54	146	sp|Q1XGE2|HAC1_ASPOR	192	280	sp|Q5UEM8|CR3L4_MACFA	Cyclic AMP-responsive element-binding protein 3-like
+0.0020	30	66	160	sp|Q1XGE2|HAC1_ASPOR	255	347	sp|Q9ES19|ATF4_RAT	Cyclic AMP-dependent transcription factor ATF-4 OS=Rattus
+0.0020	22	6	254	sp|Q1XGE2|HAC1_ASPOR	39	286	sp|P79702|FOS_CYPCA	Proto-oncogene c-Fos OS=Cyprinus carpio GN=fos PE=2 SV=1
+0.0021	31	35	142	sp|Q1XGE2|HAC1_ASPOR	111	219	sp|Q8N8S7|ENAH_HUMAN	Protein enabled homolog OS=Homo sapiens GN=ENAH PE=1 SV=2
+0.045	30	37	142	sp|Q1XGE2|HAC1_ASPOR	102	207	sp|Q8N8S7|ENAH_HUMAN	Protein enabled homolog OS=Homo sapiens GN=ENAH PE=1 SV=2
+0.20	28	49	173	sp|Q1XGE2|HAC1_ASPOR	177	302	sp|Q8N8S7|ENAH_HUMAN	Protein enabled homolog OS=Homo sapiens GN=ENAH PE=1 SV=2
+0.0023	25	68	216	sp|Q1XGE2|HAC1_ASPOR	108	260	sp|P47930|FOSL2_MOUSE	Fos-related antigen 2 OS=Mus musculus GN=Fosl2 PE=2 SV=1
+0.0027	29	26	172	sp|Q1XGE2|HAC1_ASPOR	277	424	sp|Q5R9C9|ATF7_PONAB	Cyclic AMP-dependent transcription factor ATF-7 OS=Pongo
+0.0028	29	26	172	sp|Q1XGE2|HAC1_ASPOR	288	435	sp|P17544|ATF7_HUMAN	Cyclic AMP-dependent transcription factor ATF-7 OS=Homo
+0.0030	27	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|Q9Y5Q3|MAFB_HUMAN	Transcription factor MafB OS=Homo sapiens GN=MAFB PE=1
+0.0032	28	42	208	sp|Q1XGE2|HAC1_ASPOR	92	255	sp|Q9UQ88|CD11A_HUMAN	Cell division protein kinase 11A OS=Homo sapiens
+0.0032	26	259	302	sp|Q1XGE2|HAC1_ASPOR	622	665	sp|Q9UQ88|CD11A_HUMAN	Cell division protein kinase 11A OS=Homo sapiens
+0.0033	30	63	185	sp|Q1XGE2|HAC1_ASPOR	159	282	sp|O43889|CREB3_HUMAN	Cyclic AMP-responsive element-binding protein 3 OS=Homo
+0.0034	26	19	146	sp|Q1XGE2|HAC1_ASPOR	210	338	sp|Q3ZCH6|ATF4_BOVIN	Cyclic AMP-dependent transcription factor ATF-4 OS=Bos
+0.0035	29	26	143	sp|Q1XGE2|HAC1_ASPOR	277	392	sp|Q8R0S1|ATF7_MOUSE	Cyclic AMP-dependent transcription factor ATF-7 OS=Mus
+0.0037	37	79	149	sp|Q1XGE2|HAC1_ASPOR	218	296	sp|P42774|GBF1_ARATH	G-box-binding factor 1 OS=Arabidopsis thaliana GN=GBF1
+3.9	29	23	144	sp|Q1XGE2|HAC1_ASPOR	191	306	sp|P42774|GBF1_ARATH	G-box-binding factor 1 OS=Arabidopsis thaliana GN=GBF1
+0.0038	26	20	221	sp|Q1XGE2|HAC1_ASPOR	105	301	sp|Q8SQ19|CREB3_BOVIN	Cyclic AMP-responsive element-binding protein 3 OS=Bos
+0.0038	33	60	146	sp|Q1XGE2|HAC1_ASPOR	170	252	sp|Q5UEM7|CR3L4_RAT	Cyclic AMP-responsive element-binding protein 3-like
+0.0038	50	19	36	sp|Q1XGE2|HAC1_ASPOR	29	46	sp|Q5UEM7|CR3L4_RAT	Cyclic AMP-responsive element-binding protein 3-like
+0.0039	26	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|P54842|MAFB_RAT	Transcription factor MafB OS=Rattus norvegicus GN=Mafb PE=1
+0.0039	27	3	236	sp|Q1XGE2|HAC1_ASPOR	429	655	sp|A5PKJ4|MK07_BOVIN	Mitogen-activated protein kinase 7 OS=Bos taurus GN=MAPK7
+0.0040	26	2	237	sp|Q1XGE2|HAC1_ASPOR	57	297	sp|P01101|FOS_MOUSE	Proto-oncogene c-Fos OS=Mus musculus GN=Fos PE=1 SV=1
+0.0045	25	41	172	sp|Q1XGE2|HAC1_ASPOR	629	763	sp|O13024|INCEA_XENLA	Inner centromere protein A OS=Xenopus laevis GN=incenp-A
+0.26	33	67	146	sp|Q1XGE2|HAC1_ASPOR	484	567	sp|O13024|INCEA_XENLA	Inner centromere protein A OS=Xenopus laevis GN=incenp-A
+5.3	28	38	154	sp|Q1XGE2|HAC1_ASPOR	584	703	sp|O13024|INCEA_XENLA	Inner centromere protein A OS=Xenopus laevis GN=incenp-A
+0.0050	27	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|Q2PFS4|MAFB_MACFA	Transcription factor MafB OS=Macaca fascicularis GN=MAFB
+0.0050	28	41	230	sp|Q1XGE2|HAC1_ASPOR	747	930	sp|Q5KGK5|EIF3A_CRYNE	Eukaryotic translation initiation factor 3 subunit A
+0.0051	29	74	237	sp|Q1XGE2|HAC1_ASPOR	125	297	sp|O97930|FOS_PIG	Proto-oncogene c-Fos OS=Sus scrofa GN=FOS PE=3 SV=2
+0.0052	31	74	237	sp|Q1XGE2|HAC1_ASPOR	125	297	sp|P01102|FOS_MSVFB	p55-v-Fos-transforming protein OS=FBJ murine osteosarcoma
+0.0057	24	74	223	sp|Q1XGE2|HAC1_ASPOR	4	163	sp|Q09926|PCR1_SCHPO	Transcription factor pcr1 OS=Schizosaccharomyces pombe
+0.0062	25	47	193	sp|Q1XGE2|HAC1_ASPOR	5	156	sp|Q90596|MAFK_CHICK	Transcription factor MafK OS=Gallus gallus GN=MAFK PE=1
+0.0063	25	29	163	sp|Q1XGE2|HAC1_ASPOR	176	312	sp|Q504L8|MAFB_XENTR	Transcription factor MafB OS=Xenopus tropicalis GN=mafb
+0.0065	25	16	273	sp|Q1XGE2|HAC1_ASPOR	1009	1269	sp|Q1DQC1|PAN1_COCIM	Actin cytoskeleton-regulatory complex protein PAN1
+0.0065	26	14	163	sp|Q1XGE2|HAC1_ASPOR	174	319	sp|P54841|MAFB_MOUSE	Transcription factor MafB OS=Mus musculus GN=Mafb PE=1
+0.0078	22	41	219	sp|Q1XGE2|HAC1_ASPOR	800	987	sp|Q5A2K0|NST1_CANAL	Stress response protein NST1 OS=Candida albicans GN=NST1
+7.0	24	41	151	sp|Q1XGE2|HAC1_ASPOR	729	840	sp|Q5A2K0|NST1_CANAL	Stress response protein NST1 OS=Candida albicans GN=NST1
+0.0079	25	19	233	sp|Q1XGE2|HAC1_ASPOR	146	364	sp|Q8VCH8|UBXN4_MOUSE	UBX domain-containing protein 4 OS=Mus musculus GN=Ubxn4
+0.0080	25	8	199	sp|Q1XGE2|HAC1_ASPOR	138	322	sp|Q502F0|CR3LA_DANRE	Cyclic AMP-responsive element-binding protein 3-like
+0.0081	27	64	232	sp|Q1XGE2|HAC1_ASPOR	90	267	sp|P10158|FOSL1_RAT	Fos-related antigen 1 OS=Rattus norvegicus GN=Fosl1 PE=2
+0.0081	28	16	163	sp|Q1XGE2|HAC1_ASPOR	9	155	sp|P97875|JDP2_MOUSE	Jun dimerization protein 2 OS=Mus musculus GN=Jdp2 PE=1
+0.0081	28	16	163	sp|Q1XGE2|HAC1_ASPOR	9	155	sp|Q78E65|JDP2_RAT	Jun dimerization protein 2 OS=Rattus norvegicus GN=Jdp2
+0.0086	29	68	185	sp|Q1XGE2|HAC1_ASPOR	108	227	sp|P15408|FOSL2_HUMAN	Fos-related antigen 2 OS=Homo sapiens GN=FOSL2 PE=1 SV=1
+0.0087	32	89	167	sp|Q1XGE2|HAC1_ASPOR	205	281	sp|O42290|MAFA_CHICK	Transcription factor MafA OS=Gallus gallus GN=MAFA PE=1
+0.011	20	66	223	sp|Q1XGE2|HAC1_ASPOR	83	237	sp|A1C9M5|KAPC_ASPCL	Putative transcription factor kapC OS=Aspergillus
+0.011	47	299	315	sp|Q1XGE2|HAC1_ASPOR	269	285	sp|A1C9M5|KAPC_ASPCL	Putative transcription factor kapC OS=Aspergillus
+0.011	26	3	236	sp|Q1XGE2|HAC1_ASPOR	429	680	sp|P0C865|MK07_RAT	Mitogen-activated protein kinase 7 OS=Rattus norvegicus
+0.013	33	50	143	sp|Q1XGE2|HAC1_ASPOR	609	700	sp|Q15424|SAFB1_HUMAN	Scaffold attachment factor B1 OS=Homo sapiens GN=SAFB
+0.014	23	7	259	sp|Q1XGE2|HAC1_ASPOR	282	518	sp|O60841|IF2P_HUMAN	Eukaryotic translation initiation factor 5B OS=Homo
+0.014	23	6	259	sp|Q1XGE2|HAC1_ASPOR	278	518	sp|Q5RDE1|IF2P_PONAB	Eukaryotic translation initiation factor 5B OS=Pongo
+0.015	32	14	145	sp|Q1XGE2|HAC1_ASPOR	291	435	sp|Q9M7Q3|AI5L6_ARATH	ABSCISIC ACID-INSENSITIVE 5-like protein 6
+0.016	29	39	165	sp|Q1XGE2|HAC1_ASPOR	764	903	sp|A9V549|EIF3A_MONBE	Eukaryotic translation initiation factor 3 subunit A
+1.9	24	49	188	sp|Q1XGE2|HAC1_ASPOR	768	901	sp|A9V549|EIF3A_MONBE	Eukaryotic translation initiation factor 3 subunit A
+0.016	27	46	223	sp|Q1XGE2|HAC1_ASPOR	294	477	sp|Q9UKV3|ACINU_HUMAN	Apoptotic chromatin condensation inducer in the nucleus
+0.017	29	39	210	sp|Q1XGE2|HAC1_ASPOR	79	238	sp|Q63ZM7|STABP_XENLA	STAM-binding protein-like OS=Xenopus laevis GN=stambp
+0.018	26	6	180	sp|Q1XGE2|HAC1_ASPOR	281	460	sp|Q4QRL3|CC88B_MOUSE	Coiled-coil domain-containing protein 88B OS=Mus
+1.6	29	74	154	sp|Q1XGE2|HAC1_ASPOR	1164	1243	sp|Q4QRL3|CC88B_MOUSE	Coiled-coil domain-containing protein 88B OS=Mus
+0.019	28	74	237	sp|Q1XGE2|HAC1_ASPOR	125	297	sp|P01100|FOS_HUMAN	Proto-oncogene c-Fos OS=Homo sapiens GN=FOS PE=1 SV=1
+0.019	29	74	237	sp|Q1XGE2|HAC1_ASPOR	125	297	sp|P12841|FOS_RAT	Proto-oncogene c-Fos OS=Rattus norvegicus GN=Fos PE=1 SV=1
+0.019	27	28	157	sp|Q1XGE2|HAC1_ASPOR	13	131	sp|P19880|YAP1_YEAST	AP-1-like transcription factor YAP1 OS=Saccharomyces
+0.019	21	160	269	sp|Q1XGE2|HAC1_ASPOR	438	545	sp|P19880|YAP1_YEAST	AP-1-like transcription factor YAP1 OS=Saccharomyces
+0.019	35	73	153	sp|Q1XGE2|HAC1_ASPOR	644	724	sp|Q8CH25|SLTM_MOUSE	SAFB-like transcription modulator OS=Mus musculus GN=Sltm
+0.069	28	39	151	sp|Q1XGE2|HAC1_ASPOR	597	709	sp|Q8CH25|SLTM_MOUSE	SAFB-like transcription modulator OS=Mus musculus GN=Sltm
+0.020	35	73	153	sp|Q1XGE2|HAC1_ASPOR	645	725	sp|Q9NWH9|SLTM_HUMAN	SAFB-like transcription modulator OS=Homo sapiens GN=SLTM
+0.15	28	39	151	sp|Q1XGE2|HAC1_ASPOR	598	710	sp|Q9NWH9|SLTM_HUMAN	SAFB-like transcription modulator OS=Homo sapiens GN=SLTM
+0.020	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q16534|HLF_HUMAN	Hepatic leukemia factor OS=Homo sapiens GN=HLF PE=2 SV=1
+0.020	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q8BW74|HLF_MOUSE	Hepatic leukemia factor OS=Mus musculus GN=Hlf PE=2 SV=1
+0.021	27	74	219	sp|Q1XGE2|HAC1_ASPOR	489	640	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Yarrowia lipolytica
+0.045	27	48	194	sp|Q1XGE2|HAC1_ASPOR	477	629	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Yarrowia lipolytica
+1.2	23	44	224	sp|Q1XGE2|HAC1_ASPOR	441	606	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Yarrowia lipolytica
+7.0	27	37	154	sp|Q1XGE2|HAC1_ASPOR	368	480	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Yarrowia lipolytica
+0.85	26	43	141	sp|Q1XGE2|HAC1_ASPOR	389	483	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Yarrowia lipolytica
+0.85	27	129	216	sp|Q1XGE2|HAC1_ASPOR	633	721	sp|Q6CBW0|NST1_YARLI	Stress response protein NST1 OS=Yarrowia lipolytica
+0.022	30	73	153	sp|Q1XGE2|HAC1_ASPOR	607	689	sp|Q498L2|SLTM_XENLA	SAFB-like transcription modulator OS=Xenopus laevis
+0.022	26	29	83	sp|Q1XGE2|HAC1_ASPOR	456	509	sp|Q498L2|SLTM_XENLA	SAFB-like transcription modulator OS=Xenopus laevis
+0.045	20	6	83	sp|Q1XGE2|HAC1_ASPOR	120	195	sp|Q498L2|SLTM_XENLA	SAFB-like transcription modulator OS=Xenopus laevis
+0.023	25	9	123	sp|Q1XGE2|HAC1_ASPOR	1	122	sp|Q1E554|CGR1_COCIM	rRNA-processing protein CGR1 OS=Coccidioides immitis
+0.023	27	15	144	sp|Q1XGE2|HAC1_ASPOR	47	181	sp|Q91496|FOS_TETFL	Proto-oncogene c-Fos OS=Tetraodon fluviatilis GN=fos PE=3
+0.023	26	62	200	sp|Q1XGE2|HAC1_ASPOR	455	605	sp|Q9ESN9|JIP3_MOUSE	C-Jun-amino-terminal kinase-interacting protein 3 OS=Mus
+0.023	31	8	65	sp|Q1XGE2|HAC1_ASPOR	266	322	sp|Q9ESN9|JIP3_MOUSE	C-Jun-amino-terminal kinase-interacting protein 3 OS=Mus
+0.023	25	15	248	sp|Q1XGE2|HAC1_ASPOR	48	279	sp|P53450|FOS_TAKRU	Proto-oncogene c-Fos OS=Takifugu rubripes GN=fos PE=3 SV=1
+0.024	22	43	187	sp|Q1XGE2|HAC1_ASPOR	343	478	sp|Q05682|CALD1_HUMAN	Caldesmon OS=Homo sapiens GN=CALD1 PE=1 SV=2
+0.49	25	73	239	sp|Q1XGE2|HAC1_ASPOR	541	702	sp|Q05682|CALD1_HUMAN	Caldesmon OS=Homo sapiens GN=CALD1 PE=1 SV=2
+4.7	25	43	133	sp|Q1XGE2|HAC1_ASPOR	315	400	sp|Q05682|CALD1_HUMAN	Caldesmon OS=Homo sapiens GN=CALD1 PE=1 SV=2
+0.49	24	32	84	sp|Q1XGE2|HAC1_ASPOR	425	477	sp|Q05682|CALD1_HUMAN	Caldesmon OS=Homo sapiens GN=CALD1 PE=1 SV=2
+0.024	28	74	237	sp|Q1XGE2|HAC1_ASPOR	125	297	sp|O77628|FOS_BOVIN	Proto-oncogene c-Fos OS=Bos taurus GN=FOS PE=2 SV=2
+0.024	29	74	237	sp|Q1XGE2|HAC1_ASPOR	125	298	sp|Q56TT7|FOS_PHOCM	Proto-oncogene c-Fos OS=Phodopus campbelli GN=FOS PE=3
+0.025	24	66	223	sp|Q1XGE2|HAC1_ASPOR	85	240	sp|Q0CEI3|KAPC_ASPTN	Putative transcription factor kapC OS=Aspergillus terreus
+0.025	24	9	250	sp|Q1XGE2|HAC1_ASPOR	628	858	sp|Q6P9R4|ARHGI_MOUSE	Rho guanine nucleotide exchange factor 18 OS=Mus
+0.025	24	8	181	sp|Q1XGE2|HAC1_ASPOR	14	192	sp|P29681|IMPE2_DROME	20-hydroxyecdysone protein OS=Drosophila melanogaster
+0.026	25	7	149	sp|Q1XGE2|HAC1_ASPOR	530	669	sp|A2AJI0|MA7D1_MOUSE	MAP7 domain-containing protein 1 OS=Mus musculus
+0.41	22	6	172	sp|Q1XGE2|HAC1_ASPOR	570	748	sp|A2AJI0|MA7D1_MOUSE	MAP7 domain-containing protein 1 OS=Mus musculus
+0.048	25	7	145	sp|Q1XGE2|HAC1_ASPOR	58	202	sp|A2AJI0|MA7D1_MOUSE	MAP7 domain-containing protein 1 OS=Mus musculus
+0.048	27	133	204	sp|Q1XGE2|HAC1_ASPOR	524	589	sp|A2AJI0|MA7D1_MOUSE	MAP7 domain-containing protein 1 OS=Mus musculus
+0.028	33	50	143	sp|Q1XGE2|HAC1_ASPOR	609	699	sp|Q5R452|SAFB1_PONAB	Scaffold attachment factor B1 OS=Pongo abelii GN=SAFB
+0.029	29	80	199	sp|Q1XGE2|HAC1_ASPOR	207	322	sp|Q1LYG4|CR3LB_DANRE	Cyclic AMP-responsive element-binding protein 3-like
+0.029	25	43	149	sp|Q1XGE2|HAC1_ASPOR	319	432	sp|Q9D439|CCD11_MOUSE	Coiled-coil domain-containing protein 11 OS=Mus musculus
+0.029	27	64	232	sp|Q1XGE2|HAC1_ASPOR	88	265	sp|P48755|FOSL1_MOUSE	Fos-related antigen 1 OS=Mus musculus GN=Fosl1 PE=2 SV=2
+0.029	25	29	163	sp|Q1XGE2|HAC1_ASPOR	171	309	sp|Q6DE84|MAFB_XENLA	Transcription factor MafB OS=Xenopus laevis GN=mafb PE=2
+0.030	30	74	153	sp|Q1XGE2|HAC1_ASPOR	268	347	sp|Q54RZ9|BZPG_DICDI	Probable basic-leucine zipper transcription factor G
+0.030	24	1	215	sp|Q1XGE2|HAC1_ASPOR	208	432	sp|A0JMK9|CAF1A_DANRE	Chromatin assembly factor 1 subunit A OS=Danio rerio
+0.030	31	236	286	sp|Q1XGE2|HAC1_ASPOR	524	569	sp|A0JMK9|CAF1A_DANRE	Chromatin assembly factor 1 subunit A OS=Danio rerio
+0.031	26	68	207	sp|Q1XGE2|HAC1_ASPOR	108	249	sp|P18625|FOSL2_CHICK	Fos-related antigen 2 OS=Gallus gallus GN=FOSL2 PE=1
+0.031	22	66	223	sp|Q1XGE2|HAC1_ASPOR	85	236	sp|A2R346|KAPC_ASPNC	Putative transcription factor kapC OS=Aspergillus niger
+0.031	28	74	237	sp|Q1XGE2|HAC1_ASPOR	126	298	sp|Q8HZP6|FOS_FELCA	Proto-oncogene c-Fos OS=Felis catus GN=FOS PE=2 SV=1
+0.034	25	49	150	sp|Q1XGE2|HAC1_ASPOR	326	428	sp|P26042|MOES_PIG	Moesin OS=Sus scrofa GN=MSN PE=2 SV=3
+0.043	30	66	157	sp|Q1XGE2|HAC1_ASPOR	297	384	sp|P26042|MOES_PIG	Moesin OS=Sus scrofa GN=MSN PE=2 SV=3
+0.034	25	49	150	sp|Q1XGE2|HAC1_ASPOR	326	428	sp|Q2HJ49|MOES_BOVIN	Moesin OS=Bos taurus GN=MSN PE=2 SV=3
+0.056	31	66	145	sp|Q1XGE2|HAC1_ASPOR	297	367	sp|Q2HJ49|MOES_BOVIN	Moesin OS=Bos taurus GN=MSN PE=2 SV=3
+0.035	26	48	255	sp|Q1XGE2|HAC1_ASPOR	60	271	sp|A5FV21|IF2_ACICJ	Translation initiation factor IF-2 OS=Acidiphilium cryptum
+0.56	24	27	229	sp|Q1XGE2|HAC1_ASPOR	27	238	sp|A5FV21|IF2_ACICJ	Translation initiation factor IF-2 OS=Acidiphilium cryptum
+0.035	27	32	205	sp|Q1XGE2|HAC1_ASPOR	8	187	sp|A6SCT6|DBP3_BOTFB	ATP-dependent RNA helicase dbp3 OS=Botryotinia fuckeliana
+0.036	32	35	168	sp|Q1XGE2|HAC1_ASPOR	754	892	sp|Q7PGE8|EIF3A_ANOGA	Eukaryotic translation initiation factor 3 subunit A
+0.037	26	39	216	sp|Q1XGE2|HAC1_ASPOR	488	676	sp|O77788|NFM_BOVIN	Neurofilament medium polypeptide OS=Bos taurus GN=NEFM
+0.038	24	17	178	sp|Q1XGE2|HAC1_ASPOR	151	317	sp|Q9JTB5|IF2_NEIMA	Translation initiation factor IF-2 OS=Neisseria
+0.038	24	17	178	sp|Q1XGE2|HAC1_ASPOR	151	317	sp|Q9JYD2|IF2_NEIMB	Translation initiation factor IF-2 OS=Neisseria
+0.038	24	17	178	sp|Q1XGE2|HAC1_ASPOR	151	317	sp|A1KV51|IF2_NEIMF	Translation initiation factor IF-2 OS=Neisseria
+0.039	24	17	162	sp|Q1XGE2|HAC1_ASPOR	49	179	sp|P0C5H8|KAPC_EMENI	Putative transcription factor kapC OS=Emericella nidulans
+0.040	30	5	149	sp|Q1XGE2|HAC1_ASPOR	610	764	sp|Q80YR5|SAFB2_MOUSE	Scaffold attachment factor B2 OS=Mus musculus GN=Safb2
+0.040	29	74	237	sp|Q1XGE2|HAC1_ASPOR	125	298	sp|Q56TN0|FOS_PHORO	Proto-oncogene c-Fos OS=Phodopus roborovskii GN=FOS PE=3
+0.042	30	83	167	sp|Q1XGE2|HAC1_ASPOR	203	284	sp|Q4U1U2|MAFA_XENTR	Transcription factor MafA OS=Xenopus tropicalis GN=mafa
+0.043	25	49	150	sp|Q1XGE2|HAC1_ASPOR	326	428	sp|P26038|MOES_HUMAN	Moesin OS=Homo sapiens GN=MSN PE=1 SV=3
+0.056	31	66	145	sp|Q1XGE2|HAC1_ASPOR	297	367	sp|P26038|MOES_HUMAN	Moesin OS=Homo sapiens GN=MSN PE=1 SV=3
+0.044	25	2	148	sp|Q1XGE2|HAC1_ASPOR	142	290	sp|Q64709|HLF_RAT	Hepatic leukemia factor OS=Rattus norvegicus GN=Hlf PE=2
+0.045	28	29	142	sp|Q1XGE2|HAC1_ASPOR	216	324	sp|A0JMT0|CA1AB_XENLA	Chromatin assembly factor 1 subunit A-B OS=Xenopus
+0.058	22	8	210	sp|Q1XGE2|HAC1_ASPOR	234	432	sp|A0JMT0|CA1AB_XENLA	Chromatin assembly factor 1 subunit A-B OS=Xenopus
+0.045	28	48	180	sp|Q1XGE2|HAC1_ASPOR	824	957	sp|Q6Y7W6|PERQ2_HUMAN	PERQ amino acid-rich with GYF domain-containing protein
+0.045	27	1	33	sp|Q1XGE2|HAC1_ASPOR	429	461	sp|Q6Y7W6|PERQ2_HUMAN	PERQ amino acid-rich with GYF domain-containing protein
+0.046	29	48	163	sp|Q1XGE2|HAC1_ASPOR	33	155	sp|Q8WYK2|JDP2_HUMAN	Jun dimerization protein 2 OS=Homo sapiens GN=JDP2 PE=1
+0.047	30	52	143	sp|Q1XGE2|HAC1_ASPOR	194	284	sp|Q8K1L0|CREB5_MOUSE	Cyclic AMP-responsive element-binding protein 5 OS=Mus
+0.047	22	2	193	sp|Q1XGE2|HAC1_ASPOR	410	608	sp|Q9C0A6|SETD5_HUMAN	SET domain-containing protein 5 OS=Homo sapiens GN=SETD5
+0.047	25	22	233	sp|Q1XGE2|HAC1_ASPOR	156	366	sp|Q92575|UBXN4_HUMAN	UBX domain-containing protein 4 OS=Homo sapiens GN=UBXN4
+0.047	25	22	233	sp|Q1XGE2|HAC1_ASPOR	156	366	sp|Q5R4I3|UBXN4_PONAB	UBX domain-containing protein 4 OS=Pongo abelii GN=UBXN4
+0.049	39	80	142	sp|Q1XGE2|HAC1_ASPOR	181	242	sp|P14233|TGA1B_TOBAC	TGACG-sequence-specific DNA-binding protein TGA-1B
+0.049	24	17	178	sp|Q1XGE2|HAC1_ASPOR	151	317	sp|A9M1D5|IF2_NEIM0	Translation initiation factor IF-2 OS=Neisseria
+0.050	27	80	175	sp|Q1XGE2|HAC1_ASPOR	546	644	sp|Q554P0|BZPJ_DICDI	Probable basic-leucine zipper transcription factor J
+0.051	25	43	146	sp|Q1XGE2|HAC1_ASPOR	279	378	sp|Q8N9W4|GG6L2_HUMAN	Golgin subfamily A member 6-like protein 2 OS=Homo
+3.7	26	48	138	sp|Q1XGE2|HAC1_ASPOR	361	453	sp|Q8N9W4|GG6L2_HUMAN	Golgin subfamily A member 6-like protein 2 OS=Homo
+4.8	19	35	142	sp|Q1XGE2|HAC1_ASPOR	302	409	sp|Q8N9W4|GG6L2_HUMAN	Golgin subfamily A member 6-like protein 2 OS=Homo
+7.9	24	43	142	sp|Q1XGE2|HAC1_ASPOR	404	509	sp|Q8N9W4|GG6L2_HUMAN	Golgin subfamily A member 6-like protein 2 OS=Homo
+0.051	31	71	124	sp|Q1XGE2|HAC1_ASPOR	3	54	sp|Q8N300|CCD23_HUMAN	Coiled-coil domain-containing protein 23 OS=Homo sapiens
+0.054	31	41	149	sp|Q1XGE2|HAC1_ASPOR	174	289	sp|O81025|P2A03_ARATH	Putative protein PHLOEM PROTEIN 2-LIKE A3 OS=Arabidopsis
+0.056	25	49	150	sp|Q1XGE2|HAC1_ASPOR	326	428	sp|O35763|MOES_RAT	Moesin OS=Rattus norvegicus GN=Msn PE=1 SV=3
+0.26	28	66	145	sp|Q1XGE2|HAC1_ASPOR	297	367	sp|O35763|MOES_RAT	Moesin OS=Rattus norvegicus GN=Msn PE=1 SV=3
+8.9	29	73	168	sp|Q1XGE2|HAC1_ASPOR	379	475	sp|O35763|MOES_RAT	Moesin OS=Rattus norvegicus GN=Msn PE=1 SV=3
+0.057	28	44	210	sp|Q1XGE2|HAC1_ASPOR	361	536	sp|Q9Z220|TSG10_RAT	Testis-specific gene 10 protein OS=Rattus norvegicus
+0.058	26	39	176	sp|Q1XGE2|HAC1_ASPOR	651	787	sp|Q32N93|INCEB_XENLA	Inner centromere protein B OS=Xenopus laevis GN=incenp-B
+1.2	30	67	146	sp|Q1XGE2|HAC1_ASPOR	502	585	sp|Q32N93|INCEB_XENLA	Inner centromere protein B OS=Xenopus laevis GN=incenp-B
+3.3	24	46	177	sp|Q1XGE2|HAC1_ASPOR	645	771	sp|Q32N93|INCEB_XENLA	Inner centromere protein B OS=Xenopus laevis GN=incenp-B
+9.0	26	41	157	sp|Q1XGE2|HAC1_ASPOR	610	737	sp|Q32N93|INCEB_XENLA	Inner centromere protein B OS=Xenopus laevis GN=incenp-B
+0.058	29	32	211	sp|Q1XGE2|HAC1_ASPOR	177	354	sp|Q95XZ5|NPBL_CAEEL	Nipped-B-like protein pqn-85 OS=Caenorhabditis elegans
+0.061	27	74	171	sp|Q1XGE2|HAC1_ASPOR	801	901	sp|Q6CT90|EIF3A_KLULA	Eukaryotic translation initiation factor 3 subunit A
+0.061	25	4	232	sp|Q1XGE2|HAC1_ASPOR	634	845	sp|Q5F489|TAF3_CHICK	Transcription initiation factor TFIID subunit 3 OS=Gallus
+0.061	35	80	156	sp|Q1XGE2|HAC1_ASPOR	246	326	sp|P42775|GBF2_ARATH	G-box-binding factor 2 OS=Arabidopsis thaliana GN=GBF2
+0.062	28	18	154	sp|Q1XGE2|HAC1_ASPOR	283	415	sp|Q55EQ3|Y9086_DICDI	Uncharacterized abhydrolase domain-containing protein
+0.079	25	13	187	sp|Q1XGE2|HAC1_ASPOR	324	487	sp|Q55EQ3|Y9086_DICDI	Uncharacterized abhydrolase domain-containing protein
+1.6	31	67	187	sp|Q1XGE2|HAC1_ASPOR	639	756	sp|Q55EQ3|Y9086_DICDI	Uncharacterized abhydrolase domain-containing protein
+0.062	29	73	151	sp|Q1XGE2|HAC1_ASPOR	1105	1180	sp|Q54LU8|Y8646_DICDI	Probable serine/threonine-protein kinase DDB_G0286465
+0.062	21	7	85	sp|Q1XGE2|HAC1_ASPOR	536	614	sp|Q54LU8|Y8646_DICDI	Probable serine/threonine-protein kinase DDB_G0286465
+0.25	32	43	70	sp|Q1XGE2|HAC1_ASPOR	755	782	sp|Q54LU8|Y8646_DICDI	Probable serine/threonine-protein kinase DDB_G0286465
+0.068	27	29	183	sp|Q1XGE2|HAC1_ASPOR	22	188	sp|P94517|YSCB_BACSU	Uncharacterized protein yscB OS=Bacillus subtilis GN=yscB
+0.069	23	54	174	sp|Q1XGE2|HAC1_ASPOR	799	924	sp|Q2UKG6|EIF3A_ASPOR	Eukaryotic translation initiation factor 3 subunit A
+0.071	24	49	226	sp|Q1XGE2|HAC1_ASPOR	517	693	sp|Q9Y592|CCD41_HUMAN	Coiled-coil domain-containing protein 41 OS=Homo sapiens
+6.7	26	32	146	sp|Q1XGE2|HAC1_ASPOR	192	307	sp|Q9Y592|CCD41_HUMAN	Coiled-coil domain-containing protein 41 OS=Homo sapiens
+0.072	24	13	267	sp|Q1XGE2|HAC1_ASPOR	284	545	sp|Q6Y7W8|PERQ2_MOUSE	PERQ amino acid-rich with GYF domain-containing protein
+0.091	28	48	180	sp|Q1XGE2|HAC1_ASPOR	825	958	sp|Q6Y7W8|PERQ2_MOUSE	PERQ amino acid-rich with GYF domain-containing protein
+0.091	33	10	46	sp|Q1XGE2|HAC1_ASPOR	434	472	sp|Q6Y7W8|PERQ2_MOUSE	PERQ amino acid-rich with GYF domain-containing protein
+0.072	35	246	265	sp|Q1XGE2|HAC1_ASPOR	1169	1188	sp|Q6Y7W8|PERQ2_MOUSE	PERQ amino acid-rich with GYF domain-containing protein
+0.072	33	75	136	sp|Q1XGE2|HAC1_ASPOR	202	263	sp|Q8X229|FCR3_CANAL	Fluconazole resistance protein 3 OS=Candida albicans
+0.072	24	49	150	sp|Q1XGE2|HAC1_ASPOR	326	428	sp|P26041|MOES_MOUSE	Moesin OS=Mus musculus GN=Msn PE=1 SV=3
+0.26	28	66	145	sp|Q1XGE2|HAC1_ASPOR	297	367	sp|P26041|MOES_MOUSE	Moesin OS=Mus musculus GN=Msn PE=1 SV=3
+0.074	25	55	271	sp|Q1XGE2|HAC1_ASPOR	941	1150	sp|Q9TW28|MYOM_DICDI	Myosin-M heavy chain OS=Dictyostelium discoideum GN=myoM
+0.20	28	46	205	sp|Q1XGE2|HAC1_ASPOR	943	1098	sp|Q9TW28|MYOM_DICDI	Myosin-M heavy chain OS=Dictyostelium discoideum GN=myoM
+0.077	24	32	294	sp|Q1XGE2|HAC1_ASPOR	107	375	sp|Q9NZ53|PDXL2_HUMAN	Podocalyxin-like protein 2 OS=Homo sapiens GN=PODXL2
+0.078	30	52	143	sp|Q1XGE2|HAC1_ASPOR	345	435	sp|Q02930|CREB5_HUMAN	Cyclic AMP-responsive element-binding protein 5 OS=Homo
+0.079	27	14	203	sp|Q1XGE2|HAC1_ASPOR	664	845	sp|Q5HZG4|TAF3_MOUSE	Transcription initiation factor TFIID subunit 3 OS=Mus
+4.4	23	72	229	sp|Q1XGE2|HAC1_ASPOR	697	842	sp|Q5HZG4|TAF3_MOUSE	Transcription initiation factor TFIID subunit 3 OS=Mus
+4.4	24	4	89	sp|Q1XGE2|HAC1_ASPOR	485	567	sp|Q5HZG4|TAF3_MOUSE	Transcription initiation factor TFIID subunit 3 OS=Mus
+7.0	33	17	74	sp|Q1XGE2|HAC1_ASPOR	240	294	sp|Q5HZG4|TAF3_MOUSE	Transcription initiation factor TFIID subunit 3 OS=Mus
+0.080	23	41	183	sp|Q1XGE2|HAC1_ASPOR	70	203	sp|A0LE19|IF2_MAGSM	Translation initiation factor IF-2 OS=Magnetococcus sp.
+0.081	24	41	221	sp|Q1XGE2|HAC1_ASPOR	246	432	sp|Q869E1|DNLI1_DICDI	DNA ligase 1 OS=Dictyostelium discoideum GN=lig1 PE=3
+3.5	23	32	209	sp|Q1XGE2|HAC1_ASPOR	227	407	sp|Q869E1|DNLI1_DICDI	DNA ligase 1 OS=Dictyostelium discoideum GN=lig1 PE=3
+0.085	27	48	149	sp|Q1XGE2|HAC1_ASPOR	736	839	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+0.49	25	30	152	sp|Q1XGE2|HAC1_ASPOR	122	247	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+0.63	24	35	146	sp|Q1XGE2|HAC1_ASPOR	428	540	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+1.0	25	49	146	sp|Q1XGE2|HAC1_ASPOR	498	596	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+1.3	25	49	146	sp|Q1XGE2|HAC1_ASPOR	470	568	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+2.2	22	49	154	sp|Q1XGE2|HAC1_ASPOR	526	634	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+3.7	30	75	154	sp|Q1XGE2|HAC1_ASPOR	366	443	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+3.7	24	49	138	sp|Q1XGE2|HAC1_ASPOR	554	646	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+3.7	26	41	154	sp|Q1XGE2|HAC1_ASPOR	631	738	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+4.7	23	40	151	sp|Q1XGE2|HAC1_ASPOR	711	827	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+4.7	23	32	154	sp|Q1XGE2|HAC1_ASPOR	650	772	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+6.1	27	40	142	sp|Q1XGE2|HAC1_ASPOR	596	704	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+6.1	25	40	154	sp|Q1XGE2|HAC1_ASPOR	568	674	sp|P22793|TRHY_SHEEP	Trichohyalin OS=Ovis aries GN=TCHH PE=2 SV=2
+0.088	32	63	155	sp|Q1XGE2|HAC1_ASPOR	192	277	sp|O70191|ATF5_MOUSE	Cyclic AMP-dependent transcription factor ATF-5 OS=Mus
+0.089	36	77	131	sp|Q1XGE2|HAC1_ASPOR	38	91	sp|Q39140|TGA6_ARATH	Transcription factor TGA6 OS=Arabidopsis thaliana GN=TGA6
+0.089	27	73	221	sp|Q1XGE2|HAC1_ASPOR	52	196	sp|Q68EL6|NFIL3_DANRE	Nuclear factor interleukin-3-regulated protein OS=Danio
+0.089	28	43	146	sp|Q1XGE2|HAC1_ASPOR	390	495	sp|Q55FW7|GLE1_DICDI	Nucleoporin GLE1 OS=Dictyostelium discoideum GN=gle1 PE=3
+1.8	26	48	145	sp|Q1XGE2|HAC1_ASPOR	377	466	sp|Q55FW7|GLE1_DICDI	Nucleoporin GLE1 OS=Dictyostelium discoideum GN=gle1 PE=3
+0.096	28	43	142	sp|Q1XGE2|HAC1_ASPOR	468	570	sp|Q3TLH4|BA2L2_MOUSE	Protein BAT2-like 2 OS=Mus musculus GN=Bat2l2 PE=1 SV=2
+9.4	23	7	149	sp|Q1XGE2|HAC1_ASPOR	345	482	sp|Q3TLH4|BA2L2_MOUSE	Protein BAT2-like 2 OS=Mus musculus GN=Bat2l2 PE=1 SV=2
+0.096	23	140	270	sp|Q1XGE2|HAC1_ASPOR	1816	1953	sp|Q3TLH4|BA2L2_MOUSE	Protein BAT2-like 2 OS=Mus musculus GN=Bat2l2 PE=1 SV=2
+3.0	28	158	210	sp|Q1XGE2|HAC1_ASPOR	1768	1818	sp|Q3TLH4|BA2L2_MOUSE	Protein BAT2-like 2 OS=Mus musculus GN=Bat2l2 PE=1 SV=2
+0.096	23	49	188	sp|Q1XGE2|HAC1_ASPOR	81	221	sp|Q04323|UBXN1_HUMAN	UBX domain-containing protein 1 OS=Homo sapiens GN=UBXN1
+9.9	30	74	208	sp|Q1XGE2|HAC1_ASPOR	83	210	sp|Q04323|UBXN1_HUMAN	UBX domain-containing protein 1 OS=Homo sapiens GN=UBXN1
+0.097	29	59	150	sp|Q1XGE2|HAC1_ASPOR	223	319	sp|P23922|HBP1A_WHEAT	Transcription factor HBP-1a OS=Triticum aestivum PE=2
+0.099	35	71	133	sp|Q1XGE2|HAC1_ASPOR	176	239	sp|Q9C5Q2|AI5L3_ARATH	ABSCISIC ACID-INSENSITIVE 5-like protein 3
+0.10	22	32	142	sp|Q1XGE2|HAC1_ASPOR	168	280	sp|Q54TD7|DDX24_DICDI	ATP-dependent RNA helicase ddx24 OS=Dictyostelium
+0.10	26	17	178	sp|Q1XGE2|HAC1_ASPOR	151	298	sp|Q5F797|IF2_NEIG1	Translation initiation factor IF-2 OS=Neisseria
+0.10	26	17	178	sp|Q1XGE2|HAC1_ASPOR	151	298	sp|B4RMZ3|IF2_NEIG2	Translation initiation factor IF-2 OS=Neisseria
+0.10	24	41	231	sp|Q1XGE2|HAC1_ASPOR	310	493	sp|Q86AH4|Y8592_DICDI	Putative uncharacterized protein DDB_G0271982
+0.11	24	39	169	sp|Q1XGE2|HAC1_ASPOR	616	747	sp|Q8IIG7|YPF05_PLAF7	Uncharacterized protein PF11_0207 OS=Plasmodium
+0.11	26	36	210	sp|Q1XGE2|HAC1_ASPOR	1257	1435	sp|B2KI97|THOC2_RHIFE	THO complex subunit 2 OS=Rhinolophus ferrumequinum
+0.11	25	43	188	sp|Q1XGE2|HAC1_ASPOR	931	1070	sp|Q9UM54|MYO6_HUMAN	Myosin-VI OS=Homo sapiens GN=MYO6 PE=1 SV=4
+8.2	24	11	149	sp|Q1XGE2|HAC1_ASPOR	877	1018	sp|Q9UM54|MYO6_HUMAN	Myosin-VI OS=Homo sapiens GN=MYO6 PE=1 SV=4
+0.12	25	16	224	sp|Q1XGE2|HAC1_ASPOR	583	779	sp|Q3KQU3|MA7D1_HUMAN	MAP7 domain-containing protein 1 OS=Homo sapiens
+3.1	28	16	135	sp|Q1XGE2|HAC1_ASPOR	555	680	sp|Q3KQU3|MA7D1_HUMAN	MAP7 domain-containing protein 1 OS=Homo sapiens
+8.4	25	16	145	sp|Q1XGE2|HAC1_ASPOR	68	200	sp|Q3KQU3|MA7D1_HUMAN	MAP7 domain-containing protein 1 OS=Homo sapiens
+0.17	26	14	154	sp|Q1XGE2|HAC1_ASPOR	441	582	sp|Q14244|MAP7_HUMAN	Ensconsin OS=Homo sapiens GN=MAP7 PE=1 SV=1
+0.12	21	75	188	sp|Q1XGE2|HAC1_ASPOR	556	674	sp|Q14244|MAP7_HUMAN	Ensconsin OS=Homo sapiens GN=MAP7 PE=1 SV=1
+0.12	31	11	71	sp|Q1XGE2|HAC1_ASPOR	335	403	sp|Q14244|MAP7_HUMAN	Ensconsin OS=Homo sapiens GN=MAP7 PE=1 SV=1
+0.12	29	62	158	sp|Q1XGE2|HAC1_ASPOR	73	163	sp|P29596|ATF3_RAT	Cyclic AMP-dependent transcription factor ATF-3 OS=Rattus
+0.12	25	18	201	sp|Q1XGE2|HAC1_ASPOR	380	569	sp|Q5TM26|BAT2_MACMU	Large proline-rich protein BAT2 OS=Macaca mulatta GN=BAT2
+0.12	27	43	176	sp|Q1XGE2|HAC1_ASPOR	642	792	sp|Q0IHP2|INCE_XENTR	Inner centromere protein OS=Xenopus tropicalis GN=incenp
+5.5	27	41	149	sp|Q1XGE2|HAC1_ASPOR	589	697	sp|Q0IHP2|INCE_XENTR	Inner centromere protein OS=Xenopus tropicalis GN=incenp
+0.13	28	18	146	sp|Q1XGE2|HAC1_ASPOR	478	606	sp|Q9NQS7|INCE_HUMAN	Inner centromere protein OS=Homo sapiens GN=INCENP PE=1
+0.58	24	37	151	sp|Q1XGE2|HAC1_ASPOR	627	738	sp|Q9NQS7|INCE_HUMAN	Inner centromere protein OS=Homo sapiens GN=INCENP PE=1
+1.2	24	39	151	sp|Q1XGE2|HAC1_ASPOR	607	724	sp|Q9NQS7|INCE_HUMAN	Inner centromere protein OS=Homo sapiens GN=INCENP PE=1
+1.6	27	41	172	sp|Q1XGE2|HAC1_ASPOR	666	808	sp|Q9NQS7|INCE_HUMAN	Inner centromere protein OS=Homo sapiens GN=INCENP PE=1
+7.2	21	34	196	sp|Q1XGE2|HAC1_ASPOR	25	175	sp|Q9NQS7|INCE_HUMAN	Inner centromere protein OS=Homo sapiens GN=INCENP PE=1
+0.13	24	73	337	sp|Q1XGE2|HAC1_ASPOR	200	459	sp|Q5HZY0|UBXN4_RAT	UBX domain-containing protein 4 OS=Rattus norvegicus
+0.13	30	63	167	sp|Q1XGE2|HAC1_ASPOR	32	134	sp|Q90595|MAFF_CHICK	Transcription factor MafF OS=Gallus gallus GN=MAFF PE=1
+0.13	27	80	231	sp|Q1XGE2|HAC1_ASPOR	851	996	sp|Q6ZSZ5|ARHGI_HUMAN	Rho guanine nucleotide exchange factor 18 OS=Homo
+0.13	22	36	151	sp|Q1XGE2|HAC1_ASPOR	299	416	sp|Q7PS12|MOEH_ANOGA	Moesin/ezrin/radixin homolog 1 OS=Anopheles gambiae
+0.13	28	43	179	sp|Q1XGE2|HAC1_ASPOR	261	399	sp|P12957|CALD1_CHICK	Caldesmon OS=Gallus gallus GN=CALD1 PE=1 SV=2
+0.17	23	31	216	sp|Q1XGE2|HAC1_ASPOR	278	457	sp|P12957|CALD1_CHICK	Caldesmon OS=Gallus gallus GN=CALD1 PE=1 SV=2
+9.7	22	52	239	sp|Q1XGE2|HAC1_ASPOR	472	660	sp|P12957|CALD1_CHICK	Caldesmon OS=Gallus gallus GN=CALD1 PE=1 SV=2
+0.13	34	76	133	sp|Q1XGE2|HAC1_ASPOR	206	262	sp|Q08DA8|ATF1_BOVIN	Cyclic AMP-dependent transcription factor ATF-1 OS=Bos
+0.14	26	26	139	sp|Q1XGE2|HAC1_ASPOR	52	172	sp|Q94126|CES2_CAEEL	Cell death specification protein 2 OS=Caenorhabditis
+0.14	29	34	133	sp|Q1XGE2|HAC1_ASPOR	21	114	sp|O66547|Y157_AQUAE	Uncharacterized protein aq_157 OS=Aquifex aeolicus
+0.14	28	35	140	sp|Q1XGE2|HAC1_ASPOR	681	787	sp|A6ZRZ0|NST1_YEAS7	Stress response protein NST1 OS=Saccharomyces cerevisiae
+1.4	24	41	231	sp|Q1XGE2|HAC1_ASPOR	669	849	sp|A6ZRZ0|NST1_YEAS7	Stress response protein NST1 OS=Saccharomyces cerevisiae
+6.1	22	43	149	sp|Q1XGE2|HAC1_ASPOR	633	737	sp|A6ZRZ0|NST1_YEAS7	Stress response protein NST1 OS=Saccharomyces cerevisiae
+0.14	28	35	140	sp|Q1XGE2|HAC1_ASPOR	681	787	sp|P53935|NST1_YEAST	Stress response protein NST1 OS=Saccharomyces cerevisiae
+1.4	24	41	231	sp|Q1XGE2|HAC1_ASPOR	669	849	sp|P53935|NST1_YEAST	Stress response protein NST1 OS=Saccharomyces cerevisiae
+6.1	22	43	149	sp|Q1XGE2|HAC1_ASPOR	633	737	sp|P53935|NST1_YEAST	Stress response protein NST1 OS=Saccharomyces cerevisiae
+0.14	23	24	281	sp|Q1XGE2|HAC1_ASPOR	48	304	sp|A3BYC1|HOX25_ORYSJ	Homeobox-leucine zipper protein HOX25 OS=Oryza sativa
+0.14	24	36	206	sp|Q1XGE2|HAC1_ASPOR	1257	1429	sp|B1AZI6|THOC2_MOUSE	THO complex subunit 2 OS=Mus musculus GN=Thoc2 PE=3 SV=1
+0.15	24	6	203	sp|Q1XGE2|HAC1_ASPOR	2186	2384	sp|Q9H254|SPTN4_HUMAN	Spectrin beta chain, brain 3 OS=Homo sapiens GN=SPTBN4
+0.15	23	16	223	sp|Q1XGE2|HAC1_ASPOR	44	237	sp|Q2UNX4|KAPC_ASPOR	Putative transcription factor kapC OS=Aspergillus oryzae
+0.15	34	82	176	sp|Q1XGE2|HAC1_ASPOR	487	581	sp|Q9JJ50|HGS_RAT	Hepatocyte growth factor-regulated tyrosine kinase substrate
+0.15	29	6	68	sp|Q1XGE2|HAC1_ASPOR	277	355	sp|Q9JJ50|HGS_RAT	Hepatocyte growth factor-regulated tyrosine kinase substrate
+0.15	29	62	158	sp|Q1XGE2|HAC1_ASPOR	73	163	sp|Q2KII1|ATF3_BOVIN	Cyclic AMP-dependent transcription factor ATF-3 OS=Bos
+0.15	28	17	139	sp|Q1XGE2|HAC1_ASPOR	260	388	sp|Q99941|ATF6B_HUMAN	Cyclic AMP-dependent transcription factor ATF-6 beta
+0.16	25	18	234	sp|Q1XGE2|HAC1_ASPOR	378	584	sp|Q7TSC1|BAT2_MOUSE	Large proline-rich protein BAT2 OS=Mus musculus GN=Bat2
+0.16	28	80	232	sp|Q1XGE2|HAC1_ASPOR	137	292	sp|Q4I877|NDE1_GIBZE	Nuclear distribution protein nudE homolog 1 OS=Gibberella
+0.16	28	74	183	sp|Q1XGE2|HAC1_ASPOR	218	339	sp|Q84WU4|GOGC3_ARATH	Golgin candidate 3 OS=Arabidopsis thaliana GN=GC3 PE=1
+0.16	23	19	188	sp|Q1XGE2|HAC1_ASPOR	46	221	sp|Q499N6|UBXN1_RAT	UBX domain-containing protein 1 OS=Rattus norvegicus
+0.16	27	72	144	sp|Q1XGE2|HAC1_ASPOR	201	273	sp|B4PPK2|FOSL_DROYA	Transcription factor kayak OS=Drosophila yakuba GN=kay
+0.16	35	183	239	sp|Q1XGE2|HAC1_ASPOR	382	438	sp|B4PPK2|FOSL_DROYA	Transcription factor kayak OS=Drosophila yakuba GN=kay
+0.16	38	10	43	sp|Q1XGE2|HAC1_ASPOR	95	127	sp|B4PPK2|FOSL_DROYA	Transcription factor kayak OS=Drosophila yakuba GN=kay
+0.17	25	37	221	sp|Q1XGE2|HAC1_ASPOR	1022	1198	sp|A4R8N4|PAN1_MAGGR	Actin cytoskeleton-regulatory complex protein PAN1
+0.17	26	41	209	sp|Q1XGE2|HAC1_ASPOR	1024	1201	sp|B2AWS3|PAN1_PODAN	Actin cytoskeleton-regulatory complex protein PAN1
+0.17	22	21	216	sp|Q1XGE2|HAC1_ASPOR	1296	1485	sp|Q92545|TM131_HUMAN	Transmembrane protein 131 OS=Homo sapiens GN=TMEM131
+0.17	24	4	191	sp|Q1XGE2|HAC1_ASPOR	41	230	sp|Q38W81|IF2_LACSS	Translation initiation factor IF-2 OS=Lactobacillus sakei
+0.17	30	83	163	sp|Q1XGE2|HAC1_ASPOR	276	355	sp|Q789F3|MAF_CHICK	Transcription factor Maf OS=Gallus gallus GN=MAF PE=1 SV=1
+0.17	24	19	146	sp|Q1XGE2|HAC1_ASPOR	131	254	sp|P49716|CEBPD_HUMAN	CCAAT/enhancer-binding protein delta OS=Homo sapiens
+0.49	29	60	154	sp|Q1XGE2|HAC1_ASPOR	153	248	sp|P49716|CEBPD_HUMAN	CCAAT/enhancer-binding protein delta OS=Homo sapiens
+0.17	35	77	133	sp|Q1XGE2|HAC1_ASPOR	206	261	sp|P81269|ATF1_MOUSE	Cyclic AMP-dependent transcription factor ATF-1 OS=Mus
+0.18	30	83	163	sp|Q1XGE2|HAC1_ASPOR	276	355	sp|P23091|MAF_AVIS4	Transforming protein Maf OS=Avian musculoaponeurotic
+0.18	35	77	133	sp|Q1XGE2|HAC1_ASPOR	208	263	sp|P18846|ATF1_HUMAN	Cyclic AMP-dependent transcription factor ATF-1 OS=Homo
+0.18	23	41	160	sp|Q1XGE2|HAC1_ASPOR	586	702	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+0.23	26	41	154	sp|Q1XGE2|HAC1_ASPOR	546	658	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+0.30	26	40	151	sp|Q1XGE2|HAC1_ASPOR	253	359	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+3.7	28	48	151	sp|Q1XGE2|HAC1_ASPOR	241	347	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+3.7	24	41	154	sp|Q1XGE2|HAC1_ASPOR	956	1071	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+3.7	26	43	151	sp|Q1XGE2|HAC1_ASPOR	440	557	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+4.7	29	43	151	sp|Q1XGE2|HAC1_ASPOR	1297	1404	sp|Q07283|TRHY_HUMAN	Trichohyalin OS=Homo sapiens GN=TCHH PE=1 SV=2
+0.18	29	107	235	sp|Q1XGE2|HAC1_ASPOR	178	296	sp|Q4X1V0|NDE1_ASPFU	Nuclear distribution protein nudE homolog 1
+4.6	24	80	204	sp|Q1XGE2|HAC1_ASPOR	162	287	sp|Q4X1V0|NDE1_ASPFU	Nuclear distribution protein nudE homolog 1
+0.18	30	81	120	sp|Q1XGE2|HAC1_ASPOR	40	77	sp|Q4X1V0|NDE1_ASPFU	Nuclear distribution protein nudE homolog 1
+0.18	25	77	135	sp|Q1XGE2|HAC1_ASPOR	12	70	sp|Q8R1H8|BATF2_MOUSE	Basic leucine zipper transcriptional factor ATF-like 2
+0.18	29	137	200	sp|Q1XGE2|HAC1_ASPOR	117	184	sp|Q8R1H8|BATF2_MOUSE	Basic leucine zipper transcriptional factor ATF-like 2
+0.19	26	31	159	sp|Q1XGE2|HAC1_ASPOR	11	140	sp|Q66J36|NFIL3_XENLA	Nuclear factor interleukin-3-regulated protein
+0.19	23	36	177	sp|Q1XGE2|HAC1_ASPOR	242	376	sp|P13816|GARP_PLAFF	Glutamic acid-rich protein OS=Plasmodium falciparum
+0.19	25	76	142	sp|Q1XGE2|HAC1_ASPOR	137	203	sp|P38749|YAP3_YEAST	AP-1-like transcription factor YAP3 OS=Saccharomyces
+0.19	24	80	285	sp|Q1XGE2|HAC1_ASPOR	588	784	sp|Q3UIW5|RNF10_MOUSE	RING finger protein 10 OS=Mus musculus GN=Rnf10 PE=2
+0.19	19	1	57	sp|Q1XGE2|HAC1_ASPOR	546	602	sp|Q3UIW5|RNF10_MOUSE	RING finger protein 10 OS=Mus musculus GN=Rnf10 PE=2
+0.19	40	73	131	sp|Q1XGE2|HAC1_ASPOR	37	91	sp|P23923|HBP1B_WHEAT	Transcription factor HBP-1b(c38) OS=Triticum aestivum
+0.19	24	49	226	sp|Q1XGE2|HAC1_ASPOR	516	692	sp|Q9D5R3|CCD41_MOUSE	Coiled-coil domain-containing protein 41 OS=Mus musculus
+0.20	23	35	193	sp|Q1XGE2|HAC1_ASPOR	737	898	sp|Q9QXL2|KI21A_MOUSE	Kinesin-like protein KIF21A OS=Mus musculus GN=Kif21a
+0.20	25	62	200	sp|Q1XGE2|HAC1_ASPOR	454	604	sp|Q9UPT6|JIP3_HUMAN	C-Jun-amino-terminal kinase-interacting protein 3 OS=Homo
+0.20	31	8	65	sp|Q1XGE2|HAC1_ASPOR	265	321	sp|Q9UPT6|JIP3_HUMAN	C-Jun-amino-terminal kinase-interacting protein 3 OS=Homo
+0.20	22	6	250	sp|Q1XGE2|HAC1_ASPOR	784	1016	sp|P16884|NFH_RAT	Neurofilament heavy polypeptide OS=Rattus norvegicus GN=Nefh
+0.20	29	62	158	sp|Q1XGE2|HAC1_ASPOR	73	163	sp|Q60765|ATF3_MOUSE	Cyclic AMP-dependent transcription factor ATF-3 OS=Mus
+0.20	26	64	163	sp|Q1XGE2|HAC1_ASPOR	142	244	sp|Q9N0J3|CEBPD_SHEEP	CCAAT/enhancer-binding protein delta OS=Ovis aries
+0.20	20	39	235	sp|Q1XGE2|HAC1_ASPOR	632	820	sp|A5DLJ8|NST1_PICGU	Stress response protein NST1 OS=Pichia guilliermondii
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/test.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/test.pl
new file mode 100755
index 0000000..38d60d0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/demotic/test.pl
@@ -0,0 +1,15 @@
+#! /usr/bin/perl
+
+use demotic_blast;
+
+$swiss_wu = "/misc/data0/databases/Uniprot/uniprot_sprot_wu.fasta";
+
+open(BLAST, "blastp $swiss_wu example.fa 2>/dev/null |");
+while (demotic_blast::parse(\*BLAST))
+{
+    for ($i = 0; $i < $demotic_blast::nhits; $i++) {
+        printf "%.2g\t%.1f\t%s\t%s\n", $demotic_blast::hit_Eval[$i], $demotic_blast::hit_bitscore[$i], $demotic_blast::hit_target[$i], $demotic_blast::queryname;
+    }
+}
+close BLAST;
+    
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/00README b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/00README
new file mode 100755
index 0000000..2ea1648
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/00README
@@ -0,0 +1,5 @@
+
+
+Generating a list of all keywords (functions, macros, etc) in a codebase:
+ find . -name \*.[ch] -exec ctags -x {} \; | ~/src/easel/trunk/devkit/ctags-fix | sort | tbl-pretty -f3 > 00INDEX
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/autodoc b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/autodoc
new file mode 100755
index 0000000..16bda4d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/autodoc
@@ -0,0 +1,312 @@
+#! /usr/bin/perl
+
+# Usage:
+#   ./autodoc_functions <C file>  
+# 
+# Input is a C .c file with my structured function header convention.
+# Output is .tex file suitable for inclusion in my LaTeX documentation.
+#
+# Requirements:
+#    1. .tex file needs to have \sreapi environment defined;
+#       see hmmer, squid, infernal, etc. "macro.tex" to get a copy.
+#
+#    2. .tex file needs to have \ccode command defined, to produce 
+#       courier (or whatever) computerese font for variables, macros,
+#       etc.
+#
+#   3. Functions must use headers according to my conventions, for example:
+#      (defined as sre-insert-my-function-header() in .emacs LISP)
+#
+#             /* Function:  function()
+#              * Synopsis:  A short (half-line) description.
+#              * Incept:    SRE, Tue Nov 30 19:36:17 2004 [St. Louis]
+#              *
+#              * Purpose:   Given an <argument>, carry out an important
+#              *            function, and return an answer.
+#              *
+#              * Args:      argument - some text, or NULL
+#              *
+#              * Returns:   <SRE_SUCCESS> on success; <SRE_FAILED> on failure.
+#              *
+#              * Throws:    <SRE_MALLOC_FAILED> on an allocation failure.
+#              *
+#              * Xref:      STL8/p.159.
+#              */
+#              int
+#              function(char *argument)
+#              {
+#                 etc.
+#
+#     The Function and Purpose blocks are required.
+#     Only the Function, Synopsis, Purpose, Returns, and Throws blocks are used.  
+# 
+#     The exact spacing of the beginning of each line is important;
+#     for example, the parser depends on seeing "/* Function" at the beginning,
+#     " * \S" on a line starting a new block of info, and " *  " or
+#     " */" on a line that continues a previous info block. The exact
+#     spacing style of "int\nfunction(char *argument)\n{" is also essential.
+#     
+#
+# SRE, Tue Nov 30 19:43:47 2004
+
+require  "getopts.pl";
+&Getopts('n:t');
+$cfile = shift;
+
+if ($opt_t) { $show_api_table = 1; }
+if ($opt_n) { $modulename     = $opt_n; } else { 
+    if    ($cfile eq "easel")          { $modulename = "easel"; }
+    elsif ($cfile =~ /esl_(\S+)\.c/)   { $modulename = $1; }
+    else                               { $modulename = "foo"; }
+}
+
+$text      = `cat $cfile`;
+$nfuncs    = &parse_function_documentation($text);
+$nsections = &parse_api_subheads($text);
+
+if ($show_api_table) 
+{
+    $j = -1;
+    printf("%% Table generated by autodoc -t $cfile (so don't edit here, edit $cfile:)\n");
+    printf("\\begin{table}[hbp]\n");
+    printf("\\begin{center}\n");
+    printf("{\\small\n");
+    printf("\\begin{tabular}{|ll|}\\hline\n");
+    for ($i = 0; $i < $nfuncs; $i++) 
+    {
+	if ($insection{$function[$i]} != $j)
+	{
+	    $j = $insection{$function[$i]};
+	    printf("\\apisubhead{%s}\\\\\n", $apisubheads[$j]);
+	}
+
+	if ($synopsis[$i] ne "") {
+	    printf("\\hyperlink{func:%s()}{\\ccode{%s()}} & %s\\\\\n",
+		   $function[$i], $pfunction[$i], $synopsis[$i]);
+	} else {
+	    printf("\\hyperlink{func:%s()}{\\ccode{%s()}} & Description.\\\\\n",
+		   $function[$i], $pfunction[$i]);
+	}
+    }
+    printf("\\hline\n");
+    printf("\\end{tabular}\n");
+    printf("}\n");
+    printf("\\end{center}\n");
+    printf("\\caption{The \\eslmod{%s} API.}\n", $modulename);
+    printf("\\label{tbl:%s_api}\n", $modulename);
+    printf("\\end{table}\n");
+}
+else
+{
+    print "\\begin{sreapi}\n";
+    for ($i = 0; $i < $nfuncs; $i++) 
+    {
+	printf("\\hypertarget{func:%s()}\n{", $function[$i]);
+	printf "\\item[%s %s(%s)]",
+           	$returntype[$i],
+	        $pfunction[$i],
+	        $args[$i];
+	printf("}\n");
+
+
+	print "\n";
+	print $purpose[$i], "\n";
+	print "Returns ", $returns[$i], "\n" unless ($returns[$i] eq "");
+	print "Throws ",  $throws[$i],  "\n" unless ($throws[$i]  eq "");
+	print "\n\n";
+    }
+    print "\\end{sreapi}\n\n";
+}
+exit;
+
+# Function: parse_function_documentation
+#
+# Purpose:  Given <text> from a .c file, parse it for my structured
+#           function documentation. Returns <n>, the number of 
+#           documented functions found; and it populates the following
+#           global arrays:
+#              function    - verbatim name of the function 
+#              pfunction   - name of the function, protected for LaTeX (\_ not _, for example)
+#              returntype  - C return type; for example, "int"
+#              args        - C argument list, from the func def'n
+#              purpose     - Text documenting the function
+#              synopsis    - OPTIONAL: short half-line description, else ""
+#              incept      - OPTIONAL: date/name/place, else ""
+#              argdocs     - OPTIONAL: table documenting the args, else ""
+#              returns     - OPTIONAL: documentation of returned
+#                            information or codes; else "";
+#              throws      - OPTIONAL: documentation of returned 
+#                            abnormal error codes
+#
+#           Each of these is an array indexed <0..n-1>, for the <n>
+#           documented functions.
+#
+sub
+parse_function_documentation 
+{
+    my ($text) = @_;
+    my ($comment, $n, $first_funcname);
+
+    $n = 0;
+    #                   /*   Function:   text      \n double \n foo  ( args )   \n{
+    while ($text =~ m|(/\*\s*Function:\s*.+?\*/)\s*\n(.+?)\s*\n(\S+)\((.+?)\)\s*\n\{|gms) {
+	$comment        = $1;
+	$returntype[$n] = $2;
+	$function[$n]   = $3;
+	$args[$n]       = $4;
+
+	# Delimit end of each block in the comments with a \n@*, for 
+	# convenience in getting out the individual blocks.
+	$comment =~ s|\n \* (\S)|\n@\* \1|g;
+	$comment =~ s|\n \*/|\n@\*/|g;
+
+	# Remove leading comment symbols and spacing.
+	$comment =~ s|\n[ \t]*\*[ \t]*|\n|g;
+	
+	# Now, grab all the individual blocks of info from a structured
+        # function header comment. Required fields:
+        #       Function:
+        #       Purpose: 
+        #       the function and its args.
+        #
+	if ($comment =~ m|/\* Function:\s*(.+?)\n@\*|ms) { $first_funcname = $1; }
+	else {next;}
+	if ($first_funcname =~ /^(\S+)\(\)/) { $first_funcname = $1; }
+	if ($first_funcname ne $function[$n]) { die "parse error; $first_funcname != $function[$n]";}
+
+	if ($comment =~ m|\n@\* Synopsis:\s*(.+?)\n@\*|ms) { $synopsis[$n] = &process_comment_text($1); }
+	else {$synopsis[$n] = ""; }
+
+	if ($comment =~ m|\n@\* Incept:\s*(.+?)\n@\*|ms) { $incept[$n] = &process_comment_text($1); }
+	else {$incept[$n] = ""; }
+
+	if ($comment =~ m|\n@\* Purpose:\s*(.+?)\n@\*|ms) { $purpose[$n] = &process_comment_text($1); }
+	else {next;}
+
+	if ($comment =~ m|\n@\* Args:\s*(.+?)\n@\*|ms) { $argdocs[$n] = $1; }
+	else {$argdocs = ""; }
+    
+	if ($comment =~ m|\n@\* Returns:\s*(.+?)\n@\*|ms) { $returns[$n] = &process_comment_text($1); }
+	else {$returns[$n] = ""; }
+
+	if ($comment =~ m|\n@\* Throws:\s*(.+?)\n@\*|ms) { $throws[$n] = &process_comment_text($1); }
+	else {$throws[$n] = ""; }
+
+	# protect _ characters. $function contains original name, for use as
+        # hypertarget tag; $pfunction contains the protected function name, for output.
+	$pfunction[$n]  = &latex_safe($function[$n]);
+	$returntype[$n] = &latex_safe($returntype[$n]);
+	$args[$n]       = &latex_safe($args[$n]);
+
+	$n++;
+    }
+    $n;
+}
+
+
+# Function: process_comment_text
+#
+sub
+process_comment_text
+{
+    my ($text) = @_;
+    my (@s);			# old text, as chars
+    my (@s2);			# new text, as chars
+    my ($newtext);
+    my ($n);
+    my ($i);
+    my ($state);		# 0 = text; 1 = math; 2 = code. Finite automaton.
+
+    @s = split(//,$text);
+    $n = $#s + 1;
+
+    $state = 0;			# start in text state
+    for ($i = 0; $i < $n; $i++)
+    {
+        # State transitions in the text/math/code mode automaton
+        #
+	if    ($state == 0 && $s[$i] eq '$') { $state    = 1; push(@s2, '$'); }                  # enter math state
+	elsif ($state == 0 && $s[$i] eq '<') { $state    = 2; push(@s2, split(//, "\\ccode{")); } # enter code state
+	elsif ($state == 1 && $s[$i] eq '$') { $state    = 0; push(@s2, '$'); }                  # back to text state
+	elsif ($state == 2 && $s[$i] eq '>' && $s[$i-1] ne '-') 
+	{ $state    = 0; push(@s2, '}'); }                  # back to text state on >, unless it was ->
+
+        # No state transition; deal with processing other characters according to state.
+        #
+        elsif ($state == 2 && $s[$i] eq '_') { push(@s2, '\\'); push(@s2, '_'); }
+        elsif ($state == 2 && $s[$i] eq '%') { push(@s2, '\\'); push(@s2, '%'); }
+        else  { push(@s2, $s[$i]); }
+    }
+    	
+    $newtext = join('',@s2);
+}
+
+
+# Function: latex_safe
+# 
+# Purpose:  Given a <string>, substitute any unacceptable characters
+#           for LaTeX, as follows:
+#               _    becomes \_
+#               %    becomes \%
+#               #    becomes \#
+#      
+sub
+latex_safe
+{
+    my ($string) = @_;
+
+    $string =~ s/_/\\_/g;
+    $string =~ s/%/\\%/g;
+    $string =~ s/#/\\#/g;
+    $string;
+}
+
+
+# Function: parse_api_subheads
+#
+# Purpose:  Given <text> from a .c file, parse it
+#           for structured API subheading documentation:
+#
+#           /********************************************
+#            *# 1. The <ESL_RANDOMNESS> object.
+#            ********************************************/
+#          
+#           Keys off of the /***** line, followed by a line
+#           starting with " *#" followed by a number and a period;
+#           the rest of the line is taken to be the title.
+#
+#           The title is processed, so <> and math mode are allowed.
+#
+#           Returns n, the number of subheadings found;
+#           and it populates two global arrays:
+#              apisubheads<0..n-1>  : one-line section subheadings
+#              insection{$funcname} : which api subhead $funcname is under
+# 
+sub
+parse_api_subheads
+{
+    my ($text) = @_;
+    my (@lines) = split(/^/, $text);
+
+    $n     = 0;
+    $armed = 0;
+    foreach $line (@lines) 
+    {
+	if ($armed && $line =~ /^ \*\#\s*\d+\.\s*(.+)$/) 
+	{
+	    $apisubheads[$n] = &process_comment_text($1);
+	    $n++;
+	    $armed = 0;
+
+	}
+
+	if ($line =~ /^\/\* Function:\s*(.+)\(\)/) 
+	{
+	    $insection{$1} = $n-1;
+	}
+
+	if ($line =~ /^\/\*{12}/) { $armed = 1; } # can expect a subhead line next,
+	else                      { $armed = 0; } # or not.
+    }
+    $n;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/c2optlist b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/c2optlist
new file mode 100755
index 0000000..8770daf
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/c2optlist
@@ -0,0 +1,58 @@
+#! /usr/bin/perl
+
+
+# c2optlist <main .c file>
+#
+# From one of our "standardized" main C files containing an 
+# ESL_OPTIONS block, print a table listing each option.
+# Only the first block in the file is parsed, if multiple
+# ones exist.
+#
+# Crosscomparisons with man2optlist and sqc2optlist allow verification
+# that the options in a main .c file are documented in a .man page
+# and tested in a .sqc unit test file.
+#
+# Options are looked for following a line 
+#   static ESL_OPTIONS ...
+# until a bare  
+#   }
+# is found on a line by itself.
+#
+# SRE, Tue Sep 15 10:04:30 2009 [Janelia]
+# SVN $Id$
+#
+
+
+while (<>)
+{
+    if (/^static ESL_OPTIONS/) { $in_optionblock = 1; next; }
+
+    if ($in_optionblock) 
+    {
+	if    (/^\s*{\s*"(-\S)",\s*([^,]+),/)   { $option = $1; $arg    = $2;  } # short option
+	elsif (/^\s*{\s*"(--\S+)",\s*([^,]+),/) { $option = $1; $arg    = $2;  } # long option
+	elsif (/^\s*$/)                   { next; }                            # blank line
+	elsif (/^\s*\/\*/)                { next; }                            # comment line
+	elsif (/^#if/)                    { next; }                            # allow conditional compilation of options
+	elsif (/^#end/)                   { next; }                            # allow conditional compilation of options
+	elsif (/^\s*{\s*0,\s*0,\s*0,/)    { last; }                            # empty vector: end of options
+	else                              { die "unrecognized option line:\n$_"; }
+
+	if    ($arg eq "eslARG_NONE")     { $optarg = "-"; }
+	elsif ($arg eq "eslARG_INT")      { $optarg = "<n>"; }
+	elsif ($arg eq "eslARG_REAL")     { $optarg = "<x>"; }
+	elsif ($arg eq "eslARG_CHAR")     { $optarg = "<c>"; }
+	elsif ($arg eq "eslARG_STRING")   { $optarg = "<s>"; }
+	elsif ($arg eq "eslARG_INFILE")   { $optarg = "<f>"; }
+	elsif ($arg eq "eslARG_OUTFILE")  { $optarg = "<f>"; }
+	else                              { die "unrecognized option argument $arg on line:\n$_"; }
+
+	printf ("%-20s %s\n", $option, $optarg);
+    }
+
+    if (/^};/) { die "Reached end of option structure without seeing empty 0,0,0,... vector"; }
+}
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/cexcerpt b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/cexcerpt
new file mode 100755
index 0000000..b1da0c0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/cexcerpt
@@ -0,0 +1,100 @@
+#! /usr/bin/perl
+
+# cexcerpt <file.c> <dir>
+#
+# Extract tagged code chunks from a C source file for verbatim
+# inclusion in LaTeX documentation.
+#
+# Processes C source file <file.c>; extracts tagged excerpts, 
+# and puts them in a file in directory <dir>.
+#
+# An excerpt is marked with special comments in the C file:
+#
+#   /*::cexcerpt::my_example::begin::*/
+#      while (esl_sq_Read(sqfp, sq) == eslOK)
+#         { n++; }
+#   /*::cexcerpt::my_example::end::*/
+#
+# The tag's format is "::cexcerpt::<tag>::begin::" (or end).
+# We match it with:
+#    ^\s*\/\*::cexcerpt::(\S+)::begin::\*\/
+#
+# The tag is used to construct the file name, as <tag>.tex.
+# In the example, the tag my_example creates a file my_example.tex
+# in <dir>. 
+#
+# All the text between the cexcerpt tags is put in the file.
+# In addition, this text is wrapped in a {cchunk} environment.
+# So in the example above, my_example.tex will contain:
+#   \begin{cchunk}
+#      while (esl_sq_Read(sqfp, sq) == eslOK)
+#         { n++; }
+#   \end{cchunk}
+#
+# This file can then be included in a LaTeX file, with
+#   \input{<dir>/<tag>}
+#
+# For best results, the C source should be free of TAB characters.
+# "M-x untabify" on the region to clean them out.
+#
+# Cexcerpts can't overlap or nest in any way in the C file; only
+# one can be active at any given time.
+# 
+# SRE, Fri Feb 25 08:40:19 2005
+# SVN $Id: cexcerpt 1531 2005-12-13 20:53:46Z eddy $
+
+
+$usage = "cexcerpt <file.c> <dir>";
+die("Wrong number of command line arguments.\nUsage: $usage\n") unless ($#ARGV+1 == 2);
+
+$cfile = shift;
+$dir   = shift;
+die("C source file $cfile doesn't exist.\n")  unless -e $cfile;
+die("C source file $cfile isn't readable.\n") unless -r $cfile;
+die("Directory $dir doesn't exist.\n")        unless -e $dir;
+die("$dir isn't a directory.\n")              unless -d $dir;
+die("Can't write files to directory $dir.\n") unless -w $dir;
+
+open(CFILE,$cfile) || die("Couldn't open C file $cfile.\n");
+$in_cexcerpt = 0;
+$linenumber  = 1;
+while (<CFILE>)
+{
+    if (/^\s*\/\*::cexcerpt::(\S+)::begin::\*\//) 
+    {
+	if ($in_cexcerpt) {
+        die("Can't start $1 at line $linenumber; $tag started at line $startline.\n"); 
+	}
+	if (($n = grep(/$1/, @taglist)) > 0) {
+	    die("Already saw tag $1 in this C file ($n); tags must be unique.\n");
+	}
+	    
+	$tag         = $1;
+	$in_cexcerpt = 1;
+	$startline   = $linenumber;
+	$outfile     = "$dir/$tag.tex";
+	push(@taglist, $tag);
+	print ("   extracting $tag.tex...\n");
+	open(OUTFILE,">$outfile") || die("Couldn't open $outfile for writing."); 
+	print OUTFILE "\\begin{cchunk}\n";
+    }
+    elsif (/^\s*\/\*::cexcerpt::(\S+)::end::\*\//) 
+    {
+	if (!$in_cexcerpt) {
+        die("cexcerpt $1 can't end (line $linenumber) because it never started.\n");
+	}
+        if ($tag ne $1) {
+        die("tried to end $1 at line $linenumber, but $tag is active (from line $startline).\n");
+        }
+
+	$in_cexcerpt = 0;
+	print OUTFILE "\\end{cchunk}\n";
+	close(OUTFILE);
+    }
+    elsif ($in_cexcerpt) 
+    {
+	print OUTFILE $_;
+    }
+    $linenumber++;
+}
+close(CFILE);
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/cexcerpt.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/cexcerpt.man
new file mode 100755
index 0000000..d04a075
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/cexcerpt.man
@@ -0,0 +1,73 @@
+.TH "cexcerpt" 1 "@SSDK_DATE@" "SSDK @SSDK_VERSION@" "SSDK"
+
+.SH NAME
+.TP 
+cexcerpt - extract tagged code chunks for verbatim inclusion in documentation
+
+
+.SH SYNOPSIS
+.B cexcerpt
+.I file.c
+.I dir
+
+
+
+.SH DESCRIPTION
+
+.I cexcerpt 
+processes a C source file 
+.I file.c,
+extracts tagged excerpts, 
+and puts these excerpts in a file in directory 
+.I dir.
+
+.PP
+An excerpt is marked with special comments in the C file, as in
+this example:
+
+.nf
+/*::cexcerpt::my_example::begin::*/ 
+  while (esl_sq_Read(sqfp, sq) == eslOK)
+    { n++; }
+/*::cexcerpt::my_example::end::*/
+.fi
+
+.PP
+The tag's format is "::cexcerpt::<tag>::begin::" (or end).
+The tag is used to construct the file name, as 
+.I <tag>.tex. 
+In the example, the tag my_example creates a file
+.I my_example.tex
+in 
+.I dir.
+
+.PP
+All the text between the cexcerpt tags is put in the file.
+In addition, this text is wrapped in a {cchunk} environment.
+So in the example above, 
+.I my_example.tex 
+will contain:
+
+.nf
+ \\begin{cchunk}
+   while (esl_sq_Read(sqfp, sq) == eslOK)
+    { n++; }
+ \\end{cchunk}
+.fi
+
+.PP
+This file can then be included in a LaTeX file, with
+\\input{<dir>/<tag>}.
+
+.PP
+For best results, the C source should be free of TAB characters.
+"M-x untabify" on the region to clean them out.
+
+.PP
+Cexcerpts can't overlap or nest in any way in the C file; only
+one can be active at any given time.
+
+.SH OPTIONS
+
+Currently none.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/ctags-fix b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/ctags-fix
new file mode 100755
index 0000000..22c041f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/ctags-fix
@@ -0,0 +1,25 @@
+#! /usr/bin/perl
+
+# To be used in an idiomatic pipe for listing all keywords in a codebase:
+#
+#  find . -name \*.[ch] -exec ctags -x {} \; | ~/src/easel/trunk/devkit/ctags-fix | sort | tbl-pretty -f3 > 00INDEX
+#
+# ctags apparently prints a %15s %4d format
+# on keywords >15 long + linenumbers > 3 digits long, ctags merges the
+# first two fields, as in:
+#   esl_msa_FormatDesc1221 ./easel/esl_msa.c esl_msa_FormatDesc(ESL_MSA *msa, const char *desc, ...)
+# We try to detect this as best as possible; the possible ambiguity
+# is when the keyword name itself ends in a digit. To dismbiguate, we
+# assume no files have >=10000 lines.
+#
+# we also assume ctags has been called in a pipe from 'find',
+# so all filenames start with './', as in:
+#   find . -name \*.[ch] -exec ctags -x {} \; | ctags-fix > foo
+# This allows us to unambiguously find the true third column.
+
+
+while (<>)
+{
+    if (/^(\S{16,})(\d{4})\s+(\.\/.+)$/) { printf("%s %d %s\n", $1, $2, $3); }
+    else { print; }
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/esl-dependencies b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/esl-dependencies
new file mode 100755
index 0000000..a4dc126
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/esl-dependencies
@@ -0,0 +1,155 @@
+#! /usr/bin/perl
+
+# esl-dependencies  ::  determines module dependencies in Easel source code
+#
+# Usage:  esl-dependencies [options] <Easel .c file> [<additional Easel .c file>...]
+#
+# Options:  
+#      -1  : show one-line summary of module # required, # required in testdriver, # augmentable
+#      -r  : list of required modules     (used in Makefile to construct test driver compilation lines)
+#      -a  : list of augmentation modules (used in Makefile to construct test driver compilation lines)
+#      -f  : list of augmentation flags   (used in Makefile to construct test driver compilation lines)
+# 
+# SRE, Mon Jun 11 11:15:31 2007
+# SVN $Id$
+
+require "getopts.pl"
+&Getopts('1afr');
+
+if ($opt_1) { $show_summary_table = 1; }
+if ($opt_a) { $list_augfiles      = 1; }
+if ($opt_f) { $list_augflags      = 1; }
+if ($opt_r) { $list_reqfiles      = 1; }
+
+while ($cfile = shift) {
+    $past_start       = 0;
+    $in_testdriver    = 0;
+    %included_module  = ();
+    %with_module      = ();
+    %driver_module    = ();
+    %required_module  = ();
+    %augmented_module = ();
+    %driver_required_module = ();
+    $nrequired        = 0;
+    $ndriver_required = 0;
+    $naugmented       = 0;
+
+    if    ($cfile =~ /esl_(\S+)\.c/) { $thismodule = $1; }
+    elsif ($cfile =~ /(easel)\.c/)   { $thismodule = $1; }
+    else { die "Can't open $cfile\n"; }
+
+# Set $included_module{} hash to 1 for every module that this .c file 
+# includes (both required and augmented), except easel itself.
+# 
+    open(INCLUDES, $cfile) || die;
+    while (<INCLUDES>) {
+	if (!$past_start &&  /^\#include [<"]esl_(\S+).h[>"]/) { 
+	    $module = $1;
+	    if ($module eq $thismodule) { next; }
+	    if ($module eq "config")    { next; }
+	    if ($module eq "mpi")       { $with_module{"mpi"} = 1; next; } # special case of HAVE_MPI instead of AUGMENT_
+	    $included_module{$module} = 1; 
+	}
+
+	if (/^\{/) { $past_start = 1; }  # Stop looking at headers when we see the first function start.
+
+	if (/^\#ifdef (esl.+_TESTDRIVE)/) { $in_testdriver = 1; $flag = $1; }
+	if ($in_testdriver && /^\#endif \/\*\s*$flag/) { $in_testdriver = 0; }
+	
+	if ($in_testdriver &&  /^\#include [<"]esl_(\S+).h[>"]/) { 
+	    $module = $1;
+	    if ($module eq $thismodule) { next; }
+	    $driver_module{$module} = 1; 
+	}
+    }
+    close INCLUDES;
+
+# Set $augmented_module{} hash to 1 for every module that this .c file 
+# might be augmented with.
+# 
+    open(AUGMENTS, "cat $cfile | grep \'^#ifdef\' |") || die;
+    while (<AUGMENTS>) {
+	if (/^\#ifdef eslAUGMENT_(\S+)/) {
+	    $module = $1; 
+	    $module =~ tr/[A-Z]/[a-z]/; 
+	    $augmented_module{$module} = 1; 
+	}
+    }
+    close AUGMENTS;
+
+# Set $required_module{} hash to 1 for every module that this .c file 
+# requires, except easel itself.
+# 
+    foreach $m (keys(%included_module)) {
+	if (! $augmented_module{$m}) { 
+	    $required_module{$m} = 1;  
+	    $nrequired ++; 
+	}
+    }
+
+# Set $driver_required_module{} hash to 1 for every module that the .c 
+# file includes inside a TESTDRIVE ifdef, but is not an augmentation
+# or a module requirement.
+    foreach $m (keys(%driver_module)) {
+	if (! $augmented_module{$m} && ! $with_module{$m} && ! $required_module{$m}) { 
+	    $driver_required_module{$m} = 1;  
+	    $ndriver_required++;
+	}
+    }
+
+# Count the different augmentations
+#
+    foreach $m (keys(%augmented_module)) {
+	$naugmented++;
+    }
+
+
+    if ($show_summary_table) 
+    {
+	$req    = join(',', sort(keys(%required_module)));
+	$dreq   = join(',', sort(keys(%driver_required_module)));
+	$augreq = join(',', sort(keys(%augmented_module)));
+	
+	printf("%-12s %3d %3d %3d %-20s %-20s %-20s\n",
+	       $thismodule, $nrequired, $ndriver_required, $naugmented,
+	       $req, $dreq, $augreq);
+    } 
+    elsif ($list_reqfiles)
+    {
+	foreach $m (keys(%required_module))        { print "esl_$m.c "; }
+	foreach $m (keys(%driver_required_module)) { print "esl_$m.c "; }
+	print "\n";
+    }
+    elsif ($list_augfiles)
+    {
+	foreach $m (keys(%augmented_module))       { print "esl_$m.c "; }
+	print "\n";
+    }
+    elsif ($list_augflags)
+    {
+	foreach $m (keys(%augmented_module))       { $m =~ tr/[a-z]/[A-Z]/; print "-DeslAUGMENT_$m "; }
+	print "\n";
+    }
+    else
+    {
+
+	print "Module requires:\n";
+	foreach $m (keys(%required_module)) {
+	    print $m, "\n";
+	}
+
+	print "Driver requires:\n";
+	foreach $m (keys(%driver_required_module)) {
+	    print $m, "\n";
+	}
+
+	print "Augmentable with:\n";
+	foreach $m (keys(%augmented_module)) {
+	    print $m, "\n";
+	}
+	foreach $m (keys(%with_module)) {
+	    print $m, "\n";
+	}
+    }
+}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/man2optlist b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/man2optlist
new file mode 100755
index 0000000..82084cd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/man2optlist
@@ -0,0 +1,41 @@
+#! /usr/bin/perl
+
+
+# man2optlist <.man file>
+#
+# From one of our "standardized" .man pages, generate a table
+# that lists each documented option. 
+#
+# Crosscomparisons with c2optlist and sqc2optlist allow verification
+# that the options in a main .c file are documented in a .man page
+# and tested in a .sqc unit test file.
+#
+# Options are looked for as a two-line sequence:
+#   .TP
+#   .B <-option>
+# or
+#   .TP
+#   .BI <-option> " <optarg>"
+
+
+while (<>)
+{
+    if (/^\.TP/) { $nextline_is_option = 1; next; }
+
+    if ($nextline_is_option) 
+    {
+	if     (/^\.B\s+(-\S)\s*$/)                    {  $option = $1; $optarg = "-"; }
+	elsif  (/^\.B\s+(--\S+)\s*$/)	               {  $option = $1; $optarg = "-"; }
+	elsif (/^\.BI\s+(-\S)\s+" (<[nxfcs]>)"\s*$/)   {  $option = $1; $optarg = $2;  }
+	elsif (/^\.BI\s+(--\S+)\s+" (<[nxfcs]>)"\s*$/) {  $option = $1; $optarg = $2;  }
+	else                                           { die "unrecognized option line:\n$_"; }
+
+	printf ("%-20s %s\n", $option, $optarg);
+    }
+
+    $nextline_is_option = 0;
+}
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/rmanprocess.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/rmanprocess.pl
new file mode 100755
index 0000000..bde3a77
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/rmanprocess.pl
@@ -0,0 +1,77 @@
+#! /usr/bin/perl
+
+# rmanprocess.pl <rman LaTeX2e output>
+# 
+# Example:
+#    rman -f LaTeX2e foo.man | rmanprocess.pl > foo.tex
+#
+# Converts a man page to a HMMER User's Guide section.
+# Written to operate with PolyglotMan v3.0.5, by Thomas Phelps
+# Obtain from ftp.cs.berkeley.edu:/ucb/people/phelps/tcltk/rman.tar.Z
+#
+# - removes document declarations
+# - removes See Also and Author sections, if present
+# - converts sections to subsections
+# - adds a subsection declaration for program name
+# 
+# 
+# SRE, Mon May 25 11:06:58 1998
+# SVN $Id: rmanprocess.pl 1531 2005-12-13 20:53:46Z eddy $
+
+while (<>)
+{
+    if (/--/) { s/--/{-}{-}/g; }
+
+    if (/^\\documentclass/) { 
+	print "\\setlength{\\sresavei}{\\parindent}\n";
+	print "\\setlength{\\sresaves}{\\parskip}\n";
+	next;
+    }
+    if (/^\\begin\{document\}/) { next; }
+  
+    if (/^\s*\\section\{See/ || /^\\end\{document\}/) {
+	print "\\setlength{\\parindent}{\\sresavei}\n";
+	print "\\setlength{\\parskip}{\\sresaves}\n";
+	print "\\newpage";
+	last;
+    }
+
+    if (/\\begin\{itemize\}/ || /\\end\{itemize\}/) {
+	s/itemize/wideitem/;
+	print;
+	next;
+    }
+
+    if (/^\\section\{Name/) {
+	while (<>) {			# get one-line "foo - a program to do bar"
+	    if    (/^(\S+)\s+-\s+(.+)$/) { print "\\subsection{\\texttt{$1} - $2}\n"; }
+	    elsif (/^\\section/)         { last; }
+	}
+    }
+
+# 	while ($line = <>) { 
+# 	    if ($line =~ /\\begin\{itemize\}/) { last; }
+# 	}
+# 	while ($line = <>) {			# get item
+# 	    
+# 		
+# 		last;
+# 	    } elsif ($line =~ /^\\item\s*\[(\S+)\s*-\s*(.+)/) {
+# 		print "\\subsection{\\texttt{$1} - $2}\n";
+# 		last;
+# 	    }
+# 	}
+# 	while (<>) { 
+# 	    if (/\\end\{itemize\}/) { last; }
+# 	}
+# 	next;
+
+    if (/^\\section/) {
+	s/section/subsubsection/;
+	print;
+	next;
+    }
+
+    print;
+
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sedition b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sedition
new file mode 100755
index 0000000..4037075
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sedition
@@ -0,0 +1,67 @@
+#! /usr/bin/perl
+
+# sedition <keyword> <replacement> [<key2> <replace2>]... <file>
+#
+# A wrapper for "sed", allowing editing a file in place
+# instead of in a stream. 
+#
+# Replace all instances of @keyword@ with <replacement>,
+# @key2@ with <replace2>, etc.
+#
+# Note that all keywords to be replaced are enclosed by @@ in
+# the text where they are to be replaced, but the @@ delimiters
+# are not in the sedition command line. This allows you to run
+# sedition on scripts and Makefiles that themselves contain sedition
+# command lines, without inadvertently clobbering those command lines.
+#
+# Replacement strings should generally be one-liners.
+# See sedition-pp for a paragraph-wise replacement script.
+#
+# Note the restricted command line use: sedition, unlike
+# sed, must be run on a single specified file.
+#
+# Example: 
+#   sedition FOO "foo replacement" BAR "bar replacement" myfile
+# converts all instances of
+#     @FOO@
+# to
+#     foo replacement
+#
+# Moved to ssdk, SRE, Mon Mar 31 19:24:19 2003
+# SVN $Id: sedition 1531 2005-12-13 20:53:46Z eddy $
+
+sub choke {
+    my ($mesg) = @_;
+    
+    if (-e "$filename.sed.tmp") { system "mv $filename.sed.tmp $filename"; }
+    die ($mesg, ", stopped");
+}
+
+
+$filename = pop;
+if (! -e $filename)           { die   "$filename doesn't exist"; }
+if (  -e "$filename.sed.tmp") { die "already have a tmp file $filename.sed.tmp"; }
+
+$sedargs = "";
+while (@ARGV) {
+    $key      = shift;
+    $replace  = shift;
+    $sedargs .= " -e 's!\@$key\@!$replace!g'";
+}
+
+if (-w $filename)   { $writable = 1; }
+
+system("cp $filename $filename.sed.tmp");
+if ($? != 0) {die "failed to make tmp copy"; }
+if (! $writable) {
+    system("chmod +w $filename"); 
+    if ($? != 0) { choke "failed to make $filename temporarily writable"; }
+}
+system("sed $sedargs $filename.sed.tmp > $filename");
+if ($? != 0) {choke "sed failed"; }
+if (! $writable) {
+    system("chmod -w $filename"); 
+    if ($? != 0) { choke "failed to make $filename temporarily writable"; }
+}
+unlink "$filename.sed.tmp";
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sedition-pp b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sedition-pp
new file mode 100755
index 0000000..8d2b3f6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sedition-pp
@@ -0,0 +1,89 @@
+#! /usr/bin/perl
+
+# sedition-pp <keyword> <ppfile> <source file>
+#
+# Replaces occurrences of @<keyword>@ in the source file
+# with the text found in <ppfile>. <ppfile> may contain
+# multiple lines of text. In the <source file>, the @<keyword>@
+# must be on a line of its own - it may have leading and
+# trailing comment delimiters, but that's all. That's because these
+# delimiters will be replicated in the multiline substitution;
+# see below.
+# 
+# Note that the <keyword> is surrounded by @@ in the text
+# where it's to be replaced. These delimiters do not appear in the command
+# line; this allows you to run sedition-pp on scripts and Makefiles
+# that themselves contain sedition-pp command lines, without clobbering
+# those commands.
+#
+# sedition-pp preserves and replicates leading and trailing context,
+# permitting language-independent substitution within comments.
+# For example,
+#     sedition-pp FOO foofile foo.c
+# finds in foo.c (C code) a line like
+#     * @FOO@ 
+# and replaces it with the text of "foofile", which might 
+# result in:
+#     * An example license for foo.
+#     * Copyright (C) ...
+#
+# Whereas a (shell or Perl script) line like
+#     # @FOO@
+# would become
+#     # An example license for foo.
+#     # Copyright (C) ...
+# 
+# And an HTML section like
+#   <!--  
+#     -- @FOO@ 
+#     -->
+# is replaced with
+#     <!-- 
+#       -- An example license for foo.
+#       -- Copyright (C) ...
+#       -->
+#
+# modified from licenseadd.pl in ssdk; SRE, Mon Mar 31 19:39:50 2003
+# SVN $Id: sedition-pp 1531 2005-12-13 20:53:46Z eddy $
+#
+
+$keyword     = shift;
+$ppfile      = shift;
+$sourcefile  = shift;
+
+if (! -e $sourcefile) { die "no such file $sourcefile"; }
+($dev,$ino,$mode) = stat($sourcefile);
+
+open(PP,$ppfile) || die;
+$nlines = 0;
+while (<PP>)
+{
+    chomp;
+    $ppline[$nlines] = $_;
+    $nlines++;
+}
+close(PP);
+
+open(TMPFILE,">/tmp/tmp.pp.sedition") || die "Fatal: can't open /tmp/tmp.pp.sedition : $!\n";
+open(SOURCE,$sourcefile) || die;
+while (<SOURCE>) 
+{
+    if (/^(.*)\@$keyword\@(.*)$/) 
+    {
+	$start = $1;
+	$end   = $2;
+	foreach $line (@ppline) 
+	{
+	    print TMPFILE "$start$line$end\n";
+	}
+    } else { print TMPFILE $_;}
+}
+close SOURCE;
+close TMPFILE;
+
+# Replace the original file with the new one, and restore the original
+# file's mode.
+#
+unlink $sourcefile;
+system("mv /tmp/tmp.pp.sedition $sourcefile");
+chmod $mode, $sourcefile;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sqc b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sqc
new file mode 100755
index 0000000..58e23a2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/devkit/sqc
@@ -0,0 +1,689 @@
+#! /usr/bin/perl
+
+# sqc ::
+# quality control script for exercising code, regression testing, 
+# and benchmarking.
+#
+# Usage: sqc [options] <level> <command file> <top_builddir> <top_srcdir> \
+#                  [<old_top_builddir> <old_top_srcdir>]
+#
+#    level          - an integer >= 0. Higher = more testing, more time.
+#    command file   - an sqc command file. See below for format.
+#    top_builddir   - top of the build directory - where executables will
+#                     be searched for. In .sqc command files, any path
+#                     @foo@ is looked for in ${top_builddir}/foo.
+#    top_srcdir     - top of the src directory - where scripts and datafiles
+#                     will be searched for. In .sqc command files, any
+#                     path !foo! is looked for in ${top_srcdir}/foo.
+# [The other two arguments are optional, and are only used if the
+#  command file contains regression tests:]
+#    old_top_builddir - top of the build tree for an old version of
+#                       the same software distribution, for regression tests
+#    old_top_srcdir   - top of the src tree for an old version for regression.
+#
+#
+# Available options:
+#    -v             - print verbose output, including each command
+#                     after various substitutions.
+#
+#    -x <n>         - only run test number <n>, where <n> starts from 1.
+#                     Useful when debugging individual failed tests - saves
+#                     having to rerun the whole testsuite.
+#
+#    -V             - Run 'valgrind' test types. Caller asserts that valgrind
+#                     is installed on this system. This option may also be
+#                     set by setting environment variable SQC_VALGRIND nonzero.
+#
+#    -M             - Run 'mpi' test types. Caller asserts that mpiexec is
+#                     installed on this system. This option may also be set
+#                     by setting env variable SQC_MPI nonzero.
+# Examples: 
+#    % sqc 2 exercises.sqc .. .. 
+#
+# (Allowing -M, -V to also be set in the environment simplifies life when
+#  we're calling sqc via a 'make check', where we don't really have control
+#  over the cmdline options, but we can control our system environment.)
+# 
+# For each (non-prep) test in the command file, a one-line summary
+# of the result is printed. The format of this line is:
+#     <testtype> <test #> [<test name>]...   <status>
+# where <testtype> is exercise, valgrind, mpi, regression, benchmark, or
+# fail; <test #> is a counter, separate for each type; <test name> is
+# the one-word name for this test; and <status> is the result of the
+# test. The format for <status> is described later.
+# 
+# Format of sqc file:
+#    Blank lines are ignored. Lines beginning with # are comments and
+#    are ignored. All other lines have format:
+#    <level>  <type>  <name>  <command>
+#
+#    level:   an integer >= 0. If the sqc level is less than this test's 
+#             level, the command is skipped. This allows quick, less
+#             extensive tests and long, extensive tests to be configured
+#             in one command file.
+#
+#    type:    One of the following keywords: 
+#             prep, exercise, valgrind, mpi, regression, benchmark, fail
+#             See below for description of each.
+# 
+#    name:    One word, <=20 characters, naming this test.
+#             Makes it easier to track down a failed test.
+#             sqc does not verify that names are unique, but it's
+#             a good idea.
+#
+#    command: Command template to run. (remainder of line, usually
+#             more than one token/word).
+#
+#             A command template is subjected to three types of
+#             filename substitution (@@ = executables in the build tree;
+#             !! = scripts and data in the source tree; %% = temp files
+#             managed by sqc).  
+#
+#             No token may contain the string REGRESSION; this is
+#             reserved for regression tests (see below).
+#
+#             valgrind prefixing, regression filename substitution, 
+#             path substitution, and output redirection:
+#             
+#         @@ path substitution for binaries (in build tree):
+#             Tokens enclosed in @@ in the template are interpreted
+#             as executables to be found in the build tree. The token is
+#             prefixed by ${top_builddir}. 
+#             
+#             With no token at all (@@), the ${top_builddir} is
+#             substituted; this special case is used to pass the
+#             ${top_builddir} as an argument into integrated test
+#             scripts that sqc is running. This leads to an
+#             idiomatic incantation for integrated tests:
+#                  !testsuite/ixx-test.pl! @@ !! %TMPPFX%
+#             by which the builddir, srcdir, and a tempfile prefix are
+#             passed along to a script, which is responsible for
+#             printing "ok" and returning 0 on success, and die()'ing
+#             on any failure.
+# 
+#         !! path substitution for scripts and data (in src tree):
+#             Tokens enclosed in !! in a command template are
+#             interpreted as scripts or datafiles to be found in the
+#             source tree. The token is prefixed by ${top_srcdir}.
+#
+#             As above, with no token at all (!!), the ${top_srcdir} is
+#             substituted.
+
+#         %% tempfile substitution for output generated during sqc:
+#             Tokens enclosed in %% are interpreted as a tempfile to
+#             be created during the sqc run. sqc is responsible for
+#             deleting the temp file. Each token in an sqc command
+#             file maps uniquely to the same file name throughout an
+#             sqc process, so the same token may be used in more than
+#             one command; for example, a "prep" command can create a
+#             file that subsequent "exercise" commands need as input).
+#
+#             It is a common idiom to pass a tempfile name into a test
+#             script, where the script then uses the name as a unique
+#             prefix to create a number of temp files with different
+#             suffixes, a la %TMPFILE%.1, %TMPFILE%.2, etc. Such a
+#             script cleans up the suffixed temp files it creates; sqc
+#             cleans up the original %TMPFILE%.
+#
+#         output redirection:
+#             ">/dev/null 2> <TMPFILE>" is appended to the command
+#             template, to redirect all output away, and save 
+#             STDERR diagnostics to a <TMPFILE> (for instance, valgrind
+#             report goes to this file).
+#             If the command template already includes a ">", only
+#             the STDERR redirection is done; it is assumed that the command
+#             is deliberately keeping its output (probably in its own tmpfile).
+#             If redirection is done explicitly in the command template,
+#             the template is responsible for stdout. sqc always handles
+#             stderr itself.
+#
+#         regression filename substitution: ["regression" test types only]
+#             In a "regression" test, the same command is run twice;
+#             once under a "new" build and once under an "old" build
+#             of the same software distribution. Any tempfile tokens in 
+#             the command template that start with REGRESSION (such as 
+#             %REGRESSION.OUT1%) are considered to be outputs that 
+#             should be absolutely identical between the old and new
+#             software versions. These are compared by "diff", and
+#             the regression test fails if the diff isn't clean.
+#
+#             
+# Types of tests:
+#
+# prep:       Creates tmp files that other tests will need.
+#             If a prep command fails for any reason with nonzero
+#             exit status, sqc dies at that point. 
+#             prep commands create no output lines in the sqc report.
+#
+# exercise:   Run a command that is expected to succeed with zero
+#             exit status.
+#             Return status is tested; if nonzero, a failure is
+#             recorded. Crashes versus clean failures are reported 
+#             differently in the output message.
+#             The format for the status in the output line is:
+#                ok.
+#                FAILED [command failed]
+#                FAILED [crash!] 
+#
+# fail:       Run a command that is expected to exit cleanly with
+#             *nonzero* exit status (for example, testing that a program
+#             successfully detects bad input, rather than crashing).
+#             Possible results for output line status are:
+#                  ok.
+#                  FAILED to fail
+#                  FAILED [crash!]
+#
+# valgrind:   Check for memory problems and leaks. 
+#             Like exercise, but the command is run with "valgrind
+#             --error-exitcode=99" prepended, so valgrind runs the
+#             command. 
+#
+#             Return status is tested; 99 indicates an error detected
+#             by valgrind, other nonzero codes indicate a failure code
+#             reported by the application.  The stderr that sqc
+#             captured is examined for valgrind leak reports.  The
+#             format for the status in the output line is:
+#                ok. 
+#                FAILED [valgrind reports error(s)]
+#                FAILED [valgrind reports leak(s)]
+#                FAILED [command failed]
+#                FAILED [crash!]
+#
+#             Valgrind tests are only run if -V cmdline option is used,
+#             or if SQC_VALGRIND environment variable is set nonzero.
+#
+# mpi:        An MPI-specific exercise.
+#             
+#             The command includes 'mpiexec'; for example, 
+#             "mpiexec -n 2 ./my_mpi_unit_test"
+#
+#             MPI exercises are only run if the -M cmdline option is used,
+#             or if SQC_MPI environment variable is set nonzero.
+#
+#             Output line format is the same as for an exercise.
+# 
+# regression: The same command template is processed and run twice;
+#             once under a "new" build (<top_builddir> and <top_srcdir>)
+#             and once under an "old" build of the same software 
+#             distribution (<old_top_builddir> and <old_top_srcdir>).
+#
+#             Any tempfile tokens in the command template that start
+#             with REGRESSION (such as %REGRESSION.OUT1%) are
+#             considered to be outputs that should be absolutely
+#             identical between the old and new software
+#             versions. These are compared by "diff", and the
+#             regression test fails if the diff isn't clean.
+#
+#             Possible outputs:
+#                 ok.
+#                 FAILED [regressions differ]
+#                 FAILED [new command failed]
+#                 FAILED [old command failed]
+#                 FAILED [new crashed!]
+#                 FAILED [old crashed!]
+#
+# benchmark:  Runs a command and measures how long it takes.
+#             The output status field is the user CPU time in seconds.
+#             Like a prep command, if a benchmark command fails, sqc
+#             dies immediately at that point.
+#
+#
+################################################################
+# SRE, Tue Aug  6 11:16:39 2002
+# SVN $Id: sqc 1796 2007-01-03 22:36:44Z eddys $
+
+use Getopt::Std;
+
+# Parse our command line options
+#
+getopts('vx:VM');
+if ($opt_v) { $verbose          = 1;      }
+if ($opt_x) { $only_do_test_num = $opt_x; }
+if ($opt_V) { $do_valgrind      = 1;      }
+if ($opt_M) { $do_mpi           = 1;      }
+
+# Parse our environment
+#
+if ($ENV{"SQC_VALGRIND"} != 0) { $do_valgrind = 1; }
+if ($ENV{"SQC_MPI"}      != 0) { $do_mpi      = 1; }
+
+# Trust but verify
+#
+if ($do_valgrind) 
+{
+    $output = `valgrind --version 2>&1`;
+    if ($?) { die "couldn't run valgrind. Don't set -V cmdline option, don't set SQC_VALGRIND env variable."; }
+}
+if ($do_mpi)
+{
+    $output = `mpiexec -V 2>&1`;
+    if ($?) { die "couldn't run mpiexec. Don't set -M cmdline option, don't set SQC_MPI env variable."; }
+}
+
+# Parse command line arguments
+#
+if ($#ARGV == 3)
+{
+    $setlevel     = shift;
+    $commandfile  = shift;
+    $top_builddir = shift;
+    $top_srcdir   = shift;
+    undef($old_builddir);
+    undef($old_srcdir);
+}
+elsif ($#ARGV == 5) 
+{
+    $setlevel     = shift;
+    $commandfile  = shift;
+    $top_builddir = shift;
+    $top_srcdir   = shift;
+    $old_builddir = shift;
+    $old_srcdir   = shift;
+}
+else   
+{ die "Usage: sqc [options] <level> <commandfile> <top_builddir> <top_srcdir> [<old_top_builddir> <old_top_srcdir>]\n"; }
+
+$tmp = &tempname;
+$|   = 1;
+
+print "sqc: running $commandfile.\n" if $verbose;
+
+open(COMMANDS, $commandfile) || die;
+$nbench = $ntest = $badtest = 0;
+$tot_benchtime_cpu = $tot_benchtime_wall = 0.;
+$linenum = 0;
+
+COMMAND:
+while (<COMMANDS>) {
+    $linenum++;
+    if (/^\#/)   { next; }
+    if (/^\s*$/) { next; }
+
+    chomp;
+    ($testlevel, $testtype, $testname, $cmdtemplate) = split(' ', $_, 4);
+    if ($setlevel < $testlevel) { next COMMAND; }
+
+    # Make sure it's a valid test type;
+    # print the first part of the output line.
+    #
+    if ($testtype eq "exercise"   || 
+	$testtype eq "valgrind"   ||
+	$testtype eq "mpi"        ||
+	$testtype eq "regression" ||
+	$testtype eq "fail"       ||
+	$testtype eq "benchmark") 
+    {
+	if ($testtype eq "valgrind") { $valgrind_ntests++; if (! $do_valgrind) { next COMMAND; } }
+	if ($testtype eq "mpi")      { $mpi_ntests++;      if (! $do_mpi)      { next COMMAND; } }
+
+	$ntest++;
+	if ($only_do_test_num && $only_do_test_num != $ntest) { next COMMAND; }
+	printf("  %10s %4d [%21s] ...     ", $testtype, $ntest, $testname);
+    } 
+    elsif ($testtype ne "prep") 
+    {
+	die "No such test type $testtype at line $linenum of command file\n";
+    }
+
+    print "sqc: evaluating line: $_\n" if $verbose;
+
+    # Filename substitution.
+    $cmd = $cmdtemplate;
+
+    ($status, $cmd) = &build_substitution($tmp, $cmd, $top_builddir); 
+    next COMMAND if &check_status($status, $testname, $testtype, "FAILED [@@ substitution]");
+
+    ($status, $cmd) = &src_substitution($tmp, $cmd, $top_srcdir); 
+    next COMMAND if &check_status($status, $testname, $testtype, "FAILED [!! substitution]");
+
+    $cmd =  &tempfile_substitution($tmp, $cmd);
+    
+    print "sqc: after filename subst, cmd is: $cmd\n" if $verbose;
+
+    # Valgrind prefixing.
+    $cmd = "valgrind --error-exitcode=99 $cmd" if ($testtype eq "valgrind");
+
+    # Regression substitutions, $cmd splits into $cmd (new) and $cmd2 (old)
+    if ($testtype eq "regression") {
+	$cmd2 = $cmdtemplate;
+
+	die ("FAILED;\nno <old_builddir> argument on command line; can't run regression tests\n") if (! defined($old_builddir));
+	die ("FAILED;\nno <old_srcdir> argument on command line; can't run regression tests\n")   if (! defined($old_srcdir));
+
+	($status, $cmd2) = &build_substitution($tmp, $cmd2, $old_builddir); 
+	next COMMAND if &check_status($status, $testname, $testtype, "FAILED [@@ substitution]");
+
+	($status, $cmd2) = &src_substitution($tmp, $cmd2, $old_srcdir); 
+	next COMMAND if &check_status($status, $testname, $testtype, "FAILED [!! substitution]");
+
+	$cmd2 =  &tempfile_substitution($tmp, $cmd2);
+  
+	($nregressions, $cmd, $cmd2) = &regression_substitution($tmp, $cmd, $cmd2);
+    
+	print "sqc: after filename subst, regressed new cmd is: $cmd\n"  if $verbose;
+	print "sqc: after filename subst, regressed old cmd is: $cmd2\n" if $verbose;
+    }
+
+    # Output redirection substitution.
+    # stdout is sent to /dev/null unless command already is handling it.
+    # stderr is saved in a tmp file.
+    # (stderr from the old cmd2 of a regression test is sent to /dev/null)
+    #
+    if ($cmd !~ />/) { 
+	$cmd  = "$cmd  > /dev/null";
+	$cmd2 = "$cmd2 > /dev/null"  if ($testtype eq "regression");
+    }
+    $cmd  = "$cmd  2> $tmp.stderr";
+    $cmd2 = "$cmd2 2> /dev/null"     if ($testtype eq "regression");
+    print "sqc: after output subst, cmd is: $cmd\n" if $verbose;
+
+    # Run the commands;
+    # collect exit status in status1;
+    # additionally, for regression test, old executable's status is in status2.
+    #
+    # If our command fails "cleanly" it has an exit code of 1 by Easel convention.
+    # Because of the way Perl handles status codes, this becomes 1<<8 = 256.
+    # All other nonzero codes are called "crashes" because they probably are.
+    #
+    # The `(true; $cmd)` stuff is because a segfault gets reported by shell,
+    # not the process itself; we want to redirect that output too.
+    $startwall = time;
+    $startcpu  = (times)[2];
+    print "sqc: running cmd: $cmd\n" if $verbose;
+    `(true; $cmd) 2> /dev/null > /dev/null`;
+    $status1 = $?;
+    print "sqc: return status $status1\n" if $verbose;
+    if ($testtype eq "regression") {
+	`(true; $cmd2) 2> /dev/null > /dev/null`;
+	$status2 = $?;
+    }
+    $stopwall = time;
+    $stopcpu  = (times)[2];
+
+    # Deal with exit status and output.
+    if ($testtype eq "prep") 
+    {
+	if ($status1 != 0) { die "prep command [$testname] at line $linenum failed with status $status1\n"; }
+    } 
+
+    elsif ($testtype eq "exercise" || $testtype eq "mpi") 
+    {
+	if    (($status1>>8)    == 1) { print "FAILED [command failed]\n";   $badtest++; }
+	elsif ( $status1        != 0) { print "FAILED [crash!]\n";           $badtest++; }
+	else                          { print "ok.\n"; }
+    } 
+
+    elsif ($testtype eq "valgrind")
+    {
+	($has_valgrind, $has_leak) = &check_valgrind_status("$tmp.stderr");
+	if    ($has_valgrind == 0)    { print "FAILED [no valgrind output?]\n";       $badtest++; }
+	elsif (($status1>>8) == 99)   { print "FAILED [valgrind reports error(s)]\n"; $badtest++; }
+	elsif (($status1>>8) == 1)    { print "FAILED [command failed]\n";            $badtest++; }
+	elsif ( $status1     != 0)    { print "FAILED [crash!]\n";                    $badtest++; }
+	elsif ($has_leak)             { print "FAILED [valgrind reports leak(s)]\n";  $badtest++; }
+	else                          { print "ok.\n"; }
+	# Important to check for leaks last above. On app failure, we're allowed to return a nonzero 
+	# exit code without scrupulously free'ing everything.
+    }
+
+
+    elsif ($testtype eq "regression") 
+    {
+	if    (($status1>>8)   == 1) { print "FAILED [new command failed]\n";  $badtest++; }
+	elsif (($status2>>8)   == 1) { print "FAILED [old command failed]\n";  $badtest++; }
+	elsif ( $status1       != 0) { print "FAILED [new crashed!]\n";        $badtest++; }
+	elsif ( $status2       != 0) { print "FAILED [old crashed!]\n";        $badtest++; }
+	else 
+	{
+	    $nregress_failed = 0;
+	    for ($i = 0; $i < $nregressions; $i++) 
+	    {
+		system("diff $tmp.REGRESSION.old.$i $tmp.REGRESSION.new.$i > /dev/null");
+		if ($? != 0) { $nregress_failed++; }
+	    }
+	    if ($nregress_failed > 0) { print "FAILED [regressions differ]\n"; $badtest++; }
+	    else                      { print "ok.\n"; }
+	}
+    }
+
+    elsif ($testtype eq "benchmark") 
+    {
+	if ($status1 != 0) {
+	    die "benchmark at line $linenum failed with status $status1\n";
+	}
+	$cpu_elapsed  = $stopcpu  - $startcpu;
+	$wall_elapsed = $stopwall - $startwall;
+	printf "%6.1f cpu  %4d wall\n", $cpu_elapsed, $wall_elapsed;
+	$tot_benchtime_cpu  += $cpu_elapsed;
+	$tot_benchtime_wall += $wall_elapsed;
+	$nbench++;
+    } 
+
+    elsif ($testtype eq "fail") 
+    {
+	if    (($status1>>8)  == 0) { print "FAILED [0 status]\n";  $badtest++; }
+	elsif (($status1>>8)  != 1) { print "FAILED [crash!]\n";    $badtest++; }
+	else                        { print "ok.\n"; }
+    }
+
+    last if ($only_do_test_num && $ntest == $only_do_test_num ); 
+
+}
+
+# Summarize output.
+if ($badtest > 0) { print "\n$badtest of $ntest exercises at level <= $setlevel FAILED.\n"; }
+else              { print "\nAll $ntest exercises at level <= $setlevel passed.\n"; }
+
+if ($nbench > 0) {
+    printf "\nTotal of %d benchmarks: %.1f cpu  %d wall\n",
+            $nbench, $tot_benchtime_cpu, $tot_benchtime_wall;
+}
+
+
+# Print info on system, date, etc.
+#
+print "\n\nSystem information:\n";
+print `date`;
+print `uname -a`;
+
+
+# Clean up.
+#
+foreach $tmpfile (keys(%used_tmpfile)) {
+    unlink $tmpfile if -e $tmpfile;
+}
+unlink $tmp if -e $tmp;
+unlink "$tmp.stderr" if -e "$tmp.stderr";
+
+
+sub check_status
+{
+    my ($status, $testname, $testtype, $errmsg) = @_;
+    if ($status != 0)
+    {
+	if ($testtype eq "prep") { die "fatal: prep command [$testname]: $errmsg\n"; }
+	print $errmsg . "\n";
+	$badtest++;
+    }
+    ($status);
+}
+
+
+# build_substitution(tmppfx, cmd, builddir)
+# 
+# Perform @@ substitutions for builddir;
+# check that token exists and is executable.
+#
+# Return (status, cmd).
+# status != 0 means token doesn't exist or isn't executable.
+#
+sub build_substitution
+{
+    my ($tmp, $cmd, $builddir) = @_;
+    my ($status, $token, $newname);
+    
+    $status = 0;
+    $cmd =~ s/\@\@/$builddir/g;	# special case of "@@" replacement
+    while ($cmd =~ /\@(\S+?)\@/) 
+    {
+	$token    = $1;
+	$newname  = "$builddir/$token";
+	if (! -x $newname) { $status = 1; }
+	$cmd =~ s/\@$token\@/$newname/g;
+    }
+    ($status, $cmd);
+}
+
+
+
+# src_substitution(tmppfx, cmd, srcdir)
+# 
+# Perform !! substitutions for srcdir;
+# check that token exists.
+#
+# Return (status, cmd).
+# status != 0 means token didn't exist.
+#
+sub src_substitution
+{
+    my ($tmp, $cmd, $srcdir) = @_;
+    my ($status, $token, $newname);
+    
+    $status = 0;
+    $cmd =~ s/\!\!/$srcdir/g;	# special case of "!!" replacement
+    while ($cmd =~ /\!(\S+?)\!/) 
+    {
+	$token    = $1;
+	$newname  = "$srcdir/$token";
+	if (! -e $newname) { $status = 1; }
+	$cmd =~ s/\!$token\!/$newname/g;
+    }
+    ($status, $cmd);
+}
+
+
+# tempfile_substitution(tmpprefix, command_template)
+# 
+# Uses a global, %used_tmpfile, which is a hash
+# that is TRUE for each tmpfile names that we'll 
+# try to delete upon exit.
+sub tempfile_substitution
+{
+    my ($tmp, $com) = @_;
+    my ($token, $newname);
+    
+    while ($com =~ /%(\S+?)%/ && $1 !~ /^REGRESSION/) {
+	$token    = $1;
+	$newname  = "$tmp.$token";
+	$com =~ s/%$token%/$newname/g;
+	$used_tmpfile{$newname} = 1;
+    }
+    return $com;
+}
+    
+# regression_substitution(tmpprefix, new_command, old_command)
+#
+# Any tempfile token that starts with REGRESSION is
+# now substituted by <tmpppfx>.REGRESSION.{new,old}.{n},
+# where {n} is an index {0..n-1} for <n> regression
+# tmpfiles in the command template (usually 1).
+#
+# Unlike normal tmpfile substitution, these constructed names 
+# ignore the exact %token% used by the command template;
+# but there is no possibility of name clash, because the
+# entire token namespace prefixed by REGRESSION is reserved.
+#
+# The reason to do it this way is that now the caller can
+# enumerate (and diff) all regression files just by knowing <n>.
+#
+# Returns (<n>, <cmd1>, <cmd2>).
+#
+sub regression_substitution 
+{
+    my ($tmp, $cmd1, $cmd2) = @_;
+    my ($token, $newname1, $newname2, $n);
+    
+    $n = 0;
+    while ($cmd1 =~ /%(REGRESSION\S*?)%/) 
+    {
+	$token    = $1;
+	$newname1 = "$tmp.REGRESSION.new.$n";
+	$newname2 = "$tmp.REGRESSION.old.$n";
+	$cmd1 =~ s/%$token%/$newname1/g;
+	$cmd2 =~ s/%$token%/$newname2/g;
+	$used_tmpfile{$newname1} = 1;
+	$used_tmpfile{$newname2} = 1;
+	$n++;
+    }
+    return ($n, $cmd1, $cmd2);
+}
+    
+
+# Function: check_valgrind_status
+# 
+# Look at a file containing stderr from an executed command.
+# Find valgrind report, and look for a memory leak report. 
+#
+# You'll see below that code for checking "still reachable" has been
+# commented out. System libraries may do harmless global allocations
+# without deallocating, and these show up as "still reachable", yet
+# are outside our control. This is especially noticeable on Mac OS/X.
+#
+# Return ($has_valgrind, $has_leak):
+#    $has_valgrind:  1 if report is present; else 0
+#    $has_leak:      1 if valgrind report shows an unsuppressed memory leak.
+#
+# If $file isn't present at all, returns (0,0).
+#
+sub check_valgrind_status
+{
+    my ($file) = @_;
+    my ($has_valgrind, $has_leak);
+
+    open(VALGRIND, "$file") || return (0,0);
+    $has_valgrind = $has_leak = 0;
+    while (<VALGRIND>) {
+	if (/^==\d+== Memcheck/)                             { $has_valgrind = 1; }
+	if (/^==\d+==    definitely lost: (\d+)/ && $1 != 0) { $has_leak     = 1; }
+	if (/^==\d+==    indirectly lost: (\d+)/ && $1 != 0) { $has_leak     = 1; }
+	if (/^==\d+==      possibly lost: (\d+)/ && $1 != 0) { $has_leak     = 1; }
+#	if (/^==\d+==    still reachable: (\d+)/ && $1 != 0) { $has_leak     = 1; }
+    }
+    close VALGRIND;
+    
+    if (! $has_valgrind) { $has_leak = 0; }
+
+    return ($has_valgrind, $has_leak);
+}
+
+# Function: tempname
+#
+# Returns a unique temporary filename. 
+#
+# Should be robust. Uses the pid as part of the temp name
+# to prevent other processes from clashing. A two-letter
+# code is also added, so a given process can request
+# up to 676 temp file names (26*26). An "esltmp" code is
+# also added to distinguish these temp files from those
+# made by other programs.
+#
+# Returns nothing if it fails to get a temp file name.
+#
+# If TMPDIR is set, that directory is prepended to the
+# name.
+#
+sub tempname {
+    my ($dir, $name, $suffix);
+    if ($TMPDIR) { $dir = $TMPDIR."/"; } else {$dir = "";}
+
+    foreach $suffix ("aa".."zz") {
+        $name = "$dir"."esltmp".$suffix.$$;
+        if (! (-e $name)) { 
+            open(TMP,">$name") || die; # Touch it to reserve it.
+            close(TMP);
+            return "$name"; 
+        }
+    }                           
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.c
new file mode 100755
index 0000000..c9e1460
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.c
@@ -0,0 +1,2192 @@
+/* Easel's foundation.
+ * 
+ * Contents:
+ *    1. Exception and fatal error handling.
+ *    2. Memory allocation/deallocation conventions.
+ *    3. Standard banner for Easel miniapplications.
+ *    4. Improved replacements for some C library functions.
+ *    5. Portable drop-in replacements for nonstandard C functions.
+ *    6. Additional string functions, esl_str*()
+ *    7. File path/name manipulation, including tmpfiles.
+ *    8. Typed comparison functions.
+ *    9. Unit tests.
+ *   10. Test driver.
+ *   11. Examples. 
+ *   12. Copyright and license. 
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <stdarg.h>
+#include <errno.h>
+#include <string.h>
+#include <math.h>
+#include <ctype.h>
+
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>		
+#endif
+#ifdef _POSIX_VERSION
+#include <sys/stat.h>
+#include <sys/types.h>
+#endif
+
+#ifdef HAVE_MPI
+#include <mpi.h>		/* MPI_Abort() may be used in esl_fatal() or other program killers */
+#endif
+
+#include "easel.h"
+
+
+/*****************************************************************
+ * 1. Exception and fatal error handling.
+ *****************************************************************/
+static esl_exception_handler_f esl_exception_handler = NULL;
+
+/* Function:  esl_exception()
+ * Synopsis:  Throw an exception.
+ *
+ * Purpose:   Throw an exception. An "exception" is defined by Easel
+ *            as an internal error that shouldn't happen and/or is 
+ *            outside the user's control; as opposed to "failures", that       
+ *            are to be expected, and within user control, and
+ *            therefore normal. By default, exceptions are fatal.
+ *            A program that wishes to be more robust can register
+ *            a non-fatal exception handler.
+ *            
+ *            Easel programs normally call one of the exception-handling
+ *            wrappers <ESL_EXCEPTION()> or <ESL_XEXCEPTION()>, which
+ *            handle the overhead of passing in <use_errno>, <sourcefile>,
+ *            and <sourceline>. <esl_exception> is rarely called directly.
+ *            
+ *            If no custom exception handler has been registered, the
+ *            default behavior is to print a brief message to <stderr>
+ *            then <abort()>, resulting in a nonzero exit code from the
+ *            program.  Depending on what <errcode>, <sourcefile>,
+ *            <sourceline>, and the <sprintf()>-formatted <format>
+ *            are, this output looks like:
+ *            
+ *            Fatal exception (source file foo.c, line 42):
+ *            Something wicked this way came.
+ *
+ *            Additionally, in an MPI parallel program, the default fatal 
+ *            handler aborts all processes (with <MPI_Abort()>), not just
+ *            the one that called <esl_exception()>. 
+ *            
+ * Args:      errcode     - Easel error code, such as eslEINVAL. See easel.h.
+ *            use_errno   - if TRUE, also use perror() to report POSIX errno message.
+ *            sourcefile  - Name of offending source file; normally __FILE__.
+ *            sourceline  - Name of offending source line; normally __LINE__.
+ *            format      - <sprintf()> formatted exception message, followed
+ *                          by any additional necessary arguments for that 
+ *                          message.
+ *                          
+ * Returns:   void. 
+ *
+ * Throws:    No abnormal error conditions. (Who watches the watchers?)
+ */
+void
+esl_exception(int errcode, int use_errno, char *sourcefile, int sourceline, char *format, ...)
+{
+  va_list argp;
+#ifdef HAVE_MPI
+  int     mpiflag;
+#endif
+
+  if (esl_exception_handler != NULL) 
+    {
+      va_start(argp, format);
+      (*esl_exception_handler)(errcode, use_errno, sourcefile, sourceline, format, argp);
+      va_end(argp);
+      return;
+    } 
+  else 
+    {
+      fprintf(stderr, "Fatal exception (source file %s, line %d):\n", sourcefile, sourceline);
+      va_start(argp, format);
+      vfprintf(stderr, format, argp);
+      va_end(argp);
+      fprintf(stderr, "\n");
+      if (use_errno && errno) perror("system error");
+      fflush(stderr);
+#ifdef HAVE_MPI
+      MPI_Initialized(&mpiflag);                 /* we're assuming we can do this, even in a corrupted, dying process...? */
+      if (mpiflag) MPI_Abort(MPI_COMM_WORLD, 1);
+#endif
+      abort();
+    }
+}
+
+/* Function:  esl_exception_SetHandler()
+ * Synopsis:  Register a different exception handling function.
+ *
+ * Purpose:   Register a different exception handling function,
+ *            <handler>. When an exception occurs, the handler
+ *            receives at least four arguments: <errcode>, <sourcefile>,
+ *            <sourceline>, and <format>. 
+ * 
+ *            <errcode> is an Easel error code, such as
+ *            <eslEINVAL>. See <easel.h> for a list of all codes.
+ * 
+ *            <use_errno> is TRUE for POSIX system call failures. The
+ *            handler may then use POSIX <errno> to format/print an
+ *            additional message, using <perror()> or <strerror_r()>.
+ *           
+ *            <sourcefile> is the name of the Easel source code file
+ *            in which the exception occurred, and <sourceline> is 
+ *            the line number.
+ *            
+ *            <format> is a <vprintf()>-formatted string, followed by
+ *            a <va_list> containing any additional arguments that
+ *            formatted message needs.  Your custom exception handler
+ *            will probably use <vfprintf()> or <vsnprintf()> to format
+ *            its error message.
+ *            
+ * Args:      handler -  ptr to your custom exception handler.
+ *
+ * Returns:   void.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+void
+esl_exception_SetHandler(void (*handler)(int errcode, int use_errno, char *sourcefile, int sourceline, char *format, va_list argp))
+{ 
+  esl_exception_handler = handler; 
+}
+
+
+/* Function:  esl_exception_ResetDefaultHandler()
+ * Synopsis:  Restore default exception handling.
+ *
+ * Purpose:   Restore default exception handling, which is to print
+ *            a simple error message to <stderr> then <abort()> (see
+ *            <esl_exception()>. 
+ *      
+ *            An example where this might be useful is in a program
+ *            that only temporarily wants to catch one or more types
+ *            of normally fatal exceptions.
+ *            
+ *            If the default handler is already in effect, this 
+ *            call has no effect (is a no-op).
+ *
+ * Args:      (void)
+ *
+ * Returns:   (void)
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+void
+esl_exception_ResetDefaultHandler(void)
+{
+  esl_exception_handler = NULL; 
+}
+
+
+/* Function: esl_nonfatal_handler()
+ * Synopsis: A trivial example of a nonfatal exception handler.
+ * 
+ * Purpose:  This serves two purposes. First, it is the simplest
+ *           example of a nondefault exception handler. Second, this
+ *           is used in test harnesses, when they have
+ *           <eslTEST_THROWING> turned on to test that thrown errors
+ *           are handled properly when a nonfatal error handler is
+ *           registered by the application.
+ *           
+ * Args:      errcode     - Easel error code, such as eslEINVAL. See easel.h.
+ *            use_errno   - TRUE on POSIX system call failures; use <errno> 
+ *            sourcefile  - Name of offending source file; normally __FILE__.
+ *            sourceline  - Name of offending source line; normally __LINE__.
+ *            format      - <sprintf()> formatted exception message.
+ *            argp        - <va_list> containing any additional necessary arguments for 
+ *                          the <format> message.
+ *                          
+ * Returns:   void. 
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+void
+esl_nonfatal_handler(int errcode, int use_errno, char *sourcefile, int sourceline, char *format, va_list argp)
+{
+  return; 
+}
+
+
+/* Function:  esl_fatal()
+ * Synopsis:  Kill a program immediately, for a "violation".
+ *
+ * Purpose:   Kill a program for a "violation". In general this should only be used
+ *            in development or testing code, not in production
+ *            code. The main use of <esl_fatal()> is in unit tests.
+ *            Another use is in assertions used in dev code.
+ *            
+ *            The only other case (and the only case that should be allowed in
+ *            production code) is in a true "function" (a function that returns
+ *            its answer, rather than an Easel error code), where Easel error
+ *            conventions can't be used (because it can't return an error code),
+ *            AND the error is guaranteed to be a coding error. For an example,
+ *            see <esl_opt_IsOn()>, which triggers a violation if the code
+ *            checks for an option that isn't in the code.
+ *            
+ *            In an MPI-parallel program, the entire job is
+ *            terminated; all processes are aborted (<MPI_Abort()>,
+ *            not just the one that called <esl_fatal()>.
+ * 
+ * Args:      format  - <sprintf()> formatted exception message, followed
+ *                      by any additional necessary arguments for that 
+ *                      message.
+ *
+ * Returns:   (void)
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+void
+esl_fatal(const char *format, ...)
+{
+  va_list argp;
+#ifdef HAVE_MPI
+  int mpiflag;
+#endif
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  fprintf(stderr, "\n");
+  fflush(stderr);
+
+#ifdef HAVE_MPI
+  MPI_Initialized(&mpiflag);
+  if (mpiflag) MPI_Abort(MPI_COMM_WORLD, 1);
+#endif
+  exit(1);
+}
+/*---------------- end, error handling conventions --------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Memory allocation/deallocation conventions.
+ *****************************************************************/
+
+/* Function:  esl_Free2D()
+ *
+ * Purpose:   Free a 2D pointer array <p>, where first dimension is
+ *            <dim1>. (That is, the array is <p[0..dim1-1][]>.)
+ *            Tolerates any of the pointers being NULL, to allow
+ *            sparse arrays.
+ *
+ * Returns:   void.
+ */
+void
+esl_Free2D(void **p, int dim1)
+{
+  int i;
+  if (p != NULL) {
+    for (i = 0; i < dim1; i++)
+      if (p[i] != NULL) free(p[i]);
+    free(p);
+  }
+  return;
+}
+
+/* Function:  esl_Free3D()
+ *
+ * Purpose:   Free a 3D pointer array <p>, where first and second
+ *            dimensions are <dim1>,<dim2>. (That is, the array is
+ *            <p[0..dim1-1][0..dim2-1][]>.) Tolerates any of the
+ *            pointers being NULL, to allow sparse arrays.
+ *
+ * Returns:   void.
+ */
+void
+esl_Free3D(void ***p, int dim1, int dim2)
+{
+  int i, j;
+
+  if (p != NULL) {
+    for (i = 0; i < dim1; i++)
+      if (p[i] != NULL) {
+        for (j = 0; j < dim2; j++)
+          if (p[i][j] != NULL) free(p[i][j]);
+        free(p[i]);
+      }
+    free(p);
+  }
+}
+/*------------- end, memory allocation conventions --------------*/
+
+
+
+/*****************************************************************
+ * 3. Standard banner for Easel miniapplications.
+ *****************************************************************/
+
+/* Function:  esl_banner()
+ * Synopsis:  print standard Easel application output header
+ *
+ * Purpose:   Print the standard Easel command line application banner
+ *            to <fp>, constructing it from <progname> (the name of the
+ *            program) and a short one-line description <banner>.
+ *            For example, 
+ *            <esl_banner(stdout, "compstruct", "compare RNA structures");>
+ *            might result in:
+ *            
+ *            \begin{cchunk}
+ *            # compstruct :: compare RNA structures
+ *            # Easel 0.1 (February 2005)
+ *            # Copyright (C) 2004-2007 HHMI Janelia Farm Research Campus
+ *            # Freely licensed under the Janelia Software License.
+ *            # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+ *            \end{cchunk}
+ *              
+ *            <progname> would typically be an application's
+ *            <argv[0]>, rather than a fixed string. This allows the
+ *            program to be renamed, or called under different names
+ *            via symlinks. Any path in the <progname> is discarded;
+ *            for instance, if <progname> is "/usr/local/bin/esl-compstruct",
+ *            "esl-compstruct" is used as the program name.
+ *            
+ * Note:    
+ *    Needs to pick up preprocessor #define's from easel.h,
+ *    as set by ./configure:
+ *            
+ *    symbol          example
+ *    ------          ----------------
+ *    EASEL_VERSION   "0.1"
+ *    EASEL_DATE      "May 2007"
+ *    EASEL_COPYRIGHT "Copyright (C) 2004-2007 HHMI Janelia Farm Research Campus"
+ *    EASEL_LICENSE   "Freely licensed under the Janelia Software License."
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on write error.
+ */
+int
+esl_banner(FILE *fp, char *progname, char *banner)
+{
+  char *appname = NULL;
+  int   status;
+
+  if ((status = esl_FileTail(progname, FALSE, &appname)) != eslOK) return status;
+
+  if (fprintf(fp, "# %s :: %s\n", appname, banner)                                               < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(fp, "# Easel %s (%s)\n", EASEL_VERSION, EASEL_DATE)                                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(fp, "# %s\n", EASEL_COPYRIGHT)                                                     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(fp, "# %s\n", EASEL_LICENSE)                                                       < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(fp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (appname) free(appname);
+  return eslOK;
+
+ ERROR:
+  if (appname) free(appname);
+  return status;
+}
+
+
+/* Function:  esl_usage()
+ * Synopsis:  print standard Easel application usage help line
+ *
+ * Purpose:   Given a usage string <usage> and the name of the program
+ *            <progname>, output a standardized usage/help
+ *            message. <usage> is minimally a one line synopsis like
+ *            "[options] <filename>", but it may extend to multiple
+ *            lines to explain the command line arguments in more 
+ *            detail. It should not describe the options; that's the
+ *            job of the getopts module, and its <esl_opt_DisplayHelp()> 
+ *            function.
+ *            
+ *            This is used by the Easel miniapps, and may be useful in
+ *            other applications as well.
+ *
+ *            As in <esl_banner()>, the <progname> is typically passed
+ *            as <argv[0]>, and any path prefix is ignored.
+ *            
+ *            For example, if <argv[0]> is </usr/local/bin/esl-compstruct>,
+ *            then 
+ *            
+ *            \begin{cchunk}
+ *              esl_usage(stdout, argv[0], "[options] <trusted file> <test file>">
+ *            \end{cchunk}
+ *            
+ *            produces
+ *            
+ *            \begin{cchunk}
+ *              Usage: esl-compstruct [options] <trusted file> <test file>
+ *            \end{cchunk}  
+ *              
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEWRITE> on write failure.
+ */
+int
+esl_usage(FILE *fp, char *progname, char *usage)
+{
+  char *appname = NULL;
+  int   status;
+
+  if ( (status = esl_FileTail(progname, FALSE, &appname)) != eslOK) return status;
+
+  if (fprintf(fp, "Usage: %s %s\n", appname, usage) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (appname) free(appname);
+  return eslOK;
+
+ ERROR:
+  if (appname) free(appname);
+  return status;
+}
+/*-------------------- end, standard miniapp banner --------------------------*/
+
+
+
+
+/******************************************************************************
+ * 4. Replacements for C library functions
+ *  fgets()   ->  esl_fgets()     fgets() with dynamic allocation
+ *  strdup()  ->  esl_strdup()    strdup() is not ANSI
+ *  strcat()  ->  esl_strcat()    strcat() with dynamic allocation
+ *  strtok()  ->  esl_strtok()    threadsafe strtok()
+ *  sprintf() ->  esl_sprintf()   sprintf() with dynamic allocation
+ *  strcmp()  ->  esl_strcmp()    strcmp() tolerant of NULL strings
+ *****************************************************************************/
+
+/* Function: esl_fgets()
+ *
+ * Purpose:  Dynamic allocation version of fgets(),
+ *           capable of reading almost unlimited line lengths.
+ *
+ * Args:     buf - ptr to a string (may be reallocated)
+ *           n   - ptr to current allocated length of buf,
+ *                 (may be changed)
+ *           fp  - open file ptr for reading
+ *           
+ *           Before the first call to esl_fgets(), 
+ *           initialize buf to NULL and n to 0.
+ *           They're a linked pair, so don't muck with the
+ *           allocation of buf or the value of n while
+ *           you're still doing esl_fgets() calls with them.
+ *
+ * Returns:  <eslOK> on success. 
+ *           Returns <eslEOF> on normal end-of-file.
+ *
+ *           When <eslOK>:
+ *           <*buf> points to a <NUL>-terminated line from the file.
+ *           <*n> contains the current allocated length for <*buf>.
+ * 
+ *           Caller must free <*buf> eventually. 
+ *
+ * Throws:   <eslEMEM> on an allocation failure.
+ *
+ * Example:  char *buf = NULL;
+ *           int   n   = 0;
+ *           FILE *fp  = fopen("my_file", "r");
+ *
+ *           while (esl_fgets(&buf, &n, fp) == eslOK) 
+ *           {
+ *             do stuff with buf;
+ *           }
+ *           if (buf != NULL) free(buf);
+ */
+int
+esl_fgets(char **buf, int *n, FILE *fp)
+{
+  int   status;
+  char *s;
+  int   len;
+  int   pos;
+
+  if (*n == 0) 
+    {
+      ESL_ALLOC(*buf, sizeof(char) * 128);
+      *n   = 128;
+    }
+
+  /* Simple case 1. We're sitting at EOF, or there's an error.
+   *                fgets() returns NULL, so we return EOF.
+   */
+  if (fgets(*buf, *n, fp) == NULL) return eslEOF;
+
+  /* Simple case 2. fgets() got a string, and it reached EOF doing it.
+   *                return success status, so caller can use
+   *                the last line; on the next call we'll
+   *                return the 0 for the EOF.
+   */
+  if (feof(fp)) return eslOK;
+
+  /* Simple case 3. We got a complete string, with \n,
+   *                and don't need to extend the buffer.
+   */
+  len = strlen(*buf);
+  if ((*buf)[len-1] == '\n') return eslOK;
+
+  /* The case we're waiting for. We have an incomplete string,
+   * and we have to extend the buffer one or more times. Make
+   * sure we overwrite the previous fgets's \0 (hence +(n-1)
+   * in first step, rather than 128, and reads of 129, not 128).
+   */
+  pos = (*n)-1;
+  while (1) {
+    ESL_REALLOC(*buf, sizeof(char) * (*n+128));
+    *n  += 128;
+    s = *buf + pos;
+    if (fgets(s, 129, fp) == NULL) return eslOK;
+    len = strlen(s);
+    if (s[len-1] == '\n') return eslOK;
+    pos += 128;
+  } 
+  /*NOTREACHED*/
+  return eslOK;
+
+ ERROR:
+  if (*buf != NULL) free(*buf);
+  *buf = NULL;
+  *n   = 0;
+  return status;
+}
+
+/* Function: esl_strdup()
+ *
+ * Purpose: Makes a duplicate of string <s>, puts it in <ret_dup>.
+ *          Caller can pass string length <n>, if it's known,
+ *          to save a strlen() call; else pass -1 to have the string length
+ *          determined.
+ *          
+ *          Tolerates <s> being <NULL>; in which case,
+ *          returns <eslOK> with <*ret_dup> set to <NULL>.
+ *
+ * Args:     s       - string to duplicate (NUL-terminated)
+ *           n       - length of string, if known; -1 if unknown.
+ *           ret_dup - RETURN: duplicate of <s>.
+ *                
+ * Returns:  <eslOK> on success, and <ret_dup> is valid.
+ *
+ * Throws:   <eslEMEM> on allocation failure.
+ */
+int
+esl_strdup(const char *s, int64_t n, char **ret_dup)
+{
+  int   status;
+  char *new = NULL;
+
+  if (ret_dup != NULL) *ret_dup = NULL;
+  if (s == NULL) return eslOK;
+  if (n < 0) n = strlen(s);
+
+  ESL_ALLOC(new, sizeof(char) * (n+1));
+  strcpy(new, s);
+
+  if (ret_dup != NULL) *ret_dup = new; else free(new);
+  return eslOK;
+
+ ERROR:
+  if (new     != NULL) free(new);
+  if (ret_dup != NULL) *ret_dup = NULL;
+  return status;
+}
+
+
+/* Function: esl_strcat()
+ *
+ * Purpose:  Dynamic memory version of strcat().
+ *           Appends <src> to the string that <dest> points to,
+ *           extending allocation for dest if necessary. Caller
+ *           can optionally provide the length of <*dest> in
+ *           <ldest>, and the length of <src> in <lsrc>; if 
+ *           either of these is -1, <esl_strcat()> calls <strlen()>
+ *           to determine the length. Providing length information,
+ *           if known, accelerates the routine.
+ *           
+ *           <*dest> may be <NULL>, in which case this is equivalent
+ *           to a <strdup()> of <src> (that is, <*dest> is allocated
+ *           rather than reallocated). 
+ *           
+ *           <src> may be <NULL>, in which case <dest> is unmodified.
+ *           
+ * Note:     One timing experiment (100 successive appends of 
+ *           1-255 char) shows esl_strcat() has about a 20%
+ *           overhead relative to strcat(). If optional
+ *           length info is passed, esl_strcat() is about 30%
+ *           faster than strcat().
+ *           
+ * Args:     dest  - ptr to string (char **), '\0' terminated
+ *           ldest - length of dest, if known; or -1 if length unknown.
+ *           src   - string to append to dest, '\0' terminated       
+ *           lsrc  - length of src, if known; or -1 if length unknown.
+ *
+ * Returns:  <eslOK> on success; <*dest> is (probably) reallocated, 
+ *           modified, and nul-terminated.
+ *           
+ * Throws:   <eslEMEM> on allocation failure; initial state of <dest> 
+ *           is unaffected.
+ */
+int
+esl_strcat(char **dest, int64_t ldest, const char *src, int64_t lsrc)
+{
+  int       status;
+  int64_t   len1, len2;
+
+  if (ldest < 0) len1 = ((*dest == NULL) ? 0 : strlen(*dest));
+  else           len1 = ldest;
+
+  if (lsrc < 0)  len2 = ((  src == NULL) ? 0 : strlen(src)); 
+  else           len2 = lsrc;
+
+  if (len2 == 0) return eslOK;
+
+  ESL_REALLOC(*dest, sizeof(char) * (len1+len2+1));
+
+  memcpy((*dest)+len1, src, len2);
+  (*dest)[len1+len2] = '\0';
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_strmapcat()
+ * Synopsis:  Version of esl_strcat that uses an inmap.
+ *
+ * Purpose:   Append the contents of string or memory line <src>
+ *            of length <lsrc> to a string. The destination 
+ *            string and its length are passed as pointers <*dest>
+ *            and <*ldest>, so the string can be reallocated
+ *            and the length updated. When appending, map each
+ *            character <src[i]> to a new character <inmap[src[i]]>
+ *            in the destination string. The destination string
+ *            <*dest> is NUL-terminated on return (even if it 
+ *            wasn't to begin with).
+ *            
+ *            One reason to use the inmap is to enable parsers to
+ *            ignore some characters in an input string or buffer,
+ *            such as whitespace (mapped to <eslDSQ_IGNORED>).  Of
+ *            course this means, unlike <esl_strcat()> the new length
+ *            isn't just <ldest+lsrc>, because we don't know how many
+ *            characters get appended until we've processed them
+ *            through the inmap -- that's why this function takes
+ *            <*ldest> by reference, whereas <esl_strcat()> takes it
+ *            by value.
+ *            
+ *            If <*dest> is a NUL-terminated string and the caller
+ *            doesn't know its length, <*ldest> may be passed as -1.
+ *            Providing the length saves a <strlen()> call. If <*dest>
+ *            is a memory line, providing <*ldest> is mandatory.  Same
+ *            goes for <src> and <lsrc>.
+ *            
+ *            <*dest> may be <NULL>, in which case it is allocated
+ *            and considered to be an empty string to append to. 
+ *            When <*dest> is <NULL> the input <*ldest> should be <0>
+ *            or <-1>.
+ *
+ *            The caller must provide a <src> that it already knows
+ *            should be entirely appended to <*dest>, except for
+ *            perhaps some ignored characters. No characters may be
+ *            mapped to <eslDSQ_EOL> or <eslDSQ_EOD>. The reason for
+ *            this is that we're going to allocate <*dest> for
+ *            <*ldest+lsrc> chars. If <src> were a large memory buffer,
+ *            only a fraction of which needed to be appended (up to
+ *            an <eslDSQ_EOL> or <eslDSQ_EOD>), this reallocation would
+ *            be inefficient.
+ *
+ * Args:       inmap  - an Easel input map, inmap[0..127];
+ *                      inmap[0] is special: set to the 'unknown' character to
+ *                      replace invalid input chars.
+ *            *dest   - destination string or memory to append to, passed by reference
+ *            *ldest  - length of <*dest> (or -1), passed by reference
+ *             src    - string or memory to inmap and append to <*dest>
+ *             lsrc   - length of <src> to map and append (or -1).
+ *
+ * Returns:   <eslOK> on success. Upon successful return, <*dest> is
+ *            reallocated and contains the new string (with from 0 to <lsrc>
+ *            appended characters), NUL-terminated.
+ *            
+ *            <eslEINVAL> if one or more characters in the input <src>
+ *            are mapped to <eslDSQ_ILLEGAL>. Appending nonetheless
+ *            proceeds to completion, with any illegal characters
+ *            represented as '?' in <*dest> and counted in <*ldest>.
+ *            This is a normal error, because the string <src> may be
+ *            user input. The caller may want to call some sort of
+ *            validation function on <src> if an <eslEINVAL> error is
+ *            returned, in order to report some helpful diagnostics to
+ *            the user.
+ *
+ * Throws:    <eslEMEM> on allocation or reallocation failure.
+ *            <eslEINCONCEIVABLE> on internal coding error; for example,
+ *            if the inmap tries to map an input character to <eslDSQ_EOD>,
+ *            <eslDSQ_EOL>, or <eslDSQ_SENTINEL>. On exceptions, <*dest>
+ *            and <*ldest> should not be used by the caller except to
+ *            free <*dest>; their state may have been corrupted.
+ *
+ * Note:      This deliberately mirrors <esl_abc_dsqcat()>, so
+ *            that sequence file parsers have comparable behavior whether
+ *            they're working with text-mode or digital-mode input.
+ *            
+ *            Might be useful to create a variant that also handles
+ *            eslDSQ_EOD (and eslDSQ_EOL?) and returns the number of
+ *            residues parsed. This'd allow a FASTA parser, for
+ *            instance, to use this method while reading buffer pages
+ *            rather than lines; it could define '>' as eslDSQ_EOD.
+ */
+int
+esl_strmapcat(const ESL_DSQ *inmap, char **dest, int64_t *ldest, const char *src, esl_pos_t lsrc)
+{
+  int       status = eslOK;
+
+  if (*ldest < 0) *ldest = ( (*dest) ? strlen(*dest) : 0);
+  if ( lsrc  < 0)  lsrc  = ( (*src)  ? strlen(src)   : 0);
+
+  if (lsrc == 0) goto ERROR;	/* that'll return eslOK, leaving *dest untouched, and *ldest its length. */
+
+  ESL_REALLOC(*dest, sizeof(char) * (*ldest + lsrc + 1)); /* includes case of a new alloc of *dest */
+  return esl_strmapcat_noalloc(inmap, *dest, ldest, src, lsrc);
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_strmapcat_noalloc()
+ * Synopsis:  Version of esl_strmapcat() that does no reallocation.
+ *
+ * Purpose:   Same as <esl_strmapcat()>, but with no reallocation.  The
+ *            pointer to the destination string <dest> is passed by
+ *            value, not by reference, because it will not be changed.
+ *            Caller has allocated at least <*ldest + lsrc + 1> bytes
+ *            in <dest>. In this version, <*ldest> and <lsrc> are not
+ *            optional; caller must know the lengths of both the old
+ *            string and the new source.
+ * 
+ * Note:      (see note on esl_abc_dsqcat_noalloc() for rationale)
+ */
+int
+esl_strmapcat_noalloc(const ESL_DSQ *inmap, char *dest, int64_t *ldest, const char *src, esl_pos_t lsrc)
+{
+  int64_t   xpos;
+  esl_pos_t cpos;
+  ESL_DSQ   x;
+  int       status = eslOK;
+
+  for (xpos = *ldest, cpos = 0; cpos < lsrc; cpos++)
+    {
+      if (! isascii(src[cpos])) { dest[xpos++] = inmap[0]; status = eslEINVAL;  continue; }
+
+      x = inmap[(int) src[cpos]];
+      if       (x <= 127)      dest[xpos++] = x;
+      else switch (x) {
+	case eslDSQ_SENTINEL:  ESL_EXCEPTION(eslEINCONCEIVABLE, "input char mapped to eslDSQ_SENTINEL"); break;
+	case eslDSQ_ILLEGAL:   dest[xpos++] = inmap[0]; status = eslEINVAL;                              break;
+	case eslDSQ_IGNORED:   break;
+	case eslDSQ_EOL:       ESL_EXCEPTION(eslEINCONCEIVABLE, "input char mapped to eslDSQ_EOL");      break;
+	case eslDSQ_EOD:       ESL_EXCEPTION(eslEINCONCEIVABLE, "input char mapped to eslDSQ_EOD");      break;
+	default:               ESL_EXCEPTION(eslEINCONCEIVABLE, "bad inmap, no such ESL_DSQ code");      break;
+	}
+    }
+
+  dest[xpos] = '\0';
+  *ldest = xpos;
+  return status;
+}
+
+
+/* Function: esl_strtok()
+ * Synopsis: Threadsafe version of C's <strtok()>
+ *
+ * Purpose:  Thread-safe version of <strtok()> for parsing next token in
+ *           a string.
+ *          
+ *           Increments <*s> while <**s> is a character in <delim>,
+ *           then stops; the first non-<delim> character defines the
+ *           beginning of a token. Increments <*s> until it reaches
+ *           the next delim character (or \verb+\0+); this defines the end
+ *           of the token, and this character is replaced with
+ *           \verb+\0+. <*s> is then reset to point to the next character
+ *           after the \verb+\0+ that was written, so successive calls can
+ *           extract tokens in succession. Sets <*ret_tok> to point at
+ *           the beginning of the token, and returns <eslOK>.
+ *
+ *           If a token is not found -- if <*s> already points to
+ *           \verb+\0+, or to a string composed entirely of characters in
+ *           <delim> -- then returns <eslEOL>, with <*ret_tok> set to
+ *           <NULL>.
+ *           
+ *           <*s> cannot be a constant string, since we write \verb+\0+'s
+ *           to it; caller must be willing to have this string
+ *           modified. And since we walk <*s> through the string as we
+ *           parse, the caller wants to use a tmp pointer <*s>, not
+ *           the original string itself.
+ *                      
+ * Example:  
+ *           char *tok;
+ *           char *s;             
+ *           char  buf[50] = "This is  a sentence.";
+ *           
+ *           s = buf;  
+ *           esl_strtok(&s, " ", &tok);
+ *                tok is "This"; s is "is  a sentence."
+ *           esl_strtok(&s, " ", &tok);
+ *                tok is "is"; s is " a sentence.".
+ *           esl_strtok(&s, " ", &tok);
+ *                tok is "a"; s is "sentence.".
+ *           esl_strtok(&s, " ", &tok, &len);
+ *                tok is "sentence."; s is "\0".
+ *           esl_strtok(&s, " ", &tok, &len);
+ *                returned eslEOL; tok is NULL; s is "\0".
+ *       
+ * Args:     s        - a tmp, modifiable ptr to a string
+ *           delim    - characters that delimits tokens
+ *           ret_tok  - RETURN: ptr to \0-terminated token 
+ *
+ * Returns:  <eslOK> on success, <*ret_tok> points to next token, and
+ *           <*s> points to next character following the token. 
+ *
+ *           Returns <eslEOL> on end of line; in which case <*s>
+ *           points to the terminal \verb+\0+ on the line, and <*ret_tok>
+ *           is <NULL>.
+ */
+int
+esl_strtok(char **s, char *delim, char **ret_tok)
+{
+  return esl_strtok_adv(s, delim, ret_tok, NULL, NULL);
+}
+
+
+/* Function: esl_strtok_adv()
+ * Synopsis: More advanced interface to <esl_strtok()>
+ *
+ * Purpose:  Same as <esl_strtok()>, except the caller may also 
+ *           optionally retrieve the length of the token in <*opt_toklen>,
+ *           and the token-ending character that was replaced by \verb+\0+ 
+ *           in <*opt_endchar>. 
+ *           
+ * Args:     s           - a tmp, modifiable ptr to string
+ *           delim       - characters that delimits tokens
+ *           ret_tok     - RETURN: ptr to \0-terminated token string
+ *           opt_toklen  - optRETURN: length of token; pass NULL if not wanted
+ *           opt_endchar - optRETURN: character that was replaced by <\0>.
+ *
+ * Returns:  <eslOK> on success, <*ret_tok> points to next token, <*s>
+ *           points to next character following the token,
+ *           <*opt_toklen> is the <strlen()> length of the token in
+ *           characters (excluding its terminal \verb+\0+), and <*opt_endchar>
+ *           is the character that got replaced by \verb+\0+ to form the token.
+ *           
+ *           Returns <eslEOL> if no token is found (end of line); in
+ *           which case <*s> points to the terminal \verb+\0+ on the line,
+ *           <*ret_tok> is <NULL>, <*opt_toklen> is 0 and
+ *           <*opt_endchar> is \verb+\0+.
+ */
+int
+esl_strtok_adv(char **s, char *delim, char **ret_tok, int *opt_toklen, char *opt_endchar)
+{
+  char *end;
+  char *tok    = *s;
+  char  c      = '\0';
+  int   n      = 0;
+  int   status = eslEOL;  /* unless proven otherwise */
+
+  tok += strspn(tok, delim);
+  if (! *tok) tok = NULL;         /* if *tok = 0, EOL, no token left */
+  else
+    {
+      n    = strcspn(tok, delim);
+      end  = tok + n;
+      if (*end == '\0') *s = end; /* a final token that extends to end of string */
+      else 
+	{
+	  c     = *end;		 /* internal token: terminate with \0 */
+	  *end  = '\0';
+	  *s    = end+1;
+	}
+      status = eslOK;
+    }
+
+  *ret_tok = tok;
+  if (opt_toklen  != NULL) *opt_toklen  = n;
+  if (opt_endchar != NULL) *opt_endchar = c;
+  return status;
+}
+
+
+/* Function:  esl_sprintf()
+ * Synopsis:  Dynamic allocation version of sprintf().
+ *
+ * Purpose:   Like ANSI C's <sprintf()>, except the string
+ *            result is dynamically allocated, and returned
+ *            through <*ret_s>. 
+ *
+ *            Caller is responsible for free'ing <*ret_s>.
+ *            
+ *            As a special case to facilitate some optional string
+ *            initializations, if <format> is <NULL>, <*ret_s> is set
+ *            to <NULL>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_s> is the resulting
+ *            string.
+ *
+ * Throws:    <eslEMEM> on allocation failure. 
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_sprintf(char **ret_s, const char *format, ...)
+{
+  va_list ap;
+  int     status;
+
+  va_start(ap, format);
+  status = esl_vsprintf(ret_s, format, &ap);
+  va_end(ap);
+  return status;
+}
+
+/* Function:  esl_vsprintf()
+ * Synopsis:  Dynamic allocation version of vsprintf()
+ *
+ * Purpose:   Like ANSI C's <vsprintf>, except the string
+ *            result is dynamically allocated, and returned
+ *            through <*ret_s>.
+ *
+ *            Caller is responsible for free'ing <*ret_s>.
+ *            
+ *            As a special case to facilitate some optional string
+ *            initializations, if <format> is <NULL>, <*ret_s> is set
+ *            to <NULL>.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_s> is the resulting
+ *            string.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_vsprintf(char **ret_s, const char *format, va_list *ap)
+{
+  char   *s = NULL;
+  va_list ap2;
+  int     n1, n2;
+  int     status;
+
+  if (format == NULL) { *ret_s = NULL; return eslOK; }
+
+  va_copy(ap2, *ap);
+  n1 = strlen(format) * 2;	/* initial guess at string size needed */
+  ESL_ALLOC(s, sizeof(char) * (n1+1));
+  if ((n2 = vsnprintf(s, n1+1, format, *ap)) >= n1) 
+    {
+      ESL_REALLOC(s, sizeof(char) * (n2+1));
+      if (vsnprintf(s, n2+1, format, ap2) == -1) ESL_EXCEPTION(eslESYS, "vsnprintf() failed");
+    }
+  else if (n2 == -1) ESL_EXCEPTION(eslESYS, "vsnprintf() failed");
+
+  va_end(ap2);
+  *ret_s = s;
+  return eslOK;
+
+ ERROR:
+  if (s != NULL) free(s);
+  va_end(ap2);
+  *ret_s = NULL;
+  return status;
+}
+   
+
+/* Function:  esl_strcmp()
+ * Synopsis:  a strcmp() that treats NULL as empty string.
+ *
+ * Purpose:   A version of <strcmp()> that accepts <NULL>
+ *            strings. If both <s1> and <s2> are non-<NULL>
+ *            they are compared by <strcmp()>. If both are
+ *            <NULL>, return 0 (as if they are identical
+ *            strings). If only <s1> (or <s2>) is non-<NULL>,
+ *            return 1 (or -1), corresponding to ordering
+ *            any non-<NULL> string as greater than a <NULL>
+ *            string.
+ *
+ *            (Easel routinely uses NULL to mean an unset optional
+ *            string, and often needs to compare two strings for
+ *            equality.)
+ *
+ * Returns:   0 if <s1 == s2>; 1 if <s1 > s2>; -1 if <s1 < s2>.
+ */
+int 
+esl_strcmp(const char *s1, const char *s2)
+{
+  if      (s1 && s2) return strcmp(s1, s2);
+  else if (s1)       return 1;
+  else if (s2)       return -1;
+  else               return 0;
+}
+/*--------- end, improved replacement ANSI C functions ----------*/
+
+
+
+/*****************************************************************
+ * 5. Portable drop-in replacements for non-standard C functions
+ *****************************************************************/
+
+#ifndef HAVE_STRCASECMP
+/* Function:  esl_strcasecmp()
+ *
+ * Purpose:   Compare strings <s1> and <s2>. Return -1 if 
+ *            <s1> is alphabetically less than <s2>, 0 if they
+ *            match, and 1 if <s1> is alphabetically greater
+ *            than <s2>. All matching is case-insensitive.
+ *
+ * Args:      s1  - string 1, \0 terminated
+ *            s2  - string 2, \0 terminated      
+ *
+ * Returns:   -1, 0, or 1, if <s1> is less than, equal, or 
+ *            greater than <s2>, case-insensitively.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_strcasecmp(const char *s1, const char *s2)
+{
+  int i, c1, c2;
+
+  for (i = 0; s1[i] != '\0' && s2[i] != '\0'; i++)
+    {
+      c1 = s1[i];	/* total paranoia. don't trust toupper() to    */
+      c2 = s2[i];       /* leave the original unmodified; make a copy. */
+  
+      if (islower(c1)) c1 = toupper(c1);
+      if (islower(c2)) c2 = toupper(c2);
+      
+      if      (c1 < c2) return -1;
+      else if (c1 > c2) return 1;
+    }
+
+  if      (s1[i] != '\0') return 1;   /* prefixes match, but s1 is longer */
+  else if (s2[i] != '\0') return -1;  /* prefixes match, s2 is longer */
+
+  return 0;  /* else, a case-insensitive match. */
+}
+#endif /* ! HAVE_STRCASECMP */
+/*------------- end, portable drop-in replacements --------------*/
+
+
+/*****************************************************************
+ * 6. Additional string functions, esl_str*()
+ *****************************************************************/ 
+
+/* Function:  esl_strchop()
+ *
+ * Purpose:   Chops trailing whitespace off of a string <s> (or if <s>
+ *            is NULL, do nothing).
+ *            <n> is the length of the input string, if known; or pass <n=-1>
+ *            if length is unknown. 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      from squid's StringChop().
+ */
+int
+esl_strchop(char *s, int64_t n)
+{
+  int i;
+  if (s == NULL) return eslOK;
+  if (n < 0) n = strlen(s);
+  for (i = n-1; i>=0 && isspace((int) s[i]); i--); 
+  s[i+1] = '\0';
+  return eslOK;
+}
+
+
+/* Function:  esl_strdealign()
+ * Synopsis:  Dealign a string according to gaps in a reference aseq.
+ *
+ * Purpose:   Dealign string <s> in place, by removing any characters 
+ *            aligned to gaps in <aseq>. Gap characters are defined in the 
+ *            string <gapstring>; for example, <-_.>. Optionally return the
+ *            unaligned length of <s> in characters in <*opt_rlen>.
+ *            
+ *            By providing a reference <aseq> to dealign against, this
+ *            function can dealign aligned annotation strings, such as
+ *            secondary structure or surface accessibility strings.
+ *            If <s> is the same as <aseq>, then the aligned sequence
+ *            itself is dealigned in place. 
+ *            
+ *            To dealign both annotations and sequence, do the
+ *            sequence last, since you need it as the reference <aseq>
+ *            when doing the annotations.
+ *           
+ *            It is safe to pass a <NULL> <s> (an unset optional
+ *            annotation), in which case the function no-ops and
+ *            returns <eslOK>.
+ *            
+ * Args:      s        - string to dealign
+ *            aseq     - reference aligned sequence seq
+ *            gapchars - definition of gap characters ("-_." for example)
+ *            opt_rlen - optRETURN: number of residues in <s> after dealign
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_strdealign(char *s, const char *aseq, const char *gapchars, int64_t *opt_rlen)
+{
+  int64_t n = 0;
+  int64_t apos;
+
+  if (s == NULL) return eslOK;
+
+  for (apos = 0; aseq[apos] != '\0'; apos++)
+    if (strchr(gapchars, aseq[apos]) == NULL)
+      s[n++] = s[apos];
+  s[n] = '\0';
+  
+  if (opt_rlen != NULL) *opt_rlen = n;
+  return eslOK;
+}
+
+
+/* Function:  esl_str_IsBlank()
+ * Synopsis:  Return TRUE if <s> is all whitespace; else FALSE.
+ *
+ * Purpose:   Given a NUL-terminated string <s>; return <TRUE> if 
+ *            string is entirely whitespace (as defined by <isspace()>),
+ *            and return FALSE if not.
+ */
+int
+esl_str_IsBlank(char *s)
+{
+  for (; *s; s++) if (!isspace(*s)) return FALSE;
+  return TRUE;
+}
+
+/* Function:  esl_str_IsInteger()
+ * Synopsis:  Return TRUE if <s> represents an integer; else FALSE.
+ *
+ * Purpose:   Given a NUL-terminated string <s>, return TRUE
+ *            if the complete string is convertible to a base-10 integer 
+ *            by the rules of <strtol()> or <atoi()>. 
+ *            
+ *            Leading and trailing whitespace is allowed, but otherwise
+ *            the entire string <s> must be convertable. (Unlike <strtol()>
+ *            itself, which will convert a prefix. ' 99 foo' converts
+ *            to 99, but <esl_str_IsInteger()> will return FALSE.
+ *            
+ *            If <s> is <NULL>, FALSE is returned.
+ */
+int
+esl_str_IsInteger(char *s)
+{
+  char *endp;
+  long  val;
+
+  if (s == NULL) return FALSE;	        /* it's NULL */
+  val = strtol(s, &endp, 10);
+  if (endp == s) return FALSE;          /* strtol() can't convert it */
+  for (s = endp; *s != '\0'; s++)
+    if (! isspace(*s)) return FALSE;    /* it has trailing nonconverted nonwhitespace */
+  return TRUE;
+}
+
+/* Function:  esl_str_IsReal()
+ * Synopsis:  Return TRUE if string <s> represents a real number; else FALSE.
+ *
+ * Purpose:   Given a NUL-terminated string <s>, return <TRUE>
+ *            if the string is completely convertible to a floating-point
+ *            real number by the rules of <strtod()> and <atof()>. 
+ *            (Which allow for exponential forms, hexadecimal forms,
+ *            and case-insensitive INF, INFINITY, NAN, all w/ optional
+ *            leading +/- sign.)
+ * 
+ *            No trailing garbage is allowed, unlike <strtod()>. The
+ *            entire string must be convertible, allowing leading and
+ *            trailing whitespace is allowed. '99.0 foo' converts
+ *            to 99.0 with <strtod()> but is <FALSE> for 
+ *            <esl_str_IsReal()>. '  99.0  ' is <TRUE>.
+ *            
+ *            If <s> is <NULL>, return <FALSE>.
+ */
+int
+esl_str_IsReal(char *s)
+{
+  char   *endp;
+  double  val;
+
+  if (! s) return FALSE;		      /* <s> is NULL */
+  val = strtod(s, &endp);
+  if (val == 0.0f && endp == s) return FALSE; /* strtod() can't convert it */
+  for (s = endp; *s != '\0'; s++)
+    if (! isspace(*s)) return FALSE;          /* it has trailing nonconverted nonwhitespace */
+  return TRUE;
+}
+
+
+/* Function:  esl_str_GetMaxWidth()
+ * Synopsis:  Returns maximum strlen() in an array of strings.
+ *
+ * Purpose:   Returns the length of the longest string in 
+ *            an array of <n> strings <s[0..n-1]>. If <n=0>,
+ *            returns 0. Any <s[i]> that's <NULL> is counted
+ *            as zero length.
+ */
+int64_t
+esl_str_GetMaxWidth(char **s, int n)
+{
+  int64_t max = 0;
+  int64_t len;
+  int     i; 
+  
+  for (i = 0; i < n; i++)
+    if (s[i]) {
+      len = strlen(s[i]);
+      if (len > max) max = len;
+    }
+  return max;
+}
+
+
+/*-------------- end, additional string functions ---------------*/
+
+
+
+
+/*****************************************************************
+ * 7. File path/name manipulation, including tmpfiles
+ *****************************************************************/
+
+/* Function:  esl_FileExists()
+ * Synopsis:  Return TRUE if <filename> exists and is readable, else FALSE.
+ *
+ * Purpose:   Returns TRUE if <filename> exists and is readable, else FALSE.
+ *     
+ * Note:      Testing a read-only fopen() is the only portable ANSI C     
+ *            I'm aware of. We could also use a POSIX func here, since
+ *            we have a ESL_POSIX_AUGMENTATION flag in the code.
+ *            
+ * Xref:      squid's FileExists().
+ */
+int
+esl_FileExists(const char *filename)
+{
+#if defined _POSIX_VERSION
+  struct stat fileinfo;
+  if (stat(filename, &fileinfo) != 0) return FALSE;
+  if (! (fileinfo.st_mode & S_IRUSR)) return FALSE;
+  return TRUE;
+#else 
+  FILE *fp;
+  if ((fp = fopen(filename, "r"))) { fclose(fp); return TRUE; }
+  return FALSE;
+#endif
+}
+
+
+/* Function:  esl_FileTail()
+ * Synopsis:  Extract filename, removing path prefix.
+ *
+ * Purpose:   Given a full pathname <path>, extract the filename
+ *            without the directory path; return it via  
+ *            <ret_filename>. <ret_filename> space is allocated
+ *            here, and must be free'd by the caller.
+ *            For example: 
+ *               </foo/bar/baz.1> becomes <baz.1>;
+ *               <foo/bar>        becomes <bar>; 
+ *               <foo>            becomes <foo>; and
+ *               </>              becomes the empty string.
+ *            
+ *            If <nosuffix> is <TRUE>, the rightmost trailing ".foo" extension
+ *            is removed too. The suffix is defined as everything following
+ *            the rightmost period in the filename in <path>:
+ *            with <nosuffix> <TRUE>, 
+ *                <foo.2/bar.idx> becomes <bar>,
+ *                <foo.2/bar>     becomes <bar>, and
+ *                <foo.2/bar.1.3> becomes <bar.1>.  
+ *            
+ * Args:      path     - full pathname to process, "/foo/bar/baz.1"
+ *            nosuffix - TRUE to remove rightmost suffix from the filename
+ *            ret_file - RETURN: filename portion of the path.
+ *                     
+ * Returns:   <eslOK> on success, and <ret_file> points to a newly
+ *            allocated string containing the filename.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_FileTail(const char *path, int nosuffix, char **ret_file)
+{
+  int   status;
+  char *tail = NULL;
+  char *lastslash;
+  char *lastdot;
+				/* remove directory prefix */
+  lastslash = strrchr(path, eslDIRSLASH);
+  ESL_ALLOC(tail, sizeof(char) * (strlen(path)+1)); /* a little overkill */
+  if (lastslash == NULL) strcpy(tail, path);
+  else                   strcpy(tail, lastslash+1);
+				/* remove trailing suffix */
+  if (nosuffix) {
+    if ((lastdot = strrchr(tail, '.')) != NULL)
+      *lastdot = '\0';
+  }
+  *ret_file = tail;
+  return eslOK;
+
+ ERROR:
+  if (tail != NULL) free(tail);
+  *ret_file = NULL;
+  return status;
+}
+
+/* Function:  esl_file_Extension()
+ * Synopsis:  Find suffix of a file name; set a memory line on it.
+ *
+ * Purpose:   Given a path or file name <filename>, and ignoring the
+ *            last <n_ignore> characters, find the rightmost suffix;
+ *            return a pointer to its start in <*ret_sfx> (inclusive
+ *            of the ``.''), and its length in <*ret_n>. If no 
+ *            suffix is found, return <eslFAIL> with <*ret_sfx = NULL>
+ *            and <ret_n = 0>.
+ *            
+ *            The <n_ignore> argument allows iterating through more
+ *            than one suffix. 
+ *            
+ *            For example, if <filename> is ``./foo/bar/baz.xx.yyy''
+ *            and <n_ignore> is 0, <*ret_sfx> points to ``.yyy'' and
+ *            <*ret_n> is 4. If <n_ignore> is 4, then <*ret_sfx>
+ *            points to ``.xx'' and <ret_n> is 3. If <n_ignore> is 7
+ *            then status is <eslFAIL>.
+ */
+int
+esl_file_Extension(char *filename, esl_pos_t n_ignore, char **ret_sfx, esl_pos_t *ret_n)
+{
+  esl_pos_t n1 = strlen(filename) - n_ignore;
+  esl_pos_t n2;
+  
+  for (n2 = n1; n2 > 0 && filename[n2-1] != eslDIRSLASH && filename[n2-1] != '.'; n2--) ;
+  
+  if (n2 <= 0 || filename[n2-1] == eslDIRSLASH)
+    { *ret_sfx = NULL; *ret_n = 0; return eslFAIL; }
+
+  *ret_sfx = filename + n2 - 1; 
+  *ret_n   = n1-n2+1; 
+  return eslOK; 
+}
+
+
+/* Function:  esl_FileConcat()
+ *
+ * Purpose:   Concatenates directory path prefix <dir> and a filename
+ *            <file>, and returns the new full pathname through
+ *            <ret_path>. If <dir> does not already end in the
+ *            appropriate delimiter (e.g. / for UNIX), one is added.
+ *            
+ *            If <dir> is NULL, then <ret_path> is just the same as
+ *            <file>. Similarly, if <file> already appears to be a
+ *            full path (because its first character is a /), then
+ *            <dir> is ignored and <ret_path> is the same as
+ *            <file>. It wouldn't normally make sense for a caller to
+ *            call this function with such arguments.
+ *            
+ *            <file> may be a relative path. For example, 
+ *            if <dir> is "/usr/local" and <file> is "lib/myapp/data",
+ *            <ret_path> will be "/usr/local/lib/myapp/data".
+ *
+ * Returns:   <eslOK> on success, and puts the path
+ *            in <ret_path>; this string is allocated here, 
+ *            and must be free'd by caller with <free()>.
+ *
+ * Throws:    <eslEMEM>   on allocation failure.
+ *            <eslEINVAL> on bad argument.
+ *            In either case, <ret_path> is returned NULL.
+ *
+ * Xref:      squid's FileConcat().
+ */
+int
+esl_FileConcat(const char *dir, const char *file, char **ret_path)
+{
+  char *path = NULL;
+  int   nd, nf;
+  int   status;
+
+  if (ret_path != NULL) *ret_path = NULL;
+  if (file == NULL) ESL_EXCEPTION(eslEINVAL, "null file");
+
+  nd   = (dir  != NULL)? strlen(dir)  : 0;
+  nf   = strlen(file);
+  ESL_ALLOC(path, sizeof(char) * (nd+nf+2));
+
+  if (dir == NULL)		     /* 1. silly caller didn't give a path */
+    strcpy(path, file);
+  else if (*file == eslDIRSLASH)     /* 2. <file> is already a path?   */
+    strcpy(path, file); 
+  else if (dir[nd-1] == eslDIRSLASH) /* 3. <dir><file> (dir is / terminated) */
+    sprintf(path, "%s%s", dir, file);
+  else				     /* 4. <dir>/<file> (usual case)   */
+    sprintf(path, "%s%c%s", dir, eslDIRSLASH, file);	
+
+  *ret_path = path;
+  return eslOK;
+
+ ERROR:
+  if (path     != NULL) free(path);
+  if (ret_path != NULL) *ret_path = NULL;
+  return status;
+}
+
+
+/* Function:  esl_FileNewSuffix()
+ *
+ * Purpose:   Add a file suffix <sfx> to <filename>; or if <filename>
+ *            already has a suffix, replace it with <sfx>. A suffix is
+ *            usually 2-4 letters following a '.' character. Returns
+ *            an allocated string containing the result in <ret_newpath>.
+ *            
+ *            For example, if <filename> is "foo" and <sfx> is "ssi",
+ *            returns "foo.ssi". If <filename> is "foo.db" and <sfx>
+ *            is "idx", returns "foo.idx". 
+ *
+ * Returns:   <eslOK> on success, and <ret_newpath> is set
+ *            string "<base_filename>.<sfx>". Caller must <free()>
+ *            this string.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      squid's FileAddSuffix().
+ */
+int 
+esl_FileNewSuffix(const char *filename, const char *sfx, char **ret_newpath)
+{
+  char *new = NULL;
+  char *lastdot;
+  int   nf;
+  int   status;
+
+  if (ret_newpath != NULL) *ret_newpath = NULL;
+
+  lastdot   = strrchr(filename, '.'); /* check for suffix to replace */
+  if (lastdot != NULL && 
+      strchr(lastdot, eslDIRSLASH) != NULL) 
+    lastdot = NULL; /*foo.1/filename case - don't be fooled.*/
+  nf = (lastdot == NULL)? strlen(filename) : lastdot-filename;
+  
+  ESL_ALLOC(new, sizeof(char) * (nf+strlen(sfx)+2)); /* '.' too */
+  strncpy(new, filename, nf);
+  *(new+nf) = '.';
+  strcpy(new+nf+1, sfx);
+
+  if (ret_newpath != NULL) *ret_newpath = new; else free(new);
+  return eslOK;
+
+ ERROR:
+  if (new         != NULL) free(new);
+  if (ret_newpath != NULL) *ret_newpath = NULL;
+  return status;
+}
+
+
+
+/* Function:  esl_FileEnvOpen()
+ *
+ * Purpose:   Looks for a file <fname> in a colon-separated list of
+ *            directories that is configured in an environment variable
+ *            <env>. The first occurrence of file <fname> in this directory 
+ *            list is opened read-only. The open file ptr is returned
+ *            through <opt_fp>, and the full path name to the file
+ *            that was opened is returned through <opt_path>. 
+ *            Caller can pass NULL in place of <opt_fp> or <opt_path>
+ *            if it is not interested in one or both of these. 
+ *            
+ *            Does not look in the current directory unless "." is
+ *            explicitly in the directory list provided by <env>.
+ *            
+ * Note:      One reason to pass <opt_path> back to the caller is that
+ *            sometimes we're opening the first in a group of files
+ *            (for example, a database and its SSI index), and we want
+ *            to make sure that after we find the main file, the
+ *            caller can look for the auxiliary file(s) in exactly the
+ *            same directory.
+ *            
+ * Examples:  % setenv BLASTDB /nfs/databases/blast-db:/nfs/databases/nr/
+ *           
+ *            FILE *fp;
+ *            char *path;
+ *            int   status;
+ *            status = esl_FileEnvOpen("swiss42", "BLASTDB", &fp, &path);
+ * 
+ * Returns:   <eslOK> on success, and provides <opt_fp> and <opt_path>;
+ *            <opt_fp> is opened here, and must be <fclose()>'d by caller;
+ *            <opt_path> is allocated here, and must be <free()>'d by caller.
+ *
+ *            Returns <eslENOTFOUND> if the file not found in any directory,
+ *            or if <env> does not contain any directories to look in.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      squid's EnvFileOpen().
+ */
+int
+esl_FileEnvOpen(const char *fname, const char *env, FILE **opt_fp, char **opt_path)
+{
+  FILE *fp;
+  char *dirlist;		/* :-separated list of directories */
+  char *s, *s2;                 /* ptrs into elems in env list */
+  char *path = NULL;
+  int   np;
+  int   status;
+
+  fp = NULL;
+  if (opt_fp   != NULL) *opt_fp   = NULL;
+  if (opt_path != NULL) *opt_path = NULL;
+
+  if (env == NULL)               return eslENOTFOUND;
+  if ((s = getenv(env)) == NULL) return eslENOTFOUND;
+  if (esl_strdup(s, -1, &dirlist) != eslOK) return eslEMEM;
+
+  np   = strlen(fname) + strlen(s) + 2; /* upper bound on full path len */
+  ESL_ALLOC(path, sizeof(char) * np);
+
+  s  = dirlist;
+  while (s != NULL) 
+    {
+      if ((s2 = strchr(s, ':')) != NULL) { *s2 = '\0'; s2++;} /* ~=strtok() */
+      sprintf(path, "%s%c%s", s, eslDIRSLASH, fname); /* // won't hurt */
+      if ((fp = fopen(path, "r")) != NULL) break;      
+      s = s2;
+    }
+  if (fp == NULL) { free(path); free(dirlist); return eslENOTFOUND; }
+
+  if (opt_path != NULL) { *opt_path = path; } else free(path);
+  if (opt_fp   != NULL) { *opt_fp   = fp; }   else fclose(fp);
+  free(dirlist);
+  return eslOK;
+
+ ERROR:
+  if (path     != NULL) free(path);
+  if (fp       != NULL) fclose(fp);
+  if (dirlist  != NULL) free(dirlist);
+  if (opt_path != NULL) *opt_path = NULL;
+  if (opt_fp   != NULL) *opt_fp   = NULL;
+  return status;
+}
+
+/* Function:  esl_tmpfile()
+ *
+ * Purpose:   Open a secure temporary <FILE *> handle and return it in
+ *            <ret_fp>. The file is opened in read-write mode (<w+b>)
+ *            with permissions 0600, as an atomic operation using the
+ *            POSIX <mkstemp()> function.
+ * 
+ *            The <basename6X> argument is a modifiable string that must
+ *            end in "XXXXXX" (for example, "esltmpXXXXXX"). The
+ *            <basename6X> is used to construct a unique tmpfile name.
+ *            
+ *            Note that this string must be modifiable; do not declare
+ *            it <char *tmpfile = "esltmpXXXXXX";> nor <char tmpfile[]
+ *            = "esltmpXXXXXX";> because these will not work on some
+ *            compilers. Something like <char tmpfile[16] =
+ *            "esltmpXXXXXX";> that explicitly allocates storage will
+ *            suffice.
+ *            
+ *            The file is opened in a standard temporary file
+ *            directory. The path is obtained from the environment
+ *            variable <TMPDIR>; failing that, from the environment
+ *            variable <TMP>; and failing that, </tmp> is used. If the
+ *            process is running <setuid> or <setgid>, then the
+ *            environment variables are ignored, and the temp file is
+ *            always created in </tmp>.
+ *            
+ *            The created tmpfile is not persistent and is not visible
+ *            to a directory listing. The caller may <rewind()> the
+ *            <ret_fp> and do cycles of reading and/or writing, but
+ *            once the <ret_fp> is closed, the file disappears.  The
+ *            caller does not need to <remove()> or <unlink()> it (and
+ *            in fact, cannot do so, because it does not know the
+ *            tmpfile's name).
+ *            
+ *            This function is a secure replacement for ANSI C
+ *            <tmpfile()>, which is said to be insecurely implemented on
+ *            some platforms.
+ *
+ * Returns:   <eslOK> on success, and now <ret_fp> points to a new <FILE *>
+ *            stream for the opened tempfile. 
+ *
+ * Throws:    <eslESYS> if a system call (including the <mkstemp()> call)
+ *            fails, and and <ret_fp> is returned NULL. One possible
+ *            problem is if the temporary directory doesn't exist or
+ *            is not writable. This is considered to be a system
+ *            error, not a user error, so Easel handles it as an exception.
+ *            
+ * Xref:      STL11/85. Substantially copied from David Wheeler, 
+ *            "Secure Programming for Linux and Unix HOWTO", 
+ *            http://www.dwheeler.com/secure-programs/Secure-Programs-HOWTO/introduction.html.
+ *            Copyright (C) 1999-2001 David A. Wheeler.
+ *            Licensed under the MIT license; see Appendix C of the HOWTO.
+ *            Thanks, David, for the clearest explanation of the issues 
+ *            that I've seen.
+ *            
+ *            I also referred to H. Chen, D. Dean, and D. Wagner,
+ *            "Model checking one million lines of C code", 
+ *            In: Network and Distributed System Security Symposium, pp 171-185,
+ *            San Diego, CA, February 2004;
+ *            http://www.cs.ucdavis.edu/~hchen/paper/ndss04.pdf.
+ *            Wheeler's implementation obeys Chen et al's "Property 5", 
+ *            governing secure use of tempfiles.
+ */
+int
+esl_tmpfile(char *basename6X, FILE **ret_fp)
+{
+  char *tmpdir = NULL;
+  char *path   = NULL;
+  FILE *fp     = NULL;
+  int   fd;
+  int   status;
+  mode_t old_mode;
+
+  /* Determine what tmp directory to use, and construct the
+   * file name.
+   */
+  if (getuid() == geteuid() && getgid() == getegid()) 
+    {
+      tmpdir = getenv("TMPDIR");
+      if (tmpdir == NULL) tmpdir = getenv("TMP");
+    }
+  if (tmpdir == NULL) tmpdir = "/tmp";
+  if ((status = esl_FileConcat(tmpdir, basename6X, &path)) != eslOK) goto ERROR; 
+
+  old_mode = umask(077);
+  if ((fd = mkstemp(path)) <  0)        ESL_XEXCEPTION(eslESYS, "mkstemp() failed.");
+  umask(old_mode);
+  if ((fp = fdopen(fd, "w+b")) == NULL) ESL_XEXCEPTION(eslESYS, "fdopen() failed.");
+  if (unlink(path) < 0)                 ESL_XEXCEPTION(eslESYS, "unlink() failed.");
+
+  *ret_fp = fp;
+  free(path);
+  return eslOK;
+
+ ERROR:
+  if (path != NULL) free(path);
+  if (fp   != NULL) fclose(fp);
+  *ret_fp = NULL;
+  return status;
+}
+
+/* Function:  esl_tmpfile_named()
+ *
+ * Purpose:   Open a persistent temporary file relative to the current
+ *            working directory. The file name is constructed from the
+ *            <basename6X> argument, which must be a modifiable string
+ *            ending in the six characters "XXXXXX".  These are
+ *            replaced by a unique character string by a call to POSIX
+ *            <mkstemp()>. For example, <basename6X> might be
+ *            <esltmpXXXXXX> on input, and <esltmp12ab34> on return; or, to
+ *            put the tmp file in a subdirectory under the current
+ *            working directory, something like <my_subdir/esltmpXXXXXX>
+ *            on input resulting in something like
+ *            <my_subdir/esltmp12ab34> on return.  The tmpfile is opened
+ *            for reading and writing (in mode <w+b> with permissions
+ *            0600) and the opened <FILE *> handle is returned through
+ *            <ret_fp>.
+ *            
+ *            The created tmpfile is persistent: it will be visible in
+ *            a directory listing, and will remain after program
+ *            termination unless the caller explicitly removes it by a
+ *            <remove()> or <unlink()> call.
+ *
+ *            To use this function securely, if you reopen the
+ *            tmpfile, you must only reopen it for reading, not
+ *            writing, and you must not trust the contents.
+ *            
+ *            Because the <basename6X> will be modified, it cannot be
+ *            a string constant (especially on a picky compiler like
+ *            gcc). You have to declare it with something like
+ *               <char tmpfile[32] = "esltmpXXXXXX";> 
+ *            not 
+ *               <char *tmpfile    = "esltmpXXXXXX";> 
+ *            because a compiler is allowed to make the <*tmpfile> version
+ *            a constant.
+ *
+ * Returns:   <eslOK> on success, <basename6X> contains the name of the
+ *            tmpfile, and <ret_fp> contains a new <FILE *> stream for the
+ *            opened file. 
+ *             
+ *            <eslFAIL> on failure, and <ret_fp> is returned NULL and
+ *            the contents of <basename6X> are undefined. The most
+ *            common reason for a failure will be that the caller does
+ *            not have write permission for the directory that
+ *            <basename6X> is in. Easel handles this as a normal (user)
+ *            failure, not an exception, because these permissions are
+ *            most likely in the user's control (in contrast to
+ *            <esl_tmpfile()>, which always uses a system <TMPDIR>
+ *            that should always be user-writable on a properly
+ *            configured POSIX system).
+ *
+ * Xref:      STL11/85.
+ */
+int
+esl_tmpfile_named(char *basename6X, FILE **ret_fp)
+{
+  FILE  *fp;
+  mode_t old_mode;
+  int    fd;
+
+  *ret_fp = NULL;
+  old_mode = umask(077);
+  if ((fd = mkstemp(basename6X)) <  0)    return eslFAIL;
+  umask(old_mode);
+  if ((fp = fdopen(fd, "w+b")) == NULL) return eslFAIL;
+
+  *ret_fp = fp;
+  return eslOK;
+}
+
+
+/* Function:  esl_getcwd()
+ * Synopsis:  Gets the path for the current working directory.
+ *
+ * Purpose:   Returns the path for the current working directory
+ *            in <*ret_cwd>, as reported by POSIX <getcwd()>.
+ *            <*ret_cmd> is allocated here and must be freed by 
+ *            the caller.
+ *
+ * Returns:   <eslOK> on success, and <*ret_cwd> points to
+ *            the pathname of the current working directory.
+ *            
+ *            If <getcwd()> is unavailable on this system, 
+ *            returns <eslEUNIMPLEMENTED> and <*ret_cwd> is <NULL>.
+ *            
+ *            If the pathname length exceeds a set limit (16384 char),
+ *            returns <eslERANGE> and <*ret_cwd> is <NULL>.
+ *
+ * Throws:    <eslEMEM> on allocation failure; <*ret_cwd> is <NULL>.
+ *            <eslESYS> on getcwd() failure; <*ret_cwd> is <NULL>.
+ *
+ * Xref:      J7/54.
+ */
+int
+esl_getcwd(char **ret_cwd)
+{
+  char *cwd      = NULL;
+  int   status   = eslOK;
+#ifdef _POSIX_VERSION
+  int   nalloc   = 256;
+  int   maxalloc = 16384;
+  do {
+    ESL_ALLOC(cwd, sizeof(char) * nalloc);
+    if (getcwd(cwd, nalloc) == NULL)
+      {
+	if (errno != ERANGE)       ESL_XEXCEPTION(eslESYS, "unexpected getcwd() error");
+	if (nalloc * 2 > maxalloc) { status = eslERANGE; goto ERROR; }
+	free(cwd);
+	cwd = NULL;
+	nalloc *= 2;
+      }
+  } while (cwd == NULL);
+  *ret_cwd = cwd;
+  return status;
+
+ ERROR:
+  if (cwd) free(cwd);
+  *ret_cwd = NULL;
+  return status;
+
+#else
+  *ret_cwd = NULL;
+  return eslEUNIMPLEMENTED;
+#endif
+}
+
+/*----------------- end of file path/name functions ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 8. Typed comparison routines.
+ *****************************************************************/
+
+/* Function:  esl_DCompare()
+ *
+ * Purpose:   Compare two floating point scalars <a> and <b> for approximate equality.
+ *            Return <eslOK> if equal, <eslFAIL> if not.
+ *            
+ *            Equality is defined by being within a relative
+ *            epsilon <tol>, as <2*fabs(a-b)/(a+b)> $\leq$ <tol>.
+ *            Additionally, we catch the special cases where <a>
+ *            and/or <b> are 0 or -0. If both are, return <eslOK>; if
+ *            one is, check that the absolute value of the other is
+ *            $\leq$ <tol>.
+ *            
+ *            <esl_DCompare()> and <esl_FCompare()> work on <double> and <float>
+ *            scalars, respectively.
+ */
+int
+esl_DCompare(double a, double b, double tol)
+{
+  if (isinf(a) && isinf(b))                 return eslOK;
+  if (isnan(a) && isnan(b))                 return eslOK;
+  if (!isfinite(a) || !isfinite(b))         return eslFAIL;
+  if (a == b)                               return eslOK;
+  if (fabs(a) == 0. && fabs(b) <= tol)      return eslOK;
+  if (fabs(b) == 0. && fabs(a) <= tol)      return eslOK;
+  if (2.*fabs(a-b) / fabs(a+b) <= tol)      return eslOK;
+  return eslFAIL;
+}
+int
+esl_FCompare(float a, float b, float tol)
+{ 
+  if (isinf(a) && isinf(b))                 return eslOK;
+  if (isnan(a) && isnan(b))                 return eslOK;
+  if (!isfinite(a) || !isfinite(b))         return eslFAIL;
+  if (a == b)                               return eslOK;
+  if (fabs(a) == 0. && fabs(b) <= tol)      return eslOK;
+  if (fabs(b) == 0. && fabs(a) <= tol)      return eslOK;
+  if (2.*fabs(a-b) / fabs(a+b) <= tol)      return eslOK;
+  return eslFAIL;
+}
+
+/* Function:  esl_DCompareAbs()
+ *
+ * Purpose:   Compare two floating point scalars <a> and <b> for
+ *            approximate equality, by absolute difference.  Return
+ *            <eslOK> if equal, <eslFAIL> if not.
+ *            
+ *            Equality is defined as <fabs(a-b) $\leq$ tol> for finite
+ *            <a,b>; or <inf=inf>, <NaN=NaN> when either value is not
+ *            finite.
+ *            
+ *            Generally it is preferable to compare floating point
+ *            numbers for equality using relative difference: see
+ *            <esl_{DF}Compare()>, and also Knuth's Seminumerical
+ *            Algorithms. However, cases arise where absolute
+ *            difference comparison is preferred. One such case is in
+ *            comparing the log probability values of DP matrices,
+ *            where numerical error tends to accumulate on an absolute
+ *            scale, dependent more on the number of terms than on
+ *            their magnitudes. DP cells with values that happen to be
+ *            very close to zero can have high relative differences.
+ */
+int
+esl_DCompareAbs(double a, double b, double tol)
+{
+  if (isinf(a) && isinf(b))            return eslOK;
+  if (isnan(a) && isnan(b))            return eslOK;
+  if (!isfinite(a) || !isfinite(b))    return eslFAIL;
+  if (fabs(a-b) <= tol)                return eslOK;
+  return eslFAIL;
+}
+int
+esl_FCompareAbs(float a, float b, float tol)
+{ 
+  if (isinf(a) && isinf(b))            return eslOK;
+  if (isnan(a) && isnan(b))            return eslOK;
+  if (!isfinite(a) || !isfinite(b))    return eslFAIL;
+  if (fabs(a-b) <= tol)                return eslOK;
+  return eslFAIL;
+}
+
+
+
+
+
+/* Function:  esl_CCompare()
+ * Synopsis:  Compare two optional strings for equality.
+ *
+ * Purpose:   Compare two optional strings <s1> and <s2>
+ *            for equality. 
+ *            
+ *            If they're non-<NULL> and identical up to their
+ *            <NUL>-terminator, return <eslOK>.
+ *            
+ *            If they're both <NULL> (unset), return <eslOK>.
+ *            
+ *            Otherwise, they're not identical; return <eslFAIL>.
+ */
+int
+esl_CCompare(char *s1, char *s2)
+{
+  if (s1 == NULL && s2 == NULL) return eslOK;
+  if (s1 == NULL || s2 == NULL) return eslFAIL;
+  if (strcmp(s1, s2) != 0)      return eslFAIL;
+  return eslOK;
+}
+
+
+/*-------------- end, typed comparison routines --------------------*/
+
+
+
+
+
+
+
+/*****************************************************************
+ * 9. Unit tests.
+ *****************************************************************/
+#ifdef eslEASEL_TESTDRIVE
+
+static void
+utest_IsInteger(void)
+{
+  char *goodones[] = { " 99 " };
+  char *badones[]  = {  "",  " 99 foo " };
+  int ngood = sizeof(goodones) / sizeof(char *);
+  int nbad  = sizeof(badones)  / sizeof(char *);
+  int i;
+
+  for (i = 0; i < ngood; i++)
+    if (! esl_str_IsInteger(goodones[i])) esl_fatal("esl_str_IsInteger() should have recognized %s", goodones[i]);
+  for (i = 0; i < nbad;  i++)
+    if (  esl_str_IsInteger(badones[i]))  esl_fatal("esl_str_IsInteger() should not have recognized %s", badones[i]);
+}
+
+static void
+utest_IsReal(void)
+{
+  char *goodones[] = { "99", " \t 99", "-99.00", "+99.00e-12", "+0xabc.defp-12",  "  +INFINITY", "-nan" };
+  char *badones[] = {  "", 
+		       "FIBB_BOVIN/67-212",	/* testing for a fixed bug, 17 Dec 2012, reported by ER */
+  };
+  int ngood = sizeof(goodones) / sizeof(char *);
+  int nbad  = sizeof(badones)  / sizeof(char *);
+  int i;
+
+  for (i = 0; i < ngood; i++)
+    if (! esl_str_IsReal(goodones[i])) esl_fatal("esl_str_IsReal() should have recognized %s", goodones[i]);
+  for (i = 0; i < nbad;  i++)
+    if (  esl_str_IsReal(badones[i]))  esl_fatal("esl_str_IsReal() should not have recognized %s", badones[i]);
+}
+
+
+static void
+utest_strmapcat(void)
+{
+  char      *msg  = "esl_strmapcat() unit test failed";
+  ESL_DSQ   inmap[128];
+  char     *pfx     = "testing testing";
+  char     *append  = "one two three";
+  char     *bad     = "1 2 three";
+  char     *dest;
+  int64_t   L1;
+  esl_pos_t L2;
+  int       x;
+  
+  /* a simple input map, for testing */
+  for (x = 0;   x < 128; x++) inmap[x] = eslDSQ_ILLEGAL;
+  for (x = 'a'; x < 'z'; x++) inmap[x] = x;
+  for (x = 'A'; x < 'Z'; x++) inmap[x] = x;
+  inmap[' '] = eslDSQ_IGNORED;
+  inmap[0]   = '?';
+  
+  L1 = strlen(pfx);
+  L2 = strlen(append);
+  if ( ( esl_strdup   (pfx, L1, &dest))                != eslOK)  esl_fatal(msg);
+  if ( ( esl_strmapcat(inmap, &dest, &L1, append, L2)) != eslOK)  esl_fatal(msg);
+  if ( strcmp(dest, "testing testingonetwothree")      != 0)      esl_fatal(msg);
+  free(dest);
+  
+  L1 = -1;
+  L2 = -1;
+  if ( ( esl_strdup   (pfx, L1, &dest))                != eslOK)  esl_fatal(msg);
+  if ( ( esl_strmapcat(inmap, &dest, &L1, append, L2)) != eslOK)  esl_fatal(msg);
+  if ( strcmp(dest, "testing testingonetwothree")      != 0)      esl_fatal(msg);
+  free(dest);
+
+  L1   = 0;
+  dest = NULL;
+  if ( ( esl_strmapcat(inmap, &dest, &L1, pfx,    -1))   != eslOK)  esl_fatal(msg);
+  if ( ( esl_strmapcat(inmap, &dest, &L1, append, -1))   != eslOK)  esl_fatal(msg);
+  if ( strcmp(dest, "testingtestingonetwothree")         != 0)      esl_fatal(msg);
+  free(dest);
+
+
+  if ( ( esl_strdup(pfx, -1, &dest))                 != eslOK)      esl_fatal(msg);
+  L1   = 8;
+  if ( ( esl_strmapcat(inmap, &dest, &L1, bad, -1))  != eslEINVAL)  esl_fatal(msg);
+  if ( strcmp(dest, "testing ??three")               != 0)          esl_fatal(msg);
+  free(dest);
+}
+
+
+static void
+utest_strtok(void)
+{
+  char  msg[]       = "esl_strtok() unit test failed";
+  char *teststring;
+  char *s;
+  char *tok;
+  int   toklen;
+  char  endc;
+
+  if (esl_strdup("This is\t a sentence.", -1, &teststring) != eslOK) esl_fatal(msg);
+
+  s = teststring;
+  if (esl_strtok(&s, " ", &tok) != eslOK)                            esl_fatal(msg);
+  if (strcmp(tok, "This")       != 0)                                esl_fatal(msg);
+  if (*s != 'i')                                                     esl_fatal(msg);
+  
+  if (esl_strtok_adv(&s, " \t", &tok, &toklen, &endc) != eslOK)      esl_fatal(msg);
+  if (strcmp(tok, "is") != 0)                                        esl_fatal(msg);
+  if (*s != ' ')                                                     esl_fatal(msg);
+  if (toklen != 2)                                                   esl_fatal(msg);
+  if (endc != '\t')                                                  esl_fatal(msg);
+  
+  if (esl_strtok_adv(&s, "\n", &tok, NULL, NULL) != eslOK)           esl_fatal(msg);
+  if (strcmp(tok, " a sentence.") != 0)                              esl_fatal(msg);
+  if (*s != '\0')                                                    esl_fatal(msg);
+
+  free(teststring);
+  return;
+}
+  
+static void
+utest_sprintf(void)
+{
+  char  msg[] = "unit tests for esl_[v]sprintf() failed";
+  int   num   = 99;
+  char *what  = "beer";
+  char *s     = NULL;
+
+  if (esl_sprintf(&s, "%d bottles of %s", num, what) != eslOK) esl_fatal(msg);
+  if (strcmp(s, "99 bottles of beer")                != 0)     esl_fatal(msg);
+  free(s); 
+
+  if (esl_sprintf(&s, NULL)                          != eslOK) esl_fatal(msg);
+  if (s                                              != NULL)  esl_fatal(msg);
+}
+
+
+
+static void
+utest_FileExists(void)
+{
+  char  msg[]       = "FileExists unit test failed";
+  char  tmpfile[32] = "esltmpXXXXXX";
+  FILE *fp         = NULL;
+#ifdef _POSIX_VERSION
+  struct stat st;
+  mode_t      mode;
+#endif
+
+  /* create a tmpfile */
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  fprintf(fp, "Unit test.\n");
+  fclose(fp);
+
+  if (! esl_FileExists(tmpfile)) esl_fatal(msg);
+
+#ifdef _POSIX_VERSION
+  /* The FileExists doesn't just test existence; it also checks read permission */
+  if (stat(tmpfile, &st)   != 0) esl_fatal(msg);
+  mode = st.st_mode & ~S_IRUSR;
+  if (chmod(tmpfile, mode) != 0) esl_fatal(msg);
+  if (esl_FileExists(tmpfile))   esl_fatal(msg);
+#endif
+
+  remove(tmpfile);
+  if (esl_FileExists(tmpfile))   esl_fatal(msg);
+  return;
+}
+
+static void
+utest_tmpfile_named(void)
+{
+  char  msg[]        = "tmpfile_named unit test failed";
+  char  tmpfile[32]  = "esltmpXXXXXX";
+  FILE *fp           = NULL;
+  char  buf[256];
+
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  fprintf(fp, "Unit test.\n");
+  fclose(fp);
+  if ((fp = fopen(tmpfile, "r"))   == NULL)  esl_fatal(msg);
+  if (fgets(buf, 256, fp)          == NULL)  esl_fatal(msg);
+  if (strcmp(buf, "Unit test.\n")  != 0)     esl_fatal(msg);
+  fclose(fp);
+  remove(tmpfile);
+  return;
+}
+
+#endif /*eslEASEL_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 10. Test driver.
+ *****************************************************************/
+
+#ifdef eslEASEL_TESTDRIVE
+/* gcc -g -Wall -o easel_utest -I. -L. -DeslEASEL_TESTDRIVE easel.c -leasel -lm
+ * ./easel_utest
+ */
+#include "easel.h"
+
+int main(void)
+{
+#ifdef eslTEST_THROWING
+  esl_exception_SetHandler(&esl_nonfatal_handler);
+#endif
+
+  utest_IsInteger();
+  utest_IsReal();
+  utest_strmapcat();
+  utest_strtok();
+  utest_sprintf();
+  utest_FileExists();
+  utest_tmpfile_named();
+  return eslOK;
+}
+#endif /*eslEASEL_TESTDRIVE*/
+
+/*****************************************************************
+ * 11. Examples.
+ *****************************************************************/
+
+#ifdef eslEASEL_EXAMPLE
+/*::cexcerpt::easel_example_tmpfiles::begin::*/
+/* gcc -g -Wall -o example -I. -L. -DeslEASEL_EXAMPLE_TMPFILES easel.c -leasel -lm
+ * ./example
+ */
+#include "easel.h"
+
+int main(void)
+{
+  char  tmpfile1[32]  = "esltmpXXXXXX"; /* a transient, secure tmpfile: 6 X's are important */
+  char  tmpfile2[32]  = "esltmpXXXXXX"; /* a named tmpfile                                  */
+  FILE *fp            = NULL;
+  char  buf[256];
+
+  /* Example of using a secure, unnamed tmpfile. 
+   * Note, the new tmpfile is automatically deleted, so to cleanup, just fclose() the FILE */
+  esl_tmpfile(tmpfile1, &fp);
+  fprintf(fp, "Hello world!\n");
+  rewind(fp);
+  fgets(buf, 256, fp);
+  printf("first temp file says: %s\n", buf);
+  fclose(fp);
+
+  /* Example of reasonably securely using a named tmpfile. 
+   * To cleanup, must both fclose() the FILE and remove() the file by name */
+  esl_tmpfile_named(tmpfile2, &fp);
+  fprintf(fp, "Hello insecure world!\n");
+  fclose(fp);		/* tmpfile2 now exists on disk and can be closed/reopened */
+
+  fp = fopen(tmpfile2, "r");
+  fgets(buf, 256, fp);
+  printf("second temp file says: %s\n", buf);
+  fclose(fp);
+  remove(tmpfile2);	/* disk file cleanup necessary with this version. */
+
+  return eslOK;
+}
+/*::cexcerpt::easel_example_tmpfiles::end::*/
+#endif /*eslEASEL_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: easel.c 940 2015-01-22 19:34:21Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/easel.c $
+ *****************************************************************/  
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.h
new file mode 100755
index 0000000..7e49aad
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.h
@@ -0,0 +1,461 @@
+/* Easel's foundation.
+ *
+ * Core functionality of easel: errors, memory allocations, constants,
+ * and configuration for portability.
+ * 
+ * Contents:
+ *   1. Macros implementing Easel error handling conventions
+ *   2. Macros implementing Easel memory allocation conventions
+ *   3. Macros implementing Easel function argument conventions
+ *   4. Macros implementing Easel debugging output conventions
+ *   5. Defined constants
+ *   6. Basic support for Easel digitized biosequences
+ *   7. Miscellaneous
+ *   8. Void declarations of missing augmentations
+ *   9. API declarations of easel.c
+ *  10. Copyright and license.
+ */
+#ifndef eslEASEL_INCLUDED
+#define eslEASEL_INCLUDED
+
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>		/* for FILE */
+#include <stdarg.h>		/* for va_list */
+#include <math.h>               /* for HUGE_VAL */
+#ifdef HAVE_STDINT_H
+#include <stdint.h>		/* for uint32_t and the like (C99) */
+#endif
+#ifdef HAVE_INTTYPES_H
+#include <inttypes.h>		/* some systems allegedly put uints here */
+#endif
+
+/*****************************************************************
+ * 1. Macros implementing Easel's error handling conventions
+ *****************************************************************/
+/* Many objects contain a fixed length "errbuf" for failure
+ * diagnostics: ESL_FAIL() and ESL_XFAIL() fill this buffer.
+ */
+#define eslERRBUFSIZE 128
+
+/* ESL_FAIL()       - return an error message, without cleanup.
+ * ESL_XFAIL()      - return an error message, with cleanup.
+ * ESL_EXCEPTION()  - throwing an exception, without cleanup.
+ * ESL_XEXCEPTION() - throwing an exception, with cleanup.
+ * 
+ * The X versions (with cleanup) require the caller to have an
+ * <int status> variable and a <ERROR:> goto target in scope.
+ *
+ * Wrapping these macros in <while(0)> loops allows a statement:
+ *       if (something) ESL_XEXCEPTION(code,mesg);
+ * without the trailing semicolon becoming a null statement after 
+ * macro expansion.
+ */
+/*::cexcerpt::error_macros::begin::*/
+#define ESL_FAIL(code, errbuf, ...) do {				\
+    if (errbuf != NULL) snprintf(errbuf, eslERRBUFSIZE, __VA_ARGS__);	\
+    return code; }							\
+  while (0)
+
+#define ESL_XFAIL(code, errbuf, ...) do {				\
+    status = code;							\
+    if (errbuf != NULL) snprintf(errbuf, eslERRBUFSIZE, __VA_ARGS__);	\
+    goto ERROR; }							\
+  while (0)
+
+#define ESL_EXCEPTION(code, ...)  do {					\
+    esl_exception(code, FALSE, __FILE__, __LINE__, __VA_ARGS__);	\
+    return code; }							\
+  while (0)
+
+#define ESL_XEXCEPTION(code, ...)  do {					\
+    status = code;							\
+    esl_exception(code, FALSE, __FILE__, __LINE__, __VA_ARGS__);	\
+    goto ERROR; }							\
+  while (0)
+
+#define ESL_EXCEPTION_SYS(code, ...) do {				\
+    esl_exception(code, TRUE, __FILE__, __LINE__, __VA_ARGS__);		\
+    return code; }							\
+  while (0)
+
+#define ESL_XEXCEPTION_SYS(code, ...)  do {				\
+    status = code;							\
+    esl_exception(code, TRUE, __FILE__, __LINE__, __VA_ARGS__);	\
+    goto ERROR; }							\
+  while (0)
+
+/*::cexcerpt::error_macros::end::*/
+
+
+/* Return codes for error handler
+ */
+/*::cexcerpt::statuscodes::begin::*/
+#define eslOK              0    /* no error/success             */
+#define eslFAIL            1    /* failure                      */
+#define eslEOL             2    /* end-of-line (often normal)   */
+#define eslEOF             3    /* end-of-file (often normal)   */
+#define eslEOD             4    /* end-of-data (often normal)   */
+#define eslEMEM            5    /* malloc or realloc failed     */
+#define eslENOTFOUND       6    /* file or key not found        */
+#define eslEFORMAT         7    /* file format not correct      */
+#define eslEAMBIGUOUS      8    /* an ambiguity of some sort    */
+#define eslEDIVZERO        9    /* attempted div by zero        */
+#define eslEINCOMPAT      10    /* incompatible parameters      */
+#define eslEINVAL         11    /* invalid argument/parameter   */
+#define eslESYS           12    /* generic system call failure  */
+#define eslECORRUPT       13    /* unexpected data corruption   */
+#define eslEINCONCEIVABLE 14    /* "can't happen" error         */
+#define eslESYNTAX        15    /* invalid user input syntax    */
+#define eslERANGE         16    /* value out of allowed range   */
+#define eslEDUP           17    /* saw a duplicate of something */
+#define eslENOHALT        18    /* a failure to converge        */      
+#define eslENORESULT      19    /* no result was obtained       */
+#define eslENODATA        20    /* no data provided, file empty */
+#define eslETYPE          21    /* invalid type of argument     */
+#define eslEOVERWRITE     22    /* attempted to overwrite data  */
+#define eslENOSPACE       23    /* ran out of some resource     */
+#define eslEUNIMPLEMENTED 24    /* feature is unimplemented     */
+#define eslENOFORMAT      25	/* couldn't guess file format   */
+#define eslENOALPHABET    26	/* couldn't guess seq alphabet  */
+#define eslEWRITE         27   	/* write failed (fprintf, etc)  */
+#define eslEINACCURATE    28    /* return val may be inaccurate */
+/*::cexcerpt::statuscodes::end::*/
+
+
+
+
+
+
+/*****************************************************************
+ * 2. Macros implementing Easel's memory allocation conventions
+ *****************************************************************/
+/* ESL_ALLOC(), ESL_RALLOC():
+ * 
+ * Allocation and reallocation wrappers.
+ * Both require <int status> in scope, and <ERROR:> goto target.
+ * ESL_RALLOC() also requires <void *> ptr to be provided as <tmp>.
+ *
+ * ESL_REALLOC() is a newer version of ESL_RALLOC() which doesn't
+ * need a tmp ptr. All ESL_RALLOC() calls can be safely converted
+ * to ESL_REALLOC() calls.
+ */
+/*::cexcerpt::alloc_macros::begin::*/
+#define ESL_ALLOC(p, size) do {\
+    if (((p) = malloc(size)) == NULL && (size)) {	\
+       status = eslEMEM;\
+       esl_exception(eslEMEM, FALSE, __FILE__, __LINE__, "malloc of size %d failed", size); \
+       goto ERROR;\
+     }} while (0)
+
+#define ESL_RALLOC(p, tmp, newsize) do {\
+     if ((p) == NULL) { (tmp) = malloc(newsize);         }\
+     else             { (tmp) = realloc((p), (newsize)); }\
+     if ((tmp) != NULL) (p) = (tmp);\
+     else {\
+       status = eslEMEM;\
+       esl_exception(eslEMEM, FALSE, __FILE__, __LINE__, "realloc for size %d failed", newsize);	\
+       goto ERROR;\
+     }} while (0)
+
+#define ESL_REALLOC(p, newsize) do {\
+     void *esltmpp;\
+     if ((p) == NULL) { (esltmpp) = malloc(newsize);         }\
+     else             { (esltmpp) = realloc((p), (newsize)); }\
+     if ((esltmpp) != NULL) (p) = (esltmpp);\
+     else {\
+       status = eslEMEM;\
+       esl_exception(eslEMEM, FALSE, __FILE__, __LINE__, "realloc for size %d failed", newsize); \
+       goto ERROR;\
+     }} while (0)
+/*::cexcerpt::alloc_macros::end::*/
+
+/* Convert MB,GB,TB to bytes, using binary definitions (2^20, 2^30, 2^40)
+ * More pedantically: mebibytes (MiB), gibibytes (GiB), tebibytes (TiB).
+ */
+#define ESL_MBYTES(x) ((x) * 1048576) 
+#define ESL_GBYTES(x) ((x) * 1024 * 1048576) 
+#define ESL_TBYTES(x) ((x) * 1024 * 1024 * 1048576)
+
+/* Round integer <n> up to the nearest multiple of <m>. 
+ * Particularly useful when dealing w/ memory alignment issues.
+ */
+#define ESL_UPROUND(n, m)  ( ((n) + (m)-1) / (m) * (m))
+
+
+/*****************************************************************
+ * 3. Macros implementing Easel's function argument conventions
+ *****************************************************************/
+
+#define esl_byp_IsInternal(p) ((p) == NULL)
+#define esl_byp_IsReturned(p) ((p) != NULL && (*p) == NULL)
+#define esl_byp_IsProvided(p) ((p) != NULL && (*p) != NULL)
+
+/* Sometimes a shared function API dictates arguments that a function
+ * doesn't use, and we want to silence compiler warnings about this.
+ * Putting ESL_UNUSED(x) in the function, for an unused argument <x>,
+ * should silence the compiler, and should generate a no-op.
+ */
+#define ESL_UNUSED(x) (void)(sizeof((x)))
+
+
+/*****************************************************************
+ * 4. Macros implementing Easel's debugging output conventions
+ *****************************************************************/
+/* Debugging hooks, w/ three levels (1-3).
+ */
+#if eslDEBUGLEVEL >= 1		/* for ESL_DASSERT() macros */
+#include <assert.h>
+#endif
+
+#if (eslDEBUGLEVEL >= 1)
+#define ESL_DPRINTF1(x)  printf x
+#define ESL_DASSERT1(x)  assert x
+#else
+#define ESL_DPRINTF1(x)
+#define ESL_DASSERT1(x)
+#endif
+#if (eslDEBUGLEVEL >= 2)
+#define ESL_DPRINTF2(x)  printf x
+#define ESL_DASSERT2(x)  assert x
+#else
+#define ESL_DPRINTF2(x)
+#define ESL_DASSERT2(x)
+#endif
+#if (eslDEBUGLEVEL >= 3)
+#define ESL_DPRINTF3(x)  printf x
+#define ESL_DASSERT3(x)  assert x
+#else
+#define ESL_DPRINTF3(x)
+#define ESL_DASSERT3(x)
+#endif
+
+
+
+
+/*****************************************************************
+ * 5. Defined constants
+ *****************************************************************/
+
+/* Making sure TRUE/FALSE are defined, for convenience */
+#ifndef TRUE
+#define TRUE 1
+#endif
+#ifndef FALSE
+#define FALSE 0
+#endif
+
+/* Some basic mathematical constants. 
+ * Assuming IEEE754 math with 64-bit doubles (53-bit mantissas), we 
+ * want 17 significant decimal digits in our constants. More is
+ * a waste (but we do it for some anyway).
+ */
+#define eslCONST_E     2.71828182845904523536028747135
+#define eslCONST_PI    3.14159265358979323846264338328
+#define eslCONST_EULER 0.57721566490153286060651209008
+#define eslCONST_GOLD  1.61803398874989484820458683437
+#define eslCONST_LOG2  0.69314718055994529
+#define eslCONST_LOG2R 1.44269504088896341
+
+/* Define <eslINFINITY>, <eslNaN> portably.  
+ * ANSI C99 makes it easy (at last!). The failovers to other pre-C99
+ * methods are legacy now that we require a C99 compiler - but no harm
+ * leaving them in Just In Case.
+ */
+#if defined (INFINITY)
+#define eslINFINITY    INFINITY  /* C99 */
+#elif defined (HUGE_VAL)
+#define eslINFINITY    HUGE_VAL	 /* assume IEEE754 HUGE_VAL = infinity. ok? */
+#else
+#define eslINFINITY    (1.0/0.0) /* portable? */
+#endif
+
+#if defined (NAN)
+#define eslNaN         NAN	/* C99 */
+#else
+#define eslNaN         (eslINFINITY/eslINFINITY) /* portably make a IEEE754 NaN */
+#endif
+
+/* Define crossovers for numerical approximations.
+ */
+/* log(1+x) ~ x and  1-e^x = -x approximation.
+ * Same threshold appears to be optimal for float or double x. xref STL9/138.
+ */
+#define eslSMALLX1    5e-9
+
+
+/*****************************************************************
+ * 6. Basic support for Easel's digitized biosequences.
+ *****************************************************************/
+
+/* Most of this support is in the alphabet module, but we externalize 
+ * some into the easel foundation because ESL_INMAP is used in unaugmented
+ * sqio, msa modules.
+ * 
+ * A digital sequence residue (ESL_DSQ) is an unsigned 8-bit type
+ * (0..255).  A valid digital residue has a value in the range 0..127
+ * (Easel can represent alphabets of up to 128 different characters).
+ * Values 128..255 are reserved for flags.
+ *
+ * An "inmap" is ESL_DSQ[128], or *ESL_DSQ allocated for 128 values;
+ * it is a many-to-one construct for mapping 7-bit ASCII chars (in
+ * range 0..127) either to new ASCII chars (in the case of raw
+ * sequence input in sqio, msa) or to digital codes (in the alphabet
+ * module).  Valid mapped values are 0..127; any value in range
+ * 128..255 is some kind of flag.
+ */
+typedef uint8_t ESL_DSQ;
+#define eslDSQ_SENTINEL 255	/* sentinel bytes 0,L+1 in a dsq */
+#define eslDSQ_ILLEGAL  254	/* input symbol is unmapped and unexpected */
+#define eslDSQ_IGNORED  253     /* input symbol is unmapped and ignored */
+#define eslDSQ_EOL      252	/* input symbol marks end of a line */
+#define eslDSQ_EOD      251     /* input symbol marks end of a seq record */
+
+/* If you try to test sym > 0 && sym <= 127 below, instead of isascii(sym),
+ * you'll get a compiler warning for an always-successful test regardless
+ * of whether a char is signed or unsigned. So we trust that isascii() is
+ * doing the Right Thing.
+ */
+#define esl_inmap_IsValid(inmap, sym)  (isascii(sym) && (inmap)[(int)sym] <= 127)
+
+
+/*****************************************************************
+ * 7. Miscellaneous.
+ *****************************************************************/
+/* A placeholder for helping w/ portability of filenames/paths.
+ * I think, but have not tested, that:
+ *   VMS:            #define DIRSLASH ']'
+ *   ancient MacOS:  #define DIRSLASH ':'
+ *   DOS:            #define DIRSLASH '\\'
+ * Setting DIRSLASH correctly is probably not the only thing
+ * that would need to be done to port to other OS's, but it's
+ * probably a start.
+ *
+ * The code assumes that '.' is used for file name extensions,
+ * such as "foo.bar".
+ *
+ * This gets used in easel.c's *_File*() functions.
+ */
+#define eslDIRSLASH '/'           /* UNIX directory paths have /foo/bar */
+
+/* Some generic macros for swapping, min, and max.
+ */
+#define ESL_SWAP(x, y, type)  do { type esltmpxyz = (x); (x) = (y); (y) = esltmpxyz; } while (0)
+#define ESL_MIN(a,b)          (((a)<(b))?(a):(b))
+#define ESL_MAX(a,b)          (((a)>(b))?(a):(b))
+
+static inline float esl_log (double x) { return (x == 0.0 ? -eslINFINITY : log(x));  } /* avoid fp exceptions; log(0) = -inf is fine */
+static inline float esl_logf(float x)  { return (x == 0.0 ? -eslINFINITY : logf(x)); }
+static inline float esl_log2f(float x) { return (x == 0.0 ? -eslINFINITY : eslCONST_LOG2R * logf(x)); }
+
+/* Typedef: <esl_pos_t> 
+ * 
+ * <esl_pos_t> is a signed integer type suitable for safe casting
+ * to EITHER an <off_t> or <size_t> on this system (i.e. as a position
+ * in memory or in a file on disk), where we may use a -1 as a flag
+ * (or even other negative numbers).
+ *
+ * <esl_pos_t> is for use for anything having to do with positions in
+ * large buffers, strings, or files, where we want strict control
+ * of integer range limits.
+ *
+ * Note that POSIX requires size_t to be unsigned, and off_t to be
+ * signed.
+ */
+typedef int64_t esl_pos_t;
+
+/*****************************************************************
+ * 8. Void declarations of missing augmentations
+ *****************************************************************/
+#ifndef eslAUGMENT_ALPHABET
+typedef void ESL_ALPHABET;
+#endif
+#ifndef eslAUGMENT_KEYHASH
+typedef void ESL_KEYHASH;
+#endif
+
+/*****************************************************************
+ * 9. The API declarations for easel.c
+ *****************************************************************/
+
+/* 1. Error handling. */
+typedef void (*esl_exception_handler_f)(int errcode, int use_errno, char *sourcefile, int sourceline, char *format, va_list argp);
+extern void esl_exception(int errcode, int use_errno, char *sourcefile, int sourceline, char *format, ...);
+extern void esl_exception_SetHandler(esl_exception_handler_f);
+extern void esl_exception_ResetDefaultHandler(void);
+extern void esl_nonfatal_handler(int errcode, int use_errno, char *sourcefile, int sourceline, char *format, va_list argp);
+extern void esl_fatal(const char *format, ...);
+
+/* 2. Memory allocation/deallocation conventions. */
+extern void esl_Free2D(void  **p, int dim1);
+extern void esl_Free3D(void ***p, int dim1, int dim2);
+
+/* 3. Standard banner for Easel miniapplications. */
+extern int  esl_banner(FILE *fp, char *progname, char *banner);
+extern int  esl_usage (FILE *fp, char *progname, char *usage);
+
+/* 4. Improved replacements for some C library functions */
+extern int  esl_fgets(char **buf, int *n, FILE *fp);
+extern int  esl_strdup(const char *s, int64_t n, char **ret_dup);
+extern int  esl_strcat(char **dest, int64_t ldest, const char *src, int64_t lsrc);
+extern int  esl_strmapcat        (const ESL_DSQ *inmap, char **dest, int64_t *ldest, const char *src, esl_pos_t lsrc);
+extern int  esl_strmapcat_noalloc(const ESL_DSQ *inmap,  char *dest, int64_t *ldest, const char *src, esl_pos_t lsrc);
+extern int  esl_strtok    (char **s, char *delim, char **ret_tok);
+extern int  esl_strtok_adv(char **s, char *delim, char **ret_tok, int *opt_toklen, char *opt_endchar);
+extern int  esl_sprintf (char **ret_s, const char *format, ...);
+extern int  esl_vsprintf(char **ret_s, const char *format, va_list *ap);
+extern int  esl_strcmp(const char *s1, const char *s2);
+
+/* 5.  Portable drop-in replacements for non-standard C functions */
+#ifndef HAVE_STRCASECMP
+#ifdef _MSC_VER
+#define strcasecmp stricmp
+#else
+extern int  esl_strcasecmp(const char *s1, const char *s2);
+#define strcasecmp esl_strcasecmp
+#endif
+#endif
+
+/* 6. Additional string functions, esl_str*() */
+extern int     esl_strchop(char *s, int64_t n);
+extern int     esl_strdealign(char *s, const char *aseq, const char *gapchars, int64_t *opt_rlen);
+extern int     esl_str_IsBlank(char *s);
+extern int     esl_str_IsInteger(char *s);
+extern int     esl_str_IsReal(char *s);
+extern int64_t esl_str_GetMaxWidth(char **s, int n);
+
+/* 7. File path/name manipulation functions, including tmpfiles */
+extern int  esl_FileExists(const char *filename);
+extern int  esl_FileTail(const char *path, int nosuffix, char **ret_file);
+extern int  esl_file_Extension(char *filename, esl_pos_t n_ignore, char **ret_sfx, esl_pos_t *ret_n);
+extern int  esl_FileConcat(const char *dir, const char *file, char **ret_path);
+extern int  esl_FileNewSuffix(const char *filename, const char *sfx, char **ret_newpath);
+extern int  esl_FileEnvOpen(const char *fname, const char *env,
+			    FILE **ret_fp, char **ret_path);
+extern int  esl_tmpfile(char *basename6X, FILE **ret_fp);
+extern int  esl_tmpfile_named(char *basename6X, FILE **ret_fp);
+extern int  esl_getcwd(char **ret_cwd);
+
+/* 8. Typed comparison routines. */
+extern int  esl_DCompare   (double a, double b, double tol);
+extern int  esl_FCompare   (float  a, float  b, float  tol);
+extern int  esl_DCompareAbs(double a, double b, double tol);
+extern int  esl_FCompareAbs(float  a, float  b, float  tol);
+extern int  esl_CCompare(char *s1, char *s2);
+
+#endif /*eslEASEL_INCLUDED*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: easel.h 887 2013-09-24 09:41:22Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/easel.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.tex
new file mode 100755
index 0000000..35dc71b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/easel.tex
@@ -0,0 +1,413 @@
+The easel (esl) module implements a small set of functionality shared
+by all the modules: notably, the error-handling system.
+
+\section{Error handling conventions}
+
+Easel might be used in applications ranging from small command line
+utilities to complex graphical user interfaces and parallel
+systems. Simple and complex applications have different needs for how
+errors should be handled by a library.
+
+In a simple application, we don't want to write a lot of code to
+checking return codes for unexpected problems. We would prefer to have
+Easel crash out with an appropriate message to \ccode{stderr} -- after
+all, that's all a simple application would do anyway.
+
+On the other hand, there are certain problems that even the simplest
+command-line applications should handle gracefully. Errors involving
+user input (including typos in command line arguments, bad file
+formats, nonexistent files, or bad file permissions) are ``normal''
+and should be expected. Users will do anything.
+
+In a complex application, we may want to guarantee that execution
+never terminates within a library routine. In this case, library
+functions always need to return control to the application, even in
+the most unexpected circumstances, so the application can fail
+gracefully. A failure in an Easel routine should not suddenly crash a
+whole graphical user environment, for example. Additionally, because a
+complex application may not even be associated with a terminal, a
+library cannot count on printing error messages directly to
+\ccode{stderr}.
+
+These considerations motivate Easel's error handling conventions.
+Most Easel procedures return an integer status code. An \ccode{eslOK}
+code indicates that the procedure succeeded. A nonzero code indicates
+an error. Easel distinguishes two kinds of errors:
+
+\begin{itemize}
+\item \textbf{Failures} include normal ``errors'' (like a read failing
+  when the end of a file is reached), and errors that are the user's
+  fault, such as bad input (which are also normal, because users will
+  do anything.) We say that failures are \textbf{returned} by Easel
+  functions. All applications should check the return status of any
+  Easel function that might return a failure code. Relatively few
+  Easel functions can return failure codes. The ones that do are
+  generally functions having to do with reading user input.
+
+\item \textbf{Exceptions} are errors that are the fault of Easel (bugs
+in my code) or your application (bugs in your code) or the system
+(resource allocation failures). We say that exceptions are
+\textbf{thrown} by Easel functions. By default, exceptions result in
+immediate termination of your program. Optionally, you may provide
+your own exception handler, in which case Easel functions may return
+nonzero exception codes (in addition to any nonzero failure codes).
+\end{itemize}
+
+The documentation for each Easel function lists what failure codes it
+may return, as well as what exception codes it may throw (if a
+nonfatal exception handler has been registered), in addition to the
+\ccode{eslOK} normal status code. The list of possible status codes is
+shown in Table~\ref{tbl:statuscodes}. There is no intrinsic
+distinction between failure codes and exception codes. Codes that
+indicate failures in one function may indicate exceptions in another
+function.
+
+\begin{table}
+\begin{center}
+\input{cexcerpts/statuscodes}
+\end{center}
+\caption{List of all status codes that might be returned by Easel functions.}
+\label{tbl:statuscodes}
+\end{table}
+
+Not all Easel functions return status codes. \ccode{*\_Create()}
+functions that allocate and create new objects usually follow a
+convention of returning a valid pointer on success, and \ccode{NULL}
+on failure; these are functions that only fail by memory allocation
+failure. Destructor functions (\ccode{*\_Destroy()}) always return
+\ccode{void}, and must have no points of failure of their own, because
+destructors can be called when we're already handling an
+exception. Functions with names containing \ccode{Is}, such as
+\ccode{esl\_abc\_XIsValid()}, are tests that return \ccode{TRUE} or
+\ccode{FALSE}. Finally, there are some ``true'' functions that simply
+return an answer, rather than a status code; these must be functions
+that have no points of failure.
+
+\subsection{Failure messages} 
+
+When failures occur, often the failure status code is sufficient for
+your application to know what went wrong. For instance, \ccode{eslEOF}
+means end-of-file, so your application might report \ccode{"premature
+end of file"} if it receives such a status code unexpectedly. But for
+failures involving a file format syntax problem (for instance) a terse
+\ccode{eslESYNTAX} return code is not as useful as knowing
+\ccode{"Parse failed at line 42 of file foo.data, where I expected to
+see an integer, but I saw nothing"}. When your application might want
+more information to format an informative failure message for the
+user, the Easel API provides (somewhere) a message buffer called
+\ccode{errbuf[]}.
+
+In many cases, file parsers in Easel are encapsulated in objects. In
+these cases, the object itself allocates an \ccode{errbuf[]} message
+string. (For instance, see the \eslmod{sqio} module and its
+\ccode{ESL\_SQFILE} object for sequence file parsing.)  In a few
+cases, the \ccode{errbuf[]} is part of the procedure's call API, and
+space is provided by the caller. In such cases, the caller either
+passes \ccode{NULL} (no failure message is requested) or a pointer to
+allocated space for at least \ccode{eslERRBUFSIZE} chars. (For
+instance, see the \eslmod{tree} module and the
+\ccode{esl\_tree\_ReadNewick()} parser.)
+
+Easel uses \ccode{sprintf()} to format the messages in
+\ccode{errbuf[]}'s. Each individual call guarantees that the size of
+its message cannot overflow \ccode{eslERRBUFSIZE} chars, so none of
+these \ccode{sprintf()} calls represent possible security
+vulnerabilities (buffer overrun attacks).
+
+
+\subsection{Exception handling}
+
+Easel's default exception handler prints a message to \ccode{stderr}
+and aborts execution of your program, as in:
+
+\begin{cchunk}
+   Easel exception: Memory allocation failed.
+   Aborted at file sqio.c, line 42. 
+\end{cchunk}
+
+Therefore, by default, Easel handles its own exceptions internally,
+and exception status codes are not returned to your
+application. Simple applications don't need to worry about checking
+for exceptions.
+
+If your application wants to handle exceptions itself -- for instance,
+if you want a guarantee that execution will never terminate from
+within Easel -- or even if you simply want to change the format of
+these messages, you can register a custom exception handler which will
+catch the information from Easel and react appropriately. If your
+exception handler prints a message and exits, Easel will still just
+abort without returning exception codes. If your exception handler is
+nonfatal (returning \ccode{void}), Easel procedures then percolate the
+exception code up through the call stack until the exception code is
+returned to your application.
+
+To provide your own exception handler, you define your exception
+handler with the following prototype:
+
+\begin{cchunk}
+extern void my_exception_handler(int code, char *file, int line, char *format, va_list arg);
+\end{cchunk}
+
+An example implementation of a nonfatal exception handler:
+
+\begin{cchunk}
+#include <stdarg.h>
+
+void
+my_exception_handler(int code, char *file, int line, char *format, va_list arg)
+{
+  fprintf(stderr, ``Easel threw an exception (code %d):\n'', code);
+  if (format != NULL) vfprintf(stderr, format, arg);
+  fprintf(stderr, ``at line %d, file %s\b'', line, file);
+  return;
+}
+\end{cchunk}
+
+The \ccode{code}, \ccode{file}, and \ccode{line} are always
+present. The formatted message (the \ccode{format} and \ccode{va\_list
+arg}) is optional; the \ccode{format} might be
+\ccode{NULL}. (\ccode{NULL} messages are used when percolating
+exceptions up a stack trace, for example.)
+
+Then, to register your exception handler, you call
+\ccode{esl\_exception\_SetHandler(\&my\_error\_handler)} in your
+application. Normally you would do this before calling any other Easel
+functions. However, in principle, you can change error handlers at any
+time. You can also restore the default handler at any time with
+\ccode{esl\_exception\_RestoreDefaultHandler()}.
+
+The implementation of the exception handler relies on a static
+function pointer that is not threadsafe. If you are writing a threaded
+program, you need to make sure that multiple threads do not try to
+change the handler at the same time.
+
+Because Easel functions call other Easel functions, the function that
+first throws an exception may not be the function that your
+application called.  If you implement a nonfatal handler, an exception
+may result in a partial or complete stack trace of exceptions, as the
+original exception percolates back to your application. Your exception
+handler should be able to deal with a stack trace. The first exception
+code and message will be the most relevant. Subsequent codes and
+messages arise from that exception percolating upwards. 
+
+For example, a sophisticated replacement exception handler might push
+each code/message pair into a FIFO queue. When your application
+receives an exception code from an Easel call, your application can
+might then access this queue, and see where the exception occurred in
+Easel, and what messages Easel left for you. A less sophisticated
+replacement exception handler might just register the first
+code/message pair, and ignore the subsequent exceptions from
+percolating up the stack trace. Note the difference between the
+exception handler that you register with Easel (which operates inside
+Easel, and must obey Easel's conventions) and any error handling you
+do in your own application after Easel returns a nonzero status code
+to you (which is your own business).
+
+Although each function's documentation \emph{in principle} lists all
+thrown exceptions, \emph{in practice}, you should not trust this
+list. Because of exceptions percolating up from other Easel calls, it
+is too easy to forget to document all possible exception
+codes.\footnote{Someday we should combine a static code analyzer with
+a script that understands Easel's exception conventions, and automate
+the enumeration of all possible codes.} If you are catching
+exceptions, you should program defensively here, and always have a
+failsafe catch for any nonzero return status. For example, a minimal
+try/catch idiom for an application calling a Easel function is
+something like:
+
+\begin{cchunk}
+     int status;
+     if ((status = esl_foo_function()) != eslOK)  my_failure();
+\end{cchunk}
+
+Or, a little more complex one that catches some specific errors, but
+has a failsafe for everything else, is:
+
+\begin{cchunk}
+     int status;
+     status = esl_foo_function();
+     if      (status == eslEMEM) my_failure("Memory allocation failure");
+     else if (status != eslOK)   my_failure("Unexpected exception %d\n\", status);
+\end{cchunk}
+
+
+\subsection{Violations}
+
+Internally, Easel also distinguishes a third class of error, termed a
+\textbf{fatal violation}. Violations never arise in production code;
+they are used to catch bugs during development and testing. Violations
+always result in immediate program termination. They are generated by
+two mechanisms: from assertions that can be optionally enabled in
+development code, or from test harnesses that call the always-fatal
+\ccode{esl\_fatal()} function when they detect a problem they're
+testing for.
+
+
+\subsection{Internal API for error handling}
+
+You only need to understand this section if you want to understand
+Easel's source code (or other code that uses Easel conventions, like
+HMMER), or if you want to use Easel's error conventions in your own
+source code.
+
+The potentially tricky design issue is the following. One the one
+hand, you want to be able to return an error or throw an exception
+``quickly'' (in less than a line of code). On the other hand, it might
+require several lines of code to free any resources, set an
+appropriate return state, and set the appropriate nonzero status code
+before leaving the function. 
+
+Easel uses the following error-handling macros:
+
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\ccode{ESL\_FAIL(code, errbuf, mesg, ...)}   & Format errbuf, return failure code. \\
+\ccode{ESL\_EXCEPTION(code, mesg, ...)}      & Throw an exception, return exception code. \\
+\ccode{ESL\_XFAIL(code, errbuf, mesg, ...)}  & A failure message, with cleanup convention.\\
+\ccode{ESL\_XEXCEPTION(code, mesg, ...)}     & An exception, with cleanup convention.\\
+\hline
+\end{tabular}
+}
+\end{center}
+
+They are implementated in \ccode{easel.h} as:
+
+\input{cexcerpts/error_macros}
+
+The \ccode{ESL\_FAIL} and \ccode{ESL\_XFAIL} macros are only used when
+a failure message needs to be formatted. For the simpler case where we
+just return an error code, Easel simply uses \ccode{return code;} or
+\ccode{status = code; goto ERROR;}, respectively.
+
+The \ccode{X} versions, with the cleanup convention, are sure to
+offend some programmers' sensibilities. They require the function to
+provide an \ccode{int status} variable in scope, and they require an
+\ccode{ERROR:} target for a \ccode{goto}. But if you can stomach that,
+they provide for a fairly clean idiom for catching exceptions and
+cleaning up, and cleanly setting different return variable states on
+success versus failure, as illustrated by this pseudoexample:
+
+\begin{cchunk}
+int 
+foo(char **ret_buf, char **ret_fp)
+{
+    int status;
+    char *buf = NULL;
+    FILE *fp  = NULL;
+
+    if ((buf = malloc(100))  == NULL) ESL_XEXCEPTION(eslEMEM,      "malloc failed");
+    if ((fp  = fopen("foo")) == NULL) ESL_XEXCEPTION(eslENOTFOUND, "file open failed");
+
+    *ret_buf = buf;
+    *ret_fp  = fp;
+    return eslOK;
+
+  ERROR:
+    if (buf != NULL) free(buf);  *ret_buf = NULL;
+    if (fp  != NULL) fclose(fp); *ret_fp  = NULL;
+    return status;
+}
+\end{cchunk}
+
+Additionally, for memory allocation and reallocation, Easel implements
+two macros \ccode{ESL\_ALLOC()} and \ccode{ESL\_RALLOC()}, which
+encapsulate standard \ccode{malloc()} and \ccode{realloc()} calls
+inside Easel's exception-throwing convention.
+
+
+\vspace*{\fill}
+\begin{quote}
+\emph{Only a complete outsider could ask your question. Are there
+control authorities? There are nothing but control authorities. Of
+course, their purpose is not to uncover errors in the ordinary meaning
+of the word, since errors do not occur and even when an error does in
+fact occur, as in your case, who can say conclusively that it is an
+error?}\\ \hspace*{\fill} -- Franz Kafka, \emph{The Castle}
+\end{quote}     
+
+
+\section{Memory management}
+
+
+\section{Replacements for C library functions}
+
+
+\section{Standard banner for Easel miniapplications}
+
+
+\section{File and path name manipulation}
+
+
+\subsection{Secure temporary files}
+
+A program may need to write and read temporary files.  Many of the
+methods for creating temporary files, even using standard library
+calls, are known to create exploitable security holes
+\citep{Wheeler03,ChenDeanWagner04}.
+
+Easel provides a secure and portable POSIX procedure for obtaining an
+open temporary file handle, \ccode{esl\_tmpfile()}. This replaces the
+ANSI C \ccode{tmpfile()} function, which is said to be insecurely
+implemented on some platforms.  Because closing and reopening a
+temporary file can create an exploitable race condition under certain
+circumstances, \ccode{esl\_tmpfile()} does not return the name of the
+invisible file it creates, only an open \ccode{FILE *} handle to
+it. The tmpfile is not persistent, meaning that it automatically
+vanishes when the \ccode{FILE *} handle is closed. The tmpfile is
+created in the usual system world-writable temporary directory, as
+indicated by \ccode{TMPDIR} or \ccode{TMP} environment variables, or
+\ccode{/tmp} if neither environment variable is defined.
+
+Still, it is sometimes useful, even necessary, to close and reopen a
+temporary file. For example, Easel's own test suites generate a
+variety of input files for testing input parsers.  Easel also provides
+the \ccode{esl\_tmpfile\_named()} procedure for creating a persistent
+tmpfile, which returns both an open \ccode{<FILE *>} handle and the
+name of the file. Because the tmpfile name is known, the file may be
+closed and reopened.  \ccode{esl\_tmpfile\_named()} creates its files
+relative to the current working directory, not in \ccode{TMPDIR}, in
+order to reduce the chances of creating the file in a shared directory
+where a race condition might be exploited. Nonetheless, secure use of
+\ccode{esl\_tmpfile\_named()} requires that you must only reopen a
+tmpfile for reading only, not for writing, and moreover, you must not
+trust the contents.  (It may be possible for an attacker to replace
+the tmpfile with a symlink to another file.)
+
+An example that shows both tmpfile mechanisms:
+
+\input{cexcerpts/easel_example_tmpfiles}
+
+\section{Internals}
+
+\subsection{Input maps}
+
+An \esldef{input map} is for converting input ASCII symbols to
+internal encodings. It is a many-to-one mapping of the 128 7-bit ASCII
+symbol codes (0..127) onto new ASCII symbol codes. It is defined as
+an \ccode{unsigned char inmap[128]} or a \ccode{unsigned char *}
+allocated for 128 entries.
+
+Input maps are used in two contexts: for filtering ASCII text input
+into internal text strings, and for converting ASCII input or internal
+ASCII strings into internal digitized sequences (an \eslmod{alphabet}
+object contains an input map that it uses for digitization).
+
+The rationale for input maps is the following. The ASCII strings that
+represent biosequence data require frequent massaging. An input file
+might have sequence data mixed up with numerical coordinates and
+punctuation for human readability. We might want to distinguish
+characters that represent residues (that should be input) from
+characters for coordinates and punctuation (that should be ignored)
+from characters that aren't supposed to be present at all (that should
+trigger an error or warning). Also, in representing a sequence string
+internally, we might want to map the symbols in an input string onto a
+smaller internal alphabet. For example, we might want to be
+case-insensitive (allow both T and t to represent thymine), or we
+might want to allow an input T to mean U in a program that deals with
+RNA sequence analysis, so that input files can either contain RNA or
+DNA sequence data.  Easel reuses the input map concept in routines
+involved in reading and representing input character sequences, for
+example in the \eslmod{alphabet}, \eslmod{sqio}, and \eslmod{msa}
+modules.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.c
new file mode 100755
index 0000000..a158b4a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.c
@@ -0,0 +1,2494 @@
+/* Implements the standard digitized alphabets for biosequences.
+ * 
+ *    1. ESL_ALPHABET object for digital alphabets.
+ *    2. Digitized sequences (ESL_DSQ *).
+ *    3. Other routines in the API.
+ *    4. Unit tests.
+ *    5. Test driver.
+ *    6. Examples.
+ *    7. Copyright notice and license.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+#include <math.h>
+#ifdef HAVE_STRINGS_H
+#include <strings.h>		/* POSIX strcasecmp() */
+#endif
+
+#include "easel.h"
+#include "esl_alphabet.h"
+
+
+
+/*****************************************************************
+ * 1. The ESL_ALPHABET object
+ *****************************************************************/ 
+
+static ESL_ALPHABET *create_rna(void);
+static ESL_ALPHABET *create_dna(void);
+static ESL_ALPHABET *create_amino(void);
+static ESL_ALPHABET *create_coins(void);
+static ESL_ALPHABET *create_dice(void);
+
+static int set_complementarity(ESL_ALPHABET *a);
+
+/* Function:  esl_alphabet_Create()
+ * Synopsis:  Create alphabet of a standard type.
+ *
+ * Purpose:   Creates one of the three standard bio alphabets:
+ *            <eslDNA>, <eslRNA>, or <eslAMINO>, and returns
+ *            a pointer to it.
+ *
+ * Args:      type  - <eslDNA>, <eslRNA>, or <eslAMINO>. 
+ *
+ * Returns:   pointer to the new alphabet.
+ *
+ * Throws:    <NULL> if any allocation or initialization fails.
+ */
+ESL_ALPHABET *
+esl_alphabet_Create(int type)
+{
+  int           status;
+  ESL_ALPHABET *a;
+
+  switch(type) { 
+  case eslRNA:    a = create_rna();   break;
+  case eslDNA:    a = create_dna();   break;
+  case eslAMINO:  a = create_amino(); break;
+  case eslCOINS:  a = create_coins(); break;
+  case eslDICE:   a = create_dice();  break;
+  default:    
+    ESL_XEXCEPTION(eslEINVAL, "bad alphabet type: unrecognized");
+  }
+  return a;
+
+ ERROR:
+  return NULL;
+}
+
+/* Function:  esl_alphabet_CreateCustom()
+ * Synopsis:  Create a custom alphabet.
+ *
+ * Purpose:   Creates a customized biosequence alphabet,
+ *            and returns a ptr to it. The alphabet type is set 
+ *            to <eslNONSTANDARD>.
+ *            
+ *            <alphabet> is the internal alphabet string;
+ *            <K> is the size of the base alphabet;
+ *            <Kp> is the total size of the alphabet string. 
+ *            
+ *            In the alphabet string, residues <0..K-1> are the base alphabet; 
+ *            residue <K> is the canonical gap (indel) symbol; 
+ *            residues <K+1..Kp-4> are additional degeneracy symbols (possibly 0 of them);
+ *            residue <Kp-3> is an "any" symbol (such as N or X); 
+ *            residue <Kp-2> is a "nonresidue" symbol (such as *); 
+ *            and residue <Kp-1> is a "missing data" gap symbol.
+ *            
+ *            The two gap symbols, the nonresidue, and the "any"
+ *            symbol are mandatory even for nonstandard alphabets, so
+ *            <Kp> $\geq$ <K+4>.
+ *            
+ * Args:      alphabet - internal alphabet; example "ACGT-RYMKSWHBVDN*~"
+ *            K        - base size; example 4
+ *            Kp       - total size, including gap, degeneracies; example 18
+ *
+ * Returns:   pointer to new <ESL_ALPHABET> structure.
+ *
+ * Throws:    <NULL> if any allocation or initialization fails.
+ */
+ESL_ALPHABET *
+esl_alphabet_CreateCustom(const char *alphabet, int K, int Kp)
+{
+  ESL_ALPHABET *a;
+  int           c,x,y;
+  int           status;
+
+  /* Argument checks.
+   */
+  if (strlen(alphabet) != Kp) ESL_XEXCEPTION(eslEINVAL, "alphabet length != Kp");
+  if (Kp < K+4)               ESL_XEXCEPTION(eslEINVAL, "Kp too small in alphabet"); 
+
+  /* Allocation/init, level 1.
+   */
+  ESL_ALLOC(a, sizeof(ESL_ALPHABET));
+  a->sym        = NULL;
+  a->degen      = NULL;
+  a->ndegen     = NULL;
+  a->complement = NULL;
+  
+  /* Allocation/init, level 2.
+   */
+  ESL_ALLOC(a->sym,    sizeof(char)   * (Kp+1));
+  ESL_ALLOC(a->degen,  sizeof(char *) * Kp);
+  ESL_ALLOC(a->ndegen, sizeof(int)    * Kp);
+  a->degen[0] = NULL;
+
+  /* Allocation/init, level 3.
+   */
+  ESL_ALLOC(a->degen[0], sizeof(char) * (Kp*K));
+  for (x = 1; x < Kp; x++)
+    a->degen[x] = a->degen[0]+(K*x);
+
+  /* Initialize the internal alphabet: 
+   */
+  a->type = eslNONSTANDARD;
+  a->K    = K;
+  a->Kp   = Kp;
+  strcpy(a->sym, alphabet);
+
+  /* Initialize the input map, mapping ASCII seq chars to digital codes,
+   * and eslDSQ_ILLEGAL for everything else.
+   */
+  for (c = 0; c < 128; c++)   a->inmap[c]               = eslDSQ_ILLEGAL;
+  for (x = 0; x < a->Kp; x++) a->inmap[(int) a->sym[x]] = x;  
+
+  /* Initialize the degeneracy map:
+   *  Base alphabet (first K syms) are automatically
+   *  mapped uniquely; (Kp-3) is assumed to be
+   *  the "any" character; other degen chars (K+1..Kp-4) are 
+   *  unset; gap, nonresidue, missing character are unmapped (ndegen=0)
+   */
+  for (x = 0; x < a->Kp; x++)  	/* clear everything */
+    {
+      a->ndegen[x] = 0;
+      for (y = 0; y < a->K; y++) a->degen[x][y] = 0;
+    }
+  for (x = 0; x < a->K; x++) 	/* base alphabet */
+    {
+      a->ndegen[x]   = 1;
+      a->degen[x][x] = 1;
+    }
+                                /* "any" character */
+  a->ndegen[Kp-3]  = K;
+  for (x = 0; x < a->K; x++) a->degen[Kp-3][x] = 1;
+
+  return a;
+
+ ERROR:
+  esl_alphabet_Destroy(a);
+  return NULL;
+}
+
+
+/* create_rna(): 
+ * Creates a standard RNA alphabet.
+ */
+static ESL_ALPHABET *
+create_rna(void)
+{
+  ESL_ALPHABET *a = NULL;
+  int           status;
+
+  /* Create the fundamental alphabet
+   */
+  if ((a = esl_alphabet_CreateCustom("ACGU-RYMKSWHBVDN*~", 4, 18)) == NULL) return NULL;
+  a->type = eslRNA;
+  
+  /* Add desired synonyms in the input map.
+   */
+  esl_alphabet_SetEquiv(a, 'T', 'U');	    /* read T as a U */
+  esl_alphabet_SetEquiv(a, 'X', 'N');	    /* read X as an N (many seq maskers use X) */
+  esl_alphabet_SetEquiv(a, '_', '-');       /* allow _ as a gap too */
+  esl_alphabet_SetEquiv(a, '.', '-');       /* allow . as a gap too */
+  esl_alphabet_SetCaseInsensitive(a);       /* allow lower case input */
+
+  /* Define degenerate symbols.
+   */
+  esl_alphabet_SetDegeneracy(a, 'R', "AG");
+  esl_alphabet_SetDegeneracy(a, 'Y', "CU");
+  esl_alphabet_SetDegeneracy(a, 'M', "AC");
+  esl_alphabet_SetDegeneracy(a, 'K', "GU");
+  esl_alphabet_SetDegeneracy(a, 'S', "CG");
+  esl_alphabet_SetDegeneracy(a, 'W', "AU");
+  esl_alphabet_SetDegeneracy(a, 'H', "ACU");
+  esl_alphabet_SetDegeneracy(a, 'B', "CGU");
+  esl_alphabet_SetDegeneracy(a, 'V', "ACG");
+  esl_alphabet_SetDegeneracy(a, 'D', "AGU");  
+
+  if ( (status = set_complementarity(a)) != eslOK) goto ERROR;
+
+  return a;
+
+ ERROR:
+  esl_alphabet_Destroy(a);
+  return NULL;
+}
+
+
+/* create_dna(): 
+ * creates and returns a standard DNA alphabet.
+ */
+static ESL_ALPHABET *
+create_dna(void)
+{
+  ESL_ALPHABET *a = NULL;
+  int           status;
+
+  /* Create the fundamental alphabet.
+   */
+  if ((a = esl_alphabet_CreateCustom("ACGT-RYMKSWHBVDN*~", 4, 18)) == NULL) return NULL;
+  a->type = eslDNA;
+  
+  /* Add desired synonyms in the input map.
+   */
+  esl_alphabet_SetEquiv(a, 'U', 'T');	    /* read U as a T */
+  esl_alphabet_SetEquiv(a, 'X', 'N');	    /* read X as an N (many seq maskers use X) */
+  esl_alphabet_SetEquiv(a, '_', '-');       /* allow _ as a gap too */
+  esl_alphabet_SetEquiv(a, '.', '-');       /* allow . as a gap too */
+  esl_alphabet_SetCaseInsensitive(a);       /* allow lower case input */
+
+  /* Define IUBMB degenerate symbols other than the N.
+   */
+  esl_alphabet_SetDegeneracy(a, 'R', "AG");
+  esl_alphabet_SetDegeneracy(a, 'Y', "CT");
+  esl_alphabet_SetDegeneracy(a, 'M', "AC");
+  esl_alphabet_SetDegeneracy(a, 'K', "GT");
+  esl_alphabet_SetDegeneracy(a, 'S', "CG");
+  esl_alphabet_SetDegeneracy(a, 'W', "AT");
+  esl_alphabet_SetDegeneracy(a, 'H', "ACT");
+  esl_alphabet_SetDegeneracy(a, 'B', "CGT");
+  esl_alphabet_SetDegeneracy(a, 'V', "ACG");
+  esl_alphabet_SetDegeneracy(a, 'D', "AGT");  
+
+  if ( (status = set_complementarity(a)) != eslOK) goto ERROR;
+  return a;
+
+ ERROR:
+  esl_alphabet_Destroy(a);
+  return NULL;
+}
+
+
+/* create_amino():
+ * Creates a new standard amino acid alphabet.
+ */
+static ESL_ALPHABET *
+create_amino(void)
+{
+  ESL_ALPHABET *a = NULL;
+
+  /* Create the internal alphabet
+   */
+  if ((a = esl_alphabet_CreateCustom("ACDEFGHIKLMNPQRSTVWY-BJZOUX*~", 20, 29)) == NULL) return NULL;
+  a->type = eslAMINO;
+  
+  /* Add desired synonyms in the input map.
+   */
+  esl_alphabet_SetEquiv(a, '_', '-');       /* allow _ as a gap too */
+  esl_alphabet_SetEquiv(a, '.', '-');       /* allow . as a gap too */
+  esl_alphabet_SetCaseInsensitive(a);       /* allow lower case input */
+  
+  /* Define IUPAC degenerate symbols other than the X.
+   */
+  esl_alphabet_SetDegeneracy(a, 'B', "ND");
+  esl_alphabet_SetDegeneracy(a, 'J', "IL");
+  esl_alphabet_SetDegeneracy(a, 'Z', "QE");
+
+  /* Define unusual residues as one-to-one degeneracies.
+   */
+  esl_alphabet_SetDegeneracy(a, 'U', "C"); /* selenocysteine is scored as cysteine */
+  esl_alphabet_SetDegeneracy(a, 'O', "K"); /* pyrrolysine is scored as lysine      */
+
+  return a;
+}
+
+
+/* create_coins():
+ * Creates a toy alphabet for coin examples
+ */
+static ESL_ALPHABET *
+create_coins(void)
+{
+  ESL_ALPHABET *a = NULL;
+
+  /* Create the internal alphabet
+   */
+  if ((a = esl_alphabet_CreateCustom("HT-X*~", 2, 6)) == NULL) return NULL;
+  a->type = eslCOINS;
+
+  /* Add desired synonyms in the input map.
+   */
+  esl_alphabet_SetEquiv(a, '_', '-');       /* allow _ as a gap too */
+  esl_alphabet_SetEquiv(a, '.', '-');       /* allow . as a gap too */
+  esl_alphabet_SetCaseInsensitive(a);       /* allow lower case input */
+
+  /* There are no degeneracies in the coin alphabet. */
+  
+  return a;
+}
+
+/* create_dice():
+ * Creates a toy alphabet for dice examples
+ */
+static ESL_ALPHABET *
+create_dice(void)
+{
+  ESL_ALPHABET *a = NULL;
+
+  /* Create the internal alphabet
+   */
+  if ((a = esl_alphabet_CreateCustom("123456-X*~", 6, 10)) == NULL) return NULL;
+  a->type = eslCOINS;
+
+  /* Add desired synonyms in the input map.
+   */
+  esl_alphabet_SetEquiv(a, '_', '-');       /* allow _ as a gap too */
+  esl_alphabet_SetEquiv(a, '.', '-');       /* allow . as a gap too */
+  esl_alphabet_SetCaseInsensitive(a);       /* allow lower case input */
+
+  /* There are no degeneracies in the dice alphabet. */
+  
+  return a;
+}
+  
+/* set_complementarity()
+ * Builds the "complement" lookup table for DNA, RNA alphabets.
+ * 
+ * Throws <eslEINVAL> if the alphabet isn't <eslDNA> or <eslRNA>.
+ */
+static int
+set_complementarity(ESL_ALPHABET *a)
+{
+  int  status;
+
+  if (a->type != eslRNA && a->type != eslDNA)
+    ESL_EXCEPTION(eslEINVAL, "alphabet isn't nucleic: no complementarity to set");
+  
+  ESL_ALLOC(a->complement, sizeof(ESL_DSQ) * a->Kp);
+  a->complement[0] = 3;	   /* A->T */
+  a->complement[1] = 2;    /* C->G */
+  a->complement[2] = 1;    /* G->C */
+  a->complement[3] = 0;    /* T->A */
+  a->complement[4] = 4;    /* -  - */
+  a->complement[5] = 6;	   /* R->Y */
+  a->complement[6] = 5;    /* Y->R */
+  a->complement[7] = 8;    /* M->K */
+  a->complement[8] = 7;    /* K->M */
+  a->complement[9] = 9;    /* S  S */
+  a->complement[10]= 10;   /* W  W */
+  a->complement[11]= 14;   /* H->D */
+  a->complement[12]= 13;   /* B->V */
+  a->complement[13]= 12;   /* V->B */
+  a->complement[14]= 11;   /* D->H */
+  a->complement[15]= 15;   /* N  N */
+  a->complement[16]= 16;   /* ~  ~ */
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_alphabet_SetEquiv()
+ * Synopsis:  Define an equivalent symbol.
+ *
+ * Purpose:   Maps an additional input alphabetic symbol <sym> to 
+ *            an internal alphabet symbol <c>; for example,
+ *            we might map T to U for an RNA alphabet, so that we
+ *            allow for reading input DNA sequences.
+ *            
+ * Args:      sym   - symbol to allow in the input alphabet; 'T' for example
+ *            c     - symbol to map <sym> to in the internal alphabet; 'U' for example
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <c> is not in the internal alphabet, or if <sym> is.
+ */
+int
+esl_alphabet_SetEquiv(ESL_ALPHABET *a, char sym, char c)
+{
+  char    *sp = NULL;
+  ESL_DSQ  x;
+
+  /* Contract checks */
+  if ((sp = strchr(a->sym, sym)) != NULL)
+    ESL_EXCEPTION(eslEINVAL, "symbol %c is already in internal alphabet, can't equivalence it", sym);
+  if ((sp = strchr(a->sym, c)) == NULL) 
+    ESL_EXCEPTION(eslEINVAL, "char %c not in the alphabet, can't map to it", c);
+
+  x = sp - a->sym;
+  a->inmap[(int) sym] = x;
+  return eslOK;
+}
+
+/* Function:  esl_alphabet_SetCaseInsensitive()
+ * Synopsis:  Make an alphabet's input map case-insensitive.
+ *
+ * Purpose:   Given a custom alphabet <a>, with all equivalences set,
+ *            make the input map case-insensitive: for every
+ *            letter that is mapped in either lower or upper
+ *            case, map the other case to the same internal
+ *            residue.
+ *
+ *            For the standard alphabets, this is done automatically.
+ *
+ * Args:      a  - alphabet to make case-insensitive.
+ *                 
+ * Returns:   <eslOK> on success.                
+ * 
+ * Throws:    <eslECORRUPT> if any lower/uppercase symbol pairs
+ *            are already both mapped to different symbols.
+ */
+int
+esl_alphabet_SetCaseInsensitive(ESL_ALPHABET *a)
+{
+  int lc, uc;
+
+  for (lc = 'a'; lc <= 'z'; lc++)
+    {
+      uc = toupper(lc);
+
+      if      (esl_abc_CIsValid(a, lc) && ! esl_abc_CIsValid(a, uc)) a->inmap[uc] = a->inmap[lc];
+      else if (esl_abc_CIsValid(a, uc) && ! esl_abc_CIsValid(a, lc)) a->inmap[lc] = a->inmap[uc];
+      else if (esl_abc_CIsValid(a, lc) && esl_abc_CIsValid(a, uc) && a->inmap[uc] != a->inmap[lc])
+	ESL_EXCEPTION(eslECORRUPT, "symbols %c and %c map differently already (%c vs. %c)",
+		  lc, uc, a->inmap[lc], a->inmap[uc]);
+    }
+  return eslOK;
+}
+
+/* Function:  esl_alphabet_SetDegeneracy()
+ * Synopsis:  Define degenerate symbol in custom alphabet.
+ *
+ * Purpose:   Given an alphabet under construction, 
+ *            define the degenerate character <c> to mean
+ *            any of the characters in the string <ds>.
+ *
+ *            <c> must exist in the digital alphabet, as
+ *            one of the optional degenerate residues (<K+1>..<Kp-3>).
+ *            All the characters in the <ds> string must exist
+ *            in the canonical alphabet (<0>..<K-1>).
+ *            
+ *            You may not redefine the mandatory all-degenerate character
+ *            (typically <N> or <X>; <Kp-3> in the digital alphabet).
+ *            It is defined automatically in all alphabets. 
+ *
+ * Args:      a   - an alphabet under construction.
+ *            c   - degenerate character code; example: 'R'
+ *            ds  - string of base characters for c; example: "AG"
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <c> or <ds> arguments aren't valid.
+ */
+int
+esl_alphabet_SetDegeneracy(ESL_ALPHABET *a, char c, char *ds)
+{
+  char   *sp;
+  ESL_DSQ x,y;
+
+  if ((sp = strchr(a->sym, c)) == NULL)
+    ESL_EXCEPTION(eslEINVAL, "no such degenerate character");
+  x = sp - a->sym;
+
+  /* A degenerate character must have code K+1..Kp-4.
+   * Kp-3, the all-degenerate character, is automatically
+   * created, and can't be remapped.
+   */
+  if (x == a->Kp-3) 
+    ESL_EXCEPTION(eslEINVAL, "can't redefine all-degenerate char %c", c);
+  if (x < a->K+1 || x >= a->Kp-2) 
+    ESL_EXCEPTION(eslEINVAL, "char %c isn't in expected position in alphabet", c);
+  
+  while (*ds != '\0') {
+    if ((sp = strchr(a->sym, *ds)) == NULL) ESL_EXCEPTION(eslEINVAL, "no such base character");
+    y = sp - a->sym;
+    if (! esl_abc_XIsCanonical(a, y))       ESL_EXCEPTION(eslEINVAL, "can't map degeneracy to noncanonical character");
+
+    a->degen[x][y] = 1;
+    a->ndegen[x]++;
+    ds++;
+  }
+  return eslOK;
+}
+
+
+/* Function:  esl_alphabet_SetIgnored()
+ * Synopsis:  Define a set of characters to be ignored in input.
+ *
+ * Purpose:   Given an alphabet <a> (either standard or custom), define
+ *            all the characters in string <ignoredchars> to be
+ *            unmapped: valid, but ignored when converting input text.
+ *            
+ *            By default, the standard alphabets do not define any
+ *            ignored characters.
+ *            
+ *            The most common ignored characters would be space, tab,
+ *            and digits, to skip silently over whitespace and
+ *            sequence coordinates when parsing loosely-defined
+ *            sequence file formats.
+ *
+ * Args:      a             - alphabet to modify
+ *            ignoredchars  - string listing characters to ignore; i.e. " \t"
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_alphabet_SetIgnored(ESL_ALPHABET *a, const char *ignoredchars)
+{
+  int i;
+  for (i = 0; ignoredchars[i] != '\0'; i++) a->inmap[(int)ignoredchars[i]] = eslDSQ_IGNORED;
+  return eslOK;
+}
+
+
+/* Function:  esl_alphabet_Sizeof()
+ * Synopsis:  Returns size of an alphabet object, in bytes.
+ *
+ * Purpose:   Returns the size of alphabet <a> object, in bytes.
+ */
+size_t
+esl_alphabet_Sizeof(ESL_ALPHABET *a)
+{
+  size_t n = 0;
+  n += sizeof(ESL_ALPHABET);
+  n += sizeof(char) * a->Kp;	                   /* a->sym        */
+  n += sizeof(char *) * a->Kp;	                   /* a->degen      */
+  n += sizeof(char) * (a->Kp * a->K);              /* a->degen[][]  */ 
+  n += sizeof(int)  * a->Kp;	                   /* a->ndegen     */
+  if (a->complement) n += sizeof(ESL_DSQ) * a->Kp; /* a->complement */
+  return n;
+}
+
+/* Function:  esl_alphabet_Destroy()
+ * Synopsis:  Frees an alphabet object.
+ *
+ * Purpose:   Free's an <ESL_ALPHABET> structure.
+ *
+ * Args:      a  - the <ESL_ALPHABET> to free.
+ *
+ * Returns:   (void).
+ */
+void
+esl_alphabet_Destroy(ESL_ALPHABET *a)
+{
+  if (a == NULL) return;
+
+  if (a->sym      != NULL) free(a->sym);
+  if (a->ndegen   != NULL) free(a->ndegen);
+  if (a->degen    != NULL) 
+    {
+      if (a->degen[0] != NULL) free(a->degen[0]);
+      free(a->degen);
+    }
+  if (a->complement != NULL) free(a->complement);
+  free(a);
+}
+/*--------------- end, ESL_ALPHABET object ----------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. Digitized sequences (ESL_DSQ *)
+ *****************************************************************/ 
+/* Design note:                 SRE, Mon Sep 18 09:11:41 2006
+ * 
+ * An ESL_DSQ is considered to a special string type, equivalent to
+ * <char *>, and is not considered to be an Easel "object".  Thus it
+ * does not have a standard object API.  Rather, the caller deals with
+ * an ESL_DSQ directly: allocate for <(L+2)*sizeof(ESL_DSQ)> to leave
+ * room for sentinels at <0> and <L+1>.  
+ * 
+ * Additionally, an ESL_DSQ is considered to be "trusted"
+ * data: we're 'guaranteed' that anything in an ESL_DSQ is a valid
+ * symbol, so we don't need to error-check. Anything else is a programming
+ * error.
+ */
+
+/* Function:  esl_abc_CreateDsq()
+ * Synopsis:  Digitizes a sequence into new space.
+ *
+ * Purpose:   Given an alphabet <a> and an ASCII sequence <seq>,
+ *            digitize the sequence into newly allocated space, and 
+ *            return a pointer to that space in <ret_dsq>.
+ *            
+ * Args:      a       - internal alphabet
+ *            seq     - text sequence to be digitized
+ *            ret_dsq - RETURN: the new digital sequence
+ *
+ * Returns:   <eslOK> on success, and <ret_dsq> contains the digitized
+ *            sequence; caller is responsible for free'ing this
+ *            memory. Returns <eslEINVAL> if <seq> contains
+ *            one or more characters that are not in the input map of
+ *            alphabet <a>. If this happens, <ret_dsq> is still valid upon
+ *            return: invalid characters are replaced by full ambiguities
+ *            (typically X or N).
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      STL11/63
+ */
+int
+esl_abc_CreateDsq(const ESL_ALPHABET *a, const char *seq, ESL_DSQ **ret_dsq)
+{
+  ESL_DSQ *dsq = NULL;
+  int      status;
+  int64_t  L;
+
+  L = strlen(seq);
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+  status = esl_abc_Digitize(a, seq, dsq);
+
+  if (ret_dsq != NULL) *ret_dsq = dsq; else free(dsq);
+  return status;
+
+ ERROR:
+  if (dsq != NULL)      free(dsq);
+  if (ret_dsq != NULL) *ret_dsq = NULL;
+  return status;
+}
+
+
+/* Function: esl_abc_Digitize()
+ * Synopsis: Digitizes a sequence into existing space.
+ * 
+ * Purpose:  Given an alphabet <a> and a nul-terminated ASCII sequence
+ *           <seq>, digitize the sequence and put it in <dsq>. Caller
+ *           provides space in <dsq> allocated for at least <L+2>
+ *           <ESL_DSQ> residues, where <L> is the length of <seq>.
+ *           
+ * Args:     a       - internal alphabet
+ *           seq     - text sequence to be digitized (\0-terminated)
+ *           dsq     - RETURN: the new digital sequence (caller allocates,
+ *                     at least <(L+2) * sizeof(ESL_DSQ)>).
+ *           
+ * Returns:  <eslOK> on success.
+ *           Returns <eslEINVAL> if <seq> contains one or more characters
+ *           that are not recognized in the alphabet <a>. (This is classed
+ *           as a normal error, because the <seq> may be untrusted user input.)
+ *           If this happens, the digital sequence <dsq> is still valid upon
+ *           return; invalid ASCII characters are replaced by ambiguities
+ *           (X or N).
+ */
+int
+esl_abc_Digitize(const ESL_ALPHABET *a, const char *seq, ESL_DSQ *dsq)
+{
+  int     status;
+  int64_t i;			/* position in seq */
+  int64_t j;			/* position in dsq */
+  ESL_DSQ x;
+
+  status = eslOK;
+  dsq[0] = eslDSQ_SENTINEL;
+  for (i = 0, j = 1; seq[i] != '\0'; i++) 
+    { 
+      x = a->inmap[(int) seq[i]];
+      if      (esl_abc_XIsValid(a, x)) dsq[j] = x;
+      else if (x == eslDSQ_IGNORED) continue; 
+      else {
+	status   = eslEINVAL;
+	dsq[j] = esl_abc_XGetUnknown(a);
+      }
+      j++;
+    }
+  dsq[j] = eslDSQ_SENTINEL;
+  return status;
+}
+
+/* Function:  esl_abc_Textize()
+ * Synopsis:  Convert digital sequence to text.
+ *
+ * Purpose:   Make an ASCII sequence <seq> by converting a digital
+ *            sequence <dsq> of length <L> back to text, according to
+ *            the digital alphabet <a>. 
+ *            
+ *            Caller provides space in <seq> allocated for at least
+ *            <L+1> bytes (<(L+1) * sizeof(char)>).
+ *
+ * Args:      a   - internal alphabet
+ *            dsq - digital sequence to be converted (1..L)
+ *            L   - length of dsq
+ *            seq - RETURN: the new text sequence (caller allocated
+ *                  space, at least <(L+1) * sizeof(char)>).
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_abc_Textize(const ESL_ALPHABET *a, const ESL_DSQ *dsq, int64_t L, char *seq)
+{
+  int64_t i;
+  
+  for (i = 0; i < L; i++)
+    seq[i] = a->sym[dsq[i+1]];
+  seq[i] = '\0';
+  return eslOK;
+}
+
+
+/* Function:  esl_abc_TextizeN()
+ * Synopsis:  Convert subsequence from digital to text.
+ *
+ * Purpose:   Similar in semantics to <strncpy()>, this procedure takes
+ *            a window of <L> residues in a digitized sequence
+ *            starting at the residue pointed to by <dptr>,
+ *            converts them to ASCII text representation, and 
+ *            copies them into the buffer <buf>.
+ *            
+ *            <buf> must be at least <L> residues long; <L+1>, if the
+ *            caller needs to NUL-terminate it.
+ *            
+ *            If a sentinel byte is encountered in the digitized
+ *            sequence before <L> residues have been copied, <buf> is
+ *            NUL-terminated there. Otherwise, like <strncpy()>, <buf>
+ *            will not be NUL-terminated.
+ *            
+ *            Note that because digital sequences are indexed <1..N>,
+ *            not <0..N-1>, the caller must be careful about
+ *            off-by-one errors in <dptr>. For example, to copy from
+ *            the first residue of a digital sequence <dsq>, you must
+ *            pass <dptr=dsq+1>, not <dptr=dsq>. The text in <buf>
+ *            on the other hand is a normal C string indexed <0..L-1>.
+ *
+ * Args:      a     - reference to an internal alphabet
+ *            dptr  - ptr to starting residue in a digital sequence
+ *            L     - number of residues to convert and copy
+ *            buf   - text buffer to store the <L> converted residues in
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_abc_TextizeN(const ESL_ALPHABET *a, const ESL_DSQ *dptr, int64_t L, char *buf)
+{
+  int64_t i;
+
+  for (i = 0; i < L; i++)
+    {
+      if (dptr[i] == eslDSQ_SENTINEL) 
+	{ 
+	  buf[i] = '\0';
+	  return eslOK;
+	}
+      buf[i] = a->sym[dptr[i]];
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_abc_dsqcpy()
+ *
+ * Purpose:   Given a digital sequence <dsq> of length <L>,
+ *            make a copy of it in <dcopy>. Caller provides
+ *            storage in <dcopy> for at least <L+2> <ESL_DSQ>
+ *            residues.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_abc_dsqcpy(const ESL_DSQ *dsq, int64_t L, ESL_DSQ *dcopy)
+{
+  memcpy(dcopy, dsq, sizeof(ESL_DSQ) * (L+2));
+  return eslOK;
+}
+
+
+/* Function:  esl_abc_dsqdup()
+ * Synopsis:  Duplicate a digital sequence.
+ *
+ * Purpose:   Like <esl_strdup()>, but for digitized sequences:
+ *            make a duplicate of <dsq> and leave it in <ret_dup>.
+ *            Caller can pass the string length <L> if it's known, saving
+ *            some overhead; else pass <-1> and the length will be
+ *            determined for you.
+ *            
+ *            Tolerates <dsq> being <NULL>; in which case, returns
+ *            <eslOK> with <*ret_dup> set to <NULL>.
+ *
+ * Args:      dsq     - digital sequence to duplicate (w/ sentinels at 0,L+1)
+ *            L       - length of dsq in residues, if known; -1 if unknown
+ *            ret_dup - RETURN: allocated duplicate of <dsq>, which caller will
+ *                      free.
+ *
+ * Returns:   <eslOK> on success, and leaves a pointer in <ret_dup>.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      STL11/48
+ */
+int 
+esl_abc_dsqdup(const ESL_DSQ *dsq, int64_t L, ESL_DSQ **ret_dup)
+{
+  int      status;
+  ESL_DSQ *new = NULL;
+
+  if (ret_dup == NULL) return eslOK; /* no-op. */
+
+  *ret_dup = NULL;
+  if (dsq == NULL) return eslOK;
+  if (L < 0) L = esl_abc_dsqlen(dsq);
+
+  ESL_ALLOC(new, sizeof(ESL_DSQ) * (L+2));
+  memcpy(new, dsq, sizeof(ESL_DSQ) * (L+2));
+  
+  *ret_dup = new;
+  return eslOK;
+
+ ERROR:
+  if (new     != NULL)  free(new);
+  if (ret_dup != NULL) *ret_dup = NULL;
+  return status;
+}
+
+
+/* Function:  esl_abc_dsqcat()
+ * Synopsis:  Concatenate and map input chars to a digital sequence.
+ *
+ * Purpose:   Append the contents of string or memory line <s> of
+ *            length <n> to a digital sequence, after digitizing  
+ *            each input character in <s> according to an Easel
+ *            <inmap>. The destination sequence and its length
+ *            are passed by reference, <*dsq> and <*L>, so that
+ *            the sequence may be reallocated and the length updated
+ *            upon return.
+ *            
+ *            The input map <inmap> may map characters to
+ *            <eslDSQ_IGNORED> or <eslDSQ_ILLEGAL>, but not to <eslDSQ_EOL>,
+ *            <eslDSQ_EOD>, or <eslDSQ_SENTINEL> codes. <inmap[0]> is
+ *            special, and must be set to the code for the 'unknown'
+ *            residue (such as 'X' for proteins, 'N' for DNA) that
+ *            will be used to replace any invalid <eslDSQ_ILLEGAL>
+ *            characters.
+ * 
+ *            If <*dsq> is properly terminated digital sequence and
+ *            the caller doesn't know its length, <*L> may be passed
+ *            as -1. Providing the length when it's known saves an
+ *            <esl_abc_dsqlen()> call. If <*dsq> is unterminated, <*L>
+ *            is mandatory. Essentially the same goes for <*s>, which
+ *            may be a NUL-terminated string (pass <n=-1> if length unknown),
+ *            or a memory line (<n> is mandatory). 
+ *            
+ *            <*dsq> may also be <NULL>, in which case it is allocated
+ *            and initialized here.
+ *            
+ *            Caller should provide an <s> that is expected to be
+ *            essentially all appendable to <*dsq> except for a small
+ *            number of chars that map to <eslDSQ_IGNORE>, like an
+ *            input sequence data line from a file, for example. We're
+ *            going to reallocate <*dsq> to size <*L+n>; if <n> is an
+ *            entire large buffer or file, this reallocation will be
+ *            inefficient.
+ *            
+ * Args:      inmap - an Easel input map, inmap[0..127];
+ *                    inmap[0] is special, set to the 'unknown' character
+ *                    to replace invalid input chars.
+ *            dsq   - reference to the current digital seq to append to 
+ *                    (with sentinel bytes at 0,L+1); may be <NULL>. 
+ *                    Upon return, this will probably have 
+ *                    been reallocated, and it will contain the original
+ *                    <dsq> with <s> digitized and appended.
+ *            L    -  reference to the current length of <dsq> in residues;
+ *                    may be <-1> if unknown and if <*dsq> is a properly
+ *                    terminated digital sequence. Upon return, <L> is set to
+ *                    the new length of <dsq>, after <s> is appended.
+ *            s    -  ASCII text sequence to append. May
+ *                    contain ignored text characters (flagged with
+ *                    <eslDSQ_IGNORED> in the input map of alphabet <abc>).  
+ *            n    -  Length of <s> in characters, if known; or <-1> if 
+ *                    unknown and if <s> is a NUL-terminated string.
+ *
+ * Returns:   <eslOK> on success; <*dsq> contains the result of digitizing
+ *            and appending <s> to the original <*dsq>; and <*L> contains
+ *            the new length of the <dsq> result in residues.
+ *            
+ *            If any of the characters in <s> are illegal in the
+ *            alphabet <abc>, these characters are digitized as
+ *            unknown residues (using <inmap[0]>) and
+ *            concatenation/digitization proceeds to completion, but
+ *            the function returns <eslEINVAL>. The caller might then
+ *            want to call <esl_abc_ValidateSeq()> on <s> if it wants
+ *            to figure out where digitization goes awry and get a
+ *            more informative error report. This is a normal error,
+ *            because the string <s> might be user input.
+ *
+ * Throws:    <eslEMEM> on allocation or reallocation failure;
+ *            <eslEINCONCEIVABLE> on coding error.
+ *            
+ * Xref:      SRE:STL11/48; SRE:J7/145.
+ *
+ * Note:      This closely parallels a text mode version, <esl_strmapcat()>.
+ */
+int
+esl_abc_dsqcat(const ESL_DSQ *inmap, ESL_DSQ **dsq, int64_t *L, const char *s, esl_pos_t n)
+{
+  int       status = eslOK;
+
+  if (*L < 0) *L = ((*dsq) ? esl_abc_dsqlen(*dsq) : 0);
+  if ( n < 0)  n = (   (s) ? strlen(s)            : 0);
+
+  if (n == 0) { goto ERROR; } 	/* that'll return eslOK, leaving *dest untouched, and *ldest its length */
+
+  if (*dsq == NULL) {		/* an entirely new dsq is allocated *and* initialized with left sentinel. */
+    ESL_ALLOC(*dsq, sizeof(ESL_DSQ)     * (n+2));
+    (*dsq)[0] = eslDSQ_SENTINEL;
+  } else			/* else, existing dsq is just reallocated; leftmost sentinel already in place. */
+    ESL_REALLOC(*dsq, sizeof(ESL_DSQ) * (*L+n+2)); /* most we'll need */
+
+  return esl_abc_dsqcat_noalloc(inmap, *dsq, L, s, n);
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_abc_dsqcat_noalloc()
+ * Synopsis:  Version of esl_abc_dsqcat() that does no reallocation.
+ *
+ * Purpose:   Same as <esl_abc_dsqcat()>, but with no reallocation of
+ *            <dsq>. The pointer to the destination string <dsq> is 
+ *            passed by value not by reference, because it will not
+ *            be reallocated or moved. Caller has already allocated 
+ *            at least <*L + n + 2> bytes in <dsq>. <*L> and <n> are
+ *            not optional; caller must know (and provide) the lengths
+ *            of both the old string and the new source.
+ *
+ * Note:      This version was needed in selex format parsing, where
+ *            we need to prepend and append some number of gaps on
+ *            each new line of each block of input; allocating once
+ *            then adding the gaps and the sequence seemed most efficient.
+ */
+int
+esl_abc_dsqcat_noalloc(const ESL_DSQ *inmap, ESL_DSQ *dsq, int64_t *L, const char *s, esl_pos_t n)
+{
+  int64_t   xpos;
+  esl_pos_t cpos;
+  ESL_DSQ   x;
+  int       status = eslOK;
+
+  /* Watch these coords. Start in the 0..n-1 text string at 0;
+   * start in the 1..L dsq at L+1, overwriting its terminal 
+   * sentinel byte.
+   */
+  for (xpos = *L+1, cpos = 0; cpos < n; cpos++)
+    {
+      if (! isascii(s[cpos])) { dsq[xpos++] = inmap[0]; status = eslEINVAL; continue; }
+
+      x = inmap[(int) s[cpos]];
+
+      if       (x <= 127)      dsq[xpos++] = x;
+      else switch (x) {
+	case eslDSQ_SENTINEL:  ESL_EXCEPTION(eslEINCONCEIVABLE, "input char mapped to eslDSQ_SENTINEL"); break;
+	case eslDSQ_ILLEGAL:   dsq[xpos++] = inmap[0]; status = eslEINVAL;                               break;
+	case eslDSQ_IGNORED:   break;
+	case eslDSQ_EOL:       ESL_EXCEPTION(eslEINCONCEIVABLE, "input char mapped to eslDSQ_EOL");      break;
+	case eslDSQ_EOD:       ESL_EXCEPTION(eslEINCONCEIVABLE, "input char mapped to eslDSQ_EOD");      break;
+	default:               ESL_EXCEPTION(eslEINCONCEIVABLE, "bad inmap, no such ESL_DSQ code");      break;
+	}
+    }
+  dsq[xpos] = eslDSQ_SENTINEL;
+  *L = xpos-1;
+  return status;
+}
+
+/* Function:  esl_abc_dsqlen()
+ * Synopsis:  Returns the length of a digital sequence.
+ *
+ * Purpose:   Returns the length of digitized sequence <dsq> in
+ *            positions (including gaps, if any). The <dsq> must be
+ *            properly terminated by a sentinel byte
+ *            (<eslDSQ_SENTINEL>).  
+ */
+int64_t 
+esl_abc_dsqlen(const ESL_DSQ *dsq)
+{
+  int64_t n = 0;
+  while (dsq[n+1] != eslDSQ_SENTINEL) n++;
+  return n;
+}
+
+/* Function:  esl_abc_dsqrlen()
+ * Synopsis:  Returns the number of residues in a digital seq.
+ *
+ * Purpose:   Returns the unaligned length of digitized sequence
+ *            <dsq>, in residues, not counting any gaps or
+ *            missing data symbols. 
+ */
+int64_t
+esl_abc_dsqrlen(const ESL_ALPHABET *abc, const ESL_DSQ *dsq)
+{
+  int64_t n = 0;
+  int64_t i;
+
+  for (i = 1; dsq[i] != eslDSQ_SENTINEL; i++)
+    if (esl_abc_XIsResidue(abc, dsq[i])) n++;
+  return n;
+}
+
+/* Function:  esl_abc_CDealign()
+ * Synopsis:  Dealigns a text string, using a reference digital aseq.
+ *
+ * Purpose:   Dealigns <s> in place by removing characters aligned to
+ *            gaps (or missing data symbols) in the reference digital
+ *            aligned sequence <ref_ax>. Gaps and missing data symbols
+ *            in <ref_ax> are defined by its digital alphabet <abc>.
+ *            
+ *            <s> is typically going to be some kind of textual
+ *            annotation string (secondary structure, consensus, or
+ *            surface accessibility).
+ *            
+ *            Be supercareful of off-by-one errors here! The <ref_ax>
+ *            is a digital sequence that is indexed <1..L>. The
+ *            annotation string <s> is assumed to be <0..L-1> (a
+ *            normal C string), off by one with respect to <ref_ax>.
+ *            In a sequence object, ss annotation is actually stored
+ *            <1..L> -- so if you're going to <esl_abc_CDealign()> a
+ *            <sq->ss>, pass <sq->ss+1> as the argument <s>.
+ *
+ * Returns:   Returns <eslOK> on success; optionally returns the number
+ *            of characters in the dealigned <s> in <*opt_rlen>.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_abc_CDealign(const ESL_ALPHABET *abc, char *s, const ESL_DSQ *ref_ax, int64_t *opt_rlen)
+{
+  int64_t apos;
+  int64_t n = 0;
+
+  if (s == NULL) return eslOK;
+  
+  for (n=0, apos=1; ref_ax[apos] != eslDSQ_SENTINEL; apos++)
+    if (! esl_abc_XIsGap(abc, ref_ax[apos]) && ! esl_abc_XIsMissing(abc, ref_ax[apos]) )
+      s[n++] = s[apos-1];	/* apos-1 because we assume s was 0..alen-1, whereas ref_ax was 1..alen */
+  s[n] = '\0';
+
+  if (opt_rlen != NULL) *opt_rlen = n;
+  return eslOK;
+}
+
+/* Function:  esl_abc_XDealign()
+ * Synopsis:  Dealigns a digital string, using a reference digital aseq.
+ *
+ * Purpose:   Dealigns <x> in place by removing characters aligned to
+ *            gaps (or missing data) in the reference digital aligned
+ *            sequence <ref_ax>. Gaps and missing data symbols in
+ *            <ref_ax> are defined by its digital alphabet <abc>.
+ *
+ * Returns:   Returns <eslOK> on success; optionally returns the number
+ *            of characters in the dealigned <x> in <*opt_rlen>.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_abc_XDealign(const ESL_ALPHABET *abc, ESL_DSQ *x, const ESL_DSQ *ref_ax, int64_t *opt_rlen)
+{
+  int64_t apos;
+  int64_t n = 0;
+
+  if (x == NULL) return eslOK;
+  
+  x[0] = eslDSQ_SENTINEL;
+  for (n=1, apos=1; ref_ax[apos] != eslDSQ_SENTINEL; apos++)
+    if (! esl_abc_XIsGap(abc, ref_ax[apos]) && ! esl_abc_XIsMissing(abc, ref_ax[apos]) )
+      x[n++] = x[apos];
+  x[n] = eslDSQ_SENTINEL;
+  
+  if (opt_rlen != NULL) *opt_rlen = n-1;
+  return eslOK;
+}
+
+/* Function:  esl_abc_ConvertDegen2X()
+ * Synopsis:  Convert all degenerate residues to X or N.
+ *
+ * Purpose:   Convert all the degenerate residue codes in digital
+ *            sequence <dsq> to the code for the maximally degenerate 
+ *            "unknown residue" code, as specified in digital alphabet
+ *            <abc>. (For example, X for protein, N for nucleic acid.)
+ *            
+ *            This comes in handy when you're dealing with some piece
+ *            of software that can't deal with standard residue codes,
+ *            and you want to massage your sequences into a form that
+ *            can be accepted. For example, WU-BLAST can't deal with O
+ *            (pyrrolysine) residues, but UniProt has O codes.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_abc_ConvertDegen2X(const ESL_ALPHABET *abc, ESL_DSQ *dsq)
+{
+  int64_t i;
+
+  for (i = 1; dsq[i] != eslDSQ_SENTINEL; i++)  
+    if (esl_abc_XIsDegenerate(abc, dsq[i]))
+      dsq[i] = esl_abc_XGetUnknown(abc);
+  return eslOK;
+}
+
+/*-------------- end, digital sequences (ESL_DSQ) ---------------*/
+
+
+/*****************************************************************
+ * 3. Other routines in the API.
+ *****************************************************************/ 
+
+/* Function:  esl_abc_GuessAlphabet()
+ * Synopsis:  Guess alphabet type from residue composition.
+ *
+ * Purpose:   Guess the alphabet type from a residue composition.
+ *            The input <ct[0..25]> array contains observed counts of 
+ *            the letters A..Z, case-insensitive. 
+ *            
+ *            The composition <ct> must contain more than 10 residues.
+ *
+ *            If it contains $\geq$98\% ACGTN and all four of the
+ *            residues ACGT occur, call it <eslDNA>. (Analogously for
+ *            ACGUN, ACGU: call <eslRNA>.)
+ *            
+ *            If it contains any amino-specific residue (EFIJLPQZ),
+ *            call it <eslAMINO>.  
+ *            
+ *            If it consists of $\geq$98\% canonical aa residues or X,
+ *            and at least 15 of the different 20 aa residues occur,
+ *            and the number of residues that are canonical aa/degenerate
+ *            nucleic (DHKMRSVWY) is greater than the number of canonicals
+ *            for both amino and nucleic (ACG); then call it <eslAMINO>.
+ *            
+ *            We aim to be very conservative, essentially never making
+ *            a false call; we err towards calling <eslUNKNOWN> if
+ *            unsure. Our test is to classify every individual
+ *            sequence in NCBI NR and NT (or equiv large messy
+ *            sequence database) with no false positives, only correct
+ *            calls or <eslUNKNOWN>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_type> is set to
+ *            <eslAMINO>, <eslRNA>, or <eslDNA>.
+ *
+ *            Returns <eslENOALPHABET> if unable to determine the
+ *            alphabet type; in this case, <*ret_type> is set to 
+ *            <eslUNKNOWN>.
+ *            
+ * Notes:     As of Jan 2011:
+ *               nr         10M seqs :  6999 unknown,  0 misclassified 
+ *               Pfam full  13M seqs :  7930 unknown,  0 misclassified
+ *               Pfam seed  500K seqs:   366 unknown,  0 misclassified
+ *               trembl     14M seqs :  7748 unknown,  0 misclassified
+ *               
+ *               nt         10M seqs : 35620 unknown,  0 misclassified
+ *               Rfam full   3M seqs :  8146 unknown,  0 misclassified
+ *               Rfam seed  27K seqs :    49 unknown,  0 misclassified
+ *               
+ * xref:      esl_alphabet_example3 collects per-sequence classification
+ *            2012/0201-easel-guess-alphabet
+ *            J1/62; 2007-0517-easel-guess-alphabet
+ */
+int
+esl_abc_GuessAlphabet(const int64_t *ct, int *ret_type)
+{
+  int      type = eslUNKNOWN;
+  char     aaonly[]    = "EFIJLOPQZ";
+  char     allcanon[]  = "ACG";
+  char     aacanon[]   = "DHKMRSVWY";
+  int64_t  n1, n2, n3, nn, nt, nu, nx, n; /* n's are counts */
+  int      x1, x2, x3, xn, xt, xu;	  /* x's are how many different residues are represented */
+  int      i, x;
+
+  x1 = x2 = x3 = xn = xt = xu = 0;
+  n1 = n2 = n3 = n = 0;
+  for (i = 0; i < 26;                i++) n  += ct[i];
+  for (i = 0; aaonly[i]   != '\0'; i++) { x = ct[aaonly[i]   - 'A']; if (x > 0) { n1 += x; x1++; } }
+  for (i = 0; allcanon[i] != '\0'; i++) { x = ct[allcanon[i] - 'A']; if (x > 0) { n2 += x; x2++; } }
+  for (i = 0; aacanon[i]  != '\0'; i++) { x = ct[aacanon[i]  - 'A']; if (x > 0) { n3 += x; x3++; } }
+  nt = ct['T' - 'A']; xt = (nt ? 1 : 0);
+  nu = ct['U' - 'A']; xu = (nu ? 1 : 0);
+  nx = ct['X' - 'A']; 
+  nn = ct['N' - 'A']; xn = (nn ? 1 : 0);
+
+  if      (n  <= 10)                                                type = eslUNKNOWN;
+  else if (n1 > 0)                                                  type = eslAMINO; /* contains giveaway, aa-only chars */
+  else if (n-(n2+nt+nn) <= 0.02*n && x2+xt == 4)                    type = eslDNA;   /* nearly all DNA canon (or N), all four seen */
+  else if (n-(n2+nu+nn) <= 0.02*n && x2+xu == 4)                    type = eslRNA;   /* nearly all RNA canon (or N), all four seen */
+  else if (n-(n1+n2+n3+nn+nt+nx) <= 0.02*n && n3>n2 && x1+x2+x3+xn+xt >= 15) type = eslAMINO; /* nearly all aa canon (or X); more aa canon than ambig; all 20 seen */
+  
+  *ret_type = type;
+  if (type == eslUNKNOWN) return eslENOALPHABET;
+  else                    return eslOK;
+}
+
+
+
+/* Function:  esl_abc_Match()
+ * Synopsis:  Returns the probability that two symbols match.
+ *
+ * Purpose:   Given two digital symbols <x> and <y> in alphabet
+ *            <abc>, calculate and return the probability that
+ *            <x> and <y> match, taking degenerate residue codes
+ *            into account.
+ *            
+ *            If <p> residue probability vector is NULL, the
+ *            calculation is a simple average. For example, for DNA,
+ *            R/A gives 0.5, C/N gives 0.25, N/R gives 0.25, R/R gives
+ *            0.5.
+ *            
+ *            If <p> residue probability vector is non-NULL, it gives
+ *            a 0..K-1 array of background frequencies, and the
+ *            returned match probability is an expectation (weighted
+ *            average) given those residue frequencies.
+ *            
+ *            <x> and <y> should only be residue codes. Any other
+ *            comparison, including comparisons involving gap or
+ *            missing data characters, or even comparisons involving
+ *            illegal digital codes, returns 0.0.
+ *            
+ *            Note that comparison of residues from "identical"
+ *            sequences (even a self-comparison) will not result in an
+ *            identity of 1.0, if the sequence(s) contain degenerate
+ *            residue codes.
+ *
+ * Args:      abc   - digtal alphabet to use
+ *            x,y   - two symbols to compare
+ *            p     - NULL, or background probabilities of the
+ *                    canonical residues in this alphabet [0..K-1]
+ *
+ * Returns:   the probability of an identity (match) between
+ *            residues <x> and <y>.
+ */
+double
+esl_abc_Match(const ESL_ALPHABET *abc, ESL_DSQ x, ESL_DSQ y, double *p)
+{
+  int    i;
+  double prob;
+  double sx, sy;
+
+  /* Easy cases */
+  if (esl_abc_XIsCanonical(abc, x) && esl_abc_XIsCanonical(abc, y))  
+    { 
+      if (x==y) return 1.0; else return 0.0;
+    }
+  if ( ! esl_abc_XIsResidue(abc, x) || ! esl_abc_XIsResidue(abc, x))  return 0.0;
+
+  /* Else, we have at least one degenerate residue, so calc an average or expectation.
+   */
+  if (p != NULL) 
+    {
+      prob = sx = sy = 0.;
+      for (i = 0; i < abc->K; i++)
+	{
+	  if (abc->degen[(int)x][i])                            sx += p[i];
+	  if (abc->degen[(int)y][i])                            sy += p[i];
+	  if (abc->degen[(int)x][i] && abc->degen[(int)x][i]) prob += p[i] * p[i];
+	}
+      prob = prob / (sx*sy);
+    }
+  else
+    {
+      double uniformp = 1. / (double) abc->K;
+      prob = sx = sy = 0.;
+      for (i = 0; i < abc->K; i++)
+	{
+	  if (abc->degen[(int)x][i])                            sx += uniformp;
+	  if (abc->degen[(int)y][i])                            sy += uniformp;
+	  if (abc->degen[(int)x][i] && abc->degen[(int)x][i]) prob += uniformp * uniformp;
+	}
+      prob = prob / (sx*sy);
+    }
+  return prob;
+}
+
+
+
+/* Function:  esl_abc_IAvgScore()
+ * Synopsis:  Returns average score for degenerate residue.
+ *
+ * Purpose:  Given a residue code <x> in alphabet <a>, and an array of
+ *           integer scores <sc> for the residues in the base
+ *           alphabet, calculate and return the average score
+ *           (rounded to nearest integer).
+ *           
+ *           <x> would usually be a degeneracy code, but it
+ *           may also be a canonical residue. It must not
+ *           be a gap, missing data, or illegal symbol; if it
+ *           is, these functions return a score of 0 without
+ *           raising an error.
+ *           
+ *           <esl_abc_FAvgScore()> and <esl_abc_DAvgScore()> do the
+ *           same, but for float and double scores instead of integers
+ *           (and for real-valued scores, no rounding is done).
+ *           
+ * Args:     a   - digital alphabet to use
+ *           x   - a symbol to score
+ *           sc  - score vector for canonical residues [0..K-1]
+ *           
+ * Returns:  average score for symbol <x>          
+ */
+int
+esl_abc_IAvgScore(const ESL_ALPHABET *a, ESL_DSQ x, const int *sc)
+{
+  float result = 0.;
+  int i;
+
+  if (! esl_abc_XIsResidue(a, x)) return 0;
+  for (i = 0; i < a->K; i++)
+    if (a->degen[(int) x][i]) result += (float) sc[i];
+  result /= (float) a->ndegen[(int) x];
+  if (result < 0) return (int) (result - 0.5);
+  else            return (int) (result + 0.5);
+}
+float
+esl_abc_FAvgScore(const ESL_ALPHABET *a, ESL_DSQ x, const float *sc)
+{
+  float result = 0.;
+  int   i;
+
+  if (! esl_abc_XIsResidue(a, x)) return 0.;
+  for (i = 0; i < a->K; i++)
+    if (a->degen[(int) x][i]) result += sc[i];
+  result /= (float) a->ndegen[(int) x];
+  return result;
+}
+double
+esl_abc_DAvgScore(const ESL_ALPHABET *a, ESL_DSQ x, const double *sc)
+{
+  double result = 0.;
+  int    i;
+
+  if (! esl_abc_XIsResidue(a, x)) return 0.;
+  for (i = 0; i < a->K; i++)
+    if (a->degen[(int) x][i]) result += sc[i];
+  result /= (double) a->ndegen[(int) x];
+  return result;
+}
+
+
+/* Function:  esl_abc_IExpectScore()
+ * Synopsis:  Returns expected score for degenerate residue.
+ *
+ * Purpose:   Given a residue code <x> in alphabet <a>, an
+ *            array of integer scores <sc> for the residues in the base
+ *            alphabet, and background frequencies <p> for the
+ *            occurrence frequencies of the residues in the base
+ *            alphabet, calculate and return the expected score
+ *            (weighted by the occurrence frequencies <p>).
+ *            
+ *            <x> would usually be a degeneracy code, but it
+ *            may also be a canonical residue. It must not
+ *            be a gap, missing data, or illegal symbol; if it
+ *            is, these functions return a score of 0 without
+ *            raising an error.
+ *
+ *            <esl_abc_FExpectScore()> and <esl_abc_DExpectScore()> do the
+ *            same, but for float and double scores instead of integers
+ *            (for real-valued scores, no rounding is done).
+ *
+ * Args:     a   - digital alphabet to use
+ *           x   - a symbol to score
+ *           sc  - score vector for canonical residues [0..K-1]
+ *           p   - background prob's of canonicals     [0..K-1]
+ *           
+ * Returns:  average score for symbol <x>          
+ */
+int
+esl_abc_IExpectScore(const ESL_ALPHABET *a, ESL_DSQ x, const int *sc, const float *p)
+{
+  float  result = 0.;
+  float  denom  = 0.;
+  int    i;
+
+  if (! esl_abc_XIsResidue(a, x)) return 0;
+  for (i = 0; i < a->K; i++)
+    if (a->degen[(int) x][i]) { 
+      result += (float) sc[i] * p[i];
+      denom  += p[i];
+    }
+  result /= denom;
+  if (result < 0) return (int) (result - 0.5);
+  else            return (int) (result + 0.5);
+}
+float
+esl_abc_FExpectScore(const ESL_ALPHABET *a, ESL_DSQ x, const float *sc, const float *p)
+{
+  float  result = 0.;
+  float  denom  = 0.;
+  int    i;
+
+  if (! esl_abc_XIsResidue(a, x)) return 0.;
+  for (i = 0; i < a->K; i++)
+    if (a->degen[(int) x][i]) { 
+      result += sc[i] * p[i];
+      denom  += p[i];
+    }
+  result /= denom;
+  return result;
+}
+double
+esl_abc_DExpectScore(const ESL_ALPHABET *a, ESL_DSQ x, const double *sc, const double *p)
+{
+  double result = 0.;
+  double denom  = 0.;
+  int    i;
+
+  if (! esl_abc_XIsResidue(a, x)) return 0.;
+  for (i = 0; i < a->K; i++)
+    if (a->degen[(int) x][i]) { 
+      result += sc[i] * p[i];
+      denom  += p[i];
+    }
+  result /= denom;
+  return result;
+}
+
+/* Function:  esl_abc_IAvgScVec()
+ * Synopsis:  Fill out score vector with average degenerate scores.
+ *
+ * Purpose:   Given an alphabet <a> and a score vector <sc> of length
+ *            <a->Kp> that contains integer scores for the base
+ *            alphabet (<0..a->K-1>), fill out the rest of the score 
+ *            vector, calculating average scores for 
+ *            degenerate residues using <esl_abc_IAvgScore()>.
+ *            
+ *            The score, if any, for a gap character <K>, the
+ *            nonresidue <Kp-2>, and the missing data character <Kp-1>
+ *            are untouched by this function. Only the degenerate
+ *            scores <K+1..Kp-3> are filled in.
+ *            
+ *            <esl_abc_FAvgScVec()> and <esl_abc_DAvgScVec()> do
+ *            the same, but for score vectors of floats or doubles,
+ *            respectively.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_abc_IAvgScVec(const ESL_ALPHABET *a, int *sc)
+{
+  ESL_DSQ x;
+  for (x = a->K+1; x <= a->Kp-3; x++)
+    sc[x] = esl_abc_IAvgScore(a, x, sc);
+  return eslOK;
+}
+int
+esl_abc_FAvgScVec(const ESL_ALPHABET *a, float *sc)
+{
+  ESL_DSQ x;
+  for (x = a->K+1; x <= a->Kp-3; x++)
+    sc[x] = esl_abc_FAvgScore(a, x, sc);
+  return eslOK;
+}
+int
+esl_abc_DAvgScVec(const ESL_ALPHABET *a, double *sc)
+{
+  ESL_DSQ x;
+  for (x = a->K+1; x <= a->Kp-3; x++)
+    sc[x] = esl_abc_DAvgScore(a, x, sc);
+  return eslOK;
+}
+
+/* Function:  esl_abc_IExpectScVec()
+ * Synopsis:  Fill out score vector with average expected scores.
+ *
+ * Purpose:   Given an alphabet <a>, a score vector <sc> of length
+ *            <a->Kp> that contains integer scores for the base
+ *            alphabet (<0..a->K-1>), and residue occurrence probabilities
+ *            <p[0..a->K-1]>; fill in the scores for the
+ *            degenerate residues <K+1..Kp-3> using <esl_abc_IExpectScore()>.
+ *            
+ *            The score, if any, for a gap character <K>, the
+ *            nonresidue <Kp-2>, and the missing data character <Kp-1>
+ *            are untouched by this function. Only the degenerate
+ *            scores <K+1..Kp-3> are filled in.
+ *            
+ *            <esl_abc_FExpectScVec()> and <esl_abc_DExpectScVec()> do
+ *            the same, but for score vectors of floats or doubles,
+ *            respectively. The probabilities <p> are floats for the
+ *            integer and float versions, and doubles for the double
+ *            version.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_abc_IExpectScVec(const ESL_ALPHABET *a, int *sc, const float *p)
+{
+  ESL_DSQ x;
+  for (x = a->K+1; x <= a->Kp-3; x++)
+    sc[x] = esl_abc_IExpectScore(a, x, sc, p);
+  return eslOK;
+}
+int
+esl_abc_FExpectScVec(const ESL_ALPHABET *a, float *sc, const float *p)
+{
+  ESL_DSQ x;
+  for (x = a->K+1; x <= a->Kp-3; x++)
+    sc[x] = esl_abc_FExpectScore(a, x, sc, p);
+  return eslOK;
+}
+int
+esl_abc_DExpectScVec(const ESL_ALPHABET *a, double *sc, const double *p)
+{
+  ESL_DSQ x;
+  for (x = a->K+1; x <= a->Kp-3; x++)
+    sc[x] = esl_abc_DExpectScore(a, x, sc, p);
+  return eslOK;
+}
+
+
+/* Function:  esl_abc_FCount()
+ * Synopsis:  Count a degenerate symbol into a count vector.
+ *
+ * Purpose:   Count a possibly degenerate digital symbol <x> (0..Kp-1)
+ *            into a counts array <ct> for base symbols (0..K-1).
+ *            Assign the symbol a weight of <wt> (often just 1.0).
+ *            The count weight of a degenerate symbol is divided equally
+ *            across the possible base symbols. 
+ *            
+ *            <x> can be a gap; if so, <ct> must be allocated 0..K,
+ *            not 0..K-1. If <x> is a missing data symbol, or a nonresidue
+ *            data symbol, nothing is done.
+ *            
+ *            <esl_abc_DCount()> does the same, but for double-precision
+ *            count vectors and weights.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_abc_FCount(const ESL_ALPHABET *abc, float *ct, ESL_DSQ x, float wt)
+{
+  ESL_DSQ y;
+
+  if (esl_abc_XIsCanonical(abc, x) || esl_abc_XIsGap(abc, x))
+    ct[x] += wt;
+  else if (esl_abc_XIsMissing(abc, x) || esl_abc_XIsNonresidue(abc, x))
+    return eslOK;
+  else
+    for (y = 0; y < abc->K; y++) {
+      if (abc->degen[x][y])
+	ct[y] += wt / (float) abc->ndegen[x];
+    }
+  return eslOK;
+}
+int
+esl_abc_DCount(const ESL_ALPHABET *abc, double *ct, ESL_DSQ x, double wt)
+{
+  ESL_DSQ y;
+
+  if (esl_abc_XIsCanonical(abc, x) || esl_abc_XIsGap(abc, x))
+    ct[x] += wt;
+  else if (esl_abc_XIsMissing(abc, x) || esl_abc_XIsNonresidue(abc, x))
+    return eslOK;
+  else
+    for (y = 0; y < abc->K; y++) {
+      if (abc->degen[x][y])
+	ct[y] += wt / (double) abc->ndegen[x];
+    }
+  return eslOK;
+}
+
+/* Function:  esl_abc_EncodeType()
+ * Synopsis:  Convert descriptive string to alphabet type code.
+ *
+ * Purpose:   Convert a string like "amino" or "DNA" to the
+ *            corresponding Easel internal alphabet type code
+ *            such as <eslAMINO> or <eslDNA>; return the code.
+ *
+ * Returns:   the code, such as <eslAMINO>; if <type> isn't
+ *            recognized, returns <eslUNKNOWN>.
+ */
+int
+esl_abc_EncodeType(char *type)
+{
+  if      (strcasecmp(type, "amino") == 0) return eslAMINO;
+  else if (strcasecmp(type, "rna")   == 0) return eslRNA;
+  else if (strcasecmp(type, "dna")   == 0) return eslDNA;
+  else if (strcasecmp(type, "coins") == 0) return eslCOINS;
+  else if (strcasecmp(type, "dice")  == 0) return eslDICE;
+  else if (strcasecmp(type, "custom")== 0) return eslNONSTANDARD;
+  else                                     return eslUNKNOWN;
+}
+
+/* Function:  esl_abc_DecodeType()
+ * Synopsis:  Returns descriptive string for alphabet type code.
+ *
+ * Purpose:   For diagnostics and other output: given an internal
+ *            alphabet code <type> (<eslRNA>, for example), return
+ *            pointer to an internal string ("RNA", for example). 
+ */
+char *
+esl_abc_DecodeType(int type)
+{
+  switch (type) {
+  case eslUNKNOWN:     return "unknown";
+  case eslRNA:         return "RNA";
+  case eslDNA:         return "DNA";
+  case eslAMINO:       return "amino";
+  case eslCOINS:       return "coins";
+  case eslDICE:        return "dice";
+  case eslNONSTANDARD: return "custom";
+  default:             break;
+  }
+  esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "no such alphabet type code %d\n", type);
+  return NULL;
+}
+
+
+/* Function:  esl_abc_ValidateSeq()
+ * Synopsis:  Assure that a text sequence can be digitized.
+ *
+ * Purpose:   Check that sequence <seq> of length <L> can be digitized
+ *            without error; all its symbols are valid in alphabet
+ *            <a>. If so, return <eslOK>. If not, return <eslEINVAL>.
+ *            
+ *            If <a> is <NULL>, we still validate that at least the
+ *            <seq> consists only of ASCII characters.
+ *            
+ *            <errbuf> is either passed as <NULL>, or a pointer to an
+ *            error string buffer allocated by the caller for
+ *            <eslERRBUFSIZE> characters. If <errbuf> is non-NULL, and
+ *            the sequence is invalid, an error message is placed in
+ *            <errbuf>.
+ *
+ * Args:      a      - digital alphabet (or NULL, if unavailable)
+ *            seq    - sequence to validate [0..L-1]; NUL-termination unnecessary
+ *            L      - length of <seq>
+ *            errbuf - NULL, or ptr to <eslERRBUFSIZE> chars of allocated space 
+ *                     for an error message.
+ *
+ * Returns:   <eslOK> if <seq> is valid; <eslEINVAL> if not.
+ *
+ * Throws:    (no abnormal error conditions).
+ */
+int
+esl_abc_ValidateSeq(const ESL_ALPHABET *a, const char *seq, int64_t L, char *errbuf)
+{
+  int     status;
+  int64_t i;
+  int64_t firstpos = -1;
+  int64_t nbad     = 0;
+
+  if (errbuf) *errbuf = 0;
+
+  
+  if (a)  // If we have digital alphabet <a>, it has an <inmap> we can check against 
+    {
+      for (i = 0; i < L; i++) {
+	if (! esl_abc_CIsValid(a, seq[i])) {
+	  if (firstpos == -1) firstpos = i;
+	  nbad++;
+	}
+      }
+    }
+  else  // Else, at least validate that the text string is an ASCII text string
+    {
+      for (i = 0; i < L; i++) {
+	if (! isascii(seq[i])) {
+	  if (firstpos == -1) firstpos = i;
+	  nbad++;
+	}
+      }
+    }
+
+  if      (nbad == 1) ESL_XFAIL(eslEINVAL, errbuf, "invalid char %c at pos %" PRId64,                                   seq[firstpos], firstpos+1);
+  else if (nbad >  1) ESL_XFAIL(eslEINVAL, errbuf, "%" PRId64 " invalid chars (including %c at pos %" PRId64 ")", nbad, seq[firstpos], firstpos+1);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+/*---------------- end, other API functions ---------------------*/
+
+
+
+/*****************************************************************
+ * 4. Unit tests.
+ *****************************************************************/
+#ifdef eslALPHABET_TESTDRIVE
+#include "esl_vectorops.h"
+
+static int
+utest_Create(void) 
+{
+  char msg[]  = "esl_alphabet_Create() unit test failed";
+  int  types[] = { eslDNA, eslRNA, eslAMINO, eslCOINS, eslDICE };
+  int  Karr[]  = {      4,      4,       20,        2,       6 };
+  int  Kparr[] = {     18,     18,       29,        6,      10 };
+  int  i;
+  ESL_ALPHABET *a;
+  ESL_DSQ       x;
+
+  for (i = 0; i < 3; i++)
+    {
+      if ((a = esl_alphabet_Create(types[i])) == NULL) esl_fatal(msg);
+      if (a->type != types[i])       esl_fatal(msg);
+      if (a->K    != Karr[i])        esl_fatal(msg);
+      if (a->Kp   != Kparr[i])       esl_fatal(msg);
+      if (strlen(a->sym) != a->Kp)   esl_fatal(msg);
+
+      x = esl_abc_XGetGap(a);
+      if (x            != a->K)    esl_fatal(msg);
+      if (a->ndegen[x] != 0)       esl_fatal(msg);
+
+      x = esl_abc_XGetUnknown(a);
+      if (x            != a->Kp-3) esl_fatal(msg);
+      if (a->ndegen[x] != a->K)    esl_fatal(msg);
+  
+      x = esl_abc_XGetNonresidue(a);
+      if (x            != a->Kp-2) esl_fatal(msg);
+      if (a->ndegen[x] != 0)       esl_fatal(msg);
+      
+      x = esl_abc_XGetMissing(a);
+      if (x            != a->Kp-1) esl_fatal(msg);
+      if (a->ndegen[x] != 0)       esl_fatal(msg);
+
+      esl_alphabet_Destroy(a);
+    }
+
+  /* Thrown errors
+   */
+#ifdef eslTEST_THROWING
+  if (esl_alphabet_Create(-1)             != NULL) esl_fatal(msg);
+  if (esl_alphabet_Create(eslUNKNOWN)     != NULL) esl_fatal(msg);
+  if (esl_alphabet_Create(eslNONSTANDARD) != NULL) esl_fatal(msg);
+#endif
+  
+  return eslOK;
+}
+
+static int
+utest_CreateCustom(void) 
+{
+  char msg[]  = "esl_alphabet_CreateCustom() unit test failed";
+  ESL_ALPHABET *a;
+  char         *testseq = "AaU-~Z";
+  ESL_DSQ      expect[] = { eslDSQ_SENTINEL, 0, 0, 15, 20, 26, 23, eslDSQ_SENTINEL };
+  ESL_DSQ      *dsq;
+  
+  if ((a = esl_alphabet_CreateCustom("ACDEFGHIKLMNPQRSTVWY-BJZX*~", 20, 27)) == NULL) esl_fatal(msg);
+  if (esl_alphabet_SetEquiv(a, 'O', 'K')       != eslOK) esl_fatal(msg);  /* read pyrrolysine O as lysine K */
+  if (esl_alphabet_SetEquiv(a, 'U', 'S')       != eslOK) esl_fatal(msg);  /* read selenocys U as serine S */
+  if (esl_alphabet_SetCaseInsensitive(a)       != eslOK) esl_fatal(msg);  /* allow lower case input */
+  if (esl_alphabet_SetDegeneracy(a, 'Z', "QE") != eslOK) esl_fatal(msg);
+  
+  if (esl_abc_CreateDsq(a, testseq, &dsq) != eslOK)   esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (strlen(testseq)+2)) != 0) esl_fatal(msg);
+
+  free(dsq);
+  esl_alphabet_Destroy(a);
+
+#ifdef eslTEST_THROWING
+  if (esl_alphabet_CreateCustom("ACGT-RYMKSWHBVDN*~", 4, 21) != NULL) esl_fatal(msg); /* Kp mismatches string length */
+#endif
+
+  return eslOK;
+}
+
+static int
+utest_SetEquiv(void) 
+{
+  char msg[]  = "esl_alphabet_SetEquiv() unit test failed";
+  ESL_ALPHABET *a;
+  char         *testseq = "a1&";
+  ESL_DSQ       expect[] = { eslDSQ_SENTINEL, 0, 4, 7, eslDSQ_SENTINEL };
+  ESL_DSQ      *dsq;
+
+  if ((a = esl_alphabet_CreateCustom("ACGT-N*~", 4, 8)) == NULL) esl_fatal(msg);
+  if (esl_alphabet_SetEquiv(a, 'a', 'A') != eslOK)               esl_fatal(msg);
+  if (esl_alphabet_SetEquiv(a, '1', '-') != eslOK)               esl_fatal(msg);
+  if (esl_alphabet_SetEquiv(a, '&', '~') != eslOK)               esl_fatal(msg);
+  
+#ifdef eslTEST_THROWING
+  if (esl_alphabet_SetEquiv(a, 'G', 'C') != eslEINVAL)           esl_fatal(msg); /* sym is already in internal alphabet */
+  if (esl_alphabet_SetEquiv(a, '2', 'V') != eslEINVAL)           esl_fatal(msg); /* c is not in internal alphabet */
+#endif
+
+  if (esl_abc_CreateDsq(a, testseq, &dsq) != eslOK)                    esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (strlen(testseq)+2)) != 0) esl_fatal(msg);
+  free(dsq);
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+static int
+utest_SetCaseInsensitive(void)
+{
+  char msg[]  = "esl_alphabet_SetCaseInsensitive() unit test failed";
+  ESL_ALPHABET *a;
+  char         *testseq = "ACGT";
+  ESL_DSQ       expect[] = { eslDSQ_SENTINEL, 0, 1, 2, 3, eslDSQ_SENTINEL };
+  ESL_DSQ      *dsq;
+
+  if ((a = esl_alphabet_CreateCustom("acgt-n*~", 4, 8)) == NULL)       esl_fatal(msg);
+  if (esl_alphabet_SetCaseInsensitive(a)  != eslOK)                    esl_fatal(msg);
+  if (esl_abc_CreateDsq(a, testseq, &dsq) != eslOK)                    esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (strlen(testseq)+2)) != 0) esl_fatal(msg);
+  free(dsq);
+  esl_alphabet_Destroy(a);
+
+#ifdef TEST_THROWING
+  if ((a = esl_alphabet_CreateCustom("acgt-n*~", 4, 8)) == NULL)       esl_fatal(msg);
+  if (esl_alphabet_SetEquiv(a, 'A', 'c')               != eslOK)       esl_fatal(msg); /* now input A maps to internal c */
+  if (esl_alphabet_SetCaseInsensitive(a)               != eslECORRUPT) esl_fatal(msg); /* and this fails, can't remap A  */
+  esl_alphabet_Destroy(a);
+#endif
+
+  return eslOK;
+}
+
+static int
+utest_SetDegeneracy(void) 
+{
+  char msg[]  = "esl_alphabet_SetDegeneracy() unit test failed";
+  ESL_ALPHABET *a;
+  char         *testseq = "yrn";
+  ESL_DSQ       expect[] = { eslDSQ_SENTINEL, 6, 5, 7, eslDSQ_SENTINEL };
+  ESL_DSQ      *dsq;
+  ESL_DSQ       x;
+
+  if ((a = esl_alphabet_CreateCustom("ACGT-RYN*~", 4, 10)) == NULL) esl_fatal(msg);
+  if (esl_alphabet_SetDegeneracy(a, 'R', "AG") != eslOK)            esl_fatal(msg);
+  if (esl_alphabet_SetDegeneracy(a, 'Y', "CT") != eslOK)            esl_fatal(msg);
+  if (esl_alphabet_SetCaseInsensitive(a)       != eslOK)            esl_fatal(msg);
+
+  if (esl_abc_CreateDsq(a, testseq, &dsq) != eslOK)                    esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (strlen(testseq)+2)) != 0) esl_fatal(msg);
+
+  x = esl_abc_DigitizeSymbol(a, 'a');  if (a->ndegen[x] != 1) esl_fatal(msg);
+  x = esl_abc_DigitizeSymbol(a, 'r');  if (a->ndegen[x] != 2) esl_fatal(msg);
+  x = esl_abc_DigitizeSymbol(a, 'y');  if (a->ndegen[x] != 2) esl_fatal(msg);
+  x = esl_abc_DigitizeSymbol(a, 'n');  if (a->ndegen[x] != 4) esl_fatal(msg);
+
+  free(dsq);
+  esl_alphabet_Destroy(a);
+  
+#ifdef TEST_THROWING
+  if ((a = esl_alphabet_CreateCustom("ACGT-RYN*~", 4, 10)) == NULL) esl_fatal(msg);
+  if (esl_abc_SetDegeneracy(a, 'z', "AC")    != eslEINVAL)          esl_fatal(msg); /* can't map char not in alphabet */
+  if (esl_abc_SetDegeneracy(a, 'N', "ACGT")  != eslEINVAL)          esl_fatal(msg); /* can't remap N */
+  if (esl_abc_SetDegeneracy(a, 'A', "GT")    != eslEINVAL)          esl_fatal(msg); /* can't map a nondegen character */
+  if (esl_abc_SetDegeneracy(a, '-', "GT")    != eslEINVAL)          esl_fatal(msg); /*   ... or a gap... */
+  if (esl_abc_SetDegeneracy(a, '*', "GT")    != eslEINVAL)          esl_fatal(msg); /*   ... or nonresidues... */
+  if (esl_abc_SetDegeneracy(a, '~', "GT")    != eslEINVAL)          esl_fatal(msg); /*   ... or missing data. */
+  if (esl_abc_SetDegeneracy(a, 'R', "XY")    != eslEINVAL)          esl_fatal(msg); /* can't map to unknown chars... */
+  if (esl_abc_SetDegeneracy(a, 'R', "YN")    != eslEINVAL)          esl_fatal(msg); /*   ... nor to noncanonical chars... */
+  esl_alphabet_Destroy(a);
+#endif
+  return eslOK;
+}
+
+static int
+utest_SetIgnored(void)
+{
+  char msg[]  = "esl_alphabet_SetIgnored() unit test failed";
+  ESL_ALPHABET *a;
+  char         *testseq = "y \trn";
+  ESL_DSQ       expect[] = { eslDSQ_SENTINEL, 6, 5, 15, eslDSQ_SENTINEL };
+  int           L = 5;
+  ESL_DSQ      *dsq;
+
+  if ((a = esl_alphabet_Create(eslRNA)) == NULL)  esl_fatal(msg);
+  if (esl_alphabet_SetIgnored(a, " \t") != eslOK) esl_fatal(msg);
+
+  if (esl_abc_CreateDsq(a, testseq, &dsq) != eslOK)  esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * L) != 0) esl_fatal(msg);
+  free(dsq);
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+
+static int
+utest_Destroy(void) 
+{
+  char msg[]  = "esl_alphabet_Destroy() unit test failed";
+  ESL_ALPHABET *a;
+
+  if ((a = esl_alphabet_CreateCustom("ACGT-RYN*~", 4, 10)) == NULL) esl_fatal(msg);
+  esl_alphabet_Destroy(a);
+  esl_alphabet_Destroy(NULL);	/* should be robust against NULL pointers */
+  return eslOK;
+}
+
+static int
+utest_CreateDsq(void) 
+{
+  char msg[]  = "esl_abc_CreateDsq() unit test failed";
+  ESL_ALPHABET *a;
+  char          goodseq[] = "ACDEF";
+  char          badseq[]  = "1@%34";
+  ESL_DSQ      *dsq;
+  ESL_DSQ       x;
+
+  if ((a = esl_alphabet_Create(eslAMINO)) == NULL) esl_fatal(msg);
+
+  if (esl_abc_CreateDsq(a, goodseq, &dsq) != eslOK) esl_fatal(msg);
+  if (dsq[1] != 0 || dsq[2] != 1) esl_fatal(msg); /* spot check */
+  free(dsq);
+  
+  if (esl_abc_CreateDsq(a, badseq, &dsq) != eslEINVAL) esl_fatal(msg);
+  x = esl_abc_XGetUnknown(a);
+  if (dsq[1] != x || dsq[2] != x) esl_fatal(msg); /* bad chars all X's now, upon failure */
+  free(dsq);
+
+  if (esl_abc_CreateDsq(a, goodseq, NULL) != eslOK) esl_fatal(msg);
+  
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+static int
+utest_Digitize(void) 
+{
+  char msg[]  = "esl_abc_Digitize() unit test failed";
+  ESL_ALPHABET *a;
+  char          goodseq[] = "ACDEF";
+  char          badseq[]  = "1@%34";
+  ESL_DSQ      *dsq;
+  ESL_DSQ       x;  
+  int           status;
+
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (strlen(goodseq)+2));
+
+  if ((a = esl_alphabet_Create(eslAMINO)) == NULL) esl_fatal(msg);
+  esl_abc_Digitize(a, goodseq, dsq);
+  if (dsq[1] != 0 || dsq[2] != 1) esl_fatal(msg); /* spot check */
+
+  esl_abc_Digitize(a, badseq, dsq);
+  x = esl_abc_XGetUnknown(a);
+  if (dsq[1] != x || dsq[2] != x) esl_fatal(msg); /* bad chars all X's now, upon failure */
+
+  free(dsq);
+  esl_alphabet_Destroy(a);
+  return eslOK;
+  
+ ERROR:
+  esl_fatal(msg);
+  return status;
+}
+
+static int
+utest_Textize(void) 
+{
+  char msg[]  = "esl_abc_Textize() unit test failed";
+  ESL_ALPHABET *a;
+  char          goodseq[] = "acdef";
+  char         *newseq;
+  ESL_DSQ      *dsq;
+  int           L;
+  int           status;
+
+  L = strlen(goodseq);
+  ESL_ALLOC(newseq, sizeof(char) * (L+1));
+  if ((a = esl_alphabet_Create(eslAMINO))    == NULL) esl_fatal(msg);
+  if (esl_abc_CreateDsq(a, goodseq, &dsq)   != eslOK) esl_fatal(msg);
+  if (esl_abc_Textize(a, dsq, L, newseq )   != eslOK) esl_fatal(msg);
+  if (strcmp(newseq, "ACDEF")               != 0)     esl_fatal(msg);
+  free(dsq);
+  free(newseq);
+  esl_alphabet_Destroy(a);
+  return eslOK;
+
+ ERROR:
+  esl_fatal(msg);
+  return status;
+}
+
+static int
+utest_TextizeN(void) 
+{
+  char msg[]  = "esl_abc_TextizeN() unit test failed";
+  ESL_ALPHABET *a;
+  char          goodseq[] = "acdefrynacdef";
+  ESL_DSQ      *dsq;
+  ESL_DSQ      *dptr;
+  int           L;
+  int           W;
+
+  L = strlen(goodseq);
+  if ((a = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal(msg);
+  if (esl_abc_CreateDsq(a, goodseq, &dsq) != eslOK) esl_fatal(msg);
+
+  dptr = dsq+6; 		/* points to "r", residue 6         */
+  W    = 5;			/* copy/convert 5 residues "rynac"  */
+  if (esl_abc_TextizeN(a, dptr, W, goodseq)  != eslOK) esl_fatal(msg);
+  if (strcmp(goodseq, "RYNACrynacdef")       != 0)     esl_fatal(msg);
+
+  /* test a case where we hit eslDSQ_SENTINEL, and nul-terminate */
+  dptr = dsq+10; 		/* points to "c", residue 10        */
+  W    = 20;			/* copy/convert remaining residues "cdef"  */
+  if (esl_abc_TextizeN(a, dptr, W, goodseq)  != eslOK) esl_fatal(msg);
+  if (strcmp(goodseq, "CDEF")                != 0)     esl_fatal(msg);
+  
+  free(dsq);
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+static int
+utest_dsqdup(void) 
+{
+  char msg[]  = "esl_abc_dsqdup() unit test failed";
+  ESL_ALPHABET *a;
+  char          goodseq[] = "ACGt";
+  ESL_DSQ       expect[] = { eslDSQ_SENTINEL, 0, 1, 2, 3, eslDSQ_SENTINEL };
+  ESL_DSQ      *d1, *d2;
+  int           L;
+
+  L = strlen(goodseq);
+  if ((a = esl_alphabet_Create(eslRNA))           == NULL)  esl_fatal(msg);
+  if (esl_abc_CreateDsq(a, goodseq, &d1)          != eslOK) esl_fatal(msg);
+
+  if (esl_abc_dsqdup(d1, -1, &d2)                 != eslOK) esl_fatal(msg);
+  if (memcmp(d2, expect, sizeof(ESL_DSQ) * (L+2)) != 0)     esl_fatal(msg);
+  free(d2);
+
+  if (esl_abc_dsqdup(d1, L, &d2)                  != eslOK) esl_fatal(msg);
+  if (memcmp(d2, expect, sizeof(ESL_DSQ) * (L+2)) != 0)     esl_fatal(msg);
+  free(d2);
+  
+  free(d1);
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+static int
+utest_dsqcat(void) 
+{
+  char msg[]  = "esl_abc_dsqcat() unit test failed";
+  ESL_ALPHABET *a;
+  char          goodseq[] = "ACGt";
+  char          addseq[]  = "RYM KN";
+  char          badseq[]  = "RYM K&";
+  ESL_DSQ       expect[] = { eslDSQ_SENTINEL, 0, 1, 2, 3, 5, 6, 7, 8, 15, eslDSQ_SENTINEL };
+  ESL_DSQ      *dsq;
+  int64_t       L1;
+  esl_pos_t     L2;
+
+
+  if ((a = esl_alphabet_Create(eslRNA))             == NULL)  esl_fatal(msg);
+  a->inmap[0]   = esl_abc_XGetUnknown(a);
+  a->inmap[' '] = eslDSQ_IGNORED;
+
+  L1 = strlen(goodseq);
+  L2 = strlen(addseq);
+  if (esl_abc_CreateDsq(a, goodseq, &dsq)              != eslOK) esl_fatal(msg);
+  if (esl_abc_dsqcat(a->inmap, &dsq, &L1, addseq, L2)  != eslOK) esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (L1+2))    != 0)     esl_fatal(msg);
+  free(dsq);
+
+  L1 = -1;
+  L2 = -1;
+  if (esl_abc_CreateDsq(a, goodseq, &dsq)              != eslOK) esl_fatal(msg);
+  if (esl_abc_dsqcat(a->inmap, &dsq, &L1, addseq, L2)  != eslOK) esl_fatal(msg);
+  if (L1 != esl_abc_dsqlen(dsq))                                 esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (L1+2))    != 0)     esl_fatal(msg);
+  free(dsq);
+
+  L1  = 0;
+  dsq = NULL;
+  if (esl_abc_dsqcat(a->inmap, &dsq, &L1, goodseq, -1)    != eslOK) esl_fatal(msg);
+  if (esl_abc_dsqcat(a->inmap, &dsq, &L1, addseq,  -1)    != eslOK) esl_fatal(msg);
+  if (L1 != esl_abc_dsqlen(dsq))                                    esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (L1+2))       != 0)    esl_fatal(msg);
+  free(dsq);
+
+  L1 = -1;
+  L2 = strlen(badseq);
+  if (esl_abc_CreateDsq(a, goodseq, &dsq)                != eslOK)     esl_fatal(msg);
+  if (esl_abc_dsqcat(a->inmap, &dsq, &L1, badseq,  L2)   != eslEINVAL) esl_fatal(msg);
+  if (L1 != esl_abc_dsqlen(dsq))                                       esl_fatal(msg);
+  if (memcmp(dsq, expect, sizeof(ESL_DSQ) * (L1+2))      != 0)         esl_fatal(msg);
+  free(dsq);
+  
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+/* dsqlen    unit test goes here */
+/* dsqrlen   unit test goes here */
+/* utest_Match goes here */
+  
+/* This serves to unit test multiple functions:
+ *    esl_abc_IAvgScore()
+ *    esl_abc_IExpectScore()
+ */
+static int
+degeneracy_integer_scores(void)
+{
+  char *msg = "degeneracy_integer_scores unit test failed";
+  ESL_ALPHABET *a;
+  ESL_DSQ       x;
+  float         p[]  = {0.4, 0.1, 0.1, 0.4}; /* A/T biased background */
+  int           sc[] = { -1,  -6,   6,   1};
+  int           val;
+
+  a     = esl_alphabet_Create(eslDNA);  
+
+  x     = esl_abc_DigitizeSymbol(a, 'N'); /* any: A/C/G/T */
+  val   = esl_abc_IAvgScore(a, x, sc); 
+  /* average of -1,-6,6,1 = 0 */
+  if (val != 0) esl_fatal(msg);
+
+  x     = esl_abc_DigitizeSymbol(a, 'M');     /* M = A/C */
+  val   = esl_abc_IExpectScore(a, x, sc, p);  
+  /* expectation of -1,-6 given p = 0.4,0.1 = -2 */
+  if (val != -2) esl_fatal(msg);
+
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+/* This serves to unit test multiple functions:
+ *    esl_abc_FAvgScore()
+ *    esl_abc_FExpectScore()
+ */
+static int
+degeneracy_float_scores(void)
+{
+  char *msg = "degeneracy_float_scores unit test failed";
+  ESL_ALPHABET *a;
+  ESL_DSQ       x;
+  float         p[]  = {0.4, 0.1, 0.1, 0.4}; /* A/T biased background */
+  float         sc[] = { -1., -6.,  6., 1.};
+  float         val;
+
+  a     = esl_alphabet_Create(eslRNA);  
+
+  x     = esl_abc_DigitizeSymbol(a, 'N'); /* any: A/C/G/T */
+  val   = esl_abc_FAvgScore(a, x, sc); 
+  /* average of -1,-6,6,1 = 0 */
+  if (fabs(val - 0.) > 0.0001) esl_fatal(msg);
+
+  x     = esl_abc_DigitizeSymbol(a, 'M');     /* M = A/C */
+  val   = esl_abc_FExpectScore(a, x, sc, p);  
+  /* expectation of -1,-6 given p = 0.4,0.1 = -2 */
+  if (fabs(val + 2.) > 0.0001) esl_fatal(msg);
+
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+/* This serves to unit test multiple functions:
+ *    esl_abc_DAvgScore()
+ *    esl_abc_DExpectScore()
+ */
+
+static int
+degeneracy_double_scores(void)
+{
+  char *msg = "degeneracy_double_scores unit test failed";
+  ESL_ALPHABET *a;
+  ESL_DSQ       x;
+  double        p[]  = {0.4, 0.1, 0.1, 0.4}; /* A/T biased background */
+  double        sc[] = { -1., -6.,  6., 1.};
+  double        val;
+
+  a     = esl_alphabet_Create(eslRNA);  
+
+  x     = esl_abc_DigitizeSymbol(a, 'N'); /* any: A/C/G/T */
+  val   = esl_abc_DAvgScore(a, x, sc); 
+  /* average of -1,-6,6,1 = 0 */
+  if (fabs(val - 0.) > 0.0001) esl_fatal(msg);
+
+  x     = esl_abc_DigitizeSymbol(a, 'M');     /* M = A/C */
+  val   = esl_abc_DExpectScore(a, x, sc, p); 
+  /* expectation of -1,-6 given p = 0.4,0.1 = -2 */
+  if (fabs(val + 2.) > 0.0001) esl_fatal(msg);
+
+  esl_alphabet_Destroy(a);
+  return eslOK;
+}
+
+/* utest_IAvgScVec */
+/* utest_FAvgScVec */
+/* utest_DAvgScVec */
+/* utest_IExpectScVec */
+/* utest_FExpectScVec */
+/* utest_DExpectScVec */
+
+static int
+utest_FCount(void)
+{
+  char         *msg = "FCount unit test failure";
+  ESL_ALPHABET *a = NULL;
+  ESL_DSQ       x;
+  char         *teststring = "X~-Z.UAX";
+  char         *s;
+  int           status;
+
+  /* 0.1 from 2 X's; U -> +1 C; A -> +1 A;  Z-> +0.5 Q,E; ~ ignored; .,- -> +2 gaps */
+  /*                          A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    - */
+  float       expect[21] = { 1.1, 1.1, 0.1, 0.6, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.6, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 2.0 };
+  float      *vec;
+
+  a = esl_alphabet_Create(eslAMINO);
+  ESL_ALLOC(vec, sizeof(float) * (a->K+1)); /* include gap char for this test */
+  esl_vec_FSet(vec, a->K+1, 0.);
+  for (s = teststring; *s != '\0'; s++)
+    {
+      x = esl_abc_DigitizeSymbol(a, *s);
+      if (esl_abc_FCount(a, vec, x, 1.0) != eslOK) esl_fatal(msg);
+    }
+  if (esl_vec_FCompare(vec, expect, a->K+1, 0.0001) != eslOK) esl_fatal(msg);
+  
+  esl_alphabet_Destroy(a);
+  free(vec);
+  return eslOK;
+      
+ ERROR:
+  esl_fatal("allocation failed");
+  return status;
+}
+
+static int
+utest_DCount(void)
+{
+  char         *msg = "DCount unit test failure";
+  ESL_ALPHABET *a = NULL;
+  ESL_DSQ       x;
+  char         *teststring = "X~-Z.UAX";
+  char         *s;
+  int           status;
+
+  /* 0.1 from 2 X's; U -> +1 C; A -> +1 A;  Z-> +0.5 Q,E; ~ ignored; .,- -> +2 gaps */
+  /*                          A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    - */
+  double      expect[21] = { 1.1, 1.1, 0.1, 0.6, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 0.6, 0.1, 0.1, 0.1, 0.1, 0.1, 0.1, 2.0 };
+  double      *vec;
+
+  a = esl_alphabet_Create(eslAMINO);
+  ESL_ALLOC(vec, sizeof(double) * (a->K+1)); /* include gap char for this test */
+  esl_vec_DSet(vec, a->K+1, 0.);
+  for (s = teststring; *s != '\0'; s++)
+    {
+      x = esl_abc_DigitizeSymbol(a, *s);
+      if (esl_abc_DCount(a, vec, x, 1.0) != eslOK) esl_fatal(msg);
+    }
+  if (esl_vec_DCompare(vec, expect, a->K+1, 0.0001) != eslOK) esl_fatal(msg);
+  
+  esl_alphabet_Destroy(a);
+  free(vec);
+  return eslOK;
+      
+ ERROR:
+  esl_fatal("allocation failed");
+  return status;
+}
+#endif /* eslALPHABET_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Test driver.
+ *****************************************************************/
+
+/* gcc -g -Wall -std=gnu99 -I.     -o esl_alphabet_utest -DeslALPHABET_TESTDRIVE esl_alphabet.c esl_vectorops.c easel.c -lm
+ * gcc -g -Wall -std=gnu99 -I. -L. -o esl_alphabet_utest -DeslALPHABET_TESTDRIVE esl_alphabet.c -leasel
+ * ./test
+ * valgrind ./test
+ */
+#ifdef eslALPHABET_TESTDRIVE
+static int basic_examples(void);
+
+#include "easel.h"
+#include "esl_alphabet.h"
+
+int
+main(void)
+{
+  utest_Create();
+  utest_CreateCustom();
+  utest_SetEquiv();
+  utest_SetCaseInsensitive();
+  utest_SetDegeneracy();
+  utest_SetIgnored();
+  utest_Destroy();
+
+  utest_CreateDsq();
+  utest_Digitize();
+  utest_Textize();
+  utest_TextizeN();
+  utest_dsqdup();
+  utest_dsqcat();
+
+  utest_FCount();
+  utest_DCount();
+
+  basic_examples();
+  degeneracy_integer_scores();
+  degeneracy_float_scores();
+  degeneracy_double_scores();
+
+  return eslOK;
+}
+
+static int
+basic_examples(void)
+{
+  char *msg = "basic alphabet example tests failed";
+  ESL_ALPHABET  *a1, *a2;
+  char           dnaseq[] = "GARYtcN";
+  char           aaseq[]  = "EFILqzU";
+  int            L;
+  ESL_DSQ       *dsq, *dsq2;
+  int            i;
+
+  /* Example 1. 
+   * Create a DNA alphabet; digitize a DNA sequence.
+   */
+  if ((a1 = esl_alphabet_Create(eslDNA)) == NULL)      esl_fatal(msg);
+  L  = strlen(dnaseq);
+  if ((dsq = malloc(sizeof(ESL_DSQ) * (L+2))) == NULL) esl_fatal(msg);
+  if (esl_abc_Digitize(a1, dnaseq, dsq) != eslOK)      esl_fatal(msg);
+  if (esl_abc_dsqlen(dsq) != L)                        esl_fatal(msg);
+  esl_alphabet_Destroy(a1);
+
+  /* Example 2. 
+   * Create an RNA alphabet; digitize the same DNA sequence;
+   * make sure it is equal to the dsq above (so T=U were
+   * correctly synonymous on input).
+   */
+  if ((a2 = esl_alphabet_Create(eslRNA)) == NULL)       esl_fatal(msg);
+  if ((dsq2 = malloc(sizeof(ESL_DSQ) * (L+2))) == NULL) esl_fatal(msg);
+  if (esl_abc_Digitize(a2, dnaseq, dsq2) != eslOK)      esl_fatal(msg);
+  for (i = 1; i <= L; i++)
+    if (dsq[i] != dsq2[i]) esl_fatal(msg);
+  esl_alphabet_Destroy(a2);
+
+  /* Example 3.
+   * Create an amino alphabet; digitize a protein sequence, 
+   * while reusing memory already allocated in dsq.
+   */
+  if ((a1 = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal(msg);
+  if (esl_abc_Digitize(a1, aaseq, dsq) != eslOK)     esl_fatal(msg);
+  
+  /* Example 4.
+   * Create a custom alphabet almost the same as the amino
+   * acid alphabet; digitize the same protein seq, reusing
+   * memory in dsq2; check that seqs are identical.
+   */
+  if ((a2 = esl_alphabet_CreateCustom("ACDEFGHIKLMNPQRSTVWY-BJZOUX~", 20, 28)) == NULL) esl_fatal(msg);
+  if (esl_alphabet_SetCaseInsensitive(a2)   != eslOK)     esl_fatal(msg);  /* allow lower case input */
+  if (esl_alphabet_SetDegeneracy(a2, 'Z', "QE") != eslOK) esl_fatal(msg);
+
+  if (esl_abc_Digitize(a2, aaseq, dsq2) != eslOK)      esl_fatal(msg);
+  for (i = 1; i <= L; i++)
+    if (dsq[i] != dsq2[i]) esl_fatal(msg);
+
+  /* clean up.
+   */
+  esl_alphabet_Destroy(a1);
+  esl_alphabet_Destroy(a2);
+  free(dsq);
+  free(dsq2);
+  return eslOK;
+}
+
+
+#endif /*eslALPHABET_TESTDRIVE*/
+
+/*****************************************************************
+ * 6. Examples.
+ *****************************************************************/ 
+
+/*   gcc -g -Wall -o example -I. -DeslALPHABET_EXAMPLE esl_alphabet.c easel.c
+ */
+#ifdef eslALPHABET_EXAMPLE
+/*::cexcerpt::alphabet_example::begin::*/
+#include "easel.h"
+#include "esl_alphabet.h"
+int main(void)
+{
+  ESL_ALPHABET *a;
+  char          dnaseq[] = "GARYTC";
+  int           L        = 6;
+  ESL_DSQ      *dsq;
+  
+  a = esl_alphabet_Create(eslDNA);
+
+  if ((dsq = malloc(sizeof(ESL_DSQ) * (L+2))) == NULL)  esl_fatal("malloc failed");
+  if (esl_abc_Digitize(a, dnaseq, dsq)       != eslOK)  esl_fatal("failed to digitize the sequence");
+
+  free(dsq);
+  esl_alphabet_Destroy(a);
+  return 0;
+}
+/*::cexcerpt::alphabet_example::end::*/
+#endif /*eslALPHABET_EXAMPLE*/
+
+
+/*   gcc -g -Wall -o example -I. -DeslALPHABET_EXAMPLE2 esl_alphabet.c easel.c
+ */
+#ifdef eslALPHABET_EXAMPLE2
+/*::cexcerpt::alphabet_example2::begin::*/
+#include "easel.h"
+#include "esl_alphabet.h"
+int main(void)
+{ 
+  ESL_ALPHABET *a;
+
+  /* 1. Create the base alphabet structure. */
+  a = esl_alphabet_CreateCustom("ACDEFGHIKLMNOPQRSTUVWY-BJZX~", 22, 28);
+
+  /* 2. Set your equivalences in the input map.  */
+  esl_alphabet_SetEquiv(a, '.', '-');     /* allow . as a gap character too */
+
+  /* 3. After all synonyms are set, (optionally) make map case-insensitive. */
+  esl_alphabet_SetCaseInsensitive(a);       /* allow lower case input too */
+
+  /* 4. Define your optional degeneracy codes in the alphabet, one at a time.
+   *    The 'any' character X was automatically set up.  */
+  esl_alphabet_SetDegeneracy(a, 'B', "DN"); /* read B as {D|N} */
+  esl_alphabet_SetDegeneracy(a, 'J', "IL"); /* read B as {I|L} */
+  esl_alphabet_SetDegeneracy(a, 'Z', "QE"); /* read Z as {Q|E} */
+
+  /* 5. (do your stuff) */
+
+  /* 6. Remember to free it when you're done with it. */
+  esl_alphabet_Destroy(a);
+  return 0;
+}
+/*::cexcerpt::alphabet_example2::end::*/
+#endif /*eslALPHABET_EXAMPLE2*/
+
+
+
+#ifdef eslALPHABET_EXAMPLE3
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+int 
+main(int argc, char **argv)
+{
+  ESL_SQ     *sq      = esl_sq_Create();
+  ESL_SQFILE *sqfp;
+  int         format  = eslSQFILE_UNKNOWN;
+  char       *seqfile = argv[1];
+  int         type;
+  int         status;
+
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file.");
+  else if (status == eslEFORMAT)   esl_fatal("Format unrecognized.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+  {
+    esl_sq_GuessAlphabet(sq, &type);
+    printf("%-25s %s\n", sq->name, esl_abc_DecodeType(type));
+    esl_sq_Reuse(sq);
+  }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s - %s\n", sqfp->filename, sqfp->get_error(sqfp));     
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+  
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  return 0;
+}
+#endif /*eslALPHABET_EXAMPLE3*/
+
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_alphabet.c 940 2015-01-22 19:34:21Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_alphabet.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.h
new file mode 100755
index 0000000..e5f2fae
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.h
@@ -0,0 +1,130 @@
+/* Digital representation of biosequence symbols in Easel.
+ */
+#ifndef eslALPHABET_INCLUDED
+#define eslALPHABET_INCLUDED
+
+#include <ctype.h>		/* isascii() */
+#include "easel.h"
+
+/* Flags for alphabet types.
+ */
+#define eslUNKNOWN     0        /* 0=unknown is easel-wide convention; don't change */
+#define eslRNA         1
+#define eslDNA         2		
+#define eslAMINO       3		
+#define eslCOINS       4	/* for toy examples      */
+#define eslDICE        5	/* also for toy examples */
+#define eslNONSTANDARD 6
+
+/* Structure: ESL_ALPHABET
+ */
+typedef struct {
+  int      type;	     /* eslDNA, eslRNA, eslAMINO, eslNONSTANDARD, etc.                 */
+  int      K;		     /* uniq alphabet size: 4 or 20                                    */
+  int      Kp;		     /* total size: alphabet + degen + gap + missing                   */
+  char    *sym;              /* "ACGT-RYMKSWHBVDN~", for instance    [0..Kp-1]                 */
+  ESL_DSQ  inmap[128];       /* inmap['A'] = 0, etc: dsq[] index for a symbol                  */
+  char   **degen;            /* 1/0, which syms inc which res [0..Kp-1][0..K-1]                */
+  int     *ndegen;	     /* # of degenerate residues per code  [0..Kp-1]                   */
+  ESL_DSQ *complement;       /* maps sym to complements, [0..Kp-1]; NULL if <type> not DNA/RNA */
+} ESL_ALPHABET;
+
+
+
+
+/* 1. An ESL_ALPHABET object.
+ */
+extern ESL_ALPHABET *esl_alphabet_Create(int type);
+extern ESL_ALPHABET *esl_alphabet_CreateCustom(const char *alphabet, int K, int Kp);
+extern int           esl_alphabet_SetEquiv(ESL_ALPHABET *a, char sym, char c);
+extern int           esl_alphabet_SetCaseInsensitive(ESL_ALPHABET *a);
+extern int           esl_alphabet_SetDegeneracy(ESL_ALPHABET *a, char c, char *ds);
+extern int           esl_alphabet_SetIgnored(ESL_ALPHABET *a, const char *ignoredchars);
+extern size_t        esl_alphabet_Sizeof(ESL_ALPHABET *a);
+extern void          esl_alphabet_Destroy(ESL_ALPHABET *a);
+
+/* 2. Digitized sequences.
+ */
+extern int     esl_abc_CreateDsq(const ESL_ALPHABET *a, const char    *seq,        ESL_DSQ **ret_dsq);
+extern int     esl_abc_Digitize (const ESL_ALPHABET *a, const char    *seq,        ESL_DSQ *dsq);
+extern int     esl_abc_Textize  (const ESL_ALPHABET *a, const ESL_DSQ *dsq,  int64_t L, char   *seq);
+extern int     esl_abc_TextizeN (const ESL_ALPHABET *a, const ESL_DSQ *dptr, int64_t L, char   *buf);
+extern int     esl_abc_dsqcpy(const ESL_DSQ *dsq, int64_t L, ESL_DSQ *dcopy);
+extern int     esl_abc_dsqdup(const ESL_DSQ *dsq, int64_t L, ESL_DSQ **ret_dup);
+extern int     esl_abc_dsqcat        (const ESL_DSQ *inmap, ESL_DSQ **dsq, int64_t *L, const char *s, esl_pos_t n);
+extern int     esl_abc_dsqcat_noalloc(const ESL_DSQ *inmap, ESL_DSQ  *dsq, int64_t *L, const char *s, esl_pos_t n);
+extern int64_t esl_abc_dsqlen(const ESL_DSQ *dsq);
+extern int64_t esl_abc_dsqrlen(const ESL_ALPHABET *a, const ESL_DSQ *dsq);
+extern int     esl_abc_CDealign(const ESL_ALPHABET *abc, char    *s, const ESL_DSQ *ref_ax, int64_t *opt_rlen);
+extern int     esl_abc_XDealign(const ESL_ALPHABET *abc, ESL_DSQ *x, const ESL_DSQ *ref_ax, int64_t *opt_rlen);
+extern int     esl_abc_ConvertDegen2X(const ESL_ALPHABET *abc, ESL_DSQ *dsq);
+
+/* 3. Other routines in the API.
+ */
+extern int    esl_abc_GuessAlphabet(const int64_t *ct, int *ret_type);
+extern double esl_abc_Match       (const ESL_ALPHABET *a, ESL_DSQ x, ESL_DSQ y, double *p);
+extern int    esl_abc_IAvgScore   (const ESL_ALPHABET *a, ESL_DSQ x, const int    *sc);
+extern float  esl_abc_FAvgScore   (const ESL_ALPHABET *a, ESL_DSQ x, const float  *sc);
+extern double esl_abc_DAvgScore   (const ESL_ALPHABET *a, ESL_DSQ x, const double *sc);
+extern int    esl_abc_IExpectScore(const ESL_ALPHABET *a, ESL_DSQ x, const int    *sc, const float  *p);
+extern float  esl_abc_FExpectScore(const ESL_ALPHABET *a, ESL_DSQ x, const float  *sc, const float  *p);
+extern double esl_abc_DExpectScore(const ESL_ALPHABET *a, ESL_DSQ x, const double *sc, const double *p);
+
+extern int    esl_abc_IAvgScVec   (const ESL_ALPHABET *a, int    *sc);
+extern int    esl_abc_FAvgScVec   (const ESL_ALPHABET *a, float  *sc);
+extern int    esl_abc_DAvgScVec   (const ESL_ALPHABET *a, double *sc);
+extern int    esl_abc_IExpectScVec(const ESL_ALPHABET *a, int    *sc, const float  *p);
+extern int    esl_abc_FExpectScVec(const ESL_ALPHABET *a, float  *sc, const float  *p);
+extern int    esl_abc_DExpectScVec(const ESL_ALPHABET *a, double *sc, const double *p);
+extern int    esl_abc_FCount      (const ESL_ALPHABET *a, float  *ct, ESL_DSQ x, float  wt);
+extern int    esl_abc_DCount      (const ESL_ALPHABET *a, double *ct, ESL_DSQ x, double wt);
+extern int    esl_abc_EncodeType  (char *typestring);
+extern char  *esl_abc_DecodeType  (int type);
+extern int    esl_abc_ValidateSeq(const ESL_ALPHABET *a, const char *seq, int64_t L, char *errbuf);
+
+/* In the tests below, remember the rules of order in internal alphabets:
+ *   Canonical alphabet   Gap   Degeneracies   Any    None    Missing 
+ *        0..K-1           K      K+1..Kp-4   (Kp-3)  (Kp-2)   (Kp-1)
+ *         ACGT            -     RYMKSWHBVD     N       *        ~           DNA: K=4  Kp=18
+ *  ACDEFGHIKLMNPQRSTVWY   -        BJZOU       X       *        ~       protein: K=20 Kp=29
+ *                           
+ * ESL_DSQ is an unsigned 8-bit type, so don't test for >= 0 or compilers will complain.
+ */
+#define esl_abc_DigitizeSymbol(a, c) ((a)->inmap[(int)c])
+#define esl_abc_XIsValid(a, x)       ((x) < (a)->Kp)
+#define esl_abc_XIsResidue(a, x)     ((x) < (a)->K || ((x) > (a)->K && (x) < (a)->Kp-2))
+#define esl_abc_XIsCanonical(a, x)   ((x) < (a)->K)
+#define esl_abc_XIsGap(a, x)         ((x) == (a)->K)
+#define esl_abc_XIsDegenerate(a, x)  ((x) >  (a)->K && (x) < (a)->Kp-2)
+#define esl_abc_XIsUnknown(a, x)     ((x) == (a)->Kp-3)
+#define esl_abc_XIsNonresidue(a, x)  ((x) == (a)->Kp-2)
+#define esl_abc_XIsMissing(a, x)     ((x) == (a)->Kp-1)
+#define esl_abc_XGetGap(a)           ((a)->K)
+#define esl_abc_XGetUnknown(a)       ((a)->Kp-3)
+#define esl_abc_XGetNonresidue(a)    ((a)->Kp-2)
+#define esl_abc_XGetMissing(a)       ((a)->Kp-1)
+
+
+#define esl_abc_CIsValid(a, c)       (isascii(c) && (a)->inmap[(int)c] < (a)->Kp)
+#define esl_abc_CIsResidue(a, c)     ((a)->inmap[(int)c] < (a)->K || ((a)->inmap[(int)c] > (a)->K && (a)->inmap[(int)c] < (a)->Kp-2))
+#define esl_abc_CIsCanonical(a, c)   ((a)->inmap[(int)c] < (a)->K)
+#define esl_abc_CIsGap(a, c)         ((a)->inmap[(int)c] == (a)->K)
+#define esl_abc_CIsDegenerate(a, c)  ((a)->inmap[(int)c] > (a)->K  && (a)->inmap[(int)c] < (a)->Kp-2)
+#define esl_abc_CIsUnknown(a, c)     ((a)->inmap[(int)c] == (a)->Kp-3)
+#define esl_abc_CIsNonresidue(a, c)  ((a)->inmap[(int)c] == (a)->Kp-2)
+#define esl_abc_CIsMissing(a, c)     ((a)->inmap[(int)c] == (a)->Kp-1)
+#define esl_abc_CGetGap(a)           ((a)->sym[(int)(a)->K])
+#define esl_abc_CGetUnknown(a)       ((a)->sym[(int)(a)->Kp-3])
+#define esl_abc_CGetNonresidue(a)    ((a)->sym[(int)(a)->Kp-2])
+#define esl_abc_CGetMissing(a)       ((a)->sym[(int)(a)->Kp-1])
+
+#endif /*eslALPHABET_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.tex
new file mode 100755
index 0000000..03c3853
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_alphabet.tex
@@ -0,0 +1,501 @@
+The \eslmod{alphabet} module contains routines for digitizing
+alphabetic biosequences.
+
+It is convenient to represent nucleotides and amino acids as array
+indices 0..3 or 0..19, respectively, for efficiency and other
+reasons. It is also convenient to index the residues in a biosequence
+in 1..L coordinates instead of the C language's 0..L-1 array
+representation, partly for human readability, and also because some
+codes (dynamic programming alignment algorithms, for example) have
+boundary conditions where initializing a boundary at coordinate 0 is
+convenient.
+
+Real biosequences do not consist of just four or twenty different
+canonical symbols, though. The \eslmod{alphabet} module provides
+mechanisms for dealing with several other biosequence coding issues:
+
+\begin{itemize}
+  \item Degenerate residue symbols representing uncertainties,
+        including both IUPAC/IUBMB standard one-letter nomenclature
+        and nonstandard extensions such as the use of \ccode{J} to
+        mean isoleucine or leucine (\ccode{I|L}) in protein sequences
+        determined by mass spec;
+
+  \item Symbols for ``any residue'' (N in DNA/RNA; X in amino acid
+    sequences) and ``not a residue'' (a ``translated'' stop codon '*'
+    in protein sequence;
+
+  \item Standard and nonstandard symbols for unusual residues, such as
+        selenocysteine (\ccode{U}) and pyrrolysine (\ccode{O}) in
+        proteins;
+
+  \item \emph{Ad hoc} symbols representing modified residues, such as
+        the slew of one-letter codes used to annotate
+        posttranscriptionally modified nucleotides in the Sprinzl tRNA
+        database \citep{Sprinzl98};
+
+  \item Case-insensitivity of input sequences, for instance allowing
+        both \ccode{a} and \ccode{A} to mean alanine in amino acid
+        sequences;
+
+  \item Tolerating common malpractices in the field, like the use of
+       \ccode{X} instead of \ccode{N} as a degeneracy code in nucleic
+       acid sequence;
+
+  \item The semantic difference between a gap symbol and a missing
+        data symbol in sequence alignments.
+\end{itemize}        
+
+The \eslmod{alphabet} module provides standard defaults for protein,
+RNA, and DNA alphabets which follow both community standards and
+IUPAC/IUBMB nomenclature for representing sequence residues in
+one-letter ASCII characters. Additionally, the design of the
+\eslmod{alphabet} module is flexible enough to allow an application to
+customize its own alphabet, to deal with these issues almost any way
+it chooses.
+
+Table~\ref{tbl:alphabet_api} lists the functions in the
+\eslmod{alphabet} API.  Easel maintains alphabet information in an
+\ccode{ESL\_ALPHABET} structure. An application usually creates its
+alphabet once, possibly even as a global variable.  A digitized
+sequence \ccode{dsq} is an \ccode{unsigned char *} array of length
+\ccode{L+2}, where \ccode{dsq[1..L]} are digitized residues, and
+\ccode{dsq[0]} and \ccode{dsq[L+1]} are sentinel bytes (of value
+\ccode{eslSENTINEL}, 127).
+
+\begin{table}[hbp]
+\begin{center}
+\begin{tabular}{ll}\hline
+   \multicolumn{2}{c}{\textbf{The \ccode{ESL\_ALPHABET} object}}\\
+\ccode{esl\_alphabet\_Create()}       & Create alphabet of standard type. \\
+\ccode{esl\_alphabet\_CreateCustom()} & Create a custom alphabet. \\
+\ccode{esl\_alphabet\_SetEquiv()}     & Define an equivalent symbol. \\
+\ccode{esl\_alphabet\_SetCaseInsensitive()} & Make an alphabet's input map case insensitive. \\
+\ccode{esl\_alphabet\_SetDegeneracy()} & Define degenerate symbol in custom alphabet. \\
+\ccode{esl\_alphabet\_Destroy()}      & Frees an alphabet object. \\
+   \multicolumn{2}{c}{\textbf{Digitized sequences}}\\
+\ccode{esl\_abc\_CreateDsq()}         & Digitize a sequence into new \ccode{dsq} space. \\
+\ccode{esl\_abc\_Digitize()}          & Digitize a sequence into existing \ccode{dsq} space. \\
+   \multicolumn{2}{c}{\textbf{Other functions}}\\
+\ccode{esl\_abc\_\{I,F,D\}AvgScore()}  & Calculate avg score of degenerate residue.\\
+\ccode{esl\_abc\_\{I,F,D\}ExpectScore()} & Calculate expected score of degenerate residue.\\
+\ccode{esl\_abc\_Type()}               & Convert internal alphabet type code to output string.\\
+\ccode{esl\_abc\_\{F,D\}Count()}       & Count a digital symbol towards a countvector.\\
+\ccode{esl\_abc\_DigitizeSymbol()}     & Returns digital code for one ASCII character.\\
+\ccode{esl\_abc\_XIsDegenerate()}      & Returns TRUE given code for a degeneracy.\\
+\ccode{esl\_abc\_XIsBasic()}           & Returns TRUE given code for a fundamental residue.\\
+\ccode{esl\_abc\_XIsGap()}             & Returns TRUE given code for a gap.\\
+\ccode{esl\_abc\_CIsDegenerate()}      & Returns TRUE given a degenerate character.\\
+\ccode{esl\_abc\_CIsBasic()}           & Returns TRUE given a fundamental residue.\\
+\ccode{esl\_abc\_CIsGap()}             & Returns TRUE given a gap character.\\
+
+\hline
+\end{tabular}
+\end{center}
+\caption{The \eslmod{alphabet} API.}
+\label{tbl:alphabet_api}
+\end{table}
+
+\subsection{An example of using the alphabet API}
+
+Figure~\ref{fig:alphabet_example} shows an example of creating a DNA
+alphabet and digitizing a short DNA sequence.
+
+\begin{figure}
+\input{cexcerpts/alphabet_example}
+\caption{An example of using the \eslmod{alphabet} module.}
+\label{fig:alphabet_example}
+\end{figure}
+
+\begin{itemize}
+\item A standard biosequence alphabet is created using
+\ccode{esl\_alphabet\_Create(type)}, where \ccode{type} can be
+\ccode{eslDNA}, \ccode{eslRNA}, or \ccode{eslAMINO}.
+
+\item An input sequence \ccode{seq} of length \ccode{L} is digitized
+according to alphabet \ccode{a}, creating a newly allocated digital
+sequence \ccode{dsq}, by calling \ccode{esl\_dsq\_Create(a, seq, L,
+\&dsq)}. The caller must free \ccode{dsq} using \ccode{free(dsq)}.
+Alternatively, if the caller has already allocated \ccode{L+2} (or
+more) bytes in \ccode{dsq}, it can call \ccode{esl\_dsq\_Set(a, seq,
+L, dsq)}, which is the non-allocating version of
+\ccode{esl\_dsq\_Create()}.
+
+\item For an input sequence of length \ccode{L}, the digitized
+sequence \ccode{dsq} is a \ccode{char *} array of \ccode{L+2}
+bytes. \ccode{dsq[0]} and \ccode{dsq[L+1]} contain a sentinel byte of
+value \ccode{eslSENTINEL} (127).  Positions \ccode{1..L} hold the
+residues, where values \ccode{0..3} encode \ccode{ACGT} in DNA
+sequences, \ccode{0..3} encode \ccode{ACGU} in RNA sequences, and
+\ccode{0..19} encode \ccode{AC..WY} in amino acid sequences.
+
+\item Both sequence-digitizing functions return \ccode{eslEINVAL} if
+the input sequence contains characters that are not in the
+alphabet. Because input sequences are often provided by a user (not
+the program), this is a common error that the application must check
+for.
+\end{itemize}
+
+\subsection{Concepts and terminology}
+
+A \esldef{symbol} is a 7-bit ASCII input character, representing a
+residue, gap, nonresidue, or degeneracy. A \esldef{code} is the
+digital internal representation of the symbol as an \ccode{unsigned
+ char} in the range $0..127$, suitable for use as an array index. The
+\eslmod{alphabet} module translates input symbols into internal
+digital codes.
+
+We distinguish between an input alphabet, an internal alphabet, and a
+canonical alphabet.  The \esldef{input alphabet} consists of all the
+symbols that Easel allows in an input biosequence character
+string. The \esldef{internal alphabet} is the standardized one-letter
+alphabet that Easel deals with. The \esldef{canonical alphabet} is the
+fundamental set of 4 nucleotides or 20 amino acids.
+
+Easel deals with all of the complications of sequence encoding using
+two concepts, equivalency and degeneracy.  \esldef{Equivalency}
+defines how the input alphabet maps to the internal
+alphabet. \esldef{Degeneracy} defines how the internal alphabet maps
+to the canonical alphabet.
+
+Equivalent residues are symbols that are accepted in an input sequence
+character string and silently translated into an appropriate internal
+code. Characters in the input alphabet are mapped many-to-one to the
+internal alphabet using an \esldef{input map}. One use of equivalency
+is to map both lower and upper case input to the same internal
+symbol. Another use is to allow several different input characters to
+mean a gap, 'any' symbol, or 'nonresidue' symbol. Another use is to
+silently accept and ``fix'' nonstandard but common input ``errors'',
+such as tolerating the use of X to mean N in nucleic acid sequences.
+
+Degenerate residues are codes in the internal alphabet that are mapped
+one-to-many onto canonical residue codes, using a \esldef{degeneracy
+map}. In addition to mapping the degeneracy codes onto the canonical
+alphabet, the degeneracy mechanism is also used to deal with unusual
+and modified residues. Selenocysteine, for instance, is represented by
+default as a \ccode{U}, but treated as a degenerate code for \ccode{C}
+(cysteine). The rationale for this will be described in more detail
+below.
+
+\subsubsection{The internal alphabet}
+
+Easel's internal alphabet is a string (\ccode{a->sym}) of length
+\ccode{Kp}, which contains:
+
+\begin{itemize}
+ \item the \ccode{K} symbols of the canonical alphabet;
+ \item a standard gap symbol;
+ \item (optionally) any other degenerate, unusual, or modified residue codes;
+ \item a mandatory ``any'' symbol (a completely degenerate residue);
+ \item a mandatory ``not-a-residue'' symbol;
+ \item a mandatory ``missing data'' symbol.
+\end{itemize}
+
+Residues \ccode{0..K-1} must be the canonical alphabet.  Residue
+\ccode{K} must be the gap symbol.  Residues \ccode{K+1..Kp-4} must be
+the degenerate and modified residue symbols (there can be zero of
+these). Residue \ccode{Kp-3} must be the completely degenerate symbol
+(such as \ccode{X} for protein sequence or \ccode{N} for nucleic acid
+sequence); all alphabets must have such a symbol. Residue \ccode{Kp-2}
+must be the not-a-residue symbol.  Residue \ccode{Kp-1} must be the
+missing data symbol.  Because the 'any' symbol, 'not-a-residue'
+symbol, and the two kinds of gap symbols are mandatory in any
+alphabet, \ccode{Kp} $\geq$ \ccode {K+4}. Aside from these
+constraints, symbols may occur in any order.
+
+The digital code used for each residue is then the index of a residue
+in this string, \ccode{0..Kp-1}. The only other value that can appear
+in a digitized sequence is \ccode{eslSENTINEL} (127), the sentinel
+byte in positions \ccode{0} and \ccode{L+1} of a digitized sequence of
+length \ccode{L}. 
+
+The rationale for the ordering is the following. Most applications
+will define residue scores in vectors and matrices that are smaller
+than the full range of the internal alphabet; for instance, it's
+common to only have \ccode{K} scores for the canonical residues.  As
+much as possible, we want array indices to be the same whether we're
+accessing the full internal alphabet or a smaller score vector or
+matrix. So: we expect many applications to have score vectors or
+matrices that only contain the \ccode{K} canonical residues, so the
+canonical residues go first.  We expect some applications to treat
+gaps as an extra symbol, and provide \ccode{K+1} position-specific
+scores or a \ccode{K+1} $\times$ \ccode{K+1} score matrix, so the gap
+character is next. We expect a few applications to optimize degeneracy
+scoring by precalculating them in \ccode{Kp-2} vectors or $Kp-2 \times
+Kp-2$ matrices, so the degeneracies go next (the gap character at $K$
+might then go unused in the score vectors and matrices, but that's a
+minor inefficiency). The 'any' symbol should be at a predictable
+position in the degeneracy list, so it's arbitrarily placed at the
+end, in position \ccode{Kp-3}. The most robust applications will also
+handle the not-a-residue symbol (they may see translated stop codons),
+so it's next.  Finally, the missing data symbol is expected to always
+require special handling when it occurs, rather than appearing in a
+score vector or matrix, so it's put last.
+
+\subsection{The standard alphabets: DNA, RNA, protein}
+
+The three standard internal alphabets are:
+
+\begin{table}[h]
+\begin{tabular}{llccrr}
+\textbf{Type} & \ccode{sym}  & \textbf{equivs} & \textbf{gaps}   & \ccode{K} & \ccode{Kp} \\
+\ccode{eslRNA}        & \ccode{ACGU-RYMKSWHBVDN*\~}            & T=U; X=N & \ccode{-\_.} & 4         &  18         \\
+\ccode{eslDNA}        & \ccode{ACGT-RYMKSWHBVDN*\~}            & U=T; X=N & \ccode{-\_.} & 4         &  18         \\
+\ccode{eslAMINO}      & \ccode{ACDEFGHIKLMNPQRSTVWY-BJZOUX*\~} &          & \ccode{-\_.} & 20        &  29         \\
+\end{tabular}
+\end{table}
+
+The \ccode{sym} string contains all the symbols that can be handled
+internally, and all the residues that can be represented when a
+digitized sequence is converted back to text. An application might
+still convert some characters for its own purposes before displaying
+an alphabetic string; for instance, to use different gap symbols for
+insertions versus deletions, or to use upper/lower case conventions to
+represent match/insert positions in a profile HMM alignment.
+
+The standard DNA and RNA alphabets follow published IUBMB
+recommendations (``Nomenclature for incompletely specified bases in
+nucleic acid'' \citep{IUBMB85}), with an addition of X as an
+equivalence for N (acquiescing to the \emph{de facto} BLAST filter
+standard of using X's to mask residues), and equivalencing T to U in
+RNA sequences (and vice versa in DNA).
+
+The one-letter code for amino acids follows section 3AA-21 of the
+IUPAC recommendations \citep{IUPAC84}. The code is augmented by U for
+selenocysteine, as recommended in 1999 by the JCBN/NC-IUBMB Newsletter
+(\url{http://www.chem.qmul.ac.uk/iubmb/newsletter/1999/item3.html}).
+It is also augmented by O for pyrrolysine and J for a
+leucine/isoleucine ambiguity (from a mass spectrometry experiment),
+following usage in the RESID database
+(\url{http://www.ebi.ac.uk/RESID/}).
+
+
+\subsection{Degenerate residues}
+
+The symbols from \ccode{K+1..Kp-4} in the internal alphabet are all
+treated as degenerate residues.
+
+When creating a custom alphabet, each degenerate symbol is initialized
+by calling \ccode{esl\_alphabet\_SetDegeneracy(alphabet, c, syms)} to
+assign degenerate alphabetic symbol \ccode{c} to the alphabetic
+symbols in the string \ccode{syms}. For example,
+\ccode{esl\_alphabet\_SetDegeneracy(a, 'R', \"AG\")} assigns R
+(purine) to mean A or G.  For the standard biosequence alphabets, this
+is done automatically to define the proper degeneracy codes.
+
+For amino acid alphabets, the default code is:
+
+\begin{cchunk}  
+  esl_alphabet_SetDegeneracy(a, 'B', "ND");
+  esl_alphabet_SetDegeneracy(a, 'J', "IL");
+  esl_alphabet_SetDegeneracy(a, 'Z', "QE");
+\end{cchunk}
+
+For RNA alphabets, the default code is:
+
+\begin{cchunk}
+  esl_alphabet_SetDegeneracy(a, 'R', "AG");
+  esl_alphabet_SetDegeneracy(a, 'Y', "CU");
+  esl_alphabet_SetDegeneracy(a, 'M', "AC");
+  esl_alphabet_SetDegeneracy(a, 'K', "GU");
+  esl_alphabet_SetDegeneracy(a, 'S', "CG");
+  esl_alphabet_SetDegeneracy(a, 'W', "AU");
+  esl_alphabet_SetDegeneracy(a, 'H', "ACU");
+  esl_alphabet_SetDegeneracy(a, 'B', "CGU");
+  esl_alphabet_SetDegeneracy(a, 'V', "ACG");
+  esl_alphabet_SetDegeneracy(a, 'D', "AGU");  
+\end{cchunk}
+
+For DNA alphabets, the calls are is the same as for RNA code, but with
+\ccode{T} in place of \ccode{U}.
+
+
+\subsubsection{Implementation: the degeneracy map}
+
+The alphabet's degeneracy map is implemented in an array
+\ccode{a->degen[0..Kp-1][0..K-1]} of 1/0 (TRUE/FALSE) flags.
+\ccode{a->degen[x][y] == TRUE} indicates that the residue set $D(x)$
+for degeneracy code \ccode{x} contains base residue \ccode{y}.
+\ccode{a->ndegen[x]} contains the cardinality $|D(x)|$, how many base
+residues are represented by degeneracy code \ccode{x}.
+
+For the two kinds of gap symbols, the degeneracy map is empty; all
+flags are FALSE and the cardinality is 0.
+
+Because character \ccode{Kp-3} in the internal alphabet is
+automatically assumed to be an ``any'' character (such as 'N' for DNA
+or RNA, 'X' for protein), \ccode{a->degen[Kp-3][i] = 1} for all
+$i=0..K-1$, and \ccode{a->ndegen[Kp-3] = K}.
+
+The storage of the degeneracy map is a little wasteful. We really only
+need rows \ccode{a->degen[K+1..Kp-3]}, but optimizing this would
+create some index translation hassles, and it doesn't seem worth it.
+
+
+\subsection{Equivalent residues}
+
+The concept of equivalent residues allows an input symbol to be mapped
+to a different internal symbol.  One use of equivalence is to map both
+lower and upper case input to the same internal representation.
+Another use is to allow several different input characters to mean a
+gap. Another use is to silently accept and ``fix'' nonstandard but
+common input ``errors'', such as the use of T instead of U in RNA
+sequences (or vice versa in DNA), or the use of X instead of N as an
+ambiguity code in nucleic acid sequences.
+
+The call \ccode{esl\_alphabet\_SetEquiv(a, 'U', 'T')}, for example,
+makes an alphabet interpret \ccode{U} as a \ccode{T} (encoding both as
+\ccode{3}, in the case of the standard DNA and RNA alphabets).
+ 
+All three standard alphabets accept \ccode{\_} or \ccode{.}  symbols
+as equivalences for the standard gap symbol \ccode{-}. An application
+can define additional gap characters, such as \ccode{,}, by calling
+\ccode{esl\_alphabet\_SetSynonym(a, ',', '-')} on one of the standard
+alphabets to define additional equivalences (that is, you don't have
+to create a custom alphabet to add new equivalences).
+
+\ccode{esl\_alphabet\_SetCaseInsensitive()} maps both upper case and
+lower case input alphabetic characters map to their equivalent in the
+internal alphabet in a case-insensitive manner.  This function works
+only on residues that have already been declared to be part of the
+alphabet, so when defining a custom alphabet, it must be called after
+all individual equivalences have been defined. The standard alphabets
+are always set to be case insensitive.
+
+\subsubsection{Implementation of equivalent residues: the input map}
+
+Internally, an \textbf{input map}, \ccode{a->inmap[0..127]}, specifies
+how an input ASCII 7-bit text symbol is converted to digital
+code. \ccode{a->inmap['T'] = 3} in the standard DNA alphabet, for
+example, and the call \ccode{esl\_alphabet\_SetSynonym(a, 'U', 'T')}
+sets \ccode{a->inmap['U'] = a->inmap['T']}. 
+
+The elements in input maps are of type \ccode{unsigned char}. Legal
+values are 0..127 (values that can be cast to the \ccode{unsigned
+char} codes in a digitized sequence) and two additional flags with
+negative values, \ccode{eslILLEGAL\_CHAR} (255) and
+\ccode{eslIGNORED\_CHAR} (254).
+
+\subsection{Unusual or modified residues}
+
+In addition to the canonical 4 or 20 residues and their ambiguity
+codes, there are many unusual and/or modified residues. For instance,
+there are many posttranscriptional or posttranslational modifications
+on residues in RNAs and proteins. Some databases try to capture this
+information in a single-letter alphabetic code, such as the Sprinzl
+transfer RNA database \cite{Sprinzl98}. 
+
+Additionally, and perhaps more importantly, proteins are known to
+contain at least two additional genetically encoded amino acids,
+selenocysteine and pyrrolysine. Selenocysteine is represented by a
+\ccode{U} according to the IUPAC standard, and pyrrolysine is
+represented by a \ccode{O} in the RESID database at EBI.
+
+Unusual one-letter residue codes pose a tradeoff issue for sequence
+analysis applications. On the one hand, an application should
+recognize symbols for unusual or modified residues, and be able to
+represent them both internally and in any sequence output. For
+example, no application should read an input selenocysteine residue
+(\ccode{U}) and output it as a cysteine (\ccode{C}) -- this changes
+the original sequence and causes data corruption.\footnote{However, at
+least one the main public protein databases (UniProt) has already
+chosen to replace all selenocysteines with \ccode{C} and all
+pyrrolysines with \ccode{K}, for fear of breaking legacy sequence
+analysis software.  So, this data corruption is already a fact of
+life.}  On the other hand, most sequence analysis applications would
+not want to take the trouble to define a canonical alphabet larger
+than the usual 4 or 20 residues, and then have to parameterize that
+alphabet, just to be able to handle a few rare residues. (Pyrrolysine,
+for example, has only been found in a handful of proteins in a few
+Archaea.) It is useful to be able to deal with probability parameters
+and scores only for the canonical alphabet. However (on yet another
+hand!) in some cases one \emph{would} want to write a specialized
+application that parameterizes unusual residues as part of its
+canonical alphabet -- for instance, an application for analyzing
+posttranscriptional tRNA modifications, for example.
+
+Therefore, Easel must not force an input selenocysteine or pyrrolysine
+(or any other unusual residue) to be recoded as an arbitrary symbol
+(such as cysteine or lysine). That is, unusual symbols cannot be
+treated as equivalences, but must be allowed to be part of the
+internal alphabet.  However, Easel \emph{can} allow unusual symbols to
+be treated as noncanonical, and \emph{score} them as some other
+arbitrary residue, as a reasonable approximation. Thus for most
+purposes, unusual symbols are best handled as a special kind of
+degeneracy, with a one-to-one degeneracy map from the unusual symbol
+to the ``closest'' canonical residue.
+
+Therefore, the default amino acid alphabet accepts selenocysteine
+(\ccode{U}) and pyrrolysine symbols (\ccode{O}) and represents them in
+the internal alphabet, and maps them as ``degeneracies'' onto cysteine
+(\ccode{C}) and lysine (\ccode{K}), respectively.
+
+When that behavior is not suitable, an application can also define any
+custom alphabet it chooses, as described below.
+
+
+\subsection{Creating a custom alphabet}
+
+Figure~\ref{fig:alphabet_example2} shows an example of creating a
+customized 22-letter amino acid alphabet that includes the \ccode{U}
+selenocysteine code and the \ccode{O} pyrrolysine code.
+
+\begin{figure}
+\input{cexcerpts/alphabet_example2}
+\caption{An example of creating a custom alphabet.}
+\label{fig:alphabet_example2}
+\end{figure}
+
+
+
+\subsection{Scoring degenerate residues}
+
+To score a degenerate residue code $x$, Easel provides two strategies.
+One set of functions assigns an average score:
+
+\[
+  S(x) =  \frac{\sum_{y \in D(x)}  S(y) } { |D(x)| },
+\]
+
+where $D(x)$ is the set of residues $y$ represented by degeneracy code
+$x$ (for example, $D(\mbox{R}) = \{ \mbox{A,G} \}$), $| D(x) |$ is the
+number of residues that the degeneracy code includes, and $S(y)$ is
+the score of a base residue $y$. Because scores $S(y)$ are commonly
+kept as integers, floats, or doubles, depending on the application,
+three functions are provided that differ only in the storage type of
+the scores: \ccode{esl\_abc\_IAvgScore(a,x,sc)},
+\ccode{esl\_abc\_FAvgScore(a,x,sc)}, and
+\ccode{esl\_abc\_DAvgScore(a,x,sc)} calculate and return the average
+score of residue \ccode{x} in alphabet \ccode{a} given a base score
+vector \ccode{sc[0]..sc[K-1]} for integers, floats, and doubles,
+respectively.
+
+A second set of functions assigns an expected score, weighted by an
+expected occurrence probability $p_y$ of the residues $y$ (often the
+random background frequencies):
+
+\[
+  S(x) =  \frac{\sum_{y \in D(x)}  p_y S(y) } { \sum_{y \in D(x)} p_y },
+\]
+
+These three functions are \ccode{esl\_abc\_IExpectScore(a,x,sc,p)},
+\ccode{esl\_abc\_FExpectScore(a,x,sc,p)}, and
+\ccode{esl\_abc\_DExpectScore(a,x,sc,p)}.  For the integer and float
+versions, the probability vector is in floats; for the double version,
+the probability vector is in doubles.
+
+For efficiency reasons, an application might choose to preculate
+scores for all possible degenerate codes it might see. HMMER, for
+example, turns probability vectors of length \ccode{K} into score
+residues of length \ccode{Kp}.
+
+An application might also choose to score residues on-the-fly, using
+score vectors of length \ccode{K}. Each input residue \ccode{x} would
+then have to be tested to see if it is degenerate, before scoring it
+appropriately.  \ccode{esl\_abc\_IsBasic(a, x)} returns \ccode{TRUE}
+if \ccode{x} is in the basic set of \ccode{K} residues in alphabet
+\ccode{a}, and \ccode{FALSE} otherwise. Similarly,
+\ccode{esl\_abc\_IsGap(a,x)} tests whether $x$ is a gap, and
+\ccode{esl\_abc\_IsDegenerate(a,x)} tests whether $x$ is a degenerate
+residue.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.c
new file mode 100755
index 0000000..ec6eb09
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.c
@@ -0,0 +1,3230 @@
+/*::cexcerpt::header_example::begin::*/
+/* An input parsing abstraction.
+ *
+ * Table of contents:
+ *   1. ESL_BUFFER object: opening/closing.
+ *   2. Positioning and anchoring an ESL_BUFFER.
+ *   3. Raw access to the buffer.
+ *   4. Line-based parsing.
+ *   5. Token-based parsing.
+ *   6. Binary (fread-like) parsing.
+ *   7. Private (static) functions.
+ *   8. Benchmark.
+ *   9. Unit tests.
+ *  10. Test driver.
+ *  11. Examples.
+ *  12. Copyright and license.
+ */
+/*::cexcerpt::header_example::end::*/
+
+
+/*::cexcerpt::include_example::begin::*/
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>
+#endif
+#ifdef _POSIX_VERSION
+#include <fcntl.h>
+#include <sys/mman.h>
+#include <sys/stat.h>
+#endif /* _POSIX_VERSION */
+
+#include "easel.h"
+#include "esl_mem.h"
+#include "esl_buffer.h"
+/*::cexcerpt::include_example::end::*/
+
+
+
+/*::cexcerpt::statics_example::begin::*/
+static int buffer_create           (ESL_BUFFER **ret_bf);
+static int buffer_init_file_mmap   (ESL_BUFFER *bf, esl_pos_t filesize);
+static int buffer_init_file_slurped(ESL_BUFFER *bf, esl_pos_t filesize);
+static int buffer_init_file_basic  (ESL_BUFFER *bf);
+
+static int buffer_refill   (ESL_BUFFER *bf, esl_pos_t nmin);
+static int buffer_countline(ESL_BUFFER *bf, esl_pos_t *opt_nc, esl_pos_t *opt_nskip);
+static int buffer_skipsep  (ESL_BUFFER *bf, const char *sep);
+static int buffer_newline  (ESL_BUFFER *bf);
+static int buffer_counttok (ESL_BUFFER *bf, const char *sep, esl_pos_t *ret_nc);
+/*::cexcerpt::statics_example::end::*/
+
+
+
+/*****************************************************************
+ *# 1. ESL_BUFFER object: opening/closing.
+ *****************************************************************/
+
+/* Function:  esl_buffer_Open()
+ * Synopsis:  Standard Easel idiom for opening a stream by filename.
+ *
+ * Purpose:   Open <filename> for parsing. Return an open
+ *            <ESL_BUFFER> for it.
+ *            
+ *            The standard Easel idiom allows reading from standard
+ *            input (pass <filename> as '-'), allows reading gzip'ed
+ *            files automatically (any <filename> ending in <.gz> is
+ *            opened as a pipe from <gzip -dc>), and allows using an
+ *            environment variable to specify a colon-delimited list
+ *            of directories in which <filename> may be found. Normal
+ *            files are memory mapped (if <mmap()> is available) when
+ *            they are large, and slurped into memory if they are
+ *            small.
+ *
+ *            If <filename> is '-' (a single dash character), 
+ *            capture the standard input stream rather than 
+ *            opening a file; return <eslOK>.
+ *
+ *            Else, try to find <filename> in a directory <d>,
+ *            starting with the current working directory. If
+ *            <./filename> is found (note that <filename> may include
+ *            a relative path), directory <d> is <.>.  Else, if
+ *            <envvar> is non-<NULL>, check the environment variable
+ *            <envvar> for a colon-delimited list of directories, and
+ *            for each directory <d> in that list, try to find
+ *            <d/filename>. Use the first <d> that succeeds. If
+ *            none succeed, return <eslENOTFOUND>.
+ *            
+ *            Now open the file. If <filename> ends in <.gz>, 'open'
+ *            it by running <gzip -dc d/filename 2>/dev/null>,
+ *            capturing the standard output from gunzip decompression
+ *            in the <ESL_BUFFER>. Otherwise, open <d/filename> as a
+ *            normal file. If its size is not more than
+ *            <eslBUFFER_SLURPSIZE> (default 4 MB), it is slurped into
+ *            memory; else, if <mmap()> is available, it is memory
+ *            mapped; else, it is opened as a read-only binary stream
+ *            with <fopen()> in mode <"rb">.
+ *
+ * Args:      filename  - file to open for reading; or '-' for STDIN
+ *            envvar    - name of an environment variable in which to
+ *                        find a colon-delimited list of directories;
+ *                        or <NULL> if none.
+ *            ret_bf    - RETURN: new ESL_BUFFER            
+ *
+ * Returns:   <eslOK> on success; <*ret_bf> is the new <ESL_BUFFER>.
+ * 
+ *            <eslENOTFOUND> if file isn't found or isn't readable.
+ *            <eslFAIL> if gzip -dc fails on a .gz file, probably 
+ *            because a gzip executable isn't found in PATH. 
+ *            
+ *            On any normal error, <*ret_bf> is still returned,
+ *            in an unset state, with a user-directed error message
+ *            in <*ret_bf->errmsg>.
+ *            
+ * Throws:    <eslESYS> on system call failures (such as fread()).
+ *            <eslEMEM> on allocation failure.
+ *            Now <*ret_bf> is <NULL>.
+ */
+int
+esl_buffer_Open(const char *filename, const char *envvar, ESL_BUFFER **ret_bf)
+{
+  char *path = NULL;
+  int   n;
+  int   status;
+
+  /* "-" => stdin */
+  if (strcmp(filename, "-") == 0) 
+    return esl_buffer_OpenStream(stdin, ret_bf);
+
+  /* else, a file. find its fully qualified path  */
+  if (esl_FileExists(filename))   /* look in current working directory */
+    { if ( (status = esl_strdup(filename, -1, &path)) != eslOK) goto ERROR; }
+  else {   	       	          /* then search directory list in envvar, if any */
+    status = esl_FileEnvOpen(filename, envvar, NULL, &path); 
+    if      (status == eslENOTFOUND)  { esl_buffer_OpenFile(filename, ret_bf); goto ERROR; }
+    else if (status != eslOK)         { *ret_bf = NULL;                        goto ERROR; }
+    /* yeah, the esl_buffer_OpenFile() looks weird - we know the file's not there! -
+     * but it's a clean way to set our error return status properly, 
+     * recording the correct error message in a live ESL_BUFFER's bf->errmsg.
+     * note that esl_FileEnvOpen() correctly handles envvar==NULL,
+     * returning eslENOTFOUND.
+     */
+  }
+
+  n = strlen(path);
+  if (n > 3 && strcmp(filename+n-3, ".gz") == 0)   /* if .gz => gzip -dc */
+    { if ( (status = esl_buffer_OpenPipe(path, "gzip -dc %s 2>/dev/null", ret_bf)) != eslOK) goto ERROR; }
+  else
+    { if ( (status = esl_buffer_OpenFile(path, ret_bf)) != eslOK) goto ERROR; }
+
+  free(path);
+  return eslOK;
+
+ ERROR:
+  if (path) free(path);
+  return status;
+}
+
+/* Function:  esl_buffer_OpenFile()
+ * Synopsis:  Open a file.
+ *
+ * Purpose:   Open <filename> for reading. Return an open <ESL_BUFFER> in
+ *            <*ret_bf>.
+ *            
+ *            <filename> may be a relative path such as <subdir/foo>
+ *            or a full path such as </my/dir/foo>.
+ *            
+ *            On a POSIX-compliant system, large files are memory 
+ *            mapped, and small files are just slurped into memory.
+ *
+ *            On non-POSIX systems, the file is opened as a stream.
+ *            On a short initial read (if the file size is smaller than
+ *            the buffer page size), the file is considered to be
+ *            completely slurped.
+ *
+ * Args:      filename  - name of (or path to) file to open
+ *           *ret_bf    - RETURN: new ESL_BUFFER
+ *                        
+ * Returns:   <eslOK> on success; <*ret_bf> is new <ESL_BUFFER>.
+ *           
+ *            <eslENOTFOUND> if <filename> isn't found or isn't readable.
+ *           
+ *            On normal errors, a new <*ret_bf> is still returned, in
+ *            an unset state, with a user-directed error message in
+ *            <*ret_bf->errmsg>.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int 
+esl_buffer_OpenFile(const char *filename, ESL_BUFFER **ret_bf)
+{
+  ESL_BUFFER *bf = NULL;
+#ifdef _POSIX_VERSION
+  struct stat fileinfo;
+#endif
+  esl_pos_t   filesize = -1;
+  int         status;
+
+  if ((status = buffer_create(&bf)) != eslOK) goto ERROR;
+  
+  if ((bf->fp = fopen(filename, "rb")) == NULL) 
+    ESL_XFAIL(eslENOTFOUND, bf->errmsg, "couldn't open %s for reading", filename);  
+
+  if ((status = esl_strdup(filename, -1, &(bf->filename))) != eslOK) goto ERROR;
+
+  /* Try to use POSIX fstat() to get file size and optimal read size.
+   * Use filesize to decide whether to slurp, mmap, or read normally. 
+   * If we don't have fstat(), we'll just read normally, and pagesize
+   * will be the Easel default 4096 (set in buffer_create().)
+   */
+#ifdef _POSIX_VERSION
+  if (fstat(fileno(bf->fp), &fileinfo) == -1) ESL_XEXCEPTION(eslESYS, "fstat() failed");
+  filesize     = fileinfo.st_size;
+  bf->pagesize = fileinfo.st_blksize;
+  if (bf->pagesize < 512)     bf->pagesize = 512;      /* I feel paranoid about st_blksize range not being guaranteed to be sensible */
+  if (bf->pagesize > 4194304) bf->pagesize = 4194304;
+#endif  
+
+  if      (filesize != -1 && filesize <= eslBUFFER_SLURPSIZE)  
+    { if ((status = buffer_init_file_slurped(bf, filesize)) != eslOK) goto ERROR; }
+#ifdef _POSIX_VERSION
+  else if (filesize != -1 && filesize > eslBUFFER_SLURPSIZE) 
+    { if ((status = buffer_init_file_mmap(bf, filesize))    != eslOK) goto ERROR; }
+#endif
+  else
+    { if ((status = buffer_init_file_basic(bf))             != eslOK) goto ERROR; }
+
+  *ret_bf = bf;
+  return status;
+
+ ERROR:
+  if (status != eslENOTFOUND) { esl_buffer_Close(bf); bf = NULL; }
+  if (bf) {
+    if (bf->fp)       { fclose(bf->fp);     bf->fp       = NULL; }
+    if (bf->filename) { free(bf->filename); bf->filename = NULL; }
+    bf->pagesize = eslBUFFER_PAGESIZE;
+  }
+  *ret_bf = bf;
+  return status;
+}
+
+
+/* Function:  esl_buffer_OpenPipe()
+ * Synopsis:  Open a file through a command's stdout pipe (e.g. gunzip).
+ *
+ * Purpose:   Run the command <cmdfmt> on <filename> and capture its <stdout>
+ *            stream for parsing. Return the open <ESL_BUFFER> in
+ *            <*ret_bf>.
+ *            
+ *            <cmdfmt> has a restricted format; it is a <printf()>-style
+ *            format string with a single <%s>, where <filename> is to
+ *            be substituted. An example <cmdfmt> is "gzip -dc %s
+ *            2>/dev/null".
+ *            
+ *            <filename> is checked for existence and read permission
+ *            before a command line is constructed.
+
+ *            <filename> may be <NULL>. In this case, <cmdfmt> is
+ *            assumed to be be the complete command, and (obviously)
+ *            the diagnostic check for <filename>
+ *            existence/readability is skipped. This gives you some
+ *            ability to skip the restricted single-argument format of
+ *            <cmdfmt>.  If you need to do something fancier with a
+ *            pipe, you can always open and manage it yourself and use
+ *            <esl_buffer_OpenStream()>.
+ *            
+ *            <popen()> executes the command under </bin/sh>.
+ *            
+ *            The <stderr> stream of the command should almost
+ *            certainly be redirected (else it will appear on output
+ *            of your program). In general it should be discarded
+ *            to </dev/null>. One of the only signs of a command
+ *            failure is that the command produces a "short read", of
+ *            less than <bf->pagesize> (and often 0, on a complete
+ *            failure, if <stderr> has been discarded).  If <stderr>
+ *            is longer than the buffer's <pagesize>, we may not
+ *            accurately detect error conditions. If you must capture
+ *            <stderr> (for example with a <cmdfmt> like
+ *            "gzip -dc %s 2>&1") be aware that the parser may
+ *            see that output as "successful" execution, if it's long
+ *            enough.
+ *            
+ *            The reason to pass <cmdfmt> and <filename> separately is
+ *            to enable better error diagnostics. <popen()> itself
+ *            tends to "succeed" whether the command or the file exist
+ *            or not.  By having <filename>, we can check for its
+ *            existence/readability first.
+ *            
+ *            The reason that error checking <popen()> isn't entirely
+ *            straightforward is that we don't see the exit status of
+ *            the command until we <pclose()>. We can only <pclose()>
+ *            when we're done loading data from the file, and that
+ *            only happens here on a short initial read. If we do get
+ *            a short read, we <pclose()>, get and check the command's
+ *            exit status, and return the <ESL_BUFFER> in an
+ *            <eslBUFFER_ALLFILE> state with <bf->cmdline> set.
+ *
+ * Args:      filename - file name (or path) to plug into <cmdfmt>; or NULL 
+ *                       if <cmdfmt> is complete command already
+ *            cmdfmt   - command to execute (with /bin/sh) and capture
+ *                       stdout from.
+ *           *ret_bf   - RETURN: new ESL_BUFFER
+ *
+ * Returns:   <eslOK> on success, and <*ret_bf> is the new <ESL_BUFFER>.
+ * 
+ *            <eslENOTFOUND> if <filename> isn't found or isn't readable.
+ *
+ *            <eslFAIL> if the constructed command fails - which
+ *            usually means that the program isn't found or isn't
+ *            executable, or that the command returned nonzero
+ *            (quickly, i.e. with zero or little output and a 'short
+ *            read').
+ *            
+ *            On any normal error, the <*ret_bf> is returned (in an
+ *            <eslBUFFER_UNSET> state) and <bf->errmsg> contains a
+ *            user-directed error message.
+ *
+ * Throws:    <eslESYS> on <*sprintf()> or <fread()> failure.
+ *            <eslEMEM> on allocation failure.
+ *            
+ *            On any exception, <*ret_bf> is NULL.
+ */
+int
+esl_buffer_OpenPipe(const char *filename, const char *cmdfmt, ESL_BUFFER **ret_bf)
+{
+  ESL_BUFFER *bf  = NULL;
+  char       *cmd = NULL;
+  int         status;
+
+  if ((status = buffer_create(&bf)) != eslOK) goto ERROR;
+
+  if (filename && ! esl_FileExists(filename)) 
+    ESL_XFAIL(eslENOTFOUND, bf->errmsg, "couldn't read file %s", filename);
+
+  if (filename) { if ((status = esl_sprintf(&cmd, cmdfmt, filename)) != eslOK) goto ERROR; }
+  else          { if ((status = esl_strdup(cmdfmt, -1, &cmd))        != eslOK) goto ERROR; }
+
+  if ((bf->fp = popen(cmd, "r")) == NULL) 
+    ESL_XFAIL(eslENOTFOUND, bf->errmsg, "couldn't popen() the command: %s\n", cmd);
+
+  if (            (status = esl_strdup(cmd,      -1, &(bf->cmdline)))  != eslOK) goto ERROR;
+  if (filename && (status = esl_strdup(filename, -1, &(bf->filename))) != eslOK) goto ERROR;
+
+  ESL_ALLOC(bf->mem, sizeof(char) * bf->pagesize);
+  bf->balloc  = bf->pagesize;
+
+  bf->n = fread(bf->mem, sizeof(char), bf->pagesize, bf->fp);
+  /* Now check for various errors on a short read. A short read can mean:
+   *    - a small file; success, and we have the whole file in one page 
+   *    - popen() "succeeded" but the command failed
+   *    - an fread() failure
+   * Sort it out. The trick here is that we don't get the exit status
+   * of <cmd> until we pclose(). So (assuming it isn't fread() itself
+   * that failed) we take advantage of the fact that we can set the
+   * ESL_BUFFER to a eslBUFFER_ALLFILE state on a short initial read;
+   * pclose() and check command exit status. 
+   * This pretty much relies on what <stderr> from <cmd> looks like;
+   * it needs to either be redirected, or short enough to be a short read.
+   */   
+  if (bf->n < bf->pagesize) 
+    {
+      if (ferror(bf->fp))      ESL_XEXCEPTION(eslESYS, "fread() failed");
+      if (pclose(bf->fp) != 0) {
+	bf->fp = NULL;		/* error block is going to try to pclose() too */
+	ESL_XFAIL(eslFAIL, bf->errmsg, "pipe command '%s' did not succeed", cmd);
+      }
+      bf->fp      = NULL;
+      bf->balloc  = 0;
+      bf->mode_is = eslBUFFER_ALLFILE;
+    }
+  else
+    bf->mode_is = eslBUFFER_CMDPIPE;
+
+  free(cmd);
+  *ret_bf = bf;
+  return eslOK;
+
+ ERROR:
+  if (status != eslENOTFOUND && status != eslFAIL) { esl_buffer_Close(bf); bf = NULL; }
+  if (bf) {	/* restore state to UNSET; w/ error message in errmsg */
+    if (bf->mem)      { free(bf->mem);      bf->mem      = NULL; }
+    if (bf->fp)       { pclose(bf->fp);     bf->fp       = NULL; }
+    if (bf->filename) { free(bf->filename); bf->filename = NULL; }
+    if (bf->cmdline)  { free(bf->cmdline);  bf->cmdline  = NULL; }
+    bf->n      = 0;
+    bf->balloc = 0;
+  }
+  if (cmd) free(cmd);
+  *ret_bf = bf;
+  return status;
+  
+}
+
+/* Function:  esl_buffer_OpenMem()
+ * Synopsis:  "Open" an existing string for parsing.
+ *
+ * Purpose:   Given a buffer or string <p> of length <n>, turn it into
+ *            an <ESL_BUFFER>. Return the new buffer in <*ret_bf>.
+ *            
+ *            The memory for <p> is still managed by the caller. 
+ *            Caller should free it, if necessary, only after the 
+ *            <ESL_BUFFER> has been closed. 
+ *            
+ *            As a special case, if <n> is -1, <p> is assumed to be a
+ *            \verb+\0+-terminated string and its length is calculated with
+ *            <strlen()>.
+ *
+ * Args:      p      - ptr to buffer or string
+ *            n      - length of buffer/string <p>, in bytes
+ *            ret_bf - RETURN: new ESL_BUFFER
+ *
+ * Returns:   <eslOK> on success, and <*ret_bf> points to new buffer.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            On any exception, <*ret_bf> is <NULL>.
+ */
+int
+esl_buffer_OpenMem(const char *p, esl_pos_t n, ESL_BUFFER **ret_bf)
+{
+  ESL_BUFFER *bf = NULL;
+  int         status;
+
+  if ((status = buffer_create(&bf)) != eslOK) goto ERROR;
+
+  bf->mem     = (char *) p;	/* force discard of const qualifier; this is ok; mem won't be altered in eslBUFFER_STRING mode */
+  bf->n       = (n == -1) ? strlen(p) : n;
+  bf->mode_is = eslBUFFER_STRING;
+
+  *ret_bf = bf;
+  return eslOK;
+
+ ERROR:
+  if (bf) { /* on error, restore to UNSET state */				
+    bf->mem     = NULL;
+    bf->n       = 0;
+    bf->mode_is = eslBUFFER_UNSET;
+  }
+  *ret_bf = bf;
+  return status;
+}
+
+
+/* Function:  esl_buffer_OpenStream()
+ * Synopsis:  "Open" an existing stream for parsing.
+ *
+ * Purpose:   Given an open stream <fp> for reading, create an
+ *            <ESL_BUFFER> around it.
+ *            
+ *            <fp> is often <stdin>, for example.
+ *            
+ *            The caller remains responsible for closing <fp>, if it
+ *            opened it. 
+ * 
+ * Args:      fp     - stream to associate with new ESL_BUFFER
+ *           *ret_bf - RETURN: new ESL_BUFFER.
+ *
+ * Returns:   <eslOK> on success, and <*ret_bf> points to a new <ESL_BUFFER>.
+ *
+ * Throws:    <eslEINVAL>: <fp> is NULL, in error state, or already at eof before any reading occurs.
+ *            <eslESYS> : fread() failed
+ *            <eslEMEM> : an allocation failed
+ */
+int 
+esl_buffer_OpenStream(FILE *fp, ESL_BUFFER **ret_bf)
+{
+  ESL_BUFFER *bf = NULL;
+  int         status;
+
+  if ((status = buffer_create(&bf)) != eslOK) goto ERROR;
+
+  if (fp == NULL || ferror(fp) || feof(fp)) ESL_XEXCEPTION(eslEINVAL, "invalid stream");
+  bf->fp = fp;			/* a copy of <fp>; caller is still responsible for it  */
+
+  ESL_ALLOC(bf->mem, sizeof(char) * bf->pagesize);
+  bf->balloc  = bf->pagesize;
+
+  bf->n       = fread(bf->mem, sizeof(char), bf->pagesize, bf->fp);
+  if (bf->n < bf->pagesize && ferror(bf->fp))
+    ESL_XEXCEPTION(eslESYS, "failed to read first chunk of stream");
+
+  bf->mode_is = eslBUFFER_STREAM;
+  *ret_bf = bf;
+  return eslOK;
+
+ ERROR:
+  esl_buffer_Close(bf); bf = NULL;    /* thrown errors  */
+  if (bf)			      /* normal errors  */
+    { /* restore bf to UNSET state */
+      if (bf->mem)  { free(bf->mem); bf->mem = NULL; }
+      bf->fp      = NULL;
+      bf->n       = 0;
+      bf->balloc  = 0;
+      bf->mode_is = eslBUFFER_UNSET;
+    }
+  *ret_bf = bf; /* NULL, if creation failed; otherwise bf->errmsg may be useful to caller */
+  return status;
+}
+
+/* Function:  esl_buffer_Close()
+ * Synopsis:  Close an input buffer.
+ * Incept:    SRE, Mon Feb 14 09:09:04 2011 [Janelia]
+ *
+ * Purpose:   Close the input buffer <bf>, freeing all resources that it
+ *            was responsible for.
+ *
+ * Args:      bf  - the input buffer
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslESYS> on a system call failure such as <munmap()>, <pclose()>, or <fclose()>.
+ *
+ * Note:      error handling here departs from usual idiom, because we try to tolerate errors
+ *            and continue free'ing resources; only at the end do we return a failure code, if
+ *            something went awry.
+ */
+int
+esl_buffer_Close(ESL_BUFFER *bf)
+{
+  if (bf) 
+    {
+      if (bf->mem) 
+	{
+	  switch (bf->mode_is) {
+	  case eslBUFFER_MMAP:   if (munmap(bf->mem, bf->n) == -1) ESL_EXCEPTION(eslESYS, "munmap() failed"); break;
+	  case eslBUFFER_STRING: break; /* caller provided and remains responsible for an input memory buffer */
+	  default:               free(bf->mem);
+	  }
+	}	
+
+      if (bf->fp)
+	{
+	  switch (bf->mode_is) {
+	  case eslBUFFER_CMDPIPE: if (pclose(bf->fp) == -1) ESL_EXCEPTION(eslESYS, "pclose() failed"); break;
+	  case eslBUFFER_STREAM:  break; /* caller provided and remains responsible for an open stream */
+	  default:                if (fclose(bf->fp) == -1) ESL_EXCEPTION(eslESYS, "fclose() failed"); break;
+	  }
+	}
+
+      if (bf->filename) free(bf->filename);
+      if (bf->cmdline)  free(bf->cmdline);
+      free(bf);
+    }
+  return eslOK;
+}
+/*--------------- end, ESL_BUFFER open/close --------------------*/
+
+
+
+
+
+/*****************************************************************
+ *# 2. Positioning and anchoring an ESL_BUFFER
+ *****************************************************************/
+
+/* Function:  esl_buffer_GetOffset()
+ * Synopsis:  Get the current position of parser in input buffer.
+ *
+ * Purpose:   Returns the current offset position of the parser
+ *            in the input buffer: <bf->baseoffset + bf->pos>.
+ */
+esl_pos_t
+esl_buffer_GetOffset(ESL_BUFFER *bf)
+{
+  return bf->baseoffset + bf->pos;
+}
+
+/* Function:  esl_buffer_SetOffset()
+ * Synopsis:  Reposition the input buffer to a new place.
+ * Incept:    SRE, Mon Jan 31 13:14:09 2011 [Janelia]
+ *
+ * Purpose:   Set the buffer's internal state (<bf->pos>) to position
+ *            <offset> in the input. Load new data into the buffer if
+ *            necessary.
+ * 
+ *            In modes where <bf->mem> contains the whole input
+ *            (ALLFILE, MMAP, STRING), this always works.
+ *             
+ *            In modes where we're reading a
+ *            nonrewindable/nonpositionable stream (STREAM, CMDPIPE),
+ *            <offset> may be at or ahead of the current position, but
+ *            rewinding to an offset behind the current position only
+ *            works if <offset> is within the current buffer
+ *            window. If the caller knows it wants to return to some
+ *            <offset> later, it should set an anchor to make sure it
+ *            stays in the buffer. New data may need to be read into
+ *            <bf->mem> to assure <pagesize> bytes are available. If
+ *            an anchor is set, this may require reoffset and/or
+ *            reallocation of <bf->mem>.
+ * 
+ *            FILE mode is handled as above, but additionally, if no
+ *            anchor is set and <offset> is not in the current buffer,
+ *            <fseeko()> is used to reposition in the open file. If
+ *            <fseeko()> is unavailable (non-POSIX compliant systems),
+ *            FILE mode is handled like other streams, with limited
+ *            rewind ability.
+ *
+ * Args:      bf     - input buffer being manipulated
+ *            offset - new position in the input
+ *                 
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <offset> is invalid, either because it 
+ *               would require rewinding the (nonrewindable) stream, 
+ *               or because it's beyond the end.
+ *            <eslESYS> if a system call fails, such as fread().
+ *            <eslEMEM> on allocation failure.
+ *            <eslEINCONCEIVABLE> if <bf> internal state is corrupt.
+ */
+int
+esl_buffer_SetOffset(ESL_BUFFER *bf, esl_pos_t offset)
+{
+  int status;
+
+  /* Case 1. We have the entire file in bf->mem (or an mmap of it);
+   *         Then this is trivial; we just set bf->pos.
+   */
+  if (bf->mode_is == eslBUFFER_ALLFILE ||
+      bf->mode_is == eslBUFFER_MMAP    || 
+      bf->mode_is == eslBUFFER_STRING)
+    {
+      bf->baseoffset = 0;  	/* (redundant: just to assure you that state is correctly set) */
+      bf->pos        = offset;
+    }
+
+  /* Case 2. We have an open stream.
+   *    Then:
+   *     - if offset is behind us, and in our current buffer window,
+   *       rewind is always possible and trivial: set bf->pos; or 
+   *     - if we're a FILE, and we're on a POSIX system with fseeko(),
+   *       and there's no anchor set -- then we can fseeko() to the
+   *       desired offset (no matter where it is) and 
+   *       reinitialize the buffer; or
+   *     - otherwise rewinding a stream is not possible, generating
+   *       an <eslEINVAL> error; or
+   *     - finally, the remaining possibility is that the offset is
+   *       ahead of (or at) the current parser position; fread()
+   *       (respecting any set anchor) until <offset> is in the
+   *       current buffer window, put bf->pos on it, and call
+   *       buffer_refill() to be sure that we either have at least
+   *       <bf->pagesize> bytes to parse (inclusive of current pos)
+   *       or the stream reaches EOF.
+   */
+  else if (bf->mode_is == eslBUFFER_STREAM  ||
+	   bf->mode_is == eslBUFFER_CMDPIPE ||
+	   bf->mode_is == eslBUFFER_FILE)
+    {
+      if (offset >= bf->baseoffset && offset < bf->baseoffset + bf->pos) /* offset is in our current window and behind our current pos; rewind is trivial */
+	{
+	  bf->pos = offset-bf->baseoffset;
+	}
+
+#ifdef _POSIX_VERSION
+      else if (bf->mode_is == eslBUFFER_FILE && bf->anchor == -1)
+	{			/* a posix-compliant system can always fseeko() on a file */
+	  if (fseeko(bf->fp, offset, SEEK_SET) != 0) ESL_EXCEPTION(eslEINVAL, "fseeko() failed, probably bad offset");
+	  bf->baseoffset = offset;
+	  bf->n          = 0;
+	  bf->pos        = 0;
+	  status = buffer_refill(bf, 0);
+	  if      (status == eslEOF) ESL_EXCEPTION(eslEINVAL, "requested offset is beyond end of file");
+	  else if (status != eslOK)  return status;
+	}
+#endif /*_POSIX_VERSION*/
+
+      else if (offset < bf->baseoffset)                /* we've already streamed past the requested offset. */
+	ESL_EXCEPTION(eslEINVAL, "can't rewind stream past base offset"); 
+
+      else  /* offset is ahead of pos (or on it); fast forward, put bf->pos on it, reloading bf->mem as needed, respecting any anchors */
+	{
+	  while (offset >= bf->baseoffset + bf->n)
+	    {
+	      bf->pos = bf->n;
+	      status  = buffer_refill(bf, 0);
+	      if      (status == eslEOF) ESL_EXCEPTION(eslEINVAL, "requested offset is beyond end of stream");
+	      else if (status != eslOK)  return status;
+	    }
+	  bf->pos = offset - bf->baseoffset;
+	  status  = buffer_refill(bf, 0);
+	  if (status != eslEOF && status != eslOK) return status;
+	}
+    }
+      
+  else ESL_EXCEPTION(eslEINCONCEIVABLE, "attempting to manipulate an uninitialized buffer");
+
+  return eslOK;
+}
+
+
+
+/* Function:  esl_buffer_SetAnchor()
+ * Synopsis:  Sets an anchor in an input stream.
+ *
+ * Purpose:   Set an anchor at byte <offset> (in input coords) in
+ *            input <bf>: which means, keep everything from this byte
+ *            on in buffer memory, until anchor is raised.
+ *            
+ *            The presence of an anchor affects new reads from <fp>;
+ *            <mem[r..n-1]> are protected from overwrite, and may be
+ *            moved to <mem[0..n-r-1]> as new data is read from the
+ *            stream.  Anchors are only needed for input streams that
+ *            we read chunkwise.  If entire input is already in <bf>,
+ *            setting an anchor is a no-op.
+ *            
+ *            In general, the caller should remember what anchor(s) it
+ *            sets, so it can raise them later with
+ *            <esl_buffer_RaiseAnchor()>.
+ * 
+ *            Byte <offset> must be in the current buffer window. If
+ *            not, an <eslEINVAL> exception is thrown.
+ * 
+ *            Only one anchor is active at a time. If an anchor is
+ *            already set for <bf>, the most upstream one is used.
+ *
+ * Args:      bf     - input buffer
+ *            offset - absolute position in input, <0..inputlen-1>
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <offset> is not in current buffer window.
+ */
+int
+esl_buffer_SetAnchor(ESL_BUFFER *bf, esl_pos_t offset)
+{
+  if (! bf->fp) return eslOK;	/* without an open stream, no-op */
+  if (offset < bf->baseoffset || offset > bf->baseoffset + bf->n)
+    ESL_EXCEPTION(eslEINVAL, "can't set an anchor outside current buffer");
+
+  if (bf->anchor == -1  || offset-bf->baseoffset < bf->anchor)
+    {   /* setting a new anchor */
+      bf->anchor  = offset-bf->baseoffset;
+      bf->nanchor = 1;
+    }
+  else if (offset-bf->baseoffset == bf->anchor) 
+    { /* reinforcing an anchor */
+      bf->nanchor++;
+    }
+
+  return eslOK;
+}
+
+/* Function:  esl_buffer_SetStableAnchor()
+ * Synopsis:  Set a stable anchor.
+ *
+ * Purpose:   Same as <esl_buffer_SetAnchor()>, except the anchor is
+ *            such that all pointers returned by <_Get*()> functions
+ *            (i.e. as opposed to just the last <_Get*> function)
+ *            will remain valid at least until the anchor is raised.
+ *
+ *            The main use of this is when the caller wants to get
+ *            multiple lines or tokens in the input before parsing 
+ *            them. 
+ *
+ *            A stable anchor prevents buffer refills/reloads from
+ *            moving the internal memory around while the anchor is
+ *            in place.
+ *
+ * Args:      bf     - input buffer
+ *            offset - absolute position in input, <0..inputlen-1>
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <offset> is not in current buffer window.
+ * 
+ * Notes:     We make a special call for stable anchors, as opposed
+ *            to most anchors, because the <memmove()> call here
+ *            to rebaseline the buffer's <mem> is expensive.
+ */
+int 
+esl_buffer_SetStableAnchor(ESL_BUFFER *bf, esl_pos_t offset)
+{
+  esl_pos_t ndel;
+  int       status;
+
+  if (! bf->fp) return eslOK;	/* without an open stream, no-op: everything is available */
+
+  if ( (status = esl_buffer_SetAnchor(bf, offset)) != eslOK) return status;
+
+  ndel       = bf->anchor;
+  bf->anchor = 0;
+  bf->n     -= ndel;
+  bf->pos   -= ndel;
+  if (bf->n) memmove(bf->mem, bf->mem+ndel, bf->n);
+  bf->baseoffset += ndel;
+  return eslOK;
+}
+
+
+/* Function:  esl_buffer_RaiseAnchor()
+ * Synopsis:  Raise an anchor.
+ *
+ * Purpose:   Declare that an anchor previously set at <offset>
+ *            in buffer <bf> may be raised. 
+ *            
+ *            <offset> is in absolute input coordinates (<0..len-1> for
+ *            an input of length <len>). Because it's supposed to be
+ *            anchored, this position ought to be in the current
+ *            buffer window. If an anchor is in effect in <bf>, 
+ *            <offset> should be at or distal to that anchor.
+ *
+ * Args:      bf      - input buffer
+ *            offset  - absolute position in input, <0..len-1>
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <offset> is outside current buffer window,
+ *            or if it is proximal to the active anchor in <bf>.
+ */
+int
+esl_buffer_RaiseAnchor(ESL_BUFFER *bf, esl_pos_t offset)
+{
+  if (offset < bf->baseoffset || offset > bf->baseoffset + bf->n)
+    ESL_EXCEPTION(eslEINVAL, "anchor is outside current buffer window? can't happen.");
+  if (bf->anchor > offset - bf->baseoffset)
+    ESL_EXCEPTION(eslEINVAL, "anchor is proximal to current active anchor");
+
+  if (bf->anchor ==  offset - bf->baseoffset) {
+    bf->nanchor--;
+    if (bf->nanchor == 0) bf->anchor = -1;
+  }
+  return eslOK;
+}
+/*--------------- end, ESL_BUFFER manipulation ------------------*/
+
+
+
+
+/*****************************************************************
+ *# 3. Raw access to the buffer
+ *****************************************************************/
+
+/* Function:  esl_buffer_Get()
+ * Synopsis:  Get a pointer into the current buffer window.
+ * Incept:    SRE, Mon Jan 31 20:45:22 2011 [Casa de Gatos]
+ *
+ * Purpose:   Given a buffer <bf>, return a pointer to the current
+ *            parsing position in <*ret_p>, and the number of valid
+ *            bytes from that position in <*ret_n>.
+ *            
+ *            If buffer is at EOF (no valid bytes remain), returns
+ *            <eslEOF> with <NULL> in <*ret_p> and 0 in <*ret_n>.
+ *            
+ *            The buffer's parsing position <bf->pos> is NOT 
+ *            changed. Another <Get()> call will return exactly
+ *            the same <p> and <n>. Each <Get()> call is generally
+ *            followed by a <Set()> call. It's the <Set()> call
+ *            that moves <bf->pos> and refills the buffer.
+ *            
+ *            Assumes that the buffer <bf> is correctly loaded,
+ *            with either at least <pagesize> bytes after the 
+ *            parser position, or near/at EOF.
+ *
+ * Args:      bf    - buffer to get ptr from
+ *            ret_p - RETURN: pointer to current parser position, or NULL on EOF
+ *            ret_n - RETURN: number of valid bytes at *ret_p, or 0 on EOF
+ *
+ * Returns:   <eslOK> on success;
+ *            <eslEOF> if no valid bytes remain in the input, or if
+ *               <*ret_n> is less than <nrequest>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure. 
+ *            <eslESYS> if fread() fails mysteriously.
+ *            <eslEINCONCEIVABLE> if internal state of <bf> is corrupt.
+ */
+int
+esl_buffer_Get(ESL_BUFFER *bf, char **ret_p, esl_pos_t *ret_n)
+{
+  *ret_p = (bf->pos < bf->n ? bf->mem + bf->pos : NULL);
+  *ret_n = (bf->pos < bf->n ? bf->n - bf->pos   : 0);
+  return   (bf->pos < bf->n ? eslOK             : eslEOF);
+}
+
+/* Function:  esl_buffer_Set()
+ * Synopsis:  Set position and correct state of the <ESL_BUFFER>.
+ * Incept:    SRE, Sun Jan  2 11:56:00 2011 [Zaragoza]
+ *
+ * Purpose:   Reset the state of buffer <bf>: we were recently
+ *            given a pointer <p> by an <esl_buffer_Get()> call
+ *            and we parsed <nused> bytes starting at <p[0]>. 
+ *            
+ *            <bf->pos> is set to point at <p+nused>, and we
+ *            reload the buffer (if necessary) to try to have at
+ *            least <bf->pagesize> bytes of input following that
+ *            position.
+ *            
+ *            One use is in raw parsing, where we stop parsing
+ *            somewhere in the buffer:
+ *               \begin{cchunk}
+ *               esl_buffer_Get(bf, &p, &n);
+ *                 (do some stuff on p[0..n-1], using up <nused> bytes)
+ *               esl_buffer_Set(bf, p, nused);
+ *               \end{cchunk}
+ *            This includes the case of nused=n, where we parse the
+ *            whole buffer that Get() gave us, and the Set() call may
+ *            be needed to load new input data before the next Get().
+ *            
+ *            Another use is an idiom for peeking at a token, line, or
+ *            a number of bytes without moving the parser position:
+ *              \begin{cchunk}
+ *              esl_buffer_GetLine(bf, &p, &n);
+ *                (do we like what we see in p[0..n-1]? no? then put it back)
+ *              esl_buffer_Set(bf, p, 0);
+ *              \end{cchunk}
+ *              
+ *            Because it is responsible for loading new input as
+ *            needed, Set() may reoffset and reallocate <mem>. If the
+ *            caller wants an anchor respected, it must make sure that
+ *            anchor is still in effect; i.e., a caller that is
+ *            restoring state to an <ESL_BUFFER> should call Set()
+ *            BEFORE calling RaiseAnchor().
+ * 
+ *            As a special case, if <p> is NULL, then <nused> is
+ *            ignored, <bf->pos> is left whereever it was, and the
+ *            only thing the <Set()> attempts to do is to fulfill the
+ *            pagesize guarantee from the current position. If a
+ *            <NULL> <p> has been returned by a Get*() call because we
+ *            reached EOF, for example in some parsing loop that the
+ *            EOF has broken us out of, it is safe to call
+ *            <esl_buffer_Set(bf, NULL, 0)>: this is a no-op on a
+ *            buffer that is at EOF.
+ *
+ * Args:      bf    - buffer to set 
+ *            p     - pointer that previous Get() gave us
+ *            nused - number of bytes we used, starting at p[0]
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. 
+ *            <eslESYS> if fread() fails mysteriously.
+ *            <eslEINCONCEIVABLE> if internal state of <bf> is corrupt.
+ */
+int
+esl_buffer_Set(ESL_BUFFER *bf, char *p, esl_pos_t nused)
+{
+  int status;
+  if (p) bf->pos = (p - bf->mem) + nused;
+  status = buffer_refill(bf, 0);
+  if (status == eslOK || status == eslEOF) return eslOK; 
+  else return status;
+}
+/*----------------- end, lowest level access --------------------*/
+
+
+
+
+/*****************************************************************
+ *# 4. Line-based parsing
+ *****************************************************************/
+
+/* Function:  esl_buffer_GetLine()
+ * Synopsis:  Get ptr to next line in buffer.
+ *
+ * Purpose:   Get a pointer <*opt_p> to the next line in buffer <bf>,
+ *            and the length of the line in <*opt_n> (in bytes, and
+ *            exclusive of newline bytes). Advance buffer position
+ *            past (one) newline, putting it on the next valid data
+ *            byte. Thus <p[0..n-1]> is one data line. It is not
+ *            NUL-terminated.
+ *            
+ *            <bf>'s buffer may be re(al)located as needed, to get
+ *            the whole line into the current window.
+ *            
+ *            Because the caller only gets a pointer into <bf>'s 
+ *            internal state, no other <esl_buffer> functions 
+ *            should be called until the caller is done with <p>.
+ *            
+ *            To peek at next line, use Set to restore <bf>'s state:
+ *            \begin{cchunk}
+ *               esl_buffer_GetLine(bf, &p, &n);
+ *               esl_buffer_Set(bf, p, 0);           
+ *            \end{cchunk}
+ *            
+ * Args:      bf    - buffer to get line from
+ *           *opt_p - optRETURN: pointer to next line
+ *           *opt_n - optRETURN: line length, exclusive of newline.
+ *
+ * Returns:   <eslOK> on success.  <*opt_p> is a valid pointer into <bf>'s buffer,
+ *            and <*opt_n> is >=0. (0 would be an empty line.)
+ *
+ *            <eslEOF> if there's no line (even blank).
+ *            On EOF, <*opt_p> is NULL and <*opt_n> is 0.
+ *
+ * Throws:    <eslEMEM> if allocation fails.
+ *            <eslESYS> if a system call such as fread() fails unexpectedly
+ *            <eslEINCONCEIVABLE> if <bf> internal state is corrupt.
+ */
+int
+esl_buffer_GetLine(ESL_BUFFER *bf, char **opt_p, esl_pos_t *opt_n)
+{
+  int       anch_set = FALSE;
+  esl_pos_t nc, nskip;
+  esl_pos_t anch;
+  int       status;
+
+  /* The next line starts at offset <baseoffset + pos> */
+  anch = bf->baseoffset + bf->pos;
+  status = esl_buffer_SetAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } /* we know bf->pos is in current window */
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set = TRUE;
+
+  if ( (status = buffer_countline(bf, &nc, &nskip)) != eslOK) goto ERROR;  /* includes normal EOF. */
+
+  status = buffer_refill(bf, nskip);
+  if (status != eslEOF && status != eslOK) goto ERROR; /* accept EOF here, we've already got our line */
+  
+  anch_set = FALSE;
+  status = esl_buffer_RaiseAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } /* we know bf->pos is in current window */
+  else if (status != eslOK)     { goto ERROR; }
+  if (opt_p) *opt_p = bf->mem + bf->pos;
+  if (opt_n) *opt_n = nc;
+  bf->pos += nskip;
+  return eslOK;
+
+ ERROR:
+  if (anch_set) esl_buffer_RaiseAnchor(bf, anch);
+  if (opt_p)   *opt_p = NULL;
+  if (opt_n)   *opt_n = 0;
+  return status;
+}
+
+/* Function:  esl_buffer_FetchLine()
+ * Synopsis:  Fetch next line from a buffer.
+ * Incept:    SRE, Tue Feb  1 15:37:34 2011 [Janelia]
+ *
+ * Purpose:   Get the next line from the buffer <bf>, starting from its
+ *            current position.  Return an allocated copy of it in
+ *            <*opt_p>, and its length in bytes in <*opt_n>.  Advance
+ *            the buffer position past (one) newline, putting it on
+ *            the next valid byte. The last line in a file does not
+ *            need to be terminated by a newline. The returned memory is not
+ *            NUL-terminated.
+ *            
+ *            If the next line is empty (solely a newline character),
+ *            returns <eslOK>, but with <*opt_p> as <NULL> and
+ *            <*opt_n> as 0.
+ *            
+ *            Caller is responsible for free'ing <*opt_p>. 
+ *            
+ *            Because <*ret_p> is a copy of <bf>'s internal buffer,
+ *            caller may continue to manipulate <bf>, unlike
+ *            <esl_buffer_GetLine()>.
+ *            
+ * Args:      bf      - buffer to get line from
+ *            *opt_p  - optRETURN: pointer to allocated copy of next line
+ *            *opt_n  - optRETURN: length of <*opt_p>
+ *
+ * Returns:   <eslOK> on success.  Either <*opt_p> is an allocated copy
+ *            of next line and <*opt_n> is $>0$, or <*opt_p> is <NULL>
+ *            and <*opt_n> is 0 (in the case where the line is empty, 
+ 8            immediately terminated by newline, such as \verb+"\n"+.).
+ *
+ *            <eslEOF> if there's no line (even blank).
+ *            On EOF, <*opt_p> is NULL and <*opt_n> is 0.
+ *
+ * Throws:    <eslEMEM> if allocation fails.
+ *            <eslESYS> if a system call such as fread() fails unexpectedly
+ *            <eslEINCONCEIVABLE> if <bf> internal state is corrupt.
+ */
+int 
+esl_buffer_FetchLine(ESL_BUFFER *bf, char **opt_p, esl_pos_t *opt_n)
+{
+  int       anch_set = FALSE;
+  char     *p        = NULL;
+  esl_pos_t anch;
+  esl_pos_t nc, nskip;
+  int       status;
+
+  anch = bf->baseoffset + bf->pos;
+  status = esl_buffer_SetAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } /* we know bf->pos is in current window */
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set = TRUE;
+
+  if ( (status = buffer_countline(bf, &nc, &nskip)) != eslOK) goto ERROR; /* inc. normal EOF */
+  
+  if (nc) { /* nc==0 on an empty line - then <*opt_p> comes back NULL */ 
+    ESL_ALLOC(p, sizeof(char) * nc);
+    memcpy(p, bf->mem+bf->pos, nc);
+  }
+  bf->pos += nskip;
+
+  anch_set = FALSE;
+  status = esl_buffer_RaiseAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } 
+  else if (status != eslOK)     { goto ERROR; }
+
+  status = buffer_refill(bf, 0);
+  if (status != eslEOF && status != eslOK) goto ERROR; /* accept EOF here, we've already got our line */
+
+  if (opt_p) *opt_p = p; else free(p);
+  if (opt_n) *opt_n = nc;
+  return eslOK;
+
+ ERROR:
+  if (anch_set) esl_buffer_RaiseAnchor(bf, anch);
+  if (p)        free(p);
+  if (opt_p)    *opt_p = NULL;
+  if (opt_n)    *opt_n = 0;
+  return status;
+}
+
+/* Function:  esl_buffer_FetchLineAsStr()
+ * Synopsis:  Fetch next line from buffer, and NUL-terminate it.
+ * Incept:    SRE, Thu Feb 10 09:22:47 2011 [Janelia]
+ *
+ * Purpose:   Same as <esl_buffer_FetchLine()> except the
+ *            returned line is <NUL>-terminated and can be treated
+ *            as a string.
+ *
+ * Args:      bf    - input buffer
+ *           *opt_s - optRETURN: pointer to allocated copy of next line
+ *           *opt_n - optRETURN: strlen() of <*opt_s>
+ *
+ * Returns:   <eslOK> on success.  <*opt_p> is an allocated copy
+ *            of next line and <*opt_n> is >=0. (0 would be an empty line
+ *            terminated by newline, such as \verb+\n+.)
+ *
+ *            <eslEOF> if there's no line (even blank).
+ *            On EOF, <*opt_p> is NULL and <*opt_n> is 0.
+ *
+ * Throws:    <eslEMEM> if allocation fails.
+ *            <eslEINVAL> if an anchoring attempt is invalid
+ *            <eslESYS> if a system call such as fread() fails unexpectedly
+ *            <eslEINCONCEIVABLE> if <bf> internal state is corrupt.
+ */
+int 
+esl_buffer_FetchLineAsStr(ESL_BUFFER *bf, char **opt_s, esl_pos_t *opt_n)
+{
+  int       anch_set = FALSE;
+  char     *s        = NULL;
+  esl_pos_t anch;
+  esl_pos_t nc, nskip;
+  int       status;
+	  
+  anch = bf->baseoffset + bf->pos;
+  status = esl_buffer_SetAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } /* we know bf->pos is in current window */
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set = TRUE;
+
+  if ( (status = buffer_countline(bf, &nc, &nskip)) != eslOK) goto ERROR; /* inc normal EOF */
+
+  ESL_ALLOC(s, sizeof(char) * (nc+1));
+  memcpy(s, bf->mem+bf->pos, nc);
+  s[nc] = '\0';
+  bf->pos += nskip;
+
+  anch_set = FALSE;
+  status = esl_buffer_RaiseAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } 
+  else if (status != eslOK)     { goto ERROR; }
+
+  status = buffer_refill(bf, 0);
+  if (status != eslEOF && status != eslOK) goto ERROR; /* accept EOF here, we've already got our line */
+
+  if (opt_s) *opt_s = s; else free(s);
+  if (opt_n) *opt_n = nc;
+  return eslOK;
+
+ ERROR:
+  if (anch_set) esl_buffer_RaiseAnchor(bf, anch);
+  if (s)        free(s);
+  if (opt_s)    *opt_s = NULL;
+  if (opt_n)    *opt_n = 0;
+  return status;
+
+}
+/*------------------ end, line-based parsing --------------------*/
+
+/*****************************************************************
+ *# 5. Token-based parsing
+ *****************************************************************/
+
+/* Function:  esl_buffer_GetToken()
+ * Synopsis:  Get next token.
+ * Incept:    SRE, Sat Jan  1 19:42:44 2011 [Janelia]
+ *
+ * Purpose:   Find the next token in <bf> delimited by the separator
+ *            characters in <sep> or newline. Return a pointer
+ *            to that token in <*opt_tok>, and its length in <*opt_n>.
+ *            A 'token' consists of one or more characters that are
+ *            neither in <sep> nor a newline (verb+\r+ or \verb+\n+).
+ *            
+ *            Because the caller only gets a pointer into the buffer's
+ *            current memory, it should not call another
+ *            <esl_buffer_*> function until it's done with the token
+ *            or made a copy of it.
+ *            
+ *            In detail, starting from the buffer <bf>'s current
+ *            point; first skip past any leading characters in <sep>. If EOF
+ *            is reached, return <eslEOF>. If the point is now on a
+ *            newline, skip past it and return <eslEOL>. Set an anchor
+ *            at the current point. Count how many non-separator
+ *            characters <n> occur from the current point <p>
+ *            (expand/refill buffer as needed), and define the token
+ *            as <p[0..n-1]>. Skip any trailing characters in <sep>. 
+ *            Set the point to the start of the next token (a char not
+ *            in <sep>.) Release the anchor and return.
+ *            
+ *            If caller knows how many tokens it expects on each line,
+ *            it should not include \verb+"\r\n"+ in its <sep>. This way,
+ *            hitting a newline will cause a <eslEOL> return. The
+ *            caller can check for expected or unexpected <EOL>'s.
+ *            
+ *            If the caller doesn't care how many tokens it allows per
+ *            line, it should include \verb+"\r\n"+ in its <sep>. Now
+ *            newlines will be skipped like any other separator
+ *            character, and the only normal returns are <eslEOF> and
+ *            <eslOK>.
+ *            
+ * Args:      bf      - open buffer
+ *            sep     - string defining separator characters; <" \t\r\n"> for example.
+ *            opt_tok - optRETURN: pointer to token in the <bf>
+ *            opt_n   - optRETURN: number of characters in the token
+ *
+ * Returns:   <eslOK> if a token is found; <*ret_p> points to it,
+ *            and <*opt_n> is its length in chars (> 0). The current
+ *            point is at the start of the next token.
+ *            
+ *            <eslEOF> if the input ends before any token is found.
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The current
+ *            point is at EOF.
+ *            
+ *            <eslEOL> if a line ends before a token is found.  (This
+ *            case only arises if *sep does not contain newline.)
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The current
+ *            point is at the next character following the newline.
+ *            
+ *            <bf->mem> may be modified and/or reallocated, if new
+ *            input reads are required to find the entire token.
+ *
+ * Throws:    <eslEMEM> if an allocation fails.
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The
+ *            current point is undefined.
+ */
+int
+esl_buffer_GetToken(ESL_BUFFER *bf, const char *sep, char **opt_tok, esl_pos_t *opt_n)
+{
+  esl_pos_t anch;
+  esl_pos_t nc;
+  int       anch_set = FALSE;
+  int       status;
+
+  if ( (status = buffer_skipsep(bf, sep)) != eslOK) goto ERROR; /* includes EOF */
+  /* Now bf->pos is sitting on first char after seps */
+
+  if ( ( status = buffer_newline(bf)) != eslOK) goto ERROR; /* includes EOL */
+
+  anch = bf->baseoffset + bf->pos;
+  status = esl_buffer_SetAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; } /* we know bf->pos is in current window */
+  else if (status != eslOK)     { goto ERROR; }
+
+  anch_set = TRUE;
+
+  if ( (status = buffer_counttok(bf, sep, &nc)) != eslOK) goto ERROR;
+  bf->pos     += nc;
+
+  if ((status = buffer_skipsep(bf, sep))  != eslOK && status != eslEOF) goto ERROR;
+  if ((status = buffer_refill(bf, 0))     != eslOK && status != eslEOF) goto ERROR;
+
+  if (opt_tok) *opt_tok = bf->mem + (anch - bf->baseoffset);
+  if (opt_n)   *opt_n   = nc;
+  anch_set     = FALSE;
+
+  status = esl_buffer_RaiseAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; }
+  else if (status != eslOK)     { goto ERROR; }
+  return eslOK;
+  
+ ERROR:
+  if (anch_set) esl_buffer_RaiseAnchor(bf, anch);
+  if (opt_tok) *opt_tok = NULL;
+  if (opt_n)   *opt_n   = 0;
+  return status;
+}
+
+/* Function:  esl_buffer_FetchToken()
+ * Synopsis:  Fetch copy of next token. 
+ * Incept:    SRE, Thu Feb 24 08:54:54 2011 [Janelia]
+ *
+ * Purpose:   Essentially the same as <esl_buffer_GetToken()>, except a
+ *            copy of the token is made into newly allocated memory,
+ *            and a pointer to this memory is returned in <*opt_tok>.
+ *            The caller is responsible for freeing the memory. 
+ *
+ *            The token is raw memory, not a <NUL>-terminated string. 
+ *            To fetch tokens as <NUL>-terminated strings, see 
+ *            <esl_buffer_GetTokenAsStr()>.
+ *
+ * Args:      bf      - open buffer
+ *            sep     - string defining separator characters; <" \t\r\n"> for example.
+ *            opt_tok - optRETURN: allocated copy of token
+ *            opt_n   - optRETURN: number of characters in the token
+ *
+ * Returns:   <eslOK> if a token is found; <*ret_p> points to it,
+ *            and <*opt_n> is its length in chars (> 0). The current
+ *            point is at the start of the next token.
+ *            
+ *            <eslEOF> if the input ends before any token is found.
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The current
+ *            point is at EOF.
+ *            
+ *            <eslEOL> if a line ends before a token is found.  (This
+ *            case only arises if *sep does not contain newline.)
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The current
+ *            point is at the next character following the newline.
+ *            
+ *            <bf->mem> may be modified and/or reallocated, if new
+ *            input reads are required to find the entire token.
+ *
+ * Throws:    <eslEMEM> if an allocation fails.
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The
+ *            current point is undefined.
+ */
+int
+esl_buffer_FetchToken(ESL_BUFFER *bf, const char *sep, char **opt_tok, esl_pos_t *opt_n)
+{
+  char     *tok      = NULL;
+  esl_pos_t anch;
+  esl_pos_t nc;
+  int       anch_set = FALSE;
+  int       status;
+
+  if ( (status = buffer_skipsep(bf, sep)) != eslOK) goto ERROR; /* includes EOF */
+  /* Now bf->pos is sitting on first char after seps */
+
+  if ( ( status = buffer_newline(bf)) != eslOK) goto ERROR; /* includes EOL */
+
+  anch = bf->baseoffset + bf->pos;
+  status = esl_buffer_SetAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; }
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set = TRUE;
+
+  if ( (status = buffer_counttok(bf, sep, &nc)) != eslOK) goto ERROR;
+  /* now we know that pos..pos+nc-1 is a token; pos+nc is the next parser position */
+
+  /* copy the token */
+  ESL_ALLOC(tok, sizeof(char) * nc);
+  memcpy(tok, bf->mem+bf->pos, nc);
+  bf->pos     += nc;
+
+  /* in a Fetch, we can raise the anchor before the new refill */
+  status = esl_buffer_RaiseAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; }
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set     = FALSE;
+
+  if ((status = buffer_skipsep(bf, sep))  != eslOK && status != eslEOF) goto ERROR;
+  if ((status = buffer_refill(bf, 0))     != eslOK && status != eslEOF) goto ERROR; 
+
+  if (opt_tok) *opt_tok = tok; else free(tok);
+  if (opt_n)   *opt_n   = nc;
+  return eslOK;
+  
+ ERROR:
+  if (tok)      free(tok);
+  if (anch_set) esl_buffer_RaiseAnchor(bf, anch);
+  if (opt_tok) *opt_tok = NULL;
+  if (opt_n)   *opt_n   = 0;
+  return status;
+}
+
+
+/* Function:  esl_buffer_FetchTokenAsStr()
+ * Synopsis:  Fetch copy of next token as \verb+\0+-terminated string.
+ * Incept:    SRE, Sat Jan  1 19:31:57 2011 [Zaragoza]
+ *
+ * Purpose:   Essentially the same as <esl_buffer_FetchToken()> 
+ *            except the copied token is \verb+\0+-terminated so it
+ *            can be treated as a string.
+ *
+ * Args:      bf      - open buffer
+ *            sep     - string defining separator characters; <" \t\r\n"> for example.
+ *            opt_tok - optRETURN: allocated copy of token
+ *            opt_n   - optRETURN: number of characters in the token
+ *
+ * Returns:   <eslOK> if a token is found; <*ret_p> points to it,
+ *            and <*opt_n> is its length in chars (> 0). The current
+ *            point is at the start of the next token.
+ *            
+ *            <eslEOF> if the input ends before any token is found.
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The current
+ *            point is at EOF.
+ *            
+ *            <eslEOL> if a line ends before a token is found.  (This
+ *            case only arises if *sep does not contain newline.)
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The current
+ *            point is at the next character following the newline.
+ *            
+ *            <bf->mem> may be modified and/or reallocated, if new
+ *            input reads are required to find the entire token.
+ *
+ * Throws:    <eslEMEM> if an allocation fails.
+ *            Now <*ret_p> is <NULL> and <*opt_n> is 0. The
+ *            current point is undefined.
+ */
+int
+esl_buffer_FetchTokenAsStr(ESL_BUFFER *bf, const char *sep, char **opt_tok, esl_pos_t *opt_n)
+{
+  char     *tok      = NULL;
+  esl_pos_t anch;
+  esl_pos_t nc;
+  int       anch_set = FALSE;
+  int       status;
+
+  if ( (status = buffer_skipsep(bf, sep)) != eslOK) goto ERROR; /* includes EOF */
+  /* Now bf->pos is sitting on first char after seps */
+
+  if ( ( status = buffer_newline(bf)) != eslOK) goto ERROR; /* includes EOL */
+
+  anch = bf->baseoffset + bf->pos;
+  status = esl_buffer_SetAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; }
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set = TRUE;
+
+  if ( (status = buffer_counttok(bf, sep, &nc)) != eslOK) goto ERROR;
+  /* now we know that pos..pos+nc-1 is a token; pos+nc is the next parser position */
+
+  /* copy the token */
+  ESL_ALLOC(tok, sizeof(char) * (nc+1));
+  memcpy(tok, bf->mem+bf->pos, nc);
+  tok[nc] = '\0';
+  bf->pos += nc;
+
+  /* in a Fetch, we can raise the anchor before the new refill */
+  status = esl_buffer_RaiseAnchor(bf, anch);
+  if      (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; }
+  else if (status != eslOK)     { goto ERROR; }
+  anch_set     = FALSE;
+
+  
+  if ((status = buffer_skipsep(bf, sep))  != eslOK && status != eslEOF) goto ERROR;
+  if ((status = buffer_refill(bf, 0))     != eslOK && status != eslEOF) goto ERROR; 
+
+  if (opt_tok) *opt_tok = tok; else free(tok);
+  if (opt_n)   *opt_n   = nc;
+  return eslOK;
+  
+ ERROR:
+  if (tok)      free(tok);
+  if (anch_set) esl_buffer_RaiseAnchor(bf, anch);
+  if (opt_tok) *opt_tok = NULL;
+  if (opt_n)   *opt_n   = 0;
+  return status;
+}
+/*----------------- end, token-based parsing --------------------*/
+  
+
+
+/*****************************************************************
+ *# 6. Binary (fread-like) parsing
+ *****************************************************************/
+
+/* Function:  esl_buffer_Read()
+ * Synopsis:  Copy a fixed number of bytes from a buffer. 
+ * Incept:    SRE, Thu Feb 24 09:25:04 2011 [Janelia]
+ *
+ * Purpose:   Given an input buffer <bf>, read exactly <nbytes>
+ *            characters into memory <p> provided by the caller.
+ * 
+ *            Suitable for copying known-width scalars from
+ *            binary files, as in:
+ *            \begin{cchunk}
+ *                char c;
+ *                int  n;
+ *                esl_buffer_Read(bf, sizeof(char), c);
+ *                esl_buffer_Read(bf, sizeof(int),  n);
+ *            \end{cchunk}
+ *
+ * Args:      bf     - open input buffer
+ *            nbytes - number of characters to read
+ *            p      - caller-provided memory for storing the copied bytes
+ *
+ * Returns:   <eslOK> on success; <p> contains exactly <nbytes>
+ *            of data from <bf>, and the point is advanced by <nbytes>.
+ *
+ *            <eslEOF> if less than <nbytes> characters remain 
+ *            in <bf>. Point is unchanged.
+ * 
+ * Throws:    <eslEMEM> if an allocation fails.
+ *            <eslESYS> if an fread() fails mysteriously.
+ *            <eslEINCONCEIVABLE> if internal state of <bf> is corrupted.
+ */
+int 
+esl_buffer_Read(ESL_BUFFER *bf, size_t nbytes, void *p)
+{
+  int status;
+
+  if (bf->n - bf->pos < nbytes)
+    {
+      status = buffer_refill(bf, nbytes + bf->pagesize);
+      if       (status == eslEOF)       return eslEOF;
+      else if  (status != eslOK)        return status; /* EMEM, ESYS, EINCONCEIVABLE */
+      else if  (bf->n-bf->pos < nbytes) return eslEOF;
+    }
+
+  memcpy(p, bf->mem+bf->pos, nbytes);
+  bf->pos += nbytes;
+
+  if ((status = buffer_refill(bf, 0)) != eslOK && status != eslEOF) return status; /* accept EOF, we've already copied what we need */
+  return eslOK;
+}
+/*------------ end, binary (fread-like) parsing -----------------*/
+
+
+/*****************************************************************
+ * 7. Private (static) functions
+ *****************************************************************/
+
+/* buffer_create()
+ * SRE, Sun Jan 23 19:18:40 2011 [UA975 IAD->SFO]
+ * 
+ * Allocate a new ESL_BUFFER and return it in <*ret_bf>;
+ * with all fields initialized; return <eslOK>.
+ * 
+ * On allocation failure, returns <eslEMEM> and <*ret_bf>
+ * is <NULL>.
+ */
+static int
+buffer_create(ESL_BUFFER **ret_bf)
+{
+  ESL_BUFFER *bf  = NULL;
+  int         status;
+
+  ESL_ALLOC(bf, sizeof(ESL_BUFFER));
+  bf->mem        = NULL;
+  bf->n          = 0;
+  bf->balloc     = 0;
+  bf->pos        = 0;
+  bf->baseoffset = 0;
+  bf->anchor     = -1;
+  bf->fp         = NULL;
+  bf->filename   = NULL;
+  bf->cmdline    = NULL;
+  bf->pagesize   = eslBUFFER_PAGESIZE;
+  bf->errmsg[0]  = '\0';
+  bf->mode_is    = eslBUFFER_UNSET;
+
+  *ret_bf = bf;
+  return eslOK;
+
+ ERROR:
+  if (bf) free(bf);
+  *ret_bf = NULL;
+  return status;
+}
+	    
+/* buffer_init_file_mmap()
+ * SRE, Sun Jan 23 19:02:34 2011 [UA975 IAD->SFO]
+ * 
+ * On entry, we've already opened the file;
+ *   bf->fp       = open stream for reading
+ *   bf->filename = name of the file
+ *
+ * On success, returns eslOK, and *ret_bf has:
+ *  bf->mem       mmap'ed file
+ *  bf->n         size of the entire file, in bytes
+ *  bf->mode_is   eslBUFFER_MMAP
+ * 
+ * On failure, returns error code, and *ret_bf has:
+ *  bf->errmsg    helpful error message
+ *  (all other fields at creation defaults)
+ *  
+ * On exception, returns error code, and *ret_bf
+ * is left with all fields at creation defaults. 
+ */
+static int
+buffer_init_file_mmap(ESL_BUFFER *bf, esl_pos_t filesize)
+{
+  int          status;
+  /*    mmap(addr, len,          prot,      flags,       fd,             offset */
+  bf->mem = mmap(0,    filesize, PROT_READ, MAP_PRIVATE, fileno(bf->fp), 0);
+  if (bf->mem == MAP_FAILED) ESL_XEXCEPTION(eslESYS, "mmap()");
+
+  bf->n       = filesize;
+  bf->mode_is = eslBUFFER_MMAP;
+
+  /* open fp no longer needed - close it. */
+  fclose(bf->fp);
+  bf->fp = NULL;
+  return eslOK;
+
+ ERROR:
+  if (bf->mem != MAP_FAILED) { munmap(bf->mem, bf->n); bf->mem      = NULL; }
+  bf->n       = 0;
+  bf->mode_is = eslBUFFER_UNSET;
+  return status;
+}
+
+int
+buffer_init_file_slurped(ESL_BUFFER *bf, esl_pos_t filesize)
+{
+  int status;
+
+  ESL_ALLOC(bf->mem, sizeof(char) * filesize);
+  bf->balloc = filesize;
+
+  bf->n = fread(bf->mem, sizeof(char), filesize, bf->fp);
+  if (bf->n < filesize)
+    ESL_XEXCEPTION(eslESYS, "failed to slurp %s\n", bf->filename);
+
+  bf->mode_is = eslBUFFER_ALLFILE;
+
+  fclose(bf->fp);   /* open fp no longer needed - close it. */
+  bf->fp = NULL;
+  return eslOK;
+
+ ERROR:
+  if (bf->mem) { free(bf->mem); bf->mem = NULL; }
+  return status;
+}
+
+int
+buffer_init_file_basic(ESL_BUFFER *bf)
+{
+  int status;
+
+  ESL_ALLOC(bf->mem, sizeof(char) * bf->pagesize);
+  bf->balloc  = bf->pagesize;
+
+  bf->n       = fread(bf->mem, sizeof(char), bf->pagesize, bf->fp);
+  if (bf->n < bf->pagesize && ferror(bf->fp))
+    ESL_XEXCEPTION(eslESYS, "failed to read first chunk of %s", bf->filename);
+
+  bf->mode_is = eslBUFFER_FILE;
+  return eslOK;
+
+ ERROR:
+  if (bf->mem)  { free(bf->mem); bf->mem = NULL; }
+  return status;
+}
+
+/* buffer_refill()      
+ * For current buffer position bf->pos, try to assure that
+ * we have at least <bf->pagesize> bytes loaded in <bf->mem> to parse.
+ *
+ *  If new read won't fit (space remaining: balloc-n; read size: memreadsize)
+ *  then make room for it:
+ *       if no anchor:   ndel = pos
+ *       else w/ anchor: ndel = anchor; anchor = 0
+ *       n      -= ndel               bytes are moved
+ *       pos    -= ndel
+ *       if (n) move <n> bytes from <ndel> to 0.
+ *       base_offset += ndel
+ *       if (n + memreadsize > balloc) reallocate mem
+ *       fread() a block into position mem+n
+ *       n += memreadsize
+ *           
+ *  For example, suppose we've completely parsed the buffer (pos == n) and we have no
+ *  anchor: then:
+ *       ndel        = n
+ *       n           = 0   (no bytes are moved)
+ *       pos         = 0
+ *       base_offset += n
+ *       fread a new block into mem+0
+ *       n += memreadsize
+ *
+ * Returns: <eslOK> on success.
+ *          <eslEOF> if no data remain in buffer nor to be read. Now pos == n.
+ *          
+ * Throws:  <eslEMEM> if an allocation fails. 
+ *          <eslESYS> if fread() fails mysteriously.
+ *          <eslEINCONCEIVABLE> if internal state of <bf> is corrupt.
+ */
+static int 
+buffer_refill(ESL_BUFFER *bf, esl_pos_t nmin)
+{
+  esl_pos_t ndel;
+  esl_pos_t nread;
+  int       status;
+
+  if (! bf->fp || feof(bf->fp)) return ( (bf->pos < bf->n) ? eslOK : eslEOF); /* without an active fp, we have whole buffer in memory; either no-op OK, or EOF */
+  if (bf->n - bf->pos >= nmin + bf->pagesize) return eslOK;                   /* if we already have enough data in buffer window, no-op       w  */
+
+  if (bf->pos > bf->n) ESL_EXCEPTION(eslEINCONCEIVABLE, "impossible position for buffer <pos>"); 
+  
+  /* Relocation, shift left to conserve memory */
+  if (bf->balloc - bf->n < bf->pagesize && bf->pos > 0)
+    {
+      if (bf->anchor == -1)   ndel = bf->pos;                   
+      else                  { ndel = bf->anchor; bf->anchor = 0; }
+      bf->n   -= ndel;
+      bf->pos -= ndel;
+      if (bf->n) memmove(bf->mem, bf->mem+ndel, bf->n);
+      bf->baseoffset += ndel;
+    }
+
+  if (bf->n + bf->pagesize > bf->balloc)
+    {
+      void *tmp;
+      ESL_RALLOC(bf->mem, tmp, sizeof(char) * (bf->n + bf->pagesize));
+      bf->balloc = bf->n + bf->pagesize;
+    }
+
+  nread = fread(bf->mem+bf->n, sizeof(char), bf->pagesize, bf->fp);
+  if (nread == 0 && ferror(bf->fp)) ESL_EXCEPTION(eslESYS, "fread() failure");
+
+  bf->n += nread;
+  if (nread == 0 && bf->pos == bf->n) return eslEOF; else return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* buffer_countline()
+ * The guts of esl_buffer_GetLine().
+ * 
+ * Starting from the current buffer position bf->pos, count the number
+ * of characters to the next newline or EOF. Return the number of
+ * chars EXCLUSIVE of newline in <*opt_nc>; this is the line length to
+ * be parsed starting from bf->pos. Return the number of chars
+ * INCLUSIVE of newline in <*opt_nskip>; this is the amount the caller
+ * should increment bf->pos by, to position the parser at the start of
+ * the next line.
+ * 
+ * This is used in GetLine() and FetchLine*(). They differ in the order
+ * of calling RaiseAnchor() and buffer_refill(): if we're
+ * fetching, we don't need to keep the memory of the current
+ * line in the buffer's window, so we can raise the anchor
+ * before refilling the buffer, which can save some memory.
+ * 
+ * If necessary, the buffer is refilled. This relies on the caller having
+ * already set an anchor at the beginning of the line.
+ *
+ * Newlines are defined by esl_memnewline().
+ * 
+ * Returns: <eslOK> on success.
+ *          <*opt_nc> is >= 0. (0 means an empty line.)
+ *          <*opt_nskip> is >= <*opt_nc>. (Equality means the line ended at EOF.)
+ *
+ *          <eslEOF> if there's no line (even blank).
+ *          On EOF, <*opt_p> is NULL and <*opt_n> is 0.
+ *
+ * Throws:  <eslEMEM> if allocation fails.
+ *          <eslESYS> if a system call such as fread() fails unexpectedly.
+ *          <eslEINCONCEIVABLE> if <bf> internal state is corrupt.
+ */
+static int
+buffer_countline(ESL_BUFFER *bf, esl_pos_t *opt_nc, esl_pos_t *opt_nskip)
+{
+  esl_pos_t nc;			/* line length exclusive of newline */
+  esl_pos_t nc2;		/* tmp nc for a suffix of the current line */
+  int       nterm;		/* length of newline; 0..2 */
+  int       status;
+
+  if (bf->pos == bf->n) { status = eslEOF; goto ERROR; } /* normal EOF */
+
+  nc = 0;
+  do {
+    if ((status = esl_memnewline(bf->mem + bf->pos + nc, bf->n - bf->pos - nc, &nc2, &nterm)) != eslOK && status != eslEOD) goto ERROR;
+    nc += nc2;
+    if (nc2 && bf->mem[bf->pos+nc-1] == '\r') nc--; /* handle case where we've only read up to \r of a \r\n newline */
+    if (nterm) break;
+    if (( status = buffer_refill(bf, nc+nterm)) != eslOK && status != eslEOF) goto ERROR;
+  } while (bf->n - bf->pos > nc);
+      
+  /* EOF check. If we get here with status == eslEOF, nc = nterm = 0,
+   * then esl_memnewline found no data for a line and buffer_refill returned EOF.
+   */
+  if (status == eslEOF && nc == 0 && nterm == 0) goto ERROR; 
+
+   /* Now the line extends from bf->pos..pos+nc-1 in the buffer window 
+    * The newline itself is position pos+nc..pos+nc+nterm-1 (one or two chars) 
+    * The next line starts at pos+nc+nterm
+    * We know that everything up to pos+nc+nterm-1 is in the buffer window.
+    * It's safe to set the current buffer position to pos+nc+nterm, which
+    * may be bf->n; the next buffer_refill() will do the right thing with it.
+    */
+  if (opt_nc)    *opt_nc    = nc;
+  if (opt_nskip) *opt_nskip = nc + nterm;
+  return eslOK;
+
+ ERROR: /* including normal EOF */
+  if (opt_nc)    *opt_nc    = 0;
+  if (opt_nskip) *opt_nskip = 0;
+  return status;
+}
+
+/* First chunk of token parsing, shared amongst GetToken(), FetchToken(), FetchTokenAsStr()
+ * Skip the parser past chars in *sep; return eslEOF if no non-sep char is found. 
+ *   Now parser is bf->pos == bf->n, buffer is in EOF state.
+ * eslOK on success, and bf->pos is on the first nonsep char.
+ *
+ * Returns:  eslOK or eslEOF
+ * Throws:   eslEMEM, eslESYS, eslEINCONCEIVABLE
+ */
+static int
+buffer_skipsep(ESL_BUFFER *bf, const char *sep)
+{
+  int       status;
+
+  /* skip characters in sep[], or hit EOF. */
+  do {
+    for ( ; bf->pos < bf->n; bf->pos++)
+      if (strchr(sep, bf->mem[bf->pos]) == NULL) goto DONE;
+    if ( (status = buffer_refill(bf, 0)) != eslOK && status != eslEOF) return status; 
+  } while (bf->n > bf->pos);
+
+ DONE:
+  return (bf->pos == bf->n ? eslEOF : eslOK);
+}
+
+/* buffer_skipnewline()
+ * if bf->pos is on a newline (1 or 2 chars);
+ *   advance bf->pos to next byte after newline and return eslEOL
+ * else do nothing, and return eslOK.
+ */
+static int
+buffer_newline(ESL_BUFFER *bf)
+{
+  esl_pos_t nc = bf->n - bf->pos;
+  int       status;
+
+  if (nc == 0) 
+    return eslEOL;	/* no newline, but EOF is as good as */
+  if (nc >= 1 && bf->mem[bf->pos] == '\n')  
+    { bf->pos += 1; return eslEOL; }
+  if (nc >= 2 && memcmp(bf->mem + bf->pos, "\r\n", 2) == 0)
+    { bf->pos += 2; return eslEOL; }
+  
+  status = buffer_refill(bf, 0);
+  if (status != eslEOF && status != eslOK) return status;
+
+  return eslOK;
+}
+
+/* bf->pos is sitting on a non-sep, non-newline character, starting
+ * a token (i.e., the way buffer_skipsep() left us on
+ * success). Caller has set anchor to be sure this position stays in
+ * buffer. Count how many nonsep, nonnewline characters there are,
+ * starting here. Expand bf as needed.
+ */
+static int
+buffer_counttok(ESL_BUFFER *bf, const char *sep, esl_pos_t *ret_nc)
+{
+  esl_pos_t nc;
+  int       status;
+
+  /* skip chars NOT in sep[]. */
+  nc = 1;
+  do {
+    for ( ; nc < bf->n-bf->pos; nc++)
+      {
+	if (strchr(sep, bf->mem[bf->pos+nc]) != NULL) break; /* token ends on any char in sep       */
+	if (bf->mem[bf->pos+nc] == '\n')              break; /* token also always ends on a newline */
+      }
+    if (nc < bf->n-bf->pos) break; /* token ended in our current buffer */
+    
+    if ( (status = buffer_refill(bf, nc)) != eslOK && status != eslEOF) goto ERROR;
+  } while (bf->n - bf->pos > nc);
+
+  if (bf->mem[bf->pos+nc] == '\n' && bf->mem[bf->pos+nc-1] == '\r') { nc--; }
+
+  /* bf->mem[bf->pos+nc] now sitting on the first char that's in sep, or a newline char */
+  *ret_nc = nc;
+  return eslOK;
+
+ ERROR:
+  *ret_nc = 0;
+  return status;
+}
+/*----------------- end, private functions ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 8. Benchmark
+ *****************************************************************/
+#ifdef eslBUFFER_BENCHMARK
+
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_benchmark -DeslBUFFER_BENCHMARK esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_benchmark
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <fcntl.h>
+#include <sys/mman.h>
+#include <sys/stat.h>
+
+#include "easel.h"
+#include "esl_buffer.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options] <infile>";
+static char banner[] = "benchmark driver for buffer module";
+
+
+static void
+benchmark_buffer_raw(char *filename, esl_pos_t *counts)
+{
+  ESL_BUFFER *bf = NULL;
+  char       *p;
+  esl_pos_t   nc;
+  esl_pos_t   pos;
+
+  esl_buffer_OpenFile(filename, &bf);
+  while (esl_buffer_Get(bf, &p, &nc) == eslOK)
+    {
+      for (pos = 0; pos < nc; pos++)
+	counts[(int) p[pos]]++;
+
+      esl_buffer_Set(bf, p, nc);
+    }
+  esl_buffer_Close(bf);
+  return;
+}
+
+static void
+benchmark_buffer_lines(char *filename, esl_pos_t *counts)
+{
+  ESL_BUFFER *bf = NULL;
+  char       *p;
+  esl_pos_t   nc;
+  esl_pos_t   pos;
+
+  esl_buffer_OpenFile(filename, &bf);
+  while (esl_buffer_GetLine(bf, &p, &nc) == eslOK)
+    {
+      for (pos = 0; pos < nc; pos++)
+	counts[(int) p[pos]]++;
+    }
+  esl_buffer_Close(bf);
+  return;
+}
+
+static void
+benchmark_buffer_stream_raw(char *filename, esl_pos_t *counts)
+{
+  FILE       *fp = fopen(filename, "rb");
+  ESL_BUFFER *bf = NULL;
+  char       *p;
+  esl_pos_t   nc;
+  esl_pos_t   pos;
+
+  esl_buffer_OpenStream(fp, &bf);
+  while (esl_buffer_Get(bf, &p, &nc) == eslOK)
+    {
+      for (pos = 0; pos < nc; pos++)
+	counts[(int) p[pos]]++;
+
+      esl_buffer_Set(bf, p, nc);
+    }
+  esl_buffer_Close(bf);
+  return;
+}
+
+static void
+benchmark_buffer_stream_lines(char *filename, esl_pos_t *counts)
+{
+  FILE       *fp = fopen(filename, "rb");
+  ESL_BUFFER *bf = NULL;
+  char       *p;
+  esl_pos_t   nc;
+  esl_pos_t   pos;
+
+  esl_buffer_OpenStream(fp, &bf);
+  while (esl_buffer_GetLine(bf, &p, &nc) == eslOK)
+    {
+      for (pos = 0; pos < nc; pos++)
+	counts[(int) p[pos]]++;
+    }
+  esl_buffer_Close(bf);
+  return;
+}
+
+static void
+benchmark_buffer_tokens(char *filename, esl_pos_t *counts)
+{
+  FILE       *fp   = fopen(filename, "rb");
+  ESL_BUFFER *bf   = NULL;
+  char       sep[] = " \t\r\n";
+  char       *tok;
+  esl_pos_t   nc;
+  esl_pos_t   pos;
+
+  esl_buffer_OpenStream(fp, &bf);
+  while (esl_buffer_GetToken(bf, sep, &tok, &nc) == eslOK)
+    {
+      for (pos = 0; pos < nc; pos++)
+	counts[(int) tok[pos]]++;
+    }
+  esl_buffer_Close(bf);
+  return;
+}
+  
+
+static void
+benchmark_mmap(char *filename, esl_pos_t filesize, esl_pos_t *counts)
+{
+  char     *buf      = NULL;
+  int       prot     = PROT_READ;
+  int       flags    = MAP_FILE | MAP_PRIVATE;
+  int       fd       = -1;
+  off_t     offset   = 0;
+  esl_pos_t pos;
+
+  fd = open(filename, O_RDONLY);
+  buf = (char *) mmap(0, filesize, prot, flags, fd, offset);
+  //  posix_madvise(buf, len,  POSIX_MADV_SEQUENTIAL);
+  close(fd);
+
+  for (pos = 0; pos < filesize; pos++)
+    counts[(int) buf[pos]]++;
+
+  munmap(buf, filesize);
+  return;
+}
+
+static void
+benchmark_one_read(char *filename, esl_pos_t filesize, esl_pos_t *counts)
+{
+  int       fd    = -1;
+  char     *buf   = malloc(filesize);
+  esl_pos_t pos;
+
+  fd = open(filename, O_RDONLY);
+  read(fd, buf, filesize);
+  close(fd);
+
+  for (pos = 0; pos < filesize; pos++)
+    counts[(int) buf[pos]]++;
+
+  free(buf);
+  return;
+}  
+
+static void
+benchmark_one_fread(char *filename, esl_pos_t filesize, esl_pos_t *counts)
+{
+  FILE     *fp    = fopen(filename, "rb");
+  char     *buf   = malloc(filesize);
+  esl_pos_t pos;
+
+  fread(buf, 1, filesize, fp);
+  fclose(fp);
+  
+  for (pos = 0; pos < filesize; pos++)
+    counts[(int) buf[pos]]++;
+  free(buf);
+  return;
+}
+
+static void
+benchmark_fgets(char *filename, esl_pos_t *counts)
+{
+  FILE *fp  = fopen(filename, "rb");
+  char *buf = malloc(4096);
+  char *p;
+
+  while (fgets(buf, 4096, fp) != NULL)
+    {
+      for (p = buf; *p != '\0'; p++) 
+	counts[(int) (*p)]++;
+    }
+  fclose(fp);
+  free(buf);
+  return;
+}
+
+static void
+benchmark_strtok(char *filename, esl_pos_t *counts)
+{
+  FILE *fp  = fopen(filename, "rb");
+  char *buf = malloc(8192);
+  char *tok = NULL;
+  char *p, *p2;
+
+  while (fgets(buf, 8192, fp) != NULL)
+    {
+      p = buf;
+      do {
+	if ((tok = strtok(p, " \t\r\n")) != NULL)
+	  {
+	    for (p2 = tok; *p2 != '\0'; p2++) 
+	      counts[(int) (*p2)]++;
+	  } 
+	p = NULL;
+      }	while (tok);
+    }
+  fclose(fp);
+  free(buf);
+  return;
+}
+
+static void
+benchmark_esl_fgets(char *filename, esl_pos_t *counts)
+{
+  FILE *fp  = fopen(filename, "rb");
+  char *buf = NULL;
+  int   n   = 0;
+  char *p;
+
+  while (esl_fgets(&buf, &n, fp) == eslOK)
+    {
+      for (p = buf; *p != '\0'; p++) 
+	counts[(int) (*p)]++;
+    }
+  fclose(fp);
+  free(buf);
+  return;
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w           = esl_stopwatch_Create();
+  char           *infile      = esl_opt_GetArg(go, 1);
+  struct stat     fstats;
+  esl_pos_t       filesize;
+  esl_pos_t       counts[256];
+  
+  stat(infile, &fstats);
+  filesize = fstats.st_size;  
+
+  /* roughly in fastest->slowest order */
+  esl_stopwatch_Start(w);  benchmark_mmap               (infile, filesize, counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "mmap():                      ");
+  esl_stopwatch_Start(w);  benchmark_buffer_stream_raw  (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "ESL_BUFFER (stream, raw):    ");
+  esl_stopwatch_Start(w);  benchmark_buffer_raw         (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "ESL_BUFFER (mmap, raw):      ");
+  esl_stopwatch_Start(w);  benchmark_one_read           (infile, filesize, counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "one read():                  ");
+  esl_stopwatch_Start(w);  benchmark_one_fread          (infile, filesize, counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "one fread():                 ");
+  esl_stopwatch_Start(w);  benchmark_fgets              (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "fgets():                     ");
+  esl_stopwatch_Start(w);  benchmark_esl_fgets          (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "esl_fgets():                 ");
+  esl_stopwatch_Start(w);  benchmark_buffer_lines       (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "ESL_BUFFER (mmap, lines):    ");
+  esl_stopwatch_Start(w);  benchmark_buffer_stream_lines(infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "ESL_BUFFER (stream, lines):  ");
+  esl_stopwatch_Start(w);  benchmark_strtok             (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "strtok():                    ");
+  esl_stopwatch_Start(w);  benchmark_buffer_tokens      (infile,           counts);  esl_stopwatch_Stop(w);  esl_stopwatch_Display(stdout, w, "ESL_BUFFER (stream, tokens): ");
+
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+#endif /*eslBUFFER_BENCHMARK*/
+/*----------------- end, benchmark driver -----------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 9. Unit tests
+ *****************************************************************/
+#ifdef eslBUFFER_TESTDRIVE
+
+#include "esl_random.h"
+#include <ctype.h>
+
+/* A variant of esl_buffer_OpenFile() that lets us specify
+ * whether we want to slurp, mmap, or basic, using
+ * eslBUFFER_ALLFILE, eslBUFFER_MMAP, eslBUFFER_FILE flags.
+ * We use this to force code coverage of the different
+ * buffer_init_file_*() functions.
+ * For example, the default unit test driver generates a 
+ * test file of ~3 MB, which is always slurped and never 
+ * mmap()'ed; if we want to test mmap() we have to force it.
+ */
+static int
+buffer_OpenFileAs(const char *filename, enum esl_buffer_mode_e mode_is, ESL_BUFFER **ret_bf)
+{
+  char        msg[] = "buffer_OpenFileAs() failed";
+  ESL_BUFFER *bf    = NULL;
+#ifdef _POSIX_VERSION
+  struct stat fileinfo;
+#endif
+  esl_pos_t   filesize = -1;
+
+  if (buffer_create(&bf)                         != eslOK) esl_fatal(msg);
+  if ((bf->fp = fopen(filename, "rb"))           == NULL)  esl_fatal(msg);
+  if (esl_strdup(filename, -1, &(bf->filename))  != eslOK) esl_fatal(msg);
+
+#ifdef _POSIX_VERSION
+  if (fstat(fileno(bf->fp), &fileinfo)           == -1)    esl_fatal(msg);
+  filesize     = fileinfo.st_size;
+  bf->pagesize = fileinfo.st_blksize;
+  if (bf->pagesize < 512)     bf->pagesize = 512;     
+  if (bf->pagesize > 4194304) bf->pagesize = 4194304;
+#endif  
+
+  switch (mode_is) {
+  case eslBUFFER_ALLFILE: if (buffer_init_file_slurped(bf, filesize) != eslOK) esl_fatal(msg); break;
+  case eslBUFFER_MMAP:    if (buffer_init_file_mmap   (bf, filesize) != eslOK) esl_fatal(msg); break;
+  case eslBUFFER_FILE:    if (buffer_init_file_basic  (bf)           != eslOK) esl_fatal(msg); break;
+  default:                                                                     esl_fatal(msg);                
+  }
+  *ret_bf = bf;
+  return eslOK;
+}
+
+
+
+
+/* Test lines:
+ *   long:  \s{0,1}[<line#> _{0,5000} <line#>]\s{0,1}\r?\n  (line length > pagesize)
+ *   short: \s{0,1}[<line#> _{0,60} <line#>]\s{0,1}\r?\n    (typical text file lines)
+ *   empty: \s{0,1}\r?\n                                    (parser shouldn't lose track of blank lines)
+ * Final line in file does not necessarily end in newline.
+ */
+static void
+create_testfile_lines(ESL_RANDOMNESS *r, char *tmpfile, int nlines)
+{
+  char    msg[]          = "create_testfile_lines() failed";
+  FILE   *fp             = NULL;
+  double fq_leadspace    = 0.2;
+  double fq_longline     = 0.1;
+  double fq_empty        = 0.2;
+  double fq_dos          = 0.5;
+  double fq_finalnewline = 0.5;
+  int    longxnum        = 5000;
+  int    shortxnum       = 60;
+  double roll;
+  int    i, n;
+
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+
+  for (i = 0; i < nlines; i++)
+    {
+      if (esl_random(r) < fq_leadspace) fputc(' ', fp);
+      
+      roll = esl_random(r);
+      if (roll < fq_empty) {
+	if (esl_random(r) < fq_dos) fputs("\r\n", fp); else fputc('\n', fp);
+	continue;
+      }
+
+      if (roll < fq_empty + fq_longline) { n = esl_rnd_Roll(r, longxnum+1);  }
+      else                               { n = esl_rnd_Roll(r, shortxnum+1); }
+
+      fprintf(fp, "[%d %*s %d]", i+1, n, " ", i+1);
+
+      if (esl_random(r) < fq_leadspace) fputc(' ', fp);
+      if   (i < nlines-1 || esl_random(r) < fq_finalnewline) {
+	if (esl_random(r) < fq_dos) fputs("\r\n", fp); else fputc('\n', fp); 
+      }
+    }
+  fclose(fp);
+}
+
+static void
+utest_compare_line(char *p, esl_pos_t n, int nline_expected)
+{
+  const char msg[] = "line input fails to match expected";
+  int32_t    which = 0;
+  int        nc; 
+
+  if (esl_memspn(p, n, " \t\r\n") == n) return; /* blank test lines */
+
+  if (n && *p == ' ') { p++; n--; }
+  if (n && *p == '[') { p++; n--; }                else esl_fatal(msg);
+  
+  if (! isdigit(*p))                                    esl_fatal(msg);
+  if (esl_mem_strtoi32(p, n, 10, &nc, &which) != eslOK) esl_fatal(msg);
+  if (which != nline_expected)                          esl_fatal(msg);
+  p += nc; n -= nc;
+
+  while (n && isspace(*p)) { p++; n--; }        if (!n) esl_fatal(msg);
+  if (! isdigit(*p))                                    esl_fatal(msg);
+  if (esl_mem_strtoi32(p, n, 10, &nc, &which) != eslOK) esl_fatal(msg);
+  if (which != nline_expected)                          esl_fatal(msg);
+  p += nc; n -= nc;
+
+  if (n && *p == ']') { p++; n--; } else esl_fatal(msg);
+  if (n && *p == ' ') { p++; n--; }
+  if (n != 0) esl_fatal(msg);
+}
+
+static int
+utest_whichline(char *p, esl_pos_t n)
+{
+  char msg[] = "utest_whichline() failed";
+  int  which;
+
+  if (esl_memspn(p, n, " \t\r\n") == n) return -1;
+  while (n && isspace(*p)) { p++; n--; }
+  if (n && *p == '[')      { p++; n--; }  else esl_fatal(msg);
+  if (esl_mem_strtoi32(p, n, 10, NULL, &which) != eslOK) esl_fatal(msg);
+  return which;
+}
+
+static void
+utest_SetOffset(const char *tmpfile, int nlines_expected)
+{
+  char        msg[]        = "utest_Position() failed";
+  FILE       *fp;
+  ESL_BUFFER *bf;
+  char       *p;
+  esl_pos_t   n;
+  esl_pos_t   thisoffset, testoffset1, testoffset2;
+  int         testline1 = -1;
+  int         thisline, testline2;
+#ifdef HAVE_GZIP
+  char        gzipfile[32];
+  char        cmd[256];     
+#endif
+
+  /* Find offsets of lines ~2000 and ~5000; we'll use these positions as tests. */
+  if (nlines_expected <= 8000) return; /* require at least 8000 lines to do this test */
+  if (esl_buffer_Open(tmpfile, NULL, &bf)  != eslOK) esl_fatal(msg);
+  testline1 = -1;
+  thisoffset = esl_buffer_GetOffset(bf);
+  while (esl_buffer_GetLine(bf, &p, &n) == eslOK)
+    {
+      if ((thisline = utest_whichline(p, n)) == -1) continue;
+      if (testline1 == -1 && thisline >= 2000) {
+	testline1 = thisline; testoffset1 = thisoffset;
+      }
+      if (thisline >= 5000) {
+	testline2 = thisline; testoffset2 = thisoffset;
+	break;
+      }
+      thisoffset = esl_buffer_GetOffset(bf);
+    }
+  esl_buffer_Close(bf);
+
+  /* Now we're going to walk through SetOffset()'s various cases;
+   *  we'll also exercise Open() while we're at it.
+   */
+  /* Test 1. We have the entire file in bf->mem and SetOffset() is trivial.
+   *         Since a file is either slurped or mmap'ed, this is what we expect.
+   */
+  if ( esl_buffer_Open(tmpfile, NULL, &bf)   != eslOK) esl_fatal(msg);
+  if ( esl_buffer_SetOffset(bf, testoffset2) != eslOK) esl_fatal(msg);
+  if ( esl_buffer_GetLine(bf, &p, &n)        != eslOK) esl_fatal(msg);
+  utest_compare_line(p, n, testline2);
+  esl_buffer_Close(bf);
+
+  /* All subsequent tests are for streams. */
+  /* Test 2.  Offset *forward* to line ~2000 (testline1), and read it.
+   *          Anchor.
+   *          Offset forward again to line ~5000 (testline2), read it.
+   *          Anchor (should no-op; first anchor is already in effect)
+   *          Offset backward to testline1, read it.
+   *          Try to offset back to 0; this should throw eslEINVAL.
+   *   (also exercise gzip reading, if we can) 
+   */
+#if defined HAVE_GZIP
+  snprintf(gzipfile,   32, "%s.gz", tmpfile);
+  snprintf(cmd,       256, "gzip -c %s 2>/dev/null > %s", tmpfile, gzipfile);
+  if (system(cmd) != 0) esl_fatal(msg);
+  if (esl_buffer_Open(gzipfile, NULL, &bf)  != eslOK) esl_fatal(msg);
+  fp = NULL;
+#else
+  if ( (fp = fopen(tmpfile, "r"))            == NULL) esl_fatal(msg);
+  if (esl_buffer_OpenStream(fp, &bf)        != eslOK) esl_fatal(msg);
+#endif
+  
+  if (esl_buffer_SetOffset(bf, testoffset1) != eslOK) esl_fatal(msg);
+  if (esl_buffer_GetLine(bf, &p, &n)        != eslOK) esl_fatal(msg);
+  utest_compare_line(p, n, testline1);
+
+  if (esl_buffer_SetAnchor(bf, testoffset1) != eslOK) esl_fatal(msg);
+  if (esl_buffer_SetOffset(bf, testoffset2) != eslOK) esl_fatal(msg);
+  if (esl_buffer_GetLine(bf, &p, &n)        != eslOK) esl_fatal(msg);
+  utest_compare_line(p, n, testline2);
+
+  if (esl_buffer_SetAnchor(bf, testoffset2)   != eslOK) esl_fatal(msg);
+  if (esl_buffer_RaiseAnchor(bf, testoffset2) != eslOK) esl_fatal(msg);
+  if (esl_buffer_SetOffset(bf, testoffset1)   != eslOK) esl_fatal(msg);
+  if (esl_buffer_GetLine(bf, &p, &n)          != eslOK) esl_fatal(msg);
+  utest_compare_line(p, n, testline1);
+
+  esl_exception_SetHandler(&esl_nonfatal_handler);
+  if (esl_buffer_SetOffset(bf, 0)             != eslEINVAL) esl_fatal(msg);
+  esl_exception_ResetDefaultHandler();  
+
+  esl_buffer_Close(bf);
+  if (fp) fclose(fp);
+
+
+  /* test 3. The remaining case is using fseeko(), which
+   *         can only happen on a eslBUFFER_FILE opened in basic mode.
+   */
+#ifdef _POSIX_VERSION
+  if (buffer_OpenFileAs(tmpfile, eslBUFFER_FILE, &bf) != eslOK) esl_fatal(msg);
+  if (esl_buffer_SetOffset(bf, testoffset2) != eslOK) esl_fatal(msg);
+  if (esl_buffer_GetLine(bf, &p, &n)        != eslOK) esl_fatal(msg);
+  utest_compare_line(p, n, testline2);
+
+  if (esl_buffer_SetOffset(bf, testoffset1) != eslOK) esl_fatal(msg);
+  if (esl_buffer_GetLine(bf, &p, &n)        != eslOK) esl_fatal(msg);
+  utest_compare_line(p, n, testline1);
+  esl_buffer_Close(bf);
+#endif /*_POSIX_VERSION*/
+  
+#if defined HAVE_GZIP
+  remove(gzipfile);
+#endif
+
+}
+
+static void
+utest_Get(ESL_BUFFER *bf, int nlines_expected)
+{
+  const char msg[]  = "utest_Get() failed";
+  char      *p      = NULL;
+  esl_pos_t  n      = 0;
+  int        nlines = 0;
+  char       line[8192];
+  int        lpos   = 0;
+  esl_pos_t  i;
+  int        status;
+
+  while ( (status = esl_buffer_Get(bf, &p, &n)) == eslOK)
+    {
+      for (i = 0; i < n; i++)
+	{
+	  if (p[i] == '\n') 
+	    {
+	      nlines++;
+	      if (lpos && line[lpos-1] == '\r') lpos--;
+	      utest_compare_line(line, lpos, nlines);
+	      lpos = 0;
+	      i++;
+	      break;
+	    }
+	  else 
+	    line[lpos++] = p[i];
+	}
+      esl_buffer_Set(bf, p, i);
+    }
+  if (lpos) { nlines++; utest_compare_line(line, lpos, nlines); }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines != nlines_expected) esl_fatal(msg);
+}
+
+static void
+utest_GetLine(ESL_BUFFER *bf, int nlines_expected)
+{
+  const char msg[]  = "utest_GetLine() failed";
+  char      *p      = NULL;
+  esl_pos_t  n      = 0;
+  int        nlines = 0;
+  int        status;
+  
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK)
+    {
+      nlines++;
+      utest_compare_line(p, n, nlines);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines != nlines_expected) esl_fatal(msg);
+  return;
+}
+
+static void
+utest_FetchLine(ESL_BUFFER *bf, int nlines_expected)
+{
+  const char msg[]  = "utest_FetchLine() failed";
+  char      *p      = NULL;
+  esl_pos_t  n      = 0;
+  int        nlines = 0;
+  int        status;
+  
+  while ( (status = esl_buffer_FetchLine(bf, &p, &n)) == eslOK)
+    {
+      nlines++;
+      utest_compare_line(p, n, nlines);
+      free(p);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines != nlines_expected) esl_fatal(msg);
+  return;
+}  
+
+static void
+utest_FetchLineAsStr(ESL_BUFFER *bf, int nlines_expected)
+{
+  const char msg[]  = "utest_FetchLineAsStr() failed";
+  char      *p      = NULL;
+  esl_pos_t  n      = 0;
+  int        nlines = 0;
+  int        status;
+  
+  while ( (status = esl_buffer_FetchLineAsStr(bf, &p, &n)) == eslOK)
+    {
+      nlines++;
+      utest_compare_line(p, n, nlines);
+      if (p[n] != '\0') esl_fatal(msg);
+      free(p);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines != nlines_expected) esl_fatal(msg);
+  return;
+}  
+
+
+static void
+utest_GetToken(ESL_BUFFER *bf, int nlines_expected)
+{
+  char       msg[]  = "utest_GetToken() failed";
+  const char sep[]  = " \t"; /* without newline chars \r\n, GetToken() will return EOL when it reaches end of line. *Next* GetToken() succeeds. */
+  int        nlines = 0;
+  char      *tok;
+  int        which;
+  int        nc;
+  esl_pos_t  n;
+  int        status;
+  
+  while ((status = esl_buffer_GetToken(bf, sep, &tok, &n)) == eslOK || status == eslEOL) /* EOL needed for blank lines */
+    { /* each line has two tokens: "[%d" and "%d]" */
+      nlines++;
+      if (status == eslEOL) continue;
+
+      if (*tok == '[') { tok++; n--; }                    else esl_fatal(msg);
+      if (! isdigit(*tok))                                     esl_fatal(msg);
+      if (esl_mem_strtoi32(tok, n, 10, &nc, &which)  != eslOK) esl_fatal(msg);
+      if (nc    != n)                                          esl_fatal(msg);
+      if (which != nlines)                                     esl_fatal(msg);
+
+      if (esl_buffer_GetToken(bf, sep, &tok, &n)     != eslOK) esl_fatal(msg);
+      if (! isdigit(*tok))                                     esl_fatal(msg);
+      if (esl_mem_strtoi32(tok, n, 10, &nc, &which)  != eslOK) esl_fatal(msg);
+      if (nc    != n-1)                                        esl_fatal(msg);
+      if (which != nlines)                                     esl_fatal(msg);
+      if (*(tok+nc) != ']')                                    esl_fatal(msg);
+      
+      if ( (status = esl_buffer_GetToken(bf, sep, &tok, &n)) != eslEOL && status != eslEOF) esl_fatal(msg);
+      if (tok != NULL || n != 0)                               esl_fatal(msg);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines != nlines_expected) esl_fatal(msg);
+  return;
+}
+
+
+static void
+utest_GetTokenWrapped(ESL_BUFFER *bf, int nlines_expected)
+{
+  char       msg[]  = "utest_GetTokenWrapped() failed";
+  const char sep[]  = " \t\r\n"; /* with newline chars \r\n, GetToken() wraps to next line to find token. */
+  int        nlines = 0;
+  char      *tok;
+  int        which;
+  int        nc;
+  esl_pos_t  n;
+  int        status;
+  
+  while ((status = esl_buffer_GetToken(bf, sep, &tok, &n)) == eslOK)
+    { /* each line has two tokens: "[%d" and "%d]" */
+      nlines++;
+
+      if (*tok == '[') { tok++; n--; }                    else esl_fatal(msg);
+      if (! isdigit(*tok))                                     esl_fatal(msg);
+      if (esl_mem_strtoi32(tok, n, 10, &nc, &which)  != eslOK) esl_fatal(msg);
+      if (nc    != n)                                          esl_fatal(msg);
+      if      (which > nlines) nlines = which; /* can skip lines that are all newline */
+      else if (which < nlines)                                 esl_fatal(msg);
+
+      if (esl_buffer_GetToken(bf, sep, &tok, &n)     != eslOK) esl_fatal(msg);
+      if (! isdigit(*tok))                                     esl_fatal(msg);
+      if (esl_mem_strtoi32(tok, n, 10, &nc, &which)  != eslOK) esl_fatal(msg);
+      if (nc    != n-1)                                        esl_fatal(msg);
+      if (which != nlines)                                     esl_fatal(msg);
+      if (*(tok+nc) != ']')                                    esl_fatal(msg);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines > nlines_expected)  esl_fatal(msg); /* probably can't happen. can't check for equality though - last line(s) could be blank */
+  return;
+}
+
+static void
+utest_FetchToken(ESL_BUFFER *bf, int nlines_expected)
+{
+  char       msg[]  = "utest_FetchToken() failed";
+  const char sep[]  = " \t"; 
+  int        nlines = 0;
+  char      *tok;
+  int        which;
+  int        nc;
+  esl_pos_t  n;
+  int        status;
+  
+  while ((status = esl_buffer_FetchToken(bf, sep, &tok, &n)) == eslOK || status == eslEOL) /* EOL needed for blank lines */
+    { /* each line has two tokens: "[%d" and "%d]" */
+      nlines++;
+      if (status == eslEOL) { if (tok != NULL) esl_fatal(msg);  else continue; }
+
+      if (*tok != '[')                                            esl_fatal(msg);
+      if (! isdigit(*(tok+1)))                                    esl_fatal(msg);
+      if (esl_mem_strtoi32(tok+1, n-1, 10, &nc, &which) != eslOK) esl_fatal(msg);
+      if (nc    != n-1)                                           esl_fatal(msg);
+      if (which != nlines)                                        esl_fatal(msg);
+      free(tok);
+
+      if (esl_buffer_FetchToken(bf, sep, &tok, &n)   != eslOK) esl_fatal(msg);
+      if (! isdigit(*tok))                                     esl_fatal(msg);
+      if (esl_mem_strtoi32(tok, n, 10, &nc, &which)  != eslOK) esl_fatal(msg);
+      if (nc    != n-1)                                        esl_fatal(msg);
+      if (which != nlines)                                     esl_fatal(msg);
+      if (*(tok+nc) != ']')                                    esl_fatal(msg);
+      free(tok);
+      
+      if ( (status = esl_buffer_FetchToken(bf, sep, &tok, &n)) != eslEOL && status != eslEOF) esl_fatal(msg);
+      if (tok != NULL || n != 0)                               esl_fatal(msg);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines != nlines_expected) esl_fatal(msg);
+  return;
+}
+
+
+static void
+utest_FetchTokenAsStrWrapped(ESL_BUFFER *bf, int nlines_expected)
+{
+  char       msg[]  = "utest_FetchTokenAsStrWrapped() failed";
+  const char sep[]  = " \t\r\n"; 
+  int        nlines = 0;
+  char      *tok;
+  int        which;
+  int        nc;
+  esl_pos_t  n;
+  int        status;
+  
+  while ((status = esl_buffer_FetchTokenAsStr(bf, sep, &tok, &n)) == eslOK)
+    { /* each line has two tokens: "[%d" and "%d]" */
+      nlines++;
+
+      if (strlen(tok) != n)                                       esl_fatal(msg);
+      if (*tok != '[')                                            esl_fatal(msg);
+      if (! isdigit(*(tok+1)))                                    esl_fatal(msg);
+      if (esl_mem_strtoi32(tok+1, n-1, 10, &nc, &which) != eslOK) esl_fatal(msg);
+      if (nc    != n-1)                                           esl_fatal(msg);
+      if      (which > nlines) nlines = which; /* can skip lines that are all newline */
+      else if (which < nlines)                                    esl_fatal(msg);
+      free(tok);
+
+      if (esl_buffer_FetchTokenAsStr(bf, sep, &tok, &n) != eslOK) esl_fatal(msg);
+      if (strlen(tok) != n)                                       esl_fatal(msg);
+      if (! isdigit(*tok))                                        esl_fatal(msg);
+      if (esl_mem_strtoi32(tok, n, 10, &nc, &which)     != eslOK) esl_fatal(msg);
+      if (nc    != n-1)                                           esl_fatal(msg);
+      if (which != nlines)                                        esl_fatal(msg);
+      if (*(tok+nc) != ']')                                       esl_fatal(msg);
+      free(tok);
+    }
+  if (status != eslEOF)          esl_fatal(msg);
+  if (nlines > nlines_expected)  esl_fatal(msg); /* probably can't happen. can't check for equality though - last line(s) could be blank */
+  return;
+}
+
+static void
+utest_Read(void)
+{
+  char        msg[]       = "utest_Read() failed";
+  char        tmpfile[32] = "esltmpXXXXXX";
+  int32_t     ntotal      = 1000000;
+  int32_t     testi       = 456789; /* arbitrary */
+  esl_pos_t   testoffset  = testi * sizeof(int32_t);
+  int32_t     i, val;
+  FILE       *fp;
+  ESL_BUFFER *bf;
+  
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  for (i = 0; i < 1000000; i++) 
+    fwrite(&i, sizeof(int32_t), 1, fp);
+  fclose(fp);
+
+  if (esl_buffer_OpenFile (tmpfile, &bf)   != eslOK) esl_fatal(msg);
+  if (esl_buffer_SetOffset(bf, testoffset) != eslOK) esl_fatal(msg);
+  for (i = testi; i < ntotal; i++)
+    {
+      if (esl_buffer_Read(bf, sizeof(int32_t), &val) != eslOK) esl_fatal(msg);
+      if (val != i)                                            esl_fatal(msg);
+    }
+  if (esl_buffer_Read(bf, sizeof(int32_t), &val) != eslEOF)    esl_fatal(msg);
+  esl_buffer_Close(bf);
+
+  remove(tmpfile);
+}
+
+
+static void
+utest_OpenFile(const char *tmpfile, int nlines)
+{
+  char        msg[] = "utest_OpenFile failed";
+  ESL_BUFFER *bf;
+
+  /* Normal errors */
+  if (esl_buffer_OpenFile("esltmpXYZXYZXYZ", &bf) != eslENOTFOUND || bf == NULL) esl_fatal(msg); else esl_buffer_Close(bf);
+}
+
+static void 
+utest_OpenStream(const char *tmpfile, int nlines)
+{
+  char        msg[] = "utest_OpenStream failed";
+  ESL_BUFFER *bf;
+
+  /* Exceptions */
+  esl_exception_SetHandler(&esl_nonfatal_handler);
+  if (esl_buffer_OpenStream(NULL, &bf) != eslEINVAL) esl_fatal(msg); else esl_buffer_Close(bf);
+  esl_exception_ResetDefaultHandler();
+}
+
+static void
+utest_OpenPipe(const char *tmpfile, int nlines)
+{
+  ESL_BUFFER *bf;
+  char        msg[]      = "utest_OpenPipe failed";
+  char        goodcmd[]  = "cat %s 2>/dev/null";
+  char        badcmd[]   = "./esltmpXYZXYZXYZ %s 2>/dev/null";
+
+  /* Normal errors */
+  if (esl_buffer_OpenPipe("esltmpXYZXYZXYZ", goodcmd, &bf) != eslENOTFOUND || bf == NULL) esl_fatal(msg); else esl_buffer_Close(bf);
+  if (esl_buffer_OpenPipe(tmpfile,           badcmd,  &bf) != eslFAIL      || bf == NULL) esl_fatal(msg); else esl_buffer_Close(bf);
+}
+
+
+#endif /* eslBUFFER_TESTDRIVE */
+
+/*****************************************************************
+ * 10. Test driver
+ *****************************************************************/
+
+#ifdef eslBUFFER_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_utest -DeslBUFFER_TESTDRIVE esl_buffer.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_buffer_utest -DeslBUFFER_TESTDRIVE esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_buffer.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  {"-n",  eslARG_INT,   "10000", NULL, NULL, NULL, NULL, NULL, "set number of lines in line-based tests to <n>", 0},
+  {"-s",  eslARG_INT,       "0", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",                  0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose commentary/output",                 0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for buffer module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]       = "esl_buffer unit test driver failed";
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r           = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_BUFFER     *bf          = NULL;
+  ESL_BUFFER     *bftmp       = NULL;
+  FILE           *fp          = NULL;
+  int             be_verbose  = esl_opt_GetBoolean(go, "-v");
+  int             nlines      = esl_opt_GetInteger(go, "-n");
+  char            tmpfile[32] = "esltmpXXXXXX";
+  char            cmdfmt[]    = "cat %s 2>/dev/null";
+  int             bufidx,  nbuftypes;
+  int             testidx, ntesttypes;
+  int             status;
+
+  create_testfile_lines(r, tmpfile, nlines);    
+  if (be_verbose) printf("created file %s; rng seed %" PRIu32 "\n", tmpfile, esl_randomness_GetSeed(r));
+
+  utest_OpenFile  (tmpfile, nlines);
+  utest_OpenStream(tmpfile, nlines);
+  utest_OpenPipe  (tmpfile, nlines);
+
+  utest_SetOffset (tmpfile, nlines);
+  utest_Read();
+
+  nbuftypes  = 7;
+  ntesttypes = 8;
+  for (bufidx = 0; bufidx < nbuftypes; bufidx++)
+    for (testidx = 0; testidx < ntesttypes; testidx++)
+      {
+	switch (bufidx) {
+	case 0:  if (esl_buffer_OpenFile  (tmpfile,                    &bf) != eslOK) esl_fatal(msg);  break;
+	case 1:  if (    buffer_OpenFileAs(tmpfile, eslBUFFER_ALLFILE, &bf) != eslOK) esl_fatal(msg);  break;
+	case 2:  if (    buffer_OpenFileAs(tmpfile, eslBUFFER_MMAP,    &bf) != eslOK) esl_fatal(msg);  break;
+	case 3:  if (    buffer_OpenFileAs(tmpfile, eslBUFFER_FILE,    &bf) != eslOK) esl_fatal(msg);  break;
+	case 4: 
+	  if ((fp = fopen(tmpfile, "rb"))    == NULL)  esl_fatal(msg);
+	  if (esl_buffer_OpenStream(fp, &bf) != eslOK) esl_fatal(msg);
+	  break;
+	case 5:
+	  if (esl_buffer_OpenPipe(tmpfile, cmdfmt, &bf) != eslOK) esl_fatal(msg);
+	  break;
+	case 6:
+	  if (esl_buffer_OpenFile(tmpfile, &bftmp) != eslOK) esl_fatal(msg);
+	  if (esl_buffer_SetAnchor(bftmp, 0)       != eslOK) esl_fatal(msg);
+	  while ( (status = esl_buffer_GetLine(bftmp, NULL, NULL)) == eslOK); /*empty loop, do nothing*/
+	  if (status != eslEOF) esl_fatal(msg);
+	  /* now bftmp->mem is a slurped file */
+	  if (esl_buffer_OpenMem(bftmp->mem, bftmp->n, &bf) != eslOK) esl_fatal(msg);
+	  break;
+	default: esl_fatal(msg);
+	}
+	
+	switch (testidx) {
+	case 0: utest_Get            (bf, nlines); break;
+	case 1: utest_GetLine        (bf, nlines); break;
+	case 2: utest_FetchLine      (bf, nlines); break;
+	case 3: utest_FetchLineAsStr (bf, nlines); break;
+	case 4: utest_GetToken       (bf, nlines); break;
+	case 5: utest_GetTokenWrapped(bf, nlines); break;
+	case 6: utest_FetchToken     (bf, nlines); break;
+	case 7: utest_FetchTokenAsStrWrapped(bf, nlines); break;
+	default: esl_fatal(msg);
+	}
+
+	//printf("allocation: %" PRId64 "\n", bf->balloc);
+
+	esl_buffer_Close(bf);                 bf    = NULL; 
+	if (fp)    { fclose(fp);              fp    = NULL; }
+	if (bftmp) { esl_buffer_Close(bftmp); bftmp = NULL; }
+      }
+
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  remove(tmpfile);
+  return 0;
+}
+#endif /* eslBUFFER_TESTDRIVE */
+  
+
+/*****************************************************************
+ * 11. Examples.
+ *****************************************************************/
+
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_example -DeslBUFFER_EXAMPLE esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_example <file>
+ */
+#ifdef eslBUFFER_EXAMPLE
+/*::cexcerpt::buffer_example::begin::*/
+#include "easel.h"
+#include "esl_buffer.h"
+
+#include <stdio.h>
+
+int main(int argc, char **argv)
+{
+  char       *filename  = argv[1];
+  int         xcount    = 0;
+  int         linecount = 0;
+  ESL_BUFFER *bf;
+  char       *p;
+  esl_pos_t   n, i;
+  int         status;
+
+  status = esl_buffer_Open(filename, "TESTDIR", &bf);
+  if      (status == eslENOTFOUND) esl_fatal("open failed: %s",   bf->errmsg);
+  else if (status == eslFAIL)      esl_fatal("gzip -dc failed: %s", bf->errmsg);
+  else if (status != eslOK)        esl_fatal("open failed with error code %d", status);
+  
+  while (( status = esl_buffer_GetLine(bf, &p, &n)) == eslOK) 
+    {
+      linecount++;
+      for (i = 0; i < n; i++)
+	if (p[i] == 'x') xcount++;
+    }
+  if (status != eslEOF) esl_fatal("file %s: expected EOF, got code %d", bf->filename, status);
+
+  esl_buffer_Close(bf);
+  printf("Counted %d x's in %d lines.\n", xcount, linecount);
+  return 0;
+}
+/*::cexcerpt::buffer_example::end::*/
+#endif /*eslBUFFER_EXAMPLE*/
+  
+
+
+#ifdef eslBUFFER_EXAMPLE2
+/*::cexcerpt::buffer_example2::begin::*/
+#include "easel.h"
+#include "esl_buffer.h"
+
+#include <stdio.h>
+
+int main(int argc, char **argv)
+{
+  char       *filename = argv[1];
+  int         xcount   = 0;
+  int         tokcount = 0;
+  ESL_BUFFER *bf;
+  char       *tok;
+  esl_pos_t   n, i;
+  int         status;
+
+  status = esl_buffer_Open(filename, "TESTDIR", &bf);
+  if      (status == eslENOTFOUND) esl_fatal("open failed: %s",   bf->errmsg);
+  else if (status == eslFAIL)      esl_fatal("gzip -dc failed: %s", bf->errmsg);
+  else if (status != eslOK)        esl_fatal("open failed with error code %d", status);
+  
+  while ( (status = esl_buffer_GetToken(bf, " \t\r\n", &tok, &n)) == eslOK)
+    {
+      tokcount++;
+      for (i = 0; i < n; i++)
+	if (tok[i] == 'x') xcount++;
+    }
+  if (status != eslEOF) esl_fatal("did not see expected EOF; code %d instead", status);
+  esl_buffer_Close(bf);
+  printf("Counted %d x's in %d words\n", xcount, tokcount);
+  return 0;
+}
+/*::cexcerpt::buffer_example2::end::*/
+#endif /*eslBUFFER_EXAMPLE2*/
+
+
+
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_example3 -DeslBUFFER_EXAMPLE3 esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_example3 <file>
+ */
+#ifdef eslBUFFER_EXAMPLE3
+/*::cexcerpt::buffer_example3::begin::*/
+#include "easel.h"
+#include "esl_buffer.h"
+
+#include <stdio.h>
+
+int main(int argc, char **argv)
+{
+  char       *filename = argv[1];
+  int         xcount    = 0;
+  int         tokcount  = 0;
+  int         linecount = 0;
+  ESL_BUFFER *bf;
+  char       *tok;
+  esl_pos_t   n,i;
+  int         status;
+
+  status = esl_buffer_Open(filename, "TESTDIR", &bf);
+  if      (status == eslENOTFOUND) esl_fatal("open failed: %s",   bf->errmsg);
+  else if (status == eslFAIL)      esl_fatal("gzip -dc failed: %s", bf->errmsg);
+  else if (status != eslOK)        esl_fatal("open failed with error code %d", status);
+  
+  while (1) 
+    {
+      status = esl_buffer_GetToken(bf, " \t", &tok, &n);
+      if      (status == eslOK)  
+	{
+	  tokcount++;  
+	  for (i = 0; i < n; i++)
+	    if (tok[i] == 'x') xcount++;
+	}
+      else if (status == eslEOL) linecount++;
+      else if (status == eslEOF) break;
+    }
+  esl_buffer_Close(bf);
+  printf("Counted %d x's in %d words on %d lines\n", xcount, tokcount, linecount);
+  return 0;
+}
+/*::cexcerpt::buffer_example3::end::*/
+#endif /*eslBUFFER_EXAMPLE3*/
+
+
+
+
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_example4 -DeslBUFFER_EXAMPLE4 esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_example4 <file>
+ */
+#ifdef eslBUFFER_EXAMPLE4
+/*::cexcerpt::buffer_example4::begin::*/
+#include "easel.h"
+#include "esl_buffer.h"
+
+#include <stdio.h>
+#include <string.h>
+
+int main(void)
+{
+  char        tmpfile[32] = "esltmpXXXXXX";
+  char        s1[]        = "hello world!";
+  char        s2[]        = "... and goodbye!";
+  char        buf[256];
+  int         n;
+  FILE       *fp;
+  ESL_BUFFER *bf;
+  int         status;
+
+  esl_tmpfile_named(tmpfile, &fp);
+  n = strlen(s1)+1; fwrite(&n, sizeof(int), 1, fp); fwrite(s1, sizeof(char), n, fp);
+  n = strlen(s2)+1; fwrite(&n, sizeof(int), 1, fp); fwrite(s2, sizeof(char), n, fp);
+  fclose(fp);
+
+  status = esl_buffer_Open(tmpfile, NULL, &bf);
+  esl_buffer_Read(bf, sizeof(int), &n);
+  esl_buffer_Read(bf, sizeof(char) * n, buf);
+  puts(buf);
+
+  esl_buffer_Read(bf, sizeof(int), &n);
+  esl_buffer_Read(bf, sizeof(char) * n, buf);
+  puts(buf);
+  
+  esl_buffer_Close(bf);
+  return 0;
+}
+/*::cexcerpt::buffer_example4::end::*/
+#endif /*eslBUFFER_EXAMPLE4*/
+
+
+
+
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_example5 -DeslBUFFER_EXAMPLE5 esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_example5 <fastafile>
+ */
+#ifdef eslBUFFER_EXAMPLE5
+/*::cexcerpt::buffer_example5a::begin::*/
+#include "easel.h"
+#include "esl_buffer.h"
+
+#include <stdio.h>
+#include <ctype.h>
+
+int
+example_read_fasta(ESL_BUFFER *bf, char **ret_name, char **ret_desc, char **ret_seq, int *ret_seqlen)
+{
+  char      *seqname = NULL;
+  char      *seqdesc = NULL;
+  char      *seq     = NULL;
+  esl_pos_t  seqlen  = 0;
+  esl_pos_t  salloc  = 0;
+  char      *p;
+  void      *tmp;
+  esl_pos_t  n, i;
+  int        status;
+
+  if ((status = esl_buffer_Get(bf, &p, &n)) != eslOK) goto ERROR; /* includes normal EOF */
+  if (p[0] != '>') ESL_XFAIL(eslEINVAL, bf->errmsg, "Expected FASTA record to start with >");
+  esl_buffer_Set(bf, p, 1);
+
+  status = esl_buffer_FetchTokenAsStr(bf, " \t", &seqname, NULL);
+  if      (status == eslEOF) ESL_XFAIL(eslEINVAL, bf->errmsg, "Premature eof while trying to parse sequence name");
+  else if (status == eslEOL) ESL_XFAIL(eslEINVAL, bf->errmsg, "No sequence name found");
+
+  status = esl_buffer_FetchLineAsStr(bf, &seqdesc, NULL);
+  if (status == eslEOF) goto DONE; /* weird but ok. name, no desc, and a blank sequence. */
+
+  ESL_ALLOC(seq, sizeof(char) * 256);
+  salloc = 256;
+
+  while (esl_buffer_GetLine(bf, &p, &n) == eslOK)
+    {
+      if (p[0] == '>') { esl_buffer_Set(bf, p, 0); break; }
+
+      if (seqlen+n+1 > salloc) { 
+	ESL_RALLOC(seq, tmp, sizeof(char) * (seqlen+n+1));  
+	salloc = seqlen+n+1; 
+      }
+
+      for (i = 0; i < n; i++) {
+	if (! isspace(p[i])) { seq[seqlen++] = p[i]; }
+      }
+    }
+    
+ DONE:
+  seq[seqlen] = '\0';
+  *ret_name   = seqname;
+  *ret_desc   = seqdesc;
+  *ret_seq    = seq;
+  *ret_seqlen = seqlen;
+  return eslOK;
+
+ ERROR:
+  if (seqname) free(seqname);  *ret_name   = NULL;
+  if (seqdesc) free(seqdesc);  *ret_desc   = NULL;
+  if (seq)     free(seq);      *ret_seq    = NULL;
+  *ret_seqlen = 0;
+  return status;
+}
+/*::cexcerpt::buffer_example5a::end::*/
+
+/*::cexcerpt::buffer_example5b::begin::*/
+int
+main(int argc, char **argv)
+{
+  char       *filename = argv[1];
+  ESL_BUFFER *bf;
+  char       *seqname, *seqdesc, *seq;
+  int         seqlen;
+  int         status;
+
+  status = esl_buffer_Open(filename, "TESTDIR", &bf);
+  if      (status == eslENOTFOUND) esl_fatal("open failed: %s",   bf->errmsg);
+  else if (status == eslFAIL)      esl_fatal("gzip -dc failed: %s", bf->errmsg);
+  else if (status != eslOK)        esl_fatal("open failed with error code %d", status);
+
+  while ( (status = example_read_fasta(bf, &seqname, &seqdesc, &seq, &seqlen)) == eslOK)
+    {
+      printf("sequence: %20s  length: %6d   description: %s\n", seqname, seqlen, seqdesc);
+      free(seqname);
+      free(seqdesc);
+      free(seq);
+    }
+  if (status != eslEOF) esl_fatal("bad FASTA format: %s", bf->errmsg);
+  esl_buffer_Close(bf);
+  return 0;
+}
+/*::cexcerpt::buffer_example5b::end::*/
+#endif /*eslBUFFER_EXAMPLE5*/
+
+
+
+/* compile: gcc -g -Wall -I. -L. -o esl_buffer_example6 -DeslBUFFER_EXAMPLE6 esl_buffer.c -leasel -lm
+ * run:     ./esl_buffer_example6 <alifile>
+ */
+#ifdef eslBUFFER_EXAMPLE6
+/*::cexcerpt::buffer_example6a::begin::*/
+#include "easel.h"
+#include "esl_buffer.h"
+
+#include <stdio.h>
+#include <ctype.h>
+
+int
+example_read_lineblock(ESL_BUFFER *bf, char ***ret_lines, esl_pos_t **ret_lens, esl_pos_t *ret_nlines)
+{
+  char      **lines  = NULL;
+  esl_pos_t  *lens   = NULL;
+  esl_pos_t   nlines = 0;
+  char       *p;
+  esl_pos_t   n;
+  esl_pos_t   start_offset;
+  void       *tmp;
+  int         status;
+
+  /* skip blank lines */
+  do {
+    start_offset = esl_buffer_GetOffset(bf);
+    if ( (status = esl_buffer_GetLine(bf, &p, &n)) != eslOK) goto ERROR; /* includes normal EOF */
+  } while (esl_memspn(p, n, " \t\r\n") == n);
+  /* now p[0..n-1] is a non-blank line, start_offset is offset of p[0], point's on start of next line after it */
+  
+  /* anchor stably at start of line block */
+  status = esl_buffer_SetStableAnchor(bf, start_offset);
+
+  /* set pointers to non-blank lines */
+  do {
+    ESL_RALLOC(lines, tmp, sizeof(char *) * (nlines+1));
+    ESL_RALLOC(lens,  tmp, sizeof(char *) * (nlines+1));
+    
+    lines[nlines] = p;
+    lens[nlines]  = n;
+    nlines++;
+  } while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK && esl_memspn(p, n, " \t\r\n") < n);
+  
+  /* now p[0] is on a blank line, and point is on start of next line
+   * after it.  you might be fine with that; or you might want to push
+   * the blank line back onto the parser. If so, you need to push
+   * the line back *before* raising the anchor, because the _Set() function
+   * is allowed to relocate the buffer's internal memory.
+   */
+  status = esl_buffer_Set(bf, p, 0);
+  status = esl_buffer_RaiseAnchor(bf, start_offset);
+
+  *ret_lines  = lines;
+  *ret_lens   = lens;
+  *ret_nlines = nlines;
+  return eslOK;
+
+ ERROR:
+  if (lines) free(lines);
+  if (lens)  free(lens);
+  *ret_lines  = NULL;
+  *ret_lens   = NULL;
+  *ret_nlines = 0;
+  return status;
+}
+/*::cexcerpt::buffer_example6a::end::*/
+
+/*::cexcerpt::buffer_example6b::begin::*/
+int
+main(int argc, char **argv)
+{
+  char       *filename = argv[1];
+  int         blockcount = 0;
+  int         linecount  = 0;
+  int         xcount     = 0;
+  int         i,j;
+  ESL_BUFFER *bf;
+  char      **lines;
+  esl_pos_t  *lens;
+  esl_pos_t   nlines;
+  int         status;
+
+  status = esl_buffer_Open(filename, "TESTDIR", &bf);
+  if      (status == eslENOTFOUND) esl_fatal("open failed: %s",   bf->errmsg);
+  else if (status == eslFAIL)      esl_fatal("gzip -dc failed: %s", bf->errmsg);
+  else if (status != eslOK)        esl_fatal("open failed with error code %d", status);
+
+  while ( (status = example_read_lineblock(bf, &lines, &lens, &nlines)) == eslOK)
+    {
+      blockcount++;
+      linecount += nlines;
+      for (i = 0; i < nlines; i++)
+	for (j = 0; j < lens[i]; j++) 
+	  if (lines[i][j] == 'x') xcount++;
+
+      free(lines);
+      free(lens);
+    }
+  if (status != eslEOF) esl_fatal("bad MSA format: %s", bf->errmsg);
+  esl_buffer_Close(bf);
+  printf("Counted %d x's in %d blocks of %d total lines\n", xcount, blockcount, linecount);
+  return 0;
+}
+/*::cexcerpt::buffer_example6b::end::*/
+#endif /*eslBUFFER_EXAMPLE6*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_buffer.c 832 2012-12-07 15:01:15Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_buffer.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.h
new file mode 100755
index 0000000..89575d7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.h
@@ -0,0 +1,117 @@
+/* An input parsing abstraction: an input buffer (file, stream, etc.)
+ */
+#ifndef eslBUFFER_INCLUDED
+#define eslBUFFER_INCLUDED
+
+#include <stdio.h>
+
+#define eslBUFFER_PAGESIZE      4096    /* default for b->pagesize                       */
+#define eslBUFFER_SLURPSIZE  4194304	/* switchover from slurping whole file to mmap() */
+
+enum esl_buffer_mode_e {
+  eslBUFFER_UNSET   = 0,
+  eslBUFFER_STREAM  = 1,  /* chunk in mem[0..n-1] = input[baseoffset..baseoffset-n-1];  balloc>0; offset>=0; fp open  */
+  eslBUFFER_CMDPIPE = 2,  /* chunk in mem[0..n-1] = input[baseoffset..baseoffset-n-1];  balloc>0; offset>=0; fp open  */
+  eslBUFFER_FILE    = 3,  /* chunk in mem[0..n-1] = input[baseoffset..baseoffset-n-1];  balloc>0; offset>=0; fp open  */
+  eslBUFFER_ALLFILE = 4,  /* whole file in mem[0..n-1];  balloc=0; offset=0;  fp=NULL  */
+  eslBUFFER_MMAP    = 5,  /* whole file in mem[0..n-1];  balloc=0; offset=0;  fp=NULL  */
+  eslBUFFER_STRING  = 6   /* whole str in mem[0..n-1];   balloc=0; offset=0;  fp=NULL  */
+};
+
+typedef struct {
+  char      *mem;	          /* the buffer                                            */
+  esl_pos_t  n;		          /* curr buf length; mem[0..n-1] contains valid bytes     */
+  esl_pos_t  balloc;              /* curr buf alloc;  mem[0..balloc-1] may be used         */
+  esl_pos_t  pos;	          /* curr buf parse position; n-pos = # of parseable bytes */
+  esl_pos_t  baseoffset;          /* offset of byte mem[0] in the stream                   */
+
+  esl_pos_t  anchor;	          /* buf[anchor..n-1] safe from overwrite [-1=unset]       */
+  int        nanchor;		  /* number of anchors set at <anchor>                     */
+
+  FILE      *fp;	          /* open stream; NULL if already entirely in memory       */
+  char      *filename;	          /* for diagnostics. filename; or NULL (stdin, string)    */
+  char      *cmdline;		  /* for diagnostics. NULL, or cmd for CMDPIPE             */
+
+  esl_pos_t  pagesize;	          /* size of new <fp> reads. Guarantee: n-pos >= pagesize  */
+
+  char     errmsg[eslERRBUFSIZE]; /* error message storage                                 */
+  enum esl_buffer_mode_e mode_is; /* mode (stdin, cmdpipe, file, allfile, mmap, string)    */
+} ESL_BUFFER;
+
+
+/* 1. The ESL_BUFFER object: opening/closing.  */
+extern int esl_buffer_Open      (const char *filename, const char *envvar, ESL_BUFFER **ret_bf);
+extern int esl_buffer_OpenFile  (const char *filename,                     ESL_BUFFER **ret_bf);
+extern int esl_buffer_OpenPipe  (const char *filename, const char *cmdfmt, ESL_BUFFER **ret_bf);
+extern int esl_buffer_OpenMem   (const char *p,         esl_pos_t  n,      ESL_BUFFER **ret_bf);
+extern int esl_buffer_OpenStream(FILE *fp,                                 ESL_BUFFER **ret_bf);
+extern int esl_buffer_Close(ESL_BUFFER *bf);
+
+/* 2. Positioning and anchoring an ESL_BUFFER. */
+extern esl_pos_t esl_buffer_GetOffset      (ESL_BUFFER *bf);
+extern int       esl_buffer_SetOffset      (ESL_BUFFER *bf, esl_pos_t offset);
+extern int       esl_buffer_SetAnchor      (ESL_BUFFER *bf, esl_pos_t offset);
+extern int       esl_buffer_SetStableAnchor(ESL_BUFFER *bf, esl_pos_t offset);
+extern int       esl_buffer_RaiseAnchor    (ESL_BUFFER *bf, esl_pos_t offset);
+
+/* 3. Raw access to the buffer */
+extern int esl_buffer_Get(ESL_BUFFER *bf, char **ret_p, esl_pos_t *ret_n);
+extern int esl_buffer_Set(ESL_BUFFER *bf, char  *p,     esl_pos_t  nused);
+
+/* 4. Line-based parsing */
+extern int esl_buffer_GetLine       (ESL_BUFFER *bf, char **opt_p, esl_pos_t *opt_n);
+extern int esl_buffer_FetchLine     (ESL_BUFFER *bf, char **opt_p, esl_pos_t *opt_n);
+extern int esl_buffer_FetchLineAsStr(ESL_BUFFER *bf, char **opt_s, esl_pos_t *opt_n);
+
+/* 5. Token-based parsing */
+extern int esl_buffer_GetToken       (ESL_BUFFER *bf, const char *sep, char **opt_p, esl_pos_t *opt_n);
+extern int esl_buffer_FetchToken     (ESL_BUFFER *bf, const char *sep, char **opt_p, esl_pos_t *opt_n);
+extern int esl_buffer_FetchTokenAsStr(ESL_BUFFER *bf, const char *sep, char **opt_p, esl_pos_t *opt_n);
+
+/* 6. Binary (fread-like) parsing */
+extern int esl_buffer_Read(ESL_BUFFER *bf, size_t nbytes, void *p);
+
+
+
+/* Replaces functionality of esl_fileparser module as follows
+ * 
+ *  esl_fileparser_Open()             -> esl_buffer_Open()
+ *  esl_fileparser_Create()           -> esl_buffer_OpenStream()
+ *  esl_fileparser_CreateMapped()     -> esl_buffer_OpenMem()
+ *  esl_fileparser_SetCommentChar()   -> esl_buffer_SetCommentChar()
+ *  esl_fileparser_GetToken()         -> esl_buffer_GetToken()
+ *  esl_fileparser_NextLine()         -> do { esl_buffer_GetLine() } while esl_line_IsBlank();
+ *  esl_fileparser_NextLinePeeked()   -> unneeded. esl_buffer_Peek*() functionality, syntax different
+ *  esl_fileparser_GetTokenOnLine()   -> unneeded. esl_buffer_GetToken() has an idiom.
+ *  esl_fileparser_GetRemainingLine() -> esl_buffer_GetLine()
+ *  esl_fileparser_Destroy()          -> esl_buffer_Close()
+ *  esl_fileparser_Close()            -> esl_buffer_Close()
+ */
+
+/* Replaces functionality of esl_recorder module as follows:
+ * 
+ *  esl_recorder_Create()             -> esl_buffer_OpenStream()
+ *  esl_recorder_ResizeTo()  
+ *  esl_recorder_GetFirst()           -> 
+ *  esl_recorder_GetLast()            -> 
+ *  esl_recorder_GetCurrent()         ->
+ *  esl_recorder_GetNext()            -> 
+ *  esl_recorder_Destroy()            -> esl_buffer_Close()
+ *  esl_recorder_Read()               -> esl_buffer_GetLine()
+ *  esl_recorder_Position()
+ *  esl_recorder_MarkBlock()
+ *  esl_recorder_UnmarkBlock()
+ *  esl_recorder_GetBlock()
+ *  
+ */
+
+#endif	/*eslBUFFER_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.tex
new file mode 100755
index 0000000..a52a7f9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_buffer.tex
@@ -0,0 +1,456 @@
+The \eslmod{buffer} module provides an abstract layer for building
+input parsers. Different types of input -- including files, standard
+input, piped output from executed commands, C strings, and raw memory
+-- can be handled efficiently in a single API and a single object, an
+\ccode{ESL\_BUFFER}. 
+%The API is summarized in Table~\ref{tbl:buffer_api}.
+
+The main rationale for \eslmod{buffer} is to enable multipass parsing
+of any input, even a nonrewindable stream or pipe. A canonical problem
+in sequence file parsing is that we need to know both the format (
+FASTA or Genbank, for instance) and the alphabet (protein or nucleic
+acid, for instance) in order to parse Easel-digitized sequence data
+records. To write ``smart'' parsers that automagically determine the
+file format and alphabet, so programs work transparently on lots of
+different file types without users needing to specify them, we need
+three-pass parsing: one pass to read raw data and determine the
+format, a second pass to parse the format for sequence data and
+determine its alphabet, and finally the actual parsing of digitized
+sequences. Multiple pass parsing of a nonrewindable stream, such as
+standard input or the output of a \ccode{gunzip} call, isn't possible
+without extra support. The \eslmod{buffer} module standardizes that
+support for all Easel input.
+
+\subsection{Examples of using the buffer API}
+
+Here's an example of using \eslmod{buffer} to read a file line by
+line:
+
+\input{cexcerpts/buffer_example}
+
+This shows how to open an input, get each line sequentially, do
+something to each line (here, count the number of x's), and close the
+input.  To compile this example, then run it on a file (any file would
+do, but here, \ccode{esl\_buffer.c} itself):
+
+\user{gcc -I. -o esl\_buffer\_example -DeslBUFFER\_EXAMPLE esl\_buffer.c easel.c -lm}
+\user{./esl\_buffer\_example esl\_buffer.c}
+\response{Counted 181 x's in 3080 lines.}
+
+The most important thing to notice here is that
+\ccode{esl\_buffer\_Open()} function implements a standard Easel idiom
+for finding input sources. If the \ccode{filename} argument is a
+single dash '-', it will read from \ccode{stdin}. If the
+\ccode{filename} argument ends in \ccode{.gz}, it will assume the file
+is a \ccode{gzip}-compressed input, and it will decompress it on the
+fly with \ccode{gzip -dc} before reading it. If it does not find the
+\ccode{filename} relative to the current directory, and if the second
+argument (here \ccode{"TESTDIR"}) is non-\ccode{NULL}, it looks at the
+setting of an environment variable \ccode{envvar}, which should
+contain a colon-delimited list of directories to search to try to find
+\ccode{filename}. Therefore all of the following commands will work
+and give the same result:
+
+\begin{userchunk}
+% ./esl_buffer_example esl_buffer.c
+\end{userchunk}
+
+\begin{userchunk}
+  % cat esl_buffer.c | ./esl_buffer_example -
+\end{userchunk}
+
+\begin{userchunk}
+  % cp esl_buffer.c foo
+  % gzip foo
+  % ./esl_buffer_example foo.gz
+\end{userchunk}
+
+\begin{userchunk}
+  % cp esl_buffer.c ${HOME}/mydir2/baz
+  % export TESTDIR=${HOME}/mydir1:${HOME}/mydir2
+  % ./esl_buffer_example baz
+\end{userchunk}
+
+This idiomatic flexibility comes in handy when using biological data.
+Data are are often kept in standard directories on systems (for
+example, we maintain a symlink \ccode{/misc/data0/databases/Uniprot}
+on ours), so having applications look for directory path listings in
+standardized environment variables can help users save a lot of typing
+of long paths. Data files can be big, so it's convenient to be able to
+compress them and not have to decompress them to use them. It's
+convenient to have applications support the power of using UNIX
+command invocations in pipes, chaining the output of one command into
+the input of another, so it's nice to automatically have any
+Easel-based application read from standard input.
+
+A couple of other things to notice about this example:
+
+\begin{enumerate}
+\item If the \ccode{esl\_buffer\_Open()} fails, it still returns a
+  valid \ccode{ESL\_BUFFER} structure, which contains nothing except a
+  user-directed error message \ccode{bf->errmsg}. If you were going to
+  continue past this error, you'd want to \ccode{esl\_buffer\_Close()}
+  the buffer.
+
+\item \ccode{esl\_buffer\_GetLine()} returns a pointer to the start of
+  the next line \ccode{p}, and its length in chars \ccode{n}
+  (exclusive of any newline character). It does \emph{not} return a
+  string - \ccode{p[n]} is \emph{not} a \ccode{NUL} byte
+  \verb+\0+. Standard C string functions, which expect
+  \ccode{NUL}-terminated strings, can't be used on \ccode{p}. The
+  reason is efficiency: the \ccode{ESL\_BUFFER} is potentially looking
+  at a read-only exact image of the input, and
+  \ccode{esl\_buffer\_GetLine()} is not wasting any time making a copy
+  of it. If you need a string, with an appended \verb+\0+ in the
+  right place, see \ccode{esl\_buffer\_FetchLineAsStr()}.
+\end{enumerate}
+  
+\subsubsection{Reading tokens}
+
+Because \ccode{ESL\_BUFFER} prefers to give you pointers into a
+read-only image of the input, the standard C \ccode{strtok()} function
+can't be used to define tokens (whitespace-delimited fields, for
+example), because \ccode{strtok()} tries to write a \verb+\0+ byte
+after each token it defines. Therefore \ccode{ESL\_BUFFER} provides
+its own token parsing mechanism. Depending on whether or not you
+include newline characters (\verb+\r\n+) in the list of separator
+(delimiter) characters, it either ignores newlines altogether, or it
+detects newlines separately and expects to find a known number of
+tokens per line.
+
+For example, our x counting program could be implemented to parse
+every token instead of every line:
+
+\input{cexcerpts/buffer_example2}
+
+\user{gcc -I. -o esl\_buffer\_example2 -DeslBUFFER\_EXAMPLE2 esl\_buffer.c easel.c -lm}
+\user{./esl\_buffer\_example2 esl\_buffer.c}
+\response{Counted 181 x's in 14141 words.}
+
+In the \ccode{esl\_buffer\_GetToken()} call, including \verb+\r\n+
+with \verb+" \t"+ in the separators causes newlines to be treated like
+delimiters like any space or tab character. If you omit \verb+\r\n+
+newline characters from the separators, then the parser detects them
+specially anyway; when it sees a newline instead of a token, it
+returns \ccode{eslEOL} and sets the point to the next character
+following the newline. For example, we can count both lines and
+tokens:
+
+\input{cexcerpts/buffer_example3}
+
+\user{gcc -I. -o esl\_buffer\_example3 -DeslBUFFER\_EXAMPLE3 esl\_buffer.c easel.c -lm}
+\user{./esl\_buffer\_example3 esl\_buffer.c}
+\response{Counted 181 x's in 14141 words on 3080 lines.}
+
+What happens if the last line in a text file is missing its terminal
+newline? In the example above, the number of lines would be one fewer;
+the nonterminated last line wouldn't be
+counted. \ccode{esl\_buffer\_GetToken()} would return \ccode{eslEOF}
+on the last line of the file, rather than \ccode{eslEOL} followed by
+\ccode{eslEOF} at its next call as it'd do if the newline were there.
+
+
+\subsubsection{Reading fixed-width binary input}
+
+You can also read fixed-width binary input directly into storage,
+including scalar variables, using the \ccode{esl\_buffer\_Read()}
+call. This is similar to C's \ccode{fread()}:
+
+\input{cexcerpts/buffer_example4}
+
+The \ccode{Read()} call needs to know exactly how many bytes \ccode{n}
+it will read. For variable-width binary input, see the
+\ccode{esl\_buffer\_Get()}/\ccode{esl\_buffer\_Set()} calls.
+
+In fact all inputs are treated by \ccode{ESL\_BUFFER} as binary
+input. That is, platform-dependent newlines are not converted
+automatically to C \verb+\n+ characters, as would happen when using
+the C \ccode{stdio.h} library to read an input stream in ``text
+mode''. You can freely mix different types of \ccode{esl\_buffer\_*}
+parsing calls as you see appropriate.
+
+
+\subsubsection{A more complicated example, a FASTA parser}
+
+An example of a simple FASTA parsing function:
+
+\input{cexcerpts/buffer_example5a}
+
+and an example of using that function in a program:
+
+\input{cexcerpts/buffer_example5b}
+
+One thing to note here is the use of \ccode{esl\_buffer\_Set()} to
+push characters back into the parser. For example, when we look for
+the starting '>', we do a raw \ccode{esl\_buffer\_Get()}, look at the
+first character, then call \ccode{esl\_buffer\_Set()} with
+\ccode{nused=1} to tell the parser we used 1 character of what it gave
+us. This is an idiomatic usage of the
+\ccode{esl\_buffer\_Get()}/\ccode{esl\_buffer\_Set()} pair.  The
+\ccode{esl\_buffer\_Get()} call doesn't even move the point until the
+companion \ccode{esl\_buffer\_Set()} tells it where to move to.
+
+The other idiomatic use of \ccode{esl\_buffer\_Set()} is to implement
+a ``peek'' at a next line or a next token, using a
+\ccode{esl\_buffer\_GetLine()}/\ccode{esl\_buffer\_Set()} or
+\ccode{esl\_buffer\_GetToken()}/\ccode{esl\_buffer\_Set()}
+combination. You see this when we're in the sequence reading loop, we
+get a line, and we want to peek at its first character. If it's a '>'
+we're seeing the start of the next sequence, so we want to return
+while leaving the point on the '>'. To do this, we use
+\ccode{esl\_buffer\_GetLine()} to get the line, and if the first char
+is a '>' we use \ccode{esl\_buffer\_Set()} to push the line pointer
+(with 0 used characters) back to the parser.
+
+You can also see examples here of using
+\ccode{esl\_buffer\_FetchTokenAsStr()}
+\ccode{esl\_buffer\_FetchLineAsStr()} to copy the name and description
+directly to allocated, \verb+\0+-terminated C strings. Note how they
+interact: because \ccode{esl\_buffer\_FetchTokenAsStr()} moves the
+point past any trailing separator characters to the start of the next
+token, and because \ccode{esl\_buffer\_FetchLineAsStr()} doesn't need
+the point to be at the start of a line, the
+\ccode{esl\_buffer\_FetchLineAsStr()} call finds the description
+without leading spaces or trailing newline (but with any trailing
+spaces).
+
+
+
+
+
+
+
+
+
+
+
+
+      
+
+
+
+
+
+\subsection{Using anchors: caller-defined limits on random access}
+
+The naive way to enable random access on a sequential stream is to
+slurp the whole stream into memory. If the stream is large, this may
+be very memory inefficient. Many parsers do not need full random
+access, but instead need a limited form of it -- for instance, the
+three-pass case of determining format and alphabet from the start of a
+sequence file. \ccode{ESL\_BUFFER} allows the caller to define an
+\emph{anchor} to define a start point in the input that is not allowed
+to go away until the caller says so. 
+
+Setting an anchor declares that \ccode{mem[anchor..n-1]} is not be
+overwritten by new input reads. A new input read may first relocate
+(``reoffset'') \ccode{mem[anchor..n-1]} to \ccode{mem[0..n-anchor-1]}
+in order to use its current allocation efficiently. Setting an anchor
+may therefore cause \ccode{mem} to be reoffset and/or reallocated, and
+\ccode{balloc} may grow, if the buffer is not large enough to hold
+everything starting from the \ccode{anchor} position. When no anchors
+are set, \ccode{mem} will not be reoffset or reallocated.
+
+If we set an anchor at offset 0 in the input, then the entire input
+will be progressively slurped into a larger and larger allocation of
+memory as we read sequentially. We are guaranteed to be able to
+reposition the buffer anywhere from the anchor to n-1, even in a
+normally nonrewindable, nonpositionable stream. If we've read enough
+to determine what we need (format, alphabet...), we can release the
+anchor, and the buffer's memory usage will stop growing.
+
+The functions that get a defined chunk of memory --
+\ccode{esl\_buffer\_GetLine()}, \ccode{esl\_buffer\_GetToken()}, and
+\ccode{esl\_buffer\_CopyBytes()} -- set an anchor at the start of the
+line, token, or chunk of bytes before they go looking for its end.
+This takes advantage of the anchor mechanism to make sure that the
+buffer will contain the entire line, token, or chunk of bytes, not just a
+truncated part.
+
+
+\subsection{Token-based parsing}
+
+A \esldef{token} is a substring consisting of characters not in a set
+of caller-defined \esldef{separator} characters. Typically, separator
+chararacters might be whitespace (\ccode{" \t"}).
+
+Additionally, newlines are always considered to be separators. Tokens
+cannot include newlines. 
+
+In token-based parsing, we can handle newlines in two ways. Sometimes
+we might know exactly how many tokens we expect on the line. Sometimes
+we don't care. 
+
+If the caller knows exactly how many tokens are expected on each line
+of the input, it should not include newline characters in its
+separator string. Now, if the caller asks for a token but no token
+remains on the line, it will see a special \ccode{eslEOL} return code
+(and the parser will be positioned at the next character after that
+newline). A caller can check for this deliberately with one last call
+to \ccode{esl\_buffer\_GetToken()} per line, to be sure that it sees
+\ccode{eslEOL} rather than an unexpected token.
+
+If the caller doesn't care how many tokens occur on each line, it
+should include newline characters (\verb+"\r\n"+) in the separator
+string. Then newlines are treated (and skipped) like any other
+separator.
+
+Starting from the current buffer position, the procedure for defining
+a token is:
+
+\begin{itemize}
+\item Skip characters in the separator string. (If end-of-file is
+      reached, return \ccode{eslEOF}.)
+\item If parser is on a newline, skip past it, and return
+      \ccode{eslEOL}. (Note that if the caller had newline characters
+      in the separator string, the first step already skipped any
+      newline, and no \ccode{eslEOL} return is possible.)
+\item Anchor at the current buffer position, \ccode{p}.
+\item From the current point, count characters \emph{not} in the
+      separator, \ccode{n}. (Expand/refill the buffer as needed.)
+\item Define the token: \ccode{p[0..n]}.
+\item Move the current point to the character following the token.
+\end{itemize}
+
+\subsection{Newline handling.}
+
+Easel assumes that newlines are encoded as \verb+\n+ (UNIX, Mac OS/X)
+or \verb+\r\n+ (MS Windows).
+
+All streams are opened as binary data. This is necessary to guarantee
+a one:one correspondence between data offsets in memory and data
+offsets on the filesystem, which we need for file positioning
+purposes. It is also necessary to guarantee that we can read text
+files that have been produced on a system other than the system we're
+reading them on (that we can read Windows text files on a Linux
+system, for example).\footnote{That is, the usual ANSI C convention of
+  reading/writing in ``text mode'' does not suffice, because it
+  assumes the newlines of the system we're on, not necessarily the
+  system that produced the file.}  However, it makes us responsible
+for handling system-specific definition of ``newline'' character(s) in
+ASCII text files.
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+ 
+
+
+
+
+
+
+
+
+\subsection{Implementation notes (for developers)}
+
+\paragraph{The state guarantee.} An \ccode{ESL\_BUFFER} is exchangeable
+and sharable even amongst entirely different types of parsers because
+it is virtually always guaranteed to be in a well-defined
+state. Specifically:
+
+\begin{itemize}
+\item \ccode{bf->mem[bf->pos]} is ALWAYS positioned at the next byte
+      that a parser needs to parse, unless the buffer is at EOF. 
+
+\item There are ALWAYS at least \ccode{pagesize} bytes available to
+      parse, provided the input stream has not reached EOF.
+\end{itemize}
+
+
+\paragraph{State in different input type modes}
+
+There are six types (``modes'') of inputs:
+
+\begin{tabular}{ll}
+    Mode                    &   Description                                   \\ \hline
+\ccode{eslBUFFER\_STDIN}    &  Standard input.                                \\
+\ccode{eslBUFFER\_CMDPIPE}  &  Output piped from a command.                   \\
+\ccode{eslBUFFER\_FILE}     &  A \ccode{FILE} being streamed.                 \\
+\ccode{eslBUFFER\_ALLFILE}  &  A file entirely slurped into RAM.              \\
+\ccode{eslBUFFER\_MMAP}     &  A file that's memory mapped (\ccode{mmap()}).  \\
+\ccode{eslBUFFER\_STRING}   &  A string or memory.                            \\ \hline
+\end{tabular}
+
+The main difference between modes is whether the input is being read
+into the buffer's memory in chunks, or whether the buffer's memory 
+effectively contains the entire input:
+
+\begin{tabular}{lll}
+               &   \ccode{STDIN, CMDPIPE, FILE}                                                   & \ccode{ALLFILE, MMAP, STRING}        \\ 
+\ccode{mem}    &   input chunk: \ccode{mem[0..n-1]} is \ccode{input[baseoffset..baseoffset+n-1]}  & entire input: \ccode{mem[0..n-1]} is \ccode{input[0..n-1]}     \\
+\ccode{n}      &   current chunk size                                                             & entire input size (exclusive of \verb+\0+ on a \ccode{STRING}) \\
+\ccode{balloc} &   $>0$; \ccode{mem} is reallocatable                                             & 0; \ccode{mem} is not reallocated  \\
+\ccode{fp}     &   open; \ccode{feof(fp) = TRUE} near EOF                                         & \ccode{NULL}                        \\
+\ccode{baseoffset} &  offset of byte \ccode{mem[0]} in input                                      & 0                                  \\
+\end{tabular}
+
+
+\paragraph{Behavior at end-of-input (``end-of-file'', EOF).}
+
+The buffer can three kinds of states with respect to how near to EOF
+it is, as follows.
+
+During normal parsing, \ccode{bf->n - bf->pos >= bf->pagesize}:
+
+\begin{cchunk}
+  mem->  {[. . . . . . . . . . . . . . . .] x x x x}
+           ^ baseoffset    ^ pos            ^ n   ^ balloc
+                          [~ ~ ~ ~ ~ ~ ~ ~]
+                          n-pos >= pagesize
+\end{cchunk}
+
+As input is nearing EOF, and we are within last <pagesize> bytes,
+\ccode{bf->n - bf->pos < bf->pagesize}:
+
+\begin{cchunk}
+ mem->  {[. . . . . . . . . . . . . . . .] x x x x}
+          ^ baseoffset              ^ pos  ^ n   ^ balloc
+\end{cchunk}
+
+In modes where we might be reading input in streamed chunks
+(\ccode{eslBUFFER\_STDIN}, \ccode{eslBUFFER\_CMDPIPE}
+\ccode{eslBUFFER\_FILE}), \ccode{feof(bf->fp)} becomes \ccode{TRUE}
+when the buffer nears EOF.
+
+When the input is entirely EOF, then \ccode{bf->pos == bf->n}:
+
+\begin{cchunk}
+  mem->  {[. . . . . . . . . . . . . . . .] x x x x}
+           ^ baseoffset                     ^ n   ^ balloc
+                                            ^ pos
+\end{cchunk}
+
+
+
+
+
+\paragraph{ The use of \ccode{esl\_pos\_t}. }
+
+All integer variables for a position or length in memory or in a file
+are of type \ccode{esl\_pos\_t}. In POSIX, memory positions are an
+unsigned integer type \ccode{size\_t}, and file positions are a signed
+integer type \ccode{off\_t}. Easel wants to assure an integer type
+that we can safely cast to either \ccode{size\_t} or \ccode{off\_t},
+and in which we can safely store a negative number as a status flag
+(such as -1 for ``currently unset''). \ccode{esl\_pos\_t} is defined
+as the largest signed integer type that can be safely cast to
+\ccode{size\_t} or \ccode{off\_t}.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.c
new file mode 100755
index 0000000..3ea85d8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.c
@@ -0,0 +1,351 @@
+/* Generalized single linkage clustering.
+ * 
+ * Table of contents:
+ *     1. Single linkage clustering, generalized
+ *     2. Unit tests
+ *     3. Test driver
+ *     4. Example
+ *     5. Copyright and license
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_cluster.h"
+
+
+/*****************************************************************
+ * 1. Single linkage clustering, generalized
+ *****************************************************************/
+
+/* Function:  esl_cluster_SingleLinkage()
+ * Synopsis:  Generalized single linkage clustering.
+ * Incept:    SRE, Mon Jan  7 08:35:10 2008 [Janelia]
+ *
+ * Purpose:   Given a set of vertices, cluster them by single-linkage
+ *            clustering.
+ *            
+ *            The data describing each vertex is provided in an array
+ *            starting at <base>, consisting of <n> vertices. Each
+ *            vertex can be of any type (structure, scalar, pointer)
+ *            so long as each vertex element is of fixed size <n>
+ *            bytes.
+ *            
+ *            A pointer to the clustering function is provided in
+ *            <(*linkfunc)()>, and a pointer to any necessary
+ *            parameters for that function (for example, any
+ *            thresholds) is provided in <param>. 
+ *            
+ *            The <int (*linkfunc)()> must be written by the
+ *            caller. It takes arguments <(void *v1, void *v2, void
+ *            *param, int *ret_link)>: pointers to two vertices to
+ *            test for linkage and a pointer to any necessary
+ *            parameters, and it passes the answer <TRUE> (1) or
+ *            <FALSE> (0) back in <*ret_link>. The <(*linkfunc)()>
+ *            returns <eslOK> (0) on success, and a nonzero error code
+ *            on failure (see <easel.h> for a list of Easel's error
+ *            codes).
+ *            
+ *            The caller provides an allocated <workspace> with space
+ *            for at least <2n> integers. (Allocation in the caller
+ *            allows the caller to reuse memory and save
+ *            allocation/free cycles, if it has many rounds of
+ *            clustering to do.)
+ *            
+ *            The caller also provides allocated space in
+ *            <assignments> for <n> integers which, upon successful
+ *            return, contains assignments of the <0..n-1> vertices to
+ *            <0..C-1> clusters. That is, if <assignments[42] = 1>,
+ *            that means vertex 42 is assigned to cluster 1.  The
+ *            total number of clusters is returned in <ret_C>.
+ *            
+ *            The algorithm runs in $O(N)$ memory; importantly, it
+ *            does not require a $O(N^2)$ adjacency matrix. Worst case
+ *            time complexity is $O(N^2)$ (multiplied by any
+ *            additional complexity in the <(*linkfunc()> itself), but
+ *            the worst case (no links at all; <C=n> clusters) should
+ *            be unusual. More typically, time scales as about $N \log
+ *            N$. Best case is $N$, for a completely connected graph
+ *            in which all vertices group into one cluster. (More
+ *            precisely, best case complexity arises when vertex 0 is
+ *            connected to all other <n-1> vertices.)
+ *            
+ * Notes:    I don't know if this algorithm is published. I 
+ *           haven't seen it in graph theory books, but that might
+ *           be because it's so obvious that nobody's bothered.
+ *           
+ *           In brief, we're going to do a breadth-first search of the
+ *           graph, and we're going to calculate links on the fly
+ *           rather than precalculating them into a standard adjacency
+ *           matrix.
+ *           
+ *           While working, we keep two stacks of maximum length N:
+ *                a : list of vertices that are still unconnected.
+ *                b : list of vertices that we've connected to 
+ *                    in our current breadth level, but we haven't
+ *                    yet tested for other connections to a.
+ *           The current length (number of elements in) a and b are
+ *           kept in na, nb.
+ *                    
+ *           We store our results in an array of length N:
+ *                c : assigns each vertex to a component. for example
+ *                    c[4] = 1 means that vertex 4 is in component 1.
+ *                    nc is the number of components. Components
+ *                    are numbered from 0 to nc-1. We return c and nc
+ *                    to our caller.
+ *                    
+ *           The algorithm is:
+ *           
+ *           Initialisation: 
+ *                a  <-- all the vertices
+ *                na <-- N
+ *                b  <-- empty set
+ *                nb <-- 0
+ *                nc <-- 0
+ *                
+ *           Then:
+ *                while (a is not empty)
+ *                  pop a vertex off a, push onto b
+ *                  while (b is not empty)
+ *                    pop vertex v off b
+ *                    assign c[v] = nc
+ *                    for each vertex w in a:
+ *                       compare v,w. If w is linked to v, remove w
+ *                       from a, push onto b.
+ *                  nc++     
+ *           q.e.d. 
+ *
+ * Args:      base        - pointer to array of n fixed-size vertices to be clustered.
+ *            n           - number of vertices
+ *            size        - size of each vertex element
+ *            linkfunc    - pointer to caller's function for defining linked pairs
+ *            param       - pointer to any data that needs to be provided to <(*linkfunc)>
+ *            workspace   - caller provides at least 2n*sizeof(int) of workspace
+ *            assignments - RETURN: assignments to clusters (caller provides n*sizeof(int) space)
+ *            ret_C       - RETURN: number of clusters
+ *
+ * Returns:   <eslOK> on success; <assignments[0..n-1]> contains cluster assigments 
+ *            <0..C-1> for each vertex, and <*ret_C> contains the number of clusters
+ *            <C>
+ *
+ * Throws:    status codes from the caller's <(*linkfunc)> on failure; in this case, 
+ *            the contents of <*assignments> is undefined, and <*ret_C> is 0.
+ */
+int
+esl_cluster_SingleLinkage(void *base, size_t n, size_t size, 
+			  int (*linkfunc)(const void *, const void *, const void *, int *), void *param,
+			  int *workspace, int *assignments, int *ret_C)
+{
+  int na, *a = NULL;		/* stack of available vertices (still unconnected)       */
+  int nb, *b = NULL; 		/* stack of connected but unextended vertices            */
+  int nc, *c = NULL;		/* array of results: # clusters, assignments to clusters */
+  int v,w;			/* indices of vertices                                   */
+  int i;			/* counter over the available list                       */
+  int do_link;
+  int status;
+
+  a = workspace;
+  b = workspace + n;
+  c = assignments;
+
+   for (v = 0; v < n; v++) a[v] = n-v-1; /* initialize by pushing all vertices onto available list (backwards) */
+   na = n;
+   nb = 0;
+   nc = 0;
+
+   while (na > 0)		/* while vertices remain unexamined or unclustered: */
+     {
+       v = a[na-1]; na--;	/* pop a vertex off a, */
+       b[nb] = v;   nb++;	/* and push it onto b  */
+
+       while (nb > 0) 		/* while vertices remain unextended: */
+	 {
+	   v = b[nb-1]; nb--;	/* pop vertex off b        */
+	   c[v] = nc;		/* assign it to cluster nc */
+	   for (i = na-1; i >= 0; i--) /* backwards, because of deletion/swapping we do*/
+	     {
+	       if ((status = (*linkfunc)( (char *) base + v*size, (char *) base + a[i]*size, param, &do_link)) != eslOK) goto ERROR;
+	       if (do_link)
+		 {
+		   w = a[i]; a[i] = a[na-1]; na--; /* delete w from a    */
+		   b[nb] = w; nb++;                /* and push it onto b */
+		 }
+	     }
+	 }
+       nc++;
+     }
+ 
+   *ret_C = nc;
+   return eslOK;
+
+ ERROR:
+   *ret_C = 0;
+   return status;
+}
+/*------------------ end, single linkage clustering -------------*/
+
+
+
+
+
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+#ifdef eslCLUSTER_TESTDRIVE
+#include <math.h>
+
+static int
+test_linkage_definition(const void *v1, const void *v2, const void *param, int *ret_link)
+{
+  double a         = *((double *) v1); /* you have to cast a void ptr before you can dereference it */
+  double b         = *((double *) v2);
+  double threshold = *((double *) param);
+
+  *ret_link =  ((fabs(a-b) <= threshold) ? TRUE : FALSE);
+  return eslOK;
+}
+
+static void
+utest_singlelinkage(double *testdata, int n, double threshold, int *correct_assignment, int correct_C)
+{
+  int   *workspace;
+  int   *assignment;
+  int    C;
+  int    v;
+
+  if ((workspace  = malloc(sizeof(int) * n * 2)) == NULL) esl_fatal("allocation failed");
+  if ((assignment = malloc(sizeof(int) * n))     == NULL) esl_fatal("allocation failed");
+
+  if (esl_cluster_SingleLinkage(testdata, n, sizeof(double),
+				test_linkage_definition, &threshold,
+				workspace, assignment, &C) != eslOK) esl_fatal("single linkage clustering failed");
+  
+  if (C != correct_C) esl_fatal("expected %d clusters, but got %d\n", correct_C, C);
+  for (v = 0; v < n; v++) 
+    if (correct_assignment[v] != assignment[v])
+      esl_fatal("expected vertex %d to be in cluster %d, but it's in %d\n", v, correct_assignment[v], assignment[v]);
+
+  free(workspace);
+  free(assignment);
+}
+#endif /* eslCLUSTER_TESTDRIVE */
+
+
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+#ifdef eslCLUSTER_TESTDRIVE
+/* gcc -g -Wall -o test -I. -L. -DeslCLUSTER_TESTDRIVE esl_cluster.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_cluster.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for cluster module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  double vertex[]      = { 1.0, 2.0, 4.0, 5.0, 7.0, 8.0 };
+  int    na1 = 3, a1[] = { 0,   0,   1,   1,   2,   2   };     /* correct answer when threshold = 1.5 */
+  int    na2 = 6, a2[] = { 0,   1,   2,   3,   4,   5   };     /* correct answer when threshold < 1.0 */ 
+  int    na3 = 1, a3[] = { 0,   0,   0,   0,   0,   0   };     /* correct answer when threshold > 2.0 */ 
+  int    n         = sizeof(vertex) / sizeof(double);
+
+  utest_singlelinkage(vertex, n, 1.5, a1, na1);
+  utest_singlelinkage(vertex, n, 0.5, a2, na2);
+  utest_singlelinkage(vertex, n, 2.5, a3, na3);
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslCLUSTER_TESTDRIVE*/
+
+
+
+
+
+/*****************************************************************
+ * 4. Example
+ *****************************************************************/
+#ifdef eslCLUSTER_EXAMPLE
+/*::cexcerpt::cluster_example::begin::*/
+/* gcc -g -Wall -o example -I. -L. -DeslCLUSTER_EXAMPLE esl_cluster.c easel.c -lm  */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_cluster.h"
+
+static int
+my_linkage_definition(const void *v1, const void *v2, const void *param, int *ret_link)
+{
+  double a         = *((double *) v1); /* you have to cast a void ptr before you can dereference it */
+  double b         = *((double *) v2);
+  double threshold = *((double *) param);
+
+  *ret_link =  ((fabs(a-b) <= threshold) ? TRUE : FALSE);
+  return eslOK;
+}
+
+int
+main(int argc, char **argv)
+{
+  double vertex[]  = { 1.0, 2.0, 4.0, 5.0, 7.0, 8.0 };
+  int    n         = sizeof(vertex) / sizeof(double);
+  double threshold = 1.5;
+  int   *workspace;
+  int   *assignment;
+  int    C;
+  int    v;
+
+  workspace  = malloc(sizeof(int) * n * 2);
+  assignment = malloc(sizeof(int) * n);
+
+  esl_cluster_SingleLinkage(vertex, n, sizeof(double),
+			    my_linkage_definition, &threshold,
+			    workspace, assignment, &C);
+
+  printf("There are %d clusters.\n", C);
+  for (v = 0; v < n; v++) printf("vertex %d is in cluster %d\n", v, assignment[v]); 
+  
+  free(workspace);
+  free(assignment);
+  return 0;
+}
+/*::cexcerpt::cluster_example::end::*/
+#endif /*eslCLUSTER_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_cluster.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_cluster.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.h
new file mode 100755
index 0000000..cc0df11
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.h
@@ -0,0 +1,22 @@
+/* Generalized single linkage clustering.
+ * 
+ * SRE, Mon Jan  7 09:40:06 2008 [Janelia]
+ * SVN $Id: esl_cluster.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_cluster.h $
+ */
+#ifndef eslCLUSTER_INCLUDED
+#define eslCLUSTER_INCLUDED
+
+extern int esl_cluster_SingleLinkage(void *base, size_t n, size_t size, 
+				     int (*linkfunc)(const void *, const void *, const void *, int *), void *param,
+				     int *workspace, int *assignments, int *ret_C);
+#endif /*eslCLUSTER_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.tex
new file mode 100755
index 0000000..8db8c65
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_cluster.tex
@@ -0,0 +1,53 @@
+The \eslmod{cluster} module implements a generalized, efficient
+discrete single linkage clustering algorithm. 
+
+The clustering algorithm tests for links on the fly, thus avoiding
+construction of an $O(N^2)$ adjacency matrix. This results in an
+algorithm of $O(N)$ memory, $O(N^2)$ time worst-case complexity for
+$N$ vertices. Average case behavior typically scales much better than
+this, as efficiently as $O(N)$ for a densely connected graph that
+forms a single cluster.
+
+In order to work on generalized vertices of any data type, the
+implementation uses an interface akin to that of the C \ccode{qsort()}
+utility: the caller provides a void pointer to an untyped array of
+vertices, the number of vertices, and the size of each vertex data
+element, and a function that can take untyped pointers to two vertices
+and compute whether they are linked or not.
+
+The API is summarized in Table~\ref{tbl:cluster_api}. Only the
+\eslmod{easel} module is required.
+
+% Table generated by autodoc -t esl_cluster.c (so don't edit here, edit esl_cluster.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_cluster_SingleLinkage()}{\ccode{esl\_cluster\_SingleLinkage()}} & Generalized single linkage clustering.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{cluster} API.}
+\label{tbl:cluster_api}
+\end{table}
+
+\subsection{Example of using the msacluster API}
+
+An example of clustering some numbers together, according to their
+difference:
+
+\input{cexcerpts/cluster_example}
+
+The thing to pay most attention to here is the mechanism of dealing
+with vertices via generic untyped pointers; in particular, the way the
+caller-provided linkage-determining function takes its \ccode{void *}
+arguments and immediately casts them back to data types that the
+caller wants to use in computing whether the two vertices are linked.
+
+In the example here, the linkage function needs only one parameter
+from the caller, so a pointer to \ccode{threshold} itself is passed
+into the API. If your linkage function needs more parameters, you
+would define a structure that bundles them together, then pass a
+pointer to that structure into \ccode{esl\_cluster\_SingleLinkage()}.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_composition.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_composition.c
new file mode 100755
index 0000000..c8d0252
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_composition.c
@@ -0,0 +1,150 @@
+#include "esl_config.h"
+
+#include "easel.h"
+#include "esl_composition.h"
+
+
+/* Function:  esl_composition_BL62()
+ *
+ * Purpose:   Sets <f> to the background frequencies used in
+ *            \citep{Henikoff92} to calculate the BLOSUM62
+ *            substitution matrix. Caller provides space in <f>
+ *            allocated for at least 20 doubles.  The entries are in
+ *            alphabetic order A..Y, same as the standard Easel amino
+ *            acid alphabet order.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_composition_BL62(double *f)
+{
+  f[0]  = 0.074;
+  f[1]  = 0.025;
+  f[2]  = 0.054;
+  f[3]  = 0.054;
+  f[4]  = 0.047;
+  f[5]  = 0.074;
+  f[6]  = 0.026;
+  f[7]  = 0.068;
+  f[8]  = 0.058;
+  f[9]  = 0.099;
+  f[10] = 0.025;
+  f[11] = 0.045;
+  f[12] = 0.039;
+  f[13] = 0.034;
+  f[14] = 0.052;
+  f[15] = 0.057;
+  f[16] = 0.051;
+  f[17] = 0.073;
+  f[18] = 0.013;
+  f[19] = 0.032;
+  return eslOK;
+}
+
+/* Function:  esl_composition_WAG()
+ *
+ * Purpose:   Sets <f> to the background frequencies used in
+ *            \citep{WhelanGoldman01} to calculate the WAG rate
+ *            matrix. Caller provides space in <f> allocated for at
+ *            least 20 doubles.  The entries are in alphabetic order
+ *            A..Y, same as the standard Easel amino acid alphabet
+ *            order.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_composition_WAG(double *f)
+{
+  f[0]  = 0.086628;                     /* A */
+  f[1]  = 0.019308;	                /* C */
+  f[2]  = 0.057045;	                /* D */
+  f[3]  = 0.058059;	                /* E */
+  f[4]  = 0.038432;	                /* F */
+  f[5]  = 0.083252;	                /* G */
+  f[6]  = 0.024431;	                /* H */
+  f[7]  = 0.048466;	                /* I */
+  f[8]  = 0.062029;	                /* K */
+  f[9]  = 0.086209;	                /* L */
+  f[10] = 0.019503;	                /* M */
+  f[11] = 0.039089;	                /* N */
+  f[12] = 0.045763;	                /* P */
+  f[13] = 0.036728;	                /* Q */
+  f[14] = 0.043972;	                /* R */
+  f[15] = 0.069518;	                /* S */
+  f[16] = 0.061013;	                /* T */
+  f[17] = 0.070896;	                /* V */
+  f[18] = 0.014386;	                /* W */
+  f[19] = 0.035274;	                /* Y */
+  return eslOK;
+}
+
+/* Function:  esl_composition_SW34()
+ *
+ * Purpose:   Sets <f> to the background frequencies observed in
+ *            Swiss-Prot release 34 (21.2M residues).  Caller provides
+ *            space in <f> allocated for at least 20 doubles.  The
+ *            entries are in alphabetic order A..Y, same as the
+ *            standard Easel amino acid alphabet order.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_composition_SW34(double *f)
+{
+  f[0]  = 0.075520;                     /* A */
+  f[1]  = 0.016973;                     /* C */
+  f[2]  = 0.053029;                     /* D */
+  f[3]  = 0.063204;                     /* E */
+  f[4]  = 0.040762;                     /* F */
+  f[5]  = 0.068448;                     /* G */
+  f[6]  = 0.022406;                     /* H */
+  f[7]  = 0.057284;                     /* I */
+  f[8]  = 0.059398;                     /* K */
+  f[9]  = 0.093399;                     /* L */
+  f[10] = 0.023569;                     /* M */
+  f[11] = 0.045293;                     /* N */
+  f[12] = 0.049262;                     /* P */
+  f[13] = 0.040231;                     /* Q */
+  f[14] = 0.051573;                     /* R */
+  f[15] = 0.072214;                     /* S */
+  f[16] = 0.057454;                     /* T */
+  f[17] = 0.065252;                     /* V */
+  f[18] = 0.012513;                     /* W */
+  f[19] = 0.031985;                     /* Y */
+  return eslOK;
+}
+
+
+/* Function:  esl_composition_SW50()
+ *
+ * Purpose:   Sets <f> to the background frequencies observed in
+ *            Swiss-Prot release 50.8 (86.0M residues; Oct 2006).
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_composition_SW50(double *f)
+{
+  f[0] = 0.0787945;		/* A */
+  f[1] = 0.0151600;		/* C */
+  f[2] = 0.0535222;		/* D */
+  f[3] = 0.0668298;		/* E */
+  f[4] = 0.0397062;		/* F */
+  f[5] = 0.0695071;		/* G */
+  f[6] = 0.0229198;		/* H */
+  f[7] = 0.0590092;		/* I */
+  f[8] = 0.0594422;		/* K */
+  f[9] = 0.0963728;		/* L */
+  f[10]= 0.0237718;		/* M */
+  f[11]= 0.0414386;		/* N */
+  f[12]= 0.0482904;		/* P */
+  f[13]= 0.0395639;		/* Q */
+  f[14]= 0.0540978;		/* R */
+  f[15]= 0.0683364;		/* S */
+  f[16]= 0.0540687;		/* T */
+  f[17]= 0.0673417;		/* V */
+  f[18]= 0.0114135;		/* W */
+  f[19]= 0.0304133;		/* Y */
+  return eslOK;
+}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_composition.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_composition.h
new file mode 100755
index 0000000..a87fe66
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_composition.h
@@ -0,0 +1,4 @@
+extern int  esl_composition_BL62(double *f);
+extern int  esl_composition_WAG (double *f);
+extern int  esl_composition_SW34(double *f);
+extern int  esl_composition_SW50(double *f);
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_config.h.in b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_config.h.in
new file mode 100755
index 0000000..65760d5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_config.h.in
@@ -0,0 +1,159 @@
+/* esl_config.h.in  [input to configure]
+ * 
+ * System-dependent configuration of Easel, by autoconf.
+ * 
+ * This file should be included in all Easel .c files before
+ * anything else, because it may set #define's that control
+ * behaviour of system includes and system libraries. An example
+ * is large file support.
+ * 
+ * SRE, Fri Mar  3 08:03:32 2006 [St. Louis]
+ * SVN $Id: esl_config.h.in 842 2013-01-06 16:38:46Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_config.h.in $
+ */
+#ifndef eslCONFIG_INCLUDED
+#define eslCONFIG_INCLUDED
+
+/* Version info.
+ */
+#undef EASEL_VERSION    
+#undef EASEL_DATE      
+#undef EASEL_COPYRIGHT 
+#undef EASEL_LICENSE   
+
+/* Large file support
+ * Must precede any header file inclusion.
+ */
+#undef _FILE_OFFSET_BITS
+#undef _LARGE_FILES
+#undef _LARGEFILE_SOURCE
+
+/* Debugging verbosity (0=none;3=most verbose)
+ */
+#undef eslDEBUGLEVEL
+
+/* System headers
+ */
+#undef HAVE_ENDIAN_H
+#undef HAVE_INTTYPES_H
+#undef HAVE_STDINT_H
+#undef HAVE_UNISTD_H
+#undef HAVE_SYS_TYPES_H
+#undef HAVE_STRINGS_H
+
+#undef HAVE_SYS_PARAM_H
+#undef HAVE_SYS_SYSCTL_H
+
+#undef HAVE_EMMINTRIN_H
+#undef HAVE_PMMINTRIN_H
+#undef HAVE_XMMINTRIN_H
+
+#undef HAVE_ALTIVEC_H
+
+/* Types
+ */
+#undef WORDS_BIGENDIAN
+#undef int8_t
+#undef int16_t
+#undef int32_t
+#undef int64_t
+#undef uint8_t
+#undef uint16_t
+#undef uint32_t
+#undef uint64_t
+#undef off_t
+
+/* Optional packages
+ */
+#undef HAVE_LIBGSL
+
+/* Optional parallel implementation support
+ */
+#undef HAVE_SSE2
+#undef HAVE_VMX
+#undef HAVE_MPI
+#undef HAVE_PTHREAD
+
+#undef HAVE_SSE2_CAST
+
+/* Programs */
+#undef HAVE_GZIP
+
+/* Functions */
+#undef HAVE_CHMOD
+#undef HAVE_FSEEKO
+#undef HAVE_FSTAT
+#undef HAVE_GETCWD
+#undef HAVE_GETPID
+#undef HAVE_MKSTEMP
+#undef HAVE_POPEN
+#undef HAVE_PUTENV
+#undef HAVE_STAT
+#undef HAVE_STRCASECMP
+#undef HAVE_SYSCONF
+#undef HAVE_SYSCTL
+#undef HAVE_TIMES
+
+
+/*****************************************************************
+ * Available augmentations.
+ * 
+ * If you grab a single module from Easel to use it by itself,
+ * leave all these #undef'd; you have no augmentations.
+ * 
+ * If you grab additional Easel .c files, you can enable any
+ * augmentations they provide to other modules by #defining the
+ * modules you have below. Alternatively, you can -D them on
+ * the compile line, as in cc -DeslAUGMENT_SSI -DeslAUGMENT_MSA.
+ * 
+ * If you compile and install the complete Easel library, all of these
+ * get #defined automatically by ./configure, plus the eslLIBRARY flag
+ * which means the full library with all augmentations is
+ * available. So, if you steal files from an installed library, just
+ * set these all back to #undef (depending on which files you have).
+ *****************************************************************/
+#undef eslLIBRARY
+
+#ifndef eslLIBRARY
+#undef eslAUGMENT_ALPHABET
+#undef eslAUGMENT_NCBI
+#undef eslAUGMENT_DMATRIX
+#undef eslAUGMENT_FILEPARSER
+#undef eslAUGMENT_GEV
+#undef eslAUGMENT_GUMBEL
+#undef eslAUGMENT_HISTOGRAM
+#undef eslAUGMENT_KEYHASH 
+#undef eslAUGMENT_MINIMIZER
+#undef eslAUGMENT_MSA		
+#undef eslAUGMENT_RANDOM
+#undef eslAUGMENT_SSI
+#undef eslAUGMENT_STATS
+#endif
+
+#ifdef eslLIBRARY
+#define eslAUGMENT_ALPHABET
+#define eslAUGMENT_NCBI
+#define eslAUGMENT_DMATRIX
+#define eslAUGMENT_FILEPARSER
+#define eslAUGMENT_GEV
+#define eslAUGMENT_GUMBEL
+#define eslAUGMENT_HISTOGRAM
+#define eslAUGMENT_KEYHASH 
+#define eslAUGMENT_MINIMIZER
+#define eslAUGMENT_MSA		
+#define eslAUGMENT_RANDOM
+#define eslAUGMENT_SSI
+#define eslAUGMENT_STATS
+#endif
+
+
+#endif /*eslCONFIG_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.c
new file mode 100755
index 0000000..a956980
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.c
@@ -0,0 +1,1665 @@
+/* Functions relevant to Beta, Gamma, and Dirichlet densities,
+ * including simple and mixture Dirichlet priors.
+ * 
+ * Contents:
+ *   1. The <ESL_MIXDCHLET> object for mixture Dirichlet priors
+ *   2. Dirichlet likelihood functions
+ *   3. Sampling from Dirichlets              [with <random>]
+ *   4. Reading mixture Dirichlets from files [with <fileparser>]
+ *   5. Unit tests
+ *   6. Test driver
+ *   7. Example
+ *   8. Copyright and license information
+ */
+#include <esl_config.h>
+
+#include <assert.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+#ifdef eslAUGMENT_FILEPARSER
+#include "esl_fileparser.h"
+#endif
+#include "esl_vectorops.h"
+#include "esl_stats.h"
+#include "esl_dirichlet.h"
+
+
+/*****************************************************************
+ *# 1. The <ESL_MIXDCHLET> object for mixture Dirichlet priors
+ *****************************************************************/
+
+/* Function:  esl_mixdchlet_Create()
+ *
+ * Purpose:   Create a new mixture Dirichlet prior with <N> components,
+ *            each with <K> parameters.
+ *
+ * Returns:   initialized <ESL_MIXDCHLET *> on success.
+ *
+ * Throws:    NULL on allocation failure.
+ */
+ESL_MIXDCHLET *
+esl_mixdchlet_Create(int N, int K)
+{
+  int status;
+  ESL_MIXDCHLET *pri = NULL;
+  int q;
+
+  ESL_ALLOC(pri, sizeof(ESL_MIXDCHLET));
+  pri->pq = NULL; 
+  pri->alpha = NULL;
+
+  ESL_ALLOC(pri->pq,    sizeof(double)   * N);
+  ESL_ALLOC(pri->alpha, sizeof(double *) * N);
+  pri->alpha[0] = NULL;
+
+  ESL_ALLOC(pri->alpha[0], sizeof(double) * N * K);
+  for (q = 1; q < N; q++)
+    pri->alpha[q] = pri->alpha[0] + q*K;
+
+  pri->N = N;
+  pri->K = K;
+  return pri;
+
+ ERROR:
+  esl_mixdchlet_Destroy(pri);
+  return NULL;
+}
+
+/* Function:  esl_mixdchlet_PerfectBipartiteMatchExists()
+ * Synopsis:  Given a 2D table representing presence of edges between vertices represented by
+ * 			the rows and columns, test whether a perfect matching exists.
+ * 			Note 1: this doesn't find a perfect matching, just checks if one exists.
+ * 			Note 2: written as a private function for use by esl_mixdchlet_Compare
+ * Incept:    TW, Fri Nov  6 14:23:23 EST 2009 [janelia]
+ *
+ * Args:      A      - 2-dimensional square table representing presence of edges between vertices
+ *            N      - size of that table
+ *
+ * Returns:   <eslOK> if a perfect matching exists; <eslFAIL> otherwise.
+ */
+int
+esl_mixdchlet_PerfectBipartiteMatchExists(int **A, int N ) 
+{
+  /*
+    Basic idea:
+    -Scan through the rows, and create a matching edge any time a row has only
+    one matching column (i.e. a single column with eslOK value)
+    * This is conservative: if the row isn't matched with this column, no perfect matching is possible.
+    -Repeat, this time scanning columns.
+    -Repeat  rows then columns - until no rows or columns are found with a single eslOK value.
+
+    -If a row or column is found with no possible matches, then no complete matching is possible.
+    -If a point is reached where all rows and all columns have more than one match, I'm pretty sure a
+    perfect matching is guaranteed.
+    - This is unproven; the intuition is that for any imperfect matching an augmenting path
+    should (I think) exist: it will contain an edge from one unmatched element to a matched
+    element, followed by the existing edge from that element to it's mate, followed by a 2nd
+    edge from that mate to another, and so on.
+
+    It's a O(n^3) algorithm, though it'll typically run fast in practice
+  */
+  int matched_row[N], matched_col[N];
+  esl_vec_ISet(matched_row, N, 0);
+  esl_vec_ISet(matched_col, N, 0);
+
+  int i,j;
+  int unassigned = N;
+  int do_row = 1; // otherwise, do_column
+  while (unassigned > 0) {
+    int changed = 0;
+
+    for (i=0; i<N; i++) {
+      int match_cnt = 0;
+      int match = -1;
+
+      if ( 1 == (do_row == 1 ? matched_row[i] : matched_col[i]) ) continue;
+
+      for (j=0; j<N; j++) {
+	if ( eslOK == (do_row == 1 ? A[i][j] : A[j][i] ) ) {
+	  match_cnt++;
+	  match = j;
+	}
+      }
+
+      if (match_cnt == 0) return eslFAIL;  // mixtures can't possibly match
+      if (match_cnt == 1) { // found a pair s.t. only this col can match this row within tol.
+	changed++;
+	if (do_row == 1  ) {
+	  matched_row[i] = matched_col[match] = 1;
+	  for (j=0; j<N; j++)
+	    A[j][match] = eslFAIL; // don't allow the matched col to match other rows, too.
+	} else {
+	  matched_col[i] = matched_row[match] = 1;
+	  for (j=0; j<N; j++)
+	    A[match][j] = eslFAIL; // don't allow the matched rwo to match other cols, too.
+	}
+      }
+      //if (match_cnt > 1), leave it for a later pass
+    }
+    unassigned -= changed;
+
+    if (changed == 0) { // All had multiple hits, so (I think) we are guaranteed of being able to pick some mapping that will be legal
+      return eslOK;
+    }
+    do_row = 1 - do_row; // flip value
+
+  }
+  //got here, all mapping must've been done
+  return eslOK;
+}
+
+/* Function:  esl_mixdchlet_Compare()
+ * Synopsis:  Compare two mixture Dirichlets for equality.
+ *
+ * Purpose:   Compare mixture Dirichlet objects <d1> and <d2>
+ *            for equality. For real numbered values, equality
+ *            is defined by <esl_DCompare()> with a fractional
+ *            tolerance <tol>.
+ *
+ * Returns:   <eslOK> on equality; <eslFAIL> otherwise.
+ */
+int
+esl_mixdchlet_Compare(ESL_MIXDCHLET *d1, ESL_MIXDCHLET *d2, double tol)
+{
+  int i,j;
+  int status;
+
+  if (d1->N != d2->N) return eslFAIL;
+  if (d1->K != d2->K) return eslFAIL;
+
+  //set up a 2-D matrix, to store the pairs of components that meet tolerance requirements
+  int **A;
+  ESL_ALLOC(A, d1->N * sizeof(int*));
+  for (i=0; i<d1->N; i++)
+    ESL_ALLOC(A[i], d1->N * sizeof(int) );
+
+  // Fill in matrix - OK if component i from d1 is a viable match with component q from d2
+  for (i=0; i<d1->N; i++)
+    {
+      for (j=0; j<d1->N; j++)
+	{
+	  A[i][j] = esl_DCompare( d1->pq[i], d2->pq[j], tol);
+	  if (A[i][j] == eslOK)
+	    A[i][j] = esl_vec_DCompare(d1->alpha[i], d2->alpha[j], d1->K, tol) ;
+	}
+    }
+
+  /* In most cases, there should be only a one-to-one mapping (if
+   * any), which is easy to test.  But in the unlikely case of a
+   * many-to-one mapping, we need to do a little more.  The problem
+   * amounts to asking whether there exists a perfect bipartite
+   * matching (aka the marriage problem)
+   */
+  status = esl_mixdchlet_PerfectBipartiteMatchExists( A, d1->N);
+
+  /* fallthrough*/
+ ERROR:
+  for (i=0; i<d1->N; i++)
+    free (A[i]);
+  free (A);
+  return status;
+}
+
+
+
+/* Function:  esl_mixdchlet_Copy()
+ * Synopsis:  Copy a mixture Dirichlet object.
+ *
+ * Purpose:   Copies mixture dirichlet object <d> to <d_dst>.
+ *            Both objects are of size <N> and <K>.  
+ *            <d> is unchanged.                    
+ *
+ * Returns:   <eslOK> on equality; <eslFAIL> otherwise.
+ */
+int
+esl_mixdchlet_Copy(ESL_MIXDCHLET *d, ESL_MIXDCHLET *d_dst)
+{
+  int q;
+
+  if (d->N != d_dst->N) return eslFAIL;
+  if (d->K != d_dst->K) return eslFAIL;
+
+  esl_vec_DCopy(d->pq, d->N, d_dst->pq);
+  
+  for (q = 0; q < d->N; q++)
+    esl_vec_DCopy(d->alpha[q], d->K, d_dst->alpha[q]);
+
+  return eslOK;
+}
+
+
+/* Function:  esl_mixdchlet_Destroy()
+ *
+ * Purpose:   Free's the mixture Dirichlet <pri>.
+ */
+void
+esl_mixdchlet_Destroy(ESL_MIXDCHLET *pri)
+{
+  if (pri     == NULL)  return;
+  if (pri->pq != NULL)  free(pri->pq);
+  if (pri->alpha != NULL) {
+    if (pri->alpha[0] != NULL) free(pri->alpha[0]); 
+    free(pri->alpha);
+  }
+  free(pri);
+}
+
+
+/* Function:  esl_mixdchlet_Dump()
+ *
+ * Purpose:   Dump the mixture Dirichlet <d>.
+ */
+int
+esl_mixdchlet_Dump(FILE *fp, ESL_MIXDCHLET *d)
+{
+  int  q;  /* counter over mixture components */
+  int  i;  /* counter over params */
+
+  fprintf(fp, "Mixture Dirichlet: N=%d K=%d\n", d->N, d->K);
+  for (q = 0; q < d->N; q++) {
+    fprintf(fp, "q[%d] %f\n", q, d->pq[q]);
+    for (i = 0; i < d->K; i++)
+      fprintf(fp, "alpha[%d][%d] %f\n", q, i, d->alpha[q][i]);
+  }
+  
+  return eslOK;
+}
+
+/* esl_dirichlet_MixturePosterior()
+ *
+ * Purpose:   For a count vector <c> of cardinality <K>, and a
+ *            mixture Dirichlet prior <pri>. Calculate mix[],
+ *            the posterior probability P(q | c) of mixture
+ *            component q given the count vector c. Caller must
+ *            provide allocated space for <mix>, of length <K>.
+ *
+ * Returns:   <eslOK> on success, <mix> contains posterior probabilities of
+ *            the Dirichlet components.
+ */
+static int
+esl_dirichlet_MixturePosterior(double *c, int K, ESL_MIXDCHLET *pri, double *mix)
+{
+  int q;      /* counter over mixture components */
+  double val;
+
+  for (q = 0; q < pri->N; q++) {
+    if (pri->pq[q] > 0.0) {
+      esl_dirichlet_LogProbData(c, pri->alpha[q], K, &val);
+      mix[q] =  val + log(pri->pq[q]);
+    }
+    else
+    {
+      mix[q] = -HUGE_VAL;
+    }
+  }
+
+  esl_vec_DLogNorm(mix, pri->N); /* mix[q] is now P(q|c) */
+
+  return eslOK;
+}
+
+/* Function:  esl_mixdchlet_MPParameters()
+ *
+ * Purpose:   Parameter estimation for a count vector <c> of cardinality
+ *            <K>, and a mixture Dirichlet prior <pri>. Calculates
+ *            mean posterior estimates for probability parameters, and
+ *            returns them in <p>. Also returns the posterior probabilities
+ *            of each Dirichlet mixture component, $P(q \mid c)$, in <mix>.
+ *            Caller must provide allocated space for <mix> and <p>, both
+ *            of length <K>.
+ *
+ * Returns:   <eslOK> on success; <mix> contains posterior probabilities of
+ *            the Dirichlet components, and <p> contains mean posterior
+ *            probability parameter estimates.
+ *
+ * Throws:    <esl_EINCOMPAT> if <pri> has different cardinality than <c>.
+ */
+int
+esl_mixdchlet_MPParameters(double *c, int K, ESL_MIXDCHLET *pri, double *mix, double *p)
+{
+  int q;			/* counter over mixture components */
+  int x;
+  double totc;
+  double tota;
+  
+  if (K != pri->K) ESL_EXCEPTION(eslEINCOMPAT, "cvec's K != mixture Dirichlet's K");
+
+  /* Calculate mix[], the posterior probability
+   * P(q | c) of mixture component q given the count vector c.
+   */
+  esl_dirichlet_MixturePosterior(c, K, pri, mix);
+
+
+  /* Compute mean posterior estimates for probability parameters
+   */
+  totc = esl_vec_DSum(c, K);
+  esl_vec_DSet(p, K, 0.);
+  for (x = 0; x < K; x++)
+    for (q = 0; q < pri->N; q++)
+      {
+	tota = esl_vec_DSum(pri->alpha[q], K);
+	p[x] += mix[q] * (c[x] + pri->alpha[q][x]) / (totc + tota);
+      }
+  /* should be normalized already, but for good measure: */
+  esl_vec_DNorm(p, K);
+  return eslOK;
+}
+
+
+/* Function:  esl_mixdchlet_BILD_score()
+ *
+ * Purpose:   Compute the BILD score (sensu Altschul et al PLos Compbio 2010)
+ *            for a given count vector <c> of cardinality (alphabet size) <K>,
+ *            under a mixture Dirichlet prior <pri>, and a background
+ *            character distribution <bg>, also cardinality K. The score is
+ *            in bits. Also computes posterior values for (1) Dirichlet mixture
+ *            coefficients ($P(q \mid c)$, performed and returned in a previously
+ *            allocated array, <mix>).
+ *
+ *            Caller must provide allocated space for <mix> (length K), and
+ *            <q> (length 1).
+ *
+ * Returns:   <eslOK> on success; <mix> contains posterior probabilities of
+ *            the Dirichlet components, and <sc> contains the BILD score of
+ *            observation under the prior and bg.
+ *
+ * Throws:    <esl_EINCOMPAT> if <pri> has different cardinality than <c>.
+ */
+int
+esl_mixdchlet_BILD_score(double *c, int K, int N, ESL_MIXDCHLET *pri,
+                   double *mix, double *bg, double *sc)
+{
+  int i;      /* counter over mixture components */
+  int j;
+  double tmp;
+  double val;
+  double totc;
+  double tota;
+
+  if (K != pri->K) ESL_EXCEPTION(eslEINCOMPAT, "cvec's K != mixture Dirichlet's K");
+  if (N != pri->N) ESL_EXCEPTION(eslEINCOMPAT, "cvec's N != mixture Dirichlet's N");
+
+  /* Calculate mix[], the posterior probability
+   * P(q | c) of mixture component q given the count vector c.
+   */
+  esl_dirichlet_MixturePosterior(c, K, pri, mix);
+
+
+  /* Compute probability of observing the given count vector
+   * under the mixture Dirichlet prior, which depends on the
+   * posterior.
+   */
+  *sc = 0.0;
+  totc = esl_vec_DSum(c, K);
+  for (i = 0; i < N; i++) {
+    if (mix[i] > 0) {
+      tota = esl_vec_DSum(pri->alpha[i], K);
+      esl_stats_LogGamma(tota, &tmp);
+      val = tmp;
+
+      esl_stats_LogGamma(tota + totc, &tmp);
+      val -= tmp;
+
+      for (j = 0; j < K; j++) {
+        esl_stats_LogGamma(pri->alpha[i][j] + c[j], &tmp);
+        val += tmp;
+        esl_stats_LogGamma(pri->alpha[i][j], &tmp);
+        val -= tmp;
+      }
+
+      *sc += mix[i] * exp(val);
+    }
+  }
+
+  /* At this point, sc holds the Q value from the Altschul paper.
+   * Get the odds ratio by dividing by the product of background
+   * probabilities for observed counts, (accounting for sequence
+   * weighting).
+   */
+  for (j = 0; j < K; j++) {
+    *sc /= pow(bg[j], c[j]);
+  }
+  *sc = log(*sc)*eslCONST_LOG2R;
+
+  return eslOK;
+}
+/*---------------- end, ESL_MIXDCHLET ---------------------------*/
+
+
+/*****************************************************************
+ *# 2. Dirichlet likelihood functions
+ *****************************************************************/
+
+/* Function:  esl_dirichlet_LogProbData()
+ *
+ * Purpose:   Given an observed count vector $c[0..K-1]$, 
+ *            and a simple Dirichlet density parameterized by
+ *            $\alpha[0..K-1]$;
+ *            calculate $\log P(c \mid \alpha)$.
+ *            
+ *            This is $\int P(c \mid p) P(p \mid \alpha) dp$,
+ *            an integral that can be solved analytically.
+ *
+ * Args:      c          - count vector, [0..K-1]
+ *            alpha      - Dirichlet parameters, [0..K-1]
+ *            K          - size of c, alpha vectors
+ *            ret_answer - RETURN: log P(c | \alpha)
+ *
+ * Returns:   <eslOK> on success, and puts result $\log P(c \mid \alpha)$
+ *            in <ret_answer>.
+ */
+int
+esl_dirichlet_LogProbData(double *c, double *alpha, int K, double *ret_answer)
+{
+  double lnp;      
+  double sum1, sum2, sum3;
+  double a1, a2, a3;
+  int    x;
+
+  sum1 = sum2 = sum3 = lnp = 0.0;
+  for (x = 0; x < K; x++)
+    {
+      sum1 += c[x] + alpha[x];
+      sum2 += alpha[x];
+      sum3 += c[x];
+      esl_stats_LogGamma(alpha[x] + c[x], &a1); 
+      esl_stats_LogGamma(c[x] + 1.,       &a2);
+      esl_stats_LogGamma(alpha[x],        &a3);
+      lnp  += a1 - a2 - a3;
+    }
+  esl_stats_LogGamma(sum1,      &a1);
+  esl_stats_LogGamma(sum2,      &a2);
+  esl_stats_LogGamma(sum3 + 1., &a3);
+  lnp += a2 + a3 - a1;
+
+  *ret_answer = lnp;
+  return eslOK;
+}
+
+/* Function:  esl_dirichlet_LogProbData_Mixture()
+ *
+ * Purpose:   Given an observed count vector $c[0..K-1]$, 
+ *            and a mixture Dirichlet density parameterized by
+ *		$\alpha_1[0..K-1]$ ... $\alpha_N[0..K-1]$,
+ *            calculate $\log \sum_i pq_i * P(c \mid \alpha_i)$.
+ *            
+ *
+ * Args:      c          - count vector, [0..K-1]
+ *            d          - Dirichlet parameters, [0..K-1]
+ *            ret_answer - RETURN: log P(c | \alpha)
+ *
+ * Returns:   <eslOK> on success, and puts result $\log P(c \mid \alpha)$
+ *            in <ret_answer>.
+ */
+int
+esl_dirichlet_LogProbData_Mixture(double *c, ESL_MIXDCHLET *d, double *ret_answer)
+{
+  double *mixq = NULL;
+  double  lnp;
+  double  val;
+  int     q;             /* counter over mixture components */
+  int     status;
+
+  ESL_ALLOC(mixq, sizeof(double)*d->N);
+
+  for (q = 0; q < d->N; q++) {
+    esl_dirichlet_LogProbData(c, d->alpha[q], d->K, &val);
+    mixq[q] = val + log(d->pq[q]);
+  }
+  lnp = esl_vec_DLogSum(mixq, d->N);
+
+  free(mixq);
+
+  *ret_answer = lnp;
+  return eslOK;
+
+ ERROR:
+  free(mixq);
+  return status;
+}
+
+
+/* esl_dirichlet_LogProbDataSet_Mixture()
+ *
+ * Purpose:   Given an observed set of count vectors $c[0..N-1][0..K-1]$, 
+ *            and a mixture Dirichlet density parameterized by
+ *			  $\alpha_1[0..K-1]$ ... $\alpha_N[0..K-1]$,
+ *            calculate $ \sum_n \log \sum_i pq_i * P(c[n] \mid \alpha_i)$.
+ *            This is a convenience function, which simply wraps
+ *            esl_dirichlet_LogProbData_Mixture
+ *
+ * Args:      ntrials      - number of count vectors (aka N)
+ *            counts       - count vector set, [0..N-1][0..K-1]
+ *            md           - Dirichlet parameters
+ *            ret_answer   - RETURN: log P(c | \alpha)
+ *
+ * Returns:   <eslOK> on success, and puts result $\log P(c \mid \alpha)$
+ *            in <ret_answer>.
+ */
+static int 
+esl_dirichlet_LogProbDataSet_Mixture(int ntrials, double** counts, ESL_MIXDCHLET* md, double *ret_answer) 
+{
+  double val;
+  int i;
+
+  *ret_answer = 0;
+  for (i = 0; i < ntrials; i++) 
+    {
+      esl_dirichlet_LogProbData_Mixture(counts[i], md, &val);
+      *ret_answer += val;
+    }
+  return eslOK;
+}
+
+/* Function:  esl_dirichlet_LogProbProbs()
+ *
+ * Purpose:   Given Dirichlet parameter vector <alpha> and a probability
+ *            vector <p>, both of cardinality <K>; return
+ *            $\log P(p \mid alpha)$.
+ *            
+ * Returns:   <eslOK> on success, and the result is in <ret_answer>.           
+ *            
+ * Xref:      Sjolander (1996) appendix, lemma 2.
+ */
+int
+esl_dirichlet_LogProbProbs(double *p, double *alpha, int K, double *ret_answer)
+{
+  double sum;		        /* for Gammln(|alpha|) in Z     */
+  double logp;			/* RETURN: log P(p|alpha)       */
+  double val;
+  int x;
+
+  sum = logp = 0.0;
+  for (x = 0; x < K; x++)
+    if (p[x] > 0.0)		/* any param that is == 0.0 doesn't exist */
+      {
+	esl_stats_LogGamma(alpha[x], &val);
+	logp -= val;
+	logp += (alpha[x]-1.0) * log(p[x]);
+	sum  += alpha[x];
+      }
+  esl_stats_LogGamma(sum, &val);
+  logp += val;
+  *ret_answer = logp;
+  return eslOK;
+}
+/*----------- end, Dirichlet likelihood functions ---------------*/
+
+/*****************************************************************
+ * Dirichlet Maximum likelihood fit from counts
+ *****************************************************************/
+
+#ifdef eslAUGMENT_MINIMIZER
+/* This structure is used to sneak the data into minimizer's generic
+ * (void *) API for all aux data
+ */
+struct mixdchlet_data {
+  ESL_MIXDCHLET  *d;      /* the dirichlet mixture parameters */
+  double        **c;      /* count vector array [0..nc-1][0..alphabet_size(d->K)] */
+  int             nc;     /* number of count samples */
+};
+
+/*****************************************************************
+ * Parameter vector packing/unpacking
+ *
+ * The conjugate gradient code takes a single parameter vector <p>,
+ * where the values are unconstrained real numbers.
+ *
+ * We have a mixture Dirichlet with two kinds of parameters.
+ * pq_i are mixture coefficients, constrained to be >= 0 and
+ * \sum_i pq_i = 1.  alpha^i_x are the Dirichlet parameters
+ * for component i, constrained to be > 0.
+ *
+ * Our p's are therefore not only packed into a single vector;
+ * they're reparameterized to implement the constraints:
+ *   for a Dirichlet parameter:
+ *      alpha = exp(p)   p = log(alpha)
+ *      (thus, alpha > 0 for all real p)
+ *
+ *   for a mixture coefficient:
+ *      pq = exp(-exp(p)) / \sum_a exp(-exp(p_a))
+ *      (thus, 0 < pq < 1 and \sum_a pq_a = 1, for all real p)
+ *
+ *   In my hands (ER), this parametrization works better that
+ *      pq = exp(p) / \sum_a exp(p_a)
+ *
+ * Conjugate gradients optimizes the <p> parameter vector,
+ * but we can convert that back out into a Dirichlet answer.
+ *
+ * The packing order is: the first N terms of a parameter vector are
+ * the mixture coefficients pq_i. N different alpha_i vectors follow.
+ *
+ * [0 ... N-1] [0 ... K-1] [0 ... K-1]  ... 
+ *     q's      alpha_0     alpha_1     ...
+ *
+ * In both functions below, p, pq, and alpha are all allocated
+ * and free'd by the caller.
+ *      p : length N + N*K = N*(K+1)  [0.. N*(K+1)-1]
+ *     pq : length N,   [0..N-1]
+ *  alpha : length NxK, [0..N-1][0..K-1].
+ *
+ * Special cases:
+ *
+ * - For (N >= 1 && K == 1) there is nothing to optimize.
+ *  
+ * - For (N == 1 && K >  1) the only variables to optimize are the K alphas
+ *
+ *              [0 ... K-1] 
+ *                 alpha    
+ *
+ *      p : length N*K = N*K  [0.. N*K-1]
+ *  alpha : length NxK, [0][0..K-1].
+ *
+ */
+static void
+mixdchlet_pack_paramvector(double *p, int np, ESL_MIXDCHLET *d)
+{
+  int nq;        /* number the mixture components to optimize */
+  int q;	 /* counter over mixture components */
+  int x;         /* counter in alphabet size */
+
+  nq = (d->N > 1)? d->N : 0;
+
+  /* the mixture coeficients */
+  for (q = 0; q < nq; q++)
+	  p[q] = log(d->pq[q]);
+    //p[q] = log(-log(d->pq[q]));  TW changed to the above; this was causing fit to fail
+
+  /* the dirichlet parameters */
+  for (q = 0; q < d->N; q++)
+    for (x = 0; x < d->K; x++)
+      p[nq + q*d->K + x] = log(d->alpha[q][x]);
+ 
+}
+
+/* Same as above but in reverse: given parameter vector <p>,
+ * do appropriate c.o.v. back to desired parameter space, and
+ * update the mixdchlet <d>.
+ */
+static void
+mixdchlet_unpack_paramvector(double *p, int np, ESL_MIXDCHLET *d)
+{
+  int nq;        /* number the mixture components to optimize */
+  int q;	 /* counter over mixture components */
+  int x;         /* counter in alphabet size */
+
+  nq = (d->N > 1)? d->N : 0;
+
+  /* the mixture coeficients */
+  for (q = 0; q < nq; q++) 
+	d->pq[q] = exp(p[q]);
+	//d->pq[q] = exp(-exp(p[q])); TW changed to the above; this was causing fit to fail
+  esl_vec_DNorm(d->pq, d->N);
+
+  /* the dirichlet parameters */
+  for (q = 0; q < d->N; q++)
+    for (x = 0; x < d->K; x++) 
+      d->alpha[q][x] = exp(p[nq + q*d->K + x]);      
+ 
+  /*esl_mixdchlet_Dump(stdout, d);*/
+
+}
+
+/* The log likelihood function to be optimized by ML fitting:
+ *   This needs to be careful of a case where a lambda = inf.
+ */
+static double
+mixdchlet_complete_func(double *p, int np, void *dptr)
+{
+  struct mixdchlet_data *data = (struct mixdchlet_data *) dptr;
+  ESL_MIXDCHLET         *d    = data->d;
+  double  logPsample;
+  double  logP = 0.;
+  int     m;             /* counter over count samples */
+ 
+  mixdchlet_unpack_paramvector(p, np, d);
+
+  for (m = 0; m < data->nc; m++) {
+    esl_dirichlet_LogProbData_Mixture(data->c[m], d, &logPsample);
+    logP += logPsample;
+  }
+
+  if (isnan(logP)) esl_fatal("logP is NaN");
+  return -logP;
+}
+
+/* The gradient of the NLL w.r.t. each free parameter in p.
+ * Modified by ER 11/03/09 to compute derivative of log(alpha) instead of alpha
+ * (committed by TW)
+ */
+static void
+mixdchlet_complete_gradient(double *p, int np, void *dptr, double *dp)
+{
+  struct mixdchlet_data *data = (struct mixdchlet_data *) dptr;
+  ESL_MIXDCHLET         *d    = data->d;
+  double  sum_alpha;             /* \sum_x alpha[q][x]                        */
+  double  sum_c;                 /* \sum_x c[m][x]                            */
+  double  val;                   /* val    is         p_q * P(c_m | alpha_q)  */
+  double *valsum;                /* valsum is  sum_q [p_q * P(c_m | alpha_q)] */
+  double  term;                  /* term   is  q * P(alpha_q | c_m)           */
+  double  psi1;                  /* Psi(sum_alpha[q])                         */
+  double  psi2;                  /* Psi(sum_alpha[q] + sum_c[m])              */
+  double  psi3;                  /* Psi(sum_alpha[q][x]+ c[m][x])             */
+  double  psi4;                  /* Psi(sum_alpha[q][x])                      */
+  int     nq;                    /* number the mixture components to optimize */
+  int     m;                     /* counter over count samples                */
+  int     q;                     /* counter over mixture components           */
+  int     x;                     /* counter in alphabet size                  */
+
+  nq = (d->N > 1)? d->N : 0;
+
+  mixdchlet_unpack_paramvector(p, np, d);
+
+  /* initialize */
+  valsum = malloc(sizeof(double) * data->nc);
+  esl_vec_DSet(dp, np, 0.0);
+
+  /* Some precalculation of sums for efficiency.
+   * valsum is  sum_q [p_q * P(c_m | alpha_q)]
+   */
+   for (m = 0; m < data->nc; m++)
+    esl_dirichlet_LogProbData_Mixture(data->c[m], d, &(valsum[m]));
+
+   for (q = 0; q < d->N; q++) {
+
+     sum_alpha = esl_vec_DSum(d->alpha[q], d->K);
+     esl_stats_Psi(sum_alpha, &psi1);  /* psi1 = Psi(sum_alpha[q]) */
+
+     for (m = 0; m < data->nc; m++) {
+       sum_c = esl_vec_DSum(data->c[m], d->K);
+       esl_stats_Psi(sum_alpha+sum_c, &psi2); /* psi2 = Psi(sum_alpha[q] + sum_c[m]) */
+
+      /* val is pq * P(c_m | alpha_q)    */
+       esl_dirichlet_LogProbData(data->c[m], d->alpha[q], d->K, &val);
+
+
+       /* derivative respect to the mixture coeficients */
+       /* term is  pq * P(alpha_q | c_m) */
+       term = exp(val - valsum[m] + log(d->pq[q]));
+       if (nq > 0) dp[q] += term - d->pq[q];
+
+
+       /* derivative respect to the dirichlet parameters */
+       for (x = 0; x < d->K; x++) {
+         esl_stats_Psi(d->alpha[q][x]+data->c[m][x], &psi3); /* psi3 = Psi(sum_alpha[q][x]+ c[m][x]) */
+         esl_stats_Psi(d->alpha[q][x],               &psi4); /* psi4 = Psi(sum_alpha[q][x]+ c[m][x]) */
+
+         dp[nq + q*d->K + x] += term * d->alpha[q][x] * (psi1 - psi2 + psi3 - psi4);
+
+
+      }
+     }
+   }
+
+
+
+   /* Return the negative, because we're minimizing the NLP, not maximizing.
+    */
+   for (q = 0; q < nq; q++) {
+     if (isnan(dp[q])) esl_fatal("dp for pq[%d] is NaN", q);
+     dp[q] *= -1.;
+   }
+   for (q = 0; q < d->N; q++)
+     for (x = 0; x < d->K; x++) {
+       if(isnan(dp[nq + q*d->K + x])) esl_fatal("dp for alpha[%d][%d] is NaN", q, x);
+       dp[nq + q*d->K + x] *= -1.0;
+     }
+
+   free(valsum);
+ }
+
+/* Function:  esl_mixdchlet_Fit()
+ *
+ * Purpose:   Given a count vector <c>, and an initial guess <d> for
+ *            a mixdchlet, find maximum likelihood parameters
+ *            by conjugate gradient descent optimization, starting
+ *            from <d> and leaving the final optimized solution in
+ *            <d>.
+ *            
+ * Returns:   <eslOK> on success, and <d> contains the fitted 
+ *            mixdchlet parameters.
+ *            
+ * Throws:    <eslEMEM> on allocation error, and <d> is left in
+ *            in its initial state.           
+ */
+int
+esl_mixdchlet_Fit(double **c, int nc, ESL_MIXDCHLET *d, int be_verbose)
+{
+  struct mixdchlet_data data;
+  double *p   = NULL;
+  double *u   = NULL;
+  double *wrk = NULL;
+  double  tol;
+  double  fx;
+  int     np;      /* number of parameters to optimize */
+  int     nq;      /* number the mixture components to optimize */
+  int     i;
+  int     status;
+
+  /* nothing to optimize for a dirichlet of K = 1 (alphabet size = 1)*/
+  if (d->K == 1) return eslOK;
+
+  tol = 1e-6;
+
+  /* Allocate parameters
+   */
+  nq = (d->N > 1)? d->N : 0;
+  np = nq + d->N*d->K;
+  ESL_ALLOC(p,   sizeof(double) * np);
+  ESL_ALLOC(u,   sizeof(double) * np);
+  ESL_ALLOC(wrk, sizeof(double) * np * 4);
+
+  /* Copy shared info into the "data" structure
+   */
+  data.d  = d;
+  data.c  = c;
+  data.nc = nc;
+
+  /* From d, create the parameter vector.
+   */
+  mixdchlet_pack_paramvector(p, np, d);
+
+  /* Define the step size vector u.
+   */
+  for (i = 0; i < np; i++) u[i] = 0.1;
+
+  /* Feed it all to the mighty optimizer.
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, np, 
+					    &mixdchlet_complete_func, 
+					    &mixdchlet_complete_gradient,
+					    (void *) (&data), tol, wrk, &fx);
+  if (status != eslOK && status != eslENOHALT) // eslENOHALT? Then take what we've got - it's probably pretty good
+	  goto ERROR;
+
+  /* Convert the final parameter vector back to a mixdchlet
+   */
+  mixdchlet_unpack_paramvector(p, np, d);
+
+  free(p);
+  free(u);
+  free(wrk);
+  return eslOK;
+
+ ERROR:
+  if (p   != NULL) free(p);
+  if (u   != NULL) free(u);
+  if (wrk != NULL) free(wrk);
+  return status;
+}
+
+
+/* Function:  esl_mixdchlet_Fit_Multipass()
+ *
+ * Purpose:   Given a set of count vectors <c>, find maximum
+ *            likelihood mixdchlet parameters. A number <reps>
+ *            of initial guesses <d> for a mixdchlet are used,
+ *            with conjugate gradient descent performed for
+ *            each guess. The mixdchlet returned is the one
+ *            among these multiple local searches with
+ *            best likelihood.  This is a convenience
+ *            function, which simply wraps <esl_mixdchlet_Fit()>
+ *            for multiple start points.
+ *
+ * Args:      r  - pointer to random generator
+ * 	      c  - set of count vectors, [0..M-1][0..N-1]
+ * 	      nc - number of count samples
+ *            reps - number of random starting points
+ *            best_md  - an initialized mixdchlet, which will
+ *            		contain the correct q and alpha values
+ *            		at completion
+ *            verbose - if >0, output is verbose
+ *
+ * Returns:   <eslOK> on success, and <best_md> contains the fitted
+ *            mixdchlet parameters with best likelihood.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <d> is left in
+ *            in its initial state.
+ */
+int
+esl_mixdchlet_Fit_Multipass(ESL_RANDOMNESS *r, double **c, int nc, int reps, ESL_MIXDCHLET *best_md, int verbose)
+{
+  int i, q, k, status;
+  double best_lk = -eslINFINITY;
+  double lk;
+  ESL_MIXDCHLET *md = esl_mixdchlet_Create(best_md->N, best_md->K);
+  int err_cnt = 0;
+  
+  for (i=0; i<reps; i++) 
+    {
+      /* for each pass, establish a new random starting point */
+      for (q = 0; q < md->N; q++) 
+	{
+	  md->pq[q] = esl_rnd_UniformPositive(r);
+
+	  for (k = 0; k < md->K; k++)
+	    md->alpha[q][k] = 10.0 * esl_rnd_UniformPositive(r);
+	}
+      esl_vec_DNorm(md->pq, md->N);
+
+      /* then use Fit to do local search */
+      status = esl_mixdchlet_Fit(c, nc, md, 0);
+      if (status != eslOK) {
+	err_cnt++;
+	if (err_cnt==2*reps) {
+	  goto ERROR;
+	} else {
+	  i--; /* try another starting point */
+	  continue;
+	}
+      }
+      esl_dirichlet_LogProbDataSet_Mixture (nc, c, md, &lk);
+
+      if (verbose)
+	{
+	  fprintf(stderr, "Repetition # %d\n------------\n", i);
+	  esl_mixdchlet_Dump(stderr, md);
+	  fprintf(stderr, "llk = %.3f  (vs best = %.3f)\n", lk, best_lk);
+	}
+
+      if (lk > best_lk) 
+	{
+	  if (verbose) fprintf(stderr, "... so copy md -> best_md\n");
+	  best_lk = lk;
+	  esl_mixdchlet_Copy(md, best_md);
+	}
+    }
+
+  if (verbose) 
+    {
+      fprintf(stdout, "\n\n----------------\nbest mixture:\n");
+      esl_mixdchlet_Dump(stdout, best_md);
+      fprintf(stdout, "llk = %.3f", best_lk);
+    }
+
+ ERROR:
+  esl_mixdchlet_Destroy(md);
+  return status;
+}
+
+#endif /*eslAUGMENT_MINIMIZER*/
+/*----------- end, Dirichlet Maximum likelihood fit from counts ---------------*/
+
+
+/*****************************************************************
+ *# 3. Sampling from Dirichlets: requires <esl_random>
+ *****************************************************************/
+#ifdef eslAUGMENT_RANDOM
+
+/* Function:  esl_dirichlet_DSample()
+ *
+ * Purpose:   Given a Dirichlet density parameterized by $\alpha[0..K-1]$,
+ *            sample a probability vector $p[0..K-1]$ from
+ *            $P(p \mid \alpha)$.
+ *
+ * Args:      r      - random number generation object
+ *            alpha  - parameters of Dirichlet density [0..K-1]
+ *            K      - vector size
+ *            p      - RETURN: sampled probability vector
+ *                     (caller allocates 0..K-1).         
+ *
+ * Returns:   <eslOK>, and <p> will contain the sampled vector.
+ */
+int
+esl_dirichlet_DSample(ESL_RANDOMNESS *r, double *alpha, int K, double *p)
+{
+  int x;
+
+  for (x = 0; x < K; x++) 
+    p[x] = esl_rnd_Gamma(r, alpha[x]);
+  esl_vec_DNorm(p, K);
+  return eslOK;
+}
+
+/* Function:  esl_dirichlet_FSample()
+ *
+ * Purpose:   Same as <esl_dirichlet_DSample()>, except it
+ *            works in single-precision floats, not doubles.
+ */
+int
+esl_dirichlet_FSample(ESL_RANDOMNESS *r, float *alpha, int K, float *p)
+{
+  int x;
+
+  for (x = 0; x < K; x++) 
+    p[x] = (float) esl_rnd_Gamma(r, (double) alpha[x]);
+  esl_vec_FNorm(p, K);
+  return eslOK;
+}
+
+/* Function:  esl_dirichlet_DSampleUniform()
+ *
+ * Purpose:   Sample a probability vector $p[0..K-1]$ uniformly, by
+ *            sampling from a Dirichlet of $\alpha_i = 1.0 \forall i$.
+ *
+ * Args:      r  - source of random numbers
+ *            K  - vector size
+ *            p  - RETURN: sampled prob vector, caller alloc'ed 0..K-1
+ *
+ * Returns:   <eslOK>, and <p> will contain the sampled vector.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_dirichlet_DSampleUniform(ESL_RANDOMNESS *r, int K, double *p)
+{
+  int x;
+  for (x = 0; x < K; x++) 
+    p[x] = esl_rnd_Gamma(r, 1.0);
+  esl_vec_DNorm(p, K);
+  return eslOK;
+}
+
+/* Function:  esl_dirichlet_FSampleUniform()
+ *
+ * Purpose:   Same as <esl_dirichlet_DSampleUniform()>, except it
+ *            works in single-precision floats, not doubles.
+ */
+int
+esl_dirichlet_FSampleUniform(ESL_RANDOMNESS *r, int K, float *p)
+{
+  int x;
+  for (x = 0; x < K; x++) 
+    p[x] = (float) esl_rnd_Gamma(r, 1.0);
+  esl_vec_FNorm(p, K);
+  return eslOK;
+}
+
+
+/* Function:  esl_dirichlet_SampleBeta()
+ *
+ * Purpose:   Samples from a Beta(theta1, theta2) density, leaves answer
+ *            in <ret_answer>. (Special case of sampling Dirichlet.)
+ *            
+ * Returns:   <eslOK>.           
+ */
+int
+esl_dirichlet_SampleBeta(ESL_RANDOMNESS *r, double theta1, double theta2, double *ret_answer)
+{
+  double p, q;
+
+  p = esl_rnd_Gamma(r, theta1);
+  q = esl_rnd_Gamma(r, theta2);
+  *ret_answer = p / (p+q);
+  return eslOK;
+}
+#endif /*eslAUGMENT_RANDOM*/
+/*---------------- end, Dirichlet sampling ----------------------*/
+
+
+/*****************************************************************
+ *# 4. Reading mixture Dirichlets from files [requires esl_fileparser]
+ *****************************************************************/
+#ifdef eslAUGMENT_FILEPARSER 
+
+/* Function:  esl_mixdchlet_Read()
+ *
+ * Purpose:   Reads a mixture Dirichlet from an open stream <efp>, using the 
+ *            <ESL_FILEPARSER> token-based parser. 
+ *            
+ *            The first two tokens are <K>, the length of the Dirichlet parameter
+ *            vector(s), and <N>, the number of mixture components. Then for
+ *            each of the <N> mixture components <i>, it reads a mixture coefficient
+ *            <pq[i]> followed by <K> Dirichlet parameters <alpha[i][0..K-1]>.
+ *            
+ *            This function may be called more than once on the same open file,
+ *            to read multiple different mixture Dirichlets from it (transitions,
+ *            match emissions, insert emissions, for example).
+ *            
+ * Note:      One reason this function takes an ESL_FILEPARSER instead of 
+ *            a filename or an open FILE pointer is that file format errors
+ *            in Easel are non-fatal "normal" errors, and we want to record
+ *            an informative error message. The ESL_FILEPARSER has an error
+ *            buffer for this purpose. 
+ *
+ * Returns:   <eslOK> on success, and <ret_pri> contains a new <ESL_MIXDCHLET> object 
+ *            that the caller is responsible for free'ing.
+ *
+ *            <eslEFORMAT> on 'normal' parse failure, in which case <efp->errbuf>
+ *            contains an informative diagnostic message, and <efp->linenumber>
+ *            contains the linenumber at which the parse failed.
+ */
+int
+esl_mixdchlet_Read(ESL_FILEPARSER *efp,  ESL_MIXDCHLET **ret_pri)
+{
+  ESL_MIXDCHLET *pri;
+  int   K;			/* Dirichlet param vector size */
+  int   N;			/* number of mixture components */
+  char *tok;			/* ptr to a whitespace-delim, noncomment token */
+  int   toklen;			/* length of a parsed token */
+  int   status;			/* return status of an Easel call */
+  int   q;			/* counter over mixture components (0..N-1) */
+  int   i;			/* counter over params (0..K-1) */
+  
+  *ret_pri = pri = NULL;
+
+  if ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) goto ERROR;
+  K = atoi(tok);
+  if (K < 1) { sprintf(efp->errbuf, "Bad vector size %.32s", tok); goto ERROR; }
+  
+  if ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) goto ERROR;
+  N = atoi(tok);
+  if (N < 1) { sprintf(efp->errbuf, "Bad mixture number %.32s", tok); goto ERROR; }
+
+  pri = esl_mixdchlet_Create(N, K);
+  if (pri == NULL) { sprintf(efp->errbuf, "mxdchlet alloc failed"); goto ERROR; }
+ 
+  for (q = 0; q < N; q++)
+    {
+      if ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) goto ERROR;
+      pri->pq[q] = atof(tok);
+      if (pri->pq[q] < 0.0 || pri->pq[q] > 1.0) 
+	{ sprintf(efp->errbuf, "bad mixture coefficient %.32s", tok); goto ERROR; }      
+
+      for (i = 0; i < K; i++)
+	{
+	  if ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) goto ERROR;
+	  pri->alpha[q][i] = atof(tok);
+	  if (pri->alpha[q][i] <= 0.0)
+	    { sprintf(efp->errbuf, "Dirichlet params must be positive, got %.32s", tok); goto ERROR; } 
+	}
+    }
+  esl_vec_DNorm(pri->pq, N);
+  *ret_pri = pri;
+  return eslOK;
+
+ ERROR:
+  esl_mixdchlet_Destroy(pri);
+  return eslEFORMAT;
+}
+
+/* Function:  esl_mixdchlet_Write()
+ * Synopsis:  Write a mixture Dirichlet to an open output stream.
+ *
+ * Purpose:   Write mixture Dirichlet <d> to open output stream <d>.
+ *
+ * Args:      fp   - open output stream
+ *            d    - mixture Dirichlet to write
+ * 
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> on any write error, such as filled disk.
+ */
+int
+esl_mixdchlet_Write(FILE *fp, ESL_MIXDCHLET *d)
+{
+  int q,i;
+
+  if (fprintf(fp, "%d %d\n", d->K, d->N)         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "mixture dirichlet write failed");
+  for (q = 0; q < d->N; q++)
+    {
+      if (fprintf(fp, "%.3f ", d->pq[q])         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "mixture dirichlet write failed");
+      for (i = 0; i < d->K; i++)
+	if (fprintf(fp, "%.3f ", d->alpha[q][i]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "mixture dirichlet write failed");
+      if (fprintf(fp, "\n")                      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "mixture dirichlet write failed");
+    }
+  return eslOK;
+}
+
+
+#endif /* eslAUGMENT_FILEPARSER */
+/*-------------- end, reading mixture Dirichlets ----------------*/
+
+
+
+/*****************************************************************
+ * 5. Unit tests
+ *****************************************************************/
+#ifdef eslDIRICHLET_TESTDRIVE
+
+static void
+utest_io(ESL_MIXDCHLET *d, double tol)
+{
+  char           *msg         = "esl_dirichlet: io unit test failed";
+  ESL_MIXDCHLET  *d2          = NULL;
+  ESL_FILEPARSER *efp         = NULL;
+  FILE           *fp          = NULL;
+  char            tmpfile[16] = "esltmpXXXXXX";
+
+  /* Create a mixture Dirichlet file, as a named tmpfile.  */
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  if (esl_mixdchlet_Write(fp, d)      != eslOK) esl_fatal(msg);
+  fclose(fp);
+
+  /* Read it back in */
+  if ((fp = fopen(tmpfile, "r")) == NULL)        esl_fatal(msg);
+  if ((efp = esl_fileparser_Create(fp)) == NULL) esl_fatal(msg);
+  if (esl_mixdchlet_Read(efp, &d2) != eslOK)     esl_fatal(msg);
+  esl_fileparser_Destroy(efp);
+  fclose(fp);
+
+  if (esl_mixdchlet_Compare(d, d2, tol) != eslOK) esl_fatal(msg);
+
+  esl_mixdchlet_Destroy(d2);
+  remove(tmpfile);
+  return;
+}
+
+static void
+utest_bild()
+{
+  char           *msg         = "esl_dirichlet: BILD unit test failed";
+  ESL_MIXDCHLET  *d           = NULL;
+  int             K           = 4;
+  int             N           = 2;
+  double         *counts;
+  double         *mix;
+  double         *bg;
+  double          sc;
+
+
+  /* Create a mixture Dirichlet */
+  if ((d = esl_mixdchlet_Create(N, K)) == NULL) esl_fatal(msg);
+  //esl_vec_DSet(d->pq,       N, 1.0/N);
+  d->pq[0]       = 0.4;
+  d->pq[1]       = 0.6;
+
+  d->alpha[0][0] = 0.1;
+  d->alpha[0][1] = 0.2;
+  d->alpha[0][2] = 0.3;
+  d->alpha[0][3] = 0.4;
+  esl_vec_DSet(d->alpha[1], K, 1.0);
+
+
+  //simulate count vector
+  counts = malloc(K*sizeof(double));
+  counts[0] = 3.0; //2.2;
+  counts[1] = 1.0; //0.9;
+  counts[2] = 0.0; //4.5;
+  counts[3] = 0.0; //3.0;
+
+  //simulate background probabilities
+  bg = malloc(K*sizeof(double));
+  esl_vec_DSet(bg, K, 1.0/K);
+
+  //allocate working space
+  mix = malloc(K*sizeof(double));
+
+  esl_mixdchlet_BILD_score(counts, K, N, d, mix, bg, &sc);
+
+  if (esl_DCompare(sc, 0.701, 0.001) != eslOK)
+    esl_fatal(msg);
+
+//  fprintf(stderr, "Score is %.3f\n", sc);
+
+  esl_mixdchlet_Destroy(d);
+  free(bg);
+  free(counts);
+  free(mix);
+
+  return;
+}
+
+
+/*
+ * For any given sampling effort, there is always a possibility that the resulting
+ * count vector will have a higher likelihood under the wrong component than under the
+ * correct component. This unit test runs multiple inferences and only fail if
+ * more of the inferences fail than is expected
+ */
+static void
+utest_inference(ESL_RANDOMNESS *r, ESL_MIXDCHLET *d, int ntrials, int ncounts, int be_verbose)
+{
+  char   *msg    = "esl_dirichlet: inference unit test failed";
+  double *counts = malloc(sizeof(double) * d->K);
+  double *probs  = malloc(sizeof(double) * d->K);
+  double *iq     = malloc(sizeof(double) * d->N);
+  double *ip     = malloc(sizeof(double) * d->K);
+  int     qused, qguess;
+  int     c, i, q, j;
+  double  maxdeviation;
+
+  int fail_cnt_1 = 0;
+  int fail_cnt_2 = 0;
+  int fail_cnt_3 = 0;
+
+  for (j=0; j<ntrials; j++) {
+	  /* Sample component, p vector, c vector from mixture Dirichlet */
+	  qused = esl_rnd_DChoose(r, d->pq, d->N);
+	  //printf("qused=%1d\n", qused);
+	  esl_dirichlet_DSample(r, d->alpha[qused], d->K, probs);
+	  esl_vec_DSet(counts, d->K, 0.);
+	  for (c = 0; c < ncounts; c++)
+		{
+		  i = esl_rnd_DChoose(r, probs, d->K);
+		  counts[i] += 1.;
+		}
+
+	  /* First inference test:
+	   * classify by posterior inference on the sampled probability vector.
+	   */
+	  for (q = 0; q < d->N; q++)
+		{
+		  esl_dirichlet_LogProbProbs(probs, d->alpha[q], d->K, &(iq[q]));
+		  iq[q] += log(d->pq[q]);
+		}
+	  qguess = esl_vec_DArgMax(iq, d->N); /* the MP guess from the probs */
+	  //printf("qguess: %1d\n", qguess);
+	  if (qused != qguess) {
+		  fail_cnt_1++;
+	  }
+
+	  /* Second inference test:
+	   * classify by posterior inference on the sampled count vector;
+	   * then attempt to estimate the probability vector.
+	   */
+	  esl_mixdchlet_MPParameters(counts, d->K, d, iq, ip);
+	  qguess = esl_vec_DArgMax(iq, d->N); /* the MP guess from the counts */
+	  //printf("%1d\n", qguess);
+	  if (qused != qguess) {
+		  fail_cnt_2++;
+	  }
+
+	  for (i = 0; i < d->K; i++)
+		ip[i] = fabs(ip[i] - probs[i]); /* ip[] is now the differences rel to probs */
+
+	  maxdeviation = esl_vec_DMax(ip, d->K);
+	  //  printf("maxdev=%.3f\n", maxdeviation);
+	  if (maxdeviation > 0.05) {
+		  fail_cnt_3++;
+	  }
+
+  }
+
+  if (fail_cnt_1 > 2 || fail_cnt_2 > 2 || fail_cnt_3 > 0) { 
+    char m1[100], m2[100], m3[100], m4[100], final_msg[500];
+    sprintf(m1, "Out of %d total trials:", ntrials);
+    sprintf(m2, "* classification sampled probability vector, failed %d times", fail_cnt_1);
+    sprintf(m3, "* classification sampled count vector, failed %d times", fail_cnt_2);
+    sprintf(m4, "* gross error in posterior probs estimated from counts, %d times", fail_cnt_3);
+
+    sprintf(final_msg, "%s\n%s\n%s\n%s\n%s\n", m1, m2, m3, m4, msg );
+    
+    esl_fatal(final_msg);
+  }
+
+  free(counts);
+  free(probs);
+  free(iq);
+  free(ip);
+  return;
+}
+
+
+/*
+ * Performs two tests:
+ * (1) Check to see if the inferred mixdchlt is similar to true one;
+ * (2) Check if the likelihood under the inferred mixdchlt is at least as good as under the true mixdchlt.
+ *
+ * Also, now calls the Fit routine multiple times (via esl_mixdchlet_Fit_Multipass),
+ * since any single random starting point might lead to a terrible locally optimal mixdchlet
+ */
+static void
+utest_fit(ESL_RANDOMNESS *r, ESL_MIXDCHLET *d, int ntrials, int ncounts, double tol, int reps, int be_verbose)
+{
+  char           *msg ; //   = "esl_dirichlet: fit unit test failed";
+  ESL_MIXDCHLET  *id = NULL;
+  double        **counts;
+  double         *probs = malloc(sizeof(double) * d->K);
+  int             qused;
+  int             m;
+  int             c;
+  int             i;			/* counter over params (0..K-1) */
+
+  counts = malloc(sizeof(double *) * ntrials);
+  for (m = 0; m < ntrials; m ++)
+    counts[m] = malloc(sizeof(double) * d->K);
+
+  for (m = 0; m < ntrials; m ++) {
+    /* Sample component, p vector, c vector from mixture Dirichlet */
+    qused = esl_rnd_DChoose(r, d->pq, d->N); 
+    esl_dirichlet_DSample(r, d->alpha[qused], d->K, probs);
+    esl_vec_DSet(counts[m], d->K, 0.);
+
+    for (c = 0; c < ncounts; c++)
+      {
+    	i = esl_rnd_DChoose(r, probs, d->K);
+    	counts[m][i] += 1.;
+      }
+
+
+#ifdef eslDIRICHLET_TESTDRIVE_PRINTCOUNTS
+    printf ("%d  ", m);
+    for (i=0; i<d->K; i++)
+    	printf ("%.2f  ", counts[m][i]);
+    printf("\n");
+#endif /*eslDIRICHLET_TESTDRIVE_PRINTCOUNTS*/
+
+  }
+  
+  /* Start with a random id, use the counts to infer d by 
+   * maximum likelihood gradient descent.
+   * Generate a random starting point, alphas range from 0..10. 
+   */
+  id = esl_mixdchlet_Create(d->N, d->K);
+
+  /* optimize id */
+//  esl_mixdchlet_Fit(counts, ntrials, id, be_verbose);
+  esl_mixdchlet_Fit_Multipass(r, counts, ntrials, reps, id, 0);
+
+  double lp_true;
+  esl_dirichlet_LogProbDataSet_Mixture (ntrials, counts, d, &lp_true);
+
+  double lp_inf;
+  esl_dirichlet_LogProbDataSet_Mixture (ntrials, counts, id, &lp_inf);
+
+  //Test if the likelihood under the inferred model is at least as good as the
+  //likelihood under the true model
+  int lk_ok = eslOK;
+  if (lp_true > lp_inf +.00001)
+	  lk_ok = eslFAIL;
+
+  //Test if the inferred q and alpha values are close
+  // (note: "close" is relative - under the default conditions, they're all
+  //   within 35% of the true value)
+  int alphas_ok =  esl_mixdchlet_Compare(d, id, tol);
+
+
+  if (lk_ok== eslFAIL || alphas_ok==eslFAIL) {
+	  fprintf(stderr, "\nGiven dirichlet\n");
+	  esl_mixdchlet_Dump(stderr, d);
+	  fprintf (stderr, "logP = %.5f\n\n", lp_true);
+
+	  fprintf(stderr, "\nInferred dirichlet\n");
+	  esl_mixdchlet_Dump(stderr, id);
+	  fprintf (stderr, "logP = %.5f\n\n", lp_inf);
+
+
+	  if (lk_ok==eslFAIL)
+		  msg    = "esl_dirichlet: fit unit test failed (likelihood)";
+	  else
+		  msg    = "esl_dirichlet: fit unit test failed (similarity tolerance exceeded)";
+
+	  esl_fatal(msg);
+  }
+  
+  for (m = 0; m < ntrials; m ++)
+    free(counts[m]);
+  free(counts);
+  free(probs);
+  esl_mixdchlet_Destroy(id);
+
+  return;
+}
+
+#endif /*eslDIRICHLET_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef eslDIRICHLET_TESTDRIVE
+/*
+ * gcc -g -Wall -I. -L. -o esl_dirichlet_utest -DeslDIRICHLET_TESTDRIVE esl_dirichlet.c -leasel -lm
+ * ./esl_dirichlet_utest
+ */
+#include "easel.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_dirichlet.h"
+/* Note that the RNG seed of 10 is carefully chosen to make the stochastic 
+ * tests work reproducibly. Other choices will tend to fail.
+ */
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "10",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-t",        eslARG_REAL,   ".35",  NULL, NULL,  NULL,  NULL, NULL, "tolerance for real-value equality comparisons",    0 },
+  { "-C",        eslARG_INT,      "2",  NULL, NULL,  NULL,  NULL, NULL, "number of components in test mixture D'chlets",    0 },
+  { "-K",        eslARG_INT,      "6",  NULL, NULL,  NULL,  NULL, NULL, "alphabet size in test mixture D'chlets",           0 },
+  { "-N",        eslARG_INT,   "1000",  NULL, NULL,  NULL,  NULL, NULL, "number of sample counts in mixture D'chlet tests", 0 },
+  { "-T",        eslARG_INT,    "100",  NULL, NULL,  NULL,  NULL, NULL, "number of trials of mixture D'chlet tests",        0 },
+  { "-R",        eslARG_INT,    "5",    NULL, NULL,  NULL,  NULL, NULL, "number of repetitions of the D'chlet fitting procedure",        0 },
+  { "-v",        eslARG_NONE,    NULL,  NULL, NULL,  NULL,  NULL, NULL, "show verbose output",                              0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for dirichlet module";
+
+int
+main(int argc, char **argv)
+{
+  char           *msg          = "esl_dirichlet unit test failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r            = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_MIXDCHLET  *d            = NULL;
+  int             K            = esl_opt_GetInteger(go, "-K");
+  int             ncounts      = esl_opt_GetInteger(go, "-N");
+  int             ntrials      = esl_opt_GetInteger(go, "-T");
+  int             nfit_reps    = esl_opt_GetInteger(go, "-R");
+  double          tol          = esl_opt_GetReal   (go, "-t");
+  int             be_verbose   = esl_opt_GetBoolean(go, "-v");
+
+  if (be_verbose) printf("rng seed = %" PRIu32 "\n", esl_randomness_GetSeed(r));
+
+  /* Create a two-component mixture Dirichlet for testing */
+  if ((d = esl_mixdchlet_Create(2, K)) == NULL) esl_fatal(msg);
+  esl_vec_DSet(d->pq,       2, 0.5);
+  esl_vec_DSet(d->alpha[0], K, 1.0);
+  esl_vec_DSet(d->alpha[1], K, 0.1);
+
+  utest_io(d, tol);
+  utest_fit(r, d, ntrials, ncounts, tol, nfit_reps, be_verbose);
+  utest_inference(r, d, ntrials, ncounts, be_verbose);
+  utest_bild();
+
+
+  esl_randomness_Destroy(r);
+  esl_mixdchlet_Destroy(d);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslDIRICHLET_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example 
+ *****************************************************************/
+#ifdef eslDIRICHLET_EXAMPLE
+/*::cexcerpt::dirichlet_example::begin::*/
+/* compile: 
+    gcc -g -Wall -I. -o example -DeslDIRICHLET_EXAMPLE\
+      -DeslAUGMENT_RANDOM -DeslAUGMENT_FILEPARSER esl_random.c esl_fileparser.c\
+      esl_vectorops.c esl_dirichlet.c easel.c -lm
+ * run:     ./example <mixture Dirichlet file>
+ */
+#include <stdlib.h>
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_fileparser.h"
+#include "esl_vectorops.h"
+#include "esl_dirichlet.h"
+
+int
+main(int argc, char **argv)
+{
+  FILE           *fp;
+  ESL_FILEPARSER *efp;
+  ESL_RANDOMNESS *r;
+  ESL_MIXDCHLET  *pri;
+  int             c,i,q,qused;
+  double         *counts, *probs, *iq, *ip;
+
+  /* Read in a mixture Dirichlet from a file. */
+  fp  = fopen(argv[1], "r");
+  efp = esl_fileparser_Create(fp);
+  if (esl_mixdchlet_Read(efp, &pri) != eslOK) {
+    fprintf(stderr, "%s;\ndirichlet file %s parse failed at line %d\n",
+	    efp->errbuf, argv[1], efp->linenumber);
+    exit(1);
+  }
+  esl_fileparser_Destroy(efp);
+  fclose(fp);  
+
+  /* Allocate some working spaces */
+  probs  = malloc(sizeof(double) * pri->K);
+  counts = malloc(sizeof(double) * pri->K);
+  iq     = malloc(sizeof(double) * pri->N);
+  ip     = malloc(sizeof(double) * pri->K);
+
+  /* Sample a probability vector from it. */
+  r = esl_randomness_Create(0);            /* init the random generator */
+  qused = esl_rnd_DChoose(r, pri->pq, pri->N); /* sample a component */
+  esl_dirichlet_DSample(r, pri->alpha[qused], pri->K, probs);
+
+  printf("Component %2d: p[] = ", qused);
+  for (i = 0; i < pri->K; i++) printf("%.3f ", probs[i]);
+  printf("\n");
+
+  /* Sample a count vector from that prob vector. */
+  esl_vec_DSet(counts, pri->K, 0.);
+  for (c = 0; c < 20; c++)
+    counts[esl_rnd_DChoose(r, probs, pri->K)] += 1.;
+
+  printf("              c[] = ");
+  for (i = 0; i < pri->K; i++) printf("%5.0f ", counts[i]);
+  printf("\n");
+
+  /* Estimate a probability vector (ip) from those counts, and
+   * also get back the posterior prob P(q|c) of each component (iq). */
+  esl_mixdchlet_MPParameters(counts, pri->K, pri, iq, ip);
+
+  printf("  reestimated p[] = ");
+  for (i = 0; i < pri->K; i++) printf("%.3f ", ip[i]);
+  printf("\n");
+
+  q = esl_vec_DArgMax(iq, pri->N);
+  printf("probably generated by component %d; P(q%d | c) = %.3f\n",
+	 q, q, iq[q]);
+
+  esl_mixdchlet_Destroy(pri);
+  esl_randomness_Destroy(r);
+  free(probs); free(counts); free(iq); free(ip);
+  return 0;
+}
+/*::cexcerpt::dirichlet_example::end::*/
+#endif /*eslDIRICHLET_EXAMPLE*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_dirichlet.c 883 2013-08-17 03:37:45Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_dirichlet.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.h
new file mode 100755
index 0000000..9a66b8e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.h
@@ -0,0 +1,82 @@
+/* Functions relevant to Beta, gamma, and Dirichlet densities,
+ * and simple and mixture Dirichlet priors.
+ * 
+ * SRE, Tue Nov  2 14:35:06 2004 [St. Louis]
+ * SVN $Id: esl_dirichlet.h 883 2013-08-17 03:37:45Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_dirichlet.h $
+ */
+#ifndef eslDIRICHLET_INCLUDED
+#define eslDIRICHLET_INCLUDED
+
+/* Structure: MIXDCHLET
+ * 
+ * A mixture Dirichlet density, usually used as a prior 
+ * for a multinomial model (turning count vectors into probability
+ * parameters).
+ */
+typedef struct {
+ /*::cexcerpt::dirichlet_mixdchlet::begin::*/
+  double  *pq;			/* mixture coefficients pq[0..N-1]          */
+  double **alpha;               /* Dirichlet params alpha[0..N-1][0..K-1]   */
+  int      N;			/* number of mixtures, e.g. 9 for Sjolander */
+  int      K;			/* alphabet size, e.g. 20                   */
+ /*::cexcerpt::dirichlet_mixdchlet::end::*/
+} ESL_MIXDCHLET;
+
+extern ESL_MIXDCHLET *esl_mixdchlet_Create(int N, int K);
+extern int            esl_mixdchlet_Compare(ESL_MIXDCHLET *d1, ESL_MIXDCHLET *d2, double tol);
+extern int            esl_mixdchlet_Copy(ESL_MIXDCHLET *d, ESL_MIXDCHLET *d_dst);
+extern int            esl_mixdchlet_Dump(FILE *fp, ESL_MIXDCHLET *d);
+extern void           esl_mixdchlet_Destroy(ESL_MIXDCHLET *pri);
+extern int            esl_mixdchlet_MPParameters(double *c, int K,
+						                                     ESL_MIXDCHLET *pri, double *mix, double *p);
+extern int            esl_mixdchlet_BILD_score(double *c, int K, int N, ESL_MIXDCHLET *pri,
+                                               double *mix, double *bg, double *q);
+
+
+extern int esl_dirichlet_LogProbData(double *c, double *alpha, int K, 
+				     double *ret_answer);
+extern int esl_dirichlet_LogProbData_Mixture(double *c, ESL_MIXDCHLET *d, 
+					     double *ret_answer);
+extern int esl_dirichlet_LogProbProbs(double *p, double *alpha, int K, 
+				      double *ret_answer);
+
+/* Optional fitting code, when augmented by minimizing module.
+ */
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+extern int esl_mixdchlet_Fit(double **c, int nc, ESL_MIXDCHLET *d, int be_verbose);
+
+#endif /*eslAUGMENT_MINIMIZER*/
+
+/* Optional sampling code, when augmented by random module.
+ */
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+extern int esl_dirichlet_DSample(ESL_RANDOMNESS *r, double *alpha, int K, double *p);
+extern int esl_dirichlet_FSample(ESL_RANDOMNESS *r, float  *alpha, int K, float  *p);
+extern int esl_dirichlet_DSampleUniform(ESL_RANDOMNESS *r, int K, double *p);
+extern int esl_dirichlet_FSampleUniform(ESL_RANDOMNESS *r, int K, float  *p);
+extern int esl_dirichlet_SampleBeta(ESL_RANDOMNESS *r, double theta1,
+				    double theta2, double *ret_answer);
+#endif /*eslAUGMENT_RANDOM*/
+
+/* Optional file input code, when augmented by fileparser module
+ */
+#ifdef eslAUGMENT_FILEPARSER
+#include <esl_fileparser.h>
+extern int esl_mixdchlet_Read(ESL_FILEPARSER *efp,  ESL_MIXDCHLET **ret_pri);
+extern int esl_mixdchlet_Write(FILE *fp,  ESL_MIXDCHLET *d);
+#endif /*eslAUGMENT_FILEPARSER*/
+
+
+#endif /*eslDIRICHLET_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.tex
new file mode 100755
index 0000000..3be33e9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dirichlet.tex
@@ -0,0 +1,63 @@
+
+The dirichlet module contains routines for using Beta, Gamma, and
+Dirichlet densities. In particular, it implements mixture Dirichlet
+priors, which are useful in a variety of parameter estimation tasks.
+
+The Dirichlet PDF is:
+
+\begin{equation}
+ P(\vec{p}) = \frac{\Gamma{\sum_i \alpha_i}}{\prod_i \Gamma(\alpha_i)} \prod_i p_i^{\alpha_i-1}
+\end{equation}
+
+
+\subsection{The dirichlet API}
+
+The module implements one object, \ccode{ESL\_MIXDCHLET}, which holds
+a mixture Dirichlet prior. 
+
+The API consists of the following functions:
+
+\vspace{1em}
+\begin{tabular}{ll}\hline
+   \multicolumn{2}{c}{\textbf{mixture Dirichlet priors}}\\
+\ccode{esl\_mixdchlet\_Create()}            & Allocates a new mixture Dirichlet.\\
+\ccode{esl\_mixdchlet\_Destroy()}           & Free's a mixture Dirichlet.\\
+\ccode{esl\_mixdchlet\_MPParameters()}      & Mean posterior probability parameter estimation.\\
+   \multicolumn{2}{c}{\textbf{Dirichlet, Gamma density routines}}\\
+\ccode{esl\_dirichlet\_LogProbData()}       & $\log P( \mbox{count vector} \mid \mbox{mixture Dirichlet}$.\\
+\ccode{esl\_dirichlet\_LogProbProbs()}      & $\log P( \mbox{prob vector} \mid \mbox{mixture Dirichlet}$.\\
+\ccode{esl\_dirichlet\_LogGamma()}          & $\log \Gamma(x)$.\\
+   \multicolumn{2}{c}{\textbf{Sampling code (requires augmentation w/ random)}}\\
+\ccode{esl\_dirichlet\_\{D,F\}Sample()}            & Sample a probability vector from a Dirichlet.\\
+\ccode{esl\_dirichlet\_\{D,F\}SampleUniform()}     & Sample a probability vector uniformly.\\
+\ccode{esl\_dirichlet\_SampleBeta()}        & Sample from Beta$(\theta_1, \theta_2$).\\
+   \multicolumn{2}{c}{\textbf{Input from file (requires augmentation w/ fileparser)}}\\
+\ccode{esl\_mixdchlet\_Read()}              & Input of a mixture Dirichlet from a file.\\ \hline
+\end{tabular}
+
+\subsection{Example of using the dirichlet API}
+
+An example that reads a mixture Dirichlet prior from a file, samples a
+probability vector from it, samples a count vector from the
+probability vector, then infers which mixture component generated the
+data and uses mean posterior estimation to reestimate the probability
+vector from the counts:
+
+\input{cexcerpts/dirichlet_example}
+
+\subsection{Accessing information in the ESL\_MIXDCHLET object}
+
+You may need to access the information in the \ccode{ESL\_MIXDCHLET}
+object. The data fields inside this structure are:
+
+\input{cexcerpts/dirichlet_mixdchlet}
+
+
+\subsection{Augmentations}
+
+The \ccode{esl\_dirichlet\_Sample*()} functions are only available
+when the module is augmented with the \ccode{random} module.
+
+The \ccode{esl\_dirichlet\_Read()} function is only available when the
+module is augmented with the \ccode{fileparser} module.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.c
new file mode 100755
index 0000000..e92fdf7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.c
@@ -0,0 +1,1390 @@
+/* Pairwise identities, distances, and distance matrices.
+ *
+ * Contents:
+ *    1. Pairwise distances for aligned text sequences.
+ *    2. Pairwise distances for aligned digital seqs.       [alphabet]
+ *    3. Distance matrices for aligned text sequences.      [dmatrix]
+ *    4. Distance matrices for aligned digital sequences.   [alphabet,dmatrix]
+ *    5. Average pairwise identity for multiple alignments. [alphabet,random]
+ *    6. Private (static) functions.
+ *    7. Unit tests.
+ *    8. Test driver.
+ *    9. Example.
+ *   10. Copyright notice and license.
+ *    
+ */
+#include "esl_config.h"
+
+#include <ctype.h>
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#ifdef eslAUGMENT_DMATRIX
+#include "esl_dmatrix.h"
+#endif
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#include "esl_distance.h"
+
+/* Forward declaration of our static functions.
+ */
+static int jukescantor(int n1, int n2, int alphabet_size, double *opt_distance, double *opt_variance);
+
+
+/*****************************************************************
+ * 1. Pairwise distances for aligned text sequences.
+ *****************************************************************/
+
+/* Function:  esl_dst_CPairId()
+ * Synopsis:  Pairwise identity of two aligned text strings.
+ * Incept:    SRE, Mon Apr 17 20:06:07 2006 [St. Louis]
+ *
+ * Purpose:   Calculates pairwise fractional identity between two
+ *            aligned character strings <asq1> and <asq2>. 
+ *            Return this distance in <opt_pid>; return the
+ *            number of identities counted in <opt_nid>; and
+ *            return the denominator <MIN(len1,len2)> in
+ *            <opt_n>.
+ *            
+ *            Alphabetic symbols <[a-zA-Z]> are compared
+ *            case-insensitively for identity. Any nonalphabetic
+ *            character is assumed to be a gap symbol.
+ *            
+ *            This simple comparison rule is unaware of synonyms and
+ *            degeneracies in biological alphabets.  For a more
+ *            sophisticated and biosequence-aware comparison, use
+ *            digitized sequences and the <esl_dst_XPairId()> function
+ *            instead. Note that currently <esl_dst_XPairId()> does
+ *            not correctly handle degeneracies, but is set up to.
+ *
+ * Args:      asq1         - aligned character string 1
+ *            asq2         - aligned character string 2
+ *            opt_pid      - optRETURN: pairwise identity, 0<=x<=1
+ *            opt_nid      - optRETURN: # of identities
+ *            opt_n        - optRETURN: denominator MIN(len1,len2)
+ *
+ * Returns:   <eslOK> on success. <opt_pid>, <opt_nid>, <opt_n>
+ *            contain the answers (for whichever were passed non-NULL). 
+ *
+ * Throws:    <eslEINVAL> if the strings are different lengths
+ *            (not aligned).
+ */
+int
+esl_dst_CPairId(const char *asq1, const char *asq2, 
+		double *opt_pid, int *opt_nid, int *opt_n)
+{
+  int     status;
+  int     idents;               /* total identical positions  */
+  int     len1, len2;           /* lengths of seqs            */
+  int     i;                    /* position in aligned seqs   */
+
+  idents = len1 = len2 = 0;
+  for (i = 0; asq1[i] != '\0' && asq2[i] != '\0'; i++) 
+    {
+      if (isalpha(asq1[i])) len1++;
+      if (isalpha(asq2[i])) len2++;
+      if (isalpha(asq1[i]) && isalpha(asq2[i])
+	  && toupper(asq1[i]) == toupper(asq2[i])) 
+	idents++;
+    }
+  if (asq1[i] != '\0' || asq2[i] != '\0') 
+    ESL_XEXCEPTION(eslEINVAL, "strings not same length, not aligned");
+
+  if (opt_pid  != NULL)  *opt_pid = ( len1==0 ? 0. : (double) idents / (double) ESL_MIN(len1,len2));
+  if (opt_nid  != NULL)  *opt_nid = idents;
+  if (opt_n    != NULL)  *opt_n   = len1;
+  return eslOK;
+
+ ERROR:
+  if (opt_pid  != NULL)  *opt_pid = 0.;
+  if (opt_nid  != NULL)  *opt_nid = 0;
+  if (opt_n    != NULL)  *opt_n   = 0;
+  return status;
+}
+
+
+/* Function:  esl_dst_CJukesCantor()
+ * Synopsis:  Jukes-Cantor distance for two aligned strings.
+ * Incept:    SRE, Tue Apr 18 14:00:37 2006 [St. Louis]
+ *
+ * Purpose:   Calculate the generalized Jukes-Cantor distance between
+ *            two aligned character strings <as1> and <as2>, in
+ *            substitutions/site, for an alphabet of <K> residues
+ *            (<K=4> for nucleic acid, <K=20> for proteins). The
+ *            maximum likelihood estimate for the distance is
+ *            optionally returned in <opt_distance>. The large-sample
+ *            variance for the distance estimate is
+ *            optionally returned in <opt_variance>.
+ *            
+ *            Alphabetic symbols <[a-zA-Z]> are compared
+ *            case-insensitively to count the number of identities
+ *            (<n1>) and mismatches (<n2>>). Any nonalphabetic
+ *            character is assumed to be a gap symbol, and aligned
+ *            columns containing gap symbols are ignored.  The
+ *            fractional difference <D> used to calculate the
+ *            Jukes/Cantor distance is <n2/n1+n2>.
+ *            
+ * Args:      K            - size of the alphabet (4 or 20)
+ *            as1          - 1st aligned seq, 0..L-1, \0-terminated
+ *            as2          - 2nd aligned seq, 0..L-1, \0-terminated 
+ *            opt_distance - optRETURN: ML estimate of distance d
+ *            opt_variance - optRETURN: large-sample variance of d
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            Infinite distances are possible, in which case distance
+ *            and variance are both <HUGE_VAL>. Caller has to deal
+ *            with this case as it sees fit, perhaps by enforcing
+ *            an arbitrary maximum distance.
+ *
+ * Throws:    <eslEINVAL> if the two strings aren't the same length (and
+ *            thus can't have been properly aligned).
+ *            <eslEDIVZERO> if no aligned residues were counted.
+ *            On either failure, distance and variance are both returned
+ *            as <HUGE_VAL>.
+ */
+int
+esl_dst_CJukesCantor(int K, const char *as1, const char *as2, 
+		     double *opt_distance, double *opt_variance)
+{
+  int     status;
+  int     n1, n2;               /* number of observed identities, substitutions */
+  int     i;                    /* position in aligned seqs   */
+
+  /* 1. Count identities, mismatches.
+   */
+  n1 = n2 = 0;
+  for (i = 0; as1[i] != '\0' && as2[i] != '\0'; i++) 
+    {
+      if (isalpha(as1[i]) && isalpha(as2[i]))
+	{
+	  if (toupper(as1[i]) == toupper(as2[i])) n1++; else n2++;
+	}
+    }
+  if (as1[i] != '\0' || as2[i] != '\0') 
+    ESL_XEXCEPTION(eslEINVAL, "strings not same length, not aligned");
+  
+  return jukescantor(n1, n2, K, opt_distance, opt_variance); /* can throw eslEDIVZERO */
+
+ ERROR:
+  if (opt_distance != NULL)  *opt_distance = HUGE_VAL;
+  if (opt_variance != NULL)  *opt_variance = HUGE_VAL;
+  return status;
+}
+
+/*------- end, pairwise distances for aligned text seqs ---------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. Pairwise distances for aligned digitized sequences. [alphabet]
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_dst_XPairId()
+ * Synopsis:  Pairwise identity of two aligned digital seqs.
+ * Incept:    SRE, Tue Apr 18 09:24:05 2006 [St. Louis]
+ *
+ * Purpose:   Digital version of <esl_dst_CPairId()>: <adsq1> and
+ *            <adsq2> are digitized aligned sequences, in alphabet
+ *            <abc>. Otherwise, same as <esl_dst_CPairId()> except
+ *            that only canonical residues are counted and checked for
+ *            identity, while <esl_dst_CPairId()> (which has no
+ *            alphabet) counts and checks identity of all alphanumeric
+ *            characters.
+ *            
+ *            This function does not use <esl_abc_Match()> to handle
+ *            degeneracies but it is set up to do so. Doing that would
+ *            require that <opt_nid> be changed to a float or double,
+ *            or its meaning be changed to be the number of canonical
+ *            identities.
+ *
+ * Args:      abc          - digital alphabet in use
+ *            ax1          - aligned digital seq 1
+ *            ax2          - aligned digital seq 2
+ *            opt_pid      - optRETURN: pairwise identity, 0<=x<=1
+ *            opt_nid      - optRETURN: # of identities
+ *            opt_n        - optRETURN: denominator MIN(len1,len2)
+ *
+ * Returns:   <eslOK> on success. <opt_distance>, <opt_nid>, <opt_n>
+ *            contain the answers, for any of these that were passed
+ *            non-<NULL> pointers.
+ *
+ * Throws:    <eslEINVAL> if the strings are different lengths (not aligned).
+ */
+int
+esl_dst_XPairId(const ESL_ALPHABET *abc, const ESL_DSQ *ax1, const ESL_DSQ *ax2, 
+		double *opt_distance, int *opt_nid, int *opt_n)
+{
+  int     status;
+  int     idents;               /* total identical positions  */
+  int     len1, len2;           /* lengths of seqs            */
+  int     i;                    /* position in aligned seqs   */
+
+  idents = len1 = len2 = 0;
+  for (i = 1; ax1[i] != eslDSQ_SENTINEL && ax2[i] != eslDSQ_SENTINEL; i++) 
+    {
+      if (esl_abc_XIsCanonical(abc, ax1[i])) len1++;
+      if (esl_abc_XIsCanonical(abc, ax2[i])) len2++;
+
+      if (esl_abc_XIsCanonical(abc, ax1[i]) && esl_abc_XIsCanonical(abc, ax2[i])
+	  && ax1[i] == ax2[i])
+	idents++;
+    }
+  if (len2 < len1) len1 = len2;
+
+  if (ax1[i] != eslDSQ_SENTINEL || ax2[i] != eslDSQ_SENTINEL) 
+    ESL_XEXCEPTION(eslEINVAL, "strings not same length, not aligned");
+
+  if (opt_distance != NULL)  *opt_distance = ( len1==0 ? 0. : (double) idents / (double) len1 );
+  if (opt_nid      != NULL)  *opt_nid      = idents;
+  if (opt_n        != NULL)  *opt_n        = len1;
+  return eslOK;
+
+ ERROR:
+  if (opt_distance != NULL)  *opt_distance = 0.;
+  if (opt_nid      != NULL)  *opt_nid      = 0;
+  if (opt_n        != NULL)  *opt_n        = 0;
+  return status;
+}
+
+
+/* Function:  esl_dst_XJukesCantor()
+ * Synopsis:  Jukes-Cantor distance for two aligned digitized seqs.
+ * Incept:    SRE, Tue Apr 18 15:26:51 2006 [St. Louis]
+ *
+ * Purpose:   Calculate the generalized Jukes-Cantor distance between two
+ *            aligned digital strings <ax> and <ay>, in substitutions/site, 
+ *            using alphabet <abc> to evaluate identities and differences.
+ *            The maximum likelihood estimate for the distance is optionally returned in
+ *            <opt_distance>. The large-sample variance for the distance
+ *            estimate is optionally returned in <opt_variance>.
+ *            
+ *            Identical to <esl_dst_CJukesCantor()>, except that it takes
+ *            digital sequences instead of character strings.
+ *
+ * Args:      abc          - bioalphabet to use for comparisons
+ *            ax           - 1st digital aligned seq
+ *            ay           - 2nd digital aligned seq
+ *            opt_distance - optRETURN: ML estimate of distance d
+ *            opt_variance - optRETURN: large-sample variance of d
+ *
+ * Returns:   <eslOK> on success. As in <esl_dst_CJukesCantor()>, the
+ *            distance and variance may be infinite, in which case they
+ *            are returned as <HUGE_VAL>.
+ *
+ * Throws:    <eslEINVAL> if the two strings aren't the same length (and
+ *            thus can't have been properly aligned).
+ *            <eslEDIVZERO> if no aligned residues were counted.
+ *            On either failure, the distance and variance are set
+ *            to <HUGE_VAL>.
+ */
+int
+esl_dst_XJukesCantor(const ESL_ALPHABET *abc, const ESL_DSQ *ax, const ESL_DSQ *ay, 
+		     double *opt_distance, double *opt_variance)
+{
+  int     status;
+  int     n1, n2;               /* number of observed identities, substitutions */
+  int     i;                    /* position in aligned seqs   */
+
+  n1 = n2 = 0;
+  for (i = 1; ax[i] != eslDSQ_SENTINEL && ay[i] != eslDSQ_SENTINEL; i++) 
+    {
+      if (esl_abc_XIsCanonical(abc, ax[i]) && esl_abc_XIsCanonical(abc, ay[i]))
+	{
+	  if (ax[i] == ay[i]) n1++;
+	  else                n2++;
+	}
+    }
+  if (ax[i] != eslDSQ_SENTINEL || ay[i] != eslDSQ_SENTINEL) 
+    ESL_XEXCEPTION(eslEINVAL, "strings not same length, not aligned");
+  
+  return jukescantor(n1, n2, abc->K, opt_distance, opt_variance);
+
+ ERROR:
+  if (opt_distance != NULL)  *opt_distance = HUGE_VAL;
+  if (opt_variance != NULL)  *opt_variance = HUGE_VAL;
+  return status;
+}
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*---------- end pairwise distances, digital seqs --------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Distance matrices for aligned text sequences.
+ *****************************************************************/
+#ifdef eslAUGMENT_DMATRIX
+
+/* Function:  esl_dst_CPairIdMx()
+ * Synopsis:  NxN identity matrix for N aligned text sequences.
+ * Incept:    SRE, Thu Apr 27 08:46:08 2006 [New York]
+ *
+ * Purpose:   Given a multiple sequence alignment <as>, consisting
+ *            of <N> aligned character strings; calculate
+ *            a symmetric fractional pairwise identity matrix by $N(N-1)/2$
+ *            calls to <esl_dst_CPairId()>, and return it in 
+ *            <ret_D>.
+ *
+ * Args:      as      - aligned seqs (all same length), [0..N-1]
+ *            N       - # of aligned sequences
+ *            ret_S   - RETURN: symmetric fractional identity matrix
+ *
+ * Returns:   <eslOK> on success, and <ret_S> contains the fractional
+ *            identity matrix. Caller free's <S> with
+ *            <esl_dmatrix_Destroy()>.
+ *
+ * Throws:    <eslEINVAL> if a seq has a different
+ *            length than others. On failure, <ret_D> is returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+esl_dst_CPairIdMx(char **as, int N, ESL_DMATRIX **ret_S)
+{
+  ESL_DMATRIX *S = NULL;
+  int status;
+  int i,j;
+
+  if (( S = esl_dmatrix_Create(N,N) ) == NULL) goto ERROR;
+  
+  for (i = 0; i < N; i++)
+    {
+      S->mx[i][i] = 1.;
+      for (j = i+1; j < N; j++)
+	{
+	  status = esl_dst_CPairId(as[i], as[j], &(S->mx[i][j]), NULL, NULL);
+	  if (status != eslOK)
+	    ESL_XEXCEPTION(status, "Pairwise identity calculation failed at seqs %d,%d\n", i,j);
+	  S->mx[j][i] =  S->mx[i][j];
+	}
+    }
+  if (ret_S != NULL) *ret_S = S; else esl_dmatrix_Destroy(S);
+  return eslOK;
+
+ ERROR:
+  if (S     != NULL)  esl_dmatrix_Destroy(S);
+  if (ret_S != NULL) *ret_S = NULL;
+  return status;
+}
+
+
+/* Function:  esl_dst_CDiffMx()
+ * Synopsis:  NxN difference matrix for N aligned text sequences.
+ * Incept:    SRE, Fri Apr 28 06:27:20 2006 [New York]
+ *
+ * Purpose:   Same as <esl_dst_CPairIdMx()>, but calculates
+ *            the fractional difference <d=1-s> instead of the
+ *            fractional identity <s> for each pair.
+ *
+ * Args:      as      - aligned seqs (all same length), [0..N-1]
+ *            N       - # of aligned sequences
+ *            ret_D   - RETURN: symmetric fractional difference matrix
+ *
+ * Returns:   <eslOK> on success, and <ret_D> contains the
+ *            fractional difference matrix. Caller free's <D> with 
+ *            <esl_dmatrix_Destroy()>.
+ *
+ * Throws:    <eslEINVAL> if any seq has a different
+ *            length than others. On failure, <ret_D> is returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+esl_dst_CDiffMx(char **as, int N, ESL_DMATRIX **ret_D)
+{
+  ESL_DMATRIX *D = NULL;
+  int status;
+  int i,j;
+
+  status = esl_dst_CPairIdMx(as, N, &D);
+  if (status != eslOK) goto ERROR;
+
+  for (i = 0; i < N; i++)
+    {
+      D->mx[i][i] = 0.;
+      for (j = i+1; j < N; j++) 
+	{
+	  D->mx[i][j] = 1. - D->mx[i][j];
+	  D->mx[j][i] = D->mx[i][j];
+	}
+    }
+
+  if (ret_D != NULL) *ret_D = D; else esl_dmatrix_Destroy(D);
+  return eslOK;
+
+ ERROR:
+  if (D     != NULL)  esl_dmatrix_Destroy(D);
+  if (ret_D != NULL) *ret_D = NULL;
+  return status;
+
+}
+
+/* Function:  esl_dst_CJukesCantorMx()
+ * Synopsis:  NxN Jukes/Cantor distance matrix for N aligned text seqs.
+ * Incept:    SRE, Tue Apr 18 16:00:16 2006 [St. Louis]
+ *
+ * Purpose:   Given a multiple sequence alignment <aseq>, consisting of
+ *            <nseq> aligned character sequences in an alphabet of
+ *            <K> letters (usually 4 for DNA, 20 for protein);
+ *            calculate a symmetric Jukes/Cantor pairwise distance
+ *            matrix for all sequence pairs, and optionally return the distance
+ *            matrix in <ret_D>, and optionally return a symmetric matrix of the
+ *            large-sample variances for those ML distance estimates
+ *            in <ret_V>.
+ *            
+ *            Infinite distances (and variances) are possible; they
+ *            are represented as <HUGE_VAL> in <D> and <V>. Caller must
+ *            be prepared to deal with them as appropriate.
+ *
+ * Args:      K      - size of the alphabet (usually 4 or 20)
+ *            aseq   - aligned sequences [0.nseq-1][0..L-1]
+ *            nseq   - number of aseqs
+ *            opt_D  - optRETURN: [0..nseq-1]x[0..nseq-1] symmetric distance mx
+ *            opt_V  - optRETURN: matrix of variances.
+ *
+ * Returns:   <eslOK> on success. <D> and <V> contain the
+ *            distance matrix (and variances); caller frees these with
+ *            <esl_dmatrix_Destroy()>. 
+ *
+ * Throws:    <eslEINVAL> if any pair of sequences have differing lengths
+ *            (and thus cannot have been properly aligned). 
+ *            <eslEDIVZERO> if some pair of sequences had no aligned
+ *            residues. On failure, <D> and <V> are both returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+esl_dst_CJukesCantorMx(int K, char **aseq, int nseq, 
+		       ESL_DMATRIX **opt_D, ESL_DMATRIX **opt_V)
+{
+  int          status;
+  ESL_DMATRIX *D = NULL;
+  ESL_DMATRIX *V = NULL;
+  int          i,j;
+
+  if (( D = esl_dmatrix_Create(nseq, nseq) ) == NULL) goto ERROR;
+  if (( V = esl_dmatrix_Create(nseq, nseq) ) == NULL) goto ERROR;
+
+  for (i = 0; i < nseq; i++)
+    {
+      D->mx[i][i] = 0.;
+      V->mx[i][i] = 0.;
+      for (j = i+1; j < nseq; j++)
+	{
+	  status = esl_dst_CJukesCantor(K, aseq[i], aseq[j], 
+					&(D->mx[i][j]), &(V->mx[i][j]));
+	  if (status != eslOK) 
+	    ESL_XEXCEPTION(status, "J/C calculation failed at seqs %d,%d", i,j);
+
+	  D->mx[j][i] = D->mx[i][j];
+	  V->mx[j][i] = V->mx[i][j];
+	}
+    }
+  if (opt_D != NULL) *opt_D = D;  else esl_dmatrix_Destroy(D);
+  if (opt_V != NULL) *opt_V = V;  else esl_dmatrix_Destroy(V);
+  return eslOK;
+
+ ERROR:
+  if (D     != NULL) esl_dmatrix_Destroy(D);
+  if (V     != NULL) esl_dmatrix_Destroy(V);
+  if (opt_D != NULL) *opt_D = NULL;
+  if (opt_V != NULL) *opt_V = NULL;
+  return status;
+}
+
+#endif /*eslAUGMENT_DMATRIX*/
+/*----------- end, distance matrices for aligned text seqs ---------*/
+
+
+
+
+/*****************************************************************
+ * 4. Distance matrices for aligned digital sequences.
+ *****************************************************************/
+#if defined(eslAUGMENT_ALPHABET) && defined(eslAUGMENT_DMATRIX)
+
+
+/* Function:  esl_dst_XPairIdMx()
+ * Synopsis:  NxN identity matrix for N aligned digital seqs.
+ * Incept:    SRE, Thu Apr 27 09:08:11 2006 [New York]
+ *
+ * Purpose:   Given a digitized multiple sequence alignment <ax>, consisting
+ *            of <N> aligned digital sequences in alphabet <abc>; calculate
+ *            a symmetric pairwise fractional identity matrix by $N(N-1)/2$
+ *            calls to <esl_dst_XPairId()>, and return it in <ret_S>.
+ *            
+ * Args:      abc   - digital alphabet in use
+ *            ax    - aligned dsq's, [0..N-1][1..alen]                  
+ *            N     - number of aligned sequences
+ *            ret_S - RETURN: NxN matrix of fractional identities
+ *
+ * Returns:   <eslOK> on success, and <ret_S> contains the distance
+ *            matrix. Caller is obligated to free <S> with 
+ *            <esl_dmatrix_Destroy()>. 
+ *
+ * Throws:    <eslEINVAL> if a seq has a different
+ *            length than others. On failure, <ret_S> is returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+esl_dst_XPairIdMx(const ESL_ALPHABET *abc,  ESL_DSQ **ax, int N, ESL_DMATRIX **ret_S)
+{
+  int status;
+  ESL_DMATRIX *S = NULL;
+  int i,j;
+
+  if (( S = esl_dmatrix_Create(N,N) ) == NULL) goto ERROR;
+  
+  for (i = 0; i < N; i++)
+    {
+      S->mx[i][i] = 1.;
+      for (j = i+1; j < N; j++)
+	{
+	  status = esl_dst_XPairId(abc, ax[i], ax[j], &(S->mx[i][j]), NULL, NULL);
+	  if (status != eslOK)
+	    ESL_XEXCEPTION(status, "Pairwise identity calculation failed at seqs %d,%d\n", i,j);
+	  S->mx[j][i] =  S->mx[i][j];
+	}
+    }
+  if (ret_S != NULL) *ret_S = S; else esl_dmatrix_Destroy(S);
+  return eslOK;
+
+ ERROR:
+  if (S     != NULL)  esl_dmatrix_Destroy(S);
+  if (ret_S != NULL) *ret_S = NULL;
+  return status;
+}
+
+
+/* Function:  esl_dst_XDiffMx()
+ * Synopsis:  NxN difference matrix for N aligned digital seqs.         
+ * Incept:    SRE, Fri Apr 28 06:37:29 2006 [New York]
+ *
+ * Purpose:   Same as <esl_dst_XPairIdMx()>, but calculates fractional
+ *            difference <1-s> instead of fractional identity <s> for
+ *            each pair.
+ *
+ * Args:      abc   - digital alphabet in use
+ *            ax    - aligned dsq's, [0..N-1][1..alen]                  
+ *            N     - number of aligned sequences
+ *            ret_D - RETURN: NxN matrix of fractional differences
+ *            
+ * Returns:   <eslOK> on success, and <ret_D> contains the difference
+ *            matrix; caller is obligated to free <D> with 
+ *            <esl_dmatrix_Destroy()>. 
+ *
+ * Throws:    <eslEINVAL> if a seq has a different
+ *            length than others. On failure, <ret_D> is returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+esl_dst_XDiffMx(const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, ESL_DMATRIX **ret_D)
+{
+  int status;
+  ESL_DMATRIX *D = NULL;
+  int i,j;
+
+  status = esl_dst_XPairIdMx(abc, ax, N, &D);
+  if (status != eslOK) goto ERROR;
+
+  for (i = 0; i < N; i++)
+    {
+      D->mx[i][i] = 0.;
+      for (j = i+1; j < N; j++) 
+	{
+	  D->mx[i][j] = 1. - D->mx[i][j];
+	  D->mx[j][i] = D->mx[i][j];
+	}
+    }
+  if (ret_D != NULL) *ret_D = D; else esl_dmatrix_Destroy(D);
+  return eslOK;
+
+ ERROR:
+  if (D     != NULL)  esl_dmatrix_Destroy(D);
+  if (ret_D != NULL) *ret_D = NULL;
+  return status;
+}
+
+/* Function:  esl_dst_XJukesCantorMx()
+ * Synopsis:  NxN Jukes/Cantor distance matrix for N aligned digital seqs.
+ * Incept:    SRE, Thu Apr 27 08:38:08 2006 [New York City]
+ *
+ * Purpose:   Given a digitized multiple sequence alignment <ax>,
+ *            consisting of <nseq> aligned digital sequences in
+ *            bioalphabet <abc>, calculate a symmetric Jukes/Cantor
+ *            pairwise distance matrix for all sequence pairs;
+ *            optionally return the distance matrix in <ret_D> and 
+ *            a matrix of the large-sample variances for those ML distance
+ *            estimates in <ret_V>.
+ *            
+ *            Infinite distances (and variances) are possible. They
+ *            are represented as <HUGE_VAL> in <D> and <V>. Caller must
+ *            be prepared to deal with them as appropriate.
+ *
+ * Args:      abc    - bioalphabet for <aseq>
+ *            ax     - aligned digital sequences [0.nseq-1][1..L]
+ *            nseq   - number of aseqs
+ *            opt_D  - optRETURN: [0..nseq-1]x[0..nseq-1] symmetric distance mx
+ *            opt_V  - optRETURN: matrix of variances.
+ *
+ * Returns:   <eslOK> on success. <D> (and optionally <V>) contain the
+ *            distance matrix (and variances). Caller frees these with
+ *            <esl_dmatrix_Destroy()>. 
+ *
+ * Throws:    <eslEINVAL> if any pair of sequences have differing lengths
+ *            (and thus cannot have been properly aligned). 
+ *            <eslEDIVZERO> if some pair of sequences had no aligned
+ *            residues. On failure, <D> and <V> are both returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+esl_dst_XJukesCantorMx(const ESL_ALPHABET *abc, ESL_DSQ **ax, int nseq, 
+		       ESL_DMATRIX **opt_D, ESL_DMATRIX **opt_V)
+{
+  ESL_DMATRIX *D = NULL;
+  ESL_DMATRIX *V = NULL;
+  int          status;
+  int          i,j;
+
+  if (( D = esl_dmatrix_Create(nseq, nseq) ) == NULL) goto ERROR;
+  if (( V = esl_dmatrix_Create(nseq, nseq) ) == NULL) goto ERROR;
+
+  for (i = 0; i < nseq; i++)
+    {
+      D->mx[i][i] = 0.;
+      V->mx[i][i] = 0.;
+      for (j = i+1; j < nseq; j++)
+	{
+	  status = esl_dst_XJukesCantor(abc, ax[i], ax[j], 
+					&(D->mx[i][j]), &(V->mx[i][j]));
+	  if (status != eslOK) 
+	    ESL_XEXCEPTION(status, "J/C calculation failed at digital aseqs %d,%d", i,j);
+
+	  D->mx[j][i] = D->mx[i][j];
+	  V->mx[j][i] = V->mx[i][j];
+	}
+    }
+  if (opt_D != NULL) *opt_D = D;  else esl_dmatrix_Destroy(D);
+  if (opt_V != NULL) *opt_V = V;  else esl_dmatrix_Destroy(V);
+  return eslOK;
+
+ ERROR:
+  if (D     != NULL) esl_dmatrix_Destroy(D);
+  if (V     != NULL) esl_dmatrix_Destroy(V);
+  if (opt_D != NULL) *opt_D = NULL;
+  if (opt_V != NULL) *opt_V = NULL;
+  return status;
+}
+#endif /*eslAUGMENT_ALPHABET && eslAUGMENT_DMATRIX*/
+/*------- end, distance matrices for digital alignments ---------*/
+
+
+
+/*****************************************************************
+ * 5. Average pairwise identity for multiple alignments
+ *****************************************************************/
+
+#ifdef eslAUGMENT_RANDOM
+/* Function:  esl_dst_CAverageId()
+ * Synopsis:  Calculate avg identity for multiple alignment
+ * Incept:    SRE, Fri May 18 15:02:38 2007 [Janelia]
+ *
+ * Purpose:   Calculates the average pairwise fractional identity in
+ *            a multiple sequence alignment <as>, consisting of <N>
+ *            aligned character sequences of identical length.
+ *            
+ *            If an exhaustive calculation would require more than
+ *            <max_comparisons> pairwise comparisons, then instead of
+ *            looking at all pairs, calculate the average over a
+ *            stochastic sample of <max_comparisons> random pairs.
+ *            This allows the routine to work efficiently even on very
+ *            deep MSAs.
+ *            
+ *            Each fractional pairwise identity (range $[0..$ pid $..1]$
+ *            is calculated using <esl_dst_CPairId()>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_id> contains the average
+ *            fractional identity.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINVAL> if any of the aligned sequence pairs aren't 
+ *            of the same length.
+ *            In either case, <*ret_id> is set to 0.
+ */
+int
+esl_dst_CAverageId(char **as, int N, int max_comparisons, double *ret_id)
+{
+  int    status;
+  double id;
+  double sum = 0.;
+  int    i,j,n;
+  
+  if (N <= 1) { *ret_id = 1.; return eslOK; }
+  *ret_id = 0.;
+
+  /* Is nseq small enough that we can average over all pairwise comparisons? */
+  if ((N * (N-1) / 2) <= max_comparisons)
+    {
+      for (i = 0; i < N; i++)
+	for (j = i+1; j < N; j++)
+	  {
+	    if ((status = esl_dst_CPairId(as[i], as[j], &id, NULL, NULL)) != eslOK) return status;
+	    sum += id;
+	  }
+      sum /= (double) (N * (N-1) / 2);
+    }
+
+  /* If nseq is large, calculate average over a stochastic sample. */
+  else				
+    {
+      ESL_RANDOMNESS *r = esl_randomness_Create(0);
+      for (n = 0; n < max_comparisons; n++)
+	{
+	  do { i = esl_rnd_Roll(r, N); j = esl_rnd_Roll(r, N); } while (j == i); /* make sure j != i */
+	  if ((status = esl_dst_CPairId(as[i], as[j], &id, NULL, NULL)) != eslOK) return status;
+	  sum += id;
+	}
+      sum /= (double) max_comparisons;
+      esl_randomness_Destroy(r);
+    }
+
+  *ret_id = sum;
+  return eslOK;
+}
+#endif /* eslAUGMENT_RANDOM */
+
+#if defined(eslAUGMENT_RANDOM) && defined(eslAUGMENT_ALPHABET)
+/* Function:  esl_dst_XAverageId()
+ * Synopsis:  Calculate avg identity for digital MSA 
+ * Incept:    SRE, Fri May 18 15:19:14 2007 [Janelia]
+ *
+ * Purpose:   Calculates the average pairwise fractional identity in
+ *            a digital multiple sequence alignment <ax>, consisting of <N>
+ *            aligned digital sequences of identical length.
+ *            
+ *            If an exhaustive calculation would require more than
+ *            <max_comparisons> pairwise comparisons, then instead of
+ *            looking at all pairs, calculate the average over a
+ *            stochastic sample of <max_comparisons> random pairs.
+ *            This allows the routine to work efficiently even on very
+ *            deep MSAs.
+ *            
+ *            Each fractional pairwise identity (range $[0..$ pid $..1]$
+ *            is calculated using <esl_dst_XPairId()>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_id> contains the average
+ *            fractional identity.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINVAL> if any of the aligned sequence pairs aren't 
+ *            of the same length.
+ *            In either case, <*ret_id> is set to 0.
+ */
+int
+esl_dst_XAverageId(const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, int max_comparisons, double *ret_id)
+{
+  int    status;
+  double id;
+  double sum = 0.;
+  int    i,j,n;
+  
+  if (N <= 1) { *ret_id = 1.; return eslOK; }
+  *ret_id = 0.;
+
+  /* Is N small enough that we can average over all pairwise comparisons? 
+     watch out for numerical overflow in this: Pfam N's easily overflow when squared
+   */
+  if (N <= max_comparisons &&
+      N <= sqrt(2. * max_comparisons) &&
+      (N * (N-1) / 2) <= max_comparisons)
+    {
+      for (i = 0; i < N; i++)
+	for (j = i+1; j < N; j++)
+	  {
+	    if ((status = esl_dst_XPairId(abc, ax[i], ax[j], &id, NULL, NULL)) != eslOK) return status;
+	    sum += id;
+	  }
+      sum /= (double) (N * (N-1) / 2);
+    }
+
+  /* If nseq is large, calculate average over a stochastic sample. */
+  else				
+    {
+      ESL_RANDOMNESS *r = esl_randomness_Create(0);
+      for (n = 0; n < max_comparisons; n++)
+	{
+	  do { i = esl_rnd_Roll(r, N); j = esl_rnd_Roll(r, N); } while (j == i); /* make sure j != i */
+	  if ((status = esl_dst_XPairId(abc, ax[i], ax[j], &id, NULL, NULL)) != eslOK) return status;
+	  sum += id;
+	}
+      sum /= (double) max_comparisons;
+      esl_randomness_Destroy(r);
+    }
+
+  *ret_id = sum;
+  return eslOK;
+}
+#endif /* eslAUGMENT_RANDOM && eslAUGMENT_ALPHABET */
+
+
+
+
+
+/*****************************************************************
+ * 6. Private (static) functions
+ *****************************************************************/
+
+/* jukescantor()
+ * 
+ * The generalized Jukes/Cantor distance calculation.
+ * Given <n1> identities and <n2> differences, for a
+ * base alphabet size of <alphabet_size> (4 or 20);
+ * calculate J/C distance in substitutions/site and
+ * return it in <ret_distance>; calculate large-sample
+ * variance and return it in <ret_variance>.
+ *
+ * Returns <eslEDIVZERO> if there are no data (<n1+n2=0>).
+ */
+static int
+jukescantor(int n1, int n2, int alphabet_size, double *opt_distance, double *opt_variance)
+{
+  int    status;
+  double D, K, N;
+  double x;
+  double distance, variance;
+
+  ESL_DASSERT1( (n1 >= 0) );
+  ESL_DASSERT1( (n2 >= 0) );
+  ESL_DASSERT1( (alphabet_size >= 0) );
+
+  if (n1+n2 == 0) { status = eslEDIVZERO; goto ERROR; }
+
+  K = (double) alphabet_size;
+  D = (double) n2 / (double) (n1+n2);
+  N = (double) (n1+n2);
+
+  x = 1. - D * K/(K-1.);
+  if (x <= 0.) 
+    {
+      distance = HUGE_VAL;
+      variance = HUGE_VAL;
+    }
+  else
+    {
+      distance =   -log(x) * K/(K-1);
+      variance =  exp( 2.*K*distance/(K-1) ) * D * (1.-D) / N;
+    }
+  if (opt_distance != NULL)  *opt_distance = distance;
+  if (opt_variance != NULL)  *opt_variance = variance;
+  return eslOK;
+
+ ERROR:
+  if (opt_distance != NULL)  *opt_distance = HUGE_VAL;
+  if (opt_variance != NULL)  *opt_variance = HUGE_VAL;
+  return status;
+}
+/*--------------- end of private functions ----------------------*/
+
+
+/*****************************************************************
+ * 7. Unit tests.
+ *****************************************************************/ 
+#ifdef eslDISTANCE_TESTDRIVE
+
+/* Each unit test is given an alignment with certain known
+ * properties:
+ *    seqs 0,1 are identical
+ *    seqs 0,2 are completely different
+ *    seqs 3..N are random
+ * The alignment may contain gaps, so don't assume that the 
+ * # of compared residues == alignment length. The alignment
+ * contains only canonical residues, because one of our tests
+ * is that C and X functions give the same results.
+ */
+static int 
+utest_CPairId(char **as, int N)
+{
+  double pid;
+  int    nid;
+  int    nres;	
+  int    L;
+  int    i,j;
+
+  /* Self comparison gives identity = 1. */
+  L = strlen(as[0]);
+  if (esl_dst_CPairId(as[0], as[0], &pid, &nid, &nres) != eslOK) abort();
+  if (pid  != 1.0 || nid != L || nres > L) abort();
+
+  /* So does 0,1 comparison  */
+  if (esl_dst_CPairId(as[0], as[1], &pid, &nid, &nres) != eslOK) abort();
+  if (pid  != 1.0 || nid != L || nres > L) abort();
+
+  /* 0,2 comparison gives 0.0, 0 */
+  if (esl_dst_CPairId(as[0], as[2], &pid, &nid, &nres) != eslOK) abort();
+  if (pid  != 0.0 || nid != 0 || nres > L) abort();
+  
+  /* remaining comparisons shouldn't fail */
+  for (i = 3; i < N; i++)
+    for (j = i; j < N; j++)
+      {
+	if (esl_dst_CPairId(as[i], as[j], &pid, &nid, &nres) != eslOK) abort();
+	if (pid < 0. || pid > 1. || nid < 0 || nid > L || nres > L)    abort();
+      }
+
+  /* API should accept NULL for return values */
+  if (esl_dst_CPairId(as[0], as[0], NULL, NULL, NULL) != eslOK) abort();  
+  return eslOK;
+}
+
+static int 
+utest_CJukesCantor(int K, char **as, int N)
+{
+  double d, V;
+  int    i,j;
+
+  /* Self comparison gives distance = 0. */
+  if (esl_dst_CJukesCantor(K, as[0], as[0], &d, &V) != eslOK) abort();
+  if (d != 0.0) abort();
+
+  /* So does 0,1 comparison  */
+  if (esl_dst_CJukesCantor(K, as[0], as[1], &d, &V) != eslOK) abort();
+  if (d != 0.0) abort();
+
+  /* 0,2 comparison gives infinite distance (HUGE_VAL) */
+  if (esl_dst_CJukesCantor(K, as[0], as[2], &d, &V) != eslOK) abort();
+  if (d != HUGE_VAL) abort();
+  
+  /* remaining comparisons shouldn't fail */
+  for (i = 3; i < N; i++)
+    for (j = i; j < N; j++)
+      if (esl_dst_CJukesCantor(K, as[i], as[j], &d, &V) != eslOK) abort();
+
+  /* API should accept NULL for return values */
+  if (esl_dst_CJukesCantor(K, as[0], as[0], NULL, NULL) != eslOK) abort();  
+  return eslOK;
+}
+
+#ifdef eslAUGMENT_ALPHABET
+static int 
+utest_XPairId(ESL_ALPHABET *abc, char **as, ESL_DSQ **ax, int N)
+{
+  double pid, pid2;
+  int    nid, nid2;
+  int    nres, nres2;	
+  int    dL, L;
+  int    i,j;
+
+  /* Self comparison gives identity = 1. */
+  dL = esl_abc_dsqlen(ax[0]);
+  L  = strlen(as[0]); 
+  if (dL != L) abort();
+  if (esl_dst_XPairId(abc, ax[0], ax[0], &pid, &nid, &nres) != eslOK) abort();
+  if (pid  != 1.0 || nid != L || nres > dL) abort();
+
+  /* So does 0,1 comparison  */
+  if (esl_dst_XPairId(abc, ax[0], ax[1], &pid, &nid, &nres) != eslOK) abort();
+  if (pid  != 1.0 || nid != L || nres > L) abort();
+
+  /* 0,2 comparison gives 0.0, 0 */
+  if (esl_dst_XPairId(abc, ax[0], ax[2], &pid, &nid, &nres) != eslOK) abort();
+  if (pid  != 0.0 || nid != 0 || nres > L) abort();
+  
+  /* remaining comparisons shouldn't fail, and should be identical to text mode */
+  for (i = 3; i < N; i++)
+    for (j = i; j < N; j++)
+      {
+	if (esl_dst_XPairId(abc, ax[i], ax[j], &pid, &nid, &nres) != eslOK) abort();
+	if (esl_dst_CPairId(as[i], as[j], &pid2, &nid2, &nres2)   != eslOK) abort();
+	if (pid < 0. || pid > 1. || nid < 0 || nid > L || nres > L)         abort();
+	if (pid != pid2 || nid != nid2 || nres != nres2)                    abort();
+      }
+
+  /* API should accept NULL for return values */
+  if (esl_dst_XPairId(abc, ax[0], ax[0], NULL, NULL, NULL) != eslOK) abort();  
+  return eslOK;
+
+}
+
+static int 
+utest_XJukesCantor(ESL_ALPHABET *abc, char **as, ESL_DSQ **ax, int N)
+{
+  double d, V;
+  int    i,j;
+
+  /* Self comparison gives distance = 0. */
+  if (esl_dst_XJukesCantor(abc, ax[0], ax[0], &d, &V) != eslOK) abort();
+  if (d != 0.0) abort();
+
+  /* So does 0,1 comparison  */
+  if (esl_dst_XJukesCantor(abc, ax[0], ax[1], &d, &V) != eslOK) abort();
+  if (d != 0.0) abort();
+
+  /* 0,2 comparison gives infinite distance (HUGE_VAL) */
+  if (esl_dst_XJukesCantor(abc, ax[0], ax[2], &d, &V) != eslOK) abort();
+  if (d != HUGE_VAL) abort();
+  
+  /* remaining comparisons shouldn't fail */
+  for (i = 3; i < N; i++)
+    for (j = i; j < N; j++)
+      if (esl_dst_XJukesCantor(abc, ax[i], ax[j], &d, &V) != eslOK) abort();
+
+  /* API should accept NULL for return values */
+  if (esl_dst_XJukesCantor(abc, ax[0], ax[0], NULL, NULL) != eslOK) abort();  
+  return eslOK;
+
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+
+#ifdef eslAUGMENT_DMATRIX
+static int 
+utest_CPairIdMx(char **as, int N)
+{
+  ESL_DMATRIX *S;
+  int          i,j;
+  double       pid;
+
+  if (esl_dst_CPairIdMx(as, N, &S) != eslOK) abort();
+
+  for (i = 0; i < N; i++) 
+    if (S->mx[i][i] != 1.0) abort();
+
+  pid = 0.;
+  for (i = 3; i < N; i++)
+    for (j = i+1; j < N; j++)
+      pid += S->mx[i][j];
+  pid /= (double) ((N-3) * (N-4) / 2); /* first 3 don't count */
+  if (pid < 0.15 || pid > 0.35) abort(); /* should be 0.25 */
+
+  esl_dmatrix_Destroy(S);
+  return eslOK;
+}
+
+static int 
+utest_CDiffMx(char **as, int N)
+{
+  ESL_DMATRIX *D;
+  int          i,j;
+  double       diff;
+
+  if (esl_dst_CDiffMx(as, N, &D) != eslOK) abort();
+
+  for (i = 0; i < N; i++) 
+    if (D->mx[i][i] != 0.0) abort();
+
+  diff = 0.;
+  for (i = 3; i < N; i++)
+    for (j = i+1; j < N; j++)
+      diff += D->mx[i][j];
+  diff /= (double) ((N-3) * (N-4) / 2);	/* first 3 don't count */
+  if (diff < 0.65 || diff > 0.85) abort(); /* should be 0.75 */
+
+  esl_dmatrix_Destroy(D);
+  return eslOK;
+}
+
+static int 
+utest_CJukesCantorMx(int K, char **as, int N)
+{
+  ESL_DMATRIX *D, *V;
+  /* just a crash test */
+  if (esl_dst_CJukesCantorMx(K, as, N, &D, &V) != eslOK) abort();
+  esl_dmatrix_Destroy(D);
+  esl_dmatrix_Destroy(V);
+  return eslOK;
+}
+#endif /*eslAUGMENT_DMATRIX*/
+
+#if defined (eslAUGMENT_ALPHABET) && defined (eslAUGMENT_DMATRIX)
+ 
+static int 
+utest_XPairIdMx(ESL_ALPHABET *abc, char **as, ESL_DSQ **ax, int N)
+{
+  ESL_DMATRIX *S, *S2;
+  int i, j;
+
+  if (esl_dst_XPairIdMx(abc, ax, N, &S) != eslOK) abort();
+  if (esl_dst_CPairIdMx(as, N, &S2)     != eslOK) abort();
+
+  for (i = 0; i < N; i++) 
+    for (j = i; j < N; j++)
+      if (fabs(S->mx[i][j] - S2->mx[j][i]) > 0.01) abort();
+
+  esl_dmatrix_Destroy(S);
+  esl_dmatrix_Destroy(S2);
+  return eslOK;
+}
+
+static int 
+utest_XDiffMx(ESL_ALPHABET *abc, char **as, ESL_DSQ **ax, int N)
+{
+  ESL_DMATRIX *D, *D2;
+  int i, j;
+
+  if (esl_dst_XDiffMx(abc, ax, N, &D) != eslOK) abort();
+  if (esl_dst_CDiffMx(as, N, &D2)     != eslOK) abort();
+
+  for (i = 0; i < N; i++) 
+    for (j = i; j < N; j++)
+      if (fabs(D->mx[i][j] - D2->mx[j][i]) > 0.01) abort();
+
+  esl_dmatrix_Destroy(D);
+  esl_dmatrix_Destroy(D2);
+  return eslOK;
+}
+
+static int 
+utest_XJukesCantorMx(ESL_ALPHABET *abc, char **as, ESL_DSQ **ax, int N)
+{
+  ESL_DMATRIX *D, *D2, *V, *V2;
+  int i, j;
+
+  if (esl_dst_XJukesCantorMx(abc, ax, N, &D, &V)      != eslOK) abort();
+  if (esl_dst_CJukesCantorMx(abc->K, as, N, &D2, &V2) != eslOK) abort();
+
+  for (i = 0; i < N; i++) 
+    for (j = i; j < N; j++)
+      {
+	if (fabs(D->mx[i][j] - D2->mx[j][i]) > 0.01) abort();
+	if (fabs(V->mx[i][j] - V2->mx[j][i]) > 0.01) abort();
+      }
+
+  esl_dmatrix_Destroy(D);
+  esl_dmatrix_Destroy(D2);
+  esl_dmatrix_Destroy(V);
+  esl_dmatrix_Destroy(V2);
+  return eslOK;
+}
+#endif /*eslAUGMENT_ALPHABET && eslAUGMENT_DMATRIX*/
+
+/*------------------ end of unit tests --------------------------*/
+#endif /* eslDISTANCE_TESTDRIVE */
+
+
+
+/*****************************************************************
+ * 8. Test driver.
+ *****************************************************************/ 
+
+/* 
+   gcc -g -Wall -o testdriver -I. -DeslDISTANCE_TESTDRIVE esl_distance.c esl_getopts.c esl_random.c easel.c -lm
+
+   gcc -g -Wall -o testdriver -I. -DeslDISTANCE_TESTDRIVE\
+     -DeslAUGMENT_ALPHABET \
+     esl_distance.c esl_getopts.c esl_random.c \
+     esl_alphabet.c easel.c -lm
+
+   gcc -g -Wall -o testdriver -I. -DeslDISTANCE_TESTDRIVE\
+     -DeslAUGMENT_DMATRIX \
+     esl_distance.c esl_getopts.c esl_random.c \
+     esl_dmatrix.c easel.c -lm
+
+   gcc -g -Wall -o testdriver -I. -DeslDISTANCE_TESTDRIVE\
+     -DeslALPHABET -DeslAUGMENT_DMATRIX \
+     esl_distance.c esl_getopts.c esl_random.c \
+     esl_alphabet.c esl_dmatrix.c easel.c -lm
+
+   gcc -g -Wall -o testdriver -I. -L. -DeslDISTANCE_TESTDRIVE esl_distance.c -leasel -lm
+ */
+#ifdef eslDISTANCE_TESTDRIVE
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_distance.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#ifdef eslAUGMENT_DMATRIX
+#include "esl_dmatrix.h"
+#endif
+
+static ESL_OPTIONS options[] = {
+  /* name        type       def   env  range toggles reqs incomp help                       docgroup*/
+  { "-h",     eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",            0},
+  { "-N",     eslARG_INT,    "10", NULL,"n>3", NULL, NULL, NULL, "number of iid seqs in alignment",0},
+  { "-L",     eslARG_INT,    "50", NULL,"n>0", NULL, NULL, NULL, "length of seqs in alignment",    0},
+  { "--seed", eslARG_INT,    "42", NULL,"n>=0",NULL, NULL, NULL, "random # seed",                  0},
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[] = "Usage: ./testdrive-distance [-options]";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go = NULL;
+  ESL_RANDOMNESS *r = NULL;
+  char  **as = NULL;		/* aligned character seqs (random, iid) */
+  int     N,L;			/* # of seqs, and their aligned lengths */
+  int seed;
+  int i,j;
+  int status;
+  double p[4];			/* ACGT probabilities */
+#ifdef eslAUGMENT_ALPHABET
+  ESL_DSQ      **ax = NULL;		/* digitized alignment                  */
+  ESL_ALPHABET *abc = NULL;
+#endif
+
+  /* Process command line
+   */
+  go = esl_getopts_Create(options);
+  esl_opt_ProcessCmdline(go, argc, argv);
+  esl_opt_VerifyConfig(go);
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) {
+    puts(usage); 
+    puts("\n  where options are:");
+    esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=all docgroups; 2=indentation; 80=width */
+    return 0;
+  }
+  L    = esl_opt_GetInteger(go, "-L");
+  N    = esl_opt_GetInteger(go, "-N");
+  seed = esl_opt_GetInteger(go, "--seed");
+  if (esl_opt_ArgNumber(go) != 0) {
+    puts("Incorrect number of command line arguments.");
+    puts(usage);
+    return 1;
+  }
+  esl_getopts_Destroy(go);
+
+  /* Create a random DNA alignment;
+   * force it to obey the conventions of the unit tests:
+   *   0,1 are identical
+   *   0,2 are completely dissimilar
+   */
+  r   = esl_randomness_Create(seed);
+  for (i = 0; i < 4; i++) p[i] = 0.25;
+  ESL_ALLOC(as, sizeof(char *) * N);
+  for (i = 0; i < N; i++) 
+    ESL_ALLOC(as[i], sizeof(char) * (L+1));
+  esl_rsq_IID(r, "ACGT", p, 4, L, as[0]);
+  strcpy(as[1], as[0]);
+  esl_rsq_IID(r, "ACGT", p, 4, L, as[2]);
+  for (j = 0; j < L; j++)
+    while (as[2][j] == as[0][j])
+      as[2][j] = "ACGT"[esl_rnd_Roll(r, 4)];
+  for (i = 3; i < N; i++)
+    esl_rsq_IID(r, "ACGT", p, 4, L, as[i]);
+
+#ifdef eslAUGMENT_ALPHABET
+  abc = esl_alphabet_Create(eslDNA);
+  ESL_ALLOC(ax, sizeof(ESL_DSQ *) * N);
+  for (i = 0; i < N; i++) 
+    esl_abc_CreateDsq(abc, as[i], &(ax[i]));
+#endif /*eslAUGMENT_ALPHABET*/
+
+
+  /* Unit tests
+   */
+  if (utest_CPairId(as, N)               != eslOK) return eslFAIL;
+  if (utest_CJukesCantor(4, as, N)       != eslOK) return eslFAIL;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (utest_XPairId(abc, as, ax, N)      != eslOK) return eslFAIL;
+  if (utest_XJukesCantor(abc, as, ax, N) != eslOK) return eslFAIL;
+#endif /*eslAUGMENT_ALPHABET*/
+
+#ifdef eslAUGMENT_DMATRIX
+  if (utest_CPairIdMx(as, N)             != eslOK) return eslFAIL;
+  if (utest_CDiffMx(as, N)               != eslOK) return eslFAIL;
+  if (utest_CJukesCantorMx(4, as, N)     != eslOK) return eslFAIL;
+#endif /* eslAUGMENT_DMATRIX*/
+
+#if defined (eslAUGMENT_ALPHABET) && defined (eslAUGMENT_DMATRIX)
+  if (utest_XPairIdMx(abc, as, ax, N)       != eslOK) return eslFAIL;
+  if (utest_XDiffMx(abc, as, ax, N)         != eslOK) return eslFAIL;
+  if (utest_XJukesCantorMx(abc, as, ax, N)  != eslOK) return eslFAIL;
+#endif
+
+  esl_randomness_Destroy(r);
+  esl_Free2D((void **) as, N);
+#ifdef eslAUGMENT_ALPHABET
+  esl_alphabet_Destroy(abc);
+  esl_Free2D((void **) ax, N);
+#endif
+  return eslOK;
+
+ ERROR:
+  return eslFAIL;
+}
+#endif /*eslDISTANCE_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * 9. Example.
+ *****************************************************************/ 
+
+#ifdef eslDISTANCE_EXAMPLE
+/*::cexcerpt::distance_example::begin::*/
+/* gcc -g -Wall -o example -I. -DeslDISTANCE_EXAMPLE esl_distance.c\
+       esl_dmatrix.c esl_msa.c easel.c -lm
+   ./example <msa file>
+ */
+#include "easel.h"
+#include "esl_distance.h"
+#include "esl_dmatrix.h"
+#include "esl_msa.h"
+
+int main(int argc, char **argv)
+{
+  ESLX_MSAFILE *afp; 
+  ESL_MSA      *msa;
+  ESL_DMATRIX  *P;
+  int           i,j;
+  double        min, avg, max;
+  int           status;
+
+  if ((status = eslx_msafile_Open(NULL, argv[1], NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+  if ((status = eslx_msafile_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  esl_dst_CPairIdMx(msa->aseq, msa->nseq, &P);
+
+  min = 1.0;
+  max = 0.0;
+  avg = 0.0;
+  for (i = 0; i < msa->nseq; i++)
+    for (j = i+1; j < msa->nseq; j++)
+      {
+	avg += P->mx[i][j];
+	if (P->mx[i][j] < min) min = P->mx[i][j];
+	if (P->mx[i][j] > max) max = P->mx[i][j];
+      }
+  avg /= (double) (msa->nseq * (msa->nseq-1) / 2);
+
+  printf("Average pairwise %% id:  %.1f%%\n", avg * 100.);
+  printf("Minimum pairwise %% id:  %.1f%%\n", min * 100.);
+  printf("Maximum pairwise %% id:  %.1f%%\n", max * 100.);
+
+  esl_dmatrix_Destroy(P);
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  return 0;
+}
+/*::cexcerpt::distance_example::end::*/
+#endif /*eslDISTANCE_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_distance.c 887 2013-09-24 09:41:22Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_distance.c $
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.h
new file mode 100755
index 0000000..ccd9abc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.h
@@ -0,0 +1,76 @@
+/* Distances between aligned sequences, including both
+ * probabilistic evolutionary models and ad hoc measures.
+ * 
+ * SRE, Fri Apr 28 06:41:13 2006 [New York]
+ * SVN $Id: esl_distance.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_distance.h $
+ */
+#ifndef eslDISTANCE_INCLUDED
+#define eslDISTANCE_INCLUDED
+
+#include "easel.h"		/* ESL_DSQ declaration      */
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"	/* ESL_ALPHABET declaration */
+#endif
+#ifdef eslAUGMENT_DMATRIX
+#include "esl_dmatrix.h"	/* ESL_DMATRIX declaration  */
+#endif
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"  
+#endif
+
+/* 1. Pairwise distances for aligned text sequences.
+ */
+extern int esl_dst_CPairId(const char *asq1, const char *asq2, 
+			   double *opt_pid, int *opt_nid, int *opt_n);
+extern int esl_dst_CJukesCantor(int K, const char *as1, const char *as2, 
+				double *opt_distance, double *opt_variance);
+
+/* 2. Pairwise distances for aligned digital seqs.  
+ */
+#ifdef eslAUGMENT_ALPHABET
+extern int esl_dst_XPairId(const ESL_ALPHABET *abc, const ESL_DSQ *ax1, const ESL_DSQ *ax2, 
+			   double *opt_pid, int *opt_nid, int *opt_n);
+extern int esl_dst_XJukesCantor(const ESL_ALPHABET *abc, const ESL_DSQ *ax, const ESL_DSQ *ay, 
+				double *opt_distance, double *opt_variance);
+#endif
+
+
+/* 3. Distance matrices for aligned text sequences. 
+ */
+#ifdef eslAUGMENT_DMATRIX
+extern int esl_dst_CPairIdMx     (char **as, int N, ESL_DMATRIX **ret_S);
+extern int esl_dst_CDiffMx       (char **as, int N, ESL_DMATRIX **ret_D);
+extern int esl_dst_CJukesCantorMx(int K, char **as, int N, ESL_DMATRIX **opt_D, ESL_DMATRIX **opt_V);
+#endif
+
+/* 4. Distance matrices for aligned digital sequences. 
+ */
+#if defined(eslAUGMENT_DMATRIX) && defined(eslAUGMENT_ALPHABET)
+extern int esl_dst_XPairIdMx(const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, ESL_DMATRIX **ret_S);
+extern int esl_dst_XDiffMx  (const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, ESL_DMATRIX **ret_D);
+
+extern int esl_dst_XJukesCantorMx(const ESL_ALPHABET *abc, ESL_DSQ **ax, int nseq, 
+				  ESL_DMATRIX **opt_D, ESL_DMATRIX **opt_V);
+#endif
+
+/*  5. Average pairwise identity for multiple alignments.
+ */
+#ifdef eslAUGMENT_RANDOM
+extern int esl_dst_CAverageId(char **as, int nseq, int max_comparisons, double *ret_id);
+#endif
+#if defined(eslAUGMENT_RANDOM) && defined(eslAUGMENT_ALPHABET)
+extern int esl_dst_XAverageId(const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, int max_comparisons, double *ret_id);
+#endif
+
+
+#endif /*eslDISTANCE_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.tex
new file mode 100755
index 0000000..199f4b3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_distance.tex
@@ -0,0 +1,149 @@
+
+The \eslmod{distance} module implements routines for inferring
+mutational distances between pairs of aligned sequences.
+
+Augmentation with the \eslmod{alphabet} module provides distance
+routines for digitized sequences, in addition to text sequences.
+
+Augmentation with the \eslmod{dmatrix} module provides routines for
+constructing distance matrices from multiple sequence alignments.
+
+The API for the \eslmod{distance} module is summarized in
+Table~\ref{tbl:distance_api}.
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+   \apisubhead{Pairwise distances for aligned text sequences}\\
+\hyperlink{func:esl_dst_CPairId()}{\ccode{esl\_dst\_CPairId()}} & Pairwise identity of two aligned text strings.\\
+\hyperlink{func:esl_dst_CJukesCantor()}{\ccode{esl\_dst\_CJukesCantor()}} & Jukes-Cantor distance for two aligned strings.\\
+   \apisubhead{Pairwise distances for aligned digital seqs [\eslmod{alphabet}]}\\
+\hyperlink{func:esl_dst_XPairId()}{\ccode{esl\_dst\_XPairId()}} & Pairwise identity of two aligned digital seqs.\\
+\hyperlink{func:esl_dst_XJukesCantor()}{\ccode{esl\_dst\_XJukesCantor()}} & Jukes-Cantor distance for two aligned digitized seqs.\\
+   \apisubhead{Distance matrices for aligned text sequences [\eslmod{dmatrix}]}\\
+\hyperlink{func:esl_dst_CPairIdMx()}{\ccode{esl\_dst\_CPairIdMx()}} & NxN identity matrix for N aligned text sequences. \\
+\hyperlink{func:esl_dst_CDiffMx()}{\ccode{esl\_dst\_CDiffMx()}} & NxN difference matrix for N aligned text sequences.\\
+\hyperlink{func:esl_dst_CJukesCantorMx()}{\ccode{esl\_dst\_CJukesCantorMx()}} & NxN Jukes/Cantor distance matrix for N aligned text seqs.\\
+   \apisubhead{Distance matrices for aligned digital sequences [\eslmod{dmatrix}$,$\eslmod{alphabet}]}\\
+\hyperlink{func:esl_dst_XPairIdMx()}{\ccode{esl\_dst\_XPairIdMx()}} & NxN identity matrix for N aligned digital seqs.\\
+\hyperlink{func:esl_dst_XDiffMx()}{\ccode{esl\_dst\_XDiffMx()}} & NxN difference matrix for N aligned digital seqs.\\
+\hyperlink{func:esl_dst_XJukesCantorMx()}{\ccode{esl\_dst\_XJukesCantorMx()}} & NxN Jukes/Cantor distance matrix for N aligned digital seqs.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{distance} API. Requires: \eslmod{easel}. Optional augmentation: \eslmod{alphabet}, \eslmod{dmatrix}.}
+\label{tbl:distance_api}
+\end{table}
+
+
+\subsection{Example of using the distance API}
+
+The example code below opens a multiple sequence alignment file and
+reads an alignment from it, then uses one of the routines from the
+\eslmod{distance} module to calculate a fractional identity matrix
+from it. The example then finds the average, minimum, and maximum of
+the values in the identity matrix.
+
+\input{cexcerpts/distance_example}
+
+\subsection{Definition of pairwise identity and pairwise difference}
+
+Given a pairwise sequence alignment of length $L$, between two
+sequences of $n_1$ and $n_2$ residues ($n_1 \leq L$, $n_2 \leq L$),
+where the $L$ aligned symbol pairs are classified and counted as
+$c_{\mbox{ident}}$ identities, $c_{\mbox{mismat}}$ mismatches, and
+$c_{\mbox{indel}}$ pairs that have a gap symbol in either or both
+sequences ($c_{\mbox{ident}} + c_{\mbox{mismat}} + c_{\mbox{indel}} =
+L$), \esldef{pairwise sequence identity} is defined as:
+
+\[
+   \mbox{pid} = \frac{c_{\mbox{ident}}}{\mbox{MIN}(n_1, n_2)},
+\]
+
+and \esldef{pairwise sequence difference} is defined as
+\[
+   \mbox{diff} = 1 - \mbox{pid} = \frac{\mbox{MIN}(n_1,n_2) - c_{\mbox{ident}}}{\mbox{MIN}(n_1, n_2)}.
+\]
+
+Both pid and diff range from 0 to 1. 
+
+In the unusual case where $\mbox{MIN}(n_1,n_2)=0$ -- that is, one of
+the aligned sequences consists entirely of gaps -- the percent
+identity $0/0$ is defined as 0. The calculation is robust against
+length 0 sequences, which do arise in real applications. (Not just in
+bad input, either. For example, this arises when dealing with subsets
+of the columns of a multiple alignment.)
+
+There are many ways that pairwise identity might be calculated,
+because there are a variety of choices for the denominator. In Easel,
+identity calculations are used primarily in \emph{ad hoc} sequence
+weight calculations for multiple sequence alignments, as part of
+profile HMM or profile SCFG construction. Multiple alignments will
+often contain short sequence fragments. We want to deal robustly with
+cases where two short fragments may have little overlap, or none at
+all. The most obvious calculation of pairwise identity,
+$c_{\mbox{ident}} / c_{\mbox{ident}} + c_{\mbox{mismat}}$, is not
+robust, because alignments with few aligned residues (either because
+they are highly gappy, or they are partially overlapping fragments)
+may receive artifactually high identities. Other definitions,
+$c_{\mbox{ident}} / L$ or $c_{\mbox{ident}} / \mbox{MEAN}(n_1, n_2)$
+or $c_{\mbox{ident}} / \mbox{MAX}(n_1, n_2)$ are also not robust,
+sharing the disadvantage that good alignments of fragments to longer
+sequences would be scored as artifactually low identities.
+
+
+\subsection{Generalized Jukes-Cantor distances}
+
+The Jukes-Cantor model of DNA sequence evolution assumes that all
+substitutions occur at the same rate $\alpha$
+\citep{JukesCantor69}. It is a reversible, multiplicative evolutionary
+model. It implies equiprobable stationary probabilities. The
+\esldef{Jukes/Cantor distance} is the maximum likelihood estimate of
+the number of substitutions per site that have occurred between the
+two sequences, correcting for multiple substitutions that may have
+occurred the same site. Given an ungapped pairwise alignment of length
+$L$ consisting of $c_{\mbox{ident}}$ identities and
+$c_{\mbox{mismat}}$ mismatches (observed substitutions)
+($c_{\mbox{ident}} + c_{\mbox{mismat}} = L$, the fractional observed
+difference $D$ is defined as
+
+\[
+  D = \frac{c_{\mbox{mismat}}}{c_{\mbox{ident}} + c_{\mbox{mismat}}},
+\]
+
+and the Jukes-Cantor distance $d$ is defined in terms of $D$ as:
+
+\[
+  d = -\frac{3}{4} \log \left( 1 - \frac{4}{3} D \right)
+\]
+
+The Jukes/Cantor model does not allow insertions or deletions.  When
+calculating ``Jukes/Cantor distances'' for gapped alignments, gap
+symbols are simply ignored, and the same calculations above are
+applied.
+
+The Jukes-Cantor model readily generalizes from the four-letter DNA
+alphabet to any alphabet size $K$, using the same definition of
+observed fractional difference $D$. A \esldef{generalized Jukes-Cantor
+distance} is:
+
+\[
+  d = -\frac{K-1}{K} \log \left( 1 - \frac{K}{K-1} D \right).
+\]
+
+The large-sample variance of this estimate $d$ is:
+
+\[
+   \sigma^2 = e^\frac{2Kd}{K-1} \frac{D(1-D)}{L'}
+\]
+
+where $L'$ is the total number of columns counted, exclusive of gaps,
+$L' = c_{\mbox{ident}} + c_{\mbox{mismat}}$.
+
+If the observed $D \geq \frac{K-1}{K}$, the maximum likelihood
+Jukes-Cantor distance is infinity, as is the variance. In this case,
+both $d$ and $V$ are returned as \ccode{HUGE\_VAL}. 
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.c
new file mode 100755
index 0000000..9102a05
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.c
@@ -0,0 +1,1460 @@
+/* Linear algebra operations in double-precision matrices.
+ * 
+ * Implements ESL_DMATRIX (double-precision matrix) and 
+ * ESL_PERMUTATION (permutation matrix) objects.
+ * 
+ * Table of contents:
+ *   1. The ESL_DMATRIX object
+ *   2. Debugging/validation code for ESL_DMATRIX
+ *   3. The ESL_PERMUTATION object
+ *   4. Debugging/validation code for ESL_PERMUTATION
+ *   5. The rest of the dmatrix API
+ *   6. Optional: Interoperability with GSL
+ *   7. Optional: Interfaces to LAPACK
+ *   8. Unit tests
+ *   9. Test driver
+ *  10. Examples
+ *  11. Copyright and license 
+ *
+ * To do:
+ *   - eventually probably want additional matrix types
+ *   - unit tests poor 
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+#include "esl_dmatrix.h"
+
+
+/*****************************************************************
+ * 1. The ESL_DMATRIX object.
+ *****************************************************************/
+
+/* Function:  esl_dmatrix_Create()
+ *
+ * Purpose:   Creates a general <n> x <m> matrix (<n> rows, <m> 
+ *            columns).
+ *
+ * Args:      <n> - number of rows;    $>= 1$
+ *            <m> - number of columns; $>= 1$
+ * 
+ * Returns:   a pointer to a new <ESL_DMATRIX> object. Caller frees
+ *            with <esl_dmatrix_Destroy()>.
+ *
+ * Throws:    <NULL> if an allocation failed.
+ */
+ESL_DMATRIX *
+esl_dmatrix_Create(int n, int m)
+{
+  ESL_DMATRIX *A = NULL;
+  int r;
+  int status;
+
+  ESL_ALLOC(A, sizeof(ESL_DMATRIX));
+  A->mx = NULL;
+  A->n  = n;
+  A->m  = m;
+
+  ESL_ALLOC(A->mx, sizeof(double *) * n);
+  A->mx[0] = NULL;
+
+  ESL_ALLOC(A->mx[0], sizeof(double) * n * m);
+  for (r = 1; r < n; r++)
+    A->mx[r] = A->mx[0] + r*m;
+
+  A->type   = eslGENERAL;
+  A->ncells = n * m; 
+  return A;
+  
+ ERROR:
+  esl_dmatrix_Destroy(A);
+  return NULL;
+}
+
+
+/* Function:  esl_dmatrix_CreateUpper()
+ * Incept:    SRE, Wed Feb 28 08:45:45 2007 [Janelia]
+ *
+ * Purpose:   Creates a packed upper triangular matrix of <n> rows and
+ *            <n> columns. Caller may only access cells $i \leq j$.
+ *            Cells $i > j$ are not stored and are implicitly 0.
+ *            
+ *            Not all matrix operations in Easel can work on packed
+ *            upper triangular matrices.
+ *
+ * Returns:   a pointer to a new <ESL_DMATRIX> object of type
+ *            <eslUPPER>. Caller frees with <esl_dmatrix_Destroy()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ *
+ * Xref:      J1/10
+ */
+ESL_DMATRIX *
+esl_dmatrix_CreateUpper(int n)
+{
+  int status;
+  ESL_DMATRIX *A = NULL;
+  int r;			/* counter over rows */
+  int nc;			/* cell counter */
+
+  /* matrix structure allocation */
+  ESL_ALLOC(A, sizeof(ESL_DMATRIX)); 
+  A->mx = NULL;
+  A->n  = n;
+  A->m  = n;
+
+  /* n row ptrs */
+  ESL_ALLOC(A->mx, sizeof(double *) * n); 
+  A->mx[0] = NULL;
+
+  /* cell storage */
+  ESL_ALLOC(A->mx[0], sizeof(double) * n * (n+1) / 2);
+  
+  /* row pointers set in a tricksy overlapping way, so
+   * mx[i][j] access works normally but only i<=j are valid.
+   * xref J1/10.
+   */
+  nc = n;  /* nc is the number of valid cells assigned to rows so far */
+  for (r = 1; r < n; r++) {
+    A->mx[r] = A->mx[0] + nc - r; /* -r overlaps this row w/ previous row */
+    nc += n-r;
+  }
+  A->type   = eslUPPER;
+  A->ncells = n * (n+1) / 2; 
+  return A;
+
+ ERROR:
+  esl_dmatrix_Destroy(A);
+  return NULL;
+}
+
+
+/* Function:  esl_dmatrix_Destroy()
+ *            
+ * Purpose:   Frees an <ESL_DMATRIX> object <A>.
+ */
+int
+esl_dmatrix_Destroy(ESL_DMATRIX *A)
+{
+  if (A != NULL && A->mx != NULL && A->mx[0] != NULL) free(A->mx[0]);
+  if (A != NULL && A->mx != NULL)                     free(A->mx);
+  if (A != NULL)                                      free(A);
+  return eslOK;
+}
+
+
+/* Function:  esl_dmatrix_Copy()
+ *
+ * Purpose:   Copies <src> matrix into <dest> matrix. <dest> must
+ *            be allocated already by the caller.
+ * 
+ *            You may copy to a matrix of a different type, so long as
+ *            the copy makes sense. If <dest> matrix is a packed type
+ *            and <src> is not, the values that should be zeros must
+ *            be zero in <src>, else the routine throws
+ *            <eslEINCOMPAT>. If the <src> matrix is a packed type and
+ *            <dest> is not, the values that are implicitly zeros are
+ *            set to zeros in the <dest> matrix.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINCOMPAT> if <src>, <dest> are different sizes,
+ *            or if their types differ and <dest> cannot represent
+ *            <src>.
+ */
+int
+esl_dmatrix_Copy(const ESL_DMATRIX *src, ESL_DMATRIX *dest)
+{
+  int i,j;
+
+  if (dest->n != src->n || dest->m != src->m)
+    ESL_EXCEPTION(eslEINCOMPAT, "matrices of different size");
+
+  if (src->type == dest->type)   /* simple case. */
+    memcpy(dest->mx[0], src->mx[0], src->ncells * sizeof(double));
+
+  else if (src->type == eslGENERAL && dest->type == eslUPPER)		
+    {
+      for (i = 1; i < src->n; i++)
+	for (j = 0; j < i; j++)
+	  if (src->mx[i][j] != 0.) 
+	    ESL_EXCEPTION(eslEINCOMPAT, "general matrix isn't upper triangular, can't be copied/packed");
+      for (i = 0; i < src->n; i++)
+	for (j = i; j < src->m; j++)
+	  dest->mx[i][j] = src->mx[i][j];
+    }
+  
+  else if (src->type == eslUPPER && dest->type == eslGENERAL)		
+    {
+      for (i = 1; i < src->n; i++)
+	for (j = 0; j < i; j++)
+	  dest->mx[i][j] = 0.;
+      for (i = 0; i < src->n; i++)
+	for (j = i; j < src->m; j++)
+	  dest->mx[i][j] = src->mx[i][j];      
+    }
+
+  return eslOK;
+}
+
+
+/* Function:  esl_dmatrix_Clone()
+ * Incept:    SRE, Tue May  2 14:38:45 2006 [St. Louis]
+ *
+ * Purpose:   Duplicates matrix <A>, making a copy in newly
+ *            allocated space.
+ *
+ * Returns:   a pointer to the copy. Caller frees with 
+ *            <esl_dmatrix_Destroy()>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_DMATRIX *
+esl_dmatrix_Clone(const ESL_DMATRIX *A)
+{
+  ESL_DMATRIX *new;
+
+  switch (A->type) {
+  case eslUPPER:             if ( (new = esl_dmatrix_CreateUpper(A->n))  == NULL) return NULL; break;
+  default: case eslGENERAL:  if ( (new = esl_dmatrix_Create(A->n, A->m)) == NULL) return NULL; break;
+  }
+  esl_dmatrix_Copy(A, new);
+  return new;
+}
+
+
+/* Function:  esl_dmatrix_Compare()
+ *
+ * Purpose:   Compares matrix <A> to matrix <B> element by element,
+ *            using <esl_DCompare()> on each cognate element pair,
+ *            with relative equality defined by a fractional tolerance
+ *            <tol>.  If all elements are equal, return <eslOK>; if
+ *            any elements differ, return <eslFAIL>.
+ *            
+ *            <A> and <B> may be of different types; for example,
+ *            a packed upper triangular matrix A is compared to
+ *            a general matrix B by assuming <A->mx[i][j] = 0.> for
+ *            all $i>j$.
+ */
+int
+esl_dmatrix_Compare(const ESL_DMATRIX *A, const ESL_DMATRIX *B, double tol)
+{
+  int i,j,c;
+  double x1,x2;
+
+  if (A->n != B->n) return eslFAIL;
+  if (A->m != B->m) return eslFAIL;
+
+  if (A->type == B->type) 
+    {  /* simple case. */
+      for (c = 0; c < A->ncells; c++) /* can deal w/ packed or unpacked storage */
+	if (esl_DCompare(A->mx[0][c], B->mx[0][c], tol) == eslFAIL) return eslFAIL;
+    }
+  else 
+    { /* comparing matrices of different types */
+      for (i = 0; i < A->n; i++)
+	for (j = 0; j < A->m; j++)
+	  {
+	    if (A->type == eslUPPER && i > j) x1 = 0.;
+	    else                              x1 = A->mx[i][j];
+
+	    if (B->type == eslUPPER && i > j) x2 = 0.;
+	    else                              x2 = B->mx[i][j];
+
+	    if (esl_DCompare(x1, x2, tol) == eslFAIL) return eslFAIL;
+	  }
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_dmatrix_CompareAbs()
+ *
+ * Purpose:   Compares matrix <A> to matrix <B> element by element,
+ *            using <esl_DCompareAbs()> on each cognate element pair,
+ *            with absolute equality defined by a absolute difference tolerance
+ *            <tol>.  If all elements are equal, return <eslOK>; if
+ *            any elements differ, return <eslFAIL>.
+ *            
+ *            <A> and <B> may be of different types; for example,
+ *            a packed upper triangular matrix A is compared to
+ *            a general matrix B by assuming <A->mx[i][j] = 0.> for
+ *            all $i>j$.
+ */
+int
+esl_dmatrix_CompareAbs(const ESL_DMATRIX *A, const ESL_DMATRIX *B, double tol)
+{
+  int i,j,c;
+  double x1,x2;
+
+  if (A->n != B->n) return eslFAIL;
+  if (A->m != B->m) return eslFAIL;
+
+  if (A->type == B->type) 
+    {  /* simple case. */
+      for (c = 0; c < A->ncells; c++) /* can deal w/ packed or unpacked storage */
+	if (esl_DCompareAbs(A->mx[0][c], B->mx[0][c], tol) == eslFAIL) return eslFAIL;
+    }
+  else 
+    { /* comparing matrices of different types */
+      for (i = 0; i < A->n; i++)
+	for (j = 0; j < A->m; j++)
+	  {
+	    if (A->type == eslUPPER && i > j) x1 = 0.;
+	    else                              x1 = A->mx[i][j];
+
+	    if (B->type == eslUPPER && i > j) x2 = 0.;
+	    else                              x2 = B->mx[i][j];
+
+	    if (esl_DCompareAbs(x1, x2, tol) == eslFAIL) return eslFAIL;
+	  }
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_dmatrix_Set()
+ *
+ * Purpose:   Set all elements $a_{ij}$ in matrix <A> to <x>,
+ *            and returns <eslOK>.
+ */
+int
+esl_dmatrix_Set(ESL_DMATRIX *A, double x)
+{
+  int i;
+  for (i = 0; i < A->ncells; i++) A->mx[0][i] = x;
+  return eslOK;
+}
+
+
+/* Function:  esl_dmatrix_SetZero()
+ *
+ * Purpose:   Sets all elements $a_{ij}$ in matrix <A> to 0,
+ *            and returns <eslOK>.
+ */
+int
+esl_dmatrix_SetZero(ESL_DMATRIX *A)
+{
+  int i;
+  for (i = 0; i < A->ncells; i++) A->mx[0][i] = 0.;
+  return eslOK;
+}
+  
+
+/* Function:  esl_dmatrix_SetIdentity()
+ *
+ * Purpose:   Given a square matrix <A>, sets all diagonal elements 
+ *            $a_{ii}$ to 1, and all off-diagonal elements $a_{ij},
+ *            j \ne i$ to 0. Returns <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the matrix isn't square.
+ */
+int
+esl_dmatrix_SetIdentity(ESL_DMATRIX *A)
+{
+  int i;
+  
+  if (A->n != A->m) ESL_EXCEPTION(eslEINVAL, "matrix isn't square");
+  esl_dmatrix_SetZero(A);
+  for (i = 0; i < A->n; i++) A->mx[i][i] = 1.;
+  return eslOK;
+}
+  
+
+
+/* Function:  esl_dmatrix_Dump()
+ * Incept:    SRE, Mon Nov 29 19:21:20 2004 [St. Louis]
+ *
+ * Purpose:   Given a matrix <A>, dump it to output stream <ofp> in human-readable
+ *            format.
+ * 
+ *            If <rowlabel> or <collabel> are non-NULL, they specify a
+ *            string of single-character labels to put on the rows and
+ *            columns, respectively. (For example, these might be a
+ *            sequence alphabet for a 4x4 or 20x20 rate matrix or
+ *            substitution matrix.)  Numbers <1..ncols> or <1..nrows> are
+ *            used if <collabel> or <rowlabel> are passed as <NULL>.
+ *
+ * Args:      ofp      -  output file pointer; stdout, for example.
+ *            A        -  matrix to dump.
+ *            rowlabel -  optional: NULL, or character labels for rows
+ *            collabel -  optional: NULL, or character labels for cols
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_dmatrix_Dump(FILE *ofp, const ESL_DMATRIX *A, const char *rowlabel, const char *collabel)
+{
+  int a,b;
+
+  fprintf(ofp, "     ");
+  if (collabel != NULL) 
+    for (b = 0; b < A->m; b++) fprintf(ofp, "       %c ", collabel[b]);
+  else
+    for (b = 0; b < A->m; b++) fprintf(ofp, "%8d ", b+1);
+  fprintf(ofp, "\n");
+
+  for (a = 0; a < A->n; a++) {
+    if (rowlabel != NULL)      fprintf(ofp, "    %c ", rowlabel[a]);
+    else                       fprintf(ofp, "%5d ",    a+1);
+
+    for (b = 0; b < A->m; b++) {
+      switch (A->type) {
+      case eslUPPER:
+	if (a > b) 	fprintf(ofp, "%8s ", "");
+	else            fprintf(ofp, "%8.4f ", A->mx[a][b]); 
+	break;
+
+       default: case eslGENERAL:
+	fprintf(ofp, "%8.4f ", A->mx[a][b]); 
+	break;
+      }
+    }
+    fprintf(ofp, "\n");
+  }
+  return eslOK;
+}
+
+/*****************************************************************
+ * 3. The ESL_PERMUTATION object.
+ *****************************************************************/
+
+/* Function:  esl_permutation_Create()
+ *
+ * Purpose:   Creates a new permutation "matrix" of size <n> for
+ *            permuting <n> x <n> square matrices; returns a 
+ *            pointer to it.
+ *
+ *            A permutation matrix consists of 1's and 0's such that
+ *            any given row or column contains only one 1. We store it
+ *            more efficiently as a vector; each value $p_i$
+ *            represents the column $j$ that has the 1. Thus, on
+ *            initialization, $p_i = i$ for all $i = 0..n-1$.
+ *
+ * Returns:   a pointer to a new <ESL_PERMUTATION> object. Free with 
+ *            <esl_permutation_Destroy()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+ESL_PERMUTATION *
+esl_permutation_Create(int n)
+{
+  int status;
+  ESL_PERMUTATION *P = NULL;
+
+  ESL_ALLOC(P, sizeof(ESL_PERMUTATION));
+  P->pi = NULL;
+  P->n  = n;
+  ESL_ALLOC(P->pi, sizeof(int) * n);
+
+  esl_permutation_Reuse(P);	/* initialize it */
+  return P;
+
+ ERROR:
+  esl_permutation_Destroy(P);
+  return NULL;
+}
+  
+/* Function:  esl_permutation_Destroy()
+ *
+ * Purpose:   Frees an <ESL_PERMUTATION> object <P>.
+ */
+int
+esl_permutation_Destroy(ESL_PERMUTATION *P)
+{
+  if (P != NULL && P->pi != NULL) free(P->pi);
+  if (P != NULL)                  free(P);
+  return eslOK;
+}
+
+/* Function:  esl_permutation_Reuse()
+ *
+ * Purpose:   Resets a permutation matrix <P> to
+ *            $p_i = i$ for all $i = 0..n-1$.
+ *            
+ * Returns:   <eslOK> on success.           
+ */
+int
+esl_permutation_Reuse(ESL_PERMUTATION *P)
+{
+  int i;
+  for (i = 0; i < P->n; i++)
+    P->pi[i] = i;
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 4. Debugging/validation for ESL_PERMUTATION.
+ *****************************************************************/
+
+/* Function:  esl_permutation_Dump()
+ *
+ * Purpose:   Given a permutation matrix <P>, dump it to output stream <ofp>
+ *            in human-readable format.
+ *            
+ *            If <rowlabel> or <collabel> are non-NULL, they represent
+ *            single-character labels to put on the rows and columns,
+ *            respectively. (For example, these might be a sequence
+ *            alphabet for a 4x4 or 20x20 rate matrix or substitution
+ *            matrix.)  Numbers 1..ncols or 1..nrows are used if
+ *            <collabel> or <rowlabel> are NULL.
+ *
+ * Args:      ofp      - output file pointer; stdout, for example
+ *            P        - permutation matrix to dump
+ *            rowlabel - optional: NULL, or character labels for rows
+ *            collabel - optional: NULL, or character labels for cols
+ *
+ * Returns:   <eslOK> on success.
+ */
+int 
+esl_permutation_Dump(FILE *ofp, const ESL_PERMUTATION *P, const char *rowlabel, const char *collabel)
+{
+  int i,j;
+
+  fprintf(ofp, "    ");
+  if (collabel != NULL)
+    for (j = 0; j < P->n; j++) fprintf(ofp, "  %c ", collabel[j]);
+  else
+    for (j = 0; j < P->n; j++) fprintf(ofp, "%3d ", j+1);
+  fprintf(ofp, "\n");
+
+  for (i = 0; i < P->n; i++) {
+    if (rowlabel != NULL) fprintf(ofp, "  %c ", rowlabel[i]);
+    else                  fprintf(ofp, "%3d ", i+1);
+
+    for (j = 0; j < P->n; j++)
+      fprintf(ofp, "%3d ", (j == P->pi[i]) ? 1 : 0);
+    fprintf(ofp, "\n");
+  }
+  return eslOK;
+}
+
+/*****************************************************************
+ * 5. The rest of the dmatrix API.
+ *****************************************************************/
+
+
+
+/* Function:  esl_dmx_Max()
+ * Incept:    SRE, Thu Mar  1 14:46:48 2007 [Janelia]
+ *
+ * Purpose:   Returns the maximum value of all the elements $a_{ij}$ in matrix <A>.
+ */
+double
+esl_dmx_Max(const ESL_DMATRIX *A)
+{
+  int    i;
+  double best;
+
+  best = A->mx[0][0];
+  for (i = 0; i < A->ncells; i++)
+    if (A->mx[0][i] > best) best = A->mx[0][i];
+  return best;
+}
+
+/* Function:  esl_dmx_Min()
+ * Incept:    SRE, Thu Mar  1 14:49:29 2007 [Janelia]
+ *
+ * Purpose:   Returns the minimum value of all the elements $a_{ij}$ in matrix <A>.
+ */
+double
+esl_dmx_Min(const ESL_DMATRIX *A)
+{
+  int    i;
+  double best;
+
+  best = A->mx[0][0];
+  for (i = 0; i < A->ncells; i++)
+    if (A->mx[0][i] < best) best = A->mx[0][i];
+  return best;
+}
+
+
+/* Function:  esl_dmx_MinMax()
+ * Incept:    SRE, Wed Mar 14 16:58:03 2007 [Janelia]
+ *
+ * Purpose:   Finds the maximum and minimum values of the
+ *            elements $a_{ij}$ in matrix <A>, and returns
+ *            them in <ret_min> and <ret_max>.
+ *            
+ * Returns:   <eslOK> on success.            
+ *            
+ */
+int
+esl_dmx_MinMax(const ESL_DMATRIX *A, double *ret_min, double *ret_max)
+{
+  double min, max;
+  int i;
+
+  min = max = A->mx[0][0];
+  for (i = 0; i < A->ncells; i++) {
+    if (A->mx[0][i] < min) min = A->mx[0][i];
+    if (A->mx[0][i] > max) max = A->mx[0][i];
+  }
+  *ret_min = min;
+  *ret_max = max;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_dmx_Sum()
+ * Incept:    SRE, Thu Mar  1 16:45:16 2007
+ *
+ * Purpose:   Returns the scalar sum of all the elements $a_{ij}$ in matrix <A>,
+ *            $\sum_{ij} a_{ij}$.
+ */
+double
+esl_dmx_Sum(const ESL_DMATRIX *A)
+{
+  int    i;
+  double sum = 0.;
+
+  for (i = 0; i < A->ncells; i++)
+    sum += A->mx[0][i];
+  return sum;
+}
+
+
+/* Function:  esl_dmx_FrobeniusNorm()
+ * Incept:    SRE, Thu Mar 15 17:59:35 2007 [Janelia]
+ *
+ * Purpose:   Calculates the Frobenius norm of a matrix, which
+ *            is the element-wise equivalant of a 
+ *            Euclidean vector norm: 
+ *               $ = \sqrt(\sum a_{ij}^2)$
+ *
+ * Args:      A         - matrix
+ *            ret_fnorm - Frobenius norm.
+ * 
+ * Returns:   <eslOK> on success, and the Frobenius norm
+ *            is in <ret_fnorm>.
+ */
+int
+esl_dmx_FrobeniusNorm(const ESL_DMATRIX *A, double *ret_fnorm)
+{
+  double F = 0.;
+  int    i;
+
+  for (i = 0; i < A->ncells; i++)
+    F += A->mx[0][i] * A->mx[0][i];
+  *ret_fnorm = sqrt(F);
+  return eslOK;
+}
+
+
+/* Function: esl_dmx_Multiply()
+ * 
+ * Purpose:  Matrix multiplication: calculate <AB>, store result in <C>.
+ *           <A> is $n times m$; <B> is $m \times p$; <C> is $n \times p$.
+ *           Matrix <C> must be allocated appropriately by the caller.
+ *
+ *           Not supported for anything but general (<eslGENERAL>)
+ *           matrix type, at present.
+ *           
+ * Throws:   <eslEINVAL> if matrices don't have compatible dimensions,
+ *           or if any of them isn't a general (<eslGENERAL>) matrix.
+ */
+int
+esl_dmx_Multiply(const ESL_DMATRIX *A, const ESL_DMATRIX *B, ESL_DMATRIX *C)
+{
+  int i, j, k;
+
+  if (A->m    != B->n)       ESL_EXCEPTION(eslEINVAL, "can't multiply A,B");
+  if (A->n    != C->n)       ESL_EXCEPTION(eslEINVAL, "A,C # of rows not equal");
+  if (B->m    != C->m)       ESL_EXCEPTION(eslEINVAL, "B,C # of cols not equal");
+  if (A->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "A isn't of type eslGENERAL");
+  if (B->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "B isn't of type eslGENERAL");
+  if (C->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "B isn't of type eslGENERAL");
+
+  /* i,k,j order should optimize stride, relative to a more textbook
+   * order for the indices
+   */
+  esl_dmatrix_SetZero(C);
+  for (i = 0; i < A->n; i++)
+    for (k = 0; k < A->m; k++)
+      for (j = 0; j < B->m; j++)
+	C->mx[i][j] += A->mx[i][k] * B->mx[k][j];
+
+  return eslOK;
+}
+
+
+/*::cexcerpt::function_comment_example::begin::*/
+/* Function:  esl_dmx_Exp()
+ * Synopsis:  Calculates matrix exponential $\mathbf{P} = e^{t\mathbf{Q}}$.
+ * Incept:    SRE, Thu Mar  8 18:41:38 2007 [Janelia]
+ *
+ * Purpose:   Calculates the matrix exponential $\mathbf{P} = e^{t\mathbf{Q}}$,
+ *            using a scaling and squaring algorithm with
+ *            the Taylor series approximation \citep{MolerVanLoan03}.
+ *                              
+ *            <Q> must be a square matrix of type <eslGENERAL>.
+ *            Caller provides an allocated <P> matrix of the same size and type as <Q>.
+ *            
+ *            A typical use of this function is to calculate a
+ *            conditional substitution probability matrix $\mathbf{P}$
+ *            (whose elements $P_{xy}$ are conditional substitution
+ *            probabilities $\mathrm{Prob}(y \mid x, t)$ from time $t$
+ *            and instantaneous rate matrix $\mathbf{Q}$.
+ *
+ * Args:      Q  - matrix to exponentiate (an instantaneous rate matrix)
+ *            t  - time units
+ *            P  - RESULT: $e^{tQ}$.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      J1/19.
+ */
+int
+esl_dmx_Exp(const ESL_DMATRIX *Q, double t, ESL_DMATRIX *P)
+{
+/*::cexcerpt::function_comment_example::end::*/
+  ESL_DMATRIX *Qz   = NULL;	/* Q/2^z rescaled matrix*/
+  ESL_DMATRIX *Qpow = NULL;	/* keeps running product Q^k */
+  ESL_DMATRIX *C    = NULL;	/* tmp storage for matrix multiply result */
+  double factor     = 1.0;
+  double fnorm;
+  int    z;
+  double zfac;
+  int    k;
+  int    status;
+    
+  /* Contract checks  */
+  if (Q->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "Q isn't general");
+  if (Q->n    != Q->m)       ESL_EXCEPTION(eslEINVAL, "Q isn't square");
+  if (P->type != Q->type)    ESL_EXCEPTION(eslEINVAL, "P isn't of same type as Q");
+  if (P->n    != P->m)       ESL_EXCEPTION(eslEINVAL, "P isn't square");
+  if (P->n    != Q->n)       ESL_EXCEPTION(eslEINVAL, "P isn't same size as Q");
+
+  /* Allocation of working space */
+  if ((Qz   = esl_dmatrix_Create(Q->n, Q->n)) == NULL) { status = eslEMEM; goto ERROR; }
+  if ((Qpow = esl_dmatrix_Create(Q->n, Q->n)) == NULL) { status = eslEMEM; goto ERROR; }
+  if ((C    = esl_dmatrix_Create(Q->n, Q->n)) == NULL) { status = eslEMEM; goto ERROR; }
+  
+  /* Figure out how much to scale the matrix down by.  This is not
+   * magical; we're just knocking its magnitude down in an ad hoc way.
+   */
+  esl_dmx_FrobeniusNorm(Q, &fnorm);
+  zfac = 1.;
+  z    = 0;
+  while (t*fnorm*zfac > 0.1) { zfac /= 2.; z++; }
+
+  /* Make a scaled-down copy of Q in Qz. 
+   */ 
+  esl_dmatrix_Copy(Q, Qz);       
+  esl_dmx_Scale(Qz, zfac);
+
+  /* Calculate e^{t Q_z} by the Taylor, to complete convergence. */
+  esl_dmatrix_SetIdentity(P);
+  esl_dmatrix_Copy(Qz, Qpow);       /* Qpow is now Qz^1 */
+  for (k = 1; k < 100; k++)
+    {
+      factor *= t/k;
+      esl_dmatrix_Copy(P, C);	            /* C now holds the previous P */
+      esl_dmx_AddScale(P, factor, Qpow);    /* P += factor*Qpow */
+      if (esl_dmatrix_Compare(C, P, 0.) == eslOK) break;
+
+      esl_dmx_Multiply(Qpow, Qz, C);        /* C = Q^{k+1} */
+      esl_dmatrix_Copy(C, Qpow);            /* Qpow = C = Q^{k+1} */
+    }
+
+  /* Now square it back up: e^{tQ} = [e^{tQ_z}]^{2^z} */
+  while (z--) {
+    esl_dmx_Multiply(P, P, C);
+    esl_dmatrix_Copy(C, P);
+  }
+
+  esl_dmatrix_Destroy(Qz);
+  esl_dmatrix_Destroy(Qpow);
+  esl_dmatrix_Destroy(C);
+  return eslOK;
+
+ ERROR:
+  if (Qz   != NULL) esl_dmatrix_Destroy(Qz);
+  if (Qpow != NULL) esl_dmatrix_Destroy(Qpow);
+  if (C    != NULL) esl_dmatrix_Destroy(C);
+  return status;
+}
+
+
+/* Function:  esl_dmx_Transpose()
+ *
+ * Purpose:   Transpose a square matrix <A> in place.
+ *
+ *            <A> must be a general (<eslGENERAL>) matrix type.
+ *
+ * Throws:    <eslEINVAL> if <A> isn't square, or if it isn't
+ *            of type <eslGENERAL>.
+ */
+int
+esl_dmx_Transpose(ESL_DMATRIX *A)
+{
+  int    i,j;
+  double swap;
+
+  if (A->n    != A->m)       ESL_EXCEPTION(eslEINVAL, "matrix isn't square");
+  if (A->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "A isn't of type eslGENERAL");
+
+  for (i = 0; i < A->n; i++)
+    for (j = i+1; j < A->m; j++)
+      { swap = A->mx[i][j]; A->mx[i][j] = A->mx[j][i]; A->mx[j][i] = swap; }
+  return eslOK;
+}
+
+
+/* Function:  esl_dmx_Add()
+ *
+ * Purpose:   <A = A+B>; adds matrix <B> to matrix <A> and leaves result
+ *            in matrix <A>.
+ *
+ *            <A> and <B> may be of any type. However, if <A> is a
+ *            packed upper triangular matrix (type
+ *            <eslUPPER>), all values $i>j$ in <B> must be
+ *            zero (i.e. <B> must also be upper triangular, though
+ *            not necessarily packed upper triangular).
+ *
+ * Throws:    <eslEINVAL> if matrices aren't the same dimensions, or
+ *            if <A> is <eslUPPER> and any cell $i>j$ in
+ *            <B> is nonzero.
+ */
+int
+esl_dmx_Add(ESL_DMATRIX *A, const ESL_DMATRIX *B)
+{
+  int    i,j;
+  
+  if (A->n    != B->n)              ESL_EXCEPTION(eslEINVAL, "matrices of different size");
+  if (A->m    != B->m)              ESL_EXCEPTION(eslEINVAL, "matrices of different size");
+
+  if (A->type == B->type)	/* in this case, can just add cell by cell */
+    {
+      for (i = 0; i < A->ncells; i++)
+	A->mx[0][i] += B->mx[0][i];
+    }
+  else if (A->type == eslUPPER || B->type == eslUPPER)
+    {
+      /* Logic is: if either matrix is upper triangular, then the operation is
+       * to add upper triangles only. If we try to add a general matrix <B>
+       * to packed UT <A>, make sure all lower triangle entries in <B> are zero.
+       */
+      if (B->type != eslUPPER) {
+	for (i = 1; i < A->n; i++)
+	  for (j = 0; j < i; j++)
+	    if (B->mx[i][j] != 0.) ESL_EXCEPTION(eslEINVAL, "<B> has nonzero cells in lower triangle");
+      }
+      for (i = 0; i < A->n; i++)
+	for (j = i; j < A->m; j++)
+	  A->mx[i][j] += B->mx[i][j];
+    }
+  return eslOK;
+}
+
+/* Function:  esl_dmx_Scale()
+ *
+ * Purpose:   Calculates <A = kA>: multiply matrix <A> by scalar
+ *            <k> and leave answer in <A>.
+ */
+int 
+esl_dmx_Scale(ESL_DMATRIX *A, double k)
+{
+  int i;
+
+  for (i = 0; i < A->ncells; i++)  A->mx[0][i] *=  k;
+  return eslOK;
+}
+
+
+/* Function:  esl_dmx_AddScale()
+ * 
+ * Purpose:   Calculates <A + kB>, leaves answer in <A>.
+ * 
+ *            Only defined for matrices of the same type (<eslGENERAL>
+ *            or <eslUPPER>).
+ * 
+ * Throws:    <eslEINVAL> if matrices aren't the same dimensions, or
+ *            of different types.
+ */
+int
+esl_dmx_AddScale(ESL_DMATRIX *A, double k, const ESL_DMATRIX *B)
+{
+  int i;
+
+  if (A->n    != B->n)    ESL_EXCEPTION(eslEINVAL, "matrices of different size");
+  if (A->m    != B->m)    ESL_EXCEPTION(eslEINVAL, "matrices of different size");
+  if (A->type != A->type) ESL_EXCEPTION(eslEINVAL, "matrices of different type");
+
+  for (i = 0; i < A->ncells; i++) A->mx[0][i] +=  k * B->mx[0][i];
+  return eslOK;
+}
+
+
+/* Function:  esl_dmx_Permute_PA()
+ *
+ * Purpose:   Computes <B = PA>: do a row-wise permutation of a square
+ *            matrix <A>, using the permutation matrix <P>, and put
+ *            the result in a square matrix <B> that the caller has
+ *            allocated.
+ *
+ * Throws:    <eslEINVAL> if <A>, <B>, <P> do not have compatible dimensions,
+ *            or if <A> or <B> is not of type <eslGENERAL>.
+ */
+int
+esl_dmx_Permute_PA(const ESL_PERMUTATION *P, const ESL_DMATRIX *A, ESL_DMATRIX *B)
+{
+  int i,ip,j;
+
+  if (A->n    != P->n)       ESL_EXCEPTION(eslEINVAL, "matrix dimensions not compatible");
+  if (A->n    != B->n)       ESL_EXCEPTION(eslEINVAL, "matrix dimensions not compatible");
+  if (A->n    != A->m)       ESL_EXCEPTION(eslEINVAL, "matrix dimensions not compatible");
+  if (B->n    != B->m)       ESL_EXCEPTION(eslEINVAL, "matrix dimensions not compatible");
+  if (A->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "matrix A not of type eslGENERAL");
+  if (B->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "matrix B not of type eslGENERAL");
+
+  for (i = 0; i < A->n; i++)
+    {
+      ip = P->pi[i];
+      for (j = 0; j < A->m; j++)
+	B->mx[i][j] = A->mx[ip][j];
+    }
+  return eslOK;
+}
+
+/* Function:  esl_dmx_LUP_decompose()
+ *
+ * Purpose:   Calculates a permuted LU decomposition of square matrix
+ *            <A>; upon return, <A> is replaced by this decomposition,
+ *            where <U> is in the lower triangle (inclusive of the 
+ *            diagonal) and <L> is the upper triangle (exclusive of
+ *            diagonal, which is 1's by definition), and <P> is the
+ *            permutation matrix. Caller provides an allocated 
+ *            permutation matrix <P> compatible with the square matrix
+ *            <A>.
+ *            
+ *            Implements Gaussian elimination with pivoting 
+ *            \citep[p.~759]{Cormen99}.
+ *
+ * Throws:    <eslEINVAL> if <A> isn't square, or if <P> isn't the right
+ *            size for <A>, or if <A> isn't of general type.
+ */
+int
+esl_dmx_LUP_decompose(ESL_DMATRIX *A, ESL_PERMUTATION *P)
+{
+  int    i,j,k,kpiv;
+  double max;
+  double swap;
+
+  if (A->n    != A->m)       ESL_EXCEPTION(eslEINVAL, "matrix isn't square");
+  if (P->n    != A->n)       ESL_EXCEPTION(eslEINVAL, "permutation isn't the right size");
+  if (A->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "matrix isn't of general type");
+  esl_permutation_Reuse(P);
+
+  for (k = 0; k < A->n-1; k++)
+    {
+      /* Identify our pivot;
+       * find row with maximum value in col[k].
+       */
+      max = 0.; 
+      for (i = k; i < A->n; i++)
+	if (fabs(A->mx[i][k]) > max) {
+	  max = fabs(A->mx[i][k]);
+	  kpiv = i;
+	}
+      if (max == 0.) ESL_EXCEPTION(eslEDIVZERO, "matrix is singular");
+      
+      /* Swap those rows (k and kpiv);
+       * and keep track of that permutation in P. (misuse j for swapping integers)
+       */
+      j = P->pi[k]; P->pi[k] = P->pi[kpiv]; P->pi[kpiv] = j;
+      for (j = 0; j < A->m; j++)
+	{ swap = A->mx[k][j]; A->mx[k][j] = A->mx[kpiv][j]; A->mx[kpiv][j] = swap; }
+
+      /* Gaussian elimination for all rows k+1..n.
+       */
+      for (i = k+1; i < A->n; i++)
+	{
+	  A->mx[i][k] /= A->mx[k][k];
+	  for (j = k+1; j < A->m; j++)
+	    A->mx[i][j] -= A->mx[i][k] * A->mx[k][j];
+	}
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_dmx_LU_separate()
+ *
+ * Purpose:   Separate a square <LU> decomposition matrix into its two
+ *            triangular matrices <L> and <U>. Caller provides two
+ *            allocated <L> and <U> matrices of same size as <LU> for
+ *            storing the results.
+ *            
+ *            <U> may be an upper triangular matrix in either unpacked
+ *            (<eslGENERAL>) or packed (<eslUPPER>) form.
+ *            <LU> and <L> must be of <eslGENERAL> type.
+ *
+ * Throws:    <eslEINVAL> if <LU>, <L>, <U> are not of compatible dimensions,
+ *            or if <LU> or <L> aren't of general type. 
+ */
+int
+esl_dmx_LU_separate(const ESL_DMATRIX *LU, ESL_DMATRIX *L, ESL_DMATRIX *U)
+{
+  int i,j;
+
+  if (LU->n    != LU->m)      ESL_EXCEPTION(eslEINVAL, "LU isn't square");
+  if (L->n     != L->m)       ESL_EXCEPTION(eslEINVAL, "L isn't square");
+  if (U->n     != U->m)       ESL_EXCEPTION(eslEINVAL, "U isn't square");
+  if (LU->n    != L->n)       ESL_EXCEPTION(eslEINVAL, "LU, L have incompatible dimensions");
+  if (LU->n    != U->n)       ESL_EXCEPTION(eslEINVAL, "LU, U have incompatible dimensions");
+  if (LU->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "matrix isn't of general type");
+  if (L->type  != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "matrix isn't of general type");
+
+  esl_dmatrix_SetZero(L);
+  esl_dmatrix_SetZero(U);
+
+  for (i = 0; i < LU->n; i++)
+    for (j = i; j < LU->m; j++)
+      U->mx[i][j] = LU->mx[i][j];
+
+  for (i = 0; i < LU->n; i++) 
+    {
+      L->mx[i][i] = 1.;
+      for (j = 0; j < i; j++)
+	L->mx[i][j] = LU->mx[i][j];
+    }
+  return eslOK;
+}
+
+/* Function:  esl_dmx_Invert()
+ *
+ * Purpose:   Calculates the inverse of square matrix <A>, and stores the
+ *            result in matrix <Ai>. Caller provides an allocated
+ *            matrix <Ai> of same dimensions as <A>. Both must be
+ *            of type <eslGENERAL>.
+ *            
+ *            Peforms the inversion by LUP decomposition followed by 
+ *            forward/back-substitution \citep[p.~753]{Cormen99}.
+ *
+ * Throws:    <eslEINVAL> if <A>, <Ai> do not have same dimensions, 
+ *                        if <A> isn't square, or if either isn't of
+ *                        type <eslGENERAL>.
+ *            <eslEMEM>   if internal allocations (for LU, and some other
+ *                         bookkeeping) fail.
+ */
+int
+esl_dmx_Invert(const ESL_DMATRIX *A, ESL_DMATRIX *Ai)
+{
+  ESL_DMATRIX      *LU = NULL;
+  ESL_PERMUTATION  *P  = NULL;
+  double           *y  = NULL;	/* column vector, intermediate calculation   */
+  double           *b  = NULL;	/* column vector of permuted identity matrix */
+  int               i,j,k;
+  int               status;
+
+  if (A->n     != A->m)                   ESL_EXCEPTION(eslEINVAL, "matrix isn't square");
+  if (A->n     != Ai->n || A->m != Ai->m) ESL_EXCEPTION(eslEINVAL, "matrices are different size");
+  if (A->type  != eslGENERAL)             ESL_EXCEPTION(eslEINVAL, "matrix A not of general type");
+  if (Ai->type != eslGENERAL)             ESL_EXCEPTION(eslEINVAL, "matrix B not of general type");
+
+  /* Copy A to LU, and do an LU decomposition.
+   */
+  if ((LU = esl_dmatrix_Create(A->n, A->m)) == NULL)  goto ERROR;
+  if ((P  = esl_permutation_Create(A->n))   == NULL)  goto ERROR;
+  if ( esl_dmatrix_Copy(A, LU)              != eslOK) goto ERROR;
+  if ( esl_dmx_LUP_decompose(LU, P)         != eslOK) goto ERROR;
+
+  /* Now we have:
+   *   PA = LU
+   *   
+   * to invert a matrix A, we want A A^-1 = I;
+   * that's PAx = Pb, for columns x of A^-1 and b of the identity matrix;
+   * and that's n equations LUx = Pb;
+   * 
+   * so, solve Ly = Pb for y by forward substitution;
+   * then Ux = y by back substitution;
+   * x is then a column of A^-1.
+   * 
+   * Do that for all columns.
+   */
+  ESL_ALLOC(b, sizeof(double) * A->n);
+  ESL_ALLOC(y, sizeof(double) * A->n);
+
+  for (k = 0; k < A->m; k++)	/* for each column... */
+    {
+      /* build Pb for column j of the identity matrix */
+      for (i = 0; i < A->n; i++)
+	if (P->pi[i] == k) b[i] = 1.; else b[i] = 0.;
+
+      /* forward substitution
+       */
+      for (i = 0; i < A->n; i++)
+	{
+	  y[i] = b[i];
+	  for (j = 0; j < i; j++) y[i] -= LU->mx[i][j] * y[j];
+	}
+
+      /* back substitution
+       */
+      for (i = A->n-1; i >= 0; i--)
+	{
+	  Ai->mx[i][k] = y[i];
+	  for (j = i+1; j < A->n; j++) Ai->mx[i][k] -= LU->mx[i][j] * Ai->mx[j][k];
+	  Ai->mx[i][k] /= LU->mx[i][i];
+	}
+    }
+
+  free(b);
+  free(y);
+  esl_dmatrix_Destroy(LU);
+  esl_permutation_Destroy(P);
+  return eslOK;
+
+ ERROR:
+  if (y  != NULL) free(y);
+  if (b  != NULL) free(b);
+  if (LU != NULL) esl_dmatrix_Destroy(LU);
+  if (P  != NULL) esl_permutation_Destroy(P);
+  return status;
+}
+
+
+/*****************************************************************
+ * 6. Optional: interoperability with GSL
+ *****************************************************************/
+#ifdef HAVE_LIBGSL
+
+#include <gsl/gsl_matrix.h>
+
+int
+esl_dmx_MorphGSL(const ESL_DMATRIX *E, gsl_matrix **ret_G)
+{
+  gsl_matrix *G = NULL;
+  int i,j;
+
+  if (E->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "can only morph general matrices to GSL right now");
+
+  G = gsl_matrix_alloc(E->m, E->n);
+  for (i = 0; i < E->m; i++)
+    for (j = 0; j < E->n; j++)
+      gsl_matrix_set(G, i, j, E->mx[i][j]);
+  *ret_G = G;
+  return eslOK;
+}
+
+int
+esl_dmx_UnmorphGSL(const gsl_matrix *G, ESL_DMATRIX **ret_E)
+{
+  ESL_DMATRIX *E = NULL;
+  int i,j;
+  
+  if ((E = esl_dmatrix_Create(G->size1, G->size2)) == NULL) return eslEMEM;
+  for (i = 0; i < G->size1; i++)
+    for (j = 0; j < G->size2; j++)
+      E->mx[i][j] = gsl_matrix_get(G, i, j);
+  *ret_E = E;
+  return eslOK;
+}
+
+#endif /*HAVE_LIBGSL*/
+
+/*****************************************************************
+ * 7. Optional: Interfaces to LAPACK
+ *****************************************************************/
+#ifdef HAVE_LIBLAPACK
+
+/* To include LAPACK code, you need to:
+ *   1. declare the C interface to the Fortran routine,
+ *      appending _ to the Fortran routine's name (dgeev becomes dgeev_)
+ *      
+ *   2. Remember to transpose matrices into column-major
+ *      Fortran form
+ *      
+ *   3. everything must be passed by reference, not by value
+ *   
+ *   4. you don't need any include files, just lapack.a
+ *   
+ *   5. Add -llapack to the compile line.
+ *      (It doesn't appear that blas or g2c are needed?)
+ */   
+
+/* Declare the C interface to the Fortran77 dgeev routine
+ * provided by the LAPACK library:
+ */
+extern void  dgeev_(char *jobvl, char *jobvr, int *n, double *a,
+                    int *lda, double *wr, double *wi, double *vl,
+                    int *ldvl, double *vr, int *ldvr,
+                    double *work, int *lwork, int *info);
+
+
+/* Function:  esl_dmx_Diagonalize()
+ * Incept:    SRE, Thu Mar 15 09:28:03 2007 [Janelia]
+ *
+ * Purpose:   Given a square real matrix <A>, diagonalize it:
+ *            solve for $U^{-1} A U = diag(\lambda_1... \lambda_n)$.
+ *            
+ *            Upon return, <ret_Er> and <ret_Ei> are vectors
+ *            containing the real and complex parts of the eigenvalues
+ *            $\lambda_i$; <ret_UL> is the $U^{-1}$ matrix containing
+ *            the left eigenvectors; and <ret_UR> is the $U$ matrix
+ *            containing the right eigenvectors.
+ *            
+ *            <ret_UL> and <ret_UR> are optional; pass <NULL> for
+ *            either if you don't want that set of eigenvectors.
+ *
+ *            This is a C interface to the <dgeev()> routine in the
+ *            LAPACK linear algebra library.
+ *            
+ * Args:      A       -  square nxn matrix to diagonalize
+ *            ret_Er  - RETURN: real part of eigenvalues (0..n-1)
+ *            ret_Ei  - RETURN: complex part of eigenvalues (0..n-1)
+ *            ret_UL  - optRETURN: nxn matrix of left eigenvectors
+ *            ret_UR  - optRETURN: 
+ *
+ * Returns:   <eslOK> on success.
+ *            <ret_Er> and <ret_Ei> (and <ret_UL>,<ret_UR> when they are
+ *            requested) are allocated here, and must be free'd by the caller.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            In this case, the four return pointers are returned <NULL>.
+ *
+ * Xref:      J1/19.
+ */
+int
+esl_dmx_Diagonalize(const ESL_DMATRIX *A, double **ret_Er, double **ret_Ei, 
+		    ESL_DMATRIX **ret_UL, ESL_DMATRIX **ret_UR)
+{
+  int          status;
+  double      *Er   = NULL;
+  double      *Ei   = NULL;
+  ESL_DMATRIX *At   = NULL;
+  ESL_DMATRIX *UL   = NULL;
+  ESL_DMATRIX *UR   = NULL;
+  double      *work = NULL;
+  char   jobul, jobur;
+  int    lda;
+  int    ldul, ldur;
+  int    lwork;
+  int    info;
+
+  if (A->n != A->m) ESL_EXCEPTION(eslEINVAL, "matrix isn't square");
+
+  if ((At = esl_dmatrix_Clone(A))          == NULL)       { status = eslEMEM; goto ERROR; } 
+  if ((UL = esl_dmatrix_Create(A->n,A->n)) == NULL)       { status = eslEMEM; goto ERROR; }
+  if ((UR = esl_dmatrix_Create(A->n,A->n)) == NULL)       { status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(Er,   sizeof(double) * A->n);
+  ESL_ALLOC(Ei,   sizeof(double) * A->n);
+  ESL_ALLOC(work, sizeof(double) * 8 * A->n);
+
+  jobul = (ret_UL == NULL) ? 'N' : 'V';	/* do we want left eigenvectors? */
+  jobur = (ret_UR == NULL) ? 'N' : 'V'; /* do we want right eigenvectors? */
+  lda   = A->n; 
+  ldul  = A->n;
+  ldur  = A->n;
+  lwork = 8*A->n;
+
+  /* Fortran convention is colxrow, not rowxcol; so transpose
+   * a copy of A before passing it to a Fortran routine.
+   */
+  esl_dmx_Transpose(At);
+
+  /* The Fortran77 interface call to LAPACK's dgeev().
+   * All args must be passed by reference.
+   * Fortran 2D arrays are 1D: so pass the A[0] part of a DSMX.
+   */
+  dgeev_(&jobul, &jobur, &(At->n), At->mx[0], &lda, Er, Ei, 
+	 UL->mx[0], &ldul, UR->mx[0], &ldur, work, &lwork, &info);
+  if (info < 0) ESL_XEXCEPTION(eslEINVAL, "argument %d to LAPACK dgeev is invalid", -info);
+  if (info > 0) ESL_XEXCEPTION(eslEINVAL, 
+			       "diagonalization failed; only eigenvalues %d..%d were computed",
+			       info+1, At->n);
+
+  /* Now, UL, UR are transposed (col x row), so transpose them back to
+   * C language convention.
+   */
+  esl_dmx_Transpose(UL);
+  esl_dmx_Transpose(UR);
+
+  esl_dmatrix_Destroy(At);
+  if (ret_UL != NULL) *ret_UL = UL; else esl_dmatrix_Destroy(UL);
+  if (ret_UR != NULL) *ret_UR = UR; else esl_dmatrix_Destroy(UR);
+  if (ret_Er != NULL) *ret_Er = Er; else free(Er);
+  if (ret_Ei != NULL) *ret_Ei = Ei; else free(Ei);
+  free(work);
+  return eslOK;
+
+ ERROR:
+  if (ret_UL != NULL) *ret_UL = NULL;
+  if (ret_UR != NULL) *ret_UR = NULL;
+  if (ret_Er != NULL) *ret_Er = NULL;
+  if (ret_Ei != NULL) *ret_Ei = NULL;
+  if (At   != NULL) esl_dmatrix_Destroy(At);
+  if (UL   != NULL) esl_dmatrix_Destroy(UL);
+  if (UR   != NULL) esl_dmatrix_Destroy(UR);
+  if (Er   != NULL) free(Er);
+  if (Ei   != NULL) free(Ei);
+  if (work != NULL) free(work);
+  return status;
+}
+
+
+#endif /*HAVE_LIBLAPACK*/
+
+/*****************************************************************
+ * 8. Unit tests
+ *****************************************************************/ 
+#ifdef eslDMATRIX_TESTDRIVE
+
+static void 
+utest_misc_ops(void)
+{
+  char *msg = "miscellaneous unit test failed";
+  ESL_DMATRIX *A, *B, *C;
+  int  n = 20;
+
+  if ((A = esl_dmatrix_Create(n,n)) == NULL) esl_fatal(msg);
+  if ((B = esl_dmatrix_Create(n,n)) == NULL) esl_fatal(msg);
+  if ((C = esl_dmatrix_Create(n,n)) == NULL) esl_fatal(msg);
+  
+  if (esl_dmatrix_SetIdentity(A)    != eslOK) esl_fatal(msg);   /* A=I */
+  if (esl_dmx_Invert(A, B)          != eslOK) esl_fatal(msg);	/* B=I^-1=I */
+  if (esl_dmx_Multiply(A,B,C)       != eslOK) esl_fatal(msg);	/* C=I */
+  if (esl_dmx_Transpose(A)          != eslOK) esl_fatal(msg);   /* A=I still */
+
+  if (esl_dmx_Scale(A, 0.5)         != eslOK) esl_fatal(msg);	/* A= 0.5I */
+  if (esl_dmx_AddScale(B, -0.5, C)  != eslOK) esl_fatal(msg);	/* B= 0.5I */
+  
+  if (esl_dmx_Add(A,B)              != eslOK) esl_fatal(msg);	/* A=I */
+  if (esl_dmx_Scale(B, 2.0)         != eslOK) esl_fatal(msg);	/* B=I */
+  
+  if (esl_dmatrix_Compare(A, B, 1e-12) != eslOK) esl_fatal(msg);
+  if (esl_dmatrix_Compare(A, C, 1e-12) != eslOK) esl_fatal(msg);
+  if (esl_dmatrix_Copy(B, C)           != eslOK) esl_fatal(msg);
+  if (esl_dmatrix_Compare(A, C, 1e-12) != eslOK) esl_fatal(msg);
+
+  esl_dmatrix_Destroy(A);
+  esl_dmatrix_Destroy(B);
+  esl_dmatrix_Destroy(C);
+  return;
+}
+
+
+static void
+utest_Invert(ESL_DMATRIX *A)
+{
+  char *msg = "Failure in matrix inversion unit test";
+  ESL_DMATRIX *Ai = NULL;
+  ESL_DMATRIX *B  = NULL;
+  ESL_DMATRIX *I  = NULL;
+
+  if ((Ai = esl_dmatrix_Create(A->n, A->m)) == NULL)  esl_fatal(msg);
+  if ((B  = esl_dmatrix_Create(A->n, A->m)) == NULL)  esl_fatal(msg);
+  if ((I  = esl_dmatrix_Create(A->n, A->m)) == NULL)  esl_fatal(msg);
+  if (esl_dmx_Invert(A, Ai)                 != eslOK) esl_fatal("matrix inversion failed");
+  if (esl_dmx_Multiply(A,Ai,B)              != eslOK) esl_fatal(msg);
+  if (esl_dmatrix_SetIdentity(I)            != eslOK) esl_fatal(msg);
+  if (esl_dmatrix_Compare(B,I, 1e-12)       != eslOK) esl_fatal("inverted matrix isn't right");
+  
+  esl_dmatrix_Destroy(Ai);
+  esl_dmatrix_Destroy(B);
+  esl_dmatrix_Destroy(I);
+  return;
+}
+
+
+#endif /*eslDMATRIX_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 9. Test driver
+ *****************************************************************/ 
+
+/*   gcc -g -Wall -o test -I. -L. -DeslDMATRIX_TESTDRIVE esl_dmatrix.c -leasel -lm
+ */
+#ifdef eslDMATRIX_TESTDRIVE
+#include "easel.h"
+#include "esl_dmatrix.h"
+#include "esl_random.h"
+
+int main(void)
+{
+  ESL_RANDOMNESS *r;
+  ESL_DMATRIX *A;
+  int          n    = 30;
+  int          seed = 42;
+  int          i,j;
+  double       range = 100.;
+
+  /* Create a square matrix with random values from  -range..range */
+  if ((r = esl_randomness_Create(seed)) == NULL) esl_fatal("failed to create random source");
+  if ((A = esl_dmatrix_Create(n, n))    == NULL) esl_fatal("failed to create matrix");
+  for (i = 0; i < n; i++)
+    for (j = 0; j < n; j++)
+      A->mx[i][j] = esl_random(r) * range * 2.0 - range;
+
+  utest_misc_ops();
+  utest_Invert(A);
+
+  esl_randomness_Destroy(r);
+  esl_dmatrix_Destroy(A);
+  return 0;
+}
+#endif /*eslDMATRIX_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 10. Examples
+ *****************************************************************/ 
+
+/*   gcc -g -Wall -o example -I. -DeslDMATRIX_EXAMPLE esl_dmatrix.c easel.c -lm
+ */
+#ifdef eslDMATRIX_EXAMPLE
+/*::cexcerpt::dmatrix_example::begin::*/
+#include "easel.h"
+#include "esl_dmatrix.h"
+
+int main(void)
+{
+  ESL_DMATRIX *A, *B, *C;
+
+  A = esl_dmatrix_Create(4,4);
+  B = esl_dmatrix_Create(4,4);
+  C = esl_dmatrix_Create(4,4);
+  
+  esl_dmatrix_SetIdentity(A);
+  esl_dmatrix_Copy(A, B);
+
+  esl_dmx_Multiply(A,B,C);
+
+  esl_dmatrix_Dump(stdout, C, NULL, NULL);
+
+  esl_dmatrix_Destroy(A);
+  esl_dmatrix_Destroy(B);
+  esl_dmatrix_Destroy(C);
+  return 0;
+}
+/*::cexcerpt::dmatrix_example::end::*/
+#endif /*eslDMATRIX_EXAMPLE*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_dmatrix.c 755 2012-03-21 11:30:23Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_dmatrix.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.h
new file mode 100755
index 0000000..79c11e7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.h
@@ -0,0 +1,92 @@
+/* Double-precision two-dimensional matrices, and some linear algebra
+ * 
+ * SRE, Tue Jul 13 14:41:07 2004 [St. Louis]
+ * SVN $Id: esl_dmatrix.h 755 2012-03-21 11:30:23Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_dmatrix.h $
+ */
+#ifndef eslDMATRIX_INCLUDED
+#define eslDMATRIX_INCLUDED
+
+#include <stdio.h>
+
+typedef struct {
+  /*mx, mx[0] are allocated. */
+/*::cexcerpt::dmatrix_obj::begin::*/
+  double **mx;                  /* mx[i][j] is i'th row, j'th col */
+  int      n;                   /* rows    */
+  int      m;                   /* columns */
+  enum { eslGENERAL, eslUPPER } type;
+/*::cexcerpt::dmatrix_obj::end::*/
+  int      ncells;		/* number of valid cells (nxm in standard matrix) */
+} ESL_DMATRIX;
+
+typedef struct {
+  int     *pi;
+  int      n;
+} ESL_PERMUTATION;
+
+/* 1. The ESL_DMATRIX object. */
+extern ESL_DMATRIX *esl_dmatrix_Create(int n, int m);
+extern ESL_DMATRIX *esl_dmatrix_CreateUpper(int n);
+extern int          esl_dmatrix_Destroy(ESL_DMATRIX *A);
+extern int          esl_dmatrix_Copy       (const ESL_DMATRIX *src, ESL_DMATRIX *dest);
+extern ESL_DMATRIX *esl_dmatrix_Clone      (const ESL_DMATRIX *old);
+extern int          esl_dmatrix_Compare    (const ESL_DMATRIX *A, const ESL_DMATRIX *B, double tol);
+extern int          esl_dmatrix_CompareAbs (const ESL_DMATRIX *A, const ESL_DMATRIX *B, double tol);
+extern int          esl_dmatrix_Set        (ESL_DMATRIX *A, double x);
+extern int          esl_dmatrix_SetZero    (ESL_DMATRIX *A);
+extern int          esl_dmatrix_SetIdentity(ESL_DMATRIX *A);
+
+/* 2. Debugging/validation for ESL_DMATRIX. */
+extern int          esl_dmatrix_Dump(FILE *ofp, const ESL_DMATRIX *A, 
+				     const char *rowlabel, const char *collabel);
+
+/* 3. The ESL_PERMUTATION object. */
+extern ESL_PERMUTATION *esl_permutation_Create(int n);
+extern int              esl_permutation_Destroy(ESL_PERMUTATION *P);
+extern int              esl_permutation_Reuse(ESL_PERMUTATION *P);
+
+/* 4. Debugging/validation for ESL_PERMUTATION. */
+extern int              esl_permutation_Dump(FILE *ofp, const ESL_PERMUTATION *P, 
+					     const char *rowlabel, const char *collabel);
+
+/* 5. The rest of the dmatrix API. */
+extern double       esl_dmx_Max    (const ESL_DMATRIX *A);
+extern double       esl_dmx_Min    (const ESL_DMATRIX *A);
+extern double       esl_dmx_Sum    (const ESL_DMATRIX *A);
+extern int          esl_dmx_MinMax(const ESL_DMATRIX *A, double *ret_min, double *ret_max);
+extern int          esl_dmx_FrobeniusNorm(const ESL_DMATRIX *A, double *ret_fnorm);
+extern int          esl_dmx_Multiply(const ESL_DMATRIX *A, const ESL_DMATRIX *B, ESL_DMATRIX *C);
+extern int          esl_dmx_Exp(const ESL_DMATRIX *Q, double t, ESL_DMATRIX *P);
+extern int          esl_dmx_Transpose(ESL_DMATRIX *A);
+extern int          esl_dmx_Add(ESL_DMATRIX *A, const ESL_DMATRIX *B);
+extern int          esl_dmx_Scale(ESL_DMATRIX *A, double k);
+extern int          esl_dmx_AddScale(ESL_DMATRIX *A, double k, const ESL_DMATRIX *B);
+extern int          esl_dmx_Permute_PA(const ESL_PERMUTATION *P, const ESL_DMATRIX *A, ESL_DMATRIX *B);
+extern int          esl_dmx_LUP_decompose(ESL_DMATRIX *A, ESL_PERMUTATION *P);
+extern int          esl_dmx_LU_separate(const ESL_DMATRIX *LU, ESL_DMATRIX *L, ESL_DMATRIX *U);
+extern int          esl_dmx_Invert(const ESL_DMATRIX *A, ESL_DMATRIX *Ai);
+
+/* 6. Optional: interoperability with GSL */
+#ifdef HAVE_LIBGSL
+#include <gsl/gsl_matrix.h>
+extern int          esl_dmx_MorphGSL(const ESL_DMATRIX *E, gsl_matrix **ret_G);
+extern int          esl_dmx_UnmorphGSL(const gsl_matrix *G, ESL_DMATRIX **ret_E);
+#endif
+
+/* 7. Optional: interfaces to LAPACK  */
+#ifdef HAVE_LIBLAPACK
+extern int esl_dmx_Diagonalize(const ESL_DMATRIX *A, double **ret_Er, double **ret_Ei, ESL_DMATRIX **ret_UL, ESL_DMATRIX **ret_UR);
+#endif
+
+#endif /*eslDMATRIX_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.tex
new file mode 100755
index 0000000..47956a4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_dmatrix.tex
@@ -0,0 +1,187 @@
+The \eslmod{dmatrix} module implements 2D matrices and linear algebra
+operations.
+
+There are two objects. The main one is a \ccode{ESL\_DMATRIX}, a 2D
+real-valued matrix of n rows and m columns. There is also
+\ccode{ESL\_PERMUTATION}, a special matrix used in LU decompositions.
+
+It is straightforward to call standard BLAS and LAPACK linear algebra
+routines on the data in an \ccode{ESL\_DMATRIX}.
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_dmatrix_Create()}{\ccode{esl\_dmatrix\_Create()}} & Create general matrix.\\
+\hyperlink{func:esl_dmatrix_CreateUpper()}{\ccode{esl\_dmatrix\_CreateUpper()}} & Create packed upper triangular matrix.\\
+\hyperlink{func:esl_dmatrix_Destroy()}{\ccode{esl\_dmatrix\_Destroy()}} & Free a matrix.\\
+\hyperlink{func:esl_dmatrix_Dump()}{\ccode{esl\_dmatrix\_Dump()}} & Dump matrix internals to output stream.\\
+\hyperlink{func:esl_dmatrix_Copy()}{\ccode{esl\_dmatrix\_Copy()}} & Make a copy of a matrix (no new allocation).\\
+\hyperlink{func:esl_dmatrix_Clone()}{\ccode{esl\_dmatrix\_Clone()}} & Duplicate a matrix (allocate new storage).\\
+\hyperlink{func:esl_dmatrix_Compare()}{\ccode{esl\_dmatrix\_Compare()}} & Compare two matrices for equality.\\
+\hyperlink{func:esl_dmatrix_Set()}{\ccode{esl\_dmatrix\_Set()}} & Set all cells in matrix to same scalar value.\\
+\hyperlink{func:esl_dmatrix_SetZero()}{\ccode{esl\_dmatrix\_SetZero()}} & Set all cells in matrix to zero.\\
+\hyperlink{func:esl_dmatrix_SetIdentity()}{\ccode{esl\_dmatrix\_SetIdentity()}} & Set diagonal elements to 1, all others to zero.\\
+\hyperlink{func:esl_dmx_Max()}{\ccode{esl\_dmx\_Max()}} &Returns maximum element value.\\
+\hyperlink{func:esl_dmx_Min()}{\ccode{esl\_dmx\_Min()}} &Returns maximum element value.\\
+\hyperlink{func:esl_dmx_Sum()}{\ccode{esl\_dmx\_Sum()}} &Returns sum of all elements.\\
+\hyperlink{func:esl_permutation_Create()}{\ccode{esl\_permutation\_Create()}} & Create a permutation matrix.\\
+\hyperlink{func:esl_permutation_Destroy()}{\ccode{esl\_permutation\_Destroy()}} & Free a permutation matrix.\\
+\hyperlink{func:esl_permutation_Reuse()}{\ccode{esl\_permutation\_Reuse()}} & Reuse a permutation matrix.\\
+\hyperlink{func:esl_permutation_Dump()}{\ccode{esl\_permutation\_Dump()}} & Dump permutation matrix internals to output stream.\\
+\hyperlink{func:esl_dmx_Multiply()}{\ccode{esl\_dmx\_Multiply()}} & Matrix multiplication.\\
+\hyperlink{func:esl_dmx_Transpose()}{\ccode{esl\_dmx\_Transpose()}} & Matrix transpostion.\\
+\hyperlink{func:esl_dmx_Add()}{\ccode{esl\_dmx\_Add()}} & Matrix addition.\\
+\hyperlink{func:esl_dmx_Scale()}{\ccode{esl\_dmx\_Scale()}} & Multiply a matrix by a scalar.\\
+\hyperlink{func:esl_dmx_AddScale()}{\ccode{esl\_dmx\_AddScale()}} & $A + kB$ \\
+\hyperlink{func:esl_dmx_Permute_PA()}{\ccode{esl\_dmx\_Permute\_PA()}} & $B = PA$, a row-wise permutation of $A$.\\
+\hyperlink{func:esl_dmx_LUP_decompose()}{\ccode{esl\_dmx\_LUP\_decompose()}} & Permuted LU decomposition.\\
+\hyperlink{func:esl_dmx_LU_separate()}{\ccode{esl\_dmx\_LU\_separate()}} & Get answers from a LU decomposition.\\
+\hyperlink{func:esl_dmx_Invert()}{\ccode{esl\_dmx\_Invert()}} & Matrix inversion.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{dmatrix} API.}
+\label{tbl:dmatrix_api}
+\end{table}
+
+
+\subsection{Example of using the dmatrix API}
+
+A toy example that demonstrates the syntax of creating three 4x4
+square matrices and doing some simple operations on them:
+
+\input{cexcerpts/dmatrix_example}
+
+
+\subsection{Accessing matrix values}
+
+The accessible internals of the \ccode{ESL\_DMATRIX} structure are:
+
+\input{cexcerpts/dmatrix_obj}
+
+The matrix is stored in row-major orientation: the value in cell
+$(i,j)$ in row $i$ and column $j$ is in \ccode{mx->mx[i][j]}.
+
+Elements are stored in a single array \ccode{mx->mx[0]}. This is
+important for interoperability with BLAS and LAPACK; see below. The
+row pointers \ccode{mx->mx[i]} are initialized so that elements may be
+accessed simply as \ccode{mx->mx[i][j]}, rather than by pointer
+arithmetic \ccode{mx->mx[0] + i*mx->m + j}.
+
+\subsection{Specialized matrix types}
+
+Normally matrices are created with \ccode{esl\_dmatrix\_Create()},
+which allocates storage for all $n \times m$ cells. Easel calls this a
+matrix of type \ccode{eslGENERAL}. 
+
+Matrices may have more restricted forms, which may constrain certain
+values and may allow packed storage. For example, an upper triangular
+matrix is one in which all elements $i>j$ have a value of zero. When
+we calculate the minimum in such a matrix with
+\ccode{esl\_dmatrix\_Min()}, we probably don't want to consider the
+$i>j$ elements. We also can save almost two-fold in storage by not
+storing the $i>j$ elements at all. Other types include square, lower
+triagonal, and symmetric matrices.
+
+We expect to need to expand Easel's implementation of different matrix
+types in the future, but right now, Easel has just one other matrix
+type, \ccode{eslUPPER}, for packed upper triangular matrices.
+
+\subsubsection{\ccode{eslUPPER}: packed upper triangular matrices}
+
+An \ccode{eslUPPER} matrix is created with
+\ccode{esl\_dmatrix\_CreateUpper(int n)}. It is necessarily square $n
+\times n$, so only one dimension argument is passed. Most but not all
+functions in \eslmod{dmatrix} can operate on \ccode{eslUPPER} matrix
+types in addition to the usual \ccode{eslGENERAL} type.
+
+The caller must not access any cell $i>j$ in an \ccode{eslUPPER}
+matrix. Setting a cell $i>j$ will corrupt the matrix. Accessing cell
+$i>j$ will return an incorrect value, not zero.
+
+The $n (n+1) / 2$ elements of the upper triagonal matrix are packed
+into an array \ccode{mx->mx[0]}. You can access element $i,j$ by
+pointer arithmetic at \ccode{mx->mx[j + i(2*mx->m-i-1)/2]} if you
+like, but it is easier to access element $i,j$ by the usual
+\ccode{mx->mx[i][j]}. This is made possible because the row pointers
+\ccode{mx->mx[i]} in an \ccode{eslUPPER} matrix are tricksily
+initialized in an overlapping fashion so that \ccode{mx->mx[i][j]}
+does the right thing for $i \leq j$. This overlapping is also the
+reason why \ccode{mx->mx[i][j]} accesses the wrong element when $i>j$.
+
+\subsubsection{Notes on the current implementation of matrix types}
+
+Easel matrix types conflate packing and element validity together. For
+example, an upper triangular matrix may be stored either in an
+\ccode{eslGENERAL} matrix type (in which case elements $i>j$ are set
+to zero) or the packed \ccode{eslUPPER} matrix type (in which case
+elements $i>j$ aren't even stored). Using the \ccode{eslUPPER} matrix
+type is 2x more space efficient, and also, operations like
+\ccode{esl\_dmatrix\_Min()} and \ccode{esl\_dmatrix\_Max()} will
+examine all elements in an \ccode{eslGENERAL} matrix (including the
+zeros), but only the elements $i \leq j$ in a \ccode{eslUPPER} matrix.
+
+This design is provisional. We may adopt a system more closely akin to
+BLAS/LAPACK in the future, which distinguish between matrix type and
+matrix storage. For example, BLAS has matrices of form \ccode{TR} and
+\ccode{TP} for triangular and packed triangular. Easel's
+implementation seems sufficient for the moment, and should also extend
+to lower diagonal and symmetric matrices without difficulty when and
+if they become needed. In any future development, look to BLAS and
+LAPACK for guidance.
+
+\subsection{Interoperability with BLAS and LAPACK}
+
+The BLAS and LAPACK libraries provide optimized, standardized linear
+algebra routines. The storage in \ccode{ESL\_DMATRIX} is designed so
+you can call routines in these libraries. The \ccode{mx->mx[0]} array
+is a valid matrix for BLAS and LAPACK so long as you know the right
+incantations. These are summarized here:
+
+{\small
+\begin{tabular}{llllll}
+Easel type          & \ccode{CBLAS\_ORDER}   & stride  & \ccode{CBLAS\_UPLO} & type &  code \\ \hline
+\ccode{eslGENERAL}  & \ccode{CblasRowMajor}  & \ccode{mx->m} &        n/a          &     double & \ccode{GE} (GEneral) \\
+\ccode{eslUPPER}    & \ccode{CBlasRowMajor}  & \ccode{mx->m} & \ccode{CblasUpper}  &     double & \ccode{TP} (Triangular Packed) \\
+\end{tabular}
+}
+
+For example, to call the CBLAS (C implementation of BLAS) for an
+operation on an Easel matrix of type \ccode{eslGENERAL}, you look for
+a routine that starts with prefix \ccode{cblas\_dge*} (\ccode{d} for
+double, \ccode{ge} for general).  An example is
+\ccode{cblas\_dgemm()}, the matrix multiplication (\ccode{mm})
+routine, which computes $C = \alpha \mathit{op}(A) \mathit{op}(B) +
+\beta C$ for matrices $A,B,C$ and scalars $\alpha,\beta$, where
+$\mathit{op}(A)$ means $A$, $A^T$ (the transpose), or $A^H$ (the
+conjugate transpose). $\mathit{op}(A)$ is an $M \times K$ matrix,
+$\mathit{op}(B)$ is $K \times N$ matrix, and the result $C$ is $M
+\times N$. The prototype for \ccode{cblas\_dgemm} is:
+ 
+\begin{cchunk}
+    void
+    cblas_dgemm (const enum CBLAS_ORDER Order, const enum CBLAS_TRANSPOSE TransA,
+                 const enum CBLAS_TRANSPOSE TransB, const int M, const int N,
+                 const int K, const double alpha, const double *A, const int lda,
+                 const double *B, const int ldb, const double beta, double *C,
+                 const int ldc)
+\end{cchunk}
+
+The \ccode{Order} argument is always \ccode{CblasRowMajor} for Easel
+matrices.  The \ccode{TransA} and \ccode{TransB} arguments specify
+$\mathit{op}()$: \ccode{CblasNoTrans} means just the matrix
+itself. The \ccode{ld*} arguments are the major strides for each
+matrix: the number of elements in each row, for our row-major
+matrices. So, we could call:
+
+\begin{cchunk}
+    cblas_dgemm (CblasRowMajor, CblasNoTrans, CblasNoTrans, 
+                 A->n, B->m, A->m,
+		 1.0, A->mx[0], A->m,
+		 B->mx[0], B->m,
+		 1.0, C->mx[0], C->m);
+\end{cchunk}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.c
new file mode 100755
index 0000000..926b946
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.c
@@ -0,0 +1,701 @@
+/* Statistical routines for exponential distributions.
+ * 
+ * Contents:
+ *   1. Routines for evaluating densities and distributions
+ *   2. Generic API routines: for general interface w/ histogram module
+ *   3. Routines for dumping plots for files
+ *   4. Routines for sampling (requires random module)
+ *   5. Maximum likelihood fitting
+ *   6. Stats driver
+ *   7. Unit tests
+ *   8. Test driver
+ *   9. Example
+ *  10. Copyright and license information
+ *
+ * xref STL9/138  
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_exponential.h"
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include "esl_histogram.h"
+#endif
+
+/****************************************************************************
+ * 1. Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+/* lambda > 0
+ * mu <= x < infinity
+ * 
+ * watch out: 
+ *   - any lambda > 0 is valid... including infinity. Fitting code
+ *     may try to test such lambdas, and it must get back valid numbers,
+ *     never an NaN, or it will fail. IEEE754 allows us
+ *     to calculate log(inf) = inf, exp(-inf) = 0, and exp(inf) = inf.
+ *     But inf-inf = NaN, so Don't Do That.
+ */
+
+/* Function:  esl_exp_pdf()
+ *
+ * Purpose:   Calculates the probability density function for the
+ *            exponential, $P(X=x)$, given value <x>, offset <mu>,
+ *            and decay parameter <lambda>.
+ */
+double
+esl_exp_pdf(double x, double mu, double lambda)
+{
+  if (x < mu) return 0.;
+  return (lambda * exp(-lambda*(x-mu)));
+}
+
+/* Function:  esl_exp_logpdf()
+ *
+ * Purpose:   Calculates the log probability density function for the
+ *            exponential, $P(X=x)$, given value <x>, offset <mu>,
+ *            and decay parameter <lambda>.
+ */
+double
+esl_exp_logpdf(double x, double mu, double lambda)
+{
+  if (x < mu) return -eslINFINITY;
+
+  if (lambda == eslINFINITY) 
+    {	/* limit as lambda->inf: avoid inf-inf! */
+      if (x == mu) return  eslINFINITY;
+      else         return -eslINFINITY;
+    }
+  return (log(lambda) - lambda*(x-mu));
+}
+
+/* Function:  esl_exp_cdf()
+ *
+ * Purpose:   Calculates the cumulative distribution function for the
+ *            exponential, $P(X \leq x)$, given value <x>, offset <mu>,
+ *            and decay parameter <lambda>.
+ */
+double
+esl_exp_cdf(double x, double mu, double lambda)
+{
+  double y = lambda*(x-mu);	/* y>=0 because lambda>0 and x>=mu */
+
+  if (x < mu) return 0.;
+
+  /* 1-e^-y ~ y for small |y| */
+  if (y < eslSMALLX1) return y;
+  else                return 1 - exp(-y);
+}
+
+/* Function:  esl_exp_logcdf()
+ *
+ * Purpose:   Calculates the log of the cumulative distribution function
+ *            for the exponential, $log P(X \leq x)$, given value <x>,
+ *            offset <mu>, and decay parameter <lambda>.
+ */
+double
+esl_exp_logcdf(double x, double mu, double lambda)
+{
+  double y  = lambda * (x-mu);
+  double ey = exp(-y);
+
+  if (x < mu) return -eslINFINITY;
+
+  /* When y is small, 1-e^-y = y, so answer is log(y);
+   * when y is large, exp(-y) is small, log(1-exp(-y)) = -exp(-y).
+   */
+  if      (y == 0)           return -eslINFINITY; /* don't allow NaN */
+  else if (y  < eslSMALLX1)  return log(y);
+  else if (ey < eslSMALLX1)  return -ey;
+  else                       return log(1-ey);
+}
+
+/* Function:  esl_exp_surv()
+ *
+ * Purpose:   Calculates the survivor function, $P(X>x)$ (that is, 1-CDF,
+ *            the right tail probability mass) for an exponential distribution,
+ *            given value <x>, offset <mu>, and decay parameter <lambda>.
+ */
+double
+esl_exp_surv(double x, double mu, double lambda)
+{
+  if (x < mu) return 1.0;
+  return exp(-lambda * (x-mu));
+}
+
+/* Function:  esl_exp_logsurv()
+ *
+ * Purpose:   Calculates the log survivor function, $\log P(X>x)$ (that is,
+ *            log(1-CDF), the log of the right tail probability mass) for an 
+ *            exponential distribution, given value <x>, offset <mu>, and 
+ *            decay parameter <lambda>.
+ */
+double
+esl_exp_logsurv(double x, double mu, double lambda)
+{
+  if (x < mu) return 0.0;
+  return -lambda * (x-mu);
+}
+
+
+/* Function:  esl_exp_invcdf()
+ *
+ * Purpose:   Calculates the inverse of the CDF; given a <cdf> value
+ *            $0 <= p < 1$, returns the value $x$ at which the CDF
+ *            has that value.
+ */
+double 
+esl_exp_invcdf(double p, double mu, double lambda)
+{
+  return mu - 1/lambda * log(1. - p);
+}
+
+
+
+/* Function:  esl_exp_invsurv()
+ *
+ * Purpose:   Calculates the inverse of the survivor function, the score
+ *            at which the right tail's mass is $0 <= p < 1$, for an
+ *            exponential function with parameters <mu> and <lambda>.
+ */
+double
+esl_exp_invsurv(double p, double mu, double lambda)
+{
+
+  return mu - 1./lambda * log(p);
+}
+/*------------------ end of densities and distributions --------------------*/
+
+
+/*------------------ end of densities and distributions --------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Generic API routines: for general interface w/ histogram module
+ *****************************************************************/ 
+
+/* Function:  esl_exp_generic_pdf()
+ *
+ * Purpose:   Generic-API version of PDF.
+ */
+double
+esl_exp_generic_pdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_exp_pdf(x, p[0], p[1]);
+}
+
+/* Function:  esl_exp_generic_cdf()
+ *
+ * Purpose:   Generic-API version of CDF.
+ */
+double
+esl_exp_generic_cdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_exp_cdf(x, p[0], p[1]);
+}
+
+/* Function:  esl_exp_generic_surv()
+ *
+ * Purpose:   Generic-API version of survival function.
+ */
+double
+esl_exp_generic_surv(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_exp_surv(x, p[0], p[1]);
+}
+
+/* Function:  esl_exp_generic_invcdf()
+ *
+ * Purpose:   Generic-API version of inverse CDF.
+ */
+double
+esl_exp_generic_invcdf(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_exp_invcdf(p, v[0], v[1]);
+}
+/*------------------------- end of generic API --------------------------*/
+
+
+
+/****************************************************************************
+ * 3. Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_exp_Plot()
+ *
+ * Purpose:   Plot some exponential function <func> (for instance,
+ *            <esl_exp_pdf()>) for parameters <mu> and <lambda>, for
+ *            a range of values x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error, such as a filled disk.
+ */
+int
+esl_exp_Plot(FILE *fp, double mu, double lambda, 
+	     double (*func)(double x, double mu, double lambda), 
+	     double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mu, lambda)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "exponential plot write failed");
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "exponential plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+/****************************************************************************
+ * 4. Routines for sampling (requires augmentation w/ random module)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+
+/* Function:  esl_exp_Sample()
+ *
+ * Purpose:   Sample an exponential random variate
+ *            by the transformation method, given offset <mu>
+ *            and decay parameter <lambda>.
+ */
+double
+esl_exp_Sample(ESL_RANDOMNESS *r, double mu, double lambda)
+{
+  double p, x;
+  p = esl_rnd_UniformPositive(r); 
+
+  x = mu - 1./lambda * log(p);	/* really log(1-p), but if p uniform on 0..1 
+				 * then so is 1-p. 
+                                 */
+  return x;
+} 
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+
+
+/****************************************************************************
+ * 5. Maximum likelihood fitting
+ ****************************************************************************/ 
+
+/* Function:  esl_exp_FitComplete()
+ *
+ * Purpose:   Given an array of <n> samples <x[0]..x[n-1]>, fit
+ *            them to an exponential distribution.
+ *            Return maximum likelihood parameters <ret_mu> and <ret_lambda>.
+ *
+ * Args:      x          - complete exponentially-distributed data [0..n-1]
+ *            n          - number of samples in <x>  (n>0)
+ *            ret_mu     - lower bound of the distribution (all x_i >= mu)
+ *            ret_lambda - RETURN: maximum likelihood estimate of lambda
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if n=0 (no data).
+ *
+ * Xref:      STL9/138.
+ */
+int
+esl_exp_FitComplete(double *x, int n, double *ret_mu, double *ret_lambda)
+{
+  double mu, mean;
+  int    i;
+
+  if (!n) ESL_EXCEPTION(eslEINVAL, "empty data vector provided for exponential fit");
+
+  /* ML mu is the lowest score. mu=x is ok in the exponential. */
+  mu = x[0];
+  for (i = 1; i < n; i++) if (x[i] < mu) mu = x[i];
+
+  mean = 0.;
+  for (i = 0; i < n; i++) mean += x[i] - mu;
+  mean /= (double) n;
+
+  *ret_mu     = mu;
+  *ret_lambda = 1./mean;	/* ML estimate trivial & analytic */
+  return eslOK;
+}
+
+/* Function:  esl_exp_FitCompleteScale()
+ *
+ * Purpose:   Given an array of <n> samples <x[0]..x[n-1]>, fit
+ *            them to an exponential distribution of known location
+ *            parameter <mu>. Return maximum likelihood scale 
+ *            parameter <ret_lambda>. 
+ *            
+ *            All $x_i \geq \mu$.
+ *
+ * Args:      x          - complete exponentially-distributed data [0..n-1]
+ *            n          - number of samples in <x>
+ *            mu         - lower bound of the distribution (all x_i >= mu)
+ *            ret_lambda - RETURN: maximum likelihood estimate of lambda
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Xref:      J1/49.
+ */
+int
+esl_exp_FitCompleteScale(double *x, int n, double mu, double *ret_lambda)
+{
+  double mean;
+  int    i;
+
+  mean = 0.;
+  for (i = 0; i < n; i++) mean += x[i] - mu;
+  mean /= (double) n;
+
+  *ret_lambda = 1./mean;	/* ML estimate trivial & analytic */
+  return eslOK;
+}
+
+
+#ifdef eslAUGMENT_HISTOGRAM
+/* Function:  esl_exp_FitCompleteBinned()
+ *
+ * Purpose:   Fit a complete exponential distribution to the observed
+ *            binned data in a histogram <g>, where each
+ *            bin i holds some number of observed samples x with values from 
+ *            lower bound l to upper bound u (that is, $l < x \leq u$);
+ *            find maximum likelihood parameters $\mu,\lambda$ and 
+ *            return them in <*ret_mu>, <*ret_lambda>.
+ *            
+ *            If the binned data in <g> were set to focus on 
+ *            a tail by virtual censoring, the "complete" exponential is 
+ *            fitted to this tail. The caller then also needs to
+ *            remember what fraction of the probability mass was in this
+ *            tail.
+ *            
+ *            The ML estimate for $mu$ is the smallest observed
+ *            sample.  For complete data, <ret_mu> is generally set to
+ *            the smallest observed sample value, except in the
+ *            special case of a "rounded" complete dataset, where
+ *            <ret_mu> is set to the lower bound of the smallest
+ *            occupied bin. For tails, <ret_mu> is set to the cutoff
+ *            threshold <phi>, where we are guaranteed that <phi> is
+ *            at the lower bound of a bin (by how the histogram
+ *            object sets tails). 
+ *
+ *            The ML estimate for <ret_lambda> has an analytical 
+ *            solution, so this routine is fast. 
+ *            
+ *            If all the data are in one bin, the ML estimate of
+ *            $\lambda$ will be $\infty$. This is mathematically correct,
+ *            but is probably a situation the caller wants to avoid, perhaps
+ *            by choosing smaller bins.
+ *
+ *            This function currently cannot fit an exponential tail
+ *            to truly censored, binned data, because it assumes that
+ *            all bins have equal width, but in true censored data, the
+ *            lower cutoff <phi> may fall anywhere in the first bin.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if dataset is true-censored.
+ */
+int
+esl_exp_FitCompleteBinned(ESL_HISTOGRAM *g, double *ret_mu, double *ret_lambda)
+{
+  int    i;
+  double ai, bi, delta;
+  double sa, sb;
+  double mu = 0.;
+
+  if (g->dataset_is == COMPLETE)
+    {
+      if   (g->is_rounded) mu = esl_histogram_Bin2LBound(g, g->imin);
+      else                 mu = g->xmin;
+    }
+  else if (g->dataset_is == VIRTUAL_CENSORED) /* i.e., we'll fit to tail */
+    mu = g->phi;
+  else if (g->dataset_is == TRUE_CENSORED)
+    ESL_EXCEPTION(eslEINVAL, "can't fit true censored dataset");
+
+  delta = g->w;
+  sa = sb = 0.;
+  for (i = g->cmin; i <= g->imax; i++) /* for each occupied bin */
+    {
+      if (g->obs[i] == 0) continue;
+      ai = esl_histogram_Bin2LBound(g,i);
+      bi = esl_histogram_Bin2UBound(g,i);
+      sa += g->obs[i] * (ai-mu);
+      sb += g->obs[i] * (bi-mu);
+    }
+  *ret_mu     = mu;
+  *ret_lambda = 1/delta * (log(sb) - log(sa));
+  return eslOK;
+}
+#endif /*eslAUGMENT_HISTOGRAM*/
+
+
+/****************************************************************************
+ * 6. Stats driver
+ ****************************************************************************/ 
+#ifdef eslEXPONENTIAL_STATS
+/* Compiles statistics on the accuracy of ML estimation of an exponential tail.
+ * compile: gcc -g -O2 -Wall -I. -L. -o stats -DeslEXPONENTIAL_STATS esl_exponential.c -leasel -lm
+ * run:     ./stats > stats.out
+ * 
+ * Output is, for each trial:
+ *     <trial #>   <fitted mu>  <fitted lambda> 
+ *
+ * To get mean, stddev of lambda estimates:
+ *    % ./stats | avg -f2      
+ */
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_exponential.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);
+  int    ntrials;		/* number of estimates to gather */
+  int    N;			/* number of samples collected to make each estimate */
+  double mu, lambda;		/* parametric location, scale */
+  double est_mu, est_lambda;	/* estimated location, scale */
+  int    trial;
+  int    i;
+  double *x;
+
+  /* Configuration: (change & recompile as needed)
+   */
+  ntrials = 1000;
+  mu      = 0.;
+  lambda  = 0.693;
+  N       = 95;
+
+  x = malloc(sizeof(double) *N);
+  for (trial = 0; trial < ntrials; trial++)
+    {
+      for (i = 0; i < N; i++)
+	x[i] = esl_exp_Sample(r, mu, lambda);
+      esl_exp_FitComplete(x, N, &est_mu, &est_lambda);
+
+      /*
+      est_mu = mu;
+      esl_exp_FitCompleteScale(x, N, est_mu, &est_lambda);
+      */      
+      printf("%4d  %8.4f  %8.4f\n", i, est_mu, est_lambda);
+    }
+  free(x);
+  return 0;
+}
+#endif /*eslEXPONENTIAL_STATS*/  
+
+
+
+
+
+/****************************************************************************
+ * 7. Unit tests
+ ****************************************************************************/ 
+
+/****************************************************************************
+ * 8. Test driver
+ ****************************************************************************/ 
+#ifdef eslEXPONENTIAL_TESTDRIVE
+/* Compile:
+   gcc -g -Wall -I. -L. -o test -DeslEXPONENTIAL_TESTDRIVE esl_exponential.c -leasel -lm
+*/
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_exponential.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_HISTOGRAM  *h;
+  ESL_RANDOMNESS *r;
+  double  mu        = 10.0;
+  double  lambda    =  1.0;  
+  int     n         = 10000;
+  double  binwidth  = 0.1;
+  double  emu, elambda;
+  int     i;
+  double  x;
+  double *data;
+  int     ndata;
+
+  int     opti;
+  int     be_verbose   = FALSE;
+  char   *plotfile     = NULL;
+  FILE   *pfp          = stdout;
+  int     plot_pdf     = FALSE;
+  int     plot_logpdf  = FALSE;
+  int     plot_cdf     = FALSE;
+  int     plot_logcdf  = FALSE;
+  int     plot_surv    = FALSE;
+  int     plot_logsurv = FALSE;
+  int     xmin_set     = FALSE;
+  double  xmin;
+  int     xmax_set     = FALSE;
+  double  xmax;
+  int     xstep_set    = FALSE;
+  double  xstep;
+
+  for (opti = 1; opti < argc && *(argv[opti]) == '-'; opti++)
+    {
+      if      (strcmp(argv[opti], "-m")  == 0) mu           = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-l")  == 0) lambda       = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-n")  == 0) n            = atoi(argv[++opti]);
+      else if (strcmp(argv[opti], "-o")  == 0) plotfile     = argv[++opti];
+      else if (strcmp(argv[opti], "-v")  == 0) be_verbose   = TRUE;
+      else if (strcmp(argv[opti], "-w")  == 0) binwidth     = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-C")  == 0) plot_cdf     = TRUE;
+      else if (strcmp(argv[opti], "-LC") == 0) plot_logcdf  = TRUE;
+      else if (strcmp(argv[opti], "-P")  == 0) plot_pdf     = TRUE;
+      else if (strcmp(argv[opti], "-LP") == 0) plot_logpdf  = TRUE;
+      else if (strcmp(argv[opti], "-S")  == 0) plot_surv    = TRUE;
+      else if (strcmp(argv[opti], "-LS") == 0) plot_logsurv = TRUE;
+      else if (strcmp(argv[opti], "-XL") == 0) { xmin_set  = TRUE; xmin  = atof(argv[++opti]); }
+      else if (strcmp(argv[opti], "-XH") == 0) { xmax_set  = TRUE; xmax  = atof(argv[++opti]); }
+      else if (strcmp(argv[opti], "-XS") == 0) { xstep_set = TRUE; xstep = atof(argv[++opti]); }
+      else ESL_EXCEPTION(eslEINVAL, "bad option");
+    }
+
+  if (be_verbose)
+    printf("Parametric:  mu = %f   lambda = %f\n", mu, lambda);
+
+  r = esl_randomness_Create(0);
+  h = esl_histogram_CreateFull(mu, 100., binwidth);
+  if (plotfile != NULL) {
+    if ((pfp = fopen(plotfile, "w")) == NULL) 
+      ESL_EXCEPTION(eslFAIL, "Failed to open plotfile");
+  }
+  if (! xmin_set)  xmin  = mu;
+  if (! xmax_set)  xmax  = mu+20* (1./lambda);
+  if (! xstep_set) xstep = 0.1;
+
+  for (i = 0; i < n; i++)
+    {
+      x = esl_exp_Sample(r, mu, lambda);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  esl_exp_FitComplete(data, ndata, &emu, &elambda);
+  if (be_verbose)
+    printf("Complete data fit:  mu = %f   lambda = %f\n", emu, elambda);
+  if (fabs( (emu-mu)/mu ) > 0.01)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted mu > 1%\n");
+  if (fabs( (elambda-lambda)/lambda ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted lambda > 10%\n");
+
+  esl_exp_FitCompleteBinned(h, &emu, &elambda);
+  if (be_verbose)
+    printf("Binned data fit:  mu = %f   lambda = %f\n", emu, elambda);
+  if (fabs( (emu-mu)/mu ) > 0.01)
+     ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted mu > 1%\n");
+  if (fabs( (elambda-lambda)/lambda ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted lambda > 10%\n");
+
+  if (plot_pdf)     esl_exp_Plot(pfp, mu, lambda, &esl_exp_pdf,     xmin, xmax, xstep);
+  if (plot_logpdf)  esl_exp_Plot(pfp, mu, lambda, &esl_exp_logpdf,  xmin, xmax, xstep);
+  if (plot_cdf)     esl_exp_Plot(pfp, mu, lambda, &esl_exp_cdf,     xmin, xmax, xstep);
+  if (plot_logcdf)  esl_exp_Plot(pfp, mu, lambda, &esl_exp_logcdf,  xmin, xmax, xstep);
+  if (plot_surv)    esl_exp_Plot(pfp, mu, lambda, &esl_exp_surv,    xmin, xmax, xstep);
+  if (plot_logsurv) esl_exp_Plot(pfp, mu, lambda, &esl_exp_logsurv, xmin, xmax, xstep);
+
+  if (plotfile != NULL) fclose(pfp);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  return 0;
+}
+#endif /*eslEXPONENTIAL_TESTDRIVE*/
+
+
+/****************************************************************************
+ * 9. Example 
+ ****************************************************************************/ 
+#ifdef eslEXPONENTIAL_EXAMPLE
+/*::cexcerpt::exp_example::begin::*/
+/* compile:
+   gcc -g -Wall -I. -o example -DeslEXPONENTIAL_EXAMPLE\
+     -DeslAUGMENT_HISTOGRAM -DeslAUGMENT_RANDOM -DeslAUGMENT_STATS\
+     esl_exponential.c esl_histogram.c esl_random.c esl_stats.c easel.c -lm
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_exponential.h"
+
+int
+main(int argc, char **argv)
+{
+  double mu         = -50.0;
+  double lambda     = 0.5;
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);
+  ESL_HISTOGRAM  *h = esl_histogram_CreateFull(mu, 100., 0.1);
+  int    n          = 10000;
+  double emu, elambda;
+  int    i;
+  double x;
+  double *data;
+  int     ndata;
+
+  for (i = 0; i < n; i++)
+    {
+      x = esl_exp_Sample(r, mu, lambda);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  /* Plot the empirical (sampled) and expected survivals */
+  esl_histogram_PlotSurvival(stdout, h);
+  esl_exp_Plot(stdout, mu, lambda,
+	       &esl_exp_surv, h->xmin, h->xmax, 0.1);
+
+  /* ML fit to complete data, and plot fitted survival curve */
+  esl_exp_FitComplete(data, ndata, &emu, &elambda);
+  esl_exp_Plot(stdout, emu, elambda, 
+	       &esl_exp_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to binned data, plot fitted survival curve  */
+  esl_exp_FitCompleteBinned(h, &emu, &elambda);
+  esl_exp_Plot(stdout, emu, elambda,
+	       &esl_exp_surv,  h->xmin, h->xmax, 0.1);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  return 0;
+}
+/*::cexcerpt::exp_example::end::*/
+#endif /*eslEXPONENTIAL_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_exponential.c 770 2012-06-06 19:33:59Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_exponential.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.h
new file mode 100755
index 0000000..cf7d2f0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.h
@@ -0,0 +1,58 @@
+/* Exponential distributions.
+ * 
+ * SRE, Wed Aug 10 08:32:45 2005 [St. Louis]
+ * SVN $Id: esl_exponential.h 770 2012-06-06 19:33:59Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_exponential.h $
+ */
+#ifndef eslEXPONENTIAL_INCLUDED
+#define eslEXPONENTIAL_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include <esl_histogram.h>
+#endif
+
+extern double esl_exp_pdf    (double x, double mu, double lambda);
+extern double esl_exp_logpdf (double x, double mu, double lambda);
+extern double esl_exp_cdf    (double x, double mu, double lambda);
+extern double esl_exp_logcdf (double x, double mu, double lambda);
+extern double esl_exp_surv   (double x, double mu, double lambda);
+extern double esl_exp_logsurv(double x, double mu, double lambda);
+extern double esl_exp_invcdf (double p, double mu, double lambda);
+extern double esl_exp_invsurv(double p, double mu, double lambda);
+
+
+extern double esl_exp_generic_pdf   (double x, void *params);
+extern double esl_exp_generic_cdf   (double x, void *params);
+extern double esl_exp_generic_surv  (double x, void *params);
+extern double esl_exp_generic_invcdf(double p, void *params);
+
+extern int    esl_exp_Plot(FILE *fp, double mu, double lambda, 
+			   double (*func)(double x, double mu, double lambda), 
+			   double xmin, double xmax, double xstep);
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_exp_Sample(ESL_RANDOMNESS *r, double mu, double lambda);
+#endif
+
+extern int esl_exp_FitComplete     (double *x, int n, double *ret_mu, double *ret_lambda);
+extern int esl_exp_FitCompleteScale(double *x, int n, double      mu, double *ret_lambda);
+
+#ifdef eslAUGMENT_HISTOGRAM
+extern int esl_exp_FitCompleteBinned(ESL_HISTOGRAM *h, 
+				     double *ret_mu, double *ret_lambda);
+#endif
+
+
+#endif /*eslEXPONENTIAL_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.tex
new file mode 100755
index 0000000..55cb448
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_exponential.tex
@@ -0,0 +1,41 @@
+
+\begin{tabular}{lcll}\hline
+Variate    & $x$         & \ccode{double} & $\mu \leq x < \infty$ \\
+Location   & $\mu$       & \ccode{double} & $-\infty < \mu < \infty$\\
+Scale      & $\lambda$   & \ccode{double} & $\lambda > 0$ \\ \hline
+\end{tabular}
+
+The probability density function (PDF) is:
+
+\begin{equation}
+P(X=x) =  \lambda e^{-\lambda (x - \mu)}
+\end{equation}
+
+The cumulative distribution function (CDF) is:
+
+\begin{equation}
+P(X \leq x) = 1 - e^{-\lambda (x - \mu)}
+\end{equation}
+
+
+\subsection{Sampling}
+
+An exponentially distributed sample $x$ is generated by the
+transformation method, using the fact that if $R$ is uniformly
+distributed on $(0,1]$, $1-R$ is uniformly distributed on $[0,1)$:
+
+\[
+   R = \mbox{uniform positive sample in (0,1]}\\
+   x = \mu - \frac{1}{lambda} \log(R)
+\]
+
+\subsection{Maximum likelihood fitting}
+
+The maximum likelihood estimate $\hat{\lambda}$ is $\frac{1}{\sum_i
+x_i}$. The distribution of $\frac{\lambda}{\hat{\lambda}}$ is
+approximately normal with mean 1 and standard error $\frac{1}{\sqrt{N}}$
+\citep{Lawless82}.
+
+% xref J1/p49 for derivation of standard error.
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.c
new file mode 100755
index 0000000..009bbb0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.c
@@ -0,0 +1,848 @@
+/* A simple token-based file parsing system.
+ * 
+ * Contents:
+ *    1. The ESL_FILEPARSER object and its API.
+ *    2. Private functions.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Examples.
+ *    6. Copyright/license information.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_fileparser.h"
+
+static int nextline(ESL_FILEPARSER *efp);
+
+/*****************************************************************
+ * 1. The ESL_FILEPARSER object and its API.
+ *****************************************************************/
+
+/* Function:  esl_fileparser_Open()
+ * Incept:    SRE, Tue Apr  3 08:09:56 2007 [Janelia]
+ *
+ * Purpose:   Opens <filename> for reading. 
+ * 
+ *            As a special case, if <filename> is "-", set up the
+ *            fileparser to read and parse <stdin>.
+ *            
+ *            <envvar> is optional name of an environment variable,
+ *            such as <BLASTDB>. This environment variable contains a
+ *            colon-delimited list of directories in which the
+ *            <filename> may lie relative to.  We looks first relative
+ *            to the current working directory, then in any
+ *            directories specified by <envvar>. If <envvar> is <NULL>,
+ *            we only look in the current working directory.
+ *            
+ * Args:      filename  - filename, relative path, or fully qualified path
+ *            envvar    - optional environment variable name to find 
+ *                        colon-delimited list of directories <filename>
+ *                        may reside in; or <NULL>
+ *            ret_efp   - RETURN: opened <ESL_FILEPARSER>            
+ *
+ * Returns:   <eslOK> on success, and <ret_fp> points
+ *            to a new <ESL_FILEPARSER> object.
+ *            
+ *            Returns <eslENOTFOUND> if <filename> can't
+ *            be opened for reading, and <ret_fp> is set
+ *            to <NULL>.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_fileparser_Open(const char *filename, const char *envvar, ESL_FILEPARSER **ret_efp)
+{
+  int             status;
+  ESL_FILEPARSER *efp = NULL;
+
+  if ((efp = esl_fileparser_Create(NULL)) == NULL) { status = eslEMEM;      goto ERROR; }
+
+  if (strcmp(filename, "-") == 0) 
+    efp->fp = stdin;
+  else if ((efp->fp = fopen(filename, "r")) != NULL) { 
+    if ((status  = esl_strdup(filename, -1, &(efp->filename))) != eslOK) goto ERROR;
+  }
+  else if ((status = esl_FileEnvOpen(filename, envvar, &(efp->fp), &(efp->filename))) != eslOK) 
+    { status = eslENOTFOUND; goto ERROR; }    
+    
+  *ret_efp = efp;
+  return eslOK;
+
+ ERROR:
+  esl_fileparser_Close(efp);
+  *ret_efp = NULL;
+  return status;
+}
+
+
+/* Function:  esl_fileparser_Create()
+ * Incept:    SRE, Fri Jul  9 12:50:29 2004 [St. Louis]
+ *
+ * Purpose:   Take an open file <fp>, and transform it to
+ *            a fileparser object -- preparing to parse it
+ *            one whitespace-delimited field at a time.
+ *
+ * Args:      fp  - open FILE to parse
+ *
+ * Returns:   a new <ESL_FILEPARSER> object, which must be 
+ *            free'd by the caller with <esl_fileparser_Destroy()>.
+ *
+ * Throws:    <eslEMEM> if an allocation failed.
+ *            
+ * Xref:      STL8 p.56.
+ */
+ESL_FILEPARSER *
+esl_fileparser_Create(FILE *fp)
+{
+  int status;
+  ESL_FILEPARSER *efp = NULL;
+
+  ESL_ALLOC(efp, sizeof(ESL_FILEPARSER));
+  efp->fp          = fp;
+  efp->buf         = NULL;
+  efp->buflen      = 0;
+  efp->s           = NULL;
+  efp->commentchar = '\0';
+  efp->tok         = NULL;
+  efp->toklen      = 0;
+  efp->tokchar     = '\0';
+  efp->filename    = NULL;
+  efp->linenumber  = 0;
+  efp->errbuf[0]   = '\0';
+  efp->is_buffer   = FALSE;
+  efp->mem_buffer  = NULL;
+  efp->mem_size    = 0;
+  efp->mem_pos     = 0;
+  return efp;
+  
+ ERROR:
+  esl_fileparser_Destroy(efp);
+  return NULL;
+}
+
+
+/* Function:  esl_fileparser_CreateMapped()
+ * Incept:    MSF, Mon Aug 16 2010 [Janelia]
+ *
+ * Purpose:   Sets up a memory buffer to be parsed with the
+ *            file parser routines.Take an open file <fp>, and transform it to
+ *            a fileparser object -- preparing to parse it
+ *            one whitespace-delimited field at a time.
+ *
+ * Args:      fp  - open FILE to parse
+ *
+ * Returns:   a new <ESL_FILEPARSER> object, which must be 
+ *            free'd by the caller with <esl_fileparser_Destroy()>.
+ *
+ * Throws:    <eslEMEM> if an allocation failed.
+ *            
+ * Xref:      STL8 p.56.
+ */
+ESL_FILEPARSER *
+esl_fileparser_CreateMapped(void *buffer, int size)
+{
+  ESL_FILEPARSER *efp = NULL;
+
+  if ((efp = esl_fileparser_Create(NULL)) == NULL) return NULL;
+  
+  efp->is_buffer   = TRUE;
+  efp->mem_buffer  = buffer;
+  efp->mem_size    = size;
+  return efp;
+}
+
+
+
+
+/* Function:  esl_fileparser_SetCommentChar()
+ *
+ * Purpose:   Defines a single character <c> for comments. Anything
+ *            on a line following this character is ignored
+ *            when parsing.
+ *
+ * Args:      efp - open fileparser
+ *            c    - comment character ('#', for example)        
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_fileparser_SetCommentChar(ESL_FILEPARSER *efp, char c)
+{
+  efp->commentchar = c;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_fileparser_GetToken()
+ * Incept:    SRE, Fri Jul  9 13:03:50 2004 [St. Louis]
+ *
+ * Purpose:   Sets a pointer to the next field in the 
+ *            file we're parsing.
+ *            
+ *            The <opt_tok> pointer is into an internal line buffer
+ *            that may be invalidated upon the next call to a
+ *            <fileparser> function. If you want to store it, make a
+ *            copy.
+ *
+ * Args:      efp        - open fileparser
+ *            opt_tok    - optRETURN: ptr to next field
+ *            opt_toklen - optRETURN: length of tok.       
+ *
+ * Returns:   <eslOK> if <tok>, <toklen> contain valid data.
+ *            <eslEOF> on normal end-of-file.
+ *            
+ * Throws:    <eslEMEM> if an allocation fails.
+ *
+ * Xref:      STL8 p.56.
+ */
+int
+esl_fileparser_GetToken(ESL_FILEPARSER *efp, char **opt_tok, int *opt_toklen)
+{
+  char *tok    = NULL;
+  int   toklen = 0;
+  int   tokcode;
+  int   fcode;
+  int   goodtok;
+
+  if (opt_tok != NULL)    *opt_tok    = NULL;
+  if (opt_toklen != NULL) *opt_toklen = 0;
+
+  /* Do we already have a token from a NextLine() call? */
+  if (efp->tok != NULL) {
+    if (opt_tok    != NULL) *opt_tok    = efp->tok;
+    if (opt_toklen != NULL) *opt_toklen = efp->toklen;
+    efp->tok     = NULL;
+    efp->toklen  = 0;
+    efp->tokchar = '\0';
+    return eslOK;
+  }
+  /* If not, then find next token. */
+
+  /* First, make sure we have a line loaded. 
+   * On the first call to GetToken, we won't.
+   */
+  if (efp->buf == NULL) {
+    fcode = nextline(efp);
+    if (fcode != eslOK) return fcode;
+  }
+
+  /* Start strtok()'ing this line to try to find token.
+   * If we don't find one, keep loading lines until we
+   * do, or we run out of data.
+   */
+  do {
+    goodtok = FALSE;
+    tokcode = esl_strtok_adv(&(efp->s), " \t\r\n", &tok, &toklen, NULL);
+    if (tokcode == eslEOL || (tokcode == eslOK && *tok == efp->commentchar)) 
+      {
+	fcode = nextline(efp);
+	if (fcode != eslOK) return fcode;
+      } 
+    else if (tokcode == eslOK) goodtok = TRUE;
+    else 
+      { sprintf(efp->errbuf, "esl_strtok() failed"); return tokcode;}
+  } while (! goodtok);
+
+  if (opt_tok    != NULL) *opt_tok    = tok;
+  if (opt_toklen != NULL) *opt_toklen = toklen;
+  return eslOK;
+}
+
+
+/* Function:  esl_fileparser_NextLine()
+ * Incept:    SRE, Tue Apr  3 08:27:22 2007 [Janelia]
+ *
+ * Purpose:   Advance the parser to the next non-blank, non-comment
+ *            data line that contains at least one token. 
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEOF> if no more tokens remain in the file.  
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_fileparser_NextLine(ESL_FILEPARSER *efp)
+{
+  int   status;
+  char *tok     = NULL;
+  int   toklen  = 0;
+  char  tokchar = '\0';
+  int   tokcode;
+
+  while ((status = nextline(efp)) == eslOK) 
+    {
+      tokcode = esl_strtok_adv(&(efp->s), " \t\r\n", &tok, &toklen, &tokchar);
+      if (tokcode == eslEOL || (tokcode == eslOK && *tok == efp->commentchar)) continue; /* no tokens on line */
+      if (tokcode != eslOK) ESL_XFAIL(tokcode, efp->errbuf, "esl_strtok() failed");
+      break;
+    } 
+  if (status == eslEOF) { status = eslEOF; goto ERROR; }
+  if (status != eslOK)  ESL_XFAIL(status, efp->errbuf, "nextline() failed");
+  
+  /* Remember this token. The next GetToken call will regurgitate it instead
+   * of finding its own. efp->s now points to the character after tok ends. 
+   */
+  efp->tok     = tok;
+  efp->toklen  = toklen;
+  efp->tokchar = tokchar;
+  return eslOK;
+
+ ERROR:
+  efp->tok     = NULL;
+  efp->toklen  = 0;
+  efp->tokchar = '\0';
+  return status;
+}  
+
+
+/* Function:  esl_fileparser_NextLinePeeked()
+ * Synopsis:  Read the next line, prepending a peek.
+ * Incept:    SRE, Wed Oct 15 10:08:37 2008 [Janelia]
+ *
+ * Purpose:   Sometimes we need to peek at the start of an input stream
+ *            to see whether it is in a binary format, before we start
+ *            parsing it as ASCII lines. When this happens, the caller
+ *            will typically have used <fread()> to read a fixed
+ *            number of bytes from the input stream, checked to see if
+ *            they are a magic number representing a binary format,
+ *            and found that they are not. The caller then wants to
+ *            switch to reading in ASCII format with the <fileparser>
+ *            API, but with those bytes included on the first
+ *            line. Because the file might start with comments or
+ *            blank lines that need to be skipped, we want to deal
+ *            with the peeked data in the context of the
+ *            <ESL_FILEPARSER>. The caller cannot simply close and
+ *            reopen the stream, because the stream may be a pipe
+ *            (<stdin> or <gzip -dc> for example).
+ *            
+ *            The caller passes the bytes it peeked at with <fread()>
+ *            in <prefix>, and the number of bytes it peeked at in
+ *            <plen>.
+ *            
+ *            The parser is advanced to the next non-blank,
+ *            non-comment data line that contains at least one token,
+ *            taking the prepended <prefix> into account.
+ *
+ * Args:      efp      - open fileparser
+ *            prefix   - bytes that caller obtained by peeking with fread()
+ *            plen     - number of bytes in prefix
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEOF> if no more tokens remain in the file.  
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      For an example, see HMMER's HMM save file input.
+ */
+int
+esl_fileparser_NextLinePeeked(ESL_FILEPARSER *efp, char *prefix, int plen)
+{
+  int   blen;
+  void *tmp;
+  char *tok     = NULL;
+  int   toklen  = 0;
+  char  tokchar = '\0';
+  int   status;
+  
+  if ((status = nextline(efp)) != eslOK)  goto ERROR; /* EOF, EMEM */
+  blen = strlen(efp->buf);
+  
+  if (blen + plen + 1 > efp->buflen) {
+    ESL_RALLOC(efp->buf, tmp, sizeof(char) * (blen + plen + 1));
+    efp->buflen = blen + plen + 1;
+  }
+  memmove(efp->buf+plen, efp->buf, blen+1);
+  memcpy(efp->buf, prefix, plen);
+  efp->s = efp->buf;
+
+  status = esl_strtok_adv(&(efp->s), " \t\r\n", &tok, &toklen, &tokchar);
+  
+  if (status == eslOK && *tok != efp->commentchar) 
+    {
+      efp->tok     = tok;
+      efp->toklen  = toklen;
+      efp->tokchar = tokchar;
+      status       = eslOK;
+    }
+  else status = esl_fileparser_NextLine(efp);
+
+  return status;
+
+ ERROR:
+  efp->tok     = NULL;
+  efp->toklen  = 0;
+  efp->tokchar = '\0';
+  return status;
+}  
+
+
+
+
+/* Function:  esl_fileparser_GetTokenOnLine()
+ * Incept:    SRE, Tue Apr  3 08:46:59 2007 [Janelia]
+ *
+ * Purpose:   Same as <esl_fileparser_GetToken()>, except that it only
+ *            retrieves tokens from the line that the parser is
+ *            on. When it runs out of tokens on the line, it returns
+ *            <eslEOL>. This allows a caller to count the tokens on a
+ *            line (whereas <GetToken()> reads through newlines
+ *            silently).
+ *            
+ *            The <opt_tok> pointer is into an internal line buffer
+ *            that may be invalidated upon the next call to a
+ *            <fileparser> function. If you want to store it, make a
+ *            copy.
+ *            
+ *            Normally, a call to <esl_fileparser_GetTokenOnLine()>
+ *            would be preceded by <esl_fileparser_NextLine()> to
+ *            position the parser on the next data line with at least
+ *            one token on it. However, you could also conceivably
+ *            call <esl_fileparser_GetTokenOnLine()> after one or more
+ *            calls to <esl_fileparser_GetToken()>, to get remaining
+ *            tokens from a given line. What you can't do is to call
+ *            <esl_fileparser_GetTokenOnLine()> immediately after 
+ *            opening a file; the parser won't have a line loaded yet.
+ *            (In this case, it would return <eslEOL>.)
+ *
+ * Returns:   <eslOK> on success, and the token and its length are
+ *            in <opt_tok> and <opt_toklen>.
+ *            
+ *            Returns <eslEOL> if no more tokens exist on the line;
+ *            in this case <opt_tok> is set to <NULL> and <opt_toklen>
+ *            to 0.
+ */
+int
+esl_fileparser_GetTokenOnLine(ESL_FILEPARSER *efp, char **opt_tok, int *opt_toklen)
+{
+  int status;
+  char *tok    = NULL;
+  int   toklen = 0;
+
+  /* Do we already have a token from a NextLine() call? */
+  if (efp->tok != NULL) {
+    if (opt_tok    != NULL) *opt_tok    = efp->tok;
+    if (opt_toklen != NULL) *opt_toklen = efp->toklen;
+    efp->tok     = NULL;
+    efp->toklen  = 0;
+    efp->tokchar = '\0';
+    return eslOK;
+  }
+
+  /* No line loaded? Then we can't find any token on it. */
+  if (efp->buf == NULL) { status = eslEOL;  goto ERROR; }
+
+  /* Find next token in the line loaded in the parser. */
+  status = esl_strtok_adv(&(efp->s), " \t\r\n", &tok, &toklen, NULL);
+  if (status == eslEOL) goto ERROR;
+  if (status != eslOK)  goto ERROR;
+  if (status == eslOK && *tok == efp->commentchar) { status = eslEOL; goto ERROR; }
+
+  if (opt_tok    != NULL) *opt_tok    = tok;
+  if (opt_toklen != NULL) *opt_toklen = toklen;
+  return eslOK;
+
+ ERROR:
+  if (opt_tok    != NULL) *opt_tok    = NULL;
+  if (opt_toklen != NULL) *opt_toklen = 0;
+  return status;
+}
+
+
+/* Function:  esl_fileparser_GetRemainingLine()
+ * Synopsis:  Returns pointer to the rest of the current line.
+ * Incept:    SRE, Mon Oct 13 08:59:26 2008 [Janelia]
+ *
+ * Purpose:   Set a pointer <*ret_s> to the rest of the current line
+ *            held by the fileparser <efp>. 
+ *            
+ *            Because <ret_s> points to internal storage in the
+ *            fileparser, the caller should be finished with it before
+ *            making its next call to any fileparser function.
+ *            
+ *            Any comment characters on the rest of the line are
+ *            ignored: this is designed for a case where the rest of
+ *            the line is to be read as free text.
+ *            
+ * Args:      efp    - fileparser 
+ *            ret_s  - RETURN: pointer to the remainder of the line
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEOL> if nothing remains on the line, and <*ret_s>
+ *            is <NULL>.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_fileparser_GetRemainingLine(ESL_FILEPARSER *efp, char **ret_s)
+{
+  /* No line loaded? Then we can't find anything on it. */
+  if (efp->buf == NULL) { *ret_s = NULL; return eslEOL; }
+
+  /* If we prestored the next token, we must revert that move. */
+  if (efp->tok != NULL)
+    {
+      *(efp->s-1) = efp->tokchar;
+      efp->s      = efp->tok;
+      efp->tok    = NULL;
+      efp->toklen  = 0;
+      efp->tokchar = '\0';
+    }
+
+  /* skip leading whitespace */
+  while (isspace(*(efp->s))) efp->s++;  
+
+  /* Return everything to end of line as a "token", stripping newline  */
+  return esl_strtok(&(efp->s), "\r\n", ret_s);
+}
+
+
+/* Function:  esl_fileparser_Destroy()
+ * Incept:    SRE, Fri Jul  9 13:22:36 2004 [St. Louis]
+ *
+ * Purpose:   Frees an open <ESL_FILEPARSER>. The original fp is
+ *            still open - whoever opened it is still
+ *            responsible for closing it.
+ *
+ * Xref:      STL8 p.56.
+ */
+void
+esl_fileparser_Destroy(ESL_FILEPARSER *efp)
+{
+  if (efp->buf != NULL) free(efp->buf);
+  free(efp);
+}
+
+/* Function:  esl_fileparser_Close()
+ * Incept:    SRE, Tue Apr  3 08:18:11 2007 [Janelia]
+ *
+ * Purpose:   Closes an open <ESL_FILEPARSER>, including the 
+ *            file it opened. 
+ */
+void
+esl_fileparser_Close(ESL_FILEPARSER *efp)
+{
+  if (efp == NULL) return;
+  
+  if (efp->fp != NULL && efp->fp != stdin) fclose(efp->fp);
+  if (efp->filename != NULL) free(efp->filename);
+  esl_fileparser_Destroy(efp);
+}
+
+
+
+/*****************************************************************
+ * 2. Private functions
+ *****************************************************************/
+
+/* nextline()
+ *
+ * Purpose:   Skip the file parser to the next line (for instance,
+ *            if an end-of-line comment is found). The new line might
+ *            have no tokens on it.
+ *
+ * Args:      efp  - open file parser
+ *
+ * Returns:   eslOK:   success
+ *            eslEOF:  normal end of file
+ *
+ * Throws:    <eslEMEM> if a reallocation failed in fgets()
+ *
+ * Xref:      STL8 p.56
+ */
+static int
+nextline(ESL_FILEPARSER *efp)
+{
+  int status;
+
+  /* check if we are reading from a file or a buffer */
+  if (efp->is_buffer) {
+    int   len;
+    int   end;
+
+    char *ptr;
+    char *tmp;
+
+    if (efp->mem_pos >= efp->mem_size) return eslEOF;
+
+    len = 0;
+    end = efp->mem_size - efp->mem_pos;
+    ptr = efp->mem_buffer + efp->mem_pos;
+    while (len < end && *ptr++ != '\n') ++len;
+    if (len < end) ++len;
+
+    if (len + 1 > efp->buflen) {
+      ESL_RALLOC(efp->buf, tmp, len * 2);
+      efp->buflen = len * 2;
+    }
+    memcpy(efp->buf, efp->mem_buffer + efp->mem_pos, len);
+    efp->buf[len] = 0;
+
+    efp->mem_pos += len;
+
+  } else {
+    if ((status = esl_fgets(&(efp->buf), &(efp->buflen), efp->fp)) != eslOK) 
+      { sprintf(efp->errbuf, "esl_fgets() failed"); return status;}
+  }
+  efp->s = efp->buf;
+  efp->linenumber++;
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef eslFILEPARSER_TESTDRIVE
+/* test the interface for getting all tokens in a file, regardless
+ * of newlines. Also, uses the Create/Destroy interface instead of
+ * Open/Close.
+ */
+static void
+utest_GetToken(char *filename)
+{
+  int status;
+  ESL_FILEPARSER *efp = NULL;
+  FILE           *fp  = NULL;
+  char           *tok = NULL;
+  int             toklen = 0;
+  int             ntok   = 0;
+
+  if ((fp  = fopen(filename, "r"))      == NULL)  esl_fatal("File open failed");
+  if ((efp = esl_fileparser_Create(fp)) == NULL)  esl_fatal("Failed to associate stream with fileparser");
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  while ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK)
+    {
+      if (toklen != 6)                   esl_fatal("bad token %s", tok);
+      if (strncmp(tok, "token", 5) != 0) esl_fatal("bad token %s", tok);
+      ntok++;
+    }
+  if (status != eslEOF)  esl_fatal("Abnormal parse termination");
+  if (ntok != 5)         esl_fatal("bad total token number %d\n", ntok);
+  
+  esl_fileparser_Destroy(efp);
+  fclose(fp);
+  return;
+}
+
+/* test the NextLine and GetTokenOnLine interface, as well as the
+ * Open/Close interface.
+ */
+static void
+utest_GetTokenOnLine(char *filename)
+{
+  int status;
+  ESL_FILEPARSER *efp = NULL;
+  char           *tok = NULL;
+  int             toklen = 0;
+  int             ntok   = 0;
+  int             nlines = 0;
+  char            expect[32];
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) esl_fatal("File open failed");
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while ((status = esl_fileparser_NextLine(efp)) == eslOK)
+    {
+      nlines++;
+      while ((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) == eslOK)
+	{
+	  ntok++;
+	  sprintf(expect, "token%d", ntok);
+	  if (toklen != 6)               esl_fatal("bad token length for %s", tok);
+	  if (strcmp(expect, tok) != 0)  esl_fatal("bad token %s", tok);
+	}
+      if (status != eslEOL) esl_fatal("Unexpected code in place of end-of-line");
+    }
+  if (status != eslEOF) esl_fatal("Unexpected code in place of end-of-file.");
+
+  if (nlines != 3) esl_fatal("expected to parse 3 lines; parsed %d", nlines);
+  if (ntok   != 5) esl_fatal("expected to parse 5 tokens; parsed %d", ntok);
+  
+  esl_fileparser_Close(efp);
+  return;
+}
+
+static void
+utest_GetTokenBuffered(char *buffer)
+{
+  int status;
+  ESL_FILEPARSER *efp = NULL;
+  char           *tok = NULL;
+  int             toklen = 0;
+  int             ntok   = 0;
+
+  if ((efp = esl_fileparser_CreateMapped(buffer, strlen(buffer))) == NULL)  
+    esl_fatal("Failed to associate buffer with fileparser");
+
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  while ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK)
+    {
+      if (toklen != 6)                   esl_fatal("bad token %s", tok);
+      if (strncmp(tok, "token", 5) != 0) esl_fatal("bad token %s", tok);
+      ntok++;
+    }
+  if (status != eslEOF)  esl_fatal("Abnormal parse termination");
+  if (ntok != 5)         esl_fatal("bad total token number %d\n", ntok);
+  
+  esl_fileparser_Destroy(efp);
+
+  return;
+}
+
+#endif /*eslFILEPARSER_TESTDRIVE*/
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+
+/*
+    gcc -g -Wall -I. -o test -DeslFILEPARSER_TESTDRIVE esl_fileparser.c easel.c
+    ./test
+*/
+#ifdef eslFILEPARSER_TESTDRIVE
+#include <stdio.h>
+#include <string.h>
+#include "easel.h"
+#include "esl_fileparser.h"
+
+int 
+main(int argc, char **argv)
+{
+  char  tmpfile[32] = "esltmpXXXXXX";
+  FILE *fp;
+
+  char stream[] = "# Full line comment\n"
+                  "token1  # Trailing comment\n"
+                  "\n"                                   /* blank line */
+                  "   \n"                                /* whitespace line */
+                  "   # sowing comment/whitespace confusion...\n"
+                  "token2\ttoken3  token4\n"
+                  "token5";                              /* file ends w/ no \n */
+
+  /* Create a test file to read.
+   */
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal("File open failed");
+  fprintf(fp, "%s", stream);
+  fclose(fp);
+
+  /* Run unit tests using that file.
+   * Unit tests have hardwired knowledge of what's supposed to be in the file.
+   */
+  utest_GetToken(tmpfile);
+  utest_GetTokenOnLine(tmpfile);
+  utest_GetTokenBuffered(stream);
+
+  remove(tmpfile);
+  return 0;
+}
+#endif /*eslFILEPARSER_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 5. Examples.
+ *****************************************************************/
+
+/* The first example shows the simplest interface: get all tokens
+ * in the file, one at a time.
+ *
+     gcc -g -Wall -I. -o example -DeslFILEPARSER_EXAMPLE esl_fileparser.c easel.c
+     ./example <any file>
+ */
+#ifdef eslFILEPARSER_EXAMPLE
+/*::cexcerpt::fileparser_example::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_fileparser.h"
+
+int 
+main(int argc, char **argv)
+{
+  char           *filename = argv[1];
+  int             ntok     = 1;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  int             toklen;
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) esl_fatal("File open failed");
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  while (esl_fileparser_GetToken(efp, &tok, &toklen) == eslOK) { 
+    printf("%5d %3d %s\n", ntok, toklen, tok); 
+    ntok++;  
+  }
+  esl_fileparser_Close(efp);
+  return 0;
+}
+/*::cexcerpt::fileparser_example::end::*/
+#endif /*eslFILEPARSER_EXAMPLE*/
+
+/* The second example shows the more line-oriented interface
+ * of NextLine(), GetTokenOnLine().
+     gcc -g -Wall -I. -o example -DeslFILEPARSER_EXAMPLE2 esl_fileparser.c easel.c
+     ./example <any file>
+ */
+#ifdef eslFILEPARSER_EXAMPLE2
+/*::cexcerpt::fileparser_example2::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_fileparser.h"
+
+int 
+main(int argc, char **argv)
+{
+  char           *filename = argv[1];
+  int             nline    = 1;
+  int             ntok;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  int             toklen;
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) esl_fatal("File open failed");
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  while (esl_fileparser_NextLine(efp) == eslOK)
+  {
+    ntok = 0;
+    while (esl_fileparser_GetTokenOnLine(efp, &tok, &toklen) == eslOK)
+      ntok++;
+    printf("Line %d in the file (%d non-blank, non-comment) contains %d tokens...\n", 
+	   efp->linenumber, nline, ntok);
+    nline++;
+  }
+  esl_fileparser_Close(efp);
+  return 0;
+}
+/*::cexcerpt::fileparser_example2::end::*/
+#endif /*eslFILEPARSER_EXAMPLE*/
+
+
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_fileparser.c 832 2012-12-07 15:01:15Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_fileparser.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.h
new file mode 100755
index 0000000..0e9bdbc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.h
@@ -0,0 +1,51 @@
+/* A simple token-based file parsing system.
+ */
+#ifndef eslFILEPARSER_INCLUDED
+#define eslFILEPARSER_INCLUDED
+
+#include <stdio.h>
+#include "easel.h"
+
+typedef struct {
+  FILE *fp;			/* open file pointer, for reading                  */
+  char *buf;			/* current line; will be modified by esl_strtok(). */
+  int   buflen;			/* current allocated length of buf                 */
+  char *s;			/* used by esl_strtok(); current position in buf.  */
+  char  commentchar;		/* often '#'                                       */
+
+  char *tok;			/* _NextLine() may remember a token...             */
+  int   toklen;			/* ... and its length                              */
+  char  tokchar;		/* ... and char that got overwritten by \0, if any */
+
+  char *filename;		/* name of opened file; or NULL (if just a stream) */
+  int   linenumber;		/* what line is loaded into buf; 1..nlines         */
+  char  errbuf[eslERRBUFSIZE];  /* for holding error diagnostics                   */
+
+  int   is_buffer;              /* the file has been buffered into memory          */
+  char *mem_buffer;             /* pointer to the buffered file                    */
+  int   mem_size;               /* size of the buffered file                       */
+  int   mem_pos;                /* current position in the buffer                  */
+} ESL_FILEPARSER;
+
+extern int  esl_fileparser_Open(const char *filename, const char *envvar, ESL_FILEPARSER **ret_efp);
+extern ESL_FILEPARSER *esl_fileparser_Create(FILE *fp);
+extern ESL_FILEPARSER *esl_fileparser_CreateMapped(void *buffer, int size);
+extern int  esl_fileparser_SetCommentChar  (ESL_FILEPARSER *efp, char c);
+extern int  esl_fileparser_GetToken        (ESL_FILEPARSER *efp, char **opt_tok, int *opt_toklen);
+extern int  esl_fileparser_NextLine        (ESL_FILEPARSER *efp);
+extern int  esl_fileparser_NextLinePeeked  (ESL_FILEPARSER *efp, char *prefix, int plen);
+extern int  esl_fileparser_GetTokenOnLine  (ESL_FILEPARSER *efp, char **opt_tok, int *opt_toklen);
+extern int  esl_fileparser_GetRemainingLine(ESL_FILEPARSER *efp, char **ret_s);
+extern void esl_fileparser_Destroy         (ESL_FILEPARSER *efp);
+extern void esl_fileparser_Close           (ESL_FILEPARSER *efp);
+
+#endif /*eslFILEPARSER_INCLUDED */
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.tex
new file mode 100755
index 0000000..679bbf3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_fileparser.tex
@@ -0,0 +1,97 @@
+
+The \eslmod{fileparser} module parses simple input text data files
+that consist of whitespace-delimited tokens. 
+
+Data files can contain blank lines and comments. Comments are defined
+by a single character; for instance, a \verb+#+ character commonly
+means that everything following the \verb+#+ on the line is a comment.
+
+Two different styles of token input are supported. The simplest style
+reads tokens one at a time, regardless of what line they occur on,
+until the file ends. You can also read in a line-oriented way, in
+which you get one data line at a time, then read all the tokens on
+that line; this style lets you count how many tokens occur on a data
+line, which allows better checking of your input.
+
+The module implements one object, an \ccode{ESL\_FILEPARSER}, that
+holds the open input stream and the state of the parser.  The
+functions in the API are summarized in Table~\ref{tbl:fileparser_api}.
+
+\begin{table}[hbp]
+\begin{center}
+{\scriptsize
+\begin{tabular}{|lp{3.5in}|}\hline
+\hyperlink{func:esl_fileparser_Open()}{\ccode{esl\_fileparser\_Open()}}
+& Open a file for parsing.\\
+\hyperlink{func:esl_fileparser_Create()}{\ccode{esl\_fileparser\_Create()}}
+& Associate already open stream with a new parser.\\
+\hyperlink{func:esl_fileparser_SetCommentChar()}{\ccode{esl\_fileparser\_SetCommentChar()}}
+& Set character that defines start of a comment.\\
+\hyperlink{func:esl_fileparser_NextLine()}{\ccode{esl\_fileparser\_NextLine()}}
+& Advance the parser to next line containing a token.\\
+\hyperlink{func:esl_fileparser_GetToken()}{\ccode{esl\_fileparser\_GetToken()}}
+& Get the next token in the file.\\
+\hyperlink{func:esl_fileparser_GetTokenOnLine()}{\ccode{esl\_fileparser\_GetTokenOnLine()}}
+& Get the next token on the current line.\\
+\hyperlink{func:esl_fileparser_Destroy()}{\ccode{esl\_fileparser\_Destroy()}}
+& Deallocate a parser that was \ccode{Create()}'d.\\
+\hyperlink{func:esl_fileparser_Close()}{\ccode{esl\_fileparser\_Close()}}
+& Close a parser that was \ccode{Open()}'d.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{fileparser} API.}
+\label{tbl:fileparser_api}
+\end{table}
+
+\subsection{Example of using the fileparser API}
+
+An example that opens a file, reads all its tokens one at a time, and
+prints out token number, token length, and the token itself:
+
+\input{cexcerpts/fileparser_example}
+
+A single character can be defined to serve as a comment character
+(often \ccode{\#}), using the \ccode{esl\_fileparser\_SetCommentChar()}
+call. The parser will ignore the comment character, and the remainder
+of any line following a comment character.
+
+Each call to \ccode{esl\_fileparser\_GetToken()} retrieves one
+whitespace-delimited token from the input stream; the call returns
+\ccode{eslOK} if a token is parsed, and \ccode{eslEOF} when there are
+no more tokens in the file. Whitespace is defined as space, tab,
+newline, or carriage return (\verb+" \t\n\r"+).
+
+When the caller is done, the fileparser is closed with
+\ccode{esl\_fileparser\_Close()}.
+
+\subsection{A second example: line-oriented parsing}
+
+The \ccode{esl\_fileparser\_GetToken()} call provides a simple style
+of parsing a file: read one token at a time until the file ends,
+regardless of what line the tokens are on. However, you may want to
+know how many tokens are on a given data line, either because you know
+how many there should be (and you want to verify) or because you don't
+(and you need to allocate some variable-size data structure
+appropriately). The following is an example that reads a file line by
+line:
+
+\input{cexcerpts/fileparser_example2}
+
+The output from this example is, for each data line, the actual line
+number (starting from 1), the data line number (a count that excludes
+comments and blank lines), and the number of tokens on the line.
+
+Note the use of \ccode{efp->linenumber} to obtain the current line in
+the file. You can use this to produce informative error messages.  If
+a token is not what you expected, you probably want to provide some
+diagnostic output to the user, and \ccode{efp->linenumber} lets you
+direct the user to the line that the failure occurred at.
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.c
new file mode 100755
index 0000000..cd68fec
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.c
@@ -0,0 +1,635 @@
+/* Statistical routines for gamma distributions.
+ * 
+ * xref STL10/65
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_gamma.h"
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+
+static int    tau_by_moments(double *x, int n, double mu, double *ret_tau, 
+			     double *ret_mean, double *ret_logsum);
+static double tau_function(double tau, double mean, double logsum);
+
+
+/****************************************************************************
+ * Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+
+/* Function:  esl_gam_pdf()
+ *
+ * Purpose:   Calculates the gamma PDF $P(X=x)$ given value <x>,
+ *            location parameter <mu>, scale parameter <lambda>, and shape
+ *            parameter <tau>.
+ */
+double
+esl_gam_pdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x - mu);
+  double gamtau;
+  double val;
+
+  if (y < 0.) return 0.;
+
+  esl_stats_LogGamma(tau, &gamtau);
+  val  = ((tau*log(lambda) + (tau-1.)*log(x-mu)) - gamtau) - y;
+  return exp(val);
+}
+
+/* Function:  esl_gam_logpdf()
+ *
+ * Purpose:   Calculates log of the probability density function
+ *            for the gamma, $\log P(X=x)$, given value <x>,
+ *            location parameter <mu>, scale parameter <lambda>, and 
+ *            shape parameter <tau>.
+ */
+double
+esl_gam_logpdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x - mu);
+  double gamtau;
+  double val;
+
+  if (x < 0.) return -eslINFINITY;
+
+  esl_stats_LogGamma(tau, &gamtau);
+  val = ((tau*log(lambda) + (tau-1.)*log(x-mu)) - gamtau) - y;
+  return val;
+}
+
+/* Function:  esl_gam_cdf()
+ *
+ * Purpose:   Calculates the cumulative distribution function
+ *            for the gamma, $P(X \leq x)$, given value <x>, 
+ *            location parameter <mu>, scale parameter <lambda>, and 
+ *            shape parameter <tau>.
+ *
+ *            (For $\mu=0$, $\lambda = 1$, this is the
+ *            incomplete Gamma function $P(\tau,x)$.)
+ */
+double
+esl_gam_cdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x - mu);
+  double val;
+
+  if (y <= 0.) return 0.;
+
+  esl_stats_IncompleteGamma(tau, y, &val, NULL);
+  return val;
+}
+
+/* Function:  esl_gam_logcdf()
+ *
+ * Purpose:   Calculates the log of the cumulative distribution function 
+ *            for the gamma, $\log P(X \leq x)$, given value <x>, location
+ *            parameter <mu>, scale parameter <lambda>, and shape 
+ *            parameter <tau>.
+ */
+double
+esl_gam_logcdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x - mu);
+  double val;
+
+  if (y <= 0.) return -eslINFINITY;
+
+  esl_stats_IncompleteGamma(tau, y, &val, NULL);
+  return log(val);
+}
+
+/* Function:  esl_gam_surv()
+ *
+ * Purpose:   Calculates the survival function for the gamma, $P(X > x)$,
+ *            given value <x>, location parameter <mu>, scale parameter 
+ *            <lambda>, and shape parameter <tau>.
+ */
+double
+esl_gam_surv(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x - mu);
+  double val;
+
+  if (y <= 0.) return 1.0;
+
+  esl_stats_IncompleteGamma(tau, y, NULL, &val);
+  return val;
+}
+
+
+/* Function:  esl_gam_logsurv()
+ *
+ * Purpose:   Calculates the log of the survival function for the gamma, 
+ *            $\log P(X > x)$, given value <x>, location parameter <mu>,
+ *            scale parameter <lambda>, and shape parameter <tau>.
+ *            
+ *            Relies on <esl_stats_IncompleteGamma()>, which has limited
+ *            dynamic range. Any result of < -700 or so will be -infinity.
+ *            To fix this, we need a log version of <esl_stats_IncompleteGamma()>.
+ */
+double
+esl_gam_logsurv(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x - mu);
+  double val;
+
+  if (y <= 0.) return 0.;
+
+  esl_stats_IncompleteGamma(tau, y, NULL, &val);
+  return log(val);
+}
+
+
+/* Function:  esl_gam_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF for a gamma with location
+ *            parameter <mu>, scale parameter <lambda> and shape
+ *            parameter <tau>, returning the value <x> at which the
+ *            CDF is <p>.
+ *            
+ *            This inverse CDF is solved by a computationally expensive,
+ *            brute force bisection search on the CDF of <x>.
+ */
+double
+esl_gam_invcdf(double p, double mu, double lambda, double tau)
+{
+  double x1, x2, xm;		/* low, high guesses at x */
+  double f2, fm;
+  double tol = 1e-6;
+  
+  x1 = 0.;
+  x2 = tau / lambda;
+  do {				/* bracket */
+    x2 = x2*2.;
+    f2 = esl_gam_cdf(x2, mu, lambda, tau);
+  } while (f2 < p);
+
+  do {				/* bisection */
+    xm = (x1+x2)/ 2.;
+    fm = esl_gam_cdf(xm, mu, lambda, tau);
+    
+    if      (fm > p) x2 = xm;
+    else if (fm < p) x1 = xm;
+    else return xm;		/* unlikely exact fm==p */
+  } while ( (x2-x1)/(x1+x2) > tol);
+
+  xm = (x1+x2)/2.;
+  return xm;
+}
+/*-------------------- end densities & distributions ------------------------*/
+	  
+
+
+
+/****************************************************************************
+ * Generic API routines: for general interface w/ histogram module
+ ****************************************************************************/ 
+
+/* Function:  esl_gam_generic_pdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_gam_pdf()>, taking 
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_gam_generic_pdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gam_pdf(x, p[0], p[1], p[2]);
+}
+
+
+/* Function:  esl_gam_generic_cdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_gam_cdf()>, taking 
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_gam_generic_cdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gam_cdf(x, p[0], p[1], p[2]);
+}
+
+
+/* Function:  esl_gam_generic_surv()
+ *
+ * Purpose:   Generic-API wrapper around <esl_gam_surv()>, taking 
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_gam_generic_surv(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gam_surv(x, p[0], p[1], p[2]);
+}
+
+
+/* Function:  esl_gam_generic_invcdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_gam_invcdf()>, taking 
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_gam_generic_invcdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gam_invcdf(x, p[0], p[1], p[2]);
+}
+/*------------------------ end generic API ---------------------------------*/
+
+
+
+/****************************************************************************
+ * Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_gam_Plot()
+ *
+ * Purpose:   Plot some gamma distribution function <func> (for instance,
+ *            <esl_gam_pdf()>) for parameters <mu>, <lambda>, and <tau>, for
+ *            a range of values x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error, such as a filled disk.
+ */
+int
+esl_gam_Plot(FILE *fp, double mu, double lambda, double tau,
+	     double (*func)(double x, double mu, double lambda, double tau), 
+	     double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mu, lambda, tau)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "gamma plot write failed");
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "gamma plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+/****************************************************************************
+ * Routines for sampling (requires augmentation w/ random module)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+/* Function:  esl_gam_Sample()
+ *
+ * Purpose:   Sample a gamma-distributed random variate.
+ */
+double
+esl_gam_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double tau)
+{
+  double x;
+
+  x = esl_rnd_Gamma(r, tau);
+  return (mu + x / lambda);
+} 
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+
+/****************************************************************************
+ * Maximum likelihood fitting
+ ****************************************************************************/ 
+
+/* Function:  esl_gam_FitComplete()
+ *
+ * Purpose:   Given complete data consisting of <n> samples <x[0]..x[n-1]>,
+ *            and a known location parameter <mu>, determine and return
+ *            maximum likelihood parameters <ret_lambda> and <ret_tau>.
+ *
+ * Args:      x          - complete gamma-distributed data [0..n-1]
+ *            n          - number of samples in <x>
+ *            mu         - known location parameter
+ *            ret_lambda - RETURN: ML estimate of lambda            
+ *            ret_tau    - RETURN: ML estimate of tau
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if bracketing or bisection fails;
+ *            <eslEINVAL> if data cannot be gamma distributed (some <x[i] < mu>,
+ *            or zero variance in x).
+ *
+ * Xref:      STL10/65.
+ */
+int
+esl_gam_FitComplete(double *x, int n, double mu, double *ret_lambda, double *ret_tau)
+{
+  double mean, logsum;
+  int    i;
+  double c, fc;
+  double a, fa;
+  double b, fb;
+  int    status;
+
+  if ((status = tau_by_moments(x, n, mu, &c, &mean, &logsum) != eslOK)) return status;
+  a = b = c;
+  fa=fb=fc = tau_function(c, mean, logsum);
+
+  /* Rootfinding, 1.: bracketing the root with points a,b.
+   */
+  if (fc > 0.)			/* fx>0 means tau is too small, search right */
+    {
+      for (i = 0; i < 100; i++)	/* 100 = max iterations */
+	{
+	  b = a * 2.;
+	  fb = tau_function(b, mean, logsum);
+	  if (fb < 0.) break;	/* a,b now bracket */
+	  a = b; fa = fb;	/* else fb>0, so b is a better left bracket than a */
+	}
+      if (i == 100) ESL_EXCEPTION(eslENOHALT, "failed to bracket");
+    }
+  else if (fc < 0.)		/* fx<0 means tau is too large, search left */
+    {
+      for (i = 0; i < 100; i++)
+	{
+	  a = b/2.;
+	  fa = tau_function(a, mean, logsum);
+	  if (fa > 0.) break;   /* a,b now bracket */
+	  b = a; fb = fa;	/* else fa<0, so a is a better right bracket than b */
+	}
+      if (i == 100) ESL_EXCEPTION(eslENOHALT, "failed to bracket");
+    }  
+  
+  /* Rootfinding, 2.: Bisection search.
+   * We have the root in interval (a,b).
+   */
+  for (i = 0; i < 100; i++)
+    {
+      c  = (a+b)/2.;		/* bisection */
+      fc = tau_function(c, mean, logsum);
+      if      (fc > 0.) { a = c; fa = fc; }
+      else if (fc < 0.) { b = c; fb = fc; }
+      else    break;		/* unlikely event that we nail it */
+
+      if ((b-a) <= 2.* DBL_EPSILON) { 
+	c  = (a+b)/2.;
+	break;
+      }
+    }
+  if (i == 100) ESL_EXCEPTION(eslENOHALT, "bisection search failed");
+
+  *ret_lambda = c / mean;
+  *ret_tau    = c;
+  return eslOK;
+}
+
+/* tau_by_moments()
+ * 
+ * Obtain an initial estimate for tau by 
+ * matching moments. Also returns mean and
+ * logsum, which we need for ML fitting.
+ * To obtain a lambda estimate, use
+ * lambda = tau / mean.
+ */
+static int
+tau_by_moments(double *x, int n, double mu, double *ret_tau, double *ret_mean, double *ret_logsum)
+{
+  int    i;
+  double mean, var, logsum;
+
+  mean = var = logsum = 0.;
+  for (i = 0; i < n; i++)
+    {
+      if (x[i] < mu) ESL_EXCEPTION(eslEINVAL, "No x[i] can be < mu in gamma data");
+      mean   += x[i] - mu;	   /* mean is temporarily just the sum */
+      logsum += log(x[i] - mu);
+      var  += (x[i]-mu)*(x[i]-mu); /* var is temporarily the sum of squares */
+    }
+  var     = (var - mean*mean/(double)n) / ((double)n-1); /* now var is the variance */
+  mean   /= (double) n;		/* and now mean is the mean */
+  logsum /= (double) n;
+
+  if (var == 0.)		/* and if mean = 0, var = 0 anyway. */
+    ESL_EXCEPTION(eslEINVAL, "Zero variance in allegedly gamma-distributed dataset");
+  
+  if (ret_tau    != NULL) *ret_tau    = mean * mean / var;
+  if (ret_mean   != NULL) *ret_mean   = mean;
+  if (ret_logsum != NULL) *ret_logsum = logsum;
+  return eslOK;
+}
+
+
+
+/* tau_function()
+ *
+ * This is the rootfinding equation for tau...
+ * \ref{eqn:gamma_tau_root} in the documentation.
+ *   mean   is  1/N \sum (x_i - \mu) 
+ *   logsum is  1/N \sum \log (x_i - \mu)
+ * These are both independent of tau, and dependent
+ * on all data points, so we require the caller to
+ * precalculate them for us.
+ * 
+ * This is a decreasing function of tau:
+ * the return value is > 0 when tau is too small,
+ * and < 0 when tau is too large.
+ */
+static double
+tau_function(double tau, double mean, double logsum)
+{
+  double psitau;
+  
+  esl_stats_Psi(tau, &psitau);
+  return ( ((log(tau) - psitau) - log(mean)) + logsum );  
+}
+
+
+/****************************************************************************
+ * Example main()
+ ****************************************************************************/ 
+#ifdef eslGAMMA_EXAMPLE
+/*::cexcerpt::gam_example::begin::*/
+/* compile:
+   gcc -g -Wall -I. -o example -DeslGAMMA_EXAMPLE\
+     -DeslAUGMENT_RANDOM -DeslAUGMENT_HISTOGRAM\
+     esl_gamma.c esl_random.c esl_histogram.c esl_stats.c easel.c -lm
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gamma.h"
+
+int
+main(int argc, char **argv)
+{
+  double mu         = -5.0;
+  double lambda     = 2.0;
+  double tau        = 0.7;
+  ESL_HISTOGRAM  *h = esl_histogram_CreateFull(mu, 100., 0.1);
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);
+  int    n          = 10000;
+  double elam, etau;
+  int    i;
+  double x;
+  double *data;
+  int     ndata;
+
+  /* Take <n> gamma-distributed random samples. */
+  for (i = 0; i < n; i++)
+    {
+      x  =  esl_gam_Sample(r, mu, lambda, tau);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  /* Plot the empirical (sampled) and expected survivals */
+  esl_histogram_PlotSurvival(stdout, h);
+  esl_gam_Plot(stdout, mu, lambda, tau,
+	       &esl_gam_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to complete data, and plot fitted survival curve */
+  esl_gam_FitComplete(data, ndata, mu, &elam, &etau);
+  esl_gam_Plot(stdout, mu, elam, etau,
+	       &esl_gam_surv,  h->xmin, h->xmax, 0.1);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  return 0;
+}
+/*::cexcerpt::gam_example::end::*/
+#endif /*eslGAMMA_EXAMPLE*/
+
+
+
+/****************************************************************************
+ * Test driver
+ ****************************************************************************/ 
+#ifdef eslGAMMA_TESTDRIVE
+/* Compile:
+   gcc -g -Wall -I. -I ~/src/easel -L ~/src/easel -o test -DeslGAMMA_TESTDRIVE\
+    esl_gamma.c -leasel -lm
+*/
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gamma.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_HISTOGRAM  *h;
+  ESL_RANDOMNESS *r;
+  double  mu        = -5.0;
+  double  lambda    =  2.0;  
+  double  tau       =  0.7;
+  int     n         = 10000;
+  double  binwidth  = 0.1;
+  double  elambda, etau;
+  int     i;
+  double  x;
+  double *data;
+  int     ndata;
+
+  int     opti;
+  int     be_verbose   = FALSE;
+  char   *plotfile     = NULL;
+  FILE   *pfp          = stdout;
+  int     plot_pdf     = FALSE;
+  int     plot_logpdf  = FALSE;
+  int     plot_cdf     = FALSE;
+  int     plot_logcdf  = FALSE;
+  int     plot_surv    = FALSE;
+  int     plot_logsurv = FALSE;
+  int     xmin_set     = FALSE;
+  double  xmin;
+  int     xmax_set     = FALSE;
+  double  xmax;
+  int     xstep_set    = FALSE;
+  double  xstep;
+
+  for (opti = 1; opti < argc && *(argv[opti]) == '-'; opti++)
+    {
+      if      (strcmp(argv[opti], "-m")  == 0) mu           = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-l")  == 0) lambda       = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-n")  == 0) n            = atoi(argv[++opti]);
+      else if (strcmp(argv[opti], "-o")  == 0) plotfile     = argv[++opti];
+      else if (strcmp(argv[opti], "-t")  == 0) tau          = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-v")  == 0) be_verbose   = TRUE;
+      else if (strcmp(argv[opti], "-w")  == 0) binwidth     = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-C")  == 0) plot_cdf     = TRUE;
+      else if (strcmp(argv[opti], "-LC") == 0) plot_logcdf  = TRUE;
+      else if (strcmp(argv[opti], "-P")  == 0) plot_pdf     = TRUE;
+      else if (strcmp(argv[opti], "-LP") == 0) plot_logpdf  = TRUE;
+      else if (strcmp(argv[opti], "-S")  == 0) plot_surv    = TRUE;
+      else if (strcmp(argv[opti], "-LS") == 0) plot_logsurv = TRUE;
+      else if (strcmp(argv[opti], "-XL") == 0) { xmin_set  = TRUE; xmin  = atof(argv[++opti]); }
+      else if (strcmp(argv[opti], "-XH") == 0) { xmax_set  = TRUE; xmax  = atof(argv[++opti]); }
+      else if (strcmp(argv[opti], "-XS") == 0) { xstep_set = TRUE; xstep = atof(argv[++opti]); }
+      else ESL_EXCEPTION(eslEINVAL, "bad option");
+    }
+
+  if (be_verbose)
+    printf("Parametric:  mu = %f   lambda = %f    tau = %f\n", mu, lambda, tau);
+
+  r = esl_randomness_Create(0);
+  h = esl_histogram_CreateFull(mu, 100., binwidth);
+  if (plotfile != NULL) {
+    if ((pfp = fopen(plotfile, "w")) == NULL) 
+      ESL_EXCEPTION(eslFAIL, "Failed to open plotfile");
+  }
+  if (! xmin_set)  xmin  = mu;
+  if (! xmax_set)  xmax  = mu+40*(1./lambda);
+  if (! xstep_set) xstep = 0.1;
+
+  for (i = 0; i < n; i++)
+    {
+      x = esl_gam_Sample(r, mu, lambda, tau);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  esl_gam_FitComplete(data, ndata, mu, &elambda, &etau);
+  if (be_verbose)
+    printf("Complete data fit:  mu = %f   lambda = %f   tau = %f\n", 
+	   mu, elambda, etau);
+  if (fabs( (elambda-lambda)/lambda ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted lambda > 10%\n");
+  if (fabs( (etau-tau)/tau ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted tau > 10%\n");
+
+  if (plot_pdf)     esl_gam_Plot(pfp, mu, lambda, tau, &esl_gam_pdf,     xmin, xmax, xstep);
+  if (plot_logpdf)  esl_gam_Plot(pfp, mu, lambda, tau, &esl_gam_logpdf,  xmin, xmax, xstep);
+  if (plot_cdf)     esl_gam_Plot(pfp, mu, lambda, tau, &esl_gam_cdf,     xmin, xmax, xstep);
+  if (plot_logcdf)  esl_gam_Plot(pfp, mu, lambda, tau, &esl_gam_logcdf,  xmin, xmax, xstep);
+  if (plot_surv)    esl_gam_Plot(pfp, mu, lambda, tau, &esl_gam_surv,    xmin, xmax, xstep);
+  if (plot_logsurv) esl_gam_Plot(pfp, mu, lambda, tau, &esl_gam_logsurv, xmin, xmax, xstep);
+
+  if (plotfile != NULL) fclose(pfp);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  return 0;
+}
+#endif /*eslGAMMA_TESTDRIVE*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_gamma.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_gamma.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.h
new file mode 100755
index 0000000..334bdb2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.h
@@ -0,0 +1,46 @@
+/* Gamma distributions.
+ * 
+ * SRE, Wed Nov 16 19:15:33 2005 [St. Louis]
+ * SVN $Id: esl_gamma.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_gamma.h $
+ */
+#ifndef eslGAMMA_INCLUDED
+#define eslGAMMA_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+
+double esl_gam_pdf    (double x, double mu, double lambda, double tau);
+double esl_gam_logpdf (double x, double mu, double lambda, double tau);
+double esl_gam_cdf    (double x, double mu, double lambda, double tau);
+double esl_gam_logcdf (double x, double mu, double lambda, double tau);
+double esl_gam_surv   (double x, double mu, double lambda, double tau);
+double esl_gam_logsurv(double x, double mu, double lambda, double tau);
+double esl_gam_invcdf (double p, double mu, double lambda, double tau);
+
+double esl_gam_generic_pdf   (double x, void *params);
+double esl_gam_generic_cdf   (double x, void *params);
+double esl_gam_generic_surv  (double x, void *params);
+double esl_gam_generic_invcdf(double x, void *params);
+
+extern int esl_gam_Plot(FILE *fp, double mu, double lambda, double tau,
+			double (*func)(double x, double mu, double lambda, double tau), 
+			double xmin, double xmax, double xstep);
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_gam_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double tau);
+#endif
+
+extern int esl_gam_FitComplete(double *x, int n, double mu, double *ret_lambda, double *ret_tau);
+
+#endif /*eslGAMMA_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.tex
new file mode 100755
index 0000000..8990000
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gamma.tex
@@ -0,0 +1,53 @@
+
+\begin{tabular}{lcll}\hline
+Variate    & $x$         & \ccode{double} &  $\mu \leq x < \infty$ \\
+Location   & $\mu$       & \ccode{double} &  $-\infty < \mu < \infty$\\
+Scale      & $\lambda$   & \ccode{double} &  $\lambda > 0$ \\
+Shape      & $\tau$      & \ccode{double} &  $\tau > 0$ \\ \hline
+\end{tabular}
+
+The probability density function (PDF) is:
+
+\begin{equation}
+P(X=x) =  \frac{\lambda^{\tau}}{\Gamma(\tau)}  (x-\mu)^{\tau-1}  e^{-\lambda (x - \mu)}
+\label{eqn:gamma_pdf}
+\end{equation}
+
+The cumulative distribution function (CDF) does not have an analytical
+expression. It is calculated numerically, using the incomplete Gamma
+function (\ccode{esl\_stats\_IncompleteGamma()}).
+
+The ``standard Gamma distribution'' has $\mu = 0$, $\lambda = 1$.
+
+\subsection{Sampling}
+
+
+
+\subsection{Parameter estimation}
+
+\subsubsection{Complete data; known location}
+
+We usually know the location $\mu$. It is often 0, or in the case of
+fitting a gamma density to a right tail, we know the threshold $\mu$
+at which we truncated the tail.
+
+Given a complete dataset of $N$ observed samples $x_i$ ($i=1..N$) and
+a \emph{known} location parameter $\mu$, maximum likelihood estimation
+of $\lambda$ and $\tau$ is performed by first solving this rootfinding
+equation for $\hat{\tau}$ by binary search:
+
+\begin{equation}
+  \log \hat{\tau} 
+  - \Psi(\hat{\tau}) 
+  - \log \left[ \frac{1}{N} \sum_{i=1}^{N} (x_i - \mu) \right]
+  + \frac{1}{N} \sum_{i=1}^N \log (x_i - \mu)
+\label{eqn:gamma_tau_root}
+\end{equation}
+
+then using that to obtain $\hat{\lambda}$:
+
+\begin{equation}
+\hat{\lambda} = \frac{N \hat{\tau}} {\sum_{i=1}^{N} (x_i - \mu)}
+\end{equation}
+
+Equation~\ref{eqn:gamma_tau_root} decreases as $\tau$ increases.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.c
new file mode 100755
index 0000000..9c98020
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.c
@@ -0,0 +1,2165 @@
+/* Implements a somewhat more powerful command line getopt interface
+ * than the standard UNIX/POSIX call.
+ * 
+ * Contents:
+ *    1. The ESL_GETOPTS object.
+ *    2. Setting and testing a configuration.
+ *    3. Retrieving option settings and command line args.
+ *    4. Formatting option help.
+ *    5. Private functions.
+ *    6. Test driver.
+ *    7. Examples.
+ * 
+ * xref STL8/p152; STL9/p5.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h> 
+#include <stdio.h> 
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+
+/* Forward declarations of private functions. */
+static int set_option(ESL_GETOPTS *g, int opti, char *optarg, 
+		      int setby, int do_alloc);
+static int get_optidx_exactly(const ESL_GETOPTS *g, char *optname, int *ret_opti);
+static int get_optidx_abbrev(ESL_GETOPTS *g, char *optname, int n, 
+			     int *ret_opti);
+static int esl_getopts(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg);
+static int process_longopt(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg);
+static int process_stdopt(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg);
+static int verify_type_and_range(ESL_GETOPTS *g, int i, char *val, int setby);
+static int verify_integer_range(char *arg, char *range);
+static int verify_real_range(char *arg, char *range);
+static int verify_char_range(char *arg, char *range);
+static int parse_rangestring(char *range, char c, char **ret_lowerp, 
+			     int *ret_geq, char **ret_upperp, int *ret_leq);
+static int process_optlist(ESL_GETOPTS *g, char **ret_s, int *ret_opti);
+
+
+
+/*****************************************************************
+ *# 1. The <ESL_GETOPTS> object
+ *****************************************************************/ 
+
+/* Function:  esl_getopts_Create()
+ * Synopsis:  Create a new <ESL_GETOPTS> object.
+ *
+ * Purpose:   Creates an <ESL_GETOPTS> object, given the
+ *            array of valid options <opt> (NULL-element-terminated).
+ *            Sets default values for all config 
+ *            options (as defined in <opt>).
+ *
+ * Returns:   ptr to the new <ESL_GETOPTS> object.
+ *
+ * Throws:    NULL on failure, including allocation failures or
+ *            an invalid <ESL_OPTIONS> structure.
+ */
+ESL_GETOPTS *
+esl_getopts_Create(ESL_OPTIONS *opt)
+{
+  ESL_GETOPTS *g = NULL;
+  int status;
+  int i;
+
+  ESL_ALLOC(g, sizeof(ESL_GETOPTS));
+
+  g->opt       = opt;
+  g->argc      = 0;
+  g->argv      = NULL;
+  g->optind    = 1;
+  g->nfiles    = 0;
+  g->val       = NULL;
+  g->setby     = NULL;
+  g->valloc    = NULL;
+  g->optstring = NULL;
+  g->spoof     = NULL;
+  g->spoof_argv= NULL;
+  g->errbuf[0] = '\0';
+
+  /* Figure out the number of options.  
+   *
+   * Using the NULL-terminated structure array is a design decision.
+   * Alternatively, the caller could provide us with noptions, and use
+   * a #define noptions (sizeof(options) / sizeof(ESL_GETOPTS)) idiom.
+   * Note that we can't use sizeof() here, because now <opt> is just a
+   * pointer.
+   * 
+   * A drawback of requiring NULL termination is, what happens when
+   * the caller forgets? Thus the check for a leading '-' on all
+   * options; if we start straying into memory, that check should 
+   * catch us.
+   */
+  g->nopts = 0;
+  while (g->opt[g->nopts].name != NULL) {
+    if (g->opt[g->nopts].name[0] != '-') 
+      ESL_XEXCEPTION(eslEINVAL, "option %d didn't start with '-';\nyou may have forgotten to NULL-terminate the ESL_OPTIONS array", g->nopts);
+    g->nopts++;
+  }
+  
+  /* Set default values for all options.
+   * Note the valloc[] setting: we only need to dup strings
+   * into allocated space if the value is volatile memory, and
+   * that only happens in config files; not in defaults, cmdline,
+   * or environment.
+   */
+  ESL_ALLOC(g->val,    sizeof(char *) * g->nopts);
+  ESL_ALLOC(g->setby,  sizeof(int)    * g->nopts);
+  ESL_ALLOC(g->valloc, sizeof(int)    * g->nopts);
+
+  for (i = 0; i < g->nopts; i++) 
+    {
+      g->val[i]    = g->opt[i].defval;
+      g->setby[i]  = eslARG_SETBY_DEFAULT;
+      g->valloc[i] = 0;	
+    }
+
+  /* Verify type/range of the defaults, even though it's
+   * an application error (not user error) if they're invalid. 
+   */
+  for (i = 0; i < g->nopts; i++) 
+    if (verify_type_and_range(g, i, g->val[i], eslARG_SETBY_DEFAULT) != eslOK) 
+      ESL_XEXCEPTION(eslEINVAL, "%s\n", g->errbuf);
+  return g;
+
+ ERROR:
+  esl_getopts_Destroy(g); 
+  return NULL;
+}
+
+/* Function:  esl_getopts_CreateDefaultApp()
+ * Synopsis:  Initialize a standard Easel application.
+ *
+ * Purpose:   Carry out the usual sequence of events in initializing a
+ *            small Easel-based application: parses the command line,
+ *            process the <-h> option to produce a (single-sectioned)
+ *            help page, and check that the number of command line
+ *            options is right.
+ *            
+ *            <options> is an array of <ESL_OPTIONS> structures describing
+ *            the options, terminated by an all-<NULL> structure.
+ *            <nargs> is the number of command-line arguments
+ *            expected. <argc> and <argv> are the command line
+ *            arguments (number and pointer array) from <main()>.
+ *            
+ *            <banner> is an optional one-line description of the
+ *            program's function, such as <"compare RNA structures">.
+ *            When the <-h> help option is selected, this description
+ *            will be combined with the program's name (the tail of
+ *            <argv[0]>) and Easel's copyright and license information
+ *            to give a header like:
+ *            
+ *            \begin{cchunk}
+ *            # esl-compstruct :: compare RNA structures
+ *            # Easel 0.1 (February 2005)
+ *            # Copyright (C) 2004-2007 HHMI Janelia Farm Research Campus
+ *            # Freely licensed under the Janelia Software License.
+ *            # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+ *            \end{cchunk}
+ *            
+ *            <usage> is an optional one-line description of command
+ *            line usage (without the command name), such as
+ *            \begin{cchunk}
+ *              [options] <trusted file> <test file>
+ *            \end{cchunk}
+ *            On errors, or
+ *            on the help page, this usage string is combined with 
+ *            the program's name to give a usage line like:
+ *            
+ *            \begin{cchunk}
+ *            Usage: esl-compstruct [options] <trusted file> <test file>
+ *            \end{cchunk}  
+ *            
+ *            <banner> and <usage> are optional, meaning that either
+ *            can be provided as <NULL> and they won't be shown.
+ *
+ * Returns:   a pointer to a new <ESL_GETOPTS> object, which contains
+ *            all the option settings and command line arguments.
+ *            
+ *            On command line errors, this routine exits with abnormal
+ *            (1) status.
+ *            
+ *            If the <-h> help option is seen, this routine exits with
+ *            normal (0) status after printing a help page.
+ *
+ */
+ESL_GETOPTS *
+esl_getopts_CreateDefaultApp(ESL_OPTIONS *options, int nargs, int argc, char **argv, char *banner, char *usage)
+{
+  ESL_GETOPTS *go = NULL;
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK) 
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      if (usage != NULL) esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      if (banner != NULL) esl_banner(stdout, argv[0], banner);
+      if (usage  != NULL) esl_usage (stdout, argv[0], usage);
+      puts("\nOptions:");
+      esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+      exit(0);
+    }
+  if (esl_opt_ArgNumber(go) != nargs) 
+    {
+      puts("Incorrect number of command line arguments.");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  return go;
+}
+
+
+/* Function:  esl_getopts_Reuse()
+ * Synopsis:  Reset application state to default.
+ *
+ * Purpose:   Reset application configuration <g> to initial defaults,
+ *            as if it were newly created (before any 
+ *            processing of environment, config files, or
+ *            command line). 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      J4/24.
+ */
+int
+esl_getopts_Reuse(ESL_GETOPTS *g)
+{
+  int i;
+
+  /* Restore defaults for all options */
+  for (i = 0; i < g->nopts; i++)
+    {
+      if (g->valloc[i] > 0) { free(g->val[i]); }
+      g->val[i]    = g->opt[i].defval;
+      g->setby[i]  = eslARG_SETBY_DEFAULT;
+      g->valloc[i] = 0;	
+    }
+
+  if (g->spoof      != NULL) free(g->spoof);
+  if (g->spoof_argv != NULL) free(g->spoof_argv);
+
+  g->argc       = 0;
+  g->argv       = NULL;
+  g->optind     = 1;
+  g->nfiles     = 0;
+  g->optstring  = NULL;
+  g->spoof      = NULL;
+  g->spoof_argv = NULL;
+  g->errbuf[0]  = '\0';
+  return eslOK;
+}
+
+
+/* Function:  esl_getopts_Destroy()
+ * Synopsis:  Destroys an <ESL_GETOPTS> object.
+ *
+ * Purpose:   Free's a created <ESL_GETOPTS> object.
+ *
+ * Returns:   void.
+ */
+void
+esl_getopts_Destroy(ESL_GETOPTS *g)
+{
+  int i;
+
+  if (g != NULL)
+    {
+      if (g->val   != NULL) 
+	{
+	  /* A few of our vals may have been allocated.
+	   */
+	  for (i = 0; i < g->nopts; i++)
+	    if (g->valloc[i] > 0)
+	      free(g->val[i]);
+	  free(g->val);
+	}
+      if (g->setby      != NULL) free(g->setby);
+      if (g->valloc     != NULL) free(g->valloc);
+      if (g->spoof      != NULL) free(g->spoof);
+      if (g->spoof_argv != NULL) free(g->spoof_argv);
+      free(g);
+    }
+}
+
+
+/* Function:  esl_getopts_Dump()
+ * Synopsis:  Dumps a summary of a <ESL_GETOPTS> configuration.
+ *
+ * Purpose:   Dump the state of <g> to an output stream
+ *            <ofp>, often stdout or stderr.
+ */
+void
+esl_getopts_Dump(FILE *ofp, ESL_GETOPTS *g)
+{
+  int i, j;
+
+  if (g->argv != NULL) 
+    {
+      fprintf(ofp,   "argv[0]:                %s\n", g->argv[0]);
+      for (i = 1, j = g->optind; j < g->argc; j++, i++)
+	fprintf(ofp, "argument %2d (argv[%2d]): %s\n", i, j, g->argv[j]);
+      fputc('\n', ofp); 
+    }
+
+  fprintf(ofp, "%12s %12s %9s\n", "Option", "Setting", "Set by");
+  fprintf(ofp, "------------ ------------ ---------\n");
+
+  for (i = 0; i < g->nopts; i++)
+    {
+      fprintf(ofp, "%-12s ", g->opt[i].name);
+
+      if (g->opt[i].type == eslARG_NONE)  fprintf(ofp, "%-12s ", g->val[i] == NULL ? "off" : "on");
+      else                                fprintf(ofp, "%-12s ", g->val[i]);
+
+      if      (g->setby[i] == eslARG_SETBY_DEFAULT) fprintf(ofp, "(default) ");
+      else if (g->setby[i] == eslARG_SETBY_CMDLINE) fprintf(ofp, "cmdline   ");
+      else if (g->setby[i] == eslARG_SETBY_ENV)     fprintf(ofp, "environ   ");
+      else if (g->setby[i] >= eslARG_SETBY_CFGFILE) fprintf(ofp, "cfgfile   ");
+
+      fprintf(ofp, "\n");
+    }
+  return;
+}
+  
+
+/*****************************************************************
+ *# 2. Setting and testing a configuration
+ *****************************************************************/ 
+
+/* Function:  esl_opt_ProcessConfigfile()
+ * Synopsis:  Parses options in a config file.
+ *
+ * Purpose:   Given an open configuration file <fp> (and
+ *            its name <filename>, for error reporting),
+ *            parse it and set options in <g> accordingly.
+ *            Anything following a <\#> in the file is a
+ *            comment. Blank (or all-comment) lines are
+ *            ignored. Data lines contain one option and
+ *            its optional argument: for example <--foo arg>
+ *            or <-a>. All option arguments are type and
+ *            range checked, as specified in <g>.
+ *            
+ * Returns:   <eslOK> on success.  
+ * 
+ *            Returns <eslESYNTAX> on parse or format error in the
+ *            file, or f option argument fails a type or range check,
+ *            or if an option is set twice by the same config file.
+ *            In any of these "normal" (user) error cases, <g->errbuf>
+ *            is set to a useful error message to indicate the error.
+ *            
+ * Throws:    <eslEMEM> on allocation problem.            
+ */
+int
+esl_opt_ProcessConfigfile(ESL_GETOPTS *g, char *filename, FILE *fp)
+{
+  char *buf = NULL;
+  int   n   = 0;
+  char *s;
+  char *optname;		/* tainted: from user's input file */
+  char *optarg;			/* tainted: from user's input file */
+  char *comment;
+  int   line;
+  int   opti;
+  int   status;
+
+  line = 0;
+  while ((status = esl_fgets(&buf, &n, fp)) != eslEOF)
+    {
+      if (status != eslOK) return status; /* esl_fgets() failed (EMEM) */
+
+      line++;
+      optname = NULL;
+      optarg  = NULL;
+
+      /* First token is the option, e.g. "--foo"
+       */
+      s = buf;
+      esl_strtok(&s, " \t\n", &optname);
+      if (optname   == NULL) continue; /* blank line */
+      if (*optname  == '#')  continue; /* comment line */
+      if (*optname  != '-') 
+	ESL_FAIL(eslESYNTAX, g->errbuf,
+		 "Parse failed at line %d of cfg file %.24s (saw %.24s, not an option)\n",
+		 line, filename, optname);
+      
+      /* Second token, if present, is the arg
+       */
+      if (*s == '"')  esl_strtok(&s, "\"",    &optarg); /* quote-delimited arg */
+      else            esl_strtok(&s, " \t\n", &optarg); /* space-delimited arg */
+      
+      /* Anything else on the line had better be a comment
+       */
+      esl_strtok(&s, " \t\n", &comment);
+      if (comment != NULL && *comment != '#') 
+	ESL_FAIL(eslESYNTAX, g->errbuf,
+		 "Parse failed at line %d of cfg file %.24s (saw %.24s, not a comment)\n",
+		 line, filename, comment);
+	
+      /* Now we've got an optname and an optional optarg;
+       * figure out what option this is.
+       */
+      if (get_optidx_exactly(g, optname, &opti) != eslOK) 
+	ESL_FAIL(eslESYNTAX, g->errbuf,
+		 "%.24s is not a recognized option (config file %.24s, line %d)\n",
+		 optname, filename, line);
+
+      /* Set that option.
+       * Pass TRUE to set_option's do_alloc flag, because our buffer
+       * is volatile memory that's going away soon - set_option needs
+       * to strdup the arg, not just point to it.
+       */
+      status = set_option(g, opti, optarg, 
+			  eslARG_SETBY_CFGFILE+g->nfiles,
+			  TRUE);
+      if (status != eslOK) return status;
+    }
+
+  if (buf != NULL) free(buf);
+  g->nfiles++;
+  return eslOK;
+}
+
+
+
+
+/* Function:  esl_opt_ProcessEnvironment()
+ * Synopsis:  Parses options in the environment.
+ *
+ * Purpose:   For any option defined in <g> that can be modified
+ *            by an environment variable, check the environment
+ *            and set that option accordingly. The value provided
+ *            by the environment is type and range checked.
+ *            When an option is turned on that has other options 
+ *            toggle-tied to it, those options are turned off.
+ *            An option's state may only be changed once by the
+ *            environment (even indirectly thru toggle-tying);
+ *            else an error is generated.
+ *            
+ * Returns:   <eslOK> on success, and <g> is loaded with all
+ *            options specified in the environment.
+ *
+ *            Returns <eslEINVAL> on user input problems, 
+ *            including type/range check failures, and 
+ *            sets <g->errbuf> to a useful error message.
+ *            
+ * Throws:    <eslEMEM> on allocation problem.            
+ */
+int
+esl_opt_ProcessEnvironment(ESL_GETOPTS *g)
+{
+  int   i;
+  char *optarg;
+  int   status;
+
+  for (i = 0; i < g->nopts; i++)
+    if (g->opt[i].envvar != NULL &&
+	(optarg = getenv(g->opt[i].envvar)) != NULL)
+      {
+	status = set_option(g, i, optarg, eslARG_SETBY_ENV, FALSE);
+	if (status != eslOK) return status;
+      }
+  return eslOK;
+}
+
+
+
+/* Function:  esl_opt_ProcessCmdline()
+ * Synopsis:  Parses options from the command line.
+ *
+ * Purpose:   Process a command line (<argc> and <argv>), parsing out
+ *            and setting application options in <g>. Option arguments
+ *            are type and range checked before they are set, if type
+ *            and range information was set when <g> was created.
+ *            When an option is set, if it has any other options
+ *            "toggle-tied" to it, those options are also turned off.
+ *            
+ *            Any given option can only change state (on/off) once
+ *            per command line; trying to set the same option more than
+ *            once generates an error.
+ *            
+ *            On successful return, <g> contains settings of all
+ *            command line options and their option arguments, for
+ *            subsequent retrieval by <esl_opt_Get*()>
+ *            functions.  <g> also contains an <optind> state variable
+ *            pointing to the next <argv[]> element that is not an
+ *            option. <esl_opt_GetArg()> needs this to know
+ *            where the options end and command line arguments begin
+ *            in <argv[0]>.
+ *            
+ *            The parser starts with <argv[1]> and reads <argv[]> elements
+ *            in order until it reaches an element that is not an option; 
+ *            at this point, all subsequent <argv[]> elements are 
+ *            interpreted as arguments to the application.
+ *            
+ *            Any <argv[]> element encountered in the command line that
+ *            starts with <- > is an option, except <- > or <-- > by
+ *            themselves. <- > by itself is interpreted as a command
+ *            line argument (usually meaning ``read from stdin instead
+ *            of a filename''). <-- > by itself is interpreted as
+ *            ``end of options''; all subsequent <argv[]> elements are
+ *            interpreted as command-line arguments even if they
+ *            begin with <- >. 
+ *
+ * Returns:   <eslOK> on success. <g> is loaded with
+ *            all option settings specified on the cmdline.
+ *            Returns <eslEINVAL> on any cmdline parsing problem,
+ *            including option argument type/range check failures,
+ *            and sets <g->errbuf> to a useful error message for
+ *            the user.
+ *            
+ * Throws:    <eslEMEM> on allocation problem.           
+ */
+int
+esl_opt_ProcessCmdline(ESL_GETOPTS *g, int argc, char **argv)
+{
+  int   opti;
+  char *optarg;
+  int   status, setstatus;
+
+  g->argc      = argc;
+  g->argv      = argv;
+  g->optind    = 1;		/* start at argv[1]             */
+  g->optstring = NULL;		/* not in a -abc optstring yet  */
+
+  /* Walk through each option in the command line using esl_getopts(),
+   * which advances g->optind as the index of the next argv element we need
+   * to look at.
+   */
+  while ((status = esl_getopts(g, &opti, &optarg)) == eslOK)
+    {
+      setstatus = set_option(g, opti, optarg, eslARG_SETBY_CMDLINE, FALSE);
+      if (setstatus != eslOK) return setstatus;
+    }
+  if (status == eslEOD) return eslOK;
+  else                  return status;
+}
+
+
+/* Function:  esl_opt_ProcessSpoof()
+ * Synopsis:  Parses a string as if it were a command line.
+ *
+ * Purpose:   Process the string <cmdline> as if it were a 
+ *            complete command line. 
+ *            
+ *            Essentially the same as <esl_opt_ProcessCmdline()>
+ *            except that whitespace-delimited tokens first need to be
+ *            identified in the <cmdline> first, then passed as
+ *            <argc>,<argv> to <esl_opt_ProcessCmdline()>.
+ *
+ * Returns:   <eslOK> on success, and <g> is loaded with the
+ *            application configuration.
+ *
+ *            Returns <eslEINVAL> on any parsing problem, and sets
+ *            <g->errbuf> to an informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      J4/24.
+ */
+int
+esl_opt_ProcessSpoof(ESL_GETOPTS *g, const char *cmdline)
+{
+  int    argc = 0;
+  char  *s    = NULL;
+  void  *p;
+  char  *tok;
+  int    status;
+
+  if (g->spoof != NULL || g->spoof_argv != NULL)
+    ESL_XFAIL(eslEINVAL, g->errbuf, "cannot process more than one spoofed command line");
+
+  if ((status = esl_strdup(cmdline, -1, &(g->spoof))) != eslOK) goto ERROR;
+  s = g->spoof;
+
+  while (esl_strtok(&s, " \t\n", &tok) == eslOK)
+    {
+      argc++;
+      ESL_RALLOC(g->spoof_argv, p, sizeof(char *) * argc);
+      g->spoof_argv[argc-1] = tok;
+    }
+  
+  status = esl_opt_ProcessCmdline(g, argc, g->spoof_argv);
+  return status;
+  
+ ERROR:
+  if (g->spoof      != NULL) { free(g->spoof);      g->spoof      = NULL; }
+  if (g->spoof_argv != NULL) { free(g->spoof_argv); g->spoof_argv = NULL; }
+  return status;
+}
+
+/* Function:  esl_opt_VerifyConfig()
+ * Synopsis:  Validates configuration after options are set.
+ *
+ * Purpose:   Given a <g> that we think is fully configured now --
+ *            from config file(s), environment, and command line --
+ *            verify that the configuration is self-consistent:
+ *            for every option that is set, make sure that any
+ *            required options are also set, and that no
+ *            incompatible options are set. ``Set'' means
+ *            the configured value is non-default and non-NULL (including booleans),
+ *            and ``not set'' means the value is default or NULL. (That is,
+ *            we don't go solely by <setby>, which refers to who
+ *            determined the state of an option, even if
+ *            it is turned off.)
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslESYNTAX> if a required option is not set, or
+ *            if an incompatible option is set; in this case, sets 
+ *            <g->errbuf> to contain a useful error message for
+ *            the user.
+ *            
+ * Throws:    <eslEINVAL> if something's wrong with the <ESL_OPTIONS>
+ *            structure itself -- a coding error in the application.           
+ */
+int
+esl_opt_VerifyConfig(ESL_GETOPTS *g)
+{
+  int   i,reqi,incompati;
+  char *s;
+  int   status;
+
+  /* For all options that are set (not in default configuration,
+   * and turned on with non-NULL vals), 
+   * verify that all their required_opts are set.
+   */
+  for (i = 0; i < g->nopts; i++)
+    {
+      if (g->setby[i] != eslARG_SETBY_DEFAULT && g->val[i] != NULL)
+	{
+	  s = g->opt[i].required_opts;
+	  while ((status = process_optlist(g, &s, &reqi)) != eslEOD) 
+	    {
+	      if (status != eslOK) ESL_EXCEPTION(eslEINVAL, "something's wrong with format of optlist: %s\n", s);
+	      if (g->val[reqi] == NULL)
+		{
+		  if (g->setby[i] >= eslARG_SETBY_CFGFILE)
+		    ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by cfg file %d) requires (or has no effect without) option(s) %.24s", 
+			     g->opt[i].name, g->setby[i]-2, g->opt[i].required_opts);
+		  else if (g->setby[i] == eslARG_SETBY_ENV)
+		    ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by env var %s) requires (or has no effect without) option(s) %.24s", 
+			     g->opt[i].name, g->opt[i].envvar, g->opt[i].required_opts);
+		  else
+		    ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s requires (or has no effect without) option(s) %.24s", 
+			     g->opt[i].name, g->opt[i].required_opts);
+		}
+	    }
+	}
+    }
+
+  /* For all options that are set (turned on with non-NULL vals),
+   * verify that no incompatible options are set to non-default
+   * values (notice the setby[incompati] check)
+   */
+  for (i = 0; i < g->nopts; i++)
+    {
+      if (g->setby[i] != eslARG_SETBY_DEFAULT && g->val[i] != NULL)
+	{
+	  s = g->opt[i].incompat_opts;
+	  while ((status = process_optlist(g, &s, &incompati)) != eslEOD)
+	    {
+	      if (status != eslOK) ESL_EXCEPTION(eslEINVAL, "something's wrong with format of optlist: %s\n", s);
+	      if (incompati != i && (g->setby[incompati] != eslARG_SETBY_DEFAULT && g->val[incompati] != NULL))
+		{
+		  if (g->setby[i] >= eslARG_SETBY_CFGFILE)
+		    ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by cfg file %d) is incompatible with option(s) %.24s", 
+			     g->opt[i].name, g->setby[i]-2, g->opt[i].incompat_opts); 
+		  
+		  else if (g->setby[i] == eslARG_SETBY_ENV)
+		    ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by env var %s) is incompatible with option(s) %.24s", 
+			     g->opt[i].name, g->opt[i].envvar, g->opt[i].incompat_opts); 
+		  else
+		    ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s is incompatible with option(s) %.24s", 
+			     g->opt[i].name, g->opt[i].incompat_opts); 
+		}
+	    }
+	}
+    }
+  return eslOK;
+}
+
+/* Function:  esl_opt_ArgNumber()
+ * Synopsis:  Returns number of command line arguments.
+ *
+ * Purpose:   Returns the number of command line arguments.
+ *            
+ *            Caller must have already called
+ *            <esl_opt_ProcessCmdline()>, in order for all the options
+ *            to be parsed first.  Everything left on the command line
+ *            is taken to be an argument.
+ */
+int
+esl_opt_ArgNumber(const ESL_GETOPTS *g)
+{
+  return ((g)->argc - (g)->optind);
+}
+
+
+/* Function:  esl_opt_SpoofCmdline()
+ * Synopsis:  Create faux command line from current option configuration.
+ *
+ * Purpose:   Given the current configuration state of the application
+ *            <g>, create a command line that would recreate the same
+ *            state by itself (without any environment or config file
+ *            settings), and return it in <*ret_cmdline>.
+ *            
+ * Returns:   <eslOK> on success. The <*ret_cmdline> is allocated here,
+ *            and caller is responsible for freeing it.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <*ret_cmdline> is <NULL>.
+ *
+ * Xref:      J4/24
+ */
+int
+esl_opt_SpoofCmdline(const ESL_GETOPTS *g, char **ret_cmdline)
+{
+  char *cmdline = NULL;
+  char *p       = NULL;
+  int   ntot    = 0;
+  int   n;
+  int   i, j;
+  int   status;
+
+  /* Application name/path */
+  ntot = strlen(g->argv[0]) + 1;
+  ESL_ALLOC(cmdline, sizeof(char) * (ntot+1));
+  sprintf(cmdline, "%s ", g->argv[0]);
+  
+  /* Options */
+  for (i = 0; i < g->nopts; i++)
+    if (g->setby[i] != eslARG_SETBY_DEFAULT) 
+      {
+	if (g->opt[i].type == eslARG_NONE) n = strlen(g->opt[i].name) + 1;
+	else                               n = (strlen(g->opt[i].name) + strlen(g->val[i])) + 2;
+
+	ESL_RALLOC(cmdline, p, sizeof(char) * (ntot + n + 1));
+
+	if (g->opt[i].type == eslARG_NONE) sprintf(cmdline + ntot, "%s ",    g->opt[i].name);
+	else                               sprintf(cmdline + ntot, "%s %s ", g->opt[i].name, g->val[i]);
+
+	ntot += n;
+      }
+
+  /* Arguments */
+  for (j = g->optind; j < g->argc; j++)
+    {
+      n = strlen(g->argv[j]) + 1;
+      ESL_RALLOC(cmdline, p, sizeof(char) * (ntot + n + 1));
+      sprintf(cmdline + ntot, "%s ", g->argv[j]);
+      ntot += n;
+    }
+
+  /* Terminate */
+  cmdline[ntot] = '\0';
+  *ret_cmdline = cmdline;
+  return eslOK;
+
+ ERROR:
+  if (cmdline != NULL) free(cmdline);
+  *ret_cmdline = NULL;
+  return status;
+}
+
+/*****************************************************************
+ *# 3. Retrieving option settings and command line args
+ *****************************************************************/ 
+
+/* Function:  esl_opt_IsDefault()
+ * Synopsis:  Returns <TRUE> if option remained at default setting.
+ *
+ * Purpose:   Returns <TRUE> if option <optname> is in its
+ *            default state; returns <FALSE> if <optname> was 
+ *            changed on the command line, in the environment, or in 
+ *            a configuration file.
+ */
+int
+esl_opt_IsDefault(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) != eslOK)  esl_fatal("no such option %s\n", optname);
+  if (g->setby[opti] == eslARG_SETBY_DEFAULT)          return TRUE;
+
+  if (g->val[opti] == NULL && g->opt[opti].defval == NULL) return TRUE;
+  if (esl_strcmp(g->opt[opti].defval, g->val[opti]) == 0)  return TRUE; /* option may have been set but restored to original default value */
+  return FALSE;
+}    
+
+/* Function:  esl_opt_IsOn()
+ * Synopsis:  Returns <TRUE> if option is set to a non-<NULL> value.
+ *
+ * Purpose:   Returns <TRUE> if option is on (set to a non-<NULL>
+ *            value). 
+ *            
+ *            This is most useful when using integer-, real-, char-,
+ *            or string-valued options also as boolean switches, where
+ *            they can either be OFF, or they can be turned ON by
+ *            having a value. Caller can test <esl_opt_IsOn()> to see
+ *            if the option's active at all, then use
+ *            <esl_opt_GetString()> or whatever to extract the option
+ *            value.
+ *            
+ *            For a boolean option, the result is identical to
+ *            <esl_opt_GetBoolean()>.
+ *
+ * Xref:      J4/83.
+ */
+int 
+esl_opt_IsOn(const ESL_GETOPTS *g, char *optname)
+{
+   int opti;
+
+   if (get_optidx_exactly(g, optname, &opti) != eslOK)  esl_fatal("no such option %s\n", optname);
+   if (g->val[opti] == NULL) return FALSE;
+   else                      return TRUE;
+}
+
+
+/* Function:  esl_opt_IsUsed()
+ * Synopsis:  Returns <TRUE> if option is on, and this is not the default.
+ *
+ * Purpose:   Returns <TRUE> if option <optname> is in use: it has been
+ *            set to a non-default value, and that value correspond to
+ *            the option being "on" (a non-<NULL> value).
+ *            
+ *            This is used in printing application headers, where
+ *            we want to report all the options that are in effect that
+ *            weren't already on by default.
+ *            
+ * Xref:      J4/83
+ */
+int
+esl_opt_IsUsed(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) != eslOK)  esl_fatal("no such option %s\n", optname);
+  if (esl_opt_IsDefault(g, optname)) return FALSE;
+  if (g->val[opti] == NULL)          return FALSE;
+  return TRUE;
+}
+
+
+/* Function:  esl_opt_GetSetter()
+ * Synopsis:  Returns code for who set this option.
+ *
+ * Purpose:   For a processed options object <g>, return the code
+ *            for who set option <optname>. This code is <eslARG_SETBY_DEFAULT>,
+ *            <eslARG_SETBY_CMDLINE>, <eslARG_SETBY_ENV>, or it
+ *            is $\geq$ <eslARG_SETBY_CFGFILE>. If the option 
+ *            was configured by a config file, the file number (the order
+ *            of <esl_opt_ProcessConfigFile()> calls) is encoded in codes
+ *            $\geq <eslARG_SETBY_CFGFILE>$ as
+ *            file number $=$ <code> - <eslARG_SETBY_CFGFILE> + 1.
+ */
+int
+esl_opt_GetSetter(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) != eslOK)  esl_fatal("no such option %s\n", optname);
+  return g->setby[opti];
+}
+
+
+/* Function:  esl_opt_GetBoolean()
+ * Synopsis:  Retrieve <TRUE>/<FALSE> for a boolean option.
+ *
+ * Purpose:   Retrieves the configured TRUE/FALSE value for option <optname>
+ *            from <g>.
+ */
+int
+esl_opt_GetBoolean(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
+    esl_fatal("no such option %s\n", optname);
+  if (g->opt[opti].type != eslARG_NONE)
+    esl_fatal("option %s is not a boolean", optname);
+
+  if (g->val[opti] == NULL) return FALSE;
+  else                      return TRUE;
+}
+
+/* Function:  esl_opt_GetInteger()
+ * Synopsis:  Retrieve value of an integer option.
+ *
+ * Purpose:   Retrieves the configured value for option <optname>
+ *            from <g>.
+ */
+int
+esl_opt_GetInteger(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
+    esl_fatal("no such option %s\n", optname);
+  if (g->opt[opti].type != eslARG_INT)
+    esl_fatal("option %s does not take an integer arg", optname);
+  return atoi(g->val[opti]);
+}
+		
+/* Function:  esl_opt_GetReal()
+ * Synopsis:  Retrieve value of a real-valued option.
+ *
+ * Purpose:   Retrieves the configured value for option <optname>
+ *            from <g>.
+ */
+double
+esl_opt_GetReal(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
+    esl_fatal("no such option %s\n", optname);
+  if (g->opt[opti].type != eslARG_REAL)
+    esl_fatal("option %s does not take a real-valued arg", optname);
+
+  return (atof(g->val[opti]));
+}
+
+/* Function:  esl_opt_GetChar()
+ * Synopsis:  Retrieve value of a character option.
+ *
+ * Purpose:   Retrieves the configured value for option <optname>
+ *            from <g>.
+ */
+char
+esl_opt_GetChar(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
+    esl_fatal("no such option %s\n", optname);
+  if (g->opt[opti].type != eslARG_CHAR)
+    esl_fatal("option %s does not take a char arg", optname);
+
+  return (*g->val[opti]);
+}
+
+/* Function:  esl_opt_GetString()
+ * Synopsis:  Retrieve value of a string option.
+ *
+ * Purpose:   Retrieves the configured value for option <optname>
+ *            from <g>.
+ *
+ *            This retrieves options of type <eslARG_STRING>,
+ *            obviously, but also options of type <eslARG_INFILE>
+ *            and <eslARG_OUTFILE>.
+ */
+char *
+esl_opt_GetString(const ESL_GETOPTS *g, char *optname)
+{
+  int opti;
+
+  if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
+    esl_fatal("no such option %s\n", optname);
+  if (g->opt[opti].type != eslARG_STRING &&
+      g->opt[opti].type != eslARG_INFILE &&
+      g->opt[opti].type != eslARG_OUTFILE)
+    esl_fatal("option %s does not take a string arg", optname);
+
+  return g->val[opti];
+}
+
+
+/* Function:  esl_opt_GetArg()
+ * Synopsis:  Retrieve numbered command line argument.
+ *
+ * Purpose:   Returns a pointer to command line argument number
+ *            <which>, where <which> ranges from <1..n> for <n>
+ *            total arguments.
+ *
+ *            If the caller has already verified that <n> arguments
+ *            exist by testing <esl_opt_ArgNumber(g) == n>,
+ *            <esl_opt_GetArg()> is guaranteed to return non-<NULL>
+ *            arguments for <which = 1..n>.
+ *            
+ *            Caller is responsible for verifying that the argument
+ *            makes sense for what it's supposed to be.
+ *
+ * Returns:   A pointer to command line argument <which> on success, or 
+ *            <NULL> if there is no such argument.
+ */
+char *
+esl_opt_GetArg(const ESL_GETOPTS *g, int which)
+{
+  if (which <= 0)                    return NULL;
+  if (g->optind+which-1 >= g->argc)  return NULL;
+  return g->argv[g->optind+which-1];
+}
+
+
+/*****************************************************************
+ * 4. Formatting option help
+ *****************************************************************/ 
+
+/* Function:  esl_opt_DisplayHelp()
+ * Synopsis:  Formats one-line help for each option.
+ *
+ * Purpose:   For each option in <go>, print one line of brief
+ *            documentation for it, consisting of the option name
+ *            (and argument, if any) and the help string. If space
+ *            allows, default values for the options (if any) are
+ *            shown in brackets. If space still allows, range restrictions 
+ *            for the options (if any) are shown in parentheses.
+ *
+ *            If <docgroup> is non-zero, help lines are only printed
+ *            for options with the matching <go->opt[i].docgrouptag>.
+ *            This allows the caller to group option documentation
+ *            into multiple sections with different headers. To
+ *            print all options in one call, pass 0 for <docgroup>.
+ *            
+ *            <indent> specifies how many spaces to prefix each line with.
+ *            
+ *            <textwidth> specifies the maximum text width for the
+ *            line.  This would typically be 80 characters. Lines are
+ *            not allowed to exceed this length. If a line does exceed
+ *            this length, range restriction display is silently
+ *            dropped (for all options). If any line still exceeds
+ *            <textwidth>, the default value display is silently dropped,
+ *            for all options. If any line still exceeds <textwidth>, even 
+ *            though it now consists almost solely of the option name and 
+ *            its help string, an <eslEINVAL> error is thrown. The
+ *            caller should either shorten the help string(s) or 
+ *            increase the <textwidth>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if one or more help lines are too long for
+ *                        the specified <textwidth>.
+ *            <eslEWRITE> if a write fails.
+ */
+int
+esl_opt_DisplayHelp(FILE *ofp, ESL_GETOPTS *go, int docgroup, int indent,
+		    int textwidth)
+{
+  int optwidth     = 0;		/* maximum width for "-foo <n>" options */
+  int helpwidth[3] = {0,0,0};	/* 0=everything; 1=with defaults, no range; 2=help string only */
+  int show_defaults;
+  int show_ranges;
+  int i, n;
+
+  /* Figure out the field widths we need in the output.
+   */
+  for (i = 0; i < go->nopts; i++)
+    if (! docgroup || docgroup == go->opt[i].docgrouptag)
+      {
+	n = strlen(go->opt[i].name);                /* "--foo"  */
+	if (go->opt[i].type != eslARG_NONE) n += 4; /* + " <n>" */ 
+	if (n > optwidth) optwidth = n;
+
+	n = 2;                                 /* init with " : " */
+	if (go->opt[i].help != NULL) 
+	  n = strlen(go->opt[i].help) + 1;     /* include " " in width */
+	if (n > helpwidth[2]) helpwidth[2] = n;
+
+	if (go->opt[i].defval != NULL)
+	  n += strlen(go->opt[i].defval) + 4;  /* include "  []" in width */
+	if (n > helpwidth[1]) helpwidth[1] = n;
+
+	if (go->opt[i].range != NULL)
+	  n += strlen(go->opt[i].range) + 4;   /* include "  ()" in width */
+	if (n > helpwidth[0]) helpwidth[0] = n;
+      }
+
+  /* Figure out what we have room for.
+   */
+  if (indent + optwidth + helpwidth[0] <= textwidth)
+    {
+      show_defaults = TRUE;
+      show_ranges   = TRUE;
+    }
+  else if (indent + optwidth + helpwidth[1] <= textwidth)
+    {
+      show_defaults = TRUE;
+      show_ranges   = FALSE;
+    }
+  else if (indent + optwidth + helpwidth[2] <= textwidth)
+    {
+      show_defaults = FALSE;
+      show_ranges   = FALSE;
+    }
+  else ESL_EXCEPTION(eslEINVAL, "Help line too long");
+
+  /* Format and print the options in this docgroup. */
+  for (i = 0; i < go->nopts; i++)
+    if (! docgroup || docgroup == go->opt[i].docgrouptag)
+      {
+	if (fprintf(ofp, "%*s", indent, "")      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	n = 0;
+	if (fprintf(ofp, "%s",  go->opt[i].name) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	n += strlen(go->opt[i].name);
+
+	switch (go->opt[i].type) {
+	case eslARG_NONE:    break;
+	case eslARG_INT:     if (fprintf(ofp, " <n>") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); n += 4; break;
+	case eslARG_REAL:    if (fprintf(ofp, " <x>") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); n += 4; break;
+	case eslARG_CHAR:    if (fprintf(ofp, " <c>") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); n += 4; break;
+	case eslARG_STRING:  if (fprintf(ofp, " <s>") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); n += 4; break;
+	case eslARG_INFILE:  if (fprintf(ofp, " <f>") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); n += 4; break;
+	case eslARG_OUTFILE: if (fprintf(ofp, " <f>") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); n += 4; break;
+	}
+
+	if (fprintf(ofp, "%*s", optwidth-n, "") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	if (fprintf(ofp, " :")                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+	if (go->opt[i].help != NULL)
+	  { if (fprintf(ofp, " %s", go->opt[i].help) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+	
+	if (show_defaults && go->opt[i].defval != NULL) 
+	  if (go->opt[i].type != eslARG_CHAR || *(go->opt[i].defval) != '\0')
+	    { if (fprintf(ofp, "  [%s]", go->opt[i].defval) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+	if (show_ranges && go->opt[i].range != NULL)
+	  { if (fprintf(ofp, "  (%s)", go->opt[i].range) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+	if (fprintf(ofp, "\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      }
+  return eslOK;
+}
+/*------------------ end of the public API -----------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 5. Miscellaneous private functions 
+ *****************************************************************/ 
+
+/* set_option()
+ * 
+ * Turn option <opti> ON (if it's a boolean) or set its option
+ * argument to <optarg>. Record that it was set by <setby> (e.g. 
+ * <eslARG_SETBY_CMDLINE>). 
+ * 
+ * <do_alloc> is a TRUE/FALSE flag. If <arg> is a pointer to a string
+ * that isn't going to go away (e.g. into argv[], or into the
+ * environment) we can get away with just pointing our option's val
+ * at <arg>. But if <arg> is pointing to something volatile (e.g. 
+ * the line buffer as we're reading a file) then we need to
+ * strdup the arg -- and remember that we did that, so we free()
+ * it when we destroy the getopts object.
+ * 
+ * All user errors (problems with optarg) are normal (returned) errors of 
+ * type <eslESYNTAX>, which leave an error message in <g->errbuf>. 
+ * 
+ * May also throw <eslEMEM> on allocation failure, or <eslEINVAL>
+ * if something's wrong internally, usually indicating a coding error
+ * in the application's <ESL_OPTIONS> structure.
+ */
+int
+set_option(ESL_GETOPTS *g, int opti, char *optarg, int setby, int do_alloc)
+{
+  int   arglen;
+  char *where;
+  char *s;
+  int   togi;
+  int   status;
+  void *tmp;
+
+  if       (setby == eslARG_SETBY_DEFAULT) where = "as default";
+  else if  (setby == eslARG_SETBY_CMDLINE) where = "on cmdline";
+  else if  (setby == eslARG_SETBY_ENV)     where = "in env";
+  else if  (setby >= eslARG_SETBY_CFGFILE) where = "in cfgfile";
+
+  /* Have we already set this option? */
+  if (g->setby[opti] == setby)
+    ESL_FAIL(eslESYNTAX, g->errbuf,
+	     "Option %.24s has already been set %s.", 
+	     g->opt[opti].name, where);
+
+  /* Type and range check the option argument.
+   */
+  if (verify_type_and_range(g, opti, optarg, setby) != eslOK) return eslESYNTAX;	
+  
+  /* Set the option, being careful about when val 
+   * is alloc'ed vs. not.
+   */
+  g->setby[opti] = setby;
+  if (g->opt[opti].type == eslARG_NONE)	/* booleans: any non-NULL is TRUE... */
+    {					                           /* watch out for booleans getting toggled off/on */
+      if (g->opt[opti].defval) g->val[opti] = g->opt[opti].defval; /* use default string if provided: IsDefault() needs this */
+      else                     g->val[opti] = (char *) TRUE;       /* else 0x1 will do fine. */
+    }
+  else
+    {
+      /* If do_alloc is FALSE or the optarg is NULL, then:
+       *    - free any previous alloc; 
+       *    - set the pointer.
+       */
+      if (!do_alloc || optarg == NULL) 
+	{
+	  if (g->valloc[opti] > 0) { free(g->val[opti]); g->valloc[opti] = 0; }
+	  g->val[opti] = optarg;
+	}
+      /* else do_alloc is TRUE, so:
+       *    - make sure we have enough room, either reallocating or allocating
+       *    - copy the arg.
+       */
+      else
+	{
+	  arglen = strlen(optarg);
+	  if (g->valloc[opti] < arglen+1) 
+	    {
+	      if (g->valloc[opti] == 0)	ESL_ALLOC (g->val[opti],      sizeof(char) * (arglen+1));
+	      else    		        ESL_RALLOC(g->val[opti], tmp, sizeof(char) * (arglen+1));
+	      g->valloc[opti] = arglen+1;
+	    }
+	  strcpy(g->val[opti], optarg);
+	}
+    }
+
+  /* Unset all options toggle-tied to this one.
+   */
+  s = g->opt[opti].toggle_opts;
+  while ((status = process_optlist(g, &s, &togi)) != eslEOD)
+    {
+      if (status != eslOK) ESL_EXCEPTION(eslEINVAL, "something's wrong with format of optlist: %s\n", s);
+      if (togi == opti)         continue; /* ignore ourself, so we can have one toggle list per group */
+      if (g->val[togi] == NULL) continue; /* it's already off; don't touch it */
+
+      if (g->setby[togi] == setby)
+	ESL_FAIL(eslESYNTAX, g->errbuf,
+		 "Options %.24s and %.24s conflict, toggling each other.", 
+		 g->opt[togi].name, g->opt[opti].name);
+	  
+      g->setby[togi] = setby;   /* indirectly, but still */
+      if (g->valloc[togi] > 0) 	/* careful about val's that were alloc'ed */
+	{ free(g->val[togi]); g->valloc[togi] = 0; }
+      g->val[togi] = NULL;    /* ok for false booleans too */
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* get_optidx_exactly():
+ * 
+ * Find option named <optname> in <g>; set <ret_opti> to be
+ * the index of the option, and return eslOK. <optname>
+ * must exactly match one of the options in <g>.
+ * 
+ * If the option is not found, return eslENOTFOUND.
+ */
+static int
+get_optidx_exactly(const ESL_GETOPTS *g, char *optname, int *ret_opti)
+{
+  int i;
+
+  for (i = 0; i < g->nopts; i++)
+    if (strcmp(optname, g->opt[i].name) == 0) { *ret_opti = i; return eslOK; }
+  return eslENOTFOUND;
+}
+
+/* get_optidx_abbrev():
+ * 
+ * Find option named <optname> in <g>; set <ret_opti> to be the index
+ * of the option, and return eslOK. Allow <optname> to be an
+ * abbreviation of one of the option names in <g>, so long as it is
+ * unambiguous. If <n> is >0, the <optname> has an attached argument
+ * (--foo=arg) and <n> is the # of characters before the = character
+ * that we should match to find the option (5, in this example).
+ * 
+ * If the option is not found, return <eslENOTFOUND>.
+ * If <optname> ambiguously matches two or more options in <g>,
+ * return <eslEAMBIGUOUS>.
+ */
+static int
+get_optidx_abbrev(ESL_GETOPTS *g, char *optname, int n, int *ret_opti)
+{
+  int nabbrev = 0;
+  int nexact  = 0;
+  int i;
+
+  if (n == 0) 			/* unless we're told otherwise: */
+    n = strlen(optname);	/* all of optname abbrev must match against the real name */
+
+  for (i = 0; i < g->nopts; i++)
+    if (strncmp(g->opt[i].name, optname, n) == 0)
+      {
+	nabbrev++;
+	*ret_opti = i;
+	if (n == strlen(g->opt[i].name)) { nexact++; break; } /* an exact match; can stop now (xref bug #e4) */
+      }
+  if (nexact != 1 && nabbrev > 1)  return eslEAMBIGUOUS;
+  if (nabbrev == 0)                return eslENOTFOUND;
+  return eslOK;
+}
+/*----------- end of private functions for retrieving option indices -------------*/
+
+
+
+/*****************************************************************
+ * Private functions for processing options out of a command line
+ *****************************************************************/ 
+
+/* esl_getopts():
+ * 
+ * Get the next option in argv[], and its argument (if any),
+ * and pass this information back via <ret_opti> (index of
+ * next option) and <ret_optarg).
+ * 
+ * Return <eslOK> on success, <eslEOD> if we're out of
+ * options. 
+ * 
+ * Returns <eslESYNTAX> and sets <g->errbuf> to a useful error
+ * message if something's wrong with one of the user's options.
+ *
+ * Throws <eslEINVAL> if something's wrong internally with the 
+ * <ESL_OPTIONS> structure. 
+ */
+static int
+esl_getopts(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg)
+{
+  *ret_optarg  = NULL; 
+
+  /* Check to see if we've run out of options.
+   * A '-' by itself is an argument (e.g. "read from stdin"), not an option.
+   */
+  if (g->optstring == NULL &&
+      (g->optind >= g->argc || g->argv[g->optind][0] != '-' || strcmp(g->argv[g->optind], "-") == 0))
+    return eslEOD; 		/* normal end-of-data (end of options) return  */
+
+  /* Check to see if we're being told that this is the end
+   * of the options with the special "--" flag.
+   */
+  if (g->optstring == NULL &&
+      strcmp(g->argv[g->optind], "--") == 0)
+    { 
+      g->optind++;
+      return eslEOD; 		/* also a normal end-of-data return */
+    }
+
+  /* We have an option: an argv element that starts with -, but is
+   * not "-" or "--".
+   * 
+   * We know the strncmp() test is ok for 2 chars, because if the option was
+   * 1 char, we would've already caught it above (either it's a bare "-"
+   * or it's a single non-option char, and in either case it's not an option
+   * and we returned eslEOD.
+   * 
+   * Watch out for the case where we're in the middle of a concatenated optstring
+   * of single-letter options, a la -abc
+   */
+  if (g->optstring == NULL && strncmp(g->argv[g->optind], "--", 2) == 0)
+    return process_longopt(g, ret_opti, ret_optarg);
+  else 
+    return process_stdopt(g, ret_opti, ret_optarg);
+}
+
+/* process_longopt():
+ *
+ * optind is sitting on a long option, w/ syntax of one of these forms:
+ *       --foo        
+ *       --foo arg
+ *       --foo=arg
+ * (GNU getopt long option syntax.)
+ * 
+ * Allow unambiguous abbreviations of long options when matching;
+ * e.g. --foo is ok for matching a long option --foobar.
+ * 
+ * Returns <eslOK> on success, returning the option number through
+ * <ret_opti>, and a ptr to its argument through <ret_optarg> (or NULL
+ * if this option takes no argument.) Internally, g->optind is
+ * advanced to next argv element (+1, +2, +1, respectively, for --foo,
+ * --foo arg, --foo=arg).
+ *
+ * Returns <eslESYNTAX> and sets a useful error mesg in <g->errbuf> if:
+ *   1. Option can't be found in opt[].
+ *   2. Option abbreviation is ambiguous, matching opt[] nonuniquely.
+ *   3. Option takes an argument, but no argument found.
+ *   4. Option does not take an argument, but one was provided by =arg syntax.
+ * All of these are user input errors.
+
+ */
+static int
+process_longopt(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg)
+{
+  int   opti;		/* option number found                               */
+  char *argptr;		/* ptr to arg in --foo=arg syntax                    */
+  int   n;		/* length of argv elem's option part (up to = or \0) */
+  int   status;
+
+  /* Deal with options of syntax "--foo=arg" w/o modifying argv.
+   */
+  if ((argptr = strchr(g->argv[g->optind], '=')) != NULL)
+    { n = argptr - g->argv[g->optind]; argptr++; } /* bump argptr off the = to the arg itself */
+  else
+    { n = strlen(g->argv[g->optind]); } /* and argptr == NULL from above. */
+
+  /* Figure out which option this is.
+   * The trick here is to allow abbreviations, and identify
+   * ambiguities while we're doing it. (GNU getopt allows abbrevs.)
+   */
+  status = get_optidx_abbrev(g, g->argv[g->optind], n, &opti);
+  if (status == eslEAMBIGUOUS)
+    ESL_FAIL(eslESYNTAX, g->errbuf, "Abbreviated option \"%.24s\" is ambiguous.", g->argv[g->optind]);
+  else if (status == eslENOTFOUND)
+    ESL_FAIL(eslESYNTAX, g->errbuf, "No such option \"%.24s\".", g->argv[g->optind]);
+  else if (status != eslOK)
+    ESL_EXCEPTION(eslEINCONCEIVABLE, "Something went wrong with option \"%.24s\".", g->argv[g->optind]);
+
+  *ret_opti    = opti;
+  g->optind++;	/* optind was on the option --foo; advance the counter to next argv element */
+
+  /* Find the argument, if there is supposed to be one.
+   */
+  if (g->opt[opti].type != eslARG_NONE) 
+    {
+      if (argptr != NULL)	/* if --foo=arg syntax, then we already found it */
+	*ret_optarg = argptr;
+      else if (g->optind >= g->argc)
+	ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s requires an argument.", g->opt[opti].name);
+      else {			/* "--foo 666" style, with a space */
+	*ret_optarg = g->argv[g->optind++];	/* assign optind as the arg, advance counter */
+
+	/* Watch out for options masquerading as missing arguments. */
+	if ((g->opt[opti].type == eslARG_STRING || g->opt[opti].type == eslARG_INFILE || g->opt[opti].type == eslARG_OUTFILE)
+	    && **ret_optarg == '-')
+	  ESL_FAIL(eslESYNTAX, g->errbuf,
+		   "Arg looks like option? Use %.24s=%.24s if you really mean it.",  
+		   g->opt[opti].name, *ret_optarg);
+      }
+    }
+  else  /* if there's not supposed to be an arg, but there is, then die */
+    {
+      if (argptr != NULL) 
+	ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s does not take an argument.", g->opt[opti].name);
+      *ret_optarg = NULL;
+    }
+  return eslOK;
+}
+
+/* process_stdopt():
+ * 
+ * Either we're in the middle of working on an optstring (and optind
+ * is sitting on the next argv element, which may be an argument of
+ * the last char in the optstring), or optind is sitting on a "-"
+ * option and we should start working on a new optstring. That is,
+ * we're dealing with standard one-char options, which may be
+ * concatenated into an optstring.
+ * 
+ * Only the last optchar in a optstring may take an argument. The argument
+ * is either the remainder of the argv element (if any) or if not, the
+ * next argv element.
+ * 
+ * Examples of syntax:
+ *       -a
+ *       -W arg
+ *       -Warg
+ *       -abc
+ *       -abcW arg
+ *       -abcWarg
+ *       
+ * Process next optchar; return <eslOK> on success, returning option
+ * number through <ret_opti> and a pointer to any argument through
+ * <ret_optarg>. Internally, optind is advanced to the next argv element;
+ * either 0, +1, or +2, depending on whether we're still processing an
+ * optstring from a prev optind, starting a new optstring, or reading
+ * a "-W arg" form, respectively.
+ * 
+ * Returns <eslESYNTAX> and sets <g->errbuf> to a helpful error mesg if:
+ *   1. The option doesn't exist.
+ *   2. The option takes an argument, but none was found.
+ *   3. The option takes an untypechecked argument (eslARG_STRING, 
+ *      eslARG_INFILE, or eslARG_OUTFILE), the argument is unattached 
+ *      (space-delimited), and it appears to be an option instead of 
+ *      an argument, because it starts with '-'. 
+ * All these are user input errors.
+ */
+static int
+process_stdopt(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg)
+{
+  int opti;
+
+  /* Do we need to start a new optstring in a new argv element?
+   * (as opposed to still being in an optstring from a prev parse)
+   */
+  if (g->optstring == NULL)     
+    g->optstring = g->argv[g->optind++]+1; /* init optstring on first option char; advance optind */
+
+  /* Figure out what option this optchar is
+   */
+  for (opti = 0; opti < g->nopts; opti++)
+    if (*(g->optstring) == g->opt[opti].name[1]) break;	/* this'll also fail appropriately for long opts. */
+  if (opti == g->nopts)
+    ESL_FAIL(eslESYNTAX, g->errbuf, "No such option \"-%c\".", *(g->optstring));
+  *ret_opti    = opti;
+
+  /* Find the argument, if there's supposed to be one */
+  if (g->opt[opti].type != eslARG_NONE) 
+    {
+      if (*(g->optstring+1) != '\0')   /* attached argument case, a la -Warg */
+	*ret_optarg = g->optstring+1;
+      else if (g->optind < g->argc) {  /* unattached argument; assign optind, advance counter  */
+	*ret_optarg = g->argv[g->optind++];
+
+	/* Watch out for options masquerading as missing arguments. */
+	if ((g->opt[opti].type == eslARG_STRING || g->opt[opti].type == eslARG_INFILE || g->opt[opti].type == eslARG_OUTFILE)
+	    && **ret_optarg == '-')
+	  ESL_FAIL(eslESYNTAX, g->errbuf,
+		   "Arg looks like option? Use %.24s%.24s if you really mean it.",
+		   g->opt[opti].name, *ret_optarg);
+      } else 
+	ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s requires an argument", g->opt[opti].name);
+
+      g->optstring = NULL;   /* An optchar that takes an arg must terminate an optstring. */
+    }
+  else  /* if there's not supposed to be an argument, then check if we're still in an optstring */
+    {
+      *ret_optarg = NULL;
+      if (*(g->optstring+1) != '\0')   /* yup, we're still in an optstring */
+	g->optstring++; 
+      else
+	g->optstring = NULL;           /* nope, that's it; move to next field in args */
+    }
+  return eslOK;
+}
+/*----------- end of private functions for processing command line options -------------*/
+
+
+
+
+/*****************************************************************
+ * Private functions for type and range checking.
+ *****************************************************************/
+
+/* verify_type_and_range():
+ *
+ * Implementation of type and range checking for options.
+ *
+ * Given a value <val> (as a string) for option <i> in the option
+ * object <g>, verify that <val> satisfies the appropriate type and
+ * range.  If successful, return <eslOK>. 
+ * 
+ * The <setby> flag is used to help format useful error messages,
+ * by saying who was responsible for a bad <val>.
+ *
+ * Returns: <eslOK> on success.
+ *          Returns <eslESYNTAX> if <val> fails type/range checking,
+ *          and <g->errbuf> is set to contain an error report for the user.
+ *
+ * Throws:  <eslEINVAL>:         a range string format was bogus.
+ *          <eslEINCONCEIVABLE>: "can't happen" internal errors.
+ */
+static int
+verify_type_and_range(ESL_GETOPTS *g, int i, char *val, int setby)
+{
+  char *where;
+
+  if       (setby == eslARG_SETBY_DEFAULT) where = "as default";
+  else if  (setby == eslARG_SETBY_CMDLINE) where = "on cmdline";
+  else if  (setby == eslARG_SETBY_ENV)     where = "in env";
+  else if  (setby >= eslARG_SETBY_CFGFILE) where = "in cfgfile";
+
+  /* A special case: Any option may be "unset" by default by having a
+   * NULL default value.  Thus, for instance, an eslARG_REAL can be
+   * off by default, or set to a value by a command line option.
+   */
+  if (setby == eslARG_SETBY_DEFAULT && val == NULL) 
+    return eslOK;
+
+  switch (g->opt[i].type) {
+  case eslARG_NONE:	
+    /* treat as unchecked, because val may be "on", 0x1, "true", etc.:
+     * any non-NULL ptr means on, and NULL means off.
+     */
+    break;
+
+  case eslARG_INT:
+    if (! esl_str_IsInteger(val))
+      ESL_FAIL(eslESYNTAX, g->errbuf, 
+	       "Option %.24s takes integer arg; got %.24s %s", 
+	       g->opt[i].name, val, where);
+
+    if (verify_integer_range(val, g->opt[i].range) != eslOK)
+      ESL_FAIL(eslESYNTAX, g->errbuf,
+	       "option %.24s takes integer arg in range %.24s; got %.24s %s", 
+	       g->opt[i].name, g->opt[i].range, val, where);
+    break;
+
+  case eslARG_REAL:
+    if (! esl_str_IsReal(val))
+      ESL_FAIL(eslESYNTAX, g->errbuf, 
+	       "Option %.24s takes real-valued arg; got %.24s %s",
+	       g->opt[i].name, val, where);
+
+    if (verify_real_range(val, g->opt[i].range) != eslOK)
+      ESL_FAIL(eslESYNTAX, g->errbuf,
+	       "Option %.24s takes real-valued arg in range %.24s; got %.24s %s", 
+	       g->opt[i].name, g->opt[i].range, val, where);
+    break;
+
+  case eslARG_CHAR:
+    if (strlen(val) > 1)
+      ESL_FAIL(eslESYNTAX, g->errbuf,
+	       "Option %.24s takes char arg; got %.24s %s",
+	       g->opt[i].name, val, where);
+
+    if (verify_char_range(val, g->opt[i].range) != eslOK)
+      ESL_FAIL(eslESYNTAX, g->errbuf, 
+	       "Option %.24s takes char arg in range %.24s; got %.24s %s", 
+	       g->opt[i].name, g->opt[i].range, val, where);
+    break;
+
+  case eslARG_STRING:  /* unchecked type. */
+  case eslARG_INFILE:  
+  case eslARG_OUTFILE: 
+    if (g->opt[i].range != NULL)
+      ESL_EXCEPTION(eslEINVAL, "option %s takes a string arg that can't be range checked",  g->opt[i].name);
+    break;			
+    
+  default: 
+    ESL_EXCEPTION(eslEINVAL, "no such argument type");
+  }
+
+  return eslOK;
+}
+
+
+/* verify_integer_range():
+ * 
+ * Returns <eslOK> if the string <arg>, when converted to an integer
+ * by atoi(), gives a value that lies within the given <range>, if
+ * <range> is non-NULL. (If <range> is NULL, there is no constraint on
+ * the range of this <arg>, so return TRUE.) Else, <arg> does not lie
+ * in the <range>; return <eslERANGE> (a user input error). If <range>
+ * itself is misformatted, return <eslEINVAL> (a coding error).
+ * 
+ * Range must be in one of three formats, matched
+ * by these regexps (though regexps aren't used by the
+ * parser):
+ *        n>=?(\d+)           lower bound 
+ *        n<=?(\d+)           upper bound
+ *        (\d+)<=?n<=?(\d+)   lower and upper bound
+ * Optional = signs indicate whether a bound is 
+ * inclusive or not. The "n" character indicates the
+ * given integer value.       
+ * 
+ * Returns:  <eslOK>:      <arg> is within allowed <range>.
+ *           <eslERANGE>:  <arg> is not within allowed <range>.
+ *           <eslEINVAL>:  something wrong with <range> string.
+ */
+static int
+verify_integer_range(char *arg, char *range)
+{
+  int   n;
+  int   upper, lower;		/* upper, lower bounds */
+  char *up, *lp;		
+  int   geq, leq;	        /* use >=, <= instead of >, < */
+  
+  if (range == NULL) return eslOK;
+  n = atoi(arg);
+
+  if (parse_rangestring(range, 'n', &lp, &geq, &up, &leq) != eslOK) return eslEINVAL;
+
+  if (lp != NULL) {
+    lower = atoi(lp);
+    if ((geq && ! (n >= lower)) || (!geq && !(n > lower))) return eslERANGE;
+  }
+
+  if (up != NULL) {
+    upper = atoi(up);
+    if ((leq && ! (n <= upper)) || (!leq && !(n < upper))) return eslERANGE;
+  }
+  return eslOK;
+}
+
+
+
+/* verify_real_range():
+ * 
+ * Verify that a string <arg>, when converted to a
+ * double-precision real by atof(), gives a value that lies
+ * within the range defined by <range>. If <range> is NULL,
+ * there is no range constraint, and any <arg> is valid.
+ *
+ * Returns:  <eslOK>:      <arg> is within allowed <range>.
+ *           <eslERANGE>:  <arg> is not within allowed <range>.
+ *           <eslEINVAL>: something wrong with <range> string.
+ */
+static int
+verify_real_range(char *arg, char *range)
+{
+  double x;
+  double upper, lower;		/* upper, lower bounds */
+  char  *up, *lp;		
+  int    geq, leq;	        /* use >=, <= instead of >, < */
+  
+  if (range == NULL) return eslOK;
+  x = atof(arg);
+  
+  if (parse_rangestring(range, 'x', &lp, &geq, &up, &leq) != eslOK) 
+    return eslEINVAL;
+
+  if (lp != NULL)
+    {
+      lower = atof(lp);
+      if ((geq && ! (x >= lower)) || (!geq && !(x > lower)))
+	return eslERANGE;
+    }
+
+  if (up != NULL) 
+    {
+      upper = atof(up);
+      if ((leq && ! (x <= upper)) || (!leq && !(x < upper)))
+	return eslERANGE;
+    }
+  return eslOK;
+}
+
+
+/* verify_char_range():
+ * 
+ * Verify that a string <arg>, when interpreted as a single
+ * char argument, is a character that lies within the defined
+ * <range>. If <range> is NULL, there is no range constraint,
+ * and any <arg> is valid.
+ *
+ * Currently, <range> expression is limited to ASCII chars that can be
+ * expressed as single chars. Could improve by allowing integer ASCII
+ * codes, or backslash escapes.
+ *
+ * Returns:  <eslOK>:      <arg> is within allowed <range>.
+ *           <eslERANGE>:  <arg> is not within allowed <range>.
+ *           <eslEINVAL>: something wrong with <range> string.
+ */
+static int
+verify_char_range(char *arg, char *range)
+{
+  char   c;
+  char  *upper, *lower;		
+  int    geq, leq;	        /* use >=, <= instead of >, < */
+  
+  if (range == NULL) return eslOK;
+  c = *arg;
+
+  if (parse_rangestring(range, 'c', &lower, &geq, &upper, &leq) != eslOK) 
+    return eslEINVAL;
+
+  if (lower != NULL)
+    {
+      if ((geq && ! (c >= *lower)) || (!geq && !(c > *lower)))
+	return eslERANGE;
+    }
+
+  if (upper != NULL) 
+    {
+      if ((leq && ! (c <= *upper)) || (!leq && !(c < *upper)))
+	return eslERANGE;
+    }
+  return eslOK;
+}
+
+
+
+/* parse_rangestring():
+ * 
+ * Given a range definition string in one of the following forms:
+ *        c>=?(\d+)           lower bound 
+ *        c<=?(\d+)           upper bound
+ *        (\d+)<=?c<=?(\d+)   lower and upper bound
+ * where <c> is a one-character marker expected for the 
+ * argument type ('n' for integers, 'f' for floating-point values,
+ * 'c' for characters).
+ * 
+ * Sets pointers to upper and lower bound strings, for parsing by
+ * atoi() or atof() as appropriate.
+ * Sets geq, leq flags to TRUE if bounds are supposed to be inclusive.
+ * 
+ * Returns <eslOK> on success, <eslEINVAL> if the range string
+ * is invalid. No errors are thrown here, so caller can format a
+ * useful error message if range string is bogus.
+ */
+static int
+parse_rangestring(char *range, char c, char **ret_lowerp, int *ret_geq, char **ret_upperp, int *ret_leq)
+{
+  char *ptr;
+
+  *ret_geq    = *ret_leq    = FALSE;	/* 'til proven otherwise */
+  *ret_lowerp = *ret_upperp = NULL;     /* 'til proven otherwise */
+
+  if ((ptr = strchr(range, c)) == NULL) return eslEINVAL;
+  if (ptr == range)	/* we're "n>=a" or "n<=b" form, where n came first */  
+    {
+      if (ptr[1] == '>') /* "n>=a" form; lower bound */
+	{
+	  if (ptr[2] == '=') { *ret_geq = TRUE; *ret_lowerp = ptr+3; } 
+	  else *ret_lowerp = ptr+2;
+	}
+      else if (ptr[1] == '<') /* "n<=a" form; upper bound */
+	{
+	  if (ptr[2] == '=') { *ret_leq = TRUE; *ret_upperp = ptr+3; }
+	  else *ret_upperp = ptr+2;
+	}
+      else return eslEINVAL;
+    }
+  else	/* we're in a<=n<=b form; upper bound after n, lower before */
+    {
+      if (*(ptr+1) != '<') return eslEINVAL;
+      if (*(ptr+2) == '=') { *ret_leq = TRUE; *ret_upperp = ptr+3; } else *ret_upperp = ptr+2;
+
+      ptr--;
+      if (*ptr == '=') { *ret_geq = TRUE; ptr--; }
+      if (*ptr != '<') return eslEINVAL;
+      *ret_lowerp = range;	/* start of string */
+    }
+  return eslOK;
+}
+
+/*-------------- end of private type/range-checking functions ----------------*/
+
+
+
+
+/*****************************************************************
+ * Private functions for checking optlists (toggles, required options, 
+ * and incompatible options
+ *****************************************************************/
+
+/* process_optlist():
+ *
+ * Given a pointer <s> to the next option name in 
+ * a comma-delimited list, figure out what option
+ * this is; set <ret_opti> to its index. If another
+ * option remains in the optlist, reset <s> to
+ * the start of it, for the next call to process_optlist().
+ * If no options remain after this one, reset <s> to NULL.
+ * 
+ * Returns: <eslOK> if an option has been successfully parsed
+ *          out of the list and <ret_opti> is valid;
+ *          <eslEOD> if no more option remains (<s> is NULL,
+ *          or points to a \0).
+ *          <eslEINVAL> if an option in the list isn't
+ *          recognized (a coding error).         
+ */
+static int 
+process_optlist(ESL_GETOPTS *g, char **ret_s, int *ret_opti)
+{
+  char *s;
+  int   i;
+  int   n;
+  
+  if ((s = *ret_s) == NULL) return eslEOD;
+  if (*s == '\0')           return eslEOD;
+
+  n = strcspn(s, ",");
+
+  /* a little weak here; we're only matching a n-long prefix, so we're
+   * not going to catch the case where the optlist contains a
+   * truncated, ambiguous optionname.  but optlists are not user
+   * input, so the answer to this problem is "don't do that".
+   */
+  for (i = 0; i < g->nopts; i++)
+    if (strncmp(g->opt[i].name, s, n) == 0) break;
+  if (i == g->nopts) return eslEINVAL;
+
+  *ret_opti = i;
+  if (s[n] == ',') *ret_s = s+n+1; 
+  else             *ret_s = NULL;
+
+  return eslOK;
+}
+
+/*------- end of private functions for processing optlists -----------*/
+
+
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+
+#ifdef eslGETOPTS_TESTDRIVE 
+/* gcc -g -Wall -o getopts_utest -I. -DeslGETOPTS_TESTDRIVE esl_getopts.c easel.c
+ */
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+
+/*::cexcerpt::getopts_bigarray::begin::*/
+#define BGROUP "-b,--no-b"
+static ESL_OPTIONS options[] = {
+  /* name    type        default env_var  range toggles req  incompat help                  docgroup */
+ { "-a",     eslARG_NONE, FALSE,"FOOTEST",NULL,  NULL,  NULL,  NULL,  "toggle a on",               1 },
+ { "-b",     eslARG_NONE, FALSE,  NULL,   NULL, BGROUP, NULL,  NULL,  "toggle b on",               1 },
+ { "--no-b", eslARG_NONE,"TRUE",  NULL,   NULL, BGROUP, NULL,  NULL,  "toggle b off",              1 },
+ { "-c",     eslARG_CHAR,   "x",  NULL,"a<=c<=z",NULL,  NULL,  NULL,  "character arg",             2 },
+ { "--d1",   eslARG_NONE,"TRUE",  NULL,   NULL, "--d2", NULL,  NULL,  "toggle d1 on, d2 off",      2 },
+ { "--d2",   eslARG_NONE, FALSE,  NULL,   NULL, "--d1", NULL,  NULL,  "toggle d2 on, d1 off",      2 },
+ { "-n",     eslARG_INT,    "0",  NULL,"0<=n<10",NULL,  NULL,  NULL,  "integer arg",               2 },
+ { "-x",     eslARG_REAL, "0.8",  NULL, "0<x<1", NULL,  NULL,  NULL,  "real-value arg",            2 },
+ { "--lowx", eslARG_REAL, "1.0",  NULL,   "x>0", NULL,  NULL,  NULL,  "real arg with lower bound", 2 },
+ { "--hix",  eslARG_REAL, "0.9",  NULL,   "x<1", NULL,  NULL,  NULL,  "real arg with upper bound", 2 },
+ { "--lown", eslARG_INT,   "42",  NULL,   "n>0", NULL,"-a,-b", NULL,  "int arg with lower bound",  2 },
+ { "--hin",  eslARG_INT,   "-1",  NULL,   "n<0", NULL,  NULL,"--no-b","int arg with upper bound",  2 },
+ { "--host", eslARG_STRING, "","HOSTTEST",NULL,  NULL,  NULL,  NULL,  "string arg with env var",   3 },
+ { "--multi",eslARG_STRING,NULL,  NULL,   NULL,  NULL,  NULL,  NULL,  "test quoted configfile arg",3 },
+ { "--mul",  eslARG_NONE, FALSE,  NULL,   NULL,  NULL,  NULL,  NULL,  "test long opt abbreviation",3 }, /* xref bug #e4 */
+ {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+/*::cexcerpt::getopts_bigarray::end::*/
+
+int
+main(void)
+{
+  ESL_GETOPTS *go;
+  char         file1[32] = "esltmpXXXXXX";
+  char         file2[32] = "esltmpXXXXXX";
+  char        *errmsg    = "getopts unit test failure";
+  FILE        *f1, *f2;
+  int          i;
+
+  /* Declare a "command line" internally.  */
+  int   argc = 11;		/* progname; 8 options; 2 args */
+  char *argv[] = { "progname", "-bc", "y", "--d1", "-n9", "--hix=0.0", "--lown", "43", "--mul", "arg1", "2005"};
+
+  /* Create a config file #1. */
+  if (esl_tmpfile_named(file1, &f1) != eslOK) esl_fatal("failed to create named tmpfile 1");
+  fprintf(f1, "# Test config file #1\n");
+  fprintf(f1, "#\n");
+  fprintf(f1, "-b\n");
+  fprintf(f1, "--d2\n"); 
+  fprintf(f1, "-n 3\n");
+  fprintf(f1, "-x 0.5\n");
+  fprintf(f1, "--multi \"one two three\"\n"); 
+  fclose(f1);
+
+  /* Create config file #2. */
+  if (esl_tmpfile_named(file2, &f2) != eslOK) esl_fatal("failed to create named tmpfile 2");
+  fprintf(f2, "# Test config file #2\n");
+  fprintf(f2, "#\n");
+  fprintf(f2, "--no-b\n");
+  fprintf(f2, "--hin -33\n");
+  fprintf(f2, "--host www.nytimes.com\n");
+  fclose(f2);
+
+  /* Put some test vars in the environment.
+   * (Note: apparently, on some OS's (Mac OS/X), setenv() necessarily leaks memory.)
+   */
+  setenv("FOOTEST",  "",                         1);
+  setenv("HOSTTEST", "wasp.cryptogenomicon.org", 1);
+
+  /* Open the test config files for reading.
+   */
+  if ((f1 = fopen(file1, "r")) == NULL) esl_fatal("getopts fopen() 1 failed");
+  if ((f2 = fopen(file2, "r")) == NULL) esl_fatal("getopts fopen() 2 failed");
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessConfigfile(go, file1, f1) != eslOK) esl_fatal("getopts failed to process config file 1\n%s\n", go->errbuf);
+  if (esl_opt_ProcessConfigfile(go, file2, f2) != eslOK) esl_fatal("getopts failed to process config file 2\n%s\n", go->errbuf);
+  if (esl_opt_ProcessEnvironment(go)           != eslOK) esl_fatal("getopts failed to process environment:\n%s\n",  go->errbuf);
+  if (esl_opt_ProcessCmdline(go, argc, argv)   != eslOK) esl_fatal("getopts failed to process command line:\n%s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)                 != eslOK) esl_fatal("getopts config fails validation:\n%s\n",        go->errbuf);
+
+  fclose(f1);
+  fclose(f2);
+
+  if (esl_opt_GetBoolean(go, "-a")     != TRUE)  esl_fatal("getopts failed on -a"); /* -a is ON: by environment */
+  if (esl_opt_GetBoolean(go, "-b")     != TRUE)  esl_fatal("getopts failed on -b"); /* -b is toggled thrice, ends up ON */
+  if (esl_opt_GetBoolean(go, "--no-b") != FALSE) esl_fatal("getopts failed on --no-b");	/* so --no-b is OFF */
+  if (esl_opt_GetChar   (go, "-c")     != 'y')   esl_fatal("getopts failed on -c"); /* set to y on cmdline in an optstring */
+  if (esl_opt_GetInteger(go, "-n")     != 9)     esl_fatal("getopts failed on -n"); /* cfgfile, then on cmdline as linked arg*/
+  if (esl_opt_GetReal   (go, "-x")     != 0.5)   esl_fatal("getopts failed on -x"); /* cfgfile #1 */
+  if (esl_opt_GetReal   (go, "--lowx") != 1.0)   esl_fatal("getopts failed on --lowx"); /* stays at default */
+  if (esl_opt_GetReal   (go, "--hix")  != 0.0)   esl_fatal("getopts failed on --hix"); /* arg=x format on cmdline */
+  if (esl_opt_GetInteger(go, "--lown") != 43)    esl_fatal("getopts failed on --lown"); /* cmdline; requires -a -b */
+  if (esl_opt_GetInteger(go, "--hin")  != -33)   esl_fatal("getopts failed on --hin"); /* cfgfile 2; requires --no-b to be off */
+  if (esl_opt_GetBoolean(go, "--mul")  != TRUE)  esl_fatal("getopts failed on --mul"); /* --mul should not be confused with --multi by abbrev parser*/
+  if (strcmp(esl_opt_GetString(go, "--host"), "wasp.cryptogenomicon.org") != 0)
+    esl_fatal("getopts failed on --host"); /* cfgfile 2, then overridden by environment */
+  if (strcmp(esl_opt_GetString(go, "--multi"), "one two three") != 0)
+    esl_fatal("config file didn't handle quoted argument");
+
+  /* --d1, --d2 test that we can resolve the difference between IsDefault(), IsOn(), and IsUsed() */
+  /* these options, despite getting toggled twice on/off, remain at default values;
+   * so d1 is default, on, and not used (because it's default); d2 is default, off, and not used.
+   *         IsDefault      IsOn      IsUsed
+   *          -------       -----     -------
+   *            true        true       true      [can't happen: option must be non-default to be considered  "in use"]
+   *            true        true       false     --d1 for example, despite being toggled twice
+   *            true        false      true      [can't happen: option must be non-default to be considered  "in use"]
+   *            true        false      false     --d2 for example, despite being toggled twice
+   *            false       true       true      -a,-b for example
+   *            false       true       false     [can't happen: if option is ON and not in default state, it's "in use"]
+   *            false       false      true      [can't happen: if option is OFF, it's not "in use"]
+   *            false       false      false     --no-b for example
+   */
+  if (! esl_opt_IsDefault(go, "--d1"))   esl_fatal(errmsg);
+  if (! esl_opt_IsOn     (go, "--d1"))   esl_fatal(errmsg);
+  if (  esl_opt_IsUsed   (go, "--d1"))   esl_fatal(errmsg);
+  if (! esl_opt_IsDefault(go, "--d2"))   esl_fatal(errmsg);
+  if (  esl_opt_IsOn     (go, "--d2"))   esl_fatal(errmsg);
+  if (  esl_opt_IsUsed   (go, "--d2"))   esl_fatal(errmsg);
+  if (  esl_opt_IsDefault(go, "-a"))     esl_fatal(errmsg);
+  if (! esl_opt_IsOn     (go, "-a"))     esl_fatal(errmsg);
+  if (! esl_opt_IsUsed   (go, "-a"))     esl_fatal(errmsg);  
+  if (  esl_opt_IsDefault(go, "-b"))     esl_fatal(errmsg);
+  if (! esl_opt_IsOn     (go, "-b"))     esl_fatal(errmsg);
+  if (! esl_opt_IsUsed   (go, "-b"))     esl_fatal(errmsg);  
+  if (  esl_opt_IsDefault(go, "--no-b")) esl_fatal(errmsg);
+  if (  esl_opt_IsOn     (go, "--no-b")) esl_fatal(errmsg);
+  if (  esl_opt_IsUsed   (go, "--no-b")) esl_fatal(errmsg);  
+  
+  for (i = 0; i < go->nopts; i++)
+    {   /* Test that no option is in an impossible default/on/used state according to logic table above */
+      if (  esl_opt_IsDefault(go, go->opt[i].name) &&   esl_opt_IsOn(go, go->opt[i].name) &&   esl_opt_IsUsed(go, go->opt[i].name)) esl_fatal(errmsg);
+      if (  esl_opt_IsDefault(go, go->opt[i].name) && ! esl_opt_IsOn(go, go->opt[i].name) &&   esl_opt_IsUsed(go, go->opt[i].name)) esl_fatal(errmsg);
+      if (! esl_opt_IsDefault(go, go->opt[i].name) &&   esl_opt_IsOn(go, go->opt[i].name) && ! esl_opt_IsUsed(go, go->opt[i].name)) esl_fatal(errmsg);
+      if (! esl_opt_IsDefault(go, go->opt[i].name) && ! esl_opt_IsOn(go, go->opt[i].name) &&   esl_opt_IsUsed(go, go->opt[i].name)) esl_fatal(errmsg);
+    }
+
+  /* Now the two remaining argv[] elements are the command line args
+   */
+  if (esl_opt_ArgNumber(go) != 2) esl_fatal("getopts failed with wrong arg number");
+
+  if (strcmp("arg1", esl_opt_GetArg(go, 1)) != 0) esl_fatal("getopts failed on argument 1");
+  if (strcmp("2005", esl_opt_GetArg(go, 2)) != 0) esl_fatal("getopts failed on argument 2");
+
+  esl_getopts_Destroy(go);
+  remove(file1);
+  remove(file2);
+  exit(0);
+}
+
+#endif /*eslGETOPTS_TESTDRIVE*/
+/*-------------- end of test driver -------------------------*/
+
+/*****************************************************************
+ * 7. Examples.
+ *****************************************************************/
+
+/* The starting example of "standard" getopts behavior, without
+ * any of the bells and whistles.
+ * Compile:
+     gcc -g -Wall -o getopts_example -I. -DeslGETOPTS_EXAMPLE esl_getopts.c easel.c
+ */
+#ifdef eslGETOPTS_EXAMPLE
+/*::cexcerpt::getopts_example::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name        type       def   env  range toggles reqs incomp help                       docgroup*/
+  { "-h",     eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",            0},
+  { "-a",     eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "a boolean switch",               0},
+  { "-b",     eslARG_NONE,"default",NULL,NULL, NULL, NULL, NULL, "another boolean switch",         0},
+  { "-n",     eslARG_INT,     "0", NULL, NULL, NULL, NULL, NULL, "an integer argument",            0},
+  { "-s",     eslARG_STRING,"hi!", NULL, NULL, NULL, NULL, NULL, "a string argument",              0},
+  { "-x",     eslARG_REAL,  "1.0", NULL, NULL, NULL, NULL, NULL, "a real-valued argument",         0},
+  { "--file", eslARG_STRING, NULL, NULL, NULL, NULL, NULL, NULL, "long option, with filename arg", 0},
+  { "--char", eslARG_CHAR,     "", NULL, NULL, NULL, NULL, NULL, "long option, with character arg",0},
+  { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, 
+};
+static char usage[] = "Usage: ./example [-options] <arg>";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go;
+  char        *arg;
+
+  if ((go = esl_getopts_Create(options))     == NULL)  esl_fatal("Bad options structure\n");  
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal("Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal("Failed to parse command line: %s\n", go->errbuf);
+
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) {
+    puts(usage); 
+    puts("\n  where options are:");
+    esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=all docgroups; 2=indentation; 80=width */
+    return 0;
+  }
+  if (esl_opt_ArgNumber(go) != 1) esl_fatal("Incorrect number of command line arguments.\n%s\n", usage);
+  
+  arg = esl_opt_GetArg(go, 1);
+
+  printf("Option -a:      %s\n", esl_opt_GetBoolean(go, "-a") ? "on" : "off");
+  printf("Option -b:      %s\n", esl_opt_GetBoolean(go, "-b") ? "on" : "off");
+  printf("Option -n:      %d\n", esl_opt_GetInteger(go, "-n"));
+  printf("Option -s:      %s\n", esl_opt_GetString( go, "-s"));
+  printf("Option -x:      %f\n", esl_opt_GetReal(   go, "-x"));
+  if (esl_opt_IsUsed(go, "--file")) printf("Option --file:  %s\n", esl_opt_GetString(go, "--file"));
+  else                              printf("Option --file:  (not set)\n");
+  printf("Option --char:  %c\n", esl_opt_GetChar(go, "--char"));
+  printf("Cmdline arg:    %s\n", arg);
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+/*::cexcerpt::getopts_example::end::*/
+#endif /*eslGETOPTS_EXAMPLE*/
+
+/* Using <esl_getopts_CreateDefaultApp()> implements a standard series
+ * of events, including how the -h (help) option is handled.
+ * Compile:
+     gcc -g -Wall -o getopts_example2 -I. -DeslGETOPTS_EXAMPLE2 esl_getopts.c easel.c
+ */
+#ifdef eslGETOPTS_EXAMPLE2
+/*::cexcerpt::getopts_example2::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name          type     default  env range toggles reqs incomp     help                   docgroup*/
+  { "-h",     eslARG_NONE,   FALSE, NULL, NULL,  NULL, NULL, NULL, "show help and usage",            0},
+  { "-a",     eslARG_NONE,   FALSE, NULL, NULL,  NULL, NULL, NULL, "a boolean switch",               0},
+  { "-n",     eslARG_INT,      "42",NULL, NULL,  NULL, NULL, NULL, "an integer",                     0},
+  { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, 
+};
+static char banner[] = "example of using simplest getopts creation";
+static char usage[]  = "[-options] <arg1> <arg2>";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go   = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char        *arg1 = esl_opt_GetArg(go, 1);
+  char        *arg2 = esl_opt_GetArg(go, 2);
+  int          a    = esl_opt_GetBoolean(go, "-a");
+  int          n    = esl_opt_GetInteger(go, "-n");
+
+  printf("arg 1: %s\n", arg1);
+  printf("arg 2: %s\n", arg2);
+  printf("option a: %s\n", (a ? "true" : "false")); 
+  printf("option n: %d\n", n);
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+/*::cexcerpt::getopts_example2::end::*/
+#endif /*eslGETOPTS_EXAMPLE2*/
+/*-------------- end of examples ---------------------*/
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_getopts.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_getopts.c $
+ *****************************************************************/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.h
new file mode 100755
index 0000000..c8e83a8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.h
@@ -0,0 +1,127 @@
+/* Command line, config file, and environment variable
+ * configuration of an application. Extends standard
+ * UNIX/POSIX/GNU getopt().
+ * 
+ */
+#ifndef eslGETOPTS_INCLUDED
+#define eslGETOPTS_INCLUDED
+
+#include "easel.h"
+
+/* Object: ESL_OPTIONS
+ * 
+ * The application main.c defines an array of <ESL_OPTIONS> structures to
+ * define what configuration options are used. The array is 
+ * terminated by a structure containing { NULL, NULL, NULL, 0, NULL,
+ * NULL, NULL, NULL} (or more simply, just 0 in all 8 fields.)
+ */
+/*::cexcerpt::options_object::begin::*/
+typedef struct {
+  char *name;           /* either short "-a" or long "--foo" style               */
+  int   type;           /* arg type, for type checking: (eslARG_INT, etc.)       */
+  char *defval;         /* default setting, or NULL ("default" is a C keyword)   */
+  char *envvar;         /* associated environ var ("BLASTDB"), or NULL           */
+  char *range;          /* for range checking arg: ("0<=x<=1", etc.)             */
+  char *toggle_opts;    /* comma-sep'd optlist: turn these off if this opt is on */
+  char *required_opts;  /* comma-sep'd optlist: these must also be set           */
+  char *incompat_opts;  /* comma-sep'd optlist: these must not be set            */
+  char *help;           /* help/usage string                                     */
+  int   docgrouptag;    /* integer tag for documentation groups                  */
+} ESL_OPTIONS;
+/*::cexcerpt::options_object::end::*/
+
+/* Argument types: the "type" variable in <ESL_OPTIONS>.
+ */
+#define eslARG_NONE      0	/* option takes no argument (so, is boolean)   */
+#define eslARG_INT       1	/* arg convertable by atoi()               <n> */
+#define eslARG_REAL      2	/* arg convertable by atof()               <x> */
+#define eslARG_CHAR      3	/* arg is a single character               <c> */
+#define eslARG_STRING    4	/* unchecked arg type                      <s> */
+#define eslARG_INFILE    5      /* input file - same as string, shown as   <f> */
+#define eslARG_OUTFILE   6      /* output file - same as string, shown as  <f> */
+
+
+
+/* Object: ESL_GETOPTS
+ * 
+ * An <ESL_GETOPTS> object is created to parse configuration
+ * from command line options, config file(s), and environment
+ * variables.
+ */
+typedef struct {
+  ESL_OPTIONS *opt;       /* array of app-defined options              */
+  int          nopts;     /* number of options                         */
+
+  int    argc;		  /* argc from command line                    */
+  char **argv;		  /* argv from command line                    */
+  int    optind;	  /* position in argc; eventually 1st arg idx  */
+  int    nfiles;	  /* # of cfgfiles that have been processed    */
+
+  char **val;		  /* config'ed val for each option (as string) */
+  int   *setby;		  /* array [0..nopts-1] for who set option i   */
+  int   *valloc;          /* 0, or length of alloc for val[i]          */
+
+  char  *optstring;	  /* internal: ptr into string of 1-char opts in argv[]          */
+  char  *spoof;	    	  /* internal allocation: ProcessSpoof() stores cmdline          */
+  char **spoof_argv;	  /* internal allocation: ProcessSpoof()'s ptrs into its cmdline */
+
+  char  errbuf[eslERRBUFSIZE];	/* buffer for reporting user error     */
+} ESL_GETOPTS;
+
+
+/* Possible values of the <setby> variable in ESL_GETOPTS.
+ * Additionally, values of >3 also indicate a config file, in order 
+ * of _ProcessConfigFile() calls (that is, setby=3 is the first 
+ * config file, setby=4 is the second, etc.).
+ */
+#define eslARG_SETBY_DEFAULT  0
+#define eslARG_SETBY_CMDLINE  1
+#define eslARG_SETBY_ENV      2
+#define eslARG_SETBY_CFGFILE  3
+
+
+/* The visible API.
+ */
+extern ESL_GETOPTS *esl_getopts_Create(ESL_OPTIONS *opt);
+extern ESL_GETOPTS *esl_getopts_CreateDefaultApp(ESL_OPTIONS *options, int nargs, int argc, char **argv, char *banner, char *usage);
+extern int          esl_getopts_Reuse  (ESL_GETOPTS *g);
+extern void         esl_getopts_Destroy(ESL_GETOPTS *g);
+extern void         esl_getopts_Dump(FILE *ofp, ESL_GETOPTS *g);
+
+extern int esl_opt_ProcessConfigfile (ESL_GETOPTS *g, char *filename, FILE *fp);
+extern int esl_opt_ProcessEnvironment(ESL_GETOPTS *g);
+extern int esl_opt_ProcessCmdline    (ESL_GETOPTS *g, int argc, char **argv);
+extern int esl_opt_ProcessSpoof      (ESL_GETOPTS *g, const char *cmdline);
+extern int esl_opt_VerifyConfig      (ESL_GETOPTS *g);
+extern int esl_opt_ArgNumber   (const ESL_GETOPTS *g);
+extern int esl_opt_SpoofCmdline(const ESL_GETOPTS *g, char **ret_cmdline);
+
+extern int esl_opt_GetSetter(const ESL_GETOPTS *g, char *optname);
+
+extern int    esl_opt_IsDefault (const ESL_GETOPTS *g, char *optname);
+extern int    esl_opt_IsOn      (const ESL_GETOPTS *g, char *optname);
+extern int    esl_opt_IsUsed    (const ESL_GETOPTS *g, char *optname);
+
+extern int    esl_opt_GetBoolean(const ESL_GETOPTS *g, char *optname);
+extern int    esl_opt_GetInteger(const ESL_GETOPTS *g, char *optname);
+extern double esl_opt_GetReal   (const ESL_GETOPTS *g, char *optname);
+extern char   esl_opt_GetChar   (const ESL_GETOPTS *g, char *optname);
+extern char  *esl_opt_GetString (const ESL_GETOPTS *g, char *optname);
+extern char  *esl_opt_GetArg    (const ESL_GETOPTS *g, int which);
+
+extern int esl_opt_DisplayHelp(FILE *ofp, ESL_GETOPTS *go, int docgroup, int indent, int textwidth);
+
+#endif /*eslGETOPTS_INCLUDED*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_getopts.h 697 2011-06-15 20:14:56Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_getopts.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.tex
new file mode 100755
index 0000000..c18ab16
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_getopts.tex
@@ -0,0 +1,668 @@
+
+The \eslmod{getopts} module interprets UNIX command line syntax. It
+allows both standard POSIX one-character options and GNU-style long
+options, in addition to command line arguments. The implementation
+shares similarities with POSIX \ccode{getopt()} and GNU's
+\ccode{getopt\_long()}. It has additional abilities, at the cost of
+enforcing a specific style.
+
+In addition to setting options from the command line, options may also
+be configured so they can be set by environment variables, or by one
+or more configuration files.
+
+Option arguments can be automatically checked for valid type
+(integers, real numbers, characters, or strings). Numeric arguments
+can also be checked for valid range (for instance, ensuring that a
+probability is in the range $0 \leq x \leq 1$).
+
+Options can be linked into ``toggle groups'', such that setting one
+option automatically unsets others. 
+
+You can specify that an option isn't legal unless other required
+options are also set, or conversely that an option is incompatible
+with one or more other options.
+
+A standardized usage/help display for command line options can be
+printed directly from the internal information, including default
+values and range restrictions when line length allows.
+
+This is all configured by defining an array of \ccode{ESL\_OPTIONS}
+structures that provide the necessary information. This array is
+turned into a \ccode{ESL\_GETOPTS} object, which is used to determine
+and store the configuration state of your application according to the
+command line, environment variables, and configuration files.
+
+The \ccode{ESL\_GETOPTS} object can be queried directly when your
+program executes configuration-dependent steps. There is often no need
+to store configuration information in other variables in your
+program. This simplifies code structure, by allowing you to pass the
+complete configuration state of your application in one capsule to
+functions other than \ccode{main()}. This is especially useful in
+applications where \ccode{main()} is a dispatch wrapper, such as the
+masters and workers in a parallelized MPI program, for example.
+
+Table~\ref{tbl:getopts_api} lists the functions in the
+\eslmod{getopts} API. The module implements a \ccode{ESL\_GETOPTS}
+object that holds the configuration state of the application, and an
+\ccode{ESL\_OPTIONS} structure that contains information about one
+configurable option. An application defines an array of
+\ccode{ESL\_OPTIONS} to declare what options it will allow.
+
+% Table generated by autodoc -t esl_getopts.c (so don't edit here, edit esl_getopts.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The \ccode{ESL\_GETOPTS} object}\\
+\hyperlink{func:esl_getopts_Create()}{\ccode{esl\_getopts\_Create()}} & Create a new \ccode{ESL\_GETOPTS} object.\\
+\hyperlink{func:esl_getopts_CreateDefaultApp()}{\ccode{esl\_getopts\_CreateDefaultApp()}} & Initialize a standard Easel application.\\
+\hyperlink{func:esl_getopts_Reuse()}{\ccode{esl\_getopts\_Reuse()}} & Reset application state to default.\\
+\hyperlink{func:esl_getopts_Destroy()}{\ccode{esl\_getopts\_Destroy()}} & Destroys an \ccode{ESL\_GETOPTS} object.\\
+\hyperlink{func:esl_getopts_Dump()}{\ccode{esl\_getopts\_Dump()}} & Dumps a summary of a \ccode{ESL\_GETOPTS} configuration.\\
+\apisubhead{Setting and testing a configuration}\\
+\hyperlink{func:esl_opt_ProcessConfigfile()}{\ccode{esl\_opt\_ProcessConfigfile()}} & Parses options in a config file.\\
+\hyperlink{func:esl_opt_ProcessEnvironment()}{\ccode{esl\_opt\_ProcessEnvironment()}} & Parses options in the environment.\\
+\hyperlink{func:esl_opt_ProcessCmdline()}{\ccode{esl\_opt\_ProcessCmdline()}} & Parses options from the command line.\\
+\hyperlink{func:esl_opt_ProcessSpoof()}{\ccode{esl\_opt\_ProcessSpoof()}} & Parses a string as if it were a command line.\\
+\hyperlink{func:esl_opt_VerifyConfig()}{\ccode{esl\_opt\_VerifyConfig()}} & Validates configuration after options are set.\\
+\hyperlink{func:esl_opt_ArgNumber()}{\ccode{esl\_opt\_ArgNumber()}} & Returns number of command line arguments.\\
+\hyperlink{func:esl_opt_SpoofCmdline()}{\ccode{esl\_opt\_SpoofCmdline()}}& Create faux command line from current option configuration.\\
+\apisubhead{Retrieving option settings and command line args}\\
+\hyperlink{func:esl_opt_IsDefault()}{\ccode{esl\_opt\_IsDefault()}} & Returns \ccode{TRUE} if option remained at default setting.\\
+\hyperlink{func:esl_opt_IsOn()}{\ccode{esl\_opt\_IsOn()}} & Returns \ccode{TRUE} if option is set.\\
+\hyperlink{func:esl_opt_IsUsed()}{\ccode{esl\_opt\_IsUsed()}} & Returns \ccode{TRUE} if option is on, but not default.\\
+\hyperlink{func:esl_opt_GetBoolean()}{\ccode{esl\_opt\_GetBoolean()}} & Retrieve \ccode{TRUE}/\ccode{FALSE} for a boolean option.\\
+\hyperlink{func:esl_opt_GetInteger()}{\ccode{esl\_opt\_GetInteger()}} & Retrieve value of an integer option.\\
+\hyperlink{func:esl_opt_GetReal()}{\ccode{esl\_opt\_GetReal()}} & Retrieve value of a real-valued option.\\
+\hyperlink{func:esl_opt_GetChar()}{\ccode{esl\_opt\_GetChar()}} & Retrieve value of a character option.\\
+\hyperlink{func:esl_opt_GetString()}{\ccode{esl\_opt\_GetString()}} & Retrieve value of a string option.\\
+\hyperlink{func:esl_opt_GetArg()}{\ccode{esl\_opt\_GetArg()}} & Retrieve numbered command line argument.\\
+\hyperlink{func:esl_opt_DisplayHelp()}{\ccode{esl\_opt\_DisplayHelp()}} & Formats one-line help for each option.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{getopts} API.}
+\label{tbl:getopts_api}
+\end{table}
+
+
+\subsection{An example of using the getopts API}
+
+Figure~\ref{fig:getopts_example} shows an example of using five short
+options (including help) and two long options, without using any of
+getopts' optional validation or configuration mechanisms. The steps
+are:
+
+\begin{figure}
+\input{cexcerpts/getopts_example}
+\caption{An example of using the \eslmod{getopts} module.}
+\label{fig:getopts_example}
+\end{figure}
+
+\begin{itemize}
+\item The application defines an array of \ccode{ESL\_OPTIONS}
+      structures, one per option. Name, type, and default value fields
+      are required. The other fields are optional (though the help
+      string shouldn't be left NULL unless you're being lazy). The
+      array is terminated by an entry of all 0's.
+
+\item An application typically defines a helpful ``usage'' string,
+      which it prints out as part of help messages or error messages.
+      The \eslmod{getopts} module doesn't need this, though, so you're
+      free to format your messages however you like.
+
+\item A \ccode{ESL\_GETOPTS} object is created, using the options
+      array. At this point, all options are initialized to default
+      values inside the object.
+
+\item The application now processes option settings from the command
+      line, environment variables, and one or more configuration
+      files. The application can do this in any precedence order it
+      chooses. In the example, only the command line is processed.
+ 
+\item The call to \ccode{esl\_opt\_VerifyConfig(go)} validates the
+      configuration, before you attempt to retrieve any information
+      from it.
+
+\item Many of my applications (including Easel applications) typically
+      look for a \ccode{-h} option immediately, to print a short help
+      page. This isn't required by \eslmod{getopts}.
+
+\item The application will typically retrieve, validate, and store its
+      non-optional command line arguments in order and one at a time
+      using \ccode{esl\_opt\_GetArg()} calls early in the program.
+  
+\item The application may then go off and do its thing, using
+  \ccode{\_Get*()} calls (and \ccode{\_IsUsed()} and
+  \ccode{\_IsDefault()} calls) to retrieve option information when
+  needed.
+
+\item On exit, the \ccode{ESL\_GETOPTS} object is free'd. This 
+      object is the only place where memory is allocated. Any string
+      retrieved as an option or argument, for example, is a pointer
+      to internal memory maintained by the object. This makes it
+      dangerous to free the object until you know you're not accessing
+      any pointers it's returned to you, unless you've made copies.
+\end{itemize}
+
+An example of running this program:
+\begin{cchunk}
+   % ./getopts_example -ax 0.3 -n 42 --file foo --char x baz
+  Option -a:      on
+  Option -b:      on
+  Option -n:      42
+  Option -s:      hi!
+  Option -x:      0.300000
+  Option --file:  foo
+  Option --char:  x
+  Cmdline arg:    baz
+\end{cchunk}
+
+Note that because we set the default value of \ccode{-b} to TRUE in
+this example, it is always on whether we use the \ccode{-b} option or
+not.
+
+
+
+\subsection{Defining options in the \ccodeincmd{ESL\_OPTIONS} array}
+
+Since you define your options in a static array of
+\ccode{ESL\_OPTIONS} structures, you need to know what an
+\ccode{ESL\_OPTIONS} structure contains.  The \ccode{ESL\_OPTIONS}
+structure is declared in \ccode{getopts.h} as:
+
+\input{cexcerpts/options_object}
+
+Each of these fields in the options array is described in detail below:
+
+   \subsubsection{Legal option names}
+
+All options must start with '-'. Options that start with one '-' are
+\textbf{short options}. Options that start with \ccode{--} are
+\textbf{long options}.
+
+Short option names must be a single alphanumeric character: \ccode{-n}
+or \ccode{-1}, for example.  Short options can be concatenated on the
+command line: \ccode{-abc} is the same as \ccode{-a -b -c}.
+
+Long option names should contain only alphanumeric characters,
+\ccode{-}, or \ccode{\_}: \ccode{--foo} or \ccode{--foo-tastic}, for
+example. They must not contain space, tab, newline, \ccode{=}, or
+\ccode{,} characters, which will certainly confuse the option argument
+parsers. Other characters may happen to work, but nonetheless should
+not be used. Long options can be abbreviated (unambiguously) on the
+command line: if \ccode{--foobar} is an option, \ccode{--f} works too,
+so long as no other long option starts with the same prefix
+\ccode{--f}.
+
+You should avoid using option names that look like negative numbers if
+any of your other options would accept that value as a valid argument,
+so that Easel can robustly detect when a user forgets an option
+argument on the command line.  For example, if \ccode{-n} takes an
+integer argument and \ccode{-1} is an option, and a user types
+\ccode{-n -1} on a commandline, the \ccode{-1} will be parsed as
+\ccode{-n}'s option, even if the user meant the \ccode{-1} as an
+option and had forgotten to add an argument for \ccode{-n}.
+
+   \subsubsection{Type checking}
+
+Seven argument types are recognized:
+
+% Any addition or subtraction to this list also requires updating
+% the c2optlist script in easel/devkit.
+\begin{center}
+\begin{tabular}{llll}
+\textbf{flag}           & \textbf{description}     & \textbf{abbrev} & \textbf{type checking} \\\hline
+\ccode{eslARG\_NONE}     & Boolean switch (on/off) & n/a             &  n/a                   \\
+\ccode{eslARG\_INT}      & integer                 & \ccode{<n>}     & convertible by \ccode{atoi()}\\
+\ccode{eslARG\_REAL}     & float or double         & \ccode{<x>}     & convertible by \ccode{atof()}\\
+\ccode{eslARG\_CHAR}     & one character           & \ccode{<c>}     & single ASCII char \\
+\ccode{eslARG\_STRING}   & any string              & \ccode{<s>}     & not checked\\
+\ccode{eslARG\_INFILE}   & an input filename       & \ccode{<f>}     & not checked\\
+\ccode{eslARG\_OUTFILE}  & an output filename      & \ccode{<f>}     & not checked\\
+\end{tabular}
+\end{center}
+
+
+All arguments are declared, configured, and stored internally as
+strings in a \ccode{ESL\_GETOPTS} object. For arguments that are
+declared to be of types \ccode{eslARG\_INT}, \ccode{eslARG\_REAL}, or
+\ccode{eslARG\_CHAR}, the string is checked to be sure it can be
+completely converted to the declared type.
+
+Strings are of type \ccode{eslARG\_STRING}, and since any string is
+valid (including a NULL pointer), this type is not checked. An
+application can also declare an argument to be of type
+\ccode{eslARG\_STRING} if for some reason it wants to bypass type
+checking. The application would recover the option setting with
+\ccode{esl\_opt\_GetStringOption()} and then deal with any type
+conversion itself.
+
+Input and output filenames can be declared as \ccode{eslARG\_INFILE}
+and \ccode{eslARG\_OUTFILE}, respectively. Currently both are unchecked
+types that are treated the same as a \ccode{eslARG\_STRING}, except
+that their arguments are indicated as \ccode{<f>} instead of
+\ccode{<s>} in help output. In the future, it might be useful to
+automatically check that input files exist and can be read, and that
+output files can be written.
+
+   \subsubsection{Default values}
+
+Since the \ccode{ESL\_GETOPTS} object stores all values internally as
+strings, default settings in the options array are also all provided
+as strings.
+
+For any type of option, \ccode{NULL}, \ccode{FALSE}, or 0 are all
+interpreted as the option being unset (OFF). Any non-NULL string value
+is interpreted as the option being set (ON).
+
+For boolean defaults, any non-NULL string is interpreted as
+\ccode{TRUE}, and the option is ON.  For a boolean option that is ON
+by default, the only place where the string value matters is in
+formatting option help, where this string will be displayed as the
+default setting. Therefore, strings like \ccode{"default"},
+\ccode{"on"}, or \ccode{"true"} would be typical, to make the help
+string look right.
+
+Note that the syntax here is a little weird. The quotes around
+\ccode{"true"} and the absence of quotes around \ccode{FALSE} are
+important. \ccode{FALSE}, \ccode{NULL}, and \ccode{0} are all
+identical in the internal representation (evaluating to a null
+pointer).
+
+Integer, real-valued, and character arguments must be provided as
+strings: ``42'' not 42, ``1.0'' not 1.0, and ``x'' not 'x'.  String
+arguments can be set to any string.
+
+Sometimes you want to have an option that is off by default, but can
+be optionally set to a value. That is, you may want to combine a
+boolean switch and a integer-, real-, char-, or string-valued
+option. To do this, make the default value \ccode{NULL}, which means
+``unset'', and when your code checks for the value of such an option,
+it must first use \ccode{esl\_opt\_IsOn()} to check if it's been set,
+before attempting to \ccode{esl\_opt\_Get*()} the value.
+
+There is no way to turn a boolean option off by a command line option,
+environment variable, or configuration file if its default setting is
+ON. Booleans (and strings, for that matter) can only be turned on when
+their option is selected. Booleans can be set to off by default, or
+toggled off indirectly by another option is turned on (see the section
+on toggle groups further below). The way to do this (to turn
+\ccode{-b} off) is to provide a counteroption (\ccode{--no-b}), and
+toggle-tie them together.
+
+   \subsubsection{Connecting an option to an environment variable}
+
+When an option is connected to an environment variable, setting the
+environment variable has the same result as setting the option on the
+command line.
+
+To check and process environment variables, the application calls
+\ccode{esl\_opt\_ProcessEnvironment()}.
+
+Boolean options are set by setting the environment variable with no
+argument, for instance (in a C-shell),
+
+\begin{cchunk}
+  % setenv FOO_DEBUGGING
+\end{cchunk}
+
+and other options are set by setting the environment variable to the
+appropriate argument, for instance (in a C-shell),
+
+\begin{cchunk}
+  % setenv FOO_DEBUG_LEVEL 5
+\end{cchunk}
+
+For example, if we connected the option name \ccode{--debug} to
+environment variable \ccode{"FOO\_DEBUGGING"} and option
+\ccode{--debuglevel} to environment variable \ccode{"FOO\_DEBUG\_LEVEL"}
+in an application \ccode{myapp}, then
+
+\begin{cchunk}
+  % myapp --debug --debuglevel 5
+\end{cchunk}
+
+is the same as 
+
+\begin{cchunk}
+  % setenv FOO_DEBUGGING
+  % setenv FOO_DEBUG_LEVEL 5
+  % myapp 
+\end{cchunk}
+
+An advantage of using environment variables is that if you want to
+configure some optional behavior more or less permanently, you can
+save yourself a lot of command line typing by setting that
+configuration in the environment (in your \ccode{.cshrc} or
+\ccode{.bashrc}, for example).
+
+
+   \subsubsection{Range checking}
+
+If a non-NULL range is provided, a configured argument (including the
+specified default setting) will be checked to be sure it satisfies a
+lower bound, upper bound, or both. Range checking only applies to
+integer, real, and char arguments. Boolean and string arguments should
+set their range fields to NULL.
+
+In a range string, a character \ccode{n}, \ccode{x}, or \ccode{c} is
+used to represent the argument. Bounds may either be exclusive ($<$ or
+$>$) or inclusive ($>=$ or $<=$). Examples of range strings specifying
+lower bounds are \ccode{"n>=0"}, \ccode{"x>1.0"}, and
+\ccode{"c>=A"}. Examples of range strings specifying upper bounds are
+\ccode{"n<0"}, \ccode{"x<=100.0"}, and \ccode{"c<=Z"}. Examples of
+range strings specifying both lower and upper bounds are
+\ccode{"0<n<=100"}, \ccode{"0<=x<=1"}, and \ccode{"a<=c<=z"}.
+
+Range checking occurs before any option is set.
+
+
+
+   \subsubsection{Setting toggle groups of options}
+
+If a non-NULL string \ccode{toggle\_opts} of ``toggle-tied'' options
+is set for option X, this is a comma-delimited list of options that
+are turned off when option X is turned on. This allows the application
+to define a group of options for which only one may be on. The
+application would set an appropriate one to be on by default, and the
+others to be off by default.
+
+For example, if you configure an option \ccode{-a} to have a
+\ccode{toggle\_opts} of \ccode{"-b,-c"}, then whenever \ccode{-a} is
+turned on, both \ccode{-b} and \ccode{-c} are automatically turned
+off. 
+
+But this only defines the behavior when \ccode{-a} is selected.  To
+get all three options to behave as a toggle group, you'd also want to
+set \ccode{toggle\_opts} for \ccode{-b} to \ccode{"-a,-c"}, and
+\ccode{toggle\_opts} for \ccode{-c} to \ccode{"-a,-b"}. This is a
+little redundant and messy; it's the result of the line-oriented,
+one-option-at-a-time definition of the \ccode{ESL\_OPTIONS}.  These
+lists can get quite long, too.
+
+An option has no effect on itself when it appears in its own
+toggle-tied list. This lets you reduce the mess a bit. You can
+\ccode{\#define} a toggle group string: 
+
+\begin{cchunk}
+  #define OPTGROUP1 "--option1,--option2,--option3,--option4"
+\end{cchunk}
+
+and use that \ccode{\#define} macro in the \ccode{ESL\_OPTIONS}.
+
+Although booleans may only be turned ON when their option is present,
+you can easily get the semantics of an on/off switch by defining
+another option that works as the off switch when it is selected. For
+example, you could define (GNU-ish) boolean options \ccode{--foo} and
+\ccode{--no-foo}, and set \ccode{toggle\_opts} for \ccode{--foo} to be
+\ccode{"--no-foo"} and vice versa.  
+
+Toggle-tying should only be used for boolean options, but it will also
+work for string options (where turning a string option off means
+setting it to NULL). Toggle-tying an integer, real-valued, or char
+option will result in undefined behavior, because these options may
+not be turned off.
+
+Toggling behavior occurs immediately, whenever an option with a
+non-NULL \ccode{toggle\_opts} field is set.
+
+
+
+   \subsubsection{Specifying required or incompatible options}
+
+If a non-NULL string \ccode{required\_opts} is provided for option X,
+this specifies a comma-delimited list of additional options that must
+be on if option X is set. 
+
+One case where this behavior is useful is when one (primary) option
+turns on a mode of application behavior, and other (secondary) options
+configure that mode. If a user tried to set the secondary options
+without turning on the mode in the first place, the application should
+issue a warning. So, if a mode was turned on by \ccode{--foomode} and
+configured by \ccode{--foolevel <x>}, one could set
+\ccode{required\_opts} to \ccode{"--foomode"} for the option
+\ccode{--foolevel}.
+
+Required options are validated when the application calls
+\ccode{esl\_opt\_VerifyConfig()}, presumably after all configuration
+information has been processed. This delayed verification allows the
+primary options to be set anywhere and in any order, before or after
+secondary options are set.
+
+The \ccode{incompat\_opts} field is the converse of
+\ccode{required\_opts}.It specifies a comma-delimited list of options
+that may \emph{not} also be on if option X is on.
+
+
+
+   \subsubsection{Example of a more fully featured \ccode{ESL\_OPTIONS} array}
+
+The test driver in \ccode{getopts.c} uses an options array that
+exercises all the optional features at least once:
+
+\input{cexcerpts/getopts_bigarray}
+
+
+\subsection{Formatting help}
+
+
+The \ccode{esl\_opt\_DisplayHelp()} function is intended to streamline
+the job of printing a brief help message, reminding the user of the
+command line options. It uses the help string to produce output like
+(from the example code above):
+
+\begin{cchunk}
+% ./example -h
+Usage: ./example [-options] <arg>
+
+  where options are:
+  -h         : show help and usage
+  -a         : a boolean switch
+  -b         : another boolean switch  [default]
+  -n <n>     : an integer argument  [0]
+  -x <x>     : a real-valued argument  [1.0]
+  --file <s> : long option, with filename arg
+  --char <c> : long option, with character arg
+\end{cchunk}
+
+One line is printed for each option, in the same order that they
+appear in the \ccode{ESL\_OPTIONS} array. The line is constructed from
+the mandatory option name, the mandatory argument type, and the
+optional help string.
+
+If there is room on the lines, default values are shown in brackets
+(when they are on or non-\ccode{NULL}). This display is all or none;
+if any line is too long, no default values are displayed.
+
+If there is still room on the lines, range restrictions are shown in
+parentheses. Like the default values, this display is also all or
+none.
+
+The amount of space on the line (in characters) is specified by the
+\ccode{textwidth} argument to \ccode{esl\_opt\_DisplayHelp()}, which
+might typically be 80. If any line is too long even without printing a
+default value and range restriction, an error is thrown; you need to
+either shorten the help string or increase the specified
+\ccode{textwidth}. (This is not a memory allocation
+issue. \ccode{textwidth} is provided as a tool to help you keep all
+your text within the bounds of a user's terminal window, and warn you
+when you're going to wrap or truncate lines.)
+
+You can indent all the lines by some number of spaces using the
+\ccode{indent} argument, which was set to 2 in the example above.
+
+
+The base behavior of \ccode{esl\_opt\_DisplayHelp()} is to show all
+the options in one list. You might want to have separate lists. For
+example, you might want to consider some options as ``expert''
+options, and only show help for those when a user really asks for it.
+Or you might simply want to group your options into sections, with
+different headers. This is what the \ccode{docgrouptag} field is for
+in the \ccode{ESL\_OPTIONS} structure. If you pass
+\ccode{esl\_opt\_DisplayHelp()} a nonzero value for \ccode{docgroup},
+it will only show help lines for options that have a matching
+\ccode{docgrouptag}. If you had some options with a
+\ccode{docgrouptag} of 1, and some more options with a 
+\ccode{docgrouptag} of 2, you could format them into two help sections
+with this:
+
+\begin{cchunk}
+ if (show_help) {
+    puts(usage); 
+    puts("\n  where some options are:");
+    esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1=docgroup 1; 2=indentation; 80=width */
+    puts("\n  and some more options are:");
+    esl_opt_DisplayHelp(stdout, go, 2, 2, 80); /* 1=docgroup 2; 2=indentation; 80=width */
+    return 0;
+  }
+\end{cchunk}
+
+which, if you modified the above example in this way (setting the
+first three options to have a \ccode{docgrouptag} of 1 and the other
+four to be 2) would give you:
+
+\begin{cchunk}
+./example -h
+Usage: ./example [-options] <arg>
+
+  where some options are:
+  -h : show help and usage
+  -a : a boolean switch
+  -b : another boolean switch  [default]
+
+  and some more options are:
+  -n <n>     : an integer argument  [0]
+  -x <x>     : a real-valued argument  [1.0]
+  --file <s> : long option, with filename arg
+  --char <c> : long option, with character arg
+\end{cchunk}
+
+
+
+
+\subsection{Command line parsing, config files, and the environment}
+
+Once a \ccode{ESL\_GETOPTS} object has been loaded with an options
+array and initialized to default state by
+\ccode{esl\_getopts\_Create()}, a \ccode{esl\_opt\_ProcessCmdline()}
+call then processes all the options on the command line, updating the
+configuration. 
+
+Internally, the object keeps track of where the options end and
+command line arguments begin. The macro \ccode{esl\_opt\_ArgNumber()}
+returns the number of arguments remaining after the options.  Calls to
+\ccode{esl\_opt\_GetArg()} recover the command line arguments by
+number.
+
+The getopts module can configure options not only via the command
+line, but via environment and/or config files.  Connections to the
+environment -- the \ccode{env\_var} field of the options array -- are
+processed by a \ccode{esl\_opt\_ProcessEnvironment()} call.  An open
+config file is processed by a \ccode{esl\_opt\_ProcessConfigfile()}
+call. (The format of a config file is described below.) The
+application may process any number of config files -- for instance,
+there may be a master configuration installed in a system directory,
+and a personalized configuration in a user's home directory.
+
+The order of the different \ccode{Process*()} calls defines the
+precedence of who overrides who. For example, in the following code
+fragment:
+
+\begin{cchunk}
+   ESL_GETOPTS *g;        /* a created, initialized getopts config  */
+   FILE *masterfp;        /* a master config file, open for reading */
+   FILE *userfp;          /* a user's config file, open for reading */
+
+   esl_opt_ProcessConfigfile(g, "/usr/share/myapp/master.cfg", masterfp);
+   esl_opt_ProcessConfigfile(g, "~/.myapp.cfg",                userfp);
+   esl_opt_ProcessEnvironment(g);
+   esl_opt_ProcessCmdline(g, argc, argv);
+\end{cchunk}
+
+the precedence is defined as: defaults, master config file, local
+config file, environment, command line arguments. 
+
+
+\subsection{Configuring an application that uses getopts}
+
+(This section might usefully by cut and pasted into the documentation
+for a specific application, with modifications as appropriate.)
+
+   \subsubsection{Command line option syntax}
+
+Command line syntax is essentially identical to the syntax used by GNU
+programs. Options must precede the mandatory arguments.
+
+Options are either short or long. Short options are a single character
+preceded by a single \ccode{-}; for example, \ccode{-a}. Long options
+are preceded by two dashes, and can have any wordlength; for example,
+\ccode{--option1}.
+
+If a short option takes an argument, the argument may either be
+attached (immediately follows the option character) or unattached (a
+space between the optchar and the argument. For example, \ccode{-n5}
+and \ccode{-n 5} both specify an argument \ccode{5} to option
+\ccode{-n}.
+
+Short options can be concatenated into a string of characters;
+\ccode{-abc} is equivalent to \ccode{-a -b -c}. (Concatenation may
+only be used on the command line, not in configuration files or in
+fields of the \ccode{ESL\_OPTIONS} structure array.) Only the last
+option in such a string can take an argument, and the other options in
+the optstring must be simple on/off booleans. For example, if
+\ccode{-a} and \ccode{-b} are boolean switches, and \ccode{-W} takes a
+\ccode{<string>} argument, either \ccode{-abW foo} or \ccode{-abWfoo}
+is correct, but \ccode{-aWb foo} is not.
+
+For a long option that takes an argument, the argument can be provided
+either by \ccode{--foo arg} or \ccode{--foo=arg}.
+
+Long options may be abbreviated, if the abbreviation is unambiguous;
+for instance, \ccode{--foo} or \ccode{--foob} suffice to active an
+option \ccode{--foobar}. (Like concatenation of short options,
+abbreviation of long options is a shorthand that may only be used on
+the command line.)
+
+Multi-word arguments may be quoted: for example, \ccode{--hostname "my
+host"} or \ccode{-s="my string"}.
+
+Nonnumeric arguments may not start with '-' unless you use an
+argument-attached syntax: \ccode{-W-myarg} and \ccode{--foo=-myarg}
+are accepted, but \ccode{-W myarg} or \ccode{--foo -myarg} will result
+in an error message. This is so if you forget a required argument on
+the command line, we don't silently parse the following option as that
+argument. Numeric arguments aren't checked this way, but forgotten
+numeric argument errors would still usually be caught in typechecking
+(if \ccode{-n} takes an integer argument, \ccode{-n -a} would be an
+invalid argument error); stylistically, we want \ccode{-n -1} and
+\ccode{--param -1} to be a valid way of passing negative-valued
+arguments.  However, this does mean that some forgotten numeric
+argument cases will be undetectable by Easel: in the case where
+\ccode{-n} takes an integer argument, \ccode{-1} is a valid option,
+and the user types \ccode{-n -1}, the \ccode{-1} is parsed as
+\ccode{-n}'s option.
+
+   \subsubsection{Configuration file format}
+
+Each line of a configuration file contains an option and an argument
+(if the option takes an argument). Blank lines are ignored.  Anything
+following a \ccode{\#} character on a line is a comment and is
+ignored. The syntax of options and arguments is stricter than on
+command lines.  Concatenation of short options is not allowed,
+abbreviation of long options is not allowed, and arguments must always
+be separated from options by whitespace (not by \ccode{=}). For
+example:
+
+\begin{cchunk}
+   # Customized configuration file for my application.
+   #
+   -a                        # Turn -a on.
+   -b                        # Turn -b on.
+   -W      arg               # Set -W to "arg"
+   --multi "one two three"   # Multiword args can be quoted.
+\end{cchunk}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.c
new file mode 100755
index 0000000..0d2b773
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.c
@@ -0,0 +1,987 @@
+/* Statistical routines for generalized extreme value (GEV) distributions.
+ *
+ * GEV distribution 
+ *     G(x) = exp{ -[1 + \alpha \lambda(x - \mu)]^{-1/\alpha} }
+ * where:
+ *    \mu     = location parameter
+ *    \lambda = scale parameter   (\lambda = 1/\sigma, in [Coles01] notation)
+ *    \alpha  = shape parameter   (\alpha  = \xi, in [Coles01] notation) 
+ * 
+ * lim_{\alpha -> 0} is a type I EVD (Gumbel)
+ * \alpha > 0  is a Type II  EVD (Frechet)
+ * \alpha < 0  is a Type III EVD (Weibull)
+ * 
+ * Reference: 
+ *   [Coles01] 
+ *   S. Coles, An Introduction to Statistical Modeling of Extreme Values, 
+ *   Springer, 2001.
+ *            
+ * Xref: 
+ *   STL9/118, 2005/0712-easel-gev-impl. Verified against evd package in R.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_gev.h"
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+
+/****************************************************************************
+ * Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+
+/* Function:  esl_gev_pdf()
+ *
+ * Purpose:   Calculates the probability density function for the 
+ *            generalized extreme value distribution, $P(X=x)$, given
+ *            quantile <x> and GEV location, scale, shape parameters 
+ *            <mu>, <lambda>, <alpha>.
+ */
+double
+esl_gev_pdf(double x, double mu, double lambda, double alpha)
+{
+  double y     = lambda * (x-mu);
+  double ya1   = 1. + alpha * y;
+  double lya1;  
+
+  /* Special case: if alpha is tiny, approximate by a Gumbel */
+  if (fabs(y*alpha) < 1e-12) return (lambda * exp(-y - exp(-y)));
+
+  /* Else, use GEV; but use log/exp to avoid a pow() call,
+   * as that's almost 2x faster (on my machine anyway).
+   */
+  if (ya1 <= 0) return 0.;
+  lya1 = log(ya1);
+  return (lambda * exp(-(1.+ 1./alpha)*lya1 - exp(-lya1/alpha)));
+}
+
+/* Function:  esl_gev_logpdf()
+ *
+ * Purpose:   Calculates the log probability density function for the
+ *            generalized extreme value distribution, $\log P(X=x)$, 
+ *            given quantile <x> and GEV location, scale, shape
+ *            parameters <mu>, <lambda>, <alpha>.
+ */
+double
+esl_gev_logpdf(double x, double mu, double lambda, double alpha)
+{
+  double y          = lambda *(x-mu);
+  double ya1        = 1. + alpha*y;
+  double lya1;
+
+  /* Special case: if alpha is tiny, approx by a Gumbel */
+  if (fabs(y*alpha) < 1e-12) return ((log(lambda) - y) - exp(-y));
+
+  /* It's important not to return NaN for this domain error;
+   * minimizer relies on being able to compare logL's for any parameter,
+   * and you can't compare NaN to anything.
+   */
+  if (ya1 <= 0) return -eslINFINITY;
+
+  lya1 = log(ya1);
+  return ( (log(lambda) - (1.+1./alpha)*lya1) - exp(-lya1/alpha));
+}
+
+
+/* Function:  esl_gev_cdf()
+ *
+ * Purpose:   Calculates the cumulative distribution function for the
+ *            generalized extreme value distribution, $P(X \leq x)$, 
+ *            given quantile <x> and GEV location, scale, shape
+ *            parameters <mu>, <lambda>, <alpha>.
+ */
+double
+esl_gev_cdf(double x, double mu, double lambda, double alpha)
+{
+  double y          = lambda *(x-mu);
+  double ya1        = 1. + alpha*y;
+  double lya1;
+
+  /* Special case: if alpha is tiny, approx by a Gumbel */
+  if (fabs(y*alpha) < 1e-12) return (exp(-exp(-y)));
+
+  if (ya1 <= 0) {
+    if (x < mu) return 0.0; /* the frechet case */
+    else        return 1.0; /* the weibull case */
+  }
+  lya1 = log(ya1);
+  return (exp(-exp(-lya1/alpha)));
+}
+
+
+
+/* Function:  esl_gev_logcdf()
+ *
+ * Purpose:   Calculates the log of the cumulative distribution function for a
+ *            generalized extreme value distribution, $\log P(X \leq x)$, 
+ *            given quantile <x> and GEV location, scale, shape
+ *            parameters <mu>, <lambda>, <alpha>.
+ */
+double
+esl_gev_logcdf(double x, double mu, double lambda, double alpha)
+{
+  double y          = lambda *(x-mu);
+  double ya1        = 1. + alpha*y;
+  double lya1;
+
+  /* Special case: if alpha is tiny, approx by a Gumbel */
+  if (fabs(y*alpha) < 1e-12) return (-exp(-y));
+
+  if (ya1 <= 0) {
+    if (x < mu) return -eslINFINITY;    /* Frechet  */
+    else        return 0.0;     	/* Weibull  */
+  }
+
+  lya1 = log(ya1);
+  return (-exp(-lya1/alpha));
+}
+
+
+/* Function:  esl_gev_surv()
+ *
+ * Purpose:   Calculates the survivor function, $P(X>x)$ (that is, 1-cdf),
+ *            the right tail's probability mass,  given quantile <x> and
+ *            GEV location, scale, shape parameters <mu>, <lambda>, <alpha>.
+ */
+double
+esl_gev_surv(double x, double mu, double lambda, double alpha)
+{
+   double y          = lambda *(x-mu);
+   double ya1        = 1. + alpha*y;
+   double lya1;
+
+   /* Special case: for tiny alpha, use Gumbel (xref esl_gumbel.c) */
+   if (fabs(y*alpha) < 1e-12) 
+     return ((y > -0.5*log(DBL_EPSILON)) ? exp(-y) : (1 - exp(-exp(-y))));
+   
+   if (ya1 <= 0) {
+     if (x < mu) return 1.0;	/* the frechet case */
+     else        return 0.0;	/* the weibull case */
+   }
+   lya1 = log(ya1)/alpha;
+   return ((lya1 > -0.5*log(DBL_EPSILON)) ? exp(-lya1) : (1 - exp(-exp(-lya1))));
+}
+
+
+/* Function:  esl_gev_logsurv()
+ *
+ * Purpose:   Calculates the log survivor function $\log P(X>x)$ for a 
+ *            generalized extreme value distribution (that is, 
+ *            $\log (1 - \mbox{cdf})$, the log of the right tail's probability
+ *            mass), given quantile <x> and GEV location, scale, shape
+ *            parameters <mu>, <lambda>, <alpha>.
+ */
+double
+esl_gev_logsurv(double x, double mu, double lambda, double alpha)
+{
+   double y          = lambda *(x-mu);
+   double ya1        = 1. + alpha*y;
+   double lya1;
+
+   /* Special case: for tiny alpha, use Gumbel (xref esl_gumbel.c) */
+   if (fabs(y*alpha) < 1e-12) 
+     {
+       if      (y > -0.5 * log(DBL_EPSILON)) return (-y);
+       else if (y < -2.9)                    return (-exp(-exp(-y)));
+       else                                  return (log(1-exp(-exp(-y))));
+     }
+   
+   /* See esl_gumbel.c for analysis of the crossovers in
+    * the three cases (small, large, and ok lya1)
+    */
+   if (ya1 <= 0) {
+     if (x < mu) return 1.0;        	/* Frechet case */
+     else        return -eslINFINITY;   /* Weibull case */
+   }
+
+   lya1 = log(ya1)/alpha;
+   if      (lya1 > -0.5 * log(DBL_EPSILON)) return (-lya1);
+   else if (lya1 < -2.9)                    return (-exp(-exp(-lya1)));
+   else                                     return (log(1-exp(-exp(-lya1))));
+}
+
+/* Function:  esl_gev_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF of the GEV: given a probability
+ *            <p> ($0 < p < 1$), returns the quantile <x> which would
+ *            give <p> as its CDF, for a generalized extreme value 
+ *            distribution with parameters <mu>, <lambda>, and <alpha>.
+ */
+double
+esl_gev_invcdf(double p, double mu, double lambda, double alpha)
+{
+  /* failover to Gumbel sample, for tiny alpha */
+  if (fabs(alpha) < 1e-12) return (mu - log(-1. * log(p)) / lambda);
+
+  return mu + (exp(-alpha*log(-log(p))) - 1.) / (alpha * lambda) ;
+}
+/*-------------------- end densities & distributions ------------------------*/
+
+
+
+/*****************************************************************
+ * Generic API routines: for general interface w/ histogram module
+ *****************************************************************/ 
+
+/* Function:  esl_gev_generic_pdf()
+ *
+ * Purpose:   Generic-API version of PDF.
+ */
+double
+esl_gev_generic_pdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gev_pdf(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_gev_generic_cdf()
+ *
+ * Purpose:   Generic-API version of CDF.
+ */
+double
+esl_gev_generic_cdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gev_cdf(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_gev_generic_surv()
+ *
+ * Purpose:   Generic-API version of survival function.
+ */
+double
+esl_gev_generic_surv(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gev_surv(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_gev_generic_invcdf()
+ *
+ * Purpose:   Generic-API version of inverse CDF.
+ */
+double
+esl_gev_generic_invcdf(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_gev_invcdf(p, v[0], v[1], v[2]);
+}
+/*------------------------- end of generic API --------------------------*/
+
+
+
+/****************************************************************************
+ * Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_gev_Plot()
+ *
+ * Purpose:   Plot some GEV function <func> (for instance,
+ *            <esl_gev_pdf()>) for parameters <mu> and <lambda>, for
+ *            a range of quantiles x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_gev_Plot(FILE *fp, double mu, double lambda, double alpha,
+	     double (*func)(double x, double mu, double lambda, double alpha), 
+	     double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mu, lambda, alpha)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "gev plot write failed");
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "gev plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+
+/****************************************************************************
+ * Routines for sampling (requires augmentation w/ random module)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+/* Function:  esl_gev_Sample()
+ *
+ * Purpose:   Sample a GEV-distributed random variate,
+ *            by the transformation method.
+ */
+double
+esl_gev_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double alpha)
+{
+  double p;
+  p = esl_rnd_UniformPositive(r); 
+  return esl_gev_invcdf(p, mu, lambda, alpha);
+} 
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+
+
+/****************************************************************************
+ * Maximum likelihood fitting to GEV distributions
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_MINIMIZER
+/* Easel's conjugate gradient descent code allows a single void ptr to
+ * point to any necessary fixed data, so we put everything into one
+ * structure:
+ */
+struct gev_data {
+  double *x;	        /* data: n observed samples    */
+  int     n;		/* number of observed samples  */
+
+  int     is_censored;	/* TRUE if a censored, not complete dataset      */
+  double  phi;	        /* censoring/truncation threshold: obs x_i > phi */
+  int     z;	        /* # of censored samples                         */
+};
+
+/* gev_func():
+ * Returns the neg log likelihood of a complete or censored GEV data sample;
+ * in the API of the conjugate gradient descent optimizer in esl_minimizer.
+ */
+static double
+gev_func(double *p, int nparam, void *dptr)
+{
+  double mu, w, lambda, alpha;
+  struct gev_data *data;
+  double logL;
+  int    i; 
+    
+  /* Unpack what the optimizer gave us.
+   */
+  mu     = p[0];
+  w      = p[1];   /* w is a c.o.v. to allow unconstrained opt of lambda>0 */
+  lambda = exp(w);
+  alpha  = p[2];
+  data   = (struct gev_data *) dptr;
+
+  logL = 0.;
+  for (i = 0; i < data->n; i++)
+    logL += esl_gev_logpdf(data->x[i], mu, lambda, alpha);
+
+  if (data->is_censored)
+    logL += data->z * esl_gev_logcdf(data->phi, mu, lambda, alpha);
+
+  return -logL;			/* goal: minimize NLL */
+}
+
+/* gev_gradient()
+ * Computes the gradient of the negative log likelihood of a complete
+ * or censored GEV sample; in the API of the CG optimizer.
+ */
+static void
+gev_gradient(double *p, int nparam, void *dptr, double *dp)
+{
+  double mu, w, lambda, alpha;
+  struct gev_data *data;
+  double *x;
+  int    i; 
+  double dmu, dw, dalpha;
+  double y, ay, ay1, lay1;
+    
+  /* Unpack what the optimizer gave us */
+  mu     = p[0];
+  w      = p[1];   /* w is a c.o.v. to allow unconstrained opt of lambda>0 */
+  lambda = exp(w);
+  alpha  = p[2];
+  data   = (struct gev_data *) dptr;
+  x      = data->x;
+
+  dmu    = 0.;
+  dw     = data->n; /* d/dw, term1 */
+  dalpha = 0.;
+
+  for (i = 0; i < data->n; i++)
+    {
+      y    = lambda * (x[i]-mu);
+      ay   = alpha*y;
+      ay1  = 1+ay;		/* 1+ay=1, for ay < DBL_EPSILON */
+      lay1 = log(ay1);
+      
+      /* d/dmu, term1. (will become 1, for small alpha.) */
+      dmu += (alpha+1) / ay1;
+      
+      /* d/dmu, term2. For tiny ay, use log(1+x) ~ x to simplify. */
+      if (fabs(ay) < 1e-12) dmu -= exp(-y);
+      else                  dmu -= exp(-(1+1/alpha) * lay1);
+
+      /* d/dw, term2. converges to -y, for small alpha. */
+      dw -= y*(1+alpha) / ay1;
+
+      /* d/dw, term2. For tiny ay, use log(1+x) ~ x to simplify. */
+      if (fabs(ay) < 1e-12) dw += y*exp(-y);
+      else                  dw += y*exp(-(1+1/alpha) * lay1);
+
+      /* d/dalpha, term1
+       */
+      dalpha -= (1 + 1/alpha) * y/ay1;
+
+      /* d/dalpha, terms 2,3,4: for tiny ay, simplify.
+       * d/dalpha will go to +/-inf for alpha ~ 0, so watch out.
+       */
+      if (fabs(ay) < 1e-12) {
+	dalpha += y/alpha;
+	dalpha += y*exp(-y) / (alpha*ay1);
+	dalpha -= y*exp(-y) / alpha;
+      } else {
+	dalpha += lay1 / (alpha*alpha);
+	dalpha += y    * exp(-lay1/alpha) / (alpha*ay1);
+	dalpha -= lay1 * exp(-lay1/alpha) / (alpha*alpha);
+      }
+    }
+  dmu *= lambda;
+
+  /* Add the terms that come from the censored data gradient,
+   * if it's a censored dataset.
+   */
+  if (data->is_censored)
+    {
+      y    = lambda * (data->phi - mu);
+      ay   = alpha * y;
+      ay1  = 1 + ay;
+      lay1 = log(ay1);
+
+      if (fabs(ay) < 1e-12) 
+	{	/* special case of small alpha, converging towards Gumbel */
+	  dmu    -= data->z * lambda * exp(-y) / ay1;
+	  dw     += data->z * y      * exp(-y) / ay1;
+	  dalpha -= data->z * exp(-y) * y/alpha * ay/ay1;
+	}
+      else 
+	{	/* normal case */
+	  dmu    -= data->z * lambda * exp(-lay1/alpha) / ay1;
+	  dw     += data->z * y      * exp(-lay1/alpha) / ay1;
+	  dalpha -= data->z * exp(-lay1/alpha) *
+	    (lay1/(alpha*alpha) - y/(alpha*ay1));
+	}
+    }
+
+  /* Return the negative gradient, because we're minimizing NLL,
+   * not maximizing LL.
+   */
+  dp[0] = -dmu;
+  dp[1] = -dw;
+  dp[2] = -dalpha;
+  return;
+}
+
+/* fitting_engine()
+ * Fitting code shared by the FitComplete() and FitCensored() API.
+ * 
+ * The fitting_engine(), in turn, is just an adaptor wrapped around
+ * the conjugate gradient descent minimizer.
+ */
+static int
+fitting_engine(struct gev_data *data, 
+	       double *ret_mu, double *ret_lambda, double *ret_alpha)
+{
+  double p[3];			/* parameter vector                  */
+  double u[3];			/* max initial step size vector      */
+  double wrk[12];		/* 4 tmp vectors of length 3         */
+  double mean, variance;
+  double mu, lambda, alpha;	/* initial param guesses             */
+  double tol = 1e-6;		/* convergence criterion for CG      */
+  double fx;			/* f(x) at minimum; currently unused */
+  int    status;
+
+  /* Make an initial guess. 
+   * (very good guess for complete data; merely sufficient for censored)
+   */
+  esl_stats_DMean(data->x, data->n, &mean, &variance);
+  lambda = eslCONST_PI / sqrt(6.*variance);
+  mu     = mean - 0.57722/lambda;
+  alpha  = 0.0001;
+
+  p[0] = mu;
+  p[1] = log(lambda);	/* c.o.v. from lambda to w */
+  p[2] = alpha;
+
+  /* max initial step sizes: keeps bracketing from exploding */
+  u[0] = 1.0;
+  u[1] = fabs(log(0.02));
+  u[2] = 0.02;
+
+  /* pass problem to the optimizer
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, 3, 
+					    &gev_func, 
+					    &gev_gradient,
+					    (void *)data,
+					    tol, wrk, &fx);
+  *ret_mu     = p[0];
+  *ret_lambda = exp(p[1]);
+  *ret_alpha  = p[2];
+  return status;
+}
+
+
+/* Function:  esl_gev_FitComplete()
+ *
+ * Purpose:   Given an array of <n> GEV-distributed samples <x[0]..x[n-1>,
+ *            return maximum likelihood parameters <ret_mu>, 
+ *            <ret_lambda>, and <ret_alpha>.
+ *            
+ *            Uses a conjugate gradient descent algorithm that
+ *            can be computationally intensive. A typical problem
+ *            involving 10,000-100,000 points may take a second 
+ *            to solve.
+ *            
+ * Note:      Just a wrapper: sets up the problem for fitting_engine().            
+ *
+ * Args:      x          - complete GEV-distributed data [0..n-1]
+ *            n          - number of samples in <x>
+ *            ret_mu     - RETURN: maximum likelihood estimate of mu         
+ *            ret_lambda - RETURN: maximum likelihood estimate of lambda
+ *            ret_alpha  - RETURN: maximum likelihood estimate of alpha
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if the fit doesn't converge.
+ *
+ * Xref:      STL9/118-120.
+ */
+int
+esl_gev_FitComplete(double *x, int n, 
+		    double *ret_mu, double *ret_lambda, double *ret_alpha)
+{
+  struct gev_data data;
+
+  data.x           = x;
+  data.n           = n;
+  data.is_censored = FALSE;
+  data.phi         = -DBL_MAX;
+  data.z           = 0;
+
+  return (fitting_engine(&data, ret_mu, ret_lambda, ret_alpha));
+}
+
+/* Function:  esl_gev_FitCensored()
+ *
+ * Purpose:   Given a left-censored array of <n> GEV-distributed samples
+ *            <x[0]..x[n-1>, the number of censored samples <z>, and
+ *            the censoring value <phi> (where all $x_i > \phi$ and
+ *            all $z$ censored samples are $\leq \phi$);
+ *            return maximum likelihood parameters <ret_mu>, 
+ *            <ret_lambda>, and <ret_alpha>.
+ *            
+ * Args:      x          - censored GEV-distributed data [0..n-1], all > phi
+ *            n          - number of samples in <x>
+ *            z          - number of censored samples, all <= phi
+ *            phi        - censoring threshold
+ *            ret_mu     - RETURN: maximum likelihood estimate of mu         
+ *            ret_lambda - RETURN: maximum likelihood estimate of lambda
+ *            ret_alpha  - RETURN: maximum likelihood estimate of alpha
+ *
+ * Note:      Just a wrapper: sets up the problem for fitting_engine().            
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if the fit doesn't converge.
+ *
+ * Xref:      STL9/133
+ */
+int
+esl_gev_FitCensored(double *x, int n, int z, double phi,
+		    double *ret_mu, double *ret_lambda, double *ret_alpha)
+{
+  struct gev_data data;
+
+  data.x           = x;
+  data.n           = n;
+  data.is_censored = TRUE;
+  data.phi         = phi;
+  data.z           = z;
+
+  return (fitting_engine(&data, ret_mu, ret_lambda, ret_alpha));
+}
+#endif /*eslAUGMENT_MINIMIZER*/
+/*--------------------------- end fitting ----------------------------------*/
+
+
+
+
+
+
+
+/****************************************************************************
+ * Example, test, and stats drivers
+ ****************************************************************************/ 
+/* Example main()
+ */
+#ifdef eslGEV_EXAMPLE
+/*::cexcerpt::gev_example::begin::*/
+/* compile: 
+     gcc -g -Wall -I. -o example -DeslGEV_EXAMPLE -DeslAUGMENT_RANDOM\
+       -DeslAUGMENT_MINIMIZER esl_gev.c esl_random.c esl_minimizer.c\
+       esl_vectorops.c easel.c -lm
+ * run:     ./example
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_minimizer.h"
+#include "esl_gev.h"
+
+int
+main(int argc, char **argv)
+{
+  double  est_mu, est_lambda, est_alpha;
+  double  z;
+  int     i;
+  int     n         = 10000; 	   /* simulate 10,000 samples */
+  double  mu        = -20.0;       /* with mu = -20    */ 
+  double  lambda    = 0.4;         /* and lambda = 0.4 */
+  double  alpha     = 0.1;	   /* and alpha = 0.1  */
+  double  min       =  9999.;
+  double  max       = -9999.;
+  double *x         = malloc(sizeof(double) * n);
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);;
+
+  for (i = 0; i < n; i++)	/* generate the 10,000 samples */
+    { 
+      x[i] = esl_gev_Sample(r, mu, lambda, alpha);
+      if (x[i] < min) min = x[i];
+      if (x[i] > max) max = x[i];
+    }
+
+  z = esl_gev_surv(max, mu, lambda, alpha);       /* right tail p~1e-4 >= max */
+  printf("max = %6.1f  P(>max)  = %g   E=%6.3f\n", max, z, z*(double)n);
+  z = esl_gev_cdf(min, mu, lambda, alpha);        /* left tail p~1e-4 < min */
+  printf("min = %6.1f  P(<=min) = %g   E=%6.3f\n", min, z, z*(double)n);
+
+  esl_gev_FitComplete(x, n, &est_mu, &est_lambda, &est_alpha);
+ 
+  printf("Parametric mu     = %6.1f.  Estimated mu     = %6.2f.  Difference = %.1f%%.\n",
+	 mu,     est_mu,     100. * fabs((est_mu - mu) / mu));
+  printf("Parametric lambda = %6.2f.  Estimated lambda = %6.2f.  Difference = %.1f%%.\n",
+	 lambda, est_lambda, 100. * fabs((est_lambda - lambda) /lambda));
+  printf("Parametric alpha  = %6.4f.  Estimated alpha  = %6.4f.  Difference = %.1f%%.\n",
+	 alpha,  est_alpha,  100. * fabs((est_alpha - alpha) /alpha));
+
+  free(x);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::gev_example::end::*/
+#endif /*eslGEV_EXAMPLE*/
+
+
+#ifdef eslGEV_STATS
+/* compile: 
+     gcc -g -Wall -I. -o stats -DeslGEV_STATS -DeslAUGMENT_RANDOM\
+       -DeslAUGMENT_MINIMIZER esl_gev.c esl_random.c esl_minimizer.c\
+       esl_vectorops.c easel.c -lm
+ * run:     ./stats <test#>...
+ * e.g. 
+ *          ./stats 1 2 3
+ * would run tests 1, 2, 3.
+ */
+#include <stdio.h>
+#include <math.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_minimizer.h"
+#include "esl_gev.h"
+
+#define MAX_STATS_TESTS 10
+static void stats_sample(FILE *fp);
+static int  stats_fittest(FILE *fp, int ntrials, int n, double mu, 
+			  double lambda, double alpha);
+int
+main(int argc, char **argv)
+{
+  FILE *fp;
+  double  mu        = 0.0;
+  double  lambda    = 1.0;  
+  double  xmin      = -20.;
+  double  xmax      = 60.;
+  double  xstep     = 0.1; 
+  double  x,z;
+  int     do_test[MAX_STATS_TESTS+1];
+  int     i;
+
+  for (i = 0; i <= MAX_STATS_TESTS; i++) do_test[i] = 0;
+  for (i = 1; i < argc; i++)
+    do_test[atoi(argv[i])] = 1;
+
+  /* stats.1: xmgrace xy file w/ densities for Gumbel, Frechet, Weibull */
+  if (do_test[1]) {
+    if ((fp = fopen("stats.1", "w")) == NULL) abort();
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_pdf(x, mu, lambda, 0.0));
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_pdf(x, mu, lambda, 0.1));
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_pdf(x, mu, lambda, -0.1));
+    fprintf(fp, "&\n");
+    fclose(fp);
+  }
+
+  /* stats.2: xmgrace xy file w/ log densities for Gumbel, Frechet, Weibull */
+  if (do_test[2]) {
+    if ((fp = fopen("stats.2", "w")) == NULL) abort();
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logpdf(x, mu, lambda, 0.0);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logpdf(x, mu, lambda, 0.1);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logpdf(x, mu, lambda, -0.1);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    fclose(fp);
+  }
+
+  /* stats.3: xmgrace xy file w/ CDF for Gumbel, Frechet, Weibull */
+  if (do_test[3]) {
+    if ((fp = fopen("stats.3", "w")) == NULL) abort();
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_cdf(x, mu, lambda, 0.0));
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_cdf(x, mu, lambda, 0.6));
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_cdf(x, mu, lambda, -0.6));
+    fprintf(fp, "&\n");
+    fclose(fp);
+  }
+
+  /* stats.4: xmgrace xy file w/ logCDF for Gumbel, Frechet, Weibull */
+  if (do_test[4]) {
+    if ((fp = fopen("stats.4", "w")) == NULL) abort();
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logcdf(x, mu, lambda, 0.0);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logcdf(x, mu, lambda, 0.2);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logcdf(x, mu, lambda, -0.2);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    fclose(fp);
+  }
+
+ /* stats.5: xmgrace xy file w/ surv for Gumbel, Frechet, Weibull */
+  if (do_test[5]) {
+    if ((fp = fopen("stats.5", "w")) == NULL) abort();
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_surv(x, mu, lambda, 0.0));
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_surv(x, mu, lambda, 0.6));
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep)
+      fprintf(fp, "%.1f  %9.7f\n", x, esl_gev_surv(x, mu, lambda, -0.6));
+    fprintf(fp, "&\n");
+    fclose(fp);
+  }
+
+ /* stats.6: xmgrace xy file w/ logsurv for Gumbel, Frechet, Weibull */
+  if (do_test[6]) {
+    if ((fp = fopen("stats.6", "w")) == NULL) abort();
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logsurv(x, mu, lambda, 0.0);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logsurv(x, mu, lambda, 0.2);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    for (x = xmin; x <= xmax; x+= xstep) {
+      z = esl_gev_logsurv(x, mu, lambda, -0.2);
+      if (finite(z)) fprintf(fp, "%.1f  %9.7f\n", x, z);
+    }
+    fprintf(fp, "&\n");
+    fclose(fp);
+  }
+
+  /* stats.7. R input file of 10,000 random GEV samples.
+   */
+  if (do_test[7]) {
+    if ((fp = fopen("stats.7", "w")) == NULL) abort();  
+    stats_sample(fp);
+    fclose(fp);
+  }
+
+  /* stats.8. Test 500 fits of the Frechet.
+   */
+  if (do_test[8]) {
+    if ((fp = fopen("stats.8", "w")) == NULL) abort();  
+    stats_fittest(fp, 500, 10000, mu, lambda, 0.2);
+    fclose(fp);
+  }
+
+  /* stats.9. Test 500 fits of the near-Gumbel
+   */
+  if (do_test[9]) {
+    if ((fp = fopen("stats.9", "w")) == NULL) abort();  
+    stats_fittest(fp, 500, 10000, mu, lambda, 0.00001);
+    fclose(fp);
+  }
+
+  /* stats.10. Test 500 fits of the Weibull
+   */
+  if (do_test[10]) {
+    if ((fp = fopen("stats.10", "w")) == NULL) abort();  
+    stats_fittest(fp, 500, 10000, mu, lambda, -0.2);
+    fclose(fp);
+  }
+  return 0;
+}
+
+/* stats_sample()
+ * Creates an R input table containing 10,000 random samples
+ * each in columns labeled "gumbel", "frechet", "weibull".
+ * To process in R (remember that R uses 1/lambda for scale):
+     library(ismev)
+     library(evd)
+     z=read.table("stats.7")
+     x1 <- sort(z$gumbel,  decreasing=T)
+     x2 <- sort(z$frechet, decreasing=T)
+     x3 <- sort(z$weibull, decreasing=T)
+     q1 <- qgumbel(ppoints(10000), -20., 1./0.4)
+     q2 <- qgev(ppoints(10000), -20., 1./0.4, 0.2)
+     q3 <- qgev(ppoints(10000), -20., 1./0.4, -0.2)
+     xax<- seq(-40,40,by=0.1)
+     a1 <- dgumbel(xax, -20, 1/0.4)
+     a2 <- dgev(xax, -20, 1/0.4, 0.2)
+     a3 <- dgev(xax, -20, 1/0.4, -0.2)
+     qqplot(x1,q1); abline(0,1)
+     qqplot(x2,q2); abline(0,1)
+     qqplot(x3,q3); abline(0,1)
+     plot(density(x1,bw=0.2)); lines(xax,a1)
+     plot(density(x2,bw=0.2)); lines(xax,a2)
+     plot(density(x3,bw=0.2)); lines(xax,a3)
+ */
+static void
+stats_sample(FILE *fp)
+{
+  ESL_RANDOMNESS *r;
+  double mu     = -20.;
+  double lambda = 0.4;
+  int    n      = 10000;
+  double a,b,c;
+  int    i;
+
+  r = esl_randomness_Create(42);
+  fprintf(fp, "         gumbel  \t  frechet\t  weibull\n");
+  for (i = 1; i <= n; i++)
+    {
+      a  = esl_gev_Sample(r, mu, lambda, 0.0);
+      b  = esl_gev_Sample(r, mu, lambda, 0.2);
+      c  = esl_gev_Sample(r, mu, lambda, -0.2);
+      fprintf(fp, "%d\t%8.4f\t%8.4f\t%8.4f\n", i, a,b,c);
+    }
+  esl_randomness_Destroy(r);
+}
+
+/* stats_fittest()
+ * Samples <n> numbers from a GEV w/ parameters <mu>, <lambda>, <alpha>;
+ * then fits to a GEV and print info about how good the fit is.
+ * 
+ * Repeat this <ntrials> times. 
+ * 
+ * For each trial, outputs a line to <fp>:
+ *   <trial> <nll> <est_nll> <est_mu> <mu %error> <est_lambda> <%err>\
+ *     <est_alpha> <%err> <est E-val at parametric E=1>
+ * 
+ * Each sampled set is done with the random number generator seeded to
+ * the trial number. This should make each set reproducible and
+ * identical to the sets used to test R's fitting.
+ * 
+ * xref STL9/191; xref 2005/0718-weibull-debugging
+ */
+static int
+stats_fittest(FILE *fp, int ntrials, int n, double mu, double lambda, double alpha)
+{
+  ESL_RANDOMNESS *r = NULL;
+  double *x         = NULL;
+  int     i;
+  int     trial;
+  double  est_mu, est_lambda, est_alpha;
+  double  z;
+  double  nll, est_nll;
+  int     status;
+
+  ESL_ALLOC(x, sizeof(double) * n);
+  for (trial = 1; trial <= ntrials; trial++)
+    {
+      r = esl_randomness_Create(trial);
+      nll = 0.;
+      for (i = 0; i < n; i++) 
+	{
+	  x[i] = esl_gev_Sample(r, mu, lambda, alpha);
+	  nll -= esl_gev_logpdf(x[i], mu, lambda, alpha);
+	}
+      esl_randomness_Destroy(r);
+
+      esl_gev_FitComplete(x, n, &est_mu, &est_lambda, &est_alpha);      
+
+      est_nll = 0.;
+      for (i = 0; i < n; i++) 
+	est_nll -= esl_gev_logpdf(x[i], est_mu, est_lambda, est_alpha);
+
+      z = mu + (exp(-alpha*log(1/(double)n)) - 1 ) / (alpha*lambda);/* x at E=1*/
+      z = (double) n * esl_gev_surv(z, est_mu, est_lambda, est_alpha); /* E at x */
+
+      printf("%4d  %10.2f %10.2f  %8.3f  %8.3f %8.5f %8.3f %8.5f %8.3f %6.4f\n", 
+	     trial, nll, est_nll,
+	     est_mu,      100* fabs((est_mu-mu)/mu),
+	     est_lambda,  100* fabs((est_lambda-lambda)/lambda),
+	     est_alpha,   100* fabs((est_alpha-alpha)/alpha),
+	     z);
+    }
+  free(x);
+  return eslOK;
+
+ ERROR:
+  return status; 
+}
+#endif /*eslGEV_STATS*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_gev.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_gev.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.h
new file mode 100755
index 0000000..d553aea
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.h
@@ -0,0 +1,56 @@
+/* esl_gev.h
+ * Generalized extreme value (GEV) distributions.
+ * 
+ * SRE, Tue Jul 12 09:15:56 2005
+ * SVN $Id: esl_gev.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_gev.h $
+ */
+#ifndef eslGEV_INCLUDED
+#define eslGEV_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+
+extern double esl_gev_pdf    (double x, double mu, double lambda, double alpha);
+extern double esl_gev_logpdf (double x, double mu, double lambda, double alpha);
+extern double esl_gev_cdf    (double x, double mu, double lambda, double alpha);
+extern double esl_gev_logcdf (double x, double mu, double lambda, double alpha);
+extern double esl_gev_surv   (double x, double mu, double lambda, double alpha);
+extern double esl_gev_logsurv(double x, double mu, double lambda, double alpha);
+extern double esl_gev_invcdf (double p, double mu, double lambda, double alpha);
+
+extern double esl_gev_generic_pdf   (double x, void *params);
+extern double esl_gev_generic_cdf   (double x, void *params);
+extern double esl_gev_generic_surv  (double x, void *params);
+extern double esl_gev_generic_invcdf(double p, void *params);
+
+extern int    esl_gev_Plot(FILE *fp, double mu, double lambda, double alpha,
+			   double (*func)(double x, double mu, double lambda, double alpha), 
+			   double xmin, double xmax, double xstep);
+
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_gev_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double alpha);
+#endif
+
+#ifdef eslAUGMENT_MINIMIZER
+extern int esl_gev_FitComplete(double *x, int n, 
+			       double *ret_mu, double *ret_lambda, 
+			       double *ret_alpha);
+extern int esl_gev_FitCensored(double *x, int n, int z, double phi,
+			       double *ret_mu, double *ret_lambda, 
+			       double *ret_alpha);
+#endif /*eslAUGMENT_MINIMIZER*/
+
+
+#endif /*eslGEV_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.tex
new file mode 100755
index 0000000..f64c8fe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gev.tex
@@ -0,0 +1,205 @@
+
+The generalized extreme value distribution (GEV) includes all three
+types of extreme value distributions: Type I (Gumbel), type II
+(Fr\'{e}chet), and type III (Weibull). Empirically, the scores of some
+sequence alignment algorithms appear to follow GEV distributions.  The
+\eslmod{gev} module is used in estimating the statistical significance
+of such scores.
+
+Most local sequence alignment scores follow the Gumbel distribution.
+Easel's \eslmod{gumbel} module applies specifically to the Gumbel. The
+\eslmod{gev} module is used for Type II or III extreme value
+distributions, or for determining which of the three types of
+distribution that a dataset best fits.
+
+\subsection{The gev API}
+
+The \eslmod{gev} API consists of the following functions:
+
+\vspace{0.5em}
+\begin{center}
+\begin{tabular}{ll}\hline
+    \multicolumn{2}{c}{\textbf{evaluating densities and distributions:}}\\
+\ccode{esl\_gev\_pdf()}     & Returns the probability density, $P(S=x)$.\\
+\ccode{esl\_gev\_logpdf()}  & Returns the log of the pdf, $\log P(S=x)$.\\
+\ccode{esl\_gev\_cdf()}     & Returns the cumulative probability distribution, $P(S \leq x)$.\\
+\ccode{esl\_gev\_logcdf()}  & Returns the log of the cdf, $\log P(S \leq x)$.\\
+\ccode{esl\_gev\_surv()}    & Returns right tail mass, 1-cdf, $P(S > x)$\\
+\ccode{esl\_gev\_logsurv()} & Returns log of 1-cdf, $\log P(S > x)$.\\
+    \multicolumn{2}{c}{\textbf{sampling:}}\\
+\ccode{esl\_gev\_Sample()}  & Returns a GEV-distributed random sample.\\
+    \multicolumn{2}{c}{\textbf{maximum likelihood parameter fitting:}}\\
+\ccode{esl\_gev\_FitComplete()} & Estimates GEV parameters from complete data.\\
+\end{tabular}
+\end{center}
+\vspace{0.5em}
+
+The Gumbel distribution depends on three parameters, $\mu$, $\lambda$,
+and $\alpha$. When these parameters are known, the statistical
+significance (P-value) of a single score $x$ is $P(S>x)$, obtained by
+a call to \ccode{esl\_gev\_surv()}.  The E-value for obtaining that
+score or better in searching a database of $N$ sequences is just
+$NP(S>x)$.
+
+When the parameters are unknown, they can be estimated from scores
+obtained from comparisons of simulated random data. The
+\ccode{esl\_gev\_FitComplete()} function performs maximum likelihood
+parameter fitting \citep{Coles01}.
+
+\subsubsection{Augmentations: random, minimizer}
+
+The \ccode{esl\_gev\_Sample()} function requires augmenting with the
+\eslmod{random} module.
+
+The \ccode{esl\_gev\_FitComplete()} function requires augmenting with
+the \eslmod{minimizer} module.
+
+\subsection{Example of using the gev API}
+
+Below is a code example that samples 10,000 data points from a
+Fr\'{e}chet distribution with $\mu=-20$, $\lambda=0.4$, $\alpha=0.1$;
+reports the min and max samples, and the probability mass to the left
+of the min and to the right of the max (both of which should be about
+$\frac{1}{10000}$, since we took 10,000 samples); and then fits those
+simulated data to a Gumbel and reports the fitted $\mu$ and $\lambda$:
+
+\input{cexcerpts/gev_example}
+
+\subsection{GEV densities}
+
+The probability density function (pdf) and the cumulative distribution
+function (cdf) of the generalized extreme value distribution are
+\citep{Coles01}:
+
+\begin{eqnarray}
+P(X=x) & = & \lambda \left[ 1 + \alpha \lambda (x - \mu) \right]^{-\frac{\alpha+1}{\alpha}}
+       \exp \left\{ - \left[ 1 + \alpha \lambda (x - \mu)
+       \right]^{-\frac{1}{\alpha}} \right\} 
+\\%
+\label{eqn:gev_density}
+P(X \geq x) & = & \exp \left\{ - \left[ 1 +
+     \alpha\lambda(x-\mu) \right]^{-\frac{1}{\alpha}} \right\} 
+\\%
+\label{eqn:gev_distribution}
+\end{eqnarray}
+
+The parameters $\mu$, $\lambda$, and $\alpha$ are location, scale, and
+shape parameters, respectively, with $-\infty < \mu < \infty$, $0 <
+\lambda < \infty$, and $-\infty < \alpha < \infty$.
+
+The Type II (Fr\'{e}chet) distribution corresponds to $\alpha > 0$,
+and the Type III (Weibull) distribution corresponds to $\alpha < 0$.
+The Type I (Gumbel) distribution arises in the limit $\alpha
+\rightarrow 0$. At values $\alpha \simeq 0$, Easel's GEV functions
+revert to the Gumbel limit case, as opposed to dividing by zero and
+failing.
+
+Technically the GEV is only defined for values of $x$ such that $1 +
+\alpha \lambda (x - \mu) > 0$. However, Easel's functions return
+sensible values outside this domain, such as 0 for nonexistent
+densities.
+
+Generalized extreme value densities for $\mu = 0$ and $\lambda = 1$
+are shown below (left) for three settings of $\alpha$; $\alpha = 0$
+(Gumbel), $\alpha = 0.1$ (Fr\'{e}chet), and $\alpha = -0.1$
+(Weibull). The figure on the right shows the log densities, which more
+clearly show how, relative to the exponential right tail of the
+Gumbel, the Fr\'{e}chet's tail is longer, and the Weibull's tail is
+shorter.
+
+\centerline{
+\begin{minipage}{3in}
+\includegraphics[width=2.8in]{figures/gev_density}
+\end{minipage}
+\begin{minipage}{3in}
+\includegraphics[width=2.8in]{figures/gev_logdensity}
+\end{minipage}
+}
+
+For more details, see the excellent description in \citep{Coles01}.
+Easel's $\{ \mu, \lambda, \alpha \}$ notation differs from the $\{
+\mu, \sigma, \xi \}$ parameterization used by Coles. Use $\lambda =
+\frac{1}{\sigma}$ and $\alpha = \xi$ to translate.
+
+\subsection{Fitting GEV distributions to observed data}
+
+Easel fits GEVs by maximum likelihood estimation by numerically
+optimizing the log likelihood function, using first derivative
+information and conjugate gradient descent.  See the \eslmod{gumbel}
+chapter for a more general introduction to maximum likelihood fitting.
+
+\subsubsection{Maximum likelihood estimation, complete data}
+
+The function \ccode{esl\_gev\_FitComplete()} uses gradient information
+to find parameters that optimize the likelihood function, using the
+conjugate gradient descent code in the \eslmod{minimizer} module.
+
+Given $n$ samples $x_1..x_n$, we want to estimate maximum likelihood
+parameter estimates $\{ \hat{\mu}, \hat{\lambda}, \hat{\alpha} \}$
+that maximize the log likelihood:
+
+\begin{equation}
+\log L(\lambda, \mu, \alpha) = n \log \lambda 
+       - \frac{\alpha+1}{\alpha} 
+           \sum_{i=1}^{n} \log\left[1+ \alpha\lambda(x_i - \mu) \right]
+       - \sum_{i=1}^{n} \left[ 1 + \alpha\lambda (x_i - \mu) \right]^{\frac{1}{\alpha}}
+\label{eqn:gev_logL}
+\end{equation}
+
+The $\left[ 1 + \alpha\lambda (x_i - \mu) \right]^{\frac{1}{\alpha}}$
+term can be rewritten in a more conveniently differentiable form as
+$\exp \left\{ \frac{1}{\alpha} \log \left[ 1 + \alpha\lambda (x_i - \mu)
+\right] \right\}$.
+
+Since the $\lambda$ parameter is constrained to $\lambda > 0$ but the
+numerical optimizer expects unconstrained parameters, we use a change
+of variables $\lambda = e^w$ and optimize an unconstrained value $w$.
+
+The gradient of the log likelihood with respect to $\mu$, $w$, and
+$\alpha$ is:
+
+%% xref: STL9/118-120
+\begin{eqnarray}
+\frac{\partial \log L}{\partial \mu} & = &
+  \sum_{i=1}^n \frac{\lambda (\alpha+1)}{1+\alpha\lambda(x_i-\mu)} 
+ -\sum_{i=1}^n \lambda \exp 
+    \left\{ -\frac{\alpha+1}{\alpha} \log
+          \left[1+\alpha\lambda(x_i-\mu)\right] \right\}
+\\%
+\label{eqn:gev_mupartial}
+\frac{\partial \log L}{\partial w} & = &
+  n - \sum_{i=1}^{n} \frac{\lambda (\alpha+1) (x_i - \mu)} 
+                          {1 + \alpha \lambda (x_i - \mu)}
+  + \sum_{i=1}^n \lambda (x_i - \mu) 
+         \exp \left\{ -\frac{\alpha+1}{\alpha} \log
+          \left[1+\alpha\lambda(x_i-\mu)\right] \right\}
+\\%
+\label{eqn:gev_wpartial}
+\frac{\partial \log L}{\partial \alpha} & = &
+   \sum_{i=1}^n \left\{
+      \begin{array}{l}
+      - \frac{\alpha+1}{\alpha} \frac{\lambda(x_i-\mu)}
+                                  {1 +\alpha\lambda(x_i-\mu)}\\
+      + \frac{1}{\alpha^2} \log \left[ 1 + \alpha\lambda(x_i - \mu) \right]\\
+      + \frac{1}{\alpha} \frac{\lambda(x_i-\mu)}
+                          {1 +\alpha\lambda(x_i-\mu)}
+      e^{-\frac{1}{\alpha} \log\left[ 1 + \alpha\lambda(x_i - \mu) \right]}\\
+     -  \frac{1}{\alpha^2} \log \left[ 1 + \alpha\lambda(x_i - \mu) \right]
+      e^{-\frac{1}{\alpha} \log\left[ 1 + \alpha\lambda(x_i - \mu)
+	 \right]} 
+     \end{array}
+     \right.
+\\%
+\label{eqn:gev_alphapartial}
+\end{eqnarray}
+
+When $|\alpha\lambda(x_i - \mu)|$ approaches $0$, the GEV approximates
+a Gumbel distribution and these equations can be simplified using the
+approximation $\log(1+a) \simeq a$.
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.c
new file mode 100755
index 0000000..ba80cb5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.c
@@ -0,0 +1,1222 @@
+/* Statistical routines for Gumbel (type I extreme value) distributions.
+ * 
+ * Contents:
+ *   1. Routine for evaluating densities and distributions
+ *   2. Generic API routines: for general interface w/ histogram module
+ *   3. Routines for dumping plots to files
+ *   4. Routines for sampling (requires random module)
+ *   5. Maximum likelihood fitting to data (requires minimizer module)
+ *   6. Stats driver
+ *   7. Unit tests
+ *   8. Test driver
+ *   9. Example
+ *  10. Copyright and license information
+ * 
+ * Note: SRE, Mon Aug  6 13:42:09 2007
+ * ML fitting routines will be prone to over/underfitting 
+ * problems for scores outside a "normal" range, because
+ * of exp(-lambda * x) calls. The Lawless ML estimation
+ * may eventually need to be recast in log space.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_vectorops.h"
+#include "esl_gumbel.h"
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+
+/*****************************************************************
+ * 1. Routines for evaluating densities and distributions
+ *****************************************************************/ 
+
+/* Function:  esl_gumbel_pdf()
+ * Synopsis:  Returns the probability density at $x$, $P(S=x)$.
+ *
+ * Purpose:   Calculates the probability density function for the Gumbel,
+ *            $P(X=x)$, given quantile <x> and Gumbel location and
+ *            scale parameters <mu> and <lambda>.
+ *            
+ *            Let $y = \lambda(x-\mu)$; for 64-bit doubles,
+ *            useful dynamic range is about $-6.5 <= y <= 710$.
+ *            Returns 0.0 for smaller $y$, 0.0 for larger $y$.
+ */
+double
+esl_gumbel_pdf(double x, double mu, double lambda)
+{
+  double y;
+  y = lambda * (x - mu);
+  return (lambda * exp(-y - exp(-y)));
+}
+
+
+/* Function:  esl_gumbel_logpdf()
+ * Synopsis:  Returns the log of the pdf at $x$, $\log P(S=x)$.
+ *
+ * Purpose:   Calculates the log probability density function for the Gumbel,
+ *            $\log P(X=x)$.
+ *                                                     
+ *            Let $y = \lambda(x-\mu)$; for 64-bit doubles,
+ *            useful dynamic range is about $-708 <= y <= \infty$.
+ *            Returns $-\infty$ for smaller or larger $y$.
+ */
+double
+esl_gumbel_logpdf(double x, double mu, double lambda)
+{
+  double y;
+  y = lambda * (x - mu);
+  return (log(lambda) -y - exp(-y));
+}
+
+
+/* Function:  esl_gumbel_cdf()
+ * Synopsis:  Returns the cumulative distribution at $x$, $P(S \leq x)$.
+ *
+ * Purpose:   Calculates the cumulative distribution function
+ *            for the Gumbel, $P(X \leq x)$.
+ *            
+ *            Let $y = \lambda(x-\mu)$; for 64-bit doubles,
+ *            useful dynamic range for $y$ is about $-6.5 <= y <=36$.
+ *            Returns 0.0 for smaller $y$, 1.0 for larger $y$.
+ */
+double 
+esl_gumbel_cdf(double x, double mu, double lambda)
+{
+  double y;
+  y = lambda*(x-mu);
+  return exp(-exp(-y));
+}
+
+/* Function:  esl_gumbel_logcdf()
+ * Synopsis:  Returns the log of the cdf at $x$, $\log P(S \leq x)$.
+ *
+ * Purpose:   Calculates the log of the cumulative distribution function
+ *            for the Gumbel, $\log P(X \leq x)$.
+ *            
+ *            Let $y = \lambda(x-\mu)$; for 64-bit doubles,
+ *            useful dynamic range for $y$ is about $-708 <= y <= 708$.
+ *            Returns $-\infty$ for smaller $y$, 0.0 for larger $y$.
+ */
+double 
+esl_gumbel_logcdf(double x, double mu, double lambda)
+{
+  double y;
+  y = lambda*(x-mu);
+  return (-exp(-y));
+}
+
+/* Function:  esl_gumbel_surv()
+ * Synopsis:  Returns right tail mass above $x$, $P(S > x)$.
+ *
+ * Purpose:   Calculates the survivor function, $P(X>x)$ for a Gumbel 
+ *            (that is, 1-cdf), the right tail's probability mass.
+ * 
+ *            Let $y=\lambda(x-\mu)$; for 64-bit doubles, 
+ *            useful dynamic range for $y$ is $-3.6 <= y <= 708$.
+ *            Returns 1.0 for $y$ below lower limit, and 0.0
+ *            for $y$ above upper limit.
+ */
+double
+esl_gumbel_surv(double x, double mu, double lambda)
+{
+  double y  = lambda*(x-mu);
+  double ey = -exp(-y);
+
+  /* Use 1-e^x ~ -x approximation here when e^-y is small. */
+  if (fabs(ey) < eslSMALLX1) return -ey;
+  else                       return 1 - exp(ey);
+}
+
+/* Function:  esl_gumbel_logsurv()
+ * Synopsis:  Returns log survival at $x$, $\log P(S > x)$.
+ *
+ * Purpose:   Calculates $\log P(X>x)$ for a Gumbel (that is, $\log$(1-cdf)):
+ *            the log of the right tail's probability mass.
+ * 
+ *            Let $y=\lambda(x-\mu)$; for 64-bit doubles, 
+ *            useful dynamic range for $y$ is $-6.5 <= y <= \infty$.
+ *            Returns 0.0 for smaller $y$.
+ */
+double
+esl_gumbel_logsurv(double x, double mu, double lambda)
+{
+  double y  = lambda*(x-mu);
+  double ey = -exp(-y);
+
+  /* The real calculation is log(1-exp(-exp(-y))).
+   * For "large" y, -exp(-y) is small, so 1-exp(-exp(-y) ~ exp(-y),
+   * and log of that gives us -y.
+   * For "small y", exp(-exp(-y) is small, and we can use log(1-x) ~ -x. 
+   */
+  if      (fabs(ey)      < eslSMALLX1) return -y;
+  else if (fabs(exp(ey)) < eslSMALLX1) return -exp(ey);
+  else                                 return log(1-exp(ey));
+}
+
+/* Function:  esl_gumbel_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF for a Gumbel distribution
+ *            with parameters <mu> and <lambda>. That is, returns
+ *            the quantile <x> at which the CDF is <p>.
+ */
+double
+esl_gumbel_invcdf(double p, double mu, double lambda)
+{
+    return mu - ( log(-1. * log(p)) / lambda);
+}
+
+/* Function:  esl_gumbel_invsurv()
+ *
+ * Purpose:   Calculates the score at which the right tail's mass
+ *            is p, for a Gumbel distribution
+ *            with parameters <mu> and <lambda>. That is, returns
+ *            the quantile <x> at which 1-CDF is <p>.
+ */
+double
+esl_gumbel_invsurv(double p, double mu, double lambda)
+{
+	/* The real calculation is mu - ( log(-1. * log(1-p)) / lambda).
+	*  But there's a problem with small p:
+	*     for p<1e-15, 1-p will be viewed as 1, so
+	*     log ( -log(1-p) ) == log (0) -> inf
+	*  Instead, use two approximations;
+	*    (1) log( 1-p) ~= -p   for small p (e.g. p<0.001)
+	*      so log(-1. * log(1-p)) ~= log(p)
+	*    (2) log (p) ~= (p^p - 1) / p
+	*
+	*    See notes Mar 1, 2010.
+	*/
+	double log_part;
+	if (p < eslSMALLX1) {
+		log_part = (pow(p,p) - 1 ) / p;
+	} else {
+		log_part = log(-1. * log(1-p));
+	}
+
+	//test 2
+
+    return mu - ( log_part / lambda);
+}
+/*------------------ end of densities and distributions --------------------*/
+
+
+/*****************************************************************
+ * 2. Generic API routines: for general interface w/ histogram module
+ *****************************************************************/ 
+
+/* Function:  esl_gumbel_generic_pdf()
+ *
+ * Purpose:   Generic-API version of PDF function.
+ */
+double
+esl_gumbel_generic_pdf(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_gumbel_pdf(p, v[0], v[1]);
+}
+
+/* Function:  esl_gumbel_generic_cdf()
+ *
+ * Purpose:   Generic-API version of CDF function.
+ */
+double
+esl_gumbel_generic_cdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_gumbel_cdf(x, p[0], p[1]);
+}
+
+/* Function:  esl_gumbel_generic_surv()
+ *
+ * Purpose:   Generic-API version of survival function.
+ */
+double
+esl_gumbel_generic_surv(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_gumbel_surv(p, v[0], v[1]);
+}
+
+/* Function:  esl_gumbel_generic_invcdf()
+ *
+ * Purpose:   Generic-API version of inverse CDF.
+ */
+double
+esl_gumbel_generic_invcdf(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_gumbel_invcdf(p, v[0], v[1]);
+}
+
+
+/*------------------------- end of generic API --------------------------*/
+
+
+
+/****************************************************************************
+ * 3. Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_gumbel_Plot()
+ * Synopsis:  Plot a Gumbel function in XMGRACE XY format.
+ *
+ * Purpose:   Plot a Gumbel function <func> (for instance,
+ *            <esl_gumbel_pdf()>) for parameters <mu> and <lambda>, for
+ *            a range of quantiles x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_gumbel_Plot(FILE *fp, double mu, double lambda, 
+		double (*func)(double x, double mu, double lambda), 
+		double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mu, lambda)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "gumbel plot write failed");
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "gumbel plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+/*****************************************************************
+ * 4. Routines for sampling (requires augmentation w/ random module)
+ *****************************************************************/ 
+
+#ifdef eslAUGMENT_RANDOM
+/* Function:  esl_gumbel_Sample()
+ * Synopsis:  Return a Gumbel-distributed random sample $x$.
+ *
+ * Purpose:   Sample a Gumbel-distributed random variate
+ *            by the transformation method.
+ */
+double
+esl_gumbel_Sample(ESL_RANDOMNESS *r, double mu, double lambda)
+{
+  double p;
+  p = esl_rnd_UniformPositive(r); 
+  return esl_gumbel_invcdf(p, mu, lambda);
+} 
+#endif /*eslAUGMENT_RANDOM*/
+
+/*------------------------ end of sampling --------------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Routines for maximum likelihood fitting Gumbels to data
+ * (fitting truncated distributions requires augmentation w/ minimizer module)
+ *****************************************************************/ 
+
+/*****************************************************************
+ * Complete data, maximum a posteriori parameters
+ *****************************************************************/ 
+
+/* lawless416()
+ * SRE, Thu Nov 13 11:48:50 1997 [St. Louis]
+ * 
+ * Purpose:  Equation 4.1.6 from [Lawless82], pg. 143, and
+ *           its first derivative with respect to lambda,
+ *           for finding the ML fit to Gumbel lambda parameter.
+ *           This equation gives a result of zero for the maximum
+ *           likelihood lambda.
+ *           
+ * Args:     x      - array of sample values 
+ *           n      - number of samples 
+ *           lambda - a lambda to test
+ *           ret_f  - RETURN: 4.1.6 evaluated at lambda
+ *           ret_df - RETURN: first derivative of 4.1.6 evaluated at lambda
+ *           
+ * Return:   (void)
+ */ 
+static void
+lawless416(double *x, int n, double lambda, double *ret_f, double *ret_df)
+{
+  double esum;			/* \sum e^(-lambda xi)      */
+  double xesum;			/* \sum xi e^(-lambda xi)   */
+  double xxesum;		/* \sum xi^2 e^(-lambda xi) */
+  double xsum;			/* \sum xi                  */
+  int i;
+
+  esum = xesum = xsum  = xxesum = 0.;
+  for (i = 0; i < n; i++)
+    {
+      xsum   += x[i];
+      xesum  += x[i] * exp(-1. * lambda * x[i]);
+      xxesum += x[i] * x[i] * exp(-1. * lambda * x[i]);
+      esum   += exp(-1. * lambda * x[i]);
+    }
+  *ret_f  = (1./lambda) - (xsum / n)  + (xesum / esum);
+  *ret_df = ((xesum / esum) * (xesum / esum))
+    - (xxesum / esum)
+    - (1. / (lambda * lambda));
+}
+
+/* Function: esl_gumbel_FitComplete()
+ * Synopsis: Estimates $\mu$, $\lambda$ from complete data.
+ * Date:     SRE, Fri Nov 14 07:56:29 1997 [St. Louis] - HMMER's EVDMaxLikelyFit()
+ * 
+ * Purpose:  Given an array of Gumbel-distributed samples <x[0]..x[n-1]>,
+ *           find maximum likelihood parameters <mu> and <lambda>.
+ *           
+ * Algorithm: Uses approach described in [Lawless82]. Solves
+ *            for lambda using Newton/Raphson iterations,
+ *            then substitutes lambda into Lawless' equation 4.1.5
+ *            to get mu. 
+ *           
+ * Args:     x          - list of Gumbel distributed samples
+ *           n          - number of samples
+ *           ret_mu     : RETURN: ML estimate of mu
+ *           ret_lambda : RETURN: ML estimate of lambda
+ *           
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslENOHALT> if the fit doesn't converge.
+ */
+int
+esl_gumbel_FitComplete(double *x, int n, double *ret_mu, double *ret_lambda)
+{
+  double  variance;
+  double  lambda, mu;
+  double  fx;			/* f(x)  */
+  double  dfx;			/* f'(x) */
+  double  esum;                 /* \sum e^(-lambda xi) */ 
+  double  tol = 1e-5;
+  int     i;
+
+  /* 1. Find an initial guess at lambda
+   *    (Evans/Hastings/Peacock, Statistical Distributions, 2000, p.86)
+   */
+  esl_stats_DMean(x, n, NULL, &variance);
+  lambda = eslCONST_PI / sqrt(6.*variance);
+
+  /* 2. Use Newton/Raphson to solve Lawless 4.1.6 and find ML lambda
+   */
+  for (i = 0; i < 100; i++)
+    {
+      lawless416(x, n, lambda, &fx, &dfx);
+      if (fabs(fx) < tol) break;             /* success */
+      lambda = lambda - fx / dfx;	     /* Newton/Raphson is simple */
+      if (lambda <= 0.) lambda = 0.001;      /* but be a little careful  */
+    }
+
+  /* 2.5: If we did 100 iterations but didn't converge, Newton/Raphson failed.
+   *      Resort to a bisection search. Worse convergence speed
+   *      but guaranteed to converge (unlike Newton/Raphson).
+   *      We assume that fx is a monotonically decreasing function of x;
+   *      i.e. fx > 0 if we are left of the root, fx < 0 if we
+   *      are right of the root.
+   */ 
+  if (i == 100)
+    {
+      double left, right, mid;
+      ESL_DPRINTF1(("esl_gumbel_FitComplete(): Newton/Raphson failed; switchover to bisection"));
+
+      /* First bracket the root */
+      left  = 0.;	                 	/* for sure */
+      right = eslCONST_PI / sqrt(6.*variance);  /* an initial guess */
+      lawless416(x, n, lambda, &fx, &dfx);
+      while (fx > 0.) 
+	{		
+	  right *= 2.;		/* arbitrary leap to the right */
+	  if (right > 100.) /* no reasonable lambda should be > 100, we assert */
+	    ESL_EXCEPTION(eslENOHALT, "Failed to bracket root in esl_gumbel_FitComplete().");
+	  lawless416(x, n, right, &fx, &dfx);
+	}
+
+      /* Now, bisection search in left/right interval */
+      for (i = 0; i < 100; i++)
+	{
+	  mid = (left + right) / 2.; 
+	  lawless416(x, n, mid, &fx, &dfx);
+	  if (fabs(fx) < tol) break;             /* success */
+	  if (fx > 0.)	left = mid;
+	  else          right = mid;
+	}
+      if (i == 100) 
+	ESL_EXCEPTION(eslENOHALT, "Even bisection search failed in esl_gumbel_FitComplete().");
+
+      lambda = mid;
+    }
+
+  /* 3. Substitute into Lawless 4.1.5 to find mu
+   */
+  esum = 0.;
+  for (i = 0; i < n; i++)
+    esum  += exp(-lambda * x[i]);
+  mu = -log(esum / n) / lambda;
+
+  *ret_lambda = lambda;
+  *ret_mu     = mu;   
+  return eslOK;
+}
+
+/* Function:  esl_gumbel_FitCompleteLoc()
+ * Synopsis:  Estimates $\mu$ from complete data, given $\lambda$.
+ *
+ * Purpose:   Given an array of Gumbel-distributed samples 
+ *            <x[0]..x[n-1]> (complete data), and a known
+ *            (or otherwise fixed) <lambda>, find a maximum
+ *            likelihood estimate for location parameter <mu>.
+ *            
+ * Algorithm: A straightforward simplification of FitComplete().           
+ *
+ * Args:     x          - list of Gumbel distributed samples
+ *           n          - number of samples
+ *           lambda     - known lambda (scale) parameter
+ *           ret_mu     : RETURN: ML estimate of mu
+ *           
+ * Returns:  <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ * 
+ * Note:     Here and in FitComplete(), we have a potential
+ *           under/overflow problem. We ought to be doing the
+ *           esum in log space.
+ */
+int
+esl_gumbel_FitCompleteLoc(double *x, int n, double lambda, double *ret_mu)
+{
+  double esum;
+  int    i;
+
+  /* Substitute into Lawless 4.1.5 to find mu */
+  esum = 0.;
+  for (i = 0; i < n; i++)
+    esum  += exp(-lambda * x[i]);
+  *ret_mu = -log(esum / n) / lambda;
+  return eslOK;
+
+#if 0
+  /* Replace the code above w/ code below to test the direct method. */
+  double mean, variance;
+  esl_stats_DMean(x, n, &mean, &variance);
+  *ret_mu     = mean - 0.57722/lambda;
+  return eslOK;
+#endif
+}
+
+
+#if eslDEBUGLEVEL >=3
+/* direct_mv_fit()
+ * SRE, Wed Jun 29 08:23:47 2005
+ * 
+ * Purely for curiousity: a complete data fit using the
+ * simple direct method, calculating mu and lambda from mean
+ * and variance.
+ */
+static int
+direct_mv_fit(double *x, int n, double *ret_mu, double *ret_lambda)
+{
+  double mean, variance;
+
+  esl_stats_DMean(x, n, &mean, &variance);
+  *ret_lambda = eslCONST_PI / sqrt(6.*variance);
+  *ret_mu     = mean - 0.57722/(*ret_lambda);
+  return eslOK;
+}
+#endif
+
+/*------------------- end of complete data fit ---------------------------------*/
+
+
+/*****************************************************************
+ * Censored data, MAP/ML parameters
+ *****************************************************************/ 
+/* lawless422()
+ * SRE, Mon Nov 17 09:42:48 1997 [St. Louis]
+ * 
+ * Purpose:  Equation 4.2.2 from [Lawless82], pg. 169, and
+ *           its first derivative with respect to lambda,
+ *           for finding the ML fit to Gumbel lambda parameter
+ *           for Type I censored data. 
+ *           This equation gives a result of zero for the maximum
+ *           likelihood lambda.
+ *           
+ * Args:     x      - array of observed sample values 
+ *           n      - number of observed samples 
+ *           z      - number of censored samples = N-n 
+ *           phi    - censoring value; all observed x_i >= phi         
+ *           lambda - a lambda to test
+ *           ret_f  - RETURN: 4.2.2 evaluated at lambda
+ *           ret_df - RETURN: first derivative of 4.2.2 evaluated at lambda
+ *           
+ * Return:   (void)
+ */ 
+static void
+lawless422(double *x, int n, int z, double phi,
+	   double lambda, double *ret_f, double *ret_df)
+{
+  double esum;			/* \sum e^(-lambda xi)      + z term    */
+  double xesum;			/* \sum xi e^(-lambda xi)   + z term    */
+  double xxesum;		/* \sum xi^2 e^(-lambda xi) + z term    */
+  double xsum;			/* \sum xi                  (no z term) */
+  int i;
+
+  esum = xesum = xsum  = xxesum = 0.;
+  for (i = 0; i < n; i++)
+    {
+      xsum   += x[i];
+      esum   +=               exp(-1. * lambda * x[i]);
+      xesum  +=        x[i] * exp(-1. * lambda * x[i]);
+      xxesum += x[i] * x[i] * exp(-1. * lambda * x[i]);
+    }
+
+  /* Add z terms for censored data
+   */
+  esum   += (double) z *             exp(-1. * lambda * phi);
+  xesum  += (double) z * phi *       exp(-1. * lambda * phi);
+  xxesum += (double) z * phi * phi * exp(-1. * lambda * phi);
+
+  *ret_f  = 1./lambda - xsum / n + xesum / esum;
+  *ret_df = ((xesum / esum) * (xesum / esum))
+    - (xxesum / esum)
+    - (1. / (lambda * lambda));
+
+  return;
+}
+
+/* Function: esl_gumbel_FitCensored()
+ * Synopsis: Estimates $\mu$, $\lambda$ from censored data.
+ * Date:     SRE, Mon Nov 17 10:01:05 1997 [St. Louis]
+ * 
+ * Purpose: Given a left-censored array of Gumbel-distributed samples
+ *          <x[0]..x[n-1]>, the number of censored samples <z>, and the
+ *          censoring value <phi> (all <x[i]> $>$ <phi>).
+ *          Find maximum likelihood parameters <mu> and <lambda>.
+ *           
+ * Algorithm: Uses approach described in [Lawless82]. Solves
+ *            for lambda using Newton/Raphson iterations;
+ *            then substitutes lambda into Lawless' equation 4.2.3
+ *            to get mu. 
+ *           
+ * Args:     x          - array of Gumbel-distributed samples, 0..n-1
+ *           n          - number of observed samples
+ *           z          - number of censored samples
+ *           phi        - censoring value (all x_i >= phi)
+ *           ret_mu     : RETURN: ML estimate of mu
+ *           ret_lambda : RETURN: ML estimate of lambda
+ *           
+ * Returns:  <eslOK> on success.
+ *
+ * Throws:   <eslENOHALT> if the fit doesn't converge.
+ */
+int
+esl_gumbel_FitCensored(double *x, int n, int z, double phi, 
+		       double *ret_mu, double *ret_lambda)
+{
+  double variance;
+  double lambda, mu;
+  double fx;			/* f(x)  */
+  double dfx;			/* f'(x) */
+  double esum;                  /* \sum e^(-lambda xi) */ 
+  double tol = 1e-5;
+  int    i;
+
+  /* 1. Find an initial guess at lambda
+   *    (Evans/Hastings/Peacock, Statistical Distributions, 2000, p.86)
+   */
+  esl_stats_DMean(x, n, NULL, &variance);
+  lambda = eslCONST_PI / sqrt(6.*variance);
+
+  /* 2. Use Newton/Raphson to solve Lawless 4.2.2 and find ML lambda
+   */
+  for (i = 0; i < 100; i++)
+    {
+      lawless422(x, n, z, phi, lambda, &fx, &dfx);
+      if (fabs(fx) < tol) break;             /* success */
+      lambda = lambda - fx / dfx;	     /* Newton/Raphson is simple */
+      if (lambda <= 0.) lambda = 0.001;      /* but be a little careful  */
+    }
+
+ /* 2.5: If we did 100 iterations but didn't converge, Newton/Raphson failed.
+   *      Resort to a bisection search. Worse convergence speed
+   *      but guaranteed to converge (unlike Newton/Raphson).
+   *      We assume (!?) that fx is a monotonically decreasing function of x;
+   *      i.e. fx > 0 if we are left of the root, fx < 0 if we
+   *      are right of the root.
+   */ 
+  if (i == 100)
+    {
+      double left, right, mid;
+      ESL_DPRINTF1(("esl_gumbel_FitCensored(): Newton/Raphson failed; switched to bisection"));
+
+      /* First bracket the root */
+      left  = 0.;		/* we know that's the left bound */
+      right = eslCONST_PI / sqrt(6.*variance); /* start from here, move "right"... */
+      lawless422(x, n, z, phi, right, &fx, &dfx);
+      while (fx > 0.)
+	{
+	  right *= 2.;
+	  if (right > 100.) /* no reasonable lambda should be > 100, we assert */
+	    ESL_EXCEPTION(eslENOHALT, "Failed to bracket root in esl_gumbel_FitCensored().");
+	  lawless422(x, n, z, phi, right, &fx, &dfx);
+	}
+
+      /* Now we bisection search in left/right interval */
+      for (i = 0; i < 100; i++)
+	{
+	  mid = (left + right) / 2.; 
+	  lawless422(x, n, z, phi, mid, &fx, &dfx);
+	  if (fabs(fx) < tol) break;             /* success */
+	  if (fx > 0.)	left = mid;
+	  else          right = mid;
+	}
+      if (i == 100) 
+	ESL_EXCEPTION(eslENOHALT, "Even bisection search failed in esl_gumbel_FitCensored().");
+      lambda = mid;
+    }
+
+  /* 3. Substitute into Lawless 4.2.3 to find mu
+   */
+  esum = 0.;
+  for (i = 0; i < n; i++)
+    esum  += exp(-lambda * x[i]);
+  esum += z * exp(-1. * lambda * phi);    /* term from censored data */
+  mu = -log(esum / n) / lambda;        
+
+  *ret_lambda = lambda;
+  *ret_mu     = mu;   
+  return eslOK;
+}
+
+
+/* Function:  esl_gumbel_FitCensoredLoc()
+ * Synopsis:  Estimates $\mu$ from censored data, given $\lambda$.
+ *
+ * Purpose:   Given a left-censored array of Gumbel distributed samples
+ *            <x[0>..x[n-1]>, the number of censored samples <z>, and the censoring
+ *            value <phi> (where all <x[i]> $>$ <phi>), and a known
+ *            (or at least fixed) <lambda>;
+ *            find the maximum likelihood estimate of the location
+ *            parameter $\mu$ and return it in <ret_mu>.
+ *
+ * Note:      A straightforward simplification of FitCensored().
+ *
+ * Args:     x          - array of Gumbel-distributed samples, 0..n-1
+ *           n          - number of observed samples
+ *           z          - number of censored samples
+ *           phi        - censoring value (all x_i >= phi)
+ *           lambda     - known scale parameter $\lambda$      
+ *           ret_mu     : RETURN: ML estimate of $\mu$
+ *           
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_gumbel_FitCensoredLoc(double *x, int n, int z, double phi, double lambda, 
+			  double *ret_mu)
+{
+  double esum;
+  int    i;
+
+  /* Immediately substitute into Lawless 4.2.3 to find mu, because
+   * lambda is known.
+   */
+  esum = 0.;
+  for (i = 0; i < n; i++) 	          /* contribution from observed data */
+    esum  += exp(-lambda * x[i]);
+  esum += z * exp(-1. * lambda * phi);    /* term from censored data */
+  *ret_mu = -log(esum / (double) n) / lambda;        
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * Truncated data, MAP parameters (requires minimizer augmentation)
+ *****************************************************************/ 
+#ifdef eslAUGMENT_MINIMIZER
+/* Easel's conjugate gradient descent code allows a single void ptr to
+ * point to any necessary fixed data, so we'll put everything into one
+ * structure:
+ */
+struct tevd_data {
+  double *x;	/* data: n observed samples from a Gumbel */
+  int     n;	/* number of observed samples */
+  double  phi;	/* truncation threshold: all observed x_i >= phi */
+};
+
+/* tevd_func()
+ * 
+ * Called by the optimizer: evaluate the objective function
+ * for the negative posterior log probability of a particular choice 
+ * of parameters mu and lambda, given truncated Gumbel samples.
+ */
+static double 
+tevd_func(double *p, int nparam, void *dptr)
+{
+  double mu, w, lambda;
+  struct tevd_data *data;
+  double *x;
+  int     n;
+  double  phi;
+  double  logL;
+  int     i;
+  
+  /* unpack what the optimizer gave us; nparam==2 always
+   */
+  mu     = p[0];
+  w      = p[1];
+  lambda = exp(w);
+  data   = (struct tevd_data *) dptr;
+  x      = data->x;
+  n      = data->n;
+  phi    = data->phi;
+
+  /* The log likelihood equation
+   */
+  logL   = n * log(lambda);
+  for (i = 0; i < n; i++) 
+    logL -= lambda * (x[i] - mu);
+  for (i = 0; i < n; i++)
+    logL -= exp(-1. * lambda * (x[i] - mu));
+  logL -= n * esl_gumbel_logsurv(phi, mu, lambda);    
+
+  return -1.0 * logL;		/* objective: minimize the NLP */
+}
+
+/* tevd_grad()
+ * 
+ * Called by the optimizer: evaluate the gradient of the objective
+ * function (the negative posterior log probability of the parameters
+ * mu and w, where w = log(lambda), at a particular choice of mu and
+ * lambda.
+ */
+static void
+tevd_grad(double *p, int nparam, void *dptr, double *dp)
+{
+  double mu, lambda, w;
+  struct tevd_data *data;
+  double *x;
+  int     n;
+  double  phi;
+  double  dmu, dw;
+  double  coeff;
+  int     i;
+  
+  /* unpack what the optimizer gave us; nparam==2 always
+   */
+  mu     = p[0];
+  w      = p[1];
+  lambda = exp(w);
+  data   = (struct tevd_data *) dptr;
+  x      = data->x;
+  n      = data->n;
+  phi    = data->phi;
+
+  /* Both partials include a coefficient that
+   * basically looks like P(S=phi) / P(S>=phi); pre-calculate it.
+   * Watch out when phi >> mu, which'll give us 0/0; instead,
+   * recognize that for phi >> mu, coeff converges to \lambda.
+   */
+  if (lambda*(phi-mu) > 50.)	/* arbitrary crossover. */
+    coeff = lambda;
+  else
+    coeff = esl_gumbel_pdf(phi, mu, lambda) / esl_gumbel_surv(phi, mu, lambda); 
+
+  /* Partial derivative w.r.t. mu.
+   */
+  dmu = n * lambda;
+  for (i = 0; i < n; i++) 
+    dmu -= lambda * exp(-1. * lambda * (x[i] - mu));
+  dmu -= n * coeff;    
+
+  /* Partial derivative w.r.t. w=log(lambda).
+   */
+  dw = n;
+  for (i = 0; i < n; i++) dw -= (x[i] - mu) * lambda;
+  for (i = 0; i < n; i++) dw += (x[i] - mu) * lambda * exp(-1. * lambda * (x[i] - mu));
+  dw += n * (phi - mu) * coeff;   
+
+  /* Return the negative, because we're minimizing NLP, not maximizing.
+   */
+  dp[0] = -1. * dmu;	/* negative because we're minimizing NLP, not maximizing */
+  dp[1] = -1. * dw;
+  return;
+}
+  
+/* Function:  esl_gumbel_FitTruncated()
+ * Synopsis:  Estimates $\mu$, $\lambda$ from truncated data.
+ *
+ * Purpose:   Given a left-truncated array of Gumbel-distributed
+ *            samples <x[0]..x[n-1]> and the truncation threshold
+ *            <phi> (such that all <x[i]> $\geq$ <phi>).
+ *            Find maximum likelihood parameters <mu> and <lambda>.
+ *            
+ *            <phi> should not be much greater than <mu>, the
+ *            mode of the Gumbel, or the fit will become unstable
+ *            or may even fail to converge. The problem is
+ *            that for <phi> $>$ <mu>, the tail of the Gumbel
+ *            becomes a scale-free exponential, and <mu> becomes
+ *            undetermined.
+ *            
+ * Algorithm: Uses conjugate gradient descent to optimize the
+ *            log likelihood of the data. Follows a general
+ *            approach to fitting missing data problems outlined
+ *            in [Gelman95].
+ *
+ * Args:      x          - observed data samples [0..n-1]
+ *            n          - number of samples
+ *            phi        - truncation threshold; all x[i] >= phi
+ *            ret_mu     - RETURN: ML estimate of mu       
+ *            ret_lambda - RETURN: ML estimate of lambda
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if the fit doesn't converge.
+ */
+int
+esl_gumbel_FitTruncated(double *x, int n, double phi, 
+			double *ret_mu, double *ret_lambda)
+{
+  struct tevd_data data;
+  double wrk[8];		/* workspace for CG: 4 tmp vectors of size 2 */
+  double p[2];			/* mu, w;  lambda = e^w */
+  double u[2];			/* max initial step size for mu, lambda */
+  int    status;
+  double mean, variance;
+  double mu, lambda;
+  double fx;
+  
+  data.x   = x;
+  data.n   = n;
+  data.phi = phi;
+
+  /* The source of the following magic is Evans/Hastings/Peacock, 
+   * Statistical Distributions, 3rd edition (2000), p.86, which gives
+   * eq's for the mean and variance of a Gumbel in terms of mu and lambda;
+   * we turn them around to get mu and lambda in terms of the mean and variance.
+   * These would be reasonable estimators if we had a full set of Gumbel
+   * distributed variates. They'll be off for a truncated sample, but
+   * close enough to be a useful starting point.
+   */
+  esl_stats_DMean(x, n, &mean, &variance);
+  lambda = eslCONST_PI / sqrt(6.*variance);
+  mu     = mean - 0.57722/lambda;
+
+  p[0] = mu;
+  p[1] = log(lambda);		/* c.o.v. because lambda is constrained to >0 */
+
+  u[0] = 2.0;
+  u[1] = 0.1;
+
+  /* Pass the problem to the optimizer. The work is done by the
+   * equations in tevd_func() and tevd_grad().
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, 2, 
+					    &tevd_func, &tevd_grad,(void *)(&data),
+					    1e-4, wrk, &fx);
+  
+  *ret_mu     = p[0];
+  *ret_lambda = exp(p[1]);	/* reverse the c.o.v. */
+  return status;
+}
+#endif /*eslAUGMENT_MINIMIZER*/
+/*------------------------ end of fitting --------------------------------*/
+
+/*****************************************************************
+ * 6. Stats driver
+ *****************************************************************/
+#ifdef eslGUMBEL_STATS
+/* compile: gcc -g -O2 -Wall -I. -L. -o stats -DeslGUMBEL_STATS esl_gumbel.c -leasel -lm
+ * run:     ./stats > stats.out
+ * process w/ lines like:
+ *    grep "complete    100" stats.out | awk '{$i = 100*($5-$4)/$4; if ($i < 0) $i = -$i; print $i}' | avg
+ *    grep "complete    100" stats.out | awk '{$i = 100*($7-$6)/$6; if ($i < 0) $i = -$i; print $i}' | avg
+ * to get accuracy summary (in %) for mu, lambda; first part of the grep pattern may be "complete", "censored", or
+ * "truncated", second part may be "    100", "   1000", "  10000", or " 100000".
+ *
+ * This is the routine that collects the accuracy statistics that appear
+ * in tables in the Gumbel chapter of the guide, esl_gumbel.tex.
+ */
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_minimizer.h"
+#include "esl_gumbel.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r;
+  int    totalN[4] = {100, 1000, 10000, 100000}; /*biggest last; one malloc*/
+  int    nexps = 4;
+  int    exp;
+  int    trial, ntrials;
+  double phi;		/* truncation threshold. */
+  int    i;
+  int    n;
+  double *x;
+  double  mu, lambda;
+  double  est_mu, est_lambda;
+  double  val;
+  int     do_complete, do_censored, do_truncated, do_location;
+
+  ntrials = 500;
+  mu      = -20.0;
+  lambda  = 0.693;
+  phi     = -15.;
+
+  do_complete  = TRUE;		/* Flip these on/off as desired */
+  do_censored  = FALSE;
+  do_truncated = FALSE;
+  do_location  = FALSE;
+
+  r = esl_randomness_Create(0);
+  x = malloc(sizeof(double) * totalN[nexps-1]);
+  
+  /* Fitting to simulated complete datasets
+   */
+  if (do_complete) {
+    for (exp = 0; exp < nexps; exp++)
+      {
+	for (trial = 0; trial < ntrials; trial++)
+	  {
+	    for (i = 0; i < totalN[exp]; i++)
+	      x[i] = esl_gumbel_Sample(r, mu, lambda);
+
+	    /*direct_mv_fit(x, totalN[exp], &est_mu, &est_lambda);*/
+	    esl_gumbel_FitComplete(x, totalN[exp], &est_mu, &est_lambda);
+	  
+	    printf("complete %6d %6d %9.5f %9.5f %8.6f %8.6f\n", 
+		   totalN[exp], totalN[exp], mu, est_mu, lambda, est_lambda);
+	  }
+	printf("\n");
+      }
+  }
+
+  /* Fitting to simulated censored datasets
+   */
+  if (do_censored) {
+    for (exp = 0; exp < nexps; exp++)
+      {
+	for (trial = 0; trial < ntrials; trial++)
+	  {
+	    for (n = 0, i = 0; i < totalN[exp]; i++)
+	      {
+		val = esl_gumbel_Sample(r, mu, lambda);
+		if (val >= phi) x[n++] = val;
+	      }
+	    esl_gumbel_FitCensored(x, n, totalN[exp]-n, phi, &est_mu, &est_lambda);
+	  
+	    printf("censored %6d %6d %9.5f %9.5f %8.6f %8.6f\n", 
+		   totalN[exp], n, mu, est_mu, lambda, est_lambda);
+	  }
+	printf("\n");
+      }
+  }
+
+  /* Fitting to simulated truncated datasets
+   */
+#ifdef eslAUGMENT_MINIMIZER
+  if (do_truncated) {
+    for (exp = 0; exp < nexps; exp++)
+      {
+	for (trial = 0; trial < ntrials; trial++)
+	  {
+	    for (n = 0, i = 0; i < totalN[exp]; i++)
+	      {
+		val = esl_gumbel_Sample(r, mu, lambda);
+		if (val >= phi) x[n++] = val;
+	      }
+	    esl_gumbel_FitTruncated(x, n, phi, &est_mu, &est_lambda);
+	  
+	    printf("truncated %6d %6d %9.5f %9.5f %8.6f %8.6f\n", 
+		   totalN[exp], n, mu, est_mu, lambda, est_lambda);
+	  }
+	printf("\n");
+      }
+  }
+#endif /*eslAUGMENT_MINIMIZER*/
+
+  /* Fitting mu given lambda 
+   */
+  if (do_location) {
+    for (exp = 0; exp < nexps; exp++)
+      {
+	for (trial = 0; trial < ntrials; trial++)
+	  {
+	    for (i = 0; i < totalN[exp]; i++)
+	      x[i] = esl_gumbel_Sample(r, mu, lambda);
+
+	    esl_gumbel_FitCompleteLoc(x, totalN[exp], lambda, &est_mu);
+	  
+	    printf("location %6d %6d %9.5f %9.5f\n",
+		   totalN[exp], totalN[exp], mu, est_mu);
+	  }
+	printf("\n");
+      }
+  }    
+
+  esl_randomness_Destroy(r);
+  free(x);
+  return 0;
+}
+#endif /*eslGUMBEL_STATS*/
+
+/*****************************************************************
+ * 7. Unit tests.
+ *****************************************************************/ 
+
+
+/*****************************************************************
+ * 8. Test driver.
+ *****************************************************************/ 
+#ifdef eslGUMBEL_TESTDRIVE
+/* compile: gcc -g -Wall -I. -o test -DeslGUMBEL_TESTDRIVE -DeslAUGMENT_RANDOM -DeslAUGMENT_MINIMIZER esl_gumbel.c esl_random.c esl_minimizer.c esl_vectorops.c easel.c -lm
+ * run:     ./test
+ */
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_minimizer.h"
+#include "esl_gumbel.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r = NULL;
+  int    totalN;
+  int    n;
+  double phi;		/* truncation threshold. */
+  int    i;
+  double *x = NULL;
+  double  mu, lambda;
+  double  est_mu, est_lambda;
+  int     status;
+
+  totalN = 10000;
+  mu     = -20.;
+  lambda = 0.4;
+  phi    = -20.;
+
+  r = esl_randomness_Create(42); /* make the sims reproducible */
+  ESL_ALLOC(x, sizeof(double) * totalN);
+  
+  /* Test complete data fitting on simulated data.
+   * Don't tolerate more than 1% error in mu, 3% in lambda.
+   */
+  for (i = 0; i < totalN; i++)
+    x[i] = esl_gumbel_Sample(r, mu, lambda);
+  esl_gumbel_FitComplete(x, totalN, &est_mu, &est_lambda);
+  if (fabs((est_mu    -mu)    /mu)     > 0.01) abort();
+  if (fabs((est_lambda-lambda)/lambda) > 0.03) abort();
+
+  /* Test censored fitting on simulated data, for 
+   * the right tail mass above the mode.
+   * Don't tolerate more than 1% error in mu, 4% in lambda.
+   */
+  for (n=0, i = 0; i < totalN; i++)
+    if (x[i] >= phi) x[n++] = x[i];
+  esl_gumbel_FitCensored(x, n, totalN-n, phi, &est_mu, &est_lambda);
+  if (fabs((est_mu    -mu)    /mu)     > 0.01) abort();
+  if (fabs((est_lambda-lambda)/lambda) > 0.04) abort();
+
+  /* Test truncated fitting on simulated data.
+   * Don't tolerate more than 5% error in mu, 8% in lambda.
+   */
+#ifdef eslAUGMENT_MINIMIZER
+  esl_gumbel_FitTruncated(x, n, phi, &est_mu, &est_lambda);
+  if (fabs((est_mu    -mu)    /mu)     > 0.05) abort();
+  if (fabs((est_lambda-lambda)/lambda) > 0.08) abort();
+#endif /*eslAUGMENT_MINIMIZER*/
+
+
+  free(x);
+  esl_randomness_Destroy(r);
+  return 0;
+
+ ERROR:
+  if (x != NULL) free(x);
+  if (r != NULL) esl_randomness_Destroy(r);
+  return status;
+}
+#endif /*eslGUMBEL_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 9. Example.
+ *****************************************************************/ 
+#ifdef eslGUMBEL_EXAMPLE
+/*::cexcerpt::gumbel_example::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslGUMBEL_EXAMPLE -DeslAUGMENT_RANDOM esl_gumbel.c esl_random.c esl_vectorops.c easel.c -lm
+ * run:     ./example
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_gumbel.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);;
+  int     n         = 10000; 	/* simulate 10,000 samples */
+  double  mu        = -20.0;       /* with mu = -20 */ 
+  double  lambda    = 0.4;         /* and lambda = 0.4 */
+  double  min       =  9999.;
+  double  max       = -9999.;
+  double *x         = malloc(sizeof(double) * n);
+  double  z, est_mu, est_lambda;
+  int     i;
+
+  for (i = 0; i < n; i++)	/* generate the 10,000 samples */
+    { 
+      x[i] = esl_gumbel_Sample(r, mu, lambda);
+      if (x[i] < min) min = x[i];
+      if (x[i] > max) max = x[i];
+    }
+
+  z = esl_gumbel_surv(max, mu, lambda);           /* right tail p~1e-4 >= max */
+  printf("max = %6.1f  P(>max)  = %g\n", max, z);
+  z = esl_gumbel_cdf(min, mu, lambda);             /* left tail p~1e-4 < min */
+  printf("min = %6.1f  P(<=min) = %g\n", min, z);
+
+  esl_gumbel_FitComplete(x, n, &est_mu, &est_lambda); /* fit params to the data */
+  
+  z = 100. * fabs((est_mu - mu) / mu);
+  printf("Parametric mu     = %6.1f.  Estimated mu     = %6.2f.  Difference = %.1f%%.\n",
+	 mu, est_mu, z);
+  z = 100. * fabs((est_lambda - lambda) /lambda);
+  printf("Parametric lambda = %6.1f.  Estimated lambda = %6.2f.  Difference = %.1f%%.\n",
+	 lambda, est_lambda, z);
+
+  free(x);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::gumbel_example::end::*/
+#endif /*eslGUMBEL_EXAMPLE*/
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_gumbel.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_gumbel.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.h
new file mode 100755
index 0000000..95e4224
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.h
@@ -0,0 +1,61 @@
+/* esl_gumbel.h
+ * Gumbel (type I extreme value) distributions.
+ * 
+ * SRE, Mon Jun 27 08:44:41 2005 [St. Louis]
+ * SVN $Id: esl_gumbel.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_gumbel.h $
+ */
+#ifndef eslGUMBEL_INCLUDED
+#define eslGUMBEL_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+
+extern double  esl_gumbel_pdf    (double x, double mu, double lambda);
+extern double  esl_gumbel_logpdf (double x, double mu, double lambda);
+extern double  esl_gumbel_cdf    (double x, double mu, double lambda);
+extern double  esl_gumbel_logcdf (double x, double mu, double lambda);
+extern double  esl_gumbel_surv   (double x, double mu, double lambda);
+extern double  esl_gumbel_logsurv(double x, double mu, double lambda);
+extern double  esl_gumbel_invcdf (double p, double mu, double lambda);
+extern double  esl_gumbel_invsurv(double p, double mu, double lambda);
+
+
+extern double  esl_gumbel_generic_pdf   (double x, void *params);
+extern double  esl_gumbel_generic_cdf   (double x, void *params);
+extern double  esl_gumbel_generic_surv  (double x, void *params);
+extern double  esl_gumbel_generic_invcdf(double p, void *params);
+
+extern int esl_gumbel_Plot(FILE *fp, double mu, double lambda, 
+			   double (*func)(double x, double mu, double lambda), 
+			   double xmin, double xmax, double xstep);
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_gumbel_Sample(ESL_RANDOMNESS *r, double mu, double lambda);
+#endif
+
+extern int esl_gumbel_FitComplete(double *x, int n, 
+				  double *ret_mu, double *ret_lambda);
+extern int esl_gumbel_FitCompleteLoc(double *x, int n, double lambda,
+				     double *ret_mu);
+extern int esl_gumbel_FitCensored(double *x, int n, int z, double phi,
+				  double *ret_mu, double *ret_lambda);
+extern int esl_gumbel_FitCensoredLoc(double *x, int n, int z, double phi, 
+				     double lambda, double *ret_mu);
+#ifdef eslAUGMENT_MINIMIZER
+extern int esl_gumbel_FitTruncated(double *x, int n, double phi, 
+				double *ret_mu, double *ret_lambda);
+#endif
+
+
+#endif /*eslGUMBEL_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.tex
new file mode 100755
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--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_gumbel.tex
@@ -0,0 +1,624 @@
+
+Gumbel statistics are often used to estimate the statistical
+significance of local alignment scores.
+
+The Gumbel distribution is the so-called Type I extreme value
+distribution (EVD). It occurs so frequently in sequence analysis
+applications, compared to the type II (Fr\'{e}chet) and type III
+(Weibull) extreme value distributions, that ``Gumbel'' and ``EVD'' are
+often used interchangeably in bioinformatics. Easel has a separate
+module, the \eslmod{gev} module, that implements the generalized
+extreme value distribution.
+
+Karlin/Altschul statistics are a special case of the Gumbel
+distribution that apply to the scores of ungapped local alignments
+between infinitely long random sequences. Empirically, Karlin/Altschul
+statistics also apply reasonably well to the more useful case of
+gapped alignment of finite-length sequences. Karlin/Altschul
+statistics predict how the Gumbel's two parameters depend on the
+length of the query and target sequences. In the case of ungapped
+alignments, Karlin/Altschul statistics allow the Gumbel parameters to
+be estimated directly, without the need for a compute-intensive
+simulation.
+
+\subsection{The gumbel API}
+
+The \eslmod{gumbel} API consists of the following functions:
+
+\vspace{0.5em}
+\begin{center}
+\begin{tabular}{ll}\hline
+    \multicolumn{2}{c}{\textbf{evaluating densities and distributions:}}\\
+\ccode{esl\_gumbel\_pdf()}     & Returns the probability density, $P(S=x)$.\\
+\ccode{esl\_gumbel\_logpdf()}  & Returns the log of the pdf, $\log P(S=x)$.\\
+\ccode{esl\_gumbel\_cdf()}     & Returns the cumulative probability distribution, $P(S \leq x)$.\\
+\ccode{esl\_gumbel\_logcdf()}  & Returns the log of the cdf, $\log P(S \leq x)$.\\
+\ccode{esl\_gumbel\_surv()}    & Returns right tail mass, 1-cdf, $P(S > x)$\\
+\ccode{esl\_gumbel\_logsurv()} & Returns log of 1-cdf, $\log P(S > x)$.\\
+    \multicolumn{2}{c}{\textbf{sampling:}}\\
+\ccode{esl\_gumbel\_Sample()}  & Returns a Gumbel-distributed random sample.\\
+    \multicolumn{2}{c}{\textbf{maximum a posteriori parameter fitting:}}\\
+\ccode{esl\_gumbel\_FitComplete()} & Estimates $\mu,\lambda$ from complete data.\\
+\ccode{esl\_gumbel\_FitCompleteLoc()} & Estimates $\mu$ when $\lambda$ is known.\\
+\ccode{esl\_gumbel\_FitCensored()} & Estimates $\mu,\lambda$ from censored data.\\
+\ccode{esl\_gumbel\_FitCensoredLoc()} & Estimates $\mu$ when $\lambda$ is known.\\
+\ccode{esl\_gumbel\_FitTruncated()}& Estimates $\mu,\lambda$ from truncated data.\\\hline
+\end{tabular}
+\end{center}
+\vspace{0.5em}
+
+The Gumbel distribution depends on two parameters, $\mu$ and
+$\lambda$. When $\mu$ and $\lambda$ are known, the statistical
+significance (P-value) of a single score $x$ is $P(S>x)$, obtained by
+a call to \ccode{esl\_gumbel\_surv()}.  The E-value for obtaining that
+score or better in searching a database of $N$ sequences is just
+$NP(S>x)$.
+
+When $\mu$ and $\lambda$ are unknown, they are estimated from scores
+obtained from comparisons of simulated random data. (Analytical
+solutions for $\mu$ and $\lambda$ are only available in the case of
+ungapped sequence alignments.)  The \ccode{esl\_evd\_Fit*()} functions
+provide maximum likelihood parameter fitting routines for different
+types of data. 
+
+\subsubsection{Augmentations: random, minimizer}
+
+The \ccode{esl\_gumbel\_Sample()} function requires augmenting with the
+\eslmod{random} module.
+
+The \ccode{esl\_gumbel\_FitTruncated()} function requires augmenting
+with the \eslmod{minimizer} module.
+
+
+\subsection{Example of using the gumbel API}
+
+An example that samples 10,000 data points from a Gumbel distribution
+with $\mu=-20$, $\lambda=0.4$; reports the min and max samples, and
+the probability mass to the left of the min and to the right of the
+max (both of which should be about $\frac{1}{10000}$, since we took
+10,000 samples); and then fits those simulated data to a Gumbel and
+reports the fitted $\mu$ and $\lambda$:
+
+\input{cexcerpts/gumbel_example}
+
+
+
+\subsection{Gumbel densities}
+
+The probability density function (pdf) and the cumulative distribution
+function (cdf) of the extreme value distribution are:
+
+\begin{equation}
+P(x) = \lambda \exp \left[ -\lambda (x - \mu) - e^{- \lambda (x - \mu)} \right]
+\label{eqn:gumbel_density}
+\end{equation}
+
+\begin{equation}
+P(S < x) = \exp \left[ -e^{-\lambda(x - \mu)} \right]
+\label{eqn:gumbel_distribution}
+\end{equation}
+
+The extreme value density and distribution functions for $\mu = 0$ and
+$\lambda = 1.0$ are shown below.
+
+\begin{center}
+\includegraphics[width=3in]{figures/evd_basic}
+\end{center}
+
+The $\mu$ and $\lambda$ parameters are {\em location} and {\em scale}
+parameters, respectively:
+
+\centerline{
+\begin{minipage}{3in}
+\includegraphics[width=2.8in]{figures/evd_location}
+\end{minipage}
+\begin{minipage}{3in}
+\includegraphics[width=2.8in]{figures/evd_scale}
+\end{minipage}
+}
+
+For more details, a classic reference is \citep{Lawless82}.  Gumbel
+distributions can have their long tail to the right or to the
+left. The form given here is for the long tail to the right.  This is
+the form that arises when the extreme value is a maximum, such as when
+our score is the maximum over the individual scores of all possible
+alignments. The equations in \citep{Lawless82} are for extremal
+minima; use $(x - u) = -(x - \mu)$ and $b = 1 / \lambda$ to convert
+Lawless' notation to the notation used here.
+
+
+\subsection{Fitting Gumbel distributions to observed data}
+
+Given a set of $n$ observed samples $\mathbf{x}$, we may want to
+estimate the $\mu$ and $\lambda$ parameters.
+
+One might try to use linear regression to fit to a $\log \log$
+transformation of the $P(S < x)$ histogram, which gives a straight
+line with slope $-\lambda$ and $x$ intercept $\mu$:
+
+\begin{equation}
+\log \left[ -\log P(S<x) \right] = -\lambda x + \lambda \mu
+\end{equation}
+
+However, the linear regression method is undesirable because it is
+sensitive to outliers. The following table shows the \% error for
+estimating $\hat{\mu}$ and $\hat{\lambda}$ from 500 simulated complete
+datasets, sampled from a Gumbel with $\mu = -20.0$ and $\lambda =
+0.4$, for four different dataset sizes:
+
+\begin{center}
+\begin{tabular}{lrrrr} \hline
+                              & \multicolumn{4}{c}{\# of samples}\\
+                              & 100 & 1000  & 10,000 & 100,000 \\
+\% error in $\hat{\mu}$       &  2\%&   1\% & 0.9\%  &  0.9\%  \\
+max error in $\hat{\mu}$      & 24\%&  13\% &  10\%  &   10\%  \\
+\% error in $\hat{\lambda}$   & 12\%&   7\% &   5\%  &    3\%  \\
+max error in $\hat{\lambda}$  & 49\%&  33\% &  25\%  &   20\%  \\ \hline
+\end{tabular}
+\end{center}
+
+
+A better rough estimate of $\hat{\mu}$ and $\hat{\lambda}$ can be
+obtained from the sample mean $m$ and variance $s^2$ of the observed
+data \citep{Evans00}:\footnote{All simulation data are generated by
+the \eslmod{evd} module's stats driver. The only exception is the
+linear regression fit data, which come from an old version of HMMER.}
+
+\begin{eqnarray*}
+  \hat{\lambda} & = & \frac{\pi}{\sqrt{6s^2}}\\
+  \hat{\mu}     & = & m - \frac{0.57722}{\hat{\lambda}}
+\end{eqnarray*}
+
+The mean/variance method is more accurate than linear regression, as
+shown by the following simulation results:
+
+\begin{center}
+\begin{tabular}{lrrrr} \hline
+                              & \multicolumn{4}{c}{\# of samples}\\
+                              & 100 & 1000  & 10,000 & 100,000 \\
+\% error in $\hat{\mu}$       &  1\%& 0.3\% &  0.1\% & 0.03\%  \\
+max error in $\hat{\mu}$      &  5\%&   1\% &  0.4\% &  0.1\%  \\
+\% error in $\hat{\lambda}$   &  9\%&   3\% &  0.8\% &  0.3\%  \\
+max error in $\hat{\lambda}$  & 40\%&  12\% &    3\% &  0.9\%  \\ \hline
+\end{tabular}
+\end{center}
+
+Still, the mean/variance method is not as accurate as a maximum
+likelihood estimation (especially for $\lambda$). Also, it requires
+complete data, whereas we also need to solve problems where we fit to
+\emph{truncated} or \emph{censored} data. Easel's main estimation
+methods are therefore maximum likelihood methods.
+
+\subsubsection{Maximum likelihood estimation, complete data}
+
+Given $n$ samples $x_1..x_n$ from some distribution that depends on
+parameters $\theta$, we want to estimate maximum likelihood parameter
+estimates $\hat{\theta}$ that maximize the log likelihood:
+
+\[
+   \hat{\theta} = \argmax_{\theta} \sum_{i=1}^{n} \log P(x_i \mid \theta)
+\]
+
+These are also \emph{maximum a posteriori} parameter estimates, if we
+assume a uniform prior $P(\theta)$.
+
+Specifically, for samples $x_i$ drawn from an extreme value
+distribution, the log likelihood to optimize is:
+
+\begin{equation}
+\log L(\lambda, \mu) = n \log \lambda - \sum_{i=1}^{n} \lambda(x_i -
+\mu) - \sum_{i=1}^{n} e^{-\lambda(x_i - \mu)}
+\label{eqn:gumbel_logL}
+\end{equation}
+
+This objective function is differentiable with respect to $\mu$ and
+$\lambda$:
+
+\begin{eqnarray}
+\frac{\partial \log L}{\partial \mu} & = &
+n \lambda - \lambda \sum_{i=1}^{n} e^{-\lambda (x_i - \mu)}\\%
+\\%
+\label{eqn:mupartial}
+\frac{\partial \log L}{\partial \lambda} & = &
+\frac{n}{\lambda} - \sum_{i=1}^{n} (x_i - \mu) +  
+\sum_{i=1}^{n} (x_i - \mu) e^{-\lambda (x_i - \mu)}
+\label{eqn:lambdapartial}
+\end{eqnarray}
+
+The maximum likelihood estimates $\hat{\lambda}$ and $\hat{\mu}$ are
+the solutions to $\frac{\partial \log L}{\partial \mu} = 0$ and
+$\frac{\partial \log L}{\partial \lambda} = 0$. Lawless
+\citep{Lawless82} gives a useful trick here that lets us solve both of
+these simultaneously. When (\ref{eqn:mupartial}) is set to zero, it
+can be used to get $\hat{\mu}$ in terms of $\hat{\lambda}$:
+
+\begin{eqnarray}
+e^{-\hat{\lambda} \hat{\mu}} & = & \frac{1}{n} \sum_{i=1}^{n} e^{-\hat{\lambda} x_i} 
+\label{eqn:substitute}\\
+\hat{\mu} & = & - \frac{1}{\hat{\lambda}} 
+	\log \left[ \frac{1}{n} \sum_{i=1}^{n} e^{-\hat{\lambda} x_i} \right]
+\label{eqn:solvemu}
+\end{eqnarray}
+
+Substituting (\ref{eqn:substitute}) into (\ref{eqn:lambdapartial}),
+gives us an equation for solving $\hat{\lambda}$ in terms of the
+$x_i$'s:
+
+\begin{eqnarray}
+\frac{1}{\hat{\lambda}} - \frac{1}{n} \sum_{i=1}^{n} x_i +
+\frac{\sum_{i=1}^{n} x_i e^{-\hat{\lambda} x_i}}
+     {\sum_{i=1}^{n} e^{-\hat{\lambda} x_i}} 
+& = & 0
+\label{eqn:newtontarget}
+\end{eqnarray}
+
+This is our target function. We could solve it readily enough (by
+bisection search, for example) and obtain $\hat{\lambda}$. We can
+solve it even faster using the Newton/Raphson algorithm, because it is
+differentiable with respect to lambda:
+
+\begin{equation}
+\frac{d}{d\hat{\lambda}} = 
+\frac{\left( \sum_{i=1}^{n} x_i e^{-\hat{\lambda} x_i} \right)^2 } 
+     {\left( \sum_{i=1}^{n} e^{-\hat{\lambda} x_i}     \right)^2 }
+-
+\frac{\sum_{i=1}^{n} x_i^2 e^{-\hat{\lambda} x_i}}
+     {\sum_{i=1}^{n} e^{-\hat{\lambda} x_i}}
+-
+\frac{1}{\hat{\lambda}^2}
+\label{eqn:newtonderivative}
+\end{equation}
+
+Now, the key equations are (\ref{eqn:solvemu}),
+(\ref{eqn:newtontarget}), and (\ref{eqn:newtonderivative}). In
+summary, the inference procedure is the following:
+
+\begin{itemize}
+\item Guess an initial $\hat{\lambda}$ (using the mean/variance
+  method, for example, but any reasonable guess works).
+\item Use Newton/Raphson iterations to find the $\hat{\lambda}$ that satisfies
+      (\ref{eqn:newtontarget}):
+	\begin{itemize}
+	\item calculate the target function $f$ and 
+         its first derivative $f'$ at $\hat{\lambda}$, using 
+	(\ref{eqn:newtontarget}) to calculate $f$ and 
+	(\ref{eqn:newtonderivative}) to calculate $f'$.
+	\item If $f$ is within some absolute tolerance of zero 
+	(e.g., $10^{-6}$), stop; we have found $\hat{\lambda}$.
+	\item Else, estimate a new $\hat{\lambda} = \hat{\lambda} - \frac{f}{f'}$,
+	  and do another iteration.
+	\end{itemize}
+\item Plug $\hat{\lambda}$ into (\ref{eqn:solvemu}) to get $\hat{\mu}$.
+\end{itemize}
+
+This algorithm is implemented in \ccode{esl\_evd\_FitComplete()}.  An
+auxiliary function, \ccode{lawless416()}, calculates the target
+function and its derivative (equations (\ref{eqn:newtontarget}) and
+(\ref{eqn:newtonderivative})) given the current estimate of
+$\hat{\lambda}$.  The name comes from Lawless' equation 4.1.6, the
+target function \citep{Lawless82}.
+
+The accuracy of fitting to simulated data (generated with $\mu=-20$
+and $\lambda=0.4$), collated over 500 simulations, is shown in the
+following table:
+
+\begin{center}
+\begin{tabular}{lrrrr} \hline
+                              & \multicolumn{4}{c}{\# of samples}\\
+                              & 100 & 1000  & 10,000 & 100,000 \\
+\% error in $\hat{\mu}$       &  1\%& 0.3\% &  0.1\% & 0.03\%  \\
+max error in $\hat{\mu}$      &  4\%&   2\% &  0.5\% &  0.1\%  \\
+\% error in $\hat{\lambda}$   &  6\%&   2\% &  0.6\% &  0.2\%  \\
+max error in $\hat{\lambda}$  & 36\%&   9\% &    2\% &  0.8\%  \\ \hline
+\end{tabular}
+\end{center}
+
+This is in accord with theoretical expectation. The distribution of
+$\frac{\lambda}{\hat{\lambda}}$ is approximately normal with mean 1 and
+standard error $\frac{0.78}{\sqrt{N}}$ \citep{Lawless82,Altschul01}. 
+
+% Altschul says \frac{\hat{\lambda}}{\lambda}, actually, but I believe
+% that's wrong. xref J1/46.
+
+
+\subsubsection{Maximum likelihood fitting to censored data}
+
+A \emph{censored} data problem is when we have $N$ samples, but we
+only observe the values of a subset of $n$ samples $x_1..x_n$ that are
+greater or equal to some cutoff $\phi$. The remaining $z = N-n$
+samples are \emph{censored}, and for these we only know that $x <
+\phi$.  $x_i..x_n$, $n$, $\phi$, and $z$ are all known in a censored
+data problem.
+
+To estimate maximum likelihood parameters $\hat{\theta}$ for some
+distribution from censored data \citep{Gelman95}, the log likelihood
+to maximize is:
+
+
+\[ 
+  \hat{\theta} = \argmax_{\theta} z \log P(x<\phi \mid \theta)
+                         + \sum_{i=1}^n \log P(x_i \mid \theta)
+\]
+
+Specifically, when fitting a Gumbel distribution, the log likelihood
+to optimize is:
+
+\begin{equation}
+  \log L(\lambda, \mu) = 
+    n \log \lambda 
+     - z e^{-\lambda(\phi - \mu)}
+     - \sum_{i=1}^{n} \lambda(x_i - \mu) 
+     - \sum_{i=1}^{n} e^{-\lambda(x_i - \mu)}
+\label{eqn:censor_logL}
+\end{equation}
+
+To optimize this, we follow a similar procedure as used for complete
+data \citep{Lawless82}. The log likelihood is differentiable with
+respect to $\lambda$ and $\mu$:
+
+\begin{eqnarray}
+\frac{\partial \log L}{\partial \mu} & = &
+n \lambda  
+- z \lambda e^{-\lambda (\phi - \mu)}
+- \lambda \sum_{i=1}^{n} e^{-\lambda (x_i - \mu)}
+\label{eqn:censor_dmu}
+\\%
+\frac{\partial \log L}{\partial \lambda} & = &
+\frac{n}{\lambda} 
++ z (\phi - \mu) e^{-\lambda (\phi - \mu)}
+- \sum_{i=1}^{n} (x_i - \mu) 
++ \sum_{i=1}^{n} (x_i - \mu) e^{-\lambda (x_i - \mu)}
+\label{eqn:censor_dlambda}
+\end{eqnarray}
+
+Setting (\ref{eqn:censor_dmu}) to zero and solving for $\hat{\mu}$ in
+terms of $\hat{\lambda}$ gives:
+
+\begin{equation}
+\hat{\mu}  =  - \frac{1}{\hat{\lambda}} 
+	\log \left[ \frac{1}{n} 
+	\left( z e^{-\hat{\lambda} \phi} 
+               + \sum_{i=1}^{n} e^{-\hat{\lambda} x_i} \right)
+	\right]
+\label{eqn:censor_solvemu}
+\end{equation}
+
+Substituting (\ref{eqn:censor_solvemu}) into
+(\ref{eqn:censor_dlambda}) gives the target equation:
+
+\begin{equation}
+\frac{1}{\hat{\lambda}} 
+- \frac{1}{n} \sum_{i=1}^{n} x_i +
+\frac{z \phi e^{-\hat{\lambda} \phi} + \sum_{i=1}^{n} x_i e^{-\hat{\lambda} x_i}} 
+     {z e^{-\hat{\lambda} \phi} + \sum_{i=1}^{n} e^{-\hat{\lambda} x_i}} 
+ =  0
+\label{eqn:censor_newtontarget}
+\end{equation}
+
+To use Newton-Raphson root finding (instead of a slower bisection
+search) we also need the first derivative of this target equation with
+respect to $\lambda$:
+
+\begin{equation}
+\frac{d}{d\hat{\lambda}} = 
+\frac{\left( 
+        z \phi e^{-\hat{\lambda} \phi}
+        + \sum_{i=1}^{n} x_i e^{-\hat{\lambda} x_i} 
+       \right)^2 } 
+     {\left( 
+        z e^{-\hat{\lambda} \phi}
+        + \sum_{i=1}^{n} e^{-\hat{\lambda} x_i}     
+       \right)^2 }
+-
+\frac{z \phi^2 e^{-\hat{\lambda} \phi} + \sum_{i=1}^{n} x_i^2 e^{-\hat{\lambda} x_i}}
+     {z  e^{-\hat{\lambda} \phi} + \sum_{i=1}^{n} e^{-\hat{\lambda} x_i}}
+-
+\frac{1}{\hat{\lambda}^2}
+\label{eqn:censor_newtonderiv}
+\end{equation}
+
+In summary: given $n$ observed samples $x_1..x_n$ from a total sample
+of $N$ samples, $z = N-n$ of which were censored because they have
+values $< \phi$, we solve for maximum likelihood estimates
+$\hat{\lambda}$ and $\hat{\mu}$ using the same procedure we used for
+complete data, by using equations (\ref{eqn:censor_solvemu}),
+(\ref{eqn:censor_newtontarget}), and (\ref{eqn:censor_newtonderiv}) in
+place of equations (\ref{eqn:solvemu}), (\ref{eqn:newtontarget}), and
+(\ref{eqn:newtonderivative}). Easel implements this procedure in
+\ccode{esl\_evd\_FitCensored()}.  The target function
+(\ref{eqn:censor_newtontarget}) and its derivative
+(\ref{eqn:censor_newtonderiv}) are implemented in the auxiliary
+function \ccode{lawless422()} \citep{Lawless82}.
+
+Results on 500 simulated datasets with $\mu = -20, \lambda = 0.4$,
+censored at $\phi = -20$ -- the expected peak of the histogram; that
+is, a censored fit only to the right tail, which contains about 63\%
+of the samples:
+
+\begin{center}
+\begin{tabular}{lrrrr} \hline
+ & \multicolumn{4}{c}{\# samples in EVD histogram}\\
+                        & 100 & 1000  & 10,000 & 100,000 \\
+\% error in $\mu$       &  1\%& 0.4\% &  0.1\% &  0.04\%  \\
+max error in $\mu$      &  5\%&   2\% &  0.5\% &  0.2\%  \\
+\% error in $\lambda$   &  9\%&   3\% &  0.9\% &  0.3\%  \\
+max error in $\lambda$  & 33\%&  11\% &    3\% &    1\%  \\ \hline
+\end{tabular}
+\end{center}
+
+\subsubsection{Maximum likelihood fitting to truncated data}
+
+A \emph{truncated} dataset is when we only observe $n$ samples $x_i$,
+and an \emph{unknown} number $z$ of samples less than some threshold
+$\phi$ were unobserved. Thus, only the right tail of $n$ samples $x_i
+\geq \phi$ as observed. In a truncated dataset, $x_1..x_n$, $n$, and
+$\phi$ are known, but $z$ is unknown.
+
+Solving a truncated data problem motivates a Bayesian approach,
+because we need to integrate out (marginalize) the nuisance $z$
+parameter, and to do this, we have to specify a prior distribution for
+$P(z)$. Gelman \emph{et al.} describe a general Bayesian framework for
+thinking about various types of missing data problems, including
+censored and truncated data \citep{Gelman95}.
+
+In short, to obtain maximum likelihood parameters $\hat{\theta}$ for
+some distribution, given truncated data, the log likelihood we wish to
+maximize is:
+
+\begin{equation}
+  \hat{\theta} = \argmax_\theta -n \log P(x \geq \phi \mid \theta) 
+                   + \sum_{i=1}^n \log P(x_i \mid \theta).
+\label{eqn:truncated_objective}
+\end{equation}
+
+\textbf{Detour: derivation of the truncated data likelihood}
+
+The derivation of the above equation may not be immediately obvious.
+The presence of the $n P(x \geq \phi \mid \theta)$ term may be
+counterintuitive, as opposed to the more intuitive $z P(x < \phi \mid
+\theta)$ term that accounts for the missing data in a censored data
+problem. Gelman \emph{et al.} actually don't even show the equation in
+their book; I obtained it from an exercise solution on their web site.
+To convince you (and to remind me) of its correctness, a sketch of the
+derivation follows.
+
+We start with the same likelihood equation that arises in censored
+data for a \emph{known} total number of samples $N$ (where $N=n+z$),
+but since $N$ is unknown, we need to integrate over all possible $N$
+from $n$ to $\infty$:
+
+\begin{eqnarray*}
+   P(\mathbf{x} \mid \theta, \phi) & = &
+    \sum_{N=n}^{\infty}   P(\mathbf{x} \mid \theta, \phi, N) P(N)\\
+   & = & 
+    \prod_{i=1}^n P(x_i \mid \theta) 
+    \left[
+      \sum_{N=n}^\infty {N \choose n} P(x < \phi \mid \theta)^{N-n} P(N)
+    \right]\\
+\end{eqnarray*}
+
+The $\prod_{i=1}^n P(x_i \mid \theta)$ is straightforward; that sum is
+our problem. The trick is to rearrange it so we can treat it as a
+convergent negative binomial series:
+
+\[
+   (1-p)^{-a} = 1 + ap + \frac{a(a+1)}{2!} p^2 +
+   \frac{a(a+1)(a+2)}{3!} p^3...
+\]
+
+To get the sum into the form of this series, Gelman \emph{et al.}
+suggest using an informative prior $P(N) = \frac{1}{N}$, an apparently
+unmotivated choice that happens to make the sum collapse nicely:
+
+\begin{eqnarray*}
+ &=& P(N=n) 
+    + (n+1) P(x < \phi \mid \theta) P(N=n+1) 
+    + \frac{(n+1)(n+2)}{2!} P(x < \phi \mid \theta)^2 P(N=n+2) ...\\
+ &= & \frac{1}{n} \left[
+      1 
+      + n P(x < \phi \mid \theta)
+      + \frac{n(n+1)}{2!} P(x < \phi \mid \theta)^2 
+      + \frac{n(n+1)(n+2)}{3!} P(x < \phi \mid \theta)^3 \right]\\
+ &=& \frac{1}{n} (1 - P(x < \phi \mid \theta))^{-n}\\
+ &=& \frac{1}{n} P(x \geq \phi \mid \theta)^{-n}\\
+\end{eqnarray*}
+
+The $\frac{1}{n}$ is a constant, so we drop it from the likelihood
+equation we'll maximize. Putting this term back together with the
+probability of the observed data and taking the log, we obtain the log
+likelihood in equation (\ref{eqn:truncated_objective}).
+
+Alternatively, we might choose an uninformative improper uniform prior
+$P(N) \propto 1$. This gives a log likelihood that only differs by a
+term of $n+1$ versus $n$:
+
+\begin{equation}
+  \hat{\theta} = \argmax_\theta -(n+1) \log P(x \geq \phi \mid \theta) 
+                   + \sum_{i=1}^n \log P(x_i \mid \theta).
+\end{equation}
+
+However, empirically, this form is ineffective, at least for fitting
+Gumbels. The $\frac{1}{N}$ prior performs much better, probably
+because it constrains the solutions to favor smaller, finite, more
+reasonable choices of $N$.
+
+
+
+\textbf{Back to fitting a truncated Gumbel}
+
+For the specific case of fitting a truncated Gumbel, the log
+likelihood (\ref{eqn:truncated_objective}) to optimize is:
+
+\[
+  \log L(\lambda, \mu) =
+     n \log \lambda 
+     - \sum_{i=1}^{n} \lambda(x_i - \mu) 
+     - \sum_{i=1}^{n} e^{-\lambda(x_i - \mu)}
+     - n \log (1 - \exp(-e^{-\lambda(\phi - \mu)}))
+\label{eqn:truncated_logL}
+\]
+
+This is differentiable with respect to $\lambda$ and $\mu$, but it's
+not going to reduce to the clean root-finding problem that we obtained
+for complete data or censored data. Instead we're going to be left
+with a numerical optimization problem. We can use standard numerical
+optimization code, such as steepest descent or conjugate gradient
+descent. There's just one hitch. These algorithms assume unconstrained
+parameters, but $\lambda$ is constrained to values $>0$. We do a
+change of variables, and use the transformation $\lambda = e^w$ so we
+can optimize the unconstrained parameter $w = \log \lambda$ instead of
+optimizing $\lambda$ directly.  The necessary partial derivatives are
+then:
+
+\begin{eqnarray}
+\frac{\partial \log L}{\partial \mu} & = &
+n \lambda  
+- \lambda \sum_{i=1}^{n} e^{-\lambda (x_i - \mu)}
+- \frac{n \lambda \exp \left[ -\lambda (\phi - \mu) - e^{- \lambda (\phi - \mu)} \right]}
+       {1 - \exp(-e^{-\lambda(\phi - \mu)})}
+\label{eqn:truncated_dmu}
+\\%
+\frac{\partial \log L}{\partial w} & = &
+n 
+- \sum_{i=1}^{n} \lambda(x_i - \mu) 
++ \sum_{i=1}^{n} \lambda(x_i - \mu) e^{-\lambda (x_i - \mu)}
++ \frac{n\lambda (\phi-\mu) \exp \left[ -\lambda (\phi - \mu) - e^{- \lambda (\phi - \mu)} \right]}
+       {1 - \exp(-e^{-\lambda(\phi - \mu)})}
+\label{eqn:truncated_dw}
+\end{eqnarray}
+
+This optimization is carried out by \ccode{esl\_evd\_FitTruncated()}.
+The likelihood (\ref{eqn:truncated_logL}) is implemented in
+\ccode{tevd\_func()}, and the derivatives (\ref{eqn:truncated_dmu}) and
+(\ref{eqn:truncated_dw}) are implemented in \ccode{tevd\_dfunc()}.
+\ccode{esl\_evd\_FitTruncated()} simply sets up the problem and passes
+it all off to a conjugate gradient descent optimizer.
+
+Results on 500 simulated datasets with $\mu = -20, \lambda = 0.4$,
+truncated at $\phi = -20$ (leaving the right tail, containing about
+63\% of the samples):
+
+\begin{center}
+\begin{tabular}{lrrrr} \hline
+                              & \multicolumn{4}{c}{\# samples}\\
+                              & 100 & 1000  & 10,000 & 100,000 \\
+\% error in $\hat{\mu}$       & 13\%&   2\% &  0.8\% &  0.3\%  \\
+max error in $\hat{\mu}$      &260\%&  42\% &    3\% &    1\%  \\
+\% error in $\hat{\lambda}$   & 15\%&   5\% &    2\% &  0.6\%  \\
+max error in $\hat{\lambda}$  & 68\%&  18\% &    6\% &    2\%  \\ \hline
+\end{tabular}
+\end{center}
+
+Fitting truncated Gumbel distributions is difficult, requiring much
+more data than fitting complete or censored data. The problem is that
+the right tail becomes a scale-free exponential when $\phi >> \mu$,
+and $\mu$ becomes undetermined. Fits become very inaccurate as $\phi$
+gets larger than $\mu$, and for sufficiently large $\phi$, the
+numerical optimizer will completely fail.
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.c
new file mode 100755
index 0000000..b210cf9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.c
@@ -0,0 +1,2015 @@
+/* Collecting and displaying histograms.
+ * 
+ *  1. Creating/destroying histograms and collecting data.
+ *  2. Declarations about the binned data before parameter fitting.
+ *  3. Routines for accessing data samples in a full histogram.
+ *  4. Setting expected counts
+ *  5. Output and display of binned data.
+ *  6. Test driver.
+ *  7. Examples.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+#include <math.h>
+#include <float.h>
+#include <limits.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_histogram.h"
+#include "esl_vectorops.h"
+
+static int esl_histogram_sort(ESL_HISTOGRAM *h);
+
+
+/*****************************************************************
+ * 1. Creating/destroying histograms and collecting data.
+ *****************************************************************/
+
+/* Function:  esl_histogram_Create()
+ * Synopsis:  Create a new <ESL_HISTOGRAM>.
+ *
+ * Purpose:   Creates and returns a new histogram object, initially
+ *            allocated to count scores $>$ <xmin> and $<=$ <xmax> into
+ *            bins of width <w>. Thus, a total of <xmax>-<xmin>/<w> bins
+ *            are initially created. 
+ *            
+ *            The lower bound <xmin> and the width <w> permanently
+ *            determine the offset and width of the binning, but not
+ *            the range.  For example, <esl_histogram_Create(-100,
+ *            100, 0.5)> would init the object to collect scores into
+ *            400 bins $[-100< x \leq -99.5],[-99.5 < x \leq
+ *            -99.0]...[99.5 <x \leq 100.0]$.  Aside from this, the
+ *            range specified by the bounds <xmin> and <xmax> only
+ *            needs to be an initial guess. The histogram object will
+ *            reallocate itself dynamically as needed to accommodate
+ *            scores that exceed current bounds.
+ *
+ *            You can be sloppy about <xmax>; it does not have to
+ *            exactly match a bin upper bound. The initial allocation
+ *            is for all full-width bins with upper bounds $\leq
+ *            xmax$.
+ *
+ *            <esl_histogram_Create()> creates a simplified histogram
+ *            object that collates only the "display" histogram. For
+ *            a more complex object that also keeps the raw data samples,
+ *            better suited for fitting distributions and goodness-of-fit
+ *            testing, use <esl_histogram_CreateFull()>.
+ *  
+ * Args:      bmin - caller guesses that minimum score will be > bmin
+ *            bmax - caller guesses that max score will be <= bmax
+ *            w    - size of bins (1.0, for example)
+ *            
+ * Returns:   ptr to new <ESL_HISTOGRAM> object, which caller is responsible
+ *            for free'ing with <esl_histogram_Destroy()>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_HISTOGRAM *
+esl_histogram_Create(double bmin, double bmax, double w)
+{
+  ESL_HISTOGRAM *h = NULL;
+  int status;
+  int i;
+
+  ESL_ALLOC(h, sizeof(ESL_HISTOGRAM));
+
+  h->xmin      =  DBL_MAX;	/* xmin/xmax are the observed min/max */
+  h->xmax      = -DBL_MAX;
+  h->n         = 0;
+  h->obs       = NULL;		/* will get allocated below... */
+  h->bmin      = bmin;		/* bmin/bmax are the allocated bounds */
+  h->bmax      = bmax;
+  h->nb        = (int)((bmax-bmin)/w);
+  h->imin      = h->nb;
+  h->imax      = -1;
+  h->w         = w;
+
+  h->x         = NULL;
+  h->nalloc    = 0;
+
+  h->phi       = 0.;
+  h->cmin      = h->imin;	/* sentinel: no observed data yet */
+  h->z         = 0;
+  h->Nc        = 0;
+  h->No        = 0;
+
+  h->expect    = NULL;		/* 'til a Set*() call */
+  h->emin      = -1;            /* sentinel: no expected counts yet */
+  h->tailbase  = 0.;		/* unused unless is_tailfit TRUE */
+  h->tailmass  = 1.0;		/* <= 1.0 if is_tailfit TRUE */
+
+  h->is_full       = FALSE;
+  h->is_done       = FALSE;
+  h->is_sorted     = FALSE;
+  h->is_tailfit    = FALSE;
+  h->is_rounded    = FALSE;
+  h->dataset_is    = COMPLETE;
+
+  ESL_ALLOC(h->obs, sizeof(uint64_t) * h->nb);
+  for (i = 0; i < h->nb; i++) h->obs[i] = 0;
+  return h;
+
+ ERROR:
+  esl_histogram_Destroy(h);
+  return NULL;
+}
+
+/* Function:  esl_histogram_CreateFull()
+ * Synopsis:  A <ESL_HISTOGRAM> to keep all data samples.
+ *
+ * Purpose:   Alternative form of <esl_histogram_Create()> that 
+ *            creates a more complex histogram that will contain not just the 
+ *            display histogram, but also keeps track of all
+ *            the raw sample values. Having a complete vector of raw
+ *            samples improves distribution-fitting and goodness-of-fit 
+ *            tests, but will consume more memory. 
+ */
+ESL_HISTOGRAM *
+esl_histogram_CreateFull(double bmin, double bmax, double w)
+{
+  int status;
+  ESL_HISTOGRAM *h = esl_histogram_Create(bmin, bmax, w);
+  if (h == NULL) return NULL;
+
+  h->n      = 0;		/* make sure */
+  h->nalloc = 128;		/* arbitrary initial allocation size */
+  ESL_ALLOC(h->x, sizeof(double) * h->nalloc);
+  h->is_full = TRUE;
+  return h;
+
+ ERROR:
+  esl_histogram_Destroy(h);
+  return NULL;
+}
+
+
+/* Function:  esl_histogram_Destroy()
+ * Synopsis:  Frees a <ESL_HISTOGRAM>.
+ *
+ * Purpose:   Frees an <ESL_HISTOGRAM> object <h>.
+ */
+void
+esl_histogram_Destroy(ESL_HISTOGRAM *h)
+{
+  if (h ==  NULL) return;
+  if (h->x      != NULL) free(h->x);
+  if (h->obs    != NULL) free(h->obs); 
+  if (h->expect != NULL) free(h->expect);
+  free(h);
+  return;
+}
+
+/* Function:  esl_histogram_Score2Bin()
+ * Synopsis:  Given a real-valued <x>; calculate integer bin <b>
+ *
+ * Purpose:   For a real-valued <x>, figure out what bin it would
+ *            go into in the histogram <h>; return this value in
+ *            <*ret_b>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslERANGE> if bin <b> would exceed the range of
+ *            an integer; for instance, if <x> isn't finite.
+ *
+ * Xref:      J5/122. Replaces earlier macro implementation;
+ *            we needed to range check <x> better.
+ */
+int
+esl_histogram_Score2Bin(ESL_HISTOGRAM *h, double x, int *ret_b)
+{
+  int status;
+
+  if (! isfinite(x)) ESL_XEXCEPTION(eslERANGE, "value added to histogram is not finite");
+
+  x = ceil( ((x - h->bmin) / h->w) - 1.); 
+  
+  /* x is now the bin number as a double, which we will convert to
+   * int. Because x is a double (64-bit), we know all ints are exactly
+   * represented.  Check for under/overflow before conversion.
+   */
+  if (x < (double) INT_MIN || x > (double) INT_MAX) 
+    ESL_XEXCEPTION(eslERANGE, "value %f isn't going to fit in histogram", x);
+
+  *ret_b = (int) x;
+  return eslOK;
+
+ ERROR:
+  *ret_b = 0;
+  return status;
+}
+
+
+/* Function:  esl_histogram_Add()
+ * Synopsis:  Add a sample to the histogram.
+ *
+ * Purpose:   Adds score <x> to a histogram <h>.
+ *           
+ *            The histogram will be automatically reallocated as
+ *            needed if the score is smaller or larger than the
+ *            current allocated bounds.  
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on reallocation failure.
+ *
+ *            <eslERANGE> if <x> is beyond the reasonable range for
+ *            the histogram to store -- either because it isn't finite,
+ *            or because the histogram would need to allocate a number
+ *            of bins that exceeds <INT_MAX>.
+ *
+ *            Throws <eslEINVAL> for cases where something has been done
+ *            to the histogram that requires it to be 'finished', and
+ *            adding more data is prohibited; for example, 
+ *            if tail or censoring information has already been set.
+ *            On either failure, initial state of <h> is preserved.
+ */
+int
+esl_histogram_Add(ESL_HISTOGRAM *h, double x)
+{
+  int   status;
+  void *tmp;
+  int b;			/* what bin we're in                       */
+  int nnew;			/* # of new bins created by a reallocation */
+  int bi;
+
+  /* Censoring info must only be set on a finished histogram;
+   * don't allow caller to add data after configuration has been declared
+   */
+  if (h->is_done)
+    ESL_EXCEPTION(eslEINVAL, "can't add more data to this histogram");
+
+  /* If we're a full histogram, check whether we need to reallocate
+   * the full data vector.
+   */
+  if (h->is_full && h->nalloc == h->n) 
+    {
+      ESL_RALLOC(h->x, tmp, sizeof(double) * h->nalloc * 2);
+      h->nalloc *= 2;
+    }
+
+  /* Which bin will we want to put x into?
+   */
+  if ((status = esl_histogram_Score2Bin(h,x, &b)) != eslOK) return status;
+
+  /* Make sure we have that bin. Realloc as needed.
+   * If that reallocation succeeds, we can no longer fail;
+   * so we can change the state of h.
+   */
+  if (b < 0)    /* Reallocate below? */
+    {				
+      nnew = -b*2;	/* overallocate by 2x */
+      if (nnew > INT_MAX - h->nb)
+	ESL_EXCEPTION(eslERANGE, "value %f requires unreasonable histogram bin number", x);
+      ESL_RALLOC(h->obs, tmp, sizeof(uint64_t) * (nnew+ h->nb));
+      
+      memmove(h->obs+nnew, h->obs, sizeof(uint64_t) * h->nb);
+      h->nb    += nnew;
+      b        += nnew;
+      h->bmin  -= nnew*h->w;
+      h->imin  += nnew;
+      h->cmin  += nnew;
+      if (h->imax > -1) h->imax += nnew;
+      for (bi = 0; bi < nnew; bi++) h->obs[bi] = 0;
+    }
+  else if (b >= h->nb)  /* Reallocate above? */
+    {
+      nnew = (b-h->nb+1) * 2; /* 2x overalloc */
+      if (nnew > INT_MAX - h->nb) 
+	ESL_EXCEPTION(eslERANGE, "value %f requires unreasonable histogram bin number", x);
+      ESL_RALLOC(h->obs, tmp, sizeof(uint64_t) * (nnew+ h->nb));
+      for (bi = h->nb; bi < h->nb+nnew; bi++) h->obs[bi] = 0;
+      if (h->imin == h->nb) { /* boundary condition of no data yet*/
+	h->imin+=nnew; 
+	h->cmin+=nnew;
+      }
+      h->bmax  += nnew*h->w;
+      h->nb    += nnew;
+    }
+
+  /* If we're a full histogram, then we keep the raw x value,
+   * reallocating as needed.
+   */
+  if (h->is_full)  h->x[h->n] = x;
+  h->is_sorted = FALSE;		/* not any more! */
+
+  /* Bump the bin counter, and all the data sample counters.
+   */
+  h->obs[b]++;
+  h->n++;
+  h->Nc++;
+  h->No++;
+
+  if (b > h->imax) h->imax = b;
+  if (b < h->imin) { h->imin = b; h->cmin = b; }
+  if (x > h->xmax) h->xmax = x;
+  if (x < h->xmin) h->xmin = x;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+  
+
+/* esl_histogram_sort()
+ *
+ * Purpose:   Sort the raw scores in a full histogram, from smallest to
+ *            largest. Has no effect on a normal histogram, or on a full
+ *            histogram that is already sorted.
+ *
+ * Returns:   <eslOK> on success.
+ *            Upon return, <h->x[h->n-1]> is the high score, <h->x[0]> is the 
+ *            low score. 
+ */
+int
+esl_histogram_sort(ESL_HISTOGRAM *h)
+{
+  if (h->is_sorted) return eslOK; /* already sorted, don't do anything */
+  if (! h->is_full) return eslOK; /* nothing to sort */
+  
+  esl_vec_DSortIncreasing(h->x, h->n);
+  h->is_sorted = TRUE;
+  return eslOK;
+}
+
+/*****************************************************************
+ * 2. Declarations about the binned data before parameter fitting
+ *****************************************************************/ 
+
+/* Function:  esl_histogram_DeclareCensoring()
+ * Synopsis:  Collected data were left-censored.
+ *
+ * Purpose:   Declare that the dataset collected in <h> is known to be a
+ *            censored distribution, where <z> samples were unobserved because
+ *            they had values $\leq$ some threshold <phi> ($\phi$).
+ *            
+ *            No more data can be added to the histogram with <_Add()>
+ *            after censoring information has been set.
+ *            
+ *            This function is for "true" censored datasets, where
+ *            the histogram truly contains no observed points
+ *            $x \leq \phi$, and the number that were censored is known
+ *            to be <z>. 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if you try to set <phi> to a value that is
+ *            greater than the minimum <x> stored in the histogram.
+ */
+int
+esl_histogram_DeclareCensoring(ESL_HISTOGRAM *h, int z, double phi)
+{
+  if (phi > h->xmin) ESL_EXCEPTION(eslEINVAL, "no uncensored x can be <= phi");
+
+  h->phi         = phi;
+  h->cmin        = h->imin;
+  h->z           = z;
+  h->Nc          = h->n + z;
+  h->No          = h->n;
+  h->dataset_is  = TRUE_CENSORED;
+  h->is_done     = TRUE;
+  return eslOK;
+}
+
+/* Function:  esl_histogram_DeclareRounding()
+ * Synopsis:  Declare collected data were no more accurate than bins.
+ *
+ * Purpose:   Declare that the data sample values in the histogram <h>
+ *            are rounded off. Ideally, your bins in <h> should exactly 
+ *            match the rounding procedure. This raises a flag that
+ *            binned parameter fitting routines will use when they set
+ *            an origin, using the lower bound of the bin instead of
+ *            the lowest raw value in the bin.
+ */
+int
+esl_histogram_DeclareRounding(ESL_HISTOGRAM *h)
+{
+  h->is_rounded = TRUE;
+  return eslOK;
+}
+
+
+/* Function:  esl_histogram_SetTail()
+ * Synopsis:  Declare only tail $>$ some threshold is considered "observed".
+ *
+ * Purpose:   Suggest a threshold <phi> to split a histogram <h>
+ *            into "unobserved" data (values $\leq \phi$) and "observed" 
+ *            data (values $> \phi$). 
+ *
+ *            The suggested <phi> is revised downwards to a $\phi$ at the next 
+ *            bin lower bound, because operations on binned data in <h>
+ *            need to know unambiguously whether all the data in a given bin
+ *            will be counted as observed or unobserved. 
+ *
+ *            The probability mass that is in the resulting right tail
+ *            is optionally returned in <ret_newmass>. You need to know
+ *            this number if you're fitting a distribution solely to the
+ *            tail (an exponential tail, for example).
+ *
+ *            Any data point $x_i \leq \phi$ is then considered to be
+ *            in a censored (unobserved) region for purposes of parameter
+ *            fitting, calculating expected binned counts,
+ *            and binned goodness-of-fit tests. 
+ *            
+ *            No more data can be added to the histogram after
+ *            censoring information has been set.
+ *            
+ *            This function defines a "virtual" left-censoring: the
+ *            histogram actually contains complete data, but appropriate
+ *            flags are set to demarcate the "observed" data in the right
+ *            tail.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslERANGE> if <phi> is an unreasonable value that
+ *            can't be converted to an integer bin value.
+ */
+int
+esl_histogram_SetTail(ESL_HISTOGRAM *h, double phi, double *ret_newmass)
+{
+  int b;
+  int status;
+
+  /* Usually, put true phi at the next bin lower bound, but
+   * watch for a special case where phi is already exactly equal to a 
+   * bin upper bound.
+   */
+  if ((status = esl_histogram_Score2Bin(h,phi, &(h->cmin))) != eslOK) return status;
+  if (phi == esl_histogram_Bin2UBound(h,h->cmin)) h->phi = phi;
+  else   h->phi  = esl_histogram_Bin2LBound(h, h->cmin);
+
+  h->z    = 0;
+  for (b = h->imin; b < h->cmin; b++)
+    h->z += h->obs[b];
+  h->Nc         = h->n;		/* (redundant) */
+  h->No         = h->n - h->z;
+  h->dataset_is = VIRTUAL_CENSORED;
+  h->is_done    = TRUE;
+  if (ret_newmass != NULL) *ret_newmass = (double) h->No / (double) h->Nc;
+  return eslOK;
+}
+
+/* Function:  esl_histogram_SetTailByMass()
+ * Synopsis:  Declare only right tail mass is considered "observed".
+ *
+ * Purpose:   Given a histogram <h> (with or without raw data samples),
+ *            find a cutoff score that at least fraction <pmass> of the samples
+ *            exceed. This threshold is stored internally in the histogram
+ *            as <h->phi>. The number of "virtually censored" samples (to the 
+ *            left, with scores $\leq \phi$) is stored internally in <h->z>.
+ *            
+ *            The identified cutoff score must be a lower bound for some bin
+ *            (bins can't be partially censored). The censored mass
+ *            will thus usually be a bit greater than <pmass>, as the
+ *            routine will find the highest satisfactory <h->phi>. The
+ *            narrower the bin widths, the more accurately the routine
+ *            will be able to satisfy the requested <frac>. The actual
+ *            probability mass in the right tail is optionally returned
+ *            in <ret_newmass>. You need to know this number if you're 
+ *            fitting a distribution solely to the tail (an exponential tail,
+ *            for example). It is safe for <ret_newmass> to point at 
+ *            <pmass>, in which case the suggested <pmass> will be overwritten
+ *            with the actual mass upon return.
+ *
+ *            This function defines that the binned data will be
+ *            fitted either as a tail, or as a (virtually) left-censored dataset.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_histogram_SetTailByMass(ESL_HISTOGRAM *h, double pmass, double *ret_newmass)
+{
+  int b;
+  uint64_t sum = 0;
+	    
+  for (b = h->imax; b >= h->imin; b--)
+    {
+      sum += h->obs[b];
+      if (sum >= (pmass * (double)h->n)) break;
+    }
+
+  h->phi         = esl_histogram_Bin2LBound(h,b);
+  h->z           = h->n - sum;
+  h->cmin        = b;
+  h->Nc          = h->n;	/* (redundant) */
+  h->No          = h->n - h->z;
+  h->dataset_is  = VIRTUAL_CENSORED;
+  h->is_done     = TRUE;
+  if (ret_newmass != NULL) *ret_newmass = (double) h->No / (double) h->Nc;
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * 3. Routines for accessing data samples in a full histogram.
+ *****************************************************************/
+
+/* Function:  esl_histogram_GetRank()
+ * Synopsis:  Retrieve n'th high score.
+ *
+ * Purpose:   Retrieve the <rank>'th highest score from a 
+ *            full histogram <h>. <rank> is <1..n>, for
+ *            <n> total samples in the histogram; return it through
+ *            <ret_x>.
+ *            
+ *            If the raw scores aren't sorted, they are sorted
+ *            first (an $N \log N$ operation).
+ *            
+ *            This can be called at any time, even during data
+ *            collection, to see the current <rank>'th highest score.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the histogram is display-only,
+ *            or if <rank> isn't in the range 1..n.
+ */
+int
+esl_histogram_GetRank(ESL_HISTOGRAM *h, int rank, double *ret_x)
+{
+  if (! h->is_full) 
+    ESL_EXCEPTION(eslEINVAL, 
+	      "esl_histogram_GetRank() needs a full histogram");
+  if (rank > h->n)
+    ESL_EXCEPTION(eslEINVAL, 
+	      "no such rank: not that many scores in the histogram");
+  if (rank < 1)
+    ESL_EXCEPTION(eslEINVAL, "histogram rank must be a value from 1..n");
+
+  esl_histogram_sort(h);	/* make sure */
+  *ret_x = h->x[h->n - rank];
+  return eslOK;
+}
+
+/* Function:  esl_histogram_GetData()
+ * Synopsis:  Retrieve vector of all raw scores.
+ *
+ * Purpose:   Retrieve the raw data values from the histogram <h>.
+ *            Return them in the vector <ret_x>, and the number
+ *            of values in <ret_n>. The values are indexed <[0..n-1]>,
+ *            from smallest to largest (<x[n-1]> is the high score).
+ *            
+ *            <ret_x> is a pointer to internal memory in the histogram <h>.
+ *            The histogram <h> is still responsible for that storage;
+ *            its memory will be free'd when you call
+ *            <esl_histogram_Destroy()>.
+ *            
+ *            You can only call this after you have finished collecting
+ *            all the data. Subsequent calls to <esl_histogram_Add()>
+ *            will fail.
+ *            
+ * Internal note:
+ *            The prohibition against adding more data (by raising
+ *            the h->is_done flag) is because we're passing a pointer
+ *            to internal data storage back to the caller. Subsequent
+ *            calls to Add() will modify that memory -- in the worst case,
+ *            if Add() has to reallocate that storage, completely invalidating
+ *            the pointer that the caller has a copy of. We want to make
+ *            sure that the <ret_x> pointer stays valid.
+ *            
+ * Args:      h     - histogram to retrieve data values from
+ *            ret_x - RETURN: pointer to the data samples, [0..n-1] 
+ *            ret_n - RETURN: number of data samples
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the histogram <h> is not a full histogram.
+ */
+int
+esl_histogram_GetData(ESL_HISTOGRAM *h, double **ret_x, int *ret_n)
+{
+  if (! h->is_full) ESL_EXCEPTION(eslEINVAL, "not a full histogram");
+  esl_histogram_sort(h);
+
+  *ret_x = h->x;
+  *ret_n = h->n;
+
+  h->is_done = TRUE;
+  return eslOK;
+}
+
+
+/* Function:  esl_histogram_GetTail()
+ * Synopsis:  Retrieve all raw scores above some threshold.
+ *
+ * Purpose:   Given a full histogram <h>, retrieve all data values 
+ *            above the threshold <phi> in the right (high scoring) 
+ *            tail, as a ptr <ret_x> to an array of <ret_n> values 
+ *            indexed <[0..n-1]> from lowest to highest score. 
+ *            Optionally, it also returns the number of values in 
+ *            rest of the histogram in <ret_z>;
+ *            this number is useful if you are going to fit
+ *            the tail as a left-censored distribution.
+ *            
+ *            The test is strictly greater than <phi>, not greater
+ *            than or equal to.
+ *            
+ *            <ret_x> is a pointer to internal memory in the histogram <h>.
+ *            The histogram <h> is still responsible for that storage;
+ *            its memory will be free'd when you call 
+ *            <esl_histogram_Destroy()>.
+ *            
+ *            You can only call this after you have finished collecting
+ *            all the data. Subsequent calls to <esl_histogram_Add()>
+ *            will fail.             
+ *            
+ * Args:      h     - histogram to retrieve the tail from
+ *            phi   - threshold: tail is all scores > phi
+ *            ret_x - optRETURN: ptr to vector of data values [0..n-1]
+ *            ret_n - optRETURN: number of data values in tail
+ *            ret_z - optRETURN: number of data values not in tail.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the histogram is not a full histogram.
+ */
+int
+esl_histogram_GetTail(ESL_HISTOGRAM *h, double phi, 
+		      double **ret_x, int *ret_n, int *ret_z)
+{
+  int hi, lo, mid;
+
+  if (! h->is_full) ESL_EXCEPTION(eslEINVAL, "not a full histogram");
+  esl_histogram_sort(h);
+
+  if      (h->n         == 0)   mid = h->n;  /* we'll return NULL, 0, n */  
+  else if (h->x[0]       > phi) mid = 0;     /* we'll return x, n, 0    */
+  else if (h->x[h->n-1] <= phi) mid = h->n;  /* we'll return NULL, 0, n */
+  else /* binary search, faster than a brute force scan */
+    {
+      lo = 0;
+      hi = h->n-1; /* know hi>0, because above took care of n=0 and n=1 cases */
+      while (1) {
+	mid = (lo + hi + 1) / 2;  /* +1 makes mid round up, mid=0 impossible */
+	if      (h->x[mid]  <= phi) lo = mid; /* we're too far left  */
+	else if (h->x[mid-1] > phi) hi = mid; /* we're too far right */
+	else break;		              /* ta-da! */
+      }
+    }
+
+  if (ret_x != NULL) *ret_x = h->x + mid;
+  if (ret_n != NULL) *ret_n = h->n - mid;
+  if (ret_z != NULL) *ret_z = mid;
+  h->is_done = TRUE;
+  return eslOK;
+}
+
+
+/* Function:  esl_histogram_GetTailByMass()
+ * Synopsis:  Retrieve all raw scores in right tail mass.
+ *
+ * Purpose:   Given a full histogram <h>, retrieve the data values in
+ *            the right (high scoring) tail, as a pointer <ret_x>
+ *            to an array of <ret_n> values indexed <[0..n-1]> from
+ *            lowest to highest score. The tail is defined by a
+ *            given mass fraction threshold <pmass>; the mass in the returned
+ *            tail is $\leq$ this threshold. <pmass> is a probability,
+ *            so it must be $\geq 0$ and $\leq 1$.
+ *            
+ *            Optionally, the number of values in the rest of the
+ *            histogram can be returned in <ret_z>. This is useful
+ *            if you are going to fit the tail as a left-censored
+ *            distribution.
+ *            
+ *            <ret_x> is a pointer to internal memory in <h>. 
+ *            The histogram <h> remains responsible for its storage,
+ *            which will be free'd when you call <esl_histogram_Destroy()>.
+ *            As a consequence, you can only call 
+ *            <esl_histogram_GetTailByMass()> after you have finished
+ *            collecting data. Subsequent calls to <esl_histogram_Add()>
+ *            will fail.
+ *
+ * Args:      h     - histogram to retrieve the tail from
+ *            pmass - fractional mass threshold; tail contains <= pmass
+ *            ret_x - optRETURN: ptr to vector of data values [0..n-1]
+ *            ret_n - optRETURN: number of data values in tail x
+ *            ret_z - optRETURN: number of data values not in tail
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the histogram is not a full histogram, 
+ *            or <pmass> is not a probability.
+ */
+int
+esl_histogram_GetTailByMass(ESL_HISTOGRAM *h, double pmass,
+			    double **ret_x, int *ret_n, int *ret_z)
+{
+  uint64_t n;
+
+  if (! h->is_full) 
+    ESL_EXCEPTION(eslEINVAL, "not a full histogram");
+  if (pmass < 0. || pmass > 1.) 
+    ESL_EXCEPTION(eslEINVAL, "pmass not a probability");
+
+  esl_histogram_sort(h);
+
+  n = (uint64_t) ((double) h->n * pmass); /* rounds down, guaranteeing <= pmass */
+
+  if (ret_x != NULL) *ret_x = h->x + (h->n - n);
+  if (ret_n != NULL) *ret_n = n;
+  if (ret_z != NULL) *ret_z = h->n - n;
+  h->is_done = TRUE;
+  return eslOK;
+}
+
+
+
+
+
+/*****************************************************************
+ * 4. Setting expected counts
+ *****************************************************************/ 
+
+/* Function:  esl_histogram_SetExpect()
+ * Synopsis:  Set expected counts for complete distribution.
+ *
+ * Purpose:   Given a histogram <h> containing some number of empirically
+ *            observed binned counts, and a pointer to a function <(*cdf)()>
+ *            that describes the expected cumulative distribution function 
+ *            (CDF) for the complete data, conditional on some parameters 
+ *            <params>; calculate the expected counts in each bin of the 
+ *            histogram, and hold that information internally in the structure.
+ *            
+ *            The caller provides a function <(*cdf)()> that calculates
+ *            the CDF via a generic interface, taking only two
+ *            arguments: a quantile <x> and a void pointer to whatever
+ *            parameters it needs, which it will cast and interpret.
+ *            The <params> void pointer to the given parameters is
+ *            just passed along to the generic <(*cdf)()> function. The
+ *            caller will probably implement this <(*cdf)()> function as
+ *            a wrapper around its real CDF function that takes
+ *            explicit (non-void-pointer) arguments.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; state of <h> is preserved.
+ */
+int
+esl_histogram_SetExpect(ESL_HISTOGRAM *h, 
+			double (*cdf)(double x, void *params), void *params)
+{
+  int    status;
+  int    i;
+  double ai,bi;			/* ai < x <= bi : lower,upper bounds in bin */
+
+  if (h->expect == NULL) 
+    ESL_ALLOC(h->expect, sizeof(double) * h->nb);
+
+  for (i = 0; i < h->nb; i++)
+    {
+      ai = esl_histogram_Bin2LBound(h, i);
+      bi = esl_histogram_Bin2UBound(h, i);
+      h->expect[i] = h->Nc * ( (*cdf)(bi, params) - (*cdf)(ai, params) );
+
+      if (h->emin == -1 && h->expect[i] > 0.) h->emin = i;
+    }
+
+  h->is_done = TRUE;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_histogram_SetExpectedTail()
+ * Synopsis:  Set expected counts for right tail.
+ *
+ * Purpose:   Given a histogram <h>, and a pointer to a generic function
+ *            <(*cdf)()> that describes the expected cumulative
+ *            distribution function for the right (high-scoring) tail
+ *            starting at <base_val> (all expected <x> $>$ <base_val>) and
+ *            containing a fraction <pmass> of the complete data
+ *            distribution (<pmass> $\geq 0$ and $\leq 1$);
+ *            set the expected binned counts for all complete bins
+ *            $\geq$ <base_val>. 
+ *            
+ *            If <base_val> falls within a bin, that bin is considered
+ *            to be incomplete, and the next higher bin is the starting
+ *            point. 
+ *           
+ * Args:      h          - finished histogram
+ *            base_val   - threshold for the tail: all expected x > base_val
+ *            pmass      - fractional mass in the tail: 0 <= pmass <= 1
+ *            cdf        - generic-interface CDF function describing the tail
+ *            params     - void pointer to parameters for (*cdf)()
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on memory allocation failure.
+ *            <eslERANGE> if <base_val> isn't a reasonable value within
+ *              the histogram (it converts to a bin value outside
+ *              integer range).
+ */
+int
+esl_histogram_SetExpectedTail(ESL_HISTOGRAM *h, double base_val, double pmass,
+			      double (*cdf)(double x, void *params), 
+			      void *params)
+{
+  int status;
+  int b;
+  double ai, bi;
+
+  if (h->expect == NULL)  ESL_ALLOC(h->expect, sizeof(double) * h->nb);
+
+  if ((status = esl_histogram_Score2Bin(h, base_val, &(h->emin))) != eslOK) return status;
+  h->emin += 1;
+  esl_vec_DSet(h->expect, h->emin, 0.);
+
+  for (b = h->emin; b < h->nb; b++)
+    {
+      ai = esl_histogram_Bin2LBound(h, b);
+      bi = esl_histogram_Bin2UBound(h, b);
+      h->expect[b] = pmass * (double) h->Nc * 
+	             ( (*cdf)(bi, params) - (*cdf)(ai, params) );
+    }
+  
+  h->tailbase   = base_val;
+  h->tailmass   = pmass;
+  h->is_tailfit = TRUE;
+  h->is_done    = TRUE;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+
+
+/*****************************************************************
+ * 5. Output and display of binned data.
+ *****************************************************************/ 
+
+/* Function:  esl_histogram_Write() 
+ * Synopsis:  Write a "pretty" ASCII histogram to a stream.
+ *
+ * Purpose:   Print a "prettified" display histogram <h> to a file
+ *            pointer <fp>.  Deliberately a look-and-feel clone of
+ *            Bill Pearson's excellent FASTA output.
+ *            
+ *            Also displays expected binned counts, if they've been
+ *            set.
+ *            
+ *            Display will only work well if the bin width (w) is 0.1
+ *            or more, because the score labels are only shown to one
+ *            decimal point.
+ * 
+ * Args:      fp     - open file to print to (stdout works)
+ *            h      - histogram to print
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> on any system write error, such as a
+ *                        filled disk.
+ */
+int
+esl_histogram_Write(FILE *fp, ESL_HISTOGRAM *h)
+{
+  int      i;
+  double   x;
+  uint64_t maxbar;
+  int      imode;
+  uint64_t units;
+  int      num;
+  char     buffer[81];		  /* output line buffer */
+  int      pos;			  /* position in output line buffer */
+  uint64_t lowcount, highcount;	  
+  int      ilowbound, ihighbound; 
+  int      emptybins = 3;
+
+  /* Find out how we'll scale the histogram.  We have 58 characters to
+   * play with on a standard 80-column terminal display: leading "%6.1f
+   * %6d %6d|" occupies 21 chars.  Save the peak position, we'll use
+   * it later.
+   */
+  maxbar = 0;
+  imode  = 0;
+  for (i = 0; i < h->nb; i++)
+    if (h->obs[i] > maxbar) 
+      {
+	maxbar  = h->obs[i];     /* max height    */
+	imode   = i;
+      }
+
+  /* Truncate histogram display on both sides, ad hoc fashion.
+   * Start from the peak; then move out until we see <emptybins> empty bins,
+   * and stop.
+   */
+  for (num = 0, ihighbound = imode; ihighbound < h->imax; ihighbound++)
+    {
+      if (h->obs[ihighbound] > 0) { num = 0; continue; } /* reset */
+      if (++num == emptybins)     { break;             } /* stop  */
+    }
+  for (num = 0, ilowbound = imode; ilowbound > h->imin; ilowbound--)
+    {
+      if (h->obs[ilowbound] > 0)  { num = 0; continue; } /* reset */
+      if (++num == emptybins)     { break;             } /* stop  */
+    }
+
+		/* collect counts outside of bounds */
+  for (lowcount = 0, i = h->imin; i < ilowbound; i++)
+    lowcount += h->obs[i];
+  for (highcount = 0, i = h->imax; i > ihighbound; i--)
+    highcount += h->obs[i];
+
+		/* maxbar might need to be raised now; then set our units  */
+  if (lowcount  > maxbar) maxbar = lowcount;
+  if (highcount > maxbar) maxbar = highcount;
+  units = ((maxbar-1)/ 58) + 1;
+
+  /* Print the histogram
+   */
+  if (fprintf(fp, "%6s %6s %6s  (one = represents %llu sequences)\n", 
+	      "score", "obs", "exp", (unsigned long long) units) < 0) 
+    ESL_EXCEPTION_SYS(eslEWRITE, "histogram write failed");
+  if (fprintf(fp, "%6s %6s %6s\n", "-----", "---", "---") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram write failed");
+  buffer[80] = '\0';
+  buffer[79] = '\n';
+  for (i = h->imin; i <= h->imax; i++)
+    {
+      memset(buffer, ' ', 79 * sizeof(char));
+      x = i*h->w + h->bmin;
+
+      /* Deal with special cases at edges
+       */
+      if      (i < ilowbound)  continue;
+      else if (i > ihighbound) continue;
+      else if (i == ilowbound && i != h->imin) 
+	{
+	  sprintf(buffer, "<%5.1f %6llu %6s|", x+h->w, (unsigned long long) lowcount, "-");
+	  if (lowcount > 0) {
+	    num = 1+(lowcount-1) / units;
+	    for (pos = 21; num > 0; num--)  buffer[pos++] = '=';
+	  }
+	  if (fputs(buffer, fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram write failed");
+	  continue;
+	}
+      else if (i == ihighbound && i != h->imax)
+	{
+	  sprintf(buffer, ">%5.1f %6llu %6s|", x, (unsigned long long) highcount, "-");
+	  if (highcount > 0) {
+	    num = 1+(highcount-1) / units;
+	    for (pos = 21; num > 0; num--)  buffer[pos++] = '=';
+	  }
+	  if (fputs(buffer, fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram write failed");
+	  continue;
+	}
+
+      /* Deal with most cases
+       */
+      if (h->obs[i] < 1000000)	/* displayable in 6 figures or less? */
+	{
+	  if (h->expect != NULL) 
+	    sprintf(buffer, "%6.1f %6llu %6d|", x, (unsigned long long) h->obs[i], (int) h->expect[i]);
+	  else
+	    sprintf(buffer, "%6.1f %6llu %6s|", x, (unsigned long long) h->obs[i], "-");
+	}
+      else
+	{
+	  if (h->expect != NULL) 
+	    sprintf(buffer, "%6.1f %6.2e %6.2e|", x, (double) h->obs[i], h->expect[i]);
+	  else
+	    sprintf(buffer, "%6.1f %6.2e %6s|",   x, (double) h->obs[i], "-");
+
+	}
+      buffer[21] = ' ';		/* sprintf writes a null char; replace it */
+
+
+      /* Mark the histogram bar for observed hits
+       */ 
+      if (h->obs[i] > 0) {
+	num = 1 + (h->obs[i]-1) / units;
+	for (pos = 21; num > 0; num--)  buffer[pos++] = '=';
+      }
+	  
+      /* Mark the theoretically expected value
+       * (The test > 0. also suffices to remove any censored region.)
+       */
+      if (h->expect != NULL && h->expect[i] > 0.)
+	{
+	  pos = 21 + (int)(h->expect[i]-1) / units;
+	  if (pos >= 78) pos = 78; /* be careful of buffer bounds */
+	  buffer[pos] = '*';
+	}
+
+      /* Print the line
+       */
+      if (fputs(buffer, fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram write failed");
+    }
+
+  return eslOK;
+}
+  
+/* Function:  esl_histogram_Plot()
+ * Synopsis:  Output a histogram in xmgrace XY format.
+ *
+ * Purpose:   Print observed (and expected, if set) binned counts
+ *            in a histogram <h> to open file pointer <fp>
+ *            in xmgrace XY input file format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error.
+ */
+int
+esl_histogram_Plot(FILE *fp, ESL_HISTOGRAM *h)
+{
+  int    i;
+  double x;
+
+  /* First data set is the observed histogram
+   */
+  for (i = h->imin; i <= h->imax; i++)
+    if (h->obs[i] > 0)
+      {
+	x = esl_histogram_Bin2LBound(h,i);
+	if (fprintf(fp, "%f %llu\n", x, (unsigned long long) h->obs[i]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram plot write failed");
+      }
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram plot write failed");
+
+  /* Second data set is the theoretical (expected) histogram
+   */
+  if (h->expect != NULL)
+    {
+      for (i = 0; i < h->nb; i++)
+	if (h->expect[i] > 0.)	/* >0 suffices to remove censored region */
+	  {
+	    x = esl_histogram_Bin2LBound(h,i);
+	    if (fprintf(fp, "%.2f %g\n", x, h->expect[i]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram plot write failed");
+	  }
+      if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram plot write failed");
+    }
+  return eslOK;
+}
+
+/* Function:  esl_histogram_PlotSurvival()
+ * Synopsis:  Output $P(X>x)$ in xmgrace XY format.
+ *
+ * Purpose:   Given a histogram <h>, output the observed (and
+ *            expected, if available) survival function $P(X>x)$
+ *            to file pointer <fp> in xmgrace XY input file format.
+ *            
+ *            One point is plotted per bin, so the narrower the
+ *            bin width, the more smooth and accurate the resulting
+ *            plots will be.
+ *            
+ *            As a special case, always plot the highest score with
+ *            survival probability 1/N, if it occurred in a bin with
+ *            other samples. This is to prevent a survival plot from
+ *            looking like it was artificially truncated.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error.
+ */
+int
+esl_histogram_PlotSurvival(FILE *fp, ESL_HISTOGRAM *h)
+{
+  int i;
+  uint64_t c = 0;
+  double   esum;
+  double ai;
+  
+  /* The observed binned counts:
+   */
+  if (h->obs[h->imax] > 1) 
+    if (fprintf(fp, "%f\t%g\n", h->xmax, 1.0 / (double) h->Nc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram survival plot write failed");
+  for (i = h->imax; i >= h->imin; i--)
+    {
+      if (h->obs[i] > 0) {
+	c   += h->obs[i];
+	ai = esl_histogram_Bin2LBound(h, i);
+	if (fprintf(fp, "%f\t%g\n", ai, (double) c / (double) h->Nc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram survival plot write failed");
+      }
+    }
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram survival plot write failed");
+
+  /* The expected binned counts:
+   */
+  if (h->expect != NULL) 
+    {
+      esum = 0.;
+      for (i = h->nb-1; i >= 0; i--)
+	{
+	  if (h->expect[i] > 0.) { 
+	    esum += h->expect[i];        /* some worry about 1+eps=1 problem here */
+	    ai = esl_histogram_Bin2LBound(h, i);
+	    if (fprintf(fp, "%f\t%g\n", ai, esum / (double) h->Nc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram survival plot write failed");
+	  }
+	}
+      if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram survival plot write failed");
+    }
+  return eslOK;
+}
+
+/* Function:  esl_histogram_PlotQQ()
+ * Synopsis:  Output a Q-Q plot in xmgrace XY format.
+ *
+ * Purpose:   Given a histogram <h> containing an empirically observed
+ *            distribution, and a pointer to a function <(*invcdf)()>
+ *            for an expected inverse cumulative distribution
+ *            function conditional on some parameters <params>;
+ *            output a Q-Q plot in xmgrace XY format to file <fp>.
+ *            
+ *            Same domain limits as goodness-of-fit testing: output
+ *            is restricted to overlap between observed data (excluding
+ *            any censored data) and expected data (which may be limited
+ *            if only a tail was fit).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error.
+ */
+int
+esl_histogram_PlotQQ(FILE *fp, ESL_HISTOGRAM *h, 
+		     double (*invcdf)(double x, void *params), void *params)
+{
+  int      i;
+  double   cdf;
+  double   bi;
+  int      bbase;
+  uint64_t sum;
+
+  /* on censored data, start counting observed cdf at z, not 0
+   */
+  if (h->dataset_is == TRUE_CENSORED || h->dataset_is == VIRTUAL_CENSORED)
+    sum = h->z; 
+  else
+    sum = 0;
+
+  /* Determine smallest bin included in goodness of fit eval
+   */
+  bbase = h->cmin;
+  if (h->is_tailfit && h->emin > bbase) bbase = h->emin;
+  for (i = h->cmin; i < bbase; i++) sum +=  h->obs[i];
+  
+  /* The q-q plot:
+   */
+  for (i = bbase; i < h->imax; i++) /* avoid last bin where upper cdf=1.0 */
+    {
+      sum += h->obs[i];
+      cdf = (double) sum / (double) h->Nc;
+
+      if (h->is_tailfit) cdf = (cdf + h->tailmass - 1.) / (h->tailmass);
+
+      bi = esl_histogram_Bin2UBound(h, i);
+      if (fprintf(fp, "%f\t%f\n", bi, (*invcdf)(cdf, params)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram QQ plot write failed");
+    }
+  if (fprintf(fp, "&\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram QQ plot write failed");
+
+  /* Plot a 45-degree expected QQ line:
+   */
+  bi = esl_histogram_Bin2LBound(h, bbase);
+  if (fprintf(fp, "%f\t%f\n", bi,  bi)          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram QQ plot write failed");
+  if (fprintf(fp, "%f\t%f\n", h->xmax, h->xmax) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram QQ plot write failed");
+  if (fprintf(fp, "&\n")                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "histogram QQ plot write failed");
+
+  return eslOK;
+}
+
+
+
+/* Function:  esl_histogram_Goodness()
+ * Synopsis:  Evaluate fit between observed, expected. 
+ *
+ * Purpose:   Given a histogram <h> with observed and expected counts,
+ *            where, for the expected counts, <nfitted> ($\geq 0$)
+ *            parameters were fitted (and thus should be subtracted
+ *            from the degrees of freedom);
+ *            Perform a G-test and/or a $\chi^2$ test for goodness of 
+ *            fit between observed and expected, and optionally return
+ *            the number of bins the data were sorted into
+ *            (<ret_bins>), the G statistic and its probability (<ret_G> and
+ *            <ret_Gp>), and the $\chi^2$ statistic and its probability
+ *            (<ret_X2> and <ret_X2p>). 
+ *            
+ *            If a goodness-of-fit probability is less than some threshold
+ *            (usually taken to be 0.01 or 0.05), that is considered to
+ *            be evidence that the observed data are unlikely to be consistent
+ *            with the tested distribution.
+ *            
+ *            The two tests should give similar
+ *            probabilities. However, both tests are sensitive to
+ *            arbitrary choices in how the data are binned, and
+ *            neither seems to be on an entirely sound theoretical footing.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if expected counts have not been set in
+ *            the histogram; <eslERANGE> or <eslENOHALT> on different internal
+ *            errors that can arise in calculating the probabilities;
+ *            <eslEMEM> on internal allocation failure.
+ */
+int
+esl_histogram_Goodness(ESL_HISTOGRAM *h, 
+		       int nfitted, int *ret_nbins,
+		       double *ret_G,  double *ret_Gp,
+		       double *ret_X2, double *ret_X2p)
+{
+  uint64_t *obs  = NULL;	/* observed in bin i, [0..nb-1]   */
+  double   *exp  = NULL;	/* expected in bin i, [0..nb-1]   */
+  double   *topx = NULL;	/* all values in bin i <= topx[i] */
+  int      nb;			/* # of re-bins                   */
+  uint64_t minc;		/* minimum target # of counts/bin */
+  int      i,b;
+  double   G, Gp;
+  double   X2, X2p;
+  double   tmp;
+  int      status;
+  int      bbase;
+  uint64_t hmax;
+  uint64_t nobs;
+  double   nexp;
+
+  if (h->expect == NULL) ESL_EXCEPTION(eslEINVAL, "no expected counts in that histogram");
+
+  /* Determine the smallest histogram bin included in 
+   * the goodness of fit evaluation.
+   */
+  bbase = h->cmin;		
+  if (h->is_tailfit && h->emin > bbase) bbase = h->emin;
+  
+  /* How many observed total counts are in the evaluated range,
+   * and what is the maximum in any given histogram bin?
+   */
+  nobs = 0;
+  hmax = 0;
+  for (i = bbase; i <= h->imax; i++)
+    {
+      nobs += h->obs[i];
+      if (h->obs[i] > hmax) hmax = h->obs[i];
+    }
+
+  /* Figure out how many eval bins we'd like to have, then allocate
+   * for re-binning.
+   * Number of bins for goodness-of-fit tests like G and X^2 
+   * is crucial but arbitrary, unfortunately. Some literature suggests
+   * using 2*n^{0.4}, which gives:
+   *        n    nbins     #/bin
+   *    -----    ------   ------
+   *     1000      31       32
+   *    10000      79      127
+   *   100000     200      500
+   *  1000000     502     1992
+   *  
+   * The most important thing seems to be to get the # of counts
+   * in each bin to be roughly equal.
+   */
+  nb   = 2* (int) pow((double) nobs, 0.4); /* "desired" nb. */
+  minc = 1 + nobs / (2*nb);	/* arbitrarily set min = 1/2 of the target # */
+  ESL_ALLOC(obs,  sizeof(uint64_t) * (nb*2+1)); /* final nb must be <= 2*nb+1 */
+  ESL_ALLOC(exp,  sizeof(double)   * (nb*2+1));
+  ESL_ALLOC(topx, sizeof(double)   * (nb*2+1));
+
+  /* Determine the observed counts in each bin: that is, partition 
+   * the <sum> in the evaluated region.
+   * Sweep left to right on the histogram bins,
+   * collecting sum of counts, dropping the sum into the next re-bin 
+   * whenever we have more than <minc> counts.
+   */
+  nobs = 0;
+  nexp = 0.;
+  for (i = 0, b = bbase; b <= h->imax; b++) 
+    {
+      nobs += h->obs[b];
+      nexp += h->expect[b];
+
+      /* if we have enough counts, drop into bin i: */
+      if (nobs >= minc && nexp >= minc) {
+	ESL_DASSERT1( (i < (nb*2+1)) );
+	obs[i]  = nobs;
+	exp[i]  = nexp;
+	topx[i] = esl_histogram_Bin2UBound(h,b);
+	nobs = 0;
+	nexp = 0.;
+	i++;
+      }
+    }
+  obs[i-1]  += nobs;		/* add the right tail to final bin */
+  exp[i-1]  += nexp;
+  topx[i-1]  = esl_histogram_Bin2UBound(h, h->imax);
+  nb         = i;		/* nb is now actual # of bins, not target */
+
+  /* Calculate the X^2 statistic: \sum (obs_i - exp_i)^2 / exp_i */
+  X2 = 0.;
+  for (i = 0; i < nb; i++)
+    {
+      tmp = (double) obs[i] - exp[i];
+      X2 += tmp*tmp / exp[i];
+    }
+  /* X^2 is distributed approximately chi^2. */
+  if (nb-nfitted >= 0 && X2 != eslINFINITY)
+    {
+      status = esl_stats_ChiSquaredTest(nb-nfitted, X2, &X2p);
+      if (status != eslOK) return status;
+    }
+  else X2p = 0.;
+
+  /* The G test assumes that #exp=#obs (the X^2 test didn't).
+   * If that's not true, renormalize to make it so. 
+   */
+  nobs = 0;
+  nexp = 0.;
+  for (i = 0; i < nb; i++) 
+    {
+      nobs += obs[i];
+      nexp += exp[i];
+    }
+  for (i = 0; i < nb; i++)
+    exp[i] = exp[i] * (double) nobs / nexp;
+  
+  /* Calculate the G statistic: 2 * LLR  */
+  G = 0.;
+  for (i = 0; i < nb; i++)
+    G += (double) obs[i] * log ((double) obs[i] / exp[i]);
+  G *= 2;
+  
+  /* G is distributed approximately as \chi^2.
+   * -1 is because total #obs=#exp (which is must be)
+   */
+  ESL_DASSERT1( (G >= 0.));
+  if (nb-nfitted-1 >= 0 && G != eslINFINITY)
+    {
+      status = esl_stats_ChiSquaredTest(nb-nfitted-1, G, &Gp);
+      if (status != eslOK) return status;
+    }
+  else Gp = 0.;
+
+  if (ret_nbins != NULL) *ret_nbins = nb;
+  if (ret_G     != NULL) *ret_G     = G;
+  if (ret_Gp    != NULL) *ret_Gp    = Gp;
+  if (ret_X2    != NULL) *ret_X2    = X2;
+  if (ret_X2p   != NULL) *ret_X2p   = X2p;
+  free(obs);
+  free(exp);
+  free(topx);
+  return eslOK;
+
+ ERROR:
+  if (ret_nbins != NULL) *ret_nbins = 0;
+  if (ret_G     != NULL) *ret_G     = 0.;
+  if (ret_Gp    != NULL) *ret_Gp    = 0.;
+  if (ret_X2    != NULL) *ret_X2    = 0.;
+  if (ret_X2p   != NULL) *ret_X2p   = 0.;
+  if (obs  != NULL) free(obs);
+  if (exp  != NULL) free(exp);
+  if (topx != NULL) free(topx);
+  return status;
+}
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+#ifdef eslHISTOGRAM_TESTDRIVE
+/* compile: 
+ *   gcc -g -Wall -I. -L. -o test -DeslHISTOGRAM_TESTDRIVE esl_histogram.c -leasel -lm
+ * run:     
+ *   ./test -t1; ./test -t2; ./test -t3; ./test -t4; ./test -t5
+ *   
+ *   -t1    - complete data, fit to complete Gumbel\n\
+ *   -t2    - complete data, high scores fit as censored Gumbel\n\
+ *   -t3    - complete data, high scores fit to exponential tail\n\
+ *   -t4    - censored data, fit as censored Gumbel\n\
+ *   -t5    - complete data, binned, high scores fit to exponential tail\n\
+ *
+ * Some suggestions for manual testing:
+ *   ./test -t1 -j1 -v --surv test.xy; xmgrace test.xy          
+ *        examine survivor plot fit, for -t1 
+ *        do -t2 thru -t5 too
+ *
+ *   ./test -t1 --j1 -v -qq test.xy; xmgrace test.xy          
+ *        examine QQ plot fit, for -t1 
+ *        do -t2 thru -t5 too
+ *        
+ *   ./test -t1 -v > foo
+ *   grep "^Estimated" foo | awk '{print $9}' | sort -g > test.xy
+ *        Look for straight line fit to G-test p values.
+ *        sub $9->$13 for chi-squared
+ *        sub Estimated -> Parametric for the parametric fits
+ */
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_gumbel.h"
+#include "esl_exponential.h"
+#include "esl_random.h"
+#include "esl_getopts.h"
+
+
+
+static ESL_OPTIONS options[] = {
+  /* name         type      default   env_var   range   toggles     reqs   incompat */
+  { "-j",       eslARG_INT,   "100",  NULL,     "n>0",     NULL,  NULL,   NULL, "number of trials",                  0 },
+  { "-m",       eslARG_INT,     "0",  NULL,    "n>=0",     NULL,  NULL,   NULL, "number of test samples",            0 },
+  { "-n",       eslARG_INT, "10000",  NULL,     "n>0",     NULL,  NULL,   NULL, "number of training samples",        0 },
+  { "-t",       eslARG_INT,     "1",  NULL, "1<=n<=5",     NULL,  NULL,   NULL, "test type choice, 1-5",             0 },
+  { "-v",       eslARG_NONE,  FALSE,  NULL,      NULL,     NULL,  NULL,   NULL, "be verbose?",                       0 },
+  { "--ascii",  eslARG_STRING, NULL,  NULL,      NULL,     NULL,  NULL,   NULL, "output ASCII histogram to <f>",     0 },
+  { "--cmass",  eslARG_REAL,  "0.7",  NULL, "0<=x<=1",     NULL,  NULL,   NULL, "set virtual censoring mass to <x>", 0 },
+  { "--lambda", eslARG_REAL,  "0.8",  NULL,     "x>0",     NULL,  NULL,   NULL, "set Gumbel lambda param to <x>",    0 },
+  { "--mu",     eslARG_REAL, "10.0",  NULL,      NULL,     NULL,  NULL,   NULL, "set Gumbel mu param to <x>",        0 },
+  { "--phi",    eslARG_REAL, "10.0",  NULL,      NULL,     NULL,  NULL,   NULL, "set censoring threshold to <x>",    0 },
+  { "--plot",   eslARG_STRING, NULL,  NULL,      NULL,     NULL,  NULL,   NULL, "output histogram to xmgrace file <f>", 0 },
+  { "--qq",     eslARG_STRING, NULL,  NULL,      NULL,     NULL,  NULL,   NULL, "output Q-Q goodness of fit to xmgrace file <f>", 0 },
+  { "--surv",   eslARG_STRING, NULL,  NULL,      NULL,     NULL,  NULL,   NULL, "output survival plot to xmgrace file <f>", 0 },
+  { "--tail",   eslARG_REAL,  "0.1",  NULL, "0<=x<=1",     NULL,  NULL,   NULL, "set tail mass for fitting to <x>", 0 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static void
+binmacro_utest(void)
+{
+  char          *msg = "esl_histogram: binmacro unit test failure";
+  ESL_HISTOGRAM *h = esl_histogram_Create(-100, 100, 1.0);
+  double trialx[3]  = { -42.42, 0, 42.42 };
+  double x, ai, bi;  
+  int    i,b;
+
+  /* test bin<->score conversion macros.
+   */
+  for (i = 0; i < 3; i++)
+    {
+      x  = trialx[i];
+      esl_histogram_Score2Bin(h, x, &b);
+      ai = esl_histogram_Bin2LBound(h, b);
+      bi = esl_histogram_Bin2UBound(h, b);
+      if (x <= ai || x > bi) esl_fatal(msg);
+    }
+  esl_histogram_Destroy(h);
+  return;
+}
+
+static void
+valuerange_utest(void)
+{
+  char          *msg = "esl_histogram: value range unit test failure";
+  ESL_HISTOGRAM *h   = esl_histogram_Create(-100, 100, 1.0);
+  int            b;
+
+  esl_exception_SetHandler(&esl_nonfatal_handler);
+
+  if (esl_histogram_Score2Bin(h,  eslINFINITY, &b) != eslERANGE) esl_fatal(msg);
+  if (esl_histogram_Score2Bin(h, -eslINFINITY, &b) != eslERANGE) esl_fatal(msg);
+  if (esl_histogram_Score2Bin(h,  eslNaN,      &b) != eslERANGE) esl_fatal(msg);
+  if (esl_histogram_Score2Bin(h,  1e20,        &b) != eslERANGE) esl_fatal(msg);
+  if (esl_histogram_Score2Bin(h, -1e20,        &b) != eslERANGE) esl_fatal(msg);
+
+  esl_exception_ResetDefaultHandler();
+  esl_histogram_Destroy(h);
+  return;
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go;
+  ESL_RANDOMNESS *r;
+  ESL_HISTOGRAM  *h;
+  ESL_HISTOGRAM  *h1;
+  double          p[2];		/* parametric mu, lambda */
+  double          ep[2];	/* estimated mu, lambda  */
+  double          avg_ep[2];	/* average estimated mu, lambda over many trials */
+  int             ntrials, trial;
+  int             ntrain, ntest;
+  int             test_type;
+  enum { COLLECT_COMPLETE, COLLECT_CENSORED }   cstrategy;
+  enum { FIT_BINNED, FIT_SAMPLES }              bstrategy;
+  enum { FIT_COMPLETE, FIT_CENSORED, FIT_TAIL}  fstrategy;
+  double          phi;		/* censoring threshold   */
+  int             z;
+  double          cmass;
+  double          tailmass, save_tailmass;
+  int             nfitted;
+  int             nbins;
+  double          G, Gp, X2, X2p, minGp, minX2p;
+  int             verbose;
+  FILE           *outfp;
+  char           *ascfile, *plotfile, *survfile, *qqfile;
+  int     i;
+  double  x;
+  double *xv;
+  int     n;
+
+  go = esl_getopts_Create(options);
+  esl_opt_ProcessCmdline(go, argc, argv);
+  test_type     = esl_opt_GetInteger(go, "-t");
+  ntrials       = esl_opt_GetInteger(go, "-j");
+  ntrain        = esl_opt_GetInteger(go, "-n");
+  ntest         = esl_opt_GetInteger(go, "-m");
+  verbose       = esl_opt_GetBoolean(go, "-v");
+  cmass         = esl_opt_GetReal   (go, "--cmass");
+  p[1]          = esl_opt_GetReal   (go, "--lambda");
+  p[0]          = esl_opt_GetReal   (go, "--mu");
+  phi           = esl_opt_GetReal   (go, "--phi");
+  save_tailmass = esl_opt_GetReal   (go, "--tail");
+  ascfile       = esl_opt_GetString (go, "--ascii");
+  plotfile      = esl_opt_GetString (go, "--plot");
+  qqfile        = esl_opt_GetString (go, "--qq");
+  survfile      = esl_opt_GetString (go, "--surv");
+  esl_getopts_Destroy(go);
+
+  r         = esl_randomness_Create(42);
+  avg_ep[0] = 0.;
+  avg_ep[1] = 0.;
+  minGp     = 1.;
+  minX2p    = 1.;
+  tailmass  = save_tailmass;
+
+  if (test_type == 1)
+    {
+      cstrategy = COLLECT_COMPLETE;
+      bstrategy = FIT_SAMPLES;
+      fstrategy = FIT_COMPLETE;
+    }
+  else if (test_type == 2)
+    {
+      cstrategy = COLLECT_COMPLETE;
+      bstrategy = FIT_SAMPLES;
+      fstrategy = FIT_CENSORED;
+    }
+  else if (test_type == 3)
+    {
+      cstrategy = COLLECT_COMPLETE;
+      bstrategy = FIT_SAMPLES;
+      fstrategy = FIT_TAIL;
+    }
+  else if (test_type == 4)
+    {
+      cstrategy = COLLECT_CENSORED;
+      bstrategy = FIT_SAMPLES;
+      fstrategy = FIT_CENSORED;
+    }
+  else if (test_type == 5)
+    {
+      cstrategy = COLLECT_COMPLETE;
+      bstrategy = FIT_BINNED;
+      fstrategy = FIT_TAIL;
+    }
+
+
+  for (trial = 0; trial < ntrials; trial++)
+    {
+      /* Collection of the training data in <h>.
+       * Data set can either be complete, true censored, or virtual censored.
+       */
+      h = esl_histogram_CreateFull(-100, 100, 0.1);
+      z = 0;
+      for (i = 0; i < ntrain; i++) {
+	x = esl_gumbel_Sample(r, p[0], p[1]);
+	if (cstrategy != COLLECT_CENSORED || x > phi)
+	  esl_histogram_Add(h, x);
+	else
+	  z++;
+      }
+      if (cstrategy == COLLECT_CENSORED)
+	esl_histogram_DeclareCensoring(h, z, phi);
+
+      /* Parameter fitting.
+       * We test for four of twelve possible combinations of
+       * collection strategy, binned vs. raw data, and complete,
+       * censored, vs. tail fitting.
+       *   1. complete Gumbel data, raw, fit to a Gumbel.
+       *   2. complete Gumbel data, raw, tail fit as a censored Gumbel
+       *   3. complete Gumbel data, raw, tail fit to an exponential tail
+       *   4. censored Gumbel data, raw, censored fit to a Gumbel
+       *   5  complete Gumbel data, binned, fit to an exponential tail.
+       */
+      if (cstrategy == COLLECT_COMPLETE &&
+	  bstrategy == FIT_SAMPLES &&
+	  fstrategy == FIT_COMPLETE)
+	{
+	  esl_histogram_GetData(h, &xv, &n);
+	  esl_gumbel_FitComplete(xv, n, &(ep[0]), &ep[1]);
+	}
+      else if (cstrategy == COLLECT_COMPLETE &&
+	       bstrategy == FIT_SAMPLES &&
+	       fstrategy == FIT_CENSORED)
+	{
+	  esl_histogram_GetTailByMass(h, cmass, &xv, &n, &z);
+	  esl_gumbel_FitCensored(xv, n, z, xv[0], &(ep[0]), &ep[1]);
+	}
+      else if (cstrategy == COLLECT_COMPLETE &&
+	       bstrategy == FIT_SAMPLES &&
+	       fstrategy == FIT_TAIL)
+	{
+	  esl_histogram_GetTailByMass(h, tailmass, &xv, &n, &z);
+	  esl_exp_FitComplete(xv, n, &(ep[0]), &ep[1]);
+	}
+      else if (cstrategy == COLLECT_CENSORED &&
+	       bstrategy == FIT_SAMPLES &&
+	       fstrategy == FIT_CENSORED)
+	{
+	  esl_histogram_GetData(h, &xv, &n);
+	  esl_gumbel_FitCensored(xv, n, h->z, h->phi, &(ep[0]), &ep[1]);
+	}
+      else if (cstrategy == COLLECT_COMPLETE &&
+	       bstrategy == FIT_BINNED &&
+	       fstrategy == FIT_TAIL)
+	{
+	  tailmass = save_tailmass; /* reset to original for each trial. */
+	  esl_histogram_SetTailByMass(h, tailmass, &tailmass);
+	  esl_exp_FitCompleteBinned(h, &(ep[0]), &ep[1]);
+	}
+      else
+	ESL_EXCEPTION(eslEINVAL, "not a scenario we currently test");
+
+      /* Keep track of average estimated mu, lambda
+       * for automated testing purposes.
+       */
+      avg_ep[0] += ep[0] / (double) ntrials;
+      avg_ep[1] += ep[1] / (double) ntrials;
+
+      /* Test data can either be the same as the training data,
+       * or a new test set.
+       */
+      if (ntest > 0)
+	{
+	  h1 = esl_histogram_CreateFull(-100.05, 100.05, 0.2);
+	  z = 0;
+	  for (i = 0; i < ntest; i++) {
+	    x = esl_gumbel_Sample(r, p[0], p[1]);
+	    if (cstrategy != COLLECT_CENSORED || x > phi)
+	      esl_histogram_Add(h1, x);
+	    else
+	      z++;
+	  }
+	  if (cstrategy == COLLECT_CENSORED)
+	    esl_histogram_DeclareCensoring(h, z, phi);
+	}
+      else h1 = h;
+      
+
+      /* Set expected binned counts in the test data, h1:
+       */
+      if (fstrategy == FIT_TAIL)
+	esl_histogram_SetExpectedTail(h1, ep[0], tailmass, 
+				      &esl_exp_generic_cdf, ep);
+      else
+	esl_histogram_SetExpect(h1, &esl_gumbel_generic_cdf, ep);
+
+  
+      /* Evaluate goodness-of-fit
+       */
+      nfitted =  (ntest == 0)? 2 : 0;
+      esl_histogram_Goodness(h1, nfitted, &nbins, &G, &Gp, &X2, &X2p);
+
+      /* Track minimum goodness of fit probs, for automated testing
+       */
+      if (Gp  < minGp)  minGp  = Gp;
+      if (X2p < minX2p) minX2p = X2p;
+
+      if (verbose)
+	printf("Estimated:  %6.2f %6.4f nb %4d G %g\tGp %g\tX2 %g\tX2p %g\n",
+	       ep[0], ep[1], nbins, G, Gp, X2, X2p);
+
+      /* Output files, if requested.
+       * (Best if ntrials=1. Will overwrite previous trials.)
+       */
+      if (ascfile != NULL)
+	{
+	  outfp = fopen(ascfile, "w");
+	  esl_histogram_Write(outfp, h1);
+	  fclose(outfp);
+	}
+      if (plotfile != NULL)
+	{
+	  outfp = fopen(plotfile, "w");
+	  esl_histogram_Plot(outfp,  h1);
+	  fclose(outfp);
+	}
+      if (survfile != NULL)  
+	{
+	  outfp = fopen(survfile, "w");
+	  esl_histogram_PlotSurvival(outfp,  h1);
+	  fclose(outfp);
+	}
+      if (qqfile != NULL)
+	{
+	  outfp = fopen(qqfile, "w");
+	  if (fstrategy == FIT_TAIL)
+	    esl_histogram_PlotQQ(outfp, h1, &esl_exp_generic_invcdf, ep);
+	  else
+	    esl_histogram_PlotQQ(outfp, h1, &esl_gumbel_generic_invcdf, ep);
+	  fclose(outfp);
+	}
+
+      esl_histogram_Destroy(h);
+      if (ntest > 0) esl_histogram_Destroy(h1);
+    }
+
+  /* Trap badness in an automated test.
+   */
+  if (fstrategy != FIT_TAIL && fabs(avg_ep[0] - p[0]) > 0.1)
+    ESL_EXCEPTION(eslFAIL, "Something awry with Gumbel mu fit");
+  if (fabs(avg_ep[1] - p[1]) > 0.1)
+    ESL_EXCEPTION(eslFAIL, "Something awry with lambda fit");
+ if (minGp < 1. / (1000. * ntrials))
+    ESL_EXCEPTION(eslFAIL, "Something awry with G-test");
+  if (minX2p < 1. / (1000. * ntrials))
+    ESL_EXCEPTION(eslFAIL, "Something awry with chi squared test");
+
+  /* Smaller final tests
+   */
+  binmacro_utest();
+  valuerange_utest();
+  
+  esl_randomness_Destroy(r);
+  return 0;
+}
+#endif /*eslHISTOGRAM_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 7. Examples
+ *****************************************************************/
+
+/*****************************************************************
+ * Five example main()'s for five use cases:
+ *    - complete data, fit to complete Gumbel
+ *    - complete data, high scores fit as censored Gumbel
+ *    - complete data, high scores fit to exponential tail
+ *    - censored data, fit as censored Gumbel
+ *    - complete data, binned, high scores fit to exponential tail
+ *
+ * (These same five cases are tested by ./test -t1 through ./test -t5.)
+ *****************************************************************/
+/* Case 1. Complete data fit to complete Gumbel.
+ * compile: gcc -I. -L. -o example -DeslHISTOGRAM_EXAMPLE esl_histogram.c -leasel -lm
+ * run:     ./example 
+ */
+#ifdef eslHISTOGRAM_EXAMPLE
+/*::cexcerpt::histogram_example::begin::*/
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gumbel.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r  = esl_randomness_Create(0);
+  ESL_HISTOGRAM  *h  = esl_histogram_CreateFull(-100, 100, 0.2);
+  int     nsamples    = 10000;
+  double  mu          = 10.0;
+  double  lambda      = 0.8;
+  double  params[2];
+  int     i;
+  double  x;
+  double *xv;
+  int     n;
+  double  G, Gp, X2, X2p;
+
+  for (i = 0; i < nsamples; i++) {
+    x = esl_gumbel_Sample(r, mu, lambda);
+    esl_histogram_Add(h, x);
+  }
+
+  esl_histogram_GetData(h, &xv, &n);
+  esl_gumbel_FitComplete(xv, n, &mu, &lambda);
+
+  params[0] = mu;
+  params[1] = lambda;
+  esl_histogram_SetExpect(h, &esl_gumbel_generic_cdf, &params);
+
+  esl_histogram_Write(stdout, h);
+  esl_histogram_Goodness(h, 0, NULL, &G, &Gp, &X2, &X2p);
+  printf("G   = %f  p = %f\n", G, Gp);
+  printf("X^2 = %f  p = %f\n", X2, X2p);
+
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::histogram_example::end::*/
+#endif /*eslHISTOGRAM_EXAMPLE*/
+
+
+
+/* Case 2. complete data, high scores fit as censored Gumbel 
+ * compile: gcc -I. -L. -o example -DeslHISTOGRAM_EXAMPLE2 esl_histogram.c -leasel -lm
+ * run:     ./example 
+ */
+#ifdef eslHISTOGRAM_EXAMPLE2
+/*::cexcerpt::histogram_example2::begin::*/
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gumbel.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r  = esl_randomness_Create(0);
+  ESL_HISTOGRAM  *h  = esl_histogram_CreateFull(-100, 100, 0.2);
+  int     nsamples    = 10000;
+  double  mu          = 10.0;
+  double  lambda      = 0.8;
+  double  params[2];
+  int     i;
+  double  x;
+  double *xv;
+  int     n, z;
+  double  G, Gp, X2, X2p;
+
+  for (i = 0; i < nsamples; i++) {
+    x = esl_gumbel_Sample(r, mu, lambda);
+    esl_histogram_Add(h, x);
+  }
+
+  esl_histogram_GetTailByMass(h, 0.5, &xv, &n, &z); /* fit to right 50% */
+  esl_gumbel_FitCensored(xv, n, z, xv[0], &mu, &lambda);
+
+  params[0] = mu;
+  params[1] = lambda;
+  esl_histogram_SetExpect(h, &esl_gumbel_generic_cdf, &params);
+
+  esl_histogram_Write(stdout, h);
+  esl_histogram_Goodness(h, 0, NULL, &G, &Gp, &X2, &X2p);
+  printf("G   = %f  p = %f\n", G, Gp);
+  printf("X^2 = %f  p = %f\n", X2, X2p);
+
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::histogram_example2::end::*/
+#endif /*eslHISTOGRAM_EXAMPLE2*/
+
+
+/* Case 3. complete data, high scores fit to exponential tail
+ * compile: gcc -I. -L. -o example -DeslHISTOGRAM_EXAMPLE3 esl_histogram.c -leasel -lm
+ * run:     ./example 
+ */
+#ifdef eslHISTOGRAM_EXAMPLE3
+/*::cexcerpt::histogram_example3::begin::*/
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gumbel.h"
+#include "esl_exponential.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r  = esl_randomness_Create(0);
+  ESL_HISTOGRAM  *h  = esl_histogram_CreateFull(-100, 100, 0.2);
+  int     nsamples    = 10000;
+  double  mu          = 10.0;
+  double  lambda      = 0.8;
+  double  params[2];
+  int     i;
+  double  x;
+  double *xv;
+  int     n;
+  double  G, Gp, X2, X2p;
+
+  for (i = 0; i < nsamples; i++) {
+    x = esl_gumbel_Sample(r, mu, lambda);
+    esl_histogram_Add(h, x);
+  }
+
+  esl_histogram_GetTailByMass(h, 0.1, &xv, &n, NULL); /* fit to 10% tail */
+  esl_exp_FitComplete(xv, n, &mu, &lambda);
+
+  params[0] = mu;
+  params[1] = lambda;
+  esl_histogram_SetExpectedTail(h, mu, 0.1, &esl_exp_generic_cdf, &params);
+
+  esl_histogram_Write(stdout, h);
+  esl_histogram_Goodness(h, 0, NULL, &G, &Gp, &X2, &X2p);
+  printf("G   = %f  p = %f\n", G, Gp);
+  printf("X^2 = %f  p = %f\n", X2, X2p);
+
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::histogram_example3::end::*/
+#endif /*eslHISTOGRAM_EXAMPLE3*/
+
+/* Case 4. censored data, high scores fit as a censored Gumbel tail
+ * compile: 
+     gcc -I. -L. -o example -DeslHISTOGRAM_EXAMPLE4 esl_histogram.c -leasel -lm
+ * run:     ./example 
+ */
+#ifdef eslHISTOGRAM_EXAMPLE4
+/*::cexcerpt::histogram_example4::begin::*/
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gumbel.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r  = esl_randomness_Create(0);
+  ESL_HISTOGRAM  *h  = esl_histogram_CreateFull(-100, 100, 0.2);
+  int     nsamples    = 10000;
+  double  mu          = 10.0;
+  double  lambda      = 0.8;
+  double  phi         = 9.0;
+  double  params[2];
+  int     i;
+  double  x;
+  double *xv;
+  int     n, z;
+  double  G, Gp, X2, X2p;
+
+  z = 0;
+  for (i = 0; i < nsamples; i++) {
+    x = esl_gumbel_Sample(r, mu, lambda);
+    if (x > phi) esl_histogram_Add(h, x);
+    else         z++;
+  }
+
+  esl_histogram_GetData(h, &xv, &n);
+  esl_gumbel_FitCensored(xv, n, z, phi, &mu, &lambda);
+
+  params[0] = mu;
+  params[1] = lambda;
+  esl_histogram_SetExpect(h, &esl_gumbel_generic_cdf, &params);
+
+  esl_histogram_Write(stdout, h);
+  esl_histogram_Goodness(h, 0, NULL, &G, &Gp, &X2, &X2p);
+  printf("G   = %f  p = %f\n", G, Gp);
+  printf("X^2 = %f  p = %f\n", X2, X2p);
+
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::histogram_example4::end::*/
+#endif /*eslHISTOGRAM_EXAMPLE4*/
+
+/* Case 5. complete data, binned high scores fit to exponential tail
+ * compile:
+     gcc -I. -L. -o example -DeslHISTOGRAM_EXAMPLE5 esl_histogram.c -leasel -lm
+ * run:     ./example 
+ */
+#ifdef eslHISTOGRAM_EXAMPLE5
+/*::cexcerpt::histogram_example5::begin::*/
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_gumbel.h"
+#include "esl_exponential.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r  = esl_randomness_Create(0);
+  ESL_HISTOGRAM  *h  = esl_histogram_Create(-100, 100, 1.0);
+  int     nsamples    = 10000;
+  double  mu          = 10.0;
+  double  lambda      = 0.8;
+  double  params[2];
+  int     i;
+  double  x;
+  double  actual_mass;
+  double  G, Gp, X2, X2p;
+
+  for (i = 0; i < nsamples; i++) {
+    x = esl_gumbel_Sample(r, mu, lambda);
+    x = ceil(x);      /* crudely simulate an x of limited precision */
+    esl_histogram_Add(h, x);
+  }
+
+  esl_histogram_SetTailByMass(h, 0.1, &actual_mass);
+  esl_histogram_DeclareRounding(h);
+  esl_exp_FitCompleteBinned(h, &mu, &lambda);
+
+  params[0] = mu;
+  params[1] = lambda;
+  esl_histogram_SetExpectedTail(h, mu, actual_mass, &esl_exp_generic_cdf, &params);
+
+  esl_histogram_Write(stdout, h);
+  esl_histogram_Goodness(h, 0, NULL, &G, &Gp, &X2, &X2p);
+  printf("G   = %f  p = %f\n", G, Gp);
+  printf("X^2 = %f  p = %f\n", X2, X2p);
+
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::histogram_example5::end::*/
+#endif /*eslHISTOGRAM_EXAMPLE5*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_histogram.c 841 2013-01-02 09:52:58Z rivase $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_histogram.c $
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.h
new file mode 100755
index 0000000..6a55fa5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.h
@@ -0,0 +1,136 @@
+/* Collection and display of score histograms.
+ * 
+ * SRE, Fri Jul  1 13:22:45 2005 [St. Louis]
+ * SVN $Id: esl_histogram.h 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_histogram.h $
+ */
+#ifndef eslHISTOGRAM_INCLUDED
+#define eslHISTOGRAM_INCLUDED
+
+#include <math.h>   /* floor() is in one of the macros */
+
+
+/* Structure: ESL_HISTOGRAM
+ * 
+ * Keeps a score histogram, in which scores are counted into bins of
+ * size (width) w. 
+ *   histogram starts at bmin <  floor(xmin/w) * w
+ *   histogram ends at   bmax >= ceil(xmax/w)*w
+ *   nb = (bmax-bmin)/w
+ *   each score x is counted into bin b = nb - (int) (bmax-x)/w
+ *   each bin b contains scores bw+bmin < x <= (b+1)w + bmin
+ * 
+ * Anything having to do with the counts themselves (obs, n, etc)
+ * is a uint64_t, with range 0..2^64-1  (up to 2e19).
+ */  
+typedef struct {
+  /* The histogram is kept as counts in fixed-width bins.
+   */
+  uint64_t *obs;	/* observed counts in bin b, 0..nb-1 (dynamic)      */
+  int       nb;         /* number of bins                                   */
+  double    w;		/* fixed width of each bin                          */
+  double    bmin, bmax;	/* histogram bounds: all x satisfy bmin < x <= bmax */
+  int       imin, imax;	/* smallest, largest bin that contain obs[i] > 0    */
+
+  /* Optionally, in a "full" h, we can also keep all the raw samples in x.
+   */
+  double    xmin, xmax;	/* smallest, largest sample value x observed        */
+  uint64_t  n;          /* total number of raw data samples                 */
+  double   *x;		/* optional: raw sample values x[0..n-1]            */
+  uint64_t  nalloc;	/* current allocated size of x                      */
+
+  /* The binned data might be censored (either truly, or virtually).
+   * This information has to be made available to a binned/censored
+   * parameter fitting function, and to goodness-of-fit tests.
+   */
+  double   phi;		/* censoring value; all x_i > phi                   */
+  int      cmin;	/* smallest bin index that contains uncensored data */
+  uint64_t z;		/* # of censored values <= phi                      */
+  uint64_t Nc;	        /* # samples in complete data (including unobs)     */
+  uint64_t No;		/* # of samples in observed data                    */
+
+  /* Expected binned counts are set by SetExpect() or SetExpectedTail().
+   */
+  double *expect;	/* expected counts in bin b, 0..nb-1 (not resized)  */
+  int     emin;		/* smallest bin index that contains expected counts */
+  double  tailbase;	/* for tail fits: fitted x > tailbase               */
+  double  tailmass;	/* for tail fits: fractional prob in the tail       */
+
+  /* Some status flags
+   */
+  int is_full;		/* TRUE when we're keeping raw data in x           */
+  int is_done;		/* TRUE if we prevent more Add()'s                 */
+  int is_sorted;	/* TRUE if x is sorted smallest-to-largest         */
+  int is_tailfit;	/* TRUE if expected dist only describes tail       */
+  int is_rounded;	/* TRUE if values aren't more accurate than bins   */
+  enum { COMPLETE, VIRTUAL_CENSORED, TRUE_CENSORED } dataset_is; 
+
+} ESL_HISTOGRAM;
+
+#define esl_histogram_Bin2LBound(h,b)  ((h)->w*(b) + (h)->bmin)
+#define esl_histogram_Bin2UBound(h,b)  ((h)->w*((b)+1) + (h)->bmin)
+
+/* Creating/destroying histograms and collecting data:
+ */
+extern ESL_HISTOGRAM *esl_histogram_Create    (double bmin, double bmax, double w);
+extern ESL_HISTOGRAM *esl_histogram_CreateFull(double bmin, double bmax, double w);
+extern void           esl_histogram_Destroy  (ESL_HISTOGRAM *h);
+extern int            esl_histogram_Score2Bin(ESL_HISTOGRAM *h, double x, int *ret_b);
+extern int            esl_histogram_Add      (ESL_HISTOGRAM *h, double x);
+
+/* Declarations about the binned data before parameter fitting:
+ */
+extern int esl_histogram_DeclareCensoring(ESL_HISTOGRAM *h, int z, double phi);
+extern int esl_histogram_DeclareRounding (ESL_HISTOGRAM *h);
+extern int esl_histogram_SetTail         (ESL_HISTOGRAM *h, double phi,   
+					  double *ret_newmass);
+extern int esl_histogram_SetTailByMass   (ESL_HISTOGRAM *h, double pmass,
+					  double *ret_newmass);
+
+/* Accessing data samples in a full histogram:
+ */
+extern int esl_histogram_GetRank(ESL_HISTOGRAM *h, int rank, double *ret_x);
+extern int esl_histogram_GetData(ESL_HISTOGRAM *h, double **ret_x, int *ret_n);
+extern int esl_histogram_GetTail(ESL_HISTOGRAM *h, double phi, double **ret_x,
+				 int *ret_n, int *ret_z);
+extern int esl_histogram_GetTailByMass(ESL_HISTOGRAM *h, double pmass, 
+				       double **ret_x, int *ret_n, int *ret_z);
+
+
+/* Setting expected binned counts:
+ */
+extern int esl_histogram_SetExpect(ESL_HISTOGRAM *h, 
+				   double (*cdf)(double x, void *params),
+				   void *params);
+extern int esl_histogram_SetExpectedTail(ESL_HISTOGRAM *h, double base_val,
+				double pmass,
+				double (*cdf)(double x, void *params), 
+ 			        void *params);
+
+/* Output/display of binned data:
+ */
+extern int esl_histogram_Write       (FILE *fp, ESL_HISTOGRAM *h);
+extern int esl_histogram_Plot        (FILE *fp, ESL_HISTOGRAM *h);
+extern int esl_histogram_PlotSurvival(FILE *fp, ESL_HISTOGRAM *h);
+extern int esl_histogram_PlotQQ      (FILE *fp, ESL_HISTOGRAM *h, 
+			      double (*invcdf)(double, void *), void *params);
+
+/* Goodness of fit testing
+ */
+extern int esl_histogram_Goodness(ESL_HISTOGRAM *h, int nfitted, 
+				  int *ret_nbins,
+				  double *ret_G,  double *ret_Gp,
+				  double *ret_X2, double *ret_X2p);
+
+
+
+#endif /*eslHISTOGRAM_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.tex
new file mode 100755
index 0000000..d8e39d3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_histogram.tex
@@ -0,0 +1,299 @@
+
+The \eslmod{histogram} module is for collecting scores, fitting
+them to expected distributions, and displaying them.
+
+The histogram automatically reallocates its bins as data points
+arrive, so the caller only needs to provide some initial guidance
+about bin size and ``phase'' (offset of the bins relative to the real
+number line).  It accumulates counts in 64-bit unsigned integers, so
+it can handle over $10^19$ total counts.  Optionally (and provided
+that the caller knows it has enough memory to support this), a
+``full'' histogram can be created and used to collect a sorted vector
+of raw (unbinned) values.
+
+Various different ways of fitting histogram data to different sorts of
+expected distributions are supported, with interfaces to all of
+Easel's statistical distribution modules. Data fitting is oriented
+toward the case where the values are scores, with high scores being of
+the most interest; for instance, routines for obtaining and fitting
+the right (high-scoring) tail are provided, but not for the left tail.
+
+Several of the output functions output data as XY data files suitable
+for input into the popular and freely available \prog{xmgrace}
+graphing program [\url{http://plasma-gate.weizmann.ac.il/Grace/}].
+
+The API for the \eslmod{histogram} module is summarized in
+Table~\ref{tbl:histogram_api}.
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+    \apisubhead{Collecting data in an \ccode{ESL\_HISTOGRAM}}\\
+\hyperlink{func:esl_histogram_Create()}{\ccode{esl\_histogram\_Create()}} & Create a new \ccode{ESL\_HISTOGRAM}.\\
+\hyperlink{func:esl_histogram_CreateFull()}{\ccode{esl\_histogram\_CreateFull()}} & A \ccode{ESL\_HISTOGRAM} to keep all data samples.\\
+\hyperlink{func:esl_histogram_Destroy()}{\ccode{esl\_histogram\_Destroy()}} & Frees a \ccode{ESL\_HISTOGRAM}.\\
+\hyperlink{func:esl_histogram_Add()}{\ccode{esl\_histogram\_Add()}} & Add a sample to the histogram.\\
+    \apisubhead{Declarations about binned data, before fitting}\\
+\hyperlink{func:esl_histogram_DeclareCensoring()}{\ccode{esl\_histogram\_DeclareCensoring()}} & Collected data were left-censored.\\
+\hyperlink{func:esl_histogram_DeclareRounding()}{\ccode{esl\_histogram\_DeclareRounding()}} & Declare collected data were no more accurate than bins.\\
+\hyperlink{func:esl_histogram_SetTail()}{\ccode{esl\_histogram\_SetTail()}} & Declare only tail $>$ some threshold is considered "observed".\\
+\hyperlink{func:esl_histogram_SetTailByMass()}{\ccode{esl\_histogram\_SetTailByMass()}} & Declare only right tail mass is considered "observed".\\
+    \apisubhead{Accessing raw data samples}\\
+\hyperlink{func:esl_histogram_GetRank()}{\ccode{esl\_histogram\_GetRank()}} & Retrieve n'th high score.\\
+\hyperlink{func:esl_histogram_GetData()}{\ccode{esl\_histogram\_GetData()}} & Retrieve vector of all raw scores.\\
+\hyperlink{func:esl_histogram_GetTail()}{\ccode{esl\_histogram\_GetTail()}} & Retrieve all raw scores above some threshold.\\
+\hyperlink{func:esl_histogram_GetTailByMass()}{\ccode{esl\_histogram\_GetTailByMass()}} & Retrieve all raw scores in right tail mass.\\
+    \apisubhead{Setting expected counts}\\
+\hyperlink{func:esl_histogram_SetExpect()}{\ccode{esl\_histogram\_SetExpect()}} & Set expected counts for complete distribution.\\
+\hyperlink{func:esl_histogram_SetExpectedTail()}{\ccode{esl\_histogram\_SetExpectedTail()}} & Set expected counts for right tail.\\
+    \apisubhead{Output}\\
+\hyperlink{func:esl_histogram_Write()}{\ccode{esl\_histogram\_Write()}} & Print a "pretty" ASCII histogram.\\
+\hyperlink{func:esl_histogram_Plot()}{\ccode{esl\_histogram\_Plot()}} & Output a histogram in xmgrace XY format.\\
+\hyperlink{func:esl_histogram_PlotSurvival()}{\ccode{esl\_histogram\_PlotSurvival()}} & Output $P(X>x)$ in xmgrace XY format.\\
+\hyperlink{func:esl_histogram_PlotQQ()}{\ccode{esl\_histogram\_PlotQQ()}} & Output a Q-Q plot in xmgrace XY format.\\
+\hyperlink{func:esl_histogram_Goodness()}{\ccode{esl\_histogram\_Goodness()}} & Evaluate fit between observed, expected. \\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{histogram} API.}
+\label{tbl:histogram_api}
+\end{table}
+
+\subsection{Example of using the histogram API}
+
+The example code below stores 10,000 samples from a Gumbel
+distribution in a histogram, retrieves a vector containing the sorted
+samples, fits a Gumbel distribution to that dataset, sets the expected
+counts in the histogram, prints the observed and expected counts in an
+ASCII histogram, and evaluates the goodness-of-fit.
+
+\input{cexcerpts/histogram_example}
+
+Some points of interest:
+
+\begin{itemize}
+\item When the histogram is created, the arguments \ccode(-100, 100, 0.5)
+      tell it to bin data into bins of width 0.5, initially
+      starting at -100 and ending at 100. This initialization
+      is described below (see ``Specifying binning of data values'').
+
+\item Samples are collected one at a time with
+  \ccode{esl\_histogram\_Add()}.
+
+\item After the data have been collected in a \emph{full} histogram, a
+   vector of sorted raw data values can be retrieved using functions
+   like \ccode{esl\_histogram\_GetData()}, and used to fit parameters
+   of an expected distribution to the data.
+
+\item In addition to the observed binned counts, you can optionally
+   set \emph{expected} binned counts in the histogram by calling
+   \ccode{esl\_histogram\_SetExpect()} and providing pointers
+   to an appropriate distribution function and its parameters.
+
+\item The \ccode{esl\_histogram\_Print()} function shows an ASCII text
+   representation of the observed counts (and expected counts, if set)
+   that looks a lot like FASTA's nice histogram output.
+
+\item The \ccode{esl\_histogram\_Goodness()} function compares the
+   observed and expected binned counts, and calculates two goodness of
+   fit tests: a G-test, and a $\chi^2$ test.
+\end{itemize}
+
+
+\subsection{Specifying binning of data values}
+
+The histogram collects data values into bins. When the histogram is
+created, the bin width and the relative offset of the bins is
+permanently set, and an initial range is allocated. 
+
+For example, the call \ccode{esl\_histogram\_Create(-10, 10, 0.5)}
+creates 40 bins of width 0.5 from -10 to 10, with the first bin
+collecting scores from $-10 < x \leq -9.5$, and the last bin
+collecting scores $9.5 < x \leq 10.0$.
+
+The lower bound of the initialization permanently sets the relative
+offset of the bins. That is, \ccode{esl\_histogram\_Create(-10, 10,
+0.5)} makes the first bin $-10 < x \leq -9.5$, whereas
+\ccode{esl\_histogram\_Create(-10.1, 9.9, 0.5)} makes the first bin
+$-10.1 < x \leq -9.6$.
+
+Aside from that, the initial range is only a suggestion. You can add
+any real-valued $x$ to the histogram. The histogram will silently
+reallocate itself to a wider range as needed.  The ability of a
+histogram to store data is effectively unlimited. Up to $2^{64}-1$
+(more than $10^{19}$) counts can be collected. The histogram requires 16
+bytes of storage per bin, and the number of bins it allocates scales
+as $x_{\mbox{max}} - x_{\mbox{min}} / w$.
+
+\subsection{Optional collection of raw data values: full histograms}
+
+Normally a histogram would store only binned counts, so it can
+efficiently summarize even very large numbers of samples.
+
+In some cases it is useful to keep a list of the raw data values --
+for instance, for more accurate parameter fitting to expected
+distributions. This can be done by creating a ``full'' histogram with
+\ccode{esl\_histogram\_CreateFull()} instead of
+\ccode{esl\_histogram\_Create()}. (The example code above did this,
+because it did parameter fitting to the raw data.) After data have
+been collected in a full histogram, individual raw values or pointers
+to sorted arrays of raw values can be retrieved using the
+\ccode{esl\_histogram\_Get*} functions.
+
+A full histogram may require much more memory: about 4 bytes per data
+point. You may not want to use full histograms if your problem
+involves collecting many ($> 10^9$, say) data points.
+
+
+
+\subsection{Different parameter fitting scenarios}
+
+By default, the data you collect are assumed to be \emph{complete}.
+You observed all samples; if you fit to any expected distribution, the
+expected distribution is assumed to describe the complete data; the
+parameters of the expected distribution are to be fitted to an array
+of the complete raw data samples; and any goodness of fit test is to
+be applied to the complete data. This is the simplest, most obvious
+case.
+
+Other situations may arise. In addition to complete data, Easel is
+designed to deal with four other cases:
+
+\begin{enumerate}
+\item The collected data are complete, and they are fit to a
+      distribution that describes the complete data, but parameter
+      fitting is done only in the right (highest-scoring) tail. This
+      makes parameter fitting focus on the most important,
+      high-scoring region of a score distribution, and ignore
+      low-scoring outliers.
+
+\item The collected data are complete, but they are fit to a
+      distribution that only describes the right (highest scoring)
+      tail, and the goodness-of-fit test is only performed on that
+      tail. This case arises when we don't know the form of the
+      expected distribution for the complete data, but the tail
+      follows a predictable decay (an exponential tail, for example).
+
+\item The collected data are left-censored such that no values $<
+      \phi$ were recorded in the histogram, but the data are fit to a
+      complete distribution that predicts the probability even of the
+      censored (unobserved) values. Goodness of fit is only evaluated
+      in the observed data. (This case is what is actually meant by
+      left-censored data.)
+
+\item The high-scoring right tail of the collected data are fit as the
+      \emph{binned} counts in the histogram (not raw sample values) to
+      a distribution that describes the tail, such as an
+      exponential. This case becomes useful when the raw data values
+      have limited precision (because of rounding, for example), which
+      can cause numerical problems with parameter fitting to tails.
+      Another case where this is useful is when there are so many data
+      points that the data must be binned just as a matter of
+      practicality (not enough memory to hold a full histogram).
+\end{enumerate}
+
+A variety of other situations can be dealt with by using different
+combinations of the function calls that deal with these four cases.
+
+
+\subsubsection{Focusing parameter fitting on the highest scores}
+
+An example of focusing a Gumbel parameter fit on the right half of an
+observed distribution:
+
+\input{cexcerpts/histogram_example2}
+
+The key differences from the complete data case are:
+
+\begin{itemize}
+\item Only the high-scoring 50\% of the data samples are
+      retrieved, by calling 
+      \ccode{esl\_histogram\_GetTailByMass(h, 0.5, \&xv, \&n, \&z)}.
+      This returns \ccode{z}, the number of samples that 
+      were \emph{censored}.
+
+\item These data are fit to a Gumbel distribution
+      as a \emph{left-censored} dataset by calling
+      \ccode{esl\_gumbel\_FitCensored(xv, n, z, xv[0], \&mu, \&lambda)}.
+\end{itemize}
+
+The expected counts and the goodness of fit tests are still evaluated
+for the complete data, even though the fit was performed only on the
+highest scores.
+
+
+\subsubsection{Fitting to a tail distribution}
+
+An example of fitting an exponential tail to the high-scoring 10\% of
+a Gumbel-distributed dataset:
+
+\input{cexcerpts/histogram_example3}
+
+The differences to note are:
+
+\begin{itemize}
+\item The tail is fit as if it is \emph{complete} data as far
+      as the exponential distribution is concerned.
+
+\item As a result, to use the exponential tail to predict expected
+      data, we have to keep in mind how much probability mass the tail
+      is supposed to predict (here, 10\%), and that
+      is provided to
+      \ccode{esl\_histogram\_SetExpectedTail()}, which specifically
+      calculates expected counts for a tail.
+\end{itemize}
+
+\subsubsection{Fitting left-censored data}
+
+Fitting a Gumbel distribution to data that are \emph{truly} left
+censored looks a lot like the case where we extracted the high scoring
+data for a censored fit:
+
+\input{cexcerpts/histogram_example4}
+
+\subsubsection{Fitting binned data to a tail distribution}
+
+Normally, you want to fit parameters to the actual individual data
+samples, not to binned data, because you'll get more accurate results.
+An exception can arise when the data samples have limited precision
+because they've been rounded off. Most distributions are not sensitive
+to this, but some tail densities are, especially those with
+singularities ($P(X=x) \rightarrow \infty$) at their origin. In such a
+case, a fit to binned data may be superior, especially if you can
+match the histogram's bins to the rounding procedure that was used.
+
+The following code shows an example of fitting for samples that were
+already rounded up to the nearest integer before adding them to the
+histogram:
+
+\input{cexcerpts/histogram_example5}
+
+Issues to note:
+
+\begin{itemize}
+\item The \ccode{esl\_histogram\_Create(-100, 100, 1.0)} call
+      defined bins that exactly match the rounding procedure
+      defined by \ccode{ceil(x)} -- all $x$ that are rounded
+      to the same value by \ccode{ceil(x)} would also go in
+      the same bin of the histogram.
+
+\item The \ccode{esl\_histogram\_SetTailByMass()} function sets flags
+      in the histogram to demarcate the desired tail.  However,
+      because the data have been binned, and we can only define the
+      tail by a range of bins, it will generally be impossible to
+      match the requested tail mass with adequate accuracy; the actual
+      tail mass is $\geq$ the requested tail mass. It is returned
+      to the caller, and it is the actual mass, not the requested mass,
+      that should be used when setting expected counts.
+
+\item The \ccode{esl\_histogram\_SetRounding()} declaration
+      sets a flag in the histogram that tells binned parameter
+      fitting functions that the origin of the fitted
+      density ($\mu$) should be set at the lower bound of the smallest bin,
+      rather than the smallest raw data value observed in that 
+      bin. 
+\end{itemize}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hmm.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hmm.c
new file mode 100755
index 0000000..8238524
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hmm.c
@@ -0,0 +1,817 @@
+/* General hidden Markov models (discrete, of alphabetic strings)
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <math.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_hmm.h"
+#include "esl_random.h"
+#include "esl_vectorops.h"
+
+/* Function:  esl_hmm_Create()
+ * Synopsis:  Allocates a new HMM.
+ *
+ * Purpose:   Allocates a new HMM of <M> states for
+ *            generating or modeling strings in the
+ *            alphabet <abc>.
+ *
+ * Returns:   a pointer to the new HMM.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_HMM *
+esl_hmm_Create(const ESL_ALPHABET *abc, int M)
+{
+  ESL_HMM *hmm = NULL;
+  int      k,x;
+  int      status;
+
+  ESL_ALLOC(hmm, sizeof(ESL_HMM));
+  hmm->t = NULL;
+  hmm->e = NULL;
+
+  ESL_ALLOC(hmm->t,  sizeof(float *) * M);
+  ESL_ALLOC(hmm->e,  sizeof(float *) * M);
+  ESL_ALLOC(hmm->eo, sizeof(float *) * abc->Kp);
+  hmm->t[0]  = NULL;
+  hmm->e[0]  = NULL;
+  hmm->eo[0] = NULL;
+
+  ESL_ALLOC(hmm->t[0],  sizeof(float) * M * (M+1));  /* state M is the implicit end state */
+  ESL_ALLOC(hmm->e[0],  sizeof(float) * M * abc->K);
+  ESL_ALLOC(hmm->eo[0], sizeof(float) * abc->Kp * M);
+  ESL_ALLOC(hmm->pi,    sizeof(float) * (M+1));      /* initial transition to state M means a L=0 sequence */
+  
+  for (k = 1; k < M; k++)
+    {
+      hmm->t[k] = hmm->t[0] + k*(M+1);
+      hmm->e[k] = hmm->e[0] + k*abc->K;
+    }
+  for (x = 1; x < abc->Kp; x++)
+    hmm->eo[x] = hmm->eo[0] + x*M;
+  
+  hmm->M   = M;
+  hmm->K   = abc->K;
+  hmm->abc = abc;
+  return hmm;
+
+ ERROR:
+  esl_hmm_Destroy(hmm);
+  return NULL;
+}
+
+/* Function:  esl_hmm_Clone()
+ * Synopsis:  Duplicate an HMM.
+ *
+ * Purpose:   Make a newly allocated duplicate of the HMM <hmm>,
+ *            and return a pointer to the duplicate.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_HMM *
+esl_hmm_Clone(const ESL_HMM *hmm)
+{
+  ESL_HMM *dup = NULL;
+  int      k, x;
+
+  if ((dup = esl_hmm_Create(hmm->abc, hmm->M)) == NULL) return NULL;
+
+  for (k = 0; k < hmm->M; k++)
+    {
+      memcpy(dup->t[k],  hmm->t[k],  sizeof(float) * (hmm->M+1));
+      memcpy(dup->e[k],  hmm->e[k],  sizeof(float) * (hmm->abc->K));
+    }
+  for (x = 0; x < hmm->abc->Kp; x++)
+    {
+      memcpy(dup->eo[x], hmm->eo[x], sizeof(float) * (hmm->M));
+    }
+  memcpy(dup->pi, hmm->pi, sizeof(float) * (hmm->M+1));
+  return dup;
+}
+
+
+/* Function:  esl_hmm_Configure()
+ * Synopsis:  Set an HMM's emission odds ratios, including degenerate residues.
+ *
+ * Purpose:   Given a parameterized <hmm>, and some background
+ *            residue frequencies <fq>, set the emission odds ratios
+ *            (<hmm->eo[0..Kp-1][0..M-1]>) in the model.
+ *            
+ *            The frequencies <fq> do not necessarily have to
+ *            correspond to a null model. They are only used for
+ *            rescaling.
+ * 
+ *            If <fq> is <NULL>, uniform background frequencies are
+ *            used ($\frac{1}{K}$, for alphabet size $K$).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_hmm_Configure(ESL_HMM *hmm, float *fq)
+{
+  int   Kp = hmm->abc->Kp;
+  int   K  = hmm->abc->K;
+  int   k,x,y;
+  float uniform = 1.0f / (float) K;
+  float use_fq;
+  float denom;
+
+  for (x = 0; x < K; x++) {
+    use_fq = (fq == NULL) ? uniform : fq[x];
+    for (k = 0; k < hmm->M; k++)
+      hmm->eo[x][k] = hmm->e[k][x] / use_fq;
+  }
+
+  for (k = 0; k < hmm->M; k++)
+    {				/* -,*,~: treat as X */
+      hmm->eo[K][k]    = 1.0;	/* gap char          */
+      hmm->eo[Kp-2][k] = 1.0;	/* nonresidue        */
+      hmm->eo[Kp-1][k] = 1.0;	/* missing data char */
+    }
+  
+  for (x = K+1; x <= Kp-3; x++) {
+    for (k = 0; k < hmm->M; k++)
+      {
+	hmm->eo[x][k] = 0.0f;
+	denom         = 0.0f;
+	for (y = 0; y < K; y++) 
+	  if (hmm->abc->degen[x][y]) 
+	    {
+	      hmm->eo[x][k] += hmm->e[k][y];  
+	      denom         += (fq == NULL) ? uniform : fq[y];
+	    }
+	hmm->eo[x][k] = ((denom > 0.0f) ? hmm->eo[x][k] / denom : 0.0f);
+      }
+  }
+  return eslOK;
+}
+
+
+/* Function:  esl_hmm_Destroy()
+ * Synopsis:  Destroys an HMM.
+ *
+ * Purpose:   Frees an HMM.
+ */
+void
+esl_hmm_Destroy(ESL_HMM *hmm)
+{
+  if (hmm == NULL) return;
+
+  if (hmm->t != NULL) {
+    if (hmm->t[0] != NULL) free(hmm->t[0]);
+    free(hmm->t);
+  }
+  if (hmm->e != NULL) {
+    if (hmm->e[0] != NULL) free(hmm->e[0]);
+    free(hmm->e);
+  }
+  if (hmm->eo != NULL) {
+    if (hmm->eo[0] != NULL) free(hmm->eo[0]);
+    free(hmm->eo);
+  }
+  if (hmm->pi != NULL) free(hmm->pi);
+  free(hmm);
+  return;
+}
+
+
+ESL_HMX *
+esl_hmx_Create(int allocL, int allocM)
+{
+  ESL_HMX *mx = NULL;
+  int      i;
+  int      status;
+  
+  ESL_ALLOC(mx, sizeof(ESL_HMX));
+  mx->dp_mem = NULL;
+  mx->dp     = NULL;
+  mx->sc     = NULL;
+
+  ESL_ALLOC(mx->dp_mem, sizeof(float) * (allocL+1) * allocM);
+  mx->ncells = (allocL+1) * allocM;
+  
+  ESL_ALLOC(mx->dp, sizeof (float *) * (allocL+1));
+  ESL_ALLOC(mx->sc, sizeof (float)   * (allocL+2));
+  mx->allocR = allocL+1;
+
+  for (i = 0; i <= allocL; i++)
+    mx->dp[i] = mx->dp_mem + i*allocM;
+  mx->validR = allocL+1;
+  mx->allocM = allocM;
+
+  mx->L = 0;
+  mx->M = 0;
+  return mx;
+
+ ERROR:
+  esl_hmx_Destroy(mx);
+  return NULL;
+}
+
+int
+esl_hmx_GrowTo(ESL_HMX *mx, int L, int M)
+{
+  uint64_t ncells;
+  void    *p;
+  int      do_reset = FALSE;
+  int      i;
+  int      status;
+
+  if (L < mx->allocR && M <= mx->allocM) return eslOK;
+
+  /* Do we have to reallocate the 2D matrix, or can we get away with
+   * rejiggering the row pointers into the existing memory? 
+   */
+  ncells = (L+1) * M;
+  if (ncells > mx->ncells) 
+    {
+      ESL_RALLOC(mx->dp_mem, p, sizeof(float) * ncells);
+      mx->ncells = ncells;
+      do_reset   = TRUE;
+    }
+
+  /* must we reallocate row pointers? */
+  if (L >= mx->allocR)
+    {
+      ESL_RALLOC(mx->dp, p, sizeof(float *) * (L+1));
+      ESL_RALLOC(mx->sc, p, sizeof(float)   * (L+2));
+      mx->allocR = L+1;
+      mx->allocM = M;
+      do_reset   = TRUE;
+    }
+
+  /* must we widen the rows? */
+  if (M > mx->allocM)
+    {
+      mx->allocM = M;
+      do_reset = TRUE;
+    }
+
+  /* must we set some more valid row pointers? */
+  if (L >= mx->validR)
+    do_reset = TRUE;
+
+  /* did we trigger a relayout of row pointers? */
+  if (do_reset)
+    {
+      mx->validR = ESL_MIN(mx->ncells / mx->allocM, mx->allocR);
+      for (i = 0; i < mx->validR; i++)
+	mx->dp[i] = mx->dp_mem + i*mx->allocM;
+    }
+  mx->M = 0;
+  mx->L = 0;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+void
+esl_hmx_Destroy(ESL_HMX *mx)
+{
+  if (mx == NULL) return;
+
+  if (mx->dp_mem != NULL) free(mx->dp_mem);
+  if (mx->dp     != NULL) free(mx->dp);
+  if (mx->sc     != NULL) free(mx->sc);
+  free(mx);
+  return;
+}
+
+
+/* Function:  esl_hmm_Emit()
+ * Synopsis:  Emit a sequence from an HMM.
+ *
+ * Purpose:   Sample one sequence from an <hmm>, using random
+ *            number generator <r>. Optionally return the sequence,
+ *            the state path, and/or the length via <opt_dsq>, 
+ *            <opt_path>, and <opt_L>.
+ *            
+ *            If <opt_dsq> or <opt_path> are requested, caller
+ *            becomes responsible for free'ing their memory.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_hmm_Emit(ESL_RANDOMNESS *r, const ESL_HMM *hmm, ESL_DSQ **opt_dsq, int **opt_path, int *opt_L)
+{
+  int      k, L, allocL;
+  int     *path = NULL;
+  ESL_DSQ *dsq  = NULL;
+  void    *tmp  = NULL;
+  int      status;
+  
+  ESL_ALLOC(dsq,  sizeof(ESL_DSQ) * 256);
+  ESL_ALLOC(path, sizeof(int)     * 256);
+  allocL = 256;
+
+  dsq[0]  = eslDSQ_SENTINEL;
+  path[0] = -1;
+  
+  k = esl_rnd_FChoose(r, hmm->pi, hmm->M+1);
+  L = 0;
+  while (k != hmm->M)		/* M is the implicit end state */
+    {
+      L++;
+      if (L >= allocL-1) {	/* Reallocate path and seq if needed */
+	ESL_RALLOC(dsq,  tmp, sizeof(ESL_DSQ) * (allocL*2));
+	ESL_RALLOC(path, tmp, sizeof(int)     * (allocL*2));
+	allocL *= 2;
+      }
+	
+      path[L] = k;
+      dsq[L]  = esl_rnd_FChoose(r, hmm->e[k], hmm->abc->K);
+      k       = esl_rnd_FChoose(r, hmm->t[k], hmm->M+1);
+    }
+
+  path[L+1] = hmm->M;		/* sentinel for "end state" */
+  dsq[L+1]  = eslDSQ_SENTINEL;
+  
+  if (opt_dsq  != NULL) *opt_dsq  = dsq;   else free(dsq);
+  if (opt_path != NULL) *opt_path = path;  else free(path);
+  if (opt_L    != NULL) *opt_L    = L;     
+  return eslOK;
+
+ ERROR:
+  if (path != NULL) free(path);
+  if (dsq  != NULL) free(dsq);
+  return status;
+}
+
+
+int
+esl_hmm_Forward(const ESL_DSQ *dsq, int L, const ESL_HMM *hmm, ESL_HMX *fwd, float *opt_sc)
+{
+  int   i, k, m;
+  int   M     = hmm->M;
+  float logsc = 0;
+  float max;
+
+  fwd->sc[0] = 0.0;
+
+  if (L == 0) {
+    fwd->sc[L+1] = logsc = log(hmm->pi[M]);
+    if (opt_sc != NULL) *opt_sc = logsc;
+    return eslOK;
+  }
+
+  max = 0.0;
+  for (k = 0; k < M; k++) {
+    fwd->dp[1][k] = hmm->eo[dsq[1]][k] * hmm->pi[k];
+    max = ESL_MAX(fwd->dp[1][k], max);
+  }
+  for (k = 0; k < M; k++) {
+    fwd->dp[1][k] /= max;
+  }
+  fwd->sc[1] = log(max);
+
+  for (i = 2; i <= L; i++)
+    {
+      max = 0.0;
+      for (k = 0; k < M; k++)
+	{
+	  fwd->dp[i][k] = 0.0;
+	  for (m = 0; m < M; m++)
+	    fwd->dp[i][k] += fwd->dp[i-1][m] * hmm->t[m][k];
+
+	  fwd->dp[i][k] *= hmm->eo[dsq[i]][k];
+	  
+	  max = ESL_MAX(fwd->dp[i][k], max);
+	}
+      
+      for (k = 0; k < M; k++)
+	fwd->dp[i][k] /= max;
+      fwd->sc[i] = log(max);
+    }
+	  
+  
+  fwd->sc[L+1] = 0.0;
+  for (m = 0; m < M; m++) 
+    fwd->sc[L+1] += fwd->dp[L][m] * hmm->t[m][M];
+  fwd->sc[L+1] = log(fwd->sc[L+1]);
+
+  logsc = 0.0;
+  for (i = 1; i <= L+1; i++)
+    logsc += fwd->sc[i];
+
+  fwd->M = hmm->M;
+  fwd->L = L;
+  if (opt_sc != NULL) *opt_sc = logsc;
+  return eslOK;
+}
+
+
+int
+esl_hmm_Backward(const ESL_DSQ *dsq, int L, const ESL_HMM *hmm, ESL_HMX *bck, float *opt_sc)
+{
+  int   i,k,m;
+  int   M     = hmm->M;
+  float logsc = 0.0;
+  float max;
+  
+  bck->sc[L+1] = 0.0;
+
+  if (L == 0) {
+    bck->sc[0] = logsc = log(hmm->pi[M]);
+    if (opt_sc != NULL) *opt_sc = logsc;
+    return eslOK;
+  }
+  
+  max = 0.0;
+  for (k = 0; k < M; k++)
+    {
+      bck->dp[L][k] = hmm->t[k][M];
+      max = ESL_MAX(bck->dp[L][k], max);
+    }
+  for (k = 0; k < M; k++)
+    bck->dp[L][k] /= max;
+  bck->sc[L] = log(max);
+
+  for (i = L-1; i >= 1; i--)
+    {
+      max = 0.0;
+      for (k = 0; k < M; k++)
+	{
+	  bck->dp[i][k] = 0.0;
+	  for (m = 0; m < M; m++)
+	    bck->dp[i][k] += bck->dp[i+1][m] * hmm->eo[dsq[i+1]][m] * hmm->t[k][m];
+	  
+	  max = ESL_MAX(bck->dp[i][k], max);
+	}
+
+      for (k = 0; k < M; k++)
+	bck->dp[i][k] /= max;
+      bck->sc[i] = log(max);
+    }
+
+  bck->sc[0] = 0.0;
+  for (m = 0; m < M; m++)
+    bck->sc[0] += bck->dp[1][m] * hmm->eo[dsq[1]][m] * hmm->pi[m];
+  bck->sc[0] = log(bck->sc[0]);
+
+  logsc = 0.0;
+  for (i = 0; i <= L; i++) 
+    logsc += bck->sc[i];
+
+  bck->M = hmm->M;
+  bck->L = L;
+  if (opt_sc != NULL) *opt_sc = logsc;
+  return eslOK;
+}  
+		   
+
+int
+esl_hmm_PosteriorDecoding(const ESL_DSQ *dsq, int L, const ESL_HMM *hmm, ESL_HMX *fwd, ESL_HMX *bck, ESL_HMX *pp)
+{
+  int i,k;
+
+  for (i = 1; i <= L; i++)
+    {
+      for (k = 0; k < hmm->M; k++)
+	pp->dp[i][k] = fwd->dp[i][k] * bck->dp[i][k];
+      esl_vec_FNorm(pp->dp[i], hmm->M);
+    }
+  return eslOK;
+}
+
+
+
+
+/*****************************************************************
+ * x. Functions used in unit testing
+ *****************************************************************/
+#ifdef eslHMM_TESTDRIVE
+static int
+make_occasionally_dishonest_casino(ESL_HMM **ret_hmm, ESL_ALPHABET **ret_abc)
+{
+  ESL_ALPHABET *abc = esl_alphabet_Create(eslDICE);
+  ESL_HMM      *hmm = esl_hmm_Create(abc, 2);
+  int           x;
+
+  /* State 0 = fair die */
+  hmm->pi[0] = 1.0;
+  hmm->pi[1] = 0.0;
+  hmm->pi[2] = 0.0;		/* no L=0 seqs */
+
+  hmm->t[0][0] = 0.96;
+  hmm->t[0][1] = 0.03;
+  hmm->t[0][2] = 0.01;		/* end from state 0; mean length 100 */
+
+  for (x = 0; x < abc->K; x++)
+    hmm->e[0][x] = 1.0 / (float) abc->K;
+
+  /* State 1 = loaded die */
+  hmm->t[1][0] = 0.05;
+  hmm->t[1][1] = 0.95;
+  hmm->t[1][2] = 0.0;		/* no end from state 1 */
+
+  for (x = 0; x < abc->K-1; x++) hmm->e[1][x] = 0.5 / ((float) abc->K-1);
+  hmm->e[1][abc->K-1] = 0.5;
+
+  esl_hmm_Configure(hmm, NULL);
+
+  *ret_hmm = hmm;
+  *ret_abc = abc;
+  return eslOK;
+}
+#endif /*eslHMM_TESTDRIVE*/
+
+  
+/*****************************************************************
+ * x. Test driver.
+ *****************************************************************/
+#ifdef eslHMM_TESTDRIVE
+/* gcc -g -Wall -o hmm_utest -L. -I. -DeslHMM_TESTDRIVE esl_hmm.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_hmm.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",               0},
+  {"-s",  eslARG_INT,      "42", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",     0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose output",               0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for hmm module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go         = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r          = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc        = NULL;
+  ESL_HMM        *hmm        = NULL;
+  ESL_DSQ        *dsq        = NULL;
+  int            *path       = NULL;
+  ESL_HMX        *fwd        = NULL;
+  ESL_HMX        *bck        = NULL;		
+  ESL_HMX        *pp         = NULL;		
+  int             be_verbose = esl_opt_GetBoolean(go, "-v");
+  float           fsc, bsc;
+  int             L;
+  int             i;
+  float           fsum, bsum;
+
+  make_occasionally_dishonest_casino(&hmm, &abc);
+
+  esl_hmm_Emit(r, hmm, &dsq, &path, &L);
+
+  fwd = esl_hmx_Create(L, hmm->M);
+  bck = esl_hmx_Create(L, hmm->M);
+  pp  = esl_hmx_Create(L, hmm->M);
+
+  esl_hmm_Forward (dsq, L, hmm, fwd, &fsc);
+  esl_hmm_Backward(dsq, L, hmm, bck, &bsc);
+  esl_hmm_PosteriorDecoding(dsq, L, hmm, fwd, bck, pp);
+
+  fsum = 0.0;
+  bsum = bsc;
+
+  fsum += fwd->sc[0];
+  if (be_verbose) printf("%4d %c %s %8.3f %8.3f\n", 0, '-', "--", fwd->sc[0], bck->sc[0]);
+  bsum -= bck->sc[0];
+
+  for (i = 1; i <= L; i++)
+    {
+      fsum += fwd->sc[i];
+      if (be_verbose)
+	printf("%4d %c %s %8.3f %8.3f %8.3f %8.3f %8.3f %8.3f %8.3f\n",
+	       i, abc->sym[dsq[i]], path[i] == 0 ? "F " : " L", 
+	       fwd->sc[i], bck->sc[i],
+	       fsum, bsum, fsum+bsum,
+	       pp->dp[i][0], pp->dp[i][1]);
+      bsum -= fwd->sc[i];
+    }
+
+  if (be_verbose) {
+    printf("%4d %c %s %8.3f %8.3f\n", 0, '-', "--", fwd->sc[L+1], bck->sc[L+1]);
+    printf("Forward score  = %f\n", fsc);
+    printf("Backward score = %f\n", bsc);
+  }
+
+  free(path);
+  free(dsq);
+  esl_hmx_Destroy(pp);
+  esl_hmx_Destroy(bck);
+  esl_hmx_Destroy(fwd);
+  esl_alphabet_Destroy(abc);
+  esl_hmm_Destroy(hmm);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslHMM_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * x. Example
+ *****************************************************************/
+#ifdef eslHMM_EXAMPLE
+/*::cexcerpt::hmm_example::begin::*/
+/* compile: gcc -g -Wall -I. -L. -o hmm_example -DeslHMM_EXAMPLE esl_hmm.c -leasel -lm
+ * run:     ./hmm_example <sequence file>
+ */
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_hmm.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <seqfile>";
+static char banner[] = "example of the HMM module";
+
+ESL_HMM *
+create_test_hmm(ESL_ALPHABET *abc)
+{
+  ESL_HMM *hmm;
+  int      L   = 400;
+  int      M   = 200;
+
+  hmm = esl_hmm_Create(abc, 2);
+
+  /* state 0 = normal iid model. state 1 = biased state */
+
+  hmm->t[0][0] = (float) L / (float) (L+1);
+  hmm->t[0][1] = 1.0f / (float) (L+1);
+  hmm->t[0][2] = 1.0;		            /* external length distribution */
+  
+  hmm->t[1][0] = (float) 2.0f / (float) (M+2);
+  hmm->t[1][1] = (float) M / (float) (M+2);
+  hmm->t[1][2] = 1.0;
+
+  /* SW50 iid frequencies: H3 default background */
+  hmm->e[0][0]  =  0.0787945;		/* A */
+  hmm->e[0][1]  =  0.0151600;		/* C */
+  hmm->e[0][2]  =  0.0535222;		/* D */
+  hmm->e[0][3]  =  0.0668298;		/* E */
+  hmm->e[0][4]  =  0.0397062;		/* F */
+  hmm->e[0][5]  =  0.0695071;		/* G */
+  hmm->e[0][6]  =  0.0229198;		/* H */
+  hmm->e[0][7]  =  0.0590092;		/* I */
+  hmm->e[0][8]  =  0.0594422;		/* K */
+  hmm->e[0][9]  =  0.0963728;		/* L */
+  hmm->e[0][10] =  0.0237718;		/* M */
+  hmm->e[0][11] =  0.0414386;		/* N */
+  hmm->e[0][12] =  0.0482904;		/* P */
+  hmm->e[0][13] =  0.0395639;		/* Q */
+  hmm->e[0][14] =  0.0540978;		/* R */
+  hmm->e[0][15] =  0.0683364;		/* S */
+  hmm->e[0][16] =  0.0540687;		/* T */
+  hmm->e[0][17] =  0.0673417;		/* V */
+  hmm->e[0][18] =  0.0114135;		/* W */
+  hmm->e[0][19] =  0.0304133;		/* Y */
+
+  /* average of MFS_1 core emissions */
+  hmm->e[1][0]  =  0.1068;              /* A */
+  hmm->e[1][1]  =  0.0110; 		/* C */
+  hmm->e[1][2]  =  0.0242; 		/* D */
+  hmm->e[1][3]  =  0.0293; 		/* E */
+  hmm->e[1][4]  =  0.0621; 		/* F */
+  hmm->e[1][5]  =  0.0899; 		/* G */
+  hmm->e[1][6]  =  0.0139; 		/* H */
+  hmm->e[1][7]  =  0.0762; 		/* I */
+  hmm->e[1][8]  =  0.0319; 		/* K */
+  hmm->e[1][9]  =  0.1274; 		/* L */
+  hmm->e[1][10] =  0.0338; 		/* M */
+  hmm->e[1][11] =  0.0285; 		/* N */
+  hmm->e[1][12] =  0.0414; 		/* P */
+  hmm->e[1][13] =  0.0266; 		/* Q */
+  hmm->e[1][14] =  0.0375; 		/* R */
+  hmm->e[1][15] =  0.0747; 		/* S */
+  hmm->e[1][16] =  0.0568; 		/* T */
+  hmm->e[1][17] =  0.0815; 		/* V */
+  hmm->e[1][18] =  0.0161; 		/* W */
+  hmm->e[1][19] =  0.0303; 		/* Y */
+
+  hmm->pi[0]    = 0.99;
+  hmm->pi[1]    = 0.01;
+
+  esl_hmm_Configure(hmm, NULL);
+  return hmm;
+}
+
+
+ESL_HMM *
+create_null_hmm(ESL_ALPHABET *abc)
+{
+  ESL_HMM *hmm;
+  hmm = esl_hmm_Create(abc, 1);
+
+  /* state 0 = normal iid model.*/
+  hmm->t[0][0] = 1.0f;
+  hmm->t[0][1] = 1.0f;		            /* external length distribution */
+
+  /* SW50 iid frequencies: H3 default background */
+  hmm->e[0][0]  =  0.0787945;		/* A */
+  hmm->e[0][1]  =  0.0151600;		/* C */
+  hmm->e[0][2]  =  0.0535222;		/* D */
+  hmm->e[0][3]  =  0.0668298;		/* E */
+  hmm->e[0][4]  =  0.0397062;		/* F */
+  hmm->e[0][5]  =  0.0695071;		/* G */
+  hmm->e[0][6]  =  0.0229198;		/* H */
+  hmm->e[0][7]  =  0.0590092;		/* I */
+  hmm->e[0][8]  =  0.0594422;		/* K */
+  hmm->e[0][9]  =  0.0963728;		/* L */
+  hmm->e[0][10] =  0.0237718;		/* M */
+  hmm->e[0][11] =  0.0414386;		/* N */
+  hmm->e[0][12] =  0.0482904;		/* P */
+  hmm->e[0][13] =  0.0395639;		/* Q */
+  hmm->e[0][14] =  0.0540978;		/* R */
+  hmm->e[0][15] =  0.0683364;		/* S */
+  hmm->e[0][16] =  0.0540687;		/* T */
+  hmm->e[0][17] =  0.0673417;		/* V */
+  hmm->e[0][18] =  0.0114135;		/* W */
+  hmm->e[0][19] =  0.0304133;		/* Y */
+
+  hmm->pi[0]    = 1.0;
+  esl_hmm_Configure(hmm, NULL);
+  return hmm;
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go        = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET *abc       = esl_alphabet_Create(eslAMINO);
+  ESL_SQ       *sq        = esl_sq_CreateDigital(abc);
+  ESL_SQFILE   *sqfp      = NULL;
+  ESL_HMM      *hmm       = create_test_hmm(abc);
+  ESL_HMM      *bg        = create_null_hmm(abc);
+  ESL_HMX      *hmx       = esl_hmx_Create(400, hmm->M);
+  int           format    = eslSQFILE_UNKNOWN;
+  char         *seqfile   = esl_opt_GetArg(go, 1);
+  float         fwdsc, nullsc;
+  int           status;
+
+  status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file.");
+  else if (status == eslEFORMAT)   esl_fatal("Format unrecognized.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {   
+      esl_hmx_GrowTo(hmx, sq->n, hmm->M);
+
+      esl_hmm_Forward(sq->dsq, sq->n, hmm,  hmx, &fwdsc);
+      esl_hmm_Forward(sq->dsq, sq->n, bg, hmx, &nullsc);
+
+      printf("%-16s %5d  %11.4f %8.4f    %11.4f %8.4f    %11.4f %8.4f\n", sq->name, (int) sq->n,
+	     fwdsc  * eslCONST_LOG2R, (fwdsc  * eslCONST_LOG2R) / sq->n,
+	     nullsc * eslCONST_LOG2R, (nullsc * eslCONST_LOG2R) / sq->n,
+	     (fwdsc - nullsc) * eslCONST_LOG2R, (fwdsc-nullsc) * eslCONST_LOG2R / sq->n);
+
+      esl_sq_Reuse(sq);
+    }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s line %" PRId64 "):\n%s\n",
+					    sqfp->filename, sqfp->linenumber, sqfp->errbuf);     
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    status, sqfp->filename);
+  
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  esl_hmm_Destroy(hmm);
+  esl_hmm_Destroy(bg);
+  esl_hmx_Destroy(hmx);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+/*::cexcerpt::hmm_example::end::*/
+#endif /*eslHMM_EXAMPLE*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_hmm.c 694 2011-06-14 21:57:16Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_hmm.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hmm.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hmm.h
new file mode 100755
index 0000000..1141ebc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hmm.h
@@ -0,0 +1,64 @@
+/* General hidden Markov models (discrete; of alphabetic strings)
+ * 
+ * SRE, Fri Jul 18 08:54:41 2008 [Janelia] 
+ * SVN $Id: esl_hmm.h 694 2011-06-14 21:57:16Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_hmm.h $
+ */
+#ifndef eslHMM_INCLUDED
+#define eslHMM_INCLUDED
+
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+
+typedef struct {
+  int     M;                    /* number of states in the model          */
+  int     K;                    /* size of alphabet (redundant w/ abc->K) */
+  float  *pi;                   /* initial (begin) distribution (0..M)    */
+  float **t;                    /* Mx(M+1) state transition probabilities */
+  float **e;                    /* MxK emission probabilities             */
+
+  float **eo;			/* K'xM emission odds ratios              */
+  const ESL_ALPHABET *abc;      /* ptr to alphabet                        */
+} ESL_HMM;
+
+typedef struct {
+  float **dp;			/* [0..L][0..M-1] DP matrix                              */
+  float  *sc;			/* [0..L+1] scale factors (log probs)                    */
+  int     M;			/* actual model dimension (0..M-1)                       */
+  int     L;			/* actual sequence dimension (1..L)                      */
+
+  float    *dp_mem;		/* memory allocated for the resizable DP matrix          */
+  int       allocR;		/* current allocated # of rows: L+1 <= validR <= allocR  */
+  int       validR; 		/* # of dp rows actually pointing at DP memory           */
+  int       allocM;		/* current set row width; M <= allocM                    */
+  uint64_t  ncells;		/* total allocation of dp_mem; ncells >= (validR)(allocM)*/
+} ESL_HMX;
+
+
+
+extern ESL_HMM *esl_hmm_Create(const ESL_ALPHABET *abc, int M);
+extern ESL_HMM *esl_hmm_Clone(const ESL_HMM *hmm);
+extern int      esl_hmm_Configure(ESL_HMM *hmm, float *fq);
+extern int      esl_hmm_SetDegeneracies(ESL_HMM *hmm);
+extern void     esl_hmm_Destroy(ESL_HMM *hmm);
+
+extern ESL_HMX *esl_hmx_Create(int allocL, int allocM);
+extern int      esl_hmx_GrowTo (ESL_HMX *mx, int L, int M);
+extern void     esl_hmx_Destroy(ESL_HMX *mx);
+
+extern int      esl_hmm_Emit(ESL_RANDOMNESS *r, const ESL_HMM *hmm, ESL_DSQ **opt_dsq, int **opt_path, int *opt_L);
+extern int      esl_hmm_Forward(const ESL_DSQ *dsq, int L, const ESL_HMM *hmm, ESL_HMX *fwd, float *opt_sc);
+extern int      esl_hmm_Backward(const ESL_DSQ *dsq, int L, const ESL_HMM *hmm, ESL_HMX *bck, float *opt_sc);
+
+
+#endif /*eslHMM_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.c
new file mode 100755
index 0000000..908b7dc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.c
@@ -0,0 +1,1396 @@
+/* Statistical routines for hyperexponential distributions.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_vectorops.h"
+#include "esl_exponential.h"
+#include "esl_hyperexp.h"
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include "esl_histogram.h"
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+#ifdef eslAUGMENT_FILEPARSER
+#include "esl_fileparser.h"
+#endif
+
+/****************************************************************************
+ *# Routines for the ESL_HYPEREXP object
+ ****************************************************************************/ 
+
+/* Function:  esl_hyperexp_Create()
+ *
+ * Purpose:   Creates an object to hold parameters for a <K>-component
+ *            hyperexponential. 
+ *
+ *            Parameters in the object are initialized 
+ *            ($q_k = \frac{1}{K}$, $\lambda_k = 1$, $\mu = 0$), but
+ *            the caller will want to set these according to its own
+ *            purposes.
+ *
+ * Args:      K  - number of components in the mixture
+ *
+ * Returns:   ptr to newly allocated/initialized <ESL_HYPEREXP> object.
+ *
+ * Throws:    NULL on allocation failure.
+ */
+ESL_HYPEREXP *
+esl_hyperexp_Create(int K)
+{
+  int           status;
+  ESL_HYPEREXP *h = NULL;
+  int           k;
+
+  ESL_ALLOC(h, sizeof(ESL_HYPEREXP));
+  h->q = h->lambda = h->wrk = NULL;
+  h->fixlambda = NULL;
+  h->K         = K;
+  h->fixmix    = FALSE;
+
+  ESL_ALLOC(h->q,         sizeof(double) * K);
+  ESL_ALLOC(h->lambda,    sizeof(double) * K);
+  ESL_ALLOC(h->wrk,       sizeof(double) * K);
+  ESL_ALLOC(h->fixlambda, sizeof(char)   * K);
+
+  for (k = 0; k < K; k++)
+    {
+      h->q[k]        = 1. / (double) K;
+      h->lambda[k]   = 1.;
+      h->fixlambda[k]= 0;
+    }
+  h->mu = 0.;
+  return h;
+  
+ ERROR:
+  esl_hyperexp_Destroy(h);
+  return NULL;
+}
+
+/* Function:  esl_hyperexp_Destroy()
+ *
+ * Purpose:   Deallocates the hyperexponential parameter object <h>.
+ *
+ * Args:      h  - ptr to the object to be deallocated.
+ *
+ * Returns:   (void).
+ */
+void
+esl_hyperexp_Destroy(ESL_HYPEREXP *h)
+{
+  if (h == NULL) return;
+
+  if (h->q        != NULL) free(h->q);
+  if (h->lambda   != NULL) free(h->lambda);
+  if (h->wrk      != NULL) free(h->wrk);
+  if (h->fixlambda!= NULL) free(h->fixlambda);
+  free(h);
+}
+  
+
+/* Function:  esl_hyperexp_Copy()
+ *
+ * Purpose:   Makes a copy of the hyperexponential parameter object <src>
+ *            in <dest>. Caller must have already allocated <dest> to have
+ *            (at least) the same number of components as <src>.
+ *
+ * Args:      src   - object to be copied
+ *            dest  - allocated object to copy <src> into
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINCOMPAT> if <dest> isn't allocated with enough
+ *            components to hold a copy of <src>.
+ */
+int
+esl_hyperexp_Copy(ESL_HYPEREXP *src, ESL_HYPEREXP *dest)
+{
+  int k;
+
+  if (dest->K < src->K) 
+    ESL_EXCEPTION(eslEINCOMPAT, "hyperexponential too small to copy into");
+
+  for (k = 0; k < src->K; k++)
+    {
+      dest->q[k]        = src->q[k];
+      dest->lambda[k]   = src->lambda[k];
+      dest->fixlambda[k]= src->fixlambda[k];
+    }
+  dest->mu     = src->mu;
+  dest->K      = src->K;
+  dest->fixmix = src->fixmix;
+  return eslOK;
+}
+
+/* Function:  esl_hyperexp_FixedUniformMixture()
+ *
+ * Purpose:   Set the mixture coeffients to a uniform (1/K) distribution,
+ *            and fix them there so they aren't estimable parameters.
+ */
+int
+esl_hyperexp_FixedUniformMixture(ESL_HYPEREXP *h)
+{
+  int k;
+  for (k = 0; k < h->K; k++) h->q[k] = 1./(double)h->K;
+  h->fixmix = TRUE;
+  return eslOK;
+}
+
+
+/* Function:  esl_hyperexp_SortComponents()
+ *
+ * Purpose:   Rearrange the components in a hyperexponential in
+ *            order of lambda values, with the highest lambda first.
+ *
+ *            Stupid $O(K^2)$ selection sort algorithm here, because we
+ *            expect $K$ to be small.
+ */
+int
+esl_hyperexp_SortComponents(ESL_HYPEREXP *h)
+{
+  int    k, kp;
+  char   ctmp;
+  double dtmp;
+
+  for (k = 0; k < h->K-1; k++)
+    {
+      kp = k + esl_vec_DArgMax(h->lambda+k, h->K-k);
+      if (k != kp) 
+	{
+	  dtmp = h->q[k];         h->q[k]         = h->q[kp];         h->q[kp]         = dtmp;
+	  dtmp = h->lambda[k];    h->lambda[k]    = h->lambda[kp];    h->lambda[kp]    = dtmp;
+	  ctmp = h->fixlambda[k]; h->fixlambda[k] = h->fixlambda[kp]; h->fixlambda[kp] = ctmp;
+	}
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_hyperexp_Write()
+ *
+ * Purpose:   Write hyperexponential parameters from <hxp> to an open <fp>.
+ *            
+ *            The output format is suitable for input by <esl_hyperexp_Read()>.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> on any write error.
+ */
+int
+esl_hyperexp_Write(FILE *fp, ESL_HYPEREXP *hxp)
+{
+  int k;
+
+  if (fprintf(fp, "%8d     # number of components\n", hxp->K)     < 0) ESL_EXCEPTION(eslEWRITE, "hyperexp write failed");
+  if (fprintf(fp, "%8.2f   # mu (for all components)\n", hxp->mu) < 0) ESL_EXCEPTION(eslEWRITE, "hyperexp write failed");
+  for (k = 0; k < hxp->K; k++)
+    if (fprintf(fp, "%8.6f %12.6f  # q[%d], lambda[%d]\n",
+		hxp->q[k], hxp->lambda[k], k, k)                  < 0) ESL_EXCEPTION(eslEWRITE, "hyperexp write failed");
+  return eslOK;
+}
+
+
+/* Function:  esl_hyperexp_Dump()
+ *
+ * Purpose:   Dump hyperexponential parameters from <hxp> to an open <fp>,
+ *            all on one line with no comments.
+ *            
+ *            The output format is suitable for input by
+ *            <esl_hyperexp_Read()>, like <esl_hyperexp_Write()>,
+ *            though it's intended as a diagnostic dump of the
+ *            contents of the object.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_hyperexp_Dump(FILE *fp, ESL_HYPEREXP *hxp)
+{
+  int k;
+
+  fprintf(fp, "%2d ", hxp->K);
+  fprintf(fp, "%6.2f ", hxp->mu);
+  for (k = 0; k < hxp->K; k++)
+    fprintf(fp, "%5.3f %9.6f ", hxp->q[k], hxp->lambda[k]);
+  fprintf(fp, "\n");
+  return eslOK;
+}
+
+/*----------------- end ESL_HYPEREXP object maintenance --------------------*/
+
+
+
+/****************************************************************************
+ * Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+/* all lambda_k > 0
+ * all q_k are probabilities, \sum_k q_k = 1 [watch out for q_k=0 in log(q_k)].
+ * mu <= x < infinity   [mu=x is not a problem]
+ */
+
+/* Function:  esl_hxp_pdf()
+ *
+ * Purpose:   Returns the probability density function $P(X=x)$ for
+ *            quantile <x>, given hyperexponential parameters <h>.
+ */
+double
+esl_hxp_pdf(double x, ESL_HYPEREXP *h)
+{
+  double pdf = 0.;
+  int    k;
+
+  if (x < h->mu) return 0.;
+
+  for (k = 0; k < h->K; k++)
+    pdf += h->q[k] * esl_exp_pdf(x, h->mu, h->lambda[k]);
+  return pdf;
+}
+
+
+/* Function:  esl_hxp_logpdf()
+ *
+ * Purpose:   Returns the log of the PDF ($\log P(X=x)$) for quantile <x>,
+ *            given hyperexponential parameters <h>.
+ */
+double
+esl_hxp_logpdf(double x, ESL_HYPEREXP *h)
+{
+  int    k;
+  double z;
+
+  if (x < h->mu) return -eslINFINITY;
+
+  for (k = 0; k < h->K; k++)
+    if (h->q[k] == 0.0) 
+      h->wrk[k] = -eslINFINITY;	
+    else
+      h->wrk[k] = log(h->q[k]) + esl_exp_logpdf(x, h->mu, h->lambda[k]);
+
+  z = esl_vec_DLogSum(h->wrk, h->K);
+  return z;
+}
+
+/* Function:  esl_hxp_cdf()
+ *
+ * Purpose:   Returns the cumulative distribution function $P(X \leq x)$
+ *            for quantile <x>, given hyperexponential parameters <h>.
+ */
+double
+esl_hxp_cdf(double x, ESL_HYPEREXP *h)
+{
+  double cdf = 0.;
+  int    k;
+  
+  if (x < h->mu) return 0.;
+
+  for (k = 0; k < h->K; k++)
+    cdf += h->q[k] * esl_exp_cdf(x, h->mu, h->lambda[k]);
+  return cdf;
+}
+
+/* Function:  esl_hxp_logcdf()
+ *
+ * Purpose:   Returns the log of the CDF $\log P(X \leq x)$
+ *            for quantile <x>, given hyperexponential parameters <h>.
+ */
+double
+esl_hxp_logcdf(double x, ESL_HYPEREXP *h)
+{
+  int k;
+
+  if (x < h->mu) return -eslINFINITY;
+
+  for (k = 0; k < h->K; k++)
+    if (h->q[k] == 0.0) 
+      h->wrk[k] = -eslINFINITY;
+    else
+      h->wrk[k] = log(h->q[k]) + esl_exp_logcdf(x, h->mu, h->lambda[k]);
+
+  return esl_vec_DLogSum(h->wrk, h->K);
+}
+
+
+/* Function:  esl_hxp_surv()
+ *
+ * Purpose:   Returns the survivor function $P(X > x)$ (1-CDF)
+ *            for quantile <x>, given hyperexponential parameters <h>.
+ */
+double
+esl_hxp_surv(double x, ESL_HYPEREXP *h)
+{
+  double srv = 0.;
+  int    k;
+  
+  if (x < h->mu) return 1.0;
+
+  for (k = 0; k < h->K; k++)
+    srv += h->q[k] * esl_exp_surv(x, h->mu, h->lambda[k]);
+  return srv;
+}
+
+  
+/* Function:  esl_hxp_logsurv()
+ *
+ * Purpose:   Returns the log survivor function $\log P(X > x)$ (log(1-CDF))
+ *            for quantile <x>, given hyperexponential parameters <h>.
+ */
+double
+esl_hxp_logsurv(double x, ESL_HYPEREXP *h)
+{
+  int k;
+  
+  if (x < h->mu) return 0.0;
+
+  for (k = 0; k < h->K; k++)
+    if (h->q[k] == 0.0) 
+      h->wrk[k] = -eslINFINITY;
+    else
+      h->wrk[k] = log(h->q[k]) + esl_exp_logsurv(x, h->mu, h->lambda[k]);
+  
+  return esl_vec_DLogSum(h->wrk, h->K);
+}
+
+/* Function:  esl_hxp_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF for a hyperexponential <h>
+ *            returning the quantile <x> at which the CDF is <p>.
+ *            
+ *            The inverse CDF of a mixture model has no
+ *            analytical expression as far as I'm aware. The calculation
+ *            here is a computationally expensive, brute force bisection
+ *            search in <x> using the CDF function. It will suffice for
+ *            a small number of calls (for plotting applications, for example),
+ *            but it is not sufficient for a large number of calls.
+ */
+double
+esl_hxp_invcdf(double p, ESL_HYPEREXP *h)
+{
+  double x1, x2, xm;		/* low, high guesses at x */
+  double f2, fm;
+  double tol = 1e-6;
+
+  x1 = h->mu;
+  x2 = h->mu + 1.;
+  do {				/* bracket */
+    x2 = x2 + 2.*(x2-x1);
+    f2 = esl_hxp_cdf(x2, h);
+  } while (f2 < p);
+
+  do {				/* bisection */
+    xm = (x1+x2) / 2.;
+    fm = esl_hxp_cdf(xm, h);
+    
+    if      (fm > p) x2 = xm;
+    else if (fm < p) x1 = xm;
+    else return xm;		/* unlikely case of fm==cdf */
+  } while ( (x2-x1)/(x1+x2-2*h->mu) > tol);
+
+  xm = (x1+x2) / 2.;
+  return xm;
+  
+}
+/*-------------------- end densities & distributions ------------------------*/
+
+
+
+
+/****************************************************************************
+ * Generic API routines: for general interface w/ histogram module
+ ****************************************************************************/ 
+
+/* Function:  esl_hxp_generic_pdf()
+ *
+ * Purpose:   Generic-API version of PDF call.
+ */
+double
+esl_hxp_generic_pdf(double x, void *params)
+{
+  ESL_HYPEREXP *h = (ESL_HYPEREXP *) params;
+  return esl_hxp_pdf(x, h);
+}
+
+/* Function:  esl_hxp_generic_cdf()
+ *
+ * Purpose:   Generic-API version of CDF call.
+ */
+double
+esl_hxp_generic_cdf(double x, void *params)
+{
+  ESL_HYPEREXP *h = (ESL_HYPEREXP *) params;
+  return esl_hxp_cdf(x, h);
+}
+
+/* Function:  esl_hxp_generic_surv()
+ *
+ * Purpose:   Generic-API version of survivor function.
+ */
+double
+esl_hxp_generic_surv(double x, void *params)
+{
+  ESL_HYPEREXP *h = (ESL_HYPEREXP *) params;
+  return esl_hxp_surv(x, h);
+}
+
+/* Function:  esl_hxp_generic_invcdf()
+ *
+ * Purpose:   Generic-API version of inverse CDF.
+ */
+double
+esl_hxp_generic_invcdf(double p, void *params)
+{
+  ESL_HYPEREXP *h = (ESL_HYPEREXP *) params;
+  return esl_hxp_invcdf(p, h);
+}
+/*------------------------ end generic API ---------------------------------*/
+
+
+
+
+
+
+/****************************************************************************
+ * Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_hxp_Plot()
+ *
+ * Purpose:   Plot some function <func> (for instance, <esl_hxp_pdf()>)
+ *            for hyperexponential parameters <h>, for a range of
+ *            quantiles x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error. 
+ */
+int
+esl_hxp_Plot(FILE *fp, ESL_HYPEREXP *h,
+	     double (*func)(double x, ESL_HYPEREXP *h), 
+	     double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, h)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hyperexp plot write failed");
+  if (fprintf(fp, "&\n")                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hyperexp plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+
+
+/****************************************************************************
+ * Routines for sampling (requires augmentation w/ random module)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+/* Function:  esl_hxp_Sample()
+ *
+ * Purpose:   Sample a random variate x from a hyperexponential <h>, 
+ *            given random number source <r>.
+ */
+double
+esl_hxp_Sample(ESL_RANDOMNESS *r, ESL_HYPEREXP *h)
+{
+  int k;	
+  k = esl_rnd_DChoose(r, h->q, h->K);
+  return esl_exp_Sample(r, h->mu, h->lambda[k]);
+}
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+
+/****************************************************************************
+ * File input (mixture models are a little too complex to set on commandline)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_FILEPARSER
+/* Function:  esl_hyperexp_Read()
+ *
+ * Purpose:   Reads hyperexponential parameters from an open <e>.
+ *            which is an <ESL_FILEPARSER> tokenizer for an open stream.
+ *            
+ *            The first token is <K>, the number of mixture components.
+ *            The second token is <mu>, the x offset shared by all components.
+ *            Then for each mixture component <k=1..K>, it reads
+ *            a mixture coefficient <q[k]> and a decay parameter
+ *            <lambda[k]>.
+ *            
+ *            The <2K+2> data tokens must occur in this order, but
+ *            they can be grouped into any number of lines, because the
+ *            parser ignores line breaks.
+ *            
+ *            Anything after a <\#> character on a line is a comment, and
+ *            is ignored.
+ *            
+ * Returns:   <eslOK> on success, and <ret_hxp> points to a new <ESL_HYPEREXP>
+ *            object.
+ *            <eslEFORMAT> on "normal" parse failure caused by a bad file 
+ *            format that's likely the user's fault.
+ *
+ * Throws:    <eslEMEM> if allocation of the new <ESL_HYPEREXP> fails.
+ *
+ * 
+ * FIXME: All our mixture models (esl_dirichlet, for example) should be
+ *        reconciled w/ identical interfaces & behaviour.
+ */
+int
+esl_hyperexp_Read(ESL_FILEPARSER *e, ESL_HYPEREXP **ret_hxp)
+{
+  ESL_HYPEREXP   *hxp = NULL;
+  char           *tok;
+  int             status = eslOK;
+  int             nc;
+  int             k;
+  double          sum;
+
+  esl_fileparser_SetCommentChar(e, '#');
+
+  if ((status = esl_fileparser_GetToken(e, &tok, NULL)) != eslOK) goto ERROR;
+  nc = atoi(tok);
+  if (nc < 1) {  
+    sprintf(e->errbuf, "Expected # of components K >= 1 as first token");
+    goto ERROR;
+  }
+
+  if ((hxp = esl_hyperexp_Create(nc)) == NULL) return eslEMEM; /* percolation */
+  
+  if ((status = esl_fileparser_GetToken(e, &tok, NULL)) != eslOK) goto ERROR;
+  hxp->mu = atof(tok);
+
+  for (k = 0; k < hxp->K; k++)
+    {
+      if ((status = esl_fileparser_GetToken(e, &tok, NULL)) != eslOK) goto ERROR;
+      hxp->q[k] = atof(tok);
+      
+      if ((status = esl_fileparser_GetToken(e, &tok, NULL)) != eslOK) goto ERROR;
+      hxp->lambda[k] = atof(tok);
+
+      if (hxp->q[k] < 0. || hxp->q[k] > 1.) {
+	sprintf(e->errbuf, "Expected a mixture coefficient q[k], 0<=q[k]<=1");
+	goto ERROR;
+      }
+      if (hxp->lambda[k] <= 0.) {
+	sprintf(e->errbuf, "Expected a lambda parameter, lambda>0");
+	goto ERROR;
+      }
+    }
+  sum = esl_vec_DSum(hxp->q, hxp->K);
+  if (fabs(sum-1.0) > 0.05) {
+    sprintf(e->errbuf, "Expected mixture coefficients to sum to 1");
+    goto ERROR;
+  }
+  esl_vec_DNorm(hxp->q, hxp->K);
+  *ret_hxp = hxp;
+  return eslOK;
+
+ ERROR:
+  esl_hyperexp_Destroy(hxp); 
+  return eslEFORMAT;
+}
+
+/* Function:  esl_hyperexp_ReadFile()
+ *
+ * Purpose:   Convenience wrapper around <esl_hyperexp_Read()> that takes
+ *            a filename as an argument, instead of an open <ESL_FILEPARSER>.
+ *            
+ *            This lets you quickly read an object from a file, but it
+ *            limits your ability to deal gracefully and flexibly with
+ *            'normal' errors like 'file not found' or 'bad file format'.
+ *            Here, all errors are fatal.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on an allocation failure.
+ *            
+ *            <eslEFORMAT> on any parse error. Diagnostic information is
+ *            unavailable, because the <ESL_FILEPARSER> that's holding 
+ *            that information is internal to this function. 
+ *            
+ *            <eslENOTFOUND> on any failure to open the file.
+ */
+int
+esl_hyperexp_ReadFile(char *filename, ESL_HYPEREXP **ret_hxp)
+{
+  FILE           *fp;
+  ESL_FILEPARSER *e;
+  int             status;
+
+  if ((fp = fopen(filename, "r")) == NULL) 
+    ESL_EXCEPTION(eslENOTFOUND, "file not found");
+
+  if ((e = esl_fileparser_Create(fp)) == NULL) {
+    fclose(fp);
+    ESL_EXCEPTION(eslEMEM, "failed to create fileparser");
+  }
+  esl_fileparser_SetCommentChar(e, '#');
+
+  status = esl_hyperexp_Read(e, ret_hxp);
+
+  esl_fileparser_Destroy(e);
+  fclose(fp);
+  return status;
+}
+#endif /*eslAUGMENT_FILEPARSER*/
+
+
+
+
+
+
+
+/****************************************************************************
+ * Maximum likelihood fitting, complete unbinned data
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_MINIMIZER
+/* This structure is used to sneak the data into minimizer's generic
+ * (void *) API for all aux data
+ */
+struct hyperexp_data {
+  double *x;
+  int     n;
+  ESL_HYPEREXP *h;
+};
+
+/* Given hyperexponential parameters in <h>;
+ * do appropriate c.o.v.'s to unconstrained real parameters
+ * and fill in the packed parameter vector <p>.
+ * 
+ * <p> must be allocated for at least (2K-1) doubles: K-1 mixture 
+ * coefficients and K lambda parameters. (mu is not a free param).
+ *
+ * First K-1 are $Q_1..Q_{K-1}$ mixture coefficient parameters; $Q_0$ implicitly 0;
+ *  cov is $q_k = \frac{e^{Q_k}}{\sum_j e^{Q_j}}$;  $Q_k = \log(q_k) - \log(q_0)$.
+ * Then K lambda params;
+ * lambda cov is $\lambda = e^w$, $w = \log(\lambda)$.
+ */
+static void
+hyperexp_pack_paramvector(double *p, int np, ESL_HYPEREXP *h)
+{
+  int    i;			/* counter in parameter vector p */
+  int    k;			/* counter in mixture components */
+  double z;			/* tmp variable */
+
+  /* mixture coefficients */
+  i = 0;
+  if (! h->fixmix) {
+    z = log(h->q[0]);
+    for (k = 1; k < h->K; k++) 
+      p[i++] = log(h->q[k]) - z;
+  }
+  
+  /* exponential parameters */
+  for (k = 0; k < h->K; k++)
+    if (! h->fixlambda[k])
+      p[i++] = log(h->lambda[k]);
+}
+
+/* Same as above but in reverse: given parameter vector <p>,
+ * <np> = 2K-1, do appropriate c.o.v. back to desired parameter space, and
+ * update the hyperexponential <h>.
+ */
+static void
+hyperexp_unpack_paramvector(double *p, int np, ESL_HYPEREXP *h)
+{
+  int    i;			/* counter in parameter vector p */
+  int    k;			/* counter in mixture components */
+  double z;			/* tmp variable  */
+
+  /* Fetch the params in their c.o.v. space first
+   */
+  i = 0;
+  if (! h->fixmix) {
+    h->q[0] = 0;	/* implicitly */
+    for (k = 1; k < h->K; k++) 
+      h->q[k] = p[i++]; 
+  }
+  for (k = 0; k < h->K; k++)
+    if (! h->fixlambda[k]) 
+      h->lambda[k] = p[i++];
+  
+  /* Convert mix coefficients back to probabilities;
+   * their  c.o.v. is q_k = e^{Q_k} / \sum_k e^{Q_k}
+   * which rearranges to exp(Q_k - log[\sum_k e^Q_k]),
+   * and we have the DLogSum() function to compute the log sum.
+   */
+  if (! h->fixmix) {
+    z = esl_vec_DLogSum(h->q, h->K);
+    for (k = 0; k < h->K; k++)
+      h->q[k] = exp(h->q[k] - z);
+  }
+  
+  /* lambda c.o.v. is \lambda = e^w */
+  for (k = 0; k < h->K; k++)
+    if (! h->fixlambda[k]) 
+      h->lambda[k] = exp(h->lambda[k]);
+}
+
+/* The log likelihood function to be optimized by ML fitting:
+ *   This needs to be careful of a case where a lambda = inf.
+ */
+static double
+hyperexp_complete_func(double *p, int np, void *dptr)
+{
+  struct hyperexp_data *data = (struct hyperexp_data *) dptr;
+  ESL_HYPEREXP         *h    = data->h;
+  double logL = 0.;
+  int    i;
+
+  hyperexp_unpack_paramvector(p, np, h);
+  for (i = 0; i < data->n; i++)
+    logL += esl_hxp_logpdf(data->x[i], h);
+  return -logL;
+}
+
+/* The gradient of the NLL w.r.t. each free parameter in p.
+ */
+static void
+hyperexp_complete_gradient(double *p, int np, void *dptr, double *dp)
+{
+  struct hyperexp_data *data = (struct hyperexp_data *) dptr;
+  ESL_HYPEREXP         *h    = data->h;
+  double pdf;
+  int i,k;
+  int pidx;			
+  
+  hyperexp_unpack_paramvector(p, np, h);
+  esl_vec_DSet(dp, np, 0.);
+  for (i = 0; i < data->n; i++)
+    {
+      /* FIXME: I think the calculation below may need to be done
+       * in log space, to avoid underflow errors; see complete_binned_gradient()
+       */
+      /* Precalculate q_k PDF_k(x) terms, and their sum */
+      for (k = 0; k < h->K; k++)
+	h->wrk[k] = h->q[k] * esl_exp_pdf(data->x[i], h->mu, h->lambda[k]);
+      pdf = esl_vec_DSum(h->wrk, h->K);
+
+      pidx = 0;
+      if (! h->fixmix) {
+	for (k = 1; k < h->K; k++) /* generic d/dQ solution for mixture models */
+	  dp[pidx++] -= h->wrk[k]/pdf - h->q[k];
+      }
+      
+      for (k = 0; k < h->K; k++)
+	if (! h->fixlambda[k])
+	  dp[pidx++] -= (1.-h->lambda[k]*(data->x[i]-h->mu))*h->wrk[k]/pdf; /* d/dw */
+    }
+}
+
+
+/* Function:  esl_hxp_FitGuess()
+ *
+ * Purpose:   Given a sorted vector of <n> observed data samples <x[]>,
+ *            from smallest <x[0]> to largest <x[n-1]>, calculate a
+ *            very crude guesstimate of a fit -- suitable only as a starting
+ *            point for further optimization -- and return those parameters
+ *            in <h>.
+ *
+ *            Assigns $q_k \propto \frac{1}{k}$ and  $\mu = \min_i x_i$;
+ *            splits $x$ into $K$ roughly equal-sized bins, and
+ *            and assigns $\lambda_k$ as the ML estimate from bin $k$.
+ *            (If $q_k$ coefficients have already been fixed to 
+ *            known values, this step is skipped.)
+ */
+int
+esl_hxp_FitGuess(double *x, int n, ESL_HYPEREXP *h)
+{
+  double tmu;			/* current mu */
+  double mean;			/* mean (x-tmu) in a bin */
+  int    i,k;
+  int    imin, imax;
+
+  h->mu = x[0];  /* minimum */
+  for (k = 0; k < h->K; k++)
+    {
+      if (! h->fixmix) 
+	h->q[k] = 1 / (double)(k+1); /* priors ~ 1, 1/2, 1/3... */
+
+      imin = (int) ((double)(k*n)/(double)h->K);
+      imax = (int) ((double)((k+1)*n)/(double)h->K);
+      tmu = x[imin];
+      mean = 0.;
+      for (i = imin; i < imax; i++)
+	mean += x[i] - tmu;
+      mean /= (double)(imax-imin);
+      h->lambda[k] = 1 / mean;
+    }
+  esl_vec_DNorm(h->q, h->K);
+  return eslOK;
+}
+
+/* Function:  esl_hxp_FitComplete()
+ *
+ * Purpose:   Given a vector of <n> observed data samples <x[]> 
+ *            (sorted or unsorted), and an initial guess <h> for
+ *            a hyperexponential, find maximum likelihood parameters
+ *            by conjugate gradient descent optimization, starting
+ *            from <h> and leaving the final optimized solution in
+ *            <h>.
+ *            
+ * Returns:   <eslOK> on success, and <h> contains the fitted 
+ *            hyperexponential parameters.
+ *            
+ * Throws:    <eslEMEM> on allocation error, and <h> is left in
+ *            in its initial state.           
+ */
+int
+esl_hxp_FitComplete(double *x, int n, ESL_HYPEREXP *h)
+{
+  struct hyperexp_data data;
+  int     status;
+  double *p   = NULL;
+  double *u   = NULL;
+  double *wrk = NULL;
+  double  tol;
+  int     np;
+  double  fx;
+  int     i;
+
+  tol = 1e-6;
+
+  /* Determine number of free parameters and allocate 
+   */
+  np = 0;
+  if (! h->fixmix) np += h->K-1;  /* K-1 mix coefficients...     */
+  for (i = 0; i < h->K; i++)      /* ...and up to K lambdas free */
+    if (! h->fixlambda[i]) np++;	
+  ESL_ALLOC(p,   sizeof(double) * np);
+  ESL_ALLOC(u,   sizeof(double) * np);
+  ESL_ALLOC(wrk, sizeof(double) * np * 4);
+
+  /* Copy shared info into the "data" structure
+   */
+  data.x   = x;
+  data.n   = n;
+  data.h   = h;
+
+  /* From h, create the parameter vector.
+   */
+  hyperexp_pack_paramvector(p, np, h);
+
+  /* Define the step size vector u.
+   */
+  for (i = 0; i < np; i++) u[i] = 1.0;
+
+  /* Feed it all to the mighty optimizer.
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, np, 
+					    &hyperexp_complete_func, 
+					    &hyperexp_complete_gradient,
+					    (void *) (&data), tol, wrk, &fx);
+  if (status != eslOK) goto ERROR;
+
+  /* Convert the final parameter vector back to a hyperexponential
+   */
+  hyperexp_unpack_paramvector(p, np, h);
+  
+  free(p);
+  free(u);
+  free(wrk);
+  esl_hyperexp_SortComponents(h);
+  return eslOK;
+
+ ERROR:
+  if (p   != NULL) free(p);
+  if (u   != NULL) free(u);
+  if (wrk != NULL) free(wrk);
+  return status;
+}
+
+
+/****************************************************************************
+ * Maximum likelihood fitting, complete binned data         xref STL9/143-144
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_HISTOGRAM
+/* minimizer API only allows us one generic void ptr to pass
+ * our data through:
+ */
+struct hyperexp_binned_data {
+  ESL_HISTOGRAM *g;	
+  ESL_HYPEREXP  *h;
+};
+  
+static double 
+hyperexp_complete_binned_func(double *p, int np, void *dptr)
+{
+  struct hyperexp_binned_data *data = (struct hyperexp_binned_data *) dptr;
+  ESL_HISTOGRAM               *g    = data->g;
+  ESL_HYPEREXP                *h    = data->h;
+  double logL = 0.;
+  double ai, delta;
+  int    i,k;
+
+  hyperexp_unpack_paramvector(p, np, h);
+  delta = g->w;
+  /* counting over occupied, uncensored histogram bins */
+  for (i = g->cmin; i <= g->imax; i++) 
+    {
+      if (g->obs[i] == 0) continue; /* skip unoccupied ones */
+
+      ai    = esl_histogram_Bin2LBound(g, i);
+      if (ai < h->mu) ai = h->mu; /* careful about the left boundary: no x < h->mu */
+
+      for (k = 0; k < h->K; k++)
+	{
+	  h->wrk[k] = log(h->q[k]) - h->lambda[k]*(ai-h->mu);
+	  if (delta * h->lambda[k] < eslSMALLX1) 
+	    h->wrk[k] += log(delta * h->lambda[k]);
+	  else
+	    h->wrk[k] += log(1 - exp(-delta * h->lambda[k]));
+	}
+      logL += g->obs[i] * esl_vec_DLogSum(h->wrk, h->K);
+    }
+  return -logL;
+}
+
+static void
+hyperexp_complete_binned_gradient(double *p, int np, void *dptr, double *dp)
+{
+  struct hyperexp_binned_data *data = (struct hyperexp_binned_data *) dptr;
+  ESL_HISTOGRAM               *g    = data->g;
+  ESL_HYPEREXP                *h    = data->h;
+  int i,k;
+  int pidx;			
+  double z;
+  double tmp;
+  double ai, delta;
+  
+  hyperexp_unpack_paramvector(p, np, h);
+  esl_vec_DSet(dp, np, 0.);
+  delta = g->w;
+
+  /* counting over occupied, uncensored histogram bins */
+  for (i = g->cmin; i <= g->imax; i++)
+    {
+      if (g->obs[i] == 0) continue;
+      ai = esl_histogram_Bin2LBound(g, i);
+      if (ai < h->mu) ai = h->mu; /* careful about the left boundary: no x < h->mu */
+
+      /* Calculate log (q_m alpha_m(a_i) terms
+       */
+      for (k = 0; k < h->K; k++)
+	{
+	  h->wrk[k] = log(h->q[k]) - h->lambda[k]*(ai-h->mu);
+	  if (delta * h->lambda[k] < eslSMALLX1) 
+	    h->wrk[k] += log(delta * h->lambda[k]);
+	  else
+	    h->wrk[k] += log(1 - exp(-delta * h->lambda[k]));
+	}
+      z = esl_vec_DLogSum(h->wrk, h->K); /* z= log \sum_k q_k alpha_k(a_i) */
+
+      /* Bump the gradients for Q_1..Q_{K-1} */
+      pidx = 0;
+      if (! h->fixmix) {
+	for (k = 1; k < h->K; k++)
+	  dp[pidx++] -= g->obs[i] * (exp(h->wrk[k] - z) - h->q[k]);
+      }
+	
+      /* Bump the gradients for w_0..w_{K-1}
+       */
+      for (k = 0; k < h->K; k++)
+	if (! h->fixlambda[k])
+	  {
+	    tmp  = log(h->q[k]) + log(h->lambda[k])- h->lambda[k]*(ai-h->mu);
+	    tmp  = exp(tmp - z);
+	    tmp *= (ai + delta - h->mu) * exp(-delta * h->lambda[k]) - (ai - h->mu);
+	    dp[pidx++] -= g->obs[i] * tmp;
+	  }
+    }  
+}
+
+/* Function:  esl_hxp_FitGuessBinned()
+ *
+ * Purpose:   Given a histogram <g> with binned observations;
+ *            obtain a very crude guesstimate of a fit -- suitable only 
+ *            as a starting point for further optimization -- and return 
+ *            those parameters in <h>.
+ *
+ *            Assigns $q_k \propto \frac{1}{k}$ and  $\mu = \min_i x_i$;
+ *            splits $x$ into $K$ roughly equal-sized bins, and
+ *            and assigns $\lambda_k$ as the ML estimate from bin $k$.
+ *            If the coefficients have already been set to known values,
+ *            this step is skipped.
+ */
+int
+esl_hxp_FitGuessBinned(ESL_HISTOGRAM *g, ESL_HYPEREXP *h)
+{
+  double sum;
+  int    n;
+  int    i,k;
+  int    nb;
+  double ai;
+
+  if      (g->is_tailfit) h->mu = g->phi;  /* all x > mu in this case */
+  else if (g->is_rounded) h->mu = esl_histogram_Bin2LBound(g, g->imin);
+  else                    h->mu = g->xmin; 
+
+  nb    = g->imax - g->cmin + 1;
+  k     = h->K-1;
+  sum   = 0;
+  n     = 0;
+  for (i = g->imax; i >= g->cmin; i--)
+    {
+      ai = esl_histogram_Bin2LBound(g,i);
+      if (ai < g->xmin) ai = g->xmin;
+      n      += g->obs[i];
+      sum    += g->obs[i] * ai;
+      
+      if (i == g->cmin + (k*nb)/h->K)
+	h->lambda[k--] = 1 / ((sum/(double) n) - ai);
+    }
+
+  if (! h->fixmix) {
+    for (k = 0; k < h->K; k++)
+      h->q[k] = 1 / (double) h->K;
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  esl_hxp_FitCompleteBinned()
+ *
+ * Purpose:   Given a histogram <g> with binned observations, where each
+ *            bin i holds some number of observed samples x with values from 
+ *            lower bound l to upper bound u (that is, $l < x \leq u$),
+ *            and given a starting guess <h> for hyperexponential parameters;
+ *
+ *            Find maximum likelihood parameters <h> by conjugate gradient
+ *            descent, starting from the initial <h> and leaving the
+ *            optimized solution in <h>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <h> is left in its
+ *            initial state.
+ */
+int 
+esl_hxp_FitCompleteBinned(ESL_HISTOGRAM *g, ESL_HYPEREXP *h)
+{
+  struct hyperexp_binned_data data;
+  int     status;
+  double *p   = NULL;
+  double *u   = NULL;
+  double *wrk = NULL;
+  double  fx;
+  int     i;
+  double  tol = 1e-6;
+  int     np;
+
+  np = 0;
+  if (! h->fixmix) np = h->K-1;  /* K-1 mix coefficients...      */
+  for (i = 0; i < h->K; i++)     /* ...and up to K lambdas free. */
+    if (! h->fixlambda[i]) np++;
+
+  ESL_ALLOC(p,   sizeof(double) * np);
+  ESL_ALLOC(u,   sizeof(double) * np);
+  ESL_ALLOC(wrk, sizeof(double) * np * 4);
+
+  /* Copy shared info into the "data" structure  */
+  data.g     = g;
+  data.h     = h;
+
+  /* From h, create the parameter vector. */
+  hyperexp_pack_paramvector(p, np, h);
+
+  /* Define the step size vector u.
+   */
+  for (i = 0; i < np; i++) u[i] = 1.0;
+
+  /* Feed it all to the mighty optimizer.
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, np, 
+					    &hyperexp_complete_binned_func, 
+					    &hyperexp_complete_binned_gradient,
+					    (void *) (&data), tol, wrk, &fx);
+  if (status != eslOK) goto ERROR;
+
+  /* Convert the final parameter vector back to a hyperexponential
+   */
+  hyperexp_unpack_paramvector(p, np, h);
+  
+  free(p);
+  free(u);
+  free(wrk);
+  esl_hyperexp_SortComponents(h);
+  return eslOK;
+
+ ERROR:
+  if (p   != NULL) free(p);
+  if (u   != NULL) free(u);
+  if (wrk != NULL) free(wrk);
+  return status;
+}
+#endif /*eslAUGMENT_HISTOGRAM*/
+#endif /*eslAUGMENT_MINIMIZER*/
+/*--------------------------- end fitting ----------------------------------*/
+
+
+
+/****************************************************************************
+ * Example main()
+ ****************************************************************************/ 
+#ifdef eslHYPEREXP_EXAMPLE
+/*::cexcerpt::hyperexp_example::begin::*/
+/* compile: 
+   gcc -g -Wall -I. -o example -DeslHYPEREXP_EXAMPLE\
+     -DeslAUGMENT_HISTOGRAM -DeslAUGMENT_RANDOM -DeslAUGMENT_MINIMIZER\
+      esl_hyperexp.c esl_exponential.c esl_histogram.c esl_random.c esl_minimizer.c\
+       esl_stats.c esl_vectorops.c easel.c -lm
+ * run:     ./example
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_hyperexp.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r;		/* source of random numbers        */
+  ESL_HISTOGRAM  *h;		/* histogram to store the data     */
+  ESL_HYPEREXP   *hxp;		/* hyperexponential to sample from */
+  ESL_HYPEREXP   *ehxp;		/* estimated hyperexponential      */
+  double      x;		/* sampled data point              */
+  int         n = 100000;	/* number of samples               */
+  double     *data;
+  int         ndata;
+  int         i;
+
+  hxp = esl_hyperexp_Create(3);
+  hxp->mu = -2.0;
+  hxp->q[0]      = 0.6;    hxp->q[1]      = 0.3;   hxp->q[2]      = 0.1; 
+  hxp->lambda[0] = 1.0;    hxp->lambda[1] = 0.3;   hxp->lambda[2] = 0.1;
+
+  r   = esl_randomness_Create(0);
+  h   = esl_histogram_CreateFull(hxp->mu, 100, 1.0);
+
+  for (i = 0; i < n; i++)
+    {
+      x    = esl_hxp_Sample(r, hxp);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  /* Plot the empirical (sampled) and expected survivals */
+  esl_histogram_PlotSurvival(stdout, h);
+  esl_hxp_Plot(stdout, hxp, &esl_hxp_surv, h->xmin, h->xmax, 0.1);
+
+  /* ML fit to complete data, and plot fitted survival curve */
+  ehxp = esl_hyperexp_Create(3);
+  esl_hxp_FitGuess(data, ndata, ehxp);
+  esl_hxp_FitComplete(data, ndata, ehxp);
+  esl_hxp_Plot(stdout, ehxp, &esl_hxp_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to binned data, plot fitted survival curve  */
+  esl_hxp_FitGuessBinned(h, ehxp);
+  esl_hxp_FitCompleteBinned(h, ehxp);
+  esl_hxp_Plot(stdout, ehxp, &esl_hxp_surv,  h->xmin, h->xmax, 0.1);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  esl_hyperexp_Destroy(hxp);
+  esl_hyperexp_Destroy(ehxp);
+  return 0;
+}
+/*::cexcerpt::hyperexp_example::end::*/
+#endif /*eslHYPEREXP_EXAMPLE*/
+
+
+
+
+/****************************************************************************
+ * Test driver
+ ****************************************************************************/ 
+#ifdef eslHYPEREXP_TESTDRIVE
+/* Compile:
+   gcc -g -Wall -I. -I ~/src/easel -L ~/src/easel -o test\
+    -DeslHYPEREXP_TESTDRIVE esl_hyperexp.c -leasel -lm
+*/
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_hyperexp.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_HISTOGRAM  *h;
+  ESL_RANDOMNESS *r;
+  ESL_HYPEREXP   *hxp;
+  ESL_HYPEREXP   *ehxp;
+  int     n         = 20000;
+  double  binwidth  = 0.1;
+  int     i;
+  double  x;
+  double *data;
+  int     ndata;
+  int     k, ek, mink;
+  double  mindiff, diff;
+
+  int     opti;
+  int     be_verbose   = FALSE;
+  char   *paramfile    = NULL;
+  char   *plotfile     = NULL;
+  FILE   *pfp          = stdout;
+  int     plot_pdf     = FALSE;
+  int     plot_logpdf  = FALSE;
+  int     plot_cdf     = FALSE;
+  int     plot_logcdf  = FALSE;
+  int     plot_surv    = FALSE;
+  int     plot_logsurv = FALSE;
+  int     xmin_set     = FALSE;
+  double  xmin;
+  int     xmax_set     = FALSE;
+  double  xmax;
+  int     xstep_set    = FALSE;
+  double  xstep;
+  int     do_fixmix    = FALSE;
+
+  for (opti = 1; opti < argc && *(argv[opti]) == '-'; opti++)
+    {
+      if      (strcmp(argv[opti], "-f")  == 0) do_fixmix    = TRUE;
+      else if (strcmp(argv[opti], "-i")  == 0) paramfile    = argv[++opti];
+      else if (strcmp(argv[opti], "-n")  == 0) n            = atoi(argv[++opti]);
+      else if (strcmp(argv[opti], "-o")  == 0) plotfile     = argv[++opti];
+      else if (strcmp(argv[opti], "-v")  == 0) be_verbose   = TRUE;
+      else if (strcmp(argv[opti], "-w")  == 0) binwidth     = atof(argv[++opti]);
+      else if (strcmp(argv[opti], "-C")  == 0) plot_cdf     = TRUE;
+      else if (strcmp(argv[opti], "-LC") == 0) plot_logcdf  = TRUE;
+      else if (strcmp(argv[opti], "-P")  == 0) plot_pdf     = TRUE;
+      else if (strcmp(argv[opti], "-LP") == 0) plot_logpdf  = TRUE;
+      else if (strcmp(argv[opti], "-S")  == 0) plot_surv    = TRUE;
+      else if (strcmp(argv[opti], "-LS") == 0) plot_logsurv = TRUE;
+      else if (strcmp(argv[opti], "-XL") == 0) { xmin_set  = TRUE; xmin  = atof(argv[++opti]); }
+      else if (strcmp(argv[opti], "-XH") == 0) { xmax_set  = TRUE; xmax  = atof(argv[++opti]); }
+      else if (strcmp(argv[opti], "-XS") == 0) { xstep_set = TRUE; xstep = atof(argv[++opti]); }
+      else ESL_EXCEPTION(eslEINVAL, "bad option");
+    }
+
+  if (paramfile != NULL)
+    esl_hyperexp_ReadFile(paramfile, &hxp);
+  else 
+    {
+      hxp = esl_hyperexp_Create(3);
+      hxp->mu = -2.0;
+      hxp->q[0]      = 0.5;    hxp->q[1]      = 0.3;   hxp->q[2]      = 0.2; 
+      hxp->lambda[0] = 1.0;    hxp->lambda[1] = 0.3;   hxp->lambda[2] = 0.1;
+    }
+  if (do_fixmix) esl_hyperexp_FixedUniformMixture(hxp);	/* overrides q's above */
+
+  if (be_verbose) esl_hyperexp_Dump(stdout, hxp);
+
+  r = esl_randomness_Create(42);
+  h = esl_histogram_CreateFull(hxp->mu, 100., binwidth);
+  if (plotfile != NULL) {
+    if ((pfp = fopen(plotfile, "w")) == NULL) 
+      ESL_EXCEPTION(eslFAIL, "Failed to open plotfile");
+  }
+  if (! xmin_set)  xmin  = hxp->mu;
+  if (! xmax_set)  xmax  = hxp->mu+ 20*(1. / esl_vec_DMin(hxp->lambda, hxp->K));
+  if (! xstep_set) xstep = 0.1;
+
+  for (i = 0; i < n; i++)
+    {
+      x = esl_hxp_Sample(r, hxp);
+      esl_histogram_Add(h, x);
+    }
+
+  esl_histogram_GetData(h, &data, &ndata); /* get sorted data vector */
+
+  ehxp = esl_hyperexp_Create(hxp->K);
+  if (do_fixmix) esl_hyperexp_FixedUniformMixture(ehxp);
+  esl_hxp_FitGuess(data, ndata, ehxp);  
+  esl_hxp_FitComplete(data, ndata, ehxp);
+
+  if (be_verbose) esl_hyperexp_Dump(stdout, ehxp);
+
+  if (fabs( (ehxp->mu-hxp->mu)/hxp->mu ) > 0.01)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted mu > 1%\n");
+  for (ek = 0; ek < ehxp->K; ek++)
+    {  /* try to match each estimated lambda up to a parametric lambda */
+      mindiff = 1.0;
+      mink    = -1;
+      for (k = 0; k < hxp->K; k++)
+	{
+	  diff =  fabs( (ehxp->lambda[ek] - hxp->lambda[k]) / hxp->lambda[k]);
+	  if (diff < mindiff) {
+	    mindiff = diff;
+	    mink    = k;
+	  }
+	}
+      if (mindiff > 0.50)
+	ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted lambda > 50%\n");
+      if (fabs( (ehxp->q[ek] - hxp->q[mink]) / hxp->q[mink]) > 1.0)
+	ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted q > 2-fold%\n");
+    }
+
+  esl_hxp_FitGuessBinned(h, ehxp);  
+  esl_hxp_FitCompleteBinned(h, ehxp);
+  if (be_verbose)  esl_hyperexp_Dump(stdout, ehxp);
+
+  if (fabs( (ehxp->mu-hxp->mu)/hxp->mu ) > 0.01)
+     ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted mu > 1%\n");
+  for (ek = 0; ek < ehxp->K; ek++)
+    {  /* try to match each estimated lambda up to a parametric lambda */
+      mindiff = 1.0;
+      mink    = -1;
+      for (k = 0; k < hxp->K; k++)
+	{
+	  diff =  fabs( (ehxp->lambda[ek] - hxp->lambda[k]) / hxp->lambda[k]);
+	  if (diff < mindiff) {
+	    mindiff = diff;
+	    mink    = k;
+	  }
+	}
+      if (mindiff > 0.50)
+	ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted lambda > 50%\n");
+      if (fabs( (ehxp->q[ek] - hxp->q[mink]) / hxp->q[mink]) > 1.0)
+	ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted q > 2-fold\n");
+    }
+
+  if (plot_pdf)     esl_hxp_Plot(pfp, hxp, &esl_hxp_pdf,     xmin, xmax, xstep);
+  if (plot_logpdf)  esl_hxp_Plot(pfp, hxp, &esl_hxp_logpdf,  xmin, xmax, xstep);
+  if (plot_cdf)     esl_hxp_Plot(pfp, hxp, &esl_hxp_cdf,     xmin, xmax, xstep);
+  if (plot_logcdf)  esl_hxp_Plot(pfp, hxp, &esl_hxp_logcdf,  xmin, xmax, xstep);
+  if (plot_surv)    esl_hxp_Plot(pfp, hxp, &esl_hxp_surv,    xmin, xmax, xstep);
+  if (plot_logsurv) esl_hxp_Plot(pfp, hxp, &esl_hxp_logsurv, xmin, xmax, xstep);
+
+  if (plotfile != NULL) fclose(pfp);
+  esl_histogram_Destroy(h);
+  esl_hyperexp_Destroy(hxp);
+  esl_hyperexp_Destroy(ehxp);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+#endif /*eslHYPEREXP_TESTDRIVE*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_hyperexp.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_hyperexp.c $
+ *****************************************************************/
+
+/* xref STL9/140 */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.h
new file mode 100755
index 0000000..f221692
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.h
@@ -0,0 +1,81 @@
+/* Hyperexponential (mixture exponential) distributions.
+ * 
+ */
+#ifndef eslHYPEREXP_INCLUDED
+#define eslHYPEREXP_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include <esl_histogram.h>
+#endif
+#ifdef eslAUGMENT_FILEPARSER
+#include <esl_fileparser.h>
+#endif
+
+typedef struct {
+  double *q;			/* mixture coefficients   [0..K-1]*/
+  double *lambda;		/* scale params           [0..K-1]*/
+  double *wrk;			/* tmp K-vector, for logpdf calc  */
+  double  mu;			/* location (x offset) parameter  */
+  int     K;			/* # of components                */
+  char   *fixlambda;		/* TRUE to constrain a lambda val */
+  int     fixmix;		/* TRUE to constrain the q's      */
+} ESL_HYPEREXP;
+
+
+extern ESL_HYPEREXP *esl_hyperexp_Create(int K);
+extern void          esl_hyperexp_Destroy(ESL_HYPEREXP *h);
+extern int           esl_hyperexp_Copy(ESL_HYPEREXP *src, ESL_HYPEREXP *dest);
+extern int           esl_hyperexp_FixedUniformMixture(ESL_HYPEREXP *h);
+extern int           esl_hyperexp_SortComponents(ESL_HYPEREXP *h);
+extern int           esl_hyperexp_Write(FILE *fp, ESL_HYPEREXP *hxp);
+extern int           esl_hyperexp_Dump(FILE *fp, ESL_HYPEREXP *hxp);
+#ifdef eslAUGMENT_FILEPARSER
+extern int           esl_hyperexp_Read(ESL_FILEPARSER *ef, ESL_HYPEREXP **ret_hxp);
+extern int           esl_hyperexp_ReadFile(char *filename, ESL_HYPEREXP **ret_hxp);
+#endif
+
+extern double  esl_hxp_pdf    (double x, ESL_HYPEREXP *h);
+extern double  esl_hxp_logpdf (double x, ESL_HYPEREXP *h);
+extern double  esl_hxp_cdf    (double x, ESL_HYPEREXP *h);
+extern double  esl_hxp_logcdf (double x, ESL_HYPEREXP *h);
+extern double  esl_hxp_surv   (double x, ESL_HYPEREXP *h);
+extern double  esl_hxp_logsurv(double x, ESL_HYPEREXP *h);
+extern double  esl_hxp_invcdf (double p, ESL_HYPEREXP *h);
+
+extern double  esl_hxp_generic_pdf   (double x, void *params);
+extern double  esl_hxp_generic_cdf   (double x, void *params);
+extern double  esl_hxp_generic_surv  (double x, void *params);
+extern double  esl_hxp_generic_invcdf(double x, void *params);
+
+extern int esl_hxp_Plot(FILE *fp, ESL_HYPEREXP *h,
+			double (*func)(double x, ESL_HYPEREXP *h), 
+			double xmin, double xmax, double xstep);
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_hxp_Sample(ESL_RANDOMNESS *r, ESL_HYPEREXP *h);
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+extern int esl_hxp_FitGuess   (double *x, int n, ESL_HYPEREXP *h);
+extern int esl_hxp_FitComplete(double *x, int n, ESL_HYPEREXP *h);
+#ifdef eslAUGMENT_HISTOGRAM
+extern int esl_hxp_FitGuessBinned   (ESL_HISTOGRAM *g, ESL_HYPEREXP *h);
+extern int esl_hxp_FitCompleteBinned(ESL_HISTOGRAM *g, ESL_HYPEREXP *h);
+#endif
+#endif
+
+#endif /*eslHYPEREXP_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_hyperexp.h 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_hyperexp.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.tex
new file mode 100755
index 0000000..9cbd753
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_hyperexp.tex
@@ -0,0 +1,37 @@
+
+The hyperexponential (mixture exponential) distribution may be useful
+for fitting fat-tailed empirical distributions. 
+
+\subsection{Hyperexponential densities}
+
+The hyperexponential distribution is a mixture of $K$ independent
+exponentials with a common location $\mu$ and different decay
+constants $\lambda_k$.
+
+The probability density function (PDF) is:
+
+\begin{equation}
+P(X=x) = \sum_k^{K} q_k \lambda_k e^{- \lambda_k (x - \mu)}
+\label{eqn:hyperexp_pdf}
+\end{equation}
+
+The cumulative distribution function (CDF) is:
+
+\begin{equation}
+P(X \leq x) = \sum_k^{K} q_k (1 - e^{- \lambda_k (x - \mu)})
+\label{eqn:hyperexp_cdf}
+\end{equation}
+
+Variate $x$ ranges $\mu \leq x < \infty$.
+
+Mixture coefficients $q_k$ specify the prior probability of each
+component $k$; $0 \leq q_k \leq 1$ and $\sum_k q_k = 1$.
+
+The single location parameter $\mu$ is unconstrained, $-\infty < \mu <
+\infty$. (Exponential distributions are usually represented without an
+explicit location parameter, implicitly assuming $\mu = 0$.)
+
+The scale parameters $\lambda_k$ for each component are nonnegative,
+$\lambda_k > 0$.
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.c
new file mode 100755
index 0000000..21ea1fd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.c
@@ -0,0 +1,859 @@
+/* Partial emulation of Perl hashes (associative arrays),
+ * mapping keys (ASCII char strings) to array indices.
+ * 
+ * Contents:
+ *    1. The <ESL_KEYHASH> object.
+ *    2. Storing and retrieving keys.
+ *    3. Internal functions.        
+ *    4. Benchmark drivers.
+ *    5. Unit tests.
+ *    6. Test driver.
+ *    7. Example.
+ *    8. Copyright and license information.
+ * 
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <limits.h>
+
+#include "easel.h"
+#include "esl_mem.h"
+#include "esl_keyhash.h"
+
+static ESL_KEYHASH *keyhash_create(uint32_t hashsize, int init_key_alloc, int init_string_alloc);
+static uint32_t     jenkins_hash(const char *key, esl_pos_t n, uint32_t hashsize);
+static int          key_upsize(ESL_KEYHASH *kh);
+
+
+/*****************************************************************
+ *# 1. The <ESL_KEYHASH> object
+ *****************************************************************/ 
+
+/* Function:  esl_keyhash_Create()
+ * Synopsis:  Allocates a new keyhash.
+ *
+ * Purpose:   Create a new hash table for key indexing, and returns
+ *            a pointer to it.
+ *            
+ * Throws:    <NULL> on allocation failure.
+ *            
+ * Note:      128*sizeof(int)*3 + 2048*sizeof(char) + sizeof(ESL_KEYHASH):
+ *            about 2400 bytes for an initial KEYHASH.
+ */
+ESL_KEYHASH *
+esl_keyhash_Create(void)
+{
+  return keyhash_create(128,   /* initial hash table size (power of 2)              */
+			128,   /* initial alloc for up to 128 keys                  */
+			2048); /* initial alloc for keys totalling up to 2048 chars */
+}
+
+
+/* Function:  esl_keyhash_CreateCustom()
+ * Synopsis:  Allocate a new keyhash with customized initial allocations.
+ *
+ * Purpose:   Create a new hash table, initially allocating for
+ *            a hash table of size <hashsize> entries, <kalloc> 
+ *            keys, and a total key string length of <salloc>.
+ *            <hashsize> must be a power of 2, and all allocations
+ *            must be $\geq 0$. 
+ *            
+ *            The object will still expand as needed, so the reason to
+ *            use a customized allocation is when you're trying to
+ *            minimize memory footprint and you expect your keyhash to
+ *            be smaller than the default (of up to 128 keys, of total
+ *            length up to 2048).
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_KEYHASH *
+esl_keyhash_CreateCustom(uint32_t hashsize, int kalloc, int salloc)
+{
+  ESL_DASSERT1((hashsize && ((hashsize & (hashsize-1)) == 0))); /* hashsize is a power of 2 (bitshifting trickery) */
+  return keyhash_create(hashsize, kalloc, salloc);
+}
+
+/* Function:  esl_keyhash_Clone()
+ * Synopsis:  Duplicates a keyhash.
+ *
+ * Purpose:   Allocates and duplicates a keyhash <kh>. Returns a
+ *            pointer to the duplicate.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_KEYHASH *
+esl_keyhash_Clone(const ESL_KEYHASH *kh)
+{
+  ESL_KEYHASH *nw;		
+  int          h;
+
+  if ((nw = keyhash_create(kh->hashsize, kh->kalloc, kh->salloc)) == NULL) goto ERROR;
+
+  for (h = 0; h < kh->hashsize; h++)
+    nw->hashtable[h] = kh->hashtable[h];
+
+  for (h = 0; h < kh->nkeys; h++)  
+    {
+      nw->nxt[h]        = kh->nxt[h];
+      nw->key_offset[h] = kh->key_offset[h];
+    }
+  nw->nkeys = kh->nkeys;
+
+  memcpy(nw->smem, kh->smem, sizeof(char) * kh->sn);
+  nw->sn = kh->sn;
+  return nw;
+  
+ ERROR:
+  esl_keyhash_Destroy(nw);
+  return NULL;
+}
+
+
+/* Function:  esl_keyhash_Get()
+ * Synopsis:  Returns a key name, given its index.
+ *
+ * Purpose:   Returns a pointer to the key name associated
+ *            with index <idx>. The key name is a <NUL>-terminated 
+ *            string whose memory is managed internally in
+ *            the keyhash <kh>.
+ */
+char *
+esl_keyhash_Get(const ESL_KEYHASH *kh, int idx)
+{
+  return kh->smem + kh->key_offset[idx];
+}
+
+/* Function:  esl_keyhash_GetNumber()
+ * Synopsis:  Returns the total number of keys stored.
+ *
+ * Purpose:   Returns the total number of keys currently stored in the
+ *            keyhash <kh>.
+ */
+int 
+esl_keyhash_GetNumber(const ESL_KEYHASH *kh)
+{
+  return kh->nkeys;
+}
+
+/* Function:  esl_keyhash_Sizeof()
+ * Synopsis:  Returns the size of a keyhash object, in bytes.
+ */
+size_t
+esl_keyhash_Sizeof(const ESL_KEYHASH *kh)
+{
+  size_t n = 0;
+
+  n += sizeof(ESL_KEYHASH);
+  n += sizeof(int)  * kh->hashsize;
+  n += sizeof(int)  * kh->kalloc * 2;
+  n += sizeof(char) * kh->salloc;
+  return n;
+}
+
+/* Function:  esl_keyhash_Reuse()
+ * Synopsis:  Recycle a keyhash.
+ *
+ * Purpose:   Empties keyhash <kh> so it can be reused without
+ *            creating a new one. 
+ *
+ * Returns:   <eslOK> on success.
+ */
+int 
+esl_keyhash_Reuse(ESL_KEYHASH *kh)
+{
+  int i;
+
+  for (i = 0; i < kh->hashsize; i++) kh->hashtable[i] = -1;
+  kh->nkeys = 0;
+  kh->sn = 0;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_keyhash_Destroy()
+ * Synopsis:  Frees a keyhash.
+ *
+ * Purpose:   Destroys <kh>.
+ *
+ * Returns:   (void)
+ */
+void
+esl_keyhash_Destroy(ESL_KEYHASH *kh)
+{
+  if (kh == NULL) return;	
+  if (kh->hashtable  != NULL) free(kh->hashtable);
+  if (kh->key_offset != NULL) free(kh->key_offset);
+  if (kh->nxt        != NULL) free(kh->nxt);
+  if (kh->smem       != NULL) free(kh->smem);
+  free(kh);
+}
+
+/* Function:  esl_keyhash_Dump()
+ * Synopsis:  Dumps debugging information about a keyhash.
+ *
+ * Purpose:   Mainly for debugging purposes. Dump 
+ *            some information about the hash table <kh>
+ *            to the stream <fp>, which might be stderr
+ *            or stdout.
+ */
+void
+esl_keyhash_Dump(FILE *fp, const ESL_KEYHASH *kh)
+{
+  int idx;
+  int h;
+  int nkeys;
+  int nempty  = 0;
+  int maxkeys = -1;
+  int minkeys = INT_MAX;
+
+  for (h = 0; h < kh->hashsize; h++)
+    {
+      for (nkeys = 0, idx = kh->hashtable[h]; idx != -1; idx = kh->nxt[idx]) nkeys++;
+
+      if (nkeys == 0)      nempty++;
+      if (nkeys > maxkeys) maxkeys = nkeys;
+      if (nkeys < minkeys) minkeys = nkeys;
+    }
+
+  fprintf(fp, "Total keys:             %d\n", kh->nkeys);
+  fprintf(fp, "Hash table size:        %d\n", kh->hashsize);
+  fprintf(fp, "Average occupancy:      %.2f\n", (float) kh->nkeys /(float) kh->hashsize);
+  fprintf(fp, "Unoccupied slots:       %d\n", nempty);
+  fprintf(fp, "Most in one slot:       %d\n", maxkeys);
+  fprintf(fp, "Least in one slot:      %d\n", minkeys);
+  fprintf(fp, "Keys allocated for:     %d\n", kh->kalloc);
+  fprintf(fp, "Key string space alloc: %d\n", kh->salloc);
+  fprintf(fp, "Key string space used:  %d\n", kh->sn);
+  fprintf(fp, "Total obj size, bytes:  %d\n", (int) esl_keyhash_Sizeof(kh));
+}
+/*--------------- end, <ESL_KEYHASH> object ---------------------*/
+
+
+
+
+/*****************************************************************
+ *# 2. Storing and retrieving keys 
+ *****************************************************************/ 
+
+/* Function: esl_keyhash_Store()
+ * Synopsis: Store a key and get a key index for it.
+ *
+ * Purpose:  Store a string <key> of length <n> in the key index hash table <kh>.
+ *           Associate it with a unique key index, counting from
+ *           0. It's this index that lets us map the hashed keys to
+ *           integer-indexed C arrays, clumsily emulating Perl's
+ *           hashes. Optionally returns the index through <opt_index>.
+ *           
+ *           <key>, <n> follow the standard idiom for strings and
+ *           unterminated buffers.
+ *
+ * Returns:  <eslOK> on success; stores <key> in <kh>; <opt_index> is 
+ *           returned, set to the next higher index value.
+ *           Returns <eslEDUP> if <key> was already stored in the table;
+ *           <opt_index> is set to the existing index for <key>.
+ *
+ * Throws:   <eslEMEM> on allocation failure, and sets <opt_index> to -1.
+ */
+int
+esl_keyhash_Store(ESL_KEYHASH *kh, const char *key, esl_pos_t n, int *opt_index)
+{
+  uint32_t val = jenkins_hash(key, n, kh->hashsize);
+  int idx;
+  int status;
+  
+  if (n == -1) n = strlen(key);
+
+  /* Was this key already stored?  */
+  for (idx = kh->hashtable[val]; idx != -1; idx = kh->nxt[idx])
+    if (esl_memstrcmp(key, n, kh->smem + kh->key_offset[idx]))
+      { 
+	if (opt_index != NULL) *opt_index = idx; 
+	return eslEDUP; 
+      }
+
+  /* Reallocate key ptr/index memory if needed */
+  if (kh->nkeys == kh->kalloc) 
+    { 
+      ESL_REALLOC(kh->key_offset, sizeof(int)*kh->kalloc*2);
+      ESL_REALLOC(kh->nxt,        sizeof(int)*kh->kalloc*2);
+      kh->kalloc *= 2;
+    }
+
+  /* Reallocate key string memory if needed */
+  while (kh->sn + n + 1 > kh->salloc)
+    {
+      ESL_REALLOC(kh->smem, sizeof(char) * kh->salloc * 2);
+      kh->salloc *= 2;
+    }
+
+  /* Copy the key, assign its index */
+  idx                 = kh->nkeys;
+  kh->key_offset[idx] = kh->sn;
+  kh->sn             += n+1;
+  esl_memstrcpy(key, n, kh->smem + kh->key_offset[idx]);
+  kh->nkeys++;
+
+  /* Insert new element at head of the approp linked list in hashtable */
+  kh->nxt[idx]       = kh->hashtable[val];
+  kh->hashtable[val] = idx;
+
+  /* Time to upsize? If we're 3x saturated, expand the hash table */
+  if (kh->nkeys > 3*kh->hashsize)
+    if ((status = key_upsize(kh)) != eslOK) goto ERROR;
+
+  if (opt_index != NULL) *opt_index = idx;
+  return eslOK;
+
+ ERROR:
+  if (opt_index != NULL) *opt_index = -1;
+  return status;
+}
+
+/* Function:  esl_keyhash_Lookup()
+ * Synopsis:  Look up a key's array index.
+ *
+ * Purpose:   Look up a <key> in the hash table <kh>.
+ *            If <key> is found, return <eslOK>, and optionally set <*opt_index>
+ *            to its array index (0..nkeys-1).
+ *            If <key> is not found, return <eslENOTFOUND>, and
+ *            optionally set <*opt_index> to -1.
+ */
+int
+esl_keyhash_Lookup(const ESL_KEYHASH *kh, const char *key, esl_pos_t n, int *opt_index)
+{
+  uint32_t val  = jenkins_hash(key, n, kh->hashsize);
+  int      idx;
+
+  for (idx = kh->hashtable[val]; idx != -1; idx = kh->nxt[idx])
+    if (strcmp(key, kh->smem + kh->key_offset[idx]) == 0) 
+      { 
+	if (opt_index != NULL) *opt_index = idx;
+	return eslOK; 
+      }
+
+  if (opt_index != NULL) *opt_index = -1;
+  return eslENOTFOUND;
+}
+
+
+/*---------- end, API for storing/retrieving keys ---------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Internal functions
+ *****************************************************************/ 
+
+/* keyhash_create()
+ * 
+ * The real creation function, which takes arguments for memory sizes.
+ * This is abstracted to a static function because it's used by both
+ * Create() and Clone() but slightly differently.
+ *
+ * Args:  hashsize          - size of hash table; this must be a power of two.
+ *        init_key_alloc    - initial allocation for # of keys.
+ *        init_string_alloc - initial allocation for total size of key strings.
+ *
+ * Returns:  An allocated hash table structure; or NULL on failure.
+ */
+ESL_KEYHASH *
+keyhash_create(uint32_t hashsize, int init_key_alloc, int init_string_alloc)
+{
+  ESL_KEYHASH *kh = NULL;
+  int  i;
+  int  status;
+
+  ESL_ALLOC(kh, sizeof(ESL_KEYHASH));
+  kh->hashtable  = NULL;
+  kh->key_offset = NULL;
+  kh->nxt        = NULL;
+  kh->smem       = NULL;
+
+  kh->hashsize  = hashsize;
+  kh->kalloc    = init_key_alloc;
+  kh->salloc    = init_string_alloc;
+
+  ESL_ALLOC(kh->hashtable, sizeof(int) * kh->hashsize);
+  for (i = 0; i < kh->hashsize; i++)  kh->hashtable[i] = -1;
+
+  ESL_ALLOC(kh->key_offset, sizeof(int) * kh->kalloc);
+  ESL_ALLOC(kh->nxt,        sizeof(int) * kh->kalloc);
+  for (i = 0; i < kh->kalloc; i++)  kh->nxt[i] = -1;
+
+  ESL_ALLOC(kh->smem,   sizeof(char) * kh->salloc);
+  kh->nkeys = 0;
+  kh->sn    = 0;
+  return kh;
+
+ ERROR:
+  esl_keyhash_Destroy(kh);
+  return NULL;
+}
+
+
+/* jenkins_hash()
+ * 
+ * The hash function.
+ * This is Bob Jenkins' "one at a time" hash.
+ * <key> is a NUL-terminated string of any length.
+ * <hashsize> must be a power of 2.
+ * 
+ * References:
+ * [1]  http://en.wikipedia.org/wiki/Hash_table
+ * [2]  http://www.burtleburtle.net/bob/hash/doobs.html
+ */
+static uint32_t
+jenkins_hash(const char *key, esl_pos_t n, uint32_t hashsize)
+{
+  esl_pos_t pos;
+  uint32_t  val = 0;
+
+  if (n == -1) 
+    { /* string version */
+      for (; *key != '\0'; key++)
+	{
+	  val += *key;
+	  val += (val << 10);
+	  val ^= (val >>  6);
+	}
+    } 
+  else 
+    { /* buffer version */
+      for (pos = 0; pos < n; pos++)
+      {
+	val += key[pos];
+	val += (val << 10);
+	val ^= (val >>  6);
+      }
+    }
+  val += (val <<  3);
+  val ^= (val >> 11);
+  val += (val << 15);
+
+  return (val & (hashsize - 1));
+}
+
+/* key_upsize()
+ *
+ * Grow the hash table to the next available size.
+ *
+ * Args:     old - the KEY hash table to reallocate.
+ *
+ * Returns:  <eslOK> on success. 'Success' includes the case
+ *           where the hash table is already at its maximum size,
+ *           and cannot be upsized any more.
+ *           
+ * Throws:   <eslEMEM> on allocation failure, and
+ *           the hash table is left in its initial state.
+ */
+static int
+key_upsize(ESL_KEYHASH *kh)
+{
+  void     *p;
+  int       i;
+  uint32_t  val;
+  int       status;
+
+  /* 28 below because we're going to upsize in steps of 8x (2^3); need to be < 2^{31-3} */
+  if (kh->hashsize >= (1<<28)) return eslOK; /* quasi-success (can't grow any more)    */
+
+  /* The catch here is that when you upsize the table, all the hash functions
+   * change; so you have to go through all the keys, recompute their hash functions,
+   * and store them again in the new table.
+   */
+  /* Allocate a new, larger hash table. (Don't change <kh> until this succeeds) */
+  ESL_RALLOC(kh->hashtable, p, sizeof(int) * (kh->hashsize << 3));
+  kh->hashsize  = kh->hashsize << 3; /* 8x */
+  for (i = 0; i < kh->hashsize; i++) kh->hashtable[i] = -1;
+
+  /* Store all the keys again. */
+  for (i = 0; i < kh->nkeys; i++) 
+    {
+      val                = jenkins_hash(kh->smem + kh->key_offset[i], -1, kh->hashsize);
+      kh->nxt[i]         = kh->hashtable[val];
+      kh->hashtable[val] = i;
+    }
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+/*--------------- end, internal functions -----------------*/
+
+
+/*****************************************************************
+ * 4. Benchmark driver
+ *****************************************************************/
+#ifdef eslKEYHASH_BENCHMARK
+/* 
+   gcc -g -O2 -o keyhash_benchmark -I. -L. -DeslKEYHASH_BENCHMARK esl_keyhash.c -leasel -lm
+   time ./keyhash_benchmark /usr/share/dict/words /usr/share/dict/words
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <keyfile1> <keyfile2>";
+static char banner[] = "benchmarking speed of keyhash module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  ESL_KEYHASH    *kh      = esl_keyhash_Create();
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  char           *file1   = esl_opt_GetArg(go, 1);
+  char           *file2   = esl_opt_GetArg(go, 2);
+  FILE           *fp;
+  char            buf[256];
+  char           *s, *tok;
+  int             idx;
+  int             nstored, nsearched, nshared;
+
+  /* Read/store keys from file 1.
+   */
+  esl_stopwatch_Start(w);
+  if ((fp = fopen(file1, "r")) == NULL)
+    { fprintf(stderr, "couldn't open %s\n", argv[1]); exit(1); }
+  nstored = 0;
+  while (fgets(buf, 256, fp) != NULL)
+    {
+      s = buf;
+      esl_strtok(&s, " \t\r\n", &tok);
+      esl_keyhash_Store(kh, tok, -1, &idx);
+      nstored++;
+    }
+  fclose(fp);
+  printf("Stored %d keys.\n", nstored);
+
+  /* Look up keys from file 2.
+   */
+  if ((fp = fopen(file2, "r")) == NULL)
+    { fprintf(stderr, "couldn't open %s\n", argv[2]); exit(1); }
+  nsearched = nshared = 0;
+  while (fgets(buf, 256, fp) != NULL)
+    {
+      s = buf;
+      esl_strtok(&s, " \t\r\n", &tok);
+
+      if (esl_keyhash_Lookup(kh, tok, -1, &idx) == eslOK) nshared++;
+      nsearched++;
+    }
+  fclose(fp);
+  esl_stopwatch_Stop(w);
+  printf("Looked up %d keys.\n", nsearched);
+  printf("In common: %d keys.\n", nshared);
+  esl_stopwatch_Display(stdout, w, "# CPU Time: ");
+
+  esl_stopwatch_Destroy(w);
+  esl_keyhash_Destroy(kh);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslKEYHASH_BENCHMARK*/
+
+
+
+#ifdef eslKEYHASH_BENCHMARK2
+
+/* Benchmark #2 is a benchmark just of the hash function.
+ * First we read in a bunch of keys from any file, one key per line.
+ * Then we start timing, and compute a hash for each key.
+ */
+
+/* gcc -O2 -o keyhash_benchmark2 -I. -L. -DeslKEYHASH_BENCHMARK2 esl_keyhash.c -leasel -lm
+ * ./keyhash_benchmark2 <keyfile>
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_stats.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show statistical test for hash uniformity",        0 },
+  { "-v",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "be verbose: print hash values for keys",           0 },
+  { "-x",        eslARG_INT,   "32768", NULL, NULL,  NULL,  NULL, NULL, "set hash table size to <n>",                       0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <keyfile>";
+static char banner[] = "benchmarking speed of hash function in keyhash module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go         = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_FILEPARSER *efp        = NULL;
+  ESL_STOPWATCH  *w          = esl_stopwatch_Create();
+  ESL_KEYHASH    *kh         = esl_keyhash_Create();
+  char           *keyfile    = esl_opt_GetArg(go, 1);
+  uint32_t        hashsize   = esl_opt_GetInteger(go, "-x");
+  char           *key;
+  int             keylen;
+  char          **karr       = NULL;
+  int             kalloc;
+  int            *ct         = NULL;
+  int             nkeys;
+  int             i;
+  int             status;
+  uint32_t (*hashfunc)(const char*,uint32_t) = jenkins_hash;
+  
+  /* 1. Store the keys from the file, before starting the benchmark timer. */
+  kalloc = 256;
+  ESL_ALLOC(karr, sizeof(char *) * kalloc);
+
+  if (esl_fileparser_Open(keyfile, NULL, &efp) != eslOK) esl_fatal("Failed to open key file %s\n", keyfile);
+  
+  nkeys = 0;
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (esl_fileparser_GetTokenOnLine(efp, &key, &keylen) != eslOK) esl_fatal("Failure in parsing key file\n");
+
+      if (nkeys == kalloc) {
+	void *tmp;
+	ESL_RALLOC(karr, tmp, sizeof(char *) * kalloc * 2);
+	kalloc *= 2;
+      }
+
+      esl_strdup(key, keylen, &(karr[nkeys]));
+      nkeys++;
+    }
+  esl_fileparser_Close(efp);
+  /* and karr[0..nkeys-1] are now the keys. */
+
+
+  /* 2. benchmark hashing the keys. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < nkeys; i++) (*hashfunc)(karr[i], hashsize);
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU Time: ");
+
+  /* If user wanted to see the hashes, do that 
+   * separately, outside the timing loop.
+   */
+  if (esl_opt_GetBoolean(go, "-v"))
+    {
+      for (i = 0; i < nkeys; i++) 
+	printf("%-20s %9d\n", karr[i], (*hashfunc)(karr[i], hashsize));
+    }
+
+  /* Likewise, if user wanted to see statistical uniformity test...
+   */
+  if (esl_opt_GetBoolean(go, "-s"))
+    {
+      double mean, var, X2, pval;
+
+      ESL_ALLOC(ct, sizeof(int) * hashsize);
+      esl_vec_ISet(ct, hashsize, 0);
+      for (i = 0; i < nkeys; i++) ct[(*hashfunc)(karr[i], hashsize)]++;
+      
+      esl_stats_IMean(ct, hashsize, &mean, &var);
+      for (X2 = 0.0, i = 0; i < hashsize; i++)
+	X2 += (((double) ct[i] - mean) *  ((double) ct[i] - mean)) / mean;
+
+      esl_stats_ChiSquaredTest(hashsize-1, X2, &pval);
+
+      printf("Number of keys:      %d\n",   nkeys);
+      printf("Hash table size:     %d\n",   hashsize);
+      printf("Mean hash occupancy: %.2f\n", mean);
+      printf("Minimum:             %d\n",   esl_vec_IMin(ct, hashsize));
+      printf("Maximum:             %d\n",   esl_vec_IMax(ct, hashsize));
+      printf("Variance:            %.2f\n", var);
+      printf("Chi-squared:         %.2f\n", X2);
+      printf("Chi-squared p-value: %.4f\n", pval);
+    }
+      
+
+  /* 3. cleanup, exit. */
+  for (i = 0; i < nkeys; i++) free(karr[i]);
+  free(karr);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+
+ ERROR:
+  return status;
+}
+#endif /*eslKEYHASH_BENCHMARK2*/
+
+
+/*------------------- end, benchmark drivers --------------------*/
+
+
+/*****************************************************************
+ * 5. Unit tests
+ *****************************************************************/
+
+
+/*---------------------- end, unit tests ------------------------*/
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef eslKEYHASH_TESTDRIVE
+/* gcc -g -Wall -o test -I. -DeslKEYHASH_TESTDRIVE keyhash.c easel.c 
+ * ./test
+ */
+#include <stdlib.h>
+#include <stdio.h>
+#include <assert.h>
+#include "easel.h"
+#include "esl_keyhash.h"
+
+#define NSTORE  1200
+#define NLOOKUP 1200
+#define KEYLEN  2
+
+int
+main(int argc, char **argv)
+{
+  ESL_KEYHASH *h;
+  char keys[NSTORE+NLOOKUP][KEYLEN+1]; 
+  int  i,j,nk,k42;
+  int  nmissed;
+  int  status;
+
+  /* Generate 2400 random k=2 keys. 26^2 = 676 possible.
+   * We'll store the first 1200 and search on the remaining
+   * 1200. We're ~1.775x saturated; expect Poisson P(0) = 17% miss
+   * rate on the searches, so we ought to exercise hits and
+   * misses on the lookups.
+   */
+  srand(31);
+  for (i = 0; i < NSTORE+NLOOKUP; i++)
+    {
+      for (j = 0; j < KEYLEN; j++)
+	keys[i][j] = 'a' + (rand() % 26); /* yeah, low-order bits; so sue me */
+      keys[i][j] = '\0';
+    }
+  /* spike a known one in (XX.. at key 42).
+   */
+  for (j = 0; j < KEYLEN; j++)
+    keys[42][j] = 'X';
+
+  h = esl_keyhash_Create();
+  nk = 0;
+  for (i = 0; i < NSTORE; i++)
+    {
+      status = esl_keyhash_Store(h, keys[i], -1, &j);
+      if      (status == eslOK)   { assert(j==nk); nk++; }
+      else if (status == eslEDUP) { assert(j<nk); }
+      else esl_fatal("store failed.");
+
+      if (i == 42) { k42 = j;}	/* remember where key 42 went */
+    }
+  nmissed = 0;
+  for (i = NSTORE; i < NSTORE+NLOOKUP; i++)
+    {
+      if (esl_keyhash_Lookup(h, keys[i], -1, &j) != eslOK) nmissed++;
+    }
+  esl_keyhash_Lookup(h, keys[42], -1, &j);
+  assert(j==k42);
+
+  /* 
+  printf("missed %d/%d (%.1f%%)\n", nmissed, NLOOKUP, 
+	 100. * (float) nmissed / (float) NLOOKUP);
+  esl_keyhash_Dump(stdout, h);
+  */
+
+  esl_keyhash_Destroy(h);
+  exit (0);
+}
+#endif /*eslKEYHASH_TESTDRIVE*/
+
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example
+ *****************************************************************/
+#ifdef eslKEYHASH_EXAMPLE
+/*::cexcerpt::keyhash_example::begin::*/
+/* gcc -g -Wall -o keyhash_example -I. -DeslKEYHASH_EXAMPLE esl_keyhash.c easel.c 
+ * ./example /usr/share/dict/words /usr/share/dict/words
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_keyhash.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_KEYHASH *h   = esl_keyhash_Create();
+  FILE        *fp;
+  char         buf[256];
+  char        *s, *tok;
+  int          idx;
+  int          nstored, nsearched, nshared;
+
+  /* Read/store keys from file 1. */
+  if ((fp = fopen(argv[1], "r")) == NULL) esl_fatal("couldn't open %s\n", argv[1]);
+  nstored = 0;
+  while (fgets(buf, 256, fp) != NULL)
+    {
+      s = buf;
+      esl_strtok(&s, " \t\r\n", &tok);
+      esl_keyhash_Store(h, tok, -1, &idx);
+      nstored++;
+    }
+  fclose(fp);
+  printf("Stored %d keys.\n", nstored);
+
+  /* Look up keys from file 2. */
+  if ((fp = fopen(argv[2], "r")) == NULL) esl_fatal("couldn't open %s\n", argv[1]);
+  nsearched = nshared = 0;
+  while (fgets(buf, 256, fp) != NULL)
+    {
+      s = buf;
+      esl_strtok(&s, " \t\r\n", &tok);
+      if (esl_keyhash_Lookup(h, tok, -1, &idx) == eslOK) nshared++;
+      nsearched++;
+    }
+  fclose(fp);
+  printf("Looked up %d keys.\n", nsearched);
+  printf("In common: %d keys.\n", nshared);
+  esl_keyhash_Destroy(h);
+  return 0;
+}
+/*::cexcerpt::keyhash_example::end::*/
+#endif /*eslKEYHASH_EXAMPLE*/
+/*----------------------- end, example --------------------------*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_keyhash.c 729 2011-11-02 12:46:42Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_keyhash.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.h
new file mode 100755
index 0000000..dd3456e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.h
@@ -0,0 +1,70 @@
+/* Storing keys in hash tables, similar to Perl's associative arrays.
+ * 
+ */
+#ifndef eslKEYHASH_INCLUDED
+#define eslKEYHASH_INCLUDED
+
+#include <stdio.h>		/* for FILE */
+
+/* ESL_KEYHASH:
+ *    a dynamically resized hash structure; 
+ *    contains a hash table and associated data
+ *
+ * Each key string is associated with an index i = (0..nkeys-1).
+ * Key strings are stored in one array, in smem.
+ * Each key has an offset in this array, key_offset[i].
+ * Thus key number <i> is at: smem + key_offset[i].
+ * 
+ * The keys are hashed, and stored in linked lists in
+ * a hashtable by their index i = (0..nkeys-1), with -1
+ * as a sentinel for end-of-list.
+ *
+ * hashtable[0..hashsize-1] = head of linked list; 
+ *                            index of first elem in list (0..nkeys-1), 
+ *                            or -1 if empty.
+ * nxt[0..nkeys-1] = next elem in list (0..nkeys-1), or -1 if none.
+ *
+ * Thus a typical loop, looking for a <key>:
+ *    uint32_t val = jenkins_hash(key, kh->hashsize);
+ *    for (i = kh->hashtable[val]; i != -1; i = kh->nxt[i])
+ *      if (strcmp(key, kh->smem + kh->key_offset[i]) == 0) found_it;
+ *
+ */
+typedef struct {
+  int      *hashtable;          /* hashtable[0..hashsize-1] = index of first elem, or -1 */
+  uint32_t  hashsize;	        /* size of the hash table                                */
+
+  int      *key_offset;		/* key [idx=0..nkeys-1] starts at smem + key_offset[idx] */
+  int      *nxt;		/* nxt [idx=0..nkeys-1], next "pointers" in hash table   */
+  int       nkeys;		/* number of keys stored                                 */
+  int       kalloc;		/* number of keys allocated for                          */
+
+  char *smem;	 	        /* Array of memory for storing key strings (w/ \0's)     */
+  int   salloc;			/* current allocated size of <key_mem>                   */
+  int   sn; 			/* current used size of key strings, inclusive \0's      */
+} ESL_KEYHASH;
+
+extern ESL_KEYHASH *esl_keyhash_Create(void);
+extern ESL_KEYHASH *esl_keyhash_CreateCustom(uint32_t hashsize, int kalloc, int salloc);
+extern ESL_KEYHASH *esl_keyhash_Clone(const ESL_KEYHASH *kh);
+extern char *       esl_keyhash_Get(const ESL_KEYHASH *kh, int idx);
+extern int          esl_keyhash_GetNumber(const ESL_KEYHASH *kh);
+extern size_t       esl_keyhash_Sizeof(const ESL_KEYHASH *kh);
+extern int          esl_keyhash_Reuse(ESL_KEYHASH *kh);
+extern void         esl_keyhash_Destroy(ESL_KEYHASH *kh);
+extern void         esl_keyhash_Dump(FILE *fp, const ESL_KEYHASH *kh);
+
+extern int  esl_keyhash_Store (      ESL_KEYHASH *kh, const char *key, esl_pos_t n, int *ret_index);
+extern int  esl_keyhash_Lookup(const ESL_KEYHASH *kh, const char *key, esl_pos_t n, int *ret_index);
+
+
+#endif /* eslKEYHASH_INCLUDED */
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.tex
new file mode 100755
index 0000000..8fc9560
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_keyhash.tex
@@ -0,0 +1,89 @@
+
+The \eslmod{keyhash} module provides a semblance of associative arrays
+(for example, Perl hashes), by associating keywords with an integer
+array index, and storing the association in an internal hash table for
+rapid access.
+
+Table~\ref{tbl:keyhash_api} lists the functions in the
+\eslmod{keyhash} API. The module implements one object: the
+\ccode{ESL\_KEYHASH}.
+
+% Table generated by autodoc -t esl_keyhash.c (so don't edit here, edit esl_keyhash.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The \ccode{ESL\_KEYHASH} object}\\
+\hyperlink{func:esl_keyhash_Create()}{\ccode{esl\_keyhash\_Create()}} & Allocates a new keyhash.\\
+\hyperlink{func:esl_keyhash_Clone()}{\ccode{esl\_keyhash\_Clone()}} & Duplicates a keyhash.\\
+\hyperlink{func:esl_keyhash_Get()}{\ccode{esl\_keyhash\_Get()}} & Returns a key name, given its index.\\
+\hyperlink{func:esl_keyhash_GetNumber()}{\ccode{esl\_keyhash\_GetNumber()}} & Returns the total number of keys stored.\\
+\hyperlink{func:esl_keyhash_Reuse()}{\ccode{esl\_keyhash\_Reuse()}} & Reuse a keyhash.\\
+\hyperlink{func:esl_keyhash_Destroy()}{\ccode{esl\_keyhash\_Destroy()}} & Frees a keyhash.\\
+\hyperlink{func:esl_keyhash_Dump()}{\ccode{esl\_keyhash\_Dump()}} & Dumps debugging information about a keyhash.\\
+\apisubhead{Storing and retrieving keys }\\
+\hyperlink{func:esl_keyhash_Store()}{\ccode{esl\_key\_Store()}} & Store a key and get a key index for it.\\
+\hyperlink{func:esl_keyhash_Lookup()}{\ccode{esl\_key\_Lookup()}} & Look up a key's array index.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{keyhash} API.}
+\label{tbl:keyhash_api}
+\end{table}
+
+\subsection{Example of using the keyhash API}
+
+The idea behind using the keyhash module is shown in this fragment of
+pseudocode:
+
+\begin{cchunk}
+       #include "easel.h"
+       #include "esl_keyhash.h"
+     
+       ESL_KEYHASH *kh = esl_keyhash_Create();
+       int          idx;
+       char        *key;
+       esl_pos_t    keylen;
+       
+       /* To store keys: */
+       (foreach key) {
+          esl_keyhash_Store(hash, key, keylen, &idx);       
+          (reallocate foo, bar as needed)
+          foo[idx] = whatever;
+          bar[idx] = whatever;
+       }     
+       /* To look up keys: */
+       (foreach key) {
+          if (esl_keyhash_Lookup(hash, key, keylen, &idx) != eslOK) { no_such_key; }
+          (do something with) foo[idx];
+          (do something with) bar[idx];
+       }   
+       esl_keyhash_Destroy();
+\end{cchunk}
+
+That is, the application maintains data in normal C-style arrays that
+are indexed by an integer index value, and it uses the keyhash to
+associate a specific key with that integer index. To store info, you
+first store the keyword and obtain a new index value (this simply
+starts at 0 and counts up, as you store successive keys), then you
+store the info your arrays at that index. To look up info, you look up
+the keyword to obtain the index, then you access the info by indexing
+into your arrays.
+
+This is the moral equivalent of Perl's associative arrays, as in
+\ccode{\$foo\{\$key\} = whatever; \$bar\{\$key\} = whatever}.
+
+For example, Figure~\ref{fig:keyhash_example} is a contrived example
+of storing the keywords obtained from a list in one file, then looking
+up keywords listed in a second file. It doesn't demonstrate the idea
+of using the index to store and retrieve additional info associated
+with the keyword, but it demonstrates the essentials of the
+\eslmod{keyhash} API.
+
+\begin{figure}
+\input{cexcerpts/keyhash_example}
+\caption{Example of using the \eslmod{keyhash} API.}
+\label{fig:keyhash_example}
+\end{figure}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mem.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mem.c
new file mode 100755
index 0000000..2043f52
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mem.c
@@ -0,0 +1,831 @@
+/* str*()-like functions for raw memory "lines" (non-NUL terminated strings).
+ * 
+ * Especially when we're parsing input in an ESL_BUFFER, we need to be
+ * able to parse non-writable raw memory buffers. Because an
+ * ESL_BUFFER may have memory mapped a file, we cannot assume that the
+ * input is NUL-terminated, and we can't even assume it's writable (so
+ * we can't NUL-terminate it ourselves). These functions provide
+ * a set of utilities for parsing raw memory (in terms of a char * pointer
+ * and a length in bytes; <char *p>, <esl_pos_t n> by convention).
+ * 
+ * Contents:
+ *    1. The esl_mem*() API.
+ *    2. Unit tests.
+ *    3. Test driver.
+ *    4. Copyright and license.
+ */
+
+#include "esl_config.h"
+
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+
+/*****************************************************************
+ *# 1. The esl_mem*() API.
+ *****************************************************************/
+
+/* Function:  esl_mem_strtoi32()
+ * Synopsis:  Convert a chunk of text memory to an int32_t.
+ *
+ * Purpose:   Convert the text starting at <p> to an <int32_t>, converting
+ *            no more than <n> characters (the valid length of non-<NUL>
+ *            terminated memory buffer <p>).  Interpret the text as
+ *            base <base> (2 or 10, for example). <base> must be 2..36,
+ *            or 0. 0 is treated specially as base 8, 10, or 16, autodetected
+ *            according to the leading characters of the number format.
+ *            
+ *            Any leading whitespace is skipped.  The next letter may
+ *            be a '-' for a negative number.  If <base> is 0 or 16,
+ *            the next two characters may be "0x", in which case hex base
+ *            16 is assumed.  Else if <base> is 0 and the next
+ *            character is '0', octal base 8 is assumed.  All subsequent
+ *            characters are converted to a number, until an invalid
+ *            character is reached. Upper or lower case letters are
+ *            accepted, starting at A or a, for bases over 10. For
+ *            example, In base 16, characters A-F or a-f are accepted.
+ *            The base of the representation is limited to 36 because
+ *            'Z' or 'z' represents 35.
+ *
+ *            The converted value is optionally returned in <*opt_val>.
+ *            The number of characters parsed (up to the first invalid
+ *            character, or <n>, whichever comes first) is optionally
+ *            returned in <*opt_nc>. The caller can reposition a parser
+ *            to <p + *opt_nc> to exactly skip past the parsed number.
+ * 
+ *            If no valid digit is found (including pathological cases
+ *            of leader-only, such as "0x" or "-"), then return <eslEINVAL>,
+ *            and <*opt_nc> and <*opt_val> are both 0.
+ *            
+ *            This syntax is essentially identical to <strtol()>,
+ *            except that we can operate on a non-NUL-terminated
+ *            memory buffer of maximum length <n>, rather than on a
+ *            NUL-terminated string.
+ *
+ * Args:      p        - pointer to text buffer to convert to int32_t
+ *            n        - maximum number of chars to parse in <p>: p[0..n-1] are valid.
+ *            base     - integer base. Often 10, 2, 8, or 16. Must be
+ *                       <2..36>, or 0. 0 means base 8, 10, or 16 depending on
+ *                       autodetected format.
+ *            *opt_nc  - optRETURN: number of valid chars parsed from p.
+ *                       First invalid char is p[*opt_nc].       
+ *            *opt_val - optRETURN: parsed value.         
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ *            <eslEFORMAT> if no valid integer digits are found. Now
+ *            <*opt_val> and <*opt_nc> are 0.
+ *            
+ *            <eslERANGE> on an overflow error. In this case
+ *            <*opt_val> is <INT32_MAX> or <INT32_MIN> for an
+ *            overflow or underflow, respectively. <*opt_nc> is
+ *            set to the number of characters parsed INCLUDING
+ *            the digit that caused the overflow.
+ *
+ * Throws:    <eslEINVAL> if <base> isn't in range <0..36>. Now
+ *            <*opt_nc> and <*opt_val> are 0.
+ *
+ * Note:      An example of why you need this instead of 
+ *            strtol(): suppose you've mmap()'ed a file to memory,
+ *            and it ends in ... "12345". You can't strtol the
+ *            end of the mmap'ed memory buffer because it is not
+ *            a NUL-terminated string. (Same goes anywhere in the file,
+ *            though elsewhere in the file you could overwrite
+ *            a NUL where you need it. At EOF of an mmap'ed() buffer,
+ *            you can't even do that.)
+ *            
+ *            sscanf() doesn't work either - I don't see a way to 
+ *            limit it to a buffer of at most <n> chars.
+ *            
+ *            I could copy <p> to a temporary allocated string that I
+ *            NUL-terminate, then use strtol() or suchlike, but that's
+ *            just as awful as what I've done here (rewriting
+ *            strtol()). Plus, here I get complete control of the integer
+ *            type (<int32_t>) whereas strtol() gives me the less satisfying
+ *            <long>.
+ */
+int
+esl_mem_strtoi32(char *p, esl_pos_t n, int base, int *opt_nc, int32_t *opt_val)
+{
+  esl_pos_t i           = 0;
+  int32_t   sign        = 1;
+  int32_t   currval     = 0;
+  int32_t   digit       = 0;
+  int       ndigits     = 0;
+
+  if    (base < 0 || base == 1 || base > 36)  ESL_EXCEPTION(eslEINVAL, "base must be 2..36 or 0");
+  while (i < n && isspace(p[i])) i++; /* skip leading whitespace */
+  if    (i < n && p[i] == '-')   { sign = -1; i++; }
+
+  if      ((base == 0 || base == 16) && i < n-1 && p[i] == '0' && p[i+1] == 'x') 
+    { i += 2; base = 16; }
+  else if (base == 0 && i < n && p[i] == '0')                                    
+    { i += 1; base = 8; }
+  else if (base == 0) 
+    { base = 10; }
+
+  for (ndigits = 0; i < n; i++, ndigits++)
+    {
+      if      (isdigit(p[i])) digit = p[i] - '0';
+      else if (isupper(p[i])) digit = 10 + (p[i] - 'A');
+      else if (islower(p[i])) digit = 10 + (p[i] - 'a');
+      else    break;
+      if (digit >= base) break;
+
+      if (sign == 1)
+	{
+	  if (currval > (INT32_MAX - digit) / base) 
+	    { 
+	      if (opt_val) *opt_val = INT32_MAX; 
+	      if (opt_nc)  *opt_nc  = i+1;
+	      return eslERANGE; 
+	    }
+	  currval = currval * base + digit;
+	}
+      else
+	{
+	  if (currval < (INT32_MIN + digit) / base)
+	    { 
+	      if (opt_val) *opt_val = INT32_MIN; 
+	      if (opt_nc)  *opt_nc  = i+1;
+	      return eslERANGE;
+	    }
+	  currval = currval * base - digit;
+	}
+    }
+  if (opt_nc)  { *opt_nc  = (ndigits ? i : 0); }
+  if (opt_val) { *opt_val = currval; }
+  return (ndigits ? eslOK : eslEFORMAT);
+}
+
+/* Function:  esl_memnewline()
+ * Synopsis:  Find next newline in memory.
+ *
+ * Purpose:   Given a memory buffer <*m> of <n> bytes, delimit a
+ *            next line by finding the next newline character(s).
+ *            Store the number of bytes in the line (exclusive of
+ *            the newline character(s)) in <*ret_nline>. Store
+ *            the number of bytes in the newline in <*ret_nterm>.
+ *             
+ *            If no newline is found, <nline=n> and <nterm=0>, and the
+ *            return status is <eslEOD>.
+ *            
+ *            Currently we assume newlines are either UNIX-style \verb+\n+
+ *            or Windows-style \verb+\r\n+, in this implementation. 
+ *            
+ *            Caller should not rely on this, though. Caller may only
+ *            assume that a newline is an arbitrary one- or two-byte
+ *            code.
+ *            
+ *            For example, if <*m> = \verb+"line one\r\nline two"+, <nline>
+ *            is 8 and <nterm> is 2.  If <*m> = \verb+"try two\ntry three"+,
+ *            <nline> is 7 and <nterm> is 1. If <*m> = "attempt
+ *            four", <nline> is 12 and <nterm> is 0.
+ *            
+ *            In cases where the caller may have an incompletely read
+ *            buffer, it should be careful of cases where one possible
+ *            newline may be a prefix of another; for example, suppose
+ *            a file has \verb+"line one\r\nline two"+, but we only input the
+ *            buffer \verb+"line one\r"+ at first. The \verb+"\r"+ looks like an old
+ *            MacOS newline. Now we read more input, and we think the
+ *            buffer is \verb+"\nline two"+. Now we think the \verb+"\n"+ is a UNIX
+ *            newline. The result is that we read two newlines where
+ *            there's only one. Instead, caller should check for the
+ *            case of nterm==1 at the end of its buffer, and try to
+ *            extend the buffer. See <esl_buffer_GetLine()> for an
+ *            example.
+ *            
+ * Args:      m         - ptr to memory buffer
+ *            n         - length of p in bytes
+ *           *ret_nline - length of line found starting at p[0], exclusive of newline; up to n
+ *           *ret_nterm - # of bytes in newline code: 1 or 2, or 0 if no newline found
+ *
+ * Returns:   <eslOK> on success. Now <*ret_nline> is the number of
+ *            bytes in the next line (exclusive of newline) and
+ *            <*ret_nterm> is the number of bytes in the newline code
+ *            (1 or 2). Thus the next line is <m[0..nline-1]>, and
+ *            the line after this starts at <m[nline+nterm]>.
+ *            
+ *            <eslEOD> if no newline is found. Now <*ret_nline> is <n>,
+ *            and <*ret_nterm> is 0.
+ *
+ * Xref:      http://en.wikipedia.org/wiki/Newline
+ */
+int
+esl_memnewline(const char *m, esl_pos_t n, esl_pos_t *ret_nline, int *ret_nterm)
+{
+  char *ptr = memchr(m, '\n', n);
+  if      (ptr == NULL)                 { *ret_nline = n;       *ret_nterm = 0; }
+  else if (ptr > m && *(ptr-1) == '\r') { *ret_nline = ptr-m-1; *ret_nterm = 2; }
+  else                                  { *ret_nline = ptr-m;   *ret_nterm = 1; }
+  return eslOK;
+}
+
+/* Function:  esl_memtok()
+ * Synopsis:  Get next delimited token from a line.
+ *
+ * Purpose:   Given references to a line and its length, <*p> and <*n>,
+ *            find the next token delimited by any of the characters
+ *            in the string <delim>. Set <*ret_tok> to point at the
+ *            start of the token, and <*ret_toklen> to its length.
+ *            Increment <*p> to point to the next non-delim character
+ *            that follows, and decrement <*n> by the same,
+ *            so that <*p> and <*n> are ready for another
+ *            call to <esl_memtok()>. 
+ * 
+ *            Three differences between <esl_strtok()> and <esl_memtok()>:
+ *            first, <esl_strtok()> expects a NUL-terminated string,
+ *            whereas <esl_memtok()>'s line does not need to be
+ *            NUL-terminated; second, <esl_memtok()> does not modify
+ *            the string, whereas <esl_strtok()> writes NUL bytes
+ *            to delimit tokens; third, <esl_memtok()> skips trailing
+ *            <delim> characters as well as leading ones.
+ *
+ * Args:      *p          - pointer to line;
+ *                          will be incremented to next byte after token.
+ *            *n          - pointer to line length, in bytes;
+ *                          will be decremented
+ *            delim       - delimiter chars (example: " \t\r\n") 
+ *            *ret_tok    - RETURN: ptr to token found in <*p>
+ *            *ret_toklen - RETURN: length of token
+ *
+ * Returns:   <eslOK> if a delimited token is found. 
+ *            <eslEOL> if not; now <*ret_tok> is <NULL> and <*ret_toklen> is <0>.
+ *
+ */
+int
+esl_memtok(char **p, esl_pos_t *n, const char *delim, char **ret_tok, esl_pos_t *ret_toklen)
+{
+  char     *s   = *p;
+  esl_pos_t so, xo, eo;
+
+  for (so = 0;  so < *n; so++) if (strchr(delim, s[so]) == NULL)  break;
+  for (xo = so; xo < *n; xo++) if (strchr(delim, s[xo]) != NULL)  break; 
+  for (eo = xo; eo < *n; eo++) if (strchr(delim, s[eo]) == NULL)  break; 
+  
+  if (so == *n) {                     *ret_tok = NULL;   *ret_toklen = 0;       return eslEOL; }
+  else          { *p += eo; *n -= eo; *ret_tok = s + so; *ret_toklen = xo - so; return eslOK;  }
+}
+
+
+/* Function:  esl_memspn()
+ * Synopsis:  Finds length of prefix consisting only of given chars
+ *
+ * Purpose:   For line <p> of length <n>, return the length of
+ *            a prefix that consists only of characters in the
+ *            string <allow>. 
+ *            
+ *            A commonly used idiom for "buffer is all whitespace"
+ *            is <esl_memspn(p, n, " \t\r\n") == n>.
+ */
+esl_pos_t
+esl_memspn(char *p, esl_pos_t n, const char *allow)
+{
+  esl_pos_t so;
+  for (so = 0; so < n; so++) if (strchr(allow, p[so]) == NULL) break;
+  return so;
+}
+
+/* Function:  esl_memcspn()
+ * Synopsis:  Finds length of prefix consisting of anything other than given chars
+ *
+ * Purpose:   For line <p> of length <n>, return the length of
+ *            a prefix that consists only of characters NOT in the
+ *            string <disallow>. 
+ */
+esl_pos_t
+esl_memcspn(char *p, esl_pos_t n, const char *disallow)
+{
+  esl_pos_t so;
+  for (so = 0; so < n; so++) if (strchr(disallow, p[so]) != NULL) break;
+  return so;
+}
+
+/* Function:  esl_memstrcmp()
+ * Synopsis:  Compare a memory line and string for equality.
+ *
+ * Purpose:   Compare line <p> of length <n> to a NUL-terminated
+ *            string <s>, and return TRUE if they are exactly
+ *            equal: <strlen(s) == n> and <p[0..n-1] == s[0..n-1]>.
+ *            Else, return FALSE.
+ */
+int
+esl_memstrcmp(const char *p, esl_pos_t n, const char *s)
+{
+  esl_pos_t pos;
+
+  if (p == NULL && n == 0 && (s == NULL || s[0] == '\0')) return TRUE;
+  if (!p || !s)                                           return FALSE;
+
+  for (pos = 0; pos < n && s[pos] != '\0'; pos++)
+    if (p[pos] != s[pos]) return FALSE;
+  if (pos    != n)    return FALSE;
+  if (s[pos] != '\0') return FALSE;
+  return TRUE;
+}
+
+
+/* Function:  esl_memstrpfx()
+ * Synopsis:  Return TRUE if memory line starts with string.
+ *
+ * Purpose:   Compare line <p> of length <n> to a NUL-terminated
+ *            string <s>. Return TRUE if the prefix of <p> exactly
+ *            matches <s> up to its NUL sentinel byte. Else,
+ *            return FALSE.
+ */
+int
+esl_memstrpfx(const char *p, esl_pos_t n, const char *s)
+{
+  esl_pos_t pos;
+
+  if (!p || !s) return FALSE;
+
+  for (pos = 0; pos < n && s[pos] != '\0'; pos++)
+    if (p[pos] != s[pos]) return FALSE;
+  if (s[pos] != '\0')    return FALSE;
+  return TRUE;
+}
+
+
+/* Function:  esl_memstrcontains()
+ * Synopsis:  Return TRUE if memory line matches a string.
+ *
+ * Purpose:   Compare line <p> of length <n> to NUL-terminated
+ *            string <s>. Return <TRUE> if <p> contains an exact
+ *            match to <s> at any position.
+ */
+int 
+esl_memstrcontains(const char *p, esl_pos_t n, const char *s)
+{
+  esl_pos_t s0, pos;
+
+  if (! p || ! s) return FALSE;
+  for (s0 = 0; s0 < n; s0++)
+    {
+      for (pos = 0; s0+pos < n && s[pos] != '\0'; pos++)
+	if (p[s0+pos] != s[pos]) break;
+      if (s[pos] == '\0') return TRUE;
+    }
+  return FALSE;
+}
+
+/* Function:  esl_memstrdup()
+ * Synopsis:  Duplicate a memory line as a NUL-terminated string.
+ *
+ * Purpose:   Given memory line <p> of length <n>, duplicate it
+ *            as a NUL-terminated string; return the new string
+ *            in <*ret_s>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; now <*ret_s> is <NULL>.
+ */
+int
+esl_memstrdup(const char *p, esl_pos_t n, char **ret_s)
+{
+  char *s = NULL;
+  int  status;
+
+  if (! p) { *ret_s = NULL; return eslOK; }
+
+  ESL_ALLOC(s, sizeof(char) * (n+1));
+  memcpy(s, p, n);
+  s[n] = '\0';
+  *ret_s = s;
+  return eslOK;
+
+ ERROR:
+  *ret_s = NULL;
+  return status;
+}
+
+/* Function:  esl_memstrcpy()
+ * Synopsis:  Copy a memory line as a string.
+ *
+ * Purpose:   Given memory line <p> of length <n>, copy
+ *            it to <dest> and NUL-terminate it. Caller must
+ *            be sure that <s> is already allocated for
+ *            at least <n+1> bytes.
+ *              
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_memstrcpy(const char *p, esl_pos_t n, char *dest)
+{
+  memcpy(dest, p, n);
+  dest[n] = '\0';
+  return eslOK;
+}
+
+
+
+/* Function:  esl_memtod()
+ * Synopsis:  esl_mem equivalent to strtod().
+ *
+ * Purpose:   Given a buffer <p> of length <n>, convert it to a
+ *            double-precision floating point value, just as
+ *            <strtod()> would do for a NUL-terminated string.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_val> contains the
+ *            converted value.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <*ret_val> is 0.
+ */
+int
+esl_memtod(const char *p, esl_pos_t n, double *ret_val)
+{
+  char  fixedbuf[128];
+  char *bigbuf = NULL;
+  int   status;
+
+  if (n < 128) 
+    { 
+      memcpy(fixedbuf, p, sizeof(char) * n);
+      fixedbuf[n] = '\0';
+      *ret_val = strtod(fixedbuf, NULL);
+      return eslOK;
+    }
+  else 
+    {    
+      ESL_ALLOC(bigbuf, sizeof(char) * (n+1));
+      memcpy(bigbuf, p, sizeof(char) * n);
+      bigbuf[n] = '\0';
+      *ret_val = strtod(fixedbuf, NULL);
+      free(bigbuf);
+      return eslOK;
+    }
+
+ ERROR:
+  *ret_val = 0.;
+  return status;
+}
+
+/* Function:  esl_memtof()
+ * Synopsis:  esl_mem equivalent to strtod(), for a float
+ *
+ * Purpose:   Given a buffer <p> of length <n>, convert it to a
+ *            single-precision floating point value, just as
+ *            <strtod()> would do for a NUL-terminated string.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_val> contains the
+ *            converted value.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <*ret_val> is 0.
+ */
+int
+esl_memtof(const char *p, esl_pos_t n, float *ret_val)
+{
+  char  fixedbuf[128];
+  char *bigbuf = NULL;
+  int   status;
+
+  if (n < 128) 
+    { 
+      memcpy(fixedbuf, p, sizeof(char) * n);
+      fixedbuf[n] = '\0';
+      *ret_val = (float) strtod(fixedbuf, NULL);
+      return eslOK;
+    }
+  else 
+    {    
+      ESL_ALLOC(bigbuf, sizeof(char) * (n+1));
+      memcpy(bigbuf, p, sizeof(char) * n);
+      bigbuf[n] = '\0';
+      *ret_val = (float) strtod(fixedbuf, NULL);
+      free(bigbuf);
+      return eslOK;
+    }
+
+ ERROR:
+  *ret_val = 0.;
+  return status;
+}
+  
+
+/* Function:  esl_mem_IsReal()
+ * Synopsis:  Return TRUE if <p> is a real number; else FALSE.
+ *
+ * Purpose:   If the memory <p> of <n> bytes is convertible 
+ *            to a floating point real number by the rules of
+ *            atof(), return TRUE; else return FALSE.
+ * 
+ * Xref:      easel.c::esl_str_IsReal() for string version.
+ */
+int
+esl_mem_IsReal(const char *p, esl_pos_t n)
+{
+  int gotdecimal = 0;
+  int gotexp     = 0;
+  int gotreal    = 0;
+
+  if (!p || !n) return FALSE;
+
+  while (n && isspace((int) *p))     { p++; n--; } /* skip leading whitespace */
+  if (n && (*p == '-' || *p == '+')) { p++; n--; } /* skip leading sign */
+
+  /* Examine remainder for garbage. Allowed one '.' and
+   * one 'e' or 'E'; if both '.' and e/E occur, '.'
+   * must be first.
+   */
+  while (n)
+    {
+      if (isdigit((int) (*p))) 	gotreal++;
+      else if (*p == '.')
+	{
+	  if (gotdecimal) return FALSE; /* can't have two */
+	  if (gotexp)     return FALSE; /* e/E preceded . */
+	  else gotdecimal++;
+	}
+      else if (*p == 'e' || *p == 'E')
+	{
+	  if (gotexp) return FALSE;	/* can't have two */
+	  else gotexp++;
+	}
+      else if (isspace((int) (*p))) break;
+      p++;
+      n--;
+    }
+  while (n && isspace((int) *p)) { p++; n--; } /* skip trailing whitespace */
+
+  return ( (n == 0 && gotreal) ? TRUE : FALSE);
+}
+
+/*----------------- end, esl_mem*() API  ------------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef eslMEM_BENCHMARK
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_buffer.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options] <infile>";
+static char banner[] = "benchmark driver for mem module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w           = esl_stopwatch_Create();
+  char           *infile      = esl_opt_GetArg(go, 1);
+  ESL_BUFFER     *bf          = NULL;
+  int64_t         nlines      = 0;
+  int64_t         ntokens     = 0;
+  int64_t         nchar       = 0;
+  char           *p, *tok;
+  esl_pos_t       n,  toklen;
+  int             status;
+
+  esl_stopwatch_Start(w);
+
+  if ( esl_buffer_Open(infile, NULL, &bf) != eslOK) esl_fatal("open failed");
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK)
+    {
+      nlines++;
+      while ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK)
+	{
+      	  ntokens++;
+      	  nchar += toklen;
+	}
+      if (status != eslEOL) esl_fatal("memtok failure");
+    }
+  if (status != eslEOF) esl_fatal("GetLine failure");
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, NULL);
+  printf("lines  = %" PRId64 "\n", nlines);
+  printf("tokens = %" PRId64 "\n", ntokens);
+  printf("chars  = %" PRId64 "\n", nchar);
+
+  esl_buffer_Close(bf);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMEM_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+#ifdef eslMEM_TESTDRIVE
+
+static void
+utest_mem_strtoi32(void)
+{
+  char    msg[] = "esl_mem_strtoi32() unit test failed";
+  int     nc;
+  int32_t val;
+  int     status;
+  
+  if ( (status = esl_mem_strtoi32("-1234",          5, 10, &nc, &val)) != eslOK      || nc !=  5 || val !=     -1234) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("\t  -1234",      8, 10, &nc, &val)) != eslOK      || nc !=  8 || val !=     -1234) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("1234",           4,  0, &nc, &val)) != eslOK      || nc !=  4 || val !=      1234) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("12345",          4,  0, &nc, &val)) != eslOK      || nc !=  4 || val !=      1234) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32(" 0xff",          5,  0, &nc, &val)) != eslOK      || nc !=  5 || val !=       255) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32(" 0777",          4,  0, &nc, &val)) != eslOK      || nc !=  4 || val !=        63) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("FFGG",           4, 16, &nc, &val)) != eslOK      || nc !=  2 || val !=       255) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("0xffff",         6,  0, &nc, &val)) != eslOK      || nc !=  6 || val !=     65535) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("0xffffff",       8,  0, &nc, &val)) != eslOK      || nc !=  8 || val !=  16777215) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32(" 2147483647",   11,  0, &nc, &val)) != eslOK      || nc != 11 || val != INT32_MAX) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("-2147483648",   11,  0, &nc, &val)) != eslOK      || nc != 11 || val != INT32_MIN) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32(" 2147483648",   11,  0, &nc, &val)) != eslERANGE  || nc != 11 || val != INT32_MAX) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("-2147483649",   11,  0, &nc, &val)) != eslERANGE  || nc != 11 || val != INT32_MIN) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32(" 214748364800", 13,  0, &nc, &val)) != eslERANGE  || nc != 11 || val != INT32_MAX) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("-214748364900", 13,  0, &nc, &val)) != eslERANGE  || nc != 11 || val != INT32_MIN) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32(" 0x1234",        3, 16, &nc, &val)) != eslEFORMAT || nc !=  0 || val !=         0) esl_fatal(msg);
+  if ( (status = esl_mem_strtoi32("09999999",       7,  0, &nc, &val)) != eslEFORMAT || nc !=  0 || val !=         0) esl_fatal(msg);
+  return;
+}
+
+
+static void
+utest_memtok(void)
+{
+  char      msg[]       = "esl_memtok() unit test failed";
+  char     *teststring;
+  esl_pos_t n;
+  char     *s;
+  char     *tok;
+  esl_pos_t toklen;
+
+  if (esl_strdup("This is\t a sentence.", -1, &teststring) != eslOK) esl_fatal(msg);
+
+  s = teststring;
+  n = strlen(teststring);
+  if (esl_memtok(&s, &n, " ", &tok, &toklen) != eslOK)     esl_fatal(msg);
+  if (toklen != 4)                                         esl_fatal(msg);
+  if (memcmp(tok, "This", toklen) != 0)                    esl_fatal(msg);
+  if (*s != 'i')                                           esl_fatal(msg);
+  
+  if (esl_memtok(&s, &n, " \t", &tok, &toklen) != eslOK)   esl_fatal(msg);
+  if (toklen != 2)                                         esl_fatal(msg);
+  if (memcmp(tok, "is", toklen) != 0)                      esl_fatal(msg);
+  if (*s != 'a')                                           esl_fatal(msg);
+
+  if (esl_memtok(&s, &n, "\n", &tok, &toklen)  != eslOK)   esl_fatal(msg);
+  if (toklen != 11)                                        esl_fatal(msg);
+  if (memcmp(tok, "a sentence.", toklen) != 0)             esl_fatal(msg);
+  if (*s != '\0')                                          esl_fatal(msg);
+  if (n  != 0)                                             esl_fatal(msg);
+
+  if (esl_memtok(&s, &n, "\n", &tok, &toklen)  != eslEOL)  esl_fatal(msg);
+  if (toklen != 0)                                         esl_fatal(msg);
+  if (tok    != NULL)                                      esl_fatal(msg);
+
+  free(teststring);
+  return;
+}
+
+
+/* memspn, memcspn() */
+static void
+utest_memspn_memcspn(void)
+{
+  char      msg[]   = "memspn/memcspn unit test failed";
+  char      test1[] = "  this is a test";
+  char     *p;
+  esl_pos_t n;
+  
+  p = test1;
+  n = 13;	/* so the memory is "  this is a t" */
+  if (esl_memspn (p, n, " \t\n\r") != 2) esl_fatal(msg);
+  if (esl_memcspn(p, n, " \t\n\r") != 0) esl_fatal(msg);
+
+  p = test1+2;
+  n = 11;  /* "this is a t" */
+  if (esl_memspn (p, n, " \t\n\r") != 0) esl_fatal(msg);
+  if (esl_memcspn(p, n, " \t\n\r") != 4) esl_fatal(msg);
+  
+  p = test1; 
+  n = 2;
+  if (esl_memspn (p, n, " \t\n\r") != 2) esl_fatal(msg);
+  if (esl_memcspn(p, n, " \t\n\r") != 0) esl_fatal(msg);
+
+  p = test1+2;
+  n = 4;  
+  if (esl_memspn (p, n, " \t\n\r") != 0) esl_fatal(msg);
+  if (esl_memcspn(p, n, " \t\n\r") != 4) esl_fatal(msg);
+}
+
+/* memstrcmp/memstrpfx */
+static void
+utest_memstrcmp_memstrpfx(void)
+{
+  char      msg[]  = "memstrcmp/memstrpfx unit test failed";
+  char      test[] = "this is a test";
+  char     *p;
+  esl_pos_t n;
+
+  p = test;
+  n = strlen(p);
+  if (! esl_memstrcmp(p, n, test))   esl_fatal(msg);
+  if (  esl_memstrcmp(p, n, "this")) esl_fatal(msg);
+  if (! esl_memstrpfx(p, n, "this")) esl_fatal(msg);
+  if (  esl_memstrpfx(p, n, "that")) esl_fatal(msg);
+
+  p = test;
+  n = 2;			/* now p is just "th" */
+  if (! esl_memstrcmp(p, n, "th"))   esl_fatal(msg);
+  if (  esl_memstrcmp(p, n, test))   esl_fatal(msg);
+  if (! esl_memstrpfx(p, n, "th"))   esl_fatal(msg);
+  if (  esl_memstrpfx(p, n, "this")) esl_fatal(msg);
+
+  /* special cases involving NULLs */
+  p = test;
+  n = strlen(p);
+  if (! esl_memstrcmp(NULL, 0, NULL))   esl_fatal(msg);
+  if (  esl_memstrcmp(NULL, 0, test))   esl_fatal(msg);
+  if (  esl_memstrcmp(p,    n, NULL))   esl_fatal(msg);
+  if (  esl_memstrpfx(NULL, 0, NULL))   esl_fatal(msg);
+  if (  esl_memstrpfx(NULL, 0, "this")) esl_fatal(msg);
+  if (  esl_memstrpfx(p,    n, NULL))   esl_fatal(msg);
+}
+
+static void
+utest_memstrcontains(void)
+{
+  char      msg[]  = "memstrcontains unit test failed";
+  char      test[] = "CLUSTAL W (1.83) multiple sequence alignment";
+  char     *p;
+  esl_pos_t n;
+  
+  p = test; 
+  n = strlen(p);
+  if (! esl_memstrcontains(p, n, "multiple sequence alignment")) esl_fatal(msg);
+  if (! esl_memstrcontains(p, n, "CLUSTAL"))                     esl_fatal(msg);
+  if (  esl_memstrcontains(p, n, "alignmentx"))                  esl_fatal(msg);
+}
+
+#endif /*eslMEM_TESTDRIVE*/
+/*------------------ end, unit tests ----------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+#ifdef eslMEM_TESTDRIVE
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_mem.h"
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for mem module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+
+  utest_mem_strtoi32();
+  utest_memtok();
+  utest_memspn_memcspn();
+  utest_memstrcmp_memstrpfx();
+  utest_memstrcontains();
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslMEM_TESTDRIVE */
+
+
+/*------------------ end, test driver ---------------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_mem.c 766 2012-06-04 13:11:51Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_mem.c $
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mem.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mem.h
new file mode 100755
index 0000000..33c5768
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mem.h
@@ -0,0 +1,33 @@
+/* str*()-like functions for raw memory "lines" (non-NUL terminated strings)
+ */
+#ifndef eslMEM_INCLUDED
+#define eslMEM_INCLUDED
+
+#include "easel.h"
+
+extern int       esl_mem_strtoi32(char *p, esl_pos_t n, int base, int *opt_nc, int32_t *opt_val);
+extern int       esl_memnewline(const char *p, esl_pos_t n, esl_pos_t *ret_nline, int *ret_nterm);
+extern int       esl_memtok(char **p, esl_pos_t *n, const char *delim, char **ret_tok, esl_pos_t *ret_toklen);
+extern esl_pos_t esl_memspn (char *p, esl_pos_t n, const char *allow);
+extern esl_pos_t esl_memcspn(char *p, esl_pos_t n, const char *disallow);
+extern int       esl_memstrcmp     (const char *p, esl_pos_t n, const char *s);
+extern int       esl_memstrpfx     (const char *p, esl_pos_t n, const char *s);
+extern int       esl_memstrcontains(const char *p, esl_pos_t n, const char *s);
+extern int       esl_memstrdup(const char *p, esl_pos_t n, char **ret_s);
+extern int       esl_memstrcpy(const char *p, esl_pos_t n, char *dest);
+extern int       esl_memtof(const char *p, esl_pos_t n, float  *ret_val);
+extern int       esl_memtod(const char *p, esl_pos_t n, double *ret_val);
+extern int       esl_mem_IsReal(const char *p, esl_pos_t n);
+
+#endif /*eslMEM_INCLUDED*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.c
new file mode 100755
index 0000000..9fa1b2b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.c
@@ -0,0 +1,662 @@
+/* Multidimensional optimization using conjugate gradient descent.
+ * 
+ * Can be used even without derivative information; falls back to
+ * a numeric gradient if analytic gradient is unavailable.
+ */
+#include "esl_config.h"
+
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+#include "esl_minimizer.h"
+
+/* Return the negative gradient at a point, determined 
+ * numerically.
+ */
+static void
+numeric_derivative(double *x, double *u, int n, 
+		   double (*func)(double *, int, void*),
+		   void *prm, double relstep,
+		   double *dx)
+{
+  int    i;
+  double delta;
+  double f1, f2;
+  double tmp;
+
+  for (i = 0; i < n; i++)
+    {
+      delta = fabs(u[i] * relstep);
+
+      tmp = x[i]; 
+      x[i] = tmp + delta;
+      f1  = (*func)(x, n, prm);
+      x[i] = tmp - delta;
+      f2  = (*func)(x, n, prm);
+      x[i] = tmp;
+
+      dx[i] = (-0.5 * (f1-f2)) / delta;
+
+      ESL_DASSERT1((! isnan(dx[i])));
+    }
+}
+
+/* bracket():
+ * SRE, Wed Jul 27 11:43:32 2005 [St. Louis]
+ *
+ * Purpose:   Bracket a minimum. 
+ *
+ *            The minimization is quasi-one-dimensional, 
+ *            starting from an initial <n>-dimension vector <ori>
+ *            in the <n>-dimensional direction <d>.
+ *            
+ *            Caller passes a ptr to the objective function <*func()>,
+ *            and a void pointer to any necessary conditional 
+ *            parameters <prm>. The objective function will
+ *            be evaluated at a point <x> by calling
+ *            <(*func)(x, n, prm)>. The caller's function
+ *            is responsible to casting <prm> to whatever it's
+ *            supposed to be, which might be a ptr to a structure,
+ *            for example; typically, for a parameter optimization
+ *            problem, this holds the observed data.
+ *            
+ *            The routine works in scalar multipliers relative
+ *            to origin <ori> and direction <d>; that is, a new <n>-dimensional
+ *            point <b> is defined as <ori> + <bx><d>, for a scalar <bx>.
+ *            
+ *            The routine identifies a triplet <ax>, <bx>, <cx> such
+ *            that $a < b < c$ and such that a minimum is known to
+ *            exist in the $(a,b)$ interval because $f(b) < f(a),
+ *            f(c)$. Also, the <a..b> and <b...c> intervals are in
+ *            a golden ratio; the <b..c> interval is 1.618 times larger
+ *            than <a..b>.
+ *
+ *            Since <d> is usually in the direction of the gradient,
+ *            the points <ax>,<bx>,<cx> might be expected to be $\geq 0$;
+ *            however, when <ori> is already close to the minimum, 
+ *            it is often faster to bracket the minimum using
+ *            a negative <ax>. The caller might then try to be "clever"
+ *            and assume that the minimum is in the <bx..cx> interval
+ *            when <ax> is negative, rather than the full <ax..cx>
+ *            interval. That cleverness can fail, though, if <ori>
+ *            is already in fact the minimum, because the line minimizer
+ *            in brent() assumes a non-inclusive interval. Use
+ *            <ax..cx> as the bracket.
+ *            
+ * Args:      ori       - n-dimensional starting vector
+ *            d         - n-dimensional direction to minimize along
+ *            n         - # of dimensions
+ *            firststep - bx is initialized to this scalar multiplier
+ *            *func()   - objective function to minimize
+ *            prm       - void * to any constant data that *func() needs
+ *            wrk       - workspace: 1 allocated n-dimensional vector
+ *            ret_ax    - RETURN:  ax < bx < cx scalar bracketing triplet
+ *            ret_bx    - RETURN:    ...ax may be negative
+ *            ret_cx    - RETURN:    
+ *            ret_fa    - RETURN:  function evaluated at a,b,c
+ *            ret_fb    - RETURN:    ... f(b) < f(a),f(c)
+ *            ret_fc    - RETURN:
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if it fails to converge.
+ *
+ * Xref:      STL9/130.
+ */
+static int
+bracket(double *ori, double *d, int n, double firststep,
+	double (*func)(double *, int, void *), void *prm, 
+	double *wrk, 
+	double *ret_ax, double *ret_bx, double *ret_cx,
+	double *ret_fa, double *ret_fb, double *ret_fc)
+{
+  double ax,bx,cx;		/* scalar multipliers */
+  double fa,fb,fc;		/* f() evaluations at those points */
+  double swapper;
+  int    niter;
+  
+  /* Set and evaluate our first two points f(a) and f(b), which
+   * are initially at 0.0 and <firststep>.
+   */
+  ax = 0.;  /* always start w/ ax at the origin, ax=0 */
+  fa = (*func)(ori, n, prm);
+
+  bx = firststep;
+  esl_vec_DCopy(ori, n, wrk);
+  esl_vec_DAddScaled(wrk, d, bx, n);
+  fb = (*func)(wrk, n, prm);
+
+  /* In principle, we usually know that the minimum m lies to the
+   * right of a, m>=a, because d is likely to be a gradient.  You
+   * might think we want 0 = a < b < c.  In practice, there's problems
+   * with that. It's far easier to identify bad points (f(x) > f(a))
+   * than to identify good points (f(x) < f(a)), because letting f(x)
+   * blow up to infinity is fine as far as bracketing is concerned.
+   * It can be almost as hard to identify a point b that f(b) < f(a)
+   * as it is to find the minimum in the first place!
+   * Counterintuitively, in cases where f(b)>f(a), it's better
+   * to just swap the a,b labels and look for c on the wrong side
+   * of a! This often works immediately, if f(a) was reasonably
+   * close to the minimum and f(b) and f(c) are both terrible.
+   */
+  if (fb > fa)
+    {
+      swapper = ax; ax = bx; bx = swapper;
+      swapper = fa; fa = fb; fb = swapper;
+    }
+
+  /* Make our first guess at c.
+   * Remember, we don't know that b>a any more, and c might go negative.
+   * We'll either have:      a..b...c with a=0;
+   *                or:  c...b..a     with b=0.
+   * In many cases, we'll immediately be done.
+   */
+  cx = bx + (bx-ax)*1.618;
+  esl_vec_DCopy(ori, n, wrk);
+  esl_vec_DAddScaled(wrk, d, cx, n);
+  fc = (*func)(wrk, n, prm);
+  
+  /* We're not satisfied until fb < fa, fc; 
+   * throughout the routine, we guarantee that fb < fa;
+   * so we just check fc.
+   */
+  niter = 0;
+  while (fc <= fb)
+    {
+      /* Slide over, discarding the a point; choose 
+       * new c point even further away.
+       */
+      ax = bx; bx = cx;
+      fa = fb; fb = fc;
+      cx = bx+(bx-ax)*1.618;
+      esl_vec_DCopy(ori, n, wrk);
+      esl_vec_DAddScaled(wrk, d, cx, n);
+      fc = (*func)(wrk, n, prm);
+
+      /* This is a rare instance. We've reach the minimum
+       * by trying to bracket it. Also check that not all
+       * three points are the same.
+       */
+      if (ax != bx && bx != cx && fa == fb && fb == fc) break;
+
+      niter++;
+      if (niter > 100)
+    	  ESL_EXCEPTION(eslENORESULT, "Failed to bracket a minimum.");
+    }
+
+  /* We're about to return. Assure the caller that the points
+   * are in order a < b < c, not the other way.
+   */
+  if (ax > cx)
+    {
+      swapper = ax; ax = cx; cx = swapper;
+      swapper = fa; fa = fc; fc = swapper;
+    }
+
+  /* Return.
+   */
+  ESL_DPRINTF2(("\nbracket(): %d iterations\n", niter));
+  ESL_DPRINTF2(("bracket(): triplet is %g  %g  %g along current direction\n", 
+		ax, bx, cx));
+  ESL_DPRINTF2(("bracket(): f()'s there are: %g  %g  %g\n\n", 
+		fa, fb, fc));
+
+  *ret_ax = ax;  *ret_bx = bx;  *ret_cx = cx;
+  *ret_fa = fa;  *ret_fb = fb;  *ret_fc = fc;
+  return eslOK;
+}
+
+/* brent():
+ * SRE, Sun Jul 10 19:07:05 2005 [St. Louis]
+ *
+ * Purpose:   Quasi-one-dimensional minimization of a function <*func()>
+ *            in <n>-dimensions, along vector <dir> starting from a
+ *            point <ori>. Identifies a scalar $x$ that approximates
+ *            the position of the minimum along this direction, in a
+ *            given bracketing interval (<a,b>).  The minimum must
+ *            have been bracketed by the caller in the <(a,b)>
+ *            interval.  <a> is often 0, because we often start at the
+ *            <ori>.
+ *
+ *            A quasi-1D scalar coordinate $x$ (such as <a> or <b>) is
+ *            transformed to a point $\mathbf{p}$ in n-space as:
+ *            $\mathbf{p} = \mathbf{\mbox{ori}} + x
+ *            \mathbf{\mbox{dir}}$.
+ *
+ *            Any extra (fixed) data needed to calculate <func> can be
+ *            passed through the void <prm> pointer.
+ *
+ *            <eps> and <t> define the relative convergence tolerance,
+ *            $\mbox{tol} = \mbox{eps} |x| + t$. <eps> should not be
+ *            less than the square root of the machine precision.  The
+ *            <DBL_EPSILON> is 2.2e-16 on many machines with 64-bit
+ *            doubles, so <eps> is on the order of 1e-8 or more. <t>
+ *            is a yet smaller number, used to avoid nonconvergence in
+ *            the pathological case $x=0$.
+ *
+ *            Upon convergence (which is guaranteed), returns <xvec>,
+ *            the n-dimensional minimum. Optionally, will also return
+ *            <ret_x>, the scalar <x> that resulted in that
+ *            n-dimensional minimum, and <ret_fx>, the objective
+ *            function <*func(x)> at the minimum.
+ *
+ *            This is an implementation of the R.P. Brent (1973)
+ *            algorithm for one-dimensional minimization without
+ *            derivatives (modified from Brent's ALGOL60 code). Uses a
+ *            combination of bisection search and parabolic
+ *            interpolation; should exhibit superlinear convergence in
+ *            most functions.
+ *
+ *
+ * Args:      ori     - n-vector at origin
+ *            dir     - direction vector (gradient) we're following from ori
+ *            n       - dimensionality of ori, dir, and xvec
+ *            (*func) - ptr to caller's objective function
+ *            prm     - ptr to any additional data (*func)() needs
+ *            a,b     - minimum is bracketed on interval [a,b]
+ *            eps     - tol = eps |x| + t; eps >= 2 * relative machine precision
+ *            t       - additional factor for tol to avoid x=0 case.
+ *            xvec    - RETURN: minimum, as an n-vector (caller allocated)
+ *            ret_x   - optRETURN: scalar multiplier that gave xvec
+ *            ret_fx  - optRETURN: f(x)
+ *
+ * Returns:   (void)
+ *
+ * Reference: See [Brent73], Chapter 5. My version is derived directly
+ *            from Brent's description and his ALGOL60 code. I've
+ *            preserved his variable names as much as possible, to
+ *            make the routine follow his published description
+ *            closely. The Brent algorithm is also discussed in
+ *            Numerical Recipes [Press88].
+ */
+static void
+brent(double *ori, double *dir, int n,
+      double (*func)(double *, int, void *), void *prm,
+      double a, double b, double eps, double t,
+      double *xvec, double *ret_x, double *ret_fx)
+{
+  double w,x,v,u;               /* with [a,b]: Brent's six points     */
+  double m;                     /* midpoint of current [a,b] interval */
+  double tol;                   /* tolerance = eps|x| + t */
+  double fu,fv,fw,fx;           /* function evaluations */
+  double p,q;                   /* numerator, denominator of parabolic interpolation */
+  double r;
+  double d,e;                   /* last, next-to-last values of p/q  */
+  double c = 1. - (1./eslCONST_GOLD); /* Brent's c; 0.381966; golden ratio */
+  int    niter;			/* number of iterations */
+
+  x=v=w= a + c*(b-a);           /* initial guess of x by golden section */
+  esl_vec_DCopy(ori, n, xvec);  /* build xvec from ori, dir, x */
+  esl_vec_DAddScaled(xvec, dir, x, n);
+  fx=fv=fw = (*func)(xvec, n, prm);   /* initial function evaluation */
+
+  e     = 0.;
+  niter = 0;
+  while (1) /* algorithm is guaranteed to converge. */
+    {
+      m   = 0.5 * (a+b);
+      tol = eps*fabs(x) + t;
+      if (fabs(x-m) <= 2*tol - 0.5*(b-a)) break; /* convergence test. */
+      niter++;
+
+      p = q = r = 0.;
+      if (fabs(e) > tol)
+        { /* Compute parabolic interpolation, u = x + p/q */
+          r = (x-w)*(fx-fv);
+          q = (x-v)*(fx-fw);
+          p = (x-v)*q - (x-w)*r;
+          q = 2*(q-r);
+          if (q > 0) { p = -p; } else {q = -q;}
+          r = e;
+          e=d;                  /* e is now the next-to-last p/q  */
+        }
+
+      if (fabs(p) < fabs(0.5*q*r) || p < q*(a-x) || p < q*(b-x))
+        { /* Seems well-behaved? Use parabolic interpolation to compute new point u */
+          d = p/q;              /* d remembers last p/q */
+          u = x+d;              /* trial point, for now... */
+
+          if (2.0*(u-a) < tol || 2.0*(b-u) < tol) /* don't evaluate func too close to a,b */
+            d = (x < m)? tol : -tol;
+        }
+      else /* Badly behaved? Use golden section search to compute u. */
+        {
+          e = (x<m)? b-x : a-x;  /* e = largest interval */
+          d = c*e;
+        }
+
+      /* Evaluate f(), but not too close to x.  */
+      if      (fabs(d) >= tol) u = x+d;
+      else if (d > 0)          u = x+tol;
+      else                     u = x-tol;
+      esl_vec_DCopy(ori, n, xvec);  /* build xvec from ori, dir, u */
+      esl_vec_DAddScaled(xvec, dir, u, n);
+      fu = (*func)(xvec, n, prm);   /* f(u) */
+
+      /* Bookkeeping.  */
+     if (fu <= fx)
+        {
+          if (u < x) b = x; else a = x;
+          v = w; fv = fw; w = x; fw = fx; x = u; fx = fu;
+        }
+      else
+        {
+          if (u < x) a = u; else b = u;
+          if (fu <= fw || w == x)
+            { v = w; fv = fw; w = u; fw = fu; }
+          else if (fu <= fv || v==x || v ==w)
+            { v = u; fv = fu; }
+        }
+    }
+
+  /* Return.
+   */
+  esl_vec_DCopy(ori, n, xvec);  /* build final xvec from ori, dir, x */
+  esl_vec_DAddScaled(xvec, dir, x, n);
+  if (ret_x  != NULL) *ret_x  = x;
+  if (ret_fx != NULL) *ret_fx = fx;
+  ESL_DPRINTF2(("\nbrent(): %d iterations\n", niter));
+  ESL_DPRINTF2(("xx=%10.8f fx=%10.1f\n", x, fx));
+}
+
+
+/* Function:  esl_min_ConjugateGradientDescent()
+ * Incept:    SRE, Wed Jun 22 08:49:42 2005 [St. Louis]
+ *
+ * Purpose:   n-dimensional minimization by conjugate gradient descent.
+ *           
+ *            An initial point is provided by <x>, a vector of <n>
+ *            components. The caller also provides a function <*func()> that 
+ *            compute the objective function f(x) when called as 
+ *            <(*func)(x, n, prm)>, and a function <*dfunc()> that can
+ *            compute the gradient <dx> at <x> when called as 
+ *            <(*dfunc)(x, n, prm, dx)>, given an allocated vector <dx>
+ *            to put the derivative in. Any additional data or fixed
+ *            parameters that these functions require are passed by
+ *            the void pointer <prm>.
+ *            
+ *            The first step of each iteration is to try to bracket
+ *            the minimum along the current direction. The initial step
+ *            size is controlled by <u[]>; the first step will not exceed 
+ *            <u[i]> for any dimension <i>. (You can think of <u> as
+ *            being the natural "units" to use along a graph axis, if
+ *            you were plotting the objective function.)
+ *
+ *            The caller also provides an allocated workspace sufficient to
+ *            hold four allocated n-vectors. (4 * sizeof(double) * n).
+ *
+ *            Iterations continue until the objective function has changed
+ *            by less than a fraction <tol>. This should not be set to less than
+ *            sqrt(<DBL_EPSILON>). 
+ *
+ *            Upon return, <x> is the minimum, and <ret_fx> is f(x),
+ *            the function value at <x>.
+ *            
+ * Args:      x        - an initial guess n-vector; RETURN: x at the minimum
+ *            u        - "units": maximum initial step size along gradient when bracketing.
+ *            n        - dimensionality of all vectors
+ *            *func()  - function for computing objective function f(x)
+ *            *dfunc() - function for computing a gradient at x
+ *            prm      - void ptr to any data/params func,dfunc need 
+ *            tol      - convergence criterion applied to f(x)
+ *            wrk      - allocated 4xn-vector for workspace
+ *            ret_fx   - optRETURN: f(x) at the minimum
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if it fails to converge in MAXITERATIONS.
+ *            <eslERANGE> if the minimum is not finite, which may
+ *            indicate a problem in the implementation or choice of <*func()>.
+ *
+ * Xref:      STL9/101.
+ */
+int
+esl_min_ConjugateGradientDescent(double *x, double *u, int n, 
+       				 double (*func)(double *, int, void *),
+				 void (*dfunc)(double *, int, void *, double *),
+				 void *prm, double tol, double *wrk, double *ret_fx)
+{
+  double oldfx;
+  double coeff;
+  int    i, i1;
+  double *dx, *cg, *w1, *w2;
+  double cvg;
+  double fa,fb,fc;
+  double ax,bx,cx;
+  double fx;
+
+  dx = wrk;
+  cg = wrk + n;
+  w1 = wrk + 2*n;
+  w2 = wrk + 3*n;
+
+  oldfx = (*func)(x, n, prm);	/* init the objective function */
+  
+  /* Bail out if the function is +/-inf: this can happen if the caller
+   * has screwed something up, or has chosen a bad start point.
+   */
+  if (oldfx == eslINFINITY || oldfx == -eslINFINITY)
+	  ESL_EXCEPTION(eslERANGE, "minimum not finite");
+
+
+  if (dfunc != NULL) 
+    {
+      (*dfunc)(x, n, prm, dx);	/* find the current negative gradient, - df(x)/dxi  */
+      esl_vec_DScale(dx, n, -1.0);
+    } 
+  else numeric_derivative(x, u, n, func, prm, 1e-4, dx); /* resort to brute force */
+
+  esl_vec_DCopy(dx, n, cg);	/* and make that the first conjugate direction, cg  */
+
+
+
+  /* (failsafe) convergence test: a zero direction can happen, 
+   * and it either means we're stuck or we're finished (most likely stuck)
+   */
+  for (i1 = 0; i1 < n; i1++) 
+    if (cg[i1] != 0.) break;
+  if  (i1 == n) {
+    if (ret_fx != NULL) *ret_fx = oldfx;
+    return eslOK;
+  }
+  
+  for (i = 0; i < MAXITERATIONS; i++)
+  {
+
+      /* Figure out the initial step size.
+       */
+       bx = fabs(u[0] / cg[0]);
+       for (i1 = 1; i1 < n; i1++)
+	 {
+	   cx = fabs(u[i1] / cg[i1]);
+	   if (cx < bx) bx = cx;
+	 }
+ 
+       /* Bracket the minimum.
+	*/
+       bracket(x, cg, n, bx, func, prm, w1,
+	      &ax, &bx, &cx, 
+	      &fa, &fb, &fc);
+       
+       /* Minimize along the line given by the conjugate gradient <cg> */
+       brent(x, cg, n, func, prm, ax, cx, 1e-3, 1e-8, w2, NULL, &fx);
+       esl_vec_DCopy(w2, n, x);
+
+      /* Bail out if the function is now +/-inf: this can happen if the caller
+       * has screwed something up.
+       */
+      if (fx == eslINFINITY || fx == -eslINFINITY)
+    	  ESL_EXCEPTION(eslERANGE, "minimum not finite");
+
+
+      /* Find the negative gradient at that point (temporarily in w1) */
+      if (dfunc != NULL) 
+	  {
+	    (*dfunc)(x, n, prm, w1);
+	    esl_vec_DScale(w1, n, -1.0);
+	  }
+      else numeric_derivative(x, u, n, func, prm, 1e-4, w1); /* resort to brute force */
+
+      /* Calculate the Polak-Ribiere coefficient */
+      for (coeff = 0., i1 = 0; i1 < n; i1++)
+	      coeff += (w1[i1] - dx[i1]) * w1[i1];
+      coeff /= esl_vec_DDot(dx, dx, n);
+      
+      /* Calculate the next conjugate gradient direction in w2 */
+      esl_vec_DCopy(w1, n, w2);
+      esl_vec_DAddScaled(w2, cg, coeff, n);
+
+      /* Finishing set up for next iteration: */
+      esl_vec_DCopy(w1, n, dx);
+      esl_vec_DCopy(w2, n, cg);
+
+      /* Now: x is the current point; 
+       *      fx is the function value at that point;
+       *      dx is the current gradient at x;
+       *      cg is the current conjugate gradient direction. 
+       */
+
+      /* Main convergence test. 1e-9 factor is fudging the case where our
+       * minimum is at exactly f()=0.
+       */
+      cvg = 2.0 * fabs((oldfx-fx)) / (1e-10 + fabs(oldfx) + fabs(fx));
+
+//      fprintf(stderr, "(%d): Old f() = %.9f    New f() = %.9f    Convergence = %.9f\n", i, oldfx, fx, cvg);
+//      fprintf(stdout, "(%d): Old f() = %.9f    New f() = %.9f    Convergence = %.9f\n", i, oldfx, fx, cvg);
+
+#if eslDEBUGLEVEL >= 2
+      printf("\nesl_min_ConjugateGradientDescent():\n");
+      printf("new point:     ");
+      for (i1 = 0; i1 < n; i1++)
+	    printf("%g ", x[i1]);
+
+      printf("\nnew gradient:    ");
+      for (i1 = 0; i1 < n; i1++)
+	    printf("%g ", dx[i1]);
+
+      numeric_derivative(x, u, n, func, prm, 1e-4, w1);
+      printf("\n(numeric grad):  ");
+      for (i1 = 0; i1 < n; i1++)
+	    printf("%g ", w1[i1]);
+
+      printf("\nnew direction: ");
+      for (i1 = 0; i1 < n; i1++)
+	    printf("%g ", cg[i1]);
+
+      printf("\nOld f() = %g    New f() = %g    Convergence = %g\n\n", oldfx, fx, cvg);
+#endif
+
+     if (cvg <= tol) break;
+
+      /* Second (failsafe) convergence test: a zero direction can happen, 
+       * and it either means we're stuck or we're finished (most likely stuck)
+       */
+      for (i1 = 0; i1 < n; i1++) 
+	     if (cg[i1] != 0.) break;
+      if  (i1 == n) break;
+
+      oldfx = fx;
+    }
+
+
+	if (ret_fx != NULL) *ret_fx = fx;
+
+    if (i == MAXITERATIONS)
+	  ESL_FAIL(eslENOHALT, NULL, " ");
+// 	  ESL_EXCEPTION(eslENOHALT, "Failed to converge in ConjugateGradientDescent()");
+
+
+
+  return eslOK;
+}
+
+
+
+
+
+
+/*****************************************************************
+ * Example main()
+ *****************************************************************/
+#ifdef eslMINIMIZER_EXAMPLE
+/*::cexcerpt::minimizer_example::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslMINIMIZER_EXAMPLE esl_minimizer.c esl_vectorops.c easel.c -lm
+ * run:     ./example 
+ */
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+#include "esl_minimizer.h"
+
+/* a simple multidimensional quadratic w/ a minimum at 0:
+ *    $f(x) = a_1 x_1^2 + ... a_n x_n^2$
+ */ 
+static double
+example_func(double *x, int n, void *prm)
+{
+  double *a;
+  double  fx;
+  int     i;
+
+  a = (double *) prm;	/* cast the data vector */
+  for (fx = 0., i = 0; i < n; i++)
+    fx += a[i] * x[i] * x[i];
+  return fx;
+}
+/* gradient of the f(x): d/dx_i = 2 a_i x_i
+ */
+static void
+example_dfunc(double *x, int n, void *prm, double *dx)
+{
+  double *a;
+  int     i;
+
+  a = (double *) prm;	/* cast the data vector */
+  for (i = 0; i < n; i++)
+    dx[i] = 2.0 * a[i] * x[i];
+}
+int
+main(int argc, char **argv)
+{
+  int    n = 6;
+  double a[6] = { 1.0, 2.0, 3.0, 4.0, 5.0, 6.0 };
+  double x[6] = { 1.0, 2.0, 3.0, 4.0, 5.0, 6.0 };
+  double u[6] = { 1.0, 1.0, 1.0, 1.0, 1.0, 1.0 };
+  double wrk[24];
+  double fx;
+  int    i;
+
+  esl_min_ConjugateGradientDescent(x, u, n, 
+				   &example_func, &example_dfunc, (void *) a, 
+				   0.0001, wrk, &fx);
+
+  printf("At minimum: f(x) = %g\n", fx);
+  printf("vector x = ");
+  for (i = 0; i < 6; i++) printf("%g  ", x[i]);
+  printf("\n");
+
+  return 0;
+}
+/*::cexcerpt::minimizer_example::end::*/
+#endif /*eslMINIMIZER_EXAMPLE*/
+
+
+
+
+
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_minimizer.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_minimizer.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.h
new file mode 100755
index 0000000..82bca7e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.h
@@ -0,0 +1,35 @@
+/* Multidimensional optimization by conjugate gradient descent.
+ * 
+ * SRE, Wed Jun 22 09:53:05 2005
+ * SVN $Id: esl_minimizer.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_minimizer.h $
+ */
+#ifndef eslMINIMIZER_INCLUDED
+#define eslMINIMIZER_INCLUDED
+
+#define MAXITERATIONS 100
+
+extern int esl_min_Bracket(double *a, double *d, double *u, int n, 
+			   double (*func)(double *, int, void *), void *prm, 
+			   double *ret_fa,
+			   double *b, double *ret_bx, double *ret_fb,
+			   double *c, double *ret_cx, double *ret_fc);
+extern int esl_min_LineSearch(double *ori, double *d, double *u, int n,
+			      double (*func)(double *, int, void *), void *prm,
+			      double tol, double *b, 
+			      double *x, double *ret_xx, double *ret_fx);
+extern int esl_min_ConjugateGradientDescent(double *x, double *u, int n, 
+					    double (*func)(double *, int, void *),
+					    void (*dfunc)(double *, int, void *, double *),
+					    void *prm, double tol, double *wrk, double *ret_fx);
+
+#endif /*eslMINIMIZER_INCLUDED*/
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.tex
new file mode 100755
index 0000000..22ba5b1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_minimizer.tex
@@ -0,0 +1,13 @@
+
+
+
+\subsection{The minimizer API}
+
+The \eslmod{minimizer} API has just one function:
+\ccode{esl\_min\_ConjugateGradientDescent()}.
+
+\subsection{Example of using the minimizer API}
+
+The code sample below 
+
+\input{cexcerpts/minimizer_example}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mixgev.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mixgev.c
new file mode 100755
index 0000000..57fbdd2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mixgev.c
@@ -0,0 +1,825 @@
+/* esl_mixgev.c
+ * Statistical routines for mixtures of generalized extreme value 
+ * distributions.
+ * 
+ * xref SRE:STL9/139  
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <math.h>
+#include <assert.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+#include "esl_stats.h"
+#include "esl_gev.h"
+#include "esl_mixgev.h"
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_dirichlet.h"  /* for uniform sampling of a probability vector */
+#include "esl_random.h"
+#endif 
+
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+
+
+/****************************************************************************
+ * Routines for the ESL_MIXGEV object
+ ****************************************************************************/ 
+
+/* Function:  esl_mixgev_Create()
+ *
+ * Purpose:   Creates an object to hold parameters for a <K>-component
+ *            mixture of generalized extreme value distributions.
+ *
+ *            Parameters in the object are initialized ($q_k =
+ *            \frac{1}{K}$, $\mu_k = 0$, $\lambda_k = 1$, $\alpha_k =
+ *            0$), but the caller will want to set these according to
+ *            its own purposes.
+ *
+ *            After an object is created, the caller can constrain any
+ *            of the components to be a Gumbel (that is, constrain
+ *            $\alpha_k = 0$ by calling <esl_mixgev_ForceGumbel(obj,
+ *            k)>.
+ *
+ * Args:      K  - number of components in the mixture
+ *
+ * Returns:   ptr to newly allocated/initialized <ESL_MIXGEV> object.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_MIXGEV *
+esl_mixgev_Create(int K)
+{
+  ESL_MIXGEV *mg = NULL;
+  int         k;
+  int         status;
+
+  ESL_ALLOC(mg, sizeof(ESL_MIXGEV));
+  mg->q = mg->mu = mg->lambda = mg->alpha = mg->wrk = NULL;
+  mg->isgumbel = NULL;
+  mg->K = K;
+
+  ESL_ALLOC(mg->q,        sizeof(double) * K);
+  ESL_ALLOC(mg->mu,       sizeof(double) * K);
+  ESL_ALLOC(mg->lambda,   sizeof(double) * K);
+  ESL_ALLOC(mg->alpha,    sizeof(double) * K);
+  ESL_ALLOC(mg->wrk,      sizeof(double) * K);
+  ESL_ALLOC(mg->isgumbel, sizeof(int)    * K);
+
+  for (k = 0; k < K; k++)
+    {
+      mg->q[k]        = 1. / (double) K;
+      mg->mu[k]       = 0.;
+      mg->lambda[k]   = 1.;
+      mg->alpha[k]    = 0.;
+      mg->isgumbel[k] = FALSE;
+    }
+  return mg;
+  
+ ERROR:
+  esl_mixgev_Destroy(mg);
+  return NULL;
+}
+
+/* Function:  esl_mixgev_Destroy()
+ *
+ * Purpose:   Deallocates the mixture GEV parameter object <mg>.
+ *
+ * Args:      mg  - ptr to the object to be deallocated.
+ *
+ * Returns:   (void)
+ */
+void
+esl_mixgev_Destroy(ESL_MIXGEV *mg)
+{
+  if (mg == NULL) return;
+
+  if (mg->q        != NULL) free(mg->q);
+  if (mg->mu       != NULL) free(mg->mu);
+  if (mg->lambda   != NULL) free(mg->lambda);
+  if (mg->alpha    != NULL) free(mg->alpha);
+  if (mg->wrk      != NULL) free(mg->wrk);
+  if (mg->isgumbel != NULL) free(mg->isgumbel);
+
+  free(mg);
+}
+
+/* Function:  esl_mixgev_Copy()
+ *
+ * Purpose:   Makes a copy of the mixture GEV parameter object <src>
+ *            in <dest>. Caller must have already allocated <dest> to have
+ *            (at least) the same number of components as <src>.
+ *
+ * Args:      src   - object to be copied
+ *            dest  - allocated object to copy <src> into
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINCOMPAT> if <dest> isn't allocated with enough
+ *            components to hold a copy of <src>.
+ */
+int
+esl_mixgev_Copy(ESL_MIXGEV *src, ESL_MIXGEV *dest)
+{
+  int k;
+
+  if (dest->K < src->K) 
+    ESL_EXCEPTION(eslEINCOMPAT, "mixture GEV too small to copy into");
+
+  for (k = 0; k < src->K; k++)
+    {
+      dest->q[k]        = src->q[k];
+      dest->mu[k]       = src->mu[k];
+      dest->lambda[k]   = src->lambda[k];
+      dest->alpha[k]    = src->alpha[k];
+      dest->isgumbel[k] = src->isgumbel[k];
+    }
+  dest->K = src->K;
+  return eslOK;
+}
+
+/* Function:  esl_mixgev_ForceGumbel()
+ *
+ * Purpose:   Constrain component <which> of the mixture GEV <mg>
+ *            to be a Gumbel (that is, constrain $\alpha=0$ for
+ *            that component. This constraint will be obeyed by
+ *            any subsequent calls to parameter fitting routines.
+ *
+ *            Normally would be called just after creating the <mg>
+ *            object, as part of its configuration before trying to 
+ *            fit some observed data to a mixture GEV.
+ *
+ * Args:      mg    - mixture GEV object being configured
+ *            which - which component to constrain to a Gumbel
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_mixgev_ForceGumbel(ESL_MIXGEV *mg, int which)
+{
+  mg->isgumbel[which] = TRUE;
+  return eslOK;
+}
+/*----------------- end ESL_MIXGEV object maintenance ----------------------*/
+
+
+
+
+/****************************************************************************
+ * Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+
+/* Function:  esl_mixgev_pdf()
+ *
+ * Purpose:   Returns the probability density function $P(X=x)$ for
+ *            quantile <x>, given mixture GEV parameters <mg>.
+ */
+double
+esl_mixgev_pdf(double x, ESL_MIXGEV *mg)
+{
+  double pdf = 0.;
+  int    k;
+
+  for (k = 0; k < mg->K; k++)
+    pdf += mg->q[k] * esl_gev_pdf(x, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+  return pdf;
+}
+
+/* Function:  esl_mixgev_logpdf()
+ *
+ * Purpose:   Returns the log of the PDF ($\log P(X=x)$) for quantile <x>,
+ *            given mixture GEV parameters <mg>.
+ */
+double
+esl_mixgev_logpdf(double x, ESL_MIXGEV *mg)
+{
+  int k;
+  for (k = 0; k < mg->K; k++)
+    if (mg->q[k] == 0.0) 
+      mg->wrk[k] = -eslINFINITY;
+    else 
+      mg->wrk[k] =  log(mg->q[k]) +
+	esl_gev_logpdf(x, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+
+  return esl_vec_DLogSum(mg->wrk, mg->K);
+}
+
+/* Function:  esl_mixgev_cdf()
+ *
+ * Purpose:   Returns the cumulative distribution function $P(X \leq x)$
+ *            for quantile <x>, given mixture GEV parameters <mg>.
+ */
+double
+esl_mixgev_cdf(double x, ESL_MIXGEV *mg)
+{
+  double cdf = 0.;
+  int    k;
+
+  for (k = 0; k < mg->K; k++)
+    cdf += mg->q[k] * esl_gev_cdf(x, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+  return cdf;
+}
+
+/* Function:  esl_mixgev_logcdf()
+ *
+ * Purpose:   Returns the log of the CDF $\log P(X \leq x)$
+ *            for quantile <x>, given mixture GEV parameters <mg>.
+ */
+double
+esl_mixgev_logcdf(double x, ESL_MIXGEV *mg)
+{
+  int k;
+
+  for (k = 0; k < mg->K; k++)
+    if (mg->q[k] == 0.0) 
+      mg->wrk[k] = -eslINFINITY;
+    else
+      mg->wrk[k] = log(mg->q[k]) + 
+	esl_gev_logcdf(x, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+
+  return esl_vec_DLogSum(mg->wrk, mg->K);
+}
+
+/* Function:  esl_mixgev_surv()
+ *
+ * Purpose:   Returns the survivor function $P(X > x)$ (1-CDF)
+ *            for quantile <x>, given mixture GEV parameters <mg>.
+ */
+double
+esl_mixgev_surv(double x, ESL_MIXGEV *mg)
+{
+  double srv = 0.;
+  int    k;
+
+  for (k = 0; k < mg->K; k++)
+    srv += mg->q[k] * esl_gev_surv(x, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+  return srv;
+}
+
+/* Function:  esl_mixgev_logsurv()
+ *
+ * Purpose:   Returns the log survivor function $\log P(X > x)$ (log(1-CDF))
+ *            for quantile <x>, given mixture GEV parameters <mg>.
+ */
+double
+esl_mixgev_logsurv(double x, ESL_MIXGEV *mg)
+{
+  int k;
+  for (k = 0; k < mg->K; k++)
+    {
+      mg->wrk[k] =  log(mg->q[k]);
+      mg->wrk[k] += esl_gev_logsurv(x, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+    }
+  return esl_vec_DLogSum(mg->wrk, mg->K);
+}
+
+/* Function:  esl_mixgev_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF for a mixture GEV <mg>,
+ *            returning the quantile <x> at which the CDF is <p>,
+ *            where $0 < p < 1$.
+ *            
+ *            The inverse CDF of a mixture model has no analytical
+ *            expression as far as I'm aware. The calculation here is
+ *            a brute force bisection search in <x> using the CDF
+ *            function. It will suffice for a small number of calls
+ *            (for plotting applications, for example), but beware, it is not
+ *            efficient.
+ */
+double
+esl_mixgev_invcdf(double p, ESL_MIXGEV *mg)
+{
+  double x1, x2, xm;		/* low, high guesses at x */
+  double f1, f2, fm;
+  double tol = 1e-6;
+
+  x2 = esl_vec_DMin(mg->mu, mg->K);
+  x1 = x2 - 1.;
+  do {				/* bracket, left side */
+    x1 = x1 + 2.*(x2-x1);
+    f1 = esl_mixgev_cdf(x1, mg);
+  } while (f1 > p);
+  do {				/* bracket, right side */
+    x2 = x2 + 2.*(x2-x1);
+    f2 = esl_mixgev_cdf(x2, mg);
+  } while (f2 < p);		
+
+  do {				/* bisection */
+    xm = (x1+x2) / 2.;
+    fm = esl_mixgev_cdf(xm, mg);
+    
+    if      (fm > p) x2 = xm;
+    else if (fm < p) x1 = xm;
+    else return xm;		/* unlikely case of fm==p */
+  } while ( (x2-x1)/(x1+x2+1e-9) > tol);
+
+  xm = (x1+x2) / 2.;
+  return xm;
+}
+/*-------------------- end densities & distributions ------------------------*/
+
+
+
+
+/****************************************************************************
+ * Generic API routines: for general interface w/ histogram module
+ ****************************************************************************/ 
+
+/* Function:  esl_mixgev_generic_pdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_mixgev_pdf()>, taking
+ *            a void ptr to a <ESL_MIXGEV> parameter structure.
+ */
+double
+esl_mixgev_generic_pdf(double x, void *params)
+{
+  ESL_MIXGEV *mg = (ESL_MIXGEV *) params;
+  return esl_mixgev_pdf(x, mg);
+}
+
+/* Function:  esl_mixgev_generic_cdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_mixgev_cdf()>, taking
+ *            a void ptr to a <ESL_MIXGEV> parameter structure.
+ */
+double
+esl_mixgev_generic_cdf(double x, void *params)
+{
+  ESL_MIXGEV *mg = (ESL_MIXGEV *) params;
+  return esl_mixgev_cdf(x, mg);
+}
+
+/* Function:  esl_mixgev_generic_surv()
+ *
+ * Purpose:   Generic-API wrapper around <esl_mixgev_surv()>, taking
+ *            a void ptr to a <ESL_MIXGEV> parameter structure.
+ */
+double
+esl_mixgev_generic_surv(double x, void *params)
+{
+  ESL_MIXGEV *mg = (ESL_MIXGEV *) params;
+  return esl_mixgev_surv(x, mg);
+}
+
+/* Function:  esl_mixgev_generic_invcdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_mixgev_invcdf()>, taking
+ *            a void ptr to a <ESL_MIXGEV> parameter structure.
+ */
+double
+esl_mixgev_generic_invcdf(double p, void *params)
+{
+  ESL_MIXGEV *mg = (ESL_MIXGEV *) params;
+  return esl_mixgev_invcdf(p, mg);
+}
+/*------------------------ end generic API ---------------------------------*/
+
+
+
+
+/****************************************************************************
+ * Routines for dumping plots to xmgrace XY format
+ ****************************************************************************/ 
+
+/* Function:  esl_mixgev_Plot()
+ *
+ * Purpose:   Plot some function <func> (for instance, <esl_mixgev_pdf()>)
+ *            for mixture GEV parameters <mg>, for a range of
+ *            quantiles x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error.
+ */
+int
+esl_mixgev_Plot(FILE *fp, ESL_MIXGEV *mg,
+		double (*func)(double x, ESL_MIXGEV *mg), 
+		double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mg)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "mixgev plot write failed");
+  if (fprintf(fp, "&\n")                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "mixgev plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+
+
+/****************************************************************************
+ * Routines for sampling (requires augmentation w/ random module)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+
+/* Function:  esl_mixgev_Sample()
+ *
+ * Purpose:   Sample a random variate x from a mixture GEV <mg>, 
+ *            given random number source <r>.
+ */
+double
+esl_mixgev_Sample(ESL_RANDOMNESS *r, ESL_MIXGEV *mg)
+{
+  int k;	
+  k = esl_rnd_DChoose(r, mg->q, mg->K);
+  return esl_gev_Sample(r, mg->mu[k], mg->lambda[k], mg->alpha[k]);
+}
+
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+
+
+
+
+/****************************************************************************
+ * Maximum likelihood fitting to mixture GEV distributions
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_MINIMIZER
+
+struct mixgev_data {
+  double *x;
+  int     n;
+  double *wrk;	    /* workspace vector               [0..K-1]*/
+  ESL_MIXGEV *mg;
+};
+
+/* Given mixture GEV parameters in <mg>;
+ * do appropriate c.o.v.'s to unconstrained real parameters
+ * and fill in the packed parameter vector <p>.
+ * 
+ * First K-1 are Q_1..Q_K-1 mixture coefficient parameters; Q_0 implicitly 0;
+ *  cov is q_k = e^{Q_k} / \sum_j e^{Q_j},
+ *  so     Q_k = log(q_k) - log(q_0).
+ * Then K components: mu, lambda, optional alpha;
+ * mu, alpha are already unconstrained real;
+ * lambda cov is lambda = e^w, w = log(lambda).
+ */
+static void
+mixgev_pack_paramvector(double *p, int np, ESL_MIXGEV *mg)
+{
+  int    i;			/* counter in parameter vector p */
+  int    k;			/* counter in mixture components */
+  double z;			/* tmp variable */
+
+  /* mixture coefficients */
+  z = log(mg->q[0]);
+  i = 0;
+  for (k = 1; k < mg->K; k++) 
+    p[i++] = log(mg->q[k]) - z;
+  
+  /* gev parameters */
+  for (k = 0; k < mg->K; k++)
+    {
+      p[i++] = mg->mu[k];
+      p[i++] = log(mg->lambda[k]);
+      if (! mg->isgumbel[k]) p[i++] = mg->alpha[k];
+    }
+  /* assert(i==np) in debugging, if you want */
+}
+
+/* Same as above but in reverse: given parameter vector <p>,
+ * do appropriate c.o.v. back to desired parameter space, and
+ * fill in the mixture GEV structure <mg>.
+ */
+static void
+mixgev_unpack_paramvector(double *p, int np, ESL_MIXGEV *mg)
+{
+  int    i;			/* counter in parameter vector p */
+  int    k;			/* counter in mixture components */
+  double z;			/* tmp variable  */
+
+  /* Fetch the params in their c.o.v. space first
+   */
+  i = 0;
+  mg->q[0] = 0;	/* implicitly */
+  for (k = 1; k < mg->K; k++) 
+    mg->q[k] = p[i++]; 
+  for (k = 0; k < mg->K; k++)
+    {
+      mg->mu[k]     = p[i++];
+      mg->lambda[k] = p[i++];
+      if (!mg->isgumbel[k]) mg->alpha[k]  = p[i++];
+      else                  mg->alpha[k]  = 0.;
+    }
+  assert(i==np);
+  
+  /* Convert mix coefficients back to probabilities;
+   * their  c.o.v. is q_k = e^{Q_k} / \sum_k e^{Q_k}
+   * which rearranges to exp(Q_k - log[\sum_k e^Q_k]),
+   * and we have the DLogSum() function to compute the log sum.
+   */
+  z = esl_vec_DLogSum(mg->q, mg->K);
+  for (k = 0; k < mg->K; k++)
+    mg->q[k] = exp(mg->q[k] - z);
+  
+  /* lambda c.o.v. is \lambda = e^w
+   */
+  for (k = 0; k < mg->K; k++)
+    mg->lambda[k] = exp(mg->lambda[k]);
+}
+
+static double
+mixgev_complete_func(double *p, int np, void *dptr)
+{
+  struct mixgev_data *data = (struct mixgev_data *) dptr;
+  ESL_MIXGEV         *mg   = data->mg;
+  int    i;
+  double logL;
+
+  /* Use the current parameter vector (in its unconstrained
+   * real c.o.v. space) to deduce what the current mixture GEV
+   * parameters are:
+   */
+  mixgev_unpack_paramvector(p, np, mg);
+
+  /* Calculate the log likelihood:
+   */
+  logL = 0;
+  for (i = 0; i < data->n; i++)
+    logL += esl_mixgev_logpdf(data->x[i], mg);
+
+  /* return the NLL
+   */
+  return -logL;
+}
+
+
+/* Function:  esl_mixgev_FitGuess()
+ *
+ * Purpose:   Make initial randomized guesses at the parameters
+ *            of mixture GEV <mg>, using random number generator
+ *            <r> and observed data consisting of <n> values
+ *            <x[0..n-1]>. This guess is a suitable starting
+ *            point for a parameter optimization routine, such
+ *            as <esl_mixgev_FitComplete()>.
+ *            
+ *            Specifically, we estimate one 'central' guess 
+ *            for a single Gumbel fit to the data, using the
+ *            method of moments. Then we add $\pm 10\%$ to that 'central' 
+ *            $\mu$ and $\lambda$ to get each component 
+ *            $\mu_i$ and $\lambda_i$. The $\alpha_i$ parameters
+ *            are generated by sampling uniformly from $-0.1..0.1$.
+ *            Mixture coefficients $q_i$ are sampled uniformly.
+ *
+ * Args:      r   - randomness source 
+ *            x   - vector of observed data values to fit, 0..n-1
+ *            n   - number of values in <x>
+ *            mg  - mixture GEV to put guessed params into
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_mixgev_FitGuess(ESL_RANDOMNESS *r, double *x, int n, ESL_MIXGEV *mg)
+{
+  double mean, variance;
+  double mu, lambda;
+  int    k;
+
+  esl_stats_DMean(x, n, &mean, &variance);
+  lambda = eslCONST_PI / sqrt(6.*variance);
+  mu     = mean - 0.57722/lambda;
+
+  esl_dirichlet_DSampleUniform(r, mg->K, mg->q);
+  for (k = 0; k < mg->K; k++)
+    {
+      mg->mu[k]     = mu     + 0.2 * mu     * (esl_random(r) - 0.5);
+      mg->lambda[k] = lambda + 0.2 * lambda * (esl_random(r) - 0.5);
+      if (mg->isgumbel[k]) mg->alpha[k] = 0.;
+      else mg->alpha[k] = 0.2 * (esl_random(r) - 0.5);
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_mixgev_FitComplete()
+ *
+ * Purpose:   Given <n> observed data values <x[0..n-1]>, and
+ *            an initial guess at a mixture GEV fit to those data
+ *            <mg>, use conjugate gradient descent to perform
+ *            a locally optimal maximum likelihood mixture
+ *            GEV parameter fit to the data.
+ *            
+ *            To obtain a reasonable initial guess for <mg>,
+ *            see <esl_mixgev_FitGuess()>. 
+ *
+ * Args:      x   - observed data, <x[0..n-1]>.
+ *            n   - number of samples in <x>
+ *            mg  - mixture GEV to estimate, w/ params set to
+ *                  an initial guess.
+ *
+ * Returns:   <eslOK> on success, and <mg> contains local
+ *            ML estimate for mixture GEV parameters.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <mg> is unchanged
+ *            from its initial state.
+ */
+int
+esl_mixgev_FitComplete(double *x, int n, ESL_MIXGEV *mg)
+{
+  struct mixgev_data data;
+  int     status;
+  double *p = NULL;
+  double *u = NULL;
+  double *wrk = NULL;
+  double  tol;
+  int     np;
+  double  fx;
+  int     k;
+  int     i;
+
+  tol = 1e-6;
+
+  /* Determine number of free parameters and allocate 
+   */
+  np = mg->K-1;			/* K-1 mix coefficients free */
+  for (k = 0; k < mg->K; k++)
+    np += (mg->isgumbel[k])? 2 : 3;
+  ESL_ALLOC(p,   sizeof(double) * np);
+  ESL_ALLOC(u,   sizeof(double) * np);
+  ESL_ALLOC(wrk, sizeof(double) * np * 4);
+
+  /* Copy shared info into the "data" structure
+   */
+  data.x   = x;
+  data.n   = n;
+  data.wrk = wrk;
+  data.mg  = mg;
+
+  /* From mg, create the parameter vector.
+   */
+  mixgev_pack_paramvector(p, np, mg);
+
+  /* Define the step size vector u.
+   */
+  i = 0;
+  for (k = 1; k < mg->K; k++) u[i++] = 1.0;
+  for (k = 0; k < mg->K; k++)
+    {
+      u[i++] = 1.0;
+      u[i++] = 1.0;
+      if (! mg->isgumbel[k]) u[i++] = 0.02;
+    }
+  ESL_DASSERT1( (np == i) );
+
+  /* Feed it all to the mighty optimizer.
+   */
+
+  status = esl_min_ConjugateGradientDescent(p, u, np, &mixgev_complete_func, NULL,
+					    (void *) (&data), tol, wrk, &fx);
+  if (status != eslOK) goto ERROR;
+
+  /* Convert the final parameter vector back to a mixture GEV
+   */
+  mixgev_unpack_paramvector(p, np, mg);
+  
+  free(p);
+  free(u);
+  free(wrk);
+  return eslOK;
+
+ ERROR:
+  if (p != NULL)   free(p);
+  if (u != NULL)   free(u);
+  if (wrk != NULL) free(wrk);
+  return status;
+}
+#endif /*eslAUGMENT_MINIMIZER*/
+/*--------------------------- end fitting ----------------------------------*/
+
+
+
+
+/****************************************************************************
+ * Example main()
+ ****************************************************************************/ 
+
+#ifdef eslMIXGEV_EXAMPLE
+/*::cexcerpt::mixgev_example::begin::*/
+/* compile: 
+   gcc -g -Wall -I. -L. -o example -DeslMIXGEV_EXAMPLE esl_mixgev.c -leasel -lm 
+ * run:     ./example
+ */
+#include <stdio.h>
+#include <stdlib.h>
+#include "easel.h"
+#include "esl_mixgev.h"
+#include "esl_random.h"
+
+int
+main(int argc, char **argv)
+{
+  FILE *fp;
+  ESL_RANDOMNESS *r;		/* source of random numbers   */
+  ESL_MIXGEV *mg;		/* mixture GEV to sample from */
+  ESL_MIXGEV *emg;		/* estimated mixture GEV      */
+  double     *x;		/* sampled dataset            */
+  int         n = 100000;	/* number of samples          */
+  int         i;
+  int         k;
+  double      nll;
+  double      min, max;
+
+  r  = esl_randomness_Create(42);
+  mg = esl_mixgev_Create(2);
+  mg->q[0]      = 0.85;   mg->q[1]      = 0.15; 
+  mg->mu[0]     = -2.72;  mg->mu[1]     = -2.0; 
+  mg->lambda[0] = 2.5;    mg->lambda[1] = 1.0;  
+  mg->alpha[0]  = 0.;     mg->alpha[1]  = 0.09; 
+
+  nll = 0.;
+  min = 99999;
+  max = -99999;
+
+  x = malloc(sizeof(double) * n);
+  for (i = 0; i < n; i++)
+    {
+      x[i] = esl_mixgev_Sample(r, mg);
+      nll -= esl_mixgev_logpdf(x[i], mg);
+      if (x[i] > max) max = x[i];
+      if (x[i] < min) min = x[i];
+    }
+  printf("NLL of known mixGEV: %g\n", nll);
+
+  /* Dump the raw data samples to an R file.
+   */
+  fp = fopen("data.out", "w");
+  fprintf(fp, "     val\n");
+  for (i = 0; i < n; i++)
+    fprintf(fp, "%d   %f\n", i+1, x[i]);
+  fclose(fp);
+
+  emg = esl_mixgev_Create(2);
+  esl_mixgev_FitGuess(r, x, n, emg); 
+  /*  esl_mixgev_Copy(mg, emg); */
+  esl_mixgev_ForceGumbel(emg, 0); 
+  esl_mixgev_FitComplete(x, n, emg);
+
+  printf("Component   q      mu   lambda  alpha\n");
+  for (k=0; k < 2; k++)
+    printf("%d\t%7.4f\t%7.2f\t%7.4f\t%7.4f\n", 
+	   k, emg->q[k], emg->mu[k], emg->lambda[k], emg->alpha[k]);
+
+  nll = 0.;
+  for (i = 0; i < n; i++)
+    nll -= esl_mixgev_logpdf(x[i], emg);
+  printf("NLL of fitted mixGEV: %g\n", nll);
+
+  /* Dump some R commands for showing these distributions
+   */
+  printf("library(ismev)\n");
+  printf("library(evd)\n");
+
+  printf("d <- read.table(\"data.out\")$val\n");
+  printf("plot(density(d,bw=0.2), log=\"y\")\n");
+  printf("min <- %f\n", min);
+  printf("max <- %f\n", max);
+  printf("xax <- seq(min-2, max+5, by=0.1)\n");
+  printf("cc <- xax - xax\n");
+  printf("zc <- xax - xax\n");
+  for (k = 0; k < mg->K; k++)
+    {
+      printf("c%d  <- %f * dgev(xax, %f, %f, %f)\n", 
+	     k, mg->q[k], mg->mu[k], 1./mg->lambda[k], mg->alpha[k]);
+      printf("cc   <- cc + c%d\n", k);
+      printf("lines(xax, c%d, col=\"blue\")\n", k);
+    }
+  for (k = 0; k < emg->K; k++)
+    {
+      printf("z%d  <- %f * dgev(xax, %f, %f, %f)\n", 
+	     k, emg->q[k], emg->mu[k], 1./emg->lambda[k], emg->alpha[k]);
+      printf("zc   <- zc + z%d\n", k);
+      printf("lines(xax, z%d, col=\"blue\")\n", k);
+    }
+  printf("lines(xax, cc, col=\"green\")\n");
+  printf("lines(xax, zc, col=\"red\")\n");
+
+  esl_mixgev_Destroy(mg);
+  esl_mixgev_Destroy(emg);
+  esl_randomness_Destroy(r);
+  free(x);
+  return 0;
+}
+/*::cexcerpt::mixgev_example::end::*/
+#endif /*eslMIXGEV_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_mixgev.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_mixgev.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mixgev.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mixgev.h
new file mode 100755
index 0000000..033fa43
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mixgev.h
@@ -0,0 +1,69 @@
+/* Mixture generalized extreme value distributions.
+ * 
+ * SRE, Mon Aug 15 08:33:57 2005 [St. Louis]
+ * SVN $Id: esl_mixgev.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_mixgev.h $
+ */
+#ifndef eslMIXGEV_INCLUDED
+#define eslMIXGEV_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+
+typedef struct {
+  double *q;			/* mixture coefficients      [0..K-1]*/
+  double *mu;			/* location parameters       [0..K-1]*/
+  double *lambda;		/* scale parameters          [0..K-1]*/
+  double *alpha;		/* shape parameters          [0..K-1]*/
+  double *wrk;			/* tmp vector needed for logpdf calc */
+  int    *isgumbel;		/* flag:TRUE to constrain k to Gumbel*/
+  int     K;			/* # of components                   */
+} ESL_MIXGEV;
+
+
+
+extern ESL_MIXGEV *esl_mixgev_Create(int K);
+extern void        esl_mixgev_Destroy(ESL_MIXGEV *mg);
+extern int         esl_mixgev_Copy(ESL_MIXGEV *dest, ESL_MIXGEV *src);
+extern int         esl_mixgev_ForceGumbel(ESL_MIXGEV *mg, int which);
+
+extern double      esl_mixgev_pdf    (double x, ESL_MIXGEV *mg);
+extern double      esl_mixgev_logpdf (double x, ESL_MIXGEV *mg);
+extern double      esl_mixgev_cdf    (double x, ESL_MIXGEV *mg);
+extern double      esl_mixgev_logcdf (double x, ESL_MIXGEV *mg);
+extern double      esl_mixgev_surv   (double x, ESL_MIXGEV *mg);
+extern double      esl_mixgev_logsurv(double x, ESL_MIXGEV *mg);
+extern double      esl_mixgev_invcdf (double p, ESL_MIXGEV *mg);
+
+extern double      esl_mixgev_generic_pdf   (double x, void *params);
+extern double      esl_mixgev_generic_cdf   (double x, void *params);
+extern double      esl_mixgev_generic_surv  (double x, void *params);
+extern double      esl_mixgev_generic_invcdf(double p, void *params);
+
+extern int         esl_mixgev_Plot(FILE *fp, ESL_MIXGEV *mg,
+				   double (*func)(double x, ESL_MIXGEV *mg), 
+				   double xmin, double xmax, double xstep);
+
+#ifdef eslAUGMENT_RANDOM
+extern double      esl_mixgev_Sample(ESL_RANDOMNESS *r, ESL_MIXGEV *mg);
+extern int         esl_mixgev_FitGuess(ESL_RANDOMNESS *r, double *x, int n, 
+				       ESL_MIXGEV *mg);
+#endif /*eslAUGMENT_RANDOM*/
+
+
+#ifdef eslAUGMENT_MINIMIZER
+extern int         esl_mixgev_FitComplete(double *x, int n, ESL_MIXGEV *mg);
+#endif /*eslAUGMENT_MINIMIZER*/
+
+
+#endif /*eslMIXGEV_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.c
new file mode 100755
index 0000000..6c708f2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.c
@@ -0,0 +1,1247 @@
+/* Support for MPI parallelization.
+ * 
+ * Only available when the entire Easel library is in use (HAVE_MPI
+ * and eslLIBRARY are defined).
+ * 
+ * Contents:
+ *    1. Communicating optional arrays.
+ *    2. Communicating ESL_SQ (single biosequences)
+ *    3. Communicating ESL_MSA (multiple sequence alignments).
+ *    4. Communicating ESL_STOPWATCH (process timing).
+ *    5. Unit tests.
+ *    6. Test driver.
+ *    7. Example.
+ *    8. Copyright and license information.
+ */
+#include "esl_config.h"		
+#if defined(HAVE_MPI) && defined(eslLIBRARY)
+#include <string.h>
+#include "mpi.h"
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_sq.h"
+#include "esl_stopwatch.h"
+#include "esl_mpi.h"
+
+
+
+/*****************************************************************
+ *# 1. Communicating optional arrays.
+ *****************************************************************/
+
+/* Function:  esl_mpi_PackOpt()
+ * Synopsis:  Pack an optional, variable-sized array (or string).
+ * Incept:    SRE, Sat Jun  2 08:40:39 2007 [Janelia]
+ *
+ * Purpose:   Pack data array <inbuf> of <incount> elements of type <type> into
+ *            an MPI packed buffer <pack_buf> of total size <pack_buf_size> destined
+ *            for MPI communicator <comm> that is currently filled to position <*position>.
+ *            
+ *            <inbuf> may be <NULL>, in which case <incount> is
+ *            assumed to be 0, and a `null array' is packed that
+ *            <esl_mpi_UnpackOpt()> knows how to decode as a <NULL>
+ *            pointer.
+ *            
+ *            As a special case for strings, if <type> is <MPI_CHAR>,
+ *            <incount> may be passed as <-1> to indicate `unknown';
+ *            the routine will use <strlen(inbuf)+1> to determine the
+ *            size of the string including its <NUL> terminator.
+ *
+ * Returns:   <eslOK> on success, the array is packed into <pack_buf>, 
+ *            and the <*position> counter is updated to point to the next byte
+ *            in <pack_buf> after the packed array.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails.
+ */
+int
+esl_mpi_PackOpt(void *inbuf, int incount, MPI_Datatype type, void *pack_buf, int pack_buf_size, int *position, MPI_Comm comm)
+{
+  if (inbuf == NULL) {
+    incount = 0;
+    if (MPI_Pack(&incount,    1, MPI_INT, pack_buf, pack_buf_size, position, comm) != 0)  ESL_EXCEPTION(eslESYS, "MPI pack failed");
+  } else {
+    if (incount == -1 && type == MPI_CHAR) incount = strlen(inbuf) + 1;
+    if (MPI_Pack(&incount,    1, MPI_INT, pack_buf, pack_buf_size, position, comm) != 0)  ESL_EXCEPTION(eslESYS, "MPI pack failed");
+    if (MPI_Pack(inbuf, incount,    type, pack_buf, pack_buf_size, position, comm) != 0)  ESL_EXCEPTION(eslESYS, "MPI pack failed");
+  }
+  return eslOK;
+}
+
+/* Function:  esl_mpi_PackOptSize()
+ * Synopsis:  Determine the size of a packed optional, variable-sized array.
+ * Incept:    SRE, Sat Jun  2 10:09:16 2007 [Janelia]
+ *
+ * Purpose:   Determine an upper bound on the size (in bytes) required
+ *            to pack an array <inbuf> of <incount> elements of type
+ *            <type> destined for MPI communicator <comm> using
+ *            <esl_mpi_PackOpt()>, and return it in <*ret_n>.
+ *            
+ *            If <inbuf> is non-<NULL>, the packed message consists
+ *            of 1 integer (the length, <incount>) followed by the array.
+ *            If <inbuf> is <NULL>, the packed message consists of one
+ *            integer (0). 
+ *            
+ *            As a special case for strings, if <type> is <MPI_CHAR>,
+ *            <incount> may be passed as <-1> to indicate `unknown';
+ *            in this case, the routine uses <strlen(inbuf)+1> to determine the
+ *            size of the string including its <NUL> terminator.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the upper limit size in
+ *            bytes.
+ *            
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is 0.           
+ */
+int
+esl_mpi_PackOptSize(void *inbuf, int incount, MPI_Datatype type, MPI_Comm comm, int *ret_n)
+{
+  int status;
+  int sz;
+
+  *ret_n = 0;
+  if (inbuf == NULL) {
+    status = MPI_Pack_size(1,    MPI_INT, MPI_COMM_WORLD, &sz);  *ret_n += sz;   if (status != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+  } else {
+    if (incount == -1 && type == MPI_CHAR) incount = strlen(inbuf) + 1;
+    status = MPI_Pack_size(1,    MPI_INT, MPI_COMM_WORLD, &sz);  *ret_n += sz;   if (status != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+    status = MPI_Pack_size(incount, type, MPI_COMM_WORLD, &sz);  *ret_n += sz;   if (status != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+  }
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+}
+
+
+
+/* Function:  esl_mpi_UnpackOpt()
+ * Synopsis:  Unpack an optional, variable-sized array (or string).
+ * Incept:    SRE, Sat Jun  2 08:39:39 2007 [Janelia]
+ *
+ * Purpose:   Unpack a packed MPI message in buffer <pack_buf>, of total size
+ *            <pack_buf_size>, at current position <*pos> in <pack_buf>,
+ *            for MPI communicator <comm>, where the next packed element is an optional
+ *            array of type <type>, consisting of a <(n,data)> pair, with <n=0>
+ *            indicating no data. 
+ *            
+ *            If array data is present (<n>0>), allocate <*outbuf>,
+ *            put the array in it, and optionally return <n> in
+ *            <*opt_n>. The caller is responsible for free'ing this
+ *            <*outbuf>.
+ *
+ *            If data are not present (<n=0>), no allocation is done,
+ *            <*outbuf> is set to <NULL>, and the optional <*opt_n> is
+ *            0.
+ *            
+ *            <*pos> is updated to point at the next element in <pack_buf>
+ *            that needs to be unpacked.
+ *
+ *            This routine is designed for an optional-array idiom in
+ *            which <array==NULL> means the array isn't available, and
+ *            otherwise the array contains valid data. For instance,
+ *            this is used for optional annotation on multiple
+ *            alignments. 
+ *            
+ * Returns:   <eslOK> on success; <*pos> is updated; <*outbuf> is either a newly allocated 
+ *            array (that caller is responsible for freeing) and optional <*opt_n>
+ *            is its length, or <*outbuf> is <NULL> and optional <*opt_n> is 0.
+ *
+ * Throws:    <eslESYS> on an MPI call failure; <eslEINVAL> if something's wrong
+ *            with the arguments; <eslEMEM> on allocation failure. 
+ *            In either case, <*outbuf> is <NULL> and optional <*opt_n> is 0.
+ */
+int
+esl_mpi_UnpackOpt(void *pack_buf, int pack_buf_size, int *pos, void **outbuf, int *opt_n, MPI_Datatype type, MPI_Comm comm)
+{
+  int sz;
+  int status;
+  
+  if (MPI_Unpack(pack_buf, pack_buf_size, pos, &sz, 1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  if (sz == 0) {
+    *outbuf = NULL;
+  } else {
+    if      (type == MPI_CHAR)           ESL_ALLOC(*outbuf, sizeof(char)           * sz); 
+    else if (type == MPI_SHORT)          ESL_ALLOC(*outbuf, sizeof(short)          * sz); 
+    else if (type == MPI_INT)            ESL_ALLOC(*outbuf, sizeof(int)            * sz);  
+    else if (type == MPI_LONG)           ESL_ALLOC(*outbuf, sizeof(long)           * sz);  
+    else if (type == MPI_UNSIGNED_CHAR)  ESL_ALLOC(*outbuf, sizeof(unsigned char)  * sz);
+    else if (type == MPI_UNSIGNED_SHORT) ESL_ALLOC(*outbuf, sizeof(unsigned short) * sz);  
+    else if (type == MPI_UNSIGNED)       ESL_ALLOC(*outbuf, sizeof(unsigned int)   * sz);
+    else if (type == MPI_UNSIGNED_LONG)  ESL_ALLOC(*outbuf, sizeof(unsigned long)  * sz); 
+    else if (type == MPI_FLOAT)          ESL_ALLOC(*outbuf, sizeof(float)          * sz); 
+    else if (type == MPI_DOUBLE)         ESL_ALLOC(*outbuf, sizeof(double)         * sz);  
+    else if (type == MPI_LONG_DOUBLE)    ESL_ALLOC(*outbuf, sizeof(long double)    * sz); 
+    else if (type == MPI_BYTE)           ESL_ALLOC(*outbuf, sz);                       
+    else if (type == MPI_PACKED)         ESL_ALLOC(*outbuf, sz);
+    else ESL_XEXCEPTION(eslEINVAL, "no such MPI datatype");
+
+    if (MPI_Unpack(pack_buf, pack_buf_size, pos, *outbuf, sz, type, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  }
+  if (opt_n != NULL) *opt_n = sz;
+  return eslOK;
+
+ ERROR:
+  if (*outbuf != NULL) free(*outbuf);
+  *outbuf = NULL;
+  if (opt_n != NULL) *opt_n = 0;
+  return status;
+}
+/*--------------------- end, optional arrays -------------------*/
+
+
+
+/*****************************************************************
+ *# 2. Communicating ESL_SQ (single biosequences)
+ *****************************************************************/
+
+/* Function:  esl_sq_MPISend()
+ * Synopsis:  Send an ESL_SQ as an MPI work unit.
+ * Incept:    ER, Thu Jun 19 10:39:49 EDT 2008 [Janelia]
+ *
+ * Purpose:   Sends an <ESL_SQ> <esl_sq> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            Work units are prefixed by a status code. If <esl_sq> is
+ *            <non-NULL>, the work unit is an <eslOK> code followed by
+ *            the packed <ESL_SQ>. If <esl_sq> is NULL, the work unit is an
+ *            <eslEOD> code, which <esl_sq_MPIRecv()> knows how to
+ *            interpret; this is typically used for an end-of-data
+ *            signal to cleanly shut down worker processes.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <esl_sq> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ * 
+ */
+int
+esl_sq_MPISend(ESL_SQ *sq, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   code;
+  int   sz, n, pos;
+
+  /* Figure out size */
+  if (MPI_Pack_size(1, MPI_INT, comm, &n) != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+  if (sq != NULL) {
+    if ((status = esl_sq_MPIPackSize(sq, comm, &sz)) != eslOK) return status;
+    n += sz;
+  }
+  ESL_DPRINTF2(("esl_sq_MPISend(): sq has size %d\n", n));
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+  ESL_DPRINTF2(("esl_sq_MPISend(): buffer is ready\n"));
+
+  /* Pack the status code and ESL_SQ into the buffer */
+  pos  = 0;
+  code = (sq == NULL) ? eslEOD : eslOK;
+  if (MPI_Pack(&code, 1, MPI_INT, *buf, n, &pos, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi pack failed");
+  if (sq != NULL) {
+    if ((status = esl_sq_MPIPack(sq, *buf, n, &pos, comm)) != eslOK) return status;
+  }
+  ESL_DPRINTF2(("esl_sq_MPISend(): sq is packed into %d bytes\n", pos));
+
+  /* Send the packed ESL_SQ to the destination. */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0)  ESL_EXCEPTION(eslESYS, "mpi send failed");
+  ESL_DPRINTF2(("esl_sq_MPISend(): sq is sent.\n"));
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_sq_MPIPackSize()
+ * Synopsis:  Calculates size needed to pack an ESL_SQ.
+ * Incept:    ER, Thu Jun 19 10:48:25 EDT 2008 [Janelia]
+ *
+ * Purpose:   Calculate an upper bound on the number of bytes
+ *            that <esl_sq_MPIPack()> will need to pack an <ESL_SQ>
+ *            <sq> in a packed MPI message for MPI communicator
+ *            <comm>; return that number of bytes in <*ret_n>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the answer.
+ *
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is 0.
+ */
+int
+esl_sq_MPIPackSize(ESL_SQ *sq, MPI_Comm comm, int *ret_n)
+{
+  int   status;
+  int   n = 0;
+  int   x;       /* index for optional extra residue markups */
+  int   sz;
+
+  status = MPI_Pack_size        (                          1, MPI_INT,           comm, &sz); n += 5*sz; if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size        (                          1, MPI_UNSIGNED_LONG, comm, &sz); n += 7*sz; if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size        (                 sq->nalloc, MPI_CHAR,          comm, &sz); n += sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size        (                 sq->aalloc, MPI_CHAR,          comm, &sz); n += sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size        (                 sq->dalloc, MPI_CHAR,          comm, &sz); n += sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size        (               sq->srcalloc, MPI_CHAR,          comm, &sz); n += sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+
+  /* sequence, digital or text; the ss and extra residue markups are optional */
+  if (sq->dsq != NULL) {
+    status = MPI_Pack_size      (                    sq->n+2, MPI_UNSIGNED_CHAR, comm, &sz); n += sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+    status = esl_mpi_PackOptSize(sq->ss,             sq->n+2, MPI_CHAR,          comm, &sz); n += sz;   if (status != eslOK) goto ERROR;
+    for (x = 0; x < sq->nxr; x ++) {
+      status = esl_mpi_PackOptSize(sq->xr_tag[x], sq->nalloc, MPI_CHAR,          comm, &sz); n += sz;   if (status != eslOK) goto ERROR;
+      status = esl_mpi_PackOptSize(sq->xr[x],        sq->n+2, MPI_CHAR,          comm, &sz); n += sz;   if (status != eslOK) goto ERROR;
+    }
+    
+  }
+  else { 
+    status = MPI_Pack_size      (                    sq->n+1, MPI_CHAR,          comm, &sz); n += sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+    status = esl_mpi_PackOptSize(sq->ss,             sq->n+1, MPI_CHAR,          comm, &sz); n += sz;   if (status != eslOK) goto ERROR;
+    for (x = 0; x < sq->nxr; x ++) {
+      status = esl_mpi_PackOptSize(sq->xr_tag[x], sq->nalloc, MPI_CHAR,          comm, &sz); n += sz;   if (status != eslOK) goto ERROR;
+      status = esl_mpi_PackOptSize(sq->xr[x],        sq->n+1, MPI_CHAR,          comm, &sz); n += sz;   if (status != eslOK) goto ERROR;
+      }
+    
+  }
+  
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+}
+
+/* Function:  esl_sq_MPIPack()
+ * Synopsis:  Packs an <ESL_SQ> into MPI buffer.
+ * Incept:    ER, Thu Jun 19 10:49:10 EDT 2008 [Janelia]
+ *
+ * Purpose:   Packs <ESL_SQ> <esl_sq> into an MPI packed message buffer <buf>
+ *            of length <n> bytes, starting at byte position <*position>,
+ *            for MPI communicator <comm>.
+ *            
+ *            The caller must know that <buf>'s allocation of <n>
+ *            bytes is large enough to append the packed <ESL_SQ> at
+ *            position <*pos>. This typically requires a call to
+ *            <esl_sq_MPIPackSize()> first, and reallocation if
+ *            needed.
+ *            
+ * Returns:   <eslOK> on success; <buf> now contains the
+ *            packed <esl_sq>, and <*position> is set to the byte
+ *            immediately following the last byte of the <ESL_SQ>
+ *            in <buf>. 
+ *
+ * Throws:    <eslESYS> if an MPI call fails; or <eslEMEM> if the
+ *            buffer's length <n> was overflowed in trying to pack
+ *            <sq> into <buf>. In either case, the state of
+ *            <buf> and <*position> is undefined, and both should
+ *            be considered to be corrupted.
+ */
+int
+esl_sq_MPIPack(ESL_SQ *sq, char *buf, int n, int *pos, MPI_Comm comm)
+{
+  unsigned long int  sq_n;
+  unsigned long int  start;
+  unsigned long int  end;
+  unsigned long int  C;
+  unsigned long int  W;
+  unsigned long int  L;
+  unsigned long int  salloc;
+  int                x;       /* index for optional extra residue markups */
+  int                status;
+ 
+  sq_n   = (unsigned long int)sq->n;
+  start  = (unsigned long int)sq->start;
+  end    = (unsigned long int)sq->end;
+  C      = (unsigned long int)sq->C;
+  W      = (unsigned long int)sq->W;
+  L      = (unsigned long int)sq->L;
+  salloc = (unsigned long int)sq->salloc;
+ 
+  /* pack allocation values */
+  status = MPI_Pack         ((              int *) &(sq->nalloc),              1, MPI_INT,           buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((              int *) &(sq->aalloc),              1, MPI_INT,           buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((              int *) &(sq->dalloc),              1, MPI_INT,           buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((              int *) &(sq->srcalloc),            1, MPI_INT,           buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((              int *) &(sq->nxr),                 1, MPI_INT,           buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((unsigned long int *) &(    salloc),              1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* pack coordenate info */
+  status = MPI_Pack         ((unsigned long int *) &(sq_n),                    1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((unsigned long int *) &(start),                   1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((unsigned long int *) &(end),                     1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((unsigned long int *) &(C),                       1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((unsigned long int *) &(W),                       1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         ((unsigned long int *) &(L),                       1, MPI_UNSIGNED_LONG, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* pack strings */
+  status = MPI_Pack         (sq->name,                                sq->nalloc, MPI_CHAR,          buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         (sq->acc,                                 sq->aalloc, MPI_CHAR,          buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         (sq->desc,                                sq->dalloc, MPI_CHAR,          buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack         (sq->source,                            sq->srcalloc, MPI_CHAR,          buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* sequences, digital or text; the ss and extra residue markups are optional */
+  if (sq->dsq != NULL) {   
+    status = MPI_Pack       (sq->dsq,                                    sq->n+2, MPI_UNSIGNED_CHAR, buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+    status = esl_mpi_PackOpt(sq->ss,                                     sq->n+2, MPI_CHAR,          buf, n, pos,  comm); if (status != eslOK) return status;
+    for (x = 0; x < sq->nxr; x ++) {
+      status = esl_mpi_PackOpt(sq->xr_tag[x],                         sq->nalloc, MPI_CHAR,          buf, n, pos,  comm); if (status != eslOK) return status;
+      status = esl_mpi_PackOpt(sq->xr[x],                                sq->n+2, MPI_CHAR,          buf, n, pos,  comm); if (status != eslOK) return status;
+    }
+  }
+  else {
+    status = MPI_Pack       (sq->seq,                                    sq->n+1, MPI_CHAR,          buf, n, pos,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+    status = esl_mpi_PackOpt(sq->ss,                                     sq->n+1, MPI_CHAR,          buf, n, pos,  comm); if (status != eslOK) return status;
+    for (x = 0; x < sq->nxr; x ++) {
+      status = esl_mpi_PackOpt(sq->xr_tag[x],                         sq->nalloc, MPI_CHAR,          buf, n, pos,  comm); if (status != eslOK) return status;
+      status = esl_mpi_PackOpt(sq->xr[x],                                sq->n+1, MPI_CHAR,          buf, n, pos,  comm); if (status != eslOK) return status;
+    }
+  }
+  
+  if (*pos > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+}
+
+/* Function:  esl_sq_MPIUnpack()
+ * Synopsis:  Unpacks an <ESL_SQ> from an MPI buffer.
+ * Incept:    SRE, Thu Jun  7 11:04:46 2007 [Janelia]
+ *
+ * Purpose:   Unpack a newly allocated <ESL_SQ> from MPI packed buffer
+ *            <buf>, starting from position <*pos>, where the total length
+ *            of the buffer in bytes is <n>. 
+ *            
+ *            Caller may or may not already know what alphabet the <ESL_SQ>
+ *            is expected to be in.  
+ *
+ * Returns:   <eslOK> on success. <*pos> is updated to the position of
+ *            the next element in <buf> to unpack (if any). <*ret_hmm>
+ *            contains a newly allocated <ESL_SQ>, which the caller is
+ *            responsible for free'ing. 
+ *
+ *            
+ * Throws:    <eslESYS> on an MPI call failure. <eslEMEM> on allocation failure.
+ *            In either case, <*ret_esl_sq> is <NULL>, and the state of <buf>
+ *            and <*pos> is undefined and should be considered to be corrupted.
+ */
+int
+esl_sq_MPIUnpack(const ESL_ALPHABET *abc, char *buf, int n, int *pos, MPI_Comm comm, ESL_SQ **ret_sq)
+{
+  ESL_SQ            *sq  = NULL;
+  unsigned long int  sq_n;
+  unsigned long int  start;
+  unsigned long int  end;
+  unsigned long int  C;
+  unsigned long int  W;
+  unsigned long int  L;
+  unsigned long int  salloc;
+  int                x;       /* index for optional extra residue markups */
+  int                do_digital = FALSE;
+  int                status;
+
+  if (abc != NULL) do_digital = TRUE;
+  
+  /* allocate sq */
+  ESL_ALLOC(sq, sizeof(ESL_SQ));
+
+  /* unpack allocation values */
+  status = MPI_Unpack(buf, n, pos, &(sq->nalloc),   1, MPI_INT,            comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(sq->aalloc),   1, MPI_INT,            comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(sq->dalloc),   1, MPI_INT,            comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(sq->srcalloc), 1, MPI_INT,            comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(sq->nxr),      1, MPI_INT,            comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(salloc),       1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* unpack coordenate info */
+  status = MPI_Unpack(buf, n, pos, &(sq_n),         1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(start),        1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(end),          1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(C),            1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(W),            1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack(buf, n, pos, &(L),            1, MPI_UNSIGNED_LONG,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  sq->salloc = (int64_t) salloc;
+  sq->n      = (int64_t) sq_n;
+  sq->start  = (int64_t) start;
+  sq->end    = (int64_t) end;
+  sq->C      = (int64_t) C;
+  sq->W      = (int64_t) W;
+  sq->L      = (int64_t) L;
+  
+  /* allocate strings */
+  sq->name   = NULL; ESL_ALLOC(sq->name,   sizeof(char) * sq->nalloc);
+  sq->acc    = NULL; ESL_ALLOC(sq->acc,    sizeof(char) * sq->aalloc);
+  sq->desc   = NULL; ESL_ALLOC(sq->desc,   sizeof(char) * sq->dalloc);
+  sq->source = NULL; ESL_ALLOC(sq->source, sizeof(char) * sq->srcalloc);
+  sq->seq    = NULL; if (!do_digital) ESL_ALLOC(sq->seq, sizeof(char)    * sq->salloc);
+  sq->dsq    = NULL; if ( do_digital) ESL_ALLOC(sq->dsq, sizeof(ESL_DSQ) * sq->salloc); 	
+  sq->ss     = NULL; /* ss and extra residue markups are optional - they will only be allocated if needed */
+  sq->xr_tag = NULL;
+  sq->xr     = NULL;
+
+  /* unpack strings */
+  status = MPI_Unpack       (buf, n, pos, sq->name,                   sq->nalloc, MPI_CHAR,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack       (buf, n, pos, sq->acc,                    sq->aalloc, MPI_CHAR,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack       (buf, n, pos, sq->desc,                   sq->dalloc, MPI_CHAR,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack       (buf, n, pos, sq->source,               sq->srcalloc, MPI_CHAR,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+ 
+ if (do_digital) {
+    status = MPI_Unpack     (buf, n, pos, sq->dsq,                       sq->n+2, MPI_UNSIGNED_CHAR,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+   }
+  else {
+    status = MPI_Unpack     (buf, n, pos, sq->seq,                       sq->n+1, MPI_CHAR,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  }
+
+  /* unpack the optional ss */
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(sq->ss),              NULL, MPI_CHAR,           comm); if (status != eslOK) goto ERROR;
+  
+  /* unpack the optional extra residue markups */
+  if (sq->nxr > 0) { 
+    ESL_ALLOC(sq->xr,     sizeof(char *) * sq->nxr);
+    ESL_ALLOC(sq->xr_tag, sizeof(char *) * sq->nxr);
+    for (x = 0; x < sq->nxr; x ++) {
+      sq->xr[x]     = NULL;
+      sq->xr_tag[x] = NULL;
+       status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(sq->xr_tag[x]),  NULL, MPI_CHAR,           comm); if (status != eslOK) goto ERROR;
+       status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(sq->xr[x]),      NULL, MPI_CHAR,           comm); if (status != eslOK) goto ERROR;
+    }
+  }
+  
+  /* set disk offset bookkeeping */
+  sq->doff  = -1;
+  sq->roff  = -1;
+  sq->eoff  = -1;
+  
+  /* pointer to alphabet */
+  if (do_digital) sq->abc = abc;
+  
+  *ret_sq = sq;
+  return eslOK;
+  
+ ERROR:
+  if (sq  != NULL) esl_sq_Destroy(sq);
+  *ret_sq = NULL;
+  return status;
+}
+
+
+/* Function:  esl_sq_MPIRecv()
+ * Synopsis:  Receives an <ESL_SQ> as a work unit from an MPI sender.
+ * Incept:    ER, Thu Jun 19 10:53:40 EDT 2008 [Janelia]
+ *
+ * Purpose:   Receive a work unit that consists of a single <ESL_SQ>
+ *            sent by MPI <source> (<0..nproc-1>, or
+ *            <MPI_ANY_SOURCE>) tagged as <tag> for MPI communicator <comm>.
+ *            
+ *            Work units are prefixed by a status code. If the unit's
+ *            code is <eslOK> and no errors are encountered, this
+ *            routine will return <eslOK> and a non-<NULL> <*ret_esl_sq>.
+ *            If the unit's code is <eslEOD> (a shutdown signal), 
+ *            this routine returns <eslEOD> and <*ret_esl_sq> is <NULL>.
+ *   
+ *            Caller provides a working buffer <*buf> of size
+ *            <*nalloc> characters. These are passed by reference, so
+ *            that <*buf> can be reallocated and <*nalloc> increased
+ *            if necessary. As a special case, if <*buf> is <NULL> and
+ *            <*nalloc> is 0, the buffer will be allocated
+ *            appropriately, but the caller is still responsible for
+ *            free'ing it.
+ *
+ * Returns:   <eslOK> on success. <*ret_esl_sq> contains the received <ESL_SQ>;
+ *            it is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased. 
+ *            
+ * Throws:    <eslEMEM> on allocation error, in which case <*ret_esl_sq> is 
+ *            <NULL>.           
+ */
+int
+esl_sq_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, char **buf, int *nalloc, ESL_SQ **ret_sq)
+{
+  int         status;
+  int         code;
+  int         n;
+  int         pos;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough. */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Receive the packed work unit */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it, looking at the status code prefix for EOD/EOK  */
+  pos = 0;
+  if (MPI_Unpack(*buf, n, &pos, &code, 1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (code == eslEOD)  { *ret_sq = NULL;  return eslEOD; }
+
+  return esl_sq_MPIUnpack(abc, *buf, *nalloc, &pos, comm, ret_sq);
+
+ ERROR:
+   return status;
+}
+/*----------------- end, ESL_SQ communication -------------------*/
+
+
+/*****************************************************************
+ *# 3. Communicating ESL_MSA (multiple sequence alignments).
+ *****************************************************************/
+
+/* Function:  esl_msa_MPISend()
+ * Synopsis:  Send essential msa info as an MPI work unit.
+ *
+ * Purpose:   Sends the essential elements of a multiple alignment <msa> 
+ *            as a work unit to MPI process <dest> (<dest> ranges from <0..nproc-1>),
+ *            tagging the message with MPI tag <tag> for MPI communicator
+ *            <comm>. The receiver uses <esl_msa_MPIRecv()> to receive the MSA.
+ *            
+ *            Work units are prefixed by a status code. If <msa> is
+ *            <non-NULL>, the work unit is an <eslOK> code followed by
+ *            the packed MSA. If <msa> is NULL, the work unit is an
+ *            <eslEOD> code, which <esl_msa_hmm_MPIRecv()> knows how
+ *            to interpret; this is typically used for an end-of-data
+ *            signal to cleanly shut down worker processes.
+ *
+ *            Only an essential subset of the elements in <msa> are
+ *            transmitted, sufficient to do computationally intensive
+ *            work on the <msa>. Most msa annotation is not
+ *            transmitted, for example. Specifically, <name>, <nseq>,
+ *            <alen>, <flags>, <wgt>, <ax> or <aseq>, <desc>, <acc>,
+ *            <au>, <ss_cons>, <sa_cons>, <rf>, <cutoff>, and <cutset>
+ *            are transmitted.
+ *            
+ *            In order to minimize alloc/free cycles, caller passes a
+ *            pointer to a working buffer <*buf> of size <*nalloc>
+ *            characters. If necessary (i.e. if <msa> is too big to
+ *            fit), <*buf> will be reallocated and <*nalloc> increased
+ *            to the new size. As a special case, if <*buf> is <NULL>
+ *            and <*nalloc> is 0, the buffer will be allocated
+ *            appropriately, but the caller is still responsible for
+ *            free'ing it.
+ *            
+ * Args:      msa    - msa to send
+ *            dest   - MPI destination (0..nproc-1)
+ *            tag    - MPI tag
+ *            buf    - pointer to a working buffer 
+ *            nalloc - current allocated size of <*buf>, in characters
+ *
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ *
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ *
+ * Xref:      J1/72.
+ */
+int
+esl_msa_MPISend(const ESL_MSA *msa, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   code;
+  int   sz, n, position;
+
+  /* First, figure out the size of the MSA */
+  if (MPI_Pack_size(1, MPI_INT, comm, &n) != 0) ESL_EXCEPTION(eslESYS, "mpi pack size failed"); 
+  if (msa != NULL) { 
+    if ((status = esl_msa_MPIPackSize(msa,  comm, &sz)) != eslOK) return status;
+    n += sz;
+  }
+  ESL_DPRINTF2(("esl_msa_MPISend(): msa has size %d\n", n));
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+  ESL_DPRINTF2(("esl_msa_MPISend(): buffer is ready\n"));
+
+  /* Pack the status code and MSA into the buffer */
+  position = 0;
+  code     = (msa == NULL) ? eslEOD : eslOK;
+  if (MPI_Pack(&code, 1, MPI_INT, *buf, n, &position, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi pack failed"); 
+  if (msa != NULL) {
+    if ((status = esl_msa_MPIPack(msa,  *buf, n, &position, comm)) != eslOK) return status;
+  }
+  ESL_DPRINTF2(("esl_msa_MPISend(): msa is packed into %d bytes\n", position));
+
+  /* Send the packed profile to destination  */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi send failed");
+  ESL_DPRINTF2(("esl_msa_MPISend(): msa is sent.\n"));
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+
+/* Function:  esl_msa_MPIPackSize()
+ * Synopsis:  Calculates number of bytes needed to pack an MSA.
+ * Incept:    SRE, Wed Jun  6 11:36:22 2007 [Janelia]
+ *
+ * Purpose:   Calculate an upper bound on the number of bytes
+ *            that <esl_msa_MPIPack()> will need to pack an 
+ *            essential subset of the data in MSA <msa>
+ *            in a packed MPI message in communicator <comm>;
+ *            return that number of bytes in <*ret_n>. 
+ *            
+ *            Caller will generally use this result to determine how
+ *            to allocate a buffer before starting to pack into it.
+ *            
+ *            If <msa> is <NULL> (which can happen, if <msa> is
+ *            optional in the caller), size <*ret_n> is set to 0.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the answer.
+ *
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is set to 0. 
+ *
+ * Xref:      J1/78-79.
+ * 
+ * Note:      The sizing calls here need to stay matched up with
+ *            the calls in <esl_msa_MPIPack()>.
+ */
+int
+esl_msa_MPIPackSize(const ESL_MSA *msa, MPI_Comm comm, int *ret_n)
+{
+  int status;
+  int sz;
+  int n = 0;
+  int i;
+
+  if (msa == NULL) { *ret_n = 0; return eslOK; }
+
+  status = MPI_Pack_size      (                        1, MPI_INT,           comm, &sz); n += 3*sz;   if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size      (                msa->nseq, MPI_DOUBLE,        comm, &sz); n += sz;     if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = esl_mpi_PackOptSize(msa->name,             -1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->desc,             -1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->acc,              -1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->au,               -1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->ss_cons, msa->alen+1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->sa_cons, msa->alen+1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->pp_cons, msa->alen+1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->rf,      msa->alen+1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = esl_mpi_PackOptSize(msa->mm,   msa->alen+1, MPI_CHAR,          comm, &sz); n += sz;     if (status != eslOK) goto ERROR;
+  status = MPI_Pack_size      (             eslMSA_NCUTS, MPI_FLOAT,         comm, &sz); n += sz;     if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+  status = MPI_Pack_size      (             eslMSA_NCUTS, MPI_INT,           comm, &sz); n += sz;     if (status != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");
+
+  /* alignment, digital or text: */
+  if (msa->ax != NULL) {
+    if ((status = MPI_Pack_size      (              msa->alen+2, MPI_UNSIGNED_CHAR, comm, &sz)) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");
+    n += sz*msa->nseq;  
+  } else {
+    if ((status = MPI_Pack_size      (              msa->alen+1, MPI_CHAR,          comm, &sz)) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");
+    n += sz*msa->nseq;  
+  }
+
+  /* seqnames: */
+  for (i = 0; i < msa->nseq; i++) {
+    if ((status = esl_mpi_PackOptSize(msa->sqname[i], -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;
+    n += sz;
+  }
+
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+}
+
+/* Function:  esl_msa_MPIPack()
+ * Synopsis:  Packs an MSA into MPI buffer.
+ * Incept:    SRE, Wed Jun  6 13:17:45 2007 [Janelia]
+ *
+ * Purpose:   Packs essential subset of data in MSA <msa> into an MPI
+ *            packed message buffer <buf> of length <n> bytes,
+ *            starting at byte position <*position>, for MPI
+ *            communicator <comm>.
+ *            
+ *            If <msa> is <NULL> (which can happen, if <msa> is being
+ *            treated as optional in the caller), does nothing, and
+ *            just return <eslOK>.
+ *
+ * Returns:   <eslOK> on success; <buf> now contains the
+ *            packed <msa>, and <*position> is set to the byte
+ *            immediately following the last byte of the MSA
+ *            in <buf>. 
+ *
+ * Throws:    <eslESYS> if an MPI call fails; or <eslEMEM> if the
+ *            buffer's length <n> is overflowed by trying to pack
+ *            <msa> into <buf>. In either case, the state of
+ *            <buf> and <*position> is undefined, and both should
+ *            be considered to be corrupted.
+ *
+ * Xref:     J1/78-79. 
+ */
+int
+esl_msa_MPIPack(const ESL_MSA *msa, char *buf, int n, int *position, MPI_Comm comm)
+{
+  int status;
+  int i;
+
+  ESL_DPRINTF2(("esl_msa_MPIPack(): ready.\n"));
+
+  if (msa == NULL) return eslOK;
+
+  status = MPI_Pack       ((void *) &(msa->nseq),           1, MPI_INT,           buf, n, position,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack       ((void *) &(msa->alen),           1, MPI_INT,           buf, n, position,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack       ((void *) &(msa->flags),          1, MPI_INT,           buf, n, position,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack       (msa->wgt,                msa->nseq, MPI_DOUBLE,        buf, n, position,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = esl_mpi_PackOpt(msa->name,                      -1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->desc,                      -1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->acc,                       -1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->au,                        -1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->ss_cons,          msa->alen+1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->sa_cons,          msa->alen+1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->pp_cons,          msa->alen+1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->rf,               msa->alen+1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = esl_mpi_PackOpt(msa->mm,            msa->alen+1, MPI_CHAR,          buf, n, position,  comm); if (status != eslOK) return status;
+  status = MPI_Pack       ((void *) msa->cutoff, eslMSA_NCUTS, MPI_FLOAT,         buf, n, position,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  status = MPI_Pack       ((void *) msa->cutset, eslMSA_NCUTS, MPI_INT,           buf, n, position,  comm); if (status != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+
+  for (i = 0; i < msa->nseq; i++) {
+    status = esl_mpi_PackOpt(msa->sqname[i],      -1, MPI_CHAR,          buf, n, position, comm);  if (status != eslOK) return status;
+    if (msa->flags & eslMSA_DIGITAL) {
+      if ((status = MPI_Pack      (msa->ax[i],    msa->alen+2, MPI_UNSIGNED_CHAR, buf, n, position, comm)) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+    } else {
+      if ((status = MPI_Pack      (msa->aseq[i],  msa->alen+1, MPI_CHAR,          buf, n, position, comm)) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+    }
+  }
+  ESL_DPRINTF2(("esl_msa_MPIPack(): done. Packed %d bytes into buffer of size %d\n", *position, n));
+
+  if (*position > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+}
+
+/* Function:  esl_msa_MPIUnpack()
+ * Synopsis:  Unpacks an MSA from an MPI buffer.
+ * Incept:    SRE, Wed Jun  6 15:49:11 2007 [Janelia]
+ *
+ * Purpose:   Unpack a newly allocated MSA from MPI packed buffer
+ *            <buf>, starting from position <*pos>, where the total length
+ *            of the buffer in bytes is <n>. 
+ *
+ *            MSAs are usually transmitted in digital mode. In digital
+ *            mode, caller must provide the alphabet <abc> for this
+ *            MSA. (Thus the caller already know it before the MSA
+ *            arrives, by an appropriate initialization.) If MSAs are
+ *            being transmitted in text mode, <abc> is ignored; caller
+ *            may pass <NULL> for it.
+ *
+ * Returns:   <eslOK> on success. <*pos> is updated to the position of
+ *            the next element in <buf> to unpack (if any). <*ret_msa>
+ *            contains a newly allocated MSA, which the caller is 
+ *            responsible for free'ing.
+ *            
+ * Throws:    <eslESYS> on an MPI call failure. <eslEMEM> on allocation failure.
+ *            In either case, <*ret_msa> is <NULL>, and the state of <buf>
+ *            and <*pos> is undefined and should be considered to be corrupted.
+ *
+ * Xref:      J1/78-79
+ */
+int
+esl_msa_MPIUnpack(const ESL_ALPHABET *abc, char *buf, int n, int *pos, MPI_Comm comm, ESL_MSA **ret_msa)
+{
+  int         status;
+  ESL_MSA    *msa     = NULL;
+  int         nseq, alen, flags;
+  int         i;
+
+  status = MPI_Unpack       (buf, n, pos, &nseq,                   1, MPI_INT,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack       (buf, n, pos, &alen,                   1, MPI_INT,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack       (buf, n, pos, &flags,                  1, MPI_INT,           comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  if (flags & eslMSA_DIGITAL) {
+    if ((msa = esl_msa_CreateDigital(abc, nseq, alen)) == NULL) { status = eslEMEM; goto ERROR; }    
+  } else {
+    if ((msa = esl_msa_Create(nseq, alen)) == NULL) { status = eslEMEM; goto ERROR; }    
+  }
+  msa->flags = flags;
+
+  status = MPI_Unpack       (buf, n, pos, msa->wgt,                  nseq,  MPI_DOUBLE,  comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->name),    NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->desc),    NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->acc),     NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->au),      NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->ss_cons), NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->sa_cons), NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->pp_cons), NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->rf)     , NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->mm)  , NULL,  MPI_CHAR,    comm); if (status != eslOK) goto ERROR;
+  status = MPI_Unpack       (buf, n, pos,  msa->cutoff,      eslMSA_NCUTS,  MPI_FLOAT,   comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  status = MPI_Unpack       (buf, n, pos,  msa->cutset,      eslMSA_NCUTS,  MPI_INT,     comm); if (status != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  for (i = 0; i < msa->nseq; i++) {
+    status = esl_mpi_UnpackOpt(buf, n, pos, (void **) &(msa->sqname[i]), NULL, MPI_CHAR,          comm); if (status != eslOK) goto ERROR;
+    if (msa->flags & eslMSA_DIGITAL) {
+      if ((status = MPI_Unpack       (buf, n, pos, msa->ax[i],   msa->alen+2, MPI_UNSIGNED_CHAR, comm)) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+    } else {
+      if ((status = MPI_Unpack       (buf, n, pos, msa->aseq[i], msa->alen+1, MPI_CHAR,          comm)) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+    }
+  }
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa != NULL) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+
+/* Function:  esl_msa_MPIRecv()
+ * Synopsis:  Receive essential MSA info as a work unit from MPI sender.
+ * Incept:    SRE, Fri Jun  1 11:01:04 2007 [Janelia]
+ *
+ * Purpose:   Receives a work unit that consists of a single MSA from <source> (<0..nproc-1>, or
+ *            <MPI_ANY_SOURCE>) tagged as <tag> from communicator <comm>.
+ *            
+ *            Work units are prefixed by a status code. If the unit's
+ *            code is <eslOK> and no errors are encountered, this
+ *            routine will return <eslOK> and a non-<NULL> <*ret_msa>.
+ *            If the unit's code is <eslEOD> (a shutdown signal), 
+ *            this routine returns <eslEOD> and <*ret_msa> is <NULL>.
+ *            
+ *            MSAs are transmitted in digital mode. Caller must know and
+ *            provide the alphabet <abc> for this MSA.
+ *            
+ *            To minimize alloc/free cycles in this routine, caller
+ *            passes a pointer to a buffer <*buf> of size <*nalloc>
+ *            characters. These are passed by reference, because when
+ *            necessary, <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *
+ *            If the packed MSA is an end-of-data signal, return
+ *            <eslEOD>, and <*ret_msa> is <NULL>.
+ *            
+ * Returns:   <eslOK> on success. <*ret_msa> contains the new MSA; it
+ *            is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.
+ *
+ *
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if an allocation fails.
+ *            In either case, <*ret_msa> is NULL, and the <buf> and its size
+ *            <*nalloc> remain valid.
+ * Xref:      J1/72.
+ */
+int
+esl_msa_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, char **buf, int *nalloc, ESL_MSA **ret_msa)
+{
+  int         status, code;
+  ESL_MSA    *msa     = NULL;
+  int         n;
+  int         pos;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough. */
+  if (MPI_Probe(source, tag, comm, &mpistatus)  != 0) ESL_XEXCEPTION(eslESYS, "mpi probe failed");
+  if (MPI_Get_count(&mpistatus, MPI_PACKED, &n) != 0) ESL_XEXCEPTION(eslESYS, "mpi get count failed");
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Receive the packed work unit */
+  if (MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus) != 0) ESL_XEXCEPTION(eslESYS, "mpi recv failed");
+
+  /* Unpack it - where the first integer is a status code, OK or EOD */
+  pos = 0;
+  if (MPI_Unpack       (*buf, n, &pos, &code,                   1, MPI_INT,           comm) != 0)  ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (code == eslEOD) { status = eslEOD; goto ERROR; }
+
+  return esl_msa_MPIUnpack(abc, *buf, *nalloc, &pos, comm, ret_msa);
+
+ ERROR:
+  if (msa != NULL) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+/*-------------------------- end, ESL_MSA -----------------------*/
+
+
+/*****************************************************************
+ *# 4. Communicating ESL_STOPWATCH (process timing)
+ *****************************************************************/
+
+/* Function:  esl_stopwatch_MPIReduce()
+ * Synopsis:  Collect total parallel process time into master watch.
+ * Incept:    SRE, Thu Jun 14 13:27:20 2007 [Janelia]
+ *
+ * Purpose:   Collect all user/sys times from stopped stopwatch <w> from
+ *            all MPI processes, and sum them into the watch on the
+ *            master process of rank <root>, for MPI communicator
+ *            <comm>.  A subsequent <esl_stopwatch_Display()> will
+ *            then show total user/sys times, not just the master's
+ *            usage.
+ *            
+ *            This routine needs to be called synchronously on all
+ *            processes; it does a collective communication using
+ *            <MPI_Reduce()>.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> on MPI call failure.
+ */
+int
+esl_stopwatch_MPIReduce(ESL_STOPWATCH *w, int root, MPI_Comm comm)
+{
+  double user_total;
+  double sys_total;
+  
+  if (MPI_Reduce(&(w->user), &user_total, 1, MPI_DOUBLE, MPI_SUM, root, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi reduce failed");
+  if (MPI_Reduce(&(w->sys),  &sys_total,  1, MPI_DOUBLE, MPI_SUM, root, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi reduce failed");
+
+  w->user = user_total;
+  w->sys  = sys_total;
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef eslMPI_TESTDRIVE
+
+/* Each MPI unit test for communications routines follows a similar 
+ * pattern:
+ *   - workers and master generate identical objects, possibly using
+ *     the same RNG
+ *   - each worker sends object to master
+ *   - master receives object, compares it to known object, and fails
+ *     if they aren't the same.
+ *     
+ * This way, master is doing the failing and error output.
+ */
+static void
+utest_MSASendRecv(ESL_ALPHABET *abc, ESL_MSA *msa, int my_rank, int nproc)
+{
+  ESL_MSA      *xmsa = NULL;
+  char         *wbuf = NULL;
+  int           wn   = 0;
+  int           i;
+
+  if (my_rank == 0) 
+    {
+      for (i = 1; i < nproc; i++)
+	{
+	  ESL_DPRINTF1(("Master: receiving test msa\n"));
+	  esl_msa_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, abc, &wbuf, &wn, &xmsa);
+	  ESL_DPRINTF1(("Master: test msa received\n"));
+
+	  if ((esl_msa_CompareMandatory(msa, xmsa)       != eslOK) ||
+	      (esl_CCompare(msa->name,    xmsa->name)    != eslOK) ||
+	      (esl_CCompare(msa->desc,    xmsa->desc)    != eslOK) ||
+	      (esl_CCompare(msa->acc,     xmsa->acc)     != eslOK) ||
+	      (esl_CCompare(msa->au,      xmsa->au)      != eslOK) ||
+	      (esl_CCompare(msa->ss_cons, xmsa->ss_cons) != eslOK) ||
+	      (esl_CCompare(msa->sa_cons, xmsa->sa_cons) != eslOK) ||
+	      (esl_CCompare(msa->pp_cons, xmsa->pp_cons) != eslOK) ||
+	      (esl_CCompare(msa->rf,      xmsa->rf)      != eslOK) ||
+	      (esl_CCompare(msa->mm,   xmsa->mm)   != eslOK))
+	    esl_fatal("Received MSA is not identical to what was sent.");
+
+	  esl_msa_Destroy(xmsa);
+	}
+    }
+  else 
+    {
+      ESL_DPRINTF1(("Worker %d: sending test msa\n", my_rank));
+      esl_msa_MPISend(msa, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
+      ESL_DPRINTF1(("Worker %d: test msa sent\n", my_rank));
+    }
+
+  free(wbuf);
+  return;
+}
+
+static void
+utest_MSAPackUnpack(ESL_ALPHABET *abc, ESL_MSA *msa, int my_rank, int nproc)
+{
+  ESL_MSA      *xmsa = NULL;
+  char         *wbuf = NULL;
+  int           wn   = 0;
+  int           pin, pout;
+
+  if (my_rank != 0) return;	/* only execute this utest on the master. */
+
+  esl_msa_MPIPackSize(msa, MPI_COMM_WORLD, &wn);
+  wbuf = malloc(sizeof(char) * wn);
+
+  pin  = 0;
+  esl_msa_MPIPack(msa, wbuf, wn,  &pin, MPI_COMM_WORLD);
+
+  pout = 0;
+  esl_msa_MPIUnpack(abc, wbuf, wn, &pout, MPI_COMM_WORLD, &xmsa);
+
+  if (pin != pout) esl_fatal("unit test failed: packed and unpacked sizes differ");
+  if ((esl_msa_CompareMandatory(msa, xmsa)       != eslOK) ||
+      (esl_CCompare(msa->name,    xmsa->name)    != eslOK) ||
+      (esl_CCompare(msa->desc,    xmsa->desc)    != eslOK) ||
+      (esl_CCompare(msa->acc,     xmsa->acc)     != eslOK) ||
+      (esl_CCompare(msa->au,      xmsa->au)      != eslOK) ||
+      (esl_CCompare(msa->ss_cons, xmsa->ss_cons) != eslOK) ||
+      (esl_CCompare(msa->sa_cons, xmsa->sa_cons) != eslOK) ||
+      (esl_CCompare(msa->pp_cons, xmsa->pp_cons) != eslOK) ||
+      (esl_CCompare(msa->rf,      xmsa->rf)      != eslOK) ||
+      (esl_CCompare(msa->mm,   xmsa->mm)   != eslOK))
+    esl_fatal("Unpacked MSA is not identical to what was packed.");
+  
+  esl_msa_Destroy(xmsa);
+  free(wbuf);
+  return;
+}
+
+
+
+#endif /*eslMPI_TESTDRIVE*/
+/*----------------------- end, unit tests -----------------------*/
+
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+#ifdef eslMPI_TESTDRIVE
+/* mpicc -o mpi_utest -g -Wall -I. -L. -DeslMPI_TESTDRIVE esl_mpi.c -leasel -lm
+ * In an MPI environment:
+ *    mpirun C ./mpi_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  { "-m",        eslARG_INFILE, FALSE, NULL, NULL, NULL, NULL, NULL, "read test MSA from file <f>",                       0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "test digital mode MSA communication",               0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "arrest after start: for debugging MPI under gdb",   0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the Easel mpi module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go  = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_ALPHABET *abc = NULL;
+  ESLX_MSAFILE *afp = NULL;
+  ESL_MSA      *msa = NULL;
+  int           do_stall = FALSE;
+  int           my_rank;
+  int           nproc;
+
+  /* For debugging: stall until GDB can be attached */
+  if (esl_opt_GetBoolean(go, "--stall")) do_stall = TRUE;
+  while (do_stall);
+
+  /* Get a test MSA and alphabet. */
+  if (esl_opt_GetString(go, "-m") != NULL) 
+    {
+      if (eslx_msafile_Open(&abc, esl_opt_GetString(go, "-m"), eslMSAFILE_UNKNOWN, NULL, &afp) != eslOK) esl_fatal("msa file open failed");
+      if (eslx_msafile_Read(afp, &msa)                                                         != eslOK) esl_fatal("msa read failed");
+      eslx_msafile_Close(afp);
+    }
+  else
+    {
+      abc = esl_alphabet_Create(eslAMINO);
+      if ( (eslx_msafile_OpenMem(&abc, 
+				 "# STOCKHOLM 1.0\n\nNIFE_CLOPA GYVGS\nNIFD_AZOVI GFDGF\nNIFD_BRAJA GYDGF\nNIFK_ANASP GYQGG\n//\n",
+				 -1, eslMSAFILE_STOCKHOLM, NULL, &afp)) != eslOK)
+	esl_fatal("msa creation failed");
+      if (eslx_msafile_Read(afp, &msa) != eslOK) esl_fatal("msa read failed");
+      eslx_msafile_Close(afp);
+    }
+
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  utest_MSAPackUnpack(abc, msa, my_rank, nproc);
+  utest_MSASendRecv  (abc, msa, my_rank, nproc);
+
+  MPI_Finalize();
+
+  esl_alphabet_Destroy(abc);
+  esl_msa_Destroy(msa);
+  return eslOK;
+}
+
+#endif /*eslMPI_TESTDRIVE*/
+/*---------------------- end, test driver -----------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Example.
+ *****************************************************************/
+
+
+
+
+
+/*------------------------ end, example -------------------------*/
+
+
+
+
+
+#else /*!(HAVE_MPI && eslLIBRARY)*/
+
+/* If we don't have MPI compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+#include "easel.h"
+
+void esl_mpi_DoAbsolutelyNothing(void) { return; }
+#if defined eslMPI_TESTDRIVE || eslMPI_EXAMPLE || eslMPI_BENCHMARK
+int main(void) { return 0; }
+#endif
+
+#endif /*HAVE_MPI && eslLIBRARY*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_mpi.c 804 2012-09-13 19:25:00Z rivase $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_mpi.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.h
new file mode 100755
index 0000000..cd9760a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.h
@@ -0,0 +1,80 @@
+/* Support for MPI parallelization.
+ * 
+ */
+#if defined(HAVE_MPI) && defined(eslLIBRARY)
+#ifndef eslMPI_INCLUDED
+#define eslMPI_INCLUDED
+#include <mpi.h>
+
+#include "esl_alphabet.h"
+#include "esl_msa.h"
+#include "esl_sq.h"
+#include "esl_stopwatch.h"
+
+/* Many MPI implementations are not MPI2.2 compliant, and do not
+ * support new MPI2.2 datatypes; work around that absence. [J10/152]
+ * This configuration is better here than esl_config.h.in, because
+ * we need to #include <mpi.h> first to see if the system MPI does
+ * the right thing, and esl_config.h.in is intended to be included
+ * BEFORE any system includes.
+ */
+#if MPI_VERSION < 2 || MPI_SUBVERSION < 2
+#ifndef MPI_INT64_T
+#define MPI_INT64_T  MPI_LONG_LONG_INT
+#endif
+#ifndef MPI_UINT64_T
+#define MPI_UINT64_T MPI_UNSIGNED_LONG_LONG
+#endif
+#ifndef MPI_UINT32_T
+#define MPI_UINT32_T MPI_UNSIGNED
+#endif
+#ifndef MPI_INT16_T
+#define MPI_INT16_T  MPI_SHORT
+#endif
+#ifndef MPI_UINT8_T
+#define MPI_UINT8_T  MPI_UNSIGNED_CHAR
+#endif
+#endif /*MPI_VERSION,MPI_SUBVERSION*/
+
+/* 1. Communicating optional arrays */
+extern int esl_mpi_PackOpt(void *inbuf, int incount, MPI_Datatype type, void *pack_buf, 
+			   int pack_buf_size, int *position, MPI_Comm comm);
+extern int esl_mpi_PackOptSize(void *inbuf, int incount, MPI_Datatype type, MPI_Comm comm, int *ret_n);
+extern int esl_mpi_UnpackOpt(void *pack_buf, int pack_buf_size, int *pos, void **outbuf, 
+			     int *opt_n, MPI_Datatype type, MPI_Comm comm);
+
+/* 2. Communicating ESL_SQ (single sequences) */
+extern int esl_sq_MPISend(ESL_SQ *sq, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int esl_sq_MPIPackSize(ESL_SQ *sq, MPI_Comm comm, int *ret_n);
+extern int esl_sq_MPIPack(ESL_SQ *sq, char *buf, int n, int *pos, MPI_Comm comm);
+extern int esl_sq_MPIUnpack(const ESL_ALPHABET *abc, char *buf, int n, int *pos, MPI_Comm comm, ESL_SQ **ret_sq);
+extern int esl_sq_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, 
+			  char **buf, int *nalloc, ESL_SQ **ret_sq);
+
+/* 3. Communicating ESL_MSA (multiple sequence alignments) */
+extern int esl_msa_MPISend(const ESL_MSA *msa, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int esl_msa_MPIPackSize(const ESL_MSA *msa, MPI_Comm comm, int *ret_n);
+extern int esl_msa_MPIPack(const ESL_MSA *msa, char *buf, int n, int *position, MPI_Comm comm);
+extern int esl_msa_MPIUnpack(const ESL_ALPHABET *abc, char *buf, int n, int *pos, MPI_Comm comm, ESL_MSA **ret_msa);
+extern int esl_msa_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, char **buf, int *nalloc, ESL_MSA **ret_msa);
+
+/* 4. Communicating ESL_STOPWATCH (process timing) */
+extern int esl_stopwatch_MPIReduce(ESL_STOPWATCH *w, int root, MPI_Comm comm);
+
+
+#endif /*eslMPI_INCLUDED*/
+#endif /*HAVE_MPI && eslLIBRARY*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SRE, Sat Jun  2 09:07:25 2007 [Janelia]
+ * SVN $Id: esl_mpi.h 842 2013-01-06 16:38:46Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_mpi.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.tex
new file mode 100755
index 0000000..8378229
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_mpi.tex
@@ -0,0 +1,24 @@
+The \eslmod{mpi} module contains a small number of utilities useful
+for using an MPI (Message Passing Interface) library for
+parallelization. Table~\ref{tbl:mpi_api} lists the routines in the
+\eslmod{mpi} API.
+
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_mpi_PackOpt()}{\ccode{esl\_mpi\_PackOpt()}} & Pack an optional, variable-sized array (or string).\\
+\hyperlink{func:esl_mpi_PackOptSize()}{\ccode{esl\_mpi\_PackOptSize()}}& Determine the size of a packed optional, variable-sized array.\\
+\hyperlink{func:esl_mpi_UnpackOpt()}{\ccode{esl\_mpi\_UnpackOpt()}} & Unpack an optional, variable-sized array (or string).\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{mpi} API.}
+\label{tbl:mpi_api}
+\end{table}
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.c
new file mode 100755
index 0000000..943c810
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.c
@@ -0,0 +1,3716 @@
+/* Multiple sequence alignment file i/o.
+ *    
+ * Contents:   
+ *    1. The <ESL_MSA> object
+ *    2. Digital mode MSA's         (augmentation: alphabet)
+ *    3. Setting, checking data fields in an <ESL_MSA>
+ *    4. Miscellaneous functions for manipulating MSAs
+ *    5. Debugging, testing, development
+ *    6. Unit tests
+ *    7. Test driver
+ *    8. Copyright and license information
+ *   
+ * Augmentations:
+ *   alphabet:  adds support for digital MSAs
+ *   keyhash:   speeds up Stockholm file input
+ *   ssi:       enables indexed random access in a file of many MSAs
+ */
+
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+#include <limits.h>
+#ifdef HAVE_STRINGS_H
+#include <strings.h>		/* POSIX strcasecmp() */
+#endif
+
+#include "easel.h"
+#include "esl_mem.h"
+#ifdef eslAUGMENT_KEYHASH
+#include "esl_keyhash.h"
+#endif
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#ifdef eslAUGMENT_SSI
+#include "esl_ssi.h"
+#endif
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+
+
+/******************************************************************************
+ *# 1. The <ESL_MSA> object                                           
+ *****************************************************************************/
+
+static ESL_MSA *msa_create_mostly(int nseq, int64_t alen);
+
+
+/* Function:  esl_msa_Create()
+ * Synopsis:  Creates an <ESL_MSA> object.
+ *
+ * Purpose:   Creates and initializes an <ESL_MSA> object, and returns a
+ *            pointer to it. 
+ *  
+ *            If caller already knows the dimensions of the alignment,
+ *            both <nseq> and <alen>, then <msa = esl_msa_Create(nseq,
+ *            alen)> allocates the whole thing at once. The MSA's
+ *            <nseq> and <alen> fields are set accordingly, and the
+ *            caller doesn't have to worry about setting them; it can
+ *            just fill in <aseq>.
+ *            
+ *            If caller doesn't know the dimensions of the alignment
+ *            (for example, when parsing an alignment file), then
+ *            <nseq> is taken to be an initial allocation size, and
+ *            <alen> must be -1. <alen=-1> is used as a flag for a
+ *            "growable" MSA. For example, the call <msa =
+ *            esl_msa_Create(16, -1)>.  allocates internally for an
+ *            initial block of 16 sequences, but without allocating
+ *            any space for individual sequences.  This allocation can
+ *            be expanded (by doubling) by calling <esl_msa_Expand()>.
+ *            A created <msa> can only be <_Expand()>'ed if <alen> is
+ *            -1.
+ *            
+ *            In a growable alignment, caller becomes responsible for
+ *            memory allocation of each individual <aseq[i]>. Caller
+ *            is also responsible for setting <nseq> and <alen> when
+ *            it is done parsing and creating the new MSA. In
+ *            particular, the <esl_msa_Destroy()> function relies on
+ *            <nseq> to know how many individual sequences are
+ *            allocated.
+ *
+ * Args:      <nseq> - number of sequences, or nseq allocation blocksize
+ *            <alen> - length of alignment in columns, or -1      
+ *
+ * Returns:   pointer to new MSA object, w/ all values initialized.
+ *           
+ * Throws:    <NULL> on allocation failure.          
+ *
+ * Xref:      squid's MSAAlloc()
+ */
+ESL_MSA *
+esl_msa_Create(int nseq, int64_t alen)
+{
+  int      status;
+  ESL_MSA *msa;
+  int      i;
+
+  msa = msa_create_mostly(nseq, alen); /* aseq is null upon successful return */
+  if (msa == NULL) return NULL; /* already threw error in msa_create_mostly, so percolate */
+
+  ESL_ALLOC(msa->aseq,   sizeof(char *) * msa->sqalloc);
+  for (i = 0; i < msa->sqalloc; i++)
+    msa->aseq[i] = NULL;
+  
+  if (alen != -1) {
+    for (i = 0; i < nseq; i++)
+      {
+	ESL_ALLOC(msa->aseq[i], sizeof(char) * (alen+1));
+	msa->aseq[i][alen] = '\0'; /* caller might forget to null terminate; help the poor */
+      }
+    msa->nseq = nseq;
+  }
+  return msa;
+
+ ERROR:
+  esl_msa_Destroy(msa);
+  return NULL;
+}
+
+
+/* Function:  esl_msa_Expand()
+ * Synopsis:  Reallocate for more sequences.
+ *
+ * Purpose:   Double the current sequence allocation in <msa>.
+ *            Typically used when we're reading an alignment sequentially 
+ *            from a file, so we don't know nseq 'til we're done.
+ *            
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on reallocation failure; <msa> is undamaged,
+ *            and the caller may attempt to recover from the error.
+ *            
+ *            Throws <eslEINVAL> if <msa> is not growable: its <alen>
+ *            field must be -1 to be growable.
+ *
+ * Xref:      squid's MSAExpand(), 1999.
+ */
+int
+esl_msa_Expand(ESL_MSA *msa)
+{
+  int   status;
+  int   old, new;		/* old & new allocation sizes (max # seqs) */
+  int   i,j;
+
+  if (msa->alen != -1) 
+    ESL_EXCEPTION(eslEINVAL, "that MSA is not growable");
+
+  old = msa->sqalloc;
+  new = 2*old;
+
+  /* Normally either aseq (ascii) or ax (digitized) would be active, not both.
+   * We could make sure that that's true, but that's checked elsewhere.           
+   */
+  if (msa->aseq) ESL_REALLOC(msa->aseq, sizeof(char *)    * new);
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->ax)   ESL_REALLOC(msa->ax,   sizeof(ESL_DSQ *) * new);
+#endif /*eslAUGMENT_ALPHABET*/
+
+  ESL_REALLOC(msa->sqname, sizeof(char *) * new);
+  ESL_REALLOC(msa->wgt,    sizeof(double) * new);
+  ESL_REALLOC(msa->sqlen,  sizeof(int64_t)* new);
+
+  if (msa->ss)
+    {
+      ESL_REALLOC(msa->ss,    sizeof(char *)  * new);
+      ESL_REALLOC(msa->sslen, sizeof(int64_t) * new);
+    }
+  
+  if (msa->sa)
+    {
+      ESL_REALLOC(msa->sa,    sizeof(char *)  * new);
+      ESL_REALLOC(msa->salen, sizeof(int64_t) * new);
+    }
+
+  if (msa->pp)
+    {
+      ESL_REALLOC(msa->pp,    sizeof(char *)  * new);
+      ESL_REALLOC(msa->pplen, sizeof(int64_t) * new);
+    }
+
+  if (msa->sqacc)   ESL_REALLOC(msa->sqacc,  sizeof(char *) * new);
+  if (msa->sqdesc)  ESL_REALLOC(msa->sqdesc, sizeof(char *) * new);
+
+  for (i = old; i < new; i++)
+    {
+      if (msa->aseq) msa->aseq[i] = NULL;
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->ax)   msa->ax[i]   = NULL;
+#endif /*eslAUGMENT_ALPHABET*/
+      msa->sqname[i] = NULL;
+      msa->wgt[i]    = -1.0;	/* -1.0 means "unset so far" */
+      msa->sqlen[i]  = 0;
+
+      if (msa->ss) { msa->ss[i] = NULL; msa->sslen[i] = 0; }
+      if (msa->sa) { msa->sa[i] = NULL; msa->salen[i] = 0; }
+      if (msa->pp) { msa->pp[i] = NULL; msa->pplen[i] = 0; }
+
+      if (msa->sqacc)  msa->sqacc[i]  = NULL;
+      if (msa->sqdesc) msa->sqdesc[i] = NULL;
+    }
+
+  /* Reallocate and re-init for unparsed #=GS tags, if we have some.
+   * gs is [0..ngs-1][0..nseq-1][], so we're reallocing the middle
+   * set of pointers.
+   */
+  if (msa->gs)
+    for (i = 0; i < msa->ngs; i++)
+      {
+	if (msa->gs[i])
+	  {
+	    ESL_REALLOC(msa->gs[i], sizeof(char *) * new);
+	    for (j = old; j < new; j++)
+	      msa->gs[i][j] = NULL;
+	  }
+      }
+  /* Reallocate and re-init for unparsed #=GR tags, if we have some.
+   * gr is [0..ngs-1][0..nseq-1][], so we're reallocing the middle
+   * set of pointers.
+   */
+  if (msa->gr)
+    for (i = 0; i < msa->ngr; i++)
+      {
+	if (msa->gr[i])
+	  {
+	    ESL_REALLOC(msa->gr[i], sizeof(char *) * new);
+	    for (j = old; j < new; j++)
+	      msa->gr[i][j] = NULL;
+	  }
+      }
+
+  msa->sqalloc = new;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_Copy()
+ * Synopsis:  Copies an MSA.
+ *
+ * Purpose:   Makes a copy of <msa> in <new>. Caller has
+ *            already allocated <new> to hold an MSA of
+ *            at least <msa->nseq> sequences and <msa->alen>
+ *            columns.
+ *            
+ * Note:      Because MSA's are not reusable, this function does a
+ *            lot of internal allocation for optional fields, without
+ *            checking <new> to see if space was already allocated. To
+ *            reuse an MSA <new> and copy new data into it, we'll
+ *            eventually need a <esl_msa_Reuse()> function, and/or
+ *            recode this to reuse or free any already-allocated
+ *            optional memory it encounters in <new>. Until then, 
+ *            it's unlikely that <esl_msa_Copy()> is useful on its own;
+ *            the caller would be expected to call <esl_msa_Clone()> 
+ *            instead.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. In this case, <new>
+ *            was only partially constructed, and should be treated
+ *            as corrupt.
+ */
+int
+esl_msa_Copy(const ESL_MSA *msa, ESL_MSA *new)
+{
+  int i, x, j;
+  int status;
+
+  /* aseq[0..nseq-1][0..alen-1] strings,
+   * or ax[0..nseq-1][(0) 1..alen (alen+1)] digital seqs 
+   * <new> must have one of them allocated already.
+   */
+  if (! (msa->flags & eslMSA_DIGITAL))
+    for (i = 0; i < msa->nseq; i++)
+      strcpy(new->aseq[i], msa->aseq[i]);
+#ifdef eslAUGMENT_ALPHABET
+  else
+    {
+      for (i = 0; i < msa->nseq; i++)
+	memcpy(new->ax[i], msa->ax[i], (msa->alen+2) * sizeof(ESL_DSQ));
+      new->abc = msa->abc;
+    }
+#endif
+  
+  for (i = 0; i < msa->nseq; i++) {
+    esl_strdup(msa->sqname[i], -1, &(new->sqname[i]));
+    new->wgt[i] = msa->wgt[i];
+  }
+  /* alen, nseq were already set by Create() */
+  new->flags = msa->flags;
+
+  esl_strdup(msa->name,    -1, &(new->name));
+  esl_strdup(msa->desc,    -1, &(new->desc));
+  esl_strdup(msa->acc,     -1, &(new->acc));
+  esl_strdup(msa->au,      -1, &(new->au));
+  esl_strdup(msa->ss_cons, -1, &(new->ss_cons));
+  esl_strdup(msa->sa_cons, -1, &(new->sa_cons));
+  esl_strdup(msa->pp_cons, -1, &(new->pp_cons));
+  esl_strdup(msa->rf,      -1, &(new->rf));
+  esl_strdup(msa->mm,      -1, &(new->mm));
+
+  if (msa->sqacc != NULL) {
+    ESL_ALLOC(new->sqacc, sizeof(char **) * new->sqalloc);
+    for (i = 0; i < msa->nseq;    i++) esl_strdup(msa->sqacc[i], -1, &(new->sqacc[i]));
+    for (     ; i < new->sqalloc; i++) new->sqacc[i] = NULL;
+  }
+  if (msa->sqdesc != NULL) {
+    ESL_ALLOC(new->sqdesc, sizeof(char **) * new->sqalloc);
+    for (i = 0; i < msa->nseq;    i++) esl_strdup(msa->sqdesc[i], -1, &(new->sqdesc[i]));
+    for (     ; i < new->sqalloc; i++) new->sqdesc[i] = NULL;
+  }
+  if (msa->ss != NULL) {
+    ESL_ALLOC(new->ss, sizeof(char **) * new->sqalloc);
+    for (i = 0; i < msa->nseq;    i++) esl_strdup(msa->ss[i], -1, &(new->ss[i]));
+    for (     ; i < new->sqalloc; i++) new->ss[i] = NULL;
+  }
+  if (msa->sa != NULL) {
+    ESL_ALLOC(new->sa, sizeof(char **) * msa->nseq);
+    for (i = 0; i < msa->nseq;    i++) esl_strdup(msa->sa[i], -1, &(new->sa[i]));
+    for (     ; i < new->sqalloc; i++) new->sa[i] = NULL;
+  }
+  if (msa->pp != NULL) {
+    ESL_ALLOC(new->pp, sizeof(char **) * msa->nseq);
+    for (i = 0; i < msa->nseq;    i++) esl_strdup(msa->pp[i], -1, &(new->pp[i]));
+    for (     ; i < new->sqalloc; i++) new->pp[i] = NULL;
+  }
+  
+  for (x = 0; x < eslMSA_NCUTS; x++) {
+    new->cutoff[x] = msa->cutoff[x];
+    new->cutset[x] = msa->cutset[x];
+  }
+
+  if (msa->ncomment > 0) {
+    ESL_ALLOC(new->comment, sizeof(char **) * msa->ncomment);
+    new->ncomment       = msa->ncomment;
+    new->alloc_ncomment = msa->ncomment;
+    for (i = 0; i < msa->ncomment; i++)
+      esl_strdup(msa->comment[i], -1, &(new->comment[i]));
+  }
+
+  if (msa->ngf > 0) {
+    ESL_ALLOC(new->gf_tag, sizeof(char **) * msa->ngf);
+    ESL_ALLOC(new->gf,     sizeof(char **) * msa->ngf);
+    new->ngf       = msa->ngf;
+    new->alloc_ngf = msa->ngf;
+    for (i = 0; i < msa->ngf; i++) {
+      esl_strdup(msa->gf_tag[i], -1, &(new->gf_tag[i]));
+      esl_strdup(msa->gf[i],     -1, &(new->gf[i]));
+    }
+  }
+
+  if (msa->ngs > 0) {
+    ESL_ALLOC(new->gs_tag, sizeof(char **)  * msa->ngs);
+    ESL_ALLOC(new->gs,     sizeof(char ***) * msa->ngs);
+    new->ngs       = msa->ngs;
+    for (i = 0; i < msa->ngs; i++) {
+      ESL_ALLOC(new->gs[i], sizeof(char **) * msa->nseq);
+      esl_strdup(msa->gs_tag[i], -1, &(new->gs_tag[i]));
+      for (j = 0; j < msa->nseq; j++)
+	esl_strdup(msa->gs[i][j],  -1, &(new->gs[i][j]));
+    }
+  }
+
+  if (msa->ngc > 0) {
+    ESL_ALLOC(new->gc_tag, sizeof(char **) * msa->ngc);
+    ESL_ALLOC(new->gc,     sizeof(char **) * msa->ngc);
+    new->ngc       = msa->ngc;
+    for (i = 0; i < msa->ngc; i++) {
+      esl_strdup(msa->gc_tag[i], -1, &(new->gc_tag[i]));
+      esl_strdup(msa->gc[i],     -1, &(new->gc[i]));
+    }
+  }
+  
+  if (msa->ngr > 0) {
+    ESL_ALLOC(new->gr_tag, sizeof(char **)  * msa->ngr);
+    ESL_ALLOC(new->gr,     sizeof(char ***) * msa->ngr);
+    new->ngr       = msa->ngr;
+    for (i = 0; i < msa->ngr; i++) {
+      ESL_ALLOC(new->gr[i], sizeof(char **) * msa->nseq);
+      esl_strdup(msa->gr_tag[i], -1, &(new->gr_tag[i]));
+      for (j = 0; j < msa->nseq; j++)
+	esl_strdup(msa->gr[i][j],  -1, &(new->gr[i][j]));
+    }
+  }
+
+#ifdef eslAUGMENT_KEYHASH
+  esl_keyhash_Destroy(new->index);  new->index  = NULL;
+  esl_keyhash_Destroy(new->gs_idx); new->gs_idx = NULL;
+  esl_keyhash_Destroy(new->gc_idx); new->gc_idx = NULL;
+  esl_keyhash_Destroy(new->gr_idx); new->gr_idx = NULL;
+
+  if (msa->index  != NULL) new->index  = esl_keyhash_Clone(msa->index);
+  if (msa->gs_idx != NULL) new->gs_idx = esl_keyhash_Clone(msa->gs_idx);
+  if (msa->gc_idx != NULL) new->gc_idx = esl_keyhash_Clone(msa->gc_idx);
+  if (msa->gr_idx != NULL) new->gr_idx = esl_keyhash_Clone(msa->gr_idx);
+#endif
+
+#ifdef eslAUGMENT_SSI
+  new->offset = msa->offset;
+#endif
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_Clone()
+ * Synopsis:  Duplicates an MSA.
+ *
+ * Purpose:   Make a duplicate of <msa>, in newly 
+ *            allocated space. 
+ *
+ * Returns:   a pointer to the newly allocated clone.
+ *            Caller is responsible for free'ing it.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+ESL_MSA *
+esl_msa_Clone(const ESL_MSA *msa)
+{
+  ESL_MSA *nw = NULL;
+  int      status;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->flags & eslMSA_DIGITAL) {
+      if ((nw = esl_msa_CreateDigital(msa->abc, msa->nseq, msa->alen)) == NULL)  return NULL;
+  } else
+#endif
+  if ((nw     = esl_msa_Create(msa->nseq, msa->alen)) == NULL)  return NULL;  
+
+  if ((status = esl_msa_Copy(msa, nw) )               != eslOK) goto ERROR;
+  return nw;
+
+ ERROR:
+  esl_msa_Destroy(nw);
+  return NULL;
+}
+
+
+/* Function:  esl_msa_Destroy()
+ * Synopsis:  Frees an <ESL_MSA>.
+ *
+ * Purpose:   Destroys <msa>.
+ *
+ * Xref:      squid's MSADestroy().
+ */
+void
+esl_msa_Destroy(ESL_MSA *msa)
+{
+  if (msa == NULL) return;
+
+  if (msa->aseq != NULL) 
+    esl_Free2D((void **) msa->aseq, msa->nseq);
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->ax != NULL) 
+    esl_Free2D((void **) msa->ax, msa->nseq);
+#endif /*eslAUGMENT_ALPHABET*/
+
+  esl_Free2D((void **) msa->sqname, msa->nseq);
+  esl_Free2D((void **) msa->sqacc,  msa->nseq);
+  esl_Free2D((void **) msa->sqdesc, msa->nseq);
+  esl_Free2D((void **) msa->ss,     msa->nseq);
+  esl_Free2D((void **) msa->sa,     msa->nseq);
+  esl_Free2D((void **) msa->pp,     msa->nseq);
+
+  if (msa->sqlen   != NULL) free(msa->sqlen);
+  if (msa->wgt     != NULL) free(msa->wgt);
+
+  if (msa->name    != NULL) free(msa->name);
+  if (msa->desc    != NULL) free(msa->desc);
+  if (msa->acc     != NULL) free(msa->acc);
+  if (msa->au      != NULL) free(msa->au);
+  if (msa->ss_cons != NULL) free(msa->ss_cons);
+  if (msa->sa_cons != NULL) free(msa->sa_cons);
+  if (msa->pp_cons != NULL) free(msa->pp_cons);
+  if (msa->rf      != NULL) free(msa->rf);
+  if (msa->mm      != NULL) free(msa->mm);
+  if (msa->sslen   != NULL) free(msa->sslen);
+  if (msa->salen   != NULL) free(msa->salen);
+  if (msa->pplen   != NULL) free(msa->pplen);  
+
+  esl_Free2D((void **) msa->comment, msa->ncomment);
+  esl_Free2D((void **) msa->gf_tag,  msa->ngf);
+  esl_Free2D((void **) msa->gf,      msa->ngf);
+
+  esl_Free2D((void **) msa->gs_tag,  msa->ngs);
+  esl_Free3D((void ***)msa->gs,      msa->ngs, msa->nseq);
+  esl_Free2D((void **) msa->gc_tag,  msa->ngc);
+  esl_Free2D((void **) msa->gc,      msa->ngc);
+  esl_Free2D((void **) msa->gr_tag,  msa->ngr);
+  esl_Free3D((void ***)msa->gr,      msa->ngr, msa->nseq);
+
+#ifdef eslAUGMENT_KEYHASH
+  esl_keyhash_Destroy(msa->index);
+  esl_keyhash_Destroy(msa->gs_idx);
+  esl_keyhash_Destroy(msa->gc_idx);
+  esl_keyhash_Destroy(msa->gr_idx);
+#endif /* keyhash augmentation */  
+
+  free(msa);
+  return;
+}
+
+
+/* msa_create_mostly()
+ *
+ * This is the routine called by esl_msa_Create() and esl_msa_CreateDigital()
+ * that does all allocation except the aseq/ax alignment data.
+ * 
+ * <nseq> may be the exact known # of seqs in an alignment; or <nseq>
+ * may be an allocation block size (to be expanded by doubling, in
+ * esl_msa_Expand(), as in:
+ *     <if (msa->nseq == msa->sqalloc) esl_msa_Expand(msa);>
+ * <nseq> should not be 0.
+ *
+ * <alen> may be the exact length of an alignment, in columns; or it
+ * may be -1, which states that your parser will take responsibility
+ * for expanding as needed as new input is read into a growing new
+ * alignment.
+ *
+ * A created <msa> can only be <_Expand()>'ed if <alen> is -1.
+ *
+ * Args:     <nseq> - number of sequences, or nseq allocation blocksize
+ *           <alen> - length of alignment in columns, or -1     
+ *
+ * Returns:   pointer to new MSA object, w/ all values initialized.
+ *            Note that msa->nseq is initialized to 0 here, even though space
+ *            is allocated.
+ *           
+ * Throws:    <NULL> on allocation failure.          
+ */
+static ESL_MSA *
+msa_create_mostly(int nseq, int64_t alen)
+{
+  int      status;
+  ESL_MSA *msa     = NULL;
+  int      i;
+
+  ESL_ALLOC(msa, sizeof(ESL_MSA));
+  msa->aseq    = NULL;
+  msa->sqname  = NULL;
+  msa->wgt     = NULL;
+  msa->alen    = alen;		/* if -1, then we're growable. */
+  msa->nseq    = 0;		/* our caller (text or digital allocation) sets this.  */
+  msa->flags   = 0;
+
+#ifdef eslAUGMENT_ALPHABET
+  msa->abc     = NULL;
+  msa->ax      = NULL;
+#endif /*eslAUGMENT_ALPHABET*/
+
+  msa->name    = NULL;
+  msa->desc    = NULL;
+  msa->acc     = NULL;
+  msa->au      = NULL;
+  msa->ss_cons = NULL;
+  msa->sa_cons = NULL;
+  msa->pp_cons = NULL;
+  msa->rf      = NULL;
+  msa->mm      = NULL;
+  msa->sqacc   = NULL;
+  msa->sqdesc  = NULL;
+  msa->ss      = NULL;
+  msa->sa      = NULL;
+  msa->pp      = NULL;
+  for (i = 0; i < eslMSA_NCUTS; i++) {
+    msa->cutoff[i] = 0.;
+    msa->cutset[i] = FALSE;
+  }
+  msa->sqalloc = nseq;
+  msa->sqlen   = NULL;
+  msa->sslen   = NULL;
+  msa->salen   = NULL;
+  msa->pplen   = NULL;
+  msa->lastidx = 0;
+
+  /* Unparsed markup, including comments and Stockholm tags.
+   * GS, GC, and GR Stockholm tags require keyhash augmentation
+   */
+  msa->comment        = NULL;
+  msa->ncomment       = 0;
+  msa->alloc_ncomment = 0;
+
+  msa->gf_tag         = NULL;
+  msa->gf             = NULL;
+  msa->ngf            = 0;
+  msa->alloc_ngf      = 0;
+
+  msa->gs_tag         = NULL;
+  msa->gs             = NULL;
+  msa->ngs            = 0;
+
+  msa->gc_tag         = NULL;
+  msa->gc             = NULL;
+  msa->ngc            = 0;
+
+  msa->gr_tag         = NULL;
+  msa->gr             = NULL;
+  msa->ngr            = 0;
+
+#ifdef eslAUGMENT_KEYHASH
+  msa->index     = esl_keyhash_Create();
+  msa->gs_idx    = NULL;
+  msa->gc_idx    = NULL;
+  msa->gr_idx    = NULL;
+#endif /*eslAUGMENT_KEYHASH*/
+
+#ifdef eslAUGMENT_SSI
+  msa->offset    = 0;
+#endif
+
+  /* Allocation, round 2.
+   */
+  if(nseq > 0) { 
+    ESL_ALLOC(msa->sqname, sizeof(char *) * nseq);
+    ESL_ALLOC(msa->wgt,    sizeof(double) * nseq);
+    ESL_ALLOC(msa->sqlen,  sizeof(int64_t)* nseq);
+  }    
+  /* Initialize at the second level.
+   */
+  for (i = 0; i < nseq; i++)
+    {
+      msa->sqname[i] = NULL;
+      msa->sqlen[i]  = 0;
+      msa->wgt[i]    = -1.0;	/* "unset so far" */
+    }
+
+  return msa;
+
+ ERROR:
+  esl_msa_Destroy(msa);
+  return NULL;
+}
+/*------------------- end, ESL_MSA object -----------------------*/
+
+
+
+/*****************************************************************
+ *# 2. Digital mode MSA's (augmentation: alphabet)
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_msa_GuessAlphabet()
+ * Synopsis:  Guess alphabet of MSA.
+ *
+ * Purpose:   Guess whether the sequences in the <msa> are
+ *            <eslDNA>, <eslRNA>, or <eslAMINO>, and return
+ *            that guess in <*ret_type>.
+ *            
+ *            The determination is made based on the classifications
+ *            of the individual sequences in the alignment. At least
+ *            one sequence must contain ten residues or more to be
+ *            classified. If one or more sequences is called
+ *            <eslAMINO> and one or more is called <eslDNA>/<eslRNA>,
+ *            the alignment's alphabet is considered to be
+ *            indeterminate (<eslUNKNOWN>). If some sequences are
+ *            <eslDNA> and some are <eslRNA>, the alignment is called
+ *            <eslDNA>; this should cause no problems, because Easel
+ *            reads U as a synonym for T in DNA sequence anyway.
+ *            
+ *            Tested on Pfam 21.0 and Rfam 7.0, this routine correctly
+ *            classified all 8957 Pfam alignments as protein, and 503
+ *            Rfam alignments as RNA (both seed and full alignments).
+ *
+ * Returns:   <eslOK> on success, and <*ret_type> is set
+ *            to <eslDNA>, <eslRNA>, or <eslAMINO>. 
+ *            
+ *            Returns <eslENOALPHABET> and sets <*ret_type> to
+ *            <eslUNKNOWN> if the alphabet cannot be reliably guessed.
+ *
+ * Xref:      J1/62
+ */
+int
+esl_msa_GuessAlphabet(const ESL_MSA *msa, int *ret_type)
+{
+  int64_t namino   = 0,
+          ndna     = 0,
+          nrna     = 0,
+          nunknown = 0;
+  int     type;
+  int     i,x;
+  int64_t j,n;
+  int64_t ct[26];
+
+  if (msa->flags & eslMSA_DIGITAL) { *ret_type = msa->abc->type; return eslOK; }
+
+  *ret_type = eslUNKNOWN;
+
+  /* On wide alignments, we're better off looking at individual sequence
+   * classifications. We don't want to end up calling the whole alignment
+   * indeterminate just because a few sequences have degenerate residue
+   * codes.
+   */
+  for (i = 0; i < msa->nseq; i++) 
+    {
+      for (x = 0; x < 26; x++) ct[x] = 0;
+      for (n = 0, j = 0; j < msa->alen; j++) {
+	x = toupper(msa->aseq[i][j]) - 'A';
+	if (x < 0 || x > 25) continue;
+	ct[x]++;
+	n++;
+	if (n > 10000) break;	/* ought to know by now */
+      }
+      esl_abc_GuessAlphabet(ct, &type);
+
+      switch (type) {
+      case eslAMINO:   namino++; break;
+      case eslDNA:     ndna++;   break;
+      case eslRNA:     nrna++;   break;
+      default:         nunknown++; 
+      }
+    }
+  if      (namino    > 0 && (ndna+nrna)   == 0) *ret_type = eslAMINO;
+  else if (ndna      > 0 && (nrna+namino) == 0) *ret_type = eslDNA;
+  else if (nrna      > 0 && (ndna+namino) == 0) *ret_type = eslRNA;
+  else if (ndna+nrna > 0 && namino        == 0) *ret_type = eslDNA;
+
+  /* On narrow alignments, no single sequence may be long enough to 
+   * be classified, but we can determine alphabet from composition
+   * of the complete alignment. Of course, degenerate residue codes in
+   * a DNA alignment will still screw us.
+   */
+  if (*ret_type == eslUNKNOWN)
+    {
+
+      n = 0;
+      for (x = 0; x < 26; x++) ct[x] = 0;
+      for (i = 0; i < msa->nseq; i++) {
+	for (j = 0; j < msa->alen; j++) {
+	  x = toupper(msa->aseq[i][j]) - 'A';
+	  if (x < 0 || x > 26) continue;
+	  ct[x]++;
+	  n++;
+	  if (n > 10000) break;	/* ought to know by now */
+	}
+	if (n > 10000) break;	
+      }
+      esl_abc_GuessAlphabet(ct, ret_type);
+    }
+
+  if (*ret_type == eslUNKNOWN) return eslENOALPHABET;
+  else                         return eslOK;
+}
+
+
+/* Function:  esl_msa_CreateDigital()
+ * Synopsis:  Create a digital <ESL_MSA>.
+ *
+ * Purpose:   Same as <esl_msa_Create()>, except the returned MSA is configured
+ *            for a digital alignment using internal alphabet <abc>, instead of 
+ *            a text alignment.
+ *   
+ *            Internally, this means the <ax> field is allocated instead of
+ *            the <aseq> field, and the <eslMSA_DIGITAL> flag is raised.
+ *
+ * Args:     <nseq> - number of sequences, or nseq allocation blocksize
+ *           <alen> - length of alignment in columns, or -1
+ *
+ * Returns:   pointer to new MSA object, w/ all values initialized.
+ *            Note that <msa->nseq> is initialized to 0, even though space
+ *            is allocated.
+ *           
+ * Throws:    NULL on allocation failure.          
+ *
+ * Xref:      squid's MSAAlloc()
+ */
+ESL_MSA *
+esl_msa_CreateDigital(const ESL_ALPHABET *abc, int nseq, int64_t alen)
+{
+  int      status;
+  ESL_MSA *msa;
+  int      i;
+
+  msa = msa_create_mostly(nseq, alen); /* aseq is null upon successful return */
+  if (msa == NULL) return NULL; /* already threw error in mostly_create, so percolate */
+
+  ESL_ALLOC(msa->ax,   sizeof(ESL_DSQ *) * msa->sqalloc); 
+  for (i = 0; i < msa->sqalloc; i++)
+    msa->ax[i] = NULL;
+
+  if (alen != -1)
+    {
+      for (i = 0; i < nseq; i++) {
+	ESL_ALLOC(msa->ax[i], sizeof(ESL_DSQ) * (alen+2));
+	msa->ax[i][0] = msa->ax[i][alen+1] = eslDSQ_SENTINEL; /* help the poor */
+      }
+      msa->nseq = nseq;
+    }
+
+  msa->abc    = (ESL_ALPHABET *) abc; /* this cast away from const-ness is deliberate & safe. */
+  msa->flags |= eslMSA_DIGITAL;
+  return msa;
+
+ ERROR:
+  esl_msa_Destroy(msa);
+  return NULL;
+}
+
+/* Function:  esl_msa_Digitize()
+ * Synopsis:  Digitizes an msa, converting it from text mode.
+ *
+ * Purpose:   Given an alignment <msa> in text mode, convert it to
+ *            digital mode, using alphabet <abc>.
+ *            
+ *            Internally, the <ax> digital alignment field is filled,
+ *            the <aseq> text alignment field is destroyed and free'd,
+ *            a copy of the alphabet pointer is kept in the msa's
+ *            <abc> reference, and the <eslMSA_DIGITAL> flag is raised
+ *            in <flags>.
+ *            
+ *            Because <esl_msa_Digitize()> may be called on
+ *            unvalidated user data, <errbuf> may be passed, for
+ *            capturing an informative error message. For example, in
+ *            reading alignments from files, invalid characters in the
+ *            alignment are caught at the digitization step.
+ *            
+ * Args:      abc    - digital alphabet
+ *            msa    - multiple alignment to digitize
+ *            errbuf - optional: error message buffer, or <NULL>
+ *
+ * Returns:   <eslOK> on success;
+ *            <eslEINVAL> if one or more sequences contain invalid characters
+ *            that can't be digitized. If this happens, the <msa> is returned
+ *            unaltered - left in text mode, with <aseq> as it was. (This is
+ *            a normal error, because <msa->aseq> may be user input that we 
+ *            haven't validated yet.)
+ *
+ * Throws:    <eslEMEM> on allocation failure; in this case, state of <msa> may be 
+ *            wedged, and it should only be destroyed, not used.
+ */
+int
+esl_msa_Digitize(const ESL_ALPHABET *abc, ESL_MSA *msa, char *errbuf)
+{
+  char errbuf2[eslERRBUFSIZE];
+  int  i;
+  int  status;
+
+  /* Contract checks */
+  if (msa->aseq == NULL)           ESL_EXCEPTION(eslEINVAL, "msa has no text alignment");
+  if (msa->ax   != NULL)           ESL_EXCEPTION(eslEINVAL, "msa already has digital alignment");
+  if (msa->flags & eslMSA_DIGITAL) ESL_EXCEPTION(eslEINVAL, "msa is flagged as digital");
+
+  /* Validate before we convert. Then we can leave the <aseq> untouched if
+   * any of the sequences contain invalid characters.
+   */
+  for (i = 0; i < msa->nseq; i++)
+    if (esl_abc_ValidateSeq(abc, msa->aseq[i], msa->alen, errbuf2) != eslOK) 
+      ESL_FAIL(eslEINVAL, errbuf, "%s: %s", msa->sqname[i], errbuf2);
+
+  /* Convert, sequence-by-sequence, free'ing aseq as we go.  */
+  ESL_ALLOC(msa->ax, msa->sqalloc * sizeof(ESL_DSQ *));
+  for (i = 0; i < msa->nseq; i++)
+    {
+      ESL_ALLOC(msa->ax[i], (msa->alen+2) * sizeof(ESL_DSQ));
+      status = esl_abc_Digitize(abc, msa->aseq[i], msa->ax[i]);
+      if (status != eslOK) goto ERROR;
+      free(msa->aseq[i]);
+    }    
+  for (; i < msa->sqalloc; i++) 
+    msa->ax[i] = NULL;
+  free(msa->aseq);
+  msa->aseq = NULL;
+
+  msa->abc   =  (ESL_ALPHABET *) abc; /* convince compiler that removing const-ness is safe */
+  msa->flags |= eslMSA_DIGITAL;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_Textize()
+ * Synopsis:  Convert a digital msa to text mode.
+ *
+ * Purpose:   Given an alignment <msa> in digital mode, convert it
+ *            to text mode.
+ *            
+ *            Internally, the <aseq> text alignment field is filled, the
+ *            <ax> digital alignment field is destroyed and free'd, the
+ *            msa's <abc> digital alphabet reference is nullified, and 
+ *            the <eslMSA_DIGITAL> flag is dropped in <flags>.
+ *            
+ * Args:      msa   - multiple alignment to convert to text
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslECORRUPT> if one or more of the digitized alignment strings
+ *            contain invalid characters.
+ */
+int
+esl_msa_Textize(ESL_MSA *msa)
+{
+  int status;
+  int i;
+
+  /* Contract checks
+   */
+  if (msa->ax   == NULL)               ESL_EXCEPTION(eslEINVAL, "msa has no digital alignment");
+  if (msa->aseq != NULL)               ESL_EXCEPTION(eslEINVAL, "msa already has text alignment");
+  if (! (msa->flags & eslMSA_DIGITAL)) ESL_EXCEPTION(eslEINVAL, "msa is not flagged as digital");
+  if (msa->abc  == NULL)               ESL_EXCEPTION(eslEINVAL, "msa has no digital alphabet");
+
+  /* Convert, sequence-by-sequence, free'ing ax as we go.
+   */
+  ESL_ALLOC(msa->aseq, msa->sqalloc * sizeof(char *));
+  for (i = 0; i < msa->nseq; i++)
+    {
+      ESL_ALLOC(msa->aseq[i], (msa->alen+1) * sizeof(char));
+      status = esl_abc_Textize(msa->abc, msa->ax[i], msa->alen, msa->aseq[i]);
+      if (status != eslOK) goto ERROR;
+      free(msa->ax[i]);
+    }
+  for (; i < msa->sqalloc; i++)
+    msa->aseq[i] = NULL;
+  free(msa->ax);
+  msa->ax = NULL;
+  
+  msa->abc    = NULL;      	 /* nullify reference (caller still owns real abc) */
+  msa->flags &= ~eslMSA_DIGITAL; /* drop the flag */
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_ConvertDegen2X()
+ * Synopsis:  Convert all degenerate residues to X/N
+ *
+ * Purpose:   Convert all the degenerate residue codes in digital
+ *            MSA <msa> to the code for "unknown residue" (maximum
+ *            degeneracy); for example, X for protein, N for 
+ *            nucleic acid. 
+ *            
+ *            This is handy when you need to be compatible with
+ *            software that can't deal with unusual residue codes.
+ *            For example, WU-BLAST can't deal with O (pyrrolysine)
+ *            codes. 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <msa> isn't in digital mode. 
+ *            (We only know how to interpret the alphabet in digital
+ *            mode. In text mode, letters are just letters.)
+ */
+int
+esl_msa_ConvertDegen2X(ESL_MSA *msa)
+{ 
+  int i;
+  int status;
+
+  if (! (msa->flags & eslMSA_DIGITAL)) ESL_EXCEPTION(eslEINVAL, "esl_msa_ConvertDegen2X only works on digital sequences");
+  
+  for (i = 0; i < msa->nseq; i++)
+    if ((status = esl_abc_ConvertDegen2X(msa->abc, msa->ax[i])) != eslOK) return status;
+
+  return eslOK;
+}
+
+
+#endif /* eslAUGMENT_ALPHABET */
+/*---------------------- end of digital MSA functions -----------------------*/
+
+
+
+/*****************************************************************
+ *# 3. Setting, checking data fields in an ESL_MSA
+ *****************************************************************/
+
+/* These get used by parsers, which might be using an ESL_BUFFER.
+ * They need to handle either NUL-terminated strings or memory lines.
+ */
+
+/* Function:  esl_msa_SetName()
+ * Synopsis:  Set name of an MSA.
+ *
+ * Purpose:   Sets the name of the msa <msa> to string <s>,
+ *            of length <n>. 
+ *            
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ *
+ *            <s> can also be <NULL> because the MSA name is an
+ *            optional field. (In this case, <n> is irrelevant and
+ *            ignored.)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_msa_SetName(ESL_MSA *msa, const char *s, esl_pos_t n)
+{
+  if (msa->name) free(msa->name); 
+  if (n > 0) return esl_memstrdup(s,  n, &(msa->name)); 
+  else       return esl_strdup(   s, -1, &(msa->name)); 
+}
+
+
+/* Function:  esl_msa_SetDesc()
+ * Synopsis:  Set the description line of an MSA.
+ *
+ * Purpose:   Sets the optional description line of the msa <msa> to
+ *            string <s> of length <n>.
+ *            
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ * 
+ *            <s> can also be <NULL> because the MSA description is an
+ *            optional field. (In this case, <n> is irrelevant and
+ *            ignored.)
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_msa_SetDesc(ESL_MSA *msa, const char *s, esl_pos_t n)
+{
+  if (msa->desc) free(msa->desc);
+  if (n > 0) return esl_memstrdup(s,  n, &(msa->desc)); 
+  else       return esl_strdup(   s, -1, &(msa->desc)); 
+}
+
+/* Function:  esl_msa_SetAccession()
+ * Synopsis:  Set the accession field of an MSA.
+ *
+ * Purpose:   Sets accession field of the msa <msa> to string <s> of
+ *            length <n>.
+ *            
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ *
+ *            <s> can also be <NULL> because the MSA accession is an
+ *            optional field. (In this case, <n> is irrelevant and
+ *            ignored.)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_msa_SetAccession(ESL_MSA *msa, const char *s, esl_pos_t n)
+{
+  if (msa->acc) free(msa->acc);
+  if (n > 0) return esl_memstrdup(s,  n, &(msa->acc)); 
+  else       return esl_strdup(   s, -1, &(msa->acc)); 
+}
+
+
+/* Function:  esl_msa_SetAuthor()
+ * Synopsis:  Set the author string in an MSA.
+ *
+ * Purpose:   Sets the author string in <msa> to string <s> of
+ *            length <n>.
+ *            
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ *
+ *            <s> can also be <NULL> because the MSA author is an
+ *            optional field. (In this case, <n> is irrelevant and
+ *            ignored.)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_msa_SetAuthor(ESL_MSA *msa, const char *s, esl_pos_t n)
+{
+  if (msa->au) free(msa->au);
+  if (n > 0) return esl_memstrdup(s,  n, &(msa->au)); 
+  else       return esl_strdup(   s, -1, &(msa->au)); 
+}
+
+
+/* Function:  esl_msa_SetSeqName()
+ * Synopsis:  Set an individual sequence name in an MSA.
+ *
+ * Purpose:   Set the name of sequence number <idx> in <msa>
+ *            to string <s> of length <n>.
+ *  
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINCONCEIVABLE> on coding errors.
+ *
+ * Note:      msa->sqname[] is not optional, so we may
+ *            rely on it already being allocated for 
+ *            i=0..sqalloc-1.
+ */
+int
+esl_msa_SetSeqName(ESL_MSA *msa, int idx, const char *s, esl_pos_t n)
+{
+  if (idx  >= msa->sqalloc) ESL_EXCEPTION(eslEINCONCEIVABLE, "no such sequence %d (only %d allocated)", idx, msa->sqalloc);
+  if (s == NULL)            ESL_EXCEPTION(eslEINCONCEIVABLE, "seq names are mandatory; NULL is not a valid name");
+
+  if (msa->sqname[idx]) free(msa->sqname[idx]);
+  if (n > 0) return esl_memstrdup(s,  n, &(msa->sqname[idx])); 
+  else       return esl_strdup(   s, -1, &(msa->sqname[idx])); 
+}
+
+/* Function:  esl_msa_SetSeqAccession()
+ * Synopsis:  Sets individual sequence accession in an MSA.
+ *
+ * Purpose:   Set the accession of sequence number <idx> in <msa> to
+ *            string <s> of length <n>.
+ *  
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ *
+ *            <s> can also be <NULL> because a seq accession is an
+ *            optional field. (In this case, <n> is irrelevant and
+ *            ignored.)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINCONCEIVABLE> on coding errors.
+ */
+int 
+esl_msa_SetSeqAccession(ESL_MSA *msa, int idx, const char *s, esl_pos_t n)
+{
+  int     i;
+  int     status;
+
+  if (idx  >= msa->sqalloc) ESL_EXCEPTION(eslEINCONCEIVABLE, "no such sequence %d (only %d allocated)", idx, msa->sqalloc);
+
+  if (msa->sqacc && msa->sqacc[idx]) { free(msa->sqacc[idx]); msa->sqacc[idx] = NULL; }
+
+  /* erasure case */
+  if (! s) {				
+    for (i = 0; i < msa->sqalloc; i++) if (msa->sqacc[idx]) break;
+    if (i == msa->sqalloc) { free(msa->sqacc); msa->sqacc = NULL; }
+    return eslOK;
+  }
+
+  /* Allocate/initialize the optional sqacc array, if it's not already done: */
+  if (! msa->sqacc) {
+    ESL_ALLOC(msa->sqacc, sizeof(char *) * msa->sqalloc);
+    for (i = 0; i < msa->sqalloc; i++) msa->sqacc[i] = NULL;
+  } 
+
+  if (n > 0) status = esl_memstrdup(s,  n, &(msa->sqacc[idx])); 
+  else       status = esl_strdup(   s, -1, &(msa->sqacc[idx])); 
+
+  return status;
+  
+ ERROR:
+  return status;
+}
+  
+/* Function:  esl_msa_SetSeqDescription()
+ * Synopsis:  Sets individual sequence description in an MSA.
+ *
+ * Purpose:   Set the description of sequence number <idx> in <msa> to
+ *             string <s> of length <n>.
+ *  
+ *            If <s> is a NUL-terminated string, <n> is optional; if
+ *            the length is unknown, pass <n=-1>. <s> may also be a
+ *            memory line, non-NUL terminated, in which case <n> is
+ *            required.
+ *
+ *            <s> can also be <NULL> because a seq accession is an
+ *            optional field. (In this case, <n> is irrelevant and
+ *            ignored.)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINCONCEIVABLE> on coding error
+ */
+int
+esl_msa_SetSeqDescription(ESL_MSA *msa, int idx, const char *s, esl_pos_t n)
+{
+  int     i;
+  int     status;
+
+  if (idx  >= msa->sqalloc) ESL_EXCEPTION(eslEINCONCEIVABLE, "no such sequence %d (only %d allocated)", idx, msa->sqalloc);
+
+  if (msa->sqdesc && msa->sqdesc[idx]) { free(msa->sqdesc[idx]); msa->sqdesc[idx] = NULL; }
+
+  /* erasure case */
+  if (! s) {				
+    for (i = 0; i < msa->sqalloc; i++) if (msa->sqdesc[idx]) break;
+    if (i == msa->sqalloc) { free(msa->sqdesc); msa->sqdesc = NULL; }
+    return eslOK;
+  }
+
+  /* Allocate/initialize the optional sqdesc array, if it's not already done: */
+  if (msa->sqdesc == NULL) {
+    ESL_ALLOC(msa->sqdesc, sizeof(char *) * msa->sqalloc);
+    for (i = 0; i < msa->sqalloc; i++) msa->sqdesc[i] = NULL;
+  } 
+
+  if (n > 0) status = esl_memstrdup(s,  n, &(msa->sqdesc[idx])); 
+  else       status = esl_strdup(   s, -1, &(msa->sqdesc[idx])); 
+
+ ERROR:
+  return status;
+}
+
+
+
+/* Function:  esl_msa_SetDefaultWeights()
+ * Synopsis:  Set all sequence weights to default 1.0.
+ *
+ * Purpose:   Set all the sequence weights in <msa> to default,
+ *            1.0. Drop the <eslMSA_HASWGTS> flag in <msa->flags>.
+ *            
+ *            The <ESL_MSA> data structure has its <wgt> values
+ *            initialized to -1.0, by create and expand functions, as
+ *            a special value for "unset yet". File format parsers use
+ *            this to tell when a weight is mistakenly set twice, or
+ *            not at all. However, when an <msa> is used, you're
+ *            allowed to assume that <wgt> is valid even if the
+ *            <eslMSA_HASWGTS> flag is down. So all creators of new
+ *            MSAs (file format parsers, for example) must assure that
+ *            <msa->wgt> is set correctly, even if the file format
+ *            doesn't include weights. This function gives parsers
+ *            (and other MSA creators) a quick way to do this.
+ */
+int
+esl_msa_SetDefaultWeights(ESL_MSA *msa)
+{
+  int idx;
+
+  for (idx = 0; idx < msa->nseq; idx++) 
+    msa->wgt[idx] = 1.0;
+  msa->flags &= ~eslMSA_HASWGTS;
+  return eslOK;
+}
+
+
+/* Function:  esl_msa_FormatName()
+ * Synopsis:  Format name of an MSA, printf()-style.
+ *
+ * Purpose:   Sets the name of the msa <msa> using <name>, where 
+ *            <name> is a <printf()>-style format with
+ *            arguments; for example, <esl_msa_FormatName(msa, "random%d", i)>.
+ *            
+ *            <name> can be <NULL>, because the MSA name is an
+ *            optional field; in which case any existing name in
+ *            the <msa> is erased.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_msa_FormatName(ESL_MSA *msa, const char *name, ...)
+{
+  va_list ap;
+  int     status;
+
+  if (msa->name != NULL) free(msa->name); 
+  if (name      == NULL) { msa->name = NULL; return eslOK; }
+
+  va_start(ap, name);
+  status = esl_vsprintf(&(msa->name), name, &ap);
+  va_end(ap);
+  return status;
+}
+
+
+/* Function:  esl_msa_FormatDesc()
+ * Synopsis:  Format the description line of an MSA, printf()-style.
+ *
+ * Purpose:   Format the description line of the msa <msa> using <desc>.
+ *            where <desc> is a <printf()>-style format with
+ *            arguments.
+ *            For example, <esl_msa_FormatDesc(msa, "sample %d", i)>.
+ *
+ *            As a special case, <desc> may be <NULL>, to facilitate
+ *            handling of optional annotation.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_msa_FormatDesc(ESL_MSA *msa, const char *desc, ...)
+{
+  va_list ap;
+  int     status;
+
+  if (msa->desc != NULL) free(msa->desc);
+  va_start(ap, desc);
+  status = esl_vsprintf(&(msa->desc), desc, &ap);
+  va_end(ap);
+  return status;
+
+}
+
+/* Function:  esl_msa_FormatAccession()
+ * Synopsis:  Format the accession number of an MSA, printf()-style.
+ *
+ * Purpose:   Sets accession number of the msa <msa> using <acc>, 
+ *            where <acc> is a <printf()>-style format with arguments.
+ *            For example, <esl_msa_FormatAccession(msa, "PF%06d", i)>.
+ *
+ *            As a special case, <acc> may be <NULL>, to facilitate
+ *            handling of optional annotation.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_msa_FormatAccession(ESL_MSA *msa, const char *acc, ...)
+{
+  va_list ap;
+  int     status;
+
+  if (msa->acc != NULL) free(msa->acc);
+  va_start(ap, acc);
+  status = esl_vsprintf(&(msa->acc), acc, &ap);
+  va_end(ap);
+  return status;
+}
+
+
+/* Function:  esl_msa_FormatAuthor()
+ * Synopsis:  Format the author string in an MSA, printf()-style.
+ *
+ * Purpose:   Sets the author string in <msa>, using an <author> string
+ *            and arguments in same format as <printf()> would take.
+ *            
+ *            As a special case, <author> may be <NULL>, to facilitate
+ *            handling of optional annotation.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_msa_FormatAuthor(ESL_MSA *msa, const char *author, ...)
+{
+  va_list ap;
+  int     status;
+
+  if (msa->au != NULL) free(msa->au);
+  va_start(ap, author);
+  status = esl_vsprintf(&(msa->au), author, &ap);
+  va_end(ap);
+  return status;
+}
+
+
+/* Function:  esl_msa_FormatSeqName()
+ * Synopsis:  Formats an individual sequence name in an MSA, printf()-style.
+ *
+ * Purpose:   Set the name of sequence number <idx> in <msa>
+ *            to <name>, where <name> is a <printf()>
+ *            style format and arguments.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <name> is <NULL>;
+ *            <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ *
+ * Note:      msa->sqname[] is not optional, so we may
+ *            rely on it already being allocated for 
+ *            i=0..sqalloc-1.
+ */
+int
+esl_msa_FormatSeqName(ESL_MSA *msa, int idx, const char *name, ...)
+{
+  va_list ap;
+  int     status;
+
+  if (idx  >= msa->sqalloc) ESL_EXCEPTION(eslEINVAL, "no such sequence %d (only %d allocated)", idx, msa->sqalloc);
+  if (name == NULL)         ESL_EXCEPTION(eslEINVAL, "seq names are mandatory; NULL is not a valid name");
+
+  if (msa->sqname[idx] != NULL) free(msa->sqname[idx]);
+
+  va_start(ap, name);
+  status = esl_vsprintf(&(msa->sqname[idx]), name, &ap);
+  va_end(ap);
+  return status;
+}
+
+/* Function:  esl_msa_FormatSeqAccession()
+ * Synopsis:  Format individual sequence accession in an MSA, printf()-style.
+ *
+ * Purpose:   Set the accession of sequence number <idx> in <msa> to
+ *            <acc>, where <acc> is a <printf()> style format and
+ *            arguments.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int 
+esl_msa_FormatSeqAccession(ESL_MSA *msa, int idx, const char *acc, ...)
+{
+  va_list ap;
+  int     i;
+  int     status;
+
+  if (idx  >= msa->sqalloc) ESL_EXCEPTION(eslEINVAL, "no such sequence %d (only %d allocated)", idx, msa->sqalloc);
+  if (acc == NULL) {
+    if (msa->sqacc != NULL) { free(msa->sqacc[idx]); msa->sqacc[idx] = NULL; }
+    return eslOK;
+  }
+
+  /* Allocate/initialize the optional sqacc array, if it's not already done: */
+  if (msa->sqacc == NULL) {
+    ESL_ALLOC(msa->sqacc, sizeof(char *) * msa->sqalloc);
+    for (i = 0; i < msa->sqalloc; i++) msa->sqacc[i] = NULL;
+  } 
+  if (msa->sqacc[idx] != NULL) free(msa->sqacc[idx]);
+
+  va_start(ap, acc);
+  status = esl_vsprintf(&(msa->sqacc[idx]), acc, &ap);
+  va_end(ap);
+  return status;
+
+ ERROR:
+  return status;
+}
+  
+/* Function:  esl_msa_FormatSeqDescription()
+ * Synopsis:  Formats individual sequence description in an MSA, printf()-style.
+ *
+ * Purpose:   Set the description of sequence number <idx> in <msa> to
+ *            <desc>, where <desc> may be a <printf()> style format and
+ *            arguments.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslESYS> if a <*printf()> library call fails.
+ */
+int
+esl_msa_FormatSeqDescription(ESL_MSA *msa, int idx, const char *desc, ...)
+{
+  va_list ap;
+  int     i;
+  int     status;
+
+  if (idx  >= msa->sqalloc) ESL_EXCEPTION(eslEINVAL, "no such sequence %d (only %d allocated)", idx, msa->sqalloc);
+  if (desc == NULL) {
+    if (msa->sqdesc != NULL) { free(msa->sqdesc[idx]); msa->sqdesc[idx] = NULL; }
+    return eslOK;
+  }
+
+  /* Allocate/initialize the optional sqdesc array, if it's not already done: */
+  if (msa->sqdesc == NULL) {
+    ESL_ALLOC(msa->sqdesc, sizeof(char *) * msa->sqalloc);
+    for (i = 0; i < msa->sqalloc; i++) msa->sqdesc[i] = NULL;
+  } 
+  if (msa->sqdesc[idx] != NULL) free(msa->sqdesc[idx]);
+
+  va_start(ap, desc);
+  status = esl_vsprintf(&(msa->sqdesc[idx]), desc, &ap);
+  va_end(ap);
+  return status;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_AddComment()
+ * Synopsis:  Add an unparsed command to an <ESL_MSA>
+ *
+ * Purpose:   Add an (unparsed) comment line to the MSA structure, 
+ *            allocating as necessary.
+ *
+ * Args:      msa - a multiple alignment
+ *            p   - comment line to add
+ *            n   - length of <p>, or -1 if <p> is a NUL-terminated string and length is unknown.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_AddComment(ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  int   status;
+
+  if (n == -1) n = strlen(p);
+
+  /* If this is our first recorded comment, we need to allocate;
+   * and if we've filled available space, we need to reallocate.
+   */
+  if (msa->comment == NULL) {
+    ESL_ALLOC(msa->comment, sizeof(char *) * 16);
+    msa->alloc_ncomment = 16;
+  }
+  if (msa->ncomment == msa->alloc_ncomment) {
+    ESL_REALLOC(msa->comment, sizeof(char *) * msa->alloc_ncomment * 2);
+    msa->alloc_ncomment *= 2;
+  }
+  if ((status = esl_memstrdup(p, n, &(msa->comment[msa->ncomment]))) != eslOK) goto ERROR;
+  msa->ncomment++;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_msa_AddGF()
+ * Synopsis:  Add an unparsed #=GF markup line to an <ESL_MSA>
+ *
+ * Purpose:   Add an unparsed \verb+#=GF+ markup line to the MSA, 
+ *            allocating as necessary. <tag> is the GF markup 
+ *            tag; <value> is the text associated w/ that tag.
+ *
+ * Args:      msa    - a multiple alignment
+ *            tag    - markup tag 
+ *            taglen - length of <tag>; or -1 if <tag> is a string of unknown length
+ *            value  - markup text
+ *            vlen   - length of <value>; or -1 if <value> is a string of unknown length
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_AddGF(ESL_MSA *msa, char *tag, esl_pos_t taglen, char *value, esl_pos_t vlen)
+{  
+  int   n;
+  int   status;
+
+  if (taglen == -1) taglen = strlen(tag);
+  if (vlen   == -1) vlen   = strlen(value);
+
+  /* Initialize or grow the allocation? */
+  if (msa->ngf == msa->alloc_ngf) {
+    n = (msa->alloc_ngf == 0 ? 16 : msa->alloc_ngf * 2);
+    ESL_REALLOC(msa->gf_tag, sizeof(char *) * n);
+    ESL_REALLOC(msa->gf,     sizeof(char *) * n);
+    msa->alloc_ngf = n;
+  }
+
+  if ((status = esl_memstrdup(tag,   taglen, &(msa->gf_tag[msa->ngf]))) != eslOK) goto ERROR;
+  if ((status = esl_memstrdup(value, vlen,   &(msa->gf[msa->ngf])))     != eslOK) goto ERROR;
+  msa->ngf++;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_msa_AddGS()
+ * Synopsis:  Add an unparsed #=GS markup line to an <ESL_MSA>
+ *
+ * Purpose:   Add an unparsed \verb+#=GS+ markup line to the MSA, 
+ *            allocating as necessary. It's possible that we 
+ *            could get more than one of the same type of GS 
+ *            tag per sequence; for example, "DR PDB;" structure 
+ *            links in Pfam.  Hack: handle these by appending to 
+ *            the string, in a \verb+\n+ separated fashion.
+ *
+ * Args:      msa    - multiple alignment structure
+ *            tag    - markup tag (e.g. "AC")
+ *            taglen - length of <tag>; or -1 if <tag> is a string of unknown length
+ *            sqidx  - index of sequence to assoc markup with (0..nseq-1)
+ *            value  - markup (e.g. "P00666")
+ *            vlen   - length of <value>; or -1 if <value> is string of unknown length
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_AddGS(ESL_MSA *msa, char *tag, esl_pos_t taglen, int sqidx, char *value, esl_pos_t vlen)
+{
+  int   tagidx;
+  int   i;
+  int   status;
+
+  if (taglen == -1) taglen = strlen(tag);
+  if (vlen   == -1) vlen   = strlen(value);
+
+  /* first GS tag? init&allocate  */
+  if (msa->gs_tag == NULL)	
+    {
+#ifdef eslAUGMENT_KEYHASH
+      msa->gs_idx = esl_keyhash_Create();
+      status = esl_keyhash_Store(msa->gs_idx, tag, taglen, &tagidx);
+      if (status != eslOK && status != eslEDUP) return status;
+      ESL_DASSERT1((tagidx == 0));
+#else
+      tagidx = 0;
+#endif
+      ESL_ALLOC(msa->gs_tag, sizeof(char *));  /* one at a time. */
+      ESL_ALLOC(msa->gs,     sizeof(char **));
+      ESL_ALLOC(msa->gs[0],  sizeof(char *) * msa->sqalloc);
+      for (i = 0; i < msa->sqalloc; i++)
+	msa->gs[0][i] = NULL;
+    }
+  else 
+    {
+      /* Get a tagidx for this GS tag.
+       * tagidx < ngs; we already saw this tag;
+       * tagidx == ngs; this is a new one.
+       */
+#ifdef eslAUGMENT_KEYHASH
+      status = esl_keyhash_Store(msa->gs_idx, tag, taglen, &tagidx);
+      if (status != eslOK && status != eslEDUP) return status;
+#else
+      for (tagidx = 0; tagidx < msa->ngs; tagidx++)
+	if (esl_memstrcmp(tag, taglen, msa->gs_tag[tagidx])) break;
+#endif
+      /* Reallocation (in blocks of 1) */
+      if (tagidx == msa->ngs ) 
+	{
+	  ESL_REALLOC(msa->gs_tag, (msa->ngs+1) * sizeof(char *));
+	  ESL_REALLOC(msa->gs,     (msa->ngs+1) * sizeof(char **));
+	  msa->gs[tagidx] = NULL;
+	  ESL_ALLOC(msa->gs[tagidx], sizeof(char *) * msa->sqalloc);
+	  for (i = 0; i < msa->sqalloc; i++) 
+	    msa->gs[tagidx][i] = NULL;
+	}
+    }
+
+  /* Store the tag, if it's new.
+   */
+  if (tagidx == msa->ngs) 
+    {
+      if ((status = esl_memstrdup(tag, taglen, &(msa->gs_tag[tagidx]))) != eslOK) goto ERROR;
+      msa->ngs++;
+    }
+  
+  /* Store the annotation on the sequence.
+   * If seq is unannotated, dup the value; if
+   * seq already has a GS annotation, cat a \n, then cat the value.
+   */
+  if (msa->gs[tagidx][sqidx] == NULL)
+    {
+      if ((status = esl_memstrdup(value, vlen, &(msa->gs[tagidx][sqidx]))) != eslOK) goto ERROR;
+    }
+  else 
+    {			
+      esl_pos_t n1,n2;
+      n1 = strlen(msa->gs[tagidx][sqidx]);
+      n2 = (vlen == -1 ? strlen(value) : vlen);
+      ESL_REALLOC(msa->gs[tagidx][sqidx], sizeof(char) * (n1+n2+2)); /* +2 for \n, \0 */
+      msa->gs[tagidx][sqidx][n1] = '\n';
+      memcpy(msa->gs[tagidx][sqidx]+n1+1, value, n2);
+      msa->gs[tagidx][sqidx][n1+n2+1] = '\0';
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+} 
+
+/* Function:  esl_msa_AppendGC()
+ * Synopsis:  Add an unparsed #=GC markup line to an <ESL_MSA>
+ *
+ * Purpose:   Add an unparsed \verb+#=GC+ markup line to the MSA 
+ *            structure, allocating as necessary. When called 
+ *            multiple times for the same tag, appends value 
+ *            strings together -- used when parsing multiblock 
+ *            alignment files, for example.
+ *
+ * Args:      msa   - multiple alignment structure
+ *            tag   - markup tag (e.g. "CS")
+ *            value - markup, one char per aligned column      
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_AppendGC(ESL_MSA *msa, char *tag, char *value)
+{
+  int   tagidx;
+  int   status;
+  void *p;
+
+  /* Is this an unparsed tag name that we recognize?
+   * If not, handle adding it to index, and reallocating
+   * as needed.
+   */
+  if (msa->gc_tag == NULL)	/* first tag? init&allocate  */
+    {
+#ifdef eslAUGMENT_KEYHASH
+      msa->gc_idx = esl_keyhash_Create();
+      status = esl_keyhash_Store(msa->gc_idx, tag, -1, &tagidx);      
+      if (status != eslOK && status != eslEDUP) return status;
+      ESL_DASSERT1((tagidx == 0));
+#else
+      tagidx = 0;
+#endif
+      ESL_ALLOC(msa->gc_tag, sizeof(char **));
+      ESL_ALLOC(msa->gc,     sizeof(char **));
+      msa->gc[0]  = NULL;
+    }
+  else
+    {			/* new tag? */
+      /* get tagidx for this GC tag. existing tag: <ngc; new: == ngc. */
+#ifdef eslAUGMENT_KEYHASH
+      status = esl_keyhash_Store(msa->gc_idx, tag, -1, &tagidx);
+      if (status != eslOK && status != eslEDUP) goto ERROR;
+#else
+      for (tagidx = 0; tagidx < msa->ngc; tagidx++)
+	if (strcmp(msa->gc_tag[tagidx], tag) == 0) break;
+#endif
+      /* Reallocate, in block of one tag at a time
+       */
+      if (tagidx == msa->ngc)
+	{
+	  ESL_RALLOC(msa->gc_tag, p, (msa->ngc+1) * sizeof(char **));
+	  ESL_RALLOC(msa->gc,     p, (msa->ngc+1) * sizeof(char **));
+	  msa->gc[tagidx] = NULL;
+	}
+    }
+  /* new tag? store it.
+   */
+  if (tagidx == msa->ngc) 
+    {
+      if ((status = esl_strdup(tag, -1, &(msa->gc_tag[tagidx]))) != eslOK) goto ERROR;
+      msa->ngc++;
+    }
+  return (esl_strcat(&(msa->gc[tagidx]), -1, value, -1));
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_AppendGR()
+ * Synopsis:  Add an unparsed #=GR markup line to an <ESL_MSA>
+ *
+ * Purpose:   Add an unparsed \verb+#=GR+ markup line to the MSA structure, 
+ *            allocating as necessary.
+ *              
+ *            When called multiple times for the same tag, appends 
+ *            value strings together -- used when parsing multiblock 
+ *            alignment files, for example.
+ *
+ * Args:      msa    - multiple alignment structure
+ *            tag    - markup tag (e.g. "SS")
+ *            sqidx  - index of seq to assoc markup with (0..nseq-1)
+ *            value  - markup, one char per aligned column      
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_AppendGR(ESL_MSA *msa, char *tag, int sqidx, char *value)
+{
+  void *p;
+  int tagidx;
+  int i;
+  int status;
+
+  if (msa->gr_tag == NULL)	/* first tag? init&allocate  */
+    {
+#ifdef eslAUGMENT_KEYHASH
+      msa->gr_idx = esl_keyhash_Create();
+      status = esl_keyhash_Store(msa->gr_idx, tag, -1, &tagidx);
+      if (status != eslOK && status != eslEDUP) return status;
+      ESL_DASSERT1((tagidx == 0));
+#else
+      tagidx = 0;
+#endif
+      ESL_ALLOC(msa->gr_tag, sizeof(char *));
+      ESL_ALLOC(msa->gr,     sizeof(char **));
+      ESL_ALLOC(msa->gr[0],  sizeof(char *) * msa->sqalloc);
+      for (i = 0; i < msa->sqalloc; i++) 
+	msa->gr[0][i] = NULL;
+    }
+  else 
+    {
+      /* get tagidx for this GR tag. existing<ngr; new=ngr.
+       */
+#ifdef eslAUGMENT_KEYHASH
+      status = esl_keyhash_Store(msa->gr_idx, tag, -1, &tagidx);
+      if (status != eslOK && status != eslEDUP) return status;
+#else
+      for (tagidx = 0; tagidx < msa->ngr; tagidx++)
+	if (strcmp(msa->gr_tag[tagidx], tag) == 0) break;
+#endif
+      /* if a new tag, realloc for it */      
+      if (tagidx == msa->ngr)
+	{ 
+	  ESL_RALLOC(msa->gr_tag, p, (msa->ngr+1) * sizeof(char *));
+	  ESL_RALLOC(msa->gr,     p, (msa->ngr+1) * sizeof(char **));
+	  ESL_ALLOC(msa->gr[msa->ngr], sizeof(char *) * msa->sqalloc);
+	  for (i = 0; i < msa->sqalloc; i++) 
+	    msa->gr[msa->ngr][i] = NULL;
+	}
+    }
+
+  if (tagidx == msa->ngr) 
+    {
+      if ((status = esl_strdup(tag, -1, &(msa->gr_tag[tagidx]))) != eslOK) goto ERROR;
+      msa->ngr++;
+    }
+  return (esl_strcat(&(msa->gr[tagidx][sqidx]), -1, value, -1));
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_msa_CheckUniqueNames()
+ * Synopsis:  Check if all seq names are unique.
+ *
+ * Purpose:   Check whether all the sequence names in <msa>
+ *            are unique; if so, return <eslOK>, and if not,
+ *            return <eslFAIL>. 
+ * 
+ *            Stockholm files require names to be unique.  This
+ *            function lets us check whether we need to munge seqnames
+ *            before writing a Stockholm file.
+ *            
+ *            The check uses a keyhash, so it's efficient.
+ *
+ * Args:      msa   - alignment
+ *
+ * Returns:   <eslOK> if names are unique.
+ *            <eslFAIL> if not.
+ *
+ * Throws:    <eslMEM> on allocation failure.
+ */
+int
+esl_msa_CheckUniqueNames(const ESL_MSA *msa)
+{
+  ESL_KEYHASH *kh     = NULL;
+  int          idx;
+  int          status = TRUE;
+
+  if  ((kh = esl_keyhash_Create()) == NULL) { status = eslEMEM; goto ERROR; }
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      status = esl_keyhash_Store(kh, msa->sqname[idx], -1, NULL);
+      if      (status == eslEDUP) { status = eslFAIL; break; }
+      else if (status != eslOK)   goto ERROR;
+    }
+  esl_keyhash_Destroy(kh);
+  return status;
+
+ ERROR:
+  if (kh) esl_keyhash_Destroy(kh);
+  return status;
+
+}
+
+/* msa_set_seq_ss() 
+ *
+ * Set the secondary structure annotation for sequence number
+ * <seqidx> in an alignment <msa> by copying the string <ss>.
+ *
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEMEM> on allocation failure.
+ */
+static int
+msa_set_seq_ss(ESL_MSA *msa, int seqidx, const char *ss)
+{
+  int status;
+  int i;
+
+  if (msa->ss == NULL) 
+    {
+      ESL_ALLOC(msa->ss, sizeof(char *) * msa->sqalloc);
+      for (i = 0; i < msa->sqalloc; i++) msa->ss[i] = NULL;
+    }
+  if (msa->ss[seqidx] != NULL) free(msa->ss[seqidx]);
+  return (esl_strdup(ss, -1, &(msa->ss[seqidx])));
+
+ ERROR:
+  return status;
+}
+
+/* msa_set_seq_sa() 
+ *
+ * Set the surface accessibility annotation for sequence number
+ * <seqidx> in an alignment <msa> by copying the string <sa>.
+ *
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEMEM> on allocation failure.
+ */
+static int
+msa_set_seq_sa(ESL_MSA *msa, int seqidx, const char *sa)
+{
+  int status;
+  int i;
+
+  if (msa->sa == NULL) 
+    {
+      ESL_ALLOC(msa->sa, sizeof(char *) * msa->sqalloc);
+      for (i = 0; i < msa->sqalloc; i++) msa->sa[i] = NULL;
+    }
+  if (msa->sa[seqidx] != NULL) free(msa->sa[seqidx]);
+  return (esl_strdup(sa, -1, &(msa->sa[seqidx])));
+
+ ERROR:
+  return status;
+}
+
+/* msa_set_seq_pp() 
+ *
+ * Set the posterior probability annotation for sequence number
+ * <seqidx> in an alignment <msa> by copying the string <pp>.
+ *
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEMEM> on allocation failure.
+ */
+static int
+msa_set_seq_pp(ESL_MSA *msa, int seqidx, const char *pp)
+{
+  int status;
+  int i;
+
+  if (msa->pp == NULL) 
+    {
+      ESL_ALLOC(msa->pp, sizeof(char *) * msa->sqalloc);
+      for (i = 0; i < msa->sqalloc; i++) msa->pp[i] = NULL;
+    }
+  if (msa->pp[seqidx] != NULL) free(msa->pp[seqidx]);
+  return (esl_strdup(pp, -1, &(msa->pp[seqidx])));
+
+ ERROR:
+  return status;
+}
+/*---------- end of ESL_MSA field setting/checking --------------*/
+
+
+
+/*****************************************************************
+ *# 4. Miscellaneous functions for manipulating MSAs
+ *****************************************************************/
+
+static int64_t msa_get_rlen(const ESL_MSA *msa, int seqidx);
+static int msa_get_alibounds(const ESL_MSA *msa, int seqidx, int64_t *first, int64_t *last);
+
+/* Function:  esl_msa_ReasonableRF()
+ * Synopsis:  Determine a reasonable #=RF line marking "consensus" columns.
+ *
+ * Purpose:   Define an <rfline> for the multiple alignment <msa> that
+ *            marks consensus columns with an 'x' (or the consensus
+ *            letter if useconsseq is TRUE), and non-consensus columns
+ *            with a '.'.
+ *            
+ *            Consensus columns are defined as columns with fractional
+ *            occupancy of $\geq$ <symfrac> in residues. For example,
+ *            if <symfrac> is 0.7, columns containing $\geq$ 70\%
+ *            residues are assigned as 'x' (or consensus letter) in the
+ *            <rfline>, roughly speaking. "Roughly speaking", because the
+ *            fractional occupancy is in fact calculated as a weighted
+ *            frequency using sequence weights in <msa->wgt>, and because
+ *            missing data symbols are ignored in order to be able to
+ *            deal with sequence fragments. 
+ *            
+ *            The greater <symfrac> is, the more stringent the
+ *            definition, and the fewer columns will be defined as
+ *            consensus. <symfrac=0> will define all columns as
+ *            consensus. <symfrac=1> will only define a column as
+ *            consensus if it contains no gap characters at all.
+ *            
+ *            If the caller wants to designate any sequences as
+ *            fragments, it must convert all leading and trailing gaps
+ *            to the missing data symbol '~'.
+ *
+ *            For text mode alignments, any alphanumeric character is
+ *            considered to be a residue, and any non-alphanumeric
+ *            character is considered to be a gap.
+ *            
+ *            The <rfline> is a NUL-terminated string, indexed
+ *            <0..alen-1>.
+ *
+ *            The <rfline> result can be <msa->rf>, if the caller
+ *            wants to set the <msa's> own RF line; or it can be any
+ *            alternative storage provided by the caller. In either
+ *            case, the caller must provide allocated space for at
+ *            least <msa->alen+1> chars.
+ *            
+ * Args:      msa          - MSA to define a consensus RF line for
+ *            symfrac      - threshold for defining consensus columns
+ *            useconsseq   - if FALSE, use x for a consensus position; else use the consensus letter
+ *            rfline       - RESULT: string containing a letter for consensus position, . for not
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Xref:      HMMER p7_Fastmodelmaker() uses an essentially identical
+ *            calculation to define model architecture, and could be
+ *            rewritten now to use this function. 
+ *            
+ *            A2M format alignment output uses this to define
+ *            consensus columns when #=RF annotation isn't available.
+ */
+int
+esl_msa_ReasonableRF(ESL_MSA *msa, double symfrac, int useconsseq, char *rfline)
+{
+  int status;
+  int    apos;
+  int    idx;
+  double r;
+  double totwgt;
+  float *counts;
+
+  if (useconsseq)
+    ESL_ALLOC(counts, msa->abc->K * sizeof(float));
+
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->flags & eslMSA_DIGITAL)
+  {
+
+      for (apos = 1; apos <= msa->alen; apos++) 
+      {
+        r = totwgt = 0.;
+        esl_vec_FSet(counts, msa->abc->K, 0.0);
+        for (idx = 0; idx < msa->nseq; idx++)
+        {
+          if  (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos]))
+          {
+            r += msa->wgt[idx]; totwgt += msa->wgt[idx];
+            if (useconsseq) esl_abc_FCount(msa->abc, counts, msa->ax[idx][apos], msa->wgt[idx]);
+          }
+          else if  (esl_abc_XIsGap(msa->abc,     msa->ax[idx][apos]))            totwgt += msa->wgt[idx];
+          else if  (esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]))            continue;
+        }
+        if (r > 0. && r / totwgt >= symfrac) {
+          if (useconsseq) rfline[apos-1] = msa->abc->sym[esl_vec_FArgMax(counts, msa->abc->K)];
+          else            rfline[apos-1] = 'x';
+        }
+        else              rfline[apos-1] = '.';
+
+      }
+  }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL))
+  {
+      for (apos = 0; apos < msa->alen; apos++) 
+      {
+        r = totwgt = 0.;
+        for (idx = 0; idx < msa->nseq; idx++)
+        {
+            if    (isalpha(msa->aseq[idx][apos]))
+            {
+              r += msa->wgt[idx]; totwgt += msa->wgt[idx];
+              if (useconsseq)   esl_abc_FCount(msa->abc, counts, msa->abc->inmap[ (int) msa->aseq[idx][apos] ], msa->wgt[idx]);
+            }
+            else          totwgt += msa->wgt[idx];
+        }
+        if (r > 0. && r / totwgt >= symfrac) {
+          if (useconsseq) rfline[apos-1] = msa->abc->sym[esl_vec_FArgMax(counts, msa->abc->K)];
+          else            rfline[apos] = 'x';
+        }
+        else              rfline[apos] = '.';
+      }
+  }
+
+  rfline[msa->alen] = '\0';
+  return eslOK;
+
+ERROR:
+  return status;
+}
+
+
+/* Function:  esl_msa_MarkFragments()
+ * Synopsis:  Heuristically define seq fragments in an alignment.
+ *
+ * Purpose:   Use a heuristic to define sequence fragments (as opposed
+ *            to "full length" sequences) in alignment <msa>.
+ *            
+ *            The rule is that if the range of a sequence in the alignment
+ *            (the number of alignment columns between the first and last
+ *            positions of the sequence) is not greater than <fragthresh>
+ *            times the length of the alignment, the sequence is defined
+ *            as a fragment.
+ *            
+ *            For each fragment, all leading and trailing gap symbols
+ *            (all gaps before the first residue and after the last
+ *            residue) are converted to missing data symbols
+ *            (typically '~', but nonstandard digital alphabets may
+ *            have defined another character).
+ *            
+ *            If <fragthresh> is 0.0, no nonempty sequence is defined
+ *            as a fragment.
+ *            
+ *            If <fragthresh> is 1.0, all sequences are defined as
+ *            fragments.
+ *
+ * Args:      msa        - alignment in which to define and mark seq fragments 
+ *            fragthresh - define frags if seqrange <= fragthresh * alen.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_msa_MarkFragments(ESL_MSA *msa, double fragthresh)
+{
+  int      i;
+  int      pos;
+  int64_t  first;
+  int64_t  last;
+
+
+  for (i = 0; i < msa->nseq; i++)
+  {
+    msa_get_alibounds(msa, i, &first, &last);
+    if ((last-first+1) <= fragthresh * msa->alen)
+    {
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->flags & eslMSA_DIGITAL) {
+        for (pos = 1; pos <= msa->alen; pos++) {
+          if (esl_abc_XIsResidue(msa->abc, msa->ax[i][pos])) break;
+          msa->ax[i][pos] = esl_abc_XGetMissing(msa->abc);
+        }
+        for (pos = msa->alen; pos >= 1; pos--) {
+          if (esl_abc_XIsResidue(msa->abc, msa->ax[i][pos])) break;
+          msa->ax[i][pos] = esl_abc_XGetMissing(msa->abc);
+        }
+      }
+#endif
+      if (! (msa->flags & eslMSA_DIGITAL))
+      {
+        for (pos = 0; pos < msa->alen; pos++) {
+          if (isalnum(msa->aseq[i][pos])) break;
+          msa->aseq[i][pos] = '~';
+        }
+        for (pos = msa->alen-1; pos >= 0; pos--) {
+          if (isalnum(msa->aseq[i][pos])) break;
+          msa->aseq[i][pos] = '~';
+        }
+      }
+    }
+  }
+  return eslOK;
+}
+
+
+/* Function:  esl_msa_SequenceSubset()
+ * Synopsis:  Select subset of sequences into a smaller MSA.
+ *
+ * Purpose:   Given an array <useme> (0..nseq-1) of TRUE/FALSE flags for each
+ *            sequence in an alignment <msa>; create a new alignment containing
+ *            only those seqs which are flagged <useme=TRUE>. Return a pointer
+ *            to this newly allocated alignment through <ret_new>. Caller is
+ *            responsible for freeing it.
+ *            
+ *            The smaller alignment might now contain columns
+ *            consisting entirely of gaps or missing data, depending
+ *            on what sequence subset was extracted. The caller may
+ *            want to immediately call <esl_msa_MinimGaps()> on the
+ *            new alignment to clean this up.
+ *
+ *            Unparsed GS and GR Stockholm annotation that is presumably still
+ *            valid is transferred to the new alignment. Unparsed GC, GF, and
+ *            comments that are potentially invalidated by taking the subset
+ *            of sequences are not transferred to the new MSA.
+ *            
+ *            Weights are transferred exactly. If they need to be
+ *            renormalized to some new total weight (such as the new,
+ *            smaller total sequence number), the caller must do that.
+ *            
+ *            <msa> may be in text mode or digital mode. The new MSA
+ *            in <ret_new> will have the same mode.
+ *
+ * Returns:   <eslOK> on success, and <ret_new> is set to point at a new
+ *            (smaller) alignment.
+ *
+ * Throws:    <eslEINVAL> if the subset has no sequences in it;
+ *            <eslEMEM> on allocation error.
+ *
+ * Xref:      squid's MSASmallerAlignment(), 1999.
+ */
+int
+esl_msa_SequenceSubset(const ESL_MSA *msa, const int *useme, ESL_MSA **ret_new)
+{
+  ESL_MSA *new = NULL;
+  int  nnew;			/* number of seqs in the new MSA */
+  int  oidx, nidx;		/* old, new indices */
+  int  i;
+  int  status;
+  
+  *ret_new = NULL;
+
+  nnew = 0; 
+  for (oidx = 0; oidx < msa->nseq; oidx++)
+    if (useme[oidx]) nnew++;
+  if (nnew == 0) ESL_EXCEPTION(eslEINVAL, "No sequences selected");
+
+  /* Note that the Create() calls allocate exact space for the sequences,
+   * so we will strcpy()/memcpy() into them below.
+   */
+#ifdef eslAUGMENT_ALPHABET
+  if ((msa->flags & eslMSA_DIGITAL) &&
+      (new = esl_msa_CreateDigital(msa->abc, nnew, msa->alen)) == NULL)
+    {status = eslEMEM; goto ERROR; }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL) &&
+      (new = esl_msa_Create(nnew, msa->alen)) == NULL) 
+    {status = eslEMEM; goto ERROR; }
+  if (new == NULL) 
+    {status = eslEMEM; goto ERROR; }
+  
+
+  /* Copy the old to the new */
+  for (nidx = 0, oidx = 0; oidx < msa->nseq; oidx++)
+    if (useme[oidx])
+      {
+#ifdef eslAUGMENT_ALPHABET
+	if (msa->flags & eslMSA_DIGITAL)
+	  memcpy(new->ax[nidx], msa->ax[oidx], sizeof(ESL_DSQ) * (msa->alen+2));
+#endif
+	if (! (msa->flags & eslMSA_DIGITAL))
+	  strcpy(new->aseq[nidx], msa->aseq[oidx]);
+	if ((status = esl_strdup(msa->sqname[oidx], -1, &(new->sqname[nidx])))    != eslOK) goto ERROR;
+
+	new->wgt[nidx] = msa->wgt[oidx];
+      
+	if (msa->sqacc  && msa->sqacc[oidx]  && (status = esl_msa_SetSeqAccession  (new, nidx, msa->sqacc[oidx],  -1)) != eslOK) goto ERROR;
+	if (msa->sqdesc && msa->sqdesc[oidx] && (status = esl_msa_SetSeqDescription(new, nidx, msa->sqdesc[oidx], -1)) != eslOK) goto ERROR;
+	if (msa->ss     && msa->ss[oidx]     && (status = msa_set_seq_ss           (new, nidx, msa->ss[oidx]))         != eslOK) goto ERROR;
+	if (msa->sa     && msa->sa[oidx]     && (status = msa_set_seq_sa           (new, nidx, msa->sa[oidx]))         != eslOK) goto ERROR;
+	if (msa->pp     && msa->pp[oidx]     && (status = msa_set_seq_pp           (new, nidx, msa->pp[oidx]))         != eslOK) goto ERROR;
+
+	/* unparsed annotation */
+	for(i = 0; i < msa->ngs; i++) { if (msa->gs[i] && msa->gs[i][oidx] && (status = esl_msa_AddGS   (new, msa->gs_tag[i], -1, nidx, msa->gs[i][oidx], -1)) != eslOK) goto ERROR; }
+	for(i = 0; i < msa->ngr; i++) { if (msa->gr[i] && msa->gr[i][oidx] && (status = esl_msa_AppendGR(new, msa->gr_tag[i],     nidx, msa->gr[i][oidx]))     != eslOK) goto ERROR; }
+
+	nidx++;
+      }
+
+  new->flags = msa->flags;
+
+  if ((status = esl_strdup(msa->name,           -1, &(new->name)))    != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->desc,           -1, &(new->desc)))    != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->acc,            -1, &(new->acc)))     != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->au,             -1, &(new->au)))      != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->ss_cons, msa->alen, &(new->ss_cons))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->sa_cons, msa->alen, &(new->sa_cons))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->pp_cons, msa->alen, &(new->pp_cons))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->rf,      msa->alen, &(new->rf)))      != eslOK) goto ERROR;
+  if ((status = esl_strdup(msa->mm,      msa->alen, &(new->mm)))      != eslOK) goto ERROR;
+
+  for (i = 0; i < eslMSA_NCUTS; i++) {
+    new->cutoff[i] = msa->cutoff[i];
+    new->cutset[i] = msa->cutset[i];
+  }
+  
+  new->nseq  = nnew;
+  new->sqalloc = nnew;
+
+  /* Since we have a fully constructed MSA, we don't need the
+   * aux info used by parsers.
+   */
+  if (new->sqlen != NULL) { free(new->sqlen);  new->sqlen = NULL; }
+  if (new->sslen != NULL) { free(new->sslen);  new->sslen = NULL; }
+  if (new->salen != NULL) { free(new->salen);  new->salen = NULL; }
+  if (new->pplen != NULL) { free(new->pplen);  new->pplen = NULL; }
+  new->lastidx = -1;
+
+  *ret_new = new;
+  return eslOK;
+
+ ERROR:
+  if (new != NULL) esl_msa_Destroy(new);
+  *ret_new = NULL;
+  return status;
+}
+
+
+/* Function:  esl_msa_ColumnSubset()
+ * Synopsis:  Remove a selected subset of columns from the MSA
+ *
+ * Purpose:   Given an array <useme> (0..alen-1) of TRUE/FALSE flags,
+ *            where TRUE means "keep this column in the new alignment"; 
+ *            remove all columns annotated as FALSE in the <useme> 
+ *            array. This is done in-place on the MSA, so the MSA is 
+ *            modified: <msa->alen> is reduced, <msa->aseq> is shrunk 
+ *            (or <msa->ax>, in the case of a digital mode alignment), 
+ *            and all associated per-residue or per-column annotation
+ *            is shrunk.
+ * 
+ * Returns:   <eslOK> on success.
+ *            Possibilities from <esl_msa_RemoveBrokenBasepairs()> call:
+ *            <eslESYNTAX> if WUSS string for <SS_cons> or <msa->ss>
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted SS.
+ */
+int
+esl_msa_ColumnSubset(ESL_MSA *msa, char *errbuf, const int *useme)
+{
+  int     status;
+  int64_t opos;			/* position in original alignment */
+  int64_t npos;			/* position in new alignment      */
+  int     idx;			/* sequence index */
+  int     i;			/* markup index */
+
+  /* For RNA/DNA digital alignments only:
+   * Remove any basepairs from SS_cons and individual sequence SS
+   * for aln columns i,j for which useme[i-1] or useme[j-1] are FALSE 
+   */
+  if ( msa->abc && (msa->abc->type == eslRNA || msa->abc->type == eslDNA) &&
+       (status = esl_msa_RemoveBrokenBasepairs(msa, errbuf, useme)) != eslOK) return status;
+
+  /* Since we're minimizing, we can overwrite in place, within the msa
+   * we've already got. 
+   * opos runs all the way to msa->alen to include (and move) the \0
+   * string terminators (or sentinel bytes, in the case of digital mode)
+   */
+  for (opos = 0, npos = 0; opos <= msa->alen; opos++)
+    {
+      if (opos < msa->alen && useme[opos] == FALSE) continue;
+
+      if (npos != opos)	/* small optimization */
+	{
+	  /* The alignment, and per-residue annotations */
+	  for (idx = 0; idx < msa->nseq; idx++)
+	    {
+#ifdef eslAUGMENT_ALPHABET
+	      if (msa->flags & eslMSA_DIGITAL) /* watch off-by-one in dsq indexing */
+		msa->ax[idx][npos+1] = msa->ax[idx][opos+1];
+	      else
+		msa->aseq[idx][npos] = msa->aseq[idx][opos];
+#else
+	      msa->aseq[idx][npos] = msa->aseq[idx][opos];
+#endif /*eslAUGMENT_ALPHABET*/
+	      if (msa->ss != NULL && msa->ss[idx] != NULL) msa->ss[idx][npos] = msa->ss[idx][opos];
+	      if (msa->sa != NULL && msa->sa[idx] != NULL) msa->sa[idx][npos] = msa->sa[idx][opos];
+	      if (msa->pp != NULL && msa->pp[idx] != NULL) msa->pp[idx][npos] = msa->pp[idx][opos];
+	      for (i = 0; i < msa->ngr; i++)
+		if (msa->gr[i][idx] != NULL)
+		  msa->gr[i][idx][npos] = msa->gr[i][idx][opos];
+	    }	  
+	  /* The per-column annotations */
+	  if (msa->ss_cons != NULL) msa->ss_cons[npos] = msa->ss_cons[opos];
+	  if (msa->sa_cons != NULL) msa->sa_cons[npos] = msa->sa_cons[opos];
+	  if (msa->pp_cons != NULL) msa->pp_cons[npos] = msa->pp_cons[opos];
+	  if (msa->rf      != NULL) msa->rf[npos]      = msa->rf[opos];
+	  if (msa->mm      != NULL) msa->mm[npos]      = msa->mm[opos];
+	  for (i = 0; i < msa->ngc; i++)
+	    msa->gc[i][npos] = msa->gc[i][opos];
+	}
+      npos++;
+    }
+  msa->alen = npos-1;	/* -1 because npos includes NUL terminators */
+  return eslOK;
+}
+
+/* Function:  esl_msa_MinimGaps()
+ * Synopsis:  Remove columns containing all gap symbols.
+ *
+ * Purpose:   Remove all columns in the multiple alignment <msa>
+ *            that consist entirely of gaps or missing data.
+ *            
+ *            For a text mode alignment, <gaps> is a string defining
+ *            the gap characters, such as <"-_.~">. For a digital mode
+ *            alignment, <gaps> may be passed as <NULL>, because the
+ *            internal alphabet already knows what the gap and missing
+ *            data characters are.
+ *            
+ *            <msa> is changed in-place to a narrower alignment
+ *            containing fewer columns. All per-residue and per-column
+ *            annotation is altered appropriately for the columns that
+ *            remain in the new alignment.
+ * 
+ *            If <consider_rf> is TRUE, only columns that are gaps
+ *            in all sequences of <msa> and a gap in the RF annotation 
+ *            of the alignment (<msa->rf>) will be removed. It is 
+ *            okay if <consider_rf> is TRUE and <msa->rf> is NULL
+ *            (no error is thrown), the function will behave as if 
+ *            <consider_rf> is FALSE.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation failure.
+ *            Possibilities from <esl_msa_ColumnSubset()> call:
+ *            <eslESYNTAX> if WUSS string for <SS_cons> or <msa->ss>
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted SS.
+ *
+ * Xref:      squid's MSAMingap().
+ */
+int
+esl_msa_MinimGaps(ESL_MSA *msa, char *errbuf, const char *gaps, int consider_rf)
+{
+  int    *useme = NULL;	/* array of TRUE/FALSE flags for which cols to keep */
+  int64_t apos;		/* column index   */
+  int     idx;		/* sequence index */
+  int     status;
+  int     rf_is_nongap; /* TRUE if current position is not a gap in msa->rf OR msa->rf is NULL */
+
+#ifdef eslAUGMENT_ALPHABET	   /* digital mode case */
+  if (msa->flags & eslMSA_DIGITAL) /* be careful of off-by-one: useme is 0..L-1 indexed */
+    {
+      ESL_ALLOC(useme, sizeof(int) * (msa->alen+1)); /* +1 is just to deal w/ alen=0 special case */
+
+      for (apos = 1; apos <= msa->alen; apos++)
+	{
+	  rf_is_nongap = ((msa->rf != NULL) && 
+			  (! esl_abc_CIsGap    (msa->abc, msa->rf[apos-1])) &&
+			  (! esl_abc_CIsMissing(msa->abc, msa->rf[apos-1]))) ?
+	    TRUE : FALSE;
+	  if(rf_is_nongap && consider_rf) { /* RF is not a gap and consider_rf is TRUE, keep this column */
+	    useme[apos-1] = TRUE;
+	  }
+	  else { /* check all seqs to see if this column is all gaps */
+	    for (idx = 0; idx < msa->nseq; idx++)
+	      if (! esl_abc_XIsGap    (msa->abc, msa->ax[idx][apos]) &&
+		  ! esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]))
+		break;
+	    if (idx == msa->nseq) useme[apos-1] = FALSE; else useme[apos-1] = TRUE;
+	  }
+	}
+      if((status = esl_msa_ColumnSubset(msa, errbuf, useme)) != eslOK) goto ERROR;
+      free(useme);
+    }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL)) /* text mode case */
+    {
+      if ( (status = esl_msa_MinimGapsText(msa, errbuf, gaps, consider_rf, FALSE)) != eslOK) goto ERROR;
+    }
+
+  return eslOK;
+
+ ERROR:
+  if (useme != NULL) free(useme);
+  return status;
+}
+
+/* Function:  esl_msa_MinimGapsText()
+ * Synopsis:  Remove columns containing all gap symbols, from text mode msa
+ *
+ * Purpose:   Same as esl\_msa\_MinimGaps(), but specialized for a text mode
+ *            alignment where we don't know the alphabet. The issue is what 
+ *            to do about RNA secondary structure annotation (SS, SS\_cons)
+ *            when we remove columns, which can remove one side of a bp and
+ *            invalidate the annotation string. For digital alignments,
+ *            <esl_msa_MinimGaps()> knows the alphabet and will fix base pairs
+ *            for RNA/DNA alignments. For text mode, though, we have to 
+ *            get told to do it, because the default behavior for text mode
+ *            alis is to assume that the alphabet is totally arbitrary, and we're
+ *            not allowed to make assumptions about its symbols' meaning.
+ *            Hence, the <fix_bps> flag here. 
+ *            
+ *            Ditto for the <gaps> string: we don't know what symbols
+ *            are supposed to be gaps unless we're told something like 
+ *            <"-_.~">.
+ *
+ * Args:      msa         - alignment to remove all-gap cols from
+ *            errbuf      - if non-<NULL>, space for an informative error message on failure
+ *            gaps        - string of gap characters
+ *            consider_rf - if TRUE, also consider gap/nongap cols in RF annotation line
+ *            fix_bps     - if TRUE, fix any broken bps in SS/SS\_cons annotation lines.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. 
+ *            Possibilities from <esl_msa_ColumnSubset()> call:
+ *            <eslESYNTAX> if WUSS string for <SS_cons> or <msa->ss>
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted SS.
+ */
+int
+esl_msa_MinimGapsText(ESL_MSA *msa, char *errbuf, const char *gaps, int consider_rf, int fix_bps)
+{
+  int    *useme = NULL;	/* array of TRUE/FALSE flags for which cols to keep */
+  int64_t apos;		/* column index   */
+  int     idx;		/* sequence index */
+  int     status;
+  int     rf_is_nongap; /* TRUE if current position is not a gap in msa->rf OR msa->rf is NULL */
+
+  ESL_ALLOC(useme, sizeof(int) * (msa->alen+1)); /* +1 is just to deal w/ alen=0 special case */
+
+  for (apos = 0; apos < msa->alen; apos++)
+    {
+      rf_is_nongap = ((msa->rf != NULL) && (strchr(gaps, msa->rf[apos]) == NULL)) ?  TRUE : FALSE;
+      if (rf_is_nongap && consider_rf) useme[apos] = TRUE;  /* RF is not a gap and consider_rf is TRUE, keep this column */
+      else
+	{ /* check all seqs to see if this column is all gaps */
+	  for (idx = 0; idx < msa->nseq; idx++)
+	    if (strchr(gaps, msa->aseq[idx][apos]) == NULL) break;
+	  useme[apos] = (idx == msa->nseq ? FALSE : TRUE);
+	}
+    }
+
+  if (fix_bps && (status = esl_msa_RemoveBrokenBasepairs(msa, errbuf, useme)) != eslOK) goto ERROR;
+  if (           (status = esl_msa_ColumnSubset         (msa, errbuf, useme)) != eslOK) goto ERROR;
+
+  free(useme);
+  return eslOK;
+  
+ ERROR:
+  if (useme) free(useme);
+  return status;
+}
+
+
+/* Function:  esl_msa_NoGaps()
+ * Synopsis:  Remove columns containing any gap symbol.
+ *
+ * Purpose:   Remove all columns in the multiple alignment <msa> that
+ *            contain any gaps or missing data, such that the modified
+ *            MSA consists only of ungapped columns (a solid block of
+ *            residues). 
+ *            
+ *            This is useful for filtering alignments prior to
+ *            phylogenetic analysis using programs that can't deal
+ *            with gaps.
+ *            
+ *            For a text mode alignment, <gaps> is a string defining
+ *            the gap characters, such as <"-_.~">. For a digital mode
+ *            alignment, <gaps> may be passed as <NULL>, because the
+ *            internal alphabet already knows what the gap and
+ *            missing data characters are.
+ *    
+ *            <msa> is changed in-place to a narrower alignment
+ *            containing fewer columns. All per-residue and per-column
+ *            annotation is altered appropriately for the columns that
+ *            remain in the new alignment.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            Possibilities from <esl_msa_ColumnSubset()> call:
+ *            <eslESYNTAX> if WUSS string for <SS_cons> or <msa->ss>
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted SS.
+ *
+ * Xref:      squid's MSANogap().
+ */
+int
+esl_msa_NoGaps(ESL_MSA *msa, char *errbuf, const char *gaps)
+{
+  int    *useme = NULL;	/* array of TRUE/FALSE flags for which cols to keep */
+  int64_t apos;		/* column index */
+  int     idx;		/* sequence index */
+  int     status;
+
+#ifdef eslAUGMENT_ALPHABET	   /* digital mode case */
+  if (msa->flags & eslMSA_DIGITAL) /* be careful of off-by-one: useme is 0..L-1 indexed */
+    {
+      ESL_ALLOC(useme, sizeof(int) * (msa->alen+1)); /* +1 is only to deal with alen=0 special case */
+
+      for (apos = 1; apos <= msa->alen; apos++)
+	{
+	  for (idx = 0; idx < msa->nseq; idx++)
+	    if (esl_abc_XIsGap    (msa->abc, msa->ax[idx][apos]) ||
+		esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]))
+	      break;
+	  if (idx == msa->nseq) useme[apos-1] = TRUE; else useme[apos-1] = FALSE;
+	}
+
+      if ((status = esl_msa_ColumnSubset(msa, errbuf, useme)) != eslOK) goto ERROR;
+      free(useme);
+    }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL)) /* text mode case */
+    {
+      if ((status = esl_msa_NoGapsText(msa, errbuf, gaps, FALSE)) != eslOK) goto ERROR;
+    }
+  return eslOK;
+
+ ERROR:
+  if (useme != NULL) free(useme);
+  return status;
+}
+
+
+/* Function:  esl_msa_NoGapsText()
+ * Synopsis:  Remove columns containing any gap symbol at all, for text mode msa.
+ *
+ * Purpose:   Like <esl_msa_NoGaps()> but specialized for textmode <msa> where
+ *            we don't know the alphabet, yet might need to fix alphabet-dependent
+ *            problems. 
+ *            
+ *            Like <esl_msa_MinimGapsText()>, the alphabet-dependent issue we might
+ *            want to fix is RNA secondary structure annotation (SS, SS\_cons);
+ *            removing a column might remove one side of a base pair annotation, and
+ *            invalidate a secondary structure string. <fix_bps> tells the function
+ *            that SS and SS\_cons are RNA WUSS format strings, and the function is
+ *            allowed to edit (and fix) them. Normally, in text mode msa's, we
+ *            are not allowed to interpret any meaning of symbols.
+ *
+ * Args:      msa     - alignment to remove any-gap cols from
+ *            errbuf  - if non-<NULL>, space for an informative error message on failure
+ *            gaps    - string of gap characters
+ *            fix_bps - if TRUE, fix any broken bps in SS/SS\_cons annotation lines
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            Possibilities from <esl_msa_ColumnSubset()> call:
+ *            <eslESYNTAX> if WUSS string for <SS_cons> or <msa->ss>
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted SS.
+ */
+int
+esl_msa_NoGapsText(ESL_MSA *msa, char *errbuf, const char *gaps, int fix_bps)
+{
+  int    *useme = NULL;	/* array of TRUE/FALSE flags for which cols to keep */
+  int64_t apos;		/* column index */
+  int     idx;		/* sequence index */
+  int     status;
+
+  ESL_ALLOC(useme, sizeof(int) * (msa->alen+1)); /* +1 is only to deal with alen=0 special case */
+
+  for (apos = 0; apos < msa->alen; apos++)
+    {
+      for (idx = 0; idx < msa->nseq; idx++)
+	if (strchr(gaps, msa->aseq[idx][apos]) != NULL) break;
+      useme[apos] = (idx == msa->nseq ? TRUE : FALSE);
+    }
+  
+  if (fix_bps && (status = esl_msa_RemoveBrokenBasepairs(msa, errbuf, useme)) != eslOK) goto ERROR;
+  if (           (status = esl_msa_ColumnSubset         (msa, errbuf, useme)) != eslOK) goto ERROR;
+  
+  free(useme);
+  return eslOK;
+  
+ ERROR:
+  if (useme) free(useme);
+  return status;
+}
+
+
+/* Function:  esl_msa_SymConvert()
+ * Synopsis:  Global search/replace of symbols in an MSA.
+ *
+ * Purpose:   In the aligned sequences in a text-mode <msa>, convert any
+ *            residue in the string <oldsyms> to its counterpart (at the same
+ *            position) in string <newsyms>.
+ * 
+ *            To convert DNA to RNA, <oldsyms> could be "Tt" and
+ *            <newsyms> could be "Uu". To convert IUPAC symbols to
+ *            N's, <oldsyms> could be "RYMKSWHBVDrymkswhbvd" and
+ *            <newsyms> could be "NNNNNNNNNNnnnnnnnnnn". 
+ *            
+ *            As a special case, if <newsyms> consists of a single
+ *            character, then any character in the <oldsyms> is 
+ *            converted to this character. 
+ *            
+ *            Thus, <newsyms> must either be of the same length as
+ *            <oldsyms>, or of length 1. Anything else will cause
+ *            undefined behavior (and probably segfault). 
+ *            
+ *            The conversion is done in-place, so the <msa> is
+ *            modified.
+ *            
+ *            This is a poor man's hack for processing text mode MSAs
+ *            into a more consistent text alphabet. It is unnecessary
+ *            for digital mode MSAs, which are already in a standard
+ *            internal alphabet. Calling <esl_msa_SymConvert()> on a
+ *            digital mode alignment throws an <eslEINVAL> error.
+ *            
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEINVAL> if <msa> is in digital mode, or if the <oldsyms>
+ *            and <newsyms> strings aren't valid together.
+ */
+int
+esl_msa_SymConvert(ESL_MSA *msa, const char *oldsyms, const char *newsyms)
+{
+  int64_t apos;			/* column index */
+  int     idx;			/* sequence index */
+  char   *sptr;
+  int     special;
+
+  if (msa->flags & eslMSA_DIGITAL)
+    ESL_EXCEPTION(eslEINVAL, "can't SymConvert on digital mode alignment");
+  if ((strlen(oldsyms) != strlen(newsyms)) && strlen(newsyms) != 1)
+    ESL_EXCEPTION(eslEINVAL, "invalid newsyms/oldsyms pair");
+
+  special = (strlen(newsyms) == 1 ? TRUE : FALSE);
+
+  for (apos = 0; apos < msa->alen; apos++)
+    for (idx = 0; idx < msa->nseq; idx++)
+      if ((sptr = strchr(oldsyms, msa->aseq[idx][apos])) != NULL)
+	msa->aseq[idx][apos] = (special ? *newsyms : newsyms[sptr-oldsyms]);
+  return eslOK;
+}
+
+
+/* Function:  esl_msa_Checksum()
+ * Synopsis:  Calculate a checksum for an MSA.
+ * Incept:    SRE, Tue Sep 16 13:23:34 2008 [Janelia]
+ *
+ * Purpose:   Calculates a 32-bit checksum for <msa>.
+ * 
+ *            Only the alignment data are considered, not the sequence
+ *            names or other annotation. For text mode alignments, the
+ *            checksum is case sensitive.
+ *            
+ *            This is used as a quick way to try to verify that a
+ *            given alignment is identical to an expected one; for
+ *            example, when HMMER is mapping new sequence alignments
+ *            onto exactly the same seed alignment an HMM was built
+ *            from.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Xref:      The checksum is a modified version of Jenkin's hash;
+ *            see <esl_keyhash> for the original and citations.
+ */
+int
+esl_msa_Checksum(const ESL_MSA *msa, uint32_t *ret_checksum)
+{
+  uint32_t val = 0;
+  int      i,pos;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->flags & eslMSA_DIGITAL)
+    {
+      for (i = 0; i < msa->nseq; i++)
+	for (pos = 1; pos <= msa->alen; pos++)
+	  {
+	    val += msa->ax[i][pos];
+	    val += (val << 10);
+	    val ^= (val >>  6);
+	  }
+    }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL))
+    {
+      for (i = 0; i < msa->nseq; i++)
+	for (pos = 0; pos < msa->alen; pos++)
+	  {
+	    val += msa->aseq[i][pos];
+	    val += (val << 10);
+	    val ^= (val >>  6);
+	  }
+    }
+  val += (val <<  3);
+  val ^= (val >> 11);
+  val += (val << 15);
+
+  *ret_checksum = val;
+  return eslOK;
+}
+
+
+/* Function:  esl_msa_RemoveBrokenBasepairsFromSS()
+ * Synopsis:  Remove basepairs about to be broken by a column downselect.
+ *
+ * Purpose:   Given an array <useme> (0..alen-1) of TRUE/FALSE flags,
+ *            remove any basepair from an SS string that is between
+ *            alignment columns (i,j) for which either <useme[i-1]> or
+ *            <useme[j-1]> is FALSE.  Called by
+ *            <esl_msa_RemoveBrokenBasepairs()>.
+ * 
+ *            The input SS string will be overwritten. If it was not
+ *            in full WUSS format when passed in, it will be upon
+ *            exit.  Note that that means if there's residues in the
+ *            input ss that correspond to gaps in an aligned sequence
+ *            or RF annotation, they will not be treated as gaps in
+ *            the returned SS. For example, a gap may become a '-'
+ *            character, a '<_>' character, or a ':' character. I'm not
+ *            sure how to deal with this in a better way. We could
+ *            demand an aligned sequence to use to de-gap the SS
+ *            string, but that would require disallowing any gap to be
+ *            involved in a basepair, which I'm not sure is something
+ *            we want to forbid.
+ * 
+ *            If the original SS is inconsistent it's left untouched
+ *            and non-<eslOK> is returned as listed below.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslESYNTAX> if SS string 
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted 
+ *            SS, this should be impossible.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_RemoveBrokenBasepairsFromSS(char *ss, char *errbuf, int len, const int *useme)
+{
+  int64_t  apos;                 /* alignment position */
+  int     *ct = NULL;	         /* 0..alen-1 base pair partners array for current sequence */
+  char    *ss_nopseudo = NULL;   /* no-pseudoknot version of structure */
+  int      status;
+
+  ESL_ALLOC(ct,          sizeof(int)  * (len+1));
+  ESL_ALLOC(ss_nopseudo, sizeof(char) * (len+1));
+
+  esl_wuss_nopseudo(ss, ss_nopseudo);
+  if ((status = esl_wuss2ct(ss_nopseudo, len, ct)) != eslOK) 
+    ESL_FAIL(status, errbuf, "Consensus structure string is inconsistent.");
+  for (apos = 1; apos <= len; apos++) { 
+    if (!(useme[apos-1])) { 
+      if (ct[apos] != 0) ct[ct[apos]] = 0;
+      ct[apos] = 0;
+    }
+  }
+  /* All broken bps removed from ct, convert to WUSS SS string and overwrite SS */
+  if ((status = esl_ct2wuss(ct, len, ss)) != eslOK) 
+    ESL_FAIL(status, errbuf, "Error converting de-knotted bp ct array to WUSS notation.");
+  
+  free(ss_nopseudo);
+  free(ct);
+  return eslOK;
+
+ ERROR: 
+  if (ct          != NULL) free(ct);
+  if (ss_nopseudo != NULL) free(ss_nopseudo);
+  return status; 
+}  
+
+/* Function:  esl_msa_RemoveBrokenBasepairs()
+ * Synopsis:  Remove all annotated bps about to be broken by column downselect.
+ *
+ * Purpose:   Given an array <useme> (0..alen-1) of TRUE/FALSE flags,
+ *            remove any basepair from <SS_cons> and individual SS
+ *            annotation in alignment columns (i,j) for which either
+ *            <useme[i-1]> or <useme[j-1]> is FALSE.  Called
+ *            automatically from <esl_msa_ColumnSubset()> with same
+ *            <useme>.
+ * 
+ *            If the original structure data is inconsistent it's left
+ *            untouched.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslESYNTAX> if WUSS string for <SS_cons> or <msa->ss>
+ *            following <esl_wuss_nopseudo()> is inconsistent.
+ *            <eslEINVAL> if a derived ct array implies a pknotted 
+ *            SS, this should be impossible
+ *            
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_msa_RemoveBrokenBasepairs(ESL_MSA *msa, char *errbuf, const int *useme)
+{
+  int status;
+  int  i;
+
+  if (msa->ss_cons) {
+    if((status = esl_msa_RemoveBrokenBasepairsFromSS(msa->ss_cons, errbuf, msa->alen, useme)) != eslOK) return status; 
+  }
+  /* per-seq SS annotation */
+  if (msa->ss) {
+    for(i = 0; i < msa->nseq; i++) { 
+      if (msa->ss[i]) {
+	if ((status = esl_msa_RemoveBrokenBasepairsFromSS(msa->ss[i], errbuf, msa->alen, useme)) != eslOK) return status; 
+      }
+    }
+  }
+  return eslOK;
+}  
+
+/* msa_get_rlen()
+ *
+ * Returns the raw (unaligned) length of sequence number <seqidx>
+ * in <msa>. 
+ */
+static int64_t
+msa_get_rlen(const ESL_MSA *msa, int seqidx)
+{
+  int64_t rlen = 0;
+  int     pos;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->flags & eslMSA_DIGITAL) rlen = esl_abc_dsqrlen(msa->abc, msa->ax[seqidx]);
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL))
+    {
+      for (pos = 0; pos < msa->alen; pos++)
+	if (isalnum(msa->aseq[seqidx][pos])) rlen++;
+    }
+  return rlen;
+}
+
+
+/* msa_get_alibounds()
+ *
+ * Returns the alignment range (<first> and <last> positions in <msa>) of
+ * of sequence number <seqidx>.
+ */
+static int
+msa_get_alibounds(const ESL_MSA *msa, int seqidx, int64_t *first, int64_t *last)
+{
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->flags & eslMSA_DIGITAL)
+  {
+    *first = 1;
+    while (*first <= msa->alen &&  !esl_abc_XIsResidue(msa->abc, msa->ax[seqidx][*first]))  (*first)++;
+    *last = msa->alen;
+    while (*last > 0           &&  !esl_abc_XIsResidue(msa->abc, msa->ax[seqidx][*last]))   (*last)--;
+  }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL))
+  {
+    *first = 0;
+    while (*first < msa->alen  &&  !isalnum(msa->aseq[seqidx][*first]))  (*first)++;
+    *last = msa->alen - 1;
+    while (*last < msa->alen   &&  !isalnum(msa->aseq[seqidx][*last]))   (*last)--;
+  }
+  return eslOK;
+}
+
+
+#ifdef eslAUGMENT_KEYHASH
+/* Function:  esl_msa_Hash()
+ * Synopsis:  Hash sequence names, internally, for faster access/lookup.
+ *
+ * Purpose:   Caller wants to map sequence names to integer index in the
+ *            <ESL_MSA> structure, using the internal <msa->index> keyhash.
+ *            Create (or recreate) that index.
+ *            
+ *            Each sequence name must be unique. If not, returns
+ *            <eslEDUP>, and <msa->index> is <NULL> (if it already
+ *            existed, it is destroyed).
+ *
+ * Returns:   <eslOK> on success, and <msa->index> is available for 
+ *            keyhash lookups.
+ *            
+ *            <eslEDUP> if any sequence names are duplicated, and 
+ *            <msa->index> is <NULL>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_msa_Hash(ESL_MSA *msa)
+{
+  int idx;
+  int status;
+
+  if   (msa->index)  esl_keyhash_Reuse(msa->index);
+  else  msa->index = esl_keyhash_Create();
+  if (! msa->index) { status = eslEMEM; goto ERROR; }
+  
+  for (idx = 0; idx < msa->nseq; idx++)
+    if ((status = esl_keyhash_Store(msa->index, msa->sqname[idx], -1, NULL)) != eslOK) goto ERROR;
+
+  return eslOK;
+
+ ERROR:
+  if (msa->index) { esl_keyhash_Destroy(msa->index); msa->index = NULL; }
+  return status;
+}
+#endif /*eslAUGMENT_KEYHASH*/
+
+/*----------------- end of misc MSA functions -------------------*/
+
+
+/*****************************************************************
+ * 5. Debugging, testing, development
+ *****************************************************************/
+
+/* Function:  esl_msa_Validate()
+ * Synopsis:  Validate an ESL_MSA structure.
+ *
+ * Purpose:   Validates the fields of the <ESL_MSA> structure
+ *            <msa>. Makes sure required information is present,
+ *            consistent. If so, return <eslOK>.
+ *
+ *            If a problem is detected, return <eslFAIL>. Caller may
+ *            also provide an optional <errmsg> pointer to a buffer of
+ *            at least <eslERRBUFSIZE>; if this message buffer is
+ *            provided, an informative error message is put there.
+ *            
+ * Args:      msa    - MSA structure to validate
+ *            errmsg - OPTIONAL: error message buffer, at least <eslERRBUFSIZE>; or <NULL>
+ *            
+ * Returns:   <eslOK> on success, and <errmsg> (if provided) is set
+ *            to an empty string.
+ *            
+ *            <eslFAIL> on failure and <errmsg> (if provided) contains 
+ *            the reason for the failure.
+ */
+int
+esl_msa_Validate(const ESL_MSA *msa, char *errmsg)
+{
+  int idx;
+
+  if (msa->nseq == 0) ESL_FAIL(eslFAIL, errmsg, "no alignment data found");
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->flags & eslMSA_DIGITAL)
+	{
+	  if (! msa->ax || ! msa->ax[idx])               ESL_FAIL(eslFAIL, errmsg, "seq %d: no sequence", idx); 
+	  if (esl_abc_dsqlen(msa->ax[idx]) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "seq %d: wrong length", idx);
+	}
+#endif
+      if (! (msa->flags & eslMSA_DIGITAL))
+	{
+	  if (! msa->aseq || ! msa->aseq[idx])     ESL_FAIL(eslFAIL, errmsg, "seq %d: no sequence", idx); 
+	  if (strlen(msa->aseq[idx]) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "seq %d: wrong length", idx);
+	}
+
+      /* either all weights must be set, or none of them */
+      if (   msa->flags & eslMSA_HASWGTS) { if (msa->wgt[idx] == -1.0) ESL_FAIL(eslFAIL, errmsg, "seq %d: no weight set", idx);}
+      else                                { if (msa->wgt[idx] != 1.0)  ESL_FAIL(eslFAIL, errmsg, "seq %d: HASWGTS flag down, wgt must be default", idx); }
+
+      if (msa->ss &&  msa->ss[idx] &&  strlen(msa->ss[idx]) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "seq %d: SS wrong length", idx);
+      if (msa->sa &&  msa->sa[idx] &&  strlen(msa->sa[idx]) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "seq %d: SA wrong length", idx);
+      if (msa->pp &&  msa->pp[idx] &&  strlen(msa->pp[idx]) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "seq %d: PP wrong length", idx);
+    }
+
+  /* if cons SS is present, must have length right */
+  if (msa->ss_cons && strlen(msa->ss_cons) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "SS_cons wrong length");
+  if (msa->sa_cons && strlen(msa->sa_cons) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "SA_cons wrong length");
+  if (msa->pp_cons && strlen(msa->pp_cons) != msa->alen) ESL_FAIL(eslFAIL, errmsg, "PP_cons wrong length");
+  if (msa->rf      && strlen(msa->rf)      != msa->alen) ESL_FAIL(eslFAIL, errmsg, "RF wrong length");
+  if (msa->mm      && strlen(msa->mm   )   != msa->alen) ESL_FAIL(eslFAIL, errmsg, "MM wrong length");
+
+  return eslOK;
+}
+
+
+/* Function:  esl_msa_CreateFromString()
+ * Synopsis:  Creates a small <ESL_MSA> from a test case string.
+ *
+ * Purpose:   A convenience for making small test cases in the test
+ *            suites: given the contents of a complete multiple
+ *            sequence alignment file as a single string <s> in
+ *            alignment format <fmt>, convert it to an <ESL_MSA>.
+ *            
+ *            For example, 
+ *            {\small\begin{verbatim}
+ *            esl_msa_CreateFromString("# STOCKHOLM 1.0\n\nseq1 AAAAA\nseq2 AAAAA\n//\n", 
+ *                                     eslMSAFILE_STOCKHOLM)
+ *            \end{verbatim}}
+ *            creates an ungapped alignment of two AAAAA sequences.
+ *
+ * Returns:   a pointer to the new <ESL_MSA> on success.
+ *
+ * Throws:    <NULL> if it fails to obtain, open, or read the temporary file
+ *            that it puts the string <s> in.
+ */
+ESL_MSA *
+esl_msa_CreateFromString(const char *s, int fmt)
+{
+  ESLX_MSAFILE *mfp         = NULL;
+  ESL_MSA      *msa         = NULL;
+
+  if (eslx_msafile_OpenMem(NULL, s, -1, fmt, NULL, &mfp) != eslOK) goto ERROR;
+  if (eslx_msafile_Read(mfp, &msa)                       != eslOK) goto ERROR;
+  eslx_msafile_Close(mfp);
+  return msa;
+
+ ERROR:
+  if (mfp != NULL) eslx_msafile_Close(mfp);
+  if (msa != NULL) esl_msa_Destroy(msa);                        
+  return NULL;
+}
+
+
+/* Function:  esl_msa_Compare()
+ * Synopsis:  Compare two MSAs for equality.
+ *
+ * Purpose:   Returns <eslOK> if the mandatory and optional contents
+ *            of MSAs <a1> and <a2> are identical; otherwise return
+ *            <eslFAIL>.
+ *            
+ *            Only mandatory and parsed optional information is
+ *            compared. Unparsed Stockholm markup is not compared.
+ */
+int
+esl_msa_Compare(ESL_MSA *a1, ESL_MSA *a2)
+{
+  if (esl_msa_CompareMandatory(a1, a2) != eslOK) return eslFAIL;
+  if (esl_msa_CompareOptional(a1, a2)  != eslOK) return eslFAIL;
+  return eslOK;
+}
+
+/* Function:  esl_msa_CompareMandatory()
+ * Synopsis:  Compare mandatory subset of MSA contents.
+ * Incept:    SRE, Wed Jun 13 09:42:56 2007 [Janelia]
+ *
+ * Purpose:   Compare mandatory contents of two MSAs, <a1> and <a2>.
+ *            This comprises <aseq> (or <ax>, for a digital alignment);
+ *            <sqname>, <wgt>, <alen>, <nseq>, and <flags>.
+ *
+ * Returns:   <eslOK> if the MSAs are identical; 
+ *            <eslFAIL> if they are not.
+ */
+int
+esl_msa_CompareMandatory(ESL_MSA *a1, ESL_MSA *a2)
+{
+  int i;
+
+  if (a1->nseq  != a2->nseq)  return eslFAIL;
+  if (a1->alen  != a2->alen)  return eslFAIL;
+  if (a1->flags != a2->flags) return eslFAIL;
+
+  for (i = 0; i < a1->nseq; i++)
+    {
+      if (strcmp(a1->sqname[i], a2->sqname[i])        != 0)     return eslFAIL;
+      if (esl_DCompare(a1->wgt[i], a2->wgt[i], 0.001) != eslOK) return eslFAIL;
+#ifdef eslAUGMENT_ALPHABET
+      if ((a1->flags & eslMSA_DIGITAL) &&
+	  memcmp(a1->ax[i], a2->ax[i], sizeof(ESL_DSQ) * (a1->alen+2)) != 0) 
+	return eslFAIL;
+#endif
+      if (! (a1->flags & eslMSA_DIGITAL) && strcmp(a1->aseq[i], a2->aseq[i]) != 0) return eslFAIL;
+    }
+  return eslOK;
+}
+
+/* Function:  esl_msa_CompareOptional()
+ * Synopsis:  Compare optional subset of MSA contents.
+ * Incept:    SRE, Wed Jun 13 09:52:48 2007 [Janelia]
+ *
+ * Purpose:   Compare optional contents of two MSAs, <a1> and <a2>.
+ *
+ * Returns:   <eslOK> if the MSAs are identical; 
+ *            <eslFAIL> if they are not.
+ */
+int
+esl_msa_CompareOptional(ESL_MSA *a1, ESL_MSA *a2)
+{
+  int i;
+
+  if (esl_CCompare(a1->name,    a2->name)    != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->desc,    a2->desc)    != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->acc,     a2->acc)     != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->au,      a2->au)      != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->ss_cons, a2->ss_cons) != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->sa_cons, a2->sa_cons) != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->pp_cons, a2->pp_cons) != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->rf,      a2->rf)      != eslOK) return eslFAIL;
+  if (esl_CCompare(a1->mm,      a2->mm)      != eslOK) return eslFAIL;
+  
+  if (a1->sqacc != NULL && a2->sqacc != NULL) {
+    for (i = 0; i < a1->nseq; i++) if (esl_CCompare(a1->sqacc[i], a2->sqacc[i]) != eslOK) return eslFAIL;
+  } else if (a1->sqacc != NULL || a2->sqacc != NULL) return eslFAIL;
+
+  if (a1->sqdesc != NULL && a2->sqdesc != NULL) {
+    for (i = 0; i < a1->nseq; i++) if (esl_CCompare(a1->sqdesc[i], a2->sqdesc[i]) != eslOK) return eslFAIL;
+  } else if (a1->sqdesc != NULL || a2->sqdesc != NULL) return eslFAIL;
+
+  if (a1->ss != NULL && a2->ss != NULL) {
+    for (i = 0; i < a1->nseq; i++) if (esl_CCompare(a1->ss[i], a2->ss[i]) != eslOK) return eslFAIL;
+  } else if (a1->ss != NULL || a2->ss != NULL) return eslFAIL;
+
+  if (a1->sa != NULL && a2->sa != NULL) {
+    for (i = 0; i < a1->nseq; i++) if (esl_CCompare(a1->sa[i], a2->sa[i]) != eslOK) return eslFAIL;
+  } else if (a1->sa != NULL || a2->sa != NULL) return eslFAIL;
+
+  if (a1->pp != NULL && a2->pp != NULL) {
+    for (i = 0; i < a1->nseq; i++) if (esl_CCompare(a1->pp[i], a2->pp[i]) != eslOK) return eslFAIL;
+  } else if (a1->pp != NULL || a2->pp != NULL) return eslFAIL;
+  
+  for (i = 0; i < eslMSA_NCUTS; i++)
+    {
+      if (a1->cutset[i] && a2->cutset[i]) {
+	if (esl_FCompare(a1->cutoff[i], a2->cutoff[i], 0.01) != eslOK) return eslFAIL;
+      } else if (a1->cutset[i] || a2->cutset[i]) return eslFAIL;
+    }
+  return eslOK;
+}
+/*---------------- end of debugging/development routines  -------------------*/
+
+
+/******************************************************************************
+ * 15. Unit tests
+ *****************************************************************************/
+#ifdef eslMSA_TESTDRIVE
+
+/* write_known_msa()
+ * Write a known MSA to a tmpfile in Stockholm format.
+ */
+static void
+write_known_msa(FILE *ofp)
+{
+  fprintf(ofp, "# STOCKHOLM 1.0\n");
+  fprintf(ofp, "seq1 --ACDEFGHIK~LMNPQRS-TVWY\n");
+  fprintf(ofp, "seq2 aaACDEFGHIK~LMNPQRS-TVWY\n");
+  fprintf(ofp, "seq3 aaACDEFGHIK~LMNPQRS-TVWY\n");
+  fprintf(ofp, "\n");
+  fprintf(ofp, "seq1 ACDEFGHIKLMNPQRSTVWY~~~\n");
+  fprintf(ofp, "seq2 ACDEFGHIKLMNPQRSTVWYyyy\n");
+  fprintf(ofp, "seq3 ACDEFGHIKLMNPQRSTVWYyyy\n");
+  fprintf(ofp, "//\n");
+  return;
+}
+  
+
+/* compare_to_known() 
+ * SRE, Thu Sep  7 09:52:07 2006 [Janelia]
+ * Spotcheck an ESL_MSA to make sure it matches the test known alignment.
+ */
+static void
+compare_to_known(ESL_MSA *msa)
+{
+  if (msa->alen != 47)                     esl_fatal("bad alen");
+  if (msa->nseq != 3)                      esl_fatal("bad nseq");
+  if (strcmp(msa->sqname[1], "seq2") != 0) esl_fatal("bad sqname");
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->flags & eslMSA_DIGITAL)
+    {
+      if (! esl_abc_XIsGap(msa->abc, msa->ax[0][2]))      esl_fatal("no gap where expected");
+      if (! esl_abc_XIsMissing(msa->abc, msa->ax[0][47])) esl_fatal("no missing-data symbol where expected");
+      if (msa->ax[1][1]  != 0)                            esl_fatal("spotcheck on ax failed"); /* 0=A */
+      if (msa->ax[1][47] != 19)                           esl_fatal("spotcheck on ax failed"); /*19=Y */
+    }
+#endif
+  if (! (msa->flags & eslMSA_DIGITAL))
+    {
+      if (strcasecmp(msa->aseq[0], "--ACDEFGHIK~LMNPQRS-TVWYACDEFGHIKLMNPQRSTVWY~~~") != 0) esl_fatal("aseq 0 is bad");
+      if (strcasecmp(msa->aseq[1], "aaACDEFGHIK~LMNPQRS-TVWYACDEFGHIKLMNPQRSTVWYyyy") != 0) esl_fatal("aseq 1 is bad");
+      if (strcasecmp(msa->aseq[2], "aaACDEFGHIK~LMNPQRS-TVWYACDEFGHIKLMNPQRSTVWYyyy") != 0) esl_fatal("aseq 2 is bad");
+    }
+  return;
+}
+
+/* Unit tests for every function in the exposed API
+ */
+static void
+utest_Create(void)
+{
+  ESL_MSA *msa = NULL;
+
+  msa = esl_msa_Create(16, -1);	  /* nseq blocksize 16, growable */
+  esl_msa_Destroy(msa);
+  msa = esl_msa_Create(16, 100);  /* nseq=16, alen=100, not growable */
+  esl_msa_Destroy(msa);
+
+  return;
+}
+
+static void
+utest_Destroy(void)
+{
+  ESL_MSA *msa = NULL;
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET *abc;
+#endif
+
+  msa = esl_msa_Create(16, -1);	
+  esl_msa_Destroy(msa);	 	  /* normal usage */
+
+#ifdef eslAUGMENT_ALPHABET
+  abc = esl_alphabet_Create(eslRNA);
+  msa = esl_msa_CreateDigital(abc, 16, 100);	
+  esl_msa_Destroy(msa);	 	  /* normal usage, digital mode */
+  esl_alphabet_Destroy(abc);
+#endif
+
+  esl_msa_Destroy(NULL);	  /* should tolerate NULL argument */
+  return;
+}
+
+static void
+utest_Expand(void)
+{
+  ESL_MSA *msa = NULL;
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET *abc;
+#endif
+
+  msa = esl_msa_Create(16, -1);                	    /* growable */
+  if (esl_msa_Expand(msa) != eslOK) esl_fatal("Expand failed"); /* expand by 2x in nseq */
+  esl_msa_Destroy(msa);
+
+  msa = esl_msa_Create(16, 100);                        /* not growable */
+#ifdef eslTEST_THROWING
+  if (esl_msa_Expand(msa) != eslEINVAL) esl_fatal("Expand should have failed but didn't"); /* should fail w/ EINVAL*/
+#endif
+  esl_msa_Destroy(msa);
+  
+#ifdef eslAUGMENT_ALPHABET
+  abc = esl_alphabet_Create(eslDNA);
+  msa = esl_msa_CreateDigital(abc, 16, -1);               /* growable */
+  if (esl_msa_Expand(msa) != eslOK) esl_fatal("Expand failed"); /* expand by 2x in nseq */
+  esl_msa_Destroy(msa);
+
+  msa = esl_msa_CreateDigital(abc, 16, 100);                 /* not growable */
+#ifdef eslTEST_THROWING
+  if (esl_msa_Expand(msa) != eslEINVAL) esl_fatal("Expand should have failed but didn't"); /* should fail w/ EINVAL*/
+#endif /* eslTEST_THROWING*/
+  esl_msa_Destroy(msa);
+  esl_alphabet_Destroy(abc);
+#endif
+  return;
+}
+
+
+#ifdef eslAUGMENT_ALPHABET
+static void
+utest_CreateDigital(ESL_ALPHABET *abc)
+{
+  char    *msg = "CreateDigital() unit test failure";
+  ESL_MSA *msa = NULL;
+
+  msa = esl_msa_CreateDigital(abc, 16, -1);	  /* nseq blocksize 16, growable */
+  if (! (msa->flags & eslMSA_DIGITAL)) esl_fatal(msg);
+  if (msa->ax   == NULL)               esl_fatal(msg);
+  if (msa->aseq != NULL)               esl_fatal(msg);
+  if (esl_msa_Expand(msa) != eslOK)    esl_fatal(msg);
+  esl_msa_Destroy(msa);
+
+  msa = esl_msa_CreateDigital(abc, 16, 100);  /* nseq=16, alen=100, not growable */
+#ifdef eslTEST_THROWING
+  if (esl_msa_Expand(msa) != eslEINVAL) esl_fatal(msg); /* shouldn't grow */
+#endif
+  esl_msa_Destroy(msa);
+
+  return;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+#ifdef eslAUGMENT_ALPHABET
+static void
+utest_Digitize(ESL_ALPHABET *abc, char *filename)
+{
+  char         *msg = "Digitize() unit test failure";
+  ESLX_MSAFILE *mfp = NULL;
+  ESL_MSA      *msa = NULL;
+  int c, i, pos;
+
+  /* Get ourselves a copy of the known alignment that we can muck with */
+  if (eslx_msafile_Open(NULL, filename, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK)  esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK)                                               esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+  
+  /* Deliberately corrupt it with inval character in the middle */
+  i   = msa->nseq / 2;
+  pos = msa->alen / 2;
+  c   = msa->aseq[i][pos];
+  msa->aseq[i][pos] = '%';
+  if (esl_msa_Digitize(abc, msa, NULL) != eslEINVAL) esl_fatal(msg); /* should detect corruption as normal error */
+  msa->aseq[i][pos] = c;	                               /* restore original         */
+  compare_to_known(msa);
+  if (esl_msa_Digitize(abc, msa, NULL) != eslOK)     esl_fatal(msg); /* should be fine now       */
+  compare_to_known(msa);
+
+  esl_msa_Destroy(msa);
+  return;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+
+#ifdef eslAUGMENT_ALPHABET
+static void
+utest_Textize(ESL_ALPHABET *abc, char *filename)
+{
+  char         *msg = "Textize() unit test failure";
+  ESLX_MSAFILE *mfp = NULL;
+  ESL_MSA      *msa = NULL;
+
+  if (eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &mfp) != eslOK)  esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK)   esl_fatal(msg);
+  if (esl_msa_Textize(msa)         != eslOK)   esl_fatal(msg);
+  compare_to_known(msa);
+
+  eslx_msafile_Close(mfp);
+  esl_msa_Destroy(msa);
+  return;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+static void
+utest_SequenceSubset(ESL_MSA *m1)
+{
+  char    *msg   = "SequenceSubset() unit test failure";
+  ESL_MSA *m2    = NULL;
+  int     *useme = NULL;
+  int      i,j;
+  int      n2;
+
+  /* Make every other sequence (1,3..) get excluded from the subset */
+  useme = malloc(m1->nseq * sizeof(int));
+  for (i = 0, n2 = 0; i < m1->nseq; i++)
+    if (i%2 == 0) { useme[i] = TRUE; n2++; }
+    else          useme[i] = FALSE;
+
+  if (esl_msa_SequenceSubset(m1, useme, &m2) != eslOK) esl_fatal(msg);
+  if (m2->nseq != n2) esl_fatal(msg);
+  
+  for (i = 0, j = 0; i < m1->nseq; i++)
+    {
+      if (useme[i])
+	{
+	  if (strcmp(m1->sqname[i], m2->sqname[j]) != 0) esl_fatal(msg);
+	  if (! (m1->flags & eslMSA_DIGITAL) && (strcmp(m1->aseq[i],   m2->aseq[j])  != 0)) esl_fatal(msg);
+#ifdef eslAUGMENT_ALPHABET
+	  if (  (m1->flags & eslMSA_DIGITAL) && memcmp(m1->ax[i], m2->ax[j], sizeof(ESL_DSQ) * (m1->alen+2)) != 0) esl_fatal(msg);
+#endif
+	  j++;
+	}
+    }  
+  esl_msa_Destroy(m2);
+  free(useme);
+  return;
+}
+
+static void
+utest_MinimGaps(char *tmpfile)
+{
+  char         *msg = "MinimGaps() unit test failure";
+  ESLX_MSAFILE *mfp = NULL;
+  ESL_MSA      *msa = NULL;
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET *abc = NULL;
+#endif
+
+  if (eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK)                                             esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+  if (esl_msa_MinimGaps(msa, NULL, "-~", FALSE) != eslOK) esl_fatal(msg);
+  if (msa->alen        != 45)  esl_fatal(msg); /* orig =47, with one all - column and one all ~ column */
+  if (msa->aseq[0][11] != 'L') esl_fatal(msg); /* L shifted from column 13->12 */
+  if (msa->aseq[0][18] != 'T') esl_fatal(msg); /* T shifted from column 21->19 */
+  esl_msa_Destroy(msa);
+
+#ifdef eslAUGMENT_ALPHABET
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL) esl_fatal(msg);
+  if (eslx_msafile_Open(&abc, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+  if (esl_msa_MinimGaps(msa, NULL, NULL, FALSE) != eslOK) esl_fatal(msg);
+  if (msa->alen            != 45)  esl_fatal(msg); /* orig =47, with one all - column and one all ~ column */
+  if (esl_msa_Textize(msa) != eslOK) esl_fatal(msg);
+  if (msa->aseq[0][11] != 'L') esl_fatal(msg); /* L shifted from column 13->12 */
+  if (msa->aseq[0][18] != 'T') esl_fatal(msg); /* T shifted from column 21->19 */
+  esl_msa_Destroy(msa);
+  esl_alphabet_Destroy(abc);
+#endif
+  return;
+}  
+
+static void
+utest_NoGaps(char *tmpfile)
+{
+  char         *msg = "NoGaps() unit test failure";
+  ESLX_MSAFILE *mfp = NULL;
+  ESL_MSA      *msa = NULL;
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET *abc = NULL;
+#endif
+
+  if (eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK)                                             esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+  if (esl_msa_NoGaps(msa, NULL, "-~") != eslOK) esl_fatal(msg);
+  if (msa->alen        != 40)  esl_fatal(msg); /* orig =47, w/ 7 columns with gaps */
+  if (msa->aseq[0][9]  != 'L') esl_fatal(msg); /* L shifted from column 13->10  */
+  if (msa->aseq[0][16] != 'T') esl_fatal(msg); /* T shifted from column 21->17 */
+  if (msa->aseq[0][39] != 'Y') esl_fatal(msg); /* Y shifted from column 47->40 */
+  esl_msa_Destroy(msa);
+
+#ifdef eslAUGMENT_ALPHABET
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL) esl_fatal(msg);
+  if (eslx_msafile_Open(&abc, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+  if (esl_msa_NoGaps(msa, NULL, NULL) != eslOK) esl_fatal(msg);
+  if (msa->alen        != 40)  esl_fatal(msg); /* orig =47, with one all - column and one all ~ column */
+  if (esl_msa_Textize(msa) != eslOK) esl_fatal(msg);
+  if (msa->aseq[0][9]  != 'L') esl_fatal(msg); /* L shifted from column 13->10  */
+  if (msa->aseq[0][16] != 'T') esl_fatal(msg); /* T shifted from column 21->17 */
+  if (msa->aseq[0][39] != 'Y') esl_fatal(msg); /* Y shifted from column 47->40 */
+  esl_msa_Destroy(msa);
+  esl_alphabet_Destroy(abc);
+#endif
+  return;
+}  
+
+static void
+utest_SymConvert(char *tmpfile)
+{
+  char         *msg = "SymConvert() unit test failure";
+  ESLX_MSAFILE *mfp = NULL;
+  ESL_MSA      *msa = NULL;
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET *abc = NULL;
+#endif
+
+  if (eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK)                                             esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+
+  /* many->one version */
+  if (esl_msa_SymConvert(msa, "VWY", "-")          != eslOK) esl_fatal(msg); /* 6 columns convert to all-gap: now 8/47 */
+  if (esl_msa_MinimGaps(msa, NULL, "-~", FALSE)    != eslOK) esl_fatal(msg); /* now we're 39 columns long */
+  if (msa->alen                                    != 39)    esl_fatal(msg);
+
+  /* many->many version */
+  if (esl_msa_SymConvert(msa, "DEF", "VWY") != eslOK) esl_fatal(msg);
+  if (msa->aseq[0][4]                       != 'V')   esl_fatal(msg);
+  if (msa->aseq[0][5]                       != 'W')   esl_fatal(msg);
+  if (msa->aseq[0][23]                      != 'Y')   esl_fatal(msg); /* F in orig col 29; -5; converted to Y */
+
+  /* bad calls */
+#ifdef eslTEST_THROWING
+  if (esl_msa_SymConvert(msa, "XXX", "XX")  != eslEINVAL) esl_fatal(msg); /* check for clean fail on mismatched args */
+#endif
+  esl_msa_Destroy(msa);
+  
+#ifdef eslAUGMENT_ALPHABET
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL) esl_fatal(msg);
+  if (eslx_msafile_Open(&abc, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &msa) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+#ifdef eslTEST_THROWING
+  if (esl_msa_SymConvert(msa, "Tt", "Uu") != eslEINVAL) esl_fatal(msg); /* must cleanly fail on digital mode msa */
+#endif
+  esl_msa_Destroy(msa);
+  esl_alphabet_Destroy(abc);
+#endif
+  return;
+}
+
+/* Exercise a boundary case: zero length MSA (alen=0) */
+/* Given an input *digital* MSA as a starting point, we clone it, 
+ * column subset it to zero length, then make sure that 
+ * various MSA functions operate correctly on it;
+ * then we textize it and test it in text mode; then we 
+ * digitize it again, and throw it away.
+ * (The input <msa> is unchanged.)
+ */
+static void
+utest_ZeroLengthMSA(const char *tmpfile)
+{
+  char         *msg      = "zero length msa unit test failed";
+  ESLX_MSAFILE *mfp      = NULL;
+  ESL_MSA      *z1       = NULL;
+  ESL_MSA      *z2       = NULL;
+  ESL_MSA      *z3       = NULL;
+  int          *useme    = NULL;
+  int           nuseme   = 0;
+  int           i;
+  char          errbuf[eslERRBUFSIZE];
+
+  /* Read a text mode alignment from the tmpfile */
+  if (eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &z1) != eslOK)                                              esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+
+  /* make an alen=0 text alignment by column subsetting */
+  nuseme = ESL_MAX(z1->alen, z1->nseq);
+  if ((useme = malloc(sizeof(int) * nuseme)) == NULL)  esl_fatal(msg);
+  for (i = 0; i < z1->alen; i++) useme[i] = 0;
+  if (esl_msa_ColumnSubset(z1, errbuf, useme) != eslOK) esl_fatal(msg);
+
+  /* These should all no-op if alen=0*/
+  if (esl_msa_MinimGaps(z1, NULL, "-", FALSE) != eslOK) esl_fatal(msg);
+  if (esl_msa_NoGaps(z1, NULL, "-")           != eslOK) esl_fatal(msg);
+  if (esl_msa_SymConvert(z1,"RY","NN")        != eslOK) esl_fatal(msg);
+  
+  /* test sequence subsetting by removing the first sequence */
+  for (i = 1; i < z1->nseq; i++) useme[i] = 1;  
+  if (esl_msa_SequenceSubset(z1, useme, &z2) != eslOK) esl_fatal(msg);
+  esl_msa_Destroy(z1);
+  /* keep z2; we'll compare it to z3 in the end */
+      
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET *abc;
+
+  /* Now read the same alignment, in digital mode */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL) esl_fatal(msg);
+  if (eslx_msafile_Open(&abc, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(mfp, &z1) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(mfp);
+
+  /* Now make an alen=0 alignment in digital mode */
+  for (i = 0; i < z1->alen; i++) useme[i] = 0;
+  if (esl_msa_ColumnSubset(z1, errbuf, useme) != eslOK) esl_fatal(msg);
+
+  /* again these should all no-op if alen=0*/
+  if (esl_msa_MinimGaps(z1, NULL, NULL, FALSE) != eslOK) esl_fatal(msg);
+  if (esl_msa_NoGaps(z1, NULL, NULL)           != eslOK) esl_fatal(msg);
+  /* SymConvert throws EINVAL on a digital mode alignment */
+
+  /* test sequence subsetting by removing the first sequence */
+  for (i = 1; i < z1->nseq; i++) useme[i] = 1;  
+  if (esl_msa_SequenceSubset(z1, useme, &z3) != eslOK) esl_fatal(msg);
+  esl_msa_Destroy(z1);
+
+  if ((z1 = esl_msa_Clone(z3))        == NULL)  esl_fatal(msg); /* z1 is now alen=0, digital */
+  if (esl_msa_Textize(z3)             != eslOK) esl_fatal(msg); /* convert z3 back to text mode */
+  if (esl_msa_Compare(z2, z3)         != eslOK) esl_fatal(msg); /* compare in text mode */
+  if (esl_msa_Digitize(abc, z2, NULL) != eslOK) esl_fatal(msg); /* now z2 is digital */
+  if (esl_msa_Compare(z1, z2)         != eslOK) esl_fatal(msg); /* compare digital mode z1,z2 */
+
+  esl_alphabet_Destroy(abc);
+  esl_msa_Destroy(z1);
+  esl_msa_Destroy(z3);
+#endif /*eslAUGMENT_ALPHABET*/
+
+  esl_msa_Destroy(z2);
+  free(useme);
+}
+
+#endif /*eslMSA_TESTDRIVE*/
+/*------------------------ end of unit tests --------------------------------*/
+
+
+/*****************************************************************************
+ * 7. Test driver
+ *****************************************************************************/
+#ifdef eslMSA_TESTDRIVE
+/* 
+ * gcc -g -Wall -o esl_msa_utest -I. -DeslMSA_TESTDRIVE -DAUGMENT_KEYHASH esl_msa.c esl_keyhash.c easel.c -lm
+ * gcc -g -Wall -o esl_msa_utest -I. -DeslMSA_TESTDRIVE -DAUGMENT_ALPHABET esl_msa.c esl_alphabet.c easel.c -lm
+ * gcc -g -Wall -o esl_msa_utest -I. -DeslMSA_TESTDRIVE -DAUGMENT_SSI esl_msa.c esl_ssi.c easel.c -lm
+ * gcc -g -Wall -o esl_msa_utest -L. -I. -DeslMSA_TESTDRIVE esl_msa.c -leasel -lm
+ * gcc -g -Wall -o esl_msa_utest -L. -I. -DeslTEST_THROWING -DeslMSA_TESTDRIVE esl_msa.c -leasel -lm
+ * ./msa_utest
+ */
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#ifdef eslAUGMENT_KEYHASH
+#include "esl_keyhash.h"
+#endif
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_SSI
+#include "esl_ssi.h"
+#endif
+#include "esl_msa.h"
+
+
+int
+main(int argc, char **argv)
+{
+  ESLX_MSAFILE   *mfp          = NULL;
+  ESL_MSA        *msa          = NULL;
+  FILE           *fp           = NULL;
+  char            tmpfile[16]  = "esltmpXXXXXX"; /* tmpfile template */
+#ifdef eslAUGMENT_ALPHABET
+  ESL_ALPHABET   *abc          = NULL;
+#endif
+
+#ifdef eslTEST_THROWING
+  esl_exception_SetHandler(&esl_nonfatal_handler);
+#endif
+
+  /* Create a known Stockholm test alignment in a tempfile.
+   */
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal("failed to create tmpfile");
+  write_known_msa(fp);
+  fclose(fp);
+
+  /* Read it back in for use in tests.
+   */
+  if (eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK) esl_fatal("Failed to open MSA tmp file");
+  if (eslx_msafile_Read(mfp, &msa)                                             != eslOK) esl_fatal("Failed to read MSA tmp file");
+  eslx_msafile_Close(mfp);
+
+  /* Unit tests
+   */
+  utest_Create();
+  utest_Destroy();
+  utest_Expand();
+  utest_SequenceSubset(msa);
+  utest_MinimGaps(tmpfile);
+  utest_NoGaps(tmpfile);
+  utest_SymConvert(tmpfile);
+  utest_ZeroLengthMSA(tmpfile);	/* this tests in digital mode too if eslAUGMENT_ALPHABET */
+  esl_msa_Destroy(msa);
+
+#ifdef eslAUGMENT_ALPHABET
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)                                      esl_fatal("alphabet creation failed");
+  if (eslx_msafile_Open(&abc, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &mfp) != eslOK)  esl_fatal("MSA digital open failed");
+  if (eslx_msafile_Read(mfp, &msa) != eslOK)  esl_fatal("MSA digital read failed");
+  eslx_msafile_Close(mfp);
+
+  utest_CreateDigital(abc);
+  utest_Digitize(abc, tmpfile);
+  utest_Textize(abc, tmpfile);
+
+  esl_alphabet_Destroy(abc);
+  esl_msa_Destroy(msa);
+#endif
+
+  remove(tmpfile);
+  exit(0);	/* success  */
+}
+#endif /*eslMSA_TESTDRIVE*/
+/*-------------------- end of test driver ---------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *    
+ * SVN $Id: esl_msa.c 913 2014-06-04 00:40:12Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msa.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.h
new file mode 100755
index 0000000..7fcd1c9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.h
@@ -0,0 +1,215 @@
+/* Multiple sequence alignments 
+ */
+#ifndef eslMSA_INCLUDED
+#define eslMSA_INCLUDED
+
+#include <stdio.h>
+
+#include "esl_alphabet.h"	/* digital alphabets                         */
+#include "esl_keyhash.h"	/* string hashes, for mapping uniq seq names */
+#include "esl_ssi.h"		/* indexes of large flatfiles on disk        */
+
+/* The following constants define the Pfam/Rfam cutoff set we propagate
+ * from Stockholm format msa's into HMMER and Infernal models.
+ */
+/*::cexcerpt::msa_cutoffs::begin::*/
+#define eslMSA_TC1     0
+#define eslMSA_TC2     1
+#define eslMSA_GA1     2
+#define eslMSA_GA2     3
+#define eslMSA_NC1     4
+#define eslMSA_NC2     5
+#define eslMSA_NCUTS   6
+/*::cexcerpt::msa_cutoffs::end::*/
+
+/* Object: ESL_MSA
+ * 
+ * A multiple sequence alignment.
+ */
+typedef struct {
+  /* Mandatory information associated with the alignment.
+   * (The important stuff.)
+   */
+  /*::cexcerpt::msa_mandatory::begin::*/
+  char  **aseq;       /* alignment itself, [0..nseq-1][0..alen-1], \0-terminated */
+  char  **sqname;     /* sequence names [0..nseq-1][], \0-terminated             */
+  double *wgt;        /* sequence weights [0..nseq-1], default 1.0               */
+  int64_t alen;       /* length of alignment (columns); or (if growable) -1      */
+  int     nseq;       /* number of seqs in alignment; or (if growable) blocksize */
+  int     flags;      /* flags for what info has been set                        */
+  /*::cexcerpt::msa_mandatory::end::*/
+
+#ifdef eslAUGMENT_ALPHABET
+  /* When augmented w/ digital alphabets, we can store pre-digitized data in
+   * ax[][], instead of the text info in aseq[][].
+   */
+  ESL_ALPHABET  *abc;    	/* reference ptr to alphabet            */
+  ESL_DSQ      **ax;		/* digitized aseqs [0..nseq-1][1..alen] */
+#endif
+
+  /* Optional information that we understand, and that we might have.
+   * (The occasionally useful stuff.)
+   */
+  /*::cexcerpt::msa_optional::begin::*/
+  char  *name;      /* name of alignment, or NULL                                           */
+  char  *desc;      /* description of alignment, or NULL                                    */
+  char  *acc;       /* accession of alignment, or NULL                                      */
+  char  *au;        /* "author" information, or NULL                                        */
+  char  *ss_cons;   /* consensus sec structure, or NULL;  [0..alen-1], even in digital mode */
+  char  *sa_cons;   /* consensus surface access, or NULL; [0..alen-1], even in digital mode */
+  char  *pp_cons;   /* consensus posterior prob, or NULL; [0..alen-1], even in digital mode */
+  char  *rf;        /* reference coord system, or NULL;   [0..alen-1], even in digital mode */
+  char  *mm;        /* model mask, or NULL;   [0..alen-1], even in digital mode             */
+  char **sqacc;     /* accession numbers for sequences i                                    */
+  char **sqdesc;    /* description lines for sequences i                                    */
+  char **ss;        /* per-seq secondary structures, or NULL                                */
+  char **sa;        /* per-seq surface accessibilities, or NULL                             */
+  char **pp;        /* posterior prob per residue, or NULL                                  */
+  float  cutoff[eslMSA_NCUTS];  /* NC/TC/GA cutoffs propagated to Pfam/Rfam                 */
+  int    cutset[eslMSA_NCUTS];  /* TRUE if a cutoff is set; else FALSE                      */
+  /*::cexcerpt::msa_optional::end::*/
+
+  /* Info needed for maintenance of the data structure 
+   * (internal stuff.)
+   */
+  int      sqalloc;		/* # seqs currently allocated for           */
+  int64_t *sqlen;               /* individual seq lengths during parsing    */
+  int64_t *sslen;               /* individual ss lengths during parsing     */
+  int64_t *salen;               /* individual sa lengths during parsing     */
+  int64_t *pplen;               /* individual pp lengths during parsing     */
+  int      lastidx;		/* last index we saw; use for guessing next */
+
+  /* Optional information, especially Stockholm markup.
+   * (The stuff we don't understand, but we can regurgitate.)
+   *
+   * That is, we know what type of information it is, but it's
+   * either (interpreted as) free-text comment, or it's Stockholm 
+   * markup with unfamiliar tags.
+   */
+  char  **comment;              /* free text comments, or NULL      */
+  int     ncomment;		/* number of comment lines          */
+  int     alloc_ncomment;	/* number of comment lines alloc'ed */
+
+  char  **gf_tag;               /* markup tags for unparsed #=GF lines  */
+  char  **gf;                   /* annotations for unparsed #=GF lines  */
+  int     ngf;			/* number of unparsed #=GF lines        */
+  int     alloc_ngf;		/* number of gf lines alloc'ed          */
+
+  char  **gs_tag;               /* markup tags for unparsed #=GS lines     */
+  char ***gs;                   /* [0..ngs-1][0..nseq-1][free text] markup */
+  int     ngs;                  /* number of #=GS tag types                */
+  
+  char  **gc_tag;               /* markup tags for unparsed #=GC lines  */
+  char  **gc;                   /* [0..ngc-1][0..alen-1] markup         */
+  int     ngc;                  /* number of #=GC tag types             */
+
+  char  **gr_tag;               /* markup tags for unparsed #=GR lines     */
+  char ***gr;                   /* [0..ngr-1][0..nseq-1][0..alen-1] markup */
+  int     ngr;			/* number of #=GR tag types                */
+
+  /* Optional augmentation w/ keyhashes. 
+   * This can significantly speed up parsing of large alignments
+   * with many (>1,000) sequences.
+   */
+#ifdef eslAUGMENT_KEYHASH 
+  ESL_KEYHASH  *index;	        /* name ->seqidx hash table */
+  ESL_KEYHASH  *gs_idx;         /* hash of #=GS tag types   */
+  ESL_KEYHASH  *gc_idx;         /* hash of #=GC tag types   */
+  ESL_KEYHASH  *gr_idx;         /* hash of #=GR tag types   */
+#endif /*eslAUGMENT_KEYHASH*/
+
+#ifdef eslAUGMENT_SSI
+  off_t         offset;		/* disk offset to start of 1st line of this MSA's record */
+#endif
+} ESL_MSA;
+
+
+
+/* Flags for msa->flags */
+#define eslMSA_HASWGTS (1 << 0)  /* 1 if wgts were set, 0 if default 1.0's */
+#define eslMSA_DIGITAL (1 << 1)	 /* if ax[][] is used instead of aseq[][]  */  
+
+
+/* Declarations of the API */
+
+/* 1. The ESL_MSA object */
+extern ESL_MSA *esl_msa_Create(int nseq, int64_t alen);
+extern int      esl_msa_Expand(ESL_MSA *msa);
+extern int      esl_msa_Copy (const ESL_MSA *msa, ESL_MSA *new);
+extern ESL_MSA *esl_msa_Clone(const ESL_MSA *msa);
+extern void     esl_msa_Destroy(ESL_MSA *msa);
+
+/* 2. Digital mode MSA's (augmentation: alphabet) */
+#ifdef eslAUGMENT_ALPHABET
+extern int      esl_msa_GuessAlphabet(const ESL_MSA *msa, int *ret_type);
+extern ESL_MSA *esl_msa_CreateDigital(const ESL_ALPHABET *abc, int nseq, int64_t alen);
+extern int      esl_msa_Digitize(const ESL_ALPHABET *abc, ESL_MSA *msa, char *errmsg);
+extern int      esl_msa_Textize(ESL_MSA *msa);
+extern int      esl_msa_ConvertDegen2X(ESL_MSA *msa);
+#endif /*eslAUGMENT_ALPHABET*/
+
+/* 3. Setting or checking data fields in an ESL_MSA */
+extern int esl_msa_SetName          (ESL_MSA *msa, const char *s, esl_pos_t n);
+extern int esl_msa_SetDesc          (ESL_MSA *msa, const char *s, esl_pos_t n);
+extern int esl_msa_SetAccession     (ESL_MSA *msa, const char *s, esl_pos_t n);
+extern int esl_msa_SetAuthor        (ESL_MSA *msa, const char *s, esl_pos_t n);
+extern int esl_msa_SetSeqName       (ESL_MSA *msa, int idx, const char *s, esl_pos_t n);
+extern int esl_msa_SetSeqAccession  (ESL_MSA *msa, int idx, const char *s, esl_pos_t n);
+extern int esl_msa_SetSeqDescription(ESL_MSA *msa, int idx, const char *s, esl_pos_t n);
+extern int esl_msa_SetDefaultWeights(ESL_MSA *msa);
+
+extern int esl_msa_FormatName          (ESL_MSA *msa, const char *name,    ...);
+extern int esl_msa_FormatDesc          (ESL_MSA *msa, const char *desc,    ...);
+extern int esl_msa_FormatAccession     (ESL_MSA *msa, const char *acc,     ...);
+extern int esl_msa_FormatAuthor        (ESL_MSA *msa, const char *author,  ...);
+extern int esl_msa_FormatSeqName       (ESL_MSA *msa, int idx, const char *name, ...);
+extern int esl_msa_FormatSeqAccession  (ESL_MSA *msa, int idx, const char *acc, ...);
+extern int esl_msa_FormatSeqDescription(ESL_MSA *msa, int idx, const char *desc, ...);
+
+extern int esl_msa_AddComment(ESL_MSA *msa, char *p,   esl_pos_t n);
+extern int esl_msa_AddGF     (ESL_MSA *msa, char *tag, esl_pos_t taglen,            char *value, esl_pos_t vlen);
+extern int esl_msa_AddGS     (ESL_MSA *msa, char *tag, esl_pos_t taglen, int sqidx, char *value, esl_pos_t vlen);
+extern int esl_msa_AppendGC  (ESL_MSA *msa, char *tag, char *value);
+extern int esl_msa_AppendGR  (ESL_MSA *msa, char *tag, int sqidx, char *value);
+
+extern int esl_msa_CheckUniqueNames(const ESL_MSA *msa);
+
+/* 4. Miscellaneous functions for manipulating MSAs */
+extern int esl_msa_ReasonableRF(ESL_MSA *msa, double symfrac, int useconsseq, char *rfline);
+extern int esl_msa_MarkFragments(ESL_MSA *msa, double fragthresh);
+extern int esl_msa_SequenceSubset(const ESL_MSA *msa, const int *useme, ESL_MSA **ret_new);
+extern int esl_msa_ColumnSubset (ESL_MSA *msa, char *errbuf, const int *useme);
+extern int esl_msa_MinimGaps    (ESL_MSA *msa, char *errbuf, const char *gaps, int consider_rf);
+extern int esl_msa_MinimGapsText(ESL_MSA *msa, char *errbuf, const char *gaps, int consider_rf, int fix_bps);
+extern int esl_msa_NoGaps       (ESL_MSA *msa, char *errbuf, const char *gaps);
+extern int esl_msa_NoGapsText   (ESL_MSA *msa, char *errbuf, const char *gaps, int fix_bps);
+extern int esl_msa_SymConvert(ESL_MSA *msa, const char *oldsyms, const char *newsyms);
+extern int esl_msa_Checksum(const ESL_MSA *msa, uint32_t *ret_checksum);
+
+extern int esl_msa_RemoveBrokenBasepairsFromSS(char *ss, char *errbuf, int len, const int *useme);
+extern int esl_msa_RemoveBrokenBasepairs(ESL_MSA *msa, char *errbuf, const int *useme);
+#ifdef eslAUGMENT_KEYHASH
+extern int esl_msa_Hash(ESL_MSA *msa);
+#endif
+
+/* 5. Debugging, testing, development */
+extern int      esl_msa_Validate(const ESL_MSA *msa, char *errmsg);
+extern ESL_MSA *esl_msa_CreateFromString(const char *s, int fmt);
+extern int      esl_msa_Compare         (ESL_MSA *a1, ESL_MSA *a2);
+extern int      esl_msa_CompareMandatory(ESL_MSA *a1, ESL_MSA *a2);
+extern int      esl_msa_CompareOptional (ESL_MSA *a1, ESL_MSA *a2);
+#endif /*eslMSA_INCLUDED*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $URL$
+ * SVN $Id: esl_msa.h 913 2014-06-04 00:40:12Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa.tex
new file mode 100755
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--- /dev/null
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@@ -0,0 +1,282 @@
+The \eslmod{msa} module reads and writes multiple sequence alignment
+files. The API is summarized in Table~\ref{tbl:msa_api}.
+
+The module uses two objects. An \ccode{ESL\_MSA} holds a multiple
+sequence alignment. A \ccode{ESL\_MSAFILE} is an alignment file,
+opened for input. No object is needed for output of an alignment file;
+a normal C \ccode{FILE} stream is used for output.  
+
+Augmentation with the \eslmod{alphabet} module allows MSAs to be input
+as digital Easel sequence data (\ccode{ESL\_DSQ}), or converted to and
+from digital data. Normally aligned sequences are stored in an
+\ccode{ESL\_MSA} just as text strings, exactly as they appeared in the
+input file.
+
+Augmentation with the \eslmod{ssi} module allows rapid random access
+of SSI-indexed large MSA database files like Pfam or Rfam. When
+augmented, the \ccode{esl\_msafile\_Open()} and
+\ccode{esl\_msafile\_OpenDigital()} functions automatically open an
+accompanying SSI index, if it is present.
+
+Augmentation with the \eslmod{keyhash} module allows much better
+performance on parsing large Stockholm alignment files, by
+accelerating indexing of some internal data structures.
+
+
+% Table generated by autodoc -t esl_msa.c (so don't edit here, edit esl_msa.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The ESL\_MSA object                                           }\\
+\hyperlink{func:esl_msa_Create()}{\ccode{esl\_msa\_Create()}} & Creates an \ccode{ESL\_MSA} object.\\
+\hyperlink{func:esl_msa_CreateFromString()}{\ccode{esl\_msa\_CreateFromString()}} & Creates a small \ccode{ESL\_MSA} from a test case string.\\
+\hyperlink{func:esl_msa_Expand()}{\ccode{esl\_msa\_Expand()}} & Reallocate for more sequences.\\
+\hyperlink{func:esl_msa_Destroy()}{\ccode{esl\_msa\_Destroy()}} & Frees an \ccode{ESL\_MSA}.\\
+\apisubhead{The ESL\_MSAFILE object                                       }\\
+\hyperlink{func:eslx_msafile_Open()}{\ccode{eslx\_msafile\_Open()}} & Open an MSA file for input.\\
+\hyperlink{func:eslx_msafile_Close()}{\ccode{eslx\_msafile\_Close()}} & Closes an open MSA file.\\
+\apisubhead{Digital mode MSA's (augmentation: alphabet)}\\
+\hyperlink{func:esl_msa_GuessAlphabet()}{\ccode{esl\_msa\_GuessAlphabet()}} & Guess alphabet of MSA.\\
+\hyperlink{func:esl_msa_CreateDigital()}{\ccode{esl\_msa\_CreateDigital()}} & Create a digital \ccode{ESL\_MSA}.\\
+\hyperlink{func:esl_msa_Digitize()}{\ccode{esl\_msa\_Digitize()}} & Digitizes an msa, converting it from text mode.\\
+\hyperlink{func:esl_msa_Textize()}{\ccode{esl\_msa\_Textize()}} & Convert a digital msa to text mode.\\
+\hyperlink{func:eslx_msafile_GuessAlphabet()}{\ccode{eslx\_msafile\_GuessAlphabet()}} & Guess what kind of sequences the alignment file contains.\\
+\hyperlink{func:eslx_msafile_OpenDigital()}{\ccode{eslx\_msafile\_OpenDigital()}} & Open an msa file for digital input.\\
+\hyperlink{func:eslx_msafile_SetDigital()}{\ccode{eslx\_msafile\_SetDigital()}} & Set an open \ccode{ESL\_MSAFILE} to read in digital mode.\\
+\apisubhead{Random MSA database access (augmentation: ssi)}\\
+\hyperlink{func:eslx_msafile_PositionByKey()}{\ccode{eslx\_msafile\_PositionByKey()}} & Use SSI to reposition file to start of named MSA.\\
+
+\apisubhead{General i/o API, all alignment formats                                 }\\
+%\hyperlink{func:esl_msa_Read()}{\ccode{esl\_msa\_Read()}} & Read next MSA from a file.\\
+%\hyperlink{func:esl_msa_Write()}{\ccode{esl\_msa\_Write()}} & Write an MSA to a file.\\
+%\hyperlink{func:esl_msa_GuessFileFormat()}{\ccode{esl\_msa\_GuessFileFormat()}} & Determine the format of an open MSA file.\\
+\apisubhead{Miscellaneous functions for manipulating MSAs}\\
+\hyperlink{func:esl_msa_SequenceSubset()}{\ccode{esl\_msa\_SequenceSubset()}} & Select subset of sequences into a smaller MSA.\\
+\hyperlink{func:esl_msa_ColumnSubset()}{\ccode{esl\_msa\_ColumnSubset()}} & Remove a selected subset of columns from the MSA
+\\
+\hyperlink{func:esl_msa_MinimGaps()}{\ccode{esl\_msa\_MinimGaps()}} & Remove columns containing all gym symbols.\\
+\hyperlink{func:esl_msa_NoGaps()}{\ccode{esl\_msa\_NoGaps()}} & Remove columns containing any gap symbol.\\
+\hyperlink{func:esl_msa_SymConvert()}{\ccode{esl\_msa\_SymConvert()}} & Global search/replace of symbols in an MSA.\\
+\hyperlink{func:esl_msa_AddComment()}{\ccode{esl\_msa\_AddComment()}} & Description.\\
+\hyperlink{func:esl_msa_AddGF()}{\ccode{esl\_msa\_AddGF()}} & Description.\\
+\hyperlink{func:esl_msa_AddGS()}{\ccode{esl\_msa\_AddGS()}} & Description.\\
+\hyperlink{func:esl_msa_AppendGC()}{\ccode{esl\_msa\_AppendGC()}} & Description.\\
+\hyperlink{func:esl_msa_AppendGR()}{\ccode{esl\_msa\_AppendGR()}} & Description.\\
+\hyperlink{func:esl_msa_Compare()}{\ccode{esl\_msa\_Compare()}} & Compare two MSAs for equality.\\
+\hyperlink{func:esl_msa_CompareMandatory()}{\ccode{esl\_msa\_CompareMandatory()}} & Compare mandatory subset of MSA contents.\\
+\hyperlink{func:esl_msa_CompareOptional()}{\ccode{esl\_msa\_CompareOptional()}} & Compare optional subset of MSA contents.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{msa} API.}
+\label{tbl:msa_api}
+\end{table}
+
+
+
+
+\subsection{Example of using msa}
+
+Here's an example of opening an MSA file and reading one or more
+alignments from it:
+
+%%\input{cexcerpts/msa_example}
+
+Some things about the use of the API in the example are worth noting:
+
+\begin{enumerate}
+\item The format of the alignment file can either be automatically
+      detected, or set by the caller when the file is opened.
+      Autodetection is invoked when the caller passes a format code
+      (here, \ccode{fmt}) of
+      \ccode{eslMSAFILE\_UNKNOWN}. Autodetection is a ``best effort''
+      guess, but it is not 100\% reliable - especially if the input
+      file isn't an alignment file at all. So autodetection is a
+      convenient default, but the caller will probably want to provide
+      a way for the user to specify the input file format and override
+      autodetection, just in case.
+
+\item Errors can occur either in opening or reading the file that you
+      must check for. This error checking could be as simple as making
+      sure that \ccode{esl\_msafile\_Open()} and
+      \ccode{esl\_msa\_Read()} returned \ccode{eslOK}, but the example
+      shows how to catch all the normal errors returned by these
+      calls, and how to format some reasonably informative error
+      messages for the user. For example, when parsing the file fails
+      and \ccode{esl\_msa\_Read()} returns an \ccode{eslEFORMAT}
+      error, information about the problem is stored in \ccode{afp}:
+      the caller can use \ccode{afp->linenumber}, \ccode{afp->buf},
+      and \ccode{afp->errbuf} to get the line number in the file that
+      the error occurred, the text that was on that line, and a short
+      error message about what was wrong with it, respectively.
+
+\item To output (write) an alignment, open a normal C \ccode{FILE}
+      stream, write the alignment(s) with \ccode{esl\_msa\_Write()},
+      and close the stream with C's \ccode{fclose()}. Here, the
+      example is regurgitating the alignments it reads to
+      \ccode{stdout}.
+
+\item Note the example of how to compile with \eslmod{keyhash}
+      augmentation, just by defining \ccode{-DeslAUGMENT\_KEYHASH} and
+      adding the \ccode{esl\_keyhash.c} file when you compile. The
+      effects of \eslmod{keyhash} augmentation are all internal the
+      \eslmod{msa} module, rather than providing any new functions.
+\end{enumerate}
+
+\subsection{Accessing alignment data}
+
+The information in the \ccode{ESL\_MSA} object is meant to be accessed
+directly, so you need to know what it contains. This object is defined
+and documented in \ccode{esl\_msa.h}. It contains various information,
+as follows:
+
+\subsubsection{Important/mandatory information}
+
+The following information is always available in an MSA (except
+digital-mode alignments, which replace \ccode{aseq[][]} with
+\ccode{ax[][]}, as described later):
+
+\input{cexcerpts/msa_mandatory}
+
+The alignment contains \ccode{nseq} sequences, each of which contains
+\ccode{alen} characters.
+
+\ccode{aseq[i]} is the i'th aligned sequence, numbered
+\ccode{0..nseq-1}. 
+
+\ccode{aseq[i][j]} is the j'th character in aligned sequence i,
+numbered \ccode{0..alen-1}.
+
+\ccode{sqname[i]} is the name of the i'th sequence.
+
+\ccode{wgt[i]} is a non-negative real-valued weight for sequence
+i. This defaults to 1.0 if the alignment file did not provide weight
+data. You can determine whether weight data was parsed by checking
+\ccode{(flags \& eslMSA\_HASWGTS)}.
+
+
+
+\subsubsection{Optional information}
+
+The following information is optional. It is usually only provided by
+annotated Stockholm alignments (for instance, Pfam and Rfam database
+alignments):
+
+\input{cexcerpts/msa_optional}
+
+These should be self-explanatory; but for more information, see the
+Stockholm format documentation. Each of these fields corresponds to
+Stockholm markup.
+
+These pointers will be NULL for any optional annotation that was not
+present in the alignment file. This is true at any level; for
+instance, \ccode{ss} will be NULL if no secondary structures are
+available for any sequence, and \ccode{ss[i]} will be NULL if some
+secondary structures are available, but not for sequence i.
+
+The \ccode{cutoff} array contains Pfam/Rfam curated trusted, gathering
+and noise score cutoffs. They are indexed as follows:
+
+\input{cexcerpts/msa_cutoffs}
+
+
+
+\subsubsection{Unparsed information}
+
+The MSA object also stores additional ``unparsed'' information from
+Stockholm files; that is, tags that are present but not recognized by
+the MSA module. This information is stored so that it may be
+regurgitated if the application needs to faithfully output the entire
+alignment file, even the bits that it didn't understand. If you need
+to access unparsed Stockholm tags, see the comments in
+\ccode{esl\_msa.h}.
+
+
+
+\subsubsection{Off-by-one issues in indexing alignment columns}
+
+With one exception, all arrays over alignment columns are normal C
+string arrays, indexed \ccode{0..alen-1}. This includes optional
+information such as \ccode{msa->rf[]} (the reference annotation line)
+and \ccode{msa->cs[]} (the consensus structure annotation line).
+
+The exception is a digitized sequence alignment, \ccode{msa->ax[][]}
+(see below), where columns are indexed 1..alen and sentinel bytes at
+positions 0 and alen+1, following Easel's convention for digitized
+sequences.
+
+Thus, when your code is manipulating a digitized alignment and using
+optional information like the reference annotation line or the
+consensus structure line, you must be careful of the off-by-one
+difference in how the two types of data are indexed.
+
+\subsection{Accepted formats}
+
+Currently, the MSA module only parses Stockholm format. 
+
+Stockholm format and other alignment formats are documented in a later
+chapter.
+
+\subsection{Digital versus text representation}
+
+The multiple alignment is normally stored as ASCII text symbols in a
+2D array \ccode{char ** aseq[0..nseq-1][0..alen-1]}. These strings are
+stored exactly as they appeared in the original file; they aren't
+converted to upper or lower case, for example.  
+
+Optionally, when augmented with the \eslmod{alphabet} module, the
+multiple alignment may alternatively be stored as digital data in an
+Easel internal alphabet. This enables more consistent, robust, and
+speedy handling of the sequence data.
+
+An \ccode{ESL\_MSA} may therefore be in either \esldef{text mode} or
+\esldef{digital mode}. Text mode is the default behavior. An
+\ccode{ESL\_MSA} is in digital mode if its \ccode{eslMSA\_DIGITAL} flag
+is up (\ccode{msa->flags \& eslMSA\_DIGITAL} is \ccode{TRUE}). When the
+alignment data are in digital mode, they are stored internally as a 2D
+digital sequence array \ccode{ESL\_DSQ ** ax[0..nseq-1][1..alen]}, and
+the \ccode{aseq} field is \ccode{NULL}.
+
+To use a digital internal representation, it is most efficient to read
+directly as digital data, using a \ccode{esl\_msafile\_OpenDigital()}
+call in place of \ccode{esl\_msafile\_Open()}. You can also change the
+mode of an MSA from text to digital using
+\ccode{esl\_msa\_Digitize()}, and digital to text using
+\ccode{esl\_msa\_Textize()}.
+
+Suppose you want to open an alignment file and read its alignments in
+digital mode, but you don't know whether the file contains DNA or
+protein alignments. You can't use \ccode{esl\_msafile\_OpenDigital()}
+unless you have an alphabet; but you can't see the alphabet until
+you've read an alignment. \Easel provides
+\ccode{esl\_msafile\_GuessAlphabet()} to peek at the first alignment
+and guess its alphabet\footnote{Because the stream that alignments are
+being read from may be non-rewindable, the implementation of
+\ccode{esl\_msafile\_GuessAlphabet()} reads and caches the first
+alignment.}, and \ccode{esl\_msafile\_SetDigital()} to set an
+already-open \ccode{ESL\_MSAFILE} so that all subsequent alignments
+are read in digital mode. For example: 
+
+%%\input{cexcerpts/msa_example2}
+
+
+\subsection{Reading from stdin or gzip-compressed files}
+
+The module can read compressed alignment files.  If the
+\ccode{filename} passed to \ccode{esl\_msafile\_Open()} ends in
+\ccode{.gz}, the file is assumed to be compressed with gzip. Instead
+of opening it normally, \ccode{esl\_msafile\_Open()} opens it as a pipe
+through \ccode{gzip -dc}. Obviously this only works on a POSIX
+system -- pipes have to work, specifically the \ccode{popen()} system
+call -- and \ccode{gzip} must be installed and in the PATH.
+
+The module can also read from a standard input pipe. If the
+\ccode{filename} passed to \ccode{esl\_msafile\_Open()} is \ccode{-},
+the alignment is read from \ccode{STDIN} rather than from a file.
+
+Because of the way format autodetection works, you cannot use it when
+reading from a pipe or compressed file. The application must know the
+appropriate format and pass that code it calls
+\ccode{esl\_msafile\_Open()}.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/.dropbox.attr
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+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/.dropbox.attr
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+{}
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diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/00MANIFEST b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/00MANIFEST
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+#                                    in whole file     in last alignment
+#                                    ----------------  -----------------
+#                                    nali  nseq  nres    nseq    nres
+#                                    ----  ----  ----    ----    ----
+selex.good.1    eslOK       amino       1     5    20       5      20 
+selex.good.2    eslOK       amino       1     5    40       5      40 
+selex.good.3    eslOK       amino       1     7    40       7      40 
+#
+selex.bad.1	eslEOF      /no alignment data found/            
+selex.bad.2     eslEFORMAT  /\(line 11\): expected \d+ lines/    
+selex.bad.3     eslEFORMAT  /\(line 1\): #=SS must follow/
+selex.bad.4     eslEFORMAT  /\(line 4\): #=SA must follow/
+selex.bad.5     eslEFORMAT  /\(line 7\): too many #=RF lines/   
+selex.bad.6     eslEFORMAT  /\(line 7\): too many #=CS lines/   
+selex.bad.7     eslEFORMAT  /\(line 7\): too many #=SS lines/   
+selex.bad.8     eslEFORMAT  /\(line 5\): too many #=SA lines/   
+selex.bad.9     eslEFORMAT  /\(line 8\): #=RF line isn't in expected order/   
+selex.bad.10    eslEFORMAT  /\(line 9\): #=CS line isn't in expected order/   
+selex.bad.11    eslEFORMAT  /\(line 9\): #=SS line isn't in expected order/   
+selex.bad.12    eslEFORMAT  /\(line 8\): #=SA line isn't in expected order/   
+selex.bad.13    eslEFORMAT  /\(line 11\): seq line isn't in expected order/   
+selex.bad.14    eslEFORMAT  /\(line 10\): expected seq \S+, saw/   
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.1
new file mode 100755
index 0000000..b2d2ef5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.1
@@ -0,0 +1,4 @@
+
+# No alignment data.
+# Should return EOF.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.10 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.10
new file mode 100755
index 0000000..d1feae1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.10
@@ -0,0 +1,16 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+#=CS  xxxxxxxxxxxxxxxxxxxx
+
+
+#=CS  xxxxxxxxxxxxxxxxxxxx
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.11 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.11
new file mode 100755
index 0000000..fa41f71
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.11
@@ -0,0 +1,15 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+
+seq1  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.12 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.12
new file mode 100755
index 0000000..3379697
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.12
@@ -0,0 +1,15 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+#=SA  xxxxxxxxxxxxxxxxxxxx
+
+#=SA  xxxxxxxxxxxxxxxxxxxx
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.13 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.13
new file mode 100755
index 0000000..5e4ffee
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.13
@@ -0,0 +1,15 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.14 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.14
new file mode 100755
index 0000000..7caa449
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.14
@@ -0,0 +1,14 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seqX  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.2 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.2
new file mode 100755
index 0000000..24a2e7c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.2
@@ -0,0 +1,10 @@
+# Number of lines in each block must be the same.
+
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.3 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.3
new file mode 100755
index 0000000..ec6f25e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.3
@@ -0,0 +1,7 @@
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.4 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.4
new file mode 100755
index 0000000..4123f4f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.4
@@ -0,0 +1,10 @@
+# 
+#
+
+#=SA  xxxxxxxxxxxxxxxxxxxx
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.5 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.5
new file mode 100755
index 0000000..9f3064f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.5
@@ -0,0 +1,11 @@
+# 
+#
+
+#=RF  xxxxxxxxxxxxxxxxxxxx
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+#=RF  xxxxxxxxxxxxxxxxxxxx
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.6 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.6
new file mode 100755
index 0000000..74bff83
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.6
@@ -0,0 +1,8 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+#=CS  xxxxxxxxxxxxxxxxxxxx
+#=CS  xxxxxxxxxxxxxxxxxxxx
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.7 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.7
new file mode 100755
index 0000000..71d2906
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.7
@@ -0,0 +1,12 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq2  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq3  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq4  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+seq5  ACDEFGHIKLMNPQRSTVWY
+#=SS  xxxxxxxxxxxxxxxxxxxx
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.8 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.8
new file mode 100755
index 0000000..dd7dad0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.8
@@ -0,0 +1,8 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+#=SA  xxxxxxxxxxxxxxxxxxxx
+#=SA  xxxxxxxxxxxxxxxxxxxx
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.9 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.9
new file mode 100755
index 0000000..2417eb0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.bad.9
@@ -0,0 +1,14 @@
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+#=RF  xxxxxxxxxxxxxxxxxxxx
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
+#=RF  xxxxxxxxxxxxxxxxxxxx
+seq1  ACDEFGHIKLMNPQRSTVWY
+seq2  ACDEFGHIKLMNPQRSTVWY
+seq3  ACDEFGHIKLMNPQRSTVWY
+seq4  ACDEFGHIKLMNPQRSTVWY
+seq5  ACDEFGHIKLMNPQRSTVWY
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.1
new file mode 100755
index 0000000..6e970ee
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.1
@@ -0,0 +1,5 @@
+seq1 ACDEFGHIKLMNPQRSTVWY
+seq2 ACDEFGHIKLMNPQRSTVWY
+seq3 ACDEFGHIKLMNPQRSTVWY
+seq4 ACDEFGHIKLMNPQRSTVWY
+seq5 ACDEFGHIKLMNPQRSTVWY
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.2 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.2
new file mode 100755
index 0000000..db72a72
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.2
@@ -0,0 +1,37 @@
+# DOS format (\r\n), and doesn't end in a newline.
+# 
+#=RF xxxxxxxxxxxxxxxxxxxx
+#=CS xxxxxxxxxxxxxxxxxxxx
+seq1 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq2 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq3 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq4 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq5 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+
+#=RF xxxxxxxxxxxxxxxxxxxx
+#=CS xxxxxxxxxxxxxxxxxxxx
+seq1 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq2 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq3 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq4 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
+seq5 ACDEFGHIKLMNPQRSTVWY
+#=SS xxxxxxxxxxxxxxxxxxxx
+#=SA xxxxxxxxxxxxxxxxxxxx
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.3 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.3
new file mode 100755
index 0000000..0facbd5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msa_testfiles/selex/selex.good.3
@@ -0,0 +1,27 @@
+
+#=CS
+#=RF
+seq1 ACDEFGHIKLMNPQRSTVWY
+long_name GHIKLMNPQRSTVWY
+blank_seq_all_gaps 
+seq2 ACDEF---KLMNPQRSTVWY
+seq3 ACDEF...KLMNPQRSTVWY
+# embedded comments ok
+seq4 ACDEFGHIKLMNPQRSTVWY
+ seq5 CDEFGHIKLMNPQRSTVWY
+#=SS 
+#=SA
+
+
+
+#=CS
+#=RF
+seq1 ACDEFGHIKLMNPQRSTVWY
+long_name GHIKLMNPQRSTVWY
+blank_seq_all_gaps 
+seq2 ACDEFGHIKLMNPQRSTVWY
+seq3 ACDEFGHIKLMNPQRSTVWY
+seq4 ACDEFGHIKLMNPQRSTVWY
+seq5 ACDEFGHIKLMNPQRSTVWY
+#=SS 
+#=SA
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.c
new file mode 100755
index 0000000..58f9108
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.c
@@ -0,0 +1,437 @@
+/* Clustering sequences in an MSA by % identity.
+ *
+ * Table of contents:
+ *    1. Single linkage clustering an MSA by %id
+ *    2. Internal functions, interface to the clustering API
+ *    3. Some internal functions needed for regression tests
+ *    4. Unit tests
+ *    5. Test driver
+ *    6. Example
+ *    7. Copyright and license.
+ * 
+ *  Augmentations:
+ *    eslAUGMENT_ALPHABET:  adds support for digital MSAs
+ *  
+ * (Wondering why isn't this just part of the cluster or MSA modules?
+ * esl_cluster itself is a core module, dependent only on easel. MSA
+ * clustering involves at least the distance, cluster, and msa
+ * modules. We're better off separating its functionality away into a
+ * more highly derived module.)
+ */
+#include "esl_config.h"
+
+#include "easel.h"
+#include "esl_cluster.h"
+#include "esl_distance.h"
+#include "esl_msa.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_msacluster.h"
+
+/* These functions are going to get defined in an internal regression 
+ * testing section further below:
+ */
+#if defined(eslMSACLUSTER_REGRESSION) || defined(eslMSAWEIGHT_REGRESSION)
+#include <ctype.h>
+static double squid_distance(char *s1, char *s2);
+#ifdef eslAUGMENT_ALPHABET
+static double squid_xdistance(ESL_ALPHABET *a, ESL_DSQ *x1, ESL_DSQ *x2);
+#endif
+#endif
+
+/* These functions will define linkage between a pair of text or
+ *  digital aseq's: 
+ */
+static int msacluster_clinkage(const void *v1, const void *v2, const void *p, int *ret_link);
+#ifdef eslAUGMENT_ALPHABET
+static int msacluster_xlinkage(const void *v1, const void *v2, const void *p, int *ret_link);
+#endif
+
+/* In digital mode, we'll need to pass the clustering routine two parameters -
+ * %id threshold and alphabet ptr - so make a structure that bundles them.
+ */
+#ifdef eslAUGMENT_ALPHABET
+struct msa_param_s {
+  double        maxid;
+  ESL_ALPHABET *abc;
+};
+#endif
+
+
+/*****************************************************************
+ * 1. Single linkage clustering an MSA by %id
+ *****************************************************************/
+
+/* Function:  esl_msacluster_SingleLinkage()
+ * Synopsis:  Single linkage clustering by percent identity.
+ * Incept:    SRE, Sun Nov  5 10:11:45 2006 [Janelia]
+ *
+ * Purpose:   Perform single link clustering of the sequences in 
+ *            multiple alignment <msa>. Any pair of sequences with
+ *            percent identity $\geq$ <maxid> are linked (using
+ *            the definition from the \eslmod{distance} module).
+ *            
+ *            The resulting clustering is optionally returned in one
+ *            or more of <opt_c>, <opt_nin>, and <opt_nc>.  The
+ *            <opt_c[0..nseq-1]> array assigns a cluster index
+ *            <(0..nc-1)> to each sequence. For example, <c[4] = 1>
+ *            means that sequence 4 is assigned to cluster 1.  The
+ *            <opt_nin[0..nc-1]> array is the number of sequences
+ *            in each cluster. <opt_nc> is the number of clusters.
+ *
+ *            Importantly, this algorithm runs in $O(N)$ memory, and
+ *            produces one discrete clustering. Compare to
+ *            <esl_tree_SingleLinkage()>, which requires an $O(N^2)$ 
+ *            adjacency matrix, and produces a hierarchical clustering
+ *            tree.
+ *            
+ *            The algorithm is worst case $O(LN^2)$ time, for $N$
+ *            sequences of length $L$. However, the worst case is no
+ *            links at all, and this is unusual. More typically, time
+ *            scales as about $LN \log N$. The best case scales as
+ *            $LN$, when there is just one cluster in a completely
+ *            connected graph.
+ *            
+ * Args:      msa     - multiple alignment to cluster
+ *            maxid   - pairwise identity threshold: cluster if $\geq$ <maxid>
+ *            opt_c   - optRETURN: cluster assignments for each sequence, [0..nseq-1]
+ *            opt_nin - optRETURN: number of seqs in each cluster, [0..nc-1] 
+ *            opt_nc  - optRETURN: number of clusters        
+ *
+ * Returns:   <eslOK> on success; the <opt_c[0..nseq-1]> array contains
+ *            cluster indices <0..nc-1> assigned to each sequence; the
+ *            <opt_nin[0..nc-1]> array contains the number of seqs in
+ *            each cluster; and <opt_nc> contains the number of
+ *            clusters. The <opt_c> array and <opt_nin> arrays will be
+ *            allocated here, if non-<NULL>, and must be free'd by the
+ *            caller. The input <msa> is unmodified.
+ *            
+ *            The caller may pass <NULL> for either <opt_c> or
+ *            <opt_nc> if it is only interested in one of the two
+ *            results.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and <eslEINVAL> if a pairwise
+ *            comparison is invalid (which means the MSA is corrupted, so it
+ *            shouldn't happen). In either case, <opt_c> and <opt_nin> are set to <NULL>
+ *            and <opt_nc> is set to 0, and the <msa> is unmodified.
+ */
+int
+esl_msacluster_SingleLinkage(const ESL_MSA *msa, double maxid, 
+			     int **opt_c, int **opt_nin, int *opt_nc)
+
+{
+  int   status;
+  int  *workspace  = NULL;
+  int  *assignment = NULL;
+  int  *nin        = NULL;
+  int   nc;
+  int   i;
+#ifdef eslAUGMENT_ALPHABET
+  struct msa_param_s param;
+#endif
+
+  /* Allocations */
+  ESL_ALLOC(workspace,  sizeof(int) * msa->nseq * 2);
+  ESL_ALLOC(assignment, sizeof(int) * msa->nseq);
+
+  /* call to SLC API: */
+  if (! (msa->flags & eslMSA_DIGITAL))
+    status = esl_cluster_SingleLinkage((void *) msa->aseq, (size_t) msa->nseq, sizeof(char *),
+				       msacluster_clinkage, (void *) &maxid, 
+				       workspace, assignment, &nc);
+#ifdef eslAUGMENT_ALPHABET
+  else {
+    param.maxid = maxid;
+    param.abc   = msa->abc;
+    status = esl_cluster_SingleLinkage((void *) msa->ax, (size_t) msa->nseq, sizeof(ESL_DSQ *),
+				       msacluster_xlinkage, (void *) &param, 
+				       workspace, assignment, &nc);
+  }
+#endif
+
+  if (opt_nin != NULL) 
+    {
+      ESL_ALLOC(nin, sizeof(int) * nc);
+      for (i = 0; i < nc; i++) nin[i] = 0;
+      for (i = 0; i < msa->nseq; i++)
+	nin[assignment[i]]++;
+      *opt_nin = nin;
+    }
+
+  /* cleanup and return */
+  free(workspace);
+  if (opt_c  != NULL) *opt_c  = assignment; else free(assignment);
+  if (opt_nc != NULL) *opt_nc = nc;
+  return eslOK;
+
+ ERROR:
+  if (workspace  != NULL) free(workspace);
+  if (assignment != NULL) free(assignment);
+  if (nin        != NULL) free(nin);
+  if (opt_c  != NULL) *opt_c  = NULL;
+  if (opt_nc != NULL) *opt_nc = 0;
+  return status;
+}
+
+
+
+
+
+/*****************************************************************
+ * 2. Internal functions, interface to the clustering API
+ *****************************************************************/
+
+/* Definition of %id linkage in text-mode aligned seqs (>= maxid): */
+static int
+msacluster_clinkage(const void *v1, const void *v2, const void *p, int *ret_link)
+{
+  char  *as1   = *(char **) v1;
+  char  *as2   = *(char **) v2;
+  double maxid = *(double *) p;
+  double pid;
+  int    status = eslOK;
+
+#if defined(eslMSACLUSTER_REGRESSION) || defined(eslMSAWEIGHT_REGRESSION)
+  pid = 1. - squid_distance(as1, as2);
+#else  
+  if ((status = esl_dst_CPairId(as1, as2, &pid, NULL, NULL)) != eslOK) return status;
+#endif
+
+  *ret_link = (pid >= maxid ? TRUE : FALSE); 
+  return status;
+}
+  
+/* Definition of % id linkage in digital aligned seqs (>= maxid) */
+#ifdef eslAUGMENT_ALPHABET
+static int
+msacluster_xlinkage(const void *v1, const void *v2, const void *p, int *ret_link)
+{
+  ESL_DSQ *ax1              = *(ESL_DSQ **) v1;
+  ESL_DSQ *ax2              = *(ESL_DSQ **) v2;
+  struct msa_param_s *param = (struct msa_param_s *) p;
+  double   pid;
+  int      status = eslOK;
+
+#if defined(eslMSACLUSTER_REGRESSION) || defined(eslMSAWEIGHT_REGRESSION)
+  pid = 1. - squid_xdistance(param->abc, ax1, ax2);
+#else  
+  if ( (status = esl_dst_XPairId(param->abc, ax1, ax2, &pid, NULL, NULL)) != eslOK) return status;
+#endif
+
+  *ret_link = (pid >= param->maxid ? TRUE : FALSE); 
+  return status;
+}
+#endif
+
+
+
+
+/*****************************************************************
+ * 3. Some internal functions needed for regression tests
+ *****************************************************************/
+
+/* When regression testing against squid, we have to replace
+ * Easel's distance calculations with a simpler, (even) less robust 
+ * calculation that squid did.
+ */
+#if defined(eslMSACLUSTER_REGRESSION) || defined(eslMSAWEIGHT_REGRESSION)
+static double 
+squid_distance(char *s1, char *s2)
+{
+  int diff  = 0;
+  int valid = 0;
+
+  for (; *s1 != '\0'; s1++, s2++)
+    {
+      if (!isalpha(*s1) || !isalpha(*s2)) continue;
+      if (*s1 != *s2) diff++;
+      valid++;
+    }
+  return (valid > 0 ? ((double) diff / (double) valid) : 0.0);
+}
+#ifdef eslAUGMENT_ALPHABET
+static double
+squid_xdistance(ESL_ALPHABET *a, ESL_DSQ *x1, ESL_DSQ *x2)
+{
+  int diff  = 0;
+  int valid = 0;
+
+  for (; *x1 != eslDSQ_SENTINEL; x1++, x2++)
+    {
+      if (esl_abc_XIsGap(a, *x1) || esl_abc_XIsGap(a, *x2)) continue;
+      if (*x1 != *x2) diff++;
+      valid++;
+    }
+  return (valid > 0 ? ((double) diff / (double) valid) : 0.0);
+}
+#endif
+#endif /* eslMSACLUSTER_REGRESSION || eslMSAWEIGHT_REGRESSION */
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef eslMSACLUSTER_TESTDRIVE
+#include "esl_getopts.h"
+
+static void
+utest_SingleLinkage(ESL_GETOPTS *go, const ESL_MSA *msa, double maxid, int expected_nc, int last_assignment)
+{
+  char *msg        = "utest_SingleLinkage() failed";
+  int  *assignment = NULL;
+  int  *nin        = NULL;
+  int   nc;
+
+  if (esl_msacluster_SingleLinkage(msa, maxid, &assignment, &nin, &nc) != eslOK) esl_fatal(msg);
+  if (nc != expected_nc)                                                   esl_fatal(msg);
+  if (assignment[msa->nseq-1] != last_assignment)                          esl_fatal(msg);
+  free(assignment);
+  free(nin);
+}
+#endif /*eslMSACLUSTER_TESTDRIVE*/
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef eslMSACLUSTER_TESTDRIVE
+/* gcc -g -Wall -o msacluster_utest -I. -L. -DeslMSACLUSTER_TESTDRIVE esl_msacluster.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msacluster.h"
+#include "esl_msafile.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for msacluster module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_ALPHABET   *abc     = esl_alphabet_Create(eslAMINO);
+  ESL_MSA        *msa     = esl_msa_CreateFromString("\
+# STOCKHOLM 1.0\n\
+\n\
+seq0  AAAAAAAAAA\n\
+seq1  AAAAAAAAAA\n\
+seq2  AAAAAAAAAC\n\
+seq3  AAAAAAAADD\n\
+seq4  AAAAAAAEEE\n\
+seq5  AAAAAAFFFF\n\
+seq6  AAAAAGGGGG\n\
+seq7  AAAAHHHHHH\n\
+seq8  AAAIIIIIII\n\
+seq9  AAKKKKKKKK\n\
+seq10 ALLLLLLLLL\n\
+seq11 MMMMMMMMMM\n\
+//",   eslMSAFILE_STOCKHOLM);
+
+
+  utest_SingleLinkage(go, msa, 1.0, 11, 10);    /* at 100% id, only seq0/seq1 cluster */
+  utest_SingleLinkage(go, msa, 0.5,  6,  5);    /* at 50% id, seq0-seq6 cluster       */
+  utest_SingleLinkage(go, msa, 0.0,  1,  0);    /* at 0% id, everything clusters      */
+
+  /* Do the same tests, but now with a digital MSA */
+  esl_msa_Digitize(abc, msa, NULL);
+  utest_SingleLinkage(go, msa, 1.0, 11, 10);    /* at 100% id, only seq0/seq1 cluster */
+  utest_SingleLinkage(go, msa, 0.5,  6,  5);    /* at 50% id, seq0-seq6 cluster       */
+  utest_SingleLinkage(go, msa, 0.0,  1,  0);    /* at 0% id, everything clusters      */
+
+  esl_msa_Destroy(msa);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslMSACLUSTER_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+
+#ifdef eslMSACLUSTER_EXAMPLE
+/*::cexcerpt::msacluster_example::begin::*/
+/*
+   gcc -g -Wall -o msacluster_example -I. -L. -DeslMSACLUSTER_EXAMPLE esl_msacluster.c -leasel -lm
+   ./msacluster_example <MSA file>
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msacluster.h"
+#include "esl_msafile.h"
+
+int
+main(int argc, char **argv)
+{
+  char        *filename   = argv[1];
+  int          fmt        = eslMSAFILE_UNKNOWN; 
+  ESL_ALPHABET *abc       = NULL;
+  ESLX_MSAFILE *afp       = NULL;
+  ESL_MSA     *msa        = NULL;
+  double       maxid      = 0.62; /* cluster at 62% identity: the BLOSUM62 rule */
+  int         *assignment = NULL;
+  int         *nin        = NULL;
+  int          nclusters;
+  int          c, i;		  
+  int          status;
+
+  /* Open; guess alphabet; set to digital mode */
+  if ((status = eslx_msafile_Open(&abc, filename, NULL, fmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  /* read one alignment */
+  if ((status = eslx_msafile_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  /* do the clustering */
+  esl_msacluster_SingleLinkage(msa, maxid, &assignment, &nin, &nclusters);
+
+  printf("%d clusters at threshold of %f fractional identity\n", nclusters, maxid);
+  for (c = 0; c < nclusters; c++) {
+    printf("cluster %d:\n", c);
+    for (i = 0; i < msa->nseq; i++) if (assignment[i] == c) printf("  %s\n", msa->sqname[i]);
+    printf("(%d sequences)\n\n", nin[c]);
+  }
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  free(assignment);
+  free(nin);
+  return 0;
+}
+/*::cexcerpt::msacluster_example::end::*/
+#endif /*eslMSACLUSTER_EXAMPLE*/
+/*------------------------ end of example -----------------------*/
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msacluster.c 715 2011-08-03 21:04:24Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msacluster.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.h
new file mode 100755
index 0000000..da2d780
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.h
@@ -0,0 +1,24 @@
+/* Clustering sequences in an MSA by % identity.
+ * 
+ */
+#ifndef eslMSACLUSTER_INCLUDED
+#define eslMSACLUSTER_INCLUDED
+
+#include "esl_msa.h"
+
+extern int esl_msacluster_SingleLinkage(const ESL_MSA *msa, double maxid, 
+					int **opt_c, int **opt_nin, int *opt_nc);
+
+#endif /*eslMSACLUSTER_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msacluster.h 840 2012-12-20 18:16:14Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msacluster.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.tex
new file mode 100755
index 0000000..2035b58
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msacluster.tex
@@ -0,0 +1,33 @@
+The \eslmod{msacluster} module implements single linkage clustering by
+sequence identity for the sequences in a multiple sequence
+alignment. The API is summarized in Table~\ref{tbl:msacluster_api}.
+
+Clustering is done using the generalized single linkage clustering
+algorithm in the \eslmod{cluster} module. 
+
+\eslmod{msacluster} requires the \eslmod{cluster}, \eslmod{distance},
+and \eslmod{msa} and \eslmod{distance} modules. It can be augmented
+with the \eslmod{alphabet} module, which adds the ability to deal with
+digitized MSAs.
+
+% Table generated by autodoc -t esl_msacluster.c (so don't edit here, edit esl_msacluster.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_msacluster_SingleLinkage()}{\ccode{esl\_msacluster\_SingleLinkage()}} & Single linkage clustering by percent identity.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{msacluster} API.}
+\label{tbl:msacluster_api}
+\end{table}
+
+\subsection{Example of using the msacluster API}
+
+An example of reading an MSA from a file and doing
+single-linkage-clustering on the aligned sequences at $\geq$ 62\%
+sequence identity:
+
+\input{cexcerpts/msacluster_example}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile.c
new file mode 100755
index 0000000..139b626
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile.c
@@ -0,0 +1,1588 @@
+/* Multiple sequence alignment file i/o 
+ * 
+ * Table of contents:
+ *    1. Opening/closing an ESLX_MSAFILE.
+ *    2. ESLX_MSAFILE_FMTDATA: optional added constraints on formats.
+ *    3. Guessing file formats.
+ *    4. Guessing alphabets.
+ *    5. Random MSA flatfile access. [augmentation: ssi]
+ *    6. Reading an MSA from an ESLX_MSAFILE.
+ *    7. Writing an MSA to a stream.
+ *    8. Utilities used by specific format parsers.
+ *    9. Unit tests.
+ *   10. Test driver.
+ *   11. Examples.
+ *   12. Copyright and license.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_mem.h"
+#include "esl_msafile.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+
+
+
+
+/*****************************************************************
+ *# 1. Opening/closing an ESLX_MSAFILE
+ *****************************************************************/
+
+static int msafile_Create    (ESLX_MSAFILE **ret_afp);
+static int msafile_OpenBuffer(ESL_ALPHABET **byp_abc, ESL_BUFFER *bf, int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE *afp);
+
+/* Function:  eslx_msafile_Open()
+ * Synopsis:  Open a multiple sequence alignment file for input.
+ *
+ * Purpose:   Open a multiple sequence alignment file <msafile> for input.
+ *            Return an open <ESLX_MSAFILE> handle in <*ret_afp>.
+ *
+ *            <msafile> is usually the name of a file. Alignments may
+ *            also be read from standard input, or from
+ *            gzip-compressed files.  If <msafile> is ``-'', alignment
+ *            input is taken from the standard input stream. If
+ *            <msafile> ends in ``.gz'', alignment input is read
+ *            through a pipe from <gzip -dc>.
+ *            
+ *            <byp_abc>, <env>, <format>, and <fmtd> support a variety
+ *            of optional/advanced operations, as described
+ *            below. Minimally, a caller can set <byp_abc> to <NULL>,
+ *            <format> to <eslMSAFILE_UNKNOWN>, and <fmtd> to <NULL>,
+ *            and <msafile> will be opened in text mode; in the
+ *            current working directory; and its format will be
+ *            autodetected.
+ *            
+ *            The <byp_abc> argument controls whether data are to be
+ *            read in text or digital mode. In digital mode, alignment
+ *            data are immediately digitized into an Easel internal
+ *            alphabet (which among other things, allows various
+ *            things to operate on sequence data more efficiently) and
+ *            because an expected alphabet is known, parsers are able
+ *            to detect invalid characters. The caller may either
+ *            provide an alphabet (thus asserting what it's expected
+ *            to be), or have <eslx_msafile_Open()> look at the file
+ *            and guess what alphabet it appears to be (DNA or amino
+ *            acid code, usually).  In text mode, alignment data are
+ *            read verbatim. It might be advantageous for an
+ *            application to read in text mode -- for example, if a
+ *            variant alignment format is using characters in some
+ *            special way, and you need to deal with them specially.
+ *            All this goes through the setting of the passed-by-reference
+ *            alphabet pointer <byp_abc>. If caller passes NULL for
+ *            the <byp_abc> argument, input is in text mode. If caller
+ *            provides a valid non-NULL <byp_abc> pointer but
+ *            <*byp_abc> is NULL (that is, caller has declared
+ *            <ESL_ALPHABET *abc = NULL> and passed <&abc> as an
+ *            argument), then we attempt to guess the digital alphabet
+ *            using <eslx_msafile_GuessAlphabet()>, based on the first
+ *            alignment in the input. In this case, the new alphabet
+ *            is allocated here and returned to the caller. If caller
+ *            provides a digital alphabet (that is, <ESL_ALPHABET *abc
+ *            = esl_alphabet_Create...()> and passed <&abc>), that's
+ *            the alphabet we use.
+ * 
+ *            The <env> argument controls where we search for the
+ *            <msafile>.  If <env> is <NULL>, only the current working
+ *            directory is checked.  Optionally, caller can provide in
+ *            <env> the name of an environment variable ("PFAMDB",
+ *            perhaps), in which the routine can find a
+ *            colon-delimited list of directories.  Then, if <msafile>
+ *            is not found in the current working directory, we look
+ *            for it in these directories, in the order they're
+ *            listed.
+ *
+ *            The <format> argument allows the caller to either allow
+ *            <eslx_msafile_Open()> to autodetect the file format of
+ *            <msafile>, or to assert that it knows the file is in a
+ *            particular format. If <format> is <eslMSAFILE_UNKNOWN>,
+ *            format autodetection is performed. Other valid codes include:
+ *             | <eslMSAFILE_STOCKHOLM>   | Stockholm format                    |
+ *             | <eslMSAFILE_AFA>         | Aligned FASTA format                | 
+ *             | <eslMSAFILE_CLUSTAL>     | Clustal format (strict)             |
+ *             | <eslMSAFILE_CLUSTALLIKE> | Clustal-like  (MUSCLE, PROBCONS...) |
+ *             | <eslMSAFILE_PHYLIP>      | PHYLIP interleaved format           |
+ *             | <eslMSAFILE_PHYLIPS>     | PHYLIP sequential format            |
+ *             | <eslMSAFILE_A2M>         | UCSC SAM A2M (dotless or dotful)    |
+ *             | <eslMSAFILE_PSIBLAST>    | NCBI PSI-BLAST                      |
+ *             | <eslMSAFILE_SELEX>       | a general alignment block format    |
+ *
+ *            The <fmtd> argument is an optional pointer to a
+ *            <ESLX_MSAFILE_FMTDATA> structure that the caller may
+ *            initialize and provide, in order to assert any
+ *            additional unusual constraints on the input format --
+ *            for example, to dictate that a PHYLIP format file has
+ *            some nonstandard name field width. Generally, though,
+ *            <fmtd> will be <NULL>.
+ *
+ * Args:      byp_abc   - digital alphabet to use, or NULL for text mode
+ *                        if <*byp_abc> is NULL, guess the digital alphabet,
+ *                        create it, and return it in <*byp_abc>.
+ *                        If <*byp_abc> is a digital alphabet, use it.
+ *            msafile   - name of alignment input to open;
+ *                        if "-", read standard input;
+ *                        if "*.gz", read through a <gzip -dc> pipe.
+ *            env       - <NULL>, or the name of an environment variable
+ *                        containing colon-delimited list of directories
+ *                        in which to search for <msafile> (e.g. "PFAMDB").
+ *            format    - format code, such as <eslMSAFILE_STOCKHOLM>;
+ *                        or <eslMSAFILE_UNKNOWN> to autodetect format.
+ *            fmtd      - <NULL>, or a pointer to an initialized 
+ *                        <ESLX_MSAFILE_FMTDATA> structure, containing
+ *                        any additional unusual constraints to apply
+ *                        to the input format.
+ *            *ret_afp  - RETURN: open MSA input stream.
+ *
+ * Returns:   <eslOK> on success, and <*ret_afp> is the newly opened msa file.
+ *
+ *            <eslENOTFOUND> if <msafile> doesn't exist or can't be
+ *            opened for reading; or (in the case of a <.gz> file) if
+ *            a <gzip> executable doesn't exist in user's <PATH> or
+ *            can't be executed. <afp->errmsg> is something like 
+ *            "couldn't open %s for reading", with <%s> being the 
+ *            name of the msafile.
+ *
+ *            <eslENOFORMAT> if we tried to autodetect the file format
+ *            (caller provided <format=eslMSAFILE_UNKNOWN>), and
+ *            failed. <afp->errmsg> is something like "couldn't
+ *            determine alignment input format".
+ *
+ *            <eslENOALPHABET> if we tried to autodetect the alphabet
+ *            (caller provided <&abc>, <abc=NULL> to request digital
+ *            mode w/ alphabet autodetection) but the alphabet could
+ *            not be reliably guessed.
+ *            
+ *            <eslFAIL> in the case of a <.gz> file and the <gzip -dc>
+ *            command fails on it.
+ *            
+ *            On any of these normal errors, <*ret_afp> is returned in
+ *            an error state, containing a user-directed error message
+ *            in <afp->errmsg> and (if relevant) the full path to
+ *            <msafile> that we attempted to open in
+ *            <afp->bf->filename>. See <eslx_msafile_OpenFailure()> for
+ *            a function that gives a standard way of reporting these
+ *            diagnostics to <stderr>.
+ *            
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslESYS> on a system call failure, such as <fread()>.
+ *            <eslEINVAL> if we tried to use <stdin> but the <stdin> stream was
+ *            invalid (in an error state, <NULL>, or at <EOF>).
+ *            On thrown exceptions, <*ret_afp> is <NULL>.
+ */
+int
+eslx_msafile_Open(ESL_ALPHABET **byp_abc, const char *msafile, const char *env, int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE **ret_afp)
+{
+  ESLX_MSAFILE *afp = NULL;
+  int           status;
+
+  if ( (status = msafile_Create(&afp)) != eslOK) goto ERROR;
+
+  if ((status = esl_buffer_Open(msafile, env, &(afp->bf))) != eslOK)
+    ESL_XFAIL(status, afp->errmsg, "%s", afp->bf->errmsg); /* ENOTFOUND; FAIL are normal here */
+
+  if ( (status = msafile_OpenBuffer(byp_abc, afp->bf, format, fmtd, afp)) != eslOK) goto ERROR;
+
+  *ret_afp = afp; 
+  return eslOK;
+
+ ERROR:  /* on normal errors, afp is returned in an error state */
+  if (status == eslENOTFOUND || status == eslFAIL || status == eslEFORMAT || status == eslENODATA || status == eslENOALPHABET)
+    { afp->abc = NULL; *ret_afp = afp;}
+  else 
+    { if (afp) eslx_msafile_Close(afp);  *ret_afp = NULL; }
+  return status;
+}
+
+
+/* Function:  eslx_msafile_OpenMem()
+ * Synopsis:  Open a string or buffer for parsing as an MSA.
+ *
+ * Purpose:   Essentially the same as <eslx_msafile_Open()>, except
+ *            we ``open'' the string or buffer <p>, <n> as the 
+ *            input source.
+ *            
+ *            If <p> is a NUL-terminated string, providing its length
+ *            <n> is optional; <n> may be passed as -1. If <p> is an
+ *            unterminated buffer, providing the length <n> is
+ *            mandatory.
+ */
+int
+eslx_msafile_OpenMem(ESL_ALPHABET **byp_abc, const char *p, esl_pos_t n, int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE **ret_afp)
+{
+  ESLX_MSAFILE *afp = NULL;
+  int status;
+
+  if ( (status = msafile_Create(&afp))                 != eslOK) goto ERROR;
+  if ( (status = esl_buffer_OpenMem(p, n, &(afp->bf))) != eslOK) goto ERROR;
+
+  if ( (status = msafile_OpenBuffer(byp_abc, afp->bf, format, fmtd, afp)) != eslOK) goto ERROR;
+  *ret_afp = afp; 
+  return eslOK;
+
+ ERROR:
+  if (status == eslENOTFOUND || status == eslFAIL || status == eslEFORMAT || status == eslENODATA || status == eslENOALPHABET)
+    { afp->abc = NULL; *ret_afp = afp;}
+  else 
+    { if (afp) eslx_msafile_Close(afp);  *ret_afp = NULL; }
+  return status;
+}
+
+
+/* Function:  eslx_msafile_OpenBuffer()
+ * Synopsis:  Open an input buffer for parsing as an MSA.
+ *
+ * Purpose:   Essentially the same as <eslx_msafile_Open()>, except
+ *            we ``open'' an <ESL_BUFFER> <bf> that's already been
+ *            opened by the caller for some input source.
+ */
+int
+eslx_msafile_OpenBuffer(ESL_ALPHABET **byp_abc, ESL_BUFFER *bf, int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE **ret_afp)
+{
+  ESLX_MSAFILE *afp = NULL;
+  int status;
+
+  if ( (status = msafile_Create(&afp)) != eslOK) goto ERROR;
+
+  afp->bf = bf;
+  if ((status = msafile_OpenBuffer(byp_abc, afp->bf, format, fmtd, afp)) != eslOK) goto ERROR;
+  *ret_afp = afp; 
+  return eslOK;
+
+ ERROR:
+  if (status == eslENOTFOUND || status == eslFAIL || status == eslEFORMAT || status == eslENODATA || status == eslENOALPHABET)
+    { afp->abc = NULL; *ret_afp = afp;}
+  else 
+    { if (afp) eslx_msafile_Close(afp);  *ret_afp = NULL; }
+  return status;
+}
+
+/* Function:  eslx_msafile_OpenFailure()
+ * Synopsis:  Report diagnostics of normal error in opening MSA file, and exit.
+ *
+ * Purpose:   Report user-directed diagnostics of a normal error in opening
+ *            an MSA input. Print a message to <stderr>, then exit. 
+ */
+void
+eslx_msafile_OpenFailure(ESLX_MSAFILE *afp, int status)
+{
+  int show_source = FALSE;
+  int show_fmt    = FALSE;
+
+  fprintf(stderr, "Alignment input open failed.\n");
+
+  if      (status == eslENOTFOUND)   { fprintf(stderr, "   %s\n", afp->errmsg);                                      }
+  else if (status == eslFAIL)	     { fprintf(stderr, "   %s\n", afp->errmsg);                                      }
+  else if (status == eslENOFORMAT)   { fprintf(stderr, "   %s\n", afp->errmsg); show_source = TRUE;                  }
+  else if (status == eslENOALPHABET) { fprintf(stderr, "   %s\n", afp->errmsg); show_source = TRUE; show_fmt = TRUE; }
+  else if (status == eslEMEM)        { fprintf(stderr, "   Memory allocation failure\n");                            }
+  else if (status == eslESYS)        { fprintf(stderr, "   System call failed, possibly fread()\n");                 }
+  else                               { fprintf(stderr, "   Unexpected error code %d\n", status);                     }
+
+  if (show_source) {
+    switch (afp->bf->mode_is) {
+    case eslBUFFER_STREAM:   fprintf(stderr, "   while reading from an input stream (not a file)\n");   break;
+    case eslBUFFER_CMDPIPE:  fprintf(stderr, "   while reading through a pipe (not a file)\n");         break;
+    case eslBUFFER_FILE:     
+    case eslBUFFER_ALLFILE:
+    case eslBUFFER_MMAP:     fprintf(stderr, "   while reading file %s\n", afp->bf->filename);          break;
+    case eslBUFFER_STRING:   fprintf(stderr, "   while reading from a provided string (not a file)\n"); break;
+    default:                 break; 
+    }
+  }
+
+  if (show_fmt) {
+    fprintf(stderr, "   while parsing for %s format\n", eslx_msafile_DecodeFormat(afp->format));
+  }
+
+  eslx_msafile_Close(afp);
+  exit(status);
+}
+
+/* Function:  eslx_msafile_SetDigital()
+ * Synopsis:  Convert an open text-mode ESLX_MSAFILE to digital mode.
+ *
+ * Purpose:   Convert the open <afp> from text mode to digital mode,
+ *            using alphabet <abc>.
+ *
+ * Note:      This function is only here for legacy support: it's
+ *            called by esl_sqio, which still uses an outdated
+ *            open / guess alphabet / set digital pattern. When 
+ *            sqio is upgraded next, this function should be removed.
+ */
+int
+eslx_msafile_SetDigital(ESLX_MSAFILE *afp, const ESL_ALPHABET *abc)
+{
+  int status;
+
+  afp->abc = abc;
+
+  switch (afp->format) {
+  case eslMSAFILE_A2M:          status = esl_msafile_a2m_SetInmap(      afp); break;
+  case eslMSAFILE_AFA:          status = esl_msafile_afa_SetInmap(      afp); break;
+  case eslMSAFILE_CLUSTAL:      status = esl_msafile_clustal_SetInmap(  afp); break;
+  case eslMSAFILE_CLUSTALLIKE:  status = esl_msafile_clustal_SetInmap(  afp); break;
+  case eslMSAFILE_PFAM:         status = esl_msafile_stockholm_SetInmap(afp); break;
+  case eslMSAFILE_PHYLIP:       status = esl_msafile_phylip_SetInmap(   afp); break;
+  case eslMSAFILE_PHYLIPS:      status = esl_msafile_phylip_SetInmap(   afp); break;
+  case eslMSAFILE_PSIBLAST:     status = esl_msafile_psiblast_SetInmap( afp); break;
+  case eslMSAFILE_SELEX:        status = esl_msafile_selex_SetInmap(    afp); break;
+  case eslMSAFILE_STOCKHOLM:    status = esl_msafile_stockholm_SetInmap(afp); break;
+  default:                      ESL_EXCEPTION(eslEINCONCEIVABLE, "no such alignment file format");
+  }
+  return status;
+}
+
+/* Function:  eslx_msafile_Close()
+ * Synopsis:  Close an open <ESLX_MSAFILE>.
+ */
+void
+eslx_msafile_Close(ESLX_MSAFILE *afp)
+{
+  if (afp) {
+    if (afp->bf)        esl_buffer_Close(afp->bf);
+    if (afp->ssi)       esl_ssi_Close(afp->ssi);
+    free(afp);
+  }
+}
+
+static int
+msafile_Create(ESLX_MSAFILE **ret_afp)
+{
+  ESLX_MSAFILE *afp = NULL;
+  int           status;
+
+  ESL_ALLOC(afp, sizeof(ESLX_MSAFILE));
+  afp->bf         = NULL;
+  afp->line       = NULL;
+  afp->n          = 0;
+  afp->linenumber = 0;
+  afp->lineoffset = 0;
+  afp->format     = eslMSAFILE_UNKNOWN;
+  afp->abc        = NULL;
+  afp->ssi        = NULL;
+  afp->errmsg[0]  = '\0';
+
+  eslx_msafile_fmtdata_Init(&(afp->fmtd));
+
+  *ret_afp = afp;
+  return eslOK;
+
+ ERROR:
+  *ret_afp = NULL;
+  return status;
+}
+
+
+
+/* All input sources funnel through here.
+ * Here, <afp> is already allocated and initialized, and the input
+ * <bf> is opened successfully.
+ */
+static int
+msafile_OpenBuffer(ESL_ALPHABET **byp_abc, ESL_BUFFER *bf, int format, ESLX_MSAFILE_FMTDATA *fmtd,  ESLX_MSAFILE *afp)
+{
+  ESL_ALPHABET        *abc       = NULL;
+  int                  alphatype = eslUNKNOWN;
+  int                  status;
+
+  /* if caller provided <fmtd>, copy it into afp->fmtd */
+  if (fmtd) eslx_msafile_fmtdata_Copy(fmtd, &(afp->fmtd));
+
+  /* Determine the format */
+  if (format == eslMSAFILE_UNKNOWN) 
+    {
+      status = eslx_msafile_GuessFileFormat(afp->bf, &format, &(afp->fmtd));
+      if      (status == eslENOFORMAT) ESL_XFAIL(eslENOFORMAT, afp->errmsg, "couldn't determine alignment input format"); /* ENOFORMAT is normal failure */
+      else if (status != eslOK)        goto ERROR;
+    }
+  afp->format = format;
+
+  /* Determine the alphabet; set <abc>. (<abc> == NULL means text mode.)  */
+  /* Note that GuessAlphabet() functions aren't allowed to use the inmap, because it isn't set yet */
+#ifdef eslAUGMENT_ALPHABET
+  if (byp_abc && *byp_abc)	/* Digital mode, and caller provided the alphabet */
+    { 
+      abc       = *byp_abc;
+      alphatype = abc->type;
+    } 
+  else if (byp_abc)		/* Digital mode, and caller wants us to guess and create an alphabet */
+    {
+      status = eslx_msafile_GuessAlphabet(afp, &alphatype);
+      if      (status == eslENOALPHABET) ESL_XFAIL(eslENOALPHABET, afp->errmsg, "couldn't guess alphabet (maybe try --dna/--rna/--amino if available)");
+      else if (status != eslOK)          goto ERROR;
+      if ( (abc = esl_alphabet_Create(alphatype))                == NULL) { status = eslEMEM; goto ERROR; }
+    }    
+#endif
+  if (abc && ! byp_abc) ESL_EXCEPTION(eslEINCONCEIVABLE, "Your version of Easel does not include digital alphabet code."); 
+  /* ^^^^^^^^^^^^^^^^^  this test interacts tricksily with the #ifdef above */
+  afp->abc = abc;	/* with afp->abc set, the inmap config functions know whether to do digital/text    */
+
+  /* Configure the format-specific, digital or text mode character
+   * input map in afp->inmap.
+   * All of these must:
+   *    
+   *    set inmap[0] to an appropriate 'unknown' character, to replace
+   *       invalid input with.
+   *    set ' ' to eslDSQ_IGNORE (if we're supposed to accept and skip
+   *       it), or map it to a gap, or set it as eslDSQ_ILLEGAL.
+   *    in digital mode, copy the abc->inmap
+   *    in text mode, decide if we should accept most any
+   *        non-whitespace character (isgraph()), or if the format is
+   *        inherently restrictive and we should go with isalpha() +
+   *        some other valid characters "_-.~*" instead.
+   */
+  switch (afp->format) {
+  case eslMSAFILE_A2M:          status = esl_msafile_a2m_SetInmap(      afp); break;
+  case eslMSAFILE_AFA:          status = esl_msafile_afa_SetInmap(      afp); break;
+  case eslMSAFILE_CLUSTAL:      status = esl_msafile_clustal_SetInmap(  afp); break;
+  case eslMSAFILE_CLUSTALLIKE:  status = esl_msafile_clustal_SetInmap(  afp); break;
+  case eslMSAFILE_PFAM:         status = esl_msafile_stockholm_SetInmap(afp); break;
+  case eslMSAFILE_PHYLIP:       status = esl_msafile_phylip_SetInmap(   afp); break;
+  case eslMSAFILE_PHYLIPS:      status = esl_msafile_phylip_SetInmap(   afp); break;
+  case eslMSAFILE_PSIBLAST:     status = esl_msafile_psiblast_SetInmap( afp); break;
+  case eslMSAFILE_SELEX:        status = esl_msafile_selex_SetInmap(    afp); break;
+  case eslMSAFILE_STOCKHOLM:    status = esl_msafile_stockholm_SetInmap(afp); break;
+  default: ESL_XEXCEPTION(eslENOFORMAT, "no such alignment file format");
+  }
+
+  if (esl_byp_IsReturned(byp_abc)) *byp_abc = abc;
+  return eslOK;
+
+ ERROR:  /* on normal errors, afp is returned in an error state */
+  if (abc && ! esl_byp_IsProvided(byp_abc)) { esl_alphabet_Destroy(abc); }
+  if (esl_byp_IsReturned(byp_abc)) *byp_abc = NULL;
+  afp->abc = NULL;
+  return status;
+}
+/*------------- end, open/close an ESLX_MSAFILE -----------------*/
+
+
+
+/*****************************************************************
+ *# 2. ESLX_MSAFILE_FMTDATA: optional extra constraints on formats.
+ *****************************************************************/
+
+/* Function:  eslx_msafile_fmtdata_Init()
+ * Synopsis:  Initialize a <ESLX_MSAFILE_FMTDATA> structure.
+ */
+int
+eslx_msafile_fmtdata_Init(ESLX_MSAFILE_FMTDATA *fmtd)
+{
+  fmtd->namewidth = 0;
+  fmtd->rpl       = 0;
+  return eslOK;
+}
+
+/* Function:  eslx_msafile_fmtdata_Copy()
+ * Synopsis:  Copy one <ESLX_MSAFILE_FMTDATA> structure to another.
+ */
+int
+eslx_msafile_fmtdata_Copy(ESLX_MSAFILE_FMTDATA *src, ESLX_MSAFILE_FMTDATA *dst)
+{
+  dst->namewidth = src->namewidth;
+  dst->rpl       = src->rpl;
+  return eslOK;
+}
+
+/*--------------- ESLX_MSAFILE_FMTDATA --------------------------*/
+
+
+/*****************************************************************
+ *# 3. Guessing file format.
+ *****************************************************************/
+
+static int msafile_guess_afalike(ESL_BUFFER *bf, int *ret_format);
+static int msafile_check_selex  (ESL_BUFFER *bf);
+
+/* Function:  eslx_msafile_GuessFileFormat()
+ * Synopsis:  Guess the MSA file format of an open buffer.
+ *
+ * Purpose:   Peek into an open buffer, and try to determine what
+ *            alignment file format (if any) its input is in. If a
+ *            format can be determined, return <eslOK> and set
+ *            <*ret_fmtcode> to the format code.  If not, return
+ *            <eslEFORMAT> and set <*ret_fmtcode> to
+ *            <eslMSAFILE_UNKNOWN>.  In either case, the buffer <bf> is
+ *            restored to its original position upon return.
+ *
+ *            If the <bf> corresponds to an open file with a file
+ *            name, we attempt to use the suffix as a clue. Suffix
+ *            rules for alignment files are as follows:
+ *                 | Stockholm     |  .sto .sth .stk |
+ *                 | Aligned FASTA |  .afa .afasta   |
+ *                 | CLUSTAL       |  .aln           |
+ *                 | Pfam          |  .pfam          |
+ *                 | A2M           |  .a2m           | 
+ *                 | SELEX         |  .slx .selex    |   
+ *                 
+ *            Some formats may have variants that require special
+ *            handling. Caller may pass a pointer <*opt_fmtd> to a
+ *            <ESL_MSAFILE_FMTDATA> structure to capture this
+ *            information from format autodetection, or <NULL>. If the
+ *            structure is provided, it is reinitialized, and any
+ *            fields that can be determined by the appropriate
+ *            format-guessing function are filled in. If <*opt_fmtd>
+ *            is <NULL>, the range of variation that can be captured
+ *            by some formats may be limited. Currently this only
+ *            affects PHYLIP format, where <opt_fmtd->namewidth>
+ *            allows files with nonstandard name field widths to be
+ *            autodetected and parsed.
+ *
+ * Args:      bf          - the open buffer to read input from
+ *            ret_fmtcode - RETURN:    format code that's determined
+ *            opt_fmtd    - optRETURN: ptr to an <ESL_MSAFILE_FMTDATA> structure to
+ *                          be filled in with additional format-specific data, or <NULL>
+ *
+ * Returns:   <eslOK> on success, and <*ret_fmtcode> contains the format code.
+ *            <eslENOFORMAT> if format can't be guessed, and <*ret_fmtcode> contains
+ *            <eslMSAFILE_UNKNOWN>.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+eslx_msafile_GuessFileFormat(ESL_BUFFER *bf, int *ret_fmtcode, ESLX_MSAFILE_FMTDATA *opt_fmtd)
+{
+  esl_pos_t  initial_offset;
+  char      *p;
+  esl_pos_t  n;
+  int        fmt_bysuffix    = eslMSAFILE_UNKNOWN;
+  int        fmt_byfirstline = eslMSAFILE_UNKNOWN;
+  int        status;
+
+  /* Initialize the optional data, if provided (move this initialization to a function someday) */
+  if (opt_fmtd) eslx_msafile_fmtdata_Init(opt_fmtd);
+
+  /* As we start, save parser status:
+   *   remember the offset where we started (usually 0, but not necessarily)
+   *   set an anchor to be sure that this offset stays in the buffer's memory
+   */
+  initial_offset = esl_buffer_GetOffset(bf);
+  esl_buffer_SetAnchor(bf, initial_offset);
+
+  /* First we try to guess based on the filename suffix.
+   * (if there's a filename, and if it has a suffix, anyway.)
+   */
+  if (bf->filename)
+    {
+      esl_file_Extension(bf->filename, 0, &p, &n);
+      if (esl_memstrcmp(p, n, ".gz")) esl_file_Extension(bf->filename, 3, &p, &n);
+      if (p)
+	{
+	  if      (esl_memstrcmp(p, n, ".sto"))    fmt_bysuffix = eslMSAFILE_STOCKHOLM;
+	  else if (esl_memstrcmp(p, n, ".sth"))    fmt_bysuffix = eslMSAFILE_STOCKHOLM;
+	  else if (esl_memstrcmp(p, n, ".stk"))    fmt_bysuffix = eslMSAFILE_STOCKHOLM;
+	  else if (esl_memstrcmp(p, n, ".afa"))    fmt_bysuffix = eslMSAFILE_AFA;
+	  else if (esl_memstrcmp(p, n, ".afasta")) fmt_bysuffix = eslMSAFILE_AFA;
+	  else if (esl_memstrcmp(p, n, ".aln"))    fmt_bysuffix = eslMSAFILE_CLUSTAL;
+	  else if (esl_memstrcmp(p, n, ".pfam"))   fmt_bysuffix = eslMSAFILE_PFAM;
+	  else if (esl_memstrcmp(p, n, ".a2m"))    fmt_bysuffix = eslMSAFILE_A2M;
+	  else if (esl_memstrcmp(p, n, ".slx"))    fmt_bysuffix = eslMSAFILE_SELEX;
+	  else if (esl_memstrcmp(p, n, ".selex"))  fmt_bysuffix = eslMSAFILE_SELEX;
+	}
+    }
+
+  /* Second, we peek at the first non-blank line of the file.
+   * Multiple sequence alignment files are often identifiable by a token on this line.
+   */
+  /* Skip blank lines, get first non-blank one */
+  do   { 
+    status = esl_buffer_GetLine(bf, &p, &n);
+  } while (status == eslOK && esl_memspn(p, n, " \t") == n);
+  if (status == eslEOF) { *ret_fmtcode = eslMSAFILE_UNKNOWN; return eslENOFORMAT; }
+
+  if      (esl_memstrpfx(p, n, "# STOCKHOLM"))                      fmt_byfirstline = eslMSAFILE_STOCKHOLM;
+  else if (esl_memstrpfx(p, n, ">"))                                fmt_byfirstline = eslMSAFILE_AFA;
+  else if (esl_memstrpfx(p, n, "CLUSTAL"))                          fmt_byfirstline = eslMSAFILE_CLUSTAL;
+  else if (esl_memstrcontains(p, n, "multiple sequence alignment")) fmt_byfirstline = eslMSAFILE_CLUSTALLIKE;
+  else {
+    char     *tok;
+    esl_pos_t toklen;
+    /* look for <nseq> <alen>, characteristic of PHYLIP files */
+    if (esl_memtok(&p, &n, " \t", &tok, &toklen) == eslOK  && esl_memspn(tok, toklen, "0123456789") == toklen &&
+	esl_memtok(&p, &n, " \t", &tok, &toklen) == eslOK  && esl_memspn(tok, toklen, "0123456789") == toklen)
+      fmt_byfirstline = eslMSAFILE_PHYLIP; /* interleaved for now; we'll look more closely soon */
+  }
+
+  /* Restore parser status, rewind to start */
+  esl_buffer_SetOffset  (bf, initial_offset);
+  esl_buffer_RaiseAnchor(bf, initial_offset);
+
+  /* Rules to determine formats.
+   * If we have to call a routine that looks deeper into the buffer
+   * than the first line, that routine must restore buffer status.
+   */
+  if      (fmt_byfirstline == eslMSAFILE_STOCKHOLM) 
+    {
+      if      (fmt_bysuffix == eslMSAFILE_STOCKHOLM) *ret_fmtcode = eslMSAFILE_STOCKHOLM;
+      else if (fmt_bysuffix == eslMSAFILE_PFAM)      *ret_fmtcode = eslMSAFILE_PFAM;
+      else    *ret_fmtcode = eslMSAFILE_STOCKHOLM;
+    }
+  else if (fmt_byfirstline == eslMSAFILE_CLUSTAL)  
+    {
+      *ret_fmtcode = eslMSAFILE_CLUSTAL;
+    }
+  else if (fmt_byfirstline == eslMSAFILE_CLUSTALLIKE) 
+    {
+      *ret_fmtcode = eslMSAFILE_CLUSTALLIKE;
+    }
+  else if (fmt_byfirstline == eslMSAFILE_AFA)
+    {
+      if      (fmt_bysuffix == eslMSAFILE_AFA) *ret_fmtcode = eslMSAFILE_AFA;
+      else if (fmt_bysuffix == eslMSAFILE_A2M) *ret_fmtcode = eslMSAFILE_A2M;
+      else    msafile_guess_afalike  (bf, ret_fmtcode);
+    }
+  else if (fmt_byfirstline == eslMSAFILE_PHYLIP)
+    {
+      int namewidth;
+      status = esl_msafile_phylip_CheckFileFormat(bf, ret_fmtcode, &namewidth);
+      if      (opt_fmtd)         opt_fmtd->namewidth = namewidth;
+      else if (namewidth != 10) *ret_fmtcode = eslMSAFILE_UNKNOWN; /* if we can't store the nonstandard width, we can't allow the caller to think it can parse this */
+    }
+  else
+    {				/* selex parser can handle psiblast too */
+      if      (fmt_bysuffix == eslMSAFILE_SELEX) *ret_fmtcode = eslMSAFILE_SELEX;
+      else if (msafile_check_selex(bf) == eslOK) *ret_fmtcode = eslMSAFILE_SELEX;
+    }
+  
+  return ((*ret_fmtcode == eslMSAFILE_UNKNOWN) ? eslENOFORMAT: eslOK);
+}
+
+
+/* Function:  eslx_msafile_IsMultiRecord()
+ * Synopsis:  Test if a format supports multiple MSAs per file.
+ *
+ * Purpose:   Return <TRUE> if MSA file format <fmt> supports
+ *            more than one MSA record per file. Return <FALSE>
+ *            otherwise (including the cases of <fmt> being
+ *            invalid or <eslMSAFILE_UNKNOWN>).
+ */
+int
+eslx_msafile_IsMultiRecord(int fmt)
+{
+  switch (fmt) {
+  case eslMSAFILE_UNKNOWN:     return FALSE;
+  case eslMSAFILE_STOCKHOLM:   return TRUE;
+  case eslMSAFILE_PFAM:        return TRUE;
+  case eslMSAFILE_A2M:         return FALSE;
+  case eslMSAFILE_PSIBLAST:    return FALSE;
+  case eslMSAFILE_SELEX:       return FALSE;
+  case eslMSAFILE_AFA:         return FALSE;
+  case eslMSAFILE_CLUSTAL:     return FALSE;
+  case eslMSAFILE_CLUSTALLIKE: return FALSE;
+  case eslMSAFILE_PHYLIP:      return TRUE; /* because seqboot. undocumented in phylip,  phylip format can come out multi-msa */
+  case eslMSAFILE_PHYLIPS:     return TRUE; /* ditto */
+  default:                     return FALSE;
+  }
+  return FALSE;			/* keep compilers happy */
+}
+  
+
+/* Function:  eslx_msafile_EncodeFormat()
+ * Synopsis:  Convert text string to an MSA file format code.
+ *
+ * Purpose:   Given a text string, match it case-insensitively
+ *            against a list of possible formats, and return the
+ *            appropriate MSA file format code. For example,
+ *            <eslx_msafile_EncodeFormat("Stockholm")> returns
+ *            <eslMSAFILE_STOCKHOLM>.
+ *            
+ *            If the format is unrecognized, return
+ *            <eslMSAFILE_UNKNOWN>.
+ *            
+ * Note:      Keep in sync with <esl_sqio_EncodeFormat()>, 
+ *            which decodes all possible sequence file formats,
+ *            both unaligned and aligned.           
+ */
+int
+eslx_msafile_EncodeFormat(char *fmtstring)
+{
+  if (strcasecmp(fmtstring, "stockholm")   == 0) return eslMSAFILE_STOCKHOLM;
+  if (strcasecmp(fmtstring, "pfam")        == 0) return eslMSAFILE_PFAM;
+  if (strcasecmp(fmtstring, "a2m")         == 0) return eslMSAFILE_A2M;
+  if (strcasecmp(fmtstring, "phylip")      == 0) return eslMSAFILE_PHYLIP;
+  if (strcasecmp(fmtstring, "phylips")     == 0) return eslMSAFILE_PHYLIPS;
+  if (strcasecmp(fmtstring, "psiblast")    == 0) return eslMSAFILE_PSIBLAST;
+  if (strcasecmp(fmtstring, "selex")       == 0) return eslMSAFILE_SELEX;
+  if (strcasecmp(fmtstring, "afa")         == 0) return eslMSAFILE_AFA;
+  if (strcasecmp(fmtstring, "clustal")     == 0) return eslMSAFILE_CLUSTAL;
+  if (strcasecmp(fmtstring, "clustallike") == 0) return eslMSAFILE_CLUSTALLIKE;
+  return eslMSAFILE_UNKNOWN;
+}
+
+
+/* Function:  eslx_msafile_DecodeFormat()
+ * Synopsis:  Convert internal file format code to text string.
+ *
+ * Purpose:   Given an internal file format code <fmt> 
+ *            (<eslMSAFILE_STOCKHOLM>, for example), returns
+ *            a string suitable for printing ("Stockholm",
+ *            for example).
+ *            
+ * Returns:   a pointer to a static description string.
+ * 
+ * Throws:    If code isn't valid, throws an <eslEINCONCEIVABLE> exception 
+ *            internally, and returns <NULL>. 
+ *            
+ * Note:      Keep in sync with <esl_sqio_DecodeFormat()>.
+ */
+char *
+eslx_msafile_DecodeFormat(int fmt)
+{
+  switch (fmt) {
+  case eslMSAFILE_UNKNOWN:     return "unknown";
+  case eslMSAFILE_STOCKHOLM:   return "Stockholm";
+  case eslMSAFILE_PFAM:        return "Pfam";
+  case eslMSAFILE_A2M:         return "UCSC A2M";
+  case eslMSAFILE_PSIBLAST:    return "PSI-BLAST";
+  case eslMSAFILE_SELEX:       return "SELEX";
+  case eslMSAFILE_AFA:         return "aligned FASTA";
+  case eslMSAFILE_CLUSTAL:     return "Clustal";
+  case eslMSAFILE_CLUSTALLIKE: return "Clustal-like";
+  case eslMSAFILE_PHYLIP:      return "PHYLIP (interleaved)";
+  case eslMSAFILE_PHYLIPS:     return "PHYLIP (sequential)";
+  default:                     break;
+  }
+  esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "no such msa format code %d\n", fmt);
+  return NULL;
+}
+
+
+/* An aligned FASTA-like format can either be:
+ *    eslMSAFILE_AFA
+ *    eslMSAFILE_A2M
+ *    
+ * Let alen  = # of residues+gaps per sequence
+ * Let ncons = # of uppercase + '-': consensus positions in A2M
+ * 
+ * If two seqs have same nonzero ncons, different alen, and no dots, that's a
+ * positive identification of dotless A2M.
+ * 
+ * If two seqs have same alen but different ncons, that positive id of
+ * AFA.
+ *
+ * If we get ~100 sequences in and we still haven't decided, just call
+ * it AFA.
+ */
+static int
+msafile_guess_afalike(ESL_BUFFER *bf, int *ret_format)
+{
+  int       format   = eslMSAFILE_UNKNOWN;
+  int       max_nseq = 100;
+  esl_pos_t anchor   = -1;
+  char     *p;
+  esl_pos_t n, pos;
+  int       nseq;
+  int       nupper, nlower, ndash, ndot, nother;
+  int       alen, ncons;
+  int       saw_other = FALSE;
+  int       status;
+
+  anchor = esl_buffer_GetOffset(bf);
+  if ((status = esl_buffer_SetAnchor(bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK)  {
+    while (n && isspace(*p)) { p++; n--; }    
+    if    (!n) continue;	
+    if    (*p != '>') { status = eslEFORMAT; goto ERROR; } else break;
+  }
+  if      (status == eslEOF) { status = eslEFORMAT; goto ERROR; }
+  else if (status != eslOK) goto ERROR;
+
+  alen = ncons = 0;
+  for (nseq = 0; nseq < max_nseq; nseq++)
+    {
+      nupper = nlower = ndash = ndot = nother = 0;
+      while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK)  
+	{
+	  while (n && isspace(*p)) { p++; n--; }    
+	  if    (!n)        continue;	
+	  if    (*p == '>') break;
+
+	  for (pos = 0; pos < n; pos++)
+	    {
+	      if      (isupper(p[pos]))  nupper++;
+	      else if (islower(p[pos]))  nlower++;
+	      else if (p[pos] == '-')    ndash++;
+	      else if (p[pos] == '.')    ndot++;
+	      else if (!isspace(p[pos])) nother++;
+	    }
+	}
+      if (status != eslOK && status != eslEOF) goto ERROR;
+      if (nother) saw_other = TRUE; /* A2M is strict: only allows .-[a-z][A-Z] */
+
+      if (nseq == 0)
+	{
+	  alen  = nupper+nlower+ndash+ndot+nother;
+	  ncons = nupper+ndash;
+	}
+      else
+	{ /* in ungapped alignments w/ no insertions, we can't distinguish AFA, A2M. These are *positive* id tests  */
+	  if (                                nupper+nlower+ndash+ndot+nother == alen && nupper+ndash != ncons) { format = eslMSAFILE_AFA; goto DONE; }
+	  if (ncons && !saw_other && !ndot && nupper+nlower+ndash             != alen && nupper+ndash == ncons) { format = eslMSAFILE_A2M; goto DONE; }
+	  /* and there's a *negative* id test, for an unaligned FASTA file: must have nonzero ncons to be A2M, must have equal-length seqs to be AFA */
+	  /* the example we're catching here is an unaligned FASTA file of all lower case residues: don't call that A2M. Hence the test for nonzero <ncons> */
+	  if (!ncons && nupper+nlower+ndash+ndot+nother != alen) { format = eslMSAFILE_UNKNOWN; goto DONE; }
+	}
+    }
+  format = eslMSAFILE_AFA;	/* if we haven't positively id'ed A2M vs AFA, it probably doesn't matter (gapless alignment): call it AFA */
+  /* deliberate flowthrough */
+ DONE:
+  esl_buffer_SetOffset(bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(bf, anchor);
+  *ret_format = format;
+  return eslOK;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(bf, anchor);   
+    esl_buffer_RaiseAnchor(bf, anchor);
+  }
+  *ret_format = eslMSAFILE_UNKNOWN;
+  return status;
+}
+
+
+/* msafile_check_selex()
+ * Checks whether an input source appears to be in SELEX format.
+ *
+ * Check whether the input source <bf> appears to be a 
+ * SELEX-format alignment file, starting from the current point,
+ * to the end of the input. Return <eslOK> if so, <eslFAIL>
+ * if not.
+ * 
+ * The checker is more rigorous than the parser. To be autodetected,
+ * the SELEX file can't use whitespace for gaps. The parser, though,
+ * allows whitespace. A caller would have to specific SELEX format
+ * explicitly in that case.
+ */
+static int
+msafile_check_selex(ESL_BUFFER *bf)
+{
+  esl_pos_t start_offset = -1;
+  int       block_nseq   = 0;	 /* Number of seqs in each block is checked     */
+  int       nseq         = 0;
+  esl_pos_t block_nres   = 0;	 /* Number of residues in each line is checked  */
+  char     *firstname    = NULL; /* First seq name of every block is checked    */
+  esl_pos_t namelen      = 0;
+  int       blockidx     = 0;
+  int       in_block     = FALSE;
+  char     *p, *tok;
+  esl_pos_t n,  toklen;
+  int       status;
+
+  /* Anchor at the start of the input, so we can rewind */
+  start_offset = esl_buffer_GetOffset(bf);
+  if ( (status = esl_buffer_SetAnchor(bf, start_offset)) != eslOK) goto ERROR;
+
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK)
+    {
+      /* Some automatic giveaways of SELEX format */
+      if (esl_memstrpfx(p, n, "#=RF")) { status = eslOK; goto DONE; }
+      if (esl_memstrpfx(p, n, "#=CS")) { status = eslOK; goto DONE; }
+      if (esl_memstrpfx(p, n, "#=SS")) { status = eslOK; goto DONE; }
+      if (esl_memstrpfx(p, n, "#=SA")) { status = eslOK; goto DONE; }
+      
+      /* skip comments */
+      if (esl_memstrpfx(p, n, "#"))    continue;
+      
+      /* blank lines: end block, reset block counters */
+      if (esl_memspn(p, n, " \t") == n)
+	{
+	  if (block_nseq && block_nseq != nseq) { status = eslFAIL; goto DONE;} /* each block has same # of seqs */
+	  if (in_block) blockidx++;
+	  if (blockidx >= 3) { status = eslOK; goto DONE; } /* stop after three blocks; we're pretty sure by now */
+	  in_block   = FALSE;
+	  block_nres = 0;
+	  block_nseq = nseq;
+	  nseq       = 0;
+	  continue;
+	}
+
+      /* else we're a "sequence" line. test for two and only two non-whitespace
+       * fields; test that second field has same length; test that each block
+       * starts with the same seq name..
+       */
+      in_block = TRUE;
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK) goto ERROR; /* there's at least one token - we already checked for blank lines */
+      if (nseq == 0)	/* check first seq name in each block */
+	{
+	  if (blockidx == 0) { firstname = tok; namelen = toklen; } /* First block: set the name we check against. */
+	  else if (toklen != namelen || memcmp(tok, firstname, toklen) != 0) { status = eslFAIL; goto DONE; } /* Subsequent blocks */
+	}
+      if (esl_memtok(&p, &n, " \t", &tok, &toklen) != eslOK) { status = eslFAIL; goto DONE; }
+      if (block_nres && toklen != block_nres)                { status = eslFAIL; goto DONE; }
+      block_nres = toklen;
+      if (esl_memtok(&p, &n, " \t", &tok, &toklen) == eslOK) { status = eslFAIL; goto DONE; }
+      nseq++;
+    }
+  if (status != eslEOF) goto ERROR;  /* EOF is expected and good; anything else is bad */
+
+  if (in_block) blockidx++; 
+  status = (blockidx ? eslOK : eslFAIL); /* watch out for the case of no input */
+  /* deliberate readthru */
+ DONE:
+  if (start_offset != -1) { 
+    if (esl_buffer_SetOffset(bf, start_offset)   != eslOK) goto ERROR;
+    if (esl_buffer_RaiseAnchor(bf, start_offset) != eslOK) goto ERROR;
+    start_offset = -1;
+  }
+  return status;
+
+ ERROR:
+  if (start_offset != -1) { 
+    esl_buffer_SetOffset(bf, start_offset);
+    esl_buffer_RaiseAnchor(bf, start_offset);
+  }
+  return status;
+}
+/*---------------- end, file format utilities -------------------*/
+
+
+/*****************************************************************
+ *# 4. Guessing alphabet
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  eslx_msafile_GuessAlphabet()
+ * Synopsis:  Guess what kind of sequences the MSA file contains.
+ *
+ * Purpose:   Guess the alphabet of the sequences in the open
+ *            <ESL_MSAFILE> <afp> -- <eslDNA>, <eslRNA>, or <eslAMINO> --
+ *            based on the residue composition of the input.
+ *            
+ * Returns:   Returns <eslOK> on success, and <*ret_type> is set
+ *            to <eslDNA>, <eslRNA>, or <eslAMINO>. 
+ *            
+ *            Returns <eslENOALPHABET> and sets <*ret_type> to
+ *            <eslUNKNOWN> if the alphabet cannot be reliably 
+ *            guessed.
+ * 
+ *            Either way, the <afp>'s buffer is restored to its original
+ *            state, no matter how much data we had to read while trying
+ *            to guess.
+ *
+ * Throws:    <eslEMEM> - an allocation error.
+ *            <eslESYS> - a system call such as <fread()> failed.
+ *            <eslEINCONCEIVABLE> - "impossible" corruption, internal bug
+ */
+int
+eslx_msafile_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int status = eslENOALPHABET;
+  switch (afp->format) {
+  case eslMSAFILE_STOCKHOLM:   status = esl_msafile_stockholm_GuessAlphabet(afp, ret_type); break;
+  case eslMSAFILE_PFAM:        status = esl_msafile_stockholm_GuessAlphabet(afp, ret_type); break;
+  case eslMSAFILE_A2M:         status = esl_msafile_a2m_GuessAlphabet      (afp, ret_type); break;
+  case eslMSAFILE_PSIBLAST:    status = esl_msafile_psiblast_GuessAlphabet (afp, ret_type); break;
+  case eslMSAFILE_SELEX:       status = esl_msafile_selex_GuessAlphabet    (afp, ret_type); break;
+  case eslMSAFILE_AFA:         status = esl_msafile_afa_GuessAlphabet      (afp, ret_type); break;
+  case eslMSAFILE_CLUSTAL:     status = esl_msafile_clustal_GuessAlphabet  (afp, ret_type); break;
+  case eslMSAFILE_CLUSTALLIKE: status = esl_msafile_clustal_GuessAlphabet  (afp, ret_type); break;
+  case eslMSAFILE_PHYLIP:      status = esl_msafile_phylip_GuessAlphabet   (afp, ret_type); break; 
+  case eslMSAFILE_PHYLIPS:     status = esl_msafile_phylip_GuessAlphabet   (afp, ret_type); break; 
+  }
+  return status;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+/*----------- end, utilities for alphabets ----------------------*/
+
+
+/*****************************************************************
+ *# 5. Random msa flatfile database access (with SSI)
+ *****************************************************************/
+#ifdef eslAUGMENT_SSI
+
+/* Function:  eslx_msafile_PositionByKey()
+ * Synopsis:  Use SSI to reposition file to start of named MSA.
+ *
+ * Purpose:   Reposition <afp> so that the next MSA we read
+ *            will be the one named (or accessioned) <key>.
+ *
+ * Returns:   <eslOK> on success, and the file <afp> is repositioned
+ *            such that the next <eslx_msafile_Read()> call will read the
+ *            alignment named <key>.
+ *            
+ *            Returns <eslENOTFOUND> if <key> isn't found in the index
+ *            for <afp>. 
+ *            
+ *            Returns <eslEFORMAT> if something goes wrong trying to
+ *            read the index, indicating some sort of file format
+ *            problem in the SSI file.
+ *
+ * Throws:    <eslENODATA> if there's no open SSI index;
+ *            <eslEINVAL> if the <offset> is invalid, either requiring rewind
+ *              of a nonrewindable stream, or off the end of the data;
+ *            <eslESYS> if a system call such as <fread()> fails;
+ *            <eslEMEM> on allocation failure.
+ *            In all these cases, the state of the <afp> is uncertain
+ *            and may be corrupt; the application should not continue
+ *            to use it.
+ */
+int
+eslx_msafile_PositionByKey(ESLX_MSAFILE *afp, const char *key)
+{
+  uint16_t fh;
+  off_t    offset;
+  int      status;
+
+  if (afp->ssi == NULL) ESL_EXCEPTION(eslENODATA, "Need an open SSI index to call eslx_msafile_PositionByKey()");
+  if ((status = esl_ssi_FindName(afp->ssi, key, &fh, &offset, NULL, NULL)) != eslOK) return status; /* eslENOTFOUND|eslEFORMAT [eslEMEM] */
+  if ((status = esl_buffer_SetOffset(afp->bf, offset))                     != eslOK) return status; /* [eslEINVAL|eslESYS|eslEMEM] */
+
+  /* The linenumber gets messed up after a file positioning. Best we can do
+   * is to turn it off (set it to -1). FIX THIS next time SSI format is 
+   * changed: add linenumber to a primary key record.
+   */
+  afp->linenumber = -1; 
+  return eslOK;
+}
+#endif /*eslAUGMENT_SSI*/
+/*------------- end of functions added by SSI augmentation -------------------*/
+
+
+/*****************************************************************
+ *# 6. Reading MSAs from input
+ *****************************************************************/
+
+/* Function:  eslx_msafile_Read()
+ * Synopsis:  Read next MSA from input.
+ *
+ * Purpose:   Reads the next MSA from open MSA input <afp>, and return it in 
+ *            <*ret_msa>.
+ *
+ * Args:      afp      - open alignment input stream
+ 8            *ret_msa - RETURN: alignment
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ *            <eslEFORMAT> on a parse error, and <afp->errmsg> is set
+ *            to a user-directed error message; <*ret_msa> is <NULL>.
+ *
+ *            If no alignment is found at all, returns <eslEOF>,
+ *            and <afp->errmsg> is blank; <*ret_msa> is <NULL>.
+ *
+ *            On normal error, <afp> and the return status code may be
+ *            passed to <eslx_msafile_ReadFailure()> to print diagnostics
+ *            to <stderr> (including input source information and line
+ *            number) and exit.
+ *
+ * Throws:    <eslEMEM> - an allocation failed.
+ *            <eslESYS> - a system call such as fread() failed
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ */
+int
+eslx_msafile_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa    = NULL;
+  int       status = eslOK;
+#ifdef eslAUGMENT_SSI
+  esl_pos_t offset = esl_buffer_GetOffset(afp->bf);
+#endif
+
+  switch (afp->format) {
+  case eslMSAFILE_A2M:          if ((status = esl_msafile_a2m_Read      (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_AFA:          if ((status = esl_msafile_afa_Read      (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_CLUSTAL:      if ((status = esl_msafile_clustal_Read  (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_CLUSTALLIKE:  if ((status = esl_msafile_clustal_Read  (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_PFAM:         if ((status = esl_msafile_stockholm_Read(afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_PHYLIP:       if ((status = esl_msafile_phylip_Read   (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_PHYLIPS:      if ((status = esl_msafile_phylip_Read   (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_PSIBLAST:     if ((status = esl_msafile_psiblast_Read (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_SELEX:        if ((status = esl_msafile_selex_Read    (afp, &msa)) != eslOK) goto ERROR; break;
+  case eslMSAFILE_STOCKHOLM:    if ((status = esl_msafile_stockholm_Read(afp, &msa)) != eslOK) goto ERROR; break;
+  default:                      ESL_EXCEPTION(eslEINCONCEIVABLE, "no such msa file format");
+  }
+  
+#ifdef eslAUGMENT_SSI
+  msa->offset = offset;
+#endif
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+/* Function:  eslx_msafile_ReadFailure()
+ * Synopsis:  Report diagnostics of a normal error in parsing MSA file, and exit.
+ *
+ * Purpose:   Report user-directed diagnostics of a normal error from
+ *            parsing an MSA file.  Output the error message to
+ *            <stderr>, along with information about what we were
+ *            parsing (filename, if it was a file) and where we were
+ *            in the input (linenumber, if we know it). This
+ *            information is all available in <afp>. Then close <afp>
+ *            and exit with the <status> provided by the caller.
+ *
+ * Args:      afp    - open ESLX_MSAFILE, containing information about
+ *                     the error and the input source.
+ *            status - exit status; generally eslEFORMAT. 
+ *
+ * Returns:   no return. Exits here with <status>.
+ */
+void
+eslx_msafile_ReadFailure(ESLX_MSAFILE *afp, int status)
+{
+  switch (status) {
+  case eslEFORMAT:  fprintf(stderr, "Alignment input parse error:\n   %s\n", afp->errmsg);       break;
+  case eslEOF:      fprintf(stderr, "Alignment input appears empty?\n");                         break;
+  default:          fprintf(stderr, "Alignment input read error; unexpected code %d\n", status); break;
+  }
+  
+  switch (afp->bf->mode_is) {
+  case eslBUFFER_STREAM:   fprintf(stderr, "   while reading %s from an input stream (not a file)\n", eslx_msafile_DecodeFormat(afp->format));   break;
+  case eslBUFFER_CMDPIPE:  fprintf(stderr, "   while reading %s through a pipe (not a file)\n",       eslx_msafile_DecodeFormat(afp->format));   break;
+  case eslBUFFER_FILE:     
+  case eslBUFFER_ALLFILE:
+  case eslBUFFER_MMAP:     fprintf(stderr, "   while reading %s file %s\n", eslx_msafile_DecodeFormat(afp->format), afp->bf->filename);          break;
+  case eslBUFFER_STRING:   fprintf(stderr, "   while reading %s from a provided string (not a file)\n", eslx_msafile_DecodeFormat(afp->format)); break;
+  default:                 break; 
+  }
+
+  if (afp->linenumber > 0) fprintf(stderr, "   at or near line %" PRIu64 "\n", afp->linenumber);
+  else                     fprintf(stderr, "   at or near byte %" PRIu64 "\n", esl_buffer_GetOffset(afp->bf));
+
+  eslx_msafile_Close(afp);
+  exit(status);
+}
+/*------------ end, reading MSA from ESLX_MSAFILE ---------------*/
+
+
+
+
+/*****************************************************************
+ *# 7. Writing an MSA to a stream.
+ *****************************************************************/
+
+/* Function:  eslx_msafile_Write()
+ * Synopsis:  Write an MSA to a stream.
+ *
+ * Purpose:   Writes alignment <msa> to open stream <fp> in format <fmt>.
+ * 
+ *            In general, the <msa> is unchanged, but there are some
+ *            exceptions. For example, writing an alignment in A2M format
+ *            will alter alignment data (marking missing data
+ *            symbols on heuristically defined sequence fragments) and
+ *            create an <\#=RF> annotation line, if an <msa->rf>
+ *            annotation line isn't already present in the <msa>.
+ *
+ * Args:      fp   - open stream (such as <stdout>)  
+ *            msa  - alignment to write
+ *            fmt  - format code (such as <eslMSAFILE_STOCKHOLM>)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on any system write error, such as a filled disk.
+ */
+int
+eslx_msafile_Write(FILE *fp, ESL_MSA *msa, int fmt)
+{
+  int status;
+
+  switch (fmt) {
+  case eslMSAFILE_STOCKHOLM:   status = esl_msafile_stockholm_Write(fp, msa, eslMSAFILE_STOCKHOLM);     break;
+  case eslMSAFILE_PFAM:        status = esl_msafile_stockholm_Write(fp, msa, eslMSAFILE_PFAM);          break;
+  case eslMSAFILE_A2M:         status = esl_msafile_a2m_Write      (fp, msa);                           break;
+  case eslMSAFILE_PSIBLAST:    status = esl_msafile_psiblast_Write (fp, msa);                           break;
+  case eslMSAFILE_SELEX:       status = esl_msafile_selex_Write    (fp, msa);                           break;
+  case eslMSAFILE_AFA:         status = esl_msafile_afa_Write      (fp, msa);                           break;
+  case eslMSAFILE_CLUSTAL:     status = esl_msafile_clustal_Write  (fp, msa, eslMSAFILE_CLUSTAL);       break;
+  case eslMSAFILE_CLUSTALLIKE: status = esl_msafile_clustal_Write  (fp, msa, eslMSAFILE_CLUSTALLIKE);   break;
+  case eslMSAFILE_PHYLIP:      status = esl_msafile_phylip_Write   (fp, msa, eslMSAFILE_PHYLIP,  NULL); break;
+  case eslMSAFILE_PHYLIPS:     status = esl_msafile_phylip_Write   (fp, msa, eslMSAFILE_PHYLIPS, NULL); break;
+  default:                     ESL_EXCEPTION(eslEINCONCEIVABLE, "no such msa file format");
+  }
+  return status;
+}
+
+/*-------------- end, writing MSA to stream ---------------------*/
+
+
+/*****************************************************************
+ *# 8. Utilities used by specific format parsers.
+ *****************************************************************/
+
+/* Function:  eslx_msafile_GetLine()
+ * Synopsis:  Read next line of input alignment file.
+ *
+ * Purpose:   Read next line of input <afp>, into its internal
+ *            data fields: <afp->line> points to the start of the
+ *            line in <afp->bf>, <afp->n> is its length in
+ *            bytes, <afp->lineoffset> is the offset in the input
+ *            to the start of the line, and <afp->linenumber> is
+ *            the linenumber from <1..N> for <N> total lines in the
+ *            input.
+ *            
+ *            Optionally, caller can request <*opt_p>, <*opt_n>,
+ *            which are set to <afp->line>,<afp->n>. This gives the
+ *            caller a modifiable line pointer that it can step
+ *            through, while <afp->line> is preserved for possible
+ *            diagnostics if anything goes awry.
+ *            
+ * Args:      <afp>    : an open alignment file input
+ *            <*opt_p> : optRETURN: modifiable copy of <afp->line> pointer
+ *            <*opt_n> : optRETURN: modifiable copy of <afp->n>
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            <eslEOF> at EOF. Now <afp->line> is <NULL>, <afp->n>
+ *            is <0>, and <afp->lineoffset> is <0>. <afp->linenumber>
+ *            is the total number of lines in the input.
+ *            
+ * Throws:    <eslEMEM> if an allocation fails.
+ *            <eslESYS> if a system call fails, such as fread().
+ *            <eslEINCONCEIVABLE> on internal code errors.
+ */
+int
+eslx_msafile_GetLine(ESLX_MSAFILE *afp, char **opt_p, esl_pos_t *opt_n)
+{
+  int status;
+
+  afp->lineoffset = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_GetLine(afp->bf, &(afp->line), &(afp->n))) != eslOK) goto ERROR;
+  if (afp->linenumber != -1) afp->linenumber++;
+
+  if (opt_p) *opt_p = afp->line;
+  if (opt_n) *opt_n = afp->n;
+  return eslOK;
+
+ ERROR:
+  afp->line       = NULL;
+  afp->n          = 0;
+  afp->lineoffset = -1;
+  /* leave linenumber alone. on EOF, it is the number of lines in the file, and that might be useful. */
+  if (opt_p) *opt_p = NULL;
+  if (opt_n) *opt_n = 0;
+  return status;
+}
+
+
+/* Function:  eslx_msafile_PutLine()
+ * Synopsis:  Put the line we just read back in the input stream
+ *
+ * Purpose:   Put the line we just read back in the input stream
+ *            and unset <afp->line> and its associated information
+ *            internally. The next <eslx_msafile_GetLine()> call 
+ *            will read exactly the same line again.
+ * 
+ *            This gets used in parsing files that contain multiple
+ *            MSAs. If the way we determine that an MSA record has
+ *            ended is by reading the first line of the next MSA
+ *            record, then we may want to stuff it back in the input
+ *            buffer, so it gets parsed properly as part of the next
+ *            record.  In Pfam/Stockholm parsing we don't have to
+ *            do this, because the first line is just a format code,
+ *            with no record-specific data. But in PHYLIP multiple MSA
+ *            format, for example, the first line is nseq,alen.
+ *            
+ * Args:      afp  - the open input stream
+ *
+ * Returns:   <eslOK> on succes
+ *
+ * Throws:    <eslEMEM>, <eslESYS>, <eslEINCONCEIVABLE> if the
+ *            <esl_buffer_Set()> call fails.
+ */
+int
+eslx_msafile_PutLine(ESLX_MSAFILE *afp)
+{
+  int status;
+  if ((status = esl_buffer_Set(afp->bf, afp->line, 0)) != eslOK) return status;
+  afp->line       = NULL;
+  afp->n          = 0;
+  if (afp->linenumber != -1) afp->linenumber--;
+  afp->lineoffset = -1;
+  return eslOK;
+}
+
+/*--------------- end, parser utilities -------------------------*/
+
+
+
+/*****************************************************************
+ * 9. Unit tests
+ *****************************************************************/
+#ifdef eslMSAFILE_TESTDRIVE
+
+
+static void
+utest_format2format(int fmt1, int fmt2)
+{
+  char          msg[]        = "esl_msafile: format2format unit test failed";
+  char          tmpfile1[32] = "esltmpXXXXXX";
+  char          tmpfile2[32] = "esltmpXXXXXX";
+  char          tmpfile3[32] = "esltmpXXXXXX";
+  FILE         *ofp = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  ESLX_MSAFILE *afp;
+  int           alphatype    = eslAMINO;
+  ESL_ALPHABET *abc          = esl_alphabet_Create(alphatype);
+  ESL_ALPHABET *abc2         = NULL;
+
+  /* The test alignment has to have a shorter seq1, to make A2M format distinct from AFA. (w/ no RF line, A2M defaults to using 1st seq as consensus)
+   * It must be longer than 60 residues, to make Phylip interleaved distinct from Phylip sequential.
+   */
+  char *testmsa = "\
+# STOCKHOLM 1.0\n\
+seq1    ACDEFGHIKLMNPQRSTVWYacdefghiklmnpq------ACDEFGHIKLMNPQRSTVWYacde......mnpqrstvwyACDEFGHI______RSTVWYacdefghiklmnpqrstvwy\n\
+seq2    ACDEFGHIKLMNPQRSTVWYacdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWYacdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWYacdefghiklmnpqrstvwy\n\
+//\n";
+
+  /* Create the test msa, msa1, digital mode, no autodetections */
+  if ( eslx_msafile_OpenMem(&abc, testmsa, strlen(testmsa), eslMSAFILE_STOCKHOLM, NULL, &afp) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Read(afp, &msa1) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  /* Write it to tmpfile1 in fmt1. (This exercises writing of digital MSAs, in all <fmt1> formats) */
+  if ( esl_tmpfile_named(tmpfile1, &ofp)   != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Write(ofp, msa1, fmt1) != eslOK) esl_fatal(msg);
+  fclose(ofp);
+
+  /* Read it back from <fmt1> in TEXT mode (verbatim), with format autodetection */
+  if ( eslx_msafile_Open(NULL, tmpfile1, NULL, eslMSAFILE_UNKNOWN, NULL, &afp) != eslOK) esl_fatal(msg);
+  if (fmt1 == eslMSAFILE_PFAM     && afp->format == eslMSAFILE_STOCKHOLM) afp->format = eslMSAFILE_PFAM;
+  if (fmt1 == eslMSAFILE_PSIBLAST && afp->format == eslMSAFILE_SELEX)     afp->format = eslMSAFILE_PSIBLAST;
+  if ( eslx_msafile_Read(afp, &msa2) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  /* Write it to tmpfile2 in fmt2. (This exercises writing of text-mode MSAs, in all <fmt2> formats) */
+  if ( esl_tmpfile_named(tmpfile2, &ofp)   != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Write(ofp, msa2, fmt2) != eslOK) esl_fatal(msg);
+  fclose(ofp);
+
+  /* Read it back in TEXT mode. */
+  if ( eslx_msafile_Open(NULL, tmpfile2, NULL, eslMSAFILE_UNKNOWN, NULL, &afp) != eslOK) esl_fatal(msg);
+  if (fmt2 == eslMSAFILE_PFAM     && afp->format == eslMSAFILE_STOCKHOLM) afp->format = eslMSAFILE_PFAM;
+  if (fmt2 == eslMSAFILE_PSIBLAST && afp->format == eslMSAFILE_SELEX)     afp->format = eslMSAFILE_PSIBLAST;
+  if ( eslx_msafile_Read(afp, &msa3) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  /* Write it to tmpfile4 in fmt2. (This exercises writing of digital-mode MSAs, in all <fmt2> formats */
+  if ( esl_tmpfile_named(tmpfile3, &ofp)   != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Write(ofp, msa3, fmt2) != eslOK) esl_fatal(msg);
+  fclose(ofp);
+
+  /* Read it back in DIGITAL mode, with alphabet autodetection but not format */
+  if ( eslx_msafile_Open(&abc2, tmpfile3, NULL, fmt2, NULL, &afp) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Read(afp, &msa4) != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  /* Now:
+   *   msa1 = digital mode test alignment, created from Stockholm string
+   *   msa2 = TEXT mode, read from <fmt1> tmpfile1 
+   *   msa3 = TEXT mode, read from <fmt2> tmpfile2
+   *   msa4 = digital mode, read from <fmt2> tmpfile3
+   * So we expect:
+   *   msa2==msa3
+   *   msa1==msa4
+   */
+
+  /* some normalization before comparing alignments. */
+  esl_msa_SymConvert(msa2, "abcdefghijklmnopqrstuvwxyz.", "ABCDEFGHIJKLMNOPQRSTUVWXYZ-");
+  esl_msa_SymConvert(msa3, "abcdefghijklmnopqrstuvwxyz.", "ABCDEFGHIJKLMNOPQRSTUVWXYZ-");
+
+  if (msa2->rf) { free (msa2->rf); msa2->rf = NULL; }
+  if (msa3->rf) { free (msa3->rf); msa3->rf = NULL; }
+  if (msa4->rf) { free (msa4->rf); msa4->rf = NULL; }
+
+  if (esl_msa_Compare(msa2, msa3) != eslOK) esl_fatal(msg);
+  if (esl_msa_Compare(msa1, msa4) != eslOK) esl_fatal(msg);
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  remove(tmpfile3);     
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2); 
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+  esl_alphabet_Destroy(abc);
+  esl_alphabet_Destroy(abc2);
+}
+
+static void
+utest_tricky_format_decisions(void)
+{
+  ESLX_MSAFILE *afp;
+  int status;
+
+  /* an all-lower case unaligned FASTA file should not get called A2M format
+   * an A2M file should have at least one consensus column, not be all-insert.
+   */
+  char *testmsa1 = "\
+>seq1\n\
+aaaaaa\n\
+>seq2\n\
+aaaaa\n";
+  status = eslx_msafile_OpenMem(NULL, testmsa1, strlen(testmsa1), eslMSAFILE_UNKNOWN, NULL, &afp);
+  if      (status == eslOK)        esl_fatal("testmsa1 erroneously detected as %s", eslx_msafile_DecodeFormat(afp->format));
+  else if (status != eslENOFORMAT) esl_fatal("tricky_format_decisions test failed");
+
+  eslx_msafile_Close(afp);
+}
+#endif /*eslMSAFILE_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+/*****************************************************************
+ * 10. Test driver
+ *****************************************************************/
+#ifdef eslMSAFILE_TESTDRIVE
+
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_utest -DeslMSAFILE_TESTDRIVE esl_msafile.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_utest -DeslMSAFILE_TESTDRIVE esl_msafile.c -leasel -lm
+ * run:     ./esl_msafile_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for MSA input/output format module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  int fmt1, fmt2;
+  
+  for (fmt1 = eslMSAFILE_STOCKHOLM; fmt1 <= eslMSAFILE_PHYLIPS; fmt1++)
+    for (fmt2 = eslMSAFILE_STOCKHOLM; fmt2 <= eslMSAFILE_PHYLIPS; fmt2++)
+      utest_format2format(fmt1, fmt2);
+
+  utest_tricky_format_decisions();
+
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+
+#endif /*eslMSAFILE_TESTDRIVE*/
+/*----------------- end, test driver ----------------------------*/
+
+
+
+/*****************************************************************
+ * 11. Examples.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_EXAMPLE
+/*::cexcerpt::msafile_example::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",        0 },
+  { "-i",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show info, instead of converting format",     0 },
+  { "--informat",  eslARG_STRING,      NULL,  NULL, NULL,  NULL,  NULL, NULL, "specify the input MSA file is in format <s>", 0 }, 
+  { "--outformat", eslARG_STRING, "Clustal",  NULL, NULL,  NULL,  NULL, NULL, "write the output MSA in format <s>",          0 }, 
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use DNA alphabet",                            0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use RNA alphabet",                            0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use protein alphabet",                        0 },
+  { "--text",      eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of multiple alignment input and output using the msafile module(s)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go        = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char         *msafile   = esl_opt_GetArg(go, 1);
+  int           infmt     = eslMSAFILE_UNKNOWN;
+  int           outfmt    = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET *abc       = NULL;
+  ESLX_MSAFILE *afp       = NULL;
+  ESL_MSA      *msa       = NULL;
+  int           textmode  = esl_opt_GetBoolean(go, "--text");
+  int           showinfo  = esl_opt_GetBoolean(go, "-i");
+  int           nali      = 0;
+  int           status;
+
+  /* If you know the alphabet you want, create it - you'll pass it to eslx_msafile_Open() */
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* If you know the MSA file format, set it (<infmt>, here). */
+  if (esl_opt_IsOn(go, "--informat") &&
+      (infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"))) == eslMSAFILE_UNKNOWN)
+    esl_fatal("%s is not a valid MSA file format for --informat", esl_opt_GetString(go, "--informat"));
+
+  /* Open in text or digital mode.
+   *   To let the Open() function autoguess the format, you pass <infmt=eslMSAFILE_UNKNOWN>. 
+   *   To let it autoguess the alphabet, you set <abc=NULL> and pass <&abc>.
+   *   To open in text mode instead of digital, you pass <NULL> for the alphabet argument.
+   * eslx_msafile_OpenFailure() is a convenience, printing various diagnostics of any
+   * open failure to <stderr>. You can of course handle your own diagnostics instead.
+   */
+  if (textmode) status = eslx_msafile_Open(NULL, msafile, NULL, infmt, NULL, &afp);
+  else          status = eslx_msafile_Open(&abc, msafile, NULL, infmt, NULL, &afp);
+  if (status != eslOK)   eslx_msafile_OpenFailure(afp, status);
+  
+  if (showinfo) {
+    printf("# Format:    %s\n", eslx_msafile_DecodeFormat(afp->format));
+    printf("# Alphabet:  %s\n", (afp->abc ? esl_abc_DecodeType(afp->abc->type) : "text mode"));
+  }
+
+  /* Choose the output file format */
+  if ( (outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"))) == eslMSAFILE_UNKNOWN)
+    esl_fatal("%s is not a valid MSA file format for --outformat", esl_opt_GetString(go, "--outformat"));
+
+  while ((status = eslx_msafile_Read(afp, &msa)) == eslOK)
+    {	
+      /* if digital MSA: msa->ax[idx=0..nseq-1][acol=1..alen] is the alignment data; 
+       * if text MSA:  msa->aseq[idx=0..nseq-1][acol=0..alen-1] */
+      nali++;
+      
+      if (showinfo) printf("# alignment %5d: %15s: %6d seqs, %5d columns\n\n", nali, msa->name, (int) msa->nseq, (int) msa->alen);
+      else   	    eslx_msafile_Write(stdout, msa, outfmt);
+
+      esl_msa_Destroy(msa);
+    }
+  if (nali == 0 || status != eslEOF) eslx_msafile_ReadFailure(afp, status); /* a convenience, like eslx_msafile_OpenFailure() */
+
+  esl_alphabet_Destroy(abc);
+  eslx_msafile_Close(afp);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_example::end::*/
+#endif /*eslMSAFILE_EXAMPLE*/
+/*------------------------ end of examples -----------------------*/
+      
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile.c $
+ * SVN $Id: esl_msafile.c 897 2013-12-17 22:16:23Z wheelert $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile.h
new file mode 100755
index 0000000..0857d71
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile.h
@@ -0,0 +1,149 @@
+/* Multiple sequence alignment file i/o
+ */
+#ifndef eslMSAFILE_INCLUDED
+#define eslMSAFILE_INCLUDED
+
+#include <stdio.h>
+
+#include "esl_alphabet.h"	/* digital alphabets                         */
+#include "esl_buffer.h"		/* string hashes, for mapping uniq seq names */
+#include "esl_msa.h"		/* ESL_MSA structure                         */
+#include "esl_ssi.h"        	/* indexes of large flatfiles on disk        */
+
+/* Object: ESLX_MSAFILE_FMTDATA
+ * 
+ * Additional (often optional) information about variants of some file
+ * formats. Not much in here right now - but figured this might need
+ * to expand in the future, best to have the mechanism in place.    
+ *
+ * Used in three ways:
+ *   1. When opening an MSA file in a known format (as opposed to
+ *      guessing an unknown format), caller may provide an <ESLX_MSAFILE_FMTDATA>
+ *      structure containing any additional constraints on the format.
+ *      The new <afp> will copy this information into <afp->fmtd>.
+ *   2. When opening an MSA file in an unknown format (calling GuessFileFormat()),
+ *      format-specific autodetectors fill in <afp->fmtd> with any additional
+ *      constraints.
+ *   3. When writing an MSA file, caller may provide additional constraints on
+ *      the format; notably <fmtd->rpl>, the number of residues per line, 
+ *      used for many formats.
+ *      
+ * TODO: If this fills up with more information, we should eventually
+ *       consolidate the format code too; create ESL_MSAFORMAT structure
+ *       to hold both integer code and optional information; implement
+ *       it in esl_msaformat.[ch]; put format guessing routines there;
+ *       rename eslMSAFILE_* -> eslMSAFORMAT_*. For now, not worth the
+ *       time, because it's really only a placeholder dealing with a small
+ *       PHYLIP-specific format issue. <format>, <fmtd> are generally
+ *       an ordered pair, to facilitate eventual replacement w/ single 
+ *       <fmt>. [SRE, 19 Jul 11]
+ */
+typedef struct {
+  int namewidth;   /* PHYLIP only:     width of the name field (usually 10, but can vary) unset=0 */
+  int rpl;	   /* several formats: residues per line                                  unset=0 */
+} ESLX_MSAFILE_FMTDATA;
+
+
+
+/* Object: ESLX_MSAFILE
+ * 
+ * An alignment file open for parsing.
+ */
+typedef struct {
+  ESL_BUFFER          *bf;            /* input file/data being parsed                          */
+
+  int32_t              format;	      /* format of alignment file we're reading                */
+  ESLX_MSAFILE_FMTDATA fmtd;          /* additional (often optional) format-specific details.  */
+
+  char                *line;	      /* line read from <bf> by <esl_msafile_GetLine()>        */
+  esl_pos_t            n;	      /* length of line in bytes (line is not NUL-terminated)  */
+  int64_t              linenumber;    /* input linenumber for diagnostics; -1 if we lose track */
+  esl_pos_t            lineoffset;    /* offset of start of <line> in <bf>; -1 if line unset   */
+
+  ESL_DSQ              inmap[128];    /* input map, 0..127                                     */
+  const ESL_ALPHABET  *abc;	      /* non-NULL if augmented and in digital mode             */
+  ESL_SSI             *ssi;	      /* open SSI index; or NULL, if none or not augmented     */
+  char                 errmsg[eslERRBUFSIZE];   /* user-directed message for normal errors     */
+} ESLX_MSAFILE;
+
+
+/* Alignment file format codes.
+ * Must coexist with sqio unaligned file format codes.
+ * Rules:
+ *     - 0 is an unknown/unassigned format 
+ *     - <=100 reserved for unaligned formats
+ *     - >100 reserved for aligned formats
+ */
+#define eslMSAFILE_UNKNOWN     0    /* unknown format                              */
+#define eslMSAFILE_STOCKHOLM   101  /* Stockholm format, interleaved               */
+#define eslMSAFILE_PFAM        102  /* Pfam/Rfam one-line-per-seq Stockholm format */
+#define eslMSAFILE_A2M         103  /* UCSC SAM's fasta-like a2m format            */
+#define eslMSAFILE_PSIBLAST    104  /* NCBI PSI-BLAST alignment format             */
+#define eslMSAFILE_SELEX       105  /* old SELEX format (largely obsolete)         */
+#define eslMSAFILE_AFA         106  /* aligned FASTA format                        */
+#define eslMSAFILE_CLUSTAL     107  /* CLUSTAL format                              */
+#define eslMSAFILE_CLUSTALLIKE 108  /* CLUSTAL-like formats (MUSCLE, PROBCONS)     */
+#define eslMSAFILE_PHYLIP      109  /* interleaved PHYLIP format                   */
+#define eslMSAFILE_PHYLIPS     110  /* sequential PHYLIP format                    */
+
+
+/* 1. Opening/closing an ESLX_MSAFILE */
+extern int   eslx_msafile_Open      (ESL_ALPHABET **byp_abc, const char *msafile, const char *env, int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE **ret_afp);
+extern int   eslx_msafile_OpenMem   (ESL_ALPHABET **byp_abc, const char *p, esl_pos_t n,           int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE **ret_afp);
+extern int   eslx_msafile_OpenBuffer(ESL_ALPHABET **byp_abc, ESL_BUFFER *bf,                       int format, ESLX_MSAFILE_FMTDATA *fmtd, ESLX_MSAFILE **ret_afp);
+extern void  eslx_msafile_OpenFailure(ESLX_MSAFILE *afp, int status);
+extern int   eslx_msafile_SetDigital (ESLX_MSAFILE *afp, const ESL_ALPHABET *abc);
+extern void  eslx_msafile_Close(ESLX_MSAFILE *afp);
+
+/* 2. ESLX_MSAFILE_FMTDATA: optional extra constraints on formats */
+extern int   eslx_msafile_fmtdata_Init(ESLX_MSAFILE_FMTDATA *fmtd);
+extern int   eslx_msafile_fmtdata_Copy(ESLX_MSAFILE_FMTDATA *src,  ESLX_MSAFILE_FMTDATA *dst);
+
+/* 3. Utilities for different file formats */
+extern int   eslx_msafile_GuessFileFormat(ESL_BUFFER *bf, int *ret_fmtcode, ESLX_MSAFILE_FMTDATA *fmtd); 
+extern int   eslx_msafile_IsMultiRecord(int fmt);
+extern int   eslx_msafile_EncodeFormat(char *fmtstring);
+extern char *eslx_msafile_DecodeFormat(int fmt);
+
+/* 4. Utilities for different alphabets */
+#ifdef eslAUGMENT_ALPHABET
+extern int eslx_msafile_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+#endif
+
+/* 5. Random access in a MSA flatfile database */
+#ifdef eslAUGMENT_SSI
+extern int eslx_msafile_PositionByKey(ESLX_MSAFILE *afp, const char *key);
+#endif
+
+/* 6. Reading an MSA from an ESLX_MSAFILE */
+extern int  eslx_msafile_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern void eslx_msafile_ReadFailure(ESLX_MSAFILE *afp, int status);
+
+/* 7. Writing an MSA to a stream */
+extern int eslx_msafile_Write(FILE *fp, ESL_MSA *msa, int fmt);
+
+/* 8. Utilities for specific parsers */
+extern int eslx_msafile_GetLine(ESLX_MSAFILE *afp, char **opt_p, esl_pos_t *opt_n);
+extern int eslx_msafile_PutLine(ESLX_MSAFILE *afp);
+
+#include "esl_msafile_a2m.h"
+#include "esl_msafile_afa.h"
+#include "esl_msafile_clustal.h"
+#include "esl_msafile_phylip.h"
+#include "esl_msafile_psiblast.h"
+#include "esl_msafile_selex.h"
+#include "esl_msafile_stockholm.h"
+#endif /*eslMSAFILE_INCLUDED*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL$
+ * SVN $Id: esl_msafile.h 826 2012-11-30 14:57:13Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile2.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile2.c
new file mode 100755
index 0000000..e3cc500
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile2.c
@@ -0,0 +1,1488 @@
+/* Memory-efficient multiple sequence alignment i/o from Pfam format
+ * 
+ * Legacy interface, now that ESLX_MSAFILE is rewritten. Just enough
+ * of the old interface is retained to support --small option in
+ * various tools, for reading Pfam format in memory-efficient ways.
+ *
+ * Table of contents:
+ *    1. The ESL_MSAFILE2 object
+ *    2. Memory efficient read/write in Pfam format
+ *    3. Legacy Stockholm parsing tools
+ *    4. Unit tests
+ *    5. Test driver
+ *    6. Copyright and license information.
+ * 
+ * to-do:
+ *   :: add memory-efficient interface in ESLX_MSAFILE
+ *   :: add memory-efficient ESL_MSA w/ API
+ *   :: add space-efficient MSA file format
+ */
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "esl_msa.h"		/* ESL_MSA structure                                                  */
+#include "esl_msafile.h"	/* preferred msafile interface, inc. fmt codes shared w/ ESL_MSAFILE2 */
+#include "esl_msafile2.h"	/* legacy ESL_MSAFILE2 interface                                      */
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"	/* digital alphabet                                                   */
+#endif
+#ifdef eslAUGMENT_KEYHASH
+#include "esl_keyhash.h"	/* string hashes, for mapping unique seq names                        */
+#endif
+#ifdef eslAUGMENT_SSI
+#include "esl_ssi.h"        	/* indexing large flatfiles on disk                                   */
+#endif
+
+static int     msafile2_getline(ESL_MSAFILE2 *afp);
+static int     is_blankline(char *s);
+static int     parse_gf(ESL_MSA *msa, char *buf);
+static int     parse_gc(ESL_MSA *msa, char *buf);
+static int     parse_comment(ESL_MSA *msa, char *buf);
+
+/*****************************************************************
+ *# 1. The ESL_MSAFILE2 object
+ *****************************************************************/
+
+static int msafile2_open(const char *filename, const char *env, ESL_MSAFILE2 **ret_afp);
+
+/* Function: esl_msafile2_Open()
+ * Synopsis: Open an MSA file for small-memory input.
+ *
+ * Purpose:  Open an alignment database file <filename>, which must be
+ *           in Pfam format (<eslMSAFILE_PFAM>), and prepare for
+ *           reading information through the legacy small-memory 
+ *           interface. Return  the opened file pointer in <ret_msafp>.
+ *          
+ *           There are one or two special cases for <filename>. If
+ *           <filename> is "-", then the alignment is read from
+ *           <stdin>. If <filename> ends in ".gz", then the file is
+ *           assumed to be compressed by gzip, and it is opened as a
+ *           pipe from <gzip -dc>. (Auto-decompression of gzipp'ed files
+ *           is only available on POSIX-compliant systems w/ popen(), when 
+ *           <HAVE_POPEN> is defined at compile-time.)
+ *          
+ *           If <env> is non-NULL, then we look for <filename> in
+ *           one or more directories in a colon-delimited list
+ *           that is the value of the environment variable <env>.
+ *           For example, if we had 
+ *              <setenv HMMERDB /nfs/db/Pfam:/nfs/db/Rfam> 
+ *           in the environment, a profile HMM application
+ *           might pass "HMMERDB" as <env>.
+ *          
+ * Returns:  <eslOK> on success, and <ret_msafp> is set to point at
+ *           an open <ESL_MSAFILE2>. Caller frees this file pointer with
+ *           <esl_msafile2_Close()>.
+ *           
+ *           Returns <eslENOTFOUND> if <filename> cannot be opened.
+ *           
+ * Throws:   <eslEMEM> on allocation failure.
+ * 
+ * Note:     Implemented as a wrapper around msafile2_open(), because
+ *           esl_msafile2_OpenDigital() shares almost all the same code.
+ */
+int
+esl_msafile2_Open(const char *filename, const char *env, ESL_MSAFILE2 **ret_afp)
+{
+  return msafile2_open(filename, env, ret_afp);
+}
+
+/* Function:  esl_msafile2_Close()
+ * Synopsis:  Closes an open MSA file.
+ *
+ * Purpose:   Close an open <ESL_MSAFILE2>.
+ */
+void
+esl_msafile2_Close(ESL_MSAFILE2 *afp)
+{
+  if (afp == NULL) return;
+
+#ifdef HAVE_POPEN /* gzip functionality */
+  if (afp->do_gzip && afp->f != NULL)    pclose(afp->f);
+#endif
+  if (!afp->do_gzip && ! afp->do_stdin && afp->f != NULL) fclose(afp->f);
+  if (afp->fname != NULL) free(afp->fname);
+  if (afp->buf  != NULL)  free(afp->buf);
+#ifdef eslAUGMENT_SSI
+  if (afp->ssi  != NULL)  esl_ssi_Close(afp->ssi); 
+#endif /* eslAUGMENT_SSI*/
+  if (afp->msa_cache != NULL) esl_msa_Destroy(afp->msa_cache);
+  free(afp);
+}
+
+
+
+
+#ifdef eslAUGMENT_ALPHABET
+/* Function:  esl_msafile2_OpenDigital()
+ * Synopsis:  Open an msa file for digital input.
+ *
+ * Purpose:   Same as <esl_msafile2_Open()>, except the alignment file
+ *            will be read into a digitized internal representation,
+ *            using internal alphabet <abc>, rather than the default
+ *            internal ASCII text representation.
+ *            
+ *            The file must be in Pfam format (<eslMSAFILE_PFAM>).
+ *            
+ * Args:      abc      - pointer to internal alphabet
+ *            filename - name of alignment data file to open;
+ *                       if "*.gz", attempt to read through <gzip -dc> using <popen()>;
+ *                       or "-" for stdin 
+ *            env      - NULL, or the name of an environment variable from which
+ *                       to retrieve a colon-delimited directory list to search
+ *                       for <filename> in. (e.g. "HMMERDB")
+ *            ret_msafp - RETURN: open <ESL_MSAFILE2>.
+ *
+ * Returns:  <eslOK> on success, and <ret_msafp> is set to point at
+ *           an open <ESL_MSAFILE2>. Caller frees this file pointer with
+ *           <esl_msafile2_Close()>.
+ *           
+ *           <eslENOTFOUND> if <filename> cannot be opened;
+ *           <eslEFORMAT> if <filename> doesn't seem to be in Pfam format.
+ *           
+ * Throws:   <eslEMEM> on allocation failure.
+ *           <eslEINVAL> if format autodetection is attempted on 
+ *           stdin or a gzip -dc pipe.
+ */
+int
+esl_msafile2_OpenDigital(const ESL_ALPHABET *abc, const char *filename, 
+			 const char *env, ESL_MSAFILE2 **ret_msafp)
+{
+  ESL_MSAFILE2 *msafp;
+  int           status;
+
+  if ((status = msafile2_open(filename, env, &msafp)) != eslOK) return status;
+
+  msafp->abc        = abc;
+  msafp->do_digital = TRUE;
+
+  *ret_msafp = msafp;
+  return eslOK;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+/* msafile2_open():
+ * this is the routine that actually opens an ESL_MSAFILE2;
+ * esl_msafile2_Open() and esl_msafile2_OpenDigital() are wrappers around it.
+ */
+static int
+msafile2_open(const char *filename, const char *env, ESL_MSAFILE2 **ret_afp)
+{
+  ESL_MSAFILE2 *afp     = NULL;
+  char         *ssifile = NULL;
+  char         *envfile = NULL;
+  char         *cmd     = NULL;
+  int           n       = strlen(filename);
+  int           status;
+  
+  ESL_ALLOC(afp, sizeof(ESL_MSAFILE2));
+  afp->f          = NULL;
+  afp->fname      = NULL;
+  afp->linenumber = 0;
+  afp->errbuf[0]  = '\0';
+  afp->buf        = NULL;
+  afp->buflen     = 0;
+  afp->do_gzip    = FALSE;
+  afp->do_stdin   = FALSE;
+  afp->format     = eslMSAFILE_PFAM;   /* legacy interface is stripped down to support ONLY --small, Pfam */
+  afp->do_digital = FALSE;
+  afp->abc        = NULL;	        
+  afp->ssi        = NULL;	         
+  afp->msa_cache  = NULL;
+
+  if (strcmp(filename, "-") == 0)
+    {
+      afp->f         = stdin;
+      afp->do_stdin  = TRUE; 
+      if ((status = esl_strdup("[STDIN]", -1, &(afp->fname))) != eslOK) goto ERROR;
+    }
+#ifdef HAVE_POPEN
+  /* popen(), pclose() aren't portable to non-POSIX systems; 
+   * disable this section in strict ANSI C mode.
+   */
+  /* tricky: if n= length of a string s, then
+   * s+n-i repositions pointer s at the last i chars
+   * of the string.
+   */
+  else if (n > 3 && strcmp(filename+n-3, ".gz") == 0)
+    {
+      /* Note that popen() will return "successfully"
+       * if file doesn't exist, because gzip works fine
+       * and prints an error! So we have to check for
+       * existence of file ourself.
+       */
+      if (! esl_FileExists(filename))	      { status = eslENOTFOUND; goto ERROR; }
+      ESL_ALLOC(cmd, sizeof(char) * (n+1+strlen("gzip -dc ")));
+      sprintf(cmd, "gzip -dc %s", filename);
+      if ((afp->f = popen(cmd, "r")) == NULL) { status = eslENOTFOUND; goto ERROR; }
+      if ((status = esl_strdup(filename, n, &(afp->fname))) != eslOK)  goto ERROR;
+      afp->do_gzip  = TRUE;
+    }
+#endif /*HAVE_POPEN*/
+  else	/* Normal file open or env file open: set ssifile */
+    {
+      /* When we open a file, it may be either in the current
+       * directory, or in the directory indicated by the env
+       * argument - and we construct an SSI filename accordingly.
+       * (Whether or not we're SSI augmented, in fact, for simplicity.)
+       */
+      if ((afp->f = fopen(filename, "r")) != NULL)
+	{
+	  if (esl_strdup(filename, n, &ssifile)                      != eslOK) goto ERROR;
+	  if (esl_strcat(&ssifile, n, ".ssi", 4)                     != eslOK) goto ERROR;
+	  if ((status = esl_strdup(filename, n, &(afp->fname)))      != eslOK) goto ERROR;
+	}
+      else if (esl_FileEnvOpen(filename, env, &(afp->f), &envfile) == eslOK)
+	{
+	  if (esl_strdup(envfile, n, &ssifile)                      != eslOK) goto ERROR;
+	  if (esl_strcat(&ssifile, n, ".ssi", 4)                    != eslOK) goto ERROR;
+	  if ((status = esl_strdup(envfile, n, &(afp->fname)))      != eslOK) goto ERROR;
+	}
+      else 
+	{ status = eslENOTFOUND; goto ERROR;}
+    }
+
+#ifdef eslAUGMENT_SSI
+  /* If augmented by SSI indexing:
+   * Open the SSI index file. If it doesn't exist, or
+   * it's corrupt, or some error happens, afp->ssi stays NULL.
+   * We should warn, probably, or provide some way for caller to 
+   * to know that we've opened the index successfully or not.
+   */
+  status = esl_ssi_Open(ssifile, &(afp->ssi)); 
+#endif
+
+  if (envfile != NULL) free(envfile);
+  if (ssifile != NULL) free(ssifile);
+  if (cmd     != NULL) free(cmd);
+  *ret_afp = afp;
+  return eslOK;
+
+ ERROR:
+  if (envfile != NULL) free(envfile);
+  if (ssifile != NULL) free(ssifile);
+  if (cmd     != NULL) free(cmd);
+  if (afp     != NULL) esl_msafile2_Close(afp); 
+  *ret_afp = NULL;
+  return status;
+}
+/*--------------- end, ESL_MSAFILE2 object ----------------------*/
+
+/*------------------ end, digital mode  -------------------------*/
+
+
+/******************************************************************************
+ * 2. Memory efficient routines for PFAM format
+ *****************************************************************************/
+
+static int  get_pp_idx(ESL_ALPHABET *abc, char ppchar);
+static int  gapize_string(char *src_str, int64_t src_len, int64_t dst_len, int *ngapA, char gapchar, char **ret_dst_str);
+static void shrink_string(char *str, const int *useme, int len);
+static int  determine_spacelen(char *s);
+
+/* Function: esl_msafile2_ReadInfoPfam()
+ * Synopsis: Read Pfam formatted MSA information but not sequence data.
+ *
+ * Purpose:  Read the next alignment from an open Stockholm Pfam
+ *           (non-interleaved, one line per seq) format alignment file
+ *           <afp> and store all non-sequence information (comments,
+ *           GF annotation and GC annotation) in a new msa object.
+ *
+ *           This function is not as rigorous about validating the
+ *           input msa as the other read functions that store the full
+ *           alignment. Here, we only verify that there is only one
+ *           line for the first sequence read. Verifying that all
+ *           sequences are only one line would require storing and
+ *           looking up all sequence names.
+ *
+ *           Many optional return values (<opt_*>) allow this function
+ *           to serve the diverse needs of the miniapps that can run
+ *           in a memory-efficient mode (esl-alimerge, esl-alimask,
+ *           esl-alistat, esl-ssdraw). For any that are unwanted, pass
+ *           <NULL>.
+ *
+ * Args:     afp           - open alignment file pointer
+ *           listfp        - if non-NULL, dump each sequence name we read 
+ *                           to listfp, separated by newlines
+ *           abc           - alphabet to use, only nec and used if one 
+ *                           of the opt_*_ct arrays is non-NULL
+ *           known_alen    - known length of the alignment, -1 if unknown
+ *                           must not be -1, if known_rf != NULL or
+ *                           known_ss_cons != NULL.
+ *           known_rf      - known RF annot. (msa->rf) for this alignment, 
+ *                           might be known from prev call of this func,
+ *                           for example. NULL if unknown.
+ *           known_ss_cons - the known SS_cons annotation (msa->ss_cons) 
+ *                           for this alignment, NULL if unknown.
+ *           ret_msa       - RETURN: msa with comments, GC, GF 
+ *                           annotation  but no sequence info (nor GS, GR),
+ *                           pass NULL if not wanted.
+ *           opt_nseq      - optRETURN: number of sequences in msa 
+ *           opt_alen      - optRETURN: length of first aligned sequence 
+ *           opt_ngs       - optRETURN: number of GS lines in alignment 
+ *           opt_maxname   - optRETURN: maximum seqname length 
+ *           opt_maxgf     - optRETURN: maximum GF tag length
+ *           opt_maxgc     - optRETURN: maximum GC tag length 
+ *           opt_maxgr     - optRETURN: maximum GR tag length 
+ *           opt_abc_ct    - optRETURN: [0..apos..alen-1][0..abc->K] 
+ *                           per position count of each symbol in abc over all seqs
+ *           opt_pp_ct     - optRETURN: [0..apos..alen-1][0..11], 
+ *                           per position count of PPs over all seqs, 
+ *                           [11] is gaps, [10] is '*', [0-9] are '0'-'9'
+ *           opt_bp_ct     - optRETURN: [0..apos..alen-1][0..abc->K-1][0..abc->K-1]
+ *                           per position count of each possible basepair 
+ *                           in alignment, for pair apos:apos2, where 
+ *                           apos < apos2 and apos:apos2 form a basepair 
+ *                           in <known_ss_cons>. If non-NULL, <known_ss_cons> 
+ *                           must be non-NULL.
+ *           opt_spos_ct   - optRETURN: [0..apos..alen-1] per position count 
+ *                           of first nongap residue in each sequence, 
+ *                           ex: opt_spos_ct[100] = x means x seqs have their 
+ *                           first nongap residue at position 100
+ *           opt_epos_ct   - optRETURN: [0..apos..alen-1] same as opt_spos_ct,
+ *                           except for final position instead of first
+ * 
+ * Returns:  <eslOK> on success.  Returns <eslEOF> if there are no more
+ *           alignments in <afp>, and <ret_msa> is set to NULL and
+ *           <opt_*> are set to 0.
+ *           <eslEFORMAT> if parse fails because of a file format
+ *           problem, in which case <afp->errbuf> is set to contain a
+ *           formatted message that indicates the cause of the
+ *           problem, <ret_msa> is set to <NULL> and <opt_*> are set 
+ *           to 0.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ * 
+ * Xref:      ~nawrockie/notebook/9_1206_esl_msa_mem_efficient/
+ */
+int
+esl_msafile2_ReadInfoPfam(ESL_MSAFILE2 *afp, FILE *listfp, ESL_ALPHABET *abc, int64_t known_alen, char *known_rf, char *known_ss_cons, ESL_MSA **ret_msa, 
+			   int *opt_nseq, int64_t *opt_alen, int *opt_ngs, int *opt_maxname, int *opt_maxgf, int *opt_maxgc, int *opt_maxgr, 
+			   double ***opt_abc_ct, double ***opt_pp_ct, double ****opt_bp_ct, int **opt_spos_ct, int **opt_epos_ct)
+{
+  char      *s;                    /* pointer to current character in afp */
+  int        status;               /* easel status code */
+  int        status2;              /* another easel status code */
+  ESL_MSA   *msa = NULL;           /* the msa we're creating */
+  int        nseq = 0;             /* number of sequences read */
+  int64_t    alen = -1;            /* length of the alignment */
+  int        ngs = 0;              /* number of GS lines read */
+  int        maxname = 0;          /* max length seq name */
+  int        maxgf = 0;            /* max length GF tag */
+  int        maxgc = 0;            /* max length GC tag */
+  int        maxgr = 0;            /* max length GR tag */
+  char      *seqname;              /* ptr to a sequence name */
+  int        namelen;              /* length of a sequence name */
+  char      *first_seqname = NULL; /* name of first sequence read */
+  char      *gf, *gc, *gr;         /* for storing '#=GF', '#=GC', '#=GR', temporarily */
+  char      *tag;                  /* a GC or GR tag */
+  int        taglen;               /* length of a tag */
+  char      *text;                 /* text string */
+  int        textlen;              /* length of text string */
+  int        i, x;                 /* counters */
+  int        j;                    /* position for a right half of a bp */
+  int        apos;                 /* counter over alignment positions */
+  double   **abc_ct = NULL;        /* [0..alen-1][0..abc->K] per position count of each residue in abc and gaps over all seqs */
+  double  ***bp_ct = NULL;         /* [0..alen-1][0..abc->Kp][0..abc->Kp], count of each possible base pair at each position, over all sequences, missing and nonresidues are *not counted* 
+                                       base pairs are indexed by 'i' for a base pair between positions i and j, where i < j. */
+  int        nppvals = 12;         /* '0'-'9' = 0-9, '*' = 10, gap = '11' */
+  double   **pp_ct = NULL;         /* [0..alen-1][0..nppvals-1] per position count of each possible PP char over all seqs */
+  int        ppidx;                /* index for 2nd dim of pp_ct array */
+  int       *spos_ct = NULL;       /* [0..alen-1] number of seqs that start (have first nongap residue) at each position */
+  int       *epos_ct = NULL;       /* [0..alen-1] number of seqs that end   (have final nongap residue) at each position */
+  ESL_DSQ   *tmp_dsq = NULL;       /* temporary digitized sequence, only used if opt_abc_ct != NULL */
+  int       *a2rf_map = NULL;      /* [0..apos..known_alen-1] = rfpos, nongap RF position apos maps to, 
+				    * -1 if apos is not a nongap RF position */
+  int       *ct = NULL; 	   /* 0..known_alen-1 base pair partners array for known_ss_cons */
+  char      *ss_nopseudo = NULL;   /* no-pseudoknot version of known_ss_cons */
+
+  if(afp->format   != eslMSAFILE_PFAM) ESL_EXCEPTION(eslEINCONCEIVABLE, "only non-interleaved (1 line /seq, Pfam) Stockholm formatted files can be read in small memory mode");
+  if(opt_abc_ct    != NULL && abc == NULL) ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, abc == NULL, opt_abc_ct  != NULL");
+  if(opt_pp_ct     != NULL && abc == NULL) ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, abc == NULL, opt_pp_ct   != NULL");
+  if(opt_bp_ct     != NULL && abc == NULL) ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, abc == NULL, opt_bp_ct != NULL");
+  if(opt_spos_ct   != NULL && abc == NULL) ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, abc == NULL, opt_spos_ct != NULL");
+  if(opt_epos_ct   != NULL && abc == NULL) ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, abc == NULL, opt_epos_ct != NULL");
+  if(opt_spos_ct   != NULL && known_alen == -1)      ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, opt_spos_ct != NULL, known_alen == -1");
+  if(opt_epos_ct   != NULL && known_alen == -1)      ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, opt_epos_ct != NULL, known_alen == -1");
+  if(opt_bp_ct     != NULL && known_ss_cons == NULL) ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, known_ss_cons == NULL, opt_bp_ct != NULL");
+  if(known_rf      != NULL && known_alen == -1)      ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, known_rf != NULL, known_alen == -1");
+  if(known_ss_cons != NULL && known_alen == -1)      ESL_FAIL(eslEINVAL, afp->errbuf, "contract violation, known_ss_cons != NULL, known_alen == -1");
+
+  if (feof(afp->f))  { status = eslEOF; goto ERROR; }
+  afp->errbuf[0] = '\0';
+
+  /* Preliminaries */
+  /* allocate and initialize spos_ct and epos_ct, if we'll return them */
+  if(opt_spos_ct != NULL || opt_epos_ct != NULL) { 
+    ESL_ALLOC(spos_ct, sizeof(int) * known_alen); 
+    ESL_ALLOC(epos_ct, sizeof(int) * known_alen);
+    esl_vec_ISet(spos_ct, known_alen, 0); 
+    esl_vec_ISet(epos_ct, known_alen, 0);   
+  }
+
+  /* if bp_ct != NULL, determine the ct array from the known_ss_cons, and allocate the bp_ct */
+  if(opt_bp_ct != NULL) { /* contract enforces that if this is true, known_ss_cons != NULL and known_alen != -1 */
+    /* get ct array which defines the consensus base pairs */
+    ESL_ALLOC(ct,  sizeof(int)  * (known_alen+1));
+    ESL_ALLOC(ss_nopseudo, sizeof(char) * (known_alen+1));
+    esl_wuss_nopseudo(known_ss_cons, ss_nopseudo);
+    if ((status = esl_wuss2ct(ss_nopseudo, known_alen, ct)) != eslOK) ESL_FAIL(status, afp->errbuf, "consensus structure string is inconsistent.");
+    ESL_ALLOC(bp_ct,  sizeof(double **) * known_alen); 
+    for(apos = 0; apos < known_alen; apos++) { 
+      /* careful ct is indexed 1..alen, not 0..alen-1 */
+      if(ct[(apos+1)] > (apos+1)) { /* apos+1 is an 'i' in an i:j pair, where i < j */
+	ESL_ALLOC(bp_ct[apos], sizeof(double *) * (abc->Kp));
+	for(x = 0; x < abc->Kp; x++) { 
+	  ESL_ALLOC(bp_ct[apos][x], sizeof(double) * (abc->Kp));
+	  esl_vec_DSet(bp_ct[apos][x], abc->Kp, 0.);
+	}
+      }
+      else { /* apos+1 is not an 'i' in an i:j pair, where i < j, set to NULL */
+	bp_ct[apos] = NULL;
+      }
+    }
+  }
+  /* end of preliminaries */
+
+  /* Initialize allocation of the MSA:
+   * We won't store any sequence information, so initial blocksize is
+   * 0 seqs of 0 length.
+   */
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->do_digital == TRUE && (msa = esl_msa_CreateDigital(afp->abc, 16, -1))  == NULL) 
+    { status = eslEMEM; goto ERROR; }
+#endif
+  if (afp->do_digital == FALSE && (msa = esl_msa_Create(16, -1))  == NULL)
+    { status = eslEMEM; goto ERROR; }
+  if (msa == NULL)    
+    { status = eslEMEM; goto ERROR; }
+  
+  /* Check the magic Stockholm header line.
+   * We have to skip blank lines here, else we perceive
+   * trailing blank lines in a file as a format error when
+   * reading in multi-record mode.
+   */
+  do {
+    if ((status = msafile2_getline(afp)) != eslOK) goto ERROR; /* includes EOF  */
+  } while (is_blankline(afp->buf));
+  
+  if (strncmp(afp->buf, "# STOCKHOLM 1.", 14) != 0)
+    ESL_XFAIL(eslEFORMAT, afp->errbuf, "parse failed (line %d): missing \"# STOCKHOLM\" header", afp->linenumber);
+  
+  /* Read the alignment file one line at a time.
+   */
+  while ((status2 = msafile2_getline(afp)) == eslOK) 
+    {
+      s = afp->buf;
+      while (*s == ' ' || *s == '\t') s++;  /* skip leading whitespace */
+      
+      if (*s == '#') {
+	if(strncmp(s, "#=GF", 4) == 0)
+	  {
+	    if (ret_msa != NULL) { 
+	      if ((status = parse_gf(msa, s)) != eslOK)
+		ESL_XFAIL(status, afp->errbuf, "parse failed (line %d): bad #=GF line", afp->linenumber);
+	    }
+	    else if (opt_maxgf != NULL) { /* we need to parse out GF tag len to see if it is > maxgf */
+	      s = afp->buf;
+	      if (esl_strtok    (&s, " \t\n\r", &gf)                  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GF line", afp->linenumber);
+	      if (esl_strtok_adv(&s, " \t\n\r", &tag,  &taglen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GF line", afp->linenumber);
+	      maxgf = ESL_MAX(maxgf, taglen); 
+	    }
+	  }
+
+	else if (strncmp(s, "#=GC", 4) == 0)
+	  {
+	    if  (ret_msa != NULL) { 
+	      if  ((status = parse_gc(msa, s)) != eslOK)
+		ESL_XFAIL(status, afp->errbuf, "parse failed (line %d): bad #=GC line", afp->linenumber);
+	    }
+	    else if (opt_maxgc != NULL) { /* we need to parse out GC tag len to see if it is > maxgc */
+	      s = afp->buf;
+	      if (esl_strtok    (&s, " \t\n\r", &gc)                  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC line", afp->linenumber);
+	      if (esl_strtok_adv(&s, " \t\n\r", &tag,  &taglen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC line", afp->linenumber);
+	      maxgc = ESL_MAX(maxgc, taglen); 
+	    }
+	  }
+	else if (strncmp(s, "#=GS", 4) == 0)
+	  {
+	    ngs++; 
+	  }
+	else if (strncmp(s, "#=GR", 4) == 0)
+	  {
+	    if(opt_maxgr != NULL || opt_pp_ct != NULL) { 
+	      s = afp->buf;
+	      if (esl_strtok    (&s, " \t\n\r", &gr)                      != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+	      if (esl_strtok_adv(&s, " \t\n\r", &seqname, &namelen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+	      if (esl_strtok_adv(&s, " \t\n\r", &tag,      &taglen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+	      maxgr = ESL_MAX(maxgr, taglen); 
+	      if(opt_pp_ct != NULL) { 
+		if (strncmp(tag, "PP", 2) == 0) { 
+		  if (esl_strtok_adv(&s, " \t\n\r", &text, &textlen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR PP line", afp->linenumber);
+		  /* verify, or set alignment length */
+		  if(alen == -1) { /* first aligned text line, need to allocate pp_ct, and possibly abc_ct, spos_ct, epos_ct */
+		    alen = textlen;
+		    if(known_alen != -1 && known_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): known alen (%" PRId64 " passed in) != actual alen (%d)", afp->linenumber, known_alen, textlen);
+		    ESL_ALLOC(pp_ct, sizeof(double *) * alen);
+		    for(apos = 0; apos < alen; apos++) { 
+		      ESL_ALLOC(pp_ct[apos], sizeof(double) * nppvals);
+		      esl_vec_DSet(pp_ct[apos], nppvals, 0.);
+		    }
+		    if(opt_abc_ct != NULL || opt_bp_ct != NULL) { 
+		      ESL_ALLOC(tmp_dsq, (alen+2) * sizeof(ESL_DSQ));
+		    }
+		    if(opt_abc_ct != NULL) { 
+		      ESL_ALLOC(abc_ct, sizeof(double *) * alen); 
+		      for(apos = 0; apos < alen; apos++) { 
+			ESL_ALLOC(abc_ct[apos], sizeof(double) * (abc->K+1));
+			esl_vec_DSet(abc_ct[apos], (abc->K+1), 0.);
+		      }
+		    }
+		  }
+		  else if(alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR PP line, len %d, expected %" PRId64, afp->linenumber, textlen, alen);
+		  for(apos = 0; apos < alen; apos++) { /* update appropriate PP count */
+		    if((ppidx = get_pp_idx(abc, text[apos])) == -1) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR PP char: %c", afp->linenumber, text[apos]);
+		    pp_ct[apos][ppidx] += 1.;
+		  }
+		}
+	      }
+	    }
+	  }
+	else if (ret_msa != NULL && ((status = parse_comment(msa, s)) != eslOK)) { 
+	  ESL_XFAIL(status, afp->errbuf, "parse failed (line %d): bad comment line", afp->linenumber);
+	}
+      } /* end of 'if (*s == '#')' */ 
+      else if (strncmp(s, "//",   2) == 0)   break; /* normal way out */
+      else if (*s == '\n' || *s == '\r')     continue;
+      else { /* sequence line */
+	if(listfp != NULL || opt_maxname != NULL || opt_alen != NULL || opt_abc_ct != NULL || opt_spos_ct != NULL || opt_epos_ct != NULL) { /* we need to parse out the seqname */
+	  s = afp->buf;
+	  if (esl_strtok_adv(&s, " \t\n\r", &seqname, &namelen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad sequence line", afp->linenumber);
+	  if (listfp != NULL) fprintf(listfp, "%s\n", seqname);
+	  maxname = ESL_MAX(maxname, namelen);
+	  if (opt_alen != NULL || opt_abc_ct != NULL || opt_spos_ct != NULL || opt_epos_ct != NULL) { /* we need to parse out the seq */
+	    if (esl_strtok_adv(&s, " \t\n\r", &text, &textlen, NULL)  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad sequence line", afp->linenumber);
+	    /* if first aligned seq read, store it's name, else see if it is an additional line of first aseq */
+	    if(nseq == 0) { 
+	      if ((status = esl_strdup(seqname, -1, &(first_seqname))) != eslOK) goto ERROR; 
+	    }
+	    else if(strcmp(first_seqname, seqname) == 0) { ESL_XFAIL(eslEFORMAT, afp->errbuf, "parse failed (line %d): two seqs with same name. Alignment may be in interleaved Stockholm. Reformat to Pfam with esl-reformat.", afp->linenumber); }
+	    if(alen == -1) { /* first aligned text line, need to allocate pp_ct, and possibly abc_ct, spos_ct, epos_ct */
+	      alen = textlen;
+	      if(known_alen != -1 && known_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): known alen (%" PRId64 " passed in) != actual alen (%d)", afp->linenumber, known_alen, textlen);
+	      if(opt_abc_ct != NULL || opt_bp_ct != NULL) { 
+		ESL_ALLOC(tmp_dsq, (alen+2) * sizeof(ESL_DSQ));
+	      }
+	      if(opt_abc_ct != NULL) { 
+		ESL_ALLOC(abc_ct, sizeof(double *) * alen); 
+		for(apos = 0; apos < alen; apos++) { 
+		  ESL_ALLOC(abc_ct[apos], sizeof(double) * (abc->K+1));
+		  esl_vec_DSet(abc_ct[apos], (abc->K+1), 0.);
+		}
+	      }
+	      if(opt_pp_ct != NULL) { 
+		ESL_ALLOC(pp_ct, sizeof(double *) * alen);
+		for(apos = 0; apos < alen; apos++) { 
+		  ESL_ALLOC(pp_ct[apos], sizeof(double) * nppvals);
+		  esl_vec_DSet(pp_ct[apos], nppvals, 0.);
+		}
+	      }
+	    }
+	    else if(alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad aligned seq line, len %d, expected %" PRId64, afp->linenumber, textlen, alen);
+	    if(opt_abc_ct != NULL || opt_bp_ct != NULL) { 
+	      /* update appropriate abc and/or bp count. first, digitize the text */
+	      if((status = esl_abc_Digitize(abc, text, tmp_dsq)) != eslOK) ESL_XFAIL(status, afp->errbuf, "small mem parse failed (line %d): problem digitizing sequence", afp->linenumber);
+	    }
+	    if(opt_abc_ct != NULL) { 
+	      for(apos = 0; apos < alen; apos++) { /* update appropriate abc count, careful, tmp_dsq ranges from 1..alen (not 0..alen-1) */
+		if((status = esl_abc_DCount(abc, abc_ct[apos], tmp_dsq[apos+1], 1.0)) != eslOK) ESL_XFAIL(status, afp->errbuf, "small mem parse failed (line %d): problem counting residue %d", afp->linenumber, apos+1);
+	      }
+	    }	    
+	    if(opt_bp_ct != NULL) { 
+	      for(apos = 0; apos < alen; apos++) { /* update appropriate abc count, careful, tmp_dsq ranges from 1..alen (not 0..alen-1) */
+		if(bp_ct[apos] != NULL) { /* our flag for whether position (apos+1) is an 'i' in an i:j pair where i < j */
+		  j = ct[apos+1] - 1; /* ct is indexed 1..alen */
+		  bp_ct[apos][tmp_dsq[(apos+1)]][tmp_dsq[(j+1)]]++;
+		}
+	      }
+	    }
+	    if(opt_spos_ct != NULL) { 
+	      for(apos = 0; apos < alen; apos++) { /* find first non-gap position */
+		if(! esl_abc_XIsGap(abc, tmp_dsq[apos+1])) { 
+		  spos_ct[apos]++; 
+		  break;
+		}
+	      }
+	    }
+	    if(opt_epos_ct != NULL) { /* find final non-gap position */
+	      for(apos = alen-1; apos >= 0; apos--) { 
+		if(! esl_abc_XIsGap(abc, tmp_dsq[apos+1])) { 
+		  epos_ct[apos]++;
+		  break;
+		}
+	      }
+	    }
+	  }
+	}
+	nseq++; 
+      }
+    }
+
+  /* If we saw a normal // end, we would've successfully read a line,
+   * so when we get here, status (from the line read) should be eslOK.
+   */ 
+  if (status2 != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "parse failed (line %d): didn't find // at end of alignment", afp->linenumber);
+
+  /* if we're returning maxgc and an msa, determine maxgc, which we didn't do above b/c we parsed GC lines with parse_gc()
+   * If msa != NULL, we already know maxgc */
+  if(ret_msa != NULL && opt_maxgc != NULL) { 
+    for(i = 0; i < msa->ngc; i++) maxgc = ESL_MAX(maxgc, strlen(msa->gc_tag[i])); 
+    if (msa->rf      != NULL)     maxgc = ESL_MAX(maxgc, 2); /* 2 == strlen("RF") */
+    if (msa->mm      != NULL)     maxgc = ESL_MAX(maxgc, 2); /* 2 == strlen("MM") */
+    if (msa->ss_cons != NULL)     maxgc = ESL_MAX(maxgc, 7); /* 7 == strlen("SS_cons") */
+    if (msa->sa_cons != NULL)     maxgc = ESL_MAX(maxgc, 7); /* 7 == strlen("SA_cons") */
+    if (msa->pp_cons != NULL)     maxgc = ESL_MAX(maxgc, 7); /* 7 == strlen("PP_cons") */
+  }
+  /* same as for maxgc, but now for maxgf */
+  if(ret_msa != NULL && opt_maxgf != NULL) { 
+    for(i = 0; i < msa->ngf; i++) maxgf = ESL_MAX(maxgf, strlen(msa->gf_tag[i])); 
+    if (msa->name != NULL) maxgf = ESL_MAX(maxgf, 2); /* 2 == strlen("ID") */
+    if (msa->desc != NULL) maxgf = ESL_MAX(maxgf, 2); /* 2 == strlen("DE") */
+    if (msa->acc  != NULL) maxgf = ESL_MAX(maxgf, 2); /* 2 == strlen("AC") */
+    if (msa->au   != NULL) maxgf = ESL_MAX(maxgf, 2); /* 2 == strlen("AU") */
+  }
+
+  if (first_seqname) free(first_seqname);
+  if (tmp_dsq)       free(tmp_dsq);
+  if (ct)            free(ct);
+  if (ss_nopseudo)   free(ss_nopseudo);
+  if (a2rf_map)      free(a2rf_map);
+
+  if (ret_msa)       *ret_msa       = msa;       else if (msa)      esl_msa_Destroy(msa);
+  if (opt_nseq)      *opt_nseq      = nseq; 
+  if (opt_alen)      *opt_alen      = alen;
+  if (opt_ngs)       *opt_ngs       = ngs;
+  if (opt_maxname)   *opt_maxname   = maxname;
+  if (opt_maxgf)     *opt_maxgf     = maxgf;
+  if (opt_maxgc)     *opt_maxgc     = maxgc;
+  if (opt_maxgr)     *opt_maxgr     = maxgr;
+  if (opt_abc_ct)    *opt_abc_ct    = abc_ct;    else if (abc_ct)    esl_Free2D((void **) abc_ct, alen);
+  if (opt_pp_ct)     *opt_pp_ct     = pp_ct;     else if (pp_ct)     esl_Free2D((void **) pp_ct, alen);
+  if (opt_bp_ct)     *opt_bp_ct     = bp_ct;     else if (bp_ct)     esl_Free3D((void ***) bp_ct, known_alen, abc->Kp);
+  if (opt_spos_ct)   *opt_spos_ct   = spos_ct;   else if (spos_ct)   free(spos_ct);
+  if (opt_epos_ct)   *opt_epos_ct   = epos_ct;   else if (epos_ct)   free(epos_ct);
+  return eslOK;
+
+ ERROR:
+  if (first_seqname)  free(first_seqname);
+  if (tmp_dsq)        free(tmp_dsq);
+  if (ct)             free(ct);
+  if (ss_nopseudo)    free(ss_nopseudo);
+  if (a2rf_map)       free(a2rf_map);
+
+  if (msa)            esl_msa_Destroy(msa);
+  if (pp_ct)          esl_Free2D((void **)  pp_ct,  alen);
+  if (abc_ct)         esl_Free2D((void **)  abc_ct, alen);
+  if (bp_ct)          esl_Free3D((void ***) bp_ct,  known_alen, abc->Kp);
+  if (spos_ct)        free(spos_ct);
+  if (epos_ct)        free(epos_ct);
+
+  if (ret_msa)       *ret_msa       = NULL;
+  if (opt_nseq)      *opt_nseq      = 0;
+  if (opt_alen)      *opt_alen      = 0;
+  if (opt_ngs)       *opt_ngs       = 0;
+  if (opt_maxname)   *opt_maxname   = 0;
+  if (opt_maxgf)     *opt_maxgf     = 0;
+  if (opt_maxgc)     *opt_maxgc     = 0;
+  if (opt_maxgr)     *opt_maxgr     = 0;
+  if (opt_pp_ct)     *opt_pp_ct     = NULL;
+  if (opt_abc_ct)    *opt_abc_ct    = NULL;
+  if (opt_bp_ct)     *opt_bp_ct     = NULL;
+  if (opt_spos_ct)   *opt_spos_ct   = NULL;
+  if (opt_epos_ct)   *opt_epos_ct   = NULL;
+  return status;
+}
+
+#ifdef eslAUGMENT_KEYHASH
+/* Function: esl_msafile2_RegurgitatePfam()
+ * Synopsis: Read and write next Pfam formatted MSA without storing it.
+ *
+ * Purpose:  Read and immediately write each line of a MSA after
+ *           optionally modifying aligned data by either adding all
+ *           gap columns or removing some columns. Do this without
+ *           creating an msa object, so memory usage is minimized.
+ *
+ *           The alignment file <afp> must be in Pfam format (1
+ *           line/seq non-interleaved Stockholm). The <do_*> arguments
+ *           specify which parts of the alignment to write.  <useme>
+ *           specifies which positions to keep in aligned strings, if
+ *           NULL then all are kept. <add2me> specifies how many gap
+ *           characters to add after each aligned position, if NULL
+ *           then none are added. Only one of <useme> and <add2me> 
+ *           can be non-NULL. 
+ * 
+ *           If one of the <seqs2regurg> or <seqs2skip> keyhashes are
+ *           non-NULL, they specify names of sequences (and affiliated
+ *           annotation) to output (<seqs2regurg>) or not output
+ *           (<seqs2skip>).  Only one of these may be non-NULL.
+ *
+ *           <maxname>, <maxgf>, <maxgc> and <maxgr> specify the max
+ *           length sequence name, GF tag, GC tag, and GR tag, and can
+ *           be provided by a caller that knows their values, e.g. as
+ *           revealed by a previous call to <esl_msafile2_ReadInfoPfam()>.
+ *           If any are -1, the caller didn't know the value, and the
+ *           spacing in the alignment file we read in will be
+ *           preserved. An example of useful non -1 values is if we're
+ *           merging multiple alignments into a single alignment, and
+ *           the spacing of any given alignment should change when all
+ *           alignments are considered (like what the esl-alimerge
+ *           miniapp does).
+ *
+ *           This function is not as rigorous about validating the
+ *           input as the other read functions that store the full
+ *           alignment. Here, we verify that there is only one line
+ *           for the first sequence read (verifying that all sequences
+ *           are only one line would require storing and looking up
+ *           all sequence names), that each aligned data line (<aseq>,
+ *           GC, GR) are all the same length. The aligned length must
+ *           equal <exp_alen> if it is not passed in as -1 (indicating
+ *           caller doesn't know alignment length). If <useme> or
+ *           <add2me> is non-NULL, <exp_alen> must not be -1. 
+ * 
+ *           Aligned sequence residues are not checked to make sure
+ *           they are consistent with an alphabet, they are simply
+ *           rewritten as they are read from the input file.
+ *
+ * Args:     afp         - open alignment file pointer
+ *           ofp         - output file pointer
+ *           maxname     - maximum length of a sequence name (-1 if unknown) 
+ *           maxgf       - maximum length of a GF tag (-1 if unknown) 
+ *           maxgc       - maximum length of a GC tag (-1 if unknown) 
+ *           maxgr       - maximum length of a GR tag (-1 if unknown) 
+ *           do_header   - TRUE to write magic Stockholm header at top to ofp 
+ *           do_trailer  - TRUE to write '//' at end to ofp
+ *           do_blanks   - TRUE to regurgitate blank lines, FALSE not to
+ *           do_comments - TRUE to write comments to ofp
+ *           do_gf       - TRUE to write GF annotation to ofp
+ *           do_gs       - TRUE to write GS annotation to ofp
+ *           do_gc       - TRUE to write GC annotation to ofp
+ *           do_gr       - TRUE to write GR annotation to ofp
+ *           do_aseq     - TRUE to write aligned sequences to ofp
+ *           seqs2regurg - keyhash of names of the sequences to write, all others
+ *                         will not be written. Associated annotation (GS, GR) 
+ *                         will be written for these sequences only. Must be NULL
+ *                         if seqs2skip is non-NULL (enforced by contract).
+ *                         If both are NULL all seqs are written.
+ *           seqs2skip   - keyhash of names of the sequences to skip (not write), 
+ *                         all others will be written. Associated annotation (GS, GR) 
+ *                         will not be written for these sequences. Must be NULL
+ *                         if seqs2regurg is NULL (enforced by contract).
+ *                         If both are NULL all seqs are written.
+ *           useme       - [0..apos..exp_alen-1] TRUE to include position apos in output of 
+ *                         aligned data (GC,GR,aseq), FALSE to remove it, can be NULL
+ *           add2me      - [0..apos..exp_alen-1] number of all gaps to add after each
+ *                         position of aligned data (GC,GR,aseq), can be NULL
+ *           exp_alen    - expected alignment length, -1 if unknown, which
+ *                         is okay as long as useme == add2me == NULL
+ *           gapchar2add   - gap character, only relevant if add2me != NULL
+ *           opt_nseq_read     - RETURN: optional, number of aligned sequences read
+ *           opt_nseq_regurged - RETURN: optional, number of aligned sequences regurgitated,
+ *                               same as opt_nseq_read unless seqs2regurg != NULL or 
+ *                               seqs2skip != NULL.
+ * 
+ * Returns:   <eslOK> on success. 
+ *            Returns <eslEOF> if there are no more alignments in <afp>.
+ *            <eslEFORMAT> if parse fails because of a file format problem,
+ *            in which case <afp->errbuf> is set to contain a formatted message 
+ *            that indicates the cause of the problem.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ * 
+ * Xref:      ~nawrockie/notebook/9_1206_esl_msa_mem_efficient/
+ */
+int
+esl_msafile2_RegurgitatePfam(ESL_MSAFILE2 *afp, FILE *ofp, int maxname, int maxgf, int maxgc, int maxgr, 
+			     int do_header, int do_trailer, int do_blanks, int do_comments, int do_gf, 
+			     int do_gs, int do_gc, int do_gr, int do_aseq, ESL_KEYHASH *seqs2regurg, 
+			     ESL_KEYHASH *seqs2skip, int *useme, int *add2me, int exp_alen, char gapchar2add,
+			     int *opt_nseq_read, int *opt_nseq_regurged)
+{
+  char      *s = NULL;
+  int        status;
+  int        status2;
+  char      *seqname = NULL;
+  char      *first_seqname = NULL;
+  char      *text = NULL;
+  char      *gapped_text = NULL;
+  char      *tag = NULL;
+  char      *gf = NULL;
+  char      *gc = NULL;
+  char      *gs = NULL;
+  char      *gr = NULL;
+  int       curmargin, curmargin2, namelen, spacelen, spacelen2, textlen, taglen;
+  int       gaps2addlen;
+  int       margin;             /* width of left hand side margin */
+  int       flushpoint = 10000; /* number of lines read at which to flush ofp */
+  int       nseq_read = 0;
+  int       nseq_regurged = 0;
+
+  /* contract check */
+  if ( ofp == NULL)                    ESL_EXCEPTION(eslEINCONCEIVABLE, "ofp is NULL");
+  if ( afp->format != eslMSAFILE_PFAM) ESL_EXCEPTION(eslEINCONCEIVABLE, "only Pfam (1 line /seq) Stockholm formatted files allowed in small mem mode");
+  if(add2me != NULL && useme != NULL)  ESL_EXCEPTION(eslEINCONCEIVABLE, "add2me and useme both non-NULL");
+  if((add2me != NULL || useme != NULL) && exp_alen == -1) ESL_EXCEPTION(eslEINCONCEIVABLE, "exp_alen == -1, but add2me or useme non-NULL");
+  if(seqs2regurg != NULL && seqs2skip != NULL)            ESL_EXCEPTION(eslEINVAL, "seqs2regurg and seqs2skip both non-NULL, only one may be");
+
+  gaps2addlen = (add2me == NULL) ? 0 : esl_vec_ISum(add2me, (exp_alen+1));
+
+  margin = -1;
+  if (maxgf != -1 && maxgf < 2) maxgf = 2;
+  if (maxname != -1)                         margin = maxname+1; 
+  if (maxgc > 0 && maxgc+6 > margin)         margin = maxgc+6;
+  if (maxgr > 0 && maxname+maxgr+7 > margin) margin = maxname+maxgr+7; 
+  /* if margin is still -1, we'll use the same spacing we read in from the file */
+
+  if (feof(afp->f))  { status = eslEOF; goto ERROR; }
+  afp->errbuf[0] = '\0';
+   
+  /* Check the magic Stockholm header line.
+   * We have to skip blank lines here, else we perceive
+   * trailing blank lines in a file as a format error when
+   * reading in multi-record mode.
+   */
+  do {
+    if ((status = msafile2_getline(afp)) != eslOK) goto ERROR; /* includes EOF  */
+  } while (is_blankline(afp->buf));
+  
+  if (strncmp(afp->buf, "# STOCKHOLM 1.", 14) != 0)
+    ESL_XFAIL(eslEFORMAT, afp->errbuf, "parse failed (line %d): missing \"# STOCKHOLM\" header", afp->linenumber);
+  if(do_header) fprintf(ofp, "%s", afp->buf);
+
+  /* Read the alignment file one line at a time.
+   */
+  while ((status2 = msafile2_getline(afp)) == eslOK) 
+    {
+      if(afp->linenumber % flushpoint == 0) fflush(ofp);
+      s = afp->buf;
+      while (*s == ' ' || *s == '\t') s++;  /* skip leading whitespace */
+      
+      if (*s == '#') {
+	
+	if      (strncmp(s, "#=GF", 4) == 0)
+	  {
+	    if (do_gf) { 
+	      if(maxgf == -1) { /* just print line as is */
+		fprintf(ofp, "%s", afp->buf); 
+	      }
+	      else { /* parse line into temporary strings, then print it out with correct formatting */
+		s = afp->buf;
+		if (esl_strtok(&s, " \t\n\r", &gf)   != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GF line", afp->linenumber);
+		if (esl_strtok(&s, " \t\n\r", &tag)  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GF line", afp->linenumber);
+		if (esl_strtok(&s, "\n\r",    &text) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GF line", afp->linenumber);
+		fprintf(ofp, "#=GF %-*s %s\n", maxgf, tag, text);
+	      }
+	    }
+	  }
+	else if (strncmp(s, "#=GC", 4) == 0)
+	  {
+	    if(do_gc) { 
+	      /* parse line into temporary strings */
+	      s = afp->buf;
+	      if (esl_strtok    (&s, " \t\n\r", &gc)                  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC line", afp->linenumber);
+	      if (esl_strtok_adv(&s, " \t\n\r", &tag,  &taglen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC line", afp->linenumber);
+	      spacelen = determine_spacelen(s);
+	      if (esl_strtok_adv(&s, " \t\n\r", &text, &textlen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC line", afp->linenumber);
+
+	      /* verify alignment length */
+	      if(exp_alen == -1) exp_alen = textlen;
+	      else if(exp_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC line, len %d, expected %d", afp->linenumber, textlen, exp_alen);
+
+	      /* determine margin length of sequence name field for output formatting */
+	      curmargin = (margin == -1) ? taglen + spacelen : margin - 6; 
+
+	      /* output, after optionally removing some characters (if useme != NULL) or adding gaps (if add2me != NULL) (contract enforces only one can be non-null) */
+	      if(useme  != NULL) { 
+		/* if this is a GC SS_cons line, remove broken basepairs first - only if it's in WUSS RNA format (NOT for a protein SS!) */
+		if (strncmp(tag, "SS_cons", 7) == 0 && afp->abc && (afp->abc->type == eslRNA || afp->abc->type == eslDNA)) {
+		  if((status = esl_msa_RemoveBrokenBasepairsFromSS(text, afp->errbuf, textlen, useme)) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GC SS_cons line", afp->linenumber);
+		}
+		shrink_string(text, useme, exp_alen); /* this is done in place on text */
+	      }
+	      if(add2me != NULL) { 
+		if((status = gapize_string(text, textlen, textlen + gaps2addlen, add2me, gapchar2add, &gapped_text)) != eslOK) goto ERROR; 
+		fprintf(ofp, "#=GC %-*s %s\n", curmargin, tag, gapped_text);
+		free(gapped_text);
+	      }
+	      else { 
+		fprintf(ofp, "#=GC %-*s %s\n", curmargin, tag, text);
+	      }
+	    }
+	  }
+	else if (strncmp(s, "#=GS", 4) == 0)
+	  {
+	    /* we don't validate the sequence exists, this would require storing all seqnames */
+	    if (do_gs) { 
+	      if(maxname == -1 && seqs2regurg == NULL) { /* just print line as is */
+		fprintf(ofp, "%s", afp->buf); 
+	      }
+	      else { /* parse line into temporary strings, then print it out with correct formatting */
+		if((seqs2regurg == NULL && seqs2skip == NULL) || 
+		   (seqs2regurg != NULL && (status = esl_keyhash_Lookup(seqs2regurg, seqname, -1, NULL)) == eslOK) || 
+		   (seqs2skip   != NULL && (status = esl_keyhash_Lookup(seqs2skip,   seqname, -1, NULL)) == eslENOTFOUND))
+		  { /* this if() will evaluate as TRUE if seqs2regurg and seqs2skip are both NULL, or the seqname exists in seqs2regurg or does not exist in seqs2skip, else it will return FALSE */
+		    s = afp->buf;
+		    if (esl_strtok(&s, " \t\n\r", &gs)      != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GS line", afp->linenumber);
+		    if (esl_strtok(&s, " \t\n\r", &seqname) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GS line", afp->linenumber);
+		    if (esl_strtok(&s, " \t\n\r", &tag)     != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GS line", afp->linenumber);
+		    if (esl_strtok(&s, "\n\r",    &text)    != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GS line", afp->linenumber);
+		    fprintf(ofp, "#=GS %-*s %s %s\n", maxname, seqname, tag, text);
+		  }
+	      }
+	    }
+	  }
+	else if (strncmp(s, "#=GR", 4) == 0)
+	  {
+	    if(do_gr) { 
+	      /* parse line into temporary strings */
+	      s = afp->buf;
+	      if (esl_strtok    (&s, " \t\n\r", &gr)                      != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+	      if (esl_strtok_adv(&s, " \t\n\r", &seqname, &namelen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+	      spacelen = determine_spacelen(s);
+	      if (esl_strtok_adv(&s, " \t\n\r", &tag,      &taglen, NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+	      spacelen2 = determine_spacelen(s);
+	      if (esl_strtok_adv(&s, " \t\n\r", &text, &textlen, NULL)   != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line", afp->linenumber);
+
+	      /* verify alignment length */
+	      if(exp_alen == -1) exp_alen = textlen;
+	      else if(exp_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR line, len %d, expected %d", afp->linenumber, textlen, exp_alen);
+
+	      /* determine length of fields for output formatting */
+	      curmargin  = (maxname == -1) ? namelen + spacelen : maxname; 
+	      curmargin2 = (maxname == -1) ? taglen + spacelen2 : margin - maxname - 7;
+
+	      /* determine if we should regurgitate GR for this sequence or not */
+	      if((seqs2regurg == NULL && seqs2skip == NULL) || 
+		 (seqs2regurg != NULL && (status = esl_keyhash_Lookup(seqs2regurg, seqname, -1, NULL)) == eslOK) || 
+		 (seqs2skip   != NULL && (status = esl_keyhash_Lookup(seqs2skip,   seqname, -1, NULL)) == eslENOTFOUND))
+		{ /* this if() will evaluate as TRUE if seqs2regurg and seqs2skip are both NULL, or the seqname exists in seqs2regurg or does not exist in seqs2skip, else it will return FALSE */
+		  /* output GR, after optionally removing some characters (if useme != NULL) or adding gaps (if add2me != NULL) (contract enforces only one can be non-null) */
+		  if(useme  != NULL) { 
+		    /* if this is a GR SS line, remove broken basepairs first */
+		    if( strncmp(tag, "SS", 2) == 0 && afp->abc && (afp->abc->type == eslRNA || afp->abc->type == eslDNA)) {
+		      if((status = esl_msa_RemoveBrokenBasepairsFromSS(text, afp->errbuf, textlen, useme)) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad #=GR SS line", afp->linenumber);
+		    }
+		    shrink_string(text, useme, exp_alen); /* this is done in place on text */
+		  }
+		  if(add2me != NULL) { 
+		    if((status = gapize_string(text, textlen, textlen + gaps2addlen, add2me, gapchar2add, &gapped_text)) != eslOK) goto ERROR; 
+		    fprintf(ofp, "#=GR %-*s %-*s %s\n", curmargin, seqname, curmargin2, tag, gapped_text);
+		    free(gapped_text);
+		  }
+		  else { 
+		    fprintf(ofp, "#=GR %-*s %-*s %s\n", curmargin, seqname, curmargin2, tag, text);
+		  }
+		}
+	    }
+	  }
+	else if (do_comments) fprintf(ofp, "%s", afp->buf); /* print comment line, if desired */
+      } /* end of 'if (*s == '#')' */ 
+      else if (strncmp(s, "//",   2) == 0)   { if(do_trailer) fprintf(ofp, "%s", afp->buf); break; /* normal way out */ }
+      else if (*s == '\n' || *s == '\r')     { if(do_blanks)  { fprintf(ofp, "%s", afp->buf); } continue; } 
+      else { /* sequence line */
+	if(do_aseq) { 
+	  /* parse line into temporary strings */
+	  s = afp->buf;
+	  if (esl_strtok_adv(&s, " \t\n\r", &seqname, &namelen,  NULL) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad sequence line", afp->linenumber);
+	  spacelen = determine_spacelen(s);
+	  if (esl_strtok_adv(&s, " \t\n\r", &text,    &textlen, NULL)  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad sequence line", afp->linenumber);
+
+	  /* verify alignment length */
+	  if((exp_alen != -1) && (exp_alen != textlen)) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): bad seq line, len %d, expected %d", afp->linenumber, textlen, exp_alen);
+
+	  /* determine length of sequence name field for output formatting */
+	  curmargin = (margin == -1) ? namelen + spacelen : margin-1; 
+
+	  /* make sure we haven't just read a second line of the first sequence in file (we must be in Pfam 1 line/seq file) */
+	  if(nseq_read == 0) { if ((status = esl_strdup(seqname, -1, &(first_seqname))) != eslOK) goto ERROR; }
+	  else if(strcmp(first_seqname, seqname) == 0) { ESL_XFAIL(eslEFORMAT, afp->errbuf, "parse failed (line %d): two seqs named %s. Alignment appears to be in Stockholm format. Reformat to Pfam with esl-reformat.", afp->linenumber, seqname); }
+	  nseq_read++;
+
+	  /* determine if we should regurgitate this sequence or not */
+	  if((seqs2regurg == NULL && seqs2skip == NULL) || 
+	     (seqs2regurg != NULL && (status = esl_keyhash_Lookup(seqs2regurg, seqname, -1, NULL)) == eslOK) || 
+	     (seqs2skip   != NULL && (status = esl_keyhash_Lookup(seqs2skip,   seqname, -1, NULL)) == eslENOTFOUND))
+	    { /* this if() will evaluate as TRUE if seqs2regurg and seqs2skip are both NULL, or the seqname exists in seqs2regurg or does not exist in seqs2skip, else it will return FALSE */
+	      /* output sequence, after optionally removing some characters (if useme != NULL) or adding gaps (if add2me != NULL) (contract enforces only one can be non-null) */
+	      nseq_regurged++;
+	      if(useme  != NULL) shrink_string(text, useme, exp_alen); /* this is done in place on text */
+	      if(add2me != NULL) { 
+		if((status = gapize_string(text, textlen, textlen + gaps2addlen, add2me, gapchar2add, &gapped_text)) != eslOK) goto ERROR; 
+		fprintf(ofp, "%-*s %s\n", curmargin, seqname, gapped_text);
+		free(gapped_text);
+	      }
+	      else { 
+		fprintf(ofp, "%-*s %s\n", curmargin, seqname, text);
+	      }
+	    }
+	}
+      }
+    }
+
+  /* If we saw a normal // end, we would've successfully read a line,
+   * so when we get here, status (from the line read) should be eslOK.
+   */ 
+  if (status2 != eslOK) ESL_XFAIL(eslEFORMAT, afp->errbuf, "small mem parse failed (line %d): didn't find // at end of alignment", afp->linenumber);
+  if (first_seqname     != NULL) free(first_seqname);
+  if (opt_nseq_read     != NULL) *opt_nseq_read    = nseq_read;
+  if (opt_nseq_regurged != NULL) *opt_nseq_regurged = nseq_regurged;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+#endif
+
+/* get_pp_idx
+ *                   
+ * Given a GR PP or GC PP_cons character, return the appropriate index
+ * in a pp_ct[] vector. 
+ * '0' return 0;
+ * '1' return 1;
+ * '2' return 2;
+ * '3' return 3;
+ * '4' return 4;
+ * '5' return 5;
+ * '6' return 6;
+ * '7' return 7;
+ * '8' return 8;
+ * '9' return 9;
+ * '*' return 10;
+ * gap return 11;
+ * 
+ * Anything else (including missing or nonresidue) return -1;
+ *
+ * This mapping of PP chars to return values should probably be 
+ * stored in some internal map structure somewhere, instead of 
+ * only existing in this function as used by esl_msafile2_ReadInfoPfam().
+ */
+static int
+get_pp_idx(ESL_ALPHABET *abc, char ppchar)
+{
+  if(esl_abc_CIsGap(abc, ppchar)) return 11;
+  if(ppchar == '*')               return 10;
+  if(ppchar == '9')               return 9;
+  if(ppchar == '8')               return 8;
+  if(ppchar == '7')               return 7;
+  if(ppchar == '6')               return 6;
+  if(ppchar == '5')               return 5;
+  if(ppchar == '4')               return 4;
+  if(ppchar == '3')               return 3;
+  if(ppchar == '2')               return 2;
+  if(ppchar == '1')               return 1;
+  if(ppchar == '0')               return 0;
+  return -1;
+}
+
+/* gapize_string
+ *                   
+ * Given a string, create a new one that is a copy of it, 
+ * but with gaps added before each position (apos) as specified 
+ * by ngapA[0..apos..len]. <gapchar> specifies the gap character
+ * to add.
+ * 
+ * ngapA[0]    - number of gaps to add before first posn
+ * ngapA[apos] - number of gaps to add before posn apos
+ * ngapA[len]  - number of gaps to add after  final posn
+ * 
+ * ret_str is allocated here.
+ *
+ * Returns eslOK on success.
+ *         eslEMEM on memory error.
+ */
+static int 
+gapize_string(char *src_str, int64_t src_len, int64_t dst_len, int *ngapA, char gapchar, char **ret_dst_str)
+{
+  int status;
+  int src_apos = 0;
+  int dst_apos  = 0;
+  int i;
+  char *dst_str;
+
+  ESL_ALLOC(dst_str, sizeof(char) * (dst_len+1));
+  dst_str[dst_len] = '\0';
+
+  /* add gaps before first position */
+  for(i = 0; i < ngapA[0]; i++) dst_str[dst_apos++] = gapchar;
+
+  /* add gaps after every position */
+  for(src_apos = 0; src_apos < src_len; src_apos++) { 
+    dst_str[dst_apos++] = src_str[src_apos];
+    for(i = 0; i < ngapA[(src_apos+1)]; i++) dst_str[dst_apos++] = gapchar;
+  }
+
+  *ret_dst_str = dst_str;
+  return eslOK;
+
+ ERROR: 
+  return eslEMEM;
+}
+
+/* shrink_string
+ *                   
+ * Remove some characters of a string in place.
+ * If useme[0..pos..len-1] == FALSE, remove position pos.
+ * 
+ */
+static void
+shrink_string(char *str, const int *useme, int len)
+{
+  int opos, npos;
+
+  for (opos = 0, npos = 0; opos < len; opos++) { 
+      if (useme[opos] == FALSE) continue;
+      str[npos++] = str[opos];
+  }
+  str[npos] = '\0';
+  return;
+}
+
+
+/* determine_spacelen
+ *                   
+ * Determine number of consecutive ' ' characters 
+ * in the string pointed to by s.
+ */
+static int
+determine_spacelen(char *s)
+{
+  int spacelen = 0;
+  while (*s == ' ') { spacelen++; s++; } 
+  return spacelen;
+}
+/*------------- end, memory efficient Pfam i/o  -----------------*/
+
+
+
+/*****************************************************************
+ * 3. Legacy Stockholm parsing tools
+ *****************************************************************/
+
+/* msafile_getline():
+ * load the next line of <afp> into <afp->buf>. 
+ * Returns eslOK on success, eslEOF on normal eof.
+ * Throws eslEMEM on alloc failure.
+ */
+static int
+msafile2_getline(ESL_MSAFILE2 *afp)
+{
+  int status;
+  status = esl_fgets(&(afp->buf), &(afp->buflen), afp->f);
+  afp->linenumber++;
+  return status;
+}
+
+
+static int
+is_blankline(char *s)
+{
+  for (; *s != '\0'; s++)
+    if (! isspace((int) *s)) return FALSE;
+  return TRUE;
+}
+
+/* Format of a GF line:
+ *    #=GF <tag> <text>
+ * Returns eslOK on success; eslEFORMAT on parse failure.
+ * Throws eslEMEM on allocation failure.
+ */
+static int
+parse_gf(ESL_MSA *msa, char *buf)
+{
+  char *gf;
+  char *tag;
+  char *text;
+  char *tok;
+  char *s;
+  int   n;
+  int   status;
+
+  s = buf;
+  if (esl_strtok(&s, " \t\n\r", &gf)  != eslOK) return eslEFORMAT;
+  if (esl_strtok(&s, " \t\n\r", &tag) != eslOK) return eslEFORMAT;
+
+  /* special case: accept a blank #=GF CC line. Otherwise, <s> is required. */
+  while (isspace(*s)) s++;
+  status = esl_strtok_adv(&s, "\n\r", &text, &n, NULL);
+  if      (status == eslEOL) { if (strcmp(tag, "CC") != 0) return eslEFORMAT; }
+  else if (status != eslOK)  { return eslEFORMAT; }
+
+  if      (strcmp(tag, "ID") == 0) status = esl_strdup(text, n, &(msa->name));
+  else if (strcmp(tag, "AC") == 0) status = esl_strdup(text, n, &(msa->acc));
+  else if (strcmp(tag, "DE") == 0) status = esl_strdup(text, n, &(msa->desc));
+  else if (strcmp(tag, "AU") == 0) status = esl_strdup(text, n, &(msa->au));
+  else if (strcmp(tag, "GA") == 0) 
+    {				/* Pfam has GA1, GA2. Rfam just has GA1. */
+      s = text;
+      if ((esl_strtok(&s, " \t\n\r", &tok)) != eslOK) 
+	return eslEFORMAT;
+      msa->cutoff[eslMSA_GA1] = atof(tok);
+      msa->cutset[eslMSA_GA1] = TRUE;
+      if ((esl_strtok(&s, " \t\n\r", &tok)) == eslOK) 
+	{
+	  msa->cutoff[eslMSA_GA2] = atof(tok);
+	  msa->cutset[eslMSA_GA2] = TRUE;
+	}
+      status = eslOK;
+    }
+  else if (strcmp(tag, "NC") == 0) 
+    {
+      s = text;
+      if ((esl_strtok(&s, " \t\n\r", &tok)) != eslOK) 
+	return eslEFORMAT;
+      msa->cutoff[eslMSA_NC1] = atof(tok);
+      msa->cutset[eslMSA_NC1] = TRUE;
+      if ((esl_strtok(&s, " \t\n\r", &tok)) == eslOK) 
+	{
+	  msa->cutoff[eslMSA_NC2] = atof(tok);
+	  msa->cutset[eslMSA_NC2] = TRUE;
+	}
+      status = eslOK;
+    }
+  else if (strcmp(tag, "TC") == 0) 
+    {
+      s = text;
+      if ((esl_strtok(&s, " \t\n\r", &tok)) != eslOK) 
+	return eslEFORMAT;
+      msa->cutoff[eslMSA_TC1] = atof(tok);
+      msa->cutset[eslMSA_TC1] = TRUE;
+      if ((esl_strtok(&s, "\t\n\r", &tok)) == eslOK) 
+	{
+	  msa->cutoff[eslMSA_TC2] = atof(tok);
+	  msa->cutset[eslMSA_TC2] = TRUE;
+	}
+      status = eslOK;
+    }
+  else if (strcmp(tag, "CC") == 0 && text == NULL)   
+    status = esl_msa_AddGF (msa, tag, -1, "", -1);
+  else
+    status = esl_msa_AddGF(msa, tag, -1, text, -1);
+
+  return status;
+}
+
+/* parse_gc():
+ * Format of a GC line:
+ *    #=GC <tag> <aligned text>
+ */
+static int 
+parse_gc(ESL_MSA *msa, char *buf)
+{
+  char *gc;
+  char *tag;
+  char *text; 
+  char *s;
+  int   len;
+  int   status;
+
+  s = buf;
+  if (esl_strtok    (&s, " \t\n\r", &gc)               != eslOK) return eslEFORMAT;
+  if (esl_strtok    (&s, " \t\n\r", &tag)              != eslOK) return eslEFORMAT;
+  if (esl_strtok_adv(&s, " \t\n\r", &text, &len, NULL) != eslOK) return eslEFORMAT;
+  
+  if      (strcmp(tag, "SS_cons") == 0)  status = esl_strcat(&(msa->ss_cons), -1, text, len);
+  else if (strcmp(tag, "SA_cons") == 0)  status = esl_strcat(&(msa->sa_cons), -1, text, len);
+  else if (strcmp(tag, "PP_cons") == 0)  status = esl_strcat(&(msa->pp_cons), -1, text, len);
+  else if (strcmp(tag, "RF")      == 0)  status = esl_strcat(&(msa->rf),      -1, text, len);
+  else if (strcmp(tag, "MM")      == 0)  status = esl_strcat(&(msa->mm),      -1, text, len);
+  else                                   status = esl_msa_AppendGC(msa, tag, text);
+
+  return status;
+}
+
+
+/* parse_comment():
+ * comments are simply stored verbatim, not parsed
+ */
+static int
+parse_comment(ESL_MSA *msa, char *buf)
+{
+  char *s;
+  char *comment;
+
+  s = buf + 1;			               /* skip leading '#' */
+  if (*s == '\n' || *s == '\r') { *s = '\0'; comment = s; }  /* deal with blank comment */
+  else if (esl_strtok(&s, "\n\r", &comment)!= eslOK) return eslEFORMAT;
+  return (esl_msa_AddComment(msa, comment, -1));
+}
+/*-------------- end, legacy stockholm parser -------------------*/
+
+/*****************************************************************
+ * 4. Unit tests 
+ *****************************************************************/
+#ifdef eslMSAFILE2_TESTDRIVE
+
+/* write_known_pfam_msa()
+ * Write a known MSA to a tmpfile in Pfam Stockholm format.
+ */
+static void
+write_known_pfam_msa(FILE *ofp)
+{
+  fprintf(ofp, "# STOCKHOLM 1.0\n");
+  fprintf(ofp, "#=GF ID pfam-test\n");
+  fprintf(ofp, "#=GS seq2 DE seq2 is interesting\n");
+  fprintf(ofp, "seq1    --ACDEFGHIK~LMNPQRS-TVWYACDEFGHIKLMNPQRSTVWY~~~\n");
+  fprintf(ofp, "seq2    aaACDEFGHIK~LMNPQRS-TVWYACDEFGHIKLMNPQRSTVWYyyy\n");
+  fprintf(ofp, "seq3    aaACDEFGHIK~LMNPQRS-TVWYACDEFGHIKLMNPQRSTVWYyyy\n");
+  fprintf(ofp, "#=GC RF ..xxxxxxxxx.xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx...\n");
+  fprintf(ofp, "//\n");
+  return;
+}
+
+
+static void
+utest_ReadInfoPfam(char *filename)
+{
+  char         *msg = "ReadInfo() unit test failure";
+  ESL_MSAFILE2 *mfp = NULL;
+  ESL_MSA      *msa = NULL;
+  int           nseq = 0;
+  int64_t       alen = 0;
+  int           ngs = 0;
+  int           maxname = 0;
+  int           maxgf = 0;
+  int           maxgc = 0;
+  int           maxgr = 0;
+
+  if (esl_msafile2_Open(filename, NULL, &mfp) != eslOK) esl_fatal(msg);  
+  if (esl_msafile2_ReadInfoPfam(mfp, NULL, NULL, -1, NULL, NULL, &msa, &nseq, &alen, &ngs, &maxname, &maxgf, &maxgc, &maxgr, NULL, NULL, NULL, NULL, NULL) != eslOK)  esl_fatal(msg);
+
+  if (msa->nseq != 0)  esl_fatal("bad msa->nseq");
+  if (msa->alen != -1) esl_fatal("bad msa->alen");
+  if (nseq      != 3)  esl_fatal("bad nseq");
+  if (alen      != 47) esl_fatal("bad alen");
+  if (ngs       != 1)  esl_fatal("bad ngs");
+  if (maxname   != 4)  esl_fatal("bad maxname");
+  if (maxgf     != 2)  esl_fatal("bad maxgf");
+  if (maxgc     != 2)  esl_fatal("bad maxgc");
+  if (maxgr     != 0)  esl_fatal("bad maxgr");
+  esl_msa_Destroy(msa);
+
+  if (esl_msafile2_ReadInfoPfam(mfp, NULL, NULL, -1, NULL, NULL, &msa, &nseq, &alen, &ngs, &maxname, &maxgf, &maxgc, &maxgr, NULL, NULL, NULL, NULL, NULL) != eslEOF) esl_fatal(msg);
+  if (msa  != NULL) esl_fatal(msg);
+  if (nseq != 0 || alen != 0 || ngs != 0 || maxname != 0 || maxgf != 0 || maxgc != 0 || maxgr != 0) esl_fatal("bad nseq");
+
+  esl_msafile2_Close(mfp);
+}
+
+static void
+utest_RegurgitatePfam(char *filename)
+{
+  char         *msg         = "RegurgitatePfam() unit test failure";
+  ESL_MSAFILE2 *mfp         = NULL;
+  ESLX_MSAFILE *afp         = NULL;
+  char          tmpfile[16] = "esltmpXXXXXX";
+  FILE         *fp          = NULL;
+  ESL_MSA      *msa1        = NULL;
+  ESL_MSA      *msa2        = NULL;
+
+  /* regurgitate msa in filename to tmpfile (an msa structure will not be created) */
+  if (esl_msafile2_Open(filename, NULL, &mfp) != eslOK) esl_fatal(msg); 
+  if (esl_tmpfile_named(tmpfile, &fp)         != eslOK) esl_fatal(msg);
+  if (esl_msafile2_RegurgitatePfam(mfp, fp, 
+				   -1, -1, -1, -1, /* maxname, maxgf, maxgc, maxgr unknown: output msa formatting will match input msa formatting */
+				   TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, /* do_header, do_trailer, do_blanks, do_comments, do_gf, do_gs, do_gc, do_gr, do_aseq: print all components */
+				   NULL,          /* seqs2regurg: if non-NULL specifies which sequences to keep in output */
+				   NULL,          /* seqs2skip:   if non-NULL specifies which sequences to skip in output */
+				   NULL,          /* useme:  if non-NULL specifies which columns to keep in output */
+				   NULL,          /* add2me: if non-NULL specifies how many gap columns to add in output */
+				   -1,            /* expected alignment length, unknown (must not be if useme != NULL or add2me != NULL */
+				   '.',           /* gapchar2add, irrelevant since add2me is NULL */
+				   NULL,          /* don't return num seqs read */
+				   NULL)          /* don't return num seqs read */
+      != eslOK) esl_fatal(msg);
+  fclose(fp);
+  esl_msafile2_Close(mfp);
+
+  /* Using normal interface, read in msa from filename as msa1 */
+  if (eslx_msafile_Open(NULL, filename, NULL, eslMSAFILE_PFAM, NULL, &afp) != eslOK) esl_fatal(msg); 
+  if (eslx_msafile_Read(afp, &msa1)                                        != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  /* Using normal interface, read in msa from tmpfile as msa2 */
+  if (eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_PFAM, NULL, &afp) != eslOK) esl_fatal(msg);
+  if (eslx_msafile_Read(afp, &msa2)                                       != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal(msg);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  remove(tmpfile);
+}
+#endif /* eslMSAFILE2_TESTDRIVE */
+/*------------------ end, unit tests ----------------------------*/
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef eslMSAFILE2_TESTDRIVE
+
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile2_utest -DeslMSAFILE2_TESTDRIVE esl_msafile2.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile2_utest -DeslMSAFILE2_TESTDRIVE esl_msafile2.c -leasel -lm
+ * run:     ./esl_msafile2_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msafile2.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for legacy memory-efficient Pfam format input/output";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  FILE        *fp          = NULL;
+  char         tmpfile[16] = "esltmpXXXXXX";
+  
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal("failed to create tmpfile");
+  write_known_pfam_msa(fp);
+  fclose(fp);
+
+  utest_ReadInfoPfam(tmpfile);
+  utest_RegurgitatePfam(tmpfile);
+
+  remove(tmpfile);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+#endif /*eslMSAFILE2_TESTDRIVE*/
+/*----------------- end, test driver ----------------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile2.c $
+ * SVN $Id: esl_msafile2.c 832 2012-12-07 15:01:15Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile2.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile2.h
new file mode 100755
index 0000000..d7f047c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile2.h
@@ -0,0 +1,95 @@
+/* Memory-efficient multiple sequence alignment i/o from Pfam format
+ * 
+ * Legacy interface, now that ESLX_MSAFILE is rewritten.  Still need
+ * to support --small option in various tools, so the necessary parts
+ * of the old interface were moved here.
+ * 
+ * To-do: 
+ *   :: add memory-efficient interface in ESLX_MSAFILE
+ *   :: add memory-efficient ESL_MSA w/ API
+ *   :: add space-efficient MSA file format
+ */
+#ifndef eslMSAFILE2_INCLUDED
+#define eslMSAFILE2_INCLUDED
+
+#include "esl_msa.h"		/* ESL_MSA structure                                                  */
+#include "esl_msafile.h"	/* preferred msafile interface, inc. fmt codes shared w/ ESL_MSAFILE2 */
+
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"	/* digital alphabet                                                   */
+#endif
+#ifdef eslAUGMENT_KEYHASH
+#include "esl_keyhash.h"	/* string hashes, for mapping unique seq names                        */
+#endif
+#ifdef eslAUGMENT_SSI
+#include "esl_ssi.h"        	/* indexing large flatfiles on disk                                   */
+#endif
+
+/* Object: ESL_MSAFILE2
+ * 
+ * Defines an alignment file that we open for reading,
+ * in our legacy version. See ESLX_MSAFILE (esl_msafile.c) for the
+ * preferred version.
+ */
+typedef struct {
+  FILE *f;                      /* open file pointer                         */
+  char *fname;			/* name of file. used for diagnostic output  */
+  int   linenumber;		/* what line are we on in the file           */
+  char  errbuf[eslERRBUFSIZE];  /* buffer for holding parse error info       */
+
+  char *buf;			/* buffer for line input w/ sre_fgets()      */
+  int   buflen;			/* current allocated length for buf          */
+
+  int   do_gzip;		/* TRUE if f is "gzip -dc |" (will pclose(f))*/
+  int   do_stdin;		/* TRUE if f is stdin (won't close f)        */
+  int   format;			/* format of alignment file we're reading    */
+
+  int   do_digital;		/* TRUE to digitize seqs directly into ax    */
+#if defined(eslAUGMENT_ALPHABET)
+  const ESL_ALPHABET *abc;	/* AUGMENTATION (alphabet): digitized input  */
+#else
+  void               *abc;
+#endif
+
+#if defined(eslAUGMENT_SSI)		/* AUGMENTATION: SSI indexing of an MSA db   */
+  ESL_SSI *ssi;		        /* open SSI index file; or NULL, if none.    */
+#else
+  void    *ssi;
+#endif
+
+  ESL_MSA *msa_cache;		/* occasional lookahead at next MSA; GuessAlphabet() */
+} ESL_MSAFILE2;
+
+
+
+/* 1. The ESL_MSAFILE2 object */
+extern int  esl_msafile2_Open(const char *filename, const char *env, ESL_MSAFILE2 **ret_afp);
+#ifdef eslAUGMENT_ALPHABET
+extern int  esl_msafile2_OpenDigital(const ESL_ALPHABET *abc, const char *filename, const char *env, ESL_MSAFILE2 **ret_afp);
+#endif
+extern void esl_msafile2_Close(ESL_MSAFILE2 *afp);
+
+/* 2. Memory efficient reading/writing in Pfam format (augmentation: keyhash, for regurgitating some but not all seqs) */
+extern int   esl_msafile2_ReadInfoPfam(ESL_MSAFILE2 *afp, FILE *listfp, ESL_ALPHABET *abc, int64_t known_alen, char *known_rf, char *known_ss_cons, ESL_MSA **ret_msa, 
+				       int *opt_nseq, int64_t *opt_alen, int *opt_ngs, int *opt_maxname, int *opt_maxgf, int *opt_maxgc, int *opt_maxgr, 
+				       double ***opt_abc_ct, double ***opt_pp_ct, double ****opt_bp_ct, int **opt_spos_ct, int **opt_epos_ct);
+#ifdef eslAUGMENT_KEYHASH
+extern int   esl_msafile2_RegurgitatePfam(ESL_MSAFILE2 *afp, FILE *ofp, int maxname, int maxgf, int maxgc, int maxgr,
+					  int do_header, int do_trailer, int do_blanks, int do_comments, int do_gf, 
+					  int do_gs, int do_gc, int do_gr, int do_aseq, ESL_KEYHASH *seqs2regurg, ESL_KEYHASH *seqs2skip, 
+					  int *useme, int *add2me, int exp_alen, char gapchar2add, int *opt_nseq_read, int *opt_nseq_written);
+#endif
+
+#endif //eslMSAFILE2_INCLUDED
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile2.h $
+ * SVN $Id: esl_msafile2.h 717 2011-08-04 19:18:17Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_a2m.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_a2m.c
new file mode 100755
index 0000000..dffb290
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_a2m.c
@@ -0,0 +1,1058 @@
+/* I/O of multiple sequence alignments in A2M format (UCSC SAM)
+ * 
+ * Contents:
+ *   1. API for reading/writing A2M format
+ *   2. Internal functions used by the A2M parser
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Examples.
+ *   6. License and copyright.
+ *
+ * Reference:
+ *   http://compbio.soe.ucsc.edu/a2m-desc.html
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_a2m.h"
+
+#ifdef eslAUGMENT_ALPHABET
+static int a2m_padding_digital(ESL_MSA *msa, char **csflag, int *nins, int ncons);
+#endif
+static int a2m_padding_text   (ESL_MSA *msa, char **csflag, int *nins, int ncons);
+
+/*****************************************************************
+ *# 1. API for reading/writing A2M format
+ *****************************************************************/
+
+
+/* Function:  esl_msafile_a2m_SetInmap()
+ * Synopsis:  Set input map specific for A2M format
+ *
+ * Purpose:   Set the <afp->inmap> for A2M format.
+ *
+ *            A2M ignores whitespace and periods (and ignoring
+ *            periods makes us agnostic whether the input is
+ *            "dotless" format or not). Make ' ', '\t', and
+ *            '.' ignored.
+ *            
+ *            A2M format only allows - for a gap, so make
+ *            all other Easel gap characters illegal on input.
+ *            
+ *            A2M format handles an 'O' specially: this indicates
+ *            a FIM (free insertion module) to the SAM software.
+ *            We ignore it.
+
+ *            A2M allows ACDEFGHIKLMNPQRSTVWY for aa, plus XBZ.
+ *            Unknown letters (including other ambig codes) are mapped
+ *            to X.  A2M allows ACGTU for nucleic, plus YRN.  Unknown
+ *            letters (including other ambig codes) are mapped to N.
+ *            However, Easel enforces its normal input restrictions on
+ *            residues: digital bioalphabets allow only valid residue
+ *            symbols, and text mode allows any isalpha() character
+ *            verbatim.
+ */
+int
+esl_msafile_a2m_SetInmap(ESLX_MSAFILE *afp)
+{
+  int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 0; sym < 128; sym++) 
+	afp->inmap[sym] = afp->abc->inmap[sym];
+      afp->inmap[0] = esl_abc_XGetUnknown(afp->abc);
+      afp->inmap['_']  = eslDSQ_ILLEGAL;
+      afp->inmap['*']  = eslDSQ_ILLEGAL;
+      afp->inmap['~']  = eslDSQ_ILLEGAL;
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++) 
+	afp->inmap[sym] = (isalpha(sym) ? sym : eslDSQ_ILLEGAL);
+      afp->inmap[0]   = '?';
+      afp->inmap['-'] = '-';
+    }
+
+  afp->inmap[' ']  = eslDSQ_IGNORED;
+  afp->inmap['\t'] = eslDSQ_IGNORED;
+  afp->inmap['.']  = eslDSQ_IGNORED;
+  afp->inmap['O']  = eslDSQ_IGNORED;
+  afp->inmap['o']  = eslDSQ_IGNORED;
+  return eslOK;
+}
+
+/* Function:  esl_msafile_a2m_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open A2M MSA file.
+ *
+ * Purpose:   Guess the alpbabet of the sequences in open
+ *            A2M format MSA file <afp>.
+ *            
+ *            On a normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original position.
+ *
+ * Args:      afp      - open A2M format MSA file
+ *            ret_type - RETURN: <eslDNA>, <eslRNA>, or <eslAMINO>       
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if alphabet type can't be determined.
+ *            In either case, <afp> is rewound to the position it
+ *            started at.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslESYS> on failures of fread() or other system calls
+ */
+int
+esl_msafile_a2m_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       alphatype     = eslUNKNOWN;
+  esl_pos_t anchor        = -1;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;
+  int       step          = 0;
+  int       nres          = 0;
+  int       x;
+  int64_t   ct[26];
+  char     *p;
+  esl_pos_t n, pos;
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      while (n && isspace(*p)) { p++; n--; }
+      if    (!n || *p == '>') continue;
+
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A'; 
+	  ct[x]++;
+	  nres++;
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+  /* deliberate flowthrough...*/
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+
+/* Function:  esl_msafile_a2m_Read()
+ * Synopsis:  Read a UCSC A2M format alignment.
+ *
+ * Purpose:   Read an MSA from an open <ESLX_MSAFILE> <afp>, parsing
+ *            for UCSC A2M (SAM) format. Create a new MSA,
+ *            and return a ptr to it in <*ret_msa>. Caller is responsible
+ *            for freeing this <ESL_MSA>.
+ *            
+ *            The <msa> has a reference line (<msa->rf[]>) that
+ *            corresponds to the uppercase/lowercase columns in the
+ *            alignment: consensus (uppercase) columns are marked 'X',
+ *            and insert (lowercase) columns are marked '.' in the RF
+ *            annotation line.
+ *
+ *            This input parser can deal both with "dotless" A2M, and
+ *            full A2M format with dots.
+ *            
+ * Args:      afp     - open <ESL_MSAFILE>
+ *            ret_msa - RETURN: newly parsed <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success. <*ret_msa> is set to the newly
+ *            allocated MSA, and <afp> is at EOF.
+ *
+ *            <eslEOF> if no (more) alignment data are found in
+ *            <afp>, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *            
+ * Throws:    <eslEMEM> - an allocation failed.
+ *            <eslESYS> - a system call such as fread() failed
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ *            On these, <*ret_msa> is returned <NULL>, and the state of
+ *            <afp> is undefined.
+ */
+int
+esl_msafile_a2m_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa        = NULL;
+  char    **csflag     = NULL;	/* csflag[i][pos] is TRUE if aseq[i][pos] was uppercase consensus   */
+  int      *nins       = NULL;	/* # of inserted residues before each consensus col [0..ncons-1]    */
+  int      *this_nins  = NULL;	/* # of inserted residues before each consensus residue in this seq */
+  int       nseq       = 0;
+  int       ncons      = 0;
+  int       idx;
+  int64_t   thislen;
+  int64_t   spos;
+  int       this_ncons;
+  int       cpos, bpos;
+  char     *p, *tok;
+  esl_pos_t n,  toklen;
+  int       status;
+
+  ESL_DASSERT1( (afp->format == eslMSAFILE_A2M) );
+
+  afp->errmsg[0] = '\0';	
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc   &&  (msa = esl_msa_CreateDigital(afp->abc, 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+#endif
+  if (! afp->abc &&  (msa = esl_msa_Create(                 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(csflag, sizeof(char *) * msa->sqalloc);
+  for (idx = 0; idx < msa->sqalloc; idx++) csflag[idx] = NULL; 
+
+  /* skip leading blank lines in file */
+  while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK  && esl_memspn(afp->line, afp->n, " \t") == afp->n) ;
+  if      (status != eslOK) goto ERROR; /* includes normal EOF */
+
+  /* tolerate sloppy space at start of name/desc line */
+  while (n && isspace(*p)) { p++; n--; }    
+  if (*p != '>') ESL_XFAIL(eslEFORMAT, afp->errmsg, "expected A2M name/desc line starting with >");    
+
+  do {	/* for each record starting in '>': */
+    p++; n--; 			/* advance past > */
+    
+    if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen))   != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "no name found for A2M record");
+    if (nseq >= msa->sqalloc) {
+      int old_sqalloc = msa->sqalloc;
+      if ( (status = esl_msa_Expand(msa)) != eslOK) goto ERROR;
+      ESL_REALLOC(csflag, sizeof(char *) * msa->sqalloc);
+      for (idx = old_sqalloc; idx < msa->sqalloc; idx++) csflag[idx] = NULL;
+    }
+
+    if (     (status = esl_msa_SetSeqName       (msa, nseq, tok, toklen)) != eslOK) goto ERROR;
+    if (n && (status = esl_msa_SetSeqDescription(msa, nseq, p,   n))      != eslOK) goto ERROR;
+
+    /* now for each sequence line... */
+    thislen = 0;		/* count of lowercase, uppercase, and '-': w/o dots, on first pass */
+    this_ncons = 0;		/* count of uppercase + '-': number of consensus columns in alignment: must match for all seqs */
+    if (nseq) {
+      for (cpos = 0; cpos <= ncons; cpos++)
+	this_nins[cpos] = 0;
+    }
+
+    while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK)
+      {				
+	while (n && isspace(*p)) { p++; n--; } /* tolerate and skip leading whitespace on line */
+	if (n  == 0)   continue;	       /* tolerate and skip blank lines */
+	if (*p == '>') break;
+
+	ESL_REALLOC(csflag[nseq], sizeof(char) * (thislen + n + 1)); /* might be an overalloc by a bit, depending on whitespace on line */
+	if (nseq == 0) {
+	  ESL_REALLOC(this_nins, sizeof(int) * (this_ncons + n + 1));
+	  for (cpos = this_ncons; cpos <= this_ncons+n; cpos++)
+	    this_nins[cpos] = 0;
+	}
+
+	for (spos = thislen, bpos = 0; bpos < n; bpos++)
+	  {
+	    if      (p[bpos] == 'O')   continue;
+	    else if (isupper(p[bpos])) { csflag[nseq][spos++] = TRUE;  this_ncons++;            }
+	    else if (islower(p[bpos])) { csflag[nseq][spos++] = FALSE; this_nins[this_ncons]++; }
+	    else if (p[bpos] == '-')   { csflag[nseq][spos++] = TRUE;  this_ncons++;            }
+	    if (ncons && this_ncons > ncons) ESL_XFAIL(eslEFORMAT, afp->errmsg,  "unexpected # of consensus residues, didn't match previous seq(s)");
+	  }
+	csflag[nseq][spos] = TRUE; /* need a sentinel, because of the way the padding functions work */
+
+#ifdef eslAUGMENT_ALPHABET
+	if (msa->abc)   { status = esl_abc_dsqcat(afp->inmap, &(msa->ax[nseq]),   &thislen, p, n); } 
+#endif
+	if (! msa->abc) { status = esl_strmapcat (afp->inmap, &(msa->aseq[nseq]), &thislen, p, n); }
+	if (status == eslEINVAL)   ESL_XFAIL(eslEFORMAT, afp->errmsg, "one or more invalid sequence characters");
+	else if (status != eslOK)  goto ERROR;
+	ESL_DASSERT1( (spos == thislen) );
+      }	
+    if (status != eslOK && status != eslEOF) goto ERROR; /* exception thrown by eslx_msafile_GetLine() */
+    /* status == OK: then *p == '>'. status == eslEOF: we're eof.  status == anything else: error */
+    /* Finished reading a sequence record. */
+    
+    if (nseq == 0) 
+      {
+	ncons = this_ncons;
+	ESL_ALLOC(nins, sizeof(int) * (ncons+1));
+	for (cpos = 0; cpos <= ncons; cpos++)
+	  nins[cpos] = this_nins[cpos];
+      } 
+    else 
+      {
+	if (this_ncons != ncons) ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected # of consensus residues, didn't match previous seq(s)");
+	for (cpos = 0; cpos <= ncons; cpos++) 
+	  nins[cpos]      = ESL_MAX(nins[cpos], this_nins[cpos]);
+      }
+    nseq++;
+  } while (status == eslOK);
+  
+  /* Now we have nseq *unaligned* sequences in ax/aseq[0..nseq-1]; call the length slen, though we don't explicitly store it
+   * csflag[idx][spos] tells us whether each unaligned residue is an insertion or consensus, for spos==0..slen-1.
+   * nins[0..ncons] tells us the max number of inserted residues before each consensus column
+   * This is sufficient information to reconstruct each aligned sequence.
+   */
+  msa->nseq = nseq;
+#ifdef eslAUGMENT_ALPHABET
+  if (msa->abc)  { if ((status = a2m_padding_digital(msa, csflag, nins, ncons)) != eslOK) goto ERROR; }
+#endif
+  if (!msa->abc) { if ((status = a2m_padding_text   (msa, csflag, nins, ncons)) != eslOK) goto ERROR; }
+
+  if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+
+  *ret_msa  = msa;
+  free(nins);
+  free(this_nins);
+  for (idx = 0; idx < msa->nseq; idx++) free(csflag[idx]);
+  free(csflag);
+  return eslOK;
+  
+ ERROR:
+  if (nins)      free(nins);
+  if (this_nins) free(this_nins);
+  if (csflag) {
+    for (idx = 0; idx < msa->nseq; idx++) 
+      if (csflag[idx]) free(csflag[idx]);
+    free(csflag);
+  }
+  if (msa) esl_msa_Destroy(msa);
+  return status;
+}
+
+
+/* Function:  esl_msafile_a2m_Write()
+ * Synopsis:  Write an A2M (UCSC SAM) dotless format alignment to a stream.
+ *
+ * Purpose:   Write alignment <msa> in dotless UCSC A2M format to a
+ *            stream <fp>.
+ *            
+ *            The <msa> should have a valid reference line <msa->rf>,
+ *            with alphanumeric characters marking consensus (match)
+ *            columns, and non-alphanumeric characters marking
+ *            nonconsensus (insert) columns. If it does not,
+ *            then as a fallback, the first sequence in the alignment is
+ *            considered to be the consensus.
+ *            
+ *            In "dotless" A2M format, gap characters (.) in insert
+ *            columns are omitted; therefore sequences can be of
+ *            different lengths, but each sequence has the same number
+ *            of consensus columns (residue or -).
+ *            
+ *            A2M format cannot represent missing data symbols
+ *            (Easel's ~). Any missing data symbols are converted to
+ *            gaps.
+ *            
+ *            A2M format cannot represent pyrrolysine residues in
+ *            amino acid sequences, because it treats 'O' symbols
+ *            specially, as indicating a position at which a
+ *            free-insertion module (FIM) should be created. Any 'O'
+ *            in the <msa> is written instead as an unknown
+ *            residue ('X', in protein sequences).
+ *            
+ * Args:      fp  - open output stream
+ *            msa - MSA to write       
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_msafile_a2m_Write(FILE *fp, const ESL_MSA *msa)
+{
+  char   *buf = NULL;
+  int     cpl = 60;
+  int     bpos;
+  int     pos;
+  int     is_consensus;
+  int     is_residue;
+  int     do_dotless = TRUE;	/* just changing this to FALSE makes it write dots too */
+  int     i;
+  int     sym;
+  int     status;
+
+  ESL_ALLOC(buf, sizeof(char) * (cpl+1));
+
+  for (i = 0; i < msa->nseq; i++)
+    {
+      /* Construct the name/description line */
+      if (fprintf(fp, ">%s", msa->sqname[i])                                                      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "a2m msa file write failed");
+      if (msa->sqacc  != NULL && msa->sqacc[i]  != NULL) { if (fprintf(fp, " %s", msa->sqacc[i])  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "a2m msa file write failed"); }
+      if (msa->sqdesc != NULL && msa->sqdesc[i] != NULL) { if (fprintf(fp, " %s", msa->sqdesc[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "a2m msa file write failed"); }
+      if (fputc('\n', fp)                                                                         < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "a2m msa file write failed"); 
+
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->abc)
+	{
+	  pos = 0;
+	  while (pos < msa->alen)
+	    {
+	      for (bpos = 0; pos < msa->alen && bpos < cpl; pos++)
+		{
+		  sym          = msa->abc->sym[msa->ax[i][pos+1]]; /* note off-by-one in digitized aseq: 1..alen */
+		  is_residue   = esl_abc_XIsResidue(msa->abc, msa->ax[i][pos+1]);
+		  if (msa->rf) is_consensus = (isalnum(msa->rf[pos]) ? TRUE : FALSE);
+		  else         is_consensus = (esl_abc_XIsResidue(msa->abc, msa->ax[0][pos+1]) ? TRUE : FALSE);
+
+		  if (sym == 'O') sym = esl_abc_XGetUnknown(msa->abc); /* watch out: O means "insert a FIM" in a2m format, not pyrrolysine */
+		  
+		  if      (is_consensus) { buf[bpos++] = (is_residue ? toupper(sym) : '-'); }
+		  else if (is_residue)   { buf[bpos++] = tolower(sym); }
+		  else if (! do_dotless) { buf[bpos++] = '.'; }
+		}
+	      buf[bpos] = '\0';
+	      if (bpos) { if (fprintf(fp, "%s\n", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "a2m msa file write failed");}
+	    }
+	}
+#endif
+      if (! msa->abc)
+	{
+	  pos = 0;
+	  while (pos < msa->alen)
+	    {
+	      for (bpos = 0; pos < msa->alen && bpos < cpl; pos++)
+		{
+		  sym          = msa->aseq[i][pos];
+		  is_residue   = isalpha(msa->aseq[i][pos]);
+		  if (msa->rf) is_consensus = (isalnum(msa->rf[pos]) ? TRUE : FALSE);
+		  else         is_consensus = (isalnum(msa->aseq[0][pos]) ? TRUE : FALSE);
+
+		  if (sym == 'O') sym = 'X';
+
+		  if      (is_consensus) { buf[bpos++] = ( is_residue ? toupper(sym) : '-'); }
+		  else if (is_residue)   { buf[bpos++] = tolower(sym); }
+		  else if (! do_dotless) { buf[bpos++] = '.'; }
+		  
+		}
+	      buf[bpos] = '\0';
+	      if (bpos) { if (fprintf(fp, "%s\n", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "a2m msa file write failed"); }
+	    } 
+	}
+    } /* end, loop over sequences in the MSA */
+
+  free(buf);
+  return eslOK;
+
+ ERROR:
+  if (buf) free(buf);
+  return status;
+}
+/*------------- end, API for i/o of a2m format ------------------*/
+
+
+/*****************************************************************
+ * 2. Internal functions used by the A2M parser
+ *****************************************************************/
+
+/* A2M parser has an input phase, followed by an alignment padding phase.
+ * The a2m_padding_{digital,text} functions do the padding phase.
+ * 
+ * Upon call:
+ *   msa->nseq is set;
+ *   msa->ax[0..nseq-1][1..slen] are unaligned seqs (consensus cols +
+ *   inserted residues); or msa->aseq[0..nseq-1][0..slen-1], for text mode
+ *   csflag[0..nseq-1][0..slen-1] is TRUE/FALSE for whether each pos
+ *   in msa->ax[][1..slen]/msa->aseq[][0..slen-1] is consensus or insert
+ *   nins[0..ncons] is the number of insert columns preceding each consensus column
+ *
+ * watch out, ax[] is a digital sequence, 1..alen not 0..alen-1: hence
+ * the [apos+1], [spos+1] indexing
+ *         
+ * these functions may not fail with any normal (eslEFORMAT) error, because
+ * we wouldn't be able to tell the line/linenumber of the error
+ *
+ * Upon successful return:
+ *  msa->alen is set
+ *  all msa->ax[]/msa->aseq are now aligned digital sequences         
+ *  msa->rf is set
+ */
+#ifdef eslAUGMENT_ALPHABET
+static int
+a2m_padding_digital(ESL_MSA *msa, char **csflag, int *nins, int ncons)
+{
+  ESL_DSQ *ax     = NULL;		/* new aligned sequence - will be swapped into msa->ax[] */
+  ESL_DSQ  gapsym = esl_abc_XGetGap(msa->abc);
+  int      apos, cpos, spos;	/* position counters for alignment 0..alen, consensus cols 0..cpos-1, sequence position 0..slen-1 */
+  int      alen;
+  int      icount;
+  int      idx;
+  int      status;
+
+  alen = ncons;
+  for (cpos = 0; cpos <= ncons; cpos++)
+    alen += nins[cpos];
+
+  ESL_ALLOC(msa->rf, sizeof(char) * (alen+1));
+  for (apos = 0, cpos = 0; cpos <= ncons; cpos++)
+    {
+      for (icount = 0; icount < nins[cpos]; icount++) msa->rf[apos++] = '.';
+      if  (cpos < ncons) msa->rf[apos++] = 'x';
+    }
+  msa->rf[apos] = '\0';
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      ESL_ALLOC(ax, sizeof(ESL_DSQ) * (alen + 2));    
+      ax[0] = eslDSQ_SENTINEL;
+      apos = spos  = 0; 
+      for (cpos = 0; cpos <= ncons; cpos++)
+	{
+	  icount = 0;   
+	  while (csflag[idx][spos] == FALSE)  { ax[apos+1] = msa->ax[idx][spos+1]; apos++; spos++; icount++; }
+	  while (icount < nins[cpos]) 	      { ax[apos+1] = gapsym;               apos++;         icount++; }
+	  if (cpos < ncons)                   { ax[apos+1] = msa->ax[idx][spos+1]; apos++; spos++;           }
+	}
+      ESL_DASSERT1( (msa->ax[idx][spos+1] == eslDSQ_SENTINEL) );
+      ESL_DASSERT1( (apos == alen) );
+      ax[alen+1] = eslDSQ_SENTINEL;
+      free(msa->ax[idx]);
+      msa->ax[idx] = ax;
+      ax = NULL;
+    }
+  msa->alen = alen;
+
+
+
+  return eslOK;
+  
+ ERROR:
+  if (ax) free(ax);
+  return status;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+static int
+a2m_padding_text(ESL_MSA *msa, char **csflag, int *nins, int ncons)
+{
+  char   *aseq = NULL;		/* new aligned sequence - will be swapped into msa->aseq[] */
+  int     apos, cpos, spos;	/* position counters for alignment 0..alen, consensus cols 0..cpos-1, sequence position 0..slen-1 */
+  int     alen;
+  int     icount;
+  int     idx;
+  int     status;
+
+  alen = ncons;
+  for (cpos = 0; cpos <= ncons; cpos++)
+    alen += nins[cpos];
+
+  ESL_ALLOC(msa->rf, sizeof(char) * (alen+1));
+  for (apos = 0, cpos = 0; cpos <= ncons; cpos++)
+    {
+      for (icount = 0; icount < nins[cpos]; icount++) msa->rf[apos++] = '.';
+      if  (cpos < ncons) msa->rf[apos++] = 'x';
+    }
+  msa->rf[apos] = '\0';
+  
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      ESL_ALLOC(aseq, sizeof(char) * (alen + 1));    
+      apos = spos  = 0; 
+      for (cpos = 0; cpos <= ncons; cpos++)
+	{
+	  icount = 0;   
+	  while (csflag[idx][spos] == FALSE)  { aseq[apos] = msa->aseq[idx][spos]; apos++; spos++; icount++; }
+	  while (icount < nins[cpos]) 	      { aseq[apos] = '.';                  apos++;         icount++; }
+	  if (cpos < ncons) 	              { aseq[apos] = msa->aseq[idx][spos]; apos++; spos++;           }
+	}
+      ESL_DASSERT1( (msa->aseq[idx][spos] == '\0') );
+      ESL_DASSERT1( (apos == alen) );
+      aseq[alen] = '\0';
+      free(msa->aseq[idx]);
+      msa->aseq[idx] = aseq;
+      aseq = NULL;
+    }
+  msa->alen = alen;
+  return eslOK;
+  
+ ERROR:
+  if (aseq) free(aseq);
+  return status;
+}
+/*---------- end, internal functions for the parser -------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef eslMSAFILE_A2M_TESTDRIVE
+
+static void
+utest_write_good1(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs(">MYG_PHYCA\n", ofp);
+  fputs("VLSEGEWQLVLHVWAKVEADVAGHGQDILIRLFKSHPETLEKFDRFKHLKTEAEMKASED\n", ofp);
+  fputs("LKKHGVTVLTALGAILKKKGHHEAELKPLAQSHATKHKIPIKYLEFISEAIIHVLHSRHP\n", ofp);
+  fputs("GDFGADAQGAMNKALELFRKDIAAKYKELGYQG\n", ofp);
+  fputs(">GLB5_PETMA\n", ofp);
+  fputs("pivdtgsvApLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTT\n", ofp);
+  fputs("ADQLKKSADVRWHAERIINAVNDAVASMDDtekMSMKLRDLSGKHAKSFQVDPQYFKVLA\n", ofp);
+  fputs("AVI---------ADTVAAGDAGFEKLMSMICILLRSAY-------\n", ofp);
+  fputs(">HBB_HUMAN\n", ofp);
+  fputs("VhLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNP\n", ofp);
+  fputs("KVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHF\n", ofp);
+  fputs("GKEFTPPVQAAYQKVVAGVANALAHKYH------\n", ofp);
+  fputs(">HBA_HUMAN\n", ofp);
+  fputs("VLSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF------DLSHGSAQ\n", ofp);
+  fputs("VKGHGKKVADALTNAVAHVDDMPNALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHLP\n", ofp);
+  fputs("AEFTPAVHASLDKFLASVSTVLTSKYR------\n", ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 4;
+  *ret_alen      = 165;
+}
+
+static void
+utest_write_good2(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs(">tRNA2\n", ofp);
+  fputs("UCCGAUAUAGUGUAACGGCUAUCACAUCACGCUUUCACCGUGGAGACCGGGGUUCGACUC\n", ofp);
+  fputs("CCCGUAUCGGAG\n", ofp);
+  fputs(">tRNA3\n", ofp);
+  fputs("UCCGUGAUAGUUUAAUGGUCAGAAUGG-GCGCUUGUCGCGUGCcAGAUCGGGGUUCAAUU\n", ofp);
+  fputs("CCCCGUCGCGGAG\n", ofp);
+  fputs(">tRNA5\n", ofp);
+  fputs("GGGCACAUGGCGCAGUUGGUAGCGCGCUUCCCUUGCAAGGAAGaGGUCAUCGGUUCGAUU\n", ofp);
+  fputs("CCGGUUGCGUCCA\n", ofp);
+  fputs(">tRNA1\n", ofp);
+  fputs("GCGGAUUUAGCUCAGUUGGGAGAGCGCCAGACUGAAGAUCUGGaGGUCCUGUGUUCGAUC\n", ofp);
+  fputs("CACAGAAUUCGCA\n", ofp);
+  fputs(">tRNA4\n", ofp);
+  fputs("GCUCGUAUGGCGCAGUGG-UAGCGCAGCAGAUUGCAAAUCUGUuGGUCCUUAGUUCGAUC\n", ofp);
+  fputs("CUGAGUGCGAGCU\n", ofp);
+
+  *ret_alphatype = eslRNA;
+  *ret_nseq      = 5;
+  *ret_alen      = 73;
+}
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("a2m good file test %d failed: digital open",           testnumber);  
+  if (afp->format != eslMSAFILE_A2M)                                                                esl_fatal("a2m good file test %d failed: format autodetection",   testnumber);
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("a2m good file test %d failed: alphabet autodetection", testnumber);
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_a2m_Read(afp, &msa1))   != eslOK)     esl_fatal("a2m good file test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen)  esl_fatal("a2m good file test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                       esl_fatal("a2m good file test %d failed: msa invalid",       testnumber);
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp)) != eslOK) esl_fatal("a2m good file test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_a2m_Write(ofp, msa1))  != eslOK) esl_fatal("a2m good file test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, eslMSAFILE_A2M, NULL, &afp)) != eslOK) esl_fatal("a2m good file test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_a2m_Read(afp, &msa2))                                    != eslOK) esl_fatal("a2m good file test %d failed: msa read, text", testnumber);  
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                               esl_fatal("a2m good file test %d failed: nseq/alen",      testnumber);
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                    esl_fatal("a2m good file test %d failed: msa invalid",       testnumber);
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp)) != eslOK) esl_fatal("a2m good file test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_a2m_Write(ofp, msa2))  != eslOK) esl_fatal("a2m good file test %d failed: msa write, text",  testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, eslMSAFILE_A2M, NULL, &afp)) != eslOK) esl_fatal("a2m good file test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_a2m_Read(afp, &msa2))                                    != eslOK) esl_fatal("a2m good file test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                    esl_fatal("a2m good file test %d failed: msa invalid",           testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("a2m good file test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+
+static void
+write_test_msas(FILE *ofp1, FILE *ofp2)
+{
+  fprintf(ofp1, ">seq1 description line for seq1\n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, ">seq2 description line for seq2\n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQRSTV--\n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "yy\n");
+  fprintf(ofp1, ">seq3\n");
+  fprintf(ofp1, "aaACDEFGHIKLMNPQRSTV\n");
+  fprintf(ofp1, "--ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, ">seq4  \n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQR\n");
+  fprintf(ofp1, "STVWYACDEFGHIKL\n");
+  fprintf(ofp1, "MNPQRSTVWY\n");
+
+  fprintf(ofp2, "# STOCKHOLM 1.0\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "#=GS seq1 DE description line for seq1\n");
+  fprintf(ofp2, "#=GS seq2 DE description line for seq2\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "#=GC RF ..xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx..\n");
+  fprintf(ofp2, "seq1    ..ACDEFGHIKLMNPQRSTVWYACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq2    ..ACDEFGHIKLMNPQRSTV--ACDEFGHIKLMNPQRSTVWYyy\n");
+  fprintf(ofp2, "seq3    aaACDEFGHIKLMNPQRSTV--ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq4    ..ACDEFGHIKLMNPQRSTVWYACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "//\n");
+}
+
+static void
+read_test_msas_digital(char *a2mfile, char *stkfile)
+{
+  char msg[]         = "A2M msa digital read unit test failed";
+  ESL_ALPHABET *abc  = NULL;
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *a2mfp, *stkfp;
+  char          a2mfile2[32] = "esltmpa2m2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  if ( eslx_msafile_Open(&abc, a2mfile, NULL, eslMSAFILE_A2M,       NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( !abc || abc->type != eslAMINO)                                                       esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_a2m_Read      (afp1, &msa1)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                               != eslOK)  esl_fatal(msg);
+
+  if ( esl_msafile_a2m_Read      (afp1, &msa3)                                   != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                                   != eslEOF) esl_fatal(msg);
+
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  /* Now write stk to a2m file, and vice versa; then retest */
+  if ( esl_tmpfile_named(a2mfile2, &a2mfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_a2m_Write      (a2mfp, msa2)                             != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_PFAM)            != eslOK) esl_fatal(msg);
+  fclose(a2mfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(&abc, a2mfile2, NULL, eslMSAFILE_A2M,       NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_a2m_Read      (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(a2mfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+read_test_msas_text(char *a2mfile, char *stkfile)
+{
+  char msg[]         = "A2M msa text-mode read unit test failed";
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *a2mfp, *stkfp;
+  char          a2mfile2[32] = "esltmpa2m2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  /*                     vvvv-- everything's the same as the digital utest except these NULLs  */
+  if ( eslx_msafile_Open(NULL, a2mfile, NULL, eslMSAFILE_A2M,       NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_a2m_Read      (afp1, &msa1)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                               != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_a2m_Read      (afp1, &msa3)                                   != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                                   != eslEOF) esl_fatal(msg);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  if ( esl_tmpfile_named(a2mfile2, &a2mfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_a2m_Write      (a2mfp, msa2)                             != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_PFAM)            != eslOK) esl_fatal(msg);
+  fclose(a2mfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(NULL, a2mfile2, NULL, eslMSAFILE_A2M,       NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_a2m_Read      (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(a2mfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+}
+
+#endif /*eslMSAFILE_A2M_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+#ifdef eslMSAFILE_A2M_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_a2m_utest -DeslMSAFILE_A2M_TESTDRIVE esl_msafile_a2m.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_a2m_utest -DeslMSAFILE_A2M_TESTDRIVE esl_msafile_a2m.c -leasel -lm
+ * run:     ./esl_msafile_a2m_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+#include "esl_msafile_a2m.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for A2M MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]        = "a2m MSA i/o module test driver failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  char            a2mfile[32] = "esltmpa2mXXXXXX";
+  char            stkfile[32] = "esltmpstkXXXXXX";
+  FILE           *a2mfp, *stkfp;
+  int             testnumber;
+  int             ngoodtests = 2;
+  char            tmpfile[32];
+  FILE           *ofp;
+  int             expected_alphatype;
+  int             expected_nseq;
+  int             expected_alen;
+
+  if ( esl_tmpfile_named(a2mfile, &a2mfp) != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile, &stkfp) != eslOK) esl_fatal(msg);
+  write_test_msas(a2mfp, stkfp);
+  fclose(a2mfp);
+  fclose(stkfp);
+
+  read_test_msas_digital(a2mfile, stkfile);
+  read_test_msas_text   (a2mfile, stkfile);
+
+  /* Various "good" files that should be parsed correctly */
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  2:  utest_write_good2 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+  remove(a2mfile);
+  remove(stkfile);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_A2M_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Examples.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_A2M_EXAMPLE
+/* A full-featured example of reading/writing an MSA in A2M format.
+   gcc -g -Wall -o esl_msafile_a2m_example -I. -L. -DeslMSAFILE_A2M_EXAMPLE esl_msafile_a2m.c -leasel -lm
+   ./esl_msafile_a2m_example <msafile>
+ */
+/*::cexcerpt::msafile_a2m_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_a2m.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",            0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "override autodetection; force A2M format",        0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary",     0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",              0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                    0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                    0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing A2M format";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_A2M;  /* override format autodetection */
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if ((status = esl_msafile_a2m_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  if (! esl_opt_GetBoolean(go, "-q"))
+    esl_msafile_a2m_Write(stdout, msa);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_a2m_example::end::*/
+#endif /*eslMSAFILE_A2M_EXAMPLE*/
+
+
+#ifdef eslMSAFILE_A2M_EXAMPLE2
+/* A minimal example. Read A2M MSA, in text mode
+   gcc -g -Wall -o esl_msafile_a2m_example2 -I. -L. -DeslMSAFILE_A2M_EXAMPLE2 esl_msafile_a2m.c -leasel -lm
+   ./esl_msafile_a2m_example <msafile>
+ */
+/*::cexcerpt::msafile_a2m_example2::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_a2m.h"
+
+int 
+main(int argc, char **argv)
+{
+  char         *filename = argv[1];
+  int           fmt      = eslMSAFILE_A2M;
+  ESLX_MSAFILE *afp      = NULL;
+  ESL_MSA      *msa      = NULL;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, fmt, NULL, &afp)) != eslOK) eslx_msafile_OpenFailure(afp, status);
+  if ( (status = esl_msafile_a2m_Read(afp, &msa))                          != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+  printf("%6d seqs, %5d columns\n", msa->nseq, (int) msa->alen);
+
+  esl_msafile_a2m_Write(stdout, msa);
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_a2m_example2::end::*/
+#endif /*eslMSAFILE_A2M_EXAMPLE2*/
+/*--------------------- end of examples -------------------------*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_a2m.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_a2m.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_a2m.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_a2m.h
new file mode 100755
index 0000000..eb6e1bf
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_a2m.h
@@ -0,0 +1,27 @@
+/* i/o of multiple sequence alignment files in dotless UCSC A2M format
+ */
+#ifndef eslMSAFILE_A2M_INCLUDED
+#define eslMSAFILE_A2M_INCLUDED
+
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+extern int esl_msafile_a2m_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_a2m_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_a2m_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_a2m_Write        (FILE *fp,    const ESL_MSA *msa);
+
+#endif /* eslMSAFILE_A2M_INCLUDED */
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_a2m.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_a2m.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_afa.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_afa.c
new file mode 100755
index 0000000..4b80fd5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_afa.c
@@ -0,0 +1,764 @@
+/* i/o of multiple sequence alignment files in "aligned FASTA" format
+ *
+ * Contents:
+ *   1. API for reading/writing AFA format
+ *   2. Unit tests.
+ *   3. Test driver.
+ *   4. Examples.
+ *   5. License and copyright.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_afa.h"
+
+/*****************************************************************
+ *# 1. API for reading/writing AFA format
+ *****************************************************************/
+
+/* Function:  esl_msafile_afa_SetInmap()
+ * Synopsis:  Set input map for aligned FASTA format.
+ *
+ * Purpose:   Set the <afp->inmap> for aligned FASTA format.
+ *
+ *            Text mode accepts any <isgraph()> character. 
+ *            Digital mode enforces the usual Easel alphabets.
+ * 
+ *            We skip spaces in input lines of aligned FASTA format;
+ *            map ' ' to <eslDSQ_IGNORED>.
+ */
+int
+esl_msafile_afa_SetInmap(ESLX_MSAFILE *afp)
+{
+  int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 0; sym < 128; sym++) 
+	afp->inmap[sym] = afp->abc->inmap[sym];
+      afp->inmap[0] = esl_abc_XGetUnknown(afp->abc);
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++) 
+	afp->inmap[sym] = (isgraph(sym) ? sym : eslDSQ_ILLEGAL);
+      afp->inmap[0]   = '?';
+    }
+
+  afp->inmap[' '] = eslDSQ_IGNORED;
+  return eslOK;
+}
+
+
+/* Function:  esl_msafile_afa_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open AFA MSA file.
+ *
+ * Purpose:   Guess the alpbabet of the sequences in open
+ *            AFA format MSA file <afp>.
+ *            
+ *            On a normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original position.
+ *
+ * Args:      afp      - open AFA format MSA file
+ *            ret_type - RETURN: <eslDNA>, <eslRNA>, or <eslAMINO>       
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if alphabet type can't be determined.
+ *            In either case, <afp> is rewound to the position it
+ *            started at.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslESYS> on failures of fread() or other system calls
+ *            
+ * Note:      Essentially identical to <esl_msafile_a2m_GuessAlphabet()>,
+ *            but we provide both versions because design calls for
+ *            modularity/separability of parsers.
+ */
+int
+esl_msafile_afa_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       alphatype     = eslUNKNOWN;
+  esl_pos_t anchor        = -1;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;
+  int       step          = 0;
+  int       nres          = 0;
+  int       x;
+  int64_t   ct[26];
+  char     *p;
+  esl_pos_t n, pos;
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      while (n && isspace(*p)) { p++; n--; }
+      if    (!n || *p == '>') continue;
+
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A'; 
+	  ct[x]++;
+	  nres++;
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+  /* deliberate flowthrough...*/
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+/* Function:  esl_msafile_afa_Read()
+ * Synopsis:  Read in an aligned FASTA format alignment.
+ *
+ * Purpose:   Read an MSA from an open <ESLX_MSAFILE> <afp>,
+ *            parsing for aligned FASTA format. Create
+ *            a new MSA, and return a ptr to that alignment
+ *            in <*ret_msa>. Caller is responsible for free'ing 
+ *            this <ESL_MSA>.
+ *
+ * Args:      afp     - open <ESL_MSAFILE>
+ *            ret_msa - RETURN: newly parsed <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success. <*ret_msa> is set to the newly
+ *            allocated MSA, and <afp> is at EOF.
+ *
+ *            <eslEOF> if no (more) alignment data are found in
+ *            <afp>;, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *            
+ * Throws:    <eslEMEM> - an allocation failed.
+ *            <eslESYS> - a system call such as fread() failed
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ *            On these, <*ret_msa> is returned <NULL>, and the state of
+ *            <afp> is undefined.
+ */
+int
+esl_msafile_afa_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa  = NULL;
+  int       idx  = 0;
+  int64_t   alen = 0;
+  int64_t   this_alen = 0;
+  char     *p, *tok;
+  esl_pos_t n, ntok;
+  int       status;
+
+  ESL_DASSERT1( (afp->format == eslMSAFILE_AFA) );
+
+  afp->errmsg[0] = '\0';	                                  /* Blank the error message. */
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc   &&  (msa = esl_msa_CreateDigital(afp->abc, 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+#endif
+  if (! afp->abc &&  (msa = esl_msa_Create(                 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+  
+  /* skip leading blank lines in file */
+  while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK && esl_memspn(afp->line, afp->n, " \t") == afp->n) ;
+  if      (status != eslOK)  goto ERROR; /* includes normal EOF */
+
+  /* tolerate sloppy space at start of line */
+  while (n && isspace(*p)) { p++; n--; }    
+  if (*p != '>') ESL_XFAIL(eslEFORMAT, afp->errmsg, "expected aligned FASTA name/desc line starting with >");    
+ 
+  do {
+    if (n <= 1 || *p != '>' ) ESL_XFAIL(eslEFORMAT, afp->errmsg, "expected aligned FASTA name/desc line starting with >");    
+    p++; n--;			/* advance past > */
+
+    if ( (status = esl_memtok(&p, &n, " \t", &tok, &ntok)) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "no name found for aligned FASTA record");
+    if (idx >= msa->sqalloc && (status = esl_msa_Expand(msa))    != eslOK) goto ERROR;
+
+    if (     (status = esl_msa_SetSeqName       (msa, idx, tok, ntok)) != eslOK) goto ERROR;
+    if (n && (status = esl_msa_SetSeqDescription(msa, idx, p,   n))    != eslOK) goto ERROR;
+
+    /* The code below will do a realloc on every line. Possible optimization: once you know
+     * alen (from first sequence), allocate subsequent seqs once, use noalloc versions of
+     * esl_strmapcat/esl_abc_dsqcat(). Requires implementing protection against overrun, if
+     * input is bad and a sequence is too long. Could gain ~25% or so that way (quickie
+     * test on PF00005 Full)
+     */
+    this_alen = 0;
+    while ((status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK)
+    {
+      while (n && isspace(*p)) { p++; n--; } /* tolerate and skip leading whitespace on line */
+      if (n  == 0)   continue;	       /* tolerate and skip blank lines */
+      if (*p == '>') break;
+
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->abc)   { status = esl_abc_dsqcat(afp->inmap, &(msa->ax[idx]),   &this_alen, p, n); }
+#endif
+      if (! msa->abc) { status = esl_strmapcat (afp->inmap, &(msa->aseq[idx]), &this_alen, p, n); }
+      if (status == eslEINVAL)   ESL_XFAIL(eslEFORMAT, afp->errmsg, "one or more invalid sequence characters");
+      else if (status != eslOK)  goto ERROR;
+    }
+    if (this_alen == 0)            ESL_XFAIL(eslEFORMAT, afp->errmsg, "sequence %s has alen %" PRId64 , msa->sqname[idx], this_alen);
+    if (alen && alen != this_alen) ESL_XFAIL(eslEFORMAT, afp->errmsg, "sequence %s has alen %" PRId64 "; expected %" PRId64, msa->sqname[idx], this_alen, alen);
+
+    alen = this_alen;
+    idx++;
+  } while (status == eslOK);	/* normally ends on eslEOF. */
+
+  msa->nseq = idx;
+  msa->alen = alen;
+  if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+
+}
+
+/* Function:  esl_msafile_afa_Write()
+ * Synopsis:  Write an aligned FASTA format alignment file to a stream.
+ *
+ * Purpose:   Write alignment <msa> in aligned FASTA format to a stream
+ *            <fp>.
+ * 
+ *            If <msa> is in text mode, residues and gaps are written
+ *            exactly as they appear in the data structure. If <msa>
+ *            is digital, residues are in uppercase and all gaps are
+ *            -.
+ *
+ * Args:      fp  - open stream to write to
+ *            msa - MSA to write
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write failure, such as filled disk.
+ */
+int
+esl_msafile_afa_Write(FILE *fp, const ESL_MSA *msa)
+{
+  int     i;
+  int64_t pos;
+  char    buf[61];
+  int     acpl;       /* actual number of characters per line */
+  
+  for (i = 0; i < msa->nseq; i++)
+    {
+      if (fprintf(fp, ">%s", msa->sqname[i])                                                      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "afa msa file write failed");
+      if (msa->sqacc  != NULL && msa->sqacc[i]  != NULL) { if (fprintf(fp, " %s", msa->sqacc[i])  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "afa msa file write failed"); }
+      if (msa->sqdesc != NULL && msa->sqdesc[i] != NULL) { if (fprintf(fp, " %s", msa->sqdesc[i]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "afa msa file write failed"); }
+      if (fputc('\n', fp)                                                                         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "afa msa file write failed");
+
+      pos = 0;
+      while (pos < msa->alen)
+	{
+	  acpl = (msa->alen - pos > 60)? 60 : msa->alen - pos;
+#ifdef eslAUGMENT_ALPHABET
+	  if (msa->abc)   esl_abc_TextizeN(msa->abc, msa->ax[i] + pos + 1, acpl, buf);
+#endif
+	  if (! msa->abc) strncpy(buf, msa->aseq[i] + pos, acpl);
+
+	  buf[acpl] = '\0';
+	  if (fprintf(fp, "%s\n", buf) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "afa msa file write failed");
+	  pos += 60;
+	}
+    } 
+  return eslOK;
+}
+
+/*****************************************************************
+ * 2. Unit tests.
+ *****************************************************************/
+#ifdef eslMSAFILE_AFA_TESTDRIVE
+/* a standard globin example, but dusted with evil:
+ *  1. \r\n DOS line terminators;
+ *  2. extra blank lines and whitespace
+ *  3. unusual but legal residues
+ */
+static void
+utest_write_good1(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("   \r\n", ofp);
+  fputs(">   MYG_PHYCA   description   \r\n", ofp);
+  fputs("--------V-LSEGEWQLVLHVWAKVEADVAGHGQDILIRLFKSHPETLEKFDRFKHLKT\r\n", ofp);
+  fputs("EAEMKASEDLKKHGVTVLTALGAILKKKGH---HEABJZOUX*SHATKHKIPIKYLEFIS  \r\n", ofp);
+  fputs("EAIIHVLHSRHPGDFGADAQGAMNKALELFRKDIAAKYKELGYQG\r\n", ofp);
+  fputs("   \r\n", ofp);
+  fputs(">GLB5_PETMA\r\n", ofp);
+  fputs("PIVDTGSVAPLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTT\r\n", ofp);
+  fputs("ADQLKKSADVRWHAERIINAVNDAVASMDDTEKMSMKLRDLSGKHAKSFQVDPQYFKVLA\r\n", ofp);
+  fputs("AVI---------ADTVAAGDAGFEKLMSMICILLRSAY-------\r\n", ofp);
+  fputs(">HBB_HUMAN\r\n", ofp);
+  fputs("--------VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLST\r\n", ofp);
+  fputs("PDAVMGNPKVKAHGKKVLGAFSDGLAHLDN---LKGTFATLSELHCDKLHVDPENFRLLG\r\n", ofp);
+  fputs("NVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH------\r\n", ofp);
+  fputs(">HBA_HUMAN\r\n", ofp);
+  fputs("--------V-LSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF-----\r\n", ofp);
+  fputs("-DLSHGSAQVKGHGKKVADALTNAVAHVDD---MPNALSALSDLHAHKLRVDPVNFKLLS\r\n", ofp);
+  fputs("HCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR------\r\n", ofp);
+  fputs("   \r\n", ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 4;
+  *ret_alen      = 165;
+}
+
+/* note: alphabet detection for DNA/RNA doesn't work if unusual codes are used */
+static void
+utest_write_good2(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs(">tRNA2\n", ofp);
+  fputs("UCCGAUAUAGUGUAACGGCUAUCACAUCACGCUUUCACCGUGG-AGACCGGGGUUCGACU\n", ofp);
+  fputs("CCCCGUAUCGGAG\n", ofp);
+  fputs(">tRNA3\n", ofp);
+  fputs("UCCGUGAUAGUUUAAUGGUCAGAAUGG-GCGCUUGUCGCGUGCCAGAUCGGGGUUCAAUU\n", ofp);
+  fputs("CCCCGUCGCGGAG\n", ofp);
+  fputs(">tRNA5\n", ofp);
+  fputs("GGGCACAUGGCGCAGUUGGUAGCGCGCUUCCCUUGCAAGGAAGAGGUCAUCGGUUCGAUU\n", ofp);
+  fputs("CCGGUUGCGUCCA\n", ofp);
+  fputs(">tRNA1\n", ofp);
+  fputs("GCGGAUUUAGCUCAGUUGGGAGAGCGCCAGACUGAAGAUCUGGAGGUCCUGUGUUCGAUC\n", ofp);
+  fputs("CACAGAAUUCGCA\n", ofp);
+  fputs(">tRNA4\n", ofp);
+  fputs("GCUCGUAUGGCGCAGUGG-UAGCGCAGCAGAUUGCAAAUCUGUUGGUCCUUAGUUCGAUC\n", ofp);
+  fputs("CUGAGUGCGAGCU\n", ofp);
+
+  *ret_alphatype = eslRNA;
+  *ret_nseq      = 5;
+  *ret_alen      = 73;
+}
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("afa good file test %d failed: digital open",           testnumber);  
+  if (afp->format != eslMSAFILE_AFA)                                                                esl_fatal("afa good file test %d failed: format autodetection",   testnumber);
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("afa good file test %d failed: alphabet autodetection", testnumber);
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_afa_Read(afp, &msa1))   != eslOK)     esl_fatal("afa good file test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen)  esl_fatal("afa good file test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                       esl_fatal("afa good file test %d failed: msa invalid",       testnumber);
+
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp)) != eslOK) esl_fatal("afa good file test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_afa_Write(ofp, msa1))  != eslOK) esl_fatal("afa good file test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, eslMSAFILE_AFA, NULL, &afp)) != eslOK) esl_fatal("afa good file test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_afa_Read(afp, &msa2))                                    != eslOK) esl_fatal("afa good file test %d failed: msa read, text", testnumber);  
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                               esl_fatal("afa good file test %d failed: nseq/alen",      testnumber);
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                    esl_fatal("afa good file test %d failed: msa invalid",    testnumber);
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp)) != eslOK) esl_fatal("afa good file test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_afa_Write(ofp, msa2))  != eslOK) esl_fatal("afa good file test %d failed: msa write, text",  testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, eslMSAFILE_AFA, NULL, &afp)) != eslOK) esl_fatal("afa good file test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_afa_Read(afp, &msa2))                                    != eslOK) esl_fatal("afa good file test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                    esl_fatal("afa good file test %d failed: msa invalid",           testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("afa good file test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+write_test_msas(FILE *ofp1, FILE *ofp2)
+{
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, ">seq1    description line for seq1\n");
+  fprintf(ofp1, "..acdefghiklmnpqrstvwy\n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, ">seq2 description line for seq2\n");
+  fprintf(ofp1, "..acdefghiklmnpqrstv--\n");
+  fprintf(ofp1, "ACDEFGHIKLMNPQRSTVWYyy\n");
+  fprintf(ofp1, "  >seq3\n");
+  fprintf(ofp1, "aaacdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp1, ">seq4\n");
+  fprintf(ofp1, "..acdefghiklm\n");
+  fprintf(ofp1, "npqrstvwyACDE\n");
+  fprintf(ofp1, "FGHIKLMNPQRSTVWY..\n");
+
+  fprintf(ofp2, "# STOCKHOLM 1.0\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "#=GS seq1 DE description line for seq1\n");
+  fprintf(ofp2, "#=GS seq2 DE description line for seq2\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "seq1    ..acdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq2    ..acdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWYyy\n");
+  fprintf(ofp2, "seq3    aaacdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq4    ..acdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "//\n");
+}
+
+static void
+read_test_msas_digital(char *afafile, char *stkfile)
+{
+  char msg[]         = "aligned FASTA msa digital read unit test failed";
+  ESL_ALPHABET *abc  = NULL;
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *afafp, *stkfp;
+  char          afafile2[32] = "esltmpafa2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  if ( eslx_msafile_Open(&abc, afafile, NULL, eslMSAFILE_AFA,       NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( !abc || abc->type != eslAMINO)                                                       esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_afa_Read      (afp1, &msa1)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                               != eslOK)  esl_fatal(msg);
+
+  if ( esl_msafile_afa_Read      (afp1, &msa3)                             != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                             != eslEOF) esl_fatal(msg);
+
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  /* Now write stk to afa file, and vice versa; then retest */
+  if ( esl_tmpfile_named(afafile2, &afafp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_afa_Write      (afafp, msa2)                             != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)       != eslOK) esl_fatal(msg);
+  fclose(afafp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(&abc, afafile2, NULL, eslMSAFILE_AFA,       NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_afa_Read      (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(afafile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+read_test_msas_text(char *afafile, char *stkfile)
+{
+  char msg[]         = "aligned FASTA msa text-mode read unit test failed";
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *afafp, *stkfp;
+  char          afafile2[32] = "esltmpafa2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  /*                     vvvv-- everything's the same as the digital utest except these NULLs  */
+  if ( eslx_msafile_Open(NULL, afafile, NULL, eslMSAFILE_AFA,       NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_afa_Read      (afp1, &msa1)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                               != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_afa_Read      (afp1, &msa3)                                   != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                                   != eslEOF) esl_fatal(msg);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  if ( esl_tmpfile_named(afafile2, &afafp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_afa_Write      (afafp, msa2)                             != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)       != eslOK) esl_fatal(msg);
+  fclose(afafp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(NULL, afafile2, NULL, eslMSAFILE_AFA,       NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_afa_Read      (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(afafile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+}
+#endif /*eslMSAFILE_AFA_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 3. Test driver.
+ *****************************************************************/
+#ifdef eslMSAFILE_AFA_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_afa_utest -DeslMSAFILE_AFA_TESTDRIVE esl_msafile_afa.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_afa_utest -DeslMSAFILE_AFA_TESTDRIVE esl_msafile_afa.c -leasel -lm
+ * run:     ./esl_msafile_afa_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+#include "esl_msafile_afa.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for AFA MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]        = "aligned FASTA MSA i/o module test driver failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  char            afafile[32] = "esltmpafaXXXXXX";
+  char            stkfile[32] = "esltmpstkXXXXXX";
+  FILE           *afafp, *stkfp;
+  int             testnumber;
+  int             ngoodtests = 2;
+  char            tmpfile[32];
+  FILE           *ofp;
+  int             expected_alphatype;
+  int             expected_nseq;
+  int             expected_alen;
+
+
+  if ( esl_tmpfile_named(afafile, &afafp) != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile, &stkfp) != eslOK) esl_fatal(msg);
+  write_test_msas(afafp, stkfp);
+  fclose(afafp);
+  fclose(stkfp);
+
+  read_test_msas_digital(afafile, stkfile);
+  read_test_msas_text   (afafile, stkfile);
+
+  /* Various "good" files that should be parsed correctly */
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  2:  utest_write_good2 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+  remove(afafile);
+  remove(stkfile);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_AFA_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 4. Examples.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_AFA_EXAMPLE
+/* A full-featured example of reading/writing an MSA in aligned FASTA (AFA) format.
+   gcc -g -Wall -o esl_msafile_afa_example -I. -L. -DeslMSAFILE_afa_EXAMPLE esl_msafile_afa.c -leasel -lm
+   ./esl_msafile_afa_example <msafile>
+ */
+/*::cexcerpt::msafile_afa_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_afa.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",            0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "override autodetection; force AFA format",        0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary",     0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",              0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                    0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                    0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing AFA format";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_AFA;  /* override format autodetection */
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if ((status = esl_msafile_afa_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  if (! esl_opt_GetBoolean(go, "-q"))
+    esl_msafile_afa_Write(stdout, msa);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_afa_example::end::*/
+#endif /*eslMSAFILE_AFA_EXAMPLE*/
+
+#ifdef eslMSAFILE_AFA_EXAMPLE2
+/* A minimal example. Read AFA format MSA, in text mode.
+   gcc -g -Wall -o esl_msafile_afa_example2 -I. -L. -DeslMSAFILE_AFA_EXAMPLE2 esl_msafile_afa.c -leasel -lm
+   ./esl_msafile_afa_example2 <msafile>
+*/
+/*::cexcerpt::msafile_afa_example2::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_afa.h"
+
+int 
+main(int argc, char **argv)
+{
+  char         *filename = argv[1];
+  int           fmt      = eslMSAFILE_AFA;
+  ESLX_MSAFILE *afp      = NULL;
+  ESL_MSA      *msa      = NULL;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, fmt, NULL, &afp)) != eslOK) eslx_msafile_OpenFailure(afp, status);
+  if ( (status = esl_msafile_afa_Read(afp, &msa))                          != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+  printf("%6d seqs, %5d columns\n", msa->nseq, (int) msa->alen);
+
+  esl_msafile_afa_Write(stdout, msa);
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_afa_example2::end::*/
+#endif /*eslMSAFILE_AFA_EXAMPLE2*/
+/*--------------------- end of examples -------------------------*/
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_msafile_afa.c 754 2012-03-14 20:30:47Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_afa.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_afa.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_afa.h
new file mode 100755
index 0000000..cb83aa2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_afa.h
@@ -0,0 +1,27 @@
+/* i/o of multiple sequence alignment files in aligned FASTA format
+ */
+#ifndef eslMSAFILE_AFA_INCLUDED
+#define eslMSAFILE_AFA_INCLUDED
+
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+extern int esl_msafile_afa_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_afa_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_afa_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_afa_Write        (FILE *fp, const ESL_MSA *msa);
+
+#endif /* eslMSAFILE_AFA_INCLUDED */
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_afa.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_afa.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_clustal.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_clustal.c
new file mode 100755
index 0000000..2c39bc5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_clustal.c
@@ -0,0 +1,1053 @@
+/* i/o of multiple sequence alignment files in Clustal-like formats
+ *
+ * Contents:
+ *   1. API for reading/writing Clustal and Clustal-like formats
+ *   2. Internal routines for Clustal formats.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * This module is responsible for i/o of both eslMSAFILE_CLUSTAL and
+ * eslMSAFILE_CLUSTALLIKE alignment formats.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_clustal.h"
+
+static int make_text_consensus_line(const ESL_MSA *msa, char **ret_consline);
+#ifdef eslAUGMENT_ALPHABET
+static int make_digital_consensus_line(const ESL_MSA *msa, char **ret_consline);
+#endif
+
+/*****************************************************************
+ *# 1. API for reading/writing Clustal and Clustal-like formats
+ *****************************************************************/
+
+/* Function:  esl_msafile_clustal_SetInmap()
+ * Synopsis:  Configure input map for CLUSTAL, CLUSTALLIKE formats.
+ *
+ * Purpose:   Set the <afp->inmap> for Clustal-like formats. 
+ *
+ *            Text mode accepts any <isgraph()> character. 
+ *            Digital mode enforces the usual Easel alphabets.
+ */
+int
+esl_msafile_clustal_SetInmap(ESLX_MSAFILE *afp)
+{
+  int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 0; sym < 128; sym++) 
+	afp->inmap[sym] = afp->abc->inmap[sym];
+      afp->inmap[0] = esl_abc_XGetUnknown(afp->abc);
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++) 
+	afp->inmap[sym] = (isgraph(sym) ? sym : eslDSQ_ILLEGAL);
+      afp->inmap[0] = '?';
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_msafile_clustal_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open Clustal MSA input.
+ *
+ * Purpose:   Guess the alpbabet of the sequences in open
+ *            Clustal format MSA file <afp>.
+ *            
+ *            On a normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original position.
+ *
+ * Args:      afp      - open Clustal format MSA file
+ *            ret_type - RETURN: <eslDNA>, <eslRNA>, or <eslAMINO>       
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if alphabet type can't be determined.
+ *            In either case, <afp> is rewound to the position it
+ *            started at.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslESYS> on failures of fread() or other system calls
+ */
+int 
+esl_msafile_clustal_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       alphatype     = eslUNKNOWN;
+  esl_pos_t anchor        = -1;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;
+  int       step          = 0;
+  int       nres          = 0;
+  int       x;
+  int64_t   ct[26];
+  char     *p, *tok;
+  esl_pos_t n,  toklen, pos;
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  /* Ignore the first nonblank line, which says "CLUSTAL W (1.83) multiple sequence alignment" or some such */
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK  && esl_memspn(p, n, " \t") == n) ;
+  if      (status == eslEOF) ESL_XFAIL(eslENOALPHABET, afp->errmsg, "can't determine alphabet: no alignment data found");
+  else if (status != eslOK)  goto ERROR;
+  
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      if ((status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK) continue; /* ignore blank lines */
+      /* p now points to the rest of the sequence line, after a name */
+      
+      /* count characters into ct[] array */
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A';
+	  ct[x]++;
+	  nres++; 	  
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+
+/* Function:  esl_msafile_clustal_Read()
+ * Synopsis:  Read in a CLUSTAL or CLUSTALLIKE alignment.
+ *
+ * Purpose:   Read an MSA from an open <ESLX_MSAFILE> <afp>, parsing
+ *            for Clustal or Clustal-like format, starting from the 
+ *            current point. (<afp->format> is expected to be
+ *            <eslMSAFILE_CLUSTAL> or <eslMSAFILE_CLUSTALLIKE>.) Create a
+ *            new multiple alignment, and return a ptr to that
+ *            alignment in <*ret_msa>.  Caller is responsible for
+ *            free'ing this <ESL_MSA>.
+ *
+ * Args:      afp     - open <ESL_MSAFILE>
+ *            ret_msa - RETURN: newly parsed <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslEOF> if no (more) alignment data are found in
+ *            <afp>, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *
+ * Throws:    <eslEMEM> - an allocation failed.
+ *            <eslESYS> - a system call such as fread() failed
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ */
+int
+esl_msafile_clustal_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa     = NULL;
+  char     *p       = NULL;
+  esl_pos_t n       = 0;
+  char     *tok     = NULL;
+  esl_pos_t ntok    = 0;
+  int       nblocks = 0;
+  int       idx     = 0;
+  int       nseq    = 0;
+  int64_t   alen    = 0;
+  int64_t   cur_alen;
+  esl_pos_t pos;
+  esl_pos_t name_start, name_len;
+  esl_pos_t seq_start, seq_len;
+  esl_pos_t block_seq_start, block_seq_len;
+  int       status;
+
+  ESL_DASSERT1( (afp->format == eslMSAFILE_CLUSTAL || afp->format == eslMSAFILE_CLUSTALLIKE) );
+
+  afp->errmsg[0] = '\0';
+  
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc   &&  (msa = esl_msa_CreateDigital(afp->abc, 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+#endif
+  if (! afp->abc &&  (msa = esl_msa_Create(                 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  /* skip leading blank lines in file */
+  while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK  && esl_memspn(afp->line, afp->n, " \t") == afp->n) ;
+  if      (status != eslOK)  goto ERROR; /* includes normal EOF */
+    
+  /* That first line says something like: "CLUSTAL W (1.83) multiple sequence alignment" */
+  if (esl_memtok(&p, &n, " \t", &tok, &ntok) != eslOK)                             ESL_XFAIL(eslEFORMAT, afp->errmsg, "missing CLUSTAL header");
+  if (afp->format == eslMSAFILE_CLUSTAL && ! esl_memstrpfx(tok, ntok, "CLUSTAL"))  ESL_XFAIL(eslEFORMAT, afp->errmsg, "missing CLUSTAL header"); 
+  if (! esl_memstrcontains(p, n, "multiple sequence alignment"))                   ESL_XFAIL(eslEFORMAT, afp->errmsg, "missing CLUSTAL header");
+
+  /* skip blank lines again */
+  do {
+    status = eslx_msafile_GetLine(afp, &p, &n);
+    if      (status == eslEOF) ESL_XFAIL(eslEFORMAT, afp->errmsg, "no alignment data following header");
+    else if (status != eslOK) goto ERROR;
+  } while (esl_memspn(afp->line, afp->n, " \t") == afp->n); /* idiom for "blank line" */
+
+  /* Read the file a line at a time. */
+  do { 		/* afp->line, afp->n is now the first line of a block... */
+    idx = 0;
+    do {
+      for (pos = 0;     pos < n; pos++) if (! isspace(p[pos])) break;  name_start = pos; 
+      for (pos = pos+1; pos < n; pos++) if (  isspace(p[pos])) break;  name_len   = pos - name_start;
+      for (pos = pos+1; pos < n; pos++) if (! isspace(p[pos])) break;  seq_start  = pos;      
+      if (pos >= n) ESL_XFAIL(eslEFORMAT, afp->errmsg, "invalid alignment line");
+      for (pos = n-1; pos > 0; pos--)   if (! isspace(p[pos])) break;  seq_len    = pos - seq_start + 1;
+
+      if (idx == 0) {
+	block_seq_start = seq_start;
+	block_seq_len   = seq_len;
+      } else {
+	if (seq_start != block_seq_start) ESL_XFAIL(eslEFORMAT, afp->errmsg, "sequence start is misaligned");
+	if (seq_len   != block_seq_len)   ESL_XFAIL(eslEFORMAT, afp->errmsg, "sequence end is misaligned");
+      }
+
+      /* Store the sequence name. */
+      if (nblocks == 0)	{
+	/* make sure we have room for another sequence */
+	if (idx >= msa->sqalloc &&  (status = esl_msa_Expand(msa))           != eslOK) goto ERROR;
+	if ( (status = esl_msa_SetSeqName(msa, idx, p+name_start, name_len)) != eslOK) goto ERROR;
+	nseq++;
+      } else {
+	if (! esl_memstrcmp(p+name_start, name_len, msa->sqname[idx]))
+	  ESL_XFAIL(eslEFORMAT, afp->errmsg, "expected sequence %s on this line, but saw %.*s", msa->sqname[idx], (int) name_len, p+name_start);
+      }
+
+      /* Append the sequence. */
+      cur_alen = alen;
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->abc)    { status = esl_abc_dsqcat(afp->inmap, &(msa->ax[idx]),   &(cur_alen), p+seq_start, seq_len); }
+#endif
+      if (! msa->abc)  { status = esl_strmapcat (afp->inmap, &(msa->aseq[idx]), &(cur_alen), p+seq_start, seq_len); }
+      if      (status == eslEINVAL)    ESL_XFAIL(eslEFORMAT, afp->errmsg, "one or more invalid sequence characters");
+      else if (status != eslOK)        goto ERROR;
+      if (cur_alen - alen != seq_len) ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected number of seq characters");
+
+      /* get next line. if it's a consensus line, we're done with the block */
+      status = eslx_msafile_GetLine(afp, &p, &n);
+      if      (status == eslEOF) ESL_XFAIL(eslEFORMAT, afp->errmsg, "alignment block did not end with consensus line");
+      else if (status != eslOK)  goto ERROR;
+
+      idx++;
+    } while (esl_memspn(afp->line, afp->n, " .:*") < afp->n); /* end loop over a block */
+    
+    if (idx != nseq) ESL_XFAIL(eslEFORMAT, afp->errmsg, "last block didn't contain same # of seqs as earlier blocks");
+
+    /* skip blank lines until we find start of next block, or EOF */
+    do {
+      status = eslx_msafile_GetLine(afp, &p, &n);
+      if      (status == eslEOF) break;
+      else if (status != eslOK)  goto ERROR;
+    } while (esl_memspn(p, n, " \t") == n); 
+    
+    alen += block_seq_len;
+    nblocks++;
+  } while (status == eslOK);	/* normal end has status == EOF after last block. */
+
+  msa->nseq = nseq;
+  msa->alen = alen;
+  if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}  
+
+
+/* Function:  esl_msafile_clustal_Write()
+ * Synopsis:  Write a CLUSTAL format alignment file to a stream.
+ *
+ * Purpose:   Write alignment <msa> to output stream <fp>, in
+ *            format <fmt>. If <fmt> is <eslMSAFILE_CLUSTAL>,
+ *            write strict CLUSTAL 2.1 format. If <fmt>
+ *            is <eslMSAFILE_CLUSTALLIKE>, put "EASEL (VERSION)"
+ *            in the header.
+ *            
+ *            The alignment is written in blocks of 60 aligned
+ *            residues at a time.
+ *            
+ *            Constructing the CLUSTAL consensus line properly
+ *            requires knowing the alphabet. If the <msa> is in text
+ *            mode, we don't know the alphabet, so then we use a
+ *            simplified consensus line, with '*' marking completely
+ *            conserved columns, ' ' on everything else. If the <msa>
+ *            is in digital mode and of type <eslAMINO>, then we also
+ *            use Clustal's "strong" and "weak" residue group
+ *            annotations, ':' and '.'.  Strong groups are STA, NEQK,
+ *            NHQK, NDEQ, QHRK, MILV, MILF, HY, and FYW. Weak groups
+ *            are CSA, ATV, SAG, STNK, STPA, SGND, SNDEQK, NDEQHK,
+ *            NEQHRK, FVLIM, and HFY.
+ *            
+ * Args:      fp  - open output stream, writable
+ *            msa - alignment to write      
+ *            fmt - eslMSAFILE_CLUSTAL or eslMSAFILE_CLUSTALLIKE      
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_msafile_clustal_Write(FILE *fp, const ESL_MSA *msa, int fmt)
+{
+  int       cpl        = 60;
+  int       maxnamelen = 0;
+  int       namelen;
+  char     *consline   = NULL;
+  char     *buf        = NULL;
+  int64_t   apos;
+  int       i;
+  int       status;
+
+  ESL_ALLOC(buf, sizeof(char) * (cpl+1));
+  buf[cpl] = '\0';
+  for (i = 0; i < msa->nseq; i++)
+    {
+      namelen = strlen(msa->sqname[i]);
+      maxnamelen = ESL_MAX(namelen, maxnamelen);
+    }
+
+  /* Make a CLUSTAL-like consensus line */
+#ifdef eslAUGMENT_ALPHABET 
+  //  if (msa->abc &&  (status = make_digital_consensus_line(msa, &consline)) != eslOK) goto ERROR;
+  if (msa->abc &&  (status = make_digital_consensus_line(msa, &consline)) != eslOK) goto ERROR;
+#endif
+  if (! msa->abc && (status = make_text_consensus_line(msa, &consline))   != eslOK) goto ERROR;
+
+  /* The magic header */
+  if      (fmt == eslMSAFILE_CLUSTAL)     { if (fprintf(fp, "CLUSTAL 2.1 multiple sequence alignment\n")               < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "clustal msa write failed");  }
+  else if (fmt == eslMSAFILE_CLUSTALLIKE) { if (fprintf(fp, "EASEL (%s) multiple sequence alignment\n", EASEL_VERSION) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "clustal msa write failed");  }
+
+  /* The alignment */
+  for (apos = 0; apos < msa->alen; apos += cpl)
+    {
+      if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "clustal msa write failed"); 
+      for (i = 0; i < msa->nseq; i++)
+	{
+#ifdef eslAUGMENT_ALPHABET 
+	  if (msa->abc)   esl_abc_TextizeN(msa->abc, msa->ax[i]+apos+1, cpl, buf);
+#endif
+	  if (! msa->abc) strncpy(buf, msa->aseq[i]+apos, cpl);
+	  if (fprintf(fp, "%-*s %s\n", maxnamelen, msa->sqname[i], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "clustal msa write failed"); 
+	}
+      strncpy(buf, consline+apos, cpl);
+      if (fprintf(fp, "%-*s %s\n", maxnamelen, "", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "clustal msa write failed"); 
+    }
+
+  free(buf);
+  free(consline);
+  return eslOK;
+
+ ERROR:
+  if (buf)      free(buf);
+  if (consline) free(consline);
+  return status;
+}
+/*---------------- end, Clustal API -----------------------------*/
+
+
+
+/*****************************************************************
+ * 2. Internal routines for Clustal formats
+ *****************************************************************/
+
+/* Clustal consensus lines. 
+ *    '*' :  100% conserved positions
+ *    ':' :  all residues in column belong to a "strong group" 
+ *    '.' :  all residues in column belong to a "weak group"
+ *    ' ' :  otherwise
+ *    
+ * Gap characters count, and ambiguity codes are interpreted verbatim,
+ * so even a single gap or ambiguity code makes the column a ' '.
+ *
+ * From examining the source code for ClustalW (as it writes its
+ * "self explanatory format", ahem!):
+ *   strong groups = STA, NEQK, NHQK, NDEQ, QHRK, MILV, MILF,
+ *                   HY,  FYW
+ *   weak groups =   CSA, ATV,  SAG,  STNK, STPA, SGND, SNDEQK,
+ *	             NDEQHK, NEQHRK, FVLIM, HFY
+ *    
+ * These groups only apply to protein data, and therefore only to
+ * digital alignments using an <eslAMINO> alphabet.  
+
+ * Calculating the consensus line can be compute-intensive, for large
+ * alignments. A naive implementation (for each column, collect
+ * residue counts, compare to each conservation group) was judged too
+ * slow: 16.2s to write the Pkinase full alignment, compared to 1.5s
+ * to write Stockholm format [SRE:J8/22]. Here we use a slightly less
+ * naive implementation, which collects a bit vector (one bit per
+ * residue) for each column, and traverses the alignment in stride
+ * (sequences, then columns). Writing Clustal format Pkinase now takes
+ * 2.3s, and most of the difference w.r.t. Stockholm is now assignable
+ * to the smaller width (thus greater number of blocks) written for
+ * Clustal (60 cpl vs 200) rather than to consensus construction.
+ * 
+ * An oversophisticated approach could use a finite
+ * automaton to store all groups in one machine, then to use the FA to
+ * process each residue seen in a column; for most columns, we would
+ * quickly reach a rejection state (most columns don't belong to 
+ * a conservation group, especially in large alignments). For a sketch 
+ * of how to construct and use such an automaton, xref SRE:J8/22.
+ * I decided this was probably overkill, and didn't implement it.
+ */
+
+
+/* make_text_consensus_line()
+ * 
+ * Given a text mode <msa>, allocate and create a CLUSTAL-style
+ * consensus line; return it in <*ret_consline>. Caller is responsible
+ * for free'ing this string.
+ * 
+ * In text mode, we don't know the alphabet; in particular, we can't
+ * know if the data are amino acids, so we don't know if it's
+ * appropriate to use the amino acid group codes. So we don't;
+ * in text mode, only '*' and ' ' appear in consensus lines.
+ * 
+ * The consensus line is numbered 0..alen-1, and is NUL-terminated.
+ * 
+ * Returns <eslOK> on success.
+ * No normal failure codes.
+ * Throws <eslEMEM> on allocation error.
+ */
+static int
+make_text_consensus_line(const ESL_MSA *msa, char **ret_consline)
+{
+  char     *consline = NULL;
+  uint32_t *v        = NULL;
+  uint32_t  tmpv, maxv;
+  int       n;
+  int       idx, apos, x;
+  int       status;
+
+  ESL_ALLOC(consline, sizeof(char)     * (msa->alen+1));
+  ESL_ALLOC(v,        sizeof(uint32_t) * (msa->alen));
+  for (apos = 0; apos < msa->alen; apos++)
+    v[apos] = 0;
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    for (apos = 0; apos < msa->alen; apos++)
+      {
+	x = toupper(msa->aseq[idx][apos]) - 'A';
+	if (x >= 0 && x < 26) v[apos] |= (1 <<  x);
+	else                  v[apos] |= (1 << 26);
+      }	
+  maxv = (1 << 26) - 1;
+
+  for (apos = 0; apos < msa->alen; apos++)
+    {
+      for (n = 0, tmpv = v[apos]; tmpv; n++) tmpv &= tmpv-1; /* Kernighan magic: count # of bits set in tmpv */
+      consline[apos] = ((n == 1 && v[apos] < maxv) ? '*' : ' ');
+    }
+  consline[msa->alen] = '\0';
+
+  *ret_consline = consline;
+  free(v);
+  return eslOK;
+
+ ERROR:
+  if (v)        free(v);
+  if (consline) free(consline);
+  *ret_consline = NULL;
+  return status;
+}
+
+
+/* make_digital_consensus_line()
+ * 
+ * Exactly the same as make_text_consensus_line(), except for
+ * digital mode <msa>.
+ */
+#ifdef eslAUGMENT_ALPHABET
+static int
+matches_group_digital(ESL_ALPHABET *abc, uint32_t v, char *group)
+{
+  uint32_t gv  = 0;
+  ESL_DSQ  sym;
+  char    *c;
+
+  for (c = group; *c; c++) {
+    sym = esl_abc_DigitizeSymbol(abc, *c);
+    gv |= (1 << sym);
+  }
+  return ( ((v & gv) == v) ? TRUE : FALSE);
+}
+  
+static int
+make_digital_consensus_line(const ESL_MSA *msa, char **ret_consline)
+{
+  char     *consline = NULL;
+  uint32_t *v        = NULL;
+  uint32_t  tmpv, maxv;
+  int       n;
+  int       idx, apos;
+  int       status;
+
+  /* if this ever becomes a problem, easy enough to make v a uint64_t to get up to Kp<=64 */
+  if (msa->abc->Kp > 32) ESL_EXCEPTION(eslEINVAL, "Clustal format writer cannot handle digital alphabets of Kp>32 residues");
+
+  ESL_ALLOC(v,        sizeof(uint32_t) * (msa->alen+1));
+  ESL_ALLOC(consline, sizeof(char)     * (msa->alen+1));
+  for (apos = 0; apos <= msa->alen; apos++)
+    v[apos] = 0;
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    for (apos = 1; apos <= msa->alen; apos++)
+      v[apos] |= (1 << msa->ax[idx][apos]);
+
+  maxv = (1 << msa->abc->K) - 1; /* maxv: has all canonical residue bits set */
+
+  for (apos = 1; apos <= msa->alen; apos++)
+    {
+      consline[apos-1] = ' ';
+
+      for (n = 0, tmpv = v[apos]; tmpv; n++) tmpv &= tmpv-1; /* Kernighan magic: count # of bits set in tmpv */
+
+      if      (n == 0 || n > 6)  continue;               /* n==0 shouldn't happen; n > 6 means too many different residues seen */
+      else if (v[apos] > maxv)   continue;	         /* gap or ambiguity chars seen; column must be left unannotated */
+      else if (n == 1)           consline[apos-1] = '*'; /* complete conservation of a canonical residue */
+      else if (msa->abc->type == eslAMINO) 
+	{
+	  if      (matches_group_digital(msa->abc, v[apos], "STA"))  consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "NEQK")) consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "NHQK")) consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "NDEQ")) consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "QHRK")) consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "MILV")) consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "MILF")) consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "HY"))   consline[apos-1] = ':';
+	  else if (matches_group_digital(msa->abc, v[apos], "FYW"))  consline[apos-1] = ':';
+
+	  else if (matches_group_digital(msa->abc, v[apos], "CSA"))    consline[apos-1] = '.'; 
+	  else if (matches_group_digital(msa->abc, v[apos], "ATV"))    consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "SAG"))    consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "STNK"))   consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "STPA"))   consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "SGND"))   consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "SNDEQK")) consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "NDEQHK")) consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "NEQHRK")) consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "FVLIM"))  consline[apos-1] = '.';
+	  else if (matches_group_digital(msa->abc, v[apos], "HFY"))    consline[apos-1] = '.';
+	}
+    }
+  consline[apos-1] = '\0';
+
+  *ret_consline = consline;
+  free(v);
+  return eslOK;
+
+ ERROR:
+  if (v)        free(v);
+  if (consline) free(consline);
+  *ret_consline = NULL;
+  return eslOK;
+}
+
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*-------------- end, internal clustal routines -----------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef eslMSAFILE_CLUSTAL_TESTDRIVE
+
+static void
+utest_write_good1(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("MUSCLE (3.7) multiple sequence alignment\n", ofp);
+  fputs("\n", ofp);
+  fputs("\n", ofp);
+  fputs("MYG_PHYCA       --------V-LSEGEWQLVLHVWAKVEADVAGHGQDILIRLFKSHPETLEKFDRFKHLKT\n", ofp);
+  fputs("GLB5_PETMA      PIVDTGSVAPLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTT\n", ofp);
+  fputs("HBB_HUMAN       --------VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLST\n", ofp);
+  fputs("HBA_HUMAN       --------V-LSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF-----\n", ofp);
+  fputs("                        . *:  :.  :   *. *       * : * .::   * :   *  *     \n", ofp);
+  fputs("\n", ofp);
+  fputs("MYG_PHYCA       EAEMKASEDLKKHGVTVLTALGAILKKKGH---HEAELKPLAQSHATKHKIPIKYLEFIS\n", ofp);
+  fputs("GLB5_PETMA      ADQLKKSADVRWHAERIINAVNDAVASMDDTEKMSMKLRDLSGKHAKSFQVDPQYFKVLA\n", ofp);
+  fputs("HBB_HUMAN       PDAVMGNPKVKAHGKKVLGAFSDGLAHLDN---LKGTFATLSELHCDKLHVDPENFRLLG\n", ofp);
+  fputs("HBA_HUMAN       -DLSHGSAQVKGHGKKVADALTNAVAHVDD---MPNALSALSDLHAHKLRVDPVNFKLLS\n", ofp);
+  fputs("                                                                            \n", ofp); /* deliberately made blank */
+  fputs("\n", ofp);
+  fputs("MYG_PHYCA       EAIIHVLHSRHPGDFGADAQGAMNKALELFRKDIAAKYKELGYQG\n", ofp);
+  fputs("GLB5_PETMA      AVI---------ADTVAAGDAGFEKLMSMICILLRSAY-------\n", ofp);
+  fputs("HBB_HUMAN       NVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH------\n", ofp);
+  fputs("HBA_HUMAN       HCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR------\n", ofp);
+  fputs("                  :          :  .   .. :* :  .   :   *       \n", ofp);
+  fputs("\n", ofp);
+
+  *ret_format    = eslMSAFILE_CLUSTALLIKE;
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 4;
+  *ret_alen      = 165;
+}
+
+static void
+utest_write_good2(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("CLUSTAL W (1.81) multiple sequence alignment\n", ofp);
+  fputs("\n", ofp);
+  fputs("tRNA2           UCCGAUAUAGUGUAACGGCUAUCACAUCACGCUUUCACCGUGG-AGACCGGGGUUCGACU\n", ofp);
+  fputs("tRNA3           UCCGUGAUAGUUUAAUGGUCAGAAUGG-GCGCUUGUCGCGUGCCAGAUCGGGGUUCAAUU\n", ofp);
+  fputs("tRNA5           GGGCACAUGGCGCAGUUGGUAGCGCGCUUCCCUUGCAAGGAAGAGGUCAUCGGUUCGAUU\n", ofp);
+  fputs("tRNA1           GCGGAUUUAGCUCAGUUGGGAGAGCGCCAGACUGAAGAUCUGGAGGUCCUGUGUUCGAUC\n", ofp);
+  fputs("tRNA4           GCUCGUAUGGCGCAGUGG-UAGCGCAGCAGAUUGCAAAUCUGUUGGUCCUUAGUUCGAUC\n", ofp);
+  fputs("                       * *   *   *  *           *            *      **** *  \n", ofp);
+  fputs("\n", ofp);
+  fputs("tRNA2           CCCCGUAUCGGAG\n", ofp);
+  fputs("tRNA3           CCCCGUCGCGGAG\n", ofp);
+  fputs("tRNA5           CCGGUUGCGUCCA\n", ofp);
+  fputs("tRNA1           CACAGAAUUCGCA\n", ofp);
+  fputs("tRNA4           CUGAGUGCGAGCU\n", ofp);
+  fputs("                *            \n", ofp);
+
+  *ret_format    = eslMSAFILE_CLUSTAL;
+  *ret_alphatype = eslRNA;
+  *ret_nseq      = 5;
+  *ret_alen      = 73;
+}
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_format, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("clustal good file test %d failed: digital open",           testnumber);  
+  if (afp->format != expected_format)                                                               esl_fatal("clustal good file test %d failed: format autodetection",   testnumber);
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("clustal good file test %d failed: alphabet autodetection", testnumber);
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_clustal_Read(afp, &msa1))   != eslOK) esl_fatal("clustal good file test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen)  esl_fatal("clustal good file test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                       esl_fatal("clustal good file test %d failed: msa1 invalid",      testnumber);
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp))                     != eslOK) esl_fatal("clustal good file test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_clustal_Write(ofp, msa1, expected_format)) != eslOK) esl_fatal("clustal good file test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, expected_format, NULL, &afp)) != eslOK) esl_fatal("clustal good file test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_clustal_Read(afp, &msa2))                                 != eslOK) esl_fatal("clustal good file test %d failed: msa read, text", testnumber);  
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                                esl_fatal("clustal good file test %d failed: nseq/alen",      testnumber);
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                     esl_fatal("clustal good file test %d failed: msa2 invalid",   testnumber);
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp))                     != eslOK) esl_fatal("clustal good file test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_clustal_Write(ofp, msa2, expected_format)) != eslOK) esl_fatal("clustal good file test %d failed: msa write, text",  testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, expected_format, NULL, &afp)) != eslOK) esl_fatal("clustal good file test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_clustal_Read(afp, &msa2))                                 != eslOK) esl_fatal("clustal good file test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                     esl_fatal("clustal good file test %d failed: msa2 invalid",          testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("clustal good file test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+write_test_msas(FILE *ofp1, FILE *ofp2)
+{
+  fprintf(ofp1, "EASEL (X.x) multiple sequence alignment\n");
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, "seq1 ..acdefghiklmnpqrstvwy\n");
+  fprintf(ofp1, "seq2 ..acdefghiklmnpqrstv--\n");
+  fprintf(ofp1, "seq3 aaacdefghiklmnpqrstv--\n");
+  fprintf(ofp1, "seq4 ..acdefghiklmnpqrstvwy\n");
+  fprintf(ofp1, "       ******************  \n");
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, "seq1 ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "seq2 ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "seq3 ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "seq4 ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "     ********************\n");
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, "seq1 ..\n");
+  fprintf(ofp1, "seq2 YY\n");
+  fprintf(ofp1, "seq3 ..\n");
+  fprintf(ofp1, "seq4 ..\n");
+  fprintf(ofp1, "\n");
+
+  fprintf(ofp2, "# STOCKHOLM 1.0\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "seq1    ..acdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq2    ..acdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWYYY\n");
+  fprintf(ofp2, "seq3    aaacdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq4    ..acdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "//\n");
+}
+
+static void
+read_test_msas_digital(char *alnfile, char *stkfile)
+{
+  char msg[]         = "CLUSTAL msa digital read unit test failed";
+  ESL_ALPHABET *abc  = NULL;
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *alnfp, *stkfp;
+  char          alnfile2[32] = "esltmpaln2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  if ( eslx_msafile_Open(&abc, alnfile, NULL, eslMSAFILE_CLUSTALLIKE, NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( !abc || abc->type != eslAMINO)                                                         esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile, NULL, eslMSAFILE_STOCKHOLM,   NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_clustal_Read  (afp1, &msa1)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                                 != eslOK)  esl_fatal(msg);
+  
+  if ( esl_msafile_clustal_Read  (afp1, &msa3)                               != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                               != eslEOF) esl_fatal(msg);
+
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  /* Now write stk to clustal file, and vice versa; then retest */
+  if ( esl_tmpfile_named(alnfile2, &alnfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_clustal_Write  (alnfp, msa2, eslMSAFILE_CLUSTAL)         != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)       != eslOK) esl_fatal(msg);
+  fclose(alnfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(&abc, alnfile2, NULL, eslMSAFILE_CLUSTAL,   NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_clustal_Read  (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(alnfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+read_test_msas_text(char *alnfile, char *stkfile)
+{
+  char msg[]         = "CLUSTAL msa text-mode read unit test failed";
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *alnfp, *stkfp;
+  char          alnfile2[32] = "esltmpaln2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  /*                     vvvv-- everything's the same as the digital utest except these NULLs  */
+  if ( eslx_msafile_Open(NULL, alnfile, NULL, eslMSAFILE_CLUSTALLIKE, NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile, NULL, eslMSAFILE_STOCKHOLM,   NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_clustal_Read  (afp1, &msa1)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                                 != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_clustal_Read  (afp1, &msa3)                                     != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                                     != eslEOF) esl_fatal(msg);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  if ( esl_tmpfile_named(alnfile2, &alnfp)                                   != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                   != eslOK) esl_fatal(msg);
+  if ( esl_msafile_clustal_Write  (alnfp, msa2, eslMSAFILE_CLUSTAL)          != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)        != eslOK) esl_fatal(msg);
+  fclose(alnfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(NULL, alnfile2, NULL, eslMSAFILE_CLUSTAL,   NULL, &afp1)  != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2)  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_clustal_Read  (afp1, &msa3)                                     != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                     != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                 != eslOK) esl_fatal(msg);
+
+  remove(alnfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+}
+#endif /*eslMSAFILE_CLUSTAL_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+#ifdef eslMSAFILE_CLUSTAL_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_clustal_utest -DeslMSAFILE_CLUSTAL_TESTDRIVE esl_msafile_clustal.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_clustal_utest -DeslMSAFILE_CLUSTAL_TESTDRIVE esl_msafile_clustal.c -leasel -lm
+ * run:     ./esl_msafile_clustal_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+#include "esl_msafile_clustal.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for CLUSTAL MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]        = "CLUSTAL MSA i/o module test driver failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  char            alnfile[32] = "esltmpalnXXXXXX";
+  char            stkfile[32] = "esltmpstkXXXXXX";
+  FILE           *alnfp, *stkfp;
+  int             testnumber;
+  int             ngoodtests = 2;
+  char            tmpfile[32];
+  FILE           *ofp;
+  int             expected_format;
+  int             expected_alphatype;
+  int             expected_nseq;
+  int             expected_alen;
+
+  if ( esl_tmpfile_named(alnfile, &alnfp) != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile, &stkfp) != eslOK) esl_fatal(msg);
+  write_test_msas(alnfp, stkfp);
+  fclose(alnfp);
+  fclose(stkfp);
+
+  read_test_msas_digital(alnfile, stkfile);
+  read_test_msas_text   (alnfile, stkfile);
+
+  /* Various "good" files that should be parsed correctly */
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  2:  utest_write_good2 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_format, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+  remove(alnfile);
+  remove(stkfile);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_CLUSTAL_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Examples.
+ *****************************************************************/
+
+
+#ifdef eslMSAFILE_CLUSTAL_EXAMPLE
+/* A full-featured example of reading/writing an MSA in Clustal format(s).
+   gcc -g -Wall -o esl_msafile_clustal_example -I. -L. -DeslMSAFILE_CLUSTAL_EXAMPLE esl_msafile_clustal.c -leasel -lm
+   ./esl_msafile_clustal_example <msafile>
+ */
+/*::cexcerpt::msafile_clustal_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_clustal.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",        0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "no autodetection; use CLUSTAL format",        0 },
+  { "-2",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "no autodetection; use CLUSTALLIKE format",    0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary", 0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",          0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",            0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing Clustal formats";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_CLUSTAL;
+  else if (esl_opt_GetBoolean(go, "-2"))      infmt = eslMSAFILE_CLUSTALLIKE;
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if ( (status = esl_msafile_clustal_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  printf("format variant: %s\n", eslx_msafile_DecodeFormat(afp->format));
+  printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  if (! esl_opt_GetBoolean(go, "-q"))
+    esl_msafile_clustal_Write(stdout, msa, eslMSAFILE_CLUSTAL);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_clustal_example::end::*/
+#endif /*eslMSAFILE_CLUSTAL_EXAMPLE*/
+
+#ifdef eslMSAFILE_CLUSTAL_EXAMPLE2
+/* A minimal example. Read Clustal MSA, in text mode.
+   gcc -g -Wall -o esl_msafile_clustal_example2 -I. -L. -DeslMSAFILE_CLUSTAL_EXAMPLE2 esl_msafile_clustal.c -leasel -lm
+   ./esl_msafile_clustal_example2 <msafile>
+ */
+
+/*::cexcerpt::msafile_clustal_example2::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_clustal.h"
+
+int 
+main(int argc, char **argv)
+{
+  char        *filename = argv[1];
+  int          fmt      = eslMSAFILE_CLUSTAL; /* or eslMSAFILE_CLUSTALLIKE */
+  ESLX_MSAFILE *afp     = NULL;
+  ESL_MSA      *msa     = NULL;
+  int          status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, fmt, NULL, &afp)) != eslOK)  eslx_msafile_OpenFailure(afp, status);
+  if ( (status = esl_msafile_clustal_Read(afp, &msa))                      != eslOK)  eslx_msafile_ReadFailure(afp, status);
+
+  printf("%6d seqs, %5d columns\n", msa->nseq, (int) msa->alen);
+
+  esl_msafile_clustal_Write(stdout, msa, eslMSAFILE_CLUSTAL);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_clustal_example2::end::*/
+#endif /*eslMSAFILE_CLUSTAL_EXAMPLE2*/
+/*--------------------- end of example --------------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_msafile_clustal.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_clustal.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_clustal.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_clustal.h
new file mode 100755
index 0000000..5ad3343
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_clustal.h
@@ -0,0 +1,27 @@
+/* i/o of multiple sequence alignment files in Clustal-like formats
+ */
+#ifndef eslMSAFILE_CLUSTAL_INCLUDED
+#define eslMSAFILE_CLUSTAL_INCLUDED
+
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+extern int esl_msafile_clustal_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_clustal_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_clustal_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_clustal_Write        (FILE *fp,    const ESL_MSA *msa, int fmt);
+
+#endif /* eslMSAFILE_CLUSTAL_INCLUDED */
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_clustal.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_clustal.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_phylip.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_phylip.c
new file mode 100755
index 0000000..608aba5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_phylip.c
@@ -0,0 +1,1787 @@
+/* I/O of multiple sequence alignment files in PHYLIP format(s)
+ * 
+ * Contents:
+ *   1. API for reading/writing PHYLIP format alignment files
+ *   2. I/O of the interleaved variant of the format
+ *   3. I/O of the sequential variant of the format
+ *   4. Autodetection of format and its variants
+ *   5. Rectifying valid input/output symbols in names, seqs
+ *   6. Unit tests
+ *   7. Test driver
+ *   8. Example
+ *   9. Copyright and license information.
+ *
+ * See: http://evolution.genetics.washington.edu/phylip/doc/sequence.html
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_phylip.h"
+
+#define eslMSAFILE_PHYLIP_LEGALSYMS  "-ABCDEFGHIJKLMNOPQRSTUVWZYX*?."
+
+static int phylip_interleaved_Read(ESLX_MSAFILE *afp, ESL_MSA *msa, int nseq, int32_t alen_stated);
+static int phylip_interleaved_Write(FILE *fp, const ESL_MSA *msa, ESLX_MSAFILE_FMTDATA *opt_fmtd);
+
+static int phylip_sequential_Read(ESLX_MSAFILE *afp, ESL_MSA *msa, int nseq, int32_t alen_stated);
+static int phylip_sequential_Write(FILE *fp, const ESL_MSA *msa, ESLX_MSAFILE_FMTDATA *opt_fmtd);
+
+static int phylip_check_interleaved       (ESL_BUFFER *bf, int *ret_namewidth);
+static int phylip_check_sequential_known  (ESL_BUFFER *bf, int namewidth);
+static int phylip_check_sequential_unknown(ESL_BUFFER *bf, int *ret_namewidth);
+static int phylip_parse_header(ESL_BUFFER *bf, int32_t *ret_nseq, int32_t *ret_alen, char **ret_p, esl_pos_t *ret_n);
+static int phylip_collate_colcodes(char *p, esl_pos_t n, char *colcodes, int ncols);
+static int phylip_deduce_namewidth(char *colcodes0, int ncols0, int alen, int nres2, int *ret_namewidth);
+
+static int phylip_rectify_input_name(char *namebuf, char *p, int n);
+static int phylip_rectify_output_seq_digital(char *buf);
+static int phylip_rectify_output_seq_text(char *buf);
+
+/*****************************************************************
+ * 1. API for reading/writing PHYLIP format alignment files
+ *****************************************************************/
+
+/* Function:  esl_msafile_phylip_SetInmap()
+ * Synopsis:  Configure input map for PHYLIP formats.
+ *
+ * Purpose:   Set the <afp->inmap> for PHYLIP formats.
+ * 
+ *            Phylip documentation states that DNA programs accept
+ *            'ABCDGHKMNORSTUVWXY?-', that 'a period was previously
+ *            allowed' and that O means a deletion. Protein programs
+ *            accept 'ABCDEFGHIJKLMNOPQRSTUVWXYZ*?-', and while JOU
+ *            are accepted, they are unused. 
+ *
+ *            So: in text mode, we accept any alphabetic character
+ *            plus '-*?.', verbatim. '~_', which Easel would normally
+ *            accept, are illegal. Whitespace and numbers are ignored.
+ *            
+ *            In digital mode, we modify the digital alphabet by
+ *            demapping '~_' and making them illegal; '?' is mapped to
+ *            missing data; whitespace and numbers are ignored;
+ *            and ONLY in <eslDNA> or <eslRNA> alphabets, 'O' is
+ *            mapped to a gap.
+ *            
+ *            The inconsistent mapping of 'O' poses potential
+ *            problems. In text mode (where we don't know the
+ *            alphabet, and thus don't know what to do with O), we
+ *            input the O verbatim. In digital mode, in a DNA or RNA
+ *            alphabet, we map O to a gap; in other digital alphabets,
+ *            we use the default digital alphabet mapping of O.
+ *            
+ * Xref:      http://evolution.genetics.washington.edu/phylip/doc/sequence.html
+ */
+int 
+esl_msafile_phylip_SetInmap(ESLX_MSAFILE *afp)
+{
+  int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 1;   sym < 128; sym++) afp->inmap[sym] = afp->abc->inmap[sym];
+      for (sym = '0'; sym < '9'; sym++) afp->inmap[sym] = eslDSQ_IGNORED;
+      afp->inmap['?']  = esl_abc_XGetMissing(afp->abc);
+      afp->inmap['~']  = eslDSQ_ILLEGAL;
+      afp->inmap['_']  = eslDSQ_ILLEGAL;
+      afp->inmap[' ']  = eslDSQ_IGNORED;
+      afp->inmap['\t'] = eslDSQ_IGNORED;
+      afp->inmap[0]    = esl_abc_XGetUnknown(afp->abc);
+
+      if (afp->abc->type == eslDNA || afp->abc->type == eslRNA) 
+	afp->inmap['O'] = esl_abc_XGetGap(afp->abc);
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++)    afp->inmap[sym] = eslDSQ_ILLEGAL;
+      for (sym = 'a'; sym <= 'z'; sym++) afp->inmap[sym] = sym;
+      for (sym = 'A'; sym <= 'Z'; sym++) afp->inmap[sym] = sym;
+      for (sym = '0'; sym <= '9'; sym++) afp->inmap[sym] = eslDSQ_IGNORED;
+      afp->inmap['-']  = '-';
+      afp->inmap['*']  = '*';
+      afp->inmap['?']  = '?';
+      afp->inmap['.']  = '.';
+      afp->inmap[' ']  = eslDSQ_IGNORED;
+      afp->inmap['\t'] = eslDSQ_IGNORED;
+      afp->inmap[0]    = '?';
+    } 
+  return eslOK;
+}
+  
+  
+/* Function:  esl_msafile_phylip_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open PHYLIP MSA input.
+ *
+ * Purpose:   Guess the alphabet of the sequences in open 
+ *            PHYLIP format MSA file <afp>.
+ *            
+ *            On normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original point.
+ *
+ * Args:      afp      - open PHYLIP format MSA file
+ *           *ret_type - RETURN: <eslDNA>, <eslRNA>, <eslAMINO>; or <eslUNKNOWN>.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if autodetection fails.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslESYS> on failures of fread() or other system calls
+ */
+int
+esl_msafile_phylip_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       namewidth     = (afp->fmtd.namewidth ? afp->fmtd.namewidth : 10); /* default: strict PHYLIP, namewidth 10 */
+  int       alphatype     = eslUNKNOWN;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;		          /* ...there's 3 threshold[]'s we check */
+  int       step          = 0;		          /* ...starting on threshold[0] */
+  int64_t   nres          = 0;
+  char     *p;
+  esl_pos_t n, pos;
+  int       x;
+  esl_pos_t anchor;
+  int64_t   ct[26];
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  /* Find the first nonblank line, which says " <nseq> <alen>" and may also have options. we ignore this header */
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK  && esl_memspn(p, n, " \t") == n) ;
+  if      (status == eslEOF) ESL_XFAIL(eslENOALPHABET, afp->errmsg, "can't determine alphabet: no alignment data found");
+  else if (status != eslOK)  goto ERROR;
+
+  /* Read line by line, just looking for residues, not worrying about nseq/alen or sequential/interleaved 
+   * Always skip the name field, even in continuation lines/blocks 
+   * This may miss some residues, but it means we work on both sequential and interleaved formats 
+   */
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      if (esl_memspn(p, n, " \t") == n) continue;
+      if (n < namewidth)                continue;
+
+      p += namewidth;
+      n -= namewidth;
+      
+      /* count characters into ct[] array */
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A';
+	  ct[x]++;
+	  nres++; 
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+   if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+/* Function:  esl_msafile_phylip_Read()
+ * Synopsis:  Read in a PHYLIP format alignment.
+ *
+ * Purpose:   Read an MSA from an open <ESLX_MSAFILE> <afp>, parsing for
+ *            Phylip format, starting from the current point. The
+ *            format may be either the interleaved or sequential
+ *            variant, according to the format set in <afp->format>:
+ *            <eslMSAFILE_PHYLIP> means interleaved, and
+ *            <eslMSAFILE_PHYLIPS> means sequential. Create a new
+ *            multiple alignment, and return a ptr to that alignment
+ *            in <*ret_msa>.  Caller is responsible for free'ing this
+ *            <ESL_MSA>.
+ *
+ * Args:      afp       - open <ESL_MSAFILE>
+ *            ret_msa   - RETURN: newly parsed <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslEOF> if no (more) alignment data were found in
+ *            <afp>, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *
+ * Throws:    <eslEMEM> - an allocation failed.
+ *            <eslESYS> - a system call such as fread() failed
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ */
+int
+esl_msafile_phylip_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa       = NULL;
+  int32_t   alen_stated;	/* int32_t because we're using strtoi32() to parse it from the file */
+  int       nseq;
+  char     *p, *tok;
+  esl_pos_t n, toklen;
+  int       status;
+  
+  ESL_DASSERT1( (afp->format == eslMSAFILE_PHYLIP || afp->format == eslMSAFILE_PHYLIPS) );
+
+  afp->errmsg[0] = '\0';
+
+  /* skip leading blank lines (though there shouldn't be any) */
+  while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK  && esl_memspn(p, n, " \t") == n) ;
+  if      (status != eslOK)  goto ERROR; /* includes normal EOF */
+
+  /* the first line: <nseq> <alen> */
+  esl_memtok(&p, &n, " \t", &tok, &toklen);
+  if (esl_mem_strtoi32(tok, toklen, 0, NULL, &nseq)        != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "first PHYLIP line should be <nseq> <alen>: first field isn't an integer");
+  if (esl_memtok(&p, &n, " \t", &tok, &toklen)             != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "first PHYLIP line should be <nseq> <alen>: only one field found");
+  if (esl_mem_strtoi32(tok, toklen, 0, NULL, &alen_stated) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "first PHYLIP line should be <nseq> <alen>: second field isn't an integer");
+
+  /* believe <nseq> and allocate accordingly */
+  /* don't believe <alen_stated>; use it for validation, after we've parsed everything. */
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc   &&  (msa = esl_msa_CreateDigital(afp->abc, nseq, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+#endif
+  if (! afp->abc &&  (msa = esl_msa_Create(                 nseq, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  /* load next line, skipping any blank ones (though there shouldn't be any) */
+  do {
+    status = eslx_msafile_GetLine(afp, &p, &n);
+    if      (status == eslEOF) ESL_XFAIL(eslEFORMAT, afp->errmsg, "no alignment data following PHYLIP header");
+    else if (status != eslOK) goto ERROR;
+  } while (esl_memspn(p, n, " \t") == n); /* idiom for "blank line" */
+
+  /* hand off to interleaved vs. sequential parser for the rest */
+  if      (afp->format == eslMSAFILE_PHYLIP)  status = phylip_interleaved_Read(afp, msa, nseq, alen_stated);
+  else if (afp->format == eslMSAFILE_PHYLIPS) status = phylip_sequential_Read (afp, msa, nseq, alen_stated);
+  if (status != eslOK) goto ERROR;
+
+  if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+/* Function:  esl_msafile_phylip_Write()
+ * Synopsis:  Write an MSA to a stream in PHYLIP format.
+ *
+ * Purpose:   Write alignment <msa> in PHYLIP format to stream <fp>.
+ *            If <format> is <eslMSAFILE_PHYLIP>, write interleaved format;
+ *            if <format> is <eslMSAFILE_PHYLIPS>, write sequential format.
+ *            
+ *            Optionally, caller may pass additional formatting
+ *            information by passing a ptr to a valid <opt_fmtd>
+ *            structure. <opt_fmtd->namewidth> sets the width of the
+ *            name field. For strict PHYLIP format, this must be 10.
+ *            <opt_fmtd->rpl> sets the number of residues per line.
+ *            The default is 60. For either value, if it is unset or
+ *            if <opt_fmtd> is <NULL>, the default is used.
+ *            
+ * Args:      fp        - open output stream
+ *            msa       - alignment to write
+ *            format    - <eslMSAFILE_PHYLIP> for interleaved; <eslMSAFILE_PHYLIPS> for sequential.
+ *            fmtd      - optional: <NULL>, or additional format information
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <format> isn't <eslMSAFILE_PHYLIP> or <eslMSAFILE_PHYLIPS>.
+ *            <eslEMEM> on allocation failure.
+ *            <eslEWRITE> on any system write error, such as a filled disk.
+ */
+int
+esl_msafile_phylip_Write(FILE *fp, const ESL_MSA *msa, int format, ESLX_MSAFILE_FMTDATA *opt_fmtd)
+{
+  if      (format == eslMSAFILE_PHYLIP)  return phylip_interleaved_Write(fp, msa, opt_fmtd);
+  else if (format == eslMSAFILE_PHYLIPS) return phylip_sequential_Write (fp, msa, opt_fmtd);
+  else ESL_EXCEPTION(eslEINVAL, "format %s is not a PHYLIP format", eslx_msafile_DecodeFormat(format));
+}
+
+/* Function:  esl_msafile_phylip_CheckFileFormat()
+ * Synopsis:  Check whether an input seems to be in PHYLIP format.
+ *
+ * Purpose:   Check whether input buffer <bf> appears to be
+ *            in a PHYLIP format, starting from the current point.
+ *            Return <eslOK> if it is, and <eslFAIL> if it isn't.
+ *            
+ *            There are two main variants of the format, interleaved
+ *            and sequential. Upon successful return, <*ret_format> is
+ *            set to <eslMSAFILE_PHYLIP> for interleaved, or
+ *            <eslMSAFILE_PHYLIPS> for sequential.
+ *            
+ *            Strict PHYLIP format has a name/identifier field width
+ *            of exactly 10 characters, but variants of the format are
+ *            in common use with different name widths. A guess for
+ *            the name width is returned in <*ret_namewidth>. 
+ *            
+ *            If the input doesn't appear to be in PHYLIP format,
+ *            return <eslFAIL>, with <*ret_format> as
+ *            <eslMSAFILE_UNKNOWN> and <*ret_namewidth> as 0.
+ *            
+ *            The PHYLIP format definition is ambiguous.  It is
+ *            possible to construct pathological inputs that could be
+ *            validly parsed to yield different data. This includes
+ *            inputs that can be read as either interleaved or
+ *            sequential files, or inputs which have different
+ *            apparently valid name widths. In ambiguous cases, the
+ *            guess defaults to interleaved format, and to a namewidth
+ *            of 10, on the theory that these are more common.
+ *
+ * Args:      bf             - input buffer 
+ *            *ret_format    - RETURN: format variant, <eslMSAFILE_PHYLIP>, <_PHYLIPS>, <_UNKNOWN>
+ *            *ret_namewidth - RETURN: width of name field, in characters
+ * 
+ * Returns:   <eslOK> if input is in PHYLIP format.
+ *            <eslFAIL> if not.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_msafile_phylip_CheckFileFormat(ESL_BUFFER *bf, int *ret_format, int *ret_namewidth)
+{
+  int status;
+
+  if      ( (status = phylip_check_interleaved       (bf, ret_namewidth)) == eslOK) { *ret_format = eslMSAFILE_PHYLIP;                       return eslOK; }
+  else if ( (status = phylip_check_sequential_known  (bf, 10))            == eslOK) { *ret_format = eslMSAFILE_PHYLIPS; *ret_namewidth = 10; return eslOK; }
+  else if ( (status = phylip_check_sequential_unknown(bf, ret_namewidth)) == eslOK) { *ret_format = eslMSAFILE_PHYLIPS;                      return eslOK; }
+
+  *ret_format = eslMSAFILE_UNKNOWN;
+  return eslFAIL;
+}
+/*-------------- end, API for PHYLIP format i/o -----------------*/
+
+
+/*****************************************************************
+ * 2. i/o of the interleaved variant of the format
+ *****************************************************************/
+
+/* Read the interleaved variant.
+ * header told us to expect <nseq>, <alen_stated>.
+ * <msa> is already allocated <nseq>, <-1>.
+ * In <afp>, we've loaded the first line of the alignment data.
+ */
+static int
+phylip_interleaved_Read(ESLX_MSAFILE *afp, ESL_MSA *msa, int nseq, int32_t alen_stated)
+{
+  int       namewidth  = (afp->fmtd.namewidth ? afp->fmtd.namewidth : 10); /* default: strict PHYLIP, namewidth 10 */
+  char     *namebuf    = NULL;
+  int       nblocks    = 0;
+  int64_t   alen       = 0;		/* alignment length observed so far */
+  char     *p          = afp->line;
+  esl_pos_t n          = afp->n;
+  int64_t   block_alen;		/* # of residues being added by current block */
+  int64_t   cur_alen;
+  int       idx;
+  int       status;
+  
+  ESL_ALLOC(namebuf, sizeof(char) * (namewidth+1));
+
+  /* p, n is now the first line of a block */
+  /* read the alignment data */
+  do {			
+    idx = 0;
+    do {  /* First block? store the sequence names */
+      if (nblocks == 0)
+	{
+	  if (n < namewidth)                                                    ESL_XFAIL(eslEFORMAT, afp->errmsg, "PHYLIP line too short to find sequence name");
+	  if (phylip_rectify_input_name(namebuf, p, namewidth)        != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "invalid character(s) in sequence name");
+	  if ( (status = esl_msa_SetSeqName(msa, idx, namebuf, -1))   != eslOK) goto ERROR;
+	  p += namewidth;
+	  n -= namewidth;
+	}
+      
+      /* Append the sequence. */
+      cur_alen = alen;
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->abc)    { status = esl_abc_dsqcat(afp->inmap, &(msa->ax[idx]),   &(cur_alen), p, n); }
+#endif
+      if (! msa->abc)  { status = esl_strmapcat (afp->inmap, &(msa->aseq[idx]), &(cur_alen), p, n); }
+      if      (status == eslEINVAL)    ESL_XFAIL(eslEFORMAT, afp->errmsg, "one or more invalid sequence characters");
+      else if (status != eslOK)        goto ERROR;
+
+      /* validate # of residues added */
+      if      (idx == 0)                      block_alen = cur_alen - alen;
+      else if (cur_alen - alen != block_alen) ESL_XFAIL(eslEFORMAT, afp->errmsg, "number of residues on line differs from previous seqs in alignment block");
+
+      /* get next line. */
+      idx++;
+      status = eslx_msafile_GetLine(afp, &p, &n);
+    } while (status == eslOK && idx < nseq && esl_memspn(p, n, " \t") < n); /* stop block on: read error, EOF; idx == nseq; or blank line */
+    
+    if (idx != nseq) ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected number of sequences in block (saw %d, expected %d)", idx, nseq);
+    nblocks += 1;
+    alen    += block_alen;
+
+    /* tolerate blank lines only at the end of a block */
+    while (status == eslOK && esl_memspn(p, n, " \t") == n)
+      status = eslx_msafile_GetLine(afp, &p, &n); /* [eslEMEM,eslESYS] */
+    /* now status can be: read error, EOF, or OK.  */
+  } while (status == eslOK && alen < alen_stated);
+
+  /* End of all blocks. We swallowed blank lines following last block,
+   * so we should be EOF; unless we're in a seqboot file, in which
+   * case we just read the first line of the next MSA.
+   */
+  if      (status == eslOK)     eslx_msafile_PutLine(afp); /* put <nseq> <alen> line back in the stream, so we will read it properly w/ next msa read */
+  else if (status != eslEOF)    goto ERROR;
+  else if (alen != alen_stated) ESL_XFAIL(eslEFORMAT, afp->errmsg, "alignment length disagrees with header: header said %d, parsed %" PRId64, alen_stated, alen);
+
+  msa->nseq = nseq;
+  msa->alen = alen;
+  free(namebuf);
+  return eslOK;
+
+ ERROR:
+  msa->nseq = nseq;		/* we're allocated and initialized for <nseq>: this makes sure we free everything we need to in <msa> */
+  if (namebuf) free(namebuf);
+  return status;
+}
+
+/* Write an interleaved PHYLIP file.
+ * Returns <eslOK> on success.
+ * Throws <eslEWRITE> on any system write error.
+ */
+static int
+phylip_interleaved_Write(FILE *fp, const ESL_MSA *msa, ESLX_MSAFILE_FMTDATA *opt_fmtd)
+{
+  int     rpl        = ( (opt_fmtd && opt_fmtd->rpl)       ? opt_fmtd->rpl       : 60);
+  int     namewidth  = ( (opt_fmtd && opt_fmtd->namewidth) ? opt_fmtd->namewidth : 10);
+  char   *buf        = NULL;
+  int     idx;
+  int64_t apos;
+  int     status;
+  
+  ESL_ALLOC(buf, sizeof(char) * (rpl+1));
+  buf[rpl] = '\0';
+
+  if (fprintf(fp, " %d %" PRId64, msa->nseq, msa->alen) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "interleaved phylip write failed");
+
+  for (apos = 0; apos < msa->alen; apos += rpl)
+    {
+      if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "interleaved phylip write failed");
+      for (idx = 0; idx < msa->nseq; idx++)
+	{
+#ifdef eslAUGMENT_ALPHABET 
+	  if (msa->abc) 
+	    {
+	      esl_abc_TextizeN(msa->abc, msa->ax[idx]+apos+1, rpl, buf);
+	      phylip_rectify_output_seq_digital(buf);
+	    }
+#endif
+	  if (! msa->abc) 
+	    {
+	      strncpy(buf, msa->aseq[idx]+apos, rpl);
+	      phylip_rectify_output_seq_text(buf);
+	    }
+
+	  if (apos == 0) { if (fprintf(fp, "%-*.*s %s\n", namewidth, namewidth, msa->sqname[idx], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "interleaved phylip write failed"); }
+	  else           { if (fprintf(fp, "%s\n", buf)                                                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "interleaved phylip write failed"); }
+	}
+    }
+  free(buf);
+  return eslOK;
+
+ ERROR:
+  if (buf) free(buf);
+  return status;
+}
+/*----------------- end, interleaved variant -------------------*/
+
+
+/*****************************************************************
+ * 3. i/o of sequential variant of the format
+ *****************************************************************/
+
+/* Read the sequential variant.
+ * header told us to expect <nseq>, <alen_stated>.
+ * <msa> is already allocated <nseq>, <-1>.
+ * In <afp>, we've loaded the first line of the alignment data.
+ */
+static int
+phylip_sequential_Read(ESLX_MSAFILE *afp, ESL_MSA *msa, int nseq, int32_t alen_stated)
+{
+  int       namewidth = (afp->fmtd.namewidth ? afp->fmtd.namewidth : 10); /* default: strict PHYLIP, namewidth 10 */
+  char     *namebuf   = NULL;
+  char     *p         = afp->line;
+  esl_pos_t n         = afp->n;
+  int       idx;
+  int64_t   alen;
+  int       status;
+  
+  ESL_ALLOC(namebuf, sizeof(char) * (namewidth+1));
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      alen   = 0;
+      status = eslOK;
+      while (status == eslOK && alen < alen_stated)
+	{
+	  if (alen == 0) /* First line? Store the sequence name */
+	    {		  
+	      if (n < namewidth)                                                    ESL_XFAIL(eslEFORMAT, afp->errmsg, "PHYLIP line too short to find sequence name");
+	      if (phylip_rectify_input_name(namebuf, p, namewidth)        != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "invalid character(s) in sequence name");
+	      if ( (status = esl_msa_SetSeqName(msa, idx, namebuf, -1))   != eslOK) goto ERROR;
+	      p += namewidth;
+	      n -= namewidth;
+	    }
+	  
+#ifdef eslAUGMENT_ALPHABET
+	  if (msa->abc)    { status = esl_abc_dsqcat(afp->inmap, &(msa->ax[idx]),   &alen, p, n); }
+#endif
+	  if (! msa->abc)  { status = esl_strmapcat (afp->inmap, &(msa->aseq[idx]), &alen, p, n); }
+	  if      (status == eslEINVAL)    ESL_XFAIL(eslEFORMAT, afp->errmsg, "one or more invalid sequence characters");
+	  else if (status != eslOK)        goto ERROR;
+
+	  /* get next line */
+	  status = eslx_msafile_GetLine(afp, &p, &n);
+	} /* end looping over a seq */
+
+      /* tolerate blank lines after sequences. */
+      while (status == eslOK && esl_memspn(p, n, " \t") == n) 
+	status = eslx_msafile_GetLine(afp, &p, &n);
+
+      if      (status == eslEOF) { if (idx < nseq-1) ESL_XFAIL(eslEFORMAT, afp->errmsg, "premature end of file: header said to expect %d sequences", nseq); }
+      else if (status != eslOK)                      goto ERROR;
+      else if (alen   != alen_stated)                ESL_XFAIL(eslEFORMAT, afp->errmsg, "aligned length of sequence disagrees with header: header says %d, parsed %" PRId64, alen_stated, alen);
+    } /* end looping over all seqs */
+
+  /* we should be EOF; we've swallowed all trailing blank lines.
+   * Exception: if we're in a seqboot file, we just read the <nseq> <alen> line of the next msa record; push it back on stream
+   */
+  if (status == eslOK) eslx_msafile_PutLine(afp);
+
+  msa->nseq = nseq;
+  msa->alen = alen;
+  free(namebuf);
+  return eslOK;
+
+ ERROR:
+  msa->nseq = nseq;		/* we're allocated and initialized for <nseq>: this makes sure we free everything we need to in <msa> */
+  if (namebuf) free(namebuf);
+  return status;
+}
+
+static int
+phylip_sequential_Write(FILE *fp, const ESL_MSA *msa, ESLX_MSAFILE_FMTDATA *opt_fmtd)
+{
+  int     rpl        = ( (opt_fmtd && opt_fmtd->rpl)       ? opt_fmtd->rpl       : 60);
+  int     namewidth  = ( (opt_fmtd && opt_fmtd->namewidth) ? opt_fmtd->namewidth : 10);
+  char   *buf        = NULL;
+  int     idx;
+  int64_t apos;
+  int     status;
+  
+  ESL_ALLOC(buf, sizeof(char) * (rpl+1));
+  buf[rpl] = '\0';
+
+  fprintf(fp, " %d %" PRId64 "\n", msa->nseq, msa->alen);
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      for (apos = 0; apos < msa->alen; apos += rpl)
+	{
+#ifdef eslAUGMENT_ALPHABET 
+	  if (msa->abc) 
+	    {
+	      esl_abc_TextizeN(msa->abc, msa->ax[idx]+apos+1, rpl, buf);
+	      phylip_rectify_output_seq_digital(buf);
+	    }
+#endif
+	  if (! msa->abc) 
+	    {
+	      strncpy(buf, msa->aseq[idx]+apos, rpl);
+	      phylip_rectify_output_seq_text(buf);
+	    }
+	  
+	  if (apos == 0) fprintf(fp, "%-*.*s %s\n", namewidth, namewidth, msa->sqname[idx], buf);
+	  else           fprintf(fp, "%s\n", buf);
+	}
+    }
+  free(buf);
+  return eslOK;
+
+ ERROR:
+  if (buf) free(buf);
+  return status;
+}
+/*------------------ end, sequential variant --------------------*/
+
+
+/*****************************************************************
+ * 4. Autodetection of the format and its variants
+ *****************************************************************/
+
+/* return <eslOK> if input is consistent with interleaved format,
+ * and set <*ret_namewidth> to the apparent name width.
+ * 
+ * upon return, restore the <bf> to its original position.
+ */
+static int
+phylip_check_interleaved(ESL_BUFFER *bf, int *ret_namewidth)
+{
+  esl_pos_t anchor     = -1;
+  char     *p;
+  esl_pos_t n;
+  int32_t   nseq, alen;
+  char     *colcodes   = NULL;
+  char     *colcodes0  = NULL;
+  int       ncols, ncols0;
+  int       c, idx;
+  int       nblocks    = 0;
+  int       nres2      = 0;
+  int       nres1;
+  int       status;
+
+  anchor = esl_buffer_GetOffset(bf);
+  if (esl_buffer_SetAnchor(bf, anchor)                         != eslOK) { status = eslFAIL; goto ERROR; } 
+  if ((status = phylip_parse_header(bf, &nseq, &alen, &p, &n)) != eslOK) goto ERROR;
+  
+  /* read the whole file, one block at a time */
+  while (status == eslOK)
+    {
+      ncols = n;
+      ESL_REALLOC(colcodes, sizeof(char) * ncols);
+      for (c = 0; c < ncols; c++) colcodes[c] = '?';
+
+      /* read a block: for each line, update the colcodes[] array. */
+      for (idx = 0; idx < nseq; idx++)
+	{
+	  if (status == eslEOF) goto ERROR;
+	  if ((status = phylip_collate_colcodes(p, n, colcodes, ncols)) != eslOK) goto ERROR;
+	  status = esl_buffer_GetLine(bf, &p, &n);
+	  if (status != eslOK && status != eslEOF) goto ERROR; /* EOF is ok on last seq of single-block data */
+	}
+
+      /* finished a block. status may be EOF or OK.
+       * save the first block's colcodes[] to defer its analysis 
+       * for all other blocks: count x columns, reject n columns, ignore . and o
+       */
+      if (nblocks == 0) 
+	{
+	  colcodes0 = colcodes;  ncols0    = ncols;
+	  colcodes  = NULL;      ncols     = 0;
+	  /* let's speculate that it's strictly conforming PHYLIP with a namewidth of 10 
+	   * in that case, we'll be able to stop parsing blocks when we reach the full
+	   * alignment length
+	   */
+	  for (nres1 = 0, c = 10; c < ncols0; c++) 
+	    if  (colcodes0[c] != '.') nres1++; /* for this test, consider even invalid symbols to be "residues". */
+	}
+      else
+	{
+	  for (c = 0; c < ncols; c++)
+	    {
+	      if (colcodes[c] == 'x') nres2++;
+	      if (colcodes[c] == 'n') { status = eslFAIL; goto ERROR; } /* subsequent blocks can't contain name-like columns */
+	    }
+	}
+      nblocks++;
+      
+      /* if it's strictly conforming w/ namewidth=10, we know when we're done,
+       * and in that case we can tolerate trailing data (tree, whatever) in the
+       * input. status will be eslOK if we break this way.
+       */
+      if (nres1+nres2 == alen) break;
+
+      /* skip blank lines until we load start of next block in <p>, <n> */
+      while (status == eslOK && esl_memspn(p, n, "\t") == n)
+	status = esl_buffer_GetLine(bf, &p, &n);
+    }
+
+  if (nres1+nres2 == alen) *ret_namewidth = 10; 
+  else if ((status = phylip_deduce_namewidth(colcodes0, ncols0, alen, nres2, ret_namewidth)) != eslOK) goto ERROR;
+
+  free(colcodes);
+  free(colcodes0);
+  esl_buffer_SetOffset(bf, anchor);
+  esl_buffer_RaiseAnchor(bf, anchor);
+  return eslOK;
+
+ ERROR:
+  if (anchor != -1) { 
+    esl_buffer_SetOffset(bf, anchor);
+    esl_buffer_RaiseAnchor(bf, anchor);
+   }
+  if (colcodes) free(colcodes);
+  if (colcodes0) free(colcodes0);
+  *ret_namewidth = 0;
+  return status;
+}
+
+
+/* check for a sequential format file, given a known namewidth (10, for strict PHYLIP) */
+static int
+phylip_check_sequential_known(ESL_BUFFER *bf, int namewidth)
+{
+  esl_pos_t anchor     = -1;
+  char     *p;
+  esl_pos_t n;
+  int32_t   nseq, alen;
+  int       idx, nres, line, c;
+  int       status;
+
+  anchor = esl_buffer_GetOffset(bf);
+  if (esl_buffer_SetAnchor(bf, anchor)                         != eslOK) { status = eslFAIL; goto ERROR; } 
+  if ((status = phylip_parse_header(bf, &nseq, &alen, &p, &n)) != eslOK) goto ERROR;  
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      nres = 0;
+      line = 0;
+      while (nres < alen)
+	{
+	  if (status == eslEOF) goto ERROR;
+
+	  c = (line == 0 ? namewidth : 0);
+	  for ( ; c < n; c++) 
+	    if (strchr(eslMSAFILE_PHYLIP_LEGALSYMS, p[c]) != NULL) 
+	      nres++;
+
+	  status = esl_buffer_GetLine(bf, &p, &n);
+	  if (status != eslOK && status != eslEOF) goto ERROR;
+	}
+      if (nres != alen) { status = eslFAIL; goto ERROR; }
+
+      /* tolerate blank spaces after individual sequences */
+      while (status == eslOK && esl_memspn(p, n, "\t") == n)
+	status = esl_buffer_GetLine(bf, &p, &n);
+      if (status != eslOK && status != eslEOF) goto ERROR;
+    }
+  
+  esl_buffer_SetOffset(bf, anchor);
+  esl_buffer_RaiseAnchor(bf, anchor);
+  return eslOK;
+
+ ERROR:
+  if (anchor != -1) { 
+    esl_buffer_SetOffset(bf, anchor);
+    esl_buffer_RaiseAnchor(bf, anchor);
+   }
+  return status;
+}
+
+static int
+phylip_check_sequential_unknown(ESL_BUFFER *bf, int *ret_namewidth)
+{
+  esl_pos_t anchor     = -1;
+  int       nlines     = 0;
+  int       nblocks    = 0;
+  char     *p, *p0;
+  esl_pos_t n,  n0;
+  int32_t   nseq, alen;
+  int       b, c, idx;
+  int       nres2, nres1;
+  int       nwA, nwB, nw_min, nw_max;
+  int       status;
+
+  anchor = esl_buffer_GetOffset(bf);
+  if (esl_buffer_SetStableAnchor(bf, anchor) != eslOK) { status = eslFAIL; goto ERROR; } 
+  /* note, a *stable* anchor: we are going to hold first line of each seq for a while */
+
+  /* pass 1. number of data lines in file / nseq = integral number of lines per sequence. */
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK)
+    if (esl_memspn(p, n, " \t") != n) nlines++;
+  if (status != eslEOF)   goto ERROR;
+  nlines--;                         /* not counting the <nseq> <alen> header */
+  esl_buffer_SetOffset(bf, anchor); /* rewind */
+
+  /* pass 2. */
+  if ((status = phylip_parse_header(bf, &nseq, &alen, &p, &n)) != eslOK) goto ERROR;
+  if (nlines % nseq != 0) { status = eslFAIL; goto ERROR; } 
+  nblocks = nlines / nseq;
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      nres2 = 0;
+      for (b = 0; b < nblocks; b++)
+	{
+	  if (status == eslEOF) goto ERROR;
+
+	  if (b == 0)
+	    { p0 = p; n0 = n; } /* defer evaluation of first line until we've counted the rest */
+	  else 
+	    {
+	      for (c = 0; c < n; c++) 
+		if (strchr(eslMSAFILE_PHYLIP_LEGALSYMS, p[c]) != NULL) 
+		  nres2++;
+	    }
+
+	  status = esl_buffer_GetLine(bf, &p, &n);
+	  if (status != eslOK && status != eslEOF) goto ERROR;
+	}
+
+      nres1 = alen - nres2;
+      if (nres1 <= 0) return eslFAIL;
+      for (c = n0-1; nres1 && c >= 0; c--)
+	if (strchr(eslMSAFILE_PHYLIP_LEGALSYMS, p0[c]) != NULL) 
+	  nres1--;
+      if (nres1) { status = eslFAIL; goto ERROR; }
+      nwB = c+1;
+
+      for (; c >= 0; c--)
+	if (p0[c] != ' ') break;
+      nwA = c+1;
+
+      nw_min = (idx == 0 ? nwA : ESL_MAX(nwA, nw_min)); /* maximin of nwA values for each seq */
+      nw_max = (idx == 0 ? nwB : ESL_MIN(nwB, nw_max)); /* minimax of nwB values for each seq */
+
+      /* tolerate blank spaces after individual sequences */
+      while (status == eslOK && esl_memspn(p, n, "\t") == n)
+	status = esl_buffer_GetLine(bf, &p, &n);
+      if (status != eslOK && status != eslEOF) goto ERROR;
+    }
+
+  if (nw_min <= 10 && nw_max >= 10) *ret_namewidth = 10;
+  else                              *ret_namewidth = nw_min;
+  
+  esl_buffer_SetOffset(bf, anchor);
+  esl_buffer_RaiseAnchor(bf, anchor);
+  return eslOK;
+
+ ERROR:
+  if (anchor != -1) { 
+    esl_buffer_SetOffset(bf, anchor);
+    esl_buffer_RaiseAnchor(bf, anchor);
+   }
+  *ret_namewidth = 0;
+  return status;
+}
+
+
+/* parse the header from a buffer (note, NOT an open MSAFILE).
+ * used by the format checkers (before an MSAFILE is open)
+ * return <eslOK> on success, <eslFAIL> on parse failure.
+ *
+ * Upon return <p>, <n> contains the first alignment data line,
+ * and the <bf>'s point is on the line following that.
+ * 
+ */
+static int
+phylip_parse_header(ESL_BUFFER *bf, int32_t *ret_nseq, int32_t *ret_alen, char **ret_p, esl_pos_t *ret_n)
+{
+  char     *p, *tok;
+  esl_pos_t n, toklen;
+  int32_t   nseq, alen;
+  int       status;
+  
+  /* Find the first nonblank line, which says " <nseq> <alen>" and may also have options (which we'll ignore) */
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK  && esl_memspn(p, n, " \t") == n) ;
+  if (status == eslEOF) status = eslFAIL;
+  if (status != eslOK) goto ERROR;
+
+  esl_memtok(&p, &n, " \t", &tok, &toklen);
+  if (esl_mem_strtoi32(tok, toklen, 0, NULL, &nseq)  != eslOK) { status = eslFAIL; goto ERROR; }
+  if (esl_memtok(&p, &n, " \t", &tok, &toklen)       != eslOK) { status = eslFAIL; goto ERROR; }
+  if (esl_mem_strtoi32(tok, toklen, 0, NULL, &alen)  != eslOK) { status = eslFAIL; goto ERROR; }
+
+  /* skip any blank lines, load p,n as first line of putative block */
+  while ( (status = esl_buffer_GetLine(bf, &p, &n)) == eslOK  && esl_memspn(p, n, " \t") == n) ;
+  if (status == eslEOF) status = eslFAIL;
+  if (status != eslOK) goto ERROR;
+
+  *ret_nseq = nseq;
+  *ret_alen = alen;
+  *ret_p    = p;
+  *ret_n    = n;
+  return eslOK;
+
+ ERROR:
+  *ret_nseq = 0;
+  *ret_alen = 0;
+  *ret_p    = NULL;
+  *ret_n    = 0;
+  return status;
+}
+ 
+
+/* 
+ *   '?' : unset
+ *   'x' : column consists only of valid data symbols
+ *   '.' : column consists only of spaces 
+ *   'o' : column consists only of spaces or other (invalid) symbols such as numbers
+ *   'n' : column mixes x and (. or o):  must be a name column
+ *
+ * A name can contain spaces, valid symbols, other symbols ('x', 'n', '.', 'o')
+ * Any whitespace between name, data must contain only '.'
+ * Spacer columns elsewhere can contain spaces or other symbols (such as numbers): 'o'
+ * Alignment columns must contain only valid data symbols: 'x'.
+ */
+static int
+phylip_collate_colcodes(char *p, esl_pos_t n, char *colcodes, int ncols)
+{
+  int   c;
+
+  for (c = 0; c < ncols && c < n; c++)
+    {
+      if (strchr(eslMSAFILE_PHYLIP_LEGALSYMS, p[c]) != NULL)
+	{
+	  switch (colcodes[c]) {
+	  case '?': colcodes[c] = 'x'; break;
+	  case '.': colcodes[c] = 'n'; break;
+	  }
+	}
+      else if (p[c] == ' ')
+	{
+	  switch (colcodes[c]) {
+	  case '?': colcodes[c] = '.'; break;
+	  case 'x': colcodes[c] = 'n'; break;
+	  }
+	}
+      else if (isgraph(p[c]))
+	{
+	  switch (colcodes[c]) {
+	  case '?': colcodes[c] = 'o'; break;
+	  case 'x': colcodes[c] = 'n'; break;
+	  case '.': colcodes[c] = 'o'; break;
+	  }
+	}
+      else return eslFAIL;
+    }
+  for ( ; c < n; c++)
+    if (strchr(eslMSAFILE_PHYLIP_LEGALSYMS, p[c]) != NULL) return eslFAIL;
+
+  return eslOK;
+}
+
+static int
+phylip_deduce_namewidth(char *colcodes0, int ncols0, int alen, int nres2, int *ret_namewidth)
+{
+  int nres1;
+  int c;
+  int nwA, nwB, namewidth;
+
+  /* nres1 = alen - nres2  : # of columns that must be provided in first block */
+  nres1 = alen - nres2;
+  if (nres1 <= 0) return eslFAIL;
+
+  /* search leftward in first block until we've accounted for enough cols */
+  /* c becomes the position of the rightmost col before ali data, and hence = maximal namewidth-1 */
+  for (c = ncols0-1; nres1 && c >= 0; c--) 
+    if (colcodes0[c] == 'x') nres1--;
+  if (nres1 > 0) return eslFAIL;
+  nwB = c+1;
+
+  /* search leftward past whitespace columns that might be trailing the name  */
+  /* c becomes the position of the rightmost non-whitespace column, and hence = minimal namewidth-1 */
+  for ( ; c >= 0; c--)
+    if (colcodes0[c] != '.') break;
+  nwA = c+1;
+
+  /* if nwA <= 10 <= nwB, the namewidth is consistent with strict PHYLIP namewidth of 10 */
+  if (nwA <= 10 && nwB >= 10) namewidth = 10;
+  else                        namewidth = nwA;
+ 
+  *ret_namewidth = namewidth;
+  return eslOK;
+}
+/*-------------- end, format autodetection ----------------------*/
+
+
+/*****************************************************************
+ * 5. Rectifying valid input/output symbols in names and seqs
+ *****************************************************************/
+
+/* We allow any isprint() char in a name, except tabs.
+ * Phylip allows spaces in names, but Easel doesn't.
+ * Internal spaces are converted to underscore _
+ * Leading and trailing spaces are ignored
+ * namebuf must be allocated at least n+1 chars
+ * returns eslEINVAL if it sees an invalid character
+ */
+static int
+phylip_rectify_input_name(char *namebuf, char *p, int n)
+{
+  int pos, endpos;
+  int npos = 0;
+
+  for (endpos = n-1; endpos > 0;    endpos--) if (p[endpos] != ' ') break;
+  for (pos    = 0;   pos <= endpos; pos++)    if (p[pos]    != ' ') break; 
+  for (          ;   pos <= endpos; pos++) 
+    {
+      if (! isgraph(p[pos]) && p[pos] != ' ') return eslEINVAL;
+      namebuf[npos++] = (p[pos] == ' ' ? '_' : p[pos]);
+    }
+  namebuf[npos] = '\0';
+  return eslOK;
+}
+
+/* Easel's internal alphabet (and output syms) are compatible with PHYLIP
+ * (upper case, '-' for gaps, '*' for stop codon; except that PHYLIP uses
+ * '?' for missing data
+ */
+static int
+phylip_rectify_output_seq_digital(char *buf)
+{
+  int i;
+  for (i = 0; buf[i]; i++)
+    {
+      if (buf[i] == '~') buf[i] = '?';
+    }
+  return eslOK;
+}
+
+static int
+phylip_rectify_output_seq_text(char *buf)
+{
+  int i;
+  for (i = 0; buf[i]; i++)
+    {
+      if (islower(buf[i]))               buf[i] = toupper(buf[i]);
+      if (strchr("._ ", buf[i]) != NULL) buf[i] = '-';
+      if (buf[i] == '~')                 buf[i] = '?';
+    }
+  return eslOK;
+}
+/*---------- end, rectification of name, seq symbols ------------*/
+  
+
+
+
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef eslMSAFILE_PHYLIP_TESTDRIVE
+static void
+utest_write_good1(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("  5    42\n", ofp);
+  fputs("Turkey    AAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("Salmo gairAAGCCTTGGC AGTGCAGGGT\n", ofp);
+  fputs("H. SapiensACCGGTTGGC CGTTCAGGGT\n", ofp);
+  fputs("Chimp     AAACCCTTGC CGTTACGCTT\n", ofp);
+  fputs("Gorilla   AAACCCTTGC CGGTACGCTT\n", ofp);
+  fputs("\n", ofp);
+  fputs("GAGCCCGGGC AATACAGGGT AT\n", ofp);
+  fputs("GAGCCGTGGC CGGGCACGGT AT\n", ofp);
+  fputs("ACAGGTTGGC CGTTCAGGGT AA\n", ofp);
+  fputs("AAACCGAGGC CGGGACACTC AT\n", ofp);
+  fputs("AAACCATTGC CGGTACGCTT AA\n", ofp);
+
+  *ret_format   = eslMSAFILE_PHYLIP;
+  *ret_alphatype = eslDNA;
+  *ret_nseq     = 5;
+  *ret_alen     = 42;
+}
+
+static void
+utest_write_good2(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("7 50 \n", ofp);
+  fputs("thermotogaATGGCGAAGGAAAAATTTGTGAGAACAAAACCGCATGTTAACGTTGGAAC\n", ofp);
+  fputs("TthermophiATGGCGAAGGGCGAGTTTGTTCGGACGAAGCCTCACGTGAACGTGGGGAC  \n", ofp);
+  fputs("TaquaticusATGGCGAAGGGCGAGTTTATCCGGACGAAGCCCCACGTGAACGTGGGGAC \n", ofp);
+  fputs("deinonema-ATGGCTAAGGGAACGTTTGAACGCACCAAACCCCACGTGAACGTGGGCAC  \n", ofp);
+  fputs("ChlamydiaBATGTCAAAAGAAACTTTTCAACGTAATAAGCCTCATATCAACATAGGGGC \n", ofp);
+  fputs("flexistipsATGTCCAAGCAAAAGTACGAAAGGAAGAAACCTCACGTAAACGTAGGCAC \n", ofp);
+  fputs("borrelia-bATGGCAAAAGAAGTTTTTCAAAGAACAAAGCCGCACATGAATGTTGGAAC \n", ofp);
+
+  *ret_format   = eslMSAFILE_PHYLIP;
+  *ret_alphatype = eslDNA;
+  *ret_nseq     = 7;
+  *ret_alen     = 50;
+}
+
+static void
+utest_write_good3(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs(" 3 384\n", ofp);
+  fputs("CYS1_DICDI   -----MKVIL LFVLAVFTVF VSS------- --------RG IPPEEQ---- --------SQ \n", ofp);
+  fputs("ALEU_HORVU   MAHARVLLLA LAVLATAAVA VASSSSFADS NPIRPVTDRA ASTLESAVLG ALGRTRHALR \n", ofp);
+  fputs("CATH_HUMAN   ------MWAT LPLLCAGAWL LGV------- -PVCGAAELS VNSLEK---- --------FH \n", ofp);
+  fputs("\n", ofp);
+  fputs("             FLEFQDKFNK KY-SHEEYLE RFEIFKSNLG KIEELNLIAI NHKADTKFGV NKFADLSSDE \n", ofp);
+  fputs("             FARFAVRYGK SYESAAEVRR RFRIFSESLE EVRSTN---- RKGLPYRLGI NRFSDMSWEE \n", ofp);
+  fputs("             FKSWMSKHRK TY-STEEYHH RLQTFASNWR KINAHN---- NGNHTFKMAL NQFSDMSFAE \n", ofp);
+  fputs("\n", ofp);
+  fputs("             FKNYYLNNKE AIFTDDLPVA DYLDDEFINS IPTAFDWRTR G-AVTPVKNQ GQCGSCWSFS \n", ofp);
+  fputs("             FQATRL-GAA QTCSATLAGN HLMRDA--AA LPETKDWRED G-IVSPVKNQ AHCGSCWTFS \n", ofp);
+  fputs("             IKHKYLWSEP QNCSAT--KS NYLRGT--GP YPPSVDWRKK GNFVSPVKNQ GACGSCWTFS \n", ofp);
+  fputs("\n", ofp);
+  fputs("             TTGNVEGQHF ISQNKLVSLS EQNLVDCDHE CMEYEGEEAC DEGCNGGLQP NAYNYIIKNG \n", ofp);
+  fputs("             TTGALEAAYT QATGKNISLS EQQLVDCAGG FNNF------ --GCNGGLPS QAFEYIKYNG \n", ofp);
+  fputs("             TTGALESAIA IATGKMLSLA EQQLVDCAQD FNNY------ --GCQGGLPS QAFEYILYNK \n", ofp);
+  fputs("\n", ofp);
+  fputs("             GIQTESSYPY TAETGTQCNF NSANIGAKIS NFTMIP-KNE TVMAGYIVST GPLAIAADAV \n", ofp);
+  fputs("             GIDTEESYPY KGVNGV-CHY KAENAAVQVL DSVNITLNAE DELKNAVGLV RPVSVAFQVI \n", ofp);
+  fputs("             GIMGEDTYPY QGKDGY-CKF QPGKAIGFVK DVANITIYDE EAMVEAVALY NPVSFAFEVT \n", ofp);
+  fputs("\n", ofp);
+  fputs("             E-WQFYIGGV F-DIPCN--P NSLDHGILIV GYSAKNTIFR KNMPYWIVKN SWGADWGEQG \n", ofp);
+  fputs("             DGFRQYKSGV YTSDHCGTTP DDVNHAVLAV GYGVENGV-- ---PYWLIKN SWGADWGDNG \n", ofp);
+  fputs("             QDFMMYRTGI YSSTSCHKTP DKVNHAVLAV GYGEKNGI-- ---PYWIVKN SWGPQWGMNG \n", ofp);
+  fputs("\n", ofp);
+  fputs("             YIYLRRGKNT CGVSNFVSTS II-- \n", ofp);
+  fputs("             YFKMEMGKNM CAIATCASYP VVAA \n", ofp);
+  fputs("             YFLIERGKNM CGLAACASYP IPLV\n", ofp);
+
+  *ret_format   = eslMSAFILE_PHYLIP;
+  *ret_alphatype = eslAMINO;
+  *ret_nseq     = 3;
+  *ret_alen     = 384;
+}
+
+static void
+utest_write_good4(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("  5    42\n", ofp);
+  fputs("Turkey    AAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("GAGCCCGGGC AATACAGGGT AT\n", ofp);
+  fputs("Salmo gairAAGCCTTGGC AGTGCAGGGT\n", ofp);
+  fputs("GAGCCGTGGC CGGGCACGGT AT\n", ofp);
+  fputs("H. SapiensACCGGTTGGC CGTTCAGGGT\n", ofp);
+  fputs("ACAGGTTGGC CGTTCAGGGT AA\n", ofp);
+  fputs("Chimp     AAACCCTTGC CGTTACGCTT\n", ofp);
+  fputs("AAACCGAGGC CGGGACACTC AT\n", ofp);
+  fputs("Gorilla   AAACCCTTGC CGGTACGCTT\n", ofp);
+  fputs("AAACCATTGC CGGTACGCTT AA\n", ofp);
+
+  *ret_format   = eslMSAFILE_PHYLIPS;
+  *ret_alphatype = eslDNA;
+  *ret_nseq     = 5;
+  *ret_alen     = 42;
+}
+
+static void
+utest_write_good5(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+ fputs(" 3 384\n", ofp);
+ fputs("CYS1_DICDI-----MKVILLFVLAVFTVFVSS---------------RGIPPEEQ------------SQFLEFQDKFNKKY-SHEEY\n", ofp);
+ fputs("LERFEIFKSNLGKIEELNLIAINHKADTKFGVNKFADLSSDEFKNYYLNNKEAIFTDDLPVADYLDDEFINSIPTAFDWRTRG-AVTP\n", ofp);
+ fputs("VKNQGQCGSCWSFSTTGNVEGQHFISQNKLVSLSEQNLVDCDHECMEYEGEEACDEGCNGGLQPNAYNYIIKNGGIQTESSYPYTAET\n", ofp);
+ fputs("GTQCNFNSANIGAKISNFTMIP-KNETVMAGYIVSTGPLAIAADAVE-WQFYIGGVF-DIPCN--PNSLDHGILIVGYSAKNTIFRKN\n", ofp);
+ fputs("MPYWIVKNSWGADWGEQGYIYLRRGKNTCGVSNFVSTSII--\n", ofp);
+ fputs("\n", ofp);
+ fputs("ALEU_HORVUMAHARVLLLALAVLATAAVAVASSSSFADSNPIRPVTDRAASTLESAVLGALGRTRHALRFARFAVRYGKSYESAAEVR\n", ofp);
+ fputs("RRFRIFSESLEEVRSTN----RKGLPYRLGINRFSDMSWEEFQATRL-GAAQTCSATLAGNHLMRDA--AALPETKDWREDG-IVSPVK\n", ofp);
+ fputs("NQAHCGSCWTFSTTGALEAAYTQATGKNISLSEQQLVDCAGGFNNF--------GCNGGLPSQAFEYIKYNGGIDTEESYPYKGVNGV-\n", ofp);
+ fputs("CHYKAENAAVQVLDSVNITLNAEDELKNAVGLVRPVSVAFQVIDGFRQYKSGVYTSDHCGTTPDDVNHAVLAVGYGVENGV-----PYW\n", ofp);
+ fputs("LIKNSWGADWGDNGYFKMEMGKNMCAIATCASYPVVAA\n", ofp);
+ fputs("\n", ofp);
+ fputs("CATH_HUMAN------MWATLPLLCAGAWLLGV--------PVCGAAELSVNSLEK------------FHFKSWMSKHRKTY-STEEYH\n", ofp);
+ fputs("HRLQTFASNWRKINAHN----NGNHTFKMALNQFSDMSFAEIKHKYLWSEPQNCSAT--KSNYLRGT--GPYPPSVDWRKKGNFVSPVK\n", ofp);
+ fputs("NQGACGSCWTFSTTGALESAIAIATGKMLSLAEQQLVDCAQDFNNY--------GCQGGLPSQAFEYILYNKGIMGEDTYPYQGKDGY-\n", ofp);
+ fputs("CKFQPGKAIGFVKDVANITIYDEEAMVEAVALYNPVSFAFEVTQDFMMYRTGIYSSTSCHKTPDKVNHAVLAVGYGEKNGI-----PYW\n", ofp);
+ fputs("IVKNSWGPQWGMNGYFLIERGKNMCGLAACASYPIPLV\n", ofp);
+ fputs("\n", ofp);
+
+ *ret_format   = eslMSAFILE_PHYLIPS;
+ *ret_alphatype = eslAMINO;
+ *ret_nseq     = 3;
+ *ret_alen     = 384;
+}
+
+/* a tricky one, with a nonstandard name width of 12 (all names end in xx) */
+static void
+utest_write_good6(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("  5    42\n", ofp);
+  fputs("Turkey    xxAAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("Salmo gairxxAAGCCTTGGC AGTGCAGGGT\n", ofp);
+  fputs("H. SapiensxxACCGGTTGGC CGTTCAGGGT\n", ofp);
+  fputs("Chimp     xxAAACCCTTGC CGTTACGCTT\n", ofp);
+  fputs("Gorilla   xxAAACCCTTGC CGGTACGCTT\n", ofp);
+  fputs("\n", ofp);
+  fputs("GAGCCCGGGC AATACAGGGT AT\n", ofp);
+  fputs("GAGCCGTGGC CGGGCACGGT AT\n", ofp);
+  fputs("ACAGGTTGGC CGTTCAGGGT AA\n", ofp);
+  fputs("AAACCGAGGC CGGGACACTC AT\n", ofp);
+  fputs("AAACCATTGC CGGTACGCTT AA\n", ofp);
+
+  *ret_format   = eslMSAFILE_PHYLIP;
+  *ret_alphatype = eslDNA;
+  *ret_nseq     = 5;
+  *ret_alen     = 42;
+}
+
+/* nonstandard name field width in a sequential file. */
+static void
+utest_write_good7(FILE *ofp, int *ret_format, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("  5    42\n", ofp);
+  fputs("Turkey    xxAAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("GAGCCCGGGC AATACAGGGT AT\n", ofp);
+  fputs("\n", ofp);
+  fputs("Salmo gairxxAAGCCTTGGC AGTGCAGGGT\n", ofp);
+  fputs("GAGCCGTGGC CGGGCACGGT AT\n", ofp);
+  fputs("\n", ofp);
+  fputs("H. SapiensxxACCGGTTGGC CGTTCAGGGT\n", ofp);
+  fputs("ACAGGTTGGC CGTTCAGGGT AA\n", ofp);
+  fputs("\n", ofp);
+  fputs("Chimp     xxAAACCCTTGC CGTTACGCTT\n", ofp);
+  fputs("AAACCGAGGC CGGGACACTC AT\n", ofp);
+  fputs("\n", ofp);
+  fputs("Gorilla   xxAAACCCTTGC CGGTACGCTT\n", ofp);
+  fputs("AAACCATTGC CGGTACGCTT AA\n", ofp);
+
+  *ret_format   = eslMSAFILE_PHYLIPS;
+  *ret_alphatype = eslDNA;
+  *ret_nseq     = 5;
+  *ret_alen     = 42;
+}
+
+static void
+utest_write_bad1(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2    20\n", ofp);
+  fputs("Turkey    xAAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("Salmo gairxAAGCCTTGGC AGTGCAGGGT\n", ofp);
+
+  *ret_alphatype   = eslDNA;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 3;
+  strcpy(errmsg,   "alignment length disagrees");
+}
+
+static void
+utest_write_bad2(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  x  2    20\n", ofp);
+  fputs("Turkey    AAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("Salmo gairAAGCCTTGGC AGTGCAGGGT\n", ofp);
+
+  *ret_alphatype   = eslDNA;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 1;
+  strcpy(errmsg,   "first field isn't an integer");
+}
+
+static void
+utest_write_bad3(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2    x\n", ofp);
+  fputs("Turkey    AAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("Salmo gairAAGCCTTGGC AGTGCAGGGT\n", ofp);
+
+  *ret_alphatype   = eslDNA;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 1;
+  strcpy(errmsg,   "second field isn't an integer");
+}
+
+static void
+utest_write_bad4(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2\n", ofp);
+  fputs("Turkey    AAGCTNGGGC ATTTCAGGGT\n", ofp);
+  fputs("Salmo gairAAGCCTTGGC AGTGCAGGGT\n", ofp);
+
+  *ret_alphatype   = eslDNA;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 1;
+  strcpy(errmsg,   "only one field found");
+}
+
+static void
+utest_write_bad5(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2  20\n", ofp);
+  fputs("\n", ofp);
+
+  *ret_alphatype   = eslDNA;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 2;
+  strcpy(errmsg,   "no alignment data");
+}
+
+static void
+utest_write_bad6(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs(" 2 20\n", ofp);
+  fputs("seq1 \n", ofp);
+  fputs("seq2  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+
+  *ret_alphatype   = eslAMINO;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 2;
+  strcpy(errmsg,   "line too short");
+}
+
+static void
+utest_write_bad7(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2 20\n", ofp);
+  fputs("\tseq1_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+
+  *ret_alphatype   = eslAMINO;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 2;
+  strcpy(errmsg,   "invalid character(s) in sequence name");
+}
+
+static void
+utest_write_bad8(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2 20\n", ofp);
+  fputs("seq1_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2_name   ACDEFGHI~LMNPQRSTVWY\n", ofp);
+
+  *ret_alphatype   = eslAMINO;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 3;
+  strcpy(errmsg,   "one or more invalid sequence characters");
+}
+
+static void
+utest_write_bad9(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2 20\n", ofp);
+  fputs("seq1_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2_name   ACDEFGHIKLMNPQRSTVW\n", ofp);
+
+  *ret_alphatype   = eslAMINO;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 3;
+  strcpy(errmsg,   "number of residues on line differs from previous seqs");
+}
+
+static void
+utest_write_bad10(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  3 40\n", ofp);
+  fputs("seq1_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("ACDEFGHIKLMNPQRSTVWY\n", ofp);
+
+  *ret_alphatype   = eslAMINO;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 4;
+  strcpy(errmsg,   "unexpected number of sequences in block");
+}
+
+static void
+utest_write_bad11(FILE *ofp, int *ret_alphatype, int *ret_errstatus, int *ret_linenumber, char *errmsg)
+{
+  fputs("  2 30\n", ofp);
+  fputs("seq1_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2_name   ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("            ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("            ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+
+  *ret_alphatype   = eslAMINO;
+  *ret_errstatus  = eslEFORMAT;
+  *ret_linenumber = 7;
+  strcpy(errmsg,   "alignment length disagrees with header");
+}
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_format, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESLX_MSAFILE_FMTDATA fmtd;                      /* for writing formats with nonstandard name field widths */
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  eslx_msafile_fmtdata_Init(&fmtd);
+  
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("phylip good file unit test %d failed: digital open",           testnumber);  
+  if (afp->format != expected_format)                                                               esl_fatal("phylip good file unit test %d failed: format autodetection",   testnumber);
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("phylip good file unit test %d failed: alphabet autodetection", testnumber);
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_phylip_Read(afp, &msa1))   != eslOK) esl_fatal("phylip good file unit test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen) esl_fatal("phylip good file unit test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                      esl_fatal("phylip good file test %d failed: msa1 invalid",           testnumber);
+  fmtd.namewidth = afp->fmtd.namewidth;
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp))                           != eslOK) esl_fatal("phylip good file unit test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_phylip_Write(ofp, msa1, expected_format, &fmtd)) != eslOK) esl_fatal("phylip good file unit test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, expected_format, &fmtd, &afp)) != eslOK) esl_fatal("phylip good file unit test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_phylip_Read(afp, &msa2))                                   != eslOK) esl_fatal("phylip good file unit test %d failed: msa read, text", testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                      esl_fatal("phylip good file test %d failed: msa2 invalid",        testnumber);
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                                 esl_fatal("phylip good file unit test %d failed: nseq/alen",      testnumber);
+  fmtd.namewidth = afp->fmtd.namewidth;
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp))                           != eslOK) esl_fatal("phylip good file unit test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_phylip_Write(ofp, msa2, expected_format, &fmtd)) != eslOK) esl_fatal("phylip good file unit test %d failed: msa write, text", testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, expected_format, &fmtd, &afp)) != eslOK) esl_fatal("phylip good file unit test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_phylip_Read(afp, &msa2))                                   != eslOK) esl_fatal("phylip good file unit test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                      esl_fatal("phylip good file test %d failed: msa2 invalid",               testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("phylip good file unit test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+utest_badfile(char *filename, int testnumber, int expected_alphatype, int expected_status, int expected_linenumber, char *expected_errmsg)
+{
+  ESL_ALPHABET *abc = esl_alphabet_Create(expected_alphatype);
+  ESLX_MSAFILE *afp = NULL;
+  ESL_MSA      *msa = NULL;
+  int           status;
+  
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_PHYLIP, NULL, &afp)) != eslOK)  esl_fatal("phylip bad file unit test %d failed: unexpected open failure", testnumber);
+  if ( (status = esl_msafile_phylip_Read(afp, &msa)) != expected_status)                            esl_fatal("phylip bad file unit test %d failed: unexpected error code",   testnumber);
+  if (strstr(afp->errmsg, expected_errmsg) == NULL)                                                 esl_fatal("phylip bad file unit test %d failed: unexpected errmsg",       testnumber);
+  if (afp->linenumber != expected_linenumber)                                                       esl_fatal("phylip bad file unit test %d failed: unexpected linenumber",   testnumber);
+  eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+  esl_msa_Destroy(msa);
+}
+
+/* PHYLIP's seqboot program can output many MSAs to the same phylip file.
+ * For this reason (only), we allow PHYLIP format to have multiple MSAs per file.
+ * PHYLIP format 'officially' does not document this!
+ */
+static void
+utest_seqboot(void)
+{
+  char  msg[] = "seqboot unit test failed";
+  char  tmpfile[32];
+  FILE *ofp;
+  int   expected_fmt;
+  int   expected_alphatype;
+  int   expected_nseq;
+  int   expected_alen;
+  int   expected_nali;
+  int   i;
+  ESL_ALPHABET *abc = NULL;
+  ESLX_MSAFILE *afp = NULL;
+  ESL_MSA      *msa = NULL;
+
+  /* Write a tmp testfile with good1 concatenated 3 times. */
+  expected_nali = 3;
+  strcpy(tmpfile, "esltmpXXXXXX");
+  if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+  for (i = 0; i < expected_nali; i++)
+    utest_write_good1(ofp, &expected_fmt, &expected_alphatype, &expected_nseq, &expected_alen);
+  fclose(ofp);
+  
+  /* open it and loop over it, reading MSAs. there should be 3, of the expected size.  */
+  if (eslx_msafile_Open(&abc, tmpfile, /*env=*/NULL, eslMSAFILE_UNKNOWN, /*fmtd=*/NULL, &afp) != eslOK) esl_fatal(msg);
+  if (abc->type   != expected_alphatype) esl_fatal(msg);
+  if (afp->format != expected_fmt)       esl_fatal(msg);
+  i = 0;
+  while ( eslx_msafile_Read(afp, &msa) == eslOK)
+    {
+      i++;
+      if (msa->nseq != expected_nseq) esl_fatal(msg);
+      if (msa->alen != expected_alen) esl_fatal(msg);
+      esl_msa_Destroy(msa);
+    }
+  if (i != expected_nali) esl_fatal(msg);
+
+  eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+}
+
+#endif /*eslMSAFILE_PHYLIP_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+
+#ifdef eslMSAFILE_PHYLIP_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_phylip_utest -DeslMSAFILE_PHYLIP_TESTDRIVE esl_msafile_phylip.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_phylip_utest -DeslMSAFILE_PHYLIP_TESTDRIVE esl_msafile_phylip.c -leasel -lm
+ * run:     ./esl_msafile_phylip_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msafile.h"
+#include "esl_msafile_phylip.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for PHYLIP MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]        = "PHYLIP MSA i/o module test driver failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  FILE           *ofp          = NULL;
+  int             ngoodtests;
+  int             nbadtests;
+  int             testnumber   = 0;
+  char            tmpfile[32];
+  int             expected_format;
+  int             expected_alphatype;
+  int             expected_errstatus;
+  int             expected_linenumber;
+  int             expected_nseq;
+  int             expected_alen;
+  char            expected_errmsg[eslERRBUFSIZE];
+
+  /* Test various correct versions of the format */
+  ngoodtests = 7;
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  2:  utest_write_good2 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  3:  utest_write_good3 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  4:  utest_write_good4 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  5:  utest_write_good5 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  6:  utest_write_good6 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  7:  utest_write_good7 (ofp, &expected_format, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_format, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+  /* Test for all the possible EFORMAT errors */
+  nbadtests = 11;
+  for (testnumber = 1; testnumber <= nbadtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+    
+      switch (testnumber) {
+      case  1:  utest_write_bad1 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  2:  utest_write_bad2 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  3:  utest_write_bad3 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  4:  utest_write_bad4 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  5:  utest_write_bad5 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  6:  utest_write_bad6 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  7:  utest_write_bad7 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  8:  utest_write_bad8 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case  9:  utest_write_bad9 (ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case 10:  utest_write_bad10(ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      case 11:  utest_write_bad11(ofp, &expected_alphatype, &expected_errstatus, &expected_linenumber, expected_errmsg); break;
+      }
+      fclose(ofp);
+      
+      utest_badfile(tmpfile, testnumber, expected_alphatype, expected_errstatus, expected_linenumber, expected_errmsg);
+      remove(tmpfile);
+    }
+
+  /* Other tests */
+  utest_seqboot();
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_PHYLIP_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+  
+
+/*****************************************************************
+ * 8. Example.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_PHYLIP_EXAMPLE
+/* A full-featured example of reading/writing an MSA in Phylip format(s).
+   gcc -g -Wall -o esl_msafile_phylip_example -I. -L. -DeslMSAFILE_PHYLIP_EXAMPLE esl_msafile_phylip.c -leasel -lm
+   ./esl_msafile_phylip_example <msafile>
+ */
+/*::cexcerpt::msafile_phylip_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_phylip.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",        0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-1", "no autodetection; use interleaved PHYLIP",    0 },
+  { "-2",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-2", "no autodetection; use sequential PHYLIPS",    0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary", 0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",          0 },
+  { "-w",          eslARG_INT,         "10",  NULL, NULL,  NULL,  NULL, NULL, "specify that format's name width is <n>",     0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",            0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing PHYLIP formats";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  ESLX_MSAFILE_FMTDATA fmtd;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_PHYLIP;  /* interleaved format */
+  else if (esl_opt_GetBoolean(go, "-2"))      infmt = eslMSAFILE_PHYLIPS; /* sequential format  */
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Variant PHYLIP formats allow nonstandard name field width. 
+   * Usually we can successfully guess this, when guessing format.
+   * But if PHYLIP or PHYLIPS format is set (no guessing), caller may also 
+   * want to allow a nonstandard name field width to be set.
+   */
+  eslx_msafile_fmtdata_Init(&fmtd);
+  fmtd.namewidth = esl_opt_GetInteger(go, "-w");
+  
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, &fmtd, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, &fmtd, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if ( (status = esl_msafile_phylip_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  printf("format variant: %s\n", eslx_msafile_DecodeFormat(afp->format));
+  printf("name width:     %d\n", afp->fmtd.namewidth); 
+  printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  if (afp->fmtd.namewidth != 10) fmtd.namewidth = afp->fmtd.namewidth;
+
+  if (! esl_opt_GetBoolean(go, "-q"))
+    esl_msafile_phylip_Write(stdout, msa, eslMSAFILE_PHYLIP, &fmtd);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_phylip_example::end::*/
+#endif /*eslMSAFILE_PHYLIP_EXAMPLE*/
+
+
+
+#ifdef eslMSAFILE_PHYLIP_EXAMPLE2
+/* A minimal example. Reading a strict interleaved PHYLIP MSA in text mode. 
+   gcc -g -Wall -o esl_msafile_phylip_example2 -I. -L. -DeslMSAFILE_PHYLIP_EXAMPLE2 esl_msafile_phylip.c -leasel -lm
+   ./esl_msafile_phylip_example2 <msafile>
+ */
+/*::cexcerpt::msafile_phylip_example2::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_phylip.h"
+
+int 
+main(int argc, char **argv)
+{
+  char         *filename = argv[1];
+  int           infmt    = eslMSAFILE_PHYLIP; /* or eslMSAFILE_PHYLIPS, for sequential format */
+  ESLX_MSAFILE *afp      = NULL;
+  ESL_MSA      *msa      = NULL;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp)) != eslOK) eslx_msafile_OpenFailure(afp, status);
+  if ( (status = esl_msafile_phylip_Read(afp, &msa))                         != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  esl_msafile_phylip_Write(stdout, msa, eslMSAFILE_PHYLIP, NULL);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_phylip_example::end::*/
+#endif /*eslMSAFILE_PHYLIP_EXAMPLE*/
+
+/*--------------------- end of example --------------------------*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_phylip.c 828 2012-12-05 11:56:15Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_phylip.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_phylip.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_phylip.h
new file mode 100755
index 0000000..21fcbd2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_phylip.h
@@ -0,0 +1,28 @@
+/* I/O of multiple sequence alignments in PHYLIP format
+ */
+#ifndef eslMSAFILE_PHYLIP_INCLUDED
+#define eslMSAFILE_PHYLIP_INCLUDED
+
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+extern int esl_msafile_phylip_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_phylip_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_phylip_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_phylip_Write        (FILE *fp, const ESL_MSA *msa, int format, ESLX_MSAFILE_FMTDATA *opt_fmtd);
+
+extern int esl_msafile_phylip_CheckFileFormat(ESL_BUFFER *bf, int *ret_format, int *ret_namewidth);
+
+#endif /* eslMSAFILE_PHYLIP_INCLUDED */
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_phylip.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_phylip.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_psiblast.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_psiblast.c
new file mode 100755
index 0000000..92d22b6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_psiblast.c
@@ -0,0 +1,828 @@
+/* I/O of multiple sequence alignments in PSI-BLAST format
+ * 
+ * Contents:
+ *   1. API for reading/writing PSI-BLAST format
+ *   2. Unit tests.
+ *   3. Test driver.
+ *   4. Examples.
+ *   5. Copyright and license information.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_psiblast.h"
+
+/*****************************************************************
+ *# 1. API for reading/writing PSI-BLAST format
+ *****************************************************************/
+
+/* Function:  esl_msafile_psiblast_SetInmap()
+ * Synopsis:  Set input map specific for PSI-BLAST input.
+ *
+ * Purpose:   Set the <afp->inmap> for PSI-BLAST format.
+ *            
+ *            PSI-BLAST only allows - for a gap. It also disallows O residues.
+ *
+ *            Text mode accepts any <isalpha()> character plus '-' but not 'O' or 'o'.
+ *            Digital mode enforces the usual Easel alphabets, but disallows "._*~".
+ */
+int
+esl_msafile_psiblast_SetInmap(ESLX_MSAFILE *afp)
+{
+   int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 0; sym < 128; sym++) 
+	afp->inmap[sym] = afp->abc->inmap[sym];
+      afp->inmap[0]   = esl_abc_XGetUnknown(afp->abc);
+      afp->inmap['.'] = eslDSQ_ILLEGAL;
+      afp->inmap['_'] = eslDSQ_ILLEGAL;
+      afp->inmap['*'] = eslDSQ_ILLEGAL;
+      afp->inmap['~'] = eslDSQ_ILLEGAL;
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++) 
+	afp->inmap[sym] = (isalpha(sym) ? sym : eslDSQ_ILLEGAL);
+      afp->inmap[0]   = '?';
+      afp->inmap['-'] = '-';
+    }
+
+  afp->inmap['O'] = eslDSQ_ILLEGAL;
+  afp->inmap['o'] = eslDSQ_ILLEGAL;
+  return eslOK;
+}
+
+/* Function:  esl_msafile_psiblast_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open PSI-BLAST MSA file.
+ *
+ * Purpose:   Guess the alpbabet of the sequences in open
+ *            PSI-BLAST format MSA file <afp>.
+ *            
+ *            On a normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original position.
+ *
+ * Args:      afp      - open PSI-BLAST format MSA file
+ *            ret_type - RETURN: <eslDNA>, <eslRNA>, or <eslAMINO>       
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if alphabet type can't be determined.
+ *            In either case, <afp> is rewound to the position it
+ *            started at.
+ */
+int
+esl_msafile_psiblast_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       alphatype     = eslUNKNOWN;
+  esl_pos_t anchor        = -1;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;
+  int       step          = 0;
+  int       nres          = 0;
+  int       x;
+  int64_t   ct[26];
+  char     *p, *tok;
+  esl_pos_t n,  toklen, pos;
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      if ((status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK) continue; /* blank lines */
+      /* p now points to the rest of the sequence line, after a name */
+      
+      /* count characters into ct[] array */
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A';
+	  ct[x]++;
+	  nres++; 
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+/* Function:  esl_msafile_psiblast_Read()
+ * Synopsis:  Read an alignment in PSI-BLAST's input format.
+ *
+ * Purpose:   Read an MSA from an open <ESLX_MSAFILE> <afp>, parsing for
+ *            PSI-BLAST input format, starting from the current point.
+ *            Create a new multiple alignment, and return a ptr to 
+ *            that alignment via <*ret_msa>. Caller is responsible for
+ *            free'ing this <ESL_MSA>.
+ *            
+ *            The <msa> has a reference line (<msa->rf[]>) that
+ *            corresponds to the uppercase/lowercase columns in the
+ *            alignment: consensus (uppercase) columns are marked 'x',
+ *            and insert (lowercase) columns are marked '.' in this RF
+ *            line.
+ *            
+ * Args:      afp     - open <ESL_MSAFILE>
+ *            ret_msa - RETURN: newly parsed <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success. <*ret_msa> contains the newly
+ *            allocated MSA. <afp> is at EOF.
+ *
+ *            <eslEOF> if no (more) alignment data are found in
+ *            <afp>, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslESYS> if a system call fails, such as fread().
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ *            On these, <*ret_msa> is returned <NULL>, and the state of
+ *            <afp> is undefined.
+ */
+int
+esl_msafile_psiblast_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa      = NULL;
+  int       idx      = 0;	/* counter over sequences in a block */
+  int       nblocks  = 0;	/* counter over blocks */
+  int64_t   alen     = 0;	
+  int       nseq     = 0;
+  int64_t   cur_alen;
+  esl_pos_t pos;		/* position on a line */
+  esl_pos_t name_start,      name_len;
+  esl_pos_t seq_start,       seq_len;
+  esl_pos_t block_seq_start, block_seq_len;
+  int       status;
+
+  ESL_DASSERT1( (afp->format == eslMSAFILE_PSIBLAST) );
+
+  afp->errmsg[0] = '\0';
+  
+  /* allocate a growable MSA. We set msa->{nseq,alen} only when we're done. */
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc   &&  (msa = esl_msa_CreateDigital(afp->abc, 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+#endif
+  if (! afp->abc &&  (msa = esl_msa_Create(                 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  /* skip leading blank lines in file */
+  while ( (status = eslx_msafile_GetLine(afp, NULL, NULL)) == eslOK && esl_memspn(afp->line, afp->n, " \t") == afp->n) ;
+  if (status != eslOK)  goto ERROR; /* includes normal EOF */
+  
+  /* Read the file a line at a time; if a parsing error occurs, detect immediately, with afp->linenumber set correctly */
+   do { /* while in the file... */
+    idx = 0;
+    do { /* while in a block... */
+      for (pos = 0;     pos < afp->n; pos++) if (! isspace(afp->line[pos])) break;  name_start = pos; 
+      for (pos = pos+1; pos < afp->n; pos++) if (  isspace(afp->line[pos])) break;  name_len   = pos - name_start;
+      for (pos = pos+1; pos < afp->n; pos++) if (! isspace(afp->line[pos])) break;  seq_start  = pos;      
+      if (pos >= afp->n) ESL_XFAIL(eslEFORMAT, afp->errmsg, "invalid alignment line");
+      for (pos = afp->n-1; pos > 0; pos--)   if (! isspace(afp->line[pos])) break;  seq_len    = pos - seq_start + 1;
+
+      if (idx == 0) {
+	block_seq_start = seq_start;
+	block_seq_len   = seq_len;
+      } else {
+	if (seq_start != block_seq_start) ESL_XFAIL(eslEFORMAT, afp->errmsg, "sequence start is misaligned");
+	if (seq_len   != block_seq_len)   ESL_XFAIL(eslEFORMAT, afp->errmsg, "sequence end is misaligned");
+      }
+      
+      /* Process the consensus #=RF line. */
+      if (idx == 0) {
+	ESL_REALLOC(msa->rf, sizeof(char) * (alen + seq_len + 1));
+	for (pos = 0; pos < seq_len; pos++) msa->rf[alen+pos] = '-'; /* anything neutral other than . or x will do. */
+	msa->rf[alen+pos] = '\0';
+      }
+      for (pos = 0; pos < seq_len; pos++) 
+	{
+	  if (afp->line[seq_start+pos] == '-') continue;
+	  if (isupper(afp->line[seq_start+pos])) {
+	    if (msa->rf[alen+pos] == '.') ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected upper case residue (#%d on line)", (int) pos+1);
+	    msa->rf[alen+pos] = 'x';
+	  }
+	  if (islower(afp->line[seq_start+pos])) {
+	    if (msa->rf[alen+pos] == 'x') ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected lower case residue (#%d on line)", (int) pos+1);
+	    msa->rf[alen+pos] = '.';
+	  }
+	}
+
+      /* Store the sequence name. */
+      if (nblocks == 0)	{
+	/* make sure we have room for another sequence */
+	if (idx >= msa->sqalloc &&  (status = esl_msa_Expand(msa))                   != eslOK) goto ERROR;
+	if ( (status = esl_msa_SetSeqName(msa, idx, afp->line+name_start, name_len)) != eslOK) goto ERROR;
+      } else {
+	if (! esl_memstrcmp(afp->line+name_start, name_len, msa->sqname[idx]))
+	  ESL_XFAIL(eslEFORMAT, afp->errmsg, "expected sequence %s on this line, but saw %.*s", msa->sqname[idx], (int) name_len, afp->line+name_start);
+      }
+
+      /* Append the sequence. */
+      cur_alen = alen;
+#ifdef eslAUGMENT_ALPHABET
+      if (msa->abc)    { status = esl_abc_dsqcat(afp->inmap, &(msa->ax[idx]),   &(cur_alen), afp->line+seq_start, seq_len); }
+#endif
+      if (! msa->abc)  { status = esl_strmapcat (afp->inmap, &(msa->aseq[idx]), &(cur_alen), afp->line+seq_start, seq_len); }
+      if      (status == eslEINVAL)    ESL_XFAIL(eslEFORMAT, afp->errmsg, "one or more invalid sequence characters");
+      else if (status != eslOK)        goto ERROR;
+      if (cur_alen - alen != seq_len)  ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected number of seq characters");
+      
+      /* get next line. if it's blank, or if we're EOF, we're done with the block */
+      idx++;
+      status = eslx_msafile_GetLine(afp, NULL, NULL);
+    } while (status == eslOK && esl_memspn(afp->line, afp->n, " \t") < afp->n); /* blank line ends a block. */
+    if (status != eslOK && status != eslEOF) goto ERROR; 
+    /* End of one block */
+    
+    if     (nblocks == 0) nseq = idx;
+    else if (idx != nseq) ESL_XFAIL(eslEFORMAT, afp->errmsg, "last block didn't contain same # of seqs as earlier blocks");
+    alen += block_seq_len;
+    nblocks++;
+
+    /* skip blank lines to start of next block, if any */
+    while ( (status = eslx_msafile_GetLine(afp, NULL, NULL)) == eslOK  && esl_memspn(afp->line, afp->n, " \t") == afp->n) ;
+   } while (status == eslOK);
+   if (status != eslEOF) goto ERROR;
+   
+   msa->nseq = nseq;
+   msa->alen = alen;
+   if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+   *ret_msa  = msa;
+   return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+/* Function:  esl_msafile_psiblast_Write()
+ * Synopsis:  Write an MSA to a stream in PSI-BLAST format
+ *
+ * Purpose:   Write alignment <msa> in NCBI PSI-BLAST format to 
+ *            stream <fp>.
+ *            
+ *            The <msa> should have a valid reference line <msa->rf>,
+ *            with alphanumeric characters marking consensus (match)
+ *            columns, and non-alphanumeric characters marking
+ *            nonconsensus (insert) columns. If it does not have RF
+ *            annotation, then the first sequence in the <msa> 
+ *            defines the "consensus".
+ *            
+ *            PSI-BLAST format allows only one symbol ('-') for gaps,
+ *            and cannot represent missing data symbols (Easel's
+ *            '~'). Any missing data symbols are converted to gaps.
+ *
+ * Args:      fp  - open output stream
+ *            msa - MSA to write       
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEWRITE> on any system write failure, such as filled disk.
+ */
+int
+esl_msafile_psiblast_Write(FILE *fp, const ESL_MSA *msa)
+{
+  char    *buf = NULL;
+  int      cpl = 60;
+  int      acpl;
+  int      i;
+  int      sym;
+  int64_t  pos, bpos;
+  int      maxnamewidth = esl_str_GetMaxWidth(msa->sqname, msa->nseq);
+  int      is_consensus;
+  int      is_residue;
+  int      status;
+
+  ESL_ALLOC(buf, sizeof(char) * (cpl+1));
+
+  for (pos = 0; pos < msa->alen; pos += cpl)
+    {
+      for (i = 0; i < msa->nseq; i++)
+	{
+	  acpl =  (msa->alen - pos > cpl)? cpl : msa->alen - pos;
+
+#ifdef eslAUGMENT_ALPHABET
+	  if (msa->abc)
+	    {
+	      for (bpos = 0; bpos < acpl; bpos++)
+		{
+		  sym          = msa->abc->sym[msa->ax[i][pos + bpos + 1]];
+		  is_residue   = esl_abc_XIsResidue(msa->abc, msa->ax[i][pos+bpos+1]);
+		  if (msa->rf) is_consensus = (isalnum(msa->rf[pos + bpos]) ? TRUE : FALSE);
+		  else         is_consensus = (esl_abc_XIsResidue(msa->abc, msa->ax[0][pos+bpos+1]) ? TRUE : FALSE);
+				      
+		  if (is_consensus) { buf[bpos] = (is_residue ? toupper(sym) : '-'); }
+		  else              { buf[bpos] = (is_residue ? tolower(sym) : '-'); }
+		}
+	    }
+#endif
+	  if (! msa->abc)
+	    {
+	      for (bpos = 0; bpos < acpl; bpos++)
+		{
+		  sym          = msa->aseq[i][pos + bpos];
+		  is_residue   = isalnum(sym);
+		  if (msa->rf) is_consensus = (isalnum(msa->rf[pos + bpos]) ? TRUE : FALSE);
+		  else         is_consensus = (isalnum(msa->aseq[0][pos+bpos]) ? TRUE : FALSE);
+
+		  if (is_consensus) { buf[bpos] = (is_residue ? toupper(sym) : '-'); }
+		  else              { buf[bpos] = (is_residue ? tolower(sym) : '-'); }
+		}
+	    }
+	  buf[acpl] = '\0';	      
+	  if (fprintf(fp, "%-*s  %s\n", maxnamewidth, msa->sqname[i], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "psiblast msa write failed");
+	}  /* end loop over sequences */
+
+      if (pos + cpl < msa->alen) 
+	{ if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "psiblast msa write failed"); }
+    }
+  free(buf);
+  return eslOK;
+
+ ERROR:
+  if (buf) free(buf);
+  return status;
+}
+/*----------- end, API for i/o of psi-blast format --------------*/
+
+
+
+/*****************************************************************
+ * 2. Unit tests.
+ *****************************************************************/
+#ifdef eslMSAFILE_PSIBLAST_TESTDRIVE
+static void
+utest_write_good1(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("MYG_PHYCA   --------V-LSEGEWQLVLHVWAKVEADVAGHGQDILIRLFKSHPETLEKFDRFKHLKT\n", ofp);
+  fputs("GLB5_PETMA  pivdtgsvApLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTT\n", ofp);
+  fputs("HBB_HUMAN   --------VhLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLST\n", ofp);
+  fputs("HBA_HUMAN   --------V-LSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF-----\n", ofp);
+  fputs("\n", ofp);
+  fputs("MYG_PHYCA   EAEMKASEDLKKHGVTVLTALGAILKKKGH---HEAELKPLAQSHATKHKIPIKYLEFIS\n", ofp);
+  fputs("GLB5_PETMA  ADQLKKSADVRWHAERIINAVNDAVASMDDtekMSMKLRDLSGKHAKSFQVDPQYFKVLA\n", ofp);
+  fputs("HBB_HUMAN   PDAVMGNPKVKAHGKKVLGAFSDGLAHLDN---LKGTFATLSELHCDKLHVDPENFRLLG\n", ofp);
+  fputs("HBA_HUMAN   -DLSHGSAQVKGHGKKVADALTNAVAHVDD---MPNALSALSDLHAHKLRVDPVNFKLLS\n", ofp);
+  fputs("\n", ofp);
+  fputs("MYG_PHYCA   EAIIHVLHSRHPGDFGADAQGAMNKALELFRKDIAAKYKELGYQG\n", ofp);
+  fputs("GLB5_PETMA  AVI---------ADTVAAGDAGFEKLMSMICILLRSAY-------\n", ofp);
+  fputs("HBB_HUMAN   NVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH------\n", ofp);
+  fputs("HBA_HUMAN   HCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR------\n", ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 4;
+  *ret_alen      = 165;
+}
+
+static void
+utest_write_good2(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("tRNA2  UCCGAUAUAGUGUAACGGCUAUCACAUCACGCUUUCACCGUGG-AGACCGGGGUUCGACU\n", ofp);
+  fputs("tRNA3  UCCGUGAUAGUUUAAUGGUCAGAAUGG-GCGCUUGUCGCGUGCcAGAUCGGGGUUCAAUU\n", ofp);
+  fputs("tRNA5  GGGCACAUGGCGCAGUUGGUAGCGCGCUUCCCUUGCAAGGAAGaGGUCAUCGGUUCGAUU\n", ofp);
+  fputs("tRNA1  GCGGAUUUAGCUCAGUUGGGAGAGCGCCAGACUGAAGAUCUGGaGGUCCUGUGUUCGAUC\n", ofp);
+  fputs("tRNA4  GCUCGUAUGGCGCAGUGG-UAGCGCAGCAGAUUGCAAAUCUGUuGGUCCUUAGUUCGAUC\n", ofp);
+  fputs("\n", ofp);
+  fputs("tRNA2  CCCCGUAUCGGAG\n", ofp);
+  fputs("tRNA3  CCCCGUCGCGGAG\n", ofp);
+  fputs("tRNA5  CCGGUUGCGUCCA\n", ofp);
+  fputs("tRNA1  CACAGAAUUCGCA\n", ofp);
+  fputs("tRNA4  CUGAGUGCGAGCU\n", ofp);
+  *ret_alphatype = eslRNA;
+  *ret_nseq      = 5;
+  *ret_alen      = 73;
+}
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  /* PSIBLAST format is autodetected as SELEX, which is fine - selex parser is more general */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("psiblast good file test %d failed: digital open",           testnumber);  
+  if (afp->format != eslMSAFILE_SELEX)                                                              esl_fatal("psiblast good file test %d failed: format autodetection",   testnumber); 
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("psiblast good file test %d failed: alphabet autodetection", testnumber);
+  afp->format = eslMSAFILE_PSIBLAST;
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_psiblast_Read(afp, &msa1))   != eslOK) esl_fatal("psiblast good file test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen)   esl_fatal("psiblast good file test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                        esl_fatal("psiblast good file test %d failed: msa1 invalid",      testnumber);
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp))      != eslOK) esl_fatal("psiblast good file test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_psiblast_Write(ofp, msa1))  != eslOK) esl_fatal("psiblast good file test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, eslMSAFILE_PSIBLAST, NULL, &afp)) != eslOK) esl_fatal("psiblast good file test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_psiblast_Read(afp, &msa2))                                    != eslOK) esl_fatal("psiblast good file test %d failed: msa read, text", testnumber);  
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                                    esl_fatal("psiblast good file test %d failed: nseq/alen",      testnumber);
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                         esl_fatal("psiblast good file test %d failed: msa2 invalid",   testnumber);
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp))      != eslOK) esl_fatal("psiblast good file test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_psiblast_Write(ofp, msa2))  != eslOK) esl_fatal("psiblast good file test %d failed: msa write, text",  testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, eslMSAFILE_PSIBLAST, NULL, &afp)) != eslOK) esl_fatal("psiblast good file test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_psiblast_Read(afp, &msa2))                                    != eslOK) esl_fatal("psiblast good file test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                         esl_fatal("psiblast good file test %d failed: msa2 invalid",          testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("psiblast good file test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+write_test_msas(FILE *ofp1, FILE *ofp2)
+{
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, "seq1  --ACDEFGHIKLMNPQRSTVWY\n");
+  fprintf(ofp1, "seq2  --ACDEFGHIKLMNPQRSTV-- \n");
+  fprintf(ofp1, "seq3  aaACDEFGHIKLMNPQRSTV--  \n");
+  fprintf(ofp1, "seq4  --ACDEFGHIKLMNPQRSTVWY  \n");
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, "seq1  ACDEFGHIKLMNPQRSTVWY--\n");
+  fprintf(ofp1, "seq2  ACDEFGHIKLMNPQRSTVWYyy\n");
+  fprintf(ofp1, "seq3  ACDEFGHIKLMNPQRSTVWY--\n");
+  fprintf(ofp1, "seq4  ACDEFGHIKLMNPQRSTVWY--\n");
+  fprintf(ofp1, "\n");
+
+  fprintf(ofp2, "# STOCKHOLM 1.0\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "#=GC RF ..xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx..\n");
+  fprintf(ofp2, "seq1    --ACDEFGHIKLMNPQRSTVWYACDEFGHIKLMNPQRSTVWY--\n");
+  fprintf(ofp2, "seq2    --ACDEFGHIKLMNPQRSTV--ACDEFGHIKLMNPQRSTVWYyy\n");
+  fprintf(ofp2, "seq3    aaACDEFGHIKLMNPQRSTV--ACDEFGHIKLMNPQRSTVWY--\n");
+  fprintf(ofp2, "seq4    --ACDEFGHIKLMNPQRSTVWYACDEFGHIKLMNPQRSTVWY--\n");
+  fprintf(ofp2, "//\n");
+}
+
+static void
+read_test_msas_digital(char *pbfile, char *stkfile)
+{
+  char msg[]         = "PSIBLAST msa digital read unit test failed";
+  ESL_ALPHABET *abc  = NULL;
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *pbfp, *stkfp;
+  char          pbfile2[32]  = "esltmppb2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  if ( eslx_msafile_Open(&abc, pbfile,  NULL, eslMSAFILE_PSIBLAST,  NULL, &afp1) != eslOK)  esl_fatal(msg);
+  if ( !abc || abc->type != eslAMINO)                                                       esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_psiblast_Read (afp1, &msa1)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                   != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                               != eslOK)  esl_fatal(msg);
+  
+  if ( esl_msafile_psiblast_Read (afp1, &msa3)                               != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                               != eslEOF) esl_fatal(msg);
+
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  /* Now write stk to psiblast file, and vice versa; then retest */
+  if ( esl_tmpfile_named(pbfile2,  &pbfp)                                   != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_psiblast_Write  (pbfp, msa2)                             != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)       != eslOK) esl_fatal(msg);
+  fclose(pbfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(&abc, pbfile2,  NULL, eslMSAFILE_PSIBLAST,  NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_psiblast_Read (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(pbfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+read_test_msas_text(char *pbfile, char *stkfile)
+{
+  char msg[]         = "PSIBLAST msa text-mode read unit test failed";
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *pbfp, *stkfp;
+  char          pbfile2[32]  = "esltmppb2XXXXXX";
+  char          stkfile2[32] = "esltmpstk2XXXXXX";
+
+  /*                     vvvv-- everything's the same as the digital utest except these NULLs  */
+  if ( eslx_msafile_Open(NULL, pbfile,  NULL, eslMSAFILE_PSIBLAST,  NULL, &afp1)   != eslOK)  esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2)   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_psiblast_Read (afp1, &msa1)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                                 != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_psiblast_Read (afp1, &msa3)                                     != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                                     != eslEOF) esl_fatal(msg);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  if ( esl_tmpfile_named(pbfile2, &pbfp)                                     != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                   != eslOK) esl_fatal(msg);
+  if ( esl_msafile_psiblast_Write (pbfp,  msa2)                              != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)        != eslOK) esl_fatal(msg);
+  fclose(pbfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(NULL, pbfile2,  NULL, eslMSAFILE_PSIBLAST,  NULL, &afp1)  != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2)  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_psiblast_Read (afp1, &msa3)                                     != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                     != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                 != eslOK) esl_fatal(msg);
+
+  remove(pbfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+}
+#endif /*eslMSAFILE_PSIBLAST_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 3. Test driver.
+ *****************************************************************/
+#ifdef eslMSAFILE_PSIBLAST_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_psiblast_utest -DeslMSAFILE_PSIBLAST_TESTDRIVE esl_msafile_psiblast.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_psiblast_utest -DeslMSAFILE_PSIBLAST_TESTDRIVE esl_msafile_psiblast.c -leasel -lm
+ * run:     ./esl_msafile_psiblast_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+#include "esl_msafile_psiblast.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for PSIBLAST MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]        = "PSI-BLAST MSA i/o module test driver failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  char            pbfile[32]   = "esltmppbXXXXXX";
+  char            stkfile[32]  = "esltmpstkXXXXXX";
+  FILE           *pbfp, *stkfp;
+  int             testnumber;
+  int             ngoodtests = 2;
+  char            tmpfile[32];
+  FILE           *ofp;
+  int             expected_alphatype;
+  int             expected_nseq;
+  int             expected_alen;
+
+  if ( esl_tmpfile_named(pbfile,  &pbfp)  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile, &stkfp) != eslOK) esl_fatal(msg);
+  write_test_msas(pbfp, stkfp);
+  fclose(pbfp);
+  fclose(stkfp);
+
+  read_test_msas_digital(pbfile, stkfile);
+  read_test_msas_text   (pbfile, stkfile);
+
+  /* Various "good" files that should be parsed correctly */
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  2:  utest_write_good2 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+  remove(pbfile);
+  remove(stkfile);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_PSIBLAST_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Examples.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_PSIBLAST_EXAMPLE
+/* A full-featured example of reading/writing an MSA in PSIBLAST format.
+   gcc -g -Wall -o esl_msafile_psiblast_example -I. -L. -DeslMSAFILE_PSIBLAST_EXAMPLE esl_msafile_psiblast.c -leasel -lm
+   ./esl_msafile_psiblast_example <msafile>
+ */
+/*::cexcerpt::msafile_psiblast_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_psiblast.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",            0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "override autodetection; force PSIBLAST format",   0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary",     0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",              0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                    0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                    0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing PSIBLAST format";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_PSIBLAST;  /* override format autodetection */
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if ((status = esl_msafile_psiblast_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  if (! esl_opt_GetBoolean(go, "-q"))
+    esl_msafile_psiblast_Write(stdout, msa);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_psiblast_example::end::*/
+#endif /*eslMSAFILE_PSIBLAST_EXAMPLE*/
+
+
+#ifdef eslMSAFILE_PSIBLAST_EXAMPLE2
+/* A minimal example. Read PSIBLAST format MSA, in text mode.
+   gcc -g -Wall -o esl_msafile_psiblast_example2 -I. -L. -DeslMSAFILE_PSIBLAST_EXAMPLE2 esl_msafile_psiblast.c -leasel -lm
+   ./esl_msafile_psiblast_example2 <msafile>
+ */
+
+/*::cexcerpt::msafile_psiblast_example2::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_psiblast.h"
+
+int 
+main(int argc, char **argv)
+{
+  char         *filename = argv[1];
+  int           fmt      = eslMSAFILE_PSIBLAST;
+  ESLX_MSAFILE *afp      = NULL;
+  ESL_MSA      *msa      = NULL;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, fmt, NULL, &afp)) != eslOK) eslx_msafile_OpenFailure(afp, status);
+  if ( (status = esl_msafile_psiblast_Read(afp, &msa))                     != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+  printf("%6d seqs, %5d columns\n", msa->nseq, (int) msa->alen);
+
+  esl_msafile_psiblast_Write(stdout, msa);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_psiblast_example2::end::*/
+#endif /*eslMSAFILE_PSIBLAST_EXAMPLE2*/
+/*--------------------- end of examples -------------------------*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_psiblast.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_psiblast.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_psiblast.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_psiblast.h
new file mode 100755
index 0000000..8b760a2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_psiblast.h
@@ -0,0 +1,26 @@
+/* I/O of multiple sequence alignments in PSI-BLAST format
+ */
+#ifndef eslMSAFILE_PSIBLAST_INCLUDED
+#define eslMSAFILE_PSIBLAST_INCLUDED
+
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+extern int esl_msafile_psiblast_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_psiblast_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_psiblast_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_psiblast_Write        (FILE *fp, const ESL_MSA *msa);
+
+#endif /* eslMSAFILE_PSIBLAST_INCLUDED */
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_psiblast.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_psiblast.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_selex.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_selex.c
new file mode 100755
index 0000000..c00ac3b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_selex.c
@@ -0,0 +1,1263 @@
+/* I/O of multiple sequence alignment files in SELEX format
+ *
+ * Contents:
+ *   1. API for reading/writing SELEX input.
+ *   2. Internal functions for a block of input lines.
+ *   3. Internal functions for parsing SELEX input.
+ *   4. Unit tests.
+ *   5. Test driver.
+ *   6. Examples.
+ *   7. License and copyright.
+ *   
+ * Notes:
+ *   In SELEX, a tricky and unusual issue is that spaces are allowed
+ *   as gaps, and can even overlap names. Alignments like this are
+ *   legitimate:
+ *        seq1_longname ACCCGGT
+ *        seq2      AAAAACCCGGTT
+ *  
+ *  You can't determine the aligned length of any sequence in the
+ *  block without seeing the whole block.  We define an internal
+ *  object (an ESL_SELEX_BLOCK) and some local functions to handle
+ *  reading a block of input lines from an input buffer.
+ *
+ *  Even though spaces are allowed as gaps in input files, Easel
+ *  disallows them internally, even in text-mode alignments. Any
+ *  spaces are mapped to '.'.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_selex.h"
+
+#define eslSELEX_LINE_SQ 1
+#define eslSELEX_LINE_RF 2
+#define eslSELEX_LINE_CS 3
+#define eslSELEX_LINE_SS 4
+#define eslSELEX_LINE_SA 5
+#define eslSELEX_LINE_MM 6
+
+typedef struct {
+  char     **line;		/* line[0..nlines-1][0..llen-1]: memory lines in input buffer */
+  esl_pos_t *llen;		/* length of line[] in bytes                                  */
+  esl_pos_t *offsets;		/* offset of start of each line in input buffer               */
+  int64_t   *linenum;		/* line number of each line[] in input                        */
+  int       *ltype;		/* code for line type: eslSELEX_LINE_SQ, etc.                 */
+  esl_pos_t *lpos;		/* leftmost position of seq data on line[], 0..llen-1 [or -1] */
+  esl_pos_t *rpos;              /* rightmost pos of seq data on line[], 0..llen-1 [or -1]     */
+  int        nlines;		/* number of lines in this block                              */
+  int        nalloc;		/* number of lines allocated for (>=nlines)                   */
+  esl_pos_t  anchor;		/* input buffer anchor set at the start of the block          */
+} ESL_SELEX_BLOCK;
+
+static ESL_SELEX_BLOCK *selex_block_Create(int nalloc);
+static int              selex_block_Grow(ESL_SELEX_BLOCK *b);
+static void             selex_block_Destroy(ESL_SELEX_BLOCK *b);
+
+static int selex_ErrorInBlock(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, int idx);
+static int selex_read_block  (ESLX_MSAFILE *afp, ESL_SELEX_BLOCK **block_p);
+static int selex_first_block (ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, ESL_MSA **ret_msa);
+static int selex_other_block (ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, ESL_MSA *msa);
+static int selex_append_block(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, ESL_MSA *msa);
+
+
+/*****************************************************************
+ * 1. API for reading/writing SELEX input
+ *****************************************************************/
+
+/* Function:  esl_msafile_selex_SetInmap()
+ * Synopsis:  Set the input map for SELEX format
+ *
+ * Purpose:   Set <afp->inmap> for selex input.
+ *
+ *            In text mode, accept any <isgraph()> character, plus space.
+ *            In digital mode, accept standard Easel alphabets, plus map
+ *            space to gap.
+ *
+ *            SELEX not only tolerates spaces in input, it
+ *            allows a space as a gap character. (Which significantly
+ *            complicates parsing.)
+ *            
+ *            The inmap may not contain any <eslDSQ_IGNORED> mappings.
+ *            Annotation lines are parsed literally: every character
+ *            is copied. If some characters of the aligned sequence
+ *            were ignored, we'd be misaligned with the annotation.
+ *            In general, because of this, it seems unlikely that any
+ *            alignment format would use <eslDSQ_IGNORED> mappings.
+ */
+int
+esl_msafile_selex_SetInmap(ESLX_MSAFILE *afp)
+{
+  int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 0; sym < 128; sym++) 
+	afp->inmap[sym] = afp->abc->inmap[sym];
+      afp->inmap[0]   = esl_abc_XGetUnknown(afp->abc);
+      afp->inmap[' '] = esl_abc_XGetGap(afp->abc);
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++) 
+	afp->inmap[sym] = (isgraph(sym) ? sym : eslDSQ_ILLEGAL);
+      afp->inmap[0]   = '?';
+      afp->inmap[' '] = '.'; /* Easel does not allow spaces as gap characters. */
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_msafile_selex_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open PSI-BLAST MSA file.
+ *
+ * Purpose:   Guess the alpbabet of the sequences in open
+ *            SELEX format MSA file <afp>.
+ *            
+ *            On a normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original position.
+ *
+ * Args:      afp      - open SELEX format MSA file
+ *            ret_type - RETURN: <eslDNA>, <eslRNA>, or <eslAMINO>       
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if alphabet type can't be determined.
+ *            In either case, <afp> is rewound to the position it
+ *            started at.
+ */
+int
+esl_msafile_selex_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       alphatype     = eslUNKNOWN;
+  esl_pos_t anchor        = -1;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;
+  int       step          = 0;
+  int       nres          = 0;
+  int       x;
+  int64_t   ct[26];
+  char     *p, *tok;
+  esl_pos_t n,  toklen, pos;
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      if ((status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK) continue; /* blank lines */
+      if (*tok == '#') continue; /* comments and annotation */
+      /* p now points to the rest of the sequence line, after a name */
+      
+      /* count characters into ct[] array */
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A';
+	  ct[x]++; 
+	  nres++; 
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+
+/* Function:  esl_msafile_selex_Read()
+ * Synopsis:  Read in a SELEX format alignment.
+ *
+ * Purpose:   Read an MSA from an open <ESLX_MSAFILE> <afp>, 
+ *            parsing for SELEX format, starting from the
+ *            current point. (<afp->format> is expected to
+ *            be <eslMSAFILE_SELEX>.) Create a new multiple
+ *            alignment and return it via <*ret_msa>. 
+ *            Caller is responsible for free'ing this
+ *            <ESL_MSA>.
+ *
+ * Args:      afp     - open <ESLX_MSAFILE>
+ *            ret_msa - RETURN: newly parsed <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslEOF> if no (more) alignment data are found in
+ *            <afp>, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *
+ * Throws:    <eslEMEM> - an allocation failed.
+ *            <eslESYS> - a system call such as fread() failed
+ *            <eslEINCONCEIVABLE> - "impossible" corruption 
+ */
+int
+esl_msafile_selex_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA         *msa     = NULL;
+  ESL_SELEX_BLOCK *b       = NULL;
+  int32_t          nblocks = 0;
+  int              status;
+
+  ESL_DASSERT1( (afp->format == eslMSAFILE_SELEX) );
+  
+  afp->errmsg[0] = '\0';
+
+  while ( (status = selex_read_block(afp, &b)) == eslOK)
+    {
+      if      (! nblocks &&  (status = selex_first_block(afp, b, &msa)) != eslOK) goto ERROR;
+      else if (  nblocks &&  (status = selex_other_block(afp, b, msa))  != eslOK) goto ERROR;
+
+      if ((status = selex_append_block(afp, b, msa)) != eslOK) goto ERROR;
+
+      esl_buffer_RaiseAnchor(afp->bf, b->anchor);
+      b->anchor = -1;
+
+      nblocks++;
+    }
+  /* selex_read_block took care of destroying the block! */
+  if (status != eslEOF || nblocks == 0) goto ERROR;
+
+  msa->offset = 0;
+  if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (b) {
+    if (b->anchor != -1) esl_buffer_RaiseAnchor(afp->bf, b->anchor);
+    selex_block_Destroy(b);
+  }
+  *ret_msa = NULL;
+  return status;
+}
+
+/* Function:  esl_msafile_selex_Write()
+ * Synopsis:  Write a SELEX format alignment to a stream
+ *
+ * Purpose:   Write alignment <msa> to output stream <fp>,
+ *            in SELEX format. The alignment is written
+ *            in blocks of 60 aligned residues at a time.
+ *
+ * Args:      fp  - open output stream, writable
+ *            msa - alignment to write
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on any system write error, such
+ *             as a filled disk.
+ */
+int
+esl_msafile_selex_Write(FILE *fp, const ESL_MSA *msa)
+{
+  int     cpl        = 60;
+  int     maxnamelen = 4;		/* init to 4 because minimum name field is #=CS, etc. */
+  int     namelen;
+  char   *buf        = NULL;
+  int     i;
+  int64_t apos;
+  int     status;
+
+  ESL_ALLOC(buf, sizeof(char) * (cpl+1));
+  buf[cpl] = '\0';
+  for (i = 0; i < msa->nseq; i++) {
+    namelen    = strlen(msa->sqname[i]);
+    maxnamelen = ESL_MAX(namelen, maxnamelen);
+  }
+
+  for (apos = 0; apos < msa->alen; apos += cpl)
+    {
+      if (apos         && fprintf(fp, "\n")                                                      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed");
+      if (msa->ss_cons && fprintf(fp, "%-*s %.*s\n", maxnamelen, "#=CS", cpl, msa->ss_cons+apos) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed");
+      if (msa->rf      && fprintf(fp, "%-*s %.*s\n", maxnamelen, "#=RF", cpl, msa->rf+apos)      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed");
+      if (msa->mm      && fprintf(fp, "%-*s %.*s\n", maxnamelen, "#=MM", cpl, msa->mm+apos)      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed");
+
+      for (i = 0; i < msa->nseq; i++)
+	{
+#ifdef eslAUGMENT_ALPHABET 
+	  if (msa->abc)   esl_abc_TextizeN(msa->abc, msa->ax[i]+apos+1, cpl, buf);
+#endif
+	  if (! msa->abc) strncpy(buf, msa->aseq[i]+apos, cpl);
+	  if (fprintf(fp, "%-*s %s\n", maxnamelen, msa->sqname[i], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed");
+
+	  if (msa->ss && msa->ss[i]) { if (fprintf(fp, "%-*s %.*s\n", maxnamelen, "#=SS", cpl, msa->ss[i]+apos) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed"); }
+	  if (msa->sa && msa->sa[i]) { if (fprintf(fp, "%-*s %.*s\n", maxnamelen, "#=SA", cpl, msa->sa[i]+apos) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "selex msa write failed"); }
+	}
+    }
+
+  free(buf);
+  return eslOK;
+  
+ ERROR:
+  if (buf) free(buf);
+  return status;
+}
+/*--------------------- end, SELEX i/o API ----------------------*/
+
+
+
+/*****************************************************************
+ * 2. Internal functions handling a block of input lines.
+ *****************************************************************/
+
+static ESL_SELEX_BLOCK *
+selex_block_Create(int nalloc)
+{
+  ESL_SELEX_BLOCK *b = NULL;
+  int              idx;
+  int              status;
+  
+  ESL_ALLOC(b,       sizeof(ESL_SELEX_BLOCK));
+  b->line    = NULL;
+  b->llen    = NULL;
+  b->offsets = NULL;
+  b->linenum = NULL;
+  b->ltype   = NULL;
+  b->lpos    = NULL;
+  b->rpos    = NULL;
+  b->nlines  = 0;
+  b->anchor  = -1;		/* -1 is a flag for "unused" */
+
+  ESL_ALLOC(b->line,    sizeof(char *)    * nalloc);
+  ESL_ALLOC(b->llen,    sizeof(esl_pos_t) * nalloc);
+  ESL_ALLOC(b->offsets, sizeof(esl_pos_t) * nalloc);
+  ESL_ALLOC(b->linenum, sizeof(int64_t)   * nalloc);
+  ESL_ALLOC(b->ltype,   sizeof(int)       * nalloc);
+  ESL_ALLOC(b->lpos,    sizeof(esl_pos_t) * nalloc);
+  ESL_ALLOC(b->rpos,    sizeof(esl_pos_t) * nalloc);
+  for (idx = 0; idx < nalloc; idx++) 
+    { 
+      b->line[idx]    = NULL; 
+      b->llen[idx]    = 0; 
+      b->offsets[idx] = 0; 
+      b->linenum[idx] = 0; 
+      b->ltype[idx]   = 0; 
+      b->lpos[idx]    = 0; 
+      b->rpos[idx]    = 0; 
+    }
+  b->nalloc = nalloc;
+  return b;
+
+ ERROR:
+  if (b) selex_block_Destroy(b);
+  return NULL;
+}
+
+static int
+selex_block_Grow(ESL_SELEX_BLOCK *b)
+{
+  int idx;
+  int status;
+
+  ESL_REALLOC(b->line,    sizeof(char *)    * b->nalloc * 2);
+  ESL_REALLOC(b->llen,    sizeof(esl_pos_t) * b->nalloc * 2);
+  ESL_REALLOC(b->offsets, sizeof(esl_pos_t) * b->nalloc * 2);
+  ESL_REALLOC(b->linenum, sizeof(int64_t)   * b->nalloc * 2);
+  ESL_REALLOC(b->ltype,   sizeof(int)       * b->nalloc * 2);
+  ESL_REALLOC(b->lpos,    sizeof(esl_pos_t) * b->nalloc * 2);
+  ESL_REALLOC(b->rpos,    sizeof(esl_pos_t) * b->nalloc * 2);
+  for (idx = b->nalloc; idx < b->nalloc*2; idx++) 
+    { 
+      b->line[idx]    = NULL; 
+      b->llen[idx]    = 0; 
+      b->offsets[idx] = 0; 
+      b->linenum[idx] = 0; 
+      b->ltype[idx]   = 0; 
+      b->lpos[idx]    = 0;
+      b->rpos[idx]    = 0; 
+    }	
+  b->nalloc  *= 2;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+  
+static void
+selex_block_Destroy(ESL_SELEX_BLOCK *b)
+{
+  if (!b) return;
+  if (b->line)    free(b->line);
+  if (b->llen)    free(b->llen);
+  if (b->offsets) free(b->offsets);
+  if (b->linenum) free(b->linenum);
+  if (b->ltype)   free(b->ltype);
+  if (b->lpos)    free(b->lpos);
+  if (b->rpos)    free(b->rpos);
+  free(b);
+  return;
+}
+/*------- end, internal functions for input line blocks ---------*/
+
+
+
+
+/*****************************************************************
+ * 3. Internal functions for parsing SELEX input.
+ *****************************************************************/
+
+/* Before we return a parse error,
+ * reset the <afp> so its current line is the one at fault.
+ */
+static int
+selex_ErrorInBlock(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, int which)
+{
+  afp->line       = b->line[which];
+  afp->n      = b->llen[which];
+  afp->lineoffset = b->offsets[which];
+  afp->linenumber = b->linenum[which];
+  return esl_buffer_SetOffset(afp->bf, b->offsets[which] + b->llen[which]);
+}
+
+/* selex_read_block:  read one block of alignment data.
+ *
+ * Note that line numbers aren't necessarily consecutive,
+ * because we're stripping out comment lines here. On a parse error
+ * on a specific line, we're going to reset the buffer to that line,
+ * and we'll need the linenumber to do that reset.
+ * 
+ * The <afp> detected the end of the block by reading a blank line, or EOF.
+ * Thus its point is at the next line after that blank, or at EOF.
+ * 
+ * The <afp> has a stable anchor set at (*block_p)->anchor.
+ * Caller must raise this anchor when it's done parsing the block.
+ * 
+ * Returns: <eslOK> on success.
+ *          
+ *          <eslEOF> if no more blocks are found in the input.
+ *          <eslEFORMAT> on failure, if a subsequent block has a
+ *          different number of data lines than the first block.
+ *          On normal errors, all the references are returned set to NULL.
+ *       
+ * Throws:  <eslEMEM> on allocation failure.      
+ */
+static int
+selex_read_block(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK **block_p) 
+{
+  ESL_SELEX_BLOCK *b      = *block_p; /* now b==NULL if first block; or on subsequent blocks, reuse prev block storage. */
+  int              idx    = 0;
+  int              status;
+
+  /* Advance past blank lines until we have the first line of next
+   * block.  We may hit a normal EOF here, in which case we return
+   * EOF, we're done.
+   */
+  do { 
+    if ( ( status = eslx_msafile_GetLine(afp, NULL, NULL)) != eslOK) goto ERROR;                   /* EOF here is a normal EOF   */
+  } while (esl_memspn(afp->line, afp->n, " \t") == afp->n ||                                       /* idiomatic for "blank line" */
+	   (esl_memstrpfx(afp->line, afp->n, "#") && ! esl_memstrpfx(afp->line, afp->n, "#=")));   /* a SELEX comment line       */
+
+  /* if this is first block, allocate block; subsequent blocks reuse it */
+  if (!b && (b = selex_block_Create(16)) == NULL) goto ERROR; 
+  
+  /* Anchor stably at this point. */
+  b->anchor = afp->lineoffset;
+  if ((status = esl_buffer_SetStableAnchor(afp->bf, b->anchor)) != eslOK) goto ERROR;
+
+  /* Parse for a block of lines. */
+  do {
+    if (b->nalloc && idx == b->nalloc && (status = selex_block_Grow(b)) != eslOK) goto ERROR;
+
+    b->line[idx]     = afp->line;
+    b->llen[idx]     = afp->n;
+    b->offsets[idx]  = afp->lineoffset;
+    b->linenum[idx]  = afp->linenumber;   /* ltype, lpos, rpos aren't set yet */
+    idx++;
+    
+    /* Get next non-comment line; this can be next line of block, blank (end of block), or EOF. */
+    do { 
+      status = eslx_msafile_GetLine(afp, NULL, NULL); 
+    } while ( status == eslOK && (esl_memstrpfx(afp->line, afp->n, "#") && ! esl_memstrpfx(afp->line, afp->n, "#=")));
+
+  } while (status == eslOK && esl_memspn(afp->line, afp->n, " \t") < afp->n); /* end of block on EOF or blank line */
+  
+  if (*block_p && b->nlines != idx) 
+    ESL_XFAIL(eslEFORMAT, afp->errmsg, "expected %d lines in block, saw %d", b->nlines, idx);
+
+  b->nlines  = idx;
+  *block_p   = b;
+  return eslOK;	/* EOF status gets turned into OK: we've read a block successfully and hit EOF. Next call will generate the EOF */
+
+ ERROR:
+  if (b && b->anchor != -1) esl_buffer_RaiseAnchor(afp->bf, b->anchor);
+  if (b) selex_block_Destroy(b);
+  *block_p = NULL;
+  return status;
+}
+
+
+/* selex_first_block()
+ * 
+ * 1. Determine and store line types, in b->ltype[0..b->nlines-1].
+ * 2. From the number of eslSELEX_LINE_SQ lines, we know nseq.
+ * 3. From nseq, we can allocate a new MSA.
+ * 4. Parse each line for sequence names, and store them.
+ * 5. Determine lpos[] for each line.
+ */
+static int
+selex_first_block(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, ESL_MSA **ret_msa)
+{
+  ESL_MSA  *msa = NULL;
+  int       nrf, nmm, ncs, nss, nsa, nseq;
+  int       has_ss, has_sa;
+  char     *p, *tok;
+  esl_pos_t n,  ntok;
+  int       idx, seqi;
+  int       status;
+
+  afp->errmsg[0] = '\0';
+
+  nrf = ncs = nss = nsa = nseq = 0;
+  has_ss = has_sa = FALSE;
+  for (idx = 0; idx < b->nlines; idx++)
+    {
+      if      (esl_memstrpfx(b->line[idx], b->llen[idx], "#=RF")) { b->ltype[idx] = eslSELEX_LINE_RF; nrf++; }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=MM")) { b->ltype[idx] = eslSELEX_LINE_MM; nmm++; }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=CS")) { b->ltype[idx] = eslSELEX_LINE_CS; ncs++; }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=SS")) { b->ltype[idx] = eslSELEX_LINE_SS; nss++; has_ss = TRUE; }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=SA")) { b->ltype[idx] = eslSELEX_LINE_SA; nsa++; has_sa = TRUE; }
+      else                                                        { b->ltype[idx] = eslSELEX_LINE_SQ; nseq++; nss = nsa = 0; }
+
+      if (nss && !nseq) { selex_ErrorInBlock(afp, b, idx); ESL_XFAIL(eslEFORMAT, afp->errmsg, "#=SS must follow a sequence");   }
+      if (nsa && !nseq) { selex_ErrorInBlock(afp, b, idx); ESL_XFAIL(eslEFORMAT, afp->errmsg, "#=SA must follow a sequence");   }
+      if (nrf > 1)      { selex_ErrorInBlock(afp, b, idx); ESL_XFAIL(eslEFORMAT, afp->errmsg, "Too many #=RF lines for block"); }
+      if (ncs > 1)      { selex_ErrorInBlock(afp, b, idx); ESL_XFAIL(eslEFORMAT, afp->errmsg, "Too many #=CS lines for block"); }
+      if (nss > 1)      { selex_ErrorInBlock(afp, b, idx); ESL_XFAIL(eslEFORMAT, afp->errmsg, "Too many #=SS lines for seq");   }
+      if (nsa > 1)      { selex_ErrorInBlock(afp, b, idx); ESL_XFAIL(eslEFORMAT, afp->errmsg, "Too many #=SA lines for seq");   }
+    }
+
+#ifdef eslAUGMENT_ALPHABET
+  if ( afp->abc && (msa = esl_msa_CreateDigital(afp->abc, nseq, -1)) == NULL) { status = eslEMEM; goto ERROR; } /* a growable MSA */
+#endif
+  if (!afp->abc && (msa = esl_msa_Create(                 nseq, -1)) == NULL) { status = eslEMEM; goto ERROR; } 
+  if (has_ss) {
+    ESL_ALLOC(msa->ss, sizeof(char *) * nseq);
+    for (seqi = 0; seqi < nseq; seqi++) msa->ss[seqi] = NULL;
+  }
+  if (has_sa) {
+    ESL_ALLOC(msa->sa, sizeof(char *) * nseq);
+    for (seqi = 0; seqi < nseq; seqi++) msa->sa[seqi] = NULL;
+  }
+  msa->nseq = nseq;
+  msa->alen = 0;
+
+  for (seqi = 0, idx = 0; idx < b->nlines; idx++)
+    {
+      p = b->line[idx];
+      n = b->llen[idx];
+      if ( esl_memtok(&p, &n, " \t", &tok, &ntok) != eslOK) ESL_XEXCEPTION(eslEINCONCEIVABLE, "can't happen"); /* because a block by definition consists of non-blank lines */
+      if (b->ltype[idx] == eslSELEX_LINE_SQ) /* otherwise, first token is #=XX marking annotation of some sort */
+	{
+	  if ( esl_msa_SetSeqName(msa, seqi, tok, ntok)   != eslOK) goto ERROR;
+	  seqi++;
+	}
+      b->lpos[idx] = (n ? p-b->line[idx] : -1);  /* set lpos[] to position of first seq or annotation residue */
+    }
+
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+/* selex_other_block()
+ * We've already parsed the first block.
+ * So we know the order of line types, nseq, and sequence names.
+ * Validate that a subsequent block has the same.
+ */
+static int
+selex_other_block(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, ESL_MSA *msa)
+{
+  char     *p, *tok;
+  esl_pos_t n, ntok;
+  int       idx, seqi;
+
+  /* Validate line types */
+  for (idx = 0; idx < b->nlines; idx++)
+    {
+      if      (esl_memstrpfx(b->line[idx], b->llen[idx], "#=RF")) { if (b->ltype[idx] != eslSELEX_LINE_RF) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "#=RF line isn't in expected order in block"); } }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=MM")) { if (b->ltype[idx] != eslSELEX_LINE_MM) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "#=MM line isn't in expected order in block"); } }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=CS")) { if (b->ltype[idx] != eslSELEX_LINE_CS) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "#=CS line isn't in expected order in block"); } }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=SS")) { if (b->ltype[idx] != eslSELEX_LINE_SS) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "#=SS line isn't in expected order in block"); } }
+      else if (esl_memstrpfx(b->line[idx], b->llen[idx], "#=SA")) { if (b->ltype[idx] != eslSELEX_LINE_SA) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "#=SA line isn't in expected order in block"); } }
+      else                                                        { if (b->ltype[idx] != eslSELEX_LINE_SQ) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "sequence line isn't in expected order in block"); } }
+    }
+  
+  /* Validate seq names, and set lpos */
+  for (seqi = 0, idx = 0; idx < b->nlines; idx++)
+    {
+      p = b->line[idx];
+      n = b->llen[idx];
+      if ( esl_memtok(&p, &n, " \t", &tok, &ntok) != eslOK) ESL_EXCEPTION(eslEINCONCEIVABLE, "can't happen"); /* because a block by definition consists of non-blank lines */      
+      if (b->ltype[idx] == eslSELEX_LINE_SQ)
+	{
+	  if (! esl_memstrcmp(tok, ntok, msa->sqname[seqi]))  { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "expected sequence %s at this line of block", msa->sqname[seqi]); }
+	  seqi++;
+	}
+      b->lpos[idx] = (n ? p-b->line[idx] : -1);  /* set lpos[] to position of first seq or annotation residue */
+    }
+  return eslOK;
+}
+
+static int
+selex_append_block(ESLX_MSAFILE *afp, ESL_SELEX_BLOCK *b, ESL_MSA *msa)
+{
+  char     *p;
+  esl_pos_t pos;
+  int       idx, seqi;
+  esl_pos_t leftmost, rightmost;
+  int64_t   nadd;		/* width of this sequence block, in aligned columns added to msa */
+  esl_pos_t nleft, ntext, nright;
+  int64_t   alen;
+  int       status;
+  
+  /* Determine rpos for each line.  */
+  for (idx = 0; idx < b->nlines; idx++)
+    {
+      p   = b->line[idx];
+      pos = b->llen[idx] - 1;
+      while (pos>=0 && isspace(p[pos])) pos--;
+      b->rpos[idx] = ( (pos < b->lpos[idx]) ? -1 : pos); /* -1: a completely blank seq line is valid */
+    }
+
+  /* Determine leftmost and rightmost positions for entire block */
+  leftmost  = b->lpos[0];
+  rightmost = b->rpos[0];
+  for (idx = 1; idx < b->nlines; idx++) {
+    leftmost  = (b->lpos[idx] == -1) ? leftmost  : ESL_MIN(leftmost,  b->lpos[idx]);
+    rightmost = (b->rpos[idx] == -1) ? rightmost : ESL_MAX(rightmost, b->rpos[idx]);
+  }
+  if (rightmost == -1) return eslOK; /* super special case: no sequence or annotation data in this block at all! */
+  nadd = rightmost - leftmost + 1;
+
+  /* Appends */
+  for (seqi = 0, idx = 0; idx < b->nlines; idx++)
+    {
+      nleft  = ((b->lpos[idx] != -1) ? b->lpos[idx] - leftmost         : nadd); /* watch special case of all whitespace on data line, lpos>rpos */
+      ntext  = ((b->lpos[idx] != -1) ? b->rpos[idx] - b->lpos[idx] + 1 : 0);
+      nright = ((b->lpos[idx] != -1) ? rightmost    - b->rpos[idx]     : 0);
+
+      if      (b->ltype[idx] == eslSELEX_LINE_SQ)
+	{
+#ifdef eslAUGMENT_ALPHABET
+	  if (msa->abc)
+	    {			/* digital sequence append - mapped, preallocated */
+	      ESL_REALLOC(msa->ax[seqi],   sizeof(ESL_DSQ) * (msa->alen + nadd + 2)); 
+	      if (msa->alen == 0) msa->ax[seqi][0] = eslDSQ_SENTINEL;
+	      for (alen = msa->alen; alen < msa->alen+nleft;  alen++) msa->ax[seqi][alen+1] = esl_abc_XGetGap(msa->abc);
+
+	      status = esl_abc_dsqcat_noalloc(afp->inmap, msa->ax[seqi], &alen, b->line[idx] + b->lpos[idx], ntext);
+	      if      (status == eslEINVAL) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "illegal residue(s) in sequence line"); }
+	      else if (status != eslOK)     { selex_ErrorInBlock(afp, b, idx); goto ERROR; }
+	      if (alen != msa->alen + nleft + ntext) { selex_ErrorInBlock(afp, b, idx); ESL_EXCEPTION(eslEINCONCEIVABLE, afp->errmsg, "unexpected inconsistency appending a sequence"); };
+
+	      for (; alen < msa->alen+nadd;   alen++) msa->ax[seqi][alen+1] = esl_abc_XGetGap(msa->abc);
+	      msa->ax[seqi][alen+1] = eslDSQ_SENTINEL;
+	    }
+#endif
+	  if (! msa->abc)
+	    {			/* text mode sequence append - mapped, preallocated */
+	      ESL_REALLOC(msa->aseq[seqi], sizeof(char)    * (msa->alen + nadd + 1)); 
+	      for (alen = msa->alen; alen < msa->alen+nleft; alen++) msa->aseq[seqi][alen] = '.';
+
+	      status = esl_strmapcat_noalloc(afp->inmap, msa->aseq[seqi], &alen, b->line[idx] + b->lpos[idx], ntext);
+	      if      (status == eslEINVAL) { selex_ErrorInBlock(afp, b, idx); ESL_FAIL(eslEFORMAT, afp->errmsg, "illegal residue(s) in input line"); }
+	      else if (status != eslOK)     { selex_ErrorInBlock(afp, b, idx); goto ERROR; }
+	      if (alen != msa->alen + nleft + ntext) { selex_ErrorInBlock(afp, b, idx); ESL_EXCEPTION(eslEINCONCEIVABLE, afp->errmsg, "unexpected inconsistency appending a sequence"); };
+
+	      for  (; alen < msa->alen+nadd;  alen++) msa->aseq[seqi][alen] = '.';
+	      msa->aseq[seqi][alen] = '\0';
+	    }
+	  seqi++;
+	}
+      else 
+	{			/* annotation append: not mapped, characters are copied exactly as they are */
+	  if      (b->ltype[idx] == eslSELEX_LINE_RF) { ESL_REALLOC(msa->rf,         sizeof(char) * (msa->alen + nadd + 1)); p = msa->rf;         }
+	  if      (b->ltype[idx] == eslSELEX_LINE_MM) { ESL_REALLOC(msa->mm,         sizeof(char) * (msa->alen + nadd + 1)); p = msa->mm;         }
+	  else if (b->ltype[idx] == eslSELEX_LINE_CS) { ESL_REALLOC(msa->ss_cons,    sizeof(char) * (msa->alen + nadd + 1)); p = msa->ss_cons;    }
+	  else if (b->ltype[idx] == eslSELEX_LINE_SS) { ESL_REALLOC(msa->ss[seqi-1], sizeof(char) * (msa->alen + nadd + 1)); p = msa->ss[seqi-1]; }
+	  else if (b->ltype[idx] == eslSELEX_LINE_SA) { ESL_REALLOC(msa->sa[seqi-1], sizeof(char) * (msa->alen + nadd + 1)); p = msa->sa[seqi-1]; }
+
+	  for (alen = msa->alen; alen < msa->alen+nleft; alen++) p[alen] = '.';
+	  if (ntext) memcpy(p+msa->alen+nleft, b->line[idx]+b->lpos[idx], sizeof(char)*ntext);
+	  for (alen = msa->alen+nleft+ntext; alen < msa->alen+nadd; alen++) p[alen] = '.';
+	  p[alen] = '\0';
+	}
+    }
+  msa->alen += nadd;
+  return eslOK;
+
+ ERROR:
+  return status;
+}    
+    
+
+/*****************************************************************
+ * 4. Unit tests.
+ *****************************************************************/
+#ifdef eslMSAFILE_SELEX_TESTDRIVE
+
+static void
+utest_write_good1(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("seq1 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq3 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq4 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq5 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 5;
+  *ret_alen      = 20;
+}
+
+static void
+utest_write_good2(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("# DOS format (\\r\\n), and doesn't end in a newline.\r\n", ofp);
+  fputs("# \r\n", ofp);
+  fputs("#=RF xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=CS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq1 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq2 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq3 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq4 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq5 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("\r\n", ofp);
+  fputs("#=RF xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=CS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq1 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq2 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq3 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq4 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("seq5 ACDEFGHIKLMNPQRSTVWY\r\n", ofp);
+  fputs("#=SS xxxxxxxxxxxxxxxxxxxx\r\n", ofp);
+  fputs("#=SA xxxxxxxxxxxxxxxxxxxx",    ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 5;
+  *ret_alen      = 40;
+}
+
+static void
+utest_write_good3(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("\n", ofp);
+  fputs("#=CS\n", ofp);
+  fputs("#=RF\n", ofp);
+  fputs("seq1 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("long_name GHIKLMNPQRSTVWY\n", ofp);
+  fputs("blank_seq_all_gaps \n", ofp);
+  fputs("seq2 ACDEF---KLMNPQRSTVWY\n", ofp);
+  fputs("seq3 ACDEF...KLMNPQRSTVWY\n", ofp);
+  fputs("# embedded comments ok\n", ofp);
+  fputs("seq4 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs(" seq5 CDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=SS \n", ofp);
+  fputs("#=SA\n", ofp);
+  fputs("\n", ofp);
+  fputs("\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=CS\n", ofp);
+  fputs("#=RF\n", ofp);
+  fputs("seq1 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("long_name GHIKLMNPQRSTVWY\n", ofp);
+  fputs("blank_seq_all_gaps \n", ofp);
+  fputs("seq2 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq3 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq4 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq5 ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=SS \n", ofp);
+  fputs("#=SA\n", ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 7;
+  *ret_alen      = 52;
+}
+
+static void
+utest_write_good4(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("# A complicated SELEX example\n", ofp);
+  fputs("\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=RF        xxxxxxx xxxx xxxxxx\n", ofp);
+  fputs("#=CS        >>>>+>> ^^^^ <<<<<<\n", ofp);
+  fputs("28    gGAGUAAGAUAGC AUCA GCAUCUUGUUCC\n", ofp);
+  fputs("#=SS  +++++>>>>>+>> ^^^^ <<<<<<<+++++\n", ofp);
+  fputs("longname    GUUCACC AUCA GGGGAc\n", ofp);
+  fputs("#=SS        >>>>+>> ^^^^ <<<<<<\n", ofp);
+  fputs("2     AUGGAUGCGCACC AUCA GGGCGUaucuau\n", ofp);
+  fputs("3           GAUCACC AUCA GGGauc\n", ofp);
+  fputs("4           GGUCACC AUCA GGGauc\n", ofp);
+  fputs("5           GGACACC AUCA GGGucu\n", ofp);
+  fputs("6              CACC AUCA GGG\n", ofp);
+  fputs("7           GAUCACC AUCA GGGauc\n", ofp);
+  fputs("8            CUCACC AUCA GGGGG\n", ofp);
+  fputs("9           AUGCACC AUCA GGGCAU\n", ofp);
+  fputs("10           CUCACC AUCA GGGGG\n", ofp);
+
+  *ret_alphatype = eslRNA;
+  *ret_nseq      = 11;
+  *ret_alen      = 31;
+}
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("selex good file test %d failed: digital open",           testnumber);  
+  if (afp->format != eslMSAFILE_SELEX)                                                              esl_fatal("selex good file test %d failed: format autodetection",   testnumber);
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("selex good file test %d failed: alphabet autodetection", testnumber);
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_selex_Read(afp, &msa1))   != eslOK)  esl_fatal("selex good file test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen) esl_fatal("selex good file test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                      esl_fatal("selex good file test %d failed: msa1 invalid",      testnumber);
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp))  != eslOK) esl_fatal("selex good file test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_selex_Write(ofp, msa1)) != eslOK) esl_fatal("selex good file test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, eslMSAFILE_SELEX, NULL, &afp)) != eslOK) esl_fatal("selex good file test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_selex_Read(afp, &msa2))                                    != eslOK) esl_fatal("selex good file test %d failed: msa read, text", testnumber);  
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                                 esl_fatal("selex good file test %d failed: nseq/alen",      testnumber);
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                      esl_fatal("selex good file test %d failed: msa2 invalid",   testnumber);
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp))   != eslOK) esl_fatal("selex good file test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_selex_Write(ofp, msa2))  != eslOK) esl_fatal("selex good file test %d failed: msa write, text",  testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, eslMSAFILE_SELEX, NULL, &afp)) != eslOK) esl_fatal("selex good file test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_selex_Read(afp, &msa2))                                    != eslOK) esl_fatal("selex good file test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                      esl_fatal("selex good file test %d failed: msa2 invalid",          testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("selex good file test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+
+static void
+write_test_msas(FILE *ofp1, FILE *ofp2)
+{
+  fprintf(ofp1, "# selex comments ignored \n");
+  fprintf(ofp1, "#=RF ..xxxxxxxxxxxxxxxxxxxx\n");
+  fprintf(ofp1, "seq1 ..acdefghiklmnpqrstvwy\n");
+  fprintf(ofp1, "seq2 ..acdefghiklmnpqrstv--\n");
+  fprintf(ofp1, "seq3 aaacdefghiklmnpqrstv--\n");
+  fprintf(ofp1, "# selex comments ignored \n");
+  fprintf(ofp1, "seq4 ..acdefghiklmnpqrstvwy\n");
+  fprintf(ofp1, "\n");
+  fprintf(ofp1, "#=RF xxxxxxxxxxxxxxxxxxxx..\n");
+  fprintf(ofp1, "seq1 ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp1, "seq2 ACDEFGHIKLMNPQRSTVWYYY\n");
+  fprintf(ofp1, "seq3 ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp1, "seq4 ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp1, "\n");
+
+  fprintf(ofp2, "# STOCKHOLM 1.0\n");
+  fprintf(ofp2, "\n");
+  fprintf(ofp2, "#=GC RF ..xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx..\n");
+  fprintf(ofp2, "seq1    ..acdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq2    ..acdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWYYY\n");
+  fprintf(ofp2, "seq3    aaacdefghiklmnpqrstv--ACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "seq4    ..acdefghiklmnpqrstvwyACDEFGHIKLMNPQRSTVWY..\n");
+  fprintf(ofp2, "//\n");
+}
+
+static void
+read_test_msas_digital(char *slxfile, char *stkfile)
+{
+  char msg[]         = "SELEX msa digital read unit test failed";
+  ESL_ALPHABET *abc  = NULL;
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *slxfp, *stkfp;
+  char          slxfile2[32]  = "esltmpslx2XXXXXX";
+  char          stkfile2[32]  = "esltmpstk2XXXXXX";
+
+  if ( eslx_msafile_Open(&abc, slxfile, NULL, eslMSAFILE_SELEX,     NULL, &afp1)   != eslOK)  esl_fatal(msg);
+  if ( !abc || abc->type != eslAMINO)                                                         esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2)   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_selex_Read    (afp1, &msa1)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                                 != eslOK)  esl_fatal(msg);
+  
+  if ( esl_msafile_selex_Read    (afp1, &msa3)                               != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                               != eslEOF) esl_fatal(msg);
+
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  /* Now write stk to selex file, and vice versa; then retest */
+  if ( esl_tmpfile_named(slxfile2, &slxfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_selex_Write    (slxfp, msa2)                             != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)       != eslOK) esl_fatal(msg);
+  fclose(slxfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(&abc, slxfile2, NULL, eslMSAFILE_SELEX,     NULL, &afp1) != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(&abc, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2) != eslOK) esl_fatal(msg);
+  if ( esl_msafile_selex_Read    (afp1, &msa3)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                    != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                != eslOK) esl_fatal(msg);
+
+  remove(slxfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+read_test_msas_text(char *slxfile, char *stkfile)
+{
+  char msg[]         = "SELEX msa text-mode read unit test failed";
+  ESLX_MSAFILE *afp1 = NULL;
+  ESLX_MSAFILE *afp2 = NULL;
+  ESL_MSA      *msa1, *msa2, *msa3, *msa4;
+  FILE         *slxfp, *stkfp;
+  char          slxfile2[32]  = "esltmpslx2XXXXXX";
+  char          stkfile2[32]  = "esltmpstk2XXXXXX";
+
+  /*                     vvvv-- everything's the same as the digital utest except these NULLs  */
+  if ( eslx_msafile_Open(NULL, slxfile, NULL, eslMSAFILE_SELEX,     NULL, &afp1)   != eslOK)  esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2)   != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_selex_Read    (afp1, &msa1)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa2)                                     != eslOK)  esl_fatal(msg);
+  if ( esl_msa_Compare(msa1, msa2)                                                 != eslOK)  esl_fatal(msg);
+  if ( esl_msafile_selex_Read    (afp1, &msa3)                                     != eslEOF) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa3)                                     != eslEOF) esl_fatal(msg);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  if ( esl_tmpfile_named(slxfile2, &slxfp)                                   != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile2, &stkfp)                                   != eslOK) esl_fatal(msg);
+  if ( esl_msafile_selex_Write    (slxfp, msa2)                              != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Write(stkfp, msa1, eslMSAFILE_STOCKHOLM)        != eslOK) esl_fatal(msg);
+  fclose(slxfp);
+  fclose(stkfp);
+  if ( eslx_msafile_Open(NULL, slxfile2, NULL, eslMSAFILE_SELEX,     NULL, &afp1)  != eslOK) esl_fatal(msg);
+  if ( eslx_msafile_Open(NULL, stkfile2, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2)  != eslOK) esl_fatal(msg);
+  if ( esl_msafile_selex_Read    (afp1, &msa3)                                     != eslOK) esl_fatal(msg);
+  if ( esl_msafile_stockholm_Read(afp2, &msa4)                                     != eslOK) esl_fatal(msg);
+  if ( esl_msa_Compare(msa3, msa4)                                                 != eslOK) esl_fatal(msg);
+
+  remove(slxfile2);
+  remove(stkfile2);
+  eslx_msafile_Close(afp2);
+  eslx_msafile_Close(afp1);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);  
+  esl_msa_Destroy(msa4);
+}
+#endif /*eslMSAFILE_SELEX_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 5. Test driver.
+ *****************************************************************/
+#ifdef eslMSAFILE_SELEX_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_selex_utest -DeslMSAFILE_SELEX_TESTDRIVE esl_msafile_selex.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_selex_utest -DeslMSAFILE_SELEX_TESTDRIVE esl_msafile_selex.c -leasel -lm
+ * run:     ./esl_msafile_selex_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+#include "esl_msafile_selex.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for SELEX MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]        = "PSI-BLAST MSA i/o module test driver failed";
+  ESL_GETOPTS    *go           = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  char            slxfile[32]  = "esltmpslxXXXXXX";
+  char            stkfile[32]  = "esltmpstkXXXXXX";
+  FILE           *slxfp, *stkfp;
+  int             testnumber;
+  int             ngoodtests = 4;
+  char            tmpfile[32];
+  FILE           *ofp;
+  int             expected_alphatype;
+  int             expected_nseq;
+  int             expected_alen;
+
+  if ( esl_tmpfile_named(slxfile, &slxfp) != eslOK) esl_fatal(msg);
+  if ( esl_tmpfile_named(stkfile, &stkfp) != eslOK) esl_fatal(msg);
+  write_test_msas(slxfp, stkfp);
+  fclose(slxfp);
+  fclose(stkfp);
+
+  read_test_msas_digital(slxfile, stkfile);
+  read_test_msas_text   (slxfile, stkfile);
+
+  /* Various "good" files that should be parsed correctly */
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  2:  utest_write_good2 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  3:  utest_write_good3 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      case  4:  utest_write_good4 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+
+  remove(slxfile);
+  remove(stkfile);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_SELEX_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Examples.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_SELEX_EXAMPLE
+/* A full-featured example of reading/writing an MSA in SELEX format(s).
+   gcc -g -Wall -o esl_msafile_selex_example -I. -L. -DeslMSAFILE_SELEX_EXAMPLE esl_msafile_selex.c -leasel -lm
+   ./esl_msafile_selex_example <msafile>
+ */
+/*::cexcerpt::msafile_selex_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_selex.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",        0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "no autodetection; force SELEX format",        0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary", 0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",          0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",            0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing SELEX format";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_SELEX;
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if ( (status = esl_msafile_selex_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+
+  printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+  printf("# of seqs:      %d\n", msa->nseq);
+  printf("# of cols:      %d\n", (int) msa->alen);
+  printf("\n");
+
+  if (! esl_opt_GetBoolean(go, "-q"))
+    esl_msafile_selex_Write(stdout, msa);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_selex_example::end::*/
+#endif /*eslMSAFILE_SELEX_EXAMPLE*/
+
+#ifdef eslMSAFILE_SELEX_EXAMPLE2
+/* A minimal example. Read SELEX MSA, in text mode.
+   gcc -g -Wall -o esl_msafile_selex_example2 -I. -L. -DeslMSAFILE_SELEX_EXAMPLE2 esl_msafile_selex.c -leasel -lm
+   ./esl_msafile_selex_example2 <msafile>
+ */
+
+/*::cexcerpt::msafile_selex_example2::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_selex.h"
+
+int 
+main(int argc, char **argv)
+{
+  char         *filename = argv[1];
+  int           fmt      = eslMSAFILE_SELEX;
+  ESLX_MSAFILE *afp      = NULL;
+  ESL_MSA      *msa      = NULL;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, fmt, NULL, &afp)) != eslOK)  eslx_msafile_OpenFailure(afp, status);
+  if ( (status = esl_msafile_selex_Read(afp, &msa))                        != eslOK)  eslx_msafile_ReadFailure(afp, status);
+
+  printf("%6d seqs, %5d columns\n",  msa->nseq, (int) msa->alen);
+
+  esl_msafile_selex_Write(stdout, msa);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_selex_example2::end::*/
+#endif /*eslMSAFILE_SELEX_EXAMPLE2*/
+/*--------------------- end of example --------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_selex.c 756 2012-03-23 13:24:47Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_selex.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_selex.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_selex.h
new file mode 100755
index 0000000..9adfca5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_selex.h
@@ -0,0 +1,27 @@
+/* i/o of multiple sequence alignment files in SELEX format
+ */
+#ifndef eslMSAFILE_SELEX_INCLUDED
+#define eslMSAFILE_SELEX_INCLUDED
+
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+extern int esl_msafile_selex_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_selex_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_selex_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_selex_Write        (FILE *fp,    const ESL_MSA *msa);
+
+#endif /* eslMSAFILE_SELEX_INCLUDED */
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_selex.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_selex.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_stockholm.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_stockholm.c
new file mode 100755
index 0000000..432eca0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_stockholm.c
@@ -0,0 +1,2756 @@
+/* I/O of multiple sequence alignment files in Stockholm/Pfam format
+ * (Pfam format = always single block; Stockholm = multiblock allowed)
+ * 
+ * Contents:
+ *   1. API for reading/writing Stockholm/Pfam input.
+ *   2. Internal: ESL_STOCKHOLM_PARSEDATA auxiliary structure.
+ *   3. Internal: parsing Stockholm line types.
+ *   4. Internal: looking up seq, tag indices.
+ *   5. Internal: writing Stockholm/Pfam formats
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Example.
+ *   9. License and copyright.
+ */
+#include "esl_config.h"
+
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_stockholm.h"
+
+/* Valid line types in an alignment block */
+#define eslSTOCKHOLM_LINE_SQ        1
+#define eslSTOCKHOLM_LINE_GC_SSCONS 2
+#define eslSTOCKHOLM_LINE_GC_SACONS 3
+#define eslSTOCKHOLM_LINE_GC_PPCONS 4
+#define eslSTOCKHOLM_LINE_GC_RF     5
+#define eslSTOCKHOLM_LINE_GC_OTHER  6
+#define eslSTOCKHOLM_LINE_GR_SS     7
+#define eslSTOCKHOLM_LINE_GR_SA     8
+#define eslSTOCKHOLM_LINE_GR_PP     9
+#define eslSTOCKHOLM_LINE_GR_OTHER  10
+#define eslSTOCKHOLM_LINE_GC_MM     11
+
+typedef struct {
+  /* information about the size of the growing alignment parse */
+  int       nseq;		/* # of sqnames currently stored, sqname[0..nseq-1]. Copy of msa->nseq */
+  int64_t   alen;		/* alignment length not including current block being parsed. Becomes msa->alen when done */
+
+  /* Having to do with the expected order of lines in each Stockholm block: */
+  int       in_block;		/* TRUE if we're in a block (GC, GR, or sequence lines) */
+  char     *blinetype;		/* blinetype[bi=0..npb-1] = code for linetype on parsed block line [bi]: GC, GR, or seq  */
+  int      *bidx;		/* bidx[bi=0.npb-1] = seq index si=0..nseq-1 of seq or GR on parsed block line [bi]; or -1 for GC lines */
+  int       npb;		/* number of lines per block. Set by bi in 1st block; checked against bi thereafter */
+  int       bi;			/* index of current line in a block, 0..npb-1  */
+  int       si;		        /* current (next expected) sequence index, 0..nseq */
+  int       balloc;		/* number of lines per block currently allocated for. */
+
+  /* Other information kept per block */
+  int       nblock;		/* current block number (starting at 0 while in first block) */
+  int       nseq_b;             /* number of sequences seen in this block so far */
+  int64_t   alen_b;     	/* residues added by each seq field in curr block            */
+
+  /* Having to do with the growing lengths (and numbers) of sequences and annotations in <msa>: */
+  /* yes, needed: used to catch dup lines in a block, such as seq1 xxx, seq1 xxx.               */
+  int64_t    ssconslen;		/* current length of #=GC SS_cons annotation */
+  int64_t    saconslen;		/* current length of #=GC SA_cons annotation */
+  int64_t    ppconslen;		/* current length of #=GC PP_cons annotation */
+  int64_t    rflen;		    /* current length of #=GC RF annotation */
+  int64_t    mmasklen;    /* current length of #=GC MM annotation */
+  int64_t   *sqlen;		/* current lengths of ax[0..nseq-1] or aseq[0..nseq-1]  */
+  int64_t   *sslen;		/* current lengths of ss[0..nseq-1] */
+  int64_t   *salen;		/* current lengths of sa[0..nseq-1] */
+  int64_t   *pplen;		/* current lengths of pp[0..nseq-1] */
+  int64_t   *ogc_len;		/* current lengths of unparsed gc[0..ngc-1]  */
+  int64_t  **ogr_len;		/* current lengths of unparsed gr[0..ngr-1][0..nseq-1] */
+  int        salloc;		/* # of sqnames currently allocated for (synced to msa->sqalloc) */
+} ESL_STOCKHOLM_PARSEDATA;
+
+static ESL_STOCKHOLM_PARSEDATA *stockholm_parsedata_Create(ESL_MSA *msa);
+static int                      stockholm_parsedata_ExpandSeq  (ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa);
+static int                      stockholm_parsedata_ExpandBlock(ESL_STOCKHOLM_PARSEDATA *pd);
+static void                     stockholm_parsedata_Destroy    (ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa);
+
+static int stockholm_parse_gf(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n);
+static int stockholm_parse_gs(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n);
+static int stockholm_parse_gc(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n);
+static int stockholm_parse_gr(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n);
+static int stockholm_parse_sq(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n);
+static int stockholm_parse_comment(ESL_MSA *msa, char *p, esl_pos_t n);
+
+static int stockholm_get_seqidx   (ESL_MSA *msa, ESL_STOCKHOLM_PARSEDATA *pd, char *name, esl_pos_t n,      int *ret_idx);
+static int stockholm_get_gr_tagidx(ESL_MSA *msa, ESL_STOCKHOLM_PARSEDATA *pd, char *tag,  esl_pos_t taglen, int *ret_tagidx);
+static int stockholm_get_gc_tagidx(ESL_MSA *msa, ESL_STOCKHOLM_PARSEDATA *pd, char *tag,  esl_pos_t taglen, int *ret_tagidx);
+
+static int stockholm_write(FILE *fp, const ESL_MSA *msa, int64_t cpl);
+
+
+/*****************************************************************
+ *# 1. API for reading/writing Stockholm input.
+ *****************************************************************/
+
+/* Function:  esl_msafile_stockholm_SetInmap()
+ * Synopsis:  Configure the input map for Stockholm format.
+ *
+ * Purpose:   Configure <afp->inmap> for Stockholm format.
+ *
+ *            Text mode accepts any <isgraph()> character. 
+ *            Digital mode enforces the usual Easel alphabets.
+ *            
+ *            No characters may be ignored in the input. We cannot
+ *            skip whitespace in the inmap, because we'd misalign
+ *            relative to the text-mode annotation lines (GR, GC),
+ *            where we don't do mapped input.)
+ */
+int
+esl_msafile_stockholm_SetInmap(ESLX_MSAFILE *afp)
+{
+  int sym;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc)
+    {
+      for (sym = 0; sym < 128; sym++) 
+	afp->inmap[sym] = afp->abc->inmap[sym];
+      afp->inmap[0] = esl_abc_XGetUnknown(afp->abc);
+    }
+#endif
+  if (! afp->abc)
+    {
+      for (sym = 1; sym < 128; sym++) 
+	afp->inmap[sym] = (isgraph(sym) ? sym : eslDSQ_ILLEGAL);
+      afp->inmap[0] = '?';
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_msafile_stockholm_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open Stockholm MSA file.
+ *
+ * Purpose:   Guess the alphabet of the sequences in open
+ *            Stockholm-format MSA file <afp>.
+ *            
+ *            On a normal return, <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>, and <afp> is reset to its
+ *            original position.
+ *
+ * Args:      afp      - open Stockholm-format MSA file
+ *            ret_type - RETURN: <eslDNA>, <eslRNA>, or <eslAMINO>       
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslENOALPHABET> if alphabet type can't be determined.
+ *            In either case, <afp> is rewound to the position it
+ *            started at.
+ */
+int
+esl_msafile_stockholm_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type)
+{
+  int       alphatype     = eslUNKNOWN;
+  esl_pos_t anchor        = -1;
+  int       threshold[3]  = { 500, 5000, 50000 }; /* we check after 500, 5000, 50000 residues; else we go to EOF */
+  int       nsteps        = 3;
+  int       step          = 0;
+  int       nres          = 0;
+  int       x;
+  int64_t   ct[26];
+  char     *p, *tok;
+  esl_pos_t n,  toklen, pos;
+  int       status;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+
+  anchor = esl_buffer_GetOffset(afp->bf);
+  if ((status = esl_buffer_SetAnchor(afp->bf, anchor)) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* [eslINVAL] can't happen here */
+
+  while ( (status = esl_buffer_GetLine(afp->bf, &p, &n)) == eslOK)
+    {
+      if ((status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK || *tok == '#') continue; /* blank lines, annotation, comments */
+      /* p now points to the rest of the sequence line */
+      
+      /* count characters into ct[] array */
+      for (pos = 0; pos < n; pos++)
+	if (isalpha(p[pos])) {
+	  x = toupper(p[pos]) - 'A';
+	  ct[x]++; 
+	  nres++; 
+	}
+
+      /* try to stop early, checking after 500, 5000, and 50000 residues: */
+      if (step < nsteps && nres > threshold[step]) {
+	if ((status = esl_abc_GuessAlphabet(ct, &alphatype)) == eslOK) goto DONE; /* (eslENOALPHABET) */
+	step++;
+      }
+    }
+  if (status != eslEOF) goto ERROR; /* [eslEMEM,eslESYS,eslEINCONCEIVABLE] */
+  status = esl_abc_GuessAlphabet(ct, &alphatype); /* (eslENOALPHABET) */
+
+ DONE:
+  esl_buffer_SetOffset(afp->bf, anchor);   /* Rewind to where we were. */
+  esl_buffer_RaiseAnchor(afp->bf, anchor);
+  *ret_type = alphatype;
+  return status;
+
+ ERROR:
+  if (anchor != -1) {
+    esl_buffer_SetOffset(afp->bf, anchor);
+    esl_buffer_RaiseAnchor(afp->bf, anchor);
+  }
+  *ret_type = eslUNKNOWN;
+  return status;
+}
+
+
+/* Function:  esl_msafile_stockholm_Read()
+ * Synopsis:  Read an alignment in Stockholm format.
+ *
+ * Purpose:   Read an MSA from open <ESLX_MSAFILE> <afp>, 
+ *            parsing for Stockholm format. Create a new
+ *            MSA, and return it by reference through 
+ *            <*ret_msa>. Caller is responsible for freeing
+ *            this <ESL_MSA>.
+ *            
+ * Args:      <afp>     - open <ESL_MSAFILE> to read from
+ *            <ret_msa> - RETURN: newly parsed, created <ESL_MSA>
+ *
+ * Returns:   <eslOK> on success. <*ret_msa> contains the newly
+ *            allocated MSA. <afp> is poised at start of next
+ *            alignment record, or is at EOF.
+ *
+ *            <eslEOF> if no (more) alignment data are found in
+ *            <afp>, and <afp> is returned at EOF. 
+ *
+ *            <eslEFORMAT> on a parse error. <*ret_msa> is set to
+ *            <NULL>. <afp> contains information sufficient for
+ *            constructing useful diagnostic output: 
+ *            | <afp->errmsg>       | user-directed error message     |
+ *            | <afp->linenumber>   | line # where error was detected |
+ *            | <afp->line>         | offending line (not NUL-term)   |
+ *            | <afp->n>            | length of offending line        |
+ *            | <afp->bf->filename> | name of the file                |
+ *            and <afp> is poised at the start of the following line,
+ *            so (in principle) the caller could try to resume
+ *            parsing.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslESYS> if a system call fails, such as fread().
+ *            <*ret_msa> is returned <NULL>.
+ */
+int
+esl_msafile_stockholm_Read(ESLX_MSAFILE *afp, ESL_MSA **ret_msa)
+{
+  ESL_MSA                 *msa      = NULL;
+  ESL_STOCKHOLM_PARSEDATA *pd       = NULL;
+  char                    *p;
+  esl_pos_t                n;
+  int                      idx;
+  int                      status;
+
+  ESL_DASSERT1( (afp->format == eslMSAFILE_PFAM || afp->format == eslMSAFILE_STOCKHOLM) );
+
+  afp->errmsg[0] = '\0';
+
+  /* Allocate a growable MSA, and auxiliary parse data coupled to the MSA allocation */
+#ifdef eslAUGMENT_ALPHABET
+  if (afp->abc   &&  (msa = esl_msa_CreateDigital(afp->abc, 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+#endif
+  if (! afp->abc &&  (msa = esl_msa_Create(                 16, -1)) == NULL) { status = eslEMEM; goto ERROR; }
+  if ( (pd = stockholm_parsedata_Create(msa))                        == NULL) { status = eslEMEM; goto ERROR; }
+
+  /* Skip leading blank lines in file. EOF here is a normal EOF return. */
+  do { 
+    if ( ( status = eslx_msafile_GetLine(afp, &p, &n)) != eslOK) goto ERROR;  /* eslEOF is OK here - end of input (eslEOF) [eslEMEM|eslESYS] */
+  } while (esl_memspn(afp->line, afp->n, " \t") == afp->n ||                  /* skip blank lines             */
+	   (esl_memstrpfx(afp->line, afp->n, "#")                             /* and skip comment lines       */
+	    && ! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM")));           /* but stop on Stockholm header */
+
+  /* Check for the magic Stockholm header */
+  if (! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM 1."))  ESL_XFAIL(eslEFORMAT, afp->errmsg, "missing Stockholm header");
+
+  while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK) /* (eslEOF) [eslEMEM|eslESYS] */
+    {
+      while (n && ( *p == ' ' || *p == '\t')) { p++; n--; } /* skip leading whitespace */
+
+      if (!n || esl_memstrpfx(p, n, "//"))
+	{ /* blank lines and the Stockholm end-of-record // trigger end-of-block logic */
+	  if (pd->in_block) {
+	    if (pd->nblock) { if (pd->nseq_b != pd->nseq) ESL_XFAIL(eslEFORMAT, afp->errmsg, "number of seqs in block did not match number in earlier block(s)");     }
+	    else            { if (pd->nseq_b < pd->nseq)  ESL_XFAIL(eslEFORMAT, afp->errmsg, "number of seqs in block did not match number annotated by #=GS lines"); };
+	    if (pd->nblock) { if (pd->bi != pd->npb)      ESL_XFAIL(eslEFORMAT, afp->errmsg, "unexpected number of lines in alignment block"); }
+
+	    pd->nseq     = msa->nseq = pd->nseq_b;
+	    pd->alen    += pd->alen_b;
+	    pd->in_block = FALSE;
+	    pd->npb      = pd->bi;
+	    pd->bi       = 0;
+	    pd->si       = 0;
+	    pd->nblock  += 1;
+	    pd->nseq_b   = 0;
+	    pd->alen_b   = 0;
+	  }
+	  if   (esl_memstrpfx(p, n, "//"))   break; /* Stockholm end-of-record marker */
+	  else continue;			    /* else, on to next block */
+	}
+
+      if (*p == '#') 
+	{
+	  if      (esl_memstrpfx(p, n, "#=GF")) { if ((status = stockholm_parse_gf     (afp, pd, msa, p, n)) != eslOK) goto ERROR; }
+	  else if (esl_memstrpfx(p, n, "#=GS")) { if ((status = stockholm_parse_gs     (afp, pd, msa, p, n)) != eslOK) goto ERROR; }
+	  else if (esl_memstrpfx(p, n, "#=GC")) { if ((status = stockholm_parse_gc     (afp, pd, msa, p, n)) != eslOK) goto ERROR; }
+	  else if (esl_memstrpfx(p, n, "#=GR")) { if ((status = stockholm_parse_gr     (afp, pd, msa, p, n)) != eslOK) goto ERROR; }
+	  else if (esl_memstrcmp(p, n, "# STOCKHOLM 1.0")) ESL_XFAIL(eslEFORMAT, afp->errmsg, "two # STOCKHOLM 1.0 headers in a row?");
+	  else                                  { if ((status = stockholm_parse_comment(         msa, p, n)) != eslOK) goto ERROR; }
+	}
+      else if (                                       (status = stockholm_parse_sq     (afp, pd, msa, p, n)) != eslOK) goto ERROR;
+    }
+  if      (status == eslEOF) ESL_XFAIL(eslEFORMAT, afp->errmsg, "missing // terminator after MSA");
+  else if (status != eslOK)  goto ERROR;
+  if (pd->nblock == 0)       ESL_XFAIL(eslEFORMAT, afp->errmsg, "no alignment data followed Stockholm header");
+
+  msa->alen = pd->alen;
+
+  /* Stockholm file can set weights. If eslMSA_HASWGTS flag is up, at least one was set: then all must be. */
+  if (msa->flags & eslMSA_HASWGTS)
+    {
+      for (idx = 0; idx < msa->nseq; idx++)
+	if (msa->wgt[idx] == -1.0) ESL_XFAIL(eslEFORMAT, afp->errmsg, "stockholm record ended without a weight for %s", msa->sqname[idx]);
+    }
+  else if (( status = esl_msa_SetDefaultWeights(msa)) != eslOK) goto ERROR;
+
+  stockholm_parsedata_Destroy(pd, msa);
+  *ret_msa  = msa;
+  return eslOK;
+
+ ERROR:
+  if (pd)  stockholm_parsedata_Destroy(pd, msa);
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+/* Function:  esl_msafile_stockholm_Write()
+ * Synopsis:  Write a Stockholm format alignment to a stream.
+ *
+ * Purpose:   Write alignment <msa> to output stream <fp>, in Stockholm
+ *            format. <fmt> may either be <eslMSAFILE_STOCKHOLM> or
+ *            <eslMSAFILE_PFAM>.  <eslMSAFILE_PFAM> puts the alignment
+ *            into a single block, one alignment line per sequence.
+ *            <eslMSAFILE_STOCKHOLM> is a multiple block format, with
+ *            a width of 200 aligned residues per line.
+ *
+ * Args:      fp  - open output stream, writable
+ *            msa - alignment to write
+ *            fmt - eslMSAFILE_STOCKHOLM | eslMSAFILE_PFAM
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_msafile_stockholm_Write(FILE *fp, const ESL_MSA *msa, int fmt)
+{
+  switch (fmt) {
+  case eslMSAFILE_PFAM:       return stockholm_write(fp, msa, msa->alen);
+  case eslMSAFILE_STOCKHOLM:  return stockholm_write(fp, msa, 200);
+  }
+  return eslEINCONCEIVABLE;
+}
+/*--------------- end, api for stockholm i/o --------------------*/
+
+
+/*****************************************************************
+ * 2. Internal: ESL_STOCKHOLM_PARSEDATA auxiliary structure 
+ *****************************************************************/
+
+/* The auxiliary parse data is sufficient to validate each line as we
+ * see it. Our design requires that we immediately report any errors
+ * and the line number they occur on. We do not want to detect errors
+ * in some later validation step, after we've lost track of original
+ * line numbers of the input. 
+ */
+
+static ESL_STOCKHOLM_PARSEDATA *
+stockholm_parsedata_Create(ESL_MSA *msa)
+{
+  ESL_STOCKHOLM_PARSEDATA *pd = NULL;
+  int z;
+  int status;
+
+  ESL_ALLOC(pd, sizeof(ESL_STOCKHOLM_PARSEDATA));
+  pd->nseq          = 0;
+  pd->alen          = 0;
+
+  pd->in_block      = FALSE;
+  pd->blinetype     = NULL;
+  pd->bidx          = NULL;
+  pd->npb           = 0;
+  pd->bi            = 0;
+  pd->si            = 0;
+  pd->balloc        = 0;
+
+  pd->nblock        = 0;
+  pd->nseq_b        = 0;
+  pd->alen_b        = 0;
+
+  pd->ssconslen     = 0;
+  pd->saconslen     = 0;
+  pd->ppconslen     = 0;
+  pd->rflen         = 0;
+  pd->mmasklen      = 0;
+  pd->sqlen         = NULL;
+  pd->sslen         = NULL;
+  pd->salen         = NULL;
+  pd->pplen         = NULL;
+  pd->ogc_len       = NULL;
+  pd->ogr_len       = NULL;
+  pd->salloc        = 0;
+
+  ESL_ALLOC(pd->blinetype, sizeof(char) * 16);
+  ESL_ALLOC(pd->bidx,      sizeof(int)  * 16);
+  pd->balloc = 16;
+
+  ESL_ALLOC(pd->sqlen,     sizeof(int64_t) * msa->sqalloc);
+  for (z = 0; z < msa->sqalloc; z++) 
+    pd->sqlen[z] = 0;
+  pd->salloc = msa->sqalloc;
+  return pd;
+
+ ERROR:
+  stockholm_parsedata_Destroy(pd, msa);
+  return NULL;
+}
+
+static int
+stockholm_parsedata_ExpandSeq(ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa)
+{
+  int tagidx;
+  int z;
+  int status;
+
+  ESL_REALLOC(pd->sqlen, sizeof(int64_t) * msa->sqalloc);  
+  for (z = pd->salloc; z < msa->sqalloc; z++) pd->sqlen[z] = 0; 
+
+  if (pd->sslen) {
+    ESL_REALLOC(pd->sslen,   sizeof(int64_t) * msa->sqalloc);
+    for (z = pd->salloc; z < msa->sqalloc; z++) pd->sslen[z] = 0;
+  }
+
+  if (pd->salen) {
+    ESL_REALLOC(pd->salen,   sizeof(int64_t) * msa->sqalloc);
+    for (z = pd->salloc; z < msa->sqalloc; z++) pd->salen[z] = 0;
+  }
+
+  if (pd->pplen) {
+    ESL_REALLOC(pd->pplen,   sizeof(int64_t) * msa->sqalloc);
+    for (z = pd->salloc; z < msa->sqalloc; z++) pd->pplen[z] = 0;
+  }
+
+  /* don't need to reallocate ogc_len here: it's [0..ngc-1], not by seq */
+
+  if (pd->ogr_len) {
+    for (tagidx = 0; tagidx < msa->ngr; tagidx++) 
+      if (pd->ogr_len[tagidx]) {
+	ESL_REALLOC(pd->ogr_len[tagidx], sizeof(int64_t) * msa->sqalloc);
+	for (z = pd->salloc; z < msa->sqalloc; z++) pd->ogr_len[tagidx][z] = 0;
+      }
+  }
+
+  pd->salloc = msa->sqalloc;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+  
+
+static int
+stockholm_parsedata_ExpandBlock(ESL_STOCKHOLM_PARSEDATA *pd)
+{
+  int status;
+
+  ESL_REALLOC(pd->blinetype, sizeof(char) * (pd->balloc * 2));
+  ESL_REALLOC(pd->bidx,      sizeof(int)  * (pd->balloc * 2));
+  pd->balloc *= 2;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+static void
+stockholm_parsedata_Destroy(ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa)
+{
+  int i;
+  if (! pd) return;
+
+  if (pd->blinetype) free(pd->blinetype);
+  if (pd->bidx)      free(pd->bidx);
+
+  if (pd->sqlen)     free(pd->sqlen);
+  if (pd->sslen)     free(pd->sslen);
+  if (pd->salen)     free(pd->salen);
+  if (pd->pplen)     free(pd->pplen);
+  if (pd->ogc_len)   free(pd->ogc_len);
+  if (pd->ogr_len) {
+    for (i = 0; i < msa->ngr; i++)
+      if (pd->ogr_len[i]) free(pd->ogr_len[i]);
+    free(pd->ogr_len);
+  }
+  free(pd);
+  return;
+}
+/*------------------ end, ESL_STOCKHOLM_PARSEDATA auxiliary structure -------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Internal: parsing Stockholm line types
+ *****************************************************************/ 
+
+/* stockholm_parse_gf()
+ * Line format is:
+ *   #=GF <tag> <text>
+ * recognized featurenames: { ID | AC | DE | AU | GA | NC | TC }
+ */
+static int
+stockholm_parse_gf(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  char      *gf,  *tag,   *tok;
+  esl_pos_t gflen, taglen, toklen;
+  int       status;
+
+  if ( (status = esl_memtok(&p, &n, " \t", &gf,  &gflen))  != eslOK) ESL_EXCEPTION(eslEINCONCEIVABLE, "EOL can't happen here.");
+  if ( (status = esl_memtok(&p, &n, " \t", &tag, &taglen)) != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GF line is missing <tag>, annotation");
+  if (! esl_memstrcmp(gf, gflen, "#=GF"))                            ESL_FAIL(eslEFORMAT, afp->errmsg, "faux #=GF line?");
+
+  if      (esl_memstrcmp(tag, taglen, "ID")) 
+    {
+      if ((status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "No name found on #=GF ID line");
+      if (n)                                                            ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GF ID line should have only one name (no whitespace allowed)");
+      if ( (status = esl_msa_SetName (msa, tok, toklen))      != eslOK) return status; /* [eslEMEM] */
+    }
+  else if (esl_memstrcmp(tag, taglen, "AC")) 
+    {
+      if ((status = esl_memtok(&p, &n, " \t", &tok, &toklen)) != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "No accession found on #=GF AC line");
+      if (n)                                                            ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GF AC line should have only one accession (no whitespace allowed)");
+      if ((status = esl_msa_SetAccession(msa, tok, toklen))   != eslOK) return status; /* [eslEMEM] */
+    }
+  else if (esl_memstrcmp(tag, taglen, "DE")) 
+    {
+      if ((status = esl_msa_SetDesc     (msa, p, n))          != eslOK) return status; /* [eslEMEM] */
+    }
+  else if (esl_memstrcmp(tag, taglen, "AU")) 
+    {
+      if ((status = esl_msa_SetAuthor   (msa, p, n))          != eslOK) return status; /* [eslEMEM] */
+    }
+  else if (esl_memstrcmp(tag, taglen, "GA"))
+    {
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK) {
+	if (! esl_mem_IsReal(tok, toklen)) ESL_FAIL(eslEFORMAT, afp->errmsg, "Expected a real number for GA1 value on #=GF GA line");
+	if (  esl_memtof(tok, toklen, &(msa->cutoff[eslMSA_GA1])) != eslOK) return status; /* [eslEMEM] */
+	msa->cutset[eslMSA_GA1] = TRUE;
+      } else ESL_FAIL(eslEFORMAT, afp->errmsg, "No GA threshold value found on #=GF GA line");
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK) {
+	if (! esl_mem_IsReal(tok, toklen)) ESL_FAIL(eslEFORMAT, afp->errmsg, "Expected a real number for GA2 value on #=GF GA line");
+	if (  esl_memtof(tok, toklen, &(msa->cutoff[eslMSA_GA2])) != eslOK) return status; /* [eslEMEM] */
+	msa->cutset[eslMSA_GA2] = TRUE;
+      } 
+    }
+  else if (esl_memstrcmp(tag, taglen, "NC"))
+    {
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK) {
+	if ( ! esl_memstrcmp(tok, toklen, "undefined")) /* workaround for a problem in Rfam10. ignore NC's that are set to "undefined". */
+	  {
+	    if (! esl_mem_IsReal(tok, toklen)) ESL_FAIL(eslEFORMAT, afp->errmsg, "Expected a real number for NC1 value on #=GF NC line");
+	    if (  esl_memtof(tok, toklen, &(msa->cutoff[eslMSA_NC1])) != eslOK) return status; /* [eslEMEM] */
+	    msa->cutset[eslMSA_NC1] = TRUE;
+	  }
+      } else ESL_FAIL(eslEFORMAT, afp->errmsg, "No NC threshold value found on #=GF NC line");
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK) {
+	if (! esl_mem_IsReal(tok, toklen)) ESL_FAIL(eslEFORMAT, afp->errmsg, "Expected a real number for NC2 value on #=GF NC line");
+	if (  esl_memtof(tok, toklen, &(msa->cutoff[eslMSA_NC2])) != eslOK) return status; /* [eslEMEM] */
+	msa->cutset[eslMSA_NC2] = TRUE;
+      } 
+    }
+  else if (esl_memstrcmp(tag, taglen, "TC"))
+    {
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK) {
+	if (! esl_mem_IsReal(tok, toklen)) ESL_FAIL(eslEFORMAT, afp->errmsg, "Expected a real number for TC1 value on #=GF TC line");
+	if (  esl_memtof(tok, toklen, &(msa->cutoff[eslMSA_TC1])) != eslOK) return status; /* [eslEMEM] */
+	msa->cutset[eslMSA_TC1] = TRUE;
+      } else ESL_FAIL(eslEFORMAT, afp->errmsg, "No TC threshold value found on #=GF TC line");
+      if ( (status = esl_memtok(&p, &n, " \t", &tok, &toklen)) == eslOK) {
+	if (! esl_mem_IsReal(tok, toklen)) ESL_FAIL(eslEFORMAT, afp->errmsg, "Expected a real number for TC2 value on #=GF TC line");
+	if (  esl_memtof(tok, toklen, &(msa->cutoff[eslMSA_TC2])) != eslOK) return status; /* [eslEMEM] */
+	msa->cutset[eslMSA_TC2] = TRUE;
+      } 
+    }
+  else 
+    {
+      if ((status = esl_msa_AddGF(msa, tag, taglen, p, n)) != eslOK) return status;
+    }
+
+  return eslOK;
+}
+
+
+/* stockholm_parse_gs()
+ * Format:
+ *   #=GS <seqname> <tag> <text>
+ * recognized featurenames: { WT | AC | DE }
+ */
+static int
+stockholm_parse_gs(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  char      *gs,   *seqname,   *tag,   *tok;
+  esl_pos_t  gslen, seqnamelen, taglen, toklen;
+  int        seqidx;
+  int        status;
+  
+  if (esl_memtok(&p, &n, " \t", &gs,      &gslen)      != eslOK) ESL_EXCEPTION(eslEINCONCEIVABLE, "EOL can't happen here.");
+  if (esl_memtok(&p, &n, " \t", &seqname, &seqnamelen) != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GS line missing <seqname>, <tag>, annotation");
+  if (esl_memtok(&p, &n, " \t", &tag,     &taglen)     != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GS line missing <tag>, annotation");
+  if (! esl_memstrcmp(gs, gslen, "#=GS"))                        ESL_FAIL(eslEFORMAT, afp->errmsg, "faux #=GS line?");
+
+  seqidx = pd->si;
+  if (seqidx == pd->nseq || ! esl_memstrcmp(seqname, seqnamelen, msa->sqname[seqidx])) {
+    status = stockholm_get_seqidx(msa, pd, seqname, seqnamelen, &seqidx);
+  }
+
+  if (esl_memstrcmp(tag, taglen, "WT")) 
+    {
+      if (esl_memtok(&p, &n, " \t", &tok, &toklen) != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "no weight value found on #=GS <seqname> WT line");
+      if (msa->wgt[seqidx] != -1.0)                          ESL_FAIL(eslEFORMAT, afp->errmsg, "sequence has more than one #=GS <seqname> WT line");
+      if (n)                                                 ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GS <seqname> WT line should have only one field, the weight");
+      if (! esl_mem_IsReal(tok, toklen))                     ESL_FAIL(eslEFORMAT, afp->errmsg, "value on #=GS <seqname> WT line isn't a real number");
+      if ( esl_memtod(tok, toklen, &(msa->wgt[seqidx])))     return status; /* eslEMEM */
+      msa->flags |= eslMSA_HASWGTS;
+    }
+  else if (esl_memstrcmp(tag, taglen, "AC"))
+    {
+      if (esl_memtok(&p, &n, " \t", &tok, &toklen) != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "no accession found on #=GS <seqname> AC line");
+      if (msa->sqacc && msa->sqacc[seqidx])                  ESL_FAIL(eslEFORMAT, afp->errmsg, "sequence has more than one #=GS <seqname> AC accession line");
+      if (n)                                                 ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GS <seqname> AC line should have only one field, the accession");
+      if ((status = esl_msa_SetSeqAccession(msa, seqidx, tok, toklen)) != eslOK) return status; /* eslEMEM */
+    }
+  else if (esl_memstrcmp(tag, taglen, "DE"))
+    {
+      if (msa->sqdesc && msa->sqdesc[seqidx]) ESL_FAIL(eslEFORMAT, afp->errmsg, "sequence has more than one #=GS <seqname> DE accession line");
+      if ((status = esl_msa_SetSeqDescription(msa, seqidx, p, n)) != eslOK) return status; /* eslEMEM */
+    }
+  else
+    {
+      if ((status = esl_msa_AddGS(msa, tag, taglen, seqidx, p, n)) != eslOK) return status;
+    }
+
+  pd->si = seqidx+1;	/* set guess for next sequence index */
+  return eslOK;
+}  
+  
+/* stockholm_parse_gc()
+ * Format of line is:
+ *   #=GC <tag> <aligned text>
+ * recognized featurenames: { SS_cons | SA_cons | PP_cons | RF }
+ */
+static int
+stockholm_parse_gc(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  char      *gc,    *tag;
+  esl_pos_t  gclen,  taglen;
+  int        tagidx;
+  int        status;
+
+  if (esl_memtok(&p, &n, " \t", &gc,   &gclen)    != eslOK) ESL_EXCEPTION(eslEINCONCEIVABLE, "EOL can't happen here.");
+  if (esl_memtok(&p, &n, " \t", &tag,  &taglen)   != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GC line missing <tag>, annotation");
+  while (n && strchr(" \t", p[n-1])) n--; /* skip backwards from eol, to delimit aligned text without going through it */
+
+  if (! esl_memstrcmp(gc, gclen, "#=GC")) ESL_FAIL(eslEFORMAT, afp->errmsg, "faux #=GC line?");
+  if (! n)                                ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GC line missing annotation?");
+  
+  if (pd->nblock) 		/* Subsequent blocks */
+    {
+      if      (esl_memstrcmp(tag, taglen, "SS_cons")) { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GC_SSCONS) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GC SS_cons; earlier block(s) in different order?"); }
+      else if (esl_memstrcmp(tag, taglen, "SA_cons")) { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GC_SACONS) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GC SA_cons; earlier block(s) in different order?"); }
+      else if (esl_memstrcmp(tag, taglen, "PP_cons")) { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GC_PPCONS) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GC PP_cons; earlier block(s) in different order?"); }
+      else if (esl_memstrcmp(tag, taglen, "RF"))      { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GC_RF)     ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GC RF; earlier block(s) in different order?");      }
+      else if (esl_memstrcmp(tag, taglen, "MM"))      { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GC_MM)     ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GC MM; earlier block(s) in different order?");      }
+      else if (                                             pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GC_OTHER)  ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GC line; earlier block(s) in different order?");
+    }
+  else				/* First block */
+    {
+      if (pd->bi == pd->balloc && (status = stockholm_parsedata_ExpandBlock(pd)) != eslOK) return status;
+
+      if      (esl_memstrcmp(tag, taglen, "SS_cons"))  pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GC_SSCONS;
+      else if (esl_memstrcmp(tag, taglen, "SA_cons"))  pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GC_SACONS;
+      else if (esl_memstrcmp(tag, taglen, "PP_cons"))  pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GC_PPCONS;
+      else if (esl_memstrcmp(tag, taglen, "RF"))       pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GC_RF;
+      else if (esl_memstrcmp(tag, taglen, "MM"))       pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GC_MM;
+      else                                             pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GC_OTHER;
+      pd->bidx[pd->bi]      = -1;
+    }
+
+  if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GC_SSCONS)
+    {
+      if (pd->ssconslen != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GC SS_cons line in block");
+      if ( (status = esl_strcat(&(msa->ss_cons), pd->ssconslen, p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->ssconslen += n;
+    }
+  else if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GC_SACONS)
+    {
+      if (pd->saconslen != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GC SA_cons line in block");
+      if ((status = esl_strcat(&(msa->sa_cons), pd->saconslen, p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->saconslen += n;
+    }
+  else if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GC_PPCONS)
+    {
+      if (pd->ppconslen != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GC PP_cons line in block");
+      if ((status = esl_strcat(&(msa->pp_cons), pd->ppconslen, p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->ppconslen += n;
+    }
+  else if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GC_RF)
+    {
+      if (pd->rflen != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GC RF line in block");
+      if ((status = esl_strcat(&(msa->rf), pd->rflen, p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->rflen += n;
+    }
+  else if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GC_MM)
+    {
+      if (pd->mmasklen != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GC MM line in block");
+      if ((status = esl_strcat(&(msa->mm), pd->mmasklen, p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->mmasklen += n;
+    }
+  else
+    {
+      if ((status = stockholm_get_gc_tagidx(msa, pd, tag, taglen, &tagidx)) != eslOK) return status;
+      
+      if (pd->ogc_len[tagidx] != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GC %.*s line in block", (int) taglen, tag);
+      if ((status = esl_strcat(&(msa->gc[tagidx]), pd->ogc_len[tagidx], p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->ogc_len[tagidx] += n;
+    }
+
+  if (pd->bi && n != pd->alen_b) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected # of aligned annotation in #=GC %.*s line", (int) taglen, tag); 
+  pd->alen_b   = n;
+  pd->in_block = TRUE;
+  pd->bi++;
+  return eslOK;
+}
+
+/* A GR line is
+ *   #=GR <seqname> <featurename> <text>
+ * recognized featurenames: { SS | SA | PP }
+ * 
+ */
+static int
+stockholm_parse_gr(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  char      *gr,   *name,    *tag;
+  esl_pos_t  grlen, namelen,  taglen;
+  int        seqidx, tagidx;
+  int        z;
+  int        status;
+
+  if (esl_memtok(&p, &n, " \t", &gr,   &grlen)    != eslOK) ESL_EXCEPTION(eslEINCONCEIVABLE, "EOL can't happen here.");
+  if (esl_memtok(&p, &n, " \t", &name, &namelen)  != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GR line missing <seqname>, <tag>, annotation");
+  if (esl_memtok(&p, &n, " \t", &tag,  &taglen)   != eslOK) ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GR line missing <tag>, annotation");
+  while (n && strchr(" \t", p[n-1])) n--; /* skip backwards from eol, to delimit aligned text without going through it */
+
+  if (! esl_memstrcmp(gr, grlen, "#=GR")) ESL_FAIL(eslEFORMAT, afp->errmsg, "faux #=GR line?");
+  if (! n)                                ESL_FAIL(eslEFORMAT, afp->errmsg, "#=GR line missing annotation?");
+
+  /* Which seqidx is this? likely to be either pd->si-1 (#=GR following a seq) or 
+   * pd->si (#=GR preceding a seq) 
+   */
+  if (! pd->nblock) /* First block: we're setting bidx[], blinetype[] as we see them */
+    {
+      if      (pd->si >= 1       && esl_memstrcmp(name, namelen, msa->sqname[pd->si-1])) seqidx = pd->si-1;
+      else if (pd->si < pd->nseq && esl_memstrcmp(name, namelen, msa->sqname[pd->si]))   seqidx = pd->si;
+      else  status = stockholm_get_seqidx(msa, pd, name, namelen, &seqidx);
+      
+      if (pd->bi == pd->balloc && (status = stockholm_parsedata_ExpandBlock(pd)) != eslOK) return status;
+
+      if      (esl_memstrcmp(tag, taglen, "SS")) pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GR_SS;
+      else if (esl_memstrcmp(tag, taglen, "SA")) pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GR_SA;
+      else if (esl_memstrcmp(tag, taglen, "PP")) pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GR_PP;
+      else                                       pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_GR_OTHER;
+      pd->bidx[pd->bi]      = seqidx;
+    }
+  else 
+    {				/* subsequent block(s) */
+      if (pd->bi >= pd->npb) ESL_FAIL(eslEFORMAT, afp->errmsg, "more lines than expected in this alignment block; earlier blocks had fewer");
+
+      if      (esl_memstrcmp(tag, taglen, "SS")) { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GR_SS)    ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GR <seqname> SS; earlier block(s) in different order?"); }
+      else if (esl_memstrcmp(tag, taglen, "SA")) { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GR_SA)    ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GR <seqname> SA; earlier block(s) in different order?"); }  
+      else if (esl_memstrcmp(tag, taglen, "PP")) { if (pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GR_PP)    ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GR <seqname> PP; earlier block(s) in different order?"); } 
+      else if (                                        pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_GR_OTHER) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected #=GR line; earlier block(s) in different order?");  
+
+      seqidx = pd->bidx[pd->bi];
+      if (! esl_memstrcmp(name, namelen, msa->sqname[seqidx])) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected seqname %.*s; expected %s from prev blocks", (int) namelen, name, msa->sqname[seqidx]);
+    }
+
+  /* Append the annotation where it belongs  */
+  if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GR_SS)
+    {
+      if (! msa->ss) {
+	ESL_ALLOC(msa->ss,   sizeof(char *)  * msa->sqalloc);
+	ESL_ALLOC(pd->sslen, sizeof(int64_t) * msa->sqalloc);
+	for (z = 0; z < msa->sqalloc; z++) { msa->ss[z] = NULL; pd->sslen[z] = 0; }
+      }
+      if (pd->sslen[seqidx] != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GR %.*s SS line in block", (int) namelen, name);
+      if (( status = esl_strcat(&(msa->ss[seqidx]), pd->sslen[seqidx], p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->sslen[seqidx] += n;
+    }
+  else if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GR_PP)
+    {
+      if (! msa->pp) {
+	ESL_ALLOC(msa->pp,   sizeof(char *)  * msa->sqalloc);
+	ESL_ALLOC(pd->pplen, sizeof(int64_t) * msa->sqalloc);
+	for (z = 0; z < msa->sqalloc; z++) { msa->pp[z] = NULL; pd->pplen[z] = 0; }
+      }
+      if (pd->pplen[seqidx] != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GR %.*s PP line in block", (int) namelen, name);
+      if ((status = esl_strcat(&(msa->pp[seqidx]), pd->pplen[seqidx], p, n)) != eslOK) return status; /* [eslEMEM] */
+      pd->pplen[seqidx] += n;
+    }
+  else if (pd->blinetype[pd->bi] == eslSTOCKHOLM_LINE_GR_SA)
+    {
+      if (! msa->sa) {
+	ESL_ALLOC(msa->sa,   sizeof(char *)  * msa->sqalloc);
+	ESL_ALLOC(pd->salen, sizeof(int64_t) * msa->sqalloc);
+	for (z = 0; z < msa->sqalloc; z++) { msa->sa[z] = NULL; pd->salen[z] = 0; }
+      }
+      if (pd->salen[seqidx] != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GR %.*s SA line in block", (int) namelen, name);
+      if ((status = esl_strcat(&(msa->sa[seqidx]), pd->salen[seqidx], p, n)) != eslOK) return status;
+      pd->salen[seqidx] += n;
+    }
+  else
+    {
+      if ((status = stockholm_get_gr_tagidx(msa, pd, tag, taglen, &tagidx)) != eslOK) return status; /* [eslEMEM] */
+
+      if (pd->ogr_len[tagidx][seqidx] != pd->alen) ESL_FAIL(eslEFORMAT, afp->errmsg, "more than one #=GR %.*s %.*s line in block", (int) namelen, name, (int) taglen, tag);
+      if ((status = esl_strcat(&(msa->gr[tagidx][seqidx]), pd->ogr_len[tagidx][seqidx], p, n)) != eslOK) return status;
+      pd->ogr_len[tagidx][seqidx] += n;
+    }
+
+  if (pd->bi && n != pd->alen_b) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected # of aligned annotation in #=GR %.*s %.*s line", (int) namelen, name, (int) taglen, tag); 
+  pd->alen_b   = n;
+  pd->in_block = TRUE;
+  pd->bi++;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+  
+
+/* stockholm_parse_sq():
+ * Format of line is:
+ *   <seqname>  <aligned text>
+ */
+static int
+stockholm_parse_sq(ESLX_MSAFILE *afp, ESL_STOCKHOLM_PARSEDATA *pd, ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  char     *seqname;
+  esl_pos_t seqnamelen;
+  int       seqidx = pd->si;
+  int       status;
+  
+  if (esl_memtok(&p, &n, " \t", &seqname, &seqnamelen) != eslOK) ESL_EXCEPTION(eslEINCONCEIVABLE, "EOL can't happen here.");
+  while (n && strchr(" \t", p[n-1])) n--; /* skip backwards from eol, to delimit aligned text without going through it */
+
+  if (! n) ESL_FAIL(eslEFORMAT, afp->errmsg, "sequence line with no sequence?");
+
+  /* Which seqidx is this?
+   * In first block:
+   *    1. If #=GS lines set sqname[] completely, then it's pd->si.
+   *    2. If #=GS lines set sqname[] partially or out of order, then name may be in the keyhash.
+   *    3. If we haven't seen name before, then we'll add it: seqidx = pd->nseq, add name to keyhash, possibly reallocate.
+   * In subsequent blocks, use recorded indices and linetypes:
+   *    4. seqidx = saved bidx[]; should be expecting a SQ line; name should match expected name.
+   */
+  if (! pd->nblock) /* First block: we're setting npb, bidx[], and blinetype[] as we see them */
+    {
+      if (pd->si < pd->nseq && esl_memstrcmp(seqname, seqnamelen, msa->sqname[seqidx])) seqidx = pd->si;
+      else if ((status = stockholm_get_seqidx(msa, pd, seqname, seqnamelen, &seqidx)) != eslOK) return status; /* [eslEMEM] */
+
+      if (pd->bi == pd->balloc && (status = stockholm_parsedata_ExpandBlock(pd)) != eslOK) return status;
+
+      pd->blinetype[pd->bi] = eslSTOCKHOLM_LINE_SQ;
+      pd->bidx[pd->bi]      = seqidx;
+    }
+  else 
+    {				/* subsequent block(s) */
+      if (pd->bi >= pd->npb)                               ESL_FAIL(eslEFORMAT, afp->errmsg, "more lines than expected; earlier blocks had fewer");
+      if (  pd->blinetype[pd->bi] != eslSTOCKHOLM_LINE_SQ) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected seq line; earlier block(s) in different order?");
+      seqidx = pd->bidx[pd->bi];
+
+      if (! esl_memstrcmp(seqname, seqnamelen, msa->sqname[seqidx])) ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected seq name %.*s; expected %s from prev block order", (int) seqnamelen, seqname, msa->sqname[seqidx]);
+    }
+
+  if ( pd->bi > 0 && pd->sqlen[seqidx] == pd->alen + pd->alen_b) ESL_FAIL(eslEFORMAT, afp->errmsg, "duplicate seq name %.*s", (int) seqnamelen, seqname);
+
+#ifdef eslAUGMENT_ALPHABET 
+  if (  afp->abc ) {
+    status = esl_abc_dsqcat(afp->inmap, &(msa->ax[seqidx]),   &(pd->sqlen[seqidx]), p, n);
+    if      (status == eslEINVAL) ESL_FAIL(eslEFORMAT, afp->errmsg, "invalid sequence character(s) on line");
+    else if (status != eslOK)     return status;
+  }
+#endif
+  if (! afp->abc) {
+    status = esl_strmapcat (afp->inmap, &(msa->aseq[seqidx]), &(pd->sqlen[seqidx]), p, n);
+    if      (status == eslEINVAL) ESL_FAIL(eslEFORMAT, afp->errmsg, "invalid sequence character(s) on line");
+    else if (status != eslOK)     return status;
+  }
+
+  if (pd->bi && n != pd->alen_b)         ESL_FAIL(eslEFORMAT, afp->errmsg, "unexpected number of aligned residues parsed on line");
+  if (pd->sqlen[seqidx] - pd->alen != n) ESL_EXCEPTION(eslEINCONCEIVABLE, "implementation assumes that no symbols are ignored in inmap; else GR, GC text annotations are messed up");
+  pd->alen_b   = n;
+  pd->in_block = TRUE;
+  pd->nseq_b++;
+  pd->bi++;
+  pd->si = seqidx+1;
+  return eslOK;
+}
+
+  
+
+static int
+stockholm_parse_comment(ESL_MSA *msa, char *p, esl_pos_t n)
+{
+  if (n && *p == '#')      { p++; n--; }
+  while (n && isspace(*p)) { p++; n--; }
+
+  return esl_msa_AddComment(msa, p, n);
+}
+/*------------- end, parsing Stockholm line types ---------------*/  
+
+
+
+/*****************************************************************
+ * 4. Internal: looking up seq, tag indices
+ *****************************************************************/
+
+
+/* stockholm_get_seqidx()
+ * 
+ * Find the index of a given sequence <name>,<n> in a growing <msa>
+ * with associated parse data <pdat>. If caller has a good guess (for
+ * instance, the sequences are coming in a previously seen order in a
+ * block of seqs or annotation), the caller can pass this information
+ * in <guess>, or -1 if it has no guess.
+ * 
+ * If the name does not already exist in the MSA, then it
+ * is assumed to be a new sequence name that we need to store.
+ * seqidx is set to pdat->nseq, the MSA is Expand()'ed if necessary
+ * to make room, the name is stored in msa->sqname[pdat->nseq],
+ * (and in the hash table, if we're keyhash augmented)
+ * and pdat->nseq is incremented.
+ *
+ * Returns:  <eslOK> on success, and the seqidx is 
+ *           passed back via <ret_idx>. If <name> is new
+ *           in the <msa>, the <name> is stored and the <msa> 
+ *           may be internally reallocated if needed.
+ *           
+ * Throws: <eslEMEM> on allocation failure
+ *         <eslEINVAL> if we try to add a name to a non-growable MSA.
+ *         <eslEINCONCEIVABLE> on internal coding errors
+ */
+static int
+stockholm_get_seqidx(ESL_MSA *msa, ESL_STOCKHOLM_PARSEDATA *pd, char *name, esl_pos_t n, int *ret_idx)
+{
+  int seqidx;
+  int status;
+  
+  /* if we're keyhash-augmented, try to find it in the hash.
+   * if we're not, try to find it the hard way.
+   */
+#ifdef eslAUGMENT_KEYHASH
+  status = esl_keyhash_Store(msa->index, name, n, &seqidx);
+  if (status == eslEDUP) { *ret_idx = seqidx; return eslOK; }
+  if (status != eslOK)   goto ERROR;
+#else
+  for (seqidx = 0; seqidx < pd->nseq; seqidx++)
+    if (esl_memstrcmp(name, n, msa->sqname[seqidx])) 
+      { *ret_idx = seqidx; return eslOK; }
+#endif
+  
+  /* if we get here, this is a new name we're adding */
+  if (seqidx >= msa->sqalloc) {
+    if ( (status = esl_msa_Expand(msa))                    != eslOK) goto ERROR;
+    if ( (status = stockholm_parsedata_ExpandSeq(pd, msa)) != eslOK) goto ERROR;
+  }  
+
+  if ( (status = esl_msa_SetSeqName(msa, seqidx, name, n)) != eslOK) goto ERROR;
+  pd->nseq++;
+  msa->nseq = pd->nseq;		/* pd->nseq and msa->nseq must stay in lockstep */
+
+  *ret_idx = seqidx;
+  return eslOK;
+
+ ERROR:
+  *ret_idx = -1;
+  return status;
+}
+
+static int
+stockholm_get_gr_tagidx(ESL_MSA *msa, ESL_STOCKHOLM_PARSEDATA *pd, char *tag, esl_pos_t taglen, int *ret_tagidx)
+{
+  int tagidx;
+  int z;
+  int status;
+
+  /* Find the tag, if we have it; else, add it, at tagidx = msa->ngr */
+#ifdef eslAUGMENT_KEYHASH
+  if (!msa->gr_idx && (msa->gr_idx = esl_keyhash_CreateCustom(8,8,128)) == NULL) { status = eslEMEM; goto ERROR; }
+  status = esl_keyhash_Store(msa->gr_idx, tag, taglen, &tagidx); 
+  if      (status == eslEDUP) { *ret_tagidx = tagidx; return eslOK; }
+  else if (status != eslOK)   goto ERROR;
+#else
+  for (tagidx = 0; tagidx < msa->ngr; tagidx++)
+    if (esl_memstrcmp(tag, taglen, msa->gr_tag[tagidx])) 
+      { *ret_tagidx = tagidx; return eslOK; }
+#endif
+
+  /* if we get here, this is a new tag we're adding. */
+  ESL_REALLOC(msa->gr_tag,       sizeof(char *)    * (msa->ngr+1)); /* +1, we're allocated one new tag at a time, as needed */
+  ESL_REALLOC(msa->gr,           sizeof(char **)   * (msa->ngr+1));
+  ESL_REALLOC(pd->ogr_len,       sizeof(int64_t *) * (msa->ngr+1));
+  msa->gr_tag[tagidx] = NULL;
+  msa->gr[tagidx]     = NULL;
+  pd->ogr_len[tagidx] = NULL;
+  ESL_ALLOC(msa->gr[tagidx],     sizeof(char *)    * msa->sqalloc);
+  ESL_ALLOC(pd->ogr_len[tagidx], sizeof(int64_t)   * msa->sqalloc);
+  for (z = 0; z < msa->sqalloc; z++) {
+    msa->gr[tagidx][z] = NULL;
+    pd->ogr_len[tagidx][z] = 0;
+  }
+   
+  if ( (status = esl_memstrdup(tag, taglen, &(msa->gr_tag[tagidx]))) != eslOK) goto ERROR; /* eslEMEM */
+  msa->ngr++;	
+  *ret_tagidx = tagidx;
+  return eslOK;
+
+ ERROR:
+  *ret_tagidx = -1;
+  return status;
+}
+
+static int
+stockholm_get_gc_tagidx(ESL_MSA *msa, ESL_STOCKHOLM_PARSEDATA *pd, char *tag, esl_pos_t taglen, int *ret_tagidx)
+{
+  int tagidx;
+  int status;
+
+  /* Find the tag, if we have it; else, add it, at tagidx = msa->ngc */
+#ifdef eslAUGMENT_KEYHASH
+  if (!msa->gc_idx && (msa->gc_idx = esl_keyhash_CreateCustom(8,8,128)) == NULL) { status = eslEMEM; goto ERROR; }
+  status = esl_keyhash_Store(msa->gc_idx, tag, taglen, &tagidx); 
+  if      (status == eslEDUP) { *ret_tagidx = tagidx; return eslOK; }
+  else if (status != eslOK)   goto ERROR; /* eslEMEM */
+#else
+  for (tagidx = 0; tagidx < msa->ngc; tagidx++)
+    if (esl_memstrcmp(tag, taglen, msa->gc_tag[tagidx])) 
+      { *ret_tagidx = tagidx; return eslOK; }
+#endif
+
+  /* if we get here, this is a new tag we're adding. */
+  ESL_REALLOC(msa->gc_tag, sizeof(char *)  * (msa->ngc+1)); /* +1, we're allocated one new tag at a time, as needed */
+  ESL_REALLOC(msa->gc,     sizeof(char *)  * (msa->ngc+1));
+  ESL_REALLOC(pd->ogc_len, sizeof(int64_t) * (msa->ngc+1));
+  msa->gc_tag[tagidx] = NULL;
+  msa->gc[tagidx]     = NULL;
+  pd->ogc_len[tagidx] = 0;
+
+  if ( (status = esl_memstrdup(tag, taglen, &(msa->gc_tag[tagidx]))) != eslOK) return status; /* eslEMEM */
+  msa->ngc++;
+  *ret_tagidx = tagidx;
+  return eslOK;
+
+ ERROR:
+  *ret_tagidx = -1;
+  return status;
+}
+/*------------ end, looking up seq, tag indices -----------------*/
+
+
+/*****************************************************************
+ * 5. Internal: writing Stockholm/Pfam format
+ *****************************************************************/
+
+/* stockholm_write()
+ * Returns: <eslOK> on success.
+ * Throws:  <eslEMEM> on allocation error.
+ *          <eslEWRITE> on any system write error.
+ */
+static int
+stockholm_write(FILE *fp, const ESL_MSA *msa, int64_t cpl)
+{
+  int  i, j;
+  int  maxname;		          /* maximum name length     */
+  int  maxgf;		          /* max #=GF tag length     */
+  int  maxgc;		          /* max #=GC tag length     */
+  int  maxgr; 		          /* max #=GR tag length     */
+  int  margin;               	  /* total left margin width */
+  int  gslen;		          /* length of a #=GS tag    */
+  char *buf = NULL;
+  int  currpos;
+  char *s, *tok;
+  int  acpl;            /* actual number of character per line */
+  int  make_uniquenames = FALSE;  /* TRUE if we force names to be unique */
+  int  uniqwidth = 0;
+  int  tmpnseq;
+  int  status;
+  
+  /* Stockholm files require unique seqnames. Don't allow the writer
+   * to create an invalid file. 
+   */
+  status = esl_msa_CheckUniqueNames(msa);
+  if      (status == eslFAIL) {
+    make_uniquenames = TRUE;
+    for (tmpnseq = msa->nseq; tmpnseq; tmpnseq /= 10) uniqwidth++;  /* how wide the uniqizing numbers need to be */
+    uniqwidth++; 		/* uniqwidth includes the '|' */
+  } else if (status != eslOK) goto ERROR;
+
+  /* Figure out how much space we need for name + markup
+   * to keep the alignment in register. 
+   *
+   * The left margin of an alignment block can be composed of:
+   * 
+   * <seqname>                      max length: uniqwidth + maxname + 1
+   * #=GC <gc_tag>                  max length: 4 + 1 + maxgc + 1
+   * #=GR <seqname> <gr_tag>        max length: 4 + 1 + uniqwidth + maxname + 1 + maxgr + 1
+   * 
+   * <margin> is the max of these. It is the total length of the
+   * left margin that we need to leave, inclusive of the last space.
+   * 
+   * Then when we output, we do:
+   * name:  <leftmargin-uniqwidth-1>
+   * gc:    #=GC <leftmargin-6>
+   * gr:    #=GR <uniqwidth><maxname> <leftmargin-maxname-uniqwidth-7>
+   *
+   * because uniqwidth includes the |, field widths for uniqizing must be uniqwidth-1
+   *
+   * xref STL9/p17
+   */
+  maxname = esl_str_GetMaxWidth(msa->sqname, msa->nseq);
+  
+  maxgf   = esl_str_GetMaxWidth(msa->gf_tag, msa->ngf);
+  if (maxgf < 2) maxgf = 2;
+
+  maxgc   = esl_str_GetMaxWidth(msa->gc_tag, msa->ngc);
+  if (msa->rf      && maxgc < 2) maxgc = 2;
+  if (msa->mm      && maxgc < 2) maxgc = 2;
+  if (msa->ss_cons && maxgc < 7) maxgc = 7;
+  if (msa->sa_cons && maxgc < 7) maxgc = 7;
+  if (msa->pp_cons && maxgc < 7) maxgc = 7;
+
+  maxgr   = esl_str_GetMaxWidth(msa->gr_tag, msa->ngr);
+  if (msa->ss && maxgr < 2) maxgr = 2;
+  if (msa->sa && maxgr < 2) maxgr = 2;
+  if (msa->pp && maxgr < 2) maxgr = 2;
+
+  margin = uniqwidth + maxname + 1;
+  if (maxgc > 0 && maxgc+6 > margin)                   margin = maxgc+6;
+  if (maxgr > 0 && uniqwidth+maxname+maxgr+7 > margin) margin = uniqwidth+maxname+maxgr+7; 
+  
+  /* Allocate a tmp buffer to hold sequence chunks in  */
+  ESL_ALLOC(buf, sizeof(char) * (cpl+1));
+
+  /* Magic Stockholm header */
+  if (fprintf(fp, "# STOCKHOLM 1.0\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+
+  /* Warning about uniqization */
+  if (make_uniquenames && fprintf(fp, "# WARNING: seq names have been made unique by adding a prefix of \"<seq#>|\"\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+
+ /* Free text comment section */
+  for (i = 0;  i < msa->ncomment; i++)
+    if (fprintf(fp, "#%s\n", msa->comment[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+  if (msa->ncomment > 0 && fprintf(fp, "\n")  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+
+   /* GF section: per-file annotation */
+  if (msa->name && fprintf(fp, "#=GF %-*s %s\n", maxgf, "ID", msa->name) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+  if (msa->acc  && fprintf(fp, "#=GF %-*s %s\n", maxgf, "AC", msa->acc)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+  if (msa->desc && fprintf(fp, "#=GF %-*s %s\n", maxgf, "DE", msa->desc) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+  if (msa->au   && fprintf(fp, "#=GF %-*s %s\n", maxgf, "AU", msa->au)   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+  
+  /* Thresholds are hacky. Pfam has two. Rfam has one. */
+  if      (msa->cutset[eslMSA_GA1] && msa->cutset[eslMSA_GA2]) { if (fprintf(fp, "#=GF %-*s %.1f %.1f\n", maxgf, "GA", msa->cutoff[eslMSA_GA1], msa->cutoff[eslMSA_GA2]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+  else if (msa->cutset[eslMSA_GA1])                            { if (fprintf(fp, "#=GF %-*s %.1f\n",      maxgf, "GA", msa->cutoff[eslMSA_GA1])                          < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+
+  if      (msa->cutset[eslMSA_NC1] && msa->cutset[eslMSA_NC2]) { if (fprintf(fp, "#=GF %-*s %.1f %.1f\n", maxgf, "NC", msa->cutoff[eslMSA_NC1], msa->cutoff[eslMSA_NC2]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+  else if (msa->cutset[eslMSA_NC1])                            { if (fprintf(fp, "#=GF %-*s %.1f\n",	    maxgf, "NC", msa->cutoff[eslMSA_NC1])                        < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+
+  if      (msa->cutset[eslMSA_TC1] && msa->cutset[eslMSA_TC2]) { if (fprintf(fp, "#=GF %-*s %.1f %.1f\n", maxgf, "TC", msa->cutoff[eslMSA_TC1], msa->cutoff[eslMSA_TC2]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+  else if (msa->cutset[eslMSA_TC1])                            { if (fprintf(fp, "#=GF %-*s %.1f\n", 	    maxgf, "TC", msa->cutoff[eslMSA_TC1])                        < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+
+  for (i = 0; i < msa->ngf; i++)
+    if (fprintf(fp, "#=GF %-*s %s\n", maxgf, msa->gf_tag[i], msa->gf[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); 
+  if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+
+  
+  /* GS section: per-sequence annotation */
+  if (msa->flags & eslMSA_HASWGTS) {
+    for (i = 0; i < msa->nseq; i++) 
+      if (make_uniquenames) { if (fprintf(fp, "#=GS %0*d|%-*s WT %.2f\n", uniqwidth-1, i, maxname, msa->sqname[i], msa->wgt[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+      else                  { if (fprintf(fp, "#=GS %-*s WT %.2f\n",                      maxname, msa->sqname[i], msa->wgt[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+    if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); 
+  }
+
+  if (msa->sqacc) {
+    for (i = 0; i < msa->nseq; i++) 
+      if (msa->sqacc[i]) {
+	if (make_uniquenames) { if (fprintf(fp, "#=GS %0*d|%-*s AC %s\n", uniqwidth-1, i, maxname, msa->sqname[i], msa->sqacc[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	else                  { if (fprintf(fp, "#=GS %-*s AC %s\n",                      maxname, msa->sqname[i], msa->sqacc[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+      }
+    if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); 
+  }
+
+  if (msa->sqdesc) {
+    for (i = 0; i < msa->nseq; i++) 
+      if (msa->sqdesc[i]) {
+	if (make_uniquenames) { if (fprintf(fp, "#=GS %0*d|%-*s DE %s\n", uniqwidth-1, i, maxname, msa->sqname[i], msa->sqdesc[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	else                  { if (fprintf(fp, "#=GS %-*s DE %s\n",                      maxname, msa->sqname[i], msa->sqdesc[i]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+      }
+    if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+  }
+ 
+  /* Multiannotated GS tags are possible; for example, 
+   *     #=GS foo DR PDB; 1xxx;
+   *     #=GS foo DR PDB; 2yyy;
+   * These are stored, for example, as:
+   *     msa->gs[0][0] = "PDB; 1xxx;\nPDB; 2yyy;"
+   * and must be decomposed.
+   */
+  for (i = 0; i < msa->ngs; i++)
+    {
+      gslen = strlen(msa->gs_tag[i]);
+      for (j = 0; j < msa->nseq; j++)
+	if (msa->gs[i][j]) {
+	  s = msa->gs[i][j];
+	  while (esl_strtok(&s, "\n", &tok) == eslOK)
+	    if (make_uniquenames) { if (fprintf(fp, "#=GS %0*d|%-*s %-*s %s\n", uniqwidth-1, i,  maxname, msa->sqname[j], gslen, msa->gs_tag[i], tok) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	    else                  { if (fprintf(fp, "#=GS %-*s %-*s %s\n",                       maxname, msa->sqname[j], gslen, msa->gs_tag[i], tok) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	}
+      if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); 
+    }
+
+  /* Alignment section:
+   * contains aligned sequence, #=GR annotation, and #=GC annotation
+   */
+  for (currpos = 0; currpos < msa->alen; currpos += cpl)
+    {
+      acpl = (msa->alen - currpos > cpl)? cpl : msa->alen - currpos;
+      buf[acpl] = '\0';  	/* this suffices to terminate for all uses of buf[] in this block */
+      if (currpos > 0 && fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+
+      for (i = 0; i < msa->nseq; i++)
+	{
+#ifdef eslAUGMENT_ALPHABET
+	  if (msa->abc)   esl_abc_TextizeN(msa->abc, msa->ax[i] + currpos + 1, acpl, buf);
+#endif
+	  if (! msa->abc) strncpy(buf, msa->aseq[i] + currpos, acpl);
+	  if (make_uniquenames) { if (fprintf(fp, "%0*d|%-*s %s\n", uniqwidth-1, i, margin-uniqwidth-1, msa->sqname[i], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	  else                  { if (fprintf(fp, "%-*s %s\n",                      margin-1,           msa->sqname[i], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+
+	  if (msa->ss && msa->ss[i]) {
+	    strncpy(buf, msa->ss[i] + currpos, acpl);
+	    if (make_uniquenames) { if (fprintf(fp, "#=GR %0*d|%-*s %-*s %s\n", uniqwidth-1, i, maxname, msa->sqname[i], margin-maxname-uniqwidth-7, "SS", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	    else                  { if (fprintf(fp, "#=GR %-*s %-*s %s\n",                      maxname, msa->sqname[i], margin-maxname-7,           "SS", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	  }
+	  if (msa->sa && msa->sa[i]) {
+	    strncpy(buf, msa->sa[i] + currpos, acpl);
+	    if (make_uniquenames) { if (fprintf(fp, "#=GR %0*d|%-*s %-*s %s\n", uniqwidth-1, i, maxname, msa->sqname[i], margin-maxname-uniqwidth-7, "SA", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	    else                  { if (fprintf(fp, "#=GR %-*s %-*s %s\n",                      maxname, msa->sqname[i], margin-maxname-7,           "SA", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	  }
+	  if (msa->pp && msa->pp[i]) {
+	    strncpy(buf, msa->pp[i] + currpos, acpl);
+	    if (make_uniquenames) { if (fprintf(fp, "#=GR %0*d|%-*s %-*s %s\n", uniqwidth-1, i, maxname, msa->sqname[i], margin-maxname-uniqwidth-7, "PP", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	    else                  { if (fprintf(fp, "#=GR %-*s %-*s %s\n",                      maxname, msa->sqname[i], margin-maxname-7,           "PP", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	  }
+	  for (j = 0; j < msa->ngr; j++)
+	    if (msa->gr[j][i]) {
+	      strncpy(buf, msa->gr[j][i] + currpos, acpl);
+	      if (make_uniquenames) { if (fprintf(fp, "#=GR %0*d|%-*s %-*s %s\n", uniqwidth-1, i, maxname, msa->sqname[i], margin-maxname-uniqwidth-7, msa->gr_tag[j], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	      else                  { if (fprintf(fp, "#=GR %-*s %-*s %s\n",                      maxname, msa->sqname[i], margin-maxname-7,           msa->gr_tag[j], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); }
+	    }
+	}
+
+      if (msa->ss_cons) {
+	strncpy(buf, msa->ss_cons + currpos, acpl);
+	if (fprintf(fp, "#=GC %-*s %s\n", margin-6, "SS_cons", buf)      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); 
+      }
+      if (msa->sa_cons) {
+	strncpy(buf, msa->sa_cons + currpos, acpl);
+	if (fprintf(fp, "#=GC %-*s %s\n", margin-6, "SA_cons", buf)      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+      }
+      if (msa->pp_cons) {
+	strncpy(buf, msa->pp_cons + currpos, acpl);
+	if (fprintf(fp, "#=GC %-*s %s\n", margin-6, "PP_cons", buf)      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+      }
+      if (msa->rf) {
+  strncpy(buf, msa->rf + currpos, acpl);
+  if (fprintf(fp, "#=GC %-*s %s\n", margin-6, "RF", buf)           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+      }
+      if (msa->mm) {
+  strncpy(buf, msa->mm + currpos, acpl);
+  if (fprintf(fp, "#=GC %-*s %s\n", margin-6, "MM", buf)           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+      }
+      for (j = 0; j < msa->ngc; j++) {
+	strncpy(buf, msa->gc[j] + currpos, acpl);
+	if (fprintf(fp, "#=GC %-*s %s\n", margin-6, msa->gc_tag[j], buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed");
+      }
+    }
+  if (fprintf(fp, "//\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "stockholm msa write failed"); 
+  free(buf);
+  return eslOK;
+
+ ERROR:
+  if (buf != NULL) free(buf);
+  return status;
+}
+/*----------------- end, writing Stockholm/Pfam -----------------*/
+
+
+
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef eslMSAFILE_STOCKHOLM_TESTDRIVE
+
+static void
+utest_write_good1(FILE *ofp, int *ret_alphatype, int *ret_nseq, int *ret_alen)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#\n", ofp);
+  fputs("# This is an example of a Stockholm multiple sequence alignment\n", ofp);
+  fputs("# file. It is deliberately designed to be weird, to exercise many of the\n", ofp);
+  fputs("# features of Stockholm format, in order to test a parser.\n", ofp);
+  fputs("#\n", ofp);
+  fputs("#=GF ID   14-3-3\n", ofp);
+  fputs("#=GF AC   PF00244\n", ofp);
+  fputs("#=GF DE   14-3-3 proteins\n", ofp);
+  fputs("#=GF AU   Finn RD\n", ofp);
+  fputs("#=GF AL   Clustalw\n", ofp);
+  fputs("#=GF SE   Prosite\n", ofp);
+  fputs("#=GF GA   25 25\n", ofp);
+  fputs("#=GF TC   35.40 35.40\n", ofp);
+  fputs("#=GF NC   8.80 8.80\n", ofp);
+  fputs("#=GF BM   hmmbuild -f HMM SEED\n", ofp);
+  fputs("#=GF BM   hmmcalibrate --seed 0 HMM\n", ofp);
+  fputs("#=GF RN   [1]\n", ofp);
+  fputs("#=GF RM   95327195\n", ofp);
+  fputs("#=GF RT   Structure of a 14-3-3 protein and implications for\n", ofp);
+  fputs("#=GF RT   coordination of multiple signalling pathways. \n", ofp);
+  fputs("#=GF RA   Xiao B, Smerdon SJ, Jones DH, Dodson GG, Soneji Y, Aitken\n", ofp);
+  fputs("#=GF RA   A, Gamblin SJ; \n", ofp);
+  fputs("#=GF RL   Nature 1995;376:188-191.\n", ofp);
+  fputs("#=GF RN   [2]\n", ofp);
+  fputs("#=GF RM   95327196\n", ofp);
+  fputs("#=GF RT   Crystal structure of the zeta isoform of the 14-3-3\n", ofp);
+  fputs("#=GF RT   protein. \n", ofp);
+  fputs("#=GF RA   Liu D, Bienkowska J, Petosa C, Collier RJ, Fu H, Liddington\n", ofp);
+  fputs("#=GF RA   R; \n", ofp);
+  fputs("#=GF RL   Nature 1995;376:191-194.\n", ofp);
+  fputs("#=GF DR   PROSITE; PDOC00633;\n", ofp);
+  fputs("#=GF DR   SMART; 14_3_3;\n", ofp);
+  fputs("#=GF DR   PRINTS; PR00305;\n", ofp);
+  fputs("#=GF SQ   119\n", ofp);
+  fputs("	\n", ofp);
+  fputs("#=GS 1431_ENTHI/4-239 WT  0.42\n", ofp);
+  fputs("#=GS seq1             WT  0.40\n", ofp);
+  fputs("#=GS seq2             WT  0.41\n", ofp);
+  fputs("#=GS seq3             WT  0.43\n", ofp);
+  fputs("#=GS seq4             WT  0.44\n", ofp);
+  fputs("#=GS seq5             WT  0.45\n", ofp);
+  fputs("#=GS seq6             WT  0.46\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GS seq4             AC  PF00001\n", ofp);
+  fputs("#=GS seq4             DE  A description of seq4.\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GS seq1             NEWTAG  foo\n", ofp);
+  fputs("#=GS seq2             NEWTAG  bar\n", ofp);
+  fputs("#=GS seq3             NEWTAG  baz  \n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GS seq3             TAG2    foo2\n", ofp);
+  fputs("#=GS seq4             TAG2    foo3\n", ofp);
+  fputs("#=GS seq5             TAG2    foo4\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GC SS_cons                 xxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("#=GC SA_cons                 xxxxxxxxxxxxxxxxxxx  \n", ofp);
+  fputs("#=GC New_long_tag_thingie    xxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("1431_ENTHI/4-239             ACDEFGHKLMNPQRSTVWY             \n", ofp);
+  fputs("#=GR seq1 SS                 ...................  \n", ofp);
+  fputs("#=GR seq1 SA                 0000000000000000000\n", ofp);
+  fputs("seq1                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq2                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq3 PP                 0000000000000000000  \n", ofp);
+  fputs("seq3                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq4                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq5                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq6                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq6 SS                 ...................\n", ofp);
+  fputs("#=GR seq6 SA                 9999999999999999999\n", ofp);
+  fputs("#=GR seq6 Invented_tag       *******************\n", ofp);
+  fputs("#=GR seq6 Another_tag        -------------------\n", ofp);
+  fputs("#=GC PP_cons                 *******************  \n", ofp);
+  fputs("    \n", ofp);
+  fputs("  \n", ofp);
+  fputs("#=GC SS_cons                 xxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("#=GC SA_cons                 xxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("#=GC New_long_tag_thingie    xxxxxxxxxxxxxxxxxxx    \n", ofp);
+  fputs("1431_ENTHI/4-239             ACDEFGHKLMNPQRSTVWY   \n", ofp);
+  fputs("#=GR seq1 SS                 ...................\n", ofp);
+  fputs("#=GR seq1 SA                 0000000000000000000\n", ofp);
+  fputs("seq1                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq2                         ACDEFGHKLMNPQRSTVWY        \n", ofp);
+  fputs("#=GR seq3 PP                 0000000000000000000  \n", ofp);
+  fputs("seq3                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq4                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq5                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("seq6                         ACDEFGHKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq6 SS                 ...................\n", ofp);
+  fputs("#=GR seq6 SA                 9999999999999999999\n", ofp);
+  fputs("#=GR seq6 Invented_tag       ******************* \n", ofp);
+  fputs("#=GR seq6 Another_tag        -------------------\n", ofp);
+  fputs("#=GC PP_cons                 *******************  \n", ofp);
+  fputs("\n", ofp);
+  fputs("#\n", ofp);
+  fputs("# And here's some trailing comments, just to\n", ofp);
+  fputs("# try to confuse a parser.\n", ofp);
+  fputs("#\n", ofp);
+  fputs("\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_alphatype = eslAMINO;
+  *ret_nseq      = 7;
+  *ret_alen      = 38;
+}
+
+static void
+utest_write_badformat1(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("missing Stockholm header\n", ofp);
+
+  *ret_linenumber = 1;
+  strcpy(errmsg, "missing Stockholm header");
+}
+
+static void
+utest_write_badformat2(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "number of seqs in block did not match number in earlier block(s)");
+}
+
+static void
+utest_write_badformat3(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GS seq1 FOO baz\n", ofp);
+  fputs("#=GS seq2 FOO boz\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "number of seqs in block did not match number annotated by #=GS lines");
+}
+
+static void
+utest_write_badformat4(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1    ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2    ACDEFGHIKLMNPQRSTVWY\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "missing // terminator after MSA");
+}
+
+static void
+utest_write_badformat5(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("\n", ofp);
+  fputs("# No data\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "no alignment data followed Stockholm header");
+}
+
+static void
+utest_write_badformat6(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GF \n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "#=GF line is missing <tag>, annotation");
+}
+
+static void
+utest_write_badformat7(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GFX tag\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "faux #=GF line");
+}
+
+static void
+utest_write_badformat8(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF ID\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "No name found on #=GF ID line");
+}
+
+static void
+utest_write_badformat9(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF ID name with cruft\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GF ID line should have only one name (no whitespace allowed)");
+}
+
+static void
+utest_write_badformat10(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF AC      \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "No accession found on #=GF AC line");
+}
+
+static void
+utest_write_badformat11(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF AC accession with cruft     \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GF AC line should have only one accession (no whitespace allowed)");
+}
+
+static void
+utest_write_badformat12(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF GA not_a_number \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "Expected a real number for GA1 value on #=GF GA line");
+}
+
+static void
+utest_write_badformat13(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF GA 10.0  not_a_number \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "Expected a real number for GA2 value on #=GF GA line");
+}
+
+static void
+utest_write_badformat14(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF GA       \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "No GA threshold value found on #=GF GA line");
+}
+
+static void
+utest_write_badformat15(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF NC not_a_number \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "Expected a real number for NC1 value on #=GF NC line");
+}
+
+static void
+utest_write_badformat16(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF NC 10.0  not_a_number \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "Expected a real number for NC2 value on #=GF NC line");
+}
+
+static void
+utest_write_badformat17(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF NC       \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "No NC threshold value found on #=GF NC line");
+}
+
+static void
+utest_write_badformat18(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF TC not_a_number \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "Expected a real number for TC1 value on #=GF TC line");
+}
+
+static void
+utest_write_badformat19(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF TC 10.0  not_a_number \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "Expected a real number for TC2 value on #=GF TC line");
+}
+
+static void
+utest_write_badformat20(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GF TC       \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "No TC threshold value found on #=GF TC line");
+}
+
+static void
+utest_write_badformat21(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS      \n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GS line missing <seqname>, <tag>, annotation");
+}
+
+static void
+utest_write_badformat22(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1    \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GS line missing <tag>, annotation");
+}
+
+static void
+utest_write_badformat23(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GSX seq1 foo   \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "faux #=GS line");
+}
+
+static void
+utest_write_badformat24(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 WT   \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "no weight value found on #=GS <seqname> WT line");
+}
+
+static void
+utest_write_badformat25(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 WT 2.0  \n", ofp);
+  fputs("#=GS seq1 WT 2.0  \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "sequence has more than one #=GS <seqname> WT line");
+}
+
+static void
+utest_write_badformat26(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 WT 2.0 cruft \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GS <seqname> WT line should have only one field, the weight");
+}
+
+static void
+utest_write_badformat27(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 WT cruft \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "value on #=GS <seqname> WT line isn't a real number");
+}
+
+static void
+utest_write_badformat28(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 AC   \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "no accession found on #=GS <seqname> AC line");
+}
+
+static void
+utest_write_badformat29(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 AC xxxxxx  \n", ofp);
+  fputs("#=GS seq1 AC yyyyyy  \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "sequence has more than one #=GS <seqname> AC accession line");
+}
+
+static void
+utest_write_badformat30(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 AC xxxxxx  cruft \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GS <seqname> AC line should have only one field, the accession");
+}
+
+static void
+utest_write_badformat31(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GS seq1 DE a one line description \n", ofp);
+  fputs("#=GS seq1 DE oops, a second line \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "sequence has more than one #=GS <seqname> DE accession line");
+}
+
+static void
+utest_write_badformat32(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GC line missing <tag>, annotation");
+}
+
+static void
+utest_write_badformat33(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GCX FOO xxxxxxxxxxxxxxxxxxxx \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "faux #=GC line");
+}
+
+static void
+utest_write_badformat34(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC FOO  \n", ofp);
+  fputs("seq1      ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "#=GC line missing annotation");
+}
+
+static void
+utest_write_badformat35(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC SS_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GC SS_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 6;
+  strcpy(errmsg, "unexpected #=GC SS_cons");
+}
+
+static void
+utest_write_badformat36(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC SA_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GC SA_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 6;
+  strcpy(errmsg, "unexpected #=GC SA_cons");
+}
+
+static void
+utest_write_badformat37(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC PP_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GC PP_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 6;
+  strcpy(errmsg, "unexpected #=GC PP_cons");
+}
+
+static void
+utest_write_badformat38(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC RF      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GC RF      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 6;
+  strcpy(errmsg, "unexpected #=GC RF");
+}
+
+static void
+utest_write_badformat39(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC XX      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("#=GC XX      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 6;
+  strcpy(errmsg, "unexpected #=GC line");
+}
+
+static void
+utest_write_badformat40(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC SS_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC SS_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 5;
+  strcpy(errmsg, "more than one #=GC SS_cons line in block");
+}
+
+static void
+utest_write_badformat41(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC SA_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC SA_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 5;
+  strcpy(errmsg, "more than one #=GC SA_cons line in block");
+}
+
+static void
+utest_write_badformat42(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC PP_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC PP_cons xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 5;
+  strcpy(errmsg, "more than one #=GC PP_cons line in block");
+}
+
+static void
+utest_write_badformat43(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC RF      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC RF      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 5;
+  strcpy(errmsg, "more than one #=GC RF line in block");
+}
+
+static void
+utest_write_badformat44(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GC XX      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC XX      xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 5;
+  strcpy(errmsg, "more than one #=GC XX line in block");
+}
+
+static void
+utest_write_badformat45(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GC XX        xxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "unexpected # of aligned annotation in #=GC XX line");
+}
+
+static void
+utest_write_badformat46(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR \n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "#=GR line missing <seqname>, <tag>, annotation");
+}
+
+static void
+utest_write_badformat47(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1  \n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "#=GR line missing <tag>, annotation");
+}
+
+static void
+utest_write_badformat48(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1          ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GRX seq1 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2          ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "faux #=GR line");
+}
+
+static void
+utest_write_badformat49(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1 XX  \n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "#=GR line missing annotation");
+}
+
+static void
+utest_write_badformat50(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 SS xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 SS xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected #=GR <seqname> SS");
+}
+
+static void
+utest_write_badformat51(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 SA xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 SA xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected #=GR <seqname> SA");
+}
+
+static void
+utest_write_badformat52(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 PP xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 PP xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected #=GR <seqname> PP");
+}
+
+static void
+utest_write_badformat53(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected #=GR line");
+}
+
+static void
+utest_write_badformat54(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected seqname seq2; expected seq1 from prev blocks");
+}
+
+static void
+utest_write_badformat55(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GR seq1 SS xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1 SS xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "more than one #=GR seq1 SS line in block");
+}
+
+static void
+utest_write_badformat56(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GR seq1 PP xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1 PP xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "more than one #=GR seq1 PP line in block");
+}
+
+static void
+utest_write_badformat57(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GR seq1 SA xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1 SA xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "more than one #=GR seq1 SA line in block");
+}
+
+static void
+utest_write_badformat58(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("#=GR seq1 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq1 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "more than one #=GR seq1 XX line in block");
+}
+
+static void
+utest_write_badformat59(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 XX xxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 4;
+  strcpy(errmsg, "unexpected # of aligned annotation in #=GR seq2 XX line");
+}
+
+static void
+utest_write_badformat60(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2 \n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "sequence line with no sequence");
+}
+
+static void
+utest_write_badformat61(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2  ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "more lines than expected; earlier blocks had fewer");
+}
+
+static void
+utest_write_badformat62(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("#=GR seq2 XX xxxxxxxxxxxxxxxxxxxx\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected seq line; earlier block(s) in different order");
+}
+
+static void
+utest_write_badformat63(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq3         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq3         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 7;
+  strcpy(errmsg, "unexpected seq name seq3; expected seq2 from prev block order");
+}
+
+static void
+utest_write_badformat64(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKL^NPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 2;
+  strcpy(errmsg, "invalid sequence character(s) on line");
+}
+
+static void
+utest_write_badformat65(FILE *ofp, int *ret_linenumber, char *errmsg)
+{
+  fputs("# STOCKHOLM 1.0\n", ofp);
+  fputs("seq1         ACDEFGHIKLMNPQRSTVWY\n", ofp);
+  fputs("seq2         ACDEFGHIKLMNPQRSTVWYZ\n", ofp);
+  fputs("//\n", ofp);
+
+  *ret_linenumber = 3;
+  strcpy(errmsg, "unexpected number of aligned residues parsed on line");
+}
+
+
+static void
+utest_goodfile(char *filename, int testnumber, int expected_alphatype, int expected_nseq, int expected_alen)
+{
+  ESL_ALPHABET        *abc          = NULL;
+  ESLX_MSAFILE        *afp          = NULL;
+  ESL_MSA             *msa1         = NULL;
+  ESL_MSA             *msa2         = NULL;
+  char                 tmpfile1[32] = "esltmpXXXXXX";
+  char                 tmpfile2[32] = "esltmpXXXXXX";
+  FILE                *ofp          = NULL;
+  int                  status;
+
+  /* guessing both the format and the alphabet should work: this is a digital open */
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK) esl_fatal("stockholm good file test %d failed: digital open", testnumber);  
+  if (abc->type   != expected_alphatype)                                                            esl_fatal("stockholm good file test %d failed: alphabet autodetection", testnumber);
+  if (afp->format != eslMSAFILE_STOCKHOLM)                                                          esl_fatal("stockholm good file test %d failed: format autodetection",   testnumber); /* eslMSAFILE_PFAM is autodetected as STOCKHOLM, and that's fine */
+
+  /* This is a digital read, using <abc>. */
+  if ( (status = esl_msafile_stockholm_Read(afp, &msa1))   != eslOK) esl_fatal("stockholm good file test %d failed: msa read, digital", testnumber);  
+  if (msa1->nseq != expected_nseq || msa1->alen != expected_alen)    esl_fatal("stockholm good file test %d failed: nseq/alen",         testnumber);
+  if (esl_msa_Validate(msa1, NULL) != eslOK)                         esl_fatal("stockholm good file test %d failed: msa1 invalid",      testnumber);
+  eslx_msafile_Close(afp);  
+
+  /* write it back out to a new tmpfile (digital write) */
+  if ( (status = esl_tmpfile_named(tmpfile1, &ofp))                            != eslOK) esl_fatal("stockholm good file test %d failed: tmpfile creation",   testnumber);
+  if ( (status = esl_msafile_stockholm_Write(ofp, msa1, eslMSAFILE_STOCKHOLM)) != eslOK) esl_fatal("stockholm good file test %d failed: msa write, digital", testnumber);
+  fclose(ofp);
+
+  /* now open and read it as text mode, in known format. (We have to pass fmtd now, to deal with the possibility of a nonstandard name width) */
+  if ( (status = eslx_msafile_Open(NULL, tmpfile1, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp)) != eslOK) esl_fatal("stockholm good file test %d failed: text mode open", testnumber);  
+  if ( (status = esl_msafile_stockholm_Read(afp, &msa2))                                    != eslOK) esl_fatal("stockholm good file test %d failed: msa read, text", testnumber);  
+  if (msa2->nseq != expected_nseq || msa2->alen != expected_alen)                                     esl_fatal("stockholm good file test %d failed: nseq/alen",      testnumber);
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                          esl_fatal("stockholm good file test %d failed: msa2 invalid",   testnumber);
+  eslx_msafile_Close(afp);
+  
+  /* write it back out to a new tmpfile (text write) */
+  if ( (status = esl_tmpfile_named(tmpfile2, &ofp))                        != eslOK) esl_fatal("stockholm good file test %d failed: tmpfile creation", testnumber);
+  if ( (status = esl_msafile_stockholm_Write(ofp, msa2, eslMSAFILE_PFAM))  != eslOK) esl_fatal("stockholm good file test %d failed: msa write, text",  testnumber);
+  fclose(ofp);
+  esl_msa_Destroy(msa2);
+
+  /* open and read it in digital mode */
+  if ( (status = eslx_msafile_Open(&abc, tmpfile1, NULL, eslMSAFILE_PFAM, NULL, &afp)) != eslOK) esl_fatal("stockholm good file test %d failed: 2nd digital mode open", testnumber);  
+  if ( (status = esl_msafile_stockholm_Read(afp, &msa2))                               != eslOK) esl_fatal("stockholm good file test %d failed: 2nd digital msa read",  testnumber);  
+  if (esl_msa_Validate(msa2, NULL) != eslOK)                                                     esl_fatal("stockholm good file test %d failed: msa2 invalid",          testnumber);
+  eslx_msafile_Close(afp);
+
+  /* this msa <msa2> should be identical to <msa1> */
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal("stockholm good file test %d failed: msa compare", testnumber);  
+
+  remove(tmpfile1);
+  remove(tmpfile2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+}
+
+static void
+utest_bad_format(char *filename, int testnumber, int expected_linenumber, char *expected_errmsg)
+{
+  ESL_ALPHABET *abc = esl_alphabet_Create(eslAMINO);
+  ESLX_MSAFILE *afp = NULL;
+  int           fmt = eslMSAFILE_STOCKHOLM;
+  ESL_MSA      *msa = NULL;
+  int           status;
+  
+  if ( (status = eslx_msafile_Open(&abc, filename, NULL, fmt, NULL, &afp)) != eslOK)  esl_fatal("stockholm bad format test %d failed: unexpected open failure", testnumber);
+  if ( (status = esl_msafile_stockholm_Read(afp, &msa)) != eslEFORMAT)                esl_fatal("stockholm bad format test %d failed: unexpected error code",   testnumber);
+  if (strstr(afp->errmsg, expected_errmsg) == NULL)                                   esl_fatal("stockholm bad format test %d failed: unexpected errmsg",       testnumber);
+  if (afp->linenumber != expected_linenumber)                                         esl_fatal("stockholm bad format test %d failed: unexpected linenumber",   testnumber);
+  eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+  esl_msa_Destroy(msa);
+}
+
+
+static void
+utest_good_format(ESL_ALPHABET **byp_abc, int fmt, int expected_nseq, int64_t expected_alen, char *buf)
+{
+  char          msg[] = "good format test failed";
+  ESLX_MSAFILE *afp = NULL;
+  ESL_MSA      *msa = NULL;
+
+  if (eslx_msafile_OpenMem(byp_abc, buf, strlen(buf), fmt, NULL, &afp) != eslOK) esl_fatal(msg);
+  if (esl_msafile_stockholm_Read(afp, &msa)                            != eslOK) esl_fatal(msg);
+  if (msa->nseq != expected_nseq)                                                esl_fatal(msg);
+  if (msa->alen != expected_alen)                                                esl_fatal(msg);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+}
+
+static void
+utest_identical_io(ESL_ALPHABET **byp_abc, int fmt, char *buf)
+{
+  char   msg[]        = "identical io test failed";
+  char   tmpfile1[32] = "esltmpXXXXXX";
+  char   tmpfile2[32] = "esltmpXXXXXX";
+  FILE  *fp = NULL;
+  ESLX_MSAFILE *afp = NULL;
+  ESL_MSA *msa1 = NULL;
+  ESL_MSA *msa2 = NULL;
+
+  if (esl_tmpfile_named(tmpfile1, &fp) != eslOK) esl_fatal(msg);
+  fputs(buf, fp);
+  fclose(fp);
+
+  if (eslx_msafile_Open(byp_abc, tmpfile1, NULL, fmt, NULL, &afp) != eslOK) esl_fatal(msg);
+  if (esl_msafile_stockholm_Read(afp, &msa1)                      != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+
+  if (esl_tmpfile_named(tmpfile2, &fp) != eslOK) esl_fatal(msg);
+  if (esl_msafile_stockholm_Write(fp, msa1, eslMSAFILE_STOCKHOLM) != eslOK) esl_fatal(msg);
+  fclose(fp);
+
+  if (eslx_msafile_Open(byp_abc, tmpfile2, NULL, fmt, NULL, &afp) != eslOK) esl_fatal(msg);
+  if (esl_msafile_stockholm_Read(afp, &msa2)                      != eslOK) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+  
+  if (esl_msa_Compare(msa1, msa2) != eslOK) esl_fatal(msg);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+}
+
+static void
+utest_bad_open(ESL_ALPHABET **byp_abc, int fmt, int expected_status, char *buf)
+{
+  char          msg[] = "bad open test failed";
+  ESLX_MSAFILE *afp   = NULL;
+
+  if (eslx_msafile_OpenMem(byp_abc, buf, strlen(buf), fmt, NULL, &afp) != expected_status) esl_fatal(msg);
+  eslx_msafile_Close(afp);
+}
+
+static void
+utest_bad_read(ESL_ALPHABET **byp_abc, int fmt, char *expected_errmsg, int expected_line, char *buf)
+{
+  char          msg[] = "bad format test failed";
+  ESLX_MSAFILE *afp   = NULL;
+  ESL_MSA      *msa   = NULL;
+
+  if (eslx_msafile_OpenMem(byp_abc, buf, strlen(buf), fmt, NULL, &afp) != eslOK)      esl_fatal(msg);
+  if (esl_msafile_stockholm_Read(afp, &msa)                            != eslEFORMAT) esl_fatal(msg);
+  if (strstr(afp->errmsg, expected_errmsg)                             == NULL)       esl_fatal(msg);
+  if (afp->linenumber != expected_line)                                               esl_fatal(msg);
+
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+}
+#endif /*eslMSAFILE_STOCKHOLM_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Test driver.
+ *****************************************************************/
+#ifdef eslMSAFILE_STOCKHOLM_TESTDRIVE
+/* compile: gcc -g -Wall -I. -L. -o esl_msafile_stockholm_utest -DeslMSAFILE_STOCKHOLM_TESTDRIVE esl_msafile_stockholm.c -leasel -lm
+ *  (gcov): gcc -g -Wall -fprofile-arcs -ftest-coverage -I. -L. -o esl_msafile_stockholm_utest -DeslMSAFILE_STOCKHOLM_TESTDRIVE esl_msafile_stockholm.c -leasel -lm
+ * run:     ./esl_msafile_stockholm_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_msafile.h"
+#include "esl_msafile_stockholm.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for Stockholm/Xfam MSA format module";
+
+int
+main(int argc, char **argv)
+{
+  char            msg[]       = "Stockholm MSA i/o module test driver failed";
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  int             ngoodtests  = 1;
+  int             nbadtests   = 65;
+  char            tmpfile[32];
+  FILE           *ofp;
+  int             testnumber;
+  int             expected_alphatype;
+  int             expected_nseq;
+  int             expected_alen;
+  int             expected_linenumber;
+  char            expected_errmsg[eslERRBUFSIZE];
+
+  utest_bad_open(NULL, eslMSAFILE_UNKNOWN, eslENOFORMAT, ""); 
+
+  utest_bad_read(NULL, eslMSAFILE_UNKNOWN, "missing // terminator", 1,  "# STOCKHOLM 1.0\n");     
+  utest_bad_read(NULL, eslMSAFILE_UNKNOWN, "no alignment data",     2,  "# STOCKHOLM 1.0\n//\n");
+  
+  utest_good_format(NULL, eslMSAFILE_UNKNOWN, 2, 10, "\n# STOCKHOLM 1.0\n\nseq1 ACDEFGHIKL\nseq2 ACDEFGHIKL\n\n//\n\n");
+
+  utest_identical_io(NULL, eslMSAFILE_UNKNOWN, "# STOCKHOLM 1.0\n\nseq1 ACDEFGHIKL\nseq2 ACDEFGHIKL\n//\n");
+
+  /* Various "good" files, that should be parsed correctly. */
+  for (testnumber = 1; testnumber <= ngoodtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+      switch (testnumber) {
+      case  1:  utest_write_good1 (ofp, &expected_alphatype, &expected_nseq, &expected_alen); break;
+      }
+      fclose(ofp);
+      utest_goodfile(tmpfile, testnumber, expected_alphatype, expected_nseq, expected_alen);
+      remove(tmpfile);
+    }
+
+  /* Tests for all possible EFORMAT errors */
+   for (testnumber = 1; testnumber <= nbadtests; testnumber++)
+    {
+      strcpy(tmpfile, "esltmpXXXXXX"); 
+      if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+    
+      switch (testnumber) {
+      case  1:  utest_write_badformat1 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  2:  utest_write_badformat2 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  3:  utest_write_badformat3 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  4:  utest_write_badformat4 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  5:  utest_write_badformat5 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  6:  utest_write_badformat6 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  7:  utest_write_badformat7 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  8:  utest_write_badformat8 (ofp, &expected_linenumber, expected_errmsg); break;
+      case  9:  utest_write_badformat9 (ofp, &expected_linenumber, expected_errmsg); break;
+      case 10:  utest_write_badformat10(ofp, &expected_linenumber, expected_errmsg); break;
+      case 11:  utest_write_badformat11(ofp, &expected_linenumber, expected_errmsg); break;
+      case 12:  utest_write_badformat12(ofp, &expected_linenumber, expected_errmsg); break;
+      case 13:  utest_write_badformat13(ofp, &expected_linenumber, expected_errmsg); break;
+      case 14:  utest_write_badformat14(ofp, &expected_linenumber, expected_errmsg); break;
+      case 15:  utest_write_badformat15(ofp, &expected_linenumber, expected_errmsg); break;
+      case 16:  utest_write_badformat16(ofp, &expected_linenumber, expected_errmsg); break;
+      case 17:  utest_write_badformat17(ofp, &expected_linenumber, expected_errmsg); break;
+      case 18:  utest_write_badformat18(ofp, &expected_linenumber, expected_errmsg); break;
+      case 19:  utest_write_badformat19(ofp, &expected_linenumber, expected_errmsg); break;
+      case 20:  utest_write_badformat20(ofp, &expected_linenumber, expected_errmsg); break;
+      case 21:  utest_write_badformat21(ofp, &expected_linenumber, expected_errmsg); break;
+      case 22:  utest_write_badformat22(ofp, &expected_linenumber, expected_errmsg); break;
+      case 23:  utest_write_badformat23(ofp, &expected_linenumber, expected_errmsg); break;
+      case 24:  utest_write_badformat24(ofp, &expected_linenumber, expected_errmsg); break;
+      case 25:  utest_write_badformat25(ofp, &expected_linenumber, expected_errmsg); break;
+      case 26:  utest_write_badformat26(ofp, &expected_linenumber, expected_errmsg); break;
+      case 27:  utest_write_badformat27(ofp, &expected_linenumber, expected_errmsg); break;
+      case 28:  utest_write_badformat28(ofp, &expected_linenumber, expected_errmsg); break;
+      case 29:  utest_write_badformat29(ofp, &expected_linenumber, expected_errmsg); break;
+      case 30:  utest_write_badformat30(ofp, &expected_linenumber, expected_errmsg); break;
+      case 31:  utest_write_badformat31(ofp, &expected_linenumber, expected_errmsg); break;
+      case 32:  utest_write_badformat32(ofp, &expected_linenumber, expected_errmsg); break;
+      case 33:  utest_write_badformat33(ofp, &expected_linenumber, expected_errmsg); break;
+      case 34:  utest_write_badformat34(ofp, &expected_linenumber, expected_errmsg); break;
+      case 35:  utest_write_badformat35(ofp, &expected_linenumber, expected_errmsg); break;
+      case 36:  utest_write_badformat36(ofp, &expected_linenumber, expected_errmsg); break;
+      case 37:  utest_write_badformat37(ofp, &expected_linenumber, expected_errmsg); break;
+      case 38:  utest_write_badformat38(ofp, &expected_linenumber, expected_errmsg); break;
+      case 39:  utest_write_badformat39(ofp, &expected_linenumber, expected_errmsg); break;
+      case 40:  utest_write_badformat40(ofp, &expected_linenumber, expected_errmsg); break;
+      case 41:  utest_write_badformat41(ofp, &expected_linenumber, expected_errmsg); break;
+      case 42:  utest_write_badformat42(ofp, &expected_linenumber, expected_errmsg); break;
+      case 43:  utest_write_badformat43(ofp, &expected_linenumber, expected_errmsg); break;
+      case 44:  utest_write_badformat44(ofp, &expected_linenumber, expected_errmsg); break;
+      case 45:  utest_write_badformat45(ofp, &expected_linenumber, expected_errmsg); break;
+      case 46:  utest_write_badformat46(ofp, &expected_linenumber, expected_errmsg); break;
+      case 47:  utest_write_badformat47(ofp, &expected_linenumber, expected_errmsg); break;
+      case 48:  utest_write_badformat48(ofp, &expected_linenumber, expected_errmsg); break;
+      case 49:  utest_write_badformat49(ofp, &expected_linenumber, expected_errmsg); break;
+      case 50:  utest_write_badformat50(ofp, &expected_linenumber, expected_errmsg); break;
+      case 51:  utest_write_badformat51(ofp, &expected_linenumber, expected_errmsg); break;
+      case 52:  utest_write_badformat52(ofp, &expected_linenumber, expected_errmsg); break;
+      case 53:  utest_write_badformat53(ofp, &expected_linenumber, expected_errmsg); break;
+      case 54:  utest_write_badformat54(ofp, &expected_linenumber, expected_errmsg); break;
+      case 55:  utest_write_badformat55(ofp, &expected_linenumber, expected_errmsg); break;
+      case 56:  utest_write_badformat56(ofp, &expected_linenumber, expected_errmsg); break;
+      case 57:  utest_write_badformat57(ofp, &expected_linenumber, expected_errmsg); break;
+      case 58:  utest_write_badformat58(ofp, &expected_linenumber, expected_errmsg); break;
+      case 59:  utest_write_badformat59(ofp, &expected_linenumber, expected_errmsg); break;
+      case 60:  utest_write_badformat60(ofp, &expected_linenumber, expected_errmsg); break;
+      case 61:  utest_write_badformat61(ofp, &expected_linenumber, expected_errmsg); break;
+      case 62:  utest_write_badformat62(ofp, &expected_linenumber, expected_errmsg); break;
+      case 63:  utest_write_badformat63(ofp, &expected_linenumber, expected_errmsg); break;
+      case 64:  utest_write_badformat64(ofp, &expected_linenumber, expected_errmsg); break;
+      case 65:  utest_write_badformat65(ofp, &expected_linenumber, expected_errmsg); break;
+      }
+      fclose(ofp);
+      
+      utest_bad_format(tmpfile, testnumber, expected_linenumber, expected_errmsg);
+      remove(tmpfile);
+    }
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslMSAFILE_STOCKHOLM_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+/*****************************************************************
+ * 8. Examples.
+ *****************************************************************/
+
+#ifdef eslMSAFILE_STOCKHOLM_EXAMPLE
+/* A full-featured example of reading/writing MSA(s) in Stockholm format.
+   gcc -g -Wall -o esl_msafile_stockholm_example -I. -L. -DeslMSAFILE_STOCKHOLM_EXAMPLE esl_msafile_stockholm.c -leasel -lm
+   ./esl_msafile_stockholm_example <msafile>
+ */
+/*::cexcerpt::msafile_stockholm_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_stockholm.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",            0 },
+  { "-1",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "override autodetection; force Stockholm format",  0 },
+  { "-q",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "quieter: don't write msa back, just summary",     0 },
+  { "-t",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",              0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is DNA",                    0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is RNA",                    0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, "-t", "specify that alphabet is protein",                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of guessing, reading, writing Stockholm format";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS        *go          = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char               *filename    = esl_opt_GetArg(go, 1);
+  int                 infmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET       *abc         = NULL;
+  ESLX_MSAFILE       *afp         = NULL;
+  ESL_MSA            *msa         = NULL;
+  int                 status;
+
+  if      (esl_opt_GetBoolean(go, "-1"))      infmt = eslMSAFILE_STOCKHOLM;  /* override format autodetection */
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Text mode: pass NULL for alphabet.
+   * Digital mode: pass ptr to expected ESL_ALPHABET; and if abc=NULL, alphabet is guessed 
+   */
+  if   (esl_opt_GetBoolean(go, "-t"))  status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp);
+  else                                 status = eslx_msafile_Open(&abc, filename, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  while ( (status = esl_msafile_stockholm_Read(afp, &msa)) == eslOK)
+    {
+      printf("alphabet:       %s\n", (abc ? esl_abc_DecodeType(abc->type) : "none (text mode)"));
+      printf("# of seqs:      %d\n", msa->nseq);
+      printf("# of cols:      %d\n", (int) msa->alen);
+      printf("\n");
+
+      if (! esl_opt_GetBoolean(go, "-q"))
+	esl_msafile_stockholm_Write(stdout, msa, eslMSAFILE_STOCKHOLM);
+
+      esl_msa_Destroy(msa);
+    }
+  if (status != eslEOF) eslx_msafile_ReadFailure(afp, status);
+
+  eslx_msafile_Close(afp);
+  if (abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+/*::cexcerpt::msafile_stockholm_example::end::*/
+#endif /*eslMSAFILE_STOCKHOLM_EXAMPLE*/
+
+
+
+#ifdef eslMSAFILE_STOCKHOLM_EXAMPLE2
+/* A minimal example. Read Stockholm MSAs, in text mode.
+   gcc -g -Wall -o esl_msafile_stockholm_example2 -I. -L. -DeslMSAFILE_STOCKHOLM_EXAMPLE2 esl_msafile_stockholm.c -leasel -lm
+   ./esl_msafile_stockholm_example2 <msafile>
+ */
+
+/*::cexcerpt::msafile_stockholm_example::begin::*/
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_stockholm.h"
+
+int 
+main(int argc, char **argv)
+{
+  char        *filename = argv[1];
+  int          infmt    = eslMSAFILE_STOCKHOLM;
+  ESLX_MSAFILE *afp     = NULL;
+  ESL_MSA      *msa      = NULL;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, filename, NULL, infmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  while  ( (status = esl_msafile_stockholm_Read(afp, &msa)) == eslOK)
+    {
+      printf("%15s: %6d seqs, %5d columns\n\n", msa->name, msa->nseq, (int) msa->alen);
+      esl_msafile_stockholm_Write(stdout, msa, eslMSAFILE_STOCKHOLM);
+      esl_msa_Destroy(msa);
+    }
+  if (status != eslEOF)  eslx_msafile_ReadFailure(afp, status);
+
+  eslx_msafile_Close(afp);
+  exit(0);
+}
+/*::cexcerpt::msafile_stockholm_example2::end::*/
+#endif /*eslMSAFILE_STOCKHOLM_EXAMPLE2*/
+/*--------------------- end of example --------------------------*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_stockholm.c 760 2012-05-09 14:53:14Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_stockholm.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_stockholm.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_stockholm.h
new file mode 100755
index 0000000..b2f78de
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msafile_stockholm.h
@@ -0,0 +1,24 @@
+/* I/O of multiple alignment files in Stockholm/Pfam format
+ */
+#ifndef eslMSAFILE_STOCKHOLM_INCLUDED
+#define eslMSAFILE_STOCKHOLM_INCLUDED
+
+extern int esl_msafile_stockholm_SetInmap     (ESLX_MSAFILE *afp);
+extern int esl_msafile_stockholm_GuessAlphabet(ESLX_MSAFILE *afp, int *ret_type);
+extern int esl_msafile_stockholm_Read         (ESLX_MSAFILE *afp, ESL_MSA **ret_msa);
+extern int esl_msafile_stockholm_Write        (FILE *fp, const ESL_MSA *msa, int fmt);
+
+#endif /*eslMSAFILE_STOCKHOLM_INCLUDED*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_msafile_stockholm.h 708 2011-07-20 12:49:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msafile_stockholm.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msashuffle.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msashuffle.c
new file mode 100755
index 0000000..f22e2b4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msashuffle.c
@@ -0,0 +1,523 @@
+/* Shuffling, bootstrapping, permuting alignments, by column or row.
+ * 
+ * Table of contents:
+ *    1. Randomizing MSAs by column.
+ *    2. Permuting sequence order (i.e. by row)
+ *    3. Shuffling pairwise (QRNA) alignments.
+ */
+#include "esl_config.h"
+
+#include <string.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#include "esl_msa.h"
+#include "esl_msashuffle.h"
+#include "esl_random.h"
+
+
+/*****************************************************************
+ * 1. Randomizing MSAs by column.
+ *****************************************************************/ 
+
+/* Function:  esl_msashuffle_Shuffle()
+ * Synopsis:  Shuffle an alignment's columns.
+ *
+ * Purpose:   Returns a column-shuffled version of <msa> in <shuf>,
+ *            using random generator <r>. Shuffling by columns
+ *            preserves the \% identity of the original
+ *            alignment. <msa> and <shuf> can be identical, to shuffle
+ *            in place.
+ *            
+ *            The caller sets up the rest of the data (everything but
+ *            the alignment itself) in <shuf> the way it wants,
+ *            including sequence names, MSA name, and other
+ *            annotation. The easy thing to do is to make <shuf>
+ *            a copy of <msa>: the caller might create <shuf> by
+ *            a call to <esl_msa_Clone()>.
+ *            
+ *            The alignments <msa> and <shuf> can both be in digital
+ *            mode, or can both be in text mode; you cannot mix
+ *            digital and text modes.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <msa>,<shuf> aren't in the same mode (digital vs. text).
+ */
+int
+esl_msashuffle_Shuffle(ESL_RANDOMNESS *r, ESL_MSA *msa, ESL_MSA *shuf)
+{
+  int i, pos, alen;
+
+  if (! (msa->flags & eslMSA_DIGITAL))
+    {
+      char c;
+      if (shuf->flags & eslMSA_DIGITAL) ESL_EXCEPTION(eslEINVAL, "<shuf> must be in text mode if <msa> is");
+      if (msa != shuf) {
+	for (i = 0; i < msa->nseq; i++)
+	  strcpy(shuf->aseq[i], msa->aseq[i]);
+      }
+
+      for (i = 0; i < msa->nseq; i++)
+	shuf->aseq[i][msa->alen] = '\0';
+
+      for (alen = msa->alen; alen > 1; alen--)
+	{
+	  pos = esl_rnd_Roll(r, alen);
+	  for (i = 0; i < msa->nseq; i++)
+	    {
+	      c                     = msa->aseq[i][pos];
+	      shuf->aseq[i][pos]    = shuf->aseq[i][alen-1];
+	      shuf->aseq[i][alen-1] = c;
+	    }
+	}
+    }
+#ifdef eslAUGMENT_ALPHABET
+  else 
+    {
+      ESL_DSQ x;
+      if (! (shuf->flags & eslMSA_DIGITAL)) ESL_EXCEPTION(eslEINVAL, "<shuf> must be in digital mode if <msa> is");
+
+      if (msa != shuf) {
+	for (i = 0; i < msa->nseq; i++)
+	  memcpy(shuf->ax[i], msa->ax[i], (msa->alen + 2) * sizeof(ESL_DSQ));
+      }
+
+      for (i = 0; i < msa->nseq; i++)
+	shuf->ax[i][msa->alen+1] = eslDSQ_SENTINEL;
+
+      for (alen = msa->alen; alen > 1; alen--)
+	{
+	  pos = esl_rnd_Roll(r, alen) + 1;
+	  for (i = 0; i < msa->nseq; i++)
+	    {
+	      x                 = msa->ax[i][pos];
+	      shuf->ax[i][pos]  = shuf->ax[i][alen];
+	      shuf->ax[i][alen] = x;
+	    }
+	}
+    }
+#endif /*eslAUGMENT_ALPHABET*/
+
+  return eslOK;
+}
+
+/* Function:  esl_msashuffle_Bootstrap()
+ * Synopsis:  Bootstrap sample an MSA.
+ * Incept:    SRE, Tue Jan 22 11:05:07 2008 [Janelia]
+ *
+ * Purpose:   Takes a bootstrap sample of <msa> (sample <alen> columns,
+ *            with replacement) and puts it in <bootsample>, using
+ *            random generator <r>. 
+ *            
+ *            The caller provides allocated space for <bootsample>.
+ *            It must be different space than <msa>; you cannot take
+ *            a bootstrap sample "in place". The caller sets up the
+ *            rest of the data in <bootsample> (everything but the
+ *            alignment itself) the way it wants, including sequence
+ *            names, MSA name, and other annotation. The easy thing to
+ *            do is to initialize <bootsample> by cloning <msa>.
+ *
+ *            The alignments <msa> and <bootsample> can both be in digital
+ *            mode, or can both be in text mode; you cannot mix
+ *            digital and text modes.
+ *
+ * Returns:   <eslOK> on success, and the alignment in <bootsample> is
+ *            set to be a bootstrap resample of the alignment in <msa>.
+ *
+ * Throws:    <eslEINVAL> if <msa>,<bootsample> aren't in the same mode
+ *            (digital vs. text).
+ */
+int 
+esl_msashuffle_Bootstrap(ESL_RANDOMNESS *r, ESL_MSA *msa, ESL_MSA *bootsample)
+{
+  int i, pos, col;
+
+  /* contract checks */
+  if (  (msa->flags & eslMSA_DIGITAL) && ! (bootsample->flags & eslMSA_DIGITAL))
+    ESL_EXCEPTION(eslEINVAL, "<msa> and <bootsample> must both be in digital or text mode");
+  if (! (msa->flags & eslMSA_DIGITAL) &&   (bootsample->flags & eslMSA_DIGITAL))
+    ESL_EXCEPTION(eslEINVAL, "<msa> and <bootsample> must both be in digital or text mode");
+
+  if (! (msa->flags & eslMSA_DIGITAL))
+    {
+      for (pos = 0; pos < msa->alen; pos++)
+	{
+	  col = esl_rnd_Roll(r, msa->alen);
+	  for (i = 0; i < msa->nseq; i++)
+	    bootsample->aseq[i][pos] = msa->aseq[i][col];
+	}
+
+      for (i = 0; i < msa->nseq; i++)
+	bootsample->aseq[i][msa->alen] = '\0';
+    }
+#ifdef eslAUGMENT_ALPHABET
+  else
+    {
+      for (i = 0; i < msa->nseq; i++)
+	bootsample->ax[i][0] = eslDSQ_SENTINEL;
+
+      for (pos = 1; pos <= msa->alen; pos++)
+	{
+	  col = esl_rnd_Roll(r, msa->alen) + 1;
+	  for (i = 0; i < msa->nseq; i++)
+	    bootsample->ax[i][pos] = msa->ax[i][col];
+	}
+
+      for (i = 0; i < msa->nseq; i++)
+	bootsample->ax[i][msa->alen+1] = eslDSQ_SENTINEL;
+    }
+#endif /*eslAUGMENT_ALPHABET*/
+
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 2. Permuting the sequence order 
+ *****************************************************************/
+
+/* Function:  esl_msashuffle_PermuteSequenceOrder()
+ * Synopsis:  Permutes the order of the sequences.
+ *
+ * Purpose:   Randomly permute the order of the sequences in <msa>,
+ *            and any associated sequence annotation, in place.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_msashuffle_PermuteSequenceOrder(ESL_RANDOMNESS *r, ESL_MSA *msa)
+{
+  void   *tmp;
+  double  tmpwgt;
+  int64_t tmplen;
+  int     N, i, tag;
+
+  for (N = msa->nseq; N > 1; N--)
+    {
+      i = esl_rnd_Roll(r, N);	/* idx = 0..N-1 */
+      
+      if ( ! (msa->flags & eslMSA_DIGITAL)) { tmp = msa->aseq[i]; msa->aseq[i] = msa->aseq[N-1]; msa->aseq[N-1] = tmp; }
+#ifdef eslAUGMENT_ALPHABET
+      else 	                            { tmp = msa->ax[i];   msa->ax[i]   = msa->ax[N-1];   msa->ax[N-1]   = tmp; }
+#endif
+      tmp    = msa->sqname[i]; msa->sqname[i] = msa->sqname[N-1]; msa->sqname[N-1] = tmp;
+      tmpwgt = msa->wgt[i];    msa->wgt[i]    = msa->wgt[N-1];    msa->wgt[N-1]    = tmpwgt;
+
+      if (msa->sqacc)  { tmp    = msa->sqacc[i];  msa->sqacc[i]  = msa->sqacc[N-1];  msa->sqacc[N-1]  = tmp;    }
+      if (msa->sqdesc) { tmp    = msa->sqdesc[i]; msa->sqdesc[i] = msa->sqdesc[N-1]; msa->sqdesc[N-1] = tmp;    }
+      if (msa->ss)     { tmp    = msa->ss[i];     msa->ss[i]     = msa->ss[N-1];     msa->ss[N-1]     = tmp;    }
+      if (msa->sa)     { tmp    = msa->sa[i];     msa->sa[i]     = msa->sa[N-1];     msa->sa[N-1]     = tmp;    }
+      if (msa->pp)     { tmp    = msa->pp[i];     msa->pp[i]     = msa->pp[N-1];     msa->pp[N-1]     = tmp;    }
+      if (msa->sqlen)  { tmplen = msa->sqlen[i];  msa->sqlen[i]  = msa->sqlen[N-1];  msa->sqlen[N-1]  = tmplen; }
+      if (msa->sslen)  { tmplen = msa->sslen[i];  msa->sslen[i]  = msa->sslen[N-1];  msa->sslen[N-1]  = tmplen; }
+      if (msa->salen)  { tmplen = msa->salen[i];  msa->salen[i]  = msa->salen[N-1];  msa->salen[N-1]  = tmplen; }
+      if (msa->pplen)  { tmplen = msa->pplen[i];  msa->pplen[i]  = msa->pplen[N-1];  msa->pplen[N-1]  = tmplen; }
+
+      for (tag = 0; tag < msa->ngs; tag++) if (msa->gs[tag]) { tmp = msa->gs[tag][i]; msa->gs[tag][i] = msa->gs[tag][N-1]; msa->gs[tag][N-1] = tmp; }
+      for (tag = 0; tag < msa->ngr; tag++) if (msa->gr[tag]) { tmp = msa->gr[tag][i]; msa->gr[tag][i] = msa->gr[tag][N-1]; msa->gr[tag][N-1] = tmp; }
+    }
+
+  /* if <msa> has a keyhash that maps seqname => seqidx, we'll need to rebuild it. */
+  if (msa->index) 
+    {
+      esl_keyhash_Reuse(msa->index);
+      for (i = 0; i < msa->nseq; i++)
+	esl_keyhash_Store(msa->index, msa->sqname[i], -1, NULL);
+    }
+
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 3. Shuffling pairwise (QRNA) alignments
+ *****************************************************************/ 
+#ifdef eslAUGMENT_ALPHABET
+/* Function: esl_msashuffle_XQRNA()
+ * Synopsis: Gap-preserving column shuffle of a digital pairwise alignment.
+ * Incept:   SRE, Tue Jan 22 09:09:52 2008 [Market Street Cafe, Leesburg]
+ *
+ * Purpose:  Shuffle a digital pairwise alignment <x>,<y> while
+ *           preserving the position of gaps, where both sequences are
+ *           in digital alphabet <abc>, using the random number
+ *           generator <r>. Return the shuffled alignment in <xs>,
+ *           <ys>. Caller provides allocated space for <xs> and <ys>
+ *           for at least the same length of <x>,<y>.
+ *           
+ *           Works by doing three separate
+ *           shuffles, of (1) columns with residues in both
+ *           <x> and <y>, (2) columns with residue in <x> and gap in <y>,
+ *           and (3) columns with gap in <x> and residue in <y>.
+ *           
+ *           <xs>,<x> and <ys>,<y> may be identical: that is, to shuffle
+ *           an alignment "in place", destroying the original
+ *           alignment, just call <esl_msashuffle_XQRNA(r, abc, x,y,x,y)>.
+ *
+ * Returns:  <eslOK> on success, and the shuffled alignment is 
+ *           returned in <xs>, <ys>.
+ *           
+ * Throws:   <eslEMEM> on allocation failure.          
+ */
+int
+esl_msashuffle_XQRNA(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, ESL_DSQ *x, ESL_DSQ *y, ESL_DSQ *xs, ESL_DSQ *ys)
+{
+  int  L;
+  int *xycol = NULL;
+  int *xcol  = NULL;
+  int *ycol  = NULL;
+  int  nxy, nx, ny;
+  int  i;
+  int  pos, c;
+  char xsym, ysym;
+  int  status;
+
+  L = esl_abc_dsqlen(x);
+  if (esl_abc_dsqlen(y) != L) ESL_XEXCEPTION(eslEINVAL, "sequences of different lengths in qrna shuffle");
+
+  if (xs != x) esl_abc_dsqcpy(x, L, xs);
+  if (ys != y) esl_abc_dsqcpy(y, L, ys);
+
+  /* First, construct three arrays containing lists of the column positions
+   * of the three types of columns. (If a column contains gaps in both x and y,
+   * we've already simply copied it to the shuffled sequence.)
+   */
+  ESL_ALLOC(xycol, sizeof(int) * L);
+  ESL_ALLOC(xcol,  sizeof(int) * L);
+  ESL_ALLOC(ycol,  sizeof(int) * L);
+  nxy = nx = ny = 0;
+
+  for (i = 1; i <= L; i++)
+    {
+      if      (  esl_abc_XIsGap(abc, x[i]) &&   esl_abc_XIsGap(abc, y[i])) { continue; }
+      else if (! esl_abc_XIsGap(abc, x[i]) && ! esl_abc_XIsGap(abc, y[i])) { xycol[nxy] = i; nxy++; }
+      else if (  esl_abc_XIsGap(abc, x[i]))                                { ycol[ny] = i;   ny++;  }
+      else if (  esl_abc_XIsGap(abc, y[i]))                                { xcol[nx] = i;   nx++;  }
+    }
+
+  /* Second, shuffle the sequences indirectly, via shuffling these arrays.
+   * Yow, careful with those indices, and with order of the statements...
+   */
+  for (; nxy > 1; nxy--) {
+    pos              = esl_rnd_Roll(r, nxy);
+    xsym             = xs[xycol[pos]];   ysym             = ys[xycol[pos]];    c            = xycol[pos];   
+    xs[xycol[pos]]   = xs[xycol[nxy-1]]; ys[xycol[pos]]   = ys[xycol[nxy-1]];  xycol[pos]   = xycol[nxy-1];
+    xs[xycol[nxy-1]] = xsym;             ys[xycol[nxy-1]] = ysym;              xycol[pos]   = xycol[nxy-1];
+  }
+  for (; nx > 1; nx--) {
+    pos            = esl_rnd_Roll(r, nx); 
+    xsym           = xs[xcol[pos]];  ysym           = ys[xcol[pos]];  c          = xcol[pos];  
+    xs[xcol[pos]]  = xs[xcol[nx-1]]; ys[xcol[pos]]  = ys[xcol[nx-1]]; xcol[pos]  = xcol[nx-1]; 
+    xs[xcol[nx-1]] = xsym;           ys[xcol[nx-1]] = ysym;           xcol[nx-1] = c;          
+  }
+  for (; ny > 1; ny--) {
+    pos            = esl_rnd_Roll(r, ny); 
+    xsym           = xs[ycol[pos]];  ysym           = ys[ycol[pos]];  c          = ycol[pos]; 
+    xs[ycol[pos]]  = xs[ycol[ny-1]]; ys[ycol[pos]]  = ys[ycol[ny-1]]; ycol[pos]  = ycol[ny-1];
+    xs[ycol[ny-1]] = xsym;           ys[ycol[ny-1]] = ysym;           ycol[ny-1] = c;          
+  }
+
+  free(xycol); free(xcol); free(ycol);
+  return eslOK;
+
+ ERROR:
+  if (xycol != NULL) free(xycol);
+  if (xcol  != NULL) free(xcol);
+  if (ycol  != NULL) free(ycol);
+  return status;
+}
+
+/* Function: esl_msashuffle_CQRNA()
+ * Synopsis: Gap-preserving column shuffle of a pairwise alignment.
+ * Incept:   SRE, Tue Jan 22 08:45:34 2008 [Market Street Cafe, Leesburg]
+ *
+ * Purpose:  Shuffle a pairwise alignment <x>,<y> while preserving the
+ *           position of gaps, using the random number generator <r>.
+ *           Return the shuffled alignment in <xs>,
+ *           <ys>. Caller provides allocated space for <xs> and <ys>.
+ *           
+ *           An alphabet <abc> must also be provided, solely for the
+ *           definition of gap characters. Because Easel's default
+ *           alphabets (DNA, RNA, and protein) all use the same
+ *           definition of gap characters <-_.>, you can actually
+ *           provide any alphabet here, and get the same results.
+ *           (This may save having to determine the alphabet of input
+ *           sequences.)
+ *           
+ *           Works by doing three separate
+ *           shuffles, of (1) columns with residues in both
+ *           <x> and <y>, (2) columns with residue in <x> and gap in <y>,
+ *           and (3) columns with gap in <x> and residue in <y>.
+ *           
+ *           <xs>,<x> and <ys>,<y> may be identical: that is, to shuffle
+ *           an alignment "in place", destroying the original
+ *           alignment, just call <esl_msashuffle_CQRNA(r, abc, x,y,x,y)>.
+ *
+ * Returns:  <eslOK> on success, and the shuffled alignment is 
+ *           returned in <xs>, <ys>.
+ *           
+ * Throws:   <eslEMEM> on allocation failure.          
+ */
+int
+esl_msashuffle_CQRNA(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, char *x, char *y, char *xs, char *ys)
+{
+  int  L;
+  int *xycol = NULL;
+  int *xcol  = NULL;
+  int *ycol  = NULL;
+  int  nxy, nx, ny;
+  int  i;
+  int  pos, c;
+  char xsym, ysym;
+  int  status;
+
+  if (xs != x) strcpy(xs, x);
+  if (ys != y) strcpy(ys, y);
+
+  /* First, construct three arrays containing lists of the column positions
+   * of the three types of columns. (If a column contains gaps in both x and y,
+   * we've already simply copied it to the shuffled sequence.)
+   */
+  L = strlen(x);
+  if (strlen(y) != L) ESL_XEXCEPTION(eslEINVAL, "sequences of different lengths in qrna shuffle");
+  ESL_ALLOC(xycol, sizeof(int) * L);
+  ESL_ALLOC(xcol,  sizeof(int) * L);
+  ESL_ALLOC(ycol,  sizeof(int) * L);
+  nxy = nx = ny = 0;
+
+  for (i = 0; i < L; i++)
+    {
+      if      (  esl_abc_CIsGap(abc, x[i]) &&   esl_abc_CIsGap(abc, y[i])) { continue; }
+      else if (! esl_abc_CIsGap(abc, x[i]) && ! esl_abc_CIsGap(abc, y[i])) { xycol[nxy] = i; nxy++; }
+      else if (  esl_abc_CIsGap(abc, x[i]))                                { ycol[ny] = i;   ny++;  }
+      else if (  esl_abc_CIsGap(abc, y[i]))                                { xcol[nx] = i;   nx++;  }
+    }
+
+  /* Second, shuffle the sequences indirectly, via shuffling these arrays.
+   * Yow, careful with those indices, and with order of the statements...
+   */
+  for (; nxy > 1; nxy--) {
+    pos              = esl_rnd_Roll(r, nxy);
+    xsym             = xs[xycol[pos]];   ysym             = ys[xycol[pos]];    c            = xycol[pos];   
+    xs[xycol[pos]]   = xs[xycol[nxy-1]]; ys[xycol[pos]]   = ys[xycol[nxy-1]];  xycol[pos]   = xycol[nxy-1];
+    xs[xycol[nxy-1]] = xsym;             ys[xycol[nxy-1]] = ysym;              xycol[pos]   = xycol[nxy-1];
+  }
+  for (; nx > 1; nx--) {
+    pos            = esl_rnd_Roll(r, nx); 
+    xsym           = xs[xcol[pos]];  ysym           = ys[xcol[pos]];  c          = xcol[pos];  
+    xs[xcol[pos]]  = xs[xcol[nx-1]]; ys[xcol[pos]]  = ys[xcol[nx-1]]; xcol[pos]  = xcol[nx-1]; 
+    xs[xcol[nx-1]] = xsym;           ys[xcol[nx-1]] = ysym;           xcol[nx-1] = c;          
+  }
+  for (; ny > 1; ny--) {
+    pos            = esl_rnd_Roll(r, ny); 
+    xsym           = xs[ycol[pos]];  ysym           = ys[ycol[pos]];  c          = ycol[pos]; 
+    xs[ycol[pos]]  = xs[ycol[ny-1]]; ys[ycol[pos]]  = ys[ycol[ny-1]]; ycol[pos]  = ycol[ny-1];
+    xs[ycol[ny-1]] = xsym;           ys[ycol[ny-1]] = ysym;           ycol[ny-1] = c;          
+  }
+
+  free(xycol); free(xcol); free(ycol);
+  return eslOK;
+
+ ERROR:
+  if (xycol != NULL) free(xycol);
+  if (xcol  != NULL) free(xcol);
+  if (ycol  != NULL) free(ycol);
+  return status;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+
+/*****************************************************************
+ * 4. Example.
+ *****************************************************************/
+#ifdef eslMSASHUFFLE_EXAMPLE
+#include <stdio.h>
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_random.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type          default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",          eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",        0 },
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use DNA alphabet",                            0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use RNA alphabet",                            0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use protein alphabet",                        0 },
+  { "--text",      eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use text mode: no digital alphabet",          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example of multiple alignment shuffling/permuting";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go        = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng       = esl_randomness_Create(0);
+  char           *msafile   = esl_opt_GetArg(go, 1);
+  int             fmt       = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET   *abc       = NULL;
+  ESLX_MSAFILE   *afp       = NULL;
+  ESL_MSA        *msa       = NULL;
+  int             textmode  = esl_opt_GetBoolean(go, "--text");
+  int             nali      = 0;
+  int             status;
+
+  /* If you know the alphabet you want, create it - you'll pass it to eslx_msafile_Open() */
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* Open in text or digital mode.
+   *   To let the Open() function autoguess the format, you pass <infmt=eslMSAFILE_UNKNOWN>. 
+   *   To let it autoguess the alphabet, you set <abc=NULL> and pass <&abc>.
+   *   To open in text mode instead of digital, you pass <NULL> for the alphabet argument.
+   * eslx_msafile_OpenFailure() is a convenience, printing various diagnostics of any
+   * open failure to <stderr>. You can of course handle your own diagnostics instead.
+   */
+  if (textmode) status = eslx_msafile_Open(NULL, msafile, NULL, fmt, NULL, &afp);
+  else          status = eslx_msafile_Open(&abc, msafile, NULL, fmt, NULL, &afp);
+  if (status != eslOK)   eslx_msafile_OpenFailure(afp, status);
+  
+  fmt = afp->format;
+
+  while ((status = eslx_msafile_Read(afp, &msa)) == eslOK)
+    {	
+      /* if digital MSA: msa->ax[idx=0..nseq-1][acol=1..alen] is the alignment data; 
+       * if text MSA:  msa->aseq[idx=0..nseq-1][acol=0..alen-1] */
+      nali++;
+      
+      /* permute it */
+      esl_msashuffle_PermuteSequenceOrder(rng, msa);
+
+      eslx_msafile_Write(stdout, msa, fmt);
+      esl_msa_Destroy(msa);
+    }
+  if (nali == 0 || status != eslEOF) eslx_msafile_ReadFailure(afp, status); /* a convenience, like eslx_msafile_OpenFailure() */
+
+  esl_alphabet_Destroy(abc);
+  eslx_msafile_Close(afp);
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+#endif
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_msashuffle.c 761 2012-05-10 20:09:44Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msashuffle.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msashuffle.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msashuffle.h
new file mode 100755
index 0000000..3d15a02
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msashuffle.h
@@ -0,0 +1,37 @@
+/* Shuffling or bootstrapping multiple sequence alignments.
+ * 
+ * SRE, Tue Jan 22 09:18:09 2008 [Market Street Cafe, Leesburg]
+ * SVN $Id: esl_msashuffle.h 761 2012-05-10 20:09:44Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msashuffle.h $
+ */
+#ifndef eslMSASHUFFLE_INCLUDED
+#define eslMSASHUFFLE_INCLUDED
+
+#include "esl_random.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+
+/* 1. Randomizing MSAs by column. */
+extern int esl_msashuffle_Shuffle  (ESL_RANDOMNESS *r, ESL_MSA *msa, ESL_MSA *shuf);
+extern int esl_msashuffle_Bootstrap(ESL_RANDOMNESS *r, ESL_MSA *msa, ESL_MSA *bootsample);
+
+/* 2. Permuting the sequence order */
+extern int esl_msashuffle_PermuteSequenceOrder(ESL_RANDOMNESS *r, ESL_MSA *msa);
+
+/* 3. Shuffling pairwise (QRNA) alignments */
+#ifdef eslAUGMENT_ALPHABET
+extern int esl_msashuffle_CQRNA(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, char    *x, char    *y, char    *xs, char    *ys);
+extern int esl_msashuffle_XQRNA(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, ESL_DSQ *x, ESL_DSQ *y, ESL_DSQ *xs, ESL_DSQ *ys);
+#endif /*eslAUGMENT_ALPHABET*/
+
+#endif /*eslMSASHUFFLE_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.c
new file mode 100755
index 0000000..d0aaac0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.c
@@ -0,0 +1,1129 @@
+/* Sequence weighting algorithms.
+ *
+ * Implementations of ad hoc sequence weighting algorithms for multiple
+ * sequence alignments:
+ *   GSC weights:    Gerstein et al., JMB 236:1067-1078, 1994. 
+ *   PB weights:     Henikoff and Henikoff, JMB 243:574-578, 1994.
+ *   BLOSUM weights: Henikoff and Henikoff, PNAS 89:10915-10919, 1992.
+ * 
+ * Contents:
+ *   1. Implementations of weighting algorithms.
+ *   2. Unit tests.
+ *   3. Test driver.
+ *   4. Regression tests against SQUID.
+ *   5. Benchmark.
+ *   6. Stats driver.
+ *   7. Examples.
+ *   8. Copyright notice and license.
+ */
+#include "esl_config.h"
+
+#include <math.h>
+#include <string.h>
+#include <ctype.h>
+
+/* Dependencies on Easel core: */
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_msa.h"
+#include "esl_dmatrix.h"
+#include "esl_vectorops.h"
+
+/* Dependencies on phylogeny modules: */
+#include "esl_distance.h"
+#include "esl_tree.h"
+#include "esl_msacluster.h"
+#include "esl_msaweight.h"
+
+
+/*****************************************************************
+ * 1. Implementations of weighting algorithms
+ *****************************************************************/
+
+/* Function:  esl_msaweight_GSC()
+ * Synopsis:  GSC weights.
+ * Incept:    SRE, Fri Nov  3 13:31:14 2006 [Janelia]
+ *
+ * Purpose:   Given a multiple sequence alignment <msa>, calculate
+ *            sequence weights according to the
+ *            Gerstein/Sonnhammer/Chothia algorithm. These weights
+ *            are stored internally in the <msa> object, replacing
+ *            any weights that may have already been there. Weights
+ *            are $\geq 0$ and they sum to <msa->nseq>.
+ *            
+ *            The <msa> may be in either digitized or text mode.
+ *            Digital mode is preferred, so that distance calculations
+ *            used by the GSC algorithm are robust against degenerate
+ *            residue symbols.
+ *
+ *            This is an implementation of Gerstein et al., "A method to
+ *            weight protein sequences to correct for unequal
+ *            representation", JMB 236:1067-1078, 1994.
+ *            
+ *            The algorithm is $O(N^2)$ memory (it requires a pairwise
+ *            distance matrix) and $O(N^3 + LN^2)$ time ($N^3$ for a UPGMA
+ *            tree building step, $LN^2$ for distance matrix construction)
+ *            for an alignment of N sequences and L columns. 
+ *            
+ *            In the current implementation, the actual memory
+ *            requirement is dominated by two full NxN distance
+ *            matrices (one tmp copy in UPGMA, and one here): for
+ *            8-byte doubles, that's $16N^2$ bytes. To keep the
+ *            calculation under memory limits, don't process large
+ *            alignments: max 1400 sequences for 32 MB, max 4000
+ *            sequences for 256 MB, max 8000 seqs for 1 GB. Watch
+ *            out, because Pfam alignments can easily blow this up.
+ *            
+ * Note:      Memory usage could be improved. UPGMA consumes a distance
+ *            matrix, but that can be D itself, not a copy, if the
+ *            caller doesn't mind the destruction of D. Also, D is
+ *            symmetrical, so we could use upper or lower triangular
+ *            matrices if we rewrote dmatrix to allow them.
+ *            
+ *            I also think UPGMA can be reduced to O(N^2) time, by
+ *            being more tricky about rapidly identifying the minimum
+ *            element: could keep min of each row, and update that,
+ *            I think.
+ *
+ * Returns:   <eslOK> on success, and the weights inside <msa> have been
+ *            modified.  
+ *
+ * Throws:    <eslEINVAL> if the alignment data are somehow invalid and
+ *            distance matrices can't be calculated. <eslEMEM> on an
+ *            allocation error. In either case, the original <msa> is
+ *            left unmodified.
+ *
+ * Xref:      [Gerstein94]; squid::weight.c::GSCWeights(); STL11/81.
+ */
+int
+esl_msaweight_GSC(ESL_MSA *msa)
+{
+  ESL_DMATRIX *D = NULL;     /* distance matrix */
+  ESL_TREE    *T = NULL;     /* UPGMA tree */
+  double      *x = NULL;     /* storage per node, 0..N-2 */
+  double       lw, rw;       /* total branchlen on left, right subtrees */
+  double       lx, rx;	     /* distribution of weight to left, right side */
+  int i;		     /* counter over nodes */
+  int status;
+  
+  /* Contract checks
+   */
+  ESL_DASSERT1( (msa       != NULL) );
+  ESL_DASSERT1( (msa->nseq >= 1)    );
+  ESL_DASSERT1( (msa->alen >= 1)    );
+  ESL_DASSERT1( (msa->wgt  != NULL) );
+  if (msa->nseq == 1) { msa->wgt[0] = 1.0; return eslOK; }
+
+  /* GSC weights use a rooted tree with "branch lengths" calculated by
+   * UPGMA on a fractional difference matrix - pretty crude.
+   */
+  if (! (msa->flags & eslMSA_DIGITAL)) {
+    if ((status = esl_dst_CDiffMx(msa->aseq, msa->nseq, &D))         != eslOK) goto ERROR;
+  } 
+#ifdef eslAUGMENT_ALPHABET
+  else {
+    if ((status = esl_dst_XDiffMx(msa->abc, msa->ax, msa->nseq, &D)) != eslOK) goto ERROR;
+  }
+#endif
+
+  /* oi, look out here.  UPGMA is correct, but old squid library uses
+   * single linkage, so for regression tests ONLY, we use single link. 
+   */
+#ifdef  eslMSAWEIGHT_REGRESSION
+  if ((status = esl_tree_SingleLinkage(D, &T)) != eslOK) goto ERROR; 
+#else
+  if ((status = esl_tree_UPGMA(D, &T)) != eslOK) goto ERROR; 
+#endif
+  esl_tree_SetCladesizes(T);	
+
+  ESL_ALLOC(x, sizeof(double) * (T->N-1));
+  
+  /* Postorder traverse (leaves to root) to calculate the total branch
+   * length under each internal node; store this in x[].  Remember the
+   * total branch length (x[0]) for a future sanity check.
+   */
+  for (i = T->N-2; i >= 0; i--)
+    {
+      x[i] = T->ld[i] + T->rd[i];
+      if (T->left[i]  > 0) x[i] += x[T->left[i]];
+      if (T->right[i] > 0) x[i] += x[T->right[i]];
+    }
+  
+  /* Preorder traverse (root to leaves) to calculate the weights.  Now
+   * we use x[] to mean, the total weight *above* this node that we will
+   * apportion to the node's left and right children. The two
+   * meanings of x[] never cross: every x[] beneath x[i] is still a
+   * total branch length.
+   *
+   * Because the API guarantees that msa is returned unmodified in case
+   * of an exception, and we're touching msa->wgt here, no exceptions
+   * may be thrown from now on in this function.
+   */
+  x[0] = 0;			/* initialize: no branch to the root. */
+  for (i = 0; i <= T->N-2; i++)
+    {
+      lw = T->ld[i];   if (T->left[i]  > 0) lw += x[T->left[i]];
+      rw = T->rd[i];   if (T->right[i] > 0) rw += x[T->right[i]];
+
+      if (lw+rw == 0.) 
+	{
+	  /* A special case arises in GSC weights when all branch lengths in a subtree are 0.
+	   * In this case, all seqs in this clade should get equal weights, sharing x[i] equally.
+           * So, split x[i] in proportion to cladesize, not to branch weight.
+	   */
+	  if (T->left[i] > 0)  lx =  x[i] * ((double) T->cladesize[T->left[i]]  / (double) T->cladesize[i]);
+	  else                 lx =  x[i] / (double) T->cladesize[i];
+
+	  if (T->right[i] > 0) rx =  x[i] * ((double) T->cladesize[T->right[i]] / (double) T->cladesize[i]);
+	  else                 rx =  x[i] / (double) T->cladesize[i];
+	} 
+      else /* normal case: x[i] split in proportion to branch weight. */
+	{
+	  lx = x[i] * lw/(lw+rw);
+	  rx = x[i] * rw/(lw+rw);
+	}
+      
+      if (T->left[i]  <= 0) msa->wgt[-(T->left[i])] = lx + T->ld[i];
+      else                  x[T->left[i]] = lx + T->ld[i];
+
+      if (T->right[i] <= 0) msa->wgt[-(T->right[i])] = rx + T->rd[i];
+      else                  x[T->right[i]] = rx + T->rd[i];
+    } 
+
+  /* Renormalize weights to sum to N.
+   */
+  esl_vec_DNorm(msa->wgt, msa->nseq);
+  esl_vec_DScale(msa->wgt, msa->nseq, (double) msa->nseq);
+  msa->flags |= eslMSA_HASWGTS;
+
+  free(x);
+  esl_tree_Destroy(T);
+  esl_dmatrix_Destroy(D);
+  return eslOK;
+
+ ERROR:
+  if (x != NULL) free(x);
+  if (T != NULL) esl_tree_Destroy(T);
+  if (D != NULL) esl_dmatrix_Destroy(D);
+  return status;
+}
+
+
+/* Function:  esl_msaweight_PB()
+ * Synopsis:  PB (position-based) weights.
+ * Incept:    SRE, Sun Nov  5 08:59:28 2006 [Janelia]
+ *
+ * Purpose:   Given a multiple alignment <msa>, calculate sequence
+ *            weights according to the position-based weighting
+ *            algorithm (Henikoff and Henikoff, JMB 243:574-578,
+ *            1994). These weights are stored internally in the <msa>
+ *            object, replacing any weights that may have already been
+ *            there. Weights are $\geq 0$ and they sum to <msa->nseq>.
+ *            
+ *            The <msa> may be in either digitized or text mode.
+ *            Digital mode is preferred, so that the algorithm
+ *            deals with degenerate residue symbols properly.
+ *            
+ *            The Henikoffs' algorithm does not give rules for dealing
+ *            with gaps or degenerate residue symbols. The rule here
+ *            is to ignore them. This means that longer sequences
+ *            initially get more weight; hence a "double
+ *            normalization" in which the weights are first divided by
+ *            sequence length in canonical residues (to compensate for
+ *            that effect), then normalized to sum to nseq.
+ *            
+ *            An advantage of the PB method is efficiency.
+ *            It is $O(1)$ in memory and $O(NL)$ time, for an alignment of
+ *            N sequences and L columns. This makes it a good method 
+ *            for ad hoc weighting of very deep alignments.
+ *            
+ *            When the alignment is in simple text mode, IUPAC
+ *            degenerate symbols are not dealt with correctly; instead,
+ *            the algorithm simply uses the 26 letters as "residues"
+ *            (case-insensitively), and treats all other residues as
+ *            gaps.
+ *
+ * Returns:   <eslOK> on success, and the weights inside <msa> have been
+ *            modified. 
+ *
+ * Throws:    <eslEMEM> on allocation error, in which case <msa> is
+ *            returned unmodified.
+ *
+ * Xref:      [Henikoff94b]; squid::weight.c::PositionBasedWeights().
+ */
+int
+esl_msaweight_PB(ESL_MSA *msa)
+{
+  int    *nres = NULL;   	/* counts of each residue observed in a column */
+  int     ntotal;		/* number of different symbols observed in a column */
+  int     rlen;			/* number of residues in a sequence */
+  int     idx, pos, i;
+  int     K;			/* alphabet size */
+  int     status;
+
+  /* Contract checks
+   */
+  ESL_DASSERT1( (msa->nseq >= 1) );
+  ESL_DASSERT1( (msa->alen >= 1) );
+  if (msa->nseq == 1) { msa->wgt[0] = 1.0; return eslOK; }
+
+  /* Initialize
+   */
+  if (! (msa->flags & eslMSA_DIGITAL)) 
+    { ESL_ALLOC(nres, sizeof(int) * 26);          K = 26;          }
+#ifdef eslAUGMENT_ALPHABET
+  else 
+    { ESL_ALLOC(nres, sizeof(int) * msa->abc->K); K = msa->abc->K; }
+#endif
+
+  esl_vec_DSet(msa->wgt, msa->nseq, 0.);
+
+  /* This section handles text alignments */
+  if (! (msa->flags & eslMSA_DIGITAL)) 
+    {
+      for (pos = 0; pos < msa->alen; pos++)
+	{
+	  /* Collect # of letters A..Z in this column, and total */
+	  esl_vec_ISet(nres, K, 0.);
+	  for (idx = 0; idx < msa->nseq; idx++)
+	    if (isalpha((int) msa->aseq[idx][pos]))
+	      nres[toupper((int) msa->aseq[idx][pos]) - 'A'] ++;
+	  for (ntotal = 0, i = 0; i < K; i++) if (nres[i] > 0) ntotal++;
+
+	  /* Bump weight on each seq by PB rule */
+	  if (ntotal > 0) {
+	    for (idx = 0; idx < msa->nseq; idx++) {
+	      if (isalpha((int) msa->aseq[idx][pos]))
+		msa->wgt[idx] += 1. / 
+		  (double) (ntotal * nres[toupper((int) msa->aseq[idx][pos]) - 'A'] );
+	    }
+	  }
+	}
+
+      /* first normalization by # of residues counted in each seq */
+      for (idx = 0; idx < msa->nseq; idx++) {
+	for (rlen = 0, pos = 0; pos < msa->alen; pos++) 
+      	  if (isalpha((int) msa->aseq[idx][pos])) rlen++;
+	if (ntotal > 0) msa->wgt[idx] /= (double) rlen;
+	/* if rlen == 0 for this seq, its weight is still 0.0, as initialized. */
+      }
+    }
+
+  /* This section handles digital alignments. */
+#ifdef eslAUGMENT_ALPHABET
+  else
+    {
+      for (pos = 1; pos <= msa->alen; pos++)
+	{
+	  /* Collect # of residues 0..K-1 in this column, and total # */
+	  esl_vec_ISet(nres, K, 0.);
+	  for (idx = 0; idx < msa->nseq; idx++)
+	    if (esl_abc_XIsCanonical(msa->abc, msa->ax[idx][pos]))
+	      nres[(int) msa->ax[idx][pos]] ++;
+	  for (ntotal = 0, i = 0; i < K; i++) if (nres[i] > 0) ntotal++;
+
+	  /* Bump weight on each sequence by PB rule */
+	  if (ntotal > 0) {
+	    for (idx = 0; idx < msa->nseq; idx++) {
+	      if (esl_abc_XIsCanonical(msa->abc, msa->ax[idx][pos]))
+		msa->wgt[idx] += 1. / (double) (ntotal * nres[msa->ax[idx][pos]]);
+	    }
+	  }
+	}
+
+      /* first normalization by # of residues counted in each seq */
+      for (idx = 0; idx < msa->nseq; idx++)
+	{
+	  for (rlen = 0, pos = 1; pos <= msa->alen; pos++) 
+	    if (esl_abc_XIsCanonical(msa->abc, msa->ax[idx][pos])) rlen++;
+	  if (rlen > 0) msa->wgt[idx] /= (double) rlen;
+	  /* if rlen == 0 for this seq, its weight is still 0.0, as initialized. */
+	}
+    }
+#endif
+
+  /* Make weights normalize up to nseq, and return.  In pathological
+   * case where all wgts were 0 (no seqs contain any unambiguous
+   * residues), weights become 1.0.
+   */
+  esl_vec_DNorm(msa->wgt, msa->nseq);
+  esl_vec_DScale(msa->wgt, msa->nseq, (double) msa->nseq);	
+  msa->flags |= eslMSA_HASWGTS;
+
+  free(nres);
+  return eslOK;
+
+ ERROR:
+  if (nres != NULL) free(nres);
+  return status;
+}
+
+
+/* Function:  esl_msaweight_BLOSUM()
+ * Synopsis:  BLOSUM weights.
+ * Incept:    SRE, Sun Nov  5 09:52:41 2006 [Janelia]
+ *
+ * Purpose:   Given a multiple sequence alignment <msa> and an identity
+ *            threshold <maxid>, calculate sequence weights using the
+ *            BLOSUM algorithm (Henikoff and Henikoff, PNAS
+ *            89:10915-10919, 1992). These weights are stored
+ *            internally in the <msa> object, replacing any weights
+ *            that may have already been there. Weights are $\geq 0$
+ *            and they sum to <msa->nseq>.
+ *            
+ *            The algorithm does a single linkage clustering by
+ *            fractional id, defines clusters such that no two clusters
+ *            have a pairwise link $\geq$ <maxid>), and assigns
+ *            weights of $\frac{1}{M_i}$ to each of the $M_i$
+ *            sequences in each cluster $i$. The <maxid> threshold
+ *            is a fractional pairwise identity, in the range
+ *            $0..1$.
+ *            
+ *            The <msa> may be in either digitized or text mode.
+ *            Digital mode is preferred, so that the pairwise identity
+ *            calculations deal with degenerate residue symbols
+ *            properly.
+ *
+ * Returns:   <eslOK> on success, and the weights inside <msa> have been
+ *            modified. 
+ *            
+ * Throws:    <eslEMEM> on allocation error. <eslEINVAL> if a pairwise
+ *            identity calculation fails because of corrupted sequence 
+ *            data. In either case, the <msa> is unmodified.
+ *
+ * Xref:      [Henikoff92]; squid::weight.c::BlosumWeights().
+ */
+int
+esl_msaweight_BLOSUM(ESL_MSA *msa, double maxid)
+{
+  int  *c    = NULL; /* cluster assignments for each sequence */
+  int  *nmem = NULL; /* number of seqs in each cluster */
+  int   nc;	     /* number of clusters  */
+  int   i;           /* loop counter */
+  int   status;
+
+  /* Contract checks
+   */
+  ESL_DASSERT1( (maxid >= 0. && maxid <= 1.) );
+  ESL_DASSERT1( (msa->nseq >= 1) );
+  ESL_DASSERT1( (msa->alen >= 1) );
+  if (msa->nseq == 1) { msa->wgt[0] = 1.0; return eslOK; }
+
+  if ((status = esl_msacluster_SingleLinkage(msa, maxid, &c, NULL, &nc)) != eslOK) goto ERROR;
+  ESL_ALLOC(nmem, sizeof(int) * nc);
+  esl_vec_ISet(nmem, nc, 0);
+  for (i = 0; i < msa->nseq; i++) nmem[c[i]]++;
+  for (i = 0; i < msa->nseq; i++) msa->wgt[i] = 1. / (double) nmem[c[i]];
+
+  /* Make weights normalize up to nseq, and return.
+   */
+  esl_vec_DNorm(msa->wgt, msa->nseq);
+  esl_vec_DScale(msa->wgt, msa->nseq, (double) msa->nseq);	
+  msa->flags |= eslMSA_HASWGTS;
+
+  free(nmem);
+  free(c);
+  return eslOK;
+
+ ERROR:
+  if (c    != NULL) free(c);
+  if (nmem != NULL) free(nmem);
+  return status;
+}
+
+/* Function:  esl_msaweight_IDFilter()
+ * Synopsis:  Filter by %ID.
+ * Incept:    ER, Wed Oct 29 10:06:43 2008 [Janelia]
+ * 
+ * Purpose:   Constructs a new alignment by removing near-identical 
+ *            sequences from a given alignment (where identity is 
+ *            calculated *based on the alignment*).
+ *            Does not affect the given alignment.
+ *            Keeps earlier sequence, discards later one. 
+ *           
+ *            Usually called as an ad hoc sequence "weighting" mechanism.
+ *           
+ * Limitations:
+ *            Unparsed Stockholm markup is not propagated into the
+ *            new alignment.
+ *           
+ * Return:    <eslOK> on success, and the <newmsa>.
+ *
+ * Throws:    <eslEMEM> on allocation error. <eslEINVAL> if a pairwise
+ *            identity calculation fails because of corrupted sequence 
+ *            data. In either case, the <msa> is unmodified.
+ *
+ * Xref:      squid::weight.c::FilterAlignment().
+ */
+int
+esl_msaweight_IDFilter(const ESL_MSA *msa, double maxid, ESL_MSA **ret_newmsa)
+{
+  int     *list   = NULL;               /* array of seqs in new msa */
+  int     *useme  = NULL;               /* TRUE if seq is kept in new msa */
+  int      nnew;			/* number of seqs in new alignment */
+  double   ident;                       /* pairwise percentage id */
+  int      i,j;                         /* seqs counters*/
+  int      remove;                      /* TRUE if sq is to be removed */
+  int      status;
+  
+  /* Contract checks
+   */
+  ESL_DASSERT1( (msa       != NULL) );
+  ESL_DASSERT1( (msa->nseq >= 1)    );
+  ESL_DASSERT1( (msa->alen >= 1)    );
+
+  /* allocate */
+  ESL_ALLOC(list,  sizeof(int) * msa->nseq);
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+  esl_vec_ISet(useme, msa->nseq, 0); /* initialize array */
+
+  /* find which seqs to keep (list) */
+  nnew = 0;
+  for (i = 0; i < msa->nseq; i++)
+    {
+      remove = FALSE;
+      for (j = 0; j < nnew; j++)
+	{
+	  if (! (msa->flags & eslMSA_DIGITAL)) {
+	    if ((status = esl_dst_CPairId(msa->aseq[i], msa->aseq[list[j]], &ident, NULL, NULL))       != eslOK) goto ERROR;
+	  } 
+#ifdef eslAUGMENT_ALPHABET
+	  else {
+	    if ((status = esl_dst_XPairId(msa->abc, msa->ax[i], msa->ax[list[j]], &ident, NULL, NULL)) != eslOK) goto ERROR;
+	  }
+#endif
+	  
+	  if (ident > maxid)
+	    { 
+	      remove = TRUE; 
+	      break; 
+	    }
+	}
+      if (remove == FALSE) {
+	list[nnew++] = i;
+	useme[i]     = TRUE;
+      }
+    }
+  if ((status = esl_msa_SequenceSubset(msa, useme, ret_newmsa)) != eslOK) goto ERROR;
+ 
+  free(list);
+  free(useme);
+  return eslOK;
+
+ ERROR:
+  if (list  != NULL) free(list);
+  if (useme != NULL) free(useme);
+  return status;
+}
+/*---------------- end, weighting implementations ----------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+#ifdef eslMSAWEIGHT_TESTDRIVE
+
+static int
+utest_GSC(ESL_ALPHABET *abc, ESL_MSA *msa, double *expect)
+{
+  char *msg = "GSC weights unit test failure";
+
+  if (esl_msaweight_GSC(msa)                               != eslOK) esl_fatal(msg);
+  if (esl_vec_DCompare(msa->wgt, expect, msa->nseq, 0.001) != eslOK) esl_fatal(msg);
+  
+  if (abc != NULL) 
+    {
+      if (esl_msa_Digitize(abc, msa, NULL)                     != eslOK) esl_fatal(msg);
+      if (esl_msaweight_GSC(msa)                               != eslOK) esl_fatal(msg);
+      if (esl_vec_DCompare(msa->wgt, expect, msa->nseq, 0.001) != eslOK) esl_fatal(msg);
+      if (esl_msa_Textize(msa)                                 != eslOK) esl_fatal(msg);
+    }
+  return eslOK;
+}
+
+static int
+utest_PB(ESL_ALPHABET *abc, ESL_MSA *msa, double *expect)
+{
+  char *msg = "PB weights unit test failure";
+
+  if (esl_msaweight_PB(msa)                                != eslOK) esl_fatal(msg);
+  if (esl_vec_DCompare(msa->wgt, expect, msa->nseq, 0.001) != eslOK) esl_fatal(msg);
+  
+  if (abc != NULL) 
+    {
+      if (esl_msa_Digitize(abc, msa, NULL)                     != eslOK) esl_fatal(msg);
+      if (esl_msaweight_PB(msa)                                != eslOK) esl_fatal(msg);
+      if (esl_vec_DCompare(msa->wgt, expect, msa->nseq, 0.001) != eslOK) esl_fatal(msg);
+      if (esl_msa_Textize(msa)                                 != eslOK) esl_fatal(msg);
+    }
+  return eslOK;
+}
+
+static int
+utest_BLOSUM(ESL_ALPHABET *abc, ESL_MSA *msa, double maxid, double *expect)
+{
+  char *msg = "BLOSUM weights unit test failure";
+
+  if (esl_msaweight_BLOSUM(msa, maxid)                     != eslOK) esl_fatal(msg);
+  if (esl_vec_DCompare(msa->wgt, expect, msa->nseq, 0.001) != eslOK) esl_fatal(msg);
+  
+  if (abc != NULL) 
+    {
+      if (esl_msa_Digitize(abc, msa, NULL)                     != eslOK) esl_fatal(msg);
+      if (esl_msaweight_BLOSUM(msa, maxid)                     != eslOK) esl_fatal(msg);
+      if (esl_vec_DCompare(msa->wgt, expect, msa->nseq, 0.001) != eslOK) esl_fatal(msg);
+      if (esl_msa_Textize(msa)                                 != eslOK) esl_fatal(msg);
+    }
+  return eslOK;
+}
+#endif /*eslMSAWEIGHT_TESTDRIVE*/
+/*-------------------- end, unit tests  -------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+#ifdef eslMSAWEIGHT_TESTDRIVE
+/* gcc -g -Wall -o test -L. -I. -DeslMSAWEIGHT_TESTDRIVE esl_msaweight.c -leasel -lm
+ * ./test
+ */
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_ALPHABET *aa_abc = NULL,
+               *nt_abc = NULL;
+  ESL_MSA      *msa1   = NULL,
+               *msa2   = NULL, 
+               *msa3   = NULL,
+               *msa4   = NULL,
+               *msa5   = NULL;
+  double uniform[5] = { 1.0, 1.0, 1.0, 1.0, 1.0 };
+  double wgt2[5]    = { 0.833333, 0.833333, 0.833333, 0.833333, 1.66667 }; /* GSC, PB give same answer */
+  double gsc3[4]    = { 1.125000, 0.875000, 0.875000, 1.125000 };
+  double pb3[4]     = { 1.066667, 1.066667, 0.800000, 1.066667 };
+  double blosum3[4] = { 1.333333, 0.666667, 0.666667, 1.333333 };
+  double gsc4[4]    = { 0.760870, 0.760870, 1.086957, 1.391304 };
+  double pb4[4]     = { 0.800000, 0.800000, 1.000000, 1.400000 };
+  double blosum4[4] = { 0.666667, 0.666667, 1.333333, 1.333333 };
+  
+  if ((aa_abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create amino alphabet");
+  if ((nt_abc = esl_alphabet_Create(eslDNA))   == NULL)  esl_fatal("failed to create DNA alphabet");
+
+  /* msa1: all sequences identical. Any weighting method should assign uniform weights.
+   * msa2: "contrived" example of [Henikoff94b]. "Correct" solution is 1==2, 3==4, and 5==2x other weights.
+   * msa3: the "nitrogenase segments" example of [Henikoff94b].
+   * msa4: alignment that makes the same distances as Figure 4 from [Gerstein94]
+   * msa5: gap pathology. no information here, so weighting methods should resort to uniform weights.
+   */
+  if ((msa1 = esl_msa_CreateFromString("# STOCKHOLM 1.0\n\nseq1 AAAAA\nseq2 AAAAA\nseq3 AAAAA\nseq4 AAAAA\nseq5 AAAAA\n//\n", 
+				       eslMSAFILE_STOCKHOLM)) == NULL) esl_fatal("msa 1 creation failed");
+  if ((msa2 = esl_msa_CreateFromString("# STOCKHOLM 1.0\n\nseq1 AAAAA\nseq2 AAAAA\nseq3 CCCCC\nseq4 CCCCC\nseq5 TTTTT\n//\n",
+				       eslMSAFILE_STOCKHOLM)) == NULL) esl_fatal("msa 2 creation failed");
+  if ((msa3 = esl_msa_CreateFromString("# STOCKHOLM 1.0\n\nNIFE_CLOPA GYVGS\nNIFD_AZOVI GFDGF\nNIFD_BRAJA GYDGF\nNIFK_ANASP GYQGG\n//\n",
+				       eslMSAFILE_STOCKHOLM)) == NULL) esl_fatal("msa 3 creation failed");
+  if ((msa4 = esl_msa_CreateFromString("# STOCKHOLM 1.0\n\nA  AAAAAAAAAA\nB  TTAAAAAAAA\nC  ATAAAACCCC\nD  GGGAAGGGGG\n//\n",
+				       eslMSAFILE_STOCKHOLM)) == NULL) esl_fatal("msa 4 creation failed");
+  if ((msa5 = esl_msa_CreateFromString("# STOCKHOLM 1.0\n\nA  A----\nB  -C---\nC  --G--\nD  ---T-\nE  ----T\n//\n",
+				       eslMSAFILE_STOCKHOLM)) == NULL) esl_fatal("msa 5 creation failed");
+
+  utest_GSC(aa_abc, msa1, uniform);
+  utest_GSC(nt_abc, msa1, uniform);
+  utest_GSC(aa_abc, msa2, wgt2);
+  utest_GSC(nt_abc, msa2, wgt2);
+  utest_GSC(aa_abc, msa3, gsc3);
+  /* no nt test on msa3: it's protein-only */
+  utest_GSC(aa_abc, msa4, gsc4);
+  utest_GSC(nt_abc, msa4, gsc4);
+  utest_GSC(aa_abc, msa5, uniform);
+  utest_GSC(aa_abc, msa5, uniform);
+
+  utest_PB(aa_abc, msa1, uniform);
+  utest_PB(nt_abc, msa1, uniform);
+  utest_PB(aa_abc, msa2, wgt2);
+  utest_PB(nt_abc, msa2, wgt2);
+  utest_PB(aa_abc, msa3, pb3);
+  /* no nt test on msa3: it's protein-only */
+  utest_PB(aa_abc, msa4, pb4);
+  utest_PB(nt_abc, msa4, pb4);
+  utest_PB(aa_abc, msa5, uniform);
+  utest_PB(nt_abc, msa5, uniform);
+
+  utest_BLOSUM(aa_abc, msa1, 0.62, uniform);
+  utest_BLOSUM(nt_abc, msa1, 0.62, uniform);
+  utest_BLOSUM(aa_abc, msa2, 0.62, wgt2);
+  utest_BLOSUM(nt_abc, msa2, 0.62, wgt2);
+  utest_BLOSUM(aa_abc, msa3, 0.62, blosum3);
+  /* no nt test on msa3: it's protein-only */
+  utest_BLOSUM(aa_abc, msa4, 0.62, blosum4);
+  utest_BLOSUM(nt_abc, msa4, 0.62, blosum4);
+  utest_BLOSUM(aa_abc, msa5, 0.62, uniform);
+  utest_BLOSUM(nt_abc, msa5, 0.62, uniform);
+
+  /* BLOSUM weights have the peculiar property of going flat at maxid=0.0 (everyone
+   * clusters) or maxid=1.0 (nobody clusters).
+   */
+  utest_BLOSUM(aa_abc, msa4, 0.0,  uniform);
+  utest_BLOSUM(aa_abc, msa4, 1.0,  uniform);
+
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_msa_Destroy(msa3);
+  esl_msa_Destroy(msa4);
+  esl_msa_Destroy(msa5);
+  esl_alphabet_Destroy(aa_abc);
+  esl_alphabet_Destroy(nt_abc);
+  exit(0);
+}
+#endif /*eslMSAWEIGHT_TESTDRIVE*/
+/*-------------------- end, test driver  -------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 4. Regression tests against squid
+ *****************************************************************/
+#ifdef eslMSAWEIGHT_REGRESSION
+/* Verify same results as SQUID.
+ * To compile:
+      gcc -g -Wall -o msaweight_regression -I. -L. -L ~/src/squid -I ~/src/squid -DeslMSAWEIGHT_REGRESSION \
+          esl_msaweight.c esl_msacluster.c -leasel -lsquid -lm
+ * To run: 
+ *     ./regression <MSA file>
+ *     
+ * It's essential to recompile esl_msacluster under the eslMSAWEIGHT_REGRESSION flag
+ * too, because some squid compatibility code needs to get compiled in.
+ *
+ * Script for regression testing on Pfam:
+ *     ./regression -q  --maxN 4000 /misc/data0/databases/Pfam/Pfam-A.full
+ *     ./regression --blosum -q  /misc/data0/databases/Pfam/Pfam-A.full
+ *     ./regression --pb -q  /misc/data0/databases/Pfam/Pfam-A.full
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+#include "esl_vectorops.h"
+
+#include "squidconf.h"
+#include "squid.h"
+
+#define WGROUP "--blosum,--gsc,--pb"
+
+static ESL_OPTIONS options[] = {
+    /* name     type         deflt   env   rng   togs    req      incmpt   help                          docgrp */
+  { "-h",       eslARG_NONE, FALSE,  NULL, NULL, NULL,   NULL,      NULL, "show help and usage",             0 },
+  { "-q",       eslARG_NONE, FALSE,  NULL, NULL, NULL,   NULL,      NULL, "run quiet, only report problems", 0 },
+  { "--blosum", eslARG_NONE, FALSE,  NULL, NULL, WGROUP, NULL,      NULL, "use BLOSUM weights",              0 },
+  { "--gsc",    eslARG_NONE,"default",NULL,NULL, WGROUP, NULL,      NULL, "use GSC weights",                 0 },
+  { "--pb",     eslARG_NONE, FALSE,  NULL, NULL, WGROUP, NULL,      NULL, "use position-based weights",      0 },
+  { "--id",     eslARG_REAL, "0.62",NULL,"0<=x<=1",NULL,"--blosum", NULL, "id threshold for --blosum",       0 },  
+  { "--tol",    eslARG_REAL, "0.01",NULL,"0<=x<=1",NULL, NULL,      NULL, "fractional tolerance for wgt match", 0 },  
+  { "--maxN",   eslARG_INT,    "0",  NULL,"n>=0",  NULL,  NULL,     NULL, "skip alignments w/ > <n> seqs",   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[] = "Usage: ./regression [-options] <msa_file>";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go;
+  char         *msafile;
+  ESLX_MSAFILE *afp;
+  ESL_MSA      *msa;
+  float        *sqd;
+  int          status;
+  int          nbad;
+  int          nali    = 0;
+  int          nbadali = 0;
+  int          nwgt    = 0;
+  int          nbadwgt = 0;
+  int i;
+  int be_quiet;
+  int do_gsc;
+  int do_pb;
+  int do_blosum;
+  double maxid;
+  double tol;
+  int    maxN;
+
+  /* Process command line
+   */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal("failed to parse cmd line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal("failed to parse cmd line: %s\n", go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) {
+    puts(usage); 
+    puts("\n  where options are:");
+    esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=all docgroups; 2=indentation; 80=width */
+    return 0;
+  }
+  be_quiet  = esl_opt_GetBoolean(go, "-q");
+  do_blosum = esl_opt_GetBoolean(go, "--blosum");
+  do_gsc    = esl_opt_GetBoolean(go, "--gsc");
+  do_pb     = esl_opt_GetBoolean(go, "--pb");
+  maxid     = esl_opt_GetReal   (go, "--id");
+  tol       = esl_opt_GetReal   (go, "--tol");
+  maxN      = esl_opt_GetInteger(go, "--maxN");
+  if (esl_opt_ArgNumber(go) != 1) {
+    puts("Incorrect number of command line arguments.");
+    puts(usage);
+    return 1;
+  }
+  msafile = esl_opt_GetArg(go, 1);
+  esl_getopts_Destroy(go);
+
+  /* Weight one or more alignments from input file
+   */
+  if ((status = eslx_msafile_Open(NULL, msafile, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  while ( (status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+      if (maxN > 0 && msa->nseq > maxN) { esl_msa_Destroy(msa); continue; }
+
+      nali++;
+      nwgt += msa->nseq;
+      ESL_ALLOC(sqd, sizeof(float) * msa->nseq);
+
+      if (do_gsc) {
+	esl_msaweight_GSC(msa);
+	GSCWeights(msa->aseq, msa->nseq, msa->alen, sqd);
+      } else if (do_pb) {
+	esl_msaweight_PB(msa);
+	PositionBasedWeights(msa->aseq, msa->nseq, msa->alen, sqd);
+      } else if (do_blosum) {
+	esl_msaweight_BLOSUM(msa, maxid);
+	BlosumWeights(msa->aseq, msa->nseq, msa->alen, maxid, sqd);
+	/* workaround SQUID bug: BLOSUM weights weren't renormalized to sum to nseq. */
+	esl_vec_FNorm (sqd, msa->nseq);
+	esl_vec_FScale(sqd, msa->nseq, (float) msa->nseq);	
+      }
+
+      if (! be_quiet) {
+	for (i = 0; i < msa->nseq; i++)
+	  fprintf(stdout, "%-20s  %.3f  %.3f\n",
+		  msa->sqname[i], msa->wgt[i], sqd[i]);
+      }
+	
+      nbad = 0;
+      for (i = 0; i < msa->nseq; i++)
+	if (esl_DCompare((double) sqd[i], msa->wgt[i], tol) != eslOK) 
+	  nbad++;
+      if (nbad > 0) nbadali++;
+      nbadwgt += nbad;
+
+      if (nbad > 0) printf("%-20s  :: alignment shows %d weights that differ (out of %d) \n", 
+			   msa->name, nbad, msa->nseq);
+
+      esl_msa_Destroy(msa);
+      free(sqd);
+    } 
+  eslx_msafile_Close(afp);
+
+  if (nbadali == 0) 
+    printf("OK: all weights identical between squid and Easel in %d alignment(s)\n", nali);
+  else {
+    printf("%d of %d weights mismatched at (> %f fractional difference)\n",
+	   nbadwgt, nwgt, tol);
+    printf("involving %d of %d total alignments\n", nbadali, nali);
+  }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+#endif /* eslMSAWEIGHT_REGRESSION */
+/*------------------ end, regression tests ----------------------*/
+
+
+
+/*****************************************************************
+ * 5. Benchmark.
+ *****************************************************************/
+#ifdef eslMSAWEIGHT_BENCHMARK
+/* gcc -g -Wall -o benchmark -I. -L. -DeslMSAWEIGHT_BENCHMARK esl_msaweight.c -leasel -lm
+ * ./benchmark <MSA file>
+ *
+ * Script for benchmarks on Pfam:
+ *     ./benchmark --gsc --maxN 4000 /misc/data0/databases/Pfam/Pfam-A.full
+ *     ./benchmark --blosum          /misc/data0/databases/Pfam/Pfam-A.full
+ *     ./benchmark --pb              /misc/data0/databases/Pfam/Pfam-A.full
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+#include "esl_vectorops.h"
+#include "esl_stopwatch.h"
+
+#define WGROUP "--blosum,--gsc,--pb"
+
+static ESL_OPTIONS options[] = {
+    /* name     type         deflt   env   rng   togs    req      incmpt   help                          docgrp */
+  { "-h",       eslARG_NONE, FALSE,  NULL, NULL, NULL,   NULL,      NULL, "show help and usage",             0 },
+  { "--blosum", eslARG_NONE, FALSE,  NULL, NULL, WGROUP, NULL,      NULL, "use BLOSUM weights",              0 },
+  { "--gsc",    eslARG_NONE,"default",NULL,NULL, WGROUP, NULL,      NULL, "use GSC weights",                 0 },
+  { "--pb",     eslARG_NONE, FALSE,  NULL, NULL, WGROUP, NULL,      NULL, "use position-based weights",      0 },
+  { "--id",     eslARG_REAL, "0.62", NULL,"0<=x<=1",NULL,"--blosum",NULL, "id threshold for --blosum",       0 },  
+  { "--maxN",   eslARG_INT,    "0",  NULL,"n>=0",  NULL,  NULL,     NULL, "skip alignments w/ > <n> seqs",   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[] = "Usage: ./benchmark [-options] <msa_file>";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_STOPWATCH *w;
+  ESL_GETOPTS   *go;
+  char          *msafile;
+  ESLX_MSAFILE  *afp;
+  ESL_MSA       *msa;
+  int            do_gsc;
+  int            do_pb;
+  int            do_blosum;
+  int            maxN;
+  double         maxid;
+  double         cpu;
+  int            status;
+
+  /* Process command line
+   */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal("failed to parse cmd line: %s", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal("failed to parse cmd line: %s", go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) {
+    puts(usage); 
+    puts("\n  where options are:");
+    esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=all docgroups; 2=indentation; 80=width */
+    return 0;
+  }
+  do_blosum = esl_opt_GetBoolean(go, "--blosum");
+  do_gsc    = esl_opt_GetBoolean(go, "--gsc");
+  do_pb     = esl_opt_GetBoolean(go, "--pb");
+  maxid     = esl_opt_GetReal   (go, "--id");
+  maxN      = esl_opt_GetInteger(go, "--maxN");
+  if (esl_opt_ArgNumber(go) != 1) {
+    puts("Incorrect number of command line arguments.");
+    puts(usage);
+    return 1;
+  }
+  if ((msafile = esl_opt_GetArg(go, 1)) == NULL) esl_fatal("failed to parse cmd line: %s", go->errbuf);
+  esl_getopts_Destroy(go);
+
+  w = esl_stopwatch_Create();
+
+  /* Weight one or more alignments from input file
+   */
+  if ((status = eslx_msafile_Open(NULL, msafile, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  while ( (status = eslx_msafile_Read(afp, &msa)) != eslEOF) 
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+      if (maxN > 0 && msa->nseq > maxN) { esl_msa_Destroy(msa); continue; }
+
+      esl_stopwatch_Start(w);
+
+      if      (do_gsc) 	  esl_msaweight_GSC(msa);
+      else if (do_pb) 	  esl_msaweight_PB(msa);
+      else if (do_blosum) esl_msaweight_BLOSUM(msa, maxid);
+
+      esl_stopwatch_Stop(w);
+      cpu = w->user;
+      printf("%-20s %6d  %6d  %.3f\n", msa->name, msa->alen, msa->nseq, cpu);
+      esl_msa_Destroy(msa);
+    } 
+  eslx_msafile_Close(afp);
+
+  esl_stopwatch_Destroy(w);
+  return eslOK;
+}
+#endif /* eslMSAWEIGHT_BENCHMARK */
+/*-------------------- end, benchmark  --------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Statistics driver.
+ *****************************************************************/
+#ifdef eslMSAWEIGHT_STATS
+/* gcc -g -Wall -o stats -I. -L. -DeslMSAWEIGHT_STATS esl_msaweight.c -leasel -lm
+ * ./stats <MSA file>
+ *
+ * Script for weight statistics on Pfam:
+ *     ./stats --gsc --maxN 4000 /misc/data0/databases/Pfam/Pfam-A.full
+ *     ./stats --blosum          /misc/data0/databases/Pfam/Pfam-A.full
+ *     ./stats --pb              /misc/data0/databases/Pfam/Pfam-A.full
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+#include "esl_vectorops.h"
+
+#define WGROUP "--blosum,--gsc,--pb"
+
+static ESL_OPTIONS options[] = {
+    /* name     type         deflt   env   rng   togs    req      incmpt   help                          docgrp */
+  { "-h",       eslARG_NONE, FALSE,  NULL, NULL, NULL,   NULL,      NULL, "show help and usage",             0 },
+  { "--blosum", eslARG_NONE, FALSE,  NULL, NULL, WGROUP, NULL,      NULL, "use BLOSUM weights",              0 },
+  { "--gsc",    eslARG_NONE,"default",NULL,NULL, WGROUP, NULL,      NULL, "use GSC weights",                 0 },
+  { "--pb",     eslARG_NONE, FALSE,  NULL, NULL, WGROUP, NULL,      NULL, "use position-based weights",      0 },
+  { "--id",     eslARG_REAL, "0.62", NULL,"0<=x<=1",NULL,"--blosum",NULL, "id threshold for --blosum",       0 },  
+  { "--maxN",   eslARG_INT,    "0",  NULL,"n>=0",  NULL,  NULL,     NULL, "skip alignments w/ > <n> seqs",   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[] = "Usage: ./stats [-options] <msa_file>";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go;
+  char         *msafile;
+  ESLX_MSAFILE *afp;
+  ESL_MSA      *msa;
+  int           do_gsc;
+  int           do_pb;
+  int           do_blosum;
+  int           maxN;
+  double        maxid;
+  int           nsmall, nbig;
+  int           i;
+  int           status;
+
+  /* Process command line  */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal("%s", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal("%s", go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") == TRUE){
+    puts(usage); 
+    puts("\n  where options are:");
+    esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=all docgroups; 2=indentation; 80=width */
+    return 0;
+  }
+  do_blosum = esl_opt_GetBoolean(go, "--blosum");
+  do_gsc    = esl_opt_GetBoolean(go, "--gsc");
+  do_pb     = esl_opt_GetBoolean(go, "--pb");
+  maxid     = esl_opt_GetReal   (go, "--id");
+  maxN      = esl_opt_GetInteger(go, "--maxN");
+  if (esl_opt_ArgNumber(go) != 1) {
+    puts("Incorrect number of command line arguments.");
+    puts(usage);
+    return 1;
+  }
+  if ((msafile = esl_opt_GetArg(go, 1)) == NULL) esl_fatal("%s", go->errbuf);
+  esl_getopts_Destroy(go);
+
+  /* Weight one or more alignments from input file
+   */
+  if ((status = eslx_msafile_Open(NULL, msafile, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  while ( (status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+      if (maxN > 0 && msa->nseq > maxN) { esl_msa_Destroy(msa); continue; }
+
+      if      (do_gsc) 	  esl_msaweight_GSC(msa);
+      else if (do_pb) 	  esl_msaweight_PB(msa);
+      else if (do_blosum) esl_msaweight_BLOSUM(msa, maxid);
+
+      for (nsmall = 0, nbig = 0, i = 0; i < msa->nseq; i++) {
+	if (msa->wgt[i] < 0.2) nsmall++;
+	if (msa->wgt[i] > 5.0) nbig++;
+      }
+
+      printf("%-20s  %5d %5d %8.4f  %8.4f  %5d  %5d\n", 
+	     msa->name, 
+	     msa->nseq, 
+	     msa->alen,
+	     esl_vec_DMin(msa->wgt, msa->nseq),
+	     esl_vec_DMax(msa->wgt, msa->nseq),
+	     nsmall,
+	     nbig);
+      esl_msa_Destroy(msa);
+    } 
+  eslx_msafile_Close(afp);
+  return eslOK;
+}
+#endif /* eslMSAWEIGHT_STATS */
+/*---------------- end, statistics driver  ----------------------*/
+
+
+
+
+
+
+/*****************************************************************
+ * 7. Examples.
+ *****************************************************************/
+/* Example: Calculate GSC weights for an input MSA.
+ */
+#ifdef eslMSAWEIGHT_EXAMPLE
+/*::cexcerpt::msaweight_example::begin::*/
+/* To compile: gcc -g -Wall -o example -I. -L. -DeslMSAWEIGHT_EXAMPLE esl_msaweight.c -leasel -lm
+ *     To run: ./example <MSA file>
+ */
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+
+int main(int argc, char **argv)
+{
+  ESLX_MSAFILE *afp;
+  ESL_MSA      *msa;
+  int           i;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, argv[1], NULL, eslMSAFILE_UNKNOWN, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+  if ( (status = eslx_msafile_Read(afp, &msa)) != eslOK)
+    eslx_msafile_ReadFailure(afp, status);
+  eslx_msafile_Close(afp);
+
+  esl_msaweight_GSC(msa);
+  
+  for (i = 0; i < msa->nseq; i++)
+    printf("%20s %f\n", msa->sqname[i], msa->wgt[i]);
+  
+  return 0;
+}
+/*::cexcerpt::msaweight_example::end::*/
+#endif /*eslMSAWEIGHT_EXAMPLE*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_msaweight.c 715 2011-08-03 21:04:24Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msaweight.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.h
new file mode 100755
index 0000000..29977a4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.h
@@ -0,0 +1,27 @@
+/* Sequence weighting algorithms.
+ * 
+ * SRE, Sun Nov  5 09:11:13 2006 [Janelia]
+ * SVN $Id: esl_msaweight.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_msaweight.h $
+ */
+#ifndef eslMSAWEIGHT_INCLUDED
+#define eslMSAWEIGHT_INCLUDED
+
+#include "esl_msa.h"
+
+extern int esl_msaweight_GSC(ESL_MSA *msa);
+extern int esl_msaweight_PB(ESL_MSA *msa);
+extern int esl_msaweight_BLOSUM(ESL_MSA *msa, double maxid);
+extern int esl_msaweight_IDFilter(const ESL_MSA *msa, double maxid, ESL_MSA **ret_newmsa);
+
+
+#endif /*eslMSAWEIGHT_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.tex
new file mode 100755
index 0000000..0e5c4df
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_msaweight.tex
@@ -0,0 +1,53 @@
+The \eslmod{msaweight} module implements different \emph{ad hoc}
+sequence weighting algorithms, for compensating for overrepresentation
+in multiple sequence alignments.
+
+A multiple alignment often includes similar, even identical copies of
+sequences; the same sequence is often deposited in the databases more
+than once, and sequences from several closely related species are
+usually available. Thus relying on raw residue frequencies observed in
+multiple alignments is a flawed strategy, just as Wittgenstein
+wouldn't trust a consensus of two copies of his morning paper.
+ 
+The functions in the \eslmod{msaweight} API are summarized in
+Table~\ref{tbl:msa_api}. 
+
+% TODO: Should implement more algorithms.
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_msaweight_GSC()}{\ccode{esl\_msaweight\_GSC()}} & GSC weights.\\
+\hyperlink{func:esl_msaweight_PB()}{\ccode{esl\_msaweight\_PB()}} & PB (position-based) weights.\\
+\hyperlink{func:esl_msaweight_BLOSUM()}{\ccode{esl\_msaweight\_BLOSUM()}} & BLOSUM weights.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{Functions in the \eslmod{msaweight} API. Requires the Easel core
+and phylogeny modules.}
+\label{tbl:msaweight_api}
+\end{table}
+
+\subsection{Example of using the msaweight API}
+
+An example of reading in a multiple alignment and calculating weights
+for its sequences using the GSC algorithm:
+
+\input{cexcerpts/msaweight_example}
+
+The new weights are stored internally in the \ccode{ESL\_MSA} object,
+and (as the example shows) can be accessed in its array
+\ccode{msa->wgt[0..nseq-1]}.
+
+\subsection{Pros and cons of different algorithms}
+
+% TODO: Computational complexity
+
+% TODO: Figures showing time, memory for varying N, L.
+
+% TODO: Eventually, benchmarks on HMMER: are these methods actually
+% different?
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.c
new file mode 100755
index 0000000..2c33ef9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.c
@@ -0,0 +1,295 @@
+/* Statistical routines for normal distributions
+ * (This module is currently incomplete and not fully tested,
+ *  though it compiles cleanly.)
+ * 
+ */
+#include "esl_config.h"
+
+#include <math.h>
+
+#include "easel.h"
+#include "esl_normal.h"
+
+/*****************************************************************
+ * 1. Densities and distributions.
+ *****************************************************************/
+
+/* Function:  esl_normal_pdf()
+ * Incept:    SRE, Tue Nov 21 14:15:43 2006 [Janelia]
+ *
+ * Purpose:   Calculates the normal (Gaussian) probability density
+ *            function $P(X=x)$ for a normal distribution, given
+ *            value <x>, mean <mu>, and standard deviation <sigma>.
+ * 
+ * Xref:      STL11/94.
+ */
+double 
+esl_normal_pdf(double x, double mu, double sigma)
+{
+  double z;
+  
+  z = (x - mu) / sigma;
+  return  exp(-z*z*2.0) / (sigma * sqrt(2. * eslCONST_PI));
+}
+
+/* Function:  esl_normal_logpdf()
+ * Incept:    SRE, Tue Jan  9 20:43:52 2007 [Casa de Gatos]
+ *
+ * Purpose:   Calculates the log of the probabiility density function
+ *            for the normal (Gaussian), $\log P(X=x)$, given value
+ *            <x>, mean <mu>, and standard deviation <sigma>.
+ *
+ * Xref:      STL11/94.
+ */
+double
+esl_normal_logpdf(double x, double mu, double sigma)
+{
+  double z;
+
+  z = (x - mu) / sigma;
+  return  (-z*z*2.0) - log(sigma) - log(sqrt(2.*eslCONST_PI));
+}
+
+/* Function:  esl_normal_cdf()
+ * Incept:    SRE, Tue Jan  9 20:59:04 2007 [Casa de Gatos]
+ *
+ * Purpose:   Calculates the cumulative distribution function for the
+ *            normal, $P(X \leq x)$, given value <x>, mean <mu>,
+ *            and standard deviation <sigma>.
+ *
+ * Xref:      STL11/94.
+ */
+double
+esl_normal_cdf(double x, double mu, double sigma)
+{
+  double z;
+
+  z = (x - mu) / sigma;
+  return 0.5 + 0.5 * erf(z / sqrt(2.));
+}
+
+/* Function:  esl_normal_surv()
+ * Incept:    SRE, Thu Jan 11 20:16:23 2007 [Casa de Gatos]
+ *
+ * Purpose:   Calculates the survivor function, $P(X>x)$ (that is,
+ *            1-CDF, the right tail probability mass) for a normal
+ *            distribution, given value <x>, mean <mu>, and standard
+ *            deviation <sigma>.
+ *
+ * Xref:      STL11/94
+ */
+double
+esl_normal_surv(double x, double mu, double sigma)
+{
+  double z = (x - mu) / (sqrt(2.) * sigma);
+
+  return 0.5 - 0.5 * erf(z);
+}
+
+
+/*****************************************************************
+ * Unit tests.
+ *****************************************************************/
+#ifdef eslNORMAL_TESTDRIVE
+static int
+utest_pdf(void)
+{
+  double mu    = 0.;
+  double sigma = 1.;
+  double x;
+  double newpdf, lastpdf;
+
+  x = 0.;
+  newpdf = esl_normal_pdf(x, mu, sigma);
+  do {
+    x += 1.;
+    lastpdf = newpdf;
+    newpdf = esl_normal_pdf(x, mu, sigma);
+  } while (newpdf > 0.);
+
+  if (lastpdf > 1e-300) esl_fatal("Dynamic range of esl_normal_pdf insufficient");
+  return eslOK;
+}
+
+static int
+utest_logpdf(void)
+{
+  double mu    = 0.;
+  double sigma = 1.;
+  double x;
+  double old, new;
+
+  x = 0.;
+  new = esl_normal_logpdf(x, mu, sigma);
+  do {
+    x += 1.;
+    old = new;
+    new = esl_normal_logpdf(x, mu, sigma);
+  } while (new > 0.);
+
+  if (old > 1e-300) esl_fatal("Dynamic range of esl_normal_logpdf insufficient");
+
+  old = esl_normal_pdf(42, -5., 2.1);
+  new = exp(esl_normal_logpdf(42, -5., 2.1));
+  if (esl_DCompare(old, new, 1e-9) != eslOK)
+    esl_fatal("logpdf and pdf aren't giving the same answer");
+  return eslOK;
+}
+
+static int
+utest_cdf(void)
+{
+  double mu    = 0.;
+  double sigma = 1.;
+  double x;
+  double new;
+
+  for (x = 0.; x > -100.; x -= 1.0)
+    {
+      new = esl_normal_cdf(x, mu, sigma);
+      printf("%.0f %g\n", x, new);
+    }
+  return eslOK;
+}
+
+
+static int
+utest_surv(void)
+{
+  double mu    = 0.;
+  double sigma = 1.;
+  double x;
+  double new;
+
+  for (x = 0.; x < 100.; x += 1.0)
+    {
+      new = esl_normal_surv(x, mu, sigma);
+      printf("%.0f %g\n", x, new);
+    }
+  return eslOK;
+}
+  
+
+
+#endif /*eslNORMAL_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * Test driver.
+ *****************************************************************/
+#ifdef eslNORMAL_TESTDRIVE
+/* Compile:
+   gcc -g -Wall -I. -L. -o test -DeslNORMAL_TESTDRIVE esl_normal.c -leasel -lm
+*/
+#include <stdio.h>
+#include <math.h>
+#include "easel.h"
+#include "esl_normal.h"
+
+int
+main(int argc, char **argv)
+{
+  utest_pdf();
+  utest_logpdf();
+  /* utest_cdf(); */
+  utest_surv();
+
+  return eslOK;
+}
+#endif /*eslNORMAL_TESTDRIVE*/
+
+/*****************************************************************
+ * Example.
+ *****************************************************************/
+
+#ifdef eslNORMAL_EXAMPLE
+/*::cexcerpt::normal_example::begin::*/
+/* compile:
+   gcc -g -Wall -I. -o example -DeslNORMAL_EXAMPLE esl_normal.c easel.c -lm
+ */
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_normal.h"
+
+int
+main(int argc, char **argv)
+{
+  double z;
+
+  z = sqrt(2 * eslCONST_PI);
+  printf("%.60f\n", z);
+  printf("%.60f\n", eslCONST_PI);
+  printf("%.60f\n", (1. + sqrt(5.)) / 2.);
+  return 0;
+}
+#endif /*eslNORMAL_EXAMPLE*/
+
+#ifdef eslNORMAL_EXAMPLE2
+/* Print a Gaussian histogram in xmgrace XY set format 
+   gcc -g -Wall -I. -L. -o example -DeslNORMAL_EXAMPLE2 esl_normal.c -leasel -lm
+ */
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_normal.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",    0 },
+  { "-N",        eslARG_REAL,   "1.0",  NULL, NULL,  NULL,  NULL, NULL, "number of samples",                       0 },
+  { "--mean",    eslARG_REAL,   "0.0",  NULL, NULL,  NULL,  NULL, NULL, "mean of normal distribution",             0 },
+  { "--sd",      eslARG_REAL,   "1.0",  NULL, NULL,  NULL,  NULL, NULL, "s.d. of normal distribution",             0 },
+  { "--min",     eslARG_REAL,  "-10.0", NULL, NULL,  NULL,  NULL, NULL, "minimum for xaxis",                       0 },
+  { "--max",     eslARG_REAL,   "10.0", NULL, NULL,  NULL,  NULL, NULL, "maximum for xaxis",                       0 },
+  { "--step",    eslARG_REAL,    "1.0", NULL, NULL,  NULL,  NULL, NULL, "step size for xaxis",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "output a Gaussian histogram";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go        = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  double        minx      = esl_opt_GetReal(go, "--min");
+  double        maxx      = esl_opt_GetReal(go, "--max");
+  double        xstep     = esl_opt_GetReal(go, "--step");
+  double        N         = esl_opt_GetReal(go, "-N");
+  double        mean      = esl_opt_GetReal(go, "--mean");
+  double        sd        = esl_opt_GetReal(go, "--sd");
+  double        x;
+  double        val;
+
+  
+  for (x = minx; x < maxx; x += xstep)
+    {
+      val = N * (esl_normal_surv(x, mean, sd) - esl_normal_surv(x+xstep, mean, sd));
+      printf("%f %f\n", x, val);
+    }
+  printf("&\n");
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslNORMAL_EXAMPLE2*/  
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_normal.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_normal.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.h
new file mode 100755
index 0000000..71cafd8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.h
@@ -0,0 +1,24 @@
+/* Statistical routines for normal distributions
+ * 
+ * SRE, Tue Nov 21 14:29:02 2006 [Janelia]
+ * SVN $Id: esl_normal.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_normal.h $
+ */
+#ifndef eslNORMAL_INCLUDED
+#define eslNORMAL_INCLUDED
+
+extern double esl_normal_pdf   (double x, double mu, double sigma);
+extern double esl_normal_logpdf(double x, double mu, double sigma);
+extern double esl_normal_cdf   (double x, double mu, double sigma);
+extern double esl_normal_surv  (double x, double mu, double sigma);
+
+#endif /*eslNORMAL_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.tex
new file mode 100755
index 0000000..d4bc1fd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_normal.tex
@@ -0,0 +1,24 @@
+
+\begin{tabular}{lcll}\hline
+Variate    & $x$         & \ccode{double} & $ -\infty < x < \infty$ \\
+Location   & $\mu$       & \ccode{double} & $-\infty < \mu < \infty$\\
+Scale      & $\sigma$    & \ccode{double} & $\sigma > 0$ \\ 
+\hline
+\end{tabular}
+
+The probability density function (PDF) is:
+
+\begin{equation}
+PDF = P(X=x) =  \frac{1}{\sigma \sqrt{2\pi}} e^{\frac{-(x-\mu)^2}{2\sigma^2}}.
+\end{equation}
+
+The cumulative distribution function (CDF) does not have a convenient
+closed-form expression. It is derived numerically in terms of the
+error function, $\mbox{erf}()$:
+
+\begin{equation}
+CDF = P(X<x) =  \frac{1}{2} + \frac{1}{2} erf(\frac{x - \mu}{\sigma \sqrt{2}}).
+\end{equation}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.c
new file mode 100755
index 0000000..f8e7b6c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.c
@@ -0,0 +1,190 @@
+/* PAML interface.
+ * 
+ *   "Phylogenetic Analysis by Maximum Likelihood"
+ *   Ziheng Yang
+ *   http://abacus.gene.ucl.ac.uk/software/paml.html
+ *   [Yang97]
+ * 
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_vectorops.h"
+#include "esl_dmatrix.h"
+#include "esl_fileparser.h"
+#include "esl_paml.h"
+
+/* Function:  esl_paml_ReadE()
+ * Incept:    SRE, Fri Jul  9 09:27:24 2004 [St. Louis]
+ *
+ * Purpose:   Read an amino acid rate matrix in PAML format from stream
+ *            <fp>. Return it in two pieces: the symmetric E
+ *            exchangeability matrix in <E>, and the stationary
+ *            probability vector $\pi$ in <pi>.
+ *            Caller provides the memory for both <E> and <pi>.  <E>
+ *            is a $20 \times 20$ matrix allocated as
+ *            <esl_dmatrix_Create(20, 20)>. <pi> is an array with
+ *            space for at least 20 doubles.
+ *            
+ *            The <E> matrix is symmetric for off-diagonal elements:
+ *            $E_{ij} = E_{ij}$ for $i \neq j$.  The on-diagonal
+ *            elements $E_{ii}$ are not valid and should not be
+ *            accessed.  (They are set to zero.)
+
+ *            The rate matrix will later be obtained from <E>
+ *            and <pi> as 
+ *                $Q_{ij} = E_{ij} \pi_j$ for $i \neq j$ 
+ *            and
+ *                $Q_{ii} = -\sum_{j \neq i} Q_{ij}$ 
+ *            then scaled to units of one
+ *            substitution/site; see <esl_ratemx_E2Q()> and
+ *            <esl_ratemx_ScaleTo()>.
+ *
+ *            Data file format: First 190 numbers are a
+ *            lower-triangular matrix E of amino acid
+ *            exchangeabilities $E_{ij}$. Next 20 numbers are the
+ *            amino acid frequencies $\pi_i$. Remainder of the
+ *            datafile is ignored.
+ *            
+ *            The alphabet order in the matrix and the frequency
+ *            vector is assumed to be "ARNDCQEGHILKMFPSTWYV"
+ *            (alphabetical by three-letter code), which appears to be
+ *            PAML's default order. This is transformed to Easel's
+ *            "ACDEFGHIKLMNPQRSTVWY" (alphabetical by one-letter code)
+ *            in the $E_{ij}$ and $\pi_i$ that are returned.
+ *            
+ * Args:      fp   - open datafile for reading.
+ *            E    - RETURN: E matrix of amino acid exchangeabilities e_ij,
+ *                     symmetric (E_ij = E_ji),
+ *                     in Easel amino acid alphabet order A..Y.
+ *                     Caller provides appropriately allocated space.
+ *            pi   - RETURN: \pi_i vector of amino acid frequencies,
+ *                    in Easel amino acid alphabet order A..Y.
+ *                    Caller provides appropriately allocated space.
+ *
+ * Returns:   <eslOK> on success.
+ *            Returns <eslEOF> on premature end of file (parse failed), in which
+ *            case the contents of <E> and <pi> are undefined.
+ *            
+ * Throws:    <eslEMEM> on internal allocation failure,
+ *            and the contents of <E> and <pi> are undefined.
+ *
+ * Xref:      STL8/p.56.
+ */
+int
+esl_paml_ReadE(FILE *fp, ESL_DMATRIX *E, double *pi)
+{
+  int             status;
+  ESL_FILEPARSER *efp = NULL;
+  char           *tok;
+  int             i,j;
+  char           *pamlorder = "ARNDCQEGHILKMFPSTWYV";
+  char           *eslorder  = "ACDEFGHIKLMNPQRSTVWY";
+  int             perm[20];
+
+  if ((status =  esl_dmatrix_SetZero(E))                 != eslOK) goto ERROR;
+  esl_vec_DSet(pi, 20, 0.);
+
+  if ((efp =    esl_fileparser_Create(fp))               == NULL)  goto ERROR;
+  if ((status = esl_fileparser_SetCommentChar(efp, '#')) != eslOK) goto ERROR;
+
+  /* Construct the alphabet permutation we need.
+   * perm[i] -> original row/column i goes to row/column perm[i]
+   */
+   for (i = 0; i < 20; i++)
+     perm[i] = (int) (strchr(eslorder, pamlorder[i]) - eslorder);
+
+   /* Read the s_ij matrix data in, permuting as we go. */
+
+   for (i = 1; i < 20; i++)
+    for (j = 0; j < i; j++)
+      {
+	if ((status = esl_fileparser_GetToken(efp, &tok, NULL)) != eslOK) goto ERROR;
+	E->mx[perm[i]][perm[j]] = atof(tok);
+	E->mx[perm[j]][perm[i]] = E->mx[perm[i]][perm[j]];
+      }
+
+   /* Read the pi_i vector in, permuting as we read. */
+  for (i = 0; i < 20; i++)
+    {
+      if ((status = esl_fileparser_GetToken(efp, &tok, NULL)) != eslOK) goto ERROR;
+      pi[perm[i]] = atof(tok);
+    }
+
+  esl_fileparser_Destroy(efp);
+  return eslOK;
+
+ ERROR:
+  if (efp != NULL) esl_fileparser_Destroy(efp);
+  return status;
+}
+
+
+/*****************************************************************
+ * Utility: reformat a PAML file to a static vector
+ *****************************************************************/
+#ifdef eslPAML_UTILITY1
+
+/* gcc -g -Wall -o utility -I. -L. -DeslPAML_UTILITY1 esl_paml.c -leasel -lm
+ */
+#include "easel.h"
+#include "esl_dmatrix.h"
+#include "esl_paml.h"
+
+int 
+main(int argc, char **argv)
+{
+  char        *filename = argv[1];
+  FILE        *fp       = NULL;
+  ESL_DMATRIX *E        = NULL;
+  double      *pi       = NULL;
+  int          i,j,n;
+
+  E = esl_dmatrix_Create(20, 20);
+  pi = malloc(20 * sizeof(double));
+  if ((fp = fopen(filename, "r")) == NULL) esl_fatal("open failed");
+  if (esl_paml_ReadE(fp, E, pi) != eslOK)  esl_fatal("parse failed");
+
+  n = 1;
+  for (i = 1; i < 20; i++)
+    for (j = 0; j < i; j++)
+      {
+	printf("%8.6f, ", E->mx[i][j]);
+	if (n++ == 10) { puts(""); n=1; }
+      }
+  
+  puts("");
+
+  n = 1;
+  for (i = 0; i < 20; i++)
+    {
+      printf("%8.6f, ", pi[i]);
+      if (n++ == 10) { puts(""); n=1; }
+    }
+  
+  fclose(fp);
+  free(pi);
+  esl_dmatrix_Destroy(E);
+  return 0;
+}
+
+#endif /*eslPAML_UTILITY1*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_paml.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_paml.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.h
new file mode 100755
index 0000000..577d636
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.h
@@ -0,0 +1,31 @@
+/* PAML interface
+ *
+ *   "Phylogenetic Analysis by Maximum Likelihood"
+ *   Ziheng Yang
+ *   http://abacus.gene.ucl.ac.uk/software/paml.html
+ *   [Yang97]
+ * 
+ *           incept: SRE, Tue Jul 13 13:20:08 2004 [St. Louis]
+ * upgrade to Easel: SRE, Thu Mar  8 13:26:20 2007 [Janelia]
+ * SVN $Id: esl_paml.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_paml.h $
+ */
+#ifndef eslPAML_INCLUDED
+#define eslPAML_INCLUDED
+
+#include <stdio.h>
+#include <esl_dmatrix.h>
+
+extern int esl_paml_ReadE(FILE *fp, ESL_DMATRIX *E, double *pi);
+
+
+#endif /*eslPAML_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.tex
new file mode 100755
index 0000000..88346de
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_paml.tex
@@ -0,0 +1,4 @@
+The \eslmod{paml} module implements support for reading certain data
+files from Ziheng Yang's PAML software suite \citep{Yang97}.
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.c
new file mode 100755
index 0000000..e17d1e7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.c
@@ -0,0 +1,1177 @@
+/* Portable, threadsafe random number generators.
+ * Provides both a fast generator and a strong generator.
+ *
+ *  1. The ESL_RANDOMNESS object.
+ *  2. The generators, esl_random().
+ *  3. Debugging/development tools.
+ *  4. Other fundamental sampling (including Gaussian, gamma).
+ *  5. Multinomial sampling from discrete probability n-vectors.
+ *  6. Benchmark driver
+ *  7. Unit tests.
+ *  8. Test driver.
+ *  9. Example.
+ * 10. Copyright and license information.
+ *  
+ * See http://csrc.nist.gov/rng/ for the NIST random number
+ * generation test suite.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+#include <math.h>
+#include <time.h>
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>
+#endif
+
+#include "easel.h"
+#include "esl_random.h"
+
+static uint32_t choose_arbitrary_seed(void);
+static uint32_t jenkins_mix3(uint32_t a, uint32_t b, uint32_t c);
+static uint32_t knuth              (ESL_RANDOMNESS *r);
+static uint32_t mersenne_twister   (ESL_RANDOMNESS *r);
+static void     mersenne_seed_table(ESL_RANDOMNESS *r, uint32_t seed);
+static void     mersenne_fill_table(ESL_RANDOMNESS *r);
+
+/*****************************************************************
+ *# 1. The <ESL_RANDOMNESS> object.
+ *****************************************************************/
+
+/* Function:  esl_randomness_Create()
+ * Synopsis:  Create the default strong random number generator.
+ *
+ * Purpose:   Create a random number generator using
+ *            a given random seed. The <seed> must be $\geq 0$.
+ *            
+ *            The default random number generator uses the Mersenne
+ *            Twister MT19937 algorithm \citep{Matsumoto98}.  It has a
+ *            period of $2^{19937}-1$, and equidistribution over
+ *            $2^{32}$ values.
+ *
+ *            If <seed> is $>0$, the random number generator is
+ *            reproducibly initialized with that seed.  Two RNGs
+ *            created with the same nonzero seed will give exactly the
+ *            same stream of pseudorandom numbers. This allows you to
+ *            make reproducible stochastic simulations, for example.
+ *            
+ *            If <seed> is 0, an arbitrary seed is chosen.
+ *            Internally, the arbitrary seed is produced by a
+ *            combination of the current <time()> and the process id
+ *            (if available; POSIX only). Two RNGs created with
+ *            <seed>=0 will very probably (but not assuredly) give
+ *            different streams of pseudorandom numbers. The true seed
+ *            can be retrieved from the <ESL_RANDOMNESS> object using
+ *            <esl_randomness_GetSeed()>.  The strategy used for
+ *            choosing the arbitrary seed is predictable, so it is
+ *            not secure in any sense, especially in the cryptographic
+ *            sense.
+ *            
+ * Args:      seed $>= 0$.
+ *
+ * Returns:   an initialized <ESL_RANDOMNESS *> on success.
+ *            Caller free's with <esl_randomness_Destroy()>.
+ *              
+ * Throws:    <NULL> on failure.
+ * 
+ * Xref:      SRE:STL8/p57.
+ *            SRE:J5/21:    Mersenne Twister.
+ */
+ESL_RANDOMNESS *
+esl_randomness_Create(uint32_t seed)
+{
+  ESL_RANDOMNESS *r      = NULL;
+  int             status;
+
+  ESL_ALLOC(r, sizeof(ESL_RANDOMNESS));
+  r->type = eslRND_MERSENNE;
+  r->mti  = 0;
+  r->x    = 0;
+  r->seed = 0;
+  esl_randomness_Init(r, seed);
+  return r;
+
+ ERROR:
+  return NULL;
+}
+
+/* Function:  esl_randomness_CreateFast()
+ * Synopsis:  Create the alternative fast generator.
+ *
+ * Purpose:   Same as <esl_randomness_Create()>, except that a simple
+ *            linear congruential generator (LCG) will be used.
+ *            
+ *            This is a low quality generator. Successive samples from
+ *            an LCG are correlated, and it has a relatively short
+ *            period. IT SHOULD NOT BE USED FOR SERIOUS
+ *            SIMULATIONS. Rather, it's a quick and dirty RNG where
+ *            you're sure that speed is more important than the
+ *            quality of your random numbers. For a high quality RNG,
+ *            use <esl_randomness_Create()> instead.
+ *            
+ *            This is a $(a=69069, c=1)$ LCG, with a period of
+ *            $2^{32}$. 
+ *            
+ *            It is about 20x faster to initialize the generator, and
+ *            about 25\% faster to sample each number, compared to the
+ *            default Mersenne Twister. (In most cases, this speed
+ *            differential is not worth the degradation in
+ *            quality. Since we made MT our default generator, the
+ *            speed advantage of the LCG essentially disappeared, so
+ *            in some sense this is legacy code.)
+ *
+ *            Here's an example of how serial correlation arises in an
+ *            LCG, and how it can lead to serious (and difficult to
+ *            diagnose) failure in a Monte Carlo simulation. Recall
+ *            that an LCG calculates $x_{i+1} = ax_i + c$. Suppose
+ *            $x_i$ is small: in the range 0..6000, say, as a specific
+ *            example. Now $x_{i+1}$ cannot be larger than 4.1e8, for
+ *            an LCG with $a=69069$,$c=1$. So if you take a sample and
+ *            test whether it is $< 1e-6$ (say), the next sample will
+ *            be in a range of about 0..0.1, rather than being uniform
+ *            on 0..1.
+ *
+ * Args:      seed $>= 0$.
+ *
+ * Returns:   an initialized <ESL_RANDOMNESS *> on success.
+ *            Caller free's with <esl_randomness_Destroy()>.
+ *              
+ * Throws:    <NULL> on failure.
+ *
+ * Xref:      SRE:J5/44: for accidental proof that the period is
+ *                       indeed 2^32.
+ */
+ESL_RANDOMNESS *
+esl_randomness_CreateFast(uint32_t seed)
+{
+  ESL_RANDOMNESS *r      = NULL;
+  int             status;
+
+  ESL_ALLOC(r, sizeof(ESL_RANDOMNESS));
+  r->type = eslRND_FAST;
+  r->mti  = 0;
+  r->x    = 0;
+  r->seed = 0;
+  esl_randomness_Init(r, seed);
+  return r;
+
+ ERROR:
+  return NULL;
+}
+
+
+/* Function:  esl_randomness_CreateTimeseeded()
+ * Synopsis:  Create an RNG with a quasirandom seed.
+ *
+ * Purpose:   Like <esl_randomness_Create()>, but it initializes the
+ *            the random number generator using a POSIX <time()> call 
+ *            (number of seconds since the POSIX epoch).
+ *            
+ *            This function is deprecated. Use 
+ *            <esl_randomness_Create(0)> instead.
+ *
+ * Returns:   an initialized <ESL_RANDOMNESS *> on success.
+ *            Caller free's with <esl_randomness_Destroy()>.
+ *              
+ * Throws:    <NULL> on failure.
+ * 
+ * Xref:      SRE:STL8/p57.
+ */
+ESL_RANDOMNESS *
+esl_randomness_CreateTimeseeded(void)
+{
+  return esl_randomness_Create(0);
+}
+
+
+/* Function:  esl_randomness_Init()
+ * Synopsis:  Reinitialize a RNG.           
+ *
+ * Purpose:   Reset and reinitialize an existing <ESL_RANDOMNESS>
+ *            object with a new seed. 
+ *            
+ *            Not generally recommended. This does not make a
+ *            sequence of numbers more random, and may make it less
+ *            so. Sometimes, though, it's useful to reseed an RNG
+ *            to guarantee a particular reproducible series of
+ *            pseudorandom numbers at an arbitrary point in a program;
+ *            HMMER does this, for example, to guarantee the same
+ *            results from the same HMM/sequence comparison regardless
+ *            of where in a search the HMM or sequence occurs.
+ *
+ * Args:      r     - randomness object
+ *            seed  - new seed to use; >0.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if seed is $<= 0$.
+ *
+ * Xref:      SRE:STL8/p57.
+ */
+int
+esl_randomness_Init(ESL_RANDOMNESS *r, uint32_t seed)
+{
+  if (seed == 0) seed = choose_arbitrary_seed();
+  if (r->type == eslRND_MERSENNE)
+    {
+      mersenne_seed_table(r, seed);
+      mersenne_fill_table(r);
+    }
+  else 
+    {
+      r->seed = seed;
+      r->x    = jenkins_mix3(seed, 87654321, 12345678);	/* arbitrary dispersion of the seed */
+      if (r->x == 0) r->x = 42;                         /* make sure we don't have a zero */
+    }
+  return eslOK;
+}
+
+/* Function:  esl_randomness_GetSeed()
+ * Synopsis:  Returns the value of RNG's seed.
+ *
+ * Purpose:   Return the value of the seed. 
+ */
+uint32_t
+esl_randomness_GetSeed(const ESL_RANDOMNESS *r)
+{
+  return r->seed;
+}
+
+
+/* Function:  esl_randomness_Destroy()
+ * Synopsis:  Free an RNG.            
+ *
+ * Purpose:   Frees an <ESL_RANDOMNESS> object.
+ */
+void
+esl_randomness_Destroy(ESL_RANDOMNESS *r)
+{
+  free(r);
+  return;
+}
+
+/*----------- end of ESL_RANDOMNESS object functions --------------*/
+
+
+
+/*****************************************************************
+ *# 2. The generators and <esl_random()>
+ *****************************************************************/  
+
+/* Function: esl_random()  
+ * Synopsis: Generate a uniform random deviate on [0,1)
+ *
+ * Purpose:  Returns a uniform deviate x, $0.0 <= x < 1.0$, given
+ *           RNG <r>.
+ *           
+ *           Uses the original Mersenne Twister algorithm, MT19937
+ *           [Matsumoto98]. This generator has a period of $2^{19937} -
+ *           1$. It generates uniformly distributed variates on the
+ *           interval $0..2^{32}-1$. 
+ *           
+ *           If you cast the return value to float, the [0,1) interval
+ *           guarantee is lost because values close to 1 will round to
+ *           1.0.
+ *           
+ * Notes:    Easel previously used a reimplementation of ran2() from
+ *           Numerical Recipes in C, which uses L'Ecuyer's algorithm
+ *           for combining output of two linear congruential
+ *           generators, plus a Bays-Durham shuffle \citep{Press93}.
+ *           MT is about 10x faster.
+ *
+ * Returns:  a uniformly distribute random deviate on interval
+ *           $0.0 \leq x < 1.0$.
+ */
+double
+esl_random(ESL_RANDOMNESS *r)
+{
+  uint32_t x = (r->type == eslRND_MERSENNE) ? mersenne_twister(r) : knuth(r);
+  return ((double) x / 4294967296.0); /* 2^32: normalizes to [0,1) */
+}
+
+
+static uint32_t 
+knuth(ESL_RANDOMNESS *r)
+{
+  r->x *= 69069;
+  r->x += 1;
+  return r->x;
+}
+
+/* mersenne_twister() and other mersenne_*() functions below:
+ * A simple serial implementation of the original Mersenne Twister
+ * algorithm [Matsumoto98]. 
+ * 
+ * There are more sophisticated and faster implementations of MT, using
+ * vector instructions and/or directly generating IEEE754 doubles
+ * bitwise rather than doing an expensive normalization. We can
+ * improve the implementation later if necessary, but even the basic
+ * MT offers ~10x speed improvement over Easel's previous RNG.
+ * [SRE, 30 May 09, Stockholm]
+ */
+static uint32_t
+mersenne_twister(ESL_RANDOMNESS *r)
+{
+  uint32_t x;
+  if (r->mti >= 624) mersenne_fill_table(r);
+
+  x = r->mt[r->mti++];
+  x ^= (x>>11);
+  x ^= (x<< 7) & 0x9d2c5680;
+  x ^= (x<<15) & 0xefc60000;
+  x ^= (x>>18);
+  return x;
+}
+
+/* mersenne_seed_table()
+ * Initialize the state of the RNG from a seed.
+ * Uses the knuth linear congruential generator.
+ */
+static void
+mersenne_seed_table(ESL_RANDOMNESS *r, uint32_t seed)
+{
+  int z;
+
+  r->seed  = seed;
+  r->mt[0] = seed;
+  for (z = 1; z < 624; z++)
+    r->mt[z] = 69069 * r->mt[z-1];
+  return;
+}
+
+/* mersenne_fill_table()
+ * Refill the table with 624 new random numbers.
+ * We do this whenever we've reseeded, or when we 
+ * run out of numbers.
+ */
+static void
+mersenne_fill_table(ESL_RANDOMNESS *r)
+{
+  uint32_t y;
+  int      z;
+  static uint32_t mag01[2] = { 0x0, 0x9908b0df };
+
+  for (z = 0; z < 227; z++)	/* 227 = N-M = 624-397 */
+    {
+      y = (r->mt[z] & 0x80000000) | (r->mt[z+1] & 0x7fffffff);
+      r->mt[z] = r->mt[z+397] ^ (y>>1) ^ mag01[(int)(y & 0x1)]; /* yes, the (int) cast is necessary; xref bug #e7; some compilers may try to cast y to signed int otherwise, to use it in an array index */
+    }
+  for (; z < 623; z++)
+    {
+      y = (r->mt[z] & 0x80000000) | (r->mt[z+1] & 0x7fffffff);
+      r->mt[z] = r->mt[z-227] ^ (y>>1) ^ mag01[(int)(y & 0x1)];
+    }
+  y = (r->mt[623] & 0x80000000) | (r->mt[0] & 0x7fffffff);
+  r->mt[623] = r->mt[396] ^ (y>>1) ^ mag01[(int)(y & 0x1)];
+  r->mti = 0;
+
+  return;
+}
+
+
+/* choose_arbitrary_seed()
+ * Return a 'quasirandom' seed > 0.
+ * This could be a *lot* better than it is now; see RFC1750
+ * for a discussion of securely seeding RNGs.
+ */
+static uint32_t
+choose_arbitrary_seed(void)
+{
+  uint32_t a = (uint32_t) time ((time_t *) NULL);
+  uint32_t b = 87654321;	/* anything nonzero */
+  uint32_t c = 12345678;	/* anything nonzero. jenkins' mix3 needs 3 numbers; add an arbitrary one */
+  uint32_t seed;
+#ifdef HAVE_GETPID
+  b  = (uint32_t) getpid();	  /* preferable b choice, if we have POSIX getpid(); else both b,c are arbitrary */
+#endif
+  seed = jenkins_mix3(a,b,c);	  /* try to decorrelate closely spaced choices of pid/time */
+
+  return (seed == 0) ? 42 : seed; /* 42 is entirely arbitrary, just to avoid seed==0. */
+}
+
+/* jenkins_mix3()
+ * 
+ * from Bob Jenkins: given a,b,c, generate a number that's distributed
+ * reasonably uniformly on the interval 0..2^32-1 even for closely
+ * spaced choices of a,b,c.
+ */
+static uint32_t 
+jenkins_mix3(uint32_t a, uint32_t b, uint32_t c)
+{
+  a -= b; a -= c; a ^= (c>>13);		
+  b -= c; b -= a; b ^= (a<<8); 
+  c -= a; c -= b; c ^= (b>>13);
+  a -= b; a -= c; a ^= (c>>12);
+  b -= c; b -= a; b ^= (a<<16);
+  c -= a; c -= b; c ^= (b>>5); 
+  a -= b; a -= c; a ^= (c>>3); 
+  b -= c; b -= a; b ^= (a<<10);
+  c -= a; c -= b; c ^= (b>>15);
+  return c;
+}
+/*----------- end of esl_random() --------------*/
+
+
+
+/*****************************************************************
+ *# 3. Debugging and development tools
+ *****************************************************************/ 
+
+/* Function:  esl_randomness_Dump()
+ * Synopsis:  Dump ESL_RANDOMNESS object to stream, for debugging/examination.
+ */
+int
+esl_randomness_Dump(FILE *fp, ESL_RANDOMNESS *r)
+{
+  if (r->type == eslRND_FAST)
+    {
+      fputs      ("type  = knuth\n", fp );
+      fprintf(fp, "state = %" PRIu32 "\n", r->x);
+      fprintf(fp, "seed  = %" PRIu32 "\n", r->seed);      
+    }
+  else if (r->type == eslRND_MERSENNE)
+    {
+      int i,j;
+
+      fputs      ("type    = mersenne twister\n", fp );
+      fprintf(fp, "mti     = %d (0..623)\n", r->mti);
+      fprintf(fp, "mt[mti] = %" PRIu32 "\n", r->mt[r->mti]);
+
+      fprintf(fp, "%6d: ", 0);
+      for (i = 0, j=0; i < 624; i++)
+	{
+	  fprintf(fp, "%11" PRIu32 " ", r->mt[i]);
+	  if (++j == 20) { fprintf(fp, "\n%6d: ", i+1); j=0; }
+	}
+      fputs("\n", fp);
+    }
+  return eslOK;
+}
+/*----------- end, debugging/development tools ------------------*/
+
+
+/*****************************************************************
+ *# 4. Other fundamental sampling (including Gaussian, gamma)
+ *****************************************************************/ 
+
+/* Function: esl_rnd_UniformPositive()
+ * Synopsis: Generate a uniform positive random deviate on interval (0,1).
+ *
+ * Purpose:  Same as <esl_random()>, but assure $0 < x < 1$;
+ *           (positive uniform deviate).
+ */
+double
+esl_rnd_UniformPositive(ESL_RANDOMNESS *r)
+{
+  double x;
+  do { x = esl_random(r); } while (x == 0.0);
+  return x;
+}
+
+
+/* Function:  esl_rnd_Gaussian()
+ * Synopsis:  Generate a Gaussian-distributed sample.
+ *
+ * Purpose:   Pick a Gaussian-distributed random variable
+ *            with a given <mean> and standard deviation <stddev>, and
+ *            return it. 
+ *            
+ *            Implementation is derived from the public domain
+ *            RANLIB.c <gennor()> function, written by Barry W. Brown
+ *            and James Lovato (M.D. Anderson Cancer Center, Texas
+ *            USA) using the method described in
+ *            \citep{AhrensDieter73}.
+ * 
+ * Method:    Impenetrability of the code is to be blamed on 
+ *            FORTRAN/f2c lineage.
+ *
+ * Args:      r      - ESL_RANDOMNESS object
+ *            mean   - mean of the Gaussian we're sampling from
+ *            stddev - standard deviation of the Gaussian     
+ */
+double
+esl_rnd_Gaussian(ESL_RANDOMNESS *r, double mean, double stddev)
+{
+  long   i;
+  double snorm,u,s,ustar,aa,w,y,tt;
+
+  /* These static's are threadsafe: they are magic constants
+   * we will not touch.
+   */
+  static double a[32] = {
+    0.0,3.917609E-2,7.841241E-2,0.11777,0.1573107,0.1970991,0.2372021,0.2776904,    
+    0.3186394,0.36013,0.4022501,0.4450965,0.4887764,0.5334097,0.5791322,
+    0.626099,0.6744898,0.7245144,0.7764218,0.8305109,0.8871466,0.9467818,
+    1.00999,1.077516,1.150349,1.229859,1.318011,1.417797,1.534121,1.67594,
+    1.862732,2.153875
+  };
+  static double d[31] = {
+    0.0,0.0,0.0,0.0,0.0,0.2636843,0.2425085,0.2255674,0.2116342,0.1999243,
+    0.1899108,0.1812252,0.1736014,0.1668419,0.1607967,0.1553497,0.1504094,
+    0.1459026,0.14177,0.1379632,0.1344418,0.1311722,0.128126,0.1252791,
+    0.1226109,0.1201036,0.1177417,0.1155119,0.1134023,0.1114027,0.1095039
+  };
+  static double t[31] = {
+    7.673828E-4,2.30687E-3,3.860618E-3,5.438454E-3,7.0507E-3,8.708396E-3,
+    1.042357E-2,1.220953E-2,1.408125E-2,1.605579E-2,1.81529E-2,2.039573E-2,
+    2.281177E-2,2.543407E-2,2.830296E-2,3.146822E-2,3.499233E-2,3.895483E-2,
+    4.345878E-2,4.864035E-2,5.468334E-2,6.184222E-2,7.047983E-2,8.113195E-2,
+    9.462444E-2,0.1123001,0.136498,0.1716886,0.2276241,0.330498,0.5847031
+  };
+  static double h[31] = {
+    3.920617E-2,3.932705E-2,3.951E-2,3.975703E-2,4.007093E-2,4.045533E-2,
+    4.091481E-2,4.145507E-2,4.208311E-2,4.280748E-2,4.363863E-2,4.458932E-2,
+    4.567523E-2,4.691571E-2,4.833487E-2,4.996298E-2,5.183859E-2,5.401138E-2,
+    5.654656E-2,5.95313E-2,6.308489E-2,6.737503E-2,7.264544E-2,7.926471E-2,
+    8.781922E-2,9.930398E-2,0.11556,0.1404344,0.1836142,0.2790016,0.7010474
+  };
+
+  u = esl_random(r);
+  s = 0.0;
+  if(u > 0.5) s = 1.0;
+  u += (u-s);
+  u = 32.0*u;
+  i = (long) (u);
+  if(i == 32) i = 31;
+  if(i == 0) goto S100;
+  /*
+   * START CENTER
+   */
+  ustar = u-(double)i;
+  aa = a[i-1];
+S40:
+  if (ustar <= t[i-1]) goto S60;
+  w = (ustar - t[i-1]) * h[i-1];
+S50:
+  /*
+   * EXIT   (BOTH CASES)
+   */
+  y = aa+w;
+  snorm = y;
+  if(s == 1.0) snorm = -y;
+  return (stddev*snorm + mean);
+S60:
+  /*
+   * CENTER CONTINUED
+   */
+  u = esl_random(r);
+  w = u*(a[i]-aa);
+  tt = (0.5*w+aa)*w;
+  goto S80;
+S70:
+  tt = u;
+  ustar = esl_random(r);
+S80:
+  if(ustar > tt) goto S50;
+  u = esl_random(r);
+  if(ustar >= u) goto S70;
+  ustar = esl_random(r);
+  goto S40;
+S100:
+  /*
+   * START TAIL
+   */
+  i = 6;
+  aa = a[31];
+  goto S120;
+S110:
+  aa += d[i-1];
+  i += 1;
+S120:
+  u += u;
+  if(u < 1.0) goto S110;
+  u -= 1.0;
+S140:
+  w = u*d[i-1];
+  tt = (0.5*w+aa)*w;
+  goto S160;
+S150:
+  tt = u;
+S160:
+  ustar = esl_random(r);
+  if(ustar > tt) goto S50;
+  u = esl_random(r);
+  if(ustar >= u) goto S150;
+  u = esl_random(r);
+  goto S140;
+}
+
+
+
+/* subfunctions that esl_rnd_Gamma() is going to call:
+ */
+static double
+gamma_ahrens(ESL_RANDOMNESS *r, double a)	/* for a >= 3 */
+{
+  double V;			/* uniform deviates */
+  double X,Y;
+  double test;
+  
+  do {
+    do {				/* generate candidate X */
+      Y = tan(eslCONST_PI * esl_random(r)); 
+      X = Y * sqrt(2.*a -1.) + a - 1.;
+    } while (X <= 0.);
+				/* accept/reject X */
+    V    = esl_random(r);
+    test = (1+Y*Y) * exp( (a-1.)* log(X/(a-1.)) - Y*sqrt(2.*a-1.));
+  } while (V > test);
+  return X;
+}
+static double
+gamma_integer(ESL_RANDOMNESS *r, unsigned int a)	/* for small integer a, a < 12 */
+{
+  int    i;
+  double U,X;
+
+  U = 1.;
+  for (i = 0; i < a; i++) 
+    U *= esl_rnd_UniformPositive(r);
+  X = -log(U);
+
+  return X;
+}
+static double
+gamma_fraction(ESL_RANDOMNESS *r, double a)	/* for fractional a, 0 < a < 1 */
+{				/* Knuth 3.4.1, exercise 16, pp. 586-587 */
+  double p, U, V, X, q;
+  
+  p = eslCONST_E / (a + eslCONST_E);
+  do {
+    U = esl_random(r);
+    V = esl_rnd_UniformPositive(r);
+    if (U < p) {
+      X = pow(V, 1./a);
+      q = exp(-X);
+    } else {
+      X = 1. - log(V);
+      q = pow(X, a-1.);
+    }
+    U = esl_random(r);
+  } while (U >= q);
+  return X;
+}
+
+
+/* Function: esl_rnd_Gamma()
+ * Synopsis: Returns a random deviate from a Gamma(a, 1) distribution.
+ *
+ * Purpose:  Return a random deviate distributed as Gamma(a, 1.)
+ *           \citep[pp. 133--134]{Knu-81a}.
+ *           
+ *           The implementation follows not only Knuth \citep{Knu-81a},
+ *           but also relied on examination of the implementation in
+ *           the GNU Scientific Library (libgsl) \citep{Galassi06}.
+ *
+ * Args:     r      - random number generation seed
+ *           a      - order of the gamma function; a > 0
+ *
+ * Throws:   <eslEINVAL> for $a <= 0$.
+ */
+double
+esl_rnd_Gamma(ESL_RANDOMNESS *r, double a)
+{
+  double aint;
+
+  aint = floor(a);
+  if (a == aint && a < 12.) 
+    return gamma_integer(r, (unsigned int) a);
+  else if (a > 3.) 
+    return gamma_ahrens(r, a);
+  else if (a < 1.) 
+    return gamma_fraction(r, a);
+  else 
+    return gamma_integer(r, aint) + gamma_fraction(r, a-aint);
+  return eslOK;
+}
+
+
+/*****************************************************************
+ *# 5. Multinomial sampling from discrete probability n-vectors
+ *****************************************************************/ 
+
+/* Function:  esl_rnd_DChoose()
+ * Synopsis:  Return random choice from discrete multinomial distribution.          
+ *
+ * Purpose:   Make a random choice from a normalized discrete
+ *            distribution <p> of <N> elements, where <p>
+ *            is double-precision. Returns the index of the
+ *            selected element, $0..N-1$.
+ *            
+ *            <p> must be a normalized probability distribution
+ *            (i.e. must sum to one). Sampling distribution is
+ *            undefined otherwise: that is, a choice will always
+ *            be returned, but it might be an arbitrary one.
+ *
+ *            All $p_i$ must be $>$ <DBL_EPSILON> in order to 
+ *            have a non-zero probability of being sampled.
+ *
+ *            <esl_rnd_FChoose()> is the same, but for floats in <p>,
+ *            and all $p_i$ must be $>$ <FLT_EPSILON>.
+ */
+int
+esl_rnd_DChoose(ESL_RANDOMNESS *r, const double *p, int N)
+{
+  double norm = 0.0;		/* ~ 1.0                  */
+  double sum  = 0.0;            /* integrated prob        */
+  double roll = esl_random(r);  /* random fraction        */
+  int    i;                     /* counter over the probs */
+
+  /* we need to deal with finite roundoff error in p's sum */
+  for (i = 0; i < N; i++) norm += p[i];
+  ESL_DASSERT1((norm > 0.999 && norm < 1.001));
+
+  for (i = 0; i < N; i++)
+    {
+      sum += p[i];
+      if (roll < (sum / norm) ) return i; 
+    }
+  esl_fatal("unreached code was reached. universe collapses.");
+  return 0; /*notreached*/
+}
+int
+esl_rnd_FChoose(ESL_RANDOMNESS *r, const float *p, int N)
+{
+  /* Computing in double precision is important:
+   * casting <roll> to (float) gives a [0,1] number instead of [0,1).
+   */
+  double norm = 0.0;		/* ~ 1.0                  */
+  double sum  = 0.0;            /* integrated prob        */
+  double roll = esl_random(r);  /* random fraction        */
+  int    i;                     /* counter over the probs */
+
+  for (i = 0; i < N; i++) norm += p[i];
+  ESL_DASSERT1((norm > 0.99 && norm < 1.01));
+
+  for (i = 0; i < N; i++)
+    {
+      sum += p[i];
+      if (roll < (sum / norm) ) return i; 
+    }
+  esl_fatal("unreached code was reached. universe collapses.");
+  return 0; /*notreached*/
+}
+
+
+/* Function:  esl_rnd_DChooseCDF()
+ * Synopsis:  Return random choice from cumulative multinomial distribution.
+ *
+ * Purpose:   Given a random number generator <r> and a cumulative
+ *            multinomial distribution <cdf[0..N-1]>, sample an element
+ *            <0..N-1> from that distribution. Return the index <0..N-1>.
+ *
+ *            Caller should be sure that <cdf[0..N-1]> is indeed a
+ *            cumulative multinomial distribution -- in particular, that
+ *            <cdf[N-1]> is tolerably close to 1.0 (within roundoff error).
+ *            
+ *            When sampling many times from the same multinomial
+ *            distribution <p>, it will generally be faster to
+ *            calculate the CDF once using <esl_vec_DCDF(p, N, cdf)>,
+ *            then sampling many times from the CDF with
+ *            <esl_rnd_DChooseCDF(r, cdf, N)>, as opposed to calling
+ *            <esl_rnd_DChoose(r, p, N)> many times, because
+ *            <esl_rnd_DChoose()> has to calculated the CDF before
+ *            sampling. This also gives you a bit more control over
+ *            error detection: you can make sure that the CDF is ok (p
+ *            does sum to ~1.0) before doing a lot of sampling from
+ *            it.
+ *            
+ *            <esl_rnd_FChooseCDF()> is the same, but for
+ *            a single-precision float <cdf>.
+ *            
+ * Args:      r    - random number generator
+ *            cdf  - cumulative multinomial distribution, cdf[0..N-1]
+ *            N    - number of elements in <cdf>
+ *
+ * Returns:   index 0..N-1 of the randomly sampled choice from <cdf>.
+ * 
+ * Note:      For large N, it might be advantageous to bisection search the
+ *            cdf. For typical N in Easel (up to 20, for amino acid
+ *            prob vectors, for example), the naive code below is
+ *            faster. We could revisit this if we start sampling
+ *            larger vectors.
+ */
+int
+esl_rnd_DChooseCDF(ESL_RANDOMNESS *r, const double *cdf, int N)
+{
+  double roll = esl_random(r);	/* uniform 0.0 <= x < 1.0 */
+  int    i;
+
+  ESL_DASSERT1((cdf[0] >= 0.0));
+  ESL_DASSERT1((cdf[N-1] > 0.999 && cdf[N-1] < 1.001));
+
+  for (i = 0; i < N; i++)
+    if (roll < cdf[i] / cdf[N-1]) return i; 
+  esl_fatal("unreached code is reached. universe goes foom");
+  return 0; /*notreached*/
+}
+int
+esl_rnd_FChooseCDF(ESL_RANDOMNESS *r, const float *cdf, int N)
+{
+  double roll = esl_random(r);	/* uniform 0.0 <= x < 1.0. must be double, not float, to guarantee x <1 */
+  int    i;
+
+  ESL_DASSERT1((cdf[0] >= 0.0));
+  ESL_DASSERT1((cdf[N-1] > 0.99 && cdf[N-1] < 1.01));
+
+  for (i = 0; i < N; i++) 
+    if (roll < cdf[i]/cdf[N-1]) return i; 
+  esl_fatal("unreached code is reached. universe goes foom");
+  return 0; /*notreached*/
+}
+
+
+/*****************************************************************
+ * 6. Benchmark driver
+ *****************************************************************/
+#ifdef eslRANDOM_BENCHMARK
+/*
+   gcc -O3 -malign-double -o esl_random_benchmark -I. -L. -DeslRANDOM_BENCHMARK esl_random.c -leasel -lm
+   ./esl_random_benchmark -N 1000000000
+   ./esl_random_benchmark -f -N 1000000000
+   ./esl_random_benchmark -r -N1000000
+   ./esl_random_benchmark -fr -N 1000000000
+                               esl_random()            esl_randomness_Init()
+                           iter  cpu time  per call   iter  cpu time  per call  
+                           ----  --------  --------   ---- ---------- ---------
+   27 Dec 08 on wanderoo:  1e7    0.78s    78 nsec     1e6   2.08s     2.1 usec   ran2() from NR
+   30 May 09 on wanderoo:  1e9    8.39s     8 nsec     1e6   5.98s     6.0 usec   Mersenne Twister
+                           1e9    5.73s     6 nsec     1e8   2.51s     0.03 usec  Knuth
+
+ */
+#include "easel.h"
+#include "esl_composition.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+
+static ESL_OPTIONS options[] = {
+  /* name     type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",  eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",  eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "benchmark DChooseCDF()",                           0 },
+  { "-d",  eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "benchmark DChoose()",                              0 },
+  { "-f",  eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "run fast version instead of MT19937",              0 },
+  { "-r",  eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "benchmark _Init(), not just random()",             0 },
+  { "-N",  eslARG_INT, "10000000",NULL, NULL,  NULL,  NULL, NULL, "number of trials",                                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "benchmarking speed of random number generator";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r       = (esl_opt_GetBoolean(go, "-f") == TRUE ? esl_randomness_CreateFast(42) : esl_randomness_Create(42));
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  int             N       = esl_opt_GetInteger(go, "-N");
+  double          p[20];
+  double          cdf[20];
+  
+  esl_composition_BL62(p);
+  esl_vec_DCDF(p, 20, cdf);
+
+  esl_stopwatch_Start(w);
+  if      (esl_opt_GetBoolean(go, "-c")) { while (N--) esl_rnd_DChoose(r, p, 20);      }
+  else if (esl_opt_GetBoolean(go, "-d")) { while (N--) esl_rnd_DChooseCDF(r, cdf, 20); }
+  else if (esl_opt_GetBoolean(go, "-r")) { while (N--) esl_randomness_Init(r, 42);     }
+  else                                   { while (N--) esl_random(r);                  }
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU Time: ");
+
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslRANDOM_BENCHMARK*/
+/*----------------- end, benchmark driver -----------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Unit tests.
+ *****************************************************************/
+
+#ifdef eslRANDOM_TESTDRIVE
+#include "esl_vectorops.h"
+#include "esl_stats.h"
+#include "esl_dirichlet.h"
+    
+  
+/* The esl_random() unit test:
+ * a binned frequency test.
+ */
+static void
+utest_random(ESL_RANDOMNESS *r, int n, int nbins, int be_verbose)
+{
+  char            msg[]  = "esl_random() unit test failed";
+  int            *counts = NULL;
+  double          X2p    = 0.;
+  int             i;
+  int             sample;
+  double          X2, exp, diff;
+
+  if ((counts = malloc(sizeof(int) * nbins)) == NULL) esl_fatal(msg);
+  esl_vec_ISet(counts, nbins, 0);
+
+  for (i = 0; i < n; i++)
+    { 
+      sample = esl_rnd_Roll(r, nbins);
+      if (sample < 0 || sample >= nbins) esl_fatal(msg);
+      counts[sample]++;
+    }
+
+  /* X^2 value: \sum (o_i - e_i)^2 / e_i */
+  for (X2 = 0., i = 0; i < nbins; i++) {
+    exp  = (double) n / (double) nbins;
+    diff = (double) counts[i] - exp;
+    X2 +=  diff*diff/exp;
+  }
+  if (esl_stats_ChiSquaredTest(nbins, X2, &X2p) != eslOK) esl_fatal(msg);
+  if (be_verbose) printf("random():  \t%g\n", X2p);
+  if (X2p < 0.01) esl_fatal(msg);
+
+  free(counts);
+  return;
+}
+
+/* The DChoose() and FChoose() unit tests.
+ */
+static void
+utest_choose(ESL_RANDOMNESS *r, int n, int nbins, int be_verbose)
+{
+  double *pd  = NULL;		/* probability vector, double */
+  double *pdc = NULL;		/* CDF, double                */
+  float  *pf  = NULL;		/* probability vector, float  */
+  float  *pfc = NULL;		/* CDF, float                 */
+  int    *ct  = NULL;
+  int     i;
+  double  X2, diff, exp, X2p;
+
+  if ((pd  = malloc(sizeof(double) * nbins)) == NULL) esl_fatal("malloc failed"); 
+  if ((pdc = malloc(sizeof(double) * nbins)) == NULL) esl_fatal("malloc failed"); 
+  if ((pf  = malloc(sizeof(float)  * nbins)) == NULL) esl_fatal("malloc failed");
+  if ((pfc = malloc(sizeof(float)  * nbins)) == NULL) esl_fatal("malloc failed");
+  if ((ct  = malloc(sizeof(int)    * nbins)) == NULL) esl_fatal("malloc failed");
+
+  /* Sample a random multinomial probability vector.  */
+  if (esl_dirichlet_DSampleUniform(r, nbins, pd) != eslOK) esl_fatal("dirichlet sample failed");
+  esl_vec_D2F(pd, nbins, pf);
+
+  /* Test esl_rnd_DChoose(): 
+   * sample observed counts, chi-squared test against expected
+   */
+  esl_vec_ISet(ct, nbins, 0);
+  for (i = 0; i < n; i++) 
+    ct[esl_rnd_DChoose(r, pd, nbins)]++;
+  for (X2 = 0., i=0; i < nbins; i++) {
+    exp = (double) n * pd[i];
+    diff = (double) ct[i] - exp;
+    X2 += diff*diff/exp;
+  }
+  if (esl_stats_ChiSquaredTest(nbins, X2, &X2p) != eslOK) esl_fatal("chi square eval failed");
+  if (be_verbose) printf("DChoose():  \t%g\n", X2p);
+  if (X2p < 0.01) esl_fatal("chi squared test failed");
+
+  /* Repeat above for FChoose(). */
+  esl_vec_ISet(ct, nbins, 0);
+  for (i = 0; i < n; i++)
+    ct[esl_rnd_FChoose(r, pf, nbins)]++;
+  for (X2 = 0., i=0; i < nbins; i++) {
+    exp = (double) n * pd[i];
+    diff = (double) ct[i] - exp;
+    X2 += diff*diff/exp;
+  }
+  if (esl_stats_ChiSquaredTest(nbins, X2, &X2p) != eslOK) esl_fatal("chi square eval failed");
+  if (be_verbose) printf("FChoose():  \t%g\n", X2p);
+  if (X2p < 0.01) esl_fatal("chi squared test failed");
+  
+  /* esl_rnd_DChooseCDF(). */
+  esl_vec_ISet(ct, nbins, 0);
+  esl_vec_DCDF(pd, nbins, pdc);
+  for (i = 0; i < n; i++) 
+    ct[esl_rnd_DChooseCDF(r, pdc, nbins)]++;
+  for (X2 = 0., i=0; i < nbins; i++) {
+    exp  = (double) n * pd[i];
+    diff = (double) ct[i] - exp;
+    X2 += diff*diff/exp;
+  }
+  if (esl_stats_ChiSquaredTest(nbins, X2, &X2p) != eslOK) esl_fatal("chi square eval failed");
+  if (be_verbose) printf("DChoose():  \t%g\n", X2p);
+  if (X2p < 0.01) esl_fatal("chi squared test failed");
+
+  /* esl_rnd_FChooseCDF() */
+  esl_vec_ISet(ct, nbins, 0);
+  esl_vec_FCDF(pf, nbins, pfc);
+  for (i = 0; i < n; i++) 
+    ct[esl_rnd_FChooseCDF(r, pfc, nbins)]++;
+  for (X2 = 0., i=0; i < nbins; i++) {
+    exp  = (double) n * pf[i];
+    diff = (double) ct[i] - exp;
+    X2 += diff*diff/exp;
+  }
+  if (esl_stats_ChiSquaredTest(nbins, X2, &X2p) != eslOK) esl_fatal("chi square eval failed");
+  if (be_verbose) printf("DChoose():  \t%g\n", X2p);
+  if (X2p < 0.01) esl_fatal("chi squared test failed");
+
+  free(pd);
+  free(pdc);
+  free(pf);
+  free(pfc);
+  free(ct);
+  return;
+}
+ 
+
+#endif /*eslRANDOM_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+
+/*****************************************************************
+ * 8. Test driver.
+ *****************************************************************/
+#ifdef eslRANDOM_TESTDRIVE
+/* gcc -g -Wall -o esl_random_utest -L. -I. -DeslRANDOM_TESTDRIVE esl_random.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_dirichlet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",               0},
+  {"-b",  eslARG_INT,      "20", NULL, "n>0",NULL, NULL, NULL, "number of test bins",               0},
+  {"-n",  eslARG_INT, "1000000", NULL, "n>0",NULL, NULL, NULL, "number of samples",                 0},
+  {"-s",  eslARG_INT,      "42", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",     0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose output",               0},
+  {"--mtbits",eslARG_STRING,NULL,NULL, NULL, NULL, NULL, NULL, "save MT bit file for NIST benchmark",0},
+  {"--kbits", eslARG_STRING,NULL,NULL, NULL, NULL, NULL, NULL, "save Knuth bit file for NIST benchmark",0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for random module";
+
+static int save_bitfile(char *bitfile, ESL_RANDOMNESS *r, int n);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go         = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r1         = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_RANDOMNESS *r2         = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  char           *mtbitfile  = esl_opt_GetString (go, "--mtbits");
+  char           *kbitfile   = esl_opt_GetString (go, "--kbits");
+  int             nbins      = esl_opt_GetInteger(go, "-b");
+  int             n          = esl_opt_GetInteger(go, "-n");
+  int             be_verbose = esl_opt_GetBoolean(go, "-v");
+
+  utest_random(r1, n, nbins, be_verbose);
+  utest_choose(r1, n, nbins, be_verbose);
+  utest_random(r2, n, nbins, be_verbose);
+  utest_choose(r2, n, nbins, be_verbose);
+
+  if (mtbitfile) save_bitfile(mtbitfile, r1, n);
+  if (kbitfile)  save_bitfile(kbitfile,  r2, n);
+
+  esl_randomness_Destroy(r1);
+  esl_randomness_Destroy(r2);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+static int
+save_bitfile(char *bitfile, ESL_RANDOMNESS *r, int n)
+{
+  FILE *fp = NULL;
+  int b,i;
+  long x;
+
+  /* Open the file. 
+   */
+  if ((fp = fopen(bitfile, "w")) == NULL) 
+    esl_fatal("failed to open %s for writing", bitfile);
+
+  /* Sample <n> random numbers, output 32n random bits to the file.
+   */
+  for (i = 0; i < n; i++)
+    {
+      x = (r->type == eslRND_FAST ? knuth(r) : mersenne_twister(r)); /* generate a 32 bit random variate by MT19937 */
+      for (b = 0; b < 32; b++) 
+	{
+	  if (x & 01) fprintf(fp, "1");
+	  else        fprintf(fp, "0");
+	  x >>= 1;
+	}
+      fprintf(fp, "\n");
+    }
+  fclose(fp);
+  return eslOK;
+}
+#endif /*eslRANDOM_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 9. Example.
+ *****************************************************************/
+#ifdef eslRANDOM_EXAMPLE
+/*::cexcerpt::random_example::begin::*/
+/* compile: gcc -g -Wall -I. -o esl_random_example -DeslRANDOM_EXAMPLE esl_random.c easel.c -lm
+ * run:     ./random_example 42
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+
+int 
+main(int argc, char **argv)
+{
+  long            seed = atoi(argv[1]);
+  ESL_RANDOMNESS *r    = esl_randomness_Create(seed); 
+  int             n    = 1076;
+
+  printf("RNG seed: %" PRIu32 "\n", esl_randomness_GetSeed(r));
+  printf("A sequence of %d pseudorandom numbers:\n", n);
+  while (n--)  printf("%f\n", esl_random(r));
+  
+  esl_randomness_Dump(stdout, r);
+  printf("%f\n", esl_random(r));
+
+  esl_randomness_Dump(stdout, r);
+  printf("%f\n", esl_random(r));
+
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::random_example::end::*/
+#endif /*eslRANDOM_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_random.c 887 2013-09-24 09:41:22Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_random.c $
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.h
new file mode 100755
index 0000000..6cc12d5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.h
@@ -0,0 +1,62 @@
+/* Easel's portable, threadsafe random number generator.
+ */
+#ifndef eslRANDOM_INCLUDED
+#define eslRANDOM_INCLUDED
+
+#define eslRND_FAST     0
+#define eslRND_MERSENNE 1
+
+typedef struct {
+  int      type;		/* eslRND_FAST | eslRND_MERSENNE               */
+  int      mti;			/* current position in mt[] table              */
+  uint32_t mt[624];		/* state of the Mersenne Twister               */
+  uint32_t x;			/* state of the Knuth generator                */
+  uint32_t seed;		/* seed used to init the RNG                   */
+} ESL_RANDOMNESS;
+
+/* esl_rnd_Roll(a) chooses a uniformly distributed integer
+ * in the range 0..a-1, given an initialized ESL_RANDOMNESS r.
+ */
+#define esl_rnd_Roll(r, a)    ((int) (esl_random(r) * (a)))
+
+/* 1. The ESL_RANDOMNESS object.
+ */
+extern ESL_RANDOMNESS *esl_randomness_Create(uint32_t seed);
+extern ESL_RANDOMNESS *esl_randomness_CreateFast(uint32_t seed);
+extern ESL_RANDOMNESS *esl_randomness_CreateTimeseeded(void); /* DEPRECATED */
+extern void            esl_randomness_Destroy(ESL_RANDOMNESS *r);
+extern int             esl_randomness_Init(ESL_RANDOMNESS *r, uint32_t seed);
+extern uint32_t        esl_randomness_GetSeed(const ESL_RANDOMNESS *r);
+
+/* 2. The generator, esl_random().
+ */
+extern double esl_random(ESL_RANDOMNESS *r);
+
+/* 3. Debugging/development tools.
+ */
+extern int esl_randomness_Dump(FILE *fp, ESL_RANDOMNESS *r);
+
+/* 4. Other fundamental sampling (including Gaussian, gamma).
+ */
+extern double esl_rnd_UniformPositive(ESL_RANDOMNESS *r);
+extern double esl_rnd_Gaussian(ESL_RANDOMNESS *r, double mean, double stddev);
+extern double esl_rnd_Gamma(ESL_RANDOMNESS *r, double a);
+
+/* 5. Multinomial sampling from discrete probability n-vectors.
+ */
+extern int    esl_rnd_DChoose   (ESL_RANDOMNESS *r, const double *p,   int N);
+extern int    esl_rnd_FChoose   (ESL_RANDOMNESS *r, const float  *p,   int N);
+extern int    esl_rnd_DChooseCDF(ESL_RANDOMNESS *r, const double *cdf, int N);
+extern int    esl_rnd_FChooseCDF(ESL_RANDOMNESS *r, const float  *cdf, int N);
+
+
+#endif /*eslRANDOM_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.tex
new file mode 100755
index 0000000..6b014bf
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_random.tex
@@ -0,0 +1,107 @@
+The \eslmod{random} module contains routines for generating uniformly
+distributed pseudorandom numbers and sampling random deviates from
+distributions. The heart of the module is the \ccode{esl\_random()}
+pseudorandom number generator.
+
+The \ccode{esl\_random()} random number generator is portable,
+reentrant, and threadsafe. It gives reproducible results on all
+platforms.
+
+The default \ccode{esl\_random()} generator implements the Mersenne
+Twister algorithm MT19937 \citep{Matsumoto98}. MT19937 has strong
+properties, including a period of $2^{19937}-1$ and equidistribution
+over $2^{32}$ values. The default Mersenne Twister should be suitable
+for all but a few speed-critical applications.
+
+Alternatively, a simple and classic linear congruential generator
+(LCG) can be chosen \citep{Knu-81a}. The LCG is much faster to
+initialize (about 20x) and somewhat faster to generate samples (about
+25\%), while still generating pseudorandom numbers suitable for most
+applications. Because of its initialization speed, the LCG is
+advantageous when a small number of reasonably random samples is
+needed in a speed-critical application. However, it has a relatively
+short period ($2^32$), making it entirely unsuitable for large
+simulations.
+
+Bit streams from \ccode{esl\_random()}'s two generators were tested
+against a National Institute of Standards and Technology statistical
+benchmark for random number generators \citep{NIST08}.  The default
+Mersenne Twister passes the benchmark suite as expected
+\citep{Matsumoto98}. The fast LCG passes most but not all of the NIST
+tests.
+
+\ccode{esl\_random()} returns a double-precision floating point sample
+on the interval $0.0 \leq x < 1$. 
+
+Table~\ref{tbl:random_api} lists the functions in the \eslmod{random}
+API. The module implements one object, \ccode{ESL\_RANDOMNESS}, which
+contains state information for the random number generator.  This
+makes random number generation reentrant and threadsafe. You can have
+more than one active generator and they will not interfere with each
+other. The object is meant to be opaque; you should not need to use
+its contents.  
+
+% Table generated by autodoc -t esl_random.c (so don't edit here, edit esl_random.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The \ccode{ESL\_RANDOMNESS} object.}\\
+\hyperlink{func:esl_randomness_Create()}{\ccode{esl\_randomness\_Create()}} & Create an RNG with a given seed.\\
+\hyperlink{func:esl_randomness_CreateFast()}{\ccode{esl\_randomness\_CreateFast()}}& Create a fast RNG with a given seed.\\
+\hyperlink{func:esl_randomness_Destroy()}{\ccode{esl\_randomness\_Destroy()}} & Free an RNG.            \\
+\hyperlink{func:esl_randomness_Init()}{\ccode{esl\_randomness\_Init()}} & Reinitialize an RNG.           \\
+\hyperlink{func:esl_randomness_GetSeed()}{\ccode{esl\_randomness\_GetSeed()}} & Returns the value of RNG's seed.\\
+\apisubhead{The generator, \ccode{esl\_random()}}\\
+\hyperlink{func:esl_random()}{\ccode{esl\_random()}} & Generate a uniform random deviate $0.0 <= x < 1.0$.
+\\
+\apisubhead{Other fundamental sampling (including Gaussian, gamma)}\\
+\hyperlink{func:esl_rnd_UniformPositive()}{\ccode{esl\_rnd\_UniformPositive()}} & Generate a uniform positive random deviate $0 < x < 1$.\\
+\hyperlink{func:esl_rnd_Gaussian()}{\ccode{esl\_rnd\_Gaussian()}} & Generate a Gaussian-distributed sample.\\
+\hyperlink{func:esl_rnd_Gamma()}{\ccode{esl\_rnd\_Gamma()}} & Returns a random deviate from a Gamma(a, 1) distribution.\\
+\apisubhead{Multinomial sampling from discrete probability n-vectors}\\
+\hyperlink{func:esl_rnd_DChoose()}{\ccode{esl\_rnd\_DChoose()}} & Return random choice from discrete multinomial distribution.
+\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{random} API.}
+\label{tbl:random_api}
+\end{table}
+
+\subsection{Example of using random}
+
+Figure~\ref{fig:random_example} shows a program that initializes the
+random number generator with a seed you provide on the command line,
+then samples 10 random numbers using \ccode{esl\_random()}.
+
+\begin{figure}
+\input{cexcerpts/random_example}
+\caption{An example of using the random number generator.}
+\label{fig:random_example}
+\end{figure}
+
+When a \ccode{ESL\_RANDOMNESS} object is created with
+\ccode{esl\_randomness\_Create()}, it needs to be given a \emph{seed},
+an integer $\geq 0$, which specifies the initial state of the
+generator. After a generator is seeded, it is typically never seeded
+again. A series of \ccode{esl\_random()} calls generates a
+pseudorandom number sequence from that starting point. If you create
+two \ccode{ESL\_RANDOMNESS} objects seeded identically, they are
+guaranteed to generate the same random number sequence on all
+platforms. This makes it possible to reproduce stochastic simulations.
+Thus, if you run the example multiple times, you get the same ten
+numbers, because the generator is always seeded with 42.
+
+Often one wants different runs to generate different random number
+sequences, which creates a chicken and the egg problem: how can we
+select a pseudorandom seed for the pseudorandom number generator?
+Calling \ccode{esl\_randomness\_Create(0)} (i.e., a seed argument of
+0) causes Easel to select an arbitrary seed. The arbitrary seed is
+constructed by a combination of the current time and (if available)
+the process id. Two different \ccode{ESL\_RANDOMNESS} objects created
+this way should (but are not guaranteed to) produce different
+pseudorandom number sequences.
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.c
new file mode 100755
index 0000000..3dfe7e9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.c
@@ -0,0 +1,2022 @@
+/* Generating, shuffling, and randomizing sequences.
+ * 
+ * Contents:
+ *   1. Generating simple random character strings.
+ *   2. Generating iid sequences.
+ *   3. Shuffling sequences. 
+ *   4. Randomizing sequences.
+ *   5. Generating iid sequences (digital mode).
+ *   6. Shuffling sequences (digital mode).
+ *   7. Randomizing sequences (digital mode).
+ *   8. Statistics drivers.
+ *   9. Unit tests.
+ *  10. Test driver.
+ *  11. Example.
+ *  12. Copyright and license information 
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+#include <math.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#ifdef eslAUGMENT_ALPHABET 
+#include "esl_alphabet.h"
+#endif
+
+/*****************************************************************
+ * 1. Generating simple random character strings.
+ *****************************************************************/
+
+/* Function:  esl_rsq_Sample()
+ * Synopsis:  Generate a random character string.
+ *
+ * Purpose:   Sample a random character string of length <L>, 
+ *            consisting of characters in the set defined by
+ *            an integer flag <allowed_chars>, using 
+ *            random number generator <rng>. Return the newly
+ *            allocated, NUL-terminated string in <*ret_s>.
+ *            
+ *            Allowed values of the flag <allowed_char_flag> mirror
+ *            the standard C99 character set functions in <ctype.h>:
+ *            
+ *            | <eslRSQ_SAMPLE_ALNUM>  |  isalnum()  |
+ *            | <eslRSQ_SAMPLE_ALPHA>  |  isalpha()  |
+ *            | <eslRSQ_SAMPLE_LOWER>  |  islower()  |
+ *            | <eslRSQ_SAMPLE_UPPER>  |  isupper()  |
+ *            | <eslRSQ_SAMPLE_DIGIT>  |  isdigit()  |
+ *            | <eslRSQ_SAMPLE_XDIGIT> |  isxdigit() |
+ *            | <eslRSQ_SAMPLE_CNTRL>  |  iscntrl()  |
+ *            | <eslRSQ_SAMPLE_GRAPH>  |  isgraph()  |
+ *            | <eslRSQ_SAMPLE_SPACE>  |  isspace()  |
+ *            | <eslRSQ_SAMPLE_BLANK>  |  isblank()  |
+ *            | <eslRSQ_SAMPLE_PRINT>  |  isprint()  |
+ *            | <eslRSQ_SAMPLE_PUNCT>  |  ispunct()  |
+ *
+ *            Note that with <eslRSQ_SAMPLE_CNTRL>, your string
+ *            may sample NUL control characters (<0>), in addition to
+ *            the string-terminating one at <(*ret_s)[L]>, so <strlen(*ret_s)>
+ *            may not equal <L> in this case.
+ *
+ * Args:      rng           - ESL_RANDOMNESS object, the random number generator
+ *            allowed_chars - allowed character set flag: eslRSQ_SAMPLE_*
+ *            L             - length of string to sample
+ *            ret_s         - RETURN: the newly allocated, NUL-terminated string
+ *
+ * Returns:   <eslOK> on success; <*ret_s> is the sampled string, which was
+ *            newly allocated here, and caller becomes responsible for free'ing.
+ *
+ * Throws:    <eslEMEM> on allocation error; <eslEINVAL> if caller 
+ *            passes an invalid value of <allowed_chars>. Now <*ret_s> 
+ *            is <NULL>.
+ */
+int
+esl_rsq_Sample(ESL_RANDOMNESS *rng, int allowed_chars, int L, char **ret_s)
+{
+  char *s = NULL;
+  int   n = 0;
+  char  c[127];
+  int   x,i;
+  int   status;
+
+  /* We can't portably make assumptions about char codes (EBCDIC,
+   * ASCII...); and we don't want to write a bunch of fiddly overhead
+   * initializing static tables. So, quickly and portably build an
+   * array c[0..n-1] of characters we will sample uniformly from.
+   * RNG sampling is fairly compute-intensive anyway, so this time
+   * should disappear in the noise of that.
+   */
+  switch (allowed_chars) {
+  case eslRSQ_SAMPLE_ALNUM:  for (x = 0; x < 128; x++) if (isalnum(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_ALPHA:  for (x = 0; x < 128; x++) if (isalpha(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_LOWER:  for (x = 0; x < 128; x++) if (islower(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_UPPER:  for (x = 0; x < 128; x++) if (isupper(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_DIGIT:  for (x = 0; x < 128; x++) if (isdigit(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_XDIGIT: for (x = 0; x < 128; x++) if (isxdigit(x)) c[n++] = x; break;
+  case eslRSQ_SAMPLE_CNTRL:  for (x = 0; x < 128; x++) if (iscntrl(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_GRAPH:  for (x = 0; x < 128; x++) if (isgraph(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_SPACE:  for (x = 0; x < 128; x++) if (isspace(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_BLANK:  for (x = 0; x < 128; x++) if (isblank(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_PRINT:  for (x = 0; x < 128; x++) if (isprint(x))  c[n++] = x; break;
+  case eslRSQ_SAMPLE_PUNCT:  for (x = 0; x < 128; x++) if (ispunct(x))  c[n++] = x; break;
+  default: ESL_XEXCEPTION(eslEINVAL, "bad flag; wanted something like eslRSQ_SAMPLE_ALPHA");
+  }
+
+  ESL_ALLOC(s, sizeof(char) * (L+1)); /* +\0 */
+  for (i = 0; i < L; i++)
+    s[i] = c[ esl_rnd_Roll(rng, n) ];
+  s[L] = '\0';
+  
+  *ret_s = s;
+  return eslOK;
+
+ ERROR:
+  *ret_s = NULL;
+  return status;
+}
+
+
+/*****************************************************************
+ *# 1. Generating iid sequences.
+ *****************************************************************/ 
+
+/* Function: esl_rsq_IID()
+ * Synopsis: Generate an iid random text sequence.
+ * Incept:   SRE, Thu Aug  5 09:03:03 2004 [St. Louis]
+ *
+ * Purpose:  Generate a <NUL>-terminated i.i.d. symbol string of length <L>,
+ *           $0..L-1$, and leave it in <s>. The symbol alphabet is given
+ *           as a string <alphabet> of <K> total symbols, and the iid
+ *           probability of each residue is given in <p>. The caller
+ *           must provide an <s> that is allocated for at least
+ *           <(L+1)*sizeof(char)>, room for <L> residues and the <NUL> terminator.
+ *           
+ *           <esl_rsq_fIID()> does the same, but for a floating point
+ *           probability vector <p>, rather than a double precision
+ *           vector.
+ *
+ * Args:     r         - ESL_RANDOMNESS object
+ *           alphabet  - e.g. "ACGT"
+ *           p         - probability distribution [0..n-1]
+ *           K         - number of symbols in alphabet
+ *           L         - length of generated sequence
+ *           s         - the generated sequence.
+ *                       Caller allocated, >= (L+1) * sizeof(char).
+ *            
+ * Return:   <eslOK> on success.
+ */
+int
+esl_rsq_IID(ESL_RANDOMNESS *r, const char *alphabet, const double *p, int K, int L, char *s)
+{
+  int   x;
+
+  for (x = 0; x < L; x++)
+    s[x] = alphabet[esl_rnd_DChoose(r,p,K)];
+  s[x] = '\0';
+  return eslOK;
+}
+int
+esl_rsq_fIID(ESL_RANDOMNESS *r, const char *alphabet, const float *p, int K, int L, char *s)
+{
+  int   x;
+
+  for (x = 0; x < L; x++)
+    s[x] = alphabet[esl_rnd_FChoose(r,p,K)];
+  s[x] = '\0';
+  return eslOK;
+}
+/*------------ end, generating iid sequences --------------------*/
+
+
+/*****************************************************************
+ *# 2. Shuffling sequences.
+ *****************************************************************/
+
+/* Function:  esl_rsq_CShuffle()
+ * Synopsis:  Shuffle a text sequence.
+ * Incept:    SRE, Fri Feb 23 08:17:50 2007 [Casa de Gatos]
+ *
+ * Purpose:   Returns a shuffled version of <s> in <shuffled>, given
+ *            a source of randomness <r>.
+ *            
+ *            Caller provides allocated storage for <shuffled>, for at
+ *            least the same length as <s>.
+ *
+ *            <shuffled> may also point to the same storage as <s>,
+ *            in which case <s> is shuffled in place.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_rsq_CShuffle(ESL_RANDOMNESS *r, const char  *s, char *shuffled)
+{
+  int  L, i;
+  char c;
+
+  L = strlen(s);
+  if (shuffled != s) strcpy(shuffled, s);
+  while (L > 1) {
+    i             = esl_rnd_Roll(r, L);
+    c             = shuffled[i];
+    shuffled[i]   = shuffled[L-1];
+    shuffled[L-1] = c;
+    L--;
+  }
+  return eslOK;
+}
+
+/* Function:  esl_rsq_CShuffleDP()
+ * Synopsis:  Shuffle a text sequence, preserving diresidue composition.
+ * Incept:    SRE, Fri Feb 23 08:56:03 2007 [Casa de Gatos]
+ *
+ * Purpose:   Given string <s>, and a source of randomness <r>,
+ *            returns shuffled version in <shuffled>. The shuffle
+ *            is a "doublet-preserving" (DP) shuffle which
+ *            shuffles a sequence while exactly preserving both mono-
+ *            and di-symbol composition. 
+ *            
+ *            <s> may only consist of alphabetic characters [a-zA-Z].
+ *            The shuffle is done case-insensitively. The shuffled
+ *            string result is all upper case.
+ *
+ *            Caller provides storage in <shuffled> of at least the
+ *            same length as <s>.
+ *            
+ *            <shuffled> may also point to the same storage as <s>,
+ *            in which case <s> is shuffled in place.
+ *            
+ *            The algorithm does an internal allocation of a
+ *            substantial amount of temporary storage, on the order of
+ *            <26 * strlen(s)>, so an allocation failure is possible
+ *            if <s> is long enough.
+ *
+ *            The algorithm is a search for a random Eulerian walk on
+ *            a directed multigraph \citep{AltschulErickson85}.
+ *            
+ *            If <s> is of length 2 or less, this is a no-op, and
+ *            <shuffled> is a copy of <s>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <s> contains nonalphabetic characters.
+ *            <eslEMEM> on allocation failure.
+ */
+int
+esl_rsq_CShuffleDP(ESL_RANDOMNESS *r, const char *s, char *shuffled)
+{
+  int    status;          /* Easel return status code */
+  int    len;	          /* length of s */
+  int    pos;	          /* a position in s or shuffled */
+  int    x,y;             /* indices of two characters */
+  char **E  = NULL;       /* edge lists: E[0] is the edge list from vertex A */
+  int   *nE = NULL;       /* lengths of edge lists */
+  int   *iE = NULL;       /* positions in edge lists */
+  int    n;	          /* tmp: remaining length of an edge list to be shuffled */
+  char   sf;              /* last character in shuffled */
+  char   Z[26];           /* connectivity in last edge graph Z */ 
+  int    keep_connecting; /* flag used in Z connectivity algorithm */
+  int    is_eulerian;	  /* flag used for when we've got a good Z */
+  
+  /* First, verify that the string is entirely alphabetic. */
+  len = strlen(s);
+  for (pos = 0; pos < len; pos++)
+    if (! isalpha((int) s[pos]))
+      ESL_EXCEPTION(eslEINVAL, "String contains nonalphabetic characters");
+
+  /* The edge case of len <= 2 */
+  if (len <= 2)
+    {
+      if (s != shuffled) strcpy(shuffled, s);
+      return eslOK;
+    }
+
+  /* Allocations. */
+  ESL_ALLOC(E,  sizeof(char *) * 26);   for (x = 0; x < 26; x++) E[x] = NULL;
+  ESL_ALLOC(nE, sizeof(int)    * 26);   for (x = 0; x < 26; x++) nE[x] = 0;
+  ESL_ALLOC(iE, sizeof(int)    * 26);   for (x = 0; x < 26; x++) iE[x] = 0; 
+  for (x = 0; x < 26; x++) 
+    ESL_ALLOC(E[x], sizeof(char) * (len-1));
+
+  /* "(1) Construct the doublet graph G and edge ordering E
+   *      corresponding to S."
+   * 
+   * Note that these also imply the graph G; and note,
+   * for any list x with nE[x] = 0, vertex x is not part
+   * of G.
+   */
+  x = toupper((int) s[0]) - 'A';
+  for (pos = 1; pos < len; pos++)
+    {
+      y = toupper((int) s[pos]) - 'A';
+      E[x][nE[x]] = y;
+      nE[x]++;
+      x = y;
+    }
+  
+  /* Now we have to find a random Eulerian edge ordering. */
+  sf = toupper((int) s[len-1]) - 'A'; 
+  is_eulerian = 0;
+  while (! is_eulerian)
+    {
+      /* "(2) For each vertex s in G except s_f, randomly select
+       *      one edge from the s edge list of E(S) to be the
+       *      last edge of the s list in a new edge ordering."
+       *
+       * select random edges and move them to the end of each 
+       * edge list.
+       */
+      for (x = 0; x < 26; x++)
+	{
+	  if (nE[x] == 0 || x == sf) continue;
+	  pos           = esl_rnd_Roll(r, nE[x]);
+	  ESL_SWAP(E[x][pos], E[x][nE[x]-1], char);
+	}
+
+      /* "(3) From this last set of edges, construct the last-edge
+       *      graph Z and determine whether or not all of its
+       *      vertices are connected to s_f."
+       * 
+       * a probably stupid algorithm for looking at the
+       * connectivity in Z: iteratively sweep through the
+       * edges in Z, and build up an array (confusing called Z[x])
+       * whose elements are 1 if x is connected to sf, else 0.
+       */
+      for (x = 0; x < 26; x++) Z[x] = 0;
+      Z[(int) sf] = keep_connecting = 1;
+
+      while (keep_connecting) {
+	keep_connecting = 0;
+	for (x = 0; x < 26; x++) {
+	  if (nE[x] == 0) continue;
+	  y = E[x][nE[x]-1];            /* xy is an edge in Z */
+	  if (Z[x] == 0 && Z[y] == 1) {  /* x is connected to sf in Z */
+	    Z[x] = 1;
+	    keep_connecting = 1;
+	  }
+	}
+      }
+
+      /* if any vertex in Z is tagged with a 0, it's
+       * not connected to sf, and we won't have a Eulerian
+       * walk.
+       */
+      is_eulerian = 1;
+      for (x = 0; x < 26; x++) {
+	if (nE[x] == 0 || x == sf) continue;
+	if (Z[x] == 0) {
+	  is_eulerian = 0;
+	  break;
+	}
+      }
+
+      /* "(4) If any vertex is not connected in Z to s_f, the
+       *      new edge ordering will not be Eulerian, so return to
+       *      (2). If all vertices are connected in Z to s_f, 
+       *      the new edge ordering will be Eulerian, so
+       *      continue to (5)."
+       *      
+       * e.g. note infinite loop while is_eulerian is FALSE.
+       */
+    }
+
+  /* "(5) For each vertex s in G, randomly permute the remaining
+   *      edges of the s edge list of E(S) to generate the s
+   *      edge list of the new edge ordering E(S')."
+   *      
+   * Essentially a StrShuffle() on the remaining nE[x]-1 elements
+   * of each edge list; unfortunately our edge lists are arrays,
+   * not strings, so we can't just call out to StrShuffle().
+   */
+  for (x = 0; x < 26; x++)
+    for (n = nE[x] - 1; n > 1; n--)
+      {
+	pos       = esl_rnd_Roll(r, n);
+	ESL_SWAP(E[x][pos], E[x][n-1], char);
+      }
+
+  /* "(6) Construct sequence S', a random DP permutation of
+   *      S, from E(S') as follows. Start at the s_1 edge list.
+   *      At each s_i edge list, add s_i to S', delete the
+   *      first edge s_i,s_j of the edge list, and move to
+   *      the s_j edge list. Continue this process until
+   *      all edge lists are exhausted."
+   */ 
+  pos = 0; 
+  x = toupper((int) s[0]) - 'A';
+  while (1) 
+    {
+      shuffled[pos++] = 'A'+ x; /* add s_i to S' */
+      
+      y = E[x][iE[x]];
+      iE[x]++;			/* "delete" s_i,s_j from edge list */
+  
+      x = y;			/* move to s_j edge list. */
+
+      if (iE[x] == nE[x])
+	break;			/* the edge list is exhausted. */
+    }
+  shuffled[pos++] = 'A' + sf;
+  shuffled[pos]   = '\0';  
+
+  /* Reality checks.
+   */
+  if (x   != sf)  ESL_XEXCEPTION(eslEINCONCEIVABLE, "hey, you didn't end on s_f.");
+  if (pos != len) ESL_XEXCEPTION(eslEINCONCEIVABLE, "hey, pos (%d) != len (%d).", pos, len);
+  
+  /* Free and return.
+   */
+  esl_Free2D((void **) E, 26);
+  free(nE);
+  free(iE);
+  return eslOK;
+
+ ERROR:
+  esl_Free2D((void **) E, 26);
+  if (nE != NULL) free(nE);
+  if (iE != NULL) free(iE);
+  return status;
+}
+
+
+/* Function:  esl_rsq_CShuffleKmers()
+ * Synopsis:  Shuffle k-mers in a text sequence.
+ * Incept:    SRE, Tue Nov 17 16:55:57 2009 [NHGRI retreat, Gettysburg]
+ *
+ * Purpose:   Consider a text sequence <s> as a string of nonoverlapping
+ *            k-mers of length <K>. Shuffle the k-mers, given a random
+ *            number generator <r>. Put the shuffled sequence in
+ *            <shuffled>.
+ *            
+ *            If the length of <s> is not evenly divisible by <K>, the
+ *            remaining residues are left (unshuffled) as a prefix to
+ *            the shuffled k-mers.
+ *            
+ *            For example, shuffling ABCDEFGHIJK as k=3-mers might
+ *            result in ABFIJKFGHCDE.
+ *            
+ *            Caller provides allocated storage for <shuffled>,
+ *            for at least the same length as <s>. 
+ *            
+ *            <shuffled> may also point to the same storage as <s>,
+ *            in which case <s> is shuffled in place.
+ *            
+ *            There is almost no formally justifiable reason why you'd
+ *            use this shuffle -- it's not like it preserves any
+ *            particularly well-defined statistical properties of the
+ *            sequence -- but it's a quick and dirty way to sort of
+ *            maybe possibly preserve some higher-than-monomer
+ *            statistics.
+ *
+ * Args:      r        - an <ESL_RANDOMNESS> random generator
+ *            s        - sequence to shuffle
+ *            K        - size of k-mers to break <s> into
+ *            shuffled - RESULT: the shuffled sequence
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_rsq_CShuffleKmers(ESL_RANDOMNESS *r, const char *s, int K, char *shuffled)
+{
+  int   L = strlen(s);
+  int   W = L / K;		/* number of kmers "words" excluding leftover prefix */
+  int   P = L % K;		/* leftover residues in prefix */
+  int   i;
+  char *swap = NULL;
+  int   status;
+
+  if (shuffled != s) strcpy(shuffled, s);
+  ESL_ALLOC(swap, sizeof(char) * K);
+  while (W > 1) 
+    {	/* use memmove, not strncpy or memcpy, because i==W-1 creates an overlap case */
+      i = esl_rnd_Roll(r, W);	                                                 /* pick a word          */
+      memmove(swap,                   shuffled + P + i*K,     K * sizeof(char)); /* copy it to tmp space */
+      memmove(shuffled + P + i*K,     shuffled + P + (W-1)*K, K * sizeof(char)); /* move word W-1 to i   */
+      memmove(shuffled + P + (W-1)*K, swap,                   K * sizeof(char)); /* move word i to W-1   */
+      W--;
+    }
+  free(swap);
+  return eslOK;
+
+ ERROR:
+  free(swap);
+  return status;
+}
+
+
+/* Function:  esl_rsq_CReverse()
+ * Synopsis:  Reverse a string.
+ * Incept:    SRE, Sat Feb 24 10:06:34 2007 [Casa de Gatos]
+ *
+ * Purpose:   Returns a reversed version of <s> in <rev>. 
+ * 
+ *            There are no restrictions on the symbols that <s>
+ *            might contain.
+ * 
+ *            Caller provides storage in <rev> for at least
+ *            <(strlen(s)+1)*sizeof(char)>.
+ *            
+ *            <s> and <rev> can point to the same storage, in which
+ *            case <s> is reversed in place.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_rsq_CReverse(const char *s, char *rev)
+{
+  int  L, i;
+  char c;
+  
+  L = strlen(s);
+  for (i = 0; i < L/2; i++)
+    {				/* swap ends */
+      c          = s[L-i-1];
+      rev[L-i-1] = s[i];
+      rev[i]     = c;
+    }
+  if (L%2) { rev[i] = s[i]; } /* don't forget middle residue in odd-length s */
+  rev[L] = '\0';
+  return eslOK;
+}
+
+/* Function: esl_rsq_CShuffleWindows()
+ * Synopsis: Shuffle local windows of a text string.
+ * Incept:   SRE, Sat Feb 24 10:17:59 2007 [Casa de Gatos]
+ * 
+ * Purpose:  Given string <s>, shuffle residues in nonoverlapping
+ *           windows of width <w>, and put the result in <shuffled>.
+ *           See [Pearson88].
+ *
+ *           <s> and <shuffled> can be identical to shuffle in place.
+ * 
+ *           Caller provides storage in <shuffled> for at least
+ *           <(strlen(s)+1)*sizeof(char)>.
+ *
+ * Args:     s        - string to shuffle in windows
+ *           w        - window size (typically 10 or 20)      
+ *           shuffled - allocated space for window-shuffled result.
+ *           
+ * Return:   <eslOK> on success.
+ */
+int
+esl_rsq_CShuffleWindows(ESL_RANDOMNESS *r, const char *s, int w, char *shuffled)
+{
+  int  L;
+  char c;
+  int  i, j, k;
+
+  L = strlen(s);
+  if (shuffled != s) strcpy(shuffled, s);
+  for (i = 0; i < L; i += w)
+    for (j = ESL_MIN(L-1, i+w-1); j > i; j--)
+      {
+	k             = i + esl_rnd_Roll(r, j-i);
+	c             = shuffled[k];  /* semantics of a j,k swap, because we might be shuffling in-place */
+	shuffled[k]   = shuffled[j];
+	shuffled[j]   = c;
+      }
+  return eslOK;
+}
+/*------------------ end, shuffling sequences -------------------*/
+
+
+
+/*****************************************************************
+ *# 3. Randomizing sequences
+ *****************************************************************/
+
+/* Function:  esl_rsq_CMarkov0()
+ * Synopsis:  Generate new text string of same 0th order Markov properties.
+ * Incept:    SRE, Sat Feb 24 08:47:43 2007 [Casa de Gatos]
+ *
+ * Purpose:   Makes a random string <markoved> with the same length and
+ *            0-th order Markov properties as <s>, given randomness
+ *            source <r>.
+ *            
+ *            <s> and <markoved> can be point to the same storage, in which
+ *            case <s> is randomized in place, destroying the original
+ *            string.
+ *            
+ *            <s> must consist only of alphabetic characters [a-zA-Z].
+ *            Statistics are collected case-insensitively over 26 possible
+ *            residues. The random string is generated all upper case.
+ *
+ * Args:      s         - input string
+ *            markoved  - randomly generated string 
+ *                        (storage allocated by caller, at least strlen(s)+1)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <s> contains nonalphabetic characters.
+ */
+int 
+esl_rsq_CMarkov0(ESL_RANDOMNESS *r, const char *s, char *markoved)
+{
+  int    L;
+  int    i; 
+  double p[26];		/* initially counts, then probabilities */
+  int    x;
+
+  /* First, verify that the string is entirely alphabetic. */
+  L = strlen(s);
+  for (i = 0; i < L; i++)
+    if (! isalpha((int) s[i])) 
+      ESL_EXCEPTION(eslEINVAL, "String contains nonalphabetic characters");
+
+  /* Collect zeroth order counts and convert to frequencies. 
+   */
+  for (x = 0; x < 26; x++) p[x] = 0.;
+  for (i = 0; i < L; i++)
+    p[(int)(toupper((int) s[i]) - 'A')] += 1.0;
+  if (L > 0)
+    for (x = 0; x < 26; x++) p[x] /= (double) L;
+
+  /* Generate a random string using those p's. */
+  for (i = 0; i < L; i++)
+    markoved[i] = esl_rnd_DChoose(r, p, 26) + 'A';
+  markoved[i] = '\0';
+
+  return eslOK;
+}
+
+/* Function:  esl_rsq_CMarkov1()
+ * Synopsis:  Generate new text string of same 1st order Markov properties.
+ * Incept:    SRE, Sat Feb 24 09:21:46 2007 [Casa de Gatos]
+ *
+ * Purpose:   Makes a random string <markoved> with the same length and
+ *            1st order (di-residue) Markov properties as <s>, given
+ *            randomness source <r>.
+ *            
+ *            <s> and <markoved> can be point to the same storage, in which
+ *            case <s> is randomized in place, destroying the original
+ *            string.
+ *            
+ *            <s> must consist only of alphabetic characters [a-zA-Z].
+ *            Statistics are collected case-insensitively over 26 possible
+ *            residues. The random string is generated all upper case.
+ *            
+ *            If <s> is of length 2 or less, this is a no-op, and
+ *            <markoved> is a copy of <s>.
+ *
+ * Args:      s         - input string
+ *            markoved  - new randomly generated string 
+ *                        (storage allocated by caller, at least strlen(s)+1)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <s> contains nonalphabetic characters.
+ */
+int 
+esl_rsq_CMarkov1(ESL_RANDOMNESS *r, const char *s, char *markoved) 
+{
+  int    L;
+  int    i; 
+  int    x,y;
+  int    i0;			/* initial symbol */
+  double p[26][26];		/* conditional probabilities p[x][y] = P(y | x) */
+  double p0[26];		/* marginal probabilities P(x), just for initial residue. */
+
+  /* First, verify that the string is entirely alphabetic. */
+  L = strlen(s);
+  for (i = 0; i < L; i++)
+    if (! isalpha((int) s[i])) 
+     ESL_EXCEPTION(eslEINVAL, "String contains nonalphabetic characters");
+
+  /* The edge case of len <= 2 */
+  if (L <= 2)
+    {
+      if (s != markoved) strcpy(markoved, s);
+      return eslOK;
+    }
+
+  /* Collect first order counts and convert to frequencies. */
+  for (x = 0; x < 26; x++) 
+    for (y = 0; y < 26; y++) 
+      p[x][y] = 0.;
+
+  i0 = x = toupper((int) s[0]) - 'A';
+  for (i = 1; i < L; i++) 
+    {
+      y = toupper((int) s[i]) - 'A';
+      p[x][y] += 1.0;
+      x = y;
+    }
+  p[x][i0] += 1.0; 		/* "circularized": avoids a bug; see markov1_bug utest */
+
+  for (x = 0; x < 26; x++) 
+    {
+      p0[x] = 0.;
+      for (y = 0; y < 26; y++)
+	p0[x] += p[x][y];	/* now p0[x] = marginal counts of x, inclusive of 1st residue */
+
+      for (y = 0; y < 26; y++) 
+	p[x][y] = (p0[x] > 0. ? p[x][y] / p0[x] : 0.); /* now p[x][y] = P(y | x) */
+      
+      p0[x] /= (double) L;	/* now p0[x] = marginal P(x) */
+    }
+
+  /* Generate a random string using those p's. */
+  x = esl_rnd_DChoose(r, p0, 26);
+  markoved[0] = x + 'A';
+  for (i = 1; i < L; i++)
+    {
+      y           = esl_rnd_DChoose(r, p[x], 26);
+      markoved[i] = y + 'A';
+      x           = y;
+    } 
+  markoved[L] = '\0';
+
+  return eslOK;
+}
+/*----------------- end, randomizing sequences ------------------*/
+
+
+
+/*****************************************************************
+ *# 4. Generating iid sequences (digital mode).
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function: esl_rsq_xIID()
+ * Synopsis: Generate an iid random digital sequence.
+ * Incept:   SRE, Sat Feb 17 16:39:01 2007 [Casa de Gatos]
+ *
+ * Purpose:  Generate an i.i.d. digital sequence of length <L> (1..L) and
+ *           leave it in <dsq>. The i.i.d. probability of each residue is
+ *           given in the probability vector <p>, and the number of
+ *           possible residues (the alphabet size) is given by <K>.
+ *           (Only the alphabet size <K> is needed here, as opposed to
+ *           a digital <ESL_ALPHABET>, but the caller presumably
+ *           has a digital alphabet.) The caller must provide a <dsq>
+ *           allocated for at least <L+2> residues of type <ESL_DSQ>,
+ *           room for <L> residues and leading/trailing digital sentinel bytes.
+ *           
+ *           <esl_rsq_xfIID()> does the same, but for a
+ *           single-precision float vector <p> rather than a
+ *           double-precision vector <p>.
+ *
+ * Args:     r         - ESL_RANDOMNESS object
+ *           p         - probability distribution [0..n-1]
+ *           K         - number of symbols in alphabet
+ *           L         - length of generated sequence
+ *           ret_s     - RETURN: the generated sequence. 
+ *                       (Caller-allocated, >= (L+2)*ESL_DSQ)
+ *
+ * Return:   <eslOK> on success.
+ */
+int
+esl_rsq_xIID(ESL_RANDOMNESS *r, const double *p, int K, int L, ESL_DSQ *dsq)
+{
+  int   x;
+
+  dsq[0] = dsq[L+1] = eslDSQ_SENTINEL;
+  for (x = 1; x <= L; x++) 
+    dsq[x] = esl_rnd_DChoose(r,p,K);
+  return eslOK;
+}
+int
+esl_rsq_xfIID(ESL_RANDOMNESS *r, const float *p, int K, int L, ESL_DSQ *dsq)
+{
+  int   x;
+
+  dsq[0] = dsq[L+1] = eslDSQ_SENTINEL;
+  for (x = 1; x <= L; x++) 
+    dsq[x] = esl_rnd_FChoose(r,p,K);
+  return eslOK;
+}
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*--------------------- end, digital generation ---------------- */
+
+
+
+/*****************************************************************
+ *# 5. Shuffling sequences (digital mode)
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_rsq_XShuffle()
+ * Synopsis:  Shuffle a digital sequence.
+ * Incept:    SRE, Fri Feb 23 08:24:20 2007 [Casa de Gatos]
+ *
+ * Purpose:   Given a digital sequence <dsq> of length <L> residues,
+ *            shuffle it, and leave the shuffled version in <shuffled>.
+ *            
+ *            Caller provides allocated storage for <shuffled> for at
+ *            least the same length as <dsq>. 
+ * 
+ *            <shuffled> may also point to the same storage as <dsq>,
+ *            in which case <dsq> is shuffled in place.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_rsq_XShuffle(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, ESL_DSQ *shuffled)
+{
+  int     i;
+  ESL_DSQ x;
+
+  if (dsq != shuffled) esl_abc_dsqcpy(dsq, L, shuffled);
+  while (L > 1) {
+    i           = 1 + esl_rnd_Roll(r, L);
+    x           = shuffled[i];
+    shuffled[i] = shuffled[L];
+    shuffled[L] = x;
+    L--;
+  }
+  return eslOK;
+}
+
+/* Function:  esl_rsq_XShuffleDP()
+ * Synopsis:  Shuffle a digital sequence, preserving diresidue composition.
+ * Incept:    SRE, Fri Feb 23 09:23:47 2007 [Casa de Gatos]
+ *
+ * Purpose:   Same as <esl_rsq_CShuffleDP()>, except for a digital
+ *            sequence <dsq> of length <L>, encoded in a digital alphabet
+ *            of <K> residues. 
+ *            
+ *            <dsq> may only consist of residue codes <0..K-1>; if it
+ *            contains gaps, degeneracies, or missing data, pass the alphabet's
+ *            <Kp> size, not its canonical <K>.
+ *            
+ *            If <L> $\leq 2$, this is a no-op; <shuffled> is a copy of <dsq>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <s> contains digital residue codes
+ *            outside the range <0..K-1>.
+ *            <eslEMEM> on allocation failure.
+ */
+int
+esl_rsq_XShuffleDP(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *shuffled)
+{
+  int     status;           /* Easel return status code */
+  int     i;	            /* a position in dsq or shuffled */
+  ESL_DSQ x,y;              /* indices of two characters */
+  ESL_DSQ **E  = NULL;      /* edge lists: E[0] is the edge list from vertex A */
+  int     *nE  = NULL;      /* lengths of edge lists */
+  int     *iE  = NULL;      /* positions in edge lists */
+  int      n;	            /* tmp: remaining length of an edge list to be shuffled */
+  ESL_DSQ  sf;              /* last character in shuffled */
+  ESL_DSQ *Z;               /* connectivity in last edge graph Z */ 
+  int      keep_connecting; /* flag used in Z connectivity algorithm */
+  int      is_eulerian;	    /* flag used for when we've got a good Z */
+  
+  /* First, verify that we can deal with all the residues in dsq. */
+  for (i = 1; i <= L; i++)
+    if (dsq[i] >= K)
+      ESL_EXCEPTION(eslEINVAL, "dsq contains unexpected residue codes");
+
+  /* The edge case of L <= 2 */
+  if (L <= 2)
+    {
+      if (dsq != shuffled) memcpy(shuffled, dsq, sizeof(ESL_DSQ) * (L+2));
+      return eslOK;
+    }
+
+  /* Allocations. */
+  ESL_ALLOC(nE, sizeof(int)       * K);  for (x = 0; x < K; x++) nE[x] = 0;
+  ESL_ALLOC(E,  sizeof(ESL_DSQ *) * K);  for (x = 0; x < K; x++) E[x]  = NULL;
+  ESL_ALLOC(iE, sizeof(int)       * K);  for (x = 0; x < K; x++) iE[x] = 0; 
+  ESL_ALLOC(Z,  sizeof(ESL_DSQ)   * K);
+  for (x = 0; x < K; x++) 
+    ESL_ALLOC(E[x], sizeof(ESL_DSQ) * (L-1));
+
+  /* "(1) Construct the doublet graph G and edge ordering E... */
+  x = dsq[1];
+  for (i = 2; i <= L; i++) {
+    E[x][nE[x]] = dsq[i];
+    nE[x]++;
+    x = dsq[i];
+  }
+  
+  /* Now we have to find a random Eulerian edge ordering. */
+  sf = dsq[L];
+  is_eulerian = 0;
+  while (! is_eulerian)
+    {
+      for (x = 0; x < K; x++) {
+	if (nE[x] == 0 || x == sf) continue;
+	i           = esl_rnd_Roll(r, nE[x]);
+	ESL_SWAP(E[x][i], E[x][nE[x]-1], ESL_DSQ);
+      }
+
+      for (x = 0; x < K; x++) Z[x] = 0;
+      Z[(int) sf] = keep_connecting = 1;
+      while (keep_connecting) {
+	keep_connecting = 0;
+	for (x = 0; x < K; x++) {
+	  if (nE[x] == 0) continue;
+	  y = E[x][nE[x]-1];            /* xy is an edge in Z */
+	  if (Z[x] == 0 && Z[y] == 1) {  /* x is connected to sf in Z */
+	    Z[x] = 1;
+	    keep_connecting = 1;
+	  }
+	}
+      }
+
+      is_eulerian = 1;
+      for (x = 0; x < K; x++) {
+	if (nE[x] == 0 || x == sf) continue;
+	if (Z[x] == 0) {
+	  is_eulerian = 0;
+	  break;
+	}
+      }
+    }
+
+  /* "(5) For each vertex s in G, randomly permute... */
+  for (x = 0; x < K; x++)
+    for (n = nE[x] - 1; n > 1; n--)
+      {
+	i       = esl_rnd_Roll(r, n);
+	ESL_SWAP(E[x][i], E[x][n-1], ESL_DSQ);
+      }
+
+  /* "(6) Construct sequence S'... */
+  i = 1; 
+  x = dsq[1];
+  while (1) {
+    shuffled[i++] = x; 
+    y = E[x][iE[x]++];
+    x = y;			
+    if (iE[x] == nE[x]) break;
+  }
+  shuffled[i++] = sf;
+  shuffled[i]   = eslDSQ_SENTINEL;
+  shuffled[0]   = eslDSQ_SENTINEL;
+
+  /* Reality checks. */
+  if (x != sf)   ESL_XEXCEPTION(eslEINCONCEIVABLE, "hey, you didn't end on s_f.");
+  if (i != L+1)  ESL_XEXCEPTION(eslEINCONCEIVABLE, "hey, i (%d) overran L+1 (%d).", i, L+1);
+  
+  esl_Free2D((void **) E, K);
+  free(nE);
+  free(iE);
+  free(Z);
+  return eslOK;
+
+ ERROR:
+  esl_Free2D((void **) E, K);
+  if (nE != NULL) free(nE);
+  if (iE != NULL) free(iE);
+  if (Z  != NULL) free(Z);
+  return status;
+}
+
+
+/* Function:  esl_rsq_XShuffleKmers()
+ * Synopsis:  Shuffle k-mers in a digital sequence.
+ *
+ * Purpose:   Same as <esl_rsq_CShuffleKmers()>, but shuffle digital 
+ *            sequence <dsq> of length <L> into digital result <shuffled>.
+ *
+ * Args:      r        - an <ESL_RANDOMNESS> random generator
+ *            dsq      - sequence to shuffle
+ *            K        - size of k-mers to break <s> into
+ *            shuffled - RESULT: the shuffled sequence
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_rsq_XShuffleKmers(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *shuffled)
+{
+  int   W = L / K;		/* number of kmers "words" excluding leftover prefix */
+  int   P = L % K;		/* leftover residues in prefix */
+  int   i;
+  char *swap = NULL;
+  int   status;
+
+  if (shuffled != dsq) esl_abc_dsqcpy(dsq, L, shuffled);
+  ESL_ALLOC(swap, sizeof(char) * K);
+  while (W > 1) 
+    {				/* use memmove, not memcpy, because i==W-1 is an overlap case */
+      i = esl_rnd_Roll(r, W);	                                                 /* pick a word          */
+      memmove(swap,                   shuffled + P + i*K,     K * sizeof(char)); /* copy it to tmp space */
+      memmove(shuffled + P + i*K,     shuffled + P + (W-1)*K, K * sizeof(char)); /* move word W-1 to i   */
+      memmove(shuffled + P + (W-1)*K, swap,                   K * sizeof(char)); /* move word i to W-1   */
+      W--;
+    }
+  free(swap);
+  return eslOK;
+
+ ERROR:
+  free(swap);
+  return status;
+}
+
+
+/* Function:  esl_rsq_XReverse()
+ * Synopsis:  Reverse a digital sequence.
+ * Incept:    SRE, Sat Feb 24 10:13:30 2007 [Casa de Gatos]
+ *
+ * Purpose:   Given a digital sequence <dsq> of length <L>, return
+ *            reversed version of it in <rev>. 
+ * 
+ *            Caller provides storage in <rev> for at least
+ *            <(L+2)*sizeof(ESL_DSQ)>.
+ *            
+ *            <s> and <rev> can point to the same storage, in which
+ *            case <s> is reversed in place.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_rsq_XReverse(const ESL_DSQ *dsq, int L, ESL_DSQ *rev)
+{
+  int     i;
+  ESL_DSQ x;
+  
+  for (i = 1; i <= L/2; i++)
+    {				/* swap ends */
+      x          = dsq[L-i+1];
+      rev[L-i+1] = dsq[i];
+      rev[i]     = x;
+    }
+  if (L%2) { rev[i] = dsq[i]; } /* don't forget middle residue in odd-length dsq */
+  rev[0]   = eslDSQ_SENTINEL;
+  rev[L+1] = eslDSQ_SENTINEL;
+  return eslOK;
+}
+
+
+/* Function: esl_rsq_XShuffleWindows()
+ * Synopsis: Shuffle local windows of a digital sequence.
+ * Incept:   SRE, Sat Feb 24 10:51:31 2007 [Casa de Gatos]
+ * 
+ * Purpose:  Given a digital sequence <dsq> of length <L>, shuffle
+ *           residues in nonoverlapping windows of width <w>, and put
+ *           the result in <shuffled>.  See [Pearson88].
+ *
+ *           Caller provides storage in <shuffled> for at least
+ *           <(L+2)*sizeof(ESL_DSQ)>.
+ *           
+ *           <dsq> and <shuffled> can be identical to shuffle in place.
+ *
+ * Args:     dsq      - digital sequence to shuffle in windows
+ *           L        - length of <dsq>
+ *           w        - window size (typically 10 or 20)      
+ *           shuffled - allocated space for window-shuffled result.
+ *           
+ * Return:   <eslOK> on success.
+ */
+int
+esl_rsq_XShuffleWindows(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int w, ESL_DSQ *shuffled)
+{
+  ESL_DSQ x;
+  int  i, j, k;
+
+  if (dsq != shuffled) esl_abc_dsqcpy(dsq, L, shuffled);
+  for (i = 1; i <= L; i += w)
+    for (j = ESL_MIN(L, i+w-1); j > i; j--)
+      {
+	k           = i + esl_rnd_Roll(r, j-i+1);
+	x           = shuffled[k];  /* semantics of a j,k swap, because we might be shuffling in-place */
+	shuffled[k] = shuffled[j];
+	shuffled[j] = x;
+      }
+  return eslOK;
+}
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*------------------- end, digital shuffling  -------------------*/
+
+
+
+/*****************************************************************
+ *# 6. Randomizing sequences (digital mode)
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_rsq_XMarkov0()
+ * Synopsis:  Generate new digital sequence of same 0th order Markov properties.
+ * Incept:    SRE, Sat Feb 24 09:12:32 2007 [Casa de Gatos]
+ *
+ * Purpose:   Same as <esl_rsq_CMarkov0()>, except for a digital
+ *            sequence <dsq> of length <L>, encoded in a digital 
+ *            alphabet of <K> residues; caller provides storage
+ *            for the randomized sequence <markoved> for at least 
+ *            <L+2> <ESL_DSQ> residues, including the two flanking
+ *            sentinel bytes.
+ *            
+ *            <dsq> therefore may only consist of residue codes
+ *            in the range <0..K-1>. If it contains gaps,
+ *            degeneracies, or missing data, pass the alphabet's
+ *            <Kp> size, not its canonical <K>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <s> contains digital residue codes outside
+ *            the range <0..K-1>.
+ *            <eslEMEM> on allocation failure.
+ */
+int 
+esl_rsq_XMarkov0(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *markoved)
+{
+  int     status;
+  int     i; 
+  double *p = NULL;	/* initially counts, then probabilities */
+  int     x;
+
+  /* First, verify that the string is entirely alphabetic. */
+  for (i = 1; i <= L; i++)
+    if (dsq[i] >= K)
+      ESL_XEXCEPTION(eslEINVAL, "String contains unexpected residue codes");
+
+  ESL_ALLOC(p, sizeof(double) * K);
+  for (x = 0; x < K; x++) p[x] = 0.;
+
+  for (i = 1; i <= L; i++)
+    p[(int) dsq[i]] += 1.0;
+  if (L > 0)
+    for (x = 0; x < K; x++) p[x] /= (double) L;
+
+  for (i = 1; i <= L; i++)
+    markoved[i] = esl_rnd_DChoose(r, p, K);
+  markoved[0]   = eslDSQ_SENTINEL;
+  markoved[L+1] = eslDSQ_SENTINEL;
+
+  free(p);
+  return eslOK;
+
+ ERROR:
+  if (p != NULL) free(p);
+  return status;
+}
+
+
+
+/* Function:  esl_rsq_XMarkov1()
+ * Synopsis:  Generate new digital sequence of same 1st order Markov properties.
+ * Incept:    SRE, Sat Feb 24 09:46:09 2007 [Casa de Gatos]
+ *
+ * Purpose:   Same as <esl_rsq_CMarkov1()>, except for a digital
+ *            sequence <dsq> of length <L>, encoded in a digital 
+ *            alphabet of <K> residues. Caller provides storage
+ *            for the randomized sequence <markoved> for at least 
+ *            <L+2> <ESL_DSQ> residues, including the two flanking
+ *            sentinel bytes.
+ *            
+ *            <dsq> and <markoved> can be point to the same storage, in which
+ *            case <dsq> is randomized in place, destroying the original
+ *            string.
+ *            
+ *            <dsq> therefore may only consist of residue codes
+ *            in the range <0..K-1>. If it contains gaps,
+ *            degeneracies, or missing data, pass the alphabet's
+ *            <Kp> size, not its canonical <K>.
+ *
+ *            If <L> $\leq 2$, this is a no-op; <markoved> is a copy of <dsq>.
+ *            
+ * Args:      dsq       - input digital sequence 1..L
+ *            L         - length of dsq
+ *            K         - residue codes in dsq are in range 0..K-1
+ *            markoved  - new randomly generated digital sequence;
+ *                        storage allocated by caller, at least (L+2)*ESL_DSQ;
+ *                        may be same as dsq to randomize in place.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <s> contains digital residue codes outside
+ *            the range <0..K-1>.
+ *            <eslEMEM> on allocation failure.
+ */
+int 
+esl_rsq_XMarkov1(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *markoved) 
+{
+  int      status;
+  int      i; 
+  ESL_DSQ  x,y;
+  ESL_DSQ  i0;		/* initial symbol */
+  double **p;		/* conditional probabilities p[x][y] = P(y | x) */
+  double  *p0;		/* marginal probabilities P(x), just for initial residue. */
+
+  /* validate the input string */
+  for (i = 1; i <= L; i++)
+    if (dsq[i] >= K)
+      ESL_XEXCEPTION(eslEINVAL, "String contains unexpected residue codes");
+
+  /* The edge case of L <= 2 */
+  if (L <= 2)
+    {
+      if (dsq != markoved) memcpy(markoved, dsq, sizeof(ESL_DSQ) * (L+2));
+      return eslOK;
+    }
+
+  /* allocations */
+  ESL_ALLOC(p0, sizeof(double)   * K);  for (x = 0; x < K; x++) p0[x] = 0.;
+  ESL_ALLOC(p,  sizeof(double *) * K);  for (x = 0; x < K; x++) p[x]  = NULL;
+  for (x = 0; x < K; x++)
+    { ESL_ALLOC(p[x], sizeof(double) * K); for (y = 0; y < K; y++) p[x][y] = 0.; }
+  
+  /* Collect first order counts and convert to frequencies. */
+  i0 = x = dsq[1];
+  for (i = 2; i <= L; i++) 
+    {
+      y = dsq[i];
+      p[x][y] += 1.0;
+      x = y;
+    }
+  p[x][i0] += 1.0;	/* "circularized": avoids a bug; see markov1_bug utest */
+
+  for (x = 0; x < K; x++) 
+    {
+      p0[x] = 0.;
+      for (y = 0; y < K; y++)
+	p0[x] += p[x][y];	/* now p0[x] = marginal counts of x, inclusive of 1st residue */
+
+      for (y = 0; y < K; y++) 
+	p[x][y] = (p0[x] > 0. ? p[x][y] / p0[x] : 0.);	/* now p[x][y] = P(y | x) */
+      
+      p0[x] /= (double) L;	/* now p0[x] = marginal P(x) inclusive of 1st residue */
+    }
+
+  /* Generate a random string using those p's. */
+  markoved[1] = esl_rnd_DChoose(r, p0, K);
+  for (i = 2; i <= L; i++)
+    markoved[i] = esl_rnd_DChoose(r, p[markoved[i-1]], K);
+
+  markoved[0]   = eslDSQ_SENTINEL;
+  markoved[L+1] = eslDSQ_SENTINEL;
+
+  esl_Free2D((void**)p, K);
+  free(p0);
+  return eslOK;
+
+ ERROR:
+  esl_Free2D((void**)p, K);
+  if (p0 != NULL) free(p0);
+  return status;
+}
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*------------------ end, digital randomizing -------------------*/
+
+/*****************************************************************
+ * 7. Statistics driver.
+ *****************************************************************/ 
+
+/* This driver tests (and confirms) the intuition that using
+ * a DP shuffle on short sequences may be a bad idea; short sequences
+ * don't shuffle effectively.
+ * xref J3/20. 
+ */
+#ifdef eslRANDOMSEQ_STATS
+/* gcc -g -Wall -o randomseq_stats -L. -I. -DeslRANDOMSEQ_STATS esl_randomseq.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_distance.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stats.h"
+#include "esl_vectorops.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-d",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "diresidue shuffle",                                0 },
+  { "-R",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "reverse the sequence",                             0 },
+  { "-2",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "resample an independent sequence",                 0 },
+  { "-N",        eslARG_INT,  "10000",  NULL, NULL,  NULL,  NULL, NULL, "number of sampled sequences per length",           0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "--minL",    eslARG_INT,      "5",  NULL, NULL,  NULL,  NULL, NULL, "xaxis minimum L",                                  0 },
+  { "--maxL",    eslARG_INT,    "200",  NULL, NULL,  NULL,  NULL, NULL, "xaxis maximum L",                                  0 },
+  { "--stepL",   eslARG_INT,      "5",  NULL, NULL,  NULL,  NULL, NULL, "xaxis step size",                                  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "stats driver for randomseq module";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r        = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc      = esl_alphabet_Create(eslAMINO);
+  int             N        = esl_opt_GetInteger(go, "-N");
+  int             minL     = esl_opt_GetInteger(go, "--minL");
+  int             maxL     = esl_opt_GetInteger(go, "--maxL");
+  int             stepL    = esl_opt_GetInteger(go, "--stepL");
+  ESL_DSQ        *dsq1     = malloc(sizeof(ESL_DSQ) * (maxL+2));
+  ESL_DSQ        *dsq2     = malloc(sizeof(ESL_DSQ) * (maxL+2));
+  double         *fq       = malloc(sizeof(double) * abc->K);
+  double         *pid      = malloc(sizeof(double) * N);
+  double          mean, var;
+  int             L;
+  int             i;
+
+  esl_vec_DSet(fq, abc->K, 1.0 / (double) abc->K );
+
+  for (L = minL; L <= maxL; L += stepL)
+    {
+      for (i = 0; i < N; i++)
+	{
+	  esl_rsq_xIID(r, fq, abc->K, L, dsq1);
+
+	  if      (esl_opt_GetBoolean(go, "-d")) esl_rsq_XShuffleDP(r, dsq1, L, abc->K, dsq2);
+	  else if (esl_opt_GetBoolean(go, "-R")) esl_rsq_XReverse(dsq1, L, dsq2);
+	  else if (esl_opt_GetBoolean(go, "-2")) esl_rsq_xIID(r, fq, abc->K, L, dsq2);
+	  else                                   esl_rsq_XShuffle(r, dsq1, L, dsq2);
+
+	  esl_dst_XPairId(abc, dsq1, dsq2, &(pid[i]), NULL, NULL);
+	}
+      
+      esl_stats_DMean(pid, N, &mean, &var);
+      printf("%-6d %.4f %.4f\n", L, mean, sqrt(var));
+    }
+  printf("&\n");
+
+  free(pid);
+  free(fq);
+  free(dsq2);
+  free(dsq1);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslRANDOMSEQ_STATS*/
+/*-------------- end, statistics driver -------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 8. Unit tests.
+ *****************************************************************/ 
+#ifdef eslRANDOMSEQ_TESTDRIVE
+#include "esl_dirichlet.h"
+#include "esl_vectorops.h"
+
+/* count c(x) monoresidue and c(xy) diresidue composition
+ * used for sequence shuffling unit tests
+ * mono, di allocated by caller for 26 and 26x26, respectively.
+ */
+static int
+composition(char *s, int L, int *mono, int **di)
+{
+  int i, x, y;
+
+  for (x = 0; x < 26; x++) {
+    mono[x] = 0;
+    for (y = 0; y < 26; y++)
+      di[x][y] = 0;
+  }
+
+  for (i = 0; s[i] != '\0'; i++) { 
+    if (!isalpha(s[i])) esl_fatal("bad residue %d", i);
+    y = toupper(s[i]) - 'A';
+    mono[y]++;
+    if (i > 0) {
+      x = toupper(s[i-1] - 'A');
+      di[x][y]++;
+    }
+  }
+  if (i != L) esl_fatal("sequence length didn't match expected %d", L);
+  return eslOK;
+}
+
+/* same, but for digital seq., with alphabet size K */
+static int
+xcomposition(ESL_DSQ *dsq, int L, int K, int *mono, int **di)
+{
+  int i, x, y;
+
+  for (x = 0; x < K; x++) {
+    mono[x] = 0;
+    for (y = 0; y < K; y++)
+      di[x][y] = 0;
+  }
+
+  for (i = 1; dsq[i] != eslDSQ_SENTINEL; i++) { 
+    if (dsq[i] > K) esl_fatal("bad residue %d", i);
+    if (i > 1) di[(int) dsq[i-1]][(int) dsq[i]]++;
+    mono[(int) dsq[i]]++;
+  }
+  if (i != L+1) esl_fatal("sequence length didn't match expected %d", L);
+  return eslOK;
+}
+
+static int
+composition_allocate(int K, int **ret_mono, int ***ret_di)
+{
+  int  status;
+  int *mono = NULL;
+  int **di  = NULL;
+  int  x;
+
+  ESL_ALLOC(mono, sizeof(int)   * K);
+  ESL_ALLOC(di,   sizeof(int *) * K); for (x = 0; x < K; x++) di[x] = NULL;
+  for (x = 0; x < K; x++)
+    ESL_ALLOC(di[x], sizeof(int) * K);
+  *ret_mono = mono;
+  *ret_di   = di;
+  return eslOK;
+
+ ERROR:
+  esl_Free2D((void **) di, K);
+  if (mono != NULL) free(mono);
+  *ret_mono = NULL;
+  *ret_di   = NULL;
+  return status;
+}
+
+/* compare compositions before/after.
+ * either mono (m1,m2) or di (d1,d2) may be NULL, to compare only the other one */
+static int
+composition_compare(int *m1, int **di1, int *m2, int **di2, int K)
+{
+  int x,y;
+
+  for (x = 0; x < K; x++) {
+    if (m1 != NULL && m1[x] != m2[x]) return eslFAIL;
+    if (di1 != NULL) 
+      for (y = 0; y < K; y++) 
+	if (di1[x][y] != di2[x][y])   return eslFAIL;
+  }
+  return eslOK;
+}
+
+/* Unit tests for:
+ *     esl_rsq_CShuffle()
+ *     esl_rsq_CShuffleDP()
+ *     esl_rsq_CShuffleWindows()
+ *     esl_rsq_CReverse()
+ * 
+ * All of these exactly preserve residue composition, which is
+ * the basis of the unit tests.
+ */
+static void
+utest_CShufflers(ESL_RANDOMNESS *r, int L, char *alphabet, int K)
+{
+  char   *logmsg  = "Failure in one of the CShuffle* unit tests";
+  int     status;
+  char   *s   = NULL;
+  char   *s2  = NULL;
+  int    *m1  = NULL,
+         *m2  = NULL;	    /* mono, before and after */
+  int   **di1 = NULL,
+        **di2 = NULL;       /* di, before and after */
+  double  *p;		    
+  int      w = 12;   	    /* window width for CShuffleWindows() */
+
+  /* allocations */
+  ESL_ALLOC(s,   sizeof(char)   * (L+1));
+  ESL_ALLOC(s2,  sizeof(char)   * (L+1));
+  ESL_ALLOC(p,   sizeof(double) * K);
+  if (composition_allocate(26, &m1, &di1) != eslOK) esl_fatal(logmsg);
+  if (composition_allocate(26, &m2, &di2) != eslOK) esl_fatal(logmsg);
+
+  /* generate the string we'll start shuffling */
+  if (esl_dirichlet_DSampleUniform(r, K, p) != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_IID(r, alphabet, p, K, L, s)  != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_CShuffle: mono composition should stay exactly the same, di may change */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s,   L, m1, di1)                != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffle(r, s, s2)                  != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+
+  /* esl_rsq_CShuffle, in place */
+  strcpy(s, s2);
+  if (composition(s2, L, m1, di1)                 != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffle(r, s2, s2)                 != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+
+  /* esl_rsq_CShuffleDP: mono and di compositions stay exactly the same */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s, L, m1,  di1)                 != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffleDP(r, s, s2)                != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, di1, m2, di2, 26)   != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+
+  /* esl_rsq_CShuffleDP, in place */
+  strcpy(s, s2);
+  if (composition(s2, L, m1, di1)                 != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffleDP(r, s2, s2)               != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, di1, m2, di2, 26)   != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+  
+  /* esl_rsq_CShuffleKmers: mono composition stays the same */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s, L, m1,  di1)                 != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffleKmers(r, s, 3, s2)          != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+  
+  /* esl_rsq_CShuffleKmers, in place */
+  strcpy(s, s2);
+  if (composition(s2, L, m1, di1)                 != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffleKmers(r, s2, 3, s2)         != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+
+  /* esl_rsq_CShuffleWindows(): mono composition stays the same */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s,   L, m1, di1)                != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffleWindows(r, s, w, s2)        != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+  
+  /* esl_rsq_CShuffleWindows(), in place */
+  strcpy(s, s2);
+  if (composition(s2, L, m1, di1)                 != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CShuffleWindows(r, s2, w, s2)       != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+  
+  /* esl_rsq_CReverse(): two reverses (one in place) give the same seq back */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s,   L, m1, di1)                != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CReverse(s, s2)                     != eslOK) esl_fatal(logmsg);      
+  if (composition(s2, L, m2, di2)                 != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, 26) != eslOK) esl_fatal(logmsg);
+  if (strcmp(s2, s) == 0)                                   esl_fatal(logmsg); 
+  if (esl_rsq_CReverse(s2, s2)                    != eslOK) esl_fatal(logmsg);      
+  if (strcmp(s2, s) != 0)                                   esl_fatal(logmsg); 
+
+  free(s);
+  free(s2);
+  free(p);
+  free(m1);
+  free(m2);
+  esl_Free2D((void **) di1, 26);
+  esl_Free2D((void **) di2, 26);
+  return;
+  
+ ERROR:
+  esl_fatal(logmsg);
+}
+
+/* Unit tests for:
+ *    esl_rsq_CMarkov0()
+ *    esl_rsq_CMarkov1()
+ * 
+ * Testing these is less robust than the shufflers, because it's hard
+ * to concoct deterministic tests. Instead the test is a weak one,
+ * that zero probability events get zero counts.
+ */
+static void
+utest_CMarkovs(ESL_RANDOMNESS *r, int L, char *alphabet)
+{
+  char   *logmsg = "Failure in a CMarkov*() unit test";
+  int     status;
+  char   *s   = NULL;
+  char   *s2  = NULL;
+  float  *p   = NULL;
+  int     K;
+  int     pzero;		/* which 0..K-1 residue will have zero prob */
+  int     zeroidx;		/* index of pzero residue in 0..25 ASCII    */
+  int    *m1  = NULL,
+         *m2  = NULL;	    /* mono, before and after */
+  int   **di1 = NULL,
+        **di2 = NULL;       /* di, before and after */
+  int     i,x;
+
+  K = strlen(alphabet);
+  ESL_ALLOC(p,   sizeof(float)  * K);
+  ESL_ALLOC(s,   sizeof(char)   * (L+1));
+  ESL_ALLOC(s2,  sizeof(char)   * (L+1));
+  if (composition_allocate(26, &m1, &di1) != eslOK) esl_fatal(logmsg);
+  if (composition_allocate(26, &m2, &di2) != eslOK) esl_fatal(logmsg);
+
+  /* generate string with a random letter prob set to 0  */
+  pzero   = esl_rnd_Roll(r, K);
+  zeroidx = toupper(alphabet[pzero]) - 'A';
+  if (esl_dirichlet_FSampleUniform(r, K, p)  != eslOK) esl_fatal(logmsg);
+  p[pzero] = 0;
+  esl_vec_FNorm(p, K);
+  if (esl_rsq_fIID(r, alphabet, p, K, L, s)  != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_CMarkov0()  */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s,   L, m1, di1)  != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CMarkov0(r, s, s2)    != eslOK) esl_fatal(logmsg);
+  if (composition(s2, L, m2, di2)   != eslOK) esl_fatal(logmsg);  
+  if (m1[zeroidx]                   != 0)     esl_fatal(logmsg);  
+  if (m2[zeroidx]                   != 0)     esl_fatal(logmsg);  
+  if (strcmp(s2, s)                 == 0)     esl_fatal(logmsg);  
+  
+  /* esl_rsq_CMarkov0(), in place */
+  strcpy(s, s2);
+  if (esl_rsq_CMarkov0(r, s2, s2)   != eslOK) esl_fatal(logmsg);
+  if (composition(s2, L, m2, di2)   != eslOK) esl_fatal(logmsg);  
+  if (m2[zeroidx]                   != 0)     esl_fatal(logmsg);  
+  if (strcmp(s2, s)                 == 0)     esl_fatal(logmsg);  
+  
+  /* generate string with all homodiresidues set to 0 */
+  if (esl_dirichlet_FSampleUniform(r, K, p)  != eslOK) esl_fatal(logmsg);
+  do {
+    if (esl_rsq_fIID(r, alphabet, p, K, L, s)  != eslOK) esl_fatal(logmsg);  
+    for (i = 1; i < L; i++)
+      if (s[i] == s[i-1]) /* this incantation will rotate letter forward in alphabet: */
+	s[i] = alphabet[(1+strchr(alphabet,s[i])-alphabet)%K];
+  } while (s[0] == s[L-1]);	/* lazy: reject strings where circularization would count a homodimer */
+  
+  /* esl_rsq_CMarkov1()  */
+  memset(s2, 0, (L+1)*sizeof(char));
+  if (composition(s,   L, m1, di1)  != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_CMarkov1(r, s, s2)    != eslOK) esl_fatal(logmsg);
+  if (composition(s2, L, m2, di2)   != eslOK) esl_fatal(logmsg);  
+  for (x = 0; x < K; x++) {
+    if (di1[x][x]                   != 0)     esl_fatal(logmsg);  
+    if (di2[x][x]                   != 0)     esl_fatal(logmsg);  
+  }
+  if (strcmp(s2, s)                 == 0)     esl_fatal(logmsg);  
+
+  /* esl_rsq_CMarkov1(), in place  */
+  strcpy(s, s2);
+  if (esl_rsq_CMarkov1(r, s2, s2)  != eslOK)   esl_fatal(logmsg);
+  if (composition(s2, L, m2, di2)  != eslOK) esl_fatal(logmsg);  
+  for (x = 0; x < K; x++) {
+    if (di1[x][x]                   != 0)     esl_fatal(logmsg);  
+    if (di2[x][x]                   != 0)     esl_fatal(logmsg);  
+  }
+  if (strcmp(s2, s)                 == 0)     esl_fatal(logmsg);  
+  
+  free(s);
+  free(s2);
+  free(p);
+  free(m1);
+  free(m2);
+  esl_Free2D((void **) di1, 26);
+  esl_Free2D((void **) di2, 26);
+  return;
+  
+ ERROR:
+  esl_fatal(logmsg);
+}
+
+
+/* Unit tests for:
+ *     esl_rsq_XShuffle()
+ *     esl_rsq_XShuffleDP()
+ *     esl_rsq_XShuffleWindows()
+ *     esl_rsq_XReverse()
+ * Same ideas as testing the C* versions, adapted for digital sequences. 
+ */
+static void
+utest_XShufflers(ESL_RANDOMNESS *r, int L, int K)
+{
+  char    *logmsg  = "Failure in one of the XShuffle* unit tests";
+  int      status;
+  ESL_DSQ *dsq   = NULL;
+  ESL_DSQ *ds2   = NULL;
+  int     *m1    = NULL,
+          *m2    = NULL;    /* mono, before and after */
+  int    **di1   = NULL,
+         **di2   = NULL;    /* di, before and after */
+  float   *p     = NULL;
+  int      w = 12;   	    /* window width for XShuffleWindows() */
+
+  /* allocations */
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+  ESL_ALLOC(ds2, sizeof(ESL_DSQ) * (L+2));
+  ESL_ALLOC(p,   sizeof(double)  * K);
+  if (composition_allocate(K, &m1, &di1) != eslOK) esl_fatal(logmsg);
+  if (composition_allocate(K, &m2, &di2) != eslOK) esl_fatal(logmsg);
+
+  /* generate the string we'll test shuffling on, keep its composition stats */
+  if (esl_dirichlet_FSampleUniform(r, K, p) != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_xfIID(r, p, K, L, dsq)        != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XShuffle: mono composition should stay exactly the same, di may change */
+  memset(ds2, eslDSQ_SENTINEL, (L+2));
+  if (xcomposition(dsq, L, K, m1, di1)           != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffle(r, dsq, L, ds2)           != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K) != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XShuffle, in place */
+  if (esl_abc_dsqcpy(ds2, L, dsq)                != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m1,  di1)          != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffle(r, ds2, L, ds2)           != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K) != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XShuffleDP: mono and di compositions stay exactly the same */
+  memset(ds2, eslDSQ_SENTINEL, (L+2));
+  if (xcomposition(dsq, L, K, m1,  di1)          != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffleDP(r, dsq, L, K, ds2)      != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, di1, m2, di2, K)   != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XShuffleDP, in place */
+  if (esl_abc_dsqcpy(ds2, L, dsq)                != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m1, di1)           != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffleDP(r, ds2, L, K, ds2)      != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, di1, m2, di2, K)   != eslOK) esl_fatal(logmsg);
+  
+  /* esl_rsq_XShuffleKmers: mono compositions stay exactly the same */
+  memset(ds2, eslDSQ_SENTINEL, (L+2));
+  if (xcomposition(dsq, L, K, m1,  di1)          != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffleKmers(r, dsq, L, 3, ds2)   != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K) != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XShuffleKmers, in place */
+  if (esl_abc_dsqcpy(ds2, L, dsq)                != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m1, di1)           != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffleKmers(r, ds2, L, 3, ds2)   != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K) != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XShuffleWindows(): mono composition stays the same */
+  memset(ds2, eslDSQ_SENTINEL, (L+2));
+  if (xcomposition(dsq, L, K, m1, di1)           != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffleWindows(r, dsq, L, w, ds2) != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K) != eslOK) esl_fatal(logmsg);
+  
+  /* esl_rsq_XShuffleWindows(), in place */
+  if (esl_abc_dsqcpy(ds2, L, dsq)                != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m1,  di1)          != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XShuffleWindows(r, ds2, L, w, ds2) != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)           != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K) != eslOK) esl_fatal(logmsg);
+  
+  /* esl_rsq_XReverse(): two reverses (one in place) give the same seq back */
+  memset(ds2, eslDSQ_SENTINEL, (L+2));
+  if (xcomposition(dsq, L, K, m1, di1)            != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XReverse(dsq, L, ds2)               != eslOK) esl_fatal(logmsg);      
+  if (xcomposition(ds2, L, K, m2, di2)            != eslOK) esl_fatal(logmsg);
+  if (composition_compare(m1, NULL, m2, NULL, K)  != eslOK) esl_fatal(logmsg);
+  if (memcmp((void *) ds2, (void *) dsq, sizeof(ESL_DSQ)*(L+2)) == 0) esl_fatal(logmsg); 
+  if (esl_rsq_XReverse(ds2, L, ds2)               != eslOK) esl_fatal(logmsg);      
+  if (memcmp((void *) ds2, (void *) dsq, sizeof(ESL_DSQ)*(L+2)) != 0) esl_fatal(logmsg); 
+
+  free(dsq);
+  free(ds2);
+  free(p);
+  free(m1);
+  free(m2);
+  esl_Free2D((void **) di1, K);
+  esl_Free2D((void **) di2, K);
+  return;
+  
+ ERROR:
+  esl_fatal(logmsg);
+}
+
+/* Unit tests for:
+ *    esl_rsq_XMarkov0()
+ *    esl_rsq_XMarkov1()
+ * Same ideas as in the C* versions, but for digital sequences.
+ */
+static void
+utest_XMarkovs(ESL_RANDOMNESS *r, int L, int K)
+{
+  char    *logmsg = "Failure in an XMarkov*() unit test";
+  int      status;
+  ESL_DSQ *dsq = NULL;
+  ESL_DSQ *ds2 = NULL;
+  int     *m1  = NULL, 
+          *m2  = NULL;    /* mono, before and after */
+  int    **di1 = NULL,
+         **di2 = NULL;    /* di, before and after */
+  float   *p   = NULL;
+  int      pzero;
+  int      i,x;
+
+  /* allocations */
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+  ESL_ALLOC(ds2, sizeof(ESL_DSQ) * (L+2));
+  ESL_ALLOC(p,   sizeof(double)  * K);
+  if (composition_allocate(K, &m1, &di1) != eslOK) esl_fatal(logmsg);
+  if (composition_allocate(K, &m2, &di2) != eslOK) esl_fatal(logmsg);
+
+  /* generate sequence with a random letter prob set to 0  */
+  pzero = esl_rnd_Roll(r, K);
+  if (esl_dirichlet_FSampleUniform(r, K, p)  != eslOK) esl_fatal(logmsg);
+  p[pzero] = 0.;
+  esl_vec_FNorm(p, K);
+  if (esl_rsq_xfIID(r, p, K, L, dsq)         != eslOK) esl_fatal(logmsg);
+
+  /* esl_rsq_XMarkov0()  */
+  memset(ds2, eslDSQ_SENTINEL, (L+2)*sizeof(ESL_DSQ));
+  if (xcomposition(dsq, L, K, m1, di1)        != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XMarkov0(r, dsq, L, K, ds2)     != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m2, di2)        != eslOK) esl_fatal(logmsg);  
+  if (m1[pzero]                               != 0)     esl_fatal(logmsg);  
+  if (m2[pzero]                               != 0)     esl_fatal(logmsg);  
+  if (memcmp(ds2, dsq, sizeof(ESL_DSQ)*(L+2)) == 0)     esl_fatal(logmsg);  
+  
+  /* esl_rsq_CMarkov0(), in place */
+  if (esl_abc_dsqcpy(ds2, L, dsq)             != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XMarkov0(r, ds2, L, K, ds2)     != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m2, di2)        != eslOK) esl_fatal(logmsg);  
+  if (m2[pzero]                               != 0)     esl_fatal(logmsg);  
+  if (memcmp(ds2, dsq, sizeof(ESL_DSQ)*(L+2)) == 0)     esl_fatal(logmsg);  
+  
+  /* generate string with all homodiresidues set to 0 */
+  if (esl_dirichlet_FSampleUniform(r, K, p)   != eslOK) esl_fatal(logmsg);
+  do {
+    if (esl_rsq_xfIID(r, p, K, L, dsq)          != eslOK) esl_fatal(logmsg);  
+    for (i = 2; i <= L; i++)
+      if (dsq[i] == dsq[i-1]) /* this incantation will rotate letter forward in alphabet: */
+	dsq[i] = (dsq[i]+1)%K;
+  } while (dsq[1] == dsq[L]);	/* lazy. reject strings where circularization would count a homodimer */
+    
+  /* esl_rsq_XMarkov1()  */
+  memset(ds2, eslDSQ_SENTINEL, (L+2)*sizeof(ESL_DSQ));
+  if (xcomposition(dsq, L, K, m1, di1)        != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XMarkov1(r, dsq, L, K, ds2)     != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m2, di2)        != eslOK) esl_fatal(logmsg);  
+  for (x = 0; x < K; x++) {
+    if (di1[x][x]                             != 0)     esl_fatal(logmsg);  
+    if (di2[x][x]                             != 0)     esl_fatal(logmsg);  
+  }
+  if (memcmp(ds2, dsq, sizeof(ESL_DSQ)*(L+2)) == 0)     esl_fatal(logmsg);  
+
+  /* esl_rsq_XMarkov1(), in place  */
+  if (esl_abc_dsqcpy(ds2, L, dsq)             != eslOK) esl_fatal(logmsg);
+  if (esl_rsq_XMarkov1(r, ds2, L, K, ds2)     != eslOK) esl_fatal(logmsg);
+  if (xcomposition(ds2, L, K, m2, di2)        != eslOK) esl_fatal(logmsg);  
+  for (x = 0; x < K; x++) {
+    if (di1[x][x]                             != 0)     esl_fatal(logmsg);  
+    if (di2[x][x]                             != 0)     esl_fatal(logmsg);  
+  }
+  if (memcmp(ds2, dsq, sizeof(ESL_DSQ)*(L+2)) == 0)     esl_fatal(logmsg);  
+  
+  free(dsq);
+  free(ds2);
+  free(p);
+  free(m1);
+  free(m2);
+  esl_Free2D((void **) di1, K);
+  esl_Free2D((void **) di2, K);
+  return;
+  
+ ERROR:
+  esl_fatal(logmsg);
+}
+
+/* utest_markov1_bug()
+ * 
+ * Given a sequence like AAAAAAAAAT, where a residue only occurs once
+ * and at the end of the sequence, a bug can appear: a Markov chain
+ * can transit to T, but can't leave. Easel handles this by 
+ * counting Markov statistics as if the input sequence were circular.
+ */
+static void
+utest_markov1_bug(ESL_RANDOMNESS *r)
+{
+  char    logmsg[]  = "Failure in markov1_bug test (zero/absorbing transition)";
+  char    testseq[] = "AAAAAAAAAT";
+  char   *seq       = NULL;
+  ESL_DSQ testdsq[] = { eslDSQ_SENTINEL,0,0,0,0,0,0,0,0,0,3,eslDSQ_SENTINEL};
+  ESL_DSQ *dsq      = NULL;
+  int     L         = strlen(testseq);
+  int    *mono      = NULL;
+  int   **di        = NULL;
+  int     N         = 100;         
+  int     i;
+
+  if ((seq = malloc(sizeof(char)    * (L+1))) == NULL)    esl_fatal(logmsg);
+  if ((dsq = malloc(sizeof(ESL_DSQ) * (L+2))) == NULL)    esl_fatal(logmsg);
+
+  if (composition_allocate(4, &mono, &di)       != eslOK) esl_fatal(logmsg);
+  for (i = 0; i < N; i++) {
+    if (esl_rsq_XMarkov1(r, testdsq, L, 4, dsq) != eslOK) esl_fatal(logmsg);
+    if (xcomposition(testdsq, L, 4, mono, di)   != eslOK) esl_fatal(logmsg);
+    if (mono[0] + mono[3] != L)                           esl_fatal(logmsg);
+  }
+  esl_Free2D((void **) di, 4);
+  free(mono);
+
+  if (composition_allocate(26, &mono, &di) != eslOK) esl_fatal(logmsg);
+  for (i = 0; i < N; i++) {
+    if (esl_rsq_CMarkov1(r, testseq, seq)  != eslOK) esl_fatal(logmsg);
+    if (composition(seq, L, mono, di)      != eslOK) esl_fatal(logmsg);
+    if (mono[0] + mono['T'-'A'] != L)                esl_fatal(logmsg);
+  }
+  esl_Free2D((void **) di, 26);
+  free(mono);
+  free(seq);
+  free(dsq);
+}
+
+#endif /*eslRANDOMSEQ_TESTDRIVE*/
+/*------------------ end, unit tests ----------------------------*/
+
+/*****************************************************************
+ * 9. Test driver.
+ *****************************************************************/ 
+#ifdef eslRANDOMSEQ_TESTDRIVE
+/* gcc -g -Wall -o randomseq_utest -L. -I. -DeslRANDOMSEQ_TESTDRIVE esl_randomseq.c -leasel -lm
+ */
+
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,   "1000",  NULL, NULL,  NULL,  NULL, NULL, "length of random sequences",                       0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for randomseq module";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r        = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  char           *alphabet = "ACGT";
+  int             K        = strlen(alphabet);
+  int             L        = esl_opt_GetInteger(go, "-L");
+
+  utest_CShufflers(r, L, alphabet, K);
+  utest_CMarkovs  (r, L, alphabet);
+  utest_XShufflers(r, L, K);
+  utest_XMarkovs  (r, L, K);
+
+  utest_markov1_bug(r);
+
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+#endif /*eslRANDOMSEQ_TESTDRIVE*/
+/*----------------- end, test driver ----------------------------*/
+
+
+/*****************************************************************
+ * 10. Example.
+ *****************************************************************/ 
+#ifdef eslRANDOMSEQ_EXAMPLE
+/*::cexcerpt::randomseq_example::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslRANDOMSEQ_EXAMPLE esl_randomseq.c\
+            esl_random.c esl_sqio.c esl_sq.c easel.c -lm
+ * run:     ./example <FASTA file>
+ */
+#include "easel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+int
+main(int argc, char **argv)
+{
+  char           *seqfile = argv[1];
+  int             format  = eslSQFILE_UNKNOWN;
+  ESL_SQFILE     *sqfp    = NULL;
+  ESL_SQ         *sq      = esl_sq_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_Create(0);
+  int             status;
+
+  if (esl_sqfile_Open(seqfile, format, NULL, &sqfp) != eslOK) 
+    esl_fatal("Failed to open %s\n", seqfile);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+  {
+    printf("[Original sequence:]\n");
+    esl_sqio_Write(stdout, sq, eslSQFILE_FASTA);
+
+    printf("[After shuffling:]\n");
+    esl_rsq_CShuffle(r, sq->seq, sq->seq); /* shuffle in place */
+    esl_sqio_Write(stdout, sq, eslSQFILE_FASTA);
+
+    esl_sq_Reuse(sq);
+  }
+  if (status != eslEOF) esl_fatal("Parse failed");
+  esl_sqfile_Close(sqfp);
+  
+  esl_sq_Destroy(sq);
+  esl_randomness_Destroy(r);
+  return 0;
+}
+/*::cexcerpt::randomseq_example::end::*/
+#endif /*eslRANDOMSEQ_EXAMPLE*/
+/*--------------------- end, example ----------------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_randomseq.c 854 2013-02-25 22:00:19Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_randomseq.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.h
new file mode 100755
index 0000000..eb7ff3b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.h
@@ -0,0 +1,69 @@
+/* Generating, shuffling, and randomizing sequences.
+ */
+#ifndef eslRANDOMSEQ_INCLUDED
+#define eslRANDOMSEQ_INCLUDED
+
+#include "esl_random.h"
+
+/* Control flag passed to esl_rsq_Sample():                          */
+#define eslRSQ_SAMPLE_ALNUM  1	/* isalpha | isdigit                 */
+#define eslRSQ_SAMPLE_ALPHA  2	/* islower | isupper                 */
+#define eslRSQ_SAMPLE_LOWER  3	/* ASCII: a-z                        */
+#define eslRSQ_SAMPLE_UPPER  4	/* ASCII: A-Z                        */
+#define eslRSQ_SAMPLE_DIGIT  5	/* 0-9                               */
+#define eslRSQ_SAMPLE_XDIGIT 6	/* 0-9, a-f, A-F                     */
+#define eslRSQ_SAMPLE_CNTRL  7	/* ASCII: 0..0x1F, plus 0x7F (DEL)   */
+#define eslRSQ_SAMPLE_GRAPH  8  /* isprint && ! ' ' (space)          */
+#define eslRSQ_SAMPLE_SPACE  9	/* ' ', '\f', '\n', '\r', '\t', '\v' */
+#define eslRSQ_SAMPLE_BLANK  10	/* ' ', '\t'                         */
+#define eslRSQ_SAMPLE_PRINT  11 /* ASCII: 0x20 ' ' through 0x7E '~'  */
+#define eslRSQ_SAMPLE_PUNCT  12	/* isprint && !(isspace || isalnum)  */
+
+
+/* 1. Generating simple random character strings. */
+extern int esl_rsq_Sample(ESL_RANDOMNESS *rng, int allowed_chars_flag, int L, char **ret_s);
+
+/* 2. Generating iid sequences. */
+extern int esl_rsq_IID  (ESL_RANDOMNESS *r, const char *alphabet, const double *p, int K, int L, char *s);
+extern int esl_rsq_fIID (ESL_RANDOMNESS *r, const char *alphabet, const float  *p, int K, int L, char *s);
+
+/* 3. Shuffling sequences. */
+extern int esl_rsq_CShuffle       (ESL_RANDOMNESS *r, const char *s,        char *shuffled);
+extern int esl_rsq_CShuffleDP     (ESL_RANDOMNESS *r, const char *s,        char *shuffled);
+extern int esl_rsq_CShuffleKmers  (ESL_RANDOMNESS *r, const char *s, int K, char *shuffled);
+extern int esl_rsq_CReverse       (const char *s, char *rev);
+extern int esl_rsq_CShuffleWindows(ESL_RANDOMNESS *r, const char *s, int w, char *shuffled);
+
+/* 4. Randomizing sequences */
+extern int esl_rsq_CMarkov0  (ESL_RANDOMNESS *r, const char *s, char *markoved);
+extern int esl_rsq_CMarkov1  (ESL_RANDOMNESS *r, const char *s, char *markoved);
+
+/* 5. Generating iid sequences (digital mode). */
+extern int esl_rsq_xIID (ESL_RANDOMNESS *r, const double *p, int K, int L, ESL_DSQ *dsq);
+extern int esl_rsq_xfIID(ESL_RANDOMNESS *r, const float  *p, int K, int L, ESL_DSQ *dsq);
+
+/* 6. Shuffling sequences (digital mode). */
+extern int esl_rsq_XShuffle       (ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L,        ESL_DSQ *shuffled);
+extern int esl_rsq_XShuffleDP     (ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *shuffled);
+extern int esl_rsq_XShuffleKmers  (ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *shuffled);
+extern int esl_rsq_XReverse(const ESL_DSQ *dsq, int L, ESL_DSQ *rev);
+extern int esl_rsq_XShuffleWindows(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int w, ESL_DSQ *shuffled);
+
+/* 7. Randomizing sequences (digital mode) */
+extern int esl_rsq_XMarkov0  (ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *markoved);
+extern int esl_rsq_XMarkov1  (ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, int K, ESL_DSQ *markoved);
+
+#endif /*eslRANDOMSEQ_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_randomseq.h 838 2012-12-17 18:01:07Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_randomseq.h $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.tex
new file mode 100755
index 0000000..08f913e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_randomseq.tex
@@ -0,0 +1,79 @@
+The \eslmod{randomseq} module contains routines for generating,
+shuffling, and randomizing sequences.
+
+``Generating'' means sampling a sequence from a given statistical
+distribution. ``Shuffling'' means taking a given sequence and
+randomizing it in some way that preserves at least the exact residue
+composition of that sequence, and possibly other higher-order
+statistics. ``Randomizing'' means sampling a sequence from a
+statistical distribution estimated from a given sequence.
+
+Routines like this are useful in testing sequence analysis algorithms;
+for example, calculating expected score statistics under simple null
+models. 
+
+% ``essentially'' qualifier below, because our RNG is limited to 2^31 states,
+% and that limits the number of distinct permutations we can sample.
+
+When shuffling sequences, it is desirable to sample uniformly among
+possible permutations. Many shuffling algorithms (even some published
+ones \citep{Fitch83}) are not correct in this sense. Easel's
+monoresidue sequence shuffling implements the so-called Fisher/Yates
+algorithm (Knuth's ``Algorithm P'') \citep{Durstenfeld64,Knu-81a}.  A
+nontrivial additional power of the module is the ability to shuffle
+sequences while preserving exact diresidue composition; the
+\ccode{esl\_rsq\_CShuffleDP()} and \ccode{esl\_rsq\_XShuffleDP()}
+routines implement the Altschul/Erickson method
+\citep{AltschulErickson86}. \footnote{A more efficient method than
+Altschul/Erickson is known \citep{KandelWinkler96,Coward99} but it has
+not yet been implemented for Easel.}
+
+The routines in the module are listed in
+Table~\ref{tbl:randomseq_api}.
+
+The base routines work on any alphabetic text string.  Augmentation
+with the \eslmod{alphabet} module adds routines for shuffling
+digitized sequences.
+
+
+% Table generated by autodoc -t esl_randomseq.c (so don't edit here, edit esl_randomseq.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{Generating iid sequences.}\\
+\hyperlink{func:esl_rsq_IID()}{\ccode{esl\_rsq\_IID()}} & Generate an iid random text sequence.\\
+\apisubhead{Shuffling sequences.}\\
+\hyperlink{func:esl_rsq_CShuffle()}{\ccode{esl\_rsq\_CShuffle()}} & Shuffle a text sequence.\\
+\hyperlink{func:esl_rsq_CShuffleDP()}{\ccode{esl\_rsq\_CShuffleDP()}} & Shuffle a text sequence, preserving diresidue composition.\\
+\hyperlink{func:esl_rsq_CReverse()}{\ccode{esl\_rsq\_CReverse()}} & Reverse a string.\\
+\hyperlink{func:esl_rsq_CShuffleWindows()}{\ccode{esl\_rsq\_CShuffleWindows()}} & Shuffle local windows of a text string.\\
+\apisubhead{Randomizing sequences}\\
+\hyperlink{func:esl_rsq_CMarkov0()}{\ccode{esl\_rsq\_CMarkov0()}} & Generate new text string of same 0th order Markov properties.\\
+\hyperlink{func:esl_rsq_CMarkov1()}{\ccode{esl\_rsq\_CMarkov1()}} & Generate new text string of same 1st order Markov properties.\\
+\hyperlink{func:esl_rsq_xIID()}{\ccode{esl\_rsq\_xIID()}} & Generate an iid random digital sequence.\\
+\apisubhead{Shuffling sequences (digital mode)}\\
+\hyperlink{func:esl_rsq_XShuffle()}{\ccode{esl\_rsq\_XShuffle()}} & Shuffle a digital sequence.\\
+\hyperlink{func:esl_rsq_XShuffleDP()}{\ccode{esl\_rsq\_XShuffleDP()}} & Shuffle a digital sequence, preserving diresidue composition.\\
+\hyperlink{func:esl_rsq_XReverse()}{\ccode{esl\_rsq\_XReverse()}} & Reverse a digital sequence.\\
+\hyperlink{func:esl_rsq_XShuffleWindows()}{\ccode{esl\_rsq\_XShuffleWindows()}} & Shuffle local windows of a digital sequence.\\
+\apisubhead{Randomizing sequences (digital mode)}\\
+\hyperlink{func:esl_rsq_XMarkov0()}{\ccode{esl\_rsq\_XMarkov0()}} & Generate new digital sequence of same 0th order Markov properties.\\
+\hyperlink{func:esl_rsq_XMarkov1()}{\ccode{esl\_rsq\_XMarkov1()}} & Generate new digital sequence of same 1st order Markov properties.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{randomseq} API.}
+\label{tbl:randomseq_api}
+\end{table}
+
+
+\subsection{Example of using randomseq}
+
+Here's an example:
+
+\input{cexcerpts/randomseq_example}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.c
new file mode 100755
index 0000000..aee587e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.c
@@ -0,0 +1,828 @@
+/* Routines for manipulating evolutionary rate matrices.
+ * 
+ * There is no specific object for this module.  Rate matrix
+ * operations use square nxn ESL_DMATRIX data objects. (The rmx
+ * module essentially subclasses the dmx module.)
+ * 
+ * An instantaneous rate matrix is usually denoted by Q.  A
+ * conditional probability matrix (for a specific t) is usually
+ * denoted by P. An exchangeability matrix is denoted by E.
+ * A stationary residue probability vector is denoted by pi.
+ * 
+ * Two important relations among these:
+ *      
+ *    Q in terms of E and pi:     
+ *      $Q_{ij} = E_{ij} \pi_j$ for $i \neq j$;
+ *      $Q_{ii} = -\sum_{j \neq i} Q_{ij}$ 
+ *      
+ *    P in terms of Q and t:
+ *      $P = e^{tQ}$
+ * 
+ * Contents: 
+ *   1. Setting standard rate matrix models.
+ *   2. Debugging routines for validating or dumping rate matrices.
+ *   3. Other routines in the exposed ratematrix API.
+ *   4. Benchmark driver.
+ *   5. Regression test driver.
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Example.
+ *   9. Copyright/license information.
+ *
+ *   
+ *   
+ * See also:
+ *   paml   - i/o of rate matrices from/to data files in PAML format
+ * 
+ */
+#include "esl_config.h"
+
+#include <math.h>
+
+#include "easel.h"
+#include "esl_composition.h"
+#include "esl_dmatrix.h"
+#include "esl_vectorops.h"
+#include "esl_ratematrix.h"
+
+
+/*****************************************************************
+ * 1. Setting standard rate matrix models.
+ *****************************************************************/
+
+/* Function:  esl_rmx_SetWAG()
+ * Incept:    SRE, Thu Mar  8 18:00:00 2007 [Janelia]
+ *
+ * Purpose:   Sets a $20 \times 20$ rate matrix <Q> to WAG parameters.
+ *            The caller allocated <Q>.
+ *
+ *            If <pi> is non-<NULL>, it provides a vector of 20 amino
+ *            acid stationary probabilities in Easel alphabetic order,
+ *            A..Y, and the WAG stationary probabilities are set to
+ *            these desired $\pi_i$. If <pi> is <NULL>, the default
+ *            WAG stationary probabilities are used.
+ *            
+ *            The WAG parameters are a maximum likelihood
+ *            parameterization obtained by Whelan and Goldman
+ *            \citep{WhelanGoldman01}.
+ *            
+ * Note:      The data table was reformatted from wag.dat by the UTILITY1
+ *            executable in the paml module. The wag.dat file was obtained from
+ *            \url{http://www.ebi.ac.uk/goldman/WAG/wag.dat}. A copy
+ *            is in formats/wag.dat.
+ *
+ * Args:      Q   - a 20x20 rate matrix to set, allocated by caller.
+ *            pi  - desired stationary probabilities A..Y, or
+ *                  NULL to use WAG defaults.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEINVAL> if <Q> isn't a 20x20 general matrix; and
+ *            the state of <Q> is undefined.
+ */
+int
+esl_rmx_SetWAG(ESL_DMATRIX *Q, double *pi)
+{
+  static double wagE[190] = {
+    1.027040, 0.738998, 0.030295, 1.582850, 0.021352, 6.174160, 0.210494, 0.398020, 0.046730, 0.081134,
+    1.416720, 0.306674, 0.865584, 0.567717, 0.049931, 0.316954, 0.248972, 0.930676, 0.570025, 0.679371,
+    0.249410, 0.193335, 0.170135, 0.039437, 0.127395, 1.059470, 0.030450, 0.138190, 0.906265, 0.074034,
+    0.479855, 2.584430, 0.088836, 0.373558, 0.890432, 0.323832, 0.397915, 0.384287, 0.084805, 0.154263,
+    2.115170, 0.061304, 0.499462, 3.170970, 0.257555, 0.893496, 0.390482, 0.103754, 0.315124, 1.190630,
+    0.174100, 0.404141, 4.257460, 0.934276, 4.854020, 0.509848, 0.265256, 5.429420, 0.947198, 0.096162,
+    1.125560, 3.956290, 0.554236, 3.012010, 0.131528, 0.198221, 1.438550, 0.109404, 0.423984, 0.682355,
+    0.161444, 0.243570, 0.696198, 0.099929, 0.556896, 0.415844, 0.171329, 0.195081, 0.908598, 0.098818,
+    0.616783, 5.469470, 0.099921, 0.330052, 4.294110, 0.113917, 3.894900, 0.869489, 1.545260, 1.543640,
+    0.933372, 0.551571, 0.528191, 0.147304, 0.439157, 0.102711, 0.584665, 2.137150, 0.186979, 5.351420,
+    0.497671, 0.683162, 0.635346, 0.679489, 3.035500, 3.370790, 1.407660, 1.071760, 0.704939, 0.545931,
+    1.341820, 0.740169, 0.319440, 0.967130, 0.344739, 0.493905, 3.974230, 1.613280, 1.028870, 1.224190,
+    2.121110, 0.512984, 0.374866, 0.822765, 0.171903, 0.225833, 0.473307, 1.458160, 1.386980, 0.326622,
+    1.516120, 2.030060, 0.795384, 0.857928, 0.554413, 4.378020, 2.006010, 1.002140, 0.152335, 0.588731,
+    0.649892, 0.187247, 0.118358, 7.821300, 0.305434, 1.800340, 2.058450, 0.196246, 0.314887, 0.301281,
+    0.251849, 0.232739, 1.388230, 0.113133, 0.717070, 0.129767, 0.156557, 1.529640, 0.336983, 0.262569,
+    0.212483, 0.137505, 0.665309, 0.515706, 0.071917, 0.139405, 0.215737, 1.163920, 0.523742, 0.110864,
+    0.365369, 0.240735, 0.543833, 0.325711, 0.196303, 6.454280, 0.103604, 3.873440, 0.420170, 0.133264,
+    0.398618, 0.428437, 1.086000, 0.216046, 0.227710, 0.381533, 0.786993, 0.291148, 0.314730, 2.485390};
+  static double wagpi[20];
+  int i,j,z;
+  
+  if (Q->m != 20 || Q->n != 20 || Q->type != eslGENERAL)
+    ESL_EXCEPTION(eslEINVAL, "Q must be a 20x20 general matrix");
+  esl_composition_WAG(wagpi);
+
+  /* 1. Transfer the wag E lower triagonal matrix directly into Q. */
+  z = 0;
+  for (i = 0; i < 20; i++)
+    {
+      Q->mx[i][i] = 0.; /* code below depends on this zero initialization */
+      for (j = 0; j < i; j++) {
+	Q->mx[i][j] = wagE[z++];
+	Q->mx[j][i] = Q->mx[i][j];
+      }
+    }
+
+  /* 2. Set offdiagonals Q_ij = E_ij * pi_j */
+  for (i = 0; i < 20; i++)
+    for (j = 0; j < 20; j++)
+      if (pi != NULL) Q->mx[i][j] *= pi[j];
+      else            Q->mx[i][j] *= wagpi[j];
+
+  /* 3. Set diagonal Q_ii to -\sum_{i \neq j} Q_ij */
+  for (i = 0; i < 20; i++)
+    Q->mx[i][i] = -1. * esl_vec_DSum(Q->mx[i], 20);
+  
+  /* 4. Renormalize matrix to units of 1 substitution/site. */
+  if (pi != NULL) esl_rmx_ScaleTo(Q, pi,    1.0);
+  else            esl_rmx_ScaleTo(Q, wagpi, 1.0);
+
+  return eslOK;
+}
+  
+
+/* Function:  esl_rmx_SetJukesCantor()
+ * Incept:    SRE, Thu Mar 15 13:04:56 2007 [Janelia]
+ *
+ * Purpose:   Sets a 4x4 rate matrix to a Jukes-Cantor model,
+ *            scaled to units of 1t = 1.0 substitutions/site.
+ *
+ * Note:     eigenvalues of Q are 0, -4\alpha, -4\alpha, -4\alpha
+ */
+int
+esl_rmx_SetJukesCantor(ESL_DMATRIX *Q)
+{
+  int    i,j;
+  double pi[4] = { 0.25, 0.25, 0.25, 0.25 };
+
+  if (Q->m != 4 || Q->n != 4 || Q->type != eslGENERAL)
+    ESL_EXCEPTION(eslEINVAL, "Q must be a 4x4 general matrix");
+  
+  for (i = 0; i < 4; i++) {
+    for (j = 0; j < 4; j++)
+      {
+	if (i != j) Q->mx[i][j] = 1.0;
+	else        Q->mx[i][j] = 0.0;
+      }
+    Q->mx[i][i] =  -1. * esl_vec_DSum(Q->mx[i], 4);
+  }
+  esl_rmx_ScaleTo(Q, pi, 1.0);
+  return eslOK;
+}
+  
+  
+/* Function:  esl_rmx_SetKimura()
+ * Incept:    SRE, Thu Mar 15 13:08:08 2007 [Janelia]
+ *
+ * Purpose:   Sets a 4x4 rate matrix to a Kimura 2-parameter
+ *            model, given transition and transversion 
+ *            relative rates <alpha> and <beta>, respectively,
+ *            scaled to units of 1t = 1.0 substitutions/site.
+ *
+ * Note:     eigenvalues of Q are 0, -4\alpha, -2(\alpha+\beta), -2(\alpha+\beta)
+ */
+int
+esl_rmx_SetKimura(ESL_DMATRIX *Q, double alpha, double beta) 
+{
+  int i,j;
+  double pi[4] = { 0.25, 0.25, 0.25, 0.25 };
+
+  if (Q->m != 4 || Q->n != 4 || Q->type != eslGENERAL)
+    ESL_EXCEPTION(eslEINVAL, "Q must be a 4x4 general matrix");
+  
+  for (i = 0; i < 4; i++) {
+    for (j = 0; j < 4; j++)
+      {
+	if (i != j) Q->mx[i][j] = ((i+j)%2)? beta : alpha; /* even=0=transition;odd=1=transversion */
+	else        Q->mx[i][j] = 0.0;
+      }
+    Q->mx[i][i] =  -1. * esl_vec_DSum(Q->mx[i], 4);
+  }
+  esl_rmx_ScaleTo(Q, pi, 1.0);
+  return eslOK;
+}
+  
+
+
+/* Function:  esl_rmx_SetF81()
+ * Incept:    SRE, Thu Mar 15 13:33:30 2007 [Janelia]
+ *
+ * Purpose:   Sets a 4x4 rate matrix to the F81 model (aka
+ *            equal-input model) given stationary base 
+ *            compositions <pi>, 
+ *            scaled to units of 1t = 1.0 substitutions/site.
+ */
+int
+esl_rmx_SetF81(ESL_DMATRIX *Q, double *pi)
+{
+  int i,j;
+
+  if (Q->m != 4 || Q->n != 4 || Q->type != eslGENERAL)
+    ESL_EXCEPTION(eslEINVAL, "Q must be a 4x4 general matrix");
+  
+  for (i = 0; i < 4; i++) {
+    for (j = 0; j < 4; j++)
+      {
+	if (i != j) Q->mx[i][j] = pi[j];
+	else        Q->mx[i][j] = 0.0;
+      }
+    Q->mx[i][i] =  -1. * esl_vec_DSum(Q->mx[i], 4);
+  }
+  esl_rmx_ScaleTo(Q, pi, 1.0);
+  return eslOK;
+}
+
+
+/* Function:  esl_rmx_SetHKY()
+ * Incept:    SRE, Thu Aug 12 08:26:39 2004 [St. Louis]
+ *
+ * Purpose:   Given stationary base composition <pi> for ACGT, and
+ *            transition and transversion relative rates <alpha> and
+ *            <beta> respectively, sets the matrix <Q> to be the
+ *            corresponding HKY (Hasegawa/Kishino/Yano) DNA rate
+ *            matrix, scaled in units of 1t= 1.0 substitutions/site
+ *            \citep{Hasegawa85}.        
+ *
+ * Args:      pi     - stationary base composition A..T
+ *            alpha  - relative transition rate
+ *            beta   - relative transversion rate
+ *                     
+ *
+ * Returns:   <eslOK> 
+ *
+ * Xref:      
+ */
+int
+esl_rmx_SetHKY( ESL_DMATRIX *Q, double *pi, double alpha, double beta)
+{
+  int i,j;
+
+  if (Q->m != 4 || Q->n != 4 || Q->type != eslGENERAL)
+    ESL_EXCEPTION(eslEINVAL, "Q must be a 4x4 general matrix");
+  
+  for (i = 0; i < 4; i++) {
+    for (j = 0; j < 4; j++)
+      {
+	if (i != j)  Q->mx[i][j] = ((i+j)%2)? pi[j]*beta : pi[j]*alpha; /* even=0=transition;odd=1=transversion */
+	else         Q->mx[i][j] = 0.;
+      }
+    Q->mx[i][i] =  -1. * esl_vec_DSum(Q->mx[i], 4);
+  }
+  esl_rmx_ScaleTo(Q, pi, 1.0);
+  return eslOK;
+}
+  
+/*****************************************************************
+ * 2. Debugging routines for validating or dumping rate matrices.
+ *****************************************************************/
+
+/* Function:  esl_rmx_ValidateP()
+ * Incept:    SRE, Sun Mar 11 10:30:50 2007 [Janelia]
+ *
+ * Purpose:   Validates a conditional probability matrix <P>, whose
+ *            elements $P_{ij}$ represent conditional probabilities
+ *            $P(j \mid i)$; for example in a first-order Markov
+ *            chain, or a continuous-time Markov transition process
+ *            where <P> is for a particular $t$.
+ *            
+ *            Rows must sum to one, and each element $P_{ij}$ is a
+ *            probability $0 \leq P_{ij} \leq 1$.
+ *            
+ *            <tol> specifies the floating-point tolerance to which
+ *            the row sums must equal one: <fabs(sum-1.0) <= tol>.
+ *            
+ *            <errbuf> is an optional error message buffer. The caller
+ *            may pass <NULL> or a pointer to a buffer of at least
+ *            <eslERRBUFSIZE> characters.
+ *            
+ * Args:      P      - matrix to validate
+ *            tol    - floating-point tolerance (0.00001, for example)      
+ *            errbuf - OPTIONAL: ptr to an error buffer of at least
+ *                     <eslERRBUFSIZE> characters.
+ *
+ * Returns:   <eslOK> on successful validation. 
+ *            <eslFAIL> on failure, and if a non-<NULL> <errbuf> was
+ *            provided by the caller, a message describing
+ *            the reason for the failure is put there.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_rmx_ValidateP(ESL_DMATRIX *P, double tol, char *errbuf)
+{
+  int    i,j;
+  double sum;
+
+  if (P->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "P must be type eslGENERAL to be validated");
+
+  for (i = 0; i < P->n; i++)
+    {
+      sum = esl_vec_DSum(P->mx[i], P->m);
+      if (fabs(sum-1.0) > tol) ESL_FAIL(eslFAIL, errbuf, "row %d does not sum to 1.0", i);
+      
+      for (j = 0; j < P->m; j++)
+	if (P->mx[i][j] < 0.0 || P->mx[i][j] > 1.0)
+	  ESL_FAIL(eslFAIL, errbuf, "element %d,%d is not a probability (%f)", i,j,P->mx[i][j]);
+    }
+  return eslOK;
+}
+
+/* Function:  esl_rmx_ValidateQ()
+ * Incept:    SRE, Sun Mar 11 10:30:50 2007 [Janelia]
+ *
+ * Purpose:   Validates an instantaneous rate matrix <Q> for a
+ *            continuous-time Markov process, whose elements $q_{ij}$
+ *            represent instantaneous transition rates $i \rightarrow
+ *            j$. 
+ *            
+ *            Rows satisfy the condition that
+ *            $q_{ii} = -\sum_{i \neq j} q_{ij}$, and also
+ *            that $q_{ij} \geq 0$ for all $j \neq i$. 
+ *            
+ *            <tol> specifies the floating-point tolerance to which
+ *            that condition must hold: <fabs(sum-q_ii) <= tol>.
+ *            
+ *            <errbuf> is an optional error message buffer. The caller
+ *            may pass <NULL> or a pointer to a buffer of at least
+ *            <eslERRBUFSIZE> characters.
+ *            
+ * Args:      Q      - rate matrix to validate
+ *            tol    - floating-point tolerance (0.00001, for example)      
+ *            errbuf - OPTIONAL: ptr to an error buffer of at least
+ *                     <eslERRBUFSIZE> characters.
+ *
+ * Returns:   <eslOK> on successful validation. 
+ *            <eslFAIL> on failure, and if a non-<NULL> <errbuf> was
+ *            provided by the caller, a message describing
+ *            the reason for the failure is put there.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_rmx_ValidateQ(ESL_DMATRIX *Q, double tol, char *errbuf)
+{
+  int    i,j;
+  double qi;
+
+  if (Q->type != eslGENERAL) ESL_EXCEPTION(eslEINVAL, "Q must be type eslGENERAL to be validated");
+  if (Q->n    != Q->m)       ESL_EXCEPTION(eslEINVAL, "a rate matrix Q must be square");
+
+  for (i = 0; i < Q->n; i++)
+    {
+      qi = 0.;
+      for (j = 0; j < Q->m; j++)
+	{
+	  if (i != j) {
+	    if (Q->mx[i][j] < 0.)       ESL_FAIL(eslFAIL, errbuf, "offdiag elem %d,%d < 0",i,j);
+	    qi += Q->mx[i][j];
+	  } else {
+	    if (Q->mx[i][j] > 0.)       ESL_FAIL(eslFAIL, errbuf, "diag elem %d,%d < 0", i,j);
+	  }
+	}
+      if (fabs(qi + Q->mx[i][i]) > tol) ESL_FAIL(eslFAIL, errbuf, "row %d does not sum to 0.0", i);
+    }
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * 3. Other routines in the exposed ratematrix API.
+ *****************************************************************/
+
+/* Function:  esl_rmx_ScaleTo()
+ * Incept:    SRE, Tue Jul 13 16:05:16 2004 [St. Louis]
+ *
+ * Purpose:   Rescales rate matrix <Q> so that expected substitution
+ *            rate per dt is <unit>.
+ *
+ *            Expected substitution rate is:
+ *               $\sum_i \sum_j pi_i Q_ij  \forall i \neq j$
+ *
+ *            <unit> typically taken to be 1.0, so time units are substitutions/site.
+ *            An exception is PAM, where <unit> = 0.01 for 1 PAM unit.
+ *
+ * Args:      Q     - rate matrix to normalize
+ *            pi    - stationary residue frequencies
+ *            unit  - expected subsitution rate per dt 
+ *                    (1.0 = substitutions/site; 0.01 = PAMs)
+ *
+ * Returns:   <eslOK> on success, and matrix Q is rescaled.
+ *
+ * Xref:      STL8/p56.
+ */
+int
+esl_rmx_ScaleTo(ESL_DMATRIX *Q, double *pi, double unit)
+{
+  int     i,j;
+  double  sum = 0.;
+
+  if (Q->m != Q->n || Q->type != eslGENERAL)
+    ESL_EXCEPTION(eslEINVAL, "Q must be a square general matrix");
+
+  for (i = 0; i < Q->m; i++)
+    for (j = 0; j < Q->n; j++)
+      if (i != j) sum += pi[i] * Q->mx[i][j];
+
+  for (i = 0; i < Q->m; i++)
+    for (j = 0; j < Q->n; j++)
+      Q->mx[i][j] *= (unit / sum);
+
+  return eslOK;
+}
+
+
+
+/* Function:  esl_rmx_E2Q()
+ * Incept:    SRE, Tue Jul 13 15:52:41 2004 [St. Louis]
+ *
+ * Purpose:   Given a lower triangular matrix ($j<i$) of 
+ *            residue exchangeabilities <E>, and a stationary residue
+ *            frequency vector <pi>; assuming $E_{ij} = E_{ji}$;
+ *            calculates a rate matrix <Q> as
+ *            
+ *            $Q_{ij} = E_{ij} * \pi_j$
+ *            
+ *            The resulting <Q> is not normalized to any particular
+ *            number of substitutions/site/time unit. See
+ *            <esl_rmx_ScaleTo()> for that.
+ *            
+ * Args:      E     - symmetric residue "exchangeabilities";
+ *                    only lower triangular entries are used.
+ *            pi    - residue frequencies at stationarity. 
+ *            Q     - RETURN: rate matrix, square (NxN). 
+ *                    Caller allocates the memory for this.
+ *                    
+ * Returns:   <eslOK> on success; Q is calculated and filled in.
+ * 
+ * Xref:      STL8/p56.
+ */
+int
+esl_rmx_E2Q(ESL_DMATRIX *E, double *pi, ESL_DMATRIX *Q)
+{
+  int          i,j;
+
+  if (E->n != Q->n) ESL_EXCEPTION(eslEINVAL, "E and Q sizes differ");
+
+  /* Scale all off-diagonals to pi[j] * E[i][j].
+   */
+  for (i = 0; i < E->n; i++)
+    for (j = 0; j < i; j++)	/* only look at lower triangle of E. */
+      {
+	Q->mx[i][j] = pi[j] * E->mx[i][j]; 
+	Q->mx[j][i] = pi[i] * E->mx[i][j];
+      }
+
+  /* Set diagonal to  -\sum of all j != i.
+   */
+  for (i = 0; i < Q->n; i++)
+    {
+      Q->mx[i][i] = 0.;		/* makes the vector sum work for j != i */
+      Q->mx[i][i] = -1. * esl_vec_DSum(Q->mx[i], Q->n);
+    }
+  return eslOK;
+}
+
+
+/* Function:  esl_rmx_RelativeEntropy()
+ * Incept:    SRE, Fri Mar 23 09:18:26 2007 [Janelia]
+ *
+ * Purpose:   Given a conditional substitution probability matrix <P>,
+ *            with stationary probabilities <pi>, calculate its
+ *            relative entropy $H$:
+ *            
+ *               $H_t = \sum_{ij} P(j \mid i,t) \pi_i \log_2 \frac{P(j \mid i,t)} {\pi_j}$
+ *               
+ *            This assumes that the stationary probabilities are the
+ *            same as the background (null model) probabilities.   
+ *
+ * Returns:   the relative entropy, $H$, in bits
+ */
+double
+esl_rmx_RelativeEntropy(ESL_DMATRIX *P, double *pi)
+{
+  double H = 0.;
+  int    i,j;
+
+  for (i = 0; i < P->m; i++)
+    for (j = 0; j < P->n; j++)
+      H += P->mx[i][j] * pi[i] * log(P->mx[i][j] / pi[j]);
+  return H / eslCONST_LOG2;
+}
+  
+/* Function:  esl_rmx_ExpectedScore()
+ * Incept:    SRE, Fri Mar 23 09:32:05 2007 [Janelia]
+ *
+ * Purpose:   Given a conditional substitution probability matrix <P>
+ *            with stationary probabilities <pi>, calculate its
+ *            expected score:
+ *            
+ *               $ = \sum_{ij} \pi_j \pi_i \log_2 \frac{P(j \mid i,t)} {\pi_j}$
+ *               
+ *            This assumes that the stationary probabilities are the
+ *            same as the background (null model) probabilities.   
+ *
+ * Returns:   the expected score, in bits
+ */
+double
+esl_rmx_ExpectedScore(ESL_DMATRIX *P, double *pi)
+{
+  double S = 0.;
+  int    i,j;
+
+  for (i = 0; i < P->m; i++)
+    for (j = 0; j < P->n; j++)
+      S += pi[j] * pi[i] * log(P->mx[i][j] / pi[j]);
+  return S / eslCONST_LOG2;
+}
+
+
+
+
+/*****************************************************************
+ * 4. Benchmark driver
+ *****************************************************************/
+
+#ifdef eslRATEMATRIX_BENCHMARK
+
+/* 
+  without GSL:
+  gcc -O2 -I. -L. -o benchmark -DeslRATEMATRIX_BENCHMARK esl_ratematrix.c -leasel -lm
+
+  with GSL:
+  gcc -g -Wall -I. -L. -o benchmark -DeslRATEMATRIX_BENCHMARK -DHAVE_LIBGSL esl_dmatrix.c esl_ratematrix.c -leasel -lgsl -lgslcblas -lm
+ */
+
+#include <esl_config.h>
+
+#ifdef HAVE_LIBGSL
+#include <gsl/gsl_matrix.h>
+#include <gsl/gsl_linalg.h>
+#endif
+
+#include "easel.h"
+#include "esl_stopwatch.h"
+#include "esl_dmatrix.h"
+#include "esl_ratematrix.h"
+
+int
+main(void)
+{
+  ESL_STOPWATCH *w = NULL;
+  ESL_DMATRIX *Q  = NULL;
+  ESL_DMATRIX *P  = NULL;
+  double       t = 5.0;
+  int          esl_iterations = 100;
+  int          i;
+#ifdef HAVE_LIBGSL
+  gsl_matrix  *Qg = NULL;
+  gsl_matrix  *Pg = NULL;
+  int          gsl_iterations = 100;
+#endif
+
+  w = esl_stopwatch_Create();
+  Q = esl_dmatrix_Create(20, 20);
+  P = esl_dmatrix_Create(20, 20);
+  esl_rmx_SetWAG(Q, NULL);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < esl_iterations; i++)
+    esl_dmx_Exp(Q, t, P);
+  esl_stopwatch_Stop(w);
+  printf("Easel takes:   %g sec\n", w->user / (double) esl_iterations);
+
+#ifdef HAVE_LIBGSL
+  if (esl_dmx_MorphGSL(Q, &Qg)             != eslOK) esl_fatal("morph to gsl_matrix failed");
+  if ((Pg = gsl_matrix_alloc(20, 20))      == NULL)  esl_fatal("gsl alloc failed");
+  gsl_matrix_scale(Qg, t);
+  
+  esl_stopwatch_Start(w);
+  for (i = 0; i < gsl_iterations; i++)
+    gsl_linalg_exponential_ss(Qg, Pg, GSL_PREC_DOUBLE);
+  esl_stopwatch_Stop(w);
+  printf("  GSL takes:   %g sec\n", w->user / (double) gsl_iterations);
+
+  gsl_matrix_free(Qg);
+  gsl_matrix_free(Pg);
+#endif /*HAVE_LIBGSL*/
+
+  esl_dmatrix_Destroy(Q);
+  esl_dmatrix_Destroy(P);
+  esl_stopwatch_Destroy(w);
+  return 0;
+}
+
+#endif /*eslRATEMATRIX_BENCHMARK*/
+
+
+/*****************************************************************
+ * 5. Regression test driver
+ *****************************************************************/
+#ifdef eslRATEMATRIX_REGRESSION
+#ifdef HAVE_LIBGSL
+
+/* This tests rate matrix exponentiation against the GSL's
+ * undocumented implementation of a matrix exponential.
+ */
+/* 
+  gcc -g -Wall -I. -L. -o ratematrix_regression -DeslRATEMATRIX_REGRESSION -DHAVE_LIBGSL esl_dmatrix.c esl_ratematrix.c -leasel -lgsl -lgslcblas -lm
+ */
+
+#include "esl_config.h"
+
+#include <gsl/gsl_matrix.h>
+#include <gsl/gsl_linalg.h>
+
+#include "easel.h"
+#include "esl_dmatrix.h"
+#include "esl_ratematrix.h"
+
+int
+main(void)
+{
+  char errbuf[eslERRBUFSIZE];
+  char *alphabet = "ACDEFGHIKLMNPQRSTVWY";
+  ESL_DMATRIX *Q  = NULL;
+  ESL_DMATRIX *P  = NULL;
+  gsl_matrix  *Qg = NULL;
+  gsl_matrix  *Pg = NULL;
+  ESL_DMATRIX *Pge = NULL;
+  double       t = 15.0;
+
+  if ((Q = esl_dmatrix_Create(20, 20))     == NULL)  esl_fatal("malloc failed");
+  if ((P = esl_dmatrix_Create(20, 20))     == NULL)  esl_fatal("malloc failed");
+
+  if (esl_rmx_SetWAG(Q, NULL)              != eslOK) esl_fatal("_SetWAG() failed");
+  if (esl_rmx_ValidateQ(Q, 0.0001, errbuf) != eslOK) esl_fatal("Q validation failed: %s", errbuf);
+
+  if (esl_dmx_Exp(Q, t, P)                 != eslOK) esl_fatal("matrix exponentiation failed");
+  if (esl_rmx_ValidateP(P, 0.0001, errbuf) != eslOK) esl_fatal("P validation failed: %s", errbuf);
+
+  if (esl_dmx_MorphGSL(Q, &Qg)             != eslOK) esl_fatal("morph to gsl_matrix failed");
+  if ((Pg = gsl_matrix_alloc(20, 20))      == NULL)  esl_fatal("gsl alloc failed");
+  gsl_matrix_scale(Qg, t);
+  if (gsl_linalg_exponential_ss(Qg, Pg, GSL_PREC_DOUBLE) != 0) esl_fatal("gsl's exponentiation failed");
+  if (esl_dmx_UnmorphGSL(Pg, &Pge)         != eslOK) esl_fatal("morph from gsl_matrix failed");  
+  
+  esl_dmatrix_Dump(stdout, P, alphabet, alphabet);
+
+  if (esl_dmatrix_Compare(Pge, P, 0.00001) != eslOK) esl_fatal("whoops, different answers.");
+  
+  esl_dmatrix_Destroy(Q);
+  esl_dmatrix_Destroy(P);
+  esl_dmatrix_Destroy(Pge);
+  gsl_matrix_free(Qg);
+  gsl_matrix_free(Pg);
+  return 0;
+}
+#else 
+  /* if we don't have GSL, then compile in a dummy main(), solely 
+   *  to quiet any tests that are verifying that all drivers compile
+   *  and run. */
+int main(void) { return 0; }
+#endif /*HAVE_LIBGSL*/
+
+#endif /*eslRATEMATRIX_REGRESSION*/
+
+
+/*****************************************************************
+ * 6. Unit tests.
+ *****************************************************************/
+#ifdef eslRATEMATRIX_TESTDRIVE
+
+static void
+utest_SetWAG(void)
+{
+  char errbuf[eslERRBUFSIZE];
+  ESL_DMATRIX *Q = NULL;
+  ESL_DMATRIX *P = NULL;
+  double       t = 50.0;	/* sufficiently large to drive e^tQ to stationarity  */
+  double       pi[20];
+  int          i;
+
+  if ((Q = esl_dmatrix_Create(20, 20))     == NULL)  esl_fatal("malloc failed");
+  if ((P = esl_dmatrix_Create(20, 20))     == NULL)  esl_fatal("malloc failed");
+
+  /* This tests that exponentiating WAG gives a stable conditional 
+   * probability matrix solution. (It doesn't particularly test that
+   * WAG was set correctly, but how could we have screwed that up?)
+   */
+  if (esl_rmx_SetWAG(Q, NULL)              != eslOK) esl_fatal("_SetWAG() failed");
+  if (esl_dmx_Exp(Q, t, P)                 != eslOK) esl_fatal("matrix exponentiation failed");
+  if (esl_rmx_ValidateP(P, 1e-7, errbuf)   != eslOK) esl_fatal("P validation failed: %s", errbuf);
+  if (esl_rmx_ValidateQ(Q, 1e-7, errbuf)   != eslOK) esl_fatal("Q validation failed: %s", errbuf);
+
+  /* This tests setting WAG to different stationary pi's than default,
+   * then tests that exponentiating to large t reaches those stationaries.
+   */
+  esl_vec_DSet(pi, 20, 0.05);
+  if (esl_rmx_SetWAG(Q, pi)                != eslOK) esl_fatal("_SetWAG() failed");
+  if (esl_dmx_Exp(Q, t, P)                 != eslOK) esl_fatal("matrix exponentiation failed");
+  if (esl_rmx_ValidateP(P, 1e-7, errbuf)   != eslOK) esl_fatal("P validation failed: %s", errbuf);
+  if (esl_rmx_ValidateQ(Q, 1e-7, errbuf)   != eslOK) esl_fatal("Q validation failed: %s", errbuf);
+  for (i = 0; i < 20; i++)
+    if (esl_vec_DCompare(P->mx[i], pi, 20, 1e-7) != eslOK) esl_fatal("P didn't converge to right pi's");
+
+  esl_dmatrix_Destroy(Q);
+  esl_dmatrix_Destroy(P);
+  return;
+}
+  
+#ifdef HAVE_LIBLAPACK
+static void
+utest_Diagonalization(void)
+{
+  ESL_DMATRIX *P      = NULL;
+  ESL_DMATRIX *P2     = NULL;
+  ESL_DMATRIX *C      = NULL;
+  ESL_DMATRIX *D      = NULL;
+  double      *lambda = NULL;		/* eigenvalues */
+  ESL_DMATRIX *U      = NULL;		/* left eigenvectors */
+  ESL_DMATRIX *Ui     = NULL;		/* inverse of U */
+  int  i,j;
+
+  /* Create a J/C probability matrix for t=1:
+   *    1/4 + 3/4 e^{-4/3 at}
+   *    1/4 - 1/4 e^{-4/3 at}
+   */
+  if ((P  = esl_dmatrix_Create(4, 4))    == NULL)  esl_fatal("malloc failed");
+  if ((C  = esl_dmatrix_Create(4, 4))    == NULL)  esl_fatal("malloc failed");
+  if ((Ui = esl_dmatrix_Create(4, 4))    == NULL)  esl_fatal("malloc failed");
+  if ((D  = esl_dmatrix_Create(4, 4))    == NULL)  esl_fatal("malloc failed");
+  if ((P2 = esl_dmatrix_Create(4, 4))    == NULL)  esl_fatal("malloc failed");
+  for (i = 0; i < 4; i++)
+    for (j = 0; j < 4; j++)
+      if (i == j) P->mx[i][j] = 0.25 + 0.75 * exp(-4./3.);
+      else        P->mx[i][j] = 0.25 - 0.25 * exp(-4./3.);
+
+  /* Diagonalize it
+   */
+  if (esl_dmx_Diagonalize(P, &lambda, NULL, &U, NULL) != eslOK) esl_fatal("diagonalization failed");
+
+  /* Calculate P^k by U [diag(lambda_i)]^k U^{-1}
+   */
+  esl_dmatrix_SetZero(D);
+  for (i = 0; i < P->n; i++) D->mx[i][i] = lambda[i];
+  esl_dmx_Invert(U, Ui);
+  esl_dmx_Multiply(U, D,  C);
+  esl_dmx_Multiply(C, Ui, P2);
+
+  if (esl_dmatrix_Compare(P, P2, 1e-7) != eslOK) esl_fatal("diagonalization unit test failed");
+
+  free(lambda);
+  esl_dmatrix_Destroy(P2);
+  esl_dmatrix_Destroy(Ui);
+  esl_dmatrix_Destroy(U);
+  esl_dmatrix_Destroy(D);
+  esl_dmatrix_Destroy(C);
+  esl_dmatrix_Destroy(P);
+  return;
+}
+#endif /*HAVE_LIBLAPACK*/
+
+#endif /*eslRATEMATRIX_TESTDRIVE*/
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+
+#ifdef eslRATEMATRIX_TESTDRIVE
+/* gcc -g -Wall -o test -I. -L. -DeslRATEMATRIX_TESTDRIVE esl_ratematrix.c -leasel -lm
+ * ./test
+ *
+ * gcc -g -Wall -o test -I. -L. -DHAVE_LIBLAPACK -DeslRATEMATRIX_TESTDRIVE esl_ratematrix.c esl_dmatrix.c -leasel -llapack -lm
+ */
+#include "esl_config.h"
+
+#include "easel.h"
+#include "esl_ratematrix.h"
+
+int
+main(void)
+{
+  utest_SetWAG();
+#ifdef HAVE_LIBLAPACK
+  utest_Diagonalization();
+#endif
+
+  return 0;
+
+}
+#endif /*eslRATEMATRIX_TESTDRIVE*/
+
+/*****************************************************************
+ * 8. Example driver
+ *****************************************************************/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_ratematrix.c 849 2013-01-31 15:10:24Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_ratematrix.c $
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.h
new file mode 100755
index 0000000..caef826
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.h
@@ -0,0 +1,37 @@
+/* Routines for manipulating evolutionary rate matrices.
+ * 
+ * SRE, Tue Jul 13 16:09:05 2004 [St. Louis]
+ * SVN $Id: esl_ratematrix.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_ratematrix.h $
+ */
+#ifndef eslRATEMATRIX_INCLUDED
+#define eslRATEMATRIX_INCLUDED
+
+/* 1. Setting standard rate matrix models. */
+extern int esl_rmx_SetWAG(ESL_DMATRIX *Q, double *pi); 
+extern int esl_rmx_SetJukesCantor(ESL_DMATRIX *Q);
+extern int esl_rmx_SetKimura(ESL_DMATRIX *Q, double alpha, double beta);
+extern int esl_rmx_SetF81(ESL_DMATRIX *Q, double *pi);
+extern int esl_rmx_SetHKY(ESL_DMATRIX *Q, double *pi, double alpha, double beta); 
+
+/* 2. Debugging routines for validating or dumping rate matrices. */
+extern int esl_rmx_ValidateP(ESL_DMATRIX *P, double tol, char *errbuf);
+extern int esl_rmx_ValidateQ(ESL_DMATRIX *Q, double tol, char *errbuf);
+
+/* 3. Other routines in the exposed ratematrix API. */
+extern int    esl_rmx_ScaleTo(ESL_DMATRIX *Q, double *pi, double unit);
+extern int    esl_rmx_E2Q(ESL_DMATRIX *E, double *pi, ESL_DMATRIX *Q);
+extern double esl_rmx_RelativeEntropy(ESL_DMATRIX *P, double *pi);
+extern double esl_rmx_ExpectedScore  (ESL_DMATRIX *P, double *pi);
+
+
+#endif /*eslRATEMATRIX_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.tex
new file mode 100755
index 0000000..a603a6f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ratematrix.tex
@@ -0,0 +1,3 @@
+The \eslmod{ratematrix} module implements continuous-time Markov
+evolutionary models of residue subsitution.
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_recorder.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_recorder.c
new file mode 100755
index 0000000..0f21b3b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_recorder.c
@@ -0,0 +1,1147 @@
+/* Saving history in a line-based input stream
+ * 
+ * Contents:
+ *   1. The <ESL_RECORDER> object
+ *   2. Using the <ESL_RECORDER>
+ *   3. Internal (static) functions
+ *   4. Benchmark driver
+ *   5. Unit tests
+ *   6. Test driver
+ *   7. Examples
+ *   8. Copyright and license
+ * 
+ */
+#include "esl_config.h"
+
+#include <string.h>
+
+#include "easel.h"
+#include "esl_recorder.h"
+
+static void linearray_reverse(ESL_RECORDER *rc, int pos, int n);
+static int  recorder_new_baseline(ESL_RECORDER *rc, int newbase);
+
+/*****************************************************************
+ * 1. The <ESL_RECORDER> object
+ *****************************************************************/
+
+/* Function:  esl_recorder_Create()
+ * Synopsis:  Create an <ESL_RECORDER>.
+ * Incept:    SRE, Fri Dec 25 16:27:40 2009 [Casa de Gatos]
+ *
+ * Purpose:   Allocate a new <ESL_RECORDER> that will read
+ *            line-by-line from input stream <fp>, saving
+ *            a history of up to <maxlines> lines.
+ *
+ * Returns:   pointer to the new <ESL_RECORDER> on success.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_RECORDER *
+esl_recorder_Create(FILE *fp, int maxlines)
+{
+  ESL_RECORDER *rc = NULL;
+  int           i;
+  int           status;
+
+  ESL_ALLOC(rc, sizeof(ESL_RECORDER));
+  rc->fp         = fp;
+  rc->line       = NULL;
+  rc->nalloc     = maxlines;
+  rc->lalloc     = NULL;
+  rc->offset     = NULL;
+  rc->nread      = 0;
+  rc->ncurr      = 0;
+  rc->baseline   = 0;
+  rc->markline   = -1;
+
+  ESL_ALLOC(rc->line,   sizeof(char *) * rc->nalloc);
+  for (i = 0; i < rc->nalloc; i++) rc->line[i]   = NULL;
+
+  ESL_ALLOC(rc->lalloc, sizeof(int)    * rc->nalloc);
+  for (i = 0; i < rc->nalloc; i++) rc->lalloc[i] = 0;
+
+  ESL_ALLOC(rc->offset, sizeof(off_t)  * rc->nalloc);
+  for (i = 0; i < rc->nalloc; i++) rc->offset[i] = 0;
+
+  return rc;
+
+ ERROR:
+  esl_recorder_Destroy(rc);
+  return NULL;
+}
+
+/* Function:  esl_recorder_ResizeTo()
+ * Synopsis:  Reallocate an <ESL_RECORDER> for a new <maxlines>
+ * Incept:    SRE, Fri Dec 25 17:02:46 2009 [Casa de Gatos]
+ *
+ * Purpose:   Reallocate the <ESL_RECORDER> <rc> to have a new
+ *            window size <maxlines>. 
+ *            
+ *            The new <maxlines> may be more or less than the previous
+ *            window size for <rc>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> if (re-)allocation fails.
+ *
+ *            <eslEINVAL> if the recorder has a marked line (for start
+ *            of a block) and you try to shrink it so much that that
+ *            marked line would be lost.
+ *
+ *            <eslEINCONCEIVABLE> on any baseline resetting problem;
+ *            this would have to be an internal error in the module.
+ * 
+ * Note:      We may have to repermute the line array, and reset its
+ *            baseline, as follows.
+ *            
+ *            In the growth case: if the line array is out of order
+ *            (circularly permuted) we must straighten it out, which
+ *            means resetting the baseline.  
+ *            i.e. to grow 3 1 2 to nalloc=6, we need 1 2 3 x x x; 
+ *            simple reallocation to 3 1 2 x x x doesn't work,
+ *            next read would make 3 4 2 x x x.
+ *          
+ *            In the shrinkage case: if the line array is in use beyond the
+ *            new array size, we set a new baseline to keep as much of the
+ *            old array as possible.
+ * 
+ *            i.e. for 6->3  
+ *            1 2 3 x x x -> 1 2 3
+ *            1 2 3 4 x x -> 2 3 4 with new baseline=2.
+ *            4 5 0 1 2 3 -> 3 4 5 with new baseline=3
+ */
+int
+esl_recorder_ResizeTo(ESL_RECORDER *rc, int new_maxlines)
+{
+  int   idx;
+  int   newbase;
+  void *tmp;
+  int   minlines;
+  int   status;
+
+  if (new_maxlines == rc->nalloc) return eslOK;
+
+  if (new_maxlines > rc->nalloc) /* growth case */
+    {
+      if ((rc->nread - rc->baseline) / rc->nalloc != 0)	/* array is permuted; reorder it */
+	{
+	  newbase = ESL_MAX(rc->baseline, rc->nread - rc->nalloc);
+	  status = recorder_new_baseline(rc, newbase);
+	  if (status) ESL_EXCEPTION(eslEINCONCEIVABLE, "baseline reset failed unexpectedly");
+	}
+    }
+  else 				/* shrinkage case */
+    {
+      /* check that the marked line (if any) will stay in window */
+      if (rc->markline >= 0)	
+	{
+	  minlines = rc->nread - rc->markline;
+	  if (new_maxlines < minlines)
+	    ESL_EXCEPTION(eslEINVAL, "can't shrink that far without losing marked line");
+	}
+      /* check that current line will stay in window */
+      minlines = rc->nread - rc->ncurr + 1;
+      if (new_maxlines < minlines)
+	ESL_EXCEPTION(eslEINVAL, "can't shrink that far without losing current line");
+
+      if (rc->nread - rc->baseline > new_maxlines) /* baseline needs to move up */
+	{
+	  newbase = rc->nread - new_maxlines;
+	  status = recorder_new_baseline(rc, newbase);
+	  if (status) ESL_EXCEPTION(eslEINCONCEIVABLE, "baseline reset failed unexpectedly");
+	}
+
+      for (idx = new_maxlines; idx < rc->nalloc; idx++)
+	if (rc->line[idx]) free(rc->line[idx]);
+    }
+
+  ESL_RALLOC(rc->line,   tmp, sizeof(char *) * new_maxlines);
+  ESL_RALLOC(rc->lalloc, tmp, sizeof(int)    * new_maxlines);
+  ESL_RALLOC(rc->offset, tmp, sizeof(off_t)  * new_maxlines);
+  for (idx = rc->nalloc; idx < new_maxlines; idx++) /* no-op in shrinkage case */
+    { 
+      rc->line[idx]   = NULL;
+      rc->lalloc[idx] = 0;
+      rc->offset[idx] = 0;
+    }
+  rc->nalloc = new_maxlines;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_recorder_GetFirst()
+ * Synopsis:  Returns the earliest linenumber stored.
+ * Incept:    SRE, Sat Jan  2 13:18:38 2010 [Zaragoza]
+ *
+ * Purpose:   Returns the earliest line number that is
+ *            stored in the recorder <rc>.
+ */
+int
+esl_recorder_GetFirst(ESL_RECORDER *rc)
+{
+  return (ESL_MAX(rc->baseline, rc->nread-rc->nalloc)); 
+}
+
+/* Function:  esl_recorder_GetLast()
+ * Synopsis:  Returns the furthest linenumber stored.
+ * Incept:    SRE, Sat Jan  2 13:19:45 2010 [Zaragoza]
+ *
+ * Purpose:   Returns the furthest line number that is
+ *            stored in the recorder <rc> -- the furthest
+ *            we have read into the input stream so far.
+ *            (This is not necessarily the current
+ *            position in the stream, if we have repositioned.)
+ */
+int
+esl_recorder_GetLast(ESL_RECORDER *rc)
+{
+  return (rc->nread-1);
+}
+
+/* Function:  esl_recorder_GetCurrent()
+ * Synopsis:  Returns the current line number.
+ * Incept:    SRE, Sat Jan  2 13:21:13 2010 [Zaragoza]
+ *
+ * Purpose:   Returns the current line number -- the
+ *            line number most recently returned by
+ *            a call to <esl_recorder_Read()).
+ */
+int 
+esl_recorder_GetCurrent(ESL_RECORDER *rc)
+{
+  return (rc->ncurr-1);
+}
+
+/* Function:  esl_recorder_GetNext()
+ * Synopsis:  Returns the next line number.
+ * Incept:    SRE, Sat Jan  2 13:21:13 2010 [Zaragoza]
+ *
+ * Purpose:   Returns the next line number that would
+ *            be read by a call to <esl_recorder_Read()).
+ */
+int
+esl_recorder_GetNext(ESL_RECORDER *rc)
+{
+  return (rc->ncurr);
+}
+ 
+
+
+
+/* Function:  esl_recorder_Destroy()
+ * Synopsis:  Frees an <ESL_RECORDER>.
+ * Incept:    SRE, Fri Dec 25 16:30:14 2009 [Casa de Gatos]
+ *
+ * Purpose:   Frees the <ESL_RECORDER> <rc>.
+ *
+ * Returns:   (void).
+ */
+void
+esl_recorder_Destroy(ESL_RECORDER *rc)
+{
+  int i;
+
+  if (rc == NULL) return;
+
+  if (rc->offset) free(rc->offset);
+  if (rc->lalloc) free(rc->lalloc);
+  if (rc->line) {
+    for (i = 0; i < rc->nalloc; i++)
+      if (rc->line[i]) free(rc->line[i]);
+    free(rc->line);
+  }
+  free(rc);
+  return;
+}
+/*--------------- end, <ESL_RECORDER> object --------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Using the <ESL_RECORDER> 
+ *****************************************************************/
+
+/* Function:  esl_recorder_Read()
+ * Synopsis:  Read next line of a stream through an <ESL_RECORDER>.
+ * Incept:    SRE, Fri Dec 25 16:31:00 2009 [Casa de Gatos]
+ *
+ * Purpose:   Read the next line of the input stream that the
+ *            <ESL_RECORDER> <rc> is recording. Return a ptr to
+ *            it in <*opt_line>. Note that the <ESL_RECORDER> 
+ *            deals with allocation and freeing of this line;
+ *            if caller wants to keep it for something, it must
+ *            make a copy immediately, because subsequent calls
+ *            to <esl_recorder_*> functions may overwrite these
+ *            internal memory buffers.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEOF> if no more lines exist in the stream.
+ *
+ * Throws:    <eslEMEM> on an allocation failure.
+ */
+int
+esl_recorder_Read(ESL_RECORDER *rc, char **opt_line)
+{
+  int idx = (rc->ncurr - rc->baseline) % rc->nalloc;     /* index of line to read, in wrapped coords */
+  int status;
+  
+  /* if currline <= lastline, we already have the line recorded;
+   * else we need to read a new one from <fp> */
+  if (rc->ncurr >= rc->nread)
+    {
+      /* if reading a new line would overwrite our marked start, grow */
+      if ( rc->markline >= 0 && 
+	   ((rc->ncurr - rc->baseline) % rc->nalloc == ((rc->markline - rc->baseline) % rc->nalloc)))
+	{
+	  int xtra = ESL_MAX(3, (rc->nalloc / 3));
+	  status = esl_recorder_ResizeTo(rc, rc->nalloc + xtra);
+	  if (status) goto ERROR;
+	  idx = (rc->ncurr - rc->baseline) % rc->nalloc; 
+	}
+
+      rc->offset[idx] = ftello(rc->fp);
+      status = esl_fgets(&(rc->line[idx]), &(rc->lalloc[idx]), rc->fp);
+      if (status) goto ERROR;
+      rc->nread++;
+    }
+
+  rc->ncurr++;
+  if (opt_line) *opt_line = rc->line[idx];
+  return eslOK;
+
+ ERROR:
+  if (opt_line) *opt_line = NULL;
+  return status;
+}
+
+
+/* Function:  esl_recorder_Position()
+ * Synopsis:  Reset the recorder to a new starting line position.
+ * Incept:    SRE, Mon Dec 28 10:25:22 2009 [Casa de Gatos]
+ *
+ * Purpose:   Reset the recorder <rc> to a new line position <linenumber>,
+ *            starting from 0. The next call to <esl_recorder_Read()>
+ *            will read this line.
+ *            
+ *            The <linenumber> can be ahead of the furthest line read
+ *            by the recorder so far, in which case it calls
+ *            <esl_recorder_Read()> until it reaches the proper
+ *            position. This can result in a return code of <eslEOF>,
+ *            if no such line exists in the stream.
+ *            
+ *            If the <linenumber> falls before (outside) the
+ *            recorder's history window, an <eslEINVAL> exception is
+ *            thrown.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEOF> if <linenumber> is larger than current position
+ *            in file, and the stream ends before line <linenumber> is
+ *            reached.
+ *
+ * Throws:    <eslEMEM> on allocation failure; this can only happen
+ *            if <linenumber> is larger than current position in
+ *            file, forcing <esl_recorder_Read()> calls to reach that
+ *            line.
+ */
+int 
+esl_recorder_Position(ESL_RECORDER *rc, int linenumber)
+{
+  /* The recorder stores lines MAX(baseline,<nread-nalloc>)..<nread>-1 */
+  int line0  = ESL_MAX(rc->baseline, rc->nread - rc->nalloc);
+  int status;
+  
+  if (linenumber < line0)  
+    ESL_EXCEPTION(eslEINVAL, "recorder's window is past that line");
+
+  if (linenumber >= rc->nread) {
+    while (rc->nread < linenumber)
+      if ((status = esl_recorder_Read(rc, NULL)) != eslOK) return status;
+  }
+  
+  rc->ncurr = linenumber;
+  return eslOK;
+}
+
+/* Function:  esl_recorder_MarkBlock()
+ * Synopsis:  Mark first line to be saved in a block.
+ * Incept:    SRE, Fri Jan  1 11:13:53 2010 [Magallon]
+ *
+ * Purpose:   Mark line number <markline> (0..N-1) in a file being read
+ *            through the <ESL_RECORDER> <rc> as the first line in a
+ *            block of lines to be parsed later, when the end of
+ *            the block is found. 
+ *            
+ *            This mark makes sure that the <ESL_RECORDER> will keep
+ *            the entire block of lines in memory, starting at or
+ *            before the mark. When a mark is active,
+ *            <esl_recorder_Read()> will reallocate and grow the
+ *            recorder as necessary, rather than overwriting the mark.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the <markline> has already passed out
+ *            of the recorder's memory.
+ */
+int
+esl_recorder_MarkBlock(ESL_RECORDER *rc, int markline)
+{
+  int line0 = ESL_MAX(rc->baseline, rc->nread - rc->nalloc);
+  
+  if (markline < line0) ESL_EXCEPTION(eslEINVAL, "recorder window already passed marked line");
+  rc->markline = markline;
+  return eslOK;
+}
+
+
+/* Function:  esl_recorder_UnmarkBlock()
+ * Synopsis:  Remove a marked start of a block.
+ * Incept:    SRE, Fri Jan  1 12:47:32 2010 [Magallon]
+ *
+ * Purpose:   Release the mark in the <ESL_RECORDER> <rc>, if any.
+ * 
+ *            The recorder will no longer reallocate and grow to keep
+ *            the marked line in memory. 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_recorder_UnmarkBlock(ESL_RECORDER *rc)
+{
+  rc->markline = -1;
+  return eslOK;
+}
+
+
+/* Function:  esl_recorder_GetBlock()
+ * Synopsis:  Get a block of lines from a recorder, starting at the mark.
+ * Incept:    SRE, Fri Jan  1 12:50:33 2010 [Magallon]
+ *
+ * Purpose:   Get pointers into the internal memory arrays of the
+ *            recorder <rc>, starting at the marked start of a block
+ *            and ending at the most recently read line <rc->ncurr-1>,
+ *            so you can parse a block of lines.
+ *            
+ *            Because these pointers are internally managed by the
+ *            recorder <rc>, they should not be freed or reallocated
+ *            or things like that. You should also avoid calling any
+ *            <esl_recorder_*()> functions until you're done accessing
+ *            these data, in case a function call alters the internal
+ *            state of the object. 
+ *            
+ *            If you do something that changes the contents of the
+ *            lines (like strtok()'ing them), those changes will be
+ *            preserved -- if you want to leave the original recorder
+ *            data untouched and you need a temporary working copy of
+ *            the data, you should make that copy yourself.
+ *
+ * Args:      opt_lines  : ptr to array of lines, indexed [0..*opt_nlines-1];
+ *                         starting with line <rc->markline> and ending with
+ *                         <rc->ncurr-1>, in order.
+ *            opt_lalloc : array of memory allocations for each line
+ *            opt_offset : array of offsets into input stream for start of each line
+ *            opt_nlines : number of lines (minimally) valid in these arrays,
+ *                         starting from the mark and ending at the most recent
+ *                         line read.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_recorder_GetBlock(ESL_RECORDER *rc, char ***opt_lines, int **opt_lalloc, off_t **opt_offset, int *opt_nlines)
+{
+  int idx0, idx1;
+  int status;
+
+  /* Everything from the markline to ncurr-1 must be in order and not
+   * permuted.  If it isn't in proper order, then reorder the recorder
+   * to have ncurr-1 in last array position.
+   */
+  idx0 = (rc->markline - rc->baseline) % rc->nalloc;
+  idx1 = (rc->ncurr-1  - rc->baseline) % rc->nalloc;
+  if (idx0 > idx1) 
+    { 
+      if ((status = recorder_new_baseline(rc, rc->ncurr-rc->nalloc)) != eslOK) goto ERROR;
+      idx0 = (rc->markline - rc->baseline) % rc->nalloc;
+    }
+
+  if (opt_lines)  *opt_lines  = rc->line   + idx0;
+  if (opt_lalloc) *opt_lalloc = rc->lalloc + idx0;
+  if (opt_offset) *opt_offset = rc->offset + idx0;
+  if (opt_nlines) *opt_nlines = rc->ncurr  - rc->markline;
+  return eslOK;
+
+ ERROR:
+  if (opt_lines)  *opt_lines  = NULL;
+  if (opt_lalloc) *opt_lalloc = NULL;
+  if (opt_offset) *opt_offset = NULL;
+  if (opt_nlines) *opt_nlines = 0;
+  return status;
+}
+/*----------------- end, using ESL_RECORDER ---------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Internal (static) functions
+ *****************************************************************/
+
+/* linearray_reverse() 
+ * In-place O(N) reversal of a subsection of the line array data,
+ * starting at i=pos, for n positions.
+ */
+static void
+linearray_reverse(ESL_RECORDER *rc, int pos, int n)
+{
+  int    i;
+  char  *tmps;
+  int    tmpi;
+  off_t  tmpo;
+
+  /* the line array itself */
+  for (i = 0; i < n/2; i++)
+    {
+      tmps                = rc->line[pos+n-i-1];
+      rc->line[pos+n-i-1] = rc->line[pos+i];
+      rc->line[pos+i]     = tmps;
+    }
+
+  /* the line allocation array */
+  for (i = 0; i < n/2; i++)
+    {
+      tmpi                  = rc->lalloc[pos+n-i-1];
+      rc->lalloc[pos+n-i-1] = rc->lalloc[pos+i];
+      rc->lalloc[pos+i]     = tmpi;
+    }
+
+  /* the offset array */
+  for (i = 0; i < n/2; i++)
+    {
+      tmpo                  = rc->offset[pos+n-i-1];
+      rc->offset[pos+n-i-1] = rc->offset[pos+i];
+      rc->offset[pos+i]     = tmpo;
+    }
+}
+
+/* recorder_new_baseline()
+ * SRE, Fri Jan  1 09:00:55 2010 [Zaragoza]
+ * 
+ * Set a ESL_RECORDER <rc> to a new baseline <newbase>, [0..N-1],
+ * greater than the previous baseline in the recorder.
+ * 
+ * In general, must succeed, returning <eslOK>. If new baseline
+ * is <= old one, throws <eslEINVAL>, but you shouldn't do that.
+ * 
+ * This is done in place in O(1) memory (no addiional or temporary
+ * allocation) and O(nalloc) time, using a trick: we can redo any
+ * circular permutation by no more than four in-place substring
+ * reversals:
+ *      
+ *  456|123 ->  654|321 -> 65|4321 -> 56|1234
+ *      (reversals)  (new brkpt) (reversals)
+ *
+ * Some possible cases (all examples nalloc=7) 
+ *   0  1  2  3  4  x  x   nread=5  [still filling the circle]
+ *   0  1  2  3  4  5  6   nread=7  [full, no wrapping yet]
+ *   7  8  2  3  4  5  6   nread=9  [wrapped]
+ *   7  8  9 10 11 12 13   nread=14 [back in order]
+ *   2  3  4  x  x  x  x   nread=5  baseline=2
+ *   2  3  4  5  6  7  8   nread=9  baseline=2
+ *   9 10  4  5  6  7  8   nread=11 baseline=2
+ *   9 10 11 12 13 14 15   nread=16 baseline=2 
+ *
+ * By reversing the two substrings (lengths n1 and n2), we now have a
+ * complete string in reverse order. Our examples now look like:
+ *   n1 n2
+ *   5   0     4  3  2  1  0  x  x
+ *   7   0     6  5  4  3  2  1  0
+ *   2   5     8  7  6  5  4  3  2
+ *   7   0    13 12 11 10  9  8  7
+ *   3   0     4  3  2  x  x  x  x
+ *   7   0     8  7  6  5  4  3  2
+ *   2   5    10  9  8  7  6  5  4
+ *   7   0    15 14 13 12 11 10  9
+ *
+ * After reversing two substrings calculated under the new
+ * baseline, our work is done. For example, if newbase=1,
+ * our first set of examples would look like:
+ *   n1 n2
+ *   4   0     1  2  3  4 [0  x  x]
+ *   6   0     1  2  3  4  5  6 [0]
+ *   1   6     8  2  3  4  5  6  7 
+ *   6   1     8  9 10 11 12 13  7
+ * and for newbase=3, the second set look like:
+ *   2   0     3  4 [2  x  x  x  x]
+ *   6   0     3  4  5  6  7  8 [2]
+ *   1   6    10  4  5  6  7  8  9
+ *   6   1    10 11 12 13 14 15  9
+ */
+static int
+recorder_new_baseline(ESL_RECORDER *rc, int newbase)
+{
+  int n1, n2;
+
+  if (newbase < rc->baseline)  ESL_EXCEPTION(eslEINVAL, "new baseline must be > old one");
+  if (newbase == rc->baseline) return eslOK;
+  
+  n1 = (rc->nread - rc->baseline) % rc->nalloc;
+  n2 = ESL_MIN(rc->nread-rc->baseline, rc->nalloc) - n1;
+
+  if (n1>1) linearray_reverse(rc,    0, n1);
+  if (n2>1) linearray_reverse(rc,   n1, n2);
+  
+  n1 = (rc->nread - newbase) % rc->nalloc;
+  n2 = ESL_MIN(rc->nread - newbase, rc->nalloc) - n1;
+    
+  if (n1>1) linearray_reverse(rc,  0, n1);
+  if (n2>1) linearray_reverse(rc, n1, n2);
+  
+  rc->baseline = newbase;
+  return eslOK;
+}
+/*----------------- end, internal functions ---------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 4. Benchmark driver
+ *****************************************************************/
+#ifdef eslRECORDER_BENCHMARK
+/* gcc -O2 -std=gnu99 -DeslRECORDER_BENCHMARK -o esl_recorder_benchmark -I. esl_recorder.c esl_stopwatch.c esl_getopts.c easel.c 
+ */
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_recorder.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,    "1000", NULL, "n>0", NULL,  NULL, NULL, "set recorder window size in lines",                0 },
+  { 0,0,0,0,0,0,0,0 },
+};
+static char usage[]  = "[-options] <filename>";
+static char banner[] = "benchmarking speed of ESL_RECORDER reading";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go        = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w         = esl_stopwatch_Create();
+  ESL_RECORDER  *rc        = NULL;
+  char          *filename  = esl_opt_GetArg(go, 1);
+  int            N         = esl_opt_GetInteger(go, "-N");
+  FILE          *fp        = NULL;
+  char          *buf       = NULL;
+  int            balloc    = 0;
+  int            status;
+  
+  if ((fp = fopen(filename, "r")) == NULL) esl_fatal("no such file %s\n", filename);
+  rc = esl_recorder_Create(fp, N);
+  esl_stopwatch_Start(w);
+  while ((status = esl_recorder_Read(rc, &buf)) == eslOK);
+  esl_recorder_Destroy(rc);
+  fclose(fp);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "recorder time:    ");
+  
+  if ((fp = fopen(filename, "r")) == NULL) esl_fatal("no such file %s\n", filename);
+  esl_stopwatch_Start(w);
+  while ((status = esl_fgets(&buf, &balloc, fp)) == eslOK);
+  free(buf);
+  fclose(fp);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "esl_fgets() time: ");
+
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslRECORDER_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Unit tests
+ *****************************************************************/
+#ifdef eslRECORDER_TESTDRIVE
+#include "esl_random.h"
+
+static void
+generate_testfile(ESL_RANDOMNESS *rng, char *tmpfile, int *is_data, int nlines)
+{
+  char *msg      = "esl_recorder:: test file generator failed";
+  FILE *fp       = NULL;
+  int   in_block = esl_rnd_Roll(rng, 2);      /* TRUE | FALSE */
+  int   nblock   = 1 + esl_rnd_Roll(rng, 10); /* 1..10        */
+  int   i;
+
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  for (i = 0; i < nlines; i++)
+    {
+      is_data[i] = in_block ? TRUE : FALSE;
+      fprintf(fp, "%c%d\n", (in_block ? '#' : ' '), i);
+      if (--nblock == 0) {
+	in_block = ! in_block;
+	nblock   = 1 + esl_rnd_Roll(rng, 10); /* 1..10 */
+      }
+    }
+  fclose(fp);
+}
+
+static void
+utest_basic(char *tmpfile, int N)
+{
+  char         *msg         = "esl_recorder:: basic unit test failed";
+  ESL_RECORDER *rc          = NULL;
+  FILE         *fp          = NULL;
+  int           i;
+  char         *buf;
+
+  if ((fp = fopen(tmpfile, "r"))        == NULL) esl_fatal(msg);
+  if ((rc = esl_recorder_Create(fp, N)) == NULL) esl_fatal(msg);
+  for (i = 0; i < N; i++) 
+    {
+      if (esl_recorder_Read(rc, &buf)  != eslOK) esl_fatal(msg);
+      if (atoi(buf+1) != i)                      esl_fatal(msg);
+    }
+  if (esl_recorder_Read(rc, &buf)     != eslEOF) esl_fatal(msg);
+
+  if (buf != NULL)                               esl_fatal(msg);
+  
+  if (esl_recorder_Position(rc, 0)     != eslOK) esl_fatal(msg);
+  for (i = 0; i < N; i++) 
+    {
+      if (esl_recorder_Read(rc, &buf)  != eslOK) esl_fatal(msg);
+      if (atoi(buf+1) != i)                      esl_fatal(msg);
+    }
+  if (esl_recorder_Read(rc, &buf)     != eslEOF) esl_fatal(msg);
+
+  fclose(fp);
+  esl_recorder_Destroy(rc);
+}
+
+
+static void
+utest_grow(char *tmpfile, int N)
+{
+  char         *msg         = "esl_recorder:: grow unit test failed";
+  ESL_RECORDER *rc          = NULL;
+  FILE         *fp          = NULL;
+  int           i;
+  char         *buf;
+
+  if ((fp = fopen(tmpfile, "r"))        == NULL) esl_fatal(msg);
+  if ((rc = esl_recorder_Create(fp, 3)) == NULL) esl_fatal(msg);
+  for (i = 0; i < 4; i++) 
+    {
+      if (esl_recorder_Read(rc, &buf) != eslOK)  esl_fatal(msg);
+      if (atoi(buf+1) != i)                      esl_fatal(msg);
+    }
+  /* recorder has now wrapped: contains lines 3 1 2 */
+
+  if (esl_recorder_Position(rc, 0) != eslEINVAL) esl_fatal(msg);
+  if (esl_recorder_Position(rc, 1) != eslOK)     esl_fatal(msg);
+  if (esl_recorder_ResizeTo(rc, 6) != eslOK)     esl_fatal(msg);
+  /* now 1 2 3 x x x */
+
+  for (i = 1; i < N; i++)
+    {
+      if (esl_recorder_Read(rc, &buf) != eslOK)  esl_fatal(msg);
+      if (atoi(buf+1) != i)                      esl_fatal(msg);
+    }
+  if (esl_recorder_Read(rc, &buf) != eslEOF)     esl_fatal(msg);
+
+  fclose(fp);
+  esl_recorder_Destroy(rc);
+}
+
+static void
+utest_grow2(char *tmpfile, int N)
+{
+  char         *msg         = "esl_recorder:: grow2 unit test failed";
+  ESL_RECORDER *rc          = NULL;
+  FILE         *fp          = NULL;
+  int           i;
+  char         *buf;
+
+  if (N < 5) esl_fatal(msg);	/* need at least this for this test */
+
+  if ((fp = fopen(tmpfile, "r"))        == NULL) esl_fatal(msg);
+  if ((rc = esl_recorder_Create(fp, 3)) == NULL) esl_fatal(msg);
+  for (i = 0; i < 4; i++) 
+    {
+      if (esl_recorder_Read(rc, &buf) != eslOK)  esl_fatal(msg);
+      if (atoi(buf+1) != i)                      esl_fatal(msg);
+    }
+  /* recorder has now wrapped: contains lines 3 1 2 */
+
+  if (esl_recorder_ResizeTo(rc, 6)   != eslOK)   esl_fatal(msg);
+  /* recorder should now have reset baseline: 1 2 3 x x x */
+
+  if (esl_recorder_Read(rc, &buf) != eslOK)      esl_fatal(msg);
+  if (atoi(buf+1) != 4)                          esl_fatal(msg);
+  /* now it should have 1 2 3 4 x x (and not 3 4 2 x x x, or x 1 2 3 4 x, for example) */
+
+  if (esl_recorder_Position(rc, 0) != eslEINVAL) esl_fatal(msg);
+  if (esl_recorder_Position(rc, 1) != eslOK)     esl_fatal(msg);
+  for (i = 1; i < N; i++)
+    {
+      if (esl_recorder_Read(rc, &buf) != eslOK)  esl_fatal(msg);
+      if (atoi(buf+1) != i)                      esl_fatal(msg);
+    }
+  if (esl_recorder_Read(rc, &buf) != eslEOF)     esl_fatal(msg);
+
+  fclose(fp);
+  esl_recorder_Destroy(rc);
+}
+
+static void
+utest_shrink(char *tmpfile, int N)
+{
+  char         *msg         = "esl_recorder:: shrink unit test failed";
+  ESL_RECORDER *rc          = NULL;
+  FILE         *fp          = NULL;
+  int           i;
+  char         *buf;
+
+  if ((fp = fopen(tmpfile, "r"))        == NULL) esl_fatal(msg);
+  if ((rc = esl_recorder_Create(fp, 6)) == NULL) esl_fatal(msg);
+  for (i = 0; i < 7; i++) 
+    {
+      if (esl_recorder_Read(rc, &buf) != eslOK) esl_fatal(msg);
+      if (atoi(buf+1) != i)                     esl_fatal(msg);
+    }
+  /* recorder has now wrapped: contains lines 6 1 2 3 4 5 */
+
+  if (esl_recorder_ResizeTo(rc, 3) != eslOK)    esl_fatal(msg);
+  /* now it's 6 4 5 */
+  if (esl_recorder_Position(rc, 4) != eslOK)    esl_fatal(msg);
+
+  for (i = 4; i < N; i++)
+    {
+      if (esl_recorder_Read(rc, &buf) != eslOK) esl_fatal(msg);
+      if (atoi(buf+1) != i)                     esl_fatal(msg);
+    }
+  if (esl_recorder_Read(rc, &buf) != eslEOF)    esl_fatal(msg);
+
+  fclose(fp);
+  esl_recorder_Destroy(rc);
+}
+
+static void
+utest_block(ESL_RANDOMNESS *rng, char *tmpfile, int *is_data, int N)
+{
+  char         *msg            = "esl_recorder:: block unit test failed";
+  ESL_RECORDER *rc             = NULL;
+  FILE         *fp             = NULL;
+  int           linenumber     = 0; /* where we should be in the file */
+  int           max_reposition = 2;
+  int           max_realloc    = 2;
+  int          *nseen1         = NULL; /* # of times we Read() each line */
+  int          *nseen2         = NULL; /* # of times we see each line in a block */
+  int           minalloc;
+  int           roll;
+  char         *buf;
+  char        **block;
+  int           from;
+  int           n,i;
+  int           status         = eslOK;
+
+  if ((fp = fopen(tmpfile, "r"))           == NULL) esl_fatal(msg);
+  roll = 1+esl_rnd_Roll(rng, N+1);	/* 1..N+1 */
+  if ((rc = esl_recorder_Create(fp, roll)) == NULL) esl_fatal(msg);
+
+  if ((nseen1  = malloc(sizeof(int) * N))   == NULL) esl_fatal(msg);
+  if ((nseen2  = malloc(sizeof(int) * N))   == NULL) esl_fatal(msg);
+  for (i = 0; i < N; i++) nseen1[i]  = 0;
+  for (i = 0; i < N; i++) nseen2[i]  = 0;
+  
+  while (status == eslOK)
+    {
+      /* skip nondata lines (no # prefix) */
+      do {
+	if (esl_recorder_Read(rc, &buf) == eslEOF)     goto DONE;   
+	if (atoi(buf+1)                 != linenumber) esl_fatal(msg);
+	if (esl_recorder_GetCurrent(rc) != linenumber) esl_fatal(msg);
+	nseen1[linenumber]++;
+	linenumber++;
+      } while (*buf != '#');
+
+      /* read block */
+      from = esl_recorder_GetCurrent(rc);
+      esl_recorder_MarkBlock(rc, from);
+      do {
+	if ((status = esl_recorder_Read(rc, &buf)) == eslEOF)   break;
+	if (atoi(buf+1)                 != linenumber) esl_fatal(msg);
+	if (esl_recorder_GetCurrent(rc) != linenumber) esl_fatal(msg);
+	nseen1[linenumber]++;	
+	linenumber++;
+      } while (*buf == '#');
+      
+      /* get the block */
+      esl_recorder_GetBlock(rc, &block, NULL, NULL, &n);
+      if (status == eslOK) n--;
+
+      /* check the block */
+      for (i = 0; i < n; i++)
+	{
+	  if (atoi(block[i]+1) != from+i) esl_fatal(msg);
+	  nseen2[from+i]++;	
+	}
+
+      /* unmark it */
+      esl_recorder_UnmarkBlock(rc);
+
+      /* some fraction of the time, reposition randomly */
+      if (status == eslOK && max_reposition && (roll = esl_rnd_Roll(rng, 5)) == 0)
+	{
+	  linenumber = esl_recorder_GetFirst(rc) + 
+	    esl_rnd_Roll(rng, esl_recorder_GetLast(rc) - esl_recorder_GetFirst(rc) + 1);
+	  if (esl_recorder_Position(rc, linenumber) != eslOK) esl_fatal(msg);
+	  max_reposition--;
+	}
+
+      /* some fraction of the time, shrink the allocation */
+      if (status == eslOK && max_realloc && (roll = esl_rnd_Roll(rng, 5)) == 0)
+	{
+	  /* must keep at least nread-ncurr+1 lines, to keep curr line in window */
+	  minalloc = rc->nread-rc->ncurr+1;
+	  roll = minalloc + esl_rnd_Roll(rng, rc->nalloc-minalloc+1);
+	  if (esl_recorder_ResizeTo(rc, roll) != eslOK) esl_fatal(msg);
+	  max_realloc--;
+	}
+    }
+  
+ DONE:			
+  /* we're EOF. We should be sitting on the last line. */
+  if (esl_recorder_GetCurrent(rc) != N-1) esl_fatal(msg);
+
+  /* We should have Read() every line at least once. */
+  for (i = 0; i < N; i++) 
+    if (! nseen1[i]) esl_fatal(msg);
+
+  /* In reading blocks, we should have seen each "data" line at least
+   * once; non-data lines, not at all.
+   */
+  for (i = 0; i < N; i++) {
+    if (  is_data[i] && ! nseen2[i]) esl_fatal(msg);
+    if (! is_data[i] &&   nseen2[i]) esl_fatal(msg);
+  }
+
+  fclose(fp);
+  esl_recorder_Destroy(rc);
+  free(nseen1);
+  free(nseen2);
+}
+
+#endif /*eslRECORDER_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef eslRECORDER_TESTDRIVE
+/* gcc -O2 -std=gnu99 -DeslRECORDER_TESTDRIVE -o esl_recorder_utest -I. esl_recorder.c esl_stopwatch.c esl_getopts.c esl_random.c easel.c -lm
+ */
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_recorder.h"
+
+static ESL_OPTIONS options[] = {
+  /* name      type      default  env  range toggles reqs incomp  help                         docgroup*/
+  { "-h",  eslARG_NONE, FALSE,  NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage", 0 },
+  { "-s",  eslARG_INT,    "42", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",        0 },
+  { "-v",  eslARG_NONE,   NULL, NULL, NULL, NULL, NULL, NULL, "more verbose output",                  0 },
+  { "-N",  eslARG_INT,   "200", NULL, NULL, NULL, NULL, NULL, "number of lines per test file",        0 },
+  { "-F",  eslARG_INT,   "100", NULL, NULL, NULL, NULL, NULL, "number of test files",                 0 },
+
+  { 0,0,0,0,0,0,0,0 },
+};
+static char usage[]  = "[-options] <filename>";
+static char banner[] = "test driver for ESL_RECORDER";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng         = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  char            template[13]= "esltmpXXXXXX";
+  char            tmpfile[13];
+  int             N           = esl_opt_GetInteger(go, "-N");
+  int             nfiles      = esl_opt_GetInteger(go, "-F");
+  int            *is_data     = malloc(sizeof(int) * N);
+
+  esl_exception_SetHandler(&esl_nonfatal_handler);
+
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("random number seed: %" PRIu32 "\n", esl_randomness_GetSeed(rng));
+  }
+
+  while (nfiles--) 
+    {
+      strcpy(tmpfile, template);
+      generate_testfile(rng, tmpfile, is_data, N);
+
+      utest_basic (tmpfile, N);
+      utest_grow  (tmpfile, N);
+      utest_grow2 (tmpfile, N);
+      utest_shrink(tmpfile, N);
+      utest_block (rng, tmpfile, is_data, N);
+
+      remove(tmpfile);
+    }
+
+  free(is_data);
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(rng);
+
+  printf("ok\n");
+  return 0;
+}
+#endif /*eslRECORDER_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Examples
+ *****************************************************************/
+#ifdef eslRECORDER_EXAMPLE
+/* gcc -g -Wall -std=gnu99 -DeslRECORDER_EXAMPLE -o esl_recorder_example -I. esl_recorder.c easel.c 
+ */
+
+#include "easel.h"
+#include "esl_recorder.h"
+
+int
+main(int argc, char **argv)
+{
+  FILE         *fp   = stdin;	
+  ESL_RECORDER *rc   = esl_recorder_Create(fp, 10);
+  char         *line;
+  int           i;
+  int           status;
+  
+  printf("\nFirst time:\n");
+  for (i = 0; i < 10; i++)
+    {
+      if ((status = esl_recorder_Read(rc, &line)) != eslOK) break; /* watch for EOF */
+      fputs(line, stdout);
+    }
+
+  esl_recorder_Position(rc, 0);	/* rewind to start */
+      
+  printf("\nOne more time:\n");
+  for (i = 0; i < 10; i++)
+    {
+      if ((status = esl_recorder_Read(rc, &line)) != eslOK) break; 
+      fputs(line, stdout);
+    }
+
+  esl_recorder_Destroy(rc);
+  return 0;
+}
+#endif /*eslRECORDER_EXAMPLE*/
+
+
+#ifdef eslRECORDER_EXAMPLE2
+/* gcc -g -Wall -std=gnu99 -DeslRECORDER_EXAMPLE2 -o esl_recorder_example2 -I. esl_recorder.c easel.c 
+ */
+
+#include <stdio.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_recorder.h"
+
+static int
+is_data(char *s)
+{
+  if (*s == '#') return TRUE;
+  //  for (; *s; s++) if (! isspace(*s)) return TRUE;
+  return FALSE;
+}
+
+int
+main(int argc, char **argv)
+{
+  FILE         *fp   = fopen(argv[1], "r");
+  ESL_RECORDER *rc   = esl_recorder_Create(fp, 10);
+  char         *line;
+  char        **block;
+  int           n;
+  int           nblocks=0;
+  int           i;
+  int           status = eslOK;
+  
+  while (status == eslOK)
+    {
+      /* skip lines without # */
+      do {
+	if (esl_recorder_Read(rc, &line) == eslEOF) goto DONE;   
+      } while (! is_data(line));
+
+      /* read block */
+      esl_recorder_MarkBlock(rc, esl_recorder_GetCurrent(rc));
+      do {
+	status = esl_recorder_Read(rc, &line);
+      } while (status == eslOK && is_data(line));
+      
+      /* get the block */
+      esl_recorder_GetBlock(rc, &block, NULL, NULL, &n);
+      nblocks++;
+
+      /* if we EOF'ed, n lines of block ended with the EOF;
+       * else, last line was a blank line
+       */
+      if (status == eslOK) n--;
+
+      /* show it (exclusive of the trailing blank line */
+      printf("BLOCK %d\n", nblocks);
+      for (i = 0; i < n; i++)
+	printf("line %4d: %s", i+1, block[i]);
+      printf("\n\n");
+
+      /* unmark it */
+      esl_recorder_UnmarkBlock(rc);
+    }
+
+ DONE:
+  esl_recorder_Destroy(rc);
+  fclose(fp);
+  return 0;
+}
+#endif /*eslRECORDER_EXAMPLE2*/
+/*------------------ end, example main() ------------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_recorder.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_recorder.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_recorder.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_recorder.h
new file mode 100755
index 0000000..5927315
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_recorder.h
@@ -0,0 +1,94 @@
+/* Saving history in a line-based input stream.
+ * 
+ * SRE, Mon Dec 28 09:51:51 2009 [Zaragoza]
+ * SVN $Id: esl_recorder.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_recorder.h $
+ */
+#ifndef eslRECORDER_INCLUDED
+#define eslRECORDER_INCLUDED
+
+#include "esl_config.h"
+
+#ifdef HAVE_SYS_TYPES_H
+#include <sys/types.h>
+#endif
+
+#include <stdio.h>
+
+/* Object: ESL_RECORDER
+ * 
+ * A history of a line-based input stream.
+ * Allows (limited) rewinding in nonrewindable input streams;
+ * also allows block-based parsing (as opposed to line-based).
+ *
+ * The history is kept in a rolling array of string ptrs. The
+ * bookkeeping involved in indexing this array can be confusing.
+ * 
+ * Lines in the file are numbered 0..N-1. 
+ * (N isn't known; we'll be reading sequentially.)
+ * Lines in the recorder are 0..nalloc-1.
+ *
+ * The recorder keeps track of how many lines it has read so far, in
+ * <nread>.
+ * 
+ * The recorder can be backed up to any previous line. It sets <ncurr>
+ * to be the number of lines it *appears* to have read so far;
+ * that is, the next line it will return to the caller, upon a call
+ * to esl_recorder_Read(), is line <ncurr>. 
+ * 
+ * A window of MIN(nread, nalloc) lines is stored;
+ * consisting of line numbers MAX(baseline, nread-nalloc) .. nread-1).
+ * 
+ * A line n in the file (0..n..N-1) corresponds to
+ * an index i in the recorder by these transforms:
+ *    i = (n-baseline) % nalloc
+ *    n = i + MAX(baseline, nread-nalloc)
+ *    
+ * Normally the baseline for the modulo calculation is just 0.    
+ *
+ * The line array is circularly permuted (out of order) when
+ * (nread-baseline) / nalloc != 0.
+ */
+typedef struct {
+  FILE    *fp;		/* stream that we're reading line by line           */
+
+  char   **line;	/* lines from input, line[0..nalloc-1]              */
+  int      nalloc;	/* max number of lines remembered                   */
+  int     *lalloc;	/* alloc for each line[0..nalloc-1][0..lalloc[i]-1] */
+  off_t   *offset;	/* disk offsets to starts of each line              */
+
+  int      nread;       /* max # of lines read from file in any pass [1..]  */
+  int      ncurr;       /* # of lines into file in current pass      [1..]  */
+
+  int      baseline;	/* line origin for n<->i transform [0..]            */
+  int      markline;	/* line origin for start of current block [-1;0..]  */
+} ESL_RECORDER;
+
+
+extern ESL_RECORDER *esl_recorder_Create    (FILE *fp, int maxlines);
+extern int           esl_recorder_ResizeTo  (ESL_RECORDER *rc, int new_maxlines);
+extern int           esl_recorder_GetFirst  (ESL_RECORDER *rc);
+extern int           esl_recorder_GetLast   (ESL_RECORDER *rc);
+extern int           esl_recorder_GetCurrent(ESL_RECORDER *rc);
+extern int           esl_recorder_GetNext   (ESL_RECORDER *rc);
+extern void          esl_recorder_Destroy   (ESL_RECORDER *rc);
+
+extern int           esl_recorder_Read(ESL_RECORDER *rc, char **opt_line);
+extern int           esl_recorder_Position(ESL_RECORDER *rc, int linenumber);
+extern int           esl_recorder_MarkBlock(ESL_RECORDER *rc, int markline);
+extern int           esl_recorder_UnmarkBlock(ESL_RECORDER *rc);
+extern int           esl_recorder_GetBlock(ESL_RECORDER *rc, char ***opt_lines, int **opt_lalloc, off_t **opt_offset, int *opt_nlines);
+
+
+#endif /*eslRECORDER_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.c
new file mode 100755
index 0000000..1cfb042
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.c
@@ -0,0 +1,1916 @@
+/* regexp.c
+ * Regular expression matching on strings.
+ *
+ *****************************************************************
+ * This is a wrapper around a modified version of Henry Spencer's
+ * regex library. Spencer's copyright notice appears below, after my
+ * wrappers, prefacing the section that includes his code. I believe
+ * you can obtain the original code from:
+ *    ftp://ftp.zoo.toronto.edu/pub/bookregex.tar.Z 
+ * Thanks, Henry!
+ *
+ * My modifications are generally limited to converting error handling
+ * to Easel conventions, internalizing Spencer's code as all
+ * static to this module, and some cosmetic changes to names
+ * for namespace protection reasons. I am responsible for any
+ * errors that I've introduced into Spencer's code.
+ *
+ *****************************************************************
+ * nomenclature note:
+ *    A "machine" is a persistent ESL_REGEXP object, which contains
+ *    an NDFA for a pattern, but the NDFA may change throughout
+ *    the life of the machine.
+ *    
+ *    An "NDFA" (nondeterministic finite automaton) refers to
+ *    an internal esl__regexp structure, which is Spencer's 
+ *    compiled pattern-program. We try to compile an NDFA once per
+ *    pattern.
+ *    
+ *    A "pattern" refers to actual regular expression we're trying
+ *    to match, represented as an ASCII string.
+ *    
+ *****************************************************************
+ * error handling note: (xref STL9/p2)
+ *    We expect that the input pattern may be provided by the user,
+ *    and so a very common error will be an invalid regular expression
+ *    syntax. There are 9 types of syntax errors caught by the
+ *    regcomp() code and its friends. All of them generate an
+ *    eslESYNTAX error, with a terse message. Under the default
+ *    error handler this message will be printed and the code will halt.
+ *    If you do not want invalid input regex syntax to halt your application,
+ *    you can install a custom error handler that can handle
+ *    the eslESYNTAX errors as you wish.
+ *****************************************************************
+ * TODO:
+ *  - would be great to have an esl_regexp_Sample(), which sampled
+ *    strings from a regexp. We could use this in unit tests that 
+ *    need to stress edge cases (generating strings with unusual
+ *    but legal characters, for example). We would probably want
+ *    to implement some artificial limits on repeat operators,
+ *    to keep length of sampled seq reasonable.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_regexp.h"
+
+/* Forward declarations of Spencer's API as static, internalized in my module.
+ */
+static esl__regexp *regcomp(const char *exp);
+static int          regexec(register esl__regexp *prog, const char *str);
+/* his regsub() is present but unused, ifdef'd out to silence compilers; uncomment to reactivate */
+/* static int          regsub(const esl__regexp *rp, const char *source, char *dest); */
+#ifdef DEBUG
+static void         regdump(esl__regexp *r);
+#endif
+
+
+
+
+/*****************************************************************
+ * Easel's regexp API
+ *****************************************************************/
+
+/* Function:  esl_regexp_Create()
+ * Incept:    SRE, Fri Jan  7 10:55:48 2005 [St. Louis]
+ *
+ * Purpose:   Creates a new <ESL_REGEXP> machine.
+ *
+ * Throws:    NULL on allocation failure.
+ *
+ * Xref:      STL9/p1
+ */
+ESL_REGEXP *
+esl_regexp_Create(void)
+{
+  int status;
+  ESL_REGEXP *machine = NULL;
+
+  ESL_ALLOC(machine, sizeof(ESL_REGEXP));
+  machine->ndfa = NULL;
+  return machine;
+
+ ERROR:
+  return NULL;
+}
+
+
+/* Function:  esl_regexp_Destroy()
+ * Incept:    SRE, Fri Jan  7 11:12:20 2005 [St. Louis]
+ *
+ * Purpose:   Destroy a machine created by <esl_regexp_Create()>.
+ *
+ * Returns:   void.
+ */
+void
+esl_regexp_Destroy(ESL_REGEXP *machine)
+{
+  /* Spencer's clever alloc for the NDFA allows us to free it w/ free()  */
+  if (machine->ndfa != NULL) free(machine->ndfa); 
+  free(machine);
+  return;
+}
+
+
+
+
+/* Function:  esl_regexp_Match()
+ * Incept:    SRE, Fri Jan  7 11:24:02 2005 [St. Louis]
+ *
+ * Purpose:   Determine if string <s> matches the regular expression <pattern>,
+ *            using a <machine>.
+ *
+ * Returns:   <eslOK> if <pattern> matches <s>; <eslEOD> if it doesn't.
+ *            
+ * Throws:    <eslEINVAL> if the <pattern> couldn't be compiled for any reason.
+ *            Throws <eslEINCONCEIVABLE> or <eslECORRUPT> if something
+ *            went wrong in the search phase.
+ *            (At the failure point, an error was generated with an appropriate
+ *            code and message; an <ESL_SYNTAX> code, for example, may have
+ *            been generated to indicate that the <pattern> is an invalid syntax.)
+ */
+int
+esl_regexp_Match(ESL_REGEXP *machine, const char *pattern, const char *s)
+{
+  if (machine->ndfa != NULL) { free(machine->ndfa); machine->ndfa = NULL; }
+  if ((machine->ndfa = regcomp(pattern)) == NULL) return eslEINVAL;
+  return regexec(machine->ndfa, s);
+}
+
+
+/* Function:  esl_regexp_Compile()
+ * Incept:    SRE, Sat Jan  8 09:56:21 2005 [St. Louis]
+ *
+ * Purpose:   Precompile an NDFA for <pattern> and store it in 
+ *            a <machine>, in preparation for using the same
+ *            pattern for multiple searches (see
+ *            <esl_regexp_MultipleMatches()>).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if compilation fails.
+ */
+int
+esl_regexp_Compile(ESL_REGEXP *machine, const char *pattern)
+{
+  if (machine->ndfa != NULL) { free(machine->ndfa); machine->ndfa = NULL; }
+  if ((machine->ndfa = regcomp(pattern)) == NULL) return eslEINVAL;
+  return eslOK;
+}
+
+
+/* Function:  esl_regexp_MultipleMatches()
+ * Incept:    SRE, Sat Jan  8 10:01:27 2005 [St. Louis]
+ *
+ * Purpose:   Given a <machine> that contains a precompiled NDFA (see
+ *            <esl_regexp_Compile()>, search it against a <string>.
+ *            pointed to by <sptr>. When a match is found, returns
+ *            <eslOK>, and resets <sptr> to point at the next character
+ *            after the matched substring. (This may be 
+ *            trailing NUL byte if the matched substring is at the
+ *            very end of the string.)  If no match is found in the
+ *            string, returns <eslEOD>.
+ *            
+ *            Because <sptr> is changed, the caller should
+ *            initialize and use a temporary pointer into the string
+ *            to be searched, not the caller's own pointer to the
+ *            target string.
+ *
+ * Example:   
+ *            s = string;
+ *            while (esl_regexp_MultipleMatches(m, &s) == eslOK)
+ *                // process one match at a time//;
+ *
+ * Throws:    <eslEINCONCEIVABLE> or <eslECORRUPT> if something goes awry internally
+ *            during the search.
+ */
+int
+esl_regexp_MultipleMatches(ESL_REGEXP *machine, char **sptr)
+{
+  int status;
+
+  status = regexec(machine->ndfa, *sptr);  
+  if (status == eslOK) 
+    *sptr = machine->ndfa->endp[0]; /* endp points exactly where we want. */
+  else 
+    *sptr = NULL;
+  return status;
+}
+
+
+
+/* Function:  esl_regexp_SubmatchDup()
+ * Incept:    SRE, Sat Jan  8 11:12:29 2005 [St. Louis]
+ *
+ * Purpose:   Given a <machine> that has just got done matching 
+ *            some pattern against a target string, 
+ *            retrieve a substring that matched the pattern
+ *            or one of the ()'d parts of it. <elem> indicates
+ *            which submatch to retrieve. <elem> 0 is the complete
+ *            match;  1..15 (assuming the default <ESL_REGEXP_NSUB>=16)
+ *            are up to 15 ()'d submatches in the pattern.
+ *
+ * Returns:   ptr to an allocated, NUL-terminated string containing
+ *            the matched part of the string. Caller is responsible
+ *            for free'ing this string.
+ *      
+ * Throws:    NULL on any internal failure.
+ */
+char *
+esl_regexp_SubmatchDup(ESL_REGEXP *machine, int elem)
+{
+  char *s;
+  int   len;
+  int   status;
+
+  if (elem >= ESL_REGEXP_NSUB || elem < 0) 
+    ESL_XEXCEPTION(eslEINVAL, "bad elem arg");
+  if (machine->ndfa->startp[elem] == NULL || machine->ndfa->endp[elem] == NULL)
+    ESL_XEXCEPTION(eslEINVAL, "no such submatch recorded");
+
+  len = machine->ndfa->endp[elem] - machine->ndfa->startp[elem];
+  ESL_ALLOC(s, sizeof(char) * (len+1));
+  strncpy(s, machine->ndfa->startp[elem], len);
+  s[len] = '\0';
+  return s;
+
+ ERROR:
+  return NULL;
+}
+
+/* Function:  esl_regexp_SubmatchCopy()
+ * Incept:    SRE, Sat Jan  8 11:12:29 2005 [St. Louis]
+ *
+ * Purpose:   Given a <machine> that has just got done matching some
+ *            pattern against a target string, copy a substring that
+ *            matched the pattern or one of the ()'d parts of it into
+ *            a provided <buffer> with <nc> chars of space allocated.
+ *            <elem> indicates which submatch to retrieve. <elem> 0 is
+ *            the complete match; 1..15 (assuming the default
+ *            <ESL_REGEXP_NSUB>=16) are up to 15 ()'d submatches in
+ *            the pattern.
+ *
+ * Returns:   <eslOK> on success, and buffer contains the NUL-terminated
+ *            substring. 
+ *      
+ * Throws:    <eslEINVAL> on any of several possible internal failures,
+ *            including the <buffer> being too small to contain the 
+ *            substring.
+ */
+int
+esl_regexp_SubmatchCopy(ESL_REGEXP *machine, int elem, char *buffer, int nc)
+{
+  int   len;
+  int   status;
+
+  if (elem >= ESL_REGEXP_NSUB || elem < 0) 
+    ESL_XEXCEPTION(eslEINVAL, "bad elem arg");
+  if (machine->ndfa->startp[elem] == NULL || machine->ndfa->endp[elem] == NULL)
+    ESL_XEXCEPTION(eslEINVAL, "no such submatch recorded");
+
+  len = machine->ndfa->endp[elem] - machine->ndfa->startp[elem];
+  if (len >= nc) 
+    ESL_XEXCEPTION(eslEINVAL, "buffer too small to hold submatch");
+
+  strncpy(buffer, machine->ndfa->startp[elem], len);
+  buffer[len] = '\0';
+  return eslOK;
+
+ ERROR:
+  buffer[0] = '\0';
+  return status;
+}
+
+
+
+/* Function:  esl_regexp_SubmatchCoords()
+ * Incept:    SRE, Sat Jan  8 11:46:11 2005 [St. Louis]
+ *
+ * Purpose:   Given a <machine> that has just got done matching some
+ *            pattern against a target string, find the start/end
+ *            coordinates of the substring that matched the
+ *            pattern or one of the ()'d parts of it, relative to
+ *            a pointer <origin> on the target string. Return the result
+ *            through the ptrs <ret_start> and <ret_end>.  <elem>
+ *            indicates which submatch to retrieve. <elem> 0 is the
+ *            complete match; 1..15 (assuming the default
+ *            <ESL_REGEXP_NSUB> = 16) are up to 15 ()'d submatches in
+ *            the pattern.
+ *            
+ *            The coordinates given in zero-offset convention relative
+ *            to an <origin>. <origin> will usually be a pointer to
+ *            the complete target string, in which case the coords
+ *            would be [0..L-1]. However, one can extract coords
+ *            relative to any other <origin> in the target string,
+ *            even including an <origin> downstream of the match, so
+ *            relative coords can be negative, ranging from -(L-1) to
+ *            (L-1).
+ *            
+ *            Coords will be correct even if the match was
+ *            found by a <esl_regexp_MultipleMatches()> call against
+ *            a temp pointer into the target string.
+ *
+ * Returns:   <eslOK> on success, and <ret_start> and <ret_end>
+ *            are set to the start/end coordinates of the submatch.
+ *
+ * Throws:    <eslEINVAL> on internal failures.
+ *            The function is incapable of detecting a case in
+ *            where <origin> is not in the same string that the
+ *            <machine> matched like it should be. If a caller does
+ *            this, the function may appear to succeed, but start and end  
+ *            coords will be garbage.
+ */
+int
+esl_regexp_SubmatchCoords(ESL_REGEXP *machine, char *origin, int elem, 
+			  int *ret_start, int *ret_end)
+{
+  int status;
+
+  if (elem >= ESL_REGEXP_NSUB || elem < 0) 
+    ESL_XEXCEPTION(eslEINVAL, "bad elem arg");
+  if (machine->ndfa->startp[elem] == NULL || machine->ndfa->endp[elem] == NULL)
+    ESL_XEXCEPTION(eslEINVAL, "no such submatch recorded");
+
+  *ret_start = machine->ndfa->startp[elem] - origin;
+  *ret_end   = machine->ndfa->endp[elem]   - origin - 1;
+  return eslOK;
+
+ ERROR:
+  *ret_start = 0;
+  *ret_end   = 0;
+  return status;
+}
+
+
+
+/* Function:  esl_regexp_ParseCoordString()
+ *
+ * Purpose:   Given a string <cstring> of the format required for a
+ *            range (<from>..<to>, e.g. 10..23  or 39-91) parse out
+ *            the start and end, and return them within the variables
+ *            <ret_start> and <ret_end>.
+ *
+ * Returns:   <eslOK> on success, and <ret_start> and <ret_end>
+ *            are set to the start/end coordinates of the parse.
+ *
+ * Throws:    <eslESYNTAX> if a regexp match is not made, and
+ *            <eslFAIL> if the start or end values are not parsed.
+ */
+int
+esl_regexp_ParseCoordString(const char *cstring, uint32_t *ret_start, uint32_t *ret_end)
+{
+  ESL_REGEXP *re = esl_regexp_Create();
+  char        tok1[32];
+  char        tok2[32];
+
+  if (esl_regexp_Match(re, "^(\\d+)\\D+(\\d*)$", cstring) != eslOK) return eslESYNTAX;
+  if (esl_regexp_SubmatchCopy(re, 1, tok1, 32)            != eslOK) return eslFAIL;
+  if (esl_regexp_SubmatchCopy(re, 2, tok2, 32)            != eslOK) return eslFAIL;
+
+  *ret_start = atol(tok1);
+  *ret_end   = (tok2[0] == '\0') ? 0 : atol(tok2);
+
+  /* '0' is invalid start, check for that */
+  if(*ret_start == 0)                  esl_fatal("-c takes arg of positive integer subseq coords <from>..<to>, read 0 as <from>");
+
+  esl_regexp_Destroy(re);
+  return eslOK;
+}
+
+
+/*=================== end of the exposed API ==========================================*/
+
+
+
+
+/**************************************************************************************
+ * This next big chunk of code is:
+ * Copyright (c) 1986, 1993, 1995 by University of Toronto.
+ * Written by Henry Spencer.  Not derived from licensed software.
+ *
+ * Permission is granted to anyone to use this software for any
+ * purpose on any computer system, and to redistribute it in any way,
+ * subject to the following restrictions:
+ *
+ * 1. The author is not responsible for the consequences of use of
+ * 	this software, no matter how awful, even if they arise
+ * 	from defects in it.
+ *
+ * 2. The origin of this software must not be misrepresented, either
+ * 	by explicit claim or by omission.
+ * 
+ * 3. Altered versions must be plainly marked as such, and must not
+ * 	be misrepresented (by explicit claim or omission) as being
+ *	the original software.
+ *
+ * 4. This notice must not be removed or altered.
+ */
+
+/*
+ * regcomp and regexec -- regsub and regerror are elsewhere
+ */
+
+/*
+ * The first byte of the regexp internal "program" is actually this magic
+ * number; the start node begins in the second byte.
+ */
+#define	REGMAGIC	0234
+
+/*
+ * The "internal use only" fields in regexp.h are present to pass info from
+ * compile to execute that permits the execute phase to run lots faster on
+ * simple cases.  They are:
+ *
+ * regstart	char that must begin a match; '\0' if none obvious
+ * reganch	is the match anchored (at beginning-of-line only)?
+ * regmust	string (pointer into program) that match must include, or NULL
+ * regmlen	length of regmust string
+ *
+ * Regstart and reganch permit very fast decisions on suitable starting points
+ * for a match, cutting down the work a lot.  Regmust permits fast rejection
+ * of lines that cannot possibly match.  The regmust tests are costly enough
+ * that regcomp() supplies a regmust only if the r.e. contains something
+ * potentially expensive (at present, the only such thing detected is * or +
+ * at the start of the r.e., which can involve a lot of backup).  Regmlen is
+ * supplied because the test in regexec() needs it and regcomp() is computing
+ * it anyway.
+ */
+
+/*
+ * Structure for regexp "program".  This is essentially a linear encoding
+ * of a nondeterministic finite-state machine (aka syntax charts or
+ * "railroad normal form" in parsing technology).  Each node is an opcode
+ * plus a "next" pointer, possibly plus an operand.  "Next" pointers of
+ * all nodes except BRANCH implement concatenation; a "next" pointer with
+ * a BRANCH on both ends of it is connecting two alternatives.  (Here we
+ * have one of the subtle syntax dependencies:  an individual BRANCH (as
+ * opposed to a collection of them) is never concatenated with anything
+ * because of operator precedence.)  The operand of some types of node is
+ * a literal string; for others, it is a node leading into a sub-FSM.  In
+ * particular, the operand of a BRANCH node is the first node of the branch.
+ * (NB this is *not* a tree structure:  the tail of the branch connects
+ * to the thing following the set of BRANCHes.)  The opcodes are:
+ */
+
+/* definition	number	opnd?	meaning */
+#define	END	0	/* no	End of program. */
+#define	BOL	1	/* no	Match beginning of line. */
+#define	EOL	2	/* no	Match end of line. */
+#define	ANY	3	/* no	Match any character. */
+#define	ANYOF	4	/* str	Match any of these. */
+#define	ANYBUT	5	/* str	Match any but one of these. */
+#define	BRANCH	6	/* node	Match this, or the next..\&. */
+#define	BACK	7	/* no	"next" ptr points backward. */
+#define	EXACTLY	8	/* str	Match this string. */
+#define	NOTHING	9	/* no	Match empty string. */
+#define	STAR	10	/* node	Match this 0 or more times. */
+#define	PLUS	11	/* node	Match this 1 or more times. */
+#define	OPEN	20	/* no	Sub-RE starts here. */
+			/*	OPEN+1 is number 1, etc. */
+#define	CLOSE	30	/* no	Analogous to OPEN. */
+
+/*
+ * Opcode notes:
+ *
+ * BRANCH	The set of branches constituting a single choice are hooked
+ *		together with their "next" pointers, since precedence prevents
+ *		anything being concatenated to any individual branch.  The
+ *		"next" pointer of the last BRANCH in a choice points to the
+ *		thing following the whole choice.  This is also where the
+ *		final "next" pointer of each individual branch points; each
+ *		branch starts with the operand node of a BRANCH node.
+ *
+ * BACK		Normal "next" pointers all implicitly point forward; BACK
+ *		exists to make loop structures possible.
+ *
+ * STAR,PLUS	'?', and complex '*' and '+', are implemented as circular
+ *		BRANCH structures using BACK.  Simple cases (one character
+ *		per match) are implemented with STAR and PLUS for speed
+ *		and to minimize recursive plunges.
+ *
+ * OPEN,CLOSE	...are numbered at compile time.
+ */
+
+/*
+ * A node is one char of opcode followed by two chars of "next" pointer.
+ * "Next" pointers are stored as two 8-bit pieces, high order first.  The
+ * value is a positive offset from the opcode of the node containing it.
+ * An operand, if any, simply follows the node.  (Note that much of the
+ * code generation knows about this implicit relationship.)
+ *
+ * Using two bytes for the "next" pointer is vast overkill for most things,
+ * but allows patterns to get big without disasters.
+ */
+#define	OP(p)		(*(p))
+#define	NEXT(p)		(((*((p)+1)&0177)<<8) + (*((p)+2)&0377))
+#define	OPERAND(p)	((p) + 3)
+
+/*
+ * Utility definitions.
+ */
+#define	ISREPN(c)	((c) == '*' || (c) == '+' || (c) == '?')
+#define	META		"^$.[()|?+*\\"
+
+/*
+ * Flags to be passed up and down.
+ */
+#define	HASWIDTH	01	/* Known never to match null string. */
+#define	SIMPLE		02	/* Simple enough to be STAR/PLUS operand. */
+#define	SPSTART		04	/* Starts with * or +. */
+#define	WORST		0	/* Worst case. */
+
+/*
+ * Work-variable struct for regcomp().
+ */
+struct comp {
+	char *regparse;		/* Input-scan pointer. */
+	int regnpar;		/* () count. */
+	char *regcode;		/* Code-emit pointer; &regdummy = don't. */
+	char regdummy[3];	/* NOTHING, 0 next ptr */
+	long regsize;		/* Code size. */
+};
+#define	EMITTING(cp)	((cp)->regcode != (cp)->regdummy)
+
+/*
+ * Forward declarations for regcomp()'s friends.
+ */
+static char *reg(struct comp *cp, int paren, int *flagp);
+static char *regbranch(struct comp *cp, int *flagp);
+static char *regpiece(struct comp *cp, int *flagp);
+static char *regatom(struct comp *cp, int *flagp);
+static char *regnode(register struct comp *cp, char op);
+static char *regnext(char *node);
+static void regc(struct comp *cp, char c);
+static void reginsert(struct comp *cp, char op, char *opnd);
+static void regtail(struct comp *cp, char *p, char *val);
+static void regoptail(struct comp *cp, char *p, char *val);
+static char *regescape(struct comp *cp, char c);
+
+/*
+ - regcomp - compile a regular expression into internal code
+ *
+ * We can't allocate space until we know how big the compiled form will be,
+ * but we can't compile it (and thus know how big it is) until we've got a
+ * place to put the code.  So we cheat:  we compile it twice, once with code
+ * generation turned off and size counting turned on, and once "for real".
+ * This also means that we don't allocate space until we are sure that the
+ * thing really will compile successfully, and we never have to move the
+ * code and thus invalidate pointers into it.  (Note that it has to be in
+ * one piece because free() must be able to free it all.)
+ *
+ * Beware that the optimization-preparation code in here knows about some
+ * of the structure of the compiled regexp.
+ * 
+ * Returns valid ptr on success.
+ * Throws NULL on internal errors, or if <exp> is invalid.
+ *  
+ * Regular expressions with invalid syntax will fail to compile somewhere,
+ * generating an eslESYNTAX error with a terse but useful message.
+ * 
+ */
+static esl__regexp *
+regcomp(const char *exp)
+{
+        int status;
+	register esl__regexp *r = NULL;
+	register char *scan;
+	int flags;
+	struct comp co;
+
+	if (exp == NULL) ESL_XEXCEPTION(eslEINVAL, "NULL argument to regcomp");
+
+	/* First pass: determine size, legality. */
+	co.regparse = (char *)exp;
+	co.regnpar = 1;
+	co.regsize = 0L;
+	co.regdummy[0] = NOTHING;
+	co.regdummy[1] = co.regdummy[2] = 0;
+	co.regcode = co.regdummy;
+	regc(&co, REGMAGIC);
+	if (reg(&co, 0, &flags) == NULL) goto ERROR;
+
+	/* Small enough for pointer-storage convention? */
+	if (co.regsize >= 0x7fffL)	/* Probably could be 0xffffL. */
+	  ESL_XEXCEPTION(eslEMEM, "regexp too big");
+
+	/* Allocate space. */
+	ESL_ALLOC(r, sizeof(esl__regexp) + (size_t)co.regsize);
+
+	/* Second pass: emit code. */
+	co.regparse = (char *)exp;
+	co.regnpar = 1;
+	co.regcode = r->program;
+	regc(&co, REGMAGIC);
+	if (reg(&co, 0, &flags) == NULL) goto ERROR;
+
+	/* Dig out information for optimizations. */
+	r->regstart = '\0';		/* Worst-case defaults. */
+	r->reganch = 0;
+	r->regmust = NULL;
+	r->regmlen = 0;
+	scan = r->program+1;		/* First BRANCH. */
+	if (OP(regnext(scan)) == END) {	/* Only one top-level choice. */
+		scan = OPERAND(scan);
+
+		/* Starting-point info. */
+		if (OP(scan) == EXACTLY)
+			r->regstart = *OPERAND(scan);
+		else if (OP(scan) == BOL)
+			r->reganch = 1;
+
+		/*
+		 * If there's something expensive in the r.e., find the
+		 * longest literal string that must appear and make it the
+		 * regmust.  Resolve ties in favor of later strings, since
+		 * the regstart check works with the beginning of the r.e.
+		 * and avoiding duplication strengthens checking.  Not a
+		 * strong reason, but sufficient in the absence of others.
+		 */
+		if (flags&SPSTART) {
+			register char *longest = NULL;
+			register size_t len = 0;
+
+			for (; scan != NULL; scan = regnext(scan))
+				if (OP(scan) == EXACTLY && strlen(OPERAND(scan)) >= len) {
+					longest = OPERAND(scan);
+					len = strlen(OPERAND(scan));
+				}
+			r->regmust = longest;
+			r->regmlen = (int)len;
+		}
+	}
+
+	return(r);
+
+ ERROR:
+	if (r != NULL) free(r);
+	return NULL;
+}
+
+/*
+ - reg - regular expression, i.e. main body or parenthesized thing
+ *
+ * Caller must absorb opening parenthesis.
+ *
+ * Combining parenthesis handling with the base level of regular expression
+ * is a trifle forced, but the need to tie the tails of the branches to what
+ * follows makes it hard to avoid.
+ */
+static char *
+reg(register struct comp *cp, int paren, int *flagp)
+{
+  int status;
+  register char *ret = NULL;   /* SRE: NULL init added to silence gcc */
+  register char *br;
+  register char *ender;
+  register int parno = 0;	/* SRE: init added to silence gcc */
+  int flags;
+
+  *flagp = HASWIDTH;	/* Tentatively. */
+
+  if (paren) {
+		/* Make an OPEN node. */
+    if (cp->regnpar >= ESL_REGEXP_NSUB) 
+	ESL_XEXCEPTION(eslESYNTAX, "too many ()");
+    parno = cp->regnpar;
+    cp->regnpar++;
+    ret = regnode(cp, OPEN+parno);
+  }
+
+  /* Pick up the branches, linking them together. */
+  br = regbranch(cp, &flags);
+  if (br == NULL)
+    return(NULL);
+  if (paren)
+    regtail(cp, ret, br);	/* OPEN -> first. */
+  else
+    ret = br;
+  *flagp &= ~(~flags&HASWIDTH);	/* Clear bit if bit 0. */
+  *flagp |= flags&SPSTART;
+  while (*cp->regparse == '|') {
+    cp->regparse++;
+    br = regbranch(cp, &flags);
+    if (br == NULL)
+      return(NULL);
+    regtail(cp, ret, br);	/* BRANCH -> BRANCH. */
+    *flagp &= ~(~flags&HASWIDTH);
+    *flagp |= flags&SPSTART;
+  }
+
+  /* Make a closing node, and hook it on the end. */
+  ender = regnode(cp, (paren) ? CLOSE+parno : END);
+  regtail(cp, ret, ender);
+
+  /* Hook the tails of the branches to the closing node. */
+  for (br = ret; br != NULL; br = regnext(br))
+    regoptail(cp, br, ender);
+
+  /* Check for proper termination. */
+  if (paren && *cp->regparse++ != ')') {
+    ESL_XEXCEPTION(eslESYNTAX, "unterminated ()");
+  } else if (!paren && *cp->regparse != '\0') {
+    if (*cp->regparse == ')') {
+      ESL_XEXCEPTION(eslESYNTAX, "unmatched ()");
+    } else
+      ESL_XEXCEPTION(eslECORRUPT, "internal error: junk on end");
+    /* NOTREACHED */
+  }
+  return(ret);
+
+ ERROR:
+  return NULL;
+}
+
+/*
+ - regbranch - one alternative of an | operator
+ *
+ * Implements the concatenation operator.
+ */
+static char *
+regbranch(register struct comp *cp, int *flagp)
+{
+	register char *ret;
+	register char *chain;
+	register char *latest;
+	int flags;
+	register int c;
+
+	*flagp = WORST;				/* Tentatively. */
+
+	ret = regnode(cp, BRANCH);
+	chain = NULL;
+	while ((c = *cp->regparse) != '\0' && c != '|' && c != ')') {
+		latest = regpiece(cp, &flags);
+		if (latest == NULL)
+			return(NULL);
+		*flagp |= flags&HASWIDTH;
+		if (chain == NULL)		/* First piece. */
+			*flagp |= flags&SPSTART;
+		else
+			regtail(cp, chain, latest);
+		chain = latest;
+	}
+	if (chain == NULL)			/* Loop ran zero times. */
+		(void) regnode(cp, NOTHING);
+
+	return(ret);
+}
+
+/*
+ - regpiece - something followed by possible [*+?]
+ *
+ * Note that the branching code sequences used for ? and the general cases
+ * of * and + are somewhat optimized:  they use the same NOTHING node as
+ * both the endmarker for their branch list and the body of the last branch.
+ * It might seem that this node could be dispensed with entirely, but the
+ * endmarker role is not redundant.
+ * 
+ * Returns valid ptr on success.
+ * Throws NULL on errors.
+ */
+static char *
+regpiece(register struct comp *cp, int *flagp)
+{
+        int status;
+	register char *ret;
+	register char op;
+	register char *next;
+	int flags;
+
+	ret = regatom(cp, &flags);
+	if (ret == NULL)
+		return(NULL);
+
+	op = *cp->regparse;
+	if (!ISREPN(op)) {
+		*flagp = flags;
+		return(ret);
+	}
+
+	if (!(flags&HASWIDTH) && op != '?')
+	  ESL_XEXCEPTION(eslESYNTAX, "*+ operand could be empty");
+	switch (op) {
+	case '*':	*flagp = WORST|SPSTART;			break;
+	case '+':	*flagp = WORST|SPSTART|HASWIDTH;	break;
+	case '?':	*flagp = WORST;				break;
+	}
+
+	if (op == '*' && (flags&SIMPLE))
+		reginsert(cp, STAR, ret);
+	else if (op == '*') {
+		/* Emit x* as (x&|), where & means "self". */
+		reginsert(cp, BRANCH, ret);		/* Either x */
+		regoptail(cp, ret, regnode(cp, BACK));	/* and loop */
+		regoptail(cp, ret, ret);		/* back */
+		regtail(cp, ret, regnode(cp, BRANCH));	/* or */
+		regtail(cp, ret, regnode(cp, NOTHING));	/* null. */
+	} else if (op == '+' && (flags&SIMPLE))
+		reginsert(cp, PLUS, ret);
+	else if (op == '+') {
+		/* Emit x+ as x(&|), where & means "self". */
+		next = regnode(cp, BRANCH);		/* Either */
+		regtail(cp, ret, next);
+		regtail(cp, regnode(cp, BACK), ret);	/* loop back */
+		regtail(cp, next, regnode(cp, BRANCH));	/* or */
+		regtail(cp, ret, regnode(cp, NOTHING));	/* null. */
+	} else if (op == '?') {
+		/* Emit x? as (x|) */
+		reginsert(cp, BRANCH, ret);		/* Either x */
+		regtail(cp, ret, regnode(cp, BRANCH));	/* or */
+		next = regnode(cp, NOTHING);		/* null. */
+		regtail(cp, ret, next);
+		regoptail(cp, ret, next);
+	}
+	cp->regparse++;
+	if (ISREPN(*cp->regparse))
+	  ESL_XEXCEPTION(eslESYNTAX, "nested *?+");
+
+	return(ret);
+
+ ERROR:
+	return NULL;
+}
+
+/*
+ - regatom - the lowest level
+ *
+ * Optimization:  gobbles an entire sequence of ordinary characters so that
+ * it can turn them into a single node, which is smaller to store and
+ * faster to run.  Backslashed characters are exceptions, each becoming a
+ * separate node; the code is simpler that way and it's not worth fixing.
+ * 
+ * Returns valid ptr on success.
+ * Throws  NULL on an error. 
+ */
+static char *
+regatom(register struct comp *cp, int *flagp)
+{
+  register char *ret;
+  int flags;
+  int status;
+
+  *flagp = WORST;		/* Tentatively. */
+
+  switch (*cp->regparse++) {
+  case '^':
+    ret = regnode(cp, BOL);
+    break;
+  case '$':
+    ret = regnode(cp, EOL);
+    break;
+  case '.':
+    ret = regnode(cp, ANY);
+    *flagp |= HASWIDTH|SIMPLE;
+    break;
+  case '[': {
+    register int range;
+    register int rangeend;
+    register int c;
+
+    if (*cp->regparse == '^') {	/* Complement of range. */
+      ret = regnode(cp, ANYBUT);
+      cp->regparse++;
+    } else
+      ret = regnode(cp, ANYOF);
+    if ((c = *cp->regparse) == ']' || c == '-') {
+      regc(cp, c);
+      cp->regparse++;
+    }
+    while ((c = *cp->regparse++) != '\0' && c != ']') {
+      /* SRE: inserted code for \t, \n, \r, \f here:
+       *   c is the \, and cp->regparse is an alphanumeric.
+       */
+      if (c == '\\') {
+	c = *cp->regparse++;
+	switch (c) {
+	case 'f': regc(cp, '\f'); break;
+	case 'n': regc(cp, '\n'); break;
+	case 'r': regc(cp, '\r'); break;
+	case 't': regc(cp, '\t'); break;
+	case '\\': regc(cp, '\\'); break;
+	default: 
+	  ESL_XEXCEPTION(eslESYNTAX, "Invalid \\ escape inside range operator");
+	  break;
+	}
+      }/*end SRE*/
+      else if (c != '-')
+	regc(cp, c);
+      else if ((c = *cp->regparse) == ']' || c == '\0')
+	regc(cp, '-');
+      else {
+	range = (unsigned char)*(cp->regparse-2);
+	rangeend = (unsigned char)c;
+	if (range > rangeend)
+	  ESL_XEXCEPTION(eslESYNTAX, "invalid [] range");
+	for (range++; range <= rangeend; range++)
+	  regc(cp, range);
+	cp->regparse++;
+      }
+    }
+    regc(cp, '\0');
+    if (c != ']')
+      ESL_XEXCEPTION(eslESYNTAX, "unmatched []");
+    *flagp |= HASWIDTH|SIMPLE;
+    break;
+  }
+  case '(':
+    ret = reg(cp, 1, &flags);
+    if (ret == NULL)
+      return NULL;
+    *flagp |= flags&(HASWIDTH|SPSTART);
+    break;
+
+  case '\0':
+  case '|':
+  case ')':
+    /* supposed to be caught earlier */
+    ESL_XEXCEPTION(eslECORRUPT, "internal error: \\0|) unexpected");
+    /*NOTREACHED*/
+    break;
+
+  case '?':
+  case '+':
+  case '*':
+    ESL_XEXCEPTION(eslESYNTAX, "?+* follows nothing");
+    /*NOTREACHED*/
+    break;
+
+  case '\\':
+    if (*cp->regparse == '\0')
+      ESL_XEXCEPTION(eslESYNTAX, "trailing \\");
+
+    if (! isalnum(*cp->regparse)) {
+      ret = regnode(cp, EXACTLY); /* SRE: original Spencer code */
+      regc(cp, *cp->regparse++);
+      regc(cp, '\0');
+    } else {			/* SRE: my dropped in escape-code handling */
+      ret = regescape(cp, *cp->regparse);
+    }
+    *flagp |= HASWIDTH|SIMPLE;
+    break;
+
+  default: {
+    register size_t len;
+    register char ender;
+
+    cp->regparse--;
+    len = strcspn(cp->regparse, META);
+    if (len == 0)
+      ESL_XEXCEPTION(eslECORRUPT, "strcspn 0");
+    ender = *(cp->regparse+len);
+    if (len > 1 && ISREPN(ender))
+      len--;		/* Back off clear of ?+* operand. */
+    *flagp |= HASWIDTH;
+    if (len == 1)
+      *flagp |= SIMPLE;
+    ret = regnode(cp, EXACTLY);
+    for (; len > 0; len--)
+      regc(cp, *cp->regparse++);
+    regc(cp, '\0');
+    break;
+  }
+  }
+  return(ret);
+  
+ ERROR:
+  return NULL;
+}
+
+/*
+ - regnode - emit a node
+ */
+static char *			/* Location. */
+regnode(register struct comp *cp, char op)
+{
+  register char *const ret = cp->regcode;
+  register char *ptr;
+
+  if (!EMITTING(cp)) {
+    cp->regsize += 3;
+    return(ret);
+  }
+
+  ptr = ret;
+  *ptr++ = op;
+  *ptr++ = '\0';   /* Null next pointer. */
+  *ptr++ = '\0';
+  cp->regcode = ptr;
+  
+  return(ret);
+}
+
+/*
+ - regc - emit (if appropriate) a byte of code
+ */
+static void
+regc(register struct comp *cp, char b)
+{
+  if (EMITTING(cp))
+    *cp->regcode++ = b;
+  else
+    cp->regsize++;
+}
+
+/*
+ - reginsert - insert an operator in front of already-emitted operand
+ *
+ * Means relocating the operand.
+ */
+static void
+reginsert(register struct comp *cp, char op, char *opnd)
+{
+  register char *place;
+
+  if (!EMITTING(cp)) {
+    cp->regsize += 3;
+    return;
+  }
+
+  (void) memmove(opnd+3, opnd, (size_t)(cp->regcode - opnd));
+  cp->regcode += 3;
+
+  place = opnd;		/* Op node, where operand used to be. */
+  *place++ = op;
+  *place++ = '\0';
+  *place++ = '\0';
+  return;
+}
+
+/*
+ - regtail - set the next-pointer at the end of a node chain
+ */
+static void
+regtail(register struct comp *cp, char *p, char *val)
+{
+  register char *scan;
+  register char *temp;
+  register int offset;
+
+  if (!EMITTING(cp))
+    return;
+
+  /* Find last node. */
+  for (scan = p; (temp = regnext(scan)) != NULL; scan = temp)
+    continue;
+
+  offset = (OP(scan) == BACK) ? scan - val : val - scan;
+  *(scan+1) = (offset>>8)&0177;
+  *(scan+2) = offset&0377;
+  return;
+}
+
+/*
+ - regoptail - regtail on operand of first argument; nop if operandless
+ */
+static void
+regoptail(register struct comp *cp, char *p, char *val)
+{
+  /* "Operandless" and "op != BRANCH" are synonymous in practice. */
+  if (!EMITTING(cp) || OP(p) != BRANCH)
+    return;
+  regtail(cp, OPERAND(p), val);
+  return;
+}
+
+/*
+ * regexec and friends
+ */
+
+/*
+ * Work-variable struct for regexec().
+ */
+struct exec {
+	char *reginput;		/* String-input pointer. */
+	char *regbol;		/* Beginning of input, for ^ check. */
+	char **regstartp;	/* Pointer to startp array. */
+	char **regendp;		/* Ditto for endp. */
+};
+
+/*
+ * Forwards.
+ */
+static int regtry(struct exec *ep, esl__regexp *rp, char *string);
+static int regmatch(struct exec *ep, char *prog);
+static int regrepeat(struct exec *ep, char *node, size_t *ret_count);
+#ifdef DEBUG
+static int regnarrate = 0;
+static char *regprop(char *op);
+#endif
+
+/*
+ - regexec - match a regexp against a string
+ *
+ * Returns <eslOK> on match; <eslEOD> for no match.
+ * Throws  <eslEINCONCEIVABLE>,<eslECORRUPT> on internal errors.
+ */
+static int
+regexec(register esl__regexp *prog, const char *str)
+{
+  register char *string = (char *)str;	/* avert const poisoning */
+  register char *s;
+  struct exec ex;
+  int code;
+
+	/* Be paranoid. */
+	if (prog == NULL || string == NULL) 
+	  ESL_EXCEPTION(eslEINCONCEIVABLE, "NULL argument to regexec");
+
+	/* Check validity of program. */
+	if ((unsigned char)*prog->program != REGMAGIC) 
+	  ESL_EXCEPTION(eslECORRUPT, "corrupted regexp");
+
+	/* If there is a "must appear" string, look for it. */
+	if (prog->regmust != NULL && strstr(string, prog->regmust) == NULL)
+	  return eslEOD;
+
+	/* Mark beginning of line for ^ . */
+	ex.regbol = string;
+	ex.regstartp = prog->startp;
+	ex.regendp = prog->endp;
+
+	/* Simplest case:  anchored match need be tried only once. */
+	if (prog->reganch)
+		return(regtry(&ex, prog, string));
+
+	/* Messy cases:  unanchored match. */
+	if (prog->regstart != '\0') {
+		/* We know what char it must start with. */
+		for (s = string; s != NULL; s = strchr(s+1, prog->regstart))
+		  if ((code = regtry(&ex, prog, s)) != eslEOD)
+		    return code;	/* match, or throwing an error up */
+		return eslEOD;	        /* no match in string */
+	} else {
+		/* We don't -- general case. */
+		for (s = string; *s != '\0'; s++)
+		  if ((code = regtry(&ex, prog, s)) != eslEOD)
+		    return code; /* match, or throw an error up */
+		return eslEOD;  /* reached end of string, no match */
+	}
+	/* NOTREACHED */
+}
+
+/*
+ - regtry - try match at specific point
+ * 
+ * Returns <eslOK> on success, <eslEOD> failure.
+ * Throws  <ESL_CORRUPT>,<eslEINCONCEIVABLE> on internal errors.
+ */
+static int			
+regtry(register struct exec *ep, esl__regexp *prog, char *string)
+{
+	register int i;
+	register char **stp;
+	register char **enp;
+	int             code;
+
+	ep->reginput = string;
+
+	stp = prog->startp;
+	enp = prog->endp;
+	for (i = ESL_REGEXP_NSUB; i > 0; i--) {
+		*stp++ = NULL;
+		*enp++ = NULL;
+	}
+	if ((code = regmatch(ep, prog->program + 1)) == eslOK) {
+		prog->startp[0] = string;
+		prog->endp[0] = ep->reginput;
+		return eslOK;
+	} else
+		return code;	/* eslEOD for normal non-match; or other thrown codes */
+}
+
+/*
+ - regmatch - main matching routine
+ *
+ * Conceptually the strategy is simple:  check to see whether the current
+ * node matches, call self recursively to see whether the rest matches,
+ * and then act accordingly.  In practice we make some effort to avoid
+ * recursion, in particular by going through "ordinary" nodes (that don't
+ * need to know whether the rest of the match failed) by a loop instead of
+ * by recursion.
+ * 
+ * Returns <eslOK> on success, <eslEOD> on failure.
+ * Throws  <eslECORRUPT>,<eslEINCONCEIVABLE> on internal errors.
+ */
+static int	
+regmatch(register struct exec *ep, char *prog)
+{
+	register char *scan;	/* Current node. */
+	char *next;		/* Next node. */
+	int code;		/* error code */
+
+#ifdef DEBUG
+	if (prog != NULL && regnarrate)
+		fprintf(stderr, "%s(\n", regprop(prog));
+#endif
+	for (scan = prog; scan != NULL; scan = next) {
+#ifdef DEBUG
+		if (regnarrate)
+			fprintf(stderr, "%s...\n", regprop(scan));
+#endif
+		next = regnext(scan);
+
+		switch (OP(scan)) {
+		case BOL:
+			if (ep->reginput != ep->regbol)
+				return eslEOD;
+			break;
+		case EOL:
+			if (*ep->reginput != '\0')
+				return eslEOD;
+			break;
+		case ANY:
+			if (*ep->reginput == '\0')
+				return eslEOD;
+			ep->reginput++;
+			break;
+		case EXACTLY: {
+			register size_t len;
+			register char *const opnd = OPERAND(scan);
+
+			/* Inline the first character, for speed. */
+			if (*opnd != *ep->reginput)
+				return eslEOD;
+			len = strlen(opnd);
+			if (len > 1 && strncmp(opnd, ep->reginput, len) != 0)
+				return eslEOD;
+			ep->reginput += len;
+			break;
+			}
+		case ANYOF:
+			if (*ep->reginput == '\0' ||
+					strchr(OPERAND(scan), *ep->reginput) == NULL)
+				return eslEOD;
+			ep->reginput++;
+			break;
+		case ANYBUT:
+			if (*ep->reginput == '\0' ||
+					strchr(OPERAND(scan), *ep->reginput) != NULL)
+				return eslEOD;
+			ep->reginput++;
+			break;
+		case NOTHING:
+			break;
+		case BACK:
+			break;
+		case OPEN+1: case OPEN+2: case OPEN+3:
+		case OPEN+4: case OPEN+5: case OPEN+6:
+		case OPEN+7: case OPEN+8: case OPEN+9: {
+			register const int no = OP(scan) - OPEN;
+			register char *const input = ep->reginput;
+
+			if ((code = regmatch(ep, next)) == eslOK) {
+				/*
+				 * Don't set startp if some later
+				 * invocation of the same parentheses
+				 * already has.
+				 */
+				if (ep->regstartp[no] == NULL)
+					ep->regstartp[no] = input;
+				return eslOK;
+			} else
+				return code; /* usually eslEOD, except on error */
+		        /*NOTREACHED*/
+			break;
+		        }
+		case CLOSE+1: case CLOSE+2: case CLOSE+3:
+		case CLOSE+4: case CLOSE+5: case CLOSE+6:
+		case CLOSE+7: case CLOSE+8: case CLOSE+9: {
+			register const int no = OP(scan) - CLOSE;
+			register char *const input = ep->reginput;
+
+			if ((code = regmatch(ep, next)) == eslOK) {
+				/*
+				 * Don't set endp if some later
+				 * invocation of the same parentheses
+				 * already has.
+				 */
+				if (ep->regendp[no] == NULL)
+					ep->regendp[no] = input;
+				return eslOK;
+			} else
+				return code; /* usually eslEOD, except on error */
+			/*NOTREACHED*/
+			break;
+		        }
+		case BRANCH: {
+			register char *const save = ep->reginput;
+
+			if (OP(next) != BRANCH)		/* No choice. */
+				next = OPERAND(scan);	/* Avoid recursion. */
+			else {
+				while (OP(scan) == BRANCH) {
+				  if ((code = regmatch(ep, OPERAND(scan))) != eslEOD)
+ 				            return code; /* usually eslOK, but also a thrown error*/
+					ep->reginput = save;
+					scan = regnext(scan);
+				}
+				return eslEOD;
+				/*NOTREACHED*/
+			}
+			break;
+			}
+		case STAR: case PLUS: {
+			register const char nextch =
+				(OP(next) == EXACTLY) ? *OPERAND(next) : '\0';
+			register char *const save = ep->reginput;
+			register const size_t min = (OP(scan) == STAR) ? 0 : 1;
+			size_t no;
+
+			if (regrepeat(ep, OPERAND(scan), &no) != eslOK) return eslEINCONCEIVABLE;
+			for (++no; no > min; no--) {
+				ep->reginput = save + no - 1;
+				/* If it could work, try it. */
+				if (nextch == '\0' || *ep->reginput == nextch)
+					if (regmatch(ep, next) == eslOK)
+						return eslOK;
+			}
+			return eslEOD;
+			/*NOTREACHED*/
+			break;
+			}
+		case END:
+			return eslOK;	/* Success! */
+			break;
+		default:
+		  ESL_EXCEPTION(eslECORRUPT, "regexp corruption");
+		  /*NOTREACHED*/
+		  break;
+		}
+	}
+
+	/*
+	 * We get here only if there's trouble -- normally "case END" is
+	 * the terminating point.
+	 */
+	ESL_EXCEPTION(eslECORRUPT, "corrupted pointers");
+}
+
+/*
+ - regrepeat - report how many times something simple would match, 
+ *             via <ret_result>
+ * Returns <eslOK> on success.
+ * Throws  <eslEINCONCEIVABLE> - if node isn't a repeating one.
+ */
+static int
+regrepeat(register struct exec *ep, char *node, size_t *ret_count)
+{
+	register size_t count;
+	register char *scan;
+	register char ch;
+
+	switch (OP(node)) {
+	case ANY:
+	        *ret_count = strlen(ep->reginput);
+		return eslOK;
+	case EXACTLY:
+		ch = *OPERAND(node);
+		count = 0;
+		for (scan = ep->reginput; *scan == ch; scan++)
+			count++;
+		*ret_count = count;
+		return eslOK;
+	        /*NOTREACHED*/
+		break;
+	case ANYOF:
+		*ret_count = strspn(ep->reginput, OPERAND(node));
+		return eslOK;
+	        /*NOTREACHED*/
+		break;
+	case ANYBUT:
+	        *ret_count = strcspn(ep->reginput, OPERAND(node));
+		return eslOK;
+	        /*NOTREACHED*/
+		break;
+	default:		/* Oh dear.  Called inappropriately. */
+	        ESL_EXCEPTION(eslEINCONCEIVABLE, "bad call of regrepeat");
+ 	        /*NOTREACHED*/
+		break;
+	}
+        /* NOTREACHED */
+	return eslEINCONCEIVABLE;
+}
+
+/*
+ - regnext - dig the "next" pointer out of a node
+ */
+static char *
+regnext(register char *p)
+{
+  register const int offset = NEXT(p);
+
+  if (offset == 0)
+    return(NULL);
+
+  return((OP(p) == BACK) ? p-offset : p+offset);
+}
+
+#ifdef DEBUG
+/*
+ - regdump - dump a regexp onto stdout in vaguely comprehensible form
+ */
+static void
+regdump(esl__regexp *r)
+{
+	register char *s;
+	register char op = EXACTLY;	/* Arbitrary non-END op. */
+	register char *next;
+
+
+	s = r->program + 1;
+	while (op != END) {	/* While that wasn't END last time... */
+		op = OP(s);
+		printf("%2d%s", s-r->program, regprop(s));	/* Where, what. */
+		next = regnext(s);
+		if (next == NULL)		/* Next ptr. */
+			printf("(0)");
+		else 
+			printf("(%d)", (s-r->program)+(next-s));
+		s += 3;
+		if (op == ANYOF || op == ANYBUT || op == EXACTLY) {
+			/* Literal string, where present. */
+			while (*s != '\0') {
+				putchar(*s);
+				s++;
+			}
+			s++;
+		}
+		putchar('\n');
+	}
+
+	/* Header fields of interest. */
+	if (r->regstart != '\0')
+		printf("start `%c' ", r->regstart);
+	if (r->reganch)
+		printf("anchored ");
+	if (r->regmust != NULL)
+		printf("must have \"%s\"", r->regmust);
+	printf("\n");
+}
+
+/*
+ - regprop - printable representation of opcode
+ */
+static char *
+regprop(char *op)
+{
+	register char *p;
+	static char buf[50];
+
+	(void) strcpy(buf, ":");
+
+	switch (OP(op)) {
+	case BOL:
+		p = "BOL";
+		break;
+	case EOL:
+		p = "EOL";
+		break;
+	case ANY:
+		p = "ANY";
+		break;
+	case ANYOF:
+		p = "ANYOF";
+		break;
+	case ANYBUT:
+		p = "ANYBUT";
+		break;
+	case BRANCH:
+		p = "BRANCH";
+		break;
+	case EXACTLY:
+		p = "EXACTLY";
+		break;
+	case NOTHING:
+		p = "NOTHING";
+		break;
+	case BACK:
+		p = "BACK";
+		break;
+	case END:
+		p = "END";
+		break;
+	case OPEN+1:
+	case OPEN+2:
+	case OPEN+3:
+	case OPEN+4:
+	case OPEN+5:
+	case OPEN+6:
+	case OPEN+7:
+	case OPEN+8:
+	case OPEN+9:
+		sprintf(buf+strlen(buf), "OPEN%d", OP(op)-OPEN);
+		p = NULL;
+		break;
+	case CLOSE+1:
+	case CLOSE+2:
+	case CLOSE+3:
+	case CLOSE+4:
+	case CLOSE+5:
+	case CLOSE+6:
+	case CLOSE+7:
+	case CLOSE+8:
+	case CLOSE+9:
+		sprintf(buf+strlen(buf), "CLOSE%d", OP(op)-CLOSE);
+		p = NULL;
+		break;
+	case STAR:
+		p = "STAR";
+		break;
+	case PLUS:
+		p = "PLUS";
+		break;
+	default:
+ 	        p = "[corrupted!]";
+	        break;
+	}
+	if (p != NULL)
+		(void) strcat(buf, p);
+	return(buf);
+}
+#endif /*DEBUG*/
+
+
+      /* SRE: regsub() currently disabled; it is useful, but currently
+       * unused. ifdef'ing it out silences zealous compiler warnings */
+#if 0
+/*
+ - regsub - perform substitutions after a regexp match
+ *
+ * Returns <eslOK> on success.
+ * Throws  <eslEINCONCEIVABLE>, <eslECORRUPT> on internal errors.
+ */
+static int
+regsub(const esl__regexp *rp, const char *source, char *dest)
+{
+	register esl__regexp * const prog = (esl__regexp *)rp;
+	register char *src = (char *)source;
+	register char *dst = dest;
+	register char c;
+	register int no;
+	register size_t len;
+
+	if (prog == NULL || source == NULL || dest == NULL) 
+	  ESL_EXCEPTION(eslEINCONCEIVABLE, "NULL parameter to regsub");
+
+	if ((unsigned char)*(prog->program) != REGMAGIC) 
+	  ESL_EXCEPTION(eslECORRUPT, "damaged regexp");
+
+	while ((c = *src++) != '\0') {
+		if (c == '&')
+			no = 0;
+		else if (c == '\\' && isdigit((int) (*src)))
+			no = *src++ - '0';
+		else
+			no = -1;
+
+		if (no < 0) {	/* Ordinary character. */
+			if (c == '\\' && (*src == '\\' || *src == '&'))
+				c = *src++;
+			*dst++ = c;
+		} else if (prog->startp[no] != NULL && prog->endp[no] != NULL &&
+					prog->endp[no] > prog->startp[no]) {
+			len = prog->endp[no] - prog->startp[no];
+			(void) strncpy(dst, prog->startp[no], len);
+			dst += len;
+			if (*(dst-1) == '\0') 	/* strncpy hit NUL. */
+			  ESL_EXCEPTION(eslECORRUPT, "damaged match string");
+		}
+	}
+	*dst++ = '\0';
+	return eslOK;
+}
+#endif /* regsub() currently disabled */
+/*============= end of Spencer's copyrighted regexp code =============================*/
+
+/* Spencer's code originally handled a backslashed alphanum
+ * like \t as t: in regatom(), the logic was:
+ *     ret = regnode(cp, EXACTLY);
+ *     regc(cp, *cp->regparse++);
+ *     regc(cp, '\0');
+ * Here we provide a drop-in replacement for these lines.
+ * We create an EXACTLY node for escapes, and a ANYBUT
+ * or ANYOF node for character classes. Then
+ * instead of pushing the char *cp->regparse onto the machine
+ * and incrementing cp->regparse, we interpret an alphanumeric
+ * character as an escape code, push one or more appropriate
+ * chars onto the machine, and advance regparse,
+ * before returning control to Spencer.
+ *
+ * that is: cp->regparse points to c when we come in,
+ * and it's an alphanumeric following a \. On return,
+ * we've advanced cp->regparse by one. 
+ */
+static char *
+regescape(struct comp *cp, char c)
+{
+  int   status;
+  char *ret;
+  char x;
+
+  switch (c) {
+    /* escapes: */
+  case 'f': ret = regnode(cp, EXACTLY); regc(cp, '\f'); break;
+  case 'n': ret = regnode(cp, EXACTLY); regc(cp, '\n'); break;
+  case 'r': ret = regnode(cp, EXACTLY); regc(cp, '\r'); break;
+  case 't': ret = regnode(cp, EXACTLY); regc(cp, '\t'); break;
+
+    /* character classes: */
+  case 'd': 
+    ret = regnode(cp, ANYOF);
+    for (x = '0'; x <= '9'; x++) 
+      regc(cp, x);
+    break;
+
+  case 'D':
+    ret = regnode(cp, ANYBUT);
+    for (x = '0'; x <= '9'; x++) regc(cp, x);
+    break;
+
+  case 'w':
+    ret = regnode(cp, ANYOF);
+    for (x = '0'; x <= '9'; x++) regc(cp, x);
+    for (x = 'a'; x <= 'z'; x++) regc(cp, x);
+    for (x = 'A'; x <= 'Z'; x++) regc(cp, x);
+    regc(cp, '_');
+    break;
+
+  case 'W':
+    ret = regnode(cp, ANYBUT);
+    for (x = '0'; x <= '9'; x++) regc(cp, x);
+    for (x = 'a'; x <= 'z'; x++) regc(cp, x);
+    for (x = 'A'; x <= 'Z'; x++) regc(cp, x);
+    regc(cp, '_');
+    break;
+
+  case 's':
+    ret = regnode(cp, ANYOF);
+    regc(cp, ' ');
+    regc(cp, '\t');
+    regc(cp, '\n');
+    regc(cp, '\r');
+    regc(cp, '\f');
+    break;
+
+  case 'S':
+    ret = regnode(cp, ANYBUT);
+    regc(cp, ' ');
+    regc(cp, '\t');
+    regc(cp, '\n');
+    regc(cp, '\r');
+    regc(cp, '\f');
+    break;
+
+  default:
+    ESL_XEXCEPTION(eslESYNTAX, "invalid \\ escape code");
+    /*NOTREACHED*/
+    break;
+  }
+
+  regc(cp, '\0');
+  cp->regparse++;
+  return ret;
+
+ ERROR:
+  return NULL;
+}
+
+
+/*****************************************************************
+ * 3 code examples, and the test driver 
+ *****************************************************************/
+
+#ifdef eslREGEXP_EXAMPLE1
+/* Single match example.
+ * Find first match of <pattern> in <string>; 
+ * print coords of complete match.
+ *
+ * gcc -g -Wall -o example1 -I. -DeslREGEXP_EXAMPLE1 regexp.c easel.c
+ * ./example1 <pattern> <string>
+ */
+
+#include <stdio.h> /* for printf() */
+#include "easel.h"
+#include "esl_regexp.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_REGEXP *m;  
+  char       *pattern;
+  char       *string;
+  int         status;
+  int         i,j;
+
+  pattern = argv[1];
+  string  = argv[2];
+
+  m = esl_regexp_Create();
+
+  status = esl_regexp_Match(m, pattern, string);
+
+  if (status == eslOK) 
+    {
+      esl_regexp_SubmatchCoords(m, string, 0, &i, &j);
+      printf("Pattern matches string at positions %d..%d\n", i+1, j+1);
+    }
+  else if (status == eslEOD)
+    {
+      printf("Pattern does not match in string.\n");
+    }
+
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+#endif /* eslREGEXP_EXAMPLE1*/
+
+
+#ifdef eslREGEXP_EXAMPLE2
+/* Multiple match example.
+ * Matches <pattern> against <string> multiple times, until
+ * no more matches are found.
+ * 
+ * gcc -g -Wall -o example2 -I. -DeslREGEXP_EXAMPLE2 regexp.c easel.c
+ * ./example2 <pattern> <string>
+ */
+
+#include <stdio.h> /* for printf() */
+#include "easel.h"
+#include "esl_regexp.h"
+
+int
+main(int argc, char **argv)
+{
+  char       *pattern;
+  char       *string;
+  ESL_REGEXP *m;
+  int         status;
+  int         i,j;
+  char       *s;
+  char        buf[256];
+  int         n = 0;
+
+  pattern = argv[1];
+  string  = argv[2];
+
+  m = esl_regexp_Create();
+
+  esl_regexp_Compile(m, pattern);
+  s = string;
+  while ((status = esl_regexp_MultipleMatches(m, &s)) == eslOK)
+    {
+      n++;
+      esl_regexp_SubmatchCoords(m, string, 0, &i, &j);
+      esl_regexp_SubmatchCopy(m, 0, buf, 256);
+
+      printf("Match #%d: positions %d..%d   sequence: %s\n", n, i+1, j+1, buf);      
+    }
+  
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+#endif /* eslREGEXP_EXAMPLE2 */
+
+
+#ifdef eslREGEXP_EXAMPLE3 
+
+/* Token parsing example.
+ * Match a <pattern> that contains <ntok> ()-tokens
+ * against <string>; parse out the submatches to each () token.
+ * 
+ * gcc -g -Wall -o example3 -I. -DeslREGEXP_EXAMPLE3 regexp.c easel.c
+ * ./example3 <pattern> <string> <ntok>
+ */
+#include <stdlib.h> /* for atoi()   */
+#include <stdio.h>  /* for printf() */
+#include "easel.h"
+#include "esl_regexp.h"
+
+int
+main(int argc, char **argv)
+{
+  char        *pattern;
+  char        *string;
+  int          ntok;
+  ESL_REGEXP  *m;		
+  int          status;
+  int          i,j;
+  char        *token;
+  int          n;
+
+  pattern = argv[1];
+  string  = argv[2];
+  ntok    = atoi(argv[3]);
+
+  m = esl_regexp_Create();
+
+  status = esl_regexp_Match(m, pattern, string);
+  if (status == eslOK) 
+    { 
+      for (n = 1; n <= ntok; n++) 
+	{
+	  esl_regexp_SubmatchCoords(m, string, n, &i, &j);
+	  token = esl_regexp_SubmatchDup(m, n);
+	  printf("token #%d: %d..%d, %s\n", n, i+1, j+1, token);
+	  free(token);
+	}
+    }
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+#endif /*eslREGEXP_EXAMPLE3*/
+
+#ifdef eslREGEXP_TESTDRIVE
+/* A test driver exercises every function in the
+ * external API at least once, and tries to uncover
+ * obvious problems. 
+ *
+ * gcc -g -Wall -o test -I. -DeslREGEXP_TESTDRIVE regexp.c easel.c
+ * ./test
+ */
+int
+main(void)
+{
+  ESL_REGEXP *m; 
+  char       *pattern;
+  char       *string;
+  char       *s;
+  char        buf[64];
+  int         status;
+  int         i,j;
+  int         n;
+  
+  m = esl_regexp_Create();
+  string  = "aaafoobarfoooobazfo..aaa";
+
+  /* simple matching test.
+   */
+  pattern = "foo";
+  if (esl_regexp_Match(m, pattern, string) != eslOK) abort();
+  esl_regexp_SubmatchCoords(m, string, 0, &i, &j);
+  if (i != 3 || j != 5) abort();
+  s = esl_regexp_SubmatchDup(m, 0);
+  if (strcmp(s, "foo") != 0) abort();
+  free(s);
+  esl_regexp_SubmatchCopy(m, 0, buf, 64);
+  if (strcmp(buf, "foo") != 0) abort();
+
+  /* test all the metacharacters in one pattern;
+   * and token 2 extraction grabs "oobaz" 13..17
+   */
+  pattern = "^aaaa*(foo|bar|baz)+([aboz]+).o\\.[^a-z]aaa?$";
+  if (esl_regexp_Match(m, pattern, string) != eslOK) abort();
+  esl_regexp_SubmatchCoords(m, string, 2, &i, &j);
+  if (i != 12 || j != 16) abort();
+  s = esl_regexp_SubmatchDup(m, 2);
+  if (strcmp(s, "oobaz") != 0) abort();
+  free(s);
+
+  /* test multiple matching:
+   * this pattern hits five times in the sequence, w/
+   * variations on foo.
+   */
+  pattern = "bar|foo*|baz";
+  esl_regexp_Compile(m, pattern);
+  s = string;
+  n = 0;
+  while ((status = esl_regexp_MultipleMatches(m, &s)) == eslOK)
+    {
+      n++;
+      esl_regexp_SubmatchCopy(m, 0, buf, 64);
+      if ((n == 1 && strcmp(buf, "foo")   != 0) ||
+	  (n == 2 && strcmp(buf, "bar")   != 0) ||
+	  (n == 3 && strcmp(buf, "foooo") != 0) ||
+	  (n == 4 && strcmp(buf, "baz")   != 0) ||
+	  (n == 5 && strcmp(buf, "fo")    != 0))
+	abort();
+    }
+  if (n != 5) abort();
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+#endif /* test driver */
+/*============= end of test driver and example code =============================*/
+
+
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_regexp.c 862 2013-04-12 18:56:42Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_regexp.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.h
new file mode 100755
index 0000000..fad037f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.h
@@ -0,0 +1,79 @@
+/* Regular expression matching on strings.
+ * 
+ * SRE, Sun Jan  2 10:52:34 2005 [Zaragoza]
+ * SVN $Id: esl_regexp.h 862 2013-04-12 18:56:42Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_regexp.h $
+ ******************************************************************
+ * The regexp module is a wrapper around a modified version of Henry
+ * Spencer's regex library. Spencer's copyright notice appears below,
+ * after my wrappers, prefacing the section that includes his code. I
+ * believe you can obtain the original code from:
+ *    ftp://ftp.zoo.toronto.edu/pub/bookregex.tar.Z
+ * Thanks, Henry!
+ *****************************************************************
+ */    
+#ifndef eslREGEXP_INCLUDED
+#define eslREGEXP_INCLUDED
+
+/* ESL_REGEXP_NSUB specifies the maximum number of () expressions
+ * in a regexp. The whole regexp counts as one, so 16 allows for 
+ * parsing out up to 15 tokens from the match.
+ */
+#define ESL_REGEXP_NSUB 16
+
+/* The esl__regexp structure is from the original Spencer code.
+ * It's wrapped by the ESL_REGEXP structure, below.
+ */
+typedef struct {
+  char *startp[ESL_REGEXP_NSUB]; /* ptrs to starts of submatches on target string */
+  char *endp[ESL_REGEXP_NSUB];   /* ptrs to 1 char after ends of submatches */
+  char regstart;		 /* Internal use only. */
+  char reganch;		         /* Internal use only. */
+  char *regmust;		 /* Internal use only. */
+  int regmlen;		         /* Internal use only. */
+  char program[1];	         /* Unwarranted chumminess with compiler. */  
+} esl__regexp;
+
+
+/* This looks sort of stupid, wrapping a single ptr in a structure, but we
+ * want the machine to be persistent even if different NDFAs are
+ * compiled and used. Without this persistency, we would have to
+ * create/destroy every time we used a different pattern, instead of
+ * one create/destroy per block of code that uses regex matching
+ * functionaility.
+ *
+ * Plus, if we ever need to keep other persistent info 
+ * beyond Spencer's compiled NDFA (which we'd rather not mess
+ * with), we have a place to put it.
+ */
+typedef struct {
+  esl__regexp *ndfa;	 /* a compiled regexp */
+} ESL_REGEXP;
+
+
+/* Declaration of functions in the API
+ */
+
+extern ESL_REGEXP *esl_regexp_Create(void);
+extern void        esl_regexp_Destroy(ESL_REGEXP *machine);
+
+extern int  esl_regexp_Match(ESL_REGEXP *machine, const char *pattern, const char *s);
+extern int  esl_regexp_Compile(ESL_REGEXP *machine, const char *pattern);
+extern int  esl_regexp_MultipleMatches(ESL_REGEXP *machine, char **sptr);
+
+extern char *esl_regexp_SubmatchDup(ESL_REGEXP *machine, int elem);
+extern int   esl_regexp_SubmatchCopy(ESL_REGEXP *machine, int elem, char *buffer, int nc);
+extern int   esl_regexp_SubmatchCoords(ESL_REGEXP *machine, char *origin, int elem, 
+				       int *ret_start, int *ret_end);
+extern int   esl_regexp_ParseCoordString(const char *cstring, uint32_t *ret_start, uint32_t *ret_end);
+
+#endif /*eslREGEXP_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.tex
new file mode 100755
index 0000000..8d3157a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_regexp.tex
@@ -0,0 +1,386 @@
+
+The regexp module contains portable functions for using regular
+expressions to match and parse strings.
+
+There are many different regular expression syntaxes.  Easel
+implements a small regular expression machine with a limited syntax,
+allowing the most familiar and important regular expression
+operators. It takes advantage of a compact, public domain regular
+expression engine written by Henry Spencer at the University of
+Toronto. Easel's regular expressions are not as powerful as the
+regular expression syntax in the Perl language, for example, but are
+sufficient for many useful parsing needs in a C application.
+
+\subsection{The regexp API}
+
+The module implements one object: a regular expression matching
+``machine'', \ccode{ESL\_REGEXP}.
+
+The API defines ten functions:
+
+\begin{tabular}{ll}
+       \multicolumn{2}{c}{\textbf{creating/destroying a regexp machine}}\\
+\ccode{esl\_regexp\_Create()}   & Creates a new \ccode{ESL\_REGEXP}. \\
+\ccode{esl\_regexp\_Destroy()}  & Destroys a created \ccode{ESL\_REGEXP}.\\
+\ccode{esl\_regexp\_Inflate()}  & Inflates an allocated \ccode{ESL\_REGEXP} shell. \\
+\ccode{esl\_regexp\_Deflate()}  & Deflates an inflated \ccode{ESL\_REGEXP} shell. \\
+       \multicolumn{2}{c}{\textbf{matching a pattern against a string}}\\
+\ccode{esl\_regexp\_Match()}    & Finds first match of a pattern in a string.\\
+\ccode{esl\_regexp\_Compile()}  & Precompile a pattern, for \ccode{\_MultipleMatches()}.\\
+\ccode{esl\_regexp\_MultipleMatches()} & Finds next match of a compiled pattern in a string.\\
+       \multicolumn{2}{c}{\textbf{retrieving (sub)match information}}\\
+\ccode{esl\_regexp\_SubmatchDup()} & Retrieves text of a (sub)match as a new string.\\
+\ccode{esl\_regexp\_SubmatchCopy()} & Copies text of a (sub)match into a buffer.\\
+\ccode{esl\_regexp\_SubmatchCoords()} & Retrieves start/end coord of a (sub)match.\\
+\end{tabular}
+
+\subsection{Examples of using the regexp API}
+
+To use the \ccode{regexp} module, you first create a machine, which
+you'll destroy when you're done. The same machine can be used for any
+number of different patterns, so you would usually create just one
+machine per function or code unit that needs regular expression
+functionality.
+
+An example of code that matches a \ccode{pattern} against a
+\ccode{string} is:
+
+\begin{cchunk}
+#include <stdio.h> /* for printf() */
+#include <easel/easel.h>
+#include <easel/regexp.h>
+
+int
+main(int argc, char **argv)
+{
+  ESL_REGEXP *m;  
+  char       *pattern;
+  char       *string;
+  int         status;
+  int         i,j;
+
+  pattern = argv[1];
+  string  = argv[2];
+
+  m = esl_regexp_Create();
+
+  status = esl_regexp_Match(m, pattern, string);
+
+  if (status == ESL_OK) 
+    {
+      esl_regexp_SubmatchCoords(m, string, 0, &i, &j);
+      printf("Pattern matches string at positions %d..%d\n", i+1, j+1);
+    }
+  else if (status == ESL_EOD)
+    {
+      printf("Pattern does not match in string.\n");
+    }
+
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+#endif /* ESL_REGEXP_EXAMPLE1*/
+\end{cchunk}
+
+
+The \ccode{esl\_regexp\_Match()} function does the parsing. It returns
+\ccode{ESL\_OK} if a match is found, or \ccode{ESL\_EOD} if not. 
+
+If a match is found, information about where the match is located in
+the string is kept in the machine. This information can be retrieved
+by any of three functions: the start and end points of the match (or
+any () token defining a submatch within the pattern) can be retrieved
+by \ccode{esl\_regexp\_SubmatchCoords()}; a matching substring can be
+retrieved as a new string by \ccode{esl\_regexp\_SubmatchDup()}, or
+matching substring can be copied into an existing buffer by
+\ccode{esl\_regexp\_SubmatchCopy()}. This information is volatile. It
+will only be available for retrieval until the next time this machine
+runs one of the two matching functions (\ccode{esl\_regexp\_Match()} or
+\ccode{esl\_regexp\_MultipleMatches()}).
+
+\ccode{esl\_regexp\_SubmatchCoords()} was called here with an argument
+of \ccode{elem}$=$ 0, where 0 means the complete match, as opposed to
+any tokens within the pattern. We'll see an example of retrieving
+tokens in a bit.
+
+The \ccode{i,j} start/end coordinates retrieved by the call to
+\ccode{esl\_regexp\_SubmatchCoords()} are 0-offset relative to the
+origin we provided, the \ccode{string} itself; so the first position
+in \ccode{string} is $i=0$. We added $+1$ to \ccode{i,j} in the
+example to print coords as $1..L$ in the string instead of $0..L-1$.
+
+An example of running this code:
+
+\begin{cchunk}
+  % ./example1 "ba(na)+" "grape banana apple"
+  Pattern matches string at positions 7..12
+\end{cchunk}
+
+Note that it matched ``banana'' from 7..12, not ``bana'' from
+7..10. The Easel regexp machine is ``greedy''. It matches as much of
+the string as the pattern allows. There isn't currently a way to
+circumvent this to get minimal matching instead of maximal matching
+(as, for instance, Perl regular expressions allow with an additional
+'?' modifier on its greedy quantifiers.)
+
+\subsubsection{Example of finding multiple matches in a string}
+
+The example above only found one (the first) match in the target
+string. What if you want to find every match in the string, analogous
+to the Perl \ccode{m//g} operator? The combination of
+\ccode{esl\_regexp\_Compile()} and
+\ccode{esl\_regexp\_MultipleMatches()} provides a useful idiom for
+this task, as seen in this example:
+
+\begin{cchunk}
+#include <stdio.h> /* for printf() */
+#include <easel/easel.h>
+#include <easel/regexp.h>
+
+int
+main(int argc, char **argv)
+{
+  char       *pattern;
+  char       *string;
+  ESL_REGEXP *m;
+  int         status;
+  int         i,j;
+  char       *s;
+  char        buf[256];
+  int         n = 0;
+
+  pattern = argv[1];
+  string  = argv[2];
+
+  m = esl_regexp_Create();
+
+  esl_regexp_Compile(m, pattern);
+  s = string;
+  while ((status = esl_regexp_MultipleMatches(m, &s)) == ESL_OK)
+    {
+      n++;
+      esl_regexp_SubmatchCoords(m, string, 0, &i, &j);
+      esl_regexp_SubmatchCopy(m, 0, buf, 256);
+
+      printf("Match #%d: positions %d..%d   sequence: %s\n", n, i+1, j+1, buf);      
+    }
+  
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+\end{cchunk}
+
+For example, something like this could parse a command line for one or
+more arguments:
+
+\begin{cchunk}
+   % ./example2 "-[^ ]+" "foo -a --arg -O myfile"
+   Match #1: positions 5..6   sequence: -a
+   Match #2: positions 8..12   sequence: --arg
+   Match #3: positions 14..15   sequence: -O
+\end{cchunk}
+
+Like \ccode{esl\_regexp\_Match()},
+\ccode{esl\_regexp\_MultipleMatches()} finds the first match in a
+string. Additionally, upon returning after finding a match,
+\ccode{esl\_regexp\_MultipleMatches()} supplies a pointer to the next
+position in the string following the match (through the \ccode{\&s}
+argument). That facilitates writing an idiomatic \ccode{while ()} loop
+that steps a temporary pointer \ccode{s} through the string until no
+more matches are found, starting with \ccode{s = string}.
+
+Using a regular expression pattern requires compiling it into machine
+code (a non-deterministic finite automaton, NDFA). When you use
+\ccode{esl\_regexp\_Match()}, your pattern is compiled, and the
+resulting NDFA is run on your string to find a match. In the
+multiple-matching case, it's a waste to recompile the pattern for
+every match. Therefore, we use \ccode{esl\_regexp\_Compile()} to
+compile the NDFA once and hold it in the machine, and
+\ccode{esl\_regexp\_MultipleMatches()} takes a machine (containing a
+precompiled NDFA) as an argument instead of a pattern.
+
+Remember that the regexp machine is greedy, and that the pointer is set
+to follow each match. Therefore, multiple matches are guaranteed to be
+nonoverlapping, with each match matching as much of the string as it
+can before a subsequent match occurs -- even if this is not what you
+want.
+
+Otherwise, \ccode{esl\_regexp\_MultipleMatches()} and
+\ccode{esl\_regexp\_Match()} behave the same, in that they find the
+first match in the string pointer they're provided, and in terms of
+the information they leave in the machine for subsequent retrieval.
+
+You can also see an example of \ccode{esl\_regexp\_SubmatchCopy()} in
+action here, copying the complete match (``sub''match \#0), to a
+provided fixed-length buffer.
+
+\subsubsection{Example of parsing tokens out of a string}
+
+Text parsing is laborious in C, a language which does not inherently
+provide anywhere near the text-parsing power of Perl, for example.
+Using a regular expression to match a line of text and extract one or
+more tokens, demarcated by () in the expression, is a common operation
+in Perl. The Easel regexp machine provides much of the same power. An
+example of using token extraction:
+
+\begin{cchunk}
+#include <stdlib.h> /* for atoi()   */
+#include <stdio.h>  /* for printf() */
+#include <easel/easel.h>
+#include <easel/regexp.h>
+
+int
+main(int argc, char **argv)
+{
+  char        *pattern;
+  char        *string;
+  int          ntok;
+  ESL_REGEXP  *m;		
+  int          status;
+  int          i,j;
+  char        *token;
+  int          n;
+
+  pattern = argv[1];
+  string  = argv[2];
+  ntok    = atoi(argv[3]);
+
+  m = esl_regexp_Create();
+
+  status = esl_regexp_Match(m, pattern, string);
+  if (status == ESL_OK) 
+    { 
+      for (n = 1; n <= ntok; n++) 
+	{
+	  esl_regexp_SubmatchCoords(m, string, n, &i, &j);
+	  token = esl_regexp_SubmatchDup(m, n);
+	  printf("token #%d: %d..%d, %s\n", n, i+1, j+1, token);
+	  free(token);
+	}
+    }
+  esl_regexp_Destroy(m);
+  exit(0);
+}
+\end{cchunk}
+
+In previous examples, we only retrieved information about ``submatch''
+number 0, which always refers to the entire regular expression. The
+machine also retains the same information about all the ()-demarcated
+tokens in the expression, up to 15 of them.\footnote{The limit of one
+complete expression plus 15 tokens is defined by a compile-time
+constant \ccode{ESL\_REGEXP\_NSUB} in \ccode{regexp.h}, which is set to
+16 by default.} Now, we tell the retrieval functions (here,
+\ccode{esl\_regexp\_SubmatchCoords()} and
+\ccode{esl\_regexp\_SubmatchDup()}) to retrieve info for token
+\ccode{n} instead of 0.
+
+For example, parsing a bibliographic reference like ``Gene
+102:189-196(1991)'' might go something like:
+
+\begin{cchunk}
+  % ./example3  "(\S+) (\d+):(\d+)-(\d+)\((\d+)\)" "Gene 102:189-196(1991)"   5
+  token #1: 1..4, Gene
+  token #2: 6..8, 102
+  token #3: 10..12, 189
+  token #4: 14..16, 196
+  token #5: 18..21, 1991
+\end{cchunk}
+
+The tokens are numbered in the order that their open-parenthesis
+occurred in the expression, from left to right.
+
+\subsection{Syntax of regular expressions}
+
+Regular expression syntax is fairly universal and documented in many
+places, but because different engines implement more or less rich sets
+of regular expression operations, a specific description of Easel's
+operators follows.
+
+There are 11 metacharacters \verb'|?*+[().^$\' that encode regular
+expression operations.
+
+\ccode{.} is the ANY operator. It matches any single character.
+
+\ccode{?}, \ccode{*}, and \ccode{+} are repetition operators that
+follow some atom of the pattern. \ccode{?} means 0 or 1 occurrences of
+the atom; \ccode{*} means 0 or more; \ccode{+} means 1 or more.  For
+example, \ccode{foo?} matches fo and foo; \ccode{foo*} matches fo,
+foo, fooo, foooo and so on; \ccode{foo+} matches foo, fooo, foooo, and
+so on.
+
+\verb'^' is the beginning-of-string anchor, and \ccode{\$} is the
+end-of-string anchor. 
+
+\ccode{|} is the concatenation operator, specifying alternative ways
+to match. For example, \ccode{foo|bar|baz} matches baz, bar, or foo;
+\ccode{(foo|bar|baz)+} matches barfoobaz, foofoofoo, etc.
+
+\ccode{()} are for grouping and tokenizing. Anything inside \ccode{()}
+is grouped and treated as a single atom for purposes of a subsequent
+\ccode{?*+} operator, as in the \ccode{(foo|bar|baz)+} example above.
+Anything inside \ccode{()} becomes a token, extractable by
+\ccode{\_Submatch*} functions.
+
+The backslash \verb+\+, when followed by any metacharacter (or in
+fact, any non-alphanumeric character), specifies that that character
+should be treated as an ordinary character.  For example, the pattern
+\verb+\\c:+ matches the string \verb+\c:+, since backslash is itself a
+metacharacter.
+
+A backslash followed by an alphanumeric character is either an
+\emph{escape character} or a \emph{character set}. Four escape
+characters are recognized: \verb+\f+ (form feed), \verb+\n+ (newline),
+\verb+\r+ (carriage return), and \verb+\t+ (TAB). Six character set
+codes are recognized, with the same meanings they have in Perl regular
+expressions:
+
+\begin{center}
+\begin{tabular}{lll} 
+\textbf{code} & \textbf{meaning}    & \textbf{equivalent to} \\
+ \verb+\d+    & digit               & \verb+[0-9]+ \\
+ \verb+\D+    & not a digit         & \verb+[^0-9]+ \\
+ \verb+\w+    & word character      & \verb+[0-9a-z_a-Z]+ \\
+ \verb+\W+    & non-word character  & \verb+[^0-9a-z_a-Z]+ \\
+ \verb+\s+    & whitespace          & \verb+[ \t\n\r\f]+ \\
+ \verb+\S+    & non-whitespace      & \verb+[^ \t\n\r\f]+ \\
+\end{tabular}
+\end{center}
+
+A backslash is followed by an alphanumeric character that is neither
+an escape code or a character set code is an error.
+
+\ccode{[} is the set (or range) operator. \footnote{An unmatched
+\ccode{]} is not a metacharacter, but a \ccode{[} metacharacter always
+implies a range and always must have a closing \ccode{]}.} The set of
+characters inside brackets \ccode{[]} are read as a single ANYOF
+atom. A set may be specified as a range of ASCII characters;
+\ccode{[a-z]}, for example, means any lower-case character from a to
+z, \ccode{[a-zA-Z]} means any alphabetic character, and \ccode{[0-9]}
+means any digit. For example, \ccode{fo[ox]} matches foo or
+fox. Additionally, \verb+[^+ implies the opposite, an ANYBUT atom: any
+character \emph{except} the set of characters named is a match. For
+example, \verb'foo[^ ]+' matches ``football'' in the string ``football
+game''. 
+
+Metacharacters are handled differently inside the \verb+[]+ range
+operator. The only special characters are \verb+]+, \verb+-+, and
+\verb+\+. A \verb+]+ character indicates the end of the range operator
+unless it immediately follows the \verb+[+, in which case it is
+treated as a normal character (thus, weirdly, \verb+[][{}()]+ will
+match any open/close brace/parenthesis character). The \verb+-+
+character indicates the middle of a three-character \verb+x-y+ ASCII
+range, unless it comes at the beginning or end of the range (thus
+\verb+[]-]+ recognizes either \verb+]+ or \verb+-+ as literals).  The
+\verb+\+ character indicates an escaped character. Only five such
+escape characters are recognized inside a range operator: \verb+\f+
+(form feed), \verb+\n+ (newline), \verb+\r+ (carriage return),
+\verb+\t+ (TAB), and \verb+\\+ (backslash itself). Character set codes
+like \verb+\s+ are not allowed within range operators.
+
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.c
new file mode 100755
index 0000000..ab7c1b7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.c
@@ -0,0 +1,541 @@
+/* Finding roots.
+ * 
+ * Contents:
+ *   1. The ESL_ROOTFINDER object.
+ *   2. One-dimensional root finding.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Examples.
+ *   6. Copyright and license information.
+ * 
+ */
+#include "esl_config.h"
+
+#include <math.h>
+
+#include "easel.h"
+#include "esl_rootfinder.h"
+
+/*****************************************************************
+ * 1. The ESL_ROOTFINDER object.
+ *****************************************************************/
+
+/* Function:  esl_rootfinder_Create()
+ * Synopsis:  Creates ESL_ROOTFINDER for an $f(x)$
+ * Incept:    SRE, Tue Apr 10 19:54:09 2007 [Janelia]
+ *
+ * Purpose:   Create a rootfinder to find a root of a function $f(x) = 0$.
+ *            <(*func)()> is a pointer to an implementation of the
+ *            function $f(x)$. <params> is a generic pointer to any
+ *            parameters or storage needed in <(*func)()> other than
+ *            the value of $x$. 
+ *            
+ *            Caller implements a <func()> that takes three arguments.
+ *            The first two are the value <x>, and a void pointer to
+ *            any additional parameters that $f(x)$ depends on. The
+ *            result, $f(x)$, is returned via the third argument. This
+ *            function must return <eslOK> to indicate success. Upon
+ *            error, it may throw any error code it wishes.
+ *            
+ *
+ * Args:      (*func)() - ptr to function that evaluates f(x)
+ *            params    - ptr to parameters to be passed to (*func)()
+ *
+ * Returns:   pointer to a new <ESL_ROOTFINDER> structure.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_ROOTFINDER *
+esl_rootfinder_Create(int (*func)(double, void*, double*), void *params)
+{
+  int status;
+  ESL_ROOTFINDER *R = NULL;
+
+  ESL_ALLOC(R, sizeof(ESL_ROOTFINDER));
+  R->func          = func;
+  R->fdf           = NULL;	/* unused */
+  R->params        = params;
+  R->xl            = -eslINFINITY; /* not set yet */
+  R->fl            = 0.;	   /* not set yet */
+  R->xr            = eslINFINITY;  /* not set yet */
+  R->fr            = 0.;	/* not set yet */
+  R->x0            = 0.;	/* not set yet */
+  R->f0            = 0.;	/* not set yet */
+  R->x             = 0.;	/* not set yet */
+  R->fx            = 0.;	/* not set yet */
+  R->dfx           = 0.;	/* unused */
+  R->iter          = 0;
+  R->abs_tolerance = 1e-12;
+  R->rel_tolerance = 1e-12;
+  R->residual_tol  = 0.;
+  R->max_iter      = 100; 
+  return R;
+
+ ERROR:
+  esl_rootfinder_Destroy(R);
+  return NULL;
+}
+
+
+/* Function:  esl_rootfinder_CreateFDF()
+ * Synopsis:  Creates ESL_ROOTFINDER that uses both $f(x)$, $f'(x)$
+ * Incept:    SRE, Tue Apr 10 20:47:42 2007 [Janelia]
+ *
+ * Purpose:   Create a rootfinder that will find 
+ *            a root of a function $f(x) = 0$ using first derivative
+ *            information $f'(x)$. 
+ *            
+ *            Caller provides a pointer <*fdf()> to a function that
+ *            takes four arguments. The first two are the current <x>
+ *            value, and a void pointer to any additional parameters
+ *            that $f(x)$ depends on. <*fdf()> calculates the function
+ *            $f(x)$ and the derivative $f'(x)$ and returns them
+ *            through the remaining two arguments.
+ *            
+ * Args:      (*fdf)() - ptr to function that returns f(x) and f'(x)
+ *            params   - ptr to parameters to be passed to (*fdf)()
+ *
+ * Returns:   pointer to a new <ESL_ROOTFINDER> structure.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_ROOTFINDER *
+esl_rootfinder_CreateFDF(int (*fdf)(double, void*, double*, double*), void *params)
+{
+  int status;
+  ESL_ROOTFINDER *R = NULL;
+
+  ESL_ALLOC(R, sizeof(ESL_ROOTFINDER));
+  R->func          = NULL;
+  R->fdf           = fdf;
+  R->params        = params;
+  R->xl            = -eslINFINITY;
+  R->fl            = 0.;	/* unused */
+  R->xr            = eslINFINITY;
+  R->fr            = 0.;	/* unused */
+  R->x0            = 0.;	
+  R->f0            = 0.;	
+  R->x             = 0.;	/* not set yet */
+  R->fx            = 0.;	/* not set yet */
+  R->dfx           = 0.;	/* not set yet */
+  R->iter          = 0;
+  R->abs_tolerance = 1e-15;
+  R->rel_tolerance = 1e-15;
+  R->residual_tol  = 0.;
+  R->max_iter      = 100; 
+  return R;
+
+ ERROR:
+  esl_rootfinder_Destroy(R);
+  return NULL;
+}
+
+/* Function:  esl_rootfinder_SetBrackets()
+ * Incept:    SRE, Wed Apr 11 08:35:10 2007 [Janelia]
+ *
+ * Purpose:   Declare that a root is in the open interval 
+ *            <(xl..xr)>. 
+ *            
+ *            The function will be evaluated at both points.
+ *
+ * Args:      R      - rootfinder structure
+ *            xl,xr  - root lies in open interval (xl..xr)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <xl,xr> cannot bracket a root,
+ *            because $f(x_l)$ and $f(x_r)$ do not have opposite
+ *            signs.
+ *            
+ *            Additionally, if either evaluation fails in the
+ *            caller-provided function, the error code from that
+ *            failure will be thrown.
+ */
+int
+esl_rootfinder_SetBrackets(ESL_ROOTFINDER *R, double xl, double xr)
+{
+  int status;
+  double dfx;
+
+  R->xl = xl;
+  R->xr = xr;
+  if (R->func != NULL) {
+    if ((status = (*R->func)(R->xl, R->params, &(R->fl)))       != eslOK) return status;
+    if ((status = (*R->func)(R->xr, R->params, &(R->fr)))       != eslOK) return status;
+  } else {
+    if ((status = (*R->fdf) (R->xl, R->params, &(R->fl), &dfx)) != eslOK) return status;
+    if ((status = (*R->fdf) (R->xr, R->params, &(R->fr), &dfx)) != eslOK) return status;
+  }
+  if (R->fl * R->fr >= 0) ESL_EXCEPTION(eslEINVAL, "xl,xr do not bracket a root");
+  return eslOK;
+}
+
+int
+esl_rootfinder_SetAbsoluteTolerance(ESL_ROOTFINDER *R, double tol)
+{
+  R->abs_tolerance = tol;
+  return eslOK;
+}
+
+int
+esl_rootfinder_SetRelativeTolerance(ESL_ROOTFINDER *R, double tol)
+{
+  R->rel_tolerance = tol;
+  return eslOK;
+}
+
+int
+esl_rootfinder_SetResidualTolerance(ESL_ROOTFINDER *R, double tol)
+{
+  R->residual_tol = tol;
+  return eslOK;
+}
+
+int
+esl_rootfinder_SetMaxIterations(ESL_ROOTFINDER *R, int maxiter)
+{
+  R->max_iter = maxiter;
+  return eslOK;
+}
+
+
+void
+esl_rootfinder_Destroy(ESL_ROOTFINDER *R)
+{
+  if (R == NULL) return;
+  free(R);
+}
+
+
+/*****************************************************************
+ * 2. One-dimensional root finding.
+ *****************************************************************/
+
+/* Function:  esl_root_Bisection()
+ * Synopsis:  Find a root of $f(x)$ by bisection method.
+ * Incept:    SRE, Wed Apr 11 08:40:11 2007 [Janelia]
+ *
+ * Purpose:   Find a root in the open interval <xl..xr> by the bisection method,
+ *            and return it in <ret_x>. 
+ *            
+ *            The bisection method is guaranteed to succeed, provided
+ *            that <xl>,<xr> do indeed bracket a root, though it may
+ *            be slow.
+ *            
+ *            The rootfinder <R> can be created either by
+ *            <esl_rootfinder_Create()> or
+ *            <esl_rootfinder_CreateFDF()>; if the latter (if the
+ *            function in the rootfinder <R> includes derivative
+ *            information), the bisection method will just ignore
+ *            the derivative. 
+ *
+ * Args:      R      - a rootfinder object for the function
+ *            xl,xr  - bounds of an open interval in which a root lies
+ *            ret_x  - RETURN: a root that satisfies $f(x) = 0$.
+ *
+ * Returns:   <eslOK> on success, and <ret_x> points to a root.
+ *
+ * Throws:    <eslEINVAL> if <xl,xr> do not bracket a root. 
+ *            <eslENOHALT> if the method exceeds the maximum number of
+ *            iterations set in <R>. 
+ *
+ *            Additionally, any failure code that the caller-provided
+ *            function $f(x)$ throws.
+ */
+int
+esl_root_Bisection(ESL_ROOTFINDER *R, double xl, double xr, double *ret_x)
+{
+  int    status;
+  double xmag;
+
+  if ((status = esl_rootfinder_SetBrackets(R, xl, xr)) != eslOK) return status;
+
+  while (1) {
+    R->iter++;
+    if (R->iter > R->max_iter) ESL_EXCEPTION(eslENOHALT, "failed to converge in Bisection");
+
+    /* Bisect and evaluate the function */
+    R->x  = (R->xl+R->xr)/2.; 	          
+    if (R->func != NULL) {
+      if ((status = (*R->func)(R->x, R->params, &(R->fx)))            != eslOK) return status;
+    } else {
+      if ((status = (*R->fdf) (R->x, R->params, &(R->fx), &(R->dfx))) != eslOK) return status;
+    }
+
+    /* Test for convergence */
+    xmag = (R->xl < 0. && R->xr > 0.) ?  0. : R->x;
+    if (R->fx == 0.) break;	/* an exact root, lucky */
+    if (((R->xr-R->xl)  <  R->abs_tolerance + R->rel_tolerance*xmag) || fabs(R->fx) < R->residual_tol) break;
+
+    /* Narrow the bracket; pay attention to directionality */
+    if (R->fl > 0.) {
+      if   (R->fx > 0.) { R->xl = R->x; R->fl = R->fx; }
+      else              { R->xr = R->x; R->fr = R->fx; }
+    } else {
+      if   (R->fx < 0.) { R->xl = R->x; R->fl = R->fx; }
+      else              { R->xr = R->x; R->fr = R->fx; }      
+    }
+  }
+  
+  *ret_x = R->x;
+  return eslOK;
+}
+
+
+/* Function:  esl_root_NewtonRaphson()
+ * Synopsis:  Find a root of $f(x)$ by Newton/Raphson method.
+ * Incept:    SRE, Wed Apr 11 08:56:28 2007 [Janelia]
+ *
+ * Purpose:   Find a root by the Newton/Raphson method, starting from
+ *            an initial guess <guess>. Return the root in <ret_x>.
+ *            
+ *            The Newton/Raphson method is not guaranteed to succeed,
+ *            but when it does, it is much faster than bisection.
+ *            
+ *            Newton/Raphson uses first derivative information, so the
+ *            rootfinder <R> must be created with
+ *            <esl_rootfinder_CreateFDF()> for a function that evaluates
+ *            both $f(x)$ and $f'(x)$.
+ *            
+ * Args:      R     - a rootfinder object for $f(x)$ and $f'(x)$
+ *            guess - an initial guess for the root
+ *            ret_x - RETURN: a root that satisfies $f(x) = 0$.
+ *
+ * Returns:   <eslOK> on success, and <ret_x> points to a root.
+ *
+ * Throws:    <eslENOHALT> if the method exceeds the maximum number of
+ *            iterations set in <R>. 
+ *
+ *            Additionally, any failure code that the caller-provided
+ *            function $f(x)$ throws.
+ */
+int
+esl_root_NewtonRaphson(ESL_ROOTFINDER *R, double guess, double *ret_x)
+{
+  int status;
+
+  R->x = guess;
+  if ((status  = (*R->fdf)(R->x, R->params, &(R->fx), &(R->dfx))) != eslOK) return status;
+
+  while (1) {
+    R->iter++;
+    if (R->iter > R->max_iter) ESL_EXCEPTION(eslENOHALT, "failed to converge in Newton");
+
+    /* printf("current: x=%20g   f(x) = %20g   f'(x) = %20g\n", R->x, R->fx, R->dfx); */
+
+    /* Take a Newton/Raphson step. */
+    R->x0  = R->x;
+    R->f0  = R->fx;
+    R->x   = R->x - R->fx / R->dfx;
+    (*R->fdf)(R->x, R->params, &(R->fx), &(R->dfx));  
+
+    /* Test for convergence. */
+    if (R->fx == 0) break;	/* an exact root, lucky */
+    if ( (fabs(R->x - R->x0) < R->abs_tolerance + R->rel_tolerance*R->x) || fabs(R->fx) < R->residual_tol) break;
+  }
+
+  *ret_x = R->x;
+  return eslOK;
+}
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef eslROOTFINDER_TESTDRIVE
+/* For the unit tests, we'll use a quadratic function
+ *   f(x)  = ax^2 + bx + c = 0
+ *   f'(x) = 2ax + b
+ * where it's easy to set up known roots.
+ */  
+struct polyparams { double a,b,c; };
+
+static int quadratic_f(double x, void *params, double *ret_fx)
+{
+  struct polyparams *p = (struct polyparams *) params;
+  *ret_fx = (p->a * x * x + p->b * x + p->c);
+  return eslOK;
+}
+
+static int quadratic_fdf(double x, void *params, double *ret_fx, double *ret_dfx)
+{
+  struct polyparams *p = (struct polyparams *) params;
+  
+  *ret_fx  = (p->a * x * x + p->b * x + p->c);
+  *ret_dfx =  (2 * p->a) * x + p->b;
+  return eslOK;
+}
+
+static void
+utest_Bisection(void)
+{
+  ESL_ROOTFINDER *R = NULL;
+  struct polyparams p;
+  double x;
+
+  /* (5x-1)(x+2) = 5x^2 + 9x - 2 with roots 0.2, -2 */
+  p.a = 5.;
+  p.b = 9.;
+  p.c = -2.;
+
+  R = esl_rootfinder_Create(quadratic_f, &p);
+  esl_root_Bisection(R, 0., 100., &x); /* find the positive root, 0.2 */
+  if (fabs(x-0.2) > R->abs_tolerance) esl_fatal("didn't find root 0.2");
+  esl_rootfinder_Destroy(R);
+
+  R = esl_rootfinder_CreateFDF(quadratic_fdf, &p);
+  esl_root_Bisection(R, -100., 0., &x); /* find the negative root, -2.0 */
+  if (fabs(x+2.) > R->abs_tolerance) esl_fatal("didn't find root -2");
+  esl_rootfinder_Destroy(R);
+}
+
+
+static void
+utest_Newton(void)
+{
+  ESL_ROOTFINDER *R = NULL;
+  struct polyparams p;
+  double x;
+
+  /* (5x-1)(x+2) = 5x^2 + 9x - 2 with roots 0.2, -2 */
+  p.a = 5.;
+  p.b = 9.;
+  p.c = -2.;
+
+  R = esl_rootfinder_CreateFDF(quadratic_fdf, &p);
+  esl_root_NewtonRaphson(R, 1., &x); /* find the positive root, 0.2 */
+  if (fabs(x-0.2) > R->abs_tolerance) esl_fatal("didn't find root 0.2");
+  esl_rootfinder_Destroy(R);
+
+  R = esl_rootfinder_CreateFDF(quadratic_fdf, &p);
+  esl_root_NewtonRaphson(R, -3., &x); /* find the negative root, -2.0 */
+  if (fabs(x+2.) > R->abs_tolerance) esl_fatal("didn't find root -2");
+  esl_rootfinder_Destroy(R);
+}
+
+#endif /*eslROOTFINDER_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+/* 
+   gcc -g -Wall -I. -L. -DeslROOTFINDER_TESTDRIVE -o test esl_rootfinder.c -leasel -lm
+   ./test
+ */
+#ifdef eslROOTFINDER_TESTDRIVE
+
+int
+main(int argc, char **argv)
+{
+  utest_Bisection();
+  utest_Newton();
+
+  return eslOK;
+}
+
+#endif /*eslROOTFINDER_TESTDRIVE*/
+
+/*****************************************************************
+ * 5. Examples.
+ *****************************************************************/
+
+/* An example of bisection.
+ *   gcc -g -Wall -o example -I. -DeslROOTFINDER_EXAMPLE esl_rootfinder.c easel.c -lm
+ */
+#ifdef eslROOTFINDER_EXAMPLE
+/*::cexcerpt::rootfinder_example::begin::*/
+#include "easel.h"
+#include "esl_rootfinder.h"
+
+struct polyparams { double a,b,c; };
+
+int quadratic_f(double x, void *params, double *ret_fx)
+{
+  struct polyparams *p = (struct polyparams *) params;
+  *ret_fx = (p->a * x * x + p->b * x + p->c);
+  return eslOK;
+}
+
+int main(void)
+{
+  ESL_ROOTFINDER *R = NULL;
+  struct polyparams p;
+  double x, fx;
+
+  p.a = 5.;
+  p.b = 2.;
+  p.c = -1.;
+
+  R = esl_rootfinder_Create(quadratic_f, &p);
+  esl_root_Bisection(R, 0., 100., &x);
+
+  quadratic_f(x, &p, &fx);
+  printf("Find an x such that f(x) = %.0fx^2 + %.0fx + %.0f = 0 ...\n", p.a, p.b, p.c);
+  printf("x = %f (f(x) = %f)\n", x, fx);
+
+  esl_rootfinder_Destroy(R);
+  return 0;
+}
+/*::cexcerpt::rootfinder_example::end::*/
+#endif /*eslROOTFINDER_EXAMPLE*/
+
+
+/* An example of Newton/Raphson.
+ *   gcc -g -Wall -o example -I. -DeslROOTFINDER_EXAMPLE2 esl_rootfinder.c easel.c -lm
+ */
+#ifdef eslROOTFINDER_EXAMPLE2
+/*::cexcerpt::rootfinder_example2::begin::*/
+#include "easel.h"
+#include "esl_rootfinder.h"
+
+struct polyparams { double a,b,c; };
+
+int quadratic_fdf(double x, void *params, double *ret_fx, double *ret_dfx)
+{
+  struct polyparams *p = (struct polyparams *) params;
+  
+  *ret_fx  = (p->a * x * x + p->b * x + p->c);
+  *ret_dfx =  (2 * p->a) * x + p->b;
+  return eslOK;
+}
+
+int main(void)
+{
+  ESL_ROOTFINDER *R = NULL;
+  struct polyparams p;
+  double x;
+
+  p.a = 5.;
+  p.b = 2.;
+  p.c = -1.;
+
+  R = esl_rootfinder_CreateFDF(quadratic_fdf, &p);
+  esl_root_NewtonRaphson(R, -1., &x);
+
+  printf("Find an x such that f(x) = %.0fx^2 + %.0fx + %.0f = 0 ...\n", p.a, p.b, p.c);
+  printf("x = %f\n", x);
+
+  esl_rootfinder_Destroy(R);
+  return 0;
+}
+/*::cexcerpt::rootfinder_example2::end::*/
+#endif /*eslROOTFINDER_EXAMPLE2*/
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_rootfinder.c 725 2011-10-13 11:27:39Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_rootfinder.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.h
new file mode 100755
index 0000000..d6f830b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.h
@@ -0,0 +1,60 @@
+/* Finding roots of functions.
+ * 
+ * SRE, Fri Apr  6 10:01:43 2007 [Janelia]
+ * SVN $Id: esl_rootfinder.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_rootfinder.h $
+ */
+#ifndef ESL_ROOTFINDER_INCLUDED
+#define ESL_ROOTFINDER_INCLUDED
+
+#include "esl_config.h"
+
+typedef struct {
+  int   (*func)(double, void*, double*);
+  int   (*fdf) (double, void*, double*, double*);
+  void   *params;
+
+  double xl;
+  double fl;
+  double xr;
+  double fr;
+
+  double x0;
+  double f0;
+
+  double x;
+  double fx;
+  double dfx;
+  int    iter;
+
+  double abs_tolerance;
+  double rel_tolerance;
+  double residual_tol;
+  int    max_iter;
+} ESL_ROOTFINDER;
+
+
+extern ESL_ROOTFINDER *esl_rootfinder_Create   (int (*func)(double, void*, double*),          void *params);
+extern ESL_ROOTFINDER *esl_rootfinder_CreateFDF(int (*fdf) (double, void*, double*, double*), void *params);
+
+extern int esl_rootfinder_SetBrackets(ESL_ROOTFINDER *R, double xl, double xr);
+extern int esl_rootfinder_SetAbsoluteTolerance(ESL_ROOTFINDER *R, double tol);
+extern int esl_rootfinder_SetRelativeTolerance(ESL_ROOTFINDER *R, double tol);
+extern int esl_rootfinder_SetResidualTolerance(ESL_ROOTFINDER *R, double tol);
+extern int esl_rootfinder_SetMaxIterations(ESL_ROOTFINDER *R, int maxiter);
+extern void esl_rootfinder_Destroy(ESL_ROOTFINDER *R);
+
+extern int esl_root_Bisection(ESL_ROOTFINDER *R, double xl, double xr, double *ret_x);
+extern int esl_root_NewtonRaphson(ESL_ROOTFINDER *R, double guess, double *ret_x);
+
+
+#endif /*eslROOTFINDER_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.tex
new file mode 100755
index 0000000..28b0aec
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_rootfinder.tex
@@ -0,0 +1,43 @@
+
+
+
+\subsection{Example of using the rootfinder API}
+
+To use the bisection method, you provide a function that computes
+$f(x)$, and you provide an initial bracket $(x_L..x_R)$ in which the
+root is known to lie.  An example of using the bisection method to
+compute a root of the quadratic function $ax^2 + bx + c = 0$ for
+$a=5$, $b=2$ and $c=-1$ (note that this function has two roots, one
+$<0$ and one $>0$; the bracket $0..100$ makes the example find only
+the positive root):
+
+\input{cexcerpts/rootfinder_example}
+
+
+To use the Newton/Raphson method, you provide a function that computes
+$f(x)$ and its first derivative $df(x)/dx$, and you provide an initial
+guess for the root $x$. An example of using the Newton/Raphson method
+to compute the root of the same function above (which has a derivative
+$df(x)/dx = 2ax + b$) is:
+
+\input{cexcerpts/rootfinder_example2}
+
+In this example, because the initial guess was negative, the other
+root gets found.
+
+Currently, just these two rootfinding algorithms are implemented.  The
+bisection method does not require derivative information, and it
+requires the caller to provide an interval $(x_L..x_R)$ in which the
+root lies ($f(x_L)$ and $f(x_R)$ have opposite signs). Newton/Raphson
+uses derivative information, and it only needs an initial guess for
+$x$, not an interval. Thus there are two different \ccode{\_Create*()}
+routines, \ccode{esl\_rootfinder\_CreateBracketer()} for initializing
+a bisection method, and \ccode{esl\_rootfinder\_CreatePolisher()} for
+initializing a Newton/Raphson method. The reason for the more general
+names (\ccode{CreateBracketer()} and \ccode{CreatePolisher()} is that
+I expect other rootfinding algorithms (if we ever implement any) will
+group similarly: bracketing methods without derivative information,
+and ``polishing'' methods that use derivative information. But this
+may be misguided, and may change in the future.
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.c
new file mode 100755
index 0000000..2f21584
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.c
@@ -0,0 +1,2299 @@
+/* Routines for manipulating sequence alignment score matrices,
+ * such as the BLOSUM and PAM matrices.
+ * 
+ * Contents:
+ *   1. The ESL_SCOREMATRIX object.
+ *   2. Some classic score matrices.
+ *   3. Deriving a score matrix probabilistically.
+ *   4. Reading/writing matrices from/to files.
+ *   5. Implicit probabilistic basis, I:  given bg.
+ *   6. Implicit probabilistic basis, II: bg unknown. [Yu/Altschul03,05]
+ *   7. Experiment driver.
+ *   8  Utility programs.
+ *   9. Unit tests.
+ *  10. Test driver.
+ *  11. Example program.
+ *  12. License and copyright.
+ */
+#include "esl_config.h"
+
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_composition.h"
+#include "esl_dmatrix.h"
+#include "esl_fileparser.h"
+#include "esl_rootfinder.h"
+#include "esl_ratematrix.h"
+#include "esl_scorematrix.h"
+#include "esl_vectorops.h"
+
+
+/*****************************************************************
+ *# 1. The ESL_SCOREMATRIX object
+ *****************************************************************/
+
+/* Function:  esl_scorematrix_Create()
+ * Synopsis:  Allocate and initialize an <ESL_SCOREMATRIX> object.
+ *
+ * Purpose:   Allocates a score matrix for alphabet <abc>, initializes
+ *            all scores to zero.
+ *
+ * Args:      abc   - pointer to digital alphabet 
+ *
+ * Returns:   a pointer to the new object.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_SCOREMATRIX *
+esl_scorematrix_Create(const ESL_ALPHABET *abc)
+{
+  ESL_SCOREMATRIX *S = NULL;
+  int status;
+  int i;
+
+  ESL_ALLOC(S, sizeof(ESL_SCOREMATRIX));
+  S->s          = NULL;
+  S->K          = abc->K;
+  S->Kp         = abc->Kp;
+  S->isval      = NULL;
+  S->abc_r      = abc;
+  S->nc         = 0;
+  S->outorder   = NULL;
+  S->name       = NULL;
+  S->path       = NULL;
+
+  ESL_ALLOC(S->s, sizeof(int *) * abc->Kp);
+  for (i = 0; i < abc->Kp; i++) S->s[i] = NULL;
+  ESL_ALLOC(S->isval, sizeof(char) * abc->Kp);
+  for (i = 0; i < abc->Kp; i++) S->isval[i] = FALSE;
+  ESL_ALLOC(S->outorder, sizeof(char) * (abc->Kp+1));
+  S->outorder[0] = '\0';		/* init to empty string. */
+
+  ESL_ALLOC(S->s[0], sizeof(int) * abc->Kp * abc->Kp);
+  for (i = 1; i < abc->Kp; i++) S->s[i] = S->s[0] + abc->Kp * i;
+
+  for (i = 0; i < abc->Kp*abc->Kp; i++) S->s[0][i] = 0;
+  return S;
+
+ ERROR:
+  esl_scorematrix_Destroy(S);
+  return NULL;
+}
+
+
+
+/* Function:  esl_scorematrix_Copy()
+ * Synopsis:  Copy <src> matrix to <dest>.
+ *
+ * Purpose:   Copy <src> score matrix into <dest>. Caller
+ *            has allocated <dest> for the same alphabet as
+ *            <src>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINCOMPAT> if <dest> isn't allocated for
+ *            the same alphabet as <src>.
+ *            <eslEMEM> on allocation error.
+ */
+int
+esl_scorematrix_Copy(const ESL_SCOREMATRIX *src, ESL_SCOREMATRIX *dest)
+{
+  int i,j;
+  int status;
+
+  if (src->abc_r->type != dest->abc_r->type || src->K != dest->K || src->Kp != dest->Kp)
+    ESL_EXCEPTION(eslEINCOMPAT, "source and dest score matrix types don't match");
+
+  for (i = 0; i < src->Kp; i++)
+    for (j = 0; j < src->Kp; j++)
+      dest->s[i][j] = src->s[i][j];
+  for (i = 0; i < src->Kp; i++)
+    dest->isval[i] = src->isval[i];
+  dest->nc = src->nc;
+  for (i = 0; i < src->nc; i++)
+    dest->outorder[i] = src->outorder[i];
+  dest->outorder[dest->nc] = '\0';
+
+  if ((status = esl_strdup(src->name, -1, &(dest->name))) != eslOK) return status;
+  if ((status = esl_strdup(src->path, -1, &(dest->path))) != eslOK) return status;
+  return eslOK;
+}
+
+/* Function:  esl_scorematrix_Clone()
+ * Synopsis:  Allocate a duplicate of a matrix. 
+ *
+ * Purpose:   Allocates a new matrix and makes it a duplicate
+ *            of <S>. Return a pointer to the new matrix.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_SCOREMATRIX *
+esl_scorematrix_Clone(const ESL_SCOREMATRIX *S)
+{
+  ESL_SCOREMATRIX *dup = NULL;
+
+  if ((dup = esl_scorematrix_Create(S->abc_r)) == NULL)  return NULL;
+  if (esl_scorematrix_Copy(S, dup)             != eslOK) { esl_scorematrix_Destroy(dup); return NULL; }
+  return dup;
+}
+
+
+/* Function:  esl_scorematrix_Compare()
+ * Synopsis:  Compare two matrices for equality.
+ *
+ * Purpose:   Compares two score matrices. Returns <eslOK> if they 
+ *            are identical, <eslFAIL> if they differ. Every aspect
+ *            of the two matrices is compared.
+ *            
+ *            The annotation (name, filename path) are not
+ *            compared; we may want to compare an internally
+ *            generated scorematrix to one read from a file.
+ */
+int
+esl_scorematrix_Compare(const ESL_SCOREMATRIX *S1, const ESL_SCOREMATRIX *S2)
+{
+  int a,b;
+
+  if (strcmp(S1->outorder, S2->outorder) != 0) return eslFAIL;
+  if (S1->nc         != S2->nc)                return eslFAIL;
+  
+  for (a = 0; a < S1->nc; a++)
+    if (S1->isval[a] != S2->isval[a])          return eslFAIL;
+  
+  for (a = 0; a < S1->Kp; a++)
+    for (b = 0; b < S1->Kp; b++)
+      if (S1->s[a][b] != S2->s[a][b]) return eslFAIL;
+
+  return eslOK;
+}
+
+/* Function:  esl_scorematrix_CompareCanon()
+ * Synopsis:  Compares scores of canonical residues for equality.
+ *
+ * Purpose:   Compares the scores of canonical residues in 
+ *            two score matrices <S1> and <S2> for equality.
+ *            Returns <eslOK> if they are identical, <eslFAIL> 
+ *            if they differ. Peripheral aspects of the scoring matrices
+ *            having to do with noncanonical residues, output
+ *            order, and suchlike are ignored.
+ */
+int
+esl_scorematrix_CompareCanon(const ESL_SCOREMATRIX *S1, const ESL_SCOREMATRIX *S2)
+{
+  int a,b;
+
+  for (a = 0; a < S1->K; a++)
+    for (b = 0; b < S1->K; b++)
+      if (S1->s[a][b] != S2->s[a][b]) return eslFAIL;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_scorematrix_Max()
+ * Synopsis:  Returns maximum value in score matrix.
+ *
+ * Purpose:   Returns the maximum value in score matrix <S>.
+ */
+int
+esl_scorematrix_Max(const ESL_SCOREMATRIX *S)
+{
+  int i,j;
+  int max = S->s[0][0];
+
+  for (i = 0; i < S->K; i++)
+    for (j = 0; j < S->K; j++)
+      if (S->s[i][j] > max) max = S->s[i][j];
+  return max;
+}
+
+/* Function:  esl_scorematrix_Min()
+ * Synopsis:  Returns minimum value in score matrix.
+ *
+ * Purpose:   Returns the minimum value in score matrix <S>.
+ */
+int
+esl_scorematrix_Min(const ESL_SCOREMATRIX *S)
+{
+  int i,j;
+  int min = S->s[0][0];
+
+  for (i = 0; i < S->K; i++)
+    for (j = 0; j < S->K; j++)
+      if (S->s[i][j] < min) min = S->s[i][j];
+  return min;
+}
+
+
+/* Function:  esl_scorematrix_IsSymmetric()
+ * Synopsis:  Returns <TRUE> for symmetric matrix.
+ *
+ * Purpose:   Returns <TRUE> if matrix <S> is symmetric,
+ *            or <FALSE> if it's not.
+ */
+int
+esl_scorematrix_IsSymmetric(const ESL_SCOREMATRIX *S)
+{
+  int i,j;
+
+  for (i = 0; i < S->K; i++)
+    for (j = i; j < S->K; j++)
+      if (S->s[i][j] != S->s[j][i]) return FALSE;
+  return TRUE;
+}
+
+/* Function:  esl_scorematrix_ExpectedScore()
+ * Synopsis:  Calculates the expected score of a matrix.
+ *
+ * Purpose:   Calculates the expected score of a matrix <S>,
+ *            given background frequencies <fi> and <fj>;
+ *            return it in <*ret_E>.
+ *            
+ *            The expected score is defined as
+ *            $\sum_{ab} f_a f_b \sigma_{ab}$.
+ *            
+ *            The expected score is in whatever units the score matrix
+ *            <S> is in. If you know $\lambda$, you can convert it to
+ *            units of bits ($\log 2$) by multiplying it by $\lambda /
+ *            \log 2$.
+ *
+ * Args:      S      - score matrix
+ *            fi     - background frequencies $f_i$ (0..K-1)
+ *            fj     - background frequencies $f_j$ (0..K-1)
+ *            ret_E  - RETURN: expected score
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_scorematrix_ExpectedScore(ESL_SCOREMATRIX *S, double *fi, double *fj, double *ret_E)
+{
+  double E = 0.;
+  int    a,b;
+
+  for (a = 0; a < S->K; a++)
+    for (b = 0; b < S->K; b++)
+      E += fi[a] * fj[b] * (double) S->s[a][b];
+
+  *ret_E = E;
+  return eslOK;
+}
+
+
+/* Function:  esl_scorematrix_RelEntropy()
+ * Synopsis:  Calculates relative entropy of a matrix.
+ *
+ * Purpose:   Calculates the relative entropy of score matrix <S> in
+ *            bits, given its background distributions <fi> and <fj> and
+ *            its scale <lambda>.
+ *            
+ *            The relative entropy is defined as $\sum_{ab} p_{ab}
+ *            \log_2 \frac{p_{ab}} {f_a f_b}$, the average score (in
+ *            bits) of homologous aligned sequences. In general it is
+ *            $\geq 0$ (and certainly so in the case when background
+ *            frequencies $f_a$ and $f_b$ are the marginals of the
+ *            $p_{ab}$ joint ptobabilities).
+ *
+ * Args:      S          - score matrix
+ *            fi         - background freqs for sequence i
+ *            fj         - background freqs for sequence j
+ *            lambda     - scale factor $\lambda$ for <S>
+ *            ret_D      - RETURN: relative entropy.
+ * 
+ * Returns:   <eslOK> on success, and <ret_D> contains the relative
+ *            entropy.
+ *
+ * Throws:    <eslEMEM> on allocation error. 
+ *            <eslEINVAL> if the implied $p_{ij}$'s don't sum to one,
+ *            probably indicating that <lambda> was not the correct
+ *            <lambda> for <S>, <fi>, and <fj>.
+ *            In either exception, <ret_D> is returned as 0.0.
+ */
+int
+esl_scorematrix_RelEntropy(const ESL_SCOREMATRIX *S, const double *fi, const double *fj, double lambda, double *ret_D)
+{
+  int    status;
+  double pij;
+  double sum = 0.;
+  int    i,j;
+  double D = 0;
+
+  for (i = 0; i < S->K; i++)
+    for (j = 0; j < S->K; j++)
+      {
+	pij  = fi[i] * fj[j] * exp(lambda * (double) S->s[i][j]);
+	sum += pij;
+	if (pij > 0.) D += pij * log(pij / (fi[i] * fj[j]));
+	
+      }
+  if (esl_DCompare(sum, 1.0, 1e-3) != eslOK) 
+    ESL_XEXCEPTION(eslEINVAL, "pij's don't sum to one (%.4f): bad lambda or bad bg?", sum);
+
+  D /= eslCONST_LOG2;
+  *ret_D = D;
+  return eslOK;
+
+ ERROR:
+  *ret_D = 0.;
+  return status;
+}
+
+
+/* Function:  esl_scorematrix_JointToConditionalOnQuery()
+ * Synopsis:  Convert a joint probability matrix to conditional probs P(b|a)
+ *
+ * Purpose:   Given a joint probability matrix <P> that has been calculated
+ *            by <esl_scorematrix_ProbifyGivenBG()> or <esl_scorematrix_Probify()>
+ *            (or one that obeys the same conditions; see below), 
+ *            convert the joint probabilities <P(a,b)> to conditional 
+ *            probabilities <P(b | a)>, where <b> is a residue in the target,
+ *            and <a> is a residue in the query.
+ *            
+ *            $P(b \mid a) = P(ab) / P(a)$, where $P(a) = \sum_b P(ab)$.
+ *            
+ *            The value stored in <P->mx[a][b]> is $P(b \mid a)$.
+ *
+ *            All values in <P> involving the codes for gap,
+ *            nonresidue, and missing data (codes <K>,<Kp-2>, and
+ *            <Kp-1>) are 0.0, not probabilities. Only rows/columns
+ *            <i=0..K,K+1..Kp-3> are valid probability vectors.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      J9/87.
+ */
+int
+esl_scorematrix_JointToConditionalOnQuery(const ESL_ALPHABET *abc, ESL_DMATRIX *P)
+{
+  int a,b;
+
+  /* P(b|a) = P(ab) / P(a) 
+   * and P(a) = P(a,X), the value at [a][Kp-3] 
+   */
+  for (a = 0; a < abc->Kp-2; a++)
+    for (b = 0; b < abc->Kp-2; b++)
+      P->mx[a][b] = (P->mx[a][abc->Kp-3] == 0.0 ? 0.0 : P->mx[a][b] / P->mx[a][abc->Kp-3]);
+  return eslOK;
+}
+
+
+
+/* Function:  esl_scorematrix_Destroy()
+ * Synopsis:  Frees a matrix.
+ *
+ * Purpose:   Frees a score matrix.
+ */
+void
+esl_scorematrix_Destroy(ESL_SCOREMATRIX *S)
+{
+  if (S == NULL) return;
+  if (S->s != NULL) {
+    if (S->s[0] != NULL) free(S->s[0]);
+    free(S->s);
+  }
+  if (S->isval    != NULL) free(S->isval);
+  if (S->outorder != NULL) free(S->outorder);
+  if (S->name     != NULL) free(S->name);
+  if (S->path     != NULL) free(S->path);
+  free(S);
+  return;
+}
+
+
+/*------------------- end, scorematrix object -------------------*/
+
+
+
+
+/*****************************************************************
+ *# 2. Some classic score matrices.
+ *****************************************************************/
+/* PAM30, PAM70, PAM120, PAM240, BLOSUM45, BLOSUM50, BLOSUM62, BLOSUM80, BLOSUM90 */
+/* Standard matrices are reformatted to Easel static data by the UTILITY1 program; see below */
+
+/* TODO: Instead of storing the classical low-precision versions of
+ * these, we should recalculate each one from its original
+ * probabilistic basis, and store it at higher integer precision,
+ * allowing the Yu/Altschul procedure to work. If we do that, we might also store
+ * lambda and background probabilities.
+ */
+
+#define eslAADIM 29
+
+struct esl_scorematrix_aa_preload_s {
+  char *name;
+  int   matrix[eslAADIM][eslAADIM];
+};
+
+static const struct esl_scorematrix_aa_preload_s ESL_SCOREMATRIX_AA_PRELOADS[] = {
+  { "PAM30", {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   6,  -6,  -3,  -2,  -8,  -2,  -7,  -5,  -7,  -6,  -5,  -4,  -2,  -4,  -7,   0,  -1,  -2, -13,  -8,   0,  -3,   0,  -3,   0,   0,  -3, -17,   0,  }, /* A */
+    {  -6,  10, -14, -14, -13,  -9,  -7,  -6, -14, -15, -13, -11,  -8, -14,  -8,  -3,  -8,  -6, -15,  -4,   0, -12,   0, -14,   0,   0,  -9, -17,   0,  }, /* C */
+    {  -3, -14,   8,   2, -15,  -3,  -4,  -7,  -4, -12, -11,   2,  -8,  -2, -10,  -4,  -5,  -8, -15, -11,   0,   6,   0,   1,   0,   0,  -5, -17,   0,  }, /* D */
+    {  -2, -14,   2,   8, -14,  -4,  -5,  -5,  -4,  -9,  -7,  -2,  -5,   1,  -9,  -4,  -6,  -6, -17,  -8,   0,   1,   0,   6,   0,   0,  -5, -17,   0,  }, /* E */
+    {  -8, -13, -15, -14,   9,  -9,  -6,  -2, -14,  -3,  -4,  -9, -10, -13,  -9,  -6,  -9,  -8,  -4,   2,   0, -10,   0, -13,   0,   0,  -8, -17,   0,  }, /* F */
+    {  -2,  -9,  -3,  -4,  -9,   6,  -9, -11,  -7, -10,  -8,  -3,  -6,  -7,  -9,  -2,  -6,  -5, -15, -14,   0,  -3,   0,  -5,   0,   0,  -5, -17,   0,  }, /* G */
+    {  -7,  -7,  -4,  -5,  -6,  -9,   9,  -9,  -6,  -6, -10,   0,  -4,   1,  -2,  -6,  -7,  -6,  -7,  -3,   0,  -1,   0,  -1,   0,   0,  -5, -17,   0,  }, /* H */
+    {  -5,  -6,  -7,  -5,  -2, -11,  -9,   8,  -6,  -1,  -1,  -5,  -8,  -8,  -5,  -7,  -2,   2, -14,  -6,   0,  -6,   0,  -6,   0,   0,  -5, -17,   0,  }, /* I */
+    {  -7, -14,  -4,  -4, -14,  -7,  -6,  -6,   7,  -8,  -2,  -1,  -6,  -3,   0,  -4,  -3,  -9, -12,  -9,   0,  -2,   0,  -4,   0,   0,  -5, -17,   0,  }, /* K */
+    {  -6, -15, -12,  -9,  -3, -10,  -6,  -1,  -8,   7,   1,  -7,  -7,  -5,  -8,  -8,  -7,  -2,  -6,  -7,   0,  -9,   0,  -7,   0,   0,  -6, -17,   0,  }, /* L */
+    {  -5, -13, -11,  -7,  -4,  -8, -10,  -1,  -2,   1,  11,  -9,  -8,  -4,  -4,  -5,  -4,  -1, -13, -11,   0, -10,   0,  -5,   0,   0,  -5, -17,   0,  }, /* M */
+    {  -4, -11,   2,  -2,  -9,  -3,   0,  -5,  -1,  -7,  -9,   8,  -6,  -3,  -6,   0,  -2,  -8,  -8,  -4,   0,   6,   0,  -3,   0,   0,  -3, -17,   0,  }, /* N */
+    {  -2,  -8,  -8,  -5, -10,  -6,  -4,  -8,  -6,  -7,  -8,  -6,   8,  -3,  -4,  -2,  -4,  -6, -14, -13,   0,  -7,   0,  -4,   0,   0,  -5, -17,   0,  }, /* P */
+    {  -4, -14,  -2,   1, -13,  -7,   1,  -8,  -3,  -5,  -4,  -3,  -3,   8,  -2,  -5,  -5,  -7, -13, -12,   0,  -3,   0,   6,   0,   0,  -5, -17,   0,  }, /* Q */
+    {  -7,  -8, -10,  -9,  -9,  -9,  -2,  -5,   0,  -8,  -4,  -6,  -4,  -2,   8,  -3,  -6,  -8,  -2, -10,   0,  -7,   0,  -4,   0,   0,  -6, -17,   0,  }, /* R */
+    {   0,  -3,  -4,  -4,  -6,  -2,  -6,  -7,  -4,  -8,  -5,   0,  -2,  -5,  -3,   6,   0,  -6,  -5,  -7,   0,  -1,   0,  -5,   0,   0,  -3, -17,   0,  }, /* S */
+    {  -1,  -8,  -5,  -6,  -9,  -6,  -7,  -2,  -3,  -7,  -4,  -2,  -4,  -5,  -6,   0,   7,  -3, -13,  -6,   0,  -3,   0,  -6,   0,   0,  -4, -17,   0,  }, /* T */
+    {  -2,  -6,  -8,  -6,  -8,  -5,  -6,   2,  -9,  -2,  -1,  -8,  -6,  -7,  -8,  -6,  -3,   7, -15,  -7,   0,  -8,   0,  -6,   0,   0,  -5, -17,   0,  }, /* V */
+    { -13, -15, -15, -17,  -4, -15,  -7, -14, -12,  -6, -13,  -8, -14, -13,  -2,  -5, -13, -15,  13,  -5,   0, -10,   0, -14,   0,   0, -11, -17,   0,  }, /* W */
+    {  -8,  -4, -11,  -8,   2, -14,  -3,  -6,  -9,  -7, -11,  -4, -13, -12, -10,  -7,  -6,  -7,  -5,  10,   0,  -6,   0,  -9,   0,   0,  -7, -17,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -3, -12,   6,   1, -10,  -3,  -1,  -6,  -2,  -9, -10,   6,  -7,  -3,  -7,  -1,  -3,  -8, -10,  -6,   0,   6,   0,   0,   0,   0,  -5, -17,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -3, -14,   1,   6, -13,  -5,  -1,  -6,  -4,  -7,  -5,  -3,  -4,   6,  -4,  -5,  -6,  -6, -14,  -9,   0,   0,   0,   6,   0,   0,  -5, -17,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {  -3,  -9,  -5,  -5,  -8,  -5,  -5,  -5,  -5,  -6,  -5,  -3,  -5,  -5,  -6,  -3,  -4,  -5, -11,  -7,   0,  -5,   0,  -5,   0,   0,  -5, -17,   0,  }, /* X */
+    { -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17, -17,   0, -17,   0, -17,   0,   0, -17,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "PAM70", {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   5,  -4,  -1,  -1,  -6,   0,  -4,  -2,  -4,  -4,  -3,  -2,   0,  -2,  -4,   1,   1,  -1,  -9,  -5,   0,  -1,   0,  -1,   0,   0,  -2, -11,   0,  }, /* A */
+    {  -4,   9,  -9,  -9,  -8,  -6,  -5,  -4,  -9, -10,  -9,  -7,  -5,  -9,  -5,  -1,  -5,  -4, -11,  -2,   0,  -8,   0,  -9,   0,   0,  -6, -11,   0,  }, /* C */
+    {  -1,  -9,   6,   3, -10,  -1,  -1,  -5,  -2,  -8,  -7,   3,  -4,   0,  -6,  -1,  -2,  -5, -10,  -7,   0,   5,   0,   2,   0,   0,  -3, -11,   0,  }, /* D */
+    {  -1,  -9,   3,   6,  -9,  -2,  -2,  -4,  -2,  -6,  -4,   0,  -3,   2,  -5,  -2,  -3,  -4, -11,  -6,   0,   2,   0,   5,   0,   0,  -3, -11,   0,  }, /* E */
+    {  -6,  -8, -10,  -9,   8,  -7,  -4,   0,  -9,  -1,  -2,  -6,  -7,  -9,  -7,  -4,  -6,  -5,  -2,   4,   0,  -7,   0,  -9,   0,   0,  -5, -11,   0,  }, /* F */
+    {   0,  -6,  -1,  -2,  -7,   6,  -6,  -6,  -5,  -7,  -6,  -1,  -3,  -4,  -6,   0,  -3,  -3, -10,  -9,   0,  -1,   0,  -3,   0,   0,  -3, -11,   0,  }, /* G */
+    {  -4,  -5,  -1,  -2,  -4,  -6,   8,  -6,  -3,  -4,  -6,   1,  -2,   2,   0,  -3,  -4,  -4,  -5,  -1,   0,   0,   0,   1,   0,   0,  -3, -11,   0,  }, /* H */
+    {  -2,  -4,  -5,  -4,   0,  -6,  -6,   7,  -4,   1,   1,  -3,  -5,  -5,  -3,  -4,  -1,   3,  -9,  -4,   0,  -4,   0,  -4,   0,   0,  -3, -11,   0,  }, /* I */
+    {  -4,  -9,  -2,  -2,  -9,  -5,  -3,  -4,   6,  -5,   0,   0,  -4,  -1,   2,  -2,  -1,  -6,  -7,  -7,   0,  -1,   0,  -2,   0,   0,  -3, -11,   0,  }, /* K */
+    {  -4, -10,  -8,  -6,  -1,  -7,  -4,   1,  -5,   6,   2,  -5,  -5,  -3,  -6,  -6,  -4,   0,  -4,  -4,   0,  -6,   0,  -4,   0,   0,  -4, -11,   0,  }, /* L */
+    {  -3,  -9,  -7,  -4,  -2,  -6,  -6,   1,   0,   2,  10,  -5,  -5,  -2,  -2,  -3,  -2,   0,  -8,  -7,   0,  -6,   0,  -3,   0,   0,  -3, -11,   0,  }, /* M */
+    {  -2,  -7,   3,   0,  -6,  -1,   1,  -3,   0,  -5,  -5,   6,  -3,  -1,  -3,   1,   0,  -5,  -6,  -3,   0,   5,   0,  -1,   0,   0,  -2, -11,   0,  }, /* N */
+    {   0,  -5,  -4,  -3,  -7,  -3,  -2,  -5,  -4,  -5,  -5,  -3,   7,  -1,  -2,   0,  -2,  -3,  -9,  -9,   0,  -4,   0,  -2,   0,   0,  -3, -11,   0,  }, /* P */
+    {  -2,  -9,   0,   2,  -9,  -4,   2,  -5,  -1,  -3,  -2,  -1,  -1,   7,   0,  -3,  -3,  -4,  -8,  -8,   0,  -1,   0,   5,   0,   0,  -2, -11,   0,  }, /* Q */
+    {  -4,  -5,  -6,  -5,  -7,  -6,   0,  -3,   2,  -6,  -2,  -3,  -2,   0,   8,  -1,  -4,  -5,   0,  -7,   0,  -4,   0,  -2,   0,   0,  -3, -11,   0,  }, /* R */
+    {   1,  -1,  -1,  -2,  -4,   0,  -3,  -4,  -2,  -6,  -3,   1,   0,  -3,  -1,   5,   2,  -3,  -3,  -5,   0,   0,   0,  -2,   0,   0,  -1, -11,   0,  }, /* S */
+    {   1,  -5,  -2,  -3,  -6,  -3,  -4,  -1,  -1,  -4,  -2,   0,  -2,  -3,  -4,   2,   6,  -1,  -8,  -4,   0,  -1,   0,  -3,   0,   0,  -2, -11,   0,  }, /* T */
+    {  -1,  -4,  -5,  -4,  -5,  -3,  -4,   3,  -6,   0,   0,  -5,  -3,  -4,  -5,  -3,  -1,   6, -10,  -5,   0,  -5,   0,  -4,   0,   0,  -2, -11,   0,  }, /* V */
+    {  -9, -11, -10, -11,  -2, -10,  -5,  -9,  -7,  -4,  -8,  -6,  -9,  -8,   0,  -3,  -8, -10,  13,  -3,   0,  -7,   0, -10,   0,   0,  -7, -11,   0,  }, /* W */
+    {  -5,  -2,  -7,  -6,   4,  -9,  -1,  -4,  -7,  -4,  -7,  -3,  -9,  -8,  -7,  -5,  -4,  -5,  -3,   9,   0,  -4,   0,  -7,   0,   0,  -5, -11,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -1,  -8,   5,   2,  -7,  -1,   0,  -4,  -1,  -6,  -6,   5,  -4,  -1,  -4,   0,  -1,  -5,  -7,  -4,   0,   5,   0,   1,   0,   0,  -2, -11,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -1,  -9,   2,   5,  -9,  -3,   1,  -4,  -2,  -4,  -3,  -1,  -2,   5,  -2,  -2,  -3,  -4, -10,  -7,   0,   1,   0,   5,   0,   0,  -3, -11,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {  -2,  -6,  -3,  -3,  -5,  -3,  -3,  -3,  -3,  -4,  -3,  -2,  -3,  -2,  -3,  -1,  -2,  -2,  -7,  -5,   0,  -2,   0,  -3,   0,   0,  -3, -11,   0,  }, /* X */
+    { -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11, -11,   0, -11,   0, -11,   0,   0, -11,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "PAM120",  {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   3,  -3,   0,   0,  -4,   1,  -3,  -1,  -2,  -3,  -2,  -1,   1,  -1,  -3,   1,   1,   0,  -7,  -4,   0,   0,   0,  -1,   0,   0,  -1,  -8,   0,  }, /* A */
+    {  -3,   9,  -7,  -7,  -6,  -4,  -4,  -3,  -7,  -7,  -6,  -5,  -4,  -7,  -4,   0,  -3,  -3,  -8,  -1,   0,  -6,   0,  -7,   0,   0,  -4,  -8,   0,  }, /* C */
+    {   0,  -7,   5,   3,  -7,   0,   0,  -3,  -1,  -5,  -4,   2,  -3,   1,  -3,   0,  -1,  -3,  -8,  -5,   0,   4,   0,   3,   0,   0,  -2,  -8,   0,  }, /* D */
+    {   0,  -7,   3,   5,  -7,  -1,  -1,  -3,  -1,  -4,  -3,   1,  -2,   2,  -3,  -1,  -2,  -3,  -8,  -5,   0,   3,   0,   4,   0,   0,  -1,  -8,   0,  }, /* E */
+    {  -4,  -6,  -7,  -7,   8,  -5,  -3,   0,  -7,   0,  -1,  -4,  -5,  -6,  -5,  -3,  -4,  -3,  -1,   4,   0,  -5,   0,  -6,   0,   0,  -3,  -8,   0,  }, /* F */
+    {   1,  -4,   0,  -1,  -5,   5,  -4,  -4,  -3,  -5,  -4,   0,  -2,  -3,  -4,   1,  -1,  -2,  -8,  -6,   0,   0,   0,  -2,   0,   0,  -2,  -8,   0,  }, /* G */
+    {  -3,  -4,   0,  -1,  -3,  -4,   7,  -4,  -2,  -3,  -4,   2,  -1,   3,   1,  -2,  -3,  -3,  -3,  -1,   0,   1,   0,   1,   0,   0,  -2,  -8,   0,  }, /* H */
+    {  -1,  -3,  -3,  -3,   0,  -4,  -4,   6,  -3,   1,   1,  -2,  -3,  -3,  -2,  -2,   0,   3,  -6,  -2,   0,  -3,   0,  -3,   0,   0,  -1,  -8,   0,  }, /* I */
+    {  -2,  -7,  -1,  -1,  -7,  -3,  -2,  -3,   5,  -4,   0,   1,  -2,   0,   2,  -1,  -1,  -4,  -5,  -5,   0,   0,   0,  -1,   0,   0,  -2,  -8,   0,  }, /* K */
+    {  -3,  -7,  -5,  -4,   0,  -5,  -3,   1,  -4,   5,   3,  -4,  -3,  -2,  -4,  -4,  -3,   1,  -3,  -2,   0,  -4,   0,  -3,   0,   0,  -2,  -8,   0,  }, /* L */
+    {  -2,  -6,  -4,  -3,  -1,  -4,  -4,   1,   0,   3,   8,  -3,  -3,  -1,  -1,  -2,  -1,   1,  -6,  -4,   0,  -4,   0,  -2,   0,   0,  -2,  -8,   0,  }, /* M */
+    {  -1,  -5,   2,   1,  -4,   0,   2,  -2,   1,  -4,  -3,   4,  -2,   0,  -1,   1,   0,  -3,  -4,  -2,   0,   3,   0,   0,   0,   0,  -1,  -8,   0,  }, /* N */
+    {   1,  -4,  -3,  -2,  -5,  -2,  -1,  -3,  -2,  -3,  -3,  -2,   6,   0,  -1,   1,  -1,  -2,  -7,  -6,   0,  -2,   0,  -1,   0,   0,  -2,  -8,   0,  }, /* P */
+    {  -1,  -7,   1,   2,  -6,  -3,   3,  -3,   0,  -2,  -1,   0,   0,   6,   1,  -2,  -2,  -3,  -6,  -5,   0,   0,   0,   4,   0,   0,  -1,  -8,   0,  }, /* Q */
+    {  -3,  -4,  -3,  -3,  -5,  -4,   1,  -2,   2,  -4,  -1,  -1,  -1,   1,   6,  -1,  -2,  -3,   1,  -5,   0,  -2,   0,  -1,   0,   0,  -2,  -8,   0,  }, /* R */
+    {   1,   0,   0,  -1,  -3,   1,  -2,  -2,  -1,  -4,  -2,   1,   1,  -2,  -1,   3,   2,  -2,  -2,  -3,   0,   0,   0,  -1,   0,   0,  -1,  -8,   0,  }, /* S */
+    {   1,  -3,  -1,  -2,  -4,  -1,  -3,   0,  -1,  -3,  -1,   0,  -1,  -2,  -2,   2,   4,   0,  -6,  -3,   0,   0,   0,  -2,   0,   0,  -1,  -8,   0,  }, /* T */
+    {   0,  -3,  -3,  -3,  -3,  -2,  -3,   3,  -4,   1,   1,  -3,  -2,  -3,  -3,  -2,   0,   5,  -8,  -3,   0,  -3,   0,  -3,   0,   0,  -1,  -8,   0,  }, /* V */
+    {  -7,  -8,  -8,  -8,  -1,  -8,  -3,  -6,  -5,  -3,  -6,  -4,  -7,  -6,   1,  -2,  -6,  -8,  12,  -2,   0,  -6,   0,  -7,   0,   0,  -5,  -8,   0,  }, /* W */
+    {  -4,  -1,  -5,  -5,   4,  -6,  -1,  -2,  -5,  -2,  -4,  -2,  -6,  -5,  -5,  -3,  -3,  -3,  -2,   8,   0,  -3,   0,  -5,   0,   0,  -3,  -8,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {   0,  -6,   4,   3,  -5,   0,   1,  -3,   0,  -4,  -4,   3,  -2,   0,  -2,   0,   0,  -3,  -6,  -3,   0,   4,   0,   2,   0,   0,  -1,  -8,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -1,  -7,   3,   4,  -6,  -2,   1,  -3,  -1,  -3,  -2,   0,  -1,   4,  -1,  -1,  -2,  -3,  -7,  -5,   0,   2,   0,   4,   0,   0,  -1,  -8,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {  -1,  -4,  -2,  -1,  -3,  -2,  -2,  -1,  -2,  -2,  -2,  -1,  -2,  -1,  -2,  -1,  -1,  -1,  -5,  -3,   0,  -1,   0,  -1,   0,   0,  -2,  -8,   0,  }, /* X */
+    {  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,   0,  -8,   0,  -8,   0,   0,  -8,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "PAM240",  {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   2,  -2,   0,   0,  -4,   1,  -1,  -1,  -1,  -2,  -1,   0,   1,   0,  -2,   1,   1,   0,  -6,  -4,   0,   0,   0,   0,   0,   0,   0,  -8,   0,  }, /* A */
+    {  -2,  12,  -5,  -6,  -5,  -4,  -4,  -2,  -6,  -6,  -5,  -4,  -3,  -6,  -4,   0,  -2,  -2,  -8,   0,   0,  -5,   0,  -6,   0,   0,  -3,  -8,   0,  }, /* C */
+    {   0,  -5,   4,   4,  -6,   1,   1,  -2,   0,  -4,  -3,   2,  -1,   2,  -1,   0,   0,  -2,  -7,  -4,   0,   3,   0,   3,   0,   0,  -1,  -8,   0,  }, /* D */
+    {   0,  -6,   4,   4,  -6,   0,   1,  -2,   0,  -3,  -2,   1,  -1,   3,  -1,   0,   0,  -2,  -7,  -4,   0,   3,   0,   3,   0,   0,  -1,  -8,   0,  }, /* E */
+    {  -4,  -5,  -6,  -6,   9,  -5,  -2,   1,  -5,   2,   0,  -4,  -5,  -5,  -5,  -3,  -3,  -1,   0,   7,   0,  -5,   0,  -5,   0,   0,  -2,  -8,   0,  }, /* F */
+    {   1,  -4,   1,   0,  -5,   5,  -2,  -3,  -2,  -4,  -3,   0,  -1,  -1,  -3,   1,   0,  -1,  -7,  -5,   0,   0,   0,   0,   0,   0,  -1,  -8,   0,  }, /* G */
+    {  -1,  -4,   1,   1,  -2,  -2,   7,  -3,   0,  -2,  -2,   2,   0,   3,   2,  -1,  -1,  -2,  -3,   0,   0,   1,   0,   2,   0,   0,  -1,  -8,   0,  }, /* H */
+    {  -1,  -2,  -2,  -2,   1,  -3,  -3,   5,  -2,   2,   2,  -2,  -2,  -2,  -2,  -1,   0,   4,  -5,  -1,   0,  -2,   0,  -2,   0,   0,  -1,  -8,   0,  }, /* I */
+    {  -1,  -6,   0,   0,  -5,  -2,   0,  -2,   5,  -3,   0,   1,  -1,   1,   3,   0,   0,  -3,  -4,  -5,   0,   1,   0,   0,   0,   0,  -1,  -8,   0,  }, /* K */
+    {  -2,  -6,  -4,  -3,   2,  -4,  -2,   2,  -3,   6,   4,  -3,  -3,  -2,  -3,  -3,  -2,   2,  -2,  -1,   0,  -4,   0,  -3,   0,   0,  -1,  -8,   0,  }, /* L */
+    {  -1,  -5,  -3,  -2,   0,  -3,  -2,   2,   0,   4,   7,  -2,  -2,  -1,   0,  -2,  -1,   2,  -4,  -3,   0,  -2,   0,  -2,   0,   0,  -1,  -8,   0,  }, /* M */
+    {   0,  -4,   2,   1,  -4,   0,   2,  -2,   1,  -3,  -2,   2,  -1,   1,   0,   1,   0,  -2,  -4,  -2,   0,   2,   0,   1,   0,   0,   0,  -8,   0,  }, /* N */
+    {   1,  -3,  -1,  -1,  -5,  -1,   0,  -2,  -1,  -3,  -2,  -1,   6,   0,   0,   1,   0,  -1,  -6,  -5,   0,  -1,   0,   0,   0,   0,  -1,  -8,   0,  }, /* P */
+    {   0,  -6,   2,   3,  -5,  -1,   3,  -2,   1,  -2,  -1,   1,   0,   4,   1,  -1,  -1,  -2,  -5,  -4,   0,   1,   0,   3,   0,   0,  -1,  -8,   0,  }, /* Q */
+    {  -2,  -4,  -1,  -1,  -5,  -3,   2,  -2,   3,  -3,   0,   0,   0,   1,   6,   0,  -1,  -3,   2,  -4,   0,  -1,   0,   0,   0,   0,  -1,  -8,   0,  }, /* R */
+    {   1,   0,   0,   0,  -3,   1,  -1,  -1,   0,  -3,  -2,   1,   1,  -1,   0,   2,   1,  -1,  -3,  -3,   0,   0,   0,   0,   0,   0,   0,  -8,   0,  }, /* S */
+    {   1,  -2,   0,   0,  -3,   0,  -1,   0,   0,  -2,  -1,   0,   0,  -1,  -1,   1,   3,   0,  -5,  -3,   0,   0,   0,  -1,   0,   0,   0,  -8,   0,  }, /* T */
+    {   0,  -2,  -2,  -2,  -1,  -1,  -2,   4,  -3,   2,   2,  -2,  -1,  -2,  -3,  -1,   0,   4,  -6,  -3,   0,  -2,   0,  -2,   0,   0,  -1,  -8,   0,  }, /* V */
+    {  -6,  -8,  -7,  -7,   0,  -7,  -3,  -5,  -4,  -2,  -4,  -4,  -6,  -5,   2,  -3,  -5,  -6,  17,   0,   0,  -5,   0,  -6,   0,   0,  -4,  -8,   0,  }, /* W */
+    {  -4,   0,  -4,  -4,   7,  -5,   0,  -1,  -5,  -1,  -3,  -2,  -5,  -4,  -4,  -3,  -3,  -3,   0,  10,   0,  -3,   0,  -4,   0,   0,  -2,  -8,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {   0,  -5,   3,   3,  -5,   0,   1,  -2,   1,  -4,  -2,   2,  -1,   1,  -1,   0,   0,  -2,  -5,  -3,   0,   3,   0,   2,   0,   0,  -1,  -8,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {   0,  -6,   3,   3,  -5,   0,   2,  -2,   0,  -3,  -2,   1,   0,   3,   0,   0,  -1,  -2,  -6,  -4,   0,   2,   0,   3,   0,   0,  -1,  -8,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {   0,  -3,  -1,  -1,  -2,  -1,  -1,  -1,  -1,  -1,  -1,   0,  -1,  -1,  -1,   0,   0,  -1,  -4,  -2,   0,  -1,   0,  -1,   0,   0,  -1,  -8,   0,  }, /* X */
+    {  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,   0,  -8,   0,  -8,   0,   0,  -8,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "BLOSUM45", {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   5,  -1,  -2,  -1,  -2,   0,  -2,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -2,   1,   0,   0,  -2,  -2,   0,  -1,   0,  -1,   0,   0,   0,  -5,   0,  }, /* A */
+    {  -1,  12,  -3,  -3,  -2,  -3,  -3,  -3,  -3,  -2,  -2,  -2,  -4,  -3,  -3,  -1,  -1,  -1,  -5,  -3,   0,  -2,   0,  -3,   0,   0,  -2,  -5,   0,  }, /* C */
+    {  -2,  -3,   7,   2,  -4,  -1,   0,  -4,   0,  -3,  -3,   2,  -1,   0,  -1,   0,  -1,  -3,  -4,  -2,   0,   5,   0,   1,   0,   0,  -1,  -5,   0,  }, /* D */
+    {  -1,  -3,   2,   6,  -3,  -2,   0,  -3,   1,  -2,  -2,   0,   0,   2,   0,   0,  -1,  -3,  -3,  -2,   0,   1,   0,   4,   0,   0,  -1,  -5,   0,  }, /* E */
+    {  -2,  -2,  -4,  -3,   8,  -3,  -2,   0,  -3,   1,   0,  -2,  -3,  -4,  -2,  -2,  -1,   0,   1,   3,   0,  -3,   0,  -3,   0,   0,  -1,  -5,   0,  }, /* F */
+    {   0,  -3,  -1,  -2,  -3,   7,  -2,  -4,  -2,  -3,  -2,   0,  -2,  -2,  -2,   0,  -2,  -3,  -2,  -3,   0,  -1,   0,  -2,   0,   0,  -1,  -5,   0,  }, /* G */
+    {  -2,  -3,   0,   0,  -2,  -2,  10,  -3,  -1,  -2,   0,   1,  -2,   1,   0,  -1,  -2,  -3,  -3,   2,   0,   0,   0,   0,   0,   0,  -1,  -5,   0,  }, /* H */
+    {  -1,  -3,  -4,  -3,   0,  -4,  -3,   5,  -3,   2,   2,  -2,  -2,  -2,  -3,  -2,  -1,   3,  -2,   0,   0,  -3,   0,  -3,   0,   0,  -1,  -5,   0,  }, /* I */
+    {  -1,  -3,   0,   1,  -3,  -2,  -1,  -3,   5,  -3,  -1,   0,  -1,   1,   3,  -1,  -1,  -2,  -2,  -1,   0,   0,   0,   1,   0,   0,  -1,  -5,   0,  }, /* K */
+    {  -1,  -2,  -3,  -2,   1,  -3,  -2,   2,  -3,   5,   2,  -3,  -3,  -2,  -2,  -3,  -1,   1,  -2,   0,   0,  -3,   0,  -2,   0,   0,  -1,  -5,   0,  }, /* L */
+    {  -1,  -2,  -3,  -2,   0,  -2,   0,   2,  -1,   2,   6,  -2,  -2,   0,  -1,  -2,  -1,   1,  -2,   0,   0,  -2,   0,  -1,   0,   0,  -1,  -5,   0,  }, /* M */
+    {  -1,  -2,   2,   0,  -2,   0,   1,  -2,   0,  -3,  -2,   6,  -2,   0,   0,   1,   0,  -3,  -4,  -2,   0,   4,   0,   0,   0,   0,  -1,  -5,   0,  }, /* N */
+    {  -1,  -4,  -1,   0,  -3,  -2,  -2,  -2,  -1,  -3,  -2,  -2,   9,  -1,  -2,  -1,  -1,  -3,  -3,  -3,   0,  -2,   0,  -1,   0,   0,  -1,  -5,   0,  }, /* P */
+    {  -1,  -3,   0,   2,  -4,  -2,   1,  -2,   1,  -2,   0,   0,  -1,   6,   1,   0,  -1,  -3,  -2,  -1,   0,   0,   0,   4,   0,   0,  -1,  -5,   0,  }, /* Q */
+    {  -2,  -3,  -1,   0,  -2,  -2,   0,  -3,   3,  -2,  -1,   0,  -2,   1,   7,  -1,  -1,  -2,  -2,  -1,   0,  -1,   0,   0,   0,   0,  -1,  -5,   0,  }, /* R */
+    {   1,  -1,   0,   0,  -2,   0,  -1,  -2,  -1,  -3,  -2,   1,  -1,   0,  -1,   4,   2,  -1,  -4,  -2,   0,   0,   0,   0,   0,   0,   0,  -5,   0,  }, /* S */
+    {   0,  -1,  -1,  -1,  -1,  -2,  -2,  -1,  -1,  -1,  -1,   0,  -1,  -1,  -1,   2,   5,   0,  -3,  -1,   0,   0,   0,  -1,   0,   0,   0,  -5,   0,  }, /* T */
+    {   0,  -1,  -3,  -3,   0,  -3,  -3,   3,  -2,   1,   1,  -3,  -3,  -3,  -2,  -1,   0,   5,  -3,  -1,   0,  -3,   0,  -3,   0,   0,  -1,  -5,   0,  }, /* V */
+    {  -2,  -5,  -4,  -3,   1,  -2,  -3,  -2,  -2,  -2,  -2,  -4,  -3,  -2,  -2,  -4,  -3,  -3,  15,   3,   0,  -4,   0,  -2,   0,   0,  -2,  -5,   0,  }, /* W */
+    {  -2,  -3,  -2,  -2,   3,  -3,   2,   0,  -1,   0,   0,  -2,  -3,  -1,  -1,  -2,  -1,  -1,   3,   8,   0,  -2,   0,  -2,   0,   0,  -1,  -5,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -1,  -2,   5,   1,  -3,  -1,   0,  -3,   0,  -3,  -2,   4,  -2,   0,  -1,   0,   0,  -3,  -4,  -2,   0,   4,   0,   2,   0,   0,  -1,  -5,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -1,  -3,   1,   4,  -3,  -2,   0,  -3,   1,  -2,  -1,   0,  -1,   4,   0,   0,  -1,  -3,  -2,  -2,   0,   2,   0,   4,   0,   0,  -1,  -5,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {   0,  -2,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,   0,   0,  -1,  -2,  -1,   0,  -1,   0,  -1,   0,   0,  -1,  -5,   0,  }, /* X */
+    {  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,   0,  -5,   0,  -5,   0,   0,  -5,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "BLOSUM50",  {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   5,  -1,  -2,  -1,  -3,   0,  -2,  -1,  -1,  -2,  -1,  -1,  -1,  -1,  -2,   1,   0,   0,  -3,  -2,   0,  -2,   0,  -1,   0,   0,  -1,  -5,   0,  }, /* A */
+    {  -1,  13,  -4,  -3,  -2,  -3,  -3,  -2,  -3,  -2,  -2,  -2,  -4,  -3,  -4,  -1,  -1,  -1,  -5,  -3,   0,  -3,   0,  -3,   0,   0,  -2,  -5,   0,  }, /* C */
+    {  -2,  -4,   8,   2,  -5,  -1,  -1,  -4,  -1,  -4,  -4,   2,  -1,   0,  -2,   0,  -1,  -4,  -5,  -3,   0,   5,   0,   1,   0,   0,  -1,  -5,   0,  }, /* D */
+    {  -1,  -3,   2,   6,  -3,  -3,   0,  -4,   1,  -3,  -2,   0,  -1,   2,   0,  -1,  -1,  -3,  -3,  -2,   0,   1,   0,   5,   0,   0,  -1,  -5,   0,  }, /* E */
+    {  -3,  -2,  -5,  -3,   8,  -4,  -1,   0,  -4,   1,   0,  -4,  -4,  -4,  -3,  -3,  -2,  -1,   1,   4,   0,  -4,   0,  -4,   0,   0,  -2,  -5,   0,  }, /* F */
+    {   0,  -3,  -1,  -3,  -4,   8,  -2,  -4,  -2,  -4,  -3,   0,  -2,  -2,  -3,   0,  -2,  -4,  -3,  -3,   0,  -1,   0,  -2,   0,   0,  -2,  -5,   0,  }, /* G */
+    {  -2,  -3,  -1,   0,  -1,  -2,  10,  -4,   0,  -3,  -1,   1,  -2,   1,   0,  -1,  -2,  -4,  -3,   2,   0,   0,   0,   0,   0,   0,  -1,  -5,   0,  }, /* H */
+    {  -1,  -2,  -4,  -4,   0,  -4,  -4,   5,  -3,   2,   2,  -3,  -3,  -3,  -4,  -3,  -1,   4,  -3,  -1,   0,  -4,   0,  -3,   0,   0,  -1,  -5,   0,  }, /* I */
+    {  -1,  -3,  -1,   1,  -4,  -2,   0,  -3,   6,  -3,  -2,   0,  -1,   2,   3,   0,  -1,  -3,  -3,  -2,   0,   0,   0,   1,   0,   0,  -1,  -5,   0,  }, /* K */
+    {  -2,  -2,  -4,  -3,   1,  -4,  -3,   2,  -3,   5,   3,  -4,  -4,  -2,  -3,  -3,  -1,   1,  -2,  -1,   0,  -4,   0,  -3,   0,   0,  -1,  -5,   0,  }, /* L */
+    {  -1,  -2,  -4,  -2,   0,  -3,  -1,   2,  -2,   3,   7,  -2,  -3,   0,  -2,  -2,  -1,   1,  -1,   0,   0,  -3,   0,  -1,   0,   0,  -1,  -5,   0,  }, /* M */
+    {  -1,  -2,   2,   0,  -4,   0,   1,  -3,   0,  -4,  -2,   7,  -2,   0,  -1,   1,   0,  -3,  -4,  -2,   0,   4,   0,   0,   0,   0,  -1,  -5,   0,  }, /* N */
+    {  -1,  -4,  -1,  -1,  -4,  -2,  -2,  -3,  -1,  -4,  -3,  -2,  10,  -1,  -3,  -1,  -1,  -3,  -4,  -3,   0,  -2,   0,  -1,   0,   0,  -2,  -5,   0,  }, /* P */
+    {  -1,  -3,   0,   2,  -4,  -2,   1,  -3,   2,  -2,   0,   0,  -1,   7,   1,   0,  -1,  -3,  -1,  -1,   0,   0,   0,   4,   0,   0,  -1,  -5,   0,  }, /* Q */
+    {  -2,  -4,  -2,   0,  -3,  -3,   0,  -4,   3,  -3,  -2,  -1,  -3,   1,   7,  -1,  -1,  -3,  -3,  -1,   0,  -1,   0,   0,   0,   0,  -1,  -5,   0,  }, /* R */
+    {   1,  -1,   0,  -1,  -3,   0,  -1,  -3,   0,  -3,  -2,   1,  -1,   0,  -1,   5,   2,  -2,  -4,  -2,   0,   0,   0,   0,   0,   0,  -1,  -5,   0,  }, /* S */
+    {   0,  -1,  -1,  -1,  -2,  -2,  -2,  -1,  -1,  -1,  -1,   0,  -1,  -1,  -1,   2,   5,   0,  -3,  -2,   0,   0,   0,  -1,   0,   0,   0,  -5,   0,  }, /* T */
+    {   0,  -1,  -4,  -3,  -1,  -4,  -4,   4,  -3,   1,   1,  -3,  -3,  -3,  -3,  -2,   0,   5,  -3,  -1,   0,  -4,   0,  -3,   0,   0,  -1,  -5,   0,  }, /* V */
+    {  -3,  -5,  -5,  -3,   1,  -3,  -3,  -3,  -3,  -2,  -1,  -4,  -4,  -1,  -3,  -4,  -3,  -3,  15,   2,   0,  -5,   0,  -2,   0,   0,  -3,  -5,   0,  }, /* W */
+    {  -2,  -3,  -3,  -2,   4,  -3,   2,  -1,  -2,  -1,   0,  -2,  -3,  -1,  -1,  -2,  -2,  -1,   2,   8,   0,  -3,   0,  -2,   0,   0,  -1,  -5,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -2,  -3,   5,   1,  -4,  -1,   0,  -4,   0,  -4,  -3,   4,  -2,   0,  -1,   0,   0,  -4,  -5,  -3,   0,   5,   0,   2,   0,   0,  -1,  -5,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -1,  -3,   1,   5,  -4,  -2,   0,  -3,   1,  -3,  -1,   0,  -1,   4,   0,   0,  -1,  -3,  -2,  -2,   0,   2,   0,   5,   0,   0,  -1,  -5,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {  -1,  -2,  -1,  -1,  -2,  -2,  -1,  -1,  -1,  -1,  -1,  -1,  -2,  -1,  -1,  -1,   0,  -1,  -3,  -1,   0,  -1,   0,  -1,   0,   0,  -1,  -5,   0,  }, /* X */
+    {  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,  -5,   0,  -5,   0,  -5,   0,   0,  -5,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "BLOSUM62",  {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   4,   0,  -2,  -1,  -2,   0,  -2,  -1,  -1,  -1,  -1,  -2,  -1,  -1,  -1,   1,   0,   0,  -3,  -2,   0,  -2,   0,  -1,   0,   0,   0,  -4,   0,  }, /* A */
+    {   0,   9,  -3,  -4,  -2,  -3,  -3,  -1,  -3,  -1,  -1,  -3,  -3,  -3,  -3,  -1,  -1,  -1,  -2,  -2,   0,  -3,   0,  -3,   0,   0,  -2,  -4,   0,  }, /* C */
+    {  -2,  -3,   6,   2,  -3,  -1,  -1,  -3,  -1,  -4,  -3,   1,  -1,   0,  -2,   0,  -1,  -3,  -4,  -3,   0,   4,   0,   1,   0,   0,  -1,  -4,   0,  }, /* D */
+    {  -1,  -4,   2,   5,  -3,  -2,   0,  -3,   1,  -3,  -2,   0,  -1,   2,   0,   0,  -1,  -2,  -3,  -2,   0,   1,   0,   4,   0,   0,  -1,  -4,   0,  }, /* E */
+    {  -2,  -2,  -3,  -3,   6,  -3,  -1,   0,  -3,   0,   0,  -3,  -4,  -3,  -3,  -2,  -2,  -1,   1,   3,   0,  -3,   0,  -3,   0,   0,  -1,  -4,   0,  }, /* F */
+    {   0,  -3,  -1,  -2,  -3,   6,  -2,  -4,  -2,  -4,  -3,   0,  -2,  -2,  -2,   0,  -2,  -3,  -2,  -3,   0,  -1,   0,  -2,   0,   0,  -1,  -4,   0,  }, /* G */
+    {  -2,  -3,  -1,   0,  -1,  -2,   8,  -3,  -1,  -3,  -2,   1,  -2,   0,   0,  -1,  -2,  -3,  -2,   2,   0,   0,   0,   0,   0,   0,  -1,  -4,   0,  }, /* H */
+    {  -1,  -1,  -3,  -3,   0,  -4,  -3,   4,  -3,   2,   1,  -3,  -3,  -3,  -3,  -2,  -1,   3,  -3,  -1,   0,  -3,   0,  -3,   0,   0,  -1,  -4,   0,  }, /* I */
+    {  -1,  -3,  -1,   1,  -3,  -2,  -1,  -3,   5,  -2,  -1,   0,  -1,   1,   2,   0,  -1,  -2,  -3,  -2,   0,   0,   0,   1,   0,   0,  -1,  -4,   0,  }, /* K */
+    {  -1,  -1,  -4,  -3,   0,  -4,  -3,   2,  -2,   4,   2,  -3,  -3,  -2,  -2,  -2,  -1,   1,  -2,  -1,   0,  -4,   0,  -3,   0,   0,  -1,  -4,   0,  }, /* L */
+    {  -1,  -1,  -3,  -2,   0,  -3,  -2,   1,  -1,   2,   5,  -2,  -2,   0,  -1,  -1,  -1,   1,  -1,  -1,   0,  -3,   0,  -1,   0,   0,  -1,  -4,   0,  }, /* M */
+    {  -2,  -3,   1,   0,  -3,   0,   1,  -3,   0,  -3,  -2,   6,  -2,   0,   0,   1,   0,  -3,  -4,  -2,   0,   3,   0,   0,   0,   0,  -1,  -4,   0,  }, /* N */
+    {  -1,  -3,  -1,  -1,  -4,  -2,  -2,  -3,  -1,  -3,  -2,  -2,   7,  -1,  -2,  -1,  -1,  -2,  -4,  -3,   0,  -2,   0,  -1,   0,   0,  -2,  -4,   0,  }, /* P */
+    {  -1,  -3,   0,   2,  -3,  -2,   0,  -3,   1,  -2,   0,   0,  -1,   5,   1,   0,  -1,  -2,  -2,  -1,   0,   0,   0,   3,   0,   0,  -1,  -4,   0,  }, /* Q */
+    {  -1,  -3,  -2,   0,  -3,  -2,   0,  -3,   2,  -2,  -1,   0,  -2,   1,   5,  -1,  -1,  -3,  -3,  -2,   0,  -1,   0,   0,   0,   0,  -1,  -4,   0,  }, /* R */
+    {   1,  -1,   0,   0,  -2,   0,  -1,  -2,   0,  -2,  -1,   1,  -1,   0,  -1,   4,   1,  -2,  -3,  -2,   0,   0,   0,   0,   0,   0,   0,  -4,   0,  }, /* S */
+    {   0,  -1,  -1,  -1,  -2,  -2,  -2,  -1,  -1,  -1,  -1,   0,  -1,  -1,  -1,   1,   5,   0,  -2,  -2,   0,  -1,   0,  -1,   0,   0,   0,  -4,   0,  }, /* T */
+    {   0,  -1,  -3,  -2,  -1,  -3,  -3,   3,  -2,   1,   1,  -3,  -2,  -2,  -3,  -2,   0,   4,  -3,  -1,   0,  -3,   0,  -2,   0,   0,  -1,  -4,   0,  }, /* V */
+    {  -3,  -2,  -4,  -3,   1,  -2,  -2,  -3,  -3,  -2,  -1,  -4,  -4,  -2,  -3,  -3,  -2,  -3,  11,   2,   0,  -4,   0,  -3,   0,   0,  -2,  -4,   0,  }, /* W */
+    {  -2,  -2,  -3,  -2,   3,  -3,   2,  -1,  -2,  -1,  -1,  -2,  -3,  -1,  -2,  -2,  -2,  -1,   2,   7,   0,  -3,   0,  -2,   0,   0,  -1,  -4,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -2,  -3,   4,   1,  -3,  -1,   0,  -3,   0,  -4,  -3,   3,  -2,   0,  -1,   0,  -1,  -3,  -4,  -3,   0,   4,   0,   1,   0,   0,  -1,  -4,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -1,  -3,   1,   4,  -3,  -2,   0,  -3,   1,  -3,  -1,   0,  -1,   3,   0,   0,  -1,  -2,  -3,  -2,   0,   1,   0,   4,   0,   0,  -1,  -4,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {   0,  -2,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -1,  -2,  -1,  -1,   0,   0,  -1,  -2,  -1,   0,  -1,   0,  -1,   0,   0,  -1,  -4,   0,  }, /* X */
+    {  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,  -4,   0,  -4,   0,  -4,   0,   0,  -4,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+    
+  { "BLOSUM80", {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   7,  -1,  -3,  -2,  -4,   0,  -3,  -3,  -1,  -3,  -2,  -3,  -1,  -2,  -3,   2,   0,  -1,  -5,  -4,   0,  -3,   0,  -2,   0,   0,  -1,  -8,   0,  }, /* A */
+    {  -1,  13,  -7,  -7,  -4,  -6,  -7,  -2,  -6,  -3,  -3,  -5,  -6,  -5,  -6,  -2,  -2,  -2,  -5,  -5,   0,  -6,   0,  -7,   0,   0,  -4,  -8,   0,  }, /* C */
+    {  -3,  -7,  10,   2,  -6,  -3,  -2,  -7,  -2,  -7,  -6,   2,  -3,  -1,  -3,  -1,  -2,  -6,  -8,  -6,   0,   6,   0,   1,   0,   0,  -3,  -8,   0,  }, /* D */
+    {  -2,  -7,   2,   8,  -6,  -4,   0,  -6,   1,  -6,  -4,  -1,  -2,   3,  -1,  -1,  -2,  -4,  -6,  -5,   0,   1,   0,   6,   0,   0,  -2,  -8,   0,  }, /* E */
+    {  -4,  -4,  -6,  -6,  10,  -6,  -2,  -1,  -5,   0,   0,  -6,  -6,  -5,  -5,  -4,  -4,  -2,   0,   4,   0,  -6,   0,  -6,   0,   0,  -3,  -8,   0,  }, /* F */
+    {   0,  -6,  -3,  -4,  -6,   9,  -4,  -7,  -3,  -7,  -5,  -1,  -5,  -4,  -4,  -1,  -3,  -6,  -6,  -6,   0,  -2,   0,  -4,   0,   0,  -3,  -8,   0,  }, /* G */
+    {  -3,  -7,  -2,   0,  -2,  -4,  12,  -6,  -1,  -5,  -4,   1,  -4,   1,   0,  -2,  -3,  -5,  -4,   3,   0,  -1,   0,   0,   0,   0,  -2,  -8,   0,  }, /* H */
+    {  -3,  -2,  -7,  -6,  -1,  -7,  -6,   7,  -5,   2,   2,  -6,  -5,  -5,  -5,  -4,  -2,   4,  -5,  -3,   0,  -6,   0,  -6,   0,   0,  -2,  -8,   0,  }, /* I */
+    {  -1,  -6,  -2,   1,  -5,  -3,  -1,  -5,   8,  -4,  -3,   0,  -2,   2,   3,  -1,  -1,  -4,  -6,  -4,   0,  -1,   0,   1,   0,   0,  -2,  -8,   0,  }, /* K */
+    {  -3,  -3,  -7,  -6,   0,  -7,  -5,   2,  -4,   6,   3,  -6,  -5,  -4,  -4,  -4,  -3,   1,  -4,  -2,   0,  -7,   0,  -5,   0,   0,  -2,  -8,   0,  }, /* L */
+    {  -2,  -3,  -6,  -4,   0,  -5,  -4,   2,  -3,   3,   9,  -4,  -4,  -1,  -3,  -3,  -1,   1,  -3,  -3,   0,  -5,   0,  -3,   0,   0,  -2,  -8,   0,  }, /* M */
+    {  -3,  -5,   2,  -1,  -6,  -1,   1,  -6,   0,  -6,  -4,   9,  -4,   0,  -1,   1,   0,  -5,  -7,  -4,   0,   5,   0,  -1,   0,   0,  -2,  -8,   0,  }, /* N */
+    {  -1,  -6,  -3,  -2,  -6,  -5,  -4,  -5,  -2,  -5,  -4,  -4,  12,  -3,  -3,  -2,  -3,  -4,  -7,  -6,   0,  -4,   0,  -2,   0,   0,  -3,  -8,   0,  }, /* P */
+    {  -2,  -5,  -1,   3,  -5,  -4,   1,  -5,   2,  -4,  -1,   0,  -3,   9,   1,  -1,  -1,  -4,  -4,  -3,   0,  -1,   0,   5,   0,   0,  -2,  -8,   0,  }, /* Q */
+    {  -3,  -6,  -3,  -1,  -5,  -4,   0,  -5,   3,  -4,  -3,  -1,  -3,   1,   9,  -2,  -2,  -4,  -5,  -4,   0,  -2,   0,   0,   0,   0,  -2,  -8,   0,  }, /* R */
+    {   2,  -2,  -1,  -1,  -4,  -1,  -2,  -4,  -1,  -4,  -3,   1,  -2,  -1,  -2,   7,   2,  -3,  -6,  -3,   0,   0,   0,  -1,   0,   0,  -1,  -8,   0,  }, /* S */
+    {   0,  -2,  -2,  -2,  -4,  -3,  -3,  -2,  -1,  -3,  -1,   0,  -3,  -1,  -2,   2,   8,   0,  -5,  -3,   0,  -1,   0,  -2,   0,   0,  -1,  -8,   0,  }, /* T */
+    {  -1,  -2,  -6,  -4,  -2,  -6,  -5,   4,  -4,   1,   1,  -5,  -4,  -4,  -4,  -3,   0,   7,  -5,  -3,   0,  -6,   0,  -4,   0,   0,  -2,  -8,   0,  }, /* V */
+    {  -5,  -5,  -8,  -6,   0,  -6,  -4,  -5,  -6,  -4,  -3,  -7,  -7,  -4,  -5,  -6,  -5,  -5,  16,   3,   0,  -8,   0,  -5,   0,   0,  -5,  -8,   0,  }, /* W */
+    {  -4,  -5,  -6,  -5,   4,  -6,   3,  -3,  -4,  -2,  -3,  -4,  -6,  -3,  -4,  -3,  -3,  -3,   3,  11,   0,  -5,   0,  -4,   0,   0,  -3,  -8,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -3,  -6,   6,   1,  -6,  -2,  -1,  -6,  -1,  -7,  -5,   5,  -4,  -1,  -2,   0,  -1,  -6,  -8,  -5,   0,   6,   0,   0,   0,   0,  -3,  -8,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -2,  -7,   1,   6,  -6,  -4,   0,  -6,   1,  -5,  -3,  -1,  -2,   5,   0,  -1,  -2,  -4,  -5,  -4,   0,   0,   0,   6,   0,   0,  -1,  -8,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {  -1,  -4,  -3,  -2,  -3,  -3,  -2,  -2,  -2,  -2,  -2,  -2,  -3,  -2,  -2,  -1,  -1,  -2,  -5,  -3,   0,  -3,   0,  -1,   0,   0,  -2,  -8,   0,  }, /* X */
+    {  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,  -8,   0,  -8,   0,  -8,   0,   0,  -8,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+
+  { "BLOSUM90",  {
+    /*  A    C    D    E    F    G    H    I    K    L    M    N    P    Q    R    S    T    V    W    Y    -    B    J    Z    O    U    X    *    ~           */
+    {   5,  -1,  -3,  -1,  -3,   0,  -2,  -2,  -1,  -2,  -2,  -2,  -1,  -1,  -2,   1,   0,  -1,  -4,  -3,   0,  -2,   0,  -1,   0,   0,  -1,  -6,   0,  }, /* A */
+    {  -1,   9,  -5,  -6,  -3,  -4,  -5,  -2,  -4,  -2,  -2,  -4,  -4,  -4,  -5,  -2,  -2,  -2,  -4,  -4,   0,  -4,   0,  -5,   0,   0,  -3,  -6,   0,  }, /* C */
+    {  -3,  -5,   7,   1,  -5,  -2,  -2,  -5,  -1,  -5,  -4,   1,  -3,  -1,  -3,  -1,  -2,  -5,  -6,  -4,   0,   4,   0,   0,   0,   0,  -2,  -6,   0,  }, /* D */
+    {  -1,  -6,   1,   6,  -5,  -3,  -1,  -4,   0,  -4,  -3,  -1,  -2,   2,  -1,  -1,  -1,  -3,  -5,  -4,   0,   0,   0,   4,   0,   0,  -2,  -6,   0,  }, /* E */
+    {  -3,  -3,  -5,  -5,   7,  -5,  -2,  -1,  -4,   0,  -1,  -4,  -4,  -4,  -4,  -3,  -3,  -2,   0,   3,   0,  -4,   0,  -4,   0,   0,  -2,  -6,   0,  }, /* F */
+    {   0,  -4,  -2,  -3,  -5,   6,  -3,  -5,  -2,  -5,  -4,  -1,  -3,  -3,  -3,  -1,  -3,  -5,  -4,  -5,   0,  -2,   0,  -3,   0,   0,  -2,  -6,   0,  }, /* G */
+    {  -2,  -5,  -2,  -1,  -2,  -3,   8,  -4,  -1,  -4,  -3,   0,  -3,   1,   0,  -2,  -2,  -4,  -3,   1,   0,  -1,   0,   0,   0,   0,  -2,  -6,   0,  }, /* H */
+    {  -2,  -2,  -5,  -4,  -1,  -5,  -4,   5,  -4,   1,   1,  -4,  -4,  -4,  -4,  -3,  -1,   3,  -4,  -2,   0,  -5,   0,  -4,   0,   0,  -2,  -6,   0,  }, /* I */
+    {  -1,  -4,  -1,   0,  -4,  -2,  -1,  -4,   6,  -3,  -2,   0,  -2,   1,   2,  -1,  -1,  -3,  -5,  -3,   0,  -1,   0,   1,   0,   0,  -1,  -6,   0,  }, /* K */
+    {  -2,  -2,  -5,  -4,   0,  -5,  -4,   1,  -3,   5,   2,  -4,  -4,  -3,  -3,  -3,  -2,   0,  -3,  -2,   0,  -5,   0,  -4,   0,   0,  -2,  -6,   0,  }, /* L */
+    {  -2,  -2,  -4,  -3,  -1,  -4,  -3,   1,  -2,   2,   7,  -3,  -3,   0,  -2,  -2,  -1,   0,  -2,  -2,   0,  -4,   0,  -2,   0,   0,  -1,  -6,   0,  }, /* M */
+    {  -2,  -4,   1,  -1,  -4,  -1,   0,  -4,   0,  -4,  -3,   7,  -3,   0,  -1,   0,   0,  -4,  -5,  -3,   0,   4,   0,  -1,   0,   0,  -2,  -6,   0,  }, /* N */
+    {  -1,  -4,  -3,  -2,  -4,  -3,  -3,  -4,  -2,  -4,  -3,  -3,   8,  -2,  -3,  -2,  -2,  -3,  -5,  -4,   0,  -3,   0,  -2,   0,   0,  -2,  -6,   0,  }, /* P */
+    {  -1,  -4,  -1,   2,  -4,  -3,   1,  -4,   1,  -3,   0,   0,  -2,   7,   1,  -1,  -1,  -3,  -3,  -3,   0,  -1,   0,   4,   0,   0,  -1,  -6,   0,  }, /* Q */
+    {  -2,  -5,  -3,  -1,  -4,  -3,   0,  -4,   2,  -3,  -2,  -1,  -3,   1,   6,  -1,  -2,  -3,  -4,  -3,   0,  -2,   0,   0,   0,   0,  -2,  -6,   0,  }, /* R */
+    {   1,  -2,  -1,  -1,  -3,  -1,  -2,  -3,  -1,  -3,  -2,   0,  -2,  -1,  -1,   5,   1,  -2,  -4,  -3,   0,   0,   0,  -1,   0,   0,  -1,  -6,   0,  }, /* S */
+    {   0,  -2,  -2,  -1,  -3,  -3,  -2,  -1,  -1,  -2,  -1,   0,  -2,  -1,  -2,   1,   6,  -1,  -4,  -2,   0,  -1,   0,  -1,   0,   0,  -1,  -6,   0,  }, /* T */
+    {  -1,  -2,  -5,  -3,  -2,  -5,  -4,   3,  -3,   0,   0,  -4,  -3,  -3,  -3,  -2,  -1,   5,  -3,  -3,   0,  -4,   0,  -3,   0,   0,  -2,  -6,   0,  }, /* V */
+    {  -4,  -4,  -6,  -5,   0,  -4,  -3,  -4,  -5,  -3,  -2,  -5,  -5,  -3,  -4,  -4,  -4,  -3,  11,   2,   0,  -6,   0,  -4,   0,   0,  -3,  -6,   0,  }, /* W */
+    {  -3,  -4,  -4,  -4,   3,  -5,   1,  -2,  -3,  -2,  -2,  -3,  -4,  -3,  -3,  -3,  -2,  -3,   2,   8,   0,  -4,   0,  -3,   0,   0,  -2,  -6,   0,  }, /* Y */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* - */
+    {  -2,  -4,   4,   0,  -4,  -2,  -1,  -5,  -1,  -5,  -4,   4,  -3,  -1,  -2,   0,  -1,  -4,  -6,  -4,   0,   4,   0,   0,   0,   0,  -2,  -6,   0,  }, /* B */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* J */
+    {  -1,  -5,   0,   4,  -4,  -3,   0,  -4,   1,  -4,  -2,  -1,  -2,   4,   0,  -1,  -1,  -3,  -4,  -3,   0,   0,   0,   4,   0,   0,  -1,  -6,   0,  }, /* Z */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* O */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* U */
+    {  -1,  -3,  -2,  -2,  -2,  -2,  -2,  -2,  -1,  -2,  -1,  -2,  -2,  -1,  -2,  -1,  -1,  -2,  -3,  -2,   0,  -2,   0,  -1,   0,   0,  -2,  -6,   0,  }, /* X */
+    {  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,  -6,   0,  -6,   0,  -6,   0,   0,  -6,   1,   0,  }, /* * */
+    {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,  }, /* ~ */
+    }},
+};
+
+
+#define eslNTDIM 18
+
+struct esl_scorematrix_nt_preload_s {
+  char *name;
+  int   matrix[eslNTDIM][eslNTDIM];
+};
+
+static const struct esl_scorematrix_nt_preload_s ESL_SCOREMATRIX_NT_PRELOADS[] = {
+  { "DNA1", {
+    /*   A    C    G    T    -    R    Y    M    K    S    W    H    B    V    D    N    *    ~ */
+     {  41, -32, -26, -26,   0,  18, -29,  17, -26, -29,  18,   6, -28,   6,   7,   0, -38,   0, }, /*A*/
+     { -32,  39, -38, -17,   0, -35,  18,  15, -26,  14, -24,   6,   6,   3, -28,  -1, -38,   0, }, /*C*/
+     { -26, -38,  46, -31,   0,  22, -34, -32,  21,  20, -29, -32,   8,   9,  10,   1, -38,   0, }, /*G*/
+     { -26, -17, -31,  39,   0, -28,  18, -21,  15, -23,  16,   7,   7, -24,   5,   0, -38,   0, }, /*T*/
+     {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0, }, /*-*/
+     {  18, -35,  22, -28,   0,  20, -32,  -2,   3,   1,   0,  -9,  -7,   7,   8,   1, -38,   0, }, /*R*/
+     { -29,  18, -34,  18,   0, -32,  18,   0,  -1,  -1,   0,   7,   6,  -9,  -9,  -1, -38,   0, }, /*Y*/
+     {  17,  15, -32, -21,   0,  -2,   0,  16, -26,  -3,   1,   6,  -8,   4,  -7,  -1, -38,   0, }, /*M*/
+     { -26, -26,  21,  15,   0,   3,  -1, -26,  18,   3,  -1,  -8,   7,  -5,   7,   1, -38,   0, }, /*K*/
+     { -29,  14,  20, -23,   0,   1,  -1,  -3,   3,  17, -26,  -9,   7,   6,  -6,   0, -38,   0, }, /*S*/
+     {  18, -24, -29,  16,   0,   0,   0,   1,  -1, -26,  17,   7,  -8,  -7,   6,   0, -38,   0, }, /*W*/
+     {   6,   6, -32,   7,   0,  -9,   7,   6,  -8,  -9,   7,   7,  -3,  -3,  -3,   0, -38,   0, }, /*H*/
+     { -28,   6,   8,   7,   0,  -7,   6,  -8,   7,   7,  -8,  -3,   7,  -2,  -2,   0, -38,   0, }, /*B*/
+     {   6,   3,   9, -24,   0,   7,  -9,   4,  -5,   6,  -7,  -3,  -2,   6,  -1,   0, -38,   0, }, /*V*/
+     {   7, -28,  10,   5,   0,   8,  -9,  -7,   7,  -6,   6,  -3,  -2,  -1,   7,   0, -38,   0, }, /*D*/
+     {   0,  -1,   1,   0,   0,   1,  -1,  -1,   1,   0,   0,   0,   0,   0,   0,   0,   0,   0, }, /*N*/
+     { -38, -38, -38, -38,   0, -38, -38, -38, -38, -38, -38, -38, -38, -38, -38,   0, -38,   0, }, /***/
+     {   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0,   0, }, /*~*/
+   }},
+
+};
+
+
+
+
+
+
+/* Function:  esl_scorematrix_Set()
+ * Synopsis:  Set one of several standard matrices.
+ *
+ * Purpose:   Set the allocated score matrix <S> to standard score
+ *            matrix <name>, where <name> is the name of one of
+ *            several matrices built-in to Easel. For example,
+ *            <esl_scorematrix_Set("BLOSUM62", S)>.
+ *            
+ *            The alphabet for <S> (<S->abc_r>) must be set already.
+ *            
+ *            Built-in amino acid score matrices in Easel include
+ *            BLOSUM45, BLOSUM50, BLOSUM62, BLOSUM80, BLOSUM90, PAM30,
+ *            PAM70, PAM120, and PAM240.
+ *
+ * Returns:   <eslOK> on success, and the scores in <S> are set.
+ *            
+ *            <eslENOTFOUND> if <name> is not available as a built-in matrix
+ *            for the alphabet that's set in <S>.
+ * 
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_scorematrix_Set(const char *name, ESL_SCOREMATRIX *S)
+{
+  int which;
+  int x, y;
+
+  if (S->abc_r->type == eslAMINO)
+  {
+      int nmat = sizeof(ESL_SCOREMATRIX_AA_PRELOADS) / sizeof(struct esl_scorematrix_aa_preload_s);
+      for (which = 0; which < nmat; which++)
+        if (strcmp(ESL_SCOREMATRIX_AA_PRELOADS[which].name, name) == 0) break;
+      if (which >= nmat) return eslENOTFOUND;
+
+      strcpy(S->outorder, "ARNDCQEGHILKMFPSTWYVBZX*"); 
+      /* All standard PAM, BLOSUM matrices have same list of valid
+       * residues. If that ever changes, make <outorder> a data elem in the
+       * structures above.
+       */
+
+      /* Transfer scores from static built-in storage */
+      for (x = 0; x < S->Kp; x++)
+        for (y = 0; y < S->Kp; y++)
+          S->s[x][y] = ESL_SCOREMATRIX_AA_PRELOADS[which].matrix[x][y];
+
+  }
+  else if (S->abc_r->type == eslDNA || S->abc_r->type == eslRNA)
+  {
+    int nmat = sizeof(ESL_SCOREMATRIX_NT_PRELOADS) / sizeof(struct esl_scorematrix_nt_preload_s);
+    for (which = 0; which < nmat; which++)
+      if (strcmp(ESL_SCOREMATRIX_NT_PRELOADS[which].name, name) == 0) break;
+    if (which >= nmat) return eslENOTFOUND;
+
+    strcpy(S->outorder, "ACGTRYMKSWHBVDN");
+
+    /* Transfer scores from static built-in storage */
+    for (x = 0; x < S->Kp; x++)
+      for (y = 0; y < S->Kp; y++)
+        S->s[x][y] = ESL_SCOREMATRIX_NT_PRELOADS[which].matrix[x][y];
+
+  }
+  else return eslENOTFOUND;	/* no DNA matrices are built in yet! */
+
+  
+  /* Use <outorder> list to set <isval[x]> */
+  S->nc = strlen(S->outorder);
+  for (y = 0; y < S->nc; y++) {
+    x = esl_abc_DigitizeSymbol(S->abc_r, S->outorder[y]);
+    S->isval[x] = TRUE;
+  }
+
+  /* Copy the name */
+  if (esl_strdup(name, -1, &(S->name)) != eslOK) return eslEMEM;
+  return eslOK;
+}
+
+
+/* Function:  esl_scorematrix_SetIdentity()
+ * Synopsis:  Set matrix to +1 match, 0 mismatch.
+ *
+ * Purpose:   Sets score matrix <S> to be +1 for a match, 
+ *            0 for a mismatch. <S> may be for any alphabet.
+ *            
+ *            Rarely useful in real use, but may be useful to create
+ *            simple examples (including debugging).
+ *
+ * Returns:   <eslOK> on success, and the scores in <S> are set.
+ */
+int
+esl_scorematrix_SetIdentity(ESL_SCOREMATRIX *S)
+{
+  int a;
+  int x;
+
+  for (a = 0; a < S->abc_r->Kp*S->abc_r->Kp; a++) S->s[0][a] = 0;
+  for (a = 0; a < S->K; a++)                      S->s[a][a] = 1;
+
+  for (x = 0;           x < S->K;  x++)      S->isval[x] = TRUE;
+  for (x = S->abc_r->K; x < S->Kp; x++)      S->isval[x] = FALSE;
+  
+  strncpy(S->outorder, S->abc_r->sym, S->K);  
+  S->outorder[S->K] = '\0';
+  S->nc             = S->K;
+  return eslOK;
+}
+/*---------------- end, some classic score matrices  --------*/
+
+
+/*****************************************************************
+ *# 3. Deriving a score matrix probabilistically.
+ *****************************************************************/
+
+/* Function:  esl_scorematrix_SetFromProbs()
+ * Synopsis:  Set matrix from target and background probabilities.
+ *
+ * Purpose:   Sets the scores in a new score matrix <S> from target joint
+ *            probabilities in <P>, query background probabilities <fi>, and 
+ *            target background probabilities <fj>, with scale factor <lambda>:
+ *                 $s_{ij} = \frac{1}{\lambda} \frac{p_{ij}}{f_i f_j}$.
+ *                 
+ *            Size of everything must match the canonical alphabet
+ *            size in <S>. That is, <S->abc->K> is the canonical
+ *            alphabet size of <S>; <P> must contain $K times K$
+ *            probabilities $P_{ij}$, and <fi>,<fj> must be vectors of
+ *            K probabilities. All probabilities must be nonzero.
+ *            
+ * Args:      S      - score matrix to set scores in
+ *            lambda - scale factor     
+ *            P      - matrix of joint probabilities P_ij (KxK)
+ *            fi     - query background probabilities (0..K-1)
+ *            fj     - target background probabilities 
+ *
+ * Returns:   <eslOK> on success, and <S> contains the calculated score matrix.
+ */
+int
+esl_scorematrix_SetFromProbs(ESL_SCOREMATRIX *S, double lambda, const ESL_DMATRIX *P, const double *fi, const double *fj)
+{
+  int    i,j;
+  double sc;
+  
+  for (i = 0; i < S->abc_r->K; i++)
+    for (j = 0; j < S->abc_r->K; j++)
+      {
+	sc = log(P->mx[i][j] / (fi[i] * fj[j])) / lambda;
+	S->s[i][j] = (int) (sc + (sc>0 ? 0.5 : -0.5)); /* that's rounding to the nearest integer */
+      }
+
+  for (i = 0; i < S->abc_r->K; i++)
+    S->isval[i] = TRUE;
+  S->nc = S->abc_r->K;
+
+  strncpy(S->outorder, S->abc_r->sym, S->abc_r->K);
+  S->outorder[S->nc] = '\0';
+  return eslOK;
+}
+
+
+/* Function:  esl_scorematrix_SetWAG()
+ * Synopsis:  Set matrix using the WAG evolutionary model.           
+ *
+ * Purpose:   Parameterize an amino acid score matrix <S> using the WAG
+ *            rate matrix \citep{WhelanGoldman01} as the underlying
+ *            evolutionary model, at a distance of <t>
+ *            substitutions/site, with scale factor <lambda>.
+ *
+ * Args:      S      - score matrix to set parameters in. Must be created for
+ *                     an amino acid alphabet.
+ *            lambda - scale factor for scores     
+ *            t      - distance to exponentiate WAG to, in substitutions/site         
+ *                 
+ * Returns:   <eslOK> on success, and the 20x20 residue scores in <S> are set.
+ *
+ * Throws:    <eslEINVAL> if <S> isn't an allocated amino acid score matrix.
+ *            <eslEMEM> on allocation failure.
+ */
+int
+esl_scorematrix_SetWAG(ESL_SCOREMATRIX *S, double lambda, double t)
+{
+  int status;
+  int i,j;
+  ESL_DMATRIX *Q = NULL;
+  ESL_DMATRIX *P = NULL;
+  static double wagpi[20];
+
+  if (S->K != 20) ESL_EXCEPTION(eslEINVAL, "Must be using an amino acid alphabet (K=20) to make WAG-based matrices");
+
+  if (( Q = esl_dmatrix_Create(20, 20)) == NULL)  goto ERROR;
+  if (( P = esl_dmatrix_Create(20, 20)) == NULL)  goto ERROR;
+  if ( esl_composition_WAG(wagpi)       != eslOK) goto ERROR;
+  if ( esl_rmx_SetWAG(Q, wagpi)         != eslOK) goto ERROR;
+  if ( esl_dmx_Exp(Q, t, P)             != eslOK) goto ERROR;
+
+  for (i = 0; i < 20; i++) 
+    for (j = 0; j < 20; j++)
+      P->mx[i][j] *= wagpi[i];	/* P_ij = P(j|i) pi_i */
+  
+  esl_scorematrix_SetFromProbs(S, lambda, P, wagpi, wagpi);
+
+  if ((status = esl_strdup("WAG", -1, &(S->name))) != eslOK) goto ERROR;
+
+  esl_dmatrix_Destroy(Q);
+  esl_dmatrix_Destroy(P);
+  return eslOK;
+
+ ERROR:
+  if (Q != NULL) esl_dmatrix_Destroy(Q);
+  if (Q != NULL) esl_dmatrix_Destroy(P);
+  return status;
+}
+/*--------------- end, deriving score matrices ------------------*/
+
+
+
+/*****************************************************************
+ *# 4. Reading/writing matrices from/to files
+ *****************************************************************/
+
+/* Function:  esl_scorematrix_Read()
+ * Synopsis:  Read a standard matrix input file.
+ *
+ * Purpose:   Given a pointer <efp> to an open file parser for a file
+ *            containing a score matrix (such as a PAM or BLOSUM
+ *            matrix), parse the file and create a new score matrix
+ *            object. The scores are expected to be for the alphabet
+ *            <abc>. 
+ *            
+ *            The score matrix file is in the format that BLAST or
+ *            FASTA use. The first line is a header contains N
+ *            single-letter codes for the residues. Each of N
+ *            subsequent rows optionally contains a residue row label
+ *            (in the same order as the columns), followed by N
+ *            residue scores.  (Older matrix files do not contain the
+ *            leading row label; newer ones do.) The residues may
+ *            appear in any order. They must minimally include the
+ *            canonical K residues (K=4 for DNA, K=20 for protein),
+ *            and may also contain none, some, or all degeneracy
+ *            codes. Any other residue code that is not in the Easel
+ *            digital alphabet (including, in particular, the '*' code
+ *            for a stop codon) is ignored by the parser.
+ *
+ * Returns:   <eslOK> on success, and <ret_S> points to a newly allocated 
+ *            score matrix. 
+ *
+ *            Returns <eslEFORMAT> on parsing error; in which case, <ret_S> is
+ *            returned <NULL>, and <efp->errbuf> contains an informative
+ *            error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_scorematrix_Read(ESL_FILEPARSER *efp, const ESL_ALPHABET *abc, ESL_SCOREMATRIX **ret_S)
+{
+  int status;
+  ESL_SCOREMATRIX *S     = NULL;
+  int             *map   = NULL; /* maps col/row index to digital alphabet x */
+  char            *tok;
+  int              toklen;
+  int              c, x;
+  int              row,col;
+
+  /* Allocate the matrix
+   */
+  if ((S = esl_scorematrix_Create(abc)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  /* Make sure we've got the comment character set properly in the fileparser.
+   * Score matrices use #.
+   */
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  /* Look for the first non-blank, non-comment line in the file.  That line
+   * gives us the single-letter codes in the order that the file's using.
+   */
+  if ((status = esl_fileparser_NextLine(efp)) != eslOK) ESL_XFAIL(eslEFORMAT, efp->errbuf, "file appears to be empty");
+
+  /* Read the characters: count them and store them in order in label[0..nc-1].
+   * nc cannot exceed Kp+1 in our expected alphabet (+1, for the stop character *)
+   */
+  S->nc = 0;
+  while ((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) == eslOK)
+    {
+      if (S->nc >= abc->Kp) ESL_XFAIL(eslEFORMAT, efp->errbuf, "Header contains more residues than expected for alphabet");
+      if (toklen != 1)      ESL_XFAIL(eslEFORMAT, efp->errbuf, "Header can only contain single-char labels; %s is invalid", tok);
+      S->outorder[S->nc++] = *tok;
+    }
+  if (status != eslEOL) ESL_XFAIL(status, efp->errbuf, "Unexpected failure of esl_fileparser_GetTokenOnLine()");
+  S->outorder[S->nc] = '\0';	/* NUL terminate */
+  
+  /* Verify that these labels for the score matrix seem plausible, given our alphabet.
+   * This sets S->isval array: which residues we have scores for.
+   * It also sets the map[] array, which maps coord in label[] to x in alphabet.
+   */
+  ESL_ALLOC(map, sizeof(int) * S->nc);
+  for (c = 0; c < S->nc; c++)
+    {
+      if (esl_abc_CIsValid(abc, S->outorder[c])) 
+	{  
+	  x = esl_abc_DigitizeSymbol(abc, S->outorder[c]);
+	  map[c] = x;
+	  S->isval[x] = TRUE;
+	}
+      else
+	ESL_XFAIL(eslEFORMAT, efp->errbuf, "Don't know how to deal with residue %c in matrix file", S->outorder[c]);
+    }
+  for (x = 0; x < abc->K; x++)
+    if (! S->isval[x]) ESL_XFAIL(eslEFORMAT, efp->errbuf, "Expected to see a column for residue %c", abc->sym[x]);
+
+
+  /* Read nc rows, one at a time;
+   * on each row, read nc+1 or nc tokens, of which nc are scores (may lead with a label or not)
+   */
+  for (row = 0; row < S->nc; row++)
+    {
+      if ((status = esl_fileparser_NextLine(efp)) != eslOK) ESL_XFAIL(eslEFORMAT, efp->errbuf, "Unexpectedly ran out of lines in file");
+      for (col = 0; col < S->nc; col++)
+	{
+	  if ((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_XFAIL(eslEFORMAT, efp->errbuf, "Unexpectedly ran out of fields on line");
+	  if (col == 0 && *tok == S->outorder[row]) { col--; continue; } /* skip leading label */
+
+	  S->s[map[row]][map[col]] = atoi(tok);
+	}
+      if ((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslEOL)  ESL_XFAIL(eslEFORMAT, efp->errbuf, "Too many fields on line");
+    }
+  if ((status = esl_fileparser_NextLine(efp)) != eslEOF) ESL_XFAIL(eslEFORMAT, efp->errbuf, "Too many lines in file");
+  
+
+  /* Annotate the score matrix */
+  if ((status = esl_strdup  (efp->filename, -1,    &(S->path))) != eslOK) goto ERROR;
+  if ((status = esl_FileTail(efp->filename, FALSE, &(S->name))) != eslOK) goto ERROR;
+
+  free(map);
+  *ret_S = S;
+  return eslOK;
+
+ ERROR:
+  esl_scorematrix_Destroy(S);
+  if (map != NULL) free(map);
+  *ret_S = NULL;
+  return status;
+}
+
+/* Function:  esl_scorematrix_Write()
+ * Synopsis:  Write a BLAST-compatible score matrix file.
+ *
+ * Purpose:   Writes a score matrix <S> to an open stream <fp>, in 
+ *            format compatible with BLAST, FASTA, and other common
+ *            sequence alignment software.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_scorematrix_Write(FILE *fp, const ESL_SCOREMATRIX *S)
+{
+  int a,b;			
+  int x,y;
+  int nc = S->nc;
+  
+  /* The header line, with column labels for residues */
+  if (fprintf(fp, "  ") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "score matrix write failed"); 
+  for (a = 0; a < nc; a++) 
+    { if (fprintf(fp, "  %c ", S->outorder[a]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "score matrix write failed"); }
+  if (fprintf(fp, "\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "score matrix write failed");
+  
+  /* The data */
+  for (a = 0; a < nc; a++)
+    {
+      if (fprintf(fp, "%c ", S->outorder[a]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "score matrix write failed");
+      for (b = 0; b < nc; b++)
+	{
+	  x = esl_abc_DigitizeSymbol(S->abc_r, S->outorder[a]);
+	  y = esl_abc_DigitizeSymbol(S->abc_r, S->outorder[b]);
+	  if (fprintf(fp, "%3d ", S->s[x][y]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "score matrix write failed");
+	}
+      if (fprintf(fp, "\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "score matrix write failed");
+    }
+  return eslOK;
+}
+/*-------------- end, reading/writing matrices ------------------*/
+
+
+
+/*****************************************************************
+ *# 5. Implicit probabilistic basis, I: given bg.
+ *****************************************************************/ 
+
+static int set_degenerate_probs(const ESL_ALPHABET *abc, ESL_DMATRIX *P, double *fi, double *fj);
+
+struct lambda_params {
+  const double *fi;
+  const double *fj;
+  const ESL_SCOREMATRIX *S;
+};
+
+static int
+lambda_fdf(double lambda, void *params, double *ret_fx, double *ret_dfx)
+{
+  struct lambda_params *p = (struct lambda_params *) params;
+  int    i,j;
+  double tmp;
+  
+  *ret_fx  = 0.;
+  *ret_dfx = 0.;
+  for (i = 0; i < p->S->K; i++)
+    for (j = 0; j < p->S->K; j++)
+      {
+	tmp      = p->fi[i] * p->fj[j] * exp(lambda * (double) p->S->s[i][j]);
+	*ret_fx  += tmp;
+	*ret_dfx += tmp * (double) p->S->s[i][j];
+      }
+  *ret_fx -= 1.0;
+  return eslOK;
+}
+
+/* Function:  esl_scorematrix_ProbifyGivenBG()
+ * Synopsis:  Obtain $P_{ij}$ for matrix with known $\lambda$ and background. 
+ *
+ * Purpose:   Given a score matrix <S> and known query and target
+ *            background frequencies <fi> and <fj> respectively, calculate scale
+ *            <lambda> and implicit target probabilities \citep{Altschul01}. 
+ *            Optionally returns either (or both) in <opt_lambda> and <opt_P>.
+ *
+ *            The implicit target probabilities are returned in a
+ *            newly allocated $Kp \times Kp$ <ESL_DMATRIX>, over both
+ *            the canonical (typically K=4 or K=20) residues in the
+ *            residue alphabet, and the degenerate residue codes.
+ *            Values involving degenerate residue codes are marginal
+ *            probabilities (i.e. summed over the degeneracy).
+ *            Only actual residue degeneracy can have nonzero values
+ *            for <p_ij>; by convention, all values involving the
+ *            special codes for gap, nonresidue, and missing data
+ *            (<K>, <Kp-2>, <Kp-1>) are 0.
+ *            
+ *            If the caller wishes to convert this joint probability
+ *            matrix to conditionals, it can take advantage of the
+ *            fact that the degenerate probability <P(X,j)> is our
+ *            marginalized <pj>, and <P(i,X)> is <pi>. 
+ *             i.e., <P(j|i) = P(i,j) / P(i) = P(i,j) / P(X,j)>.
+ *            Those X values are <P->mx[i][esl_abc_GetUnknown(abc)]>,
+ *            <P->mx[esl_abc_GetUnknown(abc)][j]>; equivalently, just use
+ *            code <Kp-3> for X.
+ *             
+ *            By convention, i is always the query sequence, and j is
+ *            always the target. We do not assume symmetry in the
+ *            scoring system, though that is usually the case.
+ *            
+ * Args:      S          - score matrix
+ *            fi         - background frequencies for query sequence i
+ *            fj         - background frequencies for target sequence j
+ *            opt_lambda - optRETURN: calculated $\lambda$ parameter
+ *            opt_P      - optRETURN: implicit target probabilities $p_{ij}$; a KxK DMATRIX.                  
+ *
+ * Returns:   <eslOK> on success, <*ret_lambda> contains the
+ *            calculated $\lambda$ parameter, and <*ret_P> points to
+ *            the target probability matrix (which is allocated here,
+ *            and must be free'd by caller with <esl_dmatrix_Destroy(*ret_P)>.
+ *            
+ * Throws:    <eslEMEM> on allocation error; 
+ *            <eslEINVAL> if matrix is invalid and has no solution for $\lambda$;
+ *            <eslENOHALT> if the solver fails to find $\lambda$.
+ *            In these cases, <*ret_lambda> is 0.0, and <*ret_P> is <NULL>. 
+ */
+int
+esl_scorematrix_ProbifyGivenBG(const ESL_SCOREMATRIX *S, const double *fi, const double *fj, 
+			       double *opt_lambda, ESL_DMATRIX **opt_P)
+{
+  ESL_ROOTFINDER *R = NULL;
+  ESL_DMATRIX    *P = NULL;
+  struct lambda_params p;
+  double lambda_guess;
+  double lambda;
+  int    i,j;
+  double fx, dfx;
+  int    status;
+
+  /* First, solve for lambda by rootfinding. */
+  /* Set up the data passed to the lambda_fdf function. */
+  p.fi = fi;
+  p.fj = fj;
+  p.S  = S;
+
+  /* Bracket the root.
+   * It's important that we come at the root from the far side, where
+   * f(lambda) is positive; else we may identify the root we don't want
+   * at lambda=0.
+   */
+  lambda_guess = 1. / (double) esl_scorematrix_Max(S);
+  for (; lambda_guess < 50.; lambda_guess *= 2.0) {
+    lambda_fdf(lambda_guess, &p, &fx, &dfx);
+    if (fx > 0) break;
+  }
+  if (fx <= 0) ESL_EXCEPTION(eslEINVAL, "Failed to bracket root for solving lambda");
+
+  /* Create a solver and find lambda by Newton/Raphson */
+  if ((    R   = esl_rootfinder_CreateFDF(lambda_fdf, &p) )         == NULL) { status = eslEMEM; goto ERROR; }
+  if (( status = esl_root_NewtonRaphson(R, lambda_guess, &lambda))  != eslOK) goto ERROR;
+  
+  /* Now, given solution for lambda, calculate P */
+  if (opt_P != NULL) 
+    {
+      if ((P = esl_dmatrix_Create(S->Kp, S->Kp)) == NULL) { status = eslEMEM; goto ERROR; }
+      for (i = 0; i < S->K; i++)
+	for (j = 0; j < S->K; j++)
+	  P->mx[i][j] = fi[i] * fj[j] * exp(lambda * (double) S->s[i][j]);
+      set_degenerate_probs(S->abc_r, P, NULL, NULL);
+    }
+
+  esl_rootfinder_Destroy(R);
+  if (opt_lambda != NULL) *opt_lambda = lambda;
+  if (opt_P      != NULL) *opt_P      = P;  
+  return eslOK;
+
+ ERROR:
+  if (R != NULL) esl_rootfinder_Destroy(R);
+  if (opt_lambda != NULL) *opt_lambda = 0.;
+  if (opt_P      != NULL) *opt_P      = NULL;
+  return status;
+
+
+}
+
+
+/* set_degenerate_probs()
+ * 
+ * Used by both esl_scorematrix_Probify() and
+ * esl_scorematrix_ProbifyGivenBG() to set degenerate residue
+ * probabilities once probs for canonical residues are known.
+ * 
+ * Input: P->mx[i][j] are joint probabilities p_ij for the canonical
+ *        alphabet 0..abc->K-1, but P matrix is allocated for Kp X Kp.
+ * 
+ * Calculate marginal sums for all i,j pairs involving degeneracy
+ * codes. Fill in [i][j'=K..Kp-1], [i'=K..Kp-1][j], and
+ * [i'=K..Kp-1][j'=K..Kp-1] for degeneracies i',j'. Any p_ij involving
+ * a gap (K), nonresidue (Kp-2), or missing data (Kp-1) character is
+ * set to 0.0 by convention.
+ *
+ * Don't assume symmetry. 
+ * 
+ * If <fi> or <fj> background probability vectors are non-<NULL>, set
+ * them too.  (Corresponding to the assumption of background =
+ * marginal probs, rather than background being given.) This takes
+ * advantage of the fact that P(X,i) is already the marginalized p_i,
+ * and P(j,X) is p_j.
+ */
+static int
+set_degenerate_probs(const ESL_ALPHABET *abc, ESL_DMATRIX *P, double *fi, double *fj)
+{
+  int i,j;	/* indices into canonical codes  */
+  int ip,jp;	/* indices into degenerate codes */
+
+  /* sum to get [i=0..K] canonicals to [jp=K+1..Kp-3] degeneracies; 
+   * and [jp=K,Kp-2,Kp-1] set to 0.0
+   */
+  for (i = 0; i < abc->K; i++)
+    {
+      P->mx[i][abc->K] = 0.0;
+      for (jp = abc->K+1; jp < abc->Kp-2; jp++)
+	{
+	  P->mx[i][jp] = 0.0;
+	  for (j = 0; j < abc->K; j++)
+	    if (abc->degen[jp][j]) P->mx[i][jp] += P->mx[i][j];
+	}
+      P->mx[i][abc->Kp-2] = 0.0;
+      P->mx[i][abc->Kp-1] = 0.0;
+    }
+
+  esl_vec_DSet(P->mx[abc->K], abc->Kp, 0.0); /* gap row: all 0.0 by convention */
+
+  /* [ip][all] */
+  for (ip = abc->K+1; ip < abc->Kp-2; ip++)
+    {
+      /* [ip][j]: degenerate i, canonical j */
+      for (j = 0; j < abc->K; j++)      
+	{
+	  P->mx[ip][j] = 0.0;
+	  for (i = 0; i < abc->K; i++)
+	    if (abc->degen[ip][i]) P->mx[ip][j] += P->mx[i][j];
+	}
+      P->mx[ip][abc->K] = 0.0;
+
+      /* [ip][jp]: both positions degenerate */
+      for (jp = abc->K+1; jp < abc->Kp-2; jp++)      
+	{
+	  P->mx[ip][jp] = 0.0;
+	  for (j = 0; j < abc->K; j++)
+	    if (abc->degen[jp][j]) P->mx[ip][jp] += P->mx[ip][j];
+	}
+      P->mx[ip][abc->Kp-2] = 0.0;      
+      P->mx[ip][abc->Kp-1] = 0.0;      
+    }
+
+  esl_vec_DSet(P->mx[abc->Kp-2], abc->Kp, 0.0); /* nonresidue data * row, all 0.0 */
+  esl_vec_DSet(P->mx[abc->Kp-1], abc->Kp, 0.0); /* missing data ~ row, all 0.0    */
+
+  if (fi != NULL) { /* fi[i'] = p(i',X) */
+    fi[abc->K] = 0.0;
+    for (ip = abc->K+1; ip < abc->Kp-2; ip++) fi[ip] = P->mx[ip][abc->Kp-3];
+    fi[abc->Kp-2] = 0.0;
+    fi[abc->Kp-1] = 0.0;
+  }
+
+  if (fj != NULL) { /* fj[j'] = p(X,j')*/
+    fj[abc->K] = 0.0;
+    for (jp = abc->K+1; jp < abc->Kp-2; jp++) fj[jp] = P->mx[abc->Kp-3][jp];
+    fj[abc->Kp-2] = 0.0;
+    fj[abc->Kp-1] = 0.0;
+  }
+
+  return eslOK;
+}
+/*------------- end, implicit prob basis, bg known --------------*/
+
+
+/*****************************************************************
+ *# 6. Implicit probabilistic basis, II: bg unknown 
+ *****************************************************************/
+
+/* This section implements one of the key ideas in Yu and Altschul,
+ * PNAS 100:15688, 2003 [YuAltschul03], and Yu and Altschul,
+ * Bioinformatics 21:902-911, 2005 [YuAltschul05]:
+ * 
+ * Given a valid score matrix, calculate its probabilistic
+ * basis (P_ij, f_i, f_j, and lambda), on the assumption that
+ * the background probabilities are the marginals of P_ij.
+ * 
+ * However, this procedure appears to be unreliable.
+ * There are often numerous invalid solutions with negative
+ * probabilities, and the Yu/Altschul Y function (that we've solving
+ * for its root) is often discontinuous. Although Yu and Altschul say
+ * they can just keep searching for solutions until a valid one is
+ * found, and "this procedure presents no difficulties in practice", I
+ * don't see how.
+ * 
+ * For example, run the procedure on PAM190 and PAM200. For PAM190
+ * you will obtain a valid solution with lambda = 0.2301. For PAM200
+ * you will obtain an *invalid* solution with lambda = 0.2321, and
+ * negative probabilities f_{ENT} (and all p_ij involving ENT and 
+ * the other 17 aa). There is a discontinuity in the function, but 
+ * it's not near these lambdas, it's at about lambda=0.040, so it's 
+ * not that we fell into a discontinuity: the bisection procedure on
+ * lambda is working smoothly. And if you calculate a score matrix again
+ * from the invalid PAM200 solution, you get PAM200 back, so it's not
+ * that there's an obvious bug -- we do obtain a "solution" to PAM200,
+ * just not one with positive probabilities. It's not obvious how
+ * we could find a different solution to PAM200 than the invalid one!
+ *
+ * What we're going to do [xref J7/126, Apr 2011] is to deprecate 
+ * the Yu/Altschul procedure altogether.
+ */
+struct yualtschul_params {
+  ESL_DMATRIX *S;   /* pointer to the KxK score matrix w/ values cast to doubles */		
+  ESL_DMATRIX *M;   /* not a param per se: alloc'ed storage for M matrix provided to the objective function */
+  ESL_DMATRIX *Y;   /* likewise, alloc'ed storage for Y (M^-1) matrix provided to obj function */
+};
+
+/* yualtschul_scorematrix_validate
+ * See start of section 3, p. 903, YuAltschul05
+ * (Implementation could be more efficient here; don't really have
+ *  to sweep the entire matrix twice to do this.)
+ */
+static int
+yualtschul_scorematrix_validate(const ESL_SCOREMATRIX *S)
+{
+  int i, j;
+  int has_neg, has_pos;
+
+  /* each row must have at least one positive and one negative score */
+  for (i = 0; i < S->K; i++)
+    {
+      has_neg = has_pos = FALSE;
+      for (j = 0; j < S->K; j++)
+	{
+	  if (S->s[i][j] > 0) has_pos = TRUE;
+	  if (S->s[i][j] < 0) has_neg = TRUE;
+	}
+      if (! has_pos || ! has_neg) return eslFAIL;
+    }
+  
+  /* ditto for columns */
+  for (j = 0; j < S->K; j++)
+    {
+      has_neg = has_pos = FALSE;
+      for (i = 0; i < S->K; i++)
+	{
+	  if (S->s[i][j] > 0) has_pos = TRUE;
+	  if (S->s[i][j] < 0) has_neg = TRUE;
+	}
+      if (! has_pos || ! has_neg) return eslFAIL;
+    }
+      
+  return eslOK;
+}
+
+/* upper bound bracketing lambda solution: eqn (12) in [YuAltschul05] */
+static double
+yualtschul_upper_bound(const ESL_DMATRIX *Sd)
+{
+  int    i;
+  double minimax;
+  double maxlambda;
+  
+  /* minimax = c in YuAltschul05 p.903 = smallest of the max scores in each row/col */
+  minimax = esl_vec_DMax(Sd->mx[0], Sd->n); 
+  for (i = 1; i < Sd->n; i++)
+    minimax = ESL_MIN(minimax, esl_vec_DMax(Sd->mx[i], Sd->n));
+  
+  maxlambda = log((double) Sd->n) / minimax; /* eqn (12), YuAltschul05 */
+  return maxlambda;
+}
+
+static int
+yualtschul_solution_validate(const ESL_DMATRIX *P, const double *fi, const double *fj)
+{
+  
+  if ( esl_dmx_Min(P)         < 0.0)  return eslFAIL;
+  if ( esl_vec_DMin(fi, P->n) < 0.0)  return eslFAIL;
+  if ( esl_vec_DMin(fj, P->n) < 0.0)  return eslFAIL;
+
+  return eslOK;
+}
+
+/* yualtschul_func()
+ *
+ * This is the objective function we try to find a root of. 
+ * Its prototype is dictated by the esl_rootfinder API.
+ */
+static int
+yualtschul_func(double lambda, void *params, double *ret_fx)
+{
+  int status;
+  struct yualtschul_params *p = (struct yualtschul_params *) params;
+  ESL_DMATRIX  *S = p->S;
+  ESL_DMATRIX  *M = p->M;
+  ESL_DMATRIX  *Y = p->Y;
+  int i,j;
+
+  /* the M matrix has entries M_ij = e^{lambda * s_ij} */
+  for (i = 0; i < S->n; i++)
+    for (j = 0; j < S->n; j++)
+      M->mx[i][j] = exp(lambda * S->mx[i][j]);
+
+  /* the Y matrix is the inverse of M */
+  if ((status = esl_dmx_Invert(M, Y)) != eslOK) return status;
+
+  /* We're trying to find the root of \sum_ij Y_ij - 1 = 0 */
+  *ret_fx = esl_dmx_Sum(Y) - 1.;
+  return eslOK;
+}
+
+/* yualtschul_engine()
+ *
+ * This function backcalculates the probabilistic basis for a score
+ * matrix S, when S is a double-precision matrix. Providing this
+ * as a separate "engine" and writing esl_scorematrix_Probify()
+ * as a wrapper around it allows us to separately test inaccuracy
+ * due to numerical performance of our linear algebra, versus 
+ * inaccuracy due to integer roundoff in integer scoring matrices.
+ * 
+ * It is not uncommon for this to fail when S is derived from
+ * integer scores. Because the scores may have been provided by the
+ * user, and this may be our first chance to detect the "user error"
+ * of an invalid matrix, this engine returns <eslEINVAL> as a normal error
+ * if it can't reach a valid solution.
+ */
+static int 
+yualtschul_engine(ESL_DMATRIX *S, ESL_DMATRIX *P, double *fi, double *fj, double *ret_lambda)
+{
+  int status;
+  ESL_ROOTFINDER *R = NULL;
+  struct yualtschul_params p;
+  double lambda;
+  double xl, xr;
+  double fx;
+  int    i,j;
+
+  /* Set up a bisection method to find lambda */
+  p.S = S;
+  p.M = p.Y = NULL;
+  if ((p.M = esl_dmatrix_Create(S->n, S->n))           == NULL) { status = eslEMEM; goto ERROR; }
+  if ((p.Y = esl_dmatrix_Create(S->n, S->n))           == NULL) { status = eslEMEM; goto ERROR; }
+  if ((R = esl_rootfinder_Create(yualtschul_func, &p)) == NULL) { status = eslEMEM; goto ERROR; }
+  
+  /* Identify suitable brackets on lambda. */
+  xr = yualtschul_upper_bound(S);
+
+  for (xl = xr; xl > 1e-10; xl /= 1.6) {
+    if ((status = yualtschul_func(xl, &p, &fx))  != eslOK) goto ERROR;
+    if (fx > 0.) break;
+  }
+  if (fx <= 0.) { status = eslEINVAL; goto ERROR; }
+
+  for (; xr < 100.; xr *= 1.6) {
+    if ((status = yualtschul_func(xr, &p, &fx))  != eslOK) goto ERROR;
+    if (fx < 0.) break;
+  }
+  if (fx >= 0.) { status = eslEINVAL; goto ERROR; }
+
+  /* Find lambda by bisection */
+  if (( status = esl_root_Bisection(R, xl, xr, &lambda)) != eslOK) goto ERROR;
+
+  /* Find fi, fj from Y: fi are column sums, fj are row sums */
+  for (i = 0; i < S->n; i++) {
+    fi[i] = 0.;
+    for (j = 0; j < S->n; j++) fi[i] += p.Y->mx[j][i];
+  }
+  for (j = 0; j < S->n; j++) {
+    fj[j] = 0.;
+    for (i = 0; i < S->n; i++) fj[j] += p.Y->mx[j][i];
+  }
+
+  /* Find p_ij */
+  for (i = 0; i < S->n; i++) 
+    for (j = 0; j < S->n; j++)
+      P->mx[i][j] = fi[i] * fj[j] * p.M->mx[i][j];
+
+  *ret_lambda = lambda;
+  esl_dmatrix_Destroy(p.M);
+  esl_dmatrix_Destroy(p.Y);
+  esl_rootfinder_Destroy(R);
+  return eslOK;
+
+ ERROR:
+  if (p.M != NULL) esl_dmatrix_Destroy(p.M);
+  if (p.Y != NULL) esl_dmatrix_Destroy(p.Y);
+  if (R   != NULL) esl_rootfinder_Destroy(R);
+  return status;
+}
+
+
+/* Function:  esl_scorematrix_Probify()
+ * Synopsis:  Calculate the probabilistic basis of a score matrix.
+ *
+ * Purpose:   Reverse engineering of a score matrix: given a "valid"
+ *            substitution matrix <S>, obtain implied joint
+ *            probabilities $p_{ij}$, query composition $f_i$, target
+ *            composition $f_j$, and scale $\lambda$, by assuming that
+ *            $f_i$ and $f_j$ are the appropriate marginals of $p_{ij}$.
+ *            Optionally return any or all of these solutions in
+ *            <*opt_P>, <*opt_fi>, <*opt_fj>, and <*opt_lambda>.
+ *            
+ *            The calculation is run only on canonical residue scores
+ *            $0..K-1$ in S, to calculate joint probabilities for all
+ *            canonical residues. Joint and background probabilities 
+ *            involving degenerate residues are then calculated by
+ *            appropriate marginalizations. See notes on
+ *            <esl_scorematrix_ProbifyGivenBG()> about how probabilities
+ *            involving degeneracy codes are calculated.
+ *
+ *            This implements an algorithm described in
+ *            \citep{YuAltschul03} and \citep{YuAltschul05}.
+ *
+ *            Although this procedure may succeed in many cases,
+ *            it is unreliable and should be used with great caution.
+ *            Yu and Altschul note that it can find invalid solutions
+ *            (negative probabilities), and although they say that one
+ *            can keep searching until a valid solution is found, 
+ *            one can produce examples where this does not seem to be
+ *            the case. The caller MUST check return status, and
+ *            MUST expect <eslENORESULT>.
+ *            
+ * Args:      S          - score matrix 
+ *            opt_P      - optRETURN: Kp X Kp matrix of implied target probs $p_{ij}$
+ *            opt_fi     - optRETURN: vector of Kp $f_i$ background probs, 0..Kp-1
+ *            opt_fj     - optRETURN: vector of Kp $f_j$ background probs, 0..Kp-1
+ *            opt_lambda - optRETURN: calculated $\lambda$ parameter
+ *
+ * Returns:   <eslOK> on success, and <opt_P>, <opt_fi>, <opt_fj>, and <opt_lambda>
+ *            point to the results (for any of these that were passed non-<NULL>).
+ *
+ *            <opt_P>, <opt_fi>, and <opt_fj>, if requested, are new
+ *            allocations, and must be freed by the caller.
+ *            
+ *            Returns <eslENORESULT> if the algorithm fails to determine a valid solution,
+ *            but the solution is still returned (and caller needs to free).
+ *
+ *            Returns <eslEINVAL> if input score matrix isn't valid (sensu YuAltschul05);
+ *            now <opt_P>, <opt_fi>, <opt_fj> are returned NULL and <opt_lambda> is returned
+ *            as 0.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      SRE:J1/35; SRE:J7/126.
+ */
+int
+esl_scorematrix_Probify(const ESL_SCOREMATRIX *S, ESL_DMATRIX **opt_P, double **opt_fi, double **opt_fj, double *opt_lambda)
+{
+  int status;
+  ESL_DMATRIX  *Sd  = NULL;
+  ESL_DMATRIX  *P   = NULL;
+  double       *fi  = NULL;
+  double       *fj  = NULL;
+  double        lambda;
+  int i,j;
+
+  /* Check the input matrix for validity */
+  if ( yualtschul_scorematrix_validate(S) != eslOK) { status = eslEINVAL; goto ERROR; }
+
+  if (( Sd = esl_dmatrix_Create(S->K,  S->K))  == NULL) {status = eslEMEM; goto ERROR; }
+  if (( P  = esl_dmatrix_Create(S->Kp, S->Kp)) == NULL) {status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(fi, sizeof(double) * S->Kp);
+  ESL_ALLOC(fj, sizeof(double) * S->Kp);
+
+  /* Construct a double-precision dmatrix from S.
+   * I've tried integrating over the rounding uncertainty by
+   * averaging over trials with values jittered by +/- 0.5,
+   * but it doesn't appear to help.
+   */
+  for (i = 0; i < S->K; i++) 
+    for (j = 0; j < S->K; j++)
+      Sd->mx[i][j] = (double) S->s[i][j];
+
+  /* Reverse engineer the doubles */
+  if ((status = yualtschul_engine(Sd, P, fi, fj, &lambda)) != eslOK) goto ERROR;
+  set_degenerate_probs(S->abc_r, P, fi, fj);
+
+  /* Done. */
+  if (yualtschul_solution_validate(P, fi, fj) != eslOK) status = eslENORESULT;
+  else status = eslOK;
+
+  esl_dmatrix_Destroy(Sd);
+  if (opt_P      != NULL) *opt_P      = P;       else esl_dmatrix_Destroy(P);
+  if (opt_fi     != NULL) *opt_fi     = fi;      else free(fi);
+  if (opt_fj     != NULL) *opt_fj     = fj;      else free(fj);
+  if (opt_lambda != NULL) *opt_lambda = lambda;
+  return status;
+
+ ERROR:
+  if (Sd  != NULL) esl_dmatrix_Destroy(Sd);
+  if (P   != NULL) esl_dmatrix_Destroy(P);
+  if (fi  != NULL) free(fi);
+  if (fj  != NULL) free(fj);
+  if (opt_P      != NULL) *opt_P      = NULL;
+  if (opt_fi     != NULL) *opt_fi     = NULL;
+  if (opt_fj     != NULL) *opt_fj     = NULL;
+  if (opt_lambda != NULL) *opt_lambda = 0.;
+  return status;
+}
+/*---------- end, implicit prob basis, bg unknown ---------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Experiment driver
+ *****************************************************************/
+
+#ifdef eslSCOREMATRIX_EXPERIMENT
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_scorematrix.h"
+#include "esl_vectorops.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  {"-l",  eslARG_REAL, "0.3466", NULL, NULL, NULL, NULL, NULL, "set base lambda (units of score mx) to <x>",     0},
+  {"-s",  eslARG_REAL,    "1.0", NULL, NULL, NULL, NULL, NULL, "additional scale factor applied to lambda",      0},
+  {"-t",  eslARG_REAL,   "1.37", NULL, NULL, NULL, NULL, NULL, "set WAG time (branch length) to <x>",            0},
+  {"--yfile", eslARG_OUTFILE, NULL, NULL, NULL, NULL, NULL, NULL, "save xy file of Yu/Altschul root eqn to <f>", 0},
+  {"--mfile", eslARG_OUTFILE, NULL, NULL, NULL, NULL, NULL, NULL, "save WAG score matrix to <f>",                0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "Yu/Altschul experiment driver for scorematrix module";
+
+/* yualtschul_graph_dump()
+ * Dump an XY plot of (\sum Y -1) vs. lambda for a score matrix.
+ * X-axis of graph starts at <lambda0>, ends at <lambda1>, stepping by <stepsize>.
+ */
+static int
+yualtschul_graph_dump(FILE *ofp, ESL_SCOREMATRIX *S, double scale, double lambda0, double lambda1, double stepsize)
+{
+  struct yualtschul_params p;
+  int    a,b;
+  double fx;
+  double lambda;
+
+  /* Set up a bisection method to find lambda */
+  p.S = esl_dmatrix_Create(S->K, S->K);
+  p.M = esl_dmatrix_Create(S->K, S->K);
+  p.Y = esl_dmatrix_Create(S->K, S->K);
+
+  for (a = 0; a < S->K; a++)
+    for (b = 0; b < S->K; b++)
+      p.S->mx[a][b] = (double) S->s[a][b];
+
+  for (lambda = lambda0; lambda <= lambda1; lambda += stepsize)
+    {
+      yualtschul_func(lambda/scale, &p, &fx);
+      fprintf(ofp, "%f %f\n", lambda, fx);
+    }
+  fprintf(ofp, "&\n");
+  fprintf(ofp, "%f 0.0\n", lambda0);
+  fprintf(ofp, "%f 0.0\n", lambda1);
+  fprintf(ofp, "&\n");
+  
+  esl_dmatrix_Destroy(p.S);
+  esl_dmatrix_Destroy(p.M);
+  esl_dmatrix_Destroy(p.Y);
+  return 0;
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_ALPHABET    *abc     = esl_alphabet_Create(eslAMINO);             /* protein matrices 20x20 */
+  ESL_DMATRIX     *Q       = esl_dmatrix_Create(abc->K, abc->K);	/* WAG rate matrix */
+  ESL_DMATRIX     *P0      = esl_dmatrix_Create(abc->K, abc->K);	/* p_ij joint probabilities calculated from WAG */
+  double          *wagpi   = malloc(sizeof(double) * abc->K);  
+  ESL_SCOREMATRIX *S0      = esl_scorematrix_Create(abc);	        /* score matrix calculated from WAG p_ij's */
+  double           lambda0 = esl_opt_GetReal(go, "-l");
+  double           t       = esl_opt_GetReal(go, "-t");
+  double           scale   = esl_opt_GetReal(go, "-s");
+  char            *yfile   = esl_opt_GetString(go, "--yfile");
+  char            *mfile   = esl_opt_GetString(go, "--mfile");
+  ESL_DMATRIX     *P       = NULL;                                      /* p_ij's from Yu/Altschul reverse eng of S0 */
+  double          *fi      = NULL;
+  double          *fj      = NULL;
+  double           lambda;
+  double           D;
+  int              status;
+  
+  /* Calculate an integer score matrix from a probabilistic rate matrix (WAG) */
+  esl_scorematrix_SetWAG(S0, lambda0/scale, t);
+  esl_composition_WAG(wagpi);
+  printf("WAG matrix calculated at t=%.3f, lambda=%.4f (/%.1f)\n", t, lambda0, scale);
+
+  /* Save the matrix, if asked */
+  if (mfile)
+    {
+      FILE *ofp = NULL;
+      if ( (ofp = fopen(mfile, "w")) == NULL) esl_fatal("failed to open %s for writing scorematrix", mfile);
+      strcpy(S0->outorder, "ARNDCQEGHILKMFPSTWYV");
+      esl_scorematrix_Write(ofp, S0);
+      fclose(ofp);
+    }
+
+  /* Because of integer roundoff, the actual probability basis is a little different */
+  esl_scorematrix_ProbifyGivenBG(S0, wagpi, wagpi, &lambda, NULL);
+  printf("Integer roundoff shifts implicit lambda (given wagpi's) to %.4f (/%.1f)\n", lambda*scale, scale);
+  printf("Scores in matrix range from %d to %d\n", esl_scorematrix_Min(S0), esl_scorematrix_Max(S0));
+
+  esl_scorematrix_RelEntropy(S0, wagpi, wagpi, lambda, &D);
+  printf("Relative entropy: %.3f bits\n", D);
+  
+  if (yfile)
+    {
+      FILE *ofp = NULL;
+      if ( (ofp = fopen(yfile, "w")) == NULL) esl_fatal("failed to open XY file %s for writing\n", yfile);
+      yualtschul_graph_dump(ofp, S0, scale, 0.01, 1.0, 0.0001);
+      fclose(ofp);
+      printf("XY plot of Yu/Altschul rootfinding saved to : %s\n", yfile);
+    }
+
+  status = esl_scorematrix_Probify(S0, &P, &fi, &fj, &lambda);
+  printf("Yu/Altschul reverse engineering gives lambda = %.4f (/%.1f)\n", lambda*scale, scale);
+
+  //printf("fi's are: \n");  esl_vec_DDump(stdout, fi, S0->K, abc->sym);
+
+  if (status != eslOK) printf("however, the solution is INVALID!\n");
+  else                 printf("and the joint and marginals are a valid probabilistic basis.\n");
+
+  free(fj);
+  free(fi);
+  esl_scorematrix_Destroy(S0);
+  esl_dmatrix_Destroy(P);
+  esl_dmatrix_Destroy(P0);
+  esl_dmatrix_Destroy(Q);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslSCOREMATRIX_EXPERIMENT */
+/*------------------ end, experiment driver ---------------------*/
+
+
+
+/*****************************************************************
+ * 8. Utility programs
+ *****************************************************************/ 
+
+/* Reformat a score matrix file into Easel internal digital alphabet order, suitable for making 
+ * one of the static data structures in our section of preloaded matrices.
+ */
+#ifdef eslSCOREMATRIX_UTILITY1
+/* 
+    gcc -g -Wall -o utility -I. -L. -DeslSCOREMATRIX_UTILITY1 esl_scorematrix.c -leasel -lm
+    ./utility BLOSUM62
+*/
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_scorematrix.h"
+#include "esl_fileparser.h"
+
+int
+main(int argc, char **argv)
+{
+  char *infile = argv[1];
+  ESL_ALPHABET    *abc;
+  ESL_FILEPARSER  *efp;
+  ESL_SCOREMATRIX *S;
+  int x,y;
+
+  abc = esl_alphabet_Create(eslAMINO);
+
+  if (esl_fileparser_Open(infile, NULL, &efp) != eslOK) esl_fatal("Failed to open %s\n", infile);
+  if (esl_scorematrix_Read(efp, abc, &S)      != eslOK) esl_fatal("parse failed: %s", efp->errbuf);
+
+  printf("    /*");
+  for (y = 0; y < abc->Kp; y++)
+    printf("  %c  ", abc->sym[y]);
+  printf("         */\n");
+
+  for (x = 0; x < abc->Kp; x++) {
+    printf("    { ");
+    for (y = 0; y < abc->Kp; y++)
+      printf("%3d, ", S->s[x][y]);
+    printf(" }, /* %c */\n", abc->sym[x]);
+  }
+  
+  esl_scorematrix_Destroy(S);
+  esl_fileparser_Close(efp);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*eslSCOREMATRIX_UTILITY1*/
+
+
+
+
+/* Utility 2: joint or conditional probabilities from BLOSUM62 (depending on how compiled)
+ */
+#ifdef eslSCOREMATRIX_UTILITY2
+/* 
+    gcc -g -Wall -o utility2 -I. -L. -DeslSCOREMATRIX_UTILITY2 esl_scorematrix.c -leasel -lm
+    ./utility2
+*/
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_scorematrix.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_ALPHABET    *abc      = esl_alphabet_Create(eslAMINO);
+  ESL_SCOREMATRIX *S        = esl_scorematrix_Create(abc);
+  ESL_DMATRIX     *Q        = NULL;
+  double          *fa       = NULL;
+  double          *fb       = NULL;
+  double           slambda;
+  int              a,b;
+
+  esl_scorematrix_Set("BLOSUM62", S);
+  esl_scorematrix_Probify(S, &Q, &fa, &fb, &slambda);
+#if 0
+  esl_scorematrix_JointToConditionalOnQuery(abc, Q); /* Q->mx[a][b] is now P(b | a) */
+#endif
+  esl_dmatrix_Dump(stdout, Q, abc->sym, abc->sym);
+  
+  esl_dmatrix_Destroy(Q);
+  esl_scorematrix_Destroy(S);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*eslSCOREMATRIX_UTILITY2*/
+
+
+
+
+
+
+/*****************************************************************
+ * 9. Unit tests.
+ *****************************************************************/
+
+#ifdef eslSCOREMATRIX_TESTDRIVE
+#include <esl_dirichlet.h>
+
+static void
+utest_ReadWrite(ESL_ALPHABET *abc, ESL_SCOREMATRIX *S)
+{
+  char tmpfile[16]     = "esltmpXXXXXX";
+  FILE            *fp  = NULL;
+  ESL_SCOREMATRIX *S2  = NULL;
+  ESL_FILEPARSER  *efp = NULL;
+  
+  if (esl_tmpfile_named(tmpfile, &fp)          != eslOK) esl_fatal("failed to open tmp file");
+  if (esl_scorematrix_Write(fp, S)                     != eslOK) esl_fatal("failed to write test matrix");
+  fclose(fp);
+
+  if (esl_fileparser_Open(tmpfile, NULL, &efp) != eslOK) esl_fatal("failed to open tmpfile containing BLOSUM62 matrix");
+  if (esl_scorematrix_Read(efp, abc, &S2)              != eslOK) esl_fatal("failed to read tmpfile containing BLOSUM62 matrix");
+  if (esl_scorematrix_Compare(S, S2)           != eslOK) esl_fatal("the two test matrices aren't identical");
+  
+  remove(tmpfile); 
+  esl_fileparser_Close(efp);
+  esl_scorematrix_Destroy(S2);
+  return;
+}
+
+
+static void
+utest_ProbifyGivenBG(ESL_SCOREMATRIX *S0, ESL_DMATRIX *P0, double *wagpi, double lambda0)
+{
+  char *msg = "ProbifyGivenBG() unit test failed";
+  ESL_DMATRIX     *P    = NULL;
+  double           sum  = 0.0;
+  double           lambda;
+  int              a,b;
+
+  if (esl_scorematrix_ProbifyGivenBG(S0, wagpi, wagpi, &lambda, &P) != eslOK) esl_fatal(msg);
+
+  if (esl_DCompare(lambda0, lambda, 1e-3)     != eslOK) esl_fatal("lambda is wrong");
+
+  for (a = 0; a < 20; a++) 	/* you can't just call esl_dmx_Sum(P), because P includes */
+    for (b = 0; b < 20; b++)    /* marginalized degeneracies */
+      sum += P->mx[a][b];
+
+  if (esl_DCompare(sum, 1.0, 1e-9)     != eslOK) esl_fatal("P doesn't sum to 1");
+
+  for (a = 0; a < 20; a++)	/* for the same reason,  you can't dmatrix_Compare P and P0 */
+    for (b = 0; b < 20; b++)
+      if (esl_DCompare(P0->mx[a][b], P->mx[a][b], 1e-2) != eslOK) esl_fatal("P is wrong");
+
+  esl_dmatrix_Destroy(P);
+  return;
+}
+ 
+
+/* The scores->pij reverse engineering engine works with scores in doubles,
+ * so we can separate effects of rounding to integers in standard
+ * score matrices.
+ */
+static void 
+utest_yualtschul(ESL_DMATRIX *P0, double *wagpi)
+{
+  char *msg = "reverse engineering engine test failed";
+  ESL_DMATRIX     *S   = NULL;	/* original score matrix, in double form, not rounded to ints (calculated from P, fi, fj) */
+  ESL_DMATRIX     *P   = NULL;	/* backcalculated P_ij joint probabilities */
+  double          *fi  = NULL;	/* backcalculated f_i query composition */
+  double          *fj  = NULL;	/* backcalculated f'_j target composition */
+  double           lambda0;	/* true lambda */
+  double           lambda;	/* backcalculated lambda */
+  double           sum = 0.0;
+  int              i,j;
+
+  /* Allocations */
+  if (( S  = esl_dmatrix_Create(20, 20))     == NULL)  esl_fatal(msg);
+  if (( P  = esl_dmatrix_Create(20, 20))     == NULL)  esl_fatal(msg);
+  if ((fi  = malloc(sizeof(double) * 20))    == NULL)  esl_fatal(msg);
+  if ((fj  = malloc(sizeof(double) * 20))    == NULL)  esl_fatal(msg);
+
+  /* Make a WAG-based score matrix in double-precision, without rounding to integers */
+  lambda0 = 0.3;
+  for (i = 0; i < 20; i++) 
+    for (j = 0; j < 20; j++)
+      S->mx[i][j] = log(P0->mx[i][j] / (wagpi[i] * wagpi[j])) / lambda0;
+
+  /* Reverse engineer it in double precision */
+  if ( yualtschul_engine(S, P, fi, fj, &lambda) != eslOK) esl_fatal("reverse engineering engine failed");
+
+  /* Validate the solution (expect more accuracy from this than from integer scores) */
+  if (esl_DCompare(lambda0, lambda, 1e-4)      != eslOK) esl_fatal("failed to get right lambda");
+
+  for (i = 0; i < 20; i++) 	/* you can't just call esl_dmx_Sum(P), because P includes */
+    for (j = 0; j < 20; j++)    /* marginalized degeneracies */
+      sum += P->mx[i][j];
+  if (esl_DCompare(sum, 1.0, 1e-6) != eslOK) esl_fatal("reconstructed P doesn't sum to 1");
+
+  for (i = 0; i < 20; i++)	/* for the same reason,  you can't dmatrix_Compare P and P0 */
+    for (j = 0; j < 20; j++)
+      if (esl_DCompare(P0->mx[i][j], P->mx[i][j], 1e-2) != eslOK) esl_fatal("failed to recover correct P_ij");
+  for (i = 0; i < 20; i++) 
+    {
+      if (esl_DCompare(fi[i],    fj[i],  1e-6) != eslOK) esl_fatal("background fi, fj not the same");
+      if (esl_DCompare(wagpi[i], fi[i],  1e-3) != eslOK) esl_fatal("failed to reconstruct WAG backgrounds");  
+    }
+
+  free(fj);
+  free(fi);
+  esl_dmatrix_Destroy(S);
+  esl_dmatrix_Destroy(P);
+  return;
+}
+
+
+/* utest_Probify()
+ * This tests Probify on a matrix that was calculated from probabilities in the first
+ * place. It verifies that the reconstructed Pij matrix matches the original Pij's
+ * that the score matrix was built from.
+ */
+static void
+utest_Probify(ESL_SCOREMATRIX *S0, ESL_DMATRIX *P0, double *wagpi, double lambda0)
+{
+  ESL_DMATRIX     *P  = NULL;
+  double          *fi = NULL;
+  double          *fj = NULL;
+  double           lambda;	/* reconstructed lambda */
+  double           sum = 0.0;
+  int              i,j;
+
+  if (esl_scorematrix_Probify(S0, &P, &fi, &fj, &lambda) != eslOK) esl_fatal("reverse engineering failed");
+
+  /* Validate the solution, gingerly (we expect significant error due to integer roundoff) */
+  if (esl_DCompare(lambda0, lambda, 0.01)       != eslOK) esl_fatal("failed to get right lambda");
+  for (i = 0; i < 20; i++) 	/* you can't just call esl_dmx_Sum(P), because P includes */
+    for (j = 0; j < 20; j++)    /* marginalized degeneracies */
+      sum += P->mx[i][j];
+  if (esl_DCompare(sum, 1.0, 1e-6) != eslOK) esl_fatal("reconstructed P doesn't sum to 1");
+
+  for (i = 0; i < 20; i++)	/* for the same reason,  you can't dmatrix_Compare P and P0 */
+    for (j = 0; j < 20; j++)
+      if (esl_DCompare(P0->mx[i][j], P->mx[i][j], 0.1) != eslOK) esl_fatal("failed to recover correct P_ij");
+  free(fj);
+  free(fi);
+  esl_dmatrix_Destroy(P);
+  return;
+}
+
+/* utest_ProbifyBLOSUM()
+ * This tests Probify on a score matrix where the original Pij's are treated as
+ * unknown. It verifies that if you create a new score matrix from the reconstructed
+ * Pij's, you get the original score matrix back. BLOSUM62 makes a good example,
+ * hence the name.
+  */
+static void
+utest_ProbifyBLOSUM(ESL_SCOREMATRIX *BL62)
+{
+  char *msg = "failure in ProbifyBLOSUM() unit test";
+  ESL_DMATRIX     *P  = NULL;
+  double          *fi = NULL;
+  double          *fj = NULL;
+  double           lambda;	
+  ESL_SCOREMATRIX *S2 = NULL;
+
+  if (( S2 = esl_scorematrix_Clone(BL62))                  == NULL) esl_fatal(msg);
+  if (esl_scorematrix_Probify(BL62, &P, &fi, &fj, &lambda)        != eslOK) esl_fatal(msg);
+  if (esl_scorematrix_SetFromProbs(S2, lambda, P, fi, fj) != eslOK) esl_fatal(msg);
+  if (esl_scorematrix_CompareCanon(BL62, S2)              != eslOK) esl_fatal(msg);
+  
+  free(fj);
+  free(fi);
+  esl_scorematrix_Destroy(S2);
+  esl_dmatrix_Destroy(P);
+  return;
+}
+
+#endif /*eslSCOREMATRIX_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 10. Test driver.
+ *****************************************************************/
+/* 
+    gcc -g -Wall -I. -L. -o test -DeslSCOREMATRIX_TESTDRIVE esl_scorematrix.c -leasel -lm
+    ./test
+*/
+#ifdef eslSCOREMATRIX_TESTDRIVE
+#include "easel.h"
+#include "esl_scorematrix.h"
+
+int 
+main(int argc, char **argv)
+{
+  ESL_ALPHABET    *abc = NULL;	/* amino acid alphabet */
+  ESL_SCOREMATRIX *BL62= NULL;	/* BLOSUM62 matrix */
+  ESL_SCOREMATRIX *S0  = NULL;	/* original score matrix (calculated from P, fi, fj) */
+  ESL_DMATRIX     *P0  = NULL;	/* original P_ij joint probabilities */
+  ESL_DMATRIX     *Q   = NULL;	/* WAG rate matrix */
+  double           lambda0;	/* true lambda used to construct S */
+  double           t;
+  int              i,j;
+  static double    wagpi[20];
+
+  /* Allocations */
+  if ((abc = esl_alphabet_Create(eslAMINO))      == NULL)  esl_fatal("allocation of alphabet failed");
+  if ((BL62= esl_scorematrix_Create(abc))        == NULL)  esl_fatal("allocation of BLOSUM62 failed");
+  if ((S0  = esl_scorematrix_Create(abc))        == NULL)  esl_fatal("allocation of scorematrix failed");
+  if ((P0  = esl_dmatrix_Create(abc->K, abc->K)) == NULL)  esl_fatal("P allocation failed");
+  if ((Q   = esl_dmatrix_Create(abc->K, abc->K)) == NULL)  esl_fatal("Q allocation failed");
+
+  /* Make a BLOSUM matrix */
+  if ( esl_scorematrix_Set("BLOSUM62", BL62) != eslOK) esl_fatal("failed to set a BLOSUM matrix");
+
+  /* Make a WAG-based score matrix with small lambda. */
+  lambda0 = 0.00635;
+  t    = 2.0;
+  esl_scorematrix_SetWAG(S0, lambda0, t);
+  esl_composition_WAG(wagpi);
+
+  /* Redo some calculations to get the known probabilistic basis of that S */
+  if ( esl_rmx_SetWAG(Q, wagpi)  != eslOK) esl_fatal("failed to set WAG");
+  if ( esl_dmx_Exp(Q, t, P0)     != eslOK) esl_fatal("failed to exponentiate WAG");
+  for (i = 0; i < 20; i++) 
+    for (j = 0; j < 20; j++)
+      P0->mx[i][j] *= wagpi[i];	/* P_ij = P(j|i) pi_i */
+
+  /* The unit test battery
+   */
+  utest_ReadWrite(abc, BL62);
+  utest_ReadWrite(abc, S0);
+  utest_ProbifyGivenBG(S0, P0, wagpi, lambda0);
+  utest_yualtschul(P0, wagpi);
+  utest_Probify(S0, P0, wagpi, lambda0); 
+  utest_ProbifyBLOSUM(BL62);
+
+  esl_dmatrix_Destroy(Q);
+  esl_dmatrix_Destroy(P0);
+  esl_scorematrix_Destroy(BL62);
+  esl_scorematrix_Destroy(S0);
+  esl_alphabet_Destroy(abc);
+
+  return 0;
+}
+#endif /*eslSCOREMATRIX_TESTDRIVE*/
+
+/*****************************************************************
+ * 11. Example program
+ *****************************************************************/
+
+#ifdef eslSCOREMATRIX_EXAMPLE
+/*::cexcerpt::scorematrix_example::begin::*/
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_fileparser.h"
+#include "esl_dmatrix.h"
+#include "esl_vectorops.h"
+#include "esl_scorematrix.h"
+
+int main(int argc, char **argv)
+{
+  char            *scorefile = argv[1];
+  ESL_ALPHABET    *abc       = esl_alphabet_Create(eslAMINO);
+  ESL_FILEPARSER  *efp       = NULL;
+  ESL_SCOREMATRIX *S         = NULL;
+  ESL_DMATRIX     *P1        = NULL; /* implicit probability basis, bg unknown */
+  ESL_DMATRIX     *P2        = NULL; /* implicit probability basis, bg known   */
+  double          *fi        = NULL;
+  double          *fj        = NULL;
+  double           lambda, D, E;
+  int              vstatus;
+
+  /* Input an amino acid score matrix from a file. */
+  if ( esl_fileparser_Open(scorefile, NULL, &efp) != eslOK) esl_fatal("failed to open score file %s", scorefile);
+  if ( esl_scorematrix_Read(efp, abc, &S)         != eslOK) esl_fatal("failed to read matrix from %s", scorefile);
+  esl_fileparser_Close(efp);
+
+  /* Try to reverse engineer it to get implicit probabilistic model. This may fail! */
+  vstatus = esl_scorematrix_Probify(S, &P1, &fi, &fj, &lambda);
+
+  if (vstatus == eslOK) 
+    { /* Print some info, and the joint probabilities. */
+
+      esl_scorematrix_RelEntropy   (S, fi, fj, lambda, &D);
+      esl_scorematrix_ExpectedScore(S, fi, fj,         &E);
+
+      printf("By Yu/Altschul (2003,2005) procedure:\n");
+      printf("Lambda           = %.4f\n",      lambda);
+      printf("Relative entropy = %.4f bits\n", D); 
+      printf("Expected score   = %.4f bits\n", E * lambda * eslCONST_LOG2R);
+
+      printf("p_ij's are:\n");  esl_dmatrix_Dump(stdout, P1, abc->sym, abc->sym);
+      printf("fi's are:\n");    esl_vec_DDump(stdout, fi, S->K, abc->sym);
+      printf("fj's are:\n");    esl_vec_DDump(stdout, fj, S->K, abc->sym);
+      printf("============================================================\n\n");
+      }
+  else
+    {
+      printf("Yu/Altschul procedure FAILS to find a valid implicit probability basis!\n");
+      printf("Lambda  = %.4f\n",      lambda);
+      printf("p_ij's are:\n");  esl_dmatrix_Dump(stdout, P1, abc->sym, abc->sym);
+      printf("fi's are:\n");    esl_vec_DDump(stdout, fi, S->K, abc->sym);
+      printf("fj's are:\n");    esl_vec_DDump(stdout, fj, S->K, abc->sym);
+      printf("============================================================\n\n");
+
+      esl_composition_BL62(fi); esl_composition_BL62(fj);
+    }
+
+  /* Now reverse engineer it again, this time using "known" background probs */
+  esl_scorematrix_ProbifyGivenBG(S, fi, fj, &lambda, &P2);
+  esl_scorematrix_RelEntropy   (S, fi, fj, lambda,   &D);
+  esl_scorematrix_ExpectedScore(S, fi, fj,           &E);
+
+  printf("By solving for lambda from given background frequencies:\n");
+  printf("Lambda           = %.4f\n",      lambda);
+  printf("Relative entropy = %.4f bits\n", D); 
+  printf("Expected score   = %.4f bits\n", E * lambda * eslCONST_LOG2R);
+
+  printf("p_ij's are:\n");   esl_dmatrix_Dump(stdout, P2, abc->sym, abc->sym);
+  printf("fi's are:\n");     esl_vec_DDump(stdout, fi, S->K, abc->sym);
+  printf("fj's are:\n");     esl_vec_DDump(stdout, fj, S->K, abc->sym);
+  printf("============================================================\n\n");
+
+
+  /* Now recalculate a score matrix from the probabilistic basis */
+  printf("Before:\n");
+  esl_scorematrix_Write(stdout, S);
+  printf("After:\n");
+  esl_scorematrix_SetFromProbs(S, lambda, P2, fi, fj);
+  esl_scorematrix_Write(stdout, S);
+
+  free(fi); free(fj);
+  esl_dmatrix_Destroy(P1);  esl_dmatrix_Destroy(P2);
+  esl_scorematrix_Destroy(S);
+  esl_alphabet_Destroy(abc);
+  return 0;
+}
+/*::cexcerpt::scorematrix_example::end::*/
+#endif /*eslSCOREMATRIX_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_scorematrix.c 860 2013-04-05 01:43:50Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_scorematrix.c $
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.h
new file mode 100755
index 0000000..58e1e5f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.h
@@ -0,0 +1,83 @@
+/* Routines for manipulating sequence alignment score matrices.
+ */
+#ifndef eslSCOREMATRIX_INCLUDED
+#define eslSCOREMATRIX_INCLUDED
+
+#include "esl_alphabet.h"
+#include "esl_fileparser.h"
+#include "esl_dmatrix.h"
+
+/* ESL_SCOREMATRIX:
+ * allocation is in one array in s[0].
+ *
+ * i,j can range from 0..Kp-1, including all characters valid in the alphabet.
+ * Only values for 0..K-1 (canonical alphabet) are mandatory.
+ */
+typedef struct {
+  int **s;			/* s[i][j] is the score of aligning residue i,j; i,j range 0..Kp-1 */
+  int   K;			/* size of base alphabet (duplicate of S->abc_r->K) */
+  int   Kp;			/* full size of s[][], including degeneracies (duplicate of S->abc_r->Kp) */
+
+  /* bookkeeping for degenerate residues */
+  char *isval;			/* array 0..Kp-1: which residues of alphabet have valid scores in S. */
+  const ESL_ALPHABET *abc_r;	/* reference to the alphabet: includes K, Kp, and sym order */
+
+  /* bookkeeping that lets us output exactly the residue order we read in a matrix file */
+  int   nc;			/* number of residues with scores (inclusive of *, if present) */
+  char *outorder;		/* NUL-terminated string 0..nc-1 giving order of residues in col/row labels   */
+
+  char *name;			/* optional: name of score matrix; or NULL */
+  char *path;			/* optional: full path to file that score matrix was read from; or NULL  */
+} ESL_SCOREMATRIX;
+
+
+
+/* 1. The ESL_SCOREMATRIX object. */
+extern ESL_SCOREMATRIX *esl_scorematrix_Create(const ESL_ALPHABET *abc);
+extern int              esl_scorematrix_Copy(const ESL_SCOREMATRIX *src, ESL_SCOREMATRIX *dest);
+extern ESL_SCOREMATRIX *esl_scorematrix_Clone(const ESL_SCOREMATRIX *S);
+extern int              esl_scorematrix_Compare(const ESL_SCOREMATRIX *S1, const ESL_SCOREMATRIX *S2);
+extern int              esl_scorematrix_CompareCanon(const ESL_SCOREMATRIX *S1, const ESL_SCOREMATRIX *S2);
+extern int              esl_scorematrix_Max(const ESL_SCOREMATRIX *S);
+extern int              esl_scorematrix_Min(const ESL_SCOREMATRIX *S);
+extern int              esl_scorematrix_IsSymmetric(const ESL_SCOREMATRIX *S);
+extern int              esl_scorematrix_ExpectedScore(ESL_SCOREMATRIX *S, double *fi, double *fj, double *ret_E);
+extern int              esl_scorematrix_RelEntropy(const ESL_SCOREMATRIX *S, const double *fi, const double *fj, 
+						   double lambda, double *ret_D);
+extern int              esl_scorematrix_JointToConditionalOnQuery(const ESL_ALPHABET *abc, ESL_DMATRIX *P);
+extern void             esl_scorematrix_Destroy(ESL_SCOREMATRIX *S);
+
+/* 2. Some classic score matrices */
+extern int              esl_scorematrix_Set(const char *name, ESL_SCOREMATRIX *S);
+extern int              esl_scorematrix_SetIdentity(ESL_SCOREMATRIX *S);
+
+/* 3. Deriving a score matrix probabilistically */
+extern int              esl_scorematrix_SetFromProbs(ESL_SCOREMATRIX *S, double lambda, const ESL_DMATRIX *P,
+						     const double *fi, const double *fj);
+extern int              esl_scorematrix_SetWAG(ESL_SCOREMATRIX *S, double lambda, double t);
+
+/* 4. Reading/writing score matrices. */
+extern int  esl_scorematrix_Read(ESL_FILEPARSER *efp, const ESL_ALPHABET *abc, ESL_SCOREMATRIX **ret_S);
+extern int  esl_scorematrix_Write(FILE *fp, const ESL_SCOREMATRIX *S);
+
+/* 5. Implicit probabilistic basis, I: given bg. */
+extern int esl_scorematrix_ProbifyGivenBG(const ESL_SCOREMATRIX *S, const double *fi, const double *fj, 
+					  double *opt_lambda, ESL_DMATRIX **opt_P);
+
+/* 6. Implicit probabilistic basis, II: bg unknown. */
+extern int esl_scorematrix_Probify(const ESL_SCOREMATRIX *S, ESL_DMATRIX **opt_P, 
+				   double **opt_fi, double **opt_fj, double *opt_lambda);
+
+#endif /*eslSCOREMATRIX_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/ 
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.tex
new file mode 100755
index 0000000..a05fdf5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_scorematrix.tex
@@ -0,0 +1,51 @@
+The \eslmod{scorematrix} module implements standard residue pairwise
+alignment scoring systems (such as BLOSUM matrices), and their
+probabilistic interpretation \citep{Altschul91,YuAltschul03}.
+
+Table~\ref{tbl:scorematrix_api} lists the functions in the
+\eslmod{scorematrix} API. The module implements one object,
+\ccode{ESL\_SCOREMATRIX}, which holds a score matrix with integer
+scores.
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The \ccode{ESL\_SCOREMATRIX} object.}\\
+\hyperlink{func:esl_scorematrix_Create()}{\ccode{esl\_scorematrix\_Create()}} & Create an \ccode{ESL\_SCOREMATRIX}.\\
+\hyperlink{func:esl_scorematrix_SetWAG()}{\ccode{esl\_scorematrix\_SetWAG()}} & Parameterize matrix from the WAG evolutionary model.           \\
+\hyperlink{func:esl_scorematrix_SetFromProbs()}{\ccode{esl\_scorematrix\_SetFromProbs()}} & Set matrix scores from target and background probabilities.\\
+\hyperlink{func:esl_scorematrix_Compare()}{\ccode{esl\_scorematrix\_Compare()}} & Compare two matrices for equality.\\
+\hyperlink{func:esl_scorematrix_Max()}{\ccode{esl\_scorematrix\_Max()}} & Returns maximum value in score matrix.\\
+\hyperlink{func:esl_scorematrix_Min()}{\ccode{esl\_scorematrix\_Min()}} & Returns minimum value in score matrix.\\
+%\hyperlink{func:esl_scorematrix_RelativeEntropy()}{\ccode{esl\_scorematrix\_RelativeEntropy()}} & Returns relative entropy of a matrix.\\
+\hyperlink{func:esl_scorematrix_IsSymmetric()}{\ccode{esl\_scorematrix\_IsSymmetric()}} & Returns \ccode{TRUE} for symmetric matrix.\\
+\hyperlink{func:esl_scorematrix_Destroy()}{\ccode{esl\_scorematrix\_Destroy()}} & Frees a matrix.\\
+\apisubhead{Reading/writing score matrices.}\\
+\hyperlink{func:esl_scorematrix_Read()}{\ccode{esl\_scorematrix\_Read()}} & Read a standard matrix input file.\\
+\hyperlink{func:esl_scorematrix_Write()}{\ccode{esl\_scorematrix\_Write()}} & Write a BLAST-compatible score matrix file.\\
+%\apisubhead{Interpreting matrices probabilistically.}\\
+%\hyperlink{func:esl_scorematrix_ObtainPij()}{\ccode{esl\_scorematrix\_ObtainPij()}} & Obtain $P_{ij}$ from score matrix with known $\lambda$ and background $f$'s.\\
+%\hyperlink{func:esl_scorematrix_SolveLambda()}{\ccode{esl\_scorematrix\_SolveLambda()}} & Find $\lambda$ for score matrix, given background.\\
+%\hyperlink{func:esl_scorematrix_ReverseEngineer()}{\ccode{esl\_scorematrix\_ReverseEngineer()}} & Calculate the probabilistic basis of a score matrix.\\
+
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{scorematrix} API.}
+\label{tbl:scorematrix_api}
+\end{table}
+
+\subsection{An example of using the scorematrix API}
+
+Figure~\ref{fig:scorematrix_example} shows an example of reading a
+matrix file from disk, reverse engineering it \citep{YuAltschul03} to
+obtain its target probabilities, background frequencies, and lambda,
+then printing information about it:
+
+\begin{figure}
+\input{cexcerpts/scorematrix_example}
+\caption{An example of using the \eslmod{scorematrix} module.}
+\label{fig:scorematrix_example}
+\end{figure}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.c
new file mode 100755
index 0000000..8ef0b20
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.c
@@ -0,0 +1,2675 @@
+/* A sequence.
+ * 
+ * Contents:
+ *   1. Text version of the ESL_SQ object.
+ *   2. Digitized version of the ESL_SQ object.     [with <alphabet>]
+ *   3. Other functions that operate on sequences.
+ *   4. Getting single sequences from MSAs.         [with <msa>]
+ *   5. Internal functions.
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Examples.
+ *   9. Copyright and license information.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"	/* alphabet aug adds digital sequences */
+#endif 
+#ifdef eslAUGMENT_MSA
+#include "esl_msa.h"		/* msa aug adds ability to extract sq from an MSA  */
+#endif
+#include "esl_sq.h"
+
+#include "esl_vectorops.h"
+
+
+/* Shared parts of text/digital creation functions (defined in "internal functions" section) */
+static ESL_SQ *sq_create(int do_digital);
+static ESL_SQ *sq_create_from(const char *name, const char *desc, const char *acc);
+
+static ESL_SQ_BLOCK *sq_createblock(int count, int do_digital);
+
+static int  sq_init(ESL_SQ *sq, int do_digital);
+static void sq_free(ESL_SQ *sq);
+
+/*****************************************************************
+ *# 1. Text version of the <ESL_SQ> object.
+ *****************************************************************/
+
+/* Function:  esl_sq_Create()
+ * Synopsis:  Create a new, empty <ESL_SQ>.
+ * Incept:    SRE, Thu Dec 23 11:57:00 2004 [Zaragoza]
+ *
+ * Purpose:   Creates an empty <ESL_SQ> sequence object, in text mode, with
+ *            internal fields allocated to reasonable initial sizes. 
+ *            
+ * Args:      (void)
+ *
+ * Returns:   a pointer to the new <ESL_SQ>. Caller frees this with
+ *            <esl_sq_Destroy()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+ESL_SQ *
+esl_sq_Create(void)
+{
+  return sq_create(FALSE);
+}
+
+/* Function:  esl_sq_CreateFrom()
+ * Synopsis:  Create a new <ESL_SQ> from text information.
+ * Incept:    SRE, Wed Mar 22 09:17:04 2006 [St. Louis]
+ *
+ * Purpose:   Create a new <ESL_SQ> object in text mode from elemental data.
+ *            This provides an interface between non-Easel code
+ *            and Easel's object.
+ *            
+ *            Makes copies of all data. Caller is still
+ *            responsible for memory of name, seq, etc.
+ *            
+ *            <desc>, <acc>, and <ss> are optional. They can be passed
+ *            as <NULL> to leave them blank. 
+ *            
+ *            <ss> is an optional alphabetic secondary structure
+ *            annotation string. If it is provided, its length must
+ *            match the length of <seq>.
+ *            
+ * Args:      name    -  name of the sequence (NUL-terminated)
+ *            seq     -  the sequence (alphabetic; NUL-terminated)
+ *            desc    -  optional: description line (or NULL)
+ *            acc     -  optional: accession (or NULL)
+ *            ss      -  optional: secondary structure annotation (or NULL)
+ *
+ * Returns:   a pointer to the new object. Free with
+ *            <esl_sq_Destroy()>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_SQ *
+esl_sq_CreateFrom(const char *name, const char *seq, const char *desc, const char *acc, const char *ss)
+{
+  ESL_SQ  *sq = NULL;
+  int64_t  n  = strlen(seq);
+  int      status;
+
+  if ((sq     = sq_create_from(name, desc, acc)) == NULL)  goto ERROR;
+  if ((status = esl_strdup(seq, n, &(sq->seq)))  != eslOK) goto ERROR;
+
+  if (ss != NULL) 
+    {
+      if (strlen(ss) != n) ESL_XEXCEPTION(eslEINVAL, "ss, seq lengths mismatch");
+      if ((status = esl_strdup(ss, n, &(sq->ss))) != eslOK) goto ERROR;
+    } 
+  else sq->ss = NULL;
+
+  sq->n      = n;
+  sq->salloc = n+1;
+
+  /* We assume we've created a complete sequence; set the coord bookkeeping accordingly. */
+  sq->start  = 1;
+  sq->end    = n;
+  sq->C      = 0;
+  sq->W      = n;
+  sq->L      = n;
+
+  /* optional for extra residue markups */
+  sq->nxr    = 0;
+  sq->xr_tag = NULL;
+  sq->xr     = NULL;
+
+  return sq;
+
+ ERROR:
+  esl_sq_Destroy(sq);
+  return NULL;
+}
+
+/* Function:  esl_sq_Grow()
+ * Synopsis:  Assure that a <ESL_SQ> has space to add more residues.
+ * Incept:    SRE, Wed Jan 10 08:26:23 2007 [Janelia]
+ *
+ * Purpose:   Assure that the sequence <sq> can hold at least
+ *            one more residue, whether in digital or text mode.
+ *            Reallocate if necessary. Optionally returns the number
+ *            of residues that can be added before the next call
+ *            to <esl_sq_Grow()> in <opt_nsafe>.
+ *            
+ *            The terminal <NUL> or sentinel count as a residue for
+ *            allocation purposes: that is, you may need to call
+ *            <esl_sq_Grow()> before terminating a new sequence.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on reallocation failure. In this case, the
+ *            original <sq> is untouched, and <*opt_nsafe> is returned
+ *            as 0.
+ *
+ * Xref:      STL11/125.
+ */
+int
+esl_sq_Grow(ESL_SQ *sq, int64_t *opt_nsafe)
+{
+  void   *tmp;
+  int64_t new;
+  int64_t nsafe;
+  int     x;       /* index for optional extra residue markups */
+  int     status;
+
+  if (sq->seq != NULL)  nsafe = sq->salloc     - sq->n;     /* text */
+  else                  nsafe = (sq->salloc-1) - sq->n;     /* digital: -1 because 0 is a sentinel       */
+
+  if (nsafe < 1)
+    {  /* reallocate by doubling (shouldn't need more, but if we do, keep doubling) */
+      new = sq->salloc;
+      do { nsafe += new; new*=2; } while (nsafe < 1);
+      
+      if (sq->seq != NULL) ESL_RALLOC(sq->seq, tmp, new * sizeof(char));	/* text    */
+      else                 ESL_RALLOC(sq->dsq, tmp, new * sizeof(ESL_DSQ));	/* digital */
+      if (sq->ss != NULL)  ESL_RALLOC(sq->ss,  tmp, new * sizeof(char));
+
+      for (x = 0; x < sq->nxr; x++) 
+	if (sq->xr[x] != NULL)  ESL_RALLOC(sq->xr[x],  tmp, new * sizeof(char));
+      
+      sq->salloc = new;
+    }
+  if (opt_nsafe != NULL) *opt_nsafe = nsafe;
+  return eslOK;
+
+ ERROR:
+  if (opt_nsafe != NULL) *opt_nsafe = 0;
+  return status;
+}
+
+/* Function:  esl_sq_GrowTo()
+ * Synopsis:  Grows an <ESL_SQ> to hold a seq of at least <n> residues.
+ * Incept:    SRE, Fri Jan 18 11:06:50 2008 [UA5233 Westchester-Dulles]
+ *
+ * Purpose:   Assure that the appropriate (text or digital) sequence
+ *            field in <sq> can hold up to a total of <n> residues,
+ *            reallocating as needed.
+ *            
+ *            If reallocated, the allocation will be $\geq (n+1)$ for
+ *            text mode (the +1 is for the terminal NUL byte), $\geq
+ *            (n+2)$ for digital mode (+2 for sentinel bytes at each
+ *            end). That is, you don't need to take these extra bytes into
+ *            account in your <n>; <n> is the number of residues, not
+ *            bytes.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ * 
+ * Note that n=0 is fine here, because we'll allocate either n+1 or n+2.
+ */
+int
+esl_sq_GrowTo(ESL_SQ *sq, int64_t n)
+{
+  int   x;        /* index for optional extra residue markups */
+  int   status;
+
+  if (sq->seq != NULL)		/* text mode */
+    {
+      if (n+1 > sq->salloc) {
+        ESL_REALLOC(sq->seq, (n+1) * sizeof(char));
+        if (sq->ss != NULL) ESL_REALLOC(sq->ss, (n+1) * sizeof(char));
+        for (x = 0; x < sq->nxr; x++) /* optional extra residue markups */
+          if (sq->xr[x] != NULL)  ESL_REALLOC(sq->xr[x],  (n+1) * sizeof(char));
+        sq->salloc = n+1;
+      }
+    }
+  else				/* digital mode */
+    {
+      if (n+2 > sq->salloc) {
+        ESL_REALLOC(sq->dsq, (n+2) * sizeof(ESL_DSQ));
+        if (sq->ss != NULL) ESL_REALLOC(sq->ss, (n+2) * sizeof(char));
+        for (x = 0; x < sq->nxr; x++) /* optional extra residue markups */
+          if (sq->xr[x] != NULL)  ESL_REALLOC(sq->xr[x],  (n+2) * sizeof(char));
+
+        sq->salloc = n+2;
+      }
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_sq_Copy()
+ * Synopsis:  Make a copy of an <ESL_SQ>.
+ * Incept:    SRE, Sun Feb 24 17:59:24 2008 [UA5315 to St. Louis]
+ *
+ * Purpose:   Copies a source sequence object <src> into 
+ *            destination sequence object <dst>.
+ *            
+ *            The two objects don't have to be matched as far as
+ *            text/digital mode go; if mismatched, appropriate
+ *            text/digital conversion will be done.
+ *            
+ *            The destination sequence <dst> is reallocated internally
+ *            as necessary to hold a copy of <src>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ * 
+ * Note:      Note the shenanigans involved in copying ss; you have
+ *            to pay attention to the ss being a 0..n-1 string in text
+ *            mode versus a 1..n string in digital mode.
+ */
+int
+esl_sq_Copy(const ESL_SQ *src, ESL_SQ *dst)
+{
+  int   x;        /* index for optional extra residue markups */
+  int status;
+
+  /* If <src> has structure annotation and <dst> does not, initialize an allocation in <dst> */
+  if (src->ss != NULL && dst->ss  == NULL) ESL_ALLOC(dst->ss, sizeof(char) * dst->salloc);
+
+  /* similarly for optional extra residue markups */
+  if (src->nxr > 0) {
+    if (dst->nxr > 0) {
+      for (x = 0; x < dst->nxr; x++) {
+	if (dst->xr[x]     != NULL) { free(dst->xr[x]);     dst->xr[x]     = NULL; }
+	if (dst->xr_tag[x] != NULL) { free(dst->xr_tag[x]); dst->xr_tag[x] = NULL; }
+      }     
+      if (dst->xr     != NULL) { free(dst->xr);     dst->xr     = NULL; }
+      if (dst->xr_tag != NULL) { free(dst->xr_tag); dst->xr_tag = NULL; }
+    }
+    
+    dst->nxr = src->nxr;
+    ESL_ALLOC(dst->xr_tag, sizeof(char *) * dst->nxr);
+    ESL_ALLOC(dst->xr,     sizeof(char *) * dst->nxr);
+    
+    for (x = 0; x < dst->nxr; x++) {
+      ESL_ALLOC(dst->xr_tag[x], sizeof(char) * src->nalloc);
+      ESL_ALLOC(dst->xr[x],     sizeof(char) * src->salloc);
+    }
+  }
+  
+  if ((status = esl_sq_SetName     (dst, src->name))   != eslOK) goto ERROR;
+  if ((status = esl_sq_SetSource   (dst, src->source)) != eslOK) goto ERROR;
+  if ((status = esl_sq_SetAccession(dst, src->acc))    != eslOK) goto ERROR;
+  if ((status = esl_sq_SetDesc     (dst, src->desc))   != eslOK) goto ERROR;
+  if ((status = esl_sq_GrowTo      (dst, src->n))      != eslOK) goto ERROR;
+
+  if (src->seq != NULL && dst->seq != NULL) /* text to text */
+    {
+    strcpy(dst->seq, src->seq);
+      if (src->ss != NULL) strcpy(dst->ss, src->ss);
+      for (x = 0; x < src->nxr; x++) 
+	if (src->xr[x] != NULL) strcpy(dst->xr[x], src->xr[x]);
+    }
+#ifdef eslAUGMENT_ALPHABET
+  else if (src->seq != NULL && dst->dsq != NULL) /* text to digital */
+    {
+      if ((status = esl_abc_Digitize(dst->abc, src->seq, dst->dsq)) != eslOK) goto ERROR;      
+      if (src->ss != NULL) {
+	strcpy(dst->ss+1, src->ss);
+	dst->ss[0] = '\0';
+	for (x = 0; x < src->nxr; x++) 
+	  if (src->xr[x] != NULL) { strcpy(dst->xr[x]+1, src->xr[x]); dst->xr[x][0] = '\0'; }
+     }
+    }
+  else if (src->dsq != NULL && dst->seq != NULL) /* digital to text */
+    {
+      if ((status = esl_abc_Textize(src->abc, src->dsq, src->n, dst->seq)) != eslOK) goto ERROR;
+      if (src->ss != NULL) strcpy(dst->ss, src->ss+1);
+      for (x = 0; x < src->nxr; x++) 
+	if (src->xr[x] != NULL) strcpy(dst->xr[x], src->xr[x]+1);
+   }
+  else 				/* digital to digital */
+    {
+      if (src->abc->type != dst->abc->type) 
+	ESL_XEXCEPTION(eslEINCOMPAT, "seq objects involved in Copy differ in digital alphabet");
+      if ((status = esl_abc_dsqcpy(src->dsq, src->n, dst->dsq)) != eslOK) goto ERROR;
+      if (src->ss != NULL) {
+	strcpy(dst->ss+1, src->ss+1);
+	dst->ss[0] = '\0';
+      }
+      for (x = 0; x < src->nxr; x++) 
+	if (src->xr[x] != NULL) { strcpy(dst->xr[x]+1, src->xr[x]+1); dst->xr[x][0] = '\0'; }
+    }
+#endif
+   
+  for (x = 0; x < src->nxr; x++) 
+    if (src->xr_tag[x] != NULL) strcpy(dst->xr_tag[x], src->xr_tag[x]);
+
+  dst->n     = src->n;
+  dst->start = src->start;
+  dst->end   = src->end;
+  dst->C     = src->C;
+  dst->W     = src->W;
+  dst->L     = src->L;
+  /* don't copy allocations (nalloc, etc); dst knows its own memory */
+  dst->roff  = src->roff;
+  dst->doff  = src->doff;
+  dst->hoff  = src->hoff;
+  dst->eoff  = src->eoff;
+  return eslOK;
+
+ ERROR:
+  esl_sq_Reuse(dst);
+  return status;
+}
+
+/* Function:  esl_sq_Compare()
+ * Synopsis:  Compare two sequence objects for equality.
+ * Incept:    SRE, Tue May 13 09:00:41 2008 [Janelia]
+ *
+ * Purpose:   Compare the contents of two sequence objects <sq1> 
+ *            and <sq2> for equality.
+ *            
+ *            Disk offsets are only compared if they are set in both
+ *            <sq1> and <sq2>. Allocation sizes are not compared at
+ *            all.
+ *
+ * Returns:   <eslOK> if identical, <eslFAIL> if not.
+ */
+int
+esl_sq_Compare(ESL_SQ *sq1, ESL_SQ *sq2)
+{
+  int   x;        /* index for optional extra residue markups */
+
+  /* Annotation comparison */
+  if (strcmp(sq1->name,   sq2->name)   != 0) return eslFAIL;
+  if (strcmp(sq1->acc,    sq2->acc)    != 0) return eslFAIL;
+  if (strcmp(sq1->desc,   sq2->desc)   != 0) return eslFAIL;
+  if (strcmp(sq1->source, sq2->source) != 0) return eslFAIL;
+  if (sq1->ss != NULL && sq2->ss != NULL) {
+    if (strcmp(sq1->ss, sq2->ss) != 0)       return eslFAIL;
+  } else
+    if (sq1->ss != NULL || sq2->ss != NULL)  return eslFAIL;
+  if (sq1->n != sq2->n)                      return eslFAIL;
+  
+  /* Sequence comparison */
+  if        (sq1->seq != NULL && sq2->seq != NULL) {
+    if (strcmp(sq1->seq, sq2->seq) != 0)     return eslFAIL;
+  } 
+#ifdef eslAUGMENT_ALPHABET
+  else if (sq1->dsq != NULL && sq2->dsq != NULL) {
+    if (memcmp(sq1->dsq, sq2->dsq, sizeof(ESL_DSQ) * (sq1->n+2)) != 0) return eslFAIL;
+  }
+#endif
+  else return eslFAIL;
+
+  /* Coordinate comparison */
+  if (sq1->start != sq2->start)              return eslFAIL;
+  if (sq1->end   != sq2->end)                return eslFAIL;
+  if (sq1->C     != sq2->C)                  return eslFAIL;
+  if (sq1->W     != sq2->W)                  return eslFAIL;
+  if (sq1->L     != sq2->L)                  return eslFAIL;
+    
+  /* Disk offset comparison */
+  if (sq1->roff != -1 && sq2->roff != -1 && sq1->roff != sq2->roff) return eslFAIL;
+  if (sq1->doff != -1 && sq2->doff != -1 && sq1->doff != sq2->doff) return eslFAIL;
+  if (sq1->hoff != -1 && sq2->hoff != -1 && sq1->hoff != sq2->hoff) return eslFAIL;
+  if (sq1->eoff != -1 && sq2->eoff != -1 && sq1->eoff != sq2->eoff) return eslFAIL;
+  
+  /* optional extra residue markup comparison */
+  if (sq1->nxr != sq2->nxr) return eslFAIL;
+  for (x = 0; x < sq1->nxr; x++) {
+    if (sq1->xr_tag[x] != NULL && sq2->xr_tag[x] != NULL) {
+      if (strcmp(sq1->xr_tag[x], sq2->xr_tag[x]) != 0)      return eslFAIL;
+    } else
+      if (sq1->xr_tag[x] != NULL || sq2->xr_tag[x] != NULL) return eslFAIL;
+    
+    if (sq1->xr[x] != NULL && sq2->xr[x] != NULL) {
+      if (strcmp(sq1->xr[x], sq2->xr[x]) != 0)      return eslFAIL;
+    } else
+      if (sq1->xr[x] != NULL || sq2->xr[x] != NULL) return eslFAIL;
+  }
+  
+  /* alphabet comparison */
+#ifdef eslAUGMENT_ALPHABET  
+  if (sq1->abc != NULL && (sq1->abc->type != sq2->abc->type)) return eslFAIL;
+#endif
+  return eslOK;
+}  
+
+
+
+/* Function:  esl_sq_Reuse()
+ * Synopsis:  Reinitialize an <ESL_SQ> for re-use.
+ * Incept:    SRE, Thu Dec 23 12:23:51 2004 [Zaragoza]
+ *
+ * Purpose:   Given a sequence object <sq> already in use;
+ *            reinitialize all its data, so a new seq
+ *            may be read into it. This allows sequential sequence
+ *            input without a lot of wasted allocation/free cycling.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sq_Reuse(ESL_SQ *sq)
+{
+  int   x;        /* index for optional extra residue markups */
+
+  sq->name[0]   = '\0';
+  sq->acc[0]    = '\0';
+  sq->desc[0]   = '\0';
+  sq->tax_id    = -1;
+  sq->source[0] = '\0';
+  if (sq->seq != NULL) sq->seq[0] = '\0';
+  if (sq->dsq != NULL) sq->dsq[0] = sq->dsq[1] = eslDSQ_SENTINEL;
+  if (sq->ss  != NULL) {
+    if (sq->seq != NULL) sq->ss[0] = '\0';
+    else                 sq->ss[0] = sq->ss[1] = '\0'; /* in digital mode, ss string is 1..n; 0 is a dummy \0 byte*/
+  }
+
+  /* optional extra residue markup */
+  if (sq->nxr > 0) {
+    for (x = 0; x < sq->nxr; x++) {
+      if (sq->xr[x]     != NULL) { free(sq->xr[x]);     sq->xr[x]     = NULL; }
+      if (sq->xr_tag[x] != NULL) { free(sq->xr_tag[x]); sq->xr_tag[x] = NULL; }
+    }     
+    if (sq->xr     != NULL) { free(sq->xr);     sq->xr     = NULL; }
+    if (sq->xr_tag != NULL) { free(sq->xr_tag); sq->xr_tag = NULL; }
+    sq->nxr = 0;
+  }
+
+  sq->n     = 0;
+  sq->start = 0;
+  sq->end   = 0;
+  sq->C     = 0;
+  sq->W     = 0;
+  sq->L     = -1;
+  sq->idx   = -1;
+  sq->doff  = -1;
+  sq->hoff  = -1;
+  sq->roff  = -1;
+  sq->eoff  = -1;
+  return eslOK;
+}
+
+/* Function:  esl_sq_IsDigital()
+ * Synopsis:  Return <TRUE> if <sq> is digital.
+ * Incept:    SRE, Mon Mar  2 18:05:34 2009 [Casa de Gatos]
+ *
+ * Purpose:   Return <TRUE> if <sq> is in digital mode,
+ *            and <FALSE> if not.
+ */
+int
+esl_sq_IsDigital(const ESL_SQ *sq)
+{
+  return ((sq->dsq != NULL) ? TRUE : FALSE);
+}
+
+
+/* Function:  esl_sq_IsText()
+ * Synopsis:  Return <TRUE> if <sq> is text mode.
+ * Incept:    SRE, Mon Mar  2 18:06:22 2009 [Casa de Gatos]
+ *
+ * Purpose:   Return <TRUE> if <sq> is in text mode,
+ *            and <FALSE> if not.
+ */
+int
+esl_sq_IsText(const ESL_SQ *sq)
+{
+  return ((sq->seq != NULL) ? TRUE : FALSE);
+}
+
+
+/* Function:  esl_sq_Destroy()
+ * Synopsis:  Frees an <ESL_SQ>.
+ * Incept:    SRE, Thu Dec 23 12:28:07 2004 [Zaragoza]
+ *
+ * Purpose:   Free a Create()'d <sq>.
+ */
+void
+esl_sq_Destroy(ESL_SQ *sq)
+{
+  int   x;        /* index for optional extra residue markups */
+  if (sq == NULL) return;
+
+  if (sq->name   != NULL) free(sq->name);  
+  if (sq->acc    != NULL) free(sq->acc);   
+  if (sq->desc   != NULL) free(sq->desc);  
+  if (sq->seq    != NULL) free(sq->seq);   
+  if (sq->dsq    != NULL) free(sq->dsq);   
+  if (sq->ss     != NULL) free(sq->ss);    
+  if (sq->source != NULL) free(sq->source);
+  if (sq->nxr > 0) {  
+    for (x = 0; x < sq->nxr; x++) {
+      if (sq->xr[x]     != NULL) free(sq->xr[x]);
+      if (sq->xr_tag[x] != NULL) free(sq->xr_tag[x]);
+    }
+    if (sq->xr     != NULL) free(sq->xr);
+    if (sq->xr_tag != NULL) free(sq->xr_tag);
+  }
+  free(sq);
+  return;
+}
+
+/* Function:  esl_sq_CreateBlock()
+ * Synopsis:  Create a new block of empty <ESL_SQ>.
+ * Incept:    
+ *
+ * Purpose:   Creates a block of empty <ESL_SQ> sequence objects.
+ *            
+ * Returns:   a pointer to the new <ESL_SQ_BLOCK>. Caller frees this
+ *            with <esl_sq_DestroyBlock()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+ESL_SQ_BLOCK *
+esl_sq_CreateBlock(int count)
+{
+  return sq_createblock(count, FALSE);
+}
+
+/* Function:  esl_sq_DestroyBlock()
+ * Synopsis:  Frees an <ESL_SQ_BLOCK>.
+ * Incept:    
+ *
+ * Purpose:   Free a Create()'d block of <sq>.
+ */
+void
+esl_sq_DestroyBlock(ESL_SQ_BLOCK *block)
+{
+  int i;
+
+  if (block == NULL) return;
+
+  for (i = 0; i < block->listSize; ++i)
+    {
+      sq_free(block->list + i);
+    }
+
+  free(block->list);
+  free(block);
+  return;
+}
+
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_sq_CreateDigitalBlock()
+ * Synopsis:  Create a new block of empty <ESL_SQ> in digital mode.
+ * Incept:    
+ *
+ * Purpose:   Same as <esl_sq_CreateBlock()>, except the returned <sq>
+ *            is configured for a digital sequence using internal
+ *            alphabet <abc>, rather than a text sequence. Creates an
+ *            empty digital <ESL_SQ> sequence object, with internal
+ *            fields allocated to reasonable initial sizes.
+ *            
+ * Returns:   a pointer to the new <ESL_SQ_BLOCK>. Caller frees this with
+ *            <esl_sq_DestroyBlock()>.
+ * 
+ * Throws:    <NULL> if an allocation fails.
+ *
+ * Xref:      
+ */
+ESL_SQ_BLOCK *
+esl_sq_CreateDigitalBlock(int count, const ESL_ALPHABET *abc)
+{
+  int i;
+  ESL_SQ_BLOCK *block;
+  if ((block = sq_createblock(count, TRUE)) == NULL) return NULL;
+  
+  for (i = 0; i < count; ++i)
+    {
+      block->list[i].abc = abc;
+    }
+
+  return block;
+}
+
+#endif /* eslAUGMENT_ALPHABET */
+
+/*--------------- end of ESL_SQ object functions ----------------*/
+
+
+
+
+/*****************************************************************
+ *# 2. Digitized version of the <ESL_SQ> object. (Requires <alphabet>)
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_sq_CreateDigital()
+ * Synopsis:  Create a new, empty <ESL_SQ> in digital mode.
+ * Incept:    SRE, Tue Jan  9 16:42:35 2007 [Janelia]
+ *
+ * Purpose:   Same as <esl_sq_Create()>, except the returned <sq> is
+ *            configured for a digital sequence using internal
+ *            alphabet <abc>, rather than a text sequence. Creates an
+ *            empty digital <ESL_SQ> sequence object, with internal
+ *            fields allocated to reasonable initial sizes.
+ *            
+ * Args:      abc      - pointer to internal alphabet
+ * 
+ * Returns:   a pointer to the new <ESL_SQ>. Caller frees this with
+ *            <esl_sq_Destroy()>.
+ * 
+ * Throws:    <NULL> if an allocation fails.
+ *
+ * Xref:      STL11/124
+ */
+ESL_SQ *
+esl_sq_CreateDigital(const ESL_ALPHABET *abc)
+{
+  ESL_SQ *s;
+  if ((s = sq_create(TRUE)) == NULL) return NULL;
+  s->abc    = abc;
+  return s;
+}
+
+/* Function:  esl_sq_CreateDigitalFrom()
+ * Synopsis:  Create a new digital <ESL_SQ> from text info.
+ * Incept:    EPN, Fri Aug 24 13:38:56 2007
+ *
+ * Purpose:   Create a new <ESL_SQ> object from elemental data.
+ *            Same as <esl_sq_CreateFrom> except takes a digital <ESL_DSQ *dsq>
+ *            instead of a text <char *seq> as the sequence to copy.
+ *            
+ *            Makes copies of all data. Caller is still
+ *            responsible for memory of name, seq, etc.
+ *            
+ *            <ss> is an optional alphabetic secondary structure
+ *            annotation string, <0..n-1>. If provided, its length
+ *            must match the length of <seq>. (Note that although the
+ *            argument <ss> is provided as a standard <0..n-1> C
+ *            string, <ss> is stored internally as a <1..n> string in
+ *            a digital sequence object, so that both the digital
+ *            sequence and its alphabetic secondary structure
+ *            annotation are indexed the same.)
+ *            
+ *            The object is growable; you can use <esl_sq_Reuse()>
+ *            on it.
+ *
+ * Args:      abc     -  the digital alphabet
+ *            name    -  name of the sequence
+ *            dsq     -  digital sequence <1..L>
+ *            n       -  length of digitized sequence in residues (or -1 if unknown)
+ *            desc    -  optional: description line (or NULL)
+ *            acc     -  optional: accession (or NULL)
+ *            ss      -  optional: secondary structure annotation (or NULL)
+ *
+ * Returns:   a pointer to the new object. Free with
+ *            <esl_sq_Destroy()>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+ESL_SQ *
+esl_sq_CreateDigitalFrom(const ESL_ALPHABET *abc, const char *name, const ESL_DSQ *dsq, int64_t n,
+			 const char *desc, const char *acc, const char *ss)
+{
+  ESL_SQ *sq = NULL;
+  int     status;
+
+  if((sq = sq_create_from(name, desc, acc)) == NULL) goto ERROR;
+  sq->n = (n == -1) ? esl_abc_dsqlen(dsq) : n;
+  if ((status = esl_abc_dsqdup(dsq, sq->n, &(sq->dsq))) != eslOK) goto ERROR;
+
+  if (ss != NULL)
+    {
+      if (strlen(ss) != sq->n) ESL_XEXCEPTION(eslEINVAL, "ss, seq lengths mismatch");
+      ESL_ALLOC(sq->ss, sizeof(char) * (sq->n+2));
+      sq->ss[0] = '\0';
+      strcpy(sq->ss+1, ss);
+    }
+
+  /* We assume we've created a complete sequence; set the coord bookkeeping accordingly. */
+  sq->start  = 1;
+  sq->end    = n;
+  sq->C      = 0;
+  sq->W      = n;
+  sq->L      = n;
+
+  sq->salloc = sq->n+2;
+  sq->abc    = abc;
+  return sq;
+
+ ERROR:
+  esl_sq_Destroy(sq);
+  return NULL;
+}
+
+
+/* Function:  esl_sq_Digitize()
+ * Synopsis:  Convert an <ESL_SQ> to digital mode.
+ * Incept:    EPN, Mon Feb 12 11:09:06 2007
+ *
+ * Purpose:   Given a sequence <sq> in text mode, convert it to
+ *            digital mode, using alphabet <abc>.
+ *            
+ *            Internally, the <dsq> digital sequence field is filled,
+ *            the <seq> text alignment field is destroyed and free'd,
+ *            a copy of the alphabet pointer is kept in the sq's
+ *            <abc> reference.
+ *
+ * Args:      abc    - digital alphabet
+ *            sq     - sequence to digitize
+ *
+ * Returns:   <eslOK> on success.
+ *            Returns <eslEINVAL> if the sequence contains invalid characters
+ *            that can't be digitized. If this happens, the <sq> is returned
+ *            unaltered - left in text mode, with <seq> as it was. (This is
+ *            a normal error, because <sq->seq> may be user input that we 
+ *            haven't validated yet.)
+ *
+ * Throws:    <eslEMEM> on allocation failure; in this case, state of <sq> may be 
+ *            wedged, and it should only be destroyed, not used.
+ */
+int
+esl_sq_Digitize(const ESL_ALPHABET *abc, ESL_SQ *sq)
+{
+  int   x;        /* index for optional extra residue markups */
+  int status;
+
+  /* Contract checks */
+  if (sq->dsq   != NULL) return eslOK;
+  if (sq->seq   == NULL) ESL_EXCEPTION(eslEINVAL, "sq has no text sequence");
+
+  /* Validate before we convert, so we leave <seq> untouched if it's bad. */
+  if (esl_abc_ValidateSeq(abc, sq->seq, sq->n, NULL) != eslOK) return eslEINVAL;
+
+  /* Allocate dsq, ss properly; these are our last failure points. */
+  /* You can't just call Grow() here, because it would grow for old text mode, not new digital */
+  if (sq->salloc < sq->n+2) {	/* it's possible (though unlikely) for salloc to be 1 residue too small */
+    sq->salloc = sq->n+2;
+    if (sq->ss != NULL) {
+      void *tmp;
+      ESL_RALLOC(sq->ss, tmp, sizeof(char) * sq->salloc);
+    }
+    /* optional extra residue markups follow same convenctions as ss */
+    for (x = 0; x < sq->nxr; x++) 
+      if (sq->xr[x] != NULL) {
+	void *tmp;
+	ESL_RALLOC(sq->xr[x], tmp, sizeof(char) * sq->salloc);
+      }
+  }
+  ESL_ALLOC(sq->dsq, (sq->salloc) * sizeof(ESL_DSQ));
+
+  /* Now convert. */
+  if ((status = esl_abc_Digitize(abc, sq->seq, sq->dsq)) != eslOK) goto ERROR;
+  if (sq->ss != NULL) {
+    memmove(sq->ss+1, sq->ss, sq->n+1);
+    sq->ss[0] = '\0';
+  }
+  for (x = 0; x < sq->nxr; x++) 
+    if (sq->xr[x] != NULL) {
+      memmove(sq->xr[x]+1, sq->xr[x], sq->n+1);
+      sq->xr[x][0] = '\0';
+    }
+  
+  free(sq->seq);
+  sq->seq = NULL;
+  sq->abc = abc;
+  return eslOK;
+
+ ERROR:
+  if (sq->dsq != NULL) free(sq->dsq);
+  return status;
+}
+
+/* Function:  esl_sq_Textize()
+ * Synopsis:  Convert an <ESL_SQ> to text mode.
+ * Incept:    EPN, Mon Feb 12 11:15:06 2007
+ *
+ * Purpose:   Given a sequence <sq> in digital mode, convert it
+ *            to text mode.
+ *            
+ *            Internally, the <seq> text alignment field is filled, the
+ *            <dsq> digital alignment field is destroyed and free'd, the
+ *            sq's <abc> digital alphabet reference is nullified.
+ *            
+ * Args:      sq   - sequence object to convert to text
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            Throws <eslECORRUPT> if the digital sequence contains 
+ *            invalid codes.
+ */
+int
+esl_sq_Textize(ESL_SQ *sq)
+{
+  int   x;        /* index for optional extra residue markups */
+  int status;
+
+  /* Contract checks */
+  if (sq->seq  != NULL) return eslOK;
+  if (sq->dsq  == NULL) ESL_EXCEPTION(eslEINVAL, "sq has no digital sequence");
+  if (sq->abc  == NULL) ESL_EXCEPTION(eslEINVAL, "sq has no digital alphabet");
+
+  /* Allocate. salloc is guaranteed big enough, if it was big enough for digital. */
+  ESL_ALLOC(sq->seq, sq->salloc * sizeof(char));
+  
+  /* Convert. */
+  if ((status = esl_abc_Textize(sq->abc, sq->dsq, sq->n, sq->seq)) != eslOK) goto ERROR;
+  if (sq->ss != NULL) 
+    memmove(sq->ss, sq->ss+1, sq->n+1);	/* slide back to 0..n-1; +1 includes terminal \0 */
+  for (x = 0; x < sq->nxr; x++) 
+    if (sq->xr[x] != NULL) 
+      memmove(sq->xr[x], sq->xr[x]+1, sq->n+1);	/* slide back to 0..n-1; +1 includes terminal \0 */
+  
+  free(sq->dsq);
+  sq->dsq = NULL;
+  sq->abc = NULL;           /* nullify reference (caller still owns real abc) */
+  return eslOK;
+
+ ERROR:
+  if (sq->seq != NULL) free(sq->seq);
+  return status;
+}
+
+/* Function:  esl_sq_GuessAlphabet()
+ * Synopsis:  Guess alphabet type of a single sequence.
+ *
+ * Purpose:   Guess the alphabet type of biosequence <sq>, and store the
+ *            guess in <*ret_type>.
+ *            
+ *            All 26 letters are valid in the amino alphabet (even <O>
+ *            and <J> now), so the DNA alphabet is necessarily a subset.
+ *            Therefore most protein sequences can be identified
+ *            unambiguously (because they use letters that only occur
+ *            in amino acid sequence), but DNA sequences cannot be.
+ *            
+ *            The sequence must contain more than 10 residues, or it
+ *            is called <eslUNKNOWN>.
+ *
+ *            For details on the rules used to classify a residue
+ *            composition, see <esl_abc_GuessAlphabet()>. The rules
+ *            are good but not perfect. We err on the conservative
+ *            side, calling <eslUNKNOWN> rather than making
+ *            classification errors. However, errors are possible; an
+ *            example is a protein sequence <ACGTACGTACGT...>
+ *            ("ala-cys-gly-thr..."), which will be called <eslDNA>,
+ *            because it contains all and only DNA residues.
+ *
+ *            The routine is tested on large sequence databases to
+ *            make sure there are zero false positive classifications
+ *            on known sequences. See <esl_abc_GuessAlphabet()> for
+ *            details of these tests, and crossreferences.
+ *
+ * Returns:   <eslOK> on success, and <*ret_type> is set to
+ *            <eslAMINO>, <eslRNA>, or <eslDNA>.
+ *
+ *            Returns <eslENOALPHABET> if unable to determine the
+ *            alphabet type; in this case, <*ret_type> is set to 
+ *            <eslUNKNOWN>.
+ *
+ * Xref:      See notes on esl_alphabet.c::esl_abc_GuessAlphabet()
+ */
+int
+esl_sq_GuessAlphabet(ESL_SQ *sq, int *ret_type)
+{
+  int64_t ct[26];
+  int     x;
+  int64_t i;
+  int64_t n = 0;
+
+  for (x = 0; x < 26; x++) ct[x] = 0;
+  for (i = 0; i < sq->n; i++) {
+    x = toupper(sq->seq[i]) - 'A';
+    if (x < 0 || x > 26) continue;
+    ct[x]++;
+    n++;
+    if (n > 10000) break;	/* we oughta know by now! */
+  }
+  return esl_abc_GuessAlphabet(ct, ret_type);
+}
+
+
+/* Function:  esl_sq_ConvertDegen2X()
+ * Synopsis:  Convert all degenerate residues to X/N
+ * Incept:    SRE, Tue Apr 20 08:52:54 2010 [Janelia]
+ *
+ * Purpose:   Convert all the degenerate residue codes in digital
+ *            sequence <sq> to the code for "unknown residue" (maximum
+ *            degeneracy); for example, X for protein, N for nucleic
+ *            acid. 
+ *            
+ *            This is handy when you need to be compatible with
+ *            software that can't deal with unusual residue codes.
+ *            For example, WU-BLAST can't deal with O (pyrrolysine)
+ *            codes.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <sq> isn't in digital mode. 
+ *            (We only know how to interpret the alphabet
+ *            in digital mode. In text mode, letters are
+ *            just letters.)
+ */
+int
+esl_sq_ConvertDegen2X(ESL_SQ *sq)
+{
+  if (! esl_sq_IsDigital(sq)) ESL_EXCEPTION(eslEINVAL, "esl_sq_ConvertDegen2X() only works on digital sequences");
+  return esl_abc_ConvertDegen2X(sq->abc, sq->dsq);
+}
+
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*---------- end of digitized ESL_SQ object functions -----------*/
+
+
+
+/*****************************************************************
+ *# 3. Other functions that operate on sequences.
+ *****************************************************************/
+
+/* Function:  esl_sq_SetName()
+ * Synopsis:  Set the name of a sequence.
+ * Incept:    SRE, Thu Jan 11 08:42:53 2007 [Janelia]
+ *
+ * Purpose:   Set the name of the sequence <sq> to <name>, reallocating
+ *            as needed. For example, <esl_sq_SetName(sq, "random")>.
+ * 
+ *            A copy of <name> is made, so if caller had <name> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      STL11/125
+ */
+int
+esl_sq_SetName(ESL_SQ *sq, const char *name)
+{
+  int   n;
+  void *tmp;
+  int   status;
+
+  if (name == NULL) { sq->name[0] = '\0'; return eslOK; }
+
+  n = strlen(name);
+  if (n >= sq->nalloc) 
+    {
+      ESL_RALLOC(sq->name, tmp, sizeof(char) * (n+1)); 
+      sq->nalloc = n+1;
+    }
+  strcpy(sq->name, name);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_sq_SetAccession()
+ * Synopsis:  Set the accession field in a sequence.
+ * Incept:    SRE, Fri Jan 18 09:48:54 2008 [Westchester airport]
+ *
+ * Purpose:   Set the accession of the sequence <sq> to <acc>, reallocating
+ *            as needed. For example, <esl_sq_SetAccession(sq, "ACC12356")>.
+ * 
+ *            A copy of <acc> is made, so if caller had <acc> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      STL11/125
+ */
+int
+esl_sq_SetAccession(ESL_SQ *sq, const char *acc)
+{
+  int     n;
+  void   *tmp;
+  int     status;
+
+  if (acc == NULL) { sq->acc[0] = '\0'; return eslOK; }
+
+  n = strlen(acc);
+  if (n >= sq->aalloc)
+    {
+      ESL_RALLOC(sq->acc, tmp, sizeof(char) * (n+1)); 
+      sq->aalloc = n+1;
+    }
+  strcpy(sq->acc, acc);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_sq_SetDesc()
+ * Synopsis:  Set the description field in a sequence.
+ * Incept:    SRE, Fri Jan 18 09:46:14 2008 [Westchester airport]
+ *
+ * Purpose:   Set the description of the sequence <sq> to <desc>, reallocating
+ *            as needed. 
+ *            For example, <esl_sq_SetDesc(sq, "this is a random sequence")>.
+ * 
+ *            A copy of <desc> is made, so if caller had <desc> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      STL11/125
+ */
+int
+esl_sq_SetDesc(ESL_SQ *sq, const char *desc)
+{
+  int     n;
+  void   *tmp;
+  int     status;
+
+  if (desc == NULL) { sq->desc[0] = '\0'; return eslOK; }
+
+  n = strlen(desc);
+  if (n >= sq->dalloc)
+    {
+      ESL_RALLOC(sq->desc, tmp, sizeof(char) * (n+1)); 
+      sq->dalloc = n+1;
+    }
+  strcpy(sq->desc, desc);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_sq_SetSource()
+ * Synopsis:  Set the source name field in a sequence.
+ * Incept:    SRE, Wed May  7 16:17:56 2008 [Janelia]
+ *
+ * Purpose:   Set the source of the sequence <sq> to <source>, reallocating
+ *            as needed. For example, <esl_sq_SetSource(sq, "X123456")>.
+ * 
+ *            A copy of <source> is made, so if caller had <source> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      STL11/125
+ */
+int
+esl_sq_SetSource(ESL_SQ *sq, const char *source)
+{
+  int     n;
+  void   *tmp;
+  int     status;
+
+  if (source == NULL) { sq->source[0] = '\0'; return eslOK; }
+
+  n = strlen(source);
+  if (n >= sq->srcalloc)
+    {
+      ESL_RALLOC(sq->source, tmp, sizeof(char) * (n+1)); 
+      sq->srcalloc = n+1;
+    }
+  strcpy(sq->source, source);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_sq_FormatName()
+ * Synopsis:  Format a name of a sequence, printf()-style.
+ * Incept:    SRE, Fri Sep 11 10:59:01 2009 [Janelia]
+ *
+ * Purpose:   Format the name of the sequence <sq> using
+ *            <printf()>-style format string <name> and corresponding
+ *            <printf()>-style arguments, reallocating as
+ *            needed.
+ *            For example, <esl_sq_FormatName(sq, "random%d", i)>.
+ * 
+ *            A copy of <name> is made, so if caller had <name> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sq_FormatName(ESL_SQ *sq, const char *name, ...)
+{
+  va_list argp;
+  va_list argp2;
+  int   n;
+  void *tmp;
+  int   status;
+
+  if (name == NULL) { sq->name[0] = '\0'; return eslOK; }
+
+  va_start(argp, name);
+  va_copy(argp2, argp);
+  if ((n = vsnprintf(sq->name, sq->nalloc, name, argp)) >= sq->nalloc)
+    {
+      ESL_RALLOC(sq->name, tmp, sizeof(char) * (n+1)); 
+      sq->nalloc = n+1;
+      vsnprintf(sq->name, sq->nalloc, name, argp2);
+    }
+  va_end(argp);
+  va_end(argp2);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_sq_FormatAccession()
+ * Synopsis:  Format the accession field in a sequence, printf()-style.
+ * Incept:    SRE, Fri Sep 11 11:00:37 2009 [Janelia]
+ *
+ * Purpose:   Format the accession of the sequence <sq> using <printf()>-style 
+ *            format string <acc> and corresponding  <printf()>-style arguments,
+ *            reallocating as needed. 
+ *            For example, <esl_sq_FormatAccession(sq, "ACC%06d", i)>.
+ * 
+ *            A copy of <acc> is made, so if caller had <acc> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sq_FormatAccession(ESL_SQ *sq, const char *acc, ...)
+{
+  va_list argp, argp2;
+  int     n;
+  void   *tmp;
+  int     status;
+
+  if (acc == NULL) { sq->acc[0] = '\0'; return eslOK; }
+
+  va_start(argp, acc);
+  va_copy(argp2, argp);
+  if ((n = vsnprintf(sq->acc, sq->aalloc, acc, argp)) >= sq->aalloc)
+    {
+      ESL_RALLOC(sq->acc, tmp, sizeof(char) * (n+1)); 
+      sq->aalloc = n+1;
+      vsnprintf(sq->acc, sq->aalloc, acc, argp2);
+    }
+  va_end(argp);
+  va_end(argp2);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_sq_FormatDesc()
+ * Synopsis:  Format the description field in a sequence, printf()-style.
+ * Incept:    SRE, Fri Sep 11 11:02:11 2009 [Janelia]
+ *
+ * Purpose:   Format the description of the sequence <sq> using <printf()>-style 
+ *            format string <desc> and corresponding  <printf()>-style arguments,
+ *            reallocating as needed. 
+ *            For example, <esl_sq_FormatDesc(sq, "random sequence %d", i)>.
+ * 
+ *            A copy of <desc> is made, so if caller had <desc> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sq_FormatDesc(ESL_SQ *sq, const char *desc, ...)
+{
+  va_list argp, argp2;
+  int     n;
+  void   *tmp;
+  int     status;
+
+  if (desc == NULL) { sq->desc[0] = '\0'; return eslOK; }
+
+  va_start(argp, desc);
+  va_copy(argp2, argp);
+  if ((n = vsnprintf(sq->desc, sq->dalloc, desc, argp)) >= sq->dalloc)
+    {
+      ESL_RALLOC(sq->desc, tmp, sizeof(char) * (n+1)); 
+      sq->dalloc = n+1;
+      vsnprintf(sq->desc, sq->dalloc, desc, argp2);
+    }
+  va_end(argp);  
+  va_end(argp2);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_sq_FormatSource()
+ * Synopsis:  Format the source name field in a sequence, printf()-style.
+ * Incept:    SRE, Fri Sep 11 10:55:10 2009 [Janelia]
+ *
+ * Purpose:   Format the source of the sequence <sq> using <printf()>-style 
+ *            format string <source> and corresponding  <printf()>-style arguments,
+ *            reallocating as needed. 
+ *            For example, <esl_sq_FormatSource(sq, "source %d", i)>.
+ * 
+ *            A copy of <source> is made, so if caller had <source> allocated, 
+ *            it is still responsible for freeing it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sq_FormatSource(ESL_SQ *sq, const char *source, ...)
+{
+  va_list argp, argp2;
+  int     n;
+  void   *tmp;
+  int     status;
+
+  if (source == NULL) { sq->source[0] = '\0'; return eslOK; }
+
+  va_start(argp, source);
+  va_copy(argp2, argp);
+  if ((n = vsnprintf(sq->source, sq->srcalloc, source, argp)) >= sq->srcalloc)
+    {
+      ESL_RALLOC(sq->source, tmp, sizeof(char) * (n+1)); 
+      sq->srcalloc = n+1;
+      vsnprintf(sq->source, sq->srcalloc, source, argp2);
+    }
+  va_end(argp);  
+  va_end(argp2);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_sq_AppendDesc()
+ * Synopsis:  Append a new line to a growing multiline description.
+ * Incept:    SRE, Thu May 22 15:33:43 2008 [Janelia]
+ *
+ * Purpose:   Append line <desc> to the description annotation line
+ *            in <sq>. 
+ *            
+ *            The annotation line <sq->desc> is a single line; it may
+ *            not contain \verb+\n+ newlines. Caller is responsible
+ *            for making sure <desc> does not terminate in \verb+\n+.
+ *            If <sq->desc> already contains a description
+ *            line (presumably because we're reading from a file format
+ *            that's split the description across multiple lines), 
+ *            append a space before adding this next line <desc>.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_sq_AppendDesc(ESL_SQ *sq, const char *desc)
+{
+  void *tmp;
+  int   dlen   = (sq->desc == NULL ? 0 : strlen(sq->desc));
+  int   newlen = (desc     == NULL ? 0 : strlen(desc));
+  int   status;
+  
+  if (dlen + newlen + 1 >= sq->dalloc) { /* +1 for appended space */
+    ESL_RALLOC(sq->desc, tmp, sizeof(char) * (newlen+dlen+eslSQ_DESCCHUNK));
+    sq->dalloc = newlen+dlen+eslSQ_DESCCHUNK;
+  }
+
+  if (dlen > 0) { sq->desc[dlen] = ' '; dlen++; } 
+  strcpy(sq->desc + dlen, desc);
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+
+
+/* Function:  esl_sq_SetCoordComplete()
+ * Synopsis:  Sets coords in a complete sequence.
+ * Incept:    SRE, Tue May 13 09:25:33 2008 [Janelia]
+ *
+ * Purpose:   Declare that <sq> contains a complete sequence of length
+ *            <L>; set the coordinate and length information in <sq>
+ *            accordingly. This is used in building new sequence
+ *            objects.
+ *            
+ *            <sq->seq> or <sq->dsq> must contain a sequence of length
+ *            <L>.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sq_SetCoordComplete(ESL_SQ *sq, int64_t L)
+{
+  sq->start = 1;
+  sq->end   = L;
+  sq->C     = 0;
+  sq->W     = L;
+  sq->L     = L;
+  sq->n     = L;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_sq_CAddResidue()
+ * Synopsis:  Add one residue (or terminal NUL) to a text seq.
+ * Incept:    SRE, Wed Jan 10 07:58:20 2007 [Janelia]
+ *
+ * Purpose:   Add one residue <c> onto a growing text mode sequence <sq>,
+ *            and deal with any necessary reallocation.
+ *
+ *            The sequence in <sq> is not <NUL>-terminated. To 
+ *            finish and NUL-terminate <sq>, call 
+ *            <esl_sq_CAddResidue(sq, 0)>.
+ *            
+ * Note:      Not the most efficient routine, but convenient in some
+ *            routines. Parsers (where speed is at a premium) typically
+ *            use an addseq() kind of function instead.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on re-allocation failure.
+ *
+ * Xref:      STL11/125.
+ */
+int
+esl_sq_CAddResidue(ESL_SQ *sq, char c)
+{
+  if (esl_sq_Grow(sq, NULL) != eslOK) return eslEMEM;
+  sq->seq[sq->n] = c;
+  if (c != '\0') sq->n++;
+  return eslOK;
+}
+
+#ifdef eslAUGMENT_ALPHABET
+/* Function:  esl_sq_XAddResidue()
+ * Synopsis:  Add one residue (or terminal sentinel) to digital seq.
+ * Incept:    SRE, Wed Jan 10 08:23:23 2007 [Janelia]
+ *
+ * Purpose:   Like <esl_sq_CAddResidue()>, but for digital mode
+ *            sequence: add a digital residue <x> onto a growing
+ *            digital sequence <sq>. 
+ *            
+ *            The digital sequence in <sq> must be explicitly
+ *            terminated when you're done adding to it; call
+ *            <esl_sq_XAddResidue(sq, eslDSQ_SENTINEL)>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on re-allocation failure.
+ *
+ * Xref:      STL11/125.
+ */
+int
+esl_sq_XAddResidue(ESL_SQ *sq, ESL_DSQ x)
+{
+  if (esl_sq_Grow(sq, NULL) != eslOK) return eslEMEM;
+  sq->dsq[sq->n+1] = x;
+  if (x != eslDSQ_SENTINEL) sq->n++;
+  return eslOK;
+}
+#endif /* eslAUGMENT_ALPHABET */
+
+
+/* Function:  esl_sq_ReverseComplement()
+ * Synopsis:  Reverse complement a sequence.
+ * Incept:    SRE, Thu May 15 20:52:13 2008 [Casa de Gatos]
+ *
+ * Purpose:   Reverse complement the sequence <sq>, in place.
+ *            
+ *            If <sq> is in text mode, upper/lower case is preserved,
+ *            and the DNA alphabet is used (<Aa> is complemented to
+ *            <Tt>, not <Uu>). If a non-nucleic character is seen, it
+ *            is reverse complemented to an N, and the return status
+ *            is <eslEINVAL> (but the whole sequence is still reverse
+ *            complemented).
+ *            
+ *            If <sq> is in digital mode, the appropriate alphabet
+ *            (DNA vs. RNA) is used. If the alphabet has no defined
+ *            complement (such as amino acids), an <eslEINCOMPAT>
+ *            error is thrown, and the sequence isn't changed at all.
+ *            
+ *            Gap and missing data characters, if any, are preserved
+ *            (in text mode, <._-> are treated as gaps, and <~> as
+ *            missing data). Degenerate nucleic acid IUPAC characters
+ *            are complemented appropriately.
+ *            
+ *            The <start/end> coords in <sq> are swapped. (Note that
+ *            in the unusual case of sequences of length 1,
+ *            <start=end> and we can't unambiguously tell if a seq is
+ *            in the reverse complement direction or not; this is a
+ *            minor flaw in Easel's current coordinate handling.)
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            Returns <eslEINVAL> if the <sq> is in text mode, and we
+ *            see a character that doesn't belong to the IUPAC DNA/RNA
+ *            alphabet; in this case, the <sq> is still reverse
+ *            complemented using the DNA alphabet, with <N> for any
+ *            non-nucleic residues.
+ *
+ * Throws:    <eslEINCOMPAT> if the <sq> is in digital mode, but the
+ *            digital alphabet has no defined complement.
+ */
+int
+esl_sq_ReverseComplement(ESL_SQ *sq)
+{
+  int64_t i;
+  int     x;               /* index for optional extra residue markups */
+  int     status = eslOK;
+
+  if (sq->seq != NULL)
+    {
+      /* first, complement the sequence */
+      for (i = 0; i < sq->n; i++)
+	switch (sq->seq[i]) {
+	case 'A': sq->seq[i] = 'T'; break;
+	case 'C': sq->seq[i] = 'G'; break;
+	case 'G': sq->seq[i] = 'C'; break;
+	case 'T': sq->seq[i] = 'A'; break;
+	case 'U': sq->seq[i] = 'A'; break;
+	case 'R': sq->seq[i] = 'Y'; break;
+	case 'Y': sq->seq[i] = 'R'; break;
+	case 'M': sq->seq[i] = 'K'; break;
+	case 'K': sq->seq[i] = 'M'; break;
+	case 'S': sq->seq[i] = 'S'; break;
+	case 'W': sq->seq[i] = 'W'; break;
+	case 'H': sq->seq[i] = 'D'; break;
+	case 'B': sq->seq[i] = 'V'; break;
+	case 'V': sq->seq[i] = 'B'; break;
+	case 'D': sq->seq[i] = 'H'; break;
+	case 'N': sq->seq[i] = 'N'; break;
+	case 'X': sq->seq[i] = 'X'; break;
+	case 'a': sq->seq[i] = 't'; break;
+	case 'c': sq->seq[i] = 'g'; break;
+	case 'g': sq->seq[i] = 'c'; break;
+	case 't': sq->seq[i] = 'a'; break;
+	case 'u': sq->seq[i] = 'a'; break;
+	case 'r': sq->seq[i] = 'y'; break;
+	case 'y': sq->seq[i] = 'r'; break;
+	case 'm': sq->seq[i] = 'k'; break;
+	case 'k': sq->seq[i] = 'm'; break;
+	case 's': sq->seq[i] = 's'; break;
+	case 'w': sq->seq[i] = 'w'; break;
+	case 'h': sq->seq[i] = 'd'; break;
+	case 'b': sq->seq[i] = 'v'; break;
+	case 'v': sq->seq[i] = 'b'; break;
+	case 'd': sq->seq[i] = 'h'; break;
+	case 'n': sq->seq[i] = 'n'; break;
+	case 'x': sq->seq[i] = 'x'; break;
+	case '.': sq->seq[i] = '.'; break;
+	case '_': sq->seq[i] = '_'; break;
+	case '-': sq->seq[i] = '-'; break;
+	case '~': sq->seq[i] = '~'; break;
+	default:  sq->seq[i] = 'N'; status = eslEINVAL; break;
+	}
+
+      /* then, reverse it in place */
+      for (i = 0; i < sq->n / 2; i++)
+	ESL_SWAP(sq->seq[i], sq->seq[sq->n-i-1], char);
+    }
+#ifdef eslAUGMENT_ALPHABET
+  else
+    {
+      if (sq->abc->complement == NULL) 
+	ESL_EXCEPTION(eslEINCOMPAT, "tried to take reverse complement of a non-nucleic sequence");
+
+      ESL_DSQ x;
+      for (i = 1; i <= sq->n/2; i++)
+	{ 
+	  x =                  sq->abc->complement[sq->dsq[sq->n-i+1]];
+	  sq->dsq[sq->n-i+1] = sq->abc->complement[sq->dsq[i]];
+	  sq->dsq[i]         = x;
+	}
+      if (sq->n%2) sq->dsq[i] = sq->abc->complement[sq->dsq[i]];
+    }
+#endif /*eslAUGMENT_ALPHABET*/
+
+  ESL_SWAP(sq->start, sq->end, int);
+  /* revcomp invalidates any secondary structure annotation */
+  if (sq->ss != NULL) { free(sq->ss); sq->ss = NULL; }
+  /* revcomp invalidates any extra residue markup */
+  if (sq->nxr > 0) {
+    for (x = 0; x < sq->nxr; x++) 
+      if (sq->xr[x] != NULL) { free(sq->xr_tag[x]); free(sq->xr[x]); sq->xr_tag[x] = NULL; sq->xr[x] = NULL; }  
+    free(sq->xr_tag); sq->xr_tag = NULL;
+    free(sq->xr);     sq->xr     = NULL;
+  }   
+  
+  return status;
+}
+
+/* Function:  esl_sq_Checksum()
+ * Synopsis:  Calculate a 32-bit checksum for a sequence.
+ * Incept:    SRE, Tue Aug 25 14:32:17 2009 [Janelia]
+ *
+ * Purpose:   Calculate a 32-bit checksum for <sq>.
+ * 
+ *            Only the sequence data are considered, not name or other
+ *            annotation. For text mode sequences, the checksum is
+ *            case sensitive.  The checksum is also sensitive to
+ *            whether the sequence is text or digital mode; the same
+ *            sequence in will yield different checksums in digital
+ *            vs. text mode.
+ *            
+ * Returns:   <eslOK> on success; the checksum is in <*ret_checksum>.
+ */
+int
+esl_sq_Checksum(const ESL_SQ *sq, uint32_t *ret_checksum)
+{
+  uint32_t val = 0;
+  uint64_t pos;
+
+  if (sq->seq != NULL)
+    {
+      for (pos = 0; pos < sq->n; pos++)
+	{
+	  val += sq->seq[pos];
+	  val += (val << 10);
+	  val ^= (val >>  6);
+	}
+    }
+#ifdef eslAUGMENT_ALPHABET
+  else
+    {
+      for (pos = 1; pos <= sq->n; pos++)
+	{
+	  val += sq->dsq[pos];
+	  val += (val << 10);
+	  val ^= (val >>  6);
+	}
+    }
+#endif
+
+  val += (val <<  3);
+  val ^= (val >> 11);
+  val += (val << 15);
+
+  *ret_checksum = val;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_sq_CountResidues()
+ * Synopsis:  compute character counts
+ *
+ * Purpose:   Given an ESL\_SQ <sq>, compute counts of all observed
+ *            residues in the range between <start> and <start>+<L>-1. Note
+ *            that a text-mode sequence starts at 0, while a digital-mode
+ *            sequence starts at 1. Will count degeneracies as partial
+ *            observations of the K canonical residues. Gaps, missing data,
+ *            and not-a-residue characters will be ignored (so $\sum_x f[x]$ is
+ *            not necessarily == L!). The array <*f> needs to be allocated for
+ *            sq->abc->K values.
+ *
+ *            The vector is not zeroed out, allowing counts to be gathered from
+ *            a collection of ESL\_SQs.
+ *
+ * Returns:   <eslOK> on success, <eslERANGE> when start or L are
+ *            outside the range of the sequence.
+ */
+int
+esl_sq_CountResidues(const ESL_SQ *sq, int start, int L, float *f)
+{
+  int i;
+
+  if (sq->seq != NULL) {   /* text */
+    if (start<0 || start+L>sq->n)
+      return eslERANGE; //range out of sequence bounds
+
+    for (i=start ; i < start+L; i++) {
+      if(! esl_abc_CIsGap(sq->abc, sq->seq[i])) // ignore gap characters
+        esl_abc_FCount(sq->abc, f, sq->abc->inmap[(int) sq->seq[i]], 1.);
+    }
+#ifdef eslAUGMENT_ALPHABET
+  } else  { /* digital sequence; 0 is a sentinel       */
+    if (start<1 || start+L>sq->n+1)
+      return eslERANGE; //range out of sequence bounds
+
+    for (i=start ; i < start+L; i++) {
+      if(! esl_abc_XIsGap(sq->abc, sq->dsq[i])) // ignore gap characters
+        esl_abc_FCount(sq->abc, f, sq->dsq[i], 1.);
+    }
+#endif
+  }
+
+  return eslOK;
+}
+
+
+
+/*----------------------  end, other functions -------------------*/
+
+
+
+/*****************************************************************
+ *# 4. Getting single sequences from MSAs  (requires <msa>)
+ *****************************************************************/
+#ifdef eslAUGMENT_MSA
+
+/* Function:  esl_sq_GetFromMSA()
+ * Synopsis:  Get a single sequence from an MSA.
+ * Incept:    SRE, Tue Apr  1 11:13:28 2008 [Janelia]
+ *
+ * Purpose:   Retrieve sequence number <which> (<0..msa->nseq-1>) from
+ *            <msa> and store it in the <sq> that the caller allocated
+ *            and provided. This version (as opposed to
+ *            <esl_sq_FetchFromMSA()>, below) allows caller to reuse
+ *            the same <sq> container for retrieving sequences one at
+ *            a time from an MSA.
+ *            
+ *            The retrieved sequence <sq> must be in the same mode as
+ *            the source <msa>, text versus digital.
+ * 
+ *            The retrieved sequence is dealigned. For a text mode
+ *            sequence, gap characters to be removed are assumed to be
+ *            <-_.>. For a digital mode sequence, gap characters are
+ *            defined by the digital alphabet.
+ *            
+ *            The <sq->source> field is set to the name of the MSA, if
+ *            an MSA name is present.
+ *
+ * Returns:   <eslOK> on success, and the retrieved sequence is in <sq>.
+ *            Some of the internals of <sq> may have been reallocated if
+ *            necessary. 
+ *            
+ *            Returns <eslEOD> if there is no sequence number <which>.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslEINVAL> if <sq> is in a different text/digital mode than
+ *            <msa>.
+ */
+int
+esl_sq_GetFromMSA(const ESL_MSA *msa, int which, ESL_SQ *sq)
+{
+  char   *gapchars = "-_.~";	/* hardcoded for now */
+  char   *acc      = NULL;
+  char   *desc     = NULL;
+  char   *ss       = NULL;
+  char  **xr_tag   = NULL;     /* extra residue markup tags                */
+  char  **xr       = NULL;     /* extra residue markup                     */
+  int     x;                   /* index for optional extra residue markups */
+  int     status;
+
+  if (which >= msa->nseq || which < 0) return eslEOD;
+  if ( (msa->flags & eslMSA_DIGITAL) && sq->dsq == NULL) ESL_XEXCEPTION(eslEINVAL, "msa is digital, sq is not");
+  if (!(msa->flags & eslMSA_DIGITAL) && sq->seq == NULL) ESL_XEXCEPTION(eslEINVAL, "msa is text, sq is not");
+
+  /* watch out for completely missing optional msa annotations;
+   * msa->sqacc[which] could segfault if msa->sqacc itself is NULL
+   */
+  if (msa->sqacc  != NULL) acc  = msa->sqacc[which]; 
+  if (msa->sqdesc != NULL) desc = msa->sqdesc[which];
+  if (msa->ss     != NULL) ss   = msa->ss[which]; 
+
+  /* a markup for unparsed #=GR lines is converted to a sequence extra residue markup */
+  ESL_ALLOC(xr_tag, sizeof(char *) * msa->ngr);
+  ESL_ALLOC(xr,     sizeof(char *) * msa->ngr);
+
+  for (x = 0; x < msa->ngr; x ++) {
+    xr_tag[x] = NULL;
+    xr[x]     = NULL;
+    if (msa->gr[x][which] != NULL) {
+      xr[sq->nxr] = msa->gr[x][which];
+      if (msa->gr_tag[x] != NULL) xr_tag[sq->nxr] = msa->gr_tag[x]; else goto ERROR; 
+      sq->nxr ++;
+    } 
+  }
+  if (sq->nxr > 0) {
+    ESL_ALLOC(sq->xr_tag, sizeof(char *) * sq->nxr); for (x = 0; x < sq->nxr; x ++) sq->xr_tag[x] = NULL;
+    ESL_ALLOC(sq->xr,     sizeof(char *) * sq->nxr); for (x = 0; x < sq->nxr; x ++) sq->xr[x]     = NULL;
+  }
+
+  if ((status = esl_sq_SetName     (sq, msa->sqname[which])) != eslOK) goto ERROR;
+  if ((status = esl_sq_SetAccession(sq, acc))                != eslOK) goto ERROR;
+  if ((status = esl_sq_SetDesc     (sq, desc))               != eslOK) goto ERROR;
+  if ((status = esl_sq_SetSource   (sq, msa->name))          != eslOK) goto ERROR;
+  if ((status = esl_sq_GrowTo      (sq, msa->alen))          != eslOK) goto ERROR; /* can't be more than alen residues */
+ 
+  if (! (msa->flags & eslMSA_DIGITAL)) /* text mode to text mode */
+    {
+      strcpy(sq->seq, msa->aseq[which]);
+      if (ss != NULL) { 
+	if (sq->ss == NULL) esl_strdup(ss, -1, &(sq->ss));
+	else                strcpy(sq->ss, ss);
+	esl_strdealign(sq->ss, sq->seq, gapchars, NULL);
+      }
+      for (x = 0; x < sq->nxr; x ++) {
+	esl_strdup(xr[x],     -1, &(sq->xr[x]));
+	esl_strdup(xr_tag[x], -1, &(sq->xr_tag[x]));
+	esl_strdealign(sq->xr[x], sq->seq, gapchars, NULL);
+      }
+      esl_strdealign(sq->seq, sq->seq, gapchars, &(sq->n)); /* sq->n gets set as side effect */
+     }
+#ifdef eslAUGMENT_ALPHABET
+  else
+    {
+      esl_abc_dsqcpy(msa->ax[which], msa->alen, sq->dsq);
+      if (ss != NULL) { 
+	if (sq->ss == NULL) { /* even in digital mode, msa->ss is [0.alen-1] */
+	  ESL_ALLOC(sq->ss, sizeof(char) * (strlen(ss)+2));
+	  sq->ss[0] = '\0'; 
+	  strcpy(sq->ss+1, ss);
+	}
+	else  { strcpy(sq->ss+1, ss); sq->ss[0] = '\0'; }
+	esl_abc_CDealign(sq->abc, sq->ss+1, sq->dsq, NULL);
+      }
+      for (x = 0; x < sq->nxr; x ++) { /* even in digital mode, msa->gr are [0.alen-1] */
+	ESL_ALLOC(sq->xr[x], sizeof(char) * (strlen(xr[x])+2));
+	sq->xr[x][0] = '\0'; 
+	strcpy(sq->xr[x]+1, xr[x]);
+	esl_abc_CDealign(sq->abc, sq->xr[x]+1, sq->dsq, NULL);	
+	esl_strdup(xr_tag[x], -1, &(sq->xr_tag[x]));
+      }
+      esl_abc_XDealign(sq->abc, sq->dsq,  sq->dsq, &(sq->n)); /* sq->n gets set as side effect */
+  }
+#endif /*eslAUGMENT_ALPHABET*/
+  
+  /* This is a complete sequence; set bookkeeping accordingly */
+  sq->start  = 1;
+  sq->end    = sq->n;
+  sq->C      = 0;
+  sq->W      = sq->n;
+  sq->L      = sq->n;
+
+  sq->roff = -1;
+  sq->doff = -1;
+  sq->hoff = -1;
+  sq->eoff = -1;
+  
+  if (msa->ngr > 0) {
+    free(xr_tag); free(xr);    
+  }
+  return eslOK;
+
+ ERROR:
+  if (msa->ngr > 0) {
+      if (xr_tag != NULL) free(xr_tag); if (xr != NULL) free(xr);
+  }  
+  return status;
+}
+
+
+/* Function:  esl_sq_FetchFromMSA()
+ * Synopsis:  Fetch a single sequence from an MSA.
+ * Incept:    SRE, Sun Mar 30 13:39:06 2008 [Janelia]
+ *
+ * Purpose:   Retrieve sequence number <which> (<0..msa->nseq-1>) from <msa>, in a newly
+ *            allocated sequence object; return a pointer to this object
+ *            in <ret_sq>.
+ * 
+ *            The retrieved sequence is in the same mode as the source
+ *            <msa>, text versus digital.
+ * 
+ *            The retrieved sequence is dealigned. For a text mode
+ *            sequence, gap characters to be removed are assumed to be
+ *            <-_.~>. For a digital mode sequence, gap characters are
+ *            defined by the digital alphabet.
+ *
+ * Returns:   <eslOK> on success, and a pointer to the newly fetched
+ *            sequence is in <*ret_sq>, which caller is responsible for freeing.
+ *            
+ *            Returns <eslEOD> if there is no sequence number <which>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sq_FetchFromMSA(const ESL_MSA *msa, int which, ESL_SQ **ret_sq)
+{
+  ESL_SQ *sq       = NULL;
+  char   *acc      = NULL;
+  char   *desc     = NULL;
+  char   *ss       = NULL;
+  char   *gapchars = "-_.~";   /* hardcoded for now; only affects text mode, not digital */
+  char  **xr_tag   = NULL;     /* extra residue markup tags                */
+  char  **xr       = NULL;     /* extra residue markup                     */
+  int     nxr = 0;             /* number of extra residue markups          */
+  int     x;                   /* index for optional extra residue markups */
+  int     status;
+
+  if (which >= msa->nseq || which < 0) return eslEOD;
+
+  /* watch out for optional msa annotations being totally NULL */
+  if (msa->sqacc  != NULL) acc  = msa->sqacc[which]; 
+  if (msa->sqdesc != NULL) desc = msa->sqdesc[which];
+  if (msa->ss     != NULL) ss   = msa->ss[which]; 
+
+  /* a markup for unparsed #=GR lines is converted to a sequence extra residue markup */
+  if (msa->ngr > 0) {
+    ESL_ALLOC(xr_tag, sizeof(char *) * msa->ngr);
+    ESL_ALLOC(xr,     sizeof(char *) * msa->ngr);    
+    for (x = 0; x < msa->ngr; x ++) {
+      xr_tag[x] = NULL;
+      xr[x]     = NULL;
+      if (msa->gr[x][which] != NULL) {
+	xr[nxr] = msa->gr[x][which];
+	if (msa->gr_tag[x] != NULL) xr_tag[nxr] = msa->gr_tag[x]; else goto ERROR; 
+	nxr ++;
+      } 
+    }
+  }
+
+  if (! (msa->flags & eslMSA_DIGITAL)) /* text mode MSA to text mode sequence */
+    {
+      if ((sq = esl_sq_CreateFrom(msa->sqname[which], msa->aseq[which], desc, acc, ss)) == NULL) goto ERROR;
+      if (sq->ss != NULL) esl_strdealign(sq->ss,  sq->seq, gapchars, NULL);
+
+      if (nxr > 0) {
+	sq->nxr = nxr;
+	ESL_ALLOC(sq->xr_tag, sizeof(char *) * sq->nxr); for (x = 0; x < sq->nxr; x ++) sq->xr_tag[x] = NULL;
+	ESL_ALLOC(sq->xr,     sizeof(char *) * sq->nxr); for (x = 0; x < sq->nxr; x ++) sq->xr[x] = NULL;
+	for (x = 0; x < sq->nxr; x ++) {
+	  if (xr[x] != NULL) {
+	    if (sq->xr[x] == NULL) esl_strdup(xr[x], sq->n, &(sq->xr[x]));
+	    else                   strcpy(sq->xr[x], xr[x]);
+	    esl_strdealign(sq->xr[x],  sq->seq, gapchars, NULL);
+	  }
+	  if (xr_tag[x] != NULL) {
+	    if (sq->xr_tag[x] == NULL) esl_strdup(xr_tag[x], -1, &(sq->xr_tag[x]));
+	    else                       strcpy(sq->xr_tag[x], xr_tag[x]);
+	  }
+	}
+      }
+      esl_strdealign(sq->seq, sq->seq, gapchars, &(sq->n));
+    }
+#ifdef eslAUGMENT_ALPHABET
+  else				/* digital mode MSA to digital mode sequence */
+    {
+      if ((sq = esl_sq_CreateDigitalFrom(msa->abc, msa->sqname[which], msa->ax[which], msa->alen, desc, acc, ss)) == NULL) goto ERROR; 
+      if (sq->ss != NULL) esl_abc_CDealign(sq->abc, sq->ss+1, sq->dsq, NULL);
+      if (nxr > 0) {
+	sq->nxr = nxr;
+	ESL_ALLOC(sq->xr_tag, sizeof(char *) * sq->nxr); for (x = 0; x < sq->nxr; x ++) sq->xr_tag[x] = NULL;
+	ESL_ALLOC(sq->xr,     sizeof(char *) * sq->nxr); for (x = 0; x < sq->nxr; x ++) sq->xr[x] = NULL;
+	for (x = 0; x < sq->nxr; x ++) {
+	  if (xr[x] != NULL) {
+	    if (sq->xr[x] == NULL) {
+	      ESL_ALLOC(sq->xr[x], sizeof(char) * (sq->n+2));
+	      sq->xr[x][0] = '\0';
+	      strcpy(sq->xr[x]+1, xr[x]);
+	    }
+	    else strcpy(sq->xr[x]+1, xr[x]); sq->xr[x][0] = '\0'; 	    
+	    esl_abc_CDealign(sq->abc, sq->xr[x]+1, sq->dsq, NULL);
+	  }
+	  if (xr_tag[x] != NULL) {
+	    if (sq->xr_tag[x] == NULL) esl_strdup(xr_tag[x], -1, &(sq->xr_tag[x]));
+	    else                        strcpy(sq->xr_tag[x], xr_tag[x]);
+	  }
+	}
+      }
+      esl_abc_XDealign(sq->abc, sq->dsq,  sq->dsq, &(sq->n));
+    }
+#endif
+
+  if ((status = esl_sq_SetSource(sq, msa->name)) != eslOK) goto ERROR;
+
+  sq->start = 1;
+  sq->end   = sq->n;
+  sq->L     = sq->n;
+  sq->C     = 0;
+  sq->W     = sq->n;
+  *ret_sq   = sq;
+
+  if (msa->ngr > 0) {
+    free(xr_tag); free(xr);
+  }  
+  return eslOK;
+  
+ ERROR:
+  if (msa->ngr > 0) {
+    if (xr_tag != NULL) free(xr_tag); if (xr != NULL) free(xr);
+  }  
+  esl_sq_Destroy(sq);
+  *ret_sq = NULL;
+  return eslEMEM;
+}
+#endif /*eslAUGMENT_MSA*/
+/*---------------- end,  sequences from MSAs --------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 5. Internal functions
+ *****************************************************************/
+
+/* Create and CreateDigital() are almost identical, so
+ * their shared guts are here:
+ */
+static ESL_SQ *
+sq_create(int do_digital)
+{
+  ESL_SQ *sq = NULL;
+  int status;
+
+  ESL_ALLOC(sq, sizeof(ESL_SQ));
+
+  if (sq_init(sq, do_digital) != eslOK) goto ERROR;
+
+  return sq;
+
+ ERROR:
+  esl_sq_Destroy(sq);
+  return NULL;
+}  
+
+/* Create an <ESL_SQ_BLOCK> object and its list of <ESL_SQ> objects */
+static ESL_SQ_BLOCK *
+sq_createblock(int count, int do_digital)
+{
+  int i = 0;
+
+  ESL_SQ_BLOCK *block = NULL;
+  int status = eslOK;
+
+  ESL_ALLOC(block, sizeof(ESL_SQ_BLOCK));
+
+  block->count = 0;
+  block->first_seqidx = -1;
+  block->list  = NULL;
+  block->complete = TRUE;
+
+  ESL_ALLOC(block->list, sizeof(ESL_SQ) * count);
+  block->listSize = count;
+
+  for (i = 0; i < count; ++i)
+    {
+      if (sq_init(block->list + i, do_digital) != eslOK) goto ERROR;
+    }
+
+  return block;
+
+ ERROR:
+  esl_sq_DestroyBlock(block);
+  return NULL;
+}  
+
+/* Initialize <ESL_SQ> object */
+static int
+sq_init(ESL_SQ *sq, int do_digital)
+{
+  int status;
+
+  sq->name     = NULL;
+  sq->acc      = NULL;
+  sq->desc     = NULL;
+  sq->tax_id   = -1;
+  sq->seq      = NULL;
+  sq->dsq      = NULL;	
+  sq->ss       = NULL;		/* Note that ss is optional - it will only be allocated if needed */
+  /* n, coord bookkeeping, and strings are all set below by a call to Reuse() */
+
+  sq->nalloc   = eslSQ_NAMECHUNK;	
+  sq->aalloc   = eslSQ_ACCCHUNK;
+  sq->dalloc   = eslSQ_DESCCHUNK;
+  sq->salloc   = eslSQ_SEQCHUNK; 
+  sq->srcalloc = eslSQ_NAMECHUNK; 
+
+  ESL_ALLOC(sq->name,   sizeof(char) * sq->nalloc);
+  ESL_ALLOC(sq->acc,    sizeof(char) * sq->aalloc);
+  ESL_ALLOC(sq->desc,   sizeof(char) * sq->dalloc);
+  ESL_ALLOC(sq->source, sizeof(char) * sq->srcalloc);
+  if (do_digital) ESL_ALLOC(sq->dsq,  sizeof(ESL_DSQ) * sq->salloc);
+  else            ESL_ALLOC(sq->seq,  sizeof(char)    * sq->salloc);
+
+  /* optional for extra residue markups */
+  sq->nxr    = 0;
+  sq->xr_tag = NULL;
+  sq->xr     = NULL;
+
+  esl_sq_Reuse(sq);	/* initialization of sq->n, offsets, and strings */
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}  
+
+/* CreateFrom and CreateDigitalFrom() are almost identical, so
+ * their shared guts are here:
+ */
+static ESL_SQ *
+sq_create_from(const char *name, const char *desc, const char *acc)
+{
+  ESL_SQ *sq = NULL;
+  int64_t n;
+  int     status;
+
+  ESL_ALLOC(sq, sizeof(ESL_SQ));
+  sq->name   = NULL;
+  sq->acc    = NULL;
+  sq->desc   = NULL;
+  sq->seq    = NULL;
+  sq->dsq    = NULL;
+  sq->ss     = NULL;
+  
+  if (name != NULL)
+    {
+      n = strlen(name)+1;
+      ESL_ALLOC(sq->name, sizeof(char) * n);
+      strcpy(sq->name, name);
+      sq->nalloc = n;
+    }
+  else 
+    {
+      sq->nalloc = eslSQ_NAMECHUNK;
+      ESL_ALLOC(sq->name, sizeof(char) * sq->nalloc);
+      sq->name[0] = '\0';
+    }
+  
+  if (desc != NULL) 
+    {
+      n = strlen(desc)+1;
+      ESL_ALLOC(sq->desc, sizeof(char) * n);
+      strcpy(sq->desc, desc);
+      sq->dalloc = n;
+    } 
+  else 
+    {
+      sq->dalloc   = eslSQ_DESCCHUNK;
+      ESL_ALLOC(sq->desc, sizeof(char) * sq->dalloc);    
+      sq->desc[0] = '\0';
+    }
+
+  if (acc != NULL) 
+    {
+      n = strlen(acc)+1;
+      ESL_ALLOC(sq->acc, sizeof(char) * n);
+      strcpy(sq->acc, acc);
+      sq->aalloc = n;
+    } 
+  else 
+    {
+      sq->aalloc   = eslSQ_ACCCHUNK;
+      ESL_ALLOC(sq->acc,  sizeof(char) * sq->aalloc);
+      sq->acc[0] = '\0';
+    }
+
+  /* no source name */
+  sq->srcalloc = eslSQ_NAMECHUNK;
+  ESL_ALLOC(sq->source, sizeof(char) * sq->srcalloc);
+  sq->source[0] = '\0';
+
+  /* optional for extra residue markups */
+  sq->nxr    = 0;
+  sq->xr_tag = NULL;
+  sq->xr     = NULL;
+
+  /* coord bookkeeping has to be set by the parent caller,
+   * because that's where we know the seq length <n>. We don't
+   * know it here.
+   */
+  sq->doff = -1;
+  sq->hoff = -1;
+  sq->roff = -1;
+  sq->eoff = -1;
+  return sq;
+
+ ERROR:
+  esl_sq_Destroy(sq);
+  return NULL;
+}
+
+/* Free <ESL_SQ> object */
+static void
+sq_free(ESL_SQ *sq)
+{
+  int   x;        /* index for optional extra residue markups */
+  if (sq->name   != NULL)   free(sq->name);
+  if (sq->acc    != NULL)   free(sq->acc);
+  if (sq->desc   != NULL)   free(sq->desc);
+  if (sq->source != NULL)   free(sq->source);
+  if (sq->seq    != NULL)   free(sq->seq);
+  if (sq->dsq    != NULL)   free(sq->dsq);
+  if (sq->ss     != NULL)   free(sq->ss);
+  if (sq->nxr > 0) {
+    for (x = 0; x < sq->nxr; x++) {
+      if (sq->xr[x]     != NULL) free(sq->xr[x]);
+      if (sq->xr_tag[x] != NULL) free(sq->xr_tag[x]);  
+    }       
+    if (sq->xr     != NULL) free(sq->xr);
+    if (sq->xr_tag != NULL) free(sq->xr_tag); 
+  }    
+}  
+
+/*----------------- end, internal functions ---------------------*/
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef eslSQ_TESTDRIVE
+#include "esl_random.h"
+
+static void
+utest_Create()
+{
+  char   *msg  = "failure in utest_Create()";
+  char   *name = "seqname";
+  char   *acc  = "XX00001";
+  char   *desc = "test sequence description";
+  char   *seq  = "ACDEFGHIKLMNPQRSTVWY";
+  char   *ss   = "xxxx....xxxx....xxxx";
+  int64_t n    = strlen(seq);
+  ESL_SQ *sq1  = esl_sq_CreateFrom(name, seq, desc, acc, ss);
+  ESL_SQ *sq2  = esl_sq_Create();
+
+  if (sq1 == NULL || sq2 == NULL) esl_fatal(msg);
+
+  if (esl_sq_GrowTo(sq2, n)                                                    != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatName     (sq2, "%s%s", "seq", "name")                       != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatAccession(sq2, "%s%05d", "XX", 1)                           != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatDesc     (sq2, "%s %s %s", "test","sequence","description") != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatSource   (sq2, "%s", "source-unknown")                      != eslOK) esl_fatal(msg);
+  if (esl_strdup(ss, -1, &(sq2->ss))                                           != eslOK) esl_fatal(msg);
+  strcpy(sq2->seq, seq);
+  sq2->n = n;
+
+  if (strcmp(sq1->name, sq2->name) != 0) esl_fatal(msg);
+  if (strcmp(sq1->acc,  sq2->acc)  != 0) esl_fatal(msg);
+  if (strcmp(sq1->desc, sq2->desc) != 0) esl_fatal(msg);
+  if (strcmp(sq1->seq,  sq2->seq)  != 0) esl_fatal(msg);
+  if (strcmp(sq1->ss,   sq2->ss)   != 0) esl_fatal(msg);
+  if (sq1->n != sq2->n)                  esl_fatal(msg);
+
+  esl_sq_Destroy(sq1);
+  esl_sq_Destroy(sq2);
+}
+
+/* This tests the Set() functions. */
+static void
+utest_Set(ESL_RANDOMNESS *r)
+{
+  char   *msg     = "sqio Set unit test failure";
+  ESL_SQ *sq      = esl_sq_Create();
+  int     ntrials = 8;
+  int     maxn    = eslSQ_NAMECHUNK*2;
+  int     maxa    = eslSQ_ACCCHUNK*2;
+  int     maxd    = eslSQ_DESCCHUNK*2;
+  int     n       = ESL_MAX( maxn, ESL_MAX(maxa, maxd));
+  char   *buf     = malloc(sizeof(char) * (n+1));
+  int64_t L;
+  int     i;
+
+  for (i = 0; i < ntrials; i++)
+    {
+      L = esl_rnd_Roll(r, maxn) + 1;
+      memset(buf, 'x', L);
+      buf[L] = '\0';
+      if (esl_sq_SetName(sq, buf) != eslOK) esl_fatal(msg);
+    }
+  for (i = 0; i < ntrials; i++)
+    {
+      L = esl_rnd_Roll(r, maxa) + 1;
+      memset(buf, 'x', L);
+      buf[L] = '\0';
+      if (esl_sq_SetAccession(sq, buf) != eslOK) esl_fatal(msg);
+    }      
+  for (i = 0; i < ntrials; i++)
+    {
+      L = esl_rnd_Roll(r, maxd) + 1;
+      memset(buf, 'x', L);
+      buf[L] = '\0';
+      if (esl_sq_SetDesc(sq, buf) != eslOK) esl_fatal(msg);
+    }      
+  free(buf);
+  esl_sq_Destroy(sq);
+} 
+
+
+/* This tests the Format() functions - 
+ * in particular, the way they use vsnprintf().
+ */
+static void
+utest_Format(ESL_RANDOMNESS *r)
+{
+  char   *msg     = "esl_sq_Format*() unit test failure";
+  ESL_SQ *sq      = esl_sq_Create();
+  int     ntrials = 128;
+  int     maxn    = eslSQ_NAMECHUNK*2;
+  int     maxa    = eslSQ_ACCCHUNK*2;
+  int     maxd    = eslSQ_DESCCHUNK*2;
+  int     n       = ESL_MAX( maxn, ESL_MAX(maxa, maxd));
+  char   *buf     = malloc(sizeof(char) * (n+1));
+  int64_t L;
+  int     i;
+
+  for (i = 0; i < ntrials; i++)
+    {
+      L = esl_rnd_Roll(r, maxn) + 1;
+      memset(buf, 'x', L);
+      buf[L] = '\0';
+      if (esl_sq_FormatName(sq, "%s%d", buf, i) != eslOK) esl_fatal(msg);
+    }
+  for (i = 0; i < ntrials; i++)
+    {
+      L = esl_rnd_Roll(r, maxa) + 1;
+      memset(buf, 'x', L);
+      buf[L] = '\0';
+      if (esl_sq_FormatAccession(sq, "%s%d", buf, i) != eslOK) esl_fatal(msg);
+    }      
+  for (i = 0; i < ntrials; i++)
+    {
+      L = esl_rnd_Roll(r, maxd) + 1;
+      memset(buf, 'x', L);
+      buf[L] = '\0';
+      if (esl_sq_FormatDesc(sq, "%s%d", buf, i) != eslOK) esl_fatal(msg);
+    }      
+  free(buf);
+  esl_sq_Destroy(sq);
+} 
+
+
+#ifdef eslAUGMENT_ALPHABET
+static void
+utest_CreateDigital()
+{
+  char         *msg  = "failure in utest_CreateDigital()";
+  ESL_ALPHABET *abc  = esl_alphabet_Create(eslRNA);
+  char         *name = "seqname";
+  char         *acc  = "XX00001";
+  char         *desc = "test sequence description";
+  char         *seq  = "GGGAAATTTCCC";
+  char         *ss   = "<<<......>>>";
+  ESL_DSQ      *dsq  = NULL;
+  int64_t       n    = strlen(seq);
+  ESL_SQ       *sq1  = NULL;
+  ESL_SQ       *sq2  = NULL;
+  ESL_SQ       *sq3  = NULL;
+
+  if (esl_abc_CreateDsq(abc, seq, &dsq)                                     != eslOK) esl_fatal(msg);
+  if ((sq1 = esl_sq_CreateDigitalFrom(abc, name, dsq, n, desc, acc, ss))    == NULL)  esl_fatal(msg);
+
+  if ((sq2 = esl_sq_CreateDigital(abc))                                        == NULL)  esl_fatal(msg);
+  if (esl_sq_GrowTo(sq2, n)                                                    != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatName     (sq2, "%s%s", "seq", "name")                       != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatAccession(sq2, "%s%05d", "XX", 1)                           != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatDesc     (sq2, "%s %s %s", "test","sequence","description") != eslOK) esl_fatal(msg);
+  if (esl_sq_FormatSource   (sq2, "%s", "source-unknown")                      != eslOK) esl_fatal(msg);
+  if ((sq2->ss    = malloc(sizeof(char) * (n+2)))                              == NULL)  esl_fatal(msg);
+  strcpy(sq2->ss+1, ss);   sq2->ss[0] = '\0';
+  if (esl_abc_Digitize(abc, seq, sq2->dsq)                                  != eslOK) esl_fatal(msg);
+  sq2->n = n;
+
+  if ((sq3 = esl_sq_Create()) == NULL)   esl_fatal(msg);
+  if (esl_sq_Copy(sq1, sq3)   != eslOK)  esl_fatal(msg); /* sq3 is now text mode */
+  if (esl_sq_Textize(sq2)     != eslOK)  esl_fatal(msg); /* sq2 is now text mode */
+  
+  if (strcmp(sq3->name, sq2->name) != 0) esl_fatal(msg); /* sq2,sq3 should be identical text mode */
+  if (strcmp(sq3->acc,  sq2->acc)  != 0) esl_fatal(msg);
+  if (strcmp(sq3->desc, sq2->desc) != 0) esl_fatal(msg);
+  if (strcmp(sq3->seq,  sq2->seq)  != 0) esl_fatal(msg);
+  if (strcmp(sq3->ss,   sq2->ss)   != 0) esl_fatal(msg);
+  if (sq3->n != sq2->n)                  esl_fatal(msg);
+
+  /* sq3 back to digital; should = sq1 again */
+  if (esl_sq_Digitize(abc, sq3)                              != eslOK) esl_fatal(msg); 
+  if (memcmp(sq3->dsq, sq1->dsq, sizeof(ESL_DSQ) * (sq3->n)) != 0)     esl_fatal(msg);
+  if (sq3->n != sq1->n)                                                esl_fatal(msg);
+
+  free(dsq);
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq1);
+  esl_sq_Destroy(sq2);
+  esl_sq_Destroy(sq3);
+}
+#endif /*eslAUGMENT_ALPHABET*/
+
+/* write_msa_with_seqmarkups()
+ * Write a good MSA with sequence markups to a tmpfile in Stockholm format.
+ */
+static void
+write_msa_with_seqmarkups(FILE *ofp)
+{
+  fprintf(ofp, "# STOCKHOLM 1.0\n");
+  fprintf(ofp, "seq1                         ACDE.FGHKLMNPQRSTVWY\n");
+  fprintf(ofp, "#=GR seq1 tWS                ..<..<........>...>.\n");
+  fprintf(ofp, "seq2                         ACDEGFGHKLMNPQRSTVWY\n");
+  fprintf(ofp, "seq3                         ACDEGFGHKLMNPQRSTVWY\n");
+  fprintf(ofp, "#=GR seq3 SS                 ...<<..>>...........\n");
+  fprintf(ofp, "seq4                         ACDE.FGHKLMNPQRSTVWY\n");
+  fprintf(ofp, "seq5                         ACDEGFGHKLMNPQRSTVWY\n");
+  fprintf(ofp, "seq6                         ACDE.FGHKLMNPQRSTVWY\n");
+  fprintf(ofp, "#=GR seq6 SS                 ........<<<..>>>....\n");
+  fprintf(ofp, "#=GR seq6 tWH                .<...A...>....a.....\n");
+  fprintf(ofp, "#=GR seq6 csS                .<.................>\n");  
+  fprintf(ofp, "//\n");
+  return;
+}
+
+/* test optional extra residue markups in a sq */
+#include "esl_msafile.h"
+#include "esl_msafile_stockholm.h"
+static void
+utest_ExtraResMarkups()
+{
+  char                 msg[]       = "sq extra residue markups test driver failed";
+  char                 tmpfile[32];
+  FILE                *ofp  = NULL;
+  ESL_ALPHABET        *abc  = NULL;
+  ESLX_MSAFILE        *afp1 = NULL;
+  ESLX_MSAFILE        *afp2 = NULL;
+  ESL_MSA             *msa1 = NULL;
+  ESL_MSA             *msa2 = NULL;
+  ESL_SQ              *sq   = NULL;
+  ESL_SQ              *sq1  = NULL;
+  ESL_SQ              *sq2  = NULL;
+
+  strcpy(tmpfile, "esltmpXXXXXX"); 
+  if (esl_tmpfile_named(tmpfile, &ofp) != eslOK) esl_fatal(msg);
+  write_msa_with_seqmarkups(ofp);
+  fclose(ofp);
+
+  /* Digital msa to digital sq */
+  eslx_msafile_Open(&abc, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp1);  
+  esl_msafile_stockholm_Read(afp1, &msa1);  
+
+  sq = esl_sq_CreateDigital(abc);
+  if (esl_sq_GetFromMSA(msa1, 0, sq) != eslOK) esl_fatal(msg); esl_sq_Reuse(sq);
+  if (esl_sq_GetFromMSA(msa1, 1, sq) != eslOK) esl_fatal(msg); esl_sq_Reuse(sq);
+  if (esl_sq_GetFromMSA(msa1, 2, sq) != eslOK) esl_fatal(msg); esl_sq_Reuse(sq);
+  if (esl_sq_GetFromMSA(msa1, 5, sq) != eslOK) esl_fatal(msg); 
+
+  /* test of sq_Copy */
+  sq1 = esl_sq_Create();
+  sq2 = esl_sq_CreateDigital(abc);
+  esl_sq_Copy(sq, sq1);
+  esl_sq_Copy(sq, sq2);
+  esl_sq_Destroy(sq1);
+  esl_sq_Destroy(sq2);
+  esl_sq_Destroy(sq);
+  
+  if (esl_sq_FetchFromMSA(msa1, 0, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  if (esl_sq_FetchFromMSA(msa1, 1, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  if (esl_sq_FetchFromMSA(msa1, 2, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  if (esl_sq_FetchFromMSA(msa1, 5, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+
+  
+  /* Text msa to text sq */
+  eslx_msafile_Open(NULL, tmpfile, NULL, eslMSAFILE_STOCKHOLM, NULL, &afp2);  
+  esl_msafile_stockholm_Read(afp2, &msa2);  
+  
+  sq = esl_sq_Create();
+  if (esl_sq_GetFromMSA(msa2, 0, sq) != eslOK) esl_fatal(msg); esl_sq_Reuse(sq);
+  if (esl_sq_GetFromMSA(msa2, 1, sq) != eslOK) esl_fatal(msg); esl_sq_Reuse(sq);
+  if (esl_sq_GetFromMSA(msa2, 2, sq) != eslOK) esl_fatal(msg); esl_sq_Reuse(sq);
+  if (esl_sq_GetFromMSA(msa2, 5, sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  
+  if (esl_sq_FetchFromMSA(msa2, 0, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  if (esl_sq_FetchFromMSA(msa2, 1, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  if (esl_sq_FetchFromMSA(msa2, 2, &sq) != eslOK) esl_fatal(msg); esl_sq_Destroy(sq);
+  if (esl_sq_FetchFromMSA(msa2, 5, &sq) != eslOK) esl_fatal(msg); 
+  /* test of sq_Copy */
+  sq1 = esl_sq_Create();
+  sq2 = esl_sq_CreateDigital(abc);
+  esl_sq_Copy(sq, sq1);
+  esl_sq_Copy(sq, sq2);
+  esl_sq_Destroy(sq1);
+  esl_sq_Destroy(sq2);
+  esl_sq_Destroy(sq);
+
+  /* clean up */
+  remove(tmpfile);
+  eslx_msafile_Close(afp1);
+  eslx_msafile_Close(afp2);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  esl_alphabet_Destroy(abc);
+} 
+
+/* test counting residues in a sq */
+static void
+utest_CountResidues()
+{
+  char         *msg  = "failure in utest_CountResidues()";
+  char         *name = "seqname";
+  char         *acc  = "XX00001";
+  char         *desc = "test sequence description";
+  char         *seq  = "GGGAATTCCC";
+  char         *ss   = "xxxx...xxx";
+  ESL_SQ       *sq   = NULL;
+  float        *cnts = NULL;
+  int          status;
+  ESL_ALPHABET *abc  = esl_alphabet_Create(eslDNA);
+
+  ESL_ALLOC(cnts, abc->Kp * sizeof(float));
+
+
+  if ((sq = esl_sq_CreateFrom(name, seq, desc, acc, ss))    == NULL)  esl_fatal(msg);
+  sq->abc = abc;
+  esl_vec_FSet (cnts, abc->K, 0);
+  esl_sq_CountResidues(sq, 0, sq->n, cnts);
+  if (cnts[0] != 2)  esl_fatal(msg);
+  if (cnts[1] != 3)  esl_fatal(msg);
+  if (cnts[2] != 3)  esl_fatal(msg);
+  if (cnts[3] != 2)  esl_fatal(msg);
+
+
+#ifdef eslAUGMENT_ALPHABET
+  esl_sq_Digitize(abc, sq);
+  esl_vec_FSet (cnts, abc->K, 0);
+  esl_sq_CountResidues(sq, 1, sq->n, cnts);
+  if (cnts[0] != 2)  esl_fatal(msg);
+  if (cnts[1] != 3)  esl_fatal(msg);
+  if (cnts[2] != 3)  esl_fatal(msg);
+  if (cnts[3] != 2)  esl_fatal(msg);
+#endif
+
+  free(cnts);
+  esl_sq_Destroy(sq);
+  esl_alphabet_Destroy(abc);
+  return;
+
+
+ERROR:
+  if (cnts != NULL) free(cnts);
+  if (sq != NULL)   esl_sq_Destroy(sq);
+  if (abc != NULL)  esl_alphabet_Destroy(abc);
+
+  esl_fatal(msg);
+  return;
+}
+
+
+#endif /* eslSQ_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+#ifdef eslSQ_TESTDRIVE
+/* gcc -g -Wall -o esl_sq_utest -I. -L. -DeslSQ_TESTDRIVE esl_sq.c -leasel -lm
+ * ./esl_sq_utest
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile_stockholm.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+ {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for sq module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r       = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+
+  utest_Create();
+  utest_Set(r);
+  utest_Format(r);
+  utest_CountResidues();
+
+#ifdef eslAUGMENT_ALPHABET
+  utest_CreateDigital();
+#endif
+
+  utest_ExtraResMarkups();
+
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslSQ_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 7. Examples.
+ *****************************************************************/
+
+#ifdef eslSQ_EXAMPLE
+/*::cexcerpt::sq_example::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslSQ_EXAMPLE esl_sq.c easel.c
+ * run:     ./example
+ */
+#include <stdio.h>
+#include <string.h>
+#include "easel.h"
+#include "esl_sq.h"
+
+int main(void)
+{
+  ESL_SQ     *sq1, *sq2;
+  char       *name    = "seq1";
+  char       *acc     = "XX00001";
+  char       *desc    = "This is a test.";
+  char       *testseq = "GGGAAATTTCCC";
+  char       *ss      = "<<<......>>>";
+  int         n       = strlen(testseq);
+
+  /* Creating an ESL_SQ from text info: */
+  sq1 = esl_sq_CreateFrom(name, testseq, desc, acc, ss); /* desc, acc, or ss may be NULL */
+  
+  /* Building up a ESL_SQ yourself: */
+  sq2 = esl_sq_Create();
+  esl_sq_FormatName     (sq2, "seq%d", 1);
+  esl_sq_FormatAccession(sq2, "XX%05d", 1);
+  esl_sq_FormatDesc     (sq2, "This %s a test", "is");
+  esl_sq_GrowTo         (sq2, n);
+  strcpy(sq2->seq, testseq);
+  esl_strdup(ss, -1, &(sq2->ss));  
+  sq2->n = n;
+
+  /* Accessing the information */
+  printf("Name:        %s\n", sq2->name);
+  printf("Accession:   %s\n", sq2->acc);
+  printf("Description: %s\n", sq2->desc);
+  printf("Sequence:    %s\n", sq2->seq);
+  printf("Structure:   %s\n", sq2->ss);
+  printf("Residue 3:   %c\n", sq2->seq[2]); /* note 0..n-1 coords */
+  printf("Structure 3: %c\n", sq2->ss[2]);  /* same for ss        */
+  
+  /* Freeing the structures */
+  esl_sq_Destroy(sq1);
+  esl_sq_Destroy(sq2);
+  return 0;
+}
+/*::cexcerpt::sq_example::end::*/
+#endif /*eslSQ_EXAMPLE*/
+
+
+#ifdef eslSQ_EXAMPLE2
+/*::cexcerpt::sq_example2::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslSQ_EXAMPLE2\
+            -DeslAUGMENT_ALPHABET esl_sq.c esl_alphabet.c easel.c
+ * run:     ./example
+ */
+#include <stdio.h>
+#include <string.h>
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+
+int main(void)
+{
+  ESL_ALPHABET *abc;
+  ESL_SQ       *sq1, *sq2;
+  char         *name    = "seq1";
+  char         *acc     = "XX00001";
+  char         *desc    = "This is a test.";
+  char         *testseq = "GGGAAATTTCCC";
+  ESL_DSQ      *dsq     = NULL;
+  char         *ss      = "<<<......>>>";
+  int           n       = strlen(testseq);
+  int           i;
+
+  /* Creating a digital alphabet: */
+  abc = esl_alphabet_Create(eslRNA);
+
+  /* Creating a digital ESL_SQ from text info: */
+  esl_abc_CreateDsq(abc, testseq, &dsq);
+  sq1 = esl_sq_CreateDigitalFrom(abc, name, dsq, n, desc, acc, ss); 
+  free(dsq);
+  
+  /* Building up a digital ESL_SQ yourself: */
+  sq2 = esl_sq_CreateDigital(abc);
+  esl_sq_FormatName     (sq2, "seq%d", 1);
+  esl_sq_FormatAccession(sq2, "XX%05d", 1);
+  esl_sq_FormatDesc     (sq2, "This %s a test", "is");
+  esl_sq_GrowTo         (sq2, n);
+  esl_abc_Digitize(abc, testseq, sq2->dsq);
+  sq2->n = n;
+
+  /* a "digital" ss isn't so pretty, but just so you know: */
+  sq2->ss    = malloc(sizeof(char) * (n+2));
+  sq2->ss[0] = '\0';
+  strcpy(sq2->ss+1, ss); 
+
+  /* Accessing the information */
+  printf("Name:        %s\n", sq2->name);
+  printf("Accession:   %s\n", sq2->acc);
+  printf("Description: %s\n", sq2->desc);
+  printf("Sequence:    "); 
+  for (i = 1; i <= n; i++) 
+    putchar(abc->sym[sq2->dsq[i]]);
+  putchar('\n');
+  printf("Structure:   %s\n", sq2->ss+1);   /* +1, ss is 1..n like dsq */
+  printf("Residue 3:   %c\n", abc->sym[sq2->dsq[3]]);
+  printf("Structure 3: %c\n", sq2->ss[3]);  /* note 1..n coord system  */
+  
+  /* Freeing the structures */
+  esl_sq_Destroy(sq1);
+  esl_sq_Destroy(sq2);
+  return 0;
+}
+/*::cexcerpt::sq_example2::end::*/
+#endif /*eslSQ_EXAMPLE2*/
+/*------------------ end, example drivers ------------------------*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_sq.c 884 2013-09-20 13:42:01Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sq.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.h
new file mode 100755
index 0000000..c6df33c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.h
@@ -0,0 +1,213 @@
+/* A sequence.
+ * 
+ * SRE, Mon Mar 31 17:03:51 2008 [Janelia]
+ * SVN $Id: esl_sq.h 850 2013-02-04 15:44:04Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sq.h $
+ */
+#ifndef eslSQ_INCLUDED
+#define eslSQ_INCLUDED
+
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#ifdef eslAUGMENT_MSA
+#include "esl_msa.h"
+#endif
+
+
+/* ESL_SQ - a biosequence
+ * 
+ * Can be either in text mode <seq>, or digital mode <dsq>. 
+ * One of them has to be NULL, and the other contains the data.
+ * 
+ * When in text mode, <ss> and <seq> can hold up to <n=salloc-1>
+ * residues and a terminal '\0', and both are indexed <0..n-1>.
+ * 
+ * When in digital mode, <ss> and <dsq> can hold up to <n=salloc-2>
+ * residues; both are indexed <1..n>, and positions 0 and n+1 are
+ * sentinel bytes. The digital sequence <dsq> uses <eslDSQ_SENTINEL>
+ * as its sentinels; as a hack, <ss> uses '\0' as sentinels.  This
+ * means that <sq->ss+1> is a valid NUL-terminated C string, but
+ * <sq->ss> itself would be a string of length 0 because of the
+ * leading NUL sentinel. Watch out for this.
+ * 
+ * To save on allocation calls, the structure is designed to be reused
+ * for subsequent sequences, rather than free'd and reallocated -
+ * thus, we keep track of the allocated sizes of all the strings.
+ * 
+ * Notes on when we need to reallocate:
+ *    - In a text mode sequence (seq 0..n-1), byte salloc-1 is
+ *      reserved for the NUL, so the sequence is full when
+ *      n == salloc-1.
+ *          
+ *    - In a digital mode sequence (dsq 1..n), bytes 0 and salloc-1
+ *      are reserved for sentinel bytes, so the reallocation condition
+ *      is when n == salloc-2.
+ *      
+ * At least for now, the only way to set the <ss> structure annotation
+ * field is by a CreateFrom(), by extraction from an MSA, or manually
+ * (by directly allocating a sequence's <ss> field).
+ * 
+ * A sequence object will usually be holding a complete (full length)
+ * sequence. Three other cases arise less frequently:
+ * 
+ * 1. We're a subsequence extracted from a source sequence. 
+ *    <sourcename> is the name of the source.
+ *    <L> is the length of the source (and coords are 1..L).
+ *    The subsequence is from <start>..<end> on the source.
+ *    The length of the subsequence <n> is abs(<end>-<start>)+1.
+ *    <start> can be greater than <end> for a nucleic acid sequence;
+ *    in this case, the subsequence is reverse complemented.
+ *    
+ * 2. We're a window on a source sequence. 
+ *    This is similar to being a subsequence, with the added 
+ *    wrinkle that we're scanning over a long source sequence
+ *    in overlapping segments, defined by a "previous context"
+ *    <C> and a "new window" <W> (the whole sequence is n=C+W
+ *    residues long):
+ *                       s  C          W      e
+ *    current window:    |------||------------|
+ *    next window read:                |------||------------|
+ *                                     s  C           W     e
+ *    Here, dsq[1..n] is source[s..e]; each newly read
+ *    window starts at dsq[C+1], and is preceded by C
+ *    residues of context.
+ *    
+ * 3. We're just after information about the sequence, not the
+ *    sequence itself; everything except the per-residue information
+ *    (such as <dsq/seq> and <ss>). We do this when SSI indexing,
+ *    for example, so we don't have to read entire huge seqs into
+ *    memory just to calculate their lengths for the index.
+ *    
+ * Note/TODO: use of "\0" empty string to indicate lack of optional
+ * acc, desc info is now deprecated. Cannot distinguish empty string
+ * from lack of annotation. Should use NULL ptr instead. Fix this in
+ * future.  (21 Nov 09 xref J5/114)
+ *    
+ */
+typedef struct {
+  /*::cexcerpt::sq_sq::begin::*/
+  char    *name;           /* name; one word, no whitespace ("\0" if no name)  */
+  char    *acc;            /* optional accession (1 word) ("\0" if none)       */
+  char    *desc;           /* description line ("\0" if no description)        */
+  int32_t  tax_id;	   /* NCBI taxonomy id (-1 if none)                    */
+  char    *seq;            /* sequence [0..n-1], or NULL if digital            */
+  ESL_DSQ *dsq;            /* digitized sequence [1..n], or NULL if text       */
+  char    *ss;             /* optional sec structure [0..n-1], [1..n], or NULL */
+  int64_t  n;              /* length of seq (or dsq) and ss                    */
+  /*::cexcerpt::sq_sq::end::*/
+
+  /* Coordinate info for:                                       seq       subseq     window     info */
+  /*                                                           ----       ------     ------    ----- */
+  int64_t  start;  /* coord of seq[0],dsq[1] on source  [1..L]    1      1<=i<=L    1<=i<=L      0   */
+  int64_t  end;	   /* coord of seq[n-1],dsq[n] on source[1..L]    L      1<=j<=L    1<=j<=L      0   */
+  int64_t  C;	   /* # of context residues for a window          0            0        n-W      0   */
+  int64_t  W;	   /* window width                                L            n        n-C      0   */
+  int64_t  L;	   /* source sequence length in residues          L     L (or -1)   L (or -1)    L   */
+  /* and   n: length of seq (or dsq) and ss actually stored:      L   abs(j-i)+1        C+W      0   */
+  /* In all the above bookkeeping, a -1 means "unknown" */
+  char    *source; /* name of the source of a subseq/window; or MSA name; or ""*/
+  
+  /* Memory allocation bookkeeping:  (all inclusive of \0;  >= strlen()+1)     */
+  int      nalloc;         /* allocated length of name                         */
+  int      aalloc;         /* allocated length of accession                    */
+  int      dalloc;         /* allocated length of description                  */
+  int64_t  salloc;         /* alloc for seq or dsq, and ss if present          */
+  int      srcalloc;	   /* allocated length for source name                 */
+
+  /* Disk offset bookkeeping:                                                  */
+  int64_t  idx;	           /* ctr for which # seq this is; -1 if not counting  */
+  off_t    roff;	   /* record offset (start of record); -1 if none      */
+  off_t    hoff;	   /* offset to last byte of header; -1 if unknown     */
+  off_t    doff;	   /* data offset (start of sequence data); -1 if none */
+  off_t    eoff;	   /* offset to last byte of record; -1 if unknown     */
+
+  /* Optional information for extra residue markups.
+   * The number of them, and their tags are arbitrary
+   */
+  char  **xr_tag;          /* markup tags for extra residue markups [0..ntr-1][free-text], [0..ntr-1][free-text], or NULL */
+  char  **xr;              /* annotations for extra residue markups [0..ntr-1][0..n-1],    [0..ntr-1][1..n],      or NULL */
+  int     nxr;		   /* number of extra residue markups                                                             */
+
+  /* Copy of a pointer to the alphabet, if digital mode */
+#if defined(eslAUGMENT_ALPHABET)
+  const ESL_ALPHABET *abc; /* reference to the alphabet for <dsq>              */
+#else
+  const void         *abc; /* void reference, if we're not even augmented      */
+#endif
+} ESL_SQ;
+
+typedef struct {
+  int      count;       /* number of <ESL_SQ> objects in the block */
+  int      listSize;    /* maximum number elements in the list     */
+  int      complete;    /*TRUE if the the final ESL_SQ element on the block is complete, FALSE if it's only a partial winow of the full sequence*/
+  int64_t  first_seqidx;/*unique identifier of the first ESL_SQ object on list;  the seqidx of the i'th entry on list is first_seqidx+i */
+  ESL_SQ  *list;        /* array of <ESL_SQ> objects               */
+} ESL_SQ_BLOCK;
+
+/* These control default initial allocation sizes in an ESL_SQ.     */
+#define eslSQ_NAMECHUNK   32	/* allocation unit for name, source */
+#define eslSQ_ACCCHUNK    32	/* allocation unit for accession    */
+#define eslSQ_DESCCHUNK  128	/* allocation unit for description  */
+#define eslSQ_SEQCHUNK   256	/* allocation unit for seqs         */
+
+
+extern ESL_SQ *esl_sq_Create(void);
+extern ESL_SQ *esl_sq_CreateFrom(const char *name, const char *seq,
+				 const char *desc, const char *acc, const char *ss);
+extern int     esl_sq_Grow  (ESL_SQ *sq, int64_t *ret_nsafe);
+extern int     esl_sq_GrowTo(ESL_SQ *sq, int64_t  n);
+extern int     esl_sq_Copy(const ESL_SQ *src, ESL_SQ *dst);
+extern int     esl_sq_Compare  (ESL_SQ *sq1, ESL_SQ *sq2);
+extern int     esl_sq_Reuse    (ESL_SQ *sq);
+extern int     esl_sq_IsDigital(const ESL_SQ *sq);
+extern int     esl_sq_IsText   (const ESL_SQ *sq);
+extern void    esl_sq_Destroy  (ESL_SQ *sq);
+
+extern int     esl_sq_SetName        (ESL_SQ *sq, const char *name);
+extern int     esl_sq_SetAccession   (ESL_SQ *sq, const char *acc);
+extern int     esl_sq_SetDesc        (ESL_SQ *sq, const char *desc);
+extern int     esl_sq_SetSource      (ESL_SQ *sq, const char *source);
+extern int     esl_sq_FormatName     (ESL_SQ *sq, const char *name,   ...);
+extern int     esl_sq_FormatAccession(ESL_SQ *sq, const char *acc,    ...);
+extern int     esl_sq_FormatDesc     (ESL_SQ *sq, const char *desc,   ...);
+extern int     esl_sq_FormatSource   (ESL_SQ *sq, const char *source, ...);
+extern int     esl_sq_AppendDesc     (ESL_SQ *sq, const char *desc);
+extern int     esl_sq_SetCoordComplete(ESL_SQ *sq, int64_t L);
+extern int     esl_sq_CAddResidue (ESL_SQ *sq, char c);
+extern int     esl_sq_ReverseComplement(ESL_SQ *sq);
+extern int     esl_sq_Checksum(const ESL_SQ *sq, uint32_t *ret_checksum);
+extern int     esl_sq_CountResidues(const ESL_SQ *sq, int start, int L, float *f);
+
+#ifdef eslAUGMENT_ALPHABET
+extern ESL_SQ *esl_sq_CreateDigital(const ESL_ALPHABET *abc);
+extern ESL_SQ *esl_sq_CreateDigitalFrom(const ESL_ALPHABET *abc, const char *name, const ESL_DSQ *dsq, 
+					int64_t L, const char *desc, const char *acc,  const char *ss);
+extern int     esl_sq_Digitize(const ESL_ALPHABET *abc, ESL_SQ *sq);
+extern int     esl_sq_Textize(ESL_SQ *sq);
+extern int     esl_sq_GuessAlphabet(ESL_SQ *sq, int *ret_type);
+extern int     esl_sq_XAddResidue(ESL_SQ *sq, ESL_DSQ x);
+extern int     esl_sq_ConvertDegen2X(ESL_SQ *sq);
+#endif
+
+#ifdef eslAUGMENT_MSA
+extern int     esl_sq_GetFromMSA  (const ESL_MSA *msa, int which, ESL_SQ *sq);
+extern int     esl_sq_FetchFromMSA(const ESL_MSA *msa, int which, ESL_SQ **ret_sq);
+#endif
+
+extern ESL_SQ_BLOCK *esl_sq_CreateBlock(int count);
+#ifdef eslAUGMENT_ALPHABET
+extern ESL_SQ_BLOCK *esl_sq_CreateDigitalBlock(int count, const ESL_ALPHABET *abc);
+#endif
+extern void          esl_sq_DestroyBlock(ESL_SQ_BLOCK *sqBlock);
+
+#endif /*eslSQ_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.tex
new file mode 100755
index 0000000..ea7a839
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sq.tex
@@ -0,0 +1,334 @@
+The \eslmod{sq} module provides \Easel's object for single biological
+sequences: an \ccode{ESL\_SQ}.
+
+Sequence objects invariably become complicated even when their
+designer intends them to be simple. There's many things we want to do
+with a sequence, and useful features naturally accrete over time. If a
+library isn't careful to balance creeping featuritis against having an
+easy way to start using the object in simple applications, then the
+sequence object - possibly the most fundamental object of a
+biosequence library - can become a barrier to anyone else actually
+using the library! All those useful features won't matter much if you
+can't figure out how to turn your sequence data into an object, or get
+it back out. \Easel\ expects you to have your own preferred way of
+dealing with sequence data that's not necessarily \Easel's way, so it
+provides simple ways to create sequence objects from elemental (C
+string) data, and simple ways to get elemental C strings back out.
+This lets you minimize your exposure to \Easel's more advanced (and
+complicated) capabilities if you like.
+
+The most basic use of an \ccode{ESL\_SQ} object is to hold one
+complete sequence, simply as a plain C string. A sequence may also
+have a name, an accession, and a description line.  This is called a
+\esldef{text mode} sequence. In text mode, \Easel\ doesn't know
+whether the sequence is DNA, RNA, protein, or something else; it's
+just an ASCII character string. This limits some of \Easel's more
+powerful abilities, such as the ability to check the sequence for
+errors, or to automatically deal with degenerate residue codes; but
+it's a simple mode that's easy to start using.
+
+Alternatively, a sequence may be in \esldef{digital mode}. In digital
+mode, sequences are predigested and encoded into \Easel's internal
+format, which makes many sequence routines more robust, efficient, and
+powerful. Digital mode requires \eslmod{alphabet} augmentation.
+
+In addition to storing a complete sequence, an \ccode{ESL\_SQ} is
+designed to be used in three other situations:
+
+\begin{itemize}
+\item to hold a \esldef{subsequence} of a larger source sequence. The
+  object maintains source and coordinate information necessary for
+  crossreferencing the subsequence's coordinate system to the original
+  source coordinate system.
+
+\item to hold a \esldef{window} of a larger source sequence. This is
+  like a subsequence, but is more specifically intended for reading a
+  sequence from a file in overlapping windows. This avoids having to
+  suck an entire chromosome (for example) into memory at any one
+  time. The stored subsequence is composed of two segments, a
+  \esldef{previous context} that gets saved from the previous window,
+  and a \esldef{new window} of fresh residues. The size of both the
+  context and the window are configurable at the time each new window
+  is read.
+
+\item to hold only \esldef{information} about a sequence, such as its
+  name, its length, and its position in a file, excluding the sequence
+  (and optional secondary structure annotation) itself. This is handy
+  for example when indexing a sequence file, when we'd rather not read
+  any (possibly prohibitively large) sequence into memory until after
+  we've mapped out how big it is.
+\end{itemize}
+
+To keep all this straight, the object contains a bunch of internal
+bookkeeping data.
+
+Sequence objects are growable and reusable, for efficiency in memory
+allocation. If you're going to go through many different sequences
+sequentially, you would typically just allocate a single
+\ccode{ESL\_SQ} object and \ccode{esl\_sq\_Reuse()} it for each new
+sequence, rather than creating and destroying a lot of objects.
+
+A sequence object can also store a secondary structure annotation line
+for the sequence, one character per residue.
+
+When augmented with \eslmod{msa}, an interface to the \ccode{ESL\_MSA}
+multiple alignment object provides the ability to extract single
+unaligned sequences from a multiple alignment.
+
+You would often use the \eslmod{sq} module in conjunction with
+\eslmod{sqio}, which provides the ability to read and write
+\ccode{ESL\_SQ} objects from and to files.
+
+Table~\ref{tbl:sq_api} lists the functions in the \eslmod{sq} API.
+
+% Table generated by autodoc -t esl_sq.c (so don't edit here, edit esl_sq.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{Text version of the \ccode{ESL\_SQ} object.}\\
+\hyperlink{func:esl_sq_Create()}{\ccode{esl\_sq\_Create()}} & Create a new, empty \ccode{ESL\_SQ}.\\
+\hyperlink{func:esl_sq_CreateFrom()}{\ccode{esl\_sq\_CreateFrom()}} & Create a new \ccode{ESL\_SQ} from text information.\\
+\hyperlink{func:esl_sq_Grow()}{\ccode{esl\_sq\_Grow()}} & Assure that a \ccode{ESL\_SQ} has space to add more residues.\\
+\hyperlink{func:esl_sq_GrowTo()}{\ccode{esl\_sq\_GrowTo()}} & Grows an \ccode{ESL\_SQ} to hold a seq of at least \ccode{n} residues.\\
+\hyperlink{func:esl_sq_Copy()}{\ccode{esl\_sq\_Copy()}} & Make a copy of an \ccode{ESL\_SQ}.\\
+\hyperlink{func:esl_sq_Reuse()}{\ccode{esl\_sq\_Reuse()}} & Reinitialize an \ccode{ESL\_SQ} for re-use.\\
+\hyperlink{func:esl_sq_Destroy()}{\ccode{esl\_sq\_Destroy()}} & Frees an \ccode{ESL\_SQ}.\\
+\apisubhead{Digitized version of the \ccode{ESL\_SQ} object. (Requires \ccode{alphabet})}\\
+\hyperlink{func:esl_sq_CreateDigital()}{\ccode{esl\_sq\_CreateDigital()}} & Create a new, empty \ccode{ESL\_SQ} in digital mode.\\
+\hyperlink{func:esl_sq_CreateDigitalFrom()}{\ccode{esl\_sq\_CreateDigitalFrom()}} & Create a new digital \ccode{ESL\_SQ} from text info.\\
+\hyperlink{func:esl_sq_Digitize()}{\ccode{esl\_sq\_Digitize()}} & Convert an \ccode{ESL\_SQ} to digital mode.\\
+\hyperlink{func:esl_sq_Textize()}{\ccode{esl\_sq\_Textize()}} & Convert an \ccode{ESL\_SQ} to text mode.\\
+\hyperlink{func:esl_sq_GuessAlphabet()}{\ccode{esl\_sq\_GuessAlphabet()}} & Guess alphabet type of a single sequence.\\
+\apisubhead{Other functions that operate on sequences.}\\
+\hyperlink{func:esl_sq_SetName()}{\ccode{esl\_sq\_SetName()}} & Format and set a name of a sequence.\\
+\hyperlink{func:esl_sq_SetAccession()}{\ccode{esl\_sq\_SetAccession()}} & Format and set the accession field in a sequence.\\
+\hyperlink{func:esl_sq_SetDesc()}{\ccode{esl\_sq\_SetDesc()}} & Format and set the description field in a sequence.\\
+\hyperlink{func:esl_sq_SetSource()}{\ccode{esl\_sq\_SetSource()}} & Format and set the source name field in a sequence.\\
+\hyperlink{func:esl_sq_CAddResidue()}{\ccode{esl\_sq\_CAddResidue()}} & Add one residue (or terminal NUL) to a text seq.\\
+\hyperlink{func:esl_sq_XAddResidue()}{\ccode{esl\_sq\_XAddResidue()}} & Add one residue (or terminal sentinel) to digital seq.\\
+\hyperlink{func:esl_sq_GetFromMSA()}{\ccode{esl\_sq\_GetFromMSA()}} & Get a single sequence from an MSA.\\
+\hyperlink{func:esl_sq_FetchFromMSA()}{\ccode{esl\_sq\_FetchFromMSA()}} & Fetch a single sequence from an MSA.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{sq} API.}
+\label{tbl:sq_api}
+\end{table}
+
+
+\subsection{Example of getting data in and out of an \ccodeincmd{ESL\_SQ}}
+
+The easiest way to create a new \ccode{ESL\_SQ} object is with the
+\ccode{esl\_sq\_CreateFrom()} function, which just takes character
+strings for a sequence and its name (and also, optionally, an
+accession, description, and/or secondary structure annotation string).
+
+You can also build up (and/or change and manipulate) the contents of
+an \ccode{ESL\_SQ} object by accessing the name, accession,
+description, sequence, and structure annotation line more directly.
+
+This code shows examples of both approaches:
+
+\input{cexcerpts/sq_example}
+
+A few things to notice about that code:
+
+\begin{itemize}
+\item Every sequence has a name and a sequence. If we didn't want to
+  add the optional accession, description, or structure annotation
+  line, we'd pass \ccode{NULL} for those arguments to
+  \ccode{esl\_sq\_CreateFrom()}.
+
+\item An RNA secondary structure annotation line is shown here as part
+  of the example, but it's really sort of a more advanced
+  feature. It's good to know it's there (see the \eslmod{wuss} module
+  for more information about how \Easel\ annotates RNA structure) but
+  you can ignore it if you're getting started.
+
+\item The \ccode{esl\_sq\_Set*} functions use the same syntax as C's
+  \ccode{*printf()} family, which gives you a flexible way to create 
+  new sequence names, accessions, and descriptions automatically.
+
+\item The sequence in \ccode{sq->seq} is just a C string. (Here it's a
+  copy of the \ccode{testseq} string.) That has a couple of
+  implications. One is that it's a verbatim copy of what you provided;
+  \Easel\ doesn't know (or care) whether it's DNA or protein sequence,
+  upper case or lower case, or if it contains illegal non-sequence
+  characters. With a text mode sequence, that's \emph{your} problem!
+  For more robustness and defined biosequence alphabets, read on below
+  about digital mode sequences. The second implication is that, as a C
+  string, the \ccode{n} residues are indexed \ccode{0..sq->n-1}, not
+  \ccode{1..sq->n}.
+
+\item If you're going to directly copy a sequence of length \ccode{n}
+  into a \ccode{sq->seq} field, note the \ccode{esl\_sq\_GrowTo()}
+  call, which makes sure the sequence object is allocated with enough
+  space for \ccode{n} residues; and don't forget to set \ccode{sq->n}.
+
+\item The structure annotation \ccode{sq->ss} is also a C string,
+  indexed identically to \ccode{sq->seq}, but it's optional, and isn't
+  allocated by default; \ccode{esl\_sq\_GrowTo()} calls will only
+  reallocate for the structure annotation string after it's been
+  allocated at least once.  Hence the \ccode{esl\_strdup} call in the
+  example, which duplicates (allocates and copies) the annotation into
+  \ccode{sq->ss}.
+\end{itemize}
+
+
+
+To get simple character strings back out of an \ccode{ESL\_SQ} object,
+you're encouraged to peek inside the object. (Yeah, I know, object
+oriented design says that there should be methods for this,
+independent of the object's implementation; but I balance that against
+simplicity, and here, simplicity wins.) The object is defined and
+documented in \ccode{esl\_sq.h}. It contains various information; the
+stuff you need to know is:
+
+\input{cexcerpts/sq_sq}
+
+Ignore the \ccode{dsq} field for now; we're about to get to it, when
+we talk about digital mode sequences.
+
+The \ccode{ESL\_SQ} object itself doesn't particularly care about the
+contents of these text fields, so long as they're C strings, and so
+long as \ccode{n} is the length of the \ccode{seq} (and optional
+\ccode{ss}, if it's non-\ccode{NULL}) strings. However, sequence file
+formats do impose some expectations on the annotation strings, and it
+would be a Good Idea to adhere to them:
+
+\begin{sreitems} {\emcode{desc}}
+\item [\emcode{name}] A sequence name is almost always expected to be
+  a single ``word'' (no whitespace), like \ccode{SNRPA\_HUMAN}. 
+
+\item [\emcode{acc}] An accession is also usually expected to be a
+  single ``word'' with no whitespace, like \ccode{P09012}. Database
+  accessions only make sense if you know what database they're for, so
+  when sequences might be from different databases, you'll sometimes
+  see accessions prefixed with a code indicating the source database,
+  as in something like \ccode{UniProt:P09012}. Again, \Easel\ itself
+  isn't enforcing the format of this string, so your application is
+  free to create its own accession/version/database format as needed.
+
+\item [\emcode{desc}] A description line is something like \ccode{U1
+small nuclear ribonucleoprotein A (U1 snRNP protein A) (U1A protein)
+(U1-A).}; a one-line summary of what the sequence is. You can expect
+the description line to show up in the tabular output of sequence
+analysis applications, so ideally you want it to be short and sweet
+(so it fits on one line with a name, accession, score, coords, and
+other information from an analysis app). You also don't want the
+description line to end in a newline (\verb+\n+) character, or the
+description line will introduce unexpected line breaks in these
+tabular output files.
+\end{sreitems}
+
+You can reach into a \ccode{ESL\_SQ} and copy or modify any of these
+strings, but don't try to overwrite them with a larger string unless
+You Know What You're Doing. Their memory allocations are managed by
+the \ccode{ESL\_SQ} object. Instead, use the appropriate
+\ccode{esl\_sq\_Set*} function to overwrite an annotation field.
+
+
+The \eslmod{sq} module isn't much use by itself; it's a building block
+for several other modules. For example, one of the main things you'll
+want to do with sequences is to read them from a file. For examples
+and documentation of sequence input, see the \eslmod{sqio} module.
+
+
+\subsection{Example of using a digital \ccodeincmd{ESL\_SQ}}
+
+What follows might make more sense if you've read about the
+\eslmod{alphabet} module first. \eslmod{alphabet}'s documentation
+explains how \Easel uses an internal digital biosequence ``alphabet'',
+where residues are encoded as small integers, suitable for direct use
+as array indices. But here's an example anyway, of creating and
+accessing a digital mode sequence:
+
+\input{cexcerpts/sq_example2}
+
+Things to notice about this code:
+
+\begin{itemize}
+\item An \ccode{ESL\_SQ} object has a \ccode{sq->seq} if it's in text
+mode, and \ccode{sq->dsq} if its in digital mode. These two fields are
+mutually exclusive; one of them is \ccode{NULL}.
+
+\item If you looked at the contents of \ccode{sq->dsq} in either of
+  the objects, you'd see that each residue is encoded as a value
+  \ccode{0..3}, representing (for an RNA alphabet) the residues
+  \ccode{ACGU}. 
+
+\item That representation is defined by the digital RNA alphabet
+  \ccode{abc}, which was the first thing we created. 
+
+\item In digital mode, both the sequence residues and the optional
+  secondary structure characters are indexed \ccode{1..n}.
+
+\item To make the digital sequence in the first sequence object, we
+      created a digital sequence \ccode{dsq} by encoding the
+      \ccode{testseq} using \ccode{esl\_abc\_CreateDsq()}; this
+      function allocated new memory for \ccode{dsq}, so we have to
+      free it. An \ccode{ESL\_DSQ *} is just a special character array;
+      it's not a full-fledged \Easel\ object, and so there's no
+      conventional \ccode{Create()},\ccode{Destroy()} function pair.
+
+\item In the second sequence object, we used
+  \ccode{esl\_abc\_Digitize()} to encode the \ccode{testseq} directly
+  into space that the \ccode{sq2} object already had allocated, saving
+  us the temporary allocation of another \ccode{dsq}, because we
+  created it in digital mode (\ccode{esl\_sq\_CreateDigital()}) and
+  made it big enough to hold \ccode{n} digital residues with
+  \ccode{esl\_sq\_GrowTo()}. Notice that \ccode{esl\_sq\_GrowTo()} is
+  smart enough to know whether to grow the digital or the text mode
+  sequence field.
+
+\item By convention, when using digital sequences, we usually keep
+  track of (and pass as arguments) both a digital sequence \ccode{dsq}
+  and its length \ccode{n}, and we also need to have the digital
+  alphabet itself \ccode{abc} available to know what the \ccode{dsq}
+  means; with text mode sequences, we usually just pass the string
+  pointer. Thus the \ccode{esl\_sq\_CreateDigitalFrom()} function
+  takes \ccode{abc}, \ccode{dsq}, and \ccode{n} as arguments, whereas
+  the counterpart text mode \ccode{esl\_sq\_CreateDigitalFrom()} only
+  took a C string \ccode{seq}. This is solely a convention - digital
+  sequences begin and end with a special sentinel character, so we
+  could always count the length of a \ccode{dsq} if we had to (using
+  \ccode{esl\_abc\_dsqlen()}, for example), much as we can use ANSI
+  C's \ccode{strlen()} to count the number of chars in a C string up
+  to the sentinel \verb+\0+ \ccode{NUL} character at the end.
+
+\item To get the structure annotation to be indexed \ccode{1..n} for
+  consistency with the \ccode{dsq}, even though the annotation string
+  is still just an ASCII string, it's offset by one, and the leading
+  character is set by convention to a \verb+\0+. Therefore to access
+  the whole structure string (for printing, for instance), you want to
+  access \ccode{sq->ss+1}. This is a hack, but it's a simple one, so
+  long as you don't forget about the convention.
+
+\item Because the original sequence has been encoded, you may not get
+  the original sequence back out when you decode the digital values as
+  alphabet symbols. \ccode{abc->sym[sq2->dsq[3]]}, for example, takes
+  the third digital residue and looks it up in the alphabet's symbol
+  table, returning the canonical character it's
+  representing. Upper/lower case distinctions are lost, for example;
+  digital alphabet symbol tables are uniformly upper case. And this
+  example shows another example, where the input \ccode{testseq}
+  contains T's, but since the digital alphabet was declared as RNA,
+  the symbol table represents those residues as U's when you access
+  them.
+
+\item In that respect, a more careful example should have checked the
+  return status of the \ccode{esl\_abc\_CreateDsq()} and
+  \ccode{esl\_abc\_Digitize()} calls. These have a normal failure
+  mode, when the input text sequence contains one or more ASCII
+  characters that are unrecognized and therefore invalid in the
+  digital alphabet. If this had happened, these functions would have
+  returned \ccode{eslEINVAL} instead of \ccode{eslOK}. We can get away
+  without checking, however, because the functions just replace any
+  invalid character with an ``any'' character (representing \ccode{N}
+  for DNA or RNA, \ccode{X} for protein).
+\end{itemize}
+
+For more information about how digital sequence alphabets work, see
+the \eslmod{alphabet} module.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.c
new file mode 100755
index 0000000..f261f04
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.c
@@ -0,0 +1,2433 @@
+/* Unaligned sequence file i/o.
+ * 
+ * Contents:
+ *    1. An <ESL_SQFILE> object, in text mode.
+ *    2. An <ESL_SQFILE> object, in digital mode. [with <alphabet>]
+ *    3. Miscellaneous routines.
+ *    4. Sequence reading (sequential).
+ *    5. Sequence/subsequence fetching, random access [with <ssi>]
+ *    6. Writing sequences.
+ *    7. Parse sequences.
+ *    8. Functions specific to sqio
+ *    9. Benchmark driver.
+ *   10. Unit tests.
+ *   11. Test driver.
+ *   12. Examples.
+ *   13. Copyright and license.
+ * 
+ * This module shares remote evolutionary homology with Don Gilbert's
+ * seminal, public domain ReadSeq package, though the last common
+ * ancestor was circa 1991 and no recognizable vestiges are likely to
+ * remain. Thanks Don!
+ *
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+#ifdef HAVE_STRINGS_H
+#include <strings.h>		/* POSIX strcasecmp() */
+#endif
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"	/* alphabet aug adds digital sequences */
+#endif 
+#include "esl_sqio.h"
+#include "esl_sqio_ascii.h"
+#ifdef eslAUGMENT_NCBI
+#include "esl_sqio_ncbi.h"
+#endif
+#include "esl_sq.h"
+
+/* Optional MSA<->sqio interoperability */
+#ifdef eslAUGMENT_MSA
+#include "esl_msa.h"
+#include "esl_msafile.h"
+static int convert_sq_to_msa(ESL_SQ *sq, ESL_MSA **ret_msa);
+#endif
+
+
+/*****************************************************************
+ *# 1. An <ESL_SQFILE> object, in text mode.
+ *****************************************************************/ 
+
+static int  sqfile_open(const char *filename, int format, const char *env, ESL_SQFILE **ret_sqfp);
+
+/* Function:  esl_sqfile_Open()
+ * Synopsis:  Open a sequence file for reading.
+ *
+ * Purpose:   Open a sequence file <filename> for reading. 
+ *            The opened <ESL_SQFILE> is returned through <ret_sqfp>.
+ * 
+ *            The format of the file is asserted to be <format> (for
+ *            example, <eslSQFILE_FASTA>). If <format> is
+ *            <eslSQFILE_UNKNOWN> then the routine attempts to
+ *            autodetect the file format.
+ *            
+ *            If <env> is non-NULL, it is the name of an environment
+ *            variable that contains a colon-delimited list of
+ *            directories in which we may find this <filename>.
+ *            For example, if we had 
+ *            <setenv BLASTDB /nfs/db/blast-db:/nfs/db/genomes/>
+ *            in the environment, a database search application
+ *            could pass "BLASTDB" as <env>.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_sqfp> points to a new
+ *            open <ESL_SQFILE>. Caller deallocates this object with
+ *            <esl_sqfile_Close()>. 
+ *            
+ *            Returns <eslENOTFOUND> if <filename> can't be found or
+ *            opened.  Returns <eslEFORMAT> if the file is empty, or
+ *            if autodetection is attempted and the format can't be
+ *            determined.  On any error condition, <*ret_sqfp> is
+ *            returned NULL.
+ *             
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_sqfile_Open(const char *filename, int format, const char *env, ESL_SQFILE **ret_sqfp)
+{
+  return sqfile_open(filename, format, env, ret_sqfp);
+}
+
+
+/* Function:  esl_sqfile_Position()
+ * Synopsis:  Reposition an open sequence file to an offset.
+ *
+ * Purpose:   Reposition an open <sqfp> to offset <offset>.
+ *            <offset> would usually be the first byte of a
+ *            desired sequence record.
+ *            
+ *            Only normal sequence files can be positioned to a
+ *            nonzero offset. If <sqfp> corresponds to a standard
+ *            input stream or gzip -dc stream, it may not be
+ *            repositioned. If <sqfp> corresponds to a multiple
+ *            sequence alignment file, the only legal <offset>
+ *            is 0, to rewind the file to the beginning and 
+ *            be able to read the entire thing again.
+ *            
+ *            After <esl_sqfile_Position()> is called on a nonzero
+ *            <offset>, and other bookkeeping information is unknown.
+ *            If caller knows it, it should set it explicitly.
+ *            
+ *            See the SSI module for manipulating offsets and indices.
+ *
+ * Returns:   <eslOK>     on success;
+ *            <eslEOF>    if no data can be read from this position.
+ *
+ * Throws:    <eslESYS> if the fseeko() or fread() call fails.
+ *            <eslEMEM> on (re-)allocation failure.
+ *            <eslEINVAL> if the <sqfp> is not positionable.
+ *            <eslENOTFOUND> if in trying to rewind an alignment file  
+ *              by closing and reopening it, the open fails.
+ *            On errors, the state of <sqfp> is indeterminate, and
+ *            it should not be used again.
+ */
+int
+esl_sqfile_Position(ESL_SQFILE *sqfp, off_t offset)
+{
+  return sqfp->position(sqfp, offset);
+}
+
+
+/* Function:  esl_sqfile_Close()
+ * Synopsis:  Close a sequence file.
+ *
+ * Purpose:   Closes an open <sqfp>.
+ *
+ * Returns:   (void).
+ */
+void
+esl_sqfile_Close(ESL_SQFILE *sqfp)
+{
+  if (sqfp == NULL) return;
+
+  if (sqfp->close != NULL)    sqfp->close(sqfp);
+  if (sqfp->filename != NULL) free(sqfp->filename);
+  free(sqfp);
+
+  return;
+}
+
+
+/* sqfile_open():
+ * This is the routine that actually opens an ESL_SQFILE.
+ * esl_sqfile_Open() and esl_sqfile_OpenDigital() are
+ * small wrappers around it.
+ */
+static int
+sqfile_open(const char *filename, int format, const char *env, ESL_SQFILE **ret_sqfp)
+{
+  ESL_SQFILE *sqfp    = NULL;
+  int         status;		/* return status from an ESL call */
+  int         n;
+
+  char       *s1;
+  char       *s2;
+  char       *list  = NULL;
+  char       *path  = NULL;
+
+  ESL_ALLOC(sqfp, sizeof(ESL_SQFILE));
+  *ret_sqfp          = NULL;
+
+  sqfp->filename     = NULL;
+
+  sqfp->do_digital   = FALSE;
+  sqfp->abc          = NULL;
+
+  sqfp->format       = format;
+
+  /* initialize the function pointers to NULL */
+  sqfp->position          = NULL;
+  sqfp->close             = NULL;
+
+  sqfp->set_digital       = NULL;
+  sqfp->guess_alphabet    = NULL;
+
+  sqfp->is_rewindable     = NULL;
+
+  sqfp->read              = NULL;
+  sqfp->read_info         = NULL;
+  sqfp->read_seq          = NULL;
+  sqfp->read_window       = NULL;
+  sqfp->echo              = NULL;
+
+  sqfp->read_block        = NULL;
+
+#ifdef eslAUGMENT_SSI
+  sqfp->open_ssi          = NULL;
+  sqfp->pos_by_key        = NULL;
+  sqfp->pos_by_number     = NULL;
+
+  sqfp->fetch             = NULL;
+  sqfp->fetch_info        = NULL;
+  sqfp->fetch_subseq      = NULL;
+#endif
+
+  sqfp->get_error         = NULL;
+
+  /* save the user supplied file name */
+  ESL_ALLOC(sqfp->filename, sizeof(char) * (strlen(filename) + 1));
+  strcpy(sqfp->filename, filename);
+
+  /* we need to process the list of directories starting with the local
+   * directory followed by the list in env one directory at a time 
+   * passing the path to the different sequence parsers until we get a hit.
+   */
+  if (strcmp(filename, "-") == 0) { /* stdin special case */
+    if ((status = esl_strdup(filename, -1, &path)) != eslOK) goto ERROR;
+    if ((status = esl_sqascii_Open(path, sqfp->format, sqfp)) != eslOK) goto ERROR;
+  } else {
+
+    /* check the local directory first */
+    status = eslENOTFOUND;
+#ifdef eslAUGMENT_NCBI
+    if (format == eslSQFILE_NCBI && status == eslENOTFOUND)
+      status = esl_sqncbi_Open(sqfp->filename, sqfp->format, sqfp);
+#endif
+    if (status == eslENOTFOUND)
+      status = esl_sqascii_Open(sqfp->filename, sqfp->format, sqfp);
+
+    /* if it's not there, then check in directory list provided by <env>. */
+    if (status == eslENOTFOUND && env != NULL) {
+      if ((s1 = getenv(env)) == NULL) { status = eslENOTFOUND; goto ERROR; }
+      ESL_ALLOC(list, sizeof(char) * (strlen(s1) + 1));
+      strcpy(list + 2, s1);
+
+      ESL_ALLOC(path, sizeof(char) * (strlen(filename) + strlen(list) + 3));
+
+      s1 = list;
+      while (s1 != NULL && status == eslENOTFOUND) {
+	if ((s2 = strchr(s1, ':')) != NULL) { *s2 = '\0'; s2++;}
+	n = strlen(s1);
+	strcpy(path, s1);
+	path[n] = eslDIRSLASH;
+	strcpy(path+n+1, filename);
+	s1 = s2;
+
+#ifdef eslAUGMENT_NCBI
+	if (format == eslSQFILE_NCBI && status == eslENOTFOUND)
+	  status = esl_sqncbi_Open(path, sqfp->format, sqfp);
+#endif
+	if (status == eslENOTFOUND)
+	  status = esl_sqascii_Open(path, sqfp->format, sqfp);
+      }
+    }
+  }
+
+  if (status != eslOK) goto ERROR;
+
+  if (list != NULL) free(list);
+  if (path != NULL) free(path);
+
+  *ret_sqfp = sqfp;
+  return eslOK;
+
+ ERROR:
+  esl_sqfile_Close(sqfp); 
+  if (list != NULL) free(list);
+  if (path != NULL) free(path);
+  *ret_sqfp = NULL;
+  return status;
+}
+/*------------------- ESL_SQFILE open/close -----------------------*/
+
+
+/*****************************************************************
+ *# 2. An <ESL_SQFILE> object, in digital mode [with <alphabet>]
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  esl_sqfile_OpenDigital()
+ * Synopsis:  Open an <ESL_SQFILE> for digital input.
+ *
+ * Purpose:   Same as <esl_sqfile_Open()>, but we will expect all
+ *            sequence input to conform to the digital alphabet <abc>.
+ *            
+ *            Normally, after opening the sequence file in digital
+ *            mode, you'd read sequence into a digital <ESL_SQ>.
+ *            However, you don't actually have to. The state of the
+ *            <ESL_SQ> controls how the input is stored; the state of
+ *            the <ESL_SQFILE> controls how the input is validated.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_sqfp> points to a new
+ *            open <ESL_SQFILE>.
+ *            
+ *            Returns <eslENOTFOUND> if <filename> can't be opened.
+ *            Returns <eslEFORMAT> if the file is empty, or if
+ *            autodetection is attempted and the format can't be
+ *            determined.  On any error conditions, <*ret_sqfp> is
+ *            returned NULL.
+ *             
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_sqfile_OpenDigital(const ESL_ALPHABET *abc, const char *filename, int format, const char *env, ESL_SQFILE **ret_sqfp)
+{
+  int status;
+
+  if ((status = sqfile_open(filename, format, env, ret_sqfp)) != eslOK) return status;
+  return esl_sqfile_SetDigital(*ret_sqfp, abc);
+}
+
+/* Function:  esl_sqfile_SetDigital()
+ * Synopsis:  Set an open <ESL_SQFILE> to read in digital mode.
+ *
+ * Purpose:   Given an <ESL_SQFILE> that's already been opened,
+ *            configure it to expect subsequent input to conform
+ *            to the digital alphabet <abc>.
+ *            
+ *            Calling <esl_sqfile_Open(); esl_sqfile_SetDigital()> is
+ *            equivalent to <esl_sqfile_OpenDigital()>. The two-step
+ *            version is useful when you need a
+ *            <esl_sqfile_GuessAlphabet()> call in between, guessing
+ *            the file's alphabet in text mode before you set it to
+ *            digital mode.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sqfile_SetDigital(ESL_SQFILE *sqfp, const ESL_ALPHABET *abc)
+{
+  sqfp->set_digital(sqfp, abc);
+
+  sqfp->do_digital = TRUE;
+  sqfp->abc        = abc;
+  return eslOK;
+}
+
+
+/* Function:  esl_sqfile_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open <ESL_SQFILE>.
+ *
+ * Purpose:   After opening <sqfp>, attempt to guess what alphabet
+ *            its sequences are in, by inspecting the first sequence
+ *            in the file, and return this alphabet type in <*ret_type>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>.
+ *            
+ *            Returns <eslENOALPHABET> and sets <*ret_type> to 
+ *            <eslUNKNOWN> if the first sequence (or alignment)
+ *            in the file contains no more than ten residues total,
+ *            or if its alphabet cannot be guessed (i.e. it contains
+ *            IUPAC degeneracy codes, but no amino acid specific
+ *            residues).
+ *            
+ *            Returns <eslEFORMAT> if a parse error is encountered in
+ *            trying to read the sequence file. <sqfp->errbuf> is set
+ *            to a useful error message if this occurs,
+ *            <sqfp->linenumber> is the line on which the error
+ *            occurred, and <*ret_type> is set to <eslUNKNOWN>.
+ *            
+ *            Returns <eslENODATA> and sets <*ret_type> to <eslUNKNOWN>
+ *            if the file appears to be empty.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslEINCONCEIVABLE> on unimaginable internal errors.
+ */
+int
+esl_sqfile_GuessAlphabet(ESL_SQFILE *sqfp, int *ret_type)
+{
+  return sqfp->guess_alphabet(sqfp, ret_type);
+}
+
+/* Function:  esl_sqfile_Cache()
+ * Synopsis:  Read a database into memory.
+ *
+ * Purpose:   Read an entire database into memory building a cached
+ *            structure <ESL_SQCACHE>.  The cache structure has basic
+ *            information about the database, ie number of sequences
+ *            number of residues, etc.
+ *
+ *            All sequences <ESL_SQ> are in a memory array <sq_list>.
+ *            The number of elements in the list is <seq_count>.  The
+ *            header pointers, ie name, acc and desc are pointers into
+ *            the <header_mem> buffer.  All digitized sequences are pointers
+ *            into the <residue_mem> buffer.
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            Returns <eslEFORMAT> if a parse error is encountered in
+ *            trying to read the sequence file.
+ *            
+ *            Returns <eslENODATA> if the file appears to be empty.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ */
+int  
+esl_sqfile_Cache(const ESL_ALPHABET *abc, const char *seqfile, int fmt, const char *env, ESL_SQCACHE **ret_sqcache)
+{
+  int          status;
+
+  int          n;
+
+  uint32_t     len;
+  uint32_t     max;
+  uint32_t     count;
+
+  uint64_t     res_size = 1;
+  uint64_t     hdr_size = 1;
+
+  ESL_SQFILE  *sqfp    = NULL;
+
+  ESL_SQ      *c       = NULL;
+  ESL_SQ      *sq      = NULL;
+  ESL_SQCACHE *cache   = NULL;
+
+  ESL_DSQ     *res_ptr = NULL;
+  char        *hdr_ptr = NULL;
+
+  /* open the database */
+  status = esl_sqfile_OpenDigital(abc, seqfile, fmt, env, &sqfp);
+  if (status != eslOK) return status;
+
+  /* if we can't rewind the database, stop now.  */
+  if (!esl_sqfile_IsRewindable(sqfp)) return eslFAIL;
+
+  /* loop through the database reading all the sequnces */
+  max = 0;
+  count = 0;
+  sq  = esl_sq_CreateDigital(abc);
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK) {
+    ++count;
+
+    res_size += sq->n + 1;
+    if (sq->n > max) max = sq->n;
+
+    len = strlen(sq->name);
+    if (len > 0) ++len;
+    hdr_size += len;
+
+    len = strlen(sq->acc);
+    if (len > 0) ++len;
+    hdr_size += len;
+
+    len = strlen(sq->desc);
+    if (len > 0) ++len;
+    hdr_size += len;
+
+    esl_sq_Reuse(sq);
+  }
+  if (status != eslEOF) goto ERROR;
+  
+  /* now that the database information is know, allocate the memory to
+   * hold the data.  different memory blocks will be used to hold the
+   * redisues and header info.  the idea is that since the header info,
+   * ie, name, acc, etc is used infrenquently (only when there is a hit)
+   * if some pages need to be swapped out, hopefully it will be the
+   * header pages first leaving the sequences in memory.
+   */
+  ESL_ALLOC(cache, sizeof(ESL_SQCACHE));
+
+  cache->filename    = NULL;
+  cache->sq_list     = NULL;
+  cache->residue_mem = NULL;
+  cache->header_mem  = NULL;
+
+  cache->abc         = abc;
+  cache->format      = fmt;
+  cache->seq_count   = count;
+  cache->res_count   = res_size;
+  cache->max_seq     = max;
+
+  cache->res_size    = res_size + 2;
+  cache->hdr_size    = hdr_size;
+
+  ESL_ALLOC(cache->filename, strlen(seqfile) + 1);
+  strcpy(cache->filename, seqfile);
+
+  ESL_ALLOC(cache->sq_list, sizeof(ESL_SQ) * (count + 1));
+
+  /* different memory blocks will be used to hold the residues and header
+   * info.  the idea is that since the header info, ie, name, acc, etc.
+   * is used infrenquently (only when there is a hit) if some pages need
+   * to be swapped out, hopefully it will be the header pages first
+   * leaving the sequences in memory.
+   */
+  ESL_ALLOC(cache->residue_mem, res_size + 2);
+  ESL_ALLOC(cache->header_mem, hdr_size);
+
+  hdr_ptr  = cache->header_mem;
+  *hdr_ptr = 0;
+
+  res_ptr  = cache->residue_mem;
+  *res_ptr = eslDSQ_SENTINEL;
+
+  /* loop through the database filling in the cache */
+  n = 0;
+  esl_sqfile_Position(sqfp, 0);
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK) {
+    c = cache->sq_list + n;
+
+    /* if header fields have been defined, copy them to the cache */
+    c->name = hdr_ptr;
+    if (sq->name[0] != 0) {
+      c->name = hdr_ptr + 1;
+      strcpy(c->name, sq->name);
+      hdr_ptr += strlen(sq->name) + 1;
+    }
+
+    c->acc = hdr_ptr;
+    if (sq->acc[0] != 0) {
+      c->acc = hdr_ptr + 1;
+      strcpy(c->acc, sq->acc);
+      hdr_ptr += strlen(sq->acc) + 1;
+    }
+
+    c->desc = hdr_ptr;
+    if (sq->desc[0] != 0) {
+      c->desc = hdr_ptr + 1;
+      strcpy(c->desc, sq->desc);
+      hdr_ptr += strlen(sq->desc) + 1;
+    }
+
+    c->tax_id = sq->tax_id;
+    c->seq    = NULL;
+    c->ss     = NULL;
+    c->nxr    = 0;
+    c->xr_tag = NULL;
+    c->xr     = NULL;
+
+    /* copy the digitized sequence */
+    memcpy(res_ptr + 1, sq->dsq + 1, sq->n + 1);
+    c->dsq   = res_ptr;
+    c->n     = sq->n;
+    res_ptr += sq->n + 1;
+
+    /* Coordinate info */
+    c->start = sq->start;
+    c->end = sq->end;
+    c->C = sq->C;
+    c->W = sq->W;
+    c->L = sq->L;
+
+    c->source = NULL;
+
+    /* allocated lengths */
+    c->nalloc   = -1;
+    c->aalloc   = -1;
+    c->dalloc   = -1;
+    c->salloc   = -1;
+    c->srcalloc = -1;
+
+    /* Disk offset bookkeeping */
+    c->idx  = n;
+    c->roff = sq->roff;
+    c->hoff = sq->hoff;
+    c->doff = sq->doff;
+    c->eoff = sq->eoff;
+
+    c->abc = abc;
+
+    esl_sq_Reuse(sq);
+    ++n;
+  }
+  if (status != eslEOF) goto ERROR;
+
+  /* add on last empty sequence */
+  c = cache->sq_list + count;
+  *(res_ptr + 1) = eslDSQ_SENTINEL;
+
+  c->name     = hdr_ptr;
+  c->acc      = hdr_ptr;
+  c->desc     = hdr_ptr;
+
+  c->tax_id   = -1;
+  c->seq      = NULL;
+  c->ss       = NULL;
+  c->nxr      = 0;
+  c->xr_tag   = NULL;
+  c->xr       = NULL;
+
+  c->dsq      = res_ptr;
+  c->n        = 0;
+
+  c->start    = 0;
+  c->end      = 0;
+  c->C        = 0;
+  c->W        = 0;
+  c->L        = -1;
+
+  c->source   = NULL;
+
+  c->nalloc   = -1;
+  c->aalloc   = -1;
+  c->dalloc   = -1;
+  c->salloc   = -1;
+  c->srcalloc = -1;
+
+  c->idx      = count;
+  c->roff     = -1;
+  c->hoff     = -1;
+  c->doff     = -1;
+  c->eoff     = -1;
+
+  c->abc      = NULL;
+ 
+  if (sq != NULL) esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+
+  *ret_sqcache = cache;
+
+  return eslOK;
+
+ERROR:
+  if (sq != NULL) esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+
+  esl_sqfile_Free(cache);
+
+  return status;
+}
+
+/* Function:  esl_sqfile_Free()
+ * Synopsis:  Free a cached database <ESL_SQCACHE>.
+ *
+ * Purpose:   Frees all the memory used to cache the sequence database.
+ *
+ * Returns:   none.
+ */
+void  
+esl_sqfile_Free(ESL_SQCACHE *sqcache)
+{
+  if (sqcache == NULL) return;
+
+  if (sqcache->filename    != NULL) free(sqcache->filename);
+  if (sqcache->sq_list     != NULL) free(sqcache->sq_list);
+  if (sqcache->residue_mem != NULL) free(sqcache->residue_mem);
+  if (sqcache->header_mem  != NULL) free(sqcache->header_mem);
+
+  sqcache->abc         = NULL;
+  sqcache->filename    = NULL;
+  sqcache->sq_list     = NULL;
+  sqcache->residue_mem = NULL;
+  sqcache->header_mem  = NULL;
+
+  free(sqcache);
+}
+
+
+#endif /*eslAUGMENT_ALPHABET*/
+/*-------------- end, digital mode ESL_SQFILE -------------------*/
+
+
+
+/*****************************************************************
+ *# 3. Miscellaneous routines 
+ *****************************************************************/ 
+
+/* Function:  esl_sqfile_IsRewindable()
+ * Synopsis:  Return <TRUE> if <sqfp> can be rewound.
+ *
+ * Purpose:   Returns <TRUE> if <sqfp> can be rewound (positioned 
+ *            to an offset of zero), in order to read it a second
+ *            time.
+ */
+int
+esl_sqfile_IsRewindable(const ESL_SQFILE *sqfp)
+{
+  return sqfp->is_rewindable(sqfp);
+}
+
+
+/* Function:  esl_sqfile_GetErrorBuf()
+ * Synopsis:  Return the error buffer
+ *
+ * Purpose:   Returns the pointer to the error buffer.
+ *            Each parser is responsible for formatting
+ *            a zero terminated string describing the
+ *            error condition.
+ *
+ * Returns:   A pointer the error message.
+ */
+const char *
+esl_sqfile_GetErrorBuf(const ESL_SQFILE *sqfp)
+{
+  return sqfp->get_error(sqfp);
+}
+
+
+/* Function:  esl_sqio_Ignore()
+ * Synopsis:  Sets the input map to ignore one or more input characters.
+ *
+ * Purpose:   Set the input map of the open <sqfp> to allow
+ *            the characters in the string <ignoredchars> to appear
+ *            in input sequences. These characters will be ignored.
+ *
+ *            For example, an application might want to ignore '*'
+ *            characters in its sequence input, because some translated
+ *            peptide files use '*' to indicate stop codons.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sqio_Ignore(ESL_SQFILE *sqfp, const char *ignoredchars)
+{
+  int i;
+  for (i = 0; ignoredchars[i] != '\0'; i++)
+    sqfp->inmap[(int) ignoredchars[i]] = eslDSQ_IGNORED;
+  return eslOK;
+}
+
+/* Function:  esl_sqio_AcceptAs()
+ * Synopsis:  Map a list of additional characters.
+ *
+ * Purpose:   Set the input map of the open <sqfp> to allow the 
+ *            characters in the string <xchars> to appear in 
+ *            input sequences. These characters will all be 
+ *            mapped to the character <readas> (or, for digital
+ *            sequence input, to the digitized representation 
+ *            of the text character <readas> in the <sqfp>'s
+ *            digital alphabet).
+ *            
+ *            For example, an application might want to read
+ *            '*' as 'X' when reading translated peptide files
+ *            that use '*' to indicate a stop codon.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sqio_AcceptAs(ESL_SQFILE *sqfp, char *xchars, char readas)
+{
+  int i;
+  
+#ifdef eslAUGMENT_ALPHABET
+  if (sqfp->do_digital)
+    {
+      for (i = 0; xchars[i] != '\0'; i++)
+	sqfp->inmap[(int) xchars[i]] = esl_abc_DigitizeSymbol(sqfp->abc, readas);
+    }
+#endif
+  if (! sqfp->do_digital)
+    {
+      for (i = 0; xchars[i] != '\0'; i++)
+	sqfp->inmap[(int) xchars[i]] = readas;
+    }
+  return eslOK;
+
+}
+
+
+/* Function:  esl_sqio_EncodeFormat()
+ * Synopsis:  Convert a string to an internal format code.
+ *
+ * Purpose:   Given <fmtstring>, return format code.  For example, if
+ *            <fmtstring> is "fasta", returns <eslSQFILE_FASTA>. Returns 
+ *            <eslSQFILE_UNKNOWN> if <fmtstring> doesn't exactly match a 
+ *            known format.
+ *            
+ *            Matching is case insensitive; fasta, FASTA, and FastA
+ *            all return <eslSQFILE_FASTA>, for example.
+ *            
+ *            When augmented by msa, then alignment file formats
+ *            are recognized in addition to unaligned file formats.
+ */
+int
+esl_sqio_EncodeFormat(char *fmtstring)
+{
+  if (strcasecmp(fmtstring, "fasta")     == 0) return eslSQFILE_FASTA;
+  if (strcasecmp(fmtstring, "embl")      == 0) return eslSQFILE_EMBL;
+  if (strcasecmp(fmtstring, "genbank")   == 0) return eslSQFILE_GENBANK;
+  if (strcasecmp(fmtstring, "ddbj")      == 0) return eslSQFILE_DDBJ;
+  if (strcasecmp(fmtstring, "uniprot")   == 0) return eslSQFILE_UNIPROT;
+  if (strcasecmp(fmtstring, "daemon")    == 0) return eslSQFILE_DAEMON;
+  if (strcasecmp(fmtstring, "hmmpgmd")   == 0) return eslSQFILE_HMMPGMD;
+  if (strcasecmp(fmtstring, "hmmerfm")   == 0) return eslSQFILE_FMINDEX;
+
+
+#ifdef eslAUGMENT_NCBI
+  if (strcasecmp(fmtstring, "ncbi")      == 0) return eslSQFILE_NCBI;
+#endif
+#ifdef eslAUGMENT_MSA
+  return eslx_msafile_EncodeFormat(fmtstring);
+#endif
+  return eslSQFILE_UNKNOWN;
+}
+
+/* Function:  esl_sqio_DecodeFormat()
+ * Synopsis:  Returns descriptive string for file format code.
+ *
+ * Purpose:   Given a format code <fmt>, returns a string label for
+ *            that format. For example, if <fmt> is <eslSQFILE_FASTA>,
+ *            returns "FASTA". 
+ *            
+ *            When augmented by msa, then alignment file format codes
+ *            are recognized in addition to unaligned file format codes.
+ */
+char *
+esl_sqio_DecodeFormat(int fmt)
+{
+#ifdef eslAUGMENT_MSA
+  if (esl_sqio_IsAlignment(fmt)) return eslx_msafile_DecodeFormat(fmt);
+#endif
+
+  switch (fmt) {
+  case eslSQFILE_UNKNOWN:    return "unknown";
+  case eslSQFILE_FASTA:      return "FASTA";
+  case eslSQFILE_EMBL:       return "EMBL";
+  case eslSQFILE_GENBANK:    return "GenBank";
+  case eslSQFILE_DDBJ:       return "DDBJ";
+  case eslSQFILE_UNIPROT:    return "UniProt";
+  case eslSQFILE_DAEMON:     return "daemon";
+  case eslSQFILE_HMMPGMD:    return "hmmpgmd";
+  case eslSQFILE_FMINDEX:    return "hmmerfm";
+#ifdef eslAUGMENT_NCBI
+  case eslSQFILE_NCBI:       return "NCBI";
+#endif
+  default:                   break;
+  }
+  esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__,  "no such sqio format code %d", fmt);
+  return NULL;
+}
+
+/* Function:  esl_sqio_IsAlignment()
+ * Synopsis:  Return TRUE for alignment file format codes.
+ *
+ * Purpose:   Returns TRUE if <fmt> is an alignment file
+ *            format code; else returns FALSE.
+ *            
+ *            This function only checks the convention
+ *            that <fmt> codes $<$100 are unaligned formats,
+ *            and $\geq$100 are aligned formats. It does
+ *            not check that <fmt> is a recognized format
+ *            code.
+ */
+int
+esl_sqio_IsAlignment(int fmt)
+{
+  return (fmt >= 100 ? TRUE : FALSE);
+}
+
+
+
+/*****************************************************************
+ *# 4. Sequence reading (sequential)
+ *****************************************************************/ 
+
+/* Function:  esl_sqio_Read()
+ * Synopsis:  Read the next sequence from a file.
+ *
+ * Purpose:   Reads the next sequence from open sequence file <sqfp> into 
+ *            <sq>. Caller provides an allocated and initialized <s>, which
+ *            will be internally reallocated if its space is insufficient.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <s>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character; the line number that the parse
+ *            error occurs on is in <sqfp->linenumber>, and an informative
+ *            error message is placed in <sqfp->errbuf>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+int
+esl_sqio_Read(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  return sqfp->read(sqfp, sq);
+}
+
+
+/* Function:  esl_sqio_ReadInfo()
+ * Synopsis:  Read sequence info, but not the sequence itself.
+ *
+ * Purpose:   Read the next sequence from open sequence file <sqfp>,
+ *            but don't store the sequence (or secondary structure).
+ *            Upon successful return, <s> holds all the available 
+ *            information about the sequence -- its name, accession,
+ *            description, and overall length <sq->L>. 
+ *            
+ *            This is useful for indexing sequence files, where
+ *            individual sequences might be ginormous, and we'd rather
+ *            avoid reading complete seqs into memory.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sqio_ReadInfo(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  return sqfp->read_info(sqfp, sq);
+}
+
+
+/* Function:  esl_sqio_ReadSequence()
+ * Synopsis:  Read sequence, but not the header itself.
+ *
+ * Purpose:   Read the next sequence from open sequence file <sqfp>,
+ *            skipping over the header data.  Upon successful return, 
+ *            <s> holds just the sequece data.  File offsets will be
+ *            filled in.
+ *            
+ *            This is useful fast reads of binary formats where the
+ *            header information and sequences are stored in different
+ *            files.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_sqio_ReadSequence(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  return sqfp->read_seq(sqfp, sq);
+}
+
+
+/* Function:  esl_sqio_ReadWindow()
+ * Synopsis:  Read next window of sequence.
+ *
+ * Purpose:   Read a next window of <W> residues from open file <sqfp>,
+ *            keeping <C> residues from the previous window as
+ *            context, and keeping previous annotation in the <sq>
+ *            as before. 
+ *            
+ *            If this is the first window of a new sequence record,
+ *            <C> is ignored (there's no previous context yet), and
+ *            the annotation fields of the <sq> (name, accession, and
+ *            description) are initialized by reading the sequence
+ *            record's header. This is the only time the annotation
+ *            fields are initialized.
+ *            
+ *            On return, <sq->dsq[]> contains the window and its
+ *            context; residues <1..sq->C> are the previous context,
+ *            and residues <sq->C+1..sq->n> are the new window.  The
+ *            start and end coordinates of the whole <dsq[1..n]>
+ *            (including context) in the original source sequence are
+ *            <sq->start..sq->end>. (Or, for text mode sequences,
+ *            <sq->seq[0..sq->C-1,sq->C..sq->n-1]>, while <start> and
+ *            <end> coords are still <1..L>.)
+ *
+ *            When a sequence record is completed and no more data
+ *            remain, <eslEOD> is returned, with an ``info'' <sq>
+ *            structure (containing the annotation and the total
+ *            sequence length <L>, but no sequence). (The total
+ *            sequence length <L> is unknown in <sq> until this
+ *            <eslEOD> return.)
+ *            
+ *            The caller may then do one of two things before calling
+ *            <esl_sq_ReadWindow()> again; it can reset the sequence
+ *            with <esl_sq_Reuse()> to continue reading the next
+ *            sequence in the file, or it can set a negative <W> as a
+ *            signal to read windows from the reverse complement
+ *            (Crick) strand. Reverse complement reading only works
+ *            for nucleic acid sequence. 
+ *            
+ *            If you read the reverse complement strand, you must read
+ *            the whole thing, calling <esl_sqio_ReadWindow()> with
+ *            negative <W> windows until <eslEOD> is returned again
+ *            with an empty (info-only) <sq> structure. When that
+ *            <EOD> is reached, the <sqfp> is repositioned at the
+ *            start of the next sequence record; the caller should now
+ *            <Reuse()> the <sq>, and the next <esl_sqio_ReadWindow()>
+ *            call must have a positive <W>, corresponding to starting
+ *            to read the Watson strand of the next sequence.
+ *
+ *            Note that the <ReadWindow()> interface is designed for
+ *            an idiom of sequential reading of complete sequences in
+ *            overlapping windows, possibly on both strands; if you
+ *            want more freedom to move around in the sequence
+ *            grabbing windows in another order, you can use the
+ *            <FetchSubseq()> interface.
+ *
+ *            Reading the reverse complement strand requires file
+ *            repositioning, so it will not work on non-repositionable
+ *            streams like gzipped files or a stdin pipe. Moreover,
+ *            for reverse complement input to be efficient, the
+ *            sequence file should have consistent line lengths, 
+ *            suitable for SSI's fast subsequence indexing.
+ *            
+ * Returns:   <eslOK> on success; <sq> now contains next window of
+ *            sequence, with at least 1 new residue. The number
+ *            of new residues is <sq->W>; <sq->C> residues are 
+ *            saved from the previous window. Caller may now
+ *            process residues <sq->dsq[sq->C+1]..sq->dsq[sq->n]>.
+ *            
+ *            <eslEOD> if no new residues were read for this sequence
+ *            and strand, and <sq> now contains an empty info-only
+ *            structure (annotation and <L> are valid). Before calling
+ *            <esl_sqio_ReadWindow()> again, caller will either want
+ *            to make <W> negative (to start reading the Crick strand
+ *            of the current sequence), or it will want to reset the
+ *            <sq> (with <esl_sq_Reuse()>) to go on the next sequence.
+ *            
+ *            <eslEOF> if we've already returned <eslEOD> before to
+ *            signal the end of the previous seq record, and moreover,
+ *            there's no more sequence records in the file.
+ *            
+ *            <eslEINVAL> if an invalid residue is found in the
+ *            sequence, or if you attempt to take the reverse
+ *            complement of a sequence that can't be reverse
+ *            complemented.
+ *
+ * Throws:    <eslESYNTAX> if you try to read a reverse window before
+ *            you've read forward strand.
+ *            
+ *            <eslECORRUPT> if something goes awry internally in the
+ *            coordinate system.
+ *            
+ *            <eslEMEM> on allocation error.
+ */
+int
+esl_sqio_ReadWindow(ESL_SQFILE *sqfp, int C, int W, ESL_SQ *sq)
+{
+  return sqfp->read_window(sqfp, C, W, sq);
+}
+
+/* Function:  esl_sqio_ReadBlock()
+ * Synopsis:  Read the next block of sequences from a file.
+ *
+ * Purpose:   Reads a block of sequences from open sequence file <sqfp> into 
+ *            <sqBlock>.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <sqBlock>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character; the line number that the parse
+ *            error occurs on is in <sqfp->linenumber>, and an informative
+ *            error message is placed in <sqfp->errbuf>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+int
+esl_sqio_ReadBlock(ESL_SQFILE *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target)
+{
+  return sqfp->read_block(sqfp, sqBlock, max_residues, max_sequences, long_target);
+}
+
+/* Function:  esl_sqio_Echo()
+ * Synopsis:  Echo a sequence's record onto output stream.
+ *
+ * Purpose:   Given a complete <sq> that we have read by some means
+ *            from an open <sqfp>; echo that sequence's record
+ *            onto the output stream <ofp>. 
+ *
+ *            This allows records to be regurgitated exactly as they
+ *            appear, rather than writing the subset of information
+ *            stored in an <ESL_SQ>. <esl-sfetch> in the miniapps uses
+ *            this, for example.
+ *            
+ *            Because this relies on repositioning the <sqfp>, it
+ *            cannot be called on non-positionable streams (stdin or
+ *            gzipped files). Because it relies on the sequence lying
+ *            in a contiguous sequence of bytes in the file, it cannot
+ *            be called on a sequence in a multiple alignment file.
+ *            Trying to do so throws an <eslEINVAL> exception.
+ *            
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEINVAL>   if <sqfp> isn't a repositionable sequence file.
+ *            <eslECORRUPT> if we run out of data, probably from bad offsets
+ *            <eslEMEM>     on allocation failure.
+ *            <eslESYS>     on system call failures.
+ *            
+ *            
+ */
+int
+esl_sqio_Echo(ESL_SQFILE *sqfp, const ESL_SQ *sq, FILE *ofp)
+{
+  return sqfp->echo(sqfp, sq, ofp);
+}
+/*------------------ end, sequential sequence input -------------*/
+
+
+/*****************************************************************
+ *# 5. Sequence/subsequence fetching, random access [with <ssi>]
+ *****************************************************************/
+#ifdef eslAUGMENT_SSI
+
+/* Function:  esl_sqfile_OpenSSI()
+ * Synopsis:  Opens an SSI index associated with a sequence file.
+ *
+ * Purpose:   Opens an SSI index file associated with the already open
+ *            sequence file <sqfp>. If successful, the necessary
+ *            information about the open SSI file is stored internally
+ *            in <sqfp>.
+ *            
+ *            The SSI index file name is determined in one of two
+ *            ways, depending on whether a non-<NULL> <ssifile_hint>
+ *            is provided.
+ *            
+ *            If <ssifile_hint> is <NULL>, the default for
+ *            constructing the SSI filename from the sequence
+ *            filename, by using exactly the same path (if any) for
+ *            the sequence filename, and appending the suffix <.ssi>.
+ *            For example, the SSI index for <foo> is <foo.ssi>, for
+ *            <./foo.fa> is <./foo.fa.ssi>, and for
+ *            </my/path/to/foo.1.fa> is </my/path/to/foo.1.fa.ssi>.
+ *            
+ *            If <ssifile_hint> is <non-NULL>, this exact fully
+ *            qualified path is used as the SSI file name.
+ *
+ * Returns:   <eslOK> on success, and <sqfp->ssi> is now internally
+ *            valid.
+ *            
+ *            <eslENOTFOUND> if no SSI index file is found;
+ *            <eslEFORMAT> if it's found, but appears to be in incorrect format;
+ *            <eslERANGE> if the SSI file uses 64-bit offsets but we're on
+ *            a system that doesn't support 64-bit file offsets.
+ *
+ * Throws:    <eslEINVAL> if the open sequence file <sqfp> doesn't
+ *            correspond to a normal sequence flatfile -- we can't
+ *            random access in .gz compressed files, standard input,
+ *            or multiple alignment files that we're reading
+ *            sequentially.
+ *            
+ *            Throws <eslEMEM> on allocation error.
+ */
+int
+esl_sqfile_OpenSSI(ESL_SQFILE *sqfp, const char *ssifile_hint)
+{
+  return sqfp->open_ssi(sqfp, ssifile_hint);
+}
+
+
+
+/* Function:  esl_sqfile_PositionByKey()
+ * Synopsis:  Use SSI to reposition seq file to a particular sequence.
+ *
+ * Purpose:   Reposition <sqfp> so that the next sequence we read will
+ *            be the one named (or accessioned) <key>.
+ *            
+ *            <sqfp->linenumber> is reset to be relative to the start
+ *            of the record named <key>, rather than the start of the
+ *            file.
+ *
+ * Returns:   <eslOK> on success, and the file <sqfp> is repositioned
+ *            so that the next <esl_sqio_Read()> call will read the
+ *            sequence named <key>.
+ *            
+ *            Returns <eslENOTFOUND> if <key> isn't found in the
+ *            index; in this case, the position of <sqfp> in the file
+ *            is unchanged.
+ *            
+ *            Returns <eslEFORMAT> if something goes wrong trying to
+ *            read the index, almost certainly indicating a format
+ *            problem in the SSI file.
+ *            
+ *            Returns <eslEOF> if, after repositioning, we fail to
+ *            load the next line or buffer from the sequence file;
+ *            this probably also indicates a format problem in the SSI
+ *            file.
+ * 
+ * Throws:    <eslEMEM>   on allocation error;
+ *            <eslEINVAL> if there's no open SSI index in <sqfp>;
+ *            <eslESYS>   if the <fseek()> fails.
+ *            
+ *            In all these cases, the state of <sqfp> becomes
+ *            undefined, and the caller should not use it again.
+ */
+int
+esl_sqfile_PositionByKey(ESL_SQFILE *sqfp, const char *key)
+{
+  return sqfp->pos_by_key(sqfp, key);
+}
+
+
+/* Function:  esl_sqfile_PositionByNumber()
+ * Synopsis:  Use SSI to reposition by sequence number
+ *
+ * Purpose:   Reposition <sqfp> so that the next sequence we 
+ *            read will be the <which>'th sequence, where <which>
+ *            is <0..sqfp->ssi->nprimary-1>. 
+ *            
+ *            <sqfp->linenumber> is reset to be relative to the start
+ *            of the record named <key>, rather than the start of the
+ *            file.
+ *
+ * Returns:   <eslOK> on success, and the file <sqfp> is repositioned.
+ *            
+ *            Returns <eslENOTFOUND> if there is no sequence number
+ *            <which> in the index; in this case, the position of
+ *            <sqfp> in the file is unchanged.
+ *            
+ *            Returns <eslEFORMAT> if something goes wrong trying to
+ *            read the index, almost certainly indicating a format
+ *            problem in the SSI file.
+ *            
+ *            Returns <eslEOF> if, after repositioning, we fail to
+ *            load the next line or buffer from the sequence file;
+ *            this probably also indicates a format problem in the SSI
+ *            file.
+ * 
+ * Throws:    <eslEMEM>   on allocation error;
+ *            <eslEINVAL> if there's no open SSI index in <sqfp>;
+ *            <eslESYS>   if the <fseek()> fails.
+ *            
+ *            In all these cases, the state of <sqfp> becomes
+ *            undefined, and the caller should not use it again.
+ */
+int
+esl_sqfile_PositionByNumber(ESL_SQFILE *sqfp, int which)
+{
+  return sqfp->pos_by_number(sqfp, which);
+}
+
+
+/* Function:  esl_sqio_Fetch()
+ * Synopsis:  Fetch a complete sequence, using SSI indexing.
+ *
+ * Purpose:   Fetch a sequence named (or accessioned) <key> from
+ *            the repositionable, open sequence file <sqfp>.
+ *            The open <sqfp> must have an open SSI index.
+ *            The sequence is returned in <sq>.
+ *
+ * Returns:   <eslOK> on soccess.
+ *            <eslEINVAL> if no SSI index is present, or if <sqfp> can't
+ *            be repositioned.
+ *            <eslENOTFOUND> if <source> isn't found in the file.
+ *            <eslEFORMAT> if either the index file or the sequence file
+ *            can't be parsed, because of unexpected format issues.
+ *       
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sqio_Fetch(ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq)
+{
+  return sqfp->fetch(sqfp, key, sq);
+}
+  
+/* Function:  esl_sqio_FetchInfo()
+ * Synopsis:  Fetch a sequence's info, using SSI indexing.
+ *
+ * Purpose:   Fetch a sequence named (or accessioned) <key> from
+ *            the repositionable, open sequence file <sqfp>, reading
+ *            all info except the sequence (and secondary structure).
+ *            The open <sqfp> must have an open SSI index.
+ *            The sequence info is returned in <sq>.
+ *
+ * Returns:   <eslOK> on soccess.
+ *            <eslEINVAL> if no SSI index is present, or if <sqfp> can't
+ *            be repositioned.
+ *            <eslENOTFOUND> if <source> isn't found in the file.
+ *            <eslEFORMAT> if either the index file or the sequence file
+ *            can't be parsed, because of unexpected format issues.
+ *       
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_sqio_FetchInfo(ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq)
+{
+  return sqfp->fetch_info(sqfp, key, sq);
+}
+  
+
+/* Function:  esl_sqio_FetchSubseq()
+ * Synopsis:  Fetch a subsequence, using SSI indexing.
+ *
+ * Purpose:   Fetch subsequence <start..end> from a sequence named (or
+ *            accessioned) <source>, in the repositionable, open sequence file <sqfp>.
+ *            The open <sqfp> must have an SSI index. Put the
+ *            subsequence in <sq>. 
+ *            
+ *            As a special case, if <end> is 0, the subsequence is
+ *            fetched all the way to the end, so you don't need to
+ *            look up the sequence length <L> to fetch a suffix.
+ *            
+ *            The caller may want to rename/reaccession/reannotate the
+ *            subsequence.  Upon successful return, <sq->name> is set
+ *            to <source/start-end>, and <sq->source> is set to
+ *            <source> The accession and description <sq->acc> and
+ *            <sq->desc> are set to the accession and description of
+ *            the source sequence.
+ *            
+ * Returns:   <eslOK> on success.
+ *            <eslEINVAL> if no SSI index is present, or if <sqfp> can't
+ *            be repositioned.
+ *            <eslENOTFOUND> if <source> isn't found in the file.
+ *            <eslEFORMAT> if either the index file or the sequence file
+ *            can't be parsed, because of unexpected format issues.
+ *            <eslERANGE> if the <start..end> coords don't lie entirely
+ *            within the <source> sequence.
+ *
+ * Throws:    <eslEMEM> on allocation errors.
+ */
+int
+esl_sqio_FetchSubseq(ESL_SQFILE *sqfp, const char *source, int64_t start, int64_t end, ESL_SQ *sq)
+{
+  return sqfp->fetch_subseq(sqfp, source, start, end, sq);
+}  
+#endif /*eslAUGMENT_SSI*/
+/*------------- end, random sequence access with SSI -------------------*/
+
+
+
+/*****************************************************************
+ *# 6. Writing sequences.
+ *****************************************************************/
+
+/* Function:  esl_sqio_Write()
+ * Synopsis:  Write a sequence to a file.
+ *
+ * Purpose:   Write sequence <s> to an open FILE <fp> in 
+ *            file format <format>.  If <update> is true,
+ *            set the offsets for sequence <s>.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on system write error, such as filled disk.
+ */
+int
+esl_sqio_Write(FILE *fp, ESL_SQ *s, int format, int update)
+{
+  int status;
+
+#ifdef eslAUGMENT_MSA
+  ESL_MSA *msa;
+  if (esl_sqio_IsAlignment(format))
+    {
+      if ((status = convert_sq_to_msa(s, &msa)) != eslOK) return status;
+      status = eslx_msafile_Write(fp, msa, format);
+      esl_msa_Destroy(msa);
+      return status;
+    }
+#endif
+
+  switch (format) {
+  case eslSQFILE_FASTA:   
+  case eslSQFILE_HMMPGMD:
+    status = esl_sqascii_WriteFasta(fp, s, update); 
+    break;
+  default: 
+    ESL_EXCEPTION(eslEINCONCEIVABLE, "can't write that format");
+  }
+  return status;
+}
+/*-------------------- writing sequences  -----------------------*/
+
+
+
+/* Function:  esl_sqio_Parse()
+ * Synopsis:  Parse a sequence already read into a buffer.
+ *
+ * Purpose:   Parse the buffer <buf> for a sequence <s> of type
+ *            <format>.  The buffer must contain the entire sequence.
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM>  on allocation error.
+ *            <eslEFORMAT>  on parsing error.
+ *            <eslEINVAL> on unsupported format.
+ */
+int
+esl_sqio_Parse(char *buf, int size, ESL_SQ *s, int format)
+{
+  int status;
+
+  switch (format) {
+  case eslSQFILE_EMBL:     
+  case eslSQFILE_UNIPROT:  
+  case eslSQFILE_GENBANK:  
+  case eslSQFILE_DDBJ:     
+  case eslSQFILE_FASTA:    
+  case eslSQFILE_DAEMON:   
+    status = esl_sqascii_Parse(buf, size, s, format);
+
+    break;
+  default: 
+    ESL_EXCEPTION(eslEINVAL, "can't parse that format");
+  }
+  return status;
+}
+
+
+
+/*****************************************************************
+ *  8. Functions specific to sqio <-> msa interoperation [with <msa>] 
+ *****************************************************************/
+
+#ifdef eslAUGMENT_MSA
+/* convert_sq_to_msa()
+ * 
+ * Given a <sq>, create and return an "MSA" through <ret_msa>, which
+ * contains only the single unaligned sequence. <sq> is 
+ * not affected in any way. This is only to convert from the SQ
+ * object to an MSA object for the purpose of writing SQ in an MSA format
+ * file format.
+ * 
+ * Returns <eslOK> on success, and <*ret_msa> points to
+ * a new "alignment".
+ * 
+ * Throws <eslEMEM> on allocation error, and <*ret_msa> is NULL.
+ */
+static int
+convert_sq_to_msa(ESL_SQ *sq, ESL_MSA **ret_msa)
+{
+  ESL_MSA *msa;
+  int      x;        /* counter for extra-residue markups */
+  int      status;
+
+#ifdef eslAUGMENT_ALPHABET
+  if (sq->dsq != NULL) { 
+    if ((msa = esl_msa_CreateDigital(sq->abc, 1, sq->n)) == NULL) { status = eslEMEM; goto ERROR; }
+  } else 
+#endif
+  if ((msa = esl_msa_Create(1, sq->n)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  if ((status = esl_strdup(sq->name, -1, &(msa->sqname[0]))) != eslOK) goto ERROR;
+  
+  if (*sq->acc != '\0')
+    {
+      ESL_ALLOC(msa->sqacc, sizeof(char *) * 1);
+      if ((status = esl_strdup(sq->acc, -1, &(msa->sqacc[0]))) != eslOK) goto ERROR;
+    }
+  if (*sq->desc != '\0')
+    {
+      ESL_ALLOC(msa->sqdesc, sizeof(char *) * 1);
+      if ((status = esl_strdup(sq->desc, -1, &(msa->sqdesc[0]))) != eslOK) goto ERROR;
+    }
+
+#ifdef eslAUGMENT_ALPHABET
+  if (sq->dsq != NULL) esl_abc_dsqcpy(sq->dsq, sq->n, msa->ax[0]);
+  else
+#endif
+  strcpy(msa->aseq[0], sq->seq);
+  
+  if (sq->ss != NULL)
+    {
+      ESL_ALLOC(msa->ss, sizeof(char *) * 1);
+
+#ifdef eslAUGMENT_ALPHABET
+      if (sq->dsq != NULL) {	/* sq->ss is 1..L in digital mode; but msa->ss is always 0..L-1 */
+	if ((status = esl_strdup(sq->ss+1, -1, &(msa->ss[0]))) != eslOK) goto ERROR;
+      } else
+#endif
+      if ((status = esl_strdup(sq->ss, -1, &(msa->ss[0]))) != eslOK) goto ERROR;     	
+
+    }
+
+  if (sq->nxr > 0) {
+    msa->ngr = sq->nxr;
+    ESL_ALLOC(msa->gr,     sizeof(char **) * msa->ngr);    
+    ESL_ALLOC(msa->gr_tag, sizeof(char  *) * msa->ngr);
+
+    for (x = 0; x < msa->ngr; x ++) {
+      ESL_ALLOC(msa->gr[x],     sizeof(char *));  
+      ESL_ALLOC(msa->gr_tag[x], sizeof(char));
+   
+#ifdef eslAUGMENT_ALPHABET
+      if (sq->dsq != NULL) {	/* sq->xr is 1..L in digital mode; but msa->gr is always 0..L-1 */
+	if ((status = esl_strdup(sq->xr[x]+1, -1, &(msa->gr[x][0]))) != eslOK) goto ERROR;
+      } else
+#endif
+      if ((status = esl_strdup(sq->xr[x], -1, &(msa->gr[x][0]))) != eslOK) goto ERROR;     	
+
+      if ((status = esl_strdup(sq->xr_tag[x], -1, &(msa->gr_tag[x]))) != eslOK) goto ERROR;     	  
+    }
+  }
+
+  msa->alen = sq->n;
+  msa->nseq = 1;
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+#endif /*eslAUGMENT_MSA*/
+/*---------- end of msa <-> sqio module interop -----------------*/
+
+
+
+/*****************************************************************
+ *#  9. Benchmark driver
+ *****************************************************************/ 
+/* Some current results:
+ *
+ * ./benchmark /misc/data0/genomes/c.elegans/genome/allWS120
+ * CPU Time: 0.90u 0.06s 00:00:00.96 Elapsed: 00:00:01
+ *
+ * /benchmark -i /misc/data0/genomes/c.elegans/genome/allWS120
+ * CPU Time: 0.41u 0.04s 00:00:00.44 Elapsed: 00:00:00
+ * 
+ * ./benchmark -w /misc/data0/genomes/c.elegans/genome/allWS120
+ * CPU Time: 0.83u 0.05s 00:00:00.88 Elapsed: 00:00:01
+ *
+ * ./benchmark -2w /misc/data0/genomes/c.elegans/genome/allWS120
+ * CPU Time: 3.55u 0.26s 00:00:03.80 Elapsed: 00:00:04
+ *
+ * Digital times are comparable (maybe a titch faster), except
+ * for -d2w, which runs much faster, because rev complementation is
+ * more efficient:
+ *
+ * ./benchmark -d2w /misc/data0/genomes/c.elegans/genome/allWS120
+ * CPU Time: 2.16u 0.31s 00:00:02.47 Elapsed: 00:00:03
+ */
+/* gcc -std=gnu99 -O3 -fomit-frame-pointer -malign-double -fstrict-aliasing -msse2 -pthread -I. -L. -o esl_sqio_benchmark -DeslSQIO_BENCHMARK esl_sqio.c -leasel -lm
+ * icc -O3 -ansi_alias -xW -static -I. -L. -o esl_sqio_benchmark -DeslSQIO_BENCHMARK esl_sqio.c -leasel -lm
+ * ./esl_sqio_benchmark <seqfile>
+ */
+#ifdef eslSQIO_BENCHMARK
+#include <stdlib.h>
+#include <stdio.h>
+#include <unistd.h>
+#include <sys/types.h>
+#include <sys/stat.h>
+#include <sys/mman.h>
+#include <fcntl.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-d",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use digital sequence input mode",                  0 },
+  { "-i",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "benchmark ReadInfo() input",                       0 },
+  { "-s",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "benchmark ReadSequence() input",                   0 },
+  { "-w",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "benchmark ReadWindow() input",                     0 },
+  { "-B",        eslARG_INT,   "4096",  NULL, NULL,  NULL,  NULL, NULL, "buffer size for read, fread tests",                0 },
+  { "-C",        eslARG_INT,    "100",  NULL, NULL,  NULL,  NULL, NULL, "context size for ReadWindow()",                    0 },
+  { "-W",        eslARG_INT,   "1000",  NULL, NULL,  NULL,  NULL, NULL, "window size for ReadWindow()",                     0 },
+  { "-2",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  "-w", NULL, "with ReadWindow(), do both strands",               0 },
+  { "--format",  eslARG_STRING,  NULL,  NULL, NULL,  NULL,  NULL, NULL, "assert <seqfile> is in format <s>",                0 },
+  { "--amino",   eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use protein alphabet, not DNA",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <DNA FASTA file>";
+static char banner[] = "benchmark driver for sqio module";
+
+static int benchmark_read (char *filename, int bufsize, int64_t *ret_magic);
+static int benchmark_fread(char *filename, int bufsize, int64_t *ret_magic);
+static int benchmark_fgets(char *filename, int bufsize, int64_t *ret_magic);
+/*static int benchmark_mmap (char *filename, int bufsize, int64_t *ret_magic);*/
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go       = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w        = esl_stopwatch_Create();
+  ESL_ALPHABET  *abc      = NULL;
+  ESL_SQ        *sq       = NULL;
+  ESL_SQFILE    *sqfp     = NULL;
+  char          *filename = esl_opt_GetArg(go, 1);
+  int            format   = eslSQFILE_UNKNOWN;
+  int            bufsize  = esl_opt_GetInteger(go, "-B");
+  int            C        = esl_opt_GetInteger(go, "-C");
+  int            W        = esl_opt_GetInteger(go, "-W");
+  int            do_crick = esl_opt_GetBoolean(go, "-2");
+  int            n        = 0;
+  int64_t        magic    = 0;
+  int64_t        nr       = 0;
+
+  if (esl_opt_IsOn(go, "--format")) {
+    format = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--format"));
+    if (format == eslSQFILE_UNKNOWN) esl_fatal("unrecognized database format %s\n", esl_opt_GetString(go, "--format"));
+  }
+
+  if (esl_opt_GetBoolean(go, "-d"))
+    {
+      if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO);
+      else                                   abc = esl_alphabet_Create(eslDNA);
+      sq = esl_sq_CreateDigital(abc);
+      if (esl_sqfile_OpenDigital(abc, filename, format, NULL, &sqfp) != eslOK) esl_fatal("failed to open %s", filename);
+    } 
+  else 
+    {
+      sq = esl_sq_Create();
+      if (esl_sqfile_Open(filename, format, NULL, &sqfp) != eslOK) esl_fatal("failed to open %s", filename);
+    }
+
+
+  /* It's useful to have some baselines of just reading the file without parsing;
+   * POSIX read(); C fread(); C fgets(); and POSIX mmap(). 
+   * Counting a's (<na>) is just to keep the optimizer from optimizing the 
+   * benchmark away.
+   */
+  esl_stopwatch_Start(w);   benchmark_read (filename, bufsize, &magic);   esl_stopwatch_Stop(w);  printf("magic=%" PRId64 "; ", magic); esl_stopwatch_Display(stdout, w, "read():  "); 
+  esl_stopwatch_Start(w);   benchmark_fread(filename, bufsize, &magic);   esl_stopwatch_Stop(w);  printf("magic=%" PRId64 "; ", magic); esl_stopwatch_Display(stdout, w, "fread(): ");
+  esl_stopwatch_Start(w);   benchmark_fgets(filename, bufsize, &magic);   esl_stopwatch_Stop(w);  printf("magic=%" PRId64 "; ", magic); esl_stopwatch_Display(stdout, w, "fgets(): ");
+  /*  esl_stopwatch_Start(w);   benchmark_mmap (filename, bufsize, &magic);   esl_stopwatch_Stop(w);  printf("magic=%" PRId64 "; ", magic); esl_stopwatch_Display(stdout, w, "mmap():  "); */
+
+  esl_stopwatch_Start(w);
+  if (esl_opt_GetBoolean(go, "-i"))
+    {
+      while (esl_sqio_ReadInfo(sqfp, sq) == eslOK) { n++; nr += sq->L; esl_sq_Reuse(sq); }
+    }
+  else if (esl_opt_GetBoolean(go, "-s"))
+    {
+      while (esl_sqio_ReadSequence(sqfp, sq) == eslOK) { n++; nr += sq->L; esl_sq_Reuse(sq); }
+    }
+  else if (esl_opt_GetBoolean(go, "-w"))
+    {
+      int wstatus;
+      while ((wstatus = esl_sqio_ReadWindow(sqfp, C, W, sq)) != eslEOF)
+	{ 
+	  if        (wstatus == eslEOD) {
+	    if (!do_crick || W < 0) { n++; esl_sq_Reuse(sq); }
+	    if (do_crick)           { W = -W; }
+	    continue;
+	  } else if (wstatus != eslOK) esl_fatal("Error: %s", esl_sqfile_GetErrorBuf(sqfp));
+	  nr += sq->W;
+	}
+    }
+  else 
+    {
+      while (esl_sqio_Read(sqfp, sq) == eslOK)  { n++; nr += sq->L; esl_sq_Reuse(sq); }
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "sqio:  ");
+  printf("Read %d sequences; %lld residues.\n", n, (long long int) nr);
+
+#ifdef eslAUGMENT_NCBI
+  if (sqfp->format == eslSQFILE_NCBI)
+    printf("  DB %d sequences; %lld residues.\n", sqfp->data.ncbi.num_seq, (long long int) sqfp->data.ncbi.total_res);
+#endif
+
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  esl_stopwatch_Destroy(w);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+static int
+benchmark_read(char *filename, int bufsize, int64_t *ret_magic)
+{
+  char *buf  = malloc(sizeof(char) * bufsize);
+  int   fd   = open(filename, O_RDONLY);
+  int   n;
+  int64_t magic = 0;
+  int   pos;
+
+  if (fd != -1) 
+    {
+      while ( (n = read(fd, buf, bufsize)) > 0)
+	{
+	  for (pos = 0; pos < n; pos++) magic += buf[pos];
+	}
+      close(fd);
+    }
+
+  free(buf);
+  *ret_magic = magic;
+  return eslOK;
+}
+  
+static int
+benchmark_fread(char *filename, int bufsize, int64_t *ret_magic)
+{
+  FILE *fp   = fopen(filename, "r");
+  char *buf  = malloc(sizeof(char) * bufsize);
+  int64_t magic = 0;
+  int   pos;
+  int   n;
+  
+  if (fp != NULL)
+    {
+      while ( (n = fread(buf, sizeof(char), bufsize, fp)) > 0)
+	{
+	  for (pos = 0; pos < n; pos++) magic += buf[pos];
+	} 
+      fclose(fp);
+    }
+
+  free(buf);
+  *ret_magic = magic;
+  return eslOK;
+}
+
+
+static int
+benchmark_fgets(char *filename, int bufsize, int64_t *ret_magic)
+{
+  FILE *fp   = fopen(filename, "r");
+  char *buf  = malloc(sizeof(char) * bufsize);
+  int64_t magic = 0;
+  char *s;
+  
+  if (fp != NULL)
+    {
+      while ( fgets(buf, bufsize, fp) != NULL)
+	{
+	  for (s = buf; *s; s++) magic += *s;
+	} 
+      fclose(fp);
+    }
+
+  free(buf);
+  *ret_magic = magic;
+  return eslOK;
+}
+
+
+#if 0
+/* we can't use mmap anyway; we have to be able to read from streams
+ * and pipes.
+ */
+static int
+benchmark_mmap(char *filename, int bufsize, int64_t *ret_magic)
+{
+  int   fd   = open(filename, O_RDONLY);
+  struct stat statbuf;
+  char *p;
+  uint64_t pos;
+  uint64_t magic = 0;
+ 
+  fstat(fd, &statbuf);
+  p = mmap(0, statbuf.st_size, PROT_READ, MAP_SHARED, fd, 0);
+  for (pos = 0; pos < statbuf.st_size; pos++)
+    magic += p[pos];
+
+  close(fd);
+  *ret_magic = magic;
+  return eslOK;
+}
+#endif  
+
+
+#endif /*eslSQIO_BENCHMARK*/
+/*------------------ end of benchmark ---------------------------*/
+
+
+
+/*****************************************************************
+ *#  10. Unit tests
+ *****************************************************************/ 
+#ifdef eslSQIO_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+
+static void
+synthesize_testseqs(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, int maxL, int N, ESL_SQ ***ret_sqarr)
+{
+  ESL_SQ **sqarr  = malloc(sizeof(ESL_SQ *) * N);
+  float   *fq     = malloc(sizeof(float)   * abc->Kp);
+  char    *buf    = NULL;
+  int      maxn   = eslSQ_NAMECHUNK*2;
+  int      maxa   = eslSQ_ACCCHUNK*2;
+  int      maxd   = eslSQ_DESCCHUNK*2;
+  char     ascii[128];
+  float    af[128];
+  int      i, pos;
+  int      n;
+  int      x;
+
+  n = ESL_MAX( maxn, ESL_MAX(maxa, maxd));
+  buf = malloc(sizeof(char) * (n+1));
+
+  /* Set a residue frequency vector that's going to sample degenerate residues too */
+  esl_vec_FSet(fq, abc->Kp, 0.0);
+  esl_vec_FSet(fq, abc->K,  0.9 / (float) abc->K);
+  esl_vec_FSet(fq + abc->K + 1, abc->Kp - abc->K - 2, 0.1 / (float) (abc->Kp - abc->K - 2));
+
+  /* Set an ASCII frequency vector that'll sample all nonspace chars */
+  for (x = 0; x < 128; x++) {
+    ascii[x] = (char) x;
+    if      (isalpha(x))             af[x] = 3.0;
+    else if (isdigit(x))             af[x] = 2.0;
+    else if (ispunct(x) && x != '%') af[x] = 1.0; /* disallow %; it'll screw up printf()-like Set calls */
+    else                             af[x] = 0.0;
+  }
+  esl_vec_FNorm(af, 128);
+
+  for (i = 0; i < N; i++)
+    {
+      if ((sqarr[i] = esl_sq_CreateDigital(abc)) == NULL) esl_fatal("failed to allocate seq %d", i);
+
+      do {
+	n = esl_rnd_Roll(r, maxn) + 1; /* 1..maxn */
+	esl_rsq_fIID(r, ascii, af, 128, n, buf);
+	buf[n] = '\0';
+      }	while (ispunct(buf[0])); /* #, // are bad things for names to start with, in Stockholm format */
+      esl_sq_SetName(sqarr[i], buf);
+
+      if (esl_rnd_Roll(r, 2) == 0) { /* 50% chance of an accession */
+	n = esl_rnd_Roll(r, maxa) + 1; 
+	esl_rsq_fIID(r, ascii, af, 128, n, buf);
+	buf[n] = '\0';
+	esl_sq_SetAccession(sqarr[i], buf);
+      }
+
+      if (esl_rnd_Roll(r, 2) == 0) { /* 50% chance of a description */
+	n = esl_rnd_Roll(r, maxd) + 1;
+	esl_rsq_fIID(r, ascii, af, 128, n, buf);
+	buf[n] = '\0';
+	for (pos = 1; pos < n-1; pos++) {                 /* avoid first, last char, and... */
+	  if (esl_rnd_Roll(r, 10)  == 0) buf[pos] = ' ';  /* ...sprinkle with spaces... */
+	  if (esl_rnd_Roll(r, 100) == 0) buf[pos] = '\t'; /* ...and tabs. */
+	}
+	esl_sq_SetDesc(sqarr[i], buf);
+      }
+
+      n = esl_rnd_Roll(r, (maxL+1)); /* choose seqlen =  0..maxL; 0 length seqs occur in real dbs */
+      esl_sq_GrowTo(sqarr[i], n);
+      esl_rsq_xfIID(r, fq, abc->Kp, n, sqarr[i]->dsq);
+
+      esl_sq_SetCoordComplete(sqarr[i], n);
+    }
+
+  *ret_sqarr = sqarr;
+  free(buf);
+  free(fq);
+  return;
+}
+
+/* Write an uglified FASTA file to a stream.
+ * Also, remember where the start of the descline and first
+ * seq line are, in sq->{roff,doff}. We'll compare against
+ * what the input function thinks these locations are.
+ */
+static void
+write_ugly_fasta(ESL_RANDOMNESS *r, FILE *fp, ESL_SQ *sq)
+{
+  char buf[61];
+  int  pos;
+  
+  sq->roff = ftello(fp);
+  fputc('>', fp);
+  while (esl_rnd_Roll(r, 10) == 0) fputc(' ', fp);
+  fprintf(fp, "%s", sq->name);
+  while (esl_rnd_Roll(r, 10) == 0) fputc(' ', fp);
+  if (sq->desc[0] != 0) fprintf(fp, " %s", sq->desc);
+  fputc('\n', fp);
+
+  sq->doff = ftello(fp);
+  buf[60] = '\0';
+  for (pos = 1; pos <= sq->n; pos+=60)
+    {
+      while (esl_rnd_Roll(r, 10) == 0) fputc(' ', fp);
+      esl_abc_TextizeN(sq->abc, sq->dsq+pos, 60, buf);
+      fputs(buf, fp);
+      fputc('\n', fp);
+    }
+  while (esl_rnd_Roll(r, 10) == 0) fputc('\n', fp);
+  sq->eoff = ftello(fp) - 1;
+}
+
+static void
+write_spaced_fasta(FILE *fp, ESL_SQ *sq)
+{
+  char buf[64];
+  int  pos;
+
+  sq->roff = ftello(fp);
+  fprintf(fp, ">%s", sq->name);
+  if (sq->desc[0] != 0) fprintf(fp, " %s", sq->desc);
+  fputc('\n', fp);
+
+  sq->doff = ftello(fp);
+  buf[10]  = '\0';
+  for (pos = 1; pos <= sq->n; pos += 10)
+    {
+      esl_abc_TextizeN(sq->abc, sq->dsq+pos, 10, buf);
+      fputs(buf, fp);
+      if (pos+9 >= sq->n || (pos+9) % 60 == 0) fputc('\n',  fp);
+      else                                     fputc(' ', fp);
+    }
+  sq->eoff = ftello(fp) - 1;
+}
+
+
+static void
+make_ssi_index(ESL_ALPHABET *abc, const char *tmpfile, int format, char *ssifile, int mode)
+{ 
+  char       *msg  = "sqio unit testing: failed to make SSI index";
+  ESL_NEWSSI *ns   = NULL;
+  ESL_SQFILE *sqfp = NULL;
+  ESL_SQ     *sq   = esl_sq_CreateDigital(abc);
+  uint16_t    fh   = 0;
+  int         nseq = 0;
+  int         status;
+
+  int         bpl, rpl;
+ 
+  sprintf(ssifile, "%s.ssi", tmpfile);
+  if (esl_newssi_Open(ssifile, TRUE, &ns)                       != eslOK) esl_fatal(msg);
+  if (esl_newssi_AddFile(ns, tmpfile, format, &fh)              != eslOK) esl_fatal(msg);
+  if (esl_sqfile_OpenDigital(abc, tmpfile, format, NULL, &sqfp) != eslOK) esl_fatal(msg);
+  while ((status = esl_sqio_ReadInfo(sqfp, sq)) == eslOK)
+    {
+      nseq++;
+      if (esl_newssi_AddKey(ns, sq->name, fh, sq->roff, sq->doff, sq->L)   != eslOK) esl_fatal(msg);
+      if (sq->acc[0] != '\0' && esl_newssi_AddAlias(ns, sq->acc, sq->name) != eslOK) esl_fatal(msg);
+      esl_sq_Reuse(sq);
+    }
+  if (status != eslEOF) esl_fatal(msg);
+  
+  bpl = sqfp->data.ascii.bpl;
+  rpl = sqfp->data.ascii.rpl;
+  if (bpl > 0 && rpl > 0) 
+    if ((status = esl_newssi_SetSubseq(ns, fh, bpl, rpl)) != eslOK) esl_fatal(msg);
+  
+  if (esl_newssi_Write(ns)        != eslOK)  esl_fatal(msg);
+
+  bpl = sqfp->data.ascii.bpl;
+  rpl = sqfp->data.ascii.rpl;
+
+  switch (mode) {
+  case 0:  if (bpl != 0)                     esl_fatal(msg); break; /* uglified: bpl should be invalid (rpl might not be) */
+  case 1:  if (rpl != 60 || bpl == 0)  esl_fatal(msg); break; /* spaced: bpl, rpl should be valid */
+  case 2:  if (rpl != 60 || bpl != 61) esl_fatal(msg); break; /* normal: bpl, rpl should be valid, w/ bpl=rpl+1 */
+  }
+
+  esl_sqfile_Close(sqfp);
+  esl_newssi_Close(ns);
+  esl_sq_Destroy(sq);
+}
+
+static void
+utest_read(ESL_ALPHABET *abc, ESL_SQ **sqarr, int N, char *seqfile, int format, int mode)
+{
+  char       *msg         = "sqio complete read unit test failed";
+  ESL_SQ     *sq          = esl_sq_CreateDigital(abc);
+  ESL_SQFILE *sqfp        = NULL;
+  int         nseq        = 0;
+  int         status;
+  
+  int         bpl, rpl;
+ 
+  if (esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp) != eslOK) esl_fatal(msg);
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      /* FASTA doesn't preserve accessions. Copy it, as a hack, so Compare test succeeds*/
+      if (sq->acc[0] == '\0' && esl_sq_SetAccession(sq, sqarr[nseq]->acc) != eslOK) esl_fatal(msg);
+      if (esl_sq_Compare(sq, sqarr[nseq])                                 != eslOK) esl_fatal(msg);      
+      nseq++;
+      esl_sq_Reuse(sq);
+    }
+  if (status != eslEOF) esl_fatal(msg);
+  if (nseq   != N)      esl_fatal(msg);
+
+  bpl = sqfp->data.ascii.bpl;
+  rpl = sqfp->data.ascii.rpl;
+
+  switch (mode) {
+  case 0:  if (bpl != 0)                     esl_fatal(msg); break; /* uglified: bpl should be invalid (rpl might not be) */
+  case 1:  if (rpl != 60 || bpl == 0)  esl_fatal(msg); break; /* spaced: bpl, rpl should be valid */
+  case 2:  if (rpl != 60 || bpl != 61) esl_fatal(msg); break; /* normal: bpl, rpl should be valid, w/ bpl=rpl+1 */
+  }
+
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+}
+
+static void
+utest_read_info(ESL_ALPHABET *abc, ESL_SQ **sqarr, int N, char *seqfile, int format, int mode)
+{
+  char       *msg         = "sqio info read unit test failed";
+  ESL_SQ     *sq          = esl_sq_CreateDigital(abc);
+  ESL_SQFILE *sqfp        = NULL;
+  int         nseq        = 0;
+  int         status;
+  
+  int         bpl, rpl;
+ 
+  if (esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp) != eslOK) esl_fatal(msg);
+  while ((status = esl_sqio_ReadInfo(sqfp, sq)) == eslOK)
+    {
+      if (strcmp(sq->name,   sqarr[nseq]->name)   != 0) esl_fatal(msg);
+      if (format != eslSQFILE_FASTA && 
+	  strcmp(sq->acc,    sqarr[nseq]->acc)    != 0) esl_fatal(msg);
+      if (strcmp(sq->desc,   sqarr[nseq]->desc)   != 0) esl_fatal(msg);
+      if (strcmp(sq->source, sqarr[nseq]->source) != 0) esl_fatal(msg);
+      if (sq->n     != 0)  esl_fatal(msg);
+      if (sq->start != 0)  esl_fatal(msg);
+      if (sq->end   != 0)  esl_fatal(msg);
+      if (sq->C     != 0)  esl_fatal(msg);
+      if (sq->W     != 0)  esl_fatal(msg);
+      if (sq->L     != sqarr[nseq]->L)                  esl_fatal(msg);
+      if (sq->roff != -1 && sqarr[nseq]->roff != -1 && sq->roff != sqarr[nseq]->roff) esl_fatal(msg);
+      if (sq->doff != -1 && sqarr[nseq]->doff != -1 && sq->doff != sqarr[nseq]->doff) esl_fatal(msg);
+  
+      nseq++;
+      esl_sq_Reuse(sq);
+    }
+  if (status != eslEOF) esl_fatal(msg);
+  if (nseq   != N)      esl_fatal(msg);
+
+  bpl = sqfp->data.ascii.bpl;
+  rpl = sqfp->data.ascii.rpl;
+
+  switch (mode) {
+  case 0:  if (bpl != 0)                     esl_fatal(msg); break; /* uglified: bpl should be invalid (rpl might not be) */
+  case 1:  if (rpl != 60 || bpl == 0)  esl_fatal(msg); break; /* spaced: bpl, rpl should be valid */
+  case 2:  if (rpl != 60 || bpl != 61) esl_fatal(msg); break; /* normal: bpl, rpl should be valid, w/ bpl=rpl+1 */
+  }
+
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+}
+
+static void
+utest_read_window(ESL_ALPHABET *abc, ESL_SQ **sqarr, int N, char *seqfile, int format, int mode)
+{
+  char       *msg         = "sqio window read unit test failed";
+  ESL_SQ     *sq          = esl_sq_CreateDigital(abc);
+  ESL_SQ     *rev         = esl_sq_CreateDigital(abc);
+  ESL_SQFILE *sqfp        = NULL;
+  int         nseq        = 0;
+  int         C           = 10;
+  int         W           = 50;
+  int         nres        = 0;
+  int         wstatus;
+
+  int         bpl, rpl, L;
+ 
+  if (esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp) != eslOK) esl_fatal(msg);
+  while ((wstatus = esl_sqio_ReadWindow(sqfp, C, W, sq)) == eslOK || wstatus == eslEOD)
+    {
+      if (wstatus == eslEOD) {
+	if (W < 0) {
+	  nseq++; 
+	  nres = 0;
+	  W    = -W;
+	  esl_sq_Reuse(sq); 
+	  esl_sq_Reuse(rev);
+	} else       {
+	  /* reverse complement */
+	  nres = 0;
+	  W    = -W; 	
+	  esl_sq_Copy(sqarr[nseq], rev);
+	  esl_sq_ReverseComplement(rev);
+	}
+	continue;
+      }
+
+      nres += sq->W;
+      if (strcmp(sq->name,   sqarr[nseq]->name)   != 0) esl_fatal(msg);
+      if (format != eslSQFILE_FASTA && 
+	  strcmp(sq->acc,    sqarr[nseq]->acc)    != 0) esl_fatal(msg);
+      if (strcmp(sq->desc,   sqarr[nseq]->desc)   != 0) esl_fatal(msg);
+
+      L = sqfp->data.ascii.L;
+
+      if (W > 0) {
+	/* Forward strand coord checks */
+	if (L   != nres)                                esl_fatal(msg);
+	if (sq->start != nres - sq->n + 1)              esl_fatal(msg);
+	if (sq->end   != nres)                          esl_fatal(msg);
+	if (sq->C != 0 && sq->C != C)                   esl_fatal(msg);
+	if (sq->n != sq->C+sq->W)                       esl_fatal(msg);
+	if (sq->start+sq->n-1 > sqarr[nseq]->L)         esl_fatal(msg);
+	if (wstatus == eslEOD && sq->L != L)            esl_fatal(msg);
+	if (memcmp(sq->dsq + 1, sqarr[nseq]->dsq + sq->start, sq->C+sq->W) != 0) esl_fatal(msg);
+      } else {
+	/* Reverse strand coord checks */
+	if (L    != -1)                                 esl_fatal(msg);
+	if (sq->start  != sq->L - nres + sq->W + sq->C) esl_fatal(msg);
+	if (sq->end    != sq->L - nres + 1)             esl_fatal(msg);
+	if (sq->C != 0 && sq->C != C)                   esl_fatal(msg);
+	if (sq->start-sq->n+1 < 1)                      esl_fatal(msg);
+	if (wstatus == eslEOD && sq->end != 1)          esl_fatal(msg);
+	if (memcmp(sq->dsq + 1, rev->dsq + (sq->L - sq->start + 1), sq->C+sq->W) != 0) esl_fatal(msg);
+      }
+    }
+
+  bpl = sqfp->data.ascii.bpl;
+  rpl = sqfp->data.ascii.rpl;
+
+  switch (mode) {
+  case 0:  if (bpl != 0)                     esl_fatal(msg); break; /* uglified: bpl should be invalid (rpl might not be) */
+  case 1:  if (rpl != 60 || bpl == 0)  esl_fatal(msg); break; /* spaced: bpl, rpl should be valid */
+  case 2:  if (rpl != 60 || bpl != 61) esl_fatal(msg); break; /* normal: bpl, rpl should be valid, w/ bpl=rpl+1 */
+  }
+
+  if (wstatus != eslEOF) esl_fatal(msg);
+  if (nseq    != N)      esl_fatal(msg);
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(rev);
+  esl_sq_Destroy(sq);
+}
+
+static void
+utest_fetch_subseq(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, ESL_SQ **sqarr, int N, char *seqfile, char *ssifile, int format)
+{
+  char       *msg         = "sqio subseq read unit test failure";
+  ESL_SQ     *sq          = esl_sq_CreateDigital(abc);
+  ESL_SQFILE *sqfp        = NULL;
+  int         i;
+  int         ntest       = 32;
+  char       *source;
+  int         start;
+  int         end;
+
+  if (esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp) != eslOK) esl_fatal(msg);
+  if (esl_sqfile_OpenSSI(sqfp, ssifile)                         != eslOK) esl_fatal(msg);
+  while (ntest--) 
+    {
+      i = esl_rnd_Roll(r, N);
+      source = sqarr[i]->name; 
+      
+      do {
+	start = esl_rnd_Roll(r, sqarr[i]->n) + 1;
+	end   = esl_rnd_Roll(r, sqarr[i]->n) + 1;
+      } while (start > end);
+
+      if (esl_sqio_FetchSubseq(sqfp, source, start, end, sq)        != eslOK) esl_fatal(msg);
+      if (memcmp(&(sqarr[i]->dsq[start]), &sq->dsq[1], end-start+1) != 0)     esl_fatal(msg);
+      
+      esl_sq_Reuse(sq);
+    }
+
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+}
+
+
+/* Write the sequences out to a tmpfile in chosen <format>;
+ * read them back and make sure they're the same.
+ * reposition to beginning, read and check again.
+ *
+ * The sequences in <sqarr> are in digital mode.
+ */
+static void
+utest_write(ESL_ALPHABET *abc, ESL_SQ **sqarr, int N, int format)
+{
+  char       *msg         = "sqio write unit test failure";
+  char        tmpfile[32] = "esltmpXXXXXX";
+  ESL_SQFILE *sqfp        = NULL;
+  ESL_SQ     *sq          = esl_sq_CreateDigital(abc);
+  FILE       *fp          = NULL;
+  int         iterations  = 2;	/* 2: reposition and read again */
+  int         i;
+
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  for (i = 0; i < N; i++)
+    esl_sqio_Write(fp, sqarr[i], format, FALSE);
+  fclose(fp);
+
+  if (esl_sqfile_OpenDigital(abc, tmpfile, format, NULL, &sqfp)           != eslOK)  esl_fatal(msg);
+  while (iterations--)
+    {
+      for (i = 0; i < N; i++)
+	{
+	  if (esl_sqio_Read(sqfp, sq)                                     != eslOK)  esl_fatal(msg);
+	  if (strcmp(sqarr[i]->name,   sq->name)                          != 0)      esl_fatal(msg);
+	  if (sqarr[i]->L                                                 !=  sq->L) esl_fatal(msg);
+	  if (memcmp(sqarr[i]->dsq, sq->dsq, sizeof(ESL_DSQ) * (sq->L+2)) != 0)      esl_fatal(msg);
+	  esl_sq_Reuse(sq);
+	}
+      esl_sqfile_Position(sqfp, 0); /* rewind and make sure we get same reads again */
+    }
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  remove(tmpfile);
+}
+#endif /*eslSQIO_TESTDRIVE*/
+/*------------------ end, unit tests ----------------------------*/
+
+
+
+/*****************************************************************
+ *# 11. Test driver.
+ *****************************************************************/
+
+/* gcc -g -Wall -I. -L. -o sqio_utest -DeslSQIO_TESTDRIVE esl_sqio.c -leasel -lm
+ * ./sqio_utest
+ */
+#ifdef eslSQIO_TESTDRIVE
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,   "1000",  NULL, NULL,  NULL,  NULL, NULL, "max length of test sequences",                     0 },
+  { "-N",        eslARG_INT,    "100",  NULL, NULL,  NULL,  NULL, NULL, "number of test sequences",                         0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for sqio module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_ALPHABET   *abc      = esl_alphabet_Create(eslDNA); /* DNA because some chars aren't legal in IUPAC DNA */
+  ESL_RANDOMNESS *r        = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_SQ        **sqarr    = NULL;
+  int             maxL     = esl_opt_GetInteger(go, "-L");
+  int             N        = esl_opt_GetInteger(go, "-N");
+  int             i;
+  int             mode;
+  char            tmpfile[32];
+  char            ssifile[32];
+  FILE           *fp       = NULL;
+  char            c;
+
+  /* Create an array of sequences we'll use for all the tests */
+  synthesize_testseqs(r, abc, maxL, N, &sqarr);
+
+  for (mode = 0; mode < 3; mode++) /* 0=ugly 1=spaced 2=normal*/
+    {
+      /* Write FASTA file to disk, and SSI index it */
+      strcpy(tmpfile, "esltmpXXXXXX");
+      if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal("failed to make tmpfile");
+      switch (mode) {
+      case 0: for (i = 0; i < N; i++) write_ugly_fasta(r, fp, sqarr[i]); break;
+      case 1: for (i = 0; i < N; i++) write_spaced_fasta(fp, sqarr[i]);  break;
+      case 2:
+	for (i = 0; i < N; i++) {
+	  c = sqarr[i]->acc[0];	/* hack: hide the accession, so digital writer doesn't write it. */
+	  sqarr[i]->acc[0] = '\0';
+	  esl_sqio_Write(fp, sqarr[i], eslSQFILE_FASTA, TRUE); 
+	  sqarr[i]->acc[0] = c;
+	}
+	break;
+      }
+      fclose(fp);
+      make_ssi_index(abc, tmpfile, eslSQFILE_FASTA, ssifile, mode);
+
+      utest_read        (abc, sqarr, N, tmpfile, eslSQFILE_FASTA, mode);
+      utest_read_info   (abc, sqarr, N, tmpfile, eslSQFILE_FASTA, mode);
+      utest_read_window (abc, sqarr, N, tmpfile, eslSQFILE_FASTA, mode);
+      utest_fetch_subseq(r, abc, sqarr, N, tmpfile, ssifile, eslSQFILE_FASTA);
+
+      remove(tmpfile);
+      remove(ssifile);
+    }  
+
+  utest_write(abc, sqarr, N, eslMSAFILE_STOCKHOLM);
+
+  for (i = 0; i < N; i++) esl_sq_Destroy(sqarr[i]);
+  free(sqarr);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslSQIO_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+
+/*****************************************************************
+ *# 12. Examples
+ *****************************************************************/
+#ifdef eslSQIO_EXAMPLE
+/*::cexcerpt::sqio_example::begin::*/
+/* compile: gcc -g -Wall -I. -o sqio_example -DeslSQIO_EXAMPLE esl_sqio.c esl_sq.c easel.c
+ * run:     ./example <FASTA file>
+ */
+#include "easel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_SQ     *sq      = esl_sq_Create();
+  ESL_SQFILE *sqfp;
+  int         format  = eslSQFILE_UNKNOWN;
+  char       *seqfile = argv[1];
+  int         status;
+
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file.");
+  else if (status == eslEFORMAT)   esl_fatal("Format unrecognized.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+  {     /* use each sequence for whatever you want */
+    printf("Read %s: length %ld\n", sq->name, (long) sq->L);
+    esl_sq_Reuse(sq);
+  }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s - %s\n",
+					   sqfp->filename, sqfp->get_error(sqfp));     
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					   status, sqfp->filename);
+  
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  return 0;
+}
+/*::cexcerpt::sqio_example::end::*/
+#endif /*eslSQIO_EXAMPLE*/
+
+/* Example 2 shows how to open a file digitally, while guessing its
+ * file format and its alphabet. (This is a standard idiom.)
+ */
+#ifdef eslSQIO_EXAMPLE2
+/*::cexcerpt::sqio_example2::begin::*/
+/* compile: gcc -g -Wall -I. -L. -o sqio_example2 -DeslSQIO_EXAMPLE2 esl_sqio.c -leasel -lm
+ * run:     ./example <sequence file>
+ */
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",    0 },
+  { "--dna",     eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use DNA alphabet",                        0 },
+  { "--rna",     eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use RNA alphabet",                        0 },
+  { "--amino",   eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use protein alphabet",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <seqfile>";
+static char banner[] = "example for the sqio module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go        = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET *abc       = NULL;
+  ESL_SQ       *sq        = NULL;
+  ESL_SQFILE   *sqfp      = NULL;
+  int           format    = eslSQFILE_UNKNOWN;
+  int           alphatype = eslUNKNOWN;
+  char         *seqfile   = esl_opt_GetArg(go, 1);
+  int           status;
+
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file.");
+  else if (status == eslEFORMAT)   esl_fatal("Format unrecognized.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   alphatype = eslRNA;
+  else if (esl_opt_GetBoolean(go, "--dna"))   alphatype = eslDNA;
+  else if (esl_opt_GetBoolean(go, "--amino")) alphatype = eslAMINO;
+  else {
+    status = esl_sqfile_GuessAlphabet(sqfp, &alphatype);
+    if      (status == eslENOALPHABET) esl_fatal("Couldn't guess alphabet from first sequence in %s", seqfile);
+    else if (status == eslEFORMAT)    esl_fatal("Parse failed (sequence file %s)\n%s\n",
+						seqfile, sqfp->get_error(sqfp));     
+    else if (status == eslENODATA)    esl_fatal("Sequence file %s contains no data?", seqfile);
+    else if (status != eslOK)         esl_fatal("Failed to guess alphabet (error code %d)\n", status);
+  }
+  abc = esl_alphabet_Create(alphatype);
+  sq  = esl_sq_CreateDigital(abc);
+  esl_sqfile_SetDigital(sqfp, abc);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+  {     /* use each sequence for whatever you want */
+    printf("Read %s: length %ld\n", sq->name, (long) sq->L);
+    esl_sq_Reuse(sq);
+  }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s)\n%s\n",
+					   sqfp->filename, sqfp->get_error(sqfp));     
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					   status, sqfp->filename);
+  
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+/*::cexcerpt::sqio_example2::end::*/
+#endif /*eslSQIO_EXAMPLE2*/
+
+#ifdef eslSQIO_EXAMPLE3
+/*::cexcerpt::sqio_example3::begin::*/
+/* compile: gcc -g -Wall -I. -L. -o esl_sqio_example3 -DeslSQIO_EXAMPLE3 esl_sqio.c -leasel -lm
+ * run:     ./esl_sqio_example3
+ */
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+int
+main(void)
+{
+  ESL_ALPHABET *abc       = NULL;
+  ESL_SQ       *sq        = NULL;
+  int           format    = eslSQFILE_FASTA;
+  int           alphatype = eslAMINO;
+  int           status;
+
+  char *test = ">12345 TEST Test fasta buffer\n"
+               "ARVAPVALPSACAPAGTQCLISGWGNTLSNGVNNPDLLQCVDAPVLSQADCEAAYPGEIT\n"
+               "SSMICVGFLEGGKDSCQGDSGGPVVCNGQLQGIVSWGYGCALPDNPGVYTKVCNFVGWIQ\n"
+               "DTIAAN";
+
+  abc = esl_alphabet_Create(alphatype);
+  sq  = esl_sq_CreateDigital(abc);
+
+  status = esl_sqio_Parse(test, strlen(test), sq, format);
+  if      (status == eslEFORMAT) esl_fatal("Parse failed, invalid format");
+  else if (status != eslOK)      esl_fatal("Unexpected error %d", status);
+  
+  esl_sq_Destroy(sq);
+  esl_alphabet_Destroy(abc);
+  return 0;
+}
+/*::cexcerpt::sqio_example3::end::*/
+#endif /*eslSQIO_EXAMPLE3*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_sqio.c 901 2014-01-17 19:00:28Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sqio.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.h
new file mode 100755
index 0000000..9f05208
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.h
@@ -0,0 +1,185 @@
+/* Unaligned sequence file i/o.
+ * 
+ * SVN $Id: esl_sqio.h 863 2013-04-18 13:40:02Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sqio.h $
+ */
+#ifndef eslSQIO_INCLUDED
+#define eslSQIO_INCLUDED
+
+#include <stdio.h>
+
+#include "esl_sqio_ascii.h"
+#ifdef eslAUGMENT_NCBI
+#include "esl_sqio_ncbi.h"
+#endif
+#include "esl_sq.h"
+
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"
+#endif
+#ifdef eslAUGMENT_MSA
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#endif
+
+/*::cexcerpt::sq_sqio_data::begin::*/
+/* ESL_SQDATA:
+ * Data for different sequence formats.
+ */
+typedef union {
+  ESL_SQASCII_DATA ascii;
+#ifdef eslAUGMENT_NCBI
+  ESL_SQNCBI_DATA  ncbi;
+#endif
+} ESL_SQDATA;
+/*::cexcerpt::sq_sqio_data::end::*/
+
+/* ESL_SQFILE:
+ * An open sequence file for reading.
+ */
+typedef struct esl_sqio_s {
+  char *filename;	      /* Name of file (for diagnostics)           */
+
+  /* In digital mode, we have an alphabet ptr                             */
+  int   do_digital;	      /* TRUE if we're reading in digital mode    */
+#if defined(eslAUGMENT_ALPHABET)  
+  const ESL_ALPHABET *abc;
+#else
+  void               *abc;
+#endif
+
+  /* Format-specific configuration                                        */
+  int     format;	      /* Format code of this file                 */
+  ESL_DSQ inmap[128];	      /* an input map, 0..127                     */
+
+  /* function pointers to format specific routines                        */
+  int   (*position)        (struct esl_sqio_s *sqfp, off_t offset);
+  void  (*close)           (struct esl_sqio_s *sqfp);
+
+  int   (*set_digital)     (struct esl_sqio_s *sqfp, const ESL_ALPHABET *abc);
+  int   (*guess_alphabet)  (struct esl_sqio_s *sqfp, int *ret_type);
+
+  int   (*read)            (struct esl_sqio_s *sqfp, ESL_SQ *sq);
+  int   (*read_info)       (struct esl_sqio_s *sqfp, ESL_SQ *sq);
+  int   (*read_seq)        (struct esl_sqio_s *sqfp, ESL_SQ *sq);
+  int   (*read_window)     (struct esl_sqio_s *sqfp, int C, int W, ESL_SQ *sq);
+  int   (*echo)            (struct esl_sqio_s *sqfp, const ESL_SQ *sq, FILE *ofp);
+
+  int   (*read_block)      (struct esl_sqio_s *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target);
+
+#ifdef eslAUGMENT_SSI
+  int   (*open_ssi)        (struct esl_sqio_s *sqfp, const char *ssifile_hint);
+  int   (*pos_by_key)      (struct esl_sqio_s *sqfp, const char *key);
+  int   (*pos_by_number)   (struct esl_sqio_s *sqfp, int which);
+
+  int   (*fetch)           (struct esl_sqio_s *sqfp, const char *key, ESL_SQ *sq);
+  int   (*fetch_info)      (struct esl_sqio_s *sqfp, const char *key, ESL_SQ *sq);
+  int   (*fetch_subseq)    (struct esl_sqio_s *sqfp, const char *source, int64_t start, int64_t end, ESL_SQ *sq);
+#endif
+
+  int   (*is_rewindable)   (const struct esl_sqio_s *sqfp);
+  const char *(*get_error) (const struct esl_sqio_s *sqfp);
+
+  ESL_SQDATA data;            /* format specific data                     */
+} ESL_SQFILE;
+
+#if defined(eslAUGMENT_ALPHABET)  
+/* ESL_SQCACHE:
+ * A entire database cached into memory.
+ */
+typedef struct esl_sqcache_s {
+  char               *filename;    /* Name of file (for diagnostics)              */
+  int                 format;      /* Format code of this file                    */
+
+  const ESL_ALPHABET *abc;         /* alphabet for database                       */
+
+  uint32_t            seq_count;   /* number of sequences                         */
+  uint64_t            res_count;   /* number of residues                          */
+  uint32_t            max_seq;     /* longest sequence                            */
+
+  ESL_SQ             *sq_list;     /* list of cached sequences [0 .. seq_count-1] */
+
+  void               *residue_mem; /* memory holding the residues                 */
+  void               *header_mem;  /* memory holding the header strings           */
+
+  uint64_t            res_size;    /* size of residue memory allocation           */
+  uint64_t            hdr_size;    /* size of header memory allocation            */
+} ESL_SQCACHE;
+#endif
+
+/*::cexcerpt::sq_sqio_format::begin::*/
+/* Unaligned file format codes
+ * These codes are coordinated with the msa module.
+ *   - 0 is an unknown/unassigned format (eslSQFILE_UNKNOWN, eslMSAFILE_UNKNOWN)
+ *   - <=100 is reserved for sqio, for unaligned formats
+ *   - >100  is reserved for msa, for aligned formats
+ */
+#define eslSQFILE_UNKNOWN      0
+#define eslSQFILE_FASTA        1
+#define eslSQFILE_EMBL         2     /* EMBL/Swiss-Prot/TrEMBL */
+#define eslSQFILE_GENBANK      3     /* GenBank */
+#define eslSQFILE_DDBJ         4     /* DDBJ (currently passed to GenBank parser */
+#define eslSQFILE_UNIPROT      5     /* UniProt (passed to EMBL parser) */
+#define eslSQFILE_NCBI         6     /* NCBI (blast db) */
+#define eslSQFILE_DAEMON       7     /* Farrar's "daemon" format for hmmpgmd queries: fasta with // end-of-record terminator */
+#define eslSQFILE_HMMPGMD      8     /* Farrar's hmmpgmd database format: fasta w/ extra header line starting in '#' */
+#define eslSQFILE_FMINDEX      9     /* the pressed FM-index format used for the FM-index-based MSV acceleration */
+/*::cexcerpt::sq_sqio_format::end::*/
+
+
+/* eslREADBUFSIZE is the fixed size of a block to bring in at one time,
+ * in character-based (fread()) parsers (like the FASTA parser).
+ */
+#define eslREADBUFSIZE  4096
+
+extern int  esl_sqfile_Open(const char *seqfile, int fmt, const char *env, ESL_SQFILE **ret_sqfp);
+extern int  esl_sqfile_Position(ESL_SQFILE *sqfp, off_t offset);
+extern void esl_sqfile_Close(ESL_SQFILE *sqfp);
+
+#ifdef eslAUGMENT_ALPHABET
+extern int  esl_sqfile_OpenDigital(const ESL_ALPHABET *abc, const char *filename, int format, const char *env, ESL_SQFILE **ret_sqfp);
+extern int  esl_sqfile_SetDigital(ESL_SQFILE *sqfp, const ESL_ALPHABET *abc);
+extern int  esl_sqfile_GuessAlphabet(ESL_SQFILE *sqfp, int *ret_type);
+
+extern int  esl_sqfile_Cache(const ESL_ALPHABET *abc, const char *seqfile, int fmt, const char *env, ESL_SQCACHE **ret_sqcache);
+extern void esl_sqfile_Free(ESL_SQCACHE *sqcache);
+#endif
+
+const char  *esl_sqfile_GetErrorBuf(const ESL_SQFILE *sqfp);
+extern int   esl_sqfile_IsRewindable(const ESL_SQFILE *sqfp);
+extern int   esl_sqio_Ignore(ESL_SQFILE *sqfp, const char *ignoredchars);
+extern int   esl_sqio_AcceptAs(ESL_SQFILE *sqfp, char *xchars, char readas);
+extern int   esl_sqio_EncodeFormat(char *fmtstring);
+extern char *esl_sqio_DecodeFormat(int fmt);
+extern int   esl_sqio_IsAlignment(int fmt);
+
+extern int   esl_sqio_Read        (ESL_SQFILE *sqfp, ESL_SQ *sq);
+extern int   esl_sqio_ReadInfo    (ESL_SQFILE *sqfp, ESL_SQ *sq);
+extern int   esl_sqio_ReadWindow  (ESL_SQFILE *sqfp, int C, int W, ESL_SQ *sq);
+extern int   esl_sqio_ReadSequence(ESL_SQFILE *sqfp, ESL_SQ *sq);
+extern int   esl_sqio_Echo        (ESL_SQFILE *sqfp, const ESL_SQ *sq, FILE *ofp);
+extern int   esl_sqio_ReadBlock   (ESL_SQFILE *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target);
+
+#ifdef eslAUGMENT_SSI
+extern int   esl_sqfile_OpenSSI         (ESL_SQFILE *sqfp, const char *ssifile_hint);
+extern int   esl_sqfile_PositionByKey   (ESL_SQFILE *sqfp, const char *key);
+extern int   esl_sqfile_PositionByNumber(ESL_SQFILE *sqfp, int which);
+
+extern int   esl_sqio_Fetch      (ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq);
+extern int   esl_sqio_FetchInfo  (ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq);
+extern int   esl_sqio_FetchSubseq(ESL_SQFILE *sqfp, const char *source, int64_t start, int64_t end, ESL_SQ *sq);
+#endif
+
+extern int   esl_sqio_Write(FILE *fp, ESL_SQ *s, int format, int update);
+extern int   esl_sqio_Parse(char *buffer, int size, ESL_SQ *s, int format);
+
+#endif /*eslSQIO_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.tex
new file mode 100755
index 0000000..48b0e04
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio.tex
@@ -0,0 +1,278 @@
+The \eslmod{sqio} module contains routines for input from unaligned
+sequence data files, such as FASTA files.
+
+Several different common sequence file formats are understood, and can
+be automatically recognized.
+
+Sequences can be read sequentially from multiple sequence alignment
+files, as if the MSA file was an unaligned sequence file, when the
+module is augmented with the \eslmod{msa} module.
+
+Sequences can be read from normal files, directly from the
+\ccode{stdin} pipe, or from \ccode{gzip}-compressed files.
+
+Sequences can be read from NCBI BLAST database files.
+
+Sequence files can be automatically looked for in a list of one or
+more database directories, specified by an environment variable (such
+as \ccode{BLASTDB}).
+
+Table~\ref{tbl:sqio_api} lists the functions in the \eslmod{sqio} API.
+The module uses an \ccode{ESL\_SQFILE} object which works much like an
+ANSI C \ccode{FILE}, maintaining information for an open sequence file
+while it's being read.
+
+% Table generated by autodoc -t esl_sqio.c (so don't edit here, edit esl_sqio.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The \ccode{ESL\_SQFILE} object.}\\
+\hyperlink{func:esl_sqfile_Open()}{\ccode{esl\_sqfile\_Open()}} & Description.\\
+\hyperlink{func:esl_sqfile_Close()}{\ccode{esl\_sqfile\_Close()}} & Description.\\
+\apisubhead{Sequence input/output}\\
+\hyperlink{func:esl_sqio_Read()}{\ccode{esl\_sqio\_Read()}} & Description.\\
+\hyperlink{func:esl_sqio_Write()}{\ccode{esl\_sqio\_Write()}} & Description.\\
+\hyperlink{func:esl_sqio_Echo()}{\ccode{esl\_sqio\_Echo()}} & Echo the next sequence record onto output stream\\
+\hyperlink{func:esl_sqio_GuessFileFormat()}{\ccode{esl\_sqioGuessFileFormat()}} & Description.\\
+\hyperlink{func:esl_sqio_EncodeFormat()}{\ccode{esl\_sqio\_EncodeFormat()}} & Description.\\
+\hyperlink{func:esl_sqio_DecodeFormat()}{\ccode{esl\_sqio\_DecodeFormat()}} & Returns descriptive string for file format code.\\
+\hyperlink{func:esl_sqio_IsAlignment()}{\ccode{esl\_sqio\_IsAlignment()}} & Description.\\
+\hyperlink{func:esl_sqio_PositionByKey()}{\ccode{esl\_sqio\_PositionByKey()}} & Description.\\
+%\hyperlink{func:esl_sqio_Rewind()}{\ccode{esl\_sqio\_Rewind()}} & Description.\\ 
+\hyperlink{func:esl_sqfile_GuessAlphabet()}{\ccode{esl\_sqfile\_GuessAlphabet()}} & Guess the alphabet of an open \ccode{ESL\_SQFILE}\\
+\apisubhead{Fast random access in a seqfile  [with SSI augmentation]}\\
+\hyperlink{func:esl_sqfile_OpenSSI()}{\ccode{esl\_sqfile\_OpenSSI()}} & Opens an SSI index associated with a seq file.\\
+\hyperlink{func:esl_sqfile_PositionByKey()}{\ccode{esl\_sqfile\_PositionByKey()}} & Use SSI to reposition seq file to a particular sequence.\\
+\hyperlink{func:esl_sqfile_PositionByNumber()}{\ccode{esl\_sqfile\_PositionByNumber()}} & Use SSI to reposition by sequence number\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{sqio} API.}
+\label{tbl:sqio_api}
+\end{table}
+
+\subsection{Example: reading sequences from a file}
+
+Figure~\ref{fig:sqio_example} shows a program that opens a file, reads
+sequences from it one at a time, then closes the file.
+
+\begin{figure}
+\input{cexcerpts/sqio_example}
+\caption{Example of reading sequences from a file.}
+\label{fig:sqio_example}
+\end{figure}
+
+A FASTA file named \ccode{seqfile} is opened for reading by calling
+\ccode{esl\_sqfile\_Open(filename, format, env, \&sqfp)}, which
+creates a new \ccode{ESL\_SQFILE} and returns it through the
+\ccode{sqfp} pointer. If the \ccode{format} is passed as
+\ccode{eslSQFILE\_UNKNOWN}, then the format of the file is
+autodetected; here, we bypass autodetection by asserting that the file
+is in FASTA format by passing a \ccode{eslSQFILE\_FASTA} code. (See
+below for a list of valid codes and formats.) The optional \ccode{env}
+argument is described below too; here, we're passing \ccode{NULL} and
+not using it.
+
+Several things can go wrong in trying to open a sequence file that are
+beyond the control of Easel or your application, so it's important
+that you check the return code.  \ccode{esl\_sqfile\_Open()} returns
+\ccode{eslENOTFOUND} if the file can't be opened; \ccode{eslEFORMAT}
+if the file is empty, or if autodetection can't determine its format;
+and \ccode{eslEINVAL} if you try to autodetect format on an input
+stream that can't be autodetected (a nonrewindable stream: see below
+for info about reading from \ccode{stdin} and compressed
+files). (Additionally, an internal error might be thrown, which you
+should check for if you installed a nonfatal error handler).
+
+The file is then read one sequence at a time by calling
+\ccode{esl\_sq\_Read(sqfp, sq)}. This function returns \ccode{eslOK}
+if it read a new sequence, and leaves that sequence in the \ccode{sq}
+object that the caller provided.  When there is no more data in the
+file, \ccode{esl\_sq\_Read()} returns \ccode{eslEOF}. 
+
+If at any point the file does not appear to be in the proper format,
+\ccode{esl\_sq\_Read()} returns \ccode{eslEFORMAT}. The application
+must check for this. The API provides a little information about what
+went wrong and where. \ccode{sqfp->filename} is the name of the file
+that we were parsing (not necessarily the same as \ccode{seqfile};
+\ccode{sqfp->filename} can be a full pathname if we used an
+\ccode{env} argument to look for \ccode{seqfile} in installed database
+directories). The function \ccode{esl\_sqfile\_GetErrorBuf} should be
+called to get a pointer to the generated error message.  The buffer
+ is a brief explanatory message that gets filled in when a 
+\ccode{eslEFORMAT} error occurs.
+  \footnote{Unlike in the MSA module, you don't get access to the
+  current line text; some of sqio's parsers use fast block-based
+  (\ccode{fread()}) input instead of line-based input.}
+
+We can reuse the same \ccode{ESL\_SQ} object for subsequent sequences
+by calling \ccode{esl\_sq\_Reuse()} on it when we're done with the
+previous sequence. If we wanted to load a set of sequences, we'd
+\ccode{\_Create()} an array of \ccode{ESL\_SQ} objects. 
+
+Finally, to clean up properly, a \ccode{ESL\_SQ} that was created is
+destroyed with \ccode{esl\_sq\_Destroy(sq)}, and a \ccode{ESL\_SQFILE}
+is closed with \ccode{esl\_sqfile\_Close()}.
+
+\subsection{Accepted formats}
+
+Accepted unaligned sequence file formats (and their Easel format
+codes) are:
+
+\begin{tabular}{ll}
+\ccode{eslSQFILE\_DDBJ}     & DDBJ flat text DNA database format \\
+\ccode{eslSQFILE\_EMBL}     & EMBL flat text DNA database format \\
+\ccode{eslSQFILE\_FASTA}    & FASTA format \\
+\ccode{eslSQFILE\_GENBANK}  & GenBank flat text DNA database format \\
+\ccode{eslSQFILE\_UNIPROT}  & UniProt flat text protein database format \\
+\ccode{eslSQFILE\_NCBI}     & NCBI BLAST database format version 4  \\
+\end{tabular}
+
+Additionally, the code \ccode{eslSQFILE\_UNKNOWN} is recognized. It
+tells \ccode{esl\_sqfile\_Open()} to perform format autodetection.
+
+\subsection{Special input streams: stdin and compressed files}
+
+There are two special cases for input files. 
+
+The module can read sequence input from a stdin pipe. If the
+\ccode{seqfile} argument is ``-'', \ccode{esl\_sqfile\_Open()} ``opens''
+standard input (really, it just associates \ccode{stdin}, which is
+always open, with the \ccode{ESL\_SQFILE}). 
+
+The module can read compressed sequence files. If the \ccode{seqfile}
+argument to \ccode{esl\_sqfile\_Open()} ends in \ccode{.gz}, the file is
+assumed to be compressed with \ccode{gzip}; instead of opening it
+normally, \ccode{esl\_sqfile\_Open()} opens it as a pipe from
+\ccode{gzip -dc}. Your system must support pipes to use this -
+specifically, it must support the \ccode{popen()} system call (POSIX.2
+compliant operating systems do). The \ccode{configure} script
+automatically checks this at compile-time and defines
+\ccode{HAVE\_POPEN} appropriately. Obviously, the user must also have
+\ccode{gzip} installed and in his PATH.
+
+For both special cases, the catch is that you can't use format
+autodetection; you must provide a valid known format code when you
+read from stdin or from a compressed file. Pipes are not rewindable,
+and format autodetection relies on a two-pass algorithm: it reads
+partway into the file to determine the format, then rewinds to start
+parsing for real.
+
+\subsection{Augmentations}
+
+The sqio module is optionally augmented by up to two additional
+modules, as follows:
+
+\subsubsection{msa: read unaligned sequences sequentially from an alignment}
+
+If sqio is augmented with the msa module, then the sqio API gains the
+ability to read alignment file formats in addition to unaligned file
+formats. The sqio API remains exactly the same (the caller doesn't
+have to use any msa module functions).
+
+\subsubsection{alphabet: digitized sequences}
+
+At present, only placeholders exist in the code for this augmentation.
+The plan is to provide the ability to input sequences directly into
+\ccode{dsq} as pre-digitized sequences.
+
+
+\subsubsection{ncbi: read NCBI BLAST databases}
+
+If sqio is augmented with the ncbi module, then the sqio API gains the
+ability to read NCBI BLAST database formats in addition to ASCII file
+formats. The sqio API remains exactly the same (the caller doesn't
+have to use any msa module functions).
+
+To open a BLAST database, the format must be supplied.  If a format
+of \ccode{eslSQFILE\_UNKNOWN} is specified, only ASCII based format,
+i.e. FASTA, GENBANK, etc. will be opened.
+
+When opening a BLAST database, the file name should not include any
+extensions.  If the \ccode{ESL\_ALPHABET} is not specified, Easel
+will first try to open a protein database, followed by a DNA database
+and finally a multi-volume database.  The handling of a multi-volume
+database is done through the alias file.  The only directive in
+the alias file is the DBLIST line, listing all the database volumes.
+
+
+
+
+\subsection{Adding a sequence parser}
+
+The \eslmod{sqio} module is designed to handle multiple sequence
+formats.  Parsers for different formats can be plugged into the
+\eslmod{sqio} module without any API changes.  This means that
+programs using the Easel library won't need code changes to
+use the new parser.
+
+A new parser will need a format type, a structure for parser
+specific data, API functions and a hook into the 
+\ccode{sqfile\_open} function.
+
+The list of formats are defined in \ccode{esl\_sqio.h}.  A new
+\ccode{\#define} will be added to the existing formats:
+
+\input{cexcerpts/sq_sqio_format}
+
+A data structure for parser specific data will need to be added
+to \ccode{ESL\_SQDATA}.  This structure is a union of the 
+different parser specific data structures.  If possible the
+addition of the parser structure should be augmented so its
+inclusion can be controlled.
+
+\input{cexcerpts/sq_sqio_data}
+
+Finally, the routine specific function pointers neeed to be
+defined.  The functions in \ccode{esl\_sqio.c} in turn call
+these function pointers.  The \ccode{esl\_sqfile\_Open} function
+initializes the function pionters to NULL, so if they are not
+set an exception will occur when the function is called.  At
+a minimum, the function should be defined to return an
+\ccode{eslEUNIMPLEMENTED}.  Below is a map the the function
+pointers to their respective function.
+
+\begin{tabular}{ll} \\
+Function Pointer & ESL\_SQIO Function \\ \hline
+position & esl\_sqfile\_Position \\
+close & esl\_sqfile\_Close \\
+set\_digital & esl\_sqfile\_SetDigital \\
+guess\_alphabet & esl\_sqfile\_GuessAlphabet \\
+read & esl\_sqio\_Read  \\
+read\_info & esl\_sqio\_ReadInfo   \\
+read\_seq & esl\_sqio\_ReadSequence \\
+read\_window & esl\_sqio\_ReadWindow \\
+echo & esl\_sqio\_Echo  \\
+read\_block & esl\_sqio\_ReadBlock  \\
+open\_ssi & esl\_sqfile\_OpenSSI     \\
+pos\_by\_key & esl\_sqfile\_PositionByKey    \\
+pos\_by\_number & esl\_sqfile\_PositionByNumber \\
+fetch & esl\_sqio\_Fetch       \\
+fetch\_info & esl\_sqio\_FetchInfo   \\
+fetch\_subseq & esl\_sqio\_FetchSubseq \\
+is\_rewindable & esl\_sqfile\_IsRewindable  \\
+get\_error & esl\_sqfile\_GetErrorBuf \\
+\end{tabular}
+
+\bigskip
+A hook needs to be added to the function \ccode{sqfile\_open}.
+This hook will try to open the specified file.  If successful,
+the \ccode{ESL\_SQFILE} structure should be filled in with function
+pointers and the parser specific data and the open hook
+return \ccode{eslOK}.  If the sequence files were not found for
+the specific parser, an \ccode{eslENOTFOUND} is returned and
+the next parser tries to open the file.  Below is an example
+of code that tries to open an NCBI BLAST database if not
+successful, then the ASCII sequence parsers try to open the
+file.
+
+\begin{cchunk}
+#ifdef eslAUGMENT\_NCBI
+    if (format == eslSQFILE\_NCBI && status == eslENOTFOUND)
+      status = esl\_sqncbi\_Open(sqfp->filename, sqfp->format, sqfp);
+#endif
+    if (status == eslENOTFOUND)
+      status = esl\_sqascii\_Open(sqfp->filename, sqfp->format, sqfp);
+\end{cchunk}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ascii.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ascii.c
new file mode 100755
index 0000000..4bf121a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ascii.c
@@ -0,0 +1,3396 @@
+/* Unaligned ascii sequence file i/o.
+ * 
+ * Contents:
+ *    1. An <ESL_SQFILE> object, in text mode.
+ *    2. An <ESL_SQFILE> object, in digital mode. [with <alphabet>]
+ *    3. Miscellaneous routines.
+ *    4. Sequence reading (sequential).
+ *    5. Sequence/subsequence fetching, random access [with <ssi>]
+ *    6. Internal routines shared by parsers.
+ *    7. Internal routines for EMBL format (including UniProt, TrEMBL)
+ *    8. Internal routines for GenBank format
+ *    9. Internal routines for FASTA format
+ *   10. Internal routines for DAEMON format
+ *   11. Internal routines for HMMPGMD format
+ *   12. Copyright and license.
+ * 
+ * This module shares remote evolutionary homology with Don Gilbert's
+ * seminal, public domain ReadSeq package, though the last common
+ * ancestor was circa 1991 and no recognizable vestiges are likely to
+ * remain. Thanks Don!
+ *
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+#include <unistd.h>
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"/* alphabet aug adds digital sequences */
+#endif 
+#ifdef eslAUGMENT_MSA
+#include "esl_msa.h"/* msa aug adds ability to read MSAs as unaligned seqs  */
+#include "esl_msafile.h"
+#endif
+#ifdef eslAUGMENT_SSI
+#include "esl_ssi.h"/* ssi aug adds ability to randomly access sequences/subsequences */
+#endif
+#include "esl_sqio.h"
+#include "esl_sq.h"
+
+/* format specific routines */
+static int   sqascii_GuessFileFormat(ESL_SQFILE *sqfp, int *ret_fmt);
+static int   sqascii_Position       (ESL_SQFILE *sqfp, off_t offset);
+static void  sqascii_Close          (ESL_SQFILE *sqfp);
+static int   sqascii_SetDigital     (ESL_SQFILE *sqfp, const ESL_ALPHABET *abc);
+static int   sqascii_GuessAlphabet  (ESL_SQFILE *sqfp, int *ret_type);
+static int   sqascii_Read           (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int   sqascii_ReadInfo       (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int   sqascii_ReadSequence   (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int   sqascii_ReadWindow     (ESL_SQFILE *sqfp, int C, int W, ESL_SQ *sq);
+static int   sqascii_ReadBlock      (ESL_SQFILE *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target);
+static int   sqascii_Echo           (ESL_SQFILE *sqfp, const ESL_SQ *sq, FILE *ofp);
+
+static int   sqascii_IsRewindable   (const ESL_SQFILE *sqfp);
+static const char *sqascii_GetError (const ESL_SQFILE *sqfp);
+
+#ifdef eslAUGMENT_SSI
+static int   sqascii_OpenSSI         (ESL_SQFILE *sqfp, const char *ssifile_hint);
+static int   sqascii_PositionByKey   (ESL_SQFILE *sqfp, const char *key);
+static int   sqascii_PositionByNumber(ESL_SQFILE *sqfp, int which);
+static int   sqascii_Fetch           (ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq);
+static int   sqascii_FetchInfo       (ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq);
+static int   sqascii_FetchSubseq     (ESL_SQFILE *sqfp, const char *source, int64_t start, int64_t end, ESL_SQ *sq);
+#endif /*eslAUGMENT_SSI*/
+
+/* Internal routines shared by parsers. */
+static int  loadmem  (ESL_SQFILE *sqfp);
+static int  loadbuf  (ESL_SQFILE *sqfp);
+static int  nextchar (ESL_SQFILE *sqfp, char *ret_c);
+static int  seebuf   (ESL_SQFILE *sqfp, int64_t maxn, int64_t *opt_nres, int64_t *opt_endpos);
+static void addbuf   (ESL_SQFILE *sqfp, ESL_SQ *sq, int64_t nres);
+static void skipbuf  (ESL_SQFILE *sqfp, int64_t nskip);
+static int  read_nres(ESL_SQFILE *sqfp, ESL_SQ *sq, int64_t nskip, int64_t nres, int64_t *opt_actual_nres);
+static int  skip_whitespace(ESL_SQFILE *sqfp);
+
+/* EMBL format; also UniProt, TrEMBL */
+static void config_embl(ESL_SQFILE *sqfp);
+static void inmap_embl (ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap);
+static int  header_embl(ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  skip_embl  (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  end_embl   (ESL_SQFILE *sqfp, ESL_SQ *sq);
+
+/* GenBank format; also DDBJ */
+static void config_genbank(ESL_SQFILE *sqfp);
+static void inmap_genbank (ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap);
+static int  header_genbank(ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  skip_genbank  (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  end_genbank   (ESL_SQFILE *sqfp, ESL_SQ *sq);
+
+/* FASTA format */
+static void config_fasta(ESL_SQFILE *sqfp);
+static void inmap_fasta (ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap);
+static int  header_fasta(ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  skip_fasta  (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  end_fasta   (ESL_SQFILE *sqfp, ESL_SQ *sq);
+
+/* DAEMON format */
+static void config_daemon(ESL_SQFILE *sqfp);
+static void inmap_daemon (ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap);
+static int  end_daemon   (ESL_SQFILE *sqfp, ESL_SQ *sq);
+
+/* HMMPGMD format */
+static int  fileheader_hmmpgmd(ESL_SQFILE *sqfp);
+
+
+/*****************************************************************
+ *# 1. An <ESL_SQFILE> object, in text mode.
+ *****************************************************************/ 
+
+/* Function:  esl_sqascii_Open()
+ * Synopsis:  Open a sequence file for reading.
+ *
+ * Purpose:   Open a sequence file <filename> for reading. 
+ *            The opened <ESL_SQFILE> is returned through <ret_sqfp>.
+ * 
+ *            The format of the file is asserted to be <format> (for
+ *            example, <eslSQFILE_FASTA>). If <format> is
+ *            <eslSQFILE_UNKNOWN> then the routine attempts to
+ *            autodetect the file format.
+ *            
+ *            There are two special cases for <filename>. If
+ *            <filename> is "-", the sequence data are read from a
+ *            <STDIN> pipe. If <filename> ends in ".gz", the file is
+ *            assumed to be compressed with <gzip>, and it is opened
+ *            by a pipe from <gzip -dc>. Reading gzip files only works
+ *            on POSIX-compliant systems that have pipes
+ *            (specifically, the POSIX.2 popen() call). 
+ *
+ * Returns:   <eslOK> on success, and <*ret_sqfp> points to a new
+ *            open <ESL_SQFILE>. Caller deallocates this object with
+ *            <esl_sqfile_Close()>. 
+ *            
+ *            Returns <eslENOTFOUND> if <filename> can't be found or
+ *            opened.  Returns <eslEFORMAT> if the file is empty, or
+ *            if autodetection is attempted and the format can't be
+ *            determined.  On any error condition, <*ret_sqfp> is
+ *            returned NULL.
+ *             
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_sqascii_Open(char *filename, int format, ESL_SQFILE *sqfp)
+{
+  int         status;/* return status from an ESL call */
+  int         n;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* before we go any further, make sure we can handle the format */
+  if (format == eslSQFILE_NCBI) return eslENOTFOUND;
+
+  /* Default initializations */
+  ascii->fp           = NULL;
+  ascii->do_gzip      = FALSE;
+  ascii->do_stdin     = FALSE;
+  ascii->do_buffer    = FALSE;
+
+  ascii->mem          = NULL;
+  ascii->allocm       = 0;
+  ascii->mn           = 0;
+  ascii->mpos         = 0;
+  ascii->moff         = -1;
+  ascii->is_recording = FALSE;
+
+  ascii->buf          = NULL;
+  ascii->boff         = 0;
+  ascii->balloc       = 0;
+  ascii->nc           = 0;
+  ascii->bpos         = 0;
+  ascii->L            = 0;
+  ascii->linenumber   = 1;
+
+  ascii->bookmark_offset  = 0;
+  ascii->bookmark_linenum = 0;
+
+  ascii->is_linebased = FALSE;
+  ascii->eof_is_ok    = FALSE;
+  ascii->parse_header = NULL;
+  ascii->skip_header  = NULL;
+  ascii->parse_end    = NULL;
+
+  ascii->afp        = NULL;
+  ascii->msa        = NULL;
+  ascii->idx        = -1;
+
+  ascii->ssifile    = NULL;
+  ascii->rpl        = -1; /* -1 = not set yet */
+  ascii->bpl        = -1; /* (ditto) */
+  ascii->prvrpl     = -1; /* (ditto) */
+  ascii->prvbpl     = -1; /* (ditto) */
+  ascii->currpl     = -1;
+  ascii->curbpl     = -1;
+  ascii->ssi        = NULL;
+
+  /* MSA formats are handled entirely by msafile module - 
+   * let it  handle stdin, .gz, etc
+   */
+  if (! esl_sqio_IsAlignment(format))
+  {
+    if (strcmp(filename, "-") == 0) /* stdin special case */
+    {
+      ascii->fp       = stdin;
+      ascii->do_stdin = TRUE;
+    }
+    else
+    { /* Check the current working directory first. */
+      if ((ascii->fp = fopen(filename, "r")) == NULL) {
+        status = eslENOTFOUND;
+        goto ERROR;
+      }
+    }
+
+      /* Deal with the .gz special case: to popen(), "success" only means
+       * it found and executed gzip -dc.  If gzip -dc doesn't find our
+       * file, popen() still blithely returns success, so we have to be
+       * sure the file exists. That's why we fopen()'ed it above, only to
+       * close it and popen() it here.
+       */                           
+#ifdef HAVE_POPEN
+      n = strlen(filename);
+      if (n > 3 && strcmp(filename+n-3, ".gz") == 0) 
+      {
+        char *cmd;
+        fclose(ascii->fp);
+        ESL_ALLOC(cmd, sizeof(char) * (n+1+strlen("gzip -dc ")));
+        sprintf(cmd, "gzip -dc %s", filename);
+        ascii->fp = popen(cmd, "r");
+        if (ascii->fp == NULL) { status = eslENOTFOUND; goto ERROR; }
+        ascii->do_gzip  = TRUE;
+        free(cmd);
+      }
+#endif /*HAVE_POPEN*/
+
+      /* If we don't know the format yet, try to autodetect it now. */
+      if (format == eslSQFILE_UNKNOWN)
+      {
+         status = sqascii_GuessFileFormat(sqfp, &format);
+         if      (status == eslOK)      sqfp->format = format;
+         else if (status != eslEFORMAT) goto ERROR; /* <format> might still be eslSQFILE_UNKNOWN, for MSA files  */
+      }
+
+      /* If the format is still unknown, it may be an MSA file.  The
+       * msafile module is capable of autodetecting format even in a .gz
+       * or stdin pipe, but the stuff above has already read from these
+       * nonrewindable sources, trying to guess an unaligned format.  We
+       * could open a second .gz pipe, but that's ugly; and in any case,
+       * we can't rewind stdin. Eventually, this will get resolved, by
+       * having sqio open an ESL_BUFFER, then doing an
+       * eslx_msafile_OpenBuffer() if we need to hand control to the
+       * msafile module. For now, sqio is already documented to be
+       * unable to autodetect MSA file formats in stdin or .gz pipes,
+       * so leave it that way.
+       */
+      if (format == eslSQFILE_UNKNOWN && (ascii->do_gzip || ascii->do_stdin)) 
+      { status = eslEFORMAT; goto ERROR; }
+    }
+
+  /* If format is definitely an MSA, open it through the msafile interface.
+   * Or, if format is still unknown, try to open the file as an MSA file,
+   * using msafile autodetection. 
+   */
+#ifdef eslAUGMENT_MSA
+  if (format == eslSQFILE_UNKNOWN || esl_sqio_IsAlignment(format))
+    {
+      status = eslx_msafile_Open(NULL, filename, NULL, format, NULL, &(ascii->afp));
+      if (status != eslOK) { status = eslEFORMAT; goto ERROR; } /* This was our last attempt. Failure to open == failure to detect format */
+      sqfp->format = format = ascii->afp->format;
+    }
+#endif
+  if (format == eslSQFILE_UNKNOWN) { status = eslEFORMAT; goto ERROR; }
+
+
+  /* Configure the <sqfp>'s parser and inmaps for this format. */
+  if (!esl_sqio_IsAlignment(format)) 
+    {
+      switch (format) {
+      case eslSQFILE_EMBL:     config_embl(sqfp);    inmap_embl(sqfp,    NULL);   break;
+      case eslSQFILE_UNIPROT:  config_embl(sqfp);    inmap_embl(sqfp,    NULL);   break;
+      case eslSQFILE_GENBANK:  config_genbank(sqfp); inmap_genbank(sqfp, NULL);   break;
+      case eslSQFILE_DDBJ:     config_genbank(sqfp); inmap_genbank(sqfp, NULL);   break;
+      case eslSQFILE_FASTA:    config_fasta(sqfp);   inmap_fasta(sqfp,   NULL);   break;
+      case eslSQFILE_DAEMON:   config_daemon(sqfp);  inmap_daemon(sqfp,  NULL);   break;
+      case eslSQFILE_HMMPGMD:  config_fasta(sqfp);   inmap_fasta(sqfp,   NULL);   break;
+      default:status = eslEFORMAT; goto ERROR;
+      }
+
+      /* Preload the first line or chunk of file. */
+      status = loadbuf(sqfp);
+      if      (status == eslEOF) { status = eslEFORMAT; goto ERROR; }
+      else if (status != eslOK)  { goto ERROR; }
+
+      /* hmmpgmd is a special case: we need to skip first line before parsing it.
+       * generalize that a little: this could be a section for parsing a file header,
+       * and leaving the buf positioned at the first char of the first record
+       * (just as expected if there's no file header)
+       */
+      switch (format) {
+      case eslSQFILE_HMMPGMD:   status = fileheader_hmmpgmd(sqfp); break;
+      default:                  status = eslOK;                    break;
+      }
+      if (status != eslOK) goto ERROR;
+    }
+  else
+    {
+      ascii->is_linebased = TRUE;
+      ascii->eof_is_ok    = FALSE; /* no-op for msa's */
+      ascii->parse_header = NULL;  /* no-op for msa's */
+      ascii->skip_header  = NULL;  /* no-op for msa's */
+      ascii->parse_end    = NULL;  /* no-op for msa's */
+    }
+
+  /* initialize the function pointers for the ascii routines */
+  sqfp->position          = &sqascii_Position;
+  sqfp->close             = &sqascii_Close;
+
+  sqfp->set_digital       = &sqascii_SetDigital;
+  sqfp->guess_alphabet    = &sqascii_GuessAlphabet;
+
+  sqfp->is_rewindable     = &sqascii_IsRewindable;
+
+  sqfp->read              = &sqascii_Read;
+  sqfp->read_info         = &sqascii_ReadInfo;
+  sqfp->read_seq          = &sqascii_ReadSequence;
+  sqfp->read_window       = &sqascii_ReadWindow;
+  sqfp->echo              = &sqascii_Echo;
+
+  sqfp->read_block        = &sqascii_ReadBlock;
+
+#ifdef eslAUGMENT_SSI
+  sqfp->open_ssi          = &sqascii_OpenSSI;
+  sqfp->pos_by_key        = &sqascii_PositionByKey;
+  sqfp->pos_by_number     = &sqascii_PositionByNumber;
+
+  sqfp->fetch             = &sqascii_Fetch;
+  sqfp->fetch_info        = &sqascii_FetchInfo;
+  sqfp->fetch_subseq      = &sqascii_FetchSubseq;
+#endif
+
+  sqfp->get_error         = &sqascii_GetError;
+
+  return eslOK;
+
+ ERROR:
+  sqascii_Close(sqfp); 
+  return status;
+}
+
+
+/* Function:  sqascii_GuessFileFormat()
+ * Synopsis:  Guess the format of an open <ESL_SQFILE>.
+ *
+ * Purpose:   Try to guess the sequence file format of <sqfp>, and
+ *            return the format code in <*ret_fmt>.
+ *            
+ *            First we attempt to guess based on the <filename>'s
+ *            suffix. <*.fa> is assumed to be in FASTA format; <*.gb>
+ *            is assumed to be in GenBank format.
+ *            
+ *            If that fails, we attempt to guess based on peeking at
+ *            the first nonblank line of <filename>. If the line
+ *            starts with $>$, we assume FASTA format; if the line
+ *            starts with <ID>, we assume EMBL format; if the line
+ *            starts with <LOCUS> or it contains the string <Genetic
+ *            Sequence Data Bank> we assume GenBank format.
+ *            
+ *            If that fails too, return an <eslEFORMAT> error, and
+ *            <*ret_fmt> is set to <eslSQFILE_UNKNOWN>.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_fmt> contains
+ *            a valid sequence file format code, such as 
+ *            <eslSQFILE_FASTA>.
+ *            
+ *            Returns <eslEFORMAT> if we opened <filename> but it
+ *            contains no nonblank lines, or if we peeked at the first
+ *            nonblank line and still couldn't guess the format;
+ *            <*ret_fmt> is then <eslSQFILE_UNKNOWN>.
+ *            
+ * Throws:    <eslEMEM> on allocation failure.           
+ */
+static int
+sqascii_GuessFileFormat(ESL_SQFILE *sqfp, int *ret_fmt)
+{
+  int   n         = strlen(sqfp->filename);
+  const char *sfx = NULL;
+  int   is_gzip   = FALSE;
+  int   nsfx;
+  int   status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* On any premature exit, *ret_fmt is eslSQFILE_UNKNOWN */
+  *ret_fmt = eslSQFILE_UNKNOWN;
+
+  /* Is <filename> gzip'ed? Look at suffix. */
+  if (n > 3 && strcmp(sqfp->filename+n-3, ".gz") == 0) is_gzip = TRUE;
+
+  /* Locate the suffix that might indicate format (ignore .gz) */
+  for (nsfx = 1, sfx = sqfp->filename + n - 1 - (is_gzip ? 3 : 0);
+       sfx != sqfp->filename && *sfx != '.'; 
+       sfx--) 
+    nsfx++;
+
+  /* now sfx points either to filename (we didn't find a suffix) or to the . of the suffix,
+   * and nsfx is the suffix length inclusive of the . 
+   */
+  
+  /* Attempt to guess file format based on file name suffix. */
+  if      (strncmp(sfx, ".fa",  3) == 0)  { *ret_fmt = eslSQFILE_FASTA;      return eslOK; }
+  else if (strncmp(sfx, ".gb",  3) == 0)  { *ret_fmt = eslSQFILE_GENBANK;    return eslOK; }
+    
+  /* If that didn't work, we'll have a peek at the stream; 
+   * turn recording on, and set for line based input.
+   */
+  if (ascii->is_recording == -1) ESL_EXCEPTION(eslEINVAL, "sq file already too advanced");
+  ascii->is_recording = TRUE;
+  ascii->is_linebased = TRUE;
+  loadbuf(sqfp);/* now ascii->buf is a line of the file */
+
+  /* get first nonblank line */
+  while (esl_str_IsBlank(ascii->buf)) {
+    status = loadbuf(sqfp);
+    if      (status == eslEOF) ESL_XFAIL(eslEFORMAT, ascii->errbuf, "No data found in file");
+    else if (status != eslOK)  goto ERROR;
+  } 
+
+  /* formats that can be determined from the first line: */
+  if      (*(ascii->buf) == '>')                                     *ret_fmt = eslSQFILE_FASTA;
+  else if (strncmp(ascii->buf, "ID   ", 5)    == 0)                  *ret_fmt = eslSQFILE_EMBL;
+  else if (strncmp(ascii->buf, "LOCUS   ", 8) == 0)                  *ret_fmt = eslSQFILE_GENBANK;
+  else if (strstr(ascii->buf, "Genetic Sequence Data Bank") != NULL) *ret_fmt = eslSQFILE_GENBANK;
+
+  /* reset the sqfp */
+  ascii->mpos         = 0;
+  ascii->is_recording = FALSE;
+  ascii->is_linebased = FALSE;
+  free(ascii->buf);
+  ascii->buf    = NULL;
+  ascii->balloc = 0;
+  return (*ret_fmt == eslSQFILE_UNKNOWN) ? eslEFORMAT : eslOK;
+
+ ERROR:
+  ascii->mpos         = 0;
+  ascii->is_recording = FALSE;
+  ascii->is_linebased = FALSE;
+  if (ascii->buf != NULL) { free(ascii->buf); ascii->balloc = 0; }
+  return status;
+}
+
+/* Function:  sqascii_Position()
+ * Synopsis:  Reposition an open sequence file to an offset.
+  *
+ * Purpose:   Reposition an open <sqfp> to offset <offset>.
+ *            <offset> would usually be the first byte of a
+ *            desired sequence record.
+ *            
+ *            Only normal sequence files can be positioned to a
+ *            nonzero offset. If <sqfp> corresponds to a standard
+ *            input stream or gzip -dc stream, it may not be
+ *            repositioned. If <sqfp> corresponds to a multiple
+ *            sequence alignment file, the only legal <offset>
+ *            is 0, to rewind the file to the beginning and 
+ *            be able to read the entire thing again.
+ *            
+ *            After <esl_sqfile_Position()> is called on a nonzero
+ *            <offset>, <sqfp->linenumber> and other bookkeeping
+ *            information is unknown. If caller knows it, it should
+ *            set it explicitly.
+ *            
+ *            See the SSI module for manipulating offsets and indices.
+ *
+ * Returns:   <eslOK>     on success;
+ *            <eslEOF>    if no data can be read from this position.
+ *
+ * Throws:    <eslESYS> if the fseeko() or fread() call fails.
+ *            <eslEMEM> on (re-)allocation failure.
+ *            <eslEINVAL> if the <sqfp> is not positionable.
+ *            <eslENOTFOUND> if in trying to rewind an alignment file  
+ *              by closing and reopening it, the open fails.
+ *            On errors, the state of <sqfp> is indeterminate, and
+ *            it should not be used again.
+ */
+static int
+sqascii_Position(ESL_SQFILE *sqfp, off_t offset)
+{
+  int status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->do_stdin)                  ESL_EXCEPTION(eslEINVAL, "can't Position() in standard input");
+  if (ascii->do_gzip)                   ESL_EXCEPTION(eslEINVAL, "can't Position() in a gzipped file");
+  if (offset < 0)                       ESL_EXCEPTION(eslEINVAL, "bad offset");
+  if (offset > 0 && ascii->afp != NULL) ESL_EXCEPTION(eslEINVAL, "can't use esl_sqfile_Position() w/ nonzero offset on MSA file");
+
+  if (esl_sqio_IsAlignment(sqfp->format)) 
+    {/* msa file: close and reopen. maybe sometime we'll have esl_msafile_Rewind() */
+        /* we have already verified that offset==0 for MSA file */
+      eslx_msafile_Close(ascii->afp);
+      if (ascii->msa != NULL) esl_msa_Destroy(ascii->msa);
+      ascii->afp = NULL;
+      ascii->msa = NULL;
+      ascii->idx = 0;
+      
+      /* we know we successfully opened it the first time, so a
+         failure to reopen is an exception, not a user-reportable
+         normal error. ENOTFOUND is the only normal error;
+         EFORMAT error can't occur because we know the format and
+         don't use autodetection.
+       */
+      status = eslx_msafile_Open(NULL, sqfp->filename, NULL, sqfp->format, NULL, &(ascii->afp));
+      if      (status == eslENOTFOUND) ESL_EXCEPTION(eslENOTFOUND, "failed to reopen alignment file");
+      else if (status != eslOK)        return status;
+    }
+  else/* normal case: unaligned sequence file */
+    {
+      if (fseeko(ascii->fp, offset, SEEK_SET) != 0) ESL_EXCEPTION(eslESYS, "fseeko() failed");
+
+      ascii->currpl     = -1;
+      ascii->curbpl     = -1;
+      ascii->prvrpl     = -1;
+      ascii->prvbpl     = -1;
+      ascii->linenumber = (offset == 0) ? 1 : -1; /* -1 is "unknown" */
+      ascii->L          = -1;
+      ascii->mpos       = ascii->mn;/* this forces loadbuf to load new data */
+      if ((status = loadbuf(sqfp)) != eslOK) return status;
+    }
+  return eslOK;
+}
+
+
+
+/* Function:  sqascii_Close()
+ * Synopsis:  Close a sequence file.
+ *
+ * Purpose:   Closes an open <sqfp>.
+ *
+ * Returns:   (void).
+ */
+static void
+sqascii_Close(ESL_SQFILE *sqfp)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+#ifdef HAVE_POPEN
+  if (ascii->do_gzip)          pclose(ascii->fp);
+  else 
+#endif
+  if (! ascii->do_stdin && ascii->fp != NULL) fclose(ascii->fp);
+
+  if (ascii->ssifile  != NULL) free(ascii->ssifile);
+  if (ascii->mem      != NULL) free(ascii->mem);
+  if (ascii->balloc   > 0)     free(ascii->buf);
+#ifdef eslAUGMENT_SSI
+  if (ascii->ssi      != NULL) esl_ssi_Close(ascii->ssi);
+#endif
+
+#ifdef eslAUGMENT_MSA
+  if (ascii->afp      != NULL) eslx_msafile_Close(ascii->afp);
+  if (ascii->msa      != NULL) esl_msa_Destroy(ascii->msa);
+#endif /*eslAUGMENT_MSA*/
+
+  ascii->do_gzip  = FALSE;
+  ascii->do_stdin = FALSE;
+
+  ascii->fp       = NULL;
+
+  ascii->ssifile  = NULL;
+  ascii->mem      = NULL;
+
+  ascii->balloc   = 0;
+  ascii->buf      = NULL;
+
+  ascii->ssi      = NULL;
+
+  ascii->afp      = NULL;
+  ascii->msa      = NULL;
+
+  return;
+}
+/*------------------- ESL_SQFILE open/close -----------------------*/
+
+
+/*****************************************************************
+ *# 2. An <ESL_SQFILE> object, in digital mode [with <alphabet>]
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  sqascii_SetDigital()
+ * Synopsis:  Set an open <ESL_SQFILE> to read in digital mode.
+ *
+ * Purpose:   Given an <ESL_SQFILE> that's already been opened,
+ *            configure it to expect subsequent input to conform
+ *            to the digital alphabet <abc>.
+ *            
+ *            Calling <esl_sqfile_Open(); esl_sqfile_SetDigital()> is
+ *            equivalent to <esl_sqfile_OpenDigital()>. The two-step
+ *            version is useful when you need a
+ *            <esl_sqfile_GuessAlphabet()> call in between, guessing
+ *            the file's alphabet in text mode before you set it to
+ *            digital mode.
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+sqascii_SetDigital(ESL_SQFILE *sqfp, const ESL_ALPHABET *abc)
+{
+  int status = eslOK;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (!esl_sqio_IsAlignment(sqfp->format))
+    {
+      switch (sqfp->format) {
+      case eslSQFILE_EMBL:       inmap_embl(sqfp,    abc->inmap); break;
+      case eslSQFILE_UNIPROT:    inmap_embl(sqfp,    abc->inmap); break;
+      case eslSQFILE_GENBANK:    inmap_genbank(sqfp, abc->inmap); break;
+      case eslSQFILE_DDBJ:       inmap_genbank(sqfp, abc->inmap); break;
+      case eslSQFILE_FASTA:      inmap_fasta(sqfp,   abc->inmap); break;
+      case eslSQFILE_DAEMON:     inmap_daemon(sqfp,  abc->inmap); break;
+
+      default:                   status = eslEFORMAT;             break;
+      }
+    }
+  else
+    {
+#ifdef eslAUGMENT_MSA
+      eslx_msafile_SetDigital(ascii->afp, abc);
+#else
+      status = eslEFORMAT;
+#endif
+    }
+
+  return status;
+}
+
+/* Function:  sqascii_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open <ESL_SQFILE>.
+ *
+ * Purpose:   After opening <sqfp>, attempt to guess what alphabet
+ *            its sequences are in, by inspecting the first sequence
+ *            in the file, and return this alphabet type in <*ret_type>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_type> is set to <eslDNA>,
+ *            <eslRNA>, or <eslAMINO>.
+ *            
+ *            Returns <eslENOALPHABET> and sets <*ret_type> to 
+ *            <eslUNKNOWN> if the first sequence (or alignment)
+ *            in the file contains no more than ten residues total,
+ *            or if its alphabet cannot be guessed (i.e. it contains
+ *            IUPAC degeneracy codes, but no amino acid specific
+ *            residues).
+ *            
+ *            Returns <eslEFORMAT> if a parse error is encountered in
+ *            trying to read the sequence file. <ascii->errbuf> is set
+ *            to a useful error message if this occurs,
+ *            <sqfp->linenumber> is the line on which the error
+ *            occurred, and <*ret_type> is set to <eslUNKNOWN>.
+ *            
+ *            Returns <eslENODATA> and sets <*ret_type> to <eslUNKNOWN>
+ *            if the file appears to be empty.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslEINCONCEIVABLE> on unimaginable internal errors.
+ */
+static int
+sqascii_GuessAlphabet(ESL_SQFILE *sqfp, int *ret_type)
+{
+  ESL_SQ *sq = NULL;
+  int     status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* Special case: for MSA files, hand this off to msafile_GuessAlphabet. */
+#ifdef eslAUGMENT_MSA
+  if (esl_sqio_IsAlignment(sqfp->format)) return eslx_msafile_GuessAlphabet(ascii->afp, ret_type);
+#endif
+
+  /* set the sqfp to record; we'll rewind afterwards and use the recording */
+  ascii->is_recording = TRUE;
+
+  if ((sq = esl_sq_Create()) == NULL) { status = eslEMEM; goto ERROR; }
+
+  status = sqascii_ReadWindow(sqfp, 0, 4000, sq);
+  if      (status == eslEOF) { status = eslENODATA; goto ERROR; }
+  else if (status != eslOK)  goto ERROR; 
+
+  if ((status = esl_sq_GuessAlphabet(sq, ret_type)) != eslOK) goto ERROR;
+
+  /* reset the sqfp, so it uses the recording next */
+  ascii->mpos         = 0;
+  ascii->is_recording = FALSE;
+  if ((status = loadbuf(sqfp)) != eslOK) ESL_EXCEPTION(status, "buffer load failed, but shouldn't have");
+  esl_sq_Destroy(sq);
+  return eslOK;
+
+ ERROR:
+  esl_sq_Destroy(sq);
+  *ret_type      = eslUNKNOWN;
+  return status;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+/*-------------- end, digital mode ESL_SQFILE -------------------*/
+
+
+
+
+/*****************************************************************
+ *# 3. Miscellaneous routines 
+ *****************************************************************/ 
+
+/* Function:  sqascii_IsRewindable()
+ * Synopsis:  Return <TRUE> if <sqfp> can be rewound.
+ *
+ * Purpose:   Returns <TRUE> if <sqfp> can be rewound (positioned 
+ *            to an offset of zero), in order to read it a second
+ *            time.
+ */
+static int
+sqascii_IsRewindable(const ESL_SQFILE *sqfp)
+{
+  if (sqfp->data.ascii.do_gzip  == TRUE) return FALSE;
+  if (sqfp->data.ascii.do_stdin == TRUE) return FALSE;
+  return TRUE;
+}
+
+/* Function:  sqascii_GetError()
+ * Synopsis:  Return <TRUE> if <sqfp> can be rewound.
+ *
+ * Purpose:   Returns <TRUE> if <sqfp> can be rewound (positioned 
+ *            to an offset of zero), in order to read it a second
+ *            time.
+ */
+static const char *
+sqascii_GetError(const ESL_SQFILE *sqfp)
+{
+  return sqfp->data.ascii.errbuf;
+}
+
+
+/*****************************************************************
+ *# 4. Sequence reading (sequential)
+ *****************************************************************/ 
+
+/* Function:  sqascii_Read()
+ * Synopsis:  Read the next sequence from a file.
+ *
+ * Purpose:   Reads the next sequence from open sequence file <sqfp> into 
+ *            <sq>. Caller provides an allocated and initialized <s>, which
+ *            will be internally reallocated if its space is insufficient.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <s>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character; the line number that the parse
+ *            error occurs on is in <sqfp->linenumber>, and an informative
+ *            error message is placed in <ascii->errbuf>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+static int
+sqascii_Read(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int     status;
+  int64_t epos;
+  int64_t n;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+#ifdef eslAUGMENT_MSA
+  if (esl_sqio_IsAlignment(sqfp->format))
+  {
+      ESL_SQ *tmpsq = NULL;
+      if (ascii->msa == NULL || ascii->idx >= ascii->msa->nseq)
+      { /* we need to load a new alignment? */
+        esl_msa_Destroy(ascii->msa);
+        status = eslx_msafile_Read(ascii->afp, &(ascii->msa));
+        if (status == eslEFORMAT)
+        { /* oops, a parse error; upload the error info from afp to sqfp */
+           ascii->linenumber = ascii->afp->linenumber;
+           strcpy(ascii->errbuf, ascii->afp->errmsg); /* errbufs same size! */
+           return eslEFORMAT;
+        }
+        if (status != eslOK) return status;
+        ascii->idx = 0;
+      }
+      
+      /* grab next seq from alignment */
+      /* this is inefficient; it goes via a temporarily allocated copy of the sequence */
+      status = esl_sq_FetchFromMSA(ascii->msa, ascii->idx, &tmpsq);
+      esl_sq_GrowTo(sq, tmpsq->n);
+      esl_sq_Copy(tmpsq, sq);
+      esl_sq_Destroy(tmpsq);
+      ascii->idx++;
+
+      sq->start = 1;
+      sq->end   = sq->n;
+      sq->C     = 0;
+      sq->W     = sq->n;
+      sq->L     = sq->n;
+      return eslOK;
+    }
+#endif
+
+  /* Main case: read next seq from sqfp's stream */
+  if (ascii->nc == 0) return eslEOF;
+  if ((status = ascii->parse_header(sqfp, sq)) != eslOK) return status; /* EOF, EFORMAT */
+
+  do {
+    if ((status = seebuf(sqfp, -1, &n, &epos)) == eslEFORMAT) return status;
+    if (esl_sq_GrowTo(sq, sq->n + n) != eslOK) return eslEMEM;
+    addbuf(sqfp, sq, n);
+    ascii->L   += n;
+    sq->eoff   = ascii->boff + epos - 1;
+    if (status == eslEOD)     break;
+  } while ((status = loadbuf(sqfp)) == eslOK);
+    
+  if      (status == eslEOF)
+    {
+      if (! ascii->eof_is_ok) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Unexpected EOF; file truncated?"); 
+      if ((status = ascii->parse_end(sqfp, sq)) != eslOK) return status;
+    }
+  else if (status == eslEOD)
+    {
+      ascii->bpos = epos;
+      if ((status = ascii->parse_end(sqfp, sq)) != eslOK) return status;
+    }
+  else if (status != eslOK) return status;
+
+  if (sq->dsq != NULL) sq->dsq[sq->n+1] = eslDSQ_SENTINEL;
+  else                 sq->seq[sq->n] = '\0';
+  sq->start = 1;
+  sq->end   = sq->n;
+  sq->C     = 0;
+  sq->W     = sq->n;
+  sq->L     = sq->n;
+  return eslOK;
+}
+
+
+/* Function:  sqascii_ReadInfo()
+ * Synopsis:  Read sequence info, but not the sequence itself.
+ *
+ * Purpose:   Read the next sequence from open sequence file <sqfp>,
+ *            but don't store the sequence (or secondary structure).
+ *            Upon successful return, <s> holds all the available 
+ *            information about the sequence -- its name, accession,
+ *            description, and overall length <sq->L>. 
+ *            
+ *            This is useful for indexing sequence files, where
+ *            individual sequences might be ginormous, and we'd rather
+ *            avoid reading complete seqs into memory.
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+sqascii_ReadInfo(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int     status;
+  int64_t epos;
+  int64_t n;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+#ifdef eslAUGMENT_MSA
+  if (esl_sqio_IsAlignment(sqfp->format))
+    {
+      ESL_SQ *tmpsq = NULL;
+      if (ascii->msa == NULL || ascii->idx >= ascii->msa->nseq)
+      { /* we need to load a new alignment? */
+        esl_msa_Destroy(ascii->msa);
+        status = eslx_msafile_Read(ascii->afp, &(ascii->msa));
+        if (status == eslEFORMAT)
+        { /* oops, a parse error; upload the error info from afp to sqfp */
+          ascii->linenumber = ascii->afp->linenumber;
+          strcpy(ascii->errbuf, ascii->afp->errmsg); /* errbufs same size! */
+          return eslEFORMAT;
+        }
+        if (status != eslOK) return status;
+        ascii->idx = 0;
+      }
+      
+      /* grab next seq from alignment */
+      /* this is inefficient; it goes via a temporarily allocated copy of the sequence */
+      status = esl_sq_FetchFromMSA(ascii->msa, ascii->idx, &tmpsq);
+      if (tmpsq->dsq != NULL) tmpsq->dsq[1] = eslDSQ_SENTINEL;
+      else                    tmpsq->seq[0] = '\0';
+      esl_sq_Copy(tmpsq, sq);
+      esl_sq_Destroy(tmpsq);
+      ascii->idx++;
+
+      if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL;
+      else                 sq->seq[0] = '\0';
+      if (sq->ss  != NULL) { free(sq->ss); sq->ss = NULL; }
+
+      sq->n     = 0;
+      sq->start = 0;
+      sq->end   = 0;
+      sq->C     = 0;
+      sq->W     = 0;
+      return eslOK;
+    }
+#endif
+
+  if (ascii->nc == 0) return eslEOF;
+  if ((status = ascii->parse_header(sqfp, sq)) != eslOK) return status; /* EOF, EFORMAT */
+
+  ascii->L       = 0;
+  do {
+    status = seebuf(sqfp, -1, &n, &epos);
+    ascii->L += n;
+    sq->eoff = ascii->boff + epos - 1;
+    if (status == eslEFORMAT) return status;
+    if (status == eslEOD)     break;
+  } while ((status = loadbuf(sqfp)) == eslOK);
+    
+  if      (status == eslEOF) 
+    {
+      if (! ascii->eof_is_ok) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Unexpected EOF; file truncated?"); 
+    }
+  else if (status == eslEOD)
+    {
+      ascii->bpos = epos;
+      if ((status = ascii->parse_end(sqfp, sq)) != eslOK) return status;
+    }
+  else if (status != eslOK) return status;
+  sq->L = ascii->L;
+
+  /* Set coord system for an info-only ESL_SQ  */
+  if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL;
+  else                 sq->seq[0] = '\0';
+  if (sq->ss  != NULL) { free(sq->ss); sq->ss = NULL; }
+  sq->n     = 0;
+  sq->start = 0;
+  sq->end   = 0;
+  sq->C     = 0;
+  sq->W     = 0;
+  return eslOK;
+}
+
+
+/* Function:  sqascii_ReadSequence()
+ * Synopsis:  Read the next sequence from a file.
+ *
+ * Purpose:   Reads the next sequence from open sequence file <sqfp> into 
+ *            <sq>. Caller provides an allocated and initialized <s>, which
+ *            will be internally reallocated if its space is insufficient.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <s>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character; the line number that the parse
+ *            error occurs on is in <sqfp->linenumber>, and an informative
+ *            error message is placed in <ascii->errbuf>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+static int
+sqascii_ReadSequence(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int     status;
+  int64_t epos;
+  int64_t n;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+#ifdef eslAUGMENT_MSA
+  if (esl_sqio_IsAlignment(sqfp->format))
+    {
+      ESL_SQ *tmpsq = NULL;
+      if (ascii->msa == NULL || ascii->idx >= ascii->msa->nseq)
+      { /* we need to load a new alignment? */
+        esl_msa_Destroy(ascii->msa);
+        status = eslx_msafile_Read(ascii->afp, &(ascii->msa));
+        if (status == eslEFORMAT)
+        { /* oops, a parse error; upload the error info from afp to sqfp */
+          ascii->linenumber = ascii->afp->linenumber;
+          strcpy(ascii->errbuf, ascii->afp->errmsg); /* errbufs same size! */
+          return eslEFORMAT;
+        }
+        if (status != eslOK) return status;
+        ascii->idx = 0;
+      }
+      
+      /* grab next seq from alignment */
+      /* this is inefficient; it goes via a temporarily allocated copy of the sequence */
+      status = esl_sq_FetchFromMSA(ascii->msa, ascii->idx, &tmpsq);
+      esl_sq_GrowTo(sq, tmpsq->n);
+      esl_sq_Copy(tmpsq, sq);
+      esl_sq_Destroy(tmpsq);
+      ascii->idx++;
+
+      sq->start = 1;
+      sq->end   = sq->n;
+      sq->C     = 0;
+      sq->W     = sq->n;
+      sq->L     = sq->n;
+      return eslOK;
+    }
+#endif
+
+  /* Main case: read next seq from sqfp's stream */
+  if (ascii->nc == 0) return eslEOF;
+  if ((status = ascii->skip_header(sqfp, sq)) != eslOK) return status; /* EOF, EFORMAT */
+
+  do {
+    if ((status = seebuf(sqfp, -1, &n, &epos)) == eslEFORMAT) return status;
+    if (esl_sq_GrowTo(sq, sq->n + n) != eslOK) return eslEMEM;
+    addbuf(sqfp, sq, n);
+    ascii->L   += n;
+    sq->eoff   = ascii->boff + epos - 1;
+    if (status == eslEOD)     break;
+  } while ((status = loadbuf(sqfp)) == eslOK);
+    
+  if      (status == eslEOF)
+    {
+      if (! ascii->eof_is_ok) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Unexpected EOF; file truncated?"); 
+      if ((status = ascii->parse_end(sqfp, sq)) != eslOK) return status;
+    }
+  else if (status == eslEOD)
+    {
+      ascii->bpos = epos;
+      if ((status = ascii->parse_end(sqfp, sq)) != eslOK) return status;
+    }
+  else if (status != eslOK) return status;
+
+  if (sq->dsq != NULL) sq->dsq[sq->n+1] = eslDSQ_SENTINEL;
+  else                 sq->seq[sq->n] = '\0';
+  sq->start = 1;
+  sq->end   = sq->n;
+  sq->C     = 0;
+  sq->W     = sq->n;
+  sq->L     = sq->n;
+  return eslOK;
+}
+
+
+/* Function:  sqascii_ReadWindow()
+ * Synopsis:  Read next window of sequence.
+ *
+ * Purpose:   Read a next window of <W> residues from open file <sqfp>,
+ *            keeping <C> residues from the previous window as
+ *            context, and keeping previous annotation in the <sq>
+ *            as before. 
+ *            
+ *            If this is the first window of a new sequence record,
+ *            <C> is ignored (there's no previous context yet), and
+ *            the annotation fields of the <sq> (name, accession, and
+ *            description) are initialized by reading the sequence
+ *            record's header. This is the only time the annotation
+ *            fields are initialized.
+ *            
+ *            On return, <sq->dsq[]> contains the window and its
+ *            context; residues <1..sq->C> are the previous context,
+ *            and residues <sq->C+1..sq->n> are the new window.  The
+ *            start and end coordinates of the whole <dsq[1..n]>
+ *            (including context) in the original source sequence are
+ *            <sq->start..sq->end>. (Or, for text mode sequences,
+ *            <sq->seq[0..sq->C-1,sq->C..sq->n-1]>, while <start> and
+ *            <end> coords are still <1..L>.)
+ *
+ *            When a sequence record is completed and no more data
+ *            remain, <eslEOD> is returned, with an ``info'' <sq>
+ *            structure (containing the annotation and the total
+ *            sequence length <L>, but no sequence). (The total
+ *            sequence length <L> is unknown in <sq> until this
+ *            <eslEOD> return.)
+ *            
+ *            The caller may then do one of two things before calling
+ *            <esl_sq_ReadWindow()> again; it can reset the sequence
+ *            with <esl_sq_Reuse()> to continue reading the next
+ *            sequence in the file, or it can set a negative <W> as a
+ *            signal to read windows from the reverse complement
+ *            (Crick) strand. Reverse complement reading only works
+ *            for nucleic acid sequence. 
+ *            
+ *            If you read the reverse complement strand, you must read
+ *            the whole thing, calling <esl_sqio_ReadWindow()> with
+ *            negative <W> windows until <eslEOD> is returned again
+ *            with an empty (info-only) <sq> structure. When that
+ *            <EOD> is reached, the <sqfp> is repositioned at the
+ *            start of the next sequence record; the caller should now
+ *            <Reuse()> the <sq>, and the next <esl_sqio_ReadWindow()>
+ *            call must have a positive <W>, corresponding to starting
+ *            to read the Watson strand of the next sequence.
+ *
+ *            Note that the <ReadWindow()> interface is designed for
+ *            an idiom of sequential reading of complete sequences in
+ *            overlapping windows, possibly on both strands; if you
+ *            want more freedom to move around in the sequence
+ *            grabbing windows in another order, you can use the
+ *            <FetchSubseq()> interface.
+ *
+ *            Reading the reverse complement strand requires file
+ *            repositioning, so it will not work on non-repositionable
+ *            streams like gzipped files or a stdin pipe. Moreover,
+ *            for reverse complement input to be efficient, the
+ *            sequence file should have consistent line lengths, 
+ *            suitable for SSI's fast subsequence indexing.
+ *            
+ * Returns:   <eslOK> on success; <sq> now contains next window of
+ *            sequence, with at least 1 new residue. The number
+ *            of new residues is <sq->W>; <sq->C> residues are 
+ *            saved from the previous window. Caller may now
+ *            process residues <sq->dsq[sq->C+1]..sq->dsq[sq->n]>.
+ *            
+ *            <eslEOD> if no new residues were read for this sequence
+ *            and strand, and <sq> now contains an empty info-only
+ *            structure (annotation and <L> are valid). Before calling
+ *            <esl_sqio_ReadWindow()> again, caller will either want
+ *            to make <W> negative (to start reading the Crick strand
+ *            of the current sequence), or it will want to reset the
+ *            <sq> (with <esl_sq_Reuse()>) to go on the next sequence.
+ *            
+ *            <eslEOF> if we've already returned <eslEOD> before to
+ *            signal the end of the previous seq record, and moreover,
+ *            there's no more sequence records in the file.
+ *            
+ *            <eslEINVAL> if an invalid residue is found in the
+ *            sequence, or if you attempt to take the reverse
+ *            complement of a sequence that can't be reverse
+ *            complemented.
+ *
+ * Throws:    <eslESYNTAX> if you try to read a reverse window before
+ *            you've read forward strand.
+ *            
+ *            <eslECORRUPT> if something goes awry internally in the
+ *            coordinate system.
+ *            
+ *            <eslEMEM> on allocation error.
+ */
+static int
+sqascii_ReadWindow(ESL_SQFILE *sqfp, int C, int W, ESL_SQ *sq)
+{
+  int     actual_start;
+  int64_t nres;
+  int64_t line;
+  off_t   offset;
+  int     status;
+  ESL_SQ *tmpsq = NULL;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+#ifdef eslAUGMENT_MSA
+  if (esl_sqio_IsAlignment(sqfp->format))
+  {
+    /* special: if we're initializing a revcomp window read, back ascii->idx up one */
+    if (W < 0 && sq->start == 0) ascii->idx--;
+
+    if (ascii->msa == NULL || ascii->idx >= ascii->msa->nseq)
+    { /* need new alignment? */
+      esl_msa_Destroy(ascii->msa);
+      status = eslx_msafile_Read(ascii->afp, &(ascii->msa));
+      if (status == eslEFORMAT)
+      { /* oops, a parse error; upload the error info from afp to sqfp */
+        ascii->linenumber = ascii->afp->linenumber;
+        strcpy(ascii->errbuf, ascii->afp->errmsg); /* errbufs same size! */
+        return eslEFORMAT;
+      }
+      else if (status != eslOK) goto ERROR;
+      ascii->idx = 0;
+    }
+      
+    /* grab appropriate seq from alignment into tmpsq */
+    if ((status = esl_sq_FetchFromMSA(ascii->msa, ascii->idx, &tmpsq)) != eslOK) goto ERROR;
+
+    /*by default, tmpsq is an ascii sequence, convert it to digital if that's what sq is*/
+    if (sq->seq == NULL)
+      esl_sq_Digitize(sq->abc, tmpsq);
+
+    /* Figure out tmpsq coords we'll put in sq */
+    if (W > 0)
+    {/* forward strand */
+       sq->C     = ESL_MIN(sq->n, C);
+       sq->start = sq->end - sq->C + 1;
+       sq->end   = ESL_MIN(tmpsq->L, sq->end + W);
+       sq->n     = sq->end - sq->start + 1;
+       sq->W     = sq->n - sq->C;
+    }
+    else
+    {/* reverse strand */
+       if (sq->L == -1) ESL_XEXCEPTION(eslESYNTAX, "Can't read reverse complement until you've read forward strand");
+
+       sq->C     = ESL_MIN(sq->n, sq->end + C - 1);
+       sq->end   = (sq->start == 0 ? sq->L : sq->end + sq->C - 1);
+       sq->start = ESL_MAX(1, sq->end + W - sq->C - 1);
+       sq->n     = sq->end - sq->start + 1;
+       sq->W     = sq->n - sq->C;
+    }
+
+    if (sq->W == 0)/* no new sequence? that's the EOD case */
+    {
+       sq->start      = 0;
+       sq->end        = 0;
+       sq->C          = 0;
+       sq->W          = 0;
+       sq->n          = 0;
+       sq->L          = tmpsq->L;
+       if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL;
+       else                 sq->seq[0] = '\0';
+
+       ascii->idx++;
+       esl_sq_Destroy(tmpsq);
+       return eslEOD;
+    }
+
+    /* Copy the sequence frag.  */
+    if (tmpsq->ss != NULL && sq->ss == NULL) ESL_ALLOC(sq->ss, sizeof(char) * (sq->salloc)); /* this *must* be for salloc  */
+    esl_sq_GrowTo(sq, sq->n);
+    if (tmpsq->seq != NULL)
+    {/* text mode */
+       memcpy(sq->seq, tmpsq->seq + sq->start - 1, sizeof(char) * sq->n);
+       sq->seq[sq->n] = '\0';
+       if (tmpsq->ss != NULL) {
+         memcpy(sq->ss, tmpsq->ss + sq->start - 1, sizeof(char) * sq->n);
+         sq->ss[sq->n] = '\0';
+       }
+    }
+    else
+    {
+     memcpy(sq->dsq + 1, tmpsq->dsq + sq->start, sizeof(ESL_DSQ) * sq->n);
+     sq->dsq[sq->n+1] = eslDSQ_SENTINEL;
+     if (tmpsq->ss != NULL) {
+       memcpy(sq->ss + 1, tmpsq->ss + sq->start, sizeof(char) * sq->n);
+       sq->ss[sq->n+1] = '\0';
+     }
+    }
+    if (W < 0 && (status = esl_sq_ReverseComplement(sq)) != eslOK)
+      ESL_XFAIL(eslEINVAL, ascii->errbuf, "Can't reverse complement that sequence window");
+
+    /* Copy annotation */
+    if ((status = esl_sq_SetName     (sq, tmpsq->name))   != eslOK) goto ERROR;
+    if ((status = esl_sq_SetSource   (sq, tmpsq->name))   != eslOK) goto ERROR;
+    if ((status = esl_sq_SetAccession(sq, tmpsq->acc))    != eslOK) goto ERROR;
+    if ((status = esl_sq_SetDesc     (sq, tmpsq->desc))   != eslOK) goto ERROR;
+    sq->roff = -1;
+    sq->doff = -1;
+    sq->eoff = -1;
+    sq->hoff = -1;
+
+    esl_sq_Destroy(tmpsq);
+    return eslOK;
+  }
+#endif /* we've completely handled the alignment file case above. */
+
+  /* Now for the normal case: we're reading a normal unaligned seq file, not an alignment. */
+
+  /* Negative W indicates reverse complement direction */
+  if (W < 0)
+  {
+    if (sq->L == -1) ESL_EXCEPTION(eslESYNTAX, "Can't read reverse complement until you've read forward strand");
+
+    if (sq->end == 1)
+    { /* last end == 1 means last window was the final one on reverse strand,
+        * so we're EOD; jump back to last forward position.
+        */
+       if (ascii->bookmark_offset > 0) {
+         if (esl_sqfile_Position(sqfp, ascii->bookmark_offset) != eslOK)
+           ESL_EXCEPTION(eslECORRUPT, "Failed to reposition seq file at last forward bookmark");
+         ascii->linenumber = ascii->bookmark_linenum;
+       } else {
+         ascii->nc = 0;/* signals EOF */
+       }
+       ascii->bookmark_offset  = 0;
+       ascii->bookmark_linenum = 0;
+
+       sq->start      = 0;
+       sq->end        = 0;
+       sq->C          = 0;
+       sq->W          = 0;
+       sq->n          = 0;
+       /* sq->L stays as it is */
+       if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL;
+       else                 sq->seq[0] = '\0';
+       return eslEOD;
+    }
+
+    /* If s == 0, we haven't read any reverse windows yet;
+     * init reading from sq->L
+     */
+    W = -W;
+    if (sq->start == 0)
+    {
+      sq->start        = ESL_MAX(1, (sq->L - W + 1));
+      sq->end          = sq->L;
+      sq->C            = 0;
+      sq->W            = sq->end - sq->start + 1;
+      ascii->curbpl     = -1;
+      ascii->currpl     = -1;
+      ascii->prvbpl     = -1;
+      ascii->prvrpl     = -1;
+      ascii->linenumber = -1;
+      ascii->L          = -1;
+    }
+    else
+    { /* Else, we're continuing to next window; prv was <end>..<start> */
+       sq->C     = ESL_MIN(C, sq->L - sq->end + 1);  /* based on prev window's end */
+       sq->end   = sq->end + sq->C - 1;                /* also based on prev end     */
+       sq->start = ESL_MAX(1, (sq->end - W - sq->C + 1));
+       sq->W     = sq->end - sq->start + 1 - sq->C;
+    }
+
+    /* Now position for a subseq fetch of <start..end> on fwd strand, using SSI offset calc  */
+    if (sq->doff == 0) ESL_EXCEPTION(eslECORRUPT, "can't happen: sq didn't store data offset");
+
+    if (ascii->bpl == 0 || ascii->rpl == 0) /* no help; brute force resolution. */
+    {
+      offset       = sq->doff;
+      actual_start = 1;
+    }
+    else if (ascii->bpl == ascii->rpl+1)         /* residue resolution */
+    {
+      line = (sq->start-1) / ascii->rpl; /* data line #0.. that <end> is on */
+      offset       = sq->doff + line * ascii->bpl + (sq->start-1)%ascii->rpl;
+      actual_start = sq->start;
+    }
+    else/* line resolution */
+    {
+       line         = (sq->start-1) / ascii->rpl; /* data line #0.. that <end> is on */
+       offset       = sq->doff + line * ascii->bpl;
+       actual_start = 1 + line * ascii->rpl;
+    }
+    if (esl_sqfile_Position(sqfp, offset) != eslOK)
+      ESL_EXCEPTION(eslECORRUPT, "Failed to reposition seq file for reverse window read");
+
+    /* grab the subseq and rev comp it */
+    if ((status = esl_sq_GrowTo(sq, sq->C+sq->W)) != eslOK) return status;
+    sq->n = 0;
+    status = read_nres(sqfp, sq, (sq->start - actual_start), (sq->end - sq->start + 1), &nres);
+
+    if (status != eslOK || nres < (sq->end - sq->start + 1))
+      ESL_EXCEPTION(eslECORRUPT, "Failed to extract %d..%d", sq->start, sq->end);
+
+    status = esl_sq_ReverseComplement(sq);
+    if      (status    == eslEINVAL) ESL_FAIL(eslEINVAL, ascii->errbuf, "can't reverse complement that seq - it's not DNA/RNA");
+    else if (status    != eslOK)     return status;
+
+    return eslOK;
+  }
+
+  /* Else, we're reading the forward strand */
+  else
+  { /* sq->start == 0 means we haven't read any windows on this sequence yet...
+   * it's a new record, and we need to initialize with the header and
+   * the first window. This is the only case that we're allowed to return
+   * EOF from.
+   */
+    if (sq->start == 0)
+    {
+      if (ascii->nc == 0) return eslEOF;
+      if ((status = ascii->parse_header(sqfp, sq)) != eslOK) return status; /* EOF, EFORMAT */
+      sq->start     = 1;
+      sq->C         = 0;/* no context in first window                   */
+      sq->L         = -1;/* won't be known 'til EOD.                     */
+      ascii->L       = 0;/* init to 0, so we can count residues as we go */
+      esl_sq_SetSource(sq, sq->name);
+      /* the <ascii->buf> is now positioned at the start of seq data */
+      /* ascii->linenumber is ok where it is */
+      /* the header_*() routines initialized rpl,bpl bookkeeping at start of seq line,
+       * and also sq->doff,roff.
+       */
+    }
+    else
+    { /* else we're reading a window other than first; slide context over. */
+      sq->C = ESL_MIN(C, sq->n);
+
+      /* if the case where the window is smaller than the context and the
+       * context is not full, it is not necessary to move the context part
+       * of the sequence that has been read in.
+       */
+      if (sq->C >= C) {
+         /* now handle the case where the context is full */
+         if (sq->seq != NULL) memmove(sq->seq,   sq->seq + sq->n - sq->C,     sq->C);
+         else                 memmove(sq->dsq+1, sq->dsq + sq->n - sq->C + 1, sq->C);
+         sq->start = ascii->L - sq->C + 1;
+         sq->n = C;
+      }
+    }
+
+    if ((status = esl_sq_GrowTo(sq, C+W)) != eslOK)                return status; /* EMEM    */
+    status = read_nres(sqfp, sq, 0, W, &nres);
+    ascii->L += nres;
+
+    if (status == eslEOD)
+    { /* Forward strand is done. 0 residues were read. Return eslEOD and an empty (info) <sq>. */
+      if ((status = ascii->parse_end(sqfp, sq)) != eslOK) return status;
+
+      sq->start      = 0;
+      sq->end        = 0;
+      sq->C          = 0;
+      sq->W          = 0;
+      sq->L          = ascii->L;
+      sq->n          = 0;
+
+      if (ascii->nc > 0) {
+        ascii->bookmark_offset  = ascii->boff+ascii->bpos; /* remember where the next seq starts. */
+        //ascii->bookmark_linenum = ascii->bookmark_linenum;
+      } else {
+        ascii->bookmark_offset  = 0;                     /* signals for EOF, no more seqs        */
+        ascii->bookmark_linenum = 0;
+      }
+
+      if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL; /* erase the saved context */
+      else                 sq->seq[0] = '\0';
+      return eslEOD;
+    }
+    else if (status == eslOK)
+    { /* Forward strand is still in progress. <= W residues were read. Return eslOK. */
+      sq->end        = sq->start + sq->C + nres - 1;
+      sq->W          = nres;
+      return eslOK;
+    }
+    else return status;/* EFORMAT,EMEM */
+  }
+  /*NOTREACHED*/
+  return eslOK;
+
+ ERROR:
+  if (tmpsq != NULL) esl_sq_Destroy(tmpsq);
+  return status;
+}
+
+/* Function:  sqascii_ReadBlock()
+ * Synopsis:  Read the next block of sequences from a file.
+ *
+ * Purpose:   Reads a block of sequences from open sequence file <sqfp> into 
+ *            <sqBlock>.
+ *
+ *            In the case that <long_target> is false, the sequences are
+ *            expected to be protein - individual sequences won't be long
+ *            so read them in one-whole-sequence at a time. If <max_sequences> is set
+ *            to a number > 0 read <max_sequences> sequences, up to at most
+ *            MAX_RESIDUE_COUNT residues.
+ *
+ *            If <long_target> is true, the sequences are expected to be DNA.
+ *            Because sequences in a DNA database can exceed MAX_RESIDUE_COUNT,
+ *            this function uses ReadWindow to read chunks of sequence no
+ *            larger than <max_residues>, and must allow for the possibility that a
+ *            request will be made to continue reading a partly-read
+ *            sequence. This case also respects the <max_sequences> limit.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <sqBlock>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character; the line number that the parse
+ *            error occurs on is in <sqfp->linenumber>, and an informative
+ *            error message is placed in <ascii->errbuf>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+static int
+sqascii_ReadBlock(ESL_SQFILE *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target)
+{
+  int     i = 0;
+  int     size = 0;
+  int     status = eslOK;
+  ESL_SQ *tmpsq = NULL;
+
+  sqBlock->count = 0;
+  if (max_sequences < 1 || max_sequences > sqBlock->listSize)
+    max_sequences = sqBlock->listSize;
+
+  if (max_residues < 1)
+    max_residues = MAX_RESIDUE_COUNT;
+
+
+  if ( !long_target  )
+  {  /* in these cases, an individual sequence won't ever be really long,
+      so just read in a sequence at a time  */
+
+    for (i = 0; i < max_sequences && size < MAX_RESIDUE_COUNT; ++i)
+    {
+      status = sqascii_Read(sqfp, sqBlock->list + i);
+
+      if (status != eslOK) break;
+      size += sqBlock->list[i].n;
+      ++sqBlock->count;
+    }
+  }
+  else
+  { /* DNA, not an alignment.  Might be really long sequences */
+    tmpsq = esl_sq_Create();
+
+    //if complete flag is set to FALSE, then the prior block must have ended with a window that was a possibly
+    //incomplete part of it's full sequence. Read another overlapping window.
+    if (! sqBlock->complete )
+    {
+      //overloading C as indicator of how big C should be for this window reading action
+      status = sqascii_ReadWindow(sqfp, sqBlock->list->C, max_residues, sqBlock->list);
+      if (status == eslOK)
+      {
+        sqBlock->count = i = 1;
+        size = sqBlock->list->n - sqBlock->list->C;
+        sqBlock->list->L = sqfp->data.ascii.L;
+        if (size == max_residues)
+        { // Filled the block with a single very long window.
+
+          sqBlock->complete = FALSE; // default value, unless overridden below
+          status = skip_whitespace(sqfp);
+          if ( status != eslOK ) { // either EOD or end of buffer (EOF) was reached before the next character was seen
+            sqBlock->complete = TRUE;
+            status = eslOK;
+          }
+
+          if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+          return status;
+        }
+        else
+        {
+          // Burn off EOD (see notes for similar entry ~25 lines below), then go fetch the next sequence
+          esl_sq_Reuse(tmpsq);
+          tmpsq->start =  sqBlock->list->start ;
+          tmpsq->C = 0;
+          status = sqascii_ReadWindow(sqfp, 0, max_residues, tmpsq);
+          if (status != eslEOD) {
+            if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+            return status; //surprising
+          }
+          //sqBlock->list->L = tmpsq->L;
+        }
+      }
+      else if (status == eslEOD)
+      { // turns out there isn't any more of the sequence to read, after all
+      }
+      else
+      {
+         if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+         return status;
+       }
+    } // otherwise, just start at the beginning
+
+    for (  ; i < max_sequences && size < max_residues; ++i) {
+      esl_sq_Reuse(tmpsq);
+      esl_sq_Reuse(sqBlock->list + i);
+      status = sqascii_ReadWindow(sqfp, 0, max_residues , sqBlock->list + i);
+      if (status != eslOK && status != eslEOD) break; /* end of sequences (eslEOF), or we read an empty seq (eslEOD) or error (other)  */
+      size += sqBlock->list[i].n - sqBlock->list[i].C;
+      sqBlock->list[i].L = sqfp->data.ascii.L;
+      ++(sqBlock->count);
+      if (size >= max_residues) {
+        // a full window worth of sequence has been read; did we reach the end of the final sequence in the block?
+
+        sqBlock->complete = FALSE; // default value, unless overridden below
+
+        status = skip_whitespace(sqfp);
+        if ( status != eslOK ) { // either EOD or end of buffer (EOF) was reached before the next character was seen
+          sqBlock->complete = TRUE;
+          status = eslOK;
+        }
+
+        if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+        return status;
+      } else if(status == eslEOD) {
+        /* We've read an empty sequence of length 0, rare, but
+         * possible, and we need to be able to handle it
+         * gracefully. Ensure L is 0, set status to eslOK and move
+         * on, we've already incremented sqBlock->count by 1
+         * above. This means our block may contain zero-length
+         * sequences when we return (that is, we still add these
+         * seqs onto the block instead of skipping them altogether).
+         */
+        sqBlock->list[i].L = 0; /* actually, this should already be 0... */
+        status = eslOK;
+      } else {
+        /* Sequence finished, but haven't yet reached max_residues. Need to burn off the EOD value
+           that will be returned by the next ReadWindow call. Can just use a tmp sq, after setting
+           a couple values ReadWindow needs to see for correct processing.
+        */
+        esl_sq_Reuse(tmpsq);
+        tmpsq->start =  sqBlock->list[i].start ;
+        tmpsq->C = 0;
+        status = sqascii_ReadWindow(sqfp, 0, max_residues, tmpsq);
+        if (status != eslEOD) {
+          if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+          return status; //surprising
+        }
+        //sqBlock->list[i].L = tmpsq->L;
+        status = eslOK;
+      }
+    }
+  }
+  
+  /* EOF will be returned only in the case were no sequences were read */
+  if (status == eslEOF && i > 0) status = eslOK;
+  
+  sqBlock->complete = TRUE;
+
+  if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+
+  return status;
+}
+
+/* Function:  sqascii_Echo()
+ * Synopsis:  Echo a sequence's record onto output stream.
+ *
+ * Purpose:   Given a complete <sq> that we have read by some means
+ *            from an open <sqfp>; echo that sequence's record
+ *            onto the output stream <ofp>. 
+ *
+ *            This allows records to be regurgitated exactly as they
+ *            appear, rather than writing the subset of information
+ *            stored in an <ESL_SQ>. <esl-sfetch> in the miniapps uses
+ *            this, for example.
+ *            
+ *            Because this relies on repositioning the <sqfp>, it
+ *            cannot be called on non-positionable streams (stdin or
+ *            gzipped files). Because it relies on the sequence lying
+ *            in a contiguous sequence of bytes in the file, it cannot
+ *            be called on a sequence in a multiple alignment file.
+ *            Trying to do so throws an <eslEINVAL> exception.
+ *            
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEINVAL>   if <sqfp> isn't a repositionable sequence file.
+ *            <eslECORRUPT> if we run out of data, probably from bad offsets
+ *            <eslEMEM>     on allocation failure.
+ *            <eslESYS>     on system call failures.
+ *            
+ *            
+ */
+static int
+sqascii_Echo(ESL_SQFILE *sqfp, const ESL_SQ *sq, FILE *ofp)
+{
+  int     status;
+  int64_t save_linenumber;
+  int     save_currpl;
+  int     save_curbpl;
+  int     save_prvrpl;
+  int     save_prvbpl;
+  int64_t save_L;
+  int     n;
+  int     nwritten;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->do_stdin)                    ESL_EXCEPTION(eslEINVAL, "can't Echo() a sequence from standard input");
+  if (ascii->do_gzip)                     ESL_EXCEPTION(eslEINVAL, "can't Echo() a sequence from a gzipped file");
+  if (esl_sqio_IsAlignment(sqfp->format)) ESL_EXCEPTION(eslEINVAL, "can't Echo() a sequence from an alignment file");
+  if (sq->roff == -1 || sq->eoff == -1)   ESL_EXCEPTION(eslEINVAL, "can't Echo() a sequence without disk offset info");
+
+  save_linenumber = ascii->linenumber;
+  save_currpl     = ascii->currpl;
+  save_curbpl     = ascii->curbpl;
+  save_prvrpl     = ascii->prvrpl;
+  save_prvbpl     = ascii->prvbpl;
+  save_L          = ascii->L;
+
+  status = esl_sqfile_Position(sqfp, sq->roff);
+  if      (status == eslEOF) ESL_EXCEPTION(eslECORRUPT, "repositioning failed; bad offset?");
+  else if (status != eslOK)  return status;
+
+  while (ascii->boff + ascii->nc <= sq->eoff)
+    {
+      if (fwrite(ascii->buf, sizeof(char), ascii->nc, ofp) != ascii->nc) ESL_EXCEPTION(eslESYS, "fwrite() failed");
+      if (loadbuf(sqfp) != eslOK)  ESL_EXCEPTION(eslECORRUPT, "repositioning failed; bad offset?");
+    } 
+  n =  sq->eoff - ascii->boff + 1;
+  nwritten = fwrite(ascii->buf, sizeof(char), n, ofp);
+  if (nwritten != n) ESL_EXCEPTION(eslESYS, "fwrite() failed");
+
+  status = esl_sqfile_Position(sqfp, sq->roff);
+  if      (status == eslEOF) ESL_EXCEPTION(eslECORRUPT, "repositioning failed; bad offset?");
+  else if (status != eslOK)  return status;
+
+  ascii->linenumber = save_linenumber;
+  ascii->currpl     = save_currpl;
+  ascii->curbpl     = save_curbpl;
+  ascii->prvrpl     = save_prvrpl;
+  ascii->prvbpl     = save_prvbpl;
+  ascii->L          = save_L;
+  return eslOK;
+}
+/*------------------ end, sequential sequence input -------------*/
+
+
+/*****************************************************************
+ *# 5. Sequence/subsequence fetching, random access [with <ssi>]
+ *****************************************************************/
+#ifdef eslAUGMENT_SSI
+
+/* Function:  sqascii_OpenSSI()
+ * Synopsis:  Opens an SSI index associated with a sequence file.
+ *
+ * Purpose:   Opens an SSI index file associated with the already open
+ *            sequence file <sqfp>. If successful, the necessary
+ *            information about the open SSI file is stored internally
+ *            in <sqfp>.
+ *            
+ *            The SSI index file name is determined in one of two
+ *            ways, depending on whether a non-<NULL> <ssifile_hint>
+ *            is provided.
+ *            
+ *            If <ssifile_hint> is <NULL>, the default for
+ *            constructing the SSI filename from the sequence
+ *            filename, by using exactly the same path (if any) for
+ *            the sequence filename, and appending the suffix <.ssi>.
+ *            For example, the SSI index for <foo> is <foo.ssi>, for
+ *            <./foo.fa> is <./foo.fa.ssi>, and for
+ *            </my/path/to/foo.1.fa> is </my/path/to/foo.1.fa.ssi>.
+ *            
+ *            If <ssifile_hint> is <non-NULL>, this exact fully
+ *            qualified path is used as the SSI file name.
+ *
+ * Returns:   <eslOK> on success, and <sqfp->ssi> is now internally
+ *            valid.
+ *            
+ *            <eslENOTFOUND> if no SSI index file is found;
+ *            <eslEFORMAT> if it's found, but appears to be in incorrect format;
+ *            <eslERANGE> if the SSI file uses 64-bit offsets but we're on
+ *            a system that doesn't support 64-bit file offsets.
+ *
+ * Throws:    <eslEINVAL> if the open sequence file <sqfp> doesn't
+ *            correspond to a normal sequence flatfile -- we can't
+ *            random access in .gz compressed files, standard input,
+ *            or multiple alignment files that we're reading
+ *            sequentially.
+ *            
+ *            Throws <eslEMEM> on allocation error.
+ */
+static int
+sqascii_OpenSSI(ESL_SQFILE *sqfp, const char *ssifile_hint)
+{
+  int status;
+  
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->do_gzip)     ESL_EXCEPTION(eslEINVAL, "can't open an SSI index for a .gz compressed seq file");
+  if (ascii->do_stdin)    ESL_EXCEPTION(eslEINVAL, "can't open an SSI index for standard input");
+  if (ascii->afp != NULL) ESL_EXCEPTION(eslEINVAL, "can't open an SSI index for sequential input from an MSA");
+
+  if (ssifile_hint == NULL) {
+    if ((status = esl_strdup(sqfp->filename, -1, &(ascii->ssifile)))           != eslOK) return status;
+    if ((status = esl_strcat(&(ascii->ssifile), -1, ".ssi", 4))                != eslOK) return status;
+  } else {
+    if ((status = esl_strdup(ssifile_hint, -1, &(ascii->ssifile)))             != eslOK) return status;
+  }
+
+  return esl_ssi_Open(ascii->ssifile, &(ascii->ssi));
+}
+
+
+
+/* Function:  sqascii_PositionByKey()
+ * Synopsis:  Use SSI to reposition seq file to a particular sequence.
+ *
+ * Purpose:   Reposition <sqfp> so that the next sequence we read will
+ *            be the one named (or accessioned) <key>.
+ *            
+ *            <sqfp->linenumber> is reset to be relative to the start
+ *            of the record named <key>, rather than the start of the
+ *            file.
+ *
+ * Returns:   <eslOK> on success, and the file <sqfp> is repositioned
+ *            so that the next <esl_sqio_Read()> call will read the
+ *            sequence named <key>.
+ *            
+ *            Returns <eslENOTFOUND> if <key> isn't found in the
+ *            index; in this case, the position of <sqfp> in the file
+ *            is unchanged.
+ *            
+ *            Returns <eslEFORMAT> if something goes wrong trying to
+ *            read the index, almost certainly indicating a format
+ *            problem in the SSI file.
+ *            
+ *            Returns <eslEOF> if, after repositioning, we fail to
+ *            load the next line or buffer from the sequence file;
+ *            this probably also indicates a format problem in the SSI
+ *            file.
+ * 
+ * Throws:    <eslEMEM>   on allocation error;
+ *            <eslEINVAL> if there's no open SSI index in <sqfp>;
+ *            <eslESYS>   if the <fseek()> fails.
+ *            
+ *            In all these cases, the state of <sqfp> becomes
+ *            undefined, and the caller should not use it again.
+ */
+static int
+sqascii_PositionByKey(ESL_SQFILE *sqfp, const char *key)
+{
+  uint16_t fh;
+  off_t    offset;
+  int      status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->ssi == NULL)                          ESL_EXCEPTION(eslEINVAL,"Need an open SSI index to call esl_sqfile_PositionByKey()");
+  if ((status = esl_ssi_FindName(ascii->ssi, key, &fh, &offset, NULL, NULL)) != eslOK) return status;
+  return esl_sqfile_Position(sqfp, offset);
+}
+
+
+/* Function:  sqascii_PositionByNumber()
+ * Synopsis:  Use SSI to reposition by sequence number
+ *
+ * Purpose:   Reposition <sqfp> so that the next sequence we 
+ *            read will be the <which>'th sequence, where <which>
+ *            is <0..sqfp->ssi->nprimary-1>. 
+ *            
+ *            <sqfp->linenumber> is reset to be relative to the start
+ *            of the record named <key>, rather than the start of the
+ *            file.
+ *
+ * Returns:   <eslOK> on success, and the file <sqfp> is repositioned.
+ *            
+ *            Returns <eslENOTFOUND> if there is no sequence number
+ *            <which> in the index; in this case, the position of
+ *            <sqfp> in the file is unchanged.
+ *            
+ *            Returns <eslEFORMAT> if something goes wrong trying to
+ *            read the index, almost certainly indicating a format
+ *            problem in the SSI file.
+ *            
+ *            Returns <eslEOF> if, after repositioning, we fail to
+ *            load the next line or buffer from the sequence file;
+ *            this probably also indicates a format problem in the SSI
+ *            file.
+ * 
+ * Throws:    <eslEMEM>   on allocation error;
+ *            <eslEINVAL> if there's no open SSI index in <sqfp>;
+ *            <eslESYS>   if the <fseek()> fails.
+ *            
+ *            In all these cases, the state of <sqfp> becomes
+ *            undefined, and the caller should not use it again.
+ */
+static int
+sqascii_PositionByNumber(ESL_SQFILE *sqfp, int which)
+{
+  uint16_t fh;
+  off_t    offset;
+  int      status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->ssi == NULL)                          ESL_EXCEPTION(eslEINVAL,"Need open SSI index to call esl_sqfile_PositionByNumber()");
+  if ((status = esl_ssi_FindNumber(ascii->ssi, which, &fh, &offset, NULL, NULL, NULL)) != eslOK) return status;
+  return esl_sqfile_Position(sqfp, offset);
+}
+
+
+/* Function:  sqascii_Fetch()
+ * Synopsis:  Fetch a complete sequence, using SSI indexing.
+ *
+ * Purpose:   Fetch a sequence named (or accessioned) <key> from
+ *            the repositionable, open sequence file <sqfp>.
+ *            The open <sqfp> must have an open SSI index.
+ *            The sequence is returned in <sq>.
+ *
+ * Returns:   <eslOK> on soccess.
+ *            <eslEINVAL> if no SSI index is present, or if <sqfp> can't
+ *            be repositioned.
+ *            <eslENOTFOUND> if <source> isn't found in the file.
+ *            <eslEFORMAT> if either the index file or the sequence file
+ *            can't be parsed, because of unexpected format issues.
+ *       
+ * Throws:    <eslEMEM> on allocation error.
+ */
+static int
+sqascii_Fetch(ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq)
+{
+  int status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->ssi == NULL) ESL_FAIL(eslEINVAL, ascii->errbuf, "No SSI index for %s; can't fetch subsequences", sqfp->filename);
+  if ((status = sqascii_PositionByKey(sqfp, key)) != eslOK) return status;
+  if ((status = sqascii_Read(sqfp, sq))           != eslOK) return status;
+  return eslOK;
+}
+  
+/* Function:  sqascii_FetchInfo()
+ * Synopsis:  Fetch a sequence's info, using SSI indexing.
+ *
+ * Purpose:   Fetch a sequence named (or accessioned) <key> from
+ *            the repositionable, open sequence file <sqfp>, reading
+ *            all info except the sequence (and secondary structure).
+ *            The open <sqfp> must have an open SSI index.
+ *            The sequence info is returned in <sq>.
+ *
+ * Returns:   <eslOK> on soccess.
+ *            <eslEINVAL> if no SSI index is present, or if <sqfp> can't
+ *            be repositioned.
+ *            <eslENOTFOUND> if <source> isn't found in the file.
+ *            <eslEFORMAT> if either the index file or the sequence file
+ *            can't be parsed, because of unexpected format issues.
+ *       
+ * Throws:    <eslEMEM> on allocation error.
+ */
+static int
+sqascii_FetchInfo(ESL_SQFILE *sqfp, const char *key, ESL_SQ *sq)
+{
+  int status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->ssi == NULL) ESL_FAIL(eslEINVAL, ascii->errbuf, "No SSI index for %s; can't fetch subsequences", sqfp->filename);
+  if ((status = sqascii_PositionByKey(sqfp, key)) != eslOK) return status;
+  if ((status = sqascii_ReadInfo(sqfp, sq))         != eslOK) return status;
+  return eslOK;
+}
+  
+
+/* Function:  sqascii_FetchSubseq()
+ * Synopsis:  Fetch a subsequence, using SSI indexing.
+ *
+ * Purpose:   Fetch subsequence <start..end> from a sequence named (or
+ *            accessioned) <source>, in the repositionable, open sequence file <sqfp>.
+ *            The open <sqfp> must have an SSI index. Put the
+ *            subsequence in <sq>. 
+ *            
+ *            As a special case, if <end> is 0, the subsequence is
+ *            fetched all the way to the end, so you don't need to
+ *            look up the sequence length <L> to fetch a suffix.
+ *            
+ *            The caller may want to rename/reaccession/reannotate the
+ *            subsequence.  Upon successful return, <sq->name> is set
+ *            to <source/start-end>, and <sq->source> is set to
+ *            <source> The accession and description <sq->acc> and
+ *            <sq->desc> are set to the accession and description of
+ *            the source sequence.
+ *            
+ * Returns:   <eslOK> on success.
+ *            <eslEINVAL> if no SSI index is present, or if <sqfp> can't
+ *            be repositioned.
+ *            <eslENOTFOUND> if <source> isn't found in the file.
+ *            <eslEFORMAT> if either the index file or the sequence file
+ *            can't be parsed, because of unexpected format issues.
+ *            <eslERANGE> if the <start..end> coords don't lie entirely
+ *            within the <source> sequence.
+ *
+ * Throws:    <eslEMEM> on allocation errors.
+ */
+static int
+sqascii_FetchSubseq(ESL_SQFILE *sqfp, const char *source, int64_t start, int64_t end, ESL_SQ *sq)
+{
+  uint16_t fh;/* SSI file handle */
+  off_t    r_off, d_off;
+  int64_t  L;
+  int64_t  actual_start;
+  int64_t  nskip;
+  int64_t  nres;
+  int64_t  n;
+  int      status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->ssi == NULL) ESL_FAIL(eslEINVAL, ascii->errbuf, "No SSI index for %s; can't fetch subsequences", sqfp->filename);
+
+  /* Find sequence info in the index */
+  status = esl_ssi_FindSubseq(ascii->ssi, source, start, &fh, &r_off, &d_off, &L, &actual_start);
+  if      (status == eslENOTFOUND) ESL_FAIL(status, ascii->errbuf, "Didn't find sequence %s in the index", source);
+  else if (status == eslEFORMAT)   ESL_FAIL(status, ascii->errbuf, "Failure reading SSI index; corrupt or bad format");
+  else if (status == eslERANGE)    ESL_FAIL(status, ascii->errbuf, "Requested start %" PRIi64 " isn't in the sequence %s", start, source);
+  else if (status != eslOK)        ESL_FAIL(status, ascii->errbuf, "Unexpected failure in finding subseq offset");
+
+  /* The special case of end=0, asking for suffix fetch */
+  if (end == 0) end = L;
+
+  /* Validate coords if we can */
+  if (start > end)       ESL_FAIL(eslERANGE, ascii->errbuf, "Subsequence start %" PRIi64 " is greater than end %" PRIi64 "\n", start, end);
+  if (L > 0 && end > L)  ESL_FAIL(eslERANGE, ascii->errbuf, "Subsequence end %" PRIi64 " is greater than length %" PRIi64 "\n", end, L);
+
+  /* Position the file at the record header; read the header info */
+  status = esl_sqfile_Position(sqfp, r_off);
+  if      (status == eslEOF)    ESL_FAIL(status, ascii->errbuf, "Position appears to be off the end of the file");
+  else if (status == eslEINVAL) ESL_FAIL(status, ascii->errbuf, "Sequence file is not repositionable");
+  else if (status != eslOK)     ESL_FAIL(status, ascii->errbuf, "Failure in positioning sequence file");
+  if ((status = ascii->parse_header(sqfp, sq)) != eslOK) return status;
+
+  /* Position the file close to the subseq: either at the start of the line
+   * where the subseq starts, or exactly at the residue.
+   */
+  if (d_off != 0) 
+    {
+      status = esl_sqfile_Position(sqfp, d_off);
+      if      (status == eslEOF)    ESL_FAIL(eslERANGE, ascii->errbuf, "Position appears to be off the end of the file");
+      else if (status == eslEINVAL) ESL_FAIL(status,    ascii->errbuf, "Sequence file is not repositionable");
+      else if (status != eslOK)     ESL_FAIL(status,    ascii->errbuf, "Failure in positioning sequence file");
+    }
+  /* even if we didn't have a data offset, we're positioned at the
+   * start of the sequence anyway, because we parsed the full header 
+   */
+  nskip = start - actual_start; /* how many residues do we still need to skip to reach start       */
+  nres  = end - start + 1;   /* how many residues do we need to read as subseq                  */
+
+  if ((status = esl_sq_GrowTo(sq, nres)) != eslOK) return status;
+  status = read_nres(sqfp, sq, nskip, nres, &n);
+  if (status != eslOK || n < nres) ESL_EXCEPTION(eslEINCONCEIVABLE, "Failed to fetch subsequence residues -- corrupt coords?");
+
+  /* Set the coords */
+  sq->start = start;
+  sq->end   = end;
+  sq->C     = 0;
+  sq->W     = sq->n;
+  sq->L     = (L > 0 ? L : -1);
+  esl_sq_FormatName(sq, "%s/%d-%d", source, start, end);
+  esl_sq_SetSource (sq, source);
+  return eslOK;
+}  
+#endif /*eslAUGMENT_SSI*/
+/*------------- end, random sequence access with SSI -------------------*/
+
+
+/*****************************************************************
+ * 6. Internal routines shared by parsers
+ *****************************************************************/
+
+
+/* loadmem() 
+ *
+ * Load the next block of data from stream into mem buffer,
+ * either concatenating to previous buffer (if we're recording) or
+ * overwriting (if not). 
+ * 
+ * This block is loaded at sqfp->mem + sqfp->mpos.
+ * 
+ * Upon return:
+ * sqfp->mem     now contains up to eslREADBUFSIZE more chars
+ * sqfp->mpos    is position of first byte in newly read block
+ * sqfp->allocm  may have increased by eslREADBUFSIZE, if we concatenated
+ * sqfp->mn      is # of chars in <mem>; <mn-1> is pos of last byte in new block
+ * 
+ * Returns <eslEOF> (and mpos == mn) if no new data can be read;
+ * Returns <eslOK>  (and mpos < mn) if new data is read. 
+ * Throws <eslEMEM> on allocation error.
+ */
+static int
+loadmem(ESL_SQFILE *sqfp)
+{
+  void *tmp;
+  int   n;
+  int   status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->do_buffer)
+  {
+      ascii->mpos = 0;
+      ascii->mn   = 0;
+  }
+  else if (ascii->is_recording == TRUE)
+  {
+      if (ascii->mem == NULL) ascii->moff = ftello(ascii->fp);        /* first time init of the offset */
+      ESL_RALLOC(ascii->mem, tmp, sizeof(char) * (ascii->allocm + eslREADBUFSIZE));
+      ascii->allocm += eslREADBUFSIZE;
+      n = fread(ascii->mem + ascii->mpos, sizeof(char), eslREADBUFSIZE, ascii->fp);
+      ascii->mn += n;
+  }
+  else
+  {
+      if (ascii->mem == NULL) {
+        ESL_ALLOC(ascii->mem, sizeof(char) * eslREADBUFSIZE);
+        ascii->allocm = eslREADBUFSIZE;
+      }
+      ascii->is_recording = -1;/* no more recording is possible now */
+      ascii->mpos = 0;
+      ascii->moff = ftello(ascii->fp);
+      n = fread(ascii->mem, sizeof(char), eslREADBUFSIZE, ascii->fp); /* see note [1] below */
+      ascii->mn   = n;
+  }
+  return (n == 0 ? eslEOF : eslOK);
+
+ ERROR:
+  return status;
+}
+
+/* [1] Be alert for a possible problem above in that fread().
+ *     Farrar had inserted an alternative case as follows:
+ *     "If we are reading from stdin, buffered read cannot be used
+ *      because if will block until EOF or the buffer is full, ie
+ *      eslREADBUFSIZE characters have been read.  Usually this would
+ *      not be a problem, unless stdin is from a pipe.  In that case
+ *      if the sequence is less than eslREADBUFSIZE we would block.
+ *
+ *      NOTE:  any changes to the IO stream ascii->fp, such as fseek, 
+ *      might not have any affect on the file descriptor for the stream.
+ *
+ *   if (ascii->do_stdin) {
+ *     n = read(fileno(ascii->fp), ascii->mem, eslREADBUFSIZE);
+ *   } else {
+ *   ...
+ *  
+ * but that's a bug, because you can't mix read and fread;
+ * the i17-stdin.pl test fails, in particular.
+ */
+
+
+
+
+/* loadbuf()
+ * Set sqfp->buf to contain next line of data, or point to next block.
+ * This might just mean working with previously buffered memory in <sqfp->mem>
+ * or might require reading new data from <sqfp->fp>.
+ *
+ * Reset sqfp->boff to be the position of the start of the block/line.
+ * Reset sqfp->bpos to 0.
+ * Reset sqfp->nc to the number of chars (bytes) in the new block/line.
+ * Returns eslOK on success; eslEOF if there's no more data in the file.
+ * (sqfp->nc == 0 is the same as eslEOF: no data in the new buffer.)
+ * Can throw an <eslEMEM> error.
+ */
+static int
+loadbuf(ESL_SQFILE *sqfp)
+{
+  void *tmp;
+  char *nlp;
+  int   n;
+  int   status = eslOK;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (! ascii->is_linebased)
+  {
+      if (ascii->mpos >= ascii->mn) {
+        if ((status = loadmem(sqfp)) == eslEMEM) return status;
+      }
+      ascii->buf    = ascii->mem  + ascii->mpos;
+      ascii->boff   = ascii->moff + ascii->mpos;
+      ascii->balloc = 0;
+      ascii->bpos   = 0;
+      ascii->nc     = ascii->mn - ascii->mpos;
+      ascii->mpos  += ascii->mn;
+  }
+  else
+  { /* Copy next line from <mem> into <buf>. Might require new load(s) into <mem>. */
+      if (ascii->mpos >= ascii->mn) {
+        if ((status = loadmem(sqfp)) == eslEMEM) return status;
+      }
+      ascii->boff = ascii->moff + ascii->mpos;      
+      ascii->nc   = 0;
+      nlp        = memchr(ascii->mem + ascii->mpos, '\n', ascii->mn - ascii->mpos);
+      while (nlp == NULL) 
+      {
+        n = ascii->mn - ascii->mpos;
+        while (ascii->nc + n + 1 > ascii->balloc) { /* +1: it'll hold the terminal \0 */
+          ESL_RALLOC(ascii->buf, tmp, sizeof(char) * (ascii->balloc + eslREADBUFSIZE));
+          ascii->balloc += eslREADBUFSIZE;
+        }
+        memcpy(ascii->buf + ascii->nc, ascii->mem + ascii->mpos, n);
+        ascii->mpos += n;
+        ascii->nc   += n;
+        status = loadmem(sqfp);
+        if      (status == eslEOF) { break; }
+        else if (status != eslOK)  return status;
+        nlp = memchr(ascii->mem + ascii->mpos, '\n', ascii->mn - ascii->mpos);
+      }
+      if (status != eslEOF) {
+        n = nlp - (ascii->mem + ascii->mpos) + 1; /* inclusive of \n */
+        if (ascii->nc + n + 1 > ascii->balloc) {
+          ESL_RALLOC(ascii->buf, tmp, sizeof(char) * (ascii->balloc + eslREADBUFSIZE));
+          ascii->balloc += eslREADBUFSIZE;
+        }
+        memcpy(ascii->buf + ascii->nc, ascii->mem + ascii->mpos, n);
+        ascii->mpos += n;
+        ascii->nc   += n;
+      }
+      ascii->bpos  = 0;
+      ascii->buf[ascii->nc] = '\0';
+  }
+  return (ascii->nc == 0 ? eslEOF : eslOK);
+
+ERROR:
+  return status;
+}
+
+/* nextchar()
+ * 
+ * Load next char from sqfp->buf into <*ret_c> and sets sqfp->bpos to
+ * its position; usually this is c = sqfp->buf[++sqfp->bpos], but
+ * we will refill the buffer w/ fresh fread() when needed, in which
+ * case c =  sqfp->buf[0] and sqfp->bpos = 0.
+ * 
+ * Returns <eslOK> on success.
+ * Return  <eslEOF> if we ran out of data in <sqfp>.
+ * May throw an <eslEMEM> error.
+ */
+static int
+nextchar(ESL_SQFILE *sqfp, char *ret_c)
+{
+  int status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  ascii->bpos++;
+  if (ascii->nc == ascii->bpos && (status = loadbuf(sqfp)) != eslOK) return status;
+  *ret_c = ascii->buf[ascii->bpos];
+  return eslOK;
+}
+
+/* seebuf()
+ * 
+ * Examine and validate the current buffer <sqfp->buf> from its
+ * current position <sqfp->bpos> until either the buffer ends (we run
+ * out of characters) or the sequence data ends (we see whatever
+ * character indicates EOD in this format) or we've seen <maxn>
+ * residues. If <maxn> is passed as -1, parse the entire buffer,
+ * without a residue limit.
+ * 
+ * There are three possible outcomes:
+ *   <eslOK>:      The buffer is all residues that belong to the current
+ *                 seq we're parsing (or chars we can ignore), at least
+ *                 up to the <maxn> residue limit (if present).
+ *   <eslEOD>:     Part of the buffer may be residues, but the current sequence
+ *                 ends in this buffer (before <maxn> was reached).
+ *   <eslEFORMAT>: Somewhere before we reached the end of the buffer or
+ *                 the sequence record, we saw an illegal character.
+ * 
+ * On <eslOK>:
+ *    *opt_nres    is the number of residues in the buffer (up to <maxn>)
+ *    *opt_endpos  is sqfp->nc (off the end of the buffer by one)
+ *    The caller will want to deal with the buffer, then load the next one.
+ *    
+ * On <eslEOD>: same as OK, except:
+ *    *opt_endpos  is where sqfp->bpos *would* be at when we saw the EOD
+ *                 signal (the next '>', in FASTA files) had we been parsing residues
+ *    Therefore on EOD, the caller will want to deal with the <*opt_nres>
+ *    residues in this buffer, then reposition the buffer by
+ *    <sqfp->bpos = *opt_epos> (without reloading the buffer), so
+ *    the next read will pick up there.
+ *    
+ * On <eslEFORMAT>:
+ *    ascii->errbuf  contains informative message about the format error.
+ *    
+ * seebuf() also handles linenumber and SSI bookkeeping in
+ * <sqfp>. Every newline character seen increments <linenumber> (thus,
+ * on EFORMAT return, linenumber is set to the line on which the bad
+ * char occurred). <curbpl>,<currpl>,<prvbpl>,<prvrpl> keep track of # of bytes,
+ * residues on the current,prev line; they keep state across calls to seebuf().
+ * <bpl>,<rpl> are tracking whether there's a constant number of
+ * bytes/residues per line; these are either -1 for "not set yet", 0
+ * for "no, not constant", or a number > 0. Because of this bookkeeping, it's important
+ * to make sure that <seebuf()> never counts the same byte twice (hence
+ * the need for the <maxn> limit, which ReadWindow() uses.)
+ */
+static int
+seebuf(ESL_SQFILE *sqfp, int64_t maxn, int64_t *opt_nres, int64_t *opt_endpos)
+{
+  int     bpos;
+  int64_t nres  = 0;
+  int64_t nres2 = 0;/* an optimization for determining lastrpl from nres, without incrementing lastrpl on every char */
+  int     sym;
+  ESL_DSQ x;
+  int     lasteol;
+  int     status  = eslOK;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  lasteol = ascii->bpos - 1;
+  if (maxn == -1) maxn = ascii->nc; /* makes for a more efficient test. nc is a guaranteed upper bound on nres */
+
+  for (bpos = ascii->bpos; nres < maxn && bpos < ascii->nc; bpos++)
+  {
+      sym = ascii->buf[bpos];
+      //printf ("nres: %d, bpos: %d  (%d)\n", nres, bpos, sym);
+      if (!isascii(sym)) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": non-ASCII character %c in sequence", ascii->linenumber, sym); 
+      x   = sqfp->inmap[sym];
+
+      if      (x <= 127) nres++;
+      else if (x == eslDSQ_EOL) 
+      {
+         if (ascii->curbpl != -1) ascii->curbpl += bpos - lasteol;
+         if (ascii->currpl != -1) ascii->currpl += nres - nres2;
+         nres2        += nres - nres2;
+
+         if (ascii->rpl != 0 && ascii->prvrpl != -1) { /* need to ignore counts on last line in record, hence cur/prv */
+           if      (ascii->rpl    == -1)        ascii->rpl = ascii->prvrpl; /* init */
+           else if (ascii->prvrpl != ascii->rpl) ascii->rpl = 0;           /* inval*/
+         }
+         if (ascii->bpl != 0 && ascii->prvbpl != -1) {
+           if      (ascii->bpl    == -1)        ascii->bpl = ascii->prvbpl; /* init  */
+           else if (ascii->prvbpl != ascii->bpl) ascii->bpl = 0;            /* inval */
+         }
+
+         ascii->prvbpl  = ascii->curbpl;
+         ascii->prvrpl  = ascii->currpl;
+         ascii->curbpl  = 0;
+         ascii->currpl  = 0;
+         lasteol       = bpos;
+         if (ascii->linenumber != -1) ascii->linenumber++;
+    }
+    else if (x == eslDSQ_ILLEGAL) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": illegal character %c", ascii->linenumber, sym);
+    else if (x == eslDSQ_EOD)     { status = eslEOD; break; }
+    else if (x != eslDSQ_IGNORED) ESL_FAIL(eslEFORMAT, ascii->errbuf, "inmap corruption?");
+  }
+
+  if (ascii->curbpl != -1) ascii->curbpl += bpos - lasteol - 1;
+  if (ascii->currpl != -1) ascii->currpl += nres - nres2;
+  if (opt_nres   != NULL) *opt_nres   = nres;
+  if (opt_endpos != NULL) *opt_endpos = bpos;
+  return status;
+}
+
+/* addbuf() 
+ * Add <nres> residues from the current buffer <sqfp->buf> to <sq>.
+ * This is designed to work when we're constructing a complete
+ * sequence (add the whole buffer); when we're adding a suffix
+ * of the buffer (<sqfp->bpos> is skipped ahead already);
+ * or when we're adding a prefix of the buffer (terminating a subseq
+ * or window load).
+ * 
+ * The caller must know that there are at least <nres> residues in
+ * this buffer, and that all the characters are valid in the
+ * format and alphabet, via a previous call to <seebuf()>. 
+ * 
+ * The caller also must have already allocated <sq> to hold at least
+ * <nres> more residues.
+ * 
+ * On input:
+ *   sqfp->buf[]  contains an fread() buffer
+ *   sqfp->bpos   is set to where we're going to start parsing residues
+ *   sqfp->nc     is the length of <buf>
+ *   
+ * On return:
+ *   sqfp->buf[]  still contains the same buffer (no new freads here)
+ *   sqfp->bpos   is set after the last residue we parsed 
+ *   sq->seq/dsq  now holds <nres> new residues
+ *   sq->n        is incremented by <nres>
+ */
+static void
+addbuf(ESL_SQFILE *sqfp, ESL_SQ *sq, int64_t nres)
+{
+  ESL_DSQ x;
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (sq->dsq != NULL) 
+    {
+      while (nres) {
+        x  = sq->abc->inmap[(int) ascii->buf[ascii->bpos++]];
+        if (x <= 127) { nres--; sq->dsq[++sq->n] = x; }
+      } /* we skipped IGNORED, EOL. EOD, ILLEGAL don't occur; seebuf() already checked  */
+    } 
+  else
+    {
+      while (nres) {
+        x   = sqfp->inmap[(int) ascii->buf[ascii->bpos++]];
+        if (x <= 127) { nres--; sq->seq[sq->n++] = x; }
+      }
+    }
+}
+
+/* skipbuf() 
+ * Like addbuf(), but we skip <nskip> residues instead of
+ * reading them.
+ */
+static void
+skipbuf(ESL_SQFILE *sqfp, int64_t nskip)
+{
+  ESL_DSQ x;
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  while (nskip) {
+    x  = sqfp->inmap[(int) ascii->buf[ascii->bpos++]];
+    if (x <= 127) nskip--;/* skip IGNORED, EOL. */
+  }
+}
+
+
+/* skip_whitespace()
+ * Like skipbuf(), but instead of skipping a fixed number of
+ * residues, skip forward until one of three conditions is met:
+ *
+ * (1) end of the sequence record (a character indicating
+ *     the beginning of a new sequence); set ascii->bpos
+ *     to the beginning of the new record, and return eslEOD;
+ * (2) a non-whitespace character in the current sequence is
+ *     reached that does not indicate the end of a sequence
+ *     record; set ascii->bpos to that character's position,
+ *     and return eslOK;
+ * (3) end of file;  return eslEOF.
+ *
+ */
+static int
+skip_whitespace(ESL_SQFILE *sqfp)
+{
+  int status;
+  int c;
+  ESL_DSQ x;
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->nc == 0)
+    return eslEOF;
+
+  c = (int) ascii->buf[ascii->bpos];
+  x  = sqfp->inmap[c];
+
+  while ( isspace(c) ) {
+
+    ascii->bpos++;
+
+    if (ascii->bpos == ascii->nc)
+      if ((status = loadbuf(sqfp)) == eslEOF)
+        return eslEOF;
+
+    c = (int) ascii->buf[ascii->bpos];
+    x  = sqfp->inmap[c];
+  }
+  if (x == eslDSQ_EOD)
+    return eslEOD;
+
+  return eslOK;
+}
+
+
+
+/* read_nres()
+ * Read the next <nres> residues from <sqfp> after skipping <nskip> residues, then stop.
+ * 
+ * Returns <eslOK> and <0 < *ret_actual_nres <= nres> if it succeeded, and
+ *                 there's more residues in the current seq record.
+ * Returns <eslEOD> and <*ret_actual_nres == 0> if no more residues are
+ *                 seen in the sequence record. 
+ * 
+ * Even on <eslEOD>, the <dsq/seq> is appropriately terminated here,
+ * and <sq->n> is left the way it was (no new residues added - but there
+ * may have been saved context C from a previous window).
+ *
+ * Returns <eslEFORMAT> on any parsing problem, and <ascii->errbuf> is set.
+ *
+ * On <eslOK>, sqfp->bpos is positioned on the next character past the last residue we store;
+ * on <eslEOD>, sqfp->bpos is positioned for reading the next sequence.
+ * 
+ * FetchSubseq() uses this with <nskip>, <nres>, and expects an
+ * <eslOK> with <*opt_actual_nres = nres>. On <EOD>, or if fewer than
+ * <nres> residues are obtained, the coords must've been screwed up,
+ * because we didn't read the whole subseq we asked for.
+ *
+ * ReadWindow() on forward strand uses this with <nskip=0>, <nres=W>.
+ * The last window might normally return <eslEOD> with
+ * <*ret_actual_nres == 0>, and now <sqfp->bpos> is positioned at the
+ * start of the next sequence on <EOD>, and at the next residue on
+ * <OK>.
+ * 
+ * ReadWindow() in reverse complement acts like a subseq fetch.
+ * 
+ */
+static int
+read_nres(ESL_SQFILE *sqfp, ESL_SQ *sq, int64_t nskip, int64_t nres, int64_t *opt_actual_nres)
+{
+  int64_t n;
+  int64_t epos;
+  int64_t actual_nres = 0;
+  int     status      = eslOK;
+  
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+  status = seebuf(sqfp, nskip+nres, &n, &epos);
+  while (status == eslOK && nskip - n > 0) {
+    nskip   -= n;
+    if ((status = loadbuf(sqfp)) == eslEOF) break;
+    status = seebuf(sqfp, nskip+nres, &n, &epos);
+  }
+  
+  if         (status == eslEOF) { 
+    if (! ascii->eof_is_ok) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Premature EOF before end of seq record");
+    if (nskip > 0)         ESL_EXCEPTION(eslECORRUPT, "premature EOD while trying to skip residues"); 
+    n = 0;
+  } else if  (status == eslEOD) { 
+    if (n < nskip)         ESL_EXCEPTION(eslECORRUPT, "premature EOD while trying to skip residues"); 
+  } else if  (status != eslOK) 
+    return status;
+
+  skipbuf(sqfp, nskip); 
+  n -= nskip; 
+
+  while (status == eslOK && nres - n > 0) 
+    {
+      addbuf(sqfp, sq, n);
+      actual_nres += n;
+      nres        -= n;
+      if ((status = loadbuf(sqfp)) == eslEOF) break;
+      status = seebuf(sqfp, nres, &n, &epos);
+    }
+
+
+  if        (status == eslEOF) { 
+    if (! ascii->eof_is_ok) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Premature EOF before end of seq record");
+    n = 0;
+  } else if  (status == eslEFORMAT) {
+    return status;
+  }
+
+  n = ESL_MIN(nres, n); 
+  addbuf(sqfp, sq, n);   /* bpos now at last residue + 1 if OK/EOD, 0 if EOF  */
+  actual_nres += n;
+
+  if (sq->dsq != NULL) sq->dsq[sq->n+1] = eslDSQ_SENTINEL;
+  else                 sq->seq[sq->n]   = '\0';
+  
+  if (status == eslEOD) { 
+    ascii->bpos = epos; 
+  }
+
+  if (opt_actual_nres != NULL) *opt_actual_nres = actual_nres;
+  return (actual_nres == 0 ? eslEOD : eslOK);
+}
+/*--------------- end, buffer-based parsers --------------------*/
+
+
+/*****************************************************************
+ *#  7. Internal routines for EMBL format (including UniProt, TrEMBL)
+ *****************************************************************/ 
+/* EMBL and UniProt protein sequence database format.
+ *   See: http://us.expasy.org/sprot/userman.html
+ *   and: http://www.ebi.ac.uk/embl/Documentation/User_manual/usrman.html#3
+ * We use the same parser for both formats, so we have to be 
+ * careful to only parse the conserved intersection of these two
+ * very similar formats.
+ */
+static void
+config_embl(ESL_SQFILE *sqfp)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  ascii->is_linebased      = TRUE;
+  ascii->eof_is_ok         = FALSE;/* records end with // */
+  ascii->parse_header      = &header_embl;
+  ascii->skip_header       = &skip_embl;
+  ascii->parse_end         = &end_embl;
+}
+
+static void
+inmap_embl(ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap)
+{
+  int x;
+
+  if (abc_inmap != NULL) {
+    for (x = 0; x < 128; x++) sqfp->inmap[x] = abc_inmap[x];
+  } else {
+    for (x =  0;  x < 128;  x++) sqfp->inmap[x] = eslDSQ_ILLEGAL;
+    for (x = 'A'; x <= 'Z'; x++) sqfp->inmap[x] = x;
+    for (x = 'a'; x <= 'z'; x++) sqfp->inmap[x] = x;
+  }
+  for (x = '0'; x <= '9'; x++)
+    sqfp->inmap[x] = eslDSQ_IGNORED;    /* EMBL DNA sequence format puts coordinates after each line */
+  sqfp->inmap['*']  = '*';         /* accept * as a nonresidue/stop codon character */
+  sqfp->inmap[' ']  = eslDSQ_IGNORED;
+  sqfp->inmap['\t'] = eslDSQ_IGNORED;
+  sqfp->inmap['\n'] = eslDSQ_IGNORED;
+  sqfp->inmap['\r'] = eslDSQ_IGNORED;/* DOS eol compatibility */
+  sqfp->inmap['/']  = eslDSQ_EOD;
+}
+
+/* header_embl()
+ * 
+ * See: http://us.expasy.org/sprot/userman.html
+ * And: http://www.ebi.ac.uk/embl/Documentation/User_manual/usrman.html#3
+ * Our parser must work on the highest common denominator of EMBL DNA
+ * and UniProt protein sequence files.
+ *
+ * sqfp->buf is the first (ID) line of the entry, or a blank line before
+ * it (in which case we'll scan forwards skipping blank lines to find 
+ * the ID line).
+ * 
+ * On success, returns <eslOK> and:
+ *   sq->name  contains sequence name (and may have been reallocated, changing sq->nalloc)
+ *   sq->acc   contains seq accession (and may have been reallocated, changing sq->aalloc)
+ *   sq->desc  contains description line (and may have been reallocated, changing sq->dalloc)
+ *   sq->roff  has been set to the record offset
+ *   sq->doff  has been set to the data offset (start of sequence line)
+ *   sqfp->buf is the first seq line.
+ * 
+ * If no more seqs are found in the file, returns <eslEOF>.
+ * On parse failure, returns <eslEFORMAT>, leaves as mesg in ascii->errbuf.
+ * 
+ * May also throw <eslEMEM> on allocation errors.
+ */
+static int
+header_embl(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  char *s;
+  char *tok;
+  int   status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* Find first line:
+   * "Each entry must begin with an identification line (ID)..."
+   * "The two-character line-type code that begins each line is always
+   *  followed by three blanks..."
+   */
+  if (ascii->nc == 0) return eslEOF;
+  while (esl_str_IsBlank(ascii->buf)) {
+    if ((status = loadbuf(sqfp)) == eslEOF) return eslEOF; /* normal */
+    else if (status != eslOK) return status; /* abnormal */
+  } 
+
+  /* ID line is defined as:
+   *     ID   ENTRY_NAME DATA_CLASS; MOLECULE_TYPE; SEQUENCE_LENGTH.
+   * We're only after the ENTRY_NAME.
+   * Examples:
+   *  ID   SNRPA_DROME    STANDARD;      PRT;   216 AA.
+   *  ID   SNRPA_DROME             Reviewed;         216 AA.
+   *  ID   X06347; SV 1; linear; mRNA; STD; HUM; 1209 BP.
+   */
+  if (strncmp(ascii->buf, "ID   ", 5) != 0) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to find ID line", ascii->linenumber);
+  
+  s = ascii->buf+5;
+  if ((status = esl_strtok(&s, " ;", &tok)) != eslOK)
+    ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to parse name on ID line", ascii->linenumber);
+  if ((status = esl_sq_SetName(sq, tok)) != eslOK) return status;
+  sq->roff = ascii->boff;/* record the offset of the ID line */
+  
+  /* Look for SQ line; parsing optional info as we go.
+   */
+  do {
+    if ((status = loadbuf(sqfp)) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to find SQ line", ascii->linenumber);
+
+    /* "The format of the AC line is:
+     *    AC   AC_number_1;[ AC_number_2;]...[ AC_number_N;]
+     *  Researchers who wish to cite entries in their publications
+     *  should always cite the first accession number. This is
+     *  commonly referred to as the 'primary accession
+     *  number'."
+     *  
+     *  Examples:
+     *   AC   P43332; Q9W4D7;
+     *   AC   X06347;
+     *   
+     *  Note that Easel only stores primary accessions.
+     *  Because there can be more than one accession line, we check to 
+     *  see if the accession is already set before storing a line.
+     */
+    if (strncmp(ascii->buf, "AC   ", 5) == 0 && sq->acc[0] == '\0')
+    {
+      s = ascii->buf+5;
+      if ((status = esl_strtok(&s, ";", &tok)) != eslOK)
+        ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to parse accession on AC line", ascii->linenumber);
+      if ((status = esl_sq_SetAccession(sq, tok)) != eslOK) return status;
+    }
+
+    /* "The format of the DE line is:
+     *    DE   Description.
+     * ...In cases where more than one DE line is required, the text is
+     * only divided between words and only the last DE line is
+     * terminated by a period."
+     * 
+     * Examples:
+     *   DE   U1 small nuclear ribonucleoprotein A (U1 snRNP protein A) (U1-A) (Sex
+     *   DE   determination protein snf).
+     *   
+     *   DE   Human mRNA for U1 small nuclear RNP-specific A protein
+     *
+     *   DE   RecName: Full=U1 small nuclear ribonucleoprotein A;
+     *   DE            Short=U1 snRNP protein A;
+     *   DE            Short=U1-A;
+     *   DE   AltName: Full=Sex determination protein snf;
+     *
+     * We'll make no attempt to parse the structured UniProt description header,
+     * for the moment.
+     */
+    if (strncmp(ascii->buf, "DE   ", 5) == 0)
+    {
+      s = ascii->buf+5;
+      esl_strchop(s, ascii->nc-5);
+      if ((status = esl_sq_AppendDesc(sq, s)) != eslOK)
+        ESL_FAIL(status, ascii->errbuf, "Line %" PRId64 ": failed to parse description on DE line", ascii->linenumber);
+    }
+
+    /* UniProt: "The format of the SQ line is:
+     *  SQ   SEQUENCE XXXX AA; XXXXX MW; XXXXXXXXXXXXXXXX CRC64;"
+     * EMBL:    "The SQ (SeQuence header) line marks the beginning of 
+     *           the sequence data and Gives a summary of its content. 
+     *           An example is:
+     *  SQ   Sequence 1859 BP; 609 A; 314 C; 355 G; 581 T; 0 other;"
+     *  
+     * We don't parse this line; we just look for it as the last line
+     * before the sequence starts.
+     */
+  } while (strncmp(ascii->buf, "SQ   ", 5) != 0);
+
+  if (loadbuf(sqfp) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Failed to find any sequence");
+  sq->hoff = ascii->boff - 1;
+  sq->doff = ascii->boff;
+  return eslOK;
+}
+
+/* skip_embl()
+ * 
+ * Skip past the EMBL header and position to start of the sequence line.
+ * 
+ * On success, returns <eslOK> and:
+ *   sq->roff  has been set to the record offset
+ *   sq->doff  has been set to the data offset (start of sequence line)
+ *   sqfp->buf is the first seq line.
+ * 
+ * If no more seqs are found in the file, returns <eslEOF>.
+ * On parse failure, returns <eslEFORMAT>, leaves as mesg in ascii->errbuf.
+ * 
+ * May also throw <eslEMEM> on allocation errors.
+ */
+static int
+skip_embl(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int   status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* Find first line:
+   * "Each entry must begin with an identification line (ID)..."
+   * "The two-character line-type code that begins each line is always
+   *  followed by three blanks..."
+   */
+  if (ascii->nc == 0) return eslEOF;
+  while (esl_str_IsBlank(ascii->buf)) {
+    if ((status = loadbuf(sqfp)) == eslEOF) return eslEOF; /* normal */
+    else if (status != eslOK) return status; /* abnormal */
+  } 
+
+  /* ID line */
+  if (strncmp(ascii->buf, "ID   ", 5) != 0) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to find ID line", ascii->linenumber);
+  
+  sq->roff = ascii->boff;/* record the offset of the ID line */
+  
+  /* zero out the name, accession and description */
+  sq->name[0] = '\0';
+  sq->acc[0]  = '\0';
+  sq->desc[0] = '\0';
+  
+  /* Look for SQ line; parsing optional info as we go. */
+  do {
+    if ((status = loadbuf(sqfp)) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to find SQ line", ascii->linenumber);
+  } while (strncmp(ascii->buf, "SQ   ", 5) != 0);
+
+  if (loadbuf(sqfp) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Failed to find any sequence");
+  sq->hoff = ascii->boff - 1;
+  sq->doff = ascii->boff;
+  return eslOK;
+}
+  
+static int
+end_embl(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (strncmp(ascii->buf, "//", 2) != 0) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": did not find // terminator at end of seq record", ascii->linenumber);
+  sq->eoff = ascii->boff + ascii->nc - 1;
+  status = loadbuf(sqfp);
+  if      (status == eslEOF) return eslOK; /* ok, actually. */
+  else if (status == eslOK)  return eslOK;
+  else                       return status;
+}
+
+/*---------------------- EMBL format ---------------------------------*/
+
+
+
+/*****************************************************************
+ *#  8. Internal routines for GenBank format 
+ *****************************************************************/ 
+/* NCBI GenBank sequence database format.
+ * See GenBank release notes; for example,
+ * ftp://ftp.ncbi.nih.gov/genbank/gbrel.txt
+ */
+
+static void
+config_genbank(ESL_SQFILE *sqfp)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  ascii->is_linebased      = TRUE;
+  ascii->eof_is_ok         = FALSE;/* records end with //  */
+  ascii->parse_header      = &header_genbank;
+  ascii->skip_header       = &skip_genbank;
+  ascii->parse_end         = &end_genbank;
+}
+
+static void
+inmap_genbank(ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap)
+{
+  int x;
+
+  if (abc_inmap != NULL) {
+    for (x = 0; x < 128; x++) sqfp->inmap[x] = abc_inmap[x];
+  } else {
+    for (x =  0;  x < 128;  x++) sqfp->inmap[x] = eslDSQ_ILLEGAL;
+    for (x = 'A'; x <= 'Z'; x++) sqfp->inmap[x] = x;
+    for (x = 'a'; x <= 'z'; x++) sqfp->inmap[x] = x;
+  }
+  for (x = '0'; x <= '9'; x++)
+    sqfp->inmap[x] = eslDSQ_IGNORED;
+  sqfp->inmap['*']  = '*';         /* accept * as a nonresidue/stop codon character */
+  sqfp->inmap[' ']  = eslDSQ_IGNORED;
+  sqfp->inmap['\t'] = eslDSQ_IGNORED;
+  sqfp->inmap['\n'] = eslDSQ_IGNORED;
+  sqfp->inmap['\r'] = eslDSQ_IGNORED;/* DOS eol compatibility */
+  sqfp->inmap['/']  = eslDSQ_EOD;
+}
+
+/* header_genbank()
+ * 
+ * sqfp->buf is the first (LOCUS) line of the entry, or a line before
+ * it (in which case we'll scan forwards to find the LOCUS line - even
+ * skipping non-blank lines, because there are sometimes headers at
+ * the start of GenBank files).
+ * 
+ * On success, returns <eslOK> and:
+ *   sq->name  contains sequence name (and may have been reallocated, changing sq->nalloc)
+ *   sq->acc   contains seq accession (and may have been reallocated, changing sq->aalloc)
+ *   sq->desc  contains description line (and may have been reallocated, changing sq->dalloc)
+ *   sq->roff  has been set to the record offset
+ *   sq->doff  has been set to the data offset (start of sequence line)
+ *   sqfp->buf is the first seq line.
+ * 
+ * If no more seqs are found in the file, returns <eslEOF>.
+ * On parse failure, returns <eslEFORMAT>, leaves as mesg in ascii->errbuf.
+ * 
+ * May also throw <eslEMEM> on allocation errors.
+ */
+static int
+header_genbank(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  char *s;
+  char *tok;
+  int   status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* Find LOCUS line, allowing for ignoration of a file header.  */
+  if (ascii->nc == 0) return eslEOF;
+  while (strncmp(ascii->buf, "LOCUS   ", 8) != 0) {
+    if ((status = loadbuf(sqfp)) == eslEOF) return eslEOF; /* normal   */
+    else if (status != eslOK) return status;                /* abnormal */
+  } 
+  
+  s = ascii->buf+12;
+  if ((status = esl_strtok(&s, " ", &tok)) != eslOK)
+    ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to parse name on LOCUS line", ascii->linenumber);
+  if ((status = esl_sq_SetName(sq, tok)) != eslOK) return status;
+  sq->roff = ascii->boff;/* record the disk offset to the LOCUS line */
+  
+  /* Look for ORIGIN line, parsing optional info as we go. */
+  do {
+    if ((status = loadbuf(sqfp)) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Failed to find ORIGIN line");
+
+    /* Optional VERSION line is parsed as "accession". */
+    if (strncmp(ascii->buf, "VERSION   ", 10) == 0)
+    {
+      s = ascii->buf+12;
+      if ((status = esl_strtok(&s, " ", &tok)) != eslOK)
+        ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": failed to parse VERSION line", ascii->linenumber);
+      if ((status = esl_sq_SetAccession(sq, tok)) != eslOK) return status;
+    }
+
+    /* Optional DEFINITION Line is parsed as "description". */
+    if (strncmp(ascii->buf, "DEFINITION ", 11) == 0)
+    {
+      s = ascii->buf+12;
+      esl_strchop(s, ascii->nc);
+      if ((status = esl_sq_AppendDesc(sq, s)) != eslOK)
+        ESL_FAIL(status, ascii->errbuf, "Line %" PRId64 ": failed to parse desc on DEFINITION line", ascii->linenumber);
+    }
+  } while (strncmp(ascii->buf, "ORIGIN", 6) != 0);
+
+  if (loadbuf(sqfp) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Failed to find any sequence");
+  sq->hoff = ascii->boff - 1;
+  sq->doff = ascii->boff;
+  return eslOK;
+}
+  
+/* skip_genbank()
+ * 
+ * Skip past the GenBank header and position to start of the sequence line.
+ * 
+ * On success, returns <eslOK> and:
+ *   sq->roff  has been set to the record offset
+ *   sq->doff  has been set to the data offset (start of sequence line)
+ *   sqfp->buf is the first seq line.
+ * 
+ * If no more seqs are found in the file, returns <eslEOF>.
+ * On parse failure, returns <eslEFORMAT>, leaves as mesg in ascii->errbuf.
+ * 
+ * May also throw <eslEMEM> on allocation errors.
+ */
+static int
+skip_genbank(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int   status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* Find LOCUS line, allowing for ignoration of a file header.  */
+  if (ascii->nc == 0) return eslEOF;
+  while (strncmp(ascii->buf, "LOCUS   ", 8) != 0) {
+    if ((status = loadbuf(sqfp)) == eslEOF) return eslEOF; /* normal   */
+    else if (status != eslOK) return status;               /* abnormal */
+  } 
+  
+  sq->roff = ascii->boff;/* record the disk offset to the LOCUS line */
+  
+  /* zero out the name, accession and description */
+  sq->name[0] = '\0';
+  sq->acc[0]  = '\0';
+  sq->desc[0] = '\0';
+  
+  /* Look for ORIGIN line, parsing optional info as we go. */
+  do {
+    if ((status = loadbuf(sqfp)) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Failed to find ORIGIN line");
+  } while (strncmp(ascii->buf, "ORIGIN", 6) != 0);
+
+  if (loadbuf(sqfp) != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Failed to find any sequence");
+  sq->hoff = ascii->boff - 1;
+  sq->doff = ascii->boff;
+  return eslOK;
+}
+  
+static int
+end_genbank(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int status;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (strncmp(ascii->buf, "//", 2) != 0) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": did not find // terminator at end of seq record", ascii->linenumber);
+  sq->eoff = ascii->boff + ascii->nc - 1;
+  status = loadbuf(sqfp);
+  if      (status == eslEOF) return eslOK; /* ok, actually; we'll detect EOF on next sq read */
+  else if (status == eslOK)  return eslOK;
+  else                       return status;
+}
+/*----------------- end GenBank format -------------------------------*/
+
+
+
+/*****************************************************************
+ *#  9. Internal routines for FASTA format
+ *****************************************************************/
+
+static void
+config_fasta(ESL_SQFILE *sqfp)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  ascii->is_linebased = FALSE;
+  ascii->eof_is_ok    = TRUE;
+  ascii->parse_header = &header_fasta;
+  ascii->skip_header  = &skip_fasta;
+  ascii->parse_end    = &end_fasta;
+}
+
+static void
+inmap_fasta(ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap)
+{
+  int x;
+
+  if (abc_inmap != NULL) {
+    for (x = 0; x < 128; x++) sqfp->inmap[x] = abc_inmap[x];
+  } else {
+    for (x =  0;  x < 128;  x++) sqfp->inmap[x] = eslDSQ_ILLEGAL;
+    for (x = 'A'; x <= 'Z'; x++) sqfp->inmap[x] = x;
+    for (x = 'a'; x <= 'z'; x++) sqfp->inmap[x] = x;
+  }
+  sqfp->inmap['*']  = '*';         /* accept * as a nonresidue/stop codon character */
+  sqfp->inmap[' ']  = eslDSQ_IGNORED;
+  sqfp->inmap['\t'] = eslDSQ_IGNORED;
+  sqfp->inmap['\r'] = eslDSQ_IGNORED;/* DOS eol compatibility */
+  sqfp->inmap['\n'] = eslDSQ_EOL;
+  sqfp->inmap['>']  = eslDSQ_EOD;
+  /* \n is special - fasta reader detects it as an eol */
+}
+
+
+/* header_fasta()
+ * 
+ * sqfp->buf[sqfp->bpos] is sitting at the start of a FASTA record, or
+ * at a space before it (in which case we'll advance, skipping whitespace,
+ * until a > is reached).
+ * Parse the header line, storing name and description in <sq>.
+ * 
+ * On success, returns <eslOK> and:
+ *    sq->name contains sequence name (and may have been reallocated, changing sq->nalloc)
+ *    sq->desc contains description line (and may have been reallocated, changing sq->dalloc)
+ *    sq->roff has been set to the record offset
+ *    sq->doff has been set to the data offset (start of sequence line)
+ *    sqfp->buf[sqfp->bpos] is sitting at the start of the seq line.
+ *    sqfp->currpl,curbpl set to 0, to start bookkeeping data line lengths 
+ *
+ * If no more seqs are found in the file, returns <eslEOF>.
+ * On parse failure, return <eslEFORMAT>, leaves as mesg in ascii->errbuf.
+ *    
+ * May also throw <eslEMEM> on allocation errors.
+ */
+static int
+header_fasta(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  char  c;
+  int   status = eslOK;
+  void *tmp;
+  int   pos;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  /* make sure there are characters in the buffer */
+  if (ascii->nc == ascii->bpos && (status = loadbuf(sqfp)) != eslOK) return status;
+
+  c =  ascii->buf[ascii->bpos];
+  while (status == eslOK && isspace(c)) status = nextchar(sqfp, &c); /* skip space (including \n) */
+
+  if (status == eslEOF) return eslEOF;
+
+  if (status == eslOK && c == '>') {    /* accept the > */
+    sq->roff = ascii->boff + ascii->bpos; /* store SSI record offset */
+    status = nextchar(sqfp, &c);
+  } else if (c != '>') ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": unexpected char %c; expected FASTA to start with >", ascii->linenumber, c);
+  
+  while (status == eslOK && (c == '\t' || c == ' ')) status = nextchar(sqfp, &c); /* skip space */
+
+  /* Store the name (space delimited) */
+  pos = 0;
+  while (status == eslOK && ! isspace(c))
+  {
+      sq->name[pos++] = c;
+      if (pos == sq->nalloc-1) { ESL_RALLOC(sq->name, tmp, sq->nalloc*2); sq->nalloc*=2; }
+      status = nextchar(sqfp, &c); 
+  }
+  if (pos == 0) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": no FASTA name found", ascii->linenumber);
+  sq->name[pos] = '\0';
+  
+  while (status == eslOK &&  (c == '\t' || c == ' ')) status = nextchar(sqfp, &c);   /* skip space */
+
+  /* Store the description (end-of-line delimited) */
+  pos = 0;
+  while (status == eslOK && c != '\n' && c != '\r')
+  {
+      sq->desc[pos++] = c;
+      if (pos == sq->dalloc-1) { ESL_RALLOC(sq->desc, tmp, sq->dalloc*2); sq->dalloc*= 2; }
+      status = nextchar(sqfp, &c); 
+  }
+  sq->desc[pos] = '\0';
+  sq->hoff = ascii->boff + ascii->bpos;
+  
+  while (status == eslOK && (c == '\n' || c == '\r')) status = nextchar(sqfp, &c); /* skip past eol (DOS \r\n, MAC \r, UNIX \n */
+
+  if (status != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Premature EOF in parsing FASTA name/description line");
+  sq->doff = ascii->boff + ascii->bpos;
+  ascii->prvrpl = ascii->prvbpl = -1;
+  ascii->currpl = ascii->curbpl = 0;
+  ascii->linenumber++;
+  return eslOK;
+
+ ERROR:
+  return status;/* eslEMEM, from failed realloc */
+}
+      
+/* skip_fasta()
+ * 
+ * Skip past the fasta header and position to start of the sequence line.
+ * 
+ * On success, returns <eslOK> and:
+ *    sq->roff has been set to the record offset
+ *    sq->doff has been set to the data offset (start of sequence line)
+ *    sqfp->buf[sqfp->bpos] is sitting at the start of the seq line.
+ *    sqfp->currpl,curbpl set to 0, to start bookkeeping data line lengths 
+ *
+ * If no more seqs are found in the file, returns <eslEOF>.
+ * On parse failure, return <eslEFORMAT>, leaves as mesg in ascii->errbuf.
+ *    
+ * May also throw <eslEMEM> on allocation errors.
+ */
+static int
+skip_fasta(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  char  c;
+  int   status = eslOK;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  c =  ascii->buf[ascii->bpos];
+  while (status == eslOK && isspace(c)) status = nextchar(sqfp, &c); /* skip space (including \n) */
+
+  if (status == eslEOF) return eslEOF;
+  if (status != eslOK)  ESL_FAIL(eslEFORMAT, ascii->errbuf, "Unexpected parsing error %d", status);
+  if (c != '>')         ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": unexpected char %c; expecting '>'", ascii->linenumber, c);
+
+  sq->roff = ascii->boff + ascii->bpos; /* store SSI record offset */
+
+  /* zero out the name, accession and description */
+  sq->name[0] = '\0';
+  sq->acc[0]  = '\0';
+  sq->desc[0] = '\0';
+  
+  status = nextchar(sqfp, &c);
+  
+  /* skip to end of line */
+  while (status == eslOK && c != '\n' && c != '\r') status = nextchar(sqfp, &c); 
+  sq->doff = ascii->boff + ascii->bpos;
+
+  /* skip past end of line */
+  while (status == eslOK && (c == '\n' || c == '\r')) status = nextchar(sqfp, &c);
+
+  if (status != eslOK) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Premature EOF in parsing FASTA name/description line");
+  sq->doff = ascii->boff + ascii->bpos;
+
+  ascii->linenumber++;
+  return eslOK;
+}
+
+
+static int 
+end_fasta(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->bpos < ascii->nc) {
+    if (ascii->buf[ascii->bpos] != '>') ESL_FAIL(eslEFORMAT, ascii->errbuf, "Whoops, FASTA reader is corrupted");
+    sq->eoff = ascii->boff + ascii->bpos - 1; /* this puts eoff at the last \n */
+  } /* else, EOF, and we don't have to do anything. */
+  return eslOK;
+}
+
+
+/* Function:  esl_sqascii_WriteFasta()
+ * Synopsis:  Write a sequence in FASTA foramt
+ *
+ * Purpose:   Write sequence <sq> in FASTA format to the open stream <fp>.
+ * 
+ *            If <save_offsets> is TRUE, then store record, data, and end 
+ *            offsets in <sq>; this ability is used by unit tests.
+ *
+ * Returns:   <eslOK> on success.
+ *             
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEWRITE> on system write error.
+ */
+int
+esl_sqascii_WriteFasta(FILE *fp, ESL_SQ *sq, int save_offsets)
+{
+  char     buf[61];
+  int64_t  pos;
+
+  if (save_offsets) sq->roff = ftello(fp);
+  if (fprintf(fp, ">%s", sq->name)                     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "fasta seq write failed");
+  if (sq->acc[0]  != 0 && fprintf(fp, " %s", sq->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "fasta seq write failed");
+  if (sq->desc[0] != 0 && fprintf(fp, " %s", sq->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "fasta seq write failed");
+  if (save_offsets) sq->hoff = ftello(fp);
+  if (fputc('\n', fp)                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "fasta seq write failed");
+
+  buf[60] = '\0';
+  if (save_offsets) sq->doff = ftello(fp);
+  for (pos = 0; pos < sq->n; pos += 60)
+  {
+      if (sq->dsq != NULL) esl_abc_TextizeN(sq->abc, sq->dsq+pos+1, 60, buf);
+      else                 strncpy(buf, sq->seq+pos, 60);
+      if (fprintf(fp, "%s\n", buf) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "fasta seq write failed");
+  }
+  if (save_offsets) sq->eoff = ftello(fp) - 1;
+  return eslOK;
+}
+/*------------------- end of FASTA i/o ---------------------------*/
+
+/*****************************************************************
+ *#  10. Internal routines for DAEMON format
+ *****************************************************************/
+
+/* Special case FASTA format where each sequence is terminated with "//".
+ * 
+ * The use case is where the sequences are being read from a pipe and a
+ * way is needed to signal the end of the sequence so it can be processed.
+ * The next sequence might not be in the pipe, so the usual '>' is not
+ * present to signal the end of the sequence.  Also, an EOF is not
+ * an option, since the daemon might run continuously.
+ */
+
+static void
+config_daemon(ESL_SQFILE *sqfp)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  ascii->is_linebased = FALSE;
+  ascii->eof_is_ok    = FALSE;
+  ascii->parse_header = &header_fasta;
+  ascii->skip_header  = &skip_fasta;
+  ascii->parse_end    = &end_daemon;
+}
+
+static void
+inmap_daemon(ESL_SQFILE *sqfp, const ESL_DSQ *abc_inmap)
+{
+  int x;
+
+  if (abc_inmap != NULL) {
+    for (x = 0; x < 128; x++) sqfp->inmap[x] = abc_inmap[x];
+  } else {
+    for (x =  0;  x < 128;  x++) sqfp->inmap[x] = eslDSQ_ILLEGAL;
+    for (x = 'A'; x <= 'Z'; x++) sqfp->inmap[x] = x;
+    for (x = 'a'; x <= 'z'; x++) sqfp->inmap[x] = x;
+  }
+  sqfp->inmap['*']  = '*';         /* accept * as a nonresidue/stop codon character */
+  sqfp->inmap[' ']  = eslDSQ_IGNORED;
+  sqfp->inmap['\t'] = eslDSQ_IGNORED;
+  sqfp->inmap['\r'] = eslDSQ_IGNORED;/* DOS eol compatibility */
+  sqfp->inmap['\n'] = eslDSQ_EOL;
+  sqfp->inmap['/']  = eslDSQ_EOD;
+  /* \n is special - fasta reader detects it as an eol */
+}
+
+
+/* end_daemon()
+ * 
+ * Special case FASTA format where each sequence is terminated with "//".
+ * 
+ * The use case is were the sequences are being read from a pipe and a
+ * way is needed to signal the end of the sequence so it can be processed.
+ */
+static int 
+end_daemon(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  char  c;
+
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  if (ascii->nc < 3) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Whoops, DAEMON input stream is corrupted");
+
+  c =  ascii->buf[ascii->bpos++];
+  if (c != '/') ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": did not find // terminator at end of seq record", ascii->linenumber);
+
+  c =  ascii->buf[ascii->bpos++];
+  if (c != '/') ESL_FAIL(eslEFORMAT, ascii->errbuf, "Line %" PRId64 ": did not find // terminator at end of seq record", ascii->linenumber);
+
+  /* skip to end of line */
+  while (c != '\n' && c != '\r' && ascii->bpos < ascii->nc) c =  ascii->buf[ascii->bpos++];
+
+  /* skip past end of line */
+  while ((c == '\n' || c == '\r') && ascii->bpos < ascii->nc) c =  ascii->buf[ascii->bpos++];
+
+  return eslOK;
+}
+
+
+/* esl_sqascii_Parse()
+ * 
+ * Parse a sequence already read into a buffer.
+ */
+int
+esl_sqascii_Parse(char *buf, int size, ESL_SQ *sq, int format)
+{
+  int               status;
+  int64_t           epos;
+  int64_t           n;
+
+  ESL_SQFILE        sqfp;
+  ESL_SQASCII_DATA *ascii = &sqfp.data.ascii;
+
+  /* fill in a dummy esl_sqfile structure used to parse buf */
+  ascii->fp           = NULL;
+  ascii->do_gzip      = FALSE;
+  ascii->do_stdin     = FALSE;
+  ascii->do_buffer    = TRUE;
+
+  ascii->mem          = buf;
+  ascii->allocm       = 0;
+  ascii->mn           = size;
+  ascii->mpos         = 0;
+  ascii->moff         = -1;
+  ascii->is_recording = FALSE;
+
+  ascii->buf          = NULL;
+  ascii->boff         = 0;
+  ascii->balloc       = 0;
+  ascii->nc           = 0;
+  ascii->bpos         = 0;
+  ascii->L            = 0;
+  ascii->linenumber   = 1;
+
+  ascii->afp          = NULL;
+  ascii->msa          = NULL;
+  ascii->idx          = -1;
+
+  ascii->ssifile      = NULL;
+  ascii->rpl          = -1;/* -1 = not set yet */
+  ascii->bpl          = -1;/* (ditto) */
+  ascii->prvrpl       = -1;/* (ditto) */
+  ascii->prvbpl       = -1;/* (ditto) */
+  ascii->currpl       = -1;
+  ascii->curbpl       = -1;
+  ascii->ssi          = NULL;
+
+  /* Configure the <sqfp>'s parser and inmaps for this format. */
+  switch (format) {
+  case eslSQFILE_EMBL:     
+  case eslSQFILE_UNIPROT:  
+    config_embl(&sqfp);    
+    inmap_embl(&sqfp, NULL);
+    break;
+  case eslSQFILE_GENBANK:  
+  case eslSQFILE_DDBJ:     
+    config_genbank(&sqfp); 
+    inmap_genbank(&sqfp, NULL);
+    break;
+  case eslSQFILE_FASTA:    
+    config_fasta(&sqfp);   
+    inmap_fasta(&sqfp, NULL);
+    break;
+  case eslSQFILE_DAEMON:    
+    config_daemon(&sqfp);   
+    inmap_daemon(&sqfp, NULL);
+    break;
+  default:
+    return eslEFORMAT; 
+  }
+
+  /* Main case: read next seq from sqfp's stream */
+  if ((status = ascii->parse_header(&sqfp, sq)) != eslOK) return status; /* EOF, EFORMAT */
+
+  do {
+    if ((status = seebuf(&sqfp, -1, &n, &epos)) == eslEFORMAT) return status;
+    if (esl_sq_GrowTo(sq, sq->n + n) != eslOK) return eslEMEM;
+    addbuf(&sqfp, sq, n);
+    ascii->L   += n;
+    sq->eoff   = ascii->boff + epos - 1;
+    if (status == eslEOD)     break;
+  } while ((status = loadbuf(&sqfp)) == eslOK);
+    
+  if      (status == eslEOF)
+    {
+      if (! ascii->eof_is_ok) ESL_FAIL(eslEFORMAT, ascii->errbuf, "Unexpected EOF; file truncated?"); 
+      if ((status = ascii->parse_end(&sqfp, sq)) != eslOK) return status;
+    }
+  else if (status == eslEOD)
+    {
+      ascii->bpos = epos;
+      if ((status = ascii->parse_end(&sqfp, sq)) != eslOK) return status;
+    }
+  else if (status != eslOK) return status;
+
+  if (sq->dsq != NULL) sq->dsq[sq->n+1] = eslDSQ_SENTINEL;
+  else                 sq->seq[sq->n] = '\0';
+  sq->start = 1;
+  sq->end   = sq->n;
+  sq->C     = 0;
+  sq->W     = sq->n;
+  sq->L     = sq->n;
+
+  if (ascii->balloc > 0) free(ascii->buf);
+
+  return eslOK;
+}
+/*-------------------- end of DAEMON ----------------------------*/
+
+/*****************************************************************
+ *# 11. Internal routines for HMMPGMD format
+ *****************************************************************/
+
+static int
+fileheader_hmmpgmd(ESL_SQFILE *sqfp)
+{
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+  char c;
+  int  status = eslOK;
+
+  /* We've just loaded first buffer, after an Open. First char should be the # of the hmmpgmd file,
+   * but let's tolerate leading whitespace anyway
+   */
+  c =  ascii->buf[ascii->bpos];
+  while (status == eslOK && isspace(c)) status = nextchar(sqfp, &c); /* skip space (including \n, \r) */
+  if (status == eslEOF) return eslEOF;
+
+  if (c != '#') ESL_FAIL(eslEFORMAT, ascii->errbuf, "hmmpgmd file expected to start with #");
+
+  /* skip first line; remainder of file is FASTA format */
+  while (status == eslOK && (c != '\n' && c != '\r')) status = nextchar(sqfp, &c); 
+  if (status == eslEOF) return eslEOF;
+
+  /* next character read should be the '>' of the first FASTA record. We're properly positioned at "start of file". */
+  return eslOK;
+}
+/*-------------------- end of HMMPGMD ---------------------------*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_sqio_ascii.c 880 2013-07-08 18:24:38Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sqio_ascii.c $
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ascii.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ascii.h
new file mode 100755
index 0000000..603db97
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ascii.h
@@ -0,0 +1,108 @@
+/* Unaligned ascii sequence file i/o.
+ * 
+ * SVN $Id: esl_sqio_ascii.h 715 2011-08-03 21:04:24Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sqio_ascii.h $
+ */
+#ifndef eslSQIO_ASCII_INCLUDED
+#define eslSQIO_ASCII_INCLUDED
+
+#include <stdio.h>
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#ifdef HAVE_SYS_TYPES_H
+#include <sys/types.h>
+#endif
+#ifdef eslAUGMENT_MSA
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#endif
+
+/* set the max residue count to 1 meg when reading a block */
+#define MAX_RESIDUE_COUNT (1024 * 1024)
+
+/* forward declaration */
+struct esl_sqio_s;
+
+/* ESL_SQASCII:
+ * An open sequence file for reading.
+ */
+typedef struct esl_sqascii_s {
+  
+  FILE *fp;           	      /* Open file ptr                            */
+  char  errbuf[eslERRBUFSIZE];/* parse error mesg.  Size must match msa.h */
+
+  int   do_gzip;	      /* TRUE if we're reading from gzip -dc pipe */
+  int   do_stdin;	      /* TRUE if we're reading from stdin         */
+  int   do_buffer;            /* TRUE if we're reading from a buffer      */
+
+  /* all input first gets buffered in memory; this gives us enough
+   * recall to use Guess*() functions even in nonrewindable streams
+   */
+  char    *mem;		      /* buffered input                           */
+  int      allocm;	      /* <mem> size, multiples of eslREADBUFSIZE  */
+  int      mn;		      /* number of chars in <mem> (up to allocm)  */
+  int      mpos;	      /* pos of next <buf> to load from <mem>     */
+  off_t    moff;	      /* disk offset to start of <mem>            */
+  int      is_recording;      /* TRUE if we need to keep buffering more   */
+
+  /* input is either character-based [fread()] or line-based (esl_fgets())*/
+  char    *buf;		      /* buffer for fread() or fgets() input      */
+  off_t    boff;	      /* disk offset to start of buffer           */
+  int      balloc;	      /* allocated size of buf                    */
+  int      nc;		      /* #chars in buf (usually full, less at EOF)*/ 
+  int      bpos;	      /* current position in the buffer (0..nc-1) */
+  int64_t  L;		      /* #residues seen so far in current seq     */
+  int64_t  linenumber;	      /* What line of the file  (1..N; -1=unknown)*/
+  off_t    bookmark_offset;   /* bookmark fwd position before reversing...*/
+  int64_t  bookmark_linenum;  /* in both linenumber and disk offset       */
+
+  /* Format-specific configuration                                           */
+  int   is_linebased;	      /* TRUE for fgets() parsers; FALSE for fread() */
+  int   eof_is_ok;	      /* TRUE if record can end on EOF               */
+  int  (*parse_header)(struct esl_sqio_s *, ESL_SQ *sq);
+  int  (*skip_header) (struct esl_sqio_s *, ESL_SQ *sq);
+  int  (*parse_end)   (struct esl_sqio_s *, ESL_SQ *sq); 
+
+  /* MSA augmentation confers reading MSA files as sequential seq files. */
+#if defined(eslAUGMENT_MSA)
+  ESLX_MSAFILE *afp;	      /* open ESLX_MSAFILE for reading           */
+  ESL_MSA      *msa;	      /* preloaded alignment to draw seqs from  */
+  int           idx;	      /* index of next seq to return, 0..nseq-1 */
+#else
+  void        *afp; 	      /* NULL */
+  void        *msa;           /* NULL */
+  int          idx;           /* 0    */
+#endif /*eslAUGMENT_MSA*/
+
+  /* SSI augmentation confers random access of records in a seq file        */
+  char    *ssifile;	      /* path to expected SSI index file            */
+  int      rpl;		      /* residues per line in file; -1=unset 0=inval*/
+  int      bpl;		      /* bytes per line in file; -1=unset, 0=inval  */
+  int      currpl;	      /* residues on current line (-1=unknown)      */
+  int      curbpl;	      /* bytes on current line    (-1=unknown)      */
+  int      prvrpl;	      /* residues on previous line                  */
+  int      prvbpl;	      /* bytes on previous line                     */
+#if defined(eslAUGMENT_SSI)
+  ESL_SSI *ssi;		/* open ESL_SSI index, or NULL if none     */
+#else
+  void    *ssi;		/* NULL */
+#endif /*eslAUGMENT_SSI*/
+} ESL_SQASCII_DATA;
+
+
+extern int  esl_sqascii_Open(char *seqfile, int format, struct esl_sqio_s *sqfp);
+extern int  esl_sqascii_WriteFasta(FILE *fp, ESL_SQ *s, int update);
+extern int  esl_sqascii_Parse(char *buf, int size, ESL_SQ *s, int format);
+
+
+#endif /*eslSQIO_ASCII_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ncbi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ncbi.c
new file mode 100755
index 0000000..31618c5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ncbi.c
@@ -0,0 +1,3294 @@
+/* Unaligned ncbi sequence file i/o.
+ * 
+ * Contents:
+ *    1. An <ESL_SQFILE> object, in text mode.
+ *    2. An <ESL_SQFILE> object, in digital mode. [with <alphabet>]
+ *    3. Miscellaneous routines.
+ *    4. Sequence reading (sequential).
+ *    5. Parsing routines
+ *    6. Copyright and license.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#ifdef HAVE_SYS_TYPES_H
+#include <sys/types.h>
+#endif
+
+#ifdef HAVE_ENDIAN_H
+#include <endian.h>
+#endif
+
+#include "easel.h"
+#ifdef eslAUGMENT_ALPHABET
+#include "esl_alphabet.h"	/* alphabet aug adds digital sequences */
+#endif 
+#include "esl_sqio.h"
+#include "esl_sq.h"
+
+#ifndef htobe32
+#ifdef  WORDS_BIGENDIAN
+#define htobe32(x) (x)
+#else
+#define htobe32(x) \
+     ((((x) & 0xff000000) >> 24) | (((x) & 0x00ff0000) >>  8) |		      \
+      (((x) & 0x0000ff00) <<  8) | (((x) & 0x000000ff) << 24))
+#endif
+#endif
+
+/* format specific routines */
+static int   sqncbi_Position       (ESL_SQFILE *sqfp, off_t offset);
+static void  sqncbi_Close          (ESL_SQFILE *sqfp);
+static int   sqncbi_SetDigital     (ESL_SQFILE *sqfp, const ESL_ALPHABET *abc);
+static int   sqncbi_GuessAlphabet  (ESL_SQFILE *sqfp, int *ret_type);
+static int   sqncbi_Read           (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int   sqncbi_ReadInfo       (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int   sqncbi_ReadSequence   (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int   sqncbi_ReadWindow     (ESL_SQFILE *sqfp, int C, int W, ESL_SQ *sq);
+static int   sqncbi_ReadBlock      (ESL_SQFILE *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target);
+static int   sqncbi_Echo           (ESL_SQFILE *sqfp, const ESL_SQ *sq, FILE *ofp);
+
+static int   sqncbi_IsRewindable   (const ESL_SQFILE *sqfp);
+static const char *sqncbi_GetError (const ESL_SQFILE *sqfp);
+
+/* common routines for processing ncbi database */
+static int  sqncbi_Open         (ESL_SQNCBI_DATA *ncbi, char *filename);
+
+static void reset_db            (ESL_SQNCBI_DATA *ncbi);
+static int  pos_sequence        (ESL_SQNCBI_DATA *ncbi, int inx);
+static int  volume_open         (ESL_SQNCBI_DATA *ncbi, int volume);
+static void reset_header_values (ESL_SQNCBI_DATA *ncbi);
+
+static int  read_amino          (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  read_dna            (ESL_SQFILE *sqfp, ESL_SQ *sq);
+static int  read_nres_amino     (ESL_SQFILE *sqfp, ESL_SQ *sq, int len, uint64_t *nres);
+static int  read_nres_dna       (ESL_SQFILE *sqfp, ESL_SQ *sq, int len, uint64_t *nres);
+
+static int  inmap_ncbi          (ESL_SQFILE *sqfp);
+static int  inmap_ncbi_amino    (ESL_SQFILE *sqfp);
+static int  inmap_ncbi_dna      (ESL_SQFILE *sqfp);
+
+/* parsing routines */
+static int  parse_header              (ESL_SQNCBI_DATA *ncbi, ESL_SQ *sq);
+static int  parse_def_line            (ESL_SQNCBI_DATA *ncbi, ESL_SQ *sq);
+static int  parse_seq_id              (ESL_SQNCBI_DATA *ncbi);
+static int  parse_textseq_id          (ESL_SQNCBI_DATA *ncbi);
+static int  parse_object_id           (ESL_SQNCBI_DATA *ncbi);
+static int  parse_dbtag               (ESL_SQNCBI_DATA *ncbi);
+static int  parse_patent_seq_id       (ESL_SQNCBI_DATA *ncbi);
+static int  parse_giimport_id         (ESL_SQNCBI_DATA *ncbi);
+static int  parse_id_pat              (ESL_SQNCBI_DATA *ncbi);
+static int  parse_pdb_seq_id          (ESL_SQNCBI_DATA *ncbi);
+static int  parse_date_std            (ESL_SQNCBI_DATA *ncbi);
+static int  parse_string              (ESL_SQNCBI_DATA *ncbi, char **str, int *len);
+static int  parse_integer             (ESL_SQNCBI_DATA *ncbi, int *value);
+static int  ignore_sequence_of_integer(ESL_SQNCBI_DATA *ncbi);
+
+#define INDEX_TABLE_SIZE      1024
+#define INIT_HDR_BUFFER_SIZE  2048
+
+#define NCBI_VERSION_4             4
+#define NCBI_DNA_DB                0
+#define NCBI_AMINO_DB              1
+
+/*****************************************************************
+ *# 1. An <ESL_SQFILE> object, in text mode.
+ *****************************************************************/ 
+
+/* Function:  esl_sqncbi_Open()
+ * Synopsis:  Open a sequence file for reading.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Open a sequence file <filename> for reading. 
+ *            The opened <ESL_SQFILE> is returned through <ret_sqfp>.
+ * 
+ *            The .pin, .phr and .psq files are required for the
+ *            open function to succeed.  Only ncbi version 4
+ *            databases are currently supported.
+ *            
+ * Returns:   <eslOK> on success, and <*ret_sqfp> points to a new
+ *            open <ESL_SQFILE>. Caller deallocates this object with
+ *            <esl_sqfile_Close()>. 
+ *            
+ *            Returns <eslENOTFOUND> if <filename> can't be found or
+ *            opened.  Returns <eslEFORMAT> if the file is empty, or
+ *            if autodetection is attempted and the format can't be
+ *            determined.  On any error condition, <*ret_sqfp> is
+ *            returned NULL.
+ *             
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+esl_sqncbi_Open(char *filename, int format, ESL_SQFILE *sqfp)
+{
+  int  i;
+  int  status = eslOK;	/* return status from an ESL call */
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  /* before we go any further, make sure we can handle the format */
+  if (format != eslSQFILE_NCBI && format != eslSQFILE_UNKNOWN) return eslENOTFOUND;
+
+  ncbi->fppin        = NULL;
+  ncbi->fpphr        = NULL;
+  ncbi->fppsq        = NULL;
+
+  ncbi->title        = NULL;
+  ncbi->timestamp    = NULL;
+
+  ncbi->index        = -1;
+
+  ncbi->hdr_off      = -1;
+  ncbi->seq_off      = -1;
+  ncbi->amb_off      = -1;
+
+  ncbi->index_start  = -1;
+  ncbi->index_end    = -1;
+  ncbi->hdr_indexes  = NULL;
+  ncbi->seq_indexes  = NULL;
+  ncbi->amb_indexes  = NULL;
+
+  ncbi->hdr_buf      = NULL;
+  reset_header_values(ncbi);
+
+  ncbi->amb_off      = 0;
+
+  ncbi->alphatype    = eslUNKNOWN;
+  ncbi->alphasym     = NULL;
+
+  ncbi->vol_index    = -1;
+  ncbi->volumes      = 0;
+
+  for (i = 0; i < MAX_DB_VOLUMES; ++i) {
+    ncbi->vols[i].name      = NULL;
+    ncbi->vols[i].start_seq = -1;
+    ncbi->vols[i].end_seq   = -1;
+  }
+
+  if ((status = sqncbi_Open(ncbi, filename)) != eslOK) goto ERROR;
+
+  sqfp->format = eslSQFILE_NCBI;
+  if ((status = inmap_ncbi(sqfp)) != eslOK) goto ERROR;
+
+  /* initialize the function pointers for the ncbi routines */
+  sqfp->position          = &sqncbi_Position;
+  sqfp->close             = &sqncbi_Close;
+
+  sqfp->set_digital       = &sqncbi_SetDigital;
+  sqfp->guess_alphabet    = &sqncbi_GuessAlphabet;
+
+  sqfp->is_rewindable     = &sqncbi_IsRewindable;
+
+  sqfp->read              = &sqncbi_Read;
+  sqfp->read_info         = &sqncbi_ReadInfo;
+  sqfp->read_seq          = &sqncbi_ReadSequence;
+  sqfp->read_window       = &sqncbi_ReadWindow;
+  sqfp->echo              = &sqncbi_Echo;
+
+  sqfp->read_block        = &sqncbi_ReadBlock;
+
+  sqfp->get_error         = &sqncbi_GetError;
+
+  return eslOK;
+
+ ERROR:
+  sqncbi_Close(sqfp); 
+  return status;
+}
+
+/* sqncbi_ParseIndexFile()
+ *
+ * Parse an open index file verifying database type and version
+ * if handled.  Read in the entries, i.e. name, number of sequences,
+ * etc.  Keep track of the offsets where the header and sequence
+ * tables begin.
+ */
+static int
+sqncbi_ParseIndexFile(ESL_SQNCBI_DATA *ncbi, int dbtype)
+{
+  int         len;
+  uint32_t    info[4];
+  int         status = eslOK;	/* return status from an ESL call */
+
+  if (fread(&info[0], sizeof(uint32_t), 3, ncbi->fppin) != 3) status = eslFAIL;
+  if (htobe32(info[0]) != NCBI_VERSION_4)                     status = eslEFORMAT;
+  if (htobe32(info[1]) != dbtype)                             status = eslEUNIMPLEMENTED;
+
+  if (status != eslOK) goto ERROR;
+  ncbi->version = htobe32(info[0]);
+  ncbi->alphatype = (dbtype == NCBI_DNA_DB) ? eslDNA : eslAMINO;
+  ncbi->index = -1;
+
+  /* read the database title */
+  len = htobe32(info[2]);
+  ESL_ALLOC(ncbi->title, sizeof(char) * (len + 1));
+  if (fread(ncbi->title, sizeof(char), len, ncbi->fppin) != len) { status = eslFAIL; goto ERROR; }
+  ncbi->title[len] = 0;
+
+  /* read the database time stamp */
+  if (fread(&info[0], sizeof(uint32_t), 1, ncbi->fppin) != 1) { status = eslFAIL; goto ERROR; }
+  len = htobe32(info[0]);
+  ESL_ALLOC(ncbi->timestamp, sizeof(char) * (len + 1));
+  if (fread(ncbi->timestamp, sizeof(char), len, ncbi->fppin) != len) { status = eslFAIL; goto ERROR; }
+  ncbi->timestamp[len] = 0;
+
+  /* read in database stats */
+  if (fread(&info[0], sizeof(uint32_t), 4, ncbi->fppin) != 4) { status = eslFAIL; goto ERROR; }
+  ncbi->num_seq   = htobe32(info[0]);
+  ncbi->total_res = *(uint64_t *)(info+1);
+  ncbi->max_seq   = htobe32(info[3]);
+
+  /* save the offsets to the index tables */
+  ncbi->hdr_off = ftell(ncbi->fppin);
+  ncbi->seq_off = ncbi->hdr_off + sizeof(uint32_t) * (ncbi->num_seq + 1);
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* sqncbi_DbOpen()
+ *
+ * Try to open the database files.  On successful opening of
+ * the files, index, header and sequence, the index file is
+ * parsed for validity.
+ */
+static int
+sqncbi_DbOpen(ESL_SQNCBI_DATA *ncbi, char *filename, int dbtype)
+{
+  int         status = eslOK;	/* return status from an ESL call */
+  int         len;
+
+  char       *name = NULL;
+
+  len = strlen(filename);
+  ESL_ALLOC(name, sizeof(char) * (len+5));
+  strcpy(name, filename);
+
+  /* Check for basic database first */
+  strcpy(name+len, ".Xin");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((ncbi->fppin = fopen(name, "rb")) == NULL) {
+    status = eslENOTFOUND; 
+    goto ERROR;
+  }
+  strcpy(name+len, ".Xhr");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((ncbi->fpphr = fopen(name, "rb")) == NULL) {
+    status = eslENOTFOUND; 
+    goto ERROR;
+  }
+  strcpy(name+len, ".Xsq");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((ncbi->fppsq = fopen(name, "rb")) == NULL) {
+    status = eslENOTFOUND; 
+    goto ERROR;
+  }
+
+  /* parse the header make sure we are looking at a version 4 db. */
+  if ((status = sqncbi_ParseIndexFile(ncbi, dbtype)) != eslOK) goto ERROR;
+
+  if (name != NULL) free(name);
+
+  return eslOK;
+
+ ERROR:
+
+  reset_db(ncbi);
+
+  if (name != NULL) free(name);
+  return status;
+}
+
+
+/* sqncbi_AliasOpen()
+ *
+ * Opens an alias file parsing the DBLIST directive building
+ * a list of all the volumes makeing up this database.  As each
+ * volume is successfully parsed, the name of the volume, number
+ * of sequences and offsets are kept for quick reference.
+ */
+static int
+sqncbi_AliasOpen(ESL_SQNCBI_DATA *ncbi, char *filename, int dbtype)
+{
+  int         status    = eslOK;	/* return status from an ESL call */
+  int         newline   = 1;
+  int         seqcnt    = 0;
+  int         rescnt    = 0;
+  int         done      = 0;
+  int         vol;
+  int         len;
+
+  char       *ptr       = NULL;
+  char       *name      = NULL;
+  char        buffer[80];
+
+  char       *dbptr     = NULL;
+  char       *dbname    = NULL;
+  int         dbsize    = 512;
+  int         dblen     = 0;
+
+  FILE       *fp        = NULL;
+
+  len = strlen(filename);
+  ESL_ALLOC(name, sizeof(char) * (len+5));
+  strcpy(name, filename);
+
+  /* Check for alias file */
+  strcpy(name+len, ".Xal");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((fp = fopen(name, "r")) == NULL) {
+    status = eslENOTFOUND; 
+    goto ERROR;
+  }
+
+  /* copy the filename */
+  dbsize = (dbsize > len) ? dbsize : len * 2;
+  ESL_ALLOC(dbname, sizeof(char) * dbsize);
+  strcpy(dbname, filename);
+
+  /* remove the filename keeping the path */
+  while (len > 0 && dbname[len-1] != eslDIRSLASH) {
+    dbname[len-1] = '\0';
+    --len;
+  }
+
+  /* find the DBLIST directive */
+  while (!done) {
+    ptr = buffer;
+    if (fgets(buffer, sizeof(buffer), fp) == NULL) {
+      status = eslEFORMAT;
+      goto ERROR;
+    }
+
+    if (newline) {
+      if (strncmp(buffer, "DBLIST", 6) == 0 && isspace(buffer[6])) {
+	done = 1;
+	ptr = buffer + 6;
+      }
+    }
+
+    /* skip to the end of the line */
+    if (!done) {
+      newline = 0;
+      while (*ptr != '\0') {
+	if (*ptr == '\n') newline = 1;
+	++ptr;
+      }
+    }
+  }
+
+  /* parse the DBLIST line */
+  done = 0;
+  dblen = len;
+  while (!done) {
+
+    /* check if we hit the end of the buffer */
+    if (*ptr == '\0') {
+      ptr = buffer;
+      if (fgets(buffer, sizeof(buffer), fp) == NULL) {
+	status = eslEFORMAT;
+	goto ERROR;
+      }
+    }
+
+    /* skip spaces */
+    if (isspace(*ptr)) {
+      if (dblen > len) {
+	dbname[dblen++] = '\0';
+
+	/* if the name in the DBLIST directive was ablsolute, do not
+	 * use the working directory as a prefix.
+	 */
+	if (dbname[len] == eslDIRSLASH) {
+	  dbptr = dbname + len;
+	} else {
+	  dbptr = dbname;
+	}
+
+	status = sqncbi_DbOpen(ncbi, dbptr, dbtype);
+	if (status != eslOK) goto ERROR;
+
+	/* close any open files and free up allocations */
+	reset_db(ncbi);
+
+	/* if successful, copy the db information */
+	vol = ncbi->volumes++;
+
+	/* allocate the name of the string big enought so the buffer can
+	 * handle an extension, i.e. ".pin" or ".nsq" tacked on to the end
+	 * of it without reallocating.
+	 */
+	ncbi->vols[vol].name = NULL;
+	ESL_ALLOC(ncbi->vols[vol].name, sizeof(char) * strlen(dbptr) + 5);
+	strcpy(ncbi->vols[vol].name, dbptr);
+
+	ncbi->vols[vol].start_seq = seqcnt;
+	ncbi->vols[vol].end_seq   = seqcnt + ncbi->num_seq - 1;
+
+	ncbi->vols[vol].hdr_off = ncbi->hdr_off;
+	ncbi->vols[vol].seq_off = ncbi->seq_off;
+	ncbi->vols[vol].amb_off = ncbi->amb_off;
+
+	seqcnt += ncbi->num_seq;
+	rescnt += ncbi->total_res;
+
+	dblen = len;
+      }
+
+      done = *ptr == '\n' || *ptr == '\r';
+
+      ptr++;
+    } else {
+      dbname[dblen++] = *ptr++;
+      if (dblen >= dbsize - 1) {
+	char *t;
+	dbsize += dbsize;
+	ESL_RALLOC(dbname, t, dbsize);
+      }
+    }
+  }
+
+  /* reopen the first volume for processing */
+  if ((status = volume_open(ncbi, 0)) != eslOK) goto ERROR;
+  
+  ncbi->num_seq = seqcnt;
+  ncbi->total_res = rescnt;
+
+  if (name   != NULL) free(name);
+  if (dbname != NULL) free(dbname);
+
+  if (fp != NULL) fclose(fp);
+
+  return eslOK;
+
+ ERROR:
+
+  reset_db(ncbi);
+
+  if (fp != NULL) fclose(fp);
+
+  if (dbname != NULL) free(dbname);
+  if (name   != NULL) free(name);
+
+  return status;
+}
+
+
+/* Function:  sqncbi_Open()
+ * Synopsis:  Open an ncbi database.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Open an ncbi database making sure all the necessry
+ *            files are present.  Parse the index file for database 
+ *            information filling in the ncbi data structure.
+ * 
+ * Returns:   <eslOK> on success, and the ncbi data structre is filled
+ *            in with the database information.
+ *            
+ *            Returns <eslENOTFOUND> if <filename> can't be found or
+ *            opened.  Returns <eslEFORMAT> if the index file is an
+ *            upsupported version.
+ *             
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+static int
+sqncbi_Open(ESL_SQNCBI_DATA *ncbi, char *filename)
+{
+  int    status  = eslOK;	/* return status from an ESL call */
+  char  *name    = NULL;
+
+  /* first try to open a single protein database */
+  status = sqncbi_DbOpen(ncbi, filename, NCBI_AMINO_DB);
+
+  /* if the database was not found, look for protein volume */
+  if (status == eslENOTFOUND) {
+    status = sqncbi_AliasOpen(ncbi, filename, NCBI_AMINO_DB);
+  }
+
+  /* if nothing so far, try a dna database */
+  if (status == eslENOTFOUND) {
+    status = sqncbi_DbOpen(ncbi, filename, NCBI_DNA_DB);
+  }
+
+  /* still nothing, look for dna volume */
+  if (status == eslENOTFOUND) {
+    status = sqncbi_AliasOpen(ncbi, filename, NCBI_DNA_DB);
+  }
+
+  if (status != eslOK) goto ERROR;
+
+  /* allocate buffers used in parsing the database files */
+  ESL_ALLOC(ncbi->hdr_indexes, sizeof(uint32_t) * INDEX_TABLE_SIZE);
+  ESL_ALLOC(ncbi->seq_indexes, sizeof(uint32_t) * INDEX_TABLE_SIZE);
+
+  /* if this is a dna database we need to allocate space for the
+   * ambiguity offsets.
+   */
+  if (ncbi->alphatype == eslDNA) {
+    ncbi->amb_off = ncbi->seq_off + sizeof(uint32_t) * (ncbi->num_seq + 1);
+    ESL_ALLOC(ncbi->amb_indexes, sizeof(uint32_t) * INDEX_TABLE_SIZE);
+  }
+
+  ncbi->hdr_alloced = INIT_HDR_BUFFER_SIZE;
+  ESL_ALLOC(ncbi->hdr_buf, sizeof(char) * INIT_HDR_BUFFER_SIZE);
+
+  /* skip the first sentinal byte in the .psq file */
+  fgetc(ncbi->fppsq);
+
+  if (name != NULL) free(name);
+  return eslOK;
+
+ ERROR:
+  if (name != NULL) free(name);
+  return status;
+}
+
+
+/* Function:  sqncbi_Position()
+ * Synopsis:  Reposition an open sequence file to an offset.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Reposition an open <sqfp> to offset <offset>.
+ *            <offset> for the ncbi db format specified the sequence
+ *            index, not file offset.  Both the sequence and header
+ *            files are repositioned.
+ *            
+ * Returns:   <eslOK>     on success;
+ *
+ * Throws:    <eslESYS> if the fseeko() or fread() call fails.
+ *            On errors, the state of <sqfp> is indeterminate, and
+ *            it should not be used again.
+ */
+static int
+sqncbi_Position(ESL_SQFILE *sqfp, off_t offset)
+{
+  int      status;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  status = pos_sequence(ncbi, offset);
+  return status;
+}
+
+/* Function:  sqncbi_Close()
+ * Synopsis:  Close a sequence file.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Closes an open <sqfp>.
+ *
+ * Returns:   (void).
+ */
+static void
+sqncbi_Close(ESL_SQFILE *sqfp)
+{
+  int i;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if (ncbi->title != NULL)       free(ncbi->title);
+  if (ncbi->timestamp != NULL)   free(ncbi->timestamp);
+
+  if (ncbi->hdr_buf != NULL)     free(ncbi->hdr_buf);
+
+  if (ncbi->hdr_indexes != NULL) free(ncbi->hdr_indexes);
+  if (ncbi->seq_indexes != NULL) free(ncbi->seq_indexes);
+  if (ncbi->amb_indexes != NULL) free(ncbi->amb_indexes);
+
+  if (ncbi->alphasym != NULL)    free(ncbi->alphasym);
+
+  if (ncbi->fppin != NULL) fclose(ncbi->fppin);
+  if (ncbi->fpphr != NULL) fclose(ncbi->fpphr);
+  if (ncbi->fppsq != NULL) fclose(ncbi->fppsq);
+
+  ncbi->vol_index    = -1;
+  ncbi->volumes      = 0;
+
+  for (i = 0; i < MAX_DB_VOLUMES; ++i) {
+    if (ncbi->vols[i].name != NULL) free(ncbi->vols[i].name);
+
+    ncbi->vols[i].name      = NULL;
+    ncbi->vols[i].start_seq = -1;
+    ncbi->vols[i].end_seq   = -1;
+  }
+
+  ncbi->fppin        = NULL;
+  ncbi->fpphr        = NULL;
+  ncbi->fppsq        = NULL;
+
+  ncbi->title        = NULL;
+  ncbi->timestamp    = NULL;
+
+  ncbi->index        = -1;
+
+  ncbi->hdr_off      = -1;
+  ncbi->seq_off      = -1;
+  ncbi->amb_off      = -1;
+
+  ncbi->index_start  = -1;
+  ncbi->index_end    = -1;
+  ncbi->hdr_indexes  = NULL;
+  ncbi->seq_indexes  = NULL;
+  ncbi->amb_indexes  = NULL;
+
+  ncbi->hdr_buf      = NULL;
+
+  ncbi->alphatype    = eslUNKNOWN;
+  ncbi->alphasym     = NULL;
+
+  return;
+}
+/*------------------- SQNCBI open/close -----------------------*/
+
+
+/*****************************************************************
+ *# 2. An <ESL_SQFILE> object, in digital mode [with <alphabet>]
+ *****************************************************************/
+#ifdef eslAUGMENT_ALPHABET
+
+/* Function:  sqncbi_SetDigital()
+ * Synopsis:  Set an open <ESL_SQFILE> to read in digital mode.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Given an <ESL_SQFILE> that's already been opened,
+ *            configure it to expect subsequent input to conform
+ *            to the digital alphabet <abc>.
+ *            
+ *            Calling <esl_sqfile_Open(); esl_sqfile_SetDigital()> is
+ *            equivalent to <esl_sqfile_OpenDigital()>. The two-step
+ *            version is useful when you need a
+ *            <esl_sqfile_GuessAlphabet()> call in between, guessing
+ *            the file's alphabet in text mode before you set it to
+ *            digital mode.
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+sqncbi_SetDigital(ESL_SQFILE *sqfp, const ESL_ALPHABET *abc)
+{
+  return eslOK;
+}
+
+/* Function:  sqncbi_GuessAlphabet()
+ * Synopsis:  Guess the alphabet of an open <ESL_SQFILE>.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   The only ncbi db format supported is protein.
+ *
+ * Returns:   <eslOK> on success, and <*ret_type> is set to <eslAMINO>.
+ */
+static int
+sqncbi_GuessAlphabet(ESL_SQFILE *sqfp, int *ret_type)
+{
+  *ret_type = sqfp->data.ncbi.alphatype;
+  return eslOK;
+}
+#endif /*eslAUGMENT_ALPHABET*/
+/*-------------- end, digital mode SQNCBI -------------------*/
+
+
+
+
+/*****************************************************************
+ *# 3. Miscellaneous routines 
+ *****************************************************************/ 
+
+/* Function:  sqncbi_IsRewindable()
+ * Synopsis:  Return <TRUE> if <sqfp> can be rewound.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Returns <TRUE> if <sqfp> can be rewound (positioned 
+ *            to an offset of zero), in order to read it a second
+ *            time.
+ */
+static int
+sqncbi_IsRewindable(const ESL_SQFILE *sqfp)
+{
+  return TRUE;
+}
+
+/* Function:  sqncbi_GetError()
+ * Synopsis:  Returns error buffer
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Return a pointer to the error buffer.
+ */
+static const char *
+sqncbi_GetError(const ESL_SQFILE *sqfp)
+{
+  return sqfp->data.ncbi.errbuf;
+}
+
+
+/*****************************************************************
+ *# 4. Sequence reading (sequential)
+ *****************************************************************/ 
+
+/* Function:  sqncbi_Read()
+ * Synopsis:  Read the next sequence from a file.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Reads the next sequence from open sequence file <sqfp> into 
+ *            <sq>. Caller provides an allocated and initialized <s>, which
+ *            will be internally reallocated if its space is insufficient.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <s>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character; the line number that the parse
+ *            error occurs on is in <sqfp->linenumber>, and an informative
+ *            error message is placed in <sqfp->errbuf>. 
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+static int
+sqncbi_Read(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int  index;
+  int  status;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  index = ncbi->index + 1;
+  if (index >= ncbi->num_seq) return eslEOF;
+
+  if ((status = pos_sequence(ncbi, index)) != eslOK) return status;
+
+  /* Disk offset bookkeeping */
+  sq->idx  = ncbi->index;
+  sq->roff = ncbi->roff;
+  sq->doff = ncbi->doff;
+  sq->hoff = ncbi->hoff;
+  sq->eoff = ncbi->eoff;
+
+  if (ncbi->alphatype == eslAMINO) 
+    status = read_amino(sqfp, sq);
+  else                             
+    status = read_dna(sqfp, sq);
+  if (status != eslOK) return status;
+
+  /* read and parse the ncbi header */
+  if ((status = parse_header(ncbi, sq)) != eslOK) return status;
+
+  return eslOK;
+}
+
+
+/* Function:  sqncbi_ReadInfo()
+ * Synopsis:  Read sequence info, but not the sequence itself.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Read the next sequence from open sequence file <sqfp>,
+ *            but don't store the sequence (or secondary structure).
+ *            Upon successful return, <s> holds all the available 
+ *            information about the sequence -- its name, accession,
+ *            description, and overall length <sq->L>. 
+ *            
+ *            This is useful for indexing sequence files, where
+ *            individual sequences might be ginormous, and we'd rather
+ *            avoid reading complete seqs into memory.
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+sqncbi_ReadInfo(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int   index;
+  int   status;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  index = ncbi->index + 1;
+  if (index >= ncbi->num_seq) return eslEOF;
+
+  if ((status = pos_sequence(ncbi, index)) != eslOK) return status;
+
+  /* Disk offset bookkeeping */
+  sq->idx  = ncbi->index;
+  sq->roff = ncbi->roff;
+  sq->doff = ncbi->doff;
+  sq->hoff = ncbi->hoff;
+  sq->eoff = ncbi->eoff;
+
+  /* figure out the sequence length */
+  sq->L = -1;
+
+  /* read and parse the ncbi header */
+  if ((status = parse_header(ncbi, sq)) != eslOK) return status;
+
+  return eslOK;
+}
+
+
+/* Function:  sqncbi_ReadSequence()
+ * Synopsis:  Read the sequence, not the sequence header.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Read the next sequence from open sequence file <sqfp>,
+ *            but not the header information.  Upon successful return,
+ *            <s> holds all the sequence.
+ *            
+ *            This is useful reading binary formats and delaying the
+ *            over heads of reading the sequence name until needed by
+ *            the report generator.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <s>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ */
+static int
+sqncbi_ReadSequence(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int    index;
+  int    status;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  index = ncbi->index + 1;
+  if (index >= ncbi->num_seq) return eslEOF;
+
+  if ((status = pos_sequence(ncbi, index)) != eslOK) return status;
+
+  /* Disk offset bookkeeping */
+  sq->idx  = ncbi->index;
+  sq->roff = ncbi->roff;
+  sq->doff = ncbi->doff;
+  sq->hoff = ncbi->hoff;
+  sq->eoff = ncbi->eoff;
+
+  reset_header_values(ncbi);
+
+  if (ncbi->alphatype == eslAMINO) 
+    status = read_amino(sqfp, sq);
+  else                             
+    status = read_dna(sqfp, sq);
+  if (status != eslOK) return status;
+
+  return eslOK;
+}
+
+
+/* Function:  sqncbi_ReadWindow()
+ * Synopsis:  Read next window of sequence.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Read a next window of <W> residues from open file <sqfp>,
+ *            keeping <C> residues from the previous window as
+ *            context, and keeping previous annotation in the <sq>
+ *            as before. 
+ *            
+ *            If this is the first window of a new sequence record,
+ *            <C> is ignored (there's no previous context yet), and
+ *            the annotation fields of the <sq> (name, accession, and
+ *            description) are initialized by reading the sequence
+ *            record's header. This is the only time the annotation
+ *            fields are initialized.
+ *            
+ *            On return, <sq->dsq[]> contains the window and its
+ *            context; residues <1..sq->C> are the previous context,
+ *            and residues <sq->C+1..sq->n> are the new window.  The
+ *            start and end coordinates of the whole <dsq[1..n]>
+ *            (including context) in the original source sequence are
+ *            <sq->start..sq->end>. (Or, for text mode sequences,
+ *            <sq->seq[0..sq->C-1,sq->C..sq->n-1]>, while <start> and
+ *            <end> coords are still <1..L>.)
+ *
+ *            When a sequence record is completed and no more data
+ *            remain, <eslEOD> is returned, with an ``info'' <sq>
+ *            structure (containing the annotation and the total
+ *            sequence length <L>, but no sequence). (The total
+ *            sequence length <L> is unknown in <sq> until this
+ *            <eslEOD> return.)
+ *            
+ *            The caller may then do one of two things before calling
+ *            <esl_sq_ReadWindow()> again; it can reset the sequence
+ *            with <esl_sq_Reuse()> to continue reading the next
+ *            sequence in the file, or it can set a negative <W> as a
+ *            signal to read windows from the reverse complement
+ *            (Crick) strand. Reverse complement reading only works
+ *            for nucleic acid sequence. 
+ *            
+ *            If you read the reverse complement strand, you must read
+ *            the whole thing, calling <esl_sqio_ReadWindow()> with
+ *            negative <W> windows until <eslEOD> is returned again
+ *            with an empty (info-only) <sq> structure. When that
+ *            <EOD> is reached, the <sqfp> is repositioned at the
+ *            start of the next sequence record; the caller should now
+ *            <Reuse()> the <sq>, and the next <esl_sqio_ReadWindow()>
+ *            call must have a positive <W>, corresponding to starting
+ *            to read the Watson strand of the next sequence.
+ *
+ *            Note that the <ReadWindow()> interface is designed for
+ *            an idiom of sequential reading of complete sequences in
+ *            overlapping windows, possibly on both strands; if you
+ *            want more freedom to move around in the sequence
+ *            grabbing windows in another order, you can use the
+ *            <FetchSubseq()> interface.
+ *
+ *            Reading the reverse complement strand requires file
+ *            repositioning, so it will not work on non-repositionable
+ *            streams like gzipped files or a stdin pipe. Moreover,
+ *            for reverse complement input to be efficient, the
+ *            sequence file should have consistent line lengths, 
+ *            suitable for SSI's fast subsequence indexing.
+ *            
+ * Returns:   <eslOK> on success; <sq> now contains next window of
+ *            sequence, with at least 1 new residue. The number
+ *            of new residues is <sq->W>; <sq->C> residues are 
+ *            saved from the previous window. Caller may now
+ *            process residues <sq->dsq[sq->C+1]..sq->dsq[sq->n]>.
+ *            
+ *            <eslEOD> if no new residues were read for this sequence
+ *            and strand, and <sq> now contains an empty info-only
+ *            structure (annotation and <L> are valid). Before calling
+ *            <esl_sqio_ReadWindow()> again, caller will either want
+ *            to make <W> negative (to start reading the Crick strand
+ *            of the current sequence), or it will want to reset the
+ *            <sq> (with <esl_sq_Reuse()>) to go on the next sequence.
+ *            
+ *            <eslEOF> if we've already returned <eslEOD> before to
+ *            signal the end of the previous seq record, and moreover,
+ *            there's no more sequence records in the file.
+ *            
+ *            <eslEINVAL> if an invalid residue is found in the
+ *            sequence, or if you attempt to take the reverse
+ *            complement of a sequence that can't be reverse
+ *            complemented.
+ *
+ * Throws:    <eslESYNTAX> if you try to read a reverse window before
+ *            you've read forward strand.
+ *            
+ *            <eslECORRUPT> if something goes awry internally in the
+ *            coordinate system.
+ *            
+ *            <eslEMEM> on allocation error.
+ */
+static int
+sqncbi_ReadWindow(ESL_SQFILE *sqfp, int C, int W, ESL_SQ *sq)
+{
+  uint64_t  nres;
+
+  int       index;
+  int       status;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  /* Negative W indicates reverse complement direction */
+  if (W < 0)	
+  {
+    if (sq->L == -1) ESL_EXCEPTION(eslESYNTAX, "Can't read reverse complement until you've read forward strand");
+
+    /* update the sequence index */
+    if ((status = sqncbi_Position(sqfp, sq->idx)) != eslOK)
+      ESL_FAIL(eslEINVAL, ncbi->errbuf, "Unexpected error positioning database to sequence %" PRId64, sq->idx);
+
+    if (sq->end == 1)
+    { /* last end == 1 means last window was the final one on reverse strand,
+       * so we're EOD; jump back to last forward position.
+       */
+        sq->start      = 0;
+        sq->end        = 0;
+        sq->C          = 0;
+        sq->W          = 0;
+        sq->n          = 0;
+        /* sq->L stays as it is */
+        if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL;
+        else                 sq->seq[0] = '\0';
+
+        return eslEOD;
+    }
+
+    /* If s == 0, we haven't read any reverse windows yet;
+     * init reading from sq->L
+     */
+    W = -W;
+    if (sq->start == 0)
+    {
+      sq->start        = ESL_MAX(1, (sq->L - W + 1));
+      sq->end          = sq->start;
+      sq->C            = 0;
+    }
+    else
+    { /* Else, we're continuing to next window; prv was <end>..<start> */
+      sq->C     = ESL_MIN(C, sq->L - sq->end + 1);  /* based on prev window's end */
+      sq->start = ESL_MAX(1, (sq->end - W));
+      W         = sq->end - sq->start + sq->C;
+      sq->end   = sq->start;
+    }
+
+    /* grab the subseq and rev comp it */
+    if ((status = esl_sq_GrowTo(sq, W)) != eslOK) return status;
+    sq->n = 0;
+    if (ncbi->alphatype == eslAMINO) status = read_nres_amino(sqfp, sq, W, &nres);
+    else                             status = read_nres_dna(sqfp, sq, W, &nres);
+      
+    if (status != eslOK || nres != W) {
+      ESL_EXCEPTION(eslECORRUPT, "Failed to extract %d..%d", sq->start, sq->end);
+    } else {
+      sq->end        = sq->start + nres - 1;
+      sq->W          = nres - sq->C;
+    }
+
+    status = esl_sq_ReverseComplement(sq);
+    if      (status    == eslEINVAL) ESL_FAIL(eslEINVAL, ncbi->errbuf, "can't reverse complement that seq - it's not DNA/RNA");
+    else if (status    != eslOK)     return status;
+
+    return eslOK;
+  }
+
+  /* Else, we're reading the forward strand */
+  else 
+  { /* sq->start == 0 means we haven't read any windows on this sequence yet...
+       * it's a new record, and we need to initialize with the header and
+       * the first window. This is the only case that we're allowed to return
+       * EOF from.
+       */
+    if (sq->start == 0)
+    {
+      index = ncbi->index + 1;
+      if (index >= ncbi->num_seq) return eslEOF;
+
+      /* get the sequence and header offsets */
+      if ((status = pos_sequence(ncbi, index)) != eslOK) return status;
+
+      /* Disk offset bookkeeping */
+      sq->idx  = ncbi->index;
+      sq->roff = ncbi->roff;
+      sq->doff = ncbi->doff;
+      sq->hoff = ncbi->hoff;
+      sq->eoff = ncbi->eoff;
+
+      ncbi->seq_cpos = -1;
+      ncbi->seq_L    = -1;
+
+      /* read and parse the ncbi header */
+      if ((status = parse_header(ncbi, sq)) != eslOK) return status;
+
+      sq->start    = 1;
+      sq->C        = 0;	/* no context in first window                   */
+      sq->L        = -1;	/* won't be known 'til EOD.                     */
+      ncbi->seq_L  = -1;	/* init to 0, so we can count residues as we go */
+      esl_sq_SetSource(sq, sq->name);
+    }
+    else
+    { /* else we're reading a window other than first; slide context over. */
+      sq->C = ESL_MIN(C, sq->n);
+
+      /* if the case where the window is smaller than the context and the
+       * context is not full, it is not necessary to move the context part
+       * of the sequence that has been read in.
+       */
+      if (sq->C >= C) {
+        if (sq->seq != NULL) memmove(sq->seq,   sq->seq + sq->n - sq->C,     sq->C);
+        else                 memmove(sq->dsq+1, sq->dsq + sq->n - sq->C + 1, sq->C);
+        sq->start = sq->end - sq->C + 1;
+        sq->n = C;
+      }
+    }
+
+    if ((status = esl_sq_GrowTo(sq, C+W)) != eslOK)                return status; /* EMEM    */
+    if (ncbi->alphatype == eslAMINO) status = read_nres_amino(sqfp, sq, W, &nres);
+    else                             status = read_nres_dna(sqfp, sq, W, &nres);
+
+    if (status == eslEOD)
+    {
+      sq->start  = 0;
+      sq->end    = 0;
+      sq->C      = 0;
+      sq->W      = 0;
+      sq->n      = 0;
+
+      if (sq->dsq != NULL) sq->dsq[1] = eslDSQ_SENTINEL; /* erase the saved context */
+      else                 sq->seq[0] = '\0';
+
+      return eslEOD;
+    }
+    else if (status == eslOK)
+    { /* Forward strand is still in progress. <= W residues were read. Return eslOK. */
+      sq->end        = sq->start + sq->C + nres - 1;
+      sq->W          = nres;
+      return eslOK;
+    }
+    else return status;	/* EFORMAT,EMEM */
+  }
+  /*NOTREACHED*/
+  return eslOK;
+}
+
+/* Function:  sqncbi_ReadBlock()
+ * Synopsis:  Read the next block of sequences from a file.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Reads a block of sequences from open sequence file <sqfp> into 
+ *            <sqBlock>.
+ *
+ *            In the case that <long_target> is false, the sequences are
+ *            expected to be protein - individual sequences won't be long
+ *            so read them in one-whole-sequence at a time. If <max_sequences>
+ *            is set to a number > 0 read <max_sequences> sequences.
+ *
+ *            If <long_target> is true, the sequences are expected to be DNA.
+ *            Because sequences in a DNA database can exceed MAX_RESIDUE_COUNT,
+ *            this function uses ReadWindow to read chunks of sequence no
+ *            larger than <max_residues>, and must allow for the possibility that
+ *            a request will be made to continue reading a partly-read
+ *            sequence.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <sqBlock>.
+ * 
+ *            Returns <eslEOF> when there is no sequence left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character;
+ *
+ * Throws:    <eslEMEM> on allocation failure;
+ *            <eslEINCONCEIVABLE> on internal error.
+ */
+static int
+sqncbi_ReadBlock(ESL_SQFILE *sqfp, ESL_SQ_BLOCK *sqBlock, int max_residues, int max_sequences, int long_target)
+{
+	  int     i = 0;
+	  int     size = 0;
+	  int     status = eslOK;
+	  ESL_SQ *tmpsq;
+
+	  sqBlock->count = 0;
+
+	  if ( !long_target  )
+	  {  /* in these cases, an individual sequence won't ever be really long,
+			     so just read in a sequence at a time  */
+
+	    if (max_sequences < 1 || max_sequences > sqBlock->listSize)
+	      max_sequences = sqBlock->listSize;
+
+		  for (i = 0; i < max_sequences && size < MAX_RESIDUE_COUNT; ++i)
+		  {
+			  status = sqncbi_Read(sqfp, sqBlock->list + i);
+			  if (status != eslOK) break;
+			  size += sqBlock->list[i].n;
+			  ++sqBlock->count;
+		  }
+	  }
+	  else
+	  { /* DNA, not an alignment.  Might be really long sequences */
+
+		  /*this variable is used instead of the MAX_RESIDUE_COUNT macro because impl_dummy may require shorter sequences to fit in memory*/
+		  if (max_residues < 0)
+		    max_residues = MAX_RESIDUE_COUNT;
+
+		  tmpsq = esl_sq_Create();
+
+		  //if complete flag set to FALSE, then the prior block must have ended with a window that was a possibly
+		  //incomplete part of it's full sequence. Read another overlaping window.
+		  if (! sqBlock->complete )
+		  {
+			  //overloading C as indicator of how big C should be for this window reading action
+			  status = sqncbi_ReadWindow(sqfp, sqBlock->list->C, max_residues, sqBlock->list);
+			  if (status == eslOK)
+			  {
+				  sqBlock->count = i = 1;
+				  size = sqBlock->list->n;
+				  sqBlock->list[i].L = sqfp->data.ncbi.seq_L;
+				  if (sqBlock->list->n >= max_residues)
+				  { // Filled the block with a single very long window.
+
+				    if ( sqBlock->list->n == sqfp->data.ncbi.seq_L) {
+				      sqBlock->complete = TRUE;
+				      esl_sq_Reuse(tmpsq);
+				      tmpsq->start =  sqBlock->list->start ;
+				      tmpsq->C = 0;
+				      status = sqncbi_ReadWindow(sqfp, 0, max_residues, tmpsq); // burn off the EOD
+              if (status == eslEOD) // otherwise, the unexpected status will be returned
+                status = eslOK;
+
+				    } else {
+				      sqBlock->complete = FALSE;
+				    }
+
+	          if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+	          return status;
+
+				  }
+				  else
+				  {
+					  // Burn off EOD (see notes for similar entry ~25 lines below), then go fetch the next sequence
+					  esl_sq_Reuse(tmpsq);
+					  tmpsq->start =  sqBlock->list->start ;
+					  tmpsq->C = 0;
+					  status = sqncbi_ReadWindow(sqfp, 0, max_residues, tmpsq);
+					  if (status != eslEOD) {
+					    if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+					    return status; //surprising
+					  }
+	          sqBlock->list->L = tmpsq->L;
+				  }
+			  }
+			  else if (status == eslEOD)
+			  { // turns out there isn't any more of the sequence to read, after all
+				
+			  }
+			  else
+			  {
+			    if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+				  return status;
+			  }
+		  } // otherwise, just start at the beginning
+
+
+		  for (  ; i < sqBlock->listSize && size < max_residues; ++i)
+		  {
+			  esl_sq_Reuse(tmpsq);
+			  esl_sq_Reuse(sqBlock->list + i);
+			  status = sqncbi_ReadWindow(sqfp, 0, max_residues, tmpsq);
+			  if (status != eslOK) break; // end of sequences
+
+			  size += sqBlock->list[i].n - sqBlock->list[i].C;
+			  sqBlock->list[i].L = sqfp->data.ncbi.seq_L;
+			  ++(sqBlock->count);
+			  if (size >= max_residues)
+		     { // a full window worth of sequence was read
+
+          if ( sqBlock->list[i].n == sqfp->data.ncbi.seq_L) {
+             sqBlock->complete = TRUE;
+             esl_sq_Reuse(tmpsq);
+             tmpsq->start =  sqBlock->list->start ;
+             tmpsq->C = 0;
+             status = sqncbi_ReadWindow(sqfp, 0, max_residues, tmpsq); // burn off the EOD
+             if (status == eslEOD) // otherwise, the unexpected status will be returned
+                status = eslOK;
+
+           } else {
+             sqBlock->complete = FALSE;
+           }
+
+
+		       if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+		       return status;
+
+			  }
+			  else
+			  {
+				  /* Sequence was finished before filling a full window. Need to burn off the EOD value that will be
+				     returned by the next ReadWindow call. Can just use a tmp sq, after setting a couple
+				     values ReadWindow needs to see for correct processing.
+				   */
+				  esl_sq_Reuse(tmpsq);
+				  tmpsq->start =  sqBlock->list[i].start ;
+				  tmpsq->C = 0;
+				  status = sqncbi_ReadWindow(sqfp, 0, max_residues, tmpsq);
+		       if (status != eslEOD) {
+		         if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+		         return status; //surprising
+		       }
+		       //sqBlock->list[i].L = tmpsq->L;
+				  status = eslOK;
+			  }
+		  }
+	  }
+
+	  /* EOF will be returned only in the case were no sequences were read */
+	  if (status == eslEOF && i > 0) status = eslOK;
+
+	  sqBlock->complete = TRUE;
+
+	  if(tmpsq != NULL) esl_sq_Destroy(tmpsq);
+
+	  return status;
+}
+
+/* Function:  sqncbi_Echo()
+ * Synopsis:  Echo a sequence's record onto output stream.
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Returns:   <eslEUNIMPLEMENTED>.
+ */
+static int
+sqncbi_Echo(ESL_SQFILE *sqfp, const ESL_SQ *sq, FILE *ofp)
+{
+  ESL_EXCEPTION(eslEINVAL, "can't Echo() a sequence from NCBI database");
+  return eslEUNIMPLEMENTED;
+}
+/*------------------ end, sequential sequence input -------------*/
+
+
+
+/* Function:  reset_db()
+ * Synopsis:  Resets a sequence file.
+ * Incept:    MSF, Wed Mar 17, 2010 [Janelia]
+ *
+ * Purpose:   Closes just the currently opened db and frees
+ *            up the memory associated with that db.  This is
+ *            used primarily with multi-volume databases where
+ *            the current db is closed so the next one can be
+ *            opened.
+ *
+ * Returns:   void.
+ */
+static void
+reset_db(ESL_SQNCBI_DATA *ncbi)
+{
+  if (ncbi->title     != NULL) free(ncbi->title);
+  if (ncbi->timestamp != NULL) free(ncbi->timestamp);
+
+  if (ncbi->fppin != NULL) fclose(ncbi->fppin);
+  if (ncbi->fpphr != NULL) fclose(ncbi->fpphr);
+  if (ncbi->fppsq != NULL) fclose(ncbi->fppsq);
+
+  ncbi->fppin        = NULL;
+  ncbi->fpphr        = NULL;
+  ncbi->fppsq        = NULL;
+
+  ncbi->title        = NULL;
+  ncbi->timestamp    = NULL;
+
+  return;
+}
+
+
+/* reset_header_values()
+ *
+ * Clear the header values so it is clear which values
+ * have been set by the current header.
+ */
+static void
+reset_header_values(ESL_SQNCBI_DATA *ncbi)
+{
+  ncbi->name_ptr    = NULL;
+  ncbi->name_size   = 0;
+  ncbi->acc_ptr     = NULL;
+  ncbi->acc_size    = 0;
+  ncbi->int_id      = -1;
+  ncbi->str_id_ptr  = NULL;
+  ncbi->str_id_size = 0;
+}
+
+/* volume_open()
+ *
+ * Open up the index, head and sequence files for a particular
+ * volume.  Parse the first three fields in the index file,
+ * one more time, just to make sure nothing funny is going on.
+ */
+static int
+volume_open(ESL_SQNCBI_DATA *ncbi, int volume)
+{
+  int       len;
+  uint32_t  info[4];
+  int       dbtype;
+  int       status = eslOK;	/* return status from an ESL call */
+
+  char     *name;
+  
+  if (volume < 0 || volume > ncbi->volumes) return eslEINVAL;
+
+  /* if the db has no volumes return */
+  if (ncbi->volumes == 0) return eslOK;
+
+  if (ncbi->fppin != NULL) fclose(ncbi->fppin);
+  if (ncbi->fpphr != NULL) fclose(ncbi->fpphr);
+  if (ncbi->fppsq != NULL) fclose(ncbi->fppsq);
+
+  name = ncbi->vols[volume].name;
+  len  = strlen(name);
+
+  dbtype = (ncbi->alphatype == eslDNA) ? NCBI_DNA_DB : NCBI_AMINO_DB;
+
+  /* Check for basic database first */
+  strcpy(name+len, ".Xin");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((ncbi->fppin = fopen(name, "rb")) == NULL) {
+    status = eslFAIL; 
+    goto ERROR;
+  }
+  strcpy(name+len, ".Xhr");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((ncbi->fpphr = fopen(name, "rb")) == NULL) {
+    status = eslFAIL; 
+    goto ERROR;
+  }
+  strcpy(name+len, ".Xsq");
+  name[len+1] = (dbtype == NCBI_DNA_DB) ? 'n' : 'p';
+  if ((ncbi->fppsq = fopen(name, "rb")) == NULL) {
+    status = eslFAIL; 
+    goto ERROR;
+  }
+
+  /* quickly parse the header make sure we are sane. */
+  if (fread(&info[0], sizeof(uint32_t), 3, ncbi->fppin) != 3) status = eslFAIL;
+  if (htobe32(info[0]) != NCBI_VERSION_4)                     status = eslEFORMAT;
+  if (htobe32(info[1]) != dbtype)                             status = eslEFORMAT;
+
+  if (status != eslOK) goto ERROR;
+
+  /* save the offsets to the index tables */
+  ncbi->hdr_off = ncbi->vols[volume].hdr_off;
+  ncbi->seq_off = ncbi->vols[volume].seq_off;
+  if (dbtype == NCBI_DNA_DB) {
+    ncbi->amb_off = ncbi->vols[volume].amb_off;
+  }
+
+  ncbi->vol_index   = volume;
+  ncbi->index_start = -1;
+  ncbi->index_end   = -1;
+
+  /* skip the first sentinal byte in the .psq file */
+  fgetc(ncbi->fppsq);
+
+  /* zero terminate the name other functions can just
+   * tack on any extension without a lot of testing.
+   */
+  name[len] = '\0';
+
+  return eslOK;
+
+ ERROR:
+
+  reset_db(ncbi);
+
+  return status;
+}
+
+
+/* pos_sequence_offsets()
+ *
+ * Position the sequence and header files for reading at
+ * the start of the indexed sequence <inx>.  This routine
+ * buffers <INDEX_TABLE_SIZE> offsets from the header and
+ * sequence files.  If the index <inx> is not in the
+ * currently buffered table, read the the indexes.  If the
+ * index is not in the current volume find which volume
+ * the indexed sequence is in and open up that database.
+ */
+static int
+pos_sequence(ESL_SQNCBI_DATA *ncbi, int inx)
+{
+  int        cnt;
+  int        status;
+
+  uint32_t   offset;
+  uint32_t   start;
+  uint32_t   end;
+
+  ESL_SQNCBI_VOLUME *volume;
+
+  if (inx < 0 || inx > ncbi->num_seq) return eslEINVAL;
+
+  start = ncbi->index_start;
+  end   = ncbi->index_end;
+
+  /* get the offsets for the header, sequence and ambiguity table */
+  if (ncbi->index_start == -1 || inx < start || inx > end) {
+
+    /* if the db is broken up into volumes, lets find the correct one to use */
+    if (ncbi->volumes > 0) {
+      volume = ncbi->vols + ncbi->vol_index;
+      if (inx < volume->start_seq || inx > volume->end_seq) {
+	volume = ncbi->vols;
+	for (cnt = 0; cnt < ncbi->volumes; ++cnt) {
+	  if (inx < volume->end_seq) break;
+	  ++volume;
+	}
+
+	/* check just to make sure we found the volume */
+	if (cnt >= ncbi->volumes) return eslFAIL;
+
+	if ((status = volume_open(ncbi, cnt)) != eslOK) return status;
+      }
+    }
+
+    /* adjust where we start reading from if we are reading forwards or backwards */
+    if (ncbi->index_start == -1 || inx > end) {
+      start = inx;
+    } else {
+      start = inx + 2;
+      start = (start > INDEX_TABLE_SIZE) ? start - INDEX_TABLE_SIZE : 0;
+    }
+    ncbi->index_start = start;
+
+    /* when calculating the count be sure to take into account the fact that the
+     * index tables contain one index more that the number of sequences and this
+     * last index is used to point to the end of the last header and sequences.
+     */
+    if (ncbi->volumes > 0) {
+      cnt = volume->end_seq - inx + 2;
+      start = start - volume->start_seq;
+    } else {
+      cnt = ncbi->num_seq - inx + 1;
+    }
+    cnt = (cnt > INDEX_TABLE_SIZE) ? INDEX_TABLE_SIZE : cnt;
+    ncbi->index_end = ncbi->index_start + cnt - 2;
+
+    offset = ncbi->hdr_off + (sizeof(uint32_t) * start);
+    if (fseek(ncbi->fppin, offset, SEEK_SET) != 0) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Error seeking header index %d\n", offset);
+    }
+    if (fread(ncbi->hdr_indexes, sizeof(uint32_t), cnt, ncbi->fppin) != cnt) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Error reading header index %d at %d(%d)\n", start, offset, cnt);
+    }
+
+    offset = ncbi->seq_off + (sizeof(uint32_t) * start);
+    if (fseek(ncbi->fppin, offset, SEEK_SET) != 0) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Error seeking sequence index %d\n", offset);
+    }
+    if (fread(ncbi->seq_indexes, sizeof(uint32_t), cnt, ncbi->fppin) != cnt) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Error reading sequence index %d at %d(%d)\n", start, offset, cnt);
+    }
+
+    if (ncbi->alphatype == eslDNA) {
+      offset = ncbi->amb_off + (sizeof(uint32_t) * start);
+      if (fseek(ncbi->fppin, offset, SEEK_SET) != 0) {
+	ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Error seeking ambiguity index %d\n", offset);
+      }
+      if (fread(ncbi->amb_indexes, sizeof(uint32_t), cnt, ncbi->fppin) != cnt) {
+	ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Error reading ambiguity index %d at %d(%d)\n", start, offset, cnt);
+      }
+    }
+  }
+
+  ncbi->index = inx;
+
+  inx -= ncbi->index_start;
+  ncbi->roff = htobe32(ncbi->hdr_indexes[inx]);
+  ncbi->doff = htobe32(ncbi->seq_indexes[inx]);
+  ncbi->hoff = htobe32(ncbi->hdr_indexes[inx+1]);
+  ncbi->eoff = htobe32(ncbi->seq_indexes[inx+1]);
+
+  if (ncbi->alphatype == eslDNA) {
+    ncbi->seq_apos = htobe32(ncbi->amb_indexes[inx]);
+    ncbi->seq_alen = ncbi->seq_apos + htobe32(ncbi->amb_indexes[inx+1]) + 1;
+  } else {
+    ncbi->seq_apos = 0;
+    ncbi->seq_alen = 0;
+  }
+
+  if (fseek(ncbi->fpphr, ncbi->roff, SEEK_SET) != 0) return eslESYS;
+  if (fseek(ncbi->fppsq, ncbi->doff, SEEK_SET) != 0) return eslESYS;
+
+  return eslOK;
+}
+
+/* Function:  read_amino()
+ * Synopsis:  Read in the amino sequence
+ * Incept:    MSF, Wed Jan 27, 2010 [Janelia]
+ *
+ * Purpose:   Read and translate the amino acid sequence.
+ */
+static int
+read_amino(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int     inx;
+  int     size;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if (ncbi->index >= ncbi->num_seq) return eslEOF;
+
+  size = sq->eoff - sq->doff;
+
+  /* figure out the sequence length */
+  if (esl_sq_GrowTo(sq, size) != eslOK) return eslEMEM;
+
+  /* figure out if the sequence is in digital mode or not */
+  if (sq->dsq != NULL) {
+    ESL_DSQ *ptr = sq->dsq + 1;
+    if (fread(ptr, sizeof(char), size, ncbi->fppsq) != size) return eslEFORMAT;
+    for (inx = 0; inx < size - 1; ++inx) {
+      *ptr = sqfp->inmap[(int) *ptr];
+      ++ptr;
+    }
+    *ptr = eslDSQ_SENTINEL;
+  } else {
+    char *ptr = sq->seq;
+    if (fread(ptr, sizeof(char), size, ncbi->fppsq) != size) return eslEFORMAT;
+    for (inx = 0; inx < size - 1; ++inx) {
+      *ptr = sqfp->inmap[(int) *ptr];
+      *ptr = ncbi->alphasym[(int) *ptr];
+      ++ptr;
+    }
+    *ptr = '\0';
+  }
+
+  sq->start = 1;
+  sq->end   = size - 1;
+  sq->C     = 0;
+  sq->W     = size - 1;
+  sq->L     = size - 1;
+  sq->n     = size - 1;
+
+  return eslOK;
+}
+
+
+/* Function:  read_dna()
+ * Synopsis:  Read in the dna sequence
+ * Incept:    MSF, Wed Jan 27, 2010 [Janelia]
+ *
+ * Purpose:   Read and translate the dna sequence.
+ */
+static int
+read_dna(ESL_SQFILE *sqfp, ESL_SQ *sq)
+{
+  int64_t  inx;
+  int64_t  cnt;
+  int64_t  off;
+  int      size;
+  int      text;
+  int      status;
+  int      amb32;
+
+  int      remainder;
+  int      length;
+  int      ssize;
+  int      n;
+
+  char    *ptr;
+  void    *t;
+
+  unsigned char c;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if (ncbi->index >= ncbi->num_seq) return eslEOF;
+
+  /* calculate the max size of the sequence.  It is most likely
+   * a bit smaller, but we need to read the sequence in first
+   * before the real size can be figured out.
+   */
+  size = sq->eoff - sq->doff;
+  if (ncbi->hdr_alloced < size) {
+    while (ncbi->hdr_alloced < size) ncbi->hdr_alloced += ncbi->hdr_alloced;
+    ESL_RALLOC(ncbi->hdr_buf, t, sizeof(char) * ncbi->hdr_alloced);
+  }
+  if (fread(ncbi->hdr_buf, sizeof(char), size, ncbi->fppsq) != size) return eslEFORMAT;
+
+  ssize     = ncbi->seq_apos - sq->doff - 1;
+  remainder = *(ncbi->hdr_buf + ssize) & 0x03;
+  length    = ssize * 4 + remainder;
+
+  /* figure out the sequence length */
+  if (esl_sq_GrowTo(sq, length) != eslOK) return eslEMEM;
+
+  /* figure out if the sequence is in digital mode or not */
+  if (sq->dsq != NULL) {
+    text = FALSE;
+    ptr = (char *)sq->dsq + 1;
+  } else {
+    text = TRUE;
+    ptr = sq->seq;
+  }
+
+  for (inx = 0; inx < ssize; ++inx) {
+    c = ncbi->hdr_buf[inx];
+    n = 1 << ((c >> 6) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+    n = 1 << ((c >> 4) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+    n = 1 << ((c >> 2) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+    n = 1 << ((c >> 0) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+  }
+
+  /* handle the remainder */
+  c = ncbi->hdr_buf[inx];
+  for (inx = 0; inx < remainder; ++inx) {
+    n = 1 << ((c >> (6 - inx * 2)) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+  }
+
+  *ptr = (text) ? '\0' : eslDSQ_SENTINEL;
+
+  /* we need to look that the first by the the ambiguity table
+   * to see if the entries are 32 or 64 bit entries.
+   */
+  amb32 = 0;
+  if (ncbi->seq_apos - sq->doff < size) {
+    amb32 = ((ncbi->hdr_buf[ncbi->seq_apos - sq->doff] & 0x80) == 0);
+  }
+
+  /* skip past the count and start processing the abmiguity table */
+  ssize = ncbi->seq_apos - sq->doff + 4;
+  ptr = (text) ? sq->seq : (char *)sq->dsq + 1;
+
+  while (ssize < size) {
+    /* get the ambiguity character */
+    n = ((ncbi->hdr_buf[ssize] >> 4) & 0x0f);
+    c = sqfp->inmap[n];
+    if (text) c = ncbi->alphasym[(int) c];
+
+    if (amb32) {
+      /* get the repeat count 4 bits */
+      cnt = (ncbi->hdr_buf[ssize] & 0x0f);
+      cnt += 1;
+
+      /* get the offset 24 bits */
+      off = ncbi->hdr_buf[ssize+1];
+      off = (off << 8) | ncbi->hdr_buf[ssize+2];
+      off = (off << 8) | ncbi->hdr_buf[ssize+3];
+
+      for (inx = 0; inx < cnt; ++inx) ptr[off+inx] = c;
+
+      ssize += 4;
+    } else {
+      /* get the repeat count 12 bits */
+      cnt = (ncbi->hdr_buf[ssize] & 0x0f);
+      cnt = (cnt << 8) | ncbi->hdr_buf[ssize+1];
+      cnt += 1;
+
+      /* get the offset 48 bits*/
+      off = ncbi->hdr_buf[ssize+2];
+      off = (off << 8) | ncbi->hdr_buf[ssize+3];
+      off = (off << 8) | ncbi->hdr_buf[ssize+4];
+      off = (off << 8) | ncbi->hdr_buf[ssize+5];
+      off = (off << 8) | ncbi->hdr_buf[ssize+6];
+      off = (off << 8) | ncbi->hdr_buf[ssize+7];
+
+      for (inx = 0; inx < cnt; ++inx) ptr[off+inx] = c;
+
+      ssize += 8;
+    }
+  }
+
+  sq->start = 1;
+  sq->end   = length;
+  sq->C     = 0;
+  sq->W     = length;
+  sq->L     = length;
+  sq->n     = length;
+
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* Function:  read_nres_amino()
+ * Synopsis:  Read in the amino sequence
+ * Incept:    MSF, Wed Jan 27, 2010 [Janelia]
+ *
+ * Purpose:   Read and translate the dna sequence.
+ */
+static int
+read_nres_amino(ESL_SQFILE *sqfp, ESL_SQ *sq, int len, uint64_t *nres)
+{
+  int     inx;
+  int     off;
+  int     size;
+
+  char   *ptr;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if (ncbi->index >= ncbi->num_seq) return eslEOF;
+
+  /* if we don't know the sequence length, figure it out */
+  if (ncbi->seq_L == -1) ncbi->seq_L = sq->eoff - sq->doff - 1;
+
+  /* check if we are at the end */
+  if (sq->start + sq->n > ncbi->seq_L) {
+    if (nres != NULL) *nres = 0;
+    sq->L = ncbi->seq_L;
+    return eslEOD;
+  }
+
+  /* figure out if the sequence is in digital mode or not */
+  ptr = (sq->dsq != NULL) ? (char *)sq->dsq + 1 : sq->seq;
+  ptr += sq->n;
+
+  /* calculate where to start reading from */
+  off   = sq->doff + sq->start + sq->n - 1;
+
+  /* calculate the size to read */
+  size = ncbi->seq_L - (sq->start + sq->n - 1);
+  size = (size > len) ? len : size;
+
+  /* seek to the windows location and read into the buffer */
+  if (fseek(ncbi->fppsq, off, SEEK_SET) != 0) return eslESYS;
+  if (fread(ptr, sizeof(char), size, ncbi->fppsq) != size) return eslEFORMAT;
+
+  /* figure out if the sequence is in digital mode or not */
+  for (inx = 0; inx < size; ++inx) {
+    *ptr = sqfp->inmap[(int) *ptr];
+    if (sq->dsq == NULL) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+  }
+
+  *ptr = (sq->dsq == NULL) ? '\0' : eslDSQ_SENTINEL;
+
+  sq->n = sq->n + size;
+
+  if (nres != NULL) *nres = size;
+
+  return eslOK;
+}
+
+/* Function:  correct_ambiguity()
+ * Synopsis:  Read in the dna sequence
+ * Incept:    MSF, Thu Feb 4, 2010 [Janelia]
+ *
+ * Purpose:   Correct any ambiguity characters.
+ */
+static int
+correct_ambiguity(ESL_SQFILE *sqfp, ESL_SQ *sq, int len)
+{
+  int64_t   alen;         /* ambiguity length       */
+  int64_t   soff;         /* starting offset        */
+  int64_t   eoff;         /* ending offset          */
+  int64_t   ainx;         /* ambiguity index        */
+  int64_t   size;         /* size of table read in  */
+  int64_t   cnt;          /* repeat count           */
+  int64_t   off;
+  int64_t   n;
+
+  int       amb32;        /* flag for 32 or 64 bits */
+  char     *ptr;
+
+  unsigned char c;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if (ncbi->seq_alen == 0) return eslOK;
+
+  /* go to the start of the ambiguity table and see if the table
+   * is in 32 or 64 bit entries.
+   */
+  if (fseek(ncbi->fppsq, ncbi->seq_apos, SEEK_SET)       != 0) return eslESYS;
+  if (fread(ncbi->hdr_buf, sizeof(char), 4, ncbi->fppsq) != 4) return eslEFORMAT;
+  amb32 = ((ncbi->hdr_buf[0] & 0x80) == 0);
+
+  ptr = (sq->dsq != NULL) ? (char *)sq->dsq + 1 : sq->seq;
+  ptr += sq->n;
+
+  /* calculate the starting and ending offsets */
+  soff = sq->start + sq->n - 1;
+  eoff = soff + len;
+
+  off = 0;
+  ainx = 0;
+  size = 0;
+  alen = ncbi->seq_alen - 4;
+  while (off < eoff) {
+    /* check if we need to read in more of the  abmiguity table */
+    if (ainx == size) {
+      size = alen;
+      size = (size > INIT_HDR_BUFFER_SIZE) ? INIT_HDR_BUFFER_SIZE : size;
+      if (fread(ncbi->hdr_buf, sizeof(char), size, ncbi->fppsq) != size) return eslEFORMAT;
+      alen -= size;
+      ainx = 0;
+    }
+
+    /* get the ambiguity character */
+    n = ((ncbi->hdr_buf[ainx] >> 4) & 0x0f);
+    c = sqfp->inmap[n];
+    if (sq->dsq == NULL) c = ncbi->alphasym[(int) c];
+
+    if (amb32) {
+      /* get the repeat count 4 bits */
+      cnt = (ncbi->hdr_buf[ainx] & 0x0f);
+      cnt += 1;
+
+      /* get the offset 24 bits */
+      off = ncbi->hdr_buf[ainx+1];
+      off = (off << 8) | ncbi->hdr_buf[ainx+2];
+      off = (off << 8) | ncbi->hdr_buf[ainx+3];
+
+      ainx += 4;
+    } else {
+      /* get the repeat count 12 bits */
+      cnt = (ncbi->hdr_buf[ainx] & 0x0f);
+      cnt = (cnt << 8) | ncbi->hdr_buf[ainx+1];
+      cnt += 1;
+
+      /* get the offset 48 bits*/
+      off = ncbi->hdr_buf[ainx+2];
+      off = (off << 8) | ncbi->hdr_buf[ainx+3];
+      off = (off << 8) | ncbi->hdr_buf[ainx+4];
+      off = (off << 8) | ncbi->hdr_buf[ainx+5];
+      off = (off << 8) | ncbi->hdr_buf[ainx+6];
+      off = (off << 8) | ncbi->hdr_buf[ainx+7];
+
+      ainx += 8;
+    }
+
+    if (off + cnt >= soff && off < eoff) {
+      int inx;
+      int start = (off > soff) ? off - soff : 0;
+      int end   = (off + cnt > eoff) ? eoff : off - soff + cnt;
+      for (inx = start; inx < end; ++inx) ptr[inx] = c;
+    }
+
+    off += cnt;
+  }
+
+  return eslOK;
+}
+
+/* Function:  read_nres_dna()
+ * Synopsis:  Read in the dna sequence
+ * Incept:    MSF, Wed Jan 27, 2010 [Janelia]
+ *
+ * Purpose:   Read and translate the dna sequence.
+ */
+static int
+read_nres_dna(ESL_SQFILE *sqfp, ESL_SQ *sq, int len, uint64_t *nres)
+{
+  int     inx;
+  int     off;
+  int     cnt;
+  int     ncnt;
+  int     start;
+  int     skip;
+  int     text;
+  int     status;
+
+  int     remainder;
+  int     length;
+  int     ssize;
+  int     n;
+
+  char   *ptr;
+  void   *t;
+
+  unsigned char c;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if (ncbi->index >= ncbi->num_seq) return eslEOF;
+
+  /* if we don't know the sequence length, figure it out */
+  if (ncbi->seq_L == -1) {
+    if (fseek(ncbi->fppsq, ncbi->seq_apos - 1, SEEK_SET) != 0) return eslESYS;
+    if (fread(&c, sizeof(char), 1, ncbi->fppsq) != 1)          return eslEFORMAT;
+
+    ssize       = ncbi->seq_apos - sq->doff - 1;
+    remainder   = c & 0x03;
+    length      = ssize * 4 + remainder;
+
+    ncbi->seq_L = length;
+  }
+
+  /* check if we are at the end */
+  if (sq->start + sq->n > ncbi->seq_L) {
+    if (nres != NULL) *nres = 0;
+    sq->L = ncbi->seq_L;
+    return eslEOD;
+  }
+
+  /* calculate where to start reading from */
+  start = sq->start + sq->n - 1;
+  off   = sq->doff + start / 4;
+
+  /* calculate bits to skip at the beginning and end */
+  cnt   = ncbi->seq_L - (sq->start + sq->n - 1);
+  cnt   = (cnt > len) ? len : cnt;
+
+  skip      = start & 0x03;
+  remainder = skip + cnt;
+  remainder = (remainder & 0x03) ? (remainder & 0x03) : 4;
+
+  /* calculate bytes need to read in the window */
+  ssize = (cnt + skip + 3) / 4;
+
+  /* seek to the windows location and read into the buffer */
+  if (fseek(ncbi->fppsq, off, SEEK_SET) != 0) return eslESYS;
+  if (ncbi->hdr_alloced < ssize) {
+    while (ncbi->hdr_alloced < ssize) ncbi->hdr_alloced += ncbi->hdr_alloced;
+    ESL_RALLOC(ncbi->hdr_buf, t, sizeof(char) * ncbi->hdr_alloced);
+  }
+  if (fread(ncbi->hdr_buf, sizeof(char), ssize, ncbi->fppsq) != ssize) return eslEFORMAT;
+
+  /* figure out if the sequence is in digital mode or not */
+  if (sq->dsq != NULL) {
+    text = FALSE;
+    ptr = (char *)sq->dsq + 1;
+  } else {
+    text = TRUE;
+    ptr = sq->seq;
+  }
+  ptr += sq->n;
+
+  inx = 0;
+  c = ncbi->hdr_buf[inx];
+  for (inx = skip; inx < 4; ++inx) {
+    n = 1 << ((c >> (6 - inx * 2)) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+  }
+
+  for (inx = 1; inx < ssize - 1; ++inx) {
+    c = ncbi->hdr_buf[inx];
+    n = 1 << ((c >> 6) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+    n = 1 << ((c >> 4) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+    n = 1 << ((c >> 2) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+    n = 1 << ((c >> 0) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+  }
+
+  /* handle the remainder */
+  c = ncbi->hdr_buf[inx];
+  for (inx = 0; inx < remainder; ++inx) {
+    n = 1 << ((c >> (6 - inx * 2)) & 0x03);
+    *ptr = sqfp->inmap[n];
+    if (text) *ptr = ncbi->alphasym[(int) *ptr];
+    ++ptr;
+  }
+
+  *ptr = (text) ? '\0' : eslDSQ_SENTINEL;
+
+  /* calculate the number of residues processed */
+  ncnt = (ssize - 1) * 4 + remainder - skip;
+
+  /* start processing the abmiguity table if there is one */
+  if (ncbi->seq_alen > 0) {
+    correct_ambiguity(sqfp, sq, ncnt);
+  }
+
+  sq->n = sq->n + ncnt;
+
+  if (nres != NULL) *nres = ncnt;
+
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* Function:  inmap_ncbi()
+ * Synopsis:  Set up a translation map
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Initialize the translation map used to translate a ncbi
+ *            sequences to the internal representation used in hmmer.
+ *
+ * Returns:   <eslOK> on success;
+ * 
+ * Throws:    <eslEMEM> on allocation failure;
+ */
+static int
+inmap_ncbi(ESL_SQFILE *sqfp)
+{
+  int status = eslOK;
+
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  switch(ncbi->alphatype) {
+  case eslDNA:
+    status = inmap_ncbi_dna(sqfp);
+    break;
+  case eslAMINO:
+    status = inmap_ncbi_amino(sqfp);
+    break;
+  default:
+    ESL_EXCEPTION(eslEINVAL, "bad alphabet type: unrecognized");
+  }
+
+  return status;
+}
+
+/* Function:  inmap_ncbi_dna()
+ * Synopsis:  Set up a translation map
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Initialize the translation map used to translate a ncbi
+ *            protein sequence to the internal representation used in
+ *            hmmer.
+ *
+ * Returns:   <eslOK> on success;
+ * 
+ * Throws:    <eslEMEM> on allocation failure;
+ */
+static int
+inmap_ncbi_dna(ESL_SQFILE *sqfp)
+{
+  int x, y;
+  const char *ncbisym = "-ACMGRSVTWYHKDBN";
+
+  ESL_ALPHABET    *abc  = NULL;
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL) return eslEMEM;
+
+  for (x =  0;  x < 128;  x++) sqfp->inmap[x] = eslDSQ_ILLEGAL;
+
+  /* for each letter in the ncbi alphabet, find that letter in the
+   * hmmer alphabet and map the translation.
+   */
+  for (x = 0; x < strlen(ncbisym); ++x) {
+    for (y = 0; y < strlen(abc->sym); ++y) {
+      if (ncbisym[x] == abc->sym[y]) {
+	sqfp->inmap[x] = y;
+	break;
+      }
+    }
+
+    /* there is a problem if a translation does not exist */
+    if (y >= strlen(abc->sym)) return eslEFORMAT;
+  }
+
+  if (ncbi->alphasym == NULL) esl_strdup(abc->sym, -1, &ncbi->alphasym);
+
+  esl_alphabet_Destroy(abc);
+
+  return eslOK;
+}
+
+
+/* Function:  inmap_ncbi_amino()
+ * Synopsis:  Set up a translation map
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Initialize the translation map used to translate a ncbi
+ *            protein sequence to the internal representation used in
+ *            hmmer.
+ *
+ * Returns:   <eslOK> on success;
+ * 
+ * Throws:    <eslEMEM> on allocation failure;
+ */
+static int
+inmap_ncbi_amino(ESL_SQFILE *sqfp)
+{
+  int x, y;
+  const char *ncbisym = "-ABCDEFGHIKLMNPQRSTVWXYZU*OJ";
+
+  ESL_ALPHABET    *abc  = NULL;
+  ESL_SQNCBI_DATA *ncbi = &sqfp->data.ncbi;
+
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL) return eslEMEM;
+
+  for (x =  0;  x < 128;  x++) sqfp->inmap[x] = eslDSQ_ILLEGAL;
+
+  /* for each letter in the ncbi alphabet, find that letter in the
+   * hmmer alphabet and map the translation.
+   */
+  for (x = 0; x < strlen(ncbisym); ++x) {
+    for (y = 0; y < strlen(abc->sym); ++y) {
+      if (ncbisym[x] == abc->sym[y]) {
+	sqfp->inmap[x] = y;
+	break;
+      }
+    }
+
+    /* there is a problem if a translation does not exist */
+    if (y >= strlen(abc->sym)) return eslEFORMAT;
+  }
+
+  if (ncbi->alphasym == NULL) esl_strdup(abc->sym, -1, &ncbi->alphasym);
+
+  esl_alphabet_Destroy(abc);
+
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ *# 5. Parsing routines
+ *****************************************************************/ 
+
+/* Function:  parse_expect()
+ * Synopsis:  Expect the next bytes to parse match
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Match if the next <len> bytes to parse match the bytes
+ *            in <str>.  If the bytes do not match, throw <eslEFORMAT>
+ *            error.  Advance the parsers pointer.
+ *
+ * Returns:   <eslOK> on success
+ * 
+ * Throws:    <eslEFORMAT> if there are insufficient bytes remaining
+ *            in the header or if the data to parse does not match
+ *            what is expected.
+ */
+static int
+parse_expect(ESL_SQNCBI_DATA *ncbi, void *str, int len)
+{
+  int size;
+  unsigned char *c;
+  unsigned char *limit;
+
+  size  = ncbi->hoff - ncbi->roff;
+  limit = ncbi->hdr_buf + size;
+
+  /* verify the buffer has atleast len bytes remaining */
+  if (ncbi->hdr_ptr + len > limit) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Expecting %d bytes at %d : 0x%X(%d)\n",
+	       len, (uint32_t) (ncbi->hdr_ptr - ncbi->hdr_buf), ncbi->roff, size); 
+  }
+
+  /* check the buffer matches the token string */
+  c = (unsigned char *) str;
+  while (len--) {
+    if (*ncbi->hdr_ptr != *c) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Expecting 0x%X found 0x%X at %d : 0x%X(%d)\n",
+	       *ncbi->hdr_ptr, *c, (uint32_t) (ncbi->hdr_ptr - ncbi->hdr_buf), ncbi->roff, size); 
+    }
+    ncbi->hdr_ptr++;
+    c++;
+  }
+
+  return eslOK;
+}
+
+/* Function:  parse_accept()
+ * Synopsis:  Check if the next bytes to parse match
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Check if the next <len> bytes to parse match the bytes
+ *            in <str>.  If the bytes match, they are consumed and the
+ *            parsers pointer is advanced.
+ *
+ * Returns:   <eslOK> on success
+ *            <eslEFORMAT> if the bytes to not match.
+ */
+static int
+parse_accept(ESL_SQNCBI_DATA *ncbi, void *str, int len)
+{
+  int i;
+  int size;
+  unsigned char *c;
+  unsigned char *limit;
+
+  size  = ncbi->hoff - ncbi->roff;
+  limit = ncbi->hdr_buf + size;
+
+  /* check the buffer matches the token string */
+  if (ncbi->hdr_ptr + len > limit)  return eslEFORMAT;
+
+  /* verify the buffer matches the token string without advancing
+   * the buffer pointers until we have a complete match.
+   */
+  c = (unsigned char *) str;
+  for (i = 0; i < len; ++i) {
+    if (ncbi->hdr_ptr[i] != c[i])   return eslEFORMAT;
+  }
+  ncbi->hdr_ptr += len;
+
+  return eslOK;
+}
+
+/* Function:  parse_peek()
+ * Synopsis:  Peek at the next byte to parse
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Return the next characer to be parsed without advancing the
+ *            parsers pointer.
+ *
+ * Returns:   <eslOK> on success
+ *            <eslEFORMAT> if there are insufficient bytes remaining
+ *            in the header.
+ */
+static int
+parse_peek(ESL_SQNCBI_DATA *ncbi, unsigned char *c)
+{
+  int size;
+  unsigned char *limit;
+
+  size  = ncbi->hoff - ncbi->roff;
+  limit = ncbi->hdr_buf + size;
+
+  /* verify the buffer has atleast len bytes remaining */
+  if (ncbi->hdr_ptr + 1 > limit)    return eslEFORMAT;
+
+  *c = *ncbi->hdr_ptr;
+
+  return eslOK;
+}
+
+/* Function:  parse_consume()
+ * Synopsis:  Copies bytes from the header
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Copies <len> bytes from the header to the buffer supplied by
+ *            <str> if non-null.  Adcance the parser pointer.
+ *
+ * Returns:   <eslOK> on success
+ * 
+ * Throws:    <eslEFORMAT> if there are insufficient bytes remaining
+ *            in the header.
+ */
+static int
+parse_consume(ESL_SQNCBI_DATA *ncbi, void *str, int len)
+{
+  int i;
+  int size;
+  unsigned char *c;
+  unsigned char *limit;
+
+  size  = ncbi->hoff - ncbi->roff;
+  limit = ncbi->hdr_buf + size;
+
+  /* verify the buffer has atleast len bytes remaining */
+  if (ncbi->hdr_ptr + len > limit) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Expecting %d bytes at %d : 0x%X(%d)\n",
+	       len, (uint32_t) (ncbi->hdr_ptr - ncbi->hdr_buf), ncbi->roff, size); 
+  }
+
+  /* copy the characters in the buffer to <str> */
+  c = (unsigned char *) str;
+  for (i = 0; i < len; ++i) {
+    if (c != NULL) *c++ = *ncbi->hdr_ptr++;
+  }
+
+  return eslOK;
+}
+
+/* Function:  parse_advance()
+ * Synopsis:  Advance the parser pointer
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Advance the parser pointer <len> bytes.
+ *
+ * Returns:   <eslOK> on success
+ * 
+ * Throws:    <eslEFORMAT> if there are insufficient bytes remaining
+ *            in the header.
+ */
+static int
+parse_advance(ESL_SQNCBI_DATA *ncbi, int len)
+{
+  int size;
+  unsigned char *limit;
+
+  size  = ncbi->hoff - ncbi->roff;
+  limit = ncbi->hdr_buf + size;
+
+  /* verify the buffer has atleast len bytes remaining */
+  if (ncbi->hdr_ptr + len > limit) {
+      ESL_FAIL(eslEFORMAT, ncbi->errbuf, "Expecting %d bytes at %d : 0x%X(%d)\n",
+	       len, (uint32_t) (ncbi->hdr_ptr - ncbi->hdr_buf), ncbi->roff, size); 
+  }
+
+  ncbi->hdr_ptr += len;
+
+  return eslOK;
+}
+
+/* Function:  parse_header()
+ * Synopsis:  Parse the ncbi db header
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Parse a ncbi database header.  This routine implements
+ *            a recursive descent parser for the ASN.1 definition of
+ *            a blast database header filling in <sq>.
+ *
+ *            The blast db header can have multiple definitions defined
+ *            within it.  Only the information from the first usable
+ *            defition will be used.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <s>.
+ * 
+ *            Returns <eslEFORMAT> if there's a problem with the format,
+ *            such as an illegal character.
+ */
+static int
+parse_header(ESL_SQNCBI_DATA *ncbi, ESL_SQ *sq)
+{
+  int   size;
+  int   status;
+  void *tmp;
+
+  unsigned char c;
+
+  reset_header_values(ncbi);
+  size  = ncbi->hoff - ncbi->roff;
+
+  /* read in the header data */
+  if (ncbi->hdr_alloced < size) {
+    while (ncbi->hdr_alloced < size) ncbi->hdr_alloced += ncbi->hdr_alloced;
+    ESL_RALLOC(ncbi->hdr_buf, tmp, sizeof(char) * ncbi->hdr_alloced);
+  }
+  if (fread(ncbi->hdr_buf, sizeof(char), size, ncbi->fpphr) != size) return eslEFORMAT;
+  ncbi->hdr_ptr = ncbi->hdr_buf;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  if (parse_peek(ncbi, &c) != eslOK)                          return eslEFORMAT;
+
+  /* parse the different seq id structures */
+  while (c != 0x00) {
+    if ((status = parse_def_line(ncbi, sq)) != eslOK)         return status;
+
+    if (parse_peek(ncbi, &c) != eslOK)                        return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  return eslOK;
+ ERROR:
+  return eslEMEM;
+}
+
+/* Function:  parse_def_line()
+ * Synopsis:  Parse the Blast-def-line definition
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Blast-def-line ::= SEQUENCE {
+ * 	title       VisibleString       OPTIONAL,  -- simple title
+ * 	seqid       SEQUENCE OF Seq-id,            -- Regular NCBI Seq-Id
+ * 	taxid       INTEGER             OPTIONAL,  -- taxonomy id
+ * 	memberships SEQUENCE OF INTEGER OPTIONAL,  -- bit arrays
+ * 	links       SEQUENCE OF INTEGER OPTIONAL,  -- bit arrays
+ * 	other-info  SEQUENCE OF INTEGER OPTIONAL   -- for future use (probably genomic sequences)
+ * }
+ */
+static int
+parse_def_line(ESL_SQNCBI_DATA *ncbi, ESL_SQ *sq)
+{
+  int   status;
+
+  int   i;
+  int   len     = 0;
+  int   taxid   = -1;
+  char *title   = NULL;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an optional title */
+  sq->desc[0] = 0;
+  if (parse_accept(ncbi, "\xa0\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, &title, &len)) != eslOK) return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for sequence id structure */
+  if (parse_expect(ncbi, "\xa1\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_seq_id(ncbi)) != eslOK)                 return status;
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an optional taxonomy id */
+  sq->tax_id = -1;
+  if (parse_accept(ncbi, "\xa2\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, &taxid)) != eslOK)      return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional memberships */
+  if (parse_accept(ncbi, "\xa3\x80", 2) == eslOK) {
+    if ((status = ignore_sequence_of_integer(ncbi)) != eslOK) return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional links */
+  if (parse_accept(ncbi, "\xa4\x80", 2) == eslOK) {
+    if ((status = ignore_sequence_of_integer(ncbi)) != eslOK) return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional other info */
+  if (parse_accept(ncbi, "\xa5\x80", 2) == eslOK) {
+    if ((status = ignore_sequence_of_integer(ncbi)) != eslOK) return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* zero terminate any saved string */
+  if (ncbi->name_ptr   != NULL) ncbi->name_ptr[ncbi->name_size]     = '\0';
+  if (ncbi->acc_ptr    != NULL) ncbi->acc_ptr[ncbi->acc_size]       = '\0';
+  if (ncbi->str_id_ptr != NULL) ncbi->str_id_ptr[ncbi->str_id_size] = '\0';
+
+  if (title != NULL) title[len] = '\0';
+
+  if (ncbi->name_ptr != NULL || ncbi->acc_ptr != NULL) {
+    /* if we have both a name and accession, set both fields.
+     * if we have only one, set the name to that one field.
+     */
+    if (ncbi->name_ptr != NULL) {
+      esl_sq_SetName(sq, ncbi->name_ptr);
+      if (ncbi->acc_ptr != NULL) {
+	esl_sq_SetAccession(sq, ncbi->acc_ptr);
+      }
+    } else {
+      esl_sq_SetName(sq, ncbi->acc_ptr);
+    }
+    if (title != NULL) esl_sq_SetDesc(sq, title);
+  } else if (ncbi->str_id_ptr != NULL || ncbi->int_id != -1) {
+    /* since we don't have a name or accession, use the id
+     * as the name.
+     */
+    if (ncbi->str_id_ptr != NULL) {
+      esl_sq_SetName(sq, ncbi->str_id_ptr);
+    } else {
+      char id[32];
+      sprintf(id, "%d", ncbi->int_id);
+      esl_sq_SetName(sq, id);
+    }
+    if (title != NULL) esl_sq_SetDesc(sq, title);
+  } else if (title != NULL) {
+    /* lastly we don't have anything, so lets just use the
+     * title.  take the first word of the title and use that
+     * for the name.  the remaining portion of the title will
+     * be used for the description.
+     */
+    for (i = 0; i < len; ++i) {
+      if (isspace(title[i])) {
+	title[i] = '\0';
+	break;
+      }
+    }
+    esl_sq_SetName(sq, title);
+    ++i;
+
+    /* skip over multiple spaces till the next word */
+    for ( ; i < len; ++i) {
+      if (!isspace(title[i])) break;
+    }
+    if (i < len) esl_sq_SetDesc(sq, title + i);
+  }
+
+  if (taxid != -1) sq->tax_id = taxid;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_seq_id()
+ * Synopsis:  Parse the Blast-def-line definition
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Seq-id ::= CHOICE {
+ *     local             Object-id ,       -- local use
+ *     gibbsq            INTEGER ,         -- Geninfo backbone seqid
+ *     gibbmt            INTEGER ,         -- Geninfo backbone moltype
+ *     giim              Giimport-id ,     -- Geninfo import id
+ *     genbank           Textseq-id ,
+ *     embl              Textseq-id ,
+ *     pir               Textseq-id ,
+ *     swissprot         Textseq-id ,
+ *     patent            Patent-seq-id ,
+ *     other             Textseq-id ,      -- for historical reasons, 'other' = 'refseq'
+ *     general           Dbtag ,           -- for other databases
+ *     gi                INTEGER ,         -- GenInfo Integrated Database
+ *     ddbj              Textseq-id ,      -- DDBJ
+ *     prf               Textseq-id ,      -- PRF SEQDB
+ *     pdb               PDB-seq-id ,      -- PDB sequence
+ *     tpg               Textseq-id ,      -- Third Party Annot/Seq GenBank
+ *     tpe               Textseq-id ,      -- Third Party Annot/Seq EMBL
+ *     tpd               Textseq-id ,      -- Third Party Annot/Seq DDBJ
+ *     gpipe             Textseq-id ,      -- Internal NCBI genome pipeline processing ID
+ *     named-annot-track Textseq-id        -- Internal named annotation tracking ID
+ * }
+ */
+static int
+parse_seq_id(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+  int  *id_ptr;
+
+  unsigned char c;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)           return eslEFORMAT;
+
+  if (parse_consume(ncbi, &c, 1) != eslOK)                  return eslEFORMAT;
+
+  /* parse the different seq id structures */
+  while (c != 0x00) {
+    if (parse_expect(ncbi, "\x80", 1) != eslOK)             return eslEFORMAT;
+    switch (c) {
+    case 0xa0: /* LOCAL */
+      status = parse_object_id(ncbi);
+      break;
+    case 0xa1: /* GIBBSQ */
+      id_ptr = (ncbi->int_id != -1) ? NULL : &ncbi->int_id;
+      status = parse_integer(ncbi, id_ptr);
+      break;
+    case 0xa2: /* GIBBMT */
+      status = parse_integer(ncbi, NULL);
+      break;
+    case 0xa3: /* GIIM */
+      status = parse_giimport_id(ncbi);
+      break;
+    case 0xa4: /* GENBANK */
+    case 0xa5: /* EMBL */
+    case 0xa6: /* PIR */
+    case 0xa7: /* SWISSPROT */
+      status = parse_textseq_id(ncbi);
+      break;
+    case 0xa8: /* PATENT */
+      status = parse_patent_seq_id(ncbi);
+      break;
+    case 0xa9: /* OTHER */
+      status = parse_textseq_id(ncbi);
+      break;
+    case 0xaa: /* GENERAL */
+      status = parse_dbtag(ncbi);
+      break;
+    case 0xab: /* GI */
+      status = parse_integer(ncbi, NULL);
+      break;
+    case 0xac: /* DDBJ */
+    case 0xad: /* PRF */
+      status = parse_textseq_id(ncbi);
+      break;
+    case 0xae: /* PDB */
+      status = parse_pdb_seq_id(ncbi);
+      break;
+    case 0xaf: /* TPG */
+    case 0xb0: /* TPE */
+    case 0xb1: /* TPD */
+    case 0xb2: /* GPIPE */
+    case 0xb3: /* NAMED ANNOT TRACK */
+      status = parse_textseq_id(ncbi);
+      break;
+    default:
+      status = eslEFORMAT;
+    }
+
+    if (status != eslOK)                                    return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)         return eslEFORMAT;
+    if (parse_consume(ncbi, &c, 1)        != eslOK)         return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (c != 0x00 || parse_expect(ncbi, "\x00", 1) != eslOK)  return eslEFORMAT;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_textseq_id()
+ * Synopsis:  Parse the general text header
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Textseq-id ::= SEQUENCE {
+ *     name      VisibleString OPTIONAL ,
+ *     accession VisibleString OPTIONAL ,
+ *     release   VisibleString OPTIONAL ,
+ *     version   INTEGER       OPTIONAL
+ * }
+ */
+static int
+parse_textseq_id(ESL_SQNCBI_DATA *ncbi)
+{
+  char *acc  = NULL;
+  int   alen = 0;
+  char *name = NULL;
+  int   nlen = 0;
+
+  int   status;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an optional name */
+  if (parse_accept(ncbi, "\xa0\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, &name, &nlen)) != eslOK) return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional accession */
+  if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, &acc, &alen)) != eslOK)  return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional release */
+  if (parse_accept(ncbi, "\xa2\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, NULL, NULL)) != eslOK)   return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional version */
+  if (parse_accept(ncbi, "\xa3\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* if we found both the accession and name and so far
+   * we have only come across incomplete headers, save 
+   * this one off.
+   */
+  if (acc != NULL && name != NULL) {
+    if (ncbi->name_ptr == NULL || ncbi->acc_ptr == NULL) {
+      ncbi->name_ptr  = name;
+      ncbi->name_size = nlen;
+      ncbi->acc_ptr   = acc;
+      ncbi->acc_size  = alen;
+    }
+
+  } else if (ncbi->name_ptr == NULL && ncbi->acc_ptr == NULL) {
+    /* if neither the accession or name have been set, and the
+     * header supplied one, save it off.
+     */
+    if (acc != NULL) {
+      ncbi->acc_ptr   = acc;
+      ncbi->acc_size  = alen;
+    }
+    if (name != NULL) {
+      ncbi->name_ptr  = name;
+      ncbi->name_size = nlen;
+    }
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  parse_dbtag()
+ * Synopsis:  Parse the a general db tag
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Dbtag ::= SEQUENCE {
+ *     db  VisibleString ,     -- name of database or system
+ *     tag Object-id           -- appropriate tag
+ * }
+ */
+static int
+parse_dbtag(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+  int   temp_id;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an db name */
+  if (parse_expect(ncbi, "\xa0\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_string(ncbi, 0, NULL)) != eslOK)        return status;
+
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* it looks like the dbtag is used when formatdb is run
+   * without parsing sequence ids (ie -o F).  if that is
+   * the case, the id is equal to the sequence number in
+   * the database.  so for dbtag headers, nothing will be
+   * saved.  to do this lets create a bogus id value and
+   * restore it after dbtag is parsed.
+   */
+  temp_id = ncbi->int_id;
+  ncbi->int_id = 1;
+
+  /* look for a tag object */
+  if (parse_expect(ncbi, "\xa1\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_object_id(ncbi)) != eslOK)              return status;
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* restore the id value */
+  ncbi->int_id = temp_id;
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_giimport_id()
+ * Synopsis:  Parse the a giimport id
+ * Incept:    MSF, Thu Mar 25, 2010 [Janelia]
+ *
+ * Giimport-id ::= SEQUENCE {
+ *     id INTEGER,                      -- the id to use here
+ *     db VisibleString OPTIONAL,       -- dbase used in
+ *     release VisibleString OPTIONAL } -- the release
+ * }
+ */
+static int
+parse_giimport_id(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+  int   id;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an id */
+  if (parse_expect(ncbi, "\xa0\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_integer(ncbi, &id)) != eslOK)           return status;
+
+   /* look for an optional database */
+  if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, NULL, NULL)) != eslOK)   return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional release */
+  if (parse_accept(ncbi, "\xa2\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, NULL, NULL)) != eslOK)   return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* if there is not already a saved seq id, save it */
+  if (ncbi->int_id == -1 && ncbi->str_id_ptr == NULL) {
+    ncbi->int_id = id;
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  parse_patent_seq_id()
+ * Synopsis:  Parse the patent header
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Patent-seq-id ::= SEQUENCE {
+ *     seqid INTEGER ,          -- number of sequence in patent
+ *     cit   Id-pat             -- patent citation
+ * }
+ */
+static int
+parse_patent_seq_id(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+  int   id;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for a seqid */
+  if (parse_expect(ncbi, "\xa0\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_integer(ncbi, &id)) != eslOK)           return status;
+
+  /* look for a patent citation object */
+  if (parse_expect(ncbi, "\xa1\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_id_pat(ncbi)) != eslOK)                 return status;
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* if there is not already a saved seq id, save it */
+  if (ncbi->int_id == -1 && ncbi->str_id_ptr == NULL) {
+    ncbi->int_id = id;
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  parse_id_pat()
+ * Synopsis:  Parse the patent citation
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Id-pat ::= SEQUENCE {                         -- just to identify a patent
+ *     country  VisibleString ,                  -- Patent Document Country
+ *     id       CHOICE {
+ *         number     VisibleString ,            -- Patent Document Number
+ *         app-number VisibleString              -- Patent Doc Appl Number
+ *     } ,
+ *     doc-type VisibleString         OPTIONAL   -- Patent Doc Type
+ * }
+ */
+static int
+parse_id_pat(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for a country */
+  if (parse_expect(ncbi, "\xa0\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_string(ncbi, NULL, NULL)) != eslOK)     return status;
+
+  /* look for an id */
+  if (parse_expect(ncbi, "\xa1\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* the id is a choice of two strings */
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an optional taxonomy id */
+  if (parse_accept(ncbi, "\xa0\x80", 2) == eslOK) {
+    status = parse_string(ncbi, NULL, NULL);
+  } else if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+    status = parse_string(ncbi, NULL, NULL);
+  } else {
+    status = eslEFORMAT;
+  }
+  if (status != eslOK)                                        return status;
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for a doc type */
+  if (parse_accept(ncbi, "\xa3\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, NULL, NULL)) != eslOK)   return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_object_id()
+ * Synopsis:  Parse a generic sequence id
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Object-id ::= CHOICE {
+ *     id  INTEGER ,
+ *     str VisibleString
+ * }
+ */
+static int
+parse_object_id(ESL_SQNCBI_DATA *ncbi)
+{
+  int    status;
+
+  char  *id_str = NULL;
+  int    id_len = 0;
+  int    id     = -1;
+
+  /* look for an optional taxonomy id */
+  if (parse_accept(ncbi, "\xa0\x80", 2) == eslOK) {
+    status = parse_integer(ncbi, &id);
+  } else if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+    status = parse_string(ncbi, &id_str, &id_len);
+  } else {
+    status = eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (status == eslOK) {
+    status = parse_expect(ncbi, "\x00\x00", 2);
+
+    /* if there is not already a saved seq id, save it */
+    if (ncbi->int_id == -1 && ncbi->str_id_ptr == NULL) {
+      if (id_str != NULL) {
+	ncbi->str_id_ptr  = id_str;
+	ncbi->str_id_size = id_len;
+      } else if (id != -1) {
+	ncbi->int_id = id;
+      }
+    }
+  }
+
+  return status;
+}
+
+
+/* Function:  parse_pdb_seq_id()
+ * Synopsis:  Parse a PDB sequence
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * PDB-seq-id ::= SEQUENCE {
+ *     mol   PDB-mol-id ,              -- the molecule name
+ *     chain INTEGER ,                 -- a single ASCII character, chain id
+ *     rel   Date         OPTIONAL }   -- release date, month and year
+ *
+ * Date ::= CHOICE {
+ *     str   VisibleString ,           -- for those unparsed dates
+ *     std   Date-std                  -- use this if you can
+ * }
+ */
+static int
+parse_pdb_seq_id(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+
+  char  *id;
+  int    len;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an pdb mol id */
+  if (parse_expect(ncbi, "\xa0\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_string(ncbi, &id, &len)) != eslOK)      return status;
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for chain */
+  if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional date */
+  if (parse_accept(ncbi, "\xa2\x80", 2) == eslOK) {
+    if (parse_accept(ncbi, "\xa0\x80", 2) == eslOK) {
+      status = parse_string(ncbi, NULL, NULL);
+    } else if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+      status = parse_date_std(ncbi);
+    } else {
+      status = eslEFORMAT;
+    }
+    if (status != eslOK)                                      return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* if there is not already a saved seq id, save it */
+  if (ncbi->int_id == -1 && ncbi->str_id_ptr == NULL) {
+    ncbi->str_id_ptr  = id;
+    ncbi->str_id_size = len;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_date_std()
+ * Synopsis:  Parse the data structure
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Date-std ::= SEQUENCE {              -- NOTE: this is NOT a unix tm struct
+ *     year   INTEGER ,                 -- full year (including 1900)
+ *     month  INTEGER       OPTIONAL ,  -- month (1-12)
+ *     day    INTEGER       OPTIONAL ,  -- day of month (1-31)
+ *     season VisibleString OPTIONAL ,  -- for "spring", "may-june", etc
+ *     hour   INTEGER       OPTIONAL ,  -- hour of day (0-23)
+ *     minute INTEGER       OPTIONAL ,  -- minute of hour (0-59)
+ *     second INTEGER       OPTIONAL    -- second of minute (0-59)
+ * }
+ */
+static int
+parse_date_std(ESL_SQNCBI_DATA *ncbi)
+{
+  int   status;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for a year */
+  if (parse_expect(ncbi, "\xa0\x80", 2) != eslOK)             return eslEFORMAT;
+  if ((status = parse_integer(ncbi, NULL)) != eslOK)          return status;
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  /* look for an optional month */
+  if (parse_accept(ncbi, "\xa1\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional day */
+  if (parse_accept(ncbi, "\xa2\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional season */
+  if (parse_accept(ncbi, "\xa3\x80", 2) == eslOK) {
+    if ((status = parse_string(ncbi, NULL, NULL)) != eslOK)   return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional hour */
+  if (parse_accept(ncbi, "\xa4\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional minute */
+  if (parse_accept(ncbi, "\xa5\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* look for an optional second */
+  if (parse_accept(ncbi, "\xa6\x80", 2) == eslOK) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK)        return status;
+    if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)           return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)             return eslEFORMAT;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_string()
+ * Synopsis:  Parse a visible string
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Parses a string from the header stream.
+ *
+ *            If <str> is non null, the location of the string in 
+ *            the header will be saved.  If <len> is non null, the
+ *            length of the string will be filled in.  If <str> is
+ *            non null, then <len> must be non null since the strings
+ *            are not zero terminated.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEFORMAT> if there's a problem with the format.
+ *            <eslEINCOMPAT> if <str> is non null and <len> is null.
+ *
+ */
+static int
+parse_string(ESL_SQNCBI_DATA *ncbi, char **str, int *len)
+{
+  int n;
+
+  unsigned char  x;
+  unsigned char  c;
+  unsigned char *ptr;
+
+  if (parse_expect(ncbi, "\x1a", 1) != eslOK)  return eslEFORMAT;
+
+  /* the next byte is the length of the string.  if the length is
+   * less than 128, then this is the true length; otherwise this
+   * length describes the number of bytes necessary to hold the
+   * true length of the string in the lower 7 bits.
+   */
+  if (parse_consume(ncbi, &c, 1) != eslOK)     return eslEFORMAT;
+  if (c < 128) {
+    n = c;
+  } else {
+    c = c & 0x7f;
+    if (c > sizeof(n))                                 return eslEFORMAT;
+
+    n = 0;
+    while (c > 0) {
+      if (parse_consume(ncbi, &x, 1) != eslOK) return eslEFORMAT;
+      n = (n << 8) + (unsigned int) x;
+      --c;
+    }
+  }
+
+  /* validate the length of the string */
+  ptr = ncbi->hdr_ptr;
+  if (parse_advance(ncbi, n) != eslOK)         return eslEFORMAT;
+
+  /* fill in the values */
+  if (str != NULL && len == NULL) return eslEINCOMPAT;
+  if (len != NULL) *len = n;
+  if (str != NULL) *str = (char *)ptr;
+
+  return eslOK;
+}
+
+
+/* Function:  parse_integer()
+ * Synopsis:  Parse an integer
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Reads an integer from the header stream.  If the integer is
+ *            more bytes than the native int format, the most significant
+ *            bytes will be lost.
+ *
+ *            If <value> is non null, the parsed integer will be placed
+ *            in the pointer.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEFORMAT> if there's a problem with the format.
+ *
+ */
+static int
+parse_integer(ESL_SQNCBI_DATA *ncbi, int *value)
+{
+  int n;
+
+  unsigned char  c;
+  unsigned char *ptr;
+
+  if (parse_expect(ncbi, "\x02", 1) != eslOK) return eslEFORMAT;
+
+  /* get the length of the integer */
+  if (parse_peek(ncbi, &c) != eslOK)          return eslEFORMAT;
+  ptr = ncbi->hdr_ptr + 1;
+
+  /* advance past the integer to make sure the buffer holds all
+   * of the integer.  the pointer <ptr> points the the start of
+   * the integer.
+   */
+  if (parse_advance(ncbi, c + 1) != eslOK)    return eslEFORMAT;
+
+  n = 0;
+  while (c > 0) {
+    n = (n << 8) + (unsigned int) *ptr++;
+    --c;
+  }
+
+  if (value != NULL) *value = n;
+
+  return eslOK;
+}
+
+
+/* Function:  ignore_sequence_of_integer()
+ * Synopsis:  Skip over the sequence of integers
+ * Incept:    MSF, Mon Dec 10, 2009 [Janelia]
+ *
+ * Purpose:   Skip over a sequence of integers.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEFORMAT> if there's a problem with the format.
+ *
+ */
+static int
+ignore_sequence_of_integer(ESL_SQNCBI_DATA *ncbi)
+{
+  int status;
+  unsigned char c;
+
+  /* verify we are at the beginning of a structure */
+  if (parse_expect(ncbi, "\x30\x80", 2) != eslOK)      return eslEFORMAT;
+
+  if (parse_peek(ncbi, &c) != eslOK)                   return eslEFORMAT;
+  while (c == 0x02) {
+    if ((status = parse_integer(ncbi, NULL)) != eslOK) return status;
+    if (parse_peek(ncbi, &c) != eslOK)                 return eslEFORMAT;
+  }
+
+  /* verify we are at the end of the structure */
+  if (parse_expect(ncbi, "\x00\x00", 2) != eslOK)      return eslEFORMAT;
+
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_sqio_ncbi.c 863 2013-04-18 13:40:02Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sqio_ncbi.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ncbi.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ncbi.h
new file mode 100755
index 0000000..6e204d9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sqio_ncbi.h
@@ -0,0 +1,116 @@
+/* Unaligned ncbi sequence file i/o.
+ * 
+ * SVN $Id: esl_sqio_ncbi.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sqio_ncbi.h $
+ */
+#ifndef eslSQIO_NCBI_INCLUDED
+#define eslSQIO_NCBI_INCLUDED
+
+#include <stdio.h>
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#ifdef HAVE_SYS_TYPES_H
+#include <sys/types.h>
+#endif
+
+
+/* forward declaration */
+struct esl_sqio_s;
+
+/* set the max residue count to 1 meg when reading a block */
+#define MAX_RESIDUE_COUNT (1024 * 1024)
+
+#define MAX_DB_VOLUMES   100
+
+/* ESL_SQNCBI_VOLUME:
+ * Information for the volume
+ */
+typedef struct esl_sqncbi_vol_s {
+  char      *name;                 /* name of the volume                       */
+
+  uint32_t   start_seq;            /* starting sequence number                 */
+  uint32_t   end_seq;              /* starting sequence number                 */
+
+  uint32_t   hdr_off;              /* disk offset in .pin to header index      */
+  uint32_t   seq_off;              /* disk offset to .pin to sequence index    */
+  uint32_t   amb_off;              /* disk offset to .pin to ambiguous index   */
+} ESL_SQNCBI_VOLUME;
+
+/* ESL_SQNCBI:
+ * An open sequence file for reading.
+ */
+typedef struct esl_sqncbi_s {
+  FILE      *fppin;                /* Open .pin file ptr                       */
+  FILE      *fpphr;                /* Open .phr file ptr                       */
+  FILE      *fppsq;                /* Open .psq file ptr                       */
+  char       errbuf[eslERRBUFSIZE];/* parse error mesg.  Size must match msa.h */
+
+  char      *title;                /* database title                           */
+  int        version;              /* database version                         */
+  char      *timestamp;            /* time stamp of database creation          */
+
+  uint32_t   num_seq;              /* number of sequences in the database      */
+  uint64_t   total_res;            /* total number of residues                 */
+  uint32_t   max_seq;              /* longest sequence in the database         */
+
+  uint32_t   hdr_off;              /* disk offset in .pin to header index      */
+  uint32_t   seq_off;              /* disk offset to .pin to sequence index    */
+  uint32_t   amb_off;              /* disk offset to .pin to ambiguous index   */
+  
+  int        index;                /* current sequence index in the database   */
+  uint32_t   vol_index;            /* current volume index (-1 if no volumes)  */
+  uint32_t   roff;                 /* record offset (start of header)          */
+  uint32_t   hoff;                 /* offset to last byte of header            */
+  uint32_t   doff;                 /* data offset (start of sequence data)     */
+  uint32_t   eoff;                 /* offset to last byte of sequence          */
+
+  uint32_t   index_start;          /* start of indexes currently loaded        */
+  uint32_t   index_end;            /* end of indexes currently loaded          */
+  uint32_t  *hdr_indexes;          /* block of header indexes from .pin        */
+  uint32_t  *seq_indexes;          /* block of header indexes from .pin        */
+  uint32_t  *amb_indexes;          /* block of header indexes from .pin        */
+
+  /* volume information */
+  uint32_t   volumes;              /* number of volumes                        */
+  ESL_SQNCBI_VOLUME vols[MAX_DB_VOLUMES];
+
+  /* information for the current header */
+  unsigned char *hdr_buf;          /* buffer for holding unparsed header       */
+  unsigned char *hdr_ptr;          /* current parser position                  */
+  int            hdr_alloced;      /* size of the allocated buffer             */
+
+  char          *name_ptr;         /* pointer to name NOT NULL TERMINATED      */
+  int32_t        name_size;        /* length of the name                       */
+  char          *acc_ptr;          /* pointer to accession NOT NULL TERMINATED */
+  int32_t        acc_size;         /* length of the accession                  */
+  int32_t        int_id;           /* integer sequence id                      */
+  char          *str_id_ptr;       /* pointer to id NOT NULL TERMINATED        */
+  int32_t        str_id_size;      /* length of the id                         */
+  
+  /* information on the current sequence */
+  uint32_t       seq_apos;         /* position of ambiguity table              */
+  uint32_t       seq_alen;         /* size of ambiguity table                  */
+  uint32_t       seq_cpos;         /* current position in ambiguity table      */
+  int32_t        seq_L;            /* true sequence length                     */
+
+  /* alphabet used to convert ncbi to hmmer to ascii */
+  int            alphatype;        /* amino or dna                             */
+  char          *alphasym;         /* string of residues                       */
+
+} ESL_SQNCBI_DATA;
+
+
+extern int  esl_sqncbi_Open(char *seqfile, int format, struct esl_sqio_s *sqfp);
+
+
+#endif /*eslSQIO_NCBI_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.c
new file mode 100755
index 0000000..a71aa17
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.c
@@ -0,0 +1,629 @@
+/* Vectorized routines for Intel/AMD, using Streaming SIMD Extensions (SSE).
+ * 
+ * Table of contents           
+ *     1. SIMD logf(), expf()
+ *     2. Utilities for ps vectors (4 floats in a __m128)
+ *     3. Utilities for epu8 vectors (16 uchars in a __m128i)
+ *     3. Benchmark
+ *     4. Unit tests
+ *     5. Test driver
+ *     6. Example
+ *     7. Copyright and license
+ *     
+ *****************************************************************
+ * Credits:
+ *
+ * The logf() and expf() routines are derivatives of routines by
+ * Julien Pommier [http://gruntthepeon.free.fr/ssemath/]. Those
+ * routines were in turn based on serial implementations in the Cephes
+ * math library by Stephen Moshier [Moshier89;
+ * http://www.moshier.net/#Cephes]. Thanks and credit to both Moshier
+ * and Pommier for their clear code. Additional copyright and license
+ * information is appended at the end of the file.
+ */
+#include "esl_config.h"
+#ifdef HAVE_SSE2
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+
+
+/*****************************************************************
+ * 1. SSE SIMD logf(), expf()
+ *****************************************************************/ 
+
+/* As of Dec 2007, I am unaware of any plans for Intel/AMD to release
+ * SSE intrinsics for logf(), expf(), or other special functions.
+ *
+ * I need them, and the code below should suffice. If you know of
+ * better ways to compute these functions, please let me know.
+ */
+
+/* Function:  esl_sse_logf()
+ * Synopsis:  <r[z] = log x[z]>
+ * Incept:    SRE, Fri Dec 14 11:32:54 2007 [Janelia]
+ *
+ * Purpose:   Given a vector <x> containing four floats, returns a
+ *            vector <r> in which each element <r[z] = logf(x[z])>.
+ *            
+ *            Valid in the domain $x_z > 0$ for normalized IEEE754
+ *            $x_z$.
+ *
+ *            For <x> $< 0$, including -0, returns <NaN>. For <x> $==
+ *            0$ or subnormal <x>, returns <-inf>. For <x = inf>,
+ *            returns <inf>. For <x = NaN>, returns <NaN>. For 
+ *            subnormal <x>, returns <-inf>.
+ *
+ * Xref:      J2/71.
+ * 
+ * Note:      Derived from an SSE1 implementation by Julian
+ *            Pommier. Converted to SSE2 and added handling
+ *            of IEEE754 specials.
+ */
+__m128 
+esl_sse_logf(__m128 x) 
+{
+  static float cephes_p[9] = {  7.0376836292E-2f, -1.1514610310E-1f,  1.1676998740E-1f,
+				-1.2420140846E-1f, 1.4249322787E-1f, -1.6668057665E-1f,
+				2.0000714765E-1f, -2.4999993993E-1f,  3.3333331174E-1f };
+  __m128  onev = _mm_set1_ps(1.0f);          /* all elem = 1.0 */
+  __m128  v0p5 = _mm_set1_ps(0.5f);          /* all elem = 0.5 */
+  __m128i vneg = _mm_set1_epi32(0x80000000); /* all elem have IEEE sign bit up */
+  __m128i vexp = _mm_set1_epi32(0x7f800000); /* all elem have IEEE exponent bits up */
+  __m128i ei;
+  __m128  e;
+  __m128  invalid_mask, zero_mask, inf_mask;            /* masks used to handle special IEEE754 inputs */
+  __m128  mask;
+  __m128  origx;
+  __m128  tmp;
+  __m128  y;
+  __m128  z;
+
+  /* first, split x apart: x = frexpf(x, &e); */
+  ei           = _mm_srli_epi32( _mm_castps_si128(x), 23);	                                        /* shift right 23: IEEE754 floats: ei = biased exponents     */
+  invalid_mask = _mm_castsi128_ps ( _mm_cmpeq_epi32( _mm_and_si128(_mm_castps_si128(x), vneg), vneg));  /* mask any elem that's negative; these become NaN           */
+  zero_mask    = _mm_castsi128_ps ( _mm_cmpeq_epi32(ei, _mm_setzero_si128()));                          /* mask any elem zero or subnormal; these become -inf        */
+  inf_mask     = _mm_castsi128_ps ( _mm_cmpeq_epi32( _mm_and_si128(_mm_castps_si128(x), vexp), vexp));  /* mask any elem inf or NaN; log(inf)=inf, log(NaN)=NaN      */
+  origx        = x;			                                                                /* store original x, used for log(inf) = inf, log(NaN) = NaN */
+
+  x  = _mm_and_ps(x, _mm_castsi128_ps(_mm_set1_epi32(~0x7f800000))); /* x now the stored 23 bits of the 24-bit significand        */
+  x  = _mm_or_ps (x, v0p5);                                          /* sets hidden bit b[0]                                      */
+
+  ei = _mm_sub_epi32(ei, _mm_set1_epi32(126));                       /* -127 (ei now signed base-2 exponent); then +1             */
+  e  = _mm_cvtepi32_ps(ei);
+
+  /* now, calculate the log */
+  mask = _mm_cmplt_ps(x, _mm_set1_ps(0.707106781186547524f)); /* avoid conditional branches.           */
+  tmp  = _mm_and_ps(x, mask);	                              /* tmp contains x values < 0.707, else 0 */
+  x    = _mm_sub_ps(x, onev);
+  e    = _mm_sub_ps(e, _mm_and_ps(onev, mask));
+  x    = _mm_add_ps(x, tmp);
+  z    = _mm_mul_ps(x,x);
+
+  y =               _mm_set1_ps(cephes_p[0]);    y = _mm_mul_ps(y, x); 
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[1]));   y = _mm_mul_ps(y, x);    
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[2]));   y = _mm_mul_ps(y, x);   
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[3]));   y = _mm_mul_ps(y, x);   
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[4]));   y = _mm_mul_ps(y, x);    
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[5]));   y = _mm_mul_ps(y, x);   
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[6]));   y = _mm_mul_ps(y, x); 
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[7]));   y = _mm_mul_ps(y, x);  
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[8]));   y = _mm_mul_ps(y, x);
+  y = _mm_mul_ps(y, z);
+
+  tmp = _mm_mul_ps(e, _mm_set1_ps(-2.12194440e-4f));
+  y   = _mm_add_ps(y, tmp);
+
+  tmp = _mm_mul_ps(z, v0p5);
+  y   = _mm_sub_ps(y, tmp);
+
+  tmp = _mm_mul_ps(e, _mm_set1_ps(0.693359375f));
+  x = _mm_add_ps(x, y);
+  x = _mm_add_ps(x, tmp);
+
+  /* IEEE754 cleanup: */
+  x = esl_sse_select_ps(x, origx,                     inf_mask);  /* log(inf)=inf; log(NaN)      = NaN  */
+  x = _mm_or_ps(x, invalid_mask);                                 /* log(x<0, including -0,-inf) = NaN  */
+  x = esl_sse_select_ps(x, _mm_set1_ps(-eslINFINITY), zero_mask); /* x zero or subnormal         = -inf */
+  return x;
+}
+
+/* Function:  esl_sse_expf()
+ * Synopsis:  <r[z] = exp x[z]>
+ * Incept:    SRE, Fri Dec 14 14:46:27 2007 [Janelia]
+ *
+ * Purpose:   Given a vector <x> containing four floats, returns a
+ *            vector <r> in which each element <r[z] = expf(x[z])>.
+ *            
+ *            Valid for all IEEE754 floats $x_z$.
+ *            
+ * Xref:      J2/71
+ *            J10/62: bugfix, minlogf/maxlogf range was too wide; 
+ *                    (k+127) must be >=0 and <=255, so (k+127)<<23
+ *                    is a valid IEEE754 float, without touching 
+ *                    the sign bit. Pommier had this right in the
+ *                    first place, and I didn't understand.
+ * 
+ * Note:      Derived from an SSE1 implementation by Julian
+ *            Pommier. Converted to SSE2.
+ *            
+ *            Note on maxlogf/minlogf, which are close to but not
+ *            exactly 127.5/log2 [J10/63]. We need -127<=k<=128, so
+ *            k+127 is 0..255, a valid IEEE754 8-bit exponent
+ *            (0..255), so the bit pattern (k+127)<<23 is IEEE754
+ *            single-precision for 2^k.  If k=-127, we get IEEE754 0.
+ *            If k=128, we get IEEE754 +inf.  If k<-127, k+127 is
+ *            negative and we get screwed up.  If k>128, k+127
+ *            overflows the 8-bit exponent and sets the sign bit.  So
+ *            for x' (base 2) < -127.5 we must definitely return e^x ~
+ *            0; for x' < 126.5 we're going to calculate 0 anyway
+ *            (because k=floor(-126.5-epsilon+0.5) = -127).  So any
+ *            minlogf between -126.5 log2 ... -127.5 log2 will suffice
+ *            as the cutoff. Ditto for 126.5 log2 .. 127.5log2.
+ *            That's 87.68312 .. 88.3762655.  I think Pommier's
+ *            thinking is, you don't want to get to close to the
+ *            edges, lest fp roundoff error screw you (he may have
+ *            consider 1 ulp carefully, I can't tell), but otherwise
+ *            you may as well put your bounds close to the outer edge;
+ *            so 
+ *              maxlogf =  127.5 log(2) - epsilon 
+ *              minlogf = -127.5 log(2) + epsilon 
+ *            for an epsilon that happen to be ~ 3e-6.
+ */
+__m128 
+esl_sse_expf(__m128 x) 
+{
+  static float cephes_p[6] = { 1.9875691500E-4f, 1.3981999507E-3f, 8.3334519073E-3f, 
+			       4.1665795894E-2f, 1.6666665459E-1f, 5.0000001201E-1f };
+  static float cephes_c[2] = { 0.693359375f,    -2.12194440e-4f };
+  static float maxlogf     =  88.3762626647949f;  /* 127.5 log(2) - epsilon. above this, 0.5+x/log2 gives k>128 and breaks 2^k "float" construction, because (k+127)<<23 must be a valid IEEE754 exponent 0..255 */
+  static float minlogf     = -88.3762626647949f;  /*-127.5 log(2) + epsilon. below this, 0.5+x/log2 gives k<-127 and breaks 2^k, see above */
+  __m128i k;
+  __m128  mask, tmp, fx, z, y, minmask, maxmask;
+  
+  /* handle out-of-range and special conditions */
+  maxmask = _mm_cmpgt_ps(x, _mm_set1_ps(maxlogf));
+  minmask = _mm_cmple_ps(x, _mm_set1_ps(minlogf));
+
+  /* range reduction: exp(x) = 2^k e^f = exp(f + k log 2); k = floorf(0.5 + x / log2): */
+  fx = _mm_mul_ps(x,  _mm_set1_ps(eslCONST_LOG2R));
+  fx = _mm_add_ps(fx, _mm_set1_ps(0.5f));
+
+  /* floorf() with SSE:  */
+  k    = _mm_cvttps_epi32(fx);	              /* cast to int with truncation                  */
+  tmp  = _mm_cvtepi32_ps(k);	              /* cast back to float                           */
+  mask = _mm_cmpgt_ps(tmp, fx);               /* if it increased (i.e. if it was negative...) */
+  mask = _mm_and_ps(mask, _mm_set1_ps(1.0f)); /* ...without a conditional branch...           */
+  fx   = _mm_sub_ps(tmp, mask);	              /* then subtract one.                           */
+  k    = _mm_cvttps_epi32(fx);	              /* k is now ready for the 2^k part.             */
+  
+  /* polynomial approx for e^f for f in range [-0.5, 0.5] */
+  tmp = _mm_mul_ps(fx, _mm_set1_ps(cephes_c[0]));
+  z   = _mm_mul_ps(fx, _mm_set1_ps(cephes_c[1]));
+  x   = _mm_sub_ps(x, tmp);
+  x   = _mm_sub_ps(x, z);
+  z   = _mm_mul_ps(x, x);
+  
+  y =               _mm_set1_ps(cephes_p[0]);    y = _mm_mul_ps(y, x);
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[1]));   y = _mm_mul_ps(y, x);
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[2]));   y = _mm_mul_ps(y, x);
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[3]));   y = _mm_mul_ps(y, x);
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[4]));   y = _mm_mul_ps(y, x);
+  y = _mm_add_ps(y, _mm_set1_ps(cephes_p[5]));   y = _mm_mul_ps(y, z);
+  y = _mm_add_ps(y, x);
+  y = _mm_add_ps(y, _mm_set1_ps(1.0f));
+
+  /* build 2^k by hand, by creating a IEEE754 float */
+  k  = _mm_add_epi32(k, _mm_set1_epi32(127));
+  k  = _mm_slli_epi32(k, 23);
+  fx = _mm_castsi128_ps(k);
+  
+  /* put 2^k e^f together (fx = 2^k,  y = e^f) and we're done */
+  y = _mm_mul_ps(y, fx);	
+
+  /* special/range cleanup */
+  y = esl_sse_select_ps(y, _mm_set1_ps(eslINFINITY), maxmask); /* exp(x) = inf for x > log(2^128)  */
+  y = esl_sse_select_ps(y, _mm_set1_ps(0.0f),        minmask); /* exp(x) = 0   for x < log(2^-149) */
+  return y;
+}
+
+
+/*****************************************************************
+ * 2. Utilities for ps vectors (4 floats in a __m128)
+ *****************************************************************/ 
+
+void
+esl_sse_dump_ps(FILE *fp, __m128 v)
+{
+  float *p = (float *)&v;
+  fprintf(fp, "[%13.8g, %13.8g, %13.8g, %13.8g]", p[0], p[1], p[2], p[3]);
+}
+
+
+
+
+/*****************************************************************
+ * 3. Benchmark
+ *****************************************************************/
+#ifdef eslSSE_BENCHMARK
+
+/* gcc -msse2 -O3 -o benchmark-sse -I ~/src/hmmer/easel -L ~/src/hmmer/easel -DeslSSE_BENCHMARK -DHAVE_SSE2 esl_sse.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,"10000000", NULL, NULL,  NULL,  NULL, NULL, "number of trials",                                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "benchmark driver for sse module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  int             N       = esl_opt_GetInteger(go, "-N");
+  float           origx   = 2.0;
+  float           x       = origx;
+  __m128          xv      = _mm_set1_ps(x);
+  int             i;
+
+  /* First, serial time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) { x = logf(x); x = expf(x); }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# serial CPU time: ");
+ 
+  /* Vector time */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) { xv = esl_sse_logf(xv); xv = esl_sse_expf(xv); }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# vector CPU time: ");
+
+  /* If you don't do something with x and xv, the compiler may optimize them away */
+  printf("%g  => many scalar logf,expf cycles => %g\n", origx, x);
+  printf("%g  => many vector logf,expf cycles => ", origx);
+  esl_sse_dump_ps(stdout, xv); printf("\n");
+
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+#endif /*eslSSE_BENCHMARK*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef eslSSE_TESTDRIVE
+
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+/* utest_logf():  Test range/domain of logf */
+static void
+utest_logf(ESL_GETOPTS *go)
+{
+  __m128 x;			       /* test input  */
+  union { __m128 v; float x[4]; } r;   /* test output */
+  
+  /* Test IEEE754 specials: 
+   *    log(-inf) = NaN     log(x<0)  = NaN  log(-0)   = NaN
+   *    log(0)    = -inf    log(inf)  = inf  log(NaN)  = NaN
+   */
+  x   = _mm_set_ps(0.0, -0.0, -1.0, -eslINFINITY); /* set_ps() is in order 3 2 1 0 */
+  r.v =  esl_sse_logf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("logf");
+    esl_sse_dump_ps(stdout, x);    printf(" ==> ");
+    esl_sse_dump_ps(stdout, r.v);  printf("\n");
+  }
+  if (! isnan(r.x[0]))                 esl_fatal("logf(-inf) should be NaN");
+  if (! isnan(r.x[1]))                 esl_fatal("logf(-1)   should be NaN");
+  if (! isnan(r.x[2]))                 esl_fatal("logf(-0)   should be NaN");
+  if (! (r.x[3] < 0 && isinf(r.x[3]))) esl_fatal("logf(0)    should be -inf");
+
+  x   = _mm_set_ps(FLT_MAX, FLT_MIN, eslNaN, eslINFINITY);
+  r.v = esl_sse_logf(x);
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("logf");
+    esl_sse_dump_ps(stdout, x);    printf(" ==> ");
+    esl_sse_dump_ps(stdout, r.v);  printf("\n");
+  }
+  if (! isinf(r.x[0]))  esl_fatal("logf(inf)  should be inf");
+  if (! isnan(r.x[1]))  esl_fatal("logf(NaN)  should be NaN");
+
+}
+
+/* utest_expf():  Test range/domain of expf */
+static void
+utest_expf(ESL_GETOPTS *go)
+{
+  __m128 x;			       /* test input  */
+  union { __m128 v; float x[4]; } r;   /* test output */
+  
+  /* exp(-inf) = 0    exp(-0)  = 1   exp(0) = 1  exp(inf) = inf   exp(NaN)  = NaN */
+  x = _mm_set_ps(eslINFINITY, 0.0, -0.0, -eslINFINITY); /* set_ps() is in order 3 2 1 0 */
+  r.v =  esl_sse_expf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("expf");
+    esl_sse_dump_ps(stdout, x);    printf(" ==> ");
+    esl_sse_dump_ps(stdout, r.v);  printf("\n");
+  }
+  if (r.x[0] != 0.0f)   esl_fatal("expf(-inf) should be 0");
+  if (r.x[1] != 1.0f)   esl_fatal("logf(-0)   should be 1");
+  if (r.x[2] != 1.0f)   esl_fatal("logf(0)    should be 1");
+  if (! isinf(r.x[3]))  esl_fatal("logf(inf)  should be inf");
+
+  /* exp(NaN) = NaN    exp(large)  = inf   exp(-large) = 0  exp(1) = exp(1) */
+  x = _mm_set_ps(1.0f, -666.0f, 666.0f, eslNaN); /* set_ps() is in order 3 2 1 0 */
+  r.v =  esl_sse_expf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("expf");
+    esl_sse_dump_ps(stdout, x);    printf(" ==> ");
+    esl_sse_dump_ps(stdout, r.v);  printf("\n");
+  }
+  if (! isnan(r.x[0]))  esl_fatal("expf(NaN)      should be NaN");
+  if (! isinf(r.x[1]))  esl_fatal("expf(large x)  should be inf");
+  if (r.x[2] != 0.0f)   esl_fatal("expf(-large x) should be 0");
+
+  /* Make sure we are correct around the problematic ~minlogf boundary:
+   *  (1) e^x for x < -127.5 log2 + epsilon is 0, because that's our minlogf barrier.
+   *  (2) e^x for  -127.5 log2 < x < -126.5 log2 is 0 too, but is actually calculated
+   *  (3) e^x for  -126.5 log2 < x should be finite (and close to FLT_MIN)
+   *
+   *  minlogf = -127.5 log(2) + epsilon = -88.3762626647949;
+   *        and -126.5 log(2)           = -87.68311834
+   *  so for
+   *     (1): expf(-88.3763)  => 0
+   *     (2): expf(-88.3762)  => 0
+   *     (3): expf(-87.6832)   => 0
+   *     (4): expf(-87.6831)   => <FLT_MIN (subnormal) : ~8.31e-39 (may become 0 in flush-to-zero mode for subnormals)
+   */
+  x   = _mm_set_ps(-88.3763, -88.3762, -87.6832, -87.6831);
+  r.v = esl_sse_expf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("expf");
+    esl_sse_dump_ps(stdout, x);    printf(" ==> ");
+    esl_sse_dump_ps(stdout, r.v);  printf("\n");
+  }
+  if ( r.x[0] >= FLT_MIN) esl_fatal("expf( -126.5 log2 + eps) should be around FLT_MIN");
+  if ( r.x[1] != 0.0f)    esl_fatal("expf( -126.5 log2 - eps) should be 0.0 (by calculation)");
+  if ( r.x[2] != 0.0f)    esl_fatal("expf( -127.5 log2 + eps) should be 0.0 (by calculation)");
+  if ( r.x[3] != 0.0f)    esl_fatal("expf( -127.5 log2 - eps) should be 0.0 (by min bound): %g", r.x[0]);
+}
+
+/* utest_odds():  test accuracy of logf, expf on odds ratios,
+ * our main intended use.
+ */
+static void
+utest_odds(ESL_GETOPTS *go, ESL_RANDOMNESS *r)
+{
+  int    N            = esl_opt_GetInteger(go, "-N");
+  int    verbose      = esl_opt_GetBoolean(go, "-v");
+  int    very_verbose = esl_opt_GetBoolean(go, "--vv");
+  int    i;
+  float  p1, p2, odds;
+  union { __m128 v; float x[4]; } r1;   
+  union { __m128 v; float x[4]; } r2;   
+  float  scalar_r1, scalar_r2;
+  double  err1, maxerr1 = 0.0, avgerr1 = 0.0; /* errors on logf() */
+  double  err2, maxerr2 = 0.0, avgerr2 = 0.0; /* errors on expf() */
+
+  for (i = 0; i < N; i++)
+    {
+      p1    = esl_rnd_UniformPositive(r);
+      p2    = esl_rnd_UniformPositive(r);
+      odds  = p1 / p2;
+
+      if (odds == 0.0) esl_fatal("whoa, odds ratio can't be 0!\n");
+
+      r1.v      = esl_sse_logf(_mm_set1_ps(odds));  /* r1.x[z] = log(p1/p2) */
+      scalar_r1 = log(odds);
+
+      err1       = (r1.x[0] == 0. && scalar_r1 == 0.) ? 0.0 : 2 * fabs(r1.x[0] - scalar_r1) / fabs(r1.x[0] + scalar_r1);
+      if (err1 > maxerr1) maxerr1 = err1;
+      avgerr1   += err1 / (float) N;
+      if (isnan(avgerr1)) esl_fatal("whoa, what?\n");
+
+      r2.v      = esl_sse_expf(r1.v);        /* and back to odds */
+      scalar_r2 = exp(r1.x[0]);
+
+      err2       = (r2.x[0] == 0. && scalar_r2 == 0.) ? 0.0 : 2 * fabs(r2.x[0] - scalar_r2) / fabs(r2.x[0] + scalar_r2);
+      if (err2 > maxerr2) maxerr2 = err2;
+      avgerr2   += err2 / (float) N;
+
+      if (very_verbose) 
+	printf("%13.7g  %13.7g  %13.7g  %13.7g  %13.7g  %13.7g  %13.7g\n", odds, scalar_r1, r1.x[0], scalar_r2, r2.x[0], err1, err2);
+    }
+
+  if (verbose) {
+    printf("Average [max] logf() relative error in %d odds trials:  %13.8g  [%13.8g]\n", N, avgerr1, maxerr1);
+    printf("Average [max] expf() relative error in %d odds trials:  %13.8g  [%13.8g]\n", N, avgerr2, maxerr2);
+    printf("(random seed : %" PRIu32 ")\n", esl_randomness_GetSeed(r));
+  }
+
+  if (avgerr1 > 1e-8) esl_fatal("average error on logf() is intolerable\n");
+  if (maxerr1 > 1e-6) esl_fatal("maximum error on logf() is intolerable\n");
+  if (avgerr2 > 1e-8) esl_fatal("average error on expf() is intolerable\n");
+  if (maxerr2 > 1e-6) esl_fatal("maximum error on expf() is intolerable\n");
+}
+#endif /*eslSSE_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+
+#ifdef eslSSE_TESTDRIVE
+/* gcc -msse2 -g -Wall -o test -I. -L. -DeslSSE_TESTDRIVE esl_sse.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,  "10000",  NULL, NULL,  NULL,  NULL, NULL, "number of random test points",                     0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-v",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "be verbose: show test report",                     0 },
+  { "--vv",      eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "be very verbose: show individual test samples",    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for sse module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r  = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));;
+
+  utest_logf(go);
+  utest_expf(go);
+  utest_odds(go, r);
+
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslSSE_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+
+#ifdef eslSSE_EXAMPLE
+/*::cexcerpt::sse_example::begin::*/
+/* gcc -msse2 -g -Wall -o example -I. -L. -DeslSSE_EXAMPLE esl_sse.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_sse.h"
+
+int
+main(int argc, char **argv)
+{
+  float    x;                           /* scalar input */
+  __m128   xv;                          /* input vector */
+  union { __m128 v; float x[4]; } rv;   /* result vector*/
+
+  x    = 2.0;
+  xv   = _mm_set1_ps(x);
+  rv.v = esl_sse_logf(xv);
+  printf("logf(%f) = %f\n", x, rv.x[0]);
+  
+  rv.v = esl_sse_expf(xv);
+  printf("expf(%f) = %f\n", x, rv.x[0]);
+
+  return 0;
+}
+/*::cexcerpt::sse_example::end::*/
+#endif /*eslSSE_EXAMPLE*/
+
+
+#else /* ! HAVE_SSE2*/
+
+/* If we don't have SSE2 compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+#include "easel.h"
+
+void esl_sse_DoAbsolutelyNothing(void) { return; }
+#if defined eslSSE_TESTDRIVE || eslSSE_EXAMPLE || eslSSE_BENCHMARK
+int main(void) { return 0; }
+#endif
+
+#endif /* HAVE_SSE2 or not*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_sse.c 798 2012-08-28 19:57:41Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sse.c $
+ *****************************************************************/
+
+/* Additionally, esl_sse_logf() and esl_sse_expf() are 
+ *  Copyright (C) 2007 Julien Pommier
+ *  Copyright (C) 1992 Stephen Moshier 
+ *
+ * These functions derived from zlib-licensed routines by
+ * Julien Pommier, http://gruntthepeon.free.fr/ssemath/. The
+ * zlib license:
+ */
+
+/* Copyright (C) 2007  Julien Pommier
+
+  This software is provided 'as-is', without any express or implied
+  warranty.  In no event will the authors be held liable for any damages
+  arising from the use of this software.
+
+  Permission is granted to anyone to use this software for any purpose,
+  including commercial applications, and to alter it and redistribute it
+  freely, subject to the following restrictions:
+
+  1. The origin of this software must not be misrepresented; you must not
+     claim that you wrote the original software. If you use this software
+     in a product, an acknowledgment in the product documentation would be
+     appreciated but is not required.
+  2. Altered source versions must be plainly marked as such, and must not be
+     misrepresented as being the original software.
+  3. This notice may not be removed or altered from any source distribution.
+*/
+
+/* In turn, Pommier had derived the logf() and expf() functions from
+ * serial versions in the Cephes math library. According to its
+ * readme, Cephes is "copyrighted by the author" and "may be used
+ * freely but it comes with no support or guarantee."  Cephes is
+ * available in NETLIB [http://www.netlib.org/cephes/]. NETLIB is
+ * widely considered to be a free scientific code repository, though
+ * the copyright and license status of many parts, including Cephes,
+ * is ill-defined. We have attached Moshier's copyright,
+ * to credit his original contribution. Thanks to both Pommier and
+ * Moshier for their clear code.
+ */
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.h
new file mode 100755
index 0000000..800d4d7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.h
@@ -0,0 +1,247 @@
+
+/* Vectorized routines for Intel/AMD, using Streaming SIMD Extensions (SSE).
+ *
+ * This header file, unusually, provides many complete function
+ * implementations; this is so that they can be inlined by the
+ * compiler, for maximum efficiency.
+ * 
+ * Contents:
+ *    1. Function declarations (from esl_sse.c)
+ *    2. Inlined utilities for ps vectors (4 floats in __m128)
+ *    3. Inlined utilities for epu8 vectors (16 uchars in __m128i)
+ */
+#ifdef HAVE_SSE2
+#ifndef eslSSE_INCLUDED
+#define eslSSE_INCLUDED
+
+#include "easel.h"
+
+#include <stdio.h>
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+/* Some compilers (gcc 3.4) did not implement SSE2 cast functions 
+ * on the theory that they're unnecessary no-ops -- but then
+ * code that has proper SSE cast calls doesn't compile. Provide 
+ * the no-ops.
+ */
+#ifndef HAVE_SSE2_CAST
+#define _mm_castps_si128(x) (__m128i)(x)
+#define _mm_castsi128_ps(x) (__m128)(x)
+#endif
+
+
+
+/*****************************************************************
+ * 1. Function declarations (from esl_sse.c)
+ *****************************************************************/
+extern __m128  esl_sse_logf(__m128 x);
+extern __m128  esl_sse_expf(__m128 x);
+extern void    esl_sse_dump_ps(FILE *fp, __m128 v);
+
+
+/*****************************************************************
+ * 2. Inline utilities for ps vectors (4 floats in __m128)
+ *****************************************************************/
+
+/* Function:  esl_sse_select_ps()
+ * Synopsis:  SSE equivalent of <vec_sel()>
+ *
+ * Purpose:   Vector select. Returns a vector <r[z] = a[z]> where <mask[z]>
+ *            is all 0's; <r[z] = b[z]> where <mask[z]> is all 1's.
+ *            
+ *            Useful for avoiding conditional branches. For example,
+ *            to implement \ccode{if (a > 0) a += a;}:
+ *            
+ *            \begin{cchunk}
+ *              mask = _mm_cmpgt_ps(a, _mm_setzero_ps());
+ *              twoa = _mm_add_ps(a, a);
+ *              a    = esl_sse_select_ps(a, twoa, mask);
+ *            \end{cchunk}
+ *
+ * Notes:     As recommended by the Altivec/SSE Migration Guide,
+ *            Apple Computer, Inc.
+ */
+static inline __m128
+esl_sse_select_ps(__m128 a, __m128 b, __m128 mask)
+{
+  b = _mm_and_ps(b, mask);
+  a = _mm_andnot_ps(mask, a);
+  return _mm_or_ps(a,b);
+}
+
+/* Function:  esl_sse_any_gt_ps()
+ * Synopsis:  Returns TRUE if any a[z] > b[z]
+ *
+ * Purpose:   Returns TRUE if any a[z] > b[z] in two
+ *            <ps> vectors of floats.
+ *
+ * Xref:      From Apple Altivec/SSE migration guide.
+ */
+static inline int 
+esl_sse_any_gt_ps(__m128 a, __m128 b)
+{
+  __m128 mask    = _mm_cmpgt_ps(a,b);
+  int   maskbits = _mm_movemask_ps( mask );
+  return maskbits != 0;
+}
+
+
+/* Function:  esl_sse_hmax_ps()
+ * Synopsis:  Find the maximum of elements in a vector.
+ *
+ * Purpose:   Find the maximum valued element in the four float elements
+ *            in <a>, and return that maximum value in <*ret_max>.
+ *            
+ * Xref:      J3/90 for benchmarking of some alternative implementations.
+ */
+static inline void
+esl_sse_hmax_ps(__m128 a, float *ret_max)
+{
+  a = _mm_max_ps(a, _mm_shuffle_ps(a, a, _MM_SHUFFLE(0, 3, 2, 1)));
+  a = _mm_max_ps(a, _mm_shuffle_ps(a, a, _MM_SHUFFLE(1, 0, 3, 2)));
+  _mm_store_ss(ret_max, a);
+}
+
+
+/* Function:  esl_sse_hmin_ps()
+ * Synopsis:  Find the minimum of elements in a vector.
+ *
+ * Purpose:   Find the minimum valued element in the four float elements
+ *            in <a> and return that minimum value in <*ret_min>.
+ */
+static inline void
+esl_sse_hmin_ps(__m128 a, float *ret_min)
+{
+  a = _mm_min_ps(a, _mm_shuffle_ps(a, a, _MM_SHUFFLE(0, 3, 2, 1)));
+  a = _mm_min_ps(a, _mm_shuffle_ps(a, a, _MM_SHUFFLE(1, 0, 3, 2)));
+  _mm_store_ss(ret_min, a);
+}
+
+/* Function:  esl_sse_hsum_ps()
+ * Synopsis:  Takes the horizontal sum of elements in a vector.
+ *
+ * Purpose:   Add the four float elements in vector <a>; return
+ *            that sum in <*ret_sum>.
+ */
+static inline void
+esl_sse_hsum_ps(__m128 a, float *ret_sum)
+{
+  a = _mm_add_ps(a, _mm_shuffle_ps(a, a, _MM_SHUFFLE(0, 3, 2, 1)));
+  a = _mm_add_ps(a, _mm_shuffle_ps(a, a, _MM_SHUFFLE(1, 0, 3, 2)));
+  _mm_store_ss(ret_sum, a);
+}
+
+
+/* Function:  esl_sse_rightshift_ps()
+ * Synopsis:  Shift vector elements to the right.
+ *
+ * Purpose:   Returns a vector containing
+ *            <{ b[0] a[0] a[1] a[2] }>:
+ *            i.e. shift the values in <a> to the
+ *            right, and load the first value of 
+ *            <b> into the first slot.
+ */
+static inline __m128 
+esl_sse_rightshift_ps(__m128 a, __m128 b)
+{
+  return _mm_move_ss(_mm_shuffle_ps(a, a, _MM_SHUFFLE(2, 1, 0, 0)), b);
+}
+
+/* Function:  esl_sse_leftshift_ps()
+ * Synopsis:  Shift vector elements to the left.
+ *
+ * Purpose:   Returns a vector containing
+ *            <{ a[1] a[2] a[3] b[0]}>:
+ *            i.e. shift the values in <a> to the
+ *            left and load the first value of 
+ *            <b> into the first slot.
+ */
+static inline __m128
+esl_sse_leftshift_ps(__m128 a, __m128 b)
+{
+  register __m128 v = _mm_move_ss(a, b);                 /* now b[0] a[1] a[2] a[3] */
+  return _mm_shuffle_ps(v, v, _MM_SHUFFLE(0, 3, 2, 1));  /* now a[1] a[2] a[3] b[0] */
+}
+
+
+
+/*****************************************************************
+ * 3. Inlined utilities for epu8 vectors (16 uchars in __m128i)
+ *****************************************************************/ 
+
+/* Function:  esl_sse_any_gt_epu8()
+ * Synopsis:  Returns TRUE if any a[z] > b[z].
+ *
+ * Purpose:   Return TRUE if any <a[z] > b[z]> for <z=0..15>
+ *            in two <epu8> vectors of unsigned chars.
+ *            
+ *            We need this incantation because SSE provides
+ *            no <cmpgt_epu8> instruction.
+ *            
+ *            For equality tests, note that <cmpeq_epi8> works fine
+ *            for unsigned ints though there is no <cmpeq_epu8>
+ *            instruction either).
+ * 
+ *            See vec_any_gt
+ */
+static inline int 
+esl_sse_any_gt_epu8(__m128i a, __m128i b)
+{
+  __m128i mask    = _mm_cmpeq_epi8(_mm_max_epu8(a,b), b); /* anywhere a>b, mask[z] = 0x0; elsewhere 0xff */
+  int   maskbits  = _mm_movemask_epi8(_mm_xor_si128(mask,  _mm_cmpeq_epi8(mask, mask))); /* the xor incantation is a bitwise inversion */
+  return maskbits != 0;
+}
+static inline int 
+esl_sse_any_gt_epi16(__m128i a, __m128i b)
+{
+  return (_mm_movemask_epi8(_mm_cmpgt_epi16(a,b)) != 0); 
+}
+
+
+/* Function:  esl_sse_hmax_epu8()
+ * Synopsis:  Return the max of the 16 elements in epu8 vector.
+ *
+ * Purpose:   Returns the maximum value of the 16 elements in
+ *            an <epu8> vector.
+ */
+static inline uint8_t
+esl_sse_hmax_epu8(__m128i a)
+{
+  a = _mm_max_epu8(a, _mm_srli_si128(a, 8));
+  a = _mm_max_epu8(a, _mm_srli_si128(a, 4));
+  a = _mm_max_epu8(a, _mm_srli_si128(a, 2));
+  a = _mm_max_epu8(a, _mm_srli_si128(a, 1));
+  return (uint8_t) _mm_extract_epi16(a, 0);   /* only low-order 8 bits set; so _epi16 or _epi8 equiv; _epi8 is SSE4.1 */
+}
+
+/* Function:  esl_sse_hmax_epi16()
+ * Synopsis:  Return the max of the 8 elements in epi16 vector.
+ *
+ * Purpose:   Returns the maximum value of the 16 elements in
+ *            an <epu8> vector.
+ */
+static inline int16_t
+esl_sse_hmax_epi16(__m128i a)
+{
+  a = _mm_max_epi16(a, _mm_srli_si128(a, 8));
+  a = _mm_max_epi16(a, _mm_srli_si128(a, 4));
+  a = _mm_max_epi16(a, _mm_srli_si128(a, 2));
+  return (int16_t) _mm_extract_epi16(a, 0);   /* only low-order 8 bits set; so _epi16 or _epi8 equiv; _epi8 is SSE4.1 */
+}
+
+
+#endif /*eslSSE_INCLUDED*/
+#endif /*HAVE_SSE2*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_sse.h 745 2012-02-07 13:15:41Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_sse.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.tex
new file mode 100755
index 0000000..de01d07
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_sse.tex
@@ -0,0 +1,39 @@
+
+The \eslmod{sse} module provides a few vectorized functions that use
+the Intel/AMD SSE (Streaming SIMD Extensions) Intrinsics: most
+importantly, vectorized \ccode{logf()} and \ccode{expf()} routines.
+
+The \eslmod{sse} module is only available on platforms that support
+SSE2 instructions. This includes all modern Intel and AMD processors,
+but nor PowerPC processors. By default, the Easel configure script
+enables SSE if it is available on the compilation machine.
+
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_sse_logf()}{\ccode{esl\_sse\_logf()}} & \ccode{r[z] = log x[z]}\\
+\hyperlink{func:esl_sse_expf()}{\ccode{esl\_sse\_expf()}} & \ccode{r[z] = exp x[z]}\\
+%\hyperlink{func:esl_sse_select_ps()}{\ccode{esl\_sse\_select\_ps()}} & SSE equivalent of \ccode{vec\_sel()}\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{sse} API.}
+\label{tbl:sse_api}
+\end{table}
+
+\subsection{An example of using the sse API}
+
+Figure~\ref{fig:sse_example} shows an example of calculating
+\ccode{logf()} and \ccode{expf()} on an SSE \ccode{\_\_m128} vector
+containing four floats. It also shows a useful \ccode{union} idiom for
+accessing four floats either as an SSE vector or as individual floats.
+
+\begin{figure}[ht]
+\input{cexcerpts/sse_example}
+\caption{An example of using the \eslmod{sse} module.}
+\label{fig:sse_example}
+\end{figure}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.c
new file mode 100755
index 0000000..408a2b4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.c
@@ -0,0 +1,2033 @@
+/* sequence/subsequence indices: fast lookup in large sequence files by keyword.
+ *
+ *  1. Using (reading) an SSI index.
+ *  2. Creating (writing) new SSI files.
+ *  3. Portable binary i/o.
+ *  4. Test driver.
+ *  5. Example code.
+ *  6. License and copyright information.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_ssi.h"
+
+static uint32_t v30magic = 0xd3d3c9b3; /* SSI 3.0: "ssi3" + 0x80808080 */
+static uint32_t v30swap  = 0xb3c9d3d3; /* byteswapped */
+
+
+/*****************************************************************
+ *# 1. Using (reading) an SSI index.
+ *****************************************************************/ 
+
+static int  binary_search(ESL_SSI *ssi, const char *key, uint32_t klen, off_t base, 
+			  uint32_t recsize, uint64_t maxidx);
+
+/* Function:  esl_ssi_Open()
+ * Synopsis:  Open an SSI index as an <ESL_SSI>.
+ *
+ * Purpose:   Open the SSI index file <filename>, and returns a pointer
+ *            to the new <ESL_SSI> object in <ret_ssi>.
+ *            
+ *            Caller is responsible for closing the SSI file with
+ *            <esl_ssi_Close()>.
+ *
+ * Args:      <filename>   - name of SSI index file to open.       
+ *            <ret_ssi>    - RETURN: the new <ESL_SSI>.
+ *                        
+ * Returns:   <eslOK>        on success;
+ *            <eslENOTFOUND> if <filename> cannot be opened for reading;
+ *            <eslEFORMAT>   if it's not in correct SSI file format;
+ *            <eslERANGE>    if it uses 64-bit file offsets, and we're on a system
+ *                           that doesn't support 64-bit file offsets.
+ *            
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_ssi_Open(const char *filename, ESL_SSI **ret_ssi)
+{
+  ESL_SSI *ssi = NULL;
+  int      status;
+  uint32_t magic;	/* magic number that starts the SSI file */
+  uint16_t i;		/* counter over files */
+
+  /* Initialize the SSI structure, null'ing so we can autocleanup.
+   */
+  ESL_ALLOC(ssi, sizeof(ESL_SSI));
+  ssi->fp         = NULL;
+  ssi->filename   = NULL;
+  ssi->fileformat = NULL;
+  ssi->fileflags  = NULL;
+  ssi->bpl        = NULL;
+  ssi->rpl        = NULL;
+  ssi->nfiles     = 0;          
+
+  /* Open the file.
+   */
+  status = eslENOTFOUND; 
+  if ((ssi->fp = fopen(filename, "rb")) == NULL) goto ERROR; 
+
+  /* Read the magic number: make sure it's an SSI file, and determine
+   * whether it's byteswapped.
+   */
+  status = eslEFORMAT;
+  if (esl_fread_u32(ssi->fp, &magic)        != eslOK) goto ERROR;
+  if (magic != v30magic && magic != v30swap)          goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->flags)) != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->offsz)) != eslOK) goto ERROR;
+
+  status = eslERANGE;
+  if (ssi->offsz != 4 && ssi->offsz != 8) goto ERROR;
+  if (ssi->offsz > sizeof(off_t))         goto ERROR;
+
+  /* The header data. */
+  status = eslEFORMAT;
+  if (esl_fread_u16(ssi->fp, &(ssi->nfiles))     != eslOK) goto ERROR;
+  if (esl_fread_u64(ssi->fp, &(ssi->nprimary))   != eslOK) goto ERROR;
+  if (esl_fread_u64(ssi->fp, &(ssi->nsecondary)) != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->flen))       != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->plen))       != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->slen))       != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->frecsize))   != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->precsize))   != eslOK) goto ERROR;
+  if (esl_fread_u32(ssi->fp, &(ssi->srecsize))   != eslOK) goto ERROR;
+  
+  if (esl_fread_offset(ssi->fp, ssi->offsz, &(ssi->foffset)) != eslOK) goto ERROR;
+  if (esl_fread_offset(ssi->fp, ssi->offsz, &(ssi->poffset)) != eslOK) goto ERROR;
+  if (esl_fread_offset(ssi->fp, ssi->offsz, &(ssi->soffset)) != eslOK) goto ERROR;
+
+  /* The file information.
+   * We expect the number of files to be small, so reading it once
+   * should be advantageous overall. If SSI ever had to deal with
+   * large numbers of files, you'd probably want to read file
+   * information on demand.
+   */
+  status = eslEFORMAT;
+  if (ssi->nfiles == 0) goto ERROR;
+
+  ESL_ALLOC(ssi->filename,   sizeof(char *) * ssi->nfiles);
+  for (i = 0; i < ssi->nfiles; i++)  ssi->filename[i] = NULL; 
+  ESL_ALLOC(ssi->fileformat, sizeof(uint32_t) * ssi->nfiles);
+  ESL_ALLOC(ssi->fileflags,  sizeof(uint32_t) * ssi->nfiles);
+  ESL_ALLOC(ssi->bpl,        sizeof(uint32_t) * ssi->nfiles);
+  ESL_ALLOC(ssi->rpl,        sizeof(uint32_t) * ssi->nfiles);
+
+  /* (most) allocations done, now we read. */
+  for (i = 0; i < ssi->nfiles; i++) 
+    {
+      ESL_ALLOC(ssi->filename[i], sizeof(char)* ssi->flen);
+      /* We do have to explicitly position, because header and file 
+       * records may expand in the future; frecsize and foffset 
+       * give us forwards compatibility. 
+       */ 
+      status = eslEFORMAT;
+      if (fseeko(ssi->fp, ssi->foffset + (i * ssi->frecsize), SEEK_SET) != 0) goto ERROR;
+      if (fread(ssi->filename[i],sizeof(char),ssi->flen, ssi->fp)!=ssi->flen) goto ERROR;
+      if (esl_fread_u32(ssi->fp, &(ssi->fileformat[i])))                      goto ERROR;
+      if (esl_fread_u32(ssi->fp, &(ssi->fileflags[i])))                       goto ERROR;
+      if (esl_fread_u32(ssi->fp, &(ssi->bpl[i])))                             goto ERROR;
+      if (esl_fread_u32(ssi->fp, &(ssi->rpl[i])))                             goto ERROR;
+    }
+  *ret_ssi = ssi;
+  return eslOK;
+  
+ ERROR:
+  if (ssi != NULL) esl_ssi_Close(ssi);
+  *ret_ssi = NULL;
+  return status;
+}
+
+
+/* Function: esl_ssi_FindName()
+ * Synopsis: Look up a primary or secondary key.
+ *
+ * Purpose:  Looks up the string <key> in index <ssi>.
+ *           <key> can be either a primary or secondary key. If <key>
+ *           is found, <ret_fh> contains a unique handle on
+ *           the file that contains <key> (suitable for an <esl_ssi_FileInfo()>
+ *           call, or for comparison to the handle of the last file
+ *           that was opened for retrieval), and <ret_offset> contains
+ *           the offset of the sequence record in that file.
+ *           
+ * Args:     <ssi>         - open index file
+ *           <key>         - name to search for
+ *           <ret_fh>      - RETURN: handle on file that key is in
+ *           <ret_roff>    - RETURN: offset of the start of that key's record
+ *           <opt_doff>    - optRETURN: data offset (may be 0 if unset)
+ *           <opt_L>       - optRETURN: length of data record (may be 0 if unset)                
+ *
+ * Returns:  <eslOK>        on success;
+ *           <eslENOTFOUND> if no such key is in the index;
+ *           <eslEFORMAT>   if an fread() or fseeko() fails, which almost
+ *                          certainly reflects some kind of misformatting of
+ *                          the index.
+ *
+ * Throws:   <eslEMEM>      on allocation error.
+ */
+int
+esl_ssi_FindName(ESL_SSI *ssi, const char *key, uint16_t *ret_fh, off_t *ret_roff, off_t *opt_doff, int64_t *opt_L)
+{
+  int       status;
+  off_t     doff;
+  int64_t   L;
+  char     *pkey   = NULL;
+
+  /* Look in the primary keys.
+   */
+  status = binary_search(ssi, key, ssi->plen, ssi->poffset, ssi->precsize,
+			 ssi->nprimary);
+
+  if (status == eslOK) 
+    { /* We found it as a primary key; get our data & return. */
+      status = eslEFORMAT;
+      if (esl_fread_u16(ssi->fp, ret_fh)                  != eslOK) goto ERROR;
+      if (esl_fread_offset(ssi->fp, ssi->offsz, ret_roff) != eslOK) goto ERROR;
+      if (esl_fread_offset(ssi->fp, ssi->offsz, &doff)    != eslOK) goto ERROR;
+      if (esl_fread_i64   (ssi->fp, &L)                   != eslOK) goto ERROR;
+    } 
+  else if (status == eslENOTFOUND) 
+    { /* Not in the primary keys? OK, try the secondary keys. */
+      if (ssi->nsecondary > 0) {
+	if ((status = binary_search(ssi, key, ssi->slen, ssi->soffset, ssi->srecsize, ssi->nsecondary)) != eslOK) goto ERROR;
+
+	/* We have the secondary key; flip to its primary key, then look that up. */
+	ESL_ALLOC(pkey, sizeof(char) * ssi->plen);
+	status = eslEFORMAT;
+	if (fread(pkey, sizeof(char), ssi->plen, ssi->fp) != ssi->plen) goto ERROR;
+	if ((status = esl_ssi_FindName(ssi, pkey, ret_fh, ret_roff, &doff, &L)) != eslOK) goto ERROR;
+      } else goto ERROR;	/* no secondary keys? pass along the ENOTFOUND error. */
+    } else goto ERROR;	/* status from binary search was an error code. */
+
+  if (pkey != NULL) free(pkey);
+  if (opt_doff != NULL) *opt_doff = doff;
+  if (opt_L    != NULL) *opt_L    = L;
+  return eslOK;
+
+ ERROR:
+  if (pkey != NULL) free(pkey);
+  *ret_fh   = 0;
+  *ret_roff = 0;
+  if (opt_doff != NULL) *opt_doff = 0;
+  if (opt_L    != NULL) *opt_L    = 0;
+  return status;
+}
+
+
+
+/* Function:  esl_ssi_FindNumber()
+ * Synopsis:  Look up the n'th primary key.
+ *
+ * Purpose:   Looks up primary key number <nkey> in the open index
+ *            <ssi>.  <nkey> ranges from <0..ssi->nprimary-1>. When
+ *            key <nkey> is found, any/all of several optional
+ *            arguments point to results. <*opt_fh> contains a unique
+ *            handle on the file that contains that key (suitable for
+ *            an <esl_ssi_FileInfo()> call, or for comparison to the
+ *            handle of the last file that was opened for retrieval).
+ *            <*opt_roff> contains the record offset; <*opt_doff>
+ *            contains the data offset; <*opt_L> contains the record
+ *            length; and <*opt_pkey> points to the primary key name
+ *            (a string, allocated here, that the caller becomes
+ *            responsible for free'ing).
+ *           
+ * Args:      <ssi>        - open index file
+ *            <nkey>       - primary key number to retrieve (0..nprimary-1)
+ *            <opt_fh>     - optRETURN: handle on file that key is in
+ *            <opt_roff>   - optRETURN: offset of the start of that key's record
+ *            <opt_doff>   - optRETURN: data offset (may be 0 if unset)
+ *            <opt_L>      - optRETURN: length of data record (may be 0 if unset)                
+ *            <opt_pkey>   - optRETURN: primary key name (allocated here; caller must free)
+ *
+ * Returns:   <eslOK>        on success;
+ *            <eslENOTFOUND> if there is no sequence record <nkey>;
+ *            <eslEFORMAT>   if a read or a seek fails, probably indicating
+ *                           some kind of file misformatting.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_ssi_FindNumber(ESL_SSI *ssi, int64_t nkey, uint16_t *opt_fh, off_t *opt_roff, off_t *opt_doff, int64_t *opt_L, char **opt_pkey)
+{
+  int      status;
+  uint16_t fh;
+  off_t    doff, roff;
+  uint64_t L;
+  char    *pkey = NULL;
+
+  if (nkey >= ssi->nprimary) { status = eslENOTFOUND; goto ERROR; }
+  ESL_ALLOC(pkey, sizeof(char) * ssi->plen);
+
+  status = eslEFORMAT;
+  if (fseeko(ssi->fp, ssi->poffset+ssi->precsize*nkey, SEEK_SET)!= 0) goto ERROR;
+  if (fread(pkey, sizeof(char), ssi->plen, ssi->fp)   != ssi->plen)   goto ERROR;
+  if (esl_fread_u16(ssi->fp, &fh)                     != eslOK)       goto ERROR;
+  if (esl_fread_offset(ssi->fp, ssi->offsz, &roff)    != eslOK)       goto ERROR;
+  if (esl_fread_offset(ssi->fp, ssi->offsz, &doff)    != eslOK)       goto ERROR;
+  if (esl_fread_u64   (ssi->fp, &L)                   != eslOK)       goto ERROR;
+
+  if (opt_fh   != NULL) *opt_fh   = fh;
+  if (opt_roff != NULL) *opt_roff = roff;
+  if (opt_doff != NULL) *opt_doff = doff;
+  if (opt_L    != NULL) *opt_L    = L;
+  if (opt_pkey != NULL) *opt_pkey = pkey; else free(pkey);
+  return eslOK;
+
+ ERROR:
+  if (pkey     != NULL) free(pkey);
+  if (opt_fh   != NULL) *opt_fh   = 0;
+  if (opt_roff != NULL) *opt_roff = 0;
+  if (opt_doff != NULL) *opt_doff = 0;
+  if (opt_L    != NULL) *opt_L    = 0;
+  if (opt_pkey != NULL) *opt_pkey = NULL;
+  return status;
+}
+
+
+/* Function: esl_ssi_FindSubseq()
+ * Synopsis: Look up a specific subsequence's start.
+ * Date:     SRE, Mon Jan  1 19:49:31 2001 [St. Louis]
+ *
+ * Purpose:  Fast subsequence retrieval: look up a primary or secondary
+ *           <key> in the open index <ssi>, and ask for the nearest data
+ *           offset to a subsequence starting at residue
+ *           <requested_start> in the sequence (numbering the sequence
+ *           <1..L>).  If <key> is found, on return, <ret_fh> contains
+ *           a unique handle on the file that contains <key>;
+ *           <ret_roff> contains the disk offset to the start of the
+ *           sequence record; <ret_doff> contains the disk offset
+ *           (see below); and <ret_actual_start) contains the coordinate
+ *           (1..L) of the first valid residue at or after
+ *           <data_offset>. <ret_actual_start> is $\leq$
+ *           <requested_start>.
+ *           
+ *           Depending on the file's characteristics, there are four
+ *           possible outcomes.
+ *           
+ *           If the file has the <eslSSI_FASTSUBSEQ> flag set, a data
+ *           offset was indexed for this key, and the data can be
+ *           indexed at single residue resolution (because the file's
+ *           lines contain only residues, no spaces), then <ret_doff>
+ *           is exactly the position of residue <requested_start> on
+ *           disk, and <ret_actual_start> is <requested_start>.
+ *           
+ *           If the file has the <eslSSI_FASTSUBSEQ> flag set, a data
+ *           offset was indexed for this key, but the data can only be
+ *           indexed at line resolution (because at least some of the
+ *           file's lines contain spaces), then <ret_doff> is the
+ *           position of the start of the line that <requested_start>
+ *           is on, and <ret_actual_start> is the coord <1..L> of the
+ *           first residue on that line.
+ *           
+ *           If the file does not have the <eslSSI_FASTSUBSEQ> flag
+ *           set (because lines contain a variable number of residues
+ *           and/or bytes), but a data offset was indexed for this
+ *           key, then we can still at least return that data offset,
+ *           but the caller is going to have to start from the
+ *           beginning of the data and read residues until it reaches
+ *           the desired <requested_start>. Now <ret_doff> is the
+ *           offset to the start of the first line of the sequence
+ *           data, and <ret_actual_start> is 1.
+ *           
+ *           If the key does not have a data offset indexed at all,
+ *           then regardless of the file's <eslSSI_FASTSUBSEQ>
+ *           setting, we can't calculate even the position of the
+ *           first line. In this case, <ret_doff> is 0 (for
+ *           unset/unknown), and <ret_actual_start> is <1>.
+ *           
+ *           A caller that's going to position the disk and read a
+ *           subseq must check for all four possible outcomes (pardon
+ *           redundancy with the above, but just to be clear, from the
+ *           caller's perspective now):
+ *           
+ *           If <ret_doff> is 0, no data offset information can be
+ *           calculated; the caller can still use <ret_roff> to
+ *           position the disk to the start of <key>'s record, but it
+ *           will need to parse the header to find the start of the
+ *           sequence data; then it will need to parse the sequence
+ *           data, skipping to residue <requested start>.
+ *           
+ *           If <ret_doff> is valid ($>0$), and <ret_actual_start> is
+ *           1, then caller may use <ret_doff> to position the disk to
+ *           the start of the first sequence data line, but will still
+ *           need to parse all the sequence data, counting and
+ *           skipping to residue <requested start>. This is equivalent
+ *           to (and in practice, not much more efficient than)
+ *           positioning to the record start and parsing the header to
+ *           locate the sequence data start. 
+ *           
+ *           If <ret_doff> is valid ($>0$), and <ret_actual_start> is
+ *           $>1$ but $<$ <requested_start>, then <ret_doff> is the
+ *           offset to the first byte of a line on which the
+ *           subsequence begins. The caller can position the disk
+ *           there, then start parsing, skipping <requested_start -
+ *           *ret_actual_start> residues to reach the
+ *           <requested_start>. (In the case where the subsequence
+ *           begins on the first line, then <ret_actual_start> will be
+ *           1, and the caller will have to handle this as the case
+ *           above.)
+ *           
+ *           If <<ret_doff> is valid ($>0$), and <ret_actual_start> is
+ *           $=$ <requested_start>, then <ret_doff> is the offset to a
+ *           byte in the file, such that the requested subsequence
+ *           starts at the next valid residue at or after that
+ *           position.  (The <ret_doff> would usually be exactly the
+ *           first residue of the subsequence, because we used single
+ *           residue resolution arithmetic to find it, but there's a
+ *           case where <requested_start> happens to be the first
+ *           residue of a line and we calculated <ret_doff> using
+ *           line-resolution arithmetic; in this latter case,
+ *           <ret_doff> could be pointing at a space before the first
+ *           subseq residue.) The caller may position the disk there
+ *           and start parsing immediately; the first valid residue
+ *           will be the start of the subsequence.
+ *
+ * Args:     <ssi>             - open index file
+ *           <key>             - primary or secondary key to find
+ *           <requested_start> - residue we'd like to start at (1..L)
+ *           <ret_fh>          - RETURN: handle for file the key is in
+ *           <ret_roff>        - RETURN: offset to start of sequence record
+ *           <ret_doff>        - RETURN: offset to closest start of subseq data, or 0. 
+ *           <ret_L>           - RETURN: length of <key> in residues (may be 0 if unset)
+ *           <ret_actual_start>- RETURN: coord (1..L) of residue at <ret_doff>
+ *
+ * Returns:  <eslOK>         on any of the four successful outcomes.
+ *           <eslENOTFOUND>  if no such key is found in the index;
+ *           <eslEFORMAT> on a read or seek failure, presumably meaning that
+ *                        the file is misformatted somehow;
+ *           <eslERANGE>  if <requested_start> isn't somewhere in the range
+ *                        <1..len> for the target sequence.
+ *                        
+ * Throws:   <eslEMEM> on allocation error.                       
+ */
+int
+esl_ssi_FindSubseq(ESL_SSI *ssi, const char *key, int64_t requested_start,
+		   uint16_t *ret_fh, off_t *ret_roff, off_t *ret_doff, int64_t *ret_L, int64_t *ret_actual_start)
+{
+  int      status;
+  uint64_t r, b, i, l;	/* tmp variables for "clarity", to match docs */
+  
+  /* Look up the key by name.
+   */
+  if ((status = esl_ssi_FindName(ssi, key, ret_fh, ret_roff, ret_doff, ret_L)) != eslOK) goto ERROR;
+  if (requested_start < 0 || requested_start > *ret_L) { status = eslERANGE; goto ERROR; }
+
+  /* Do we have a data offset for this key? If not, we're case 4.    */
+  /* Can we do fast subseq lookup on this file? If no, we're case 3. */
+  if (*ret_doff == 0 || ! (ssi->fileflags[*ret_fh] & eslSSI_FASTSUBSEQ))
+    {
+      *ret_actual_start = 1;
+      return eslOK;
+    }
+
+  /* Set up tmp variables for clarity of equations below,
+   * and to make them match tex documentation 
+   */
+  r = ssi->rpl[*ret_fh];         /* residues per line */
+  b = ssi->bpl[*ret_fh];         /* bytes per line    */
+  i = requested_start;	         /* start position 1..L */
+  l = (i-1)/r;		         /* data line # (0..) that the residue is on */
+  if (r == 0 || b == 0) { status = eslEINVAL; goto ERROR; }
+  
+  /* When b = r+1, there's nothing but sequence on each data line (and the \0).
+   * In this case, we know we can find each residue precisely: outcome #1.
+   */
+  if (b == r+1) 
+    {
+      *ret_doff        += l*b + (i-1)%r;
+      *ret_actual_start = requested_start;
+    } 
+  /* else, there's other stuff on seq lines - probably spaces - so the best
+   * we can do (without figuring out the spacing pattern and checking that
+   * it's consistent everywhere) is to position at start of relevant line.
+   */
+  else
+    { 
+      *ret_doff         += l*b;
+      *ret_actual_start = 1 + l*r;
+    }
+  return eslOK;
+
+ ERROR:
+  *ret_fh           = 0;
+  *ret_roff         = 0;
+  *ret_doff         = 0;
+  *ret_L            = 0;
+  *ret_actual_start = 0;
+  return status;
+}
+
+
+/* Function: esl_ssi_FileInfo()
+ * Synopsis: Retrieve a file name and format code.
+ * Date:     SRE, Tue Jan  2 10:31:01 2001 [St. Louis]
+ *
+ * Purpose:  Given a file number <fh> in an open index file
+ *           <ssi>, retrieve file name <ret_filename> and
+ *           the file format <ret_format>. 
+ *           
+ *           <ret_filename> is a pointer to a string maintained
+ *           internally by <ssi>. It should not be free'd; 
+ *           <esl_ssi_Close(ssi)> will take care of it.
+ *
+ * Args:     <ssi>          - open index file
+ *           <fh>           - handle on file to look up
+ *           <ret_filename> - RETURN: name of file n
+ *           <ret_format>   - RETURN: format code for file n
+ *
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEINVAL> if there is no such file number <fh>.
+ */
+int
+esl_ssi_FileInfo(ESL_SSI *ssi, uint16_t fh, char **ret_filename, int *ret_format)
+{
+  int status;
+
+  if (fh >= ssi->nfiles) ESL_XEXCEPTION(eslEINVAL, "no such file number");
+  *ret_filename = ssi->filename[fh];
+  *ret_format   = ssi->fileformat[fh];
+  return eslOK;
+
+ ERROR:
+  *ret_filename = NULL;
+  *ret_format   = 0;
+  return status;
+}
+
+
+/* Function:  esl_ssi_Close()
+ * Synopsis:  Close an SSI index.
+ *
+ * Purpose:   Close an open SSI index <ssi>.
+ * 
+ * Args:      <ssi>   - an open SSI index file.
+ */
+void
+esl_ssi_Close(ESL_SSI *ssi)
+{
+  int i;
+
+  if (ssi == NULL) return;
+
+  if (ssi->fp != NULL) fclose(ssi->fp);
+  if (ssi->filename != NULL) {
+    for (i = 0; i < ssi->nfiles; i++) 
+      if (ssi->filename[i] != NULL) free(ssi->filename[i]);
+    free(ssi->filename);
+  }
+  if (ssi->fileformat != NULL) free(ssi->fileformat);
+  if (ssi->fileflags  != NULL) free(ssi->fileflags);
+  if (ssi->bpl        != NULL) free(ssi->bpl);
+  if (ssi->rpl        != NULL) free(ssi->rpl);
+  free(ssi);
+}  
+
+
+/* binary_search()
+ * Date:     SRE, Sun Dec 31 16:05:03 2000 [St. Louis]
+ *
+ * Purpose:  Find <key> in an SSI index, by a binary search
+ *           in an alphabetically sorted list of keys. If successful,
+ *           return <eslOK>, and the index file is positioned to read
+ *           the rest of the data for that key. If unsuccessful, 
+ *           return <eslFAIL>, and the positioning of the index file
+ *           is left in an undefined state.
+ *
+ * Args:     <ssi>     - an open ESL_SSI
+ *           <key>     - key to find
+ *           <klen>    - key length to allocate (plen or slen from ssi)
+ *           <base>    - base offset (poffset or soffset)
+ *           <recsize> - size of each key record in bytes (precsize or srecsize)
+ *           <maxidx>  - # of keys (nprimary or nsecondary)
+ *
+ * Returns:  <eslOK> on success, and leaves file positioned for reading remaining
+ *           data for the key. 
+ *           
+ *           <eslENOTFOUND> if <key> is not found.
+ *           <eslEFORMAT>   if an fread() or fseeko() fails, probably indicating
+ *                          some kind of misformatting of the index file.
+ *
+ * Throws:   <eslEMEM> on allocation failure.
+ *           
+ */
+static int
+binary_search(ESL_SSI *ssi, const char *key, uint32_t klen, off_t base, 
+	      uint32_t recsize, uint64_t maxidx)
+{
+  char        *name;
+  uint64_t     left, right, mid;
+  int          cmp;
+  int          status;
+  
+  if (maxidx == 0) return eslENOTFOUND; /* special case: empty index */
+
+  ESL_ALLOC(name, (sizeof(char)*klen));
+
+  left  = 0;
+  right = maxidx-1;
+  while (1) {			/* A binary search: */
+    mid   = (left+right) / 2;	/* careful here. left+right potentially overflows if
+				   we didn't limit unsigned vars to signed ranges. */
+    status = eslEFORMAT;
+    if (fseeko(ssi->fp, base + recsize*mid, SEEK_SET) != 0)    goto ERROR;
+    if (fread(name, sizeof(char), klen, ssi->fp)      != klen) goto ERROR;
+
+    status = eslENOTFOUND;
+    cmp = strcmp(name, key);
+    if      (cmp == 0) break;	             /* found it!               */
+    else if (left >= right) goto ERROR;      /* no such key             */
+    else if (cmp < 0)       left  = mid+1;   /* it's still right of mid */
+    else if (cmp > 0) {
+      if (mid == 0) goto ERROR;              /* beware left edge case   */
+      else right = mid-1;                    /* it's left of mid        */
+    }
+  }
+
+  if (name != NULL) free(name);
+  return eslOK;  /* and ssi->fp is positioned to read the record. */
+
+ ERROR:
+  if (name != NULL) free(name);
+  return status; 
+}
+
+
+/*****************************************************************
+ *# 2. Creating (writing) new SSI files.
+ *****************************************************************/ 
+static int current_newssi_size(const ESL_NEWSSI *ns);
+static int activate_external_sort(ESL_NEWSSI *ns);
+static int parse_pkey(char *buf, ESL_PKEY *pkey);
+static int parse_skey(char *buf, ESL_SKEY *skey);
+static int pkeysort(const void *k1, const void *k2);
+static int skeysort(const void *k1, const void *k2);
+
+/* Function:  esl_newssi_Open()
+ * Synopsis:  Create a new <ESL_NEWSSI>.
+ *
+ * Purpose:   Creates and returns a <ESL_NEWSSI>, in order to create a 
+ *            new SSI index file.
+ *
+ * Returns:   <eslOK> on success, and <*ret_newssi> is a pointer to a
+ *            new <ESL_NEWSSI> structure.
+ *            
+ *            Returns <eslENOTFOUND> if <ssifile> can't be opened.
+ *
+ *            Returns <eslEOVERWRITE> if <allow_overwrite> is <FALSE>
+ *            and <ssifile> (or any necessary tmp files) already
+ *            exist, to block overwriting of an existing SSI file.
+ *            
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+esl_newssi_Open(const char *ssifile, int allow_overwrite, ESL_NEWSSI **ret_newssi)
+{
+  ESL_NEWSSI *ns = NULL;
+  int status;
+
+  ESL_ALLOC(ns, sizeof(ESL_NEWSSI));
+  ns->ssifile    = NULL;
+  ns->ssifp      = NULL;
+  ns->external   = FALSE;	    /* we'll switch to external sort if...       */
+  ns->max_ram    = eslSSI_MAXRAM;   /* ... if we exceed this memory limit in MB. */
+  ns->filenames  = NULL;
+  ns->fileformat = NULL;
+  ns->bpl        = NULL;
+  ns->rpl        = NULL;
+  ns->flen       = 0;
+  ns->nfiles     = 0;
+  ns->pkeys      = NULL;
+  ns->plen       = 0;
+  ns->nprimary   = 0;
+  ns->ptmpfile   = NULL;
+  ns->ptmp       = NULL;
+  ns->skeys      = NULL;
+  ns->slen       = 0;
+  ns->nsecondary = 0;
+  ns->stmpfile   = NULL;
+  ns->stmp       = NULL;
+  ns->errbuf[0]  = '\0';    
+
+  if ((status = esl_strdup(ssifile, -1, &(ns->ssifile)))    != eslOK) goto ERROR;
+  if ((status = esl_strdup(ssifile, -1, &(ns->ptmpfile)))   != eslOK) goto ERROR;
+  if ((status = esl_strdup(ssifile, -1, &(ns->stmpfile)))   != eslOK) goto ERROR;
+  if ((status = esl_strcat(&ns->ptmpfile, -1, ".1", 2))     != eslOK) goto ERROR;
+  if ((status = esl_strcat(&ns->stmpfile, -1, ".2", 2))     != eslOK) goto ERROR;
+
+  if (! allow_overwrite)
+    {
+      if (esl_FileExists(ssifile)      ||
+	  esl_FileExists(ns->ptmpfile) ||
+	  esl_FileExists(ns->stmpfile)) 
+	{ status = eslEOVERWRITE; goto ERROR; }
+    }
+
+  if ((ns->ssifp = fopen(ssifile, "w")) == NULL)  { status = eslENOTFOUND; goto ERROR; }
+
+  ESL_ALLOC(ns->filenames,  sizeof(char *)   * eslSSI_FCHUNK);
+  ESL_ALLOC(ns->fileformat, sizeof(uint32_t) * eslSSI_FCHUNK);
+  ESL_ALLOC(ns->bpl,        sizeof(uint32_t) * eslSSI_FCHUNK);
+  ESL_ALLOC(ns->rpl,        sizeof(uint32_t) * eslSSI_FCHUNK);
+  ESL_ALLOC(ns->pkeys,      sizeof(ESL_PKEY) * eslSSI_KCHUNK);
+  ESL_ALLOC(ns->skeys,      sizeof(ESL_SKEY) * eslSSI_KCHUNK);
+  *ret_newssi = ns;
+  return eslOK;
+
+ ERROR:
+  esl_newssi_Close(ns);	/* free the damaged structure */
+  return status;
+}
+
+
+/* Function:  esl_newssi_AddFile()
+ * Synopsis:  Add a filename to a growing index.
+ *
+ * Purpose:   Registers the file <filename> into the new index <ns>,
+ *            along with its format code <fmt>. The index assigns it
+ *            a unique handle, which it returns in <ret_fh>. This
+ *            handle is needed when registering primary keys.
+ *
+ *            Caller should make sure that the same file isn't registered
+ *            twice; this function doesn't check.
+ *            
+ * Args:      <ns>         - new ssi index under construction.
+ *            <filename>   - filename to add to the index.
+ *            <fmt>        - format code to associate with <filename> (or 0)
+ *            <ret_fh>     - RETURN: filehandle associated with <filename>        
+ *
+ * Returns:   <eslOK> on success;
+ *            <eslERANGE> if registering this file would exceed the
+ *                        maximum number of indexed files.
+ *
+ * Throws:    <eslEMEM> on allocation or reallocation error.
+ */
+int
+esl_newssi_AddFile(ESL_NEWSSI *ns, const char *filename, int fmt, uint16_t *ret_fh)
+{
+  int      status;
+  uint16_t fh;
+  int      n;
+
+  if (ns->nfiles >= eslSSI_MAXFILES) ESL_XFAIL(eslERANGE, ns->errbuf, "exceeded the maximum number of files an SSI index can store");
+
+  n = strlen(filename);
+  if ((n+1) > ns->flen) ns->flen = n+1;
+
+  if ((status = esl_FileTail(filename, FALSE, &(ns->filenames[ns->nfiles]))) != eslOK) goto ERROR;
+  
+  ns->fileformat[ns->nfiles] = fmt;
+  ns->bpl[ns->nfiles]        = 0;
+  ns->rpl[ns->nfiles]        = 0;
+  fh                         = ns->nfiles;   /* handle is simply = file number */
+  ns->nfiles++;
+
+  if (ns->nfiles % eslSSI_FCHUNK == 0) {
+    void  *tmp;
+    ESL_RALLOC(ns->filenames,  tmp, sizeof(char *)   * (ns->nfiles+eslSSI_FCHUNK));
+    ESL_RALLOC(ns->fileformat, tmp, sizeof(uint32_t) * (ns->nfiles+eslSSI_FCHUNK));
+    ESL_RALLOC(ns->bpl,        tmp, sizeof(uint32_t) * (ns->nfiles+eslSSI_FCHUNK));
+    ESL_RALLOC(ns->rpl,        tmp, sizeof(uint32_t) * (ns->nfiles+eslSSI_FCHUNK));
+  }
+  *ret_fh = fh;
+  return eslOK;
+
+ ERROR:
+  *ret_fh = 0;
+  return status;
+}
+
+
+
+/* Function:  esl_newssi_SetSubseq()
+ * Synopsis:  Declare that file is suitable for fast subseq lookup.
+ *
+ * Purpose:   Declare that the file associated with handle <fh> is
+ *            suitable for fast subsequence lookup, because it has
+ *            a constant number of residues and bytes per (nonterminal)
+ *            data line, <rpl> and <bpl>, respectively.
+ *            
+ *            Caller is responsible for this being true: <rpl> and
+ *            <bpl> must be constant for every nonterminal line of 
+ *            every sequence in this file.
+ *            
+ * Args:      <ns>   - ssi index under construction
+ *            <fh>   - handle on file to set fast subseq lookup on
+ *            <bpl>  - constant bytes per nonterminal line in <fh>                   
+ *            <rpl>  - constant residues per nonterminal line in <fh>
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> on invalid argument(s).
+ */
+int
+esl_newssi_SetSubseq(ESL_NEWSSI *ns, uint16_t fh, uint32_t bpl, uint32_t rpl)
+{
+  int status;
+
+  if (fh >= ns->nfiles)      ESL_XEXCEPTION(eslEINVAL, "invalid file number");
+  if (bpl <= 0 || rpl <= 0)  ESL_XEXCEPTION(eslEINVAL, "invalid bpl or rpl");
+  ns->bpl[fh] = bpl;
+  ns->rpl[fh] = rpl;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function: esl_newssi_AddKey()
+ * Synopsis: Add a primary key to a growing index.
+ * Date:     SRE, Tue Jan  2 11:50:54 2001 [St. Louis]
+ *
+ * Purpose:  Register primary key <key> in new index <ns>, while telling
+ *           the index that this primary key is in the file associated
+ *           with filehandle <fh> (the handle returned by a previous call
+ *           to <esl_newssi_AddFile()>); that its record starts at 
+ *           offset <r_off> in the file; that its data (usually
+ *           sequence data) starts at offset <d_off> in the file (i.e.
+ *           after any record header); and that the record's data is
+ *           of length <L> (usually, the record is a sequence, and <L> 
+ *           is its length in residues).
+ *           
+ *           The data length <L> is technically optional as far as SSI
+ *           is concerned; <L> may be passed as 0 to leave it
+ *           unset. However, functions in the <sqio> module that use
+ *           SSI indices will assume that <L> is available.
+ *           
+ *           <d_off> is also optional; it may be passed as <0> to
+ *           leave it unset. If provided, <d_off> gives an offset to
+ *           the data portion of the record. The interpretation of
+ *           this data offset may be implementation-defined and may
+ *           depend on the format of the datafile; for example, in how
+ *           <sqio> uses SSI indices, <d_off> is the offset to the
+ *           start of the first sequence line.
+ *           
+ *           Both <d_off> and <L> must be provided, and additionally
+ *           <eslSSI_FASTSUBSEQ> must be set for this file, for fast
+ *           subsequence lookup to work.
+ *           
+ * Args:     <ns>     - active index
+ *           <key>    - primary key to add
+ *           <fh>     - handle on file that this key's in 
+ *           <r_off>  - offset to start of record
+ *           <d_off>  - offset to start of sequence data, or 0
+ *           <L>      - length of sequence, or 0
+ *
+ * Returns:  <eslOK>        on success;
+ *           <eslERANGE>    if registering this key would exceed the maximum
+ *                          number of primary keys;
+ *           <eslENOTFOUND> if we needed to open external tmp files, but
+ *                          the attempt to open them failed.
+ *           
+ * Throws:   <eslEINVAL> on an invalid argument;
+ *           <eslEMEM>   on allocation failure;
+ *           <eslEWRITE> on any system error writing to tmp file, such
+ *                       as filling the filesystem.
+ */
+int
+esl_newssi_AddKey(ESL_NEWSSI *ns, const char *key, uint16_t fh, 
+		  off_t r_off, off_t d_off, int64_t L)
+{
+  int status;
+  int n;			/* a string length */
+  
+  if (fh >= eslSSI_MAXFILES)           ESL_XEXCEPTION(eslEINVAL, "invalid fh");
+  if (ns->nprimary >= eslSSI_MAXKEYS)  ESL_XFAIL(eslERANGE, ns->errbuf, "exceeded maximum number of primary keys allowed");
+
+  /* Before adding the key: check how big our index is.
+   * If it's getting too large, switch to external mode.
+   */
+  if (!ns->external && current_newssi_size(ns) >= ns->max_ram) 
+    if ((status = activate_external_sort(ns)) != eslOK) goto ERROR;
+
+  /* Update maximum pkey length, if needed. (Inclusive of '\0').
+   */
+  n = strlen(key)+1;
+  if (n > ns->plen) ns->plen = n;
+
+  /* External mode? Simply append to disk... 
+   */
+  if (ns->external) 
+    {
+      if (sizeof(off_t) == 4) {
+	if (fprintf(ns->ptmp, "%s\t%d\t%" PRIu32 "\t%" PRIu32 "\t%" PRIi64 "\n", 
+		    key, fh, (uint32_t) r_off, (uint32_t) d_off, L) <= 0) 
+	  ESL_XEXCEPTION_SYS(eslEWRITE, "ssi key tmp file write failed");
+      } else {
+	if (fprintf(ns->ptmp, "%s\t%d\t%" PRIu64 "\t%" PRIu64 "\t%" PRIi64 "\n", 
+		    key, fh, (uint64_t) r_off, (uint64_t) d_off, L) <= 0)
+	  ESL_XEXCEPTION_SYS(eslEWRITE, "ssi key tmp file write failed");
+      }
+      ns->nprimary++;
+    }
+  else
+    {
+      /* Else: internal mode, keep keys in memory...
+       */
+      if ((status = esl_strdup(key, n, &(ns->pkeys[ns->nprimary].key))) != eslOK) goto ERROR;
+      ns->pkeys[ns->nprimary].fnum  = fh;
+      ns->pkeys[ns->nprimary].r_off = r_off;
+      ns->pkeys[ns->nprimary].d_off = d_off;
+      ns->pkeys[ns->nprimary].len   = L;
+      ns->nprimary++;
+
+      /* Reallocate as needed. */
+      if (ns->nprimary % eslSSI_KCHUNK == 0) {
+	void *tmp;
+	ESL_RALLOC(ns->pkeys, tmp, sizeof(ESL_PKEY) * (ns->nprimary+eslSSI_KCHUNK));
+      }
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_newssi_AddAlias()
+ * Synopsis:  Add a secondary key (alias) to a growing index.
+ *
+ * Purpose:   Registers secondary key <alias> in index <ns>, and 
+ *            map it to the primary key <key>. <key> must already
+ *            have been registered. That is, when someone looks up <alias>,
+ *            we'll retrieve record <key>. 
+ *            
+ * Args:      <ns>    - ssi index being constructed
+ *            <alias> - secondary key to register
+ *            <key>   - primary key to associate with <skey>.                  
+ *
+ * Returns:   <eslOK>        on success;
+ *            <eslERANGE>    if registering this key would exceed the maximum
+ *                           number of secondary keys that can be stored;
+ *            <eslENOTFOUND> if we needed to open external tmp files, but
+ *                           the attempt to open them failed.
+ *
+ * Throws:    <eslEWRITE>   on any system error writing to tmp file, such 
+ *                          as running out of space on the device.
+ */
+int
+esl_newssi_AddAlias(ESL_NEWSSI *ns, const char *alias, const char *key)
+{
+  int status;
+  int n;			/* a string length */
+  
+  if (ns->nsecondary >= eslSSI_MAXKEYS) ESL_XFAIL(eslERANGE, ns->errbuf, "exceeded maximum number of secondary keys allowed");
+
+  /* Before adding the key: check how big our index is.
+   * If it's getting too large, switch to external mode.
+   */
+  if (!ns->external && current_newssi_size(ns) >= ns->max_ram) 
+    if ((status = activate_external_sort(ns)) != eslOK) goto ERROR;
+
+  /* Update maximum secondary key length, if necessary. */
+  n = strlen(alias)+1;
+  if (n > ns->slen) ns->slen = n;
+
+  /* if external mode: write info to disk. */
+  if (ns->external) 
+    {
+      if (fprintf(ns->stmp, "%s\t%s\n", alias, key) <= 0) ESL_XEXCEPTION_SYS(eslEWRITE, "ssi alias tmp file write failed");
+      ns->nsecondary++;
+    }
+  else
+    { /* else, internal mode... store info in memory. */
+      if ((status = esl_strdup(alias, n, &(ns->skeys[ns->nsecondary].key))) != eslOK) goto ERROR;
+      if ((status = esl_strdup(key, -1, &(ns->skeys[ns->nsecondary].pkey))) != eslOK) goto ERROR;
+      ns->nsecondary++;
+
+      if (ns->nsecondary % eslSSI_KCHUNK == 0) {
+	void *tmp;
+	ESL_RALLOC(ns->skeys, tmp, sizeof(ESL_SKEY) * (ns->nsecondary+eslSSI_KCHUNK));
+      }
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  esl_newssi_Write()
+ * Synopsis:  Save a new index to an SSI file.
+ *
+ * Purpose:   Writes the complete index <ns> in SSI format to its file.
+ *            
+ *            Handles all necessary overhead of sorting the primary and
+ *            secondary keys, including any externally sorted tmpfiles that
+ *            may have been needed for large indices.
+ *            
+ * Args:      <ns>  - new SSI index to write                   
+ *            
+ * Returns:   <eslOK>       on success;
+ *            <eslERANGE>   if index size exceeds system's maximum file size;
+ *            <eslESYS>     if any of the steps of an external sort fail.
+ *
+ * Throws:    <eslEINVAL> on invalid argument, including too-long tmpfile names;
+ *            <eslEMEM>   on buffer allocation failure;
+ *            <eslEWRITE> on any system write failure, including filled disk.  
+ */
+int
+esl_newssi_Write(ESL_NEWSSI *ns)
+{
+  int      status, 		/* convention                               */
+           i;			/* counter over files, keys                 */
+  uint32_t header_flags,	/* bitflags in the header                   */
+           file_flags,		/* bitflags for a file record               */
+           frecsize, 		/* size of a file record (bytes)            */
+           precsize, 		/* size of a primary key record (bytes)     */
+           srecsize;		/* size of a secondary key record (bytes)   */
+  off_t    foffset, 		/* offset to file section                   */
+           poffset, 		/* offset to primary key section            */
+           soffset;		/* offset to secondary key section          */
+  char    *fk       = NULL,     /* fixed-width (flen) file name             */
+          *pk       = NULL, 	/* fixed-width (plen) primary key string    */
+          *sk       = NULL,	/* fixed-width (slen) secondary key string  */
+          *buf      = NULL;	/* esl_fgets() growable buffer              */
+  int      n        = 0;	/* esl_fgets() buffer size                  */
+  ESL_PKEY pkey;		/* primary key info from external tmpfile   */
+  ESL_SKEY skey;		/* secondary key info from external tmpfile */
+
+  /* We need fixed-width buffers to get our keys fwrite()'ten in their
+   * full binary lengths; pkey->key (for instance) is not guaranteed
+   * to be allocated for the final maximum plen. We use strncpy(), not
+   * strcpy(), to fill these buffers, because strncpy() pads unused
+   * bytes as NUL's, and valgrind will flag you if you attempt to
+   * write uninitialized bytes from these buffers.
+   */
+  ESL_ALLOC(fk, sizeof(char) * ns->flen);
+  ESL_ALLOC(pk, sizeof(char) * ns->plen);
+  if (ns->slen) ESL_ALLOC(sk, sizeof(char) * ns->slen);
+
+  /* How big is the index? If it's going to be > 2GB, we better have
+   * 64-bit offsets. (2047 (instead of 2048) gives us
+   * some slop room.) If not, abort here.
+   *
+   * aborting here is pretty brutal - we've processed hundreds of
+   * millions of keys for nothing. Ah well.
+   */
+  if (current_newssi_size(ns) >= 2047 && sizeof(off_t) != 8)
+    ESL_XFAIL(eslERANGE, ns->errbuf, "SSI index file file would be > 2G; your filesystem isn't capable of handling it");
+
+  /* Magic-looking numbers come from adding up sizes 
+   * of things in bytes: they match current_newssi_size().
+   */
+  frecsize     = 4*sizeof(uint32_t) + ns->flen;
+  precsize     = 2*sizeof(off_t) + sizeof(uint16_t) + sizeof(uint64_t) + ns->plen;
+  srecsize     = ns->slen + ns->plen;
+  header_flags = 0;
+
+  /* Magic-looking numbers again come from adding up sizes 
+   * of things in bytes: matches current_newssi_size()
+   */
+  foffset = 9*sizeof(uint32_t)+2*sizeof(uint64_t)+sizeof(uint16_t)+3*sizeof(off_t);
+  poffset = foffset + frecsize*ns->nfiles;
+  soffset = poffset + precsize*ns->nprimary;
+  
+  /* Sort the keys.
+   * If external mode, make system calls to UNIX/POSIX "sort" in place, then
+   * open new sorted files for reading thru ptmp and stmp handles.
+   * If internal mode, call qsort. 
+   * 
+   * Note that you'd better force a POSIX locale for the sort; else,
+   * some silly distro (e.g. Mandrake Linux >=8.1) may have specified
+   * LC_COLLATE=en_US, and this'll give a sort "bug" in which it doesn't
+   * sort by byte order.
+   */
+  if (ns->external) 
+    {
+      char cmd[1024];
+
+      /* A last minute security check: make sure we won't overflow
+       * sprintf() with the tmpfile names. They're hardcoded now, so
+       * we know they don't overflow, but they might be configurable 
+       * in the future, and we wouldn't want a security hole to open
+       * up.
+       */
+      if (strlen(ns->ptmpfile) > 256 || strlen(ns->ptmpfile) > 256) 
+	ESL_XEXCEPTION(eslEINVAL, "tmpfile name too long"); 
+
+      fclose(ns->ptmp);
+      ns->ptmp = NULL;	
+      sprintf(cmd, "env LC_ALL=POSIX sort -o %s %s\n", ns->ptmpfile, ns->ptmpfile);
+      if (system(cmd) != 0)                              ESL_XFAIL(eslESYS, ns->errbuf, "external sort of primary keys failed");
+      if ((ns->ptmp = fopen(ns->ptmpfile, "r")) == NULL) ESL_XFAIL(eslESYS, ns->errbuf, "failed to reopen primary key tmp file after sort");
+
+      fclose(ns->stmp);
+      ns->stmp = NULL;
+      sprintf(cmd, "env LC_ALL=POSIX sort -o %s %s\n", ns->stmpfile, ns->stmpfile);
+      if (system(cmd) != 0)                              ESL_XFAIL(eslESYS, ns->errbuf, "external sort of secondary keys failed");
+      if ((ns->stmp = fopen(ns->stmpfile, "r")) == NULL) ESL_XFAIL(eslESYS, ns->errbuf, "failed to reopen secondary key tmp file after sort");
+    }
+  else 
+    {
+      qsort((void *) ns->pkeys, ns->nprimary,   sizeof(ESL_PKEY), pkeysort); 
+      qsort((void *) ns->skeys, ns->nsecondary, sizeof(ESL_SKEY), skeysort); 
+    }
+
+  /* Write the header
+   */
+  if (esl_fwrite_u32(ns->ssifp, v30magic)      != eslOK || 
+      esl_fwrite_u32(ns->ssifp, header_flags)  != eslOK || 
+      esl_fwrite_u32(ns->ssifp, sizeof(off_t)) != eslOK ||
+      esl_fwrite_u16(ns->ssifp, ns->nfiles)    != eslOK ||
+      esl_fwrite_u64(ns->ssifp, ns->nprimary)  != eslOK ||
+      esl_fwrite_u64(ns->ssifp, ns->nsecondary)!= eslOK ||
+      esl_fwrite_u32(ns->ssifp, ns->flen)      != eslOK ||
+      esl_fwrite_u32(ns->ssifp, ns->plen)      != eslOK ||
+      esl_fwrite_u32(ns->ssifp, ns->slen)      != eslOK ||
+      esl_fwrite_u32(ns->ssifp, frecsize)      != eslOK ||
+      esl_fwrite_u32(ns->ssifp, precsize)      != eslOK ||
+      esl_fwrite_u32(ns->ssifp, srecsize)      != eslOK ||
+      esl_fwrite_offset(ns->ssifp, foffset)    != eslOK ||
+      esl_fwrite_offset(ns->ssifp, poffset)    != eslOK ||
+      esl_fwrite_offset(ns->ssifp, soffset)    != eslOK) 
+    ESL_XEXCEPTION_SYS(eslEWRITE, "ssi write failed");
+
+  /* Write the file section
+   */
+  for (i = 0; i < ns->nfiles; i++)
+    {
+      file_flags = 0;
+      if (ns->bpl[i] > 0 && ns->rpl[i] > 0) file_flags |= eslSSI_FASTSUBSEQ;
+      strncpy(fk, ns->filenames[i], ns->flen);
+
+      status     = eslFAIL;
+      if (fwrite(fk, sizeof(char), ns->flen, ns->ssifp) != ns->flen ||
+	  esl_fwrite_u32(ns->ssifp, ns->fileformat[i])  != eslOK    ||
+	  esl_fwrite_u32(ns->ssifp, file_flags)         != eslOK    ||
+	  esl_fwrite_u32(ns->ssifp, ns->bpl[i])         != eslOK    ||
+	  esl_fwrite_u32(ns->ssifp, ns->rpl[i])         != eslOK)
+	ESL_XEXCEPTION_SYS(eslEWRITE, "ssi write failed");
+    }
+
+  /* Write the primary key section
+   */
+  if (ns->external) 
+    {
+      for (i = 0; i < ns->nprimary; i++) 
+	{
+	  if (esl_fgets(&buf, &n, ns->ptmp)  != eslOK)    ESL_XFAIL(eslESYS, ns->errbuf, "read from sorted primary key tmpfile failed");
+	  if (parse_pkey(buf, &pkey)         != eslOK)    ESL_XFAIL(eslESYS, ns->errbuf, "parse failed for a line of sorted primary key tmpfile failed");
+	  strncpy(pk, pkey.key, ns->plen); /* note: strncpy pads w/ nulls */
+
+	  if (fwrite(pk,sizeof(char),ns->plen,ns->ssifp) != ns->plen ||
+	      esl_fwrite_u16(   ns->ssifp, pkey.fnum)    != eslOK    ||
+	      esl_fwrite_offset(ns->ssifp, pkey.r_off)   != eslOK    ||
+	      esl_fwrite_offset(ns->ssifp, pkey.d_off)   != eslOK    ||
+	      esl_fwrite_i64(   ns->ssifp, pkey.len)     != eslOK)
+	    ESL_XEXCEPTION_SYS(eslEWRITE, "ssi write failed");
+	}
+    } 
+  else 
+    {
+      for (i = 0; i < ns->nprimary; i++)
+	{
+	  strncpy(pk, ns->pkeys[i].key, ns->plen);
+
+	  if (fwrite(pk,sizeof(char),ns->plen,ns->ssifp)       != ns->plen ||
+	      esl_fwrite_u16(   ns->ssifp, ns->pkeys[i].fnum)  != eslOK    ||
+	      esl_fwrite_offset(ns->ssifp, ns->pkeys[i].r_off) != eslOK    ||
+	      esl_fwrite_offset(ns->ssifp, ns->pkeys[i].d_off) != eslOK    ||
+	      esl_fwrite_i64(   ns->ssifp, ns->pkeys[i].len)   != eslOK)
+	    ESL_XEXCEPTION_SYS(eslEWRITE, "ssi write failed");
+	}
+    }
+
+
+  /* Write the secondary key section
+   */
+  if (ns->external) 
+    {
+      for (i = 0; i < ns->nsecondary; i++)
+	{
+	  if (esl_fgets(&buf, &n, ns->stmp) != eslOK) ESL_XFAIL(eslESYS, ns->errbuf, "read from sorted secondary key tmpfile failed");
+	  if (parse_skey(buf, &skey)        != eslOK) ESL_XFAIL(eslESYS, ns->errbuf, "parse failed for a line of sorted secondary key tmpfile failed");
+	  strncpy(sk, skey.key,  ns->slen);
+	  strncpy(pk, skey.pkey, ns->plen);
+
+	  if (fwrite(sk, sizeof(char), ns->slen, ns->ssifp) != ns->slen ||
+	      fwrite(pk, sizeof(char), ns->plen, ns->ssifp) != ns->plen) 
+	    ESL_XEXCEPTION_SYS(eslEWRITE, "ssi write failed");
+	}
+    } 
+  else 
+    {
+      for (i = 0; i < ns->nsecondary; i++)
+	{
+	  strncpy(sk, ns->skeys[i].key,  ns->slen);
+	  strncpy(pk, ns->skeys[i].pkey, ns->plen);
+
+	  if (fwrite(sk, sizeof(char), ns->slen, ns->ssifp) != ns->slen ||
+	      fwrite(pk, sizeof(char), ns->plen, ns->ssifp) != ns->plen)
+	    ESL_XEXCEPTION_SYS(eslEWRITE, "ssi write failed");
+	} 
+    }
+
+  if (fk  != NULL)       free(fk);
+  if (pk  != NULL)       free(pk);
+  if (sk  != NULL)       free(sk);
+  if (buf != NULL)       free(buf);
+  if (ns->ptmp != NULL)  { fclose(ns->ptmp); ns->ptmp = NULL; }
+  if (ns->stmp != NULL)  { fclose(ns->stmp); ns->stmp = NULL; }
+  return eslOK;
+
+ ERROR:
+  if (fk  != NULL)       free(fk);
+  if (pk  != NULL)       free(pk);
+  if (sk  != NULL)       free(sk);
+  if (buf != NULL)       free(buf);
+  if (ns->ptmp != NULL)  { fclose(ns->ptmp); ns->ptmp = NULL; }
+  if (ns->stmp != NULL)  { fclose(ns->stmp); ns->stmp = NULL; }
+  return status;
+}
+
+/* Function:  esl_newssi_Close()
+ * Synopsis:  Free an <ESL_NEWSSI>.
+ *
+ * Purpose:   Frees a <ESL_NEWSSI>.
+ */
+void
+esl_newssi_Close(ESL_NEWSSI *ns)
+{
+  int i;
+  if (ns == NULL) return;
+
+  if (ns->external == FALSE) 
+    {
+      if (ns->pkeys != NULL) 
+	{
+	  for (i = 0; i < ns->nprimary; i++) 
+	    if (ns->pkeys[i].key != NULL) free(ns->pkeys[i].key);
+	  free(ns->pkeys);       	
+	}
+      if (ns->skeys != NULL) 
+	{
+	  for (i = 0; i < ns->nsecondary; i++) 
+	    {
+	      if (ns->skeys[i].key  != NULL) free(ns->skeys[i].key);
+	      if (ns->skeys[i].pkey != NULL) free(ns->skeys[i].pkey);
+	    }
+	  free(ns->skeys);       
+	}
+    }
+  else 
+    {
+      remove(ns->ptmpfile);
+      remove(ns->stmpfile);
+    }
+
+  if (ns->filenames   != NULL)  
+    {
+      for (i = 0; i < ns->nfiles; i++) 
+	if (ns->filenames[i] != NULL) free(ns->filenames[i]);
+      free(ns->filenames);
+    }
+
+  if (ns->stmp        != NULL)     fclose(ns->stmp);
+  if (ns->stmpfile    != NULL)     free(ns->stmpfile);
+  if (ns->ptmp        != NULL)     fclose(ns->ptmp);
+  if (ns->ptmpfile    != NULL)     free(ns->ptmpfile);
+  if (ns->fileformat  != NULL)     free(ns->fileformat);
+  if (ns->bpl         != NULL)     free(ns->bpl);       
+  if (ns->rpl         != NULL)     free(ns->rpl);       
+  if (ns->ssifile     != NULL)     free(ns->ssifile);
+  if (ns->ssifp       != NULL)     fclose(ns->ssifp);
+  free(ns);
+}
+
+
+
+
+/* current_newssi_size()
+ *
+ * Calculates the size of the current index, in megabytes, in
+ * its disk version (which is essentially the same as the
+ * RAM it takes, modulo some small overhead for the structures
+ * and ptrs).
+ *  
+ * The header costs 10 uint32, 1 uint16, and 3 off_t's: 42 + (12 | 24).
+ * Each file record costs 4 uint32 and flen chars;
+ * each primary key costs us 2 off_t, 1 uint16, 1 uint32, and plen chars;
+ * each sec key costs us  plen+slen chars.
+ */
+static int
+current_newssi_size(const ESL_NEWSSI *ns) 
+{
+  uint64_t frecsize, precsize, srecsize;
+  uint64_t total;
+
+  /* Magic-looking numbers come from adding up sizes 
+   * of things in bytes
+   */
+  frecsize = 4*sizeof(uint32_t) + ns->flen;
+  precsize = 2*sizeof(off_t) + sizeof(uint16_t) + sizeof(uint64_t) + ns->plen;
+  srecsize = ns->slen + ns->plen;
+  total = (9*sizeof(uint32_t)+2*sizeof(uint64_t)+sizeof(uint16_t)+3*sizeof(off_t)+
+	   frecsize * ns->nfiles +      /* file section size                   */
+	   precsize * ns->nprimary +    /* primary key section size            */
+	   srecsize * ns->nsecondary) / /* secondary key section size          */
+          1048576L;
+  return (int) total;
+}
+
+/* activate_external_sort()
+ * 
+ * Switch to external sort mode.
+ * Open file handles for external index files (ptmp, stmp).
+ * Flush current index information to these files.
+ * Free current memory, turn over control to the tmpfiles.
+ *           
+ * Return <eslOK>        on success; 
+ *        <eslENOTFOUND> if we can't open a tmpfile for writing.
+ * 
+ * Throw  <eslEWRITE>    if a write fails.
+ */
+static int
+activate_external_sort(ESL_NEWSSI *ns)
+{
+  int status;
+  int i;
+
+  if (ns->external)                   return eslOK; /* we already are external, fool */
+  
+  if ((ns->ptmp = fopen(ns->ptmpfile, "w")) == NULL) ESL_XFAIL(eslENOTFOUND, ns->errbuf, "Failed to open primary key tmpfile for external sort");
+  if ((ns->stmp = fopen(ns->stmpfile, "w")) == NULL) ESL_XFAIL(eslENOTFOUND, ns->errbuf, "Failed to open secondary key tmpfile for external sort");
+
+  /* Flush the current indices.
+   */
+  ESL_DPRINTF1(("Switching to external sort - flushing new ssi to disk...\n"));
+  for (i = 0; i < ns->nprimary; i++) {
+    if (sizeof(off_t) == 4) {
+      if (fprintf(ns->ptmp, "%s\t%u\t%lu\t%lu\t%lu\n", 
+		  ns->pkeys[i].key, 
+		  (unsigned int)  ns->pkeys[i].fnum,
+		  (unsigned long) ns->pkeys[i].r_off, 
+		  (unsigned long) ns->pkeys[i].d_off, 
+		  (unsigned long) ns->pkeys[i].len) <= 0)
+	ESL_XEXCEPTION_SYS(eslEWRITE, "ssi key tmp file write failed");
+    } else {
+      if (fprintf(ns->ptmp, "%s\t%u\t%llu\t%llu\t%lu\n", 
+		  ns->pkeys[i].key, 
+		  (unsigned int)       ns->pkeys[i].fnum,
+		  (unsigned long long) ns->pkeys[i].r_off, 
+		  (unsigned long long) ns->pkeys[i].d_off, 
+		  (unsigned long)      ns->pkeys[i].len) <= 0)
+	ESL_XEXCEPTION_SYS(eslEWRITE, "ssi key tmp file write failed");
+    }
+  }
+  for (i = 0; i < ns->nsecondary; i++)
+    if (fprintf(ns->stmp, "%s\t%s\n", ns->skeys[i].key, ns->skeys[i].pkey) <= 0)
+      ESL_XEXCEPTION_SYS(eslEWRITE, "ssi alias tmp file write failed");
+  
+  /* Free the memory now that we've flushed our lists to disk
+   */
+  for (i = 0; i < ns->nprimary;   i++) free(ns->pkeys[i].key);
+  for (i = 0; i < ns->nsecondary; i++) free(ns->skeys[i].key);
+  for (i = 0; i < ns->nsecondary; i++) free(ns->skeys[i].pkey);
+  if (ns->pkeys != NULL) free(ns->pkeys);       	
+  if (ns->skeys != NULL) free(ns->skeys);       
+  ns->pkeys    = NULL;
+  ns->skeys    = NULL;
+  ns->external = TRUE;
+  return eslOK;
+
+ ERROR:
+  if (ns->ptmp != NULL) { fclose(ns->ptmp); ns->ptmp = NULL; }
+  if (ns->stmp != NULL) { fclose(ns->stmp); ns->stmp = NULL; }
+  return status;
+}
+
+/* parse_pkey(), parse_skey()
+ * 
+ * Given a <buf> containing a line read from the external
+ * primary-key or secondary-key tmpfile; parse it, and fill in the fields of
+ * <pkey> or <skey>
+ * 
+ * <?key> is a ptr to a structure on the stack. It is assumed
+ * to be in use only transiently.
+ * <?key>'s strings become ptrs into <buf>'s space, so we don't have to
+ * allocate new space for them. This means that the transient <?key> structure
+ * is only usable until <buf> is modified or free'd.
+ * 
+ * Returns <eslOK> on success.
+ * 
+ * Throws  <eslEFORMAT>        on parse error (shouldn't happen; we created it!)
+ *         <eslEINCONCEIVABLE> if we can't deal with off_t's size.     
+ */
+static int
+parse_pkey(char *buf, ESL_PKEY *pkey)
+{
+  int   status;
+  char *s, *tok;
+  
+  s = buf;
+  if (esl_strtok(&s, "\t\n", &(pkey->key)) != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+  if (esl_strtok(&s, "\t\n", &tok)         != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+
+  pkey->fnum = (uint16_t) atoi(tok);
+  if (esl_strtok(&s, "\t\n", &tok)         != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+  if      (sizeof(off_t) == 4) pkey->r_off  = (off_t) strtoul (tok, NULL, 10);
+  else if (sizeof(off_t) == 8) pkey->r_off  = (off_t) strtoull(tok, NULL, 10);
+  else                         ESL_XEXCEPTION(eslEINCONCEIVABLE, "whoa - weird off_t");
+
+  if (esl_strtok(&s, "\t\n", &tok)         != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+  if      (sizeof(off_t) == 4) pkey->d_off  = (off_t) strtoul (tok, NULL, 10);
+  else if (sizeof(off_t) == 8) pkey->d_off  = (off_t) strtoull(tok, NULL, 10);
+  else                         ESL_XEXCEPTION(eslEINCONCEIVABLE, "whoa - weird off_t");
+
+  if (esl_strtok(&s, "\t\n", &tok)         != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+  pkey->len = (uint64_t) strtoull(tok, NULL, 10);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+static int
+parse_skey(char *buf, ESL_SKEY *skey)
+{
+  int   status;
+  char *s;
+  
+  s = buf;
+  if (esl_strtok(&s, "\t\n", &(skey->key))  != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+  if (esl_strtok(&s, "\t\n", &(skey->pkey)) != eslOK) ESL_XEXCEPTION(eslEFORMAT, "parse failed");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* ordering functions needed for qsort() */
+static int 
+pkeysort(const void *k1, const void *k2)
+{
+  ESL_PKEY *key1;
+  ESL_PKEY *key2;
+  key1 = (ESL_PKEY *) k1;
+  key2 = (ESL_PKEY *) k2;
+  return strcmp(key1->key, key2->key);
+}
+static int 
+skeysort(const void *k1, const void *k2)
+{
+  ESL_SKEY *key1;
+  ESL_SKEY *key2;
+  key1 = (ESL_SKEY *) k1;
+  key2 = (ESL_SKEY *) k2;
+  return strcmp(key1->key, key2->key);
+}
+
+
+/*****************************************************************
+ *# 3. Portable binary i/o
+ *****************************************************************/ 
+
+/* Function:  esl_byteswap()
+ * Synopsis:  Swap between big-endian and little-endian, in place.
+ *
+ * Purpose:   Swap between big-endian and little-endian, in place.
+ */
+void
+esl_byteswap(char *swap, int nbytes)
+{
+  int  x;
+  char byte;
+  
+  for (x = 0; x < nbytes / 2; x++)
+    {
+      byte = swap[nbytes - x - 1];
+      swap[nbytes - x - 1] = swap[x];
+      swap[x] = byte;
+    }
+}
+
+/* Function:  esl_ntoh16()
+ * Synopsis:  Convert 2-byte integer from network-order to host-order.
+ *
+ * Purpose:   Convert a 2-byte integer from network-order to host-order,
+ *            and return it.
+ *            
+ *            <esl_ntoh32()> and <esl_ntoh64()> do the same, but for 4-byte
+ *            and 8-byte integers, respectively.
+ */
+uint16_t
+esl_ntoh16(uint16_t netshort)
+{
+#ifdef WORDS_BIGENDIAN
+  return netshort;
+#else
+  esl_byteswap((char *) &netshort, 2);
+  return netshort;
+#endif
+}
+uint32_t
+esl_ntoh32(uint32_t netlong)
+{
+#ifdef WORDS_BIGENDIAN
+  return netlong;
+#else
+  esl_byteswap((char *) &netlong, 4);
+  return netlong;
+#endif
+}
+uint64_t
+esl_ntoh64(uint64_t net_int64)
+{
+#ifdef WORDS_BIGENDIAN
+  return net_int64;
+#else
+  esl_byteswap((char *) &net_int64, 8);
+  return net_int64;
+#endif
+}
+
+/* Function:  esl_hton16()
+ * Synopsis:  Convert 2-byte integer from host-order to network-order.
+ *
+ * Purpose:   Convert a 2-byte integer from host-order to network-order, and
+ *            return it.
+ * 
+ *            <esl_hton32()> and <esl_hton64()> do the same, but for 4-byte
+ *            and 8-byte integers, respectively.
+ */
+uint16_t
+esl_hton16(uint16_t hostshort)
+{
+#ifdef WORDS_BIGENDIAN
+  return hostshort;
+#else
+  esl_byteswap((char *) &hostshort, 2);
+  return hostshort;
+#endif
+}
+uint32_t
+esl_hton32(uint32_t hostlong)
+{
+#ifdef WORDS_BIGENDIAN
+  return hostlong;
+#else
+  esl_byteswap((char *) &hostlong, 4);
+  return hostlong;
+#endif
+}
+uint64_t
+esl_hton64(uint64_t host_int64)
+{
+#ifdef WORDS_BIGENDIAN
+  return host_int64;
+#else
+  esl_byteswap((char *) &host_int64, 8);
+  return host_int64;
+#endif
+}
+
+
+/* Function:  esl_fread_u16()
+ * Synopsis:  Read network-order integer from a stream.
+ *
+ * Purpose:   Read a 2-byte network-order integer from <fp>, convert to
+ *            host order, leave it in <ret_result>.
+ *            
+ *            <esl_fread_u32()> and <esl_fread_u64()> do the same, but
+ *            for 4-byte and 8-byte integers, respectively.
+ *
+ * Returns:   <eslOK> on success, and <eslFAIL> on <fread()> failure.
+ */
+int
+esl_fread_u16(FILE *fp, uint16_t *ret_result)
+{
+  uint16_t result;
+  if (fread(&result, sizeof(uint16_t), 1, fp) != 1) return eslFAIL;
+  *ret_result = esl_ntoh16(result);
+  return eslOK;
+}
+int
+esl_fread_u32(FILE *fp, uint32_t *ret_result)
+{
+  uint32_t result;
+  if (fread(&result, sizeof(uint32_t), 1, fp) != 1) return eslFAIL;
+  *ret_result = esl_ntoh32(result);
+  return eslOK;
+}
+int
+esl_fread_u64(FILE *fp, uint64_t *ret_result)
+{
+  uint64_t result;
+  if (fread(&result, sizeof(uint64_t), 1, fp) != 1) return eslFAIL;
+  *ret_result = esl_ntoh64(result);
+  return eslOK;
+}
+int
+esl_fread_i16(FILE *fp, int16_t *ret_result)
+{
+  int16_t result;
+  if (fread(&result, sizeof(int16_t), 1, fp) != 1) return eslFAIL;
+  *ret_result = (int16_t) esl_ntoh16((uint16_t) result);
+  return eslOK;
+}
+int
+esl_fread_i32(FILE *fp, int32_t *ret_result)
+{
+  int32_t result;
+  if (fread(&result, sizeof(int32_t), 1, fp) != 1) return eslFAIL;
+  *ret_result = (int32_t) esl_ntoh32((uint32_t) result);
+  return eslOK;
+}
+int
+esl_fread_i64(FILE *fp, int64_t *ret_result)
+{
+  int64_t result;
+  if (fread(&result, sizeof(int64_t), 1, fp) != 1) return eslFAIL;
+  *ret_result = (int64_t) esl_ntoh64((uint64_t) result);
+  return eslOK;
+}
+
+
+/* Function:  esl_fwrite_u16()
+ * Synopsis:  Write an integer to a stream in network-order.
+ *
+ * Purpose:   Write a 2-byte host-order integer <n> to stream <fp>
+ *            in network order.
+ *            
+ *            <esl_fwrite_u32()> and <esl_fwrite_u64()> do the same, but
+ *            for 4-byte and 8-byte integers, respectively.
+ *
+ * Returns:   <eslOK> on success, and <eslFAIL> on <fwrite()> failure.
+ */
+int
+esl_fwrite_u16(FILE *fp, uint16_t n)
+{
+  n = esl_hton16(n);
+  if (fwrite(&n, sizeof(uint16_t), 1, fp) != 1) return eslFAIL;
+  return eslOK;
+}
+int
+esl_fwrite_u32(FILE *fp, uint32_t n)
+{
+  n = esl_hton32(n);
+  if (fwrite(&n, sizeof(uint32_t), 1, fp) != 1) return eslFAIL;
+  return eslOK;
+}
+int
+esl_fwrite_u64(FILE *fp, uint64_t n)
+{
+  n = esl_hton64(n);
+  if (fwrite(&n, sizeof(uint64_t), 1, fp) != 1) return eslFAIL;
+  return eslOK;
+}
+int
+esl_fwrite_i16(FILE *fp, int16_t n)
+{
+  n = (int16_t) esl_hton16((uint16_t) n);
+  if (fwrite(&n, sizeof(int16_t), 1, fp) != 1) return eslFAIL;
+  return eslOK;
+}
+int
+esl_fwrite_i32(FILE *fp, int32_t n)
+{
+  n = (int32_t) esl_hton32((uint32_t) n);
+  if (fwrite(&n, sizeof(int32_t), 1, fp) != 1) return eslFAIL;
+  return eslOK;
+}
+int
+esl_fwrite_i64(FILE *fp, int64_t n)
+{
+  n = (int64_t) esl_hton64((uint64_t) n);
+  if (fwrite(&n, sizeof(int64_t), 1, fp) != 1) return eslFAIL;
+  return eslOK;
+}
+
+
+/* Function:  esl_fread_offset()
+ * Synopsis:  Read an offset portably.
+ *
+ * Purpose:   Read a file offset from the stream <fp> (which would usually
+ *            be a save file), and store it in <ret_offset>.
+ *            
+ *            Offsets may have been saved by a different machine
+ *            than the machine that reads them. The writer and the reader
+ *            may differ in byte order and in width (<sizeof(off_t)>). 
+ *            
+ *            Byte order is dealt with by saving offsets in 
+ *            network byte order, and converting them to host byte order
+ *            when they are read (if necessary). 
+ *            
+ *            Width is dealt with by the <sz> argument, which must be
+ *            either 4 or 8, specifying that the saved offset is a
+ *            32-bit versus 64-bit <off_t>. If the reading host
+ *            <off_t> width matches the <sz> of the writer, no
+ *            problem. If <sz> is 4 but the reading host has 64-bit
+ *            <off_t>'s, this is also no problem; the conversion
+ *            always works. If <sz> is 64 but the reading host has
+ *            only 32-bit <off_t>, we cannot guarantee that we have
+ *            sufficient dynamic range to represent the offset; if
+ *            the stored offset is too large to represent in a 32-bit
+ *            offset, we throw a fatal <eslEINCOMPAT> error.
+ *
+ * Returns:   <eslOK> on success; <eslFAIL> on a read failure.
+ *
+ * Throws:    <eslEINVAL> if <sz> is something other than 4 or 8;
+ *            <eslEINCOMPAT> if the stored offset is too large for
+ *            the reader to represent (the machine that wrote the
+ *            SSI file used 64 bit offsets, the reader uses 32
+ *            bit offsets, and this offset is too large to represent
+ *            in a 32 bit offset).
+ */
+int			
+esl_fread_offset(FILE *fp, int sz, off_t *ret_offset)
+{
+  int       status;
+  uint32_t  x32;
+  uint64_t  x64;
+
+  if      (sz == 8)
+    {
+      if (esl_fread_u64(fp, &x64) != eslOK) { status = eslFAIL; goto ERROR; }
+      if (sizeof(off_t) == 4 && x64 > INT32_MAX) 
+	ESL_XEXCEPTION(eslEINCOMPAT, "can't read 64-bit off_t on this 32-bit host");
+      *ret_offset = (off_t) x64; 
+    }
+  else if (sz == 4)
+    {
+      if (esl_fread_u32(fp, &x32) != eslOK) { status = eslFAIL; goto ERROR; }
+      *ret_offset = (off_t) x32;
+    }
+  else ESL_XEXCEPTION(eslEINVAL, "offsets must be 32 or 64 bits");
+  return eslOK;
+
+ ERROR:
+  *ret_offset = 0;
+  return status;
+}
+
+/* Function:  esl_fwrite_offset()
+ * Synopsis:  Write an offset portably.
+ *
+ * Purpose:   Portably write (save) <offset> to the stream <fp>, in network
+ *            byte order. 
+ *
+ * Returns:   <eslOK> on success; <eslFAIL> on write failure.
+ *
+ * Throws:    <eslEINVAL> if <off_t> is something other than a 32-bit or
+ *            64-bit integer on this machine, in which case we don't know
+ *            how to deal with it portably.
+ */
+int
+esl_fwrite_offset(FILE *fp, off_t offset)
+{
+  if      (sizeof(off_t) == 4) return esl_fwrite_u32(fp, offset);
+  else if (sizeof(off_t) == 8) return esl_fwrite_u64(fp, offset);
+  else ESL_EXCEPTION(eslEINVAL, "off_t is neither 32-bit nor 64-bit");
+  /*UNREACHED*/
+  return eslEINCONCEIVABLE;
+}
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/ 
+
+/* gcc -g -Wall -o ssi_utest -L. -I. -DeslSSI_TESTDRIVE esl_ssi.c -leasel -lm 
+ * ./ssi_utest
+ */
+#ifdef eslSSI_TESTDRIVE
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_ssi.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-F",        eslARG_INT,      "3",  NULL, NULL,  NULL,  NULL, NULL, "number of test files",                             0 },
+  { "-L",        eslARG_INT,   "1000",  NULL, NULL,  NULL,  NULL, NULL, "max length of test sequences",                     0 },
+  { "-N",        eslARG_INT,     "10",  NULL, NULL,  NULL,  NULL, NULL, "number of test sequences per file",                0 },
+  { "-Q",        eslARG_INT,     "10",  NULL, NULL,  NULL,  NULL, NULL, "number of random queries to retrieve",             0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-v",        eslARG_NONE,   NULL,   NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                       0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for ssi module";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go         = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r          = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_NEWSSI     *ns         = NULL;
+  ESL_SSI        *ssi        = NULL;
+  ESL_SQ         *sq         = NULL;
+  ESL_SQFILE     *sqfp       = NULL;
+  char           *ssifile    = NULL;
+  FILE           *fp         = NULL;
+  int             nfiles     = esl_opt_GetInteger(go, "-F");
+  int             maxL       = esl_opt_GetInteger(go, "-L");
+  int             nseq       = esl_opt_GetInteger(go, "-N");
+  int             nq         = esl_opt_GetInteger(go, "-Q");
+  int             be_verbose = esl_opt_GetBoolean(go, "-v");
+  uint16_t fh;
+  int    i,j;
+  char **sqfile  = NULL;
+  char **seqname = NULL;
+  char **seq     = NULL;
+  int   *seqlen  = NULL;
+  char   query[32];
+  char  *qfile;
+  int    qfmt;
+  off_t  roff;
+  double p[4] = { 0.25, 0.25, 0.25, 0.25 };
+  int    status;
+  
+  /* Create <nfiles> sequence file names. */
+  ESL_ALLOC(sqfile, sizeof(char *) * nfiles);
+  for (j = 0; j < nfiles; j++)
+    {
+      ESL_ALLOC(sqfile[j], sizeof(char) * 32);
+      sprintf(sqfile[j], "esltmpXXXXXX");
+    } 
+
+  /* Create <nfiles*nseq> sequences with random 
+   * lengths up to 1000.
+   */
+  ESL_ALLOC(seq,    sizeof(char *) * nseq * nfiles);
+  ESL_ALLOC(seqname,sizeof(char *) * nseq * nfiles);
+  ESL_ALLOC(seqlen, sizeof(int)    * nseq * nfiles);
+  for (i = 0; i < nseq*nfiles; i++)
+    {
+      seqlen[i] = 1 + esl_rnd_Roll(r, maxL); /* 1..maxL */
+      ESL_ALLOC(seq[i], sizeof(char) * (seqlen[i]+1));
+      ESL_ALLOC(seqname[i],sizeof(char) * 64);
+
+      esl_rsq_IID(r, "ACGT", p, 4, seqlen[i], seq[i]);
+      sprintf(seqname[i], "seq%d-file%d", i, i/nseq);
+    }
+
+  /* Save them to FASTA files.
+   */
+  for (j = 0; j < nfiles; j++)
+    {
+      if (esl_tmpfile_named(sqfile[j], &fp) != eslOK) esl_fatal("failed to open %s", sqfile[j]);
+      for (i = j*nseq; i < (j+1)*nseq; i++)
+	{
+	  sq = esl_sq_CreateFrom(seqname[i], seq[i], NULL, NULL, NULL);
+	  esl_sqio_Write(fp, sq, eslSQFILE_FASTA, FALSE);
+	  esl_sq_Destroy(sq);
+	}
+      fclose(fp);
+    }
+
+  /* Create an ssi index of all the FASTA files. */
+  if (esl_strdup(sqfile[0], -1, &ssifile)   != eslOK) esl_fatal("esl_strdup() failed");
+  if (esl_strcat(&ssifile,  -1, ".ssi", 4)  != eslOK) esl_fatal("esl_strcat() failed");
+  if (esl_newssi_Open(ssifile, TRUE, &ns)   != eslOK) esl_fatal("new SSI index open failed");
+  if ((sq = esl_sq_Create())                == NULL)  esl_fatal("esl_sq_Create() failed");
+
+  for (j = 0; j < nfiles; j++)
+    {
+      if (esl_sqfile_Open(sqfile[j], eslSQFILE_UNKNOWN, NULL, &sqfp) != eslOK) esl_fatal("failed to open fasta file %s", sqfile[j]);
+      if (esl_newssi_AddFile(ns, sqfile[j], sqfp->format, &fh)       != eslOK) esl_fatal("esl_newssi_AddFile() failed");
+      while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+	{
+	  if (be_verbose) printf("%16s  %ld  %ld  %" PRIi64 "\n", sq->name, (long) sq->roff, (long) sq->doff, sq->L);
+	  if (esl_newssi_AddKey(ns, sq->name, fh, sq->roff, sq->doff, sq->L) != eslOK) esl_fatal("esl_newssi_AddKey() failed");
+	  esl_sq_Reuse(sq);
+	}
+      if (status != eslEOF) esl_fatal("sequence read failure");
+      esl_sqfile_Close(sqfp);
+    }
+  esl_sq_Destroy(sq);
+
+  /* Save the SSI index to a file.
+   */
+  esl_newssi_Write(ns);
+  esl_newssi_Close(ns);
+  
+  /* Open the SSI index - now we'll use it to retrieve
+   * <nq> random sequences.
+   */
+  if (esl_ssi_Open(ssifile, &ssi) != eslOK) esl_fatal("failed to open ssi index");
+  sq = esl_sq_Create();
+  while (nq--)
+    {
+      /* Choose a seq and file */
+      i = esl_rnd_Roll(r, nseq*nfiles);
+      j = i/nseq;
+      sprintf(query, "seq%d-file%d", i, j);
+
+      /* Retrieve it */
+      status = esl_ssi_FindName(ssi, query, &fh, &roff, NULL, NULL);
+      if (status != eslOK) esl_fatal("didn't find %s in index", query);
+      esl_ssi_FileInfo(ssi, fh, &qfile, &qfmt);      
+      if (esl_sqfile_Open(qfile, qfmt, NULL, &sqfp) != eslOK)
+	esl_fatal("failed to open fasta file %s", qfile);
+      esl_sqfile_Position(sqfp, roff);
+      if (esl_sqio_Read(sqfp, sq) != eslOK) esl_fatal("failed to read seq %s", query);
+
+      /* Check that it's the right one */
+      if (strcmp(sq->name, query) != 0)  esl_fatal("sought %s, retrieved %s", query, sq->name);
+      if (sq->n != seqlen[i])            esl_fatal("wrong sequence length retrieved");
+      if (strcmp(sq->seq,  seq[i]) != 0) esl_fatal("unexpected sequence retrieved");
+      if (strcmp(qfile, sqfile[j]) != 0) esl_fatal("file names %s and %s differ", qfile, sqfile[j]);
+
+      esl_sq_Reuse(sq);
+      esl_sqfile_Close(sqfp);
+    }
+  
+  for (j = 0; j < nfiles; j++) remove(sqfile[j]);
+  remove(ssifile);
+  status = eslOK;
+
+  /* flowthrough is safe: garbage collection only below. */
+ ERROR:
+  free(ssifile);
+  esl_sq_Destroy(sq);
+  esl_ssi_Close(ssi);
+  esl_randomness_Destroy(r);
+  if (seqlen) free(seqlen);
+  esl_Free2D((void **) seqname, nseq*nfiles);
+  esl_Free2D((void **) seq,     nseq*nfiles);
+  esl_Free2D((void **) sqfile, nfiles);
+  esl_getopts_Destroy(go);
+  return status;
+}
+#endif /*eslSSI_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 5. Example code.
+ ****************************************************************/
+#ifdef eslSSI_EXAMPLE
+/* gcc -o example -g -Wall -DeslSSI_EXAMPLE esl_ssi.c easel.c
+ * esl-shuffle -o foo.fa -N 1000 -G --amino -L 400 
+ * ./example foo.fa
+ */
+/*::cexcerpt::ssi_example::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_ssi.h"
+
+int main(int argc, char **argv)
+{
+  ESL_NEWSSI *ns;
+  char    *fafile;              /* name of FASTA file                   */
+  FILE    *fp;                  /* opened FASTA file for reading        */
+  char    *ssifile;             /* name of SSI file                     */
+  uint16_t fh;                  /* file handle SSI associates w/ fafile */
+  char    *buf = NULL;          /* growable buffer for esl_fgets()      */
+  int      n   = 0;             /* length of buf                        */
+  char    *s, *seqname;		
+  off_t    seq_offset;
+  int      status;
+
+  /* Open a new SSI index named <fafile>.ssi */
+  fafile = argv[1];
+  esl_strdup(fafile,   -1, &ssifile);  
+  esl_strcat(&ssifile, -1, ".ssi", 4); 
+  status = esl_newssi_Open(ssifile, FALSE, &ns);
+  if      (status == eslENOTFOUND)   esl_fatal("failed to open SSI index %s", ssifile);
+  else if (status == eslEOVERWRITE)  esl_fatal("SSI index %s already exists; delete or rename it", ssifile);
+  else if (status != eslOK)          esl_fatal("failed to create a new SSI index");
+
+  /* Collect the sequence names from a FASTA file into an index */
+  if ((fp = fopen(fafile, "r"))              == NULL)  esl_fatal("failed to open %s", fafile);
+  if (esl_newssi_AddFile(ns, fafile, 1, &fh) != eslOK) esl_fatal("failed to add %s to index: %s", fafile, ns->errbuf);
+  seq_offset = ftello(fp);
+  while (esl_fgets(&buf, &n, fp) == eslOK)
+    {
+      if (*buf == '>') {
+	s = buf+1;                           /* skip past >                */
+	esl_strtok(&s, " \t\n", &seqname);   /* name = 1st token on > line */
+	if (esl_newssi_AddKey(ns, seqname, fh, seq_offset, 0, 0) != eslOK)
+	  esl_fatal("failed to add key %s to index: %s", seqname, ns->errbuf);
+      }
+      seq_offset = ftello(fp);				 
+    }
+  free(buf);
+  fclose(fp);
+
+  /* Save the index to disk */
+  status = esl_newssi_Write(ns);
+  if      (status == eslERANGE)   esl_fatal("SSI index file size exceeds maximum allowed by your filesystem");
+  else if (status == eslESYS)     esl_fatal("SSI index sort failed: %s", ns->errbuf);
+  else if (status != eslOK)       esl_fatal("SSI index save failed: %s", ns->errbuf);
+  esl_newssi_Close(ns);  
+  free(ssifile);
+  return 0;
+}
+/*::cexcerpt::ssi_example::end::*/
+#endif /*eslSSI_EXAMPLE*/
+
+
+#ifdef eslSSI_EXAMPLE2
+/* gcc -o example2 -g -Wall -DeslSSI_EXAMPLE2 esl_ssi.c easel.c
+ * ./example2 random77 foo.fa.ssi 
+ */
+/*::cexcerpt::ssi_example2::begin::*/
+#include <stdio.h>
+#include "easel.h"
+#include "esl_ssi.h"
+
+int main(int argc, char **argv)
+{
+  ESL_SSI *ssi;
+  char    *seqname;             /* name of sequence to retrieve         */
+  char    *ssifile;             /* name of SSI file                     */
+  uint16_t fh;                  /* file handle SSI associates w/ fafile */
+  char    *fafile;              /* name of FASTA file                   */
+  int      fmt;                 /* format code (1, in this example)     */
+  off_t    offset;              /* disk offset of seqname in fafile     */
+  FILE    *fp;                  /* opened FASTA file for reading        */
+  char    *buf = NULL;          /* growable buffer for esl_fgets()      */
+  int      n = 0;               /* size of buffer                       */
+
+  seqname = argv[1];
+  ssifile = argv[2];
+
+  if (esl_ssi_Open(ssifile, &ssi)                              != eslOK) esl_fatal("open failed");
+  if (esl_ssi_FindName(ssi, seqname, &fh, &offset, NULL, NULL) != eslOK) esl_fatal("find failed");
+  if (esl_ssi_FileInfo(ssi, fh, &fafile, &fmt)                 != eslOK) esl_fatal("info failed");
+  /* you can't close the ssi file yet - fafile is pointing into it! */
+
+  if ((fp = fopen(fafile, "r"))     == NULL)  esl_fatal("failed to open %s", fafile);
+  if (fseeko(fp, offset, SEEK_SET)  != 0)     esl_fatal("failed to position %s", fafile);
+  if (esl_fgets(&buf, &n, fp)       != eslOK) esl_fatal("failed to get name/desc line");
+  do {
+    printf("%s", buf); 
+  } while (esl_fgets(&buf, &n, fp) == eslOK && *buf != '>');
+  
+  esl_ssi_Close(ssi);  
+  fclose(fp);  
+  free(buf);
+  return 0;
+}
+/*::cexcerpt::ssi_example2::end::*/
+#endif /*eslSSI_EXAMPLE2*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_ssi.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_ssi.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.h
new file mode 100755
index 0000000..61312d8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.h
@@ -0,0 +1,169 @@
+/* Simple sequence indices: 
+ * Fast sequence record lookup in large files by keywords, such
+ * as names or accessions.
+ */
+#ifndef eslSSI_INCLUDED
+#define eslSSI_INCLUDED
+#ifdef eslAUGMENT_SSI
+
+#ifdef HAVE_SYS_TYPES_H
+#include <sys/types.h>
+#endif
+#ifdef HAVE_STDINT_H	
+#include <stdint.h>
+#endif
+#ifdef HAVE_INTTYPES_H
+#include <inttypes.h>
+#endif
+
+#define eslSSI_MAXFILES 32767	     /* 2^15-1 */
+#define eslSSI_MAXKEYS  2147483647L  /* 2^31-1 */
+#define eslSSI_MAXRAM   256	     /* >256MB indices trigger external sort */
+
+#ifndef HAVE_FSEEKO
+#define fseeko fseek
+#define ftello ftell
+#endif 
+
+/* ESL_SSI
+ * Using an existing SSI index file.
+ */ 
+typedef struct {
+  FILE      *fp;              /* open SSI index file                 */
+  uint32_t   flags;	      /* optional behavior flags             */
+  uint32_t   offsz;	      /* sizeof(off_t)'s in the SSI file     */
+  uint16_t   nfiles;          /* number of files = 16 bit int        */
+  uint64_t   nprimary;        /* number of primary keys              */
+  uint64_t   nsecondary;      /* number of secondary keys            */
+  uint32_t   flen;            /* length of filenames (inc '\0')      */
+  uint32_t   plen;            /* length of primary keys (inc '\0')   */
+  uint32_t   slen;            /* length of secondary keys (inc '\0') */
+  uint32_t   frecsize;        /* # bytes in a file record            */
+  uint32_t   precsize;        /* # bytes in a primary key record     */
+  uint32_t   srecsize;        /* # bytes in a secondary key record   */
+  off_t      foffset;         /* disk offset, start of file records  */
+  off_t      poffset;         /* disk offset, start of pri key recs  */
+  off_t      soffset;         /* disk offset, start of sec key recs  */
+
+
+  /* File information:  */
+  char     **filename;        /* list of file names [0..nfiles-1]    */
+  uint32_t  *fileformat;      /* file formats                        */
+  uint32_t  *fileflags;	      /* optional per-file behavior flags    */
+  uint32_t  *bpl;             /* bytes per line in file              */
+  uint32_t  *rpl;             /* residues per line in file           */
+} ESL_SSI;
+
+/* Flags for the <ssi->fileflags> bit vectors. */
+#define eslSSI_FASTSUBSEQ   (1<<0)    /* we can do fast subseq lookup calculations on this file */
+
+
+/* ESL_NEWSSI
+ * Used to create a new SSI index.
+ */
+typedef struct {		/* Primary key data: */
+  char      *key;               /* key name          */
+  uint16_t   fnum;		/* file number       */
+  off_t      r_off;		/* record offset     */
+  off_t      d_off;		/* data offset       */
+  int64_t    len;		/* sequence length   */
+} ESL_PKEY;
+
+typedef struct {		/* Secondary key data: */
+  char        *key;             /* secondary key name  */
+  char        *pkey;            /* primary key name    */ 
+} ESL_SKEY;
+
+typedef struct {
+  char       *ssifile;		/* name of the SSI file we're creating    */
+  FILE       *ssifp;		/* open SSI file being created            */
+  int         external;	        /* TRUE if pkeys and skeys are on disk    */
+  int         max_ram;	        /* threshold in MB to trigger extern sort */
+
+  char      **filenames;
+  uint32_t   *fileformat;
+  uint32_t   *bpl;
+  uint32_t   *rpl;		
+  uint32_t    flen;		/* length of longest filename, inc '\0' */
+  uint16_t    nfiles;		/* can store up to 2^15-1 (32767) files */
+  
+  ESL_PKEY   *pkeys;
+  uint32_t    plen;	        /* length of longest pkey, including '\0'    */
+  uint64_t    nprimary;		/* can store up to 2^63-1 = 9.2e18 keys      */
+  char       *ptmpfile;		/* primary key tmpfile name, for extern sort */
+  FILE       *ptmp;	        /* handle on open ptmpfile */
+
+  ESL_SKEY   *skeys;
+  uint32_t    slen;        	/* length of longest skey, including '\0' */
+  uint64_t    nsecondary;
+  char       *stmpfile;		/* secondary key tmpfile name, for extern sort */
+  FILE       *stmp;	        /* handle on open ptmpfile */
+
+  char        errbuf[eslERRBUFSIZE];
+} ESL_NEWSSI;
+
+
+#define eslSSI_FCHUNK  16	/* chunk size for file name reallocation */
+#define eslSSI_KCHUNK  128	/* and for key reallocation              */
+
+
+/* 1. Using (reading) SSI indices */
+extern int  esl_ssi_Open(const char *filename, ESL_SSI **ret_ssi);
+extern void esl_ssi_Close(ESL_SSI *ssi);
+extern int  esl_ssi_FindName(ESL_SSI *ssi, const char *key,
+			     uint16_t *ret_fh, off_t *ret_roff, off_t *opt_doff, int64_t *opt_L);
+extern int  esl_ssi_FindNumber(ESL_SSI *ssi, int64_t nkey,
+			       uint16_t *opt_fh, off_t *opt_roff, off_t *opt_doff, int64_t *opt_L, char **opt_pkey);
+extern int  esl_ssi_FindSubseq(ESL_SSI *ssi, const char *key, int64_t requested_start,
+			       uint16_t *ret_fh, off_t *ret_roff, off_t *ret_doff, int64_t *ret_L, int64_t *ret_actual_start);
+extern int  esl_ssi_FileInfo(ESL_SSI *ssi, uint16_t fh, char **ret_filename, int *ret_format);
+
+
+
+/* 2. Creating (writing) SSI indices. */
+extern int  esl_newssi_Open(const char *ssifile, int allow_overwrite, ESL_NEWSSI **ret_newssi);
+extern int  esl_newssi_AddFile  (ESL_NEWSSI *ns, const char *filename, int fmt, uint16_t *ret_fh);
+extern int  esl_newssi_SetSubseq(ESL_NEWSSI *ns, uint16_t fh, uint32_t bpl, uint32_t rpl);
+extern int  esl_newssi_AddKey   (ESL_NEWSSI *ns, const char *key, uint16_t fh, off_t r_off, off_t d_off, int64_t L);
+extern int  esl_newssi_AddAlias (ESL_NEWSSI *ns, const char *alias, const char *key);
+extern int  esl_newssi_Write    (ESL_NEWSSI *ns);
+extern void esl_newssi_Close    (ESL_NEWSSI *ns);
+
+
+/* 3. Portable binary i/o. */
+extern void     esl_byteswap(char *swap, int nbytes);
+extern uint16_t esl_ntoh16(uint16_t netshort);
+extern uint32_t esl_ntoh32(uint32_t netlong);
+extern uint64_t esl_ntoh64(uint64_t net_int64);
+extern uint16_t esl_hton16(uint16_t hostshort);
+extern uint32_t esl_hton32(uint32_t hostlong);
+extern uint64_t esl_hton64(uint64_t host_int64);
+extern int      esl_fread_u16(FILE *fp, uint16_t *ret_result);
+extern int      esl_fread_u32(FILE *fp, uint32_t *ret_result);
+extern int      esl_fread_u64(FILE *fp, uint64_t *ret_result);
+extern int      esl_fread_i16(FILE *fp, int16_t  *ret_result);
+extern int      esl_fread_i32(FILE *fp, int32_t  *ret_result);
+extern int      esl_fread_i64(FILE *fp, int64_t  *ret_result);
+extern int      esl_fwrite_u16(FILE *fp, uint16_t n);
+extern int      esl_fwrite_u32(FILE *fp, uint32_t n);
+extern int      esl_fwrite_u64(FILE *fp, uint64_t n);
+extern int      esl_fwrite_i16(FILE *fp, int16_t  n);
+extern int      esl_fwrite_i32(FILE *fp, int32_t  n);
+extern int      esl_fwrite_i64(FILE *fp, int64_t  n);
+extern int	esl_fread_offset(FILE *fp, int mode, off_t *ret_offset);
+extern int      esl_fwrite_offset(FILE *fp, off_t offset);
+#endif /* eslAUGMENT_SSI*/
+#ifndef eslAUGMENT_SSI
+typedef void ESL_SSI;
+typedef void ESL_NEWSSI;
+#endif
+#endif /* eslSSI_INCLUDED */
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.tex
new file mode 100755
index 0000000..a719fc7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_ssi.tex
@@ -0,0 +1,451 @@
+The \eslmod{ssi} module is for creating and using ``SSI''
+(sequence/subsequence index) files. SSI indexes flatfile databases by
+names and/or accessions, enabling fast sequence record retrieval. 
+
+An SSI index is a binary file that stores sequence names or accessions
+as \emph{keys}, associating them with information about the sequence
+record, including its location (file name and disk offset), so that it
+can be looked up rapidly. It differentiates between \emph{primary
+keys} and \emph{secondary keys} (aliases).  There is one and only one
+primary key per record. There can be more than one secondary key
+(alias) per sequence. Both primary and secondary keys must be unique
+identifiers (no two records have the same key). For example, a program
+for sequence retrieval might create an SSI index with accessions as
+primary keys and names as secondary keys (or the other way around).
+
+Records can also be retrieved by number from the list of primary keys.
+This may be useful for distributed data-parallel applications, which
+can use SSI to rapidly position individual processes at different
+record ranges in a flatfile database.
+
+A single SSI file can index a sequence database that consists of more
+than one individual sequence file. For example, the GenBank database
+is distributed as a large number of flatfiles; one SSI file can index
+them all.
+
+When records are consistently formatted, SSI indices can allow a
+specific subsequence in a sequence record to be identified
+rapidly. This is useful when the sequence records are very large, such
+as whole assembled genomes or chromosomes.
+
+Although SSI indices are designed with sequence databases in mind, SSI
+can also be used to index records in other types of flatfile
+databases. For example, HMMER uses SSI to index HMM databases, and the
+\eslmod{msa} module can use SSI to index Stockholm format multiple
+alignment databases like Pfam and Rfam.
+
+SSI can handle large amounts of data. It is capable of indexing tens
+of thousands of files and hundreds of trillions of sequence records.
+The lengths of primary keys, secondary keys, or filenames are
+effectively unlimited, and individual sequence records may be many
+trillions of residues long, orders of magnitude larger than the
+largest complete chromosomes. SSI indexing is effectively limited only
+by the size of the SSI index file itself (up to 8 exabytes, on 64-bit
+filesystems).
+
+Binary SSI indices are portable between different
+machines.\footnote{The sole exception is that SSI indices built for
+64-bit filesystems might not be readable on a fully 32-bit
+filesystem.}
+
+Table~\ref{tbl:ssi_api} lists the functions in the \eslmod{ssi} API.
+A \eslmod{ESL\_SSI} object is used for reading an index, and a
+\eslmod{ESL\_NEWSSI} object is used for creating one. There is also a
+set of functions for portable binary file i/o.
+
+
+% Table generated by autodoc -t esl_ssi.c (so don't edit here, edit esl_ssi.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{Using (reading) an SSI index.}\\
+\hyperlink{func:esl_ssi_Open()}{\ccode{esl\_ssi\_Open()}} & Open an SSI index as an \ccode{ESL\_SSI}.\\
+\hyperlink{func:esl_ssi_FindName()}{\ccode{esl\_ssi\_FindName()}} & Look up a primary or secondary key.\\
+\hyperlink{func:esl_ssi_FindNumber()}{\ccode{esl\_ssi\_FindNumber()}} & Look up the n'th primary key.\\
+\hyperlink{func:esl_ssi_FindSubseq()}{\ccode{esl\_ssi\_FindSubseq()}} & Look up a specific subsequence's start.\\
+\hyperlink{func:esl_ssi_FileInfo()}{\ccode{esl\_ssi\_FileInfo()}} & Retrieve a file name and format code.\\
+\hyperlink{func:esl_ssi_Close()}{\ccode{esl\_ssi\_Close()}} & Close an SSI index.\\
+\apisubhead{Creating (writing) new SSI files.}\\
+\hyperlink{func:esl_newssi_Open()}{\ccode{esl\_newssi\_Open()}} & Open a new \ccode{ESL\_NEWSSI}.\\
+\hyperlink{func:esl_newssi_AddFile()}{\ccode{esl\_newssi\_AddFile()}} & Add a filename to a growing index.\\
+\hyperlink{func:esl_newssi_SetSubseq()}{\ccode{esl\_newssi\_SetSubseq()}} & Declare that file is suitable for fast subseq lookup.\\
+\hyperlink{func:esl_newssi_AddKey()}{\ccode{esl\_newssi\_AddKey()}} & Add a primary key to a growing index.\\
+\hyperlink{func:esl_newssi_AddAlias()}{\ccode{esl\_newssi\_AddAlias()}} & Add a secondary key (alias) to a growing index.\\
+\hyperlink{func:esl_newssi_Write()}{\ccode{esl\_newssi\_Write()}} & Save a new index to an SSI file.\\
+\hyperlink{func:esl_newssi_Close()}{\ccode{esl\_newssi\_Destroy()}} & Close an \ccode{ESL\_NEWSSI}.\\
+\apisubhead{Portable binary i/o}\\
+\hyperlink{func:esl_byteswap()}{\ccode{esl\_byteswap()}} & Description.\\
+\hyperlink{func:esl_ntoh16()}{\ccode{esl\_ntoh16()}} & Description.\\
+\hyperlink{func:esl_hton16()}{\ccode{esl\_hton16()}} & Description.\\
+%\hyperlink{func:esl_fread_i16()}{\ccode{esl\_fread\_i16()}} & Description.\\
+%\hyperlink{func:esl_fwrite_i16()}{\ccode{esl\_fwrite\_i16()}} & Description.\\
+\ccode{esl\_fread\_i16()} & Description.\\
+\ccode{esl\_fwrite\_i16()} & Description.\\
+\hyperlink{func:esl_fread_offset()}{\ccode{esl\_fread\_offset()}} & Description.\\
+\hyperlink{func:esl_fwrite_offset()}{\ccode{esl\_fwrite\_offset()}} & Description.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{ssi} API.}
+\label{tbl:ssi_api}
+\end{table}
+
+\subsection{Example: creating an SSI index}
+
+Figure~\ref{fig:ssi_example} shows a program that creates an SSI index
+for a FASTA sequence file, in which sequence records start with a line
+like:
+\begin{cchunk}
+ >SEQ_NAME  Rest of the line is a free-text description.
+\end{cchunk}
+
+\begin{figure}
+\input{cexcerpts/ssi_example}
+\caption{An example of indexing the sequence records in a FASTA file.}
+\label{fig:ssi_example}
+\end{figure}
+
+\begin{itemize}
+\item A new index is created (\ccode{esl\_newssi\_Open()}).  You can
+      name an SSI index anything you want, but for an index of a
+      single file, \Easel\ generally defaults to assuming an
+      \ccode{.ssi} suffix is appended to the filename. That's what
+      the example does here.
+
+\item Each file to be indexed is added to the index by a call to
+      \ccode{esl\_newssi\_AddFile()}. This returns a \emph{file handle}
+      (\ccode{fh}) that you will need when you add primary keys. In
+      this example, there is only one file and only one file handle.
+
+\item You need to determine the disk offset at the exact beginning of
+      each sequence record. You retrieve your current position in the
+      file using an \ccode{ftello()} call.
+
+\item You add each primary key to the index with a
+      \ccode{esl\_newssi\_AddKey()} call. You provide the handle of the
+      file that key is in, and the offset to the start of this key's
+      sequence record.
+
+\item The \ccode{esl\_fgets()} function (part of the \eslmod{easel} 
+      foundation module) is a way of reading text files line by line, 
+      no matter how long each line might be: \ccode{esl\_fgets()}
+      reallocates its buffer as needed.
+
+\item \ccode{esl\_newssi\_Write()} saves the index to an open file.
+
+\item Finally, the index structure is freed by
+      \ccode{esl\_newssi\_Close()}.
+\end{itemize}
+
+To compile and run the program, given a FASTA file \ccode{foo.fa} that
+you provide:
+
+\begin{cchunk}
+  % cc -o example -DeslSSI_EXAMPLE esl_ssi.c -leasel -lm
+  % ./example foo.fa
+\end{cchunk}
+
+This will create a new SSI file called \ccode{foo.fa.ssi}.
+
+\subsection{An example of using an SSI index}
+
+Figure~\ref{fig:ssi_example2} shows a program that retrieves a FASTA
+sequence record by its name, using an SSI index.
+
+\begin{figure}
+\input{cexcerpts/ssi_example2}
+\caption{Example of using an SSI index to retrieve a sequence by name from a FASTA
+  file.}
+\label{fig:ssi_example2}
+\end{figure}
+
+\begin{itemize}
+\item \ccode{esl\_ssi\_Open()} opens the SSI index file.
+
+\item \ccode{esl\_ssi\_FindName()} looks up the record by its name.
+      Primary keys are checked first, then secondary keys. If it is
+      found, \ccode{fh} contains a file handle (what file it's in),
+      and \ccode{offset} contains the position of the desired record
+      in that file.
+
+\item The file handle \ccode{fh} is looked up in the file index with
+      \ccode{esl\_ssi\_FileInfo()}, and the name of the file and a
+      format code are returned. The format code is useful if you need
+      to hand the filename off to different kinds of file parsers,
+      depending on what file type it is. (SSI can index files in
+      heterogenous formats.)
+
+\item After that, you use the retrieved information however you need,
+      independent of the SSI index. The example emphasizes this, by
+      freeing the SSI index immediately with \ccode{esl\_ssi\_Destroy()}
+      after it knows \ccode{fafile} and \ccode{offset}. The example
+      opens the file, positions the disk with \ccode{fseeko()}, and
+      reads a sequence record out of it one line at a time, until it
+      reaches EOF or the start of the next sequence record.
+\end{itemize}
+
+
+
+
+
+\subsection{SSI file format} 
+
+There are four sections to the SSI file:
+\begin{sreitems}{\textbf{Secondary keys}}
+\item[\textbf{Header}] 
+Contains a magic number indicating SSI version number, followed by
+information about the number and sizes of items in the index.
+
+\item[\textbf{Files}]
+Contains one or more \emph{file records}, one per sequence file that's
+indexed. These contain information about the individual files.
+
+\item[\textbf{Primary keys}]
+Contains one or more \emph{primary key records}, one per primary key.
+
+\item[\textbf{Secondary keys}]
+Contains one or more \emph{secondary key records}, one per secondary key.
+\end{sreitems}
+
+All numeric quantities are stored as fixed-width unsigned integers in
+network (bigendian) order, for crossplatform portability of the index
+files, using types \ccode{uint16\_t}, \ccode{uint32\_t}, and
+\ccode{uint64\_t}.\footnote{These types are available on C99-compliant
+systems. On other systems, \Easel\ automatically defines appropriate
+substitutes at configuration time.}  Values may need to be cast to
+signed quantities elsewhere in \Easel, so only half of their dynamic
+range is valid (e.g. 0..32,767 for values of type \ccode{uint16\_t};
+0..2,146,483,647 (2 billion) for \ccode{uint32\_t}; and 0..9.22e18 (9
+million trillion) for \ccode{uint64\_t}).
+
+File offsets (type \ccode{off\_t}) are assumed to be either 32-bit or
+64-bit signed integers. Easel uses 64-bit offsets if at all possible
+on your system. The size of \ccode{off\_t} for the system that created
+the SSI file is stored in the SSI header, for portability to other
+systems that try to read the SSI file.
+
+\subsubsection{Header section}
+
+The header section contains:
+
+\vspace{1em}
+\begin{tabular}{llrr}
+Variable          & Description                                      & Bytes      & Type \\\hline
+\ccode{magic}      & SSI version magic number.                       &  4         & \ccode{uint32\_t}\\
+\ccode{flags}      & Optional behavior flags (see below)             &  4         & \ccode{uint32\_t}\\
+\ccode{offsz}      & \ccode{off\_t} size on system that made index   &  4         & \ccode{uint32\_t}\\
+\ccode{nfiles}     & Number of files in file section.                &  2         & \ccode{uint16\_t}\\
+\ccode{nprimary}   & Number of primary keys indexed.                 &  8         & \ccode{uint64\_t}\\
+\ccode{nsecondary} & Number of secondary keys indexed.               &  8         & \ccode{uint64\_t}\\
+\ccode{flen}       & Length of filenames (incl. '\verb+\0+')         &  4         & \ccode{uint32\_t}\\
+\ccode{plen}       & Length of primary key names (incl. '\verb+\0+') &  4         & \ccode{uint32\_t}\\
+\ccode{slen}       & Length of sec. key names (incl. '\verb+\0+')    &  4         & \ccode{uint32\_t}\\
+\ccode{frecsize}   & \# of bytes in a file record                    &  4         & \ccode{uint32\_t}\\
+\ccode{precsize}   & \# of bytes in a primary key record             &  4         & \ccode{uint32\_t}\\
+\ccode{srecsize}   & \# of bytes in a sec. key record                &  4         & \ccode{uint32\_t}\\
+\ccode{foffset}    & disk offset, start of file records              &  \dag      & \ccode{off\_t}\\
+\ccode{poffset}    & disk offset, start of primary key recs          &  \dag      & \ccode{off\_t}\\
+\ccode{soffset}    & disk offset, start of sec. key records          &  \dag      & \ccode{off\_t}\\
+\end{tabular}
+\vspace{1em}
+
+The \ccode{flags} field is currently unused. It is stored for possible
+future use, for any optional behaviors that may need to be
+implemented.
+
+The reason to explicitly record various record sizes
+(\ccode{frecsize}, \ccode{precsize}, \ccode{srecsize}) and index file
+positions (\ccode{foffset}, \ccode{poffset}, \ccode{soffset}) is to
+allow for future extensions. Using explicit offsets means we can add
+more fields in future versions of SSI without breaking older SSI
+parsers. The format is meant to be both forwards- and
+backwards-compatible.
+
+\subsubsection{File section}
+
+The file section consists of \ccode{nfiles} file records. Each record
+is \ccode{frecsize} bytes long, and contains:
+
+\vspace{1em}
+\begin{tabular}{llrr}
+Variable & Description                                       & Bytes & Type \\\hline
+\ccode{filename} & Name of file (possibly including full path)       & \ccode{flen} & \ccode{char *}\\
+\ccode{format}   & Format code for file                              & 4    & \ccode{uint32\_t} \\
+\ccode{flags}    & Optional behavior flags                           & 4    & \ccode{uint32\_t} \\
+\ccode{bpl}      & Bytes per sequence data line                      & 4    & \ccode{uint32\_t} \\
+\ccode{rpl}      & Residues per sequence data line                   & 4    & \ccode{uint32\_t} \\\hline
+\end{tabular}
+\vspace{1em}
+
+When a SSI file is written, \ccode{frecsize} is equal to the sum of
+the sizes above.  When a SSI file is read by a parser, it is possible
+that \ccode{frecsize} is larger than the parser expects, if the parser
+is expecting an older version of the SSI format, because additional
+fields might be present. The parser will only try to parse data up to
+the \ccode{frecsize} it expected to see, but still knows the (possibly
+larger) \ccode{frecsize} that is operative in this SSI file, for
+purposes of skipping around in the index file.
+
+An SSI index might reside in the same directory as the data file(s) it
+indexes, so \ccode{filename} might be relative to the location of the
+SSI index. Alternatively, \ccode{filename} might be a full path. These
+semantics are not enforced by the \eslmod{ssi} module. Rather, this is
+an issue for an SSI-enabled application to define for
+itself. SSI-enabled applications would typically include program(s)
+for creating indices and program(s) for using them. Different
+applications might employ different conventions for where the indices
+are expected to be, relative to the sequence files, so long as that
+convention is consistently applied by both index creator and index
+user.
+
+Similarly, the \eslmod{ssi} module does not specify the meaning of the
+\ccode{format} code. An SSI-enabled application may use this field to
+associate any useful format code (or indeed, any other number) with
+each indexed file. A typical use, though, would be sequence file
+format codes like \ccode{eslSQFILE\_FASTA} or
+\ccode{eslMSAFILE\_STOCKHOLM} from the \eslmod{sqio} or \eslmod{msa}
+modules.
+
+Only one possible optional behavior flag is currently defined:
+
+\vspace{1em}
+\begin{tabular}{lll}
+Flag             & Value& Note\\ \hline
+\ccode{eslSSI\_FASTSUBSEQ} & $1 \ll 0$ & Fast subseq retrieval is possible for this file.\\\hline
+\end{tabular}
+\vspace{1em}
+
+When \ccode{eslSSI\_FASTSUBSEQ} is set, \ccode{bpl} and \ccode{rpl}
+are nonzero. These can then be used to calculate the offset of
+subsequence positions in the data file. This optional behavior is
+described in detail a bit later.
+
+\subsubsection{Primary key section}
+
+The primary key section consists of \ccode{nprimary} records. Each
+record is \ccode{precsize} bytes long, and contains:
+
+\vspace{1em}
+\begin{tabular}{llrr}
+Variable   & Description                                 & Bytes      & Type \\\hline
+\ccode{key}	   & Key name (seq name, identifier, accession) & \ccode{plen}& \ccode{char *}\\
+\ccode{fnum}       & File number (0..nfiles-1)                   & 2          & \ccode{uint16\_t}\\
+\ccode{r\_off}     & Offset to start of record                   & \ddag      & \ccode{off\_t}\\
+\ccode{d\_off}     & Offset to start of sequence data            & \ddag      & \ccode{off\_t}\\
+\ccode{len}        & Length of data (e.g. seq length, residues)  & 8          & \ccode{uint64\_t} \\\hline
+\end{tabular} 
+\vspace{1em}
+
+The two offsets are sequence file offsets that may be either 8 or 4
+bytes (indicated by \ddag above). They are usually 64-bit (8 byte)
+signed integers.  If an SSI index is created on an older system that
+only allows 32-bit offsets (and hence cannot have files $>$2 GB), they
+are 32-bit (4-byte) signed integers.
+
+\ccode{r\_off} (the \emph{record offset}) indicates the position of
+the first byte of the record.
+
+\ccode{d\_off} (the \emph{data offset}) is optional. It indicated the
+position of the first byte of the data in the record (the sequence
+itself, for example), after any header information.  If
+\ccode{eslSSI\_FASTSUBSEQ} is set on this key's file, \ccode{d\_off}
+can be used to calculate a disk position close to (and possibly
+exactly at) the start of any subsequence.
+
+\ccode{len} is the length of the data record. It is optional, because
+some kinds of records that SSI might be used to index may not have a
+meaningful length. The units of length are application-defined (i.e.\
+defined by whatever creates the SSI index for a particular file); but
+for sequences, \ccode{len} is almost certainly in residues.  In
+subsequence retrieval, a \ccode{len} in residues is necessary for
+bounds checking.
+
+\subsubsection{Secondary key section}
+
+The secondary key section consists of \ccode{nsecondary} records. Each
+record is \ccode{srecsize} bytes long, and contains:
+
+\vspace{1em}
+\begin{tabular}{llrr}
+Variable   & Description                                   & Bytes      & Type \\\hline
+\ccode{key}   & Key name (seq name, identifier, accession)  & \ccode{slen}& \ccode{char *}\\
+\ccode{pkey}  & Primary key                                 &
+\ccode{plen}& \ccode{char *}\\\hline
+\end{tabular}
+\vspace{1em}
+
+That is, secondary keys are simply associated with primary keys as
+\emph{aliases}.  There can be many secondary keys for a given record.
+However, all keys (primary and secondary) must be unique: no key can
+occur more than once in the index.
+
+\subsection{Fast subsequence retrieval}
+
+In some files (notably whole chromosomal DNA sequences) the size of
+each sequence is large. It may be slow (even prohibitively slow) to
+extract a desired subsequence, even if an SSI index says how to find
+the sequence record quickly, if you had to read the entire sequence
+into memory just to extract the right part of it.
+
+SSI uses a simple but effective technique to find subsequences.
+Provided that he sequence data file is consistently formatted so that
+each line in each record (except the last one) is of the same length,
+in both bytes and residues, we can determine a disk offset of the
+start of any subsequence by arithmetic. \Easel\ refers to such a file
+as ``well-formatted''. For example, a simple well-formatted FASTA file
+with 50 residues per line might have 51 bytes on every sequence line
+(counting the '\verb+\0+') but for the last line in each record
+(\ccode{bpl}=51, \ccode{rpl}=50). Position $i$ in a sequence $1..L$
+will be on line $l = (i-1)/\mbox{\ccode{rpl}}$, and line $l$ starts at
+disk offset $l * \mbox{\ccode{bpl}}$ relative to the start of the
+sequence data.
+
+If there are no nonsequence characters in the data line except the
+terminal '\verb+\0+' (which is true iff \ccode{bpl} = \ccode{rpl}+1
+and 1 residue = 1 byte), we can precisely identify the disk position
+of any residue $i$ (\emph{single residue resolution}):
+
+\[
+\mbox{relative offset of residue $i$} =
+\left((i-1)/\mbox{\ccode{rpl}}\right)*\mbox{\ccode{bpl}} + (i-1) \% \mbox{ \ccode{rpl}}
+\]
+
+Even for sequence data lines with extra characters (e.g. spaces,
+coordinates, whatever), we can still identify the start of the text
+line that residue $i$ is on (\emph{line resolution}).  A parser can be
+positioned at the beginning of the appropriate line $l$, which starts
+at residue $(l*\mbox{\ccode{rpl}}) + 1$, and it can start reading from
+there (e.g. the line that $i$ is on) rather than the beginning of the
+whole sequence record.
+
+When creating an index, your application is responsible for
+determining if \ccode{bpl} and \ccode{rpl} are consistent throughout a
+file. If so, you may call \ccode{esl\_newssi\_SetSubseq()} on that
+file's handle to set \ccode{bpl}, \ccode{rpl}, and the
+\ccode{eslSSI\_FASTSUBSEQ} flag. Then, when using that index, you can
+use the \ccode{esl\_ssi\_FindSubseq()} call to retrieve not only the
+filehandle \ccode{fh} and record offset \ccode{r\_off} for a key; you
+also provide a desired start position \ccode{requested\_start} for the
+subsequence you want to retrieve, and the routine gives you back a
+data offset \ccode{d\_off}, which corresponds to a actual starting
+position \ccode{actual\_start} that is also returned. For single
+residue resolution, \ccode{actual\_start} is \ccode{requested\_start},
+and the data offset \ccode{d\_off} will position you right at the
+residue you want; you position the file with \ccode{fseeko()} and
+start reading your subsequence immediately. When we can only achieve
+line resolution, \ccode{actual\_start} is $\leq$
+\ccode{requested\_start}; you position the disk to the start of the
+appropriate line with \ccode{fseeko()}, start reading, and skip zero
+or more residues to reach your \ccode{requested\_start}. Your
+application should be prepared to deal with line resolution; it should
+not assume that \ccode{requested\_start} and \ccode{actual\_start} are
+identical.
+
+Data is always read ``left to right''.  To read a reverse complemented
+strand in DNA files, you must read your subsequence in forward
+orientation first, and reverse complement it later.
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.c
new file mode 100755
index 0000000..e50f0a4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.c
@@ -0,0 +1,1173 @@
+/* Pushdown stacks for integers, pointers, and characters.
+ *
+ * Contents:
+ *   1. The <ESL_STACK> object.
+ *   2. The main API, including pushing/popping.
+ *   3. Shuffling stacks.                  [eslAUGMENT_RANDOM]
+ *   4. Using stacks for thread communication   [HAVE_PTHREAD]
+ *   5. Unit tests.
+ *   6. Test driver.
+ *   7. Example.
+ *   8. Copyright and license.
+ *
+ * Augmentations:
+ *   eslAUGMENT_RANDOM  : adds function for shuffling a stack. 
+ * 
+ */ 
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#ifdef HAVE_PTHREAD
+#include <pthread.h>
+#endif
+
+#include "easel.h"
+#include "esl_stack.h"
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>		/* usleep() in unit tests */
+#endif
+
+/*****************************************************************
+ *# 1. The <ESL_STACK> object.
+ *****************************************************************/
+
+/* Function:  esl_stack_ICreate()
+ * Synopsis:  Create an integer stack.
+ * Incept:    SRE, Sun Dec 26 09:11:50 2004 [Zaragoza]
+ *
+ * Purpose:   Creates an integer stack.
+ *
+ * Returns:   a pointer to the new stack.
+ *
+ * Throws:    <NULL> on an allocation failure.
+ */
+ESL_STACK *
+esl_stack_ICreate(void)
+{
+  ESL_STACK *ns = NULL;
+  int status;
+  
+  ESL_ALLOC(ns, sizeof(ESL_STACK));
+  ns->nalloc   = ESL_STACK_INITALLOC;
+  ns->pdata    = NULL;
+  ns->cdata    = NULL;
+  ESL_ALLOC(ns->idata, sizeof(int) * ns->nalloc);
+  ns->n        = 0;
+
+#ifdef HAVE_PTHREAD
+  ns->do_mutex = FALSE;
+  ns->do_cond  = FALSE;
+  ns->mutex    = NULL;
+  ns->cond     = NULL;
+#endif  
+  return ns;
+
+ ERROR:
+  esl_stack_Destroy(ns);
+  return NULL;
+}
+
+/* Function:  esl_stack_CCreate()
+ * Synopsis:  Create a character stack.
+ * Incept:    SRE, Sun Dec 26 09:15:35 2004 [Zaragoza]
+ *
+ * Purpose:   Creates a character stack.
+ *
+ * Returns:   a pointer to the new stack.
+ *
+ * Throws:    <NULL> on an allocation failure.
+ */
+ESL_STACK *
+esl_stack_CCreate(void)
+{
+  ESL_STACK *cs = NULL;
+  int status;
+
+  ESL_ALLOC(cs, sizeof(ESL_STACK));
+  cs->nalloc   = ESL_STACK_INITALLOC;
+  cs->idata    = NULL;
+  cs->pdata    = NULL;
+  ESL_ALLOC(cs->cdata, sizeof(char) * cs->nalloc);
+  cs->n        = 0;
+
+#ifdef HAVE_PTHREAD
+  cs->do_mutex = FALSE;
+  cs->do_cond  = FALSE;
+  cs->mutex    = NULL;
+  cs->cond     = NULL;
+#endif  
+  return cs;
+
+ ERROR:
+  esl_stack_Destroy(cs);
+  return NULL;
+}
+
+/* Function:  esl_stack_PCreate()
+ * Synopsis:  Create a pointer stack.
+ * Incept:    SRE, Sun Dec 26 09:16:07 2004 [Zaragoza]
+ *
+ * Purpose:   Creates a pointer stack.
+ *
+ * Returns:   a pointer to the new stack.
+ *
+ * Throws:    <NULL> on an allocation failure.
+ */
+ESL_STACK *
+esl_stack_PCreate(void)
+{
+  ESL_STACK *ps = NULL;
+  int        status;
+  
+  ESL_ALLOC(ps, sizeof(ESL_STACK));
+  ps->nalloc   = ESL_STACK_INITALLOC;
+  ps->idata    = NULL;
+  ps->cdata    = NULL;
+  ESL_ALLOC(ps->pdata, sizeof(void *) * ps->nalloc);
+  ps->n        = 0;
+
+#ifdef HAVE_PTHREAD
+  ps->do_mutex = FALSE;
+  ps->do_cond  = FALSE;
+  ps->mutex    = NULL;
+  ps->cond     = NULL;
+#endif  
+
+  return ps;
+
+ ERROR:
+  esl_stack_Destroy(ps);
+  return NULL;
+}
+
+/* Function:  esl_stack_Reuse()
+ * Synopsis:  Reuse a stack.
+ * Incept:    SRE, Tue Dec 28 04:21:36 2004 [Zaragoza]
+ *
+ * Purpose:   Empties stack <s> so it can be reused without
+ *            creating a new one. The stack <s>
+ *            can be of any data type; it retains its original
+ *            type.
+ *
+ * Returns:   <eslOK>
+ */
+int
+esl_stack_Reuse(ESL_STACK *s)
+{
+  s->n = 0;	/* it's that simple in this implementation */
+  return eslOK;
+}
+
+/* Function:  esl_stack_Destroy()
+ * Synopsis:  Free a stack.
+ * Incept:    SRE, Sun Dec 26 09:16:24 2004 [Zaragoza]
+ *
+ * Purpose:   Destroys a created stack <s>, of any data type.
+ */
+void
+esl_stack_Destroy(ESL_STACK *s)
+{
+  if (s->idata) free(s->idata);
+  if (s->cdata) free(s->cdata);
+  if (s->pdata) free(s->pdata);
+
+#ifdef HAVE_PTHREAD
+  if (s->mutex) { pthread_mutex_destroy(s->mutex); free(s->mutex); }
+  if (s->cond)  { pthread_cond_destroy(s->cond);   free(s->cond);  }
+#endif
+  free(s);
+}
+/*------------------ end, ESL_STACK object ----------------------*/
+
+
+
+/*****************************************************************
+ *# 2. The main API, including pushing/popping.
+ *****************************************************************/
+
+/* Function:  esl_stack_IPush()
+ * Synopsis:  Push an integer onto a stack.
+ * Incept:    SRE, Sun Dec 26 09:17:17 2004 [Zaragoza]
+ *
+ * Purpose:   Push an integer <x> onto an integer stack <ns>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on reallocation failure.
+ *            <eslESYS> if a pthread call fails. In this case, the
+ *              state of a pthread mutex and/or cond may be wedged.             
+ */
+int
+esl_stack_IPush(ESL_STACK *ns, int x)
+{
+  int *ptr = NULL;
+  int  status;
+
+#ifdef HAVE_PTHREAD
+  if (ns->do_mutex) if (pthread_mutex_lock(ns->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+#endif
+
+  if (ns->n == ns->nalloc) {
+    ESL_RALLOC(ns->idata, ptr, sizeof(int) * ns->nalloc * 2);
+    ns->nalloc += ns->nalloc;	/* reallocate by doubling */
+  }
+  ns->idata[ns->n] = x;
+  ns->n++;
+
+#ifdef HAVE_PTHREAD
+  if (ns->do_cond)  if (pthread_cond_signal(ns->cond)   != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_signal() failure");
+  if (ns->do_mutex) if (pthread_mutex_unlock(ns->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return eslOK;
+
+ ERROR:
+#ifdef HAVE_PTHREAD
+  if (ns->do_mutex) if (pthread_mutex_unlock(ns->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return status;
+}
+
+/* Function:  esl_stack_CPush()
+ * Synopsis:  Push a char onto a stack.
+ * Incept:    SRE, Sun Dec 26 09:18:24 2004 [Zaragoza]
+ *
+ * Purpose:   Push a character <c> onto a character stack <cs>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on reallocation failure.
+ *            <eslESYS> if a pthread call fails. In this case, the
+ *              state of a pthread mutex and/or cond may be wedged.             
+ */
+int
+esl_stack_CPush(ESL_STACK *cs, char c)
+{
+  char *ptr   = NULL;
+  int  status;
+
+#ifdef HAVE_PTHREAD
+  if (cs->do_mutex) if (pthread_mutex_lock(cs->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+#endif
+
+  if (cs->n == cs->nalloc) {
+    ESL_RALLOC(cs->cdata, ptr, sizeof(char) * cs->nalloc * 2);
+    cs->nalloc += cs->nalloc;	/* reallocate by doubling */
+  }
+  cs->cdata[cs->n] = c;
+  cs->n++;
+
+#ifdef HAVE_PTHREAD
+  if (cs->do_cond)  if (pthread_cond_signal(cs->cond)    != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_signal() failure");
+  if (cs->do_mutex) if (pthread_mutex_unlock(cs->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return eslOK;
+
+ ERROR:
+#ifdef HAVE_PTHREAD
+  if (cs->do_mutex) if (pthread_mutex_unlock(cs->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return status;
+}
+
+/* Function:  esl_stack_PPush()
+ * Synopsis:  Push a pointer onto a stack.
+ * Incept:    SRE, Sun Dec 26 09:18:49 2004 [Zaragoza]
+ *
+ * Purpose:   Push a pointer <p> onto a pointer stack <ps>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on reallocation failure.
+ *            <eslESYS> if a pthread call fails. In this case, the
+ *              state of a pthread mutex and/or cond may be wedged.             
+ */
+int
+esl_stack_PPush(ESL_STACK *ps, void *p)
+{
+  void *ptr  = NULL;
+  int status;
+
+#ifdef HAVE_PTHREAD
+  if (ps->do_mutex) if (pthread_mutex_lock(ps->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+#endif
+
+  if (ps->n == ps->nalloc) {
+    ESL_RALLOC(ps->pdata, ptr, sizeof(void *) * ps->nalloc * 2);
+    ps->nalloc += ps->nalloc;	/* reallocate by doubling */
+  }
+  ps->pdata[ps->n] = p;
+  ps->n++;
+
+#ifdef HAVE_PTHREAD
+  if (ps->do_cond)  if (pthread_cond_signal(ps->cond)    != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_signal() failure");
+  if (ps->do_mutex) if (pthread_mutex_unlock(ps->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return eslOK;
+
+ ERROR:
+#ifdef HAVE_PTHREAD
+  if (ps->do_mutex) if (pthread_mutex_unlock(ps->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return status;
+}
+
+/* Function:  esl_stack_IPop()
+ * Synopsis:  Pop an integer off a stack.
+ * Incept:    SRE, Sun Dec 26 09:19:12 2004 [Zaragoza]
+ *
+ * Purpose:   Pops an integer off the integer stack <ns>, and returns
+ *            it through <ret_x>.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslEOD> if stack is empty.
+ *            
+ * Throws:    <eslESYS> if a pthread mutex lock/unlock or conditional wait fails.
+ */
+int
+esl_stack_IPop(ESL_STACK *ns, int *ret_x)
+{
+  int status;
+#ifdef HAVE_PTHREAD
+  if (ns->do_mutex           && pthread_mutex_lock(ns->mutex)          != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+  if (ns->do_cond && ! ns->n && pthread_cond_wait(ns->cond, ns->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_wait() failure");
+#endif
+
+  if (ns->n == 0) 
+    {
+      *ret_x = 0; 
+      status = eslEOD;
+    } 
+  else
+    {
+      ns->n--;
+      *ret_x = ns->idata[ns->n];
+      status = eslOK;
+    }
+
+#ifdef HAVE_PTHREAD
+  if (ns->do_mutex && pthread_mutex_unlock(ns->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return status;
+}
+
+/* Function:  esl_stack_CPop()
+ * Synopsis:  Pop a char off a stack.
+ * Incept:    SRE, Sun Dec 26 09:21:27 2004 [Zaragoza]
+ *
+ * Purpose:   Pops a character off the character stack <cs>, and returns
+ *            it through <ret_c>.
+ *
+ * Returns:   <eslOK> on success. 
+ *            <eslEOD> if stack is empty.
+ *            
+ * Throws:    <eslESYS> if a pthread mutex lock/unlock or conditional wait fails.
+ */
+int
+esl_stack_CPop(ESL_STACK *cs, char *ret_c)
+{
+  int status;
+#ifdef HAVE_PTHREAD
+  if (cs->do_mutex           && pthread_mutex_lock(cs->mutex)          != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+  if (cs->do_cond && ! cs->n && pthread_cond_wait(cs->cond, cs->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_wait() failure");
+#endif
+
+  if (cs->n == 0) 
+    { 
+      *ret_c = 0; 
+      status = eslEOD;
+    }
+  else
+    {
+      cs->n--;
+      *ret_c = cs->cdata[cs->n];
+      status = eslOK;
+    }
+
+#ifdef HAVE_PTHREAD
+  if (cs->do_mutex && pthread_mutex_unlock(cs->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return status;
+}
+
+/* Function:  esl_stack_PPop()
+ * Synopsis:  Pop a pointer off a stack.
+ * Incept:    SRE, Sun Dec 26 09:21:56 2004 [Zaragoza]
+ *
+ * Purpose:   Pops a pointer off the pointer stack <ps>, and returns
+ *            it through <ret_p>.
+ *
+ * Returns:   <eslOK> on success. 
+ *            <eslEOD> if stack is empty.
+ * 
+ * Throws:    <eslESYS> if a pthread mutex lock/unlock or conditional wait fails.
+ */
+int
+esl_stack_PPop(ESL_STACK *ps, void **ret_p)
+{
+  int status;
+#ifdef HAVE_PTHREAD
+  if (ps->do_mutex           && pthread_mutex_lock(ps->mutex)          != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+  if (ps->do_cond && ! ps->n && pthread_cond_wait(ps->cond, ps->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_wait() failure");
+#endif
+
+  if (ps->n == 0)
+    {
+      *ret_p = NULL; 
+      status = eslEOD;
+    }
+  else
+    {
+      ps->n--;
+      *ret_p = ps->pdata[ps->n];
+      status = eslOK;
+    }
+
+#ifdef HAVE_PTHREAD
+  if (ps->do_mutex && pthread_mutex_unlock(ps->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return status;
+}
+
+/* Function:  esl_stack_ObjectCount()
+ * Synopsis:  Return the number of objects in a stack.
+ * Incept:    SRE, Sun Dec 26 09:22:41 2004 [Zaragoza]
+ *
+ * Purpose:   Returns the number of data objects stored in the
+ *            stack <s>. The stack may be of any datatype.
+ */
+int 
+esl_stack_ObjectCount(ESL_STACK *s)
+{
+  return s->n;
+}
+
+/* Function:  esl_stack_Convert2String()
+ * Synopsis:  Convert a char stack to a string.
+ * Incept:    SRE, Sun Dec 26 09:23:36 2004 [Zaragoza]
+ *
+ * Purpose:   Converts a character stack <cs> to a NUL-terminated
+ *            string, and returns a pointer to the string. The
+ *            characters in the string are in the same order they
+ *            were pushed onto the stack.  The stack is destroyed by
+ *            this operation, as if <esl_stack_Destroy()> had been
+ *            called on it. The caller becomes responsible for
+ *            free'ing the returned string.
+ *            
+ *            Because the stack is destroyed by this call, use care in
+ *            a multithreaded context. You don't want to have another
+ *            thread waiting to do something to this stack as another
+ *            thread is destroying it. Treat this call like
+ *            you'd treat <esl_stack_Destroy()>. Its internals are
+ *            not mutex-protected (unlike push/pop functions).
+ *
+ * Returns:   Pointer to the string; caller must <free()> this.
+ *
+ * Throws:    NULL if a reallocation fails.
+ */
+char *
+esl_stack_Convert2String(ESL_STACK *cs)
+{
+  char *s    = NULL;
+  void *tmp  = NULL;
+  int   status;
+
+  /* Take stack away; it's already a string, just not nul-terminated */
+  s         = cs->cdata;
+  cs->cdata = NULL;		/* esl_stack_Destroy() will now ignore the NULL cdata field */
+
+  /* NUL-terminate; which might require a +1 realloc if we're unlucky */
+  if (cs->n == cs->nalloc) 
+    ESL_RALLOC(s, tmp, sizeof(char) * (cs->nalloc +1));
+  s[cs->n] = '\0';
+
+  /* Destroy the stack; return the string. */
+  esl_stack_Destroy(cs);
+  return s;
+
+ ERROR:
+  esl_stack_Destroy(cs);
+  return NULL;
+}
+
+/* Function:  esl_stack_DiscardTopN()
+ * Synopsis:  Discard the top elements on a stack.
+ * Incept:    SRE, Tue Dec 28 04:33:06 2004 [St. Louis]
+ *
+ * Purpose:   Throw away the top <n> elements on stack <s>.
+ *            Equivalent to <n> calls to a <Pop()> function.
+ *            If <n> equals or exceeds the number of elements 
+ *            currently in the stack, the stack is emptied
+ *            as if <esl_stack_Reuse()> had been called.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if mutex lock/unlock fails, if pthreaded.
+ */
+int
+esl_stack_DiscardTopN(ESL_STACK *s, int n)
+{
+#ifdef HAVE_PTHREAD
+  if (s->do_mutex && pthread_mutex_lock(s->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+#endif
+
+  if (n <= s->n) s->n -= n;
+  else           s->n = 0;
+
+#ifdef HAVE_PTHREAD
+  if (s->do_mutex && pthread_mutex_unlock(s->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return eslOK;
+}
+
+/* Function:  esl_stack_DiscardSelected()
+ * Synopsis:  Remove arbitrary elements from a stack.
+ * Incept:    SRE, Tue Jan 18 09:57:47 2011 [Janelia]
+ *
+ * Purpose:   For each element in the stack, call \verb+(*discard_func)(&element, param)+.
+ *            If <TRUE>, discard the element. 
+ *            
+ *            Passing a pointer to an arbitrary <(*discard_func)>
+ *            allows arbitrary rules. The <(*discard_func)> gets two
+ *            arguments: a pointer (which is either a pointer to an
+ *            element for int and char stacks, or an actual pointer
+ *            element from a pointer stack), and <param>, a <void *>
+ *            to whatever arguments the caller needs the selection
+ *            function to have.
+ *            
+ *            When discarding elements from a pointer stack, the
+ *            <*discard_func()> will generally assume responsibility
+ *            for the memory allocated to those elements. It may want
+ *            to free() or Destroy() them, for example, if they're
+ *            truly being discarded.
+ *
+ * Args:      s             - stack to discard from
+ *            discard_func  - ptr to function that returns TRUE if elem is to be discarded
+ *            param         - ptr to any parameters that (*discard_func)() needs.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if a pthread mutex lock/unlock fails.
+ */
+int
+esl_stack_DiscardSelected(ESL_STACK *s, int (*discard_func)(void *, void *), void *param)
+{
+  int opos, npos;
+
+#ifdef HAVE_PTHREAD
+  if (s->do_mutex && pthread_mutex_lock(s->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+#endif
+
+  if (s->idata) 
+    {
+      for (opos = 0, npos = 0 ; opos < s->n; opos++)
+	if (! (*discard_func)(s->idata+opos, param))
+	  s->idata[npos++] = s->idata[opos];
+    }
+  else if (s->pdata)
+    {
+      for (opos = 0, npos = 0 ; opos < s->n; opos++)
+	if (! (*discard_func)(s->pdata[opos], param))
+	  s->pdata[npos++] = s->pdata[opos];
+    }
+  else if (s->cdata)
+    {
+      for (opos = 0, npos = 0 ; opos < s->n; opos++)
+	if (! (*discard_func)(s->cdata+opos, param))
+	  s->cdata[npos++] = s->cdata[opos];
+    }
+  s->n = npos;
+
+#ifdef HAVE_PTHREAD
+  if (s->do_mutex && pthread_mutex_unlock(s->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return eslOK;
+}
+/*------------- end, main API, pushing/popping ------------------*/
+
+
+
+/*****************************************************************
+ *# 3. Shuffling stacks [with <eslAUGMENT_RANDOM>]
+ *****************************************************************/
+#ifdef eslAUGMENT_RANDOM
+
+/* Function:  esl_stack_Shuffle()
+ * Synopsis:  Randomly shuffle the elements in a stack.
+ * Incept:    SRE, Mon Mar 31 11:01:06 2008 [Janelia]
+ *
+ * Purpose:   Randomly shuffle the elements in stack <s>, using
+ *            random numbers from generator <r>.
+ *
+ * Returns:   <eslOK> on success, and the stack is randomly 
+ *            shuffled.
+ */
+int
+esl_stack_Shuffle(ESL_RANDOMNESS *r, ESL_STACK *s)
+{
+  int   n = s->n;
+  int   w;
+
+#ifdef HAVE_PTHREAD
+  if (s->do_mutex && pthread_mutex_lock(s->mutex) != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+#endif
+
+  while (n > 1) {
+    w = esl_rnd_Roll(r, n);	/* shuffling algorithm: swap last elem with w, decrement n. */
+    if      (s->idata != NULL)  ESL_SWAP(s->idata[w], s->idata[n-1], int);
+    else if (s->cdata != NULL)  ESL_SWAP(s->cdata[w], s->cdata[n-1], char);
+    else if (s->pdata != NULL)  ESL_SWAP(s->pdata[w], s->pdata[n-1], void *);
+    n--;
+  }
+
+#ifdef HAVE_PTHREAD
+  if (s->do_mutex && pthread_mutex_unlock(s->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");
+#endif
+  return eslOK;
+}
+#endif /*eslAUGMENT_RANDOM*/
+
+
+/*****************************************************************
+ *# 4. Using stacks for thread communication.
+ *****************************************************************/
+
+#if defined HAVE_PTHREAD
+/* Function:  esl_stack_UseMutex()
+ * Synopsis:  Protect this stack in a threaded program.
+ * Incept:    SRE, Mon Jan 17 14:18:43 2011 [Janelia]
+ *
+ * Purpose:   Declare that this stack is going to be operated on by more
+ *            than one thread in a multithreaded program, and that all
+ *            operations that change its internal state (such as
+ *            pushing and popping) need to be protected by a mutex.
+ *
+ * Args:      s  - the stack to protect
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslESYS> if <pthread_mutex_init()> fails.
+ */
+int
+esl_stack_UseMutex(ESL_STACK *s)
+{
+  int pstatus;
+  int status;
+
+  ESL_ALLOC(s->mutex, sizeof(pthread_mutex_t));
+  if ((pstatus = pthread_mutex_init(s->mutex, NULL)) != 0) ESL_XEXCEPTION(eslESYS, "pthread_mutex_init failed with code %d\n", pstatus);
+  s->do_mutex = TRUE;
+  return eslOK;
+
+ ERROR:
+  if (s->mutex) free(s->mutex);
+  s->mutex    = NULL;
+  s->do_mutex = FALSE;
+  return status;
+}
+
+/* Function:  esl_stack_UseCond()
+ * Synopsis:  Declare that this stack is used for interthread communication.
+ * Incept:    SRE, Mon Jan 17 14:22:06 2011 [Janelia]
+ *
+ * Purpose:   Declare that this stack is to be used for communication
+ *            between threads. If a thread tries to pop from the stack
+ *            and the stack is empty, the Pop will do a <pthread_cond_wait()>
+ *            to wait until another thread has done a <Push()>. If a thread
+ *            pushes onto the stack, it will do a <pthread_cond_signal()>
+ *            to wake up a waiting <Pop()>'er.
+ *            
+ *            The stack must also have an active mutex. The caller
+ *            must call <esl_stack_UseMutex()> before calling
+ *            <esl_stack_UseCond().>
+ *
+ * Args:      s - the stack to use for push/pop interthread communication
+ * 
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINVAL> if this stack lacks an active mutex.
+ *            <eslESYS> if <pthread_cond_init()> fails.
+ */
+int
+esl_stack_UseCond(ESL_STACK *s)
+{
+  int pstatus;
+  int status;
+
+  if (! s->do_mutex || ! s->mutex) ESL_EXCEPTION(eslEINVAL, "stack has no active mutex; can't call esl_stack_UseCond() on it");
+
+  ESL_ALLOC(s->cond, sizeof(pthread_cond_t));
+  if ((pstatus = pthread_cond_init(s->cond, NULL)) != 0) ESL_XEXCEPTION(eslESYS, "pthread_cond_init failed with code %d\n", pstatus);
+  s->do_cond = TRUE;
+  return eslOK;
+
+ ERROR:
+  if (s->cond) free(s->cond);
+  s->cond    = NULL;
+  s->do_cond = FALSE;
+  return status;
+}
+
+/* Function:  esl_stack_ReleaseCond()
+ * Synopsis:  Declare that anyone waiting on this stack may complete.
+ * Incept:    SRE, Tue Jan 18 15:57:32 2011 [Janelia]
+ *
+ * Purpose:   Release the conditional wait state on stack <s>. In our
+ *            idiom for using a stack to coordinate between one or
+ *            more client thread adding jobs to a stack, and one or
+ *            more worker threads popping them off, we call
+ *            <esl_stack_ReleaseCond()> when we know the client(s) are
+ *            done. Then the worker(s) seeing an empty job stack may
+ *            complete (Pop functions will return eslEOD), rather than
+ *            doing a conditional wait waiting for more work to appear
+ *            on the stack.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> on pthread call failures.
+ */
+int
+esl_stack_ReleaseCond(ESL_STACK *s)
+{
+  if (! s->do_mutex) ESL_EXCEPTION(eslESYS, "no mutex; esl_stack_ReleaseCond() call invalid");
+  if (! s->do_cond)  ESL_EXCEPTION(eslESYS, "no conditional wait state is set");
+
+  if (pthread_mutex_lock(s->mutex)    != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_lock() failure");
+  if (pthread_cond_broadcast(s->cond) != 0) ESL_EXCEPTION(eslESYS, "pthread_cond_broadcast() failure");
+
+  /* You can't free s->cond yet; you can only set the flag. 
+   *  Reason: you may have workers that are ALREADY in a wait state, in pthread_cond_wait(), 
+   *  and that function depends on s->cond.
+   */
+  s->do_cond = FALSE;
+
+  if (pthread_mutex_unlock(s->mutex)  != 0) ESL_EXCEPTION(eslESYS, "pthread_mutex_unlock() failure");  
+  return eslOK;
+}
+#endif /*HAVE_PTHREAD*/
+/*-------- end, using stacks for thread communication -----------*/
+
+
+
+/*****************************************************************
+ * 5. Unit tests
+ *****************************************************************/
+#ifdef eslSTACK_TESTDRIVE
+
+#include "esl_random.h"
+
+static void
+utest_integer(void)
+{
+  char      *msg = "integer stack basic unit test failed";
+  ESL_STACK *s   = NULL;
+  int        n1  = ESL_STACK_INITALLOC*2+1;		/* force two reallocations */
+  int        n2  = 0;
+  int        i;
+  int        val;
+
+  if ((s = esl_stack_ICreate())                      == NULL)   esl_fatal(msg);
+  for (i = 0; i < n1; i++) if (esl_stack_IPush(s, i) != eslOK)  esl_fatal(msg);
+  while (esl_stack_IPop(s, &val) != eslEOD) n2++;
+  if (n1 != n2) esl_fatal(msg);
+  esl_stack_Reuse(s);
+
+  /* same again, with ObjectCount instead of EOD for popping */
+  for (i = 0; i < n1; i++) if (esl_stack_IPush(s, i) != eslOK) esl_fatal(msg);
+  n2 = 0;
+  while (esl_stack_ObjectCount(s)) {
+    if (esl_stack_IPop(s, &val) != eslOK) esl_fatal(msg);
+    n2++; 
+  }
+  if (n1 != n2) esl_fatal(msg);
+  esl_stack_Destroy(s);
+}
+
+static void
+utest_char(void)  
+{
+  char      *msg = "char stack basic unit test failed";
+  ESL_STACK *s   = NULL;
+  int        n1  = ESL_STACK_INITALLOC*2+1;		/* force two reallocations */
+  int        n2  = 0;
+  int        i;
+  char       c;
+
+  if ((s = esl_stack_CCreate())                        == NULL)   esl_fatal(msg);
+  for (i = 0; i < n1; i++) if (esl_stack_CPush(s, 'X') != eslOK)  esl_fatal(msg);
+  while (esl_stack_CPop(s, &c) != eslEOD) {
+    if (c != 'X') esl_fatal(msg);
+    n2++; 
+  }
+  if (n1 != n2) esl_fatal(msg);
+  esl_stack_Reuse(s);
+
+  /* same again, with ObjectCount instead of EOD for popping */
+  for (i = 0; i < n1; i++) if (esl_stack_CPush(s, 'X') != eslOK) esl_fatal(msg);
+  n2 = 0;
+  while (esl_stack_ObjectCount(s)) {
+    if (esl_stack_CPop(s, &c) != eslOK) esl_fatal(msg);
+    n2++; 
+  }
+  if (n1 != n2) esl_fatal(msg);
+  esl_stack_Destroy(s);
+}
+  
+static void
+utest_pointer(void)
+{
+  char      *msg = "pointer stack basic unit test failed";
+  ESL_STACK *s   = NULL;
+  int        n1  = ESL_STACK_INITALLOC*2+1;		/* force two reallocations */
+  int        n2  = 0;
+  int        i;
+  void      *p;
+
+  if ((s = esl_stack_PCreate())                        == NULL)   esl_fatal(msg);
+  for (i = 0; i < n1; i++) {
+    p = malloc(sizeof(int) * 64);
+    if (esl_stack_PPush(s, p) != eslOK)  esl_fatal(msg);
+  }
+  while (esl_stack_PPop(s, &p) != eslEOD) { free(p); n2++; }
+  if (n1 != n2) esl_fatal(msg);
+  esl_stack_Reuse(s);
+
+  /* same again, with ObjectCount instead of EOD for popping */
+  for (i = 0; i < n1; i++) {
+    p = malloc(sizeof(int) * 64);
+    if (esl_stack_PPush(s, p) != eslOK) esl_fatal(msg);
+  }
+  n2 = 0;
+  while (esl_stack_ObjectCount(s)) {
+    if (esl_stack_PPop(s, &p) != eslOK) esl_fatal(msg);
+    free(p);
+    n2++; 
+  }
+  if (n1 != n2) esl_fatal(msg);
+  esl_stack_Destroy(s);
+}  
+
+static void
+utest_convert2string(void)
+{
+  char      *msg = "stack::convert2string unit test failed";
+  char      *str = "ABCDEF";
+  ESL_STACK *s   = NULL;
+  int        n   = strlen(str);
+  int        i;
+  char      *result = NULL;
+
+  if ((s = esl_stack_CCreate())                          == NULL)   esl_fatal(msg);
+  for (i = 0; i < n; i++) if (esl_stack_CPush(s, str[i]) != eslOK)  esl_fatal(msg);
+  result = esl_stack_Convert2String(s);
+  if (strcmp(result, str) != 0) esl_fatal(msg);
+  free(result);	/* after Convert2String, only the string itself remains to be free'd */
+}
+
+static void
+utest_shuffle(ESL_RANDOMNESS *r)
+{
+  char           *msg  = "stack shuffle unit test failed";
+  ESL_STACK      *s    = esl_stack_ICreate();
+  int             n    = ESL_STACK_INITALLOC*2+1;      /* exercises reallocation */
+  int            *seen = malloc(sizeof(int) * n);
+  int             i;
+  int             val;
+  int             appears_shuffled = FALSE;
+
+  for (i = 0; i < n; i++) esl_stack_IPush(s, i);
+  esl_stack_Shuffle(r, s);
+  
+  for (i = 0; i < n; i++) seen[i] = 0;
+  i = n-1;
+  while (esl_stack_IPop(s, &val) != eslEOD) {
+    seen[val]++;
+    if (val != i--) appears_shuffled = TRUE;
+  }
+  for (i = 0; i < n; i++) if (seen[i] != 1) esl_fatal(msg);
+  
+  free(seen);
+  esl_stack_Destroy(s);
+}
+
+/* discard all elems in the stack > thresh */
+static int
+discard_function(void *elemp, void *paramp)
+{
+  int elem   =  * (int *) elemp;
+  int thresh =  * (int *) paramp;
+  return (elem > thresh) ? TRUE : FALSE;
+}
+
+static void
+utest_discard_selected(ESL_RANDOMNESS *r)
+{
+  char *msg = "stack: DiscardSelected() unit test failed";
+  ESL_STACK      *ns = esl_stack_ICreate();
+  int              n = 1000;
+  int         thresh = 42;
+  int          npass = 0;
+  int            val;
+  int              i;
+
+  for (i = 0; i < n; i++)
+    {
+      val = esl_rnd_Roll(r, 100) + 1;
+      if (val <= thresh) npass++;
+      esl_stack_IPush(ns, val);
+    }
+  
+  if (esl_stack_DiscardSelected(ns, discard_function, &thresh) != eslOK) esl_fatal(msg);
+
+  if (esl_stack_ObjectCount(ns) != npass) esl_fatal(msg);
+  while (esl_stack_IPop(ns, &val) == eslOK)
+    {
+      if (val > thresh) esl_fatal(msg);
+      npass--;
+    }
+  if (npass != 0) esl_fatal(msg);
+  esl_stack_Destroy(ns);
+}
+
+
+#ifdef HAVE_PTHREAD
+/* Unit test for using a stack as part of an idiom
+ * for a command stack, with one or more threads
+ * adding jobs to the stack, and one or more other threads
+ * pulling jobs off. This idiom is used in the HMMER
+ * hmmpgmd daemon. In this framework, <tt->input>
+ * is a list of jobs to do; <tt->working> is a stack
+ * of jobs waiting to be done; <tt->output> is a 
+ * list of jobs done.
+ *    pusher_thread() simulates a client, taking
+ *     jobs from <tt->input> and adding them to
+ *     the <tt->working> stack.
+ *    popper_thread() simulates a worker, taking
+ *     jobs from <tt->working> and putting them
+ *     on the <tt->output> list.
+ *     
+ * <tt->working>, therefore, is the read/write stack;
+ * <tt->input> is read-only (it only gets written in
+ *   nonthreaded code in main())
+ * <tt->output> is write-only (only gets read in
+ *   nonthreaded code in main()). 
+ */
+struct threadtest_s {
+  ESL_STACK *input;		/* faux "work unit" queue that the pusher_thread() processes*/
+  ESL_STACK *working;		/* interthread communication: pusher puts work on this stack, popper pulls it off */
+  ESL_STACK *output;		/* popper_thread() puts "finished" units on this stack */
+};
+
+static void *
+pusher_thread(void *arg)
+{
+  ESL_RANDOMNESS      *r  = esl_randomness_CreateFast(0);
+  struct threadtest_s *tt = (struct threadtest_s *) arg;
+  int value;
+
+  while ( esl_stack_IPop(tt->input, &value) == eslOK)
+    {
+      usleep(esl_rnd_Roll(r, 100)+1); /* 1..100 usec delay */
+      esl_stack_IPush(tt->working, value);
+    }
+  esl_randomness_Destroy(r);
+  pthread_exit(NULL);
+}
+
+static void *
+popper_thread(void *arg)
+{
+  ESL_RANDOMNESS      *r  = esl_randomness_CreateFast(0);
+  struct threadtest_s *tt = (struct threadtest_s *) arg;
+  int value;
+
+  while (esl_stack_IPop(tt->working, &value) == eslOK)
+    {
+      usleep(esl_rnd_Roll(r, 100)+1); /* 1..100 usec delay */
+      esl_stack_IPush(tt->output, value);
+    }
+  esl_randomness_Destroy(r);
+  pthread_exit(NULL);
+}
+
+static void
+utest_interthread_comm(void)
+{
+  char  *msg = "stack::interthread_comm unit test failed";
+  struct threadtest_s *tt = NULL;
+  int    njobs            = 1000;
+  int   *ndone            = NULL;
+  pthread_t tid[4];
+  int    i;
+  int    value;
+
+  ndone = malloc(sizeof(int) * njobs);
+  for (i = 0; i < njobs; i++) ndone[i] = 0;
+
+  tt = malloc(sizeof(struct threadtest_s));
+  tt->input   = esl_stack_ICreate();
+  tt->working = esl_stack_ICreate();
+  tt->output  = esl_stack_ICreate();
+
+  esl_stack_UseMutex(tt->input);
+  esl_stack_UseMutex(tt->working);
+  esl_stack_UseMutex(tt->output);
+  esl_stack_UseCond(tt->working);
+
+  for (i = 0; i < njobs; i++)
+    esl_stack_IPush(tt->input, i);
+
+  pthread_create(&(tid[0]), NULL, pusher_thread, tt);
+  pthread_create(&(tid[1]), NULL, pusher_thread, tt);
+  pthread_create(&(tid[2]), NULL, popper_thread, tt);
+  pthread_create(&(tid[3]), NULL, popper_thread, tt);
+
+  pthread_join(tid[0], NULL);
+  pthread_join(tid[1], NULL);
+
+  esl_stack_ReleaseCond(tt->working);
+  pthread_join(tid[2], NULL);
+  pthread_join(tid[3], NULL);
+
+  while (esl_stack_IPop(tt->output, &value) == eslOK)
+    {
+      if (value < 0 || value >= njobs) esl_fatal(msg);
+      ndone[value]++;
+    }
+  for (i = 0; i < njobs; i++)
+    if (ndone[i] != 1) esl_fatal(msg);
+
+  free(ndone);
+  esl_stack_Destroy(tt->output);
+  esl_stack_Destroy(tt->working);
+  esl_stack_Destroy(tt->input);
+  free(tt);
+  return;
+}
+#endif /* HAVE_PTHREAD -- pthread-specific utests */
+#endif /*eslSTACK_TESTDRIVE*/
+/*---------------- end of unit tests ----------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+#ifdef eslSTACK_TESTDRIVE
+/*
+ * Test driver and API example for the pushdown stack module.
+ * To compile:
+ *    gcc -g -Wall -I. -L. -DeslSTACK_TESTDRIVE -o testdrive esl_stack.c -leasel -lm
+ * To run:
+ *    ./testdrive
+ * Returns 0 (success), or returns nonzero and says why.
+ */
+/* why Pop() into a void *obj_p, instead of directly into int *obj, in
+ * the test of the pointer stack? On PowerPC/Linux, using gcc -O3,
+ * trying to Pop() into *obj causes a "dereferencing type-punned
+ * pointer will break strict-aliasing rules" warning, and the test
+ * driver crashes with a double free/corruption error in glibc.  Lower
+ * optimization levels don't cause the problem; adding
+ * -fno-strict-aliasing to the CFLAGS also avoids the problem. I'm
+ * suspicious that it's a gcc optimizer bug. Pop()'ing into a void *
+ * avoids the issue altogether. (SRE, Feb 22 2008 J2/119)
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stack.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,      "0", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for esl_stack module";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go  = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+
+  fprintf(stderr, "## %s\n", argv[0]);
+  fprintf(stderr, "#  rng seed = %" PRIu32 "\n", esl_randomness_GetSeed(rng));
+
+  utest_integer();
+  utest_char();
+  utest_pointer();
+  utest_convert2string();
+  utest_shuffle(rng);
+  utest_discard_selected(rng);
+
+#ifdef HAVE_PTHREAD
+  utest_interthread_comm();
+#endif
+
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  
+
+  fprintf(stderr, "#  status = ok\n");
+  return eslOK;
+}
+#endif /*eslSTACK_TESTDRIVE*/
+/*-------------------- end of test driver -----------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Example.
+ *****************************************************************/
+#ifdef eslSTACK_EXAMPLE
+/*::cexcerpt::stack_example::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslSTACK_EXAMPLE esl_stack.c easel.c -lm
+ * run:     ./example
+ */
+#include "easel.h"
+#include "esl_stack.h"
+
+int
+main(void)
+{
+  ESL_STACK *ns;
+  int        x;
+
+  ns = esl_stack_ICreate();
+  esl_stack_IPush(ns, 42);
+  esl_stack_IPush(ns, 7);
+  esl_stack_IPush(ns, 3);
+  while (esl_stack_IPop(ns, &x) != eslEOD) 
+    printf("%d\n", x);
+  esl_stack_Destroy(ns);   
+  return 0;
+}
+/*::cexcerpt::stack_example::end::*/
+#endif /*eslSTACK_EXAMPLE*/
+/*------------------------ end of example -----------------------*/
+
+
+
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_stack.c 819 2012-11-17 16:58:23Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stack.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.h
new file mode 100755
index 0000000..ec1d927
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.h
@@ -0,0 +1,80 @@
+/* Pushdown stacks for integers, pointers, and characters.
+ *
+ * nstack - SRE 1 March 2000. [Seattle]
+ * mstack - SRE, Fri Oct 10 10:18:16 2003 [St. Louis]
+ * cstack - SRE, Mon Oct 13 12:57:56 2003 [St. Louis]
+ * Incorp into easel - SRE, Sun Dec 26 07:39:02 2004 [Zaragoza]
+ *
+ * SVN $Id: esl_stack.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stack.h $
+ */
+#ifndef eslSTACK_INCLUDED
+#define eslSTACK_INCLUDED
+#include "esl_config.h"
+
+#define ESL_STACK_INITALLOC 128	/* initial allocation; realloc by doubling  */
+
+#ifdef HAVE_PTHREAD
+#include <pthread.h>
+#endif
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif /*eslAUGMENT_RANDOM*/
+
+
+typedef struct esl_stack_s {
+  int   *idata;			/* integer data stack                       */
+  void **pdata;			/* pointer data stack                       */
+  char  *cdata;			/* character data stack                     */
+
+  int  n;			/* current (topmost) elem in data           */
+  int  nalloc;			/* # of elems allocated right now           */
+
+#ifdef HAVE_PTHREAD
+  int              do_mutex;	/* TRUE if we need to mutex-protect this stack */
+  int              do_cond;	/* TRUE if pushers want to notify poppers      */
+  pthread_mutex_t *mutex;	/* protect while operating on stacks           */
+  pthread_cond_t  *cond;	/* for pushers to notify poppers               */
+#endif
+} ESL_STACK;
+
+extern ESL_STACK *esl_stack_ICreate(void);
+extern ESL_STACK *esl_stack_CCreate(void);
+extern ESL_STACK *esl_stack_PCreate(void);
+
+extern int        esl_stack_Reuse(ESL_STACK *s);
+extern void       esl_stack_Destroy(ESL_STACK *s);
+
+extern int esl_stack_IPush(ESL_STACK *ns, int x);
+extern int esl_stack_CPush(ESL_STACK *cs, char c);
+extern int esl_stack_PPush(ESL_STACK *ps, void *p);
+
+extern int esl_stack_IPop(ESL_STACK *ns, int   *ret_x);
+extern int esl_stack_CPop(ESL_STACK *cs, char  *ret_c);
+extern int esl_stack_PPop(ESL_STACK *ps, void **ret_p);
+
+extern int esl_stack_ObjectCount(ESL_STACK *s);
+
+extern char *esl_stack_Convert2String(ESL_STACK *cs);
+extern int   esl_stack_DiscardTopN(ESL_STACK *s, int n);
+extern int   esl_stack_DiscardSelected(ESL_STACK *s, int (*discard_func)(void *, void *), void *param);
+
+#ifdef eslAUGMENT_RANDOM
+extern int esl_stack_Shuffle(ESL_RANDOMNESS *r, ESL_STACK *s);
+#endif /*eslAUGMENT_RANDOM*/
+
+#ifdef HAVE_PTHREAD
+extern int esl_stack_UseMutex   (ESL_STACK *s);
+extern int esl_stack_UseCond    (ESL_STACK *s);
+extern int esl_stack_ReleaseCond(ESL_STACK *s);
+#endif
+#endif /*eslSTACK_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.tex
new file mode 100755
index 0000000..5664950
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stack.tex
@@ -0,0 +1,89 @@
+The stack module implements pushdown stacks for storing integers,
+characters, or arbitrary pointers (objects).
+
+The module uses a convention of prepending \ccode{I}, \ccode{C},
+\ccode{P} to \ccode{Create()}, \ccode{Push()}, and \ccode{Pop()}
+function names, to indicate the stack's datatype as integer,
+character, or pointer, respectively. For example,
+\ccode{esl\_stack\_PCreate()} creates a stack for pointer
+storage. (This is also the naming convention in the \ccode{vectorops}
+module.)  Stacks can be thought of as typed objects, with the type
+defined by the \ccode{Create()} call. Types may not be mixed for any
+particular created stack.
+
+
+% Table generated by autodoc -t esl_stack.c (so don't edit here, edit esl_stack.c:)
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{The \ccode{ESL\_STACK} object.}\\
+\hyperlink{func:esl_stack_ICreate()}{\ccode{esl\_stack\_ICreate()}} & Create an integer stack.\\
+\hyperlink{func:esl_stack_CCreate()}{\ccode{esl\_stack\_CCreate()}} & Create a character stack.\\
+\hyperlink{func:esl_stack_PCreate()}{\ccode{esl\_stack\_PCreate()}} & Create a pointer stack.\\
+\hyperlink{func:esl_stack_Reuse()}{\ccode{esl\_stack\_Reuse()}} & Reuse a stack.\\
+\hyperlink{func:esl_stack_Destroy()}{\ccode{esl\_stack\_Destroy()}} & Free a stack.\\
+\apisubhead{Other functions in the API.}\\
+\hyperlink{func:esl_stack_IPush()}{\ccode{esl\_stack\_IPush()}} & Push an integer onto a stack.\\
+\hyperlink{func:esl_stack_CPush()}{\ccode{esl\_stack\_CPush()}} & Push a char onto a stack.\\
+\hyperlink{func:esl_stack_PPush()}{\ccode{esl\_stack\_PPush()}} & Push a pointer onto a stack.\\
+\hyperlink{func:esl_stack_IPop()}{\ccode{esl\_stack\_IPop()}} & Pop an integer off a stack.\\
+\hyperlink{func:esl_stack_CPop()}{\ccode{esl\_stack\_CPop()}} & Pop a char off a stack.\\
+\hyperlink{func:esl_stack_PPop()}{\ccode{esl\_stack\_PPop()}} & Pop a pointer off a stack.\\
+\hyperlink{func:esl_stack_ObjectCount()}{\ccode{esl\_stack\_ObjectCount()}} & Return the number of objects in a stack.\\
+\hyperlink{func:esl_stack_Convert2String()}{\ccode{esl\_stack\_Convert2String()}} & Convert a char stack to a string.\\
+\hyperlink{func:esl_stack_DiscardTopN()}{\ccode{esl\_stack\_DiscardTopN()}} & Discard the top elements on a stack.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{stack} API.}
+\label{tbl:stack_api}
+\end{table}
+
+\subsection{Example of using the stack API}
+   
+Figure~\ref{fig:stack_example} shows an example of using the integer
+stack, pushing 42, 7, and 3 on, then popping them off.
+
+\begin{figure}
+\input{cexcerpts/stack_example}
+\caption{An example of pushing and popping data onto a stack.}
+\label{fig:stack_example}
+\end{figure}
+
+The \ccode{Create()} functions create a stack for a particular
+purpose. \ccode{esl\_stack\_ICreate()} creates a stack for integers,
+\ccode{esl\_stack\_CCreate()} creates a stack for characters, and
+\ccode{esl\_stack\_PCreate()} creates a stack for pointers.  They
+throw NULL if an allocation fails.  All three stack types are free'd
+by a call to \ccode{esl\_stack\_Destroy()}. All three types can also
+be reused without reallocation or recreation by
+\ccode{esl\_stack\_Reuse()}. A \ccode{Reuse()}'d stack retains its
+original datatype.
+
+The \ccode{Push()} functions push one datum onto the stack, of the
+appropriate type. They throw \ccode{eslEMEM} if the stack needs to
+reallocate internally but fails.
+
+The \ccode{Pop()} functions pop one datum off the stack, returning it
+through a passed pointer. They return \ccode{eslOK} on success, and
+\ccode{eslEOD} if the stack is empty.
+
+\ccode{esl\_stack\_ObjectCount()} returns the number of objects stored
+in the stack. 
+
+A special function, \ccode{esl\_stack\_Convert2String()}, operates
+only on character stacks. It converts the stack structure to a
+NUL-terminated string, with characters in the same order they were
+pushed. The stack is destroyed by this operation, leaving a
+\ccode{char *} behind.
+
+\subsection{Allocation strategy}
+
+Stacks are initially allocated for a certain number of objects,
+defined by a compile-time constant \ccode{ESL\_STACK\_INITALLOC} in
+\ccode{esl\_stack.h}. The default is 128. Whenever a stack needs to grow,
+it reallocates by doubling its current allocation.
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.c
new file mode 100755
index 0000000..ed133f0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.c
@@ -0,0 +1,921 @@
+/* Foundation and miscellenea for the statistics modules.
+ * 
+ * Contents:
+ *   1. Summary statistics (means, variances)
+ *   2. Special functions
+ *   3. Standard statistical tests
+ *   4. Data fitting.
+ *   5. Unit tests.
+ *   6. Test driver.
+ *   7. Examples.
+ *      - driver for linear regression
+ *      - driver for G-test
+ *   8. License and copyright information.
+ * 
+ */
+#include "esl_config.h"
+
+#include <math.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+
+
+/*****************************************************************
+ * 1. Summary statistics calculations (means, variances)
+ *****************************************************************/
+
+/* Function:  esl_stats_DMean()
+ * Synopsis:  Calculates mean and $\sigma^2$ for samples $x_i$.
+ *
+ * Purpose:   Calculates the sample mean and $s^2$, the unbiased
+ *            estimator of the population variance, for a
+ *            sample of <n> numbers <x[0]..x[n-1]>, and optionally
+ *            returns either or both through <ret_mean> and
+ *            <ret_var>.
+ *            
+ *            <esl_stats_FMean()> and <esl_stats_IMean()> do the same,
+ *            for float and integer vectors.
+ *
+ * Args:      x        - samples x[0]..x[n-1]
+ *            n        - number of samples
+ *            opt_mean - optRETURN: mean
+ *            opt_var  - optRETURN: estimate of population variance       
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_stats_DMean(const double *x, int n, double *opt_mean, double *opt_var)
+{
+  double sum   = 0.;
+  double sqsum = 0.;
+  int i;
+
+  for (i = 0; i < n; i++) 
+    { 
+      sum   += x[i];
+      sqsum += x[i]*x[i];
+    }
+  if (opt_mean != NULL)  *opt_mean = sum / (double) n;
+  if (opt_var  != NULL)  *opt_var  = (sqsum - sum*sum/(double)n) / ((double)n-1);
+  return eslOK;
+}
+int
+esl_stats_FMean(const float *x, int n, double *opt_mean, double *opt_var)
+{
+  double sum   = 0.;
+  double sqsum = 0.;
+  int i;
+
+  for (i = 0; i < n; i++) 
+    { 
+      sum   += x[i];
+      sqsum += x[i]*x[i];
+    }
+  if (opt_mean != NULL)  *opt_mean = sum / (double) n;
+  if (opt_var  != NULL)  *opt_var  = (sqsum - sum*sum/(double)n) / ((double)n-1);
+  return eslOK;
+}
+int
+esl_stats_IMean(const int *x, int n, double *opt_mean, double *opt_var)
+{
+  double sum   = 0.;
+  double sqsum = 0.;
+  int i;
+
+  for (i = 0; i < n; i++) 
+    { 
+      sum   += x[i];
+      sqsum += x[i]*x[i];
+    }
+  if (opt_mean != NULL)  *opt_mean = sum / (double) n;
+  if (opt_var  != NULL)  *opt_var  = (sqsum - sum*sum/(double)n) / ((double)n-1);
+  return eslOK;
+}
+/*--------------- end, summary statistics -----------------------*/
+
+
+
+/*****************************************************************
+ * 2. Special functions.
+ *****************************************************************/
+
+/* Function:  esl_stats_LogGamma()
+ * Synopsis:  Calculates $\log \Gamma(x)$.
+ *
+ * Purpose:   Returns natural log of $\Gamma(x)$, for $x > 0$.
+ * 
+ * Credit:    Adapted from a public domain implementation in the
+ *            NCBI core math library. Thanks to John Spouge and
+ *            the NCBI. (According to NCBI, that's Dr. John
+ *            "Gammas Galore" Spouge to you, pal.)
+ *
+ * Args:      x          : argument, x > 0.0
+ *            ret_answer : RETURN: the answer
+ *
+ * Returns:   Put the answer in <ret_answer>; returns <eslOK>.
+ *            
+ * Throws:    <eslERANGE> if $x <= 0$.
+ */
+int
+esl_stats_LogGamma(double x, double *ret_answer)
+{
+  int i;
+  double xx, tx;
+  double tmp, value;
+  static double cof[11] = {
+     4.694580336184385e+04,
+    -1.560605207784446e+05,
+     2.065049568014106e+05,
+    -1.388934775095388e+05,
+     5.031796415085709e+04,
+    -9.601592329182778e+03,
+     8.785855930895250e+02,
+    -3.155153906098611e+01,
+     2.908143421162229e-01,
+    -2.319827630494973e-04,
+     1.251639670050933e-10
+  };
+  
+  /* Protect against invalid x<=0  */
+  if (x <= 0.0)  ESL_EXCEPTION(eslERANGE, "invalid x <= 0 in esl_stats_LogGamma()");
+
+  xx       = x - 1.0;
+  tx = tmp = xx + 11.0;
+  value    = 1.0;
+  for (i = 10; i >= 0; i--)	/* sum least significant terms first */
+    {
+      value += cof[i] / tmp;
+      tmp   -= 1.0;
+    }
+  value  = log(value);
+  tx    += 0.5;
+  value += 0.918938533 + (xx+0.5)*log(tx) - tx;
+  *ret_answer = value;
+  return eslOK;
+}
+
+
+/* Function:  esl_stats_Psi()
+ * Synopsis:  Calculates $\Psi(x)$ (the digamma function).
+ *
+ * Purpose:   Computes $\Psi(x)$ (the "digamma" function), which is
+ *            the derivative of log of the Gamma function:
+ *            $d/dx \log \Gamma(x) = \frac{\Gamma'(x)}{\Gamma(x)} = \Psi(x)$.
+ *            Argument $x$ is $> 0$. 
+ * 
+ *            This is J.M. Bernardo's "Algorithm AS103",
+ *            Appl. Stat. 25:315-317 (1976).  
+ */
+int
+esl_stats_Psi(double x, double *ret_answer)
+{
+  double answer = 0.;
+  double x2;
+
+  if (x <= 0.0) ESL_EXCEPTION(eslERANGE, "invalid x <= 0 in esl_stats_Psi()");
+  
+  /* For small x, Psi(x) ~= -0.5772 - 1/x + O(x), we're done.
+   */
+  if (x <= 1e-5) {
+    *ret_answer = -eslCONST_EULER - 1./x;
+    return eslOK;
+  }
+
+  /* For medium x, use Psi(1+x) = \Psi(x) + 1/x to c.o.v. x,
+   * big enough for Stirling approximation to work...
+   */
+  while (x < 8.5) {
+    answer = answer - 1./x;
+    x += 1.;
+  }
+  
+  /* For large X, use Stirling approximation
+   */
+  x2 = 1./x;
+  answer += log(x) - 0.5 * x2;
+  x2 = x2*x2;
+  answer -= (1./12.)*x2;
+  answer += (1./120.)*x2*x2;
+  answer -= (1./252.)*x2*x2*x2;
+
+  *ret_answer = answer;
+  return eslOK;
+}
+
+
+
+/* Function: esl_stats_IncompleteGamma()
+ * Synopsis: Calculates the incomplete Gamma function.
+ * 
+ * Purpose:  Returns $P(a,x)$ and $Q(a,x)$ where:
+ *
+ *           \begin{eqnarray*}
+ *             P(a,x) & = & \frac{1}{\Gamma(a)} \int_{0}^{x} t^{a-1} e^{-t} dt \\
+ *                    & = & \frac{\gamma(a,x)}{\Gamma(a)} \\
+ *             Q(a,x) & = & \frac{1}{\Gamma(a)} \int_{x}^{\infty} t^{a-1} e^{-t} dt\\
+ *                    & = & 1 - P(a,x) \\
+ *           \end{eqnarray*}
+ *
+ *           $P(a,x)$ is the CDF of a gamma density with $\lambda = 1$,
+ *           and $Q(a,x)$ is the survival function.
+ *           
+ *           For $x \simeq 0$, $P(a,x) \simeq 0$ and $Q(a,x) \simeq 1$; and
+ *           $P(a,x)$ is less prone to roundoff error. 
+ *           
+ *           The opposite is the case for large $x >> a$, where
+ *           $P(a,x) \simeq 1$ and $Q(a,x) \simeq 0$; there, $Q(a,x)$ is
+ *           less prone to roundoff error.
+ *
+ * Method:   Based on ideas from Numerical Recipes in C, Press et al.,
+ *           Cambridge University Press, 1988. 
+ *           
+ * Args:     a          - for instance, degrees of freedom / 2     [a > 0]
+ *           x          - for instance, chi-squared statistic / 2  [x >= 0] 
+ *           ret_pax    - RETURN: P(a,x)
+ *           ret_qax    - RETURN: Q(a,x)
+ *
+ * Return:   <eslOK> on success.
+ *
+ * Throws:   <eslERANGE> if <a> or <x> is out of accepted range.
+ *           <eslENOHALT> if approximation fails to converge.
+ */          
+int
+esl_stats_IncompleteGamma(double a, double x, double *ret_pax, double *ret_qax)
+{
+  int    iter;			/* iteration counter */
+  double pax;			/* P(a,x) */
+  double qax;			/* Q(a,x) */
+
+  if (a <= 0.) ESL_EXCEPTION(eslERANGE, "esl_stats_IncompleteGamma(): a must be > 0");
+  if (x <  0.) ESL_EXCEPTION(eslERANGE, "esl_stats_IncompleteGamma(): x must be >= 0");
+
+  /* For x > a + 1 the following gives rapid convergence;
+   * calculate Q(a,x) = \frac{\Gamma(a,x)}{\Gamma(a)},
+   * using a continued fraction development for \Gamma(a,x).
+   */
+  if (x > a+1) 
+    {
+      double oldp;		/* previous value of p    */
+      double nu0, nu1;		/* numerators for continued fraction calc   */
+      double de0, de1;		/* denominators for continued fraction calc */
+
+      nu0 = 0.;			/* A_0 = 0       */
+      de0 = 1.;			/* B_0 = 1       */
+      nu1 = 1.;			/* A_1 = 1       */
+      de1 = x;			/* B_1 = x       */
+
+      oldp = nu1;
+      for (iter = 1; iter < 100; iter++)
+	{
+	  /* Continued fraction development:
+	   * set A_j = b_j A_j-1 + a_j A_j-2
+	   *     B_j = b_j B_j-1 + a_j B_j-2
+           * We start with A_2, B_2.
+	   */
+				/* j = even: a_j = iter-a, b_j = 1 */
+				/* A,B_j-2 are in nu0, de0; A,B_j-1 are in nu1,de1 */
+	  nu0 = nu1 + ((double)iter - a) * nu0;
+	  de0 = de1 + ((double)iter - a) * de0;
+				/* j = odd: a_j = iter, b_j = x */
+				/* A,B_j-2 are in nu1, de1; A,B_j-1 in nu0,de0 */
+	  nu1 = x * nu0 + (double) iter * nu1;
+	  de1 = x * de0 + (double) iter * de1;
+				/* rescale */
+	  if (de1 != 0.) 
+	    { 
+	      nu0 /= de1; 
+	      de0 /= de1;
+	      nu1 /= de1;
+	      de1 =  1.;
+	    }
+				/* check for convergence */
+	  if (fabs((nu1-oldp)/nu1) < 1.e-7)
+	    {
+	      esl_stats_LogGamma(a, &qax);	      
+	      qax = nu1 * exp(a * log(x) - x - qax);
+
+	      if (ret_pax != NULL) *ret_pax = 1 - qax;
+	      if (ret_qax != NULL) *ret_qax = qax;
+	      return eslOK;
+	    }
+
+	  oldp = nu1;
+	}
+      ESL_EXCEPTION(eslENOHALT,
+		"esl_stats_IncompleteGamma(): fraction failed to converge");
+    }
+  else /* x <= a+1 */
+    {
+      double p;			/* current sum               */
+      double val;		/* current value used in sum */
+
+      /* For x <= a+1 we use a convergent series instead:
+       *   P(a,x) = \frac{\gamma(a,x)}{\Gamma(a)},
+       * where
+       *   \gamma(a,x) = e^{-x}x^a \sum_{n=0}{\infty} \frac{\Gamma{a}}{\Gamma{a+1+n}} x^n
+       * which looks appalling but the sum is in fact rearrangeable to
+       * a simple series without the \Gamma functions:
+       *   = \frac{1}{a} + \frac{x}{a(a+1)} + \frac{x^2}{a(a+1)(a+2)} ...
+       * and it's obvious that this should converge nicely for x <= a+1.
+       */
+      p = val = 1. / a;
+      for (iter = 1; iter < 10000; iter++)
+	{
+	  val *= x / (a+(double)iter);
+	  p   += val;
+	  
+	  if (fabs(val/p) < 1.e-7)
+	    {
+	      esl_stats_LogGamma(a, &pax);
+	      pax = p * exp(a * log(x) - x - pax);
+
+	      if (ret_pax != NULL) *ret_pax = pax;
+	      if (ret_qax != NULL) *ret_qax = 1. - pax;
+	      return eslOK;
+	    }
+	}
+      ESL_EXCEPTION(eslENOHALT,
+		"esl_stats_IncompleteGamma(): series failed to converge");
+    }
+  /*NOTREACHED*/
+  return eslOK;
+}
+/*----------------- end, special functions ----------------------*/
+
+
+/*****************************************************************
+ * 3. Standard statistical tests.
+ *****************************************************************/
+
+/* Function:  esl_stats_GTest()
+ * Synopsis:  Calculates a G-test on 2 vs. 1 binomials.
+ *
+ * Purpose:   In experiment a, we've drawn <ca> successes in <na> total
+ *            trials; in experiment b, we've drawn <cb> successes in
+ *            <nb> total trials. Are the counts different enough to
+ *            conclude that the two experiments are different? The
+ *            null hypothesis is that the successes in both experiments
+ *            were drawn from the same binomial distribution with
+ *            per-trial probability $p$. The tested hypothesis is that
+ *            experiments a,b have different binomial probabilities
+ *            $p_a,p_b$. The G-test is a log-likelihood-ratio statistic,
+ *            assuming maximum likelihood values for $p,p_a,p_b$. 
+ *            $2G$ is distributed approximately as $X^2(1)$,
+ *            %"X" is "Chi"
+ *            which we use to calculate a P-value for the G statistic.
+ *            
+ * Args:      ca    - number of positives in experiment a
+ *            na    - total number in experiment a
+ *            cb    - number of positives in experiment b
+ *            nb    - total number in experiment b
+ *            ret_G - RETURN: G statistic, a log likelihood ratio, in nats     
+ *            ret_P - RETURN: P-value for the G-statistic
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      Archive1999/0906-sagescore/sagescore.c
+ */
+int
+esl_stats_GTest(int ca, int na, int cb, int nb, double *ret_G, double *ret_P)
+{
+  double a,b,c,d,n;
+  double G = 0.;
+
+  a = (double) ca;
+  b = (double) (na - ca);
+  c = (double) cb;
+  d = (double) (nb - cb);
+  n = (double) na+nb;
+
+  /* Yes, the calculation here is correct; algebraic 
+   * rearrangement of the log-likelihood-ratio with 
+   * p_a = ca/na, p_b = cb/nb, and p = (ca+cb)/(na+nb).
+   * Guard against 0 probabilities; assume 0 log 0 => 0. 
+   */
+  if (a   > 0.) G  = a * log(a);
+  if (b   > 0.) G += b * log(b);
+  if (c   > 0.) G += c * log(c);
+  if (d   > 0.) G += d * log(d);
+  if (n   > 0.) G += n * log(n);
+  if (a+b > 0.) G -= (a+b) * log(a+b);
+  if (c+d > 0.) G -= (c+d) * log(c+d);
+  if (a+c > 0.) G -= (a+c) * log(a+c);
+  if (b+d > 0.) G -= (b+d) * log(b+d);
+
+  *ret_G = G;
+  return esl_stats_IncompleteGamma( 0.5, G, NULL, ret_P);
+}
+
+
+/* Function:  esl_stats_ChiSquaredTest()
+ * Synopsis:  Calculates a $\chi^2$ P-value.
+ * Incept:    SRE, Tue Jul 19 11:39:32 2005 [St. Louis]
+ *
+ * Purpose:   Calculate the probability that a chi-squared statistic
+ *            with <v> degrees of freedom would exceed the observed
+ *            chi-squared value <x>; return it in <ret_answer>. If
+ *            this probability is less than some small threshold (say,
+ *            0.05 or 0.01), then we may reject the hypothesis we're
+ *            testing.
+ *
+ * Args:      v          - degrees of freedom
+ *            x          - observed chi-squared value
+ *            ret_answer - RETURN: P(\chi^2 > x)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslERANGE> if <v> or <x> are out of valid range.
+ *            <eslENOHALT> if iterative calculation fails.
+ */
+int
+esl_stats_ChiSquaredTest(int v, double x, double *ret_answer)
+{
+  return esl_stats_IncompleteGamma((double)v/2, x/2, NULL, ret_answer);
+}
+/*----------------- end, statistical tests  ---------------------*/
+
+
+
+/*****************************************************************
+ * 4. Data fitting.
+ *****************************************************************/
+
+/* Function:  esl_stats_LinearRegression()
+ * Synopsis:  Fit data to a straight line.
+ * Incept:    SRE, Sat May 26 11:33:46 2007 [Janelia]
+ *
+ * Purpose:   Fit <n> points <x[i]>, <y[i]> to a straight line
+ *            $y = a + bx$ by linear regression. 
+ *            
+ *            The $x_i$ are taken to be known, and the $y_i$ are taken
+ *            to be observed quantities associated with a sampling
+ *            error $\sigma_i$. If known, the standard deviations
+ *            $\sigma_i$ for $y_i$ are provided in the <sigma> array.
+ *            If they are unknown, pass <sigma = NULL>, and the
+ *            routine will proceed with the assumption that $\sigma_i
+ *            = 1$ for all $i$.
+ *            
+ *            The maximum likelihood estimates for $a$ and $b$ are
+ *            optionally returned in <opt_a> and <opt_b>.
+ *            
+ *            The estimated standard deviations of $a$ and $b$ and
+ *            their estimated covariance are optionally returned in
+ *            <opt_sigma_a>, <opt_sigma_b>, and <opt_cov_ab>.
+ *            
+ *            The Pearson correlation coefficient is optionally
+ *            returned in <opt_cc>. 
+ *            
+ *            The $\chi^2$ P-value for the regression fit is
+ *            optionally returned in <opt_Q>. This P-value may only be
+ *            obtained when the $\sigma_i$ are known. If <sigma> is
+ *            passed as <NULL> and <opt_Q> is requested, <*opt_Q> is
+ *            set to 1.0.
+ *            
+ *            This routine follows the description and algorithm in
+ *            \citep[pp.661-666]{Press93}.
+ *
+ *            <n> must be greater than 2; at least two x[i] must
+ *            differ; and if <sigma> is provided, all <sigma[i]> must
+ *            be $>0$. If any of these conditions isn't met, the
+ *            routine throws <eslEINVAL>.
+ *
+ * Args:      x            - x[0..n-1]
+ *            y            - y[0..n-1]
+ *            sigma        - sample error in observed y_i
+ *            n            - number of data points
+ *            opt_a        - optRETURN: intercept estimate		
+ *            opt_b        - optRETURN: slope estimate
+ *            opt_sigma_a  - optRETURN: error in estimate of a
+ *            opt_sigma_b  - optRETURN: error in estimate of b
+ *            opt_cov_ab   - optRETURN: covariance of a,b estimates
+ *            opt_cc       - optRETURN: Pearson correlation coefficient for x,y
+ *            opt_Q        - optRETURN: X^2 P-value for linear fit
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error;
+ *            <eslEINVAL> if a contract condition isn't met;
+ *            <eslENORESULT> if the chi-squared test fails.
+ *            In these cases, all optional return values are set to 0.
+ */
+int
+esl_stats_LinearRegression(const double *x, const double *y, const double *sigma, int n,
+			   double *opt_a,       double *opt_b,
+			   double *opt_sigma_a, double *opt_sigma_b, double *opt_cov_ab,
+			   double *opt_cc,      double *opt_Q)
+{
+  int     status;
+  double *t      = NULL;
+  double  S, Sx, Sy, Stt;
+  double  Sxy, Sxx, Syy;
+  double  a, b, sigma_a, sigma_b, cov_ab, cc, X2, Q;
+  double  xdev, ydev;
+  double  tmp;
+  int     i;
+
+  /* Contract checks. */
+  if (n <= 2) ESL_XEXCEPTION(eslEINVAL, "n must be > 2 for linear regression fitting");
+  if (sigma != NULL) 
+    for (i = 0; i < n; i++) if (sigma[i] <= 0.) ESL_XEXCEPTION(eslEINVAL, "sigma[%d] <= 0", i);
+  status = eslEINVAL;
+  for (i = 0; i < n; i++) if (x[i] != 0.) { status = eslOK; break; }
+  if (status != eslOK) ESL_XEXCEPTION(eslEINVAL, "all x[i] are 0.");
+
+  /* Allocations */
+  ESL_ALLOC(t, sizeof(double) * n);
+
+  /* S = \sum_{i=1}{n} \frac{1}{\sigma_i^2}.  (S > 0.) */
+  if (sigma != NULL) { for (S = 0., i = 0; i < n; i++) S += 1./ (sigma[i] * sigma[i]);  }
+  else S = (double) n;
+
+  /* S_x = \sum_{i=1}{n} \frac{x[i]}{ \sigma_i^2}  (Sx real.) */
+  for (Sx = 0., i = 0; i < n; i++) { 
+    if (sigma == NULL) Sx += x[i];
+    else               Sx += x[i] / (sigma[i] * sigma[i]);
+  }
+
+  /* S_y = \sum_{i=1}{n} \frac{y[i]}{\sigma_i^2}  (Sy real.) */
+  for (Sy = 0., i = 0; i < n; i++) { 
+    if (sigma == NULL) Sy += y[i];
+    else               Sy += y[i] / (sigma[i] * sigma[i]);
+  }
+
+  /* t_i = \frac{1}{\sigma_i} \left( x_i - \frac{S_x}{S} \right)   (t_i real) */
+  for (i = 0; i < n; i++) {
+    t[i] = x[i] - Sx/S;
+    if (sigma != NULL) t[i] /= sigma[i];
+  }
+
+  /* S_{tt} = \sum_{i=1}^n t_i^2  (if at least one x is != 0, Stt > 0) */
+  for (Stt = 0., i = 0; i < n; i++) { Stt += t[i] * t[i]; }
+
+  /* b = \frac{1}{S_{tt}} \sum_{i=1}^{N} \frac{t_i y_i}{\sigma_i}  */
+  for (b = 0., i = 0; i < n; i++) {
+    if (sigma != NULL) { b += t[i]*y[i] / sigma[i]; }
+    else               { b += t[i]*y[i]; }
+  }
+  b /= Stt;
+
+  /* a = \frac{ S_y - S_x b } {S}   */
+  a = (Sy - Sx * b) / S;
+  
+  /* \sigma_a^2 = \frac{1}{S} \left( 1 + \frac{ S_x^2 }{S S_{tt}} \right) */
+  sigma_a = sqrt ((1. + (Sx*Sx) / (S*Stt)) / S);
+
+  /* \sigma_b = \frac{1}{S_{tt}} */
+  sigma_b = sqrt (1. / Stt);
+
+  /* Cov(a,b) = - \frac{S_x}{S S_{tt}}    */
+  cov_ab = -Sx / (S * Stt);
+  
+  /* Pearson correlation coefficient */
+  Sxy = Sxx = Syy = 0.;
+  for (i = 0; i < n; i++) {
+    if (sigma != NULL) { 
+      xdev = (x[i] / (sigma[i] * sigma[i])) - (Sx / n);
+      ydev = (y[i] / (sigma[i] * sigma[i])) - (Sy / n);
+    } else {
+      xdev = x[i] - (Sx / n);
+      ydev = y[i] - (Sy / n);
+    }
+    Sxy += xdev * ydev;
+    Sxx += xdev * xdev;
+    Syy += ydev * ydev;
+  }
+  cc = Sxy / (sqrt(Sxx) * sqrt(Syy));
+
+  /* \chi^2 */
+  for (X2 = 0., i = 0; i < n; i++) {
+    tmp =  y[i] - a - b*x[i];
+    if (sigma != NULL) tmp /= sigma[i];
+    X2 += tmp*tmp;
+  }
+  
+  /* We can calculate a goodness of fit if we know the \sigma_i */
+  if (sigma != NULL) {
+    if (esl_stats_ChiSquaredTest(n-2, X2, &Q) != eslOK) { status = eslENORESULT; goto ERROR; }
+  } else Q = 1.0;
+
+  /* If we didn't use \sigma_i, adjust the sigmas for a,b */
+  if (sigma == NULL) {
+    tmp = sqrt(X2 / (double)(n-2));
+    sigma_a *= tmp;
+    sigma_b *= tmp;
+  }
+    
+  /* Done. Set up for normal return.
+   */
+  free(t);
+  if (opt_a       != NULL) *opt_a       = a;
+  if (opt_b       != NULL) *opt_b       = b;
+  if (opt_sigma_a != NULL) *opt_sigma_a = sigma_a;
+  if (opt_sigma_b != NULL) *opt_sigma_b = sigma_b;
+  if (opt_cov_ab  != NULL) *opt_cov_ab  = cov_ab;
+  if (opt_cc      != NULL) *opt_cc      = cc;
+  if (opt_Q       != NULL) *opt_Q       = Q;
+  return eslOK;
+  
+ ERROR:
+  if (t != NULL) free(t);
+  if (opt_a       != NULL) *opt_a       = 0.;
+  if (opt_b       != NULL) *opt_b       = 0.;
+  if (opt_sigma_a != NULL) *opt_sigma_a = 0.;
+  if (opt_sigma_b != NULL) *opt_sigma_b = 0.;
+  if (opt_cov_ab  != NULL) *opt_cov_ab  = 0.;
+  if (opt_cc      != NULL) *opt_cc      = 0.;
+  if (opt_Q       != NULL) *opt_Q       = 0.;
+  return status;
+}
+/*------------------- end, data fitting -------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef eslSTATS_TESTDRIVE
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+#ifdef HAVE_LIBGSL 
+#include <gsl/gsl_sf_gamma.h>
+#endif
+
+/* The LogGamma() function is rate-limiting in hmmbuild, because it is
+ * used so heavily in mixture Dirichlet calculations.
+ *    ./configure --with-gsl; [compile test driver]
+ *    ./stats_utest -v
+ * runs a comparison of time/precision against GSL.
+ * SRE, Sat May 23 10:04:41 2009, on home Mac:
+ *     LogGamma       = 1.29u  / N=1e8  =  13 nsec/call
+ *     gsl_sf_lngamma = 1.43u  / N=1e8  =  14 nsec/call
+ */
+static void
+utest_LogGamma(ESL_RANDOMNESS *r, int N, int be_verbose)
+{
+  char          *msg = "esl_stats_LogGamma() unit test failed";
+  ESL_STOPWATCH *w   = esl_stopwatch_Create();
+  double        *x   = malloc(sizeof(double) * N);
+  double        *lg  = malloc(sizeof(double) * N);
+  double        *lg2 = malloc(sizeof(double) * N);
+  int            i;
+
+  for (i = 0; i < N; i++) 
+    x[i] = esl_random(r) * 100.;
+  
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) 
+    if (esl_stats_LogGamma(x[i], &(lg[i])) != eslOK) esl_fatal(msg);
+  esl_stopwatch_Stop(w);
+
+  if (be_verbose) esl_stopwatch_Display(stdout, w, "esl_stats_LogGamma() timing: ");
+
+#ifdef HAVE_LIBGSL
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) lg2[i] = gsl_sf_lngamma(x[i]);
+  esl_stopwatch_Stop(w);
+
+  if (be_verbose) esl_stopwatch_Display(stdout, w, "gsl_sf_lngamma() timing:     ");
+  
+  for (i = 0; i < N; i++)
+    if (esl_DCompare(lg[i], lg2[i], 1e-2) != eslOK) esl_fatal(msg);
+#endif
+  
+  free(lg2);
+  free(lg);
+  free(x);
+  esl_stopwatch_Destroy(w);
+}
+
+
+/* The test of esl_stats_LinearRegression() is a statistical test,
+ * so we can't be too aggressive about testing results. 
+ * 
+ * Args:
+ *    r          - a source of randomness
+ *    use_sigma  - TRUE to pass sigma to the regression fit.
+ *    be_verbose - TRUE to print results (manual, not automated test mode)
+ */
+static void
+utest_LinearRegression(ESL_RANDOMNESS *r, int use_sigma, int be_verbose)
+{
+  char msg[] = "linear regression unit test failed";
+  double a     = -3.;
+  double b     = 1.;
+  int    n     = 100;
+  double xori  = -20.;
+  double xstep = 1.0;
+  double setsigma = 1.0;		/* sigma on all points */
+  int    i;
+  double *x     = NULL;
+  double *y     = NULL;
+  double *sigma = NULL;
+  double  ae, be, siga, sigb, cov_ab, cc, Q;
+  
+  if ((x     = malloc(sizeof(double) * n)) == NULL) esl_fatal(msg);
+  if ((y     = malloc(sizeof(double) * n)) == NULL) esl_fatal(msg);
+  if ((sigma = malloc(sizeof(double) * n)) == NULL) esl_fatal(msg);
+  
+  /* Simulate some linear data */
+  for (i = 0; i < n; i++)
+    {
+      sigma[i] = setsigma;
+      x[i]     = xori + i*xstep;
+      y[i]     = esl_rnd_Gaussian(r, a + b*x[i], sigma[i]);
+    }
+  
+  if (use_sigma) {
+    if (esl_stats_LinearRegression(x, y, sigma, n, &ae, &be, &siga, &sigb, &cov_ab, &cc, &Q) != eslOK) esl_fatal(msg);
+  } else {
+    if (esl_stats_LinearRegression(x, y,  NULL, n, &ae, &be, &siga, &sigb, &cov_ab, &cc, &Q) != eslOK) esl_fatal(msg);
+  }
+
+  if (be_verbose) {
+    printf("Linear regression test:\n");
+    printf("estimated intercept a = %8.4f   [true = %8.4f]\n", ae, a);
+    printf("estimated slope b     = %8.4f   [true = %8.4f]\n", be, b);
+    printf("estimated sigma on a  = %8.4f\n",                  siga);
+    printf("estimated sigma on b  = %8.4f\n",                  sigb);
+    printf("estimated cov(a,b)    = %8.4f\n",                  cov_ab);
+    printf("correlation coeff     = %8.4f\n",                  cc);
+    printf("P-value               = %8.4f\n",                  Q);
+  }
+
+  /* The following tests are statistical.
+   */
+  if ( fabs(ae-a) > 2*siga ) esl_fatal(msg);
+  if ( fabs(be-b) > 2*sigb ) esl_fatal(msg);
+  if ( cc < 0.95)            esl_fatal(msg);
+  if (use_sigma) {
+    if (Q < 0.001)           esl_fatal(msg);
+  } else {
+    if (Q != 1.0)            esl_fatal(msg);
+  }
+
+  free(x);
+  free(y);
+  free(sigma);
+}
+#endif /*eslSTATS_TESTDRIVE*/
+/*-------------------- end of unit tests ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+#ifdef eslSTATS_TESTDRIVE
+/* gcc -g -Wall -o stats_utest  -L. -I. -DeslSTATS_TESTDRIVE esl_stats.c -leasel -lm
+ * gcc -DHAVE_LIBGSL -O2 -o stats_utest -L. -I. -DeslSTATS_TESTDRIVE esl_stats.c -leasel -lgsl -lm
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stats.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                   0},
+  {"-s",  eslARG_INT,      "42", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",         0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "verbose: show verbose output",          0},
+  {"-N",  eslARG_INT,"10000000", NULL, NULL, NULL, NULL, NULL, "number of trials in LogGamma test",     0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for stats special functions";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go         = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r          = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  int             be_verbose = esl_opt_GetBoolean(go, "-v");
+  int             N          = esl_opt_GetInteger(go, "-N");
+
+  if (be_verbose) printf("seed = %" PRIu32 "\n", esl_randomness_GetSeed(r));
+
+  utest_LogGamma(r, N, be_verbose);
+  utest_LinearRegression(r, TRUE,  be_verbose);
+  utest_LinearRegression(r, FALSE, be_verbose);
+  
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  exit(0);
+}
+#endif /*eslSTATS_TESTDRIVE*/
+/*------------------- end of test driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Examples.
+ *****************************************************************/
+
+/* Compile:  gcc -g -Wall -o example -I. -DeslSTATS_EXAMPLE esl_stats.c esl_random.c easel.c -lm  
+ * or        gcc -g -Wall -o example -I. -L. -DeslSTATS_EXAMPLE esl_stats.c -leasel -lm  
+ */
+#ifdef eslSTATS_EXAMPLE
+/*::cexcerpt::stats_example::begin::*/
+/* gcc -g -Wall -o example -I. -DeslSTATS_EXAMPLE esl_stats.c esl_random.c easel.c -lm  */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_stats.h"
+
+int main(void)
+{
+  ESL_RANDOMNESS *r   = esl_randomness_Create(0);
+  double a            = -3.;
+  double b            = 1.;
+  double xori         = -20.;
+  double xstep        = 1.0;
+  double setsigma     = 1.0;		/* sigma on all points */
+  int    n            = 100;
+  double *x           = malloc(sizeof(double) * n);
+  double *y           = malloc(sizeof(double) * n);
+  double *sigma       = malloc(sizeof(double) * n);
+  int    i;
+  double  ae, be, siga, sigb, cov_ab, cc, Q;
+  
+  /* Simulate some linear data, with Gaussian noise added to y_i */
+  for (i = 0; i < n; i++) {
+    sigma[i] = setsigma;
+    x[i]     = xori + i*xstep;
+    y[i]     = esl_rnd_Gaussian(r, a + b*x[i], sigma[i]);
+  }
+  
+  if (esl_stats_LinearRegression(x, y, sigma, n, &ae, &be, &siga, &sigb, &cov_ab, &cc, &Q) != eslOK)
+    esl_fatal("linear regression failed");
+
+  printf("estimated intercept a = %8.4f   [true = %8.4f]\n", ae, a);
+  printf("estimated slope b     = %8.4f   [true = %8.4f]\n", be, b);
+  printf("estimated sigma on a  = %8.4f\n",                  siga);
+  printf("estimated sigma on b  = %8.4f\n",                  sigb);
+  printf("estimated cov(a,b)    = %8.4f\n",                  cov_ab);
+  printf("correlation coeff     = %8.4f\n",                  cc);
+  printf("P-value               = %8.4f\n",                  Q);
+
+  free(x);  free(y);  free(sigma); 
+  esl_randomness_Destroy(r);
+  exit(0);
+}
+/*::cexcerpt::stats_example::end::*/
+#endif /* eslSTATS_EXAMPLE */
+
+
+#ifdef eslSTATS_EXAMPLE2
+
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stats.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <ca> <na> <cb> <nb>";
+static char banner[] = "example from the stats module: using a G-test";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go  = esl_getopts_CreateDefaultApp(options, 4, argc, argv, banner, usage);
+  int           ca  = strtol(esl_opt_GetArg(go, 1), NULL, 10);
+  int           na  = strtol(esl_opt_GetArg(go, 2), NULL, 10);
+  int           cb  = strtol(esl_opt_GetArg(go, 3), NULL, 10);
+  int           nb  = strtol(esl_opt_GetArg(go, 4), NULL, 10);
+  double        G, P;
+  int           status;
+  
+  if (ca > na || cb > nb) esl_fatal("argument order wrong? expect ca, na, cb, nb for ca/na, cb/nb");
+ 
+  if ( (status = esl_stats_GTest(ca, na, cb, nb, &G, &P)) != eslOK) esl_fatal("G-test failed?");
+  printf("%-10.3g %12.2f\n", P, G);
+  exit(0);
+}
+#endif /* eslSTATS_EXAMPLE2 */
+/*--------------------- end of examples -------------------------*/
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_stats.c 854 2013-02-25 22:00:19Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stats.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.h
new file mode 100755
index 0000000..4a5fbe0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.h
@@ -0,0 +1,37 @@
+/* Foundation, miscellenea for the statistics modules.
+ */
+#ifndef eslSTATS_INCLUDED
+#define eslSTATS_INCLUDED
+
+/* 1. Summary statistics calculations */
+extern int esl_stats_DMean(const double *x, int n, double *opt_mean, double *opt_var);
+extern int esl_stats_FMean(const float  *x, int n, double *opt_mean, double *opt_var);
+extern int esl_stats_IMean(const int    *x, int n, double *opt_mean, double *opt_var);
+
+/* 2. Special functions */
+extern int esl_stats_LogGamma(double x, double *ret_answer);
+extern int esl_stats_Psi(double x, double *ret_answer);
+extern int esl_stats_IncompleteGamma(double a, double x, double *ret_pax, double *ret_qax);
+
+/* 3. Standard statistical tests */
+extern int esl_stats_GTest(int ca, int na, int cb, int nb, double *ret_G, double *ret_P);
+extern int esl_stats_ChiSquaredTest(int v, double x, double *ret_answer);
+
+/* 4. Data fitting */
+extern int esl_stats_LinearRegression(const double *x, const double *y, const double *sigma, int n,
+				      double *opt_a,       double *opt_b,
+				      double *opt_sigma_a, double *opt_sigma_b, double *opt_cov_ab,
+				      double *opt_cc,      double *opt_Q);
+#endif /*eslSTATS_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_stats.h 771 2012-06-11 12:53:13Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stats.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.tex
new file mode 100755
index 0000000..b027d99
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stats.tex
@@ -0,0 +1,43 @@
+
+The \eslmod{stats} module is the foundation of a set of statistics
+modules. It contains special functions like $\Gamma(x)$ and $\Psi(x)$,
+and elementary statistics routines such as linear regression fitting
+and $\chi^2$ testing. Table~\ref{tbl:stats_api} lists the functions in
+the \eslmod{stats} API.
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\hyperlink{func:esl_stats_DMean()}{\ccode{esl\_stats\_\{D,F,I\}Mean()}} & Calculates mean and $\sigma^2$ for samples $x_i$.\\
+\hyperlink{func:esl_stats_LogGamma()}{\ccode{esl\_stats\_LogGamma()}} & Calculates $\log \Gamma(x)$.\\
+\hyperlink{func:esl_stats_Psi()}{\ccode{esl\_stats\_Psi()}} & Calculates $\Psi(x)$ (the digamma function).\\
+\hyperlink{func:esl_stats_IncompleteGamma()}{\ccode{esl\_stats\_IncompleteGamma()}} & Calculates the incomplete Gamma function.
+\\
+\hyperlink{func:esl_stats_ChiSquaredTest()}{\ccode{esl\_stats\_ChiSquaredTest()}} & Calculates a $\chi^2$ P-value.\\
+\hyperlink{func:esl_stats_LinearRegression()}{\ccode{esl\_stats\_LinearRegression()}} & Fit data to a straight line.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{stats} API.}
+\label{tbl:stats_api}
+\end{table}
+
+\subsection{An example of using the stats API}
+
+
+Figure~\ref{fig:stats_example} shows an example of using one of the
+routines in the \eslmod{stats} module, linear regression fitting. It
+generates a set of $n$ points dispersed around a line, $y_i = a + bx +
+N(\sigma)$ with Gaussian noise $N(\sigma)$, then fits the data to a
+line to obtain estimates $\hat{a}$ and $\hat{b}$.
+
+\begin{figure}
+\input{cexcerpts/stats_example}
+\caption{An example of using the \eslmod{stats} module.}
+\label{fig:stats_example}
+\end{figure}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.c
new file mode 100755
index 0000000..5d03777
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.c
@@ -0,0 +1,262 @@
+/* Tracking cpu/system/elapsed time used by a process.
+ *
+ * Thanks to Warren Gish for assistance.
+ */
+#include "esl_config.h"
+
+#include "easel.h"
+#include "esl_stopwatch.h"
+
+/*****************************************************************
+ * ESL_STOPWATCH object maintenance
+ *****************************************************************/
+
+/* Function:  esl_stopwatch_Create()
+ *
+ * Purpose:   Creates a new stopwatch.
+ *
+ * Returns:   ptr to a new <ESL_STOPWATCH> object; caller is
+ *            responsible for free'ing it with 
+ *            <esl_stopwatch_Destroy()>.
+ *
+ * Throws:    NULL on allocation failure.
+ */
+ESL_STOPWATCH *
+esl_stopwatch_Create(void)
+{
+  int status;
+  ESL_STOPWATCH *w = NULL;
+
+  ESL_ALLOC(w, sizeof(ESL_STOPWATCH));
+  w->elapsed = 0.;
+  w->user    = 0.;
+  w->sys     = 0.;
+  return w;
+
+ ERROR:
+  return NULL;
+}
+
+/* Function:  esl_stopwatch_Destroy()
+ *
+ * Purpose:   Frees an <ESL_STOPWATCH>.
+ */
+void
+esl_stopwatch_Destroy(ESL_STOPWATCH *w)
+{
+  free(w);
+}
+
+
+
+
+/* Function:  esl_stopwatch_Start()
+ *
+ * Purpose:   Start a stopwatch. This sets the base 
+ *            for elapsed, cpu, and system time difference
+ *            calculations by subsequent calls to
+ *            <esl_stopwatch_Stop()>.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int 
+esl_stopwatch_Start(ESL_STOPWATCH *w)
+{
+#ifdef HAVE_TIMES /* POSIX */
+  w->t0 = times(&(w->cpu0));
+#else             /* fallback to ANSI C */
+  w->t0   = time(NULL);
+  w->cpu0 = clock();
+#endif
+  w->elapsed = 0.;
+  w->user    = 0.;
+  w->sys     = 0.;
+  return eslOK;
+}
+
+/* Function:  esl_stopwatch_Stop()
+ *
+ * Purpose:   Stop a stopwatch. Record and store elapsed,
+ *            cpu, and system time difference relative to the
+ *            last call to <esl_stopwatch_Start()>.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_stopwatch_Stop(ESL_STOPWATCH *w)
+{
+#ifdef HAVE_TIMES
+  struct tms cpu1;
+  clock_t    t1;
+  double     clk_tck;
+#else
+  time_t  t1;
+  clock_t cpu1;
+#endif
+
+
+#ifdef HAVE_TIMES /* POSIX */
+  t1         = times(&cpu1);
+  
+  clk_tck    = (double) sysconf(_SC_CLK_TCK);
+  w->elapsed = (double) (t1 - w->t0) / clk_tck;
+  w->user    = (double) (cpu1.tms_utime + cpu1.tms_cutime -
+			 w->cpu0.tms_utime - w->cpu0.tms_cutime) / clk_tck;
+
+  w->sys     = (double) (cpu1.tms_stime + cpu1.tms_cstime -
+			 w->cpu0.tms_stime - w->cpu0.tms_cstime) / clk_tck;
+#else /* fallback to ANSI C */
+  t1         = time(NULL);
+  cpu1       = clock();
+  w->elapsed = difftime(t1, w->t0);
+  w->user    = (double) (cpu1- w->cpu0) / (double) CLOCKS_PER_SEC;
+  w->sys     = 0.;		/* no way to portably get system time in ANSI C */
+
+#endif
+  return eslOK;
+}
+
+/* format_time_string()
+ * Date:     SRE, Fri Nov 26 15:06:28 1999 [St. Louis]
+ *
+ * Purpose:  Given a number of seconds, format into
+ *           hh:mm:ss.xx in a provided buffer.
+ *
+ * Args:     buf     - allocated space (128 is plenty!)
+ *           sec     - number of seconds
+ *           do_frac - TRUE (1) to include hundredths of a sec
+ */
+static void
+format_time_string(char *buf, double sec, int do_frac)
+{
+  int h, m, s, hs;
+  
+  h  = (int) (sec / 3600.);
+  m  = (int) (sec / 60.) - h * 60;
+  s  = (int) (sec) - h * 3600 - m * 60;
+  if (do_frac) {
+    hs = (int) (sec * 100.) - h * 360000 - m * 6000 - s * 100;
+    sprintf(buf, "%02d:%02d:%02d.%02d", h,m,s,hs);
+  } else {
+    sprintf(buf, "%02d:%02d:%02d", h,m,s);
+  }
+}
+
+/* Function:  esl_stopwatch_Display()
+ *
+ * Purpose:   Output a usage summary line from a stopped
+ *            stopwatch, showing elapsed, cpu, and system time
+ *            between the last calls to 
+ *            <esl_stopwatch_Start()> and <esl_stopwatch_Stop()>.
+ *            
+ *            The string <prefix> will be prepended to the output
+ *            line. Use <""> to prepend nothing. If <prefix> is NULL,
+ *            a default <"CPU Time: "> prefix is used.
+ *           
+ *            For <prefix> = <"CPU Time: "> an example output line is:\\
+ *            <CPU Time: 142.55u 7.17s 00:02:29.72 Elapsed: 00:02:35>
+ *
+ * Args:      fp      - output stream
+ *            w       - stopped stopwatch
+ *            prefix  - output line prefix ("" for nothing)
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> on any system write error, such as filled disk.
+
+ */
+int 
+esl_stopwatch_Display(FILE *fp, ESL_STOPWATCH *w, char *prefix)
+{
+  char buf[128];	/* (safely holds up to 10^14 years; I'll be dead by then) */
+  
+  if (prefix == NULL) { if (fputs("CPU Time: ", fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stopwatch display write failed"); }
+  else                { if (fputs(prefix, fp)       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stopwatch display write failed"); }
+
+  format_time_string(buf, w->user+w->sys, TRUE);
+#ifdef HAVE_TIMES
+  if (fprintf(fp, "%.2fu %.2fs %s ", w->user, w->sys, buf) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stopwatch display write failed"); 
+#else
+  if (fprintf(fp, "%.2fu %s ", w->user, buf)               < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stopwatch display write failed"); 
+#endif
+  format_time_string(buf, w->elapsed, TRUE);
+  if (fprintf(fp, "Elapsed: %s\n", buf)                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stopwatch display write failed"); 
+  return eslOK;
+}
+  
+
+/* Function:  esl_stopwatch_Include()
+ *
+ * Purpose:   Merge the cpu and system times from a slave into
+ *            a master stopwatch. Both watches must be
+ *            stopped, and should not be stopped again unless
+ *            You Know What You're Doing.
+ *           
+ *            Elapsed time is not merged. Master is assumed
+ *            to be keeping track of the wall clock (real) time,
+ *            and the slave/worker watch is ignored.
+ *           
+ *            Useful in at least two cases. One is in 
+ *            PVM, where we merge in the stopwatch(es) from separate
+ *            process(es) in a cluster. A second is in 
+ *            threads, for broken pthreads/times() implementations
+ *            that lose track of cpu times used by spawned
+ *            threads.
+ *
+ * Args:      master  - stopwatch that's aggregating times
+ *            w       - watch to add to the master.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_stopwatch_Include(ESL_STOPWATCH *master, ESL_STOPWATCH *w)
+{
+  master->user    += w->user;
+  master->sys     += w->sys;
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * Example of using the stopwatch module
+ *****************************************************************/
+#ifdef eslSTOPWATCH_EXAMPLE
+/*::cexcerpt::stopwatch_example::begin::*/
+/* compile: gcc -g -Wall -I. -o example -DeslSTOPWATCH_EXAMPLE esl_stopwatch.c easel.c -lm
+ * run:     ./example
+ */
+#include "easel.h"
+#include "esl_stopwatch.h"
+
+int 
+main(void)
+{
+  ESL_STOPWATCH *w;
+  
+  w = esl_stopwatch_Create(); 
+
+  esl_stopwatch_Start(w);
+  sleep(5);
+  esl_stopwatch_Stop(w);
+
+  esl_stopwatch_Display(stdout, w, "CPU Time: ");
+  esl_stopwatch_Destroy(w);
+  return 0;
+}
+/*::cexcerpt::stopwatch_example::end::*/
+#endif /*ESL_STOPWATCH_EXAMPLE*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_stopwatch.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stopwatch.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.h
new file mode 100755
index 0000000..ead61b4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.h
@@ -0,0 +1,60 @@
+/* Tracking cpu/system/elapsed time used by a process.
+ * 
+ * SRE, Wed Feb 22 19:30:36 2006 [St. Louis] [moved to Easel]
+ * SRE, Thu Aug  3 08:00:35 2000 [St. Louis] [moved to SQUID]
+ * SRE, Fri Nov 26 14:54:21 1999 [St. Louis] [HMMER]
+ * SVN $Id: esl_stopwatch.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stopwatch.h $
+ */
+#ifndef eslSTOPWATCH_INCLUDED
+#define eslSTOPWATCH_INCLUDED
+
+#include <time.h>
+#ifdef HAVE_TIMES
+#include <sys/times.h>
+#endif
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>		/* need for sysconf() */
+#endif
+
+typedef struct {
+  /* t0 and cpu0 keep base, when the watch was Start()'ed */
+#ifdef HAVE_TIMES
+  clock_t    t0;		/* Wall time, POSIX times()      */
+  struct tms cpu0;		/* CPU/system time, POSIX times()*/
+#else
+  time_t  t0;			/* Wall time, fallback to ANSI time()  */
+  clock_t cpu0;			/* CPU time, fallback to ANSI clock()  */
+#endif
+
+  /* elapsed/user/sys are t-t0 results for the last time the
+   * watch was Stop()'ed.
+   */
+  double elapsed;               /* elapsed time, seconds */
+  double user;                  /* CPU time, seconds     */
+  double sys;                   /* system time, seconds  */
+} ESL_STOPWATCH;
+
+
+extern ESL_STOPWATCH *esl_stopwatch_Create(void);
+extern void           esl_stopwatch_Destroy(ESL_STOPWATCH *w);
+
+extern int esl_stopwatch_Start(ESL_STOPWATCH *w);
+extern int esl_stopwatch_Stop(ESL_STOPWATCH *w);
+extern int esl_stopwatch_Display(FILE *fp, ESL_STOPWATCH *w, char *prefix);
+
+extern int esl_stopwatch_Include(ESL_STOPWATCH *master, ESL_STOPWATCH *w);
+
+
+#endif /*eslSTOPWATCH_INCLUDED*/ 
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.tex
new file mode 100755
index 0000000..a823750
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stopwatch.tex
@@ -0,0 +1,117 @@
+
+The stopwatch module measures the elapsed (wall clock) time, CPU time,
+and system time consumed by any part of a program.
+
+The simple way to measure the CPU time consumption in an ANSI C
+program is:
+
+\begin{cchunk}
+    clock_t  t0, t1;
+    t0 = clock();
+    /* do_stuff */
+    t1 = clock();
+    printf("cpu time: %.2f\n", (double) (t1-t0)/(double) CLOCKS_PER_SEC);
+\end{cchunk}
+
+The stopwatch module is just an elaboration of this.  It tracks
+elapsed and system time, in addition to cpu time; it hides the details
+of converting a time difference in hardware clock ticks to a
+human-interpretable time in seconds; and it provides a standard output
+function for formatting times, similar to the output of the standard
+UNIX \ccode{time} command line utility for timing processes.
+
+\begin{table}[hb]
+\begin{tabular}{ll}\hline
+\ccode{esl\_stopwatch\_Create()}  & Creates new stopwatch.\\
+\ccode{esl\_stopwatch\_Destroy()} & Frees a stopwatch.\\
+\ccode{esl\_stopwatch\_Start()}   & Starts a stopwatch.\\
+\ccode{esl\_stopwatch\_Stop()}    & Stops a stopwatch.\\
+\ccode{esl\_stopwatch\_Display()} & Displays elapsed, cpu, and system time.\\
+\ccode{esl\_stopwatch\_Include()} & Merges a stopwatch's time into a master.\\
+\hline
+\end{tabular}
+\caption{The \eslmod{stopwatch} API.}
+\label{tbl:stopwatch_api}
+\end{table}
+
+Table~\ref{tbl:stopwatch_api} lists the functions in the API.
+
+Starting a stopwatch with \ccode{esl\_stopwatch\_Start()} initializes
+a base time, t0. Stopping a stopwatch with
+\ccode{esl\_stopwatch\_Stop()} takes the current time t1, and
+internally computes and stores elapsed, cpu, and system time
+differences (t1-t0). These stored times can be displayed at any time
+using \ccode{esl\_stopwatch\_Display()}, until the next time the watch
+is stopped. A stopwatch can be stopped any number of times, measuring
+increasing time from the same base. A stopwatch can also be started
+any number of times, resetting the base each time it is set.
+
+Figure~\ref{fig:stopwatch_example} shows a small example that measures
+a boring \ccode{sleep(5)} call, which will of course show an elapsed
+wall time of 5 seconds.  Change the \ccode{sleep(5)} call to something
+cpu- or system-intensive to see a non-zero measurement of cpu or
+system time.
+
+\begin{figure}
+\input{cexcerpts/stopwatch_example}
+\caption{An example of using the \eslmod{stopwatch} module.}
+\label{fig:stopwatch_example}
+\end{figure}
+
+\subsection{Displaying and retrieving times}
+
+The \ccode{esl\_stopwatch\_Display()} function prints a line
+containing the cpu time, system time, aggregated cpu+system time, and
+the elapsed (wall clock) time. For example:
+
+\begin{cchunk}
+CPU Time: 142.55u 7.17s 00:02:29.72 Elapsed: 00:02:35
+\end{cchunk}
+
+If you want to access the times in seconds for your own purposes, the
+relevant fields in a stopped \ccode{ESL\_STOPWATCH} object are:
+
+\begin{cchunk}
+  double elapsed;               /* elapsed time, seconds */
+  double user;                  /* CPU time, seconds     */
+  double sys;                   /* system time, seconds  */
+\end{cchunk}
+
+
+
+\subsection{Stopwatch precision and system dependency}
+
+Elapsed wall time is typically measured at low resolution, in units of
+seconds (depending on the ANSI C \ccode{time\_t} definition on your
+system). It is displayed with a precision of 1 sec.
+
+CPU time is typically measured in high resolution, in units of
+microseconds (depending on the value of POSIX \ccode{\_SC\_CLK\_TCK} or
+ANSI C \ccode{CLOCKS\_PER\_SEC} on your system). It is displayed with a
+precision of 0.01 sec.
+
+System time is only determined on systems that provide a POSIX
+\ccode{times()} function. Like CPU time, it is typically measured at
+high resolution, in units of microseconds (depending on the POSIX
+\ccode{\_SC\_CLK\_TCK} value on your system). It is displayed with a
+precision of 0.01 sec.  On systems that do not provide a
+POSIX-compliant \ccode{times()} function, system time is always
+reported as 0.
+
+\subsection{Aggregate times in parallelized code}
+
+In parallelized code, you may want to aggregate results from multiple
+stopwatches into a single overall time measurement. Examples include
+aggregating times from worker processes in PVM or MPI applications, or
+aggregating times from multiple execution threads on systems where the
+\ccode{times()} function does not correctly aggregate threads for you.
+
+The \ccode{esl\_stopwatch\_Include()} function adds the cpu and system
+times in a ``client'' stopwatch to a ``master'' stopwatch. Both the
+client and the master stopwatch must be stopped. The elapsed time in
+the master stopwatch is not affected; it is assumed to be keeping
+track of the real (wall clock) time. 
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.c
new file mode 100755
index 0000000..b65addf
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.c
@@ -0,0 +1,683 @@
+/* Statistical routines for stretched exponential distributions.
+ * 
+ * xref STL9/146
+ */
+#include <esl_config.h>
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_vectorops.h"
+#include "esl_stretchexp.h"
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include "esl_histogram.h"
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+
+/****************************************************************************
+ * Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+/* mu <= x < infinity   
+ *    [x=mu is no problem, but watch out for evaluating log(0) when it is]
+ * lambda > 0
+ * tau > 0    [fat tailed when tau < 1; thin when tau > 1; exponential when tau = 1]
+ */
+
+/* Function:  esl_sxp_pdf()
+ *
+ * Purpose:   Calculates the probability density function for the 
+ *            stretched exponential pdf, $P(X=x)$, given
+ *            quantile <x>, offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_sxp_pdf(double x, double mu, double lambda, double tau)
+{
+  double y    = lambda * (x-mu);
+  double val;
+  double gt;
+  
+  if (x < mu) return 0.;
+  esl_stats_LogGamma(1/tau, &gt);
+
+  if (x == mu) val = (lambda * tau / exp(gt));
+  else         val = (lambda * tau / exp(gt)) * exp(- exp(tau * log(y)));
+
+  return val;
+}
+
+/* Function:  esl_sxp_logpdf()
+ *
+ * Purpose:   Calculates the log probability density function for the 
+ *            stretched exponential pdf, $\log P(X=x)$, given
+ *            quantile <x>, offset <mu>, and parameters <lambda> and <tau>.
+ */
+double 
+esl_sxp_logpdf(double x, double mu, double lambda, double tau)
+{
+  double y    = lambda * (x-mu);
+  double gt;
+  double val;
+
+  if (x < mu) return -eslINFINITY;
+  esl_stats_LogGamma(1/tau, &gt);
+
+  if (x == mu) val = log(lambda) + log(tau) - gt;
+  else         val = log(lambda) + log(tau) - gt - exp(tau*log(y));
+  return val;
+}
+
+/* Function:  esl_sxp_cdf()
+ *
+ * Purpose:   Calculates the cumulative distribution function for the 
+ *            stretched exponential pdf, $P(X \leq x)$, given
+ *            quantile <x>, offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_sxp_cdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x-mu);
+  double val;
+
+  if (x <= mu) return 0.;
+  esl_stats_IncompleteGamma(1/tau, exp(tau * log(y)), &val, NULL);
+  
+  ESL_DASSERT1 (( !isnan(val)));
+  return val;
+}
+
+/* Function:  esl_sxp_logcdf()
+ *
+ * Purpose:   Calculates the log of the cumulative distribution function for the 
+ *            stretched exponential pdf, $\log P(X \leq x)$, given
+ *            quantile <x>, offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_sxp_logcdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x-mu);
+  double val;
+
+  if (x <= mu) return -eslINFINITY;
+  esl_stats_IncompleteGamma(1./tau, exp(tau * log(y)), &val, NULL);
+  return log(val);
+}
+
+/* Function:  esl_sxp_surv()
+ *
+ * Purpose:   Calculates the survival function for the 
+ *            stretched exponential pdf, $P(X > x)$, given
+ *            quantile <x>, offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_sxp_surv(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x-mu);
+  double val;
+
+  if (x <= mu) return 1.0;
+
+  esl_stats_IncompleteGamma(1./tau, exp(tau * log(y)), NULL, &val);
+  return val;
+}
+
+/* Function:  esl_sxp_logsurv()
+ *
+ * Purpose:   Calculates the log survival function for the 
+ *            stretched exponential pdf, $\log P(X > x)$, given
+ *            quantile <x>, offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_sxp_logsurv(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x-mu);
+  double val;
+
+  if (x <= mu) return 0.0;
+
+  esl_stats_IncompleteGamma(1./tau, exp(tau * log(y)), NULL, &val);
+  return log(val);
+}
+
+/* Function:  esl_sxp_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF for a stretched exponential
+ *            with parameters <mu>, <lambda>, and <tau>, returning
+ *            the quantile <x> at which the CDF is <p>.
+ *            
+ *            The inverse CDF of the stretched exponential has no
+ *            analytical expression as far as I'm aware. The calculation
+ *            here is a computationally expensive, brute force bisection
+ *            search in <x> using the CDF function. It will suffice for
+ *            a small number of calls (for plotting applications, for example),
+ *            but it is not sufficient for a large number of calls.
+ */
+double
+esl_sxp_invcdf(double p, double mu, double lambda, double tau)
+{
+  double x1, x2, xm;		/* low, high guesses at x */
+  double f1, f2, fm;
+  double tol = 1e-6;
+
+  x1 = mu;
+  f1 = 0.;
+  x2 = mu + 1.;
+  do {				/* bracket */
+    x2 = x2 + 2.*(x2-x1);
+    f2 = esl_sxp_cdf(x2, mu, lambda, tau);
+  } while (f2 < p);
+
+  do {				/* bisection */
+    xm = (x1+x2) / 2.;
+    fm = esl_sxp_cdf(xm, mu, lambda, tau);
+    
+    if      (fm > p) x2 = xm;
+    else if (fm < p) x1 = xm;
+    else return xm;		/* unlikely case of fm==cdf */
+  } while ( (x2-x1)/(x1+x2-2*mu) > tol);
+
+  xm = (x1+x2) / 2.;
+  return xm;
+}
+/*-------------------- end densities & distributions ------------------------*/
+	  
+
+
+
+/****************************************************************************
+ * Generic API routines: for general interface w/ histogram module
+ ****************************************************************************/ 
+
+/* Function:  esl_sxp_generic_pdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_sxp_pdf()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_sxp_generic_pdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_sxp_pdf(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_sxp_generic_cdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_sxp_cdf()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_sxp_generic_cdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_sxp_cdf(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_sxp_generic_surv()
+ *
+ * Purpose:   Generic-API wrapper around <esl_sxp_surv()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_sxp_generic_surv(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_sxp_surv(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_sxp_generic_invcdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_sxp_invcdf()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_sxp_generic_invcdf(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_sxp_invcdf(p, v[0], v[1], v[2]);
+}
+/*------------------------ end generic API ---------------------------------*/
+
+
+
+/****************************************************************************
+ * Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_sxp_Plot()
+ *
+ * Purpose:   Plot some stretched exponential function <func> (for instance,
+ *            <esl_sxp_pdf()>) for parameters <mu>, <lambda>, and <tau>, for
+ *            a range of quantiles x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_sxp_Plot(FILE *fp, double mu, double lambda, double tau,
+	     double (*func)(double x, double mu, double lambda, double tau), 
+	     double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mu, lambda, tau)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stretchexp plot write failed");
+  if (fprintf(fp, "&\n")                                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "stretchexp plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+
+/****************************************************************************
+ * Routines for sampling (requires augmentation w/ random, dirichlet modules)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+/* Function:  esl_sxp_Sample()
+ *
+ * Purpose:   Sample a stretched exponential random variate,
+ *            by a change of variable from a Gamma sample.
+ */
+double
+esl_sxp_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double tau)
+{
+  double t,x;
+
+  t = esl_rnd_Gamma(r, 1./tau);
+  x = mu + 1./lambda * exp(1./tau * log(t));
+  return x;
+} 
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+
+/****************************************************************************
+ * Maximum likelihood fitting
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_MINIMIZER
+/* This structure is used to sneak the data into minimizer's generic
+ * (void *) API for all aux data
+ */
+struct sxp_data {
+  double *x;
+  int     n;
+  double  mu;
+};
+
+static double
+sxp_complete_func(double *p, int np, void *dptr)
+{
+  struct sxp_data *data = (struct sxp_data *) dptr;
+  double lambda, tau;
+  double logL = 0.;
+  int    i;
+
+  lambda = exp(p[0]);
+  tau    = exp(p[1]);
+
+  for (i = 0; i < data->n; i++)
+    logL += esl_sxp_logpdf(data->x[i], data->mu, lambda, tau);
+  return -logL;
+}
+
+/* Function:  esl_sxp_FitComplete()
+ *
+ * Purpose:   Given a vector of <n> observed data samples <x[]>,
+ *            find maximum likelihood parameters by conjugate gradient 
+ *            descent optimization.
+ */
+int
+esl_sxp_FitComplete(double *x, int n,
+		    double *ret_mu, double *ret_lambda, double *ret_tau)
+
+{
+  struct sxp_data data;
+  double p[2], u[2], wrk[8];
+  double mu, tau, lambda;
+  double mean;
+  double tol = 1e-6;
+  double fx;
+  int    status;
+
+  /* initial guesses; mu is definitely = minimum x,
+   * and just use arbitrary #'s to init lambda, tau
+   */
+  mu =  esl_vec_DMin(x, n);
+  esl_stats_DMean(x, n, &mean, NULL);
+  lambda = 1 / (mean - mu);
+  tau    = 0.9;
+
+
+  /* load data structure, param vector, and step vector */
+  data.x  = x;
+  data.n  = n;
+  data.mu = mu;
+  p[0]    = log(lambda);
+  p[1]    = log(tau);
+  u[0]    = 1.0;
+  u[1]    = 1.0;
+
+  /* hand it off */
+  status =  esl_min_ConjugateGradientDescent(p, u, 2, 
+					     &sxp_complete_func, 
+					     NULL,
+					     (void *) (&data), tol, wrk, &fx);
+  *ret_mu     = mu;
+  *ret_lambda = exp(p[0]);
+  *ret_tau    = exp(p[1]);
+  return eslOK;
+}
+
+#ifdef eslAUGMENT_HISTOGRAM
+struct sxp_binned_data {
+  ESL_HISTOGRAM *g;	/* contains the binned data    */
+  double mu;		/* mu is not a learnable param */
+};
+
+static double 
+sxp_complete_binned_func(double *p, int np, void *dptr)
+{
+  struct sxp_binned_data *data = (struct sxp_binned_data *) dptr;
+  ESL_HISTOGRAM          *g    = data->g;
+  double logL = 0.;
+  double ai, bi;		/* lower, upper bounds on bin */
+  double lambda, tau;
+  int    i;
+  double tmp;
+
+  lambda = exp(p[0]);
+  tau    = exp(p[1]);  
+
+  ESL_DASSERT1(( ! isnan(lambda) ));
+  ESL_DASSERT1(( ! isnan(tau) ));
+  
+  for (i = g->cmin; i <= g->imax; i++) /* for each occupied bin */
+    {
+      if (g->obs[i] == 0) continue;
+      
+      ai = esl_histogram_Bin2LBound(g, i);
+      bi = esl_histogram_Bin2UBound(g, i);
+      if (ai < data->mu) ai = data->mu; /* careful at leftmost bound */
+
+      tmp = esl_sxp_cdf(bi, data->mu, lambda, tau) -
+            esl_sxp_cdf(ai, data->mu, lambda, tau);
+      if      (tmp == 0.) return eslINFINITY;
+      logL += g->obs[i] * log(tmp);
+    }
+  return -logL;			/* minimizing NLL */
+}
+
+/* Function:  esl_sxp_FitCompleteBinned()
+ *
+ * Purpose:   Given a histogram <g> with binned observations, where each
+ *            bin i holds some number of observed samples x with values from 
+ *            lower bound l to upper bound u (that is, $l < x \leq u$);
+ *            find maximum likelihood parameters mu, lambda, tau by conjugate
+ *            gradient descent optimization.
+ */
+int
+esl_sxp_FitCompleteBinned(ESL_HISTOGRAM *g,
+			  double *ret_mu, double *ret_lambda, double *ret_tau)
+
+{
+  struct sxp_binned_data data;
+  double p[2], u[2], wrk[8];
+  double mu, tau, lambda;
+  double tol = 1e-6;
+  double fx;
+  int    status;
+  double ai, mean;
+  int    i;
+
+  /* Set the fixed mu.
+   * Make a good initial guess of lambda, based on exponential fit.
+   * Choose an arbitrary tau.
+   */
+  if      (g->is_tailfit) mu = g->phi;  /* all x > mu in this case */
+  else if (g->is_rounded) mu = esl_histogram_Bin2LBound(g, g->imin);
+  else                    mu = g->xmin; 
+
+  mean = 0.;
+  for (i = g->cmin; i <= g->imax; i++) 
+    { 
+      ai = esl_histogram_Bin2LBound(g, i);
+      ai += 0.5*g->w;		/* midpoint in bin */
+      mean += (double)g->obs[i] * ai;
+    }
+  mean  /= g->No;
+  lambda = 1 / (mean - mu);
+
+  tau    = 0.9;
+
+  /* load data structure, param vector, and step vector */
+  data.g  = g;
+  data.mu = mu;
+  p[0]    = log(lambda);
+  p[1]    = log(tau);
+  u[0]    = 1.0;
+  u[1]    = 1.0;
+
+  /* hand it off */
+  status =  esl_min_ConjugateGradientDescent(p, u, 2, 
+					     &sxp_complete_binned_func, 
+					     NULL,
+					     (void *) (&data), tol, wrk, &fx);
+  *ret_mu     = mu;
+  *ret_lambda = exp(p[0]);
+  *ret_tau    = exp(p[1]);
+  return eslOK;
+}
+#endif /*eslAUGMENT_HISTOGRAM*/
+#endif /*eslAUGMENT_MINIMIZER*/
+
+/****************************************************************************
+ * Example main()
+ ****************************************************************************/ 
+#ifdef eslSTRETCHEXP_EXAMPLE
+/*::cexcerpt::sxp_example::begin::*/
+/* compile:
+   gcc -g -Wall -I. -o example -DeslSTRETCHEXP_EXAMPLE\
+     -DeslAUGMENT_HISTOGRAM -DeslAUGMENT_RANDOM -DeslAUGMENT_MINIMIZER\
+      esl_stretchexp.c esl_histogram.c esl_random.c esl_minimizer.c esl_stats.c esl_vectorops.c easel.c -lm
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_stretchexp.h"
+
+int
+main(int argc, char **argv)
+{
+  double mu         = -50.0;
+  double lambda     = 2.5;
+  double tau        = 0.7;
+  ESL_HISTOGRAM  *h = esl_histogram_CreateFull(mu, 100., 0.1);
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);
+  int    n          = 10000;
+  double *data;
+  int     ndata;
+  double emu, elam, etau;
+  int    i;
+  double x;
+
+  for (i = 0; i < n; i++)
+    {
+      x  =  esl_sxp_Sample(r, mu, lambda, tau);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  /* Plot the empirical (sampled) and expected survivals */
+  esl_histogram_PlotSurvival(stdout, h);
+  esl_sxp_Plot(stdout, mu, lambda, tau,
+	       &esl_sxp_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to complete data, and plot fitted survival curve */
+  esl_sxp_FitComplete(data, ndata, &emu, &elam, &etau);
+  esl_sxp_Plot(stdout, emu, elam, etau,
+	       &esl_sxp_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to binned data, plot fitted survival curve  */
+  esl_sxp_FitCompleteBinned(h, &emu, &elam, &etau);
+  esl_sxp_Plot(stdout, emu, elam, etau,
+	       &esl_sxp_surv,  h->xmin, h->xmax, 0.1);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  return 0;
+}
+/*::cexcerpt::sxp_example::end::*/
+#endif /*eslSTRETCHEXP_EXAMPLE*/
+
+
+
+/****************************************************************************
+ * Test driver
+ ****************************************************************************/ 
+#ifdef eslSTRETCHEXP_TESTDRIVE
+/* gcc -g -Wall -I. -L . -o stretchexp_utest -DeslSTRETCHEXP_TESTDRIVE esl_stretchexp.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_stretchexp.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",               0},
+  {"-l",  eslARG_REAL,    "1.0", NULL,"x>0", NULL, NULL, NULL, "set lambda param to <x>",           0},
+  {"-m",  eslARG_REAL,   "10.0", NULL, NULL, NULL, NULL, NULL, "set mu param to <x>",               0},
+  {"-n",  eslARG_INT,   "10000", NULL,"n>0", NULL, NULL, NULL, "set number of samples to <n>",      0},
+  {"-o",  eslARG_OUTFILE,  NULL, NULL, NULL, NULL, NULL, NULL, "save plots to file <f>",            0},
+  {"-s",  eslARG_INT,      "42", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",     0},
+  {"-t",  eslARG_REAL,    "0.7", NULL,"x>0", NULL, NULL, NULL, "set tau param to <x>",              0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose output",               0},
+  {"-w",  eslARG_REAL,    "0.1", NULL,"x>0", NULL, NULL, NULL, "set width of histogram bins to <x>",0},
+  {"--C", eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "plot CDF",                          0},
+  {"--LC",eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "plot log CDF",                      0},
+  {"--P", eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "plot PDF",                          0},
+  {"--LP",eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "plot log PDF",                      0},
+  {"--S", eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "plot survival",                     0},
+  {"--LS",eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "plot log survival",                 0},
+  {"--XL",eslARG_NONE,     NULL, NULL, NULL, NULL, NULL, NULL, "set xmin for plot axis",            0},
+  {"--XH",eslARG_NONE,     NULL, NULL, NULL, NULL, NULL, NULL, "set xmax for plot axis",            0},
+  {"--XS",eslARG_NONE,     NULL, NULL, NULL, NULL, NULL, NULL, "set xstep for plot axis",           0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for random module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  double  mu           = esl_opt_GetReal(go, "-m");
+  double  lambda       = esl_opt_GetReal(go, "-l");
+  double  tau          = esl_opt_GetReal(go, "-t");
+  ESL_RANDOMNESS *r    = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_HISTOGRAM  *h    = esl_histogram_CreateFull(mu, 100., esl_opt_GetReal(go, "-w"));;
+  int     n            = esl_opt_GetInteger(go, "-n");
+  int     be_verbose   = esl_opt_GetBoolean(go, "-v");
+  char   *plotfile     = esl_opt_GetString(go, "-o");
+  FILE   *pfp          = stdout;
+  int     plot_pdf     = esl_opt_GetBoolean(go, "--P");
+  int     plot_logpdf  = esl_opt_GetBoolean(go, "--LP");
+  int     plot_cdf     = esl_opt_GetBoolean(go, "--C");
+  int     plot_logcdf  = esl_opt_GetBoolean(go, "--LC");
+  int     plot_surv    = esl_opt_GetBoolean(go, "--S");
+  int     plot_logsurv = esl_opt_GetBoolean(go, "--LS");
+  double  xmin         = esl_opt_IsOn(go, "--XL") ?  esl_opt_GetReal(go, "--XL") :  mu;
+  double  xmax         = esl_opt_IsOn(go, "--XH") ?  esl_opt_GetReal(go, "--XH") :  mu+40*(1./lambda);
+  double  xstep        = esl_opt_IsOn(go, "--XS") ?  esl_opt_GetReal(go, "--XS") :  0.1;
+  double  emu, elambda, etau;
+  int     i;
+  double  x;
+  double *data;
+  int     ndata;
+
+  if (be_verbose)
+    printf("Parametric:  mu = %f   lambda = %f    tau = %f\n", mu, lambda, tau);
+
+  if (plotfile != NULL) {
+    if ((pfp = fopen(plotfile, "w")) == NULL) 
+      ESL_EXCEPTION(eslFAIL, "Failed to open plotfile");
+  }
+
+  for (i = 0; i < n; i++)
+    {
+      x = esl_sxp_Sample(r, mu, lambda, tau);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  esl_sxp_FitComplete(data, ndata, &emu, &elambda, &etau);
+  if (be_verbose)
+    printf("Complete data fit:  mu = %f   lambda = %f   tau = %f\n", 
+	   emu, elambda, etau);
+  if (fabs( (emu-mu)/mu ) > 0.01)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted mu > 1%\n");
+  if (fabs( (elambda-lambda)/lambda ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted lambda > 10%\n");
+  if (fabs( (etau-tau)/tau ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted tau > 10%\n");
+
+  esl_sxp_FitCompleteBinned(h, &emu, &elambda, &etau);
+  if (be_verbose)
+    printf("Binned data fit:  mu = %f   lambda = %f   tau = %f\n", 
+	   emu, elambda, etau);
+  if (fabs( (emu-mu)/mu ) > 0.01)
+     ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted mu > 1%\n");
+  if (fabs( (elambda-lambda)/lambda ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted lambda > 10%\n");
+  if (fabs( (etau-tau)/tau ) > 0.10)
+     ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted tau > 10%\n");
+
+  if (plot_pdf)     esl_sxp_Plot(pfp, mu, lambda, tau, &esl_sxp_pdf,     xmin, xmax, xstep);
+  if (plot_logpdf)  esl_sxp_Plot(pfp, mu, lambda, tau, &esl_sxp_logpdf,  xmin, xmax, xstep);
+  if (plot_cdf)     esl_sxp_Plot(pfp, mu, lambda, tau, &esl_sxp_cdf,     xmin, xmax, xstep);
+  if (plot_logcdf)  esl_sxp_Plot(pfp, mu, lambda, tau, &esl_sxp_logcdf,  xmin, xmax, xstep);
+  if (plot_surv)    esl_sxp_Plot(pfp, mu, lambda, tau, &esl_sxp_surv,    xmin, xmax, xstep);
+  if (plot_logsurv) esl_sxp_Plot(pfp, mu, lambda, tau, &esl_sxp_logsurv, xmin, xmax, xstep);
+
+  if (plotfile != NULL) fclose(pfp);
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*eslSTRETCHEXP_TESTDRIVE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_stretchexp.c 727 2011-10-24 17:17:32Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stretchexp.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.h
new file mode 100755
index 0000000..70b61aa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.h
@@ -0,0 +1,58 @@
+/* Stretched exponential distributions.
+ * 
+ * SRE, Fri Aug 19 13:51:14 2005 [St. Louis] [xref STL9/146]
+ * SVN $Id: esl_stretchexp.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_stretchexp.h $
+ */
+#ifndef eslSTRETCHEXP_INCLUDED
+#define eslSTRETCHEXP_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include <esl_histogram.h>
+#endif
+
+extern double esl_sxp_pdf    (double x, double mu, double lambda, double tau);
+extern double esl_sxp_logpdf (double x, double mu, double lambda, double tau);
+extern double esl_sxp_cdf    (double x, double mu, double lambda, double tau);
+extern double esl_sxp_logcdf (double x, double mu, double lambda, double tau);
+extern double esl_sxp_surv   (double x, double mu, double lambda, double tau);
+extern double esl_sxp_logsurv(double x, double mu, double lambda, double tau);
+extern double esl_sxp_invcdf (double p, double mu, double lambda, double tau);
+
+extern double esl_sxp_generic_pdf   (double x, void *params);
+extern double esl_sxp_generic_cdf   (double x, void *params);
+extern double esl_sxp_generic_surv  (double x, void *params);
+extern double esl_sxp_generic_invcdf(double p, void *params);
+
+extern int esl_sxp_Plot(FILE *fp, double mu, double lambda, double tau,
+			double (*func)(double x, double mu, double lambda, double tau), 
+			double xmin, double xmax, double xstep);
+
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_sxp_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double tau);
+#endif
+
+#ifdef eslAUGMENT_MINIMIZER
+extern int esl_sxp_FitComplete(double *x, int n,
+			       double *ret_mu, double *ret_lambda, double *ret_tau);
+#ifdef eslAUGMENT_HISTOGRAM
+extern int esl_sxp_FitCompleteBinned(ESL_HISTOGRAM *g,
+				     double *ret_mu, double *ret_lambda, double *ret_tau);
+#endif /*eslAUGMENT_HISTOGRAM*/
+#endif /*eslAUGMENT_MINIMIZER*/
+
+
+#endif /*eslSTRETCHEXP_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.tex
new file mode 100755
index 0000000..b577b0e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_stretchexp.tex
@@ -0,0 +1,41 @@
+
+The stretched exponential distribution may be useful for fitting
+fat-tailed empirical distributions.
+
+The stretched exponential has a similar functional form as the Weibull
+distribution, and the Weibull is confusingly sometimes referred to as
+a ``stretched exponential distribution'' in the literature, but they
+are not the same. (See the \eslmod{weibull} module.)
+
+\begin{tabular}{lcll}\hline
+Variate    & $x$         & \ccode{double} & $\mu \leq x < \infty$ \\
+Location   & $\mu$       & \ccode{double} & $-\infty < \mu < \infty$\\
+Scale      & $\lambda$   & \ccode{double} & $\lambda > 0$ \\ 
+Shape      & $\tau$      & \ccode{double} & $\tau > 0$ \\ \hline
+\end{tabular}
+
+The probability density function (PDF) is:
+
+\begin{equation}
+P(X=x) = \frac{\lambda \tau}{\Gamma(\frac{1}{\tau})} e^{- [\lambda(x-\mu)]^{\tau}}
+\label{eqn:stretchexp_pdf}
+\end{equation}
+
+The cumulative distribution function (CDF) does not have an analytical
+expression. It is obtained from the integral:
+
+\begin{eqnarray*}
+P(X \leq x) & = & \int_{\mu}^{x} P(X=z) dz\\
+            & = & \frac{\lambda \tau}{\Gamma(\frac{1}{\tau})} \int_\mu^{x} e^{- [\lambda(z-\mu)]^{\tau}} dz\\
+\label{eqn:stretchexp_cdf1}
+\end{eqnarray*}
+
+By change-of-variables $t = [\lambda(z-\mu)]^{\tau}$,
+$t^{\frac{1}{\tau}} = \lambda(z-\mu)$, $dz = \frac{1}{\lambda \tau}
+t^{\frac{1}{\tau}-1} dt$, this can be rewritten as:
+
+\[
+P(X \leq x)  = \frac{1}{\Gamma(\frac{1}{\tau})}
+\int_0^{[\lambda(x-\mu)]^{\tau}} e^{-t} t^{\frac{1}{\tau}-1} dt
+\]
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_swat.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_swat.c
new file mode 100755
index 0000000..bd0dbf6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_swat.c
@@ -0,0 +1,231 @@
+/* This module is unfinished; don't try to use it for anything! */
+
+
+/* Standard Smith/Waterman sequence alignment
+ * 
+ * Contents:
+ *   
+ * 
+ */
+#include "esl_config.h"
+
+#include "easel.h"
+#include "esl_composition.h"
+#include "esl_scorematrix.h"
+
+#define eslSWAT_PROHIBIT -999999999
+
+/* Function:  esl_swat_Score()
+ * Incept:    SRE, Fri Apr 13 16:40:15 2007 [Janelia]
+ *
+ * Purpose:   Implements Smith/Waterman local sequence alignment, recovering
+ *            only a score, not an alignment. Query sequence <x> of length <L>
+ *            is aligned to subject sequence <y> of length <M>, using
+ *            a scoring system composed of residue alignment scores in matrix
+ *            <S>, a gap-open score <gop>, and a gap-extend score <gex>.
+ *            
+ *            A gap of $k$ residues is scored as <gop> $\times (k-1)$
+ *            <gex>.  That is, the gap-open score is applied to the
+ *            first residue in the gap, and the gap-extend penalty is
+ *            applied to each remaining residue. Additionally, both
+ *            <gop> and <gex> should be negative numbers.
+ *
+ * Returns:   <eslOK> on success, and the raw alignment score is returned in
+ *            <ret_sc>. 
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+esl_swat_Score(ESL_DSQ *x, int L, ESL_DSQ *y, int M, ESL_SCOREMATRIX *S, int gop, int gex, int *ret_sc)
+{
+  int    status;
+  int    i,j;
+  int  **rowmem = NULL;
+  int   *mc, *mp, *ixc, *ixp, *iyc, *iyp;
+  int    maxsc;
+
+  /* DP lattice is organized in rows (0) 1..i..M with target running vertically;
+   * columns (0) 1..j..L with query running horizontally.
+   */
+
+  /* Allocation; 
+   * we need two rows of length (L+1) for each of three matrices, M, IX, IY. 
+   * in the future, optimize by providing this from the caller. 
+   */
+  ESL_ALLOC(rowmem,    sizeof(int *) * 6); 
+  rowmem[0] = NULL;
+  ESL_ALLOC(rowmem[0], sizeof(int) * 6 * (L+1));
+  for (i = 1; i < 6; i++) rowmem[i] = rowmem[0] + i*(L+1);
+
+  /* Initializations.
+   */
+  rowmem[1][0] = 0;
+  rowmem[3][0] = eslSWAT_PROHIBIT;
+  rowmem[5][0] = eslSWAT_PROHIBIT;
+  for (j = 0; j <= L; j++) { 
+    rowmem[0][j] = 0;
+    rowmem[2][j] = eslSWAT_PROHIBIT;
+    rowmem[4][j] = eslSWAT_PROHIBIT;
+  }
+
+  maxsc = 0;
+  for (i = 1; i <= M; i++)	/* for each position in target... */
+    {
+      if (i%2) { mp = rowmem[0]; mc = rowmem[1]; ixp = rowmem[2]; ixc = rowmem[3]; iyp = rowmem[4]; iyc = rowmem[5]; }
+      else     { mc = rowmem[0]; mp = rowmem[1]; ixc = rowmem[2]; ixp = rowmem[3]; iyc = rowmem[4]; iyp = rowmem[5]; }
+      
+      for (j = 1; j <= L; j++)	/* for each position in query... */
+	{
+	  /* Match score at mc[j] aligns xj,yi. We can reach here from M (mp[j-1]), IX (ixp[j-1]), or IY (iyp[j-1]) */
+	  mc[j] = 0;
+	  if (mp[j-1]  > mc[j]) mc[j] = mp[j-1];
+	  if (ixp[j-1] > mc[j]) mc[j] = ixp[j-1];
+	  if (iyp[j-1] > mc[j]) mc[j] = iyp[j-1];
+	  mc[j] += S->s[x[j]][y[i]]; 	 
+
+	  if (mc[j] > maxsc) maxsc = mc[j];
+
+	  /* IX score at ixc[j] aligns xj to gap (horizontal move). 
+	   * We reach here from mc[j-1] (gap-open) or ixc[j-1] (gap-extend).
+	   */
+	  ixc[j] = mc[j-1] + gop;
+	  if (ixc[j-1] + gex > ixc[j]) ixc[j] = ixc[j-1] + gex;
+	  
+	  /* analogously for vertical move to iyc. */
+	  iyc[j] = mp[j] + gop;
+	  if (iyp[j] + gex > iyc[j]) iyc[j] = iyp[j] + gex;
+	}
+    }
+
+  *ret_sc = maxsc;
+  free(rowmem[0]);
+  free(rowmem);
+  return eslOK;
+
+ ERROR:
+  *ret_sc = 0;
+  if (rowmem != NULL) {
+    if (rowmem[0] != NULL) free(rowmem[0]);
+    free(rowmem);
+  }
+  return status;
+}
+
+
+/*****************************************************************
+ * Stats driver.
+ *****************************************************************/
+
+/* 
+    gcc -I. -L. -g -Wall -DeslSWAT_STATS -o stats esl_swat.c -leasel -lm 
+    ./stats
+*/
+#ifdef eslSWAT_STATS
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_fileparser.h"
+#include "esl_scorematrix.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_histogram.h"
+
+int
+main(int argc, char **argv)
+{
+  int status;
+  ESL_RANDOMNESS  *r   = esl_randomness_Create(0);
+  ESL_ALPHABET    *abc = esl_alphabet_Create(eslAMINO);
+  ESL_SCOREMATRIX *S   = NULL;
+  ESL_DSQ         *x   = NULL;	/* iid query */
+  ESL_DSQ         *y   = NULL;	/* iid target */
+  double    lambda;
+  double    bg[20];		/* iid background probabilities */
+  int       L;			/* query length */
+  int       M;			/* target length */
+  int       nseq;		/* number of target seqs to simulate */
+  int       i;
+  int       gop; 
+  int       gex;
+  char     *mxfile     = "PMX";
+  int       raw_sc;
+
+  /* Configuration 
+   */
+  L = 400;			/* query length */
+  M = 400;			/* target length */
+  nseq = 50000;
+  gop = -11;
+  gex = -1;
+  lambda = 0.3207;
+
+  ESL_ALLOC(x, sizeof(ESL_DSQ) * (L+2));
+  ESL_ALLOC(y, sizeof(ESL_DSQ) * (M+2));
+
+  /* Input an amino acid score matrix from a file. */
+  if (mxfile != NULL) {
+    ESL_FILEPARSER  *efp = NULL;
+    if ( esl_fileparser_Open(mxfile, NULL, &efp)  != eslOK) esl_fatal("failed to open score file %s", mxfile);
+    if ( esl_scorematrix_Read(efp, abc, &S)               != eslOK) esl_fatal("failed to read matrix from %s", mxfile);
+    esl_fileparser_Close(efp);
+  } else {			/* default = BLOSUM62 */
+    S = esl_scorematrix_Create(abc);
+    esl_scorematrix_Set("BLOSUM62", S);
+  }
+  esl_composition_BL62(bg);
+
+  esl_rsq_xIID(r, bg, 20, L, x);
+  
+  for (i = 0; i < nseq; i++)
+    {
+      esl_rsq_xIID(r, bg, 20, M, y);
+      esl_swat_Score(x, L, y, M, S, gop, gex, &raw_sc);
+      printf("%d\n", raw_sc);
+    }
+  
+  free(x);
+  free(y);
+  esl_scorematrix_Destroy(S);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  exit(0);
+
+ ERROR:
+  exit(status);
+}
+  
+  
+
+
+
+
+#endif /*eslSWAT_STATS*/
+
+
+/*****************************************************************
+ * Unit tests
+ *****************************************************************/
+
+void
+utest_Score(char *s1, char *s2, ESL_SCOREMATRIX *S, int gop, int gex, int expect_score)
+{
+
+}
+
+
+
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_swat.c 849 2013-01-31 15:10:24Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_swat.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_swat.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_swat.tex
new file mode 100755
index 0000000..9042b44
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_swat.tex
@@ -0,0 +1 @@
+The \eslmod{swat} module implements Smith/Waterman local sequence alignment.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_threads.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_threads.c
new file mode 100755
index 0000000..e6665ac
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_threads.c
@@ -0,0 +1,440 @@
+/* Simple master/worker data parallelization using POSIX threads.
+ * 
+ * Contents:
+ *    1. The <ESL_THREADS> object: a gang of workers.
+ *    2. Determining thread number to use.
+ *    3. Examples.
+ *    4. Copyright and license.
+ */
+#include "esl_config.h"
+
+#ifdef HAVE_PTHREAD
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <pthread.h>
+
+#ifdef HAVE_UNISTD_H
+#include <unistd.h>
+#endif
+#ifdef HAVE_SYS_PARAM_H		/* On OpenBSD, sys/sysctl.h requires sys/param.h */
+#include <sys/param.h>
+#endif
+#ifdef HAVE_SYS_SYSCTL_H
+#include <sys/sysctl.h>
+#endif
+#ifdef HAVE_SYS_TYPES_H
+#include <sys/types.h>
+#endif
+
+#include "easel.h"
+#include "esl_threads.h"
+
+
+/*****************************************************************
+ *# 1. The <ESL_THREADS> object: a gang of workers.
+ *****************************************************************/ 
+
+/* Function:  esl_threads_Create()
+ * Synopsis:  Create a threads object.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Creates an <ESL_THREADS> object, for organizing
+ 8            a bunch of worker threads that will all run 
+ *            the worker function <fnptr>. This object is a shell
+ *            for now; the worker threads themselves are 
+ *            created individually with <esl_threads_AddThread()>.
+ *
+ * Returns:   ptr to the new <ESL_THREADS> object.
+ * 
+ * Throws:    <NULL> on allocation or initialization failure.
+ */
+ESL_THREADS *
+esl_threads_Create(void (*fnptr)(void *))
+{
+  ESL_THREADS *obj = NULL;
+  int          status;
+
+  ESL_ALLOC(obj, sizeof(ESL_THREADS));
+
+  obj->threadCount     = 0;
+  obj->threadId        = NULL;
+  obj->data            = NULL;
+  obj->startThread     = 0;
+  obj->func            = fnptr;
+
+  if (pthread_mutex_init(&obj->startMutex, NULL) != 0) ESL_XEXCEPTION(eslESYS, "mutex init failed");
+  if (pthread_cond_init (&obj->startCond,  NULL) != 0) ESL_XEXCEPTION(eslESYS, "cond init failed");
+  return obj;
+
+ ERROR:
+  return NULL;
+}
+
+/* Function:  esl_threads_Destroy()
+ * Synopsis:  Destroys an <ESL_THREADS> object.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Frees an <ESL_THREADS> object.  
+ *
+ *            The caller routine must first free the
+ *            contents of each <obj->data[]>.
+ *
+ * Returns:   void
+ */
+void 
+esl_threads_Destroy(ESL_THREADS *obj)
+{
+  if (obj == NULL) return;
+
+  if (obj->threadId != NULL) free(obj->threadId);
+  if (obj->data     != NULL) free(obj->data);
+  pthread_mutex_destroy(&obj->startMutex);
+  pthread_cond_destroy (&obj->startCond);
+  free(obj);
+  return;
+}
+
+/* Function:  esl_threads_AddThread()
+ * Synopsis:  Add a worker thread to the <ESL_THREADS> object.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Create a new worker thread for the <ESL_THREADS> object,
+ *            assigning it the work unit pointed to by <data>.
+ *
+ *            The caller remains responsible for any memory allocated
+ *            to <data>; the <ESL_THREADS> object will only manage
+ *            a copy of a pointer to <data>.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation failure. 
+ *            <eslESYS> if thread creation fails.
+ *            <eslEINVAL> if something's wrong with the <obj>.
+ */
+int 
+esl_threads_AddThread(ESL_THREADS *obj, void *data)
+{
+  int    status;
+  void  *p;
+
+  if (obj == NULL) ESL_EXCEPTION(eslEINVAL, "Invalid thread object");
+
+  /* allocate inside the ESL_THREADS object to hold another worker */
+  ESL_RALLOC(obj->threadId, p, sizeof(pthread_t) * (obj->threadCount+1));
+  ESL_RALLOC(obj->data,     p, sizeof(void *)    * (obj->threadCount+1));
+  
+  obj->data[obj->threadCount] = data;
+  if (pthread_create(&(obj->threadId[obj->threadCount]), NULL, (void *(*)(void *)) obj->func, obj) != 0) ESL_EXCEPTION(eslESYS, "thread creation failed");
+  obj->threadCount++;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_threads_GetWorkerCount()
+ * Synopsis:  Return the total number of worker threads.
+ * Incept:    SRE, Fri Aug 21 13:22:52 2009 [Janelia]
+ *
+ * Purpose:   Returns the total number of worker threads.
+ */
+int
+esl_threads_GetWorkerCount(ESL_THREADS *obj)
+{
+  return obj->threadCount;
+}
+
+
+/* Function:  esl_threads_WaitForStart()
+ * Synopsis:  Blocks master until all workers have started.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Make the master thread wait until all the worker threads have
+ *            started. When all the worker threads have started and
+ *            are blocking at the start mutex, release them.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something is awry with <obj>.
+ */
+int
+esl_threads_WaitForStart(ESL_THREADS *obj)
+{
+  if (obj == NULL) ESL_EXCEPTION(eslEINVAL, "Invalid thread object");
+
+  if (pthread_mutex_lock (&obj->startMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex lock failed");
+
+  /* wait for all worker threads to start */
+  while (obj->startThread < obj->threadCount) {
+    if (pthread_cond_wait(&obj->startCond, &obj->startMutex) != 0) ESL_EXCEPTION(eslESYS, "wait cond failed");
+  }
+
+  /* release all the worker threads */
+  obj->startThread = 0;
+  if (pthread_cond_broadcast(&obj->startCond)  != 0) ESL_EXCEPTION(eslESYS, "cond broadcast failed");
+  if (pthread_mutex_unlock  (&obj->startMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+  return eslOK;
+}
+
+/* Function:  esl_threads_WaitForFinish()
+ * Synopsis:  Blocks master until all workers have completed.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Block the master thread until all the worker threads have
+ *            completed. As each worker completes, remove it from the 
+ *            <obj>. 
+ *            
+ *            Upon exit, the <obj> is returned to the same (empty)
+ *            state it was in after it was created. It may be reused
+ *            for a new problem by adding new workers.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something is awry with <obj>.
+ */
+int 
+esl_threads_WaitForFinish(ESL_THREADS *obj)
+{
+  int  w;			
+
+  if (obj == NULL) ESL_EXCEPTION(eslEINVAL, "Invalid thread object");
+
+  /* wait for all worker threads to complete */
+  for (w = obj->threadCount-1; w >= 0; w--)
+    {
+      if (pthread_join(obj->threadId[w], NULL) != 0) ESL_EXCEPTION(eslESYS, "pthread join failed");
+      obj->threadCount--;
+    }
+
+  return eslOK;
+}
+
+/* Function:  esl_threads_Started()
+ * Synopsis:  Blocks worker until master gives the start signal.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Block a worker thread until master sees that all workers
+ *            have started and gives the start signal. Assign the worker
+ *            a unique number (0..nworkers-1), and return it in
+ *            <*ret_workeridx>. The worker uses this index to 
+ *            retrieve its work units.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something is awry with <obj>.
+ */
+int
+esl_threads_Started(ESL_THREADS *obj, int *ret_workeridx)
+{
+  int           w;
+  pthread_t     threadId;
+  int           status;
+
+  if (obj == NULL)                                ESL_XEXCEPTION(eslEINVAL, "Invalid thread object");
+  if (pthread_mutex_lock (&obj->startMutex) != 0) ESL_XEXCEPTION(eslESYS,   "mutex lock failed");
+
+  /* signal that we're started */
+  obj->startThread++;
+  if (pthread_cond_broadcast (&obj->startCond) != 0) ESL_XEXCEPTION(eslESYS, "cond broadcast failed");
+
+  /* wait for the master's signal to start the calculations */
+  while (obj->startThread) {
+    if (pthread_cond_wait(&obj->startCond, &obj->startMutex) != 0) ESL_XEXCEPTION(eslESYS, "cond wait failed");
+  }
+
+  if (pthread_mutex_unlock (&obj->startMutex) != 0)  ESL_XEXCEPTION(eslESYS, "mutex unlock failed");
+
+  /* Figure out the worker's index */
+  threadId = pthread_self();
+  for (w = 0; w < obj->threadCount; w++)
+    if (pthread_equal(threadId, obj->threadId[w])) break;
+  if (w == obj->threadCount) ESL_XEXCEPTION(eslESYS, "thread not registered");
+
+  *ret_workeridx = w;
+  return eslOK;
+
+ ERROR:
+  *ret_workeridx = 0;
+  return status;
+}
+
+
+/* Function:  esl_threads_GetData()
+ * Synopsis:  Return the data associated with this thread.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Return the data pointer associated with the worker thread
+ *            <workeridx>. The data pointer was set by the 
+ *            <esl_threads_AddThread()> function.
+ *
+ * Returns:   void *
+ */
+void *
+esl_threads_GetData(ESL_THREADS *obj, int workeridx)
+{
+  return obj->data[workeridx];
+}
+
+
+/* Function:  esl_threads_Finished()
+ * Synopsis:  Terminate the thread.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Terminate a worker thread.
+ *            This is currently a no-op, serving as
+ *            a placeholder in case we eventually need
+ *            any cleanup.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_threads_Finished(ESL_THREADS *obj, int workeridx)
+{
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 2. Determining thread number to use
+ *****************************************************************/
+
+/* Function:  esl_threads_CPUCount()
+ * Synopsis:  Figure out how many cpus the machine has.
+ * Incept:    SRE, Wed Aug 19 11:31:24 2009 [Janelia]
+ *
+ * Purpose:   Determine the number of logical processors on this
+ *            machine; return that number in <*ret_ncpu>.
+ *            
+ *            The number of available processors is found by
+ *            <sysconf(_SC_NPROCESSORS_ONLN)>,
+ *            <sysconf(_SC_NPROC_ONLN)>, or a <sysctl()> call,
+ *            depending on the host system.  This determined number of
+ *            available processors will be the number of logical
+ *            processors, not physical processors. On systems with
+ *            hyperthreading, the number of logical processors is more
+ *            than the number of physical cpus. It may or may not be a
+ *            good thing to spawn more threads than physical
+ *            processors.
+ *            
+ * Args:      ret_ncpu  - RETURN: number of logical CPUs
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      J5/68
+ */
+int
+esl_threads_CPUCount(int *ret_ncpu)
+{
+  int   ncpu = 1;
+
+#if defined     (HAVE_SYSCONF) && defined (_SC_NPROCESSORS_ONLN)     /* Many systems (including Linux) */
+  ncpu = sysconf(_SC_NPROCESSORS_ONLN);
+#elif defined   (HAVE_SYSCONF) && defined (_SC_NPROC_ONLN)	     /* Silicon Graphics IRIX */
+  ncpu = sysconf(_SC_NPROC_ONLN);
+#elif defined   (HAVE_SYSCTL)	                                     /* BSD systems including OS/X */
+  int    mib[2] = {CTL_HW, HW_NCPU};
+  size_t len    = sizeof(int);
+  int    status;
+
+  status = sysctl(mib, 2, &ncpu, &len, NULL, (size_t) NULL);
+  if (status < 0 || len != sizeof(int)) ncpu = 1;
+#endif
+  
+  if (ncpu < 1) ncpu = 1;
+
+  *ret_ncpu = ncpu;
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 3. Example
+ *****************************************************************/
+
+#ifdef eslTHREADS_EXAMPLE
+#include "easel.h"
+#include "esl_threads.h"
+
+/* gcc --std=gnu99 -g -Wall -pthread -o esl_threads_example -I. -DeslTHREADS_EXAMPLE esl_threads.c easel.c */
+static void 		
+worker_thread(void *data)
+{
+  ESL_THREADS *thr = (ESL_THREADS *) data;
+  char        *s   = NULL;
+  int          w;
+
+  esl_threads_Started(thr, &w);
+  
+  s = (char *) esl_threads_GetData(thr, w);
+  printf("worker thread %d receives: %s\n", w, s);
+
+  esl_threads_Finished(thr, w);
+  return;
+}
+
+int
+main(void)
+{
+  ESL_THREADS  *thr  = NULL;
+  int           ncpu = 8;
+  int           i;
+  char        **work = NULL;
+
+  work = malloc(sizeof(char *) * ncpu);
+  for (i = 0; i < ncpu; i++) 
+    esl_sprintf(&(work[i]), "work packet %d", i);
+
+  thr = esl_threads_Create(&worker_thread);
+
+  for (i = 0; i < ncpu; i++)
+    esl_threads_AddThread(thr, (void *) work[i]);
+
+  esl_threads_WaitForStart (thr);
+  /* The worker threads now run their work. */
+  esl_threads_WaitForFinish(thr);
+  esl_threads_Destroy(thr);
+  for (i = 0; i < ncpu; i++) free(work[i]);
+  free(work);
+  return eslOK;
+}
+#endif /*eslTHREADS_EXAMPLE*/
+
+
+#ifdef eslTHREADS_EXAMPLE2
+#include "easel.h"
+#include "esl_threads.h"
+
+/* gcc --std=gnu99 -g -Wall -pthread -o esl_threads_example2 -I. -DeslTHREADS_EXAMPLE2 esl_threads.c easel.c */
+int 
+main(void)
+{
+  int ncpu;
+
+  esl_threads_CPUCount(&ncpu);
+  printf("Processors: %d\n", ncpu);
+
+  return eslOK;
+}
+#endif /*eslTHREADS_EXAMPLE2*/
+#endif /*HAVE_PTHREAD*/
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_threads.c 829 2012-12-05 14:18:45Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_threads.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_threads.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_threads.h
new file mode 100755
index 0000000..9f52b0b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_threads.h
@@ -0,0 +1,47 @@
+/* Simple master/worker data parallelization using POSIX threads.
+ * 
+ * SVN $Id: esl_threads.h 753 2012-03-09 04:09:05Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_threads.h $
+ */
+#ifndef eslTHREADS_INCLUDED
+#define eslTHREADS_INCLUDED
+
+#include <pthread.h>
+
+typedef struct {
+  int             threadCount;      /* number of active worker threads                           */
+  pthread_t      *threadId;	    /* threadId for each worker thread; [0..threadCount-1]       */
+  void          **data;		    /* data pointer for each worker thread; [0..threadCount-1]   */
+
+  int             startThread;      /* number of worker threads currently blocked at start mutex */
+  pthread_mutex_t startMutex;	    /* the starting gate                                         */
+  pthread_cond_t  startCond;	    /* the signal that workers are synchronized and may start    */
+
+  void           (*func)(void *);   /* each worker thread runs this function; arg is to data[]   */
+} ESL_THREADS;
+
+
+extern ESL_THREADS *esl_threads_Create(void (*func)(void *));
+extern void         esl_threads_Destroy(ESL_THREADS *obj);
+
+extern int esl_threads_AddThread     (ESL_THREADS *obj, void *data);
+extern int esl_threads_GetWorkerCount(ESL_THREADS *obj);
+extern int esl_threads_WaitForStart  (ESL_THREADS *obj);
+extern int esl_threads_WaitForFinish (ESL_THREADS *obj);
+
+extern int   esl_threads_Started (ESL_THREADS *obj, int *ret_workeridx);
+extern void *esl_threads_GetData (ESL_THREADS *obj, int workeridx);
+extern int   esl_threads_Finished(ESL_THREADS *obj, int workeridx);
+
+extern int esl_threads_CPUCount(int *ret_ncpu);
+
+#endif /*eslTHREADS_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_translate.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_translate.c
new file mode 100755
index 0000000..8c503d2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_translate.c
@@ -0,0 +1,580 @@
+/* Take a nucleotide sequence and spit out the 6 translated open reading frames as protein sequences.
+ *
+ * WMA March 29, 2013  
+ *  
+ * Contents:
+ *   1.  esl_trans_6frames - turn a nucleotide sequence into 6 protein sequences, one for each reading frame
+ *   2.  esl_trans_s2p - turn a nucleotide sequence into its corresponding protein sequence
+ *   3.  esl_trans_seq_stop_split - split a protein sequence which contains stop codons
+ *   4.  practice driver
+ */
+   
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+    
+#include "easel.h"
+#include "esl_translate.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+/*****************************************************************
+ * 1. generating the 6 reading frames for a nucleo sequence
+ *****************************************************************/
+
+/* Function: esl_trans_6frames()
+ * Synopsis: Get the 6 translated open reading frames from a nucleotide sequence.
+ *
+ * Args:     ESL_SQ *in     the input dna/rna sequence
+ *           ESL_SQ **out   a pointer to a caller created array with 6 items of type ESL_SQ*
+ *                          where the resulting protein sequences will be placed
+ *
+ * Returns:  <eslOK> if it worked, <eslEMEM> if some allocation or copy failed
+ *
+ */
+
+ int esl_trans_6frame(ESL_SQ *in, ESL_SQ **out)
+ {
+   int x;
+   
+   for(x = 0; x < 3; x++)
+   {
+     if(eslOK != esl_trans_s2p(in, &out[x], x, 0)) return eslFAIL;
+   }
+     
+   for(x = 3; x < 6; x++)
+   {
+     if(eslOK != esl_trans_s2p(in, &out[x], x-3, 1)) return eslFAIL;
+   }
+   
+   return eslOK;
+ }
+
+ 
+ /* Function: esl_trans_orf()
+  * Synopsis: Get the open reading frames from a nucleotide sequence.
+  *
+  * Args:     ESL_SQ *in      the input dna/rna sequence
+  *           ESL_SQ ***out   a pointer to a new array holding a sequence for each open
+  *                           reading frame of sufficient size
+  *           int* retSeq     location where size of returned array will be placed
+  *
+  * Returns:  <eslOK> if it worked, <eslEMEM> if some allocation or copy failed
+  *
+  * Note:   This function is tightly coupled with esl_trans_seq_stop_split()
+  *         Specifically, the format expected for the names is parsed and
+  *         modified to convert from residue index numbers to nucleo
+  *         index from the original .fa file.
+  */
+ 
+ int esl_trans_orf(ESL_SQ *in, ESL_SQ ***out, int *retSeq, int minimumResidues)
+ {
+   int x, y;           //loop counters
+   int status;         //ESL_ALLOC required
+   
+   ESL_SQ *frame;    //hold the current reading frames
+   ESL_SQ **splits[6];   //hold the open reading frame shards when split by stop codons
+   int stops[6];         //hold the number of shards per each reading frame
+   int totalStops = 0;   //hold the total number of shards among all frames to be output
+   int currentWrite = 0; //the next location to place a new reading frame shard into the output
+   
+   char workbench[256];  //used to build new sequence names
+   
+   char *toStart, *fromStart;  //pointer to beginning of residue index in sequence name
+   int toNum, fromNum;         //residue index extracted from sequence name
+   
+   if(minimumResidues <= 0) minimumResidues = 15;  //default minimum shard size
+   
+   if(out == NULL) return eslFAIL;
+
+   for(x = 0; x < 3; x++)
+   {
+     //get one of the three forward reading frames
+     if((status = esl_trans_s2p(in, &frame, x, 0)) != eslOK) return status; 
+     //split the frame into shards between stop codons
+     if((status = esl_trans_seq_stop_split(frame, &(splits[x]), &stops[x])) != eslOK) return status;
+     esl_sq_Destroy(frame);
+     for(y = 0; y < stops[x]; y++)
+     {
+       //extract the to/from out of the back of the sq name
+       //mess hack gross, but we want nucleotide indexes not residue
+       //expect "NAME_XXXtoYYY" where x is the first residue index in the shard and y is the last
+       toStart = splits[x][y]->name; 
+       while(*toStart != '\0') toStart+=1;
+       while(*toStart != 'o') toStart-=1;
+       toStart+=1;
+       toNum = atoi(toStart);
+       fromStart = toStart;
+       while(*fromStart != '_') fromStart-=1;
+       fromStart+=1;
+       toStart[-2]='\0';
+       fromNum = atoi(fromStart);
+       toStart[-2]='t';
+            
+       *fromStart = '\0';
+       strcpy(workbench, splits[x][y]->name);
+       free(splits[x][y]->name); //this memory is no longer needed; new memory will be allocated below
+       //substitute residue index numbers for nucleotide ones
+       esl_sprintf(&(splits[x][y]->name), "%s%dto%d", workbench, x+1+3*(fromNum-1), x+3*(toNum));
+       }
+   }
+   for(x = 0; x < 3; x++)
+   {
+     //same as the last for loop, except reverse compliment the inputs
+     if((status = esl_trans_s2p(in, &frame, x, 1)) != eslOK) return status;
+     if((status = esl_trans_seq_stop_split(frame, &(splits[x+3]), &stops[x+3])) != eslOK) return status;
+     esl_sq_Destroy(frame);
+     for(y = 0; y < stops[x+3]; y++)
+     {
+       //extract the to/from out of the back of the sq name
+       //mess hack gross, but we want nucleotide indexes not residue
+       toStart = splits[x+3][y]->name; 
+       while(*toStart != '\0') toStart+=1;
+       while(*toStart != 'o') toStart-=1;
+       toStart+=1;
+       toNum = atoi(toStart);
+       fromStart = toStart;
+       while(*fromStart != '_') fromStart-=1;
+       fromStart+=1;
+       toStart[-2]='\0';
+       fromNum = atoi(fromStart);
+       toStart[-2]='t';
+
+       *fromStart = '\0';
+       strcpy(workbench, splits[x+3][y]->name);
+       free(splits[x+3][y]->name); //this memory is no longer needed; new memory will be allocated below
+       esl_sprintf(&(splits[x+3][y]->name), "%s%dto%d", workbench, (int)in->n-(x+1+3*(fromNum-1)), (int)in->n-(x+3*(toNum)));
+       }
+   }
+
+   //count the number of shards which are at least the minimum size
+   for(x = 0; x < 6; x++)
+   {
+     for(y = 0; y < stops[x]; y++)
+     {
+       if(splits[x][y]->n >= minimumResidues) totalStops++;
+     }
+   }
+
+   ESL_ALLOC(*out, totalStops * sizeof(ESL_SQ*));
+      
+
+   //copy shards of minimum size into newly allocated output array
+   //or erase the ones that are too small
+   for(x = 0; x < 6; x++)
+   {
+     for(y = 0; y < stops[x]; y++)
+     {
+       if(splits[x][y]->n >= minimumResidues)
+       {
+         (*out)[currentWrite++] = splits[x][y];
+       }
+       else
+       {
+         esl_sq_Destroy(splits[x][y]);
+       }
+     }
+     free(splits[x]);
+   }
+   (*retSeq) = totalStops;
+
+   if(*retSeq) return eslOK;
+
+   ERROR:
+
+   if(frame) esl_sq_Destroy(frame);
+
+   for(x = 0; x < 6; x++)
+   {
+     for(y = 0; y < stops[x]; y++)
+     {
+       if(splits[x][y]) esl_sq_Destroy(splits[x][y]);
+     }
+     free(splits[x]);
+   }
+   
+   *retSeq = 0;
+
+   return eslFAIL;
+ }
+
+/*****************************************************************
+ * 2. generating the reading frames for a nucleo sequence
+ *****************************************************************/
+
+/* Function: esl_trans_s2p()
+ * Synopsis: Turn a nucleotide sequence into a protein sequence.
+ *
+ * Purpose:  Input is a dna/rna sequence.  Read codons and output a new sequence in the protein alphabet.
+ *
+ * Args:     ESL_SQ *in      a dna/rna sequence
+ *           ESL_SQ **out    the location where the new protein sequence will be output
+ *           int frameshift  The number of bases shifted off the front to cause a shift in the reading frame
+ *                           Will fail if you shift further than sequence available
+ *           int rcFlag      True if you want a reverse compliment reading frame, false if you do not
+ *
+ * Returns:  <eslOK>   on success, out is valid
+ *           <eslEMEM> an allocation failed
+ *           <eslFAIL> frameshifted too much
+ *   
+ * Note:     If this function throws a bad return when rc is true, the input sequence
+ *           will be left in an altered state.
+ */
+
+int esl_trans_s2p(ESL_SQ *in, ESL_SQ **out, int frameshift, int rcFlag)
+{
+  // The encoding for this is taken from squid:  A=0, C=1, G=2, U/T=3, 
+  // code[0] corresponds to AAA, code[1] is AAC... code[4] is ACA... 
+  // and so on up to 63 being UUU. 64 is a sentinel. Regular 20 amino codes and '*' for stop
+  // the nucleotide indices match well with the easel alphabet index
+  // but the actual translation still needs to be hard coded
+  char code[] = {'K','N','K','N','T','T','T','T','R','S','R','S',
+                 'I','I','M','I','Q','H','Q','H','P','P','P','P',
+                 'R','R','R','R','L','L','L','L','E','D','E','D',
+                 'A','A','A','A','G','G','G','G','V','V','V','V',
+                 '*','Y','*','Y','L','F','L','F','*','C','W','C',
+                 'L','F','L','F'};
+
+  int status;
+
+  int codon;     //progress in counting current codon
+  char *aaseq;   //hold the protein sequence to be output
+  char *aaptr;   //pointer records progress in writing to output
+  char *readseq; //pointer records progress in reading nucleotide sequence
+  int read_dg;   //index into digital sequence
+  
+  ESL_ALPHABET *abc = esl_alphabet_Create(eslDNA);
+  char errbuf[256]; //validateseq demands this
+  
+  char namestring[256];
+  
+  (*out) = NULL;
+
+  if(frameshift >= in->n) return eslFAIL;
+  if(!abc) goto ERROR;
+  
+  //make sure we have a nucleotide sequence; could use esl_abc_ValidateSeq but that wants too
+  //much boilerplate for the simple bit I need done. doesn't help that i don't care if there are U or T
+  //characters but that would test against two alphabets
+  if(in->seq)
+  {
+    if(eslOK != esl_abc_ValidateSeq(abc, in->seq, in->n, errbuf)) goto ERROR;
+  }
+  else if(in->dsq)
+  {
+    if(in->abc->type != eslRNA && in->abc->type != eslDNA) goto ERROR;
+  }
+  else
+  {
+    goto ERROR;
+  }
+
+  
+  //apply the reverse compliment
+  if(rcFlag) {if(esl_sq_ReverseComplement(in) != eslOK) goto ERROR;}
+  
+  
+  ESL_ALLOC(aaseq, (in->n+1) * sizeof(char));
+  aaptr = aaseq;
+  
+  if(in->seq) //text sequence
+  { 
+    //get an alphabet to do the lookup with.
+    //an ordinary text sequence doesn't have in->abc
+    //if it has one that is not a standard dna/rna alphabet
+    //then this code won't work. I wanted to use an alphabet if available, could save some allocating time that way
+    //if we're calling this repeatedly
+    //but the compiler complains about "pointer qualifiers" so nevermind
+    
+    readseq = in->seq+frameshift;
+      
+    //as long as there are at least 3 nucleotides left, pull and translate another codon
+    for (; *readseq != '\0' && *(readseq+1) != '\0' && *(readseq+2) != '\0'; readseq += 3)
+    {
+      codon = abc->inmap[(int)*(readseq)] * 16 + abc->inmap[(int)*(readseq+1)] * 4 + abc->inmap[(int)*(readseq+2)];
+      if(codon > 63 || codon < 0) break;
+
+      *aaptr = code[codon];
+      aaptr += 1;
+    }
+    *aaptr = '\0';
+  }
+  else if(in->dsq)  //do it digitally
+  { 
+    if(in->dsq == NULL) goto ERROR;
+    
+    read_dg = 1+frameshift; //add one here because digital index 0 is a sentinel
+    for(;in->dsq[read_dg] != 255 && in->dsq[read_dg+1] != 255 && in->dsq[read_dg+2] != 255; read_dg += 3)
+    {
+      codon = in->dsq[read_dg] * 16 + in->dsq[read_dg+1] * 4 + in->dsq[read_dg+2];
+      if(codon > 63 || codon < 0) break;
+      *aaptr = code[codon];
+      aaptr += 1;
+    }
+    *aaptr = '\0';
+  }
+  else
+  {
+    goto ERROR;
+  }
+  
+  //modify name to record any reading frame adjustments
+  sprintf(namestring, "%s_s%d", in->name, frameshift);
+  if(rcFlag) strcat(namestring, "_rc");
+  *out = esl_sq_CreateFrom(namestring, aaseq, in->desc, in->acc, in->ss);
+        
+  if(aaseq != NULL) free(aaseq);
+  
+  //return the input to its original state
+  if(rcFlag) {if(esl_sq_ReverseComplement(in) != eslOK) goto ERROR;}
+  
+  if(abc) esl_alphabet_Destroy(abc);
+  if(*out) return eslOK;
+  
+  ERROR:
+    
+  if(abc) esl_alphabet_Destroy(abc);
+  if(aaseq != NULL) free(aaseq);
+  (*out) = NULL;
+  
+  return eslEMEM;
+}
+
+/*************************************************************************
+ * 3. Divide a protein sequence with stop codons into multiple sequences
+ *************************************************************************/
+
+/* Function: esl_trans_seq_stop_split()
+ * Synopsis: Split a protein sequence with stop codons in it.
+ *
+ * Purpose:  Input is a protein sequence.  Look for stop codon marks and output an array listing all
+ *           fragments separated by a stop codon.
+ *
+ * Args:     ESL_SQ *in      a protein sequence
+ *           ESL_SQ ***out   the location where an array of new protein sequences will be placed.
+ *                           caller is responsible for freeing this array when done with it.
+ *           int *outcount   Address of an integer.  This is where the size of the returned array will be placed.
+ *                          
+ * Returns:  <eslOK>   on success, out is valid
+ *           <eslFAIL> something wrong. don't trust out
+ *   
+ * Note:     This function is tightly coupled with esl_trans_orf().
+ *           If the modification to in->name is changed then the corresponding
+ *           name parse in trans_orf must be modified as well.
+ */
+
+int esl_trans_seq_stop_split(ESL_SQ *in, ESL_SQ ***out, int *outCount)
+{
+  int status;
+  
+  int x, y;          //loop counters
+  int nextSeqOut;    //index of the next open location in the output sequence array
+  int front;         //front of the segment of sequence currently being read
+  
+  char* buff;        //temporary home of output sequence before calling createFrom
+  char name[256];    //workbench for building the name of each output sequence
+  
+  ESL_ALLOC(buff, (in->n+1) * sizeof(char));
+  
+  *outCount = 1;
+  
+  if(in->seq) //text mode
+  {
+    //count how many sequences are present. minimum size is one non-stop residue
+    x = 1;
+    while(in->seq[x] != '\0')
+    {
+      if(in->seq[x] == '*' && in->seq[x-1] != '*') (*outCount)++;
+      x++;
+    }
+    
+    if(in->seq[x-1] == '*') (*outCount)--; //do this test instead of running inside the while loop, in case there are multiple consecutive stop codons
+    ESL_ALLOC(*out, sizeof(ESL_SQ*) * *outCount);
+    
+    x = front = 0;
+    nextSeqOut = 0;
+    
+    //continue until the sequence front steps past the end of the list
+    while(front < in->n)
+    {
+      //x is the location currently being read, current segment is from front to x
+      x++;
+      if(in->seq[x] == '\0' || in->seq[x] == '*') //if we see something that ends a segment
+      {
+        if(x - front > 0) //if there is at least one residue
+        {
+          //build name
+          sprintf(name, "%s_%dto%d", in->name, front+1, x);
+          
+          //build temporary sequence string
+          strncpy(buff, in->seq+front, x-front);
+          buff[x-front] = '\0';
+          
+          //load output array
+          (*out)[nextSeqOut++] = esl_sq_CreateFrom(name, buff, in->desc, in->acc, in->ss);
+        }
+        //step the front to the beginning of the next sequence
+        front = x+1;
+      }
+    }
+  }
+  else if(in->dsq) //digital mode
+  {
+    //start a little different because dsq has a sentinel in position 0
+    x = 2;
+    while(in->dsq[x] != 255) //until the end sentinal, count sequences with at least one residue
+    {
+      if(in->abc->inmap[(int)'*'] == in->dsq[x] && in->abc->inmap[(int)'*'] != in->dsq[x-1]) (*outCount)++;
+      x++;
+    }
+
+    ESL_ALLOC(*out, sizeof(ESL_SQ*) * *outCount);
+    
+    x = front = 1;    
+    nextSeqOut = 0;
+    
+    while(front < in->n+2) //as long as we have residues left
+    {
+      x++;
+      if(in->dsq[x] == 255 || in->abc->inmap[(int)'*'] == in->dsq[x]) //if we see something that finishes a sequence
+      {
+        if(x - front > 0) //have at least one residue in the sequence
+        {
+          //build name
+          sprintf(name, "%s_%dto%d", in->name, front, x-1);
+          
+          //build temporary sequence
+          for(y = 0; y < x-front; y++) buff[y] = in->abc->sym[in->dsq[front+y]];
+          buff[x-front] = '\0';
+          
+          //load output
+          (*out)[nextSeqOut++] = esl_sq_CreateFrom(name, buff, in->desc, in->acc, in->ss);
+        }
+        front = x+1;
+      }
+    }
+  }
+  else
+  {
+    goto ERROR;
+  }
+  
+  free(buff);
+  
+  return eslOK;
+  
+  ERROR:
+
+  if(buff) free(buff);
+
+  return eslFAIL;
+}
+
+/*------------ end, esl_translate --------------------*/
+
+/*****************************************************************
+ * 4. practice driver.
+ *****************************************************************/ 
+#ifdef eslTRANSLATE_TESTDRIVE
+/* gcc -g -Wall -o esl_translate_utest -L. -I. -D eslTRANSLATE_TESTDRIVE esl_translate.c -leasel -lm
+ */
+   
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_translate.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+int main(int argc, char **argv)
+{
+  ESL_SQFILE        *sqfp   = NULL;      
+  ESL_SQ            *sq   = NULL;
+  ESL_SQ            *dsq  = NULL;
+  ESL_SQ            **prot;
+  int               c;
+  ESL_ALPHABET      *abc, *prot_abc;
+  
+  ESL_SQ            *prot6[6];
+    
+  int x;
+  
+  abc = esl_alphabet_Create(eslDNA);
+  prot_abc = esl_alphabet_Create(eslAMINO);
+  
+  if(argc != 2)
+  {
+    printf("You need to pass an argument for a filepath to a dna/rna fasta file\n");
+    exit(0);
+  }
+    
+  if(eslOK != esl_sqfile_Open(argv[1], eslSQFILE_FASTA, NULL, &sqfp)) 
+  {
+    printf("Invalid filepath: %s\n", argv[1]);
+    exit(0);
+  }
+  
+  sq = esl_sq_Create();
+  if(sq == NULL)
+  {
+    printf("could not allocate new sequence\n");
+    exit(0);
+  }
+  
+  if(esl_sqio_Read(sqfp, sq) != eslOK)
+  {
+    printf("Not a valid fasta file %s\n", argv[1]);
+    exit(0);
+  }
+
+  dsq = esl_sq_Create();
+  if(dsq == NULL)
+  {
+    printf("could not allocate digital sequence\n");
+    exit(0);
+  }
+  
+  if(esl_sq_Copy(sq, dsq) != eslOK)
+  {
+    printf("could not copy sequence\n");
+    exit(0);
+  }
+  
+  if(esl_sq_Digitize(abc, dsq) != eslOK)
+  {
+    printf("could not digitize sequence\n");
+    exit(0);
+  }
+
+  esl_sqio_Write(stdout, sq, eslSQFILE_FASTA, 0);
+  
+  if(esl_trans_6frame(sq, prot6) != eslOK)
+  {
+    printf("could not generate six frame translation\n");
+    exit(0);
+  }
+   
+  for(x = 0; x < 6; x++)
+  {
+    esl_sqio_Write(stdout, prot6[x], eslSQFILE_FASTA, 0);
+  }
+    
+  if(esl_trans_orf(dsq, &prot, &c, 10) != eslOK)
+  {
+    printf("could not translate open reading frames\n");
+    exit(0);
+  }
+  
+  for(x = 0; x < c; x++)
+  {
+    esl_sqio_Write(stdout, prot[x], eslSQFILE_FASTA, 0);
+  }
+
+  return 0;
+}
+
+#endif /*eslTRANSLATE_TESTDRIVE*/
+/*----------------- end, practice driver ----------------------------*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_translate.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_translate.h
new file mode 100755
index 0000000..07ce3ca
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_translate.h
@@ -0,0 +1,14 @@
+/* Take a nucleotide sequence and spit out the 6 translated open reading frames as protein sequences.
+*/
+
+#ifndef eslTRANSLATE_INCLUDED
+#define eslTRANSLATE_INCLUDED
+
+#include "esl_sq.h"
+
+extern int esl_trans_orf(ESL_SQ *in, ESL_SQ ***out, int *retSeq, int minimumResidues);
+extern int esl_trans_6frame         (ESL_SQ *in, ESL_SQ **out);
+extern int esl_trans_s2p            (ESL_SQ *in, ESL_SQ **out, int frameshift, int rcFlag);
+extern int esl_trans_seq_stop_split (ESL_SQ *in, ESL_SQ ***out, int *outCount);
+
+#endif
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.c
new file mode 100755
index 0000000..a17f9e9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.c
@@ -0,0 +1,2201 @@
+/* Phylogenetic trees.
+ * 
+ * Contents:
+ *   1. The ESL_TREE object.
+ *   2. Newick format i/o
+ *   3. Tree comparison algorithms.
+ *   4. Clustering algorithms for distance-based tree construction.
+ *   5. Generating simulated trees.
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Examples.
+ *   9. Copyright notice and license.
+ */
+#include "esl_config.h"
+
+#include <math.h>
+#include <string.h>
+#include <ctype.h>
+#include <assert.h>
+
+#include "easel.h"
+#include "esl_tree.h"
+#include "esl_dmatrix.h"
+#include "esl_stack.h"
+#include "esl_vectorops.h"
+#include "esl_random.h"
+
+/*****************************************************************
+ *# 1. The ESL_TREE object.
+ *****************************************************************/
+
+/* Function:  esl_tree_Create()
+ *
+ * Purpose:   Allocate an empty tree structure for <ntaxa> taxa
+ *            and return a pointer to it. <ntaxa> must be $\geq 2$.
+ *
+ * Args:      <ntaxa>   - number of taxa
+ *
+ * Returns:   pointer to the new <ESL_TREE> object; caller frees 
+ *            this with <esl_tree_Destroy()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+ESL_TREE *
+esl_tree_Create(int ntaxa)
+{
+  ESL_TREE *T = NULL;
+  int       i;
+  int       status;
+
+  /* Contract verification  */
+  ESL_DASSERT1((ntaxa >= 2));
+
+  /* 1st allocation round  */
+  ESL_ALLOC(T, sizeof(ESL_TREE));
+  T->parent = NULL;
+  T->left   = NULL;
+  T->right  = NULL;
+  T->ld     = NULL;
+  T->rd     = NULL;
+  
+  /* 2nd allocation round */
+  T->N    = ntaxa;
+  ESL_ALLOC(T->parent, sizeof(int)    * (ntaxa-1));
+  ESL_ALLOC(T->left,   sizeof(int)    * (ntaxa-1));
+  ESL_ALLOC(T->right,  sizeof(int)    * (ntaxa-1));
+  ESL_ALLOC(T->ld,     sizeof(double) * (ntaxa-1));
+  ESL_ALLOC(T->rd,     sizeof(double) * (ntaxa-1));
+  
+  for (i = 0; i < ntaxa-1; i++)
+    {
+      T->parent[i] = 0;
+      T->left[i  ] = 0;
+      T->right[i]  = 0;
+      T->ld[i]   = 0.;
+      T->rd[i]   = 0.;
+    }
+
+  /* Optional info starts NULL
+   */
+  T->taxaparent  = NULL;
+  T->cladesize   = NULL;
+  T->taxonlabel  = NULL;
+  T->nodelabel   = NULL;
+
+  /* Additive trees are assumed by default, as opposed to linkage trees  */
+  T->is_linkage_tree = FALSE;
+
+  /* Tree output options default to PHYLIP style
+   */
+  T->show_unrooted            = FALSE;
+  T->show_node_labels         = TRUE;
+  T->show_root_branchlength   = FALSE;
+  T->show_branchlengths       = TRUE;
+  T->show_quoted_labels       = FALSE;
+  T->show_numeric_taxonlabels = TRUE;
+
+  T->nalloc = ntaxa;
+  return T;
+  
+ ERROR:
+  esl_tree_Destroy(T);
+  return NULL;
+}
+
+/* Function:  esl_tree_CreateGrowable()
+ *
+ * Purpose:   Allocate a growable tree structure for an initial
+ *            allocation of <nalloc> taxa, and return a pointer to it.
+ *            <nalloc> must be $\geq 2$.
+ *
+ * Args:      <nalloc>  - initial allocation size for number of taxa
+ *
+ * Returns:   pointer to a new growable <ESL_TREE> object; caller frees 
+ *            this with <esl_tree_Destroy()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+ESL_TREE *
+esl_tree_CreateGrowable(int nalloc)
+{
+  ESL_TREE *T = esl_tree_Create(nalloc);
+  if (T == NULL) return NULL;
+
+  T->N = 0;
+  return T;
+}
+
+
+/* Function:  esl_tree_CreateFromString()
+ *
+ * Purpose:   A convenience for making small test cases in the test
+ *            suites: given the contents of a Newick file as a 
+ *            single string <s>, convert it to an <ESL_TREE>.
+ *
+ * Returns:   a pointer to the new <ESL_TREE> on success.
+ *
+ * Throws:    <NULL> if it fails to obtain, open, or read the
+ *            temporary file that it puts the string <s> in.
+ */
+ESL_TREE *
+esl_tree_CreateFromString(char *s)
+{
+  char      tmpfile[16] = "esltmpXXXXXX";
+  FILE     *fp          = NULL;
+  ESL_TREE *T           = NULL;
+
+  if (esl_tmpfile(tmpfile, &fp)         != eslOK) goto ERROR;
+  fputs(s, fp);
+  rewind(fp);
+  if (esl_tree_ReadNewick(fp, NULL, &T) != eslOK) goto ERROR;
+  fclose(fp);
+  return T;
+
+ ERROR:
+  if (fp  != NULL) fclose(fp);
+  if (T   != NULL) esl_tree_Destroy(T);
+  return NULL;
+}
+
+
+
+/* Function:  esl_tree_Grow()
+ *
+ * Purpose:   Given a tree <T>, make sure it can hold one more taxon;
+ *            reallocate internally if necessary by doubling the
+ *            number of taxa it is currently allocated to hold.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. In this case, 
+ *            the data in the tree are unaffected.
+ */
+int
+esl_tree_Grow(ESL_TREE *T)
+{
+  void *tmp;
+  int   nnew;
+  int   status;
+  int   i;
+
+  if (T->N < T->nalloc) return eslOK; /* do we have room for next taxon? */
+
+  nnew = T->nalloc * 2;
+
+  /* There are N-1 interior nodes, so arrays of info for
+   * interior nodes are allocated for (nnew-1), whereas
+   * arrays of info for the N taxa are allocated (nnew).
+   */
+  ESL_RALLOC(T->parent, tmp, sizeof(int)    * (nnew-1));
+  ESL_RALLOC(T->left,   tmp, sizeof(int)    * (nnew-1));
+  ESL_RALLOC(T->right,  tmp, sizeof(int)    * (nnew-1));
+  ESL_RALLOC(T->ld,     tmp, sizeof(double) * (nnew-1));
+  ESL_RALLOC(T->rd,     tmp, sizeof(double) * (nnew-1));
+
+  /* 0..N-2 were already initialized or used.
+   * Initialize newly alloced space N-1..nnew-2.
+   */
+  for (i = T->nalloc-1; i < nnew-1; i++)
+    {
+      T->parent[i] = 0;
+      T->left[i  ] = 0;
+      T->right[i]  = 0;
+      T->ld[i]   = 0.;
+      T->rd[i]   = 0.;
+    }
+
+  if (T->taxaparent != NULL)  
+    {
+      ESL_RALLOC(T->taxaparent, tmp, sizeof(int)    * nnew);
+      for (i = T->nalloc; i < nnew; i++) T->taxaparent[i] = 0;
+    }
+
+  if (T->cladesize != NULL)  
+    {
+      ESL_RALLOC(T->cladesize, tmp, sizeof(int)    * nnew);
+      for (i = T->nalloc; i < nnew; i++) T->cladesize[i] = 0;
+    }
+
+  if (T->taxonlabel    != NULL)  
+    {
+      ESL_RALLOC(T->taxonlabel,    tmp, sizeof(char *) * nnew);
+      for (i = T->nalloc; i < nnew; i++) T->taxonlabel[i] = NULL;
+    }
+
+  if (T->nodelabel     != NULL)  
+    {
+      ESL_RALLOC(T->nodelabel,     tmp, sizeof(char *) * (nnew-1));
+      for (i = T->nalloc-1; i < nnew-1; i++) T->nodelabel[i] = NULL;
+    }
+
+  T->nalloc = nnew;
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* Function:  esl_tree_SetTaxaParents()
+ *
+ * Purpose:   Constructs the <T->taxaparent[]> array in the tree
+ *            structure <T>, by an O(N) traversal of the tree.
+ *            Upon return, <T->taxaparent[i]> is the index
+ *            of the internal node that taxon <i> is a child of.
+ *
+ * Args:      T   - the tree structure to map
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on internal allocation error. In this case, the tree is 
+ *            returned unchanged.
+ *
+ * Xref:      STL11/63
+ */
+int
+esl_tree_SetTaxaParents(ESL_TREE *T)
+{
+  int i;
+  int status;
+
+  if (T->taxaparent != NULL) return eslOK; /* map already exists. */
+  ESL_ALLOC(T->taxaparent, sizeof(int) * T->N);
+
+  for (i = 0; i < T->N-1; i++)	/* traversal order doesn't matter */
+    {
+      if (T->left[i]  <= 0) T->taxaparent[-(T->left[i])]  = i;
+      if (T->right[i] <= 0) T->taxaparent[-(T->right[i])] = i;
+    }
+  return eslOK;
+
+ ERROR:
+  if (T->taxaparent != NULL) { free(T->taxaparent); T->taxaparent = NULL; }
+  return status;
+}
+  
+
+/* Function:  esl_tree_SetCladesizes()
+ *
+ * Purpose:   Constructs the <T->cladesize[]> array in tree structure
+ *            <T>. Upon successful return, <T->cladesize[i]> is the
+ *            number of taxa contained by the clade rooted at node <i>
+ *            in the tree. For example, <T->cladesize[0]> is $N$ by
+ *            definition, because 0 is the root of the tree.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error; in this case, the
+ *            original <T> is unmodified.
+ */
+int 
+esl_tree_SetCladesizes(ESL_TREE *T)
+{
+  int i;
+  int status;
+
+  if (T->cladesize != NULL) return eslOK; /* already set. */
+  ESL_ALLOC(T->cladesize, sizeof(int) * (T->N-1));
+  esl_vec_ISet(T->cladesize, T->N-1, 0);
+
+  for (i = T->N-2; i >= 0; i--)	
+    {                        /* taxon:   ...else...   internal node:  */          
+      if (T->left[i]  <= 0) T->cladesize[i]++; else T->cladesize[i] += T->cladesize[T->left[i]];
+      if (T->right[i] <= 0) T->cladesize[i]++; else T->cladesize[i] += T->cladesize[T->right[i]];
+    }
+  return eslOK;
+
+ ERROR:
+  if (T->cladesize != NULL) { free(T->cladesize); T->cladesize = NULL; }
+  return status;
+}
+
+
+/* Function:  esl_tree_SetTaxonlabels()
+ *
+ * Purpose:   Given an array of taxon names <names[0..N-1]> with the
+ *            same order and number as the taxa in tree <T>, make a
+ *            copy of those names in <T>. For example, <names> might
+ *            be the sequence names in a multiple alignment,
+ *            <msa->sqname>.
+ *            
+ *            If the tree already had taxon names assigned to it, they
+ *            are replaced.
+ *            
+ *            As a special case, if the <names> argument is passed as
+ *            <NULL>, then the taxon labels are set to a string
+ *            corresponding to their internal index; that is, taxon 0
+ *            is labeled "0". 
+ *
+ * Returns:   <eslOK> on success, and internal state of <T>
+ *            (specifically, <T->taxonlabel[]>) now contains a copy
+ *            of the taxa names.
+ *
+ * Throws:    <eslEMEM> on allocation failure. <T->taxonlabel[]> will be
+ *            <NULL> (even if it was already set).
+ */
+int
+esl_tree_SetTaxonlabels(ESL_TREE *T, char **names)
+{
+  int i;
+  int status;
+  
+  if (T->taxonlabel != NULL) esl_Free2D((void **) T->taxonlabel, T->N);
+  ESL_ALLOC(T->taxonlabel, sizeof(char **) * T->nalloc);
+  for (i = 0; i < T->nalloc; i++) T->taxonlabel[i] = NULL;
+
+  if (names != NULL) 
+    {
+      for (i = 0; i < T->N; i++)
+	if ((status = esl_strdup(names[i], -1, &(T->taxonlabel[i]))) != eslOK) goto ERROR;
+    }
+  else
+    {
+      for (i = 0; i < T->N; i++)
+	{
+	  ESL_ALLOC(T->taxonlabel[i], sizeof(char) * 32); /* enough width for any conceivable int */
+	  snprintf(T->taxonlabel[i], 32, "%d", i);
+	}
+    }
+  return eslOK;
+
+ ERROR:
+  if (T->taxonlabel != NULL) esl_Free2D((void **) T->taxonlabel, T->nalloc);
+  return status;
+}
+
+/* Function:  esl_tree_RenumberNodes()
+ * Synopsis:  Assure nodes are numbered in preorder.
+ *
+ * Purpose:   Given a tree <T> whose internal nodes might be numbered in
+ *            any order, with the sole requirement that node 0 is the
+ *            root; renumber the internal nodes (if necessary) to be in Easel's
+ *            convention of preorder traversal. No other aspect of <T> is
+ *            altered (including its allocation size).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      STL11/77
+ */
+int
+esl_tree_RenumberNodes(ESL_TREE *T)
+{
+  ESL_TREE  *T2  = NULL;
+  ESL_STACK *vs  = NULL;
+  int       *map = NULL;
+  int        v,new;
+  int        status;
+  int        needs_rearranging = FALSE;
+
+  /* Pass 1. Preorder traverse of T by its children links;
+   *         construct map[old] -> new.
+   */
+  ESL_ALLOC(map, sizeof(int) * (T->N-1));
+  if (( vs = esl_stack_ICreate()) == NULL) { status = eslEMEM; goto ERROR; };
+  if (esl_stack_IPush(vs, 0) != eslOK)     { status = eslEMEM; goto ERROR; };
+  new = 0;
+  while (esl_stack_IPop(vs, &v) == eslOK)
+    {
+      if (v != new) needs_rearranging = TRUE;
+      map[v] = new++;
+      if (T->right[v] > 0 && esl_stack_IPush(vs, T->right[v]) != eslOK) { status = eslEMEM; goto ERROR; };
+      if (T->left[v]  > 0 && esl_stack_IPush(vs, T->left[v])  != eslOK) { status = eslEMEM; goto ERROR; };
+    }
+  if (! needs_rearranging) { status = eslOK; goto ERROR; } /* not an error; just cleaning up & returning eslOK. */
+
+  /* Pass 2. Construct the guts of correctly numbered new T2.
+   *         (traversal order doesn't matter here)
+   */
+  if (( T2 = esl_tree_Create(T->nalloc)) == NULL) { status = eslEMEM; goto ERROR; };
+  if (T->nodelabel   != NULL) {
+    ESL_ALLOC(T2->nodelabel,  sizeof(char *) * (T2->nalloc-1));
+    for (v = 0; v < T2->nalloc-1; v++) T2->nodelabel[v] = NULL;
+  }
+  if (T->taxaparent != NULL)  {
+    ESL_ALLOC(T2->taxaparent, sizeof(int)    * (T2->nalloc));
+    for (v = 0; v < T2->nalloc; v++)   T2->taxaparent[v] = 0;
+  }
+  
+  for (v = 0; v < T->N-1; v++)
+    {
+      T2->parent[map[v]] = map[T->parent[v]];
+      if (T->left[v]  > 0) T2->left[map[v]]   = map[T->left[v]];  /* internal nodes renumbered... */
+      else                 T2->left[map[v]]   = T->left[v];       /* ...taxon indices unchanged */
+      if (T->right[v] > 0) T2->right[map[v]]  = map[T->right[v]];
+      else                 T2->right[map[v]]  = T->right[v];
+      T2->ld[map[v]]     = T->ld[v];
+      T2->rd[map[v]]     = T->rd[v];
+  
+      if (T->taxaparent != NULL) {
+	if (T->left[v]  <= 0) T2->taxaparent[-(T->left[v])]  = map[v];
+	if (T->right[v] <= 0) T2->taxaparent[-(T->right[v])] = map[v];
+      }
+
+      if (T->nodelabel != NULL) 
+	esl_strdup(T->nodelabel[v], -1, &(T2->nodelabel[map[v]]));
+    }
+
+ /* Finally, swap the new guts of T2 with the old guts of T;
+   * destroy T2 and return. T is now renumbered.
+   */
+  ESL_SWAP(T->parent,     T2->parent,      int *);
+  ESL_SWAP(T->left,       T2->left,        int *);
+  ESL_SWAP(T->right,      T2->right,       int *);
+  ESL_SWAP(T->ld,         T2->ld,          double *);
+  ESL_SWAP(T->rd,         T2->rd,          double *);
+  ESL_SWAP(T->taxaparent, T2->taxaparent,  int *);
+  ESL_SWAP(T->nodelabel,  T2->nodelabel,   char **);
+
+  free(map);
+  esl_stack_Destroy(vs);
+  esl_tree_Destroy(T2);
+  return eslOK;
+
+ ERROR:
+  if (map != NULL) free(map);
+  if (vs  != NULL) esl_stack_Destroy(vs);
+  if (T2  != NULL) esl_tree_Destroy(T2);
+  return status;
+
+}
+
+/* Function:  esl_tree_VerifyUltrametric()
+ *
+ * Purpose:   Verify that tree <T> is ultrametric. 
+ *
+ * Returns:   <eslOK> if so; <eslFAIL> if not.
+ *
+ * Throws:    <eslEMEM> on an allocation failure.
+ */
+int
+esl_tree_VerifyUltrametric(ESL_TREE *T)
+{
+  double *d = NULL;		/* Distance from root for each OTU */
+  int status;
+  int i, child, parent;
+  
+  /* First, calculate distance from root to each taxon.
+   * (This chunk of code might be useful to put on its own someday.)
+   */
+  ESL_ALLOC(d, sizeof(double) * T->N);
+  if ((status = esl_tree_SetTaxaParents(T)) != eslOK) goto ERROR;
+  for (i = 0; i < T->N; i++)
+    {
+      d[i]   = 0.0;
+      child  = i;
+      parent = T->taxaparent[i];
+      if       (T->left[parent]  == -i) d[i] += T->ld[parent];
+      else if  (T->right[parent] == -i) d[i] += T->rd[parent];
+      else     ESL_XEXCEPTION(eslEINCONCEIVABLE, "oops");
+
+      while (parent != 0)	/* upwards to the root */
+	{
+	  child  = parent;
+	  parent = T->parent[child];
+	  if      (T->left[parent]  == child) d[i] += T->ld[parent];
+	  else if (T->right[parent] == child) d[i] += T->rd[parent];
+	  else    ESL_XEXCEPTION(eslEINCONCEIVABLE, "oops");
+	}
+    }
+
+  /* In an ultrametric tree, all those distances must be equal.
+   */
+  for (i = 1; i < T->N; i++)
+    if ((status = esl_DCompare(d[0], d[i], 0.0001)) != eslOK) break;
+
+  free(d);
+  return status;
+  
+ ERROR:
+  if (d != NULL) free(d);
+  return status;
+}
+
+
+/* Function:  esl_tree_Validate()
+ *
+ * Purpose:   Validates the integrity of the data structure in <T>.
+ *            Returns <eslOK> if the internal data in <T> are
+ *            consistent and valid. Returns <eslFAIL> if not,
+ *            and if a non-<NULL> message buffer <errbuf> has been
+ *            provided by the caller, an informative message is
+ *            left in <errbuf> describing the reason for the 
+ *            failure.
+ *            
+ * Args:      T      - tree structure to validate
+ *            errbuf - NULL, or a buffer of at least p7_ERRBUFSIZE
+ *                     chars to contain an error message upon
+ *                     any validation failure.
+ */
+int
+esl_tree_Validate(ESL_TREE *T, char *errbuf)
+{
+  int N;
+  int i, c;
+  int shouldbe;
+  int status;
+  
+  if (errbuf != NULL) *errbuf = 0;
+
+  N = T->N; /* just to save writing T->N so many times below  */
+  if (N < 2)             ESL_XFAIL(eslFAIL, errbuf, "number of taxa is less than 2");
+  if (T->parent[0] != 0) ESL_XFAIL(eslFAIL, errbuf, "parent of root 0 should be set to 0");
+  if (T->nalloc < N)     ESL_XFAIL(eslFAIL, errbuf, "number of taxa N is less than allocation");
+
+  /* Verify preorder tree numbering.
+   */
+  for (i = 0; i < N-1; i++)
+    {
+      if (T->left[i]  > 0 && T->left[i]  < i)
+	ESL_XFAIL(eslFAIL, errbuf, "l child of node %d not in preorder", i);
+      if (T->right[i] > 0 && T->right[i] < i)
+	ESL_XFAIL(eslFAIL, errbuf, "r child of node %d not in preorder", i);
+    }
+
+  /* Range checks on values. */
+  for (i = 0; i < N-1; i++)
+    {
+      if (T->parent[i] < 0      || T->parent[i]     > N-2)
+	ESL_XFAIL(eslFAIL, errbuf, "parent idx of node %d invalid", i);
+      if (T->left[i]   < -(N-1) || T->left[i]       > N-2)  
+	ESL_XFAIL(eslFAIL, errbuf, "left child idx of node %d invalid", i);
+      if (T->right[i]  < -(N-1) || T->right[i]      > N-2)  
+	ESL_XFAIL(eslFAIL, errbuf, "right child idx of node %d invalid", i);
+      if (T->ld[i] < 0.)                                   
+	ESL_XFAIL(eslFAIL, errbuf, "negative l branch length at node %d", i);
+      if (T->rd[i] < 0.)       
+	ESL_XFAIL(eslFAIL, errbuf, "negative r branch length at node %d", i);
+      if (T->cladesize  != NULL && (T->cladesize[i] < 0  || T->cladesize[i]  > N))
+	ESL_XFAIL(eslFAIL, errbuf, "invalid cladesize at node %d", i);
+    }
+  for (c = 0; c < N; c++)
+    if (T->taxaparent != NULL && (T->taxaparent[c] < 0 || T->taxaparent[c] > N-2))
+      ESL_XFAIL(eslFAIL, errbuf, "invalid taxaparent at node %d", c);
+
+  /* more sophisticated integrity checks on parent-child relations in
+     nodes ...*/
+  for (i = 1; i < T->N-1; i++)
+    if (T->left[T->parent[i]] != i && T->right[T->parent[i]] != i)
+      ESL_XFAIL(eslFAIL, errbuf, "parent/child link discrepancy at internal node %d\n", i);
+
+  /* ...and between terminal nodes and taxa.
+   */
+  if (T->taxaparent != NULL)
+    for (c = 0; c < T->N; c++)
+      if (T->left[T->taxaparent[c]] != -c && T->right[T->taxaparent[c]] != -c) 
+	ESL_XFAIL(eslFAIL, errbuf, "parent/child link discrepancy at taxon %d\n", c);
+
+  /* check on cladesizes */
+  if (T->cladesize != NULL)
+    for (i = 0; i < T->N-1; i++)
+      {
+	shouldbe = 0;
+	if (T->left[i]  > 0) shouldbe += T->cladesize[T->left[i]];  else shouldbe++;
+	if (T->right[i] > 0) shouldbe += T->cladesize[T->right[i]]; else shouldbe++;
+	if (shouldbe != T->cladesize[i]) 
+	  ESL_XFAIL(eslFAIL, errbuf, "incorrect cladesize at node %d", i);
+      }
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+
+/* Function:  esl_tree_Destroy()
+ *
+ * Purpose:   Frees an <ESL_TREE> object.
+ */
+void
+esl_tree_Destroy(ESL_TREE *T)
+{
+  if (T == NULL) return;
+
+  if (T->parent     != NULL) free(T->parent);
+  if (T->left       != NULL) free(T->left);
+  if (T->right      != NULL) free(T->right);
+  if (T->ld         != NULL) free(T->ld);
+  if (T->rd         != NULL) free(T->rd);
+  if (T->taxaparent != NULL) free(T->taxaparent);
+  if (T->cladesize  != NULL) free(T->cladesize);
+  if (T->taxonlabel != NULL) esl_Free2D((void **) T->taxonlabel, T->nalloc);
+  if (T->nodelabel  != NULL) esl_Free2D((void **) T->nodelabel,  T->nalloc-1);
+  free(T);
+  return;
+}
+
+
+
+/*----------------- end, ESL_TREE object -----------------------*/
+
+
+/*****************************************************************
+ *# 2. Newick format i/o
+ *****************************************************************/
+
+/* newick_validate_unquoted():
+ *   Returns <eslOK> if we can represent <label> as an unquoted label
+ *   in Newick format. (Spaces are ok, but will be converted to
+ *   _ on output.)
+ */
+static int 
+newick_validate_unquoted(char *label)
+{
+  char *sptr;
+
+  for (sptr = label; *sptr != '\0'; sptr++)
+    {
+      if (! isprint(*sptr))                  return eslFAIL;
+      if (strchr("()[]':;,", *sptr) != NULL) return eslFAIL;
+    }
+  return eslOK;
+}
+
+/* newick_validate_quoted():
+ *   Returns <eslOK> if we can represent <label> as a 
+ *   quoted label in Newick format. (Single quotes will
+ *   be converted to '' on output.)
+ */
+static int
+newick_validate_quoted(char *label)
+{
+  char *sptr;
+  for (sptr = label; *sptr != '\0'; sptr++)
+    {
+      if (! isprint(*sptr))                  return eslFAIL;
+    }
+  return eslOK;
+} 
+
+/* newick_write_unquoted():
+ *   Prints <label> to <fp> as an unquoted Newick label.
+ */
+static int
+newick_write_unquoted(FILE *fp, char *label)
+{
+  char *sptr;
+
+  for (sptr = label; *sptr != '\0'; sptr++)
+    {
+      if (*sptr == ' ') { if (fputc('_',   fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed"); }
+      else              { if (fputc(*sptr, fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed"); }
+    }
+  return eslOK;
+}
+
+/* newick_write_quoted():
+ *   Prints <label> to <fp> as a quoted Newick label.
+ */
+static int
+newick_write_quoted(FILE *fp, char *label)
+{
+  char *sptr;
+
+  if (fputc('\'', fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+  for (sptr = label; *sptr != '\0'; sptr++)
+    {
+      if (*sptr == '\'') { if (fprintf(fp, "''") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed"); }
+      else               { if (fputc(*sptr, fp)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed"); }
+    }
+  if (fputc('\'', fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+  return eslOK;
+}
+
+/* newick_write_taxonlabel():
+ *    Print the label for taxon <v> to stream <fp>.
+ *    Tries to print label as an unquoted label, then
+ *    as a quoted label, (then fails).
+ *    If label isn't available, does nothing.
+ *    If label contains invalid characters, throws <eslECORRUPT>.
+ */
+static int
+newick_write_taxonlabel(FILE *fp, ESL_TREE *T, int v)
+{
+  int status;
+
+  if (T->taxonlabel == NULL || T->taxonlabel[v] == NULL)
+    {
+      if (T->show_numeric_taxonlabels && fprintf(fp, "%d", v) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+      return eslOK;
+    }
+
+  if (! T->show_quoted_labels && newick_validate_unquoted(T->taxonlabel[v]) == eslOK)
+    status = newick_write_unquoted(fp, T->taxonlabel[v]);
+  else if (newick_validate_quoted(T->taxonlabel[v]) == eslOK)
+    status = newick_write_quoted(fp, T->taxonlabel[v]);
+  else
+    ESL_EXCEPTION(eslECORRUPT, "bad taxon label");
+
+  return status;
+}
+
+/* newick_write_nodelabel():
+ *    Print the label for internal node <v> to stream <fp>.
+ *    Tries to print label as an unquoted label, then
+ *    as a quoted label. 
+ *    If label isn't available, does nothing.
+ *    If tree's options say not to print node labels, does nothing.
+ *    If label contains invalid characters, throws <eslECORRUPT>.
+ */
+static int
+newick_write_nodelabel(FILE *fp, ESL_TREE *T, int v)
+{
+  int status;
+
+  if (T->nodelabel    == NULL)      return eslOK;
+  if (T->nodelabel[v] == NULL)      return eslOK;
+  if (T->show_node_labels != TRUE)  return eslOK;
+  
+  if (! T->show_quoted_labels && newick_validate_unquoted(T->nodelabel[v]) == eslOK)
+    status = newick_write_unquoted(fp, T->nodelabel[v]);
+  else if (newick_validate_quoted(T->nodelabel[v]) == eslOK)
+    status = newick_write_quoted(fp, T->nodelabel[v]);
+  else
+    ESL_EXCEPTION(eslECORRUPT, "bad node label\n");
+
+  return status;
+}
+
+/* newick_write_branchlength()
+ *    Writes the branch length *to* <v>.
+ *    If <v> is negative, it's a leaf; if <v> is positive, it's an internal node.
+ *    You can't pass the root node 0 to this. 0 always means taxon 0.
+ *    There is no branch to the root node.
+ */
+static int
+newick_write_branchlength(FILE *fp, ESL_TREE *T, int v)
+{
+  double branchlength;
+
+  if (! T->show_branchlengths) return eslOK;
+  if (T->taxaparent == NULL)   ESL_EXCEPTION(eslEINVAL, "T must have taxaparent");
+  
+  if (v <= 0)			/* leaf */
+    {
+      if      (T->left [T->taxaparent[-v]] == v) branchlength = T->ld[T->taxaparent[-v]];
+      else if (T->right[T->taxaparent[-v]] == v) branchlength = T->rd[T->taxaparent[-v]]; 
+      else    ESL_EXCEPTION(eslECORRUPT, "Can't find branch length");
+    }
+  else				/* internal node */
+    {
+      if      (T->left [T->parent[v]] == v) branchlength = T->ld[T->parent[v]];
+      else if (T->right[T->parent[v]] == v) branchlength = T->rd[T->parent[v]]; 
+      else    ESL_EXCEPTION(eslECORRUPT, "Can't find branch length");
+    }
+
+  if (fprintf(fp, ":%f", branchlength) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+  return eslOK;
+}
+
+/* Function:  esl_tree_WriteNewick()
+ *
+ * Purpose:   Writes tree <T> to stream <fp> in Newick format.
+ *  
+ *            Certain options are set in <T> to control output style, 
+ *            as follows.
+ *
+ *            If <T->show_unrooted> is <TRUE>, <T> is printed as an
+ *            unrooted tree starting with a trifurcation, a la PHYLIP
+ *            format (default=<FALSE>).
+ *
+ *            If <T->show_node_labels> is <TRUE>, then labels are
+ *            shown for internal nodes, if any are available
+ *            (default=<TRUE>).
+ *            
+ *            If <T->show_branchlengths> is <TRUE>, then branch
+ *            lengths are shown, as opposed to just printing a labeled
+ *            topology (default=<TRUE>).
+ *            
+ *            If <T->show_root_branchlength> is also <TRUE>, then a
+ *            0.0 branchlength is shown to the root node, a la Hein's
+ *            TreeAlign Newick format (default=<FALSE>).
+ *            
+ *            If <T->show_quoted_labels> is <TRUE>, then all labels
+ *            are shown in Newick's quoted format, as opposed to only
+ *            using quoted labels where necessary (default=<FALSE>).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEWRITE> on any system write error.
+ *            <eslEINCONCEIVABLE> on internal error.
+ *
+ * Xref:      SRE:STL11/74
+ */
+int
+esl_tree_WriteNewick(FILE *fp, ESL_TREE *T)
+{
+  ESL_STACK *vs = NULL;
+  ESL_STACK *cs = NULL;
+  int  v;
+  char c;
+  int  status;
+
+  if ((vs = esl_stack_ICreate()) == NULL) { status = eslEMEM; goto ERROR; }
+  if ((cs = esl_stack_CCreate()) == NULL) { status = eslEMEM; goto ERROR; }
+  
+  if ((status = esl_tree_SetTaxaParents(T)) != eslOK) goto ERROR;
+  
+  /* Initialization.
+   * Push a trifurcation (swallowing the right internal node) if unrooted;
+   * else push the first bifurcation.
+   * 
+   * When we push a trifurcation, the branch lengths will come out fine
+   * on output, if the tree followed the correct convention of having
+   * a T->rd[0] = 0.0.
+   */
+  if (fputc('(', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+  if (T->show_unrooted && T->right[0] > 0)
+    {
+      v = T->right[0];
+      if ((status = esl_stack_CPush(cs, 'x'))         != eslOK) goto ERROR;
+      if ((status = esl_stack_IPush(vs, T->right[v])) != eslOK) goto ERROR;
+      if ((status = esl_stack_CPush(cs, ','))         != eslOK) goto ERROR;
+      if ((status = esl_stack_CPush(cs, 'x'))         != eslOK) goto ERROR;
+      if ((status = esl_stack_IPush(vs, T->left[v]))  != eslOK) goto ERROR;
+    }
+  else 
+    {
+      if ((status = esl_stack_CPush(cs, 'x'))         != eslOK) goto ERROR;
+      if ((status = esl_stack_IPush(vs, T->right[0])) != eslOK) goto ERROR;
+    }
+  if ((status = esl_stack_CPush(cs, ','))             != eslOK) goto ERROR;
+  if ((status = esl_stack_CPush(cs, 'x'))             != eslOK) goto ERROR;
+  if ((status = esl_stack_IPush(vs, T->left[0]))      != eslOK) goto ERROR;
+
+
+  /* Main iteration. Pop off stacks 'til they're empty.
+   */
+  while ((status = esl_stack_CPop(cs, &c)) == eslOK)
+    {
+      if (c == ',') {  /* comma doesn't have a v stacked with it */
+	if (fputc(',', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+	continue; 
+      }
+
+      if ((status = esl_stack_IPop(vs, &v)) != eslOK) goto ERROR;
+
+      switch (c) {
+      case 'x':			/* a subtree, which could be a node or a taxon: */
+	if (v > 0)		/* internal node 1..N-2*/
+	  {
+	    if (fputc('(', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+	    if ((status = esl_stack_CPush(cs, ')'))         != eslOK) goto ERROR;
+	    if ((status = esl_stack_IPush(vs, v))           != eslOK) goto ERROR;
+	    if ((status = esl_stack_CPush(cs, 'x'))         != eslOK) goto ERROR;
+	    if ((status = esl_stack_IPush(vs, T->right[v])) != eslOK) goto ERROR;
+	    if ((status = esl_stack_CPush(cs, ','))         != eslOK) goto ERROR;
+	    if ((status = esl_stack_CPush(cs, 'x'))         != eslOK) goto ERROR;
+	    if ((status = esl_stack_IPush(vs, T->left[v]))  != eslOK) goto ERROR;
+	  }
+	else			/* taxon -(N-1)..0 */
+	  { 	    /* -v below to convert taxon code to 0..N-1 */
+	    if ((status = newick_write_taxonlabel  (fp, T, -v)) != eslOK) goto ERROR;
+	    if ((status = newick_write_branchlength(fp, T,  v)) != eslOK) goto ERROR;
+	  }
+	break;
+
+      case ')':			/* closing an internal node. v > 0 is a node code. */
+	if (fputc(')', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+	if ((status = newick_write_nodelabel   (fp, T, v)) != eslOK) goto ERROR;
+	if ((status = newick_write_branchlength(fp, T, v)) != eslOK) goto ERROR;
+	break;
+
+      default:
+	ESL_XEXCEPTION(eslEINCONCEIVABLE, "bad state code");
+	break;
+      }
+    }
+  
+  /* Termination
+   */
+  if (fputc(')', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+  if ((status = newick_write_nodelabel(fp, T, 0)) != eslOK) goto ERROR;
+  if (T->show_branchlengths && T->show_root_branchlength)
+    { if (fprintf(fp, ":0.0") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed"); }
+  if (fputc(';', fp)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+  if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "newick tree write failed");
+
+  esl_stack_Destroy(vs);
+  esl_stack_Destroy(cs);
+  return eslOK;
+
+ ERROR:
+  if (vs != NULL) esl_stack_Destroy(vs);
+  if (cs != NULL) esl_stack_Destroy(cs);
+  return status;
+
+}
+
+
+/* newick_advance_buffer()
+ * 
+ * Advance the read buffer by one character; reload it
+ * if we reach the end. <eslOK> on success, and <eslEOF>
+ * if the read fails.
+ */
+static int
+newick_advance_buffer(FILE *fp, char *buf, int *pos, int *nc)
+{
+  (*pos)++;
+  if (*pos == *nc)
+    {
+      *nc = fread(buf, sizeof(char), 4096, fp);
+      if (*nc == 0) return eslEOF;
+      *pos = 0;
+    }
+  return eslOK;
+}
+
+/* newick_skip_whitespace()
+ * 
+ * Given the 4k input buffer <buf>, which currently contains
+ * <*nc> total characters and is positioned at position <*pos>,
+ * move <*pos> to be at the first nonwhitespace character,
+ * skipping any Newick comments ([...]) encountered. Read
+ * new data from the stream <fp> into <buf> as needed.
+ * 
+ * Return <eslOK> on success. <*pos> is reset to point at a
+ * non-whitespace input character. <*nc> may be reset and the contents
+ * of <buf> altered if a new block was read from <fp> into <buf>.
+ * 
+ * Returns <eslEOF> if end-of-file is reached in <fp> before a data
+ * character is found, or if a read error occurs.
+ */
+static int
+newick_skip_whitespace(FILE *fp, char *buf, int *pos, int *nc)
+{
+  int commentlevel = 0;
+
+  while (commentlevel > 0 || isspace(buf[*pos]) || buf[*pos] == '[')
+    {
+      if (buf[*pos] == '[') commentlevel++;
+      if (buf[*pos] == ']') commentlevel--;
+      if (newick_advance_buffer(fp, buf, pos, nc) == eslEOF) return eslEOF;
+    }
+  return eslOK;
+}  
+
+
+/* newick_parse_quoted_label()
+ * 
+ * On entry, buf[pos] == '\'': the opening single quote.
+ * On exit,  buf[pos] is positioned at the next data character following the closing
+ *           single quote; possibly the ':' for a branch length;
+ *           and <ret_label> points to a newly allocated, NUL-terminated string
+ *          containing the label that was read (possibly the empty string).
+ * Returns eslOK on success.
+ *
+ * Returns eslEFORMAT on parse error, eslEOF if it runs out of data.
+ */
+static int
+newick_parse_quoted_label(FILE *fp, char *buf, int *pos, int *nc, char **ret_label)
+{
+  char *label  = NULL;
+  void *tmp;
+  int   n      = 0;
+  int   nalloc = 0;
+  int   status;
+  
+  nalloc = 32;  
+  ESL_ALLOC(label, sizeof(char) * nalloc);
+
+  /* advance past the opening ' */
+  if (buf[*pos] != '\'') { status = eslEFORMAT; goto ERROR; }
+  if ((status = newick_advance_buffer(fp, buf, pos, nc)) != eslOK) goto ERROR;
+
+  /* skip leading whitespace (\n and comments forbidden in quoted label) */
+  while (buf[*pos] == '\t' || buf[*pos] == ' ')   
+    if ((status = newick_advance_buffer(fp, buf, pos, nc)) != eslOK) goto ERROR;
+
+  /* Read the label */
+  while (1) {
+    if (buf[*pos] == '\'') {	/* watch out for escaped single quotes, '' */
+      if ((status = newick_advance_buffer(fp, buf, pos, nc)) != eslOK) goto ERROR;
+      if (buf[*pos] != '\'') break; /* we've just moved past the last ' */
+    }
+    label[n++] = buf[*pos]; 
+    if ((status = newick_advance_buffer(fp, buf, pos, nc)) != eslOK) goto ERROR;
+    if (n == (nalloc-1)) {  /* reallocate label if it fills, leave room for NUL */
+      ESL_RALLOC(label, tmp, sizeof(char) * (nalloc * 2));
+      nalloc *= 2;
+    }
+  }
+  
+  /* backtrack over any trailing whitespace and nul-terminate. */
+  while (isspace(label[n-1]) && n > 0) n--; 
+  label[n] = '\0';
+  *ret_label = label;
+  return eslOK;
+
+ ERROR:
+  if (label != NULL) { free(label); *ret_label = NULL; }
+  return status;
+
+}
+
+/* newick_parse_unquoted_label
+ *
+ * On entry, buf[pos] == first character in the label.
+ * On exit,  buf[pos] is positioned at the next data character following the end
+ *           of the label --  one of "),\t\n;[:"  --
+ *           and <ret_label> points to a newly allocated, NUL-terminated string
+ *           containing the label that was read (possibly the empty string).
+ * Returns eslOK on success.
+ *
+ * Returns eslEFORMAT on parse error, eslEOF if it runs out of data.
+ */
+static int
+newick_parse_unquoted_label(FILE *fp, char *buf, int *pos, int *nc, char **ret_label)
+{
+  char *label  = NULL;
+  char *tmp    = NULL;
+  int   n      = 0;
+  int   nalloc = 0;
+  int   status;
+  
+  nalloc = 32;  
+  ESL_ALLOC(label, sizeof(char) * nalloc);
+
+  while (1) {
+    if (strchr("(]",          buf[*pos]) != NULL) { status = eslEFORMAT; goto ERROR; }
+    if (strchr(" \t\n)[':;,", buf[*pos]) != NULL) { break; }
+    label[n++] = buf[*pos];
+    if (newick_advance_buffer(fp, buf, pos, nc) == eslEOF) { status = eslEOF; goto ERROR; }
+
+    if (n == (nalloc-1)) {  /* reallocate label if it fills, leave room for NUL */
+      ESL_RALLOC(label, tmp, sizeof(char) * (nalloc * 2));
+      nalloc *= 2;
+    }
+  }    
+  label[n]   = '\0';
+  *ret_label = label;
+  return eslOK;
+
+ ERROR:
+  if (label != NULL) { free(label); *ret_label = NULL; }
+  return status;
+}
+
+/* newick_parse_branchlength
+ *
+ * On entry, buf[pos] == ':'
+ * On exit,  buf[pos] is positioned at the next data character following the end
+ *           of the branchlength --  one of "),\t\n;[:"  
+ *           and <ret_d> is the branch length that was read.
+ *
+ * Returns eslOK  on success;
+ *
+ * Returns eslEFORMAT on parse error (including nonexistent branch lengths),
+ *         eslEOF if it runs out of data in the file.
+ */
+static int
+newick_parse_branchlength(FILE *fp, char *buf, int *pos, int *nc, double *ret_d)
+{
+  char *branch = NULL;
+  char *tmp    = NULL;
+  int   n      = 0;
+  int   nalloc = 0;
+  int   status;
+  
+  nalloc = 32;  
+  ESL_ALLOC(branch, sizeof(char) * nalloc);
+
+  if (buf[*pos] != ':') { status = eslEFORMAT; goto ERROR; }
+  if (newick_advance_buffer(fp, buf, pos, nc) != eslOK)  goto ERROR;
+
+  while (1) {
+    if (strchr("(]",          buf[*pos]) != NULL) { status = eslEFORMAT; goto ERROR; }
+    if (strchr(" \t\n)[':;,", buf[*pos]) != NULL) break;
+    branch[n++] = buf[*pos];
+    if ((status = newick_advance_buffer(fp, buf, pos, nc)) != eslOK) goto ERROR;
+
+    if (n == (nalloc-1)) {  /* reallocate label if it fills, leave room for NUL */
+      ESL_RALLOC(branch, tmp, sizeof(char) * (nalloc * 2));
+      nalloc *= 2;
+    }
+  }    
+
+  branch[n]   = '\0';
+  *ret_d = strtod(branch, &tmp);
+  if (n == 0 || tmp != branch+n) { status = eslEFORMAT; goto ERROR; }
+  free(branch);
+  return eslOK;
+
+ ERROR:
+  if (branch != NULL) free(branch);
+  *ret_d = 0.;
+  return status;
+}
+
+
+
+
+/* Function:  esl_tree_ReadNewick()
+ * Synopsis:  Input a Newick format tree.
+ *
+ * Purpose:   Read a Newick format tree from an open input stream <fp>.
+ *            Return the new tree in <ret_T>. 
+ *            
+ *            The new tree <T> will have the optional <T->taxonlabel> and
+ *            <T->nodelabel> arrays allocated, containing names of all the
+ *            taxa and nodes. Whenever no label appeared in the Newick file
+ *            for a node or taxon, the label is set to the empty string.
+ *            
+ *            Caller may optionally provide an <errbuf> of at least
+ *            <eslERRBUFSIZE> chars, to retrieve diagnostic information
+ *            in case of a parsing problem; or <errbuf> may be passed as
+ *            <NULL>.
+ *
+ * Args:      fp      - open input stream
+ *            errbuf  - NULL, or allocated space for >= eslERRBUFSIZE chars
+ *            ret_T   - RETURN: the new tree.     
+ *
+ * Returns:   Returns <eslOK> on success, and <ret_T> points
+ *            to the new tree.
+ *
+ *            Returns <eslEFORMAT> on parse errors, such as premature EOF
+ *            or bad syntax in the Newick file. In this case, <ret_T> is
+ *            returned NULL, and the <errbuf> (if provided> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on memory allocation errors.
+ *            <eslEINCONCEIVABLE> may also arise in case of internal bugs.
+ *
+ * Xref:      STL11/75
+ */
+int
+esl_tree_ReadNewick(FILE *fp, char *errbuf, ESL_TREE **ret_T) 
+{
+  ESL_TREE  *T   = NULL;	/* the new, growing tree */
+  ESL_STACK *cs  = NULL;	/* state stack: possible states are LRX);,  */
+  ESL_STACK *vs  = NULL;	/* node index stack: LRX) states are associated with node #'s */
+  int        status;
+  char       buf[4096];		/* 4K input buffer */
+  int        pos,nc;		/* position in buf, and number of chars in buf */
+  char       c;			/* current state */
+  int        v;		        /* current node idx */
+  int        currnode;
+  int        currtaxon;
+  char      *label;		/* a parsed label */
+  double     d;			/* a parsed branch length */
+  
+  if (errbuf != NULL) *errbuf = '\0';
+  if ((vs = esl_stack_ICreate()) == NULL) { status = eslEMEM; goto ERROR; };
+  if ((cs = esl_stack_CCreate()) == NULL) { status = eslEMEM; goto ERROR; };
+
+  /* Create the tree, initially allocated for 32 taxa.
+   * Allocate for taxon and node labels, too.
+   */
+  if ((T  = esl_tree_CreateGrowable(32)) == NULL) { status = eslEMEM; goto ERROR; };
+  ESL_ALLOC(T->taxonlabel, sizeof(char *) * 32);
+  ESL_ALLOC(T->nodelabel,  sizeof(char *) * 31);
+  for (currtaxon = 0; currtaxon < 32; currtaxon++) T->taxonlabel[currtaxon] = NULL;
+  for (currnode  = 0; currnode  < 31; currnode++)  T->nodelabel[currnode]   = NULL;
+
+  /* Load the input buffer
+   */
+  if ((nc = fread(buf, sizeof(char), 4096, fp)) == 0) 
+    ESL_XFAIL(eslEFORMAT, errbuf, "file is empty.");
+  pos = 0;
+  
+  /* Initialization: 
+   *    create the root node in the tree;
+   *    push L,R...); onto the stacks; 
+   *    swallow the first ( in the file.
+   *
+   * A note on memory management in the growing tree:
+   *  we are going to keep T->N set to the number of taxa
+   *  that the tree *will* contain, given the number of nodes
+   *  it currently *does* contain. Before we try to add
+   *  any new node, we call the Grow() routine, which will
+   *  check T->N against T->nalloc. This strategy works 
+   *  because nodes always get added before their children
+   *  taxa, so the # of taxa is always <= nodes-1: that is,
+   *  our need for reallocation is driven by new nodes, 
+   *  never by new taxa; that is, if we have enough room
+   *  for nodes, we automatically have enough room for the
+   *  taxa.
+   */
+  T->parent[0] = 0;
+  currnode     = 1;
+  currtaxon    = 0;		
+  T->N         = 2;   /* c.f. note above: T->N is the # of taxa we *would* hold, given currnode=1*/
+  if (esl_stack_CPush(cs, ';') != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_CPush(cs, ')') != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_IPush(vs, 0)   != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_CPush(cs, 'X') != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_IPush(vs, 0)   != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_CPush(cs, 'R') != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_IPush(vs, 0)   != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_CPush(cs, ',') != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_CPush(cs, 'L') != eslOK)  { status = eslEMEM; goto ERROR; };
+  if (esl_stack_IPush(vs, 0)   != eslOK)  { status = eslEMEM; goto ERROR; };
+
+  if (newick_skip_whitespace(fp, buf, &pos, &nc) != eslOK) 
+    ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+  if (buf[pos] != '(') 
+    ESL_XFAIL(eslEFORMAT, errbuf, "file is not in Newick format.");
+  if (newick_advance_buffer(fp, buf, &pos, &nc) == eslEOF)
+    ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+
+  /* Iteration.
+   */
+  while ((status = esl_stack_CPop(cs, &c)) == eslOK)
+    {
+ 
+      if (newick_skip_whitespace(fp, buf, &pos, &nc) != eslOK) 
+	ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+
+      if (c == ',')
+	{ 
+	  if (buf[pos] != ',') 
+	    ESL_XFAIL(eslEFORMAT, errbuf, "expected a comma, saw %c.", buf[pos]);
+	  if (newick_advance_buffer(fp, buf, &pos, &nc) == eslEOF)
+	    ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+	  continue;
+	}
+
+      else if (c == ';')
+	{
+	  if (buf[pos] != ';')
+	    ESL_XFAIL(eslEFORMAT, errbuf, "expected a semicolon, saw %c.", buf[pos]);
+	  break;		/* end of the Newick file */
+	}
+
+      else if (c == 'L' || c == 'R') /* c says, we expect to add a subtree next */
+	{
+	  if (esl_stack_IPop(vs, &v) != eslOK) { status = eslEINCONCEIVABLE; goto ERROR; } /* v = parent of currnode */
+	  
+	  if (buf[pos] == '(')	/* a new interior node attaches to v */
+	    {
+	      if (esl_tree_Grow(T) != eslOK) { status = eslEMEM; goto ERROR; };	/* c.f. memory management note: check that we can add new node */
+
+	      T->parent[currnode] = v;
+	      if (c == 'L') T->left[v]  = currnode;
+	      else          T->right[v] = currnode;
+
+	      if (esl_stack_CPush(cs, ')')      != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_IPush(vs, currnode) != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_CPush(cs, 'X')      != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_IPush(vs, currnode) != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_CPush(cs, 'R')      != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_IPush(vs, currnode) != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_CPush(cs, ',')      != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_CPush(cs, 'L')      != eslOK)  { status = eslEMEM; goto ERROR; };
+	      if (esl_stack_IPush(vs, currnode) != eslOK)  { status = eslEMEM; goto ERROR; };
+
+	      if (newick_advance_buffer(fp, buf, &pos, &nc) == eslEOF)
+		ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+	      currnode++;		/* T->N == # of internal nodes/idx of next internal node */
+	    }
+	  else /* a taxon attaches to v */
+	    {
+	      if (buf[pos] == '\'') { /* a quoted label, for a new taxon attached to v*/
+		if ((status = newick_parse_quoted_label(fp, buf, &pos, &nc,   &label)) != eslOK)  
+		  ESL_XFAIL(eslEFORMAT, errbuf, "failed to parse a quoted taxon label");
+	      } else {               /* an unquoted label, for a new taxon attached to v */
+		if ((status = newick_parse_unquoted_label(fp, buf, &pos, &nc, &label)) != eslOK)  
+		  ESL_XFAIL(eslEFORMAT, errbuf, "failed to parse an unquoted taxon label");
+	      }
+
+	      if (newick_skip_whitespace(fp, buf, &pos, &nc) != eslOK) 
+		ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely");
+
+	      d = 0.;
+	      if (buf[pos] == ':') {
+		if ((status = newick_parse_branchlength(fp, buf, &pos, &nc, &d)) != eslOK)   
+		  ESL_XFAIL(eslEFORMAT, errbuf, "failed to parse a branch length");
+	      }
+	      
+	      if (c == 'L') { T->left[v]  = -currtaxon;  T->ld[v] = d; }
+	      else          { T->right[v] = -currtaxon;  T->rd[v] = d; }         
+
+	      T->taxonlabel[currtaxon]  = label;
+	      currtaxon++;
+	    }
+	}
+
+      else if (c == ')')	/* c says, expect to close an interior node next */
+	{
+	  /* get v = the interior node we're closing, naming, and setting a branch length to */
+	  if (( status = esl_stack_IPop(vs, &v))  != eslOK)  goto ERROR;
+	  if (buf[pos] != ')') ESL_XFAIL(eslEFORMAT, errbuf, "Parse error: expected ) to close node #%d\n", v);
+
+	  if (newick_advance_buffer(fp, buf, &pos, &nc) == eslEOF)
+	    ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+
+	  if (newick_skip_whitespace(fp, buf, &pos, &nc) != eslOK) 
+	    ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+
+	  if (buf[pos] == '\'') { 
+	    if ((status = newick_parse_quoted_label(fp, buf, &pos, &nc, &label)) != eslOK)    
+	      ESL_XFAIL(eslEFORMAT, errbuf, "failed to parse a quoted node label");
+	  } else {               /* an unquoted label, for a new taxon attached to v */
+	    if ((status = newick_parse_unquoted_label(fp, buf, &pos, &nc, &label)) != eslOK) 
+	      ESL_XFAIL(eslEFORMAT, errbuf, "failed to parse an unquoted node label");
+	  }
+	  
+	  if (newick_skip_whitespace(fp, buf, &pos, &nc) != eslOK) 
+	    ESL_XFAIL(eslEFORMAT, errbuf, "file ended prematurely.");
+
+	  d = 0.;
+	  if (buf[pos] == ':') {
+	    if ((status = newick_parse_branchlength(fp, buf, &pos, &nc, &d)) != eslOK)  
+	      ESL_XFAIL(eslEFORMAT, errbuf, "failed to parse a branch length");
+	  }
+
+	  if (v > 0) { /* branch length to root node is meaningless, ignore it */
+	    if      (T->left [T->parent[v]] == v) T->ld[T->parent[v]] = d;
+	    else if (T->right[T->parent[v]] == v) T->rd[T->parent[v]] = d;
+	  }
+
+	  T->nodelabel[v] = label;
+	}
+
+      else if (c == 'X')	/* optionally, multifurcations: if we see a comma, we have another node to deal with */
+	{ 			
+	  if ((status = esl_stack_IPop(vs, &v)) != eslOK) goto ERROR;
+	  if (buf[pos] != ',') continue;
+	  if (esl_tree_Grow(T) != eslOK) { status = eslEMEM; goto ERROR; };	/* c.f. memory management note: check that we can add new node */
+
+	  /* v = the interior node that is multifurcated.
+           * What we're going to do is to create a new node y; move the existing right child of v 
+           * to the left child of y; and connect y as the new right child of v with a branch 
+           * length of zero. The right child of y is now open. Then, we push a X->,RX production, so the next subtree will
+           * be parsed as the right child of y. We can do this ad infinitum, resulting in
+           * a representation of a multifurcation as, for example, a (A,(B,(C,(D,E)))) binary
+           * subtree with zero length interior branches for a five-way multifurcation.
+           *
+           * This swapping destroys the order of the nodes: they will not be in preorder traversal.
+           * This is temporarily ok. We renumber later.
+	   */
+	  T->left[currnode]   = T->right[v];
+	  T->ld[currnode]     = T->rd[v];
+	  T->parent[currnode] = v;
+	  if (T->right[v] > 0)
+	    T->parent[T->right[v]] = currnode;
+	  T->right[v]         = currnode;
+	  T->rd[v]            = 0.;
+	  
+	  if (esl_stack_CPush(cs, 'X')       != eslOK)  { status = eslEMEM; goto ERROR; };
+	  if (esl_stack_IPush(vs, currnode)  != eslOK)  { status = eslEMEM; goto ERROR; };
+	  if (esl_stack_CPush(cs, 'R')       != eslOK)  { status = eslEMEM; goto ERROR; };
+	  if (esl_stack_IPush(vs, currnode)  != eslOK)  { status = eslEMEM; goto ERROR; };	  
+	  if (esl_stack_CPush(cs, ',')       != eslOK)  { status = eslEMEM; goto ERROR; };	  
+	  currnode++;
+	}
+
+      T->N = currnode + 1; /* c.f. memory management note: keep T->N = # of taxa the tree *would* hold, given currnode */
+    }
+
+  esl_tree_RenumberNodes(T);
+
+  esl_stack_Destroy(cs);
+  esl_stack_Destroy(vs);
+  *ret_T = T;
+  return eslOK;
+
+ ERROR:
+  if (T  != NULL) esl_tree_Destroy(T);
+  if (cs != NULL) esl_stack_Destroy(cs);
+  if (vs != NULL) esl_stack_Destroy(vs);
+  *ret_T = NULL;
+  return status;
+}
+  
+
+
+/*-------------------- end, Newick i/o --------------------------*/
+
+
+/*****************************************************************
+ * 3. Tree comparison algorithms
+ *****************************************************************/
+
+/* Function:  esl_tree_Compare()
+ *
+ * Purpose:   Given two trees <T1> and <T2> for the same
+ *            set of <N> taxa, compare the topologies of the
+ *            two trees.
+ *            
+ *            The routine must be able to determine which taxa are
+ *            equivalent in <T1> and <T2>. If <T1> and <T2> both have
+ *            taxon labels set, then the routine compares labels.
+ *            This is the usual case. (Therefore, the <N> labels must
+ *            all be different, or the routine will be unable to do
+ *            this mapping uniquely.) As a special case, if neither
+ *            <T1> nor <T2> has taxon labels, then the indexing of
+ *            taxa <0..N-1> is assumed to be exactly the same in the
+ *            two trees. (And if one tree has labels and the other
+ *            does not, an <eslEINVAL> exception is thrown.)
+ *            
+ *            For comparing unrooted topologies, be sure that <T1> and
+ *            <T2> both obey the unrooted tree convention that the
+ *            "root" is placed on the branch to taxon 0. (That is,
+ *            <T->left[0] = 0>.)
+ *            
+ * Returns:   <eslOK> if tree topologies are identical. <eslFAIL>
+ *            if they aren't.           
+ *            
+ * Throws:    <eslEMEM> on allocation error. <eslEINVAL> if the taxa in
+ *            the trees can't be mapped uniquely and completely to
+ *            each other (because one tree doesn't have labels and
+ *            one does, or because the labels aren't unique, or the
+ *            two trees have different taxa).
+ */
+int
+esl_tree_Compare(ESL_TREE *T1, ESL_TREE *T2)
+{
+  int *Mg   = NULL;		/* the M(g) tree-mapping function for internal nodes [0..N-2] */
+  int *Mgt  = NULL;		/* the M(g) tree-mapping function for leaves (taxa), [0..N-1] */
+  int  g, child;		/* node indices for parent, children */
+  int  a,b;
+  int  status;
+
+  if (T1->N != T2->N) ESL_EXCEPTION(eslEINVAL, "trees don't have the same # of taxa");
+
+  /* We need taxon parent map in tree 2, but not tree 1.
+   */
+  if ((status = esl_tree_SetTaxaParents(T2)) != eslOK) goto ERROR;
+
+  /* We're going to use the tree mapping function M(g) [Goodman79].
+   * In the implementation here, we split it into two, Mg[] for internal
+   * nodes 0..N-2 and Mgt[] for taxa 0..N-1.
+   *
+   * Mg[g] for node g in T1 is the index of the lowest node in T2
+   * that contains the same children taxa as the subtree 
+   * under g in T1.
+   *
+   * For the taxa, Mgt[g] for taxon g in T1 is the index of the
+   * corresponding taxon in T2. If neither tree has taxon labels
+   * Mgt[g] = g for all g. Otherwise we have to compare labels. Right
+   * now, we do this by brute force, which is O(N^2); if this ever
+   * becomes rate limiting, replace it with a keyhash to make it O(N)
+   * (and in fact, the keyhash of taxon names could even become part
+   * of the ESL_TREE).
+   */
+  ESL_ALLOC(Mg,  sizeof(int) * (T1->N-1));  
+  ESL_ALLOC(Mgt, sizeof(int) * (T1->N));
+  if (T1->taxonlabel != NULL && T2->taxonlabel != NULL)
+    {
+      esl_vec_ISet(Mgt, T1->N, -1);	/* flags for "unset" */
+      for (a = 0; a < T1->N; a++)
+	{
+	  for (b = 0; b < T1->N; b++)
+	    if (strcmp(T1->taxonlabel[a], T2->taxonlabel[b]) == 0) 
+	      { Mgt[a] = b; break; }
+	}
+      for (a = 0; a < T1->N; a++)
+	if (Mgt[a] == -1) ESL_XEXCEPTION(eslEINVAL, "couldn't map taxa");
+    }
+  else if (T1->taxonlabel == NULL && T2->taxonlabel == NULL)
+    {
+      for (a = 0; a < T1->N; a++)
+	Mgt[a] = a;
+    }
+  else
+    ESL_XEXCEPTION(eslEINVAL, "either both trees must have taxon labels, or neither");      
+
+  /* Finally, we use the SDI algorithm [ZmasekEddy01] to construct
+   * M(g) for internal nodes, by postorder traversal of T1.
+   */
+  for (g = T1->N-2; g >= 0; g--)
+    {
+      child = T1->left[g];
+      if (child <= 0)  a = T2->taxaparent[Mgt[-child]]; 
+      else             a = T2->parent[Mg[child]];
+
+      child = T1->right[g];
+      if (child <= 0)  b = T2->taxaparent[Mgt[-child]]; 
+      else             b = T2->parent[Mg[child]];
+
+      /* a shortcut in SDI: special case for exact tree comparison: */
+      if (a != b) { free(Mg); free(Mgt); return eslFAIL; } 
+      Mg[g] = a;
+    }
+
+  free(Mg);
+  free(Mgt);
+  return eslOK;
+
+ ERROR:
+  if (Mg  != NULL) free(Mg);
+  if (Mgt != NULL) free(Mgt);
+  return status;
+}
+
+/*----------------- end, tree comparison  -----------------------*/
+
+
+
+
+
+
+/*****************************************************************
+ * 4. Clustering algorithms for tree construction.
+ *****************************************************************/
+
+/* cluster_engine()
+ * 
+ * Implements four clustering algorithms for tree construction:
+ * UPGMA, WPGMA, single-linkage, and maximum-linkage. These differ
+ * only by the rule used to construct new distances after joining
+ * two clusters i,j.
+ * 
+ * Input <D_original> is a symmetric distance matrix, for <D->n> taxa.
+ * The diagonal is all 0's, and off-diagonals are $\geq 0$. <D->n>
+ * must be at least two.
+ * 
+ * <mode> is one of <eslUPGMA>, <eslWPGMA>, <eslSINGLE_LINKAGE>, or
+ * <eslCOMPLETE_LINKAGE>: a flag specifying which algorithm to use.
+ * 
+ * The output is a tree structure, returned in <ret_T>.
+ * 
+ * Returns <eslOK> on success.
+ * 
+ * Throws <eslEMEM> on allocation failure.
+ * 
+ * Complexity: O(N^2) in memory, O(N^3) in time.
+ * 
+ * This function can be optimized. Memory usage is at least
+ * 4x more than necessary. First, we don't need to make a copy of D
+ * if the caller doesn't mind it being consumed. Second, D only
+ * needs to be lower- or upper-triangular, because it's symmetric,
+ * but that requires changing dmatrix module. In time,
+ * O(N^2 log N) if not O(N^2) should be possible, by being more
+ * sophisticated about identifying the minimum element; 
+ * see Gronau and Moran (2006).
+ * 
+ */
+static int
+cluster_engine(ESL_DMATRIX *D_original, int mode, ESL_TREE **ret_T)
+{
+  ESL_DMATRIX *D = NULL;
+  ESL_TREE    *T = NULL;
+  double      *height = NULL;	/* height of internal nodes  [0..N-2]          */
+  int         *idx    = NULL;	/* taxa or node index of row/col in D [0..N-1] */
+  int         *nin    = NULL;	/* # of taxa in clade in row/col in D [0..N-1] */
+  int          N;
+  int          i = 0, j = 0;
+  int          row,col;
+  double       minD;
+  int          status;
+
+  /* Contract checks.
+   */
+  ESL_DASSERT1((D_original != NULL));               /* matrix exists      */
+  ESL_DASSERT1((D_original->n == D_original->m));   /* D is NxN square    */
+  ESL_DASSERT1((D_original->n >= 2));               /* >= 2 taxa          */
+#if (eslDEBUGLEVEL >=1)
+  for (i = 0; i < D_original->n; i++) {
+    assert(D_original->mx[i][i] == 0.);	           /* self-self d = 0    */
+    for (j = i+1; j < D_original->n; j++)	   /* D symmetric        */
+      assert(D_original->mx[i][j] == D_original->mx[j][i]);
+  }
+#endif
+
+  /* Allocations.
+   * NxN copy of the distance matrix, which we'll iteratively whittle down to 2x2;
+   * tree for N taxa;
+   */
+  if ((D = esl_dmatrix_Clone(D_original)) == NULL) return eslEMEM;
+  if ((T = esl_tree_Create(D->n))         == NULL) return eslEMEM;
+  ESL_ALLOC(idx,    sizeof(int)    *  D->n);
+  ESL_ALLOC(nin,    sizeof(int)    *  D->n);
+  ESL_ALLOC(height, sizeof(double) * (D->n-1));
+  for (i = 0; i < D->n;   i++) idx[i]    = -i; /* assign taxa indices to row/col coords */
+  for (i = 0; i < D->n;   i++) nin[i ]   = 1;  /* each cluster starts as 1  */
+  for (i = 0; i < D->n-1; i++) height[i] = 0.; 
+
+  /* If we're doing either single linkage or complete linkage clustering,
+   * we will construct a "linkage tree", where ld[v], rd[v] "branch lengths"
+   * below node v are the linkage value for clustering node v; thus 
+   * ld[v] == rd[v] in a linkage tree.
+   * For UPGMA or WPGMA, we're building an additive tree, where ld[v] and
+   * rd[v] are branch lengths.
+   */
+  if (mode == eslSINGLE_LINKAGE || mode == eslCOMPLETE_LINKAGE)
+    T->is_linkage_tree = TRUE;
+
+  for (N = D->n; N >= 2; N--)
+    {
+      /* Find minimum in our current N x N matrix.
+       * (Don't init minD to -infinity; linkage trees use sparse distance matrices 
+       * with -infinity representing unlinked.)
+       */
+      minD = D->mx[0][1]; i = 0; j = 1;	/* init with: if nothing else, try to link 0-1 */
+      for (row = 0; row < N; row++)
+	for (col = row+1; col < N; col++)
+	  if (D->mx[row][col] < minD)
+	    {
+	      minD = D->mx[row][col];
+	      i    = row;
+	      j    = col;
+	    }
+
+      /* We're joining node at row/col i with node at row/col j.
+       * Add node (index = N-2) to the tree at height minD/2.
+       */
+      T->left[N-2]  = idx[i];
+      T->right[N-2] = idx[j];
+      if (T->is_linkage_tree)        height[N-2]   = minD;
+      else                           height[N-2]   = minD / 2.;
+
+      /* Set the branch lengths (additive trees) or heights (linkage trees)
+       */
+      T->ld[N-2] = T->rd[N-2] = height[N-2];
+      if (! T->is_linkage_tree) {
+	if (idx[i] > 0) T->ld[N-2] -= height[idx[i]];
+	if (idx[j] > 0) T->rd[N-2] -= height[idx[j]];      
+      }
+      
+      /* If either node was an internal node, record parent in it.
+       */
+      if (idx[i] > 0)  T->parent[idx[i]] = N-2;
+      if (idx[j] > 0)  T->parent[idx[j]] = N-2;
+
+      /* Now, build a new matrix by merging row i+j and col i+j.
+       *  1. move j to N-1 (unless it's already there)
+       *  2. move i to N-2 (unless it's already there)
+       */
+      if (j != N-1)
+	{
+	  for (row = 0; row < N; row++)
+	    ESL_SWAP(D->mx[row][N-1], D->mx[row][j], double);
+	  for (col = 0; col < N; col++)
+	    ESL_SWAP(D->mx[N-1][col], D->mx[j][col], double);
+	  ESL_SWAP(idx[j],  idx[N-1],  int);
+	  ESL_SWAP(nin[j], nin[N-1], int);
+	}
+      if (i != N-2)
+	{
+	  for (row = 0; row < N; row++)
+	    ESL_SWAP(D->mx[row][N-2], D->mx[row][i], double);
+	  for (col = 0; col < N; col++)
+	    ESL_SWAP(D->mx[N-2][col], D->mx[i][col], double);
+	  ESL_SWAP(idx[i], idx[N-2], int);
+	  ESL_SWAP(nin[i], nin[N-2], int);
+	}
+      i = N-2;
+      j = N-1;
+
+      /* 3. merge i (now at N-2) with j (now at N-1) 
+       *    according to the desired clustering rule.
+       */
+      for (col = 0; col < N; col++)
+	{
+	  switch (mode) {
+	  case eslUPGMA: 
+	    D->mx[i][col] = (nin[i] * D->mx[i][col] + nin[j] * D->mx[j][col]) / (double) (nin[i] + nin[j]);
+	    break;
+	  case eslWPGMA:            D->mx[i][col] = (D->mx[i][col] + D->mx[j][col]) / 2.;    break;
+	  case eslSINGLE_LINKAGE:   D->mx[i][col] = ESL_MIN(D->mx[i][col], D->mx[j][col]);   break;
+	  case eslCOMPLETE_LINKAGE: D->mx[i][col] = ESL_MAX(D->mx[i][col], D->mx[j][col]);   break;
+	  default:                  ESL_XEXCEPTION(eslEINCONCEIVABLE, "no such strategy");
+	  }
+	  D->mx[col][i] = D->mx[i][col];
+	}
+
+      /* row/col i is now the new cluster, and it corresponds to node N-2
+       * in the tree (remember, N is decrementing at each iteration).
+       * row/col j (N-1) falls away when we go back to the start of the loop 
+       * and decrement N. 
+       */
+      nin[i] += nin[j];
+      idx[i]  = N-2;
+    }  
+
+  esl_dmatrix_Destroy(D);
+  free(height);
+  free(idx);
+  free(nin);
+  if (ret_T != NULL) *ret_T = T;
+  return eslOK;
+
+ ERROR:
+  if (D      != NULL) esl_dmatrix_Destroy(D);
+  if (T      != NULL) esl_tree_Destroy(T);
+  if (height != NULL) free(height);
+  if (idx    != NULL) free(idx);
+  if (nin    != NULL) free(nin);
+  if (ret_T != NULL) *ret_T = NULL;
+  return status;
+}
+
+
+/* Function:  esl_tree_UPGMA()
+ *
+ * Purpose:   Given distance matrix <D>, use the UPGMA algorithm
+ *            to construct a tree <T>.
+ *
+ * Returns:   <eslOK> on success; the tree is returned in <ret_T>,
+ *            and must be freed by the caller with <esl_tree_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation problem, and <ret_T> is set <NULL>.
+ */
+int
+esl_tree_UPGMA(ESL_DMATRIX *D, ESL_TREE **ret_T)
+{
+  return cluster_engine(D, eslUPGMA, ret_T);
+}
+
+/* Function:  esl_tree_WPGMA()
+ *
+ * Purpose:   Given distance matrix <D>, use the WPGMA algorithm
+ *            to construct a tree <T>.
+ *
+ * Returns:   <eslOK> on success; the tree is returned in <ret_T>,
+ *            and must be freed by the caller with <esl_tree_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation problem, and <ret_T> is set <NULL>.
+ */
+int
+esl_tree_WPGMA(ESL_DMATRIX *D, ESL_TREE **ret_T)
+{
+  return cluster_engine(D, eslWPGMA, ret_T);
+}
+
+/* Function:  esl_tree_SingleLinkage()
+ *
+ * Purpose:   Given distance matrix <D>, construct a single-linkage
+ *            (minimum distances) clustering tree <T>.
+ *
+ * Returns:   <eslOK> on success; the tree is returned in <ret_T>,
+ *            and must be freed by the caller with <esl_tree_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation problem, and <ret_T> is set <NULL>.
+ */
+int
+esl_tree_SingleLinkage(ESL_DMATRIX *D, ESL_TREE **ret_T)
+{
+  return cluster_engine(D, eslSINGLE_LINKAGE, ret_T);
+}
+
+/* Function:  esl_tree_CompleteLinkage()
+ *
+ * Purpose:   Given distance matrix <D>, construct a complete-linkage
+ *            (maximum distances) clustering tree <T>.
+ *
+ * Returns:   <eslOK> on success; the tree is returned in <ret_T>,
+ *            and must be freed by the caller with <esl_tree_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation problem, and <ret_T> is set <NULL>.
+ */
+int
+esl_tree_CompleteLinkage(ESL_DMATRIX *D, ESL_TREE **ret_T)
+{
+  return cluster_engine(D, eslCOMPLETE_LINKAGE, ret_T);
+}
+/*----------------- end, clustering algorithms  ----------------*/
+
+
+
+/*****************************************************************
+ * 5. Generating simulated trees
+ *****************************************************************/
+
+/* Function:  esl_tree_Simulate()
+ * Synopsis:  Generate a random rooted ultrametric tree.
+ *
+ * Purpose:   Generate a random rooted ultrametric tree of <N> taxa,
+ *            using the algorithm of Kuhner and Felsenstein (1994).
+ *            
+ *            The branch lengths are generated by choosing <N-1>
+ *            exponentially distributed split times, with decreasing
+ *            expectations of $\frac{1}{2},\frac{1}{3}..\frac{1}{N}$
+ *            as the simulation proceeds from the root. Thus the
+ *            total expected branch length on the tree is
+ *            $\sum_{k=2}^{N} \frac{1}{k}$.
+ *
+ * Args:      r     - random number source
+ *            N     - number of taxa (>= 2)
+ *            ret_T - RETURN: sampled tree
+ *
+ * Returns:   <eslOK> on success, and the new tree is allocated
+ *            here and returned via <ret_tree>; caller is 
+ *            responsible for free'ing it.
+ *
+ * Throws:    <eslEMEM> on allocation failure, in which case
+ *            the <ret_T> is returned <NULL>.
+ *
+ * Xref:      STL11/65.
+ */
+int
+esl_tree_Simulate(ESL_RANDOMNESS *r, int N, ESL_TREE **ret_T)
+{
+  ESL_TREE       *T          = NULL;
+  int            *branchpapa = NULL;
+  int            *branchside = NULL;
+  int       nactive;
+  double    d;
+  int       node;
+  int       bidx;	        	/* index of an active branch */
+  int       status;
+
+  ESL_DASSERT1( (r != NULL) );
+  ESL_DASSERT1( (N >= 2) );
+
+  /* Kuhner/Felsenstein uses a list of active branches,
+   * which we implement by tracking the index of the parent
+   * node (in <branchpapa>) and a 0/1 flag (in <branchside>)
+   * for the branch to the left vs. right child.
+   */
+  if ((T = esl_tree_Create(N)) == NULL)  goto ERROR;
+  ESL_ALLOC(branchpapa, sizeof(int) * N);
+  ESL_ALLOC(branchside, sizeof(int) * N);
+  
+  /* Initialize: add two branches from the root
+   * onto the active list, and set internal node
+   * counter to start at 1.
+   */
+  branchpapa[0] = 0;   branchside[0] = 0;
+  branchpapa[1] = 0;   branchside[1] = 1;
+  nactive = 2;
+  node    = 1;			
+
+  /* Algorithm proceeds by iterating:
+   *    1. choose random time <d> from exponential(1/nactive)
+   *    2. choose random active branch, <bidx>
+   *    3. add new <node> to active branch at length d
+   *    4. add d to all other active branches      
+   *    5. delete the old parent branch from the active list,
+   *       add the two new child branches to the active list
+   */
+  while (nactive < N)
+    {
+      d               = (double) nactive * -log(esl_rnd_UniformPositive(r));
+      bidx            = esl_rnd_Roll(r, nactive);
+      T->parent[node] = branchpapa[bidx];
+      
+      if (branchside[bidx] == 0) {
+	T->left[branchpapa[bidx]]   = node;
+	T->ld  [branchpapa[bidx]]  += d;
+      } else {
+	T->right[branchpapa[bidx]]  = node;
+	T->rd   [branchpapa[bidx]] += d;
+      }
+
+      ESL_SWAP(branchpapa[bidx], branchpapa[nactive-1], int);
+      ESL_SWAP(branchside[bidx], branchside[nactive-1], int);
+      for (bidx = 0; bidx < nactive-1; bidx++) {
+	if (branchside[bidx] == 0) T->ld[branchpapa[bidx]] += d;
+	else                       T->rd[branchpapa[bidx]] += d;
+      }
+      
+      /* delete the branch at nactive-1 that we just added to;
+       * replace it with two new branches
+       */
+      branchpapa[nactive-1]  = node;  branchside[nactive-1] = 0;
+      branchpapa[nactive]    = node;  branchside[nactive]   = 1;
+      node++;
+      nactive++;
+    }
+
+  /* Terminate by adding the N taxa to the N active branches.
+   */
+  d = (double) N * -log(esl_rnd_UniformPositive(r));
+  for (bidx = 0; bidx < N; bidx++)
+    {
+      if (branchside[bidx] == 0) {
+	T->left[branchpapa[bidx]]  =  -bidx; /* taxa indices stored as neg #'s */
+	T->ld  [branchpapa[bidx]]  += d;
+      } else {
+	T->right[branchpapa[bidx]] =  -bidx;
+	T->rd  [branchpapa[bidx]]  += d;
+      }
+    }
+
+  *ret_T = T; 
+  free(branchpapa);
+  free(branchside);
+  return eslOK;
+
+ ERROR:
+  if (T          != NULL) esl_tree_Destroy(T);
+  if (branchpapa != NULL) free(branchpapa);
+  if (branchside != NULL) free(branchside);
+  *ret_T = NULL;
+  return status;
+}
+
+
+/* Function:  esl_tree_ToDistanceMatrix()
+ * Synopsis:  Obtain a pairwise distance matrix from a tree.
+ *
+ * Purpose:   Given tree <T>, calculate a pairwise distance matrix
+ *            and return it in <ret_D>.
+ *            
+ * Note:      Algorithm here is O(N^3). It can probably be improved.
+ *            There ought to be a more efficient recursion that
+ *            saves recalculating node-node distances inside the tree.
+ *            All we do here is a brute force, upwards O(N) LCA 
+ *            search for each of the N^2 taxon pairs. 
+ *
+ * Args:      T     - input tree 
+ *            ret_D - RETURN: the new distance matrix    
+ *
+ * Returns:   <eslOK> on success, and <ret_D> points to the distance 
+ *            matrix, which caller is responsible for free'ing with
+ *            <esl_dmatrix_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation failure, in which case
+ *            <ret_D> is returned <NULL>.
+ *
+ * Xref:      STL11/66.
+ */
+int
+esl_tree_ToDistanceMatrix(ESL_TREE *T, ESL_DMATRIX **ret_D)
+{
+  ESL_DMATRIX *D = NULL;
+  int i,j;			/* a pair of taxa {0..N-1}           */
+  int a,b;			/* a pair of internal nodes {0..N-2} */
+  int p;			/* a tmp parent index */
+  double d;			/* ij distance */
+  int status;
+
+  D = esl_dmatrix_Create(T->N, T->N); /* creates a NxN square symmetric matrix; really only need triangular */
+  if (D == NULL) { status = eslEMEM; goto ERROR; }
+
+  if ((status = esl_tree_SetTaxaParents(T)) != eslOK) goto ERROR;
+
+  for (i = 0; i < T->N; i++)
+    {
+      D->mx[i][i] = 0.;		/* by definition */
+      for (j = i+1; j < T->N; j++)
+	{
+	  a  = T->taxaparent[i];
+	  b  = T->taxaparent[j];
+	  d  = (T->left[a] == -i) ? T->ld[a] : T->rd[a];
+	  d += (T->left[b] == -j) ? T->ld[b] : T->rd[b];
+	  while (a != b)	/* a brute force LCA algorithm */
+	    {
+	      if (a < b) ESL_SWAP(a, b, int);
+	      p  = T->parent[a];
+	      d += (T->left[p] == a) ? T->ld[p] : T->rd[p];
+	      a  = p;
+	    }
+
+	  D->mx[i][j] = D->mx[j][i] = d;
+	}
+    }
+
+  *ret_D = D;
+  return eslOK;
+
+ ERROR:
+  if (D != NULL) esl_dmatrix_Destroy(D);
+  *ret_D = NULL;
+  return status;
+}
+
+
+
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef eslTREE_TESTDRIVE
+
+static void
+utest_OptionalInformation(ESL_RANDOMNESS *r, int ntaxa)
+{
+  char *msg = "optional information fields unit test failed";
+  ESL_TREE *T;
+
+  if (esl_tree_Simulate(r, ntaxa, &T) != eslOK) esl_fatal(msg);
+  if (esl_tree_SetTaxaParents(T)      != eslOK) esl_fatal(msg);
+  if (esl_tree_SetCladesizes(T)       != eslOK) esl_fatal(msg);
+  if (esl_tree_Validate(T, NULL)      != eslOK) esl_fatal(msg);
+  
+  esl_tree_Destroy(T);
+  return;
+}
+
+
+static void
+utest_WriteNewick(ESL_RANDOMNESS *r, int ntaxa)
+{
+  char     *msg      = "esl_tree_WriteNewick unit test failed";
+  char   tmpfile[32] = "esltmpXXXXXX";
+  FILE     *fp       = NULL;
+  ESL_TREE *T1       = NULL;
+  ESL_TREE *T2       = NULL;
+  char  errbuf[eslERRBUFSIZE];
+
+  if (esl_tmpfile(tmpfile, &fp)            != eslOK) esl_fatal(msg);
+  if (esl_tree_Simulate(r, ntaxa, &T1)     != eslOK) esl_fatal(msg);
+  if (esl_tree_SetTaxonlabels(T1, NULL)    != eslOK) esl_fatal(msg);
+  if (esl_tree_Validate(T1, NULL)          != eslOK) esl_fatal(msg);
+  if (esl_tree_WriteNewick(fp, T1)         != eslOK) esl_fatal(msg);
+  rewind(fp);
+  if (esl_tree_ReadNewick(fp, errbuf, &T2) != eslOK) esl_fatal(msg);
+  if (esl_tree_Validate(T2, NULL)          != eslOK) esl_fatal(msg);
+  if (esl_tree_Compare(T1, T2)             != eslOK) esl_fatal(msg);
+  fclose(fp);
+
+  esl_tree_Destroy(T1);
+  esl_tree_Destroy(T2);
+  return;
+}
+
+
+static void
+utest_UPGMA(ESL_RANDOMNESS *r, int ntaxa)
+{
+  char        *msg = "esl_tree_UPGMA unit test failed";
+  ESL_TREE    *T1 = NULL;
+  ESL_TREE    *T2 = NULL;
+  ESL_DMATRIX *D1 = NULL;
+  ESL_DMATRIX *D2 = NULL;
+
+  if (esl_tree_Simulate(r, ntaxa, &T1)   != eslOK) esl_fatal(msg);
+  if (esl_tree_ToDistanceMatrix(T1, &D1) != eslOK) esl_fatal(msg);
+  if (esl_tree_UPGMA(D1, &T2)            != eslOK) esl_fatal(msg);
+
+  if (esl_tree_Validate(T1, NULL)        != eslOK) esl_fatal(msg);
+  if (esl_tree_Validate(T2, NULL)        != eslOK) esl_fatal(msg);
+  if (esl_tree_VerifyUltrametric(T1)     != eslOK) esl_fatal(msg);
+  if (esl_tree_VerifyUltrametric(T2)     != eslOK) esl_fatal(msg);
+  if (esl_tree_Compare(T1, T2)           != eslOK) esl_fatal(msg);
+
+  if (esl_tree_ToDistanceMatrix(T1, &D2) != eslOK) esl_fatal(msg);
+  if (esl_dmatrix_Compare(D1, D2, 0.001) != eslOK) esl_fatal(msg);
+
+  esl_tree_Destroy(T1);
+  esl_tree_Destroy(T2);
+  esl_dmatrix_Destroy(D1);
+  esl_dmatrix_Destroy(D2);
+  return;
+}
+
+#endif /*eslTREE_TESTDRIVE*/
+/*-------------------- end, unit tests  -------------------------*/
+
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+#ifdef eslTREE_TESTDRIVE
+
+/* 
+ * gcc -g -Wall -o test -L. -I. -DeslTREE_TESTDRIVE esl_tree.c -leasel -lm
+ * gcc -g -Wall -o test -L. -I. -DeslTEST_THROWING -DeslTREE_TESTDRIVE esl_msa.c -leasel -lm
+ * ./test
+ */
+#include "easel.h"
+#include "esl_tree.h"
+#include "esl_random.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r = NULL;
+  int ntaxa;
+
+  r     = esl_randomness_Create(0);
+  ntaxa = 20;
+  
+  utest_OptionalInformation(r, ntaxa); /* SetTaxaparents(), SetCladesizes() */
+  utest_WriteNewick(r, ntaxa);
+  utest_UPGMA(r, ntaxa);
+
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+
+#endif /*eslTREE_TESTDRIVE*/
+/*-------------------- end, test driver  -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 8. Examples.
+ *****************************************************************/
+
+/* The first example is an example of inferring a tree by the
+ * UPGMA algorithm, starting from a multiple sequence alignment.
+ */
+#ifdef eslTREE_EXAMPLE
+/*::cexcerpt::tree_example::begin::*/
+/* To compile: gcc -g -Wall -o example -I. -DeslTREE_EXAMPLE esl_tree.c esl_dmatrix.c esl_msa.c easel.c -lm
+ *         or: gcc -g -Wall -o example -I. -L. -DeslTREE_EXAMPLE esl_tree.c -leasel -lm
+ *     To run: ./example <MSA file>
+ */
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_distance.h"
+#include "esl_tree.h"
+
+int main(int argc, char **argv)
+{
+  ESL_TREE     *tree = NULL;
+  ESLX_MSAFILE *afp  = NULL;
+  ESL_MSA      *msa  = NULL;
+  ESL_DMATRIX  *D    = NULL;
+
+  eslx_msafile_Open(NULL, argv[1], NULL, eslMSAFILE_UNKNOWN, NULL, &afp);
+  eslx_msafile_Read(afp, &msa);
+  eslx_msafile_Close(afp);
+
+  esl_dst_CDiffMx(msa->aseq, msa->nseq, &D);
+  esl_tree_UPGMA(D, &tree);
+
+  esl_tree_Destroy(tree);
+  esl_msa_Destroy(msa);
+  esl_dmatrix_Destroy(D);
+  return eslOK;
+}
+/*::cexcerpt::tree_example::end::*/
+#endif /*eslTREE_EXAMPLE*/
+
+
+/* The second example is an example of reading in a Newick format tree.
+ */
+#ifdef eslTREE_EXAMPLE2
+/*::cexcerpt::tree_example2::begin::*/
+/* To compile: gcc -g -Wall -o example -I. -DeslTREE_EXAMPLE2 esl_tree.c esl_dmatrix.c esl_msa.c easel.c -lm
+ *         or: gcc -g -Wall -o example -I. -L. -DeslTREE_EXAMPLE2 esl_tree.c -leasel -lm
+ *     To run: ./example <Newick file>
+ */
+#include "easel.h"
+#include "esl_msa.h"
+#include "esl_distance.h"
+#include "esl_tree.h"
+
+int main(int argc, char **argv)
+{
+  ESL_TREE    *T;
+  char         errbuf[eslERRBUFSIZE];
+  FILE        *fp;
+
+  if ((fp = fopen(argv[1], "r"))           == NULL) esl_fatal("Failed to open %s", argv[1]);
+  if (esl_tree_ReadNewick(fp, errbuf, &T) != eslOK) esl_fatal("Failed to read tree: %s", errbuf);
+  esl_tree_WriteNewick(stdout, T);
+
+  esl_tree_Destroy(T);
+  fclose(fp);
+  return eslOK;
+}
+/*::cexcerpt::tree_example2::end::*/
+#endif /*eslTREE_EXAMPLE*/
+
+
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_tree.c 818 2012-11-16 13:56:28Z rivase $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_tree.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.h
new file mode 100755
index 0000000..64b29f1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.h
@@ -0,0 +1,129 @@
+/* Phylogenetic trees.
+ * 
+ * SRE, Tue May  2 13:54:30 2006 [St. Louis]
+ * SVN $Id: esl_tree.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_tree.h $
+ */
+#ifndef eslTREE_INCLUDED
+#define eslTREE_INCLUDED
+
+#include <esl_dmatrix.h>
+#include <esl_random.h>
+
+/* Object: ESL_TREE
+ *
+ * All trees are represented as rooted trees, starting from
+ * node 0. For N taxa, there are N-1 internal nodes, numbered
+ * 0..N-2. Taxa on leaves are numbered 0..N-1, and represented
+ * in <parent>, <left>, <right> as negative numbers.
+ * 
+ */
+typedef struct {
+  int   N;		/* number of taxa */
+
+  /* (Mandatory) information for the internal nodes of a rooted tree.
+   * There are N-1 nodes, numbered 0..N-2, with the root at 0,
+   * so each array below is indexed [0..N-2].
+   * When an internal node has a left or right branch to a taxon,
+   * <left>/<right> are <= 0, negative <taxon #>; if they're to 
+   * be used as array indices, flip their sign.
+   * There is no ambiguity between taxon 0/root node 0, because 
+   * a taxon can't be a parent, and the root node can't be a child.
+   * For an unrooted tree, by convention, taxon 0 is the outgroup: T->left[0] = 0,
+   * and T->rd[0] = 0.0.
+   */
+  int    *parent;	/* index of parent of node: values are 0..N-2; parent of root 0 = 0 */
+  int    *left;		/* index of left child:  values are -(N-1)..0=taxa; 1..N-2=nodes */
+  int    *right;	/* index of right child: values are -(N-1)..0=taxa; 1..N-2=nodes */
+  double *ld;	        /* left branch length under node: values are >= 0 */
+  double *rd;	        /* right branch length under node: values are >= 0 */
+                        /* in linkage trees, ld[x]=rd[x]= "height" (linkage value) of node, not branch lengths */
+
+  /* Derived (optional) information, that we can reconstruct if
+   * we need to from the mandatory info above.
+   */
+  int    *taxaparent;   /* for taxa  [0..N-1]: index of its parent node, 0..N-2. [esl_tree_SetTaxaParents()] */
+  int    *cladesize;	/* for nodes [0..N-2]: # taxa in this clade, 1..N        [esl_tree_SetCladesizes()]  */
+
+  /* Optional information */
+  char  **taxonlabel;	  /* labels for taxa: [0..N-1] array of char strings */
+  char  **nodelabel;	  /* labels for nodes: [0..N-2] array of char strings */
+
+  /* Tree mode options. */
+  int   is_linkage_tree;	 /* TRUE if this is a linkage tree; if FALSE, it's an additive tree */
+
+
+  /* Tree output options. */
+  int   show_unrooted;	         /* TRUE to output 'root' as a trifurcation (a la PHYLIP) */
+  int   show_node_labels;        /* TRUE to output labels for interior nodes */
+  int   show_root_branchlength;  /* TRUE to show 0.0 branch length to root node (a la TreeAlign) */
+  int   show_branchlengths;	 /* TRUE to output branch lengths */
+  int   show_quoted_labels;	 /* TRUE to output ALL labels as quoted labels */
+  int   show_numeric_taxonlabels;/* TRUE to output taxa labels as their 0..N-1 indices if no other taxonlabel is present */
+
+  /* Memory allocation information, when growing a tree (on input, for example)
+   */
+  int     nalloc;	/* current allocated # of taxa */
+
+} ESL_TREE;
+
+/* UPGMA, average-link, minimum-link, and maximum-link clustering are
+ * all implemented by one algorithm, cluster_engine(), in esl_tree.c.
+ * We define some flags (within the scope of the tree module) to
+ * control the behavior, as we call the algorithm engine from four
+ * different API functions.
+ */
+#define eslUPGMA            0
+#define eslWPGMA            1
+#define eslSINGLE_LINKAGE   2
+#define eslCOMPLETE_LINKAGE 3
+
+
+
+/* 1. The ESL_TREE object.
+ */
+extern ESL_TREE *esl_tree_Create(int ntaxa);
+extern ESL_TREE *esl_tree_CreateGrowable(int nalloc);
+extern ESL_TREE *esl_tree_CreateFromString(char *s);
+extern int       esl_tree_Grow(ESL_TREE *T);
+extern int       esl_tree_SetTaxaParents(ESL_TREE *T);
+extern int       esl_tree_SetCladesizes(ESL_TREE *T);
+extern int       esl_tree_SetTaxonlabels(ESL_TREE *T, char **names);
+extern int       esl_tree_RenumberNodes(ESL_TREE *T);
+extern int       esl_tree_VerifyUltrametric(ESL_TREE *T);
+extern int       esl_tree_Validate(ESL_TREE *T, char *errbuf);
+extern void      esl_tree_Destroy(ESL_TREE *T);
+
+/* 2. Newick format i/o
+ */
+extern int  esl_tree_WriteNewick(FILE *fp, ESL_TREE *T);
+extern int  esl_tree_ReadNewick(FILE *fp, char *errbuf, ESL_TREE **ret_T);
+
+/* 3. Tree comparison algorithms.
+ */
+extern int esl_tree_Compare(ESL_TREE *T1, ESL_TREE *T2);
+
+/* 4. Clustering algorithms for distance-based tree construction.
+ */
+extern int esl_tree_UPGMA(ESL_DMATRIX *D, ESL_TREE **ret_T);
+extern int esl_tree_WPGMA(ESL_DMATRIX *D, ESL_TREE **ret_T);
+extern int esl_tree_SingleLinkage(ESL_DMATRIX *D, ESL_TREE **ret_T);
+extern int esl_tree_CompleteLinkage(ESL_DMATRIX *D, ESL_TREE **ret_T);
+
+/* 5. Generating simulated trees.
+ */
+extern int esl_tree_Simulate(ESL_RANDOMNESS *r, int N, ESL_TREE **ret_T);
+extern int esl_tree_ToDistanceMatrix(ESL_TREE *T, ESL_DMATRIX **ret_D);
+
+
+#endif /*eslTREE_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.tex
new file mode 100755
index 0000000..2623ff3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_tree.tex
@@ -0,0 +1,31 @@
+
+The \eslmod{tree} module implements an object for representing
+phylogenetic trees (\ccode{ESL\_TREE}). It also implements four of the
+most basic distance-based methods for tree inference and clustering
+algorithms (UPGMA, WPGMA, single linkage clustering, and complete
+linkage clustering).
+
+\begin{table}[hbp]
+\begin{center}
+{\small
+\begin{tabular}{|ll|}\hline
+\apisubhead{the \ccode{ESL\_TREE} object}\\
+\hyperlink{func:esl_tree_Create()}{\ccode{esl\_tree\_Create()}} & Constructor.\\
+\hyperlink{func:esl_tree_Destroy()}{\ccode{esl\_tree\_Destroy()}} & Destructor.\\
+\apisubhead{simple tree inference/clustering algorithms}\\
+\hyperlink{func:esl_tree_UPGMA()}{\ccode{esl\_tree\_UPGMA()}} & Infer a tree by UPGMA.\\
+\hyperlink{func:esl_tree_WPGMA()}{\ccode{esl\_tree\_WPGMA()}} & Infer a tree by WPGMA.\\
+\hyperlink{func:esl_tree_SingleLinkage()}{\ccode{esl\_tree\_SingleLinkage()}} & Infer a tree by single-linkage clustering.\\
+\hyperlink{func:esl_tree_CompleteLinkage()}{\ccode{esl\_tree\_CompleteLinkage()}} & Infer a tree by complete-linkage clustering.\\
+\hline
+\end{tabular}
+}
+\end{center}
+\caption{The \eslmod{tree} API. Requires \eslmod{easel}, \eslmod{dmatrix}.}
+\label{tbl:tree_api}
+\end{table}
+
+
+\subsection{Example of using the tree API}
+
+\input{cexcerpts/tree_example}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.c
new file mode 100755
index 0000000..ac0c88a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.c
@@ -0,0 +1,1427 @@
+/* Operations on vectors of floats or doubles.
+ * 
+ * Can operate on vectors of doubles, floats, or integers - appropriate
+ * routine is prefixed with D, F, or I. For example, esl_vec_DSet() is
+ * the Set routine for a vector of doubles; esl_vec_ISet() is for integers.
+ * 
+ * Contents:
+ *    1. The vectorops API.
+ *    2. Unit tests.
+ *    3. Test driver.
+ *    4. Examples.
+ *    5. Copyright and license information.
+ * 
+ */                      
+#include "esl_config.h"
+
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+/* Function:  esl_vec_DSet()
+ * Synopsis:  Set all items in vector to scalar value.
+ *            
+ * Purpose:   Sets all <n> items in <vec> to <value>.
+ *                        
+ *            <esl_vec_FSet()> and <esl_vec_ISet()> do the same,
+ *            for float and integer vectors.
+ */
+void
+esl_vec_DSet(double *vec, int n, double value)
+{
+  int x; 
+  for (x = 0; x < n; x++) vec[x] = value;
+}
+void
+esl_vec_FSet(float *vec, int n, float value)
+{
+  int x; 
+  for (x = 0; x < n; x++) vec[x] = value;
+}
+void
+esl_vec_ISet(int *vec, int n, int value)
+{
+  int x; 
+  for (x = 0; x < n; x++) vec[x] = value;
+}
+
+
+/* Function:  esl_vec_DScale()
+ * Synopsis:  Multiply all items in vector by scalar value.
+ *            
+ * Purpose:   Multiplies all <n> items in <vec> by <scale>.
+ *            
+ *            <esl_vec_FScale()> and <esl_vec_IScale()> do the same,
+ *            for float and integer vectors.
+ *            
+ *            Essentially the same as BLAS1's xSCAL().
+ */
+void
+esl_vec_DScale(double *vec, int n, double scale)
+{
+  int x;
+  for (x = 0; x < n; x++) vec[x] *= scale;
+}
+void
+esl_vec_FScale(float *vec, int n, float scale)
+{
+  int x;
+  for (x = 0; x < n; x++) vec[x] *= scale;
+}
+void
+esl_vec_IScale(int *vec, int n, int scale)
+{
+  int x;
+  for (x = 0; x < n; x++) vec[x] *= scale;
+}
+
+
+/* Function:  esl_vec_DIncrement()
+ * Synopsis:  Add a scalar to all items in a vector.
+ * Incept:    SRE, Mon Mar 21 11:56:57 2005 [St. Louis]
+ *
+ * Purpose:   Adds scalar <x> to all items in the <n>-vector <v>.
+ * 
+ *            <esl_vec_FIncrement()> and <esl_vec_IIncrement()> do the
+ *            same, for float and integer vectors.
+ */
+void
+esl_vec_DIncrement(double *v, int n, double x)
+{
+  int i;
+  for (i = 0; i < n; i++) v[i] += x;
+}
+void
+esl_vec_FIncrement(float *v, int n, float x)
+{
+  int i;
+  for (i = 0; i < n; i++) v[i] += x;
+}
+void
+esl_vec_IIncrement(int *v, int n, int x)
+{
+  int i;
+  for (i = 0; i < n; i++) v[i] += x;
+}
+
+
+
+/* Function:  esl_vec_DSum()
+ * Synopsis:  Returns $\sum_i x_i$. 
+ *            
+ * Purpose:   Returns the scalar sum of the <n> items in <vec>.
+ *            
+ *            <esl_vec_FSum()> and <esl_vec_ISum()> do the same,
+ *            but for float and integer vectors.
+ */
+double 
+esl_vec_DSum(double *vec, int n)
+{
+  double sum = 0.;
+  int    x;
+  for (x = 0; x < n; x++) sum += vec[x];
+  return sum;
+}
+float 
+esl_vec_FSum(float *vec, int n)
+{
+  float sum = 0.;
+  int   x;
+  for (x = 0; x < n; x++) sum += vec[x];
+  return sum;
+}
+int
+esl_vec_ISum(int *vec, int n)
+{
+  int sum = 0;
+  int   x;
+  for (x = 0; x < n; x++) sum += vec[x];
+  return sum;
+}
+
+
+/* Function:  esl_vec_DAdd()
+ * Synopsis:  Vector addition of two vectors.
+ *
+ * Purpose:   Vector addition. Adds <vec2> to <vec1>, leaving
+ *            result in <vec1>. (<vec2> is unchanged.). 
+ *            Both vectors are of size <n>.
+ *            
+ *            <esl_vec_FAdd()> and <esl_vec_IAdd()> do the same,
+ *            for float and integer vectors.
+ */
+void
+esl_vec_DAdd(double *vec1, const double *vec2, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec1[x] += vec2[x];
+}
+void
+esl_vec_FAdd(float *vec1, const float *vec2, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec1[x] += vec2[x];
+}
+void
+esl_vec_IAdd(int *vec1, const int *vec2, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec1[x] += vec2[x];
+}
+
+
+/* Function: esl_vec_DAddScaled()
+ * Synopsis: Scale <vec2> and add it to <vec1>.
+ * 
+ * Purpose:  Scales <vec2> by scalar <a>, and adds that
+ *           to <vec1>. Both vectors are of size <n>. 
+ *           
+ *            <esl_vec_FAddScaled()> and <esl_vec_IAddScaled()> do the same,
+ *            for float and integer vectors.
+ *            
+ *            Essentially the same as BLAS1 xAXPY().
+ */
+void
+esl_vec_DAddScaled(double *vec1, double *vec2, double a, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec1[x] += vec2[x] * a;
+}
+void
+esl_vec_FAddScaled(float *vec1, float *vec2, float a, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec1[x] += vec2[x] * a;
+}
+void
+esl_vec_IAddScaled(int *vec1, int *vec2, int a, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec1[x] += vec2[x] * a;
+}
+
+
+
+/* Function:  esl_vec_DCopy()
+ * Synopsis:  Set <dest> vector to same values as <src>.
+ *
+ * Purpose:   Copies <src> to <dest>. <src> is
+ *            unchanged. Both vectors are of size <n>.
+ *            
+ *            <esl_vec_FCopy()> and <esl_vec_ICopy()> do the same,
+ *            for float and integer vectors.
+ *            
+ *            Essentially the same as BLAS1 xCOPY().
+ */
+void
+esl_vec_DCopy(const double *src, const int n, double *dest)
+{
+  int x;
+  for (x = 0; x < n; x++) dest[x] = src[x];
+}
+void
+esl_vec_FCopy(const float *src, const int n, float *dest)
+{
+  int x;
+  for (x = 0; x < n; x++) dest[x] = src[x];
+}
+void
+esl_vec_ICopy(const int *src, const int n, int *dest)
+{
+  int x;
+  for (x = 0; x < n; x++) dest[x] = src[x];
+}
+
+
+/* Function:  esl_vec_DCompare()
+ * Synopsis:  Return <eslOK> if two vectors are equal.
+ * Incept:    SRE, Mon Nov  6 10:20:28 2006 [Janelia]
+ *
+ * Purpose:   Compare <vec1> to <vec2> for equality, by
+ *            comparing each cognate element pair. Both vectors 
+ *            are of size <n>. Equality of elements is
+ *            defined by being $\leq$ fractional tolerance <tol> 
+ *            for floating point comparisons, and strict equality
+ *            for integer comparisons. Return <eslOK>
+ *            if the vectors are equal, and <eslFAIL> if not.
+ *            
+ *            If <n=0>, the test always succeeds. In this case, either
+ *            <vec1> and <vec2> (or both) may be <NULL>.  This
+ *            accommodates an occasional convention of leaving empty
+ *            vectors <NULL>.
+ *
+ *            <esl_vec_FCompare()> and <esl_vec_ICompare()> do the same,
+ *            for float and integer vectors.
+ */
+int
+esl_vec_DCompare(const double *vec1, const double *vec2, int n, double tol)
+{
+  int i;
+  for (i = 0; i < n; i++) if (esl_DCompare(vec1[i], vec2[i], tol) == eslFAIL) return eslFAIL;
+  return eslOK;
+}
+int
+esl_vec_FCompare(const float *vec1, const float *vec2, int n, float tol)
+{
+  int i;
+  for (i = 0; i < n; i++) if (esl_DCompare(vec1[i], vec2[i], tol) == eslFAIL) return eslFAIL;
+  return eslOK;
+}
+int
+esl_vec_ICompare(const int *vec1, const int *vec2, int n)
+{
+  int i;
+  for (i = 0; i < n; i++) if (vec1[i] != vec2[i]) return eslFAIL;
+  return eslOK;
+}
+
+
+
+/* Function:  esl_vec_DSwap()
+ * Synopsis:  Swap two vectors.
+ *
+ * Purpose:   Swaps <vec2> and <vec1>. 
+ *            Both vectors are of size <n>.
+ *            
+ *            <esl_vec_FSwap()> and <esl_vec_ISwap()> do the same,
+ *            for float and integer vectors.
+ *            
+ *            Essentially the same as BLAS1 xSWAP().
+ *            
+ *            You will be better off swapping the pointers to
+ *            the vectors, if that's feasible.
+ */
+void
+esl_vec_DSwap(double *vec1, double *vec2, int n)
+{
+  int    x;
+  double tmp;
+
+  for (x = 0; x < n; x++) 
+    { tmp = vec1[x]; vec1[x] = vec2[x]; vec2[x] = tmp; }
+}
+void
+esl_vec_FSwap(float *vec1, float *vec2, int n)
+{
+  int   x;
+  float tmp;
+
+  for (x = 0; x < n; x++) 
+    { tmp = vec1[x]; vec1[x] = vec2[x]; vec2[x] = tmp; }
+}
+void
+esl_vec_ISwap(int *vec1, int *vec2, int n)
+{
+  int    x;
+  int tmp;
+
+  for (x = 0; x < n; x++) 
+    { tmp = vec1[x]; vec1[x] = vec2[x]; vec2[x] = tmp; }
+}
+
+
+/* Function:  esl_vec_DReverse()
+ * Synopsis:  Reverse a vector (possibly in place).
+ *
+ * Purpose:   Put the <n> values from vector <vec> in reversed order in
+ *            <rev>. Caller provides storage in <rev> for at least <n>
+ *            values.
+ *            
+ *            <vec> and <rev> can be the same, in which case <vec> is
+ *            reversed in place.
+ *            
+ *            <esl_vec_FReverse()> and <esl_vec_IReverse()>
+ *            do the same, for float and integer values.
+ */
+void
+esl_vec_DReverse(double *vec, double *rev, int n)
+{
+  int    i;
+  double x;
+
+  for (i = 0; i < n/2; i++)
+    {
+      x          = vec[n-i-1];
+      rev[n-i-1] = vec[i];
+      rev[i]     = x;
+    }
+  if (n%2) rev[i] = vec[i];
+}
+void
+esl_vec_FReverse(float *vec, float *rev, int n)
+{
+  int    i;
+  float  x;
+
+  for (i = 0; i < n/2; i++)
+    {
+      x          = vec[n-i-1];
+      rev[n-i-1] = vec[i];
+      rev[i]     = x;
+    }
+  if (n%2) rev[i] = vec[i];
+}
+void
+esl_vec_IReverse(int *vec, int *rev, int n)
+{
+  int i;
+  int x;
+
+  for (i = 0; i < n/2; i++)
+    {
+      x          = vec[n-i-1];
+      rev[n-i-1] = vec[i];
+      rev[i]     = x;
+    }
+  if (n%2) rev[i] = vec[i];
+}
+
+
+
+
+/* Function:  esl_vec_DDot()
+ * Synopsis:  Return the dot product of two vectors.
+ *
+ * Purpose:   Returns the scalar dot product <vec1> $\cdot$ <vec2>.
+ *            Both vectors are of size <n>.
+ *            
+ *            <esl_vec_FDot()> and <esl_vec_IDot()> do the same,
+ *            for float and integer vectors.
+ */
+double
+esl_vec_DDot(double *vec1, double *vec2, int n)
+{
+  double result = 0.;
+  int x;
+  for (x = 0; x < n; x++) result += vec1[x] * vec2[x];
+  return result;
+}
+float
+esl_vec_FDot(float *vec1, float *vec2, int n)
+{
+  float result = 0.;
+  int x;
+  for (x = 0; x < n; x++) result += vec1[x] * vec2[x];
+  return result;
+}
+int
+esl_vec_IDot(int *vec1, int *vec2, int n)
+{
+  int result = 0;
+  int x;
+  for (x = 0; x < n; x++) result += vec1[x] * vec2[x];
+  return result;
+}
+
+
+
+/* Function:  esl_vec_DMax()
+ * Synopsis:  Return value of the maximum element in a vector.           
+ *
+ * Purpose:   Returns the maximum value of the <n> values
+ *            in <vec>.
+ *            
+ *            <esl_vec_FMax()> and <esl_vec_IMax()> do the same,
+ *            for float and integer vectors.
+ */
+double
+esl_vec_DMax(const double *vec, int n)
+{
+  int i;
+  double best;
+
+  best = vec[0];
+  for (i = 1; i < n; i++)
+    if (vec[i] > best) best = vec[i];
+  return best;
+}
+float
+esl_vec_FMax(const float *vec, int n)
+{
+  int   i;
+  float best;
+
+  best = vec[0];
+  for (i = 1; i < n; i++)
+    if (vec[i] > best) best = vec[i];
+  return best;
+}
+int
+esl_vec_IMax(const int *vec, int n)
+{
+  int   i;
+  int   best;
+
+  best = vec[0];
+  for (i = 1; i < n; i++)
+    if (vec[i] > best) best = vec[i];
+  return best;
+}
+
+
+/* Function:  esl_vec_DMin()
+ * Synopsis:  Return value of the minimum element in a vector.           
+ *
+ * Purpose:   Returns the minimum value of the <n> values
+ *            in <vec>.
+ *            
+ *            <esl_vec_FMin()> and <esl_vec_IMin()> do the same,
+ *            for float and integer vectors.
+ */
+double
+esl_vec_DMin(const double *vec, int n)
+{
+  int i;
+  double best;
+
+  best = vec[0];
+  for (i = 1; i < n; i++)
+    if (vec[i] < best) best = vec[i];
+  return best;
+}
+float
+esl_vec_FMin(const float *vec, int n)
+{
+  int   i;
+  float best;
+
+  best = vec[0];
+  for (i = 1; i < n; i++)
+    if (vec[i] < best) best = vec[i];
+  return best;
+}
+int
+esl_vec_IMin(const int *vec, int n)
+{
+  int   i;
+  int   best;
+
+  best = vec[0];
+  for (i = 1; i < n; i++)
+    if (vec[i] < best) best = vec[i];
+  return best;
+}
+
+
+/* Function:  esl_vec_DArgMax()
+ * Synopsis:  Return index of maximum element in a vector.           
+ *
+ * Purpose:   Returns the index of the maximum value in the <n> values
+ *            in <vec>. In case of ties, the element with the smallest index
+ *            is returned. 
+ *            
+ *            <n> can be 0 and <vec> can be <NULL>, in which case the
+ *            function returns 0.
+ *            
+ *            <esl_vec_FArgMax()> and <esl_vec_IArgMax()> do the same,
+ *            for float and integer vectors.
+ *            
+ * Note:      Do not change the behavior that the smallest index is
+ *            returned in case of ties. Some functions rely on this
+ *            behavior: optimal accuracy tracebacks in HMMER for example.           
+ */
+int
+esl_vec_DArgMax(const double *vec, int n)
+{
+  int i;
+  int best = 0;
+
+  for (i = 1; i < n; i++)
+    if (vec[i] > vec[best]) best = i;
+  return best;
+}
+int
+esl_vec_FArgMax(const float *vec, int n)
+{
+  int i;
+  int best = 0;
+
+  for (i = 1; i < n; i++)
+    if (vec[i] > vec[best]) best = i;
+  return best;
+}
+int
+esl_vec_IArgMax(const int *vec, int n)
+{
+  int i;
+  int best = 0;
+
+  for (i = 1; i < n; i++)
+    if (vec[i] > vec[best]) best = i;
+  return best;
+}
+
+
+/* Function:  esl_vec_DArgMin()
+ * Synopsis:  Return index of minimum element in a vector.           
+ *
+ * Purpose:   Returns the index of the minimum value in the <n> values
+ *            in <vec>.
+ *            
+ *            <esl_vec_FArgMin()> and <esl_vec_IArgMin()> do the same,
+ *            for float and integer vectors.
+ */
+int
+esl_vec_DArgMin(const double *vec, int n)
+{
+  int i;
+  int best = 0;
+  for (i = 1; i < n; i++)
+    if (vec[i] < vec[best]) best = i;
+  return best;
+}
+int
+esl_vec_FArgMin(const float *vec, int n)
+{
+  int   i;
+  int   best = 0;
+
+  for (i = 1; i < n; i++)
+    if (vec[i] < vec[best]) best = i;
+  return best;
+}
+int
+esl_vec_IArgMin(const int *vec, int n)
+{
+  int   i;
+  int   best = 0;
+
+  for (i = 1; i < n; i++)
+    if (vec[i] < vec[best]) best = i;
+  return best;
+}
+
+
+/* some static functions to pass to qsort() that the 
+ * upcoming Sort() functions will call
+ */
+static int
+qsort_DIncreasing(const void *xp1, const void *xp2)
+{
+  double x1 = * (double *) xp1;
+  double x2 = * (double *) xp2; 
+  if (x1 < x2) return -1;
+  if (x1 > x2) return 1;
+  return 0;
+}
+static int
+qsort_FIncreasing(const void *xp1, const void *xp2)
+{
+  float x1 = * (float *) xp1;
+  float x2 = * (float *) xp2; 
+  if (x1 < x2) return -1;
+  if (x1 > x2) return 1;
+  return 0;
+}
+static int
+qsort_IIncreasing(const void *xp1, const void *xp2)
+{
+  int x1 = * (int *) xp1;
+  int x2 = * (int *) xp2; 
+  if (x1 < x2) return -1;
+  if (x1 > x2) return 1;
+  return 0;
+}
+static int
+qsort_DDecreasing(const void *xp1, const void *xp2)
+{
+  double x1 = * (double *) xp1;
+  double x2 = * (double *) xp2; 
+  if (x1 > x2) return -1;
+  if (x1 < x2) return 1;
+  return 0;
+}
+static int
+qsort_FDecreasing(const void *xp1, const void *xp2)
+{
+  float x1 = * (float *) xp1;
+  float x2 = * (float *) xp2; 
+  if (x1 > x2) return -1;
+  if (x1 < x2) return 1;
+  return 0;
+}
+static int
+qsort_IDecreasing(const void *xp1, const void *xp2)
+{
+  int x1 = * (int *) xp1;
+  int x2 = * (int *) xp2; 
+  if (x1 > x2) return -1;
+  if (x1 < x2) return 1;
+  return 0;
+}
+
+/* Function:  esl_vec_DSortIncreasing()
+ * Synopsis:  Sort vector from smallest to largest.          
+ * Incept:    SRE, Wed Aug 17 10:44:31 2005 [St. Louis]
+ *
+ * Purpose:   Sorts <vec> in place, from smallest to largest value.
+ *            (That is, <vec[0]> is the minimum and <vec[n-1]> is
+ *            the maximum.)
+ *            
+ *            <esl_vec_FSortIncreasing()> and <esl_vec_ISortIncreasing()>
+ *            do the same, for float and integer vectors.
+ */
+void
+esl_vec_DSortIncreasing(double *vec, int n)
+{
+  qsort((void *) vec, n, sizeof(double), qsort_DIncreasing);
+}
+void
+esl_vec_FSortIncreasing(float *vec, int n)
+{
+  qsort((void *) vec, n, sizeof(float), qsort_FIncreasing);
+}
+void
+esl_vec_ISortIncreasing(int *vec, int n)
+{
+  qsort((void *) vec, n, sizeof(int), qsort_IIncreasing);
+}
+
+/* Function:  esl_vec_DSortDecreasing()
+ * Synopsis:  Sort vector from largest to smallest.          
+ * Incept:    SRE, Wed Aug 17 10:44:31 2005 [St. Louis]
+ *
+ * Purpose:   Sorts <vec> in place, from largest to smallest value.
+ *            (That is, <vec[0]> is the maximum and <vec[n-1]> is
+ *            the minimum.)
+ *            
+ *            <esl_vec_FSortDecreasing()> and <esl_vec_ISortDecreasing()>
+ *            do the same, for float and integer vectors.
+ */
+void
+esl_vec_DSortDecreasing(double *vec, int n)
+{
+  qsort((void *) vec, n, sizeof(double), qsort_DDecreasing);
+}
+void
+esl_vec_FSortDecreasing(float *vec, int n)
+{
+  qsort((void *) vec, n, sizeof(float), qsort_FDecreasing);
+}
+void
+esl_vec_ISortDecreasing(int *vec, int n)
+{
+  qsort((void *) vec, n, sizeof(int), qsort_IDecreasing);
+}
+
+
+/* Function:  esl_vec_DDump()
+ * Synopsis:  Output vector to a stream as text.            
+ * Incept:    ER, Thu Jul 21 12:54:56 CDT 2005 [St. Louis]
+ *
+ * Purpose:   Given a vector, dump it to stream <ofp>.
+ * 
+ *            If <label> is non-NULL, they represent
+ *            single-character labels to put on the vector. 
+ *            (For example, these might be a sequence alphabet).
+ *            Numbers 1..n is used if <label> is NULL.
+ *
+ * Args:      ofp   -  output file pointer; stdout, for example.
+ *            v     -  vector to dump.
+ *            label -  optional: NULL, or character labels
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_vec_DDump(FILE *ofp, double *v, int n, char *label)
+{
+  int a;
+
+  fprintf(ofp, "     ");
+  if (label != NULL) 
+    for (a = 0; a < n; a++) fprintf(ofp, "         %c ", label[a]);
+  else
+    for (a = 0; a < n; a++) fprintf(ofp, "%10d ", a+1);
+  fprintf(ofp, "\n");
+  
+  fprintf(ofp, "      ");
+  for (a = 0; a < n; a++) fprintf(ofp, "%10.6f ", v[a]);
+  fprintf(ofp, "\n");
+
+  return eslOK;
+}
+int
+esl_vec_FDump(FILE *ofp, float *v, int n, char *label)
+{
+  int a;
+
+  fprintf(ofp, "     ");
+  if (label != NULL) 
+    for (a = 0; a < n; a++) fprintf(ofp, "         %c ", label[a]);
+  else
+    for (a = 0; a < n; a++) fprintf(ofp, "%10d ", a+1);
+  fprintf(ofp, "\n");
+  
+  fprintf(ofp, "      ");
+  for (a = 0; a < n; a++) fprintf(ofp, "%10.6f ", v[a]);
+  fprintf(ofp, "\n");
+
+  return eslOK;
+}
+int
+esl_vec_IDump(FILE *ofp, int *v, int n, char *label)
+{
+  int a;
+
+  fprintf(ofp, "     ");
+  if (label != NULL) 
+    for (a = 0; a < n; a++) fprintf(ofp, "       %c ", label[a]);
+  else
+    for (a = 0; a < n; a++) fprintf(ofp, "%8d ", a+1);
+  fprintf(ofp, "\n");
+  
+  fprintf(ofp, "      ");
+  for (a = 0; a < n; a++) fprintf(ofp, "%8d ", v[a]);
+  fprintf(ofp, "\n");
+
+  return eslOK;
+}
+
+/* Function:  esl_vec_D2F()
+ * Synopsis:  Convert between single-precision and double-precision vectors.            
+ * Incept:    SRE, Thu Mar 30 09:04:17 2006 [St. Louis]
+ *
+ * Purpose:   Copy a double vector <src> to a float vector <dst>. Caller
+ *            provides space in the float vector that is at
+ *            least <n>.
+ *            
+ *            Similarly, <esl_vec_F2D()> converts float to double; 
+ *            <esl_vec_I2D()> converts integer to double; 
+ *            <esl_vec_I2F()> converts integer to float.
+ */
+void
+esl_vec_D2F(double *src, int n, float *dst)
+{
+  int i;
+  for (i = 0; i < n; i++) dst[i] = src[i];
+}
+void
+esl_vec_F2D(float *src, int n, double *dst)
+{
+  int i;
+  for (i = 0; i < n; i++) dst[i] = src[i];
+}
+void
+esl_vec_I2F(int *src, int n, float *dst)
+{
+  int i;
+  for (i = 0; i < n; i++) dst[i] = src[i];
+}
+void
+esl_vec_I2D(int *src, int n, double *dst)
+{
+  int i;
+  for (i = 0; i < n; i++) dst[i] = src[i];
+}
+
+
+
+
+/* Function:  esl_vec_DNorm()
+ * Synopsis:  Normalize probability vector.           
+ *
+ * Purpose:   Normalizes a probability vector <vec>,
+ *            such that $\sum_{i=1}{n} \mathrm{vec}_i = 1.0$.
+ *            
+ *            <esl_vec_FNorm()> does the same, for a probability vector
+ *            of floats.
+ */
+void
+esl_vec_DNorm(double *vec, int n)
+{
+  int    x;
+  double sum;
+
+  sum = esl_vec_DSum(vec, n);
+  if (sum != 0.0) for (x = 0; x < n; x++) vec[x] /= sum;
+  else            for (x = 0; x < n; x++) vec[x] = 1. / (double) n;
+}
+void
+esl_vec_FNorm(float *vec, int n)
+{
+  int    x;
+  float  sum;
+
+  sum = esl_vec_FSum(vec, n);
+  if (sum != 0.0) for (x = 0; x < n; x++) vec[x] /= sum;
+  else            for (x = 0; x < n; x++) vec[x] = 1. / (float) n;
+}
+
+
+/* Function:  esl_vec_DLog()
+ * Synopsis:  Convert probability vector elements to log probabilities.           
+ *
+ * Purpose:   Converts a probability vector <vec> to a log
+ *            probability vector: takes the log of each of the <n> 
+ *            values in the vector.
+ *
+ *            <esl_vec_FLog()> does the same, for a probability vector
+ *            of floats.
+ */
+void
+esl_vec_DLog(double *vec, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) 
+    if (vec[x] > 0.) vec[x] = log(vec[x]);
+    else vec[x] = -DBL_MAX;
+}
+void
+esl_vec_FLog(float *vec, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) 
+    if (vec[x] > 0.) vec[x] = logf(vec[x]);
+    else vec[x] = -FLT_MAX;
+}
+
+
+/* Function:  esl_vec_DEntropy()
+ * Synopsis:  Return Shannon entropy of p-vector, in bits.           
+ *
+ * Purpose:   Returns the Shannon entropy of a probability vector <p>,
+ *            in bits ($\log_2$), defined as \citep{CoverThomas}:
+ *            
+ *            \[
+ *               H = - \sum_x p_x \log_2 p_x.
+ *            \]
+ *
+ *            <esl_vec_FEntropy()> does the same, for a probability vector
+ *            of floats.
+ */
+double
+esl_vec_DEntropy(const double *p, int n)
+{
+  int    i;
+  double entropy;
+ 
+  entropy = 0.;
+  for(i = 0; i < n; i++)
+    if (p[i] > 0.) entropy += p[i] * log(p[i]);
+  return(-1.44269504 * entropy); /* converts to bits */
+}
+float
+esl_vec_FEntropy(const float *p, int n)
+{
+  int    i;
+  float  entropy;
+
+  entropy = 0.;
+  for(i = 0; i < n; i++)
+    if (p[i] > 0.) entropy += p[i] * logf(p[i]);
+  return(-1.44269504 * entropy); /* converts to bits */
+}
+
+/* Function:  esl_vec_DRelEntropy()
+ * Synopsis:  Return relative entropy $D(p \parallel q)$ in bits.
+ * Incept:    SRE, Fri May 11 09:03:07 2007 [Janelia]
+ *
+ * Purpose:   Returns Shannon relative entropy of probability
+ *            vectors <p> and <q> in bits, also known as the
+ *            Kullback Leibler "distance" \citep[p.18]{CoverThomas}:
+ *            
+ *            \[
+ *               D(p \parallel f) = \sum_x  p_x \log_2 \frac{p_x}{q_x}.
+ *            \]
+ *
+ *            If for any $x$ $q_x = 0$ and $p_x > 0$, the relative
+ *            entropy is $\infty$.
+ *
+ *            <esl_vec_FRelEntropy()> does the same, for probability
+ *            vectors of floats.
+ */
+double
+esl_vec_DRelEntropy(const double *p, const double *q, int n)
+{
+  int    i;
+  double kl;
+ 
+  kl = 0.;
+  for(i = 0; i < n; i++)
+    if (p[i] > 0.) {
+      if (q[i] == 0.) return eslINFINITY;
+      else            kl += p[i] * log(p[i]/q[i]);
+    }
+  return(1.44269504 * kl); /* converts to bits */
+}
+float
+esl_vec_FRelEntropy(const float *p, const float *q, int n)
+{
+  int    i;
+  float  kl;
+
+  kl = 0.;
+  for(i = 0; i < n; i++)
+    if (p[i] > 0.) {
+      if (q[i] == 0.) return eslINFINITY;
+      else            kl += p[i] * log(p[i]/q[i]);
+    }
+  return(1.44269504 * kl); /* converts to bits */
+}
+
+
+/* Function:  esl_vec_DExp()
+ * Synopsis:  Converts log probability vector elements to probabilities.           
+ *
+ * Purpose:   Converts a log probability vector <vec> back to a 
+ *            probability vector: exponentiates each of the <n> 
+ *            values in the vector.
+ *            
+ *            This routine only calls <exp()> on the elements of 
+ *            vector, which are presumed to be log probabilities;
+ *            whether the resulting vector is a properly normalized
+ *            probability vector is the caller's problem.
+ *
+ *            <esl_vec_FExp()> does the same, for a log probability vector
+ *            of floats.
+ */
+void
+esl_vec_DExp(double *vec, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec[x] = exp(vec[x]);
+}
+void
+esl_vec_FExp(float *vec, int n)
+{
+  int x;
+  for (x = 0; x < n; x++) vec[x] = expf(vec[x]);
+}
+
+/* Function:  esl_vec_DLogSum()
+ * Synopsis:  Given log-p-vector, return log of sum of probabilities.
+ *
+ * Purpose:   <vec> is a log probability vector; return the log of the scalar sum
+ *            of the probabilities in <vec>. That is, the <n> elements in <vec>
+ *            are log probabilities, but the summation is done in probability
+ *            space, by exponentiating each of the <n> values in the vector,
+ *            summing, and returning the log of the sum. 
+ *            
+ *            That is: return $\log \sum_i e^{v_i}$.
+ *
+ *            The trick is to do this without numerical underflow or overflow.
+ *
+ *            <esl_vec_FLogSum()> does the same, for a log probability vector
+ *            of floats.
+ */
+double
+esl_vec_DLogSum(double *vec, int n)
+{
+  int x;
+  double max, sum;
+  
+  max = esl_vec_DMax(vec, n);
+  if (max == eslINFINITY) return eslINFINITY; /* avoid inf-inf below! */
+  sum = 0.0;
+  for (x = 0; x < n; x++)
+    if (vec[x] > max - 50.)
+      sum += exp(vec[x] - max);
+  sum = log(sum) + max;
+  return sum;
+}
+float
+esl_vec_FLogSum(float *vec, int n)
+{
+  int x;
+  float max, sum;
+  
+  max = esl_vec_FMax(vec, n);
+  sum = 0.0;
+  for (x = 0; x < n; x++)
+    if (vec[x] > max - 50.)
+      sum += expf(vec[x] - max);
+  sum = logf(sum) + max;
+  return sum;
+}
+
+
+/* Function:  esl_vec_DLogNorm()
+ * Synopsis:  Normalize a log p-vector, make it a p-vector.           
+ * Incept:    SRE, Thu Apr  7 17:45:39 2005 [St. Louis]
+ *
+ * Purpose:   Given an unnormalized log probability vector <vec>   
+ *            of length <n>, normalize it and make it a 
+ *            probability vector. 
+ *            
+ *            <esl_vec_FLogNorm()> does the same, but for a vector
+ *            of floats instead of doubles.
+ *
+ * Returns:   (void); <vec> is changed in place.
+ */
+void
+esl_vec_DLogNorm(double *vec, int n)
+{
+  double denom;
+  
+  denom = esl_vec_DLogSum(vec, n);
+  esl_vec_DIncrement(vec, n, -1.*denom);
+  esl_vec_DExp (vec, n);
+  esl_vec_DNorm(vec, n);
+}
+void
+esl_vec_FLogNorm(float *vec, int n)
+{
+  float denom;
+  
+  denom = esl_vec_FLogSum(vec, n);
+  esl_vec_FIncrement(vec, n, -1.*denom);
+  esl_vec_FExp (vec, n);
+  esl_vec_FNorm(vec, n);
+}
+
+
+/* Function:  esl_vec_DCDF()
+ * Synopsis:  Calculate cumulative distribution for a discrete prob vector
+ * Incept:    SRE, Wed Jan 12 09:09:42 2011 [Janelia]
+ *
+ * Purpose:   Given a probability vector <p> of length <n>, 
+ *            calculates its cumulate distribution function
+ *            and puts in in caller-allocated space <cdf>.
+ *            Caller must have allocated <cdf> for at least
+ *            <n> elements.
+ *            
+ *            By definition, <cdf[0] == p[0]>, and <cdf[n-1]> ought to
+ *            be 1.0; however, numerical roundoff error must be tolerated
+ *            in the sum. If caller isn't sure about <p>'s provenance,
+ *            it may want to check that <cdf[n-1]> is tolerably close 
+ *            to 1.0 (see <esl_DCompare()>).
+ *
+ *            It is ok for <cdf> to be the same space as <p>
+ *            (<esl_vec_DCDF(p, n, p)> is fine); that is, <p> can be
+ *            overwritten by <cdf>.
+ *
+ * Args:      p    - input probability vector p[0..n-1]
+ *            n    - number of elements in p
+ *            cdf  - RETURN: cumulative distribution for p, in caller-allocated space
+ *
+ * Returns:   (void).
+ */
+void
+esl_vec_DCDF(double *p, int n, double *cdf)
+{
+  int i;
+ 
+  cdf[0] = p[0];
+  for (i = 1; i < n; i++) 
+    cdf[i] = p[i] + cdf[i-1];
+}
+void
+esl_vec_FCDF(float *p, int n, float *cdf)
+{
+  int i;
+ 
+  cdf[0] = p[0];
+  for (i = 1; i < n; i++) 
+    cdf[i] = p[i] + cdf[i-1];
+}
+
+
+
+/* Function:  esl_vec_DValidate()
+ * Synopsis:  Verifies that vector is p-vector.
+ * Incept:    ER, Tue Dec  5 09:38:54 EST 2006 [janelia]
+ *
+ * Purpose:   Validate a probability vector <vec> of length <n>.
+ *            Each element has to be between 0 and 1, and
+ *            the sum of all elements has to be 1.
+ *
+ * Args:      v      - p vector to validate.
+ *            n      - dimensionality of v
+ *            tol    - convergence criterion applied to sum of v
+ *            errbuf - NULL, or a failure message buffer allocated
+ *                     for at least <eslERRBUFSIZE> chars. 
+ *
+ * Returns:   <eslOK> on success, or <eslFAIL> on validation failure.
+ *            Upon failure, if caller provided a non-<NULL> <errbuf>,
+ *            an informative message is left there.
+ */
+int
+esl_vec_DValidate(double *vec, int n, double tol, char *errbuf)
+{
+  int    status;
+  int    x;
+  double sum = 0.;
+
+  if (errbuf) *errbuf = 0;
+  if (n == 0) return eslOK;
+
+  for (x = 0; x < n; x++) {
+    if (vec[x] < 0.0 || vec[x] > 1.0)
+      ESL_XFAIL(eslFAIL, errbuf, "value %d is not a probability between 0..1", x);
+    sum += vec[x];
+  }
+
+  if (fabs(sum - 1.0) > tol) 
+    ESL_XFAIL(eslFAIL, errbuf, "vector does not sum to 1.0");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+int
+esl_vec_FValidate(float *vec, int n, float tol, char *errbuf)
+{
+  int   status;
+  int   x;
+  float sum = 0.;
+
+  if (errbuf) *errbuf = 0;
+  if (n == 0) return eslOK;
+
+  for (x = 0; x < n; x++) {
+    if (vec[x] < 0.0 || vec[x] > 1.0)
+      ESL_XFAIL(eslFAIL, errbuf, "value %d is not a probability between 0..1", x);
+    sum += vec[x];
+  }
+
+  if (fabs(sum - 1.0) > tol) 
+    ESL_XFAIL(eslFAIL, errbuf, "vector does not sum to 1.0");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  esl_vec_DLogValidate()
+ * Synopsis:  Verify that vector is a log-p-vector.           
+ * Incept:    ER,  Tue Dec  5 09:46:51 EST 2006 [janelia]
+ *
+ * Purpose:   Validate a log probability vector <vec> of length <n>.
+ *            The exp of each element has to be between 0 and 1, and
+ *            the sum of all elements has to be 1.
+ *
+ * Args:      v      - log p vector to validate.
+ *            n      - dimensionality of v
+ *            tol    - convergence criterion applied to sum of exp v
+ *            errbuf - NULL, or a failure message buffer allocated
+ *                     for at least p7_ERRBUFSIZE chars. 
+ *
+ * Returns:   <eslOK> on success, or <eslFAIL> on failure; upon failure,
+ *            if caller provided a non-<NULL> <errbuf>, an informative
+ *            message is left there.
+ *            
+ * Throws:    <eslEMEM> on allocation failure.           
+ */
+int
+esl_vec_DLogValidate(double *vec, int n, double tol, char *errbuf)
+{
+  int     status;
+  double *expvec = NULL;
+
+  if (errbuf) *errbuf = 0;
+  if (n == 0) return eslOK;
+
+  ESL_ALLOC(expvec, sizeof(double)*n);
+  esl_vec_DCopy(vec, n, expvec);
+  esl_vec_DExp(expvec, n); 
+  if ((status = esl_vec_DValidate(expvec, n, tol, errbuf)) != eslOK) goto ERROR;
+  free(expvec);
+  return eslOK;
+
+ ERROR:
+  if (expvec != NULL) free(expvec);
+  return status;
+}
+int
+esl_vec_FLogValidate(float *vec, int n, float tol, char *errbuf)
+{
+  int     status;
+  float  *expvec = NULL;
+
+  if (errbuf) *errbuf = 0;
+  if (n == 0) return eslOK;
+
+  ESL_ALLOC(expvec, sizeof(float)*n);
+  esl_vec_FCopy(vec, n, expvec);
+  esl_vec_FExp(expvec, n); 
+  if ((status = esl_vec_FValidate(expvec, n, tol, errbuf)) != eslOK) goto ERROR;
+  free(expvec);
+  return eslOK;
+
+ ERROR:
+  if (expvec != NULL) free(expvec);
+  return eslOK;
+}
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+
+/* Function:  esl_vec_DShuffle()
+ * Synopsis:  Shuffle a vector, in place.
+ *
+ * Purpose:   Shuffle a vector <v> of <n> items, using the
+ *            random number generator <r>.
+ */
+int
+esl_vec_DShuffle(ESL_RANDOMNESS *r, double *v, int n)
+{
+  double swap;
+  int    pos;
+  for ( ; n > 1; n--)
+    {
+      pos = esl_rnd_Roll(r, n);
+      swap = v[pos]; 
+      v[pos] = v[n-1];
+      v[n-1] = swap;
+    }
+  return eslOK;
+}
+int
+esl_vec_FShuffle(ESL_RANDOMNESS *r, float *v, int n)
+{
+  float swap;
+  int   pos;
+  for ( ; n > 1; n--)
+    {
+      pos = esl_rnd_Roll(r, n);
+      swap = v[pos]; 
+      v[pos] = v[n-1];
+      v[n-1] = swap;
+    }
+  return eslOK;
+}
+int
+esl_vec_IShuffle(ESL_RANDOMNESS *r, int *v, int n)
+{
+  int swap;
+  int pos;
+  for ( ; n > 1; n--)
+    {
+      pos = esl_rnd_Roll(r, n);
+      swap = v[pos]; 
+      v[pos] = v[n-1];
+      v[n-1] = swap;
+    }
+  return eslOK;
+}
+#endif /*eslAUGMENT_RANDOM*/
+
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/ 
+#ifdef eslVECTOROPS_TESTDRIVE
+static void
+utest_pvectors(void)
+{
+  char  *msg   = "pvector unit test failed";
+  double p1[4] = { 0.25, 0.25, 0.25, 0.25 };
+  double p2[4];
+  double p3[4];
+  float  p1f[4]; 
+  float  p2f[4] = { 0.0,   0.5, 0.5,  0.0  };
+  float  p3f[4];
+  int    n = 4;
+  double result;
+
+  esl_vec_D2F(p1,  n, p1f);
+  esl_vec_F2D(p2f, n, p2);  
+
+  if (esl_vec_DValidate(p1,  n, 1e-12, NULL) != eslOK) esl_fatal(msg);
+  if (esl_vec_FValidate(p1f, n, 1e-7,  NULL) != eslOK) esl_fatal(msg);
+
+  result = esl_vec_DEntropy(p1,  n);          if (esl_DCompare(2.0, result, 1e-9) != eslOK) esl_fatal(msg);
+  result = esl_vec_FEntropy(p1f, n);          if (esl_DCompare(2.0, result, 1e-9) != eslOK) esl_fatal(msg);
+  result = esl_vec_DEntropy(p2,  n);          if (esl_DCompare(1.0, result, 1e-9) != eslOK) esl_fatal(msg);
+  result = esl_vec_FEntropy(p2f, n);          if (esl_DCompare(1.0, result, 1e-9) != eslOK) esl_fatal(msg);
+
+  result = esl_vec_DRelEntropy(p2,  p1,  n);  if (esl_DCompare(1.0, result, 1e-9) != eslOK) esl_fatal(msg);
+  result = esl_vec_FRelEntropy(p2f, p1f, n);  if (esl_DCompare(1.0, result, 1e-9) != eslOK) esl_fatal(msg);
+
+  result = esl_vec_DRelEntropy(p1,  p2,  n);  if (result != eslINFINITY)  esl_fatal(msg);
+  result = esl_vec_FRelEntropy(p1f, p2f, n);  if (result != eslINFINITY)  esl_fatal(msg);
+
+  esl_vec_DLog(p2, n);
+  if (esl_vec_DLogValidate(p2, n, 1e-12, NULL) != eslOK) esl_fatal(msg);
+  esl_vec_DExp(p2, n);
+  if (p2[0] != 0.) esl_fatal(msg);
+
+  esl_vec_FLog(p2f, n);
+  if (esl_vec_FLogValidate(p2f, n, 1e-7, NULL) != eslOK) esl_fatal(msg);
+  esl_vec_FExp(p2f, n);
+  if (p2f[0] != 0.) esl_fatal(msg);
+
+  esl_vec_DCopy(p2, n, p3);
+  esl_vec_DScale(p3, n, 10.);
+  esl_vec_DNorm(p3, n);
+  if (esl_vec_DCompare(p2, p3, n, 1e-12) != eslOK) esl_fatal(msg);
+
+  esl_vec_DLog(p3, n);
+  result = esl_vec_DLogSum(p3, n); if (esl_DCompare(0.0, result, 1e-12) != eslOK) esl_fatal(msg);
+  esl_vec_DIncrement(p3, n, 2.0);
+  esl_vec_DLogNorm(p3, n);
+  if (esl_vec_DCompare(p2, p3, n, 1e-12) != eslOK) esl_fatal(msg);
+
+  esl_vec_FCopy(p2f, n, p3f);
+  esl_vec_FScale(p3f, n, 10.);
+  esl_vec_FNorm(p3f, n);
+  if (esl_vec_FCompare(p2f, p3f, n, 1e-7) != eslOK) esl_fatal(msg);
+
+  esl_vec_FLog(p3f, n);
+  result = esl_vec_FLogSum(p3f, n); if (esl_DCompare(0.0, result, 1e-7) != eslOK) esl_fatal(msg);
+  esl_vec_FIncrement(p3f, n, 2.0);
+  esl_vec_FLogNorm(p3f, n);
+  if (esl_vec_FCompare(p2f, p3f, n, 1e-7) != eslOK) esl_fatal(msg);
+
+  return;
+}
+#endif /*eslVECTOROPS_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/ 
+
+/*   gcc -g -Wall -o test -I. -L. -DeslVECTOROPS_TESTDRIVE esl_vectorops.c -leasel -lm
+ */
+#ifdef eslVECTOROPS_TESTDRIVE
+#include "easel.h"
+#include "esl_vectorops.h"
+
+int main(void)
+{
+  utest_pvectors();
+  return 0;
+}
+#endif /*eslVECTOROPS_TESTDRIVE*/
+
+/*****************************************************************
+ * 4. Examples
+ *****************************************************************/ 
+
+#ifdef eslVECTOROPS_EXAMPLE
+/*::cexcerpt::vectorops_example::begin::*/
+/*   gcc -g -Wall -o example -I. -DeslVECTOROPS_EXAMPLE esl_vectorops.c easel.c -lm   */
+#include "easel.h"
+#include "esl_vectorops.h"
+
+int main(void)
+{
+  double *p;
+  char    labels[] = "ACGT";
+  int     n = 4;
+
+  p = malloc(sizeof(double) * n);
+  esl_vec_DSet(p, n, 1.0);
+  esl_vec_DNorm(p, n);
+  esl_vec_DDump(stdout, p, n, labels);
+  free(p);
+  return 0;
+}
+/*::cexcerpt::vectorops_example::end::*/
+#endif /*eslVECTOROPS_EXAMPLE*/
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_vectorops.c 861 2013-04-12 14:43:15Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_vectorops.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.h
new file mode 100755
index 0000000..6e1d128
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.h
@@ -0,0 +1,133 @@
+/* Vector operations.
+ */
+#ifndef eslVECTOROPS_INCLUDED
+#define eslVECTOROPS_INCLUDED
+
+extern void   esl_vec_DSet(double *vec, int n, double value);
+extern void   esl_vec_FSet(float  *vec, int n, float  value);
+extern void   esl_vec_ISet(int    *vec, int n, int    value);
+
+extern void   esl_vec_DScale(double *vec, int n, double scale);
+extern void   esl_vec_FScale(float  *vec, int n, float  scale);
+extern void   esl_vec_IScale(int    *vec, int n, int    scale);
+
+extern void   esl_vec_DIncrement(double *v, int n, double x);
+extern void   esl_vec_FIncrement(float  *v, int n, float  x);
+extern void   esl_vec_IIncrement(int    *v, int n, int    x);
+
+extern double esl_vec_DSum(double *vec, int n);
+extern float  esl_vec_FSum(float  *vec, int n);
+extern int    esl_vec_ISum(int    *vec, int n);
+
+extern void   esl_vec_DAdd(double *vec1, const double *vec2, int n);
+extern void   esl_vec_FAdd(float  *vec1, const float  *vec2, int n);
+extern void   esl_vec_IAdd(int    *vec1, const int    *vec2, int n);
+
+extern void   esl_vec_DAddScaled(double *vec1, double *vec2, double a, int n);
+extern void   esl_vec_FAddScaled(float  *vec1, float  *vec2, float  a, int n);
+extern void   esl_vec_IAddScaled(int    *vec1, int    *vec2, int    a, int n);
+
+extern void   esl_vec_DCopy(const double *src, const int n, double *dest);
+extern void   esl_vec_FCopy(const float  *src, const int n, float  *dest);
+extern void   esl_vec_ICopy(const int    *src, const int n, int    *dest);
+
+extern int    esl_vec_DCompare(const double *vec1, const double *vec2, int n, double tol);
+extern int    esl_vec_FCompare(const float  *vec1, const float  *vec2, int n, float tol);
+extern int    esl_vec_ICompare(const int    *vec1, const int    *vec2, int n);
+
+extern void   esl_vec_DSwap(double *vec1, double *vec2, int n);
+extern void   esl_vec_FSwap(float  *vec1, float  *vec2, int n);
+extern void   esl_vec_ISwap(int    *vec1, int    *vec2, int n);
+
+extern void   esl_vec_DReverse(double *vec, double *rev, int n);
+extern void   esl_vec_FReverse(float  *vec, float  *rev, int n);
+extern void   esl_vec_IReverse(int    *vec, int    *rev, int n);
+
+extern double esl_vec_DDot(double *vec1, double *vec2, int n);
+extern float  esl_vec_FDot(float  *vec1, float  *vec2, int n);
+extern int    esl_vec_IDot(int    *vec1, int    *vec2, int n);
+
+extern double esl_vec_DMax(const double *vec, int n);
+extern float  esl_vec_FMax(const float  *vec, int n);
+extern int    esl_vec_IMax(const int    *vec, int n);
+
+extern double esl_vec_DMin(const double *vec, int n);
+extern float  esl_vec_FMin(const float  *vec, int n);
+extern int    esl_vec_IMin(const int    *vec, int n);
+
+extern int    esl_vec_DArgMax(const double *vec, int n);
+extern int    esl_vec_FArgMax(const float  *vec, int n);
+extern int    esl_vec_IArgMax(const int    *vec, int n);
+
+extern int    esl_vec_DArgMin(const double *vec, int n);
+extern int    esl_vec_FArgMin(const float  *vec, int n);
+extern int    esl_vec_IArgMin(const int    *vec, int n);
+
+extern void   esl_vec_DSortIncreasing(double *vec, int n);
+extern void   esl_vec_FSortIncreasing(float  *vec, int n);
+extern void   esl_vec_ISortIncreasing(int    *vec, int n);
+
+extern void   esl_vec_DSortDecreasing(double *vec, int n);
+extern void   esl_vec_FSortDecreasing(float  *vec, int n);
+extern void   esl_vec_ISortDecreasing(int    *vec, int n);
+
+extern int    esl_vec_DDump(FILE *ofp, double *v, int n, char *label);
+extern int    esl_vec_FDump(FILE *ofp, float *v,  int n, char *label);
+extern int    esl_vec_IDump(FILE *ofp, int *v,    int n, char *label);
+
+extern void   esl_vec_D2F(double *src, int n, float  *dst);
+extern void   esl_vec_F2D(float  *src, int n, double *dst);
+extern void   esl_vec_I2F(int    *src, int n, float  *dst);
+extern void   esl_vec_I2D(int    *src, int n, double *dst);
+
+extern void   esl_vec_DNorm(double *vec, int n);
+extern void   esl_vec_FNorm(float  *vec, int n);
+
+extern void   esl_vec_DLog(double *vec, int n);
+extern void   esl_vec_FLog(float  *vec, int n);
+
+extern double esl_vec_DEntropy(const double *p, int n);
+extern float  esl_vec_FEntropy(const float  *p, int n);
+
+extern double esl_vec_DRelEntropy(const double *p, const double *f, int n);
+extern float  esl_vec_FRelEntropy(const float  *p, const float  *f, int n);
+
+extern void   esl_vec_DExp(double *vec, int n);
+extern void   esl_vec_FExp(float  *vec, int n);
+
+extern double esl_vec_DLogSum(double *vec, int n);
+extern float  esl_vec_FLogSum(float  *vec, int n);
+
+extern void   esl_vec_DLogNorm(double *vec, int n);
+extern void   esl_vec_FLogNorm(float  *vec, int n);
+
+extern void   esl_vec_DCDF(double *p, int n, double *cdf);
+extern void   esl_vec_FCDF(float  *p, int n, float  *cdf);
+
+extern int    esl_vec_DValidate(double *vec, int n, double tol, char *errbuf);
+extern int    esl_vec_FValidate(float  *vec, int n, float  tol, char *errbuf);
+
+extern int    esl_vec_DLogValidate(double *vec, int n, double tol, char *errbuf);
+extern int    esl_vec_FLogValidate(float  *vec, int n, float  tol, char *errbuf);
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+extern int esl_vec_DShuffle(ESL_RANDOMNESS *r, double *v, int n);
+extern int esl_vec_FShuffle(ESL_RANDOMNESS *r, float  *v, int n);
+extern int esl_vec_IShuffle(ESL_RANDOMNESS *r, int    *v, int n);
+#endif
+
+#endif /* eslVECTOROPS_INCLUDED */
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_vectorops.h 762 2012-05-11 21:01:15Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_vectorops.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.tex
new file mode 100755
index 0000000..473a3fe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vectorops.tex
@@ -0,0 +1,55 @@
+
+The \eslmod{vectorops} module contains routines for simple operations
+on vectors.
+
+Different functions allow an operation to be performed in vectors
+containing elements of different scalar types (double, float,
+integer). The appropriate routine is prefixed with D, F, or I. For
+example, \ccode{esl\_vec\_DSet()} is the Set routine for a vector of
+doubles; \ccode{esl\_vec\_ISet()} is for integers.
+
+Table~\ref{tbl:vectorops_api} lists the functions in the
+\eslmod{vectorops} API.
+
+\begin{table}[bp]
+\begin{center}
+\begin{tabular}{ll}
+   \multicolumn{2}{c}{\textbf{All vectors}}\\
+\ccode{esl\_vec\_\{D,F,I\}Set()}         & Set all items in vector to scalar value.\\
+\ccode{esl\_vec\_\{D,F,I\}Scale()}       & Multiply all items in vector by scalar.\\
+\ccode{esl\_vec\_\{D,F,I\}Increment()}   & Add a scalar to all items in vector.\\
+\ccode{esl\_vec\_\{D,F,I\}Sum()}         & Return scalar sum of values in vector.\\
+\ccode{esl\_vec\_\{D,F,I\}Add()}         & Add vec2 to vec1.\\
+\ccode{esl\_vec\_\{D,F,I\}AddScaled()}   & Scale vec2 and add it to vec1.\\
+\ccode{esl\_vec\_\{D,F,I\}Copy()}        & Set vec1 to be same as vec2. \\
+\ccode{esl\_vec\_\{D,F,I\}Compare()}     & Compare vec1 to vec2 for equality. \\
+\ccode{esl\_vec\_\{D,F,I\}Swap()}        & Swap vec1 and vec2. \\
+\ccode{esl\_vec\_\{D,F,I\}Dot()}         & Return dot product of two vectors.\\
+\ccode{esl\_vec\_\{D,F,I\}Max()}         & Return value of maximum element in vector.\\
+\ccode{esl\_vec\_\{D,F,I\}Min()}         & Return value of minimum element in vector.\\
+\ccode{esl\_vec\_\{D,F,I\}ArgMax()}      & Return index of maximum element in vector.\\
+\ccode{esl\_vec\_\{D,F,I\}ArgMin()}      & Return index of minimum element in vector.\\
+\ccode{esl\_vec\_\{D,F,I\}SortIncreasing()}& Sort vector from smallest to largest.\\
+\ccode{esl\_vec\_\{D,F,I\}SortDecreasing()}& Sort vector from largest to smallest.\\
+\ccode{esl\_vec\_\{D,F,I\}Dump()}        & Output vector to a stream as text.\\
+    \multicolumn{2}{c}{\textbf{Type conversions}}\\
+\ccode{esl\_vec\_\{D,I\}2F()}            & Convert to single precision floats. \\
+\ccode{esl\_vec\_\{F,I\}2D()}            & Convert to double precision floats. \\
+    \multicolumn{2}{c}{\textbf{Probability vectors}}\\
+\ccode{esl\_vec\_\{D,F\}Norm()}          & Normalize a probability vector of length n.\\
+\ccode{esl\_vec\_\{D,F\}Log()}           & Convert all items in vec to log probabilities. \\
+\ccode{esl\_vec\_\{D,F\}Entropy()}       & Return Shannon entropy of probability vector $p$, in bits\\
+\ccode{esl\_vec\_\{D,F\}RelEntropy()}    & Return relative entropy $D(p \parallel q)$ of $p,q$, in bits\\
+\ccode{esl\_vec\_\{D,F\}Validate()}      & Verify that vector sums to one.\\
+    \multicolumn{2}{c}{\textbf{Log probability vectors}}\\
+\ccode{esl\_vec\_\{D,F\}Exp()}           & Convert log p's back to probabilities\\
+\ccode{esl\_vec\_\{D,F\}LogSum()}        & Given vector of log p's; return log of summed p's.\\
+\ccode{esl\_vec\_\{D,F\}LogNorm()}       & Normalize a log p vector, making it a prob vector. \\
+\ccode{esl\_vec\_\{D,F\}LogValidate()}   & Verifies that vector sums to one (in prob space). \\
+
+\end{tabular}
+\end{center}
+\caption{The \eslmod{vectorops} API.}
+\label{tbl:vectorops_api}
+\end{table}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vmx.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vmx.c
new file mode 100755
index 0000000..b3b227c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vmx.c
@@ -0,0 +1,574 @@
+/* Vectorized routines for PowerPC, using Altivec/VMX.
+ * 
+ * Table of contents           
+ *     1. SIMD logf(), expf()
+ *     2. Miscellaneous convenience functions.
+ *     3. Benchmark
+ *     4. Unit tests
+ *     5. Test driver
+ *     6. Example
+ *     7. Copyright and license
+ *     
+ *****************************************************************
+ * Credits:
+ *
+ * The logf() and expf() routines are derivatives of routines by
+ * Julien Pommier [http://gruntthepeon.free.fr/ssemath/]. Those
+ * routines were in turn based on serial implementations in the Cephes
+ * math library by Stephen Moshier [Moshier89;
+ * http://www.moshier.net/#Cephes]. Thanks and credit to both Moshier
+ * and Pommier for their clear code. Additional copyright and license
+ * information is appended at the end of the file.
+ */
+#include "esl_config.h"
+#ifdef HAVE_VMX
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+
+
+/*****************************************************************
+ * 1. VMX SIMD logf(), expf()
+ *****************************************************************/ 
+
+/* As of Dec 2007, I am unaware of any plans for Intel/AMD to release
+ * SSE intrinsics for logf(), expf(), or other special functions.
+ *
+ * I need them, and the code below should suffice. If you know of
+ * better ways to compute these functions, please let me know.
+ */
+
+/* Function:  esl_vmx_logf()
+ * Synopsis:  <r[z] = log x[z]>
+ *
+ * Purpose:   Given a vector <x> containing four floats, returns a
+ *            vector <r> in which each element <r[z] = logf(x[z])>.
+ *            
+ *            Valid in the domain $x_z > 0$ for normalized IEEE754
+ *            $x_z$.
+ *
+ *            For <x> $< 0$, including -0, returns <NaN>. For <x> $==
+ *            0$ or subnormal <x>, returns <-inf>. For <x = inf>,
+ *            returns <inf>. For <x = NaN>, returns <NaN>. For 
+ *            subnormal <x>, returns <-inf>.
+ *
+ * Xref:      J2/71.
+ * 
+ * Note:      Derived from SSE2 implementation which was
+ *            Derived from an SSE1 implementation by Julian
+ *            Pommier. Converted to SSE2 and added handling
+ *            of IEEE754 specials.
+ */
+vector float 
+esl_vmx_logf(vector float x) 
+{
+  static vector float cephesv_1 = { 7.0376836292E-2f, -1.1514610310E-1f,  1.1676998740E-1f, -1.2420140846E-1f };
+  static vector float cephesv_2 = { 1.4249322787E-1f, -1.6668057665E-1f,  2.0000714765E-1f, -2.4999993993E-1f };
+  static vector float cephesv_3 = { 3.3333331174E-1f,  0.0f,              0.0f,              0.0f             };
+
+  static vector float constv = { 0.707106781186547524f, -2.12194440e-4f, 0.5f, 0.693359375f };
+
+  vector float onev = (vector float) {1.0, 1.0, 1.0, 1.0}; /* all elem = 1.0 */
+  vector signed int ei;
+  vector float e;
+  vector bool int invalid_mask, zero_mask, inf_mask;            /* masks used to handle special IEEE754 inputs */
+  vector bool int mask;
+  vector float origx;
+  vector float tmp;
+  vector float y;
+  vector float z;
+
+  vector float zerov = (vector float) vec_splat_u32(0);
+  vector signed int infExpv = { 255, 255, 255, 255 };  
+
+  /* first, split x apart: x = frexpf(x, &e); */
+  ei           = vec_sr((vector signed int) x, ((vector unsigned int) {23, 23, 23, 23}));
+							             /* shift right 23: IEEE754 floats: ei = biased exponents     */
+  invalid_mask = vec_cmple(x, zerov);                                /* mask any elem that's negative; these become NaN           */
+  zero_mask    = vec_cmpeq(ei,(vector signed int) zerov);            /* mask any elem zero or subnormal; these become -inf        */
+  inf_mask     = vec_cmpeq(ei, infExpv);			     /* mask any elem +inf or NaN; these stay +inf or NaN         */
+  origx        = x;			                             /* store original x, used for log(inf) = inf, log(NaN) = NaN */
+
+  x  = vec_and(x, (vector float) ((vector unsigned int) {~0x7f800000, ~0x7f800000, ~0x7f800000, ~0x7f800000}));
+						                     /* x now the stored 23 bits of the 24-bit significand        */
+  x  = vec_or (x, vec_splat(constv, 2));                             /* sets hidden bit b[0]                                      */
+
+  ei = vec_sub(ei, ((vector signed int) {126, 126, 126, 126}));      /* -127 (ei now signed base-2 exponent); then +1             */
+  e  = vec_ctf(ei, 0);
+
+  /* now, calculate the log */
+  mask = vec_cmplt(x, vec_splat(constv, 0)); /* avoid conditional branches.           */
+  tmp  = vec_and(x, (vector float) mask);    /* tmp contains x values < 0.707, else 0 */
+  x    = vec_sub(x, onev);
+  e    = vec_sub(e, vec_and(onev, (vector float) mask));
+  x    = vec_add(x, tmp);
+  z    = vec_madd(x, x, zerov);
+
+  y =                vec_splat(cephesv_1, 0);
+  y = vec_madd(y, x, vec_splat(cephesv_1, 1)); 
+  y = vec_madd(y, x, vec_splat(cephesv_1, 2));    
+  y = vec_madd(y, x, vec_splat(cephesv_1, 3));   
+  y = vec_madd(y, x, vec_splat(cephesv_2, 0));   
+  y = vec_madd(y, x, vec_splat(cephesv_2, 1));    
+  y = vec_madd(y, x, vec_splat(cephesv_2, 2));   
+  y = vec_madd(y, x, vec_splat(cephesv_2, 3)); 
+  y = vec_madd(y, x, vec_splat(cephesv_3, 0));  
+  y = vec_madd(y, x, zerov);
+  y = vec_madd(y, z, zerov);
+
+  tmp = vec_madd(e, vec_splat(constv, 1), zerov);
+  y   = vec_add(y, tmp);
+
+  tmp = vec_madd(z, vec_splat(constv, 2), zerov);
+  y   = vec_sub(y, tmp);
+
+  x = vec_add(x, y);
+  x = vec_madd(e, vec_splat(constv, 3), x);
+
+  /* IEEE754 cleanup: */
+  x = vec_or(x, (vector float) invalid_mask);               /* log(x<0, including -0) = NaN  */
+  x = vec_sel(x, ((vector float) {-eslINFINITY, -eslINFINITY, -eslINFINITY, -eslINFINITY}), zero_mask); /* x zero or subnormal    = -inf */
+  x = vec_sel(x, origx,                         inf_mask);  /* log(inf)=inf; log(NaN) = NaN  */
+  return x;
+}
+
+/* Function:  esl_vmx_expf()
+ * Synopsis:  <r[z] = exp x[z]>
+ *
+ * Purpose:   Given a vector <x> containing four floats, returns a
+ *            vector <r> in which each element <r[z] = logf(x[z])>.
+ *            
+ *            Valid for all IEEE754 floats $x_z$.
+ *            
+ * Xref:      J2/71
+ * 
+ * Note:      Derived from SSE2 implementation which was
+ *            Derived from an SSE1 implementation by Julian
+ *            Pommier. Converted to SSE2.
+ */
+vector float
+esl_vmx_expf(vector float x) 
+{
+  static vector float cephesv_p1 = { 1.9875691500E-4f, 1.3981999507E-3f, 8.3334519073E-3f, 4.1665795894E-2f };
+  static vector float cephesv_p2 = { 1.6666665459E-1f, 5.0000001201E-1f, 0.693359375f,    -2.12194440E-4f   };
+
+  static vector float maxlogfv = {   88.72283905206835f,   88.72283905206835f,   88.72283905206835f,   88.72283905206835f };  /* log(2^128)  */
+  static vector float minlogfv = { -103.27892990343185f, -103.27892990343185f, -103.27892990343185f, -103.27892990343185f };  /* log(2^-149) */
+
+  vector signed int k;
+  vector bool int minmask, maxmask;
+  vector float tmp, fx, y, z;
+
+  vector float zerov = (vector float) vec_splat_u32(0);
+  
+  /* handle out-of-range and special conditions */
+  maxmask = vec_cmpgt(x, maxlogfv);
+  minmask = vec_cmple(x, minlogfv);
+
+  /* range reduction: exp(x) = 2^k e^f = exp(f + k log 2); k = floorf(0.5 + x / log2): */
+  fx = vec_madd(x, ((vector float) {eslCONST_LOG2R, eslCONST_LOG2R, eslCONST_LOG2R, eslCONST_LOG2R}), zerov);
+  fx = vec_add(fx, ((vector float) {0.5, 0.5, 0.5, 0.5}));
+
+  /* floorf() with VMX:  */
+  fx = vec_floor(fx);
+  k  = vec_cts(fx, 0);
+  
+  /* polynomial approx for e^f for f in range [-0.5, 0.5] */
+  tmp = vec_madd(fx, vec_splat(cephesv_p2, 2), zerov);
+  z   = vec_madd(fx, vec_splat(cephesv_p2, 3), zerov);
+  x   = vec_sub(x, tmp);
+  x   = vec_sub(x, z);
+  z   = vec_madd(x, x, zerov);
+  
+  y  =                vec_splat(cephesv_p1, 0);
+  y  = vec_madd(y, x, vec_splat(cephesv_p1, 1));
+  y  = vec_madd(y, x, vec_splat(cephesv_p1, 2));
+  y  = vec_madd(y, x, vec_splat(cephesv_p1, 3));
+  y  = vec_madd(y, x, vec_splat(cephesv_p2, 0));
+  y  = vec_madd(y, x, vec_splat(cephesv_p2, 1));
+  y  = vec_madd(y, z, x);
+  y = vec_add(y, ((vector float) {1.0, 1.0, 1.0, 1.0}));
+
+  /* build 2^k by hand, by creating a IEEE754 float */
+  k  = vec_add(k, ((vector signed int) {127, 127, 127, 127}));
+  k  = vec_sl(k, ((vector unsigned int) {23, 23, 23, 23}));
+  fx = (vector float) k;
+
+  
+  /* put 2^k e^f together (fx = 2^k,  y = e^f) and we're done */
+  y = vec_madd(y, fx, zerov);	
+
+  /* special/range cleanup */
+  y = vec_sel(y, ((vector float) {eslINFINITY, eslINFINITY, eslINFINITY, eslINFINITY}), maxmask); /* exp(x) = inf for x > log(2^128)  */
+  y = vec_sel(y, zerov, minmask); /* exp(x) = 0   for x < log(2^-149) */
+  return y;
+}
+
+
+/*****************************************************************
+ * 2. Miscellaneous convenience functions
+ *****************************************************************/ 
+void
+esl_vmx_dump_vecfloat(FILE *fp, vector float v)
+{
+  float *p = (float *)&v;
+  printf("[%13.8g, %13.8g, %13.8g, %13.8g]", p[0], p[1], p[2], p[3]);
+}
+
+
+/*****************************************************************
+ * 3. Benchmark
+ *****************************************************************/
+#ifdef eslVMX_BENCHMARK
+
+/* gcc -maltivec -O3 -o vmx_benchmark -I . -L . -DeslVMX_BENCHMARK -DHAVE_VMX esl_vmx.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,"10000000", NULL, NULL,  NULL,  NULL, NULL, "number of trials",                                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "benchmark driver for sse module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  int             N       = esl_opt_GetInteger(go, "-N");
+  float           origx   = 2.0;
+  float           x       = origx;
+  vector float    xv      = { 2.0f, 2.0f, 2.0f, 2.0f };
+  int             i;
+
+  /* First, serial time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) { x = logf(x); x = expf(x); }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# serial CPU time: ");
+ 
+  /* Vector time */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) { xv = esl_vmx_logf(xv); xv = esl_vmx_expf(xv); }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# vector CPU time: ");
+
+  /* If you don't do something with x and xv, the compiler may optimize them away */
+  printf("%g  => many scalar logf,expf cycles => %g\n", origx, N, x);
+  printf("%g  => many vector logf,expf cycles => ", origx, N); esl_vmx_dump_vecfloat(stdout, xv); printf("\n");
+
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+#endif /*eslVMX_BENCHMARK*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef eslVMX_TESTDRIVE
+
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+/* utest_logf():  Test range/domain of logf */
+static void
+utest_logf(ESL_GETOPTS *go)
+{
+  vector float x;	 	             /* test input  */
+  union { vector float v; float x[4]; } r;   /* test output */
+  
+  /* Test IEEE754 specials: 
+   *    log(-inf) = NaN     log(x<0)  = NaN  log(-0)   = NaN
+   *    log(0)    = -inf    log(inf)  = inf  log(NaN)  = NaN
+   */
+  x = (vector float) {-eslINFINITY, -1.0, -0.0, 0.0};
+  r.v =  esl_vmx_logf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("logf");
+    esl_vmx_dump_vecfloat(stdout, x);    printf(" ==> ");
+    esl_vmx_dump_vecfloat(stdout, r.v);  printf("\n");
+  }
+  if (! isnan(r.x[0]))     esl_fatal("logf(-inf) should be NaN");
+  if (! isnan(r.x[1]))     esl_fatal("logf(-1)   should be NaN");
+  if (! isnan(r.x[2]))     esl_fatal("logf(-0)   should be NaN");
+  if (isinf(r.x[3]) != -1) esl_fatal("logf(0)    should be -inf");
+
+  x = (vector float) {eslINFINITY, eslNaN, FLT_MIN, FLT_MAX};
+  r.v = esl_vmx_logf(x);
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("logf");
+    esl_vmx_dump_vecfloat(stdout, x);    printf(" ==> ");
+    esl_vmx_dump_vecfloat(stdout, r.v);  printf("\n");
+  }
+  if (isinf(r.x[0]) != 1)  esl_fatal("logf(inf)  should be inf");
+  if (! isnan(r.x[1]))     esl_fatal("logf(NaN)  should be NaN");
+
+}
+
+/* utest_expf():  Test range/domain of expf */
+static void
+utest_expf(ESL_GETOPTS *go)
+{
+  vector float x;		             /* test input  */
+  union { vector float v; float x[4]; } r;   /* test output */
+  
+  /* exp(-inf) = 0    exp(-0)  = 1   exp(0) = 1  exp(inf) = inf   exp(NaN)  = NaN */
+  x = (vector float) {-eslINFINITY, -0.0, 0.0, eslINFINITY};
+  r.v =  esl_vmx_expf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("expf");
+    esl_vmx_dump_vecfloat(stdout, x);    printf(" ==> ");
+    esl_vmx_dump_vecfloat(stdout, r.v);  printf("\n");
+  }
+  if (r.x[0] != 0.0f)      esl_fatal("expf(-inf) should be 0");
+  if (isinf(r.x[3]) != 1)  esl_fatal("expf(inf)  should be inf");
+
+  /* exp(NaN) = NaN    exp(large)  = inf   exp(-large) = 0  exp(1) = exp(1) */
+  x = (vector float) {eslNaN, 666.0, -666.0, 1.0};
+  r.v =  esl_vmx_expf(x); 
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("expf");
+    esl_vmx_dump_vecfloat(stdout, x);    printf(" ==> ");
+    esl_vmx_dump_vecfloat(stdout, r.v);  printf("\n");
+  }
+  if (! isnan(r.x[0]))     esl_fatal("expf(NaN)      should be NaN");
+  if (isinf(r.x[1]) != 1)  esl_fatal("expf(large x)  should be inf");
+  if (r.x[2] != 0.0f)      esl_fatal("expf(-large x) should be 0");
+
+}
+
+/* utest_odds():  test accuracy of logf, expf on odds ratios,
+ * our main intended use.
+ */
+static void
+utest_odds(ESL_GETOPTS *go, ESL_RANDOMNESS *r)
+{
+  int    N            = esl_opt_GetInteger(go, "-N");
+  int    verbose      = esl_opt_GetBoolean(go, "-v");
+  int    very_verbose = esl_opt_GetBoolean(go, "--vv");
+  int    i;
+  float  p1, p2, odds;
+  union { vector float v; float x[4]; } r1;   
+  union { vector float v; float x[4]; } r2;   
+  float  scalar_r1, scalar_r2;
+  double  err1, maxerr1 = 0.0, avgerr1 = 0.0; /* errors on logf() */
+  double  err2, maxerr2 = 0.0, avgerr2 = 0.0; /* errors on expf() */
+
+  for (i = 0; i < N; i++)
+    {
+      p1    = esl_rnd_UniformPositive(r);
+      p2    = esl_rnd_UniformPositive(r);
+      odds  = p1 / p2;
+
+      if (odds == 0.0) esl_fatal("whoa, odds ratio can't be 0!\n");
+
+      r1.v      = esl_vmx_logf((vector float) {odds});  /* r1.x[z] = log(p1/p2) */
+      scalar_r1 = logf(odds);
+
+      err1       = (r1.x[0] == 0. && scalar_r1 == 0.) ? 0.0 : 2 * fabs(r1.x[0] - scalar_r1) / fabs(r1.x[0] + scalar_r1);
+      if (err1 > maxerr1) maxerr1 = err1;
+      avgerr1   += err1 / (float) N;
+      if (isnan(avgerr1)) esl_fatal("whoa, what?\n");
+
+      r2.v      = esl_vmx_expf(r1.v);        /* and back to odds */
+      scalar_r2 = expf(r1.x[0]);
+
+      err2       = (r2.x[0] == 0. && scalar_r2 == 0.) ? 0.0 : 2 * fabs(r2.x[0] - scalar_r2) / fabs(r2.x[0] + scalar_r2);
+      if (err2 > maxerr2) maxerr2 = err2;
+      avgerr2   += err2 / (float) N;
+
+      if (very_verbose) 
+	printf("%13.7g  %13.7g  %13.7g  %13.7g  %13.7g  %13.7g  %13.7g\n", odds, scalar_r1, r1.x[0], scalar_r2, r2.x[0], err1, err2);
+    }
+
+  if (avgerr1 > 1e-8) esl_fatal("average error on logf() is intolerable\n");
+  if (maxerr1 > 1e-6) esl_fatal("maximum error on logf() is intolerable\n");
+  if (avgerr2 > 1e-8) esl_fatal("average error on expf() is intolerable\n");
+  if (maxerr2 > 1e-6) esl_fatal("maximum error on expf() is intolerable\n");
+
+  if (verbose) {
+    printf("Average [max] logf() relative error in %d odds trials:  %13.8g  [%13.8g]\n", N, avgerr1, maxerr1);
+    printf("Average [max] expf() relative error in %d odds trials:  %13.8g  [%13.8g]\n", N, avgerr2, maxerr2);
+    printf("(random seed : %ld)\n", esl_randomness_GetSeed(r));
+  }
+}
+#endif /*eslVMX_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+
+#ifdef eslVMX_TESTDRIVE
+/* gcc -g -Wall -maltivec -o vmx_utest -I. -L. -DeslVMX_TESTDRIVE esl_vmx.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,  "10000",  NULL, NULL,  NULL,  NULL, NULL, "number of random test points",                     0 },
+  { "-s",        eslARG_INT,     "42",  NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-v",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "be verbose: show test report",                     0 },
+  { "--vv",      eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "be very verbose: show individual test samples",    0 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for vmx module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r  = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+
+  utest_logf(go);
+  utest_expf(go);
+  utest_odds(go, r);
+
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* eslVMX_TESTDRIVE*/
+
+
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+
+#ifdef eslVMX_EXAMPLE
+/*::cexcerpt::vmx_example::begin::*/
+/* gcc -msse2 -g -Wall -o vmx_example -I. -L. -DeslVMX_EXAMPLE esl_vmx.c -leasel -lm
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_vmx.h"
+
+int
+main(int argc, char **argv)
+{
+  float        x;                           /* scalar input */
+  vector float xv;                          /* input vector */
+  union { vector float v; float x[4]; } rv;   /* result vector*/
+
+  x    = 2.0;
+  xv   = (vector float) {x};
+  rv.v = esl_vmx_logf(xv);
+  printf("logf(%f) = %f\n", x, rv.x[0]);
+  
+  rv.v = esl_vmx_expf(xv);
+  printf("expf(%f) = %f\n", x, rv.x[0]);
+
+  return 0;
+}
+/*::cexcerpt::vmx_example::end::*/
+#endif /*eslVMX_EXAMPLE*/
+#endif /*HAVE_VMX*/
+
+#ifndef HAVE_VMX
+
+/* If we don't have VMX compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+#include "easel.h"
+
+void esl_vmx_DoAbsolutelyNothing(void) { return; }
+#if defined eslVMX_TESTDRIVE || defined eslVMX_EXAMPLE || eslVMX_BENCHMARK
+int main(void) { return 0; }
+#endif
+#endif
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_vmx.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_vmx.c $
+ *****************************************************************/
+
+/* Additionally, esl_sse_logf() and esl_sse_expf() are 
+ *  Copyright (C) 2007 Julien Pommier
+ *  Copyright (C) 1992 Stephen Moshier 
+ *
+ * These functions derived from zlib-licensed routines by
+ * Julien Pommier, http://gruntthepeon.free.fr/ssemath/. The
+ * zlib license:
+ */
+
+/* Copyright (C) 2007  Julien Pommier
+
+  This software is provided 'as-is', without any express or implied
+  warranty.  In no event will the authors be held liable for any damages
+  arising from the use of this software.
+
+  Permission is granted to anyone to use this software for any purpose,
+  including commercial applications, and to alter it and redistribute it
+  freely, subject to the following restrictions:
+
+  1. The origin of this software must not be misrepresented; you must not
+     claim that you wrote the original software. If you use this software
+     in a product, an acknowledgment in the product documentation would be
+     appreciated but is not required.
+  2. Altered source versions must be plainly marked as such, and must not be
+     misrepresented as being the original software.
+  3. This notice may not be removed or altered from any source distribution.
+*/
+
+/* In turn, Pommier had derived the logf() and expf() functions from
+ * serial versions in the Cephes math library. According to its
+ * readme, Cephes is "copyrighted by the author" and "may be used
+ * freely but it comes with no support or guarantee."  Cephes is
+ * available in NETLIB [http://www.netlib.org/cephes/]. NETLIB is
+ * widely considered to be a free scientific code repository, hough
+ * the copyright and license status of many parts, including Cephes,
+ * is not well defined in legal terms. We hereby note this, and have
+ * attached Moshier's copyright.
+ */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vmx.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vmx.h
new file mode 100755
index 0000000..c809e83
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_vmx.h
@@ -0,0 +1,177 @@
+#ifdef HAVE_VMX
+/* Vectorized routines for PowerPC, using Altivec.
+ * 
+ * SVN $Id: esl_vmx.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_vmx.h $
+ */
+#ifndef eslVMX_INCLUDED
+#define eslVMX_INCLUDED
+
+#include "easel.h"
+
+#include <stdio.h>
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+extern vector float esl_vmx_logf(vector float x);
+extern vector float esl_vmx_expf(vector float x);
+extern void         esl_vmx_dump_vecfloat(FILE *fp, vector float v);
+
+/* Function:  esl_vmx_set_float()
+ * Synopsis:  Fills float vector with x.
+ *
+ * Purpose:   Sets all elements in the vector <float> to x.
+ */
+static inline vector float
+esl_vmx_set_float(float x)
+{
+  vector float v;
+  vector unsigned char p;
+
+  v = vec_lde(0, &x);
+  p = vec_lvsl(0, &x);
+  v = vec_perm(v, v, p);
+  v = vec_splat(v, 0);
+  return v;
+}
+
+/* Function:  esl_vmx_set_s16()
+ * Synopsis:  Fills short vector with x.
+ *
+ * Purpose:   Sets all elements in the vector <signed short> to x.
+ */
+static inline vector signed short
+esl_vmx_set_s16(signed short x)
+{
+  vector signed short v;
+  vector unsigned char p;
+
+  v = vec_lde(0, &x);
+  p = vec_lvsl(0, &x);
+  v = vec_perm(v, v, p);
+  v = vec_splat(v, 0);
+  return v;
+}
+
+/* Function:  esl_vmx_set_u8()
+ * Synopsis:  Fills byte vector with x.
+ *
+ * Purpose:   Sets all elements in the vector <unsigned char> to x.
+ */
+static inline vector unsigned char
+esl_vmx_set_u8(unsigned char x)
+{
+  vector unsigned char v;
+  vector unsigned char p;
+
+  v = vec_lde(0, &x);
+  p = vec_lvsl(0, &x);
+  v = vec_perm(v, v, p);
+  v = vec_splat(v, 0);
+  return v;
+}
+
+/* Function:  esl_vmx_hsum_float()
+ * Synopsis:  Returns sum of all floats.
+ *
+ * Purpose:   Resturns the sum of all elements in the vector <float>.
+ */
+static inline float
+esl_vmx_hsum_float(vector float v)
+{
+  float f;
+
+  v = vec_add(v, vec_sld(v, v, 4));
+  v = vec_add(v, vec_sld(v, v, 8));
+  vec_ste(v, 0, &f);
+
+  return f;
+}
+
+/* Function:  esl_vmx_hsum_s16()
+ * Synopsis:  Returns sum of all shorts.
+ *
+ * Purpose:   Resturns the sum of all elements in the vector <signed short>.
+ */
+static inline signed short
+esl_vmx_hsum_s16(vector signed short v)
+{
+  signed short s;
+
+  v = vec_add(v, vec_sld(v, v, 2));
+  v = vec_add(v, vec_sld(v, v, 4));
+  v = vec_add(v, vec_sld(v, v, 8));
+  vec_ste(v, 0, &s);
+
+  return s;
+}
+
+/* Function:  esl_vmx_hmax_float()
+ * Synopsis:  Returns max of all floats.
+ *
+ * Purpose:   Resturns the maximum element in the vector <float>.
+ */
+static inline float
+esl_vmx_hmax_float(vector float v)
+{
+  float f;
+
+  v = vec_max(v, vec_sld(v, v, 4));
+  v = vec_max(v, vec_sld(v, v, 8));
+  vec_ste(v, 0, &f);
+
+  return f;
+}
+
+/* Function:  esl_vmx_hmax_s16()
+ * Synopsis:  Returns max of all shorts.
+ *
+ * Purpose:   Resturns the maximum element in the vector <signed short>.
+ */
+static inline signed short
+esl_vmx_hmax_s16(vector signed short v)
+{
+  signed short s;
+
+  v = vec_max(v, vec_sld(v, v, 2));
+  v = vec_max(v, vec_sld(v, v, 4));
+  v = vec_max(v, vec_sld(v, v, 8));
+  vec_ste(v, 0, &s);
+
+  return s;
+}
+
+/* Function:  esl_vmx_hmax_u8()
+ * Synopsis:  Returns max of all bytes.
+ *
+ * Purpose:   Resturns the maximum element in the vector <unsigned char>.
+ */
+static inline unsigned char
+esl_vmx_hmax_u8(vector unsigned char v)
+{
+  unsigned char s;
+
+  v = vec_max(v, vec_sld(v, v, 1));
+  v = vec_max(v, vec_sld(v, v, 2));
+  v = vec_max(v, vec_sld(v, v, 4));
+  v = vec_max(v, vec_sld(v, v, 8));
+  vec_ste(v, 0, &s);
+
+  return s;
+}
+
+
+#endif /*eslVMX_INCLUDED*/
+#endif /*HAVE_VMX*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.c
new file mode 100755
index 0000000..1fc4603
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.c
@@ -0,0 +1,737 @@
+/* Statistical routines for Weibull distributions.
+ *
+ * Contents:
+ *   1. Routines for evaluating densities and distributions.
+ *   2. Generic API routines, for general interface w/ histogram module
+ *   3. Routines for dumping plots to files
+ *   4. Routines for sampling (requires augmentation w/ random module)
+ *   5. Maximum likelihood fitting (requires augmentation w/ minimizer)
+ *   6. Test driver
+ *   7. Example 
+ *   8. Copyright and licence information.
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_stats.h"
+#include "esl_vectorops.h"
+#include "esl_weibull.h"
+
+#ifdef eslAUGMENT_RANDOM
+#include "esl_random.h"
+#endif
+#ifdef eslAUGMENT_HISTOGRAM
+#include "esl_histogram.h"
+#endif
+#ifdef eslAUGMENT_MINIMIZER
+#include "esl_minimizer.h"
+#endif
+
+
+/****************************************************************************
+ * 1. Routines for evaluating densities and distributions
+ ****************************************************************************/ 
+/* mu <= x < infinity   
+ *    However, x=mu can be a problem: 
+ *    PDF-> 0 if tau > 1, infinity if tau < 1.
+ *
+ * lambda > 0
+ * tau > 0     [fat tail when tau < 1; inverse GEV when tau > 1; 
+ *              exponential when tau=1]
+ */
+
+
+/* Function:  esl_wei_pdf()
+ *
+ * Purpose:   Calculates the Weibull pdf $P(X=x)$, given quantile <x>,
+ *            offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_wei_pdf(double x, double mu, double lambda, double tau)
+{
+  double y    = lambda * (x-mu);
+  double val;
+
+  if (x < mu)               return 0.;
+  if (x == mu) {
+    if      (tau <  1.) return eslINFINITY;
+    else if (tau >  1.) return 0.;
+    else if (tau == 1.) return lambda;
+  }
+
+  val = lambda * tau * 
+    exp((tau-1)*log(y)) *
+    exp(- exp(tau * log(y)));
+  return val;
+}
+
+/* Function:  esl_wei_logpdf()
+ *
+ * Purpose:   Calculates the log probability density function for the
+ *            Weibull, $\log P(X=x)$, given quantile <x>,
+ *            offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_wei_logpdf(double x, double mu, double lambda, double tau)
+{
+  double y = lambda * (x-mu);
+  double val;
+
+  if (x < mu)               return -eslINFINITY;
+  if (x == mu) {
+    if      (tau <  1.) return  eslINFINITY; /* technically; but approaches it slowly*/
+    else if (tau >  1.) return -eslINFINITY; /* same as above, also a slow approach  */
+    else if (tau == 1.) return log(lambda);  /* special case, exponential */
+  }
+
+  val = log(tau) + tau*log(lambda) + (tau-1)*log(x-mu) - exp(tau * log(y));
+  return val;
+}
+
+/* Function:  esl_wei_cdf()
+ *
+ * Purpose:   Calculates the cumulative distribution function for the
+ *            Weibull, $P(X \leq x)$, given quantile <x>,
+ *            offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_wei_cdf(double x, double mu, double lambda, double tau)
+{
+  double y   = lambda*(x-mu);
+  double tly = tau * log(y);
+
+  if      (x <= mu)                return 0.0;
+  else if (fabs(tly) < eslSMALLX1) return exp(tly); 
+  else                             return 1 - exp(-exp(tly));
+}
+
+/* Function:  esl_wei_logcdf()
+ *
+ * Purpose:   Calculates the log of the cumulative distribution function for a
+ *            Weibull, $P(X \leq x)$, given quantile <x>,
+ *            offset <mu>, and parameters <lambda> and <tau>.
+ */
+double
+esl_wei_logcdf(double x, double mu, double lambda, double tau)
+{
+  double y   = lambda*(x-mu);
+  double tly = tau * log(y);
+
+  if (x <= mu) return -eslINFINITY;
+
+  if      (fabs(tly) < eslSMALLX1)              return tly;
+  else if (fabs(exp(-exp(tly))) < eslSMALLX1)   return -exp(-exp(tly)); 
+  else                                          return log(1 - exp(-exp(tly)));
+}
+
+
+/* Function:  esl_wei_surv()
+ *
+ * Purpose:   Calculates the survivor function, $P(X>x)$ (that is, 1-CDF,
+ *            the right tail probability mass) for a Weibull
+ *            distribution, given quantile <x>, offset <mu>, and parameters
+ *            <lambda> and <tau>.
+ */
+double
+esl_wei_surv(double x, double mu, double lambda, double tau)
+{
+  double y   = lambda*(x-mu);
+  double tly = tau * log(y);
+
+  if (x <= mu) return 1.0;
+
+  return exp(-exp(tly));
+}
+
+/* Function:  esl_wei_logsurv()
+ *
+ * Purpose:   Calculates the log survivor function, $\log P(X>x)$ (that is, 
+ *            log(1-CDF), the right tail log probability mass) for a 
+ *            Weibull distribution, given quantile <x>, offset <mu>,
+ *            and parameters <lambda> and <tau>.
+ */
+double
+esl_wei_logsurv(double x, double mu, double lambda, double tau)
+{
+  double y   = lambda*(x-mu);
+  double tly = tau * log(y);
+
+  if (x <= mu) return 0.0;
+
+  return -exp(tly);
+}
+
+/* Function:  esl_wei_invcdf()
+ *
+ * Purpose:   Calculates the inverse CDF for a Weibull distribution
+ *            with parameters <mu>, <lambda>, and <tau>, returning
+ *            the quantile <x> at which the CDF is <p>, for $0<p<1$.
+ */
+double
+esl_wei_invcdf(double p, double mu, double lambda, double tau)
+{
+  return mu + 1/lambda * exp(1/tau * log(-log((1.-p))));
+}
+/*-------------------- end densities & distributions ------------------------*/
+
+
+
+
+/****************************************************************************
+ * 2. Generic API routines: for general interface w/ histogram module
+ ****************************************************************************/ 
+
+/* Function:  esl_wei_generic_pdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_wei_pdf()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_wei_generic_pdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_wei_pdf(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_wei_generic_cdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_wei_cdf()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_wei_generic_cdf(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_wei_cdf(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_wei_generic_surv()
+ *
+ * Purpose:   Generic-API wrapper around <esl_wei_surv()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_wei_generic_surv(double x, void *params)
+{
+  double *p = (double *) params;
+  return esl_wei_surv(x, p[0], p[1], p[2]);
+}
+
+/* Function:  esl_wei_generic_invcdf()
+ *
+ * Purpose:   Generic-API wrapper around <esl_wei_invcdf()>, taking
+ *            a void ptr to a double array containing $\mu$, $\lambda$,
+ *            $\tau$ parameters.
+ */
+double
+esl_wei_generic_invcdf(double p, void *params)
+{
+  double *v = (double *) params;
+  return esl_wei_invcdf(p, v[0], v[1], v[2]);
+}
+/*------------------------ end generic API ---------------------------------*/
+
+
+
+/****************************************************************************
+ * 3. Routines for dumping plots for files
+ ****************************************************************************/ 
+
+/* Function:  esl_wei_Plot()
+ *
+ * Purpose:   Plot some Weibull function <func> (for instance, <esl_wei_pdf()>)
+ *            for Weibull parameters <mu>, <lambda>, and <tau>, for a range of
+ *            quantiles x from <xmin> to <xmax> in steps of <xstep>;
+ *            output to an open stream <fp> in xmgrace XY input format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any system write error, such as filled disk.
+ */
+int
+esl_wei_Plot(FILE *fp, double mu, double lambda, double tau,
+	     double (*func)(double x, double mu, double lambda, double tau), 
+	     double xmin, double xmax, double xstep)
+{
+  double x;
+  for (x = xmin; x <= xmax; x += xstep)
+    if (x > mu || tau >= 1.) /* don't try to plot at mu where pdf blows up */
+      if (fprintf(fp, "%f\t%g\n", x, (*func)(x, mu, lambda, tau)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "weibull plot write failed");
+  if (fprintf(fp, "&\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "weibull plot write failed");
+  return eslOK;
+}
+/*-------------------- end plot dumping routines ---------------------------*/
+
+
+
+
+
+/****************************************************************************
+ * 4. Routines for sampling (requires augmentation w/ random module)
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_RANDOM
+
+/* Function:  esl_wei_Sample()
+ *
+ * Purpose:   Sample a Weibull random variate,
+ *            by the transformation method.
+ */
+double
+esl_wei_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double tau)
+{
+  double p;
+  p = esl_rnd_UniformPositive(r); 
+  return esl_wei_invcdf(p, mu, lambda, tau);
+} 
+#endif /*eslAUGMENT_RANDOM*/
+/*--------------------------- end sampling ---------------------------------*/
+
+
+/****************************************************************************
+ * 5. Maximum likelihood fitting
+ ****************************************************************************/ 
+#ifdef eslAUGMENT_MINIMIZER
+/* Easel's conjugate gradient descent code allows a single void ptr to
+ * point to any necessary fixed data, so we put everything into one
+ * structure:
+ */
+struct wei_data {
+  double *x;	        /* data: n observed samples    */
+  int     n;		/* number of observed samples  */
+  double  mu;		/* mu is considered to be known, not fitted */
+};
+
+/* wei_func():
+ * Returns the negative log likelihood of a complete data sample,
+ * in the API of the conjugate gradient descent optimizer in esl_minimizer.
+ */
+static double
+wei_func(double *p, int nparam, void *dptr)
+{
+  double lambda, tau;
+  struct wei_data *data;
+  double logL;
+  int    i; 
+    
+  /* Unpack what the optimizer gave us.
+   */
+  lambda = exp(p[0]); /* see below for c.o.v. notes */
+  tau    = exp(p[1]);
+  data   = (struct wei_data *) dptr;
+
+  logL = 0.;
+  for (i = 0; i < data->n; i++)
+    {
+      if (tau < 1. && data->x[i] == data->mu) continue; /* hack: disallow infinity */
+      logL += esl_wei_logpdf(data->x[i], data->mu, lambda, tau);
+    }
+  return -logL;			/* goal: minimize NLL */
+}
+
+/* Function:  esl_wei_FitComplete()
+ *
+ * Purpose:   Given an array of <n> samples <x[0]..x[n-1>, fit
+ *            them to a stretched exponential distribution starting
+ *            at lower bound <mu> (all $x_i > \mu$), and 
+ *            return maximum likelihood parameters <ret_lambda>
+ *            and <ret_tau>.
+ *            
+ * Args:      x          - complete GEV-distributed data [0..n-1]
+ *            n          - number of samples in <x>
+ *            ret_mu     - RETURN: lower bound of the distribution (all x_i >= mu)
+ *            ret_lambda - RETURN: maximum likelihood estimate of lambda
+ *            ret_tau    - RETURN: maximum likelihood estimate of tau
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if the fit doesn't converge.
+ *
+ * Xref:      STL9/136-137
+ */
+int
+esl_wei_FitComplete(double *x, int n, double *ret_mu,
+		    double *ret_lambda, double *ret_tau)
+{
+  struct wei_data data;
+  double p[2];			/* parameter vector                  */
+  double u[2];			/* max initial step size vector      */
+  double wrk[8];		/* 4 tmp vectors of length 2         */
+  double mean;
+  double mu, lambda, tau;      	/* initial param guesses             */
+  double tol = 1e-6;		/* convergence criterion for CG      */
+  double fx;			/* f(x) at minimum; currently unused */
+  int    status;
+
+  /* Make a good initial guess, based on exponential fit;
+   * set an arbitrary tau.
+   */
+  mu =  esl_vec_DMin(x, n);
+  esl_stats_DMean(x, n, &mean, NULL);
+  lambda = 1 / (mean - mu);
+  tau    = 0.9;
+
+  /* Load the data structure
+   */
+  data.x   = x;
+  data.n   = n;
+  data.mu  = mu;
+
+  /* Change of variables;
+   *   lambda > 0, so c.o.v.  lambda = exp^w,  w = log(lambda);
+   *   tau > 0, same c.o.v.
+   */
+  p[0] = log(lambda);		
+  p[1] = log(tau);
+
+  u[0] = 1.0;
+  u[1] = 1.0;
+
+  /* pass problem to the optimizer
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, 2, 
+					    &wei_func, NULL,
+					    (void *)(&data),
+					    tol, wrk, &fx);
+  *ret_mu     = mu;
+  *ret_lambda = exp(p[0]);
+  *ret_tau    = exp(p[1]);
+  return status;
+}
+
+#ifdef eslAUGMENT_HISTOGRAM
+struct wei_binned_data {
+  ESL_HISTOGRAM *h;	/* contains the binned observed data        */
+  double  mu;		/* mu is considered to be known, not fitted */
+};
+
+/* wei_binned_func():
+ * Returns the negative log likelihood of a binned data sample,
+ * in the API of the conjugate gradient descent optimizer in esl_minimizer.
+ */
+static double
+wei_binned_func(double *p, int nparam, void *dptr)
+{
+  struct wei_binned_data *data = (struct wei_binned_data *) dptr;
+  ESL_HISTOGRAM          *h    = data->h;
+  double lambda, tau;
+  double logL;
+  double ai,bi;
+  int    i; 
+  double tmp;
+    
+  /* Unpack what the optimizer gave us.
+   */
+  lambda = exp(p[0]); /* see below for c.o.v. notes */
+  tau    = exp(p[1]);
+
+  logL = 0.;
+  for (i = h->cmin; i <= h->imax; i++)
+    {
+      if (h->obs[i] == 0) continue;
+
+      ai = esl_histogram_Bin2LBound(h,i);
+      bi = esl_histogram_Bin2UBound(h,i);
+      if (ai < data->mu) ai = data->mu;
+
+      tmp = esl_wei_cdf(bi, data->mu, lambda, tau) -
+            esl_wei_cdf(ai, data->mu, lambda, tau);
+
+      /* for cdf~1.0, numerical roundoff error can create tmp<0 by a
+       * teensy amount; tolerate that, but catch anything worse */
+      ESL_DASSERT1( (tmp + 1e-7 > 0.)); 
+      if (tmp <= 0.) return eslINFINITY;
+
+      logL += h->obs[i] * log(tmp);
+    }
+  return -logL;			/* goal: minimize NLL */
+}
+
+/* Function:  esl_wei_FitCompleteBinned()
+ *
+ * Purpose:   Given a histogram <g> with binned observations, where each
+ *            bin i holds some number of observed samples x with values from 
+ *            lower bound l to upper bound u (that is, $l < x \leq u$), and
+ *            <mu>, the known offset (minimum value) of the distribution;
+ *            return maximum likelihood parameters <ret_lambda>
+ *            and <ret_tau>.
+ *            
+ * Args:      x          - complete GEV-distributed data [0..n-1]
+ *            n          - number of samples in <x>
+ *            ret_mu     - lower bound of the distribution (all x_i > mu)
+ *            ret_lambda - RETURN: maximum likelihood estimate of lambda
+ *            ret_tau    - RETURN: maximum likelihood estimate of tau
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslENOHALT> if the fit doesn't converge.
+ *
+ * Xref:      STL9/136-137
+ */
+int
+esl_wei_FitCompleteBinned(ESL_HISTOGRAM *h, double *ret_mu,
+			  double *ret_lambda, double *ret_tau)
+{
+  struct wei_binned_data data;
+  double p[2];			/* parameter vector                  */
+  double u[2];			/* max initial step size vector      */
+  double wrk[8];		/* 4 tmp vectors of length 2         */
+  double mean;
+  double mu, lambda, tau;      	/* initial param guesses             */
+  double tol = 1e-6;		/* convergence criterion for CG      */
+  double fx;			/* f(x) at minimum; currently unused */
+  int    status;
+  int    i;
+  double ai;
+
+  /* Set the fixed mu.
+   * Make a good initial guess of lambda, based on exponential fit.
+   * Choose an arbitrary tau.
+   */
+  if      (h->is_tailfit) mu = h->phi;  /* all x > mu in this case */
+  else if (h->is_rounded) mu = esl_histogram_Bin2LBound(h, h->imin);
+  else                    mu = h->xmin; 
+
+  mean = 0.;
+  for (i = h->cmin; i <= h->imax; i++) 
+    { 
+      ai = esl_histogram_Bin2LBound(h, i);
+      ai += 0.5*h->w;		/* midpoint in bin */
+      mean += (double)h->obs[i] * ai;
+    }
+  mean  /= h->No;
+  lambda = 1 / (mean - mu);
+
+  tau    = 0.9;
+
+  /* load the data structure */
+  data.h   = h;
+  data.mu  = mu;
+
+  /* Change of variables;
+   *   lambda > 0, so c.o.v.  lambda = exp^w,  w = log(lambda);
+   *   tau > 0, same c.o.v.
+   */
+  p[0] = log(lambda);		
+  p[1] = log(tau);
+
+  u[0] = 1.0;
+  u[1] = 1.0;
+
+  /* pass problem to the optimizer
+   */
+  status = esl_min_ConjugateGradientDescent(p, u, 2, 
+					    &wei_binned_func, NULL,
+					    (void *)(&data),
+					    tol, wrk, &fx);
+  *ret_mu     = mu;
+  *ret_lambda = exp(p[0]);
+  *ret_tau    = exp(p[1]);
+  return status;
+}
+#endif /*eslAUGMENT_HISTOGRAM*/
+#endif /*eslAUGMENT_MINIMIZER*/
+/*--------------------------- end fitting ----------------------------------*/
+
+
+
+
+/****************************************************************************
+ * 6. Test driver
+ ****************************************************************************/ 
+#ifdef eslWEIBULL_TESTDRIVE
+/* Compile:
+   gcc -g -Wall -I. -I ~/src/easel -L ~/src/easel -o test -DeslWEIBULL_TESTDRIVE\
+      esl_weibull.c -leasel -lm
+*/
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_weibull.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",                     0 }, 
+  { "-l",        eslARG_REAL,   "1.0", NULL, NULL,  NULL,  NULL, NULL, "set slope of sampled variates (lambda parameter) to <x> ", 0 }, 
+  { "-m",        eslARG_REAL,  "10.0", NULL, NULL,  NULL,  NULL, NULL, "set location of sampled variates (mu parameter) to <x>",   0 }, 
+  { "-n",        eslARG_INT,  "10000", NULL, NULL,  NULL,  NULL, NULL, "set # of sampled variates to <n>",                         0 }, 
+  { "-o",    eslARG_OUTFILE,     NULL, NULL, NULL,  NULL,  NULL, NULL, "output histogram to file <f>",                             0 }, 
+  { "-s",        eslARG_INT,      "0", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                            0 },
+  { "-t",        eslARG_REAL,   "0.7", NULL, NULL,  NULL,  NULL, NULL, "set shape of sampled variates (tau parameter) to <x>",     0 }, 
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be more verbose in output",                                0 }, 
+  { "-w",        eslARG_REAL,   "0.1", NULL, NULL,  NULL,  NULL, NULL, "set width of histogram bins to <x>",                       0 }, 
+  { "--cdf",     eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump plot of cumulative distribution",                     0 }, 
+  { "--logcdf",  eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump plot of log cumulative distribution",                 0 }, 
+  { "--pdf",     eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump plot of probability density",                         0 }, 
+  { "--logpdf",  eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump plot of log probability density",                     0 }, 
+  { "--surv",    eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump plot of survival P(s>x)",                             0 }, 
+  { "--logsurv", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump plot of log survival, log(P(s>x))",                   0 }, 
+  { "--xL",      eslARG_REAL,    NULL, NULL, NULL,  NULL,  NULL, NULL, "set minimum x-axis value on dumped plots to <x>",          0 }, 
+  { "--xH",      eslARG_REAL,    NULL, NULL, NULL,  NULL,  NULL, NULL, "set maximum x-axis value on dumped plots to <x>",          0 }, 
+  { "--xS",      eslARG_REAL,    NULL, NULL, NULL,  NULL,  NULL, NULL, "set x-axis increment value on dumped plots to <x>",        0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for Easel's Weibull distribution module";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng  = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  double  mu           = esl_opt_GetReal   (go, "-m");
+  double  lambda       = esl_opt_GetReal   (go, "-l");
+  double  tau          = esl_opt_GetReal   (go, "-t");
+  int     n            = esl_opt_GetInteger(go, "-n");
+  double  binwidth     = esl_opt_GetReal   (go, "-w");
+  int     plot_cdf     = esl_opt_GetBoolean(go, "--cdf");
+  int     plot_logcdf  = esl_opt_GetBoolean(go, "--logcdf");
+  int     plot_pdf     = esl_opt_GetBoolean(go, "--pdf");
+  int     plot_logpdf  = esl_opt_GetBoolean(go, "--logpdf");
+  int     plot_surv    = esl_opt_GetBoolean(go, "--surv");
+  int     plot_logsurv = esl_opt_GetBoolean(go, "--logsurv");
+  int     be_verbose   = esl_opt_GetBoolean(go, "-v");
+  char   *plotfile     = esl_opt_GetString (go, "-o");
+  ESL_HISTOGRAM  *h    = NULL;
+  int     xmin_set     = esl_opt_IsOn(go, "--xL");
+  double  xmin         = xmin_set ? esl_opt_GetReal(go, "--xL") : mu;
+  int     xmax_set     = esl_opt_IsOn(go, "--xH");
+  double  xmax         = xmax_set ? esl_opt_GetReal(go, "--xH") : mu+40*(1./lambda);
+  int     xstep_set    = esl_opt_IsOn(go, "--xH");
+  double  xstep        = xstep_set ? esl_opt_GetReal(go, "--xS") : 0.1;
+  FILE   *pfp          = stdout;
+  double  emu, elambda, etau;
+  int     i;
+  double  x;
+  double *data;
+  int     ndata;
+
+  fprintf(stderr, "## %s\n", argv[0]);
+  fprintf(stderr, "#  rng seed = %" PRIu32 "\n", esl_randomness_GetSeed(rng));
+
+  if (be_verbose) printf("Parametric:  mu = %f   lambda = %f    tau = %f\n", mu, lambda, tau);
+
+  h = esl_histogram_CreateFull(mu, 100., binwidth);
+  if (plotfile && (pfp = fopen(plotfile, "w")) == NULL) ESL_EXCEPTION(eslFAIL, "Failed to open plotfile");
+
+  for (i = 0; i < n; i++)
+    {
+      x = esl_wei_Sample(rng, mu, lambda, tau);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+
+  esl_wei_FitComplete(data, ndata, &emu, &elambda, &etau);
+  if (be_verbose) printf("Complete data fit:  mu = %f   lambda = %f   tau = %f\n", emu, elambda, etau);
+  if (fabs( (emu-mu)/mu ) > 0.01)             ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted mu > 1%\n");
+  if (fabs( (elambda-lambda)/lambda ) > 0.10) ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted lambda > 10%\n");
+  if (fabs( (etau-tau)/tau ) > 0.10)          ESL_EXCEPTION(eslFAIL, "Error in (complete) fitted tau > 10%\n");
+
+  esl_wei_FitCompleteBinned(h, &emu, &elambda, &etau);
+  if (be_verbose)    printf("Binned data fit:  mu = %f   lambda = %f   tau = %f\n", emu, elambda, etau);
+  if (fabs( (emu-mu)/mu ) > 0.01)             ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted mu > 1%\n");
+  if (fabs( (elambda-lambda)/lambda ) > 0.10) ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted lambda > 10%\n");
+  if (fabs( (etau-tau)/tau ) > 0.10)          ESL_EXCEPTION(eslFAIL, "Error in (binned) fitted lambda > 10%\n");
+
+  if (plot_pdf)     esl_wei_Plot(pfp, mu, lambda, tau, &esl_wei_pdf,     xmin, xmax, xstep);
+  if (plot_logpdf)  esl_wei_Plot(pfp, mu, lambda, tau, &esl_wei_logpdf,  xmin, xmax, xstep);
+  if (plot_cdf)     esl_wei_Plot(pfp, mu, lambda, tau, &esl_wei_cdf,     xmin, xmax, xstep);
+  if (plot_logcdf)  esl_wei_Plot(pfp, mu, lambda, tau, &esl_wei_logcdf,  xmin, xmax, xstep);
+  if (plot_surv)    esl_wei_Plot(pfp, mu, lambda, tau, &esl_wei_surv,    xmin, xmax, xstep);
+  if (plot_logsurv) esl_wei_Plot(pfp, mu, lambda, tau, &esl_wei_logsurv, xmin, xmax, xstep);
+
+  if (plotfile) fclose(pfp);
+  esl_histogram_Destroy(h);
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+
+  fprintf(stderr, "#  status = ok\n");
+  return 0;
+}
+#endif /*eslWEIBULL_TESTDRIVE*/
+
+/****************************************************************************
+ * 7. Example main()
+ ****************************************************************************/ 
+#ifdef eslWEIBULL_EXAMPLE
+/*::cexcerpt::wei_example::begin::*/
+/* compile: 
+     gcc -g -Wall -I. -o example -DeslWEIBULL_EXAMPLE\
+       -DeslAUGMENT_HISTOGRAM -DeslAUGMENT_RANDOM -DeslAUGMENT_MINIMIZER\
+       esl_weibull.c esl_histogram.c esl_random.c esl_minimizer.c\
+       esl_stats.c esl_vectorops.c easel.c -lm
+ * run:     ./example
+ */
+#include <stdio.h>
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_histogram.h"
+#include "esl_weibull.h"
+
+int
+main(int argc, char **argv)
+{
+  double  mu        = -2.1;         
+  double  lambda    =  1.0;         
+  double  tau       =  0.8;	   
+  ESL_HISTOGRAM  *h = esl_histogram_CreateFull(mu, 100., 0.1);
+  ESL_RANDOMNESS *r = esl_randomness_Create(0);
+  int     n         = 10000; 
+  double  emu, elambda, etau;
+  double *data;
+  int     ndata;
+  double  x;
+  int     i;
+
+  for (i = 0; i < n; i++)
+    {
+      x    = esl_wei_Sample(r, mu, lambda, tau);
+      esl_histogram_Add(h, x);
+    }
+  esl_histogram_GetData(h, &data, &ndata);
+  
+  /* Plot the empirical (sampled) and expected survivals */
+  esl_histogram_PlotSurvival(stdout, h);
+  esl_wei_Plot(stdout, mu, lambda, tau,
+	       &esl_wei_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to complete data, and plot fitted survival curve */
+  esl_wei_FitComplete(data, ndata, &emu, &elambda, &etau);
+  esl_wei_Plot(stdout, emu, elambda, etau,
+	       &esl_wei_surv,  h->xmin, h->xmax, 0.1);
+
+  /* ML fit to binned data, plot fitted survival curve  */
+  esl_wei_FitCompleteBinned(h, &emu, &elambda, &etau);
+  esl_wei_Plot(stdout, emu, elambda, etau,
+	       &esl_wei_surv,  h->xmin, h->xmax, 0.1);
+
+  esl_randomness_Destroy(r);
+  esl_histogram_Destroy(h);
+  return 0;
+}
+/*::cexcerpt::wei_example::end::*/
+#endif /*eslWEIBULL_EXAMPLE*/
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_weibull.c 827 2012-12-04 23:11:38Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_weibull.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.h
new file mode 100755
index 0000000..0ec6d73
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.h
@@ -0,0 +1,59 @@
+/* Weibull distributions.
+ * 
+ * SRE, Tue Aug  9 10:48:35 2005 [St. Louis]
+ * SVN $Id: esl_weibull.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_weibull.h $
+ */
+#ifndef eslWEIBULL_INCLUDED
+#define eslWEIBULL_INCLUDED
+
+#ifdef eslAUGMENT_RANDOM
+#include <esl_random.h>
+#endif
+
+#ifdef eslAUGMENT_HISTOGRAM
+#include <esl_histogram.h>
+#endif
+
+extern double esl_wei_pdf    (double x, double mu, double lambda, double tau);
+extern double esl_wei_logpdf (double x, double mu, double lambda, double tau);
+extern double esl_wei_cdf    (double x, double mu, double lambda, double tau);
+extern double esl_wei_logcdf (double x, double mu, double lambda, double tau);
+extern double esl_wei_surv   (double x, double mu, double lambda, double tau);
+extern double esl_wei_logsurv(double x, double mu, double lambda, double tau);
+extern double esl_wei_invcdf (double p, double mu, double lambda, double tau);
+
+extern double esl_wei_generic_pdf   (double x, void *params);
+extern double esl_wei_generic_cdf   (double x, void *params);
+extern double esl_wei_generic_surv  (double x, void *params);
+extern double esl_wei_generic_invcdf(double p, void *params);
+
+extern int esl_wei_Plot(FILE *fp, double mu, double lambda, double tau,
+			double (*func)(double x, double mu, double lambda, double tau), 
+			double xmin, double xmax, double xstep);
+
+
+#ifdef eslAUGMENT_RANDOM
+extern double esl_wei_Sample(ESL_RANDOMNESS *r, double mu, double lambda, double tau);
+#endif
+
+#ifdef eslAUGMENT_MINIMIZER
+extern int esl_wei_FitComplete(double *x, int n, double *ret_mu,
+			       double *ret_lambda, double *ret_tau);
+#ifdef eslAUGMENT_HISTOGRAM
+extern int esl_wei_FitCompleteBinned(ESL_HISTOGRAM *h, double *ret_mu,
+				     double *ret_lambda, double *ret_tau);
+#endif /*eslAUGMENT_HISTOGRAM*/
+#endif /*eslAUGMENT_MINIMIZER*/
+
+
+#endif /*eslWEIBULL_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.tex
new file mode 100755
index 0000000..4b435a7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_weibull.tex
@@ -0,0 +1,47 @@
+
+The Weibull distribution may be useful for fitting fat-tailed
+empirical distributions.
+
+In the literature, the Weibull is sometimes called a ``stretched
+exponential'' distribution when its shape parameter $\tau$ is less
+than 1. ``Stretched exponential'' distributions in the literature are
+either Weibull (PDF $ = \lambda \tau (\lambda x)^\tau exp\left[-
+(\lambda x)^tau \right]$ or a more simple PDF $\propto exp\left[-
+{\lambda(x-\mu)}^tau \right]$. Easel treats the latter form in the
+\eslmod{stretchexp} module.
+
+\subsection{Weibull densities}
+
+The probability density function (PDF) is:
+
+\begin{equation}
+P(X=x) = \lambda \tau [\lambda(x - \mu)]^{\tau-1} e^{- [\lambda(x-\mu)]^{\tau}}
+\label{eqn:weibull_pdf}
+\end{equation}
+
+The cumulative distribution function (CDF) is:
+
+\begin{equation}
+P(X \leq x) = 1 - e^{- [\lambda(x-\mu)]^{\tau}}
+\label{eqn:weibull_cdf}
+\end{equation}
+
+Variate $x$ ranges $\mu \leq x < \infty$. (However, for $\tau < 1$,
+the PDF goes to infinity at $x=\mu$, so evaluating at $x=\mu$ may not
+be desired.)
+
+Location parameter $\mu$ is unconstrained, $-\infty < \mu <
+\infty$. (Weibull distributions are usually represented without an
+explicit location parameter, implicitly assuming $\mu = 0$.)
+
+Scale parameter $\lambda$ is nonnegative, $\lambda >
+0$. (Alteratively, Weibull distributions are also sometimes
+represented with a scale parameter $b = \frac{1}{\lambda}$.)
+
+Shape parameter $\tau$ is nonnegative, $\tau > 0$. 
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_workqueue.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_workqueue.c
new file mode 100755
index 0000000..99c2990
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_workqueue.c
@@ -0,0 +1,566 @@
+/* Threaded work queue.
+ * 
+ * Contents:
+ *    1. Work queue routines
+ *    2. Examples.
+ *    3. Copyright and license.
+ * 
+ */
+#include "esl_config.h"
+
+#ifdef HAVE_PTHREAD
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <pthread.h>
+
+#include "easel.h"
+#include "esl_workqueue.h"
+
+/*****************************************************************
+ *# 1. Work queue routines
+ *****************************************************************/ 
+
+/* Function:  esl_workqueue_Create()
+ * Synopsis:  Create a work queue object.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Creates an <ESL_WORK_QUEUE> object of <size>.  The
+ *            queues are used to handle objects <void *> that
+ *            are ready to be processed and that have been
+ *            processed by worker threads.
+ *
+ * Returns:   ptr to the new <ESL_WORK_QUEUE> object.
+ * 
+ * Throws:    <eslESYS> on allocation or initialization failure.
+ */
+ESL_WORK_QUEUE *
+esl_workqueue_Create(int size)
+{
+  int             i;
+  int             status;
+  ESL_WORK_QUEUE *queue = NULL;
+
+  ESL_ALLOC(queue, sizeof(ESL_WORK_QUEUE));
+
+  queue->readerQueue     = NULL;
+  queue->readerQueueCnt  = 0;
+  queue->readerQueueHead = 0;
+
+  queue->workerQueue     = NULL;
+  queue->workerQueueCnt  = 0;
+  queue->workerQueueHead = 0;
+
+  queue->queueSize       = size;
+  queue->pendingWorkers  = 0;
+
+  if (pthread_mutex_init(&queue->queueMutex, NULL) != 0)     ESL_XEXCEPTION(eslESYS, "mutex init failed");
+
+  if (pthread_cond_init(&queue->readerQueueCond, NULL) != 0) ESL_XEXCEPTION(eslESYS, "cond reader init failed");
+  if (pthread_cond_init(&queue->workerQueueCond, NULL) != 0) ESL_XEXCEPTION(eslESYS, "cond worker init failed");
+
+  ESL_ALLOC(queue->readerQueue, sizeof(void *) * size);
+  ESL_ALLOC(queue->workerQueue, sizeof(void *) * size);
+
+  for (i = 0; i < queue->queueSize; ++i)
+    {
+      queue->readerQueue[i] = NULL;
+      queue->workerQueue[i] = NULL;
+    }
+
+  return queue;
+
+ ERROR:
+  esl_workqueue_Destroy(queue);
+  return NULL;
+}
+
+/* Function:  esl_workqueue_Destroy()
+ * Synopsis:  Destroys an <ESL_WORK_QUEUE> object.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Frees an <ESL_WORK_QUEUE> object.  
+ *
+ *            The calling routine is responsible for freeing the
+ *            memory of the actual queued objects.
+ *
+ * Returns:   void
+ */
+void 
+esl_workqueue_Destroy(ESL_WORK_QUEUE *queue)
+{
+  if (queue == NULL) return;
+
+  pthread_mutex_destroy (&queue->queueMutex);
+  pthread_cond_destroy  (&queue->readerQueueCond);
+  pthread_cond_destroy  (&queue->workerQueueCond);
+
+  if (queue->readerQueue != NULL) free(queue->readerQueue);
+  if (queue->workerQueue != NULL) free(queue->workerQueue);
+
+  free(queue);
+}
+
+/* Function:  esl_workqueue_Init()
+ * Synopsis:  Adds a queued object to the producers list.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Added a work object <void> to the producers list checking for
+ *            any errors.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something's wrong with <queue> or <ptr>.
+ */
+int esl_workqueue_Init(ESL_WORK_QUEUE *queue, void *ptr)
+{
+  int cnt;
+  int inx;
+
+  int queueSize;
+
+  if (queue == NULL) ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+  if (ptr == NULL)   ESL_EXCEPTION(eslEINVAL, "Invalid reader object");
+
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex lock failed");
+
+  queueSize = queue->queueSize;
+
+  /* check to make sure we won't overflow */
+  cnt = queue->readerQueueCnt;
+  if (cnt >= queueSize) ESL_EXCEPTION(eslEINVAL, "Reader queue overflow");
+
+  inx = (queue->readerQueueHead + cnt) % queueSize;
+  queue->readerQueue[inx] = ptr;
+
+  ++queue->readerQueueCnt;
+  if (cnt == 0)
+    {
+      if (pthread_cond_signal (&queue->readerQueueCond) != 0) ESL_EXCEPTION(eslESYS, "cond signal failed");
+    }
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return eslOK;
+}
+
+/* Function:  esl_workqueue_Remove()
+ * Synopsis:  Removes a queued object from the producers list.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Removes a queued object from the producers list.
+ *
+ *            A object <void> that has already been consumed by a worker
+ *            is removed the the producers list.  If there are no empty
+ *            objects, a <obj> is set to NULL.
+ *
+ *            The pointer to the object is returned in the obj arguement.
+ *
+ * Returns:   <eslOK>  on success.
+ *            <eslEOD> if no objects are in the queue.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something's wrong with <queue>.
+ */
+int 
+esl_workqueue_Remove(ESL_WORK_QUEUE *queue, void **obj)
+{
+  int inx;
+  int status = eslEOD;
+
+  if (obj == NULL)   ESL_EXCEPTION(eslEINVAL, "Invalid object pointer");
+  if (queue == NULL) ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex lock failed");
+
+  /* check if there are any items on the readers list */
+  *obj = NULL;
+  if (queue->readerQueueCnt > 0)
+    {
+      inx = (queue->readerQueueHead + queue->readerQueueCnt) % queue->queueSize;
+      *obj = queue->readerQueue[inx];
+      queue->readerQueue[inx] = NULL;
+      --queue->readerQueueCnt;
+      status = eslOK;
+    }
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return status;
+}
+
+/* Function:  esl_workqueue_Complete()
+ * Synopsis:  Signals the end of the queue.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Signal the end of the queue.  If there are any threads
+ *            waiting on an object, signal them to wake up and complete
+ *            their processing.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something's wrong with <queue>.
+ */
+int 
+esl_workqueue_Complete(ESL_WORK_QUEUE *queue)
+{
+  if (queue == NULL)                                ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS,   "mutex lock failed");
+
+  if (queue->pendingWorkers != 0)
+    {
+      if (pthread_cond_broadcast (&queue->workerQueueCond) != 0) ESL_EXCEPTION(eslESYS, "broadcast failed");
+    }
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return eslOK;
+}
+
+/* Function:  esl_workqueue_Reset()
+ * Synopsis:  Reset the queue for another run.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Reset the queue for another run.  This is done by moving
+ *            all the queued object to the reader's list (i.e. producer).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something's wrong with <queue>.
+ */
+int 
+esl_workqueue_Reset(ESL_WORK_QUEUE *queue)
+{
+  int inx;
+  int queueSize;
+
+  if (queue == NULL)                                ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS,   "mutex lock failed");
+
+  queueSize = queue->queueSize;
+
+  /* move all buffers back to the reader queue */
+  while (queue->workerQueueCnt > 0) 
+    {
+      inx = (queue->readerQueueHead + queue->readerQueueCnt) % queueSize;
+      queue->readerQueue[inx] = queue->workerQueue[queue->workerQueueHead];
+      ++queue->readerQueueCnt;
+
+      queue->workerQueue[queue->workerQueueHead] = NULL;
+      queue->workerQueueHead = (queue->workerQueueHead + 1) % queueSize;
+      --queue->workerQueueCnt;
+    }
+
+  queue->pendingWorkers = 0;
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return eslOK;
+}
+
+/* Function:  esl_workqueue_ReaderUpdate()
+ * Synopsis:  Producer routine.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   The producer (i.e. Reader) places an object, that is
+ *            ready to be processed by a worker on the consumers
+ *            (i.e. Workers) work queue.
+ *
+ *            If the <in> object is not null, it is placed on the
+ *            workers queue.  If there are any workers waiting for
+ *            an object, they are signaled to wake up.
+ *
+ *            If the reader routine has supplied an <out> pointer,
+ *            an object that has already been processed by a worker,
+ *            is placed in <out> so the object can be made ready
+ *            for another worker thread.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something's wrong with <queue>.
+ */
+int esl_workqueue_ReaderUpdate(ESL_WORK_QUEUE *queue, void *in, void **out)
+{
+  int inx;
+  int queueSize;
+
+  if (queue == NULL)                                ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS,   "mutex lock failed");
+
+  queueSize = queue->queueSize;
+
+  /* check if the caller is queuing up an item */
+  if (in != NULL)
+    {
+
+      /* check to make sure we don't overflow */
+      if (queue->workerQueueCnt >= queueSize) ESL_EXCEPTION(eslEINVAL, "Work queue overflow");
+
+      inx = (queue->workerQueueHead + queue->workerQueueCnt) % queueSize;
+      queue->workerQueue[inx] = in;
+      ++queue->workerQueueCnt;
+
+      if (queue->pendingWorkers != 0)
+	{
+	  if (pthread_cond_broadcast (&queue->workerQueueCond) != 0) ESL_EXCEPTION(eslESYS, "broadcast failed");
+	}
+    }
+
+  /* check if the caller is waiting for a queued item */
+  if (out != NULL)
+    {
+
+      /* wait for a processed buffers to be returned */
+      while (queue->readerQueueCnt == 0) 
+	{
+	  if (pthread_cond_wait (&queue->readerQueueCond, &queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "cond wait failed");
+	}
+
+      inx = queue->readerQueueHead;
+      *out = queue->readerQueue[inx];
+      queue->readerQueue[inx] = NULL;
+      queue->readerQueueHead = (queue->readerQueueHead + 1) % queueSize;
+      --queue->readerQueueCnt;
+    }
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return eslOK;
+}
+
+/* Function:  esl_workqueue_WorkerUpdate()
+ * Synopsis:  Consumer routine.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   The consumer (i.e. Worker) places an object that has
+ *            been processed on the producers (i.e. Readers) queue.
+ *
+ *            If the <in> object is not null, it is placed on the
+ *            readers queue.  If the reader is waiting for an object, 
+ *            it is signaled it to wake up.
+ *
+ *            If the worker routine has supplied an <out> pointer,
+ *            an object that is ready for processing by a worker,
+ *            is placed in <out> so the worker thread can continue.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslESYS> if thread synchronization fails somewhere.
+ *            <eslEINVAL> if something's wrong with <queue>.
+ */
+int esl_workqueue_WorkerUpdate(ESL_WORK_QUEUE *queue, void *in, void **out)
+{
+  int cnt;
+  int inx;
+  int queueSize;
+
+  if (queue == NULL)                                ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS,   "mutex lock failed");
+
+  queueSize = queue->queueSize;
+
+  /* check if the caller is queuing up an item */
+  if (in != NULL)
+    {
+
+      /* check to make sure we don't overflow */
+      if (queue->readerQueueCnt >= queueSize) ESL_EXCEPTION(eslEINVAL, "Reader queue overflow");
+
+      inx = (queue->readerQueueHead + queue->readerQueueCnt) % queueSize;
+      queue->readerQueue[inx] = in;
+      cnt = queue->readerQueueCnt++;
+      if (cnt == 0)
+	{
+	  if (pthread_cond_signal (&queue->readerQueueCond) != 0) ESL_EXCEPTION(eslESYS, "cond signal failed");
+	}
+    }
+
+  /* check if the caller is waiting for a queued item */
+  if (out != NULL)
+    {
+
+      if (queue->workerQueueCnt == 0)
+	{
+	  /* wait for a processed buffers to be returned */
+	  ++queue->pendingWorkers;
+	  while (queue->workerQueueCnt == 0)
+	    {
+	      if (pthread_cond_wait (&queue->workerQueueCond, &queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "cond wait failed");
+	    }
+	  --queue->pendingWorkers;
+	}
+
+      inx = queue->workerQueueHead;
+      *out = queue->workerQueue[inx];
+      queue->workerQueue[inx] = NULL;
+      queue->workerQueueHead = (queue->workerQueueHead + 1) % queueSize;
+      --queue->workerQueueCnt;
+    }
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return eslOK;
+}
+
+/* Function:  esl_workqueue_Dump()
+ * Synopsis:  Print the contents of the queues.
+ * Incept:    MSF, Thu Jun 18 11:51:39 2009
+ *
+ * Purpose:   Print the contents of the queues and their pointers.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int esl_workqueue_Dump(ESL_WORK_QUEUE *queue)
+{
+  int i;
+
+  if (queue == NULL)                                ESL_EXCEPTION(eslEINVAL, "Invalid queue object");
+  if (pthread_mutex_lock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS,   "mutex lock failed");
+
+  printf ("Reader head: %2d  count: %2d\n", queue->readerQueueHead, queue->readerQueueCnt);
+  printf ("Worker head: %2d  count: %2d\n", queue->workerQueueHead, queue->workerQueueCnt);
+  for (i = 0; i < queue->queueSize; ++i)
+    {
+      printf ("  %2d:  %p  %p\n", i, queue->readerQueue[i], queue->workerQueue[i]);
+    }
+  printf ("Pending: %2d\n\n", queue->pendingWorkers);
+
+  if (pthread_mutex_unlock (&queue->queueMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+
+  return eslOK;
+}
+
+/*****************************************************************
+ * 2. Example
+ *****************************************************************/
+
+#ifdef eslWORKQUEUE_EXAMPLE
+#include "easel.h"
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+
+typedef struct {
+  char             id;
+  ESL_WORK_QUEUE  *queue;
+} WORK_INFO;
+
+/* gcc --std=gnu99 -g -Wall -pthread -o esl_workqueue_example -I. -DeslWORKQUEUE_EXAMPLE esl_workqueue.c easel.c */
+static void 		
+worker_thread(void *data)
+{
+  ESL_THREADS *thr  = (ESL_THREADS *) data;
+  WORK_INFO   *info = NULL;
+  int          idx;
+
+  int         *obj;
+
+  esl_threads_Started(thr, &idx);
+  
+  info = (WORK_INFO *) esl_threads_GetData(thr, idx);
+  printf("THREAD %c: ready\n", info->id);
+
+  esl_workqueue_WorkerUpdate(info->queue, NULL, (void *) &obj);
+  while (*obj > 0)
+    {
+      printf("THREAD %c: processing %d\n", info->id, *obj);
+      esl_workqueue_WorkerUpdate(info->queue, obj, (void *) &obj);
+    }
+
+  printf("THREAD %c: done\n", info->id);
+
+  esl_threads_Finished(thr, idx);
+  return;
+}
+
+int
+main(void)
+{
+  int            i;
+  int            ncpu    = 4;
+  int            iter    = 25;
+  WORK_INFO     *worker  = NULL;
+
+  ESL_THREADS    *thr    = NULL;
+  ESL_WORK_QUEUE *queue  = NULL;
+
+  int            *objs   = NULL;
+  int            *obj;
+
+  objs   = malloc(sizeof(int) * ncpu * 2);
+  worker = malloc(sizeof(WORK_INFO) * ncpu);
+
+  thr = esl_threads_Create(&worker_thread);
+
+  /* Create a work queue that is able to hold two items per thread.
+   * The idea is that while one object is being processed by a
+   * worker thread, another item is being readied.  So, when the
+   * worker thread has completed processing its current object,
+   * its next object to processes is hopefully waiting.
+   */
+  queue = esl_workqueue_Create(ncpu * 2);
+  for (i = 0; i < ncpu * 2; i++)
+    {
+      objs[i] = 0;
+      esl_workqueue_Init(queue, &objs[i]);
+    }
+
+  for (i = 0; i < ncpu; i++)
+    {
+      worker[i].id    = 'A' + i;
+      worker[i].queue = queue;
+      esl_threads_AddThread(thr, (void *) &worker[i]);
+    }
+
+  esl_threads_WaitForStart (thr);
+
+  /* For N number of iterations, get an object that has been
+   * processed, i.e. on the readers input queue and place it
+   * on the ready queue.
+   */
+  esl_workqueue_ReaderUpdate(queue, NULL, (void **) &obj);
+  for (i = 1; i <= iter; ++i)
+    {
+      *obj = i;
+      printf("Item %d is ready to be processed\n", *obj);
+      esl_workqueue_ReaderUpdate(queue, obj, (void **) &obj);
+    }
+
+  /* put zeros on the queues to signal the worker that we are done */
+  for (i = 0; i < ncpu; ++i)
+    {
+      *obj = 0;
+      esl_workqueue_ReaderUpdate(queue, obj, (void **) &obj);
+    }
+
+  /* The worker threads now run their work. */
+  esl_threads_WaitForFinish(thr);
+  esl_threads_Destroy(thr);
+
+  esl_workqueue_Destroy(queue);
+
+  free(worker);
+  free(objs);
+
+  return eslOK;
+}
+#endif /*eslWORKQUEUE_EXAMPLE*/
+#endif /* HAVE_PTHREAD */
+
+/*****************************************************************  
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl_workqueue.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_workqueue.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_workqueue.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_workqueue.h
new file mode 100755
index 0000000..b0a06f3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_workqueue.h
@@ -0,0 +1,50 @@
+/* Simple threaded work queue using POSIX threads.
+ * 
+ * SVN $Id: esl_workqueue.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_workqueue.h $
+ */
+#ifndef eslWORKQUEUE_INCLUDED
+#define eslWORKQUEUE_INCLUDED
+
+typedef struct {
+  pthread_mutex_t  queueMutex;          /* mutex for queue serialization                           */
+  pthread_cond_t   readerQueueCond;     /* condition variable used to wake up the producer         */
+  pthread_cond_t   workerQueueCond;     /* condition variable used to wake up the consumers        */
+
+  void           **readerQueue;         /* list of objects the the workers have completed          */
+  int              readerQueueCnt;      /* number of objects in the queue                          */
+  int              readerQueueHead;     /* first object in the queue                               */
+
+  void           **workerQueue;         /* list of objects ready to be processed by worker threads */
+  int              workerQueueCnt;      /* number of objects in the queue                          */
+  int              workerQueueHead;     /* first object in the queue                               */
+
+  int              queueSize;           /* max number of items a queue will hold                   */
+  int              pendingWorkers;      /* number of consumers waiting for work                    */
+} ESL_WORK_QUEUE;
+
+extern ESL_WORK_QUEUE *esl_workqueue_Create(int size);
+extern void            esl_workqueue_Destroy(ESL_WORK_QUEUE *queue);
+
+extern int esl_workqueue_Init    (ESL_WORK_QUEUE *queue, void *ptr);
+extern int esl_workqueue_Complete(ESL_WORK_QUEUE *queue);
+extern int esl_workqueue_Reset   (ESL_WORK_QUEUE *queue);
+
+extern int esl_workqueue_Remove(ESL_WORK_QUEUE *queue, void **obj);
+
+extern int esl_workqueue_ReaderUpdate(ESL_WORK_QUEUE *queue, void *in, void **out);
+extern int esl_workqueue_WorkerUpdate(ESL_WORK_QUEUE *queue, void *in, void **out);
+
+extern int esl_workqueue_Dump(ESL_WORK_QUEUE *queue);
+
+#endif /*eslWORKQUEUE_INCLUDED*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.c
new file mode 100755
index 0000000..b2f3651
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.c
@@ -0,0 +1,810 @@
+/* RNA secondary structure markup in WUSS notation.
+ */
+#include "esl_config.h"
+
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_stack.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+/* Function:  esl_wuss2ct()
+ * Incept:    SRE, Tue Feb 15 08:44:54 2005 [St. Louis]
+ *
+ * Purpose:   Given a secondary structure string <ss>, <0..len-1>,
+ *            in WUSS notation, convert it to a CT array, <1..len>,
+ *            in <ct>. Caller provides a <ct> allocated for at least 
+ *            <len+1> ints. <ct[i]> is the position that residue i
+ *            base pairs to, or 0 if i is unpaired. <ct[0]> is undefined
+ *            (but if you care: it is set to 0).
+ *            
+ *            WUSS notation is interpreted loosely here, as input
+ *            WUSS.  Any matching bracket pair or upper/lower case
+ *            alphabetic pair is interpreted as a base pair; any other
+ *            WUSS annotation is interpreted as unpaired.
+ *            
+ * Returns:   <eslOK> on success. Returns <eslESYNTAX> if the WUSS
+ *            string isn't valid.
+ *            
+ * Throws:    <eslEMEM> on allocation failure.           
+ */
+int 
+esl_wuss2ct(char *ss, int len, int *ct)
+{
+  ESL_STACK *pda[27];     /* 1 secondary structure + up to 26 levels of pk's */
+  int        i;
+  int        pos, pair;
+  int        status;      /* success or failure return status */
+
+ /* Initialization: always initialize the main pda (0);
+  * we'll init the pk pda's on demand.
+  */
+  if ((pda[0] = esl_stack_ICreate()) == NULL) goto FINISH;
+  for (i = 1; i <= 26; i++) pda[i] = NULL;
+
+  for (pos = 0; pos <= len; pos++) ct[pos] = 0;
+
+  for (pos = 1; pos <= len; pos++)
+    {
+      if (!isprint((int) ss[pos-1]))  /* armor against garbage */
+	{ status = eslESYNTAX; goto FINISH; }
+
+      /* left side of a pair: push position onto stack 0 (pos = 1..L) */
+      else if (ss[pos-1] == '<' ||
+	       ss[pos-1] == '(' ||
+	       ss[pos-1] == '[' ||
+	       ss[pos-1] == '{')
+	{
+	  if ((status = esl_stack_IPush(pda[0], pos)) != eslOK) goto FINISH;
+	}
+      
+      /* right side of a pair; resolve pair; check for agreement */
+      else if (ss[pos-1] == '>' || 
+	       ss[pos-1] == ')' ||
+	       ss[pos-1] == ']' ||
+	       ss[pos-1] == '}')
+        {
+          if (esl_stack_IPop(pda[0], &pair) == eslEOD)
+            { status = eslESYNTAX; goto FINISH;} /* no closing bracket */
+          else if ((ss[pair-1] == '<' && ss[pos-1] != '>') ||
+		   (ss[pair-1] == '(' && ss[pos-1] != ')') ||
+		   (ss[pair-1] == '[' && ss[pos-1] != ']') ||
+		   (ss[pair-1] == '{' && ss[pos-1] != '}'))
+	    { status = eslESYNTAX; goto FINISH; }  /* brackets don't match */
+	  else
+	    {
+              ct[pos]  = pair;
+              ct[pair] = pos;
+            }
+        }
+                                /* same stuff for pseudoknots */
+      else if (isupper((int) ss[pos-1])) 
+	{
+	  /* Create the PK stacks on demand.
+	   */
+	  i = ss[pos-1] - 'A' + 1;
+	  if (pda[i] == NULL) 
+	    if ((pda[i] = esl_stack_ICreate()) == NULL) 
+	      { status = eslEMEM; goto FINISH; }
+
+	  if ((status = esl_stack_IPush(pda[i], pos)) != eslOK) goto FINISH;
+	}
+      else if (islower((int) ss[pos-1])) 
+	{
+	  i = ss[pos-1] - 'a' + 1;
+	  if (pda[i] == NULL || 
+	      esl_stack_IPop(pda[i], &pair) == eslEOD)
+            { status = eslESYNTAX; goto FINISH;}
+          else
+            {
+              ct[pos]  = pair;
+              ct[pair] = pos;
+            }
+	}
+      else if (strchr(":,_-.~", ss[pos-1]) == NULL)
+	{ status = eslESYNTAX; goto FINISH; } /* bogus character */
+    }
+  status = eslOK;
+
+ FINISH:
+  for (i = 0; i <= 26; i++)
+    if (pda[i] != NULL) 
+      { /* nothing should be left on stacks */
+	if (esl_stack_ObjectCount(pda[i]) != 0)
+	  status = eslESYNTAX;
+	esl_stack_Destroy(pda[i]);
+      }
+  return status;
+}
+
+
+/* Function:  esl_ct2wuss()
+ * Incept:    SRE, Wed Feb 16 11:22:53 2005 [St. Louis]
+ *
+ * Purpose:   Convert a CT array <ct> for <n> residues (1..n) to a WUSS
+ *            format string <ss>. <ss> must be allocated for at least
+ *            n+1 chars (+1 for the terminal NUL). 
+ *
+ *            ER, Sat Aug 18 13:22:03 EDT 2012 
+ *            esl\_ct2wuss() extended to deal with pseudoknots structures.
+ *            Pseudoknots are annotated as AA...aa, BB...bb,..., ZZ..zz.
+ *            Attemting to convert a <ct> that requires more letters
+ *            than [A-Z] will return an <eslEINVAL> error.
+ *
+ *            Attempting to convert a <ct> that involves triplet interactions
+ *            will return an <eslEINVAL> error.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINCONCEIVABLE> on internal failure.
+ */
+int
+esl_ct2wuss(int *ct, int n, char *ss)
+{
+  int        rb[26];                /* array that delimits the right bound of a pseudoknot character */
+  ESL_STACK *pda    = NULL;         /* stack for "main" secondary structure */
+  ESL_STACK *auxpk  = NULL;	    /* aux stack for pseudoknot */
+  ESL_STACK *auxss  = NULL;	    /* aux stack for single stranded */
+  int       *cct    = NULL;         /* copy of ct vector */
+  int        nfaces;                /* number of faces in a cWW structure */
+  int        minface;               /* max depth of faces in a cWW structure */
+  int        leftbound, rightbound; /* left and right bound to find basepairs belonging to a given pseudoknot */
+  int        xpk = 0;               /* number of pseudoknot chararactes used */
+  int        npk = 0;               /* number of pseudoknots */
+  int        npairs = 0;            /* total number of basepairs */
+  int        npairs_reached = 0;    /* number of basepairs found so far */
+  int        found_partner;         /* true if we've found left partner of a given base in stack pda */
+  int        i,j,k;                 /* sequence indices */
+  int        x;                     /* index for pseudoknot characters */
+  int        status = eslEMEM;	    /* exit status 'til proven otherwise */
+
+  /* total number of basepairs */
+  for (j = 1; j <= n; j ++) { if (ct[j] > 0 && j < ct[j]) npairs ++; }
+  
+  /* Copy of ct; if a pseudoknotted structure, cct will be modified later.
+   */
+  ESL_ALLOC(cct, sizeof(int)*(n+1));
+  esl_vec_ICopy(ct, (n+1), cct);
+  
+  /* Initialize rightbounds for all 26 pseudoknot indices */
+  for (x = 0; x < 26; x ++) rb[x] = -1;
+
+  /* init ss[] to single stranded */
+  for (j = 0; j < n; j ++) { ss[j] = ':'; }  
+  ss[n] = '\0'; 
+ 
+  /* Initialization*/
+  if ((pda   = esl_stack_ICreate()) == NULL) goto FINISH;
+  if ((auxpk = esl_stack_ICreate()) == NULL) goto FINISH;
+  if ((auxss = esl_stack_ICreate()) == NULL) goto FINISH;
+  
+  for (j = 1; j <= n; j++)
+    {
+      if (cct[j] == 0)	/* unpaired: push j. */
+	{
+	  if (esl_stack_IPush(pda, j) != eslOK) goto FINISH;
+	}
+      else if (cct[j] > j) /* left side of a bp: push j. */
+	{
+	  if (esl_stack_IPush(pda, j) != eslOK) goto FINISH;
+	}
+      else   /* right side of a bp; main routine: fingh the left partner */
+	{
+	  found_partner = FALSE;
+	  /* Pop back until we find the left partner of j;
+	   * In case this is not a nested structure, finding
+	   * the left partner of j will require to put bases 
+	   * aside into stack auxpk.
+	   *
+	   * After we find the left partner of j,
+	   * store single stranded residues in auxss;
+	   * keep track of #faces and the maximum face depth.
+	   */
+	  nfaces  = 0;
+	  minface = -1;
+	 
+	  while (esl_stack_ObjectCount(pda)) 
+	    {
+	      if (esl_stack_IPop(pda, &i) != eslOK) goto FINISH;
+	      
+	      if (i < 0) 		/* a face counter */
+		{
+		  nfaces++;
+		  if (i < minface) minface = i;
+		}
+
+	      else if (cct[i] == j)  /* we found the i,j pair. */
+		{
+		  found_partner = TRUE;
+		  npairs_reached ++;	
+		  /* Now we know i,j pair; and we know how many faces are
+		   * above them; and we know the max depth of those faces.
+		   * That's enough to label the pair in WUSS notation.
+		   * if nfaces == 0, minface is -1; <> a closing bp of a hairpin.
+		   * if nfaces == 1, inherit minface, we're continuing a stem.
+		   * if nfaces > 1, bump minface in depth; we're closing a bifurc.
+		   */
+		  if (nfaces > 1 && minface > -4) minface--;
+		  switch (minface) {
+		  case -1: ss[i-1] = '<'; ss[j-1] = '>'; break;
+		  case -2: ss[i-1] = '('; ss[j-1] = ')'; break;
+		  case -3: ss[i-1] = '['; ss[j-1] = ']'; break;
+		  case -4: ss[i-1] = '{'; ss[j-1] = '}'; break;
+		  default:
+		    esl_stack_Destroy(pda); esl_stack_Destroy(auxpk); esl_stack_Destroy(auxss); free(cct); 
+		    ESL_EXCEPTION(eslEINCONCEIVABLE, "no such face code");
+		  }
+		  if (esl_stack_IPush(pda, minface) != eslOK) goto FINISH;
+		  
+		  /* Now, aux contains all the unpaired residues we need to label,
+		   * according to the # of faces "above" them:
+		   *  nfaces = 0: hairpin loop
+		   *  nfaces = 1: bulge or interior loop
+		   *  nfaces > 1: multifurc
+		   */
+		  while (esl_stack_IPop(auxss, &i) == eslOK)
+		    {
+		      switch (nfaces) {
+			
+		      case 0:  ss[i-1] = '_'; break;
+		      case 1:  ss[i-1] = '-'; break;
+		      default: ss[i-1] = ','; break; /* nfaces > 1 */
+		      }
+		    }
+		  break;
+		}
+	      
+	      else if (cct[i] == 0) 
+		{
+		  /* add to auxss only if originally sigle stranded */
+		  if (ct[i] == 0) { if (esl_stack_IPush(auxss, i) != eslOK) goto FINISH; }
+		}
+
+	      else /* cct[i]>0, != j: i is paired, but not to j: pseudoknot! */
+		{
+		  /* i is in the way to find j's left partner. 
+		   * Move i to stack auxpk; resolve pseudoknot(s) after we've found partern for j.
+		   */ 
+		  if (esl_stack_IPush(auxpk, i) != eslOK) goto FINISH;
+		}
+	    } 
+	  
+	  if (!found_partner) {
+	    esl_stack_Destroy(pda); esl_stack_Destroy(auxpk); esl_stack_Destroy(auxss); free(cct); 
+	    ESL_EXCEPTION(eslEINVAL, "Cannot find left partner (%d) of base %d. Likely a triplet", ct[j], j);
+	  }
+	} /* finished finding the left partner of j */
+      
+      /* After we've found the left partner of j, resolve pks found along the way.
+       * Then, remove the pseudoknotted based from cct so we can find the rest of the structure.
+       */
+      if (esl_stack_ObjectCount(auxpk)) {
+
+	/* init for first pseudoknot */
+	leftbound  = cct[j];
+	rightbound = leftbound + 1;
+	xpk        = -1;            /* start with 'A' if possible again */
+
+	while (esl_stack_IPop(auxpk, &i) == eslOK) {
+
+	  for (k = rightbound-1; k > leftbound; k --) 
+	    {
+	      if      (cct[k] == 0)          { continue; } 
+	      else if (cct[k] >  rightbound) { continue; } 
+	      else if (cct[k] == i)          { break; }                  /* i continues the given pseudoknot */
+	      else                           { k = leftbound; break; }   /* a new pseudoknot */		    		
+	    }
+	  
+	  if (k == leftbound) /* a new pseudoknot */
+	    {
+	      npk ++;
+	      xpk ++;
+	      /* figure out if we can use this alphabet index, or bump it up if necessary */
+	      while (i < rb[xpk]) { xpk ++; }
+	      
+	      leftbound  = (rightbound < cct[i])? rightbound : cct[j];
+	      rightbound = cct[i];
+	    }
+	      
+	  npairs_reached ++;
+	  if (xpk+(int)('a') <= (int)('z')) {
+
+	    /* update the rightbound of this pk index if necessary */
+	    if (cct[i] > rb[xpk]) rb[xpk] = cct[i];
+	    
+	    /* Add pk indices for this basepair */
+	    ss[i-1]      = (char)(xpk+(int)('A'));
+	    ss[cct[i]-1] = (char)(xpk+(int)('a'));
+	    
+	    /* remove pseudoknotted pair from cct */
+	    cct[i]     = 0;
+	    cct[ct[i]] = 0;
+	  }
+	  else  ESL_EXCEPTION(eslEINVAL, "Don't have enough letters to describe all different pseudoknots.");	      
+	    	  
+	} 	
+      } /* while there is something in auxpk stack */
+
+    } /* finished loop over j: end position on seq, 1..n*/ 
+  
+  status = eslOK;
+
+ ERROR:
+ FINISH:
+  if (npairs != npairs_reached) 		  
+    ESL_EXCEPTION(eslFAIL, "found %d out of %d pairs.", npairs_reached, npairs);
+  if (pda   != NULL) esl_stack_Destroy(pda);
+  if (auxpk != NULL) esl_stack_Destroy(auxpk);
+  if (auxss != NULL) esl_stack_Destroy(auxss);
+  if (cct   != NULL) free(cct);
+  return status;
+}
+
+/* Function:  esl_ct2simplewuss()
+ * Incept:    ER, Wed Aug 22 13:31:54 EDT 2012 [Janelia]
+ *
+ * Purpose:   Convert a CT array <ct> for <n> residues (1..n) to a simple WUSS
+ *            format string <ss>. <ss> must be allocated for at least
+ *            n+1 chars (+1 for the terminal NUL). 
+ *
+ *            This function can be used with the <ct> of a secondary
+ *            structure including arbitrary pseudoknots, or for the 
+ *            <ct> or a tertiary structure (say cWH, tWH, cSS,... H bonds). 
+ *
+ *            The string <ss> has basepairs annotated as <>, Aa, Bb, ..., Zz;
+ *            unpaired bases are annotated as '.'.
+ *
+ *            Attemting to convert a <ct> that requires more letters
+ *            than [A-Z] will return an <eslEINVAL> error.
+ *
+ *            Attempting to convert a <ct> that involves triplet interactions
+ *            will return an <eslEINVAL> error.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINCONCEIVABLE> on internal failure.
+ */
+int
+esl_ct2simplewuss(int *ct, int n, char *ss)
+{
+  int        rb[26];                /* array that delimits the right bound of a pseudoknot character */
+  ESL_STACK *pda    = NULL;         /* stack for "main" secondary structure */
+  ESL_STACK *auxpk  = NULL;	    /* aux stack for pseudoknot */
+  int       *cct    = NULL;         /* copy of ct vector */
+  int        leftbound, rightbound; /* left and right bound to find basepairs belonging to a given pseudoknot */
+  int        xpk = 0;               /* number of pseudoknot chararactes used */
+  int        npk = 0;               /* number of pseudoknots */
+  int        npairs = 0;            /* total number of basepairs */
+  int        npairs_reached = 0;    /* number of basepairs found so far */
+  int        found_partner;         /* true if we've found left partner of a given base in stack pda */
+  int        i,j,k;                 /* sequence indices */
+  int        x;                     /* index for pseudoknot characters */
+  int        status = eslEMEM;	    /* exit status 'til proven otherwise */
+
+  /* total number of basepairs */
+  for (j = 1; j <= n; j ++) { if (ct[j] > 0 && j < ct[j]) npairs ++; }
+  
+  /* Copy of ct; if a pseudoknotted structure, cct will be modified later.
+   */
+  ESL_ALLOC(cct, sizeof(int)*(n+1));
+  esl_vec_ICopy(ct, (n+1), cct);
+  
+  /* Initialize rightbounds for all 26 pseudoknot indices */
+  for (x = 0; x < 26; x ++) rb[x] = -1;
+
+  /* init ss[] to single stranded */
+  for (j = 0; j < n; j ++) { ss[j] = '.'; }  
+  ss[n] = '\0'; 
+ 
+  /* Initialization*/
+  if ((pda   = esl_stack_ICreate()) == NULL) goto FINISH;
+  if ((auxpk = esl_stack_ICreate()) == NULL) goto FINISH;
+  
+  for (j = 1; j <= n; j++)
+    {
+      if (cct[j] == 0)	/* unpaired: push j. */
+	{
+	  if (esl_stack_IPush(pda, j) != eslOK) goto FINISH;
+	}
+      else if (cct[j] > j) /* left side of a bp: push j. */
+	{
+	  if (esl_stack_IPush(pda, j) != eslOK) goto FINISH;
+	}
+      else   /* right side of a bp; main routine: fingh the left partner */
+	{
+	  found_partner = FALSE;
+
+	  /* Pop back until we find the left partner of j;
+	   * In case this is not a nested structure, finding
+	   * the left partner of j will require to put bases 
+	   * aside into stack auxpk.
+	   */	 
+	  while (esl_stack_ObjectCount(pda)) 
+	    {
+	      if (esl_stack_IPop(pda, &i) != eslOK) goto FINISH;
+	      
+	      if (cct[i] == j)  /* we found the i,j pair. */
+		{
+		  found_partner = TRUE;
+		  npairs_reached ++;	
+
+		  ss[i-1] = '<';
+		  ss[j-1] = '>';
+		  break;
+		}
+	      
+	      else if (cct[i] == 0) 
+		{
+		  if (ct[i] == 0) ss[i-1] = '.';
+		}
+
+	      else /* cct[i]>0, != j: i is paired, but not to j: pseudoknot! */
+		{
+		  /* i is in the way to find j's left partner. 
+		   * Move i to stack auxpk; resolve pseudoknot(s) after we've found partern for j.
+		   */ 
+		  if (esl_stack_IPush(auxpk, i) != eslOK) goto FINISH;
+		}
+	    } 
+	  
+	  if (!found_partner) {
+	    esl_stack_Destroy(pda); esl_stack_Destroy(auxpk); free(cct); 
+	    ESL_EXCEPTION(eslEINVAL, "Cannot find left partner (%d) of base %d. Likely a triplet", ct[j], j);
+	  }
+	} /* finished finding the left partner of j */
+      
+      /* After we've found the left partner of j, resolve pks found along the way.
+       * Then, remove the pseudoknotted based from cct so we can find the rest of the structure.
+       */
+      if (esl_stack_ObjectCount(auxpk)) {
+
+	/* init for first pseudoknot */
+	leftbound  = cct[j];
+	rightbound = leftbound + 1;
+	xpk        = -1;            /* start with 'A' if possible again */
+
+	while (esl_stack_IPop(auxpk, &i) == eslOK) {
+
+	  for (k = rightbound-1; k > leftbound; k --) 
+	    {
+	      if      (cct[k] == 0)          { continue; } 
+	      else if (cct[k] >  rightbound) { continue; } 
+	      else if (cct[k] == i)          { break; }                  /* i continues the given pseudoknot */
+	      else                           { k = leftbound; break; }   /* a new pseudoknot */		    		
+	    }
+	  
+	  if (k == leftbound) /* a new pseudoknot */
+	    {
+	      npk ++;
+	      xpk ++;
+	      /* figure out if we can use this alphabet index, or bump it up if necessary */
+	      while (i < rb[xpk]) { xpk ++; }
+	      
+	      leftbound  = (rightbound < cct[i])? rightbound : cct[j];
+	      rightbound = cct[i];
+	    }
+	      
+	  npairs_reached ++;
+	  if (xpk+(int)('a') <= (int)('z')) {
+
+	    /* update the rightbound of this pk index if necessary */
+	    if (cct[i] > rb[xpk]) rb[xpk] = cct[i];
+	    
+	    /* Add pk indices for this basepair */
+	    ss[i-1]      = (char)(xpk+(int)('A'));
+	    ss[cct[i]-1] = (char)(xpk+(int)('a'));
+	    
+	    /* remove pseudoknotted pair from cct */
+	    cct[i]     = 0;
+	    cct[ct[i]] = 0;
+	  }
+	  else  ESL_EXCEPTION(eslEINVAL, "Don't have enough letters to describe all different pseudoknots.");	      
+	    	  
+	} 	
+      } /* while there is something in auxpk stack */
+
+    } /* finished loop over j: end position on seq, 1..n*/ 
+  
+  status = eslOK;
+
+ ERROR:
+ FINISH:
+  if (npairs != npairs_reached) 		  
+    ESL_EXCEPTION(eslFAIL, "found %d out of %d pairs.", npairs_reached, npairs);
+  if (pda   != NULL) esl_stack_Destroy(pda);
+  if (auxpk != NULL) esl_stack_Destroy(auxpk);
+  if (cct   != NULL) free(cct);
+  return status;
+}
+
+/* Function:  esl_wuss2kh()
+ * Incept:    SRE, Tue Feb 15 10:05:35 2005 [St. Louis]
+ *
+ * Purpose:   Converts a secondary structure string <ss> in 
+ *            WUSS notation back to old KHS format in <kh>.
+ *            <kh> must be allocated for at least as much
+ *            space as <ss>. <kh> may be the same as <ss>,
+ *            in which case the conversion is done in-place.
+ *
+ * Note:      Left bp chars  are converted to >   (left base of base pairs)
+ *            Right bp chars are converted to <   (right base of base pairs)
+ *            Characters _-,:~ are converted to . (unpaired bases)
+ *            Character  .     is untouched       (unpaired)
+ *            Everything else is untouched, including any pseudoknot notation.
+ * 
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_wuss2kh(char *ss, char *kh)
+{
+  while (*ss != '\0')
+    {
+      if       (*ss == '<') *kh = '>';
+      else if  (*ss == '(') *kh = '>';
+      else if  (*ss == '[') *kh = '>';
+      else if  (*ss == '{') *kh = '>';
+      else if  (*ss == '>') *kh = '<';
+      else if  (*ss == ')') *kh = '<';
+      else if  (*ss == ']') *kh = '<';
+      else if  (*ss == '}') *kh = '<';
+      else if  (*ss == '_') *kh = '.';
+      else if  (*ss == '-') *kh = '.';
+      else if  (*ss == ',') *kh = '.';
+      else if  (*ss == ':') *kh = '.';
+      else if  (*ss == '~') *kh = '.';
+      else *kh = *ss;
+      ss++;
+      kh++;
+    }
+  *kh = '\0';
+  return eslOK;
+}
+
+
+/* Function:  esl_kh2wuss()
+ * Incept:    SRE, Tue Feb 15 10:10:40 2005 [St. Louis]
+ *
+ * Purpose:   Converts an old format secondary structure string <kh>
+ *            to shorthand WUSS format <ss>. <ss> must be allocated at least
+ *            as large as <kh>. <ss> can be identical to <kh>, in which
+ *            case the conversion is done in-place.
+ *
+ * Note:      Character > is converted to <  (left base of base pairs)
+ *            Character < is converted to >  (right base of base pairs)
+ *            A space is converted to .      (just in case)      
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+esl_kh2wuss(char *kh, char *ss)
+{
+  while (*kh != '\0')
+    {
+      if      (*kh == '>') *ss = '<';
+      else if (*kh == '<') *ss = '>';
+      else if (*kh == ' ') *ss = '.';
+      else *ss = *kh;
+      kh++;
+      ss++;
+    }
+  *ss = '\0';
+  return eslOK;
+}
+
+
+/* Function:  esl_wuss_full()
+ * Incept:    SRE, Mon Feb 28 09:44:40 2005 [St. Louis]
+ *
+ * Purpose:   Given a simple ("input") WUSS format annotation string <oldss>,
+ *            convert it to full ("output") WUSS format in <newss>.
+ *            <newss> must be allocated by the caller to be at least as 
+ *            long as <oldss>. <oldss> and <newss> can be the same,
+ *            to convert a secondary structure string in place.
+ *            
+ *            Pseudoknot annotation is preserved, if <oldss> had it.
+ *
+ * Returns:   <eslSYNTAX> if <oldss> isn't in valid WUSS format.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINCONCEIVABLE> on internal error that can't happen.
+ */
+int
+esl_wuss_full(char *oldss, char *newss)
+{
+  char *tmp = NULL;
+  int  *ct  = NULL;
+  int   n;
+  int   i;
+  int   status;
+
+  /* We can use the ct2wuss algorithm to generate a full WUSS string -
+   * convert to ct, then back to WUSS.  ct2wuss doesn't deal with pk's
+   * though, and we want to propagate pk annotation if it's there.  So
+   * we need two workspaces: ct array, and a temporary ss string that
+   * we use to hold non-pk annotation.  As a final step, we overlay
+   * the pk annotation from the original oldss annotation.
+   */
+  n = strlen(oldss);
+  ESL_ALLOC(ct,  sizeof(int)  * (n+1));
+  ESL_ALLOC(tmp, sizeof(char) * (n+1));
+  
+  esl_wuss_nopseudo(oldss, tmp);/* tmp = nonpseudoknotted oldss */
+
+  status = esl_wuss2ct(tmp, n, ct);   /* ct  = oldss in ct format, no pks */
+  if (status != eslOK) goto ERROR;
+
+  status = esl_ct2wuss(ct, n, tmp);   /* now tmp is a full WUSS string */
+  if (status == eslEINVAL) { status = eslEINCONCEIVABLE; goto ERROR; }/* we're sure, no pk's */
+  else if (status != eslOK) goto ERROR; /* EMEM, EINCONCEIVABLE  */
+  
+  for (i = 0; i < n; i++)
+    if (isalpha(oldss[i])) newss[i] = oldss[i];	/* transfer pk annotation */
+    else newss[i] = tmp[i];                     /* transfer new WUSS      */
+
+  free(ct);
+  free(tmp);
+  return eslOK;
+
+ ERROR:
+  free(ct);
+  free(tmp);
+  return status;
+}
+
+
+
+/* Function:  esl_wuss_nopseudo()
+ * Incept:    SRE, Tue Feb 15 11:02:43 2005 [St. Louis]
+ *
+ * Purpose:   Given a WUSS format annotation string <ss1>,
+ *            removes all pseudoknot annotation to create a new 
+ *            WUSS string <ss2> that contains only a "canonical"
+ *            (nonpseudoknotted) structure. <ss2> must be allocated to
+ *            be at least as large as <ss1>. <ss1> and <ss2>
+ *            may be the same, in which case the conversion is
+ *            done in place. Pseudoknot annotation in <ss1> is
+ *            simply replaced by <.> in <ss2>; the resulting
+ *            <ss2> WUSS string is therefore in valid simplified format,
+ *            but may not be valid full format WUSS.
+ *
+ * Returns:   <eslOK>.
+ */
+int
+esl_wuss_nopseudo(char *ss1, char *ss2)
+{
+  while (*ss1 != '\0') 
+    {
+      if (isalpha(*ss1)) *ss2 = '.';
+      else *ss2 = *ss1;
+      ss1++;
+      ss2++;
+    }
+  *ss2 = '\0';
+  return eslOK;
+}
+
+
+#ifdef eslWUSS_TESTDRIVE
+/* gcc -g -Wall -o testwuss -I. -DeslWUSS_TESTDRIVE esl_wuss.c esl_random.c esl_stack.c esl_vectorops.c easel.c
+ * ./testwuss
+ */
+
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_stack.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+int
+main(int argc, char **argv)
+{
+  /* The example is E. coli RNase P, w/ and w/o pks. 
+   * J Brown figure 10.3.00 shows 1 too many bp for pk stem A. 
+   */
+  char ss[] = "\
+{{{{{{{{{{{{{{{{{{,<<<<<<<<<<<<<-<<<<<____>>>>>>>>>->>>>>>>>\
+>,,,,AAA-AAAAA[[[[---BBBB-[[[[[<<<<<_____>>>>><<<<____>>>->(\
+(---(((((,,,,,,,,,,,,<<<<<--<<<<<<<<____>>>>>->>>>>>-->>,,,,\
+,,,<<<<<<_______>>>>>><<<<<<<<<____>>>->>>>>->,,)))--))))]]]\
+]]]]]],,,<<<<------<<<<<<----<<<<<_bbbb>>>>>>>>>>>----->>>>,\
+,,,,,<<<<<<<<____>>>>>>>>,,,,,,,,,,}}}}}}}----------aaaaaaaa\
+-}-}}}}}}}}}}::::";
+  char ss_nopk[] = "\
+{{{{{{{{{{{{{{{{{{,<<<<<<<<<<<<<-<<<<<____>>>>>>>>>->>>>>>>>\
+>,,,,,,,,,,,,,[[[[--------[[[[[<<<<<_____>>>>><<<<____>>>->(\
+(---(((((,,,,,,,,,,,,<<<<<--<<<<<<<<____>>>>>->>>>>>-->>,,,,\
+,,,<<<<<<_______>>>>>><<<<<<<<<____>>>->>>>>->,,)))--))))]]]\
+]]]]]],,,<<<<------<<<<<<----<<<<<_____>>>>>>>>>>>----->>>>,\
+,,,,,<<<<<<<<____>>>>>>>>,,,,,,,,,,}}}}}}}------------------\
+-}-}}}}}}}}}}::::";
+  int  len;
+  int  *ct1 = NULL;
+  int  *ct2 = NULL;
+  char *ss2 = NULL;
+  char *ss3 = NULL;
+  int  i;
+  int  nbp, nbp_true, npk;
+  int  status;
+
+  len = strlen(ss);
+  ESL_ALLOC(ct1, sizeof(int)  * (len+1));
+  ESL_ALLOC(ct2, sizeof(int)  * (len+1));
+  ESL_ALLOC(ss2, sizeof(char) * (len+1));
+  ESL_ALLOC(ss3, sizeof(char) * (len+1));
+  nbp_true = npk = 0;
+  for (i = 0; i < len; i++)
+    {
+      if (strchr("{[(<", ss[i]) != NULL)
+	nbp_true++;
+      if (isupper(ss[i]))
+	npk++;
+    }
+	
+  if (esl_wuss2ct(ss, len, ct1) != eslOK) abort();
+  nbp = 0;
+  for (i = 1; i <= len; i++)
+    if (ct1[i] > i) nbp++;
+  if (nbp != nbp_true + npk) abort();
+  
+  if (esl_wuss2kh(ss, ss)       != eslOK) abort();
+  if (esl_kh2wuss(ss, ss)       != eslOK) abort();
+  if (esl_wuss2ct(ss, len, ct2) != eslOK) abort();
+  for (i = 1; i <= len; i++)
+    if (ct1[i] != ct2[i]) abort();
+  
+  /* test of pseudoknots */
+  if (esl_ct2wuss(ct1, len, ss2) != eslOK) abort();
+  if (esl_wuss2ct(ss2, len, ct2) != eslOK) abort();
+  for (i = 1; i <= len; i++)
+    if (ct1[i] != ct2[i]) abort();
+
+  if (esl_ct2simplewuss(ct1, len, ss2) != eslOK) abort();
+  if (esl_wuss2ct(ss2, len, ct2) != eslOK) abort();
+  for (i = 1; i <= len; i++)
+    if (ct1[i] != ct2[i]) abort();
+
+  if (esl_wuss_nopseudo(ss, ss)      != eslOK) abort();
+  if (esl_wuss2ct(ss, len, ct1)      != eslOK) abort();
+  if (esl_wuss2ct(ss_nopk, len, ct2) != eslOK) abort();
+  for (i = 1; i <= len; i++)
+    if (ct1[i] != ct2[i]) abort();
+
+  if (esl_wuss2ct(ss_nopk, len, ct1) != eslOK) abort();
+  if (esl_ct2wuss(ct1, len, ss3)     != eslOK) abort();
+  if (strcmp(ss_nopk, ss3) != 0) abort();
+
+  free(ct1);
+  free(ct2);
+  free(ss2);
+  free(ss3);
+  return 0;
+
+ ERROR:
+  free(ct1);
+  free(ct2);
+  free(ss2);
+  free(ss3);
+  return status;
+}
+#endif /*eslWUSS_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $Id: esl_wuss.c 854 2013-02-25 22:00:19Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_wuss.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.h
new file mode 100755
index 0000000..ce2dfc1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.h
@@ -0,0 +1,28 @@
+/* RNA secondary structure markup in WUSS notation.
+ * 
+ * SRE, Tue Feb 15 10:15:28 2005
+ * SVN $Id: esl_wuss.h 791 2012-08-22 18:03:16Z rivase $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/esl_wuss.h $
+ */
+#ifndef eslWUSS_INCLUDED
+#define eslWUSS_INCLUDED
+
+extern int esl_wuss2ct(char *ss, int len, int *ct);
+extern int esl_ct2wuss(int *ct, int n, char *ss);
+extern int esl_ct2simplewuss(int *ct, int n, char *ss);
+extern int esl_wuss2kh(char *ss, char *kh);
+extern int esl_kh2wuss(char *kh, char *ss);
+extern int esl_wuss_full(char *oldss, char *newss);
+extern int esl_wuss_nopseudo(char *ss1, char *ss2);
+
+
+#endif /*eslWUSS_INCLUDED*/
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.tex
new file mode 100755
index 0000000..5dcda77
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/esl_wuss.tex
@@ -0,0 +1,34 @@
+
+The wuss module implements routines for using WUSS notation to
+represent RNA secondary structures. 
+
+The API provides the following converters:
+
+\begin{tabular}{ll}
+\ccode{esl\_wuss2ct()} & Convert WUSS string to Zuker CT array. \\
+\ccode{esl\_ct2wuss()} & Convert CT array (no pk's) to WUSS string. \\
+\ccode{esl\_wuss2kh()} & Convert WUSS string to old format (Konings/Hogeweg).\\
+\ccode{esl\_kh2wuss()} & Convert old format to WUSS string.\\
+\ccode{esl\_wuss\_full()}& Convert simple WUSS to full (output) WUSS.\\
+\ccode{esl\_wuss\_nopseudo()} & Crudely remove pseudoknot annotation from WUSS string.\\
+\end{tabular}
+
+WUSS notation is defined later in the Formats section of this
+document.
+
+So-called ``old'' (KH) format (old because COVE used it, whereas
+Infernal uses WUSS) for a secondary structure annotation string used
+\ccode{><} pairs to annotate base pairs, as in \ccode{>>>....<<<} for
+a three-base stem with a four-base single stranded loop.
+
+A CT array is a \ccode{1..n} array for a sequence of length \ccode{n},
+where \ccode{ct[i]} is either an index \ccode {1..n} of a position
+that residue \ccode{i} base pairs to, or 0 if \ccode{i} is unpaired.
+
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/BLOSUM62 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/BLOSUM62
new file mode 100755
index 0000000..205f139
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/BLOSUM62
@@ -0,0 +1,31 @@
+#  Matrix made by matblas from blosum62.iij
+#  * column uses minimum score
+#  BLOSUM Clustered Scoring Matrix in 1/2 Bit Units
+#  Blocks Database = /data/blocks_5.0/blocks.dat
+#  Cluster Percentage: >= 62
+#  Entropy =   0.6979, Expected =  -0.5209
+   A  R  N  D  C  Q  E  G  H  I  L  K  M  F  P  S  T  W  Y  V  B  Z  X  *
+A  4 -1 -2 -2  0 -1 -1  0 -2 -1 -1 -1 -1 -2 -1  1  0 -3 -2  0 -2 -1  0 -4 
+R -1  5  0 -2 -3  1  0 -2  0 -3 -2  2 -1 -3 -2 -1 -1 -3 -2 -3 -1  0 -1 -4 
+N -2  0  6  1 -3  0  0  0  1 -3 -3  0 -2 -3 -2  1  0 -4 -2 -3  3  0 -1 -4 
+D -2 -2  1  6 -3  0  2 -1 -1 -3 -4 -1 -3 -3 -1  0 -1 -4 -3 -3  4  1 -1 -4 
+C  0 -3 -3 -3  9 -3 -4 -3 -3 -1 -1 -3 -1 -2 -3 -1 -1 -2 -2 -1 -3 -3 -2 -4 
+Q -1  1  0  0 -3  5  2 -2  0 -3 -2  1  0 -3 -1  0 -1 -2 -1 -2  0  3 -1 -4 
+E -1  0  0  2 -4  2  5 -2  0 -3 -3  1 -2 -3 -1  0 -1 -3 -2 -2  1  4 -1 -4 
+G  0 -2  0 -1 -3 -2 -2  6 -2 -4 -4 -2 -3 -3 -2  0 -2 -2 -3 -3 -1 -2 -1 -4 
+H -2  0  1 -1 -3  0  0 -2  8 -3 -3 -1 -2 -1 -2 -1 -2 -2  2 -3  0  0 -1 -4 
+I -1 -3 -3 -3 -1 -3 -3 -4 -3  4  2 -3  1  0 -3 -2 -1 -3 -1  3 -3 -3 -1 -4 
+L -1 -2 -3 -4 -1 -2 -3 -4 -3  2  4 -2  2  0 -3 -2 -1 -2 -1  1 -4 -3 -1 -4 
+K -1  2  0 -1 -3  1  1 -2 -1 -3 -2  5 -1 -3 -1  0 -1 -3 -2 -2  0  1 -1 -4 
+M -1 -1 -2 -3 -1  0 -2 -3 -2  1  2 -1  5  0 -2 -1 -1 -1 -1  1 -3 -1 -1 -4 
+F -2 -3 -3 -3 -2 -3 -3 -3 -1  0  0 -3  0  6 -4 -2 -2  1  3 -1 -3 -3 -1 -4 
+P -1 -2 -2 -1 -3 -1 -1 -2 -2 -3 -3 -1 -2 -4  7 -1 -1 -4 -3 -2 -2 -1 -2 -4 
+S  1 -1  1  0 -1  0  0  0 -1 -2 -2  0 -1 -2 -1  4  1 -3 -2 -2  0  0  0 -4 
+T  0 -1  0 -1 -1 -1 -1 -2 -2 -1 -1 -1 -1 -2 -1  1  5 -2 -2  0 -1 -1  0 -4 
+W -3 -3 -4 -4 -2 -2 -3 -2 -2 -3 -2 -3 -1  1 -4 -3 -2 11  2 -3 -4 -3 -2 -4 
+Y -2 -2 -2 -3 -2 -1 -2 -3  2 -1 -1 -2 -1  3 -3 -2 -2  2  7 -1 -3 -2 -1 -4 
+V  0 -3 -3 -3 -1 -2 -2 -3 -3  3  1 -2  1 -1 -2 -2  0 -3 -1  4 -3 -2 -1 -4 
+B -2 -1  3  4 -3  0  1 -1  0 -3 -4  0 -3 -3 -2  0 -1 -4 -3 -3  4  1 -1 -4 
+Z -1  0  0  1 -3  3  4 -2  0 -3 -3  1 -1 -3 -1  0 -1 -3 -2 -2  1  4 -1 -4 
+X  0 -1 -1 -1 -2 -1 -1 -1 -1 -1 -1 -1 -1 -1 -2  0  0 -2 -1 -1 -1 -1 -1 -4 
+* -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4 -4  1 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/embl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/embl
new file mode 100755
index 0000000..63c3220
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/embl
@@ -0,0 +1,118 @@
+ID   X06347; SV 1; linear; mRNA; STD; HUM; 1209 BP.
+XX
+AC   X06347;
+XX
+DT   19-OCT-1988 (Rel. 18, Created)
+DT   12-SEP-1993 (Rel. 36, Last updated, Version 2)
+XX
+DE   Human mRNA for U1 small nuclear RNP-specific A protein
+XX
+KW   U1 snRNP-specific protein A.
+XX
+OS   Homo sapiens (human)
+OC   Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia;
+OC   Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae;
+OC   Homo.
+XX
+RN   [1]
+RP   1-1209
+RX   PUBMED; 2962859.
+RA   Sillekens P.T.G., Habets W.J., Beijer R.P., van Venrooij W.J.;
+RT   "cDNA cloning of the human U1 snRNA-associated A protein: extensive
+RT   homology between U1 and U2 snRNP-specific proteins";
+RL   EMBO J. 6(12):3841-3848(1987).
+XX
+DR   ASTD; TRAN00000054082.
+DR   H-InvDB; HIT000321180.
+DR   RFAM; RF00460; U1A_PIE.
+XX
+CC   Data kindly reviewed (07-NOV-1988) by VAN VENROOIJ W.J.
+XX
+FH   Key             Location/Qualifiers
+FH
+FT   source          1..1209
+FT                   /organism="Homo sapiens"
+FT                   /mol_type="mRNA"
+FT                   /clone_lib="lambda gt11"
+FT                   /clone="pHA-1, pHA-2, pHA-3, pHA-4"
+FT                   /tissue_type="teratocarcinoma."
+FT                   /db_xref="taxon:9606"
+FT   CDS             126..974
+FT                   /note="A protein (AA 1-282)"
+FT                   /db_xref="GDB:120380"
+FT                   /db_xref="GOA:P09012"
+FT                   /db_xref="HGNC:11151"
+FT                   /db_xref="InterPro:IPR000504"
+FT                   /db_xref="InterPro:IPR012677"
+FT                   /db_xref="PDB:1AUD"
+FT                   /db_xref="PDB:1CX0"
+FT                   /db_xref="PDB:1DRZ"
+FT                   /db_xref="PDB:1DZ5"
+FT                   /db_xref="PDB:1FHT"
+FT                   /db_xref="PDB:1M5K"
+FT                   /db_xref="PDB:1M5O"
+FT                   /db_xref="PDB:1M5P"
+FT                   /db_xref="PDB:1M5V"
+FT                   /db_xref="PDB:1NU4"
+FT                   /db_xref="PDB:1OIA"
+FT                   /db_xref="PDB:1SJ3"
+FT                   /db_xref="PDB:1SJ4"
+FT                   /db_xref="PDB:1SJF"
+FT                   /db_xref="PDB:1U6B"
+FT                   /db_xref="PDB:1URN"
+FT                   /db_xref="PDB:1VBX"
+FT                   /db_xref="PDB:1VBY"
+FT                   /db_xref="PDB:1VBZ"
+FT                   /db_xref="PDB:1VC0"
+FT                   /db_xref="PDB:1VC5"
+FT                   /db_xref="PDB:1VC6"
+FT                   /db_xref="PDB:1VC7"
+FT                   /db_xref="PDB:1ZZN"
+FT                   /db_xref="PDB:2A3J"
+FT                   /db_xref="PDB:2NZ4"
+FT                   /db_xref="PDB:2OIH"
+FT                   /db_xref="PDB:2OJ3"
+FT                   /db_xref="PDB:2U1A"
+FT                   /db_xref="PDB:3BO2"
+FT                   /db_xref="PDB:3BO3"
+FT                   /db_xref="PDB:3BO4"
+FT                   /db_xref="PDB:3CUL"
+FT                   /db_xref="PDB:3CUN"
+FT                   /db_xref="PDB:3EGZ"
+FT                   /db_xref="PDB:3UTR"
+FT                   /db_xref="UniProtKB/Swiss-Prot:P09012"
+FT                   /protein_id="CAA29653.1"
+FT                   /translation="MAVPETRPNHTIYINNLNEKIKKDELKKSLYAIFSQFGQILDILV
+FT                   SRSLKMRGQAFVIFKEVSSATNALRSMQGFPFYDKPMRIQYAKTDSDIIAKMKGTFVER
+FT                   DRKREKRKPKSQETPATKKAVQGGGATPVVGAVQGPVPGMPPMTQAPRIMHHMPGQPPY
+FT                   MPPPGMIPPPGLAPGQIPPGAMPPQQLMPGQMPPAQPLSENPPNHILFLTNLPEETNEL
+FT                   MLSMLFNQFPGFKEVRLVPGRHDIAFVEFDNEVQAGAARDALQGFKITQNNAMKISFAK
+FT                   K"
+FT   misc_feature    279..302
+FT                   /note="RNP consensus sequence"
+FT   misc_feature    1162..1167
+FT                   /note="polyA signal"
+XX
+SQ   Sequence 1209 BP; 269 A; 380 C; 307 G; 253 T; 0 other;
+     gaattcctga cttccttttc ggaggaagat ccttgagcag ccgacgttgg gacaaaggat        60
+     ttggagaaac ccagggctaa agtcacgttt ttcctccttt aagacttacc tcaacacttc       120
+     actccatggc agttcccgag acccgcccta accacactat ttatatcaac aacctcaatg       180
+     agaagatcaa gaaggatgag ctaaaaaagt ccctgtacgc catcttctcc cagtttggcc       240
+     agatcctgga tatcctggta tcacggagcc tgaagatgag gggccaggcc tttgtcatct       300
+     tcaaggaggt cagcagcgcc accaacgccc tgcgctccat gcagggtttc cctttctatg       360
+     acaaacctat gcgtatccag tatgccaaga ccgactcaga tatcattgcc aagatgaaag       420
+     gcaccttcgt ggagcgggac cgcaagcggg agaagaggaa gcccaagagc caggagaccc       480
+     cggccaccaa gaaggctgtg caaggcgggg gagccacccc cgtggtgggg gctgtccagg       540
+     ggcctgtccc gggcatgccg ccgatgactc aggcgccccg cattatgcac cacatgccgg       600
+     gccagccgcc ctacatgccg ccccctggta tgatcccccc gccaggcctt gcacctggcc       660
+     agatcccacc aggggccatg cccccgcagc agcttatgcc aggacagatg ccccctgccc       720
+     agcctctttc tgagaatcca ccgaatcaca tcttgttcct caccaacctg ccagaggaga       780
+     ccaacgagct catgctgtcc atgcttttca atcagttccc tggcttcaag gaggtccgtc       840
+     tggtacccgg gcggcatgac atcgccttcg tggagtttga caatgaggta caggcagggg       900
+     cagctcgcga tgccctgcag ggctttaaga tcacgcagaa caacgccatg aagatctcct       960
+     ttgccaagaa gtagcacctt ttccccccat gcctgcccct tcccctgttc tggggccacc      1020
+     cctttccccc ttggctcagc cccctgaagg taagtccccc cttgggggcc ttcttggagc      1080
+     cgtgtgtgag tgagtggtcg ccacacagca ttgtacccag agtctgtccc cagacattgc      1140
+     acctggcgct gttaggccgg aattaaagtg gctttttgag gtttggtttt tcacaaaaaa      1200
+     aaggaattc                                                              1209
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta
new file mode 100755
index 0000000..208bc66
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta
@@ -0,0 +1,13 @@
+>SNRPA_DROME U1 small nuclear ribonucleoprotein A (U1 snRNP protein A) (U1-A) (Sex determination protein snf).
+MEMLPNQTIYINNLNEKIKKEELKKSLYAIFSQFGQILDIVALKTLKMRG
+QAFVIFKEIGSASNALRTMQGFPFYDKPMQIAYSKSDSDIVAKIKGTFKE
+RPKKVKPPKPAPGTDEKKDKKKKPSSAENSNPNAQTEQPPNQILFLTNLP
+EETNEMMLSMLFNQFPGFKEVRLVPNRHDIAFVEFTTELQSNAAKEALQG
+FKITPTHAMKITFAKK
+>SNRPA_HUMAN U1 small nuclear ribonucleoprotein A (U1 snRNP protein A) (U1A protein) (U1-A).
+AVPETRPNHTIYINNLNEKIKKDELKKSLYAIFSQFGQILDILVSRSLKM
+RGQAFVIFKEVSSATNALRSMQGFPFYDKPMRIQYAKTDSDIIAKMKGTF
+VERDRKREKRKPKSQETPATKKAVQGGGATPVVGAVQGPVPGMPPMTQAP
+RIMHHMPGQPPYMPPPGMIPPPGLAPGQIPPGAMPPQQLMPGQMPPAQPL
+SENPPNHILFLTNLPEETNELMLSMLFNQFPGFKEVRLVPGRHDIAFVEF
+DNEVQAGAARDALQGFKITQNNAMKISFAKK
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.2 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.2
new file mode 100755
index 0000000..1df9a4e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.2
@@ -0,0 +1,19 @@
+
+
+>SNRPA_DROME U1 small nuclear ribonucleoprotein A (U1 snRNP protein A) (U1-A) (Sex determination protein snf).
+MEMLPNQTIYINNLNEKIKKEELKKSLYAIFSQFGQILDIVALKTLKMRG
+QAFVIFKEIGSASNALRTMQGFPFYDKPMQIAYSKSDSDIVAKIKGTFKE
+RPKKVKPPKPAPGTDEKKDKKKKPSSAENSNPNAQTEQPPNQILFLTNLP
+EETNEMMLSMLFNQFPGFKEVRLVPNRHDIAFVEFTTELQSNAAKEALQG
+FKITPTHAMKITFAKK
+
+
+>SNRPA_HUMAN U1 small nuclear ribonucleoprotein A (U1 snRNP protein A) (U1A protein) (U1-A).
+AVPETRPNHTIYINNLNEKIKKDELKKSLYAIFSQFGQILDILVSRSLKM
+RGQAFVIFKEVSSATNALRSMQGFPFYDKPMRIQYAKTDSDIIAKMKGTF
+VERDRKREKRKPKSQETPATKKAVQGGGATPVVGAVQGPVPGMPPMTQAP
+RIMHHMPGQPPYMPPPGMIPPPGLAPGQIPPGAMPPQQLMPGQMPPAQPL
+SENPPNHILFLTNLPEETNELMLSMLFNQFPGFKEVRLVPGRHDIAFVEF
+DNEVQAGAARDALQGFKITQNNAMKISFAKK
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.1
new file mode 100755
index 0000000..31b18c1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.1
@@ -0,0 +1,2 @@
+>what happens with a bad character?
+ACGT1ACGT
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.2 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.2
new file mode 100755
index 0000000..3990c99
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.2
@@ -0,0 +1 @@
+>truncated_nam
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.3 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.3
new file mode 100755
index 0000000..40846a2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.bad.3
@@ -0,0 +1 @@
+>truncated in descripti
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.odd.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.odd.1
new file mode 100755
index 0000000..956cb58
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/fasta.odd.1
@@ -0,0 +1,2 @@
+>what happens with empty sequences?
+>we should accept them.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank
new file mode 100755
index 0000000..c2358e2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank
@@ -0,0 +1,55 @@
+GBSMP.SEQ          Genetic Sequence Data Bank
+                         15 December 1992
+
+                 GenBank Flat File Release 74.0
+
+                     Structural RNA Sequences
+
+      2 loci,       236 bases, from     2 reported sequences
+
+LOCUS       AAURRA        118 bp ss-rRNA            RNA       16-JUN-1986
+DEFINITION  A.auricula-judae (mushroom) 5S ribosomal RNA.
+ACCESSION   K03160
+VERSION     K03160.1  GI:173593
+KEYWORDS    5S ribosomal RNA; ribosomal RNA.
+SOURCE      A.auricula-judae (mushroom) ribosomal RNA.
+  ORGANISM  Auricularia auricula-judae
+            Eukaryota; Fungi; Eumycota; Basidiomycotina; Phragmobasidiomycetes;
+            Heterobasidiomycetidae; Auriculariales; Auriculariaceae.
+REFERENCE   1  (bases 1 to 118)
+  AUTHORS   Huysmans,E., Dams,E., Vandenberghe,A. and De Wachter,R.
+  TITLE     The nucleotide sequences of the 5S rRNAs of four mushrooms and
+            their use in studying the phylogenetic position of basidiomycetes
+            among the eukaryotes
+  JOURNAL   Nucleic Acids Res. 11, 2871-2880 (1983)
+FEATURES             Location/Qualifiers
+     rRNA            1..118
+                     /note="5S ribosomal RNA"
+BASE COUNT       27 a     34 c     34 g     23 t
+ORIGIN      5' end of mature rRNA.
+        1 atccacggcc ataggactct gaaagcactg catcccgtcc gatctgcaaa gttaaccaga
+       61 gtaccgccca gttagtacca cggtggggga ccacgcggga atcctgggtg ctgtggtt
+//
+LOCUS       ABCRRAA       118 bp ss-rRNA            RNA       15-SEP-1990
+DEFINITION  Acetobacter sp. (strain MB 58) 5S ribosomal RNA, complete sequence.
+ACCESSION   M34766
+VERSION     M34766.1  GI:173603
+KEYWORDS    5S ribosomal RNA.
+SOURCE      Acetobacter sp. (strain MB 58) rRNA.
+  ORGANISM  Acetobacter sp.
+            Prokaryotae; Gracilicutes; Scotobacteria; Aerobic rods and cocci;
+            Azotobacteraceae.
+REFERENCE   1  (bases 1 to 118)
+  AUTHORS   Bulygina,E.S., Galchenko,V.F., Govorukhina,N.I., Netrusov,A.I.,
+            Nikitin,D.I., Trotsenko,Y.A. and Chumakov,K.M.
+  TITLE     Taxonomic studies of methylotrophic bacteria by 5S ribosomal RNA
+            sequencing
+  JOURNAL   J. Gen. Microbiol. 136, 441-446 (1990)
+FEATURES             Location/Qualifiers
+     rRNA            1..118
+                     /note="5S ribosomal RNA"
+BASE COUNT       27 a     40 c     32 g     17 t      2 others
+ORIGIN      
+        1 gatctggtgg ccatggcggg agcaaatcag ccgatcccat cccgaactcg gccgtcaaat
+       61 gccccagcgc ccatgatact ctgcctcaag gcacggaaaa gtcggtcgcc gccagayy
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank.2 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank.2
new file mode 100755
index 0000000..cada00c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank.2
@@ -0,0 +1,52 @@
+
+
+
+LOCUS       AAURRA        118 bp ss-rRNA            RNA       16-JUN-1986
+DEFINITION  A.auricula-judae (mushroom) 5S ribosomal RNA.
+ACCESSION   K03160
+VERSION     K03160.1  GI:173593
+KEYWORDS    5S ribosomal RNA; ribosomal RNA.
+SOURCE      A.auricula-judae (mushroom) ribosomal RNA.
+  ORGANISM  Auricularia auricula-judae
+            Eukaryota; Fungi; Eumycota; Basidiomycotina; Phragmobasidiomycetes;
+            Heterobasidiomycetidae; Auriculariales; Auriculariaceae.
+REFERENCE   1  (bases 1 to 118)
+  AUTHORS   Huysmans,E., Dams,E., Vandenberghe,A. and De Wachter,R.
+  TITLE     The nucleotide sequences of the 5S rRNAs of four mushrooms and
+            their use in studying the phylogenetic position of basidiomycetes
+            among the eukaryotes
+  JOURNAL   Nucleic Acids Res. 11, 2871-2880 (1983)
+FEATURES             Location/Qualifiers
+     rRNA            1..118
+                     /note="5S ribosomal RNA"
+BASE COUNT       27 a     34 c     34 g     23 t
+ORIGIN      5' end of mature rRNA.
+        1 atccacggcc ataggactct gaaagcactg catcccgtcc gatctgcaaa gttaaccaga
+       61 gtaccgccca gttagtacca cggtggggga ccacgcggga atcctgggtg ctgtggtt
+//
+LOCUS       ABCRRAA       118 bp ss-rRNA            RNA       15-SEP-1990
+DEFINITION  Acetobacter sp. (strain MB 58) 5S ribosomal RNA, complete sequence.
+ACCESSION   M34766
+VERSION     M34766.1  GI:173603
+KEYWORDS    5S ribosomal RNA.
+SOURCE      Acetobacter sp. (strain MB 58) rRNA.
+  ORGANISM  Acetobacter sp.
+            Prokaryotae; Gracilicutes; Scotobacteria; Aerobic rods and cocci;
+            Azotobacteraceae.
+REFERENCE   1  (bases 1 to 118)
+  AUTHORS   Bulygina,E.S., Galchenko,V.F., Govorukhina,N.I., Netrusov,A.I.,
+            Nikitin,D.I., Trotsenko,Y.A. and Chumakov,K.M.
+  TITLE     Taxonomic studies of methylotrophic bacteria by 5S ribosomal RNA
+            sequencing
+  JOURNAL   J. Gen. Microbiol. 136, 441-446 (1990)
+FEATURES             Location/Qualifiers
+     rRNA            1..118
+                     /note="5S ribosomal RNA"
+BASE COUNT       27 a     40 c     32 g     17 t      2 others
+ORIGIN      
+        1 gatctggtgg ccatggcggg agcaaatcag ccgatcccat cccgaactcg gccgtcaaat
+       61 gccccagcgc ccatgatact ctgcctcaag gcacggaaaa gtcggtcgcc gccagayy
+//
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank.bad.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank.bad.1
new file mode 100755
index 0000000..614b962
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/genbank.bad.1
@@ -0,0 +1,55 @@
+GBSMP.SEQ          Genetic Sequence Data Bank
+                         15 December 1992
+
+                 GenBank Flat File Release 74.0
+
+                     Structural RNA Sequences
+
+      2 loci,       236 bases, from     2 reported sequences
+
+LOCUS       AAURRA        118 bp ss-rRNA            RNA       16-JUN-1986
+DEFINITION  A.auricula-judae (mushroom) 5S ribosomal RNA.
+ACCESSION   K03160
+VERSION     K03160.1  GI:173593
+KEYWORDS    5S ribosomal RNA; ribosomal RNA.
+SOURCE      A.auricula-judae (mushroom) ribosomal RNA.
+  ORGANISM  Auricularia auricula-judae
+            Eukaryota; Fungi; Eumycota; Basidiomycotina; Phragmobasidiomycetes;
+            Heterobasidiomycetidae; Auriculariales; Auriculariaceae.
+REFERENCE   1  (bases 1 to 118)
+  AUTHORS   Huysmans,E., Dams,E., Vandenberghe,A. and De Wachter,R.
+  TITLE     The nucleotide sequences of the 5S rRNAs of four mushrooms and
+            their use in studying the phylogenetic position of basidiomycetes
+            among the eukaryotes
+  JOURNAL   Nucleic Acids Res. 11, 2871-2880 (1983)
+FEATURES             Location/Qualifiers
+     rRNA            1..118
+                     /note="5S ribosomal RNA"
+BASE COUNT       27 a     34 c     34 g     23 t
+ORIGIN      5' end of mature rRNA.
+        1 atccacggcc ataggactct gaaagcactg catcccgtcc gatctgcaaa gttaaccaga%
+       61 gtaccgccca gttagtacca cggtggggga ccacgcggga atcctgggtg ctgtggtt
+//
+LOCUS       ABCRRAA       118 bp ss-rRNA            RNA       15-SEP-1990
+DEFINITION  Acetobacter sp. (strain MB 58) 5S ribosomal RNA, complete sequence.
+ACCESSION   M34766
+VERSION     M34766.1  GI:173603
+KEYWORDS    5S ribosomal RNA.
+SOURCE      Acetobacter sp. (strain MB 58) rRNA.
+  ORGANISM  Acetobacter sp.
+            Prokaryotae; Gracilicutes; Scotobacteria; Aerobic rods and cocci;
+            Azotobacteraceae.
+REFERENCE   1  (bases 1 to 118)
+  AUTHORS   Bulygina,E.S., Galchenko,V.F., Govorukhina,N.I., Netrusov,A.I.,
+            Nikitin,D.I., Trotsenko,Y.A. and Chumakov,K.M.
+  TITLE     Taxonomic studies of methylotrophic bacteria by 5S ribosomal RNA
+            sequencing
+  JOURNAL   J. Gen. Microbiol. 136, 441-446 (1990)
+FEATURES             Location/Qualifiers
+     rRNA            1..118
+                     /note="5S ribosomal RNA"
+BASE COUNT       27 a     40 c     32 g     17 t      2 others
+ORIGIN      
+        1 gatctggtgg ccatggcggg agcaaatcag ccgatcccat cccgaactcg gccgtcaaat
+       61 gccccagcgc ccatgatact ctgcctcaag gcacggaaaa gtcggtcgcc gccagayy
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/stockholm.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/stockholm.1
new file mode 100755
index 0000000..4083022
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/stockholm.1
@@ -0,0 +1,5 @@
+# STOCKHOLM 1.0
+
+seq1 GAATTC
+seq2 GAATTC
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/uniprot b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/uniprot
new file mode 100755
index 0000000..4c0d566
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/uniprot
@@ -0,0 +1,192 @@
+ID   SNRPA_DROME             Reviewed;         216 AA.
+AC   P43332; Q9W4D7;
+DT   01-NOV-1995, integrated into UniProtKB/Swiss-Prot.
+DT   01-NOV-1995, sequence version 1.
+DT   15-DEC-2009, entry version 91.
+DE   RecName: Full=U1 small nuclear ribonucleoprotein A;
+DE            Short=U1 snRNP protein A;
+DE            Short=U1-A;
+DE   AltName: Full=Sex determination protein snf;
+GN   Name=snf; Synonyms=D25, fs(1)1621, liz; ORFNames=CG4528;
+OS   Drosophila melanogaster (Fruit fly).
+OC   Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota;
+OC   Neoptera; Endopterygota; Diptera; Brachycera; Muscomorpha;
+OC   Ephydroidea; Drosophilidae; Drosophila; Sophophora.
+OX   NCBI_TaxID=7227;
+RN   [1]
+RP   NUCLEOTIDE SEQUENCE [MRNA].
+RX   MEDLINE=92350664; PubMed=1386424; DOI=10.1093/nar/20.14.3645;
+RA   Harper D.S., Fresco L.D., Keene J.D.;
+RT   "RNA binding specificity of a Drosophila snRNP protein that shares
+RT   sequence homology with mammalian U1-A and U2-B' proteins.";
+RL   Nucleic Acids Res. 20:3645-3650(1992).
+RN   [2]
+RP   NUCLEOTIDE SEQUENCE [GENOMIC DNA / MRNA].
+RC   STRAIN=Oregon-R;
+RX   MEDLINE=95011590; PubMed=7926776;
+RA   Flickinger T.W., Salz H.K.;
+RT   "The Drosophila sex determination gene snf encodes a nuclear protein
+RT   with sequence and functional similarity to the mammalian U1A snRNP
+RT   protein.";
+RL   Genes Dev. 8:914-925(1994).
+RN   [3]
+RP   NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
+RC   STRAIN=Berkeley;
+RX   MEDLINE=20196006; PubMed=10731132; DOI=10.1126/science.287.5461.2185;
+RA   Adams M.D., Celniker S.E., Holt R.A., Evans C.A., Gocayne J.D.,
+RA   Amanatides P.G., Scherer S.E., Li P.W., Hoskins R.A., Galle R.F.,
+RA   George R.A., Lewis S.E., Richards S., Ashburner M., Henderson S.N.,
+RA   Sutton G.G., Wortman J.R., Yandell M.D., Zhang Q., Chen L.X.,
+RA   Brandon R.C., Rogers Y.-H.C., Blazej R.G., Champe M., Pfeiffer B.D.,
+RA   Wan K.H., Doyle C., Baxter E.G., Helt G., Nelson C.R., Miklos G.L.G.,
+RA   Abril J.F., Agbayani A., An H.-J., Andrews-Pfannkoch C., Baldwin D.,
+RA   Ballew R.M., Basu A., Baxendale J., Bayraktaroglu L., Beasley E.M.,
+RA   Beeson K.Y., Benos P.V., Berman B.P., Bhandari D., Bolshakov S.,
+RA   Borkova D., Botchan M.R., Bouck J., Brokstein P., Brottier P.,
+RA   Burtis K.C., Busam D.A., Butler H., Cadieu E., Center A., Chandra I.,
+RA   Cherry J.M., Cawley S., Dahlke C., Davenport L.B., Davies P.,
+RA   de Pablos B., Delcher A., Deng Z., Mays A.D., Dew I., Dietz S.M.,
+RA   Dodson K., Doup L.E., Downes M., Dugan-Rocha S., Dunkov B.C., Dunn P.,
+RA   Durbin K.J., Evangelista C.C., Ferraz C., Ferriera S., Fleischmann W.,
+RA   Fosler C., Gabrielian A.E., Garg N.S., Gelbart W.M., Glasser K.,
+RA   Glodek A., Gong F., Gorrell J.H., Gu Z., Guan P., Harris M.,
+RA   Harris N.L., Harvey D.A., Heiman T.J., Hernandez J.R., Houck J.,
+RA   Hostin D., Houston K.A., Howland T.J., Wei M.-H., Ibegwam C.,
+RA   Jalali M., Kalush F., Karpen G.H., Ke Z., Kennison J.A., Ketchum K.A.,
+RA   Kimmel B.E., Kodira C.D., Kraft C.L., Kravitz S., Kulp D., Lai Z.,
+RA   Lasko P., Lei Y., Levitsky A.A., Li J.H., Li Z., Liang Y., Lin X.,
+RA   Liu X., Mattei B., McIntosh T.C., McLeod M.P., McPherson D.,
+RA   Merkulov G., Milshina N.V., Mobarry C., Morris J., Moshrefi A.,
+RA   Mount S.M., Moy M., Murphy B., Murphy L., Muzny D.M., Nelson D.L.,
+RA   Nelson D.R., Nelson K.A., Nixon K., Nusskern D.R., Pacleb J.M.,
+RA   Palazzolo M., Pittman G.S., Pan S., Pollard J., Puri V., Reese M.G.,
+RA   Reinert K., Remington K., Saunders R.D.C., Scheeler F., Shen H.,
+RA   Shue B.C., Siden-Kiamos I., Simpson M., Skupski M.P., Smith T.J.,
+RA   Spier E., Spradling A.C., Stapleton M., Strong R., Sun E.,
+RA   Svirskas R., Tector C., Turner R., Venter E., Wang A.H., Wang X.,
+RA   Wang Z.-Y., Wassarman D.A., Weinstock G.M., Weissenbach J.,
+RA   Williams S.M., Woodage T., Worley K.C., Wu D., Yang S., Yao Q.A.,
+RA   Ye J., Yeh R.-F., Zaveri J.S., Zhan M., Zhang G., Zhao Q., Zheng L.,
+RA   Zheng X.H., Zhong F.N., Zhong W., Zhou X., Zhu S.C., Zhu X.,
+RA   Smith H.O., Gibbs R.A., Myers E.W., Rubin G.M., Venter J.C.;
+RT   "The genome sequence of Drosophila melanogaster.";
+RL   Science 287:2185-2195(2000).
+RN   [4]
+RP   GENOME REANNOTATION.
+RX   MEDLINE=22426069; PubMed=12537572;
+RA   Misra S., Crosby M.A., Mungall C.J., Matthews B.B., Campbell K.S.,
+RA   Hradecky P., Huang Y., Kaminker J.S., Millburn G.H., Prochnik S.E.,
+RA   Smith C.D., Tupy J.L., Whitfield E.J., Bayraktaroglu L., Berman B.P.,
+RA   Bettencourt B.R., Celniker S.E., de Grey A.D.N.J., Drysdale R.A.,
+RA   Harris N.L., Richter J., Russo S., Schroeder A.J., Shu S.Q.,
+RA   Stapleton M., Yamada C., Ashburner M., Gelbart W.M., Rubin G.M.,
+RA   Lewis S.E.;
+RT   "Annotation of the Drosophila melanogaster euchromatic genome: a
+RT   systematic review.";
+RL   Genome Biol. 3:RESEARCH0083.1-RESEARCH0083.22(2002).
+RN   [5]
+RP   NUCLEOTIDE SEQUENCE [LARGE SCALE MRNA].
+RC   STRAIN=Berkeley;
+RX   MEDLINE=22426066; PubMed=12537569;
+RA   Stapleton M., Carlson J.W., Brokstein P., Yu C., Champe M.,
+RA   George R.A., Guarin H., Kronmiller B., Pacleb J.M., Park S., Wan K.H.,
+RA   Rubin G.M., Celniker S.E.;
+RT   "A Drosophila full-length cDNA resource.";
+RL   Genome Biol. 3:RESEARCH0080.1-RESEARCH0080.8(2002).
+CC   -!- FUNCTION: Binds stem loop II of U1 snRNA. It is the first snRNP to
+CC       interact with pre-mRNA. This interaction is required for the
+CC       subsequent binding of U2 snRNP and the U4/U6/U5 tri-snRNP (By
+CC       similarity). Plays a role in regulating sex-lethal splicing.
+CC   -!- SUBUNIT: Belongs to the spliceosome where it is associated with
+CC       snRNP U1.
+CC   -!- INTERACTION:
+CC       Q9V3N8:CG4103; NbExp=1; IntAct=EBI-174177, EBI-131989;
+CC   -!- SUBCELLULAR LOCATION: Nucleus.
+CC   -!- SIMILARITY: Belongs to the RRM U1 A/B'' family.
+CC   -!- SIMILARITY: Contains 2 RRM (RNA recognition motif) domains.
+CC   -----------------------------------------------------------------------
+CC   Copyrighted by the UniProt Consortium, see http://www.uniprot.org/terms
+CC   Distributed under the Creative Commons Attribution-NoDerivs License
+CC   -----------------------------------------------------------------------
+DR   EMBL; M89775; AAA28441.1; -; mRNA.
+DR   EMBL; L29521; AAA28903.1; -; Genomic_DNA.
+DR   EMBL; AE014298; AAF46017.1; -; Genomic_DNA.
+DR   EMBL; AY061491; AAL29039.1; -; mRNA.
+DR   PIR; A54279; A54279.
+DR   RefSeq; NP_511045.1; -.
+DR   UniGene; Dm.2625; -.
+DR   PDB; 2AYM; NMR; -; A=134-216.
+DR   PDB; 2B0G; NMR; -; A=134-216.
+DR   PDB; 2K3K; NMR; -; A=1-104.
+DR   PDBsum; 2AYM; -.
+DR   PDBsum; 2B0G; -.
+DR   PDBsum; 2K3K; -.
+DR   SMR; P43332; 1-104.
+DR   DIP; DIP-23676N; -.
+DR   IntAct; P43332; 3.
+DR   STRING; P43332; -.
+DR   PRIDE; P43332; -.
+DR   Ensembl; FBtr0070748; FBpp0070716; FBgn0003449; Drosophila melanogaster.
+DR   GeneID; 31442; -.
+DR   KEGG; dme:Dmel_CG4528; -.
+DR   NMPDR; fig|7227.3.peg.16553; -.
+DR   CTD; 31442; -.
+DR   FlyBase; FBgn0003449; snf.
+DR   InParanoid; P43332; -.
+DR   OMA; RSLHMIF; -.
+DR   OrthoDB; EOG9NKC31; -.
+DR   BioCyc; DMEL-XXX-02:DMEL-XXX-02-000654-MON; -.
+DR   NextBio; 773664; -.
+DR   Bgee; P43332; -.
+DR   GermOnline; CG4528; Drosophila melanogaster.
+DR   GO; GO:0043234; C:protein complex; IPI:FlyBase.
+DR   GO; GO:0030532; C:small nuclear ribonucleoprotein complex; IDA:FlyBase.
+DR   GO; GO:0005681; C:spliceosomal complex; IEA:UniProtKB-KW.
+DR   GO; GO:0000166; F:nucleotide binding; IEA:InterPro.
+DR   GO; GO:0005515; F:protein binding; IPI:IntAct.
+DR   GO; GO:0003723; F:RNA binding; IEA:UniProtKB-KW.
+DR   GO; GO:0019099; P:female germ-line sex determination; NAS:FlyBase.
+DR   GO; GO:0006397; P:mRNA processing; IEA:UniProtKB-KW.
+DR   GO; GO:0048477; P:oogenesis; IMP:FlyBase.
+DR   GO; GO:0007539; P:primary sex determination, soma; NAS:FlyBase.
+DR   GO; GO:0000381; P:regulation of alternative nuclear mRNA spli...; IMP:FlyBase.
+DR   GO; GO:0008380; P:RNA splicing; TAS:FlyBase.
+DR   InterPro; IPR012677; a_b_plait_nuc_bd.
+DR   InterPro; IPR000504; RRM_RNP1.
+DR   Gene3D; G3DSA:3.30.70.330; a_b_plait_nuc_bd; 2.
+DR   Pfam; PF00076; RRM_1; 2.
+DR   SMART; SM00360; RRM; 2.
+DR   PROSITE; PS50102; RRM; 2.
+PE   1: Evidence at protein level;
+KW   3D-structure; Complete proteome; mRNA processing; mRNA splicing;
+KW   Nucleus; Repeat; Ribonucleoprotein; RNA-binding; Spliceosome.
+FT   CHAIN         1    216       U1 small nuclear ribonucleoprotein A.
+FT                                /FTId=PRO_0000081890.
+FT   DOMAIN        7     86       RRM 1.
+FT   DOMAIN      142    216       RRM 2.
+FT   VARIANT      49     49       R -> H (in allele SNF1621; sterile).
+FT   STRAND        7     11
+FT   HELIX        20     30
+FT   HELIX        31     34
+FT   STRAND       37     41
+FT   HELIX        46     48
+FT   STRAND       52     58
+FT   HELIX        59     69
+FT   STRAND       73     78
+FT   STRAND       81     87
+FT   HELIX        88     95
+FT   TURN         97     99
+FT   STRAND      142    148
+FT   HELIX       155    162
+FT   STRAND      168    173
+FT   TURN        175    177
+FT   STRAND      179    186
+FT   HELIX       188    198
+FT   STRAND      201    204
+FT   STRAND      208    213
+SQ   SEQUENCE   216 AA;  24547 MW;  5B736FFE36523373 CRC64;
+     MEMLPNQTIY INNLNEKIKK EELKKSLYAI FSQFGQILDI VALKTLKMRG QAFVIFKEIG
+     SASNALRTMQ GFPFYDKPMQ IAYSKSDSDI VAKIKGTFKE RPKKVKPPKP APGTDEKKDK
+     KKKPSSAENS NPNAQTEQPP NQILFLTNLP EETNEMMLSM LFNQFPGFKE VRLVPNRHDI
+     AFVEFTTELQ SNAAKEALQG FKITPTHAMK ITFAKK
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/wag.dat b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/wag.dat
new file mode 100755
index 0000000..01e185e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/formats/wag.dat
@@ -0,0 +1,43 @@
+0.551571 
+0.509848  0.635346 
+0.738998  0.147304  5.429420 
+1.027040  0.528191  0.265256  0.0302949 
+0.908598  3.035500  1.543640  0.616783  0.0988179 
+1.582850  0.439157  0.947198  6.174160  0.021352  5.469470 
+1.416720  0.584665  1.125560  0.865584  0.306674  0.330052  0.567717 
+0.316954  2.137150  3.956290  0.930676  0.248972  4.294110  0.570025  0.249410 
+0.193335  0.186979  0.554236  0.039437  0.170135  0.113917  0.127395  0.0304501 0.138190 
+0.397915  0.497671  0.131528  0.0848047 0.384287  0.869489  0.154263  0.0613037 0.499462  3.170970 
+0.906265  5.351420  3.012010  0.479855  0.0740339 3.894900  2.584430  0.373558  0.890432  0.323832  0.257555 
+0.893496  0.683162  0.198221  0.103754  0.390482  1.545260  0.315124  0.174100  0.404141  4.257460  4.854020  0.934276 
+0.210494  0.102711  0.0961621 0.0467304 0.398020  0.0999208 0.0811339 0.049931  0.679371  1.059470  2.115170  0.088836  1.190630 
+1.438550  0.679489  0.195081  0.423984  0.109404  0.933372  0.682355  0.243570  0.696198  0.0999288 0.415844  0.556896  0.171329  0.161444 
+3.370790  1.224190  3.974230  1.071760  1.407660  1.028870  0.704939  1.341820  0.740169  0.319440  0.344739  0.967130  0.493905  0.545931  1.613280 
+2.121110  0.554413  2.030060  0.374866  0.512984  0.857928  0.822765  0.225833  0.473307  1.458160  0.326622  1.386980  1.516120  0.171903  0.795384  4.378020 
+0.113133  1.163920  0.0719167 0.129767  0.717070  0.215737  0.156557  0.336983  0.262569  0.212483  0.665309  0.137505  0.515706  1.529640  0.139405  0.523742  0.110864 
+0.240735  0.381533  1.086000  0.325711  0.543833  0.227710  0.196303  0.103604  3.873440  0.420170  0.398618  0.133264  0.428437  6.454280  0.216046  0.786993  0.291148  2.485390 
+2.006010  0.251849  0.196246  0.152335  1.002140  0.301281  0.588731  0.187247  0.118358  7.821300  1.800340  0.305434  2.058450  0.649892  0.314887  0.232739  1.388230  0.365369  0.314730 
+
+0.0866279 0.043972  0.0390894 0.0570451 0.0193078 0.0367281 0.0580589 0.0832518 0.0244313 0.048466  0.086209  0.0620286 0.0195027 0.0384319 0.0457631 0.0695179 0.0610127 0.0143859 0.0352742 0.0708956
+
+
+ A   R   N   D   C   Q   E   G   H   I   L   K   M   F   P   S   T   W   Y   V
+Ala Arg Asn Asp Cys Gln Glu Gly His Ile Leu Lys Met Phe Pro Ser Thr Trp Tyr Val
+
+  
+	Symmetrical part of the WAG rate matrix and aa frequencies,
+estimated from 3905 globular protein amino acid sequences forming 182
+protein families.
+	The first part above indicates the symmetric 'exchangeability'
+parameters, where s_ij = s_ji.  The s_ij above are not scaled, but the
+PAML package will perform this scaling.
+	The second part gives the amino acid frequencies (pi_i)
+estimated from the 3905 sequences.  The net replacement rate from i to
+j is Q_ij = s_ij*pi_j.
+	Prepared by Simon Whelan and Nick Goldman, December 2000.
+
+Citation:
+Whelan, S. and N. Goldman.  2001.  A general empirical model of
+	protein evolution derived from multiple protein families using
+	a maximum likelihood approach.  Molecular Biology and
+	Evolution 18:691-699.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/install-sh b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/install-sh
new file mode 100755
index 0000000..f5061e7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/install-sh
@@ -0,0 +1,295 @@
+#!/bin/sh
+# install - install a program, script, or datafile
+
+scriptversion=2003-09-24.23
+
+# This originates from X11R5 (mit/util/scripts/install.sh), which was
+# later released in X11R6 (xc/config/util/install.sh) with the
+# following copyright and license.
+#
+# Copyright (C) 1994 X Consortium
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to
+# deal in the Software without restriction, including without limitation the
+# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
+# sell copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in
+# all copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
+# X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
+# AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNEC-
+# TION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+#
+# Except as contained in this notice, the name of the X Consortium shall not
+# be used in advertising or otherwise to promote the sale, use or other deal-
+# ings in this Software without prior written authorization from the X Consor-
+# tium.
+#
+#
+# FSF changes to this file are in the public domain.
+#
+# Calling this script install-sh is preferred over install.sh, to prevent
+# `make' implicit rules from creating a file called install from it
+# when there is no Makefile.
+#
+# This script is compatible with the BSD install script, but was written
+# from scratch.  It can only install one file at a time, a restriction
+# shared with many OS's install programs.
+
+# set DOITPROG to echo to test this script
+
+# Don't use :- since 4.3BSD and earlier shells don't like it.
+doit="${DOITPROG-}"
+
+# put in absolute paths if you don't have them in your path; or use env. vars.
+
+mvprog="${MVPROG-mv}"
+cpprog="${CPPROG-cp}"
+chmodprog="${CHMODPROG-chmod}"
+chownprog="${CHOWNPROG-chown}"
+chgrpprog="${CHGRPPROG-chgrp}"
+stripprog="${STRIPPROG-strip}"
+rmprog="${RMPROG-rm}"
+mkdirprog="${MKDIRPROG-mkdir}"
+
+transformbasename=
+transform_arg=
+instcmd="$mvprog"
+chmodcmd="$chmodprog 0755"
+chowncmd=
+chgrpcmd=
+stripcmd=
+rmcmd="$rmprog -f"
+mvcmd="$mvprog"
+src=
+dst=
+dir_arg=
+
+usage="Usage: $0 [OPTION]... SRCFILE DSTFILE
+   or: $0 -d DIR1 DIR2...
+
+In the first form, install SRCFILE to DSTFILE, removing SRCFILE by default.
+In the second, create the directory path DIR.
+
+Options:
+-b=TRANSFORMBASENAME
+-c         copy source (using $cpprog) instead of moving (using $mvprog).
+-d         create directories instead of installing files.
+-g GROUP   $chgrp installed files to GROUP.
+-m MODE    $chmod installed files to MODE.
+-o USER    $chown installed files to USER.
+-s         strip installed files (using $stripprog).
+-t=TRANSFORM
+--help     display this help and exit.
+--version  display version info and exit.
+
+Environment variables override the default commands:
+  CHGRPPROG CHMODPROG CHOWNPROG CPPROG MKDIRPROG MVPROG RMPROG STRIPPROG
+"
+
+while test -n "$1"; do
+  case $1 in
+    -b=*) transformbasename=`echo $1 | sed 's/-b=//'`
+        shift
+        continue;;
+
+    -c) instcmd=$cpprog
+        shift
+        continue;;
+
+    -d) dir_arg=true
+        shift
+        continue;;
+
+    -g) chgrpcmd="$chgrpprog $2"
+        shift
+        shift
+        continue;;
+
+    --help) echo "$usage"; exit 0;;
+
+    -m) chmodcmd="$chmodprog $2"
+        shift
+        shift
+        continue;;
+
+    -o) chowncmd="$chownprog $2"
+        shift
+        shift
+        continue;;
+
+    -s) stripcmd=$stripprog
+        shift
+        continue;;
+
+    -t=*) transformarg=`echo $1 | sed 's/-t=//'`
+        shift
+        continue;;
+
+    --version) echo "$0 $scriptversion"; exit 0;;
+
+    *)  if test -z "$src"; then
+          src=$1
+        else
+          # this colon is to work around a 386BSD /bin/sh bug
+          :
+          dst=$1
+        fi
+        shift
+        continue;;
+  esac
+done
+
+if test -z "$src"; then
+  echo "$0: no input file specified." >&2
+  exit 1
+fi
+
+# Protect names starting with `-'.
+case $src in
+  -*) src=./$src ;;
+esac
+
+if test -n "$dir_arg"; then
+  dst=$src
+  src=
+
+  if test -d "$dst"; then
+    instcmd=:
+    chmodcmd=
+  else
+    instcmd=$mkdirprog
+  fi
+else
+  # Waiting for this to be detected by the "$instcmd $src $dsttmp" command
+  # might cause directories to be created, which would be especially bad
+  # if $src (and thus $dsttmp) contains '*'.
+  if test ! -f "$src" && test ! -d "$src"; then
+    echo "$0: $src does not exist." >&2
+    exit 1
+  fi
+
+  if test -z "$dst"; then
+    echo "$0: no destination specified." >&2
+    exit 1
+  fi
+
+  # Protect names starting with `-'.
+  case $dst in
+    -*) dst=./$dst ;;
+  esac
+
+  # If destination is a directory, append the input filename; won't work
+  # if double slashes aren't ignored.
+  if test -d "$dst"; then
+    dst=$dst/`basename "$src"`
+  fi
+fi
+
+# This sed command emulates the dirname command.
+dstdir=`echo "$dst" | sed -e 's,[^/]*$,,;s,/$,,;s,^$,.,'`
+
+# Make sure that the destination directory exists.
+
+# Skip lots of stat calls in the usual case.
+if test ! -d "$dstdir"; then
+  defaultIFS='
+	'
+  IFS="${IFS-$defaultIFS}"
+
+  oIFS=$IFS
+  # Some sh's can't handle IFS=/ for some reason.
+  IFS='%'
+  set - `echo "$dstdir" | sed -e 's@/@%@g' -e 's@^%@/@'`
+  IFS=$oIFS
+
+  pathcomp=
+
+  while test $# -ne 0 ; do
+    pathcomp=$pathcomp$1
+    shift
+    test -d "$pathcomp" || $mkdirprog "$pathcomp"
+    pathcomp=$pathcomp/
+  done
+fi
+
+if test -n "$dir_arg"; then
+  $doit $instcmd "$dst" \
+    && { test -z "$chowncmd" || $doit $chowncmd "$dst"; } \
+    && { test -z "$chgrpcmd" || $doit $chgrpcmd "$dst"; } \
+    && { test -z "$stripcmd" || $doit $stripcmd "$dst"; } \
+    && { test -z "$chmodcmd" || $doit $chmodcmd "$dst"; }
+
+else
+  # If we're going to rename the final executable, determine the name now.
+  if test -z "$transformarg"; then
+    dstfile=`basename "$dst"`
+  else
+    dstfile=`basename "$dst" $transformbasename \
+             | sed $transformarg`$transformbasename
+  fi
+
+  # don't allow the sed command to completely eliminate the filename.
+  test -z "$dstfile" && dstfile=`basename "$dst"`
+
+  # Make a couple of temp file names in the proper directory.
+  dsttmp=$dstdir/_inst.$$_
+  rmtmp=$dstdir/_rm.$$_
+
+  # Trap to clean up those temp files at exit.
+  trap 'status=$?; rm -f "$dsttmp" "$rmtmp" && exit $status' 0
+  trap '(exit $?); exit' 1 2 13 15
+
+  # Move or copy the file name to the temp name
+  $doit $instcmd "$src" "$dsttmp" &&
+
+  # and set any options; do chmod last to preserve setuid bits.
+  #
+  # If any of these fail, we abort the whole thing.  If we want to
+  # ignore errors from any of these, just make sure not to ignore
+  # errors from the above "$doit $instcmd $src $dsttmp" command.
+  #
+  { test -z "$chowncmd" || $doit $chowncmd "$dsttmp"; } \
+    && { test -z "$chgrpcmd" || $doit $chgrpcmd "$dsttmp"; } \
+    && { test -z "$stripcmd" || $doit $stripcmd "$dsttmp"; } \
+    && { test -z "$chmodcmd" || $doit $chmodcmd "$dsttmp"; } &&
+
+  # Now remove or move aside any old file at destination location.  We
+  # try this two ways since rm can't unlink itself on some systems and
+  # the destination file might be busy for other reasons.  In this case,
+  # the final cleanup might fail but the new file should still install
+  # successfully.
+  {
+    if test -f "$dstdir/$dstfile"; then
+      $doit $rmcmd -f "$dstdir/$dstfile" 2>/dev/null \
+      || $doit $mvcmd -f "$dstdir/$dstfile" "$rmtmp" 2>/dev/null \
+      || {
+	  echo "$0: cannot unlink or rename $dstdir/$dstfile" >&2
+	  (exit 1); exit
+      }
+    else
+      :
+    fi
+  } &&
+
+  # Now rename the file to the real destination.
+  $doit $mvcmd "$dsttmp" "$dstdir/$dstfile"
+fi &&
+
+# The final little trick to "correctly" pass the exit status to the exit trap.
+{
+  (exit 0); exit
+}
+
+# Local variables:
+# eval: (add-hook 'write-file-hooks 'time-stamp)
+# time-stamp-start: "scriptversion="
+# time-stamp-format: "%:y-%02m-%02d.%02H"
+# time-stamp-end: "$"
+# End:
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_gsl.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_gsl.c
new file mode 100755
index 0000000..67266db
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_gsl.c
@@ -0,0 +1,66 @@
+/* Easel's interfaces to the GNU Scientific Library
+ */
+#ifdef HAVE_LIBGSL
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include "easel/easel.h"
+#include "easel/dmatrix.h"
+#include <gsl/gsl_math.h>
+#include <gsl/gsl_blas.h>
+#include <gsl/gsl_permutation.h>
+#include <gsl/gsl_eigen.h>
+
+int
+esl_GSL_MatrixInversion(ESL_DMATRIX *A, ESL_DMATRIX **ret_Ai)
+{
+  ESL_DMATRIX     *Ai;          /* RETURN: A^{-1}             */
+  gsl_matrix_view  Av;          /* gsl view of matrix A       */
+  gsl_matrix      *LU;          /* LU decomposition of A      */
+  gsl_matrix      *Aiv;         /* gsl version of A^{-1}      */
+  gsl_permutation *permute;
+  int              signum;
+  int              i,j;
+  
+  Ai = esl_dmx_Alloc(A->n, A->m);
+
+  /* Invert U to get Ui, using LU decomposition.
+   */
+  Av      = gsl_matrix_view_array(A->mx[0], A->n, A->n);
+  LU      = gsl_matrix_alloc(A->n, A->n);
+  Aiv     = gsl_matrix_alloc(A->n, A->n); /* U^{-1}: inverse of U    */
+  permute = gsl_permutation_alloc(A->n);
+  gsl_matrix_memcpy(LU, &Av.matrix);
+
+  if (gsl_linalg_LU_decomp(LU, permute, &signum) != 0) ESL_EXCEPTION(eslEUNKNOWN, "gsl failed");
+  if (gsl_linalg_LU_invert(LU, permute, Aiv) != 0)     ESL_EXCEPTION(eslEUNKNOWN, "gsl failed");
+
+  gsl_matrix_free(LU);
+  gsl_permutation_free(permute);
+
+  /* recover the matrix from gsl.
+   */
+  for (i = 0; i < A->n; i++)
+    for (j = 0; j < A->n; j++)
+      Ai->mx[i][j] = gsl_matrix_get(Aiv, i, j);
+  gsl_matrix_free(Aiv);
+  
+  ret->Ai = Ai;
+  return eslOK;
+}
+
+#endif /*HAVE_LIBGSL*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: interface_gsl.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/interface_gsl.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_gsl.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_gsl.h
new file mode 100755
index 0000000..ac090d6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_gsl.h
@@ -0,0 +1,24 @@
+#ifdef HAVE_LIBGSL
+/* interface_gsl.h
+ * Easel's interfaces to the GNU Scientific Library
+ * 
+ * SRE, Tue Jul 13 15:36:48 2004
+ * SVN $Id: interface_gsl.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/interface_gsl.h $
+ */
+#ifndef eslINTERFACE_GSL_INCLUDED
+#define eslINTERFACE_GSL_INCLUDED
+
+#include <stdlib.h>
+#include <easel/easel.h>
+#include <easel/dmatrix.h>
+#include <gsl/gsl_math.h>
+#include <gsl/gsl_blas.h>
+#include <gsl/gsl_permutation.h>
+#include <gsl/gsl_eigen.h>
+
+extern int esl_GSL_MatrixInversion(ESL_DMATRIX *A, ESL_DMATRIX **ret_Ai);
+
+
+#endif /*eslINTERFACE_GSL_INCLUDED*/
+#endif /*HAVE_LIBGSL*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_lapack.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_lapack.c
new file mode 100755
index 0000000..83a2b14
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_lapack.c
@@ -0,0 +1,97 @@
+/* Interface with the LAPACK (Fortran77) numerical library.
+ */
+#ifdef HAVE_LIBLAPACK
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include "easel/easel.h"
+#include "easel/dmatrix.h"
+#include "easel/interface_lapack.h"
+
+/* A:       nxn real matrix
+ * ret_Er:  RETURN: vector of eigenvalues, real part, allocated 0..n-1
+ * ret_Ei:  RETURN: vector of eigenvalues, imaginary part, allocated 0..n-1
+ * ret_VL:  RETURN: left eigenvectors
+ * ret_VR:  RETURN: right eigenvectors
+ */
+int
+esl_lapack_dgeev(ESL_DMATRIX *A, double **ret_Er, double **ret_Ei, ESL_DMATRIX **ret_VL, ESL_DMATRIX **ret_VR)
+{
+  double      *Er   = NULL;
+  double      *Ei   = NULL;
+  ESL_DMATRIX *VL   = NULL;
+  ESL_DMATRIX *VR   = NULL;
+  double      *work = NULL;
+  char   jobvl, jobvr;
+  int    lda;
+  int    ldvl, ldvr;
+  int    lwork;
+  int    info;
+  int    status;
+
+  if ((VL = esl_dmatrix_Create(A->n,A->n)) == NULL)       { status = eslEMEM; goto ERROR; }
+  if ((VR = esl_dmatrix_Create(A->n,A->n)) == NULL)       { status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(Er,   sizeof(double) * A->n);
+  ESL_ALLOC(Ei,   sizeof(double) * A->n);
+  ESL_ALLOC(work, sizeof(double) * 4 * A->n);
+
+  jobvl = (ret_VL == NULL) ? 'N' : 'V';	/* do we want left eigenvectors? */
+  jobvr = (ret_VR == NULL) ? 'N' : 'V'; /* do we want right eigenvectors? */
+  lda   = A->n; 
+  ldvl  = A->n;
+  ldvr  = A->n;
+  lwork = 4*A->n;
+
+  /* Fortran convention is colxrow, not rowxcol; so transpose
+   * A before passing it to a Fortran routine.
+   */
+  esl_dmx_Transpose(A);
+
+  /* The actual Fortran77 interface call to LAPACK.
+   * All args must be passed by reference.
+   * Fortran 2D arrays are 1D: so pass the A[0] part of a DSMX.
+   */
+  dgeev_(&jobvl, &jobvr, &(A->n), A->mx[0], &lda, Er, Ei, VL->mx[0], &ldvl, VR->mx[0], &ldvr, work, &lwork, &info);
+
+  /* Now, VL, VR are transposed (col x row), so transpose them back to
+   * C convention.
+   */
+  esl_dmx_Transpose(VL);
+  esl_dmx_Transpose(VR);
+
+  if (ret_VL != NULL) *ret_VL = VL; else esl_dmatrix_Destroy(VL);
+  if (ret_VR != NULL) *ret_VR = VR; else esl_dmatrix_Destroy(VR);
+  if (ret_Er != NULL) *ret_Er = Er; else free(Er);
+  if (ret_Ei != NULL) *ret_Ei = Ei; else free(Ei);
+  free(work);
+  return eslOK;
+
+ ERROR:
+  if (ret_VL != NULL) *ret_VL = NULL;
+  if (ret_VR != NULL) *ret_VR = NULL;
+  if (ret_Er != NULL) *ret_Er = NULL;
+  if (ret_Ei != NULL) *ret_Ei = NULL;
+  if (VL   != NULL) free(VL);
+  if (VR   != NULL) free(VR);
+  if (Er   != NULL) free(Er);
+  if (Ei   != NULL) free(Ei);
+  if (work != NULL) free(work);
+  return status;
+}
+
+
+#endif /*HAVE_LIBLAPACK*/
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: interface_lapack.c 685 2011-05-23 14:27:52Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/interface_lapack.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_lapack.h b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_lapack.h
new file mode 100755
index 0000000..f8e47bc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/interface_lapack.h
@@ -0,0 +1,24 @@
+#ifdef HAVE_LIBLAPACK
+/* interface_lapack.h
+ * 
+ * SRE, Tue Jul 13 15:11:51 2004 [St. Louis]
+ * SVN $Id: interface_lapack.h 664 2011-02-27 17:08:36Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/interface_lapack.h $
+ */
+#ifndef eslINTERFACE_LAPACK_INCLUDED
+#define eslINTERFACE_LAPACK_INCLUDED
+
+/* This is the C interface to the Fortran77 dgeev routine,
+ * provided by the LAPACK library:
+ */
+extern void  dgeev_(char *jobvl, char *jobvr, int *n, double *a,
+                    int *lda, double *wr, double *wi, double *vl,
+                    int *ldvl, double *vr, int *ldvr,
+                    double *work, int *lwork, int *info);
+
+/* and this is our C interface to the lapack call:
+ */
+extern int esl_lapack_dgeev(ESL_DMATRIX *A, double **ret_Er, double **ret_Ei, ESL_DMATRIX **ret_VL, ESL_DMATRIX **ret_VR);
+
+#endif /*eslINTERFACE_LAPACK_INCLUDED*/
+#endif /*HAVE_LIBLAPACK*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/Makefile.in
new file mode 100755
index 0000000..5f7b4ee
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/Makefile.in
@@ -0,0 +1,152 @@
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ 
+SHELL      = /bin/sh
+
+# Package information
+#
+PACKAGE         = @PACKAGE_NAME@
+PACKAGE_VERSION = @PACKAGE_VERSION@
+PACKAGE_TARNAME = @PACKAGE_TARNAME@
+BASENAME        = @PACKAGE_TARNAME@
+RELEASE         = @EASEL_VERSION@
+RELEASEDATE     = "@EASEL_DATE@"
+COPYRIGHT       = "@EASEL_COPYRIGHT@"
+LICENSELINE     = "@EASEL_LICENSE@"
+
+## Installation targets
+#
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+mandir      = @mandir@
+docdir      = @docdir@
+pdfdir      = @pdfdir@
+mandir      = @mandir@
+man1dir     = ${mandir}/man1
+man1ext     = .1
+
+INSTALL     = @INSTALL@
+
+## your compiler and compiler flags.
+#
+CC        = @CC@
+CFLAGS    = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS = @SIMD_CFLAGS@
+CPPFLAGS  = @CPPFLAGS@
+LDFLAGS   = @LDFLAGS@
+DEFS      = @DEFS@
+LIBS      = -leasel @LIBGSL@ @LIBS@ @PTHREAD_LIBS@ -lm
+
+## list of the miniapps to compile.
+#
+PROGS = esl-afetch\
+	esl-alimanip\
+	esl-alimap\
+	esl-alimask\
+	esl-alimerge\
+	esl-alipid\
+	esl-alistat\
+	esl-cluster\
+	esl-compalign\
+	esl-compstruct\
+	esl-construct\
+	esl-histplot\
+	esl-mask\
+	esl-reformat\
+	esl-selectn\
+	esl-seqrange\
+	esl-seqstat\
+	esl-sfetch\
+	esl-shuffle\
+	esl-ssdraw\
+  esl-stranslate\
+	esl-weight\
+
+PROGOBJS =\
+	esl-afetch.o\
+	esl-alimanip.o\
+	esl-alimap.o\
+	esl-alimask.o\
+	esl-alimerge.o\
+	esl-alipid.o\
+	esl-alistat.o\
+	esl-cluster.o\
+	esl-compalign.o\
+	esl-compstruct.o\
+	esl-construct.o\
+	esl-histplot.o\
+	esl-mask.o\
+	esl-reformat.o\
+	esl-selectn.o\
+	esl-seqrange.o\
+	esl-seqstat.o\
+	esl-sfetch.o\
+	esl-shuffle.o\
+	esl-ssdraw.o\
+  esl-stranslate.o\
+	esl-weight.o\
+
+
+# beautification magic stolen from git 
+#
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR  $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+
+.PHONY: all dev tests check install uninstall clean distclean 
+
+all: 	${PROGS}
+dev:    ${PROGS}
+tests:  ${PROGS}
+check:  ${PROGS}
+
+${PROGS}: @EXEC_DEPENDENCY@ ../libeasel.a 
+	${QUIET_GEN}${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} -L.. -o $@ $@.o ${LIBS}
+
+${PROGOBJS}: ../libeasel.a 
+
+.c.o: ../libeasel.a 
+	${QUIET_CC}${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} -I. -I.. -I${srcdir} -I${srcdir}/.. -o $@ -c $<
+
+install:
+	for file in ${PROGS}; do \
+	   ${INSTALL} -m 0755 $$file ${DESTDIR}${bindir}/ ;\
+	done
+
+uninstall:
+	for file in $(PROGS); do \
+	   rm ${DESTDIR}${bindir}/$$file ;\
+	done
+
+clean:
+	-rm -f ${PROGS}
+	-rm -f *.o *~
+	-rm -f *.gcno *.gcda *.gcov
+	-rm -f TAGS
+
+distclean: clean
+	-rm -f ${PROGS}
+	-rm Makefile
+
+
+################################################################
+# Easel - a library of C functions for biological sequence analysis
+# Version h3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# Easel is distributed under the Janelia Farm Software License, a BSD
+# license. See the LICENSE file for more details.
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.c
new file mode 100755
index 0000000..cc0b4fe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.c
@@ -0,0 +1,382 @@
+/* Fetch an MSA from a multi-MSA database (such as Pfam or Rfam).
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_fileparser.h"
+#include "esl_keyhash.h"
+#include "esl_mem.h"
+#include "esl_ssi.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+
+static char banner[] = "retrieve multiple sequence alignment(s) from a file";
+static char usage1[] = "[options] <msafile> <name>         (retrieves one alignment named <name>)";
+static char usage2[] = "[options] -f <msafile> <namefile>  (retrieves all alignments named in <namefile>)";
+static char usage3[] = "[options] --index <msafile>        (indexes <msafile>)";
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage1);
+  esl_usage(stdout, argv0, usage2);
+  esl_usage(stdout, argv0, usage3);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage1);
+  esl_usage (stdout, argv0, usage2);
+  esl_usage (stdout, argv0, usage3);
+  puts("\n where options are:");
+  esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+  exit(0);
+}
+
+static ESL_OPTIONS options[] = {
+  /* name             type           default env   range togs  reqs  incomp      help                                                   docgroup */
+  { "-h",         eslARG_NONE,        FALSE, NULL, NULL, NULL, NULL, NULL,          "help; show brief info on version and usage",        0 },
+  { "-f",         eslARG_NONE,        FALSE, NULL, NULL, NULL, NULL,"--index",      "second cmdline arg is a file of names to retrieve", 0 },
+  { "-o",         eslARG_OUTFILE,     FALSE, NULL, NULL, NULL, NULL,"-O,--index",   "output alignments to file <f> instead of stdout",   0 },
+  { "-O",         eslARG_NONE,        FALSE, NULL, NULL, NULL, NULL,"-o,-f,--index","output alignment to file named <key>",              0 },
+  { "--informat", eslARG_STRING,      FALSE, NULL, NULL, NULL, NULL, NULL,          "specify that <msafile> is in format <s>",           0 },
+  { "--outformat",eslARG_STRING,"Stockholm", NULL, NULL, NULL, NULL, "--index",     "output fetched alignment(s) in format <s>",         0 },
+  { "--index",    eslARG_NONE,        FALSE, NULL, NULL, NULL, NULL, NULL,          "index the <msafile>, creating <msafile>.ssi",       0 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static void create_ssi_index(ESL_GETOPTS *go, ESLX_MSAFILE *afp);
+static void multifetch(ESL_GETOPTS *go, FILE *ofp, int outfmt, char *keyfile, ESLX_MSAFILE *afp);
+static void onefetch  (ESL_GETOPTS *go, FILE *ofp, int outfmt, char *key,     ESLX_MSAFILE *afp);
+static void regurgitate_one_stockholm_entry(FILE *ofp,                        ESLX_MSAFILE *afp);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	               /* application configuration       */
+  char         *alifile = NULL;	               /* alignment file name             */
+  int           infmt   = eslMSAFILE_UNKNOWN;  /* format code for alifile         */
+  int           outfmt  = eslMSAFILE_UNKNOWN;  /* output format for fetched msa's */
+  ESLX_MSAFILE *afp     = NULL;	               /* open alignment file             */
+  FILE         *ofp     = NULL;	               /* output stream for alignments    */
+  int           status;		               /* easel return code               */
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) < 1)                       cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+  if (esl_opt_IsOn(go, "--informat")) {
+    infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid input alignment file format for --informat", esl_opt_GetString(go, "--informat")); 
+  }
+
+  outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat")); 
+  if (outfmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid output alignment file format for --outformat", esl_opt_GetString(go, "--outformat")); 
+
+  alifile = esl_opt_GetArg(go, 1);
+  
+  /* Open the alignment file.  */
+  if ( (status  = eslx_msafile_Open(NULL, alifile, NULL, infmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  /* Open the SSI index, if any */
+  if (! esl_opt_GetBoolean(go, "--index")) 
+    {
+      if (afp->bf->mode_is == eslBUFFER_FILE    ||
+	  afp->bf->mode_is == eslBUFFER_ALLFILE ||
+	  afp->bf->mode_is == eslBUFFER_MMAP)
+	{
+	  char *ssifile = NULL;
+	  esl_sprintf(&ssifile, "%s.ssi", afp->bf->filename);
+      
+	  status = esl_ssi_Open(ssifile, &(afp->ssi));
+	  if      (status == eslERANGE )   esl_fatal("SSI index %s has 64-bit offsets; this system doesn't support them", ssifile);
+	  else if (status == eslEFORMAT)   esl_fatal("SSI index %s has an unrecognized format. Try recreating, w/ esl-afetch --index", ssifile);
+	  else if (status == eslENOTFOUND) afp->ssi = NULL;
+	  else if (status != eslOK)        esl_fatal("SSI index %s: open failed, error code %d\n", ssifile, status);
+	  
+	  free(ssifile);
+	}
+    }
+
+  /* Open the output file, if any
+   */
+  if (esl_opt_GetBoolean(go, "-O")) 
+    {
+      if ((ofp = fopen(esl_opt_GetArg(go, 2), "w")) == NULL)
+	esl_fatal("Failed to open output file %s\n", esl_opt_GetArg(go, 2));
+    }
+  else if (esl_opt_GetString(go, "-o") != NULL)
+    {
+      if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL)
+	esl_fatal("Failed to open output file %s\n", esl_opt_GetString(go, "-o"));
+    }
+  else ofp = stdout;
+
+  /* Hand off control flow as appropriate */
+  if (esl_opt_GetBoolean(go, "--index")) 
+    {
+      if (esl_opt_ArgNumber(go) != 1) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+      create_ssi_index(go, afp);
+    }
+  else if (esl_opt_GetBoolean(go, "-f"))
+    {
+      if (esl_opt_ArgNumber(go) != 2) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+      multifetch(go, ofp, outfmt, esl_opt_GetArg(go, 2), afp);
+    }
+  else 
+    {
+      if (esl_opt_ArgNumber(go) != 2) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+      onefetch(go, ofp, outfmt, esl_opt_GetArg(go, 2), afp);
+      if (ofp != stdout) printf("\n\nRetrieved alignment %s.\n",  esl_opt_GetArg(go, 2));
+    }
+
+  eslx_msafile_Close(afp);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+  
+
+/* Create an SSI index file for open MSA file <afp>.
+ * Both name and accession of MSAs are stored as keys.
+ */
+static void
+create_ssi_index(ESL_GETOPTS *go, ESLX_MSAFILE *afp)
+{
+  ESL_NEWSSI *ns      = NULL;
+  ESL_MSA    *msa     = NULL;
+  int         nali    = 0;
+  char       *ssifile = NULL;
+  uint16_t    fh;
+  int         status;
+
+  if (afp->bf->mode_is != eslBUFFER_FILE &&
+      afp->bf->mode_is != eslBUFFER_ALLFILE &&
+      afp->bf->mode_is != eslBUFFER_MMAP)
+    esl_fatal("<msafile> must be a regular file to be SSI indexed");
+
+  esl_sprintf(&ssifile, "%s.ssi", afp->bf->filename);
+
+  status = esl_newssi_Open(ssifile, FALSE, &ns);
+  if      (status == eslENOTFOUND)   esl_fatal("failed to open SSI index %s", ssifile);
+  else if (status == eslEOVERWRITE)  esl_fatal("SSI index %s already exists; delete or rename it", ssifile);
+  else if (status != eslOK)          esl_fatal("failed to create a new SSI index");
+
+  if (esl_newssi_AddFile(ns, afp->bf->filename, afp->format, &fh) != eslOK)
+    esl_fatal("Failed to add MSA file %s to new SSI index\n", afp->bf->filename);
+
+  printf("Working...    "); 
+  fflush(stdout);
+  
+  while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) 
+	eslx_msafile_ReadFailure(afp, status);
+
+      nali++;
+
+      if (! msa->name)
+	esl_fatal("Every alignment in file must have a name to be indexed. Failed to find name of alignment #%d\n", nali);
+
+      if (esl_newssi_AddKey(ns, msa->name, fh, msa->offset, 0, 0) != eslOK) 
+	esl_fatal("Failed to add key %s to SSI index", msa->name);
+
+      if (msa->acc && esl_newssi_AddAlias(ns, msa->acc, msa->name) != eslOK)
+	esl_fatal("Failed to add secondary key %s to SSI index", msa->acc);
+      
+      esl_msa_Destroy(msa);
+    }
+  
+  if (esl_newssi_Write(ns) != eslOK) 
+    esl_fatal("Failed to write keys to ssi file %s\n", ssifile);
+
+  printf("done.\n");
+
+  if (ns->nsecondary) printf("Indexed %d alignments (%ld names and %ld accessions).\n", nali, (long) ns->nprimary, (long) ns->nsecondary);
+  else                printf("Indexed %d alignments (%ld names).\n", nali, (long) ns->nprimary);
+  printf("SSI index written to file %s\n", ssifile);
+
+  free(ssifile);
+  esl_newssi_Close(ns);
+  return;
+}  
+
+/* multifetch:
+ * given a file containing lines with one name or key per line;
+ * parse the file line-by-line;
+ * if we have an SSI index available, retrieve the MSAs by key
+ * as we see each line;
+ * else, without an SSI index, store the keys in a hash, then
+ * read the entire MSA file in a single pass, outputting MSAs
+ * that are in our keylist. 
+ * 
+ * Note that with an SSI index, you get the MSAs in the order they
+ * appear in the <keyfile>, but without an SSI index, you get MSAs in
+ * the order they occur in the MSA file.
+ */
+static void
+multifetch(ESL_GETOPTS *go, FILE *ofp, int outfmt, char *keyfile, ESLX_MSAFILE *afp)
+{
+  ESL_KEYHASH    *keys   = esl_keyhash_Create();
+  ESL_FILEPARSER *efp    = NULL;
+  ESL_MSA        *msa    = NULL;
+  int             nali   = 0;
+  char           *key;
+  int             keylen;
+  int             keyidx;
+  int             status;
+  
+  if (esl_fileparser_Open(keyfile, NULL, &efp) != eslOK) 
+    esl_fatal("Failed to open key file %s\n", keyfile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (esl_fileparser_GetTokenOnLine(efp, &key, &keylen) != eslOK)
+	esl_fatal("Failed to read MSA name on line %d of file %s\n", efp->linenumber, keyfile);
+      
+      status = esl_keyhash_Store(keys, key, keylen, &keyidx);
+      if (status == eslEDUP) esl_fatal("MSA key %s occurs more than once in file %s\n", key, keyfile);
+	
+      if (afp->ssi) { onefetch(go, ofp, outfmt, key, afp);  nali++; }
+
+    }
+
+  if (! afp->ssi)
+    {
+      while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+	{
+	  if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+	  nali++;
+
+	  if (msa->name == NULL) 
+	    esl_fatal("Every alignment in file must have a name to be retrievable. Failed to find name of alignment #%d\n", nali);
+
+	  if ( (esl_keyhash_Lookup(keys, msa->name, -1, NULL) == eslOK) ||
+	       (msa->acc != NULL && esl_keyhash_Lookup(keys, msa->acc, -1, NULL) == eslOK))
+	    eslx_msafile_Write(ofp, msa, outfmt);
+
+	  esl_msa_Destroy(msa);
+	}
+    }
+  
+  if (ofp != stdout) printf("\nRetrieved %d alignments.\n", nali);
+  esl_keyhash_Destroy(keys);
+  esl_fileparser_Close(efp);
+  return;
+}
+
+  
+/* onefetch():
+ * Given one <key> (an MSA name or accession), retrieve the corresponding MSA.
+ * In SSI mode, we can do this quickly by positioning the file, then regurgitating
+ * every line until the end-of-alignment marker; we don't even have to parse.
+ * Without an SSI index, we have to parse the MSAs sequentially 'til we find
+ * the one we're after.
+ */
+static void
+onefetch(ESL_GETOPTS *go, FILE *ofp, int outfmt, char *key, ESLX_MSAFILE *afp)
+{
+  ESL_MSA *msa  = NULL;
+  int      nali = 1;
+  int      status;
+
+  if (afp->ssi)
+    {
+      status = eslx_msafile_PositionByKey(afp, key);
+      if      (status == eslENOTFOUND) esl_fatal("MSA %s not found in SSI index for file %s\n", key, afp->bf->filename);
+      else if (status == eslEFORMAT)   esl_fatal("Failed to parse SSI index for %s\n", afp->bf->filename);
+      else if (status != eslOK)        esl_fatal("Failed to look up location of MSA %s in SSI index of file %s\n", key, afp->bf->filename);
+      
+      if ( (afp->format == eslMSAFILE_STOCKHOLM && outfmt == eslMSAFILE_STOCKHOLM) ||
+	   (afp->format == eslMSAFILE_PFAM      && outfmt == eslMSAFILE_PFAM))
+	{
+	  regurgitate_one_stockholm_entry(ofp, afp);
+	}
+      else
+	{
+	  if ((status = eslx_msafile_Read(afp, &msa)) != eslOK)
+	    eslx_msafile_ReadFailure(afp, status);
+	  
+	  eslx_msafile_Write(ofp, msa, outfmt);
+	  esl_msa_Destroy(msa);
+	}
+    }
+  else
+    { /* without an index, we have to brute-force search the file */
+      while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+	{
+	  if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+	  if (! msa->name)
+	    esl_fatal("Every alignment in file must have a name to be retrievable. Failed to find name of alignment #%d\n", nali);
+
+	  if (strcmp(key, msa->name) == 0 || (msa->acc != NULL && strcmp(key, msa->acc) == 0))
+	    break;
+
+	  nali++;
+	  esl_msa_Destroy(msa);
+	}
+
+      if (! msa) esl_fatal("Failed to find alignment %s\n", key);
+
+      eslx_msafile_Write(ofp, msa, outfmt);
+      esl_msa_Destroy(msa);
+    }
+}
+
+
+/* regurgitate_one_stockholm_entry()
+ * Read and output an alignment line-by-line without parsing it, stopping when
+ * we reach the end-of-alignment marker.
+ */
+static void
+regurgitate_one_stockholm_entry(FILE *ofp, ESLX_MSAFILE *afp)
+{
+  char      *p;
+  esl_pos_t  n;
+  int        status;
+
+  while ( (status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK)
+    {
+      fwrite(p, sizeof(char), n, ofp);
+      fputs("\n", ofp);
+      if (esl_memstrpfx(p, n, "//")) break;
+    }
+  if      (status == eslEOF) esl_fatal("Reached end of file before finding // termination line for alignment");
+  else if (status != eslOK)  esl_fatal("Failure in reading alignment line by line");
+}
+  
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-afetch.c $
+ * SVN $Id: esl-afetch.c 732 2011-11-11 15:11:13Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.itest.pl
new file mode 100755
index 0000000..3ffda3d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.itest.pl
@@ -0,0 +1,146 @@
+#! /usr/bin/perl
+
+# Testing the esl-afetch miniapp
+#
+# Usage:    ./esl-afetch.itest.pl <esl-afetch binary> <tmpfile prefix>
+# Example:  ./esl-afetch.itest.pl ./esl-afetch        foo
+#
+# SRE, Fri Nov 11 09:16:49 2011
+# SVN $Id: esl-afetch.itest.pl 732 2011-11-11 15:11:13Z eddys $
+
+$esl_afetch = shift;
+$tmppfx     = shift;
+
+if (! -x "$esl_afetch") { die "FAIL: didn't find esl-afetch binary $esl_afetch"; }
+
+# Existence of a previous .ssi index will screw up this test.
+if (  -e "$tmppfx.sto.ssi") { unlink "$tmppfx.sto.ssi"; }
+
+open(TESTALI, ">$tmppfx.sto") || die "FAIL: couldn't open $tmppfx.sto for writing test ali file";
+print TESTALI << "EOF";
+# STOCKHOLM 1.0
+#=GF ID foo
+#=GF AC XX00001.1
+seq1  AAAAAAAAAACCCCCCCCCC
+seq2  AAAAAAAAAACCCCCCCCCC
+//
+# STOCKHOLM 1.0
+#=GF ID bar
+#=GF AC XX00002.2
+seq3  DDDDDDDDDDEEEEEEEEEE
+seq4  DDDDDDDDDDEEEEEEEEEE
+//
+# STOCKHOLM 1.0
+#=GF ID $tmppfx.name
+seq3  XXXXXXXXXXXXXXXXXXXX
+seq4  XXXXXXXXXXXXXXXXXXXX
+//
+# STOCKHOLM 1.0
+#=GF ID baz
+#=GF AC XX00003.3
+seq5  FFFFFFFFFFGGGGGGGGGG
+seq6  FFFFFFFFFFGGGGGGGGGG
+//
+EOF
+close TESTFILE;
+
+
+open(TESTLIST, ">$tmppfx.list") || die "FAIL: couldn't open $tmppfx.list for writing test name list";
+print TESTLIST << "EOF";
+baz
+foo
+EOF
+close TESTLIST;
+
+
+
+
+# First, test without an SSI index...
+#
+@output = `$esl_afetch $tmppfx.sto baz`;
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[1] !~ /^#=GF ID baz$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($output[6] !~ /^\/\/$/)        { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($#output != 6)                 { die "FAIL: esl-afetch fetched incorrectly";      }
+
+@output = `$esl_afetch $tmppfx.sto XX00003.3`;
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[1] !~ /^#=GF ID baz$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($output[6] !~ /^\/\/$/)        { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($#output != 6)                 { die "FAIL: esl-afetch fetched incorrectly";      }
+
+# Without SSI, when fetching from a list, MSAs are in order of .sto file, not .list file
+@output = `$esl_afetch -f $tmppfx.sto $tmppfx.list`;               
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[1] !~ /^#=GF ID foo$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($output[8] !~ /^#=GF ID baz$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($#output != 13)                { die "FAIL: esl-afetch fetched incorrectly";      }
+
+@output = `$esl_afetch -O $tmppfx.sto $tmppfx.name`;                 if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+@output = `$esl_afetch    $tmppfx.sto $tmppfx.name > $tmppfx.tmp`;   if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+system "diff $tmppfx.name $tmppfx.tmp > /dev/null 2>&1";             if ($? != 0) { die "FAIL: esl-afetch bad diff"; }
+
+@output = `$esl_afetch -f -o $tmppfx.tmp $tmppfx.sto $tmppfx.list`;  if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+@output = `$esl_afetch -f $tmppfx.sto $tmppfx.list > $tmppfx.tmp2`;  if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+system "diff $tmppfx.tmp $tmppfx.tmp2 > /dev/null 2>&1";             if ($? != 0) { die "FAIL: esl-afetch bad diff"; }
+
+@output = `$esl_afetch --informat stockholm $tmppfx.sto baz`; 
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+
+@output = `$esl_afetch --outformat clustal $tmppfx.sto XX00003.3`;
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[0] !~ /^CLUSTAL/)      { die "FAIL: esl-afetch fetched incorrectly";      }
+
+
+# Now index it
+# 
+@output = `$esl_afetch --index $tmppfx.sto`;
+if ($? != 0)                       { die "FAIL: esl-afetch indexing failed, returned nonzero"; }
+
+# Now repeat the tests. They'll use the SSI index now.
+# We have a couple of ways to tell that the SSI index is being used.
+# One is that with SSI and -f, MSAs come in order of list file, not sto file.
+# Another is that with SSI, the alignment is fetched verbatim (line spacing the same),
+# so the test alignments are fetched with no blank line between #=GF AC line and first seq.
+@output = `$esl_afetch $tmppfx.sto baz`;
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[1] !~ /^#=GF ID baz$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($output[5] !~ /^\/\/$/)        { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($#output != 5)                 { die "FAIL: esl-afetch fetched incorrectly";      }
+
+@output = `$esl_afetch $tmppfx.sto XX00003.3`;
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[1] !~ /^#=GF ID baz$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($output[5] !~ /^\/\/$/)        { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($#output != 5)                 { die "FAIL: esl-afetch fetched incorrectly";      }
+
+# With SSI, when fetching from a list, MSAs are in order of .list file, not .sto file
+@output = `$esl_afetch -f $tmppfx.sto $tmppfx.list`;               
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[1] !~ /^#=GF ID baz$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($output[7] !~ /^#=GF ID foo$/) { die "FAIL: esl-afetch fetched incorrectly";      }
+if ($#output != 11)                { die "FAIL: esl-afetch fetched incorrectly";      }
+
+@output = `$esl_afetch -O $tmppfx.sto $tmppfx.name`;                 if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+@output = `$esl_afetch    $tmppfx.sto $tmppfx.name > $tmppfx.tmp`;   if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+system "diff $tmppfx.name $tmppfx.tmp > /dev/null 2>&1";             if ($? != 0) { die "FAIL: esl-afetch bad diff"; }
+
+@output = `$esl_afetch -f -o $tmppfx.tmp $tmppfx.sto $tmppfx.list`;  if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+@output = `$esl_afetch -f $tmppfx.sto $tmppfx.list > $tmppfx.tmp2`;  if ($? != 0) { die "FAIL: esl-afetch failed, returned nonzero"; }
+system "diff $tmppfx.tmp $tmppfx.tmp2 > /dev/null 2>&1";             if ($? != 0) { die "FAIL: esl-afetch bad diff"; }
+
+@output = `$esl_afetch --informat stockholm $tmppfx.sto baz`; 
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+
+@output = `$esl_afetch --outformat clustal $tmppfx.sto XX00003.3`;
+if ($? != 0)                       { die "FAIL: esl-afetch failed, returned nonzero"; }
+if ($output[0] !~ /^CLUSTAL/)      { die "FAIL: esl-afetch fetched incorrectly";      }
+
+
+print "ok\n"; 
+unlink "$tmppfx.sto";
+unlink "$tmppfx.sto.ssi";
+unlink "$tmppfx.tmp";
+unlink "$tmppfx.tmp2";
+unlink "$tmppfx.name";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.man
new file mode 100755
index 0000000..69ae8a3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-afetch.man
@@ -0,0 +1,128 @@
+.TH "esl-afetch" 1 "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-afetch - retrieve alignments from a multi-MSA database
+
+.SH SYNOPSIS
+
+.TP
+Single MSA retrieval:
+.B esl-afetch
+.I [options]
+.I msafile
+.I key
+
+.TP
+Multiple MSA retrieval:
+.B esl-afetch -f
+.I [options]
+.I msafile
+.I keyfile
+
+.TP
+Indexing an MSA file for retrieval:
+.B esl-afetch --index
+.I msafile
+
+
+.SH DESCRIPTION
+
+.B esl-afetch
+retrieves the alignment named
+.I key
+from an alignment database in file
+.I msafile.
+The
+.I msafile
+is a "multiple multiple alignment" file in Stockholm (e.g. native
+Pfam or Rfam) format.
+The 
+.I key
+is either the name (ID) of the alignment, or its accession
+number (AC).
+
+.PP
+Alternatively, 
+.B esl-afetch -f
+provides the ability to fetch many alignments at once.
+The 
+.I -f 
+option has it interpret the second argument as a <keyfile>, a
+file consisting of one name or accession per line.
+
+.PP
+The
+.I msafile
+should first be SSI indexed with
+.B esl-afetch --index
+for efficient retrieval. An SSI index is
+not required, but without one alignment retrieval may
+be painfully slow.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -f
+Interpret the second argument as a 
+.I keyfile
+instead of as just one
+.I key. 
+The
+.I keyfile
+contains one name or accession per line.
+This option doesn't work with the
+.B --index
+option.
+
+
+.TP
+.BI -o " <f>"
+Output retrieved alignments to a file 
+.I <f>
+instead of to
+.I stdout.
+
+.TP
+.BI -O
+Output retrieved alignment to a file named
+.I <key>.
+This is a convenience for saving some typing:
+instead of 
+.B esl-afetch -o RRM_1 msafile RRM_1
+you can just type
+.B esl-afetch -O msafile RRM_1.
+The
+.B -O 
+option only works if you're retrieving a
+single alignment; it is incompatible with 
+.B -f.
+
+.TP
+.B --index
+Instead of retrieving a
+.I key,
+the special command
+.B esl-afetch --index
+.I msafile
+produces an SSI index of the names and accessions
+of the alignments in
+the 
+.I msafile.
+Indexing should be done once on the
+.I msafile
+to prepare it for all future fetches.
+
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.c
new file mode 100755
index 0000000..5ceb776
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.c
@@ -0,0 +1,3314 @@
+/* Manipulate a multiple sequence alignment in various ways.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <assert.h>
+#include <math.h>
+#include <limits.h>
+
+#include "easel.h"
+#include "esl_distance.h"
+#include "esl_dmatrix.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile2.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stack.h"
+#include "esl_tree.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+static char banner[] = "manipulate a multiple sequence alignment";
+static char usage[]  = "[options] <msafile>";
+
+#define CLUSTOPTS             "--cn-id,--cs-id,--cx-id,--cn-ins,--cs-ins,--cx-ins" /* Exclusive choice for clustering */
+#define CHOOSESEQOPTS         "--seq-k,--seq-r,--seq-ins,--reorder" /* Exclusive choice for choosing which seqs to keep/remove */
+#define INCOMPATWITHSMALLOPTS "--lnfract,--lxfract,--lmin,--lmax,--detrunc,--k-reorder,--seq-ins,--seq-ni,--seq-xi,--trim,--minpp,--t-keeprf,--tree,--reorder,--mask2rf,--m-keeprf,--num-all,--num-rf,--rm-gc,--sindi,--post2pp" /* Options incompatible with --small (all opts except --seq-k,--seq-r,--informat,--outformat,--rna,--dna,--amino */
+
+static int  write_rf_gapthresh(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa, float gapthresh);
+static int  write_rf_given_alen(ESL_MSA *msa, char *errbuf, int *i_am_rf, int do_keep_rf_chars, char *amask, int amask_len);
+static int  write_rf_given_rflen(ESL_MSA *msa,  char *errbuf, int *i_am_rf, int do_keep_rf_chars, char *mask_for_rf, int mask_for_rf_len);
+static int  individualize_consensus(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa);
+static int  read_sqfile(ESL_SQFILE *sqfp, const ESL_ALPHABET *abc, int nseq, ESL_SQ ***ret_sq);
+static int  trim_msa(ESL_MSA *msa, ESL_SQ **sq, int do_keeprf, char *errbuf);
+static int  prune_msa_based_on_posteriors(ESL_MSA *msa, float min_pp, char *errbuf);
+static int  get_pp_idx(ESL_ALPHABET *abc, char ppchar);
+static int  get_tree_order(ESL_TREE *T, char *errbuf, int **ret_order);
+static int  reorder_msa(ESL_MSA *msa, int *order, char *errbuf);
+static int  read_mask_file(char *filename, char *errbuf, char **ret_mask, int *ret_mask_len);
+static int  expand_msa2mask(char *errbuf, ESL_MSA *msa1, char *xmask, ESL_MSA **newmsa1);
+static int  add_gap_columns_to_msa(char *errbuf, ESL_MSA *msa, int *toadd, ESL_MSA **ret_msa, int do_treat_as_rf_gap);
+static int  msa_median_length(ESL_MSA *msa);
+static int  msa_remove_seqs_below_minlen(ESL_MSA *msa, float minlen, ESL_MSA **ret_new_msa);
+static int  msa_remove_seqs_above_maxlen(ESL_MSA *msa, float maxlen, ESL_MSA **ret_new_msa);
+static int  msa_remove_truncated_seqs(ESL_MSA *msa, char *errbuf, int ntrunc, int *i_am_rf, ESL_MSA **ret_new_msa);
+static int  msa_remove_seqs_with_ambiguities(ESL_MSA *msa, int max_nambig, ESL_MSA **ret_new_msa);
+static int  number_columns(ESL_MSA *msa, int do_all, int *i_am_rf, char *errbuf);
+static char digit_to_char(int digit);
+static int  int_ndigits(int i);
+static char get_char_digit_x_from_int(int i, int place);
+static int  read_seq_name_file(char *filename, char *errbuf, char ***ret_seqlist, int *ret_seqlist_n);
+static int  msa_keep_or_remove_seqs(ESL_MSA *msa, char *errbuf, char **seqlist, int seqlist_n, int do_keep, int do_reorder, int nali, ESL_MSA **ret_new_msa);
+static int  insert_x_pair_shared(ESL_MSA *msa, int *i_am_rf, int i, int j, int cfirst, int clast, double *opt_pshared, int *opt_nshared, int *opt_nins);
+static int  insert_x_pair_shared_length(ESL_MSA *msa, int *i_am_rf, int i, int j, int cfirst, int clast, double *opt_pshared, double *opt_nshared, int *opt_nins);
+static int  insert_x_diffmx(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa, int rflen, int *i_am_rf, int do_length_weight, int do_only_internal_inserts, ESL_DMATRIX **ret_D);
+static int  MSADivide(ESL_MSA *mmsa, ESL_DMATRIX *D, int do_mindiff, int do_nc, int do_nsize, float mindiff, int target_nc, int target_nsize, int *ret_num_msa, ESL_MSA ***ret_cmsa, int *ret_xsize, char *errbuf);
+static int  select_node(ESL_TREE *T, double *diff, double mindiff, int **ret_clust, int *ret_nc, int *ret_xsize, int *ret_best, char *errbuf);
+static float find_mindiff(ESL_TREE *T, double *diff, int do_nsize, int target, int **ret_clust, int *ret_nc, int *ret_xsize, int *ret_best, float *ret_mindiff, char *errbuf);
+static int  determine_first_last_consensus_columns(ESL_MSA *msa, char *errbuf, int *i_am_rf, int rflen, int **ret_fA, int **ret_lA);
+static int  dst_nongap_XPairId(const ESL_ALPHABET *abc, const ESL_DSQ *ax1, const ESL_DSQ *ax2, double *opt_distance, int *opt_nid, int *opt_n);
+static int  dst_nongap_XDiffMx(const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, ESL_DMATRIX **ret_D);
+static int  find_seqs_with_given_insert(ESL_MSA *msa, int *i_am_rf, char *errbuf, int target, int min, int max, int **ret_useme);
+static int  minorize_msa(const ESL_GETOPTS *go, ESL_MSA *msa, char *errbuf, FILE *fp, char *tag, int outfmt);
+static int  remove_gc_markup(ESL_MSA *msa, char *errbuf, char *tag);
+static int  cp_and_add_gaps_to_aseq(char *new_aseq, char *orig_aseq, int alen, int *toadd, int nnew, char gapchar);
+static int  map_rfpos_to_apos(ESL_MSA *msa, ESL_ALPHABET *abc, char *errbuf, int **ret_i_am_rf, int **ret_rf2a_map, int *ret_rflen);
+static int  convert_post_to_pp(ESL_MSA *msa, char *errbuf, int nali);
+static int  compare_ints(const void *el1, const void *el2);
+
+static ESL_OPTIONS options[] = {
+  /* name          type        default  env   range      togs reqs  incomp                      help                                                       docgroup */
+  { "-h",          eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL, NULL,                       "help; show brief info on version and usage",                     1 },
+  { "-o",          eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                       "output the alignment to file <f>, not stdout",                   1 },
+  { "--informat",  eslARG_STRING,NULL,  NULL, NULL,      NULL,NULL, NULL,                       "specify that input file is in format <s>",                       1 },
+  { "--outformat", eslARG_STRING,NULL,  NULL,NULL,  NULL, NULL,NULL,                       "specify that output format be <s>",                              1 },
+  { "--devhelp",   eslARG_NONE,  NULL,  NULL, NULL,      NULL,NULL, NULL,                       "show list of undocumented developer options",                    1 },
+  /* options for removing/trimming/reordering sequences */
+  { "--lnfract",   eslARG_REAL,  NULL,  NULL, "0<=x<=2", NULL,NULL, CHOOSESEQOPTS,              "remove sequences w/length < <x> fraction of median length",      2 },
+  { "--lxfract",   eslARG_REAL,  NULL,  NULL, "0<=x<=3", NULL,NULL, CHOOSESEQOPTS,              "remove sequences w/length > <x> fraction of median length",      2 },
+  { "--lmin",      eslARG_INT,   NULL,  NULL, "n>0",     NULL,NULL, CHOOSESEQOPTS,              "remove sequences w/length < <n> residues",                       2 },
+  { "--lmax",      eslARG_INT,   NULL,  NULL, "n>0",     NULL,NULL, CHOOSESEQOPTS,              "remove sequences w/length > <n> residues",                       2 },
+  { "--detrunc",   eslARG_INT,   NULL,  NULL, "n>0",     NULL,NULL, CHOOSESEQOPTS,              "remove seqs w/gaps in >= <n> 5' or 3'-most non-gap #=GC RF cols",2 },
+  { "--xambig",    eslARG_INT,   NULL,  NULL, "n>=0",    NULL,NULL, CHOOSESEQOPTS,              "remove sequences with >= <n> ambiguous residues",                2 },
+  { "--seq-r",     eslARG_INFILE,NULL,  NULL, NULL,      NULL,NULL, CHOOSESEQOPTS,              "remove sequences with names listed in file <f>",                 2 },
+  { "--seq-k",     eslARG_INFILE,NULL,  NULL, NULL,      NULL,NULL, CHOOSESEQOPTS,              "remove all seqs *except* those listed in <f>",                   2 },
+  { "--small",     eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL, INCOMPATWITHSMALLOPTS,      "w/--seq-r or --seq-k use minimal RAM (no seq reordering)", 2 },
+  { "--k-reorder", eslARG_NONE,  NULL,  NULL, NULL,      NULL,"--seq-k", INCOMPATWITHSMALLOPTS, "with --seq-k <f>, reorder sequences to order in <f>",2 },
+  { "--seq-ins",   eslARG_INT,   NULL,  NULL, NULL,      NULL,NULL, CHOOSESEQOPTS,              "keep only seqs w/an insert after non-gap RF col <n>",            2 },
+  { "--seq-ni",    eslARG_INT,    "1",  NULL, "n>0",     NULL,"--seq-ins", NULL,                "w/--seq-ins require at least <n> residue insertions",            2 },
+  { "--seq-xi",    eslARG_INT,"1000000",NULL, "n>0",     NULL,"--seq-ins", NULL,                "w/--seq-ins require at most  <n> residue insertions",            2 },
+  { "--trim",      eslARG_INFILE, NULL, NULL, NULL,      NULL,NULL, NULL,                       "trim aligned seqs in <msafile> to subseqs in <f>",               2 },
+  { "--t-keeprf",  eslARG_NONE,   NULL, NULL, NULL,      NULL,"--trim", NULL,                   "w/--trim keep GC RF annotation in msa, if it exists",            2 },
+  { "--minpp",     eslARG_REAL,   NULL, NULL, "0<x<=0.95",NULL,NULL,NULL,                       "replace residues with posterior probabilities < <x> with gaps",  2 },
+  { "--tree",      eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, CHOOSESEQOPTS,              "reorder MSA to tree order following SLC, save Newick tree to <f>",2 },
+  { "--reorder",   eslARG_INFILE, NULL, NULL, NULL,      NULL,NULL, CHOOSESEQOPTS,              "reorder seqs to the order listed in <f>, all seqs must be listed",2 },
+  /* options for adding/removing alignment annotation */
+  { "--mask2rf",   eslARG_INFILE, FALSE,NULL, NULL,      NULL,NULL, NULL,                       "set #=GC RF as x=1, gap=0 from 1/0s in 1-line <f>",              3 },
+  { "--m-keeprf",  eslARG_NONE,  FALSE, NULL, NULL,      NULL,"--mask2rf", NULL,                "with --mask2rf, do not overwrite nongap RF characters with 'x'", 3 },
+  { "--num-all",   eslARG_NONE,   NULL, NULL, NULL,      NULL,NULL, NULL,                       "add annotation numbering all columns",                           3 },
+  { "--num-rf",    eslARG_NONE,   NULL, NULL, NULL,      NULL,NULL, NULL,                       "add annotation numbering the non-gap RF columns",                3 },
+  { "--rm-gc",     eslARG_STRING,NULL,  NULL, NULL,      NULL,NULL, "--mask2rf",                "remove GC <s> markup, <s> must be RF|SS_cons|SA_cons|PP_cons",   3 },
+  { "--sindi",     eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL, NULL,                       "annotate individual secondary structures by imposing consensus", 3 },
+  { "--post2pp",   eslARG_NONE,  NULL,  NULL, NULL,      NULL,NULL, NULL,                       "convert infernal 0.72-1.0.2 POST posterior prob annotation to PP", 3 },
+  /* options for specifying the alphabet */
+  { "--amino",     eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--dna,--rna",               "<msafile> contains protein alignments",                          4 },
+  { "--dna",       eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--amino,--rna",             "<msafile> contains DNA alignments",                              4 },
+  { "--rna",       eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--amino,--dna",             "<msafile> contains RNA alignments",                              4 },
+
+  /* All options below are developer options, only shown if --devhelp invoked */
+  { "--xmask",     eslARG_INFILE, NULL, NULL, NULL,      NULL,NULL, NULL,                       "for each 0 column in <f>, add a 100% gap column to <msafile>",    101 },
+  { "--cn-id",      eslARG_INT,   NULL,   NULL, "n>0",    NULL,NULL, CLUSTOPTS,                 "split MSA into <n> clusters based on sequence identity",          101 },
+  { "--cs-id",      eslARG_INT,   NULL,   NULL, "n>0",    NULL,NULL, CLUSTOPTS,                 "split MSA into clusters on id s.t max cluster has <n> seqs",      101 },
+  { "--cx-id",      eslARG_REAL,  NULL,   NULL, "0.<x<1.",NULL,NULL, CLUSTOPTS,                 "split MSA into clusters s.t. no seq b/t 2 clusters > <x> seq id", 101 },
+  { "--cn-ins",     eslARG_INT,   NULL,   NULL, "n>0",    NULL,NULL, CLUSTOPTS,                 "split MSA into <n> clusters based on insert similarity",          101 },
+  { "--cs-ins",     eslARG_INT,   NULL,   NULL, "n>0",    NULL,NULL, CLUSTOPTS,                 "split MSA into clusters on inserts s.t. max cluster has <n> seqs",101 },
+  { "--cx-ins",     eslARG_REAL,  NULL,   NULL, "0.<x<1.",NULL,NULL, CLUSTOPTS,                 "split MSA into clusters s.t. no seq b/t 2 clusters > <x> ins id", 101 },
+  { "--c-nmin",     eslARG_INT,   NULL,   NULL, "n>0",    NULL,NULL, NULL,                      "only keep the cluster(s) with number of seqs > <n>",              101 },
+  { "--c-mx",       eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                      "output identity matrix to file <f>",                              101 },
+  { "-M",           eslARG_STRING,NULL,  NULL, NULL,      NULL,NULL, "--seq-r,--seq-k",         "use #=GS tag <s> to define minor alignments, and output them",    101 },
+  { "--M-rf",       eslARG_NONE,  NULL,  NULL, NULL,      NULL,"-M", NULL,                      "w/-M, impose major #=GC RF onto all minor alns",                  101 },
+  { "--M-gapt",     eslARG_REAL,  "0.5", NULL, "0<=x<=1", NULL,"-M", NULL,                      "w/-M, fraction of gaps allowed in non-gap RF columns",            101 },
+
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	/* application configuration       */
+  ESL_ALPHABET *abc     = NULL;	/* biological alphabet             */
+  char         *alifile = NULL;	/* alignment file name             */
+  int           infmt   = eslMSAFILE_UNKNOWN; /* format code for alifile    */
+  int           outfmt  = eslMSAFILE_UNKNOWN; /* format code for output ali */
+  int           i;              /* counter */
+  ESLX_MSAFILE *afp     = NULL;	/* open ali file, normal interface           */
+  ESL_MSAFILE2 *afp2    = NULL; /* open ali file, legacy small-mem interface */
+  ESL_MSA      *msa     = NULL;	/* one multiple sequence alignment */
+  int           status;		/* easel return code               */
+  int           nali;		/* number of alignments read       */
+  FILE         *ofp;		/* output file (default is stdout) */
+  char          errbuf[eslERRBUFSIZE];
+  int           median;         /* median length seq in msa */
+  float         minlen;         /* min length seq we'll keep */
+  float         maxlen;         /* max length seq we'll keep */
+  ESL_MSA      *new_msa;        /* a new MSA object created from the msa we read from a file */
+
+  /* variables related to --seq-k and --seq-r and --reorder */
+  char   **seqlist = NULL;      /* list of sequences to keep in msa */
+  int      seqlist_n;           /* number of sequences in seqlist */
+  int      n;                   /* counter  over seqnames */ 
+  int     *useme = NULL;        /* useme[0..n..msa->nseq-1] TRUE to keep seq n, FALSE not to */
+
+  /* variables related to --trim */
+  ESL_SQ **trim_sq = NULL;          /* unaligned sequences read from a file */
+
+  /* --trim related vars */
+  ESL_SQFILE   *trimfp = NULL;  /* sequence file with subsequences for --trim */
+
+  /* --mask2rf */
+  char *mask_for_rf = NULL;
+  int   mask_for_rf_len = -1;
+  /* --xmask */
+  char *xmask = NULL;
+  int   xmask_len = -1;
+  /* RF related variables */
+  int  *i_am_rf = NULL;                /* [0..i..msa->alen-1]: TRUE if pos i is non-gap RF posn, if msa->rf == NULL remains NULL */
+  int  *rf2a_map = NULL;               /* [0..rfpos..rflen-1] = apos,                     
+				        * apos is the alignment position (0..msa->alen-1) that     
+					* is non-gap RF position rfpos+1 (for rfpos in 0..rflen-1) */
+  int rflen = -1;                      /* nongap RF length */
+
+  /* options related to --tree */
+  ESL_TREE    *T = NULL; /* the tree, created by Single-Linkage Clustering */
+  ESL_DMATRIX *D = NULL; /* the distance matrix */
+  int *order;            /* order of sequences in new, reordered msa */
+
+  /* options related the 'in development '--c*' options */
+  int do_id_cluster  = FALSE;    /* TRUE if --cn-id, --cs-id, or --cx-id */
+  int do_insert_cluster = FALSE; /* TRUE if --cn-ins, --cs-ins, or --cx-ins */
+  int do_ctarget_nc, do_ctarget_nsize, do_cmindiff, nmsa, m, nc, nsize, xsize, nmin;
+  float mindiff;
+  ESL_MSA     **cmsa; /* the new msa's created by clustering seqs in the main msa */
+  ESL_MSA     *rfmsa; /* the new msa, but with gap RF columns removed */
+  FILE *mxfp = NULL;
+  int j;
+
+  /* --iinfo, --iplot, --gplot --rinfo, --dinfo related vars */
+  double        **abc_ct = NULL;        /* [0..msa->alen-1][0..abc->K], count of each residue at each position, over all sequences, missing and nonresidues are *not counted* */
+  int           **pp_ct = NULL;         /* [0..msa->alen-1][0..11], count of reach posterior probability (PP) code, over all sequences, gap is 11 */  
+  FILE *treefp  = NULL;  /* output file for --tree */
+
+  /* options related to --small */
+  ESL_KEYHASH    *seqname_keyhash;      /* keyhash of sequence names listed in list file <f>, with <f> from --seq-k <f> --seq-r <f> */
+  int             nseq_read = 0;        /* number of sequences read from current alignment */
+  int             nseq_regurged = 0;     /* number of sequences regurgitated from current alignment */
+
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "--devhelp") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\nwhere basic options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      puts("\noptions for removing/reordering/trimming sequences:");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+      puts("\noptions for adding/removing alignment annotation:");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); 
+      puts("\noptions for specifying bio alphabet:");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+      puts("\nundocumented, experimental developer options:");
+      esl_opt_DisplayHelp(stdout, go, 101, 2, 80);
+      exit(0);
+    }
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\nwhere basic options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      puts("\noptions for removing/reordering/trimming sequences:");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+      puts("\noptions for adding/removing alignment annotation:");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); 
+      puts("\noptions for specifying bio alphabet:");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go) != 1) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  /* Check for incompatible options that aren't simple to check with esl_getopts */
+  /* --small requires either --seq-k or --seq-r */
+  if (esl_opt_GetBoolean(go, "--small") && (! esl_opt_IsOn(go, "--seq-k")) && (! esl_opt_IsOn(go, "--seq-r"))) { 
+    esl_fatal("--small requires either --seq-k or --seq-r");
+  }
+
+  alifile = esl_opt_GetArg(go, 1);
+
+  /* get informat and outformat */
+  if (esl_opt_GetBoolean(go, "--small")) 
+    {
+      infmt  = eslMSAFILE_PFAM; 
+      outfmt = eslMSAFILE_PFAM; 
+    }
+  else
+    {
+      outfmt = eslMSAFILE_STOCKHOLM;
+    }
+
+  if (esl_opt_IsOn(go, "--informat"))
+    {
+      infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+      if (infmt == eslMSAFILE_UNKNOWN)
+	esl_fatal("%s is not a valid input sequence file format for --informat", esl_opt_GetString(go, "--informat")); 
+      if (esl_opt_GetBoolean(go, "--small") && infmt != eslMSAFILE_PFAM)
+	esl_fatal("--small requires (and defaults to) pfam format\ncan't set --informat %s\n", esl_opt_GetString(go, "--informat")); 
+    }
+
+  if (esl_opt_IsOn(go, "--outformat"))
+    {
+      outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"));
+      if (outfmt == eslMSAFILE_UNKNOWN)
+	esl_fatal("%s is not a valid input sequence file format for --outformat", esl_opt_GetString(go, "--outformat")); 
+      if (esl_opt_GetBoolean(go, "--small") && outfmt != eslMSAFILE_PFAM)
+	esl_fatal("--small requires (and defaults to) pfam format\ncan't set --outformat %s\n", esl_opt_GetString(go, "--outformat")); 
+    }
+
+  /***********************************************
+   * Open the MSA file; determine alphabet; set for digital input
+   ***********************************************/
+
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--small"))   esl_fatal("Must specify an alphabet (--amino, --dna, --rna) to use --small");
+
+  if (esl_opt_GetBoolean(go, "--small")) 
+    {
+      status = esl_msafile2_OpenDigital(abc, alifile, NULL, &afp2);
+      if      (status == eslENOTFOUND) esl_fatal("Alignment file %s doesn't exist or is not readable\n", alifile);
+      else if (status != eslOK)        esl_fatal("Alignment file %s open failed with error %d\n", alifile, status);
+    }
+  else
+    {
+      if ( (status = eslx_msafile_Open(&abc, alifile, NULL, infmt, NULL, &afp)) != eslOK)
+	eslx_msafile_OpenFailure(afp, status);
+      infmt = afp->format;
+    }
+
+  /* Check for incompatible options that require Stockholm/Pfam as input or output format */
+  if((esl_opt_IsOn(go, "--mask2rf")) && (outfmt != eslMSAFILE_STOCKHOLM) && (outfmt != eslMSAFILE_PFAM)) esl_fatal("with --mask2rf, the the output format must be stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--rm-gc"))   && (outfmt != eslMSAFILE_STOCKHOLM) && (outfmt != eslMSAFILE_PFAM)) esl_fatal("with --rm-gc, the the output format must be stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--post2pp")) && (outfmt != eslMSAFILE_STOCKHOLM) && (outfmt != eslMSAFILE_PFAM)) esl_fatal("with --post2pp, the the output format must be stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--num-all")) && (outfmt != eslMSAFILE_STOCKHOLM) && (outfmt != eslMSAFILE_PFAM)) esl_fatal("with --num-all, the the output format must be stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--num-rf"))  && (outfmt != eslMSAFILE_STOCKHOLM) && (outfmt != eslMSAFILE_PFAM)) esl_fatal("with --num-rf, the the output format must be stockholm/pfam format");
+
+  if((esl_opt_IsOn(go, "--seq-ins")) && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --seq-ins, the alignment file must be in stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--cn-id"))   && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --cn-id, the alignment file must be in stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--cs-id"))   && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --cs-id, the alignment file must be in stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--cx-id"))   && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --cx-id, the alignment file must be in stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--cn-ins"))  && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --cn-ins, the alignment file must be in stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--cs-ins"))  && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --cs-ins, the alignment file must be in stockholm/pfam format");
+  if((esl_opt_IsOn(go, "--cx-ins"))  && (infmt != eslMSAFILE_STOCKHOLM) && (infmt != eslMSAFILE_PFAM)) esl_fatal("with --cx-ins, the alignment file must be in stockholm/pfam format");
+
+  /* open output file */
+  if (esl_opt_GetString(go, "-o") != NULL) {
+    if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) 
+	esl_fatal("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+    } else ofp = stdout;
+
+  do_id_cluster     = ((esl_opt_IsOn(go, "--cn-id"))  || (esl_opt_IsOn(go, "--cs-id"))  || (esl_opt_IsOn(go, "--cx-id"))) ? TRUE : FALSE;
+  do_insert_cluster = ((esl_opt_IsOn(go, "--cn-ins")) || (esl_opt_IsOn(go, "--cs-ins")) || (esl_opt_IsOn(go, "--cx-ins")))? TRUE : FALSE;
+
+  /****************************
+   * Read optional input files 
+   ****************************/
+  /* read --mask2rf file, if nec */
+  if(esl_opt_GetString(go, "--mask2rf") != NULL) {
+    if((status = read_mask_file(esl_opt_GetString(go, "--mask2rf"), errbuf, &mask_for_rf, &mask_for_rf_len)) != eslOK)
+      esl_fatal(errbuf);
+  }
+  /* read --xmask file, if nec */
+  if(esl_opt_GetString(go, "--xmask") != NULL) {
+    if((status = read_mask_file(esl_opt_GetString(go, "--xmask"), errbuf, &xmask, &xmask_len)) != eslOK)
+      esl_fatal(errbuf);
+  }
+
+  /****************************
+   * Open optional output files 
+   ****************************/
+
+  if( esl_opt_IsOn(go, "--tree")) {
+    if ((treefp = fopen(esl_opt_GetString(go, "--tree"), "w")) == NULL) 
+      esl_fatal("Failed to open --tree output file %s\n", esl_opt_GetString(go, "--tree"));
+  }
+  if( esl_opt_IsOn(go, "--c-mx")) { 
+    if ((mxfp = fopen(esl_opt_GetString(go, "--c-mx"), "w")) == NULL) 
+      esl_fatal("Failed to open --c-mx output file %s\n", esl_opt_GetString(go, "--c-mx"));
+  }
+
+  /*******************************************************************
+   * Open and read list file, if nec (--seq-k, --seq-r or --reorder) *
+   *******************************************************************/
+  if ( esl_opt_IsOn(go, "--seq-k") || esl_opt_IsOn(go, "--seq-r") || esl_opt_IsOn(go, "--reorder")) {
+    if( esl_opt_IsOn(go, "--seq-k")) { 
+      if((status = read_seq_name_file(esl_opt_GetString(go, "--seq-k"), errbuf, &seqlist, &seqlist_n)) != eslOK) esl_fatal(errbuf);	  
+    }
+    else if( esl_opt_IsOn(go, "--reorder")) { 
+      if((status = read_seq_name_file(esl_opt_GetString(go, "--reorder"), errbuf, &seqlist, &seqlist_n)) != eslOK) esl_fatal(errbuf);	  
+    }
+    else { /* --seq-r enabled */
+      if((status = read_seq_name_file(esl_opt_GetString(go, "--seq-r"), errbuf, &seqlist, &seqlist_n)) != eslOK) esl_fatal(errbuf);	  
+    }
+  }
+
+  /*************************************************************
+   * Read MSAs one at a time, manipulate them, then output them
+   *************************************************************/
+
+  nali = 0;
+  if (! esl_opt_GetBoolean(go, "--small")) { 
+    while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+      {
+	if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+	nali++;
+
+	/* if RF exists, get i_am_rf array[0..alen] which tells us which positions are non-gap RF positions
+	 * and rf2a_map, a map of non-gap RF positions to overall alignment positions */
+	if(msa->rf != NULL) {
+	  if((status = map_rfpos_to_apos(msa, abc, errbuf, &i_am_rf, &rf2a_map, &rflen)) != eslOK) esl_fatal(errbuf);
+	}
+
+	/********************************************************************
+	 * Remove sequences based on an input list file (--seq-k or --seq-r)
+	 ********************************************************************/
+	/* Handle the --seq-k and --seq-r options if enabled, all subsequent manipulations will omit any seqs removed here.
+	 * We've already read list file <f>, seqlist holds the seqlist_n sequences read from <f> 
+	 * (<f> from either --seq-k <f>, --seq-r <f>, --reorder <f>) 
+	 */
+	if ( esl_opt_IsOn(go, "--seq-k") || esl_opt_IsOn(go, "--seq-r") || esl_opt_IsOn(go, "--reorder")) {
+	  if((afp->format != eslMSAFILE_STOCKHOLM) && (afp->format != eslMSAFILE_PFAM)) {
+	    esl_fatal("--seq-k, --seq-r, --reorder only work on Stockholm formatted alignments");
+	  }
+	  if( esl_opt_IsOn(go, "--seq-k")) { 
+	    if((status = msa_keep_or_remove_seqs(msa, errbuf, seqlist, seqlist_n, TRUE, (esl_opt_GetBoolean(go, "--k-reorder")), nali, &new_msa)) != eslOK)        esl_fatal(errbuf);	  
+	    /* new_msa is msa but only with seqs listed in --seq-k <f> file */
+	  }
+	  else if( esl_opt_IsOn(go, "--reorder")) { 
+	    if(seqlist_n != msa->nseq) esl_fatal("With --reorder <f>, <f> contains %d names, but alignment %d has %d seqs (all seqs must be listed in <f>)", seqlist_n, nali, msa->nseq);
+	    if((status = msa_keep_or_remove_seqs(msa, errbuf, seqlist, seqlist_n, TRUE, TRUE, nali, &new_msa)) != eslOK)        esl_fatal(errbuf);	  
+	    /* new_msa is msa but only with seqs listed in --seq-k <f> file */
+	  }
+	  else { /* --seq-r enabled */
+	    if((status = msa_keep_or_remove_seqs(msa, errbuf, seqlist, seqlist_n, FALSE, TRUE, nali, &new_msa)) != eslOK)        esl_fatal(errbuf);	  
+	    /* new_msa is msa but without seqs listed in --seq-r <f> file */
+	  }
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	}
+	
+	/*************************************************************
+	 * Remove sequences based on length or number of ambiguities *
+	 *************************************************************/
+	/* The --lnfract,--lxfract,--lmin,--lmax,--detrunc,--xambig options.
+	 * we do each separately, removing seqs for each as we go. 
+	 * They can be used in combination.
+	 */
+	if (esl_opt_IsOn(go, "--lnfract")) {
+	  median = msa_median_length(msa);
+	  minlen = esl_opt_GetReal(go, "--lnfract") * (float) median;
+	  msa_remove_seqs_below_minlen(msa, minlen, &new_msa);
+	  /* new_msa is msa without seqs below minlen, swap ptrs */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}
+	if (esl_opt_IsOn(go, "--lxfract")) {
+	  median = msa_median_length(msa);
+	  maxlen = esl_opt_GetReal(go, "--lxfract") * (float) median;
+	  msa_remove_seqs_above_maxlen(msa, maxlen, &new_msa);
+	  /* new_msa is msa without seqs above maxlen, swap ptrs */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}
+	if (esl_opt_IsOn(go, "--lmin")) {
+	  minlen = esl_opt_GetInteger(go, "--lmin");
+	  msa_remove_seqs_below_minlen(msa, minlen, &new_msa);
+	  /* new_msa is msa without seqs below minlen, swap ptrs */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}
+	if (esl_opt_IsOn(go, "--lmax")) {
+	  maxlen = esl_opt_GetInteger(go, "--lmax");
+	  msa_remove_seqs_above_maxlen(msa, maxlen, &new_msa);
+	  /* new_msa is msa without seqs below maxlen, swap ptrs */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}
+	if( esl_opt_IsOn(go, "--detrunc")) {
+	  if((status = msa_remove_truncated_seqs(msa, errbuf, esl_opt_GetInteger(go, "--detrunc"), i_am_rf, &new_msa)) != eslOK) esl_fatal(errbuf);
+	  /* new_msa is msa without seqs below minlen, swap ptrs */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}
+	if( esl_opt_IsOn(go, "--xambig")) {
+	  if((status = msa_remove_seqs_with_ambiguities(msa, esl_opt_GetInteger(go, "--xambig"), &new_msa)) != eslOK) esl_fatal(errbuf);
+	  /* new_msa is msa without seqs with > <n> (from --xambig <n>) ambiguities, swap ptrs */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}
+
+	/*********************************************************
+	 * Remove sequences based on a specific insert (--seq-ins)
+	 *********************************************************/
+	if( esl_opt_IsOn(go, "--seq-ins")) { 
+	  if((status = find_seqs_with_given_insert(msa, i_am_rf, errbuf, esl_opt_GetInteger(go, "--seq-ins"), esl_opt_GetInteger(go, "--seq-ni"), esl_opt_GetInteger(go, "--seq-xi"), &useme)) != eslOK) esl_fatal(errbuf);	  
+	  if(esl_vec_ISum(useme, msa->nseq) == 0) esl_fatal("No sequences satisfy the --seq-ins option.");
+	  if((status = esl_msa_SequenceSubset(msa, useme, &new_msa)) != eslOK)  esl_fatal(errbuf);	  
+	  /* new_msa is msa but without seqs that do not have an insert of length <a>..<b> (from --seq-ni <a> and --seq-xi <b>) after consensus column <n> from --seq-ins <n> file */
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	  new_msa = NULL;
+	}      
+
+	/******************
+	 * Trim sequences *
+	 ******************/
+	if(esl_opt_GetString(go, "--trim") != NULL) { 
+	  if(nali > 1) { esl_fatal("--trim only works if the alignment file has a single alignment"); }
+	  status = esl_sqfile_Open(esl_opt_GetString(go, "--trim"), eslSQFILE_UNKNOWN, NULL, &(trimfp));
+	  if (status == eslENOTFOUND)    esl_fatal("File %s doesn't exist or is not readable\n", esl_opt_GetString(go, "--trim"));
+	  else if (status == eslEFORMAT) esl_fatal("Couldn't determine format of sequence file %s\n", esl_opt_GetString(go, "--trim"));
+	  else if (status == eslEINVAL)  esl_fatal("Can't autodetect stdin or .gz."); 
+	  else if (status != eslOK)      esl_fatal("Sequence file open failed with error %d\n", status);
+	  /* read the sequences */
+	  read_sqfile(trimfp, msa->abc, msa->nseq, &trim_sq); /* dies on failure */
+	  /* trim the msa */
+	  if((status = trim_msa(msa, trim_sq, esl_opt_GetBoolean(go, "--t-keeprf"), errbuf)) != eslOK) esl_fatal(errbuf);
+	  for(i = 0; i < msa->nseq; i++) esl_sq_Destroy(trim_sq[i]); 
+	  free(trim_sq);
+	  trim_sq = NULL;
+	}
+
+	/*****************************************************
+	 * Replace residues with PP values less than minimum *
+	 *****************************************************/
+	if(esl_opt_IsOn(go, "--minpp")) { 
+	  if(msa->pp == NULL) esl_fatal("--minpp requires all alignments have posterior probability annotation, %d does not\n", nali);
+	  if((status = prune_msa_based_on_posteriors(msa, esl_opt_GetReal(go, "--minpp"), errbuf)) != eslOK) esl_fatal(errbuf);
+	}
+      
+	/**********************************************
+	 * Reorder sequences to tree order, if --tree *
+	 **********************************************/
+	/* handle the --tree option, if enabled */
+	if( esl_opt_IsOn(go, "--tree")) {
+	  /* Create distance matrix and infer tree by single linkage clustering */
+	  esl_dst_XDiffMx(msa->abc, msa->ax, msa->nseq, &D);
+	  esl_tree_SingleLinkage(D, &T);
+	  esl_tree_SetTaxaParents(T);
+	  esl_tree_SetTaxonlabels(T, msa->sqname);
+	  if((status = esl_tree_Validate(T, errbuf)) != eslOK) esl_fatal(errbuf);
+	
+	  esl_tree_WriteNewick(treefp, T); 
+	
+	  /* Get new order for seqs in the MSA based on the tree */
+	  if((status = get_tree_order(T, errbuf, &order)) != eslOK) esl_fatal(errbuf);
+	
+	  /*for(i = 0; i < msa->nseq; i++) printf("new MSA idx: %3d | orig MSA idx: %3d\n", i, order[i]);*/
+	  esl_tree_Destroy(T);
+	  esl_dmatrix_Destroy(D);
+	  T = NULL;
+	  D = NULL;
+	  if((status = reorder_msa(msa, order, errbuf)) != eslOK) esl_fatal(errbuf);
+	  free(order);
+	}	  
+
+	/******************************************
+	 * Modify/add annotation in the alignment *
+	 ******************************************/
+	/* Convert POST annotation (infernal 0.72-1.0) to PP, if nec */
+	/* Remove GC annotation, if nec */
+	if( esl_opt_IsOn(go, "--rm-gc")) {
+	  if((status = remove_gc_markup(msa, errbuf, esl_opt_GetString(go, "--rm-gc")) != eslOK)) esl_fatal(errbuf);
+	}
+	/* Rewrite RF annotation based on a mask, if nec */
+	if(mask_for_rf != NULL) { /* --mask2rf enabled */
+	  if(msa->rf != NULL && mask_for_rf_len == rflen) { /* mask corresponds to RF len */
+	    if((status = write_rf_given_rflen(msa, errbuf, i_am_rf, esl_opt_GetBoolean(go, "--m-keeprf"), mask_for_rf, mask_for_rf_len)) != eslOK) esl_fatal(errbuf);
+	  }
+	  else if(mask_for_rf_len == msa->alen) { 
+	    if((status = write_rf_given_alen(msa, errbuf, i_am_rf, esl_opt_GetBoolean(go, "--m-keeprf"), mask_for_rf, mask_for_rf_len)) != eslOK) esl_fatal(errbuf);
+	  }
+	  else { 
+	    if(msa->rf != NULL) esl_fatal("msa %d, alignment length is %d, nongap RF length is %d, --mask2rf mask length is neither (%d)", msa->alen, rflen);
+	    else                esl_fatal("msa %d, alignment length is %d (no RF annotation), --mask2rf mask length is neither (%d)", msa->alen, rflen);
+	  }
+	}
+	/* Add annotation numbering the nongap RF columns, if nec */
+	if( esl_opt_IsOn(go, "--num-rf")) { 
+	  if(msa->rf == NULL) esl_fatal("--num-rf requires all alignments have #=GC RF annotation, but alignment %d does not", nali);
+	  if((status = number_columns(msa, FALSE, i_am_rf, errbuf) != eslOK)) esl_fatal(errbuf);
+	}
+	/* Add annotation numbering all columns, if nec */
+	if( esl_opt_IsOn(go, "--num-all")) { 
+	  if((status = number_columns(msa, TRUE, i_am_rf, errbuf) != eslOK)) esl_fatal(errbuf);
+	}
+	/* Convert POST to PP annotation, if nec */
+	if(esl_opt_GetBoolean(go, "--post2pp")) { 
+	  if(msa->pp != NULL) esl_fatal("--post2pp enabled but alignment %d already has PP annotation.\n", nali);
+	  if((status = convert_post_to_pp(msa, errbuf, nali)) != eslOK) esl_fatal(errbuf);
+	}
+	/* Impose consensus structure to get individual secondary structures, if nec */
+	if(esl_opt_GetBoolean(go, "--sindi")) {
+	  if((status = individualize_consensus(go, errbuf, msa) != eslOK)) esl_fatal(errbuf);
+	}
+
+	/****************************************************
+	 * Handle 'in development' options, that are undocumented 
+	 * (only visible from the command line with --devhelp) 
+	 * These are even less stable than the other options.
+	 ***************************************************/
+	/* --xmask option: expand the alignment to fit lanemask in xmask <f>, number of TOTAL msa columns must equal number of 1s in <f>. */
+	if(xmask != NULL) { 
+	  if((status = expand_msa2mask(errbuf, msa, xmask, &new_msa)) != eslOK) esl_fatal(errbuf);
+	  esl_msa_Destroy(msa);
+	  msa = new_msa;
+	}
+
+	/*******************************************************
+	 * Handle the 'in development' cluster options. (--c-*) 
+	 * (these should probably go into a different miniapp eventually)
+	 *******************************************************/
+	if(do_id_cluster || do_insert_cluster) { 
+	  if(msa->rf == NULL) esl_fatal("--c* options require #=GC RF annotation marking consensus columns.");
+	  if(do_id_cluster) { 
+	    if(msa->rf == NULL) esl_fatal("Error, --cn-id, --cs-id and --cx-id require all alignments have #=GC RF anntotation, aln %d does not.", nali);
+	    /* create distance matrix and infer tree by single linkage clustering */
+	    /* first, remove all non-consensus columns */
+	    rfmsa = esl_msa_Clone(msa);
+	    if((status = esl_msa_ColumnSubset(rfmsa, errbuf, i_am_rf)) != eslOK) esl_fatal(errbuf);
+	    dst_nongap_XDiffMx(rfmsa->abc, rfmsa->ax, rfmsa->nseq, &D);
+	    esl_msa_Destroy(rfmsa);
+	    rfmsa = NULL;
+	    do_ctarget_nc    = esl_opt_IsOn(go, "--cn-id");
+	    do_ctarget_nsize = esl_opt_IsOn(go, "--cs-id");
+	    do_cmindiff      = esl_opt_IsOn(go, "--cx-id");
+	    nc               = esl_opt_IsOn(go, "--cn-id") ? esl_opt_GetInteger(go, "--cn-id")   : 0;
+	    nsize            = esl_opt_IsOn(go, "--cs-id") ? esl_opt_GetInteger(go, "--cs-id")   : 0;
+	    mindiff          = esl_opt_IsOn(go, "--cx-id") ? 1. - esl_opt_GetReal(go, "--cx-id") : 0; 
+	  }
+	  else { /* do_insert_cluster, create insert distance matrix and infer tree by SLC */ 
+	    if(msa->rf == NULL) esl_fatal("Error, --cn-ins, --cs-ins and --cx-ins require all alignments have #=GC RF anntotation, aln %d does not.", nali);
+	    if((status = insert_x_diffmx(go, errbuf, msa, rflen, i_am_rf, TRUE, TRUE, &D)) != eslOK) esl_fatal(errbuf);
+	    do_ctarget_nc    = esl_opt_IsOn(go, "--cn-ins");
+	    do_ctarget_nsize = esl_opt_IsOn(go, "--cs-ins");
+	    do_cmindiff      = esl_opt_IsOn(go, "--cx-ins");
+	    nc               = esl_opt_IsOn(go, "--cn-ins") ? esl_opt_GetInteger(go, "--cn-ins")   : 0;
+	    nsize            = esl_opt_IsOn(go, "--cs-ins") ? esl_opt_GetInteger(go, "--cs-ins")   : 0;
+	    mindiff          = esl_opt_IsOn(go, "--cx-ins") ? 1. - esl_opt_GetReal(go, "--cx-ins") : 0;
+	  }
+	  /* print out the id matrix if nec */
+	  if( esl_opt_IsOn(go, "--c-mx")) { 
+	    for(i = 0; i < msa->nseq; i++) { 
+	      for(j = 0; j < msa->nseq; j++) { 
+		fprintf(mxfp, "%5d  %5d  %-30s  %-30s  %.5f\n", i, j, msa->sqname[i], msa->sqname[j], 1. - D->mx[i][j]);
+	      }
+	    }	  
+	    fclose(mxfp);
+	  }
+	  if((status = MSADivide(msa, D, do_cmindiff, do_ctarget_nc, do_ctarget_nsize, mindiff, nc, nsize, &nmsa, &cmsa, &xsize, errbuf)) != eslOK) esl_fatal(errbuf);
+	  esl_msa_Destroy(msa); 
+	  msa = NULL;
+	  nmin = esl_opt_IsOn(go, "--c-nmin") ? esl_opt_GetInteger(go, "--c-nmin") : 1;
+	  for(m = 0; m < nmsa; m++) { 
+	    if(cmsa[m]->nseq >= nmin) { 
+	      status = eslx_msafile_Write(ofp, cmsa[m], outfmt);
+	      if      (status == eslEMEM) esl_fatal("Memory error when outputting alignment\n");
+	      else if (status != eslOK)   esl_fatal("Writing alignment file failed with error %d\n", status);
+	    }
+	    esl_msa_Destroy(cmsa[m]);
+	  }
+	  free(cmsa);
+	}
+	else if ( esl_opt_IsOn(go, "--c-mx")) esl_fatal("--c-mx option requires at least one of: --cn-id, --cs-id, --cx-id, --cn-ins, --cs-ins, --cx-ins"); 
+	/*******************************
+	 * End of cluster option block 
+	 *******************************/
+
+	/* handle the *in development* -M option, if enabled */
+	if( esl_opt_IsOn(go, "-M")) { 
+	  if((status = minorize_msa(go, msa, errbuf, ofp, esl_opt_GetString(go, "-M"), outfmt) != eslOK)) esl_fatal(errbuf);
+	}
+
+	/********************
+	 * Output alignment *
+	 ********************/
+	if(! esl_opt_IsOn(go, "-M")) { /* if -M, we already output the alignments in minorize_msa() */
+	  status = eslx_msafile_Write(ofp, msa, outfmt);
+	  if      (status == eslEMEM) esl_fatal("Memory error when outputting alignment\n");
+	  else if (status != eslOK)   esl_fatal("Writing alignment file failed with error %d\n", status);
+	}
+
+	/* Clean up for this msa */
+	if(msa      != NULL) { esl_msa_Destroy(msa);                    msa      = NULL; }
+	if(abc_ct   != NULL) { esl_Free2D((void **) abc_ct, msa->alen); abc_ct   = NULL; }
+	if(pp_ct    != NULL) { esl_Free2D((void **) pp_ct, msa->alen);  pp_ct    = NULL; }
+	if(i_am_rf  != NULL) { free(i_am_rf);                           i_am_rf  = NULL; }
+	if(rf2a_map != NULL) { free(rf2a_map);                          rf2a_map = NULL; }
+      }	/* end loop over msa's */
+    if (nali   == 0) esl_fatal("No alignments found in file %s\n", alifile);
+  } /* end of 'if (! esl_opt_IsOn(go, "--small"))' */
+
+  else 
+    { /* --small enabled */
+      /* First, a paranoid check first, the following should never be false based on earlier checks */
+      if((! esl_opt_IsOn(go, "--seq-r")) && (! esl_opt_IsOn(go, "--seq-k"))) esl_fatal("--small requires either --seq-r or --seq-k");
+      /* We've already read list file <f>, seqlist holds the seqlist_n sequences read from <f> (<f> from either --seq-k <f> or --seq-r <f>) */
+      seqname_keyhash = esl_keyhash_Create();
+      for (n = 0; n < seqlist_n; n++) 
+	{ 
+	  status = esl_keyhash_Store(seqname_keyhash, seqlist[n], -1, NULL); 
+	  if(status == eslEDUP)     { esl_fatal("Error sequence %s listed twice in a input list file.", seqlist[n]); }
+	  else if (status != eslOK) { esl_fatal("Error adding sequence %s to keyhash", seqlist[n]); }
+	}
+
+      while ((status = esl_msafile2_RegurgitatePfam(afp2, ofp, 
+						    -1, -1, -1, -1, /* don't care about max width of fields */
+						    TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, /* regurgitate all non-seq info */
+						    esl_opt_IsOn(go, "--seq-k") ? seqname_keyhash : NULL, /* if --seq-k <f> keep seqs from list file <f> */
+						    esl_opt_IsOn(go, "--seq-r") ? seqname_keyhash : NULL, /* if --seq-r <f> remove seqs from list file <f> */
+						    NULL, NULL, -1, '.', &nseq_read, &nseq_regurged)) == eslOK) 
+	{ 
+	  nali++;
+	  if      (esl_opt_IsOn(go, "--seq-k") && (nseq_regurged != seqlist_n))  
+	    esl_fatal("Error, in alignment %d, did not find %d of the sequences listed in %s", nali, (seqlist_n - nseq_regurged), esl_opt_GetString(go, "--seq-k"));
+	  else if (esl_opt_IsOn(go, "--seq-r") && ((nseq_read - nseq_regurged) != seqlist_n))  
+	    esl_fatal("Error, in alignment %d, did not find %d of the sequences listed in %s", nali, (seqlist_n - (nseq_read - nseq_regurged)), esl_opt_GetString(go, "--seq-r"));
+	}
+    }
+
+  /* Cleanup, normal return
+   */
+  if(seqlist != NULL) { 
+    for(n = 0; n < seqlist_n; n++) if(seqlist[n] != NULL) free(seqlist[n]); 
+    free(seqlist);
+  }
+
+  if(esl_opt_IsOn(go, "-o")) { 
+    fclose(ofp);
+    if(nali > 1) printf("# %d alignments saved to file %s.\n", nali, esl_opt_GetString(go, "-o"));
+    else         printf("# Alignment saved to file %s.\n", esl_opt_GetString(go, "-o"));
+  }
+  if(treefp != NULL) { 
+    fclose(treefp);
+    printf("# Tree(s) saved in Newick format to file %s.\n", esl_opt_GetString(go, "--tree"));
+  }
+  if(mxfp != NULL) { 
+    fclose(mxfp);
+    printf("# Distance matri{x,ces} saved to file %s.\n", esl_opt_GetString(go, "--c-mx"));
+  }
+
+  if (esl_opt_GetBoolean(go, "--small")) esl_msafile2_Close(afp2);
+  else                                   eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  
+  return 0;
+}
+
+
+/* write_rf_given_alen
+ *                   
+ * Given an MSA and a char string of 1s and 0s (a lanemask) of length
+ * msa->alen, write/rewrite  RF positions as  'x' (non-gap) for 1, '.' (gap) for 0.
+ * If RF already exists AND do_keep_rf_chars == TRUE, do not modify non-gap RF columns 
+ * if they are within mask ('1').
+ */
+static int
+write_rf_given_alen(ESL_MSA *msa, char *errbuf, int *i_am_rf, int do_keep_rf_chars, char *amask, int amask_len)
+{
+  int      status;
+  int64_t  apos;
+
+  /* contract check, rfgiven_mask must be exact length of msa */
+  if(amask == NULL) ESL_FAIL(eslEINVAL, errbuf, "--mask2rf mask is NULL in write_rf_given, this shouldn't happen.\n");
+  if(amask_len != (int) strlen(amask)) { ESL_FAIL(eslEINVAL, errbuf, "write_rf_given_alen(), passed in mask len (%d) is not equal to actual mask length (%d)\n", amask_len, (int) strlen(amask)); }
+  if(amask_len != msa->alen) 
+    ESL_FAIL(eslEINVAL, errbuf, "--mask2rf mask length: %d is not equal to the MSA length (%" PRId64 ")\n", 
+	     amask_len, msa->alen); 
+  if(msa->rf == NULL) { 
+    ESL_ALLOC(msa->rf, sizeof(char) * (msa->alen+1));
+    for (apos = 1; apos <= msa->alen; apos++) msa->rf[(apos-1)] = '.';
+  }
+
+  for (apos = 1; apos <= msa->alen; apos++) {
+    if     (amask[(apos-1)] == '0') msa->rf[(apos-1)] = '.';
+    else if(amask[(apos-1)] == '1') { 
+      if((! do_keep_rf_chars) || (i_am_rf == NULL) || (! i_am_rf[(apos-1)])) msa->rf[(apos-1)] = 'x'; /* else, msa has RF nongap char there already, leave it alone */
+    }
+    else    ESL_FAIL(eslEINVAL, errbuf, "--mask2rf mask char number %" PRId64 " is not a 1 nor a 0, but a %c\n", apos, amask[(apos-1)]);
+  }
+
+  msa->rf[msa->alen] = '\0';
+  return eslOK;
+ ERROR:
+  return status;
+}
+
+/* write_rf_given_rflen
+ *
+ * Given an MSA and a char string of 1s and 0s (a lanemask) that is
+ * the same length as the non-gap RF annotation in msa, rewrite msa
+ * RF based as 'x' (non-gap) for 1, '.' (gap) for 0. 1s indicate which
+ * non-gap RF columns to keep as 'x', and 0s indicate which non-gap
+ * RF columns to make gaps '.'.
+ * If RF already exists, do not modify non-gap RF columns if they are 
+ * within mask ('1').
+ */
+static int
+write_rf_given_rflen(ESL_MSA *msa,  char *errbuf, int *i_am_rf, int do_keep_rf_chars, char *mask_for_rf, int mask_for_rf_len)
+{
+  int64_t  apos, rfpos;
+
+  /* contract check, mask must be exact length of msa */
+  if(mask_for_rf  == NULL) ESL_FAIL(eslEINVAL, errbuf, "--mask2rf mask is NULL in write_rf_given, this shouldn't happen.\n");
+  if(msa->rf == NULL) ESL_FAIL(eslEINVAL, errbuf, "--mask2rf mask requires RF annotation in MSA (try -g)\n");
+  if(mask_for_rf_len != (int) strlen(mask_for_rf)) { ESL_FAIL(eslEINVAL, errbuf, "write_rf_given_rflen(), passed in mask len (%d) is not equal to actual mask length (%d).\n", mask_for_rf_len, (int) strlen(mask_for_rf)); }
+
+  rfpos = 0;
+  for (apos = 1; apos <= msa->alen; apos++) {
+    if(! esl_abc_CIsGap(msa->abc, msa->rf[(apos-1)])) {
+      rfpos++;
+      if     (mask_for_rf[(rfpos-1)] == '0') msa->rf[(apos-1)] = '.';
+      else if(mask_for_rf[(rfpos-1)] == '1') { 
+	if((! do_keep_rf_chars) || (i_am_rf == NULL) || (! i_am_rf[(apos-1)])) msa->rf[(apos-1)] = 'x'; /* else, msa has RF nongap char there already, leave it alone */
+      }
+    }
+    else msa->rf[(apos-1)] = '.'; 
+  }
+  if(rfpos != mask_for_rf_len) { ESL_FAIL(eslEINVAL, errbuf, "write_rf_given_rflen(), RF non-gap length (consensus length) (%" PRId64 ") is not equal to mask length (%d)\n", rfpos, mask_for_rf_len); }
+
+  msa->rf[msa->alen] = '\0';
+  return eslOK;
+}
+
+/* individualize_consensus
+ *                   
+ * Given an MSA with a consensus structure impose it to create
+ * individual secondary structures. Simple rule, for consensus
+ * bp i,j if seq positions i and j are both non-gaps seq i,j are 
+ * paired, if >= 1 is a gap, they're not paired.
+ */
+static int
+individualize_consensus(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa)
+{
+  int64_t apos;
+  int     i;
+  int    *cct = NULL;		   /* 0..alen-1 base pair partners array for consensus        */
+  int    *ct  = NULL;		   /* 0..alen-1 base pair partners array for current sequence */
+  char   *ss  = NULL;              /* individual secondary structure we've built              */
+  char   *ss_cons_nopseudo = NULL; /* no-pseudoknot version of consensus structure            */
+  int     status;
+
+  if(msa->ss_cons == NULL)                                ESL_FAIL(eslEINVAL, errbuf, "--sindi requires MSA to have consensus structure annotation.\n");
+  if(! (msa->flags & eslMSA_DIGITAL))                     ESL_FAIL(eslEINVAL, errbuf, "individualize_consensus() MSA is not digitized.\n");
+    
+  ESL_ALLOC(cct, sizeof(int)  * (msa->alen+1));
+  ESL_ALLOC(ct,  sizeof(int)  * (msa->alen+1));
+  ESL_ALLOC(ss,  sizeof(char) * (msa->alen+1));
+  ESL_ALLOC(ss_cons_nopseudo, sizeof(char) * (msa->alen+1));
+
+  esl_wuss_nopseudo(msa->ss_cons, ss_cons_nopseudo);
+  if (esl_wuss2ct(ss_cons_nopseudo, msa->alen, cct) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "Consensus structure string is inconsistent.");
+
+  /* go through each position of each sequence, 
+     if it's a gap and it is part of a base pair, remove that base pair */
+  for (i = 0; i < msa->nseq; i++)
+    {
+      esl_vec_ICopy(cct, (msa->alen+1), ct);
+      for (apos = 1; apos <= msa->alen; apos++)
+	if (esl_abc_XIsGap(msa->abc, msa->ax[i][apos]))
+	  { 
+	    if (ct[apos] != 0)  ct[ct[apos]] = 0;
+	    ct[apos] = 0;
+	  }
+      /* convert to WUSS SS string and append to MSA */
+      if (esl_ct2wuss(ct, msa->alen, ss) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "Unexpected error converting de-knotted bp ct array to wuss notation.");
+      esl_msa_AppendGR(msa, "SS", i, ss);
+    }
+  free(cct);
+  free(ct);
+  free(ss);
+  free(ss_cons_nopseudo);
+  return eslOK;
+
+ ERROR:
+  if (cct)               free(cct);
+  if (ct)                free(ct);
+  if (ss)                free(ss);
+  if (ss_cons_nopseudo)  free(ss_cons_nopseudo);
+  return status;
+}
+
+
+/* map_rfpos_to_apos
+ *                   
+ * Given an MSA, determine the alignment position of each
+ * non-gap RF (reference) position. The abc is only necessary
+ * for defining gap characters.
+ * 
+ * rf2a_map[0..rfpos..rflen-1] = apos, apos is the alignment position (0..msa->alen-1) that 
+ *                               is non-gap RF position rfpos+1 (for rfpos in 0..rflen-1) 
+ */
+static int map_rfpos_to_apos(ESL_MSA *msa, ESL_ALPHABET *abc, char *errbuf, int **ret_i_am_rf, int **ret_rf2a_map, int *ret_rflen)
+{
+  int status;
+  int rflen = 0;
+  int *rf2a_map = NULL;
+  int *i_am_rf = NULL;
+  int rfpos = 0;
+  int apos = 0;
+
+  /* contract check */
+  if(msa->rf == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, trying to map RF positions to alignment positions, but msa->rf is NULL.");
+
+  /* count non-gap RF columns */
+  for(apos = 0; apos < msa->alen; apos++) { 
+    if((! esl_abc_CIsGap(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsMissing(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsNonresidue(abc, msa->rf[apos])))
+      { 
+	rflen++;
+	/* I don't use esl_abc_CIsResidue() b/c that would return FALSE for 'x' with RNA and DNA */
+      }
+  }
+  /* build map */
+  ESL_ALLOC(i_am_rf, sizeof(int) * msa->alen);
+  ESL_ALLOC(rf2a_map, sizeof(int) * rflen);
+  for(apos = 0; apos < msa->alen; apos++) {
+    if((! esl_abc_CIsGap(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsMissing(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsNonresidue(abc, msa->rf[apos]))) { 
+      i_am_rf[apos] = TRUE;
+      rf2a_map[rfpos++] = apos;
+    }
+    else { 
+      i_am_rf[apos] = FALSE;
+    }
+  }
+  *ret_i_am_rf  = i_am_rf;
+  *ret_rf2a_map = rf2a_map;
+  *ret_rflen    = rflen;
+  return eslOK;
+
+ ERROR:
+  if(i_am_rf  != NULL) free(i_am_rf);
+  if(rf2a_map != NULL) free(rf2a_map);
+  ESL_FAIL(status, errbuf, "Error, out of memory while mapping RF positions to alignment positions.");
+}
+
+
+/* read_sqfile
+ *                   
+ * Read all seqs in a sequence file and return them. Originally
+ * written for --trim option.
+ */
+static int read_sqfile(ESL_SQFILE *sqfp, const ESL_ALPHABET *abc, int nseq, ESL_SQ ***ret_sq)
+{
+  int status;
+  ESL_SQ **sq; 
+  int i;
+  
+  /* get seqs from sqfile */
+  ESL_ALLOC(sq, sizeof(ESL_SQ *) * (nseq + 1)); /* +1 for the last guy we allocate but don't use */
+  i = 0;
+  sq[i] = esl_sq_CreateDigital(abc);
+  while ((status = esl_sqio_Read(sqfp, sq[i])) == eslOK) { 
+    i++;
+    if(i > nseq) esl_fatal("With --trim, sequence file must have same number seqs as in <msafile>\n"); 
+    sq[i] = esl_sq_CreateDigital(abc);
+  }
+  if (i != nseq) esl_fatal("With --trim, sequence file must have same number seqs as in <msafile>\n"); 
+  /* status should be eslEOF on normal end; if it isn't, deal w/ error */
+  esl_sq_Destroy(sq[i]); /* destroy final allocated but unused seq */
+
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					   sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    status, sqfp->filename);
+  esl_sqfile_Close(sqfp);
+  *ret_sq = sq;
+
+  return eslOK;
+
+ ERROR:
+  esl_fatal("Memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* trim_msa
+ *                   
+ * Given an MSA and unaligned 'trimmed' versions (subsequences) of all seqs in that MSA, 
+ * replace all chars that have been trimmed away (not in subsequences) with gaps in the MSA.
+ * 
+ * We remove all GR and GC markup from the msa, except for possibly #=GC RF if <do_keeprf> 
+ * is TRUE, else we remove that too.
+ */
+static int trim_msa(ESL_MSA *msa, ESL_SQ **sq, int do_keeprf, char *errbuf)
+{
+  int status;
+  int i, r;
+  int apos, uapos;
+  int astart,  aend;
+  int uastart, uaend;
+  char *offset;
+  char *aseq;
+  char *uaseq;
+  char *uasubseq;
+  int *a2ua_map;
+  int *ua2a_map;
+  int ualen;
+
+  if(! (msa->flags & eslMSA_DIGITAL))
+    ESL_XFAIL(eslEINVAL, errbuf, "in trim_msa(), msa must be digitized.");
+
+  ESL_ALLOC(aseq,  sizeof(char) * (msa->alen+1));
+
+  for(i = 0; i < msa->nseq; i++)
+    {
+      if (sq[i]->dsq == NULL) ESL_XFAIL(eslEINVAL, errbuf, "in trim_msa(), sq's must be digitized.");
+      if (sq[i]->n   == 0)    ESL_XFAIL(eslEINVAL, errbuf, "in trim_msa(), sq[%d] is zero-length\n", i);
+
+      ESL_ALLOC(a2ua_map, sizeof(int) * (msa->alen+1));
+      esl_vec_ISet(a2ua_map, (msa->alen+1), -1);
+      uapos = apos = 1;
+      while(apos <= msa->alen)
+	{
+	  while(apos <= msa->alen && esl_abc_XIsGap(msa->abc, msa->ax[i][apos])) apos++;
+	  if(apos <= msa->alen) a2ua_map[apos] = uapos++;
+	  apos++;
+	}
+      ualen = uapos;
+      ESL_ALLOC(ua2a_map, sizeof(int) * (ualen+1));
+      ua2a_map[0] = -1;
+      for(apos = 1; apos <= msa->alen; apos++)
+	if(a2ua_map[apos] != -1)
+	  ua2a_map[a2ua_map[apos]] = apos;
+
+      ESL_ALLOC(uasubseq, sizeof(char) * (sq[i]->n+1));
+      esl_abc_Textize(msa->abc, sq[i]->dsq, sq[i]->n, uasubseq);
+      esl_abc_Textize(msa->abc, msa->ax[i], msa->alen, aseq);
+
+      esl_strdup(aseq, -1, &(uaseq));
+      esl_strdealign(uaseq, uaseq, "-_.~", NULL);
+      offset = strstr(uaseq, uasubseq); /* we'll replace the first occurence of uasubseq in uaseq */
+      if(offset == NULL) ESL_XFAIL(eslEINVAL, errbuf, "in trim_msa(), sq[%d] is not a subseq of msa seq %d\n", i, i);
+      uastart = offset  - uaseq + 1;
+      uaend   = uastart + strlen(uasubseq) - 1;
+      astart  = ua2a_map[uastart];
+      aend    = ua2a_map[uaend];
+      free(ua2a_map);
+      free(a2ua_map);
+
+      for(apos = 1;        apos <  astart;    apos++) msa->ax[i][apos] = msa->abc->K; /* make it a gap */
+      for(apos = aend + 1; apos <= msa->alen; apos++) msa->ax[i][apos] = msa->abc->K; /* make it a gap */
+      free(uaseq);
+      free(uasubseq);
+    }
+
+  /* Free all per-column annotation that might now be invalid */
+  if(! do_keeprf && msa->rf != NULL) { free(msa->rf); msa->rf = NULL; }
+  if(msa->ss_cons != NULL) { free(msa->ss_cons); msa->ss_cons = NULL; }
+  if(msa->sa_cons != NULL) { free(msa->sa_cons); msa->sa_cons = NULL; }
+  if(msa->pp_cons != NULL) { free(msa->pp_cons); msa->pp_cons = NULL; }
+
+  /* Free all per-residue annotation (alternatively, we could just add gaps to the gaps we've created by 
+   * trimming, but this would cause problems for SS annotation, for example. */
+  if(msa->ss != NULL) { 
+    for(i = 0; i < msa->nseq; i++) if(msa->ss[i] != NULL) { free(msa->ss[i]); }
+    free(msa->ss); 
+    msa->ss = NULL;
+  }
+  if(msa->sa != NULL) { 
+    for(i = 0; i < msa->nseq; i++) if(msa->sa[i] != NULL) { free(msa->sa[i]); }
+    free(msa->sa); 
+    msa->sa = NULL;
+  }
+  if(msa->pp != NULL) { 
+    for(i = 0; i < msa->nseq; i++) if(msa->pp[i] != NULL) { free(msa->pp[i]); }
+    free(msa->pp); 
+    msa->pp = NULL;
+  }
+  if(msa->ngr > 0) { 
+    for(r = 0; r < msa->ngr; r++) { 
+      for(i = 0; i < msa->nseq; i++) if(msa->gr[r][i] != NULL) { free(msa->gr[r][i]); }
+      free(msa->gr[r]);
+    }
+    if(msa->gr_idx != NULL) { esl_keyhash_Destroy(msa->gr_idx); msa->gr_idx = NULL; }
+    msa->gr_idx = NULL;
+    free(msa->gr);
+    msa->gr = NULL;
+    msa->ngr = 0;
+  }
+
+  free(aseq);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* prune_msa_based_on_posteriors
+ *                   
+ * Given an MSA and a minimum posterior probability (PP) <min_pp>
+ * value to keep, replace all residues that have posterior
+ * probabilities < <min_pp> with gaps. The PP values for these
+ * residues are replaced with gaps as well. 
+ * 
+ * We remove all GF, GS, GR and GC markup from the msa, except for GR
+ * PP annotation and parsed GC annotation, like SS_cons, RF, SA_cons
+ * and PP_cons.
+ */
+static int prune_msa_based_on_posteriors(ESL_MSA *msa, float min_pp, char *errbuf)
+{
+  double ppminA[11]; /* values of the 11 possible nongap PP values, '0'-'9' and '*', hardcoded here */
+  float max_pp;  /* max allowable min_pp value */
+  int i, r;      /* counters */
+  int min_ppidx; /* index in ppminA[] corresponding to minimum allowed PP */
+  int apos;
+  int ppidx;
+
+  ppminA[0]  = 0.00;
+  ppminA[1]  = 0.05;
+  ppminA[2]  = 0.15;
+  ppminA[3]  = 0.25;
+  ppminA[4]  = 0.35;
+  ppminA[5]  = 0.45;
+  ppminA[6]  = 0.55;
+  ppminA[7]  = 0.65;
+  ppminA[8]  = 0.75;
+  ppminA[9]  = 0.85;
+  ppminA[10] = 0.95;
+  max_pp = 0.95;
+
+  if(! (msa->flags & eslMSA_DIGITAL))
+    ESL_FAIL(eslEINVAL, errbuf, "in prune_msa_based_on_posteriors(), msa must be digitized.");
+  if(msa->pp == NULL) 
+    ESL_FAIL(eslEINVAL, errbuf, "in prune_msa_based_on_posteriors(), msa has no PP annotation.");
+
+  /* determine the index in ppminA of the minimum allowed PP */
+  min_ppidx = 0; 
+  /* special case, check to see if max possible min_pp was passed in, this is 0.95 */
+  if(esl_FCompare(min_pp, max_pp, eslSMALLX1) == eslOK) { 
+    min_ppidx = 10;
+  }
+  else if(min_pp > max_pp) { 
+    ESL_FAIL(eslERANGE, errbuf, "in prune_msa_based_on_posteriors(), min_pp (%f) is too large (max allowed is %f)\n", min_pp, max_pp);
+  }
+  else {
+    while((min_ppidx < 10) && (min_pp > ppminA[min_ppidx])) { 
+      min_ppidx++;
+    }
+  }
+
+  /* replace all PP values less than our minimum, and their associated residues, with gaps */
+  for(i = 0; i < msa->nseq; i++) { 
+    /* rename the sequence */
+    if(msa->pp[i] != NULL) {
+      for(apos = 1; apos <= msa->alen; apos++) { 
+	/* be wary off the off-by-one b/t msa->ax and msa->pp */
+	if(! esl_abc_CIsGap(msa->abc, msa->pp[i][apos-1])) { 
+	  ppidx = get_pp_idx(msa->abc, msa->pp[i][apos-1]);
+	  if(ppidx < min_ppidx) { /* not a gap, and less than our minimum */
+	    msa->ax[i][apos]   = msa->abc->K; /* make this residue a gap */
+	    msa->pp[i][apos-1] = '.';         /* make the PP for this residue a gap */
+	  }
+	}
+      }
+    }	
+  }  
+
+  /* Free annotation in MSA because we can't be sure any of it is
+   * valid anymore -- we've removed residues from the sequences (!)
+   */
+
+  /* Free all per-file (GF) annotation */
+  for(r = 0; r < msa->ngf; r++) { 
+    if(msa->gf[r]     != NULL) free(msa->gf[r]); 
+    if(msa->gf_tag[r] != NULL) free(msa->gf_tag[r]);
+  }
+  if(msa->gf != NULL)     { free(msa->gf);     msa->gf     = NULL; }
+  if(msa->gf_tag != NULL) { free(msa->gf_tag); msa->gf_tag = NULL; }
+  msa->ngf = 0;
+
+  /* Free all per-column (GC) annotation that might now be invalid,
+   * we leave the parsed GC annotation, like SS_cons 
+   */
+  for(r = 0; r < msa->ngc; r++) { 
+    if(msa->gc[r]     != NULL) free(msa->gc[r]); 
+    if(msa->gc_tag[r] != NULL) free(msa->gc_tag[r]);
+  }
+  if(msa->gc != NULL)     { free(msa->gc);     msa->gc     = NULL; }
+  if(msa->gc_tag != NULL) { free(msa->gc_tag); msa->gc_tag = NULL; }
+  if(msa->gc_idx != NULL) { esl_keyhash_Destroy(msa->gc_idx); msa->gc_idx = NULL; }
+  msa->ngc = 0;
+
+  /* Free all per-sequence (GS) annotation */
+  for(r = 0; r < msa->ngc; i++) { 
+    if(msa->gs[r]     != NULL) { 
+      for(i = 0; i < msa->nseq; i++) { 
+	free(msa->gs[r][i]); 
+      }
+      free(msa->gs[r]);
+    }
+    if(msa->gc_tag[r] != NULL) free(msa->gc_tag[r]);
+  }
+  if(msa->gs != NULL)     { free(msa->gs);     msa->gs     = NULL; }
+  if(msa->gs_tag != NULL) { free(msa->gs_tag); msa->gs_tag = NULL; }
+  if(msa->gs_idx != NULL) { esl_keyhash_Destroy(msa->gs_idx); msa->gs_idx = NULL; }
+  msa->ngs = 0;
+
+  /* Free all per-residue (GR) annotation (except PP) */
+  if(msa->ss != NULL) { 
+    for(i = 0; i < msa->nseq; i++) if(msa->ss[i] != NULL) { free(msa->ss[i]); }
+    free(msa->ss); 
+    msa->ss = NULL;
+  }
+  if(msa->sa != NULL) { 
+    for(i = 0; i < msa->nseq; i++) if(msa->sa[i] != NULL) { free(msa->sa[i]); }
+    free(msa->sa); 
+    msa->sa = NULL;
+  }
+  if(msa->ngr > 0) { 
+    for(r = 0; r < msa->ngr; r++) { 
+      for(i = 0; i < msa->nseq; i++) if(msa->gr[r][i] != NULL) { free(msa->gr[r][i]); }
+      free(msa->gr[r]);
+    }
+    if(msa->gr_idx != NULL) { esl_keyhash_Destroy(msa->gr_idx); msa->gr_idx = NULL; }
+    msa->gr_idx = NULL;
+    free(msa->gr);
+    msa->gr = NULL;
+    msa->ngr = 0;
+  }
+
+  return eslOK;
+}
+
+/* get_pp_idx
+ *                   
+ * Given a #=GR PP or #=GC PP_cons character, return the appropriate index
+ * in a pp_ct[] vector. 
+ * '0' return 0;
+ * '1' return 1;
+ * '2' return 2;
+ * '3' return 3;
+ * '4' return 4;
+ * '5' return 5;
+ * '6' return 6;
+ * '7' return 7;
+ * '8' return 8;
+ * '9' return 9;
+ * '*' return 10;
+ * gap return 11;
+ * 
+ * Anything else (including missing or nonresidue) return -1;
+ *
+ * This mapping of PP chars to return values should probably be 
+ * stored in some internal map structure somewhere.
+ */
+static int get_pp_idx(ESL_ALPHABET *abc, char ppchar)
+{
+  if(esl_abc_CIsGap(abc, ppchar)) return 11;
+  if(ppchar == '*')               return 10;
+  if(ppchar == '9')               return 9;
+  if(ppchar == '8')               return 8;
+  if(ppchar == '7')               return 7;
+  if(ppchar == '6')               return 6;
+  if(ppchar == '5')               return 5;
+  if(ppchar == '4')               return 4;
+  if(ppchar == '3')               return 3;
+  if(ppchar == '2')               return 2;
+  if(ppchar == '1')               return 1;
+  if(ppchar == '0')               return 0;
+  return -1;
+}
+
+/* get_tree_order
+ *                   
+ * Given a tree, determine the branching order of the sequences
+ * it represents by traversing it preorder.
+ */
+static int get_tree_order(ESL_TREE *T, char *errbuf, int **ret_order)
+{
+  int status;
+  int opos = 0;
+  int nd;
+  int *order; 
+  ESL_STACK *pda;
+  ESL_ALLOC(order, sizeof(int) * T->N);
+
+  opos = 0;
+  pda  = esl_stack_ICreate();
+  esl_stack_IPush(pda, T->right[0]);
+  esl_stack_IPush(pda, T->left[0]);
+  while (esl_stack_IPop(pda, &nd) != eslEOD)
+    {
+      if (nd > 0) { /* a node */
+	esl_stack_IPush(pda, T->right[nd]); /* index for right child */
+	esl_stack_IPush(pda, T->left[nd]);  /* index for left child */
+      }
+      else /* nd <= 0, a child */
+	order[opos++] = nd * -1;
+    }
+  *ret_order = order;
+  esl_stack_Destroy(pda);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* reorder_msa
+ *                   
+ * Given an array specifying a new order for the sequences in
+ * the MSA, reorder it by swapping pointers.
+ */
+static int
+reorder_msa(ESL_MSA *msa, int *order, char *errbuf)
+{
+  int status;
+  char **tmp; 
+  ESL_ALLOC(tmp, sizeof(char *) * msa->nseq);
+  int i, a;
+
+  /* contract check */
+  /* 'order' must be have nseq elements, elements must be in range [0..nseq-1], no duplicates  */
+  int *covered;
+  ESL_ALLOC(covered, sizeof(int) * msa->nseq);
+  esl_vec_ISet(covered, msa->nseq, 0);
+  for(i = 0; i < msa->nseq; i++) { 
+    /* printf("order[i:%4d]: %4d\n", i, order[i]);
+       printf("covered[order[i:%4d]]: %4d\n", i, covered[order[i]]);
+    */
+    if(covered[order[i]]) ESL_FAIL(eslEINVAL, errbuf, "reorder_msa() order array has duplicate entries for i: %d\n", i);
+    covered[order[i]] = 1;
+  }
+  free(covered);
+
+  /* swap aseq or ax (one or the other must be non-NULL) */
+  if(msa->flags & eslMSA_DIGITAL) { /* digital MSA */
+    ESL_DSQ **tmp_dsq; 
+    ESL_ALLOC(tmp_dsq, sizeof(ESL_DSQ *) * msa->nseq);
+    for(i = 0; i < msa->nseq; i++) tmp_dsq[i] = msa->ax[i];
+    for(i = 0; i < msa->nseq; i++) msa->ax[i] = tmp_dsq[order[i]];
+    free(tmp_dsq);
+  }
+  else { /* text MSA */
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->aseq[i];
+    for(i = 0; i < msa->nseq; i++) msa->aseq[i] = tmp[order[i]];
+  }
+
+  /* swap sqnames (mandatory) */
+  for(i = 0; i < msa->nseq; i++) tmp[i] = msa->sqname[i];
+  for(i = 0; i < msa->nseq; i++) msa->sqname[i] = tmp[order[i]];
+
+  /* swap sqacc, if they exist */
+  if(msa->sqacc != NULL) { 
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->sqacc[i];
+    for(i = 0; i < msa->nseq; i++) msa->sqacc[i] = tmp[order[i]];
+  }
+
+  /* swap sqdesc, if they exist */
+  if(msa->sqdesc != NULL) { 
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->sqdesc[i];
+    for(i = 0; i < msa->nseq; i++) msa->sqdesc[i] = tmp[order[i]];
+  }
+
+  /* swap ss, if they exist */
+  if(msa->ss != NULL) { 
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->ss[i];
+    for(i = 0; i < msa->nseq; i++) msa->ss[i] = tmp[order[i]];
+  }
+
+  /* swap sa, if they exist */
+  if(msa->sa != NULL) { 
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->sa[i];
+    for(i = 0; i < msa->nseq; i++) msa->sa[i] = tmp[order[i]];
+  }
+
+  /* swap pp, if they exist */
+  if(msa->pp != NULL) { 
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->pp[i];
+    for(i = 0; i < msa->nseq; i++) msa->pp[i] = tmp[order[i]];
+  }
+
+  /* swap gs annotation, if it exists */
+  for(a = 0; a < msa->ngs; a++) {
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->gs[a][i];
+    for(i = 0; i < msa->nseq; i++) msa->gs[a][i] = tmp[order[i]];
+  }
+
+  /* swap gr annotation, if it exists */
+  for(a = 0; a < msa->ngr; a++) {
+    for(i = 0; i < msa->nseq; i++) tmp[i] = msa->gr[a][i];
+    for(i = 0; i < msa->nseq; i++) msa->gr[a][i] = tmp[order[i]];
+  }
+  free(tmp);
+  return eslOK;
+
+ ERROR: 
+  return status;
+}
+
+/* read_mask_file
+ *
+ * Given an open file pointer, read the first token of the
+ * file and return it as *ret_mask. It must contain only
+ * '0' or '1' characters.
+ *
+ * Returns:  eslOK on success.
+ */
+int
+read_mask_file(char *filename, char *errbuf, char **ret_mask, int *ret_mask_len)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  char           *mask;
+  int             toklen;
+  int             n;
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to open %s in read_mask_file\n", filename);
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to read a single token from %s\n", filename);
+
+  ESL_ALLOC(mask, sizeof(char) * (toklen+1));
+  for(n = 0; n < toklen; n++) { 
+    if((tok[n] == '0') || (tok[n] == '1')) { 
+      mask[n] = tok[n];
+    }
+    else { ESL_FAIL(eslFAIL, errbuf, "read a non-0 and non-1 character (%c) in the mask file %s\n", tok[n], filename); }
+  }
+  mask[n] = '\0';
+
+  *ret_mask = mask;
+  *ret_mask_len = n;
+  esl_fileparser_Close(efp);
+  return eslOK;
+  
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* expand_msa2mask
+ *
+ * Given an MSA <msa> and a lanemask <xmask> with exactly msa->alen 1s in it.
+ * Add 100% gap columns in between each column as dictated by <xmask>.
+ *
+ * For example if lanemask is 100101, msa->alen is 3, we add 2 100% gap
+ * columns after column 1, and 1 100% gap column after column 2, to make
+ * the msa length = length(xmask) = 6.
+ */
+static int
+expand_msa2mask(char *errbuf, ESL_MSA *msa, char *xmask, ESL_MSA **newmsa)
+{
+  int status;
+  int  mpos;
+  int  masklen;
+  int *nzeroesA;
+  int  nones = 0;
+
+  if(xmask == NULL) ESL_FAIL(eslEINVAL, errbuf, "expand_msa2mask(), xmask is NULL.");
+
+  masklen = strlen(xmask);
+  /* count 1s in xmask */
+  for (mpos = 0; mpos < masklen; mpos++) { 
+    if     (xmask[mpos] == '1') nones++;
+    else if(xmask[mpos] == '0') ; /* do nothing */
+    else    ESL_FAIL(eslEINVAL, errbuf, "--xmask mask char number %d is not a 1 nor a 0, but a %c\n", mpos+1, xmask[mpos]);
+  }
+  if(nones != msa->alen) ESL_FAIL(eslEINVAL, errbuf, "expand_msa2mask(), number of 1s in --xmask file: %d != msa->alen: %" PRId64 ", they must be equal.", nones, msa->alen);
+
+  /* determine number of 0s after each consensus column */
+  nones = 0;
+  ESL_ALLOC(nzeroesA, sizeof(int) * (masklen+1));
+  esl_vec_ISet(nzeroesA, (masklen+1), 0);
+  for (mpos = 0; mpos < masklen; mpos++) { 
+    if     (xmask[mpos] == '1') nones++;
+    else if(xmask[mpos] == '0') nzeroesA[nones]++;
+    else    ESL_FAIL(eslEINVAL, errbuf, "--xmask mask char number %d is not a 1 nor a 0, but a %c\n", mpos+1, xmask[mpos]);
+  }
+  
+  /*int i;
+  for (i = 0; i <= nones; i++) { 
+    printf("nzeroes[%3d]: %3d\n", i, nzeroesA[i]);
+    }*/
+
+  /* add the 100% gap columns */
+  if((status = add_gap_columns_to_msa(errbuf, msa, nzeroesA, newmsa, TRUE)) != eslOK) return status ;
+  /* new alen should equal masklen */
+  if((*newmsa)->alen != masklen) ESL_FAIL(eslEINVAL, errbuf, "expand_msa2mask(), new msa->alen: (%" PRId64 ") != length of mask (%d), this shouldn't happen.", (*newmsa)->alen, masklen);
+  free(nzeroesA);
+
+  return eslOK;
+ ERROR:
+  return status;
+}
+
+/* Function: msa_median_length()
+ * 
+ * Purpose:  Returns the median (unaligned) length of 
+ *           the sequences in an alignment.
+ */
+static int
+msa_median_length(ESL_MSA *msa)
+{
+  int  status;
+  int *len;
+  int  i;
+  int  median;
+  ESL_SQ *sq;
+  sq = esl_sq_CreateDigital(msa->abc);
+
+  ESL_ALLOC(len, sizeof(int) * msa->nseq);
+  for (i = 0; i < msa->nseq; i++) {
+    esl_sq_GetFromMSA(msa, i, sq);
+    len[i] = sq->n;
+    esl_sq_Reuse(sq);
+    /* printf("i: %d len: %d\n", i, len[i]);*/
+  }
+
+  qsort(len, msa->nseq, sizeof(int), compare_ints);
+
+  /* for (i = 0; i < msa->nseq; i++) {
+    printf("i: %d len: %d\n", i, len[i]);
+  }
+  */
+
+  median = len[msa->nseq / 2];
+  free(len);
+
+  esl_sq_Destroy(sq);
+  return median;
+
+ ERROR:
+  esl_fatal("msa_median_length() memory allocation error.");
+  return 0.; /* NEVERREACHED */
+}
+
+
+/* Function: msa_remove_seqs_below_minlen()
+ * 
+ * Purpose:  Remove sequences in MSA whose dealigned length is less than a minimum length.
+ */
+static int
+msa_remove_seqs_below_minlen(ESL_MSA *msa, float minlen, ESL_MSA **ret_new_msa)
+{
+  int  status;
+  int *useme;
+  int  i;
+
+  ESL_MSA *new_msa;
+  ESL_SQ *sq;
+  sq = esl_sq_CreateDigital(msa->abc);
+
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+  for (i = 0; i < msa->nseq; i++) {
+    esl_sq_GetFromMSA(msa, i, sq);
+    useme[i] = ((float) sq->n >= minlen) ? TRUE : FALSE;
+    /*printf("useme[i:%d]: %d\n", i, useme[i]);*/
+    esl_sq_Reuse(sq);
+  }
+
+  if(esl_vec_ISum(useme, msa->nseq) == 0) esl_fatal("No sequences exceed minimum allowed length.");
+  if((status = esl_msa_SequenceSubset(msa, useme, &new_msa)) != eslOK) esl_fatal("esl_msa_SequenceSubset() had a problem.");
+  free(useme);
+  esl_sq_Destroy(sq);
+  *ret_new_msa = new_msa;
+  return eslOK;
+
+ ERROR:
+  esl_fatal("msa_remove_seqs_below_minlen() memory allocation error.");
+  return eslOK; /* NEVERREACHED */
+}
+
+
+/* Function: msa_remove_seqs_above_maxlen()
+ * 
+ * Purpose:  Remove sequences in MSA whose dealigned length is more than a maximum length.
+ */
+static int
+msa_remove_seqs_above_maxlen(ESL_MSA *msa, float maxlen, ESL_MSA **ret_new_msa)
+{
+  int  status;
+  int *useme;
+  int  i;
+
+  ESL_MSA *new_msa;
+  ESL_SQ *sq;
+  sq = esl_sq_CreateDigital(msa->abc);
+
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+  for (i = 0; i < msa->nseq; i++) {
+    esl_sq_GetFromMSA(msa, i, sq);
+    useme[i] = ((float) sq->n <= maxlen) ? TRUE : FALSE;
+    /*printf("useme[i:%d]: %d\n", i, useme[i]);*/
+    esl_sq_Reuse(sq);
+  }
+
+  if(esl_vec_ISum(useme, msa->nseq) == 0) esl_fatal("No sequences are less than maximum allowed length.");
+  if((status = esl_msa_SequenceSubset(msa, useme, &new_msa)) != eslOK) esl_fatal("esl_msa_SequenceSubset() had a problem.");
+  free(useme);
+  esl_sq_Destroy(sq);
+  *ret_new_msa = new_msa;
+  return eslOK;
+
+ ERROR:
+  esl_fatal("msa_remove_seqs_above_maxlen() memory allocation error.");
+  return eslOK; /* NEVERREACHED */
+}
+
+/* Function: msa_remove_truncated_seqs()
+ * 
+ * Purpose:  Remove sequences in MSA that have all gaps in the first <ntrunc> 5' leading 
+ *           non-gap RF columns OR the last <ntrunc> 3' leading non-gap RF columns
+ */
+static int
+msa_remove_truncated_seqs(ESL_MSA *msa, char *errbuf, int ntrunc, int *i_am_rf, ESL_MSA **ret_new_msa)
+{
+  int  status;
+  int *useme;
+  int  i;
+  int  leading_okay, trailing_okay;
+  int  apos, rfpos_ct;
+  int  nused = 0;
+  ESL_MSA *new_msa;
+
+  /* contract check */
+  if(! (msa->flags & eslMSA_DIGITAL)) ESL_XFAIL(eslEINVAL, errbuf, "in msa_remove_truncated_seqs(), msa must be digitized.");
+  if(msa->rf == NULL) ESL_XFAIL(eslEINVAL, errbuf, "No #=GC RF markup in alignment, it is needed for --detrunc.");
+  if(i_am_rf == NULL) ESL_XFAIL(eslEINVAL, errbuf, "internal error, msa_remove_truncated_seq() i_am_rf is NULL.");
+
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+
+  for(i = 0; i < msa->nseq; i++) { 
+    /* if ALL of the first 5' <ntrunc> non-gap RF columns are gaps in this seq, we'll remove it */
+    leading_okay  = FALSE;
+    rfpos_ct = 0; 
+    apos = 1;
+    while(!leading_okay && (rfpos_ct < ntrunc) && (apos <= msa->alen)) { 
+      if(i_am_rf[(apos-1)]) { 
+	rfpos_ct++;
+	if(! esl_abc_XIsGap(msa->abc, msa->ax[i][apos])) leading_okay = TRUE;
+      }
+      apos++;
+    }
+
+    trailing_okay = FALSE;
+    rfpos_ct = 0;
+    apos = msa->alen;
+    while(!trailing_okay && (rfpos_ct < ntrunc) && (apos >= 1)) { 
+      if(i_am_rf[(apos-1)]) { 
+	rfpos_ct++;
+	if(! esl_abc_XIsGap(msa->abc, msa->ax[i][apos])) trailing_okay = TRUE;
+      }
+      apos--;
+    }
+    useme[i] = (leading_okay && trailing_okay) ? TRUE : FALSE;
+    if(useme[i]) nused++;
+  }
+  if(nused == 0) ESL_FAIL(eslEINVAL, errbuf, "--detrunc removed ALL sequences!");
+  if((status = esl_msa_SequenceSubset(msa, useme, &new_msa)) != eslOK) esl_fatal("esl_msa_SequenceSubset() had a problem.");
+  free(useme);
+  *ret_new_msa = new_msa;
+  return eslOK;
+
+ ERROR:
+  ESL_FAIL(status, errbuf, "msa_remove_truncated_seqs(): memory allocation error.");
+  return eslOK; /* NEVERREACHED */
+}
+
+
+/* Function: msa_remove_seqs_with_ambiguities()
+ * 
+ * Purpose:  Remove sequences in MSA that have more than <max_nambig> ambiguous residues.
+ */
+static int
+msa_remove_seqs_with_ambiguities(ESL_MSA *msa, int max_nambig, ESL_MSA **ret_new_msa)
+{
+  int  status;
+  int *useme;
+  int  i, j;
+  int  nambig;
+
+  ESL_MSA *new_msa;
+  ESL_SQ *sq;
+  sq = esl_sq_CreateDigital(msa->abc);
+
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+  for (i = 0; i < msa->nseq; i++) {
+    esl_sq_GetFromMSA(msa, i, sq);
+    nambig = 0;
+    for (j = 1; sq->dsq[j] != eslDSQ_SENTINEL; j++) {
+      if (esl_abc_XIsDegenerate(sq->abc, sq->dsq[j])) nambig++;
+    }
+    useme[i] = (nambig > max_nambig) ? FALSE : TRUE;
+    esl_sq_Reuse(sq);
+  }    
+
+  if((status = esl_msa_SequenceSubset(msa, useme, &new_msa)) != eslOK) esl_fatal("esl_msa_SequenceSubset() had a problem.");
+  free(useme);
+  esl_sq_Destroy(sq);
+  *ret_new_msa = new_msa;
+  return eslOK;
+
+ ERROR:
+  esl_fatal("msa_remove_seqs_above_maxlen() memory allocation error.");
+  return eslOK; /* NEVERREACHED */
+}
+
+/* number_columns
+ *                   
+ * Add annotation to an MSA numbering the columns, either all
+ * the columns (if <do_all>) or just non-gap #=GC RF columns.
+ * If do_all is FALSE, i_am_rf must be non-NULL.
+ */
+static int
+number_columns(ESL_MSA *msa, int do_all, int *i_am_rf, char *errbuf)
+{
+  int  status;
+  int i;
+  char *numstring;
+  char *tag;
+  int alen_ndigits;
+  int tagwidth;
+  int a,b,apos;
+  int bmin;
+  int pos2print;
+  int tagidx;
+
+  /* contract check */
+  if(!do_all && i_am_rf == NULL) ESL_XFAIL(eslEINVAL, errbuf, "number_columns() called but MSA has no #=GC RF annotation.");
+
+  alen_ndigits = int_ndigits(msa->alen);
+  tagwidth = do_all ? (3+alen_ndigits) : (5+alen_ndigits); /* "COL.X" or RFCOL.X" */
+
+  ESL_ALLOC(tag, sizeof(char) * (tagwidth+1));
+  ESL_ALLOC(numstring, sizeof(char) * (msa->alen+1));
+  numstring[msa->alen] = '\0';
+  tag[tagwidth] = '\0';
+  if(do_all) { 
+    bmin = 3;
+    tag[0] = 'C';
+    tag[1] = 'O';
+    tag[2] = 'L';
+  }
+  else { 
+    bmin = 5;
+    tag[0] = 'R';
+    tag[1] = 'F';
+    tag[2] = 'C';
+    tag[3] = 'O';
+    tag[4] = 'L';
+  }
+
+  for(a = 0; a < alen_ndigits; a++) { 
+    for(b = 0; b < alen_ndigits; b++) tag[b+bmin] = (a == b) ? 'X' : '.';
+    pos2print = 1;
+    for(apos = 1; apos <= msa->alen; apos++) { 
+      if(!do_all && (! i_am_rf[(apos-1)])) numstring[(apos-1)] = '.';
+      else numstring[(apos-1)] = get_char_digit_x_from_int(pos2print++, (alen_ndigits-a));
+	/*printf("called get_char_digit_x_from_int(%d, %d)\n",apos, (alen_ndigits-a));*/
+    }
+    /* If the tag already exists, free it's associated markup string. This is an awful hack. */
+    for (tagidx = 0; tagidx < msa->ngc; tagidx++) 
+      if (strcmp(msa->gc_tag[tagidx], tag) == 0) break;
+    if(tagidx != msa->ngc) { /* tag exists */
+      free(msa->gc[tagidx]);
+      msa->gc[tagidx] = NULL;
+    }
+
+    esl_msa_AppendGC(msa, tag, numstring);
+  }
+
+  ESL_ALLOC(numstring, sizeof(char) * (msa->alen + 1));
+  for(i = 0; i < msa->alen; i++) { 
+    numstring[i] = digit_to_char(i);
+  }
+  numstring[msa->alen] = '\0';
+  free(numstring);
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* digit_to_char
+ *                   
+ * Given a digit (0-9) return the character reprentation of it.
+ * There must be a better way to do this; oh well.
+ */
+static char
+digit_to_char(int digit) 
+{
+  if(digit == 0) return '0';
+  if(digit == 1) return '1';
+  if(digit == 2) return '2';
+  if(digit == 3) return '3';
+  if(digit == 4) return '4';
+  if(digit == 5) return '5';
+  if(digit == 6) return '6';
+  if(digit == 7) return '7';
+  if(digit == 8) return '8';
+  if(digit == 9) return '9';
+  else return '?';
+}
+
+/* Function: int_ndigits
+ * Returns: The number of digits in <i>.
+ */
+static int
+int_ndigits(int i)
+{
+  int n   = 0;
+  while(i > 0) { i/=10; n++; }
+  return n;
+}
+
+/* get_char_digit_x_from_int
+ *                   
+ * Given two integers <i> and <place> return the 
+ * character version of the <place>'th digit in <i>.
+ * Example <i> = 14378 <place> = 4 would return 7.
+ */
+static char
+get_char_digit_x_from_int(int i, int place)
+{
+  int n,a,divisor;
+  n = int_ndigits(i);
+
+  if(n < place) return digit_to_char(0);
+
+  divisor = 1;
+  for(a = 0; a < (place-1); a++) divisor *= 10;
+  /* subtract leading digits before the one we care about */
+  i %= (divisor*10);
+  return digit_to_char (i / divisor);
+}
+
+/* Function: read_seq_name_file
+ * Date:     EPN, Thu Jun  5 13:21:36 2008
+ * 
+ * Read a file listing sequence names to remove or keep.
+ * Store sequences in *ret_seqlist and return it.
+ * Each white-space delimited token is considered a 
+ * different sequence name. No checking is done in this 
+ * function, but rather in subsequent functions. 
+ * 
+ * Returns eslOK on success.
+ */
+int
+read_seq_name_file(char *filename, char *errbuf, char ***ret_seqlist, int *ret_seqlist_n)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  int             toklen;
+  int nalloc     = 10;
+  int chunksize  = 10;
+  char **seqlist = NULL;
+  int n = 0;
+  int i;
+  void *tmp;
+
+  ESL_ALLOC(seqlist, sizeof(char *) * nalloc);
+  if (esl_fileparser_Open(filename, NULL,  &efp) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "failed to open %s in read_seq_name_file\n", filename);
+  
+  while((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslEOF) {
+    if(n == nalloc) { nalloc += chunksize; ESL_RALLOC(seqlist, tmp, sizeof(char *) * nalloc); }
+    if((status = esl_strdup(tok, -1, &(seqlist[n++]))) != eslOK) ESL_FAIL(status, errbuf, "error in esl_strdup.");
+  }
+  esl_fileparser_Close(efp);
+  *ret_seqlist = seqlist;
+  *ret_seqlist_n = n;
+  return eslOK;
+
+ ERROR:
+  if(seqlist != NULL) {
+    for(i = 0; i < n; i++) free(seqlist[i]); 
+    free(seqlist);
+  }
+  return status;
+}
+
+
+/* Function: msa_keep_or_remove_seqs()
+ * 
+ * Purpose:  Given a list of <seqlist_n> sequences in <seqlist>, either remove those
+ *           sequences from msa, or remove all other sequences besides those from msa.
+ *           Create and return the new msa with only the specified seqs in <ret_new_msa>.
+ * 
+ * Returns: eslOK on success, eslEINVAL if a sequence name in seqlist does not exist in the msa.
+ * 
+ */
+static int
+msa_keep_or_remove_seqs(ESL_MSA *msa, char *errbuf, char **seqlist, int seqlist_n, int do_keep, int do_reorder, int nali, ESL_MSA **ret_new_msa)
+{
+  int  status;
+  int *useme;
+  int  i, ip, n;
+  int *order_all, *order_new;
+
+  ESL_MSA *new_msa;
+  if(msa->index == NULL) ESL_FAIL(eslEINVAL, errbuf, "ERROR, msa->index is NULL!");
+
+  ESL_ALLOC(useme,     sizeof(int) * msa->nseq);
+  ESL_ALLOC(order_all, sizeof(int) * msa->nseq);
+  ESL_ALLOC(order_new, sizeof(int) * seqlist_n);
+  esl_vec_ISet(order_all, msa->nseq, -1);
+
+  if(do_keep) esl_vec_ISet(useme, msa->nseq, FALSE);
+  else        esl_vec_ISet(useme, msa->nseq, TRUE); 
+
+  for(n = 0; n < seqlist_n; n++) { 
+    if((status = esl_keyhash_Lookup(msa->index, seqlist[n], -1, &i)) == eslENOTFOUND) 
+      ESL_FAIL(status, errbuf, "Error sequence %s does not exist in alignment %d", seqlist[n], nali);
+    useme[i] = do_keep ? TRUE : FALSE;
+    if(order_all[i] != -1) ESL_FAIL(eslEINVAL, errbuf, "ERROR sequence %s listed twice in a input list file.", seqlist[n]);
+    order_all[i] = n;
+  }
+
+  if(esl_vec_ISum(useme, msa->nseq) == 0) esl_fatal("No sequences remaining in the alignment!.");
+  if((status = esl_msa_SequenceSubset(msa, useme, &new_msa)) != eslOK) esl_fatal("esl_msa_SequenceSubset() had a problem.");
+  /* if do_keep, reorder to order of names in the list file */
+  if(do_keep && do_reorder) { 
+    ip = 0;
+    for(i = 0; i < msa->nseq; i++) { 
+      if(order_all[i] != -1) order_new[order_all[i]] = ip++;
+    }
+    if((status = reorder_msa(new_msa, order_new, errbuf)) != eslOK) return status;
+  }
+
+  free(useme);
+  free(order_all);
+  free(order_new);
+  *ret_new_msa = new_msa;
+  return eslOK;
+
+ ERROR:
+  esl_fatal("msa_keep_or_remove_seqs() memory allocation error.");
+  return eslOK; /* NEVERREACHED */
+}
+
+/* Function:  insert_x_pair_shared()
+ * Synopsis:  Calculate the fraction of inserts shared between of two aligned digital seqs.
+ * Incept:    EPN, Wed Jun 25 10:33:23 2008
+ *
+ * Purpose:   Returns the fraction of the total
+ *            number of inserts in both sequences that are shared.
+ *            An 'insert' is present in sequence s for consensus column 
+ *            (non-gap RF column) c if at least 1 residue exists between 
+ *            consensus column c and c+1. If sequence t also has an insert
+ *            between c and c+1, they share that insert. If that were the
+ *            only insert in either of the two sequences, then they would
+ *            share 1.0 fraction of inserts.
+ *            
+ * Args:      msa          - MSA, digitized, with RF annotation
+ *            i_am_rf      - [0..msa->alen-1], TRUE if apos is a nongap RF column, FALSE if not 
+ *            i            - index of seq 1
+ *            j            - indes of seq 2
+ *            cfirst       - first consensus position to consider
+ *            clast        - last consensus position to consider
+ *            opt_pshared  - optRETURN: pairwise insert identity, 0<=x<=1
+  *            opt_nshared  - optRETURN: # of inserts shared
+ *            opt_nins     - optRETURN: nins
+ *
+ * Returns:   <eslOK> on success. <opt_distance>, <opt_nid>, <opt_n>
+ *            contain the answers, for any of these that were passed
+ *            non-<NULL> pointers.
+ *
+ * Throws:    <eslEINVAL> if the strings are different lengths (not aligned).
+ */
+int
+insert_x_pair_shared(ESL_MSA *msa, int *i_am_rf, int i, int j, int cfirst, int clast, double *opt_pshared, int *opt_nshared, int *opt_nins)
+{
+  int     shared;               /* total shared inserts */
+  int     nins;                 /* number of inserts in either sequence */
+  int     apos;                 /* position in aligned seqs   */
+  int     rfpos;
+  int     insi, insj;
+  int     seen_insert = FALSE;
+  shared = nins = 0;
+  
+  rfpos = 0;
+  for(apos = 1; apos <= msa->alen; apos++)
+    {
+      if(! esl_abc_CIsGap(msa->abc, msa->rf[(apos-1)])) { 
+	rfpos++;
+	seen_insert = FALSE;
+      }
+      else { /* not a consensus column, an insert column */
+	insi = (! esl_abc_XIsGap(msa->abc, msa->ax[i][apos]));
+	insj = (! esl_abc_XIsGap(msa->abc, msa->ax[j][apos]));
+	if(rfpos >= cfirst && rfpos <= clast) { 
+	  if(insi && insj   && !seen_insert)   shared++;
+	  if((insi || insj) && !seen_insert) { nins++; seen_insert = TRUE; }
+	}
+      }
+    }
+  /*if (opt_pshared  != NULL)  *opt_pshared  = ( nins==0 ? 0. : (double) shared / (double) nins );*/
+  if (opt_pshared  != NULL)  *opt_pshared  = ( nins==0 ? 1. : (double) shared / (double) nins );
+  if (opt_nshared  != NULL)  *opt_nshared  = shared;
+  if (opt_nins     != NULL)  *opt_nins     = nins;
+  return eslOK;
+}
+
+
+/* Function:  insert_x_pair_shared_length()
+ * Synopsis:  Calculate the fraction of inserts shared between of two aligned digital seqs,
+ *            weighted by the length of the inserts.
+ * Incept:    EPN, Wed Jun 25 10:33:23 2008
+ *
+ * Purpose:   Returns the weighted fraction of the total
+ *            number of inserts in both sequences that are shared.
+ *            
+ * Args:      msa          - MSA, digitized, with RF annotation
+ *            i            - index of seq 1
+ *            j            - indes of seq 2
+ *            cfirst       - first consensus position to consider
+ *            clast        - last consensus position to consider
+ *            opt_pshared  - optRETURN: pairwise insert identity, 0<=x<=1
+ *            opt_nshared  - optRETURN: weighted # inserts shared
+ *            opt_nins     - optRETURN: nins, number of columns with an insert
+ *
+ * Returns:   <eslOK> on success. <opt_distance>, <opt_nid>, <opt_n>
+ *            contain the answers, for any of these that were passed
+ *            non-<NULL> pointers.
+ *
+ * Throws:    <eslEINVAL> if the strings are different lengths (not aligned).
+ */
+int
+insert_x_pair_shared_length(ESL_MSA *msa, int *i_am_rf, int i, int j, int cfirst, int clast, double *opt_pshared, double *opt_nshared, int *opt_nins)
+{
+  double  shared;               /* weighted shared inserts */
+  int     nins;                 /* number of inserts in either sequence */
+  int     apos;                 /* position in aligned seqs   */
+  int     rfpos;
+  int     leni, lenj;
+  shared = nins = leni = lenj = 0;
+  
+  rfpos = 0;
+  for(apos = 1; apos <= msa->alen; apos++)
+    {
+      if(i_am_rf[(apos-1)]) { 
+	rfpos++;
+	if(rfpos >= cfirst && rfpos <= clast) { 
+	  if((leni + lenj) > 0) { 
+	    nins++;
+	    if(leni >= lenj) shared += (double) lenj / (double) leni;
+	    else             shared += (double) leni / (double) lenj;
+	  }
+	  leni = lenj = 0;
+	}
+      }
+      else { /* not a consensus column, an insert column */
+	if(! esl_abc_XIsGap(msa->abc, msa->ax[i][apos])) leni++;
+	if(! esl_abc_XIsGap(msa->abc, msa->ax[j][apos])) lenj++;
+      }
+    }
+  /*if (opt_pshared  != NULL)  *opt_pshared  = ( nins==0 ? 0. : (double) shared / (double) nins );*/
+  if (opt_pshared  != NULL)  *opt_pshared  = ( nins==0 ? 1. : (double) shared / (double) nins );
+  if (opt_nshared  != NULL)  *opt_nshared  = shared;
+  if (opt_nins     != NULL)  *opt_nins     = nins;
+  return eslOK;
+}
+
+/* Function:  insert_x_diffmx()
+ * Synopsis:  NxN insert difference matrix for N aligned digital seqs.         
+ * Incept:    EPN, Wed Jun 25 10:25:01 2008
+ *
+ * Purpose:   For each pair of sequences calculates the fraction of number
+ *            of inserts that are different between the two sequences.
+ *            An 'insert' is present in sequence s for consensus column 
+ *            (non-gap RF column) c if at least 1 residue exists between 
+ *            consensus column c and c+1. If sequence t also has an insert
+ *            between c and c+1, they share that insert. If that were the
+ *            only insert in either of the two sequences, then they would
+ *            share 1.0 fractional insert id, and 1.0 - 1.0 = 0.0 fractional 
+ *            insert difference, thus the insert diff mx entry between 
+ *            seq s and t would be 0.0.
+ *
+ * Args:      go - command-line options
+ *            errbuf - for printing error messages
+ *            msa   - aligned dsq's, [0..N-1][1..alen]                  
+ *            do_length_weight - weight insert similarity by length of inserts
+ *            do_only_internal_inserts - TRUE to only count inserts that are at positions
+ *                                       internal to both seq i, j (don't count those truncated off in either seq)
+ *            ret_D - RETURN: NxN matrix of fractional differences
+ *            
+ * Returns:   <eslOK> on success, and <ret_D> contains the difference
+ *            matrix; caller is obligated to free <D> with 
+ *            <esl_dmatrix_Destroy()>. 
+ *
+ * Throws:    <eslEINVAL> if a seq has a different
+ *            length than others. On failure, <ret_D> is returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+insert_x_diffmx(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa, int rflen, int *i_am_rf, int do_length_weight, int do_only_internal_inserts, ESL_DMATRIX **ret_D)
+{
+  int status;
+  ESL_DMATRIX *D = NULL;
+  int i,j;
+  int N = msa->nseq;
+  int nshared;
+  double nshared_len;
+  int nins;
+  int *firstA, *lastA; /* [0..i..nseq-1] first and last consensus column occupied by seq i, only used if do_only_internal_inserts == TRUE */
+  int ifirst, ilast, jfirst, jlast;
+
+  if(msa->rf == NULL)                  ESL_FAIL(eslEINVAL, errbuf, "No #=GC RF markup in alignment.");
+  if(! (msa->flags & eslMSA_DIGITAL))  ESL_FAIL(eslEINVAL, errbuf, "insert_x_diffmx() MSA is not digitized.\n");
+
+  if (( D = esl_dmatrix_Create(N,N) ) == NULL) esl_fatal(errbuf);
+  if ((status = determine_first_last_consensus_columns(msa, errbuf, i_am_rf, rflen, &firstA, &lastA)) != eslOK) return status;
+
+  /* TEMP  for (i = 0; i < N; i++) printf("i: %4d %4d %4d\n", i, firstA[i], lastA[i]); */
+
+  for (i = 0; i < N; i++)
+    {
+      D->mx[i][i] = 0.;
+      ifirst = do_only_internal_inserts ? firstA[i] : 0;
+      ilast  = do_only_internal_inserts ? lastA[i]  : rflen;
+      for (j = i+1; j < N; j++)
+	{
+	  jfirst = do_only_internal_inserts ? firstA[j] : 0;
+	  jlast  = do_only_internal_inserts ? lastA[j]  : rflen;
+	  if(do_length_weight) { 
+	    status = insert_x_pair_shared_length(msa, i_am_rf, i, j, ESL_MAX(ifirst, jfirst), ESL_MIN(ilast, jlast), &(D->mx[i][j]), &nshared_len, &nins);
+	    /* if(esl_opt_GetBoolean(go, "--verbose")) printf("D %4d %4d %.3f %8.3f of %4d\n", i, j, 1. - D->mx[i][j], nshared_len, nins); */
+	  }
+	  else { 
+	    status = insert_x_pair_shared(msa, i_am_rf, i, j, ESL_MAX(ifirst, jfirst), ESL_MIN(ilast, jlast), &(D->mx[i][j]), &nshared, &nins);
+	    /* if(esl_opt_GetBoolean(go, "--verbose")) printf("D %4d %4d %.3f %4d of %4d\n", i, j, 1. - D->mx[i][j], nshared, nins); */
+	  }
+	  D->mx[i][j] = 1. - D->mx[i][j]; /* convert from id to distance */
+	  if (status != eslOK) ESL_XEXCEPTION(status, "Pairwise insert identity calculation failed at seqs %d,%d\n", i,j);
+	  D->mx[j][i] =  D->mx[i][j];
+	}
+      /* if(esl_opt_GetBoolean(go, "--verbose")) printf("\n"); */
+    }
+  if (ret_D != NULL) *ret_D = D; else esl_dmatrix_Destroy(D);
+  return eslOK;
+
+ ERROR:
+  if (D     != NULL)  esl_dmatrix_Destroy(D);
+  if (ret_D != NULL) *ret_D = NULL;
+  return status;
+}
+
+/* Function: MSADivide()
+ * From Infernal's cmbuild.c
+ * EPN, Wed Mar 21 17:26:39 2007
+ * 
+ * Purpose:  Given an MSA and a distance matrix, divide the MSA it into 
+ *           multiple MSAs, each with a different cluster of the original 
+ *           sequences. Where clusters are defined by single linkage
+ *           clustering based on the distance matrix.
+ *
+ *           Different modes:
+ *           
+ *        1. if(do_mindiff): define clusters
+ *           such that we maximize the number of clusters while
+ *           satisfying: minimum fractional difference b/t any 
+ *           2 seqs in different clusters >= 'mindiff'. 
+ *           The contract states that mindiff > 0. in this case.
+ *           
+ *        2. if(do_nc): define clusters 
+ *           such that we have exactly 'target_nc' clusters by
+ *           searching for the 'mindiff' that gives exactly
+ *           'target_nc' clusters. (We guarantee we can do this
+ *           by rounding 'diff' fractional difference values b/t
+ *           seqs to nearest 0.001). 
+ *
+ *        3. if(do_nsize): define clusters 
+ *           such that we have 1 cluster that has at least nsize
+ *           sequences in it by searching for the 'mindiff' that 
+ *           achieves that.
+ *
+ * Args:    
+ * ESL_MSA *mmsa        - the master MSA, we cluster the seqs in this guy
+ *                        and build a new MSA from each cluster
+ * ESL_DMATRIX *D;      - the distance matrix
+ * int     do_mindiff   - TRUE (mode 1): satisfy clusters are at least mindiff different
+ * int     do_nc        - TRUE (mode 2): set mindiff such that we get exactly target_nc clusters
+ * int     do_nsize     - TRUE (mode 3): set mindiff such that we get 1 cluster with nsize seqs
+ * float   mindiff      - the minimum fractional difference allowed between 2 seqs of different clusters
+ *                        (0. indicates mode 2 or 3) 
+ * int     target_nc    - if(do_nc) number of clusters to define, else irrelevant
+ * int     target_nsize - if(do_nsize) min size of largets cluster, else irrelevant
+ * int     *ret_num_msa - number of MSAs in ret_MSA
+ * ESL_MSA  ***ret_cmsa - new MSAs, one for each cluster
+ * ESL_MSA  *ret_xsize  - max size of a cluster
+ * char     *errbuf     - buffer for error messages
+ *           
+ * Return: ret_cmsa (alloc'ed here) and ret_num_msa
+ */
+int 
+MSADivide(ESL_MSA *mmsa, ESL_DMATRIX *D, int do_mindiff, int do_nc, int do_nsize, float mindiff, int target_nc,
+	  int target_nsize, int *ret_num_msa, ESL_MSA ***ret_cmsa, int *ret_xsize, char *errbuf)
+{
+  int   status;        /* Easel status code */
+  ESL_MSA **cmsa = NULL;/* the new MSAs we're creating from clusters of seqs in mmsa */
+  int   i;             /* counter over sequences */
+  int   m;             /* counter over new MSAs */
+  int   n;             /* counter over tree nodes */
+  ESL_TREE    *T = NULL;/* the tree, created by Single-Linkage Clustering */
+  double *diff = NULL; /* [0..T->N-2], diff[n]= min distance between any leaf in right and
+		        * left subtree of node n of tree T */
+  double *minld = NULL;/* [0..T->N-2], min dist from node to any taxa in left  subtree */
+  double *minrd = NULL;/* [0..T->N-2], min dist from node to any taxa in right subtree */
+  int     nc;          /* number of clusters/MSAs  */
+  int    *clust = NULL;/* [0..T->N-1], cluster number (0..nc-1) this seq is in */
+  int    *csize = NULL;/* [0..nc-1], size of each cluster */
+  int   **useme = NULL;/* [0.m.nc-1][0.i.N] TRUE to use seq i in new MSA m, FALSE not to */
+  int     best;        /* 'best' node, returned by select_node() */
+  int     xsize;       /* size of cluster under 'best' node (largest cluster) */
+
+  /* Contract check */
+  if((do_nc + do_mindiff + do_nsize) != 1) ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() exactly 1 of do_nc, do_mindiff, do_nsize must be TRUE.");
+  if( do_nc && target_nc == 0)             ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() target_nc is 0 but do_nc is TRUE!");
+  if( do_nsize && target_nsize == 0)       ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() target_nsize is 0 but do_nsize is TRUE!");
+  if( do_mindiff && mindiff <= 0.)         ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() mindiff is <= 0. but do_mindiff is TRUE!");
+  if( do_mindiff && target_nc != 0)        ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() do_mindiff is TRUE, but target_nc != 0");
+  if( do_mindiff && target_nsize != 0)     ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() do_mindiff is TRUE, but target_nsize != 0");
+  /* mmsa must be digital */
+  if(!(mmsa->flags & eslMSA_DIGITAL))                 ESL_FAIL(eslEINCOMPAT, errbuf, "MSADivide() MSA is not digital.");
+
+  if(do_nc || do_nsize) mindiff = 0.;
+
+  /* Infer tree by single linkage clustering given the distance matrix */
+  if((status = esl_tree_SingleLinkage(D, &T)) != eslOK)                        ESL_FAIL(status, errbuf, "esl_tree_SingleLinkage() error, status: %d", status);
+  if((status = esl_tree_SetTaxaParents(T)) != eslOK)                           ESL_FAIL(status, errbuf, "esl_tree_SetTaxaParentse() error, status: %d", status);
+  /*esl_tree_WriteNewick(stdout, T);*/
+  if((status = esl_tree_Validate(T, errbuf) != eslOK)) return status;
+  
+  /* determine the diff values: 
+   * (use: n_child > n, unless n's children are taxa)
+   * diff[n] is minimum distance between any taxa (leaf) in left subtree of 
+   * n to any taxa in right subtree of n. 
+   */
+  ESL_ALLOC(diff,  (sizeof(double) * (T->N - 1)));  /* one for each node */
+  ESL_ALLOC(minld, (sizeof(double) * (T->N - 1))); 
+  ESL_ALLOC(minrd, (sizeof(double) * (T->N - 1))); 
+  for (n = (T->N-2); n >= 0; n--) {
+    minld[n] = T->ld[n] + ((T->left[n]  > 0) ? (minld[T->left[n]])  : 0);
+    minrd[n] = T->rd[n] + ((T->right[n] > 0) ? (minrd[T->right[n]]) : 0);
+    diff[n]  = minld[n] + minrd[n];
+    diff[n] *= 1000.; 
+    diff[n]  = (float) ((int) diff[n]);
+    diff[n] /= 1000.; 
+    /*printf("diff[n:%d]: %f\n", n, diff[n]);*/
+  }
+  free(minld); minld = NULL;
+  free(minrd); minrd = NULL;
+  /*for (n = 0; n < (T->N-1); n++)
+    printf("diff[n:%d]: %f\n", n, diff[n]);
+    for (n = 0; n < (T->N-1); n++)
+    printf("left[n:%d]: %d right[n:%d]: %d\n", n, T->left[n], n, T->right[n]);*/
+  
+  if(do_mindiff) { /* Mode 1 */
+    /* Define clusters that are at least mindiff different
+     * from each other. */
+    if((status = select_node(T, diff, mindiff, &clust, &nc, &xsize, &best, errbuf)) != eslOK) return status;
+    printf("# Alignment split into %d clusters\n", nc);
+    printf("# Maximum identity b/t any 2 seqs in different clusters: %.2f\n", (1.-mindiff));
+    printf("# Largest cluster contains %d sequences.\n", xsize);
+    printf("#\n");
+  }
+  else if (do_nc) { /* Mode 2, do_nc == TRUE, mindiff was set to 0.0 above */
+    /* Find the minimum fractional difference (mindiff) that 
+     * gives exactly target_nc clusters, also define clusters
+     * based on that mindiff, this is all done with find_mindiff(),
+     * which does a binary search for mindiff, we're guaranteed to 
+     * find exactly target_nc clusters b/c diff values are rounded
+     * to nearest 0.001. */
+    if(target_nc > (T->N)) target_nc = T->N; /* max num clusters is num seqs */
+    if((status = find_mindiff(T, diff, FALSE, target_nc, &clust, &nc, &xsize, &best, &mindiff, errbuf)) != eslOK) return status;
+    printf("# Alignment split into %d clusters.\n", nc);
+    printf("# Maximum identity b/t any 2 seqs in different clusters: %.2f\n", (1.-mindiff));
+    printf("# Largest cluster contains %d sequences.\n", xsize);
+    printf("#\n");
+  }
+  else { /* Mode 3, do_nsize == TRUE, mindiff was set to 0.0 above */
+    /* Find the minimum fractional difference (mindiff) that 
+     * gives 1 cluster with size of at least <target_nsize> sequences
+     * based on that mindiff, this is all done with find_mindiff(),
+     * which does a binary search for mindiff.
+     */
+    if(target_nsize > (T->N)) target_nsize = T->N; /* max num clusters is num seqs */
+    if((status = find_mindiff(T, diff, TRUE, target_nsize, &clust, &nc, &xsize, &best, &mindiff, errbuf)) != eslOK) return status;
+    printf("# Alignment split into %d clusters.\n", nc);
+    printf("# Largets cluster contains %d sequences.\n", xsize);
+    printf("# Maximum identity b/t any 2 seqs in different clusters: %.2f\n", (1.-mindiff));
+    printf("#\n");
+  }
+  /* Determine the size of each cluster */
+  ESL_ALLOC(csize, (sizeof(int) * (nc)));
+  esl_vec_ISet(csize, nc, 0);
+  for(i = 0; i < mmsa->nseq; i++)
+    csize[clust[i]]++;
+  
+  /* Create one new MSA for each cluster,
+   * if(do_orig): keep the original MSA as cmsa[nc] */
+  ESL_ALLOC(cmsa, (sizeof(ESL_MSA *) * (nc)));
+  for(m = 0; m < nc; m++) cmsa[m] = NULL;
+
+  ESL_ALLOC(useme, (sizeof(int *) * (nc+1)));
+  for(m = 0; m <= nc; m++) {
+    ESL_ALLOC(useme[m], (sizeof(int)) * mmsa->nseq);
+    if(m < nc) esl_vec_ISet(useme[m], mmsa->nseq, FALSE);
+    else       esl_vec_ISet(useme[m], mmsa->nseq, TRUE); /* keep all seqs in cmsa[nc]*/
+  }
+  
+  for(i = 0; i < mmsa->nseq; i++)
+    if(clust[i] != -1) 
+      useme[clust[i]][i] = TRUE;
+  printf("#   idx    nseq\n");
+  printf("#  ----  ------\n");
+  for(m = 0; m < nc; m++) {
+    if(esl_vec_ISum(useme[m], mmsa->nseq) == 0) esl_fatal("No sequences in cluster %d\n"); 
+   if((status = esl_msa_SequenceSubset(mmsa, useme[m], &(cmsa[m]))) != eslOK) ESL_FAIL(status, errbuf, "MSADivide(), esl_msa_SequenceSubset error, status: %d.", status);
+    printf("   %4d  %6d\n", m+1, cmsa[m]->nseq);
+    free(useme[m]);
+  }
+  printf("\n");
+
+  free(useme[nc]);
+  free(useme);
+  
+  *ret_num_msa = nc;
+  *ret_cmsa = cmsa;
+  *ret_xsize = xsize;
+  
+  esl_tree_Destroy(T);
+  free(diff);
+  diff = NULL;
+
+  if(clust != NULL)  free(clust);
+  if(csize != NULL)  free(csize);
+  return eslOK;
+  
+ ERROR: 
+  if(diff  != NULL) free(diff);
+  if(minld != NULL) free(minld);
+  if(minrd != NULL) free(minrd);
+  if(clust != NULL) free(clust);
+  if(csize != NULL) free(csize);
+  if(cmsa  != NULL) {
+    for(m = 0; m < nc; m++)
+      if(cmsa[m] != NULL) esl_msa_Destroy(cmsa[m]);
+    free(cmsa);
+  }
+  return status;
+}
+
+/* Function: select_node()
+ * EPN, Fri Mar 23 08:48:37 2007 
+ * Adapted from SRE's select_node() in maketestset.c originally written
+ * for the PROFMARK HMMER benchmark.
+ * 
+ * 
+ * Purpose:  Define clusters of the taxa (seqs) in the tree such
+ *           that minimum disparity b/t any 2 seqs in different 
+ *           clusters is greater than <mindiff> and the number of
+ *           clusters is maximized. <ret_best> is the index of the node
+ *           of the tree under which the largest cluster belongs.
+ *           <ret_nc> is the number of clusters after clustering, 
+ *           <ret_clust> is an array [0..T->N-1] specifying which
+ *           cluster each taxa belongs to.
+ *           
+ *           For high disparities, this cluster may contain all
+ *           the sequences, and we'll return the root node (0).
+ *
+ * Args:    
+ * ESL_TREE *T        - the tree
+ * double   *diff     - [0..T->N-2]: for each node of the tree, the minimum
+ *                      distance (sum of branch lengths) from any taxa (leaf)
+ *                      in left subtree to any taxa in right subtree.
+ * double    mindiff  - (see description above)
+ * int     **ret_clust- [0..T->N-1] cluster number this seq is in, alloc'ed, filled here
+ * int      *ret_nc   - number of clusters
+ * int      *ret_xsize- size of largest cluster
+ * int      *ret_best - RETURN: index of node of tree under which largest cluster belongs (see Purpose).
+ * char     *errbuf   - buffer for error messages
+ *
+ * Returns: node index (as explained in Purpose)
+ */
+static int
+select_node(ESL_TREE *T, double *diff, double mindiff, int **ret_clust, int *ret_nc, int *ret_xsize, int *ret_best, char *errbuf)
+{
+  int status;     /* Easel status code */
+  ESL_STACK *ns1; /* stack for traversing tree */
+  ESL_STACK *ns2; /* another stack for traversing tree */
+  int c;	  /* counter for clusters */
+  int best;       /* index of current best node */
+  int maxsize;    /* size of cluster for best node */
+  int n, np;      /* counters over tree nodes */
+  int *clust;     /* [1..T->N-1] cluster number this seq is in */
+
+  /*printf("in selec_node mindiff: %f T->N: %d\n", mindiff, T->N);*/
+  /* set tree cladesizes if not already set */
+  if(T->cladesize == NULL) 
+    if((status = esl_tree_SetCladesizes(T)) != eslOK) ESL_FAIL(status, errbuf, "select_node(), esl_tree_SetCladeSizes error, status: %d.", status);
+
+  ESL_ALLOC(clust, (sizeof(int) * T->N));
+  esl_vec_ISet(clust, T->N, 0);
+
+  if((ns1 = esl_stack_ICreate()) == NULL) ESL_FAIL(status, errbuf, "select_node(), failed to create a stack, probably out of memory, status: %d.", status);
+  if((ns2 = esl_stack_ICreate()) == NULL) ESL_FAIL(status, errbuf, "select_node(), failed to create a stack, probably out of memory, status: %d.", status);
+
+  /* push root on stack to start */
+  if((status = esl_stack_IPush(ns1, 0)) != eslOK) ESL_FAIL(status, errbuf, "select_node(), failed to push onto a stack, probably out of memory, status: %d.", status);	
+  maxsize  = 0;
+  best     = 0;
+  c        = 0;
+  while (esl_stack_IPop(ns1, &n) != eslEOD) {
+    if ((n == 0 || diff[T->parent[n]] > mindiff) &&
+	diff[n] <= mindiff) { /* we're at a cluster */
+      if (T->cladesize[n] > maxsize) {
+	maxsize = T->cladesize[n];
+	best = n;
+      }
+      /* determine all taxa in the clade rooted at n*/
+      esl_stack_IPush(ns2, n);	
+      while (esl_stack_IPop(ns2, &np) != eslEOD) {
+	/*printf("np: %d T->left[np]: %d\n", np, T->left[np]);*/
+	if(T->left[np]  <= 0) clust[(-1*T->left[np])]  = c;
+	else { if((status = esl_stack_IPush(ns2, T->left[np])) != eslOK) ESL_FAIL(status, errbuf, "select_node(), failed to push onto a stack, probably out of memory, status: %d.", status); }
+	if(T->right[np] <= 0) clust[(-1*T->right[np])]  = c;
+	else { if((status = esl_stack_IPush(ns2, T->right[np])) != eslOK) ESL_FAIL(status, errbuf, "select_node(), failed to push onto a stack, probably out of memory, status: %d.", status); }
+      }
+      c++;
+    }
+    else {		/* we're not a cluster, keep traversing */
+      /*printf("n: %d T->left[n]: %d\n", n, T->left[n]);*/
+      if(T->left[n]  <= 0) clust[(-1*T->left[n])]  = c++; /* single seq with its own cluster */
+      else { if((status = esl_stack_IPush(ns1, T->left[n])) != eslOK) ESL_FAIL(status, errbuf, "select_node(), failed to push onto a stack, probably out of memory, status: %d.", status); }
+      if(T->right[n] <= 0) clust[(-1*T->right[n])] = c++; /* single seq with its own cluster */
+      else { if((status = esl_stack_IPush(ns1, T->right[n])) != eslOK) ESL_FAIL(status, errbuf, "select_node(), failed to push onto a stack, probably out of memory, status: %d.", status); }
+    }
+  }
+  esl_stack_Destroy(ns1);
+  esl_stack_Destroy(ns2);
+  *ret_nc = c;
+  *ret_clust = clust;
+  *ret_xsize = maxsize;
+  *ret_best  = best;
+  /*printf("nc: %d(%d) best: %d maxsize: %d nc: %d mindiff: %.3f\n\n", *ret_nc, c, best, maxsize, c, mindiff);
+    for(n = 0; n < T->N; n++) printf("clust[%d]: %d\n", n, clust[n]);*/
+  return eslOK;
+
+ ERROR: 
+  if(clust != NULL) free(clust);
+  ESL_FAIL(status, errbuf, "select_node(), memory allocation error, status: %d.", status); 
+}
+
+
+/* Function: find_mindiff()
+ * EPN, Fri Mar 23 18:59:42 2007
+ * 
+ * Purpose:  Given a tree resulting from single linkage clustering,
+ *           find the min fractional difference (mindiff) that when used to
+ *           define clusters (such that no seq in cluster A is less
+ *           than mindiff different than any seq in cluster B), 
+ *           gives either (A) (if(do_nc)) number of clusters >= target or
+ *           (B) (if(do_nsize)) >= 1 cluster with >= target sequences
+ *
+ * Args:    
+ * ESL_TREE *T        - the tree
+ * double   *diff     - [0..T->N-2]: for each node of the tree, the minimum
+ *                      distance (sum of branch lengths) from any taxa (leaf)
+ *                      in left subtree to any taxa in right subtree.
+ * int      do_nsize  - TRUE  to find mindiff that gives >= 1 cluster with <target> seqs
+ *                      FALSE to find mindiff that gives <target> clusters
+ * int      target    - number of clusters (! if(do_nsize)) we want, or min size of
+ *                      biggest cluster (if(do_nsize))
+ * int     **ret_clust- [0..T->N-1] cluster number this seq is in, alloc'ed, filled here
+ * int      *ret_nc   - number of clusters
+ * int      *ret_xsize- size of largest cluster
+ * int      *ret_best - cluster idx of largest cluster
+ * int      *ret_mindiff - mindiff that achieves target
+ * char     *errbuf   - buffer for error messages
+ *
+ * Returns: fractional difference (as explained in Purpose)
+ */
+static float
+find_mindiff(ESL_TREE *T, double *diff, int do_nsize, int target, int **ret_clust, int *ret_nc, int *ret_xsize, int *ret_best, float *ret_mindiff, char *errbuf)
+{
+  int   status;
+  float high_diff  = 1.0;
+  float low_diff   = 0.0;
+  int   high       = 0;
+  int   low        = 0;
+  float mindiff    = 0.5;
+  int   curr_nc    = -1;
+  int   curr_xsize = -1;
+  int   curr       = -1;
+  int   curr_best  = -1;
+  int   keep_going = TRUE;
+  float thresh     = 0.001;
+  int  *clust      = NULL;
+
+  /* Contract check */
+  if(target > T->N) ESL_FAIL(eslEINCOMPAT, errbuf, "find_mindiff(), desired target is greater than number of seqs in the tree");
+
+  while(keep_going) {
+    if(clust != NULL) free(clust);
+    if((status = select_node(T, diff, mindiff, &clust, &curr_nc, &curr_xsize, &curr_best, errbuf)) != eslOK) return status;
+    curr = do_nsize ? curr_xsize : curr_nc;
+    if(((!do_nsize) && (curr < target)) || ((do_nsize) && (curr >= target))) {
+      high_diff  = mindiff;
+      high       = curr;
+      /*printf("LOWER   curr: %d mindiff: %f low: %f (%d) high: %f (%d)\n", curr, mindiff, low_diff, low, high_diff, high);*/
+      mindiff   -= (mindiff - low_diff) / 2.;
+      if((fabs(high_diff-0.) < thresh) && (fabs(low-0.) < thresh))  keep_going = FALSE; 
+      /* stop, high and low have converged at 0. */
+    }
+    else {/* if(do_nsize) curr_nc > target_nc, else if(!do_nsize) curr_nc >= target_nc */
+      low_diff   = mindiff;
+      low        = curr;
+      /*printf("GREATER curr: %d mindiff: %f low: %f (%d) high: %f (%d)\n", curr, mindiff, low_diff, low, high_diff, high);*/
+      mindiff   += (high_diff - mindiff) / 2.;
+      if(fabs(high_diff-low_diff) < thresh)  keep_going = FALSE; /* stop, high and low have converged */
+    }
+  }
+  if(do_nsize) { 
+    if(curr < target) { /* we couldn't reach our target in search due to precision */
+      if(high >= target) { /* we could reach it at high */
+	mindiff = high_diff;
+	if((status = select_node(T, diff, mindiff, &clust, &curr_nc, &curr_xsize, &curr_best, errbuf)) != eslOK) return status;
+      }
+      else { /* we couldn't reach our threshold, this shouldn't happen */
+	ESL_FAIL(eslEINVAL, errbuf,"Error in find_mindiff(), even with mindiff of %.5f can't produce cluster of size: %d\n", mindiff, target);
+      }
+    }
+  }
+  else { /* ! do_nsize, trying to achieve <target> clusters */
+    /* it's possible we can't reach our target, if so, set mindiff as minimum value that gives 
+     * less than target clusters. */
+    if(curr != target) {
+      /*printf("targ: %d curr: %d low: %d (%f) high: %d (%f)\n", target, curr, low, low_diff, high, high_diff);*/
+      if(high < target) {
+	mindiff = high;
+	if((status = select_node(T, diff, mindiff, &clust, &curr_nc, &curr_xsize, &curr_best, errbuf)) != eslOK) return status;
+      }
+      else
+	while(high > target) {
+	  high += thresh;
+	  if(high > 1.0)  ESL_FAIL(eslEINCONCEIVABLE, errbuf, "find_mindiff(), mindiff has risen above 1.0");
+	  mindiff = high;
+	  if((status = select_node(T, diff, mindiff, &clust, &curr_nc, &curr_xsize, &curr_best, errbuf)) != eslOK) return status;
+	  high = curr_nc;
+	}
+    }
+  }
+  /*printf("FINAL mindiff: %f\n", mindiff);  */
+  *ret_nc      = curr_nc;
+  *ret_clust   = clust;
+  *ret_xsize   = curr_xsize;
+  *ret_best    = curr_best;
+  *ret_mindiff = mindiff;
+
+  return eslOK;
+}
+
+
+/* determine_first_last_consensus_columns
+ *                   
+ * Given an MSA, determine the first and last consensus columns
+ * occupied by each sequence
+ */
+static int determine_first_last_consensus_columns(ESL_MSA *msa, char *errbuf, int *i_am_rf, int rflen, int **ret_fA, int **ret_lA)
+{
+  int status;
+  int *fA = NULL;
+  int *lA = NULL;
+  int rfpos = 0;
+  int apos = 0;
+  int i;
+
+  /* contract check */
+  if(msa->rf == NULL) { status = eslEINVAL; goto ERROR; }
+
+  /* determine the first and last occupied consensus position in each sequence */
+  ESL_ALLOC(fA, sizeof(int) * msa->nseq);
+  ESL_ALLOC(lA, sizeof(int) * msa->nseq);
+
+  esl_vec_ISet(lA, msa->nseq, 0);
+  esl_vec_ISet(fA, msa->nseq, rflen);
+  /* this could be way more efficient */
+  for(i = 0; i < msa->nseq; i++) { 
+    rfpos = 0;
+    for(apos = 0; apos < msa->alen; apos++) {
+      if(i_am_rf[apos]) { /* apos is a consensus position */
+	rfpos++;
+	if(! esl_abc_XIsGap(msa->abc, msa->ax[i][(apos+1)])) { /* rfpos for seq i is not a gap */
+	  fA[i] = ESL_MIN(fA[i], rfpos);
+	  lA[i] = ESL_MAX(lA[i], rfpos);
+	}
+      }
+    }
+  }
+  *ret_fA   = fA;
+  *ret_lA   = lA;
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "determine_first_last_consensus_columns(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function:  dst_nongap_XPairId()
+ * Synopsis:  Pairwise identity of two aligned digital seqs.
+ *            Differs from esl_dst_XPairId() in that denominator is 
+ *            seq identity is number of columns that are non-gap in both 
+ *            sequences (instead of length of the shorter of the two seqs).
+ *            
+ * Incept:    EPN, Fri Jun 27 15:07:44 2008
+ *
+ * Args:      abc          - digital alphabet in use
+ *            ax1          - aligned digital seq 1
+ *            ax2          - aligned digital seq 2
+ *            opt_pid      - optRETURN: pairwise identity, 0<=x<=1
+ *            opt_nid      - optRETURN: # of identities
+ *            opt_n        - optRETURN: denominator MIN(len1,len2)
+ *
+ * Returns:   <eslOK> on success. <opt_distance>, <opt_nid>, <opt_n>
+ *            contain the answers, for any of these that were passed
+ *            non-<NULL> pointers.
+ *
+ * Throws:    <eslEINVAL> if the strings are different lengths (not aligned).
+ */
+int
+dst_nongap_XPairId(const ESL_ALPHABET *abc, const ESL_DSQ *ax1, const ESL_DSQ *ax2, 
+		   double *opt_distance, int *opt_nid, int *opt_n)
+{
+  int     status;
+  int     idents;               /* total identical positions  */
+  int     len;                  /* number of nongap colns in both seqs */
+  int     i;                    /* position in aligned seqs   */
+
+  idents = len = 0;
+  for (i = 1; ax1[i] != eslDSQ_SENTINEL && ax2[i] != eslDSQ_SENTINEL; i++) 
+    {
+      if (esl_abc_XIsCanonical(abc, ax1[i]) && esl_abc_XIsCanonical(abc, ax2[i])) { 
+	len++;
+	if(ax1[i] == ax2[i]) idents++;
+      }
+    }
+
+  if (ax1[i] != eslDSQ_SENTINEL || ax2[i] != eslDSQ_SENTINEL) 
+    ESL_XEXCEPTION(eslEINVAL, "strings not same length, not aligned");
+
+  if (opt_distance != NULL)  *opt_distance = ( len==0 ? 0. : (double) idents / (double) len );
+  if (opt_nid      != NULL)  *opt_nid      = idents;
+  if (opt_n        != NULL)  *opt_n        = len;
+  return eslOK;
+
+ ERROR:
+  if (opt_distance != NULL)  *opt_distance = 0.;
+  if (opt_nid      != NULL)  *opt_nid      = 0;
+  if (opt_n        != NULL)  *opt_n        = 0;
+  return status;
+}
+
+
+/* Function:  dst_nongap_XDiffMx()
+ * Synopsis:  NxN difference matrix for N aligned digital seqs.         
+ *            Differs from esl_dst_XDiffMx() in that denominator for
+ *            seq identity is number of columns that are non-gap in both 
+ *            sequences (instead of length of the shorter of the two seqs).
+ *            
+ * Incept:    EPN, Fri Jun 27 15:10:53 2008
+ *
+ * Args:      abc   - digital alphabet in use
+ *            ax    - aligned dsq's, [0..N-1][1..alen]                  
+ *            N     - number of aligned sequences
+ *            ret_D - RETURN: NxN matrix of fractional differences
+ *            
+ * Returns:   <eslOK> on success, and <ret_D> contains the difference
+ *            matrix; caller is obligated to free <D> with 
+ *            <esl_dmatrix_Destroy()>. 
+ *
+ * Throws:    <eslEINVAL> if a seq has a different
+ *            length than others. On failure, <ret_D> is returned <NULL>
+ *            and state of inputs is unchanged.
+ */
+int
+dst_nongap_XDiffMx(const ESL_ALPHABET *abc, ESL_DSQ **ax, int N, ESL_DMATRIX **ret_D)
+{
+  int status;
+  ESL_DMATRIX *D = NULL;
+  int i,j;
+
+  if (( D = esl_dmatrix_Create(N,N) ) == NULL) goto ERROR;
+  
+  for (i = 0; i < N; i++)
+    {
+      D->mx[i][i] = 0.;
+      for (j = i+1; j < N; j++)
+	{
+	  status = dst_nongap_XPairId(abc, ax[i], ax[j], &(D->mx[i][j]), NULL, NULL);
+	  if (status != eslOK) ESL_XEXCEPTION(status, "Pairwise identity calculation failed at seqs %d,%d\n", i,j);
+	  D->mx[i][j] =  1.0 - D->mx[i][j];
+	  D->mx[j][i] =  D->mx[i][j];
+	}
+    }
+  if (ret_D != NULL) *ret_D = D; else esl_dmatrix_Destroy(D);
+  return eslOK;
+
+ ERROR:
+  if (D     != NULL)  esl_dmatrix_Destroy(D);
+  if (ret_D != NULL) *ret_D = NULL;
+  return status;
+}
+
+/* find_seqs_with_given_insert
+ *                   
+ * Given an MSA with RF annotation, determine which sequences have inserts after column <target>
+ * of at least size <min> and at most size <max>. Fill an array <useme> of size msa->nseq with 
+ * TRUE seq i has the insert, FALSE if it doesn't.
+ */
+static int find_seqs_with_given_insert(ESL_MSA *msa, int *i_am_rf, char *errbuf, int target, int min, int max, int **ret_useme)
+{
+  int status;
+  int apos, rfpos, clen;
+  int **ict;
+  int *useme;
+  int i;
+
+  /* contract check */
+  if(! (msa->flags & eslMSA_DIGITAL)) ESL_XFAIL(eslEINVAL, errbuf, "in find_seqs_with_given_insert(), msa must be digitized.");
+  if(msa->rf == NULL) ESL_XFAIL(eslEINVAL, errbuf, "No #=GC RF markup in alignment, it is needed for --seq-ins.");
+
+  ESL_ALLOC(useme,sizeof(int) * (msa->nseq));
+  ESL_ALLOC(ict,  sizeof(int *) * (msa->alen+2));
+  for(i = 0; i <= msa->alen; i++)
+    {
+      ESL_ALLOC(ict[i],  sizeof(int) * (msa->nseq));
+      esl_vec_ISet(ict[i], (msa->nseq), 0);
+    }
+
+  rfpos = 0;
+  for(apos = 1; apos <= msa->alen; apos++)
+    {
+      if(i_am_rf[apos-1]) { 
+	rfpos++;
+      }
+      else 
+	for(i = 0; i < msa->nseq; i++)
+	  if(! esl_abc_XIsGap(msa->abc, msa->ax[i][apos])) { 
+	    ict[rfpos][i]++;
+	  }	  
+    }
+  clen = rfpos;
+  if(target > clen) ESL_XFAIL(eslEINVAL, errbuf, "--seq-ins <n> enabled with <n> = %d, but non-gap RF length of alignment is only %d columns.", target, clen);
+
+  for(i = 0; i < msa->nseq; i++) { 
+    /* printf("ict[target:%d][i:%d]: %d, min: %d max: %d\n", target, i, ict[target][i], min, max); */
+    useme[i] = ((ict[target][i] >= min) && (ict[target][i] <= max)) ?  TRUE : FALSE;
+  }
+
+  *ret_useme = useme;
+  for(i = 0; i <= msa->alen; i++)
+    free(ict[i]);
+  free(ict);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* minorize_msa()
+ *                   
+ * Given an MSA with #=GS <seq name> <<tag>> <minor set name>, make a new msa that
+ * includes all seqs that have the same <minor set name> #=GS annotation for the
+ * same <<tag>> (string value of <tag> is set at command line and passed into 
+ * this function)
+ * Also set the #=GC RF markup for each minor subset as either: 
+ * (A) the #=GF <x> <y> with <x> equal to <minor set name> and <y>
+ *     as the RF line.
+ *
+ * or, if no such #=GF markup exists define the consensus with the 
+ * gap fraction rule, any column with <= <x> (from --gapthresh <x>)
+ * gaps becomes an 'x' in the RF seq, all other columns are '.'.
+ */
+static int
+minorize_msa(const ESL_GETOPTS *go, ESL_MSA *msa, char *errbuf, FILE *fp, char *tag, int outfmt)
+{
+  int    status;
+  int   *useme = NULL;
+  int    nalloc = 1;
+  int    nmin = 0;
+  int   *which_minor = NULL; /* [0..i..msa->nseq-1] which minor subset each sequence belongs to, -1 if none */
+  char **minorA = NULL;      /* [0..m..nmin-1]      ptr to minor subset name in #=GS markup, only a ptr, don't free the char strings */
+  int    f, g, i, m, mt;
+  int    gt = -1;
+  void  *tmp;
+  char  *rf;
+  int    apos;
+  int    ip;
+  int   *order;
+  ESL_MSA **minor_msaA;
+
+  /* contract check */
+  if(msa->rf == NULL) ESL_FAIL(eslEINVAL, errbuf, "-M requires #=GC RF markup in alignment.");
+  if(msa->gs == NULL) ESL_FAIL(eslEINVAL, errbuf, "-M requires #=GS markup in alignment denoting minor subsets.");
+
+  /* determine which tag matches <tag> */
+  for(g = 0; g < msa->ngs; g++) { 
+    if(strcmp(msa->gs_tag[g], tag) == 0) { 
+      gt = g;
+      break;
+    }
+  }
+  if(gt == -1) ESL_FAIL(eslEINVAL, errbuf, "No #=GS markup has tag: %s\n", tag);
+
+  /* determine which minor set each seq belongs to, reallocate minorA as we go and see new minor subsets */
+  ESL_ALLOC(which_minor, sizeof(int) * msa->nseq);
+  ESL_ALLOC(minorA, sizeof(char *) * nalloc);
+  esl_vec_ISet(which_minor, msa->nseq, -1);
+
+  for(i = 0; i < msa->nseq; i++) { 
+    if(msa->gs[gt][i] != NULL) { 
+      mt = -1;
+      for(m = 0; m < nmin; m++) { 
+	if(strcmp(minorA[m], msa->gs[gt][i]) == 0) { 
+	  mt = m;
+	  break;
+	}
+      }
+      if(mt == -1) { 
+	if((nmin+1) == nalloc) { 
+	  nalloc++;
+	  ESL_RALLOC(minorA, tmp, sizeof(char *) * nalloc);
+	}
+	minorA[nmin] = msa->gs[gt][i]; 
+	mt = nmin++;
+      }
+      which_minor[i] = mt;
+    }
+  }
+  for(i = 0; i < msa->nseq; i++) if(which_minor[i] == -1) ESL_FAIL(eslEINVAL, errbuf, "-M requires ALL sequences have #=GS markup with user supplied tag %s. Seq %d (%s) has none.\n", esl_opt_GetString(go, "-M"), i, msa->sqname[i]);
+
+  /* Now make the minor alignments by keeping only the relevant subset of seqs.
+   * We do not call esl_msa_MinimGaps() b/c we want the alignment length to be 
+   * identical b/t all minor msas, and the RF also so cmalign knows how to 
+   * map the minor alignments to the major alignment */
+  ESL_ALLOC(minor_msaA, sizeof(ESL_MSA *) * nmin);
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+  for(m = 0; m < nmin; m++) { 
+    for(i = 0; i < msa->nseq; i++) useme[i] = (which_minor[i] == m)  ? TRUE : FALSE;
+    if(esl_vec_ISum(useme, msa->nseq) == 0) esl_fatal("No sequences selected for minor MSA!\n");
+    if((status = esl_msa_SequenceSubset(msa, useme, &(minor_msaA[m]))) != eslOK) ESL_FAIL(status, errbuf, "Error taking subset for minor subset %d with name: %s\n", m, minorA[m]);
+
+    /* set name */
+    esl_msa_SetName(minor_msaA[m], minorA[m], -1);
+
+    /* unless --M-rf free RF annotation and set new annotation (--M-rf tells us to keep the initial RF annotation for all minor alignments */
+    if(! esl_opt_GetBoolean(go, "--M-rf")) { 
+      if(minor_msaA[m]->rf == NULL) ESL_FAIL(eslEINCOMPAT, errbuf, "Error creating minor alignment %d, RF is NULL.", m);
+      free(minor_msaA[m]->rf);
+      minor_msaA[m]->rf = NULL;
+      /* Check if we have #=GF markup denoting the RF line for each minor subset */
+      rf = NULL;
+      for(f = 0; f < msa->ngf; f++)  
+	if(strcmp(minorA[m], msa->gf_tag[f]) == 0) { rf = msa->gf[f]; break; }
+      if(rf != NULL) { /* ensure the RF annotation is the length of the alignment */
+	if(strlen(rf) != msa->alen) ESL_FAIL(eslEINCOMPAT, errbuf, "'#=GF %s <RF sequence>' markup is of length %d but it must be equal to aln length (%" PRId64 ").", msa->gf_tag[f], (int) strlen(rf), msa->alen);
+	if((status = esl_strdup(rf, msa->alen, &(minor_msaA[m]->rf))) != eslOK) ESL_FAIL(status, errbuf, "Error duplicating RF for minor alignment %d\n", m);
+	/* make sure minor_msaA[m]->rf does not have any non-gap columns where msa->rf has a gap (cmalign -M demands all minor consensus columns are also major consensus columns) */
+	for (apos = 0; apos < minor_msaA[m]->alen; apos++) { 
+	  if (! (esl_abc_CIsGap(minor_msaA[m]->abc, minor_msaA[m]->rf[apos]))) { 
+	    if (esl_abc_CIsGap(msa->abc, msa->rf[apos])) ESL_FAIL(eslEINCOMPAT, errbuf, "'#=GF %s <RF sequence>' markup has a non-gap (%c char) at aln position %d, but the major alignment has a gap there! cmalign will choke on this.\n", msa->gf_tag[f], minor_msaA[m]->rf[(apos-1)], apos);
+	  }
+	}
+      }
+      else { /* no #=GF markup denoting RF line for alignment m existed in the input file, define it based on gaps */
+	if((status = write_rf_gapthresh(go, errbuf, minor_msaA[m], esl_opt_GetReal(go, "--M-gapt"))) != eslOK) return status;
+	/* careful, remember with cmalign -M, the minor alignments can only have training alignment column c defined as a consensus column 
+	 * if it is also consensus in the major alignment, so we have to remove any minor_msaA[m]->rf 'x' columns that are gaps in <msa>
+	 */
+	for (apos = 0; apos < minor_msaA[m]->alen; apos++)
+	  if (esl_abc_CIsGap(msa->abc, msa->rf[apos])) minor_msaA[m]->rf[apos] = '.';
+      }
+    }
+  }
+
+  /* Print out the alignments, first major, then minors */
+  /* first, reorder major alignment so that it contains the minor alignment seqs in order */
+  ip = 0;
+  ESL_ALLOC(order, sizeof(int) * msa->nseq);
+  for(m = 0; m < nmin; m++) { 
+    for(i = 0; i < msa->nseq; i++) {
+      if(which_minor[i] == m) order[i] = ip++;
+    }
+  }
+  if((status = reorder_msa(msa, order, errbuf)) != eslOK) return status;
+
+  eslx_msafile_Write(fp, msa, outfmt);
+  for(m = 0; m < nmin; m++) { 
+    eslx_msafile_Write(fp, minor_msaA[m], outfmt);
+    esl_msa_Destroy(minor_msaA[m]);
+  }
+  free(minor_msaA);
+  
+  free(order);
+  free(useme);
+  free(which_minor);
+  free(minorA);
+  return eslOK;
+
+ ERROR:
+  if(which_minor != NULL) free(which_minor);
+  if(minorA != NULL)      free(minorA);
+  if(useme != NULL)       free(useme);
+  return eslEMEM;
+}
+
+
+/* remove_gc_markup()
+ *                   
+ * Given a GC tag <tag>, remove that markup from an MSA.
+ * Return eslEINVAL if <tag> does not exist.
+ */
+static int
+remove_gc_markup(ESL_MSA *msa, char *errbuf, char *tag)
+{
+  int    does_not_exist = FALSE;
+
+  /* Currently, we can only handle removal of parsed GC markup, RF, SS_cons, SA_cons, PP_cons 
+   * (the main reason is b/c I didn't know how to deal with possibility of the ESL_KEYHASH in msa->gc_idx).
+   */
+  if (strcmp(tag, "RF") == 0) { 
+    if   (msa->rf == NULL) does_not_exist = TRUE;
+    else { free(msa->rf); msa->rf = NULL; }
+  }
+  else if(strcmp(tag, "SS_cons") == 0) { 
+    if   (msa->ss_cons == NULL) does_not_exist = TRUE; 
+    else { free(msa->ss_cons); msa->ss_cons = NULL; }
+  }
+  else if (strcmp(tag, "SA_cons") == 0) { 
+    if   (msa->sa_cons == NULL) does_not_exist = TRUE;
+    else { free(msa->sa_cons); msa->sa_cons = NULL; }
+  }
+  else if (strcmp(tag, "PP_cons") == 0) { 
+    if   (msa->pp_cons == NULL) does_not_exist = TRUE;
+    else { free(msa->pp_cons); msa->pp_cons = NULL; }
+  }
+  else { 
+    ESL_FAIL(eslEINVAL, errbuf, "--rm-gc <s> only works if <s> is \'RF\', \'SS_cons\', \'SA_cons\', or \'PP_cons\'");
+  }
+  if(does_not_exist) { 
+    ESL_FAIL(eslEINVAL, errbuf, "--rm-gc %s enabled but %s GC markup exists in the MSA.", tag, tag);
+  }
+  return eslOK;
+}
+
+
+/* add_gap_columns_to_msa
+ *                   
+ * Given an MSA and an array specifying a number
+ * of all gap columns to add after each column,
+ * add them. Reallocate all arrays as necessary.
+ * if(do_treat_as_rf_gap) make new column a gap
+ * in the RF line, else make it an 'x'.
+ *
+ * toadd is numbered 1..alen.
+ */
+static int
+add_gap_columns_to_msa(char *errbuf, ESL_MSA *msa, int *toadd, ESL_MSA **ret_msa, int do_treat_as_rf_gap)
+{
+  int status;
+  int i,j;
+  int apos;
+  int nnew = 0;
+  ESL_ALPHABET *abc;
+  char *newstr;
+  /* contract check */
+  if(! (msa->flags & eslMSA_DIGITAL))
+    ESL_XFAIL(eslEINVAL, errbuf, "in add_gap_columns_to_msa(), msa must be digitized.");
+  for(apos = 0; apos <= msa->alen; apos++)
+    nnew += toadd[apos];
+
+  /* Textize the alignment */
+  abc = msa->abc;
+  esl_msa_Textize(msa);
+
+  ESL_MSA *newmsa;
+  /*printf("msa->nseq: %d\n", msa->nseq);
+    printf("msa->alen: %d\n", msa->alen);*/
+  newmsa = esl_msa_Create(msa->nseq, (msa->alen+nnew));
+
+  /* Copy and add gaps to all valid data that is [0..(alen-1)] or [1..alen] */ 
+  if(msa->ss_cons != NULL) 
+    {
+      ESL_ALLOC(newmsa->ss_cons, sizeof(char) * (msa->alen+nnew+1));
+      if((status = cp_and_add_gaps_to_aseq(newmsa->ss_cons, msa->ss_cons, msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+    }
+  if(msa->sa_cons != NULL) 
+    {
+      ESL_ALLOC(newmsa->sa_cons, sizeof(char) * (msa->alen+nnew+1));
+      if((status = cp_and_add_gaps_to_aseq(newmsa->sa_cons, msa->sa_cons, msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+    }
+  if(msa->pp_cons != NULL) 
+    {
+      ESL_ALLOC(newmsa->pp_cons, sizeof(char) * (msa->alen+nnew+1));
+      if((status = cp_and_add_gaps_to_aseq(newmsa->pp_cons, msa->pp_cons, msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+    }
+  if(msa->rf != NULL)
+    {
+      ESL_ALLOC(newmsa->rf, sizeof(char) * (msa->alen+nnew+1));
+      if(do_treat_as_rf_gap)
+	{
+	  if((status = cp_and_add_gaps_to_aseq(newmsa->rf,      msa->rf,      msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+	}
+      else if((status = cp_and_add_gaps_to_aseq(newmsa->rf,      msa->rf,      msa->alen, toadd, nnew, 'x') != eslOK)) goto ERROR;
+    }
+
+  if(msa->ss != NULL)
+    {
+      ESL_ALLOC(newmsa->ss, sizeof(char *) * msa->nseq);
+      for(i = 0; i < msa->nseq; i++)
+      {
+	if(msa->ss[i] != NULL)
+	  {
+	    ESL_ALLOC(newmsa->ss[i], sizeof(char) * (msa->alen+nnew+1));
+	    if((status = cp_and_add_gaps_to_aseq(newmsa->ss[i], msa->ss[i], msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+	  }
+      }
+    }
+
+  if(msa->sa != NULL)
+    {
+      ESL_ALLOC(newmsa->sa, sizeof(char *) * msa->nseq);
+      for(i = 0; i < msa->nseq; i++)
+      {
+	if(msa->sa[i] != NULL)
+	  {
+	    ESL_ALLOC(newmsa->sa[i], sizeof(char) * (msa->alen+nnew+1));
+	    if((status = cp_and_add_gaps_to_aseq(newmsa->sa[i], msa->sa[i], msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+	  }
+      }
+    }  
+
+  if(msa->pp != NULL)
+    {
+      ESL_ALLOC(newmsa->pp, sizeof(char *) * msa->nseq);
+      for(i = 0; i < msa->nseq; i++)
+      {
+	if(msa->pp[i] != NULL)
+	  {
+	    ESL_ALLOC(newmsa->pp[i], sizeof(char) * (msa->alen+nnew+1));
+	    if((status = cp_and_add_gaps_to_aseq(newmsa->pp[i], msa->pp[i], msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+	  }
+      }
+    }  
+
+  if(msa->ncomment > 0)
+    {
+      for(j = 0; j < msa->ncomment; j++)
+	{
+	  if(msa->comment[j] != NULL) 
+	    esl_msa_AddComment(newmsa, msa->comment[j], -1);
+	}
+    }
+
+  if(msa->ngf > 0)
+    {
+      for(i = 0; i < msa->ngf; i++)
+	if(msa->gf[i] != NULL) 
+	  esl_msa_AddGF(newmsa, msa->gf_tag[i], -1, msa->gf[i], -1);
+    }
+
+  if(msa->ngs > 0)
+    {
+      for(j = 0; j < msa->ngs; j++)
+	{
+	  for(i = 0; i < msa->nseq; i++)
+	    if(msa->gs[j][i] != NULL) 
+	      esl_msa_AddGS(newmsa, msa->gs_tag[j], -1, i, msa->gs[j][i], -1);
+	}
+    }
+
+  if(msa->ngc > 0)
+    {
+      for(i = 0; i < msa->ngc; i++)
+	{
+	  if(msa->gc[i] != NULL) 
+	    {
+	      ESL_ALLOC(newstr, sizeof(char) * (msa->alen+nnew+1));
+	      if((status = cp_and_add_gaps_to_aseq(newstr, msa->gc[i], msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+	      esl_msa_AppendGC(newmsa, msa->gc_tag[i], newstr);
+	      free(newstr);
+	    }
+	}
+    }
+
+  if(msa->gr != NULL)
+    {  
+      for(j = 0; j < msa->ngr; j++)
+	{
+	  for(i = 0; i < msa->nseq; i++)
+	    {
+	      if(msa->gr[j][i] != NULL) 
+		{
+		  ESL_ALLOC(newstr, sizeof(char) * (msa->alen+nnew+1));
+		  if((status = cp_and_add_gaps_to_aseq(newstr, msa->gr[j][i], msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+		  esl_msa_AppendGR(newmsa, msa->gr_tag[j], i, newstr);
+		  free(newstr);
+		}
+	    }
+	}
+    }
+    
+  /* copy the aseqs, free as we go to save memory */
+  for(i = 0; i < msa->nseq; i++)
+    {
+      esl_strdup(msa->sqname[i], -1, &(newmsa->sqname[i]));
+      if((status = cp_and_add_gaps_to_aseq(newmsa->aseq[i], msa->aseq[i], msa->alen, toadd, nnew, '.') != eslOK)) goto ERROR;
+      free(msa->aseq[i]);
+      msa->aseq[i] = NULL;
+    }    
+  newmsa->abc = abc;
+  esl_msa_Digitize(newmsa->abc, newmsa, NULL);
+  esl_msa_Destroy(msa);
+  *ret_msa = newmsa;
+      
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+
+/*cp_and_add_gaps_to_aseq
+ *                   
+ * Given an aligned [0..alen-1] original text string,
+ * add toadd[apos-1] gaps after each residue. 
+ * new_aseq must be already allocated. 
+ *
+ * toadd is numbered 1..alen.
+ */
+static int cp_and_add_gaps_to_aseq(char *new_aseq, char *orig_aseq, int alen, int *toadd, int nnew, char gapchar)
+{
+  int orig_apos = 0;
+  int new_apos  = 0;
+  int i;
+
+  for(i = 0; i < toadd[0]; i++)
+    new_aseq[new_apos++] = gapchar;
+  for(orig_apos = 0; orig_apos < alen; orig_apos++)
+    {
+      new_aseq[new_apos++] = orig_aseq[orig_apos];
+      for(i = 0; i < toadd[(orig_apos+1)]; i++)
+	new_aseq[new_apos++] = gapchar;
+    }
+  new_aseq[new_apos] = '\0';
+  return eslOK;
+}
+
+
+/* Function: convert_post_to_pp()
+ * 
+ * Purpose:  Convert 'POST' annotation in an MSA (from Infernal 0.72-1.0) 
+ *           to 'PP' annotation in place. <nali> is provided only so that
+ *           we can provide it in an error message if nec.
+ *
+ */
+static int
+convert_post_to_pp(ESL_MSA *msa, char *errbuf, int nali)
+{
+  int  status;
+  int  ridx1, ridx2, ndigits;
+  int  r,i,apos;
+  int  ir2;
+
+  /* Find out which #=GR line is the POST, Post, or post line (if more than one exist, last one is chosen) */
+  ridx1 = -1;
+  ridx2 = -1;
+  ndigits = 0;
+  for (r = 0; r < msa->ngr; r++) { 
+    if (strcmp(msa->gr_tag[r], "POST")   == 0) { ridx1 = r; ndigits = 1; }
+    if (strcmp(msa->gr_tag[r], "Post")   == 0) { ridx1 = r; ndigits = 1; }
+    if (strcmp(msa->gr_tag[r], "post")   == 0) { ridx1 = r; ndigits = 1; }
+    if (strcmp(msa->gr_tag[r], "POSTX.") == 0) { ridx1 = r; ndigits = 1; }
+    if (strcmp(msa->gr_tag[r], "POST.X") == 0) { ridx2 = r; ndigits = 2; }
+  }
+  if(ndigits == 0) { 
+    ESL_FAIL(eslEINVAL, errbuf, "--post2pp requires \"#=GR POST\", \"#=GR Post\", \"#=GR post\", \"#=GR POSTX.\", or \"#=GR POSTX.\" and \"#=GR POST.X\" annotation, it's missing from alignment %d\n", nali);
+  }
+  if(ndigits == 2 && ridx1 == -1) { 
+    ESL_FAIL(eslEINVAL, errbuf, "found \"#=GR POST.X\" annotation but not \"#=GR POSTX.\" in alignment %d.\n", nali);
+  }
+  /* make sure that the POST annotation is the only GR annotation we have,
+   * this should be the case if alignment was created with infernal's cmalign
+   * v0.72-v1.0.2, which is the only type of alignments that should have POST
+   * annotation */
+  if((ndigits == 1 && msa->ngr != 1) || (ndigits == 2 && msa->ngr != 2))  
+    ESL_FAIL(eslEINVAL, errbuf, "additional \"#=GR\" annotation exists besides posteriors, alignment wasn't created by cmalign v0.72-v1.0.2");
+
+  ESL_ALLOC(msa->pp, sizeof(char *) * msa->nseq);
+  for(i = 0; i < msa->nseq; i++) { 
+    ESL_ALLOC(msa->pp[i], sizeof(char) * (msa->alen+1));
+  }
+  if(ndigits == 1) { /* easy case, just copy the annotation */
+    for(i = 0; i < msa->nseq; i++) { 
+      esl_strdup(msa->gr[ridx1][i], msa->alen, &(msa->pp[i]));
+      free(msa->gr[ridx1][i]);
+    }
+    free(msa->gr[ridx1]);
+  }
+  else { /* ndigits == 2 */
+    for(i = 0; i < msa->nseq; i++) { 
+      for(apos = 0; apos < msa->alen; apos++) { 
+	if(esl_abc_CIsGap(msa->abc, msa->gr[ridx1][i][apos])) {
+	  if(! esl_abc_CIsGap(msa->abc, msa->gr[ridx2][i][apos])) ESL_FAIL(eslEINVAL, errbuf, "reading post annotation for seq: %d aln column: %d, post 'tens' value gap but post 'ones' value is gap.\n", i, apos);
+	  msa->pp[i][apos] = '.';
+	}
+	else if(msa->gr[ridx1][i][apos] == '*') {
+	  if(msa->gr[ridx2][i][apos] != '*') ESL_FAIL(eslEINVAL, errbuf, "reading post annotation for aln %d, seq: %d aln column: %d, post 'tens' value '*' but post 'ones' value != '*'.\n", nali, i, apos);
+	  msa->pp[i][apos] = '*';
+	}
+	else {
+	  ir2 = (int) (msa->gr[ridx2][i][apos] - '0');
+	  if(ir2 >= 5) { /* round up, being careful to round 95 and above to '*' */
+	    msa->pp[i][apos] = (msa->gr[ridx1][i][apos] == '9') ? '*' : msa->gr[ridx1][i][apos] + 1;
+	  }
+	  else { 
+	    msa->pp[i][apos] = msa->gr[ridx1][i][apos];
+	  }
+	}
+      }
+      free(msa->gr[ridx1][i]);
+      free(msa->gr[ridx2][i]);
+    }
+    free(msa->gr[ridx1]);
+    free(msa->gr[ridx2]);
+  }
+  /* done filling msa->pp, now free gr annotation, we know from check above 
+   * the msa's GR annotation only consists of the posterior annotation, so 
+   * we can safely remove GR altogether (without worrying about reordering other GRs) */
+  free(msa->gr);
+  msa->gr = NULL;
+  msa->ngr = 0;
+  /* gr_idx will no longer be valid so we destroy it, 
+   * we could recreate it, but it's only used for parsing anyhow */
+  if(msa->gr_idx != NULL) { esl_keyhash_Destroy(msa->gr_idx); msa->gr_idx = NULL; }
+  msa->gr_idx = NULL;
+  
+  return eslOK;
+
+ ERROR:
+  esl_fatal("convert_post_to_pp(), memory allocation error.");
+  return eslOK; /* NEVERREACHED */
+}
+
+/* write_rf_gapthresh
+ *                   
+ * Given an MSA write/rewrite RF based on fraction
+ * of gaps in each column. If fraction < gapthresh RF is an 'x',
+ * otherwise it's a '.' (gap).
+ */
+static int
+write_rf_gapthresh(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa, float gapthresh)
+{
+  int      status;
+  int64_t  apos;
+  int64_t  gaps;
+  int      i;
+  int      nrf = 0;
+
+  if(msa->rf == NULL) { 
+    ESL_ALLOC(msa->rf, sizeof(char) * (msa->alen+1));
+  }
+  /* set as all gaps */
+  for (apos = 1; apos <= msa->alen; apos++) msa->rf[(apos-1)] = '.';
+
+  for (apos = 1; apos <= msa->alen; apos++) {
+    for (gaps = 0, i = 0; i < msa->nseq; i++) {
+      if (esl_abc_XIsGap(msa->abc, msa->ax[i][apos])) gaps++;
+    }
+    if((double) gaps / (double) msa->nseq < gapthresh) { /* column passes gap threshold */
+      nrf++;
+      msa->rf[(apos-1)] = 'x';
+    }
+    else { /* column fails the gap threshold */
+      msa->rf[(apos-1)] = '.';
+    }
+  }
+  msa->rf[msa->alen] = '\0';
+
+  return eslOK;
+ ERROR:
+  return status;
+}
+
+/* Function: compare_ints()
+ * 
+ * Purpose:  Comparison function for qsort(). Used 
+ *           by msa_median_length().
+ *
+ * Return 1 if el1 > el2, -1 if el1 < el2 and 0 if el1 == el2.
+ * This will result in a sorted list with smallest
+ * element as the first element, largest as the last.
+ */ 
+int 
+compare_ints(const void *el1, const void *el2)
+{
+  if      ((* ((int *) el1)) > (* ((int *) el2)))  return 1;
+  else if ((* ((int *) el1)) < (* ((int *) el2)))  return -1;
+  return 0;
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * $SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-alimanip.c $
+ * SVN $Id: esl-alimanip.c 711 2011-07-27 20:06:15Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.itest.pl
new file mode 100755
index 0000000..9d94c29
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.itest.pl
@@ -0,0 +1,340 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-alimanip miniapp.
+#
+# Usage:     ./esl-alimanip.itest.pl <esl-alimanip binary> <tmpfile prefix>
+# Example:   ./esl-alimanip.itest.pl ./esl-alimanip        foo
+#
+# EPN, Tue Feb  2 13:19:44 2010
+
+$eslalimanip= shift;
+$tmppfx      = shift;
+
+if (! -x "$eslalimanip") { die "FAIL: didn't find esl-alimanip binary $eslalimanip"; }
+
+# <[miniapps]> esl-seqstat --rna -a foo.stk 
+#= seq1                       29 
+#= seq2                       31 
+#= seq3                       20 
+
+open(ALIFILE, ">$tmppfx.stk") || die "FAIL: couldn't open $tmppfx.stk for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+seq1         aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 PP 5789**..**88...*9.9****88.7..776543210
+seq2         ..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 PP ..********************************....
+seq3         ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 PP ..5555..4*44...3...888888.8..8899.....
+#=GC SS_cons ...............<...<<<<......>>>>>....
+#=GC PP_cons ..789*..8877...8...****99.8..99998....
+#=GC RF      ..AAAA..AAAA...C...CCCCCC.c..GGGGG....
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.stk2") || die "FAIL: couldn't open $tmppfx.stk2 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+seq1         aaAANA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 PP 5789**..**88...*9.9****88.7..776543210
+seq2         ..AARAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 PP ..********************************....
+seq3         ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 PP ..5555..4*44...3...888888.8..8899.....
+#=GC SS_cons ...............<...<<<<......>>>>>....
+#=GC PP_cons ..789*..8877...8...****99.8..99998....
+#=GC RF      ..AAAA..AAAA...C...CCCCCC.c..GGGGG....
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.post.stk") || die "FAIL: couldn't open $tmppfx.oldp.stk for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+seq1              aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 POSTX.  5789**..**88...*9.9****88.7..776543210
+#=GR seq1 POST.X  3717**..**71...*2.3****34.5..239189922
+seq2              ..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 POSTX.  ..********************************....
+#=GR seq2 POST.X  ..********************************....
+seq3              ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 POSTX.  ..5555..4*44...3...888888.8..8899.....
+#=GR seq3 POST.X  ..4567..3*99...1...788882.1..0815.....
+#=GC SS_cons      ...............<...<<<<......>>>>>....
+#=GC RF           ..AAAA..AAAA...C...CCCCCC.c..GGGGG....
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.afa") || die "FAIL: couldn't open $tmppfx.afa for writing alifile";
+print ALIFILE << "EOF";
+>seq1
+aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+>seq2
+..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+>seq3
+..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+EOF
+close ALIFILE;
+
+open(LISTFILE, ">$tmppfx.list") || die "FAIL: couldn't open $tmppfx.stk for writing alifile";
+print LISTFILE << "EOF";
+seq1
+seq2
+EOF
+close LISTFILE;
+
+open(LISTFILE, ">$tmppfx.list2") || die "FAIL: couldn't open $tmppfx.stk for writing alifile";
+print LISTFILE << "EOF";
+seq3
+seq2
+seq1
+EOF
+close LISTFILE;
+
+open(SEQFILE, ">$tmppfx.trim.fa") || die "FAIL: couldn't open $tmppfx.trim.fa for writing alifile";
+print SEQFILE << "EOF";
+>seq1
+ccCCCCCCCGGGGGg
+>seq2
+CCCCcCccGG
+>seq3
+AACCCCCCCCG
+EOF
+close SEQFILE;
+
+open(MASKFILE, ">$tmppfx.rfmask") || die "FAIL: couldn't open $tmppfx.trim.fa for writing alifile";
+print MASKFILE << "EOF";
+011011110101110110101
+EOF
+close MASKFILE;
+
+open(MASKFILE, ">$tmppfx.amask") || die "FAIL: couldn't open $tmppfx.trim.fa for writing alifile";
+print MASKFILE << "EOF";
+01011011011010111011111101010010001100
+EOF
+close MASKFILE;
+
+$output = `$eslalimanip -h`;
+if ($? != 0)                                     { die "FAIL: esl-alimanip failed unexpectedly"; }
+if ($output !~ /Usage: esl-alimanip/)            { die "FAIL: help output not right"; }
+
+$output = `$eslalimanip --devhelp`;
+if ($? != 0)                                     { die "FAIL: esl-alimanip failed unexpectedly"; }
+if ($output !~ /Usage: esl-alimanip/)            { die "FAIL: devhelp output not right"; }
+
+
+$output = `$eslalimanip --rna $tmppfx.stk 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /\#=GR seq1 PP 5789\*\*..\*\*88...\*9.9\*\*\*\*88.7..776543210/) { die "FAIL: alignment manipulated incorrectly"; }
+
+system("$eslalimanip -o $tmppfx.o.stk --rna $tmppfx.stk > /dev/null");
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+$output = `cat $tmppfx.o.stk`;
+if ($output !~ /\#=GR seq1 PP 5789\*\*..\*\*88...\*9.9\*\*\*\*88.7..776543210/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --dna $tmppfx.stk 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /\#=GR seq1 PP 5789\*\*..\*\*88...\*9.9\*\*\*\*88.7..776543210/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --amino $tmppfx.stk 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /\#=GR seq1 PP 5789\*\*..\*\*88...\*9.9\*\*\*\*88.7..776543210/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --informat stockholm $tmppfx.stk 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /\#=GR seq1 PP 5789\*\*..\*\*88...\*9.9\*\*\*\*88.7..776543210/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --informat pfam $tmppfx.stk 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /\#=GR seq1 PP 5789\*\*..\*\*88...\*9.9\*\*\*\*88.7..776543210/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --informat afa $tmppfx.afa 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /--AAAA--AAAA---C---CCCCCC-C--GGGG-----/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --outformat afa $tmppfx.stk 2>&1`;
+if ($? != 0)                                             { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /AAAAAA--AAAA---CC-CCCCCCC-C--GGGGGGGGG/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --outformat psiblast $tmppfx.stk 2>&1`;
+if ($? != 0)                                             { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /aaAAAA--AAAA---Cc-cCCCCCC-C--GGGGGgggg/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --outformat a2m $tmppfx.stk 2>&1`;
+if ($? != 0)                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /aaAAAAAAAACccCCCCCCCGGGGGgggg/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --lnfract 0.9 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --lnfract 0.9 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq3
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --lxfract 1.02 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq2
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --lmin 30 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq1 and seq3
+if ($output =~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --detrunc 1 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq3
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --xambig 0 $tmppfx.stk2 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq1 and seq2
+if ($output =~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-k $tmppfx.list $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq3
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-k $tmppfx.list --informat pfam --small $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq3
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --k-reorder --seq-k $tmppfx.list $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq3
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-r $tmppfx.list $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq1 and seq2
+if ($output =~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-r $tmppfx.list --informat pfam --small $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should remove seq1 and seq2
+if ($output =~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-ins 9 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should keep seq1 and seq 2
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-ins 9 --seq-ni 3 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should keep only seq2
+if ($output =~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --seq-ins 9 --seq-xi 2 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should only keep seq1
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output =~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --trim $tmppfx.trim.fa $tmppfx.stk 2>&1`;
+if ($? != 0)                                                    { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /seq1\s+----------------C-CCCCCCC-C--GGGGGG---/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3\s+----------AA---C---CCCCCC-C--G--------/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --minpp 0.9 $tmppfx.stk 2>&1`;
+if ($? != 0)                                                     { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /seq1\s+----AA--AA-----C---CCCC---------------/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3\s+---------A----------------------------/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --reorder $tmppfx.list2 $tmppfx.stk 2>&1`;
+if ($? != 0)           { die "FAIL: esl-alimanip failed unexpectedly";}
+# should keep all seqs
+if ($output !~ /seq1/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq2/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /seq3/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --mask2rf $tmppfx.rfmask $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /#=GC RF      ...xx...xxxx.......x.xxx..x..x.x.x..../) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --m-keeprf --mask2rf $tmppfx.rfmask $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /#=GC RF      ...AA...AAAA.......C.CCC..c..G.G.G..../) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --mask2rf $tmppfx.amask $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /#=GC RF      .x.xx.xx.xx.x.xxx.xxxxxx.x.x..x...xx../) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --m-keeprf --mask2rf $tmppfx.amask $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /#=GC RF      .x.AA.xx.AA.x.xCx.xCCCCC.x.x..G...xx../) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --num-all $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /#=GC COLX.   00000000011111111112222222222333333333/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /#=GC COL.X   12345678901234567890123456789012345678/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --num-rf $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output !~ /#=GC RFCOLX. ..0000..0000...0...111111.1..11122..../) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /#=GC RFCOL.X ..1234..5678...9...012345.6..78901..../) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --rm-gc RF $tmppfx.stk 2>&1`;
+if ($? != 0)              { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output =~ /#=GC RF/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --rm-gc SS_cons $tmppfx.stk 2>&1`;
+if ($? != 0)                   { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output =~ /#=GC SS_cons/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --rm-gc PP_cons $tmppfx.stk 2>&1`;
+if ($? != 0)                   { die "FAIL: esl-alimanip failed unexpectedly";}
+if ($output =~ /#=GC PP_cons/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --sindi $tmppfx.stk 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimanip failed unexpectedly";  }
+if ($output !~ /#=GR seq1 SS :::::::::::::::<---<<<<______>>>>>::::/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /#=GR seq3 SS :::::::::::::::::::<<<<______>>>>:::::/) { die "FAIL: alignment manipulated incorrectly"; }
+
+$output = `$eslalimanip --rna --post2pp $tmppfx.post.stk 2>&1`;
+if ($? != 0)                                                                    { die "FAIL: esl-alimanip failed unexpectedly";  }
+if ($output !~ /#=GR seq1 PP 588\*\*\*..\*\*98...\*9.9\*\*\*\*88.8..777554310/) { die "FAIL: alignment manipulated incorrectly"; }
+if ($output !~ /#=GR seq3 PP ..5666..4\*55...3...999998.8..899\*...../)         { die "FAIL: alignment manipulated incorrectly"; }
+
+print "ok\n"; 
+unlink "$tmppfx.stk";
+unlink "$tmppfx.stk2";
+unlink "$tmppfx.o.stk";
+unlink "$tmppfx.post.stk";
+unlink "$tmppfx.afa";
+unlink "$tmppfx.list";
+unlink "$tmppfx.list2";
+unlink "$tmppfx.trim.fa";
+unlink "$tmppfx.rfmask";
+unlink "$tmppfx.amask";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.man
new file mode 100755
index 0000000..9ce3fe9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimanip.man
@@ -0,0 +1,338 @@
+.TH "esl-alimanip" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-alimanip - manipulate a multiple sequence alignment
+
+.SH SYNOPSIS
+
+.B esl-alimanip
+.I [options]
+.I msafile
+
+.SH DESCRIPTION
+
+.pp
+.B esl-alimanip
+can manipulate the multiple sequence alignment(s) in 
+.I msafile
+in various ways. Options exist to remove
+specific sequences, reorder sequences, designate reference columns
+using Stockholm "#=GC RF" markup, and add annotation that numbers
+columns. 
+
+The alignments can be of protein or DNA/RNA sequences. All alignments
+in the same 
+.I msafile
+must be either protein or DNA/RNA. The alphabet will be autodetected
+unless one of the options 
+.I --amino,
+.I --dna,
+or 
+.I --rna 
+are given. 
+
+.SH OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI -o " <f>"
+Save the resulting, modified alignment in Stockholm format to a file
+.I <f>.
+The default is to write it to standard output.
+
+.TP 
+.BI --informat " <s>"
+Specify that the input alignment be format 
+.I <s>.
+At preset, the only valid choices for 
+.I <s> 
+are: 'stockholm', 'pfam', and 'afa'. 'pfam' is a special
+case of Stockholm format in which each sequence is placed on a single
+line, instead of being interleaved; 'afa' is aligned FASTA. By default
+alignments are assumed to be in Stockholm format (either interleaved
+or Pfam).
+
+.TP 
+.BI --outformat " <s>"
+Specify that the output alignment be format 
+.I <s>.
+Choices for 
+.I <s> 
+are: 'stockholm', 'pfam', 'a2m', 'psiblast', 'afa'. 
+By default the alignment is output in interleaved Stockholm format.
+
+.TP
+.B --devhelp
+Print help, as with  
+.B "-h",
+but also include undocumented developer options. These options are not
+listed below, are under development or experimental, and are not
+guaranteed to even work correctly. Use developer options at your own
+risk. The only resources for understanding what they actually do are
+the brief one-line description printed when
+.B "--devhelp"
+is enabled, and the source code.
+
+.SH EXPERT OPTIONS
+
+.TP 
+.BI --lnfract " <x>"
+Remove any sequences with length less than 
+.I <x>
+fraction the length of the median length sequence in the alignment.
+
+.TP 
+.BI --lxfract " <x>"
+Remove any sequences with length more than 
+.I <x>
+fraction the length of the median length sequence in the alignment.
+
+.TP 
+.BI --lmin " <n>"
+Remove any sequences with length less than 
+.I <n>
+residues.
+
+.TP 
+.BI --lmax " <n>"
+Remove any sequences with length more than 
+.I <n>
+residues.
+
+.TP 
+.BI --detrunc " <n>"
+Remove any sequences that have all gaps in the first 
+.I <n>
+non-gap #=GC RF columns or the last 
+.I <n>
+non-gap #=GC RF columns.
+
+.TP 
+.BI --xambig " <n>"
+Remove any sequences that has more than
+.I <n>
+ambiguous (degenerate) residues.
+
+.TP 
+.BI --seq-r " <f>"
+Remove any sequences with names listed in file 
+.I <f>.
+Sequence names listed in 
+.I <f>
+can be separated by tabs, new lines, or spaces.
+The file must be in Stockholm format for this option to work. 
+
+.TP 
+.BI --seq-k " <f>"
+Keep only sequences with names listed in file 
+.I <f>.
+Sequence names listed in 
+.I <f>
+can be separated by tabs, new lines, or spaces.
+By default, the kept sequences will remain in the original order
+they appeared in 
+.I msafile,
+but the order from 
+.I <f> 
+will be used if the 
+.B --k-reorder
+option is enabled.
+The file must be in Stockholm format for this option to work. 
+
+.TP 
+.BI --small
+With
+.B --seq-k 
+or
+.B --seq-r,
+operate in small memory mode. 
+The alignment(s) will not be stored in memory, thus
+.B --seq-k 
+and
+.B --seq-r
+will be able to work on very large alignments regardless
+of the amount of available RAM.
+The alignment file must be in Pfam
+format and 
+.BI --informat " pfam"
+and one of
+.B --amino,
+.B --dna,
+or
+.B --rna
+must be given as well.
+
+.TP 
+.BI --k-reorder
+With
+.BI --seq-k " <f>",
+reorder the kept sequences in the output alignment to the order
+from the list file
+.I <f>.
+
+.TP 
+.BI --seq-ins " <n>"
+Keep only sequences that have at least 1 inserted residue after 
+nongap RF position 
+.I <n>.
+
+.TP 
+.BI --seq-ni " <n>"
+With 
+.B --seq-ins
+require at least 
+.I <n> 
+inserted residues in a sequence for it to be kept.
+
+.TP 
+.BI --seq-xi " <n>"
+With 
+.B --seq-ins
+allow at most
+.I <n> 
+inserted residues in a sequence for it to be kept.
+
+.TP 
+.BI --trim " <f>"
+File 
+.I <f>
+is an unaligned FASTA file containing truncated versions of each
+sequence in the 
+.I msafile. 
+Trim the sequences in the alignment to match their truncated versions
+in 
+.I <f>.
+If the alignment output format is Stockholm (the default output
+format), all per-column (GC) and per-residue (GR) annotation will be
+removed from the alignment when
+.B --trim
+is used. However, if 
+.B --t-keeprf 
+is also used, the reference annotation (GC RF) will be kept.
+
+.TP 
+.B --t-keeprf
+Specify that the 'trimmed' alignment maintain the original
+reference (GC RF) annotation. Only works in combination with 
+.B --trim.
+
+.TP 
+.BI --minpp " <x>"
+Replace all residues in the alignments for which the posterior
+probability annotation (#=GR PP) is less than 
+.I <x>
+with gaps. The PP annotation for these residues is also converted to
+gaps. 
+.I <x>
+must be greater than 0.0 and less than or equal to 0.95.
+
+.TP 
+.BI --tree " <f>"
+Reorder sequences by tree order. 
+Perform single linkage clustering on the sequences in the alignment
+based on sequence identity given the alignment to define a 'tree' 
+of the sequences. The sequences in the alignment are reordered
+according to the tree, which groups similar sequences together. The
+tree is output in Newick format to 
+.I <f>.
+
+.TP 
+.BI --reorder " <f>"
+Reorder sequences to the order listed in file 
+.I <f>.
+Each sequence in the alignment must be listed in 
+.I <f>.
+Use
+.B --k-reorder
+to reorder only a subset of sequences to a subset alignment file. 
+The file must be in Stockholm format for this option to work. 
+
+.TP 
+.BI --mask2rf " <f>"
+Read in the 'mask' file 
+.I <f>
+and use it to define new #=GC RF annotation for the 
+alignment.
+.I <f>
+must be a single line, with exactly 
+.I <alen> 
+or 
+.I <rflen>
+characters, either the full alignment length or the number of nongap #=GC RF characters, respectively.
+Each character must be either a '1'
+or a '0'. The new #=GC RF markup will contain an 'x' for each column
+that is a '1' in lane mask file, and a '.' for each column that is a '0'. 
+If the mask is of length
+.I <rflen>
+then it is interpreted as applying to only nongap RF characters in the
+existing RF annotation, all gap RF characters will remain gaps and
+nongap RF characters will be redefined as above.
+
+.TP 
+.BI --m-keeprf
+With 
+.B --mask2rf,
+do not overwrite existing nongap RF characters that are included by
+the input mask as 'x', leave them as the character they are.
+
+.TP 
+.BI --num-all 
+Add annotation to the alignment numbering all of the columns in the
+alignment. 
+
+.TP 
+.BI --num-rf 
+Add annotation to the alignment numbering the non-gap (non '.') #=GC
+RF columns of the alignment. 
+
+.TP 
+.BI --rm-gc " <s>"
+Remove certain types of #=GC annotation from the alignment. 
+.I "<s>" 
+must be either "RF", "SS_cons", "SA_cons", or "PP_cons",
+at present.
+
+.TP 
+.BI --sindi 
+Annotate individual secondary structures for each sequence by imposing
+the consensus secondary structure defined by the #=GC SS_cons
+annotation. 
+
+.TP 
+.BI --post2pp 
+Update Infernal's cmalign 0.72-1.0.2 posterior probability "POST"
+annotation to "PP" annotation, which is read by other miniapps,
+including 
+.B esl-alimask
+and 
+.B esl-alistat.
+
+.TP
+.B --amino
+Assert that the 
+.I msafile 
+contains protein sequences. 
+
+.TP 
+.B --dna
+Assert that the 
+.I msafile 
+contains DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I msafile 
+contains RNA sequences. 
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.c
new file mode 100755
index 0000000..22422ae
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.c
@@ -0,0 +1,687 @@
+/* Map two multiple sequence alignments to each other.
+ *
+ * EPN, Tue Sep 23 13:39:03 2008
+ * SVN $Id: esl-alimanip.c 270 2008-06-19 20:45:47Z nawrockie $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <assert.h>
+#include <math.h>
+#include <limits.h>
+
+#include "easel.h"
+#include "esl_distance.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_distance.h"
+#include "esl_dmatrix.h"
+#include "esl_vectorops.h"
+#include "esl_stack.h"
+#include "esl_tree.h"
+#include "esl_wuss.h"
+
+static char banner[] = "map two alignments to each other";
+static char usage[]  = "[options] <msafile1> <msafile2>\n\
+<msafile1> and <msafile2> must be in Stockholm format.";
+
+#define NCHOICES 3
+#define DIAG 0
+#define VERT 1
+#define HORZ 2
+
+static int  map_msas(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa1, ESL_MSA *msa2, int **ret_msa1_to_msa2_map);
+static int  map_sub_msas(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa1, ESL_MSA *msa2, char **ret_msa1_to_msa2_mask);
+static int  map_rfpos_to_apos(ESL_MSA *msa, int **ret_rf2a_map, int **ret_a2rf_map, int *ret_rflen);
+static int  map2masks(const ESL_GETOPTS *go, char *errbuf, int alen1, int alen2, int *a2rf_map1, int *a2rf_map2, int *rf2a_map1, int *rf2a_map2, int rflen1, int rflen2, int *msa1_to_msa2_map);
+
+static ESL_OPTIONS options[] = {
+  /* name          type        default  env   range      togs reqs  incomp                      help                                                       docgroup */
+  { "-h",          eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL, NULL,                       "help; show brief info on version and usage",                     1 },
+  { "-q",          eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL, NULL,                       "be quiet, don't print mapping of each column",                   1 },
+  { "--mask-a2a",  eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                       "mask to <f>:'1'=msa1 aln       col x maps msa2 aln col",         1 },
+  { "--mask-a2rf", eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                       "mask to <f>:'1'=msa1 aln       col x maps msa2 nongap RF col",   1 },
+  { "--mask-rf2a", eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                       "mask to <f>:'1'=msa1 nongap RF col x maps msa2 aln col",         1 },
+  { "--mask-rf2rf",eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                       "mask to <f>:'1'=msa1 nongap RF col x maps msa2 nongap RF col",   1 },
+  { "--submap",    eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,                       "<msafile2> is subaln of <msafile1>, output mask to <f>",         1 },
+  { "--amino",     eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--dna,--rna",               "<msafile{1,2}> contain protein alignments",                      1 },
+  { "--dna",       eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--amino,--rna",             "<msafile{1,2}> contain DNA alignments",                          1 },
+  { "--rna",       eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--amino,--dna",             "<msafile{1,2}> contain RNA alignments",                          1 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	/* application configuration       */
+  ESL_ALPHABET *abc     = NULL;	/* biological alphabet             */
+  char         *alifile1= NULL;	/* alignment 1 file name           */
+  char         *alifile2= NULL;	/* alignment 2 file name           */
+  int           fmt;		/* format code for alifiles        */
+  ESLX_MSAFILE *afp1    = NULL;	/* open alignment file 1           */
+  ESLX_MSAFILE *afp2    = NULL;	/* open alignment file 2           */
+  ESL_MSA      *msa1    = NULL;	/* multiple sequence alignment 1   */
+  ESL_MSA      *msa2    = NULL;	/* multiple sequence alignment 2   */
+  int           status;		/* easel return code               */
+  char          errbuf[eslERRBUFSIZE*4];
+
+  int  *msa1_to_msa2_map;       /* map from <msafile1> to <msafile2> */
+  char *sub_msa1_to_msa2_mask;  /* with --sub the map from <msafile1> to <msafile2> in mask form */
+  FILE *subfp = NULL;
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\nwhere basic options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go) != 2) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  alifile1 = esl_opt_GetArg(go, 1);
+  alifile2 = esl_opt_GetArg(go, 2);
+
+  fmt             = eslMSAFILE_STOCKHOLM;
+
+  /***********************************************
+   * Open the MSA files
+   ***********************************************/
+
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+
+  if ( (status = eslx_msafile_Open(&abc, alifile1, NULL, fmt, NULL, &afp1)) != eslOK) eslx_msafile_OpenFailure(afp1, status);
+  if ( (status = eslx_msafile_Open(&abc, alifile2, NULL, fmt, NULL, &afp2)) != eslOK) eslx_msafile_OpenFailure(afp2, status);
+
+  /******************************************************************
+   * Read first alignment from each file, we only use the first one 
+   ******************************************************************/
+
+  if ((status = eslx_msafile_Read(afp1, &msa1)) != eslOK) eslx_msafile_ReadFailure(afp1, status);
+  if ((status = eslx_msafile_Read(afp2, &msa2)) != eslOK) eslx_msafile_ReadFailure(afp2, status);
+
+  /* map the alignments in msa1 and msa2 */
+  if(! esl_opt_IsOn(go, "--submap")) { 
+    if((status = map_msas(go, errbuf, msa1, msa2, &msa1_to_msa2_map)) != eslOK) goto ERROR;
+    free(msa1_to_msa2_map);
+  }
+
+  /* --submap: if nec, map <msafile1> to a subset of it's own columns in <msafile2>  */
+  else { /* --submap was enabled */
+    if ((subfp = fopen(esl_opt_GetString(go, "--submap"), "w")) == NULL) 
+      ESL_FAIL(eslFAIL, errbuf, "Failed to open --submap output file %s\n", esl_opt_GetString(go, "--submap"));
+    if((status = map_sub_msas(go, errbuf, msa1, msa2, &sub_msa1_to_msa2_mask)) != eslOK) goto ERROR;
+    fprintf(subfp, "%s\n", sub_msa1_to_msa2_mask);
+    fclose(subfp);
+    subfp = NULL;
+    printf("# Mask of 1/0s with 1 indicating aln column in %s maps to a column in %s saved to file %s.\n", alifile1, alifile2, esl_opt_GetString(go, "--submap")); 
+    free(sub_msa1_to_msa2_mask);
+  }
+  
+  /* Cleanup, normal return
+   */
+  eslx_msafile_Close(afp1);
+  eslx_msafile_Close(afp2);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  esl_msa_Destroy(msa1);
+  esl_msa_Destroy(msa2);
+  return 0;
+  
+ ERROR:
+  if (afp1)   eslx_msafile_Close(afp1);
+  if (afp2)   eslx_msafile_Close(afp2);
+  if (go)     esl_getopts_Destroy(go);
+  if (msa1)   esl_msa_Destroy(msa1);
+  if (msa2)   esl_msa_Destroy(msa2);
+  if (subfp)  fclose(subfp);
+  esl_fatal(errbuf);
+  return 1; /* never reached */
+}
+
+
+/* map_msas
+ *                   
+ * Align msa1 and msa2.
+ * For each column in msa1, determine the corresponding column
+ * in msa2. This implementation requires:
+ *  - msa1 and msa2 contain exactly the same sequences in the same order
+ * Note: the seqs in msa1 and msa2 do not have to have the same names.
+ *
+ * Uses a DP algorithm similar to Needleman-Wunsch, but that's aligning
+ * two alignment columns at a time instead of two residues. 
+ */
+static int
+map_msas(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa1, ESL_MSA *msa2, int **ret_msa1_to_msa2_map)
+{
+  int status;
+  int **one2two;              /* [0..c..rflen1][0..a..alen2] number of residues from non-gap RF column c of msa1
+			       * aligned in column a of msa 2 */
+  int *rf2a_map1 = NULL;       /* msa1 map of reference columns (non-gap RF residues) to alignment columns, NULL if msa1->rf == NULL */
+  int *rf2a_map2 = NULL;       /* msa2 map of reference columns (non-gap RF residues) to alignment columns, NULL if msa2->rf == NULL */
+  int *a2rf_map1 = NULL;       /* msa1 map of alignment columns to reference columns, NULL if msa1->rf == NULL */
+  int *a2rf_map2 = NULL;       /* msa2 map of alignment columns to reference columns, NULL if msa2->rf == NULL */
+  int apos1, apos2;           /* counters over alignment position in msa1, msa2 respectively */
+  int alen1, alen2;           /* alignment lengths */
+  int rfpos1, rfpos2;           /* counters over reference positions */
+  int rflen1, rflen2;           /* reference (non-gap RF) lengths */
+  int **mx;                   /* [0..c..rflen1][0..a..alen2] dp matrix, score of max scoring aln 
+			       * from 1..c in msa1 and 1..a in msa 2 */
+  int **tb;                   /* [0..c..rflen1][0..a..alen2] traceback ptrs, 0 for diagonal, 1 for vertical */
+  char *seq1, *seq2;          /* temporary strings for ensuring dealigned sequences in msa1 and msa2 are identical */
+  int64_t len1, len2;         /* length of seq1, seq2 */
+  int isgap1, isgap2;         /* is this residue a gap in msa1, msa2? */
+  int i;                      /* counter over sequences */
+  int *res1_per_apos;         /* [0..apos..alen1] number of residues in column apos of msa1 */
+  int sc;                     /* max score of full path (alignment) through dp mx */
+  int tb_sc;                  /* score of traceback, should equal sc */
+  int *one2two_map;           /* [0..a..alen1] the alignment, msa2 column that column apos1 in msa1 maps to */
+  int total_res = 0;          /* total number of residues in msa1 */
+  float coverage;             /* fraction of total_res that are within mapped msa2 columns from one2two_map, 
+			       * this is tb_sc / total_res */
+  int  total_cres1=0;         /* total number of residues in reference positions in msa1 */ 
+  int  covered_cres1 = 0;     /* number of residues in reference positions in msa1 that also appear in the corresponding
+			       * mapped column of msa2 
+			       */
+  int be_quiet = esl_opt_GetBoolean(go, "-q");
+  int *choices;
+  int i_choice;
+
+  /* contract check */
+  if(! (msa1->flags & eslMSA_DIGITAL)) ESL_FAIL(eslEINVAL, errbuf, "in map_msas() msa1 (%s) not digitized.\n", esl_opt_GetArg(go, 1));
+  if(! (msa2->flags & eslMSA_DIGITAL)) ESL_FAIL(eslEINVAL, errbuf, "in map_msas() msa2 (%s) not digitized.\n", esl_opt_GetArg(go, 2));
+  alen1 = msa1->alen;
+  alen2 = msa2->alen;
+  
+  /* Map msa1 (reference) columns to alignment positions */
+  rflen1 = rflen2 = 0;
+  if(msa1->rf != NULL) if((status = map_rfpos_to_apos(msa1, &rf2a_map1, &a2rf_map1, &rflen1)) != eslOK) goto ERROR;
+  if(msa2->rf != NULL) if((status = map_rfpos_to_apos(msa2, &rf2a_map2, &a2rf_map2, &rflen2)) != eslOK) goto ERROR;
+  if(! be_quiet) {
+    printf("# %-25s alignment length:              %d\n", esl_opt_GetArg(go, 1), alen1);
+    printf("# %-25s alignment length:              %d\n", esl_opt_GetArg(go, 2), alen2);
+  }
+  /* collect counts in one2two[i][j]: number of sequences for which residue aligned in msa1 non-gap column i
+   * is aligned in msa2 alignment column j.
+   */
+  ESL_ALLOC(seq1, sizeof(char) * (alen1+1));
+  ESL_ALLOC(seq2, sizeof(char) * (alen2+1));
+  ESL_ALLOC(one2two, sizeof(int *) * (alen1+1));
+  for(apos1 = 0; apos1 <= alen1; apos1++) { 
+    ESL_ALLOC(one2two[apos1], sizeof(int) * (alen2+1));
+    esl_vec_ISet(one2two[apos1], (alen2+1), 0);
+  }
+
+  total_res = 0;
+  for(i = 0; i < msa1->nseq; i++) { 
+    /* ensure raw (unaligned) seq i in the 2 msas is the same */
+    esl_abc_Textize(msa1->abc, msa1->ax[i], alen1, seq1); 
+    esl_abc_Textize(msa1->abc, msa2->ax[i], alen2, seq2); /* note: msa*1*->abc used on purpose, allows DNA/RNA to peacefully coexist in this func */
+    esl_strdealign(seq1, seq1, "-_.~", &len1);
+    esl_strdealign(seq2, seq2, "-_.~", &len2);
+
+    if(len1 != len2) { 
+      ESL_FAIL(eslEINVAL, errbuf, "unaligned seq number %d (msa1: %s, msa2: %s) differs in length %s (%" PRId64 ") and %s (%" PRId64 "), those files must contain identical raw seqs\n",
+	       i, msa1->sqname[i], msa2->sqname[i], esl_opt_GetArg(go, 1), len1, esl_opt_GetArg(go, 2), len2);
+    }
+    if(strncmp(seq1, seq2, len1) != 0)  ESL_FAIL(eslEINVAL, errbuf, "unaligned seq number %d differs between %s and %s, those files must contain identical raw seqs\n", i, esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2));
+    total_res += len1;
+    
+    apos1 = apos2 = 1;
+    while((apos1 <= alen1) || (apos2 <= alen2)) {
+      isgap1 = esl_abc_XIsGap(msa1->abc, msa1->ax[i][apos1]);
+      isgap2 = esl_abc_XIsGap(msa2->abc, msa2->ax[i][apos2]);
+      if      ( isgap1 &&  isgap2) { apos1++; apos2++; }
+      else if ( isgap1 && !isgap2) { apos1++;          }
+      else if (!isgap1 &&  isgap2) {          apos2++; }
+      else if ( msa1->ax[i][apos1] == msa2->ax[i][apos2]) { 
+	one2two[apos1++][apos2++]++;
+	/* two2one[apos2][apos1]++; */
+      }
+    }
+  }
+
+  /******************************************************************
+   * DP alignment of msa1 to msa2
+   * dp matrix: mx[apos1][apos2] apos1=1..msa->alen1, apos2=1..alen2 (apos1=0 || apos2=0 is invalid)
+   * mx[apos1][apos2] = score of maximal alignment for apos1=1..apos1, apos2'=1..apos2 INCLUDING
+   *                    apos1 and apos2. Score is number of residues from msa1 columns
+   *                    1..apos1 that exist in their respective aligned columns in msa2 (the growing
+   *                    maximally scoring alignment).
+   */
+
+  /******************************************************************
+   * initialization 
+   */
+  ESL_ALLOC(mx, sizeof(int *) * (alen1+1));
+  ESL_ALLOC(tb, sizeof(int *) * (alen1+1));
+  for(apos1 = 0; apos1 <= alen1; apos1++) { 
+    ESL_ALLOC(mx[apos1], sizeof(int) * (alen2+1));
+    ESL_ALLOC(tb[apos1], sizeof(int) * (alen2+1));
+    esl_vec_ISet(mx[apos1], (alen2+1), 0);
+    esl_vec_ISet(tb[apos1], (alen2+1), -2); /* -2 is a bogus value, if we see it during traceback, there's a problem */
+    tb[apos1][0] = HORZ; /* special case, if we hit apos2==0 and apos1 > 0, we have to do HORZ moves until apos1==1 */
+  }
+  esl_vec_ISet(tb[0], (alen2+1), VERT); /* special case, if we hit apos1==0 and apos2 > 0, we have to do VERT moves until apos2==1 */
+  tb[0][0] = -2; /* all alignments must end here */
+
+  ESL_ALLOC(res1_per_apos, sizeof(int) * (alen1+1));
+  esl_vec_ISet(res1_per_apos, (alen1+1), 0);
+  mx[0][0] = 0;
+  tb[0][0] = -1; /* last cell, special value */
+
+  /*****************************************************************
+   * recursion
+   */
+  ESL_ALLOC(choices, sizeof(int) * NCHOICES);
+  for(apos1 = 1; apos1 <= alen1; apos1++) {
+    for(apos2 = 1; apos2 <= alen2; apos2++) {
+      choices[DIAG] = mx[(apos1-1)][(apos2-1)] + one2two[apos1][apos2];
+      choices[VERT] = mx[ apos1   ][(apos2-1)];
+      choices[HORZ] = mx[(apos1-1)][ apos2   ];
+      i_choice  = esl_vec_IArgMax(choices, NCHOICES);
+      mx[apos1][apos2] = choices[i_choice];
+      tb[apos1][apos2] = i_choice; 
+      res1_per_apos[apos1] += one2two[apos1][apos2];
+      /*printf("mx[%3d][%3d]: %5d (%d)\n", apos1, apos2, mx[apos1][apos2], tb[apos1][apos2]);*/
+    }
+  }
+  free(choices);
+
+  total_cres1 = 0;
+  if(rf2a_map1 != NULL) { 
+    for(rfpos1 = 1; rfpos1 <= rflen1; rfpos1++) total_cres1 += res1_per_apos[rf2a_map1[rfpos1]];
+  }
+
+  /*****************************************************************
+   * traceback 
+   */
+  
+  sc = mx[alen1][alen2];
+  if(!be_quiet) {
+    /* printf("score %d\n", sc);*/
+    if(a2rf_map1 != NULL && a2rf_map2 != NULL) { 
+      printf("# %12s       %12s  %22s\n", "   msa 1   ", "   msa 2   ", "");
+      printf("# %12s       %12s  %22s\n", "------------", "------------", "");
+      printf("# %5s  %5s       %5s  %5s  %22s\n", "rfpos",  "apos",  "rfpos",  "apos",  " num common residues");
+      printf("# %5s  %5s       %5s  %5s  %22s\n", "-----", "-----", "-----", "-----", "---------------------");
+    }
+    else if(a2rf_map1 != NULL) { 
+      printf("# %12s        %5s  %22s\n", "   msa 1   ", "msa 2", "");
+      printf("# %12s        %5s  %22s\n", "------------", "-----", "");
+      printf("# %5s  %5s       %5s  %22s\n", "rfpos",  "apos",  "apos",  " num common residues");
+      printf("# %5s  %5s       %5s  %22s\n", "-----", "-----", "-----", "---------------------");
+    }
+    else if (a2rf_map2 != NULL) { 
+      printf("# %5s        %12s  %22s\n", "msa 1", "   msa 2   ", "");
+      printf("# %5s        %12s  %22s\n", "-----", "------------", "");
+      printf("# %5s        %5s  %5s  %22s\n", "apos",  "rfpos",  "apos",  " num common residues");
+      printf("# %5s        %5s  %5s  %22s\n", "-----", "-----", "-----", "---------------------");
+    }
+    else {
+      printf("# %5s        %5s  %22s\n", "msa 1", "msa 2", "");
+      printf("# %5s        %5s  %22s\n", "-----", "-----", "");
+      printf("# %5s        %5s  %22s\n", "apos",  "apos",  " num common residues");
+      printf("# %5s        %5s  %22s\n", "-----", "-----", "---------------------");
+    }
+  }
+
+  /* traceback, and build one2two_map[] */
+  apos1 = alen1;
+  apos2 = alen2;
+  tb_sc = 0;
+  covered_cres1 = 0;
+  ESL_ALLOC(one2two_map, sizeof(int) * (alen1+1));
+  esl_vec_ISet(one2two_map, (alen1+1), 0);
+  one2two_map[0] = -1; /* invalid */
+
+  while(tb[apos1][apos2] != -1) {
+    if(tb[apos1][apos2] == DIAG) { /* diagonal move */
+      rfpos1 = (a2rf_map1 == NULL) ? -1 : a2rf_map1[apos1];
+      rfpos2 = (a2rf_map2 == NULL) ? -1 : a2rf_map2[apos2];
+      if(!be_quiet) { 
+	if(a2rf_map1 != NULL && a2rf_map2 != NULL) { 
+	  if(rfpos1 == -1 && rfpos2 == -1) { 
+	    printf("  %5s  %5d  -->  %5s  %5d  %5d / %5d (%.4f)\n", "-",    apos1, "-",    apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	  else if (rfpos1 == -1) { 
+	    printf("  %5s  %5d  -->  %5d  %5d  %5d / %5d (%.4f)\n", "-",    apos1, rfpos2, apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	  else if (rfpos2 == -1) { 
+	    printf("  %5d  %5d  -->  %5s  %5d  %5d / %5d (%.4f)\n", rfpos1, apos1, "-",    apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	  else { 
+	    printf("  %5d  %5d  -->  %5d  %5d  %5d / %5d (%.4f)\n", rfpos1, apos1, rfpos2, apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	}	
+	else if(a2rf_map1 != NULL) { 
+	  if (rfpos1 == -1) { 
+	    printf("  %5s  %5d  -->  %5d  %5d / %5d (%.4f)\n", "-",   apos1, apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	  else { 
+	    printf("  %5d  %5d  -->  %5d  %5d / %5d (%.4f)\n", rfpos1, apos1, apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	}
+	else if (a2rf_map2 != NULL) { 
+	  if (rfpos2 == -1) { 
+	    printf("  %5d  -->  %5s  %5d  %5d / %5d (%.4f)\n", apos1, "-",    apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	  else { 
+	    printf("  %5d  -->  %5d  %5d  %5d / %5d (%.4f)\n", apos1, rfpos2, apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	  }
+	}
+	else {
+	  printf("  %5d  -->  %5d  %5d / %5d (%.4f)\n", apos1, apos2, one2two[apos1][apos2], res1_per_apos[apos1], (res1_per_apos[apos1] == 0) ? 0.0000 : ((float) one2two[apos1][apos2] / (float) res1_per_apos[apos1])); 
+	}
+      }
+      tb_sc += one2two[apos1][apos2];
+      one2two_map[apos1] = apos2;
+      if(rfpos1 > 0) covered_cres1 += one2two[apos1][apos2]; /* apos1 is a rfpos */
+      apos1--; apos2--;
+    }
+    else if(tb[apos1][apos2] == VERT) { 
+      apos2--; /* vertical move */
+    }
+    else if(tb[apos1][apos2] == HORZ) { 
+      apos1--; /* horizontal move */
+    }
+    else if(tb[apos1][apos2] != -1) /* shouldn't happen */
+      ESL_FAIL(eslEINVAL, errbuf, "in dp traceback, tb[apos1: %d][apos2: %d] %d\n", apos1, apos2, tb[apos1][apos2]);
+  }
+  /* done DP code 
+   **********************************/
+
+  if(!be_quiet) printf("# Total trace back sc: %d\n", tb_sc);
+  if(tb_sc != sc) ESL_FAIL(eslEINVAL, errbuf, "in dp traceback, tb_sc (%d) != sc (%d)\n", tb_sc, sc);
+  coverage = (float) tb_sc / (float) total_res;
+  printf("# Coverage: %6d / %6d (%.4f)\n# Coverage is fraction of residues from %s in optimally mapped columns in %s\n", tb_sc, total_res, coverage, esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2));
+  if(total_cres1 > 0) printf("# RF coverage: %6d / %6d (%.4f)\n# RF coverage is fraction of non-gap RF residues from %s in optimally mapped columns in %s\n", covered_cres1, total_cres1, (float) covered_cres1 / (float) total_cres1, esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2));
+  /* print masks if nec */
+  if((status = map2masks(go, errbuf, alen1, alen2, a2rf_map1, a2rf_map2, rf2a_map1, rf2a_map2, rflen1, rflen2, one2two_map)) != eslOK) return status;
+
+  /* clean up and return */
+  for(apos1 = 0; apos1 <= alen1; apos1++) { 
+    free(mx[apos1]);
+    free(tb[apos1]);
+  }
+  free(mx);
+  free(tb);
+
+  for(apos1 = 0; apos1 <= alen1; apos1++) free(one2two[apos1]);
+  free(one2two);
+  free(res1_per_apos);
+  if(rf2a_map1 != NULL) free(rf2a_map1);
+  if(rf2a_map2 != NULL) free(rf2a_map2);
+  if(a2rf_map1 != NULL) free(a2rf_map1);
+  if(a2rf_map2 != NULL) free(a2rf_map2);
+
+  free(seq1);
+  free(seq2);
+  *ret_msa1_to_msa2_map = one2two_map;
+  return eslOK;
+  
+ ERROR: 
+  return status;
+}
+
+
+/* map_sub_msas
+ *                   
+ * msa1 and msa2 contain the same named sequences, msa1 contains a superset 
+ * of the columns in msa2. Determine which of the msa1 columns the msa2
+ * columns correspond to.
+ */
+static int
+map_sub_msas(const ESL_GETOPTS *go, char *errbuf, ESL_MSA *msa1, ESL_MSA *msa2, char **ret_msa1_to_msa2_mask)
+{
+  int status;
+  int  apos1, apos2;          /* counters over alignment position in msa1, msa2 respectively */
+  int i;
+  int *msa1_to_msa2_map;    /* [0..apos1..msa1->alen] msa2 alignment position that apos1 corresponds to */
+  char *mask;
+
+  /* contract check */
+  if(! (msa1->flags & eslMSA_DIGITAL)) ESL_FAIL(eslEINVAL, errbuf, "in map_sub_msas() msa1 (%s) not digitized.\n", esl_opt_GetArg(go, 1));
+  if(! (msa2->flags & eslMSA_DIGITAL)) ESL_FAIL(eslEINVAL, errbuf, "in map_sub_msas() msa2 (%s) not digitized.\n", esl_opt_GetString(go, "--submap"));
+  if(msa1->alen <= msa2->alen) ESL_FAIL(eslEINVAL, errbuf, "in map_sub_msas() alignment length for msa1 (%" PRId64 "d) <= length for msa2 (%" PRId64 ")\n", msa1->alen, msa2->alen);
+  
+  ESL_ALLOC(mask, sizeof(char) * (msa1->alen+1));
+  for(apos1 = 0; apos1 < msa1->alen; apos1++) mask[apos1] = '0';
+  mask[msa1->alen] = '\0';
+
+  ESL_ALLOC(msa1_to_msa2_map, sizeof(int) * (msa1->alen+1));
+  esl_vec_ISet(msa1_to_msa2_map, (msa1->alen+1), -1);
+
+  /* both alignments must have same 'named' sequences in same order */
+  if(msa1->nseq != msa2->nseq) ESL_FAIL(eslEINVAL, errbuf, "in map_sub_msas() msa1 has %d sequences, msa2 has %d sequences\n", msa1->nseq, msa2->nseq);
+  for(i = 0; i < msa1->nseq; i++) { 
+    if(strcmp(msa1->sqname[i], msa2->sqname[i]) != 0) ESL_FAIL(eslEINVAL, errbuf, "in map_sub_msas() msa1 seq %d is named %s, msa2 seq %d is named %s\n", i, msa1->sqname[i], i, msa2->sqname[i]);
+  }
+
+  apos1 = 1;
+  apos2 = 1;
+  while((apos2 <= msa2->alen) || (apos1 <= msa1->alen)) { /* determine which apos1 (alignment column in msa1), apos2 (alignment column in msa2) corresponds to */
+    for(i = 0; i < msa1->nseq; i++) { 
+      if(msa1->ax[i][apos1] != msa2->ax[i][apos2]) { 
+	apos1++; 
+	break; /* try next apos1 */ 
+      }
+    }	
+    if(i == msa1->nseq) { /* found a match */
+      msa1_to_msa2_map[apos1] = apos2;
+      mask[(apos1-1)] = '1';
+      apos1++;
+      apos2++;
+    }
+  }
+  if((apos1 != (msa1->alen+1)) || (apos2 != (msa2->alen+1))) ESL_FAIL(eslEINVAL, errbuf, "in map_sub_msas(), failure mapping alignments, end of loop apos1-1 = %d (msa1->alen: %" PRId64 ") and apos2-1 = %d (msa2->alen: %" PRId64 ")\n", apos1-1, msa1->alen, apos2-1, msa2->alen);
+
+  free(msa1_to_msa2_map);
+  *ret_msa1_to_msa2_mask = mask;
+  return eslOK;
+  
+ ERROR: 
+  return status;
+}
+
+/* map_rfpos_to_apos
+ *                   
+ * Given an MSA, determine the alignment position each
+ * reference position refers to. 
+ */
+static int map_rfpos_to_apos(ESL_MSA *msa, int **ret_rf2a_map, int **ret_a2rf_map, int *ret_rflen)
+{
+  int status;
+  int rflen = 0;
+  int *rf2a_map = NULL;
+  int *a2rf_map = NULL;
+  int rfpos = 0;
+  int apos = 0;
+  /* contract check */
+  if(msa->rf == NULL) { status = eslEINVAL; goto ERROR; }
+
+  /* count reference columns */
+  for(apos = 1; apos <= msa->alen; apos++)
+    if((! esl_abc_CIsGap(msa->abc, msa->rf[(apos-1)])) && 
+       (! esl_abc_CIsMissing(msa->abc, msa->rf[(apos-1)])) && 
+       (! esl_abc_CIsNonresidue(msa->abc, msa->rf[(apos-1)]))) rflen++;
+
+  /* build maps */
+  ESL_ALLOC(rf2a_map, sizeof(int) * (rflen+1));
+  ESL_ALLOC(a2rf_map, sizeof(int) * (msa->alen+1));
+  esl_vec_ISet(a2rf_map, msa->alen+1, -1);
+  rf2a_map[0] = -1;
+  for(apos = 1; apos <= msa->alen; apos++) { 
+    if((! esl_abc_CIsGap(msa->abc, msa->rf[(apos-1)])) && 
+       (! esl_abc_CIsMissing(msa->abc, msa->rf[(apos-1)])) && 
+       (! esl_abc_CIsNonresidue(msa->abc, msa->rf[(apos-1)]))) { 
+      rf2a_map[++rfpos] = apos;
+      a2rf_map[apos]   = rfpos;
+    }
+    /* else a2rf_map[apos] remains -1 as it was initialized */
+  }
+  
+
+  if(ret_rf2a_map != NULL) *ret_rf2a_map = rf2a_map;
+  else                    free(rf2a_map);
+  if(ret_a2rf_map != NULL) *ret_a2rf_map = a2rf_map;
+  else                    free(a2rf_map);
+  if(ret_rflen != NULL) *ret_rflen    = rflen;
+  return eslOK;
+
+ ERROR:
+  if(rf2a_map != NULL) free(rf2a_map);
+  if(a2rf_map != NULL) free(a2rf_map);
+  return status;
+}
+
+/* map2masks
+ *                   
+ * Given a map of alignment columns in msa1 to alignment columns
+ * to msa2, construct and output masks as per command-line options.
+ * 
+ * Args:    msa1_to_msa2_map: [1..apos..msa1->alen]: '0': msa1 apos maps to a gap in msa2 (doesn't map to any column in msa2)
+ *                                                   'x': msa1 apos maps to posn x in msa2 (x>0)
+ */
+static int
+map2masks(const ESL_GETOPTS *go, char *errbuf, int alen1, int alen2, int *a2rf_map1, int *a2rf_map2, int *rf2a_map1, int *rf2a_map2, int rflen1, int rflen2, int *msa1_to_msa2_map)
+{
+  int status;
+  int apos1, apos2;           /* counters over alignment position in msa1, msa2 respectively */
+  int rfpos1, rfpos2;         /* counters over reference positions */
+  int num_ones;               /* number of 1s in current mask */
+  int num_zeroes;             /* number of 0s in current mask */
+  FILE *fp;
+  char *mask = NULL;
+
+  if(esl_opt_GetString(go, "--mask-a2a")) { 
+    if ((fp = fopen(esl_opt_GetString(go, "--mask-a2a"), "w")) == NULL) 
+      ESL_FAIL(eslFAIL, errbuf, "Failed to open --mask-a2a mask output file %s", esl_opt_GetString(go, "--mask-a2a"));
+    /* construct mask as follows:
+     * mask[0..apos1..alen1-1] = '1' if column apos1+1 maps to an alignment column of msa2 
+     *                         = '0' if column apos1+1 maps to a gap in msa2 (doesn't map to any column in msa2) 
+     */
+    ESL_ALLOC(mask, sizeof(char) * (alen1+1));
+    num_ones = num_zeroes = 0;
+    for(apos1 = 1; apos1 <= alen1; apos1++) { 
+      if(msa1_to_msa2_map[apos1] == 0) { mask[(apos1-1)] = '0'; num_zeroes++; }
+      else                             { mask[(apos1-1)] = '1'; num_ones++; }
+    }
+    mask[alen1] = '\0';
+    fprintf(fp, "%s\n", mask);
+    free(mask);
+    fclose(fp);
+    printf("# Mask of 1/0s with 1 indicating aln column in %s maps to aln column in %s saved to file %s.\n# (Length: %d; '1's: %d; '0's: %d)\n", esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2), esl_opt_GetString(go, "--mask-a2a"), (num_ones+num_zeroes), num_ones, num_zeroes);
+  }
+
+  if(esl_opt_GetString(go, "--mask-a2rf")) { 
+    if (a2rf_map2 == NULL) ESL_FAIL(eslFAIL, errbuf, "with --mask-a2rf, <msafile2> %s must have #=GC RF annotation, but it doesn't.", esl_opt_GetArg(go, 2));
+    if ((fp = fopen(esl_opt_GetString(go, "--mask-a2rf"), "w")) == NULL) 
+      ESL_FAIL(eslFAIL, errbuf, "Failed to open --mask-a2rf mask output file %s\n", esl_opt_GetString(go, "--mask-a2rf"));
+    /* construct mask as follows:
+     * mask[0..apos1..alen1-1] = '1' if column apos1+1 maps to a reference column (non-gap in RF) of msa2 
+     *                         = '0' if column apos1+1 maps to a gap (doesn't map to any column in msa2) or an insert (gap in RF) in msa2 
+     */
+    ESL_ALLOC(mask, sizeof(char) * (alen1+1));
+    num_ones = num_zeroes = 0;
+    for(apos1 = 1; apos1 <= alen1; apos1++) { 
+      apos2 = msa1_to_msa2_map[apos1];
+      if(apos2 == 0) { mask[(apos1-1)] = '0'; num_zeroes++; } /* apos1 doesn't map to any column in msa2 */
+      else { 
+	rfpos2 = a2rf_map2[apos2];
+	if(rfpos2 <= 0) { mask[(apos1-1)] = '0'; num_zeroes++; } /* apos1 maps to a gap RF (insert) in msa2 */
+	else           { mask[(apos1-1)] = '1'; num_ones++; }   /* apos1 maps to a non-gap RF (reference) column in msa2 */
+      }
+    }
+    mask[alen1] = '\0';
+    fprintf(fp, "%s\n", mask);
+    free(mask);
+    fclose(fp);
+    printf("# Mask of 1/0s with 1 indicating aln column in %s maps to reference (non-gap RF) column in %s saved to file %s.\n# (Length: %d; '1's: %d; '0's: %d)\n", esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2), esl_opt_GetString(go, "--mask-a2rf"), (num_ones+num_zeroes), num_ones, num_zeroes);
+  }
+
+  if(esl_opt_GetString(go, "--mask-rf2a")) { 
+    if (a2rf_map1 == NULL) ESL_FAIL(eslFAIL, errbuf, "with --mask-rf2a, <msafile1> %s must have #=GC RF annotation, but it doesn't.", esl_opt_GetArg(go, 1));
+    if ((fp = fopen(esl_opt_GetString(go, "--mask-rf2a"), "w")) == NULL) 
+      ESL_FAIL(eslFAIL, errbuf, "Failed to open --mask-rf2a mask output file %s\n", esl_opt_GetString(go, "--mask-rf2a"));
+    /* construct mask as follows:
+     * mask[0..rfpos1..rflen-1] = '1' if non-gap RF msa1 column rfpos1+1 maps to an alignment column of msa2 
+     *                        = '0' if non-gap RF msa1 column rfpos1+1 maps to a gap in msa2 (doesn't map to any column in msa2)
+     */
+    ESL_ALLOC(mask, sizeof(char) * (rflen1+1));
+    num_ones = num_zeroes = 0;
+    for(rfpos1 = 1; rfpos1 <= rflen1; rfpos1++) { 
+      apos1 = rf2a_map1[rfpos1];
+      apos2 = msa1_to_msa2_map[apos1];
+      if(apos2 == 0) { mask[(rfpos1-1)] = '0'; num_zeroes++; } 
+      else           { mask[(rfpos1-1)] = '1'; num_ones++; } 
+    }
+    mask[rflen1] = '\0';
+    fprintf(fp, "%s\n", mask);
+    free(mask);
+    fclose(fp);
+    printf("# Mask of 1/0s with 1 indicating reference (non-gap RF) column in %s maps to aln column in %s saved to file %s.\n# (Length: %d; '1's: %d; '0's: %d)\n", esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2), esl_opt_GetString(go, "--mask-rf2a"), (num_ones+num_zeroes), num_ones, num_zeroes);
+  }
+
+  if(esl_opt_GetString(go, "--mask-rf2rf")) { 
+    if (a2rf_map1 == NULL) ESL_FAIL(eslFAIL, errbuf, "with --mask-rf2rf, <msafile1> %s must have #=GC RF annotation, but it doesn't.", esl_opt_GetArg(go, 1));
+    if (a2rf_map2 == NULL) ESL_FAIL(eslFAIL, errbuf, "with --mask-rf2rf, <msafile2> %s must have #=GC RF annotation, but it doesn't.", esl_opt_GetArg(go, 2));
+    if ((fp = fopen(esl_opt_GetString(go, "--mask-rf2rf"), "w")) == NULL) 
+      ESL_FAIL(eslFAIL, errbuf, "Failed to open --mask-rf2rf mask output file %s\n", esl_opt_GetString(go, "--mask-rf2rf"));
+    /* construct mask as follows:
+     * mask[0..apos1..alen-1] = '1' if column apos1+1 maps to a reference column (non-gap in RF) of msa2 
+     *                        = '0' if column apos1+1 maps to a gap (doesn't map to any column in msa2) or an insert (gap in RF) in msa2 
+     */
+    ESL_ALLOC(mask, sizeof(char) * (alen1+1));
+    num_ones = num_zeroes = 0;
+    for(rfpos1 = 1; rfpos1 <= rflen1; rfpos1++) { 
+      apos1 = rf2a_map1[rfpos1];
+      apos2 = msa1_to_msa2_map[apos1];
+      if(apos2 == 0) { mask[(rfpos1-1)] = '0'; num_zeroes++; } /* rfpos1 doesn't map to any column in msa2 */
+      else { 
+	rfpos2 = a2rf_map2[apos2];
+	if(rfpos2 <= 0) { mask[(rfpos1-1)] = '0'; num_zeroes++; } /* rfpos1 maps to a gap RF (insert) in msa2 */
+	else            { mask[(rfpos1-1)] = '1'; num_ones++; }   /* rfpos1 maps to a non-gap RF (reference) column in msa2 */
+      }
+    }
+    mask[rflen1] = '\0';
+    fprintf(fp, "%s\n", mask);
+    free(mask);
+    fclose(fp);
+    printf("# Mask of 1/0s with 1 indicating reference (non-gap RF) column in %s maps to reference (non-gap RF) column in %s saved to file %s.\n# (Length: %d; '1's: %d; '0's: %d)\n", esl_opt_GetArg(go, 1), esl_opt_GetArg(go, 2), esl_opt_GetString(go, "--mask-rf2rf"), (num_ones+num_zeroes), num_ones, num_zeroes);
+  }
+  return eslOK;
+
+ ERROR: 
+  ESL_FAIL(eslEMEM, errbuf, "map2masks(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.itest.pl
new file mode 100755
index 0000000..19e4363
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.itest.pl
@@ -0,0 +1,143 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-alimap miniapp.
+#
+# Usage:     ./esl-alimap.itest.pl <esl-alimap binary> <tmpfile prefix>
+# Example:   ./esl-alimap.itest.pl ./esl-alimap        foo
+#
+# EPN, Tue Feb  2 13:19:44 2010
+
+$eslalimap= shift;
+$tmppfx      = shift;
+
+if (! -x "$eslalimap") { die "FAIL: didn't find esl-alimap binary $eslalimap"; }
+
+open(ALIFILE, ">$tmppfx.1") || die "FAIL: couldn't open $tmppfx.1 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-17          --AGA-CUUCGG---GCUCG-UAACAG
+#=GR simpex-17 PP  ..885.*****9...9****.******
+simpex-39          aaAAUACGUCGGCUG-AAUCACCAGUA
+#=GR simpex-39 PP  ***************.67776899999
+simpex-82          --ACGUUUUG-GAACGGG-U-CCA-CC
+#=GR simpex-82 PP  ..****9998.88**888.5.898.9*
+#=GC SS_cons       ..::<<<____>->>-<<-<.___>>>
+#=GC RF            ..AAgaCUUCGGAucgggCg.AcAccc
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.2") || die "FAIL: couldn't open $tmppfx.2 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-17          ---AGACUUCGGG---CUCGUAACAG
+#=GR simpex-17 PP  ...69*****775...4466777888
+simpex-39          aaAAUACGUCGGCUGAAUCACCAGUA
+#=GR simpex-39 PP  **************************
+simpex-82          --ACGUUUUG-GAACGGGUC-C-ACC
+#=GR simpex-82 PP  ..99998886.777755544.2.358
+#=GC SS_cons       ..::::::::::::::::::::::::
+#=GC RF            ..AAgACUUCGGAucggGCaAcAuUc
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.3") || die "FAIL: couldn't open $tmppfx.2 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-17          ---AGACUUCGGG---CUCGUAACAG
+#=GR simpex-17 PP  ...69*****775...4466777888
+simpex-39          aaAAUACGUCGGCUGAAUCACCAGUA
+#=GR simpex-39 PP  **************************
+simpex-82          --ACGUUUUG-GAACGGGUC-C-ACC
+#=GR simpex-82 PP  ..99998886.777755544.2.358
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.4") || die "FAIL: couldn't open $tmppfx.3 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+test1  ..AA..AA..AAA
+test2  ..CC.gCC..CCC
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.5") || die "FAIL: couldn't open $tmppfx.4 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+test1  AAAAAAA
+test2  CCCCCCC
+//
+EOF
+close ALIFILE;
+
+
+open(MASKFILE, ">$tmppfx.mask") || die "FAIL: couldn't open $tmppfx.mask for writing alifile";
+print MASKFILE << "EOF";
+110111011011101110011101
+EOF
+close MASKFILE;
+
+$output = `$eslalimap -h`;
+if ($? != 0)                                         { die "FAIL: esl-alimap failed unexpectedly"; }
+if ($output !~ /Usage: esl-alimap/)                { die "FAIL: help output not right"; }
+
+$output = `$eslalimap $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                              { die "FAIL: esl-alimap failed unexpectedly"; }
+if ($output !~ /20     23  -->     20     22      3 \/     3 \(1.0\d+\)/) { die "FAIL: alignments mapped incorrectly"; }
+if ($output !~ /\# Coverage:     56 \/     67 \(0.83\d+\)/)                { die "FAIL: alignments mapped incorrectly"; }
+
+$output = `$eslalimap --dna $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                              { die "FAIL: esl-alimap failed unexpectedly"; }
+if ($output !~ /20     23  -->     20     22      3 \/     3 \(1.0\d+\)/) { die "FAIL: alignments mapped incorrectly"; }
+if ($output !~ /\# Coverage:     56 \/     67 \(0.83\d+\)/)                { die "FAIL: alignments mapped incorrectly"; }
+
+$output = `$eslalimap $tmppfx.1 $tmppfx.3 2>&1`;
+if ($? != 0)                                                       { die "FAIL: esl-alimap failed unexpectedly"; }
+if ($output !~ /20     23  -->     22      3 \/     3 \(1.0\d+\)/) { die "FAIL: alignments mapped incorrectly"; }
+if ($output !~ /\# Coverage:     56 \/     67 \(0.83\d+\)/)         { die "FAIL: alignments mapped incorrectly"; }
+
+system("$eslalimap --mask-a2a $tmppfx.a2a --mask-a2rf $tmppfx.a2rf --mask-rf2a $tmppfx.rf2a --mask-rf2rf $tmppfx.rf2rf $tmppfx.1 $tmppfx.2 > /dev/null");
+if ($? != 0)                                      { die "FAIL: esl-alimap failed unexpectedly"; }
+$output = `cat $tmppfx.a2a`;
+if ($output !~ /111111111111111111011111111/)     { die "FAIL: alignments mapped incorrectly."; }
+
+$output = `cat $tmppfx.a2rf`;
+if ($output !~ /001111111111111111011111111/)     { die "FAIL: alignments mapped incorrectly."; }
+
+$output = `cat $tmppfx.rf2a`;
+if ($output !~ /111111111111111101111111/)     { die "FAIL: alignments mapped incorrectly."; }
+
+$output = `cat $tmppfx.rf2rf`;
+if ($output !~ /111111111111111101111111/)     { die "FAIL: alignments mapped incorrectly."; }
+
+system("$eslalimap --rna --submap $tmppfx.submask $tmppfx.4 $tmppfx.5 > /dev/null");
+if ($? != 0)                                      { die "FAIL: esl-alimap failed unexpectedly"; }
+$output = `cat $tmppfx.submask`;
+if ($output !~ /0011001100111/) { die "FAIL: alignments mapped incorrectly"; }
+
+print "ok\n"; 
+unlink "$tmppfx.1";
+unlink "$tmppfx.2";
+unlink "$tmppfx.3";
+unlink "$tmppfx.4";
+unlink "$tmppfx.5";
+unlink "$tmppfx.a2a";
+unlink "$tmppfx.a2rf";
+unlink "$tmppfx.rf2a";
+unlink "$tmppfx.rf2rf";
+unlink "$tmppfx.submask";
+unlink "$tmppfx.mask";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.man
new file mode 100755
index 0000000..37a6871
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimap.man
@@ -0,0 +1,193 @@
+.TH "esl-alimap" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-alimap - map two alignments to each other
+
+.SH SYNOPSIS
+.B esl-alimap
+.I [options]
+.I msafile1
+.I msafile2
+
+.SH DESCRIPTION
+
+.I esl-alimap
+is a highly specialized application that determines the optimal
+alignment mapping of columns between two alignments of the same
+sequences. An alignment mapping defines for each column in alignment 1
+a matching column in alignment 2. The number of residues in the
+aligned sequences that are in common between the two matched columns
+are considered 'shared' by those two columns.
+
+For example, if the nth residue of sequence i occurs in alignment 1
+column x and alignment 2 column y, then only a mapping of alignment
+1 and 2 that includes column x mapping to column y would correctly map
+and share the residue. 
+
+The optimal mapping of the two alignments is the mapping which
+maximizes the sum of shared residues between all pairs of matching
+columns. The fraction of total residues that are shared is reported as
+the coverage in the 
+.B esl-alimap
+output.
+
+Only the first alignments in 
+.I msafile1 
+and
+.I msafile2
+will be mapped to each other. If the files contain more than one
+alignment, all alignments after the first will be ignored.
+
+The two alignments (one from each file) must contain exactly the same
+sequences (if they were unaligned, they'd be identical) in precisely
+the same order. They must also be in Stockholm format.
+
+The output of 
+.B esl-alimap
+differs depending on whether one or both of the alignments 
+contain reference (#=GC RF) annotation. If so, the
+coverage for residues from nongap RF positions will be reported
+separately from the total coverage.
+
+.B esl-alimap
+uses a dynamic programming algorithm to compute the optimal
+mapping. The algorithm is similar to the Needleman-Wunsch-Sellers
+algorithm but the scores used at each step of the recursion are not
+residue-residue comparison scores but rather the number of residues
+shared between two columns. 
+
+The
+.BI --mask-a2a " <f>",
+.BI --mask-a2rf " <f>",
+.BI --mask-rf2a " <f>",
+and
+.BI --mask-rf2rf " <f>"
+options create 'mask' files that pertain to the optimal mapping in
+slightly different ways. A mask file consists of a single line, of
+only '0' and '1' characters. These denote which positions of the
+alignment from 
+.B msafile1
+map to positions of the alignment from 
+.B msafile2
+as described below for each of the four respective masking options.
+These masks can be used to extract only those columns of the 
+.B msafile1
+alignment 
+that optimally map to columns of the 
+.B msafile2
+alignment
+using the 
+.B esl-alimask
+miniapp. To extract the corresponding set of columns 
+from 
+.I msafile2
+(that optimally map to columns of the alignment from
+.B msafile1),
+it is necessary to rerun the program with the order of the two 
+msafiles reversed, save new masks, and use
+.B esl-alimask
+again.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options.
+
+.TP
+.B -q
+Be quiet; don't print information the optimal mapping of each column,
+only report coverage and potentially save masks to optional output files. 
+
+.TP
+.BI --mask-a2a " <f>"
+Save a mask of '0's and '1's to file
+.I <f>.
+A '1' at position x means that position x of the alignment from
+.B msafile1
+maps to an alignment position in the alignment from
+.B msafile2
+in the optimal map.
+
+.TP
+.BI --mask-a2rf " <f>"
+Save a mask of '0's and '1's to file
+.I <f>.
+A '1' at position x means that position x of the alignment from
+.B msafile1
+maps to a nongap RF position in the alignment from 
+.B msafile2
+in the optimal map.
+
+.TP
+.BI --mask-rf2a " <f>"
+Save a mask of '0's and '1's to file
+.I <f>.
+A '1' at position x means that nongap RF position x of the alignment from
+.B msafile1
+maps to an alignment position in the alignment from 
+.B msafile2
+in the optimal map.
+
+.TP
+.BI --mask-rf2rf " <f>"
+Save a mask of '0's and '1's to file
+.I <f>.
+A '1' at position x means that nongap RF position x of the alignment from
+.B msafile1
+maps to a nongap RF position in the alignment from 
+.B msafile2
+in the optimal map.
+
+.TP
+.BI --submap " <f>"
+Specify that all of the columns from the alignment from 
+.B msafile1
+exist identically (contain the same residues from all sequences) in
+the alignment from 
+.B msafile2. 
+This makes the task of mapping trivial.
+However, not all columns of 
+.B msafile1 
+must exist in 
+.B msafile2.
+Save the mask to file
+.I <f>.
+A '1' at position x of the mask means that position x of the alignment from
+.B msafile1
+is the same as position y of
+.B msafile2,
+where y is the number of '1's that occur at positions <= x in the mask.
+
+.TP
+.B --amino
+Assert that 
+.I trusted_file
+and 
+.I test_file
+contain protein sequences. 
+
+.TP 
+.B --dna
+Assert that 
+.I trusted_file
+and 
+.I test_file
+contain DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I trusted_file
+and 
+.I test_file
+contain RNA sequences. 
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.c
new file mode 100755
index 0000000..a99fa83
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.c
@@ -0,0 +1,1222 @@
+/* Remove columns from a multiple sequence alignment.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile2.h"
+#include "esl_regexp.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+
+static char banner[] = "remove columns from a multiple sequence alignment";
+static char usage1[] = "[options] <msafile> <maskfile>   (use mask from maskfile)";
+static char usage2[] = "[options] -t <msafile> <coords>  (truncate alignment to coords)";
+static char usage3[] = "[options] -g <msafile>           (use gap frequencies in aln)";
+static char usage4[] = "[options] -p <msafile>           (use post probs (PP) in aln)";
+static char usage5[] = "[options] --rf-is-mask <msafile> (use #=GC RF in aln as mask)";
+
+static int read_mask_file(char *filename, char *errbuf, int **ret_useme, int *ret_mlen);
+static int map_rfpos_to_apos(ESL_MSA *msa, ESL_ALPHABET *abc, char *errbuf, int **i_am_rf, int **ret_rf2a_map, int *ret_rflen);
+static int expand_rf_useme_to_alen(int *useme_rf, int *rf2a_map, int rflen, int alen, char *errbuf, int *useme_a);
+static int count_gaps_in_msa(ESL_MSA *msa, ESL_ALPHABET *abc, int *countme, char *errbuf, double **ret_gap_ct);
+static int count_postprobs_in_msa(ESL_MSA *msa, ESL_ALPHABET *abc, int *countme, char *errbuf, double ***ret_pp_ct);
+static int mask_based_on_gapfreq(double *gap_ct, int64_t alen, int nseq, float gapthresh, int *i_am_eligible, char *errbuf, int **ret_useme);
+static int get_pp_idx(ESL_ALPHABET *abc, char ppchar);
+static int mask_based_on_postprobs(double **pp_ct, int64_t alen, int nseq, float pthresh, float pfract, int do_pavg, float pavg_min, int do_ppcons, float ppcons_min, char *pp_cons, ESL_ALPHABET *abc, int *i_am_eligible, int allgapok, char *errbuf, int **ret_useme);
+static int output_mask(char *filename, int *useme, int *i_am_eligible, int64_t alen, char *errbuf);
+static int determine_nkept_rf(int *useme, int *i_am_rf, int64_t len);
+static int parse_coord_string(const char *cstring, uint32_t *ret_start, uint32_t *ret_end);
+
+static ESL_OPTIONS options[] = {
+  /* name          type            default env   range      togs  reqs  incomp          help                                                   docgroup */
+  { "-h",          eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, NULL,           "help; show brief info on version and usage",                   1 },
+  { "-o",          eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, NULL, NULL,           "output the final alignment to file <f>, not stdout",           1 },
+  { "-q",          eslARG_NONE,    FALSE,  NULL, NULL,      NULL, "-o", NULL,           "be quiet; w/-o, don't print mask info to stdout",              1 },
+  { "--small",     eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, NULL,           "use minimal RAM (RAM usage will be independent of aln size)",  1 },
+  { "--informat",  eslARG_STRING,  FALSE,  NULL, NULL,      NULL, NULL, NULL,           "specify that input file is in format <s>",                     1 },
+  { "--outformat", eslARG_STRING,  FALSE,  NULL, NULL,      NULL, NULL, NULL,           "specify that output aln be format <s>",                        1 },
+  { "--fmask-rf",  eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, NULL, NULL,           "output final mask of non-gap RF len to file <f>",              1 },
+  { "--fmask-all", eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, NULL, NULL,           "output final mask of full aln len to file <f>",                1 },
+
+  { "--amino",     eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, "--dna,--rna",  "<msafile> contains protein alignments",                        2 },
+  { "--dna",       eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, "--amino,--rna","<msafile> contains DNA alignments",                            2 },
+  { "--rna",       eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, "--amino,--dna","<msafile> contains RNA alignments",                            2 },
+
+  { "--t-rf",      eslARG_NONE,    NULL,   NULL, NULL,      NULL, "-t", NULL,           "<coords> string corresponds to non-gap RF positions",          3 },
+  { "--t-rmins",   eslARG_NONE,    NULL,   NULL, NULL,      NULL, "-t", NULL,           "remove all gap RF positions within <coords>",                  3 },
+
+  { "--gapthresh", eslARG_REAL,    "0.5",  NULL, "0<=x<=1", NULL, "-g", NULL,           "only keep columns with <= <x> fraction of gaps in them",       4 },
+  { "--gmask-rf",  eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, "-g", NULL,           "output gap-based 0/1 mask of non-gap RF len to file <f>",      4 },
+  { "--gmask-all", eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, "-g", NULL,           "output gap-based 0/1 mask of   full aln len to file <f>",      4 },
+
+  { "--pfract",    eslARG_REAL,    "0.95", NULL, "0<=x<=1", NULL, "-p", NULL,           "keep cols w/<x> fraction of seqs w/PP >= --pthresh",           5 },
+  { "--pthresh",   eslARG_REAL,    "0.95", NULL, "0<=x<=1", NULL, "-p", NULL,           "set post prob threshold for --pfract as <x>",                  5 },
+  { "--pavg",      eslARG_REAL,    NULL,   NULL, "0<=x<=1", NULL, "-p", "--pfract,--pthresh",        "keep cols with average post prob >= <x>",         5 },
+  { "--ppcons",    eslARG_REAL,    NULL,   NULL, "0<=x<=1", NULL, "-p", "--keepins,--pavg,--pfract,--pthresh", "keep cols with PP_cons value >= <x>",   5 },
+  { "--pallgapok", eslARG_NONE,    NULL,   NULL, FALSE,     NULL, "-p", NULL,           "keep 100% gap columns (by default, they're removed w/-p)",     5 },
+  { "--pmask-rf",  eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, "-p", NULL,           "output PP-based 0/1 mask of non-gap RF len to file <f>",       5 },
+  { "--pmask-all", eslARG_OUTFILE, NULL,   NULL, NULL,      NULL, "-p", NULL,           "output PP-based 0/1 mask of   full aln len to file <f>",       5 },
+
+  { "--keepins",   eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, NULL,           "if msa has RF annotation, allow gap-RF columns to possibly survive",6 },
+
+
+  /* undocumented as options, because they're documented as alternative invocations: */
+  { "-t",         eslARG_NONE,     FALSE,  NULL, NULL,      NULL, NULL, "-g,-p,--rf-is-mask", "", 99 },
+  { "-g",         eslARG_NONE,     FALSE,  NULL, NULL,      NULL, NULL, NULL,            "mask based on gap frequency in the alignment", 99 },
+  { "-p",         eslARG_NONE,     FALSE,  NULL, NULL,      NULL, NULL, NULL,            "mask based on posterior probability annotation in the alignment", 99 },
+  { "--rf-is-mask",    eslARG_NONE,    FALSE,  NULL, NULL,      NULL, NULL, "-t,-g,-p,--keepins","remove a column if and only if it is a gap in the RF annotation", 99 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	               /* application configuration       */
+  ESL_ALPHABET *abc     = NULL;      	       /* biological alphabet             */
+  char         *alifile = NULL;	               /* alignment file name             */
+  int           infmt   = eslMSAFILE_UNKNOWN;  /* format code for alifile         */
+  int           outfmt  = eslMSAFILE_UNKNOWN;  /* format code for output ali      */
+  ESLX_MSAFILE *afp     = NULL;	               /* open alignment file  normal version           */
+  ESL_MSAFILE2 *afp2    = NULL;		       /* open alignment file: legacy small-mem version */
+  FILE         *ofp;		               /* output file (default is stdout) */
+  ESL_MSA      *msa     = NULL;	               /* one multiple sequence alignment */
+  int           status;		               /* easel return code               */
+  int           do_rfonly = FALSE;             /* TRUE if we'll automatically remove all gap RF columns */
+  int           nseq = 0;                      /* num seqs in alignment */
+  char          errbuf[eslERRBUFSIZE];         /* buffer for error messages */
+  int           rflen = 0;                     /* non-gap RF length */
+  int           nkept = 0;                     /* number of columns not removed for current mask */
+  int           nkept_rf = 0;                  /* number of non-gap RF columns not removed for current mask */
+  int           be_verbose = FALSE;            /* will we print info on masking to stdout? */
+  int           apos = 0;                      /* alignment position */
+  int          *i_am_rf = NULL;                /* [0..i..msa->alen-1]: TRUE if pos i is non-gap RF posn, if msa->rf == NULL remains NULL */
+  int          *i_am_eligible = NULL;          /* [0..i..msa->alen-1]: TRUE if we'll consider keeping posn i in our final masks, FALSE if not,
+						* used to automatically remove all non-gap RF columns if msa->RF != NULL && --keepins NOT enabled */
+  int          *rf2a_map = NULL;               /* [0..rfpos..rflen-1] = apos,                     
+						* apos is the alignment position (0..msa->alen-1) that     
+						* is non-gap RF position rfpos+1 (for rfpos in 0..rflen-1) */
+  int          *useme_final = NULL;            /* final mask, [0..i..msa->alen-1] TRUE to keep apos i, FALSE not to */
+  ESL_STOPWATCH *w  = NULL;                    /* for timing the masking, only used if -o enabled */
+  int64_t       orig_alen  = 0;                /* alignment length of input alignment (pre-masked) */
+
+  /* variables related to default mode, reading mask from a maskfile */
+  char         *maskfile = NULL;	       /* mask file name                  */
+  int           do_maskfile;                   /* TRUE if neither -p nor -g are enabled, and we have 2 command-line args */
+  int           file_mlen = 0;                 /* if do_maskfile, length of mask from maskfile, msa->alen or rflen */
+  double      **pp_ct  = NULL;                 /* [0..msa->alen-1][0..11] number of each PP value at each aln position */
+  int          *useme_mfile = NULL;            /* useme deduced from mask from maskfile, 
+						* [0..i..file_mlen-1] TRUE to keep apos or rfpos i, FALSE not to */
+
+  /* variables related to truncation mode (-t) */
+  int           do_truncate;                   /* TRUE if -t enabled */
+  uint32_t      tstart, tend;                  /* with -t, start and end position of aln region to keep, parsed from 2nd cmdline arg (<coords> : <start>..<end>) */
+
+  /* variables related to gap frequency mode (-g) */
+  int           do_gapthresh;                  /* TRUE if -g enabled */
+  double      **abc_ct = NULL;                 /* [0..msa->alen-1][0..abc->K] number of each resiude at each position (abc->K is gap) */
+  double       *gap_ct = NULL;                 /* [0..msa->alen-1] number of gaps at each position */
+  int          *useme_g = NULL;                /* [0..i..msa->alen-1] TRUE to keep apos i based on gapfreq, FALSE not to */
+
+  /* variables related to postprob mode (-p) */
+  int           do_postprob;                   /* TRUE if -p enabled */
+  int           do_pavg;                       /* TRUE if --pavg enabled */
+  int           do_ppcons;                     /* TRUE if --ppcons enabled */
+  float         pavg_min;                      /* <x> from --pavg <x>, if enabled, 0., otherwise */
+  float         ppcons_min;                    /* <x> from --ppcons <x>, if enabled, 0., otherwise */
+  int          *useme_pp = NULL;               /* [0..i..msa->alen-1] TRUE to keep apos i based on postprobs, FALSE not to */
+
+  /* variables related to RF mode (--rf-is-mask) */
+  int           do_rf_is_mask = FALSE;         /* TRUE if --rf-is-mask, RF annotation is the mask, all gap RF columns removed, others kept */
+
+  /* variables related to small memory mode (--small) */
+  int           do_small;                      /* TRUE if --small, operate in special small memory mode, aln seq data is not stored */
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage1);
+      esl_usage(stdout, argv[0], usage2);
+      esl_usage(stdout, argv[0], usage3);
+      esl_usage(stdout, argv[0], usage4);
+      esl_usage(stdout, argv[0], usage5);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage1);
+      esl_usage (stdout, argv[0], usage2);
+      esl_usage (stdout, argv[0], usage3);
+      esl_usage (stdout, argv[0], usage4);
+      esl_usage (stdout, argv[0], usage5);
+      puts("\n  Only one usage listed above can be used per execution with the exception of");
+      puts("  -p and -g, which can be used in combination with each other.\n");
+      puts("  With -t, <coords> is a string that specifies positive integer start and end");
+      puts("  coordinates seperated by any nonnumeric, nonspace character(s).");
+      puts("  For example, \"23..100\" or \"23/100\" or \"23-100\" all specify that columns");
+      puts("  23 to 100 be kept and all other columns be removed. Additionally, to retrieve");
+      puts("  all columns from a position to the end, omit the end coord; \"23:\" will work.");
+      puts("  With -t and --t-rf, coordinates are interpreted as non-gap positions in the");
+      puts("  reference (\"#=GC RF\") annotation.\n");
+      puts("  With --rf-is-mask, all columns that are not gaps in the reference annotation");
+      puts("  will be kept and all other columns will be removed.");
+      puts("\n other options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      puts("\n options for specifying alphabet in <msafile>, one is required w/--small:");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+      puts("\n options related to truncating the alignment (require -t):");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); 
+      puts("\n options for masking based on gap frequencies (require -g):");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+      puts("\n options for masking based on posterior probabilities (require -p):");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+      puts("\n options that modify masking behavior when -g and/or -p are used:");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80); 
+      exit(0);
+    }
+
+  /* Check that we have the correct number of command line args, 
+   * in English: if (NOT 2 cmdline args and none of --rf-is-mask,-p,-g) 
+   *             AND NOT -p and 1 cmdline arg
+   *             AND NOT -g and 1 cmdline arg
+   *             AND NOT --rf-is-mask and 1 cmdline arg)
+   *             then ERROR due to incorrect usage.
+   */           
+  if ((! (((! esl_opt_GetBoolean(go, "--rf-is-mask")) && (! esl_opt_GetBoolean(go, "-p")) && (! esl_opt_GetBoolean(go, "-g"))) && esl_opt_ArgNumber(go) == 2)) && /* it is not the case that (none of --rf-is-mask,-p,-g) and 2 cmdline args */
+      (! ((esl_opt_GetBoolean(go, "-g")) && (esl_opt_ArgNumber(go) == 1))) &&         /* not -g and 1 arg */
+      (! ((esl_opt_GetBoolean(go, "-p")) && (esl_opt_ArgNumber(go) == 1))) &&         /* not -p and 1 arg */
+      (! ((esl_opt_GetBoolean(go, "--rf-is-mask")) && (esl_opt_ArgNumber(go) == 1)))) /* not --rf-is-mask and 1 arg */
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage1);
+      esl_usage(stdout, argv[0], usage2);
+      esl_usage(stdout, argv[0], usage3);
+      esl_usage(stdout, argv[0], usage4);
+      esl_usage(stdout, argv[0], usage5);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  else 
+
+  alifile = esl_opt_GetArg(go, 1);
+
+  /*******************************************************************************
+   * Determine the type of masking we'll do:
+   * 1. do_maskfile:   read mask from file, if none of -p,-g,-t,--rf-is-mask enabled
+   * 2. do_truncate:   truncate alignment between coords from 2nd cmdline arg, if -t
+   * 3. do_postprob:   use posterior probabilities in aln to create mask, if -p
+   * 4. do_gapthresh:  use gap frequency in aln to create mask, if -g
+   * 5. do_rf_is_mask: mask solely based on RF annotation, if --rf-is-mask
+   *
+   * We can combine 3 and 4, but 1 and 2 and 5 are exclusive. Exclusivity of 1 is enforced by 
+   * if statement above that checks number of command line args. Exclusivity of 2 and 5
+   * is enforced by esl_getopts.
+   *******************************************************************************/
+
+  do_maskfile = do_truncate = do_postprob = do_gapthresh = do_rf_is_mask = FALSE; /* until proven otherwise */
+  if(esl_opt_ArgNumber(go) == 2) { 
+    if(esl_opt_GetBoolean(go, "-t")) { 
+      do_truncate = TRUE;
+      /* we parse 2nd cmdline arg later */
+    }
+    else { 
+      do_maskfile = TRUE;
+      maskfile = esl_opt_GetArg(go, 2);
+    }
+  }
+  else { /* 1 cmdline arg (when we checked for correct usage above, we verified either 1 or 2 cmdline args)*/
+    do_rf_is_mask = esl_opt_GetBoolean(go, "--rf-is-mask");
+    do_postprob   = esl_opt_GetBoolean(go, "-p");
+    do_gapthresh  = esl_opt_GetBoolean(go, "-g");
+  }
+
+  /* check for incompatible options that I don't know how to enforce with esl_getopts */
+  /* --keepins only makes sense with -p or -g */
+  if(esl_opt_GetBoolean(go, "--keepins") && (! do_postprob) && (! do_gapthresh)) 
+    esl_fatal("--keepins only makes sense in combination with -p and/or -g");
+
+  /* will we be verbose? */
+  be_verbose = (esl_opt_IsOn(go, "-o") && (! esl_opt_GetBoolean(go, "-q"))) ? TRUE : FALSE;
+
+  /* will we operate in small memory mode? */
+  do_small = (esl_opt_GetBoolean(go, "--small")) ? TRUE : FALSE;
+  
+  /* determine input/output formats */
+  if (esl_opt_IsOn(go, "--informat")) {
+    infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat", esl_opt_GetString(go, "--informat")); 
+    if (do_small && infmt != eslMSAFILE_PFAM) esl_fatal("small memory mode requires Pfam formatted alignments"); 
+  }
+  if (esl_opt_IsOn(go, "--outformat")) {
+    outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"));
+    if (outfmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --outformat", esl_opt_GetString(go, "--outformat")); 
+    if (do_small && outfmt != eslMSAFILE_PFAM) esl_fatal("we can only output Pfam formatted alignments in small memory mode"); 
+  }
+  else outfmt = eslMSAFILE_STOCKHOLM;
+
+  if (do_small) { /* defaults change if we're in small memory mode, 
+		     note we checked --informat and --outformat compatibility with do_small in two if statements above */
+    infmt  = eslMSAFILE_PFAM; /* this must be true, else we can't do small memory mode */
+    outfmt = eslMSAFILE_PFAM;
+  }
+
+  /* open output file */
+  if (esl_opt_GetString(go, "-o") != NULL) {
+    if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) 
+      esl_fatal("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+    /* create and start stopwatch */
+    w = esl_stopwatch_Create();
+    esl_stopwatch_Start(w);
+  } else ofp = stdout;
+
+  /****************************************
+   * Open the MSA file; determine alphabet 
+   ****************************************/
+
+  /* abc handling is weird. We only use alphabet to define gap characters in this miniapp
+   * unless do_small is TRUE. msa's are actually read in text mode. Thus if do_small is FALSE,
+   * eslRNA suffices for anything. If do_small is TRUE, we need the alphabet so we 
+   * require --amino,--dna, or --rna below.
+   */
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+  else if (do_small)                            esl_fatal("With --small, the alphabet must be specified with --amino, --rna, or --dna.");
+  else                                          abc = esl_alphabet_Create(eslRNA); /* alphabet is only used to define gap characters, so (in this miniapp) we're okay specifying RNA for any alignment (even non-RNA ones) */
+
+  if (do_small)
+    {
+      status = esl_msafile2_Open(alifile, NULL, &afp2);
+      if      (status == eslENOTFOUND) esl_fatal("Alignment file %s doesn't exist or is not readable\n", alifile);
+      else if (status != eslOK)        esl_fatal("Alignment file open failed with error %d\n", status);
+    }
+  else
+    {
+      status = eslx_msafile_Open(NULL, alifile, NULL, infmt, NULL, &afp);
+      if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+    }
+
+  /* If nec, read mask from the mask file */
+  if (do_maskfile) if((status = read_mask_file(maskfile, errbuf, &useme_mfile, &file_mlen)) != eslOK) esl_fatal(errbuf);
+  
+  /************************************************************************************
+   * Read the first MSA in the file (we only mask first aln) and verify we can mask it.
+   ************************************************************************************/
+
+  if (do_small) 
+    {
+      status = esl_msafile2_ReadInfoPfam(afp2, NULL, abc, -1, NULL, NULL, &msa, &nseq, &orig_alen, NULL, NULL, NULL, NULL, NULL, 
+					 (do_gapthresh) ? &abc_ct : NULL,
+					 (do_postprob)  ? &pp_ct  : NULL, 
+					 NULL, NULL, NULL);               /* we don't want bp_ct, srfpos_ct nor erfpos_ct */
+      if      (status == eslEFORMAT) esl_fatal("Alignment file parse error:\n%s\n", afp2->errbuf);
+      else if (status == eslEINVAL)  esl_fatal("Alignment file parse error:\n%s\n", afp2->errbuf);
+      else if (status != eslOK)      esl_fatal("Alignment file read failed with error code %d\n%s", status, afp);      
+
+      msa->alen = orig_alen; /* for convenience, but be careful, the msa doesn't actually have any aseq or ax */
+    }
+  else
+    {
+      status = eslx_msafile_Read(afp, &msa); /* if ! do_small, we read full aln into memory */
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+      orig_alen = msa->alen;
+      if(do_postprob && msa->pp == NULL && (! esl_opt_IsOn(go, "--ppcons"))) esl_fatal("-p was enabled, but the MSA has no posterior probability (#=GR PP) annotation.");
+    }
+
+  /* Allocate and initialize i_am_eligible array, which defines which
+   * positions we'll consider keeping. If msa->rf == NULL or --keepins
+   * enabled, this will be all positions, else it will only be non-gap
+   * RF positions.
+   */
+  ESL_ALLOC(i_am_eligible, sizeof(int) * (int) msa->alen);
+  esl_vec_ISet(i_am_eligible, (int) msa->alen, TRUE); /* default to all positions, this is overwritten just below if nec */
+
+  /* if RF exists, get i_am_rf array[0..alen] which tells us which positions are non-gap RF positions
+   * and rf2a_map, a map of non-gap RF positions to overall alignment positions */
+  if(msa->rf != NULL) {
+    if((status = map_rfpos_to_apos(msa, abc, errbuf, &i_am_rf, &rf2a_map, &rflen)) != eslOK) esl_fatal(errbuf);
+    if(! esl_opt_GetBoolean(go, "--keepins")) { /* we'll only consider keeping non-gap RF columns */
+      esl_vec_ICopy(i_am_rf, (int) msa->alen, i_am_eligible); 
+    }
+  }
+  else { /* RF doesn't exist, make sure no options that require RF annotation were enabled */
+    if(esl_opt_IsOn(go, "--pmask-rf")) esl_fatal("Error, --pmask-rf enabled, but alignment does not have RF annotation.");
+    if(esl_opt_IsOn(go, "--gmask-rf")) esl_fatal("Error, --gmask-rf enabled, but alignment does not have RF annotation.");
+    if(esl_opt_IsOn(go, "--fmask-rf")) esl_fatal("Error, --fmask-rf enabled, but alignment does not have RF annotation.");
+    if(esl_opt_GetBoolean(go, "--rf-is-mask")) esl_fatal("Error, --rf-is-mask enabled but msa does not have RF annotation.");
+    if(esl_opt_GetBoolean(go, "--keepins")) esl_fatal("Error, --keepins enabled but msa does not have RF annotation.");
+    if(esl_opt_GetBoolean(go, "--t-rmins")) esl_fatal("Error, --t-rmins enabled but msa does not have RF annotation.");
+  }
+
+  /* make sure we have pp_cons if --ppcons enabled */
+  if(esl_opt_IsOn(go, "--ppcons") && msa->pp_cons == NULL) esl_fatal("--ppcons was enabled, but the MSA has no consensus posterior probability (#=GC PP_cons) annotation.");
+
+
+  /* Determine value of do_rfonly, if TRUE, we'll automatically remove all non-gap RF columns,
+   * if(do_maskfile): if mlen (length of mask from file) == rflen, do_rfonly set to TRUE
+   * if(do_truncate): if msa->rf != NULL and --t-rmins enabled, then do_rfonly set to TRUE
+   * else           : if msa->rf != NULL and --keepins not enabled, then do_rfonly set to TRUE 
+   */
+  do_rfonly = FALSE; /* until proven otherwise */
+  if(do_maskfile) { 
+    if(msa->rf == NULL) { 
+      if((int) msa->alen != file_mlen) esl_fatal("Error, mask length (%d) not equal to alignment length (%d), and alignment has no #=GC RF annotation.", file_mlen, msa->alen);
+    }
+    else { /* msa->rf != NULL */
+      if(((int) msa->alen != file_mlen) && (rflen != file_mlen)) esl_fatal("Error, mask length (%d) not equal to alignment length (%d), and alignment has no #=GC RF annotation.", file_mlen, msa->alen);
+      if(rflen == file_mlen) do_rfonly = TRUE;
+    }
+  }
+  else if(do_truncate) { 
+    if(msa->rf != NULL && esl_opt_GetBoolean(go, "--t-rmins")) do_rfonly = TRUE; 
+    /* Note: we verified that --t-rmins was not enabled if msa->rf == NULL immediately after reading the msa above */
+  }
+  else if(do_rf_is_mask) { 
+    do_rfonly = TRUE; 
+  }
+  else { /* ! do_maskfile && ! do_truncate && ! do_rf_is_mask */
+    if(msa->rf != NULL && (! esl_opt_GetBoolean(go, "--keepins"))) do_rfonly = TRUE;
+  }
+
+  /****************************************************************
+   * Prepare for masking. This is done differently for each mode. *
+   ****************************************************************/
+  ESL_ALLOC(useme_final, sizeof(int) * msa->alen);
+  if(be_verbose) {
+    fprintf(stdout, "# %19s  %7s  %7s  %16s  %16s  %13s\n",  "",                    "",        "",        "all columns",        "non-gap RF colns","");
+    fprintf(stdout, "# %19s  %7s  %7s  %16s  %16s  %13s\n",  "",                    "",        "",        "----------------",   "----------------","");
+    fprintf(stdout, "# %19s  %7s  %7s  %7s  %7s  %7s  %7s  %13s\n",  "",                    "",        "non-gap", "num",     "num",     "num",     "num",     "gap RF colns");
+    fprintf(stdout, "# %-19s  %7s  %7s  %7s  %7s  %7s  %7s  %13s\n","mask mode",           "aln len",  "RF len", "kept",    "removed", "kept",    "removed", "auto removed?");
+    fprintf(stdout, "# %19s  %7s  %7s  %7s  %7s  %7s  %7s  %13s\n",  "-------------------", "-------", "-------", "-------", "-------", "-------", "-------", "-------------");
+  }
+
+  if(do_maskfile) { 
+    if(do_rfonly) { 
+      if((status = expand_rf_useme_to_alen(useme_mfile, rf2a_map, rflen, msa->alen, errbuf, useme_final)) != eslOK) esl_fatal(errbuf);
+    }
+    else { /* ! do_rfonly, copy useme_mfile to useme_final (we could do this differently...) */
+      esl_vec_ICopy(useme_mfile, msa->alen, useme_final);
+    }
+    if(be_verbose) { 
+      nkept    = esl_vec_ISum(useme_final, (int) msa->alen);
+      if(msa->rf == NULL) fprintf(stdout, "  %-19s  %7" PRId64 "  %7s  %7d  %7d  %7s  %7s  %13s\n", "maskfile", msa->alen, "-",   nkept, (int) msa->alen - nkept, "-", "-", "-");
+      else { 
+	nkept_rf = (do_rfonly) ? nkept: determine_nkept_rf(useme_final, i_am_rf, msa->alen);
+	fprintf(stdout, "  %-19s  %7" PRId64 "  %7d  %7d  %7d  %7d  %7d  %13s\n", "maskfile", msa->alen, rflen, nkept, (int) msa->alen - nkept, nkept_rf, rflen - nkept_rf, do_rfonly ? "yes" : "no");
+      }
+    }
+  }
+  if(do_truncate) { 
+    parse_coord_string(esl_opt_GetArg(go, 2), &tstart, &tend);  /* this dies with esl_fatal() if 2nd cmdline arg is invalid */
+    /* remember: user provided coords are 1..alen or 1..rflen, whereas all internal arrays use 0..alen-1 and 0..rflen-1 */
+    if(esl_opt_GetBoolean(go, "--t-rf")) { 
+      /* convert start and end positions read from <coords> 2nd cmdline arg from rf positions to full alignment positions */
+      if(tstart > rflen) esl_fatal("with -t and --t-rf, start coordinate value %d exceeds non-gap RF length of %d", tstart, rflen);
+      if(tend   > rflen) esl_fatal("with -t and --t-rf, end coordinate value %d exceeds non-gap RF length of %d", tend, rflen);
+      tstart = rf2a_map[(tstart-1)] + 1;
+      if(tend == 0) tend = (int) msa->alen; /* careful, don't set it to rflen and then convert with the map, you'll lose the inserts after the final non-gap RF posn */
+      else          tend = rf2a_map[(tend-1)] + 1;
+    }
+    else { 
+      if(tstart > msa->alen) esl_fatal("with -t, start coordinate value %d exceeds alignment length of %" PRId64, tstart, msa->alen);
+      if(tend   > msa->alen) esl_fatal("with -t, end coordinate value %d exceeds alignment length of %" PRId64, tend, msa->alen);
+      if(tend == 0) tend = (int) msa->alen;
+    }
+    /* create the truncation mask */
+    for(apos = 0;          apos < (tstart-1); apos++) useme_final[apos] = FALSE; 
+    for(apos = (tstart-1); apos < tend;       apos++) useme_final[apos] = do_rfonly ? i_am_rf[apos] : TRUE; /* only keep non-gap RF positions if do_rfonly */
+    for(apos = tend;       apos < msa->alen;  apos++) useme_final[apos] = FALSE;
+    if(be_verbose) { 
+      nkept = esl_vec_ISum(useme_final, (int) msa->alen);
+      if(msa->rf == NULL) fprintf(stdout, "  %-19s  %7" PRId64 "  %7s  %7d  %7d  %7s  %7s  %13s\n", "truncation", msa->alen, "-",  nkept, (int) msa->alen - nkept, "-", "-", "-");
+      else { 
+	nkept_rf = (do_rfonly) ? nkept: determine_nkept_rf(useme_final, i_am_rf, msa->alen);
+	fprintf(stdout, "  %-19s  %7" PRId64 "  %7d  %7d  %7d  %7d  %7d  %13s\n", "truncation", msa->alen, rflen, nkept, (int) msa->alen - nkept, nkept_rf, rflen - nkept_rf, do_rfonly ? "yes" : "no");
+      }
+    }
+  }
+  if(do_gapthresh) { 
+    if(! do_small) { 
+      if((status = count_gaps_in_msa(msa, abc, i_am_eligible, errbuf, &gap_ct)) != eslOK) esl_fatal(errbuf);
+    }
+    else { 
+      ESL_ALLOC(gap_ct, sizeof(double) * msa->alen);
+      for(apos = 0; apos < msa->alen; apos++) gap_ct[apos] = abc_ct[apos][abc->K]; 
+    }
+    if((status = mask_based_on_gapfreq(gap_ct, msa->alen, (do_small) ? nseq : msa->nseq, esl_opt_GetReal(go, "--gapthresh"), i_am_eligible, errbuf, &useme_g)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) { 
+      nkept    = esl_vec_ISum(useme_g, (int) msa->alen);
+      if(msa->rf == NULL) fprintf(stdout, "  %-19s  %7" PRId64 "  %7s  %7d  %7d  %7s  %7s  %13s\n", "gapfreq", msa->alen, "-",   nkept, (int) msa->alen - nkept, "-", "-", "-");
+      else { 
+	nkept_rf = (do_rfonly) ? nkept: determine_nkept_rf(useme_g, i_am_rf, msa->alen);
+	fprintf(stdout, "  %-19s  %7" PRId64 "  %7d  %7d  %7d  %7d  %7d  %13s\n", "gapfreq", msa->alen, rflen, nkept, (int) msa->alen - nkept, nkept_rf, rflen - nkept_rf, do_rfonly ? "yes" : "no");
+      }
+    }
+  }
+  if(do_postprob) { 
+    if(! do_small) { 
+      if((status = count_postprobs_in_msa(msa, abc, i_am_eligible, errbuf, &pp_ct)) != eslOK) esl_fatal(errbuf);
+    }
+    do_pavg    = esl_opt_IsOn(go, "--pavg");
+    pavg_min   = do_pavg ? esl_opt_GetReal(go, "--pavg") : 0.; /* if ! do_pavg, pavg_min is irrelevant */
+    do_ppcons  = esl_opt_IsOn(go, "--ppcons");
+    ppcons_min = do_ppcons ? esl_opt_GetReal(go, "--ppcons") : 0.; /* if ! do_ppcons, ppcons_min is irrelevant */
+    if((status = mask_based_on_postprobs(pp_ct, msa->alen, (do_small) ? nseq : msa->nseq, esl_opt_GetReal(go, "--pthresh"), esl_opt_GetReal(go, "--pfract"), do_pavg, pavg_min, do_ppcons, ppcons_min, msa->pp_cons, abc, i_am_eligible, esl_opt_GetBoolean(go, "--pallgapok"), errbuf, &useme_pp)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) { 
+      nkept = esl_vec_ISum(useme_pp, (int) msa->alen);
+      if(msa->rf == NULL) fprintf(stdout, "  %-19s  %7" PRId64 "  %7s  %7d  %7d  %7s  %7s  %13s\n", "postprobs", msa->alen, "-",   nkept, (int) msa->alen - nkept, "-", "-", "-");
+      else { 
+	nkept_rf = (do_rfonly) ? nkept: determine_nkept_rf(useme_pp, i_am_rf, msa->alen);
+	fprintf(stdout, "  %-19s  %7" PRId64 "  %7d  %7d  %7d  %7d  %7d  %13s\n", "postprobs", msa->alen, rflen, nkept, (int) msa->alen - nkept, nkept_rf, rflen - nkept_rf, do_rfonly ? "yes" : "no");
+      }
+    }
+  }
+  if(do_rf_is_mask) {
+    for(apos = 0; apos < msa->alen; apos++) useme_final[apos] = i_am_rf[apos];
+    if(be_verbose) fprintf(stdout, "  %-19s  %7" PRId64 "  %7d  %7d  %7d  %7d  %7d  %13s\n", "RF", msa->alen, rflen, rflen, (int) msa->alen - rflen, rflen, 0, "yes");
+  }
+
+  /*********************************************************************************
+   * Determine final mask if -p, -g or both were enabled (else we already have it) *
+   *********************************************************************************/
+  /* combine pp and gap mask if -p and -g */
+  if(do_gapthresh && do_postprob) { 
+    for(apos = 0; apos < msa->alen; apos++) 
+      useme_final[apos] = (useme_g[apos] && useme_pp[apos]) ? TRUE : FALSE;
+    nkept = esl_vec_ISum(useme_final, (int) msa->alen);
+    if(be_verbose) { 
+      nkept    = esl_vec_ISum(useme_final, (int) msa->alen);
+      if(msa->rf == NULL) fprintf(stdout, "  %-19s  %7" PRId64 "  %7s  %7d  %7d  %7s  %7s  %13s\n", "gapfreq&postprobs", msa->alen, "-",   nkept, (int) msa->alen - nkept, "-", "-", "-");
+      else { 
+	nkept_rf = (do_rfonly) ? nkept: determine_nkept_rf(useme_final, i_am_rf, msa->alen);
+	fprintf(stdout, "  %-19s  %7" PRId64 "  %7d  %7d  %7d  %7d  %7d  %13s\n", "gapfreq&postprobs", msa->alen, rflen, nkept, (int) msa->alen - nkept, nkept_rf, rflen - nkept_rf, do_rfonly ? "yes" : "no");
+      }
+    }
+  }
+  else if(do_gapthresh) {
+    esl_vec_ICopy(useme_g, msa->alen, useme_final);
+  }
+  else if(do_postprob) { 
+    esl_vec_ICopy(useme_pp, msa->alen, useme_final);
+  }
+  /* else (do_maskfile || do_rf_is_mask || do_truncate) we set useme_final above */
+
+  /************************************************
+   * Unless --small enabled, mask the alignment *
+   ************************************************/
+  if(! do_small) { 
+    if (abc && (abc->type == eslRNA || abc->type == eslDNA) &&
+	(status = esl_msa_RemoveBrokenBasepairs(msa, errbuf, useme_final)) != eslOK) esl_fatal(errbuf);
+    if ((status = esl_msa_ColumnSubset         (msa, errbuf, useme_final)) != eslOK) esl_fatal(errbuf);
+  } /* else we'll do it as we regurgitate it upon rereading below */
+
+  /************************
+   * Output the alignment *
+   ************************/
+  if (! do_small) 
+    {
+      eslx_msafile_Write(ofp, msa, outfmt);
+    }
+  else { 
+    /* do_small==TRUE, we don't have the full msa stored, 
+     * we must regurgitate it, removing unwanted columns as we do. 
+     * First, close then reopen alifile so we can reread (first) alignment (no esl_msafile_Position() exists yet) 
+     */
+    esl_msafile2_Close(afp2);
+    status = esl_msafile2_OpenDigital(abc, alifile, NULL, &afp2); /* this should work b/c it did on the first pass */
+    if      (status == eslENOTFOUND) esl_fatal("Second pass: alignment file %s doesn't exist or is not readable\n", alifile);
+    else if (status == eslEFORMAT)   esl_fatal("Second pass: couldn't determine format of alignment %s\n", alifile);
+    else if (status != eslOK)        esl_fatal("Second pass: alignment file open failed with error %d\n");
+    status = esl_msafile2_RegurgitatePfam(afp2, ofp, 
+					  -1, -1, -1, -1, /* max width of seq names, gf,gc,gr tags unknown, we'll use margin length from file */
+					  TRUE,           /* regurgitate stockholm header ? */
+					  TRUE,           /* regurgitate // trailer ? */
+					  TRUE,           /* regurgitate blank lines */
+					  TRUE,           /* regurgitate comments */
+					  TRUE,           /* regurgitate GF ? */
+					  TRUE,           /* regurgitate GS ? */
+					  TRUE,           /* regurgitate GC ? */
+					  TRUE,           /* regurgitate GR ? */
+					  TRUE,           /* regurgitate aseq ? */
+					  NULL,           /* regurgitate all seqs, not a subset */ 
+					  NULL,           /* regurgitate all seqs, not a subset */ 
+					  useme_final,    /* which columns to keep */
+					  NULL,           /* we're not adding any columns */
+					  msa->alen,      /* expected length, not strictly necessary */
+					  '.',            /* gapchar, irrelevant in this context */
+					  NULL,           /* don't return num seqs read */
+					  NULL);          /* don't return num seqs regurgitated */
+    if(status == eslEOF) esl_fatal("Second pass, unable to reread alignment");
+    if(status != eslOK)  esl_fatal("Second pass, error rereading alignment");
+  }
+  if(be_verbose) fprintf(stdout, "#\n");
+
+  /**************************************************************************************************************
+   * Output masks, if nec (we already checked above that msa->rf != NULL If any --*mask-rf options are enabled) *
+   **************************************************************************************************************/
+  if(esl_opt_IsOn(go, "--pmask-rf")) {
+    if((status = output_mask(esl_opt_GetString(go, "--pmask-rf"), useme_pp, i_am_rf, orig_alen, errbuf)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) fprintf(stdout, "# Posterior probability mask of non-gap RF length (%d) saved to file %s.\n", rflen, esl_opt_GetString(go, "--pmask-rf"));
+  }
+  if(esl_opt_IsOn(go, "--pmask-all")) {
+    if((status = output_mask(esl_opt_GetString(go, "--pmask-all"), useme_pp, NULL, orig_alen, errbuf)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) fprintf(stdout, "# Posterior probability mask of full alignment length (%d) saved to file %s.\n", (int) orig_alen, esl_opt_GetString(go, "--pmask-all"));
+  }
+  if(esl_opt_IsOn(go, "--gmask-rf")) {
+    if((status = output_mask(esl_opt_GetString(go, "--gmask-rf"), useme_g, i_am_rf, orig_alen, errbuf)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) fprintf(stdout, "# Gap frequency mask of non-gap RF length (%d) saved to file %s.\n", rflen, esl_opt_GetString(go, "--gmask-rf"));
+  }
+  if(esl_opt_IsOn(go, "--gmask-all")) {
+    if((status = output_mask(esl_opt_GetString(go, "--gmask-all"), useme_g, NULL, orig_alen, errbuf)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) fprintf(stdout, "# Gap frequency mask of full alignment length (%d) saved to file %s.\n", (int) orig_alen, esl_opt_GetString(go, "--gmask-all"));
+  }
+  if(esl_opt_IsOn(go, "--fmask-rf")) {
+    if((status = output_mask(esl_opt_GetString(go, "--fmask-rf"), useme_final, i_am_rf, orig_alen, errbuf)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) fprintf(stdout, "# Final mask of non-gap RF length (%d) saved to file %s.\n", rflen, esl_opt_GetString(go, "--fmask-rf"));
+  }
+  if(esl_opt_IsOn(go, "--fmask-all")) {
+    if((status = output_mask(esl_opt_GetString(go, "--fmask-all"), useme_final, NULL, orig_alen, errbuf)) != eslOK) esl_fatal(errbuf);
+    if(be_verbose) fprintf(stdout, "# Final mask of full alignment length (%d) saved to file %s.\n", (int) orig_alen, esl_opt_GetString(go, "--fmask-all"));
+  }
+  if(esl_opt_GetString(go, "-o") != NULL) { 
+    fclose(ofp); 
+    if(be_verbose) fprintf(stdout, "# Masked alignment saved to file %s.\n", esl_opt_GetString(go, "-o"));
+    esl_stopwatch_Stop(w);
+    esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  }
+
+  /* Clean up, normal return */
+  if (rf2a_map)      free(rf2a_map);
+  if (useme_mfile)   free(useme_mfile);
+  if (useme_g)       free(useme_g);
+  if (useme_pp)      free(useme_pp);
+  if (useme_final)   free(useme_final);
+  if (i_am_rf)       free(i_am_rf);
+  if (i_am_eligible) free(i_am_eligible);
+  if (pp_ct)         esl_Free2D((void **) pp_ct,  orig_alen);
+  if (abc_ct)        esl_Free2D((void **) abc_ct, orig_alen);
+  if (gap_ct)        free(gap_ct);
+  if (msa)           esl_msa_Destroy(msa);
+  if (abc)           esl_alphabet_Destroy(abc);
+  if (w)             esl_stopwatch_Destroy(w);
+  if (afp)           eslx_msafile_Close(afp);
+  if (afp2)          esl_msafile2_Close(afp2);
+  esl_getopts_Destroy(go);
+  return 0;
+
+ ERROR:
+  esl_fatal("Memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+/* read_mask_file
+ *
+ * Given the name of a mask file with 1 mask in it,
+ * read it, fill <useme> and return.
+ * 
+ * mlen length of the mask
+ * useme[0..i..mlen-1]: '1' if we should keep column i, '0' if not.
+ * 
+ * useme is allocated here, and must be freed by caller.
+ *
+ * The mask must only contain '0' or '1' characters.
+ * Lines prefixed with '#' are comment lines, and ignored.
+ * All whitespace (including newlines) is ignored.
+ *
+ * Returns:  eslOK on success and <ret_useme> is set as <useme>.
+ *           <ret_masklen> is set as <masklen>.
+ *           eslEINVAL if a non-0/1 character read
+ */
+int
+read_mask_file(char *filename, char *errbuf, int **ret_useme, int *ret_mlen)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  int            *useme = NULL;
+  int             toklen;
+  int             mlen = 0;
+  int             i;
+  void           *tmp;
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to open %s in read_mask_file\n", filename);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while ((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK) { 
+    if(mlen == 0) ESL_ALLOC (useme, sizeof(int) * toklen);
+    else          ESL_RALLOC(useme, tmp, sizeof(int) * (mlen+toklen));
+    for(i = 0; i < toklen; i++) { 
+      if(tok[i] == '0')      useme[mlen+i] = FALSE;
+      else if(tok[i] == '1') useme[mlen+i] = TRUE;
+      else ESL_FAIL(eslEINVAL, errbuf, "Mask character number %d is neither a '0', nor a '1' but a (%c). The mask must be only 1s and 0s.", mlen+i+1, tok[i]);
+    }
+    mlen += toklen;
+  }
+
+  *ret_useme = useme;
+  *ret_mlen = mlen;
+  esl_fileparser_Close(efp);
+  return eslOK;
+  
+ ERROR:
+  if(useme != NULL) free(useme);
+  ESL_FAIL(status, errbuf, "Ran out of memory while reading the mask file.");
+  return status; /* NEVERREACHED */
+}
+
+/* map_rfpos_to_apos
+ *                   
+ * Given an MSA, determine the alignment position of each
+ * non-gap RF (reference) position. The abc is only necessary
+ * for defining gap characters.
+ * 
+ * rf2a_map[0..rfpos..rflen-1] = apos, apos is the alignment position (0..msa->alen-1) that 
+ *                               is non-gap RF position rfpos+1 (for rfpos in 0..rflen-1) 
+ */
+static int map_rfpos_to_apos(ESL_MSA *msa, ESL_ALPHABET *abc, char *errbuf, int **ret_i_am_rf, int **ret_rf2a_map, int *ret_rflen)
+{
+  int status;
+  int rflen = 0;
+  int *rf2a_map = NULL;
+  int *i_am_rf = NULL;
+  int rfpos = 0;
+  int apos = 0;
+
+  /* contract check */
+  if(msa->rf == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, trying to map RF positions to alignment positions, but msa->rf is NULL.");
+
+  /* count non-gap RF columns */
+  for(apos = 0; apos < msa->alen; apos++) { 
+    if((! esl_abc_CIsGap(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsMissing(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsNonresidue(abc, msa->rf[apos])))
+      { 
+	rflen++;
+	/* I don't use esl_abc_CIsResidue() b/c that would return FALSE for 'x' with RNA and DNA */
+      }
+  }
+  /* build map */
+  ESL_ALLOC(i_am_rf, sizeof(int) * msa->alen);
+  ESL_ALLOC(rf2a_map, sizeof(int) * rflen);
+  for(apos = 0; apos < msa->alen; apos++) {
+    if((! esl_abc_CIsGap(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsMissing(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsNonresidue(abc, msa->rf[apos]))) { 
+      i_am_rf[apos] = TRUE;
+      rf2a_map[rfpos++] = apos;
+    }
+    else { 
+      i_am_rf[apos] = FALSE;
+    }
+  }
+  *ret_i_am_rf  = i_am_rf;
+  *ret_rf2a_map = rf2a_map;
+  *ret_rflen    = rflen;
+  return eslOK;
+
+ ERROR:
+  if(i_am_rf  != NULL) free(i_am_rf);
+  if(rf2a_map != NULL) free(rf2a_map);
+  ESL_FAIL(status, errbuf, "Error, out of memory while mapping RF positions to alignment positions.");
+}
+
+/* expand_rf_useme_to_alen
+ *                   
+ * Given a <useme_rf> array that corresponds to rflen (non-gap RF)
+ * length of an msa, expand it to msa->alen using the map <rf2a_map>
+ * from RF positions to alignment positions and overwrite the
+ * <useme_a> array as the alen expanded array.
+ * 
+ * If we encounter an error, we return non-eslOK status and
+ * and fill errbuf with error message.
+ */
+static int expand_rf_useme_to_alen(int *useme_rf, int *rf2a_map, int rflen, int alen, char *errbuf, int *useme_a)
+{
+  int rfpos = 0;
+
+  /* initialize */
+  esl_vec_ISet(useme_a, alen, FALSE);
+
+  for(rfpos = 0; rfpos < rflen; rfpos++) {
+    if(rf2a_map[rfpos] > (alen-1)) ESL_FAIL(eslEINVAL, errbuf, "Error in expand_rf_useme_to_alen(), rf2a_map[rfpos:%d] = %d, but alen is %d.", rfpos, rf2a_map[rfpos], alen);
+    useme_a[rf2a_map[rfpos]] = useme_rf[rfpos]; 
+  }
+
+  return eslOK;
+}
+
+/* count_gaps_in_msa()
+ *                   
+ * Given an msa, fill gap_ct[apos] with the number of gaps in position
+ * apos, for all positions apos=0..msa->alen-1. Return gap_ct as
+ * <ret_gap_ct>.  <countme>[0..apos..msa->alen-1] = TRUE if we should
+ * count for position apos, FALSE if we shouldn't (leave ngap[apos] =
+ * 0). (countme allows us to not waste time counting gaps in columns
+ * that we will automatically remove, for example those that are 
+ * gaps in the RF annotation).
+ * 
+ * If we encounter an error, we return non-eslOK status and and fill
+ * errbuf with error message.
+ * 
+ * Returns eslOK upon success, and points <ret_useme> at useme, caller
+ * must free it.
+ */
+static int count_gaps_in_msa(ESL_MSA *msa, ESL_ALPHABET *abc, int *countme, char *errbuf, double **ret_gap_ct)
+{
+  int status;
+  double *gap_ct = NULL;
+  int apos, i;
+
+  /* contract check, msa should be in text mode */
+  if(msa->flags & eslMSA_DIGITAL) ESL_FAIL(eslEINVAL, errbuf, "count_gaps_in_msa() contract violation, MSA is digitized");
+
+  ESL_ALLOC(gap_ct, sizeof(double) * msa->alen);
+  esl_vec_DSet(gap_ct, msa->alen, 0.);
+
+  for(apos = 0; apos < (int) msa->alen; apos++) { 
+    if(countme[apos]) { 
+      for(i = 0; i < msa->nseq; i++) { 
+	if(esl_abc_CIsGap(abc, msa->aseq[i][apos])) gap_ct[apos] += 1.0;
+      }
+    }
+  }
+  *ret_gap_ct = gap_ct;
+  return eslOK;
+
+ ERROR:
+  if(gap_ct != NULL) free(gap_ct);
+  ESL_FAIL(status, errbuf, "Error, out of memory while counting gaps in the msa.");
+  return status; /* NEVERREACHED */
+}
+
+/* mask_based_on_gapfreq()
+ *                   
+ * Determine which columns to include/exclude based on frequency of
+ * gaps. Gap counts per-position are provided in <gap_ct>. 
+ * If posn x gap freq is <= <gapthresh>, we set useme[x] to TRUE 
+ * (we'll keep x), else we set useme[x] to FALSE (we won't keep x). 
+ * <i_am_rf>[0..alen-1] defines which columns are eligible for 
+ * being used, if <i_am_rf[x]> useme[x] is set as FALSE, 
+ * regardless of gap frequency.
+ *
+ * If we encounter an error, we return non-eslOK status and
+ * and fill errbuf with error message.
+ * 
+ * Returns eslOK upon success, and points <ret_useme> at useme,
+ * caller must free it.
+ */
+static int mask_based_on_gapfreq(double *gap_ct, int64_t alen, int nseq, float gapthresh, int *i_am_eligible, char *errbuf, int **ret_useme)
+{
+  int status;
+  int *useme = NULL;
+  int apos;
+  float gapfreq;
+
+  /* contract check */
+  if(i_am_eligible == NULL) ESL_FAIL(eslEINVAL, errbuf, "mask_based_on_gapthresh() contract violation, i_am_eligible is NULL");
+
+  /* allocate */
+  ESL_ALLOC(useme, sizeof(int) * alen);
+
+  for(apos = 0; apos < alen; apos++) {
+    if(i_am_eligible[apos]) { 
+      gapfreq = gap_ct[apos] / (float) nseq;
+      useme[apos] = gapthresh < gapfreq ? FALSE : TRUE; /* should I be worried about imprecision? 0.5 compared to 0.5? */
+      /* printf("apos: %d gapfreq: %.3f\n", apos, gapfreq); */
+    }
+    else useme[apos] = FALSE;
+  }
+
+  *ret_useme = useme;
+  return eslOK;
+
+ ERROR:
+  if(useme != NULL) free(useme);
+  ESL_FAIL(status, errbuf, "Error, out of memory while masking based on gaps.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* get_pp_idx
+ *                   
+ * Given a #=GR PP or #=GC PP_cons character, return the appropriate index
+ * in a pp_ct[] vector. 
+ * '0' return 0;
+ * '1' return 1;
+ * '2' return 2;
+ * '3' return 3;
+ * '4' return 4;
+ * '5' return 5;
+ * '6' return 6;
+ * '7' return 7;
+ * '8' return 8;
+ * '9' return 9;
+ * '*' return 10;
+ * gap return 11;
+ * 
+ * Anything else (including missing or nonresidue) return -1;
+ *
+ * This mapping of PP chars to return values should probably be 
+ * stored in some internal map structure somewhere, instead of 
+ * only existing in this function as used by esl_msafile2_ReadInfoPfam().
+ */
+static int get_pp_idx(ESL_ALPHABET *abc, char ppchar)
+{
+  if(esl_abc_CIsGap(abc, ppchar)) return 11;
+  if(ppchar == '*')               return 10;
+  if(ppchar == '9')               return 9;
+  if(ppchar == '8')               return 8;
+  if(ppchar == '7')               return 7;
+  if(ppchar == '6')               return 6;
+  if(ppchar == '5')               return 5;
+  if(ppchar == '4')               return 4;
+  if(ppchar == '3')               return 3;
+  if(ppchar == '2')               return 2;
+  if(ppchar == '1')               return 1;
+  if(ppchar == '0')               return 0;
+  return -1;
+}
+
+/* count_postprobs_in_msa()
+ *                   
+ * Given an msa, fill nppA[apos] with the number of each possible
+ * posterior probability value in position apos, for all positions 
+ * apos=0..msa->alen-1. Return nppA as <ret_nppA>.  
+ * <countme>[0..apos..msa->alen-1] = TRUE if we should
+ * count for position apos, FALSE if we shouldn't (leave npp[apos][] =
+ * 0). (countme allows us to not waste time counting pps in columns
+ * that we will automatically remove, for example those that are 
+ * gaps in the RF annotation).
+ * 
+ * Possible PP values are: '0','1','2','3','4','5','6','7','8','9',
+ * '*','.','-','_'. Final 3 are gaps, and are treated identically.
+ *
+ * If we encounter an error, we return non-eslOK status and and fill
+ * errbuf with error message.
+ * 
+ * Returns eslOK upon success, and points <ret_useme> at useme, caller
+ * must free it.
+ */
+static int count_postprobs_in_msa(ESL_MSA *msa, ESL_ALPHABET *abc, int *countme, char *errbuf, double ***ret_pp_ct)
+{
+  int status;
+  double **pp_ct = NULL;
+  int apos, i;
+  int nppvals = 12; /* '0-9', '*' and gap */
+  int ppidx;
+
+  /* contract check, msa should be in text mode */
+  if(msa->flags & eslMSA_DIGITAL) ESL_FAIL(eslEINVAL, errbuf, "count_postprobs_in_msa() contract violation, MSA is digitized");
+  if(msa->pp == NULL) ESL_FAIL(eslEINVAL, errbuf, "count_postprobs_in_msa() contract violation, msa->pp is NULL");
+  
+  ESL_ALLOC(pp_ct, sizeof(double *) * msa->alen);
+  for(apos = 0; apos < msa->alen; apos++) { 
+    ESL_ALLOC(pp_ct[apos], sizeof(double) * nppvals);
+    esl_vec_DSet(pp_ct[apos], nppvals, 0.);
+  }
+    
+  for(apos = 0; apos < (int) msa->alen; apos++) { 
+    if(countme[apos]) { 
+      for(i = 0; i < msa->nseq; i++) { 
+	if(msa->pp[i] == NULL) { 
+	  ESL_FAIL(eslEINVAL, errbuf, "some but not all sequences have PP annotation in msa, seq %d does not.\n", (i+1));
+	}
+	ppidx = get_pp_idx(abc, msa->pp[i][apos]);
+	if(ppidx == 11) { /* special, gap idx */
+	  /* make sure the corresponding residue is also a gap */
+	  if(! esl_abc_CIsGap(abc, msa->aseq[i][apos])) ESL_FAIL(eslEINVAL, errbuf, "post prob annotation for seq: %d aln column: %d is a gap (%c), but seq res is not: (%c)", i, apos, msa->pp[i][apos], msa->aseq[i][apos]);
+	} 
+	pp_ct[apos][ppidx] += 1.; 
+      }
+    }
+  }
+  *ret_pp_ct = pp_ct;
+  return eslOK;
+
+ ERROR:
+  if(pp_ct != NULL) { 
+    for(apos = 0; apos < msa->alen; apos++) { 
+      if(pp_ct[apos] != NULL) free(pp_ct[apos]);
+    }
+    free(pp_ct);
+  }
+  ESL_FAIL(status, errbuf, "Error, out of memory while counting post probs in the msa.");
+  return status; /* NEVERREACHED */
+}
+
+/* mask_based_on_postprobs()
+ *                   
+ * Determine which columns to include/exclude based on frequency of
+ * post probs. Post prob counts per-position are provided in <pp_ct>.
+ * 
+ * If (do_pavg == FALSE && do_ppcons == FALSE):
+ * If more than <pfract> fraction of the non-gap residues in posn apos 
+ * are annotated with a post prob equal to or better than <pthresh>,
+ * we set useme[apos] to TRUE (we'll keep apos), else we set useme[apos] 
+ * to FALSE (we won't keep apos). 
+ * 
+ * If (do_pavg == TRUE):
+ * If average post prob in posn apos is equal to or better than <pavg_min>
+ * we set useme[apos] to TRUE, else we set useme[apos] to FALSE.
+ *
+ * If (do_ppcons == TRUE):
+ * If PP_cons post prob (from ppcons) in posn apos is equal to or better than 
+ * <ppcons_min> we set useme[apos] to TRUE, else we set useme[apos] to FALSE.
+ * 
+ * Note: either do_avg OR do_ppcons OR neither must be TRUE. Enforced by contract.
+ *
+ * <i_am_eligible>[0..alen-1] defines which columns are eligible for being
+ * used, if <i_am_eligible[apos]> useme[apos] is set as FALSE, regardless of pp
+ * frequency.
+ *
+ * Finally, unless <allgapok==TRUE> remove any column that contains all gaps, 
+ * i.e. that contains 0 aligned residues.
+ * 
+ * If we encounter an error, we return non-eslOK status and
+ * and fill errbuf with error message.
+ * 
+ * Returns eslOK upon success, and points <ret_useme> at useme,
+ * caller must free it.
+ */
+static int mask_based_on_postprobs(double **pp_ct, int64_t alen, int nseq, float pthresh, float pfract, int do_pavg, float pavg_min, int do_ppcons, float ppcons_min, char *pp_cons, ESL_ALPHABET *abc, int *i_am_eligible, int allgapok, char *errbuf, int **ret_useme)
+{
+  int status;
+  int *useme = NULL;
+  int apos;
+  float ppfreq;
+  double nnongap;
+  int nppvals = 12; /* '0-9', '*' and gap */
+  int ppidx_thresh;
+  int ppidx = 0; 
+  double ppcount = 0.;
+  double ppsum = 0.;
+  double pavg;
+  double ppminA[11];
+  double ppavgA[11];
+
+  ppminA[0]  = 0.00;
+  ppminA[1]  = 0.05;
+  ppminA[2]  = 0.15;
+  ppminA[3]  = 0.25;
+  ppminA[4]  = 0.35;
+  ppminA[5]  = 0.45;
+  ppminA[6]  = 0.55;
+  ppminA[7]  = 0.65;
+  ppminA[8]  = 0.75;
+  ppminA[9]  = 0.85;
+  ppminA[10] = 0.95;
+
+  ppavgA[0]  = 0.025;
+  ppavgA[1]  = 0.10;
+  ppavgA[2]  = 0.20;
+  ppavgA[3]  = 0.30;
+  ppavgA[4]  = 0.40;
+  ppavgA[5]  = 0.50;
+  ppavgA[6]  = 0.60;
+  ppavgA[7]  = 0.70;
+  ppavgA[8]  = 0.80;
+  ppavgA[9]  = 0.90;
+  ppavgA[10] = 0.975;
+  
+  /* contract check */
+  if(i_am_eligible == NULL) ESL_FAIL(eslEINVAL, errbuf, "mask_based_on_postprobs() contract violation, i_am_eligible is NULL");
+  if(do_pavg == TRUE && do_ppcons == TRUE) ESL_FAIL(eslEINVAL, errbuf, "mask_based_on_postprobs() contract violation, do_pavg and do_ppcons are both TRUE");
+  if(do_ppcons == TRUE && pp_cons == NULL)  ESL_FAIL(eslEINVAL, errbuf, "mask_based_on_postprobs() contract violation, do_ppcons is TRUE, but ppcons string is NULL");
+
+  /* allocate */
+  ESL_ALLOC(useme, sizeof(int) * alen);
+
+  if((! do_pavg) && (! do_ppcons)) { 
+    /* determine which pp_ct idx is the minimum we'll accept */
+    ppidx = 0;
+    while(ppidx < 10) { 
+      if((esl_FCompare(pthresh, ppminA[ppidx], eslSMALLX1) == eslOK) || pthresh < ppminA[ppidx]) break;
+      ppidx++;
+    }
+    ppidx_thresh = ppidx;
+  }
+
+  for(apos = 0; apos < alen; apos++) {
+    ppcount = 0.;
+    ppsum = 0.;
+    if(i_am_eligible[apos]) { /* consider this position */
+      nnongap = esl_vec_DSum(pp_ct[apos], nppvals) - pp_ct[apos][11]; 
+      if(esl_FCompare(nnongap, 0., eslSMALLX1) == eslOK) { /* effectively 0.0 */
+	useme[apos] = allgapok ? TRUE : FALSE; 
+      }
+      else { 
+	if(do_pavg) { 
+	  for(ppidx = 0; ppidx < 11; ppidx++) {
+	    ppsum += pp_ct[apos][ppidx] * ppavgA[ppidx]; /* Note: PP value is considered average of range, not minimum ('9' == 0.90 (0.95-0.85/2) */
+	    /* printf("apos: %d pp_idx: %d ct: %d sum: %.3f\n", apos, ppidx, pp_ct[apos][ppidx], ppsum);*/
+	  }
+	  pavg = ppsum / nnongap;
+	  useme[apos] = pavg < pavg_min? FALSE : TRUE; /* should I be worried about imprecision? 0.5 compared to 0.5? */
+	  /* printf("pavg: %.3f nnongap: %d useme[apos:%d]: %d pavg_min: %.3f\n", pavg, nnongap, apos, useme[apos], pavg_min);*/
+	}
+	else if(do_ppcons) { 
+	  ppidx = get_pp_idx(abc, pp_cons[apos]);
+	  if(ppidx == -1) ESL_FAIL(eslEFORMAT, errbuf, "bad #=GC PP_cons char: %c at position %d", pp_cons[apos], apos+1);
+	  if(ppidx != 11) { 
+	    useme[apos] = ((esl_FCompare(ppcons_min, ppminA[ppidx], eslSMALLX1) == eslOK) || ppminA[ppidx] > ppcons_min) ? TRUE : FALSE;
+	    /* printf("ppcons[%4d]: %c ppidx: %2d  useme %d ppcons_min: %.3f\n", apos, pp_cons[apos], ppidx, useme[apos], ppcons_min); */
+	  }
+	  else useme[apos] = FALSE; /* ppidx == 11, gap */ 
+	}
+	else { /* ! do_pavg and ! do_ppcons */
+	  for(ppidx = 10; ppidx >= ppidx_thresh; ppidx--) { 
+	    ppcount += pp_ct[apos][ppidx];
+	  }
+	  ppfreq = ppcount / nnongap;
+	  useme[apos] = (ppfreq < pfract) ? FALSE : TRUE; /* should I be worried about imprecision? 0.5 compared to 0.5? */
+	  /* printf("apos: %4d nnongap: %6d  ppfreq: %.3f pfract %.3f useme: %d ppidx_thresh: %d\n", apos, nnongap, ppfreq, pfract, useme[apos], ppidx_thresh); */
+	}
+      }
+    } /* end of if(i_am_eligible[apos]) */
+    else useme[apos] = FALSE;
+  }
+
+  *ret_useme = useme;
+  return eslOK;
+
+ ERROR:
+  if(useme != NULL) free(useme);
+  ESL_FAIL(status, errbuf, "Error, out of memory while masking based on postprobs.");
+  return status; /* NEVERREACHED */
+}
+
+/* output_mask
+ *
+ * Given a useme[0..apos..alen-1] array where useme[apos] = TRUE if we
+ * should keep apos TRUE, and FALSE if not, output a mask of '1's and
+ * '0's to the file <filename>. The mask is a string of exactly <alen>
+ * length with a '1' for each apos to keep, and a '0' for each apos we
+ * won't keep.
+ *
+ * If <i_am_eligible> is non-NULL, only output '1's or '0's for positions
+ * for which <i_am_eligible>[apos] is TRUE. This allows us to output
+ * masks that are only the length of the non-gap RF annotation in the file.
+ * 
+ * If we encounter an error, we return non-eslOK status and and fill
+ * errbuf with error message.
+ *
+ * Returns eslOK upon success. 
+ */
+static int
+output_mask(char *filename, int *useme, int *i_am_eligible, int64_t alen, char *errbuf)
+{
+  int status;
+  FILE *ofp;
+  int  apos;
+  char *mask = NULL;
+  int64_t mlen;
+  int mpos;
+
+  if(useme == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, trying to output a mask but useme is NULL.");
+
+  /* determine length of mask */
+  if(i_am_eligible == NULL) mlen = alen;
+  else                      mlen = esl_vec_ISum(i_am_eligible, (int) alen); /* relies on TRUE being equal to 1 */
+
+  ESL_ALLOC(mask, sizeof(char) * (mlen+1));
+
+  mpos = 0;
+  for (apos = 0; apos < alen; apos++) { 
+    if(i_am_eligible == NULL) { 
+      mask[mpos++] = useme[apos] ? '1' : '0';
+    }
+    else if(i_am_eligible[apos]) { 
+      mask[mpos++] = useme[apos] ? '1' : '0';
+    }
+  }
+  mask[mlen] = '\0';
+
+  if ((ofp = fopen(filename, "w")) == NULL) ESL_FAIL(eslFAIL, errbuf, "Failed to open output file %s\n", filename);
+  fprintf(ofp, "%s\n", mask);
+
+  free(mask);
+  fclose(ofp);
+  return eslOK;
+
+ ERROR: 
+  ESL_FAIL(status, errbuf, "Memory allocation error while outputting mask.");
+  return status; /* NEVERREACHED */
+}
+
+/* determine_nkept_rf()
+ *
+ * Determine number of alignment positions to be kept (useme[apos]==TRUE)
+ * are non-gap RF positions using useme[] and i_am_rf[], both of length
+ * <alen>. Return that number.
+ */
+static int
+determine_nkept_rf(int *useme, int *i_am_rf, int64_t len)
+{
+  int nkept_rf = 0;
+  int apos;
+  for(apos = 0; apos <  len; apos++) {
+    if(useme[apos] && i_am_rf[apos]) nkept_rf++; 
+  }
+  return nkept_rf;
+}
+
+static int
+parse_coord_string(const char *cstring, uint32_t *ret_start, uint32_t *ret_end)
+{
+  ESL_REGEXP *re = esl_regexp_Create();
+  char        tok1[32];
+  char        tok2[32];
+  uint32_t    start, end;      
+  
+  if (esl_regexp_Match(re, "^(\\d+)\\D+(\\d*)$", cstring) != eslOK) esl_fatal("with -t, 2nd cmdline arg must be coords <from>..<to>; %s not recognized", cstring);
+  if (esl_regexp_SubmatchCopy(re, 1, tok1, 32)            != eslOK) esl_fatal("Failed to find <from> coord in %s", cstring);
+  if (esl_regexp_SubmatchCopy(re, 2, tok2, 32)            != eslOK) esl_fatal("Failed to find <to> coord in %s",   cstring);
+
+  /* Check for invalid values for start and end. Note that regexp matching enforced that tok1 and tok2 are both >= 0 */
+  start = atol(tok1);
+  if(start == 0) esl_fatal("with -t, coordinates must be positive integers <from>..<to>, <from> coordinate read as '0'");
+  if(tok2[0] == '\0') { /* special case: user provided something like "100:", keep positions 100 until end of alignment */
+    end = 0;
+  }
+  else { 
+    end = atol(tok2);
+    if(end <= 0) esl_fatal("with -t, coordinates must be positive integers <from>..<to>, <to> coordinate read as '0'");
+    if(start > end) esl_fatal("with -t, 2nd cmdline arg <coords> must equal <from>..<to>, with <from> <= <to>");
+  }
+
+  *ret_start = start;
+  *ret_end   = end;
+
+  esl_regexp_Destroy(re);
+  return eslOK;
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-alimask.c $
+ * SVN $Id: esl-alistat.c 393 2009-09-27 12:04:55Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.itest.pl
new file mode 100755
index 0000000..deee0fb
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.itest.pl
@@ -0,0 +1,322 @@
+#! /usr/bin/perl
+
+# Integrated test of esl-alimask miniapp.
+#
+# Usage:     ./esl-alimask.itest.pl <esl-alimask binary> <tmpfile prefix>
+# Example:   ./esl-alimask.itest.pl ./esl-alimask        foo
+#
+# EPN, Wed Nov 25 11:23:55 2009
+
+$eslalimask = shift;
+$tmppfx      = shift;
+
+if (! -x "$eslalimask") { die "FAIL: didn't find esl-alimask binary $eslalimask"; }
+
+open(ALIFILE, ">$tmppfx.stk") || die "FAIL: couldn't open $tmppfx.stk for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+
+seq1         aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 PP 5789**..**88...*9.9****88.7..776543210
+seq2         ..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 PP ..********************************....
+seq3         ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 PP ..5555..4*44...3...888888.8..8899.....
+#=GC SS_cons ...............<...<<<<......>>>>>....
+#=GC PP_cons ..789*..8877...8...****99.8..99998....
+#=GC RF      ..AAAA..AAAA...C...CCCCCC.c..GGGGG....
+//
+EOF
+close ALIFILE;
+
+open(NORFALIFILE, ">$tmppfx.norf.stk") || die "FAIL: couldn't open $tmppfx.stk for writing no RF alifile";
+print NORFALIFILE << "EOF";
+# STOCKHOLM 1.0
+
+seq1         aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 PP 5789**..**88...*9.9****88.7..776543210
+seq2         ..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 PP ..********************************....
+seq3         ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 PP ..5555..4*44...3...888888.8..8899.....
+//
+EOF
+close NORFALIFILE;
+
+open(FULLMASKFILE, ">$tmppfx.fullmask") || die "FAIL: couldn't open $tmppfx.2 for writing full maskfile";
+print FULLMASKFILE << "EOF";
+#this is a full aln length mask file
+1010111011
+1110101101
+#in the middle
+1101101111
+01101010
+EOF
+close FULLMASKFILE;
+
+open(RFMASKFILE, ">$tmppfx.rfmask") || die "FAIL: couldn't open $tmppfx.rfmask for writing RF maskfile";
+print RFMASKFILE << "EOF";
+#this is an RF length mask file
+001110101110110111101
+EOF
+close RFMASKFILE;
+
+# Note: Not nearly all possible option combinations are tried, but each option is tested
+# in at least one context, usually what I think to be the most common context.
+#
+# We do 4 runs of all tests, each pairwise combination of with and without RF annotation 
+# in alifile and with and without --small.
+
+$afileA[0] = "$tmppfx.stk"; 
+$afileA[1] = "$tmppfx.stk";
+$afileA[2] = "$tmppfx.norf.stk"; 
+$afileA[3] = "$tmppfx.norf.stk"; 
+
+$smallA[0] = "";
+$smallA[1] = "--small";
+$smallA[2] = "";
+$smallA[3] = "--small";
+
+$have_rfA[0] = 1;
+$have_rfA[1] = 1;
+$have_rfA[2] = 0;
+$have_rfA[3] = 0;
+
+$output = `$eslalimask -h`;
+if ($? != 0)                                        { die "FAIL: esl-alimask failed unexpectedly"; }
+if ($output !~ /Usage: esl-alimask/)                { die "FAIL: help output not right"; }
+
+for($pass = 0; $pass < 4; $pass++) {
+    $pass2write = $pass+1;
+
+    $output = `$eslalimask $smallA[$pass] --rna $afileA[$pass] $tmppfx.fullmask 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($output !~ /aAAA\.AAAA\.\.c\.CCCCCC\.\.GGGgg/)                                        { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($output !~ /\.555\.4\*44\.\.\.\.888888\.\.899\.\./)                                   { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /:::::::::::::<<_______>>::/)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --dna $afileA[$pass] $tmppfx.rfmask 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /AAAACCCCCCGGGG/)                                                      { die "FAIL: alignment masked incorrectly"; }
+	if ($output !~ /5544388888889\./)                                                     { die "FAIL: alignment masked incorrectly"; }
+	if ($output !~ /::::<\-<<__>\->>/)                                                    { die "FAIL: alignment masked incorrectly"; }
+    }
+    system("$eslalimask $smallA[$pass] --amino -o $tmppfx.out $afileA[$pass] $tmppfx.fullmask > /dev/null");
+    $output = `cat $tmppfx.out`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($output !~ /aAAA\.AAAA\.\.c\.CCCCCC\.\.GGGgg/)                                        { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($output !~ /\.555\.4\*44\.\.\.\.888888\.\.899\.\./)                                   { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /.............<<<.....>>>../)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    
+    system("$eslalimask $smallA[$pass] --rna -q -o $tmppfx.out $afileA[$pass] $tmppfx.fullmask > /dev/null");
+    $output = `cat $tmppfx.out`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($output !~ /aAAA\.AAAA\.\.c\.CCCCCC\.\.GGGgg/)                                        { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($output !~ /\.555\.4\*44\.\.\.\.888888\.\.899\.\./)                                   { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /:::::::::::::<<_______>>::/)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --amino --informat pfam $afileA[$pass] $tmppfx.fullmask 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($output !~ /aAAA\.AAAA\.\.c\.CCCCCC\.\.GGGgg/)                                        { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($output !~ /\.555\.4\*44\.\.\.\.888888\.\.899\.\./)                                   { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /.............<<<.....>>>../)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --rna --outformat pfam $afileA[$pass] $tmppfx.fullmask 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($output !~ /aAAA\.AAAA\.\.c\.CCCCCC\.\.GGGgg/)                                        { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($output !~ /\.555\.4\*44\.\.\.\.888888\.\.899\.\./)                                   { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /:::::::::::::<<_______>>::/)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    
+    if($smallA[$pass] eq "") { 
+	$output = `$eslalimask $smallA[$pass] --rna --outformat a2m $afileA[$pass] $tmppfx.fullmask 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if($have_rfA[$pass]) { 
+	    if ($output !~ /aAAAAAAAcCCCCCCGGGgg/)                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	}
+	else { 
+            if ($output !~ /AAAAAAAACCCCCCCGGGGG/)                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	}
+
+	$output = `$eslalimask $smallA[$pass] --rna --outformat psiblast $afileA[$pass] $tmppfx.fullmask 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if($have_rfA[$pass]) { 
+	    if ($output !~ /aAAA\-AAAA\-\-c\-CCCCCC\-\-GGGgg/)                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	}
+	else {
+	    if ($output !~ /AAAA\-AAAA\-\-C\-CCCCCC\-\-GGGGG/)                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	}
+
+	$output = `$eslalimask $smallA[$pass] --rna --outformat afa $afileA[$pass] $tmppfx.fullmask 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /aAAA\.AAAA\.\.c\.CCCCCC\.\.GGGgg/)                                    { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --rna -t $afileA[$pass] 12-23 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($output !~ /A\.\.\.Cc\.cCCCC/)                                                        { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($output !~ /4\.\.\.3\.\.\.8888/)                                                      { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /\s+::::::::::::\s+/)                                                  { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -t --t-rf $afileA[$pass] 18: 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /GGGGgggg/)                                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /76543210/)                                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+::::::::\s+/)                                                      { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -t --t-rmins --t-rf $afileA[$pass] 18: 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /GGGG/)                                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /7654/)                                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+::::\s+/)                                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -t --t-rmins --t-rf $afileA[$pass] 18: 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /GGGG/)                                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /7654/)                                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+::::\s+/)                                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --rna -g $afileA[$pass] 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /AAAAAAAACCCCCCCCGGGGG/)                                               { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /55554\*44388888888899\./)                                             { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /::::::::<<<<<___>>>>>/)                                               { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /AAAAAAAAC\.\.CCCCCCCGGGG\-/)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /55554\*443\.\.88888888899\./)                                         { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }	
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -g --keepins $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /AAAAAAAACccCCCCCCCGGGGG/)                                             { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /55554\*443..88888888899*/)                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /::::::::<\-\-<<<<___>>>>>/)                                           { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -g --keepins --gapthresh 0.3 $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /AAAAAAAACCCCCCCCGGGG/)                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /55554\*44388888888899/)                                               { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /:::::::::<<<<___>>>>/)                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -g --keepins --gapthresh 0.7 $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /\.\.AAAAaAAAAaacCcccCCCCCCcCccGGGGG\.\.\.\./)                         { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\.\.5555.4\*44\.\.\.3\.\.\.888888\.8\.\.8899\.\.\.\.\./)              { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /::::::::::::::<\-\-\-<<<<______>>>>>::::/)                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --rna -g --keepins --gapthresh 0.7 $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /\.\.AAAAaAAAAaacCcccCCCCCCcCccGGGGG\.\.\.\./)                         { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\.\.5555.4\*44\.\.\.3\.\.\.888888\.8\.\.8899\.\.\.\.\./)              { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /::::::::::::::<\-\-\-<<<<______>>>>>::::/)                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --gmask-all $tmppfx.gmaskall --rna -g --gapthresh 0.7 $afileA[$pass] 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    $output = `cat $tmppfx.gmaskall`;
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /00111100111100010001111110100111110000/)                              { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	$output = `$eslalimask $smallA[$pass] --gmask-rf $tmppfx.gmaskrf --rna -g --gapthresh 0.7 $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	$output = `cat $tmppfx.gmaskrf`;
+	if ($output !~ /111111111111111111111/)                                               { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /11111110111111111111111111111111111111/)                              { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] -p --rna $afileA[$pass] 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /\s+A\s+/)                                                             { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+8\s+/)                                                             { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+\:\s+/)                                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /\s+a\.Aaaccccc\s+/)                                                   { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+\*\*\*\*\*\*\*\*\*\*\s+/)                                          { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --pavg 0.73 -p --rna $afileA[$pass] 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /\s+AAAAAACCCCCCCCGGGG\s+/)                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+55554\*388888888899\s+/)                                           { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+:::::::<<<<___>>>>\s+/)                                            { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /\s+AAAAa\.AAaacCcccCCCCCCcCccGGGG\s+/)                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+5555\.\.4\*\.\.\.3\.\.\.888888\.8\.\.8899\s+/)                     { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    if ($have_rfA[$pass]) { 
+	$output = `$eslalimask $smallA[$pass] --ppcons 0.85 -p --rna $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	if ($output !~ /\s+AACCCCCCGGGG\s+/)                                                  { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+9\*\*\*\*\*999999\s+/)                                             { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --pthresh 0.85 --pfract 0.5 --rna -p $afileA[$pass] 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /\s+AAAAACCCCCGG\-\s+/)                                                { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+5554\*3888899\.\s+/)                                               { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /\s+AAA\.\.AA\.\.\.Cc\.cCCCC\.\.\.GGG\s+/)                             { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	if ($output !~ /\s+555\.\.4\*\.\.\.3\.\.\.8888\.\.\.99\.\s+/)                         { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalimask $smallA[$pass] --pmask-all $tmppfx.pmaskall --rna -p --pthresh 0.75 --pfract 0.7 $afileA[$pass] 2>&1`;
+    if ($? != 0)                                                                              { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+    $output = `cat $tmppfx.pmaskall`;
+    if ($have_rfA[$pass]) { 
+	if ($output !~ /00000000010000000001111110000000000000/)                              { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+	$output = `$eslalimask $smallA[$pass] --pmask-rf $tmppfx.pmaskrf --rna -p --pthresh 0.75 --pfract 0.7 $afileA[$pass] 2>&1`;
+	if ($? != 0)                                                                          { die "FAIL: esl-alimask failed unexpectedly on pass $pass2write"; }
+	$output = `cat $tmppfx.pmaskrf`;
+	if ($output !~ /000001000111111000000/)                                               { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /00000011010011101111111111011000000000/)                              { die "FAIL: alignment masked incorrectly on pass $pass2write"; }
+    }
+}
+    
+print "ok\n"; 
+unlink "$tmppfx.stk";
+unlink "$tmppfx.norf.stk";
+unlink "$tmppfx.fullmask";
+unlink "$tmppfx.rfmask";
+unlink "$tmppfx.gmaskrf";
+unlink "$tmppfx.gmaskall";
+unlink "$tmppfx.pmaskrf";
+unlink "$tmppfx.pmaskall";
+unlink "$tmppfx.out";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.man
new file mode 100755
index 0000000..6db488f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimask.man
@@ -0,0 +1,580 @@
+.TH "esl-alimask" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-alimask - remove columns from a multiple sequence alignment
+
+.SH SYNOPSIS
+
+.TP 
+Remove columns based on a mask in an input file:
+.B esl-alimask
+.I [options]
+.I msafile
+.I maskfile
+
+.TP 
+Remove a contiguous set of columns at the start and end of an alignment:
+.B esl-alimask -t
+.I [options]
+.I msafile
+.I coords
+
+.TP 
+Remove columns based on their frequency of gaps:
+.B esl-alimask -g
+.I [options]
+.I msafile
+
+.TP 
+Remove columns based on their posterior probability annotation:
+.B esl-alimask -p
+.I [options]
+.I msafile
+
+.TP 
+Only remove columns that are gaps in the RF annotation:
+.B esl-alimask --rf-is-mask
+.I [options]
+.I msafile
+
+.TP
+The 
+.B -g 
+and 
+.B -p
+options may be used in combination. 
+
+.SH DESCRIPTION
+
+.B esl-alimask
+reads a single input alignment, removes some columns from it
+(i.e. masks it), and outputs the masked alignment.
+
+.B esl-alimask 
+can be run in several different modes.
+
+.B esl-alimask 
+runs in "mask file mode" by default when two
+command-line arguments
+.I (msafile
+and 
+.I maskfile)
+are supplied. In this mode, a bit-vector mask in the 
+.I maskfile
+defines which columns to keep/remove.  The mask is a string that may
+only contain the characters '0' and '1'. A '0' at position x of the
+mask indicates that column x is excluded by the mask and should be
+removed during masking.  A '1' at position x of the mask indicates
+that column x is included by the mask and should not be removed during
+masking.  All lines in the
+.I maskfile
+that begin with '#' are considered comment lines and are ignored.  All
+non-whitespace characters in non-comment lines are considered to be
+part of the mask. The length of the mask must equal either the total
+number of columns in the (first) alignment in
+.I msafile,
+or the number of columns that are not gaps in the RF annotation of that
+alignment. The latter case is only valid if
+.I msafile
+is in Stockholm format and contains '#=GC RF' annotation. 
+If the mask length is equal to the non-gap RF length, all gap
+RF columns will automatically be removed.
+
+.B esl-alimask 
+runs in "truncation mode" if the 
+.B -t 
+option is used along with two command line arguments
+.I (msafile
+and 
+.I coords
+). In this mode,
+the alignment will be truncated by removing a contiguous set of
+columns from the beginning and end of the alignment. The second
+command line argument is the 
+.I coords
+string, that specifies what range of columns to keep in the
+alignment, all columns outside of this range will be removed.
+The
+.I coords
+string consists of start and end coordinates separated
+by any nonnumeric, nonwhitespace character or characters you like; for
+example,
+.I 23..100
+, 
+.I 23/100
+, or
+.I 23-100
+all work. To keep all alignment columns beginning at 23 until the
+end of the alignment, you 
+can omit the 
+.I end
+; for example,
+.I 23:
+would work.
+If the 
+.B --t-rf 
+option is used in combination with 
+.B -t,
+the coordinates in 
+.I coords
+are interpreted as non-gap RF column coordinates. For example,
+with 
+.B --t-rf, 
+a 
+.I coords 
+string of
+.I 23-100 
+would remove all columns before the 23rd non-gap residue in
+the "#=GC RF" annotation and after the 100th non-gap RF residue.
+
+.B esl-alimask 
+runs in "RF mask" mode if the
+.B --rf-is-mask
+option is enabled. In this mode, the alignment must be in Stockholm
+format and contain '#=GC RF' annotation. 
+.B esl-alimask
+will simply remove all columns that are gaps in the RF annotation.
+
+.B esl-alimask
+runs in "gap frequency mode" if 
+.B -g 
+is enabled. In this mode columns for which greater than 
+.I <f>
+fraction of the aligned sequences have gap residues will be removed. 
+By default, 
+.I <f>
+is 0.5, but this value can be changed to 
+.I <f>
+with the 
+.BI --gapthresh " <f>" 
+option. In this mode, if the alignment is in Stockholm format and
+has RF annotation, then all columns that are gaps in the RF annotation
+will automatically be removed, unless
+.B --saveins
+is enabled.
+
+.B esl-alimask
+runs in "posterior probability mode" if 
+.B -p 
+is enabled. In this mode,  masking is based on posterior probability annotation,
+and the input alignment must be in Stockholm format and contain '#=GR
+PP' (posterior probability) annotation for all sequences. As a special
+case, if 
+.B -p 
+is used in combination with 
+.B --ppcons,
+then the input alignment need not have '#=GR PP' annotation, but must
+contain '#=GC PP_cons' (posterior probability consensus) annotation.
+
+Characters in Stockholm alignment posterior probability annotation
+(both '#=GR PP' and '#=GC PP_cons') can have 12 possible values: the
+ten digits '0-9', '*', and '.'. If '.', the position must correspond to
+a gap in the sequence (for '#=GR PP') or in the RF annotation (for '#=GC
+PP_cons').  A value of '0' indicates a posterior probability of
+between 0.0 and 0.05, '1' indicates between 0.05 and 0.15, '2'
+indicates between 0.15 and 0.25 and so on up to '9' which indicates
+between 0.85 and 0.95. A value of '*' indicates a posterior
+probability of between 0.95 and 1.0. Higher posterior probabilities
+correspond to greater confidence that the aligned residue belongs
+where it appears in the alignment.
+
+When
+.B -p 
+is enabled with 
+.BI --ppcons " <x>",
+columns which have a consensus posterior probability of less than
+.I <x>
+will be removed during masking, and all other columns will not be removed.
+
+When
+.B -p 
+is enabled without
+.B --ppcons,
+the number of each possible PP value in each column is counted. 
+If 
+.I <x>
+fraction of the sequences that contain aligned residues (i.e. do not
+contain gaps) in a column have a posterior probability 
+greater than or equal to 
+.I <y>,
+then that column will not be removed during masking. All columns that
+do not meet this criterion will be removed. By default, the values of both
+.I <x>
+and 
+.I <y>
+are 0.95, but they can be changed with the 
+.BI --pfract " <x>"
+and 
+.BI --pthresh " <y>" 
+options, respectively.
+
+In posterior probability mode, all columns that have 0 residues
+(i.e. that are 100% gaps) will be automatically removed, unless the 
+.B --pallgapok
+option is enabled, in which case such columns will not be removed.
+
+Importantly, during posterior probability masking, unless
+.B --pavg 
+is used, PP annotation
+values are always considered to be the minimum numerical value in
+their corresponding range. For example, a PP '9' character is converted
+to a numerical posterior probability of 0.85. If
+.B --pavg 
+is used, PP annotation values are considered to be the average
+numerical value in their range. For example, a PP '9' character is
+converted to a numerical posterior probability of 0.90.
+
+In posterior probability mode, if the alignment is in Stockholm format and
+has RF annotation, then all columns that are gaps in the RF annotation
+will automatically be removed, unless
+.B --saveins
+is enabled.
+
+A single run of
+.B esl-alimask
+can perform both gap frequency-based masking and posterior
+probability-based masking if both the 
+.B -g
+and
+.B -p
+options are enabled. In this case, a gap frequency-based mask and a
+posterior probability-based mask are independently computed.  These
+two masks are combined to create the final mask using a logical 'and'
+operation. Any column that is to be removed by either the gap or PP
+mask will be removed by the final mask.
+
+With the
+.B --small
+option, 
+.B esl-alimask
+will operate in memory saving mode and the required RAM for the masking
+will be minimal (usually less than a Mb) and independent of the
+alignment size. To use 
+.B --small,
+the alignment alphabet must be specified with either
+.B --amino,
+.B --dna, 
+or 
+.B --rna,
+and the alignment must be in Pfam format (non-interleaved, 1
+line/sequence Stockholm format). Pfam format is the default output
+format of INFERNAL's
+.B cmalign 
+program. Without 
+.B --small
+the required RAM will be equal to roughly the size of the first input
+alignment (the size of the alignment file itself if it only contains
+one alignment).
+
+.SH OUTPUT
+
+By default, 
+.B esl-alimask
+will print only the masked alignment to stdout and then exit.
+If the
+.BI -o " <f>"
+option is used, the alignment will be saved to file 
+.I <f>
+, and information on the number of columns kept and removed will be
+printed to stdout. If 
+.B -q
+is used in combination with 
+.B -o,
+nothing is printed to stdout.
+
+The mask(s) computed by 
+.B esl-alimask
+when the 
+.B -t
+,
+.B -p
+,
+.B -g
+,
+or
+.B --rf-is-mask
+options are used can be saved to output files using the options
+.BI --fmask-rf " <f>",
+.BI --fmask-all " <f>",
+.BI --gmask-rf " <f>",
+.BI --gmask-all " <f>",
+.BI --pmask-rf " <f>",
+and 
+.BI --pmask-all " <f>".
+In all cases, 
+.I <f> 
+will contain a single line, a bit vector of length
+.B n,
+where 
+.B n 
+is the either the total number of columns in the alignment (for the
+options suffixed with 'all') or the number of non-gap columns in the
+RF annotation (for the options suffixed with 'rf'). The mask will be a
+string of '0' and '1' characters: a '0' at position x in the mask
+indicates column x was removed (excluded) by the mask, and a '1' at
+position x indicates column x was kept (included) by the mask. For
+the 'rf' suffixed options, the mask only applies to non-gap RF
+columns.  The options beginning with 'f' will save the 'final' mask
+used to keep/remove columns from the alignment. The options beginning
+with 'g' save the masks based on gap frequency and require
+.B -g.
+The options beginning with 'p' save the masks based on posterior
+probabilities and require 
+.B -p.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI -o " <f>"
+Output the final, masked alignment to file 
+.I <f>
+instead of to
+.I stdout.
+When this option is used, information about the number of columns
+kept/removed is printed to stdout.
+
+.TP
+.B -q
+Be quiet; do not print anything to stdout. 
+This option can only be used in combination with the
+.B -o 
+option.
+
+.TP
+.B --small
+Operate in memory saving mode. Required RAM will be independent of the
+size of the input alignment to mask, instead of roughly the size of the
+input alignment. When enabled, the alignment must be in
+Pfam Stockholm (non-interleaved 1 line/seq) format (see
+esl-reformat) and the output alignment will be in Pfam format.
+
+.TP 
+.BI --informat "<s> "
+Specify that the input alignment be format 
+.I <s>.
+Choices for 
+.I <s> 
+are: 'stockholm', 'pfam', 'a2m', 'psiblast', 'afa'. 'pfam' is a special
+case of Stockholm format in which each sequence is placed on a single
+line, instead of being interleaved; 'afa' is aligned FASTA. By default
+alignments are assumed to be in Stockholm format (either interleaved
+or Pfam), unless 
+.B --small
+is enabled, in which case alignments are assumed to be in 
+Pfam format.
+
+.TP 
+.BI --outformat " <s>"
+Specify that the output alignment be format 
+.I <s>.
+Choices for 
+.I <s> 
+are: 'stockholm', 'pfam', 'a2m', 'psiblast', 'afa'. 
+By default the alignment is output in interleaved Stockholm format unless 
+.B --small
+is enabled, in which case the alignment is output in Pfam format.
+
+.TP 
+.BI --fmask-rf " <f>"
+Save the non-gap RF-length final mask used to mask the alignment
+to file
+.I <f>.
+The input alignment must be in Stockholm format and contain '#=GC RF'
+annotation for this option to be valid. See the OUTPUT section above for
+more details on output mask files.
+
+.TP 
+.BI --fmask-all " <f>"
+Save the full alignment-length final mask used to mask the alignment
+to file
+.I <f>.
+See the OUTPUT section above for more details on output mask files.
+
+.TP 
+.B --amino
+Specify that the input alignment is a protein alignment.
+By default,
+.B esl-alimask
+will try to autodetect the alphabet, but if the alignment is
+sufficiently small it may be ambiguous. This option defines the
+alphabet as protein. Importantly, if 
+.B --small
+is enabled, the alphabet must be specified with either
+.B --amino,
+.B --dna,
+or 
+.B --rna.
+
+.TP 
+.B --dna
+Specify that the input alignment is a DNA alignment.
+
+.TP 
+.B --rna
+Specify that the input alignment is an RNA alignment. 
+
+.TP 
+.B --t-rf
+With -t, specify that the start and end coordinates defined in
+the second command line argument 
+.I coords
+correspond to non-gap RF coordinates. To use this option, the
+alignment must be in Stockholm format and have "#=GC RF"
+annotation. See the DESCRIPTION section for an example of using the
+.B --t-rf
+option.
+
+.TP 
+.B --t-rmins
+With -t, specify that all columns that are gaps in the reference (RF)
+annotation in between the specified start and end coordinates be
+removed. By default, these columns will be kept.
+To use this option, the alignment must be in  Stockholm format and
+have "#=GC RF" annotation. 
+
+.TP 
+.BI --gapthresh " <x>"
+With -g, specify that a column is kept (included by mask) if no more
+than 
+.I <f>
+fraction of sequences in the alignment have a gap ('.', '-', or '_')
+at that position. All other columns are removed (excluded by mask).
+By default, 
+.I <x>
+is 0.5.
+
+.TP 
+.BI --gmask-rf " <f>"
+Save the non-gap RF-length gap frequency-based mask used to mask the alignment
+to file
+.I <f>.
+The input alignment must be in Stockholm format and contain '#=GC RF'
+annotation for this option to be valid. See the OUTPUT section above for
+more details on output mask files.
+
+.TP 
+.BI --gmask-all " <f>"
+Save the full alignment-length gap frequency-based mask used to mask the alignment
+to file
+.I <f>.
+See the OUTPUT section above for more details on output mask files.
+
+
+.TP 
+.BI --pfract " <x>"
+With -p, specify that a column is kept (included by mask) if the
+fraction of sequences with a non-gap residue in that column with a 
+posterior probability of at least 
+.I <y>
+(from 
+.BI --pthresh " <y>"
+) is 
+.I <x>
+or greater. All other columns are removed (excluded by mask)
+By default 
+.I <x> 
+is 0.95. 
+
+.TP 
+.BI --pthresh " <y>"
+With -p, specify that a column is kept (included by mask) if 
+.I <x>
+(from 
+.BI --pfract " <x>"
+)
+fraction of sequences with a non-gap residue in that column have a 
+posterior probability of at least 
+.I <y>. 
+All other columns are removed (excluded by mask).
+By default 
+.I <y> 
+is 0.95. See the DESCRIPTION section for more on
+posterior probability (PP) masking. 
+Due to the granularity of the PP annotation, different 
+.I <y>
+values within a range covered by a single PP character will be
+have the same effect on masking. For example, using 
+.BI --pthresh " 0.86" 
+will have the same effect as using
+.BI --pthresh " 0.94".
+
+.TP 
+.BI --pavg " <x>"
+With -p, specify that a column is kept (included by mask) if 
+the average posterior probability of non-gap residues in that column
+is at least
+.I <x>.
+See the DESCRIPTION section for more on
+posterior probability (PP) masking. 
+
+.TP 
+.BI --ppcons " <x>"
+With -p, use the '#=GC PP_cons' annotation to define which columns to
+keep/remove. A column is kept (included by mask) if the PP_cons value
+for that column is 
+.I <x>
+or greater. Otherwise it is removed.
+
+.TP 
+.B --pallgapok
+With -p, do not automatically remove any columns that are 100% gaps
+(i.e. contain 0 aligned residues). By default, such columns will be
+removed.
+
+.TP 
+.BI --pmask-rf " <f>"
+Save the non-gap RF-length posterior probability-based mask used to mask the alignment
+to file
+.I <f>.
+The input alignment must be in Stockholm format and contain '#=GC RF'
+annotation for this option to be valid. See the OUTPUT section above for
+more details on output mask files.
+
+.TP 
+.BI --pmask-all " <f>"
+Save the full alignment-length posterior probability-based mask used to mask the alignment
+to file
+.I <f>.
+See the OUTPUT section above for more details on output mask files.
+
+
+.TP
+.B --keepins 
+If 
+.B -p 
+and/or
+.B -g
+is enabled and the alignment is in Stockholm or Pfam format and has '#=GC RF'
+annotation, then allow columns that are gaps in the RF annotation to
+possibly be kept. By default, all gap RF columns would be removed
+automatically, but with this option enabled gap and non-gap RF columns
+are treated identically. 
+To automatically remove all gap RF columns when using a 
+.I maskfile 
+, then define the mask in 
+.I maskfile
+as having length equal to the non-gap RF length in the alignment.
+To automatically remove all gap RF columns when using 
+.B -t,
+use the
+.B --t-rmins
+option.
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.c
new file mode 100755
index 0000000..f2f3405
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.c
@@ -0,0 +1,1810 @@
+/* Merge alignments into a single alignment based on their reference (RF) annotation.
+ * 
+ * Special care is taken to be consistent with missing data '~'
+ * annotation in two different contexts. 
+ * 
+ * First, from Infernal 1.1rc2 and later cmalign and cmsearch -A
+ * output alignments: '~' can occur in GC RF and SS_cons
+ * annotation. The '~' after a given nongap/nonmissing RF position x
+ * (and before nongap/nonmissing RF position x+1) must all occur 5' of
+ * all inserted positions (gap: '.') that occur between x and x+1.
+ *
+ * Second, from HMMER3, hmmbuild reads and writes '~' in sequences to
+ * mark the ends of fragments. Any fragment must begin and end with a
+ * contiguous string of 1 or more '~'. '~' characters are not allowed
+ * within sequences anywhere except within these leading and trailing
+ * contiguous stretches.
+ * 
+ * esl-alimerge will accept as input and produce as output alignments
+ * that are consistent with both of these conventions.
+ *
+ * EPN, Fri Nov 20 16:28:59 2009
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_distance.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile2.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+
+static char banner[] = "merge alignments based on their reference (RF) annotation";
+static char usage1[]  = "[options] <alignment file 1> <alignment file 2>";
+static char usage2[]  = "[options] --list <file listing n > 1 ali files to merge>\n\
+\n\
+  Input alignments must be in Stockholm or Pfam format.\n\
+  Ouput format choices\n\
+  --------------------\n\
+  stockholm [default]\n\
+  pfam\n\
+  a2m\n\
+  psiblast\n\
+  afa";
+
+static void read_list_file(char *listfile, char ***ret_alifile_list, int *ret_nalifile);
+static int  update_maxgap_and_maxmis(ESL_MSA *msa, char *errbuf, int clen, int64_t alen, int *maxgap, int *maxmis); 
+static int  validate_and_copy_msa_annotation(const ESL_GETOPTS *go, int outfmt, ESL_MSA *mmsa, ESL_MSA **msaA, int clen, int nmsa, int alen_merged, int *maxgap, int *maxmis, char *errbuf);
+static int  add_msa(ESL_MSA *mmsa, char *errbuf, ESL_MSA *msa_to_add, int *maxgap, int *maxmis, int clen, int alen_merged);
+static int  inflate_string_with_gaps_and_missing(char *src_str, int64_t src_len, int64_t dst_len, int *ngapA, char gapchar, int *nmisA, char mischar, char **ret_dst_str);
+static int  inflate_seq_with_gaps(const ESL_ALPHABET *abc, char *src_str, int64_t src_len, int64_t dst_len, int *ngapA, char gapchar, char **ret_dst_str);
+static int  validate_no_nongaps_in_rf_gaps(const ESL_ALPHABET *abc, char *rf_str, char *other_str, int64_t len);
+static int  determine_gap_columns_to_add(ESL_MSA *msa, int *maxgap, int *maxmis, int clen, int **ret_ngapA, int **ret_nmisA, int **ret_neitherA, char *errbuf);
+static void write_pfam_msa_top(FILE *fp, ESL_MSA *msa);
+static void write_pfam_msa_gc(FILE *fp, ESL_MSA *msa, int maxwidth);
+static int64_t maxwidth(char **s, int n);
+static int  rfchar_is_nongap_nonmissing(const ESL_ALPHABET *abc, char rfchar);
+ 
+static ESL_OPTIONS options[] = {
+  /* name         type          default  env   range togs reqs  incomp           help                                                             docgroup */
+  { "--list",     eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "command-line argument is a file that lists ali files to merge",  99 },
+  { "-h",         eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "help; show brief info on version and usage",                     1 },
+  { "-o",         eslARG_OUTFILE,  NULL, NULL, NULL, NULL,NULL, NULL,            "output the final alignment to file <f>, not stdout",             1 },
+  { "-v",         eslARG_NONE,    FALSE, NULL, NULL, NULL,"-o", NULL,            "print info on merge to stdout; requires -o",                     1 },
+  { "--small",    eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "use minimal RAM (RAM usage will be independent of aln sizes)",   1 },
+  { "--rfonly",   eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "remove all columns that are gaps in GC RF annotation",           1 },
+  { "--informat", eslARG_STRING,  FALSE, NULL, NULL, NULL,NULL, NULL,            "NOT YET DISPLAYED",                                              99 },
+  { "--outformat",eslARG_STRING,  FALSE, NULL, NULL, NULL,NULL, NULL,            "specify that output aln be format <s> (see choices above)",      1 },
+  { "--rna",      eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL,"--amino,--rna",  "alignments to merge are RNA alignments",                         1 },
+  { "--dna",      eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL,"--amino,--rna",  "alignments to merge are DNA alignments",                         1 },
+  { "--amino",    eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL,"--dna,--rna",    "alignments to merge are protein alignments",                     1 },
+  { "--stall",    eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "arrest after start: for debugging under gdb",                    99 },  
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  int           status;		               /* easel return code               */
+  ESL_GETOPTS  *go      = NULL;	               /* application configuration       */
+  ESL_ALPHABET *abc     = NULL;      	       /* biological alphabet             */
+  char         *msafile1 = NULL;	       /* msa file 1 (stays NULL if --list) */
+  char         *msafile2 = NULL;	       /* msa file 2 (stays NULL if --list) */
+  char         *listfile = NULL;	       /* list file name (stays NULL unless --list) */
+  int           infmt   = eslMSAFILE_UNKNOWN;  /* format code for input alifiles  */
+  int           outfmt  = eslMSAFILE_UNKNOWN;  /* format code for output ali      */
+  ESLX_MSAFILE *afp     = NULL;	               /* open alignment file, normal interface */
+  ESL_MSAFILE2 *afp2    = NULL;	               /* open alignment file, small-mem interface */
+  FILE         *ofp;		               /* output file (default is stdout) */
+  char        **alifile_list = NULL;           /* list of alignment files to merge */
+  int           nalifile;                      /* size of alifile_list             */
+  int           do_stall;                      /* used to stall when debugging     */
+  int           fi;                            /* counter over alignment files */
+  int           ai, ai2;                       /* counters over alignments */
+  int           nali_tot;                      /* number of alignments in all files */
+  int          *nali_per_file = NULL;          /* [0..nalifile-1] number of alignments per file */
+  int           nseq_tot;                      /* number of sequences in all alignments */
+  int           nseq_cur;                      /* number of sequences in current alignment */
+  int64_t       alen_cur;                      /* length of current alignment */
+  int64_t      *alenA = NULL;                  /* [0..nali_tot-1] alignment length of input msas (even after 
+						* potentially removingeinserts (--rfonly)) */
+  ESL_MSA     **msaA = NULL;                   /* [0..nali_tot-1] all msas read from all files */
+  int          *maxgap = NULL;                 /* [0..cpos..cm->clen+1] max number of gap columns
+						* before each consensus position in all alignments */
+  int          *maxmis = NULL;                 /* [0..cpos..cm->clen+1] max number of missing data columns
+						* before each consensus position in all alignments */
+  int           nalloc = 0;                    /* current size of msaA */
+  int           chunksize = 10;                /* size to increase nalloc by when realloc'ing */
+  void         *tmp;                           /* for ESL_RALLOC() */
+  int           clen;                          /* consensus length (non-gap #=GC RF length) of all alignments */
+  int           cur_clen;                      /* consensus length (non-gap #=GC RF length) of current alignments */
+  int           apos;                          /* alignment position */
+  ESL_MSA      *mmsa = NULL;                   /* the merged alignment created by merging all alignments in msaA */
+  int           alen_mmsa;                     /* number of columns in merged MSA */
+  char          errbuf[eslERRBUFSIZE];         /* buffer for error messages */
+  char         *tmpstr;                        /* used if -v, for printing file names */
+  int         **usemeA = NULL;                 /* [0..nali_tot-1][0..alen]  used only if --rfonly enabled, for removing gap RF columns */
+  ESL_STOPWATCH *w  = NULL;                    /* for timing the merge, only used if -o enabled */
+  int           do_small;                      /* TRUE if --small, operate in special small memory mode, aln seq data is not stored */
+  int           do_rfonly;                     /* TRUE if --rfonly, output only non-gap RF columns (remove all insert columns) */
+  int          *ngapA = NULL;              /* [0..alen] number of insert gap columns to add after each alignment column when merging */
+  int          *nmisA = NULL;               /* [0..alen] number of missing data ('~') gap columns to add after each alignment column when merging */
+  int          *neitherA = NULL;           /* [0..apos..alen] = ngapA[apos] + nmisA[apos] */
+
+  /* output formatting, only relevant if -v */
+  char      *namedashes = NULL;                /* string of dashes, an underline */
+  int        ni;                               /* counter                        */
+  int        namewidth;                        /* max width of file name         */
+  int        tmp_len;                          /* current width of merged aln    */
+
+  /* variables only used in small mode (--small) */
+  int           ngs_cur;                       /* number of GS lines in current alignment (only used if do_small) */
+  int           gs_exists = FALSE;             /* set to TRUE if do_small and any input aln has >= 1 GS line */
+  int           maxname, maxgf, maxgc, maxgr;  /* max length of seqname, GF tag, GC tag, GR tag in all input alignments */
+  int           maxname_cur, maxgf_cur, maxgc_cur, maxgr_cur; /* max length of seqname, GF tag, GC tag, GR tag in current input alignment */
+  int           margin;                        /* total margin length for output msa */
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage1);
+      esl_usage(stdout, argv[0], usage2);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage1);
+      esl_usage (stdout, argv[0], usage2);
+      puts("\n where options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      exit(0);
+    }
+
+  if(((! esl_opt_GetBoolean(go, "--list")) && (esl_opt_ArgNumber(go) != 2)) ||
+     ((  esl_opt_GetBoolean(go, "--list")) && (esl_opt_ArgNumber(go) != 1))) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage1);
+      esl_usage(stdout, argv[0], usage2);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if(esl_opt_GetBoolean(go, "--list")) { 
+    listfile = esl_opt_GetArg(go, 1);
+  }
+  else { 
+    msafile1 = esl_opt_GetArg(go, 1);
+    msafile2 = esl_opt_GetArg(go, 2);
+  }
+
+  do_small  = (esl_opt_IsOn(go, "--small")) ? TRUE : FALSE;
+  do_rfonly = (esl_opt_IsOn(go, "--rfonly"))  ? TRUE : FALSE;
+
+  /* open output file */
+  if (esl_opt_GetString(go, "-o") != NULL) {
+    if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) 
+      esl_fatal("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+  } else ofp = stdout;
+
+  if (esl_opt_IsOn(go, "--informat")) {
+    infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat", esl_opt_GetString(go, "--informat")); 
+    if (do_small && infmt != eslMSAFILE_PFAM) esl_fatal("small memory mode requires Pfam formatted alignments"); 
+  }
+  if (esl_opt_IsOn(go, "--outformat")) {
+    outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"));
+    if (outfmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --outformat", esl_opt_GetString(go, "--outformat")); 
+    if (do_small && outfmt != eslMSAFILE_PFAM) esl_fatal("we can only output Pfam formatted alignments in small memory mode"); 
+  }
+  else outfmt = eslMSAFILE_STOCKHOLM;
+
+  if (do_small) { 
+    infmt  = eslMSAFILE_PFAM; /* this must be true, else we can't do small memory mode */
+    outfmt = eslMSAFILE_PFAM;
+  }
+
+  do_stall = esl_opt_GetBoolean(go, "--stall"); /* a stall point for attaching gdb */
+  while (do_stall); 
+
+  /* determine file names to merge */
+  if(listfile != NULL) { /* read list file */
+    read_list_file(listfile, &alifile_list, &nalifile);
+    if(nalifile == 0) esl_fatal("Failed to read a single alignment file name from %s\n", listfile);
+  }
+  else { /* we're merging two alignment files from command-line */
+    nalifile = 2;
+    ESL_ALLOC(alifile_list, sizeof(char *) * nalifile);
+    if((status = esl_strdup(msafile1, -1, &(alifile_list[0]))) != eslOK) esl_fatal("Error storing alignment file name %s, error status: %d\n", msafile1, status);
+    if((status = esl_strdup(msafile2, -1, &(alifile_list[1]))) != eslOK) esl_fatal("Error storing alignment file name %s, error status: %d\n", msafile2, status);
+  }
+
+  /* create and start stopwatch */
+  if(ofp != stdout) {
+    w = esl_stopwatch_Create();
+    esl_stopwatch_Start(w);
+  }
+
+  if(esl_opt_GetBoolean(go, "-v")) { 
+    /* determine the longest file name in alifile_list */
+    namewidth = 9; /* length of 'file name' */
+    for(fi = 0; fi < nalifile; fi++) { 
+      if((status = esl_FileTail(alifile_list[fi], FALSE, &tmpstr)) != eslOK) esl_fatal("Memory allocation error.");
+      namewidth = ESL_MAX(namewidth, strlen(tmpstr));
+      free(tmpstr);
+    }
+    
+    ESL_ALLOC(namedashes, sizeof(char) * (namewidth+1));
+    namedashes[namewidth] = '\0';
+    for(ni = 0; ni < namewidth; ni++) namedashes[ni] = '-';
+    fprintf(stdout, "# Reading %d alignment files...\n", nalifile);
+    fprintf(stdout, "#\n");
+    fprintf(stdout, "# %7s  %-*s  %7s  %9s  %9s  %13s  %8s\n", "",        namewidth,"",          "",        "",          "",            "",               "ncols");
+    fprintf(stdout, "# %7s  %-*s  %7s  %9s  %9s  %13s  %8s\n", "file #",  namewidth,"file name", "ali #",   "#seq/ali",  "ncols/ali",   "# seq total",    "required");
+    fprintf(stdout, "# %7s  %*s  %7s  %9s  %9s  %13s  %8s\n", "-------", namewidth, namedashes,  "-------", "---------", "---------",   "-------------", "--------");
+  }
+  
+  /* Allocate and initialize */
+  nalloc = chunksize;
+  ESL_ALLOC(msaA,   sizeof(ESL_MSA *) * nalloc);
+  ESL_ALLOC(alenA,  sizeof(int64_t) * nalloc);
+  if(do_rfonly) ESL_ALLOC(usemeA, sizeof(int *) * nalloc);
+
+  /* abc handling is weird. We only use alphabet to define gap characters in this miniapp.
+   * msa's are actually read in text mode. Thus eslRNA suffices for anything.
+   */
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+  else if (do_small)                      	abc = esl_alphabet_Create(eslRNA); /* alphabet is only used to define gap characters, so (in this miniapp) we're okay specifying RNA for any alignment (even non-RNA ones) */
+  else                                          abc = esl_alphabet_Create(eslRNA); /* ditto */
+
+  /****************************************************************
+   *  Read alignments one at a time, storing them all, separately *
+   ****************************************************************/
+
+  ai = 0;
+  nseq_tot = 0;
+  maxname = maxgf = maxgc = maxgr = 0;
+  ESL_ALLOC(nali_per_file, sizeof(int) * nalifile);
+  esl_vec_ISet(nali_per_file, nalifile, 0);
+
+  for (fi = 0; fi < nalifile; fi++) { 
+    
+    if (do_small) 
+      {
+	status  = esl_msafile2_Open(alifile_list[fi], NULL, &afp2);
+	if      (status == eslENOTFOUND) esl_fatal("Alignment file %s doesn't exist or is not readable\n", alifile_list[fi]);
+	else if (status != eslOK)        esl_fatal("Alignment file %s open failed with error %d\n", alifile_list[fi], status);
+      }
+    else 
+      {
+	status = eslx_msafile_Open(NULL, alifile_list[fi], NULL, infmt, NULL, &afp);
+	if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+      }
+
+
+    /* while loop: while we have an alignment in current alignment file, (statement looks weird b/c we use a different function if --small) */
+    while((status = (do_small) ? 
+	   esl_msafile2_ReadInfoPfam(afp2, NULL, NULL, -1, NULL,NULL, &(msaA[ai]), &nseq_cur, &alen_cur, &ngs_cur, &maxname_cur, &maxgf_cur, &maxgc_cur, &maxgr_cur, NULL, NULL, NULL, NULL, NULL) : 
+	   eslx_msafile_Read        (afp, &(msaA[ai]))) == eslOK) { 
+
+      if(msaA[ai]->rf == NULL) esl_fatal("Error, all alignments must have #=GC RF annotation; alignment %d of file %d does not (%s)\n", nali_per_file[fi], (fi+1), alifile_list[fi]); 
+      msaA[ai]->abc = abc; /* msa's are read in text mode, so this is (currently) only used to define gap characters, it doesn't even have to be the correct alphabet. if --small, this is set as RNA regardless of input */
+
+      if (do_small) { 
+	maxname = ESL_MAX(maxname, maxname_cur); 
+	maxgf   = ESL_MAX(maxgf, maxgf_cur); 
+	maxgc   = ESL_MAX(maxgc, maxgc_cur); 
+	maxgr   = ESL_MAX(maxgr, maxgr_cur); 
+	msaA[ai]->alen = alen_cur;
+	if(ngs_cur > 0) gs_exists = TRUE; 
+      }
+      else { 
+	nseq_cur = msaA[ai]->nseq; 
+      }
+      alenA[ai] = msaA[ai]->alen; /* impt if --small and --rfonly, to remember total width of aln to expect in second pass */
+      nali_per_file[fi]++;
+      nseq_tot += nseq_cur;
+      
+      /* reallocate per-alignment data, if nec */
+      if((ai+1) == nalloc) { 
+	nalloc += chunksize; 
+	ESL_RALLOC(msaA,   tmp, sizeof(ESL_MSA *) * nalloc); 
+	ESL_RALLOC(alenA,  tmp, sizeof(int64_t) * nalloc); 
+	for(ai2 = ai+1; ai2 < nalloc; ai2++) { msaA[ai2] = NULL; } 
+	if(do_rfonly) { 
+	  ESL_RALLOC(usemeA, tmp, sizeof(int *) * nalloc); 
+	  for(ai2 = ai+1; ai2 < nalloc; ai2++) { usemeA[ai2] = NULL; }
+	}
+      }
+
+      /* either store consensus (non-gap RF) length (if first aln), or verify it is what we expect */
+      cur_clen = 0;
+      for(apos = 0; apos < (int) msaA[ai]->alen; apos++) { 
+	if(rfchar_is_nongap_nonmissing(msaA[ai]->abc, msaA[ai]->rf[apos])) cur_clen++; 
+      }
+      if(ai == 0) { /* first alignment, store clen, allocate maxgap, maxmis */
+	clen = cur_clen;
+	ESL_ALLOC(maxgap, sizeof(int) * (clen+1)); 
+	esl_vec_ISet(maxgap, (clen+1), 0);
+	ESL_ALLOC(maxmis, sizeof(int) * (clen+1)); 
+	esl_vec_ISet(maxmis, (clen+1), 0); /* these will all stay 0 unless we see '~' in the alignments */
+      }
+      else if(cur_clen != clen) { 
+	esl_fatal("Error, all alignments must have identical non-gap #=GC RF lengths; expected (RF length of first ali read): %d,\nalignment %d of file %d length is %d (%s))\n", clen, nali_per_file[fi], (fi+1), cur_clen, alifile_list[fi]); 
+      }
+      
+
+      if(do_rfonly) { 
+	/* Remove all columns that are gaps/missing data in the RF annotation, we keep an array of usemes, 
+	 * one per aln, in case of --small, so we know useme upon second pass of alignment files */
+	ESL_ALLOC(usemeA[ai], sizeof(int) * (msaA[ai]->alen));
+	for(apos = 0; apos < msaA[ai]->alen; apos++) { usemeA[ai][apos] = (rfchar_is_nongap_nonmissing(abc, msaA[ai]->rf[apos])) ? TRUE : FALSE; }
+	if((status = esl_msa_ColumnSubset(msaA[ai], errbuf, usemeA[ai])) != eslOK) { 
+	  esl_fatal("status code: %d removing gap RF columns for msa %d from file %s:\n%s", status, (ai+1), alifile_list[fi], errbuf);
+	}
+      }
+      else { /* --rfonly not enabled, determine max number inserts between each position */
+	/* update_maxgap_and_maxmis checks to make sure the msa follows our rule for missing data and gaps:
+	 * for all positions x..y b/t any two adjacent nongap RF positions (x-1 and y+1 are nongap RF positions) 
+	 * all missing data columns '~' must come before all gap positions ('.', '-', or '_')
+	 */
+      	if((status = update_maxgap_and_maxmis(msaA[ai], errbuf, clen, msaA[ai]->alen, maxgap, maxmis)) != eslOK) esl_fatal(errbuf);
+      }
+      if(esl_opt_GetBoolean(go, "-v")) { 
+	if((status = esl_FileTail(alifile_list[fi], FALSE, &tmpstr)) != eslOK) esl_fatal("Memory allocation error.");
+	tmp_len = clen + esl_vec_ISum(maxgap, clen+1) + esl_vec_ISum(maxmis, clen+1);
+	fprintf(stdout, "  %7d  %-*s  %7d  %9d  %9" PRId64 "  %13d  %8d\n", (fi+1),  namewidth, tmpstr, (ai+1), nseq_cur, msaA[ai]->alen, nseq_tot, tmp_len);
+	free(tmpstr);
+      }
+      ai++;
+    } /* end of while eslx_msafile_Read() loop */
+
+    if (do_small) 
+      {
+	if      (status == eslEFORMAT) esl_fatal("Alignment file %s, parse error:\n%s\n", alifile_list[fi], afp2->errbuf);
+	else if (status == eslEINVAL)  esl_fatal("Alignment file %s, parse error:\n%s\n", alifile_list[fi], afp2->errbuf);
+	else if (status != eslEOF)     esl_fatal("Alignment file %s, read failed with error code %d\n", alifile_list[fi], status);
+      }
+    else if (status != eslEOF) eslx_msafile_ReadFailure(afp, status);
+
+    if(nali_per_file[fi] == 0)     esl_fatal("Failed to read any alignments from file %s\n", alifile_list[fi]);
+
+    if (do_small) esl_msafile2_Close(afp2);
+    else          eslx_msafile_Close(afp);
+  } /* end of for (fi=0; fi < nalifile; fi++) */
+  nali_tot = ai;
+  
+  /*********************************************
+   *  Merge all alignments into the merged MSA *
+   *********************************************/
+
+  /* We allocate space for all sequences, but leave sequences as NULL (nseq = -1). 
+   * If (do_small) we didn't store the sequences on the first pass through the
+   * alignment files, and we'll never allocate space for the sequences in mmsa,
+   * we'll just output them as we reread them on another pass through the 
+   * individual alignments. If we read >= 1 GS line in any of the input alignments,
+   * we need to do an additional pass through the files, outputting only GS
+   * data. Then, in a final (3rd) pass we'll output aligned data.
+   *
+   * if (!do_small),  we have the sequences in memory, we'll copy these
+   * to the merged alignment, freeing them in the orignal msaA alignments 
+   * as we go so we never need to allocate the full mmsa while we still have
+   * the individual msas (in msaA[]) in memory. 
+   */     
+  mmsa = esl_msa_Create(nseq_tot, -1); 
+  alen_mmsa = clen + esl_vec_ISum(maxgap, clen+1) + esl_vec_ISum(maxmis, clen+1); 
+      
+  /* Determine what annotation from the input alignments 
+   * we will include in the merged MSA.
+   * See comments in header of validate_and_copy_msa_annotation()
+   * for rules on what we include.
+   */
+  if((status = validate_and_copy_msa_annotation(go, outfmt, mmsa, msaA, nali_tot, clen, alen_mmsa, maxgap, maxmis, errbuf)) != eslOK)
+    esl_fatal("Error while checking and copying individual MSA annotation to merged MSA:%s\n", errbuf);
+  
+  if (do_small) { 
+    /* Small memory mode, do up to 2 more passes through the input alignments:
+     * pass 2 will output only GS data at top of output alignment file (only performed if >= 1 GS line read in input files 
+     * pass 3 will output all aligned data at to output alignment file (always performed) 
+     */
+
+    /* output header, comments, and #=GF data */
+    write_pfam_msa_top(ofp, mmsa);
+    
+    if(ofp != stdout) { 
+      if(esl_opt_GetBoolean(go, "-v")) { fprintf(stdout, "#\n"); }
+      fprintf(stdout, "# Outputting merged alignment to file %s ... ", esl_opt_GetString(go, "-o")); 
+      fflush(stdout); 
+    }
+
+    /* if there was any GS annotation in any of the individual alignments,
+     * do second pass through alignment files, outputting GS annotation as we go. */
+    if(gs_exists) { 
+      ai = 0;
+      for(fi = 0; fi < nalifile; fi++) { 
+	/* we're in small memory mode... */
+	status = esl_msafile2_Open(alifile_list[fi], NULL, &afp2); /* this should work b/c it did on the first pass */
+	if      (status == eslENOTFOUND) esl_fatal("Second pass, alignment file %s doesn't exist or is not readable\n", alifile_list[fi]);
+	else if (status == eslEFORMAT)   esl_fatal("Second pass, couldn't determine format of alignment %s\n", alifile_list[fi]);
+	else if (status != eslOK)        esl_fatal("Second pass, alignment file %s open failed with error %d\n", alifile_list[fi], status);
+	
+	for(ai2 = 0; ai2 < nali_per_file[fi]; ai2++) { 
+	  status = esl_msafile2_RegurgitatePfam(afp2, ofp, 
+						maxname, maxgf, maxgc, maxgr, /* max width of a seq name, gf tag, gc tag, gr tag (irrelevant here) */
+						FALSE, /* regurgitate stockholm header ? */
+						FALSE, /* regurgitate // trailer ? */
+						FALSE, /* regurgitate blank lines */
+						FALSE, /* regurgitate comments */
+						FALSE, /* regurgitate GF ? */
+						TRUE,  /* regurgitate GS ? */
+						FALSE, /* regurgitate GC ? */
+						FALSE, /* regurgitate GR ? */
+						FALSE, /* regurgitate aseq ? */
+						NULL,  /* regurgitate all seqs, not a subset */ 
+						NULL,  /* regurgitate all seqs, not a subset */ 
+						NULL,  /* we're not keeping a subset of columns */
+						NULL,  /* we're not adding all gap columns */
+						alenA[ai], /* alignment length, as we read it in first pass (inserts may have been removed since then) */
+						'.',   /* gap char, irrelevant */
+						NULL,  /* don't return num seqs read */
+						NULL); /* don't return num seqs regurgitated */
+	  if(status == eslEOF) esl_fatal("Second pass, error out of alignments too soon, when trying to read aln %d of file %s", ai2, alifile_list[fi]); 
+	  if(status != eslOK)  esl_fatal("Second pass, error reading alignment %d of file %s: %s", ai2, alifile_list[fi], afp2->errbuf); 
+	  ai++;
+	  fflush(ofp);
+	}
+	esl_msafile2_Close(afp2);
+      }
+      fprintf(ofp, "\n"); /* a single blank line to separate GS annotation from aligned data */
+    }
+
+    /* do another (either second or third) pass through alignment files, outputting aligned sequence data (and GR) as we go */
+    ai = 0;
+    for(fi = 0; fi < nalifile; fi++) { 
+      status = esl_msafile2_Open(alifile_list[fi], NULL, &afp2); /* this should work b/c it did on the first pass */
+      if      (status == eslENOTFOUND) esl_fatal("Second pass, alignment file %s doesn't exist or is not readable\n", alifile_list[fi]);
+      else if (status == eslEFORMAT)   esl_fatal("Second pass, couldn't determine format of alignment %s\n", alifile_list[fi]);
+      else if (status != eslOK)        esl_fatal("Second pass, alignment file %s open failed with error %d\n", alifile_list[fi], status);
+
+      for(ai2 = 0; ai2 < nali_per_file[fi]; ai2++) { 
+	/* determine how many all gap columns to insert after each alignment position
+	 * of the child msa when copying it to the merged msa */
+	if(! do_rfonly) { 
+	  if((status = determine_gap_columns_to_add(msaA[ai], maxgap, maxmis, clen, &(ngapA), &(nmisA), &(neitherA), errbuf)) != eslOK) 
+	    esl_fatal("error determining number of all gap columns to add to alignment %d of file %s", ai2, alifile_list[fi]);
+	}
+	status = esl_msafile2_RegurgitatePfam(afp2, ofp,
+					      maxname, maxgf, maxgc, maxgr, /* max width of a seq name, gf tag, gc tag, gr tag */
+					      FALSE, /* regurgitate stockholm header ? */
+					      FALSE, /* regurgitate // trailer ? */
+					      FALSE, /* regurgitate blank lines */
+					      FALSE, /* regurgitate comments */
+					      FALSE, /* regurgitate GF ? */
+					      FALSE, /* regurgitate GS ? */
+					      FALSE, /* regurgitate GC ? */
+					      TRUE,  /* regurgitate GR ? */
+					      TRUE,  /* regurgitate aseq ? */
+					      NULL,  /* regurgitate all seqs, not a subset */ 
+					      NULL,  /* regurgitate all seqs, not a subset */ 
+					      (do_rfonly) ? usemeA[ai] : NULL, 
+					      (do_rfonly) ? NULL       : neitherA,
+					      alenA[ai], /* alignment length, as we read it in first pass (inserts may have been removed since then) */
+					      '.',
+					      NULL,  /* don't return num seqs read */
+					      NULL); /* don't return num seqs regurgitated */
+
+	if(status == eslEOF) esl_fatal("Second pass, error out of alignments too soon, when trying to read aln %d of file %s", ai2, alifile_list[fi]); 
+	if(status != eslOK)  esl_fatal("Second pass, error reading alignment %d of file %s: %s", ai2, alifile_list[fi], afp2->errbuf); 
+	free(ngapA);
+	free(nmisA);
+	free(neitherA);
+	esl_msa_Destroy(msaA[ai]);
+	msaA[ai] = NULL;
+	ai++;
+	fflush(ofp);
+      }
+      esl_msafile2_Close(afp2);
+    }
+    /* finally, write GC annotation and '//' line */
+    margin = maxname + 1;
+    if (maxgc > 0 && maxgc+6 > margin) margin = maxgc+6;
+    if (maxgr > 0 && maxname+maxgr+7 > margin) margin = maxname+maxgr+7; 
+    write_pfam_msa_gc(ofp, mmsa, margin);
+  } /* end of if(do_small) */
+
+  else { /* ! do_small: for each input alignment in msaA[], add all aligned data to mmsa, then free it  */
+    if(esl_opt_GetBoolean(go, "-v")) { fprintf(stdout, "#\n# Merging alignments ... "); fflush(stdout); }
+    for(ai = 0; ai < nali_tot; ai++) { 
+      if((status = add_msa(mmsa, errbuf, msaA[ai], maxgap, maxmis, clen, alen_mmsa)) != eslOK) 
+	esl_fatal("Error, merging alignment %d of %d:\n%s.", (ai+1), nali_tot, errbuf);  
+      esl_msa_Destroy(msaA[ai]); /* note: the aligned sequences will have already been freed in add_msa() */
+      msaA[ai] = NULL;
+    }
+    if(esl_opt_GetBoolean(go, "-v")) { fprintf(stdout, "done.\n#\n"); fflush(stdout); }
+    mmsa->alen = alen_mmsa; /* it was -1, b/c we filled in each seq as we marched through each msaA[] alignment */
+    if(ofp != stdout) { fprintf(stdout, "# Saving alignment to file %s ... ", esl_opt_GetString(go, "-o")); }
+    status = eslx_msafile_Write(ofp, mmsa, outfmt);
+    if(status != eslOK) esl_fatal("Error, during alignment output; status code: %d\n", status);
+  }
+  if(ofp != stdout) { 
+    fflush(stdout);
+    fclose(ofp);
+    fprintf(stdout, "done\n#\n");
+    fflush(stdout);
+    esl_stopwatch_Stop(w);
+    esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  }
+
+  /* clean up and exit */
+  if(alifile_list != NULL) { 
+    for(fi = 0; fi < nalifile; fi++) { 
+      if(alifile_list[fi] != NULL) free(alifile_list[fi]); 
+    }
+    free(alifile_list);
+  }
+  if(usemeA != NULL) { 
+    for(ai = 0; ai < nali_tot; ai++) { 
+      free(usemeA[ai]);
+    }
+    free(usemeA);
+  }
+
+  if(nali_per_file != NULL) free(nali_per_file);
+  if(alenA != NULL)         free(alenA);
+  if(namedashes != NULL)    free(namedashes);
+  if(msaA != NULL)          free(msaA);
+  if(maxgap != NULL)        free(maxgap);
+  if(maxmis != NULL)        free(maxmis);
+  if(mmsa != NULL)          esl_msa_Destroy(mmsa);
+  if(abc  != NULL)          esl_alphabet_Destroy(abc);
+  if(w    != NULL)          esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+
+ ERROR: 
+  esl_fatal("Out of memory. Reformat to Pfam with esl-reformat and try esl-alimerge --small.");
+  return eslEMEM; /*NEVERREACHED*/
+}
+
+/* Function: read_list_file
+ * Date:     EPN, Fri Nov 20 16:41:32 2009
+ * 
+ * Read a file listing alignment files to merge.
+ * Store file names in *ret_alifile_list and return it,
+ * return number of files in ret_nalifile and return it.
+ * Each white-space delimited token is considered a 
+ * different alignment name. 
+ * 
+ * Dies if we encounter an error.
+ * 
+ * Returns: void.
+ */
+void
+read_list_file(char *listfile, char ***ret_alifile_list, int *ret_nalifile)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  int nalloc     = 10;
+  int chunksize  = 10;
+  char **alifile_list = NULL;
+  int n = 0;
+  void *tmp;
+
+  ESL_ALLOC(alifile_list, sizeof(char *) * nalloc);
+  status = esl_fileparser_Open(listfile, NULL,  &efp);
+  if     (status == eslENOTFOUND) esl_fatal("List file %s does not exist or is not readable\n", listfile);
+  else if(status == eslEMEM)      esl_fatal("Ran out of memory when opening list file %s\n", listfile);
+  else if(status != eslOK)        esl_fatal("Error opening list file %s\n", listfile);
+
+  esl_fileparser_SetCommentChar(efp, '#');
+  while((status = esl_fileparser_GetToken(efp, &tok, NULL)) != eslEOF) {
+    if(n == nalloc) { nalloc += chunksize; ESL_RALLOC(alifile_list, tmp, sizeof(char *) * nalloc); }
+    if((status = esl_strdup(tok, -1, &(alifile_list[n++]))) != eslOK) {
+      esl_fatal("Error storing alignment file name while reading list file %s, error status: %d\n", listfile, status);
+    }
+  }
+  esl_fileparser_Close(efp);
+  *ret_alifile_list = alifile_list;
+  *ret_nalifile = n;
+
+  return;
+
+ ERROR:
+  esl_fatal("Out of memory.");
+  return; /*NOTREACHED*/
+}
+
+
+/* Function: update_maxgap_and_maxmis
+ * Date:     EPN, Sun Nov 22 09:40:48 2009
+ *           (stolen from Infernal's cmalign.c)
+ * 
+ * Update maxgap[] and maxmis[], arrays that keeps track of the max
+ * number of gap columns and missing data columns ('~' gap #=GC RF)
+ * columns before each cpos (consensus (non-gap #=GC RF) column)
+ *
+ * We require that all missing columns between cpos x and x+1 occur before
+ * all gap columns between cpos x and x+1.
+ * 
+ * Consensus columns are index [0..cpos..clen].
+ * 
+ * max{gap,mis}[0]      is number of gap/missing columns before 1st cpos.
+ * max{gap,mis}[clen-1] is number of gap/missing columns before final cpos.
+ * max{gap,mis}[clen]   is number of gap/missing columns after  final cpos.
+ * 
+ * Returns: eslOK on success.
+ *          eslEINVAL if msa->rf is NULL, nongap RF length is not clen of
+ *                    for any two cpos x and x+1, a gap column precedes a
+ *                    missing data column.
+ * 
+ */
+int
+update_maxgap_and_maxmis(ESL_MSA *msa, char *errbuf, int clen, int64_t alen, int *maxgap, int *maxmis) 
+{
+  int apos;
+  int cpos = 0;
+  int ngap = 0;
+  int nmis = 0;
+
+  for(apos = 0; apos < alen; apos++) { 
+    if(esl_abc_CIsGap(msa->abc, msa->rf[apos])) { 
+      ngap++;
+    }
+    else if (esl_abc_CIsMissing(msa->abc, msa->rf[apos])) { 
+      nmis++;
+      if(ngap > 0) ESL_FAIL(eslEINVAL, errbuf, "after nongap RF pos %d, %d gap columns precede a missing data column (none should)", cpos, ngap);
+    }
+    else {
+      maxgap[cpos] = ESL_MAX(maxgap[cpos], ngap);
+      maxmis[cpos] = ESL_MAX(maxmis[cpos], nmis);
+      cpos++;
+      ngap = 0;
+      nmis = 0;
+    }
+  }
+      
+  /* update final value, max{ins,el}[clen+1], the number of inserts
+   * after the final consensus position */
+  maxgap[cpos] = ESL_MAX(maxgap[cpos], ngap);
+  maxmis[cpos] = ESL_MAX(maxmis[cpos], nmis);
+  if(cpos != clen) ESL_FAIL(eslEINVAL, errbuf, "second pass expected clen (%d) not equal to actual clen (%d).\n", clen, cpos);
+
+  return eslOK;
+}
+
+/* Function: validate_and_copy_msa_annotation
+ * Date:     EPN, Tue Nov 24 05:35:50 2009
+ * 
+ * Decide what individual MSA annotation from
+ * the input alignments in msaA[], if any, will be 
+ * included in the merged alignment (mmsa) and 
+ * add that info to it.
+ * 
+ * Rules for what to include in mmsa:
+ *
+ * We include name,desc,acc,author annotation in merged alignment 
+ * if it is identical in all msaA[] input alignments.
+ *
+ * We include comments and per-file (GF) annotation if they 
+ * are present and identical in all input msaA[] alignments.
+ *
+ * We include per-column (GC) annotation if it is present and
+ * identical *with-respect-to* #=GC RF annotation AND all 
+ * the annotation in gap  #=GC RF columns in all msaA[] are gaps 
+ * ('.'). This also pertains to the following parsed per-column 
+ * annotation: ss_cons, sa_cons, pp_cons, and rf. With rf,
+ * de-gapped rf annotation must be identical in all input 
+ * alignments period, if it is not we'll die with an error message. 
+ *
+ * Per-sequence information and per-residue information is always
+ * included in merged alignment. This is done by add_msa() function.
+ * 
+ * Returns: eslOK on success.
+ *          eslEINCONCEIVABLE if input/msa is corrupt in some way (example: ngf>0 but gf_tag[0] == NULL)
+ *          eslEMEM on memory error
+ *          if !eslOK, errbuf is filled before return
+ */
+int
+validate_and_copy_msa_annotation(const ESL_GETOPTS *go, int outfmt, ESL_MSA *mmsa, ESL_MSA **msaA, int nmsa, int clen, int alen_merged, int *maxgap, int *maxmis, char *errbuf)
+{
+  int status;
+  int j;                    /* counter over alignment annotations */
+  int j2;                   /* counter over alignment annotations */
+  int ai;                   /* counter over alignments */
+  char *dealigned   = NULL; /* a temporary, dealigned string */
+  char *dealigned2  = NULL; /* another temporary, dealigned string */
+  char *gapped_out  = NULL; /* a temporary string with gaps added to fit into merged aln */
+  int *ngapA    = NULL; /* [0..alen] number of insert gap columns to add after each alignment column when merging */
+  int *nmisA     = NULL; /* [0..alen] number of missing data ('~') gap columns to add after each alignment column when merging */
+  int *neitherA = NULL; /* [0..apos..alen] = ngapA[apos] + nmisA[apos] */
+  int do_add;
+  int found_tag;
+  int be_verbose = FALSE;
+
+  /* we only print info about annotation if -v AND we'll actually
+   * output it (as stockholm or pfam) 
+   * (we actually don't even need to be in this function if we're
+   * not output in stockholm or pfam...)
+   */
+  if((esl_opt_GetBoolean(go, "-v")) && 
+     (outfmt == eslMSAFILE_STOCKHOLM || outfmt == eslMSAFILE_PFAM)) 
+    { be_verbose = TRUE; }
+
+  if(be_verbose) fprintf(stdout, "#\n");
+
+  if(nmsa == 0) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "in validate_and_copy_msa_annotation(): zero child alignments.");
+
+  /* First, determine how many all gap columns to insert after each alignment position
+   * of the first child msa, so we can (possibly) gap out GC,SS_cons,SA_cons,PP_cons annotation 
+   * to appropriate length when adding it to the merged MSA. */
+  if((status = determine_gap_columns_to_add(msaA[0], maxgap, maxmis, clen, &(ngapA), &(nmisA), &(neitherA), errbuf)) != eslOK) 
+    return status;
+
+  /* Note: esl_strcmp() can handle NULL strings (they are not identical to non-NULL strings) */
+
+  /*********************************************************************/
+  /* Check if name annotation is identical in all alignments */
+  do_add = TRUE; /* until proven otherwise */
+  if(msaA[0]->name != NULL) { 
+    for(ai = 1; ai < nmsa; ai++) { 
+      if(esl_strcmp(msaA[0]->name, msaA[ai]->name) != 0) { do_add = FALSE; break; }
+    }
+    if(do_add) { 
+      if(be_verbose) fprintf(stdout, "# Identical name annotation from all alignments transferred to merged alignment.\n"); 
+      if((status = esl_strdup(msaA[0]->name, -1, &(mmsa->name))) != eslOK) goto ERROR;
+    }
+    else if(be_verbose) fprintf(stdout, "# Name annotation is not identical in all alignments; not included in merged alignment.\n"); 
+  }
+  else if(be_verbose) fprintf(stdout, "# Name annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check if description annotation is identical in all alignments */
+  do_add = TRUE; /* until proven otherwise */
+  if(msaA[0]->desc != NULL) { 
+    for(ai = 1; ai < nmsa; ai++) { 
+      if(esl_strcmp(msaA[0]->desc, msaA[ai]->desc) != 0) { do_add = FALSE; break; }
+    }
+    if(do_add) { 
+      if(be_verbose) fprintf(stdout, "# Identical description annotation from all alignments transferred to merged alignment.\n"); 
+      if((status = esl_strdup(msaA[0]->desc, -1, &(mmsa->desc))) != eslOK) goto ERROR;
+    }
+    else if(be_verbose) fprintf(stdout, "# Description annotation is not identical in all alignments; not included in merged alignment.\n"); 
+  }
+  else if(be_verbose) fprintf(stdout, "# Description annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check if accession annotation is identical in all alignments */
+  do_add = TRUE; /* until proven otherwise */
+  if(msaA[0]->acc != NULL) { 
+    for(ai = 1; ai < nmsa; ai++) { 
+      if(esl_strcmp(msaA[0]->acc, msaA[ai]->acc) != 0) { do_add = FALSE; break; }
+    }
+    if(do_add) { 
+      if(be_verbose) fprintf(stdout, "# Identical accession annotation from all alignments transferred to merged alignment.\n"); 
+      if((status = esl_strdup(msaA[0]->acc, -1, &(mmsa->acc))) != eslOK) goto ERROR;
+    }
+    else if(be_verbose) fprintf(stdout, "# Accession annotation is not identical in all alignments; not included in merged alignment.\n"); 
+  }
+  else if(be_verbose) fprintf(stdout, "# Accession annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check if author annotation is identical in all alignments */
+  do_add = TRUE; /* until proven otherwise */
+  if(msaA[0]->au != NULL) { 
+    for(ai = 1; ai < nmsa; ai++) { 
+      if(esl_strcmp(msaA[0]->au, msaA[ai]->au) != 0) { do_add = FALSE; break; }
+    }
+    if(do_add) { 
+      if(be_verbose) fprintf(stdout, "# Identical author annotation from all alignments transferred to merged alignment.\n"); 
+      if((status = esl_strdup(msaA[0]->au, -1, &(mmsa->au))) != eslOK) goto ERROR;
+    }
+    else if(be_verbose) fprintf(stdout, "# Author annotation is not identical in all alignments; not included in merged alignment.\n"); 
+  }
+  else if(be_verbose) fprintf(stdout, "# Author annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check per-file (GF) annotation, must be present and identical in all msaA[] alignments to be included */
+  if(msaA[0]->ngf > 0) { 
+    for(j = 0; j < msaA[0]->ngf; j++) { 
+      do_add = TRUE; /* until proven otherwise */
+      /* verify that what we think is true is true */
+      if(msaA[0]->gf_tag[j] == NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpectedly, GF tag %d of msaA[0] is NULL, but msaA[0]->ngf is %d.\n", j, msaA[0]->ngf);
+      if(msaA[0]->gf[j]    == NULL)  ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpectedly, GF annotation %d of msaA[0] is NULL, but msaA[0]->ngf is %d.\n", j, msaA[0]->ngf);
+      for(ai = 1; ai < nmsa; ai++) { 
+	found_tag = FALSE;
+	for(j2 = 0; j2 < msaA[ai]->ngf; j2++) { 
+	  if(esl_strcmp(msaA[0]->gf_tag[j], msaA[ai]->gf_tag[j2]) == 0) {
+	    found_tag = TRUE;
+	    if(esl_strcmp(msaA[0]->gf[j], msaA[ai]->gf_tag[j2]) != 0) { 
+	      do_add = FALSE; 
+	    }
+	    break; /* if we found a match, do_add remains TRUE */
+	  }
+	}
+	if(found_tag && do_add) { 
+	  if(be_verbose) fprintf(stdout, "# Identical GF tag %s annotation from all alignments transferred to merged alignment.\n", msaA[0]->gf_tag[j]);
+	  if((status = esl_msa_AddGF(mmsa, msaA[0]->gf_tag[j], -1,  msaA[0]->gf[j], -1)) != eslOK) goto ERROR;
+	}
+	else { 
+	  if(be_verbose) fprintf(stdout, "# GF tag %s annotation from first alignment absent from >= 1 other alignments; not included in merged alignment.\n", msaA[0]->gf_tag[j]);
+	}
+      }
+    }
+  }
+  else if(be_verbose) fprintf(stdout, "# Unparsed GF annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check comments, all must be identically ordered and identical in all msaA[] aligments to include them */
+  if(msaA[0]->ncomment > 0) { 
+    do_add = TRUE; /* until proven otherwise */
+    /* make sure all alignments have same number of comments */
+    for(ai = 1; ai < nmsa; ai++) { 
+      if(msaA[ai]->ncomment != msaA[0]->ncomment) { 
+	do_add = FALSE;
+	break;
+      }
+    }
+    if(do_add) { 
+      /* make sure all alignments have identical comments */
+      for(j = 0; j < msaA[0]->ncomment; j++) { 
+	/* verify that what we think is true is true */
+	if(msaA[0]->comment[j] == NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpectedly, comment %d of msaA[0] is NULL, but msaA[0]->ncomment is %d.\n", j, msaA[0]->ncomment);
+	for(ai = 1; ai < nmsa; ai++) { 
+	  if(esl_strcmp(msaA[0]->comment[j], msaA[ai]->comment[j]) != 0) { /* comment doesn't match */
+	    do_add = FALSE;
+	    break;
+	  }
+	}
+      }
+    }
+    if(do_add) { 
+      for(j = 0; j < msaA[0]->ncomment; j++) { 
+	if((status = esl_msa_AddComment(mmsa, msaA[0]->comment[j], -1))!= eslOK) goto ERROR;
+      }
+      if(be_verbose) fprintf(stdout, "# All alignments have identical comments in the same order. These were transferred to merged alignment.\n"); 
+    }
+    else { 
+      if(be_verbose) fprintf(stdout, "# Comments are not identical in all alignments; not included in merged alignment.\n"); 
+    }
+  }
+  else if(be_verbose) fprintf(stdout, "# No comments in (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check unparsed per-column (GC) annotation, it must include all gaps in gap RF columns and 
+   * be identical once gap RF columns are removed in all msaA[] alignments to be included. */
+
+  if(msaA[0]->ngc > 0) { 
+    for(j = 0; j < msaA[0]->ngc; j++) { 
+      do_add = TRUE; /* until proven otherwise */
+      /* verify that what we think is true is true */
+      if(msaA[0]->gc_tag[j] == NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpectedly, GC tag %d of msaA[0] is NULL, but msaA[0]->ngf is %d.\n", j, msaA[0]->ngc);
+      if(msaA[0]->gc[j]     == NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpectedly, GC annotation %d of msaA[0] is NULL, but msaA[0]->ngf is %d.\n", j, msaA[0]->ngc);
+
+      /* ensure it does not have non-gaps in gap RF columns */
+      if(validate_no_nongaps_in_rf_gaps(msaA[0]->abc, msaA[0]->rf, msaA[0]->gc[j], msaA[0]->alen)) { /* returns TRUE if gc[j] has 0 non-gap characters in gap columns of RF annotation */
+	/* dealign gc line */
+	if((status = esl_strdup(msaA[0]->gc[j], msaA[0]->alen, &(dealigned))) != eslOK) goto ERROR;
+	if((status = esl_strdealign(dealigned, msaA[0]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning GC tag %s of msaA[0]", msaA[0]->gc_tag[j]);
+
+	for(ai = 1; ai < nmsa; ai++) { 
+	  found_tag = FALSE;
+	  for(j2 = 0; j2 < msaA[ai]->ngc; j2++) { 
+	    if(esl_strcmp(msaA[0]->gc_tag[j], msaA[ai]->gc_tag[j2]) == 0) {
+	      found_tag = TRUE;
+	      /* ensure it does not have non-gaps in gap RF columns */
+	      if(validate_no_nongaps_in_rf_gaps(msaA[ai]->abc, msaA[ai]->rf, msaA[ai]->gc[j2], msaA[ai]->alen)) { /* returns TRUE if gc[j2] has 0 non-gap characters in gap columns of RF annotation */
+		/* dealign */
+		if((status = esl_strdup(msaA[ai]->gc[j2], msaA[ai]->alen, &(dealigned2))) != eslOK) goto ERROR;
+		if((status = esl_strdealign(dealigned2, msaA[ai]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning GC tag %s of msaA[%d]", msaA[ai]->gc_tag[j2], ai);
+		/* check identity */
+		if(esl_strcmp(dealigned, dealigned2) != 0) { do_add = FALSE; }
+		free(dealigned2); 
+		dealigned2 = NULL; 
+		break; /* if we matched, do_add remains TRUE */
+	      }
+	    }
+	  }
+	} /* end of (for(ai = 1...)) */
+	if(dealigned != NULL) { free(dealigned); dealigned = NULL; }
+	if(found_tag && do_add) { 
+	  /* gap out the the GC annotation to fit in merged alignment */
+	  if((status = inflate_string_with_gaps_and_missing(msaA[0]->gc[j], msaA[0]->alen, alen_merged, neitherA, '.', NULL, '~', &(gapped_out))) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding gaps to create GC tag %s annotation for merged alignment.", msaA[0]->gc_tag[j]);
+	  if((status = esl_msa_AppendGC(mmsa, msaA[0]->gc_tag[j], gapped_out)) != eslOK) goto ERROR;
+	  free(gapped_out);
+	  gapped_out = NULL;
+	  if(be_verbose) fprintf(stdout, "# Identical GC tag %s annotation from all alignments transferred to merged alignment.\n", msaA[0]->gc_tag[j]); 
+	}
+	else { 
+	  if(be_verbose) fprintf(stdout, "# GC tag %s annotation from first alignment absent from or different in >= 1 other alignments; not included in merged alignment.\n", msaA[0]->gc_tag[j]);
+	}
+      } 
+    } /* end of for(j = 0 j < msaA[0]->ngc... */
+  } /* end of if(msaA[0]->ngc > 0) */
+  else if(be_verbose) fprintf(stdout, "# Unparsed GC annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check ss_cons: it must include all gaps in gap RF columns and be identical once gap RF columns are removed in all 
+   * msaA[] alignments to be included. (Same requirements as unparsed GC annotation, so code block below is analogous to one above). */
+  if(msaA[0]->ss_cons != NULL) { 
+    do_add = TRUE; /* until proven otherwise */
+    /* ensure it does not have non-gaps in gap RF columns */
+    if(validate_no_nongaps_in_rf_gaps(msaA[0]->abc, msaA[0]->rf, msaA[0]->ss_cons, msaA[0]->alen)) { /* returns TRUE if ss_cons has 0 non-gap characters in gap columns of RF annotation */
+      /* dealign ss_cons */
+      if((status = esl_strdup(msaA[0]->ss_cons, msaA[0]->alen, &(dealigned))) != eslOK) goto ERROR;
+      if((status = esl_strdealign(dealigned, msaA[0]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning ss_cons of msaA[0]");
+      for(ai = 1; ai < nmsa; ai++) { 
+	if(msaA[ai]->ss_cons == NULL) { 
+	  do_add = FALSE; 
+	  break;
+	}
+	/* ss_cons != NULL, ensure it does not have non-gaps in gap RF columns */
+	if(validate_no_nongaps_in_rf_gaps(msaA[ai]->abc, msaA[ai]->rf, msaA[ai]->ss_cons, msaA[ai]->alen)) { /* returns TRUE if ss_cons has 0 non-gap characters in gap columns of RF annotation */
+	  /* dealign */
+	  if((status = esl_strdup(msaA[ai]->ss_cons, msaA[ai]->alen, &(dealigned2))) != eslOK) goto ERROR;
+	  if((status = esl_strdealign(dealigned2, msaA[ai]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning ss_cons of msaA[%d]", ai);
+	  /* check identity */
+	  if(esl_strcmp(dealigned, dealigned2) != 0) { do_add = FALSE; }
+	  free(dealigned2); 
+	  dealigned2 = NULL; 
+	  break; /* if we matched, do_add remains TRUE */
+	}
+      } /* end of (for(ai = 1...)) */
+      if(dealigned != NULL) { free(dealigned); dealigned = NULL; }
+      if(do_add) { 
+	/* gap out the the ss_cons to fit in merged alignment, 
+	 * as a special case, we use '~' in SS_cons as we add missing data and gaps
+	 * like we do in RF (for all other annotation we only add gaps) */
+	if((status = inflate_string_with_gaps_and_missing(msaA[0]->ss_cons, msaA[0]->alen, alen_merged, ngapA, '.', nmisA, '~', &(gapped_out))) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding gaps to create SS_cons annotation for merged alignment.");
+	if(mmsa->ss_cons != NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding SS_cons to merged alignment, it is already non-NULL.");
+	if((status = esl_strdup(gapped_out, alen_merged, &(mmsa->ss_cons))) != eslOK) goto ERROR;
+	free(gapped_out);
+	gapped_out = NULL;
+	if(be_verbose) fprintf(stdout, "# Identical SS_cons annotation from all alignments transferred to merged alignment.\n");
+      }
+      else { 
+	if(be_verbose) fprintf(stdout, "# SS_cons annotation from first alignment absent from or different in >= 1 other alignments; not included in merged alignment.\n");
+      }
+    }
+  } /* end of if(msaA[0]->ss_cons != NULL) */
+  else if(be_verbose) fprintf(stdout, "# SS_cons annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check sa_cons: it must include all gaps in gap RF columns and be identical once gap RF columns are removed in all 
+   * msaA[] alignments to be included. (Same requirements as unparsed GC annotation, so code block below is analogous to one above). */
+  if(msaA[0]->sa_cons != NULL) { 
+    do_add = TRUE; /* until proven otherwise */
+    /* ensure it does not have non-gaps in gap RF columns */
+    if(validate_no_nongaps_in_rf_gaps(msaA[0]->abc, msaA[0]->rf, msaA[0]->sa_cons, msaA[0]->alen)) { /* returns TRUE if sa_cons has 0 non-gap characters in gap columns of RF annotation */
+      /* dealign sa_cons */
+      if((status = esl_strdup(msaA[0]->sa_cons, msaA[0]->alen, &(dealigned))) != eslOK) goto ERROR;
+      if((status = esl_strdealign(dealigned, msaA[0]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning sa_cons of msaA[0]");
+      for(ai = 1; ai < nmsa; ai++) { 
+	if(msaA[ai]->sa_cons == NULL) { 
+	  do_add = FALSE; 
+	  break;
+	}
+	/* sa_cons != NULL, ensure it does not have non-gaps in gap RF columns */
+	if(validate_no_nongaps_in_rf_gaps(msaA[ai]->abc, msaA[ai]->rf, msaA[ai]->sa_cons, msaA[ai]->alen)) { /* returns TRUE if sa_cons has 0 non-gap characters in gap columns of RF annotation */
+	  /* dealign */
+	  if((status = esl_strdup(msaA[ai]->sa_cons, msaA[ai]->alen, &(dealigned2))) != eslOK) goto ERROR;
+	  if((status = esl_strdealign(dealigned2, msaA[ai]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning sa_cons of msaA[%d]", ai);
+	  /* check identity */
+	  if(esl_strcmp(dealigned, dealigned2) != 0) { do_add = FALSE; }
+	  free(dealigned2); 
+	  dealigned2 = NULL; 
+	  break; /* if we matched, do_add remains TRUE */
+	}
+      } /* end of (for(ai = 1...)) */
+      if(dealigned != NULL) { free(dealigned); dealigned = NULL; }
+      if(do_add) { 
+	/* gap out the the sa_cons to fit in merged alignment */
+	if((status = inflate_string_with_gaps_and_missing(msaA[0]->sa_cons, msaA[0]->alen, alen_merged, neitherA, '.', NULL, '~', &(gapped_out))) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding gaps to create SA_cons annotation for merged alignment.");
+	if(mmsa->sa_cons != NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding SA_cons to merged alignment, it is already non-NULL.");
+	if((status = esl_strdup(gapped_out, alen_merged, &(mmsa->sa_cons))) != eslOK) goto ERROR;
+	free(gapped_out);
+	gapped_out = NULL;
+	if(be_verbose) fprintf(stdout, "# Identical SA_cons annotation from all alignments transferred to merged alignment.\n");
+      }
+      else { 
+	if(be_verbose) fprintf(stdout, "# SA_cons annotation from first alignment absent from or different in >= 1 other alignments; not included in merged alignment.\n");
+      }
+    }
+  } /* end of if(msaA[0]->sa_cons != NULL) */
+  else if(be_verbose) fprintf(stdout, "# SA_cons annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Check pp_cons: it must include all gaps in gap RF columns and be identical once gap RF columns are removed in all 
+   * msaA[] alignments to be included. (Same requirements as unparsed GC annotation, so code block below is analogous to one above). */
+  if(msaA[0]->pp_cons != NULL) { 
+    do_add = TRUE; /* until proven otherwise */
+    /* ensure it does not have non-gaps in gap RF columns */
+    if(validate_no_nongaps_in_rf_gaps(msaA[0]->abc, msaA[0]->rf, msaA[0]->pp_cons, msaA[0]->alen)) { /* returns TRUE if pp_cons has 0 non-gap characters in gap columns of RF annotation */
+      /* dealign pp_cons */
+      if((status = esl_strdup(msaA[0]->pp_cons, msaA[0]->alen, &(dealigned))) != eslOK) goto ERROR;
+      if((status = esl_strdealign(dealigned, msaA[0]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning pp_cons of msaA[0]");
+      for(ai = 1; ai < nmsa; ai++) { 
+	if(msaA[ai]->pp_cons == NULL) { 
+	  do_add = FALSE; 
+	  break;
+	}
+	/* pp_cons != NULL, ensure it does not have non-gaps in gap RF columns */
+	if(validate_no_nongaps_in_rf_gaps(msaA[ai]->abc, msaA[ai]->rf, msaA[ai]->pp_cons, msaA[ai]->alen)) { /* returns TRUE if pp_cons has 0 non-gap characters in gap columns of RF annotation */
+	  /* dealign */
+	  if((status = esl_strdup(msaA[ai]->pp_cons, msaA[ai]->alen, &(dealigned2))) != eslOK) goto ERROR;
+	  if((status = esl_strdealign(dealigned2, msaA[ai]->rf, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning pp_cons of msaA[%d]", ai);
+	  /* check identity */
+	  if(esl_strcmp(dealigned, dealigned2) != 0) { do_add = FALSE; }
+	  free(dealigned2); 
+	  dealigned2 = NULL; 
+	  break; /* if we matched, do_add remains TRUE */
+	}
+      } /* end of (for(ai = 1...)) */
+      if(dealigned != NULL) { free(dealigned); dealigned = NULL; }
+      if(do_add) { 
+	/* gap out the the pp_cons to fit in merged alignment */
+	if((status = inflate_string_with_gaps_and_missing(msaA[0]->pp_cons, msaA[0]->alen, alen_merged, neitherA, '.', NULL, '~', &(gapped_out))) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding gaps to create PP_cons annotation for merged alignment.");
+	if(mmsa->pp_cons != NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding PP_cons to merged alignment, it is already non-NULL.");
+	if((status = esl_strdup(gapped_out, alen_merged, &(mmsa->pp_cons))) != eslOK) goto ERROR;
+	free(gapped_out);
+	gapped_out = NULL;
+	if(be_verbose) fprintf(stdout, "# Identical PP_cons annotation from all alignments transferred to merged alignment.\n");
+      }
+      else { 
+	if(be_verbose) fprintf(stdout, "# PP_cons annotation from first alignment absent from or different in >= 1 other alignments; not included in merged alignment.\n");
+      }
+    }
+  } /* end of if(msaA[0]->pp_cons != NULL) */
+  else if(be_verbose) fprintf(stdout, "# PP_cons annotation absent from (at least) first alignment; not included in merged alignment.\n"); 
+
+  /*********************************************************************/
+  /* Finally, validate that RF annotation is identical in all alignments after removing gaps. */
+
+  if(msaA[0]->rf == NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "All alignments must have #= GC RF annotation."); 
+  /* dealign rf */
+  if((status = esl_strdup(msaA[0]->rf, msaA[0]->alen, &(dealigned))) != eslOK) goto ERROR;
+  if((status = esl_strdealign(dealigned, dealigned, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning RF of msaA[0]");
+  for(ai = 1; ai < nmsa; ai++) { 
+    if(msaA[ai]->rf == NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "All alignments must have #= GC RF annotation."); 
+    /* dealign */
+    if((status = esl_strdup(msaA[ai]->rf, msaA[ai]->alen, &(dealigned2))) != eslOK) goto ERROR;
+    if((status = esl_strdealign(dealigned2, dealigned2, "-_.~", NULL)) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "unexpected error dealigning RF of msaA[%d]", ai);
+    /* check identity */
+    if(esl_strcmp(dealigned, dealigned2) != 0) { 
+      printf("%s\n%s\n", dealigned, dealigned2);
+      ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "All alignments must have identical #=GC RF annotation, once gaps (\".\",\"-\",\"_\") are removed.\nAlignment %d de-gapped RF annotation differs from that of alignment 1.\n%s\n%s", ai+1, dealigned, dealigned2);
+    }
+    if(dealigned2 != NULL) { free(dealigned2); dealigned2 = NULL; }
+  }
+  if(dealigned  != NULL) { free(dealigned);  dealigned = NULL; }
+  /* gap out the the RF to fit in merged alignment */
+  if((status = inflate_string_with_gaps_and_missing(msaA[0]->rf, msaA[0]->alen, alen_merged, ngapA, '.', nmisA, '~', &(gapped_out))) != eslOK) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding gaps to create RF annotation for merged alignment.");
+  if(mmsa->rf != NULL) ESL_XFAIL(eslEINCONCEIVABLE, errbuf, "Error adding RF to merged alignment, it is already non-NULL.");
+  if((status = esl_strdup(gapped_out, alen_merged, &(mmsa->rf))) != eslOK) goto ERROR;
+  free(gapped_out);
+  gapped_out = NULL;
+  if(be_verbose) fprintf(stdout, "# Identical RF annotation from all alignments transferred to merged alignment.\n");
+
+  if(dealigned  != NULL) free(dealigned);
+  if(dealigned2 != NULL) free(dealigned2);
+  if(gapped_out != NULL) free(gapped_out);
+  if(ngapA      != NULL) free(ngapA);
+  if(nmisA      != NULL) free(nmisA);
+  if(neitherA   != NULL) free(neitherA);
+  return eslOK;
+  
+ ERROR:
+  if(dealigned  != NULL) free(dealigned);
+  if(dealigned2 != NULL) free(dealigned2);
+  if(gapped_out != NULL) free(gapped_out);
+  if(ngapA      != NULL) free(ngapA);
+  if(nmisA      != NULL) free(nmisA);
+  if(neitherA   != NULL) free(neitherA);
+  return status;
+}
+
+/* Function: add_msa
+ * Date:     EPN, Mon Nov 23 05:54:37 2009
+ * 
+ * Add a "child" MSA we read from a file to the merged
+ * MSA - the merged alignment that we'll eventually
+ * output. We free each string in the child as soon
+ * as we've added it to the merged, to save memory.
+ * 
+ * We add all sequence data (aseq), and per sequence
+ * annotation, including sqname, sqdesc, sqacc, pp, ss,
+ * sa, as well as non-parsed GS and GR annotation.
+ * 
+ * <maxgap>[0..clen] is an array specifying the 
+ * number of inserted columns necessary between
+ * each consensus position.
+ * 
+ * max{gap,mis}[0]      is number of gaps/missing columns before 1st cpos.
+ * max{gap,mis}[clen-1] is number of gaps/missing columns before final cpos.
+ * max{gap,mis}[clen]   is number of gaps/missing columns after  final cpos.
+ * 
+ * <alen_merged> is the number of columns in the merged
+ * alignment. This is the non-gap RF length plus the
+ * sum of the maxgap vector.
+ * 
+ * Returns: eslOK on success.
+ *          eslEMEM on memory allocation failure.
+ */
+int
+add_msa(ESL_MSA *mmsa, char *errbuf, ESL_MSA *msa_to_add, int *maxgap, int *maxmis, int clen, int alen_merged)
+{
+  int status;
+  int i;                 /* counter over sequences in msa_to_add */
+  int j;                 /* counter over alignment annotations */
+  int mi;                /* counter over sequences in mmsa */
+  void *tmp;             /* for reallocations */
+  char *tmpstr;          /* used for copying GR annotation */
+  int  nseq_existing;    /* number of sequences already added to mmsa, by previous calls of this function */
+  int *ngapA = NULL;     /* [0..alen] number of insert gap columns to add after each alignment column when merging */
+  int *nmisA = NULL;     /* [0..alen] number of missing data ('~') gap columns to add after each alignment column when merging */
+  int *neitherA = NULL;  /* [0..apos..alen] = ngapA[apos] + nmisA[apos] */
+
+  nseq_existing = mmsa->nseq;
+
+  /* determine how many all gap columns to insert after each alignment position
+   * of the child msa when copying it to the merged msa */
+  if((status = determine_gap_columns_to_add(msa_to_add, maxgap, maxmis, clen, &(ngapA), &(nmisA), &(neitherA), errbuf)) != eslOK) 
+    return status;
+
+  nseq_existing = mmsa->nseq; 
+
+  /* Append msa_to_add's sequence data and per-sequence annotation to mmsa after adding necessary gaps */
+  /* sequence names and aligned sequence data (digitized) */
+  for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+      esl_strdup(msa_to_add->sqname[i], -1, &(mmsa->sqname[mi]));
+
+      status = inflate_seq_with_gaps(msa_to_add->abc, msa_to_add->aseq[i], msa_to_add->alen, alen_merged, neitherA, '.', &(mmsa->aseq[mi]));
+      if     (status == eslEMEM)   ESL_XFAIL(status, errbuf, "Out of memory adding sequence %s", mmsa->sqname[mi]);
+      else if(status != eslOK)     ESL_XFAIL(status, errbuf, "Found internal missing data symbols in seq: %s", mmsa->sqname[mi]);
+      free(msa_to_add->aseq[i]); /* free immediately */
+      msa_to_add->aseq[i] = NULL;
+  }
+
+  /* parsed annotation that is optional */
+  /* sqacc */
+  if(msa_to_add->sqacc != NULL) { 
+    if(mmsa->sqacc == NULL) { /* allocate for all sequences, even ones added in previous calls to add_msa() */
+      ESL_ALLOC(mmsa->sqacc, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+      for(mi = 0; mi < nseq_existing; mi++) { mmsa->sqacc[mi] = NULL; }
+    }
+    else { /* reallocate; to add space for new seqs */
+      ESL_RALLOC(mmsa->sqacc, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    }
+    for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+      if(msa_to_add->sqacc[i] != NULL) { 
+	if((status = esl_strdup(msa_to_add->sqacc[i], -1, &(mmsa->sqacc[mi]))) != eslOK)  
+	  ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence accession number %d.\n", i+1);
+	free(msa_to_add->sqacc[i]); /* free immediately */
+	msa_to_add->sqacc[i] = NULL;
+      }
+      else { 
+	mmsa->sqacc[mi] = NULL; 
+      }
+    }
+  } /* end of if(msa_to_add->sqacc != NULL */
+  else if(mmsa->sqacc != NULL) { 
+    /* msa_to_add->sqacc == NULL, but mmsa->sqacc != NULL, reallocate mmsa->sqacc, and set new ones to NULL */
+    ESL_RALLOC(mmsa->sqacc, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    for(mi = nseq_existing; mi < nseq_existing + msa_to_add->nseq; mi++) { 
+      mmsa->sqacc[mi] = NULL;
+    }
+  }
+
+  /* sqdesc */
+  if(msa_to_add->sqdesc != NULL) { 
+    if(mmsa->sqdesc == NULL) { /* allocate for all sequences, even ones added in previous calls to add_msa() */
+      ESL_ALLOC(mmsa->sqdesc, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+      for(mi = 0; mi < nseq_existing; mi++) { mmsa->sqdesc[mi] = NULL; }
+    }
+    else { /* reallocate; to add space for new seqs */
+      ESL_RALLOC(mmsa->sqdesc, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    }
+    for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+      if(msa_to_add->sqdesc[i] != NULL) { 
+	if((status = esl_strdup(msa_to_add->sqdesc[i], -1, &(mmsa->sqdesc[mi]))) != eslOK)
+	  ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence description number %d.\n", i+1);
+	free(msa_to_add->sqdesc[i]); /* free immediately */
+	msa_to_add->sqdesc[i] = NULL;
+      }
+      else { 
+	mmsa->sqdesc[mi] = NULL; 
+      }
+    }
+  } /* end of if(msa_to_add->sqdesc != NULL */
+  else if(mmsa->sqdesc != NULL) { 
+    /* msa_to_add->sqdesc == NULL, but mmsa->sqdesc != NULL, reallocate mmsa->sqdesc, and set new ones to NULL */
+    ESL_RALLOC(mmsa->sqdesc, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    for(mi = nseq_existing; mi < nseq_existing + msa_to_add->nseq; mi++) { 
+      mmsa->sqdesc[mi] = NULL;
+    }
+  }
+
+  /* per-seq posterior probabilities */
+  if(msa_to_add->pp != NULL) { 
+    if(mmsa->pp == NULL) { /* allocate for all sequences, even ones added in previous calls to add_msa() */
+      ESL_ALLOC(mmsa->pp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+      for(mi = 0; mi < nseq_existing; mi++) { mmsa->pp[mi] = NULL; }
+    }
+    else { /* reallocate; to add space for new seqs */
+      ESL_RALLOC(mmsa->pp, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    }
+    for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+      if(msa_to_add->pp[i] != NULL) { 
+	if((status = inflate_string_with_gaps_and_missing(msa_to_add->pp[i], msa_to_add->alen, alen_merged, neitherA, '.', NULL, '~', &(mmsa->pp[mi]))) != eslOK) 
+	  ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence number %d posterior probabilities.\n", i+1);
+	free(msa_to_add->pp[i]); /* free immediately */
+	msa_to_add->pp[i] = NULL;
+      }
+      else { 
+	mmsa->pp[mi] = NULL; 
+      }
+    }
+  } /* end of if(msa_to_add->pp != NULL */
+  else if(mmsa->pp != NULL) { 
+    /* msa_to_add->pp == NULL, but mmsa->pp != NULL, reallocate mmsa->pp, and set new ones to NULL */
+    ESL_RALLOC(mmsa->pp, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    for(mi = nseq_existing; mi < nseq_existing + msa_to_add->nseq; mi++) { 
+      mmsa->pp[mi] = NULL;
+    }
+  }
+
+  /* per-seq secondary structure */
+  if(msa_to_add->ss != NULL) { 
+    if(mmsa->ss == NULL) { /* allocate for all sequences, even ones added in previous calls to add_msa() */
+      ESL_ALLOC(mmsa->ss, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+      for(mi = 0; mi < nseq_existing; mi++) { mmsa->ss[mi] = NULL; }
+    }
+    else { /* reallocate; to add space for new seqs */
+      ESL_RALLOC(mmsa->ss, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    }
+    for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+      if(msa_to_add->ss[i] != NULL) { 
+	if((status = inflate_string_with_gaps_and_missing(msa_to_add->ss[i], msa_to_add->alen, alen_merged, neitherA, '.', NULL, '~', &(mmsa->ss[mi]))) != eslOK) 
+	  ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence number %d secondary structure.\n", i+1);
+	free(msa_to_add->ss[i]); /* free immediately */
+	msa_to_add->ss[i] = NULL;
+      }
+      else { 
+	mmsa->ss[mi] = NULL; 
+      }
+    }
+  } /* end of if(msa_to_add->ss != NULL */
+  else if(mmsa->ss != NULL) { 
+    /* msa_to_add->ss == NULL, but mmsa->ss != NULL, reallocate mmsa->ss, and set new ones to NULL */
+    ESL_RALLOC(mmsa->ss, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    for(mi = nseq_existing; mi < nseq_existing + msa_to_add->nseq; mi++) { 
+      mmsa->ss[mi] = NULL;
+    }
+  }
+
+  /* per-seq surface accessibility */
+  if(msa_to_add->sa != NULL) { 
+    if(mmsa->sa == NULL) { /* allocate for all sequences, even ones added in previous calls to add_msa() */
+      ESL_ALLOC(mmsa->sa, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+      for(mi = 0; mi < nseq_existing; mi++) { mmsa->sa[mi] = NULL; }
+    }
+    else { /* reallocate; to add space for new seqs */
+      ESL_RALLOC(mmsa->sa, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    }
+    for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+      if(msa_to_add->sa[i] != NULL) { 
+	if((status = inflate_string_with_gaps_and_missing(msa_to_add->sa[i], msa_to_add->alen, alen_merged, neitherA, '.', NULL, '~', &(mmsa->sa[mi]))) != eslOK) 
+	  ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence number %d surface accessibility.\n", i+1);
+	free(msa_to_add->sa[i]); /* free immediately */
+	msa_to_add->sa[i] = NULL;
+      }
+      else { 
+	mmsa->sa[mi] = NULL; 
+      }
+    }
+  } /* end of if(msa_to_add->sa != NULL */
+  else if(mmsa->sa != NULL) { 
+    /* msa_to_add->sa == NULL, but mmsa->sa != NULL, reallocate mmsa->sa, and set new ones to NULL */
+    ESL_RALLOC(mmsa->sa, tmp, sizeof(char *) * (nseq_existing + msa_to_add->nseq));
+    for(mi = nseq_existing; mi < nseq_existing + msa_to_add->nseq; mi++) { 
+      mmsa->sa[mi] = NULL;
+    }
+  }
+
+  /* Unparsed per-sequence (GS) annotation */
+  if(msa_to_add->ngs > 0) { 
+    for(j = 0; j < msa_to_add->ngs; j++) { 
+      for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) {
+	if(msa_to_add->gs[j][i] != NULL) 
+	  if((status =esl_msa_AddGS(mmsa, msa_to_add->gs_tag[j], -1, mi, msa_to_add->gs[j][i], -1)) != eslOK) 
+	    ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence number %d GS annotation.\n", i+1);
+      }
+      free(msa_to_add->gs[j][i]); /* free immediately */
+      msa_to_add->gs[j][i] = NULL;
+    }
+  }
+  /* caller will free the rest of gs via esl_msa_Destroy() */
+  
+  /* unparsed per-residue (GR) annotation */
+  if(msa_to_add->gr != NULL) { 
+    for(j = 0; j < msa_to_add->ngr; j++) { 
+      for(i = 0, mi = nseq_existing; i < msa_to_add->nseq; i++, mi++) { 
+	if(msa_to_add->gr[j][i] != NULL) {
+	  if((status = inflate_string_with_gaps_and_missing(msa_to_add->gr[j][i], msa_to_add->alen, alen_merged, neitherA, '.', NULL, '~', &(tmpstr))) != eslOK) 
+	    ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence number %d GR annotation.\n", i+1);
+	  if((status = esl_msa_AppendGR(mmsa, msa_to_add->gr_tag[j], mi, tmpstr)) != eslOK)
+	    ESL_XFAIL(status, errbuf, "Memory allocation error when copying sequence number %d GR annotation.\n", i+1);
+	  free(tmpstr);
+	  free(msa_to_add->gr[j][i]); /* free immediately */
+	  msa_to_add->gr[j][i] = NULL;
+	}
+      }
+    }
+  }
+  /* caller will free the rest of gr in esl_msa_Destroy() */
+
+  /* msa_to_add should be destroyed by caller */
+    
+  /* update nseq in mmsa */
+  mmsa->nseq += msa_to_add->nseq;
+
+  if(ngapA    != NULL) free(ngapA);
+  if(nmisA     != NULL) free(nmisA);
+  if(neitherA != NULL) free(neitherA);
+  return eslOK;
+  
+ ERROR:
+  if(ngapA != NULL) free(ngapA);
+  return status;
+}
+
+/* inflate_string_with_gaps_and_missing
+ *                   
+ * Given a string, create a new one that is a copy of it, 
+ * but with missing data and gaps added before each position (apos) 
+ * as specified by n{gap,mis}A[0..apos..len]. <gapchar> and <mischar>
+ * specify the gap character and missing data character. Either
+ * ngapA or nmisA can be either be NULL, if so they're treated as if
+ * they're all zeroes (no gaps/missing data will be added anywhere).
+ * 
+ * n{gap,mis}A[0]       - number of gaps/missing to add before first posn
+ * n{gap,mis}A[apos]    - number of gaps/missing to add before posn apos
+ * n{gap,mis}A[src_len] - number of gaps/missing to add after  final posn
+ *
+ * By convention, missing data symbols are always put before gap symbols
+ * when more than 1 of each are to be placed after the some nongap RF position.
+ * 
+ * ret_str is allocated here.
+ *
+ * Returns eslOK on success.
+ *         eslEMEM on memory error.
+ */
+int 
+inflate_string_with_gaps_and_missing(char *src_str, int64_t src_len, int64_t dst_len, int *ngapA, char gapchar, int *nmisA, char mischar, char **ret_dst_str)
+{
+  int status;
+  int src_apos = 0;
+  int dst_apos  = 0;
+  int i;
+  char *dst_str;
+
+  ESL_ALLOC(dst_str, sizeof(char) * (dst_len+1));
+  dst_str[dst_len] = '\0';
+
+  /* add gaps before first position */
+  if(nmisA) for(i = 0; i < nmisA[0]; i++) dst_str[dst_apos++] = mischar;
+  if(ngapA) for(i = 0; i < ngapA[0]; i++) dst_str[dst_apos++] = gapchar;
+
+  /* add gaps after every position */
+  for(src_apos = 0; src_apos < src_len; src_apos++) { 
+    dst_str[dst_apos++] = src_str[src_apos];
+    if(nmisA) for(i = 0; i < nmisA[(src_apos+1)]; i++) dst_str[dst_apos++] = mischar;
+    if(ngapA) for(i = 0; i < ngapA[(src_apos+1)]; i++) dst_str[dst_apos++] = gapchar;
+  }
+
+  *ret_dst_str = dst_str;
+  return eslOK;
+
+ ERROR: 
+  return eslEMEM;
+}
+
+
+/* inflate_seq_with_gaps()
+ *                   
+ * Given an aligned sequence, create a new one that is a copy of it,
+ * but with gaps added before each position (apos) as specified by
+ * ngapA[0..apos..len]. <gapchar> specifies the gap character.
+ *
+ * This function follows the HMMER3 convention of using '~' to mark
+ * fragment sequences. If a sequence is a fragment, the first and final
+ * string of gaps (contiguous gaps) will be marked as '~'. That is, 
+ * the 1st column will necessarily be a '~' and the last will be a '~'.
+ * This function takes care to add '~' as gap characters in fragments, 
+ * where appropriate, to follow HMMER3 convention.
+ * 
+ * This function is importantly different from inflate_string_with_gaps_and_missing() 
+ * in that it does not allow internal '~' missing data characters to
+ * be added (which are dictated by nmisA[] in inflate_string_with_gaps_and_missing())
+ * Those '~' are possible in Infernal output alignments only in 
+ * #=GC RF and #=GC SS_cons alignment.
+ *
+ * It only adds '~' as necessary to the beginning and ends of fragments.
+ * 
+ * ngapA[0]       - number of gaps/missing to add before first posn
+ * ngapA[apos]    - number of gaps/missing to add before posn apos
+ * ngapA[src_len] - number of gaps/missing to add after  final posn
+ *
+ * ret_str is allocated here.
+ *
+ * Returns eslOK on success.
+ *         eslEMEM on memory error.
+ *         eslEINVAL if sequence (src_str) has an internal missing
+ *           data symbol that violates HMMER3 convention.
+ */
+int 
+inflate_seq_with_gaps(const ESL_ALPHABET *abc, char *src_str, int64_t src_len, int64_t dst_len, int *ngapA, char gapchar, char **ret_dst_str)
+{
+  int status;
+  int src_apos = 0;
+  int dst_apos  = 0;
+  int src_flpos = 0; /* position of rightmost '~' in contiguous string that begins at position 0 */
+  int src_frpos = 0; /* position of leftmost  '~' in contiguous string that ends   at position src_len-1 */
+  int i;
+  char *dst_str;
+  char char2add;
+  int  i_am_fragment = FALSE;
+
+  ESL_ALLOC(dst_str, sizeof(char) * (dst_len+1));
+  dst_str[dst_len] = '\0';
+
+  /* determine if sequence is a fragment, and determine src_flpos and src_frpos */
+  src_flpos = 0; 
+  while(src_flpos < src_len && esl_abc_CIsMissing(abc, src_str[src_flpos])) { src_flpos++; }
+  src_flpos--; /* we overshot by 1 */
+  /* src_flpos is now rightmost '~' in stretch of '~' that begin at position 0, so 
+   * it's -1 if sequence is not a fragment (there are no leading '~' in src_str) 
+   */
+
+  src_frpos = src_len-1; 
+  while(src_frpos > -1 && esl_abc_CIsMissing(abc, src_str[src_frpos])) { src_frpos--; }
+  src_frpos++; /* we overshot by 1 */
+  /* src_frpos is now leftmost '~' in stretch of '~' that end at position src_len-1, so 
+   * it's src_len if sequence is not a fragment (there are no trailing '~' in src_str)
+   */
+  i_am_fragment = (src_flpos != -1 || src_frpos != src_len) ? TRUE : FALSE;
+
+  /* Now verify that we don't have any internal '~' characters */
+  for(src_apos = src_flpos+1; src_apos <= src_frpos-1; src_apos++) { 
+    if(esl_abc_CIsMissing(abc, src_str[src_apos])) return eslEINVAL;
+  }
+
+  /* add gaps before first position */
+  src_apos = 0;
+  if(i_am_fragment) { 
+    char2add = ((src_flpos >= src_apos) || (src_frpos <= src_apos)) ? esl_abc_CGetMissing(abc) : gapchar;
+  }
+  else { 
+    char2add = gapchar; 
+  }
+  if(ngapA) for(i = 0; i < ngapA[0]; i++) dst_str[dst_apos++] = char2add;
+
+  /* add gaps or missing character after every position */
+  for(src_apos = 0; src_apos < src_len; src_apos++) { 
+    dst_str[dst_apos++] = src_str[src_apos];
+    if(i_am_fragment) { 
+      char2add = ((src_flpos >= src_apos) || (src_frpos <= src_apos)) ? esl_abc_CGetMissing(abc) : gapchar;
+    }
+    else { 
+      char2add = gapchar; 
+    }
+    for(i = 0; i < ngapA[(src_apos+1)]; i++) dst_str[dst_apos++] = char2add;
+  }
+
+  *ret_dst_str = dst_str;
+  return eslOK;
+
+ ERROR: 
+  return eslEMEM;
+}
+
+
+/* validate_no_nongaps_in_rf_gaps
+ *                   
+ * Given an RF string with gaps defined as by alphabet <abc>
+ * and another string of same length. Make sure none of the 
+ * positions that are gaps in the RF string are non-gaps in the
+ * other string. Return TRUE if none are. Return FALSE if at
+ * least one is.
+ * 
+ * Returns TRUE if 0 characters in <other_str> in same position
+ *         as a gap in <rf_str> are non-gaps. FALSE otherwise.
+ */
+int 
+validate_no_nongaps_in_rf_gaps(const ESL_ALPHABET *abc, char *rf_str, char *other_str, int64_t len) 
+{
+  int64_t i;
+  for(i = 0; i < len; i++) { 
+    if((! rfchar_is_nongap_nonmissing(abc, rf_str[i])) && (rfchar_is_nongap_nonmissing(abc, other_str[i]))) return FALSE;
+  }
+  return TRUE;
+}
+
+/* determine_gap_columns_to_add
+ * (stolen and slightly modified from Infernal 1.1rc1's cmalign.c)
+ *
+ * Given <maxgap> and <maxmis>, two arrays of the number of gap RF
+ * positions and '~' RF (missing data) after each non-gap RF 
+ * (consensus) position in the eventual final merged alignment, 
+ * calculate how many inserts and missing data inserts
+ * we need to add at each position of <msa> to expand it out to the 
+ * appropriate size of the eventual merged alignment.
+ * 
+ * max{gap,mis}[0]      is number of gaps/missing before 1st cpos in merged aln
+ * max{gap,mis}[cpos]   is number of gaps/missing after cpos in merged aln
+ *                             for cpos = 1..clen 
+ * clen is the number of non-gap RF positions in msa (and in eventual merged msa).             
+ * 
+ * We allocate fill and return ret_ngapA[0..msa->alen], ret_nmisA[0..msa->alen], 
+ * and ret_neitherA[0..msa->alen] here.
+ *
+ * ret_n{gap,mis}gapA[0]      is number of gaps/missing to add before 1st position of msa 
+ * ret_n{gap,mis}gapA[apos]   is number of gaps/missing to add after alignment position apos
+ *                             for apos = 1..msa->alen
+ * 
+ * ret_neitherA[apos] = ngapA[apos] + nmisA[apos]
+ * 
+ * This is similar to the esl_msa.c helper function of the same name,
+ * but that function does not bother with missing data '~'.
+ * 
+ * Returns eslOK on success.
+ *         eslEMEM on memory alloaction error 
+ *         eslEINVAL if gaps occur before missing data b/t any two nongap RF posns
+ *         eslERANGE if a value exceeds what we expected (based on earlier
+ *                   checks before this function was entered).
+ *         if !eslOK, errbuf if filled.
+ */
+int
+determine_gap_columns_to_add(ESL_MSA *msa, int *maxgap, int *maxmis, int clen, int **ret_ngapA, int **ret_nmisA, int **ret_neitherA, char *errbuf)
+{
+  int status;
+  int apos;
+  int prv_cpos = 0;  /* alignment position corresponding to consensus position cpos-1 */
+  int cpos = 0;
+  int ngap = 0;
+  int nmis = 0;
+  int *ngapA    = NULL;
+  int *nmisA    = NULL;
+  int *neitherA = NULL;
+
+  /* contract check */
+  if(maxmis[0] != 0) ESL_FAIL(eslEINVAL, errbuf, "missing characters exist prior to first cpos, this shouldn't happen.\n");
+
+  ESL_ALLOC(ngapA,    sizeof(int) * (msa->alen+1));
+  ESL_ALLOC(nmisA,    sizeof(int) * (msa->alen+1));
+  ESL_ALLOC(neitherA, sizeof(int) * (msa->alen+1));
+  esl_vec_ISet(ngapA,    (msa->alen+1), 0);
+  esl_vec_ISet(nmisA,    (msa->alen+1), 0);
+  esl_vec_ISet(neitherA, (msa->alen+1), 0);
+  
+  for(apos = 0; apos < msa->alen; apos++) { 
+    if(esl_abc_CIsMissing(msa->abc, msa->rf[apos])) { 
+      nmis++;
+      if(ngap > 0) ESL_FAIL(eslEINVAL, errbuf, "after nongap RF pos %d, %d gap columns precede a missing data column (none should)", cpos, ngap);
+    }
+    else if(esl_abc_CIsGap(msa->abc, msa->rf[apos])) { 
+      ngap++;
+    }
+    else { /* a consensus position */
+      /* a few sanity checks */
+      if(ngap  > maxgap[cpos]) ESL_FAIL(eslEINCONCEIVABLE, errbuf, "%d inserts before cpos %d greater than max expected (%d).\n", ngap, cpos, maxgap[cpos]); 
+      if(nmis  > maxmis[cpos]) ESL_FAIL(eslEINCONCEIVABLE, errbuf, "%d EL inserts before cpos %d greater than max expected (%d).\n", nmis, cpos, maxmis[cpos]); 
+
+      if (cpos == 0) { 
+	/* gaps and/or missing data before first consensus position: flush right */
+	if(maxgap[cpos] > 0 && maxmis[cpos] == 0) { /* most common case */
+	  ngapA[prv_cpos]  = maxgap[cpos] - ngap; /* flush right gaps (no missing) */
+	}
+	else if(maxgap[cpos] == 0 && maxmis[cpos] > 0) { 
+	  nmisA[prv_cpos]  = maxmis[cpos] - nmis; /* flush right missing (no gaps) */
+	}
+	else if(maxgap[cpos] > 0 && maxmis[cpos] > 0) { 
+	  /* missing data (ELs) is always 5' of gaps */
+	  nmisA[prv_cpos]      = maxmis[cpos] - nmis; /* flush right */
+	  ngapA[prv_cpos+nmis] = maxgap[cpos] - ngap; /* flush right, after missing */
+	}
+      }
+      else {
+	/* gaps and/missing data after interior consensus position (i.e. not before 1st cpos or after last)
+	 * Determine where to place inserts and/or missing data.
+	 * Handle each of 4 possibilities separately, note that if 
+	 * maxgap[cpos] == 0 then ngap == 0, and if maxmis[cpos] == 0 then nmis == 0 (see sanity check above). 
+	 */
+	if(maxgap[cpos] >  0 && maxmis[cpos] == 0) { /* most common case */
+	  ngapA[prv_cpos + 1 + (ngap/2)] = maxgap[cpos] - ngap; /* internal cpos: split */
+	}
+	else if(maxgap[cpos] == 0 && maxmis[cpos] > 0) { 
+	  nmisA[prv_cpos + 1 + (nmis/2)] = maxmis[cpos] - nmis; /* internal cpos: split */
+	}
+	else if(maxgap[cpos] >  0 && maxmis[cpos] > 0) { 
+	  /* missing data is always 5' of gaps */
+	  nmisA[prv_cpos + 1 +        (nmis/2)] = maxmis[cpos] - nmis; /* internal cpos: split */
+	  ngapA[prv_cpos + 1 + nmis + (ngap/2)] = maxgap[cpos] - ngap; /* internal cpos: split */
+	}
+	/* final case is if (maxgap[cpos] == 0 && maxmis[cpos] == 0) 
+	 * in this case we do nothing. 
+	 */
+      }
+      cpos++;
+      prv_cpos = apos;
+      ngap = 0;
+      nmis = 0;
+    }
+  }
+  /* deal with gaps and missing data after final consensus position */
+
+  /* first, validate that clen is what it should be */
+  if(cpos != clen) { 
+    if(ngapA != NULL) free(ngapA);
+    if(nmisA != NULL) free(nmisA);
+    if(neitherA != NULL) free(neitherA);
+    ESL_FAIL(eslEINCONCEIVABLE, errbuf, "consensus length (%d) is not the expected length (%d).", cpos, clen);
+  }
+  
+  if(maxgap[cpos] > 0 && maxmis[cpos] == 0) { /* most common case */
+    ngapA[prv_cpos + 1 + ngap] = maxgap[cpos] - ngap; /* flush left gaps (no missing) */
+  }
+  else if(maxgap[cpos] == 0 && maxmis[cpos] > 0) { 
+    nmisA[prv_cpos + 1 + nmis] = maxmis[cpos] - nmis; /* flush left missing (no gaps) */
+  }
+  else if(maxgap[cpos] > 0 && maxmis[cpos] > 0) { 
+    /* missing data (ELs) is always 5' of gaps */
+    nmisA[prv_cpos + 1 + nmis]        = maxmis[cpos] - nmis; /* flush left */
+    ngapA[prv_cpos + 1 + nmis + ngap] = maxgap[cpos] - ngap; /* flush left, after missing */
+  }
+
+  /* determine neitherA[], the number of gaps due to either inserts or missing data after each apos */
+  for(apos = 0; apos <= msa->alen; apos++) { 
+    neitherA[apos] = ngapA[apos] + nmisA[apos];
+  }
+
+  *ret_ngapA  = ngapA;
+  *ret_nmisA = nmisA;
+  *ret_neitherA = neitherA;
+
+  return eslOK;
+
+ ERROR: 
+  if(ngapA    != NULL) free(ngapA);
+  if(nmisA    != NULL) free(nmisA);
+  if(neitherA != NULL) free(neitherA);
+  ESL_FAIL(status, errbuf, "Memory allocation error.");
+  return status; /*NEVERREACHED*/
+}
+
+/* write_pfam_msa_top
+ *                   
+ * Highly specialized function for printing out the 'top' of a
+ * Stockholm alignment file, i.e. the Stockholm header line, comments
+ * and GF annotation to an msa file. This function is necessary when
+ * printing the merged alignment file in small memory mode (when
+ * --small enabled). <msa> is an alignment with no sequence
+ * information (no aseq, ax, GS, or GR data).
+ */
+void
+write_pfam_msa_top(FILE *fp, ESL_MSA *msa)
+{
+  int i, maxgf;
+
+  /* rest of code in this function was stolen verbatim from actually_write_stockholm in esl_msa.c */
+
+  /* Magic Stockholm header
+   */
+  fprintf(fp, "# STOCKHOLM 1.0\n");
+
+  /* Free text comments
+   */
+  for (i = 0;  i < msa->ncomment; i++)
+    fprintf(fp, "# %s\n", msa->comment[i]);
+  if (msa->ncomment > 0) fprintf(fp, "\n");
+
+  maxgf = maxwidth(msa->gf_tag, msa->ngf);
+  if (maxgf < 2) maxgf = 2;
+
+  /* GF section: per-file annotation
+   */
+  if (msa->name != NULL) fprintf(fp, "#=GF %-*s %s\n", maxgf, "ID", msa->name);
+  if (msa->acc  != NULL) fprintf(fp, "#=GF %-*s %s\n", maxgf, "AC", msa->acc);
+  if (msa->desc != NULL) fprintf(fp, "#=GF %-*s %s\n", maxgf, "DE", msa->desc);
+  if (msa->au   != NULL) fprintf(fp, "#=GF %-*s %s\n", maxgf, "AU", msa->au);
+  
+  /* Thresholds are hacky. Pfam has two. Rfam has one.
+   */
+  if      (msa->cutset[eslMSA_GA1] && msa->cutset[eslMSA_GA2])
+    fprintf(fp, "#=GF %-*s %.1f %.1f\n", 
+	    maxgf, "GA", msa->cutoff[eslMSA_GA1], msa->cutoff[eslMSA_GA2]);
+  else if (msa->cutset[eslMSA_GA1])
+    fprintf(fp, "#=GF %-*s %.1f\n", 
+	    maxgf, "GA", msa->cutoff[eslMSA_GA1]);
+
+  if      (msa->cutset[eslMSA_NC1] && msa->cutset[eslMSA_NC2])
+    fprintf(fp, "#=GF %-*s %.1f %.1f\n",
+	    maxgf, "NC", msa->cutoff[eslMSA_NC1], msa->cutoff[eslMSA_NC2]);
+  else if (msa->cutset[eslMSA_NC1])
+    fprintf(fp, "#=GF %-*s %.1f\n",
+	    maxgf, "NC", msa->cutoff[eslMSA_NC1]);
+
+  if      (msa->cutset[eslMSA_TC1] && msa->cutset[eslMSA_TC2])
+    fprintf(fp, "#=GF %-*s %.1f %.1f\n",
+	    maxgf, "TC", msa->cutoff[eslMSA_TC1], msa->cutoff[eslMSA_TC2]);
+  else if (msa->cutset[eslMSA_TC1])
+    fprintf(fp, "#=GF %-*s %.1f\n", 
+	    maxgf, "TC", msa->cutoff[eslMSA_TC1]);
+
+  for (i = 0; i < msa->ngf; i++)
+    fprintf(fp, "#=GF %-*s %s\n", maxgf, msa->gf_tag[i], msa->gf[i]); 
+  fprintf(fp, "\n");
+
+  return;
+}
+
+/* write_pfam_msa_gc
+ *                   
+ * Highly specialized function for printing out the GC annotation to a
+ * Pfam Stockholm alignment file (1 line/seq). This function is
+ * necessary when printing the merged alignment file in small memory
+ * mode (when --small enabled). <msa> is an alignment with no sequence
+ * information (no aseq, ax, GS, nor GR data).
+ */
+void
+write_pfam_msa_gc(FILE *fp, ESL_MSA *msa, int margin)
+{
+  int i;
+  if (msa->ss_cons != NULL) { fprintf(fp, "#=GC %-*s %s\n", margin-6, "SS_cons", msa->ss_cons); }
+  if (msa->sa_cons != NULL) { fprintf(fp, "#=GC %-*s %s\n", margin-6, "SA_cons", msa->sa_cons); }
+  if (msa->pp_cons != NULL) { fprintf(fp, "#=GC %-*s %s\n", margin-6, "PP_cons", msa->pp_cons); }
+  if (msa->rf != NULL)      { fprintf(fp, "#=GC %-*s %s\n", margin-6, "RF", msa->rf); }
+  for (i = 0; i < msa->ngc; i++) { fprintf(fp, "#=GC %-*s %s\n", margin-6, msa->gc_tag[i], msa->gc[i]); }
+  fprintf(fp, "//\n");
+}
+
+/* maxwidth()
+ * Return the length of the longest string in 
+ * an array of strings.
+ */
+static int64_t
+maxwidth(char **s, int n)
+{
+  int64_t max,len;
+  int     i; 
+  
+  max = 0;
+  for (i = 0; i < n; i++)
+    if (s[i] != NULL)
+      {
+	len = strlen(s[i]);
+	if (len > max) max = len;
+      }
+  return max;
+}
+
+/* rfchar_is_nongap_nonmissing()
+ * Return FALSE if a character from RF annotation is 
+ * a gap or a missing character, else return TRUE.
+ */
+static int 
+rfchar_is_nongap_nonmissing(const ESL_ALPHABET *abc, char rfchar) { 
+  if(esl_abc_CIsGap    (abc, rfchar)) return FALSE;
+  if(esl_abc_CIsMissing(abc, rfchar)) return FALSE;
+  return TRUE;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.itest.pl
new file mode 100755
index 0000000..2bfa00a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.itest.pl
@@ -0,0 +1,211 @@
+#! /usr/bin/perl
+
+# Integrated test of esl-alimerge miniapp.
+#
+# Usage:     ./esl-alimerge.itest.pl <esl-alimerge binary> <tmpfile prefix>
+# Example:   ./esl-alimerge.itest.pl ./esl-alimerge        foo
+#
+# EPN, Wed Nov 25 11:23:55 2009
+
+$eslalimerge = shift;
+$tmppfx      = shift;
+
+if (! -x "$eslalimerge") { die "FAIL: didn't find esl-alimerge binary $eslalimerge"; }
+
+open(ALIFILE, ">$tmppfx.1") || die "FAIL: couldn't open $tmppfx.1 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+seq1     aaAAAA.AAAA...Cc.cCCCCCC.C..GGGGGgggg
+seq2     ..AAAAaAAAAaacCcccCCCCCCcCccGGGGG....
+#=GC RF  ..AAAA.AAAA...C...CCCCCC.c..GGGGG....
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.2") || die "FAIL: couldn't open $tmppfx.2 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GS seq3 DE sequence 3 is the best!
+seq3     AAAAA..AAA.....CCC..CCCC....c..G..GG..GG.
+seq4     AAAAAaaAAAaccccC-CccCCCCccccccgGggGGggGGg
+#=GC RF  AAAAA..AAA.....CCC..CCCC~...c..G..GG..GG.
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.3") || die "FAIL: couldn't open $tmppfx.3 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GS seq5 DE kachow
+seq5     AAAAA..AAA.....CCC..CCCC....c..G..GG..GG.
+seq6     AAAAAaaAAAaccccC-CccCCCCccccccgGggGGggGGg
+#=GC RF  AAAAA..AAA.....CCC..CCCC~~..c..G..GG..GG.
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.4") || die "FAIL: couldn't open $tmppfx.4 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GS seq5 DE kachow
+seq5     ~~~AAAAA..AAA.....CCC..CCCC....c..G..GG..GG~~~~
+seq6     ...AAAAAaaAAAaccccC-CccCCCCccccccgGggGGggGGgggg
+#=GC RF  ...AAAAA..AAA.....CCC..CCCC~~..c..G..GG..GG....
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.5") || die "FAIL: couldn't open $tmppfx.5 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+seq7     ~CAAAA..AAA.....CCC..CCCC....c..G..GG..GC~
+seq8     .CAAAAaaAAAaccccC-CccCCCCccccccgGggGGggGGg
+#=GC RF  .AAAAA..AAA.....CCC..CCCC~~..c..G..GG..GG.
+//
+EOF
+close ALIFILE;
+
+open(LISTFILE, ">$tmppfx.list") || die "FAIL: couldn't open $tmppfx.list for writing list file";
+print LISTFILE "$tmppfx.2\n";
+print LISTFILE "$tmppfx.1\n";
+print LISTFILE "$tmppfx.3\n";
+close LISTFILE;
+
+$output = `$eslalimerge -h`;
+if ($? != 0)                                         { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /Usage: esl-alimerge/)                { die "FAIL: help output not right"; }
+
+$output = `$eslalimerge --rna $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --dna $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --amino $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --rna --list $tmppfx.list 2>&1`;
+if ($? != 0)                                                                                 { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                     { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/)  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccc\.cccgGggGGggGGg\.\.\./)             { die "FAIL: alignments merged incorrectly"; }
+system("$eslalimerge --rna -o $tmppfx.out $tmppfx.1 $tmppfx.2 > /dev/null");
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+$output = `cat $tmppfx.out`;
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+system("$eslalimerge --rna -v -o $tmppfx.out $tmppfx.1 $tmppfx.2 > /dev/null");
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+# don't worry about checking verbose output printed to stdout
+$output = `cat $tmppfx.out`;
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+$output = `cat $tmppfx.out`;
+
+$output = `$eslalimerge --rna --outformat pfam $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --rna --outformat a2m $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                 { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /aaAAAAAAAACccCCCCCCCGGGGGgggg/)              { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /AAAAAaaAAAaccccC-CccCCCCccccCcgGggGGggGGg/)  { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --rna --outformat psiblast $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                          { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /aaAAAA-A--AAA-----Cc-cCC--CCCC----C--G--GG--GGgggg/)  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /--AAAA-AaaAAAaccccC----CccCCCCccccCcgGggGGggGGg---/)  { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --rna --outformat afa $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --rna --rfonly $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /AAAAAAAACCCCCCCCGGGGG/)   { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /AAAAAAAAC\-CCCCCcGGGGG/)  { die "FAIL: alignments merged incorrectly"; }
+
+# test that hmmer3 fragment annotation is correctly handled (this WILL NOT WORK currently with --small!)
+$output = `$eslalimerge --rna $tmppfx.4 $tmppfx.5 2>&1`;
+if ($? != 0)                                                     { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /~~~CAAAA..AAA.....CCC..CCCC....c..G..GG..GC~~~/) { die "FAIL: alignments merged incorrectly"; }
+
+# repeat all the same tests (except a2m and psiblast output) but now in small memory mode
+$output = `$eslalimerge --small --rna $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --small --dna $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --small --amino $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --small --rna --list $tmppfx.list 2>&1`;
+if ($? != 0)                                                                                { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                    { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccc\.cccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+system("$eslalimerge --small --rna -o $tmppfx.out $tmppfx.1 $tmppfx.2 > /dev/null");
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+$output = `cat $tmppfx.out`;
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+system("$eslalimerge --small --rna -v -o $tmppfx.out $tmppfx.1 $tmppfx.2 > /dev/null");
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+# don't worry about checking verbose output printed to stdout
+$output = `cat $tmppfx.out`;
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+$output = `cat $tmppfx.out`;
+
+$output = `$eslalimerge --small --rna --outformat pfam $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)                                                  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /aaAAAA\.A\.\.AAA\.\.\.\.\.Cc\.cCC\.\.CCCC\.\.\.\.C\.\.G\.\.GG\.\.GGgggg/) { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /\.\.AAAA\.AaaAAAaccccC\.\.\.\-CccCCCCccccccgGggGGggGGg\.\.\./)            { die "FAIL: alignments merged incorrectly"; }
+
+$output = `$eslalimerge --small --rna --rfonly $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                              { die "FAIL: esl-alimerge failed unexpectedly"; }
+if ($output !~ /sequence 3 is the best/)  { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /AAAAAAAACCCCCCCCGGGGG/)   { die "FAIL: alignments merged incorrectly"; }
+if ($output !~ /AAAAAAAAC\-CCCCCcGGGGG/)  { die "FAIL: alignments merged incorrectly"; }
+
+
+print "ok\n"; 
+unlink "$tmppfx.1";
+unlink "$tmppfx.2";
+unlink "$tmppfx.3";
+unlink "$tmppfx.4";
+unlink "$tmppfx.5";
+unlink "$tmppfx.list";
+unlink "$tmppfx.out";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.man
new file mode 100755
index 0000000..b664d59
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alimerge.man
@@ -0,0 +1,179 @@
+.TH "esl-alimerge" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-alimerge - merge alignments based on their reference (RF) annotation
+
+.SH SYNOPSIS
+
+.TP 
+Merge two alignment files:
+.B esl-alimerge
+.I [options]
+.I alifile1
+.I alifile2
+
+.TP 
+Merge many alignment files listed in a file:
+.B esl-alimerge --list
+.I [options]
+.I listfile
+
+.SH DESCRIPTION
+
+.B esl-alimerge
+reads more than one input alignments, merges them into a single
+alignment and outputs it.
+
+The input alignments must all be in Stockholm format.  All alignments
+must have reference ('#=GC RF') annotation. Further, the RF annotation
+must be identical in all alignments once gap characters in the RF
+annotation ('.','-','_') have been removed.  This requirement allows
+alignments with different numbers of total columns to be merged
+together based on consistent RF annotation, such as alignments created
+by successive runs of the
+.B cmalign
+program of the INFERNAL package using the same CM.  Columns which have
+a gap character in the RF annotation are called 'insert' columns.
+
+All sequence data in all input alignments will be included in the
+output alignment regardless of the output format (see
+.B --outformat 
+option below). However, sequences in the merged alignment will usually
+contain more gaps ('.') than they did in their respective input
+alignments. This is because 
+.B esl-alimerge
+must add 100% gap columns to each individual input alignment so that
+insert columns in the other input alignments can be accomodated in the
+merged alignment.
+
+If the output format is Stockholm or Pfam, annotation will be
+transferred from the input alignments to the merged alignment as
+follows. All per-sequence ('#=GS') and per-residue ('#=GR') annotation
+is transferred.  Per-file ('#=GF') annotation is transferred if it is
+present and identical in all alignments.  Per-column ('#=GC') annotation is
+transferred if it is present and identical in all alignments once all
+insert positions have been removed 
+.B and 
+the '#=GC' annotation includes zero non-gap characters in insert
+columns.
+
+With the 
+.BI --list " <f>"
+option, 
+.I <f>
+is a file listing alignment files to merge. In the list file, blank
+lines and lines that start with '#' (comments) are ignored. Each data
+line contains a single word: the name of an alignment file to be
+merged. All alignments in each file will be merged.
+
+With the
+.B --small
+option, 
+.B esl-alimerge
+will operate in memory saving mode and the required RAM for the merge
+will be minimal (should be only a few Mb) and independent of the
+alignment sizes. To use 
+.B --small,
+all alignments must be in Pfam format (non-interleaved, 1
+line/sequence Stockholm format). You can reformat alignments to Pfam
+using the
+.B esl-reformat
+Easel miniapp. Without 
+.B --small
+the required RAM will be equal to roughly the size of the final merged
+alignment file which will necessarily be at least the summed size of
+all of the input alignment files to be merged and sometimes several
+times larger. If you're merging large alignments or you're
+experiencing very slow performance of
+.B esl-alimerge,
+try reformatting to Pfam and using
+.B --small.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI -o " <f>"
+Output merged alignment to file 
+.I <f>
+instead of to
+.I stdout.
+
+.TP
+.B -v
+Be verbose; print information on the size of the alignments being merged,
+and the annotation transferred to the merged alignment to 
+.I stdout.
+This option can only be used in combination with the
+.B -o 
+option (so that the printed info doesn't corrupt the output alignment
+file).
+
+.TP
+.B --small
+Operate in memory saving mode. Required RAM will be independent of the
+sizes of the alignments to merge, instead of roughly the size of the
+eventual merged alignment. When enabled, all alignments must be in
+Pfam Stockholm (non-interleaved 1 line/seq) format (see
+esl-reformat) and the output alignment will be in Pfam format.
+
+.TP
+.B --rfonly
+Only include columns that are not gaps in the GC RF annotation in the
+merged alignment. 
+
+.TP 
+.BI --outformat "<s> "
+Specify that the output alignment be format 
+.I <s>.
+Choices for 
+.I <s> 
+are: 'stockholm', 'pfam', 'a2m', 'psiblast', 'afa'. By default
+alignments are output in Stockholm format. 'pfam' is a special case of
+Stockholm format in which each sequence is placed on a single line,
+nstead of being interleaved; 'afa' is aligned FASTA.
+
+.TP 
+.BI --rna
+Specify that the input alignments are RNA alignments. By default
+.B esl-alimerge
+will try to autodetect the alphabet, but if the alignment is sufficiently
+small it may be ambiguous. This option defines the alphabet as RNA.
+
+.TP 
+.BI --dna
+Specify that the input alignments are DNA alignments.
+
+.TP 
+.BI --amino
+Specify that the input alignments are protein alignments.
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alipid.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alipid.c
new file mode 100755
index 0000000..1e8525f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alipid.c
@@ -0,0 +1,93 @@
+/* Calculates pairwise %id for all aligned sequence pairs in MSA
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_distance.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+static ESL_OPTIONS options[] = {
+  /* name                type   default   env  range  togs  reqs incomp    help                                                   docgroup */
+  { "-h",         eslARG_NONE,    FALSE, NULL,  NULL, NULL, NULL,  NULL,  "help; show brief info on version and usage",              1 },
+  { "--informat",  eslARG_STRING,      NULL,  NULL, NULL,  NULL,  NULL, NULL, "specify the input MSA file is in format <s>", 0 }, 
+  { "--outformat", eslARG_STRING, "Clustal",  NULL, NULL,  NULL,  NULL, NULL, "write the output MSA in format <s>",          0 }, 
+  { "--dna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use DNA alphabet",                            0 },
+  { "--rna",       eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use RNA alphabet",                            0 },
+  { "--amino",     eslARG_NONE,       FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use protein alphabet",                        0 },
+ { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static char banner[] = "calculate pairwise %id for each seq pair in an MSA";
+static char usage[]  = "[options] <msafile>";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = esl_getopts_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char         *msafile = esl_opt_GetArg(go, 1);
+  ESL_ALPHABET *abc     = NULL;
+  int           infmt   = eslMSAFILE_UNKNOWN;
+  ESLX_MSAFILE *afp     = NULL;
+  ESL_MSA      *msa     = NULL;
+  FILE         *ofp     = stdout;
+  int           nali    = 0;
+  int           namewidth;
+  double        pid;
+  int           nid, n;
+  int           i,j;
+  int           status;
+
+  /* allow user to assert the input MSA alphabet */
+  if      (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO); 
+
+  /* allow user to assert the input MSA format */
+  if (esl_opt_IsOn(go, "--informat") &&
+      (infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"))) == eslMSAFILE_UNKNOWN)
+    esl_fatal("%s is not a valid MSA file format for --informat", esl_opt_GetString(go, "--informat"));
+
+  /* digital open */
+  if ( ( status = eslx_msafile_Open(&abc, msafile, NULL, infmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  while ((status = eslx_msafile_Read(afp, &msa)) == eslOK)
+    {	
+      nali++;
+
+      namewidth = esl_str_GetMaxWidth(msa->sqname, msa->nseq);
+
+      for (i = 0; i < msa->nseq; i++)
+	for (j = i+1; j < msa->nseq; j++)
+	  {
+	    esl_dst_XPairId(abc, msa->ax[i], msa->ax[j], &pid, &nid, &n);
+	    fprintf(ofp, "%-*s %-*s %6.2f %6d %6d\n", namewidth, msa->sqname[i], namewidth, msa->sqname[j], pid*100.0, nid, n);
+	  }
+
+      esl_msa_Destroy(msa);
+    }
+  if (nali == 0 || status != eslEOF) eslx_msafile_ReadFailure(afp, status); 
+
+  eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+  
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $Id: esl-alipid.c 766 2012-06-04 13:11:51Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-alipid.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alipid.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alipid.man
new file mode 100755
index 0000000..943e36f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alipid.man
@@ -0,0 +1,105 @@
+.TH "esl-alipid" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-alipid - calculate pairwise percent identities for all sequence pairs in an MSA
+
+.SH SYNOPSIS
+
+.B esl-alipid
+.I [options]
+.I msafile
+
+.SH DESCRIPTION
+
+.pp
+.B esl-alistat 
+calculates the pairwise percent identity of each sequence pair in
+in the MSA(s) in 
+.I msafile.
+For each sequence pair, it outputs a line of 
+.I <sqname1> <sqname2> <pid> <nid> <n>
+where 
+.I <pid> 
+is the percent identity,
+.I <nid>
+is the number of identical aligned pairs,
+and 
+.I <n> 
+is the denominator used for the calculation: the
+shorter of the two (unaligned) sequence lengths.
+
+.pp
+If
+.I msafile 
+is - (a single dash), alignment input is read from 
+.I stdin.
+
+.pp 
+The
+.I msafile
+may be in any of several formats.
+The format is autodetected by default.
+See the
+.B --informat
+option to assert an input format.
+
+.pp
+The 
+.I msafile
+must contain either protein or DNA/RNA sequences. 
+The nucleic or amino alphabet will be autodetected by default.
+See the
+.B --amino,
+.B --dna,
+or
+.B --rna 
+options to assert an alphabet.
+
+.pp
+Only canonical residues are counted toward
+.I <nid> 
+and 
+.I <n>.
+Degenerate residue codes are not counted.
+
+.SH OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI --informat " <s>"
+Specify that the input alignment is in 
+.I <s>
+format. At present, valid formats are limited to
+Stockholm, Pfam, and AFA (aligned FASTA).
+
+.TP
+.B --amino
+Assert that the 
+.I msafile 
+contains protein sequences. 
+
+.TP 
+.B --dna
+Assert that the 
+.I msafile 
+contains DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I msafile 
+contains RNA sequences. 
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.c
new file mode 100755
index 0000000..fccfb01
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.c
@@ -0,0 +1,1151 @@
+/* Show statistics about a multiple sequence alignment file or MSA database.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile2.h"
+#include "esl_distance.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+static char banner[] = "show summary statistics for a multiple sequence alignment file";
+static char usage[]  = "[options] <msafile>";
+
+static int  dump_infocontent_info(FILE *fp, ESL_ALPHABET *abc, double **abc_ct, int use_weights, int nali, int64_t alen, int nseq, int *i_am_rf, char *msa_name, char *alifile, char *errbuf);
+static int  dump_residue_info(FILE *fp, ESL_ALPHABET *abc, double **abc_ct, int use_weights, int nali, int64_t alen, int nseq, int *i_am_rf, char *msa_name, char *alifile, char *errbuf);
+static int  dump_posterior_column_info(FILE *fp, double **pp_ct, int use_weights, int nali, int64_t alen, int nseq, int *i_am_rf, char *msa_name, char *alifile, char *errbuf);
+static int  dump_posterior_sequence_info(FILE *fp, ESL_MSA *msa, int nali, char *alifile, char *errbuf);
+static int  dump_insert_info(FILE *fp, ESL_MSA *msa, int use_weights, int nali, int *i_am_rf, char *alifile, char *errbuf);
+static int  dump_column_residue_counts(FILE *fp, ESL_ALPHABET *abc, double **abc_ct, int do_ambig, int use_weights, int nali, int64_t alen, int nseq, char *msa_name, char *alifile, char *errbuf);
+static int  dump_basepair_counts(FILE *fp, ESL_MSA *msa, ESL_ALPHABET *abc, double ***bp_ct, int use_weights, int nali, int nseq, char *msa_name, char *alifile, char *errbuf);
+static int  map_rfpos_to_apos(ESL_MSA *msa, ESL_ALPHABET *abc, char *errbuf, int64_t alen, int **ret_i_am_rf, int **ret_rf2a_map, int *ret_rflen);
+static int  get_pp_idx(ESL_ALPHABET *abc, char ppchar);
+static int  count_msa(ESL_MSA *msa, char *errbuf, int nali, int no_ambig, int use_weights, double ***ret_abc_ct, double ****ret_bp_ct, double ***ret_pp_ct);
+static int  check_msa_weights(ESL_MSA *msa);
+
+static ESL_OPTIONS options[] = {
+  /* name       type        default env   range togs  reqs  incomp      help                                                   docgroup */
+  { "-h",         eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "help; show brief info on version and usage",              1 },
+  { "-1",         eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "use tabular output, one line per alignment",              1 },
+  { "--informat", eslARG_STRING,  FALSE, NULL, NULL, NULL,NULL, NULL,            "specify that input file is in format <s>",                1 },
+  { "--amino",    eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL,"--dna,--rna",    "<msafile> contains protein alignments",                   1 },
+  { "--dna",      eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL,"--amino,--rna",  "<msafile> contains DNA alignments",                       1 },
+  { "--rna",      eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL,"--amino,--dna",  "<msafile> contains RNA alignments",                       1 },
+  { "--small",    eslARG_NONE,    FALSE, NULL, NULL, NULL,NULL, NULL,            "use minimal RAM (RAM usage will be independent of aln size)", 2 },
+  /* options for optional output files */
+  { "--list",      eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,        "output list of sequence names in alignment(s) to file <f>",      3 },
+  { "--icinfo",    eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,        "print info on information content alignment column",             3 },
+  { "--rinfo",     eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,        "print info on # of non-gap residues in each column to <f>",      3 },
+  { "--pcinfo",    eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,        "print per-column   posterior probability info to <f>",           3 },
+  { "--psinfo",    eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, "--small",   "print per-sequence posterior probability info to <f>",           3 },
+  { "--iinfo",     eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, "--small",   "print info on # of insertions b/t all non-gap RF cols to <f>",   3 },
+  { "--cinfo",     eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, NULL,        "print per-column residue counts to <f>",                         3 },
+  { "--noambig",   eslARG_NONE,   NULL, NULL, NULL,      NULL,NULL, "--small",   "with --cinfo, do not count ambiguous residues",                  3 },
+  { "--bpinfo",    eslARG_OUTFILE,NULL, NULL, NULL,      NULL,NULL, "--small",   "print per-column base-pair counts to <f>",                       3 },
+  { "--weight",    eslARG_NONE,   NULL, NULL, NULL,      NULL,NULL, "--small",   "with --*info files, weight counts using WT annotation from msa", 3 },
+  { "--stall",    eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL, NULL,            "arrest after start: for debugging under gdb",            99 },  
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	               /* application configuration       */
+  ESL_ALPHABET *abc     = NULL;      	       /* biological alphabet             */
+  char         *alifile = NULL;	               /* alignment file name             */
+  int           fmt     = eslMSAFILE_UNKNOWN;  /* format code for alifile         */
+  ESLX_MSAFILE *afp     = NULL;		       /* open msa file                   */
+  ESL_MSAFILE2 *old_afp = NULL;	               /* open msa file, legacy (--small) */
+  ESL_MSA      *msa     = NULL;	               /* one multiple sequence alignment */
+  int           nali;		               /* number of alignments read       */
+  int           i;		               /* counter over seqs               */
+  int64_t       alen;		               /* alignment length                */
+  int           nseq;                          /* number of sequences in the msa */
+  int64_t       rlen;		               /* a raw (unaligned) seq length    */
+  int64_t       small, large;	               /* smallest, largest sequence      */
+  int64_t       nres;		               /* total # of residues in msa      */
+  double        avgid;		               /* average fractional pair id      */
+  int           max_comparisons;               /* maximum # comparisons for avg id */
+  int           do_stall;                      /* used to stall when debugging     */
+  double      **abc_ct = NULL;                 /* [0..msa->alen-1][0..abc->K] number of each residue at each position (abc->K is gap) */
+  double     ***bp_ct  = NULL;                 /* [0..msa->alen-1][0..abc->Kp-1][0..abc->Kp-1] per (non-pknotted) consensus basepair *
+						* count of each possible basepair over all seqs basepairs are indexed by 'i' the minimum *
+						* of 'i:j' for a pair between i and j, where i < j. */
+  double       **pp_ct = NULL;                 /* [0..msa->alen-1][0..11], count of each posterior probability (PP) code, over all sequences, gap is 11 */  
+  int  *i_am_rf = NULL;                        /* [0..i..msa->alen-1]: TRUE if pos i is non-gap RF posn, if msa->rf == NULL remains NULL */
+  int  *rf2a_map = NULL;                       /* [0..rfpos..rflen-1] = apos,                     
+						* apos is the alignment position (0..msa->alen-1) that     
+						* is non-gap RF position rfpos+1 (for rfpos in 0..rflen-1) */
+  int rflen = -1;                              /* nongap RF length */
+  char          errbuf[eslERRBUFSIZE];
+  int           status;		               /* easel return code               */
+
+  /* optional output files */
+  FILE *iinfofp  = NULL; /* output file for --iinfo */
+  FILE *pcinfofp = NULL; /* output file for --pcinfo */
+  FILE *psinfofp = NULL; /* output file for --psinfo */
+  FILE *rinfofp  = NULL; /* output file for --rinfo */
+  FILE *icinfofp = NULL; /* output file for --icinfo */
+  FILE *listfp   = NULL; /* output file for --list */
+  FILE *cinfofp  = NULL; /* output file for --cinfo */
+  FILE *bpinfofp = NULL; /* output file for --bpinfo */
+  int use_weights;       /* TRUE if --weight, reported weighted counts (using msa->wgt) to all output files */
+  int weights_exist;     /* TRUE if at least one msa->wgt value differs from 1.0, FALSE if not (or if msa->wgt==NULL) */ 
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\n where options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      puts("\n small memory mode, requires --amino,--dna, or --rna and --informat pfam:");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+      puts("\n optional output files:");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go) != 1) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  alifile = esl_opt_GetArg(go, 1);
+
+  if (esl_opt_IsOn(go, "--informat") &&
+      (fmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"))) == eslMSAFILE_UNKNOWN)
+    esl_fatal("%s is not a valid input sequence file format for --informat", esl_opt_GetString(go, "--informat")); 
+    
+  if (esl_opt_GetBoolean(go, "--small") && fmt != eslMSAFILE_PFAM) esl_fatal("--small requires --informat pfam\n"); 
+
+  max_comparisons = 1000;
+
+  do_stall = esl_opt_GetBoolean(go, "--stall"); /* a stall point for attaching gdb */
+  while (do_stall); 
+
+  /***********************************************
+   * Open the MSA file; determine alphabet; set for digital input
+   ***********************************************/
+
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+
+  /* We'd like to get rid of the legacy msafile interface, but it
+   * includes small memory functionality for Pfam format which we have
+   * to replace first. For now, use both interfaces, new and legacy
+   */
+  if ( esl_opt_GetBoolean(go, "--small") )
+    {
+      if (! abc) esl_fatal("--small requires one of --amino, --dna, --rna be specified.");
+
+      status = esl_msafile2_OpenDigital(abc, alifile, NULL, &old_afp);
+      if      (status == eslENOTFOUND) esl_fatal("Alignment file %s doesn't exist or is not readable\n", alifile);
+      else if (status == eslEFORMAT)   esl_fatal("Couldn't determine format of alignment %s\n", alifile);
+      else if (status != eslOK)        esl_fatal("Alignment file open failed with error %d\n", status);
+    }
+  else
+    {
+      if ( (status = eslx_msafile_Open(&abc, alifile, NULL, fmt, NULL, &afp)) != eslOK)
+	eslx_msafile_OpenFailure(afp, status);
+    }
+
+  /**************************************
+   * Open optional output files, as nec *
+   **************************************/
+  /* determine name for first list file, if nec */
+  if( esl_opt_IsOn(go, "--list")) {
+    if ((listfp = fopen(esl_opt_GetString(go, "--list"), "w")) == NULL) 
+      esl_fatal("Failed to open --list output file %s\n", esl_opt_GetString(go, "--list"));
+  }
+  if( esl_opt_IsOn(go, "--icinfo")) {
+    if ((icinfofp = fopen(esl_opt_GetString(go, "--icinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --icinfo output file %s\n", esl_opt_GetString(go, "--icinfo"));
+  }
+  if( esl_opt_IsOn(go, "--rinfo")) {
+    if ((rinfofp = fopen(esl_opt_GetString(go, "--rinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --rinfo output file %s\n", esl_opt_GetString(go, "--rinfo"));
+  }
+  if( esl_opt_IsOn(go, "--pcinfo")) {
+    if ((pcinfofp = fopen(esl_opt_GetString(go, "--pcinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --pcinfo output file %s\n", esl_opt_GetString(go, "--pcinfo"));
+  }
+  if( esl_opt_IsOn(go, "--psinfo")) {
+    if ((psinfofp = fopen(esl_opt_GetString(go, "--psinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --psinfo output file %s\n", esl_opt_GetString(go, "--psinfo"));
+  }
+  if( esl_opt_IsOn(go, "--iinfo")) {
+    if ((iinfofp = fopen(esl_opt_GetString(go, "--iinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --iinfo output file %s\n", esl_opt_GetString(go, "--iinfo"));
+  }
+  if( esl_opt_IsOn(go, "--cinfo")) {
+    if ((cinfofp = fopen(esl_opt_GetString(go, "--cinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --cinfo output file %s\n", esl_opt_GetString(go, "--cinfo"));
+  }
+  if( esl_opt_IsOn(go, "--bpinfo")) {
+    if ((bpinfofp = fopen(esl_opt_GetString(go, "--bpinfo"), "w")) == NULL) 
+      esl_fatal("Failed to open --bpinfo output file %s\n", esl_opt_GetString(go, "--bpinfo"));
+  }
+
+  /***********************************************
+   * Read MSAs one at a time.
+   ***********************************************/
+
+  if (esl_opt_GetBoolean(go, "-1")) {
+    puts("#");
+    if(! esl_opt_GetBoolean(go, "--small")) { 
+      printf("# %-4s %-20s %10s %7s %7s %12s %6s %6s %10s %3s\n", "idx", "name", "format", "nseq", "alen", "nres", "small", "large", "avlen", "%id");
+      printf("# %-4s %-20s %10s %7s %7s %12s %6s %6s %10s %3s\n", "----", "--------------------", "----------", "-------", "-------", "------------", "------", "------", "----------", "---");
+    }
+    else { 
+      printf("# %-4s %-20s %10s %7s %7s %12s %10s\n", "idx", "name", "format", "nseq", "alen", "nres", "avlen");
+      printf("# %-4s %-20s %10s %7s %7s %12s %10s\n", "----", "--------------------", "----------", "-------", "-------", "------------", "----------");
+    }
+  }
+
+  nali = 0;
+  
+  fmt = (esl_opt_GetBoolean(go, "--small") ? old_afp->format : afp->format);
+
+  while ( (status = ( esl_opt_GetBoolean(go, "--small") ? 
+		      esl_msafile2_ReadInfoPfam(old_afp, listfp, abc, -1, NULL, NULL, &msa, &nseq, &alen, NULL, NULL, NULL, NULL, NULL, &abc_ct, &pp_ct, NULL, NULL, NULL) :
+		      eslx_msafile_Read        (afp, &msa))) == eslOK)
+    { 
+      nali++;
+      nres = 0;
+
+      if (! esl_opt_GetBoolean(go, "--small")) { 
+	nseq = msa->nseq;
+	alen = msa->alen;
+	small = large = -1;
+	for (i = 0; i < msa->nseq; i++)
+	  {
+	    rlen  = esl_abc_dsqrlen(msa->abc, msa->ax[i]);
+	    nres += rlen;
+	    if (small == -1 || rlen < small) small = rlen;
+	    if (large == -1 || rlen > large) large = rlen;
+	  }
+
+	esl_dst_XAverageId(abc, msa->ax, msa->nseq, max_comparisons, &avgid);
+      }
+      else { /* --small invoked */
+	for(i = 0; i < alen; i++) nres += (int) esl_vec_DSum(abc_ct[i], abc->K);
+      }
+
+      if (esl_opt_GetBoolean(go, "-1")) 
+	{
+	  printf("%-6d %-20s %10s %7d %7" PRId64 " %12" PRId64, 
+		 nali, 
+		 msa->name,
+		 eslx_msafile_DecodeFormat(fmt),
+		 nseq,
+		 alen,
+		 nres);
+	  if (! esl_opt_GetBoolean(go, "--small")) { 
+	    printf(" %6" PRId64 " %6" PRId64 " %10.1f %3.0f\n",
+		   small,
+		   large,
+		   (double) nres / (double) msa->nseq,
+		   100.*avgid);
+	  }
+	  else { 
+	    printf(" %10.1f\n", (double) nres / (double) nseq);
+	  }
+	}
+      else
+	{
+	  printf("Alignment number:    %d\n",     nali);
+	  if (msa->name != NULL)
+	    printf("Alignment name:      %s\n",        msa->name); 
+	  printf("Format:              %s\n",          eslx_msafile_DecodeFormat(fmt));
+	  printf("Number of sequences: %d\n",          nseq);
+	  printf("Alignment length:    %" PRId64 "\n", alen);
+	  printf("Total # residues:    %" PRId64 "\n", nres);
+	  if(! esl_opt_GetBoolean(go, "--small")) { 
+	    printf("Smallest:            %" PRId64 "\n", small);
+	    printf("Largest:             %" PRId64 "\n", large);
+	  }
+	  printf("Average length:      %.1f\n",        (double) nres / (double) nseq);
+	  if(! esl_opt_GetBoolean(go, "--small")) { 
+	    printf("Average identity:    %.0f%%\n",      100.*avgid); 
+	  }
+	  printf("//\n");
+	}
+
+      /* Dump data to optional output files, if nec */
+      if(esl_opt_IsOn(go, "--list")) {
+	if(! esl_opt_GetBoolean(go, "--small")) { 
+	    /* only print sequence name to list file if ! --small, else we already have in esl_msafile2_ReadInfoPfam() */
+	    for(i = 0; i < msa->nseq; i++) fprintf(listfp, "%s\n", msa->sqname[i]);
+	}
+      }
+
+      /* if RF exists, get i_am_rf array[0..alen] which tells us which positions are non-gap RF positions
+       * and rf2a_map, a map of non-gap RF positions to overall alignment positions */
+      if(msa->rf != NULL) {
+	if((status = map_rfpos_to_apos(msa, abc, errbuf, alen, &i_am_rf, &rf2a_map, &rflen)) != eslOK) esl_fatal(errbuf);
+      }
+      else i_am_rf = NULL;
+
+      weights_exist = check_msa_weights(msa);
+      use_weights   = (weights_exist && esl_opt_GetBoolean(go, "--weight")) ? TRUE : FALSE;
+      
+      if( (! esl_opt_GetBoolean(go, "--small")) && 
+	  (esl_opt_IsOn(go, "--icinfo") || esl_opt_IsOn(go, "--rinfo")  || esl_opt_IsOn(go, "--pcinfo") || 
+	   esl_opt_IsOn(go, "--cinfo")  || esl_opt_IsOn(go, "--bpinfo")))  {
+	/* collect counts of each residue and PPs (if they exist) from the msa */
+	if(esl_opt_GetBoolean(go, "--weight") && msa->wgt == NULL) esl_fatal("--weight requires all alignments have #=GS WT annotation, but aln %d does not", nali);
+	if((status = count_msa(msa, errbuf, nali, 
+			       esl_opt_GetBoolean(go, "--noambig"), /* ignore ambiguous residues? */
+			       esl_opt_GetBoolean(go, "--weight"),  /* use msa->wgt sequence weights? */
+			       &abc_ct, 
+			       ((bpinfofp != NULL && msa->ss_cons != NULL) ? &bp_ct : NULL), /* get basepair counts? */
+			       (msa->pp != NULL ? &pp_ct : NULL)))   /* get PP counts? */
+	   != eslOK) esl_fatal(errbuf);
+      }
+
+      if( esl_opt_IsOn(go, "--icinfo")) {
+	if((status = dump_infocontent_info(icinfofp, abc, abc_ct, use_weights, nali, alen, nseq, i_am_rf, msa->name, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+      if( esl_opt_IsOn(go, "--rinfo")) {
+	if((status = dump_residue_info(rinfofp, abc, abc_ct, use_weights, nali, alen, nseq, i_am_rf, msa->name, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+      if(esl_opt_IsOn(go, "--pcinfo")) {
+	if(pp_ct == NULL) esl_fatal("Error: --pcinfo requires all alignments have #=GR PP annotation, but alignment %d does not", nali);
+	if((status = dump_posterior_column_info(pcinfofp, pp_ct, use_weights, nali, alen, nseq, i_am_rf, msa->name, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+      if(esl_opt_IsOn(go, "--psinfo")) {
+	if(msa->pp == NULL) esl_fatal("Error: --psinfo requires all alignments have #=GR PP annotation, but alignment %d does not", nali);
+	if((status = dump_posterior_sequence_info(psinfofp, msa, nali, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+      if( esl_opt_IsOn(go, "--iinfo")) {
+	if(msa->rf == NULL) esl_fatal("--iinfo requires all alignments have #=GC RF annotation, but alignment %d does not", nali);
+	if(esl_opt_GetBoolean(go, "--weight") && msa->wgt == NULL) esl_fatal("--weight requires all alignments have #=GS WT annotation, but aln %d does not", nali);
+	if((status = dump_insert_info(iinfofp, msa, use_weights, nali, i_am_rf, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+      if( esl_opt_IsOn(go, "--cinfo")) {
+	if((status = dump_column_residue_counts(cinfofp, abc, abc_ct, esl_opt_GetBoolean(go, "--noambig"), use_weights, nali, alen, nseq, msa->name, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+      if( esl_opt_IsOn(go, "--bpinfo")) {
+	if(msa->ss_cons == NULL) esl_fatal("--bpinfo requires all alignments have #=GC SS_cons annotation, but alignment %d does not", nali);
+	if((status = dump_basepair_counts(bpinfofp, msa, abc, bp_ct, use_weights, nali, nseq, msa->name, alifile, errbuf) != eslOK)) esl_fatal(errbuf);
+      }
+
+      esl_msa_Destroy(msa);
+      if(abc_ct != NULL)   { esl_Free2D((void **) abc_ct, alen);          abc_ct   = NULL; }
+      if(bp_ct != NULL)    { esl_Free3D((void ***) bp_ct, alen, abc->Kp); bp_ct    = NULL; }
+      if(pp_ct != NULL)    { esl_Free2D((void **) pp_ct, alen);           pp_ct    = NULL; }
+      if(i_am_rf != NULL)  { free(i_am_rf);                               i_am_rf  = NULL; }
+      if(rf2a_map != NULL) { free(rf2a_map);                              rf2a_map = NULL; }
+    }
+  
+  /* If an msa read failed, we've dropped out to here with an informative status code. 
+   * we have to handle failures from new vs. legacy msa parsing differently 
+   */
+  if (esl_opt_GetBoolean(go, "--small")) 
+    {
+      if      (status == eslEFORMAT)  esl_fatal("Alignment file parse error, line %d of file %s:\n%s\nOffending line is:\n%s\n", old_afp->linenumber, old_afp->fname, old_afp->errbuf, old_afp->buf);	
+      else if (status != eslEOF)      esl_fatal("Alignment file read failed with error code %d\n", status);
+      else if (nali   == 0)           esl_fatal("No alignments found in file %s\n", alifile);
+    }
+  else
+    {
+      if (nali == 0 || status != eslEOF) eslx_msafile_ReadFailure(afp, status);
+    }
+
+  /* Cleanup, normal return
+   */
+  if(listfp != NULL) { 
+    fclose(listfp);
+    printf("# List of sequences in %d alignment(s) saved to file %s\n", nali, esl_opt_GetString(go, "--list"));
+  }
+  if(icinfofp != NULL) { 
+    fclose(icinfofp);
+    printf("# Information content data saved to file %s.\n", esl_opt_GetString(go, "--icinfo")); 
+  }
+  if(rinfofp != NULL) { 
+    fclose(rinfofp);
+    printf("# Residue data saved to file %s.\n", esl_opt_GetString(go, "--rinfo")); 
+  }
+  if(pcinfofp != NULL) { 
+    fclose(pcinfofp);
+    printf("# Per-column posterior probability data saved to file %s.\n", esl_opt_GetString(go, "--pcinfo")); 
+  }
+  if(psinfofp != NULL) { 
+    fclose(psinfofp);
+    printf("# Per-sequence posterior probability data saved to file %s.\n", esl_opt_GetString(go, "--psinfo")); 
+  }
+  if(iinfofp != NULL) { 
+    printf("# Insert data saved to file %s.\n", esl_opt_GetString(go, "--iinfo")); 
+    fclose(iinfofp);
+  }
+  if(cinfofp != NULL) { 
+    printf("# Per-column counts data saved to file %s.\n", esl_opt_GetString(go, "--cinfo")); 
+    fclose(cinfofp);
+  }
+  if(bpinfofp != NULL) { 
+    printf("# Per-column basepair counts data saved to file %s.\n", esl_opt_GetString(go, "--bpinfo")); 
+    fclose(bpinfofp);
+  }
+
+
+  if (afp)     eslx_msafile_Close(afp);
+  if (old_afp) esl_msafile2_Close(old_afp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+/* count_msa()
+ *                   
+ * Given an msa, count residues, and optionally base pairs and
+ * posterior probabilities per column and store them in <ret_abc_ct>
+ * and <ret_pp_ct>.
+ * 
+ * <ret_abc_ct> [0..apos..alen-1][0..abc->K]:
+ * - per position count of each symbol in alphabet over all seqs.
+ * 
+ * <ret_bp_ct>  [0..apos..alen-1][0..abc->Kp-1][0..abc->Kp-1] 
+ * - per (non-pknotted) consensus basepair count of each possible basepair 
+ *   over all seqs basepairs are indexed by 'i' the minimum of 'i:j' for a 
+ *   pair between i and j, where i < j. Note that non-canonicals and 
+ *   gaps and the like are all stored independently.
+ *
+ * <ret_pp_ct> [0..apos..alen-1][0..11]
+ * - per position count of each posterior probability code over all seqs.
+ * 
+ * A 'gap' has a looser definition than in esl_abc here, esl_abc's gap, 
+ * missing residues and nonresidues are all considered 'gaps' here.
+ * 
+ * If we encounter an error, we return non-eslOK status and fill
+ * errbuf with error message.
+ * 
+ * Returns eslOK upon success.
+ */
+static int count_msa(ESL_MSA *msa, char *errbuf, int nali, int no_ambig, int use_weights, double ***ret_abc_ct, double ****ret_bp_ct, double ***ret_pp_ct)
+{
+  int status;
+  double  **abc_ct = NULL;
+  double ***bp_ct = NULL;
+  int       apos, rpos, i, x;
+  int       nppvals = 12;         /* '0'-'9' = 0-9, '*' = 10, gap = '11' */
+  double  **pp_ct = NULL;         /* [0..alen-1][0..nppvals-1] per position count of each possible PP char over all seqs */
+  int       ppidx; 
+  /* variables related to getting bp counts */
+  int      *ct = NULL;            /* 0..alen-1 base pair partners array for current sequence */
+  char     *ss_nopseudo = NULL;   /* no-pseudoknot version of structure */
+  double    seqwt;  /* weight of current sequence, always 1.0 if !use_weights */
+
+  if(! (msa->flags & eslMSA_DIGITAL)) ESL_FAIL(eslEINVAL, errbuf, "count_msa() contract violation, MSA is not digitized");
+  if(use_weights && msa->wgt == NULL) ESL_FAIL(eslEINCOMPAT, errbuf, "count_msa(): use_weights==TRUE but msa->wgt == NULL");
+
+  /* allocate pp_ct array, if nec */
+  if(ret_pp_ct != NULL) { 
+    if(msa->pp == NULL) ESL_FAIL(eslEINVAL, errbuf, "count_msa() ret_pp_ct != NULL, but msa->pp is NULL");
+    ESL_ALLOC(pp_ct, sizeof(double *) * msa->alen);
+    for(apos = 0; apos < msa->alen; apos++) { 
+      ESL_ALLOC(pp_ct[apos], sizeof(double) * nppvals);
+      esl_vec_DSet(pp_ct[apos], nppvals, 0.);
+    }
+  }
+
+  /* allocate and initialize bp_ct, if nec */
+  if(ret_bp_ct != NULL) { 
+    ESL_ALLOC(bp_ct,  sizeof(double **) * msa->alen); 
+    /* get ct array which defines the consensus base pairs */
+    ESL_ALLOC(ct,  sizeof(int)  * (msa->alen+1));
+    ESL_ALLOC(ss_nopseudo, sizeof(char) * (msa->alen+1));
+    esl_wuss_nopseudo(msa->ss_cons, ss_nopseudo);
+    if ((status = esl_wuss2ct(ss_nopseudo, msa->alen, ct)) != eslOK) ESL_FAIL(status, errbuf, "Consensus structure string is inconsistent.");
+    for(apos = 0; apos < msa->alen; apos++) { 
+      /* careful ct is indexed 1..alen, not 0..alen-1 */
+      if(ct[(apos+1)] > (apos+1)) { /* apos+1 is an 'i' in an i:j pair, where i < j */
+	ESL_ALLOC(bp_ct[apos], sizeof(double *) * (msa->abc->Kp));
+	for(x = 0; x < msa->abc->Kp; x++) { 
+	  ESL_ALLOC(bp_ct[apos][x], sizeof(double) * (msa->abc->Kp));
+	  esl_vec_DSet(bp_ct[apos][x], msa->abc->Kp, 0.);
+	}
+      }
+      else { /* apos+1 is not an 'i' in an i:j pair, where i < j, set to NULL */
+	bp_ct[apos] = NULL;
+      }
+    }
+  }
+
+  ESL_ALLOC(abc_ct, sizeof(double *) * msa->alen); 
+  for(apos = 0; apos < msa->alen; apos++) { 
+    ESL_ALLOC(abc_ct[apos], sizeof(double) * (msa->abc->K+1));
+    esl_vec_DSet(abc_ct[apos], (msa->abc->K+1), 0.);
+  }
+
+  for(i = 0; i < msa->nseq; i++) { 
+    seqwt = use_weights ? msa->wgt[i] : 1.0;
+
+    for(apos = 0; apos < msa->alen; apos++) { /* update appropriate abc count, careful, ax ranges from 1..msa->alen (but abc_ct is 0..msa->alen-1) */
+      if((! no_ambig) || (! esl_abc_XIsDegenerate(msa->abc, msa->ax[i][apos+1]))) { /* skip ambiguities (degenerate residues) if no_ambig is TRUE */
+	if((status = esl_abc_DCount(msa->abc, abc_ct[apos], msa->ax[i][apos+1], seqwt)) != eslOK) ESL_FAIL(status, errbuf, "problem counting residue %d of seq %d", apos, i);
+      }
+    }
+
+    /* get bp counts, if nec */
+    if(bp_ct != NULL) { 
+      for(apos = 0; apos < msa->alen; apos++) { /* update appropriate abc count, careful, ax ranges from 1..msa->alen (but abc_ct is 0..msa->alen-1) */
+	if(bp_ct[apos] != NULL) { /* our flag for whether position (apos+1) is an 'i' in an i:j pair where i < j */
+	  rpos = ct[apos+1] - 1; /* ct is indexed 1..alen */
+	  bp_ct[apos][msa->ax[i][apos+1]][msa->ax[i][rpos+1]] += seqwt;
+	}
+      }
+    }
+
+    /* get PP counts, if nec  */
+    if(pp_ct != NULL) { 
+      if(msa->pp[i] != NULL) { 
+	for(apos = 0; apos < msa->alen; apos++) { 
+	  if((! no_ambig) || (! esl_abc_XIsDegenerate(msa->abc, msa->ax[i][apos+1]))) { /* skip ambiguities (degenerate residues) if no_ambig is TRUE */
+	    if((ppidx = get_pp_idx(msa->abc, msa->pp[i][apos])) == -1) ESL_FAIL(eslEFORMAT, errbuf, "bad #=GR PP char: %c", msa->pp[i][apos]);
+	    pp_ct[apos][ppidx] += seqwt;
+	  }
+	}
+      }
+    }
+  }
+
+  *ret_abc_ct  = abc_ct;
+  if(ret_bp_ct != NULL) *ret_bp_ct = bp_ct; /* we only allocated bp_ct if ret_bp_ct != NULL */
+  if(ret_pp_ct != NULL) *ret_pp_ct = pp_ct; /* we only allocated pp_ct if ret_pp_ct != NULL */
+
+  if(ss_nopseudo != NULL) free(ss_nopseudo);
+  if(ct != NULL) free(ct);
+
+  return eslOK;
+
+ ERROR:
+  if(abc_ct != NULL)  esl_Free2D((void **) abc_ct, msa->alen);
+  if(bp_ct != NULL)   esl_Free3D((void ***) bp_ct, msa->alen, msa->abc->Kp);
+  if(pp_ct != NULL)   esl_Free2D((void **) pp_ct, msa->alen);
+  ESL_FAIL(status, errbuf, "Error, out of memory while counting important values in the msa.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* get_pp_idx
+ *                   
+ * Given a #=GR PP or #=GC PP_cons character, return the appropriate index
+ * in a pp_ct[] vector. 
+ * '0' return 0;
+ * '1' return 1;
+ * '2' return 2;
+ * '3' return 3;
+ * '4' return 4;
+ * '5' return 5;
+ * '6' return 6;
+ * '7' return 7;
+ * '8' return 8;
+ * '9' return 9;
+ * '*' return 10;
+ * gap return 11;
+ * 
+ * Anything else (including missing or nonresidue) return -1;
+ */
+static int get_pp_idx(ESL_ALPHABET *abc, char ppchar)
+{
+  if(esl_abc_CIsGap(abc, ppchar)) return 11;
+  if(ppchar == '*')               return 10;
+  if(ppchar == '9')               return 9;
+  if(ppchar == '8')               return 8;
+  if(ppchar == '7')               return 7;
+  if(ppchar == '6')               return 6;
+  if(ppchar == '5')               return 5;
+  if(ppchar == '4')               return 4;
+  if(ppchar == '3')               return 3;
+  if(ppchar == '2')               return 2;
+  if(ppchar == '1')               return 1;
+  if(ppchar == '0')               return 0;
+  return -1;
+}
+
+
+/* dump_infocontent_info
+ *                   
+ * Given an MSA with RF annotation, dump information content per column data to 
+ * an open output file.
+ */
+static int dump_infocontent_info(FILE *fp, ESL_ALPHABET *abc, double **abc_ct, int use_weights, int nali, int64_t alen, int nseq, int *i_am_rf, char *msa_name, char *alifile, char *errbuf)
+{
+  int status;
+  int apos, rfpos;
+  double bg_ent;
+  double *bg = NULL;
+  double *abc_freq = NULL;
+  double nnongap;
+
+  ESL_ALLOC(bg, sizeof(double) * abc->K);
+  esl_vec_DSet(bg, abc->K, 1./(abc->K));
+  bg_ent = esl_vec_DEntropy(bg, abc->K);
+  free(bg);
+
+  ESL_ALLOC(abc_freq, sizeof(double) * abc->K);
+
+
+  fprintf(fp, "# Information content per column (bits):\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa_name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa_name); }
+  fprintf(fp, "# Number of sequences: %d\n", nseq);
+  if(use_weights) { fprintf(fp, "# IMPORTANT: Counts are weighted based on sequence weights in alignment file.\n"); }
+  else            { fprintf(fp, "# Sequence weights from alignment were ignored (if they existed).\n"); }
+  fprintf(fp, "#\n");
+
+  if(i_am_rf != NULL) { 
+    fprintf(fp, "# %7s  %7s  %10s  %10s\n", "rfpos",    "alnpos",  "freqnongap", "info(bits)");
+    fprintf(fp, "# %7s  %7s  %10s  %10s\n", "-------", "-------",  "----------", "----------");
+  }  
+  else { 
+    fprintf(fp, "# %7s  %10s  %10s\n", "alnpos",  "freqnongap", "info(bits)");
+    fprintf(fp, "# %7s  %10s  %10s\n", "-------", "----------", "----------");
+  }
+
+  rfpos = 0;
+  for(apos = 0; apos < alen; apos++) {
+    if(i_am_rf != NULL) { 
+      if(i_am_rf[apos]) { 
+	fprintf(fp, "  %7d", rfpos+1);
+	rfpos++; 
+      }
+      else { 
+	fprintf(fp, "  %7s", "-");
+      }
+    }
+    nnongap = esl_vec_DSum(abc_ct[apos], abc->K);
+    esl_vec_DCopy(abc_ct[apos], abc->K, abc_freq);
+    esl_vec_DNorm(abc_freq, abc->K);
+    fprintf(fp, "  %7d  %10.8f  %10.8f\n", apos+1, 
+	    nnongap / (nnongap + abc_ct[apos][abc->K]),
+	    (bg_ent - esl_vec_DEntropy(abc_freq, abc->K)));
+  }
+  fprintf(fp, "//\n");
+
+  if(abc_freq != NULL) free(abc_freq);
+
+  return eslOK;
+
+ ERROR:
+  ESL_FAIL(eslEINVAL, errbuf, "out of memory");
+  return status; /* NEVERREACHED */
+}
+
+
+/* dump_residue_info
+ *                   
+ * Given an MSA, print out the number of sequences with
+ * a non-gap residue in each column of the alignment.
+ */
+static int dump_residue_info(FILE *fp, ESL_ALPHABET *abc, double **abc_ct, int use_weights, int nali, int64_t alen, int nseq, int *i_am_rf, char *msa_name, char *alifile, char *errbuf)
+{
+  int apos, rfpos;
+  double rct, gct;
+
+  fprintf(fp, "# Insert information:\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa_name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa_name); }
+  fprintf(fp, "# Number of sequences: %d\n", nseq);
+  if(use_weights) { fprintf(fp, "# IMPORTANT: Counts are weighted based on sequence weights in alignment file.\n"); }
+  else            { fprintf(fp, "# Sequence weights from alignment were ignored (if they existed).\n"); }
+  fprintf(fp, "#\n");
+  if(i_am_rf != NULL) { 
+    fprintf(fp, "# %7s  %7s  %10s  %8s  %10s  %8s\n", "rfpos",    "alnpos",  "numres",    "freqres",  "numgap",     "freqgap");
+    fprintf(fp, "# %7s  %7s  %10s  %8s  %10s  %8s\n", "-------", "-------", "----------", "--------", "----------", "--------");
+  }  
+  else { 
+    fprintf(fp, "# %7s  %10s  %8s  %10s  %8s\n", "alnpos",  "numres",   "freqres", "numgap",    "freqgap");
+    fprintf(fp, "# %7s  %10s  %8s  %10s  %8s\n", "-------", "----------", "--------", "----------", "--------");
+  }
+ 
+  rfpos = 0;
+  for(apos = 0; apos < alen; apos++) {
+    rct = esl_vec_DSum(abc_ct[apos], abc->K);
+    gct = abc_ct[apos][abc->K];
+    if(i_am_rf != NULL) { 
+      if(i_am_rf[apos]) { 
+	fprintf(fp, "  %7d", rfpos+1);
+	rfpos++; 
+      }
+      else { 
+	fprintf(fp, "  %7s", "-");
+      }
+    }
+    fprintf(fp, "  %7d  %10.1f  %8.6f  %10.1f  %8.6f\n", apos+1, rct, rct / (float) nseq, gct, gct / (float) nseq);
+  }
+  fprintf(fp, "//\n");
+
+  return eslOK;
+}
+
+/* dump_posterior_column_info
+ *                   
+ * Dump per-column posterior probability data to a file.
+ *
+ */      
+static int dump_posterior_column_info(FILE *fp, double **pp_ct, int use_weights, int nali, int64_t alen, int nseq, int *i_am_rf, char *msa_name, char *alifile, char *errbuf)
+{
+  int    p,apos;     /* counters over sequences, columns of MSA */
+  int    nppvals = 12;
+  int    rfpos;
+  double nnongap;
+  double sum;
+  float ppavgA[11];
+  char ppstring[12] = "0123456789*.";
+
+  ppavgA[0]  = 0.025;  
+  ppavgA[1]  = 0.10;
+  ppavgA[2]  = 0.20;
+  ppavgA[3]  = 0.30;
+  ppavgA[4]  = 0.40;
+  ppavgA[5]  = 0.50;
+  ppavgA[6]  = 0.60;
+  ppavgA[7]  = 0.70;
+  ppavgA[8]  = 0.80;
+  ppavgA[9]  = 0.90;
+  ppavgA[10] = 0.975;
+
+  fprintf(fp, "# Posterior probability stats per column:\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa_name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa_name); }
+  fprintf(fp, "# Number of sequences: %d\n", nseq);
+  if(use_weights) { fprintf(fp, "# IMPORTANT: Counts are weighted based on sequence weights in alignment file.\n"); }
+  else            { fprintf(fp, "# Sequence weights from alignment were ignored (if they existed).\n"); }
+  fprintf(fp, "#\n");
+
+  fprintf(fp, "# %6s", "alnpos");
+  if(i_am_rf != NULL) fprintf(fp, "  %6s", "rfpos");
+  fprintf(fp, "  %9s", "nnongap");  
+  for(p = 0; p < nppvals; p++) { 
+    fprintf(fp, "  %9c", ppstring[p]);
+  }
+  fprintf(fp, "  %9s\n", "avgPP");
+
+  fprintf(fp, "# %6s  %6s  %9s", "------", "------", "---------");
+  for(p = 0; p < nppvals; p++) { 
+    fprintf(fp, "  %9s", "---------");
+  }
+  fprintf(fp, "  %9s\n", "---------");
+
+  rfpos = 1;
+  for(apos = 0; apos < alen; apos++) { 
+    sum = 0;
+    fprintf(fp, "  %6d", apos+1);
+    if(i_am_rf != NULL) { 
+      if(i_am_rf[apos]) fprintf(fp, "  %6d", rfpos++);
+      else              fprintf(fp, "  %6s", "-");
+    }
+    nnongap = esl_vec_DSum(pp_ct[apos], 11);
+    fprintf(fp, "  %9.1f", nnongap);
+    for(p = 0; p < nppvals; p++) { 
+      fprintf(fp, "  %9.1f", pp_ct[apos][p]);
+      if(p <= 10) sum += pp_ct[apos][p] * ppavgA[p];
+    }
+    fprintf(fp, "  %.5f\n", sum / nnongap);
+  }
+  fprintf(fp, "//\n");
+
+  return eslOK;
+}
+
+
+/* dump_posterior_sequence_info
+ *                   
+ * Dump per-sequence posterior probability data to a file.
+ *
+ */      
+static int dump_posterior_sequence_info(FILE *fp, ESL_MSA *msa, int nali, char *alifile, char *errbuf)
+{
+  int    i,p,apos;     /* counters over sequences, columns of MSA */
+  int    ppidx;
+  int    nppvals = 12;
+  int    nnongap;
+  double sum;
+  float ppavgA[11];
+  char ppstring[12] = "0123456789*.";
+  int seq_pp_ct[12];
+
+  ppavgA[0]  = 0.025;  
+  ppavgA[1]  = 0.10;
+  ppavgA[2]  = 0.20;
+  ppavgA[3]  = 0.30;
+  ppavgA[4]  = 0.40;
+  ppavgA[5]  = 0.50;
+  ppavgA[6]  = 0.60;
+  ppavgA[7]  = 0.70;
+  ppavgA[8]  = 0.80;
+  ppavgA[9]  = 0.90;
+  ppavgA[10] = 0.975;
+
+  fprintf(fp, "# Posterior probability stats per sequence:\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa->name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa->name); }
+  fprintf(fp, "# Number of sequences: %d\n", msa->nseq);
+  fprintf(fp, "# %7s  %-40s  %7s", "seqidx", "seqname", "nnongap");
+  for(p = 0; p < nppvals-1; p++) {  /* don't include gaps in per-sequence output */
+    fprintf(fp, "  %7c", ppstring[p]);
+  }
+  fprintf(fp, "  %7s\n", "avgPP");
+
+  fprintf(fp, "# %7s  %40s  %7s", "-------", "----------------------------------------", "-------");
+  for(p = 0; p < nppvals-1; p++) { /* don't include gaps in per-sequence output */
+    fprintf(fp, "  %7s", "-------");
+  }
+  fprintf(fp, "  %7s\n", "-------");
+
+  for(i = 0; i < msa->nseq; i++) { 
+    if(msa->pp[i] != NULL) { 
+      fprintf(fp, "  %7d  %-40s", i+1, msa->sqname[i]);
+      sum = 0.;
+      esl_vec_ISet(seq_pp_ct, nppvals, 0);
+      for(apos = 0; apos < msa->alen; apos++) { 
+	if((ppidx = get_pp_idx(msa->abc, msa->pp[i][apos])) == -1) ESL_FAIL(eslEFORMAT, errbuf, "bad #=GR PP char: %c", msa->pp[i][apos]);
+	seq_pp_ct[ppidx]++;
+      }
+      nnongap = esl_vec_ISum(seq_pp_ct, 11);
+      fprintf(fp, "  %7d", nnongap);
+      for(p = 0; p < nppvals-1; p++) { /* don't include gaps in per-sequence output */
+	fprintf(fp, "  %7d", seq_pp_ct[p]);
+	if(p <= 10) sum += (float) seq_pp_ct[p] * ppavgA[p];
+      }
+      fprintf(fp, "  %.5f\n", sum / (float) nnongap);
+    }
+  }
+  fprintf(fp, "//\n");
+
+  return eslOK;
+}
+
+
+/* dump_insert_info
+ *                   
+ * Given an MSA with RF annotation, print out information about how many 'insertions' come
+ * after each non-gap RF column (consensus column). 
+ */
+static int dump_insert_info(FILE *fp, ESL_MSA *msa, int use_weights, int nali, int *i_am_rf, char *alifile, char *errbuf)
+{
+  int status;
+  int apos, rfpos;
+  double **ict;
+  double *total_ict;
+  int i;
+  int rflen;
+  double seqwt; /* weight of current sequence */
+  double nseq;
+
+  /* contract check */
+  if(! (msa->flags & eslMSA_DIGITAL)) ESL_XFAIL(eslEINVAL, errbuf, "in dump_insert_info(), msa must be digitized.");
+  if(msa->rf == NULL) ESL_XFAIL(eslEINVAL, errbuf, "No #=GC RF markup in alignment, it is needed for --iinfo.");
+  if(i_am_rf == NULL) ESL_XFAIL(eslEINVAL, errbuf, "internal error, dump_insert_info() i_am_rf is NULL.");
+  if(use_weights && msa->wgt == NULL) ESL_FAIL(eslEINCOMPAT, errbuf, "dump_insert_info(): use_weights==TRUE but msa->wgt == NULL");
+
+  ESL_ALLOC(total_ict, sizeof(double) * (msa->alen+2));
+  esl_vec_DSet(total_ict, (msa->alen+2), 0.);
+
+  ESL_ALLOC(ict,  sizeof(double *) * (msa->alen+2));
+  for(i = 0; i <= msa->alen; i++)
+    {
+      ESL_ALLOC(ict[i],  sizeof(double) * (msa->nseq));
+      esl_vec_DSet(ict[i], (msa->nseq), 0.);
+    }
+
+  fprintf(fp, "# Insert information:\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa->name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa->name); }
+  fprintf(fp, "# rfpos is the nongap RF position after which insertions occur\n");
+  fprintf(fp, "# An rfpos of '0' indicates insertions before the first nongap RF position\n");
+  fprintf(fp, "# Number of sequences: %d\n", msa->nseq);
+  if(use_weights) { fprintf(fp, "# IMPORTANT: Counts are weighted based on sequence weights in alignment file.\n"); }
+  else            { fprintf(fp, "# Sequence weights from alignment were ignored (if they existed).\n"); }
+  fprintf(fp, "#\n");
+
+  fprintf(fp, "# %8s  %10s  %8s  %8s\n", "rfpos",    "nseq w/ins",  "freq ins", "avg len");
+  fprintf(fp, "# %8s  %10s  %8s  %8s\n", "--------", "----------", "--------", "--------");
+
+  rflen = 0;
+  for(apos = 1; apos <= msa->alen; apos++)
+    if(i_am_rf[apos-1]) rflen++;
+
+  rfpos = 0;
+  for(apos = 1; apos <= msa->alen; apos++)
+    {
+      if(i_am_rf[apos-1]) rfpos++;
+      else {
+	for(i = 0; i < msa->nseq; i++) { 
+	  seqwt = use_weights ? msa->wgt[i] : 1.0;
+	  if(esl_abc_XIsResidue(msa->abc, msa->ax[i][apos])) { 
+	    ict[rfpos][i]++;
+	    total_ict[rfpos] += seqwt;
+	  }
+	}	
+      }  
+    }
+  rflen = rfpos;
+
+  for(rfpos = 0; rfpos <= rflen; rfpos++)
+    {
+      nseq = 0.;
+      for(i = 0; i < msa->nseq; i++) { 
+	if(ict[rfpos][i] >= 1) { 
+	  seqwt = use_weights ? msa->wgt[i] : 1.0;
+	  nseq += seqwt;
+	}
+      }
+      if(nseq > 0.) 
+	fprintf(fp, "  %8d  %10.1f  %8.6f  %8.3f\n", rfpos, nseq, nseq / (float) msa->nseq, ((float) total_ict[rfpos] / (float) nseq));
+    }
+  fprintf(fp, "//\n");
+
+  for(i = 0; i <= msa->alen; i++) free(ict[i]);
+  free(ict);
+  free(total_ict);
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* dump_column_residue_counts
+ *                   
+ * Dump per-column residue counts from abc_ct[][] to 
+ * an open output file.
+ *
+ *  abc_ct: [0..msa->alen-1][0..abc->K] number of each residue at each position (abc->K is gap) 
+ */
+static int dump_column_residue_counts(FILE *fp, ESL_ALPHABET *abc, double **abc_ct, int no_ambig, int use_weights, int nali, int64_t alen, int nseq, char *msa_name, char *alifile, char *errbuf)
+{
+  int apos;
+  int i;
+
+  fprintf(fp, "# Per column residue counts:\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa_name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa_name); }
+  fprintf(fp, "# Number of sequences: %d\n", nseq);
+  if(no_ambig) { 
+    fprintf(fp, "# Ambiguous residues were not counted.\n");
+  }
+  else { 
+    if(abc->type == eslRNA)   fprintf(fp, "# Ambiguities were averaged (e.g. 1 'N' = 0.25 'A', 0.25 'C', 0.25 'G' and 0.25 'U')\n");
+    if(abc->type == eslDNA)   fprintf(fp, "# Ambiguities were averaged (e.g. 1 'N' = 0.25 'A', 0.25 'C', 0.25 'G' and 0.25 'T')\n");
+    if(abc->type == eslAMINO) fprintf(fp, "# Ambiguities were averaged (e.g. 1 'X' = 0.05 each for all 20 amino acids\n");
+  }
+  if(use_weights) { fprintf(fp, "# IMPORTANT: Counts are weighted based on sequence weights in alignment file.\n"); }
+  else            { fprintf(fp, "# Sequence weights from alignment were ignored (if they existed).\n"); }
+  fprintf(fp, "#\n");
+
+  fprintf(fp, "# %7s", "alnpos"); 
+  for(i = 0; i < abc->K; i++) fprintf(fp, "     %c   ", abc->sym[i]);
+  fprintf(fp, "\n");
+
+  fprintf(fp, "# %7s", "-------"); 
+  for(i = 0; i < abc->K; i++) fprintf(fp, "  %7s", "-------");
+  fprintf(fp, "\n");
+
+  for(apos = 0; apos < alen; apos++) {
+    fprintf(fp, "  %7d", apos+1);
+    for(i = 0; i < abc->K; i++) fprintf(fp, "  %7.1f", abc_ct[apos][i]);
+    fprintf(fp, "\n");
+  }
+  fprintf(fp, "//\n");
+
+  return eslOK;
+
+}
+
+/* dump_basepair_counts
+ *                   
+ * Dump per-basepaired-column basepair counts from bp_ct[][][] to 
+ * an open output file. Only pairs involving canonical residues
+ * are printed. (i.e. for RNA: AA,AC,AG,AU, CA,CC,CG,CU, GA,GC,GG,GU,
+ * UA,UC,UG,UU).
+ *
+ * <bp_ct>  [0..apos..alen-1][0..abc->Kp-1][0..abc->Kp-1] 
+ * - per (non-pknotted) consensus basepair count of each possible basepair 
+ *   over all seqs basepairs are indexed by 'i' the minimum of 'i:j' for a 
+ *   pair between i and j, where i < j. Note that non-canonicals and 
+ *   gaps and the like are all stored independently.
+ */
+static int dump_basepair_counts(FILE *fp, ESL_MSA *msa, ESL_ALPHABET *abc, double ***bp_ct, int use_weights, int nali, int nseq, char *msa_name, char *alifile, char *errbuf)
+{
+  int status;
+  int apos, rpos;
+  int i, j;
+
+  int      *ct = NULL;            /* 0..msa->alen-1 base pair partners array for current sequence */
+  char     *ss_nopseudo = NULL;   /* no-pseudoknot version of structure */
+
+  /* get ct array which defines the consensus base pairs */
+  ESL_ALLOC(ct,  sizeof(int) * (msa->alen+1));
+  ESL_ALLOC(ss_nopseudo, sizeof(char) * (msa->alen+1));
+  esl_wuss_nopseudo(msa->ss_cons, ss_nopseudo);
+  if ((status = esl_wuss2ct(ss_nopseudo, msa->alen, ct)) != eslOK) ESL_FAIL(status, errbuf, "Consensus structure string is inconsistent.");
+
+  fprintf(fp, "# Per-column basepair counts:\n");
+  fprintf(fp, "# Alignment file: %s\n", alifile);
+  fprintf(fp, "# Alignment idx:  %d\n", nali);
+  if(msa_name != NULL) { fprintf(fp, "# Alignment name: %s\n", msa_name); }
+  fprintf(fp, "# Number of sequences: %d\n", nseq);
+  fprintf(fp, "# Only basepairs involving two canonical (non-degenerate) residues were counted.\n");
+  if(use_weights) { fprintf(fp, "# IMPORTANT: Counts are weighted based on sequence weights in alignment file.\n"); }
+  else            { fprintf(fp, "# Sequence weights from alignment were ignored (if they existed).\n"); }
+  fprintf(fp, "#\n");
+
+  fprintf(fp, "# %7s  %7s", "lpos",    "rpos"); 
+  for(i = 0; i < abc->K; i++) { 
+    for(j = 0; j < abc->K; j++) {  
+      fprintf(fp, "    %c%c  ", abc->sym[i], abc->sym[j]);
+    }
+  }
+  fprintf(fp, "\n");
+
+  fprintf(fp, "# %7s  %7s", "-------",    "-------"); 
+  for(i = 0; i < abc->K; i++) { 
+    for(j = 0; j < abc->K; j++) {  
+      fprintf(fp, "  %6s", "------");
+    }
+  }
+  fprintf(fp, "\n");
+
+  for(apos = 0; apos < msa->alen; apos++) {
+    if(bp_ct[apos] != NULL) { 
+      rpos = ct[(apos+1)];
+      fprintf(fp, "  %7d  %7d", apos+1, rpos);
+      for(i = 0; i < abc->K; i++) { 
+	for(j = 0; j < abc->K; j++) {  
+	  fprintf(fp, "  %6d", (int) bp_ct[apos][i][j]);
+	}
+      }
+      fprintf(fp, "\n");
+    }
+  }
+  fprintf(fp, "//\n");
+
+  if(ss_nopseudo != NULL) free(ss_nopseudo);
+  if(ct != NULL) free(ct);
+  return eslOK;
+
+ ERROR:
+  if(ss_nopseudo != NULL) free(ss_nopseudo);
+  if(ct != NULL) free(ct);
+  ESL_FAIL(status, errbuf, "Error, out of memory while dumping basepair info");
+}
+
+/* map_rfpos_to_apos
+ *                   
+ * Given an MSA, determine the alignment position of each
+ * non-gap RF (reference) position. The abc is only necessary
+ * for defining gap characters.
+ * 
+ * rf2a_map[0..rfpos..rflen-1] = apos, apos is the alignment position (0..msa->alen-1) that 
+ *                               is non-gap RF position rfpos+1 (for rfpos in 0..rflen-1) 
+ */
+static int map_rfpos_to_apos(ESL_MSA *msa, ESL_ALPHABET *abc, char *errbuf, int64_t alen, int **ret_i_am_rf, int **ret_rf2a_map, int *ret_rflen)
+{
+  int status;
+  int rflen = 0;
+  int *rf2a_map = NULL;
+  int *i_am_rf = NULL;
+  int rfpos = 0;
+  int apos = 0;
+
+  /* contract check */
+  if(msa->rf == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, trying to map RF positions to alignment positions, but msa->rf is NULL.");
+
+  /* count non-gap RF columns */
+  for(apos = 0; apos < alen; apos++) { 
+    if((! esl_abc_CIsGap(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsMissing(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsNonresidue(abc, msa->rf[apos])))
+      { 
+	rflen++;
+	/* I don't use esl_abc_CIsResidue() b/c that would return FALSE for 'x' with RNA and DNA */
+      }
+  }
+  /* build map */
+  ESL_ALLOC(i_am_rf, sizeof(int) * alen);
+  ESL_ALLOC(rf2a_map, sizeof(int) * rflen);
+  for(apos = 0; apos < alen; apos++) {
+    if((! esl_abc_CIsGap(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsMissing(abc, msa->rf[apos])) && 
+       (! esl_abc_CIsNonresidue(abc, msa->rf[apos]))) { 
+      i_am_rf[apos] = TRUE;
+      rf2a_map[rfpos++] = apos;
+    }
+    else { 
+      i_am_rf[apos] = FALSE;
+    }
+  }
+  *ret_i_am_rf  = i_am_rf;
+  *ret_rf2a_map = rf2a_map;
+  *ret_rflen    = rflen;
+  return eslOK;
+
+ ERROR:
+  if(i_am_rf  != NULL) free(i_am_rf);
+  if(rf2a_map != NULL) free(rf2a_map);
+  ESL_FAIL(status, errbuf, "Error, out of memory while mapping RF positions to alignment positions.");
+}
+
+/* check_msa_weights
+ *                   
+ * Given an MSA, check if it has any weight that is 
+ * different from 1.0. If yes return TRUE, if not
+ * return FALSE. If it does not have weights return
+ * FALSE.
+ */
+static int check_msa_weights(ESL_MSA *msa)
+{
+  int i;
+
+  if(msa->wgt == NULL) return FALSE;
+  for(i = 0; i < msa->nseq; i++) { 
+    if (esl_FCompare(msa->wgt[i], 1.0, eslSMALLX1) != eslOK) return TRUE;
+  }
+  return FALSE;
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-alistat.c $
+ * SVN $Id: esl-alistat.c 712 2011-07-27 22:15:08Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.itest.pl
new file mode 100755
index 0000000..2e1d92b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.itest.pl
@@ -0,0 +1,232 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-alistat miniapp.
+#
+# Usage:     ./esl-alistat.itest.pl <esl-alistat binary> <tmpfile prefix>
+# Example:   ./esl-alistat.itest.pl ./esl-alistat        foo
+#
+# EPN, Tue Feb  2 13:19:44 2010
+
+$eslalistat= shift;
+$tmppfx    = shift;
+
+if (! -x "$eslalistat") { die "FAIL: didn't find esl-alistat binary $eslalistat"; }
+
+open(ALIFILE, ">$tmppfx.stk") || die "FAIL: couldn't open $tmppfx.stk for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+seq1         aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 PP 5789**..**88...*9.9****88.7..776543210
+seq2         ..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 PP ..********************************....
+seq3         ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 PP ..5555..4*44...3...888888.8..8899.....
+#=GC SS_cons ...............<...<<<<......>>>>>....
+#=GC PP_cons ..789*..8877...8...****99.8..99998....
+#=GC RF      ..AAAA..AAAA...C...CCCCCC.c..GGGGG....
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.dbl.stk") || die "FAIL: couldn't open $tmppfx.stk for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GS seq1 WT 1.5
+#=GS seq2 WT 1.0
+#=GS seq3 WT 0.5
+seq1         aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+#=GR seq1 PP 5789**..**88...*9.9****88.7..776543210
+seq2         ..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+#=GR seq2 PP ..********************************....
+seq3         ..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+#=GR seq3 PP ..5555..4*44...3...888888.8..8899.....
+#=GC SS_cons ...............<...<<<<......>>>>>....
+#=GC PP_cons ..789*..8877...8...****99.8..99998....
+#=GC RF      ..AAAA..AAAA...C...CCCCCC.c..GGGGG....
+//
+# STOCKHOLM 1.0
+seq1         aaA
+#=GR seq1 PP 578
+seq2         ..A
+#=GR seq2 PP ..*
+#=GC SS_cons ...
+#=GC RF      ..A
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.afa") || die "FAIL: couldn't open $tmppfx.afa for writing alifile";
+print ALIFILE << "EOF";
+>seq1
+aaAAAA..AAAA...Cc.cCCCCCC.C..GGGGGgggg
+>seq2
+..AAAAa.AAAAaacCcccCCCCCCcCccGGGGG....
+>seq3
+..AAAA..AAAA...C...CCCCCC.C..GGGG-....
+EOF
+close ALIFILE;
+
+$output = `$eslalistat -h`;
+if ($? != 0)                                     { die "FAIL: esl-alistat failed unexpectedly"; }
+if ($output !~ /Usage: esl-alistat/)             { die "FAIL: help output not right"; }
+
+# We do 2 runs of most tests, with and without --small
+$smallA[0] = "";
+$smallA[1] = "--small --informat pfam";
+
+for($pass = 0; $pass < 2; $pass++) {
+    $pass2write = $pass+1;
+
+    $output = `$eslalistat $smallA[$pass] --rna $tmppfx.stk 2>&1`;
+    if ($? != 0)                                                                                                                                { die "FAIL: esl-alistat failed unexpectedly";}
+    if ($output !~ /Alignment length:    38/)        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($output !~ /Average length:      26.7/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($pass == 0) { 
+	if ($output !~ /Format:              Stockholm/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Average identity:    93\%/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /Format:              Pfam/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalistat $smallA[$pass] --dna $tmppfx.stk 2>&1`;
+    if ($? != 0)                                                                                                                                { die "FAIL: esl-alistat failed unexpectedly";}
+    if ($output !~ /Alignment length:    38/)        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($output !~ /Average length:      26.7/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($pass == 0) { 
+	if ($output !~ /Format:              Stockholm/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Average identity:    93\%/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /Format:              Pfam/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalistat $smallA[$pass] --amino $tmppfx.stk 2>&1`;
+    if ($? != 0)                                                                                                                                { die "FAIL: esl-alistat failed unexpectedly";}
+    if ($output !~ /Alignment length:    38/)        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($output !~ /Average length:      26.7/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($pass == 0) { 
+	if ($output !~ /Format:              Stockholm/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Average identity:    93\%/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /Format:              Pfam/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+
+    if($pass == 0) { 
+	$output = `$eslalistat $smallA[$pass] --informat afa --rna $tmppfx.afa 2>&1`;
+	if ($? != 0)                                         { die "FAIL: esl-alistat failed unexpectedly";}
+	if ($output !~ /Format:              aligned FASTA/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Alignment length:    38/)        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Average length:      26.7/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Average identity:    93\%/)      { die "FAIL: alignments compared incorrectly on pass $pass2write"; }
+    }
+
+    $output = `$eslalistat $smallA[$pass] -1 --rna $tmppfx.stk 2>&1`;
+    if ($? != 0)                                                                                                                                { die "FAIL: esl-alistat failed unexpectedly";}
+    if ($pass == 0) { 
+	if ($output !~ /Stockholm       3      38           80     20     31       26.7  93/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /Pfam       3      38           80       26.7/)                        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+
+    # test a file with 2 alignments
+    $output = `$eslalistat $smallA[$pass] --rna $tmppfx.dbl.stk 2>&1`;
+    if ($? != 0)                                         { die "FAIL: esl-alistat failed unexpectedly";}
+    if ($output !~ /Alignment length:    38/)        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($output !~ /Average length:      26.7/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($output !~ /Alignment number:    2/)         { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($output !~ /Average length:      2.0/)       { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if ($pass == 0) { 
+	if ($output !~ /Format:              Stockholm/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if ($output !~ /Average identity:    93\%/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+    else { 
+	if ($output !~ /Format:              Pfam/)      { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+
+    # test output file options
+    system("$eslalistat --icinfo $tmppfx.ic $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+    if ($? != 0)                                 { die "FAIL: esl-alistat failed unexpectedly";}
+    $output = `cat $tmppfx.ic`;
+    if($output !~ /5        9  1.0\d+  2.0\d+/)  { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if($output !~ /\# Alignment idx:  2/)        { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+    system("$eslalistat --rinfo  $tmppfx.r  $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+    if ($? != 0)                                         { die "FAIL: esl-alistat failed unexpectedly";}
+    $output = `cat $tmppfx.r`;
+    if($output !~ /21       34         2.0  0.66\d+         1.0  0.33\d+/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if($output !~ /\# Alignment idx:  2/)                { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+    system("$eslalistat --pcinfo  $tmppfx.pc $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+    if ($? != 0)                                         { die "FAIL: esl-alistat failed unexpectedly";}
+    $output = `cat $tmppfx.pc`;
+    if($output !~ /31\s+18\s+3.0\s+0.0\s+0.0\s+0.0\s+0.0\s+0.0\s+0.0\s+0.0\s+1.0\s+1.0\s+0.0\s+1.0\s+0.0\s+0.82\d+/) { 
+	die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; 
+    }
+    if($output !~ /\# Alignment idx:  2/)                { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+    system("$eslalistat --list $tmppfx.list $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+    if ($? != 0)                                                  { die "FAIL: esl-alistat failed unexpectedly";}
+    $output = `cat $tmppfx.list`;
+    if($output !~ /seq2.+seq2/s)                                  { die "FAIL: alignment lists created incorrectly on pass $pass2write"; }
+    if($output !~ /seq3/)                                         { die "FAIL: alignment lists created incorrectly on pass $pass2write"; }
+
+    if($pass == 0) { # these are incompatible with --small 
+	system("$eslalistat --psinfo  $tmppfx.ps $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+	if ($? != 0)                                         { die "FAIL: esl-alistat failed unexpectedly";}
+	$output = `cat $tmppfx.ps`;
+        if($output !~ /seq3                                           20        0        0        0        1        3        4        0        0        9        2        1  0.67\d+/) { 
+	    die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; 
+	}
+	if($output !~ /seq2                                            1        0        0        0        0        0        0        0        0        0        0        1  0.97\d+/) {
+	    die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; 
+	}
+
+	system("$eslalistat --iinfo  $tmppfx.i $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+	if ($? != 0)                                                  { die "FAIL: esl-alistat failed unexpectedly";}
+	$output = `cat $tmppfx.i`;
+        if($output !~ /16\s+1.0\s+0.33\d+\s+2.0/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if($output !~ /\# Alignment idx:  2/)     { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+	system("$eslalistat --cinfo $tmppfx.c --noambig $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+	if ($? != 0)                                                  { die "FAIL: esl-alistat failed unexpectedly";}
+	$output = `cat $tmppfx.c`;
+	if($output !~ /3\s+3\.\d+\s+0\.\d+\s+0\.\d+\s+0/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if($output !~ /\# Alignment idx:  2/)                         { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+	system("$eslalistat --bpinfo  $tmppfx.bp $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+	if ($? != 0)                                                  { die "FAIL: esl-alistat failed unexpectedly";}
+	$output = `cat $tmppfx.bp`;
+        if($output !~ /16\s+34\s+0\s+0\s+0\s+0\s+0\s+0\s+2\s+0\s+0\s+0\s+0\s+0\s+0\s+0\s+0\s+0\s+/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if($output !~ /\# Alignment idx:  2/)                         { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+	system("$eslalistat --weight --cinfo $tmppfx.c $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+	if ($? != 0)                                                  { die "FAIL: esl-alistat failed unexpectedly";}
+	$output = `cat $tmppfx.c`;
+	if($output !~ /2\s+1\.5\s+0\.\d+\s+0\.\d+\s+0/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+	if($output !~ /\# Alignment idx:  2/)                         { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    }
+
+    system("$eslalistat --cinfo $tmppfx.c $smallA[$pass] --rna $tmppfx.dbl.stk > /dev/null");
+    if ($? != 0)                                                  { die "FAIL: esl-alistat failed unexpectedly";}
+    $output = `cat $tmppfx.c`;
+    if($output !~ /3\s+3\.\d+\s+0\.\d+\s+0\.\d+\s+0/) { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+    if($output !~ /\# Alignment idx:  2/)                         { die "FAIL: alignment statistics calculated incorrectly on pass $pass2write"; }
+
+}
+
+
+print "ok\n"; 
+unlink "$tmppfx.stk";
+unlink "$tmppfx.afa";
+unlink "$tmppfx.dbl.stk";
+unlink "$tmppfx.i";
+unlink "$tmppfx.ic";
+unlink "$tmppfx.list";
+unlink "$tmppfx.pc";
+unlink "$tmppfx.ps";
+unlink "$tmppfx.r";
+unlink "$tmppfx.c";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.man
new file mode 100755
index 0000000..3ea0b15
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-alistat.man
@@ -0,0 +1,234 @@
+.TH "esl-alistat" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-alistat - summarize a multiple sequence alignment file
+
+.SH SYNOPSIS
+
+.B esl-alistat
+.I [options]
+.I msafile
+
+.SH DESCRIPTION
+
+.pp
+.B esl-alistat 
+summarizes the contents of the multiple sequence alignment(s) in 
+.I msafile, 
+such as the alignment name, format, alignment length (number of
+aligned columns), number of sequences, average pairwise % identity,
+and mean, smallest, and largest raw (unaligned) lengths of the
+sequences.
+
+If 
+.I msafile
+is - (a single dash),
+multiple alignment input is read from
+.I stdin.
+
+The alignments can be of protein or DNA/RNA sequences. All alignments
+in the same 
+.I msafile
+must be either protein or DNA/RNA. The alphabet will be autodetected
+unless one of the options 
+.I --amino,
+.I --dna,
+or 
+.I --rna 
+are given. These options may be useful in automated
+pipelines to make 
+.B esl-alistat 
+more robust; alphabet autodetection is not infallible.
+
+The 
+.B --list,
+.B --icinfo,
+.B --rinfo,
+.B --pcinfo,
+.B --psinfo,
+.B --cinfo,
+.B --bpinfo,
+and
+.B --iinfo,
+options allow dumping various statistics on the alignment to optional
+output files as described for each of those options below.
+
+The 
+.B --small
+option allows summarizing alignments without storing them in memory
+and can be useful for large alignment files with sizes that approach
+or exceed the amount of available RAM.  When
+.B --small
+is used, 
+.B esl-alistat
+will print fewer statistics on the alignment, omitting data on the
+smallest and largest sequences and the average identity of the
+alignment.
+.B --small
+only works on Pfam formatted alignments (a special type of
+non-interleaved Stockholm alignment in which each sequence occurs on a
+single line) and 
+.BI --informat " pfam"
+must be given with
+.B --small.
+Further, when 
+.B --small
+is used, the alphabet must be specified with
+.I --amino,
+.I --dna,
+or 
+.I --rna.
+
+.SH OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP 
+.B -1
+Use a tabular output format with one line of statistics per alignment
+in 
+.I msafile.
+This is most useful when
+.I msafile
+contains many different alignments (such as a Pfam database in
+Stockholm format).
+
+
+.SH EXPERT OPTIONS
+
+.TP
+.BI --informat " <s>"
+Specify that the input alignment is in 
+.I <s>
+format. At present, valid formats are limited to
+Stockholm, Pfam, and AFA (aligned FASTA).
+
+.TP
+.B --amino
+Assert that the 
+.I msafile 
+contains protein sequences. 
+
+.TP 
+.B --dna
+Assert that the 
+.I msafile 
+contains DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I msafile 
+contains RNA sequences. 
+
+.TP 
+.B --small
+Operate in small memory mode for Pfam formatted alignments.
+.BI --informat " pfam"
+and one of
+.B --amino,
+.B --dna,
+or
+.B --rna
+must be given as well.
+
+.TP 
+.BI --list " <f>"
+List the names of all sequences in all alignments in 
+.B msafile
+to file
+.I <f>.
+Each sequence name is written on its own line. 
+
+.TP 
+.BI --icinfo " <f>"
+Dump the information content per position in tabular format to file
+.I <f>.
+Lines prefixed with "#" are comment lines, which explain the
+meanings of each of the tab-delimited fields.
+
+.TP 
+.BI --rinfo " <f>"
+Dump information on the frequency of gaps versus nongap residues per position in tabular format to file
+.I <f>.
+Lines prefixed with "#" are comment lines, which explain the
+meanings of each of the tab-delimited fields.
+
+.TP 
+.BI --pcinfo " <f>"
+Dump per column information on posterior probabilities in tabular format to file
+.I <f>.
+Lines prefixed with "#" are comment lines, which explain the
+meanings of each of the tab-delimited fields.
+
+.TP 
+.BI --psinfo " <f>"
+Dump per sequence information on posterior probabilities in tabular format to file
+.I <f>.
+Lines prefixed with "#" are comment lines, which explain the
+meanings of each of the tab-delimited fields.
+
+.TP 
+.BI --iinfo " <f>"
+Dump information on inserted residues in tabular format to file
+.I <f>.
+Insert columns of the alignment are those that are gaps in the
+reference (#=GC RF) annotation. This option only works if the input
+file is in Stockholm format with reference annotation.
+Lines prefixed with "#" are comment lines, which explain the
+meanings of each of the tab-delimited fields. 
+
+.TP 
+.BI --cinfo " <f>"
+Dump per-column residue counts to file
+.I <f>.
+If used in combination with
+.B --noambig
+ambiguous (degenerate) residues will be ignored and not
+counted. Otherwise, they will be marginalized. For example, in an RNA
+sequence file, a 'N' will be counted as 0.25 'A', 0.25 'C', 0.25 'G',
+and 0.25 'U'.
+
+.TP 
+.B --noambig
+With 
+.B --cinfo,
+do not count ambiguous (degenerate) residues. 
+
+.TP 
+.B --bpinfo
+Dump per-column basepair counts to file
+.I <f>.
+Counts appear for each basepair in the consensus secondary structure (annotated as
+"#=GC SS_cons"). Only basepairs from sequences for which both paired positions are
+canonical residues will be counted. That is, any basepair that is a gap
+or an ambiguous (degenerate) residue at either position of the pair is
+ignored and not counted.
+
+
+.TP 
+.B --weight
+With 
+.B --icinfo, --rinfo, --pcinfo, --iinfo, --cinfo 
+and
+.B --bpinfo,
+weight counts based on #=GS WT annotation in the input 
+.B msafile.
+A residue or basepair from a sequence with a weight of 
+.I x
+will be considered 
+.I x
+counts. 
+By default, raw, unweighted counts are reported; corresponding to each
+sequence having an equal weight of 1.
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-cluster.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-cluster.c
new file mode 100755
index 0000000..c551d2d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-cluster.c
@@ -0,0 +1,212 @@
+/* Clusters tabular data.
+ * 
+ * SRE, Mon Nov  3 13:43:29 2008 [Janelia]
+ * SVN $Id: esl-cluster.c 685 2011-05-23 14:27:52Z eddys $
+ */
+
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <math.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_stack.h"
+#include "esl_tree.h"
+#include "esl_vectorops.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env    range toggles reqs  incomp               help                                     docgroup*/
+  { "-h",      eslARG_NONE,   FALSE, NULL,     NULL,   NULL,NULL,   NULL,          "show brief help on version and usage",        0 },
+  { "-q",      eslARG_INT,      "8", NULL,    "n>0",   NULL,NULL,   NULL,          "field to read as query name, 1..n",           0 },
+  { "-t",      eslARG_INT,      "5", NULL,    "n>0",   NULL,NULL,   NULL,          "field to read as target name, 1..n",          0 },
+  { "-v",      eslARG_INT,      "1", NULL,    "n>0",   NULL,NULL,   NULL,          "field to read as distance value, 1..n",       0 },
+  { "-x",      eslARG_REAL,  "1e-4", NULL,    "x>0",   NULL,NULL,   NULL,          "clustering threshold",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <keyfile> <tabfile>";
+static char banner[] = "clusters tabular data file";
+
+
+static void  read_keyfile   (ESL_GETOPTS *go, char *keyfile, ESL_KEYHASH *kh);
+static void  read_tabfile   (ESL_GETOPTS *go, char *tabfile, ESL_KEYHASH *kh, ESL_DMATRIX *D);
+static void  output_clusters(ESL_GETOPTS *go, ESL_TREE *T, ESL_KEYHASH *kh);
+
+static void
+cmdline_failure(char *argv0, ESL_GETOPTS *go, char *format, ...)
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  puts("\n options:");
+  esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+  /* printf("\nTo see more help on available options, do %s -h\n\n", argv0); */
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n options:");
+  esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+  exit(0);
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = NULL; 
+  char           *keyfile  = NULL;
+  char           *tabfile  = NULL;
+  ESL_KEYHASH    *kh       = esl_keyhash_Create();
+  int             nkeys    = 0;
+  ESL_DMATRIX    *D        = NULL;
+  ESL_TREE       *T        = NULL;
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], go, "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], go, "Error in app configuration: %s\n",   go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) != 2)                      cmdline_failure(argv[0], go, "Incorrect number of command line arguments.\n");
+  keyfile = esl_opt_GetArg(go, 1);
+  tabfile = esl_opt_GetArg(go, 2);
+
+  read_keyfile(go, keyfile, kh);
+  nkeys = esl_keyhash_GetNumber(kh);
+
+  D = esl_dmatrix_Create(nkeys, nkeys);
+  read_tabfile(go, tabfile, kh, D);
+
+  esl_tree_SingleLinkage(D, &T);
+    
+  //esl_tree_WriteNewick(stdout, T);
+  output_clusters(go, T, kh);
+
+
+  esl_tree_Destroy(T);
+  esl_dmatrix_Destroy(D);
+  esl_keyhash_Destroy(kh);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+
+static void 
+read_keyfile(ESL_GETOPTS *go, char *keyfile, ESL_KEYHASH *kh)
+{
+  ESL_FILEPARSER *efp      = NULL;
+  int             nline    = 0;
+  char           *tok      = NULL;
+  int             toklen;
+  int             status;
+
+  if (esl_fileparser_Open(keyfile, NULL, &efp) != eslOK) esl_fatal("File open failed");
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      nline++;
+      if (esl_fileparser_GetTokenOnLine(efp, &tok, &toklen) != eslOK) esl_fatal("No token found on line %d", nline);
+
+      status = esl_keyhash_Store(kh, tok, toklen, NULL);
+      if      (status == eslEDUP) esl_fatal("Saw key %s twice: keys must be unique", tok);
+      else if (status != eslOK)   esl_fatal("unknown error in storing key %s\n", tok);
+    }
+
+  esl_fileparser_Close(efp);
+}
+
+static void
+read_tabfile(ESL_GETOPTS *go, char *tabfile, ESL_KEYHASH *kh, ESL_DMATRIX *D)
+{
+  ESL_FILEPARSER *efp      = NULL;
+  int             nline    = 0;
+  int             vfield   = esl_opt_GetInteger(go, "-v");
+  int             qfield   = esl_opt_GetInteger(go, "-q");
+  int             tfield   = esl_opt_GetInteger(go, "-t");
+  char           *tok;
+  int             toklen;
+  int             ntok;
+  double          value;
+  int             qidx, tidx;
+  
+  if (esl_fileparser_Open(tabfile, NULL, &efp) != eslOK) esl_fatal("File open failed");
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  esl_dmatrix_Set(D, eslINFINITY);
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      nline++;
+      ntok  = 0;
+      qidx  = tidx = -1;
+      value = eslNaN;
+      while (esl_fileparser_GetTokenOnLine(efp, &tok, &toklen) == eslOK)
+	{
+	  ntok++;
+	  if (ntok == vfield)  value = atof(tok);
+	  if (ntok == qfield && esl_keyhash_Lookup(kh, tok, toklen, &qidx) != eslOK) esl_fatal("failed to find query key %s", tok);
+	  if (ntok == tfield && esl_keyhash_Lookup(kh, tok, toklen, &tidx) != eslOK) esl_fatal("failed to find target key %s", tok);
+	}
+      if (qidx  == -1)  esl_fatal("Failed to find query name on line %d (looking for field %d)\n",  nline, qfield);
+      if (tidx  == -1)  esl_fatal("Failed to find target name on line %d (looking for field %d)\n", nline, tfield);
+      if (isnan(value)) esl_fatal("Failed to find value on line %d (looking for field %d)\n",       nline, vfield);
+
+      D->mx[qidx][tidx] = value;
+      if (D->mx[tidx][qidx] == eslINFINITY) D->mx[tidx][qidx] = value;
+    }
+
+  esl_fileparser_Close(efp);
+}
+
+ 
+void
+output_clusters(ESL_GETOPTS *go, ESL_TREE *T, ESL_KEYHASH *kh)
+{
+  ESL_STACK *ns        = esl_stack_ICreate();
+  ESL_STACK *s2        = esl_stack_ICreate();
+  double     threshold = esl_opt_GetReal(go, "-x");
+  int        v,v2;
+  int        nc = 0;
+
+  esl_stack_IPush(ns, 0);
+  while (esl_stack_IPop(ns, &v) == eslOK)
+    {
+      /* v may only be an internal node. */
+      if (T->ld[v] < threshold) 
+	{
+	  nc++;
+	  printf("Cluster %d:  %g\n", nc, T->ld[v]);
+	  esl_stack_IPush(s2, T->right[v]);
+	  esl_stack_IPush(s2, T->left[v]);
+	  while (esl_stack_IPop(s2, &v2) == eslOK)
+	    {
+	      if (v2 <= 0)
+		printf("= %s \t%d\t%g\n", esl_keyhash_Get(kh, -v2), nc, T->ld[v]);
+	      else 
+		{
+		  esl_stack_IPush(s2, T->right[v2]); 
+		  esl_stack_IPush(s2, T->left[v2]);  
+		}
+	    }
+	  printf("\n\n");
+	  continue;
+	}
+
+      if (T->right[v] > 0) esl_stack_IPush(ns, T->right[v]); else printf("Singleton:\n= %s\t%c\t%c\n\n", esl_keyhash_Get(kh, -T->right[v]), '-', '-'); 
+      if (T->left[v]  > 0) esl_stack_IPush(ns, T->left[v]);  else printf("Singleton:\n= %s\t%c\t%c\n\n", esl_keyhash_Get(kh, -T->left[v]),  '-', '-');
+ 
+    }
+
+  esl_stack_Destroy(ns);
+  esl_stack_Destroy(s2);
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.c
new file mode 100755
index 0000000..a9cb066
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.c
@@ -0,0 +1,577 @@
+/* esl-compalign - compare two multiple sequence alignments
+ *
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+static char banner[] = "compare two multiple sequence alignments";
+
+static char usage[]  = "\
+[-options] <trusted file> <test file>\n\
+  Both files must be in Stockholm format with #=GC RF markup.\n\
+  Sequences must occur in the same order in the two files.\n\
+  Number of non-gap characters in #=GC RF markup must be identical.\n\
+  Note: accuracy is computed differently than in Squid\'s compalign.\n\
+  See the manual page for details on how accuracy is computed.";
+
+static int get_pp_idx(ESL_ALPHABET *abc, char ppchar);
+static int read_mask_file(char *filename, char *errbuf, char **ret_mask, int *ret_masklen);
+
+static ESL_OPTIONS options[] = {
+  /* name        type        default  env   range togs  reqs  incomp           help                                                   docgroup */
+  { "-h",        eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,            "help; show brief info on version and usage",                     1 },
+  { "-c",        eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,            "print per column statistics instead of per sequence stats",      1 },
+  { "-p",        eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,            "print stats on accuracy versus posterior probability (PP)",      1 },
+  { "--p-mask",  eslARG_OUTFILE,NULL, NULL, NULL, NULL,"-p",  NULL,            "with -p, only consider columns within mask ('1' columns) in <f>",1 },
+  { "--c2dfile", eslARG_OUTFILE,NULL, NULL, NULL, NULL,"-c",  NULL,            "print per column stats to esl-ssdraw --dfile file <f>",          1 },
+  { "--amino",   eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, "--dna,--rna",   "<msafile> contains protein alignments",                          2 },
+  { "--dna",     eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, "--amino,--rna", "<msafile> contains DNA alignments",                              2 },
+  { "--rna",     eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, "--amino,--dna", "<msafile> contains RNA alignments",                              2 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go;		/* application configuration       */
+  int          kstatus, tstatus;/* return code from Easel routine  */
+  int          fmt;		/* expected format of kfile, tfile */
+  char        *kfile, *tfile;   /* known, test structure file      */
+  ESLX_MSAFILE *kfp, *tfp;      /* open kfile, tfile               */
+  ESL_MSA     *ka,  *ta; 	/* known, trusted alignment        */
+  int64_t      klen, tlen;	/* lengths of dealigned seqs       */
+  int          i;		/* counter over sequences          */
+  int          apos;		/* counter over alignment columns  */
+  int          rfpos;		/* counter over consensus (non-gap RF) columns  */
+  int       is_rfpos;            /* TRUE if current apos is a consensus pos, FALSE if not */
+  int          uapos;		/* counter over unaligned residue positions */
+  int          nali;            /* number of alignment we're on in each file */
+
+  int        **kp;              /* [0..i..nseq-1][1..r..sq->n] = x known non-gap RF position of residue r in sequence i */
+  int        **tp;              /* [0..i..nseq-1][1..r..sq->n] = x predicted non-gap RF position of residue r in sequence i */
+  /* for both kp and pp, if x <= 0, residue r for seq i is not aligned to a non-gap RF position, but rather as an 'insert'
+   * after non-gap RF position (x * -1) 
+   */
+  int        *km_pos;          /* [0..rflen] = x, in known aln,     number of residues aligned to non-gap RF column x; special case: mct[0] = 0 */
+  int        *ki_pos;          /* [0..rflen] = x, in known aln,     number of residues inserted after non-gap RF column x */
+  int        *tm_pos;          /* [0..rflen] = x, in predicted aln, number of residues aligned to non-gap RF column x; special case: mct[0] = 0 */
+  int        *ti_pos;          /* [0..rflen] = x, in predicted aln, number of residues inserted after non-gap RF column x */
+  int    *cor_tm_pos;          /* [0..rflen] = x, in predicted aln, number of correctly predicted residues aligned to non-gap RF column x; special case: mct[0] = 0 */
+  int    *cor_ti_pos;          /* [0..rflen] = x, in predicted aln, number of correctly predicted residues inserted after non-gap RF column x */
+
+  int        *km_seq;          /* [0..i..nseq-1] = x, in known aln,     number of residues aligned to non-gap RF columns in seq i; */
+  int        *ki_seq;          /* [0..i..nseq-1] = x, in known aln,     number of residues inserted in seq i */
+  int        *tm_seq;          /* [0..i..nseq-1] = x, in predicted aln, number of residues aligned to non-gap RF columns in seq i; */
+  int        *ti_seq;          /* [0..i..nseq-1] = x, in predicted aln, number of residues inserted in seq i */
+  int    *cor_tm_seq;          /* [0..i..nseq-1] = x, in predicted aln, number of correctly predicted residues aligned to non-gap RF columns in seq i */
+  int    *cor_ti_seq;          /* [0..i..nseq-1] = x, in predicted aln, number of correctly predicted residues inserted in seq i */
+
+  int     *seqlen;             /* [0..i..nseq-1] = x, unaligned seq i has length x */
+  ESL_ALPHABET *abc = NULL;    /* alphabet for all alignments */
+  int      rflen, t_rflen;     /* non-gap RF length (consensus lengths) */
+  int   status;
+  char *namedashes;
+  int ni;
+  int namewidth = 8; /* length of 'seq name' */
+  int cor_tm, cor_ti, km, ki; /* correct predicted match, correct predicted insert, total match, total insert */
+  char *mask = NULL;
+  int masklen;
+  ESL_DSQ *ks;
+  ESL_DSQ *ts;
+  FILE *dfp = NULL; /* for --c2dfile */
+
+  /* variables needed for -p and related options */
+  int do_post = FALSE; /* TRUE if -p enabled */
+  int do_post_for_this_rfpos = FALSE; /* set for each consensus position, always TRUE unless --mask-p2xm */
+  int p;               /* counter over integerized posteriors */
+  int *ptm = NULL;     /* [0..p..10] number of total   matches with posterior value p (10="*")*/
+  int *pti = NULL;     /* [0..p..10] number of total   inserts with posterior value p */
+  int *cor_ptm = NULL; /* [0..p..10] number of correct matches with posterior value p */
+  int *cor_pti = NULL; /* [0..p..10] number of correct inserts with posterior value p */
+  int npostvals = 11;  /* number of posterior values 0-9, * */
+  int ppidx;           /* index of PP */
+  char ppchars[11] = "0123456789*";
+  int cm_cor_ptm, cm_cor_pti, cm_ptm, cm_pti, cm_incor_ptm, cm_incor_pti; /* cumulative counts of posteriors */
+  int tot_cor_ptm, tot_cor_pti, tot_ptm, tot_pti, tot_incor_ptm, tot_incor_pti; /* total counts of posteriors */
+  char errbuf[eslERRBUFSIZE];
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\n where options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+      exit(EXIT_SUCCESS);
+    }
+
+  if (esl_opt_ArgNumber(go) != 2) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  kfile = esl_opt_GetArg(go, 1);
+  tfile = esl_opt_GetArg(go, 2);
+  
+  fmt = eslMSAFILE_STOCKHOLM;
+
+  /***********************************************
+   * Open the two Stockholm files.
+   ***********************************************/
+
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+
+  if ( (kstatus = eslx_msafile_Open(&abc, kfile, NULL, fmt, NULL, &kfp)) != eslOK) eslx_msafile_OpenFailure(kfp, kstatus);
+  if ( (tstatus = eslx_msafile_Open(&abc, tfile, NULL, fmt, NULL, &tfp)) != eslOK) eslx_msafile_OpenFailure(tfp, tstatus);
+
+  do_post = esl_opt_GetBoolean(go, "-p");
+
+  /* read the mask file if --p-mask is enabled */
+  if(! esl_opt_IsDefault(go, "--p-mask")) { 
+    if((status = read_mask_file(esl_opt_GetString(go, "--p-mask"), errbuf, &mask, &masklen)) != eslOK) esl_fatal(errbuf);
+  }
+  /* open the c2dfile for output, if nec */
+  if (esl_opt_IsOn(go, "--c2dfile")) { 
+    if ((dfp = fopen(esl_opt_GetString(go, "--c2dfile"), "w")) == NULL) esl_fatal("Failed to open --c2dfile output file %s\n", esl_opt_GetString(go, "--c2dfile"));
+  }
+
+  /***********************************************
+   * Do alignment comparisons, one seq at a time;
+   * this means looping over all seqs in all alignments.
+   ***********************************************/
+  nali = 0;
+  while ( (kstatus = eslx_msafile_Read(kfp, &ka)) != eslEOF)
+    {
+      if (  kstatus                                != eslOK) eslx_msafile_ReadFailure(kfp, kstatus);
+      if ( (tstatus = eslx_msafile_Read(tfp, &ta)) != eslOK) eslx_msafile_ReadFailure(tfp, tstatus);
+
+      nali++;
+      if((nali > 1) && (esl_opt_IsOn(go, "--c2dfile"))) esl_fatal("--c2dfile is only meant for msafiles with single alignments"); 
+
+      /* Sanity check on alignment
+       */
+      if (ka->nseq != ta->nseq)
+	esl_fatal("trusted, test alignments don't have same seq #\n");
+      if (ka->rf == NULL)
+	esl_fatal("trusted alignment has no reference annotation\n");
+      if (ta->rf == NULL)
+	esl_fatal("test alignment has no reference annotation\n");
+
+      /* make sure the sequences are all identical */
+      ESL_ALLOC(seqlen, sizeof(int) * ka->nseq);
+      for(i = 0; i < ka->nseq; i++) { 
+	if(strcmp(ka->sqname[i], ta->sqname[i]) != 0) esl_fatal("sequence i of trusted alignment %s has different name than seq i of predicted alignment %s\n", ka->sqname[i], ta->sqname[i]); 
+	ESL_ALLOC(ks, sizeof(ESL_DSQ) * (ka->alen+2));
+	memcpy(ks, ka->ax[i], (ka->alen+2) * sizeof(ESL_DSQ));
+	esl_abc_XDealign(ka->abc, ks, ka->ax[i], &klen);
+
+	ESL_ALLOC(ts, sizeof(ESL_DSQ) * (ta->alen+2));
+	memcpy(ts, ta->ax[i], (ta->alen+2) * sizeof(ESL_DSQ));
+	esl_abc_XDealign(ta->abc, ts, ta->ax[i], &tlen);
+
+	if (tlen != klen)
+	  esl_fatal("dealigned sequence mismatch, seq %d, when dealigned, is %d residues in the known alignment, but %d residues in the trusted alignment.", i, klen, tlen);
+
+	if (memcmp(ks, ts, sizeof(ESL_DSQ) * klen) != 0) 
+	  esl_fatal("dealigned sequence mismatch, seq %d %s, when dealigned, are not identical.", i, ka->sqname[i]);
+
+	seqlen[i] = tlen;
+	free(ks);
+	free(ts);
+      }
+
+      /* determine non-gap RF length */
+      rflen = 0;
+      for(apos = 1; apos <= ka->alen; apos++) { 
+	if((! esl_abc_CIsGap    (ka->abc, ka->rf[apos-1])) && 
+	   (! esl_abc_CIsMissing(ka->abc, ka->rf[apos-1]))) rflen++;
+      }
+      t_rflen = 0;
+      for(apos = 1; apos <= ta->alen; apos++) { 
+	if((! esl_abc_CIsGap       (ta->abc, ta->rf[apos-1])) && 
+	   (! esl_abc_CIsMissing   (ta->abc, ta->rf[apos-1]))) t_rflen++;
+      }
+      if(t_rflen != rflen) esl_fatal("Trusted alignment non-gap RF length (%d) != predicted alignment non-gap RF length (%d).\n", rflen, t_rflen);
+
+      /* if -p, make sure the test alignment has posterior probabilities, and allocate our counters for correct/incorrect per post value */
+      if(do_post) { 
+	if(! esl_opt_IsDefault(go, "--p-mask")) {
+	  if(masklen != rflen) { 
+	    esl_fatal("Length of mask in %s (%d) not equal to non-gap RF len of alignments (%d)\n", esl_opt_GetString(go, "--p-mask"), masklen, rflen);
+	  }
+	}
+	if(ta->pp == NULL) esl_fatal("-p requires \"#=GR PP\" annotation in the test alignment, but none exists");
+	ESL_ALLOC(ptm,     sizeof(int) * npostvals);
+	ESL_ALLOC(pti,     sizeof(int) * npostvals);
+	ESL_ALLOC(cor_ptm, sizeof(int) * npostvals);
+	ESL_ALLOC(cor_pti, sizeof(int) * npostvals);
+	esl_vec_ISet(ptm, npostvals, 0);
+	esl_vec_ISet(pti, npostvals, 0);
+	esl_vec_ISet(cor_ptm, npostvals, 0);
+	esl_vec_ISet(cor_pti, npostvals, 0);
+      }
+
+      /* allocate and initialize our counters */
+      ESL_ALLOC(kp, sizeof(int *) * ka->nseq);
+      ESL_ALLOC(tp, sizeof(int *) * ta->nseq);
+      for(i = 0; i < ka->nseq; i++) { 
+	ESL_ALLOC(kp[i], sizeof(int) * (seqlen[i]+1));
+	ESL_ALLOC(tp[i], sizeof(int) * (seqlen[i]+1));
+	esl_vec_ISet(kp[i], seqlen[i]+1, -987654321);
+	esl_vec_ISet(tp[i], seqlen[i]+1, -987654321);
+      }
+
+      ESL_ALLOC(km_pos, sizeof(int) * (rflen+1));
+      ESL_ALLOC(ki_pos, sizeof(int) * (rflen+1));
+      ESL_ALLOC(tm_pos, sizeof(int) * (rflen+1));
+      ESL_ALLOC(ti_pos, sizeof(int) * (rflen+1));
+      ESL_ALLOC(cor_tm_pos, sizeof(int) * (rflen+1));
+      ESL_ALLOC(cor_ti_pos, sizeof(int) * (rflen+1));
+      esl_vec_ISet(km_pos, rflen+1, 0);
+      esl_vec_ISet(ki_pos, rflen+1, 0);
+      esl_vec_ISet(tm_pos, rflen+1, 0);
+      esl_vec_ISet(ti_pos, rflen+1, 0);
+      esl_vec_ISet(cor_tm_pos, rflen+1, 0);
+      esl_vec_ISet(cor_ti_pos, rflen+1, 0);
+
+      ESL_ALLOC(km_seq, sizeof(int) * ka->nseq);
+      ESL_ALLOC(ki_seq, sizeof(int) * ka->nseq);
+      ESL_ALLOC(tm_seq, sizeof(int) * ka->nseq);
+      ESL_ALLOC(ti_seq, sizeof(int) * ka->nseq);
+      ESL_ALLOC(cor_tm_seq, sizeof(int) * ka->nseq);
+      ESL_ALLOC(cor_ti_seq, sizeof(int) * ka->nseq);
+      esl_vec_ISet(km_seq, ka->nseq, 0);
+      esl_vec_ISet(ki_seq, ka->nseq, 0);
+      esl_vec_ISet(tm_seq, ka->nseq, 0);
+      esl_vec_ISet(ti_seq, ka->nseq, 0);
+      esl_vec_ISet(cor_tm_seq, ka->nseq, 0);
+      esl_vec_ISet(cor_ti_seq, ka->nseq, 0);
+
+      /* determine non-gap RF location of each residue in known alignment */
+      for(i = 0; i < ka->nseq; i++) { 
+	uapos = rfpos = 0;
+	for(apos = 1; apos <= ka->alen; apos++) { 
+	  is_rfpos = FALSE;
+	  if((! esl_abc_CIsGap       (ka->abc, ka->rf[apos-1])) &&
+	     (! esl_abc_CIsMissing   (ka->abc, ka->rf[apos-1]))) { 
+	    rfpos++; is_rfpos = TRUE;
+	  }
+	  if(esl_abc_XIsResidue(ka->abc, ka->ax[i][apos])) { 
+	    uapos++;
+	    kp[i][uapos] = (is_rfpos) ? rfpos : (-1 * rfpos);
+	    if(is_rfpos) { km_pos[rfpos]++; km_seq[i]++; }
+	    else         { ki_pos[rfpos]++; ki_seq[i]++; }
+	  }
+	}
+      }
+
+      /* determine non-gap RF location of each residue in predicted alignment */
+      for(i = 0; i < ta->nseq; i++) { 
+	uapos = rfpos = 0;
+	for(apos = 1; apos <= ta->alen; apos++) { 
+	  is_rfpos = FALSE;
+	  if((! esl_abc_CIsGap       (abc, ta->rf[apos-1])) && 
+	     (! esl_abc_CIsMissing   (abc, ta->rf[apos-1]))) { 
+	    rfpos++; is_rfpos = TRUE;
+	    if(do_post) { 
+	      do_post_for_this_rfpos = (mask != NULL && mask[rfpos-1] == '0') ? FALSE : TRUE;
+	    }
+	  }
+	  if(esl_abc_XIsResidue(ta->abc, ta->ax[i][apos])) { 
+	    uapos++;
+	    tp[i][uapos] = (is_rfpos) ? rfpos : (-1 * rfpos);
+	    if(do_post) { 
+	      if(esl_abc_CIsGap(abc, ta->pp[i][(apos-1)])) esl_fatal("gap PP value for nongap residue: ali: %d seq: %d apos: %d\n", nali, i, apos);
+	      ppidx = get_pp_idx(abc, ta->pp[i][(apos-1)]);
+	      if(ppidx == -1) esl_fatal("unrecognized PP value (%c) for nongap residue: ali: %d seq: %d apos: %d\n", ta->pp[i][(apos-1)], nali, i, apos);
+	    }
+	    if(is_rfpos) { 
+	      tm_pos[rfpos]++; tm_seq[i]++; 
+	      if(do_post_for_this_rfpos) ptm[ppidx]++;
+	    }
+	    else { 
+	      ti_pos[rfpos]++; ti_seq[i]++; 
+	      if(do_post) pti[ppidx]++;
+	    }
+	    if(kp[i][uapos] == tp[i][uapos]) { /* correctly predicted this residue */
+	      if(is_rfpos) { 
+		cor_tm_seq[i]++; cor_tm_pos[rfpos]++; 
+		if(do_post_for_this_rfpos) cor_ptm[ppidx]++;
+	      } 
+	      else {
+		cor_ti_seq[i]++; cor_ti_pos[rfpos]++; 
+		if(do_post) cor_pti[ppidx]++;
+	      } 
+	    }
+	  }
+	}
+      }
+      if((! (esl_opt_GetBoolean(go, "-c"))) && (! esl_opt_GetBoolean(go, "-p"))) { 
+	/* print per sequence statistics */
+	/* determine the longest name in msa */
+	for(ni = 0; ni < ka->nseq; ni++) namewidth = ESL_MAX(namewidth, strlen(ka->sqname[ni]));
+	ESL_ALLOC(namedashes, sizeof(char) * namewidth+1);
+	namedashes[namewidth] = '\0';
+	for(ni = 0; ni < namewidth; ni++) namedashes[ni] = '-';
+	
+	printf("# %-*s  %6s  %28s  %28s  %28s\n", namewidth, "seq name", "len",    "match columns", "insert columns", "all columns");
+	printf("# %-*s  %6s  %28s  %28s  %28s\n", namewidth, namedashes, "------", "----------------------------", "----------------------------", "----------------------------");
+	for(i = 0; i < ta->nseq; i++) { 
+	  printf("  %-*s  %6d  %8d / %8d  (%.3f)  %8d / %8d  (%.3f)  %8d / %8d  (%.3f)\n", namewidth, ka->sqname[i], seqlen[i],
+		 cor_tm_seq[i], km_seq[i], (km_seq[i] == 0) ? 0. : ((float) cor_tm_seq[i] / (float) km_seq[i]), 
+		 cor_ti_seq[i], ki_seq[i], (ki_seq[i] == 0) ? 0. : ((float) cor_ti_seq[i] / (float) ki_seq[i]), 
+		 (cor_tm_seq[i] + cor_ti_seq[i]), (km_seq[i] + ki_seq[i]), ((float) (cor_tm_seq[i] + cor_ti_seq[i]) / ((float) km_seq[i] + ki_seq[i]))); 
+	}
+	cor_tm = esl_vec_ISum(cor_tm_seq, ka->nseq);
+	cor_ti = esl_vec_ISum(cor_ti_seq, ka->nseq);
+	km = esl_vec_ISum(km_seq, ka->nseq);
+	ki = esl_vec_ISum(ki_seq, ka->nseq);
+	
+	printf("# %-*s  %6s  %28s  %28s  %28s\n", namewidth, namedashes, "-----", "----------------------------", "----------------------------", "----------------------------");
+	printf("# %-*s  %6s  %8d / %8d  (%.3f)  %8d / %8d  (%.3f)  %8d / %8d  (%.3f)\n",
+	       namewidth, "*all*", "-", 
+	       cor_tm, km, ((float) cor_tm / (float) km), 
+	       cor_ti, ki, ((float) cor_ti / (float) ki), 
+	       (cor_tm+cor_ti), (km+ki), (((float) (cor_tm + cor_ti))/ ((float) (km + ki)))); 
+	free(namedashes);
+	for(i = 0; i < ka->nseq; i++) { 
+	  free(kp[i]); 
+	  free(tp[i]); 
+	}
+      }
+      else if(esl_opt_GetBoolean(go, "-c")) { /* print per column statistics */
+	printf("# %5s  %20s  %20s  %20s\n", "rfpos", "match", "insert", "both");
+	printf("# %5s  %20s  %20s  %20s\n", "-----", "--------------------", "--------------------", "--------------------");
+	for(rfpos = 0; rfpos <= rflen; rfpos++) { 
+	  printf("  %5d  %4d / %4d  (%.3f)  %4d / %4d  (%.3f)  %4d / %4d  (%.3f)\n", rfpos, 
+		 
+		 cor_tm_pos[rfpos], km_pos[rfpos], (km_pos[rfpos] == 0) ? 0. : ((float) cor_tm_pos[rfpos] / (float) km_pos[rfpos]), 
+		 cor_ti_pos[rfpos], ki_pos[rfpos], (ki_pos[rfpos] == 0) ? 0. : ((float) cor_ti_pos[rfpos] / (float) ki_pos[rfpos]), 
+		 (cor_tm_pos[rfpos] + cor_ti_pos[rfpos]), (km_pos[rfpos] + ki_pos[rfpos]), ((float) (cor_tm_pos[rfpos] + cor_ti_pos[rfpos]) / ((float) km_pos[rfpos] + ki_pos[rfpos]))); 
+	}
+      }
+      else if(do_post) { /* do posterior output */
+	if(mask == NULL) { 
+	  printf("# %2s  %29s  %29s\n", "",   "      match columns          ", "      insert columns         ");
+	  printf("# %2s  %29s  %29s\n", "",   "-----------------------------", "-----------------------------") ;
+	  printf("# %2s  %8s   %8s %9s  %8s   %8s %9s\n", "PP", "ncorrect", "ntotal",   "fractcor",  "ncorrect", "ntotal",   "fractcor");
+	  printf("# %2s  %8s   %8s %9s  %8s   %8s %9s\n", "--", "--------", "--------", "---------", "--------", "--------", "---------");
+	}
+	else { 
+	  printf("# %2s  %29s  %29s\n", "",   " match columns within mask   ", "      insert columns         ");
+	  printf("# %2s  %29s  %29s\n", "",   "-----------------------------", "-----------------------------") ;
+	  printf("# %2s  %8s   %8s %9s  %8s   %8s %9s\n", "PP", "ncorrect", "ntotal",   "fractcor",  "ncorrect", "ntotal",   "fractcor");
+	  printf("# %2s  %8s   %8s %9s  %8s   %8s %9s\n", "--", "--------", "--------", "---------", "--------", "--------", "---------");
+	}
+	cm_ptm = cm_pti = cm_cor_ptm = cm_cor_pti = cm_incor_ptm = cm_incor_pti = 0;
+	tot_ptm = esl_vec_ISum(ptm, npostvals);
+	tot_pti = esl_vec_ISum(pti, npostvals);
+	tot_cor_ptm = esl_vec_ISum(cor_ptm, npostvals);
+	tot_cor_pti = esl_vec_ISum(cor_pti, npostvals);
+	tot_incor_ptm = tot_ptm - tot_cor_ptm;
+	tot_incor_pti = tot_pti - tot_cor_pti;
+	for(p = (npostvals-1); p >= 0; p--) { 
+	  cm_cor_ptm += cor_ptm[p];
+	  cm_cor_pti += cor_pti[p];
+	  cm_ptm     += ptm[p];
+	  cm_pti     += pti[p];
+	  cm_incor_ptm += ptm[p] - cor_ptm[p];
+	  cm_incor_pti += pti[p] - cor_pti[p];
+	  printf("  %2c  %8d / %8d (%.5f)  %8d / %8d (%.5f)\n", 
+		 ppchars[p], cor_ptm[p], ptm[p], 
+		 (ptm[p] == 0) ? 0. : (float) cor_ptm[p] / (float) ptm[p], 
+		 cor_pti[p], pti[p], 
+		 (pti[p] == 0) ? 0. : (float) cor_pti[p] / (float) pti[p]);
+	}
+      }
+
+      /* handle --c2dfile */
+      if (dfp != NULL) { 
+	/* match stats, 4 fields, CMYK color values */
+	for(rfpos = 1; rfpos <= rflen; rfpos++) { 
+	  if(km_pos[rfpos] == 0) { /* special case, no known alignment residues, a blank position */
+	    fprintf(dfp, "%.3f %.3f %.3f %.3f\n", 0., 0., 0., 0.);
+	  }
+	  else { 
+	    fprintf(dfp, "%.3f %.3f %.3f %.3f\n", 
+		    0., /* cyan */
+		    1. - ((float) cor_tm_pos[rfpos] / (float) km_pos[rfpos]), /* magenta, fraction incorrect */
+		    1. - ((float) km_pos[rfpos] / ta->nseq), /* yellow, 1 - fraction of seqs with residue in column */
+		    0.);
+	  }		 
+	}	
+	fprintf(dfp, "//\n");
+	/* insert stats, 4 fields, CMYK color values */
+	rfpos = 0; /* special case, combine insert posn 0 and 1 together */
+	if(ki_pos[rfpos] == 0) { /* special case, no known alignment residues, a blank position */
+	  fprintf(dfp, "%.3f %.3f %.3f %.3f\n", 0., 0., 0., 0.);
+	}
+	else { 
+	  fprintf(dfp, "%.3f %.3f %.3f %.3f\n", 
+		  0., /* cyan */
+		  1. - ((float) (cor_ti_pos[0] + cor_ti_pos[1]) / ((float) (ki_pos[0] + ki_pos[1]))), /* magenta, fraction correct */
+		  0.,
+		  0.);
+	}
+	/* insert stats posn 2..rflen */
+	for(rfpos = 2; rfpos <= rflen; rfpos++) { 
+	  if(ki_pos[rfpos] == 0) { /* special case, no known alignment residues, a blank position */
+	    fprintf(dfp, "%.3f %.3f %.3f %.3f\n", 0., 0., 0., 0.);
+	  }
+	  else { 
+	    fprintf(dfp, "%.3f %.3f %.3f %.3f\n", 
+		    0., /* cyan */
+		    1. - ((float) cor_ti_pos[rfpos] / (float) ki_pos[rfpos]), /* magenta, fraction correct */
+		    0.,
+		    0.);
+	  }
+	} 
+	fprintf(dfp, "//\n");
+      }
+      
+      if(ptm != NULL) free(ptm);
+      if(pti != NULL) free(pti);
+      if(cor_ptm != NULL) free(cor_ptm);
+      if(cor_ptm != NULL) free(cor_pti);
+      free(kp);
+      free(tp);
+      free(km_seq);
+      free(ki_seq);
+      free(tm_seq);
+      free(ti_seq);
+      free(cor_tm_seq);
+      free(cor_ti_seq);
+      free(km_pos);
+      free(ki_pos);
+      free(tm_pos);
+      free(ti_pos);
+      free(cor_tm_pos);
+      free(cor_ti_pos);
+      free(seqlen);
+      esl_msa_Destroy(ka);
+      esl_msa_Destroy(ta);
+    }
+
+  if(mask != NULL) free(mask);
+  if(dfp != NULL) { 
+    fclose(dfp);
+    printf("# Draw file of per-column stats saved to file: %s\n", esl_opt_GetString(go, "--c2dfile"));
+  }
+	   
+  if(abc) esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  eslx_msafile_Close(tfp);
+  eslx_msafile_Close(kfp);
+  return 0;
+
+ ERROR:
+  return status;
+}
+
+/* get_pp_idx
+ *                   
+ * Given a #=GR PP or #=GC PP_cons character, return the appropriate index
+ * in a pp_ct[] vector. 
+ * '0' return 0;
+ * '1' return 1;
+ * '2' return 2;
+ * '3' return 3;
+ * '4' return 4;
+ * '5' return 5;
+ * '6' return 6;
+ * '7' return 7;
+ * '8' return 8;
+ * '9' return 9;
+ * '*' return 10;
+ * gap return 11;
+ * 
+ * Anything else (including missing or nonresidue) return -1;
+ */
+static int get_pp_idx(ESL_ALPHABET *abc, char ppchar)
+{
+  if(ppchar == '*')               return 10;
+  if(ppchar == '9')               return 9;
+  if(ppchar == '8')               return 8;
+  if(ppchar == '7')               return 7;
+  if(ppchar == '6')               return 6;
+  if(ppchar == '5')               return 5;
+  if(ppchar == '4')               return 4;
+  if(ppchar == '3')               return 3;
+  if(ppchar == '2')               return 2;
+  if(ppchar == '1')               return 1;
+  if(ppchar == '0')               return 0;
+  return -1;
+}
+
+
+/* read_mask_file
+ *
+ * Given an open file pointer, read the first token of the
+ * file and return it as *ret_mask. It must contain only
+ * '0' or '1' characters.
+ *
+ * Returns:  eslOK on success.
+ */
+int
+read_mask_file(char *filename, char *errbuf, char **ret_mask, int *ret_mask_len)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  char           *mask;
+  int             toklen;
+  int             n;
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to open %s in read_mask_file\n", filename);
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to read a single token from %s\n", filename);
+
+  ESL_ALLOC(mask, sizeof(char) * (toklen+1));
+  for(n = 0; n < toklen; n++) { 
+    if((tok[n] == '0') || (tok[n] == '1')) { 
+      mask[n] = tok[n];
+    }
+    else { ESL_FAIL(eslFAIL, errbuf, "read a non-0 and non-1 character (%c) in the mask file %s\n", tok[n], filename); }
+  }
+  mask[n] = '\0';
+
+  *ret_mask = mask;
+  *ret_mask_len = n;
+  esl_fileparser_Close(efp);
+  return eslOK;
+  
+ ERROR:
+  return eslEMEM;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.itest.pl
new file mode 100755
index 0000000..daf1c93
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.itest.pl
@@ -0,0 +1,110 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-compalign miniapp.
+#
+# Usage:     ./esl-compalign.itest.pl <esl-compalign binary> <tmpfile prefix>
+# Example:   ./esl-compalign.itest.pl ./esl-compalign        foo
+#
+# EPN, Tue Feb  2 13:19:44 2010
+
+$eslcompalign= shift;
+$tmppfx      = shift;
+
+if (! -x "$eslcompalign") { die "FAIL: didn't find esl-compalign binary $eslcompalign"; }
+
+open(ALIFILE, ">$tmppfx.1") || die "FAIL: couldn't open $tmppfx.1 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-17          --AGA-CUUCGG---GCUCG-UAACAG
+#=GR simpex-17 PP  ..885.*****9...9****.******
+simpex-39          aaAAUACGUCGGCUG-AAUCACCAGUA
+#=GR simpex-39 PP  ***************.67776899999
+simpex-82          --ACGUUUUG-GAACGGG-U-CCA-CC
+#=GR simpex-82 PP  ..****9998.88**888.5.898.9*
+#=GC SS_cons       ..::<<<____>->>-<<-<.___>>>
+#=GC RF            ..AAgaCUUCGGAucgggCg.AcAccc
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.2") || die "FAIL: couldn't open $tmppfx.2 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-17          ---AGACUUCGGG---CUCGUAACAG
+#=GR simpex-17 PP  ...69*****775...4466777888
+simpex-39          aaAAUACGUCGGCUGAAUCACCAGUA
+#=GR simpex-39 PP  **************************
+simpex-82          --ACGUUUUG-GAACGGGUC-C-ACC
+#=GR simpex-82 PP  ..99998886.777755544.2.358
+#=GC SS_cons       ..::::::::::::::::::::::::
+#=GC RF            ..AAgACUUCGGAucggGCaAcAuUc
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.3") || die "FAIL: couldn't open $tmppfx.3 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-17          ~~~AGACUUCGGG---CUCGUAACAG
+#=GR simpex-17 PP  ...69*****775...4466777888
+simpex-39          aaAAUACGUCGGCUGAAUCACCAGUA
+#=GR simpex-39 PP  **************************
+simpex-82          --ACGUUUUG-GAACGGGUC-C-ACC
+#=GR simpex-82 PP  ..99998886.777755544.2.358
+#=GC SS_cons       ..::::::::::::::::::::::::
+#=GC RF            ..AAgACUUCGGAucggGCaAcAuUc
+//
+EOF
+close ALIFILE;
+
+open(MASKFILE, ">$tmppfx.mask") || die "FAIL: couldn't open $tmppfx.mask for writing alifile";
+print MASKFILE << "EOF";
+110111011011101110011101
+EOF
+close MASKFILE;
+
+$output = `$eslcompalign -h`;
+if ($? != 0)                                          { die "FAIL: esl-compalign failed unexpectedly"; }
+if ($output !~ /Usage: esl-compalign/)                { die "FAIL: help output not right"; }
+
+$output = `$eslcompalign --rna $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                                                                                { die "FAIL: esl-compalign failed unexpectedly";}
+if ($output !~ /simpex-17      20        16 \/       20  \(0.80\d+\)         0 \/        0  \(0.000\)        16 \/       20  \(0.80\d+\)/)      { die "FAIL: alignments compared incorrectly"; }
+if ($output !~ /\# \*all\*           -        53 \/       64  \(0.82\d+\)         2 \/        3  \(0.66\d+\)        55 \/       67  \(0.82\d+\)/) { die "FAIL: alignments compared incorrectly"; }
+
+$output = `$eslcompalign -c $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                                    { die "FAIL: esl-compalign failed unexpectedly"; }
+if ($output !~ /18     1 \/    3  \(0.33\d+\)     0 \/    1  \(0.00\d+\)     1 \/    4  \(0.25\d+\)/) { die "FAIL: alignments compared incorrectly."; }
+
+$output = `$eslcompalign -p $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                                    { die "FAIL: esl-compalign failed unexpectedly"; }
+if ($output !~ /\*        23 \/       29 \(0.79\d+\)         2 \/        2 \(1.0\d+\)/)        { die "FAIL: alignments compared incorrectly."; }
+
+$output = `$eslcompalign --p-mask $tmppfx.mask -p $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                                                                    { die "FAIL: esl-compalign failed unexpectedly"; }
+if ($output !~ /\*        17 \/       21 \(0.80\d+\)         2 \/        2 \(1.00\d+\)/)        { die "FAIL: alignments compared incorrectly."; }
+
+system("$eslcompalign -c --c2dfile $tmppfx.dfile $tmppfx.1 $tmppfx.2 > /dev/null");
+if ($? != 0)                                      { die "FAIL: esl-compalign failed unexpectedly"; }
+$output = `cat $tmppfx.dfile`;
+if ($output !~ /^0.000 0.33\d+ 0.000 0.000/)        { die "FAIL: alignments compared incorrectly."; }
+
+#Test that esl-compalign can handle '~' characters annotating fragments, a la hmmbuild -O in hmmer3.
+$output = `$eslcompalign --rna $tmppfx.1 $tmppfx.3 2>&1`;
+if ($? != 0)                                                                                                                                { die "FAIL: esl-compalign failed unexpectedly";}
+if ($output !~ /simpex-17      20        16 \/       20  \(0.80\d+\)         0 \/        0  \(0.000\)        16 \/       20  \(0.80\d+\)/)      { die "FAIL: alignments compared incorrectly"; }
+if ($output !~ /\# \*all\*           -        53 \/       64  \(0.82\d+\)         2 \/        3  \(0.66\d+\)        55 \/       67  \(0.82\d+\)/) { die "FAIL: alignments compared incorrectly"; }
+
+print "ok\n"; 
+unlink "$tmppfx.1";
+unlink "$tmppfx.2";
+unlink "$tmppfx.3";
+unlink "$tmppfx.dfile";
+unlink "$tmppfx.mask";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.man
new file mode 100755
index 0000000..a1a6dce
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compalign.man
@@ -0,0 +1,147 @@
+.TH "esl-compalign" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-compalign - compare two multiple sequence alignments
+
+
+
+.SH SYNOPSIS
+.B esl-compalign
+.I [options]
+.I trusted_file
+.I test_file
+
+
+
+.SH DESCRIPTION
+
+.I esl-compalign
+evaluates the accuracy of a predicted multiple sequence alignment with
+respect to a trusted alignment of the same sequences. 
+
+The 
+.I trusted_file 
+and
+.I test_file
+must contain the same number of alignments. Each predicted alignment in the 
+.I test_file 
+will be compared against a single trusted alignment from the
+.I trusted_file.
+The first alignments in each file correspond to each other and will be
+compared, the second alignment in each file correspond to each other
+and will be compared, and so on.  Each corresponding pair of
+alignments must contain the same sequences (i.e. if they were
+unaligned they would be identical) in the same order in both
+files. Further, both alignment files must be in Stockholm format and
+contain 'reference' annotation, which appears as "#=GC RF" per-column
+markup for each alignment. The number of nongap (non '.' characters)
+in the reference (RF) annotation must be identical between all
+corresponding alignments in the two files.
+
+.I esl-compalign
+reads an alignment from each file, and compares them based on
+their 'reference' annotation.  The number of correctly predicted
+residues for each sequence is computed as follows. A residue that is
+in the Nth nongap RF column in the trusted alignment must also appear
+in the Nth nongap RF column in the predicted alignment to be counted
+as 'correct', otherwise it is 'incorrect'. A residue that appears in a
+gap RF column in the trusted alignment between nongap RF columns N and
+N+1 must also appear in a nongap RF column in the predicted alignment
+between nongap RF columns N and N+1 to be counted as 'correct',
+otherwise it is incorrect.
+
+The default output of
+.B esl-compalign
+lists each sequence and the number of correctly and incorrectly
+predicted residues for that sequence. These counts are broken down
+into counts for residues in the predicted alignments that occur
+in 'match' columns and 'insert' columns. A 'match' column is one for
+which the RF annotation does not contain a gap. An 'insert' column is
+one for which the RF annotation does contain a gap.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options.
+
+.TP
+.B -c
+Print per-column statistics instead of per-sequence statistics.
+
+.TP
+.B -p 
+Print statistics on accuracy versus posterior probability values. The 
+.I test_file
+must be annotated with posterior probabilities (#=GR PP) for this
+option to work.
+
+.SH EXPERT OPTIONS
+
+.TP
+.BI --p-mask " <f>"
+This option may only be used in combination with the 
+.B -p
+option. Read a "mask" from file 
+.I <f>.
+The mask file must consist of a single line, of only '0' and '1'
+characters. There must be exactly RFLEN characters where RFLEN is the
+number of nongap characters in the RF annotation of all alignments in
+both 
+.I trusted_file
+and
+.I test_file.
+Positions of the mask that are '1' characters indicate that the
+corresponding nongap RF position is included by the mask. The
+posterior probability accuracy statistics for match columns will only
+pertain to positions that are included by the mask, those that are
+excluded will be ignored from the accuracy calculation.
+
+.BI --c2dfile " <f>"
+Save a 'draw file' to file 
+.I <f>
+which can be read into the 
+.B esl-ssdraw
+miniapp. This draw file will define two postscript pages for 
+.B esl-ssdraw.
+The first page will depict the frequency of errors per match position and
+frequency of gaps per match position, indicated by magenta and yellow,
+respectively. The darker magenta, the more errors and the darker
+yellow, the more gaps. The second page will depict the frequency of
+errors in insert positions in shades of magenta, the darker the
+magenta the more errors in inserts after each position. See
+.B esl-ssdraw
+documentation for more information on these diagrams. 
+
+.TP
+.B --amino
+Assert that 
+.I trusted_file
+and 
+.I test_file
+contain protein sequences. 
+
+.TP 
+.B --dna
+Assert that 
+.I trusted_file
+and 
+.I test_file
+contain DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I trusted_file
+and 
+.I test_file
+contain RNA sequences. 
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compstruct.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compstruct.c
new file mode 100755
index 0000000..3197da8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compstruct.c
@@ -0,0 +1,346 @@
+/* esl-compstruct - calculate accuracy of RNA secondary structure predictions
+ */
+#include "esl_config.h"
+
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_wuss.h"
+
+static char banner[] = "calculate accuracy of RNA secondary structure predictions";
+
+static char usage[]  = "\
+[-options] <trusted file> <test file>\n\
+  Both files must be in Stockholm format with secondary structure markup.\n\
+  Sequences must occur in the same order in the two files.\n\
+  The markup must be in WUSS notation.\n\
+\n";
+
+static ESL_OPTIONS options[] = {
+  /* name       type        default env   range togs  reqs  incomp      help                                                   docgroup */
+  { "-h",      eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "help; show brief info on version and usage",                     0 },
+  { "-m",      eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "use Mathews'relaxed criterion for correctness; allow +/-1 slip", 0 },
+  { "-p",      eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "count pseudoknotted base pairs",                                 0 },
+  { "--quiet", eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL, "suppress verbose header",                                        0 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go;		 /* application configuration       */
+  int           kstatus, tstatus;/* return code from Easel routine  */
+  int           fmt;		 /* expected format of kfile, tfile */
+  char         *kfile, *tfile;   /* known, test structure file      */
+  ESLX_MSAFILE *kfp, *tfp;       /* open kfile, tfile               */
+  ESL_MSA      *ka,  *ta; 	 /* known, trusted alignment        */
+  int64_t       klen, tlen;	 /* lengths of dealigned seqs       */
+  int          *kct, *tct;       /* known, test CT rep of structure */
+  int           i;		 /* counter over sequences          */
+  int           pos;		 /* counter over residues           */
+
+  int nseq;		/* total number of sequences in the files */
+  int nseq_rejected;	/* total number of sequences rejected     */
+
+  int kpairs;		/* count of base pairs in trusted structure    */
+  int tpairs;		/* count of base pairs in test structure       */
+  int kcorrect;		/* # bp in known structure correctly predicted */
+  int tcorrect;		/* # bp in test structure that are true        */
+
+  int tot_kpairs;	/* total bp in all known structures            */
+  int tot_tpairs;	/* total bp in all predicted structures        */
+  int tot_kcorrect;	/* total correct bp in all known structures    */
+  int tot_tcorrect;	/* total true pairs in all test structures     */
+  int tot_positions;	/* total # of bases                            */
+
+  int   status;
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\n where options are:");
+      esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+      exit(EXIT_SUCCESS);
+    }
+
+  if (esl_opt_ArgNumber(go) != 2) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  kfile = esl_opt_GetArg(go, 1);
+  tfile = esl_opt_GetArg(go, 2);
+  
+  if (! esl_opt_GetBoolean(go, "--quiet")) 
+    esl_banner(stdout, argv[0], banner);
+
+  fmt = eslMSAFILE_STOCKHOLM;
+
+  /***********************************************
+   * Open the two Stockholm files.
+   ***********************************************/
+
+  if ( (status = eslx_msafile_Open(NULL, kfile, NULL, fmt, NULL, &kfp)) != eslOK) eslx_msafile_OpenFailure(kfp, status);
+  if ( (status = eslx_msafile_Open(NULL, tfile, NULL, fmt, NULL, &tfp)) != eslOK) eslx_msafile_OpenFailure(tfp, status);
+  
+  /***********************************************
+   * Do structure comparisons, one seq at a time;
+   * this means looping over all seqs in all alignments.
+   ***********************************************/
+
+  tot_kpairs = tot_kcorrect = 0;
+  tot_tpairs = tot_tcorrect = 0;
+  nseq = nseq_rejected = 0;
+  tot_positions = 0;
+  
+  printf("%20s   %17s %17s\n", "", "[sensitivity]", "[PPV]");
+
+  while ( (kstatus = eslx_msafile_Read(kfp, &ka)) != eslEOF)
+    {
+      if (  kstatus                                != eslOK) eslx_msafile_ReadFailure(kfp, kstatus);
+      if ( (tstatus = eslx_msafile_Read(tfp, &ta)) != eslOK) eslx_msafile_ReadFailure(tfp, tstatus);
+
+      /* Sanity check on alignment
+       */
+      if (ka->nseq != ta->nseq)	esl_fatal("trusted, test alignments don't have same seq #\n");
+      if (ka->ss == NULL)	esl_fatal("trusted alignment has no secondary structure annotation\n");
+      if (ta->ss == NULL)	esl_fatal("test alignment has no secondary structure annotation\n");
+      
+      for (i = 0; i < ka->nseq; i++)
+	{
+	  nseq++;
+	  printf("%-20s ", ka->sqname[i]);
+
+	  /* Sanity checks on seqs to compare, plus conversion
+           * to dealigned ct arrays ready for comparison.
+	   */
+	  if (ta->ss[i] == NULL)
+	    {
+	      printf("[REJECTED: no predicted structure]\n");
+	      nseq_rejected++;	      
+	      continue;
+	    }
+	  if (ka->ss[i] == NULL)
+	    {
+	      printf("[REJECTED: no trusted structure]\n"); 
+	      nseq_rejected++;	      
+	      continue;
+	    }
+	  if (strcmp(ka->sqname[i], ta->sqname[i]) != 0) 
+	    {
+	      printf("[REJECTED: test seq name is %s]\n", ta->sqname[i]);
+	      nseq_rejected++;
+	      continue;
+	    }
+
+	  esl_strdealign(ka->ss[i],   ka->aseq[i], "-_.~", NULL);
+	  esl_strdealign(ka->aseq[i], ka->aseq[i], "-_.~", &klen);
+
+	  esl_strdealign(ta->ss[i],   ta->aseq[i], "-_.~", NULL);
+	  esl_strdealign(ta->aseq[i], ta->aseq[i], "-_.~", &tlen);
+
+	  if (klen != tlen) 
+	    {
+	      printf("[REJECTED: seq lengths not identical]\n");
+	      nseq_rejected++;
+	      continue;
+	    }
+	  
+	  /* not counting pseudoknots? suppress them in the ss strings*/
+	  if (! esl_opt_GetBoolean(go,  "-p")) 
+	    {
+	      esl_wuss_nopseudo(ka->ss[i], ka->ss[i]);
+	      esl_wuss_nopseudo(ta->ss[i], ta->ss[i]);
+	    }
+
+	  ESL_ALLOC(kct, sizeof(int) * (klen+1));
+	  ESL_ALLOC(tct, sizeof(int) * (tlen+1));
+	  if (esl_wuss2ct(ka->ss[i], klen, kct) != eslOK)
+	    {
+	      printf("[REJECTED: bad trusted structure]\n");
+	      nseq_rejected++;
+	      continue;
+	    }
+	  if (esl_wuss2ct(ta->ss[i], tlen, tct) != eslOK)
+	    {
+	      printf("[REJECTED: bad test structure]\n");
+	      nseq_rejected++;
+	      continue;
+	    }
+
+	/* OK, we're all set up with kct (trusted) and tct (predicted)
+         * CT arrays, and we're about to count up our correctly predicted
+	 * pairs. A brief digression/commentary first. We have to
+	 * define what you mean by a "correctly predicted" base
+	 * pair.
+	 * 
+	 * Our default criterion is simple and strict: the known base pair 
+	 * must be exactly present in the prediction; kct[pos] == tct[pos]
+	 * where kct[pos] > 0.
+	 * 
+	 * Dave Mathews [MathewsTurner99] uses a more relaxed
+	 * criterion that allows a little helix slippage in the prediction.
+	 * For a known pair (i,j), he considers the prediction to be correct 
+         * if the prediction contains a base pair (i,j), (i+1,j), (i-1,j),
+         * (i,j+1), or (i,j-1). 
+	 * 
+	 * A problem that arises here is that the mapping of known
+	 * to predicted base pairs is not one-to-one under Mathews'
+	 * rule: a single predicted pair can cause two known pairs
+	 * to be considered to be "correctly predicted".  You'd sort
+	 * of like to run some sort of maximum matching algorithm to
+	 * assign a one-to-one correspondence between known and
+	 * predicted pairs. It does not appear that Mathews does this,
+	 * though.
+	 * 
+	 * And for us, the problem becomes a little worse. Mathews only
+	 * tabulates "correct" base pairs (our "sensitivity"), and
+	 * does not run a calculation of how many predicted pairs
+	 * are true (our "specificity", or positive predictive
+	 * value). 
+	 * 
+	 * So: when we implement the Mathews rule, we do it the most
+	 * simple and obvious way. We apply his correctness rule in
+	 * both directions. A known pair i,j is considered to be
+	 * correctly predicted if the prediction contains any one of
+	 * the pairs (i,j), (i+1,j), (i-1,j), (i,j+1), or (i,j-1), for
+	 * the purposes of sensitivity. Conversely, a predicted pair
+	 * i,j is considered to be correct if the known structure
+	 * contains any one of the pairs (i,j), (i+1,j), (i-1,j),
+	 * (i,j+1), or (i,j-1), for the purposes of PPV.  That is, we
+	 * do not worry at all about establishing an optimal
+	 * one-to-one mapping between known and predicted pairs. I
+	 * think that this is likelyto reflect Mathews' own
+	 * implementation, but have not verified this.  
+	 */
+	tpairs = tcorrect = 0; /* predicted "test" structure */
+	kpairs = kcorrect = 0; /* trusted "known" structure  */
+	for (pos = 1; pos <= klen; pos++)
+	  {
+	    /* sensitivity; looking from the known (trusted) structure's
+	     * base pairs.
+	     */
+	    if (kct[pos] > pos) /* trusted bp between (pos, kct[pos]) */
+	      {
+		kpairs++;	/* don't doublecount */
+
+		if (esl_opt_GetBoolean(go,  "-m")) { /* mathews' version */
+		  if (tct[pos] == kct[pos] ||                      /* i,j    */
+		      (pos > 1     && tct[pos-1] == kct[pos])   || /* i-1, j */
+		      (pos < klen  && tct[pos+1] == kct[pos])   || /* i+1, j */
+		      (tct[pos]> 0 && tct[pos]   == kct[pos]-1) || /* i, j-1 */
+		      (tct[pos]> 0 && tct[pos]   == kct[pos]+1))   /* i, j+1 */
+		    kcorrect++;
+		} else {
+		  if (tct[pos] == kct[pos]) kcorrect++;
+		}
+	      }
+
+	    /* PPV/specificity; looking from the test (predicted) structure's 
+	     * base pairs.
+	     */
+	    if (tct[pos] > pos) /* predicted base pair (pos, tct[pos]) */
+	      {
+		tpairs++;
+
+		if (esl_opt_GetBoolean(go,  "-m")) { /* mathews' version */
+		  if (kct[pos] == tct[pos] ||                      /* i,j    */
+		      (pos > 1     && kct[pos-1] == tct[pos])   || /* i-1, j */
+		      (pos < tlen  && kct[pos+1] == tct[pos])   || /* i+1, j */
+		      (kct[pos]> 0 && kct[pos]   == tct[pos]-1) || /* i, j-1 */
+		      (kct[pos]> 0 && kct[pos]   == tct[pos]+1))   /* i, j+1 */
+		    tcorrect++;
+		} else {
+		  if (kct[pos] == tct[pos]) tcorrect++;
+		}
+	      }
+	  }
+
+	/* side note: under the default rule, tcorrect==kcorrect,
+	 * because there's a one-to-one mapping of known to predicted
+	 * pairs; but this is not necessarily the case for the relaxed
+	 * Mathews rule.  
+	 */
+	tot_tpairs    += tpairs;
+	tot_tcorrect  += tcorrect;
+	tot_kpairs    += kpairs;
+	tot_kcorrect  += kcorrect;
+	tot_positions += klen;
+	  
+				/* print out per sequence info */
+	printf(" ==  %5d %5d %5.2f%%   %5d %5d %5.2f%%\n", 
+	       kcorrect, kpairs, 100. * (float) kcorrect/ (float) kpairs,
+	       tcorrect, tpairs, 100. * (float) tcorrect/ (float) tpairs);
+
+	free(tct);
+	free(kct);
+	}
+      esl_msa_Destroy(ka);
+      esl_msa_Destroy(ta);
+    }
+
+  /* Print the final summary:
+   */
+  puts("\n");
+  if (nseq_rejected > 0) {
+    printf("%d total sequences; %d counted towards comparison; %d rejected\n", 
+	   nseq, nseq-nseq_rejected, nseq_rejected);
+    printf("(grep \"REJECTED\" in the output to identify the problems)\n\n");
+  }
+
+  printf("Overall prediction accuracy (%d sequences, %d positions)\n",
+	 nseq - nseq_rejected, tot_positions);
+  printf("   %d/%d trusted pairs predicted (%.2f%% sensitivity)\n", 
+	 tot_kcorrect, tot_kpairs, 
+	 100. * (float) tot_kcorrect/ (float) tot_kpairs);
+  printf("   %d/%d predicted pairs correct (%.2f%% PPV)\n",
+	 tot_tcorrect, tot_tpairs, 
+	 100. * (float) tot_tcorrect/ (float) tot_tpairs);
+  puts("");
+
+  esl_getopts_Destroy(go);
+  eslx_msafile_Close(tfp);
+  eslx_msafile_Close(kfp);
+  return 0;
+
+ ERROR:
+  return status;
+}
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-compstruct.c $
+ * SVN $Id: esl-compstruct.c 668 2011-03-01 14:28:28Z nawrockie $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compstruct.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compstruct.man
new file mode 100755
index 0000000..9263e0a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-compstruct.man
@@ -0,0 +1,122 @@
+.TH "esl-compstruct" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-compstruct - calculate accuracy of RNA secondary structure predictions
+
+
+
+.SH SYNOPSIS
+.B esl-compstruct
+.I [options]
+.I trusted_file
+.I test_file
+
+
+
+
+.SH DESCRIPTION
+
+.I esl-compstruct 
+evaluates the accuracy of RNA secondary structure predictions
+on a per-base-pair basis.
+The 
+.I trusted_file 
+contains one or more sequences with trusted (known) RNA
+secondary structure annotation. The
+.I test_file
+contains the same sequences, in the same order, with
+predicted RNA secondary structure annotation.
+.I esl-compstruct 
+reads the structures and compares them,
+and calculates both the sensitivity (the number
+of true base pairs that are correctly predicted)
+and the positive predictive value (PPV;
+the number of predicted base pairs that are true).
+Results are reported for each individual sequence,
+and in summary for all sequences together.
+
+.PP
+Both files must contain secondary structure annotation in
+WUSS notation. Only SELEX and Stockholm formats support 
+structure markup at present.
+
+.PP
+The default definition of a correctly predicted base pair
+is that a true pair (i,j) must exactly match a predicted
+pair (i,j).
+
+.PP
+Mathews and colleagues (Mathews et al., JMB 288:911-940, 1999) use a
+more relaxed definition. Mathews defines "correct" as follows: a true
+pair (i,j) is correctly predicted if any of the following pairs are
+predicted: (i,j), (i+1,j), (i-1,j), (i,j+1), or (i,j-1). This rule
+allows for "slipped helices" off by one base.  The
+.B -m
+option activates this rule for both sensitivity and for
+specificity. For specificity, the rule is reversed: predicted pair
+(i,j) is considered to be true if the true structure contains one of
+the five pairs (i,j), (i+1,j), (i-1,j), (i,j+1), or (i,j-1).
+
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -m
+Use the Mathews relaxed accuracy rule (see above), instead
+of requiring exact prediction of base pairs.
+
+.TP
+.B -p 
+Count pseudoknotted base pairs towards the accuracy, in either trusted
+or predicted structures. By default, pseudoknots are ignored. 
+.IP
+Normally, only the 
+.I trusted_file 
+would have pseudoknot annotation, since most RNA secondary structure
+prediction programs do not predict pseudoknots. Using the
+.B -p
+option allows you to penalize the prediction program for not
+predicting known pseudoknots. In a case where both the
+.I trusted_file 
+and the
+.I test_file 
+have pseudoknot annotation,  the
+.B -p
+option lets you count pseudoknots in evaluating
+the prediction accuracy. Beware, however, the case where you
+use a pseudoknot-capable prediction program to generate the
+.I test_file,
+but the 
+.I trusted_file 
+does not have pseudoknot annotation; in this case,
+.B -p
+will penalize any predicted pseudoknots when it calculates
+specificity, even if they're right, because they don't appear in the
+trusted annotation. This is probably not what you'd want to do.
+
+
+
+.SH EXPERT OPTIONS
+
+.TP
+.B --quiet
+Don't print any verbose header information. (Used by regression test
+scripts, for example, to suppress version/date information.)
+
+
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.c
new file mode 100755
index 0000000..3619647
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.c
@@ -0,0 +1,712 @@
+/* Construct consensus secondary structures from individually annotated 
+ * secondary structures
+ *
+ * EPN, Mon May 11 06:49:37 2009
+ * SVN $Id: esl-alimanip.c 270 2008-06-19 20:45:47Z nawrockie $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <assert.h>
+#include <math.h>
+#include <limits.h>
+
+#include "easel.h"
+#include "esl_distance.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_msa.h"
+#include "esl_distance.h"
+#include "esl_dmatrix.h"
+#include "esl_vectorops.h"
+#include "esl_stack.h"
+#include "esl_tree.h"
+#include "esl_wuss.h"
+
+#define CONSOPTS  "-x,--ffreq,--fmin,-r,-c,--indi"  /* exclusive options for defining a new consensus structure */
+
+static char banner[] = "describe or create a consensus secondary structure";
+static char usage[]  = "[options] <msafile>\n\
+<msafile> must contain RNA or DNA sequences and be in Stockholm format.";
+
+static int  get_gaps_per_column(ESL_MSA *msa, int **ret_ngaps);
+
+static ESL_OPTIONS options[] = {
+  /* name          type        default  env   range      togs reqs  incomp                      help                                                       docgroup */
+  { "-h",          eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL, NULL,                       "help; show brief info on version and usage",                     1},
+  { "-a",          eslARG_NONE,  FALSE, NULL, NULL,      NULL, NULL, CONSOPTS,                  "print info on all conflicting bps in individual structures",     1},
+  { "-v",          eslARG_NONE,  FALSE, NULL, NULL,      NULL, NULL,NULL,                       "be verbose",                                                     1 },
+  /* options for defining new consensus structures */
+  { "-x",          eslARG_NONE,  NULL,  NULL, NULL,      NULL, "-o", CONSOPTS,                  "set SS_cons as max set of non-conflicting bps from indi SSs", 2 },
+  { "-r",          eslARG_NONE,  NULL,  NULL, NULL,      NULL, "-o", CONSOPTS,                  "remove SS_cons basepairs that conflicts with > 0 indi SS",     2 },
+  { "-c",          eslARG_NONE,  NULL,  NULL, NULL,      NULL, "-o", CONSOPTS,                  "set SS_cons as indi SS with max bps consistent with SS_cons", 2 },
+  { "--rfc",       eslARG_NONE,  NULL,  NULL, NULL,      NULL, "-c", NULL,                      "with -c, set RF annotation as seq SS_cons structure comes from", 2},
+  { "--indi",      eslARG_STRING, NULL, NULL, NULL,      NULL, "-o", CONSOPTS,                  "define SS_cons as individual SS for sequence <x>",               2 },
+  { "--rfindi",    eslARG_NONE,   NULL, NULL, NULL,      NULL, "--indi",NULL,                   "with --indi <x>, define RF annotation as <x>",                   2 },
+  { "--ffreq",      eslARG_REAL,  NULL,  NULL,"0.<=x<=1", NULL,"-o", CONSOPTS,                  "aln cols i:j become SS_cons bps if paired in > <x> indi SS", 2},
+  { "--fmin",      eslARG_NONE,  NULL,  NULL, NULL,      NULL, "-o", CONSOPTS,                  "same as --ffreq but find min <x> that gives consistent SS_cons", 2},
+  { "-o",          eslARG_OUTFILE,NULL,  NULL, NULL,     NULL, NULL, "-a",                      "output a new alignment to file <f>",                             2 },
+  { "--pfam",      eslARG_NONE,  FALSE, NULL, NULL,      NULL, "-o", NULL,                      "output alignment in Pfam (non-interleaved, 1 line/seq) format",  2 },
+  /* options for listing sequences based on structural properties */
+  { "-l",          eslARG_OUTFILE,NULL, NULL, NULL,      NULL, NULL, NULL,                      "list seqs w/> 0 indi bp that conflicts w/a SS_cons bp to file <f>", 3},
+  { "--lmax",      eslARG_INT,   "0",    NULL, "n>=0",    NULL, NULL, NULL,                     "with -l, change maximum allowed conflicts of 0 to <x>", 3},
+  /* options for specifying alphabet */
+  { "--dna",       eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--rna",                     "<msafile> contain DNA alignments",                          4 },
+  { "--rna",       eslARG_NONE,  FALSE, NULL, NULL,      NULL,NULL,"--dna",                     "<msafile> contain RNA alignments",                          4 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	/* application configuration       */
+  ESL_ALPHABET *abc     = NULL;	/* biological alphabet             */
+  char         *alifile = NULL;	/* alignment file name             */
+  int           fmt;		/* format code for alifiles        */
+  ESLX_MSAFILE *afp     = NULL;	/* open alignment file             */
+  ESL_MSA      *msa     = NULL;	/* multiple sequence alignment     */
+  int           status;		/* easel return code               */
+
+  int           do_info = TRUE;                /* TRUE if -i */
+  int           do_max = FALSE;                /* TRUE if -x */
+  int           do_ffreq = FALSE;              /* TRUE if --ffreq */
+  int           do_fmin  = FALSE;              /* TRUE if --fmin */
+  float         fthresh = 0.;                  /* <x> from -f <x> */
+  int           do_remove_bps = FALSE;         /* TRUE if -r */
+  int           do_consistent = FALSE;         /* TRUE if -c */
+  int           do_indi2cons = FALSE;          /* TRUE if --indi <x> */
+  char         *indi2cons; 
+  int           have_cons;                     /* TRUE if first alignment has consensus sequence */
+  int           do_newcons = FALSE;            /* TRUE if we're creating a new consensus structure
+						* and outputing a new alignment (if -x -f -c or --indi)
+						*/
+  int           do_a = FALSE;                  /* TRUE if -a */
+  char         *indi;                          /* for <x> from --indi <x> */
+  int           nindi_read;                    /* number of individual sequence SS lines we've read for current alignment */
+
+  int           a;		               /* counter over seqs               */
+  int           i, i2;		               /* counter over residues */
+  int           j, j2;		               /* counter over residues */
+  int           nali;                          /* counter over alignments */
+  int         **bp = NULL;                     /* bp[i][j] is number of individual bps exist between aln cols i and j */
+  int          *cur_ct = NULL;                 /* ct array of basepairs for current sequence */
+  int          *cons_ct = NULL;                /* ct array of basepairs for SS_cons being created */
+  int          *xcons_ct = NULL;               /* ct array of basepairs for existing SS_cons */
+  int          *ngaps = NULL;                  /* number of gaps in each alignment position */
+  FILE         *ofp;		               /* output file (default is stdout) */
+  int           be_verbose = FALSE;            /* TRUE to print extra info */
+  int           seqthresh;                     /* sequence number threshold for defining a bp as consensus (int) ((fthresh * nseq) + 0.5)*/
+  char         *sscons = NULL;                 /* the new SS_cons line */
+  FILE         *lfp = NULL;                    /* file to list sequences with conflicting bps to */
+  int           nlist = 0;                     /* number of sequences listed to list file */
+  int          *nconflictsA;                   /* number of conflicting bps in seq a's individual structure annotation */
+  int           nconflicts_total = 0;          /* total number of conflicts */
+  int           nconflicts_list = 0;           /* total number of conflicts in sequences listed to file <x> from -l <x> */
+  int           noverlaps_total = 0;           /* total number of overlaps */
+  int           nconsistent_total = 0;         /* total number of consistent bps */
+  int           nbps_total = 0;                /* total number of bps */
+  int          *nconsistentA;                  /* number of consistent bps in seq a's individual structure annotation */
+  int          *noverlapsA;                    /* number of bps in seq a's indi structure that overlap with consensus structure */
+  int          *nbpsA;                         /* number of bps in seq a's indi structure that overlap with consensus structure */
+  int           ncons_bps = 0;                 /* number of bps in consensus structure */
+  int           max_noverlaps_aidx;
+  int           max_nconsistent_aidx;
+  int           max_nbps_aidx;
+  int          *removebp;                      /* removebp[i] is TRUE remove consensus bp [i]:xcons_ct[i] */
+  int          *has_conflict;    
+  int          *nmates_l2r;                    /* half matrix, nmate_l2r[i] = <x>, i < nmate_l2r[i], there are <x> different right mates j for i */
+  int          *nmates_r2l;                    /* half matrix, nmate_r2l[j] = <x>, j < nmate_r2l[j], there are <x> different left  mates i for j */
+
+  int           lmax;                          /* with -l, maximum number of conflicts to allow */
+  int           namewidth = 18;                 /* length of 'SS_cons(consensus)' */
+  char         *namedashes = NULL;             /* to store underline for seq name */
+
+  /* --fmin related variables */
+  int nbps = 0;
+  int prev_nbps = -1;
+  float fmin;
+  int inconsistent_flag;
+  int pknot_flag;
+  int k,l;
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\nwhere basic options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      puts("\noptions for defining a new consensus structure (all of these require -o):");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+      puts("\noptions for listing sequences based on structure:");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go) != 1) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  alifile  = esl_opt_GetArg(go, 1);
+
+  fmt = eslMSAFILE_STOCKHOLM;
+
+  /***********************************************
+   * Open the MSA file; determine alphabet; set for digital input
+   ***********************************************/
+
+  if      (esl_opt_GetBoolean(go, "--dna"))  abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))  abc = esl_alphabet_Create(eslRNA);
+
+  if ( (status = eslx_msafile_Open(&abc, alifile, NULL, fmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  /* open output file */
+  if (esl_opt_GetString(go, "-o") != NULL) {
+    if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) 
+	esl_fatal("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+  } else ofp = NULL;
+  if (esl_opt_GetString(go, "-l") != NULL) { 
+    if ((lfp = fopen(esl_opt_GetString(go, "-l"), "w")) == NULL) 
+	esl_fatal("Failed to open -l output file %s\n", esl_opt_GetString(go, "-l"));
+  }
+
+  /* determine if we're creating a structure */
+  do_max = esl_opt_GetBoolean(go, "-x");
+    
+  if(!(esl_opt_IsDefault(go, "--ffreq"))) { 
+    do_ffreq = TRUE; 
+    fthresh = esl_opt_GetReal(go, "--ffreq"); 
+  }
+  if(!(esl_opt_IsDefault(go, "--fmin"))) { 
+    do_fmin = TRUE; 
+  }
+  do_remove_bps = esl_opt_GetBoolean(go, "-r"); 
+  do_consistent = esl_opt_GetBoolean(go, "-c");
+  if(!(esl_opt_IsDefault(go, "--indi"))) { 
+    do_indi2cons = TRUE; 
+    indi2cons = esl_opt_GetString(go, "--indi"); 
+  }
+  if(do_max || do_ffreq || do_fmin || do_remove_bps || do_consistent || do_indi2cons) { 
+    do_newcons = TRUE;
+  }
+  do_a = esl_opt_GetBoolean(go, "-a");
+  if(do_a || do_max || do_ffreq || do_fmin || do_remove_bps || do_consistent || do_indi2cons) { 
+    do_info = FALSE;
+  }
+
+  /***********************************************
+   * Read MSAs one at a time.
+   ***********************************************/
+  nali = 0;
+  have_cons = FALSE;
+  lmax = esl_opt_GetInteger(go, "--lmax");
+  if(esl_opt_GetBoolean(go, "-v")) be_verbose = TRUE; 
+
+  while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+      nali++;
+
+      /* determine max length name */
+      namewidth = 18; /* length of 'SS_cons(consensus)' */
+      for(i = 0; i < msa->nseq; i++) namewidth = ESL_MAX(namewidth, strlen(msa->sqname[i]));
+      if(namedashes != NULL) { free(namedashes); }
+      ESL_ALLOC(namedashes, sizeof(char) * namewidth+1);
+      namedashes[namewidth] = '\0';
+      for(i = 0; i < namewidth; i++) namedashes[i] = '-';
+
+      ESL_ALLOC(sscons, sizeof(char) * (msa->alen+1));
+      ESL_ALLOC(cur_ct, sizeof(int) * (msa->alen+1));
+      ESL_ALLOC(cons_ct, sizeof(int) * (msa->alen+1));
+      ESL_ALLOC(xcons_ct, sizeof(int) * (msa->alen+1));
+      ESL_ALLOC(bp, sizeof(int *) * (msa->alen+1));
+      ESL_ALLOC(removebp, sizeof(int) * (msa->alen+1));
+      ESL_ALLOC(has_conflict, sizeof(int) * (msa->alen+1));
+      ESL_ALLOC(nmates_l2r, sizeof(int) * (msa->alen+1));
+      ESL_ALLOC(nmates_r2l, sizeof(int) * (msa->alen+1));
+      esl_vec_ISet(cur_ct, (msa->alen+1), 0);
+      esl_vec_ISet(cons_ct, (msa->alen+1), 0);
+      esl_vec_ISet(xcons_ct, (msa->alen+1), 0);
+      esl_vec_ISet(removebp, (msa->alen+1), FALSE);
+      esl_vec_ISet(has_conflict, (msa->alen+1), FALSE);
+      esl_vec_ISet(nmates_l2r, (msa->alen+1), 0);
+      esl_vec_ISet(nmates_r2l, (msa->alen+1), 0);
+
+      ESL_ALLOC(nconflictsA, sizeof(int) * msa->nseq);
+      ESL_ALLOC(noverlapsA, sizeof(int) * msa->nseq);
+      ESL_ALLOC(nconsistentA, sizeof(int) * msa->nseq);
+      ESL_ALLOC(nbpsA, sizeof(int) * msa->nseq);
+      esl_vec_ISet(nconflictsA, msa->nseq, 0);
+      esl_vec_ISet(noverlapsA, msa->nseq, 0);
+      esl_vec_ISet(nconsistentA, msa->nseq, 0);
+      esl_vec_ISet(nbpsA, msa->nseq, 0);
+
+      max_noverlaps_aidx = max_nconsistent_aidx = max_nbps_aidx = 0;
+      nconsistent_total = nbps_total = noverlaps_total = nconflicts_total = nconflicts_list = 0;
+      for(i = 1; i <= msa->alen; i++) { 
+	ESL_ALLOC(bp[i], sizeof(int) * (msa->alen+1));
+	esl_vec_ISet(bp[i], (msa->alen+1), 0);
+      }
+
+      /* make sure we have ss_cons and indi ss if we need it */
+      if(msa->ss_cons == NULL && do_remove_bps) esl_fatal("-r requires all alignments have SS_cons annotation, alignment %d does not.", nali);
+      if(msa->ss == NULL && do_max)             esl_fatal("-x requires all alignments have individual SS annotation, alignment %d does not.", nali);
+      if(msa->ss == NULL && do_consistent)      esl_fatal("-c requires all alignments have individual SS annotation, alignment %d does not.", nali);
+      if(msa->ss == NULL && do_indi2cons)       esl_fatal("--indi requires all alignments have individual SS annotation, alignment %d does not.", nali);
+      if(msa->ss == NULL && do_ffreq)           esl_fatal("--ffreq requires all alignments have individual SS annotation, alignment %d does not.", nali);
+      if(msa->ss == NULL && do_fmin)            esl_fatal("--fmin requires all alignments have individual SS annotation, alignment %d does not.", nali);
+
+      if(msa->ss_cons != NULL) { 
+	if((status = esl_wuss2ct(msa->ss_cons, msa->alen, xcons_ct)) != eslOK) { 
+	  esl_fatal("Existing SS_cons for alignment %d is invalid.", nali);
+	}
+	ncons_bps = 0;
+	for(i = 1; i <= msa->alen; i++) 
+	  if(xcons_ct[i] != 0 && i < xcons_ct[i]) 
+	    ncons_bps++;
+
+	if(nali > 1 && !have_cons)
+	  esl_fatal("the first aln has SS_cons but aln %d lacks it, if one has it, they all must.", nali); 
+	if(nali == 1) have_cons = TRUE;
+      }
+      else if (lfp != NULL) { 
+	esl_fatal("the -l option requires existing SS_cons annotation, aln %d lacks it.", nali); 
+      }
+      else if (do_remove_bps) { 
+	esl_fatal("the -r option requires existing SS_cons annotation, aln %d lacks it.", nali); 
+      }
+      else if (do_consistent) { 
+	esl_fatal("the -c option requires existing SS_cons annotation, aln %d lacks it.", nali); 
+      }
+      else { 
+	if(nali > 1 && have_cons)
+	  esl_fatal("the first aln does not have SS_cons but aln %d does, if one has it, they all must.", nali); 
+      }
+
+      if(do_info) { 
+	printf("# Per-sequence basepair information:\n"); 
+	printf("# Alignment file: %s\n", alifile);
+	printf("# Alignment idx:  %d\n", nali);
+	if(msa->name != NULL) { printf("# Alignment name: %s\n", msa->name); }
+	if(have_cons) { 
+	  printf("#\n");
+	  printf("# indibp: number of basepairs in the individual sequence SS annotation\n");
+	  printf("# ovrlap: number of indibp basepairs that also exist as consensus basepairs\n");
+	  printf("# cnsist: number of indibp basepairs that do not conflict with any consensus basepairs\n");
+	  printf("# cnflct: number of indibp basepairs that conflict with >= 1 consensus basepairs\n");
+	  printf("#\n");
+	  printf("# A conflict exists between two basepairs in different structures, one between columns i and j\n");
+	  printf("# and the other between columns k and l, if (i == k and j != l) or (j == l and i != k).\n");
+	  printf("#\n");
+	  printf("# %-*s  %6s  %6s  %6s  %6s\n", namewidth, "seqname", "indibp", "ovrlap", "cnsist", "cnflct");
+	  printf("# %-*s  %6s  %6s  %6s  %6s\n", namewidth, namedashes, "------", "------", "-----", "------");
+	}
+	else { 
+	  printf("# %-*s  %6s\n", namewidth, "seqname", "nbp");
+	  printf("# %-*s  %6s\n", namewidth, namedashes, "------");
+	}
+      }
+
+      nindi_read = 0;
+      for (a = 0; a < msa->nseq; a++) { 
+	if(msa->ss != NULL && msa->ss[a] != NULL) { 
+	  if((status = esl_wuss2ct(msa->ss[a], msa->alen, cur_ct)) != eslOK) { 
+	    esl_fatal("SS annotation for sequence %d, aln %d  is invalid.\n", (a+1), nali);
+	  }
+	  nindi_read++;
+	  for(i = 1; i <= msa->alen; i++) { 
+	    if(i < cur_ct[i]) { 
+	      bp[i][cur_ct[i]]++;
+	      if(bp[i][cur_ct[i]] == 1) { 
+		nmates_l2r[i]++;
+		nmates_r2l[cur_ct[i]]++;
+	      }
+	    }
+	  }
+
+	  for(i = 1; i <= msa->alen; i++) { 
+	    if(cur_ct[i] != 0 && i < cur_ct[i]) { 
+	      if(xcons_ct[i] == cur_ct[i]) noverlapsA[a]++;
+	      if((xcons_ct[i] != 0) && (xcons_ct[i] != cur_ct[i])) { 
+		if(be_verbose) { printf("ali: %2d seq %3d (%s) bp %4d:%4d conflicts with consensus bp %4d:%4d\n", nali, a, msa->sqname[a], i, cur_ct[i], i, xcons_ct[i]); }
+		nconflictsA[a]++;
+		/* indi bp i:cur_ct[i] conflicts with i:xcons_ct[i] */
+		removebp[i]           = TRUE;
+		removebp[xcons_ct[i]] = TRUE;
+	      }
+	      else if((xcons_ct[cur_ct[i]] != 0) && (xcons_ct[cur_ct[i]] != i) && (cur_ct[xcons_ct[cur_ct[i]]] == 0)) { 
+		if(be_verbose) { printf("ali: %2d seq %3d (%s) bp %4d:%4d conflicts with consensus bp %4d:%4d\n", nali, a, msa->sqname[a], xcons_ct[i], cur_ct[xcons_ct[i]], xcons_ct[cur_ct[i]], cur_ct[i]); }
+		nconflictsA[a]++;
+		/* indi bp i:cur_ct[i] conflicts with xcons_ct[cur_ct[i]]:cur_ct[i] */
+		removebp[cur_ct[i]] = TRUE;
+		removebp[xcons_ct[cur_ct[i]]] = TRUE;
+	      }
+	      else nconsistentA[a]++;
+	    }		  
+	  }
+	  if(nconflictsA[a] > lmax) { 
+	    if(lfp != NULL) fprintf(lfp, "%s\n", msa->sqname[a]); 
+	    nconflicts_list += nconflictsA[a];
+	    nlist++;
+	  }
+	  nbpsA[a] = nconflictsA[a] + nconsistentA[a];
+	  nconflicts_total += nconflictsA[a];
+	  nconsistent_total += nconsistentA[a];
+	  noverlaps_total += noverlapsA[a];
+	  nbps_total += nbpsA[a];
+
+	  if(do_info && have_cons)  printf("  %-*s  %6d  %6d  %6d  %6d\n", namewidth, msa->sqname[a], nbpsA[a], noverlapsA[a], nconsistentA[a], nconflictsA[a]); 
+	  if(do_info && !have_cons) printf("  %-*s  %6d\n", namewidth, msa->sqname[a], nbpsA[a]);
+	  if(nbpsA[a] > nbpsA[max_nbps_aidx]) max_nbps_aidx = a;
+	  if((noverlapsA[a] > noverlapsA[max_noverlaps_aidx]) || ((noverlapsA[a] == noverlapsA[max_noverlaps_aidx]) && (nbpsA[a] > nbpsA[max_noverlaps_aidx]))) max_noverlaps_aidx = a;
+	  if((nconsistentA[a] > nconsistentA[max_nconsistent_aidx]) || ((nconsistentA[a] == nconsistentA[max_nconsistent_aidx]) && (nbpsA[a] > nbpsA[max_nconsistent_aidx]))) max_nconsistent_aidx = a;
+	}
+	else if(do_newcons || esl_opt_GetBoolean(go, "-a")) { esl_fatal("No SS annotation for sequence %d, aln %d.\n", (a+1), nali); }
+      }
+
+      if(do_info && have_cons) { 
+	if(nindi_read > 0) printf("\n"); 
+	printf("  %-*s  %6d  %6d  %6d  %6d\n", namewidth, "SS_cons(consensus)", ncons_bps, ncons_bps, ncons_bps, 0); 
+	if(nindi_read > 0) { 
+	  printf("\n# %6d/%6d (%.3f) overlap\n", noverlaps_total, nbps_total, nbps_total > 0 ? (float) noverlaps_total / (float) nbps_total : 0.);
+	  printf("# %6d/%6d (%.3f) consistent\n", nconsistent_total, nbps_total, nbps_total > 0 ? (float) nconsistent_total / (float) nbps_total: 0.);
+	  printf("# %6d/%6d (%.3f) conflict\n", nconflicts_total, nbps_total, nbps_total > 0 ? (float) nconflicts_total / (float) nbps_total: 0.);
+	}
+	else { 
+	  printf("# No sequences in the alignment have GR SS annotation.\n");
+	}
+      }
+
+      if(lfp != NULL) { 
+	printf("# %d/%d sequences with %.3f individual bps on avg that conflict with SS_cons written to %s\n", nlist, msa->nseq, (float) nconflicts_list / (float) nlist, esl_opt_GetString(go, "-l")); 
+      }
+
+      /* determine number of gaps per alignment column */
+      if((status = get_gaps_per_column(msa, &ngaps)) != eslOK) goto ERROR;
+
+      /* -x: determine max bp structure OR
+       * -a: list all conflicts in individual structures */
+      if(do_max || do_a) { 
+	for(i = 1; i <= msa->alen; i++) { 
+	  if(nmates_l2r[i] > 1) {/* list the conflicts */
+	    has_conflict[i] = TRUE;
+	    for(j = 1; j <= msa->alen; j++) { 
+	      if(bp[i][j] > 0) { 
+		if(do_a) printf("More than 1 right mates for left  mate %4d   %4d:%4d bp exists in %4d/%4d seqs (%.3f)\n", i, i, j, bp[i][j], msa->nseq - ngaps[i], (float) bp[i][j] / (float) (msa->nseq - ngaps[i])); 
+		has_conflict[j] = TRUE;
+	      }
+	    }
+	  }
+	}
+	for(i = 1; i <= msa->alen; i++) { 
+	  if(nmates_r2l[i] > 1) {/* list the conflicts */
+	    has_conflict[i] = TRUE;
+	    for(j = 1; j <= msa->alen; j++) { 
+	      if(bp[j][i] > 0) { 
+		if(do_a) printf("More than 1 left  mates for right mate %4d   %4d:%4d bp exists in %4d/%4d seqs (%.3f)\n", i, j, i, bp[j][i], msa->nseq - ngaps[i], (float) bp[j][i] / (float) (msa->nseq - ngaps[i])); 
+		has_conflict[j] = TRUE;
+	      }
+	    }
+	  }
+	}
+	for(i = 1; i <= msa->alen; i++) { 
+	  /*printf("conflict[%4d]: %d\n", i, has_conflict[i]);*/
+	  if(nmates_l2r[i] == 1 && (!(has_conflict[i]))) { 
+	    j = i+1; 
+	    while(bp[i][j] == 0) j++;
+	    cons_ct[i] = j;
+	    cons_ct[j] = i;
+	  }
+	}
+
+	/* remove pseudoknotted bps greedily */
+	for(i = 1; i <= msa->alen; i++) { 
+	  j = cons_ct[i]; 
+	  if(j != 0 && i < j) { 
+	    for(i2 = i+1; i2 <= msa->alen; i2++) { 
+	      j2 = cons_ct[i2];
+	      if(j2 != 0 && i2 < j2) { 
+		if((i2 < j) && (j < j2)) { 
+		  /*printf("KNOT %4d:%4d (%4d) %4d:%4d (%4d)\n", i, j, bp[i][j], i2, j2, bp[i2][j2]);*/
+		  /* note: remove both if they have equal number of sequences */
+		  if(bp[i][j] <= bp[i2][j2]) { 
+		    /*printf("rm %4d:%4d\n", i, j);*/
+		    cons_ct[cons_ct[i]] = 0;
+		    cons_ct[i]          = 0;
+		  }
+		  if(bp[i][j] >= bp[i2][j2]) { 
+		    /*printf("rm %4d:%4d\n", i2, j2);*/
+		    cons_ct[cons_ct[i2]] = 0;
+		    cons_ct[i2]          = 0;
+		  }
+		}
+	      }
+	    }
+	  }
+	}
+      }
+      
+      /***************************************/
+      /*PARANOID, second check for knots 
+      for(i = 1; i <= msa->alen; i++) { 
+	j = cons_ct[i]; 
+	if(j != 0 && i < j) { 
+	  printf("BP: %4d:%4d\n", i, j);
+	  for(i2 = 1; i2 <= msa->alen; i2++) { 
+	    j2 = cons_ct[i2];
+	    if(j2 != 0 && i2 < j2) { 
+	      if((i2 < j) && (j < j2)) { 
+		if((i < i2)) { 
+		  printf("KNOT %4d:%4d (%4d) %4d:%4d (%4d)\n", i, j, bp[i][j], i2, j2, bp[i2][j2]);
+		}
+	      }
+	    }
+	  }
+	}
+      }
+      ******************************************/
+
+      /***************************************/
+      /*PARANOID, check cons_ct for consistency
+      for(i = 1; i <= msa->alen; i++) { 
+	if(cons_ct[i] != 0) { 
+	  if(cons_ct[cons_ct[i]] != i) { printf("ERROR: i: %4d cons_ct[i]: %4d cons_ct[cons_ct[i]]: %4d\n", i, cons_ct[i], cons_ct[cons_ct[i]]); }
+	}
+      }
+      */
+      /*PARANOID, write out SS_cons 
+      for(i = 1; i <= msa->alen; i++) { 
+	if(i < cons_ct[i]) printf("<"); 
+	else if(cons_ct[i] != 0) { printf(">"); }
+	else printf(".");
+      }
+      printf("\n");
+      */
+      /***************************************/
+
+      /* textize alignment */
+      if((status = esl_msa_Textize(msa)) != eslOK) esl_fatal("ERROR textizing alignment %d\n", nali); 
+
+      /* --fmin */
+      if(do_fmin) { 
+	/* define ss_cons */
+	nbps = 0;
+	prev_nbps = -1;
+	fthresh = 0.99;
+	inconsistent_flag = pknot_flag = FALSE;
+	printf("# Defining consensus structure:\n");
+	printf("# indi SS basepair aln columns i:j (from at least 1 indi SS) will become consensus basepair\n");
+	printf("# if > <x> individual SS contain i:j as a pair\n");
+	printf("# We'll search for minimal <x> that gives a consistent consensus structure.\n");
+	printf("# A consistent structure has each position involved in 0 or 1 basepairs.\n");
+	printf("#\n");
+	printf("# Alignment file: %s\n", alifile);
+	printf("# Alignment idx:  %d\n", nali);
+	printf("# Number of seqs: %d\n", msa->nseq);
+	printf("#\n");
+	printf("# %5s  %23s  %6s\n", "<x>", "nseq-required-with-bp", "numbps");
+	printf("# %5s  %23s  %6s\n", "-----", "-----------------------", "------");
+	while(fthresh >= 0.00 && (inconsistent_flag == FALSE) && (pknot_flag == FALSE)) { 
+	  nbps = 0;
+	  seqthresh = (int) (fthresh * msa->nseq);
+	  /*printf("fthresh: %f seqthresh: %d nseq: %d\n", fthresh, seqthresh, msa->nseq);*/
+	  esl_vec_ISet(cons_ct, msa->alen+1, 0);
+	  for(i = 1; i <= msa->alen; i++) { 
+	    for(j = i+1; j <= msa->alen; j++) { 
+	      if(bp[i][j] > seqthresh) { 
+		if(cons_ct[i] != 0 || cons_ct[j] != 0) { 
+		  inconsistent_flag = TRUE;
+		}
+		/* check for pseudoknots */
+		for(k = i+1; k < j; k++) { 
+		  l = cons_ct[k];
+		  if((k < l) && (l > j)) { 
+		    pknot_flag = TRUE;
+		  }
+		  if((k > l) && (l != 0) && (l < i)) { 
+		    pknot_flag = TRUE;
+		  }
+		}
+		cons_ct[i] = j;
+		cons_ct[j] = i;
+		nbps++;
+	      }
+	    }
+	  }
+	  if(inconsistent_flag) 
+	    printf("  %.3f  %23d  %s\n", fthresh, seqthresh+1, "inconsistent");
+	  else if(pknot_flag) 
+	    printf("  %.3f  %23d  %s\n", fthresh, seqthresh+1, "pseudoknotted");
+	  else { 
+	    if(nbps != prev_nbps) { 
+	      printf("  %.3f  %23d  %6d\n", fthresh, seqthresh+1, nbps);
+	    }
+	    fmin = fthresh;
+	  }
+	  fthresh -= 0.01;
+	  prev_nbps = nbps;
+	}
+	fthresh = fmin;
+	esl_vec_ISet(cons_ct, msa->alen+1, 0);
+      }
+
+      /* --ffreq: determine structure by defining consensus bps that occur in <x> fraction of indi structures */
+      if(do_ffreq || do_fmin) { 
+	if(do_fmin)  { printf("#\n# <x> determined to be %.3f\n", fthresh); }
+	if(do_ffreq) { 
+	  printf("# Defining consensus structure:\n");
+	  printf("# indi SS basepair aln columns i:j (from at least 1 indi SS) will become consensus basepair\n");
+	  printf("# if > %f individual SS contain i:j as a pair\n", fthresh);
+	}
+	esl_vec_ISet(cons_ct, msa->alen+1, 0);
+	/* define ss_cons */
+	  seqthresh = (int) (fthresh * msa->nseq);
+	  /*printf("fthresh: %f seqthresh: %d nseq: %d\n", fthresh, seqthresh, msa->nseq);*/
+	  for(i = 1; i <= msa->alen; i++) { 
+	    for(j = i+1; j <= msa->alen; j++) { 
+	      if(bp[i][j] > seqthresh) { 
+		if(cons_ct[i] != 0) { 
+		  esl_fatal("ERROR, two base pairs including position %d satisfy threshold (%d:%d and %d:%d)!\n", i, i, cons_ct[i], i, j);
+		}
+		if(cons_ct[j] != 0) { 
+		  esl_fatal("ERROR, two base pairs including position %d satisfy threshold (%d:%d and %d:%d)!\n", j, j, cons_ct[j], i, j);
+		}
+		cons_ct[i] = j;
+		cons_ct[j] = i;
+	      }
+	    }
+	  }
+	}
+
+      /* -r: redefine consensus struct by removing any bps that conflict with individual structures */
+      if(do_remove_bps) { 
+	for(i = 1; i <= msa->alen; i++) { 
+	  if(!(removebp[i])) {
+	    cons_ct[i]          = xcons_ct[i];
+	    cons_ct[cons_ct[i]] = i;
+	  }
+	  else {
+	    printf("# Removing consensus bp: %d:%d\n", i, xcons_ct[i]);
+	    cons_ct[xcons_ct[i]] = 0; 
+	    cons_ct[i]           = 0; 
+	  }
+	}
+      }
+      
+      /* -c:     define consensus structure as indi sequence with highest number of consistent bps with structure  OR */
+      /* --indi: define consensus structure as indi sequence <x> from --indi <x> */
+      if(do_consistent || do_indi2cons) {
+	if(do_indi2cons) { 
+	  indi = esl_opt_GetString(go, "--indi");
+	  for(a = 0; a < msa->nseq; a++) { 
+	    if(strcmp(indi, msa->sqname[a]) == 0) break;
+	  }
+	  if(a == msa->nseq) esl_fatal("ERROR, could not find a sequence named %s in the alignment.\n", indi);
+	}
+	else { /* do_consistent */
+	  a = max_nconsistent_aidx;
+	}
+	if(msa->ss == NULL || msa->ss[a] == NULL) esl_fatal("ERROR, no individual SS annotation for %s in the alignment.\n", msa->sqname[a]);
+	if((status = esl_wuss2ct(msa->ss[a], msa->alen, cons_ct)) != eslOK) { 
+	  esl_fatal("Second pass... SS annotation for sequence %d, aln %d  is invalid.\n", (a), nali);
+	}	
+	printf("# Defined new SS_cons as SS annotation for %s (%d basepairs)\n", msa->sqname[a], nbpsA[a]);
+	if(esl_opt_GetBoolean(go, "--rfc") || esl_opt_GetBoolean(go, "--rfindi")) {
+	  if(msa->rf != NULL) { free(msa->rf); msa->rf = NULL; }
+	  if((status = esl_strcat(&(msa->rf), -1, msa->aseq[a], msa->alen)) != eslOK) goto ERROR;
+	  printf("# Defined new RF as %s sequence\n", msa->sqname[a]);
+	}
+      }
+      
+      /* write out alignment with new SS_cons */
+      if(do_newcons) { 
+	if((status = esl_ct2wuss(cons_ct, msa->alen, sscons)) != eslOK) goto ERROR;
+	if(msa->ss_cons != NULL) { free(msa->ss_cons); msa->ss_cons = NULL; }
+	if((status = esl_strcat(&(msa->ss_cons), -1, sscons, msa->alen)) != eslOK) goto ERROR;
+	status = eslx_msafile_Write(ofp, msa, (esl_opt_GetBoolean(go, "--pfam") ? eslMSAFILE_PFAM : eslMSAFILE_STOCKHOLM));
+	if      (status == eslEMEM) esl_fatal("Memory error when outputting alignment\n");
+	else if (status != eslOK)   esl_fatal("Writing alignment file failed with error %d\n", status);
+      }
+      
+      free(sscons);
+      free(cur_ct);
+      free(cons_ct);
+      free(xcons_ct);
+      for(i = 1; i <= msa->alen; i++) free(bp[i]);
+      free(bp);
+      esl_msa_Destroy(msa);
+    }
+  if (nali == 0) esl_fatal("No alignments found in file %s\n", alifile);
+
+  /* Cleanup, normal return
+   */
+  if(lfp != NULL) fclose(lfp);
+  if(ofp != NULL) { 
+    printf("# Alignment(s) saved to file %s\n", esl_opt_GetString(go, "-o"));
+    fclose(ofp);
+  }
+  eslx_msafile_Close(afp);
+  esl_getopts_Destroy(go);
+  return 0;
+
+ ERROR:
+  if(afp) eslx_msafile_Close(afp);
+  if(go)  esl_getopts_Destroy(go);
+  if(msa) esl_msa_Destroy(msa);
+  if(lfp) fclose(lfp);
+  if(ofp) fclose(ofp);
+  esl_fatal("ERROR\n");
+  return 1;
+  
+}
+
+
+/* get_gaps_per_column 
+ *                   
+ * Given an MSA, determine the number of gaps per
+ * column, and return a newly allocated array with this
+ * into in *ret_ngaps. 
+ */
+static int get_gaps_per_column(ESL_MSA *msa, int **ret_ngaps)
+{
+  int status;
+  int i, apos;
+  int *ngaps = NULL;
+  /* contract check */
+  if(! (msa->flags & eslMSA_DIGITAL)) { status = eslEINVAL; goto ERROR; }
+
+  ESL_ALLOC(ngaps, sizeof(int) * (msa->alen+1));
+  esl_vec_ISet(ngaps, msa->alen+1, 0);
+  for(i = 0; i < msa->nseq; i++) {
+    for(apos = 1; apos <= msa->alen; apos++)
+      ngaps[apos] += esl_abc_XIsGap(msa->abc, msa->ax[i][apos]);
+  }
+  *ret_ngaps = ngaps;
+  return eslOK;
+
+ ERROR:
+  if(ngaps != NULL) free(ngaps);
+  return status;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.itest.pl
new file mode 100755
index 0000000..6ef157b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.itest.pl
@@ -0,0 +1,160 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-construct miniapp.
+#
+# Usage:     ./esl-construct.itest.pl <esl-construct binary> <tmpfile prefix>
+# Example:   ./esl-construct.itest.pl ./esl-construct        foo
+#
+# EPN, Tue Feb  2 13:19:44 2010
+
+$eslconstruct= shift;
+$tmppfx      = shift;
+
+if (! -x "$eslconstruct") { die "FAIL: didn't find esl-construct binary $eslconstruct"; }
+
+open(ALIFILE, ">$tmppfx.1") || die "FAIL: couldn't open $tmppfx.1 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-1           --AGA-CUUCG-GUCGCUCG-UAACAG
+#=GR simpex-1   SS ..:<<-<____->>>-<<-<.___>>>
+simpex-2           aaAAUACGUCGGCUG-AAUACCCAGUA
+#=GR simpex-2   SS ..::<<<____>->>--<-.<___>>:
+simpex-3           --ACGUUUUG-GAACGGG-U-CCAACC
+#=GR simpex-3   SS ..::<<<____>->>-<<-<.___>>>
+#=GC SS_cons       ..::<<<____>->>-<<-<.___>>>
+#=GC RF            ..AAgaCUUCGGAucgggCg.AcAccc
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.2") || die "FAIL: couldn't open $tmppfx.1 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-1           --AGA-CUUCG-GUCGCUCG-UAACAG
+simpex-2           aaAAUACGUCGGCUG-AAUACCCAGUA
+simpex-3           --ACGUUUUG-GAACGGG-U-CCAACC
+#=GC SS_cons       ..::<<<____>->>-<<-<.___>>>
+#=GC RF            ..AAgaCUUCGGAucgggCg.AcAccc
+//
+EOF
+close ALIFILE;
+
+open(ALIFILE, ">$tmppfx.3") || die "FAIL: couldn't open $tmppfx.1 for writing alifile";
+print ALIFILE << "EOF";
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+simpex-1           --AGA-CUUCG-GUCGCUCG-UAACAG
+#=GR simpex-1   SS ..:<<-<____->>>-<<-<.___>>>
+simpex-2           aaAAUACGUCGGCUG-AAUACCCAGUA
+#=GR simpex-2   SS ..::<<<____>->>--<-.<___>>:
+simpex-3           --ACGUUUUG-GAACGGG-U-CCAACC
+#=GR simpex-3   SS ..::<<<____>->>-<<-<.___>>>
+//
+EOF
+close ALIFILE;
+
+$output = `$eslconstruct -h`;
+if ($? != 0)                                         { die "FAIL: esl-construct failed unexpectedly"; }
+if ($output !~ /Usage: esl-construct/)               { die "FAIL: help output not right"; }
+
+$output = `$eslconstruct $tmppfx.1 2>&1`;
+if ($? != 0)                                                            { die "FAIL: esl-construct failed unexpectedly";      }
+if ($output !~ /  simpex-2                 5       4       4       1/)  { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /SS\_cons\(consensus\)       6       6       6       0/) { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /13\/    17 \(0.765\) overlap/)                          { die "FAIL: structure stats calculated incorrectly"; }
+
+$output = `$eslconstruct $tmppfx.2 2>&1`;
+if ($? != 0)                                                              { die "FAIL: esl-construct failed unexpectedly"; }
+if ($output !~ /SS\_cons\(consensus\)       6       6       6       0/) { die "FAIL: structure stats calculated incorrectly"; }
+
+$output = `$eslconstruct $tmppfx.3 3>&1`;
+if ($? != 0)                                                            { die "FAIL: esl-construct failed unexpectedly";      }
+if ($output !~ /simpex-2                 5/)                            { die "FAIL: structure stats calculated incorrectly"; }
+
+
+$output = `$eslconstruct -a $tmppfx.1 2>&1`;
+if ($? != 0)                                                            { die "FAIL: esl-construct failed unexpectedly";      }
+if ($output !~ /More than 1 right mates for left  mate    7      7:  12 bp exists in    2\/   3 seqs/) { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /More than 1 right mates for left  mate    7      7:  13 bp exists in    1\/   3 seqs/) { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /More than 1 left  mates for right mate   25     20:  25 bp exists in    2\/   3 seqs/) { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /More than 1 left  mates for right mate   25     21:  25 bp exists in    1\/   3 seqs/) { die "FAIL: structure stats calculated incorrectly"; }
+
+$output = `$eslconstruct -v $tmppfx.1 2>&1`;
+if ($? != 0)                                                                                      { die "FAIL: esl-construct failed unexpectedly";      }
+if ($output !~ /  simpex-2                 5       4       4       1/)                            { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /SS\_cons\(consensus\)       6       6       6       0/)                           { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /13\/    17 \(0.76\d+\) overlap/)                                                  { die "FAIL: structure stats calculated incorrectly"; }
+if ($output !~ /ali:  1 seq   0 \(simpex-1\) bp    5:  14 conflicts with consensus bp    5:  15/) { die "FAIL: structure stats calculated incorrectly"; }
+
+
+system("$eslconstruct -o $tmppfx.stk -x $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /\#=GC SS_cons     ::::::::::::::::<<_______>>/)   { die "FAIL: consensus structure calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk -r $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /\#=GC SS_cons     :::::<_______>::<<_______>>/)   { die "FAIL: consensus structure calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk -c $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /#=GC SS_cons     ::::<<<____>->>:<<-<____>>>/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk -c --rfc $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /#=GC SS_cons     ::::<<<____>->>:<<-<____>>>/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+if ($output !~ /#=GC RF          --ACGUUUUG-GAACGGG-U-CCAACC/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk --indi simpex-2 $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /\#=GC SS_cons     ::::<<<____>->>::<--<___>>:/)   { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk --indi simpex-2 --rfindi $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /\#=GC SS_cons     ::::<<<____>->>::<--<___>>:/)   { die "FAIL: consensus stucture calculated incorrectly"; }
+if ($output !~ /\#=GC RF          AAAAUACGUCGGCUG-AAUACCCAGUA/)   { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk --ffreq 0.6 $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /#=GC SS_cons     ::::<<<____>->>:<<-<____>>>/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk --ffreq 0.7 $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /#=GC SS_cons     :::::::::::::::::<_______>:/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -o $tmppfx.stk --fmin $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.stk`;
+if ($output !~ /#=GC SS_cons     ::::<<<____>->>:<<-<____>>>/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct -l $tmppfx.list -o $tmppfx.stk --fmin $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.list`;
+if ($output !~ /simpex-1/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+if ($output !~ /simpex-2/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+system("$eslconstruct --lmax 1 -l $tmppfx.list -o $tmppfx.stk --fmin $tmppfx.1 > /dev/null");
+if ($? != 0)                                                      { die "FAIL: esl-construct failed unexpectedly"; }
+$output = `cat $tmppfx.list`;
+if ($output !~ /simpex-1/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+if ($output =~ /simpex-2/)    { die "FAIL: consensus stucture calculated incorrectly"; }
+
+print "ok\n"; 
+unlink "$tmppfx.1";
+unlink "$tmppfx.2";
+unlink "$tmppfx.3";
+unlink "$tmppfx.stk";
+unlink "$tmppfx.list";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.man
new file mode 100755
index 0000000..0be2436
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-construct.man
@@ -0,0 +1,179 @@
+.TH "esl-construct" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-construct - describe or create a consensus secondary structure
+
+.SH SYNOPSIS
+.B esl-construct
+.I [options]
+.I msafile
+
+.SH DESCRIPTION
+
+.B esl-construct 
+reports information on existing consensus secondary structure annotation
+of an alignment or derives new consensus secondary structures based on 
+structure annotation for individual aligned sequences.
+
+.PP
+The alignment file must contain either individual sequence secondary
+structure annotation (Stockholm #=GR SS), consensus secondary
+structure annotation (Stockohlm #=GC SS_cons), or both. All structure
+annotation must be in WUSS notation (Vienna dot paranetheses notation will be
+correctly interpreted). At present, the alignment file must be in
+Stockholm format and contain RNA or DNA sequences.
+
+.PP
+By default, 
+.B esl-construct
+generates lists the sequences in the alignment that have structure
+annotation and the number of basepairs in those structures. If the
+alignment also contains consensus structure annotation, the default output
+will list how many of the individual basepairs overlap with the
+consensus basepairs and how many conflict with a consensus basepair.
+
+.PP
+For the purposes of this miniapp, a basepair 'conflict' exists between
+two basepairs in different structures, one between columns i and j and
+the other between columns k and l, if (i == k and j != l) or (j == l
+and i != k).
+
+.PP
+.B esl-construct
+can also be used to derive a new consensus structure based on
+structure annotation for individual sequences in the alignment by
+using any of the following options: 
+.B -x,
+.B -r,
+.B -c,
+.BI --indi " <s>",
+.BI --ffreq " <x>",
+.B --fmin.
+These are described below. All of these options require the 
+.BI -o " <f>"
+option be used as well to specify that a new alignment file 
+.I <f> 
+be created. Differences between the new alignment(s) and the input
+alignment(s) will be limited to the the consensus secondary structure (#=GC
+SS_cons) annotation and possibly reference (#=GC RF) annotation.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -a
+List all alignment positions that are involved in at least one
+conflicting basepair in at least one sequence to the screen, and then
+exit.
+
+.TP
+.B -v
+Be verbose; with no other options, list individual sequence basepair
+conflicts as well as summary statistics.
+
+.TP
+.B -x
+Compute a new consensus structure as the maximally sized set of
+basepairs (greatest number of basepairs) chosen from all individual
+structures that contains 0 conflicts. Output the alignment with the
+new SS_cons annotation. This option must be used in combination with
+the
+.B -o 
+option. 
+
+.TP
+.B -r
+Remove any consensus basepairs that conflict with >= 1 individual
+basepair and output the alignment with the new SS_cons annotation. 
+This option must be used in combination with the 
+.B -o 
+option. 
+
+.TP
+.B -c
+Define a new consensus secondary structure as the individual structure
+annotation that has the maximum number of consistent basepairs with
+the existing consensus secondary structure annotation.
+This option must be used in combination with the 
+.B -o 
+option. 
+
+.TP
+.B --rfc
+With 
+.B -c, 
+set the reference annotation (#=GC RF) as the sequence whose 
+individual structure becomes the consensus structure. 
+
+.TP
+.BI --indi " <s>"
+Define a new consensus secondary structure as the individual structure
+annotation from sequence named
+.I <s>.
+This option must be used in combination with
+the
+.B -o 
+option. 
+
+.TP
+.B --rfindi
+With 
+.BI --indi " <s>", 
+set the reference annotation (#=GC RF) as the sequence named
+.B <s>.
+
+.TP
+.BI --ffreq " <x>"
+Define a new consensus structure as the set of basepairs between
+columns i:j that are paired in more than 
+.I <x>
+fraction of the individual sequence structures.
+This option must be used in combination with
+the
+.B -o 
+option. 
+
+.TP
+.B --fmin
+Same as
+.BI --ffreq " <x>" 
+except find the maximal 
+.I <x>
+that gives a consistent consensus structure. A consistent structure
+has each base (alignment position) as a member of at most 1 basepair.  
+
+.TP
+.BI -o " <s>", 
+Output the alignment(s) with new consensus structure annotation to file
+.I <f>.
+
+.TP
+.B --pfam 
+With -o, specify that the alignment output format be Pfam format, a
+special type of non-interleaved Stockholm on which each sequence
+appears on a single line.
+
+.TP
+.BI -l " <f>"
+Create a new file 
+.I <f> 
+that lists the sequences that have at least one
+basepair that conflicts with a consensus basepair.
+
+.TP
+.BI --lmax " <n>"
+With -l, only list sequences that have more than 
+.I <n>
+basepairs that conflict with the consensus structure to the list file.
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-histplot.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-histplot.c
new file mode 100755
index 0000000..6d046f9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-histplot.c
@@ -0,0 +1,248 @@
+/* esl-histplot  - collate data into a histogram and output xmgrace datafile.
+ *                  
+ * SRE, Tue Feb 21 14:18:05 2006                  
+ * SVN $Id: esl-histplot.c 400 2009-10-12 10:38:07Z nawrockie $
+ */
+
+/* Wish list
+ *    - segfaults if you feed it nonnumeric data
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_histogram.h"
+#include "esl_exponential.h"
+#include "esl_gumbel.h"
+
+
+static char banner[] = "collate a data histogram, output xmgrace datafile";
+
+static char usage[] = "[-options] <datafile>";
+
+static ESL_OPTIONS options[] = {
+  /* name           type         default env rng  togs  reqs inc    help                                          docgrp */
+  {"-h",          eslARG_NONE,   FALSE,NULL,NULL, NULL,NULL,NULL,"show help and usage",                               1 },
+  {"-o",          eslARG_OUTFILE, NULL,NULL,NULL, NULL,NULL,NULL,"output file for plot (default is stdout)",          1 },
+
+  {"-b",          eslARG_NONE,   FALSE,NULL,NULL, NULL,NULL,NULL,"input file is binary, array of doubles",            2 },
+  {"-f",          eslARG_INT,      "1",NULL,"n>0",NULL,NULL,"-b","which field to read on text line (1..n)",           2 },
+
+  {"-w",          eslARG_REAL,   "1.0",NULL,NULL, NULL,NULL,NULL,"bin size for histogram",                            3 },
+  {"--min",       eslARG_REAL, "-100.",NULL,NULL, NULL,NULL,NULL,"initial lower bound of histogram",                  3 },
+  {"--max",       eslARG_REAL,  "100.",NULL,NULL, NULL,NULL,NULL,"initial upper bound of histogram",                  3 },
+  {"--surv",      eslARG_NONE,   FALSE,NULL,NULL, NULL,NULL,NULL,"output survival plot, not histogram",               3 },
+   
+  {"--gumbel",    eslARG_NONE,  FALSE, NULL,NULL, NULL,NULL,NULL,"fit data to a Gumbel distribution",                 4 }, 
+  {"--trunc",     eslARG_REAL,  NULL,  NULL,NULL, NULL,"--gumbel",NULL,"with --gumbel, specify data is truncated, min value is <x>",                 4 }, 
+  {"--exptail",   eslARG_NONE,  FALSE, NULL,NULL, NULL,NULL,NULL,"fit tail to an exponential distribution",           4 },
+  {"--gumloc",    eslARG_NONE,  FALSE, NULL,NULL, NULL,NULL,NULL,"fit data to a Gumbel distribution w/ known lambda", 4 }, 
+  {"--exptailloc",eslARG_NONE,  FALSE, NULL,NULL, NULL,NULL,NULL,"fit tail to an exponential tail w/ known lambda",   4 }, 
+  {"--showgum",   eslARG_NONE,  FALSE, NULL,NULL, NULL,"--mu",NULL,"plot a known Gumbel for comparison",              4 }, 
+  {"--showexp",   eslARG_NONE,  FALSE, NULL,NULL, NULL,"--mu",NULL,"plot a known exponential tail for comparison",    4 },
+  {"--lambda",    eslARG_REAL,"0.693", NULL,NULL, NULL,NULL,NULL,"set known lambda",                                  4 },    
+  {"--mu",        eslARG_REAL,  "0.0", NULL,NULL, NULL,NULL,NULL,"set known mu",                                      4 },    
+  {"-t",          eslARG_REAL, "0.01", NULL,NULL, NULL,NULL,NULL,"set tail mass to fit to",                           4 },    
+
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_HISTOGRAM  *h;		/* full histogram w/ collated values          */
+  ESL_GETOPTS    *go;		/* application configuration                  */
+  char           *datafile;	/* input data; "-" means stdin                */
+  FILE           *ifp;		/* input stream                               */
+  double          x;		/* value of field, after conversion to double */
+
+  int             which_field;	/* which field to use as data, 1..nf (default 1)*/
+  char           *outfile;	/* output xmgrace xy data file                  */
+  FILE           *ofp;		/* output data stream                           */
+  double          hmin;		/* initial histogram lower bound                */
+  double          hmax;		/* initial histogram upper bound                */
+  double          hbinsize;	/* histogram's bin size                         */
+
+  double *xv;
+  int     n;
+  double  params[2];
+  double  lambda;
+  double  mu;
+  double  tailp;
+
+  /*****************************************************************
+   * Parse the command line
+   *****************************************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+    
+  if (esl_opt_GetBoolean(go, "-h")) {
+    esl_banner(stdout, argv[0], banner);
+    esl_usage (stdout, argv[0], usage);
+    puts("\nGeneral options are:");
+    esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+    puts("\nOptions that control how to read the input file:");
+    esl_opt_DisplayHelp(stdout, go, 2, 2, 80); /* 2= group; 2 = indentation; 80=textwidth*/
+    puts("\nOptions that control how to display the output XY file:");
+    esl_opt_DisplayHelp(stdout, go, 3, 2, 80); /* 3= group; 2 = indentation; 80=textwidth*/
+    puts("\nOptional ML fitting or plotting of distributions for comparison:");
+    esl_opt_DisplayHelp(stdout, go, 4, 2, 80); /* 4= group; 2 = indentation; 80=textwidth*/
+    return eslOK;
+  }
+  which_field = esl_opt_GetInteger(go, "-f");
+  outfile     = esl_opt_GetString (go, "-o");
+  tailp       = esl_opt_GetReal   (go, "-t");
+  hbinsize    = esl_opt_GetReal   (go, "-w");
+  hmin        = esl_opt_GetReal   (go, "--min");
+  hmax        = esl_opt_GetReal   (go, "--max");
+  lambda      = esl_opt_GetReal   (go, "--lambda");
+  mu          = esl_opt_GetReal   (go, "--mu");
+
+  if (esl_opt_ArgNumber(go) != 1) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  datafile = esl_opt_GetArg(go, 1);
+
+  /*****************************************************************
+   * Open the input and output datafiles, and init the histogram.
+   *****************************************************************/
+
+  if (strcmp(datafile, "-") == 0) ifp = stdin;
+  else {
+    ifp = fopen(datafile, "rb");
+    if (ifp == NULL) esl_fatal("Failed to open input data file %s\n", datafile);
+  }
+
+  if (outfile == NULL) ofp = stdout;
+  else {
+    ofp = fopen(outfile, "w");
+    if (ofp == NULL) esl_fatal("Failed to open output xmgrace data file %s\n", outfile);
+  }
+
+  h = esl_histogram_CreateFull(hmin,hmax,hbinsize);
+  if (h == NULL) esl_fatal("Failed to create histogram");
+
+
+  /*****************************************************************
+   * Collect the data
+   *****************************************************************/
+
+  if (esl_opt_GetBoolean(go, "-b"))
+    {
+      while (fread(&x, sizeof(double), 1, ifp) == 1)
+	esl_histogram_Add(h, x);
+    } 
+  else 
+    {
+      char           *buf;		/* ptr to line buffer, for esl_fgets()        */
+      int             nbuf;		/* allocated line lengths, for esl_fgets()    */
+      char           *s;		/* ptr to line, for esl_strtok()              */
+      char           *tok;		/* ptr to a data field on the line            */
+      int             i;		/* counter over fields                        */
+
+      buf  = NULL;
+      nbuf = 0;
+      while (esl_fgets(&buf, &nbuf, ifp) == eslOK)
+	{
+	  s = buf;
+	  for (i = 0; i < which_field; i++)
+	    {
+	      esl_strtok(&s, " \t\n", &tok);
+	      if (tok == NULL) break;
+	    }
+	  if (tok != NULL) {
+	    x = atof(tok);
+	    esl_histogram_Add(h, x);
+	  }
+	}
+      free(buf);
+    }
+  
+  /*****************************************************************
+   * Optionally, fit the data
+   *****************************************************************/
+
+  if (esl_opt_GetBoolean(go, "--gumbel"))
+    {
+      esl_histogram_GetData(h, &xv, &n);
+      if(! esl_opt_IsDefault(go, "--trunc"))  
+	esl_gumbel_FitTruncated(xv, n, esl_opt_GetReal(go, "--trunc"), &(params[0]), &(params[1]));
+      else 
+	esl_gumbel_FitComplete(xv, n, &(params[0]), &(params[1]));
+      esl_histogram_SetExpect(h, &esl_gumbel_generic_cdf, &params);
+
+      printf("# Gumbel fit: mu = %f  lambda = %f\n", params[0], params[1]);
+    }
+  else if (esl_opt_GetBoolean(go, "--gumloc"))
+    {
+      params[1] = lambda;
+      esl_histogram_GetData(h, &xv, &n);
+      esl_gumbel_FitCompleteLoc(xv, n, params[1], &(params[0]));
+      esl_histogram_SetExpect(h, &esl_gumbel_generic_cdf, &params);
+
+      printf("# Gumbel fit with forced lambda = %f:  mu = %f\n", params[1], params[0]);
+    }
+  else if (esl_opt_GetBoolean(go, "--exptail"))
+    {
+      esl_histogram_GetTailByMass(h, tailp, &xv, &n, NULL);
+      esl_exp_FitComplete(xv, n, &(params[0]), &(params[1]));
+      esl_histogram_SetExpectedTail(h, params[0], tailp, &esl_exp_generic_cdf, &params);
+
+      printf("# Exponential fit to %.2f%% tail: lambda = %f\n", tailp*100.0, params[1]);
+    }
+  else if (esl_opt_GetBoolean(go, "--exptailloc"))
+    {
+      params[1] = lambda;
+      esl_histogram_GetTailByMass(h, tailp, &xv, &n, NULL);
+      params[0] = xv[0];	/* might be able to do better than minimum score, but this'll do */
+      esl_histogram_SetExpectedTail(h, params[0], tailp, &esl_exp_generic_cdf, &params);
+    }
+  else if (esl_opt_GetBoolean(go, "--showgum"))
+    {
+      params[0] = mu;
+      params[1] = lambda;
+      esl_histogram_SetExpect(h, &esl_gumbel_generic_cdf, &params);
+    }
+  else if (esl_opt_GetBoolean(go, "--showexp"))
+    {
+      params[0] = mu;
+      params[1] = lambda;
+      esl_histogram_SetExpectedTail(h, mu, tailp, &esl_exp_generic_cdf, &params);
+    }
+      
+
+  /*****************************************************************
+   * Output
+   *****************************************************************/
+  if   (esl_opt_GetBoolean(go, "--surv")) esl_histogram_PlotSurvival(ofp, h);
+  else                                    esl_histogram_Plot(ofp, h);
+
+
+  /*****************************************************************
+   * Cleanup
+   *****************************************************************/
+
+  if (outfile != NULL)            fclose(ofp);
+  if (strcmp(datafile, "-") != 0) fclose(ifp);
+  esl_histogram_Destroy(h);
+  esl_getopts_Destroy(go);
+  return 0;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-histplot.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-histplot.man
new file mode 100755
index 0000000..63018b3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-histplot.man
@@ -0,0 +1,80 @@
+.TH "esl-histplot" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-histplot - collate data histogram, output xmgrace datafile
+
+.SH SYNOPSIS
+.B esl-histplot
+.I [options]
+.I datafile
+
+
+.SH DESCRIPTION
+
+.B esl-histplot
+summarizes numerical data in the input file
+.I datafile.
+
+.pp
+One real-numbered value is taken from each line of the input file. 
+Each line is split into whitespace-delimited fields, and one field
+is converted to data. By default this is the first field; this can be 
+changed by the 
+.I -f 
+option.
+
+.pp
+Default output is a survival plot (Prob(value > x)) in xmgrace XY data
+format, to
+.B stdout.
+Output may be directed to a file with the
+.I -o
+option.
+
+.pp
+If 
+.I datafile
+is "-", input lines are read from 
+.B stdin
+instead of opening a file.
+
+
+
+
+.SH OPTIONS
+
+.TP
+.BI -f  " <n>"
+Read data from whitespace-delimited field 
+.I <n>
+on each line, instead of the first field.
+Fields are numbered starting from 1.
+
+.TP
+.B -h 
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI -o  " <f>"
+Send output to file
+.I <f>
+instead of stdout.
+
+
+
+
+
+.SH EXPERT OPTIONS
+
+None.
+
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.c
new file mode 100755
index 0000000..ca1bc55
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.c
@@ -0,0 +1,230 @@
+/* Mask sequences in a sequence flatfile.
+ * 
+ * SRE, Sat Oct 31 09:58:56 2009 [Janelia]
+ * SVN $Id: esl-mask.c 909 2014-04-11 19:16:58Z arndtw $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static char banner[] = "mask sequences in a sequence file";
+static char usage[]  = "[options] <sqfile> <maskfile>";
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+
+  puts("");
+  puts("The <seqfile> is a sequence file in any accepted format, such as FASTA.");
+  puts("It may be indexed (see esl-sfetch --index) for faster performance.");
+  puts("");
+  puts("The <maskfile> is a space-delimited file; each data line with 3 columns:");
+  puts("  field 1: <seqname> to fetch from <sqfile>");
+  puts("  field 2: <start> coordinate for mask operation, 1..n");
+  puts("  field 3: <end> coordinate for mask operation, 1..n");
+  puts("Lines starting with # are comments, and ignored.)");
+  puts("");
+  exit(0);
+}
+
+static ESL_OPTIONS options[] = {
+  /* name          type           default env   range togs  reqs incomp   help                                                 docgroup */
+  { "-h",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,  NULL, "help; show brief info on version and usage",               1 },
+  { "-o",          eslARG_OUTFILE,FALSE,  NULL, NULL, NULL, NULL,  NULL, "output masked sequences to file <f> instead of stdout",    1 },
+  { "-r",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,  NULL, "reverse: mask exclusive of <start>..<end>, not inclusive", 1 },
+  { "-R",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,  NULL, "random access: fetch seqs from ssi-indexed <sqfile>",      1 },
+  { "-l",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,  "-m", "convert masked residues to lower case",                    1 },
+  { "-m",          eslARG_CHAR,    NULL,  NULL, NULL, NULL, NULL,  "-l", "convert masked residues to character <c>",                 1 },
+  { "-x",          eslARG_INT,     NULL,  NULL, NULL, NULL, NULL,  NULL, "mask additional <n> residues beyond <start>,<end>",        1 },
+  { "--informat",  eslARG_STRING, FALSE,  NULL, NULL, NULL, NULL,  NULL, "specify that input file is in format <s>",                 1 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = NULL;	                /* application configuration       */
+  char           *seqfile  = NULL;	                /* sequence file name              */
+  char           *maskfile = NULL;	                /* mask coordinate file name       */
+  int             infmt    = eslSQFILE_UNKNOWN;         /* format code for seqfile         */
+  int             outfmt   = eslSQFILE_FASTA;           /* format code for output seqs     */
+  ESL_SQFILE     *sqfp     = NULL;                      /* open sequence file              */
+  ESL_FILEPARSER *maskefp  = NULL;	                /* open mask coord file            */
+  FILE           *ofp      = NULL;	                /* output stream for masked seqs   */
+  char           *source   = NULL;			/* name of current seq to mask     */
+  char           *p1, *p2;				/* pointers used in parsing        */
+  int64_t         start, end;				/* start, end coord for masking    */
+  int64_t         i, j, pos;				/* coords in a sequence            */
+  int64_t         overmask;				/* # of extra residues to mask     */
+  ESL_SQ         *sq       = esl_sq_Create();		/* current sequence                */
+  int             do_fetching;
+  int             do_lowercase;
+  int             maskchar;
+  int             status;		                /* easel return code               */
+
+
+  /****************************************************************************
+   * Parse command line
+   ****************************************************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) != 2)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+  do_fetching  = esl_opt_GetBoolean(go, "-R");
+  do_lowercase = esl_opt_GetBoolean(go, "-l");
+  overmask     = (esl_opt_IsOn(go, "-x") ? esl_opt_GetInteger(go, "-x") : 0);
+  maskchar     = (esl_opt_IsOn(go, "-m") ? esl_opt_GetChar(go, "-m")    : 'X');
+
+  seqfile  = esl_opt_GetArg(go, 1);
+  maskfile = esl_opt_GetArg(go, 2);
+
+  /* Open the <seqfile>: text mode, not digital */
+  if (esl_opt_GetString(go, "--informat") != NULL) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) cmdline_failure(argv[0], "%s is not a valid input sequence file format for --informat"); 
+  }
+  status = esl_sqfile_Open(seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) cmdline_failure(argv[0], "Sequence file %s not found.\n",     seqfile);
+  else if (status == eslEFORMAT)   cmdline_failure(argv[0], "Format of file %s unrecognized.\n", seqfile);
+  else if (status == eslEINVAL)    cmdline_failure(argv[0], "Can't autodetect stdin or .gz.\n");
+  else if (status != eslOK)        cmdline_failure(argv[0], "Open failed, code %d.\n", status);
+
+  if(do_fetching)
+  {
+    status = esl_sqfile_OpenSSI(sqfp, NULL);
+    if      (status == eslEFORMAT)   cmdline_failure(argv[0], "SSI index is in incorrect format\n");
+    else if (status == eslERANGE)    cmdline_failure(argv[0], "SSI index is in 64-bit format and we can't read it\n");
+    else if (status != eslOK)        cmdline_failure(argv[0], "Failed to open SSI index\n");
+  }
+
+  /* Open the <maskfile> */
+  if (esl_fileparser_Open(maskfile, NULL, &maskefp) != eslOK) 
+    cmdline_failure(argv[0], "Failed to open mask coordinate file %s\n", maskfile);
+  esl_fileparser_SetCommentChar(maskefp, '#');
+
+  /* Open the output file, if any */
+  if (esl_opt_GetString(go, "-o") != NULL)
+    {
+      if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL)
+	cmdline_failure(argv[0], "Failed to open output file %s\n", esl_opt_GetString(go, "-o"));
+    }
+  else ofp = stdout;
+
+  
+  /****************************************************************************
+   * Main loop over lines in <maskfile>
+   ****************************************************************************/
+
+  /* Read one data line at a time from the <maskfile>; 
+   * parse into data fields <seqname> <start> <end> 
+   */
+  while (esl_fileparser_NextLine(maskefp) == eslOK)
+    {
+      /* First field is sequence name */
+      if (esl_fileparser_GetTokenOnLine(maskefp, &source,  NULL) != eslOK)
+	esl_fatal("Failed to read source seq name on line %d of file %s\n", maskefp->linenumber, maskfile);
+
+      /* Get the sequence */
+      if (do_fetching)
+	{  /* If the <seqfile> is SSI indexed, try to reposition it and read <source> seq by random access */
+	  status = esl_sqio_Fetch(sqfp, source, sq);
+	  if      (status == eslENOTFOUND) esl_fatal("seq %s not found in SSI index for file %s\n", source, sqfp->filename);
+	  else if (status == eslEINVAL)    esl_fatal("No SSI index or can't reposition in file %s\n", sqfp->filename);
+	  else if (status == eslEFORMAT)   esl_fatal("Parse failed:\n%s\n", esl_sqfile_GetErrorBuf(sqfp));     
+	  else if (status != eslOK)        esl_fatal("Unexpected failure in fetching %s from file %s\n", source, sqfp->filename);
+	}
+      else 
+	{ /* else, assume we're reading sequentially; <sqfile> and <maskfile> have seqs in same order */
+	  status = esl_sqio_Read(sqfp, sq);
+	  if      (status == eslEOF)      esl_fatal("File %s ended prematurely; didn't find %s\n", sqfp->filename, source);
+	  else if (status == eslEFORMAT)  esl_fatal("Parse failed:\n%s\n", esl_sqfile_GetErrorBuf(sqfp));
+	  else if (status != eslOK)       esl_fatal("Unexpected error reading sequence file %s\n", sqfp->filename);
+	  
+	  if ((strcmp(sq->name, source) != 0) && (strcmp(sq->acc, source) != 0))
+	    esl_fatal("Sequences in <sqfile> and <maskfile> aren't in same order; try -R");
+	}
+      
+      /* If we're masking by lowercase, first make sure everything's uppercase */
+      if (do_lowercase)
+	for (pos = 0; pos < sq->n; pos++)
+	  if (isalpha(sq->seq[pos]))
+	    sq->seq[pos] = toupper(sq->seq[pos]);
+
+      /* Next two fields are <start>, <end> for the masking  */
+      /* possible future extension: wrap loop around this, enable multiple masked regions */
+      if (esl_fileparser_GetTokenOnLine(maskefp, &p1, NULL) != eslOK)
+	esl_fatal("Failed to read start coord on line %d of file %s\n", maskefp->linenumber, maskfile);
+      start = strtoll(p1, &p2, 0) - 1;
+
+      if (esl_fileparser_GetTokenOnLine(maskefp, &p2, NULL) != eslOK) 
+	esl_fatal("Failed to read end coord on line %d of file %s\n", maskefp->linenumber, maskfile);
+      end   = strtoll(p2, &p1, 0) - 1;
+
+      /* Do the masking */
+      if (esl_opt_GetBoolean(go, "-r")) /* Reverse masking */
+	{ /* leave start..end unmasked; mask prefix 0..start-1, end+1..L-1 */
+	  i = 0;
+	  j = ESL_MIN(sq->n-1, start - 1 + overmask);
+	  for (pos = i; pos <= j; pos++)
+	    if (isalpha(sq->seq[pos])) 
+	      sq->seq[pos] = (do_lowercase ? tolower(sq->seq[pos]) : maskchar);
+	  
+	  i = ESL_MAX(0, end + 1 - overmask);
+	  j = sq->n-1;
+	  for (pos = i; pos <= j; pos++)
+	    if (isalpha(sq->seq[pos])) 
+	      sq->seq[pos] = (do_lowercase ? tolower(sq->seq[pos]) : maskchar);
+	}
+      else
+	{  /* normal: mask start..end */
+	  i = ESL_MAX(0,       start - overmask);
+	  j = ESL_MIN(sq->n-1, end   + overmask);
+	  for (pos = i; pos <= j; pos++)
+	    if (isalpha(sq->seq[pos])) 
+	      sq->seq[pos] = (do_lowercase ? tolower(sq->seq[pos]) : maskchar);
+	}
+
+      esl_sqio_Write(ofp, sq, outfmt, FALSE);
+      esl_sq_Reuse(sq);
+    }
+
+  esl_sq_Destroy(sq);
+  esl_fileparser_Close(maskefp);
+  esl_sqfile_Close(sqfp);
+  esl_getopts_Destroy(go);
+  if (ofp != stdout) fclose(ofp);
+  return 0;
+}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.itest.pl
new file mode 100755
index 0000000..cd77901
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.itest.pl
@@ -0,0 +1,93 @@
+#! /usr/bin/perl
+
+# Integrated test of esl-mask miniapp.
+#
+# Usage:     ./esl-mask.itest.pl <esl-mask binary> <tmpfile prefix>
+# Example:   ./esl-mask.itest.pl ./esl-mask        foo
+#
+# SRE, Sun Nov  1 09:26:45 2009 [Casa de Gatos]
+# SVN $Id: esl-mask.itest.pl 434 2009-11-11 14:22:49Z eddys $
+
+$eslmask = shift;
+$tmppfx  = shift;
+
+if (! -x "$eslmask") { die "FAIL: didn't find esl-mask binary $eslmask"; }
+
+open(SQFILE, ">$tmppfx.1") || die "FAIL: couldn't open $tmppfx.1 for writing seqfile";
+print SQFILE << "EOF";
+>seq1
+aaAAAAAAAABBBBBBBBbbCCCCCCCCcc
+>seq2
+ddDDD
+EEEee
+FFFff
+EOF
+close SQFILE;
+
+open(MASKFILE, ">$tmppfx.2") || die "FAIL: couldn't open $tmppfx.2 for writing maskfile";
+print MASKFILE << "EOF";
+seq1  11  20
+seq2   6  10
+EOF
+close MASKFILE;
+
+$output = `$eslmask -h`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /Usage: esl-mask/)                { die "FAIL: help output not right"; }
+
+$output = `$eslmask $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /aaAAAAAAAAXXXXXXXXXXCCCCCCCCcc/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /ddDDDXXXXXFFFff/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -r $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /XXXXXXXXXXBBBBBBBBbbXXXXXXXXXX/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /XXXXXEEEeeXXXXX/)                { die "FAIL: seq masked incorrectly"; }
+
+system("$eslmask -o $tmppfx.out $tmppfx.1 $tmppfx.2 2>&1");
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+$output = `cat $tmppfx.out`;
+if ($output !~ /aaAAAAAAAAXXXXXXXXXXCCCCCCCCcc/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /ddDDDXXXXXFFFff/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -l $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /AAAAAAAAAAbbbbbbbbbbCCCCCCCCCC/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /DDDDDeeeeeFFFFF/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -lr $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /aaaaaaaaaaBBBBBBBBBBcccccccccc/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /dddddEEEEEfffff/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -m N $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /aaAAAAAAAANNNNNNNNNNCCCCCCCCcc/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /ddDDDNNNNNFFFff/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -x 2 $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /aaAAAAAAXXXXXXXXXXXXXXCCCCCCcc/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /ddDXXXXXXXXXFff/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -x 7 $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /aaAXXXXXXXXXXXXXXXXXXXXXXXXCcc/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /XXXXXXXXXXXXXXX/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -rx 2 $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /XXXXXXXXXXXXBBBBBBXXXXXXXXXXXX/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /XXXXXXXEXXXXXXX/)                { die "FAIL: seq masked incorrectly"; }
+
+$output = `$eslmask -rx 7 $tmppfx.1 $tmppfx.2 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-mask failed unexpectedly"; }
+if ($output !~ /XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX/) { die "FAIL: seq masked incorrectly"; }
+if ($output !~ /XXXXXXXXXXXXXXX/)                { die "FAIL: seq masked incorrectly"; }
+
+print "ok\n"; 
+unlink "$tmppfx.1";
+unlink "$tmppfx.2";
+unlink "$tmppfx.out";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.man
new file mode 100755
index 0000000..34be425
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-mask.man
@@ -0,0 +1,173 @@
+.TH "esl-mask" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-mask - mask sequence residues with X's (or other characters)
+
+.SH SYNOPSIS
+.B esl-mask
+.I [options]
+.I seqfile
+.I maskfile
+
+
+.SH DESCRIPTION
+
+.B esl-mask
+reads lines from 
+.I maskfile 
+that give start/end coordinates for
+regions in each sequence in 
+.I seqfile,
+masks these residues (changes
+them to X's), and outputs the masked sequence.
+
+The
+.I maskfile
+is a space-delimited file. Blank lines and lines that start with '#'
+(comments) are ignored. Each data line contains at least three
+fields:
+.I seqname,
+.I start,
+and
+.I end. 
+The 
+.I seqname 
+is the name of a sequence in the 
+.I seqfile,
+and 
+.I start
+and 
+.I end 
+are coordinates defining a region in that sequence.
+The coordinates are indexed <1..L> with respect to a
+sequence of length <L>.
+
+By default, the sequence names must appear in exactly the same order
+and number as the sequences in the
+.I seqfile. 
+This is easy to enforce, because the format of
+.I maskfile 
+is also legal as a list of names for 
+.B esl-sfetch, 
+so you can always fetch a temporary sequence file with 
+.B esl-sfetch 
+and pipe that to 
+.B esl-mask.
+(Alternatively, see the 
+.B -R
+option for fetching from an SSI-indexed
+.I seqfile.)
+
+The default is to mask the region indicated by 
+.I <start>..<end>.
+Alternatively, everything but this region can be masked;
+see the
+.B -r
+reverse masking option.
+
+The default is to mask residues by converting them to X's.
+Any other masking character can be chosen (see
+.B -m
+option),
+or alternatively, masked residues can be lowercased (see
+.B -l
+option).
+
+The
+.I seqfile
+can be in any sequence file format that Easel reads, such as FASTA
+format. The format will be autodetected. Alternatively, for increased reliability,
+you can specify the input format; see the
+.B --informat
+option.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -l
+Lowercase; mask by converting masked characters to lower case and
+unmasked characters to upper case.
+
+.TP
+.BI -m " <c>"
+Mask by converting masked residues to 
+.I <c>
+instead of the default X.
+
+.TP
+.BI -o  " <f>"
+Send output to file
+.I <f>
+instead of stdout.
+
+.TP
+.B -r
+Reverse mask; mask everything outside the region
+.I start..end, 
+as opposed to the default of masking that region.
+
+.TP
+.B -R
+Random access; 
+fetch sequences from 
+.I <seqfile>
+rather than requiring that sequence names in
+.I <maskfile>
+and
+.I <seqfile>
+come in exactly the same order and number.  The
+.I <seqfile> must be SSI indexed (see
+.B esl-sfetch --index.)
+
+.TP
+.BI -x " <n>"
+Extend all masked regions by up to <n> residues on each side. 
+For normal masking, this means masking
+.I <start>-<n>..<end>+<n>. 
+For reverse masking, this means masking
+.I 1..<start>-1+<n>
+and
+.I <end>+1-<n>..L
+in a srquence of length L.
+
+
+.TP
+.BI --informat " <s>"
+Specify that the sequence file is in format 
+.I <s>,
+rather than allowing the program to autodetect
+the file format. 
+
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-reformat.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-reformat.c
new file mode 100755
index 0000000..28a5909
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-reformat.c
@@ -0,0 +1,957 @@
+/* Convert between sequence file formats
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_mem.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_wuss.h"
+
+static char banner[] = "convert between sequence file formats";
+
+static char usage[] = "[-options] <format> <seqfile>\n\
+  Output format choices: Unaligned      Aligned    \n\
+                         -----------    -------    \n\
+                         fasta          a2m        \n\
+                         hmmpgmd        afa        \n\
+                                        clustal    \n\
+                                        clustallike\n\
+                                        pfam       \n\
+                                        phylip     \n\
+                                        phylips    \n\
+                                        psiblast   \n\
+                                        selex      \n\
+                                        stockholm  \n\
+\n";
+
+#define INCOMPATWITHSMALLOPT "--mingap,--nogap,--ignore,--acceptx"
+
+static ESL_OPTIONS options[] = {
+   /* name          type        default env   range togs  reqs        incompat                     help                                      docgroup */
+  { "-d",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "-r",                  "convert to DNA alphabet (U->T)",                     0 },
+  { "-h",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       NULL,                  "help; print brief info on version and usage",        0 },
+  { "-l",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "-u",                  "convert to lower case",                              0 },
+  { "-n",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "-x",                  "remove DNA IUPAC codes; convert ambig chars to N",   0 },
+  { "-o",         eslARG_STRING,  NULL, NULL, NULL, NULL, NULL,       NULL,                  "send output to file <f>, not stdout",                0 },
+  { "-r",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "-d",                  "convert to RNA alphabet (T->U)",                     0 }, 
+  { "-u",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "-l",                  "convert to upper case",                              0 },
+  { "-x",         eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "-n",                  "convert non-IUPAC chars (e.g. X) in DNA to N",       0 },
+  { "--gapsym",   eslARG_STRING,  NULL, NULL, NULL, NULL, NULL,       "--mingap,--nogap",    "convert all gaps to character <c>",                  0 },
+  { "--informat", eslARG_STRING,  NULL, NULL, NULL, NULL, NULL,       NULL,                  "input sequence file is in format <s>",               0 },
+  { "--mingap",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "--nogap",             "remove columns containing all gaps (seqfile=MSA)",   0 },
+  { "--keeprf",   eslARG_NONE,   FALSE, NULL, NULL, NULL, "--mingap", NULL,                  "with --mingap, keep all nongap #=GC RF columns",     0 },
+  { "--nogap",    eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "--mingap,--gapsym",   "remove columns containing any gaps (seqfile=MSA)",   0 },
+  { "--wussify",  eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "--dewuss,--fullwuss", "convert old RNA structure markup lines to WUSS",     0 },
+  { "--dewuss",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "--wussify,--fullwuss","convert WUSS RNA structure markup to old format",    0 },
+  { "--fullwuss", eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       "--wussify,--dewuss",  "convert simple WUSS notation to full (output) WUSS", 0 },
+  { "--ignore",   eslARG_STRING, FALSE, NULL, NULL, NULL, NULL,       NULL,                  "ignore input seq characters listed in string <s>",   0 },
+  { "--acceptx",  eslARG_STRING, FALSE, NULL, NULL, NULL, NULL,       NULL,                  "accept input seq chars in string <s> as X",          0 },
+  { "--rename",   eslARG_STRING, FALSE, NULL, NULL, NULL, NULL,       NULL,                  "rename and number each sequence <s>.<n>",            0 },
+  { "--replace",  eslARG_STRING, FALSE, NULL, NULL, NULL, NULL,       NULL,                  "<s> = <s1>:<s2> replace characters in <s1> with those in <s2>", 0},
+  { "--small",    eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL,       INCOMPATWITHSMALLOPT,  "use minimal RAM, input must be pfam, output must be afa or pfam",0 },
+  { "--id_map",   eslARG_STRING, FALSE, NULL, NULL, NULL, NULL,       NULL,                  "if format is hmmpgmd, put the id map into file <s>", 0 },
+  { 0,0,0,0,0,0,0,0 },
+};
+
+static void symconvert(char *s, char *oldsyms, char *newsyms);
+static void regurgitate_pfam_as_afa(ESLX_MSAFILE *afp, FILE *ofp, char *alifile, char *gapsym, int force_lower, int force_upper, 
+				    int force_rna, int force_dna, int iupac_to_n, int x_is_bad, char *rename, char *rfrom, 
+				    char *rto, int *ret_reached_eof);
+static int  regurgitate_pfam_as_pfam(ESLX_MSAFILE *afp, FILE *ofp, char *gapsym, int force_lower, int force_upper, int force_rna, 
+				     int force_dna, int iupac_to_n, int x_is_bad, int wussify, int dewuss, int fullwuss, 
+				     char *rfrom, char *rto);
+static int  parse_replace_string(const char *rstring, char **ret_from, char **ret_to);
+  
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go;	                                /* application configuration               */
+  char        *infile;                                  /* name of input sequence file             */
+  int          infmt      = eslSQFILE_UNKNOWN;		/* input format as a code; eslSQFILE_FASTA */
+  int          outfmt     = eslSQFILE_UNKNOWN;		/* output format as a code                 */
+  int          status;		                        /* return code from an Easel call          */
+  FILE        *ofp;		                        /* output stream                           */
+
+
+  char  *outfile;		/* output file, or NULL                      */
+  int    force_rna;		/* TRUE to force RNA alphabet                */
+  int    force_dna;		/* TRUE to force DNA alphabet                */
+  int    force_lower;		/* TRUE to force lower case                  */
+  int    force_upper;		/* TRUE to force upper case                  */
+  int    iupac_to_n;            /* TRUE to convert ambiguities all to N's    */
+  int    x_is_bad;		/* TRUE to convert X to N                    */
+  int    do_mingap;		/* TRUE to remove cols containing all gaps   */
+  int    do_nogap;		/* TRUE to remove cols containing any gaps   */
+  char  *gapsym;		/* NULL if unset; else, char for gaps        */
+  int    wussify;		/* TRUE to convert old KH SS markup to WUSS  */
+  int    dewuss;		/* TRUE to convert WUSS back to old KH       */
+  int    fullwuss;		/* TRUE to convert simple WUSS to full WUSS  */
+  char  *rename; 		/* if non-NULL rename seqs to <s>.<n>        */
+  int    do_small;		/* TRUE to operate in small memory mode      */
+  int    do_fixbps;		/* TRUE to assume SS/SS_cons are for WUSS RNA*/
+  char  *rstring;               /* <s> from --replace <s>                    */
+  char  *rfrom, *rto;           /* <s1> and <s2> from --replace <s>=<s1>:<s2>*/
+  int    reached_eof;           /* reached EOF? used only in small mem mode  */
+  int    idx;                   /* counter over sequences                    */
+  int    nali;                  /* number of alignments read                 */
+  char   errbuf[eslERRBUFSIZE]; /* for error messages                        */
+
+
+
+  /*****************************************************************
+   * Parse the command line
+   *****************************************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h"))
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("  where options are:\n");
+      esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0= group; 2 = indentation; 80=textwidth*/
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go) != 2) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  outfmt = esl_sqio_EncodeFormat(esl_opt_GetArg(go, 1));
+  if (outfmt == eslSQFILE_UNKNOWN) 
+    esl_fatal("%s is not a recognized output seqfile format\n", esl_opt_GetArg(go, 1));
+
+  infile = esl_opt_GetArg(go, 2);
+
+  if (esl_opt_IsOn(go, "--informat") && 
+      (infmt = esl_sqio_EncodeFormat(esl_opt_GetString( go, "--informat"))) == eslSQFILE_UNKNOWN)
+    esl_fatal("%s is not a recognized input seqfile format\n", esl_opt_GetString(go, "--informat"));
+
+  force_dna   = esl_opt_GetBoolean(go, "-d");
+  force_lower = esl_opt_GetBoolean(go, "-l");
+  iupac_to_n  = esl_opt_GetBoolean(go, "-n");
+  outfile     = esl_opt_GetString (go, "-o");
+  force_rna   = esl_opt_GetBoolean(go, "-r");
+  force_upper = esl_opt_GetBoolean(go, "-u");
+  x_is_bad    = esl_opt_GetBoolean(go, "-x");
+  gapsym      = esl_opt_GetString( go, "--gapsym");
+  do_mingap   = esl_opt_GetBoolean(go, "--mingap");
+  do_nogap    = esl_opt_GetBoolean(go, "--nogap");
+  wussify     = esl_opt_GetBoolean(go, "--wussify");
+  dewuss      = esl_opt_GetBoolean(go, "--dewuss");
+  fullwuss    = esl_opt_GetBoolean(go, "--fullwuss");
+  rename      = esl_opt_GetString (go, "--rename");
+  do_small    = esl_opt_GetBoolean(go, "--small");
+  rstring     = esl_opt_GetString( go, "--replace");
+  do_fixbps   = (force_rna || force_dna || wussify || dewuss || fullwuss) ? TRUE : FALSE;
+
+  /* if --small, make sure infmt == pfam and (outfmt == afa || outfmt == pfam) */
+  if(do_small && (infmt != eslMSAFILE_PFAM || (outfmt != eslMSAFILE_AFA && outfmt != eslMSAFILE_PFAM)))  
+    esl_fatal("--small requires '--informat pfam' and output format of either 'afa' or 'pfam'");
+
+  if (gapsym != NULL && strlen(gapsym) != 1)
+    esl_fatal("Argument to --gapsym must be a single character.");
+  
+  if (outfile == NULL) ofp = stdout;
+  else if ((ofp = fopen(outfile, "w")) == NULL)
+    esl_fatal("Failed to open output file %s\n", outfile);
+
+  if (rstring == NULL) { 
+    rfrom = NULL;
+    rto   = NULL; 
+  }
+  else { 
+    if((status = parse_replace_string(rstring, &rfrom, &rto)) != eslOK) esl_fatal("Out of memory");
+  }
+
+  /***********************************************
+   * Reformat the file, printing to stdout.
+   ***********************************************/
+
+  /* If the output format is an alignment, then the input format
+   * has to be an alignment.
+   */
+  if (esl_sqio_IsAlignment(outfmt))
+    {
+      ESLX_MSAFILE *afp;
+      ESL_MSA      *msa;
+
+      status = eslx_msafile_Open(NULL, infile, NULL, infmt, NULL, &afp);
+      if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+      if ( esl_opt_IsOn(go, "--ignore"))  esl_fatal("The --ignore option is unimplemented for alignment reformatting.");
+      if ( esl_opt_IsOn(go, "--acceptx")) esl_fatal("The --acceptx option is unimplemented for alignment reformatting.");
+
+      nali = 0;
+
+      if (do_small) { 
+	if(infmt == eslMSAFILE_PFAM && outfmt == eslMSAFILE_AFA) {
+	  if (afp->bf->mode_is == eslBUFFER_STREAM) esl_fatal("--small with afa out format and stdin input is unimplemented.");
+	  regurgitate_pfam_as_afa(afp, ofp, infile, gapsym, force_lower, force_upper, force_rna, force_dna, iupac_to_n, x_is_bad, rename, rfrom, rto, &reached_eof);
+	  if(! reached_eof) esl_fatal("Input file contains >1 alignments, but afa formatted output file can only contain 1");
+	}
+	else if (infmt == eslMSAFILE_PFAM && outfmt == eslMSAFILE_PFAM) {
+	  if(rename != NULL) esl_fatal("--rename is unimplemented for combination of --small and output format pfam"); 
+	  while((status = regurgitate_pfam_as_pfam(afp, ofp, gapsym, force_lower, force_upper, force_rna, force_dna, iupac_to_n, x_is_bad, wussify, dewuss, fullwuss, rfrom, rto)) != eslEOF) { 
+	    if      (status == eslEFORMAT) esl_fatal("--small alignment file parse error:\n%s\n", afp->errmsg);
+	    else if (status == eslEINVAL)  esl_fatal("--small alignment file parse error:\n%s\n", afp->errmsg);
+	    else if (status != eslOK)      esl_fatal("--small alignment file read failed with error code %d\n", status);
+	  }
+	  eslx_msafile_Close(afp);
+	}
+	else { /* do_small enabled, but neither (infmt==pfam && outfmt=afa) nor (infmt==pfam && outfmt==pfam) */
+	  esl_fatal("--small requires '--informat pfam' and output format of either 'afa' or 'pfam'");
+	}
+      }
+      else { /* normal mode, --small not enabled */
+	while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+	  {
+	    if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+	    nali++;
+
+	    if (nali > 1 && ! eslx_msafile_IsMultiRecord(outfmt))
+	      esl_fatal("Input file contains >1 alignments, but %s formatted output file can only contain 1", eslx_msafile_DecodeFormat(outfmt));
+
+	    if (do_mingap)    if((status = esl_msa_MinimGapsText(msa, errbuf, "-_.~", esl_opt_GetBoolean(go, "--keeprf"), do_fixbps)) != eslOK) esl_fatal(errbuf);
+	    if (do_nogap)     if((status = esl_msa_NoGapsText   (msa, errbuf, "-_.~", do_fixbps))                                     != eslOK) esl_fatal(errbuf);
+	    if (rfrom)        esl_msa_SymConvert(msa, rfrom, rto);
+	    if (gapsym)       esl_msa_SymConvert(msa, "-_.", gapsym);
+	    if (force_lower)  esl_msa_SymConvert(msa,
+						 "ABCDEFGHIJKLMNOPQRSTUVWXYZ",
+						 "abcdefghijklmnopqrstuvwxyz");
+	    if (force_upper)  esl_msa_SymConvert(msa,
+						 "abcdefghijklmnopqrstuvwxyz",
+						 "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
+	    if (force_rna)    esl_msa_SymConvert(msa, "Tt", "Uu");
+	    if (force_dna)    esl_msa_SymConvert(msa, "Uu", "Tt");
+	    if (iupac_to_n)   esl_msa_SymConvert(msa, 
+						 "RYMKSWHBVDrymkswhbvd",
+						 "NNNNNNNNNNnnnnnnnnnn");
+	    if (x_is_bad)     esl_msa_SymConvert(msa, "Xx", "Nn");
+	  
+	    if (rename)
+	      {
+		for (idx = 0; idx < msa->nseq; idx++)
+		  esl_msa_FormatSeqName(msa, idx, "%s.%d", rename, idx+1);
+	      }
+
+	    if (wussify)
+	      {
+		if (msa->ss_cons) esl_kh2wuss(msa->ss_cons, msa->ss_cons);
+		if (msa->ss)
+		  for (idx = 0; idx < msa->nseq; idx++)
+		    if (msa->ss[idx]) esl_kh2wuss(msa->ss[idx], msa->ss[idx]);
+	      }
+
+	    if (dewuss)
+	      {
+		if (msa->ss_cons) esl_wuss2kh(msa->ss_cons, msa->ss_cons);
+		if (msa->ss)
+		  for (idx = 0; idx < msa->nseq; idx++)
+		    if (msa->ss[idx]) esl_wuss2kh(msa->ss[idx], msa->ss[idx]);
+	      }
+
+	    if (fullwuss)
+	      {
+		if (msa->ss_cons != NULL)
+		  {
+		    status = esl_wuss_full(msa->ss_cons, msa->ss_cons);
+		    if (status == eslESYNTAX)  esl_fatal("Bad consensus SS: not in WUSS format\n");
+		    else if (status != eslOK)  esl_fatal("Conversion of SS_cons failed, code %d\n", status);
+		  }
+		if (msa->ss != NULL)
+		  for (idx = 0; idx < msa->nseq; idx++)
+		    if (msa->ss[idx] != NULL)
+		      {
+			status = esl_wuss_full(msa->ss[idx], msa->ss[idx]);
+			if (status == eslESYNTAX)  esl_fatal("Bad SS for %s: not in WUSS format\n", msa->sqname[idx]);
+			else if (status != eslOK)  esl_fatal("Conversion of SS for %s failed, code %d\n",  msa->sqname[idx], status);
+		      }
+	      }
+
+	    eslx_msafile_Write(ofp, msa, outfmt);
+	    esl_msa_Destroy(msa);
+	  }
+      }
+      eslx_msafile_Close(afp);
+    } /* end of alignment->alignment conversion */
+  else
+    { /* else: conversion to unaligned file formats */
+      ESL_SQFILE  *sqfp;	/* open input sequence file                */
+      ESL_SQ      *sq;		/* an input sequence                       */
+      char        *mapfile;  /* file name into which an hmmpgmd map file should be written */
+      FILE        *mapfp;    /* output stream for the map file                       */
+
+      status = esl_sqfile_Open(infile, infmt, NULL, &sqfp);
+      if (status == eslENOTFOUND)
+        esl_fatal("Couldn't open seqfile %s\n", infile);
+      else if (status == eslEFORMAT)
+        esl_fatal("Couldn't determine format of seqfile %s\n", infile);
+      else if (status == eslEINVAL)
+        esl_fatal("Can't autodetect format of stdin or .gz; use --informat\n");
+      else if (status != eslOK)
+        esl_fatal("Open of seqfile %s failed, code %d\n", infile, status);
+      
+      if ( esl_opt_IsOn(go, "--ignore"))  esl_sqio_Ignore  (sqfp, esl_opt_GetString(go, "--ignore"));
+      if ( esl_opt_IsOn(go, "--acceptx")) esl_sqio_AcceptAs(sqfp, esl_opt_GetString(go, "--acceptx"), 'X');
+
+      sq  = esl_sq_Create();
+
+      if ( outfmt == eslSQFILE_HMMPGMD ) {
+        int     res_cnt = 0;
+        char    timestamp[32];
+        time_t  date;
+
+        //will need to make two passes through the file, one to get sequence count, one to convert sequences
+        if (! esl_sqfile_IsRewindable(sqfp))
+          esl_fatal("Target sequence file %s isn't rewindable; can't produce a file in hmmpgmd format", infile);
+
+
+        //pick map file name, and open the file
+        if (esl_opt_IsUsed(go, "--id_map")) {
+          mapfile =  esl_opt_GetString( go, "--id_map");
+        } else {
+          esl_strdup(infile, -1, &mapfile);  // there will be an infile, because stdin was restricted above
+          esl_strcat(&mapfile, -1, ".map", 4);
+        }
+        if ((mapfp = fopen(mapfile, "w")) == NULL)
+            esl_fatal("Failed to open map output file %s\n", mapfile);
+
+        //get counts, and write out the map file
+        idx = 0;
+        while ((status = esl_sqio_Read(sqfp, sq)) == eslOK) {
+          res_cnt += sq->n;
+          esl_sq_Reuse(sq);
+          idx++;
+        }
+
+        /* status should be eslEOF on normal end; if it isn't, deal w/ error */
+        if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+                   sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+        else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+                   status, sqfp->filename);
+
+        /* Print the first line of the hmmpgmd format, which contains database information.
+         * #<res_count> <seq_count> <db_count> <db_sequences_1> <db_sequences_before_removing_duplicates_1> <db_sequences_2> <db_sequences_before_removing_duplicates_2>  ... <date_stamp>
+         * It shoves all sequences into a single database, #1.
+         */
+        date = time(NULL);
+        ctime_r(&date, timestamp);
+        fprintf(mapfp, "%d\n", idx);
+        fprintf(ofp, "#%d %d %d %d %d %s", res_cnt, idx, 1, idx, idx, timestamp);
+
+        esl_sqfile_Position(sqfp, 0);
+      }
+
+
+      idx = 0;
+      while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+      {
+        if (rfrom!=NULL) symconvert(sq->seq, rfrom, rto);
+        if (force_lower) symconvert(sq->seq,
+                  "ABCDEFGHIJKLMNOPQRSTUVWXYZ",
+                  "abcdefghijklmnopqrstuvwxyz");
+        if (force_upper) symconvert(sq->seq,
+                  "abcdefghijklmnopqrstuvwxyz",
+                  "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
+        if (force_rna)   symconvert(sq->seq, "Tt", "Uu");
+        if (force_dna)   symconvert(sq->seq, "Uu", "Tt");
+        if (iupac_to_n)  symconvert(sq->seq,
+                  "RYMKSWHBVDrymkswhbvd",
+                  "NNNNNNNNNNnnnnnnnnnn");
+        if (x_is_bad)    symconvert(sq->seq, "Xx", "Nn");
+
+        if (wussify && sq->ss != NULL) esl_kh2wuss(sq->ss, sq->ss);
+        if (dewuss  && sq->ss != NULL) esl_wuss2kh(sq->ss, sq->ss);
+
+        if (fullwuss && sq->ss != NULL)
+        {
+            status = esl_wuss_full(sq->ss, sq->ss);
+            if (status == eslESYNTAX)
+              esl_fatal("Bad SS for %s: not in WUSS format\n", sq->name);
+            else if (status != eslOK)
+              esl_fatal("Conversion of SS for %s failed, code %d\n",
+            sq->name, status);
+        }
+
+        if ( outfmt == eslSQFILE_HMMPGMD ) {
+          fprintf(mapfp, "%d %s %s\n", idx+1, sq->name?sq->name:"", sq->desc?sq->desc:"");
+          esl_sq_FormatName(sq, "%d 1", idx+1);
+          esl_sq_FormatDesc(sq, "");
+        } else {
+          if (rename) esl_sq_FormatName(sq, "%s.%d", rename, idx+1);
+        }
+        esl_sqio_Write(ofp, sq, outfmt, FALSE);
+        esl_sq_Reuse(sq);
+        idx++;
+      }
+      /* status should be eslEOF on normal end; if it isn't, deal w/ error */
+      if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					       sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+      else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					       status, sqfp->filename);
+      
+      if ( outfmt == eslSQFILE_HMMPGMD )
+        fclose(mapfp);
+
+      esl_sq_Destroy(sq);
+      esl_sqfile_Close(sqfp);
+    } /* end of unaligned seq conversion */
+
+  if (ofp != stdout) fclose(ofp);
+  esl_getopts_Destroy(go);
+
+  if(rfrom != NULL)   free(rfrom);
+  if(rto != NULL)     free(rto);
+
+  exit(0);
+}
+
+/* symconvert()
+ * 
+ * single seq version of esl_msa_SymConvert(); see
+ * documentation there.
+ * 
+ * no reason yet to include in sqio API, but that may change.
+ * 
+ * inefficient to use this for upper/lower case conversion,
+ * prob by an order of magnitude (because of the strchr() call,
+ * which could be replaced by a range test), but I bet it's
+ * unnoticeable.
+ */
+static void
+symconvert(char *s, char *oldsyms, char *newsyms)
+{
+  int   pos;
+  char *sptr;
+  int   special;
+
+  special = (strlen(newsyms) == 1 ? TRUE : FALSE);
+
+  for (pos = 0; s[pos] != '\0'; pos++)
+    if ((sptr = strchr(oldsyms, s[pos])) != NULL)
+      s[pos] = (special ? *newsyms : newsyms[sptr-oldsyms]);
+}
+
+
+
+/* regurgitate_pfam_as_afa()
+ * 
+ * Given an open Pfam formatted msafile, read the next alignment and 
+ * regurgitate it in aligned FASTA (AFA) format without storing
+ * it in a esl_msa data structure.
+ * 
+ * We need to do two passes through the file because in Pfam
+ * sequence accessions (#=GS <seqname> AC) and sequence descriptions
+ * (#=GS <seqname> DE) appear altogether before any aligned sequence
+ * data, while in AFA they appear on the same line as the sequence
+ * name (accession, then description).
+ *
+ * Example: 
+ * # STOCKHOLM 1.0
+ * #=GS tRNA1 AC RF00005-1
+ * #=GS tRNA2 AC RF00005-2
+ * #=GS tRNA1 DE first tRNA
+ * #=GS tRNA2 DE second tRNA
+ * 
+ * tRNA1 GCGGAUUUAGCUCAGUUGGG.AGAGCGCCAGACUGAAGAUCUGGAGGUCCUGUGUUCGAUCCACAGAAUUCGCA
+ * tRNA2 UCCGAUAUAGUGUAAC.GGCUAUCACAUCACGCUUUCACCGUGGAGA.CCGGGGUUCGACUCCCCGUAUCGGAG
+ * 
+ * converts to AFA:
+ * >tRNA1 RF00005-1 first tRNA
+ * GCGGAUUUAGCUCAGUUGGG.AGAGCGCCAGACUGAAGAUCUGGAGGUCCUGUGUUCGAU
+ * CCACAGAAUUCGCA
+ * >tRNA2 RF00005-2 second tRNA
+ * UCCGAUAUAGUGUAAC.GGCUAUCACAUCACGCUUUCACCGUGGAGA.CCGGGGUUCGAC
+ * UCCCCGUAUCGGAG
+ * 
+ * In the first pass, output the sequence names and accessions we find
+ * as '#=GS <seqname> AC' lines in the Pfam alignment to an accession
+ * tmpfile, and output sequence names and descriptions we find as 
+ * as '#=GS <seqname> DE' lines in the Pfam alignment to a description
+ * tmpfile.
+ *
+ * In the second pass, rewind all (up to 3) files: <ac_tmpfile>,
+ * <de_tmpfile> and the Pfam alignment file and start reading them
+ * again.  As we're reading them, output the accessions, descriptions
+ * and aligned sequence data in the proper order to an aligned FASTA
+ * file.
+ * 
+ * Set <ret_reached_eof> as TRUE if the alignment read and reformatted
+ * appears to be the only one remaining in afp.  Set <ret_reached_eof>
+ * as FALSE if afp appears to include at least one more alignment.
+ * 
+ * Returns void. Dies upon any input error.
+ */
+static void
+regurgitate_pfam_as_afa(ESLX_MSAFILE *afp, FILE *ofp, char *alifile, char *gapsym, int force_lower, int force_upper, int force_rna, int force_dna, int iupac_to_n, int x_is_bad, char *rename, char *rfrom, char *rto, int *ret_reached_eof)
+{
+  char      *p = NULL;
+  esl_pos_t  n = 0;
+  esl_pos_t  gslen, seqnamelen, taglen;
+  char      *seqname = NULL;
+  char      *first_seqname = NULL;
+  char      *tag = NULL;
+  char      *gs = NULL;
+  int        nseq_read = 0;
+  int        reached_eof;
+  /* variables related to reading accessions */
+  char       ac_tmpfile[16] = "esltmpXXXXXX";
+  FILE      *ac_fp = NULL; /* file ptr for accession tmpfile */
+  char      *ac_buf = NULL;	/* buffer for line input w/ sre_fgets()      */
+  int        ac_buflen = 0;	/* current allocated length for buf          */
+  char      *ac_s = NULL;	        
+  char      *ac_seqname = NULL;
+  char      *ac = NULL;
+  int        have_ac = FALSE;
+  /* variables related to reading descriptions */
+  char       de_tmpfile[16] = "esltmpXXXXXX";
+  FILE      *de_fp = NULL; /* file ptr for description tmpfile */
+  char      *de_buf = NULL;	/* buffer for line input w/ sre_fgets()      */
+  int        de_buflen = 0;	/* current allocated length for buf          */
+  char      *de_s = NULL;	        
+  char      *de_seqname = NULL;
+  char      *de = NULL;
+  int        have_de = FALSE;
+  /* variables related to printing out sequences */
+  char      *aseq = NULL;
+  esl_pos_t  aseqlen = 0;
+  int64_t    apos;
+  char       aseqbuf[61];
+  int        cpl = 60;	     /* number of residues per afa seq line */
+  int        acpl;       /* actual number of character per line */
+  int        status;
+  
+  afp->errmsg[0] = '\0';
+   
+  /**************************************************************************************************
+   * First pass, go through each line of the Pfam file and output all GS DE and AC annotation to tmpfiles
+   **************************************************************************************************/
+
+  /* Check the magic Stockholm header line, allowing blank lines */
+  do { 
+    status = eslx_msafile_GetLine(afp, &p, &n);
+    if      (status == eslEOF) return; 
+    else if (status != eslOK)  esl_fatal("small mem parse error. problem reading line %d of msafile", (int) afp->linenumber);
+  } while (esl_memspn(afp->line, afp->n, " \t") == afp->n  ||                 /* skip blank lines             */
+	       (esl_memstrpfx(afp->line, afp->n, "#")                         /* and skip comment lines       */
+	   && ! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM")));            /* but stop on Stockholm header */
+
+  if (! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM 1.")) esl_fatal("small mem parse failed (line %d): missing \"# STOCKHOLM\" header", (int) afp->linenumber);
+
+  while ((status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK) 
+    {
+      while (n && ( *p == ' ' || *p == '\t')) { p++; n--; } /* skip leading whitespace */
+
+      if (esl_memstrpfx(p, n, "#=GS"))
+	{ /* only lines we need to check are AC and DE lines, we don't even check other lines for validity */
+	  if (esl_memtok(&p, &n, " \t", &gs,      &gslen)      != eslOK) esl_fatal("small mem parse failed (line %d) in a way that can't happen",                      (int) afp->linenumber);
+	  if (esl_memtok(&p, &n, " \t", &seqname, &seqnamelen) != eslOK) esl_fatal("small mem parse failed (line %d): #=GS line missing <seqname>, <tag>, annotation", (int) afp->linenumber);
+	  if (esl_memtok(&p, &n, " \t", &tag,     &taglen)     != eslOK) esl_fatal("small mem parse failed (line %d): #=GS line missing <tag>, annotation",            (int) afp->linenumber);
+	  if (! esl_memstrcmp(gs, gslen, "#=GS"))                        esl_fatal("small mem parse failed (line %d): faux #=GS line?",                                (int) afp->linenumber);
+
+	  if (esl_memstrcmp(tag, taglen, "AC"))
+	    { 
+	      if (! ac_fp && esl_tmpfile(ac_tmpfile, &ac_fp) != eslOK) esl_fatal("small mem parse failed, unable to open accession tmpfile");
+	      fprintf(ac_fp, "%.*s %.*s\n", (int) seqnamelen, seqname, (int) n, p);
+	    }
+	  if (esl_memstrcmp(tag, taglen, "DE"))
+	    { 
+	      if (! de_fp && esl_tmpfile(de_tmpfile, &de_fp) != eslOK) esl_fatal("small mem parse failed, unable to open description tmpfile");
+	      fprintf(de_fp, "%.*s %.*s\n", (int) seqnamelen, seqname, (int) n, p);
+	    }
+	}
+      else if (esl_memstrpfx(p, n, "//")) break;
+    }
+  if      (status == eslEOF) esl_fatal("small mem parse failed (line %d): missing // terminator", (int) afp->linenumber);
+  else if (status != eslOK)  esl_fatal("small mem parse failed (line %d) with code %d", (int) afp->linenumber, status);
+  
+  /* The regurgitate_*() functions are limited, and only deal with single-record Pfam files. 
+   * If there appears to be more data in the file, drop the reached_eof flag.
+   */
+  while ((status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK) 
+    {
+      while (n && ( *p == ' ' || *p == '\t')) { p++; n--; } /* skip leading whitespace */
+      if    (esl_memstrpfx(p, n, "# STOCKHOLM 1.")) break;
+      if    (n && ! esl_memstrpfx(p, n, "#"))       esl_fatal("small mem parse failed (line %d): unexpected data", (int) afp->linenumber);
+    }
+  if      (status == eslOK)  reached_eof = FALSE;
+  else if (status == eslEOF) reached_eof = TRUE;
+  else esl_fatal("--small parse error. problem reading line %d of msafile", (int) afp->linenumber);
+
+  /*****************************************************************
+   * Pass 1 complete; rewind (close/reopen) all files
+   *****************************************************************/
+
+  eslx_msafile_Close(afp);
+  if ((status = eslx_msafile_Open(NULL, alifile, NULL, eslMSAFILE_PFAM, NULL, &afp)) != eslOK)
+    esl_fatal("--small, second pass, unable to open file %s for reading", alifile);
+  
+  if (ac_fp) { /* open the tmpfile with the seq accessions */
+    rewind(ac_fp);
+    if((status = esl_fgets(&(ac_buf), &(ac_buflen), ac_fp)) != eslOK) esl_fatal("--small accession tmpfile parse failed");
+    ac_s = ac_buf;
+    if (esl_strtok_adv(&ac_s, " \t\n\r", &ac_seqname, NULL, NULL) != eslOK) esl_fatal("--small accession tmpfile parse failed");
+    if (esl_strtok_adv(&ac_s, "\n\r",    &ac,         NULL, NULL) != eslOK) esl_fatal("--small accession tmpfile parse failed");
+  }
+  if (de_fp) { /* open the tmpfile with the seq descriptions */
+    rewind(de_fp);
+    if((status = esl_fgets(&(de_buf), &(de_buflen), de_fp)) != eslOK) esl_fatal("--small description tmpfile parse failed");
+    de_s = de_buf;
+    if (esl_strtok_adv(&de_s, " \t\n\r", &de_seqname, NULL, NULL) != eslOK) esl_fatal("--small description tmpfile parse failed");
+    if (esl_strtok_adv(&de_s, "\n\r",    &de,         NULL, NULL) != eslOK) esl_fatal("--small description tmpfile parse failed");
+  }
+
+  /******************************************************************************************
+   * Pass 2, step through files, outputting appropriately
+   ******************************************************************************************/
+
+  do { 
+    status = eslx_msafile_GetLine(afp, &p, &n);
+    if      (status == eslEOF) return; 
+    else if (status != eslOK)  esl_fatal("small mem parse pass 2 error. problem reading line %d of msafile", (int) afp->linenumber);
+  } while (esl_memspn(afp->line, afp->n, " \t") == afp->n  ||                 /* skip blank lines             */
+	       (esl_memstrpfx(afp->line, afp->n, "#")                         /* and skip comment lines       */
+	   && ! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM")));            /* but stop on Stockholm header */
+
+  if (! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM 1.")) esl_fatal("small mem parse pass 2 failed (line %d): missing \"# STOCKHOLM\" header", (int) afp->linenumber);
+
+  while ((status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK) 
+    {
+      while (n && ( *p == ' ' || *p == '\t')) { p++; n--; } /* skip leading whitespace */
+
+      if      (!n || *p == '#')           continue;	    /* skip blank lines, comments */
+      else if (esl_memstrpfx(p, n, "//")) break;	    /* end of alignment: end of record */
+      else 
+	{ /* sequence line. parse line into temporary strings */
+	  if (esl_memtok(&p, &n, " \t", &seqname, &seqnamelen) != eslOK) esl_fatal("small mem parse pass 2 failed (line %d): no seq name", (int) afp->linenumber);
+	  if (esl_memtok(&p, &n, " \t", &aseq,    &aseqlen)    != eslOK) esl_fatal("small mem parse pass 2 failed (line %d): no aseq",     (int) afp->linenumber);
+
+	  /* make sure we haven't just read a second line of the first sequence in file (we must be in Pfam 1 line/seq file) */
+	  if (nseq_read == 0) { if ((status = esl_memstrdup(seqname, seqnamelen, &(first_seqname))) != eslOK) esl_fatal("small mem parse failed: unable to copy seqname"); }
+	  else if (esl_memstrcmp(seqname, seqnamelen, first_seqname)) esl_fatal("--small parse pass 2 failed (line %d): two seqs named %s. Alignment appears to be in interleaved Stockholm (not Pfam) format.", (int) afp->linenumber, seqname); 
+	  nseq_read++;
+
+	  /* determine if we have an accession and/or description for this sequence */
+	  have_de = have_ac = FALSE;
+	  if (ac_seqname && (esl_memstrcmp(seqname, seqnamelen, ac_seqname))) have_ac = TRUE;
+	  if (de_seqname && (esl_memstrcmp(seqname, seqnamelen, de_seqname))) have_de = TRUE;
+
+	  if (rename) fprintf(ofp, ">%s.%d%s%s%s%s\n",          rename, nseq_read, (have_ac ? " " : "") , (have_ac ? ac : ""), (have_de ? " " : "") , (have_de ? de : "")); 
+	  else        fprintf(ofp, ">%.*s%s%s%s%s\n", (int) seqnamelen, seqname,   (have_ac ? " " : "") , (have_ac ? ac : ""), (have_de ? " " : "") , (have_de ? de : "")); 
+
+	  /* load next ac, de */
+	  if (have_ac) {
+	    status = esl_fgets(&(ac_buf), &(ac_buflen), ac_fp);
+	    if      (status == eslEOF) ac_seqname = NULL;
+	    else if (status == eslOK) { 
+	      ac_s = ac_buf;
+	      if (esl_strtok_adv(&ac_s, " \t\n\r", &ac_seqname, NULL, NULL) != eslOK) esl_fatal("--small accession tmpfile parse failed");
+	      if (esl_strtok_adv(&ac_s, "\n\r",    &ac,         NULL, NULL) != eslOK) esl_fatal("--small accession tmpfile parse failed");
+	    }
+	  }
+	  if (have_de) {
+	    status = esl_fgets(&(de_buf), &(de_buflen), de_fp);
+	    if(status == eslEOF) de_seqname = NULL;
+	    else if (status == eslOK) { 
+	      de_s = de_buf;
+	      if (esl_strtok_adv(&de_s, " \t\n\r", &de_seqname, NULL, NULL) != eslOK) esl_fatal("--small description tmpfile parse failed");
+	      if (esl_strtok_adv(&de_s, "\n\r",    &de,         NULL, NULL) != eslOK) esl_fatal("--small description tmpfile parse failed");
+	    }
+	  }
+
+	  /* now print sequence, after converting symbols as nec */
+	  /* remember, aseq itself is part of an ESL_BUFFER and you
+	     can't write to it, so symconverts have to be on the
+	     copy */
+	  for (apos = 0; apos < aseqlen; apos += cpl)
+	    {
+	      acpl = (aseqlen - apos > cpl ? cpl : aseqlen - apos);
+	      strncpy(aseqbuf, aseq + apos, acpl);
+	      aseqbuf[acpl] = '\0';
+
+	      if (rfrom)       symconvert(aseqbuf, rfrom, rto);
+	      if (gapsym)      symconvert(aseqbuf, "-_.", gapsym);
+	      if (force_lower) symconvert(aseqbuf,
+					  "ABCDEFGHIJKLMNOPQRSTUVWXYZ",
+					  "abcdefghijklmnopqrstuvwxyz");
+	      if (force_upper) symconvert(aseqbuf,
+					  "abcdefghijklmnopqrstuvwxyz",
+					  "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
+	      if (force_rna)   symconvert(aseqbuf, "Tt", "Uu");
+	      if (force_dna)   symconvert(aseqbuf, "Uu", "Tt");
+	      if (iupac_to_n)  symconvert(aseqbuf, 
+					  "RYMKSWHBVDrymkswhbvd",
+					  "NNNNNNNNNNnnnnnnnnnn");
+	      if (x_is_bad)    symconvert(aseqbuf,   "Xx", "Nn");
+
+	      fprintf(ofp, "%s\n", aseqbuf);	      
+	    }
+	}
+    }
+  /* If we saw a normal // end, we would've successfully read a line,
+   * so when we get here, status (from the line read) should be eslOK.
+   */ 
+  if (status != eslOK) esl_fatal("--small parse pass 2 failed (line %d): didn't find // at end of alignment", (int) afp->linenumber);
+  if (ac_seqname)      esl_fatal("--small parse pass 2 failed, sequence %s with #=GS AC line does not exist in alignment or is in different order.", ac_seqname);
+  if (de_seqname)      esl_fatal("--small parse pass 2 failed, sequence %s with #=GS DE line does not exist in alignment or is in different order.", de_seqname);
+
+  if (ac_fp) fclose(ac_fp);
+  if (de_fp) fclose(de_fp);
+  eslx_msafile_Close(afp);
+
+  if (first_seqname) free(first_seqname);
+  if (ac_buf)        free(ac_buf);
+  if (de_buf)        free(de_buf);
+
+  *ret_reached_eof = reached_eof;
+  return;
+}
+
+/* regurgitate_pfam_as_pfam()
+ * 
+ * Given an open Pfam formatted msafile, read the next alignment and
+ * regurgitate it, after modifying it as necessary (change dna to rna,
+ * wussify SS, etc) in Pfam format.
+ * 
+ * Returns <eslOK> on success. 
+ * Returns <eslEOF> if there are no more alignments in <afp>.
+ * Returns <eslEFORMAT> if parse fails because of a file format
+ * problem, in which case afp->errmsg is set to contain a formatted
+ * message that indicates the cause of the problem.
+ */
+static int
+regurgitate_pfam_as_pfam(ESLX_MSAFILE *afp, FILE *ofp, char *gapsym, int force_lower, int force_upper, int force_rna, int force_dna, int iupac_to_n, int x_is_bad, int wussify, int dewuss, int fullwuss, char *rfrom, char *rto)
+{
+  char      *p;
+  esl_pos_t  n;
+  char      *first_seqname = NULL;
+  char      *gx      = NULL;
+  char      *seqname = NULL;
+  char      *tag     = NULL;
+  char      *text    = NULL;
+  esl_pos_t  gxlen, namelen, taglen, textlen;
+  int        nseq_read = 0;
+  int        parse_gc_and_gr;
+  int        flushpoint = 10000;
+  int        exp_alen = -1;
+  char      *buf      = NULL;
+  esl_pos_t  pos, pos2;
+  int        status;
+
+
+  parse_gc_and_gr = (wussify || dewuss || fullwuss) ? TRUE : FALSE; /* should we parse out GR/GC lines and check if they're SS lines? */
+  afp->errmsg[0] = '\0';
+   
+  /* Check the magic Stockholm header line.
+   * We have to skip blank lines here, else we perceive
+   * trailing blank lines in a file as a format error when
+   * reading in multi-record mode.
+   */
+  /* Check the magic Stockholm header line, allowing blank lines */
+  do { 
+    status = eslx_msafile_GetLine(afp, &p, &n);
+    if      (status == eslEOF) return eslEOF; 
+    else if (status != eslOK)  esl_fatal("small mem parse error. problem reading line %d of msafile", (int) afp->linenumber);
+    fprintf(ofp, "%.*s\n", (int) afp->n, afp->line);
+  } while (esl_memspn(afp->line, afp->n, " \t") == afp->n  ||                 /* skip blank lines             */
+	       (esl_memstrpfx(afp->line, afp->n, "#")                         /* and skip comment lines       */
+	   && ! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM")));            /* but stop on Stockholm header */
+
+  if (! esl_memstrpfx(afp->line, afp->n, "# STOCKHOLM 1.")) esl_fatal("small mem parse failed (line %d): missing \"# STOCKHOLM\" header", (int) afp->linenumber);
+
+  /* Read the alignment file one line at a time.  */
+  while ((status = eslx_msafile_GetLine(afp, &p, &n)) == eslOK) 
+    {
+      if ((int) afp->linenumber % flushpoint == 0) fflush(ofp);
+      while (n && ( *p == ' ' || *p == '\t')) { p++; n--; } /* skip leading whitespace */
+    
+      if      (!n)                          fprintf(ofp, "\n");
+      else if (esl_memstrpfx(p, n, "//")) { fprintf(ofp, "//\n"); break; } /* normal way out */
+      else if (*p == '#') 
+	{
+	  if (parse_gc_and_gr && esl_memstrpfx(p, n, "#=GC")) 
+	    {  	/* parse line into temporary strings */
+	      if (esl_memtok(&p, &n, " \t",  &gx,   &gxlen)   != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "small mem parse failed (line %d): bad #=GC line", (int) afp->linenumber);
+	      if (esl_memtok(&p, &n, " \t",  &tag,  &taglen)  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "small mem parse failed (line %d): bad #=GC line", (int) afp->linenumber);
+	      if (esl_memtok(&p, &n,  " \t", &text, &textlen) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "small mem parse failed (line %d): bad #=GC line", (int) afp->linenumber);
+	      pos = text - afp->line; /* pos: position of first aligned char on line; total width of annotation tag w/spaces */
+	
+	      /* verify alignment length */
+	      if      (exp_alen == -1)      exp_alen = textlen;
+	      else if (exp_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errmsg, "small mem parse failed (line %d): bad #=GC line, len %d, expected %d", (int) afp->linenumber, (int) textlen, (int) exp_alen);
+	
+	      /* we need to make a writable string copy of the annotation, to edit it */
+	      ESL_REALLOC(buf, sizeof(char) * (textlen+1));
+	      esl_memstrcpy(text, textlen, buf);
+	     
+	      if (esl_memstrcmp(tag, taglen, "SS_cons")) 
+		{
+		  if      (wussify)  esl_kh2wuss(buf, buf);
+		  else if (dewuss)   esl_wuss2kh(buf, buf);
+		  else if (fullwuss) 
+		    { 
+		      status = esl_wuss_full(buf, buf);
+		      if      (status == eslESYNTAX) esl_fatal("Bad SS_cons line: not in WUSS format, alifile line: %d", (int) afp->linenumber);
+		      else if (status != eslOK)      esl_fatal("Conversion of SS_cons line failed, code %d, alifile line: %d", status, (int) afp->linenumber);
+		    }
+		}		  
+	      fprintf(ofp, "#=GC %.*s%*s%s\n", (int) taglen, tag, (int) (pos-taglen-5), "", buf);
+	    }
+	  else if (parse_gc_and_gr && esl_memstrpfx(p, n, "#=GR") == 0) 
+	    { 
+	      /* parse line into temporary strings */
+	      if (esl_memtok(&p, &n, " \t", &gx,      &gxlen)   != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "--small parse failed (line %d): bad #=GR line", (int) afp->linenumber);
+	      if (esl_memtok(&p, &n, " \t", &seqname, &namelen) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "--small parse failed (line %d): bad #=GR line", (int) afp->linenumber);
+	      if (esl_memtok(&p, &n, " \t", &tag,     &taglen)  != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "--small parse failed (line %d): bad #=GR line", (int) afp->linenumber);
+	      pos = tag   - afp->line;
+	      if (esl_memtok(&p, &n, " \t", &text,    &textlen) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "--small parse failed (line %d): bad #=GR line", (int) afp->linenumber);
+	      pos2 = text - afp->line;
+
+	      /* we need to make a writable string copy of the annotation, to edit it */
+	      ESL_REALLOC(buf, sizeof(char) * (textlen+1));
+	      esl_memstrcpy(text, textlen, buf);
+
+	      /* verify alignment length */
+	      if      (exp_alen == -1)      exp_alen = textlen;
+	      else if (exp_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errmsg, "small mem parse failed (line %d): bad seq line, len %d, expected %d", (int) afp->linenumber, (int) textlen, (int) exp_alen);
+	
+	      if (esl_memstrcmp(tag, taglen, "SS") == 0) 
+		{
+		  if      (wussify)  esl_kh2wuss(buf, buf);
+		  else if (dewuss)   esl_wuss2kh(buf, buf);
+		  else if (fullwuss) { 
+		    status = esl_wuss_full(buf, buf);
+		    if      (status == eslESYNTAX) esl_fatal("Bad SS line: not in WUSS format, alifile line: %d", (int) afp->linenumber);
+		    else if (status != eslOK)      esl_fatal("Conversion of SS line failed, code %d, alifile line: %d", status, (int) afp->linenumber);
+		  }
+		}		  
+
+	      fprintf(ofp, "#=GR %.*s%*s%.*s%*s%s\n", (int) namelen, seqname, (int) (pos-namelen-5), "", (int) taglen, tag, (int) (pos2-pos-taglen), "", buf);
+	    }
+	  else { /* '#' prefixed line that is not #=GR (or it is #=GR and wussify,dewuss,fullwuss are all FALSE) */
+	    fprintf(ofp, "%.*s\n", (int) afp->n, afp->line); /* print the line */
+	  }
+	} /* end of 'if (*s == '#')' */ 
+      else 
+	{ /* sequence line */
+	  if (esl_memtok(&p, &n, " \t", &seqname, &namelen) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "--small parse failed (line %d): bad sequence line", (int) afp->linenumber);
+	  if (esl_memtok(&p, &n, " \t", &text,    &textlen) != eslOK) ESL_XFAIL(eslEFORMAT, afp->errmsg, "--small parse failed (line %d): bad sequence line", (int) afp->linenumber);
+	  pos = text - afp->line;
+
+	  /* verify alignment length */
+	  if     (exp_alen == -1)      exp_alen = textlen;
+	  else if(exp_alen != textlen) ESL_XFAIL(eslEFORMAT, afp->errmsg, "small mem parse failed (line %d): bad seq line, len %d, expected %d", (int) afp->linenumber, (int) textlen, (int) exp_alen);
+      
+	  /* make sure we haven't just read a second line of the first sequence in file (we must be in Pfam 1 line/seq file) */
+	  if (nseq_read == 0) { if ((status = esl_memstrdup(seqname, namelen, &(first_seqname))) != eslOK) goto ERROR; }
+	  else if (esl_memstrcmp(seqname, namelen, first_seqname)) { ESL_XFAIL(eslEFORMAT, afp->errmsg, "parse failed (line %d): two seqs named %s. Alignment appears to be in Stockholm format. Reformat to Pfam with esl-reformat.", (int) afp->linenumber, seqname); }
+	  nseq_read++;
+      
+	  /* we need to make a writable string copy of the annotation, to edit it */
+	  ESL_REALLOC(buf, sizeof(char) * (textlen+1));
+	  esl_memstrcpy(text, textlen, buf);
+
+	  /* make adjustments as necessary */
+	  if (rfrom)       symconvert(buf, rfrom, rto);
+	  if (gapsym)      symconvert(buf, "-_.", gapsym);
+	  if (force_lower) symconvert(buf,
+				      "ABCDEFGHIJKLMNOPQRSTUVWXYZ",
+				      "abcdefghijklmnopqrstuvwxyz");
+	  if (force_upper) symconvert(buf,
+				      "abcdefghijklmnopqrstuvwxyz",
+				      "ABCDEFGHIJKLMNOPQRSTUVWXYZ");
+	  if (force_rna)   symconvert(buf, "Tt", "Uu");
+	  if (force_dna)   symconvert(buf, "Uu", "Tt");
+	  if (iupac_to_n)  symconvert(buf, 
+				      "RYMKSWHBVDrymkswhbvd",
+				      "NNNNNNNNNNnnnnnnnnnn");
+	  if (x_is_bad)    symconvert(buf,   "Xx", "Nn");
+	  /* print it out */
+	  fprintf(ofp, "%.*s%*s%s\n", (int) namelen, seqname, (int) (pos-namelen), "", buf);
+	}
+    }
+
+  /* If we saw a normal // end, we would've successfully read a line,
+   * so when we get here, status (from the line read) should be eslOK.
+   */ 
+  if (status != eslOK) esl_fatal("--small parse failed (line %d): didn't find // at end of alignment", (int) afp->linenumber);
+  if (first_seqname) free(first_seqname);
+  if (buf)           free(buf);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+static int
+parse_replace_string(const char *rstring, char **ret_from, char **ret_to)
+{
+  int    status;
+  int    rlen, mid, i;
+  int    is_valid = FALSE;
+  char  *from = NULL;
+  char  *to   = NULL;
+
+  /* Note: we could use ESL_REGEXP but then multiple ':'s in rstring could cause problems */
+  rlen = strlen(rstring);
+  /* check validity of rstring: must be "<s1>:<s2>" with len(<s1>)==len(<s2>) */
+  if((rlen % 2) != 0) { /* odd num chars, good */
+    mid = rlen / 2;
+    if(rstring[mid] == ':') { /* middle character is ':', good */
+      ESL_ALLOC(from, sizeof(char) * (mid+1));
+      ESL_ALLOC(to,   sizeof(char) * (mid+1));
+      for(i = 0;     i < mid;  i++) from[i]       = rstring[i];
+      for(i = mid+1; i < rlen; i++) to[i-(mid+1)] = rstring[i];
+      from[mid] = '\0';
+      to[mid]   = '\0';
+      is_valid = TRUE;
+    }
+  }
+  if(! is_valid) esl_fatal("--replace takes arg of <s1>:<s2> with len(<s1>) == len(<s2>); %s not recognized", rstring);
+  *ret_from = from;
+  *ret_to   = to;
+
+  return eslOK;
+
+ ERROR: 
+  if(from != NULL) free(from);
+  if(to   != NULL) free(to);
+  return status;
+}
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-reformat.c $
+ * SVN $Id: esl-reformat.c 711 2011-07-27 20:06:15Z eddys $            
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-reformat.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-reformat.man
new file mode 100755
index 0000000..d9863a2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-reformat.man
@@ -0,0 +1,224 @@
+.TH "esl-reformat" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-reformat - convert sequence file formats
+
+.SH SYNOPSIS
+.B esl-reformat
+.I [options]
+.I format
+.I seqfile
+
+
+.SH DESCRIPTION
+
+.B esl-reformat
+reads the sequence file
+.I seqfile
+in any supported format, reformats it
+into a new format specified by 
+.I format,
+then outputs the reformatted text.
+
+.pp
+The 
+.I format
+argument must (case-insensitively) match a supported sequence file format:
+currently, limited to
+.I fasta,
+.I stockholm,
+.I pfam,
+or
+.I afa
+(aligned fasta).
+
+.pp
+Unaligned format files cannot be reformatted to
+aligned formats.
+However, aligned formats can be reformatted
+to unaligned formats - gap characters are 
+simply stripped out.
+
+.SH OPTIONS
+
+.TP
+.B -d 
+DNA; convert U's to T's, to make sure a nucleic acid
+sequence is shown as DNA not RNA. See
+.B -r.
+
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+
+.TP
+.B -l
+Lowercase; convert all sequence residues to lower case.
+See
+.B -u.
+
+
+.TP
+.B -n
+For DNA/RNA sequences, converts any character that's not unambiguous
+RNA/DNA (e.g. ACGTU/acgtu) to an N. Used to convert IUPAC ambiguity
+codes to N's, for software that can't handle all IUPAC codes (some
+public RNA folding codes, for example). If the file is an alignment,
+gap characters are also left unchanged. If sequences are not
+nucleic acid sequences, this option will corrupt the data in
+a predictable fashion.
+
+
+.TP
+.BI -o  " <f>"
+Send output to file
+.I <f>
+instead of stdout.
+
+
+.TP
+.B -r 
+RNA; convert T's to U's, to make sure a nucleic acid
+sequence is shown as RNA not DNA. See
+.B -d.
+
+
+.TP
+.B -u
+Uppercase; convert all sequence residues to upper case.
+See
+.B -l.
+
+
+.TP
+.B -x
+For DNA sequences, convert non-IUPAC characters (such as X's) to N's.
+This is for compatibility with benighted people who insist on using X
+instead of the IUPAC ambiguity character N. (X is for ambiguity
+in an amino acid residue). 
+.IP
+Warning: like the
+.B -n
+option, the code doesn't check that you are actually giving it DNA. It
+simply literally just converts non-IUPAC DNA symbols to N. So if you
+accidentally give it protein sequence, it will happily convert most
+every amino acid residue to an N.
+
+
+
+
+.SH EXPERT OPTIONS
+
+
+.TP
+.BI --gapsym " <c>"
+Convert all gap characters to 
+.I <c>.
+Used to prepare alignment files for programs with strict
+requirements for gap symbols. Only makes sense if
+the input 
+.I seqfile
+is an alignment.
+
+.TP
+.BI --informat " <s>"
+Specify that the sequence file is in format 
+.I <s>,
+rather than allowing the program to autodetect
+the file format. 
+
+
+.TP
+.B --mingap
+If 
+.I seqfile
+is an alignment, remove any columns that contain 100% gap or missing
+data characters, minimizing the overall length of the alignment.
+(Often useful if you've extracted a subset of aligned sequences from a
+larger alignment.)
+
+.TP
+.B --keeprf
+When used in combination with
+.B --mingap,
+never remove a column that is not a gap in the reference (#=GC RF) 
+annotation, even if the column contains 100% gap characters in 
+all aligned sequences. By default with
+.B --mingap,
+nongap RF columns that are 100% gaps in all sequences are removed.
+
+.TP
+.B --nogap
+Remove any aligned columns that contain any gap or missing data
+symbols at all. Useful as a prelude to phylogenetic analyses, where
+you only want to analyze columns containing 100% residues, so you want
+to strip out any columns with gaps in them.  Only makes sense if the
+file is an alignment file.
+
+.TP
+.B --wussify
+Convert RNA secondary structure annotation strings (both consensus
+and individual) from old "KHS" format, ><, to the new WUSS notation,
+<>. If the notation is already in WUSS format, this option will screw it
+up, without warning. Only SELEX and Stockholm format files have
+secondary structure markup at present.
+
+.TP
+.B --dewuss
+Convert RNA secondary structure annotation strings from the new
+WUSS notation, <>, back to the old KHS format, ><. If the annotation
+is already in KHS, this option will corrupt it, without warning.
+Only SELEX and Stockholm format files have secondary structure
+markup.
+
+.TP
+.B --fullwuss
+Convert RNA secondary structure annotation strings from simple
+(input) WUSS notation to full (output) WUSS notation.
+
+.TP 
+.BI --replace " <s>"
+.I <s>
+must be in the format
+.I <s1>:<s2>
+with equal numbers of characters in 
+.I <s1>
+and 
+.I <s2>
+separated by a ":" symbol. Each character from
+.I <s1>
+in the input file will be replaced by its counterpart (at the same
+position) from
+.I <s2>.
+Note that special characters in 
+.I <s>
+(such as "~") may need to be prefixed by
+a "\\" character. 
+
+.TP
+.B --small
+Operate in small memory mode for input alignment files in 
+Pfam format. If not used, each alignment is stored in memory so the
+required memory will be roughly the size of the largest alignment
+in the input file. With 
+.B --small, 
+input alignments are not stored in memory. 
+This option only works in combination with 
+.BI --informat " pfam"
+and output format 
+.I pfam
+or
+.I afa. 
+
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-selectn.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-selectn.c
new file mode 100755
index 0000000..989020a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-selectn.c
@@ -0,0 +1,119 @@
+/* Select <n> random lines from a file and print them.
+ *
+ * SRE, Fri Jun 13 08:17:53 2008 [Janelia]
+ * SVN $Id: esl-selectn.c 526 2010-02-22 12:45:09Z eddys $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             1 },
+  { "--seed",    eslARG_INT,      "0",  NULL, NULL,  NULL,  NULL, NULL, "set random number generator's seed to <n>",        1 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <n> <file>";
+static char banner[] = "select n lines randomly from a file";
+
+static void
+cmdline_failure(char *argv0, char *format, ...)
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  exit(0);
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = NULL; 
+  ESL_RANDOMNESS *r        = NULL;
+  int             nselect  = 0;
+  char           *filename = NULL;
+  FILE           *fp       = NULL;
+  char          **larr     = NULL;
+  char           *buf      = NULL;
+  int             buflen   = 0;
+  char           *tmp      = NULL;
+  int             i,j;
+  int             n;
+
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in app configuration: %s\n",   go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help(argv[0], go);
+  if (esl_opt_ArgNumber(go) != 2)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");
+
+  nselect  = atoi(esl_opt_GetArg(go, 1));
+  filename = esl_opt_GetArg(go, 2);
+
+  r = esl_randomness_Create(esl_opt_GetInteger(go, "--seed"));
+
+  if ((larr = malloc(sizeof(char *) * nselect)) == NULL) esl_fatal("allocation failed");
+
+  if (strcmp(filename, "-") == 0) fp = stdin;
+  else {
+    if ((fp = fopen(filename, "r")) == NULL) esl_fatal("Failed to open file %s\n", filename);
+  }
+   
+   n = 0;
+   while (esl_fgets(&buf, &buflen, fp) == eslOK)
+     {
+       n++;
+       i = esl_rnd_Roll(r, n);
+       if (i < nselect) {
+	 for (j = i; j < nselect && j < n; j++)
+	   {
+	     tmp     = larr[j];
+	     larr[j] = buf;
+	     buf     = tmp;
+	   }
+	 free(buf);
+	 buf    = NULL;
+	 buflen = 0; 
+       }
+     }  
+
+   for (i = 0; i < nselect; i++) printf("%s", larr[i]);
+
+   if (fp != stdin) fclose(fp);
+   for (i = 0; i < nselect; i++) free(larr[i]);
+   free(larr);
+   free(buf);
+   esl_randomness_Destroy(r);
+   esl_getopts_Destroy(go);
+   return 0;
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-selectn.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-selectn.man
new file mode 100755
index 0000000..0fc0ea1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-selectn.man
@@ -0,0 +1,76 @@
+.TH "esl-selectn" 1 "@EASEL_DATE@" "Easel @PACKAGE_VERSION@" "Easel miniapps"
+
+.SH NAME
+.TP 
+esl-selectn - select random subset of lines from file
+
+.SH SYNOPSIS
+.B esl-selectn
+.I [options]
+.I nlines
+.I filename
+
+
+.SH DESCRIPTION
+
+.pp
+.B esl-selectn
+selects 
+.I nlines
+lines at random from file 
+.I filename
+and outputs them on 
+.I stdout.
+
+.pp
+If 
+.I filename
+is - (a single dash),
+input is read from 
+.I stdin.
+
+.pp
+The algorithm used is efficient, requiring only a single pass through
+.I filename
+and memory storage proportional to 
+.I nlines
+(and importantly, not to the size of
+.I filename
+itself).
+.B esl-selectn 
+can therefore be used to create large scale statistical sampling 
+experiments, especially in combination with other
+.I Easel
+miniapplications.
+
+
+.SH OPTIONS
+
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+
+.TP
+.BI --seed " <d>"
+Set the random number seed to
+.I <d>,
+an integer greater than 0. 
+The default is to use the current value of
+.I time().
+(As the return value of
+.I time()
+is likely to be in units of seconds,
+two calls to 
+.B esl-selectn
+within the same second will generate exactly the
+same sample; this may not be what you want.)
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.c
new file mode 100755
index 0000000..201fe48
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.c
@@ -0,0 +1,165 @@
+/* Determine range of sequences for one of many parallel processes.
+ * 
+ * EPN, Wed Mar 24 07:23:27 2010
+ * SVN $Id: esl-sfetch.c 480 2010-01-06 00:05:59Z farrarm $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_fileparser.h"
+#include "esl_keyhash.h"
+#include "esl_regexp.h"
+#include "esl_ssi.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static char banner[] = "determine range of sequences for one of many parallel processes";
+static char usage[]  = "[options] <sqfile> <procidx> <nproc>";
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  exit(0);
+}
+
+static ESL_OPTIONS options[] = {
+  /* name          type           default env   range togs  reqs  incomp        help                                                             docgroup */
+  { "-h",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL, NULL,         "help; show brief info on version and usage",                    1 },
+  { "--informat",  eslARG_STRING, FALSE,  NULL, NULL, NULL, NULL, NULL,         "specify that input file is in format <s>",                      1 },
+
+ { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static void range_by_seqnum(ESL_SQFILE *sqfp, int nproc, int64_t **ret_final_sqidx);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	                        /* application configuration            */
+  char         *seqfile = NULL;	                        /* sequence file name                   */
+  int           infmt   = eslSQFILE_UNKNOWN;		/* format code for seqfile              */ 
+  ESL_SQFILE   *sqfp    = NULL;                         /* open sequence file                   */
+  int           status;		                        /* easel return code                    */
+  int           procidx;                                /* processor index we want range for    */
+  int           nproc;                                  /* total number processors (>= procidx) */
+  int64_t      *final_sqidx;                            /* [0..p..nproc-1] index (in sqfp) of final seq for proc p+1,
+							 * sequence index ranges 1..nseq_total */
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) != 3)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+  seqfile = esl_opt_GetArg(go, 1);
+  procidx = atoi(esl_opt_GetArg(go, 2));
+  nproc   = atoi(esl_opt_GetArg(go, 3));
+
+  /* Validate command line args */
+  if(procidx > nproc) cmdline_failure(argv[0], "<procidx> must be less than or equal to <nproc>\n");
+  if(procidx < 1)     cmdline_failure(argv[0], "minimum allowed value for <procidx> is 1\n");
+  if(nproc   < 1)     cmdline_failure(argv[0], "minimum allowed value for <nproc> is 1\n");
+
+  /* Open the sequence file */
+  if (esl_opt_GetString(go, "--informat") != NULL) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat"); 
+  }
+  status = esl_sqfile_Open(seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) cmdline_failure(argv[0], "Sequence file %s not found.\n",     seqfile);
+  else if (status == eslEFORMAT)   cmdline_failure(argv[0], "Format of file %s unrecognized.\n", seqfile);
+  else if (status == eslEINVAL)    cmdline_failure(argv[0], "Can't autodetect stdin or .gz.\n");
+  else if (status != eslOK)        cmdline_failure(argv[0], "Open failed, code %d.\n", status);
+
+  /* Exit if seqfile is an alignment, is gzipped or is piped from stdin, we can't handle this */
+  if (sqfp->data.ascii.do_gzip)           cmdline_failure(argv[0], "Can't determine seq range for a .gz compressed file\n");
+  if (sqfp->data.ascii.do_stdin)          cmdline_failure(argv[0], "Can't determine seq range for a standard input pipe\n");
+  if (esl_sqio_IsAlignment(sqfp->format)) cmdline_failure(argv[0], "Can't determine seq range for an alignment file\n");              
+
+  /* Open the SSI index for retrieval, it is required */
+  status = esl_sqfile_OpenSSI(sqfp, NULL);
+  if      (status == eslEFORMAT)   cmdline_failure(argv[0], "SSI index is in incorrect format\n");
+  else if (status == eslERANGE)    cmdline_failure(argv[0], "SSI index is in 64-bit format and we can't read it\n");
+  else if (status != eslOK)        cmdline_failure(argv[0], "Failed to open SSI index\n");
+
+  /* Verify that we have more processors than sequences */
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii; 
+  if(ascii->ssi->nprimary < nproc) cmdline_failure(argv[0], "Fewer sequences than processors (<nproc>); %d < %d\n", ascii->ssi->nprimary, nproc);
+
+  /* Determine the range for all <nproc> processors */
+  range_by_seqnum(sqfp, nproc, &(final_sqidx));
+
+  /* Output range for desired nproc to stdout */
+  printf("%" PRId64 "-%" PRId64 "\n", (procidx == 1) ? 1 : final_sqidx[procidx-2]+1, final_sqidx[procidx-1]); /* careful: final_sqidx runs 0..nproc-1 */
+
+  free(final_sqidx);
+  esl_sqfile_Close(sqfp);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+
+/* Determine seq range for <nproc> processors with goal of putting an identical 
+ * number of sequences (or as close to identical as possible) in each chunk, 
+ * one chunk per processor.
+ */
+static void
+range_by_seqnum(ESL_SQFILE *sqfp, int nproc, int64_t **ret_final_sqidx)
+{
+  int         status;
+  int64_t    *final_sqidx;   /* [0..p..nproc-1] index (in sqfp) of final seq for proc p+1 
+			      * sequence index ranges 1..nseq_total */
+  int         p;             /* counter over processes */
+  int64_t     nseq_per_proc; /* num seqs per processor for even split */
+  int64_t     nseq_total;    /* total number of sequences in sqfp */
+  int64_t     remainder;     /* num extra seqs after even split across all procs */
+  int64_t     nseq_used;     /* running total of nseqs on all procs */
+  ESL_SQASCII_DATA *ascii = &sqfp->data.ascii;
+
+  ESL_ALLOC(final_sqidx, sizeof(int64_t) * nproc);
+
+  nseq_total    = ascii->ssi->nprimary;
+
+  nseq_per_proc = (int) (nseq_total / nproc);
+  remainder     = nseq_total - (nseq_per_proc * nproc);
+  nseq_used     = 0;
+  for(p = 0; p < nproc; p++) { 
+    nseq_used += nseq_per_proc;
+    if(p < remainder) nseq_used++;
+    final_sqidx[p] = nseq_used;
+  }
+  if(nseq_used != nseq_total) esl_fatal("Unable to split up sequences properly, coding error");
+
+  *ret_final_sqidx = final_sqidx;
+
+  return;
+
+ ERROR:
+  esl_fatal("Out of memory");
+  return; /* NEVERREACHED */
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.itest.pl
new file mode 100755
index 0000000..080ddcc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.itest.pl
@@ -0,0 +1,143 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-seqrange miniapp.
+#
+# Usage:     ./esl-seqrange.itest.pl <esl-seqrange binary> <esl-sfetch binary> <tmpfile prefix>
+# Example:   ./esl-seqrange.itest.pl ./esl-seqrange ./esl-sfetch foo
+#
+# EPN, Wed Mar 24 10:19:28 2010
+
+$eslseqrange = shift;
+$eslsfetch   = shift;
+$tmppfx      = shift;
+
+if (! -x "$eslseqrange") { die "FAIL: didn't find esl-seqrange binary $eslseqrange"; }
+if (! -x "$eslsfetch")   { die "FAIL: didn't find esl-sfetch binary $eslsfetch"; }
+
+open(SEQFILE, ">$tmppfx.fa") || die "FAIL: couldn't open $tmppfx.fa for writing seqfile";
+print SEQFILE << "EOF";
+>random0
+CUGCUUCGCA
+>random1
+GAGUACGUGG
+>random2
+GCUACCCUAA
+>random3
+GGUAACCUAA
+>random4
+AUUAGGGCAU
+>random5
+CCGACUUUAG
+>random6
+ACCAUUUACA
+>random7
+GACUAGAAAC
+>random8
+AUGUAGAGUA
+>random9
+CGCAGCCGGC
+>random10
+CAGAACUUCG
+>random11
+GAGGUCAGGC
+>random12
+UCACUUGUCG
+>random13
+ACCGGGGAUG
+>random14
+CGAUUUUCGG
+>random15
+CUGGUCCUGG
+>random16
+AUGUGAAGAC
+>random17
+AAUGAAGGUU
+>random18
+UGCUCCGGCG
+>random19
+CGCGACAUGG
+>random20
+AAAGCGACCG
+>random21
+UCCUGUAAGC
+>random22
+CGUUUCAUGG
+>random23
+GCAAAACGGC
+>random24
+GUCGCAUAUU
+>random25
+GGCUAACAUC
+>random26
+CUUGGUCUGC
+>random27
+CCCAGAGUGU
+>random28
+GUGUGCGCGU
+>random29
+ACGGCACCAA
+>random30
+GGGCAGUGCG
+EOF
+close SEQFILE;
+
+$output = `$eslseqrange -h`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /Usage: esl-seqrange/)            { die "FAIL: help output not right"; }
+
+# index the file first! we need an index
+if(-e "$tmppfx.fa.ssi") { unlink "$tmppfx.fa.ssi"; } # erase the index if it exists
+$output = `$eslsfetch --index $tmppfx.fa 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-sfetch --index failed unexpectedly"; }
+
+$output = `$eslseqrange $tmppfx.fa 1 31 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /1-1/)                            { die "FAIL: seq range calculated incorrectly"; }
+
+
+$output = `$eslseqrange $tmppfx.fa 1 31 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /1-1/)                            { die "FAIL: seq range calculated incorrectly"; }
+
+$output = `$eslseqrange $tmppfx.fa 17 31 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /17-17/)                          { die "FAIL: seq range calculated incorrectly"; }
+
+$output = `$eslseqrange $tmppfx.fa 1 13 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /1-3/)                            { die "FAIL: seq range calculated incorrectly"; }
+
+$output = `$eslseqrange $tmppfx.fa 1 3 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /1-11/)                           { die "FAIL: seq range calculated incorrectly"; }
+
+$output = `$eslseqrange $tmppfx.fa 2 3 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /12-21/)                           { die "FAIL: seq range calculated incorrectly"; }
+
+$output = `$eslseqrange $tmppfx.fa 3 3 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /22-31/)                           { die "FAIL: seq range calculated incorrectly"; }
+
+# test --informat 
+$output = `$eslseqrange --informat fasta $tmppfx.fa 3 3 2>&1`;
+if ($? != 0)                                     { die "FAIL: esl-seqrange failed unexpectedly"; }
+if ($output !~ /22-31/)                           { die "FAIL: seq range calculated incorrectly"; }
+
+# test cases we expect to fail
+$output = `$eslseqrange $tmppfx.fa 1 32 2>&1`;
+if ($? == 0)                                     { die "FAIL: esl-seqrange did not fail when expected"; }
+
+$output = `$eslseqrange $tmppfx.fa 31 1 2>&1`;
+if ($? == 0)                                     { die "FAIL: esl-seqrange did not fail when expected"; }
+
+$output = `$eslseqrange $tmppfx.fa -1 1 2>&1`;
+if ($? == 0)                                     { die "FAIL: esl-seqrange did not fail when expected"; }
+
+$output = `$eslseqrange $tmppfx.fa 1 -1 2>&1`;
+if ($? == 0)                                     { die "FAIL: esl-seqrange did not fail when expected"; }
+
+print "ok\n"; 
+unlink "$tmppfx.fa";
+unlink "$tmppfx.fa.ssi";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.man
new file mode 100755
index 0000000..c563a4d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqrange.man
@@ -0,0 +1,67 @@
+.TH "esl-seqrange" 1 "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-seqrange - determine a range of sequences for one of many parallel processes.
+
+.SH SYNOPSIS
+
+.TP
+.B esl-sfetch
+.I [options]
+.I seqfile
+.I procidx
+.I nproc
+
+.SH DESCRIPTION
+
+.pp
+.B esl-seqrange
+reads an indexed 
+.I seqfile
+and determines the range of sequence indices in that file that process
+number 
+.I procidx
+out of
+.I nproc
+total processes should operate on during a parallel processing of 
+.I seqfile.
+
+.pp
+The 
+.I seqfile 
+must be indexed first using 
+.B esl-sfetch --index <seqfile>.
+This creates an SSI index file
+.I <seqfile>.ssi.
+An SSI file is required in order for
+.B esl-seqrange
+to work.
+
+Sequence index ranges are calculated using a simple rule: the number
+of sequences for each process should be identical, or as close as
+possible to identical, across all processes. The lengths of the sequences
+are not considered (even though they probably should be).
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI --informat " <s>"
+Specify that the sequence file is in format
+.I <s>,
+where 
+.I <s> 
+may be FASTA, GenBank, EMBL, UniProt, or DDBJ.  This string
+is case-insensitive ("genbank" or "GenBank" both work, for example).
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqstat.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqstat.c
new file mode 100755
index 0000000..40b4503
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqstat.c
@@ -0,0 +1,253 @@
+/* Simple statistics on a sequence file
+ * 
+ * SRE, Sun Feb 24 15:33:53 2008 [UA5315 to St. Louis]
+ * SVN $Id: esl-seqstat.c 849 2013-01-31 15:10:24Z eddys $  
+ * from squid's seqstat (1994)
+ * 
+ * Wish list:
+ *   - add an option for printing sequence names only.
+ *     This would facilitate using esl-seqstat in incantations (with
+ *     esl-selectn and esl-sfetch) to extract subsets of sequences
+ *     from a large file.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_composition.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_vectorops.h"
+
+static char banner[] = "show simple statistics on a sequence file";
+static char usage1[] = "   [options] <seqfile>";
+
+static void show_overall_composition(const ESL_ALPHABET *abc, const double *monoc_all, int64_t nres);
+
+#define ALPH_OPTS "--rna,--dna,--amino" /* toggle group, alphabet type options          */
+
+static ESL_OPTIONS options[] = {
+  /* name         type           default   env range togs  reqs  incomp      help                                      docgroup */
+  { "-h",         eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL,      NULL, "help; show brief info on version and usage",          1 },
+  { "-a",         eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL,      NULL, "report per-sequence info line, not just a summary",   1 },
+  { "-c",         eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL,      NULL, "count and report residue composition",                1 },
+  { "--informat", eslARG_STRING,  FALSE, NULL, NULL, NULL, NULL,      NULL, "specify that input file is in format <s>",            1 },
+  { "--rna",      eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, ALPH_OPTS, "specify that <seqfile> contains RNA sequence",        1 },
+  { "--dna",      eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, ALPH_OPTS, "specify that <seqfile> contains DNA sequence",        1 },
+  { "--amino",    eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, ALPH_OPTS, "specify that <seqfile> contains protein sequence",    1 },
+  { "--comptbl",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL,      NULL, "alternative output: a table of residue compositions per seq", 1 },
+  { "--stall",    eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL,      NULL, "arrest after start: for debugging under gdb",        99 },  
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static void
+cmdline_failure(char *argv0, char *format, ...)
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage1);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage1);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  exit(0);
+}
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go        = NULL;
+  char           *seqfile   = NULL;
+  ESL_SQFILE     *sqfp      = NULL;
+  int             infmt     = eslSQFILE_UNKNOWN;
+  int             alphatype = eslUNKNOWN;
+  ESL_ALPHABET   *abc       = NULL;
+  ESL_SQ         *sq        = NULL;
+  int64_t         nseq      = 0;   
+  int64_t         nres      = 0;
+  int64_t         small     = 0;
+  int64_t         large     = 0;
+  double         *monoc     = NULL; /* monoresidue composition per sequence  */
+  double         *monoc_all = NULL; /* monoresidue composition over all seqs */
+  int             do_comp   = FALSE;
+  int             do_comptbl = FALSE;
+  int             status    = eslOK;
+  int             wstatus;
+  int             i, x;
+  int             do_stall;       /* used to stall when debugging     */
+
+
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in app configuration: %s\n",   go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help(argv[0], go);
+  if (esl_opt_ArgNumber(go) != 1)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");
+
+  seqfile    = esl_opt_GetArg(go, 1);
+  do_comp    = esl_opt_GetBoolean(go, "-c");
+  do_comptbl = esl_opt_GetBoolean(go, "--comptbl");
+
+  if (esl_opt_GetString(go, "--informat") != NULL) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat"); 
+  }
+
+  do_stall = esl_opt_GetBoolean(go, "--stall"); /* a stall point for attaching gdb */
+  while (do_stall); 
+
+  /* open input file */
+  status = esl_sqfile_Open(seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file %s", seqfile);
+  else if (status == eslEFORMAT)   esl_fatal("Format of seqfile %s unrecognized.", seqfile);
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  if      (esl_opt_GetBoolean(go, "--rna"))   alphatype = eslRNA;
+  else if (esl_opt_GetBoolean(go, "--dna"))   alphatype = eslDNA;
+  else if (esl_opt_GetBoolean(go, "--amino")) alphatype = eslAMINO;
+  else {
+    status = esl_sqfile_GuessAlphabet(sqfp, &alphatype);
+    if      (status == eslENOALPHABET) esl_fatal("Couldn't guess alphabet from first sequence in %s", seqfile);
+    else if (status == eslEFORMAT)    esl_fatal("Parse failed (sequence file %s):\n%s\n",
+						sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));     
+    else if (status == eslENODATA)    esl_fatal("Sequence file %s contains no data?", seqfile);
+    else if (status != eslOK)         esl_fatal("Failed to guess alphabet (error code %d)\n", status);
+  }
+  abc = esl_alphabet_Create(alphatype);
+  sq  = esl_sq_CreateDigital(abc);
+  esl_sqfile_SetDigital(sqfp, abc);
+
+  if (do_comp || do_comptbl) {
+    ESL_ALLOC(monoc,     (abc->Kp) * sizeof(double));  
+    ESL_ALLOC(monoc_all, (abc->Kp) * sizeof(double));  
+    esl_vec_DSet(monoc_all, abc->Kp, 0.0);
+    esl_vec_DSet(monoc,     abc->Kp, 0.0);
+  }
+
+  /* Output header, if any */
+  if (do_comptbl) {
+    printf("#%-29s %6s", " Sequence name", "Length");
+    for (x = 0; x < abc->K; x++) printf("      %c", (char) abc->sym[x]);
+    fputc('\n', stdout);
+    printf("#%-29s %6s", "-----------------------------", "------");
+    for (x = 0; x < abc->K; x++) printf(" %6s", "------");
+    fputc('\n', stdout);
+  }
+
+  while ((wstatus = esl_sqio_ReadWindow(sqfp, 0, 4096, sq)) != eslEOF)
+    {
+      if (wstatus == eslOK)
+	{
+	  if (do_comp || do_comptbl)
+	    for (i = 1; i <= sq->n; i++) 
+	      monoc[sq->dsq[i]]++;
+	}
+      else if (wstatus == eslEOD) 
+	{			
+	  if (nseq == 0) { small = large = sq->L; }
+	  else {
+	    small = ESL_MIN(small, sq->L);
+	    large = ESL_MAX(large, sq->L);
+	  }
+
+	  if (!do_comptbl && esl_opt_GetBoolean(go, "-a")) {
+	    printf("= %-25s %8" PRId64 " %s\n", sq->name, sq->L, (sq->desc != NULL) ? sq->desc : "");
+	  }
+	  
+	  if (do_comptbl) {
+	    printf("%-30s %6" PRId64, sq->name, sq->L);
+	    for (x = 0; x < abc->K; x++) printf(" %6.0f", monoc[x]);
+	    fputc('\n', stdout);
+	  }
+
+	  nres += sq->L;
+	  nseq++;
+	  esl_sq_Reuse(sq);
+	  if (do_comp || do_comptbl) {
+	    esl_vec_DAdd(monoc_all, monoc, abc->Kp);
+	    esl_vec_DSet(monoc, abc->Kp, 0.0);
+	  }
+	}
+      else if  (wstatus == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+						 sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+      else                             esl_fatal("Unexpected error %d reading sequence file %s",
+					         wstatus, sqfp->filename);
+    }
+
+  if (! do_comptbl)
+    {
+      printf("Format:              %s\n",   esl_sqio_DecodeFormat(sqfp->format));
+      printf("Alphabet type:       %s\n",   esl_abc_DecodeType(abc->type));
+      printf("Number of sequences: %" PRId64 "\n", nseq);
+      printf("Total # residues:    %" PRId64 "\n", nres);
+      printf("Smallest:            %" PRId64 "\n", small);
+      printf("Largest:             %" PRId64 "\n", large);
+      printf("Average length:      %.1f\n", (float) nres / (float) nseq);
+
+      if (do_comp) show_overall_composition(abc, monoc_all, nres);
+    }
+
+  if (monoc)     free(monoc);
+  if (monoc_all) free(monoc_all);
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  esl_getopts_Destroy(go);
+  return 0;
+
+ ERROR:
+  return status;
+}
+
+
+static void
+show_overall_composition(const ESL_ALPHABET *abc, const double *monoc_all, int64_t nres)
+{
+  int x;
+
+  printf("\nResidue composition:\n");
+
+  if (abc->type == eslAMINO)
+    {
+      double *iid_bg;
+      
+      if ((iid_bg = malloc(sizeof(double) * abc->K)) == NULL) esl_fatal("malloc failed");
+      esl_composition_SW50(iid_bg);
+
+      for (x = 0; x < abc->K; x++)
+	printf("residue: %c   %10.0f  %6.4f  %8.4f\n",
+	       abc->sym[x], monoc_all[x], monoc_all[x] / (double) nres,
+	       log((monoc_all[x] / (double) nres) / iid_bg[x]) * eslCONST_LOG2R);
+      for ( ;     x < abc->Kp; x++)
+	if (monoc_all[x] > 0)
+	  printf("residue: %c   %10.0f  %6.4f\n",
+		 abc->sym[x], monoc_all[x], monoc_all[x] / (double) nres);
+      free(iid_bg);
+    }
+  else
+    {
+      for (x = 0; x < abc->Kp; x++)
+	if (x < abc->K || monoc_all[x] > 0)
+	  printf("residue: %c   %10.0f  %.4f\n", abc->sym[x], monoc_all[x], monoc_all[x] / (double) nres);
+    }
+    
+  return;
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqstat.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqstat.man
new file mode 100755
index 0000000..df2150a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-seqstat.man
@@ -0,0 +1,113 @@
+.TH "esl-seqstat" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-seqstat - summarize contents of a sequence file
+
+.SH SYNOPSIS
+
+.B esl-seqstat
+.I [options]
+.I seqfile
+
+.SH DESCRIPTION
+
+.pp
+.B esl-seqstat 
+summarizes the contents of the
+.I seqfile.
+It prints the format, alphabet type, number of sequences, total number
+of residues, and the mean, smallest, and largest sequence length.
+
+.pp
+If 
+.I seqfile
+is - (a single dash),
+sequence input is read from
+.I stdin.
+
+.pp
+The sequence file may be in any of several different common unaligned
+sequence formats including FASTA, GenBank, EMBL, UniProt, or DDBJ. It
+may also be an alignment file, in Stockholm format for example. By
+default the file format is autodetected. The 
+.I --informat <s> 
+option allows you to specify the format and override
+autodetection. This
+option may be useful for making 
+.B esl-seqstat 
+more robust, because format autodetection may fail on unusual files.
+
+.pp
+The sequences can be of protein or DNA/RNA sequences. All sequences
+in the same 
+.I seqfile
+must be either protein or DNA/RNA. The alphabet will be autodetected
+unless one of the options 
+.I --amino,
+.I --dna,
+or 
+.I --rna 
+are given. These options may be useful in automated
+pipelines to make 
+.B esl-alistat 
+more robust; alphabet autodetection is not infallible.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -a
+Additionally show a summary statistic line showing the name, length,
+and description of each individual sequence. Each of these lines is
+prefixed by an = character, in order to allow these lines to be easily
+grepped out of the output.
+
+.TP
+.B -c
+Additionally print the residue composition of the sequence file.
+
+
+
+.SH EXPERT OPTIONS
+
+.TP
+.BI --informat " <s>"
+Specify that the sequence file is in format
+.I <s>,
+where 
+.I <s> 
+may be FASTA, GenBank, EMBL, UniProt, DDBJ, or Stockholm.  This string
+is case-insensitive ("genbank" or "GenBank" both work, for example).
+
+.TP
+.B --amino
+Assert that the 
+.I seqfile 
+contains protein sequences. 
+
+.TP 
+.B --dna
+Assert that the 
+.I seqfile 
+contains DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I seqfile 
+contains RNA sequences. 
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-sfetch.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-sfetch.c
new file mode 100755
index 0000000..25a506f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-sfetch.c
@@ -0,0 +1,489 @@
+/* Fetch a sequence (or part of one) from a sequence flatfile.
+ * 
+ * From squid's sfetch and ffetch
+ * SRE, Mon Mar 31 16:12:50 2008 [Janelia] 
+ * SVN $Id: esl-sfetch.c 862 2013-04-12 18:56:42Z wheelert $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_fileparser.h"
+#include "esl_keyhash.h"
+#include "esl_regexp.h"
+#include "esl_ssi.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static char banner[] = "retrieve sequence(s) from a file";
+static char usage1[] = "[options] <sqfile> <name>        (one seq named <name>)";
+static char usage2[] = "[options] -f <sqfile> <namefile> (all seqs in <namefile>)";
+static char usage3[] = "[options] --index <sqfile>       (index <sqfile>)";
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage1);
+  esl_usage(stdout, argv0, usage2);
+  esl_usage(stdout, argv0, usage3);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage1);
+  esl_usage (stdout, argv0, usage2);
+  esl_usage (stdout, argv0, usage3);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  puts("\n Options for retrieving subsequences:");
+  esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+  puts("\n  On command line, subseq coords are separated by any nonnumeric, nonspace character(s).");
+  puts("  for example, -c 23..100 or -c 23/100 or -c 23-100 all work.\n");
+  puts("  Additionally, to retrieve a suffix to the end, omit the end coord or set it to zero; -c 23.. ");
+  puts("  will work, as will -c 23..0\n");
+  puts("  By default, the subseq will be named <source name>/<from>-<to>. To assign a name of");
+  puts("  your choice, use -n <newname>.\n");
+  puts("  In retrieving subsequences listed in a file (-C -f, or just -Cf), each line of the file");
+  puts("  is in GDF format: <newname> <from> <to> <source seqname>, space/tab delimited.\n");
+  puts("  When <start> coordinate is greater than <end>, for DNA or RNA, the reverse complement is");
+  puts("  retrieved; in protein sequence, this is an error. The -r option is another way to revcomp.");
+  puts("\n other options:");
+  esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+  exit(0);
+}
+
+static ESL_OPTIONS options[] = {
+  /* name          type           default env   range togs  reqs               incomp                help                                                 docgroup */
+  { "-h",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,              NULL,                 "help; show brief info on version and usage",        1 },
+  { "-o",          eslARG_OUTFILE,FALSE,  NULL, NULL, NULL, NULL,              "-O,--index",         "output sequences to file <f> instead of stdout",    1 },
+  { "-O",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,              "-o,-f,--index",      "output sequence to file named <key>",               1 },
+  { "-n",          eslARG_STRING, FALSE,  NULL, NULL, NULL, NULL,              "-f,--index",         "rename the sequence <s>",                           1 },
+  { "-r",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, NULL,              "--index",            "reverse complement the seq(s)",                     1 },
+
+
+  { "-c",          eslARG_STRING, FALSE,  NULL, NULL, NULL, NULL,              "-f,--index",         "retrieve subsequence coords <from>..<to>",          2 },
+  { "-C",          eslARG_NONE,   FALSE,  NULL, NULL, NULL, "-f",              "--index",            "<namefile> in <f> contains subseq coords too",      2 },
+
+  { "--informat",  eslARG_STRING, FALSE,  NULL, NULL, NULL, NULL,              NULL,                 "specify that input file is in format <s>",          3 },
+
+  /* undocumented as options, because they're documented as alternative invocations: */
+  { "-f",          eslARG_NONE,  FALSE,   NULL, NULL, NULL, NULL,              "--index",           "second cmdline arg is a file of names to retrieve", 99 },
+  { "--index",     eslARG_NONE,  FALSE,   NULL, NULL, NULL, NULL,               NULL,               "index <sqfile>, creating <sqfile>.ssi",             99 },
+
+ { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static void create_ssi_index(ESL_GETOPTS *go, ESL_SQFILE *sqfp);
+static void multifetch(ESL_GETOPTS *go, FILE *ofp, char *keyfile, ESL_SQFILE *sqfp);
+static void onefetch(ESL_GETOPTS *go, FILE *ofp, char *key, ESL_SQFILE *sqfp);
+static void multifetch_subseq(ESL_GETOPTS *go, FILE *ofp, char *keyfile, ESL_SQFILE *sqfp);
+static void onefetch_subseq(ESL_GETOPTS *go, FILE *ofp, ESL_SQFILE *sqfp, char *newname, 
+			    char *key, uint32_t given_start, uint32_t given_end);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	                        /* application configuration       */
+  char         *seqfile = NULL;	                        /* sequence file name              */
+  int           infmt   = eslSQFILE_UNKNOWN;		/* format code for seqfile         */
+  ESL_SQFILE   *sqfp    = NULL;                         /* open sequence file              */
+  FILE         *ofp     = NULL;	                        /* output stream for sequences     */
+  int           status;		                        /* easel return code               */
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) < 1)                       cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+  /* Open the sequence file */
+  seqfile = esl_opt_GetArg(go, 1);
+  if (esl_opt_GetString(go, "--informat") != NULL) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat", esl_opt_GetString(go, "--informat")); 
+  }
+  status = esl_sqfile_Open(seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) cmdline_failure(argv[0], "Sequence file %s not found.\n",     seqfile);
+  else if (status == eslEFORMAT)   cmdline_failure(argv[0], "Format of file %s unrecognized.\n", seqfile);
+  else if (status == eslEINVAL)    cmdline_failure(argv[0], "Can't autodetect stdin or .gz.\n");
+  else if (status != eslOK)        cmdline_failure(argv[0], "Open failed, code %d.\n", status);
+
+  /* Open the output file, if any */
+  if (esl_opt_GetBoolean(go, "-O")) 
+    {
+      if ((ofp = fopen(esl_opt_GetArg(go, 2), "w")) == NULL)
+	cmdline_failure(argv[0], "Failed to open output file %s\n", esl_opt_GetArg(go, 2));
+    }
+  else if (esl_opt_GetString(go, "-o") != NULL)
+    {
+      if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL)
+	cmdline_failure(argv[0], "Failed to open output file %s\n", esl_opt_GetString(go, "-o"));
+    }
+  else ofp = stdout;
+
+  /* Indexing  mode */
+  if (esl_opt_GetBoolean(go, "--index")) 
+    {
+      if (esl_opt_ArgNumber(go) != 1) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+      if (sqfp->data.ascii.do_gzip)  cmdline_failure(argv[0], "Can't index a .gz compressed file");
+      if (sqfp->data.ascii.do_stdin) cmdline_failure(argv[0], "Can't index a standard input pipe");
+
+      create_ssi_index(go, sqfp);
+    }
+
+  /* List retrieval mode */
+  else if (esl_opt_GetBoolean(go, "-f"))
+    {
+      if (esl_opt_ArgNumber(go) != 2) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+      /* Open the SSI index for retrieval */
+      if (! sqfp->data.ascii.do_gzip && ! sqfp->data.ascii.do_stdin &&  ! esl_sqio_IsAlignment(sqfp->format)) 
+	{
+	  status = esl_sqfile_OpenSSI(sqfp, NULL);
+	  if      (status == eslEFORMAT)   cmdline_failure(argv[0], "SSI index is in incorrect format\n");
+	  else if (status == eslERANGE)    cmdline_failure(argv[0], "SSI index is in 64-bit format and we can't read it\n");
+	  else if (status != eslOK)        cmdline_failure(argv[0], "Failed to open SSI index\n");
+	}
+
+      if (esl_opt_GetBoolean(go, "-C")) multifetch_subseq(go, ofp, esl_opt_GetArg(go, 2), sqfp);
+      else              	        multifetch       (go, ofp, esl_opt_GetArg(go, 2), sqfp);
+    }
+
+  /* Single sequence retrieval mode */
+  else 
+    {
+      if (esl_opt_ArgNumber(go) != 2) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+      char *key     = esl_opt_GetArg(go, 2);
+      char *cstring = esl_opt_GetString(go, "-c");
+      char *newname = esl_opt_GetString(go, "-n");
+
+      /* Open the SSI index for retrieval */
+      if (! sqfp->data.ascii.do_gzip && ! sqfp->data.ascii.do_stdin &&  ! esl_sqio_IsAlignment(sqfp->format)) 
+	{
+	  status = esl_sqfile_OpenSSI(sqfp, NULL);
+	  if      (status == eslEFORMAT)   cmdline_failure(argv[0], "SSI index is in incorrect format\n");
+	  else if (status == eslERANGE)    cmdline_failure(argv[0], "SSI index is in 64-bit format and we can't read it\n");
+	  else if (status != eslOK)        cmdline_failure(argv[0], "Failed to open SSI index\n");
+	}
+
+      /* -c: subsequence retrieval; else full sequence retrieval */
+      if (cstring != NULL)
+	{
+	  uint32_t start, end;
+
+	  status = esl_regexp_ParseCoordString(cstring, &start, &end);
+	  if (status == eslESYNTAX) esl_fatal("-c takes arg of subseq coords <from>..<to>; %s not recognized", cstring);
+	  if (status == eslFAIL)    esl_fatal("Failed to find <from> or <to> coord in %s", cstring);
+
+	  onefetch_subseq(go, ofp, sqfp, newname, key, start, end);
+	  if (ofp != stdout) printf("\n\nRetrieved subsequence %s/%d-%d.\n",  key, start, end);
+	}
+      else 
+	{
+	  onefetch(go, ofp, esl_opt_GetArg(go, 2), sqfp);
+	  if (ofp != stdout) printf("\n\nRetrieved sequence %s.\n",  esl_opt_GetArg(go, 2));
+	}
+    }
+
+  esl_sqfile_Close(sqfp);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+
+/* Create an SSI index file for open sequence file <sqfp>.
+ * Both name and accession of sequences are stored as keys.
+ */
+static void
+create_ssi_index(ESL_GETOPTS *go, ESL_SQFILE *sqfp)
+{
+  ESL_NEWSSI *ns      = NULL;
+  ESL_SQ     *sq      = esl_sq_Create();
+  int         nseq    = 0;
+  char       *ssifile = NULL;
+  uint16_t    fh;
+  int         status;
+
+  esl_strdup(sqfp->filename, -1, &ssifile);
+  esl_strcat(&ssifile, -1, ".ssi", 4);
+  status = esl_newssi_Open(ssifile, TRUE, &ns); /* TRUE is for allowing overwrite. */
+  if      (status == eslENOTFOUND)   esl_fatal("failed to open SSI index %s", ssifile);
+  else if (status == eslEOVERWRITE)  esl_fatal("SSI index %s already exists; delete or rename it", ssifile); /* won't happen, see TRUE above... */
+  else if (status != eslOK)          esl_fatal("failed to create a new SSI index");
+
+  if (esl_newssi_AddFile(ns, sqfp->filename, sqfp->format, &fh) != eslOK)
+    esl_fatal("Failed to add sequence file %s to new SSI index\n", sqfp->filename);
+
+  printf("Creating SSI index for %s...    ", sqfp->filename); 
+  fflush(stdout);
+  
+  while ((status = esl_sqio_ReadInfo(sqfp, sq)) == eslOK)
+    {
+      nseq++;
+      if (sq->name == NULL) esl_fatal("Every sequence must have a name to be indexed. Failed to find name of seq #%d\n", nseq);
+
+      if (esl_newssi_AddKey(ns, sq->name, fh, sq->roff, sq->doff, sq->L) != eslOK)
+	esl_fatal("Failed to add key %s to SSI index", sq->name);
+
+      if (sq->acc[0] != '\0') {
+	if (esl_newssi_AddAlias(ns, sq->acc, sq->name) != eslOK)
+	  esl_fatal("Failed to add secondary key %s to SSI index", sq->acc);
+      }
+      esl_sq_Reuse(sq);
+    }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					   sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    status, sqfp->filename);
+
+  /* Determine if the file was suitable for fast subseq lookup. */
+  if (sqfp->data.ascii.bpl > 0 && sqfp->data.ascii.rpl > 0) {
+    if ((status = esl_newssi_SetSubseq(ns, fh, sqfp->data.ascii.bpl, sqfp->data.ascii.rpl)) != eslOK) 
+      esl_fatal("Failed to set %s for fast subseq lookup.");
+  }
+
+  /* Save the SSI file to disk */
+  if (esl_newssi_Write(ns) != eslOK)  esl_fatal("Failed to write keys to ssi file %s\n", ssifile);
+
+  /* Done - output and exit. */
+  printf("done.\n");
+  if (ns->nsecondary > 0) 
+    printf("Indexed %d sequences (%ld names and %ld accessions).\n", nseq, (long) ns->nprimary, (long) ns->nsecondary);
+  else 
+    printf("Indexed %d sequences (%ld names).\n", nseq, (long) ns->nprimary);
+  printf("SSI index written to file %s\n", ssifile);
+
+  free(ssifile);
+  esl_sq_Destroy(sq);
+  esl_newssi_Close(ns);
+  return;
+}
+
+/* multifetch:
+ * given a file containing lines with one name or key per line;
+ * parse the file line-by-line;
+ * if we have an SSI index available, retrieve the seqs by key
+ * as we see each line;
+ * else, without an SSI index, store the keys in a hash, then
+ * read the entire seq file in a single pass, outputting seqs
+ * that are in our keylist. 
+ * 
+ * Note that with an SSI index, you get the seqs in the order they
+ * appear in the <keyfile>, but without an SSI index, you get seqs in
+ * the order they occur in the seq file.
+ */
+static void
+multifetch(ESL_GETOPTS *go, FILE *ofp, char *keyfile, ESL_SQFILE *sqfp)
+{
+  ESL_KEYHASH    *keys   = esl_keyhash_Create();
+  ESL_FILEPARSER *efp    = NULL;
+  int             nseq   = 0;
+  int             nkeys  = 0;
+  char           *key;
+  int             keylen;
+  int             keyidx;
+  int             status;
+
+  
+  if (esl_fileparser_Open(keyfile, NULL, &efp) != eslOK)  esl_fatal("Failed to open key file %s\n", keyfile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (esl_fileparser_GetTokenOnLine(efp, &key, &keylen) != eslOK)
+	esl_fatal("Failed to read seq name on line %d of file %s\n", efp->linenumber, keyfile);
+      
+      status = esl_keyhash_Store(keys, key, keylen, &keyidx);
+      if (status == eslEDUP) esl_fatal("seq key %s occurs more than once in file %s\n", key, keyfile);
+	
+      /* if we have an SSI index, just fetch them as we go. */
+      if (sqfp->data.ascii.ssi != NULL) { onefetch(go, ofp, key, sqfp);  nseq++; }
+      nkeys++;
+    }
+
+  /* If we don't have an SSI index, we haven't fetched anything yet; do it now. */
+  if (sqfp->data.ascii.ssi == NULL) 
+    {
+      ESL_SQ *sq     = esl_sq_Create();
+
+      while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+	{
+	  if ( (sq->name[0] != '\0' && esl_keyhash_Lookup(keys, sq->name, -1, NULL) == eslOK) ||
+	       (sq->acc[0]  != '\0' && esl_keyhash_Lookup(keys, sq->acc,  -1, NULL) == eslOK))
+	    {
+	      if (esl_opt_GetBoolean(go, "-r") )
+		if (esl_sq_ReverseComplement(sq) != eslOK) 
+		  esl_fatal("Failed to reverse complement %s\n", sq->name);
+	      esl_sqio_Write(ofp, sq, eslSQFILE_FASTA, FALSE);
+	      nseq++;
+	    }
+	  esl_sq_Reuse(sq);
+	}
+      if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					       sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+      else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					       status, sqfp->filename);
+      esl_sq_Destroy(sq);
+    }
+  
+  if (nkeys != nseq) esl_fatal("Tried to retrieve %d keys, but only retrieved %d sequences\n", nkeys, nseq);
+
+  if (ofp != stdout) printf("\nRetrieved %d sequences.\n", nseq);
+
+  esl_keyhash_Destroy(keys);
+  esl_fileparser_Close(efp);
+  return;
+}
+  
+
+
+/* onefetch():
+ * Given one <key> (a seq name or accession), retrieve the corresponding sequence.
+ * In SSI mode, we can do this quickly by positioning the file, then regurgitating
+ * every line until the end-of-record marker; we don't even have to parse.
+ * Without an SSI index, we have to parse the file sequentially 'til we find
+ * the one we're after.
+ */
+static void
+onefetch(ESL_GETOPTS *go, FILE *ofp, char *key, ESL_SQFILE *sqfp)
+{
+  ESL_SQ  *sq            = esl_sq_Create();
+  int      do_revcomp    = esl_opt_GetBoolean(go, "-r");
+  char    *newname       = esl_opt_GetString(go, "-n");
+  int      status;
+
+  /* Try to position the file at the desired sequence with SSI. */
+  if (sqfp->data.ascii.ssi != NULL)	
+    {
+      status = esl_sqfile_PositionByKey(sqfp, key);
+      if      (status == eslENOTFOUND) esl_fatal("seq %s not found in SSI index for file %s\n", key, sqfp->filename);
+      else if (status == eslEFORMAT)   esl_fatal("Failed to parse SSI index for %s\n", sqfp->filename);
+      else if (status != eslOK)        esl_fatal("Failed to look up location of seq %s in SSI index of file %s\n", key, sqfp->filename);
+
+      status = esl_sqio_Read(sqfp, sq);
+      if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					       sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+      else if (status == eslEOF)     esl_fatal("Unexpected EOF reading sequence file %s",
+					       status, sqfp->filename);
+      else if (status != eslOK)      esl_fatal("Unexpected error %d reading sequence file %s",
+					       status, sqfp->filename);
+
+      if (strcmp(key, sq->name) != 0 && strcmp(key, sq->acc) != 0) 
+	esl_fatal("whoa, internal error; found the wrong sequence %s, not %s", sq->name, key);
+    }  
+  else 
+    { /* Else, we have to read the whole damn file sequentially until we find the seq */
+      while ((status = esl_sqio_Read(sqfp, sq)) != eslEOF) {
+	if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+						 sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+	else if (status != eslOK)      esl_fatal("Unexpected error %d reading sequence file %s",
+						 status, sqfp->filename);
+
+	if (strcmp(key, sq->name) == 0 || strcmp(key, sq->acc) == 0) break;
+	esl_sq_Reuse(sq);
+      }
+      if (status == eslEOF) esl_fatal("Failed to find sequence %s in file %s\n", key, sqfp->filename);
+
+    }
+
+  if (do_revcomp == FALSE && newname == NULL && ! esl_sqio_IsAlignment(sqfp->format)) 
+    { /* If we're not manipulating the sequence in any way, and it's not from an alignment file, we can Echo() it. */
+      if (esl_sqio_Echo(sqfp, sq, ofp) != eslOK) esl_fatal("Echo failed: %s\n", esl_sqfile_GetErrorBuf(sqfp));
+    }
+  else
+    { /* Otherwise we Write() the parsed version. */
+      if (do_revcomp && esl_sq_ReverseComplement(sq) != eslOK) esl_fatal("Failed to reverse complement %s; is it a protein?\n", sq->name);
+      if (newname != NULL) esl_sq_SetName(sq, newname);
+      esl_sqio_Write(ofp, sq, eslSQFILE_FASTA, FALSE);
+    }
+
+  esl_sq_Destroy(sq);
+}
+
+static void
+multifetch_subseq(ESL_GETOPTS *go, FILE *ofp, char *gdffile, ESL_SQFILE *sqfp)
+{
+  ESL_FILEPARSER *efp    = NULL;
+  char           *newname;
+  char           *s;
+  int             n1, n2;
+  int             start, end;
+  char           *source;
+ 
+  if (esl_fileparser_Open(gdffile, NULL, &efp) != eslOK)  esl_fatal("Failed to open key file %s\n", gdffile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (esl_fileparser_GetTokenOnLine(efp, &newname, &n1) != eslOK)
+	esl_fatal("Failed to read subseq name on line %d of file %s\n", efp->linenumber, gdffile);
+
+      if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	esl_fatal("Failed to read start coord on line %d of file %s\n", efp->linenumber, gdffile);
+      start = atoi(s);
+      if(start <= 0) 
+	esl_fatal("Read invalid start coord %d on line %d of file %s (must be positive integer)\n", start, efp->linenumber, gdffile);
+
+      if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	esl_fatal("Failed to read end coord on line %d of file %s\n", efp->linenumber, gdffile);
+      end   = atoi(s);
+      if(end < 0)
+	esl_fatal("Read invalid end coord %d on line %d of file %s (must be positive integer, or 0 for full length)\n", end, efp->linenumber, gdffile);
+
+      if (esl_fileparser_GetTokenOnLine(efp, &source, &n2) != eslOK)
+	esl_fatal("Failed to read source seq name on line %d of file %s\n", efp->linenumber, gdffile);
+
+      onefetch_subseq(go, ofp, sqfp, newname, source, start, end);
+    }
+  esl_fileparser_Close(efp);
+}
+
+static void
+onefetch_subseq(ESL_GETOPTS *go, FILE *ofp, ESL_SQFILE *sqfp, char *newname, char *key, uint32_t given_start, uint32_t given_end)
+{
+  int    start, end;
+  int    do_revcomp;
+  ESL_SQ *sq = esl_sq_Create();
+
+  if (sqfp->data.ascii.ssi == NULL) esl_fatal("no ssi index");
+
+  /* reverse complement indicated by coords. */
+  /* -c 52: would be 52,0, so watch out for given_end = 0 case */
+  if (given_end != 0 && given_start > given_end)
+    { start = given_end;   end = given_start; do_revcomp = TRUE;  }
+  else
+    { start = given_start; end = given_end;   do_revcomp = FALSE; }
+
+  if (esl_sqio_FetchSubseq(sqfp, key, start, end, sq) != eslOK) esl_fatal(esl_sqfile_GetErrorBuf(sqfp));
+
+  if      (newname != NULL) esl_sq_SetName(sq, newname);
+  else                      esl_sq_FormatName(sq, "%s/%d-%d", key, given_start, (given_end == 0) ? sq->L : given_end);
+
+  /* Two ways we might have been asked to revcomp: by coord, or by -r option */
+  /* (If both happen, they'll cancel each other out) */
+  if (do_revcomp) 
+    if (esl_sq_ReverseComplement(sq) != eslOK) esl_fatal("Failed to reverse complement %s; is it a protein?\n", sq->name);
+  if (esl_opt_GetBoolean(go, "-r"))
+    if (esl_sq_ReverseComplement(sq) != eslOK) esl_fatal("Failed to reverse complement %s; is it a protein?\n", sq->name);
+
+  esl_sqio_Write(ofp, sq, eslSQFILE_FASTA, FALSE);
+  esl_sq_Destroy(sq);
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-sfetch.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-sfetch.man
new file mode 100755
index 0000000..054af71
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-sfetch.man
@@ -0,0 +1,290 @@
+.TH "esl-sfetch" 1 "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-sfetch - retrieve (sub-)sequences from a sequence file
+
+.SH SYNOPSIS
+
+.TP
+Single sequence retrieval:
+.B esl-sfetch
+.I [options]
+.I seqfile
+.I key
+
+.TP
+Single subsequence retrieval:
+.B esl-sfetch -c
+.I <from>..<to>
+.I seqfile
+.I key
+
+.TP
+Multiple sequence retrieval:
+.B esl-sfetch -f
+.I [options]
+.I seqfile
+.I keyfile
+
+.TP
+Multiple subsequence retrieval:
+.B esl-sfetch -Cf 
+.I [options]
+.I seqfile
+.I subseq-coord-file
+
+.TP
+Indexing a sequence file for retrieval:
+.B esl-afetch --index
+.I msafile
+
+
+.SH DESCRIPTION
+
+.pp
+.B esl-sfetch
+retrieves one or more sequences or subsequences from
+.I seqfile.
+
+.pp
+The 
+.I seqfile 
+should be indexed first using 
+.B esl-sfetch --index <seqfile>.
+This creates an SSI index file
+.I <seqfile>.ssi.
+An SSI file is not necessary, but it greatly accelerates
+retrieval.
+
+.pp
+To retrieve a single complete sequence, do
+.B esl-sfetch <seqfile> <key>
+where 
+.I key
+is the name or accession of the desired sequence.
+
+.pp
+To retrieve a single subsequence rather than a complete
+sequence, use the 
+.I -c start-end
+option to provide start and end coordinates. The start
+and end coordinates are provided as one string, separated
+by any nonnumeric, nonwhitespace character or characters you like;
+for example, 
+.I -c 23..100
+, 
+.I -c 23/100
+, or
+.I -c 23-100
+all work. To retrieve a suffix of a subsequence, you
+can omit the 
+.I end
+; for example,
+.I -c 23:
+would work.
+
+.pp
+To retrieve more than one complete sequence at once, you may use the 
+.I -f
+option, and the second command line argument will specify the
+name of a 
+.I keyfile
+that contains a list of names or accessions, one per line; the first
+whitespace-delimited field on each line of this file is parsed as the
+name/accession.
+
+.pp
+To retrieve more than one subsequence at once, use the
+.I -C
+option in addition to
+.I -f
+, and now the second argument is parsed as a list of subsequence
+coordinate lines, with each line containing at least four
+whitespace-delimited fields: 
+.I new_name
+.I from
+.I to 
+.I name/accession.
+For each such line, sequence
+.I name/accession
+is found, a subsequence
+.I from..to is extracted,
+and the subsequence is renamed 
+.I new_name 
+before being output. 
+
+ 
+.pp
+In DNA/RNA files, you may extract (sub-)sequences in reverse complement
+orientation in two different ways: either by providing a 
+.I from
+coordinate that is greater than 
+.I to, 
+or by providing the 
+.I -r
+option.
+
+.pp
+The sequence file may be in any of several different common unaligned
+sequence formats including FASTA, GenBank, EMBL, UniProt, or DDBJ. It
+may also be an alignment file, in Stockholm format for example. By
+default the file format is autodetected. The 
+.I --informat <s> 
+option allows you to specify the format and override
+autodetection. This
+option may be useful for making 
+.B esl-sfetch 
+more robust, because format autodetection may fail on unusual files.
+
+.pp
+When the
+.I -f 
+option is used to do multiple (sub-)sequence retrieval, the file
+argument may be - (a single dash), in which case the list of
+names/accessions (or subsequence coordinate lines) is read from
+standard input. However, because a standard input stream can't be SSI indexed,
+(sub-)sequence retrieval from 
+.I stdin
+may be slow.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Print brief help; includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI -c " <coords>"
+Retrieve a subsequence with start and end coordinates specified by the 
+.I <coords>
+string. This string consists of start 
+and end coordinates separated
+by any nonnumeric, nonwhitespace character or characters you like;
+for example, 
+.I -c 23..100
+, 
+.I -c 23/100
+, or
+.I -c 23-100
+all work. To retrieve a suffix of a subsequence, you
+can omit the 
+.I end
+; for example,
+.I -c 23:
+would work.
+To specify reverse complement (for DNA/RNA sequence),
+specify 
+.I <from> 
+greater than
+.I <to>;
+for example,
+.I -c 100..23
+retrieves the reverse complement strand from 100 to 23.
+
+.TP
+.B -f
+Interpret the second argument as a 
+.I keyfile
+instead of as just one
+.I key. 
+The first whitespace-limited field on each line of 
+.I keyfile
+is interpreted as a name or accession to be fetched.
+This option doesn't work with the
+.B --index
+option.  Any other fields on a line after the first one are
+ignored. Blank lines and lines beginning with # are ignored.
+
+.TP
+.BI -o " <f>"
+Output retrieved sequences to a file 
+.I <f>
+instead of to
+.I stdout.
+
+
+.TP
+.BI -n " <s>"
+Rename the retrieved (sub-)sequence 
+.I <s>.
+This is incompatible with the
+.I -f
+option.
+
+.TP
+.B -r
+Reverse complement the retrieved (sub-)sequence. This only works for
+DNA/RNA sequences.
+
+.TP
+.B -C
+Multiple subsequence retrieval mode, with 
+.I -f
+option (required). Specifies that the second command line argument
+is to be parsed as a subsequence coordinate file, consisting of
+lines containing four whitespace-delimited fields:
+.I new_name
+.I from
+.I to 
+.I name/accession.
+For each such line, sequence
+.I name/accession
+is found, a subsequence
+.I from..to is extracted,
+and the subsequence is renamed 
+.I new_name 
+before being output. 
+Any other fields after the first four are ignored. Blank lines
+and lines beginning in # are ignored.
+
+
+.TP
+.B -O
+Output retrieved sequence to a file named
+.I <key>.
+This is a convenience for saving some typing:
+instead of 
+.B esl-sfetch -o SRPA_HUMAN swissprot SRPA_HUMAN
+you can just type
+.B esl-sfetch -O swissprot SRPA_HUMAN.
+The
+.B -O 
+option only works if you're retrieving a
+single alignment; it is incompatible with 
+.B -f.
+
+.TP
+.B --index
+Instead of retrieving a
+.I key,
+the special command
+.B esl-afetch --index
+.I msafile
+produces an SSI index of the names and accessions
+of the alignments in
+the 
+.I msafile.
+Indexing should be done once on the
+.I msafile
+to prepare it for all future fetches.
+
+.SH EXPERT OPTIONS
+
+.TP
+.BI --informat " <s>"
+Specify that the sequence file is in format
+.I <s>,
+where 
+.I <s> 
+may be FASTA, GenBank, EMBL, UniProt, DDBJ, or Stockholm.  This string
+is case-insensitive ("genbank" or "GenBank" both work, for example).
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.c
new file mode 100755
index 0000000..688b0f7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.c
@@ -0,0 +1,401 @@
+/* Shuffling or generating random sequences.
+ * 
+ * SRE, Wed Jan 16 15:30:05 2008 [UA5230 to New York]
+ * SVN $Id: esl-shuffle.c 900 2014-01-17 18:55:41Z wheelert $
+ * from squid's shuffle (1995)
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_composition.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msashuffle.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_vectorops.h"
+
+static char banner[] = "shuffling or generating random sequences";
+static char usage1[] = "   [options] <seqfile>  (shuffles individual sequences)";
+static char usage2[] = "-A [options] <msafile>  (shuffles alignment columnwise)";
+static char usage3[] = "-Q [options] <qrnafile> (shuffles QRNA pairwise alignments)";
+static char usage4[] = "-G [options]            (generates random sequences)";
+
+
+#define MODE_OPTS "-S,-A,-G,-Q"	           /* toggle group, modes (seqfile, msafile, none) */
+#define SHUF_OPTS "-m,-d,-k,-0,-1,-r,-w"   /* toggle group, seq shuffling options          */
+#define ALPH_OPTS "--rna,--dna,--amino"    /* toggle group, alphabet type options          */
+
+static ESL_OPTIONS options[] = {
+  /* name         type           default   env range      togs  reqs  incomp      help                                      docgroup */
+  { "-h",         eslARG_NONE,    FALSE, NULL, NULL,      NULL, NULL, NULL, "help; show brief info on version and usage",          1 },
+  { "-o",         eslARG_OUTFILE,  NULL, NULL, NULL,      NULL, NULL, NULL, "direct output data to file <f>",                      1 },
+  { "-N",         eslARG_INT,       "1", NULL,"n>0",      NULL, NULL, NULL, "generate <n> samples (per input seq/msa)",            1 },
+  { "-L",         eslARG_INT,       "0", NULL,"n>=0",     NULL, NULL, NULL, "truncate outputs to length <n>",                      1 },
+
+  /* Options for shuffling/generating based on input sequences */
+  { "-m",         eslARG_NONE,"default", NULL, NULL, SHUF_OPTS, "-S", NULL, "shuffle preserving monoresidue composition",          2 },
+  { "-d",         eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, "-S", NULL, "shuffle preserving mono- and di-residue composition", 2 },
+  { "-k",         eslARG_INT,     FALSE, NULL,"n>0", SHUF_OPTS, "-S", NULL, "shuffle nonoverlapping <n>-mers",                     2 },
+  { "-0",         eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, "-S", NULL, "generate with 0th order Markov properties per input", 2 },
+  { "-1",         eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, "-S", NULL, "generate with 1st order Markov properties per input", 2 },
+  { "-r",         eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, "-S", NULL, "reverse each input",                                  2 },
+  { "-w",         eslARG_INT,     FALSE, NULL,"n>0", SHUF_OPTS, "-S", NULL, "regionally shuffle inputs in window size <n>",        2 },
+
+  /* Options for shuffling multiple alignments column-wise */
+  { "-b",         eslARG_NONE,    FALSE, NULL, NULL,      NULL, "-A", NULL, "take bootstrapping samples",                          3 },
+
+  /* Options for generating sequences de novo */
+  { "--rna",      eslARG_NONE,"default", NULL, NULL, ALPH_OPTS, "-G", NULL, "generate RNA sequence",                               4 },
+  { "--dna",      eslARG_NONE,    FALSE, NULL, NULL, ALPH_OPTS, "-G", NULL, "generate DNA sequence",                               4 },
+  { "--amino",    eslARG_NONE,    FALSE, NULL, NULL, ALPH_OPTS, "-G", NULL, "generate protein sequence",                           4 },
+
+  /* Other "expert" options */
+  { "--seed",     eslARG_INT,       "0", NULL,"n>=0",     NULL, NULL, NULL, "set random number generator's seed to <n>",           5 },
+  { "--informat", eslARG_STRING,  FALSE, NULL, NULL,      NULL, NULL, NULL, "specify that input file is in format <s>",            5 },
+
+  /* "undocumented" options (these are documented w/ command line usage, and implemented as options) */
+  { "-S",         eslARG_NONE,"default", NULL, NULL, MODE_OPTS, NULL, NULL, "shuffle individual input sequences",                  99 },
+  { "-A",         eslARG_NONE,    FALSE, NULL, NULL, MODE_OPTS, NULL, NULL, "input is an <msafile> to be shuffled by columns",     99 },
+  { "-G",         eslARG_NONE,    FALSE, NULL, NULL, MODE_OPTS, "-L", NULL, "generate de novo (the following options are valid)",  99 },
+  { "-Q",         eslARG_NONE,    FALSE, NULL, NULL, MODE_OPTS, NULL, NULL, "shuffle input QRNA FASTA file",                       99 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+
+static void
+cmdline_failure(char *argv0, char *format, ...)
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage1);
+  esl_usage(stdout, argv0, usage2);
+  esl_usage(stdout, argv0, usage3);
+  esl_usage(stdout, argv0, usage4);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage1);
+  esl_usage (stdout, argv0, usage2);
+  esl_usage (stdout, argv0, usage3);
+  esl_usage (stdout, argv0, usage4);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  puts("\n options for shuffling input sequences (default mode):");
+  esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+  puts("\n options for generating sequences de novo (w/ -G option):");
+  esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+  puts("\n other infrequently used options:");
+  esl_opt_DisplayHelp(stdout, go, 5, 2, 80);
+  exit(0);
+}
+
+
+/* msa_shuffling()
+ * 
+ * Shuffling multiple sequence alignments
+ */
+static int
+msa_shuffling(ESL_GETOPTS *go, ESL_RANDOMNESS *r, FILE *ofp, int outfmt)
+{
+  char         *msafile = esl_opt_GetArg(go, 1);
+  int           infmt   = eslMSAFILE_UNKNOWN;
+  ESLX_MSAFILE *afp     = NULL;
+  ESL_MSA      *msa     = NULL;
+  ESL_MSA      *shuf    = NULL;
+  int           N       = esl_opt_GetInteger(go, "-N");
+  int           i;
+  int           status;
+
+  if ( (status = eslx_msafile_Open(NULL, msafile, NULL, infmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+  
+  while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+      shuf = esl_msa_Clone(msa);
+
+      for (i = 0; i < N; i++)
+	{
+	  if (esl_opt_GetBoolean(go, "--boot")) esl_msashuffle_Bootstrap(r, msa, shuf);
+	  else                                  esl_msashuffle_Shuffle  (r, msa, shuf);
+
+	  /* Set the name of the shuffled alignment */
+	  if (msa->name != NULL) {
+	    if (esl_opt_GetBoolean(go, "--boot")) {
+	      if (N > 1) esl_msa_FormatName(shuf, "%s-sample-%d", msa->name, i);
+	      else       esl_msa_FormatName(shuf, "%s-sample",    msa->name);
+	    } else {
+	      if (N > 1) esl_msa_FormatName(shuf, "%s-shuffle-%d", msa->name, i);
+	      else       esl_msa_FormatName(shuf, "%s-shuffle",    msa->name);
+	    }
+	  } else {
+	    if (esl_opt_GetBoolean(go, "--boot")) {
+	      if (N > 1) esl_msa_FormatName(shuf, "sample-%d", i);
+	      else       esl_msa_FormatName(shuf, "sample");
+	    } else {
+	      if (N > 1) esl_msa_FormatName(shuf, "shuffle-%d", i);
+	      else       esl_msa_FormatName(shuf, "shuffle");
+	    }
+	  }
+
+	  eslx_msafile_Write(ofp, shuf, afp->format);
+	}
+
+      esl_msa_Destroy(shuf);
+      esl_msa_Destroy(msa);
+    }
+
+  eslx_msafile_Close(afp);
+  return eslOK;
+}
+
+
+/* seq_generation()
+ *
+ * Generating sequences.
+ */
+static int
+seq_generation(ESL_GETOPTS *go, ESL_RANDOMNESS *r, FILE *ofp, int outfmt)
+{
+  ESL_ALPHABET *abc = NULL;
+  ESL_SQ       *sq  = NULL;
+  double       *fq  = NULL;
+  int           alphatype;
+  int           N   = esl_opt_GetInteger(go, "-N");
+  int           L   = esl_opt_GetInteger(go, "-L");
+  int           i;
+  int           status;
+
+  if (L <= 0) esl_fatal("To generate sequences, set -L option (length of generated seqs) > 0 ");
+  if (esl_opt_GetBoolean(go, "--rna"))   alphatype = eslRNA;
+  if (esl_opt_GetBoolean(go, "--dna"))   alphatype = eslDNA;
+  if (esl_opt_GetBoolean(go, "--amino")) alphatype = eslAMINO;
+  abc = esl_alphabet_Create(alphatype);
+  sq  = esl_sq_CreateDigital(abc);
+  esl_sq_GrowTo(sq, L);
+
+  /* Pick the iid frequency distribution to use */
+  ESL_ALLOC(fq, sizeof(double) * abc->K);
+  switch (alphatype) {
+  case eslRNA:
+  case eslDNA:    esl_vec_DSet(fq, 4, 0.25); break;
+  case eslAMINO:  esl_composition_SW34(fq);  break;
+  default:        esl_vec_DSet(fq, abc->K, 1.0 / (double) abc->K); break;
+  }
+    
+  /* generate */
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xIID(r, fq, abc->K, L, sq->dsq);
+      if (N > 1) esl_sq_FormatName(sq, "random%d", i);
+      else       esl_sq_SetName(sq, "random");
+      sq->n = L;
+      esl_sqio_Write(ofp, sq, outfmt, FALSE);
+    }
+
+  free(fq);
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq);
+  return eslOK;
+
+ ERROR:
+  if (fq != NULL) free(fq);
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq);
+  return status;
+}
+
+
+/* seq_shuffling()
+ * SRE, Tue Jan 22 08:35:51 2008 [Market Street Cafe, Leesburg]
+ *
+ * Shuffling of input sequences.
+ *
+ * Fixed-length (L>0) vs. full-length (L=0) modes handled differently.
+ * In fixed-length mode:
+ *   <shuff->seq> only needs to be allocated once, for L
+ *   <targ> is an allocated copy of a random subseq of length L
+ *   sequences < L residues long can't be shuffled
+ * In full-length mode:
+ *   <shuff->seq> is grown to length <sq->n> for each input seq
+ *   <targ> just points to <sq->seq>
+ */
+static int 
+seq_shuffling(ESL_GETOPTS *go, ESL_RANDOMNESS *r, FILE *ofp, int outfmt)
+{
+  char       *seqfile = esl_opt_GetArg(go, 1);
+  int         infmt   = eslSQFILE_UNKNOWN;
+  ESL_SQFILE *sqfp    = NULL;
+  ESL_SQ     *sq      = esl_sq_Create();
+  ESL_SQ     *shuff   = esl_sq_Create();
+  char       *targ    = NULL;
+  int         N       = esl_opt_GetInteger(go, "-N");
+  int         L       = esl_opt_GetInteger(go, "-L"); /* L>0 means select random fixed-len subseqs */
+  int         kmers   = 0;
+  int         i;
+  int         status;
+  
+  if (esl_opt_GetString(go, "--informat") != NULL) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat"); 
+  }
+
+  if (esl_opt_IsOn(go, "-k")) kmers = esl_opt_GetInteger(go, "-k");
+
+
+  status = esl_sqfile_Open(seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file %s", seqfile);
+  else if (status == eslEFORMAT)   esl_fatal("Format of seqfile %s unrecognized.", seqfile);
+  else if (status == eslEINVAL)    esl_fatal("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  if (L>0) { 
+    esl_sq_GrowTo(shuff, L);
+    shuff->n = L;
+    ESL_ALLOC(targ, sizeof(char) * (L+1));
+  }
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      if (L == 0) {		     /* shuffling entire sequence   */
+	esl_sq_GrowTo(shuff, sq->n); /* make sure shuff can hold sq */	  
+	shuff->n = sq->n;
+	targ = sq->seq;
+      } else {
+	if (sq->n < L) continue;     /* reject seqs < L long */
+      }
+
+      for (i = 0; i < N; i++)
+	{
+	  if (L > 0) {		/* fixed-len mode: copy a random subseq */
+	    int pos = esl_rnd_Roll(r, sq->n - L + 1);
+	    strncpy(targ, sq->seq + pos, L);
+	    targ[L] = '\0';	    
+	  }
+
+	  /* Do the requested kind of shuffling */
+	  if      (esl_opt_GetBoolean(go, "-m"))  esl_rsq_CShuffle     (r, targ,        shuff->seq);  /* monoresidue shuffling */
+	  else if (esl_opt_GetBoolean(go, "-d"))  esl_rsq_CShuffleDP   (r, targ,        shuff->seq);  /* diresidue shuffling */
+	  else if (esl_opt_IsOn      (go, "-k"))  esl_rsq_CShuffleKmers(r, targ, kmers, shuff->seq);  /* diresidue shuffling */
+	  else if (esl_opt_GetBoolean(go, "-0"))  esl_rsq_CMarkov0     (r, targ,        shuff->seq);  /* 0th order Markov */
+	  else if (esl_opt_GetBoolean(go, "-1"))  esl_rsq_CMarkov1     (r, targ,        shuff->seq);  /* 1st order Markov */
+	  else if (esl_opt_GetBoolean(go, "-r"))  esl_rsq_CReverse     (   targ,        shuff->seq);  /* reverse */
+	  else if (esl_opt_IsOn      (go, "-w")) { /* regionally shuffle */	
+	    int W= esl_opt_GetInteger(go, "-w"); esl_rsq_CShuffleWindows(r, targ, W, shuff->seq);
+	  }
+
+	  /* Set the name of the shuffled sequence */
+	  if (esl_opt_GetBoolean(go, "-r")) esl_sq_FormatName(shuff, "%s-reversed",    sq->name, i);
+	  else if (N > 1)                   esl_sq_FormatName(shuff, "%s-shuffled-%d", sq->name, i);
+	  else                              esl_sq_FormatName(shuff, "%s-shuffled",    sq->name);
+
+	  /* Output the resulting sequence */
+	  esl_sqio_Write(ofp, shuff, outfmt, FALSE);
+
+	  /* don't need to reuse the shuffled sequence: we will use exactly the same memory */
+	}
+      esl_sq_Reuse(sq);
+    }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					   sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    status, sqfp->filename);
+
+  if (L>0) free(targ);
+  esl_sq_Destroy(shuff);
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  return eslOK;
+
+ ERROR:
+  if (targ != NULL) free(targ);
+  esl_sq_Destroy(shuff);
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  return status;
+}
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go     = NULL;	/* application configuration       */
+  ESL_RANDOMNESS *r      = NULL;	/* random number generator         */
+  FILE           *ofp    = NULL;        /* data output stream              */
+  int             outfmt = eslSQFILE_FASTA;
+
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) 
+    cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK)
+    cmdline_failure(argv[0], "Error in app configuration: %s\n",   go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )
+    cmdline_help(argv[0], go);
+  
+  /* Open the output data file, if any */
+  if (esl_opt_GetString(go, "-o") != NULL)
+    {
+      if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL)
+	esl_fatal("Failed to open output file %s\n", esl_opt_GetString(go, "-o"));
+    }
+  else ofp = stdout;
+
+  /* Initialize */
+  r = esl_randomness_Create(esl_opt_GetInteger(go, "--seed"));
+
+  /* Hand off execution to one of the three modes */
+  if (esl_opt_GetBoolean(go, "-A"))   /* Alignment shuffling */
+    {
+      if (esl_opt_ArgNumber(go) != 1) 
+	cmdline_failure(argv[0], "Incorrect number of command line arguments.\n"); 
+
+      msa_shuffling(go, r, ofp, outfmt);
+    }
+  else if (esl_opt_GetBoolean(go, "-G")) /* Sequence generation */
+    {
+      if (esl_opt_ArgNumber(go) != 0) 
+	cmdline_failure(argv[0], "Incorrect number of command line arguments.\n"); 
+
+      seq_generation(go, r, ofp, outfmt);
+    }
+  else if (esl_opt_GetBoolean(go, "-S")) /* Sequence shuffling */
+    {
+      if (esl_opt_ArgNumber(go) != 1) 
+	cmdline_failure(argv[0], "Incorrect number of command line arguments.\n"); 
+
+      seq_shuffling(go, r, ofp, outfmt);
+    }
+
+  if (esl_opt_GetString(go, "-o") != NULL) fclose(ofp);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+} 
+
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.itest.pl
new file mode 100755
index 0000000..90a8462
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.itest.pl
@@ -0,0 +1,54 @@
+#! /usr/bin/perl
+
+# Integrated test of esl-shuffle miniapp
+#
+# Usage:     ./esl-shuffle.itest.pl <esl-shuffle binary> <tmpfile prefix>
+# Example:   ./esl-shuffle.itest.pl ./esl-shuffle        foo
+#
+# SRE, Tue Nov 10 17:27:22 2009
+# SVN $Id: esl-shuffle.itest.pl 589 2010-04-10 12:53:24Z eddys $
+
+$eslshuffle = shift;
+$tmppfx     = shift;
+
+if (! -x "$eslshuffle") { die "FAIL: didn't find esl-shuffle binary $eslshuffle"; }
+
+open(TESTFILE, ">$tmppfx.fa") || die "FAIL: couldn't open $tmppfx.fa for writing test seqfile";
+print TESTFILE << "EOF";
+>seq1
+ACDEFGHIKLMNPQRSTVWY
+>seq2
+ACACACACACACACACACAC
+>seq3
+WYWYWYWYWYWYWYWYWYWY
+EOF
+close TESTFILE;
+
+# Use of --seed makes shuffled outputs reproducible, regressable.
+# Until you change the RNG again, anyway. If you do that, all these
+# regressions need to change.
+#
+@output = `$eslshuffle --seed 42 $tmppfx.fa`;
+if ($? != 0)                                 { die "FAIL: esl-shuffle failed unexpectedly"; }
+if ($output[0] !~ /^>seq1-shuffled$/)        { die "FAIL: shuffle output is incorrect";     }
+if ($output[1] !~ /^TIGEYHFWCKVSALQNPDRM$/)  { die "FAIL: shuffle output is incorrect";     }
+if ($output[2] !~ /^>seq2-shuffled$/)        { die "FAIL: shuffle output is incorrect";     }
+if ($output[3] !~ /^CACAAAACCCACCAACAACC$/)  { die "FAIL: shuffle output is incorrect";     }
+if ($output[4] !~ /^>seq3-shuffled$/)        { die "FAIL: shuffle output is incorrect";     }
+if ($output[5] !~ /^WWYYWWYWWYYWYYWYYWYW$/)  { die "FAIL: shuffle output is incorrect";     }
+
+
+# We had bugs in the -N option at one point.  This test exercises the
+# bugs.
+#
+@output = `$eslshuffle --seed 42 -N 2 $tmppfx.fa`;
+if ($? != 0)                                 { die "FAIL: esl-shuffle failed unexpectedly"; }
+if ($output[2] !~ /^>seq1-shuffled-1$/)      { die "FAIL: shuffle output is incorrect";     }
+if ($output[3] !~ /^NTEPDRFIQYKLCMWVHAGS$/)  { die "FAIL: shuffle output is incorrect";     }
+
+
+
+
+print "ok\n"; 
+unlink "$tmppfx.fa";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.man
new file mode 100755
index 0000000..15ecca7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-shuffle.man
@@ -0,0 +1,231 @@
+.TH "esl-shuffle" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-shuffle - shuffling sequences or generating random ones
+
+.SH SYNOPSIS
+
+.TP
+Shuffling individual sequences:
+.B esl-shuffle 
+.I [options]
+.I seqfile
+
+.TP 
+Generating random sequences:
+.B esl-shuffle -G 
+.I [options]
+
+.TP
+Shuffling multiple sequence alignments columnwise:
+.B esl-shuffle -A
+.I [options]
+.I msafile
+
+.TP
+Shuffling QRNA pairwise alignment input files:
+.B esl-shuffle -Q
+.I [options]
+.I qrna-alignment-file
+
+.SH DESCRIPTION
+
+.pp
+.B esl-shuffle
+is capable of four different modes of operation.
+
+.pp
+By default, 
+.B esl-shuffle
+reads individual sequences from 
+.I seqfile
+, shuffles them, and outputs the shuffled sequence.
+By default, shuffling is done by preserving monoresidue
+composition; other options are listed below.
+
+.pp
+With the 
+.I -G 
+option,
+.B esl-shuffle
+generates some number of random sequences of some length in
+some alphabet. The
+.I -N
+option controls the number (default is 1), the
+.I -L
+option controls the length (default is 0), 
+and the 
+.I --amino,
+.I --dna,
+and 
+.I --rna
+options control the alphabet.
+
+.pp
+With the 
+.I -A
+option, 
+.B esl-shuffle
+reads one or more multiple alignments from
+.I <msafile>
+and shuffles them columnwise.
+
+
+.pp 
+Finally, the
+.I -Q 
+option is for shuffling pairwise alignments in QRNA input files.  A
+QRNA input file is a quasi-FASTA file, where each successive pair of
+sequences is interpreted as a pairwise alignment; sequences may
+contain gap characters (period, dash, or underscore: .-_) and these
+pairs of sequences must have exactly the same aligned length.
+
+.pp
+An unaligned sequence file to be shuffled may be in any of several
+different common unaligned sequence formats including FASTA, GenBank,
+EMBL, UniProt, or DDBJ; alignment files are also valid, in which case
+individual unaligned sequences are sequentially plucked from the
+alignment. By default the file format is autodetected. The
+.I --informat <s> 
+option allows you to specify the format and override
+autodetection. This
+option may be useful for making 
+.B esl-shuffle 
+more robust, because format autodetection may fail on unusual files.
+
+.SH GENERAL OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP
+.BI -o " <f>"
+Direct output to a file named
+.I <f>
+rather than to stdout.
+
+.TP
+.BI -N " <n>"
+Generate 
+.I <n>
+sequences, or
+.I <n> 
+perform independent shuffles per input sequence or alignment.
+
+.TP
+.BI -L " <n>"
+Generate sequences of length
+.I <n>,
+or truncate output shuffled sequences or alignments to a length of
+.I <n>.
+
+
+
+
+.SH SEQUENCE SHUFFLING OPTIONS
+
+These options only apply in default (sequence shuffling) mode.  They
+are mutually exclusive.
+
+.TP
+.B -m
+Monoresidue shuffling (the default): preserve monoresidue composition exactly.
+Uses the so-called Fisher/Yates algorithm (Knuth's "Algorithm P").
+
+.TP
+.B -d
+Diresidue shuffling; preserve diresidue composition exactly.  Uses the
+Altschul/Erickson algorithm (Altschul and Erickson, 1986). A more
+efficient algorithm (Kandel and Winkler 1996) is known but has not yet
+been implemented in Easel.
+
+.TP
+.B -0
+0th order Markov generation: generate a sequence of the same length
+with the same 0th order Markov frequencies. Such a sequence will
+approximately preserve the monoresidue composition of the input.
+
+.TP
+.B -1
+1st order Markov generation: generate a sequence of the same length
+with the same 1st order Markov frequencies. Such a sequence will 
+approximately preserve the diresidue composition of the input.
+
+.TP
+.B -r
+Reversal; reverse each input.
+
+.TP
+.BI -w " <n>"
+Regionally shuffle the input in nonoverlapping windows of size 
+.I <n> 
+residues, preserving exact monoresidue composition in each window.
+ 
+
+
+.SH MULTIPLE ALIGNMENT SHUFFLING OPTIONS
+
+.TP
+.B -b
+Sample columns with replacement, in order to generate a
+bootstrap-resampled alignment dataset. 
+
+
+.SH SEQUENCE GENERATION OPTIONS
+
+One of these must be selected.
+
+.TP
+.B --amino
+Generate amino acid sequences.
+
+.TP 
+.B --dna
+Generate DNA sequences.
+
+.TP 
+.B --rna
+Generate RNA sequences (the default).
+
+
+
+.SH EXPERT OPTIONS
+
+.TP
+.BI --informat " <s>"
+Specify that the sequence file is in format
+.I <s>,
+where 
+.I <s> 
+may be FASTA, GenBank, EMBL, UniProt, DDBJ, or Stockholm.  This string
+is case-insensitive ("genbank" or "GenBank" both work, for example).
+
+.TP
+.BI --seed " <n>"
+Specify the seed for the random number generator, where the seed
+.I <n>
+is an integer greater than zero. This can be used to make the results
+of 
+.B esl-shuffle 
+reproducible. The default is to choose the random number generator
+seed by calling 
+.B time(). 
+Note that because 
+.B time()
+likely returns the time in units of seconds, 
+two calls to
+.B esl-shuffle 
+within the same second will use the same seed and generate
+identical random number sequences; you may want to avoid this.
+
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.c
new file mode 100755
index 0000000..0547364
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.c
@@ -0,0 +1,7495 @@
+/* Draw secondary structure diagrams given a postscript SS template.
+ * Initial development of this program was for SSU rRNA structures
+ * with templates derived from Gutell's CRW (Comparative RNA Website,
+ * http://www.rna.ccbb.utexas.edu/). 
+ *
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <assert.h>
+#include <math.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_distance.h"
+#include "esl_dmatrix.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msafile2.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stack.h"
+#include "esl_tree.h"
+#include "esl_vectorops.h"
+#include "esl_wuss.h"
+
+#define SSDRAWINFINITY 987654321
+#define ERRBUFSIZE 1024
+#define MAXMBWITHOUTFORCE 100
+
+#define ALIMODE 0
+#define INDIMODE 1
+#define SIMPLEMASKMODE 2
+#define INFILEMODE 3
+
+/* CMYK colors, a 4 value array defines a color with values 0..1, 
+ * [0] is cyan value, [1] is magenta, [2] is yellow, [3] is black */
+#define NCMYK 4
+#define ICYAN 0
+#define IMGTA 1
+#define IYELW 2
+#define IBLCK 3
+
+/* indices and sizes for hard-coded color schemes */
+#define NSCHEMES 7
+
+#define RB_11_RH_SCHEME 0 /* RainBow, 11 colors, Red High, blue low  */
+#define RB_11_RL_SCHEME 1 /* RainBow, 11 colors, Red Low,  blue high */
+#define RB_6_RH_SCHEME 2  /* RainBow,  6 colors, Red High, blue low  */
+#define RB_6_RL_SCHEME 3  /* RainBow,  6 colors, Red Low,  blue high */
+#define RB_5_RH_SCHEME 4  /* RainBow,  5 colors, Red High, teal low  */
+#define RB_5_RL_SCHEME 5  /* RainBow,  5 colors, Red low,  teal high */
+#define RB_W5_OH_SCHEME 6 /* RainBow with white, 5 colors, orange high, teal low, white lowest */
+
+#define NRB_11_RH_SCHEME 11
+#define NRB_11_RL_SCHEME 11
+#define NRB_6_RH_SCHEME 6
+#define NRB_6_RL_SCHEME 6
+#define NRB_5_RH_SCHEME 5
+#define NRB_5_RL_SCHEME 5
+#define NRB_W5_OH_SCHEME 5
+
+/* the actual CMYK color values for the scheme colors (_C = cyan, _M = magenta, _Y = yellow, _K = black) */
+
+/* the 11-color rainbow scheme */
+#define RED2BLUE_1_OF_11_C 0.00
+#define RED2BLUE_1_OF_11_M 0.94
+#define RED2BLUE_1_OF_11_Y 1.00
+#define RED2BLUE_1_OF_11_K 0.00
+
+#define RED2BLUE_2_OF_11_C 0.00
+#define RED2BLUE_2_OF_11_M 0.84
+#define RED2BLUE_2_OF_11_Y 1.00
+#define RED2BLUE_2_OF_11_K 0.00
+
+#define RED2BLUE_3_OF_11_C 0.00
+#define RED2BLUE_3_OF_11_M 0.63
+#define RED2BLUE_3_OF_11_Y 1.00
+#define RED2BLUE_3_OF_11_K 0.00
+
+#define RED2BLUE_4_OF_11_C 0.00
+#define RED2BLUE_4_OF_11_M 0.42
+#define RED2BLUE_4_OF_11_Y 1.00
+#define RED2BLUE_4_OF_11_K 0.00
+
+#define RED2BLUE_5_OF_11_C 0.00
+#define RED2BLUE_5_OF_11_M 0.21
+#define RED2BLUE_5_OF_11_Y 1.00
+#define RED2BLUE_5_OF_11_K 0.00
+
+#define RED2BLUE_6_OF_11_C 0.00
+#define RED2BLUE_6_OF_11_M 0.00
+#define RED2BLUE_6_OF_11_Y 1.00
+#define RED2BLUE_6_OF_11_K 0.00
+
+#define RED2BLUE_7_OF_11_C 0.42
+#define RED2BLUE_7_OF_11_M 0.00
+#define RED2BLUE_7_OF_11_Y 1.00
+#define RED2BLUE_7_OF_11_K 0.00
+
+#define RED2BLUE_8_OF_11_C 0.61
+#define RED2BLUE_8_OF_11_M 0.00
+#define RED2BLUE_8_OF_11_Y 0.56
+#define RED2BLUE_8_OF_11_K 0.22
+
+#define RED2BLUE_9_OF_11_C 0.50
+#define RED2BLUE_9_OF_11_M 0.00
+#define RED2BLUE_9_OF_11_Y 0.00
+#define RED2BLUE_9_OF_11_K 0.50
+
+#define RED2BLUE_10_OF_11_C 0.78
+#define RED2BLUE_10_OF_11_M 0.56
+#define RED2BLUE_10_OF_11_Y 0.00
+#define RED2BLUE_10_OF_11_K 0.22
+
+#define RED2BLUE_11_OF_11_C 0.92
+#define RED2BLUE_11_OF_11_M 0.84
+#define RED2BLUE_11_OF_11_Y 0.00
+#define RED2BLUE_11_OF_11_K 0.08
+
+
+/* the 6-color rainbow scheme */
+/* red */
+#define RED2BLUE_1_OF_6_C 0.00
+#define RED2BLUE_1_OF_6_M 0.94
+#define RED2BLUE_1_OF_6_Y 1.00
+#define RED2BLUE_1_OF_6_K 0.00
+
+/* orange-ish */
+#define RED2BLUE_2_OF_6_C 0.00
+#define RED2BLUE_2_OF_6_M 0.63
+#define RED2BLUE_2_OF_6_Y 1.00
+#define RED2BLUE_2_OF_6_K 0.00
+
+/* gold-ish */
+#define RED2BLUE_3_OF_6_C 0.00
+#define RED2BLUE_3_OF_6_M 0.21
+#define RED2BLUE_3_OF_6_Y 1.00
+#define RED2BLUE_3_OF_6_K 0.00
+
+/* light-green-ish */
+#define RED2BLUE_4_OF_6_C 0.42
+#define RED2BLUE_4_OF_6_M 0.00
+#define RED2BLUE_4_OF_6_Y 1.00
+#define RED2BLUE_4_OF_6_K 0.00
+
+/* teal-ish */
+#define RED2BLUE_5_OF_6_C 0.50
+#define RED2BLUE_5_OF_6_M 0.00
+#define RED2BLUE_5_OF_6_Y 0.00
+#define RED2BLUE_5_OF_6_K 0.50
+
+/* blue */
+#define RED2BLUE_6_OF_6_C 0.92
+#define RED2BLUE_6_OF_6_M 0.84
+#define RED2BLUE_6_OF_6_Y 0.00
+#define RED2BLUE_6_OF_6_K 0.08
+
+
+/* single colors for one-cell legends */
+#define NOC            17
+#define CYANOC          0
+#define MAGENTAOC       1
+#define YELLOWOC        2
+#define BLACKOC         3
+#define WHITEOC         4
+#define LIGHTGREYOC     5
+#define GREYOC          6
+#define DARKGREYOC      7
+#define REDOC           8
+#define ORANGEOC        9
+#define TEALOC         10
+#define LIGHTGREENOC   11
+#define GREENOC        12
+#define DARKGREENOC    13
+#define LIGHTPURPLEOC  14
+#define PURPLEOC       15
+#define DARKPURPLEOC   16
+  
+/* the actual CMYK color values for the single colors (_C = cyan, _M = magenta, _Y = yellow, _K = black) */
+#define CYAN_C 1.0
+#define CYAN_M 0.0
+#define CYAN_Y 0.0
+#define CYAN_K 0.0
+
+#define MAGENTA_C 0.0
+#define MAGENTA_M 1.0
+#define MAGENTA_Y 0.0
+#define MAGENTA_K 0.0
+
+#define YELLOW_C 0.0
+#define YELLOW_M 0.0
+#define YELLOW_Y 1.0
+#define YELLOW_K 0.0
+
+#define BLACK_C 0.0
+#define BLACK_M 0.0
+#define BLACK_Y 0.0
+#define BLACK_K 1.0
+
+#define WHITE_C 0.0
+#define WHITE_M 0.0
+#define WHITE_Y 0.0
+#define WHITE_K 0.0
+
+#define LIGHTGREY_C 0.0
+#define LIGHTGREY_M 0.0
+#define LIGHTGREY_Y 0.0
+#define LIGHTGREY_K 0.2
+
+#define GREY_C 0.0
+#define GREY_M 0.0
+#define GREY_Y 0.0
+#define GREY_K  0.5
+
+#define DARKGREY_C 0.0
+#define DARKGREY_M 0.0
+#define DARKGREY_Y 0.0
+#define DARKGREY_K 0.75
+
+#define RED_C 0.0
+#define RED_M 1.0
+#define RED_Y 1.0
+#define RED_K 0.0
+
+#define ORANGE_C 0.0
+#define ORANGE_M 0.5
+#define ORANGE_Y 1.0
+#define ORANGE_K 0.0
+
+#define TEAL_C 0.5
+#define TEAL_M 0.0
+#define TEAL_Y 0.0
+#define TEAL_K 0.5
+
+#define LIGHTGREEN_C 0.5
+#define LIGHTGREEN_M 0.0
+#define LIGHTGREEN_Y 0.5
+#define LIGHTGREEN_K 0.0
+
+#define GREEN_C 1.0
+#define GREEN_M 0.0
+#define GREEN_Y 1.0
+#define GREEN_K 0.0
+
+#define DARKGREEN_C 1.0
+#define DARKGREEN_M 0.5
+#define DARKGREEN_Y 1.0
+#define DARKGREEN_K 0.0
+
+#define LIGHTPURPLE_C 0.3
+#define LIGHTPURPLE_M 0.6
+#define LIGHTPURPLE_Y 0.0
+#define LIGHTPURPLE_K 0.0
+
+#define PURPLE_C 0.5
+#define PURPLE_M 1.0
+#define PURPLE_Y 0.0
+#define PURPLE_K 0.0
+
+#define DARKPURPLE_C 1.0
+#define DARKPURPLE_M 1.0
+#define DARKPURPLE_Y 0.0
+#define DARKPURPLE_K 0.0
+
+/* hard-coded values for the legends */
+#define LEG_NBOXES  11
+#define LEG_MINFONTSIZE 10
+#define SPECIAL_FONT "Courier-BoldOblique"
+#define LEG_FONT "Courier-Bold"
+#define LEG_EXTRA_COLUMNS 12 /* how many extra columns we need for printing stats in the legend */
+#define COURIER_HEIGHT_WIDTH_RATIO 1.65
+#define LEG_EXTRA_TEXT_FONT "Helvetica"
+
+/* fonts and other sizes */
+#define DEFAULT_FONT "Courier-Bold"
+#define FOOTER_FONT "Helvetica"
+#define NUCLEOTIDES_FONT "Courier-Bold" /* NOTE: THIS MUST BE Courier-Bold or Courier, the offsets for drawing cells (CELL_{X,Y}OFFSET_FRACTION) 
+				      * and placing nucleotides (NUCLEOTIDE_{X,Y}OFFSET_FRACTION_LOWERCASE_GJPQY) depend on it */
+/*#define NUCLEOTIDES_FONT "Monaco-Bold"*/
+#define POSNTEXT_FONT "Helvetica"
+#define NUCLEOTIDES_FONTSIZE 8.
+#define POSNTEXT_FONTSIZE 8.
+#define LEG_FONTSIZE_UNSCALED 8
+#define LEG_EXTRA_TEXT_FONTSIZE_UNSCALED 8
+#define HEADER_FONTSIZE_UNSCALED 12
+#define HEADER_MODELNAME_MAXCHARS 20
+#define TICKS_LINEWIDTH 2.
+#define BP_LINEWIDTH 1.
+#define CELLSIZE 8.    /* default size of a cell, a single position in the structure diagram */
+#define CELLSIZE_INT 8 /* default size of a cell, a single position in the structure diagram */
+/* NOTE, *OFFSET_FRACTION* constants below depend on NUCLEOTIDES_FONT being either "Courier-Bold" or "Courier" */
+#define CELL_XOFFSET_FRACTION 0.2
+#define CELL_YOFFSET_FRACTION 0.2
+#define LOWERCASE_LOW_HANGING_CHARS "gjpqy"
+#define NUCLEOTIDE_YOFFSET_FRACTION_LOWERCASE_LOW_HANGING_CHARS 0.1875
+
+/* postscript info */
+#define POSTSCRIPT_PAGEWIDTH 612.
+#define POSTSCRIPT_PAGEHEIGHT 792.
+#define PAGE_TOPBUF 30.  /* 30 blank pts required at top */
+#define PAGE_SIDEBUF 32. /* 32 blank pts required at sides */
+#define PAGE_BOTBUF 30.  /* 30 blank pts required at bot */
+
+/* cell outline info */
+#define OUTLINE_LINEWIDTH_CELL_FRACTION_MIN 0.04
+#define OUTLINE_LINEWIDTH_CELL_FRACTION_MAX 0.16
+#define NOUTLINETYPES 2
+#define OUTLINE_NONE_IDX 0
+#define OUTLINE_MIN_IDX 1
+#define OUTLINE_MAX_IDX 2
+#define OUTLINE_PROCEDURE "box"
+
+/* one cell color legends, special values */
+#define OCCL_BLANK_COUNT -1
+
+/* Structure: scheme_color_legend
+ * Incept:    EPN, Thu Jun 25 20:20:38 2009
+ *
+ * Parameters describing a one-dimensional legend of colors
+ * from a preset scheme for use in a SSPostscript_t data structure.
+ */
+typedef struct scheme_color_legend_s {
+  int    scheme;            /* preset color scheme index */
+  int    nbins;             /* number of colors (bins) in this scheme */
+  char   *text1;            /* first line of text for legend, a single string */
+  char   *text2;            /* second line of text for legend, a single string */
+  float *limits;            /* [nbins+1] limits for each bin, limits[0] is min value we would expect to see, limits[nbins] is max */
+  int   *counts;            /* [nbins] number of cells we've painted each color */
+  int   *counts_masked;     /* [nbins] number of cells within mask ('1's) that we've painted each color */
+  int    ints_only_flag;    /* TRUE if possible values are only integers, legend values will be drawn differently in this case */
+  int    low_inclusive;     /* TRUE if bin 0 is inclusive of limits[0], FALSE if not */
+  int    high_inclusive;    /* TRUE if bin[nbins-1] is inclusive of max value, FALSE if not */
+  int    use_mask;          /* TRUE to use ps->mask if it is available to draw masked positions differently, FALSE not to */
+} SchemeColorLegend_t;
+
+/* Structure: onecell_color_legend
+ * Incept:    EPN, Tue Sep 30 13:06:15 2008
+ *
+ * Parameters describing a single colored cell legend for a
+ * SSPostscript_t data structure.
+ */
+typedef struct onecell_color_legend_s {
+  float  col[NCMYK];        /* [CMYK] color value for the cell */
+  char  *text;              /* description text for legend */
+  char  *celltext;          /* colored text to use instead of a block, if NULL a colored block will be used */
+  char  *procname;          /* name of a procedure for drawing the block, if NULL a colored block will be used */
+  /* NOTE only one of celltext or procname can be non-NULL */
+  float *procstack;         /* array of <nprocstack> stack elements for the procedure */
+  int    nprocstack;        /* num els in <procstack> */
+  int    nres;              /* number of nucleotides colored by the color in col[NCMYK] */
+  int    nres_masked;       /* number of nucleotides within a mask colored by the color in col[NCMYK] */
+  int    do_separator;      /* TRUE to draw a separator line below this one cell color legend, FALSE not to */
+  int    do_no_vspace;      /* when printing one cell, legend, don't add any vertical space after it, usually this is FALSE */
+} OneCellColorLegend_t;
+
+/* Structure: text_legend
+ * Incept:    EPN, Mon Apr 19 07:11:44 2010
+ *
+ * Parameters describing a text section of a legend for a
+ * SSPostscript_t data structure.
+ */
+typedef struct text_legend_s {
+  char  **text_per_line;    /* description text for legend */
+  int     nlines;           /* colored text to use instead of a block, if NULL a colored block will be used */
+  int    do_separator;      /* TRUE to draw a separator line below this text section, FALSE not to */
+} TextLegend_t;
+
+/* Structure: ss_postscript
+ * Incept:    EPN, Mon Jun 23 15:50:30 2008
+ *
+ * A clumsy data structure for storing the information that will
+ * become a postscript secondary structure diagram based on a 
+ * template created by Robin Gutell and colleagues.
+ *
+ */
+typedef struct ss_postscript_s {
+  int     npage;        /* number of pages in eventual postscript */
+  char   *modelname;    /* name of model, read from template file */
+  int    *modeA;        /* [0..npage-1] page mode, ALIMODE, INDIMODE, or SIMPLEMASKMODE */
+  char  **descA;        /* [0..npage-1] description for each page */
+  int     desc_max_chars; /* max num characters for a page description */
+  float   headerx;      /* x coordinate (bottom left corner) of header area */
+  float   headery;      /* y coordinate (bottom left corner) of header area */
+  float   headerx_charsize;/* size of a character in x-dimension in the header */
+  float   headery_charsize;/* size of a character in y-dimension in the header */
+  float   headerx_desc; /* x coordinate (bottom left corner) of header area */
+  int     leg_posn;     /* consensus position for placing legend, read from template */
+  int     leg_cellsize;  /* size of a cell in the legend, (ex. 24 for SSU models) */
+  float   leg_rhs_space;/* extra space to leave to the right of the legend */
+  float   legx_offset;  /* offset in x coordinate for placing legend, legx will be ps->rxA[leg_posn-1] + legx_offset */
+  float   legy_offset;  /* offset in y coordinate for placing legend, legy will be ps->ryA[leg_posn-1] + legy_offset */
+  float   legx;         /* x coordinate (top left corner) of legend area */
+  float   legy;         /* y coordinate (top left corner) of legend area */
+  float   cur_legy;     /* y coordinate of current line in legend */
+  float   legx_charsize;/* size of a character in x-dimension in the legend */
+  float   legy_charsize;/* size of a character in y-dimension in the legend */
+  int     legx_max_chars; /* max num nucleotides in x direction we can print in legend before running off page */
+  int     legy_max_chars; /* max num nucleotides in y direction we can print in legend before running off page */
+  int     legx_stats;   /* x position for printing stats in the legend */
+  float   pagex_max;    /* max x position on page */
+  float   pagey_max;    /* max y position on page */
+  float   scale;        /* scale parameter, read from template file */
+  char  **regurgA;      /* [0..nregurg-1][] lines from the template file to regurgitate, these are unchanged. */
+  int     nregurg;      /* number of lines (char *'s) in the regurg_textAA 2D array */
+  char  **posntextA;    /* [0..i..nposntext-1] string for element i of position text, read from template */
+  float  *posntextxA;   /* [0..i..nposntext-1] x value for posntextA[i] */
+  float  *posntextyA;   /* [0..i..nposntext-1] y value for posntextA[i] */
+  int     nposntext;    /* number of elements in posntextx and posntexty */
+  float  *ticksx1A;     /* [0..nticks-1] x begin value for ticks */
+  float  *ticksx2A;     /* [0..nticks-1] x end   value for ticks */
+  float  *ticksy1A;     /* [0..nticks-1] y begin value for ticks */
+  float  *ticksy2A;     /* [0..nticks-1] x end   value for ticks */
+  int     nticks;       /* number of ticks */
+  float  *bpx1A;        /* [0..nbp-1] x begin value for bp connect line */
+  float  *bpx2A;        /* [0..nbp-1] x end   value for bp connect line */
+  float  *bpy1A;        /* [0..nbp-1] y begin value for bp connect line */
+  float  *bpy2A;        /* [0..nbp-1] x end   value for bp connect line */
+  int     nbp;          /* number of bp */
+  float  *rxA;          /* [0..rflen-1] x coordinate for each nucleotide in the eventual postscript */
+  float  *ryA;          /* [0..rflen-1] y coordinate for each nucleotide in the eventual postscript */
+  int     rflen;         /* the number of nucleotides in the template file */
+  char   **rAA;         /* [0..npage-1][0..rflen-1] nucleotide character in the eventual postscript */
+  float ***rcolAAA;     /* [0..npage-1][0..rflen-1][0..3] color for nucleotide on page p, position c, CMYK in the eventual postscript */
+  float ***bcolAAA;     /* [0..npage-1][0..rflen-1][0..3] color for block   on page p, position c, CMYK in the eventual postscript */
+  char   **otypeAA;     /* [0..npage-1][0..rflen-1] outline type on page p, position c in the eventual postscript 
+			 * '0' '1' or '2', OUTLINE_MIN_IDX, OUTLINE_MID_IDX, OUTLINE_MAX_IDX, respectively */
+  OneCellColorLegend_t ***occlAAA;/* [0..npage-1][0..l..nocclA[p]]  ptr to one cell color legend l for page p */
+  int     *nocclA;      /* [0..npage-1] number of one cell color legends for each page */
+  SchemeColorLegend_t  **sclAA;/* [0..npage-1]  ptr to scheme color legend l for page p, NULL if none */
+  TextLegend_t ***tlAAA;/* [0..npage-1][0..l..ntlA[p]] ptr to text legend l for page p */
+  int     *ntlA;        /* [0..npage-1] number of text legends for page p, NULL if none */
+  char    *mask;        /* mask for this postscript, columns which are '0' get drawn differently */
+  int      nalloc;      /* number of elements to add to arrays when reallocating */
+  int      msa_nseq;    /* number of sequences in the msa, impt b/c msa->nseq will be 0 if --small */
+  char    *msa_cseq_maj;/* [0..rfpos..ps->rflen-1]: consensus sequence for the msa, determined using majority rule */
+  char    *msa_cseq_amb;/* [0..rfpos..ps->rflen-1]: different consensus sequence for the msa, least ambiguous
+			 * nt per nongap RF position that represents >= esl_opt_GetReal(go, --athresh) fraction of 
+			 * nongap nucleotides at position rfpos */
+  int     *msa_ct;      /* [1..ps->rflen] CT array for msa this postscript corresponds to, 
+			 * msa_ct[i] is the position that consensus nucleotide i base pairs to, or 0 if i is unpaired. */
+  int      msa_nbp;     /* number of bps read from current MSA (in msa_ct), should equal nbp, but only if bps read from template file */
+  int     *msa_rf2a_map;/* [0..ps->rflen-1]     = apos, apos is the alignment position (0..msa->alen-1) that is non-gap RF position rfpos (for rfpos in 0..rflen-1) */
+  int     *msa_a2rf_map;/* [0..ps->msa->alen-1] = rfpos, rfpos is the non-gap RF position (0..ps->rflen) that is alignment position apos (for apos in 0..ps->msa_alen-1) */
+  int     *uaseqlenA;   /* [0..ps->msa->nseq-1] unaligned sequence length for all sequences in the MSA, only computed if --indi */
+  int     *seqidxA;     /* [0..ps->npage-1] the sequence index in the MSA each page corresponds to, only valid if --indi */
+  ESL_MSA *msa;         /* pointer to MSA this object corresponds to */
+  const ESL_ALPHABET *abc;	/* ptr to alphabet used to decipher gap chars (msa itself is text mode) */
+} SSPostscript_t;
+
+static SSPostscript_t *create_sspostscript(const ESL_GETOPTS *go);
+static int  setup_sspostscript(SSPostscript_t *ps, char *errbuf);
+static OneCellColorLegend_t *create_onecell_colorlegend(float *cmykA, int nres, int nres_masked, int do_separator, int do_no_vspace);
+static SchemeColorLegend_t  *create_scheme_colorlegend(int scheme, int ncols, float *limits, int ints_only_flag, int low_inclusive, int high_inclusive, int use_mask);
+static TextLegend_t         *create_text_legend(int nlines, char **text_per_line, int do_separator);
+static TextLegend_t         *create_text_legend_for_consensus_sequence(const ESL_GETOPTS *go, int do_separator);
+static int  add_text_to_scheme_colorlegend(SSPostscript_t *ps, SchemeColorLegend_t *scl, char *text, int legx_max_chars, char *errbuf);
+static int  add_text_to_onecell_colorlegend(SSPostscript_t *ps, OneCellColorLegend_t *occl, char *text, int legx_max_chars, char *errbuf);
+static int  add_celltext_to_onecell_colorlegend(SSPostscript_t *ps, OneCellColorLegend_t *occl, char *celltext, char *errbuf);
+static int  add_procedure_to_onecell_colorlegend(SSPostscript_t *ps, OneCellColorLegend_t *occl, char *procname, float *procstack, int nprocstack, char *errbuf);
+static int  add_page_desc_to_sspostscript(SSPostscript_t *ps, int page, char *text, char *errbuf);
+static int  add_diffmask_page_desc_to_sspostscript(SSPostscript_t *ps, int page, char *mask_file, char *maskdiff_file, char *errbuf);
+static int  draw_sspostscript(FILE *fp, const ESL_GETOPTS *go, char *errbuf, char *command, char *date, float ***hc_scheme, SSPostscript_t *ps);
+static int  draw_legend_column_headers(FILE *fp, SSPostscript_t *ps, int pagenum, char *errbuf);
+static int  draw_onecell_colorlegend(FILE *fp, OneCellColorLegend_t *occl, SSPostscript_t *ps, int occl_idx, int pagenum);
+static int  draw_scheme_colorlegend(const ESL_GETOPTS *go, FILE *fp, SchemeColorLegend_t *scl, float **hc_scheme, SSPostscript_t *ps, int pagenum);
+static void free_sspostscript(SSPostscript_t *ps);
+static int  add_pages_sspostscript(SSPostscript_t *ps, int ntoadd, int page_mode);
+static int  parse_template_file(char *filename, const ESL_GETOPTS *go, char *errbuf, int msa_rflen, SSPostscript_t **ret_ps);
+static int  parse_template_page(ESL_FILEPARSER *efp, const ESL_GETOPTS *go, char *errbuf, SSPostscript_t **ret_ps);
+static int  parse_modelname_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps);
+static int  parse_legend_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps);
+static int  parse_scale_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps);
+static int  parse_ignore_section(ESL_FILEPARSER *efp, char *errbuf, int *ret_read_showpage);
+static int  parse_regurgitate_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps);
+static int  parse_text_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps);
+static int  parse_lines_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps);
+static int  validate_justread_sspostscript(SSPostscript_t *ps, char *errbuf);
+static int  validate_and_update_sspostscript_given_msa(const ESL_GETOPTS *go, const ESL_ALPHABET *abc, SSPostscript_t *ps, ESL_MSA *msa, int msa_nseq, char *errbuf);
+static int  read_mask_file(char *filename, char *errbuf, char **ret_mask, int *ret_masklen, int *ret_mask_has_internal_zeroes);
+static void PairCount(const ESL_ALPHABET *abc, double *counters, ESL_DSQ syml, ESL_DSQ symr, double wt);
+static int  get_command(const ESL_GETOPTS *go, char *errbuf, char **ret_command);
+static int  get_date(char *errbuf, char **ret_date);
+static int  set_scheme_values(char *errbuf, float *vec, int ncolvals, float **scheme, float val, SchemeColorLegend_t *scl, int within_mask, int *ret_bi);
+static int  set_onecell_values(char *errbuf, float *vec, int ncolvals, float *onecolor);
+static int  add_mask_to_ss_postscript(SSPostscript_t *ps, char *mask);
+static int  draw_masked_block(FILE *fp, float x, float y, float *colvec, int do_circle_mask, int do_square_mask, int do_x_mask, int do_border, float cellsize);
+static int  draw_header_and_footer(FILE *fp, const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int page, int pageidx2print);
+static void get_insert_info_from_msa(const ESL_ALPHABET *abc, ESL_MSA *msa, int rflen, int **ret_nseq_with_ins_ct, int **ret_nins_ct, int ***ret_per_seq_ins_ct);
+static void get_insert_info_from_abc_ct(double **abc_ct, ESL_ALPHABET *abc, char *msa_rf, int64_t msa_alen, int rflen, int **ret_nseq_with_ins_ct, int **ret_nins_ct);
+static void get_insert_info_from_ifile(char *ifile, int rflen, int msa_nseq, ESL_KEYHASH *useme_keyhash, int **ret_nseq_with_ins_ct, int **ret_nins_ct, int ***ret_per_seq_ins_ct, int **ret_soff_ct, int **ret_eoff_ct);
+static int  count_msa(const ESL_ALPHABET *abc, ESL_MSA *msa, char *errbuf, double ***ret_abc_ct, double ****ret_bp_ct, double ***ret_pp_ct, int **ret_spos_ct, int **ret_epos_ct);
+static int  get_consensus_seqs_from_abc_ct(const ESL_GETOPTS *go,SSPostscript_t *ps, char *errbuf, double **abc_ct, ESL_ALPHABET *abc, int64_t msa_alen);
+static int  infocontent_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **abc_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_onecell_idx, FILE *tabfp);
+static int  mutual_information_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double ***bp_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int ss_idx, int zerores_idx, FILE *tabfp);
+static int  delete_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **abc_ct, int *span_ct, int msa_nseq, int do_all, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_zerodel_idx, int hc_fewdel_idx, FILE *tabfp);
+static int  avg_posteriors_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **pp_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_onecell_idx, FILE *tabfp);
+static int  insertfreq_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int *nseq_with_ins_ct, int *span_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_zeroins_idx, int hc_fewins_idx, FILE *tabfp);
+static int  insertavglen_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int *nseq_with_ins_ct, int *nins_ct, int *span_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_zeroins_idx, FILE *tabfp);
+static int  span_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int *span_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int zercov_idx, int maxcov_idx, FILE *tabfp);
+static int  individuals_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **abc_ct, ESL_MSA *msa, int **per_seq_ins_ct, int do_prob, int do_rescol, float ***hc_scheme, int hc_scheme_idx_s, int hc_scheme_idx_p, int hc_nbins_s, int hc_nbins_p, float **hc_onecell, int extdel_idx_s, int wcbp_idx_s, int gubp_idx_s, int ncbp_idx_s, int dgbp_idx_s, int hgbp_idx_s, int gap_idx_p, FILE *tabfp);
+static int  cons_seq_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, float **hc_onecell, int wcbp_idx_s, int gubp_idx_s, int ncbp_idx_s, int dgbp_idx_s, int hgbp_idx_s);
+static int  rf_seq_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, ESL_MSA *msa, int do_rescol, float **hc_onecell, int wcbp_idx_s, int gubp_idx_s, int ncbp_idx_s);
+static int  colormask_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, ESL_MSA *msa, float **hc_onecell, int incmask_idx, int excmask_idx);
+static int  diffmask_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, ESL_MSA *msa, char *mask2, float **hc_onecell, int incboth_idx, int inc1_idx, int inc2_idx, int excboth_idx);
+static int  drawfile2sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, float ***hc_scheme, int hc_scheme_idx, int hc_nbins);
+static int  expertfile2sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps);
+static int  get_pp_idx(const ESL_ALPHABET *abc, char ppchar);
+static int  get_span_ct(int *msa_rf2a_map, int64_t alen, int rflen, int nseq, int *spos_ct, int *epos_ct, int *srfoff_ct, int *erfoff_ct, int **ret_span_ct);
+static int  is_watson_crick_bp(char i, char j);
+static int  is_gu_or_ug_bp(char i, char j);
+static int  compare_two_cmyk_colors(float acol_C, float acol_M, float acol_Y, float acol_K, float bcol_C, float bcol_M, float bcol_Y, float bcol_K);
+static void define_outline_procedure(FILE *fp);
+
+static char banner[] = "draw postscript secondary structure diagrams";
+static char usage[]  = "[options] <msafile> <SS postscript template> <output postscript file name>\n\
+The <msafile> must be in Stockholm format.";
+
+static ESL_OPTIONS options[] = {
+  /* name       type        default env   range togs  reqs         incomp     help                                                   docgroup */
+  { "-h",       eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "help; show brief info on version and usage",              1 },
+  { "-d",       eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw default set of alignment summary diagrams",          1 },
+  { "--mask",   eslARG_INFILE, NULL, NULL, NULL, NULL,NULL,        NULL,      "for all diagrams, mark masked ('0') columns from mask in <f>", 1 },
+  { "--small",  eslARG_NONE,   NULL, NULL, NULL, NULL,NULL,        NULL,      "operate in small memory mode (aln must be 1 line/seq Pfam format)", 1 },
+
+  { "--cons",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw diagram showing the alignment's consensus sequence", 2 },
+  { "--info",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw information content diagram", 2 },
+  { "--mutinfo",eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw base pair mutual information diagram", 2 },
+  { "--ifreq",  eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw insert frequency diagram", 2 },
+  { "--iavglen",eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw average insert length diagram", 2 },
+  { "--dall",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw delete diagram w/all deletions (incl. terminal deletes)", 2 },
+  { "--prob",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw average posterior probability diagram", 2 },
+  { "--span",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw diagram showing fraction of seqs that span each posn", 2 },
+  { "--rf",     eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw diagram showing reference (#=GC RF) sequence", 2 },
+  { "--dint",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "draw delete diagram w/only internal (non-terminal) deletions", 2 },
+  { "--tabfile",eslARG_OUTFILE,NULL, NULL, NULL, NULL,NULL,        NULL,      "output per position data in tabular format to file <f>", 2 },
+
+  { "--indi",   eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        "--small", "draw diagrams for individual sequences in the alignment", 3 },
+  { "-f",       eslARG_NONE,  FALSE, NULL, NULL, NULL,"--indi",    NULL,      "force; w/--indi draw all seqs, even if predicted output >100 Mb", 3 },
+
+  { "--no-pp",   eslARG_NONE, FALSE, NULL, NULL, NULL,"--indi",    NULL,      "with --indi, do not draw indi posterior probability diagrams", 9 },
+  { "--no-bp",   eslARG_NONE, FALSE, NULL, NULL, NULL,NULL,        NULL,      "do not color nucleotides based on basepair type", 9 },
+  { "--no-ol",   eslARG_NONE, FALSE, NULL, NULL, NULL,"--indi",    NULL,      "w/--indi, do not outline nts that are not most common nt", 9 },
+  { "--no-ntpp", eslARG_NONE, FALSE, NULL, NULL, NULL,"--indi", "--no-pp", "w/--indi, do not draw nts on individual post prob diagrams", 9 },
+
+  { "--no-cnt", eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,       NULL,       "do not draw consensus nts on alignment summary diagrams", 7 },
+  { "--cthresh",eslARG_REAL, "0.75", NULL,"0<x<=1.0", NULL,NULL, "--no-cnt", "capitalize cons nts occuring in >= <x> fraction of seqs", 7 },
+  { "--cambig", eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,      "--no-cnt", "allow ambiguous nts in consensus sequence", 7 },
+  { "--athresh",eslARG_REAL,  "0.9", NULL,"0<x<=1.0", NULL,"--cambig",NULL,   "w/--cambig, cons nt must represent >= <x> fraction of seqs", 7 },
+
+  { "--mask-u", eslARG_NONE,  FALSE, NULL, NULL, NULL,"--mask",    "--mask-x","with --mask, mark masked columns as squares", 4 },
+  { "--mask-x", eslARG_NONE,  FALSE, NULL, NULL, NULL,"--mask",    "--mask-u","with --mask, mark masked columns as x's", 4 },
+  { "--mask-a", eslARG_NONE,  FALSE, NULL, NULL, NULL,"--mask",    NULL,      "with --mask-u or --mask-x, draw alternative mask style", 4 },
+
+  { "--mask-col", eslARG_NONE,  NULL,NULL, NULL, NULL,"--mask",    NULL,      "w/--mask draw two color diagram denoting masked columns", 5 },
+  { "--mask-diff",eslARG_INFILE,NULL,NULL, NULL, NULL,"--mask",    NULL,      "with --mask <f1>, compare mask in <f1> to mask in <f>",   5 },
+
+  { "--dfile",   eslARG_INFILE, NULL,NULL, NULL, NULL,NULL,        NULL,      "read 'draw file' specifying >=1 diagrams", 6 },
+  { "--efile",   eslARG_INFILE, NULL,NULL, NULL, NULL,NULL,        NULL,      "read 'expert draw file' specifying >=1 diagrams", 6 },
+  { "--ifile",   eslARG_INFILE, NULL,NULL, NULL, NULL,NULL,        NULL,      "read insert information from cmalign insert file <f>", 6 },
+
+  { "--no-leg", eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "do not draw legend", 8 },
+  { "--no-head",eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "do not draw header", 8 },
+  { "--no-foot",eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,        NULL,      "do not draw footer", 8 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = NULL;	/* application configuration       */
+  ESL_ALPHABET   *abc     = NULL;	/* biological alphabet             */
+  char           *alifile = NULL;	/* alignment file name             */
+  char           *outfile = NULL;	/* output ps file name             */
+  char           *templatefile = NULL;  /* template file, specifying >= 1 SS diagrams 
+		  		         * (each must have a unique consensus length) */
+  int             fmt;		        /* format code for alifile         */
+  ESLX_MSAFILE   *afp     = NULL;	/* open alignment file, normal interface              */
+  ESL_MSAFILE2   *afp2    = NULL;	/* open alignment file, legacy small-memory interface */
+  ESL_MSA        *msa     = NULL;	/* one multiple sequence alignment */
+  int             status;		/* easel return code               */
+  int             rflen;                 /* non-gap RF (consensus) length of each alignment */
+  int             apos;                 /* counter over alignment positions */
+  char            errbuf[ERRBUFSIZE];   /* for printing error messages */
+  FILE           *ofp       = NULL;     /* output file for postscript */
+  FILE           *tabfp    = NULL;      /* output file for text data, only set to non-null if --tabfile enabled */
+  SSPostscript_t *ps        = NULL;     /* the postscript data structure we create */
+  int            *hc_nbins  = NULL;     /* hard-coded number of bins (colors) for each possible scheme */
+  float        ***hc_scheme = NULL;     /* colors for each pre-defined scheme */
+  float         **hc_onecell = NULL;    /* single colors used for binary color schemes */
+  int             z;                    /* counter */
+  char           *command = NULL;       /* string for printing command to stdout */
+  char           *date = NULL;          /* date command was executed */
+  char           *mask = NULL;          /* first mask we'll use, string of '0's and '1's */
+  int             masklen;              /* length of mask */
+  char           *mask2 = NULL;         /* second mask we'll use, string of '0's and '1's */
+  int             mask2len;             /* length of second mask */
+  int             mask_has_internal_zeroes = FALSE;  /* does mask have any '0's with at least '1' on both sides? */
+  int             mask2_has_internal_zeroes = FALSE; /* does mask have any '0's with at least '1' on both sides? */
+ /* counts of relevant values from the msa */
+  int            *nseq_with_ins_ct = NULL; /* [0..ps->rflen] number of sequences with >=1 insert after each consensus position, only used if --ifreq */
+  int            *nins_ct = NULL;          /* [0..ps->rflen] total number of inserted nucleotides (over all seqs) after each consensus position, only used if --ifreq */
+  int           **per_seq_ins_ct = NULL;   /* [0..msa->nseq-1][0..ps->rflen] for each sequence, the number of inserts after each consensus position */
+  double        **abc_ct = NULL;        /* [0..msa->alen-1][0..abc->K], count of each nucleotide at each position, over all sequences, missing and nonnucleotides are *not counted* */
+  double       ***bp_ct = NULL;         /* [0..msa->alen-1][0..abc->Kp][0..abc->Kp], count of each possible base pair at each position, over all sequences, missing and nonnucleotides are *not counted* 
+                                           base pairs are indexed by 'i' for a base pair between positions i and j, where i < j. */
+  double        **pp_ct = NULL;         /* [0..msa->alen-1][0..11], count of reach posterior probability (PP) code, over all sequences, gap is 11 */
+  int            *spos_ct = NULL;       /* [0..msa->alen-1] per position count of first non-gap position, over all seqs */
+  int            *epos_ct = NULL;       /* [0..msa->alen-1] per position count of final non-gap position, over all seqs */
+  int            *srfoff_ct = NULL;     /* [0..rfpos..rflen-1], correction for spos_ct for rfpos, derived from ifile, only used if msa has had all insert columns removed */
+  int            *erfoff_ct = NULL;     /* [0..rfpos..rflen-1], correction for epos_ct for rfpos, derived from ifile, only used if msa has had all insert columns removed */
+  int            *span_ct = NULL;       /* [0..rfpos..rflen-1], number of sequences that 'span' position rfpos */
+  int64_t         msa_alen;             /* msa->alen */
+  int             msa_nseq;             /* msa->nseq */
+  /* variables related to small memory mode */
+  int             do_small = TRUE;      /* TRUE to operate in small memory mode, FALSE not to */
+  /* variables storing which pages to print */
+  int             do_default_set = TRUE;  /* TRUE if no options telling specifying what pages to draw were selected */
+  int             do_cons = FALSE;        
+  int             do_rf = FALSE;        
+  int             do_info = FALSE;      
+  int             do_mutinfo = FALSE;   
+  int             do_ifreq = FALSE;      
+  int             do_iavglen = FALSE;      
+  int             do_dall = FALSE;     
+  int             do_dint = FALSE;     
+  int             do_prob = FALSE;     
+  int             do_span = FALSE;     
+  int             do_indi = FALSE;     
+  int             do_maskcol = FALSE;   
+  int             do_maskdiff = FALSE;
+  int             do_dfile = FALSE;
+  int             do_efile = FALSE;
+  int             need_span_ct = FALSE;  /* TRUE if span_ct must be calculated (if do_dint || do_ifreq || do_iavglen || do_span) */
+  int             tmp_Mb = 0;          
+  int             predicted_Mb = 0;    /* predicted size of the output file, calced if --indi */
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if (esl_opt_GetBoolean(go, "-h") )
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage (stdout, argv[0], usage);
+      puts("\n where basic options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+      puts("\noptions for alignment summary diagrams (incompatible with --indi):");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+      puts("\noptions for drawing individual sequences (require --indi):");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); 
+      puts("\noptions for omitting parts of the diagram:");
+      esl_opt_DisplayHelp(stdout, go, 8, 2, 80); 
+      puts("\noptions for drawing simple two color diagrams of masks:");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+      puts("\nexpert options for controlling individual seq diagrams (require --indi):");
+      esl_opt_DisplayHelp(stdout, go, 9, 2, 80); 
+      puts("\nexpert options related to consensus sequence definition:");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80); 
+      puts("\nexpert options controlling style of masked positions:");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+      puts("\nexpert options related to input files:");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80); 
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go) != 3) 
+    {
+      printf("Incorrect number of command line arguments.\n");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  /* Check for incompatible options that aren't simple to check with esl_getopts */
+  /* --mask-a requires either --mask-x or --mask-u */
+  if (esl_opt_IsOn(go, "--mask-a") && (! esl_opt_IsOn(go, "--mask-u")) && (! esl_opt_IsOn(go, "--mask-x"))) { 
+    esl_fatal("--mask-a requires either --mask-u or mask-x");
+  }
+
+  alifile      = esl_opt_GetArg(go, 1);
+  templatefile = esl_opt_GetArg(go, 2);
+  outfile      = esl_opt_GetArg(go, 3);
+
+  if((status = get_command(go, errbuf, &command)) != eslOK) esl_fatal(errbuf);
+  if((status = get_date(errbuf, &date))           != eslOK) esl_fatal(errbuf);
+
+  /****************/
+  /* Premlinaries */
+  /****************/
+  /* allocate and fill predefined one-cell colors, these are hardcoded */
+  ESL_ALLOC(hc_onecell, sizeof(float *) * NOC);
+  for(z = 0; z < NOC; z++) hc_onecell[z] = NULL;
+  for(z = 0; z < NOC; z++) { ESL_ALLOC(hc_onecell[z], sizeof(float) * NCMYK); }
+  
+  hc_onecell[CYANOC][ICYAN] = CYAN_C;
+  hc_onecell[CYANOC][IMGTA] = CYAN_M;
+  hc_onecell[CYANOC][IYELW] = CYAN_Y;
+  hc_onecell[CYANOC][IBLCK] = CYAN_K;
+
+  hc_onecell[MAGENTAOC][ICYAN] = MAGENTA_C;
+  hc_onecell[MAGENTAOC][IMGTA] = MAGENTA_M;
+  hc_onecell[MAGENTAOC][IYELW] = MAGENTA_Y;
+  hc_onecell[MAGENTAOC][IBLCK] = MAGENTA_K;
+
+  hc_onecell[YELLOWOC][ICYAN] = YELLOW_C;
+  hc_onecell[YELLOWOC][IMGTA] = YELLOW_M;
+  hc_onecell[YELLOWOC][IYELW] = YELLOW_Y;
+  hc_onecell[YELLOWOC][IBLCK] = YELLOW_K;
+
+  hc_onecell[BLACKOC][ICYAN] = BLACK_C;
+  hc_onecell[BLACKOC][IMGTA] = BLACK_M;
+  hc_onecell[BLACKOC][IYELW] = BLACK_Y;
+  hc_onecell[BLACKOC][IBLCK] = BLACK_K;
+
+  hc_onecell[WHITEOC][ICYAN] = WHITE_C;
+  hc_onecell[WHITEOC][IMGTA] = WHITE_M;
+  hc_onecell[WHITEOC][IYELW] = WHITE_Y;
+  hc_onecell[WHITEOC][IBLCK] = WHITE_K;
+
+  hc_onecell[LIGHTGREYOC][ICYAN] = LIGHTGREY_C;
+  hc_onecell[LIGHTGREYOC][IMGTA] = LIGHTGREY_M;
+  hc_onecell[LIGHTGREYOC][IYELW] = LIGHTGREY_Y;
+  hc_onecell[LIGHTGREYOC][IBLCK] = LIGHTGREY_K;
+
+  hc_onecell[GREYOC][ICYAN] = GREY_C;
+  hc_onecell[GREYOC][IMGTA] = GREY_M;
+  hc_onecell[GREYOC][IYELW] = GREY_Y;
+  hc_onecell[GREYOC][IBLCK] = GREY_K;
+
+  hc_onecell[DARKGREYOC][ICYAN] = DARKGREY_C;
+  hc_onecell[DARKGREYOC][IMGTA] = DARKGREY_M;
+  hc_onecell[DARKGREYOC][IYELW] = DARKGREY_Y;
+  hc_onecell[DARKGREYOC][IBLCK] = DARKGREY_K;
+
+  hc_onecell[REDOC][ICYAN] = RED_C;
+  hc_onecell[REDOC][IMGTA] = RED_M;
+  hc_onecell[REDOC][IYELW] = RED_Y;
+  hc_onecell[REDOC][IBLCK] = RED_K;
+
+  hc_onecell[ORANGEOC][ICYAN] = ORANGE_C;
+  hc_onecell[ORANGEOC][IMGTA] = ORANGE_M;
+  hc_onecell[ORANGEOC][IYELW] = ORANGE_Y;
+  hc_onecell[ORANGEOC][IBLCK] = ORANGE_K;
+
+  hc_onecell[TEALOC][ICYAN] = TEAL_C;
+  hc_onecell[TEALOC][IMGTA] = TEAL_M;
+  hc_onecell[TEALOC][IYELW] = TEAL_Y;
+  hc_onecell[TEALOC][IBLCK] = TEAL_K;
+
+  hc_onecell[LIGHTGREENOC][ICYAN] = LIGHTGREEN_C;
+  hc_onecell[LIGHTGREENOC][IMGTA] = LIGHTGREEN_M;
+  hc_onecell[LIGHTGREENOC][IYELW] = LIGHTGREEN_Y;
+  hc_onecell[LIGHTGREENOC][IBLCK] = LIGHTGREEN_K;
+
+  hc_onecell[GREENOC][ICYAN] = GREEN_C;
+  hc_onecell[GREENOC][IMGTA] = GREEN_M;
+  hc_onecell[GREENOC][IYELW] = GREEN_Y;
+  hc_onecell[GREENOC][IBLCK] = GREEN_K;
+
+  hc_onecell[DARKGREENOC][ICYAN] = DARKGREEN_C;
+  hc_onecell[DARKGREENOC][IMGTA] = DARKGREEN_M;
+  hc_onecell[DARKGREENOC][IYELW] = DARKGREEN_Y;
+  hc_onecell[DARKGREENOC][IBLCK] = DARKGREEN_K;
+
+  hc_onecell[LIGHTPURPLEOC][ICYAN] = LIGHTPURPLE_C;
+  hc_onecell[LIGHTPURPLEOC][IMGTA] = LIGHTPURPLE_M;
+  hc_onecell[LIGHTPURPLEOC][IYELW] = LIGHTPURPLE_Y;
+  hc_onecell[LIGHTPURPLEOC][IBLCK] = LIGHTPURPLE_K;
+
+  hc_onecell[PURPLEOC][ICYAN] = PURPLE_C;
+  hc_onecell[PURPLEOC][IMGTA] = PURPLE_M;
+  hc_onecell[PURPLEOC][IYELW] = PURPLE_Y;
+  hc_onecell[PURPLEOC][IBLCK] = PURPLE_K;
+
+  hc_onecell[DARKPURPLEOC][ICYAN] = DARKPURPLE_C;
+  hc_onecell[DARKPURPLEOC][IMGTA] = DARKPURPLE_M;
+  hc_onecell[DARKPURPLEOC][IYELW] = DARKPURPLE_Y;
+  hc_onecell[DARKPURPLEOC][IBLCK] = DARKPURPLE_K;
+
+  /***********************************/
+  /* allocate and fill predefined color schemes, these are hardcoded */
+  ESL_ALLOC(hc_scheme, sizeof(float **) * NSCHEMES);
+  for (z = 0; z < NSCHEMES; z++) hc_scheme[z] = NULL;
+
+  ESL_ALLOC(hc_nbins, sizeof(int) * NSCHEMES);
+  hc_nbins[RB_11_RH_SCHEME] = NRB_11_RH_SCHEME;
+  hc_nbins[RB_11_RL_SCHEME] = NRB_11_RL_SCHEME;
+  hc_nbins[RB_6_RH_SCHEME]  = NRB_6_RH_SCHEME;
+  hc_nbins[RB_6_RL_SCHEME]  = NRB_6_RL_SCHEME;
+  hc_nbins[RB_5_RH_SCHEME]  = NRB_5_RH_SCHEME;
+  hc_nbins[RB_5_RL_SCHEME]  = NRB_5_RL_SCHEME;
+  hc_nbins[RB_W5_OH_SCHEME] = NRB_W5_OH_SCHEME;
+
+  /* RB_11_RH_SCHEME RainBow, 11 colors, Red High, blue low  */
+  ESL_ALLOC(hc_scheme[RB_11_RH_SCHEME], sizeof(float *) * NRB_11_RH_SCHEME); 
+  for(z = 0; z < NRB_11_RH_SCHEME; z++) hc_scheme[RB_11_RH_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_11_RH_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_11_RH_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /* RB_11_RL_SCHEME RainBow, 11 colors, Red Low,  blue high */
+  ESL_ALLOC(hc_scheme[RB_11_RL_SCHEME], sizeof(float *) * NRB_11_RL_SCHEME); 
+  for(z = 0; z < NRB_11_RL_SCHEME; z++) hc_scheme[RB_11_RL_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_11_RL_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_11_RL_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /* RB_6_RH_SCHEME RainBow,  6 colors, Red High, blue low  */
+  ESL_ALLOC(hc_scheme[RB_6_RH_SCHEME], sizeof(float *) * NRB_6_RH_SCHEME); 
+  for(z = 0; z < NRB_6_RH_SCHEME; z++) hc_scheme[RB_6_RH_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_6_RH_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_6_RH_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /* RB_6_RL_SCHEME RainBow,  6 colors, Red Low,  blue high */
+  ESL_ALLOC(hc_scheme[RB_6_RL_SCHEME], sizeof(float *) * NRB_6_RL_SCHEME); 
+  for(z = 0; z < NRB_6_RL_SCHEME; z++) hc_scheme[RB_6_RL_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_6_RL_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_6_RL_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /* RB_5_RH_SCHEME RainBow,  5 colors, Red High, blue low  */
+  ESL_ALLOC(hc_scheme[RB_5_RH_SCHEME], sizeof(float *) * NRB_5_RH_SCHEME); 
+  for(z = 0; z < NRB_5_RH_SCHEME; z++) hc_scheme[RB_5_RH_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_5_RH_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_5_RH_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /* RB_5_RL_SCHEME RainBow,  5 colors, Red Low,  blue high */
+  ESL_ALLOC(hc_scheme[RB_5_RL_SCHEME], sizeof(float *) * NRB_5_RL_SCHEME); 
+  for(z = 0; z < NRB_5_RL_SCHEME; z++) hc_scheme[RB_5_RL_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_5_RL_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_5_RL_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /* RB_W5_OH_SCHEME RainBow with white, 5 colors, Orange High,  teal low, white lowest */
+  ESL_ALLOC(hc_scheme[RB_W5_OH_SCHEME], sizeof(float *) * NRB_W5_OH_SCHEME); 
+  for(z = 0; z < NRB_W5_OH_SCHEME; z++) hc_scheme[RB_W5_OH_SCHEME][z] = NULL;
+  for(z = 0; z < NRB_W5_OH_SCHEME; z++) { ESL_ALLOC(hc_scheme[RB_W5_OH_SCHEME][z], sizeof(float) * NCMYK); }
+
+  /***********************************/
+  /* fill scheme colors */
+
+  /* the 5 and 6 color rainbow schemes (the 5 color schemes are identical to the 6 color ones, they just omit blue */
+  hc_scheme[RB_6_RL_SCHEME][0][ICYAN] = hc_scheme[RB_6_RH_SCHEME][5][ICYAN] = hc_scheme[RB_5_RL_SCHEME][0][ICYAN] = hc_scheme[RB_5_RL_SCHEME][4][ICYAN] = RED2BLUE_1_OF_6_C;
+  hc_scheme[RB_6_RL_SCHEME][0][IMGTA] = hc_scheme[RB_6_RH_SCHEME][5][IMGTA] = hc_scheme[RB_5_RL_SCHEME][0][IMGTA] = hc_scheme[RB_5_RL_SCHEME][4][IMGTA] = RED2BLUE_1_OF_6_M;
+  hc_scheme[RB_6_RL_SCHEME][0][IYELW] = hc_scheme[RB_6_RH_SCHEME][5][IYELW] = hc_scheme[RB_5_RL_SCHEME][0][IYELW] = hc_scheme[RB_5_RL_SCHEME][4][IYELW] = RED2BLUE_1_OF_6_Y;
+  hc_scheme[RB_6_RL_SCHEME][0][IBLCK] = hc_scheme[RB_6_RH_SCHEME][5][IBLCK] = hc_scheme[RB_5_RL_SCHEME][0][IBLCK] = hc_scheme[RB_5_RL_SCHEME][4][IBLCK] = RED2BLUE_1_OF_6_K;
+
+  hc_scheme[RB_6_RL_SCHEME][1][ICYAN] = hc_scheme[RB_6_RH_SCHEME][4][ICYAN] = hc_scheme[RB_5_RL_SCHEME][1][ICYAN] = hc_scheme[RB_5_RL_SCHEME][3][ICYAN] = RED2BLUE_2_OF_6_C;
+  hc_scheme[RB_6_RL_SCHEME][1][IMGTA] = hc_scheme[RB_6_RH_SCHEME][4][IMGTA] = hc_scheme[RB_5_RL_SCHEME][1][IMGTA] = hc_scheme[RB_5_RL_SCHEME][3][IMGTA] = RED2BLUE_2_OF_6_M;
+  hc_scheme[RB_6_RL_SCHEME][1][IYELW] = hc_scheme[RB_6_RH_SCHEME][4][IYELW] = hc_scheme[RB_5_RL_SCHEME][1][IYELW] = hc_scheme[RB_5_RL_SCHEME][3][IYELW] = RED2BLUE_2_OF_6_Y;
+  hc_scheme[RB_6_RL_SCHEME][1][IBLCK] = hc_scheme[RB_6_RH_SCHEME][4][IBLCK] = hc_scheme[RB_5_RL_SCHEME][1][IBLCK] = hc_scheme[RB_5_RL_SCHEME][3][IBLCK] = RED2BLUE_2_OF_6_K;
+
+  hc_scheme[RB_6_RL_SCHEME][2][ICYAN] = hc_scheme[RB_6_RH_SCHEME][3][ICYAN] = hc_scheme[RB_5_RL_SCHEME][2][ICYAN] = hc_scheme[RB_5_RL_SCHEME][2][ICYAN] = RED2BLUE_3_OF_6_C;
+  hc_scheme[RB_6_RL_SCHEME][2][IMGTA] = hc_scheme[RB_6_RH_SCHEME][3][IMGTA] = hc_scheme[RB_5_RL_SCHEME][2][IMGTA] = hc_scheme[RB_5_RL_SCHEME][2][IMGTA] = RED2BLUE_3_OF_6_M;
+  hc_scheme[RB_6_RL_SCHEME][2][IYELW] = hc_scheme[RB_6_RH_SCHEME][3][IYELW] = hc_scheme[RB_5_RL_SCHEME][2][IYELW] = hc_scheme[RB_5_RL_SCHEME][2][IYELW] = RED2BLUE_3_OF_6_Y;
+  hc_scheme[RB_6_RL_SCHEME][2][IBLCK] = hc_scheme[RB_6_RH_SCHEME][3][IBLCK] = hc_scheme[RB_5_RL_SCHEME][2][IBLCK] = hc_scheme[RB_5_RL_SCHEME][2][IBLCK] = RED2BLUE_3_OF_6_K;
+
+  hc_scheme[RB_6_RL_SCHEME][3][ICYAN] = hc_scheme[RB_6_RH_SCHEME][2][ICYAN] = hc_scheme[RB_5_RL_SCHEME][3][ICYAN] = hc_scheme[RB_5_RL_SCHEME][1][ICYAN] = RED2BLUE_4_OF_6_C;
+  hc_scheme[RB_6_RL_SCHEME][3][IMGTA] = hc_scheme[RB_6_RH_SCHEME][2][IMGTA] = hc_scheme[RB_5_RL_SCHEME][3][IMGTA] = hc_scheme[RB_5_RL_SCHEME][1][IMGTA] = RED2BLUE_4_OF_6_M;
+  hc_scheme[RB_6_RL_SCHEME][3][IYELW] = hc_scheme[RB_6_RH_SCHEME][2][IYELW] = hc_scheme[RB_5_RL_SCHEME][3][IYELW] = hc_scheme[RB_5_RL_SCHEME][1][IYELW] = RED2BLUE_4_OF_6_Y;
+  hc_scheme[RB_6_RL_SCHEME][3][IBLCK] = hc_scheme[RB_6_RH_SCHEME][2][IBLCK] = hc_scheme[RB_5_RL_SCHEME][3][IBLCK] = hc_scheme[RB_5_RL_SCHEME][1][IBLCK] = RED2BLUE_4_OF_6_K;
+
+  hc_scheme[RB_6_RL_SCHEME][4][ICYAN] = hc_scheme[RB_6_RH_SCHEME][1][ICYAN] = hc_scheme[RB_5_RL_SCHEME][4][ICYAN] = hc_scheme[RB_5_RL_SCHEME][0][ICYAN] = RED2BLUE_5_OF_6_C;
+  hc_scheme[RB_6_RL_SCHEME][4][IMGTA] = hc_scheme[RB_6_RH_SCHEME][1][IMGTA] = hc_scheme[RB_5_RL_SCHEME][4][IMGTA] = hc_scheme[RB_5_RL_SCHEME][0][IMGTA] = RED2BLUE_5_OF_6_M;
+  hc_scheme[RB_6_RL_SCHEME][4][IYELW] = hc_scheme[RB_6_RH_SCHEME][1][IYELW] = hc_scheme[RB_5_RL_SCHEME][4][IYELW] = hc_scheme[RB_5_RL_SCHEME][0][IYELW] = RED2BLUE_5_OF_6_Y;
+  hc_scheme[RB_6_RL_SCHEME][4][IBLCK] = hc_scheme[RB_6_RH_SCHEME][1][IBLCK] = hc_scheme[RB_5_RL_SCHEME][4][IBLCK] = hc_scheme[RB_5_RL_SCHEME][0][IBLCK] = RED2BLUE_5_OF_6_K;
+
+  hc_scheme[RB_6_RL_SCHEME][5][ICYAN] = hc_scheme[RB_6_RH_SCHEME][0][ICYAN] = RED2BLUE_6_OF_6_C;
+  hc_scheme[RB_6_RL_SCHEME][5][IMGTA] = hc_scheme[RB_6_RH_SCHEME][0][IMGTA] = RED2BLUE_6_OF_6_M;
+  hc_scheme[RB_6_RL_SCHEME][5][IYELW] = hc_scheme[RB_6_RH_SCHEME][0][IYELW] = RED2BLUE_6_OF_6_Y;
+  hc_scheme[RB_6_RL_SCHEME][5][IBLCK] = hc_scheme[RB_6_RH_SCHEME][0][IBLCK] = RED2BLUE_6_OF_6_K;
+
+  /* the special 4 color, plus white color scheme */
+  hc_scheme[RB_W5_OH_SCHEME][0][ICYAN] = WHITE_C;
+  hc_scheme[RB_W5_OH_SCHEME][0][IMGTA] = WHITE_M;
+  hc_scheme[RB_W5_OH_SCHEME][0][IYELW] = WHITE_Y;
+  hc_scheme[RB_W5_OH_SCHEME][0][IBLCK] = WHITE_K;
+
+  hc_scheme[RB_W5_OH_SCHEME][1][ICYAN] = RED2BLUE_5_OF_6_C;
+  hc_scheme[RB_W5_OH_SCHEME][1][IMGTA] = RED2BLUE_5_OF_6_M;
+  hc_scheme[RB_W5_OH_SCHEME][1][IYELW] = RED2BLUE_5_OF_6_Y;
+  hc_scheme[RB_W5_OH_SCHEME][1][IBLCK] = RED2BLUE_5_OF_6_K;
+
+  hc_scheme[RB_W5_OH_SCHEME][2][ICYAN] = RED2BLUE_4_OF_6_C;
+  hc_scheme[RB_W5_OH_SCHEME][2][IMGTA] = RED2BLUE_4_OF_6_M;
+  hc_scheme[RB_W5_OH_SCHEME][2][IYELW] = RED2BLUE_4_OF_6_Y;
+  hc_scheme[RB_W5_OH_SCHEME][2][IBLCK] = RED2BLUE_4_OF_6_K;
+
+  hc_scheme[RB_W5_OH_SCHEME][3][ICYAN] = RED2BLUE_3_OF_6_C;
+  hc_scheme[RB_W5_OH_SCHEME][3][IMGTA] = RED2BLUE_3_OF_6_M;
+  hc_scheme[RB_W5_OH_SCHEME][3][IYELW] = RED2BLUE_3_OF_6_Y;
+  hc_scheme[RB_W5_OH_SCHEME][3][IBLCK] = RED2BLUE_3_OF_6_K;
+
+  hc_scheme[RB_W5_OH_SCHEME][4][ICYAN] = RED2BLUE_2_OF_6_C;
+  hc_scheme[RB_W5_OH_SCHEME][4][IMGTA] = RED2BLUE_2_OF_6_M;
+  hc_scheme[RB_W5_OH_SCHEME][4][IYELW] = RED2BLUE_2_OF_6_Y;
+  hc_scheme[RB_W5_OH_SCHEME][4][IBLCK] = RED2BLUE_2_OF_6_K;
+
+  /* the 11 color rainbow schemes */
+  hc_scheme[RB_11_RL_SCHEME][0][ICYAN] = hc_scheme[RB_11_RH_SCHEME][10][ICYAN] = RED2BLUE_1_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][0][IMGTA] = hc_scheme[RB_11_RH_SCHEME][10][IMGTA] = RED2BLUE_1_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][0][IYELW] = hc_scheme[RB_11_RH_SCHEME][10][IYELW] = RED2BLUE_1_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][0][IBLCK] = hc_scheme[RB_11_RH_SCHEME][10][IBLCK] = RED2BLUE_1_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][1][ICYAN] = hc_scheme[RB_11_RH_SCHEME][9][ICYAN] = RED2BLUE_2_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][1][IMGTA] = hc_scheme[RB_11_RH_SCHEME][9][IMGTA] = RED2BLUE_2_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][1][IYELW] = hc_scheme[RB_11_RH_SCHEME][9][IYELW] = RED2BLUE_2_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][1][IBLCK] = hc_scheme[RB_11_RH_SCHEME][9][IBLCK] = RED2BLUE_2_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][2][ICYAN] = hc_scheme[RB_11_RH_SCHEME][8][ICYAN] = RED2BLUE_3_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][2][IMGTA] = hc_scheme[RB_11_RH_SCHEME][8][IMGTA] = RED2BLUE_3_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][2][IYELW] = hc_scheme[RB_11_RH_SCHEME][8][IYELW] = RED2BLUE_3_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][2][IBLCK] = hc_scheme[RB_11_RH_SCHEME][8][IBLCK] = RED2BLUE_3_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][3][ICYAN] = hc_scheme[RB_11_RH_SCHEME][7][ICYAN] = RED2BLUE_4_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][3][IMGTA] = hc_scheme[RB_11_RH_SCHEME][7][IMGTA] = RED2BLUE_4_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][3][IYELW] = hc_scheme[RB_11_RH_SCHEME][7][IYELW] = RED2BLUE_4_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][3][IBLCK] = hc_scheme[RB_11_RH_SCHEME][7][IBLCK] = RED2BLUE_4_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][4][ICYAN] = hc_scheme[RB_11_RH_SCHEME][6][ICYAN] = RED2BLUE_5_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][4][IMGTA] = hc_scheme[RB_11_RH_SCHEME][6][IMGTA] = RED2BLUE_5_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][4][IYELW] = hc_scheme[RB_11_RH_SCHEME][6][IYELW] = RED2BLUE_5_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][4][IBLCK] = hc_scheme[RB_11_RH_SCHEME][6][IBLCK] = RED2BLUE_5_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][5][ICYAN] = hc_scheme[RB_11_RH_SCHEME][5][ICYAN] = RED2BLUE_6_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][5][IMGTA] = hc_scheme[RB_11_RH_SCHEME][5][IMGTA] = RED2BLUE_6_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][5][IYELW] = hc_scheme[RB_11_RH_SCHEME][5][IYELW] = RED2BLUE_6_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][5][IBLCK] = hc_scheme[RB_11_RH_SCHEME][5][IBLCK] = RED2BLUE_6_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][6][ICYAN] = hc_scheme[RB_11_RH_SCHEME][4][ICYAN] = RED2BLUE_7_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][6][IMGTA] = hc_scheme[RB_11_RH_SCHEME][4][IMGTA] = RED2BLUE_7_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][6][IYELW] = hc_scheme[RB_11_RH_SCHEME][4][IYELW] = RED2BLUE_7_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][6][IBLCK] = hc_scheme[RB_11_RH_SCHEME][4][IBLCK] = RED2BLUE_7_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][7][ICYAN] = hc_scheme[RB_11_RH_SCHEME][3][ICYAN] = RED2BLUE_8_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][7][IMGTA] = hc_scheme[RB_11_RH_SCHEME][3][IMGTA] = RED2BLUE_8_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][7][IYELW] = hc_scheme[RB_11_RH_SCHEME][3][IYELW] = RED2BLUE_8_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][7][IBLCK] = hc_scheme[RB_11_RH_SCHEME][3][IBLCK] = RED2BLUE_8_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][8][ICYAN] = hc_scheme[RB_11_RH_SCHEME][2][ICYAN] = RED2BLUE_9_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][8][IMGTA] = hc_scheme[RB_11_RH_SCHEME][2][IMGTA] = RED2BLUE_9_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][8][IYELW] = hc_scheme[RB_11_RH_SCHEME][2][IYELW] = RED2BLUE_9_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][8][IBLCK] = hc_scheme[RB_11_RH_SCHEME][2][IBLCK] = RED2BLUE_9_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][9][ICYAN] = hc_scheme[RB_11_RH_SCHEME][1][ICYAN] = RED2BLUE_10_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][9][IMGTA] = hc_scheme[RB_11_RH_SCHEME][1][IMGTA] = RED2BLUE_10_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][9][IYELW] = hc_scheme[RB_11_RH_SCHEME][1][IYELW] = RED2BLUE_10_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][9][IBLCK] = hc_scheme[RB_11_RH_SCHEME][1][IBLCK] = RED2BLUE_10_OF_11_K;
+
+  hc_scheme[RB_11_RL_SCHEME][10][ICYAN] = hc_scheme[RB_11_RH_SCHEME][0][ICYAN] = RED2BLUE_11_OF_11_C;
+  hc_scheme[RB_11_RL_SCHEME][10][IMGTA] = hc_scheme[RB_11_RH_SCHEME][0][IMGTA] = RED2BLUE_11_OF_11_M;
+  hc_scheme[RB_11_RL_SCHEME][10][IYELW] = hc_scheme[RB_11_RH_SCHEME][0][IYELW] = RED2BLUE_11_OF_11_Y;
+  hc_scheme[RB_11_RL_SCHEME][10][IBLCK] = hc_scheme[RB_11_RH_SCHEME][0][IBLCK] = RED2BLUE_11_OF_11_K;
+
+  /*****************************************
+   * Open the MSA file; determine alphabet;
+   *****************************************/
+  
+  do_small = esl_opt_GetBoolean(go, "--small") ? TRUE : FALSE;
+  fmt      = do_small ? eslMSAFILE_PFAM : eslMSAFILE_STOCKHOLM;
+  abc      = esl_alphabet_Create(eslRNA);                       /* Assert RNA alphabet */
+
+  /* <abc> is only used for gap counting, I believe
+   * alignments are opened in TEXT mode.
+   */
+
+  if (do_small)
+    {
+      status = esl_msafile2_Open(alifile, NULL, &afp2);
+      if      (status == eslENOTFOUND) esl_fatal("Alignment file %s doesn't exist or is not readable\n", alifile);
+      else if (status != eslOK)        esl_fatal("Alignment file open failed with error %d\n", status);
+    }
+  else
+    {
+      status = eslx_msafile_Open(NULL, alifile, NULL, fmt, NULL, &afp);
+      if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+    }
+
+  /* Read the mask files, if nec */
+  if(esl_opt_IsOn(go, "--mask")) { 
+    if((status = read_mask_file(esl_opt_GetString(go, "--mask"), errbuf, &mask, &masklen, &mask_has_internal_zeroes)) != eslOK) esl_fatal(errbuf);
+  }
+  if(esl_opt_IsOn(go, "--mask-diff")) { 
+    if((status = read_mask_file(esl_opt_GetString(go, "--mask-diff"), errbuf, &mask2, &mask2len, &mask2_has_internal_zeroes)) != eslOK) esl_fatal(errbuf);
+    if(masklen != mask2len) esl_fatal("Mask in %f length (%d) differs from mask in %f (%d)!", esl_opt_GetString(go, "--mask"), masklen, esl_opt_GetString(go, "--mask-diff"), mask2len);
+  }
+
+  /* Open output files, if necessary */
+  if (esl_opt_IsOn(go, "--tabfile")) { 
+    if((tabfp = fopen(esl_opt_GetString(go, "--tabfile"), "w")) == NULL) esl_fatal("Failed to open output file %s\n", esl_opt_GetString(go, "--tabfile"));
+  }
+
+  /**********************
+   * Read the alignment *
+   **********************/
+  if (do_small)
+    {
+      status = esl_msafile2_ReadInfoPfam(afp2, NULL, abc, -1, NULL, NULL, &msa, &msa_nseq, &msa_alen, NULL, NULL, NULL, NULL, NULL, &abc_ct, &pp_ct, NULL, NULL, NULL);
+      if      (status == eslEFORMAT) esl_fatal("Alignment file parse error:\n%s\n", afp2->errbuf);
+      else if (status == eslEINVAL)  esl_fatal("Alignment file parse error:\n%s\n", afp2->errbuf);
+      else if (status == eslEOF)     esl_fatal("No alignments found in file %s\n", alifile);
+      else if (status != eslOK)      esl_fatal("Alignment file read failed with error code %d\n%s", status, afp2);
+
+      msa->alen = msa_alen; 
+    }
+  else
+    {
+      status = eslx_msafile_Read(afp, &msa); /* if ! do_small, we read full aln into memory */
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+      msa_nseq = msa->nseq; 
+      msa_alen = msa->alen; 
+    }
+
+  if(msa->rf == NULL) esl_fatal("First MSA in %s does not have RF annotation.", alifile);
+
+  /* determine non-gap RF length (consensus length) */
+  rflen = 0;
+  for(apos = 0; apos < msa->alen; apos++) { 
+    if(esl_abc_CIsResidue(abc, msa->rf[apos])) {  
+      rflen++;
+    }
+  }
+  /* We've read the alignment, now read the template postscript file (we do this second b/c the RF len of the alignment tells us which postscript template to use) */
+  if((status = parse_template_file(templatefile, go, errbuf, rflen, &ps) != eslOK)) esl_fatal(errbuf);
+  
+  
+  /**************************************************************************************************************
+   * Now that we have the msa and know what template we're using, determine what type of pages we'll be drawing *
+   **************************************************************************************************************/
+   /* do_default_set: this is TRUE if either -d is enabled AND/OR zero of: 
+    * {--info, --mutinfo, --ifreq, --iavglen, --dall, --dint, --span, --mask-col, --mask-diff,
+    *  --dfile, --efile, --cons, --prob, --rf, --indi} are enabled.
+    * When do_default_set is TRUE, we draw cons, info, mutinfo, ifreq, iavglen, dall, and prob
+    * (if the alignment has posterior probabilities).
+    * 
+    * Careful: this block assumes that all boolean options are OFF (FALSE) by default */
+  do_default_set = TRUE;
+  if(esl_opt_GetBoolean(go, "--info"))      { do_info     = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--mutinfo"))   { do_mutinfo  = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--ifreq"))     { do_ifreq    = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--iavglen"))   { do_iavglen  = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--dall"))      { do_dall     = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--dint"))      { do_dint     = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--prob"))      { do_prob     = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--span"))      { do_span     = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--mask-col"))  { do_maskcol  = TRUE; do_default_set = FALSE; }
+  if(esl_opt_IsOn      (go, "--mask-diff")) { do_maskdiff = TRUE; do_default_set = FALSE; }
+  if(esl_opt_IsOn      (go, "--dfile"))     { do_dfile    = TRUE; do_default_set = FALSE; }
+  if(esl_opt_IsOn      (go, "--efile"))     { do_efile    = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--cons"))      { do_cons     = TRUE; do_default_set = FALSE; }
+  if(esl_opt_GetBoolean(go, "--rf")) { 
+    if(msa->rf == NULL) esl_fatal("--rf selected by msa does not have #=GC RF annotation");
+    do_rf = TRUE;
+    do_default_set = FALSE;
+  }
+  if(esl_opt_GetBoolean(go, "--indi")) { 
+    do_indi     = TRUE; 
+    do_default_set = FALSE; 
+    /* Predict size of indi output file, based on two data points:
+     * 2000 page tRNA rflen=71 is 35 Mb, 2000 page archaeal SSU rflen 1508 is 560 Mb,
+     * =~ 0.0002 Mb per page per rfpos */
+    predicted_Mb = (int) (ps->rflen * 0.0002 * msa_nseq);
+    if(! esl_opt_GetBoolean(go, "--no-pp")) predicted_Mb *= 2;
+    /* round to nearest 10 Mb */ 
+    tmp_Mb = 10; while(tmp_Mb < predicted_Mb) tmp_Mb += 10;
+    predicted_Mb = tmp_Mb;
+    if(predicted_Mb > MAXMBWITHOUTFORCE && (! esl_opt_GetBoolean(go, "-f"))) { 
+      esl_fatal("WARNING: drawing individual seqs and msa has %d seqs in it,\noutput postcript file will be large (~%d Mb).\nUse -f to override this warning and do it anyway.", msa_nseq, predicted_Mb);
+    }
+  }
+  /* if -d: if we've made do_default_set as FALSE, we set it back to TRUE */
+  if(esl_opt_GetBoolean(go, "-d")) do_default_set = TRUE;
+  if(do_default_set) { /* set default pages */
+    do_cons = do_info = do_mutinfo = do_ifreq = do_iavglen = do_dall = TRUE;
+    if((do_small && pp_ct != NULL) || (msa->pp != NULL)) do_prob = TRUE;
+  }
+  /* determine if tabfile was incorrectly used */
+  if(tabfp != NULL && 
+     do_info == FALSE && do_mutinfo == FALSE && do_ifreq  == FALSE && do_prob == FALSE &&
+     do_iavglen == FALSE && do_dall == FALSE && do_dint   == FALSE && do_span == FALSE && do_indi == FALSE) { 
+    esl_fatal("--tabfile only makes sense w/0 other options, or with >= 1 of --info,--mutinfo,--ifreq,--iavglen,--prob,--dall,--dint,--span,--indi");
+  }
+  need_span_ct = (do_dint || do_span || do_ifreq || do_iavglen) ? TRUE : FALSE;
+
+  if(do_small && (do_dint || do_span || do_ifreq || do_iavglen || do_mutinfo)) { 
+    /* If we're in small mem mode, now that we know msa->rf and msa->ss_cons, 
+     * we do a second read of the msa to get bpct, spos_ct and epos_ct, 
+     * but only if we need them (if --span, --dint, or --mutinfo). 
+     * To do this, we close the alifile and reopen it, so we can read the 1st
+     * alignment again.
+     */
+    esl_msafile2_Close(afp2);
+    status = esl_msafile2_Open(alifile, NULL, &afp2);
+    if      (status == eslENOTFOUND) esl_fatal("2nd pass, alignment file %s doesn't exist or is not readable\n", alifile);
+    else if (status == eslEFORMAT)   esl_fatal("2nd pass, couldn't determine format of alignment %s\n", alifile);
+    else if (status != eslOK)        esl_fatal("2nd pass, alignment file open failed with error %d\n", status);
+    
+    status = esl_msafile2_ReadInfoPfam(afp2, NULL, abc, msa_alen, msa->rf, msa->ss_cons, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, &bp_ct, &spos_ct, &epos_ct);
+    if      (status == eslEFORMAT) esl_fatal("2nd pass, Alignment file parse error:\n%s\n", afp2->errbuf);
+    else if (status == eslEINVAL)  esl_fatal("2nd pass, Alignment file parse error:\n%s\n", afp2->errbuf);
+    else if (status == eslEOF)     esl_fatal("2nd pass, No alignments found in file %s\n", alifile);
+    else if (status != eslOK)      esl_fatal("2nd pass, Alignment file read failed with error code %d\n", status);
+  }
+
+  /* if we get here, the postscript file has been successfully read; now we open the output file */
+  if(ofp == NULL) { 
+    /* open postscript output file for writing */
+    if ((ofp = fopen(outfile, "w")) == NULL)
+      esl_fatal("Failed to open output postscript file %s\n", esl_opt_GetArg(go, 2));
+  }
+  
+  /* determine position for header and legend */
+  if((status = setup_sspostscript(ps, errbuf) != eslOK)) esl_fatal(errbuf);
+  if(ps->rflen == 0)     esl_fatal("MSA has consensus (non-gap RF) length of %d which != template file consensus length of %d.", rflen, ps->rflen);
+  if(rflen != ps->rflen) esl_fatal("MSA has consensus (non-gap RF) length of %d which != template file consensus length of %d.", rflen, ps->rflen);
+  
+  /* add the mask if there is one */
+  if(mask != NULL) add_mask_to_ss_postscript(ps, mask);
+  if(mask != NULL && ps->rflen != masklen) esl_fatal("MSA has consensus (non-gap RF) length of %d which != lane mask length of %d from mask file %s.", rflen, masklen, esl_opt_GetString(go, "--mask"));
+  
+  if ((status = validate_and_update_sspostscript_given_msa(go, abc, ps, msa, msa_nseq, errbuf)) != eslOK) esl_fatal(errbuf);
+
+  /* get the information we need from the alignment */
+  if(! do_small) { /* derive counts from the msa for postscript diagrams, we do this our functions for drawing diagrams work in small mem or big mem mode */
+    if((status = count_msa(abc, msa, errbuf, &(abc_ct), &(bp_ct), (do_prob ? &(pp_ct) : NULL), &(spos_ct), &(epos_ct))) != eslOK) esl_fatal(errbuf);
+  }    
+  if (esl_opt_GetBoolean(go, "--prob") && pp_ct == NULL) esl_fatal("--prob requires all sequences have PP annotation");
+
+  /* read the insert file, if nec, we have to do this before we determine the span count in case inserts have been removed from the msa,
+   * in which case the spos_ct and epos_ct's from either count_msa or esl_msafile2_ReadInfoPfam() could be slightly incorrect, we'll use
+   * srfoff_ct and erfoff_ct from get_insert_info_from_ifile() to correct them when we derive span_ct from spos_ct and epos_ct together in get_span_ct(). */
+  if(esl_opt_IsOn(go, "--ifile")) { 
+    get_insert_info_from_ifile((esl_opt_GetString(go, "--ifile")), ps->rflen, msa_nseq, NULL, &(nseq_with_ins_ct), &(nins_ct), NULL, &srfoff_ct, &erfoff_ct); /* dies with esl_fatal() upon an error */
+  }
+  /* determine span count */
+  if(need_span_ct) { 
+    if((status = get_span_ct(ps->msa_rf2a_map, msa_alen, ps->rflen, msa_nseq, spos_ct, epos_ct, srfoff_ct, erfoff_ct, &span_ct)) != eslOK) esl_fatal("Out of memory, getting span_ct array.");
+  }
+  /* determine consensus sequence */
+  if((status = get_consensus_seqs_from_abc_ct(go, ps, errbuf, abc_ct, abc, msa_alen)) != eslOK) esl_fatal(errbuf);
+
+  /* step through each type of page, creating it if nec */
+  if(do_cons) { 
+    /* this will work in either small memory or normal memory mode */
+    if((status = cons_seq_sspostscript(go, errbuf, ps, hc_onecell,
+				       BLACKOC,       /* one-cell legend, watson-crick bp color */
+				       GREENOC,       /* one-cell legend, G-U or U-G bp color */
+				       REDOC,         /* one-cell legend, color for noncanonical bps */
+				       LIGHTPURPLEOC, /* one-cell legend, internal double-gap bp color */
+				       LIGHTPURPLEOC)) != eslOK) /* one-cell legend, internal half-gap bp color, only relevant if do_rescol == TRUE */
+      esl_fatal(errbuf);
+  }  
+
+  if(do_rf) { 
+    /* this will work in either small memory or normal memory mode */
+    if((status = rf_seq_sspostscript(go, errbuf, ps, msa, (! esl_opt_GetBoolean(go, "--no-bp")), hc_onecell, 
+				     BLACKOC,          /* one-cell legend, watson-crick bp color, only relevant if do_rescol == TRUE */
+				     GREENOC,          /* one-cell legend, G-U or U-G bp color, only relevant if do_rescol == TRUE */
+				     REDOC)) != eslOK) /* one-cell legend, color for noncanonical bps */
+      esl_fatal(errbuf);
+  }
+
+  if(do_info) { 
+    if((status = infocontent_sspostscript(go, abc, errbuf, ps, abc_ct, msa_nseq, hc_scheme, RB_6_RL_SCHEME, hc_nbins[RB_6_RL_SCHEME], hc_onecell, LIGHTGREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+  }
+  
+  if(do_mutinfo) { /* mutual info page */
+    if((status = mutual_information_sspostscript(go, abc, errbuf, ps, bp_ct, msa_nseq, hc_scheme, RB_6_RH_SCHEME, hc_nbins[RB_6_RH_SCHEME], hc_onecell, GREYOC, LIGHTGREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+  }
+  
+  if(do_ifreq || do_iavglen) { /* insert frequency page */
+    /* first, determine number of sequences with inserts after each position, 3 different ways depending on command line options */
+    if(esl_opt_IsOn(go, "--ifile")) { /* read the insert file from cmalign */
+      /* we've already read the ifile above, and filled nseq_with_ins_ct, but we check here */
+      if(nseq_with_ins_ct == NULL) esl_fatal("Internal error, --ifile selected, but not read");
+    }
+    else if (do_small) { /* use abc_ct to derive nseq_with_ins_ct */
+      get_insert_info_from_abc_ct(abc_ct, abc, msa->rf, msa_alen, ps->rflen, &(nseq_with_ins_ct), &(nins_ct)); /* dies with esl_fatal() upon an error */
+    }
+    else { 
+      get_insert_info_from_msa(abc, msa, ps->rflen, &(nseq_with_ins_ct), &(nins_ct), NULL); /* dies with esl_fatal() upon an error */
+    }
+    /* now draw the insert diagram */
+    if(do_ifreq) { 
+      if((status = insertfreq_sspostscript(go, errbuf, ps, nseq_with_ins_ct, span_ct, msa_nseq, hc_scheme, RB_6_RH_SCHEME, hc_nbins[RB_6_RH_SCHEME], hc_onecell, LIGHTGREYOC, GREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+    }
+    if(do_iavglen) { 
+      if((status = insertavglen_sspostscript(go, errbuf, ps, nseq_with_ins_ct, nins_ct, span_ct, msa_nseq, hc_scheme, RB_6_RH_SCHEME, hc_nbins[RB_6_RH_SCHEME], hc_onecell, LIGHTGREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+    }
+  }
+  
+  if(do_dall) { /* make a new postscript page marking all deletes */
+    if((status = delete_sspostscript(go, abc, errbuf, ps, abc_ct, span_ct, msa_nseq, TRUE, hc_scheme, RB_6_RH_SCHEME, hc_nbins[RB_6_RH_SCHEME], hc_onecell, LIGHTGREYOC, DARKGREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+  }
+  
+  if(do_dint) { /* internal deletes */
+    if((status = delete_sspostscript(go, abc, errbuf, ps, abc_ct, span_ct, msa_nseq, FALSE, hc_scheme, RB_6_RH_SCHEME, hc_nbins[RB_6_RH_SCHEME], hc_onecell, LIGHTGREYOC, DARKGREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+  }
+
+  if(do_prob && pp_ct != NULL) { /* avg post prob */
+    if((status = avg_posteriors_sspostscript(go, abc, errbuf, ps, pp_ct, msa_nseq, hc_scheme, RB_6_RL_SCHEME, hc_nbins[RB_6_RL_SCHEME], hc_onecell, LIGHTGREYOC, tabfp)) != eslOK) esl_fatal(errbuf);
+  }
+      
+  if(do_span) { /* span */
+    if((status = span_sspostscript(go, errbuf, ps, span_ct, msa_nseq, hc_scheme, RB_6_RL_SCHEME, hc_nbins[RB_6_RL_SCHEME], hc_onecell, LIGHTGREYOC, BLACKOC, tabfp)) != eslOK) esl_fatal(errbuf);
+  }
+
+  if(do_maskcol) { 
+    /* Paint positions excluded by the mask magenta, unless the mask has zero internal exclusions.
+     * Such a mask is a 'truncating' mask, that excludes only a 5' contiguous set of columns, and a 3' contiguous set of columns, in this case paint excluded positions light grey. */
+    if((status = colormask_sspostscript(go, errbuf, ps, msa, hc_onecell, BLACKOC, (mask_has_internal_zeroes ? MAGENTAOC : LIGHTGREYOC))) != eslOK) esl_fatal(errbuf);
+  }
+
+  if(do_maskdiff) { 
+    if((status = diffmask_sspostscript(go, errbuf, ps, msa, mask2, hc_onecell, BLACKOC, CYANOC, MAGENTAOC, LIGHTGREYOC)) != eslOK) esl_fatal(errbuf);
+  }
+
+  if(do_dfile) {
+    if((status = drawfile2sspostscript(go, errbuf, ps, hc_scheme, RB_6_RH_SCHEME, hc_nbins[RB_6_RH_SCHEME])) != eslOK) esl_fatal(errbuf);
+  }
+
+  if(do_efile) { 
+    if((status = expertfile2sspostscript(go, errbuf, ps)) != eslOK) esl_fatal(errbuf);
+  }
+
+  if(do_indi) { /* we're printing all individual seqs */
+    /* get insert info we'll use in individuals_sspostscript() */
+    if(esl_opt_IsOn(go, "--ifile")) { /* read the insert file from cmalign, with info from all seqs  */
+      get_insert_info_from_ifile((esl_opt_GetString(go, "--ifile")), ps->rflen, msa_nseq, NULL, NULL, NULL, &(per_seq_ins_ct), NULL, NULL); /* dies with esl_fatal() upon an error */
+    }
+    else { 
+      get_insert_info_from_msa(abc, msa, ps->rflen, NULL, NULL, &per_seq_ins_ct); /* dies with esl_fatal() upon an error */
+    }
+    /* we have msa and per_seq_ins_ct for all possible combos of --small and --ifile, 
+     * draw the individual sequence pages */
+    if((status = individuals_sspostscript(go, abc, errbuf, ps, abc_ct,
+					  msa, per_seq_ins_ct, 
+					  ((! esl_opt_GetBoolean(go, "--no-pp")) && (msa->pp != NULL)), /* do_prob? draw pp pages? */
+					  (! esl_opt_GetBoolean(go, "--no-bp")), /* do_rescol: paint nucleotides different colors based on basepair type? */
+					  hc_scheme, RB_W5_OH_SCHEME, RB_6_RL_SCHEME, hc_nbins[RB_W5_OH_SCHEME], hc_nbins[RB_6_RL_SCHEME], hc_onecell, 
+					  LIGHTGREYOC,   /* one-cell legend, 5'/3' flush color */
+					  BLACKOC,       /* one-cell legend, watson-crick bp color, only relevant if do_rescol == TRUE */
+					  GREENOC,       /* one-cell legend, G-U or U-G bp color, only relevant if do_rescol == TRUE */
+					  REDOC,         /* one-cell legend, non-canonical bp color, only relevant if do_rescol == TRUE */
+					  LIGHTPURPLEOC, /* one-cell legend, internal double-gap bp color, only relevant if do_rescol == TRUE */
+					  LIGHTPURPLEOC, /* one-cell legend, internal half-gap bp color, only relevant if do_rescol == TRUE */
+					  LIGHTGREYOC,    /* one-cell legend, color for gap in post prob pages */
+					  tabfp)) != eslOK)
+      esl_fatal(errbuf);
+  }
+  if((status = draw_sspostscript(ofp, go, errbuf, command, date, hc_scheme, ps)) != eslOK) esl_fatal(errbuf);
+  free(command);
+  fclose(ofp);
+  printf("# %d page postscript saved to file %s.\n", ps->npage, outfile);
+
+  /* Cleanup, normal return
+   */
+  if(tabfp != NULL) { 
+    fclose(tabfp); 
+    if(do_indi && (do_info || do_mutinfo || do_ifreq || do_iavglen || do_dall || do_dint || do_prob || do_span)) { 
+      printf("# Per-position and per-sequence data saved to tab-delimited text file %s.\n", esl_opt_GetString(go, "--tabfile"));
+    }
+    else if (do_indi) { 
+      printf("# Per-sequence data saved to tab-delimited text file %s.\n", esl_opt_GetString(go, "--tabfile"));
+    }
+    else { 
+      printf("# Per-position data saved to tab-delimited text file %s.\n", esl_opt_GetString(go, "--tabfile"));
+    }
+  }
+
+  if(abc_ct != NULL)  esl_Free2D((void **) abc_ct, msa->alen);
+  if(pp_ct != NULL)   esl_Free2D((void **) pp_ct, msa->alen);
+  if(bp_ct  != NULL)  esl_Free3D((void ***) bp_ct, msa->alen, abc->Kp);
+  if(spos_ct != NULL) free(spos_ct);
+  if(epos_ct != NULL) free(epos_ct);
+  if(srfoff_ct != NULL) free(srfoff_ct);
+  if(erfoff_ct != NULL) free(erfoff_ct);
+  if(span_ct != NULL) free(span_ct);
+  if(nseq_with_ins_ct != NULL) free(nseq_with_ins_ct);
+  if(per_seq_ins_ct != NULL) esl_Free2D((void **) per_seq_ins_ct, msa_nseq);
+  if(mask != NULL) free(mask);
+  if(date != NULL) free(date);
+  free_sspostscript(ps);
+  esl_alphabet_Destroy(abc);
+  if (afp)  eslx_msafile_Close(afp);
+  if (afp2) esl_msafile2_Close(afp2);
+  esl_getopts_Destroy(go);
+  free(hc_nbins);
+  for(z = 0; z < NOC; z++) free(hc_onecell[z]);
+  free(hc_onecell);
+  for(z = 0; z < NRB_11_RH_SCHEME; z++) free(hc_scheme[RB_11_RH_SCHEME][z]);
+  for(z = 0; z < NRB_11_RL_SCHEME; z++) free(hc_scheme[RB_11_RL_SCHEME][z]);
+  for(z = 0; z < NRB_6_RH_SCHEME; z++) free(hc_scheme[RB_6_RH_SCHEME][z]);
+  for(z = 0; z < NRB_6_RL_SCHEME; z++) free(hc_scheme[RB_6_RL_SCHEME][z]);
+  for(z = 0; z < NRB_5_RH_SCHEME; z++) free(hc_scheme[RB_5_RH_SCHEME][z]);
+  for(z = 0; z < NRB_5_RL_SCHEME; z++) free(hc_scheme[RB_5_RL_SCHEME][z]);
+  for(z = 0; z < NRB_W5_OH_SCHEME; z++) free(hc_scheme[RB_W5_OH_SCHEME][z]);
+  for(z = 0; z < NSCHEMES; z++) { free(hc_scheme[z]); }
+  free(hc_scheme);
+  if(msa != NULL) esl_msa_Destroy(msa);
+  return 0;
+
+  ERROR: 
+  esl_fatal("Memory allocation error in main().");
+  return eslFAIL;/* silence compiler warning about void return*/
+}
+
+/* Function: create_sspostscript()
+ * 
+ * Purpose:  Create and initialize a SS postscript data structure.
+ * Return:   ps
+ */
+static SSPostscript_t *
+create_sspostscript(const ESL_GETOPTS *go)
+{
+  int status;
+  SSPostscript_t *ps;
+
+  ESL_ALLOC(ps, sizeof(SSPostscript_t));
+
+  ps->npage    = 0;
+  ps->modelname = NULL;
+  ps->modeA = NULL;
+  ps->descA = NULL;
+  ps->headerx = 0.;
+  ps->headery = 0.;
+  ps->headerx_desc = 0.;
+  ps->headerx_charsize = 0.;
+  ps->headery_charsize = 0.;
+  ps->desc_max_chars = 0;
+  ps->leg_posn = -1;
+  ps->leg_cellsize = -1;
+  ps->leg_rhs_space = 0.;
+  ps->legx_offset = 0.;
+  ps->legy_offset = 0.;
+  ps->legx = 0.;
+  ps->legy = 0.;
+  ps->cur_legy = 0.;
+  ps->legx_charsize = 0.;
+  ps->legy_charsize = 0.;
+  ps->legx_max_chars = 0;
+  ps->legx_stats = 0.;
+  ps->pagex_max = 0.;
+  ps->pagey_max = 0.;
+  ps->scale = -1.; /* we'll check if this is still negative after reading the template file, if so it's an error */
+  ps->regurgA  = NULL;
+  ps->nregurg  = 0;
+  ps->posntextA = NULL;
+  ps->posntextxA = ps->posntextyA = NULL;
+  ps->nposntext = 0;
+  ps->ticksx1A = ps->ticksx2A = ps->ticksy1A = ps->ticksy2A = NULL;
+  ps->nticks = 0;
+  ps->bpx1A = ps->bpx2A = ps->bpy1A = ps->bpy2A = NULL;
+  ps->nbp = 0;
+  ps->rxA = ps->ryA = NULL;
+  ps->rflen = 0;
+  ps->rAA          = NULL;
+  ps->rcolAAA      = NULL;
+  ps->bcolAAA      = NULL;
+  ps->otypeAA      = NULL;
+  ps->occlAAA      = NULL;
+  ps->nocclA       = NULL;
+  ps->sclAA        = NULL;
+  ps->tlAAA        = NULL;
+  ps->ntlA         = NULL;
+  ps->mask         = NULL;
+  ps->nalloc       = 50;
+  ps->msa_cseq_maj = NULL;
+  ps->msa_cseq_amb = NULL;
+  ps->msa_ct       = NULL;
+  ps->msa_nbp      = 0;
+  ps->msa_rf2a_map = NULL;
+  ps->msa_a2rf_map = NULL;
+  ps->uaseqlenA    = NULL;
+  ps->seqidxA      = NULL;
+  ps->msa          = NULL;
+  ps->abc          = NULL;
+  return ps;
+
+ ERROR: esl_fatal("create_sspostscript(): memory allocation error.");
+  return NULL; /* NEVERREACHED */
+}
+
+/* Function: setup_sspostscript()
+ * 
+ * Purpose:  Determine positions for header and legend in a SSPostscript_t()
+ * Return:   eslOK
+ */
+static int
+setup_sspostscript(SSPostscript_t *ps, char *errbuf)
+{
+  float xroom, yroom;
+  float header_fontwidth, header_max_chars;
+
+  if(ps->rflen == 0) ESL_FAIL(eslEINVAL, errbuf, "Failed to ready any nucleotides in template file.");
+
+  /* set up legx, legy, this is a hack (takes advantage of position of 3' nucleotide in all SSU models) */
+  ps->legx = ps->rxA[ps->leg_posn-1] + ps->legx_offset;
+  ps->legy = ps->ryA[ps->leg_posn-1] + ps->legy_offset;
+  ps->cur_legy = ps->legy;
+
+  ps->pagex_max = POSTSCRIPT_PAGEWIDTH / ps->scale;
+  ps->pagey_max = POSTSCRIPT_PAGEHEIGHT / ps->scale;
+
+  ps->headerx = 0. + PAGE_SIDEBUF;
+  ps->headery = ps->pagey_max - PAGE_TOPBUF - ((HEADER_FONTSIZE_UNSCALED) / ps->scale);
+
+  /* determine max number of nucleotides we can print before we run off the page in the legend section */
+  ps->legx_charsize = (LEG_FONTSIZE_UNSCALED / COURIER_HEIGHT_WIDTH_RATIO) / ps->scale; 
+  ps->legy_charsize = (LEG_FONTSIZE_UNSCALED) / ps->scale; 
+  xroom  = ps->pagex_max - ps->legx - (ps->leg_cellsize - ps->legx_charsize);
+  yroom  = ps->pagey_max - ps->legy - (ps->leg_cellsize - ps->legy_charsize);
+  ps->legx_max_chars = (int) (xroom / ps->legx_charsize);
+  ps->legy_max_chars = (int) (yroom / ps->legy_charsize);
+  ps->legx_stats     = ps->pagex_max - PAGE_SIDEBUF - ps->leg_rhs_space - (LEG_EXTRA_COLUMNS * ps->legx_charsize);
+
+  /* determine max size of description that will fit in header */
+  header_fontwidth      = (HEADER_FONTSIZE_UNSCALED / COURIER_HEIGHT_WIDTH_RATIO) / ps->scale; 
+  ps->headerx_charsize  = (HEADER_FONTSIZE_UNSCALED / COURIER_HEIGHT_WIDTH_RATIO) / ps->scale; 
+  header_max_chars      = (int) ((ps->pagex_max - 2*PAGE_SIDEBUF) / ps->headerx_charsize);
+  ps->headery_charsize  = (HEADER_FONTSIZE_UNSCALED) / ps->scale; 
+  ps->desc_max_chars    = header_max_chars - (HEADER_MODELNAME_MAXCHARS + 6 + 6 + 8 +2); /*6,6,8 for #pos,#bps,#seq plus 2 spaces each, plus 2 for after name */
+  ps->headerx_desc      = ps->pagex_max - PAGE_SIDEBUF - (ps->desc_max_chars * ps->headerx_charsize);
+
+  return eslOK;
+}
+
+/* Function: free_sspostscript()
+ * 
+ * Purpose:  Free a SS postscript data structure.
+ * Return:   (void)
+ */
+static void
+free_sspostscript(SSPostscript_t *ps)
+{
+  int i, p, c, l, l2;
+
+  if(ps->modelname != NULL) free(ps->modelname);
+
+  if(ps->modeA != NULL)  free(ps->modeA);
+
+  if(ps->descA != NULL) {
+    for(i = 0; i < ps->npage; i++) { 
+      if(ps->descA[i] != NULL) {
+	free(ps->descA[i]);
+      }
+    }
+    free(ps->descA);
+  }
+
+  if(ps->regurgA != NULL) {
+    for(i = 0; i < ps->nregurg; i++) { 
+      if(ps->regurgA[i] != NULL) {
+	free(ps->regurgA[i]);
+      }
+    }
+    free(ps->regurgA);
+  }
+
+  if(ps->posntextA  != NULL) { 
+    for(i = 0; i < ps->nposntext; i++) free(ps->posntextA[i]);
+    free(ps->posntextA);
+  }
+  if(ps->posntextxA != NULL) free(ps->posntextxA);
+  if(ps->posntextyA != NULL) free(ps->posntextyA);
+  if(ps->ticksx1A != NULL) free(ps->ticksx1A);
+  if(ps->ticksy1A != NULL) free(ps->ticksy1A);
+  if(ps->ticksx2A != NULL) free(ps->ticksx2A);
+  if(ps->ticksy2A != NULL) free(ps->ticksy2A);
+  if(ps->bpx1A != NULL) free(ps->bpx1A);
+  if(ps->bpy1A != NULL) free(ps->bpy1A);
+  if(ps->bpx2A != NULL) free(ps->bpx2A);
+  if(ps->bpy2A != NULL) free(ps->bpy2A);
+  if(ps->rxA != NULL) free(ps->rxA);
+  if(ps->ryA != NULL) free(ps->ryA);
+
+  if(ps->rAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) 
+      if(ps->rAA[p] != NULL) free(ps->rAA[p]);
+    free(ps->rAA);
+  }
+
+  if(ps->rcolAAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) { 
+      if(ps->rcolAAA[p] != NULL) { 
+	for(c = 0; c < ps->rflen; c++) free(ps->rcolAAA[p][c]);
+	free(ps->rcolAAA[p]); 
+      }
+    }
+    free(ps->rcolAAA); 
+  }
+
+  if(ps->bcolAAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) { 
+      if(ps->bcolAAA[p] != NULL) { 
+	for(c = 0; c < ps->rflen; c++) free(ps->bcolAAA[p][c]);
+	free(ps->bcolAAA[p]); 
+      }
+    }
+    free(ps->bcolAAA); 
+  }
+
+  if(ps->otypeAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) { 
+      if(ps->otypeAA[p] != NULL) { 
+	free(ps->otypeAA[p]);
+      }
+    }
+    free(ps->otypeAA);
+  }
+
+  if(ps->occlAAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) { 
+      if(ps->occlAAA[p] != NULL) { 
+	for(l = 0; l < ps->nocclA[p]; l++) { 
+	  if(ps->occlAAA[p][l]->text      != NULL) free(ps->occlAAA[p][l]->text);
+	  if(ps->occlAAA[p][l]->celltext  != NULL) free(ps->occlAAA[p][l]->celltext);
+	  if(ps->occlAAA[p][l]->procname  != NULL) free(ps->occlAAA[p][l]->procname);
+	  if(ps->occlAAA[p][l]->procstack != NULL) free(ps->occlAAA[p][l]->procstack);
+	  free(ps->occlAAA[p][l]); /* the rest is statically allocated memory */
+	}
+      free(ps->occlAAA[p]);
+      }
+    }
+    free(ps->occlAAA);
+  }
+
+  if(ps->sclAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) { 
+      if(ps->sclAA[p] != NULL) { 
+	if(ps->sclAA[p]->limits != NULL) free(ps->sclAA[p]->limits);
+	if(ps->sclAA[p]->counts != NULL) free(ps->sclAA[p]->counts);
+	if(ps->sclAA[p]->counts_masked != NULL) free(ps->sclAA[p]->counts_masked);
+	if(ps->sclAA[p]->text1 != NULL) free(ps->sclAA[p]->text1);
+	if(ps->sclAA[p]->text2 != NULL) free(ps->sclAA[p]->text2);
+	free(ps->sclAA[p]); /* statically allocated memory */
+      }
+    }
+    free(ps->sclAA);
+  }
+
+  if(ps->tlAAA != NULL) { 
+    for(p = 0; p < ps->npage; p++) { 
+      if(ps->tlAAA[p] != NULL) { 
+	for(l = 0; l < ps->ntlA[p]; l++) { 
+	  for(l2 = 0; l2 < ps->tlAAA[p][l]->nlines; l2++) { 
+	    free(ps->tlAAA[p][l]->text_per_line[l2]);
+	  }
+	  free(ps->tlAAA[p][l]); /* the rest is statically allocated memory */
+	}
+	free(ps->tlAAA[p]);
+      }
+    }
+    free(ps->tlAAA);
+  }
+
+  if(ps->ntlA != NULL)     free(ps->ntlA);
+  if(ps->nocclA != NULL)   free(ps->nocclA);
+  if(ps->msa_cseq_maj != NULL) free(ps->msa_cseq_maj);
+  if(ps->msa_cseq_amb != NULL) free(ps->msa_cseq_amb);
+  if(ps->msa_ct != NULL)   free(ps->msa_ct);
+  if(ps->msa_rf2a_map != NULL) free(ps->msa_rf2a_map);
+  if(ps->msa_a2rf_map != NULL) free(ps->msa_a2rf_map);
+  if(ps->mask != NULL) free(ps->mask);
+  if(ps->seqidxA != NULL) free(ps->seqidxA);
+  if(ps->uaseqlenA != NULL) free(ps->uaseqlenA);
+
+  free(ps);
+  return;
+}
+
+/* Function: create_onecell_colorlegend()
+ * 
+ * Purpose:  Create and initialize a one cell color legend data structure.
+ *           As a special case, pass nres as OCCL_BLANK_COUNT if you don't
+ *           want a count printed for this one cell.
+ * Return:   occl
+ */
+static OneCellColorLegend_t *
+create_onecell_colorlegend(float *col, int nres, int nres_masked, int do_separator, int do_no_vspace)
+{
+  int status;
+  OneCellColorLegend_t *occl;
+
+  ESL_ALLOC(occl, sizeof(OneCellColorLegend_t));
+
+  /* initialize */
+  esl_vec_FSet(occl->col, NCMYK, 0.);
+  occl->text  = NULL;
+  occl->celltext = NULL; 
+  occl->procname = NULL; 
+  occl->procstack = NULL;
+  occl->nprocstack = 0;
+
+  /* set caller specified values */
+  esl_vec_FCopy(col, NCMYK, occl->col);
+
+  occl->nres         = nres;
+  occl->nres_masked  = nres_masked;
+  occl->do_separator = do_separator; 
+  occl->do_no_vspace = do_no_vspace;
+
+  return occl;
+
+ ERROR: esl_fatal("create_onecell_colorlegend(): memory allocation error.");
+  return NULL; /* NEVERREACHED */
+}
+
+
+
+/* Function: create_onecell_colorlegend()
+ * 
+ * Purpose:  Create and initialize a one cell color legend data structure.
+ * Return:   occl
+ */
+static TextLegend_t *
+create_text_legend(int nlines, char **text_per_line, int do_separator) 
+{
+  int status;
+  TextLegend_t *tl;
+  int i;
+
+  ESL_ALLOC(tl, sizeof(TextLegend_t));
+
+  /* initialize */
+  tl->text_per_line = NULL;
+
+  /* set caller specified values */
+  tl->nlines = nlines;
+  tl->do_separator = do_separator;
+  ESL_ALLOC(tl->text_per_line, sizeof(char *) * nlines);
+  for(i = 0; i < nlines; i++) { 
+    if((status = esl_strdup(text_per_line[i], -1, &(tl->text_per_line[i]))) != eslOK) esl_fatal("create_text_legend(), error copying text");
+  }    
+
+  return tl;
+
+ ERROR: esl_fatal("create_text_legend(): memory allocation error.");
+  return NULL; /* NEVERREACHED */
+}
+
+
+/* Function: create_text_legend_for_consensus_sequence()
+ * 
+ * Purpose:  Create text explaining how a consensus sequence is calculated 
+ *           for the legend, and return it in the form of a TextLegend_t 
+ *           object.
+ *
+ * Return:   tl
+ */
+static TextLegend_t *
+create_text_legend_for_consensus_sequence(const ESL_GETOPTS *go, int do_separator)
+{
+  int status;
+  TextLegend_t *tl;
+  int i;
+  int nlines;
+  char **text;
+
+  if(esl_opt_GetBoolean(go, "--cambig")) { 
+    nlines = 5;
+    ESL_ALLOC(text, sizeof(char *) * nlines);
+    for(i = 0; i < nlines; i++) { text[i] = NULL; }
+    if((status = esl_strcat(&(text[0]), -1, "Consensus nucleotides (nt) are displayed, calculated", -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+    ESL_ALLOC(text[1], sizeof(char) * (strlen("as the least ambiguous nt that represents >= 1.00") + 1));
+   sprintf(text[1], "as the least ambiguous nt that represents >= %0.2f", esl_opt_GetReal(go, "--athresh"));
+    if((status = esl_strcat(&(text[2]), -1, "of all non-gap nts at each position.", -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+    if((status = esl_strcat(&(text[3]), -1, "K=G|U, M=A|C, R=A|G, S=C|G, Y=C|U, W=A|U", -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+    if((status = esl_strcat(&(text[4]), -1, "B=C|G|U, D=A|G|U, H=A|C|U, V=A|C|G, N=A|C|G|U", -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+  }
+  else { /* --cambig not enabled, majority rule was used */
+    nlines = 4;
+    ESL_ALLOC(text, sizeof(char *) * nlines);
+    for(i = 0; i < nlines; i++) { text[i] = NULL; }
+    if((status = esl_strcat(&(text[0]), -1, "Consensus nucleotides (nt) are displayed, defined", -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+    if((status = esl_strcat(&(text[1]), -1, "as the most frequent nt at each position.",         -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+    ESL_ALLOC(text[2], sizeof(char) * (strlen("Capitalized nts occur in >= 1.00 fraction of sequences") + 1));
+    sprintf(text[2], "Capitalized nts occur in >= %0.2f fraction of sequences", esl_opt_GetReal(go, "--cthresh"));
+    if((status = esl_strcat(&(text[3]), -1, "that do not have a gap at the position.", -1)) != eslOK) esl_fatal("create_text_legend_for_consensus_sequence(), error copying text");
+  }    
+  
+  tl = create_text_legend(nlines, text, do_separator);
+  for(i = 0; i < nlines; i++) { 
+    free(text[i]);
+  }
+  free(text);
+  return tl;
+
+ ERROR: esl_fatal("create_text_legend(): memory allocation error.");
+  return NULL; /* NEVERREACHED */
+}
+
+
+/* Function: create_scheme_colorlegend()
+ * 
+ * Purpose:  Create and initialize a scheme color legend data structure.
+ * Return:   scl
+ */
+static SchemeColorLegend_t *
+create_scheme_colorlegend(int scheme, int nbins, float *limits, int ints_only_flag, int low_inclusive, int high_inclusive, int use_mask)
+{
+  int status;
+  SchemeColorLegend_t *scl;
+  int i;
+  int *counts;
+  int *counts_masked;
+  ESL_ALLOC(scl, sizeof(SchemeColorLegend_t));
+
+  /* initialize */
+  scl->text1 = NULL;
+  scl->text2 = NULL;
+  
+  /* set caller specified values */
+  scl->scheme = scheme;
+  scl->nbins = nbins;
+  ESL_ALLOC(scl->limits, sizeof(float) * (nbins+1));
+  for(i = 0; i <= nbins; i++) { scl->limits[i] = limits[i]; }
+
+  ESL_ALLOC(counts, sizeof(int) * nbins);
+  ESL_ALLOC(counts_masked, sizeof(int) * nbins);
+  esl_vec_ISet(counts, nbins, 0);
+  esl_vec_ISet(counts_masked, nbins, 0);
+  scl->counts = counts;
+  scl->counts_masked = counts_masked;
+  scl->ints_only_flag = ints_only_flag;
+  scl->low_inclusive  = low_inclusive;
+  scl->high_inclusive = high_inclusive;
+  scl->use_mask = use_mask;
+  return scl;
+
+ ERROR: esl_fatal("create_scheme_colorlegend(): memory allocation error.");
+  return NULL; /* NEVERREACHED */
+}
+
+/* Function: add_text_to_scheme_colorlegend()
+ * 
+ * Purpose:  Add text to an existing scheme color legend data structure.
+ * Throws:   Exception if the text is too long.
+ */
+int
+add_text_to_scheme_colorlegend(SSPostscript_t *ps, SchemeColorLegend_t *scl, char *text, int legx_max_chars, char *errbuf)
+{
+  int status;
+  int i, idx;
+  int max_chars_per_line;
+
+  if(scl->text1 != NULL) esl_fatal("add_text_to_scheme_colorlegend(), text already exists!\n"); 
+  if(scl->text2 != NULL) esl_fatal("add_text_to_scheme_colorlegend(), text already exists!\n"); 
+  if(text == NULL) esl_fatal("add_text_to_scheme_colorlegend(), passed in text is NULL!\n"); 
+
+  max_chars_per_line = ps->legx_max_chars - 
+    ((int) ps->leg_rhs_space / ps->legx_charsize) - 
+    ((int) (PAGE_SIDEBUF / ps->legx_charsize)) - 
+    LEG_EXTRA_COLUMNS - 2;
+  if(((int) strlen(text)) <= max_chars_per_line) {
+    /* case 1, entire text can fit in one line */
+    if((status = esl_strdup(text, -1, &(scl->text1))) != eslOK) esl_fatal("add_text_to_scheme_colorlegend(), error copying text");
+    return eslOK;
+  }
+  else if(((int) strlen(text)) > ((2 * max_chars_per_line) - 6)) { 
+    /* case 2, entire text can't even fit in two lines, 
+     * (this is inexact doesn't account for size of words which is an issue b/c we break at newline,
+     * this is why I have the extra '- 6');
+     */
+    ESL_FAIL(eslEINVAL, errbuf, "add_text_to_scheme_colorlegend(), text is %d chars, max allowed is %d (%s)\n", (int) strlen(text), ((2 * max_chars_per_line) - 6), text);
+  }
+  else { /* split it up into two lines */
+    idx = max_chars_per_line - 1;
+    while(text[idx] != ' ') { 
+      idx--;
+      if(idx < 0) ESL_FAIL(eslEINVAL, errbuf, "add_text_to_scheme_colorlegend(), couldn't find a breakpoint for splitting the string (%s)\n", text);
+    }
+    /* copy first string into text1 */
+    ESL_ALLOC(scl->text1, sizeof(char) * (idx+1));
+    for(i = 0; i < idx; i++) scl->text1[i] = text[i];
+    scl->text1[idx] = '\0';
+
+    /* copy remainder into text2 */
+    int len = (int) strlen(text);
+    idx++;
+    ESL_ALLOC(scl->text2, sizeof(char) * (len - idx+1));
+    for(i = idx; i < len; i++) scl->text2[i-idx] = text[i];
+    scl->text2[len-idx] = '\0';
+  }
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "Error adding text to scheme_colorlegend probably out of memory");
+}
+
+
+/* Function: add_text_to_onecell_colorlegend()
+ * 
+ * Purpose:  Add text to an existing one cell color legend data structure.
+ * Throws:   Exception if the text is too long.
+ */
+int
+add_text_to_onecell_colorlegend(SSPostscript_t *ps, OneCellColorLegend_t *occl, char *text, int legx_max_chars, char *errbuf)
+{
+  int status;
+  int max_chars_per_line;
+  if(occl->text != NULL) esl_fatal("add_text_to_onecell_colorlegend(), text description already exists!\n"); 
+  if(text == NULL) esl_fatal("add_text_to_onecell_colorlegend(), passed in text is NULL!\n"); 
+
+  max_chars_per_line = legx_max_chars - LEG_EXTRA_COLUMNS - 2 - ((int) (((float) ps->leg_cellsize * 1.5) / ps->legx_charsize));
+  /*printf("max: %d cur: %d text: %s\n", max_chars_per_line, (int) strlen(text), text);*/
+  if(((int) strlen(text)) > (max_chars_per_line)) { 
+    ESL_FAIL(eslEINVAL, errbuf, "add_text_to_onecell_colorlegend(), text is %d chars, max allowed is %d (%s)\n", (int) strlen(text), max_chars_per_line, text);
+  }
+  if((status = esl_strdup(text, -1, &(occl->text))) != eslOK) esl_fatal("add_text_to_onecell_colorlegend(), error copying text");
+  return eslOK;
+}
+
+/* Function: add_celltext_to_onecell_colorlegend()
+ * 
+ * Purpose:  Add cell text to an existing one cell color legend data structure.
+ */
+int
+add_celltext_to_onecell_colorlegend(SSPostscript_t *ps, OneCellColorLegend_t *occl, char *celltext, char *errbuf)
+{
+  int status;
+  if(occl->celltext != NULL) esl_fatal("add_celltext_to_onecell_colorlegend(), cell text already exists!\n"); 
+  if(celltext == NULL) esl_fatal("add_celltext_to_onecell_colorlegend(), passed in celltext is NULL!\n"); 
+
+  if((status = esl_strdup(celltext, -1, &(occl->celltext))) != eslOK) esl_fatal("add_celltext_to_onecell_colorlegend(), error copying text");
+
+  return eslOK;
+}
+
+/* Function: add_procedure_to_onecell_colorlegend()
+ * 
+ * Purpose:  Add procedure for drawing one cell to an existing one cell color legend data structure.
+ */
+int
+add_procedure_to_onecell_colorlegend(SSPostscript_t *ps, OneCellColorLegend_t *occl, char *procname, float *procstack, int nprocstack, char *errbuf)
+{
+  int status;
+  int i;
+
+  if(occl->celltext  != NULL) esl_fatal("add_procedure_to_onecell_colorlegend(), cell text already exists!\n"); 
+  if(occl->procname  != NULL) esl_fatal("add_procedure_to_onecell_colorlegend(), procedure text already exists!\n"); 
+  if(occl->procstack != NULL) esl_fatal("add_procedure_to_onecell_colorlegend(), procedure stack already exists!\n"); 
+  if(procname        == NULL) esl_fatal("add_procedure_to_onecell_colorlegend(), passed in procname is NULL!\n"); 
+  if(procstack       == NULL) esl_fatal("add_procedure_to_onecell_colorlegend(), passed in procstack is NULL!\n"); 
+
+  if((status = esl_strdup(procname, -1, &(occl->procname))) != eslOK) esl_fatal("add_procedure_to_onecell_colorlegend(), error copying text");
+  ESL_ALLOC(occl->procstack, sizeof(float) * nprocstack);
+  for(i = 0; i < nprocstack; i++) occl->procstack[i] = procstack[i];
+  occl->nprocstack = nprocstack;
+
+  return eslOK;
+
+ ERROR: 
+  return eslEMEM;
+}
+
+/* Function: add_page_desc_to_sspostscript()
+ * 
+ * Purpose:  Add text describing a particular page of a postscript object.
+ * Throws:   Exception if the text is too long.
+ */
+int
+add_page_desc_to_sspostscript(SSPostscript_t *ps, int page, char *text, char *errbuf)
+{
+  int status;
+  int i, j;
+  int max_both_lines;
+
+  if(ps->descA[page] != NULL) ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), description for page %d already exists!\n", page); 
+  if(text == NULL)            ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), passed in text is NULL!\n"); 
+
+  max_both_lines =(2. * ps->desc_max_chars);
+  if(ps->modeA[page] == INDIMODE || ps->modeA[page] == SIMPLEMASKMODE) 
+    max_both_lines--; /* b/c we have to add a '-' to split up the larger strings onto 2 lines */
+
+  /* check to see if we can fit the text onto two lines of max width ps->desc_max_chars */
+  int textlen = (int) strlen(text);
+  if(textlen <= ps->desc_max_chars) { /* fine, this will fit on one line */
+    if((status = esl_strdup(text, -1, &(ps->descA[page]))) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), error copying text");
+  }
+  else if (textlen <= max_both_lines) { 
+    if(ps->modeA[page] == ALIMODE) { 
+      /* maybe fine, make sure there's a break point (space ' ') that will break this string into two strings of length <= ps->desc_max_chars */
+      i = ps->desc_max_chars;
+      while(text[i] != ' ' && text[i] != '-') { 
+	i--; 
+	if(i < 0) ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), first word of text (%s) is more than max allowed of %d chars", text, ps->desc_max_chars);
+      }
+      /* found last space before max width, make sure it breaks the line up into two chunks of valid size */
+      if((textlen - (i+1)) <= ps->desc_max_chars) { /* we're good */
+	if((status = esl_strdup(text, -1, &(ps->descA[page]))) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), error copying text");
+	ps->descA[page][i] = '\n'; /* so we can remember where the break is */
+      }
+      else ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), couldn't find (' ') for splitting text into two chunks (%s)", text);
+    }
+    else { /* INDIMODE or SIMPLEMASKMODE, sequence/mask name bigger than 1 line, but not 2, we put a '-' in it at the end of line 1 and add a '\n' so we remember where it was */
+      ESL_ALLOC(ps->descA[page], sizeof(char) * (textlen + 3)); /* +3 so we have space for the extra '-' and '\n' */
+      for(i = 0; i < ps->desc_max_chars; i++) ps->descA[page][i] = text[i];
+      i = ps->desc_max_chars;
+      ps->descA[page][i] = '-';
+      i++; 
+      ps->descA[page][i] = '\n';
+      for(i = ps->desc_max_chars; i < textlen; i++) ps->descA[page][i+2] = text[i];
+      ps->descA[page][textlen+2] = '\0';
+    }
+  }
+  else /* the text won't fit on two lines */
+    if(ps->modeA[page] != INDIMODE) { /* not fine, this won't fit on two lines */
+      ESL_FAIL(eslEINVAL, errbuf, "add_page_desc_to_sspostscript(), text is %d chars, max allowed is %d (%s)\n", textlen, max_both_lines, text);
+    }
+    else { /* INDIMODE or SIMPLEMASKMODE, sequence/mask name exceeds max, we put a '-' in it at the end of line 1 and truncate it */
+      ESL_ALLOC(ps->descA[page], sizeof(char) * (max_both_lines + 2)); /* +2 so we have space for the extra '\n' (which we won't print), and the '\0' */
+      /* first look to see if there's a space before desc_max_chars, this will never happen for a seq name, but may for a mask description */
+      j = ps->desc_max_chars;
+      while(text[j] != ' ' && j > 0) { 
+	j--; 
+      }
+      if(j == 0) { j = ps->desc_max_chars; } /* no space */
+      for(i = 0; i < j; i++) ps->descA[page][i] = text[i];
+      i = j;
+      if(j == ps->desc_max_chars && text[j] != ' ') { 
+	ps->descA[page][i] = '-';
+      }
+      i++; 
+      ps->descA[page][i] = '\n';
+      for(i = j; i < j + ps->desc_max_chars; i++) ps->descA[page][i+2] = text[i];
+      ps->descA[page][i+2] = '\0';
+  }
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "add_page_desc_to_sspostscript() error, probably out of memory.");
+}
+
+
+/* Function: add_diffmask_page_desc_to_sspostscript()
+ * 
+ * Purpose:  Add text describing a diff mask page of a postscript object.
+ * Throws:   Exception if the text is too long.
+ */
+int
+add_diffmask_page_desc_to_sspostscript(SSPostscript_t *ps, int page, char *mask_file, char *maskdiff_file, char *errbuf)
+{
+  int status;
+  int i;
+  char *mask1desc = NULL;
+  char *mask2desc = NULL;
+  int len2copy;
+  int mask_file_len;
+  int maskdiff_file_len;
+  void *tmp;
+
+  if(ps->mask == NULL)        ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), ps->mask is NULL\n"); 
+  if(ps->descA[page] != NULL) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), description for page %d already exists!\n", page); 
+  if(maskdiff_file == NULL) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), passed in maskdiff_file is NULL!\n"); 
+
+  /* check to see if we can fit the text onto two lines of max width ps->desc_max_chars */
+  mask_file_len = (int) strlen(ps->mask);
+  maskdiff_file_len = (int) strlen(maskdiff_file);
+  if((status = esl_strcat(&(mask1desc), -1, "mask 1: ", -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+  if((mask_file_len + 8) <= ps->desc_max_chars) { /* this will fit on one line */
+    if((status = esl_strcat(&(mask1desc), -1, mask_file, -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+  }
+  else { /* won't fit on one line, include as much as we can */
+    len2copy = ps->desc_max_chars - 8 - 3; /* 8 is for "mask 1: " at beginning, 3 is for "..." at end */
+    ESL_RALLOC(mask1desc, tmp, sizeof(char) * ps->desc_max_chars+1);
+    for(i = 0; i < len2copy; i++) { 
+      mask1desc[8+i] = mask_file[i];
+    }
+    mask1desc[8+len2copy]   = '.';
+    mask1desc[8+len2copy+1] = '.';
+    mask1desc[8+len2copy+2] = '.';
+    mask1desc[8+len2copy+3] = '\0'; 
+  }
+
+  /* repeat for mask 2 */
+  if((status = esl_strcat(&(mask2desc), -1, "mask 2: ", -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+  if((maskdiff_file_len + 8) <= ps->desc_max_chars) { /* this will fit on one line */
+    if((status = esl_strcat(&(mask2desc), -1, maskdiff_file, -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+  }
+  else { /* won't fit on one line, include as much as we can */
+    len2copy = ps->desc_max_chars - 8 - 3; /* 8 is for "mask 1: " at beginning, 3 is for "..." at end */
+    ESL_RALLOC(mask2desc, tmp, sizeof(char) * ps->desc_max_chars+1);
+    for(i = 0; i < len2copy; i++) { 
+      mask2desc[8+i] = maskdiff_file[i];
+    }
+    mask2desc[8+len2copy]   = '.';
+    mask2desc[8+len2copy+1] = '.';
+    mask2desc[8+len2copy+2] = '.';
+    mask2desc[8+len2copy+3] = '\0'; 
+  }
+
+  /* concatenate them in ps->descA[page] */
+  if((status = esl_strcat(&(ps->descA[page]), -1, mask1desc, -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+  if((status = esl_strcat(&(ps->descA[page]), -1, "\n", -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+  if((status = esl_strcat(&(ps->descA[page]), -1, mask2desc, -1)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "add_diffmask_page_desc_to_sspostscript(), error copying text");
+
+  free(mask1desc);
+  free(mask2desc);
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "add_page_desc_to_sspostscript() error, probably out of memory.");
+}
+
+/* Function: add_mask_to_sspostscript
+ * 
+ * Purpose:  Add a mask to a sspostscript object.
+ */
+int
+add_mask_to_ss_postscript(SSPostscript_t *ps, char *mask)
+{
+  int status;
+  if(ps->mask != NULL) { esl_fatal("add_mask_to_ss_postscript(), mask is non-null!\n"); }
+  if(mask == NULL) esl_fatal("add_mask_to_ss_postscript(), passed in mask is NULL!\n"); 
+  if((status = esl_strdup(mask, -1, &(ps->mask))) != eslOK) esl_fatal("add_mask_to_ss_postscript(), error copying mask");
+  return eslOK;
+}
+
+
+/* Function: draw_legend_column_headers()
+ * 
+ * Purpose:  Draw the legend column headers.
+ * Return:   eslOK
+ */
+static int 
+draw_legend_column_headers(FILE *fp, SSPostscript_t *ps, int pagenum, char *errbuf)
+{
+  int status;
+  int i;
+  float x, y, legend_fontsize;
+  char *cur_string;
+  int cur_width = 0;
+
+  legend_fontsize = LEG_FONTSIZE_UNSCALED / ps->scale;
+
+  x = ps->legx;
+  y = ps->cur_legy;
+  if(ps->mask != NULL && ps->modeA[pagenum] == ALIMODE) { 
+    y -= 1.25 * (float) ps->leg_cellsize;
+  }
+  /*fprintf(fp, "/%s findfont %f scalefont setfont\n", SPECIAL_FONT, legend_fontsize);*/
+  fprintf(fp, "%% begin legend column headers\n");
+  fprintf(fp, "(%s) %.2f %.2f moveto show\n", "LEGEND", x, (y + ((float) ps->leg_cellsize * .25)));
+  /*fprintf(fp, "/%s findfont %f scalefont setfont\n", LEG_FONT, legend_fontsize);*/
+
+  x = ps->legx_stats;
+  y = ps->cur_legy;
+  cur_width = ps->legx_max_chars - 
+    ((int) ps->leg_rhs_space / ps->legx_charsize) - 
+    ((int) (PAGE_SIDEBUF / ps->legx_charsize)) - 
+    LEG_EXTRA_COLUMNS - 2;
+
+  ESL_ALLOC(cur_string, sizeof(char) * (cur_width+1));
+  for(i = 0; i < cur_width; i++) cur_string[i] = '-'; 
+  cur_string[cur_width] = '\0';
+
+  if(ps->mask != NULL && ps->modeA[pagenum] == ALIMODE) { 
+    fprintf(fp, "(%4s  %4s) %.2f %.2f moveto show\n", "", "incl", x, (y + ((float) ps->leg_cellsize * .25)));
+    y -= 0.625 * (float) ps->leg_cellsize;
+    fprintf(fp, "(%4s  %4s) %.2f %.2f moveto show\n", "", " by ", x, (y + ((float) ps->leg_cellsize * .25)));
+    y -= 0.625 * (float) ps->leg_cellsize;
+    fprintf(fp, "(%4s  %4s) %.2f %.2f moveto show\n", "all", "mask", x, (y + ((float) ps->leg_cellsize * .25)));
+    y -= 0.625 * (float) ps->leg_cellsize;
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", cur_string, ps->legx, (y + ((float) ps->leg_cellsize * .25)));
+    fprintf(fp, "(----  ----) %.2f %.2f moveto show\n", x, (y + ((float) ps->leg_cellsize * .25)));
+  }
+  else { 
+    fprintf(fp, "(%5s) %.2f %.2f moveto show\n", "count", x, (y + ((float) ps->leg_cellsize * .25)));
+    y -= 0.625 * (float) ps->leg_cellsize;
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", cur_string, ps->legx, (y + ((float) ps->leg_cellsize * .25)));
+    fprintf(fp, "(-----) %.2f %.2f moveto show\n", x, (y + ((float) ps->leg_cellsize * .25)));
+  }
+  ps->cur_legy = y - (1.0 * (float) ps->leg_cellsize);
+  
+  fprintf(fp, "%% end legend column headers\n\n");
+  free(cur_string);
+
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "ERROR drawing legend column headers, probably out of memory.");
+}
+
+/* Function: draw_onecell_colorlegend()
+ * 
+ * Purpose:  Print a one cell color legend to an open file.
+ * Return:   eslOK, dies if we run out of memory.
+ */
+static int 
+draw_onecell_colorlegend(FILE *fp, OneCellColorLegend_t *occl, SSPostscript_t *ps, int occl_idx, int pagenum)
+{
+  int status; 
+  float x, y;
+  int cp, i;
+  float fontsize;
+  char *cur_string;
+  int cur_width = 0;
+
+  /* object is valid, print it */
+  x = ps->legx;
+  y = ps->cur_legy;
+
+  /* print cell */
+  fprintf(fp, "%% begin one cell color legend\n");
+  if(occl->celltext == NULL && occl->procname == NULL) { /* print a colored block as the cell */
+    fprintf(fp, "newpath\n");
+    fprintf(fp, "  %.2f %.2f moveto", x, y);
+    fprintf(fp, "  0 %.3f rlineto %.3f 0 rlineto 0 %.3f rlineto closepath\n", (float) ps->leg_cellsize, (float) ps->leg_cellsize, (-1 * (float) ps->leg_cellsize));
+    fprintf(fp, "  ");
+    for(cp = 0; cp < NCMYK; cp++) fprintf(fp, "%.2f ", occl->col[cp]);
+    fprintf(fp, "setcmykcolor\n");
+    fprintf(fp, "  fill\n");
+
+    /* draw a small box outlining the colored block we just drew */
+    /*fprintf(fp, "%.2f setlinewidth\n", (ps->leg_cellsize / 24.));
+    fprintf(fp, "newpath\n");
+    fprintf(fp, "  %.2f %.2f moveto", x, y);
+    fprintf(fp, "  0 %.3f rlineto %.3f 0 rlineto 0 %.3f rlineto closepath\n", (float) ps->leg_cellsize, (float) ps->leg_cellsize, (-1 * (float) ps->leg_cellsize));
+    fprintf(fp, "  ");
+    fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", 0., 0., 0., 1.); 
+    fprintf(fp, "  stroke\n");*/
+  }
+  else if (occl->procname != NULL) { 
+    fprintf(fp, "%.2f %.2f ", x, y);
+    for(i = 0; i < occl->nprocstack; i++) { fprintf(fp, "%.2f ", occl->procstack[i]); }
+    fprintf(fp, "%s\n", occl->procname);
+  }
+  else if (occl->celltext != NULL){ 
+    /* fontsize = (float) ps->leg_cellsize / strlen(occl->celltext); */
+    fontsize = (float) ps->leg_cellsize / 2;
+    fprintf(fp, "/%s findfont %f scalefont setfont\n", NUCLEOTIDES_FONT, fontsize);
+    for(cp = 0; cp < NCMYK; cp++) fprintf(fp, "%.2f ", occl->col[cp]);
+    fprintf(fp, "setcmykcolor\n");
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", occl->celltext, x, y + ((float) ps->leg_cellsize * 0.25));
+  }
+  if(occl->celltext == NULL || (strlen(occl->celltext) > 0)) { 
+    /* if we printed a block or text, modify x, so text for the legend is indented appropriately */
+    x += (float) ps->leg_cellsize * 1.5;
+  }
+  fontsize = LEG_FONTSIZE_UNSCALED / ps->scale;
+
+  /* print text for this legend */
+  if(occl->text != NULL) { 
+    /* back to black */
+    fprintf(fp, "  0.00 0.00 0.00 1.00 setcmykcolor\n");
+    fprintf(fp, "/%s findfont %f scalefont setfont\n", LEG_FONT, fontsize);
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", occl->text, x, y + ((float) ps->leg_cellsize * 0.25));
+
+    /* print stats */
+    if(occl->nres != OCCL_BLANK_COUNT) { 
+      x = ps->legx_stats;
+      if(ps->mask != NULL && ps->modeA[pagenum] == ALIMODE) { 
+	fprintf(fp, "(%4d  %4d) %.2f %.2f moveto show\n", occl->nres, occl->nres_masked, x, y + ((float) ps->leg_cellsize * 0.25));
+      }
+      else { 
+	fprintf(fp, "(%5d) %.2f %.2f moveto show\n", occl->nres, x, y + ((float) ps->leg_cellsize * 0.25));
+      }
+    }
+  }
+
+  /* reset color to black */ 
+  fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", 0., 0., 0., 1.);
+
+  if(occl->do_separator) {
+  cur_width = ps->legx_max_chars - 
+    ((int) ps->leg_rhs_space / ps->legx_charsize) - 
+    ((int) (PAGE_SIDEBUF / ps->legx_charsize)) - 
+    LEG_EXTRA_COLUMNS - 2;
+    ESL_ALLOC(cur_string, sizeof(char) * (cur_width+1));
+    for(i = 0; i < cur_width; i++) cur_string[i] = '-'; 
+    cur_string[cur_width] = '\0';
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", cur_string, ps->legx,      (y - ((float) ps->leg_cellsize * 0.5)));
+    fprintf(fp, "(-----) %.2f %.2f moveto show\n", (float) ps->legx_stats, (y - ((float) ps->leg_cellsize * 0.5)));
+    y -= (float) ps->leg_cellsize * 0.5;
+    free(cur_string);
+  }
+
+  /* y -= (float) ps->leg_cellsize * 1.5; */
+  if(occl->do_no_vspace) { y -= (float) (ps->leg_cellsize / COURIER_HEIGHT_WIDTH_RATIO) * 1.25;   }
+  else                   { y -= (float) ps->leg_cellsize * 1.25; }
+  ps->cur_legy = y;
+
+  
+  fprintf(fp, "%% end one cell color legend\n\n");
+  return eslOK;
+
+ ERROR: esl_fatal("ERROR drawing one cell legend, probably out of memory.");
+  return eslEMEM; /* never reached */
+}
+
+
+/* Function: draw_scheme_colorlegend()
+ * 
+ * Purpose:  Print a scheme color legend to an open file.
+ * Return:   eslOK
+ */
+static int 
+draw_scheme_colorlegend(const ESL_GETOPTS *go, FILE *fp, SchemeColorLegend_t *scl, float **hc_scheme, SSPostscript_t *ps, int pagenum)
+{
+  float x, y;
+  int cp;
+  int c,i,n1s;
+  float fontsize;
+  int do_circle_mask, do_square_mask, do_x_mask, do_border;
+  int do_mask;
+  float old_x;
+
+  do_mask = ((ps->mask != NULL) && (scl->use_mask)) ? TRUE : FALSE;
+  do_border = (!esl_opt_GetBoolean(go, "--mask-a"));
+  do_circle_mask = do_square_mask = do_x_mask = FALSE;
+  if(esl_opt_GetBoolean(go, "--mask-u")) { do_square_mask = TRUE; }
+  else if(esl_opt_GetBoolean(go, "--mask-x")) { do_x_mask = TRUE; }
+  else do_circle_mask = TRUE;
+
+  x = ps->legx;
+  y = ps->cur_legy;
+  //y = ps->legy - (ps->nocclA[pagenum] * ((float) ps->leg_cellsize * 1.5));
+  fontsize = LEG_FONTSIZE_UNSCALED / ps->scale;
+  fprintf(fp, "%% begin color scheme legend\n");
+  fprintf(fp, "/%s findfont %f scalefont setfont\n", LEG_FONT, fontsize);
+  fprintf(fp, "  0.00 0.00 0.00 1.00 setcmykcolor\n");
+
+  float colvec[NCMYK];
+  colvec[0] = colvec[1] = colvec[2] = 0.;
+  colvec[3] = 1.0;
+  if(do_mask) { /* print cells showing difference between masked and unmasked */
+    /*x -= (float) ps->leg_cellsize;*/
+    /*y -= (float) ps->leg_cellsize;*/
+    fprintf(fp, "%.1f setlinewidth\n", (float) ps->leg_cellsize/4.);
+    fprintf(fp, "newpath\n");
+    fprintf(fp, "  %.2f %.2f moveto", x, y);
+    fprintf(fp, "  0 %.3f rlineto %.3f 0 rlineto 0 %.3f rlineto closepath\n", (float) ps->leg_cellsize, (float) ps->leg_cellsize, (-1 * (float) ps->leg_cellsize));
+    fprintf(fp, "  ");
+    for(cp = 0; cp < NCMYK; cp++) { 
+      fprintf(fp, "%.2f ", colvec[cp]);
+    }
+    fprintf(fp, "setcmykcolor\n");
+    fprintf(fp, "  fill\n");
+
+    /* print label */
+    x += (float) ps->leg_cellsize * 1.5;
+    y += (float) ps->leg_cellsize * 0.625;
+    fprintf(fp, "(included by mask) %.2f %.2f moveto show\n", x, y);
+    y -= (float) ps->leg_cellsize * 0.625;
+    fprintf(fp, "((all colors)) %.2f %.2f moveto show\n", x, y);
+    x -= (float) ps->leg_cellsize * 1.5;
+
+    /* print stats for included by mask */
+    old_x = x;
+    n1s = 0;
+    for(i = 0; i < ps->rflen; i++) if(ps->mask[i] == '1') n1s++; 
+    x = ps->legx_stats;
+    y += (float) ps->leg_cellsize * 0.3125;
+    fprintf(fp, "(%4d  %4d) %.2f %.2f moveto show\n", n1s, n1s, x, y);
+    y -= (float) ps->leg_cellsize * 0.3125;
+
+    x = old_x;
+    y -= (float) ps->leg_cellsize * 1.5;
+    draw_masked_block(fp, x, y, colvec, do_circle_mask, do_square_mask, do_x_mask, do_border, (float) ps->leg_cellsize);
+
+    x += (float) ps->leg_cellsize * 1.5;
+    y += (float) ps->leg_cellsize * 0.625;
+    fprintf(fp, "(excluded by mask) %.2f %.2f moveto show\n", x, y);
+    y -= (float) ps->leg_cellsize * 0.625;
+    fprintf(fp, "((all colors)) %.2f %.2f moveto show\n", x, y);
+
+    /* print stats for excluded by mask */
+    old_x = x;
+    x = ps->legx_stats;
+    y += (float) ps->leg_cellsize * 0.3125;
+    fprintf(fp, "(%4d  %4d) %.2f %.2f moveto show\n", ps->rflen-n1s, 0, x, y);
+
+    y -= (float) ps->leg_cellsize * 1.8125;
+    x = ps->legx;
+  }
+
+  /* print text for this legend */
+  if(scl->text1 != NULL) { 
+    if(scl->text2 == NULL) { 
+      fprintf(fp, "(%s:) %.2f %.2f moveto show\n", scl->text1, x, (y + ((float) ps->leg_cellsize * .25)));
+    }
+    else { 
+      fprintf(fp, "(%s) %.2f %.2f moveto show\n", scl->text1, x, (y + ((float) ps->leg_cellsize * .25)));
+      y -= (float) ps->leg_cellsize * 0.625;
+      fprintf(fp, "(%s:) %.2f %.2f moveto show\n", scl->text2, x, (y + ((float) ps->leg_cellsize * .25)));
+    }
+  }
+  y -= (float) ps->leg_cellsize;
+  
+  /* print scheme color cells and labels next to them */
+  for(c = 0; c < scl->nbins; c++) { 
+    fprintf(fp, "newpath\n");
+    fprintf(fp, "  %.2f %.2f moveto", x, y);
+    fprintf(fp, "  0 %.3f rlineto %.3f 0 rlineto 0 %.3f rlineto closepath\n", (float) ps->leg_cellsize, (float) ps->leg_cellsize, (-1 * (float) ps->leg_cellsize));
+    fprintf(fp, "  ");
+    for(cp = 0; cp < NCMYK; cp++) { 
+      fprintf(fp, "%.2f ", hc_scheme[c][cp]);
+    }
+    fprintf(fp, "setcmykcolor\n");
+    fprintf(fp, "  fill\n");
+
+    /* draw a small box outlining the colored block we just drew */
+    /*fprintf(fp, "%.2f setlinewidth\n", (ps->leg_cellsize / 24.));
+    fprintf(fp, "newpath\n");
+    fprintf(fp, "  %.2f %.2f moveto", x, y);
+    fprintf(fp, "  0 %.3f rlineto %.3f 0 rlineto 0 %.3f rlineto closepath\n", (float) ps->leg_cellsize, (float) ps->leg_cellsize, (-1 * (float) ps->leg_cellsize));
+    fprintf(fp, "  ");
+    fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", 0., 0., 0., 1.);
+    fprintf(fp, "  stroke\n");*/
+
+    /* print label */
+    x += (float) ps->leg_cellsize * 1.5;
+    y += (float) ps->leg_cellsize * 0.25;
+    fprintf(fp, "  0.00 0.00 0.00 1.00 setcmykcolor\n");
+    if(esl_FCompare(scl->limits[c+1], SSDRAWINFINITY, eslSMALLX1) == eslOK) { /* max value is infinity, special case */
+      if(c != scl->nbins-1) esl_fatal("ERROR when drawing color legend, limits[%d] is INFINITY, but this is reserved only for the max limit", c+1);
+      if(scl->ints_only_flag) fprintf(fp, "(>=%d) %.2f %.2f moveto show\n",   (int) scl->limits[c], x, y);
+      else                    fprintf(fp, "(>=%3.f) %.2f %.2f moveto show\n", scl->limits[c], x, y);
+    }
+    else if(scl->ints_only_flag) { 
+      if(c == scl->nbins-1) { 
+	fprintf(fp, "(\\[%d-%d\\]) %.2f %.2f moveto show\n", (int) scl->limits[c], (int) scl->limits[c+1], x, y);
+      }
+      else if(esl_FCompare(scl->limits[c], scl->limits[c+1]-1, eslSMALLX1) == eslOK) { /* next limit is exactly 1 plus cur limit, don't do range, define single int */
+	if(compare_two_cmyk_colors(hc_scheme[c][ICYAN], hc_scheme[c][IMGTA], hc_scheme[c][IYELW], hc_scheme[c][IBLCK], WHITE_C, WHITE_M, WHITE_Y, WHITE_K)) { 
+	  /* color is white and won't show up on our white background, so we explicitly state (blank) next to it's color value */
+	  fprintf(fp, "(\\(blank\\) %d) %.2f %.2f moveto show\n", (int) scl->limits[c], x, y);
+	}
+	else { 
+	  fprintf(fp, "(%d) %.2f %.2f moveto show\n", (int) scl->limits[c], x, y);
+	}
+      }
+      else { 
+	fprintf(fp, "(\\[%d-%d\\]) %.2f %.2f moveto show\n", (int) scl->limits[c], (int) scl->limits[c+1]-1, x, y);
+      }
+    }
+    else { 
+      if(c == scl->nbins-1) fprintf(fp, "(\\[%.3f-%.3f\\%c) %.2f %.2f moveto show\n", scl->limits[c], scl->limits[c+1], (scl->high_inclusive ? ']' : ')'), x, y);
+      else if(c == 0)       fprintf(fp, "(\\%c%.3f-%.3f\\)) %.2f %.2f moveto show\n", (scl->low_inclusive ? '[' : '('), scl->limits[c], scl->limits[c+1], x, y);
+      else                  fprintf(fp, "(\\[%.3f-%.3f\\)) %.2f %.2f moveto show\n", scl->limits[c], scl->limits[c+1], x, y);
+    }
+    /* print stats */
+    old_x = x;
+    x = ps->legx_stats;
+    if(do_mask) { 
+      fprintf(fp, "(%4d  %4d) %.2f %.2f moveto show\n", scl->counts[c], scl->counts_masked[c], x, y);
+    }
+    else { 
+      fprintf(fp, "(%5d) %.2f %.2f moveto show\n", scl->counts[c], x, y);
+    }
+
+    x = old_x - (float) ps->leg_cellsize * 1.5;
+    y -= (float) ps->leg_cellsize * 0.25;
+    y -= (float) ps->leg_cellsize;
+  }
+
+  /* reset color to black */ 
+  fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", 0., 0., 0., 1.);
+  fprintf(fp, "%% end color scheme legend\n\n");
+  
+  ps->cur_legy = y;
+  return eslOK;
+}
+
+
+/* Function: draw_text_section_in_legend()
+ * 
+ * Purpose:  Print a text section in the legend section.
+ * Return:   eslOK, dies if we run out of memory.
+ */
+static int 
+draw_text_section_in_legend(FILE *fp, TextLegend_t *tl, SSPostscript_t *ps, int tl_idx, int pagenum)
+{
+  int status; 
+  float x, y;
+  int i;
+  float fontsize;
+  char *cur_string;
+  int cur_width = 0;
+
+  x = ps->legx;
+  y = ps->cur_legy;
+
+  /* print cell */
+  fprintf(fp, "%% begin text legend\n");
+  fontsize = LEG_EXTRA_TEXT_FONTSIZE_UNSCALED / ps->scale;
+  /* print text for this legend */
+
+  /* back to black */
+  fprintf(fp, "  0.00 0.00 0.00 1.00 setcmykcolor\n");
+  fprintf(fp, "/%s findfont %f scalefont setfont\n", LEG_EXTRA_TEXT_FONT, fontsize);
+  for(i = 0; i < tl->nlines; i++) { 
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", tl->text_per_line[i], x, y);
+    y -= (float) fontsize * 1.25;
+  }
+  if(tl->do_separator) {
+    cur_width = ps->legx_max_chars - ((int) (PAGE_SIDEBUF / ps->legx_charsize)) - LEG_EXTRA_COLUMNS - 2;
+    ESL_ALLOC(cur_string, sizeof(char) * (cur_width+1));
+    for(i = 0; i < cur_width; i++) cur_string[i] = '-'; 
+    cur_string[cur_width] = '\0';
+    fprintf(fp, "(%s) %.2f %.2f moveto show\n", cur_string, ps->legx,      (y - ((float) ps->leg_cellsize * 0.5)));
+    fprintf(fp, "(-----) %.2f %.2f moveto show\n", (float) ps->legx_stats, (y - ((float) ps->leg_cellsize * 0.5)));
+    y -= (float) ps->leg_cellsize * 0.5;
+    free(cur_string);
+  }
+  ps->cur_legy = y - (1.0 * (float) ps->leg_cellsize);
+  
+  fprintf(fp, "%% end text legend\n\n");
+  return eslOK;
+
+ ERROR: esl_fatal("ERROR drawing text legend, probably out of memory.");
+  return eslEMEM; /* never reached */
+}
+
+/* Function: draw_sspostscript()
+ * 
+ * Purpose:  Print a SS postscript data structure.
+ * Return:   eslOK on success;
+ *           eslEINCOMPAT if ps->npage == 0
+ */
+static int
+draw_sspostscript(FILE *fp, const ESL_GETOPTS *go, char *errbuf, char *command, char *date, float ***hc_scheme, SSPostscript_t *ps)
+{
+  int status;
+  int p, pi, i, c, l;
+  int do_circle_mask, do_square_mask, do_x_mask, do_border;
+  int *page_orderA;
+
+  if(ps->modelname == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read modelname from template file.");
+
+  do_border = (!esl_opt_GetBoolean(go, "--mask-a"));
+  do_circle_mask = do_square_mask = do_x_mask = FALSE;
+  if(esl_opt_GetBoolean(go, "--mask-u")) { do_square_mask = TRUE; }
+  else if(esl_opt_GetBoolean(go, "--mask-x")) { do_x_mask = TRUE; }
+  else do_circle_mask = TRUE;
+
+  if(ps->npage == 0) ESL_FAIL(eslEINCOMPAT, errbuf, "draw_sspostscript, ps->npage == 0\n");
+
+  /* determine print order of pages, currently this is just 0..npage-1 */
+  ESL_ALLOC(page_orderA, sizeof(int) * ps->npage);
+  for(pi = 0; pi < ps->npage; pi++) page_orderA[pi] = pi;
+
+  /* define procedures */
+  fprintf(fp, "%% ------------------------------------------------------------\n");
+  fprintf(fp, "%% Procedure definitions\n");
+  define_outline_procedure(fp);
+  fprintf(fp, "%% ------------------------------------------------------------\n");
+
+  /* draw the pages */
+  for(pi = 0; pi < ps->npage; pi++) { 
+    p = page_orderA[pi];
+    ps->cur_legy = ps->legy;
+
+    /* print postscript comment header, only visible if viewed in text mode */
+    fprintf(fp, "%% ------------------------------------------------------------\n");
+    fprintf(fp, "%% Postscript file created by esl-ssdraw (page %d of %d)\n", pi+1, ps->npage);
+    fprintf(fp, "%% ------------------------------------------------------------\n");
+    fprintf(fp, "%% msafile:       %s (%d seqs)\n", esl_opt_GetArg(go, 1), ps->msa_nseq);
+    fprintf(fp, "%% templatefile:  %s\n", esl_opt_GetArg(go, 2));
+    fprintf(fp, "%% modelname:     %s\n", ps->modelname);
+    fprintf(fp, "%% consensus-len: %d\n", ps->rflen);
+    if(esl_opt_IsOn(go, "--mask")) { 
+      fprintf(fp, "%% maskfile:      %s\n", esl_opt_GetString(go, "--mask"));
+    }	    
+    if(esl_opt_IsOn(go, "--mask-diff")) { 
+      fprintf(fp, "%% difffile:    %s\n", esl_opt_GetString(go, "--mask-diff"));
+    }	    
+    if(esl_opt_IsOn(go, "--dfile")) { 
+      fprintf(fp, "%% dfile:         %s\n", esl_opt_GetString(go, "--dfile"));
+    }
+    if(esl_opt_IsOn(go, "--efile")) { 
+      fprintf(fp, "%% efile:      %s\n", esl_opt_GetString(go, "--efile"));
+    }
+    if(esl_opt_IsOn(go, "--ifile")) { 
+      fprintf(fp, "%% ifile:      %s\n", esl_opt_GetString(go, "--ifile"));
+    }
+    fprintf(fp, "%%\n");
+
+    /* scale section */
+    fprintf(fp, "%.2f %.2f scale\n\n", ps->scale, ps->scale);
+      
+    /* header section */
+    if((status = draw_header_and_footer(fp, go, errbuf, ps, p, pi+1)) != eslOK) return status;
+
+    /* regurgitated section */
+    if(ps->regurgA != NULL) {
+      fprintf(fp, "%% begin regurgitate\n");
+      for(i = 0; i < ps->nregurg; i++)
+	fprintf(fp, "%s", ps->regurgA[i]);
+      fprintf(fp, "%% end regurgitate\n\n");
+    }
+    
+    /* 'text positiontext' section */
+    for(i = 0; i < ps->nposntext; i++) { 
+      if(i == 0) { 
+	fprintf(fp, "%% begin text positiontext\n");
+	fprintf(fp, "/%s findfont %.2f scalefont setfont\n", POSNTEXT_FONT, POSNTEXT_FONTSIZE);
+	fprintf(fp, "0.00 0.00 0.00 1.00 setcmykcolor\n"); /* black */
+      }
+      fprintf(fp, "%s %.2f %.2f moveto show\n", ps->posntextA[i], ps->posntextxA[i], ps->posntextyA[i]); 
+      if(i == (ps->nposntext-1)) { 
+	fprintf(fp, "%% end text positiontext\n\n");
+      }
+    }
+
+    /* 'lines bpconnects' section */
+    for(i = 0; i < ps->nbp; i++) { 
+      if(i == 0) { 
+	fprintf(fp, "%% begin lines bpconnects\n");
+	fprintf(fp, "%.2f setlinewidth\n", BP_LINEWIDTH);
+	fprintf(fp, "0.00 0.00 0.00 1.00 setcmykcolor\n"); /* black */
+      }
+      fprintf(fp, "%.2f %.2f %.2f %.2f newpath moveto lineto stroke\n", ps->bpx1A[i], ps->bpy1A[i], ps->bpx2A[i], ps->bpy2A[i]);
+      if(i == (ps->nbp-1)) { 
+	fprintf(fp, "%% end lines bpconnects\n\n");
+      }
+    }
+
+    /* print out remainder of the page */
+    /* fprintf(fp, "%% begin ignore\n"); */
+    fprintf(fp, "0.00 0.00 0.00 1.00 setcmykcolor\n"); /* set to black */
+    fprintf(fp, "/%s findfont %f scalefont setfont\n\n", LEG_FONT, LEG_FONTSIZE_UNSCALED / ps->scale);
+
+    /* draw legend headers, if we have a legend (only legend text doesn't require legend headers) */
+    if((ps->nocclA[p] > 0) || (ps->sclAA != NULL && ps->sclAA[p] != NULL)) { 
+      if(! (esl_opt_GetBoolean(go, "--no-leg"))) { 
+	if((status = draw_legend_column_headers(fp, ps, p, errbuf)) != eslOK) return status;
+      }
+    }
+
+    /* print one cell color legends, if any */
+    if(ps->occlAAA != NULL && ps->occlAAA[p] != NULL) { 
+      for(l = 0; l < ps->nocclA[p]; l++) { 
+	if(! (esl_opt_GetBoolean(go, "--no-leg"))) { 
+	  draw_onecell_colorlegend(fp, ps->occlAAA[p][l], ps, l, p);
+	}
+      }
+    }
+    /* print scheme color legends, if any */
+    if(ps->sclAA != NULL && ps->sclAA[p] != NULL) { 
+      if(! (esl_opt_GetBoolean(go, "--no-leg"))) { 
+	draw_scheme_colorlegend(go, fp, ps->sclAA[p], hc_scheme[ps->sclAA[p]->scheme], ps, p);
+      }
+    }
+    /* print text legends, if any */
+    if(ps->tlAAA != NULL && ps->tlAAA[p] != NULL) { 
+      for(l = 0; l < ps->ntlA[p]; l++) { 
+	if(! (esl_opt_GetBoolean(go, "--no-leg"))) { 
+	  draw_text_section_in_legend(fp, ps->tlAAA[p][l], ps, l, p);
+	}
+      }
+    }
+
+    if(ps->bcolAAA != NULL && ps->bcolAAA[p] != NULL) { 
+      fprintf(fp, "%% begin colored positions\n");
+      if(ps->mask != NULL && ps->modeA[p] != SIMPLEMASKMODE && ps->modeA[p] != INDIMODE) { 
+	fprintf(fp, "2.0 setlinewidth\n");
+	if(do_border && do_x_mask)      { fprintf(fp, "1.0 setlinewidth\n"); }
+	if(do_border && do_square_mask) { fprintf(fp, "2.0 setlinewidth\n"); }
+	if(do_border && do_circle_mask) { fprintf(fp, "2.5 setlinewidth\n"); }
+	for(c = 0; c < ps->rflen; c++) { 
+	  fprintf(fp, "%snucleotide %d\n", "%", c+1);
+	  if(ps->mask[c] == '0') { 
+	    draw_masked_block(fp, ps->rxA[c]-1., ps->ryA[c]-1., ps->bcolAAA[p][c], do_circle_mask, do_square_mask, do_x_mask, do_border, CELLSIZE);
+	  }
+	  else { /* cell is within mask, ps->mask[c] == '1' */
+	    fprintf(fp, "newpath\n");
+	    fprintf(fp, "  %.2f %.2f moveto", ps->rxA[c] - (CELLSIZE * CELL_XOFFSET_FRACTION), ps->ryA[c] - (CELLSIZE * CELL_YOFFSET_FRACTION));
+	    fprintf(fp, "  0 %d rlineto %d 0 rlineto 0 %d rlineto closepath\n", CELLSIZE_INT, CELLSIZE_INT, -1 * CELLSIZE_INT);
+	    fprintf(fp, "  %.2f %.2f %.2f %.2f setcmykcolor\n", ps->bcolAAA[p][c][0], ps->bcolAAA[p][c][1], ps->bcolAAA[p][c][2], ps->bcolAAA[p][c][3]);
+	    fprintf(fp, "  fill\n"); 
+	  }
+	}
+	fprintf(fp, "1.00 setlinewidth\n");
+      }
+      else { /* no mask, all cells are printed the same */
+	for(c = 0; c < ps->rflen; c++) { 
+	  fprintf(fp, "%snucleotide %d\n", "%", c+1);
+	  fprintf(fp, "newpath\n");
+	  fprintf(fp, "  %.2f %.2f moveto", ps->rxA[c] - (CELLSIZE * CELL_XOFFSET_FRACTION), ps->ryA[c] - (CELLSIZE * CELL_YOFFSET_FRACTION));
+	  fprintf(fp, "  0 %d rlineto %d 0 rlineto 0 %d rlineto closepath\n", CELLSIZE_INT, CELLSIZE_INT, -1 * CELLSIZE_INT);
+	  fprintf(fp, "  %.2f %.2f %.2f %.2f setcmykcolor\n", ps->bcolAAA[p][c][0], ps->bcolAAA[p][c][1], ps->bcolAAA[p][c][2], ps->bcolAAA[p][c][3]);
+	  fprintf(fp, "  fill\n");
+	}
+      }
+      /* back to black */
+      fprintf(fp, "  0.00 0.00 0.00 1.00 setcmykcolor\n");
+      fprintf(fp, "%% end colored positions\n\n");
+    }
+
+    if(ps->rAA[p] != NULL) { 
+      fprintf(fp, "/%s findfont %f scalefont setfont\n", NUCLEOTIDES_FONT, NUCLEOTIDES_FONTSIZE);
+      fprintf(fp, "  0.00 0.00 0.00 1.00 setcmykcolor\n"); /* reset color as black */
+      fprintf(fp, "%% begin text nucleotides\n");
+      if(ps->rcolAAA[p] != NULL) { 
+	for(c = 0; c < ps->rflen; c++) { 
+	  fprintf(fp, "  %.2f %.2f %.2f %.2f setcmykcolor ", ps->rcolAAA[p][c][0], ps->rcolAAA[p][c][1], ps->rcolAAA[p][c][2], ps->rcolAAA[p][c][3]);
+	  if(strchr(LOWERCASE_LOW_HANGING_CHARS, ps->rAA[p][c]) != NULL) { 
+	    fprintf(fp, "(%c) %.2f %.2f moveto show", ps->rAA[p][c], ps->rxA[c], ps->ryA[c] + (CELLSIZE * NUCLEOTIDE_YOFFSET_FRACTION_LOWERCASE_LOW_HANGING_CHARS)); 
+	    /* handle lowercase low hanging chars ("gjpqy") nucleotides special, so they're centered in the box! */
+	  }
+	  else if(ps->rAA[p][c] != ' ') { 
+	    fprintf(fp, "(%c) %.2f %.2f moveto show", ps->rAA[p][c], ps->rxA[c], ps->ryA[c]);
+	  }
+	  fprintf(fp, "\n");
+	}
+      }
+      else { /* ps->rcolAAA[p] is NULL */
+	for(c = 0; c < ps->rflen; c++) { 
+	  if(strchr(LOWERCASE_LOW_HANGING_CHARS, ps->rAA[p][c]) != NULL) { 
+	    fprintf(fp, "(%c) %.2f %.2f moveto show", ps->rAA[p][c], ps->rxA[c], ps->ryA[c] + (CELLSIZE * NUCLEOTIDE_YOFFSET_FRACTION_LOWERCASE_LOW_HANGING_CHARS)); 
+	    /* handle lowercase low hanging chars ("gjpqy") nucleotides special, so they're centered in the box! */
+	  }
+	  else if(ps->rAA[p][c] != ' ') {
+	    fprintf(fp, "(%c) %.2f %.2f moveto show", ps->rAA[p][c], ps->rxA[c], ps->ryA[c]);
+	  }
+	  fprintf(fp, "\n");
+	}
+      }
+      fprintf(fp, "%% end text nucleotides\n");
+      fprintf(fp, "  0.000 0.000 0.000 1.000 setcmykcolor\n"); /* reset color as black */
+    }
+
+    if(ps->otypeAA != NULL && ps->otypeAA[p] != NULL) { 
+      fprintf(fp, "%% begin outlines\n");
+      for(c = 0; c < ps->rflen; c++) { 
+	if(ps->otypeAA[p][c] != OUTLINE_NONE_IDX) { 
+	  /* push x and y and cellsize onto stack */
+	  fprintf(fp, "%.2f %.2f %.2f", 
+		  ps->rxA[c] - (CELLSIZE * CELL_XOFFSET_FRACTION), 
+		  ps->ryA[c] - (CELLSIZE * CELL_YOFFSET_FRACTION), 
+		  CELLSIZE);
+	  if(ps->otypeAA[p][c] == OUTLINE_MIN_IDX) { 
+	    fprintf(fp, " %.2f %s\n", 
+		    OUTLINE_LINEWIDTH_CELL_FRACTION_MIN * CELLSIZE, 
+		    OUTLINE_PROCEDURE);
+	  }
+	  else if(ps->otypeAA[p][c] == OUTLINE_MAX_IDX) { 
+	    fprintf(fp, " %.2f %s\n", 
+		    OUTLINE_LINEWIDTH_CELL_FRACTION_MAX * CELLSIZE, 
+		    OUTLINE_PROCEDURE);
+	  }
+	}
+      }
+      fprintf(fp, "%% end outlines\n");
+      fprintf(fp, "  0.000 0.000 0.000 1.000 setcmykcolor\n"); /* reset color as black */
+    }
+    
+    /* 'lines positionsticks' section, drawn last so they're not buried beneath other objects */
+    for(i = 0; i < ps->nticks; i++) { 
+      if(i == 0) { 
+	fprintf(fp, "%% begin lines positionticks\n");
+	fprintf(fp, "%.2f setlinewidth\n", TICKS_LINEWIDTH);
+	fprintf(fp, "0.00 0.00 0.00 1.00 setcmykcolor\n"); /* black */
+      }
+      fprintf(fp, "%.2f %.2f %.2f %.2f newpath moveto lineto stroke\n", ps->ticksx1A[i], ps->ticksy1A[i], ps->ticksx2A[i], ps->ticksy2A[i]);
+      if(i == (ps->nticks-1)) { 
+	fprintf(fp, "%% end lines positionticks\n\n");
+      }
+    }
+
+    fprintf(fp, "showpage\n\n");
+    /* fprintf(fp, "%% end ignore\n\n"); */
+  }
+  free(page_orderA);
+  return eslOK;
+
+ ERROR: ESL_FAIL(eslEINVAL, errbuf, "draw_sspostscript() error, probably out of memory.");
+}  
+
+
+/* parse_template_file
+ *
+ * Read secondary structure templates from a postscript 
+ * template file derived from the Gutell CRW website until
+ * the one that corresponds to our alignment is found, 
+ * (defined as the first template structure that has the
+ * same consensus length as the passed in <msa_rflen>)
+ * or we run out structure templates. This function
+ * repeatedly calls parse_template() which actually parses
+ * the templates.
+ * 
+ * If we run out of structure templates of anything is 
+ * invalid in any of the templates in the file, we 
+ * return a non-eslOK status code to caller and fill
+ * errbuf with the error message.
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_template_file(char *filename, const ESL_GETOPTS *go, char *errbuf, int msa_rflen, SSPostscript_t **ret_ps)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  SSPostscript_t *ps;
+  int             found_match = FALSE;
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) esl_fatal("ERROR, failed to open template file %s in parse_template_file\n", filename);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  status = eslOK;
+  while((found_match == FALSE) && (status == eslOK)) {
+    status = parse_template_page(efp, go, errbuf, &ps);
+    if((status != eslOK) && (status != eslEOF)) { 
+      esl_fileparser_Close(efp);
+      return status;
+    }
+    if(ps->rflen == msa_rflen) { found_match = TRUE; }
+    else                       { free_sspostscript(ps); }
+  }
+  if(found_match == FALSE) { 
+    esl_fileparser_Close(efp);
+    esl_fatal("ERROR, did not find template structure to match alignment consensus length of %d in:\n%s\n", msa_rflen, filename);
+  }
+
+  /* if we get here, we've found a match */
+
+  /* validate the template we just read */
+  if((status = validate_justread_sspostscript(ps, errbuf)) != eslOK) return status;
+
+  esl_fileparser_Close(efp);
+  *ret_ps = ps;
+
+  return eslOK;
+}
+  
+
+/* parse_template_page
+ *
+ * Read a single secondary structure template page for a
+ * single CM from a postscript template file derived from the 
+ * Gutell CRW website. This function is called repeatedly
+ * on the same file to read multiple structure templates.
+ * The logic is to keep reading until we find one with the
+ * same consensus length as our input alignment. 
+ * 
+ * The structure template is read in sections.
+ * Each section begins with a line like this: 
+ * % begin <type1> <type2> 
+ * 
+ * list of valid tokens for <type1>:
+ * modelname
+ * legcoords
+ * scale
+ * regurgitate
+ * ignore 
+ * lines
+ * text
+ * 
+ * if <type1> is lines or text, then <type2> is read, 
+ * valid tokens for <type2> if <type1> is 'text'
+ * positiontext
+ * nucleotides
+ * 
+ * valid tokens for <type2> if <type1> is 'lines'
+ * positionticks
+ * bpconnects
+ * 
+ * The 'regurgitate' lines are stored, but never changed.
+ * The 'ignore' lines are not even stored.
+ * All other <type1> lines are stored in data structures that
+ * can be manipulated (though not all are at this point).
+ * 
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_template_page(ESL_FILEPARSER *efp, const ESL_GETOPTS *go, char *errbuf, SSPostscript_t **ret_ps)
+{
+  int             status;
+  char           *tok;
+  int             toklen;
+  SSPostscript_t *ps = NULL;
+  int            read_showpage = FALSE;
+  int            reached_eof = FALSE;
+
+  /* Create the postscript object */
+  ps = create_sspostscript(go);
+
+  while ((read_showpage == FALSE) && ((status = esl_fileparser_GetToken(efp, &tok, &toklen))  == eslOK)) {
+    if(strcmp(tok, "%") == 0) { 
+      if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK) { 
+	if(strcmp(tok, "begin") == 0) { 
+	  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK) { 
+	    if(strcmp(tok, "modelname") == 0) { 
+	      if((status = parse_modelname_section(efp, errbuf, ps)) != eslOK) return status;
+	    }
+	    else if(strcmp(tok, "legend") == 0) { 
+	      /*printf("parsing legend\n");*/
+	      if((status = parse_legend_section(efp, errbuf, ps)) != eslOK) return status;
+	    }
+	    else if(strcmp(tok, "scale") == 0) { 
+	      /*printf("parsing scale\n");*/
+	      if((status = parse_scale_section(efp, errbuf, ps)) != eslOK) return status;
+	    }
+	    else if(strcmp(tok, "ignore") == 0) { 
+	      /*printf("parsing ignore\n");*/
+	      if((status = parse_ignore_section(efp, errbuf, &read_showpage)) != eslOK) return status;
+	    }	
+	    else if(strcmp(tok, "regurgitate") == 0) { 
+	      /*printf("parsing regurgitate\n");*/
+	      if((status = parse_regurgitate_section(efp, errbuf, ps)) != eslOK) return status;
+	    }	
+	    else if(strcmp(tok, "text") == 0) { 
+	      /*printf("parsing text\n");*/
+	      if((status = parse_text_section(efp, errbuf, ps)) != eslOK) return status;		   
+	    }
+	    else if(strcmp(tok, "lines") == 0) { 
+	      /*printf("parsing lines\n");*/
+	      if((status = parse_lines_section(efp, errbuf, ps)) != eslOK) return status;		   
+	    }	
+	    else { 
+	      ESL_FAIL(eslEINVAL, errbuf, "parse_template_page(), error, unknown section type %s.", tok);
+	    }
+	  }
+	  else { 
+	    ESL_FAIL(eslEINVAL, errbuf, "parse_template_page(), error last read line number %d.", efp->linenumber);
+	  }
+	}
+	else { 
+	  ESL_FAIL(eslEINVAL, errbuf, "parse_template_page(), expected line beginning with %%%% begin, but read tok: %s instead of begin, last read line number %d.", tok, efp->linenumber);
+	}
+      }
+      else { 
+	ESL_FAIL(eslEINVAL, errbuf, "parse_template_page(), ran out of tokens early, error last read line number %d.", efp->linenumber);
+      }
+    }
+    else { 
+      ESL_FAIL(eslEINVAL, errbuf, "parse_template_page(), expected line beginning with %%%%, read tok: %s, last read line number %d.", tok, efp->linenumber);
+    }
+  }
+  if(read_showpage == FALSE && status != eslEOF) { 
+    ESL_FAIL(status, errbuf, "parse_template_page(), error, ran out of tokens, but not at end of file?, last read line number %d.", efp->linenumber);
+  }
+  if(status == eslEOF) reached_eof = TRUE;
+
+  *ret_ps = ps;
+
+  if(reached_eof) return eslEOF;
+  else            return eslOK;
+}
+
+/* parse_modelname_section
+ *
+ * Parse the modelname section of a template postscript file.
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_modelname_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  char *tok;
+  int   toklen;
+  char *curstr = NULL;
+  int   curlen = 0;
+  int  ntok = 0;
+  /* this section should be exactly 3 lines, one of which we've already read,
+   * here's an example, next token should be the first 0.65
+   * % begin modelname
+   * % archaea
+   * % end scale
+   */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing modelname section, reading token 1 of 3"); 
+  if (strcmp(tok, "%") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing modelname section, middle line token 1 should be a percent sign but it's %s", tok); 
+  /* read remainder of line, this is the model name */
+  while ((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen))  == eslOK) { 
+    if(ntok > 0) {
+      if((status = esl_strcat(&curstr, curlen, " ",  1))      != eslOK) ESL_FAIL(status, errbuf, "parse_modelname_section(), error parsing model name.");
+      curlen += 1;
+    }
+    if((status = esl_strcat(&curstr, curlen, tok,  toklen)) != eslOK) ESL_FAIL(status, errbuf, "parse_modelname_section(), error parsing model name.");
+    curlen += toklen;
+    ntok++;
+  }
+  ESL_ALLOC(ps->modelname, sizeof(char) * (curlen+1));
+  strcpy(ps->modelname, curstr);
+
+  /* next line should be '% end modelname' */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing modelname section, reading end line token 1 of 3"); 
+  if (strcmp(tok, "%") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing modelname section, end line token 1 of 3 should be a percent sign but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing modelname section, reading end line token 2 of 3"); 
+  if (strcmp(tok, "end") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing modelname section, end line token 2 of 3 should be 'end' but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing modelname section, reading end line token 3 of 3"); 
+  if (strcmp(tok, "modelname") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing modelname section, end line token 3 of 3 should be 'modelname' but it's %s", tok); 
+
+  if(curstr != NULL) free(curstr);
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "Error, parsing modelname section, memory error?");
+}
+
+/* parse_legend_section
+ *
+ * Parse the legend (legend coordinates) section of a template postscript file.
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_legend_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  char *tok;
+  int   toklen;
+
+  /* this section should be exactly 3 lines, one of which we've already read,
+   * five tokens of the middle line are <rfpos> <x_offset> <y_offset> <leg_cellsize> <leg_right_buffer>
+   * this tells us to put the top-left corner of the legend at 
+   * ps->legx[rfpos] + x_offset, ps->legy[rfpos] + y_offset,
+   * and have the RHS of the buffer end <space_right_of_leg> points before the RHS of the page
+   * cellsize is the size of the cells in the legend
+   * here's an example, first token we'll read should be '%', followed by '1508'
+   * % begin legend
+   * % 1508 24. -24. 12 0.
+   * % end legend
+   */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 1 of 6"); 
+  if (strcmp(tok, "%") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing legend section, middle line token 1 should be a percent sign but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 2 of 6"); 
+  ps->leg_posn = atoi(tok);
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 3 of 6"); 
+  ps->legx_offset = atof(tok);
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 4 of 6"); 
+  ps->legy_offset = atof(tok);
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 5 of 6"); 
+  ps->leg_cellsize = atoi(tok);
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 6 of 6"); 
+  ps->leg_rhs_space = atof(tok);
+
+  /* read '% end legend' line */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK)  ESL_FAIL(status, errbuf, "Error, parsing legend section, reading token 3 of 3");   
+  if (strcmp(tok, "%") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing legend section, end line token 1 of 3 should be a percent sign but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading end line token 2 of 3"); 
+  if (strcmp(tok, "end") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing legend section, end line token 2 of 3 should be 'end' but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing legend section, reading end line token 3 of 3"); 
+  if (strcmp(tok, "legend") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing legend section, end line token 3 of 3 should be 'legend' but it's %s", tok); 
+
+  return eslOK;
+}
+
+/* parse_scale_section
+ *
+ * Parse the scale section of a template postscript file.
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_scale_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  char *tok;
+  int   toklen;
+
+  /* this section should be exactly 3 lines, one of which we've already read,
+   * here's an example, next token should be the first 0.65
+   * % begin scale
+   * 0.65 0.65 scale
+   * % end scale
+   */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing scale section, reading token 1 of 3"); 
+  ps->scale = atof(tok);
+  if(ps->scale < 0.) ESL_FAIL(status, errbuf, "Error, parsing scale section, scale must be positive real number, read %s\n", tok);
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing scale section, reading token 2 of 3"); 
+  if(esl_FCompare(ps->scale, atof(tok), eslSMALLX1) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing scale section, x and y scales are not equal %.2f != %.2f", ps->scale, atof(tok)); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK)  ESL_FAIL(status, errbuf, "Error, parsing scale section, reading token 3 of 3"); 
+  if (strcmp(tok, "scale") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing scale section, token 3 of 3 should be 'scale' but it's %s", tok); 
+
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing scale section, reading end line token 1 of 3"); 
+  if (strcmp(tok, "%") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing scale section, end line token 1 of 3 should be a percent sign but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing scale section, reading end line token 2 of 3"); 
+  if (strcmp(tok, "end") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing scale section, end line token 2 of 3 should be 'end' but it's %s", tok); 
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing scale section, reading end line token 3 of 3"); 
+  if (strcmp(tok, "scale") != 0)  ESL_FAIL(eslEINVAL, errbuf, "Error, parsing scale section, end line token 3 of 3 should be 'scale' but it's %s", tok); 
+
+  return eslOK;
+}
+
+
+/* parse_ignore_section
+ *
+ * Parse an ignore section of a template postscript file.
+ * We ignore this data. This function's purpose is to read
+ * tokens until we see the "% end ignore" line signalling
+ * the end of the ignore section.
+ * 
+ * As a special case, if any line iss a single token, 'showpage', we 
+ * set *ret_read_showpage as TRUE upon return. This signals to caller
+ * that the current page is finished.
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_ignore_section(ESL_FILEPARSER *efp, char *errbuf, int *ret_read_showpage)
+{
+  int status;
+  char *tok;
+  int   keep_reading = TRUE;
+  int   read_showpage = FALSE;
+
+  while((keep_reading) && (status = esl_fileparser_NextLine(efp) == eslOK)) { 
+    /* we're going to keep reading until we've read the line that is '% end ignore', 3 tokens, '%', then 'end', then 'ignore' */
+    if(((status = esl_fileparser_GetToken(efp, &tok, NULL)) == eslOK) && (strcmp(tok, "%") == 0)) { /* first token is '%' */
+      if(((status = esl_fileparser_GetToken(efp, &tok, NULL)) == eslOK) && (strcmp(tok, "end") == 0)) { /* second token is 'end' */
+	if(((status = esl_fileparser_GetToken(efp, &tok, NULL)) == eslOK) && (strcmp(tok, "ignore") == 0)) { /* final token is 'end' */
+	  keep_reading = FALSE;
+	  status = eslOK;
+	}
+      }
+    }
+    else if(strcmp(tok, "showpage") == 0) { /* first token is 'showpage' */
+      read_showpage = TRUE;
+    }
+  }
+  if(status == eslEOF) ESL_FAIL(status, errbuf, "Error, parsing ignore section, finished file looking for '%%%% end ignore' line");
+  if(status != eslOK)  ESL_FAIL(status, errbuf, "Error, parsing ignore section, last line number read %d", efp->linenumber);
+
+  *ret_read_showpage = read_showpage;
+  return eslOK;
+}
+
+
+/* parse_regurgitate_section
+ *
+ * Parse a regurgitate section of a template postscript file.
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_regurgitate_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  char *tok;
+  int   toklen;
+  int   seen_end = FALSE;
+  char *curstr = NULL;
+  char *newstr;
+  int   nalloc = ps->nregurg;
+  int   curlen;
+  void *tmp;
+  int   ntok = 0;
+
+  while (((status = esl_fileparser_NextLine(efp)) == eslOK) && (!seen_end))
+  {
+    curlen = ntok = 0;
+    while ((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen))  == eslOK) { 
+      if (strcmp(tok, "%") == 0) { /* should be the end, make sure it's properly formatted */
+	if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing regurgitate section, read %%%% prefixed line without ' end regurgitate' after it"); 
+	if (strcmp(tok, "end") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing regurgitate section, read %%%% prefixed line without ' end regurgitate' after it"); 
+	if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing regurgitate section, read %%%% prefixed line without ' end regurgitate' after it"); 
+	if (strcmp(tok, "regurgitate") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing regurgitate section, read %%%% prefixed line without ' end regurgitate' after it"); 
+	seen_end = TRUE;
+	break;
+      }
+      else { 
+	if(ntok > 0) { 
+	  if((status = esl_strcat(&curstr, curlen, " ",  1))  != eslOK) ESL_FAIL(status, errbuf, "parse_regurgitate_section(), error (2).");
+	  curlen += 1;
+	}
+	if((status = esl_strcat(&curstr, curlen, tok,  toklen)) != eslOK) ESL_FAIL(status, errbuf, "parse_regurgitate_section(), error (1).");
+	curlen += toklen;
+	ntok++;
+      }
+    }
+    if(seen_end) break;
+    if((status = esl_strcat(&curstr, curlen, "\n", 1)) != eslOK) ESL_FAIL(status, errbuf, "parse_regurgitate_section(), error (3).");
+    curlen += 1;
+    ESL_ALLOC(newstr, sizeof(char) * (curlen+1));
+    strcpy(newstr, curstr);
+    if(ps->nregurg == nalloc) { 
+      nalloc += ps->nalloc; ESL_RALLOC(ps->regurgA, tmp, sizeof(char *) * nalloc); 
+    }
+    ps->regurgA[ps->nregurg++] = newstr;
+    free(curstr);
+    curstr = NULL;
+  }
+  if(status == eslEOF) ESL_FAIL(status, errbuf, "Error, parsing regurgitate section, finished file looking for '%%%% end regurgitate' line");
+  if(status != eslOK)  ESL_FAIL(status, errbuf, "Error, parsing regurgitate section, last line number read %d", efp->linenumber);
+
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "Memory error parsing regurgitate section");
+}
+
+
+/* parse_text_section
+ *
+ * Parse a text section of a template postscript file.
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_text_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  char *tok;
+  int   toklen;
+  int   seen_end = FALSE;
+  int   nalloc;
+  void *tmp;
+  int do_posntext = FALSE;
+  int do_nucleotides = FALSE;
+  int i;
+
+  /* find out which section we're in, 'posntext' or 'nucleotides' */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing text section, last line %d\n", efp->linenumber);
+  if      (strcmp(tok, "positiontext") == 0) { do_posntext = TRUE; nalloc = ps->nposntext; }
+  else if (strcmp(tok, "nucleotides")     == 0) { do_nucleotides = TRUE; nalloc = ps->rflen; }
+
+  /* Parse each line. example line: 
+   * (G) 168.00 392.00 moveto show
+   */
+  while (((status = esl_fileparser_NextLine(efp)) == eslOK) && (!seen_end))
+  {
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing text section, each non-comment line should be 5-tokens ending with 'show'");
+    if (tok[0] == '%') { /* comment line, could be the end, check if it's '% end text {positiontext,nucleotides}', if not, ignore it */
+      if(strcmp(tok, "%") == 0) { /* first token is '%', keep checking */
+	if(((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK) && (strcmp(tok, "end") == 0)) { /* second token is 'end', keep checking */
+	  if(((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK) && (strcmp(tok, "text") == 0)) { /* third token is 'end', keep checking */
+	    if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) == eslOK) { /* has a fourth token, keep checking */
+	      if(do_posntext && strcmp(tok, "positiontext") == 0) seen_end = TRUE;
+	      if(do_nucleotides && strcmp(tok, "nucleotides")     == 0) seen_end = TRUE;  
+	    }
+	  }
+	}
+      }
+    }
+    else { 
+      /* we're reading a non-comment line, tok is the string, if do_posntext, we store it, else we discard it */
+      if(do_posntext) {
+	if(ps->nposntext == nalloc) { 
+	  ESL_RALLOC(ps->posntextA,  tmp, sizeof(char *) * (nalloc + ps->nalloc)); 
+	  ESL_RALLOC(ps->posntextxA, tmp, sizeof(float) * (nalloc + ps->nalloc)); 
+	  ESL_RALLOC(ps->posntextyA, tmp, sizeof(float) * (nalloc + ps->nalloc)); 
+	  for(i = nalloc; i < nalloc + ps->nalloc; i++) ps->posntextA[i] = NULL;
+	  nalloc += ps->nalloc; 
+	}
+	if((status = esl_strdup(tok, -1, &(ps->posntextA[ps->nposntext]))) != eslOK) goto ERROR;
+      }
+      if(do_nucleotides && ps->rflen == nalloc) { 
+	ESL_RALLOC(ps->rxA, tmp, sizeof(float) * (nalloc + ps->nalloc)); 
+	ESL_RALLOC(ps->ryA, tmp, sizeof(float) * (nalloc + ps->nalloc)); 
+	nalloc += ps->nalloc; 
+      }
+
+      /* get x */
+      if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing text section, each non-comment line should be 5 tokens ending with 'show'");
+      if(do_posntext) ps->posntextxA[ps->nposntext] = atof(tok);
+      if(do_nucleotides) ps->rxA[ps->rflen] = atof(tok);
+      /* get y */
+      if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing text section, each non-comment line should be 5 tokens ending with 'show'");
+      if(do_posntext) ps->posntextyA[ps->nposntext] = atof(tok);
+      if(do_nucleotides) ps->ryA[ps->rflen] = atof(tok);
+      
+      /* verify moveto */
+      if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing text section, each non-comment line should be 5 tokens ending with 'show'");
+      if (strcmp(tok, "moveto") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing text main section, fourth token should be 'moveto', line %d", efp->linenumber);
+      /* verify show */
+      if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing text section, each non-comment line should be 5 tokens ending with 'show'");
+      if (strcmp(tok, "show") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing text main section, fifth token should be 'show', line %d", efp->linenumber);
+      
+      if(do_posntext) ps->nposntext++;
+      if(do_nucleotides) ps->rflen++;
+    }
+  }
+  if(!seen_end) { 
+    if(do_posntext) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing text positiontext section, didn't see '%%%% end text positiontext' line: %d\n", efp->linenumber);
+    if(do_nucleotides) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing text positiontext section, didn't see '%%%% end text nucleotides' line: %d\n", efp->linenumber);
+  }
+  if(status == eslEOF && do_posntext) 
+    ESL_FAIL(status, errbuf, "Error, parsing text section, finished file looking for '%%%% end text positiontext' line");
+  if(status == eslEOF && do_nucleotides) 
+    ESL_FAIL(status, errbuf, "Error, parsing text section, finished file looking for '%%%% end text nucleotides' line");
+  if(status != eslOK)  ESL_FAIL(status, errbuf, "Error, parsing text section, last line number read %d", efp->linenumber);
+
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "Memory error parsing text section");
+}
+
+/* parse_lines_section
+ *
+ * Parse a lines section of a template postscript file.
+ * If anything is invalid, we return a non-eslOK status code
+ * to caller. 
+ * 
+ * Returns:  eslOK on success.
+ */
+int
+parse_lines_section(ESL_FILEPARSER *efp, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  char *tok;
+  int   toklen;
+  int   seen_end = FALSE;
+  int   nalloc;
+  void *tmp;
+  int do_ticks = FALSE;
+  int do_bpconnects = FALSE;
+
+  /* find out which section we're in, 'positionticks' or 'bpconnects' */
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines section, last line %d\n", efp->linenumber);
+  if      (strcmp(tok, "positionticks") == 0) { do_ticks = TRUE;      nalloc = ps->nticks; }
+  else if (strcmp(tok, "bpconnects")    == 0) { do_bpconnects = TRUE; nalloc = ps->nbp;    }
+  else    ESL_FAIL(status, errbuf, "Error, parsing lines section unrecognized type: %s ('bpconnects' or 'positionticks' expected)\n", tok);
+
+  /* Parse each line. example line: 
+   * 151.82 331.76 148.86 338.65 newpath moveto lineto stroke
+   */
+  while (((status = esl_fileparser_NextLine(efp)) == eslOK) && (!seen_end))
+  {
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 5-tokens ending with 'show'");
+    if (strcmp(tok, "%") == 0) { /* should be the end, make sure it's properly formatted */
+      if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines' after it"); 
+      if (strcmp(tok, "end") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines' after it"); 
+      if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines' after it"); 
+      if (strcmp(tok, "lines") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines' after it"); 
+      if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines' after it"); 
+      if(do_ticks) { 
+	if (strcmp(tok, "positionticks") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines positionticks' after it"); 
+      }
+      if(do_bpconnects) {
+	if (strcmp(tok, "bpconnects") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines section, read %%%% prefixed line without ' end lines bpconnects' after it"); 
+      }
+      seen_end = TRUE;
+      break;
+    }
+    /* if we get here, we haven't seen the end, we're reading a normal line, tok is the first x coord, we record this */
+    /* first we expand our arrays if nec */
+    if(do_ticks && ps->nticks == nalloc) { 
+      nalloc += ps->nalloc; 
+      ESL_RALLOC(ps->ticksx1A, tmp, sizeof(float) * nalloc); 
+      ESL_RALLOC(ps->ticksy1A, tmp, sizeof(float) * nalloc); 
+      ESL_RALLOC(ps->ticksx2A, tmp, sizeof(float) * nalloc); 
+      ESL_RALLOC(ps->ticksy2A, tmp, sizeof(float) * nalloc); 
+    }
+    if(do_bpconnects && ps->nbp == nalloc) { 
+      nalloc += ps->nalloc; 
+      ESL_RALLOC(ps->bpx1A, tmp, sizeof(float) * nalloc); 
+      ESL_RALLOC(ps->bpy1A, tmp, sizeof(float) * nalloc); 
+      ESL_RALLOC(ps->bpx2A, tmp, sizeof(float) * nalloc); 
+      ESL_RALLOC(ps->bpy2A, tmp, sizeof(float) * nalloc); 
+    }
+    /* store x1 */
+    if(do_ticks) ps->ticksx1A[ps->nticks] = atof(tok);
+    if(do_bpconnects) ps->bpx1A[ps->nbp] = atof(tok);
+    /* get y1 */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if(do_ticks) ps->ticksy1A[ps->nticks] = atof(tok);
+    if(do_bpconnects) ps->bpy1A[ps->nbp] = atof(tok);
+    /* get x2 */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if(do_ticks) ps->ticksx2A[ps->nticks] = atof(tok);
+    if(do_bpconnects) ps->bpx2A[ps->nbp] = atof(tok);
+    /* get y2 */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if(do_ticks) ps->ticksy2A[ps->nticks] = atof(tok);
+    if(do_bpconnects) ps->bpy2A[ps->nbp] = atof(tok);
+    
+    /* verify newpath */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if (strcmp(tok, "newpath") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines main section, fifth token should be 'newpath', line %d", efp->linenumber);
+    /* verify moveto */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if (strcmp(tok, "moveto") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines main section, sixth token should be 'moveto', line %d", efp->linenumber);
+    /* verify lineto */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if (strcmp(tok, "lineto") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines main section, seventh token should be 'lineto', line %d", efp->linenumber);
+    /* verify stroke */
+    if((status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen)) != eslOK) ESL_FAIL(status, errbuf, "Error, parsing lines main section should include 8-tokens ending with 'stroke'");
+    if (strcmp(tok, "stroke") != 0) ESL_FAIL(eslEINVAL, errbuf, "Error, parsing lines main section, eigth token should be 'stroke', line %d", efp->linenumber);
+    
+    if(do_ticks) ps->nticks++;
+    if(do_bpconnects) ps->nbp++;
+  }
+  if(!seen_end) ESL_FAIL(status, errbuf, "Error, parsing lines section, didn't see end! line: %d\n", efp->linenumber);
+  if(status == eslEOF && do_ticks) 
+    ESL_FAIL(status, errbuf, "Error, parsing lines section, finished file looking for '%%%% end lines positionticks' line");
+  if(status == eslEOF && do_bpconnects) 
+    ESL_FAIL(status, errbuf, "Error, parsing lines section, finished file looking for '%%%% end lines bpconnects' line");
+
+  if(status != eslOK)  ESL_FAIL(status, errbuf, "Error, parsing lines section, last line number read %d", efp->linenumber);
+
+  return eslOK;
+ ERROR: ESL_FAIL(status, errbuf, "Memory error parsing lines section");
+}
+
+/* Function: individuals_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with info for individual seqs and 
+ *           possibly their posteriors in the MSA.
+ * Return:   eslOK on success.
+ * 
+ * per_seq_ins_ct - [0..i..msa->nseq-1][0..rfpos..rflen] number of inserts 
+ *                  insert after each nongap RF position per sequence.
+ *                  If rfpos == 0: # inserts BEFORE first position.
+ *                  If rfpos == n: # inserts after position rfpos n
+ *                  This is off-by-one with respect to msa->rf for example,
+ *                  msa->rf[n] is the 'n-1'th nucleotide of the RF annotation.
+ */
+static int
+individuals_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **abc_ct, ESL_MSA *msa, int **per_seq_ins_ct, 
+			 int do_prob, int do_rescol, float ***hc_scheme, int hc_scheme_idx_s, int hc_scheme_idx_p, 
+			 int hc_nbins_s, int hc_nbins_p, float **hc_onecell, int extdel_idx_s, int wcbp_idx_s, int gubp_idx_s, 
+			 int ncbp_idx_s, int dgbp_idx_s, int hgbp_idx_s, int gap_idx_p, FILE *tabfp)
+{
+  int status;
+  int p, i, pp, ai;
+  int rfpos, apos, lpos, rpos, lrfpos, rrfpos;
+  int orig_npage = ps->npage;
+  int new_npage;
+
+  /* variables for the sequence pages */
+  int nextdel_s = 0;  /* number of external deletes (3' and 5' flush deletes) */
+  int nwc_s = 0;      /* number of Watson/Crick (A:U,U:A,C:G,G:C) basepairs */
+  int ngu_s = 0;      /* number of G:U,U:G basepairs (2 * num G-U,U-G bps) */
+  int nnc_s = 0;      /* number of non-canonical basepairs (A:A,A:C,A:G,C:A,C:C,C:U,G:A,G:G,U:C,U:U) */
+  int ndgi_s = 0;     /* number of internal double-gap basepairs */
+  int nhgi_s = 0;     /* number of internal half-gap basepairs */
+  int ndge_s = 0;     /* number of external double-gap basepairs */
+  int nhge_s = 0;     /* number of external half-gap basepairs */
+  float *limits_s;    /* [nbins+1] limits for each bin, limits[0] is min value we would expect to see, limits[nbins] is max */
+  int nins_s;         /* number of inserts after the current rfpos for current sequence */
+  int spos, epos;     /* first/final nongap position for cur sequence */
+  int apos_is_internal; /* is apos within spos..epos?, if not it's an external deletion */
+  int lpos_is_internal; /* is lpos within spos..epos?, if not it's an external deletion */
+  int rpos_is_internal; /* is rpos within spos..epos?, if not it's an external deletion */
+  int namewidth;        /* length in chars of longest seq name we'll print */
+  char *namedashes = NULL;
+  int ni;
+  double cur_cfreq;
+  int noutline_min     = 0; /* number of positions with minimal outline */
+  int noutline_max     = 0; /* number of positions with maximal outline */
+  int noutline_bp_good = 0; /* number of WC/GU basepairs that have left and/or right half outlined, consensus is WC/GU */
+  int noutline_bp_bad  = 0; /* number of NC    basepairs that have left and/or right half outlined, consensus is WC/GU */
+  int maj_bp_is_wc_or_gu;   /* TRUE if current consensus bp is a watson-crick of GU in majority consensus sequence */
+  float *stack;         /* postscript stack for outline procedure */
+
+  /* variables for the postprob pages */
+  int ngap_p = 0;
+  int ngap_masked_p = 0;
+  float *limits_p;    
+  int within_mask;
+  float ppavgA[11];
+  int ppidx;
+  int do_prob_res = FALSE; /* set to TRUE if --no-ntpp is NOT enabled */
+  int do_outline  = FALSE; /* set to TRUE if --no-nt is NOT enabled */
+  int noccl; /* number of one-cell color legends depends on value of do_prob_res and do_ouline */
+
+  /* contract check */
+  if(do_prob) { 
+    if(msa->pp == NULL) ESL_FAIL(eslEINVAL, errbuf, "internal error, individuals_sspostscript() do_prob == TRUE, msa->pp == FALSE");
+    for(i = 0; i < msa->nseq; i++) { 
+      if(msa->pp[i] == NULL)
+	ESL_FAIL(eslEINVAL, errbuf, "with --indi, either all or none of the selected sequences must have PP annotation, seq %d does not", i);
+    }
+    do_prob_res = (! esl_opt_GetBoolean(go, "--no-ntpp"));
+  }
+  do_outline = (! esl_opt_GetBoolean(go, "--no-ol"));
+
+  /* PP values, hard coded */
+  ppavgA[0]  = 0.025;
+  ppavgA[1]  = 0.10;
+  ppavgA[2]  = 0.20;
+  ppavgA[3]  = 0.30;
+  ppavgA[4]  = 0.40;
+  ppavgA[5]  = 0.50;
+  ppavgA[6]  = 0.60;
+  ppavgA[7]  = 0.70;
+  ppavgA[8]  = 0.80;
+  ppavgA[9]  = 0.90;
+  ppavgA[10] = 0.975;
+
+  if(ps->mask == NULL) { ngap_masked_p = -1; } /* special flag */
+
+  /* determine number of pages we'll add */
+  new_npage = do_prob ? msa->nseq*2 : msa->nseq; 
+  if((status = add_pages_sspostscript(ps, new_npage, INDIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  /* add the pages carefully, we allocate posterior pages and seq pages differently */
+  for(p = orig_npage; p < ps->npage; p++) { 
+    /* allocate seq page */
+    ESL_ALLOC(ps->rAA[p],    sizeof(char) *  (ps->rflen+1));
+    if(do_rescol)  ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+    if(do_outline) { 
+      ESL_ALLOC(ps->otypeAA[p], sizeof(char) * ps->rflen);
+      for(rfpos = 0; rfpos < ps->rflen; rfpos++) ps->otypeAA[p][rfpos] = OUTLINE_NONE_IDX;
+    }
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    noccl = 2;
+    if (do_rescol)  noccl += 5;
+    if (do_outline) noccl += 7;
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * noccl);
+    for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+      if(do_rescol) ESL_ALLOC(ps->rcolAAA[p][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+      ESL_ALLOC(ps->bcolAAA[p][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+    }
+
+    if(do_prob) { 
+      /* allocate postprob page */
+      p++;
+      ESL_ALLOC(ps->rAA[p], sizeof(char) *  (ps->rflen+1));
+      ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+      ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 1);
+      if(do_prob_res) ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+	ESL_ALLOC(ps->bcolAAA[p][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+	if(do_prob_res) ESL_ALLOC(ps->rcolAAA[p][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+
+  /* setup seq limits */
+  ESL_ALLOC(limits_s, sizeof(float) * (hc_nbins_s+1)); 
+  limits_s[0] = 0;
+  limits_s[1] = 1;
+  limits_s[2] = 2;
+  limits_s[3] = 5;
+  limits_s[4] = 10;
+  limits_s[5] = SSDRAWINFINITY;
+
+  /* setup pp limits */
+  ESL_ALLOC(limits_p, sizeof(float) * (hc_nbins_p+1)); 
+  limits_p[0] = 0.0;
+  limits_p[1] = 0.35;
+  limits_p[2] = 0.55;
+  limits_p[3] = 0.75;
+  limits_p[4] = 0.85;
+  limits_p[5] = 0.95;
+  limits_p[6] = 1.00;
+
+  /* allocate the uaseqlenA data structure to store unaligned seq lengths */
+  if(ps->uaseqlenA != NULL) { free(ps->uaseqlenA); ps->uaseqlenA = NULL; }
+  ESL_ALLOC(ps->uaseqlenA, sizeof(int) * msa->nseq);
+  esl_vec_ISet(ps->uaseqlenA, msa->nseq, 0);
+
+  if(tabfp != NULL) { 
+    /* determine max length of a name */
+    namewidth = 8; /* length of 'seq name' */
+    for(i = 0; i < msa->nseq; i++) {
+      namewidth = ESL_MAX(namewidth, strlen(msa->sqname[i]));
+    }
+    ESL_ALLOC(namedashes, sizeof(char) * namewidth+1);
+    namedashes[namewidth] = '\0';
+    for(ni = 0; ni < namewidth; ni++) namedashes[ni] = '-';
+    fprintf(tabfp, "# -----------------------\n");
+    fprintf(tabfp, "# Per-sequence statistics\n");
+    fprintf(tabfp, "# -----------------------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each sequence\n", ps->rflen);
+    fprintf(tabfp, "# printed to the output postscript file.\n");
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", do_outline ? 15 : 11);
+    fprintf(tabfp, "# \ttoken  1: 'perseq' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken  2: sequence name\n");
+    fprintf(tabfp, "# \ttoken  3: spos: aligned position of first (5'-most) nongap nucleotide in sequence\n");
+    fprintf(tabfp, "# \ttoken  4: epos: aligned position of final (3'-most) nongap nucleotide in sequence\n");
+    fprintf(tabfp, "# \ttoken  5: number of Watson-Crick basepairs (A-U, C-G, G-C, or U-A) in the sequence\n");
+    fprintf(tabfp, "# \ttoken  6: number of G-U or U-G basepairs in the sequence\n");
+    fprintf(tabfp, "# \ttoken  7: number of non-canonical basepairs (A-A, A-C, A-G, C-A, C-C, C-U, G-A, G-G, U-C, U-U) in the sequence\n");
+    fprintf(tabfp, "# \ttoken  8: number of internal half-gap basepairs in the sequence\n");
+    fprintf(tabfp, "# \ttoken  9: number of internal double-gap basepairs in the sequence\n");
+    fprintf(tabfp, "# \ttoken 10: number of external half-gap basepairs in the sequence\n");
+    fprintf(tabfp, "# \ttoken 11: number of external double-gap basepairs in the sequence\n");
+    if(do_outline) { 
+      fprintf(tabfp, "# \ttoken 12: number of nt changes relative to majority rule consensus sequence\n");
+      fprintf(tabfp, "# \ttoken 13: subset of token 12 for which consensus nt occurs in > 0.75 of nongap sequences\n");
+      fprintf(tabfp, "# \ttoken 14: number of internal basepairs in seq that differ from majority rule consensus basepair\n");
+      fprintf(tabfp, "# \t          *and* consensus bp is Watson-Crick, G-U or U-G\n");
+      fprintf(tabfp, "# \ttoken 15: subset of token 14 which are Watson-Crick, G-U or U-G in seq\n");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Alignment length:              %" PRId64 " (this is max possible value for tokens 3 and 4)\n", msa->alen);
+    fprintf(tabfp, "# Number of consensus basepairs: %d (this is max possible value for tokens 5-11)\n", ps->nbp);
+    fprintf(tabfp, "# A basepair between positions i and j for sequence s is a half-gap basepair if s has\n");
+    fprintf(tabfp, "# a gap at either position i or j, but not both. It is a double-gap basepair if it has\n");
+    fprintf(tabfp, "# a gap at both positions i and j.\n");
+    fprintf(tabfp, "# A basepair between i:j is 'internal' for sequence s if if spos <= i and epos >= j.\n");
+    fprintf(tabfp, "# Otherwise, basepair i:j is 'external' for sequence s.\n");
+    fprintf(tabfp, "# All basepairs that are nongaps in both i and j are necessarily internal.\n");
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %6s  %-*s  %4s  %4s  %4s  %4s  %4s  %4s  %4s  %4s  %4s", "type", namewidth, "seq name", "spos", "epos", "nwc",  "ngu",  "nnc",  "nhgi", "ndgi", "nhge", "ndge");
+    if(do_outline) { fprintf(tabfp, "  %4s  %4s  %5s  %5s", "ndf", "nrdf", "nbpdf", "nbpcp"); }
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %6s  %-*s  %4s  %4s  %4s  %4s  %4s  %4s  %4s  %4s  %4s", "------", namewidth, namedashes, "----", "----", "----", "----", "----", "----", "----", "----", "----");
+    if(do_outline) { fprintf(tabfp, "  %4s  %4s  %5s  %5s", "----", "----", "-----", "-----"); }
+    fprintf(tabfp, "\n");
+  }
+  
+  /* Step through each seq, first fill seq page, then possibly postprob page */
+  ai = 0;
+  pp = orig_npage-1;
+  for(i = 0; i < msa->nseq; i++) {
+    /**************************
+     * Draw the sequence page *
+     **************************/
+    pp++;
+    spos = epos = -1;
+    /* determine first and final non-gap position */
+    for(apos = 0; apos < msa->alen; apos++) { /* find first non-gap RF position */
+      if((! esl_abc_CIsGap(abc, msa->aseq[i][apos]))) { 
+	spos = apos;
+	break;
+      }
+    }
+    for(apos = msa->alen-1; apos >= 0; apos--) { 
+      if((! esl_abc_CIsGap(abc, msa->aseq[i][apos]))) { 
+	epos = apos;
+	break;
+      }
+    }
+    ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx_s, hc_nbins_s, limits_s, TRUE, TRUE, TRUE, FALSE);
+    /* init one cell legend counters */
+    nextdel_s = nwc_s = ngu_s = nnc_s = ndgi_s = nhgi_s = ndge_s = nhge_s = noutline_min = noutline_max = noutline_bp_good = noutline_bp_bad = 0;
+    ai++;
+    for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+      apos = ps->msa_rf2a_map[rfpos];
+      nins_s = per_seq_ins_ct[i][rfpos+1];
+      apos_is_internal = TRUE; /* set to FALSE below if apos < spos || apos > epos */
+      
+      if(! esl_abc_CIsGap(abc, msa->aseq[i][apos])) ps->uaseqlenA[i]++;
+      ps->uaseqlenA[i] += nins_s;
+      ps->rAA[pp][rfpos] = msa->aseq[i][apos];
+      if(do_outline) {
+	if((! esl_abc_CIsGap(abc, msa->aseq[i][apos])) &&                  /* aseq is not a gap at this posn */
+	   (esl_abc_CIsCanonical(abc, ps->msa_cseq_maj[rfpos])) &&         /* cseq is canonical at this posn */
+	   (toupper(msa->aseq[i][apos]) != toupper(ps->msa_cseq_maj[rfpos]))) { /* aseq != cseq at this posn */
+	  cur_cfreq = abc_ct[apos][esl_abc_DigitizeSymbol(abc, toupper(ps->msa_cseq_maj[rfpos]))] / 
+	    esl_vec_DSum(abc_ct[apos], abc->K);
+	  if(cur_cfreq > 0.75) { ps->otypeAA[pp][rfpos] = OUTLINE_MAX_IDX; noutline_max++; }
+	  else                 { ps->otypeAA[pp][rfpos] = OUTLINE_MIN_IDX; noutline_min++; }
+	}
+      }	     
+      /* printf("ps->rAA[%3d][%4d]: %c\n", pp, rfpos, ps->rAA[pp][rfpos]);  */
+      if((spos != -1 && epos != -1) && /* this should always be true, unless seq has length 0! */
+	 (apos < spos || apos > epos)) { 
+	if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[extdel_idx_s])) != eslOK) return status;
+	nextdel_s++;
+	apos_is_internal = FALSE;
+      }
+      else { /* color insert value */
+	if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx_s], nins_s, ps->sclAA[pp], TRUE, NULL)) != eslOK) return status;
+      }	  
+      if(do_rescol || tabfp != NULL) { 
+	if(ps->msa_ct[(rfpos+1)] == 0) { 
+	  if(do_rescol) { 
+	    /* single-stranded nucleotide or gap, draw same color as Watson-Cricks */
+	    if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[wcbp_idx_s])) != eslOK) return status;
+	  }
+	}
+	else { /* consensus basepaired nucleotide */
+	  lpos = apos;
+	  rpos = ps->msa_rf2a_map[ps->msa_ct[rfpos+1]-1];
+	  lrfpos = rfpos;
+	  rrfpos = ps->msa_ct[rfpos+1]-1;
+	  maj_bp_is_wc_or_gu = ((is_watson_crick_bp(ps->msa_cseq_maj[lrfpos], ps->msa_cseq_maj[rrfpos])) 
+				|| (is_gu_or_ug_bp(ps->msa_cseq_maj[lrfpos], ps->msa_cseq_maj[rrfpos]))) ? TRUE : FALSE;
+	  lpos_is_internal = apos_is_internal;
+	  rpos_is_internal = TRUE; /* we set to FALSE below if nec */
+	  if((spos != -1 && epos != -1) && /* this should always be true, unless seq has length 0! */
+	     (rpos < spos || rpos > epos)) { 
+	    rpos_is_internal = FALSE;
+	  }
+	  if(lpos_is_internal && rpos_is_internal) { /* BP is either Watson-Crick, G:U/U:G, non-canonical, internal double-gap bp or internal half-gap bp */
+	    if(is_watson_crick_bp(msa->aseq[i][lpos], msa->aseq[i][rpos])) { /* watson-crick */
+	      if(do_rescol) { 
+		if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[wcbp_idx_s])) != eslOK) return status;
+	      }
+	      if(lpos < rpos) nwc_s++;
+	      if(do_outline && (lpos > rpos) && maj_bp_is_wc_or_gu) { 
+		/* check if this seq has a different WC or GU bp than the majority consensus */
+		if((ps->otypeAA[pp][lrfpos] != OUTLINE_NONE_IDX) || 
+		   (ps->otypeAA[pp][rrfpos] != OUTLINE_NONE_IDX)) {
+		  noutline_bp_good++; 
+		}
+	      }
+	    }
+	    else if(is_gu_or_ug_bp(msa->aseq[i][lpos], msa->aseq[i][rpos])) { /* G:U or U:G */
+	      if(do_rescol) { 
+		if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[gubp_idx_s])) != eslOK) return status;
+	      }
+	      if(lpos < rpos) ngu_s++;
+	      if(do_outline && (lpos > rpos) && maj_bp_is_wc_or_gu) { 
+		if((ps->otypeAA[pp][lrfpos] != OUTLINE_NONE_IDX) || 
+		   (ps->otypeAA[pp][rrfpos] != OUTLINE_NONE_IDX)) {
+		  noutline_bp_good++; 
+		}
+	      }
+	    }
+	    else if ((! esl_abc_CIsResidue(abc, msa->aseq[i][lpos])) && (! esl_abc_CIsResidue(abc, msa->aseq[i][rpos]))) { /* internal double-gap basepair */
+	      if(do_rescol) { 
+		if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[dgbp_idx_s])) != eslOK) return status;
+	      }
+	      if(lpos < rpos) ndgi_s++;
+	      if(do_outline && (lpos > rpos) && maj_bp_is_wc_or_gu) { 
+		if((ps->otypeAA[pp][lrfpos] != OUTLINE_NONE_IDX) || 
+		   (ps->otypeAA[pp][rrfpos] != OUTLINE_NONE_IDX)) {
+		  noutline_bp_bad++; 
+		}
+	      }
+	    }
+	    else if ((! esl_abc_CIsResidue(abc, msa->aseq[i][lpos])) || (! esl_abc_CIsResidue(abc, msa->aseq[i][rpos]))) { /* internal half-gap basepair */
+	      if(do_rescol) { 
+		if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[hgbp_idx_s])) != eslOK) return status;
+	      }
+	      if(lpos < rpos) nhgi_s++;
+	      if(do_outline && (lpos > rpos) && maj_bp_is_wc_or_gu) { 
+		if((ps->otypeAA[pp][lrfpos] != OUTLINE_NONE_IDX) || 
+		   (ps->otypeAA[pp][rrfpos] != OUTLINE_NONE_IDX)) {
+		  noutline_bp_bad++; 
+		}
+	      }
+	    }
+	    else { /* non-canonical */
+	      if(do_rescol) { 
+		if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[ncbp_idx_s])) != eslOK) return status;
+	      }
+	      if(lpos < rpos) nnc_s++;
+	      if(do_outline && (lpos > rpos) && maj_bp_is_wc_or_gu) { 
+		if((ps->otypeAA[pp][lrfpos] != OUTLINE_NONE_IDX) || 
+		   (ps->otypeAA[pp][rrfpos] != OUTLINE_NONE_IDX)) {
+		  noutline_bp_bad++; 
+		}
+	      }
+	    }
+	  } /* end of (if(lpos_is_internal && rpos_is_internal)) */
+	  else { /* we'll draw this nucleotide as black */
+	    if ((! esl_abc_CIsResidue(abc, msa->aseq[i][lpos])) && (! esl_abc_CIsResidue(abc, msa->aseq[i][rpos]))) { /* external double-gap basepair */
+	      ndge_s++;
+	    }
+	    if ((! esl_abc_CIsResidue(abc, msa->aseq[i][lpos])) || (! esl_abc_CIsResidue(abc, msa->aseq[i][rpos]))) { /* external half-gap basepair */
+	      nhge_s++;
+	    }
+	    if(do_rescol) { 
+	      if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[BLACKOC])) != eslOK) return status;
+	    }
+	  }
+	}
+      }
+    }
+    ps->rAA[pp][ps->rflen] = '\0';
+    ps->seqidxA[pp] = i;
+    ps->nocclA[pp] = 0;
+    
+    if(tabfp != NULL) { 
+      fprintf(tabfp, "  perseq  %-*s  %4d  %4d  %4d  %4d  %4d  %4d  %4d  %4d  %4d", namewidth, msa->sqname[i], spos+1, epos+1, nwc_s, ngu_s, nnc_s, nhgi_s, ndgi_s, nhge_s, ndge_s);
+      if(do_outline) { 
+	fprintf(tabfp, "  %4d  %4d  %5d  %5d", noutline_min + noutline_max, noutline_max, noutline_bp_good + noutline_bp_bad, noutline_bp_good);
+      }
+      fprintf(tabfp, "\n");
+    }
+    
+    /* if nec, add one-cell color legends for different bp types */
+    if(do_rescol) { 
+      /* add one-cell color legend for watson-crick basepairs */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[wcbp_idx_s], nwc_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "Watson-Crick basepair (WC bp)", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "C-G", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* add one-cell color legend for G-U, U-G basepairs */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[gubp_idx_s], ngu_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "G-U or U-G bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "G-U", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* add one-cell color legend for non-canonical basepairs */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[ncbp_idx_s], nnc_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "non-canonical bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "A-A", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* add one-cell color legend for internal half-gap basepairs */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[hgbp_idx_s], nhgi_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "internal half-gap bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "A--", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* add one-cell color legend for internal double-gap basepairs */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[dgbp_idx_s], ndgi_s, OCCL_BLANK_COUNT, TRUE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "internal double-gap bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "---", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+    }
+
+    /* if nec, add one page cell legend for the two outline types */
+    if(do_outline) { 
+      /* add a psuedo-one-cell color legends, the explanatory text for outlines: */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], OCCL_BLANK_COUNT, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "Positions != to most common nt x:", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* allocate our stack for the procedure */
+      ESL_ALLOC(stack, sizeof(float) * 2);
+      stack[0] = ps->leg_cellsize;
+      stack[1] = ps->leg_cellsize * OUTLINE_LINEWIDTH_CELL_FRACTION_MIN;
+      /* add one-cell color legend for minimal outline */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], noutline_min, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "!= x and freq(x) <  0.75", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_procedure_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], OUTLINE_PROCEDURE, stack, 2, errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      stack[1] = ps->leg_cellsize * OUTLINE_LINEWIDTH_CELL_FRACTION_MAX;
+      /* add one-cell color legend for maximal outline */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], noutline_max, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "!= x and freq(x) >= 0.75", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_procedure_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], OUTLINE_PROCEDURE, stack, 2, errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* add a psuedo-one-cell color legends, the explanatory text for outline basepairs: */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], OCCL_BLANK_COUNT, OCCL_BLANK_COUNT, FALSE, TRUE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "Number of bps != most common bp a:b", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      /* add a psuedo-one-cell color legends, the explanatory text for outline basepairs: */
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], OCCL_BLANK_COUNT, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "and a:b is Watson-Crick, GU or UG:", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], noutline_bp_good, OCCL_BLANK_COUNT, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], " Watson-Crick, GU or UG but != a:b", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+
+      ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[BLACKOC], noutline_bp_bad, OCCL_BLANK_COUNT, TRUE, FALSE);
+      if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], " non-canonical or w/gap and != a:b", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "", errbuf)) != eslOK) return status;
+      ps->nocclA[pp]++;
+    }
+
+    /* add description to ps */
+    if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "# inserted nucleotides after each consensus position", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_page_desc_to_sspostscript(ps, pp, msa->sqname[i], errbuf)) != eslOK) return status;
+    /* done with seq page */
+
+    /* add one-cell color legend for external gaps (deletes) */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[extdel_idx_s], nextdel_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "5'/3'-flush gaps", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+
+    /***************************************
+     * Draw the posterior probability page *
+     ***************************************/
+    if(do_prob) { /* contract checked that msa->pp[i] is non-NULL */
+      pp++;
+
+      ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx_p, hc_nbins_p, limits_p, FALSE, TRUE, TRUE, FALSE);
+      ngap_p = 0;
+      ngap_masked_p = (ps->mask == NULL) ? -1 : 0;
+
+      for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+	apos = ps->msa_rf2a_map[rfpos];
+	if(do_prob_res) { 
+	  ps->rAA[pp][rfpos] = msa->aseq[i][apos];
+	  if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+	}
+	else { 
+	  ps->rAA[pp][rfpos] = ' '; /* no need to add color to a ' ' */
+	}
+	if(! esl_abc_CIsGap(abc, msa->aseq[i][apos])) {
+	  if((ppidx = get_pp_idx(abc, msa->pp[i][apos])) == -1) ESL_FAIL(eslEFORMAT, errbuf, "bad #=GR PP char: %c", msa->pp[i][apos]);
+	  if(ppidx == 11) ESL_FAIL(eslEFORMAT, errbuf, "nongap nucleotide: %c, annotated with gap #=GR PP char: %c", msa->aseq[i][apos], msa->pp[i][apos]);
+	  within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+	  if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx_p], ppavgA[ppidx], ps->sclAA[pp], within_mask, NULL)) != eslOK) return status;
+	}
+	else {
+	  if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[gap_idx_p])) != eslOK) return status;
+	  ngap_p++;
+	  if(ps->mask != NULL && ps->mask[rfpos] == '1') ngap_masked_p++; 
+	}
+      }
+	
+      /* add one-cell color legend */
+      ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[gap_idx_p], ngap_p, ngap_masked_p, FALSE, FALSE);
+      if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "gap", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      ps->nocclA[pp] = 1;
+	
+      if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "posterior probability \\(alignment confidence\\)", ps->legx_max_chars, errbuf)) != eslOK) return status;
+      ps->seqidxA[pp] = i;
+      if((status = add_page_desc_to_sspostscript(ps, pp, msa->sqname[i], errbuf)) != eslOK) return status;
+
+      ps->rAA[pp][ps->rflen] = '\0';
+    }
+  } /* end of for(i = 0; i < msa->nseq; i++) */
+  free(limits_s);
+  free(limits_p);
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "individuals_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: cons_seq_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, the consensus sequence.
+ * Return:   eslOK on success.
+ */
+static int
+cons_seq_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps,
+		      float **hc_onecell, int wcbp_idx_s, int gubp_idx_s, int ncbp_idx_s, int dgbp_idx_s, int hgbp_idx_s)
+{
+  int status;
+  int p, pp;
+  int rfpos, lpos, rpos;
+  int orig_npage = ps->npage;
+  int nwc_s; /* number of watson-crick bps */
+  int ngu_s; /* number of GU/UG bps */
+  int nnc_s; /* number of noncanonical bps */
+  int ndgi_s = 0;     /* number of internal double-gap basepairs */
+  int nhgi_s = 0;     /* number of internal half-gap basepairs */
+  int spos, epos;     /* first/final nongap position for consensus sequence */
+  int lpos_is_internal; /* is lpos within spos..epos?, if not it's an external deletion */
+  int rpos_is_internal; /* is rpos within spos..epos?, if not it's an external deletion */
+  int lpos_is_gap;      /* is lpos a gap */
+  int rpos_is_gap;      /* is rpos a gap */
+
+  nwc_s = ngu_s = nnc_s = ndgi_s = nhgi_s = 0;
+
+  if((status = add_pages_sspostscript(ps, 1, INDIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->rAA[p], sizeof(char) *  ps->rflen);
+    ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+  }
+
+  /* fill ps->rAA with nucleotides and gaps for RF sequence */
+  pp = orig_npage;
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+  }
+
+  if((! esl_opt_GetBoolean(go, "--cambig")) && (! esl_opt_GetBoolean(go, "--no-bp"))) { 
+    spos = epos = -1;
+    /* determine first and final non-gap position */
+    for(rfpos = 0; rfpos < ps->rflen; rfpos++) { /* find first non-gap RF position */
+      if(! esl_abc_CIsGap(ps->abc, ps->msa_cseq_maj[rfpos])) { 
+	spos = rfpos;
+	break;
+      }
+    }
+    for(rfpos = ps->rflen-1; rfpos >= 0; rfpos--) { 
+      if(! esl_abc_CIsGap(ps->abc, ps->msa_cseq_maj[rfpos])) { 
+	epos = rfpos;
+	break;
+      }
+    }
+
+    ESL_ALLOC(ps->rcolAAA[pp], sizeof(float *) *  ps->rflen);
+    ESL_ALLOC(ps->occlAAA[pp], sizeof(OneCellColorLegend_t **) * 5);
+    for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+      ESL_ALLOC(ps->rcolAAA[pp][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+      if(ps->msa_ct[(rfpos+1)] == 0) { /* single stranded */
+	/* single-stranded nucleotide or gap, draw same color as Watson-Cricks */
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[wcbp_idx_s])) != eslOK) return status;
+      }
+      else { /* basepair, either watson-crick, GU/UG, or non-canonical */
+	lpos = rfpos;
+	rpos = ps->msa_ct[rfpos+1]-1;
+	lpos_is_internal = ((lpos < spos) || (lpos > epos)) ? FALSE : TRUE;
+	rpos_is_internal = ((rpos < spos) || (rpos > epos)) ? FALSE : TRUE;
+	lpos_is_gap      = esl_abc_CIsGap(ps->abc, ps->msa_cseq_maj[lpos]) ? TRUE : FALSE;
+	rpos_is_gap      = esl_abc_CIsGap(ps->abc, ps->msa_cseq_maj[rpos]) ? TRUE : FALSE;
+	if(lpos_is_internal && rpos_is_internal) { /* BP is either Watson-Crick, G:U/U:G, non-canonical, internal double-gap bp or internal half-gap bp */
+	  if(is_watson_crick_bp(ps->msa_cseq_maj[lpos], ps->msa_cseq_maj[rpos])) { /* watson-crick */
+	    if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[wcbp_idx_s])) != eslOK) return status;
+	    if(lpos < rpos) nwc_s++;
+	  }
+	  else if(is_gu_or_ug_bp(ps->msa_cseq_maj[lpos], ps->msa_cseq_maj[rpos])) { /* G:U or U:G */
+	    if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[gubp_idx_s])) != eslOK) return status;
+	    if(lpos < rpos) ngu_s++;
+	  }
+	  else if (lpos_is_gap && rpos_is_gap) { /* internal double-gap basepair */
+	    if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[dgbp_idx_s])) != eslOK) return status;
+	    if(lpos < rpos) ndgi_s++;
+	  }
+	  else if (lpos_is_gap || rpos_is_gap) { /* internal double-gap basepair */
+	    if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[hgbp_idx_s])) != eslOK) return status;
+	    if(lpos < rpos) nhgi_s++;
+	  }
+	  else { /* non-canonical */
+	    if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[ncbp_idx_s])) != eslOK) return status;
+	    if(lpos < rpos) nnc_s++;
+	  }
+	} /* end of (if(lpos_is_internal && rpos_is_internal)) */
+	else { 
+	  /* either the left half of the bp is before the first nongap nt, 
+	   * or the right half of the bp is after the final nongap nt, 
+	   * for both cases, draw the nt as black, and don't count it as 
+	   * any type of basepair
+	   */
+	  if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[BLACKOC])) != eslOK) return status;
+	}
+      }
+    }
+
+    /* add one-cell color legend for watson-crick basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[wcbp_idx_s], nwc_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "Watson-Crick basepair (bp)", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "C-G", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+    
+    /* add one-cell color legend for G-U, U-G basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[gubp_idx_s], ngu_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "G-U or U-G bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "G-U", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+    
+    /* add one-cell color legend for non-canonical basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[ncbp_idx_s], nnc_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "non-canonical bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "A-A", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+
+    /* add one-cell color legend for internal half-gap basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[hgbp_idx_s], nhgi_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "internal half-gap bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "A--", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+    
+    /* add one-cell color legend for internal double-gap basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[dgbp_idx_s], ndgi_s, OCCL_BLANK_COUNT, TRUE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "internal double-gap bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "---", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+  }
+
+  /* add description to ps */
+  if((status = add_page_desc_to_sspostscript(ps, pp, "alignment consensus sequence", errbuf)) != eslOK) return status;
+
+  /* add text legend explaining how consensus nucleotides are determined */
+  ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+  ps->ntlA[pp] = 1;
+
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "cons_seq_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: rf_seq_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, the RF sequence.
+ * Return:   eslOK on success.
+ */
+static int
+rf_seq_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, ESL_MSA *msa, int do_rescol,
+		    float **hc_onecell, int wcbp_idx_s, int gubp_idx_s, int ncbp_idx_s)
+{
+  int status;
+  int p, pp;
+  int rfpos, apos, lpos, rpos;
+  int orig_npage = ps->npage;
+  int seen_canonical = FALSE;
+  int nwc_s; /* number of watson-crick bps */
+  int ngu_s; /* number of GU/UG bps */
+  int nnc_s; /* number of noncanonical bps */
+
+  nwc_s = ngu_s = nnc_s = 0;
+
+  if((status = add_pages_sspostscript(ps, 1, INDIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->rAA[p], sizeof(char) *  ps->rflen);
+  }
+
+  /* fill ps->rAA with nucleotides and gaps for RF sequence */
+  pp = orig_npage;
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    apos = ps->msa_rf2a_map[rfpos];
+    if(esl_abc_CIsCanonical(ps->abc, msa->rf[apos])) seen_canonical = TRUE;
+    ps->rAA[pp][rfpos] = msa->rf[apos];
+  }
+  /* if seen_canonical is still FALSE, the reference sequences is probably all 'x's, so we don't color by bp type */
+
+  if(do_rescol && seen_canonical) { /* determine color for the nucleotide, depends if it is single-stranded or basepaired */
+    ESL_ALLOC(ps->rcolAAA[pp], sizeof(float *) *  ps->rflen);
+    ESL_ALLOC(ps->occlAAA[pp], sizeof(OneCellColorLegend_t **) * 3);
+    for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+      ESL_ALLOC(ps->rcolAAA[pp][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+      apos = ps->msa_rf2a_map[rfpos];
+      if(ps->msa_ct[(rfpos+1)] == 0) { /* single stranded */
+	/* single-stranded nucleotide or gap, draw same color as Watson-Cricks */
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[wcbp_idx_s])) != eslOK) return status;
+      }
+      else { /* basepair, either watson-crick, GU/UG, or non-canonical */
+	lpos = apos;
+	rpos = ps->msa_rf2a_map[ps->msa_ct[rfpos+1]-1];
+	if(is_watson_crick_bp(msa->rf[lpos], msa->rf[rpos])) { /* watson-crick */
+	  if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[wcbp_idx_s])) != eslOK) return status;
+	  if(lpos < rpos) nwc_s++;
+	}
+	else if(is_gu_or_ug_bp(msa->rf[lpos], msa->rf[rpos])) { /* G:U or U:G */
+	  if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[gubp_idx_s])) != eslOK) return status;
+	  if(lpos < rpos) ngu_s++;
+	}
+	else { /* non-canonical */
+	  if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[ncbp_idx_s])) != eslOK) return status;
+	  if(lpos < rpos) nnc_s++;
+	}
+      }
+    }
+
+    /* add one-cell color legend for watson-crick basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[wcbp_idx_s], nwc_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "Watson-Crick basepair (bp)", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "C-G", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+    
+    /* add one-cell color legend for G-U, U-G basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[gubp_idx_s], ngu_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "G-U or U-G bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "G-U", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+    
+    /* add one-cell color legend for non-canonical basepairs */
+    ps->occlAAA[pp][ps->nocclA[pp]] = create_onecell_colorlegend(hc_onecell[ncbp_idx_s], nnc_s, OCCL_BLANK_COUNT, FALSE, FALSE);
+    if((status = add_text_to_onecell_colorlegend    (ps, ps->occlAAA[pp][ps->nocclA[pp]], "non-canonical bp", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_celltext_to_onecell_colorlegend(ps, ps->occlAAA[pp][ps->nocclA[pp]], "A-A", errbuf)) != eslOK) return status;
+    ps->nocclA[pp]++;
+  }
+
+  /* add description to ps */
+  if((status = add_page_desc_to_sspostscript(ps, pp, "*REFERENCE* (\"#=GC RF\")", errbuf)) != eslOK) return status;
+
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "rf_seq_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+/* count_msa()
+ *                   
+ * Given an msa, count nucleotides, post probs, basepairs, and consensus start and end 
+ * positions and store them in <ret_abc_ct>, <ret_pp_ct>, <ret_bp_ct>, 
+ * <ret_spos_ct>, and <ret_epos_ct>.
+ * 
+ * <ret_abc_ct> [0..apos..alen-1][0..abc->K]:
+ * - per position count of each symbol in alphabet over all seqs.
+ * 
+ * <ret_bp_ct>  [0..apos..alen-1][0..abc->Kp-1][0..abc->Kp-1] 
+ * - per (non-pknotted) consensus basepair count of each possible basepair 
+ *   over all seqs basepairs are indexed by 'i' the minimum of 'i:j' for a 
+ *   pair between i and j, where i < j. Note that non-canonicals and 
+ *   gaps and the like are all stored independently.
+ *
+ * <ret_pp_ct> [0..apos..alen-1][0..10]
+ * - per position count of each posterior probability code over all seqs.
+ * 
+ * <ret_spos_ct> [0..apos..alen-1]
+ * - per position count of first nongap position over all seqs.
+ *                                
+ * <ret_erfpos_ct> [0..apos..alen-1]
+ * - per position count of final nongap position over all seqs.
+ *
+ * A 'gap' has a looser defintion than in esl_abc here, esl_abc's gap, 
+ * missing nucleotides and nonnucleotides are all considered 'gaps' here.
+ * 
+ * If we encounter an error, we return non-eslOK status and fill
+ * errbuf with error message.
+ * 
+ * Returns eslOK upon success.
+ */
+int count_msa(const ESL_ALPHABET *abc, ESL_MSA *msa, char *errbuf, double ***ret_abc_ct, double ****ret_bp_ct, double ***ret_pp_ct, int **ret_spos_ct, int **ret_epos_ct)
+{
+  int status;
+  double  **abc_ct = NULL;
+  double ***bp_ct = NULL;
+  int      *spos_ct = NULL;
+  int      *epos_ct = NULL;
+  int       apos, i, j, x, epos;
+  ESL_DSQ  *tmp_dsq = NULL;
+  int       seen_start = FALSE;
+  /* variables related to getting bp counts */
+  int      *ct = NULL;            /* 0..alen-1 base pair partners array for current sequence */
+  char     *ss_nopseudo = NULL;   /* no-pseudoknot version of structure */
+  int       nppvals = 12;         /* '0'-'9' = 0-9, '*' = 10, gap = '11' */
+  double  **pp_ct = NULL;         /* [0..alen-1][0..nppvals-1] per position count of each possible PP char over all seqs */
+  int       ppidx; 
+
+  /* contract check, msa should be in text mode and have ss_cons */
+  if(msa->flags & eslMSA_DIGITAL) ESL_FAIL(eslEINVAL, errbuf, "count_msa() contract violation, MSA is digitized");
+  if(msa->ss_cons == NULL) ESL_FAIL(eslEINVAL, errbuf, "the alignment lacks SS_cons annotation");
+
+  /* allocate pp_ct array, if nec */
+  if(ret_pp_ct != NULL && msa->pp != NULL) { 
+    ESL_ALLOC(pp_ct, sizeof(double *) * msa->alen);
+    for(apos = 0; apos < msa->alen; apos++) { 
+      ESL_ALLOC(pp_ct[apos], sizeof(double) * nppvals);
+      esl_vec_DSet(pp_ct[apos], nppvals, 0.);
+    }
+  }
+
+  /* get ct array which defines the consensus base pairs */
+  ESL_ALLOC(ct,  sizeof(int)  * (msa->alen+1));
+  ESL_ALLOC(ss_nopseudo, sizeof(char) * (msa->alen+1));
+  esl_wuss_nopseudo(msa->ss_cons, ss_nopseudo);
+  if ((status = esl_wuss2ct(ss_nopseudo, msa->alen, ct)) != eslOK) ESL_FAIL(status, errbuf, "Consensus structure string is inconsistent.");
+
+  ESL_ALLOC(tmp_dsq, (msa->alen+2) * sizeof(ESL_DSQ));
+  ESL_ALLOC(abc_ct, sizeof(double *) * msa->alen); 
+  ESL_ALLOC(bp_ct,  sizeof(double **) * msa->alen); 
+  for(apos = 0; apos < msa->alen; apos++) { 
+    ESL_ALLOC(abc_ct[apos], sizeof(double) * (abc->K+1));
+    esl_vec_DSet(abc_ct[apos], (abc->K+1), 0.);
+    /* careful ct is indexed 1..alen, not 0..alen-1 */
+    if(ct[(apos+1)] > (apos+1)) { /* apos+1 is an 'i' in an i:j pair, where i < j */
+      ESL_ALLOC(bp_ct[apos], sizeof(double *) * (abc->Kp));
+      for(x = 0; x < abc->Kp; x++) { 
+	ESL_ALLOC(bp_ct[apos][x], sizeof(double) * (abc->Kp));
+	esl_vec_DSet(bp_ct[apos][x], abc->Kp, 0.);
+      }
+    }
+    else { /* apos+1 is not an 'i' in an i:j pair, where i < j, set to NULL */
+      bp_ct[apos] = NULL;
+    }
+  }
+  ESL_ALLOC(spos_ct, sizeof(int) * msa->alen);
+  ESL_ALLOC(epos_ct, sizeof(int) * msa->alen);
+  esl_vec_ISet(spos_ct, msa->alen, 0);
+  esl_vec_ISet(epos_ct, msa->alen, 0);
+
+  for(i = 0; i < msa->nseq; i++) { 
+    seen_start = FALSE;
+    if((status = esl_abc_Digitize(abc, msa->aseq[i], tmp_dsq)) != eslOK) ESL_FAIL(status, errbuf, "problem digitizing sequence %d", i);
+    for(apos = 0; apos < msa->alen; apos++) { /* update appropriate abc count, careful, tmp_dsq ranges from 1..msa->alen (not 0..msa->alen-1) */
+      if((status = esl_abc_DCount(abc, abc_ct[apos], tmp_dsq[apos+1], 1.0)) != eslOK) ESL_FAIL(status, errbuf, "problem counting nucleotide %d of seq %d", apos, i);
+      if(! esl_abc_XIsGap(abc, tmp_dsq[apos+1])) { 
+	if(! seen_start) { 
+	  spos_ct[apos]++;
+	  seen_start = TRUE;
+	}
+	epos = apos;
+      }
+      /* get bp count, if nec */
+      if(bp_ct[apos] != NULL) { /* our flag for whether position (apos+1) is an 'i' in an i:j pair where i < j */
+	j = ct[apos+1] - 1; /* ct is indexed 1..alen */
+	bp_ct[apos][tmp_dsq[(apos+1)]][tmp_dsq[(j+1)]]++;
+      }
+    }
+    epos_ct[epos]++;
+    /* get PP counts, if nec  */
+    if(ret_pp_ct != NULL) { 
+      if(msa->pp[i] == NULL) ESL_FAIL(eslEINVAL, errbuf, "--prob requires all sequences in the alignment have PP, seq %d does not.", i+1);
+      for(apos = 0; apos < msa->alen; apos++) { /* update appropriate pp count, careful, tmp_dsq ranges from 1..msa->alen (not 0..msa->alen-1) */
+	if((ppidx = get_pp_idx(abc, msa->pp[i][apos])) == -1) ESL_FAIL(eslEFORMAT, errbuf, "bad #=GR PP char: %c", msa->pp[i][apos]);
+	pp_ct[apos][ppidx] += 1.;
+      }
+    }
+  }
+
+  *ret_abc_ct  = abc_ct;
+  *ret_bp_ct   = bp_ct;
+  *ret_spos_ct = spos_ct;
+  *ret_epos_ct = epos_ct;
+  if(ret_pp_ct != NULL) *ret_pp_ct = pp_ct; /* we only allocated pp_ct if ret_pp_ct != NULL */
+
+  if(tmp_dsq != NULL) free(tmp_dsq);
+  if(ss_nopseudo != NULL) free(ss_nopseudo);
+  if(ct != NULL) free(ct);
+  return eslOK;
+
+ ERROR:
+  if(abc_ct != NULL)  esl_Free2D((void **) abc_ct, msa->alen);
+  if(pp_ct != NULL)   esl_Free2D((void **) pp_ct, msa->alen);
+  if(bp_ct  != NULL)  esl_Free3D((void ***) bp_ct, msa->alen, abc->Kp);
+  if(spos_ct != NULL) free(spos_ct);
+  if(epos_ct != NULL) free(epos_ct);
+  if(tmp_dsq != NULL) free(tmp_dsq);
+  ESL_FAIL(status, errbuf, "Error, out of memory while counting important values in the msa.");
+  return status; /* NEVERREACHED */
+}
+
+/* Function: infocontent_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, colored squares indicating
+ *           the information content of each consensus column.
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+infocontent_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **abc_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_onecell_idx, FILE *tabfp)
+{
+  int status;
+  int p, pp, c;
+  int rfpos, apos;
+  int orig_npage = ps->npage;
+  double  *tmp_obs = NULL;
+  double  *ent   = NULL;
+  double  *bg    = NULL;
+  float   *limits = NULL;
+  int zero_obs;
+  int nonecell = 0;
+  int nonecell_masked = 0;
+  int within_mask;
+  int bi;  /* bin index for current position */
+  int l;
+
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 1);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(c = 0; c < ps->rflen; c++) {
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+
+  ESL_ALLOC(ent, sizeof(double) * ps->rflen);
+  ESL_ALLOC(bg, sizeof(double) * abc->K);
+  esl_vec_DSet(bg, abc->K, 1./(abc->K));
+  ESL_ALLOC(tmp_obs, sizeof(double) * abc->K);
+  esl_vec_DSet(tmp_obs, abc->K, 0.);
+
+  pp = orig_npage;
+
+  /* add color legend */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  limits[0] = 0.0;
+  limits[1] = 0.4;
+  limits[2] = 0.8;
+  limits[3] = 1.2;
+  limits[4] = 1.6;
+  limits[5] = 1.99;
+  limits[6] = 2.00;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, TRUE, TRUE, TRUE);
+
+  if(tabfp != NULL) { 
+    fprintf(tabfp, "# ------------------------\n");
+    fprintf(tabfp, "# Information content data\n");
+    fprintf(tabfp, "# ------------------------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each consensus position\n", ps->rflen);
+    fprintf(tabfp, "# in the alignment and corresponding template.\n");
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 5 : 6);
+    fprintf(tabfp, "# \ttoken 1: 'infocontent' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken 2: consensus position (starting at 1)\n");
+    fprintf(tabfp, "# \ttoken 3: information content for position (bits)\n");
+    fprintf(tabfp, "# \ttoken 4: number of non-gap nucleotides in position (max possible is %d (num seqs in aln))\n", msa_nseq); 
+    fprintf(tabfp, "# \ttoken 5: bin index this positions falls in (see bin values below)\n");
+    if(ps->mask != NULL) { 
+      fprintf(tabfp, "# \ttoken 6: '1' if position is included by mask, '0' if not\n");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Information content is calculated as 2.0 - H, where\n");
+    fprintf(tabfp, "# H = - \\sum_x p_x \\log_2 p_x, for x in {A, C, G, U}\n");
+    fprintf(tabfp, "# p_x is the frequency of x for *non-gap* nucleotides at the position.\n");
+    fprintf(tabfp, "# For example, p_A in a column that includes 4 As, 3 Cs, 2 Gs, 1 U and 5 gaps\n");
+    fprintf(tabfp, "# would be 4/10 = 0.4.\n");
+    fprintf(tabfp, "# Maximum possible value for token 3 is %d, the number of sequences in the file.\n", msa_nseq); 
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Value ranges for bins:\n");
+    fprintf(tabfp, "# \tbin  0: special case, 0 non-gap nucleotides in this position\n");
+    for(l = 0; l < hc_nbins; l++) { 
+      fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s information per position (bits)\n", l+1, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %11s  %6s  %8s  %10s  %3s", "type", "cpos", "info", "nongap", "bin");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %11s  %6s  %8s  %10s  %3s", "-----------", "------", "--------", "----------", "---");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+    fprintf(tabfp, "\n");
+  }
+  
+  if(ps->mask == NULL) nonecell_masked = -1; /* special flag */
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    apos = ps->msa_rf2a_map[rfpos];
+    esl_vec_DCopy(abc_ct[apos], abc->K, tmp_obs); /* only copy first abc->K values, don't copy gaps */
+    zero_obs = (esl_DCompare(esl_vec_DSum(tmp_obs, abc->K), 0., eslSMALLX1) == eslOK) ? TRUE : FALSE;
+    esl_vec_DNorm(tmp_obs, abc->K);
+    ent[rfpos] = esl_vec_DEntropy(bg, abc->K) - esl_vec_DEntropy(tmp_obs, abc->K);
+
+    if(zero_obs) { 
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_onecell_idx])) != eslOK) return status;
+      nonecell++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nonecell_masked++; 
+      bi = -1;
+    }
+    else { 
+      within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+      if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx], ent[rfpos], ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+    }
+
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+      
+    if(tabfp != NULL) { 
+      fprintf(tabfp, "  infocontent  %6d  %8.5f  %10d  %3d", rfpos+1, ent[rfpos], (int) esl_vec_DSum(abc_ct[apos], abc->K), bi+1);
+      if(ps->mask != NULL) fprintf(tabfp, "  %4d", ps->mask[rfpos] == '1' ? 1 : 0);
+      fprintf(tabfp, "\n");
+    }
+  }
+
+  /* add one-cell color legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[hc_onecell_idx], nonecell, nonecell_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "100% gaps", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  ps->nocclA[pp] = 1;
+
+  /* add text to legend */
+  /*sprintf(text, "information content (bits) (total: %.2f bits)", esl_vec_DSum(ent, ps->rflen));*/
+  if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "information content (bits)", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  /* add description to ps */
+  if((status = add_page_desc_to_sspostscript(ps, pp, "information content per position", errbuf)) != eslOK) return status;
+
+  free(ent);
+  free(tmp_obs);
+  free(bg);
+  free(limits);
+
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "infocontent_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+/* Function: delete_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with a new page w/colored squares indicating
+ *           the number of sequences with gaps (deletions) at each consensus column. 
+ *           If do_all is TRUE the page shows all deletions. If false only 'internal' deletions,
+ *           those that come after the first occupied consensus column of each sequence and
+ *           before the final occupied consensus column for each sequence, are shown.
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+delete_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **abc_ct, int *span_ct, int msa_nseq, int do_all, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_zerodel_idx, int hc_fewdel_idx, FILE *tabfp)
+{
+  int status;
+  int p, pp, c, l, bi;
+  int rfpos, apos;
+  int orig_npage = ps->npage;
+  double dfreq;
+  int nzerodel = 0;
+  int nzerodel_masked = 0;
+  int nfewdel = 0;
+  int nfewdel_masked = 0;
+  int within_mask;
+  float *limits = NULL;
+  float fewdel_thresh;
+  float n_ext_del; /* msa_nseq - span_ct[rfpos], number of external deletions */
+  if(ps->mask == NULL) { 
+    nzerodel_masked = -1; /* special flag */
+    nfewdel_masked = -1;  /* special flag */
+  }
+
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(int *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],    sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 2);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(int) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+
+  pp = orig_npage;
+
+  /* add color legend */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  fewdel_thresh = 0.001; /* positions with delete freq < this value will be painted specially (dark grey) */
+  limits[0] = fewdel_thresh;
+  limits[1] = 0.05;
+  limits[2] = 0.20;
+  limits[3] = 0.35;
+  limits[4] = 0.50;
+  limits[5] = 0.75;
+  limits[6] = 1.00;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, FALSE, TRUE, TRUE);
+
+  if(tabfp != NULL) { 
+    if(do_all) { 
+      fprintf(tabfp, "# -----------\n");
+      fprintf(tabfp, "# Delete data\n");
+      fprintf(tabfp, "# -----------\n");
+      fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each consensus position\n", ps->rflen);
+      fprintf(tabfp, "# in the alignment and corresponding template.\n");
+      fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 4 : 5);
+      fprintf(tabfp, "# \ttoken 1: 'deleteall' (tag defining line type to ease parsing)\n");
+      fprintf(tabfp, "# \ttoken 2: consensus position (starting at 1)\n");
+      fprintf(tabfp, "# \ttoken 3: frequency of deletions (gaps) for position\n");
+      fprintf(tabfp, "# \ttoken 4: bin index this positions falls in (see bin values below)\n");
+      if(ps->mask != NULL) { 
+	fprintf(tabfp, "# \ttoken 5: '1' if position is included by mask, '0' if not\n");
+      }
+      fprintf(tabfp, "#\n");
+      fprintf(tabfp, "# A sequence s has a 'delete' at consensus position x if position\n");
+      fprintf(tabfp, "# x is a gap for aligned sequence s.\n");
+      fprintf(tabfp, "# Total number of sequences in the alignment is %d\n", msa_nseq);
+      fprintf(tabfp, "#\n");
+      fprintf(tabfp, "# Value ranges for bins:\n");
+      fprintf(tabfp, "# \tbin  0: special case, 0 sequences have a delete at position\n");
+      fprintf(tabfp, "# \tbin  1: special case, < %.5f fraction of sequences have internal deletes at position\n", fewdel_thresh);
+      for(l = 0; l < hc_nbins; l++) { 
+	fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s frequency of deletes per position\n", l+2, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+      }
+      fprintf(tabfp, "#\n");
+      fprintf(tabfp, "# %9s  %6s  %8s  %3s", "type", "cpos", "dfreq", "bin");
+      if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+      fprintf(tabfp, "\n");
+      fprintf(tabfp, "# %9s  %6s  %8s  %3s", "---------", "------", "--------", "---");
+      if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+      fprintf(tabfp, "\n");
+    }
+    else { /* ! do_all (internal deletes only) */
+      fprintf(tabfp, "# --------------------\n");
+      fprintf(tabfp, "# Internal delete data\n");
+      fprintf(tabfp, "# --------------------\n");
+      fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each consensus position\n", ps->rflen);
+      fprintf(tabfp, "# in the alignment and corresponding template.\n");
+      fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 5 : 6);
+      fprintf(tabfp, "# \ttoken 1: 'deleteint' (tag defining line type to ease parsing)\n");
+      fprintf(tabfp, "# \ttoken 2: consensus position (starting at 1)\n");
+      fprintf(tabfp, "# \ttoken 3: frequency of internal deletions (gaps) for position\n");
+      fprintf(tabfp, "# \ttoken 4: number of sequences that span (begin at or prior to and end at or after) position (max is %d)\n", msa_nseq);
+      fprintf(tabfp, "# \ttoken 5: bin index this positions falls in (see bin values below)\n");
+      if(ps->mask != NULL) fprintf(tabfp, "# \ttoken 6: '1' if position is included by mask, '0' if not\n");
+      fprintf(tabfp, "#\n");
+      fprintf(tabfp, "# A sequence s has an 'internal delete' at consensus position 'x' that is actual alignment position 'a' if\n");
+      fprintf(tabfp, "# x is a gap for aligned sequence s, and s has at least one non-gap nucleotide aligned to a position 'b' <= 'a'\n");
+      fprintf(tabfp, "# and at least one non-gap nucleotide aligned to a position 'c' >= 'a'\n");
+      fprintf(tabfp, "#\n");
+      fprintf(tabfp, "# Value ranges for bins:\n");
+      fprintf(tabfp, "# \tbin  0: special case, 0 sequences have an internal delete at position\n");
+      fprintf(tabfp, "# \tbin  1: special case, < %.5f fraction of sequences have internal deletes at position\n", fewdel_thresh);
+      for(l = 0; l < hc_nbins; l++) { 
+	fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s frequency of internal deletes per position\n", l+2, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+      }
+      fprintf(tabfp, "#\n");
+      fprintf(tabfp, "# %9s  %6s  %8s  %10s  %3s", "type", "cpos", "dfreq", "nspan", "bin");
+      if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+      fprintf(tabfp, "\n");
+      fprintf(tabfp, "# %9s  %6s  %8s  %10s  %3s", "---------", "------", "--------", "----------", "---");
+      if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+      fprintf(tabfp, "\n");
+    }
+  }
+
+  /* draw delete page */
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    apos = ps->msa_rf2a_map[rfpos];
+    n_ext_del = do_all ? -1. : (float) (msa_nseq - span_ct[rfpos]); /* num external deletes is num seqs minus number of seqs that 'span' apos, see function header comments for explanation */
+    if((( do_all) && ( abc_ct[apos][abc->K] < eslSMALLX1)) ||               /* abc_ct[apos][abc->K] == 0 */
+       ((!do_all) && ((abc_ct[apos][abc->K] - n_ext_del) < eslSMALLX1))) {  /* abc_ct[apos][abc->K] == n_ext_del (all deletes are external) */
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_zerodel_idx])) != eslOK) return status; 
+      nzerodel++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nzerodel_masked++; 
+      bi = -2; /* special case */
+      dfreq = 0.;
+    }
+    else {
+      within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+      dfreq = do_all ? 
+	( abc_ct[apos][abc->K]              / (float) msa_nseq) : 
+	((abc_ct[apos][abc->K] - n_ext_del) / (float) msa_nseq);
+      /* printf("do_all: %d rfpos: %d dfreq: %.2f\n", do_all, rfpos, dfreq); */
+      if (dfreq < fewdel_thresh) { 
+	if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_fewdel_idx])) != eslOK) return status;
+	nfewdel++;
+	if(ps->mask != NULL && ps->mask[rfpos] == '1') nfewdel_masked++; 
+	bi = -1; /* special case */
+      }
+      else { 
+	if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx], dfreq, ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+      }
+    }
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+
+    if(tabfp != NULL) { 
+      if(do_all) fprintf(tabfp, "  deleteall  %6d  %8.5f  %3d",       rfpos+1, dfreq, bi+2);
+      else       fprintf(tabfp, "  deleteint  %6d  %8.5f  %10d  %3d", rfpos+1, dfreq, span_ct[rfpos], bi+2);
+      if(ps->mask != NULL) fprintf(tabfp, "  %4d", ps->mask[rfpos] == '1' ? 1 : 0); 
+      fprintf(tabfp, "\n");
+    }
+  }
+    
+  /* add one-cell color legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[hc_zerodel_idx], nzerodel, nzerodel_masked, FALSE, FALSE);
+  ps->occlAAA[pp][1] = create_onecell_colorlegend(hc_onecell[hc_fewdel_idx],  nfewdel,  nfewdel_masked,  FALSE, FALSE);
+  ps->nocclA[pp] = 2;
+
+  if(do_all) { 
+    if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "zero deletions", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "< 0.001 seqs have delete", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  }
+  else {
+    if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "zero internal deletions", ps->legx_max_chars, errbuf)) != eslOK) return status; 
+    if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "< 0.001 seqs have delete", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  }
+
+  /* add color legend and description */
+  if(do_all) { 
+    /*sprintf(text, "fraction seqs w/deletes ('-'=0 deletes; avg/seq: %.2f)", (float) esl_vec_ISum(dct, ps->rflen) / (float) msa_nseq);*/
+    if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "fraction of seqs with deletes", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_page_desc_to_sspostscript(ps, ps->npage-1, "frequency of deletions at each position", errbuf)) != eslOK) return status;
+  }
+  else { /* !do_all, only internal deletes counted */
+    /*sprintf(text, "fraction seqs w/internal deletes ('-'=0; avg/seq: %.2f)", (float) esl_vec_ISum(dct_internal, ps->rflen) / (float) msa_nseq);*/
+    if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "fraction of seqs w/internal deletions", ps->legx_max_chars, errbuf)) != eslOK) return status;
+    if((status = add_page_desc_to_sspostscript(ps, ps->npage-1, "frequency of internal deletions in each position", errbuf)) != eslOK) return status;
+  }
+  
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  free(limits);
+  
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "delete_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+/* Function: insertfreq_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, with colors 
+ *           indicating the fraction of seqs with inserts after each
+ *           position. 
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+insertfreq_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int *nseq_with_ins_ct, int *span_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_zeroins_idx, int hc_fewins_idx, FILE *tabfp)
+{
+  int status;
+  int p, pp, c, l;
+  int rfpos;
+  int orig_npage = ps->npage;
+  int apos;
+  int nzeroins = 0;
+  int nzeroins_masked = 0;
+  int nfewins = 0;
+  int nfewins_masked = 0;
+  float *limits;
+  int within_mask;
+  float ifreq;
+  int bi;
+  float fewins_thresh;
+
+  if(ps->mask == NULL) { 
+    nzeroins_masked = -1; /* special flag */
+    nfewins_masked = -1;  /* special flag */
+  }
+
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 2);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+  pp = orig_npage;
+
+  /* add color legend */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  fewins_thresh = 0.001;
+  limits[0] = fewins_thresh;
+  limits[1] = 0.01;
+  limits[2] = 0.05;
+  limits[3] = 0.10;
+  limits[4] = 0.20;
+  limits[5] = 0.50;
+  limits[6] = 1.00;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, FALSE, TRUE, TRUE);
+
+  if(tabfp != NULL) { 
+    fprintf(tabfp, "# ---------------------\n");
+    fprintf(tabfp, "# Insert frequency data\n");
+    fprintf(tabfp, "# ---------------------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each possible insert position\n", ps->rflen+1);
+    fprintf(tabfp, "# after each of the %d consensus positions and one more for inserts prior to the first consensus position.\n", ps->rflen);
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 5 : 6);
+    fprintf(tabfp, "# \ttoken 1: 'insertfreq' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken 2: consensus position <cpos> after which inserts occur ('0' == before posn 1)\n");
+    fprintf(tabfp, "# \ttoken 3: fraction of sequences that span <cpos> (see defn of span below) with >= 1 inserted nucleotides after position\n");
+    fprintf(tabfp, "# \ttoken 4: number of sequences that span (begin at or prior to and end at or after) position (max is %d)\n", msa_nseq);
+    fprintf(tabfp, "# \ttoken 5: bin index this positions falls in (see bin values below)\n");
+    if(ps->mask != NULL) { 
+      fprintf(tabfp, "# \ttoken 6: '1' if position is included by mask, '0' if not\n");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Total number of sequences in the alignment is %d\n", msa_nseq);
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# A sequence s spans consensus position 'x' that is actual alignment position 'a' if s has\n");
+    fprintf(tabfp, "# at least one non-gap nucleotide aligned to a position 'b' <= 'a' and\n");
+    fprintf(tabfp, "# at least one non-gap nucleotide aligned to a position 'c' >= 'a'\n");
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Value ranges for bins:\n");
+    fprintf(tabfp, "# \tbin -1: special case, reserved for inserts before position 1,\n");
+    fprintf(tabfp, "# \t        these are NOT SHOWN in the postscript diagram (!)\n");
+    fprintf(tabfp, "# \tbin  0: special case, 0 sequences have inserts after this position\n");
+    fprintf(tabfp, "# \tbin  1: special case, < %.5f fraction of sequences have inserts after this position\n", fewins_thresh);
+    for(l = 0; l < hc_nbins; l++) { 
+      fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s fraction of sequences with >= 1 inserts after each position\n", l+2, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %10s  %6s  %8s  %10s  %3s", "type", "cpos", "ifreq", "nspan", "bin");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %10s  %6s  %8s  %10s  %3s", "----------", "------", "--------", "----------", "---");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+    fprintf(tabfp, "\n");
+  }
+
+  /* print info on inserts before rfpos 1 to tabfile, if nec */
+  if(tabfp != NULL) { 
+    apos = ps->msa_rf2a_map[0];
+    if(nseq_with_ins_ct[0] > span_ct[0]) ESL_FAIL(eslERANGE, errbuf, "drawing insert page, rfpos: 0 nseq_with_ins_ct (%d) exceeds span_ct (%d)", nseq_with_ins_ct[0], span_ct[0]);
+    ifreq = (float) nseq_with_ins_ct[0] / (float) span_ct[0];
+    fprintf(tabfp, "  insertfreq  %6d  %8.5f  %10d  %3d", 0, ifreq, span_ct[0], -1);
+    if(ps->mask != NULL) fprintf(tabfp, "  %4d", 0);
+    fprintf(tabfp, "\n");
+  }
+
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    apos = ps->msa_rf2a_map[rfpos]; 
+    if(nseq_with_ins_ct[rfpos+1] > span_ct[rfpos]) ESL_FAIL(eslERANGE, errbuf, "drawing insert page, rfpos: %d nseq_with_ins_ct (%d) exceeds span_ct (%d)", rfpos, nseq_with_ins_ct[rfpos+1], span_ct[rfpos]);
+    ifreq = (float) nseq_with_ins_ct[rfpos+1] / (float) span_ct[rfpos]; /* note we don't need to add one to span_ct, it is [0..rflen-1] */
+    if(nseq_with_ins_ct[(rfpos+1)] == 0) {  /* careful, nseq_with_ins_ct goes from 1..rflen, its off-by-one with other arrays */
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_zeroins_idx])) != eslOK) return status;
+      nzeroins++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nzeroins_masked++; 
+      bi = -2; /* special case */
+    }
+    else if (ifreq < fewins_thresh) { 
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_fewins_idx])) != eslOK) return status;
+      nfewins++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nfewins_masked++; 
+      bi = -1; /* special case */
+    }
+    else {
+      within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+      if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx], ifreq, ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+    }
+    /* printf("rfpos: %5d ifreq: %.3f\n", rfpos, ifreq); */
+
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+
+    if(tabfp != NULL) { 
+      fprintf(tabfp, "  insertfreq  %6d  %8.5f  %10d  %3d", rfpos+1, ifreq, span_ct[rfpos], bi+1);
+      if(ps->mask != NULL) fprintf(tabfp, "  %4d", ps->mask[rfpos] == '1' ? 1 : 0);
+      fprintf(tabfp, "\n");
+    }
+  }
+
+  /* add one-cell color legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[hc_zeroins_idx], nzeroins, nzeroins_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "zero insertions", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  ps->occlAAA[pp][1] = create_onecell_colorlegend(hc_onecell[hc_fewins_idx], nfewins, nfewins_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "< 0.001 seqs have insert", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  ps->nocclA[pp] = 2;
+
+  /* add color legend */
+  if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "fraction of seqs w/insertions", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  if((status = add_page_desc_to_sspostscript(ps, ps->npage-1, "frequency of insertions after each position", errbuf)) != eslOK) return status;
+
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  free(limits);
+
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "insertfreq_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: insertavglen_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, with colors 
+ *           indicating the average length of inserts after each
+ *           position. 
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+insertavglen_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int *nseq_with_ins_ct, int *nins_ct, int *span_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_zeroins_idx, FILE *tabfp)
+{
+  int status;
+  int p, pp, c, l;
+  int rfpos;
+  int orig_npage = ps->npage;
+  int apos;
+  int nzeroins = 0;
+  int nzeroins_masked = 0;
+  float *limits;
+  int within_mask;
+  float ifreq;
+  float iavglen;
+  int bi;
+
+  if(ps->mask == NULL) nzeroins_masked = -1; /* special flag */
+
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 1);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+  pp = orig_npage;
+
+  /* add color legend */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  limits[0] = 1.00;
+  limits[1] = 1.01;
+  limits[2] = 1.50;
+  limits[3] = 3.00;
+  limits[4] = 4.00;
+  limits[5] = 10.00;
+  limits[6] = SSDRAWINFINITY;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, TRUE, FALSE, TRUE);
+
+  if(tabfp != NULL) { 
+    fprintf(tabfp, "# --------------------------\n");
+    fprintf(tabfp, "# Average insert length data\n");
+    fprintf(tabfp, "# --------------------------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each possible insert position\n", ps->rflen+1);
+    fprintf(tabfp, "# after each of the %d consensus positions and one more for inserts prior to the first consensus position.\n", ps->rflen);
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 5 : 6);
+    fprintf(tabfp, "# \ttoken 1: 'insertlen' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken 2: consensus position <cpos> after which inserts occur ('0' == before posn 1)\n");
+    fprintf(tabfp, "# \ttoken 3: average number of inserted nucleotides after each position for those seqs with >=1 inserted nucleotides)\n");
+    fprintf(tabfp, "# \ttoken 4: fraction of sequences that span <cpos> (see defn of span below) with >= 1 inserted nucleotides after position\n");
+    fprintf(tabfp, "# \ttoken 5: number of sequences that span (begin at or prior to and end at or after) position (max is %d)\n", msa_nseq);
+    fprintf(tabfp, "# \ttoken 6: bin index this positions falls in (see bin values below)\n");
+    if(ps->mask != NULL) { 
+      fprintf(tabfp, "# \ttoken 7: '1' if position is included by mask, '0' if not\n");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Total number of sequences in the alignment is %d\n", msa_nseq);
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# A sequence s spans consensus position 'x' that is actual alignment position 'a' if s has\n");
+    fprintf(tabfp, "# at least one non-gap nucleotide aligned to a position 'b' <= 'a' and\n");
+    fprintf(tabfp, "# at least one non-gap nucleotide aligned to a position 'c' >= 'a'\n");
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Value ranges for bins:\n");
+    fprintf(tabfp, "# \tbin -1: special case, reserved for inserts before position 1,\n");
+    fprintf(tabfp, "# \t        these are NOT SHOWN in the postscript diagram (!)\n");
+    fprintf(tabfp, "# \tbin  0: special case, 0 sequences have inserts after this position\n");
+    for(l = 0; l < hc_nbins; l++) { 
+      fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s average insert length after each position\n", l+1, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %12s  %6s  %8s  %8s  %10s  %3s", "type", "cpos", "iavglen", "ifreq", "nspan", "bin");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %12s  %6s  %8s  %8s  %10s  %3s", "------------", "------", "--------", "--------", "----------", "---");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+    fprintf(tabfp, "\n");
+  }
+
+  /* print info on inserts before rfpos 1 to tabfile, if nec */
+  if(tabfp != NULL) { 
+    apos = ps->msa_rf2a_map[0];
+    if(nseq_with_ins_ct[0] > span_ct[0]) ESL_FAIL(eslERANGE, errbuf, "drawing insert page, rfpos: 0 nseq_with_ins_ct (%d) exceeds span_ct (%d)", nseq_with_ins_ct[0], span_ct[0]);
+    ifreq   = (span_ct[0] == 0)          ? 0. : (float) nseq_with_ins_ct[0] / (float) span_ct[0];
+    iavglen = (nseq_with_ins_ct[0] == 0) ? 0. : (float) nins_ct[0] / (float) nseq_with_ins_ct[0];
+    fprintf(tabfp, "  insertavglen  %6d  %8.4f  %8.5f  %10d  %3d", 0, iavglen, ifreq, span_ct[0], -1);
+    if(ps->mask != NULL) fprintf(tabfp, "  %4d", 0);
+    fprintf(tabfp, "\n");
+  }
+
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    apos = ps->msa_rf2a_map[rfpos]; 
+    if(nseq_with_ins_ct[rfpos+1] > span_ct[rfpos]) ESL_FAIL(eslERANGE, errbuf, "drawing insert page, rfpos: %d nseq_with_ins_ct (%d) exceeds span_ct (%d)", rfpos, nseq_with_ins_ct[rfpos+1], span_ct[rfpos]);
+    ifreq   = (span_ct[rfpos] == 0)            ? 0. : (float) nseq_with_ins_ct[rfpos+1] / (float) span_ct[rfpos];
+    iavglen = (nseq_with_ins_ct[rfpos+1] == 0) ? 0. : (float) nins_ct[rfpos+1] / (float) nseq_with_ins_ct[rfpos+1];
+    /* printf("rfpos: %5d ifreq: %.3f iavglen: %.3f nins: %10d  nseq: %10d\n", rfpos, ifreq, iavglen, nins_ct[rfpos+1], nseq_with_ins_ct[rfpos+1]);  */
+    if(nseq_with_ins_ct[(rfpos+1)] == 0) {  /* careful, nseq_with_ins_ct goes from 1..rflen, its off-by-one with other arrays */
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_zeroins_idx])) != eslOK) return status;
+      nzeroins++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nzeroins_masked++; 
+      bi = -1; /* special case */
+    }
+    else {
+      within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+      if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx], iavglen, ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+    }
+
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+
+    if(tabfp != NULL) { 
+      fprintf(tabfp, "  insertavglen  %6d  %8.4f  %8.5f  %10d  %3d", rfpos+1, iavglen, ifreq, span_ct[rfpos], bi+1);
+      if(ps->mask != NULL) fprintf(tabfp, "  %4d", ps->mask[rfpos] == '1' ? 1 : 0);
+      fprintf(tabfp, "\n");
+    }
+  }
+
+  /* add one-cell color legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[hc_zeroins_idx], nzeroins, nzeroins_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "zero insertions", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  ps->nocclA[pp] = 1;
+
+  /* add color legend */
+  if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "average insertion length", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  if((status = add_page_desc_to_sspostscript(ps, ps->npage-1, "average insertion length after each position", errbuf)) != eslOK) return status;
+
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  free(limits);
+
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "insertavglen_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: span_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, with colors 
+ *           indicating the fraction of seqs that 'span' each consensus 
+ *           position. A consensus position cpos is spanned by a sequence x if
+ *           if at least 1 nucleotide in x is aligned to a consensus position <= cpos
+ *           *and*  at least 1 nucleotide in x is aligned to a consensus position >= cpos.
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+span_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int *span_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int zerocov_idx, int maxcov_idx, FILE *tabfp)
+{
+  int status;
+  int p, pp, c, l;
+  int rfpos;
+  int orig_npage = ps->npage;
+  int nzerocov = 0;
+  int nzerocov_masked = 0;
+  int nmaxcov = 0;
+  int nmaxcov_masked = 0;
+  float *limits;
+  int within_mask;
+  float cfract;
+  int bi;
+
+  if(ps->mask == NULL) nzerocov_masked = nmaxcov_masked = -1; /* special flag */
+
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 2);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+
+  pp = orig_npage;
+
+  /* add color legend */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  limits[0] = 0.0;
+  limits[1] = 0.167;
+  limits[2] = 0.333;
+  limits[3] = 0.500;
+  limits[4] = 0.667;
+  limits[5] = 0.833;
+  limits[6] = 1.00;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, FALSE, FALSE, TRUE);
+
+  if(tabfp != NULL) { 
+    fprintf(tabfp, "# ---------\n");
+    fprintf(tabfp, "# Span data\n");
+    fprintf(tabfp, "# ---------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each consensus position\n", ps->rflen);
+    fprintf(tabfp, "# in the alignment and corresponding template.\n");
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 4 : 5);
+    fprintf(tabfp, "# \ttoken 1: 'span' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken 2: consensus position (starting at 1)\n");
+    fprintf(tabfp, "# \ttoken 3: fraction of sequences that 'span' position\n");
+    fprintf(tabfp, "# \ttoken 4: bin index this positions falls in (see bin values below)\n");
+    if(ps->mask != NULL) { 
+      fprintf(tabfp, "# \ttoken 5: '1' if position is included by mask, '0' if not\n");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# A sequence s spans consensus position 'x' that is actual alignment position 'a' if s has\n");
+    fprintf(tabfp, "# at least one non-gap nucleotide aligned to a position 'b' <= 'a' and\n");
+    fprintf(tabfp, "# at least one non-gap nucleotide aligned to a position 'c' >= 'a'\n");
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Value ranges for bins:\n");
+    fprintf(tabfp, "# \tbin  0: special case, 0 sequences span this position\n");
+    fprintf(tabfp, "# \tbin  1: special case, all %d sequences span this position\n", msa_nseq);
+    for(l = 0; l < hc_nbins; l++) { 
+      fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s fraction of sequences that span each position\n", l+2, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %4s  %6s  %8s  %3s", "type", "cpos", "span", "bin");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %4s  %6s  %8s  %3s", "----", "------", "--------", "---");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+    fprintf(tabfp, "\n");
+  }
+
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    if(span_ct[rfpos] == 0) {  
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[zerocov_idx])) != eslOK) return status;
+      nzerocov++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nzerocov_masked++;
+      cfract = 0.;
+      bi = -2;
+    }
+    else if(span_ct[rfpos] == msa_nseq) {  
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[maxcov_idx])) != eslOK) return status;
+      nmaxcov++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nmaxcov_masked++; 
+      cfract = 1.;
+      bi = -1;
+    }
+    else {
+      within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+      cfract = (float) span_ct[rfpos] / (float) msa_nseq;
+      if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx], cfract, ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+    }
+
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+
+    if(tabfp != NULL) { 
+      fprintf(tabfp, "  span  %6d  %8.5f  %3d", rfpos+1, cfract, bi+2); 
+      if(ps->mask != NULL) fprintf(tabfp, "  %4d", ps->mask[rfpos] == '1' ? 1 : 0);
+      fprintf(tabfp, "\n");
+    }
+  }
+
+  /* add one-cell color legend for zero span positions */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[zerocov_idx], nzerocov, nzerocov_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "no sequences span", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  /* add one-cell color legend for maximum span positions */
+  ps->occlAAA[pp][1] = create_onecell_colorlegend(hc_onecell[maxcov_idx], nmaxcov, nmaxcov_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "100% of seqs span", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  ps->nocclA[pp] = 2;
+
+  /* add color legend */
+  if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "fraction of seqs that span each position", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  if((status = add_page_desc_to_sspostscript(ps, ps->npage-1, "fraction of sequences that span each position", errbuf)) != eslOK) return status;
+
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  free(limits);
+
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "span_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: avg_posteriors_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with info average posterior probabilities in the MSA.
+ * Return:   eslOK on success.
+ */
+static int
+avg_posteriors_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double **pp_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int hc_onecell_idx, FILE *tabfp)
+{
+  int status;
+  int p;
+  int rfpos;
+  int pp;
+  float *limits; /* bin limits for the color scheme */
+  int nonecell_allgap = 0;
+  int nonecell_allgap_masked = 0;
+  int within_mask;
+  int orig_npage = ps->npage;
+  float ppavgA[11];
+  int l;
+  int apos;
+  double nnongap;
+  double ppsum;
+  int ppidx;
+  double ppavg;
+  int bi;
+
+  ppavgA[0]  = 0.025;
+  ppavgA[1]  = 0.10;
+  ppavgA[2]  = 0.20;
+  ppavgA[3]  = 0.30;
+  ppavgA[4]  = 0.40;
+  ppavgA[5]  = 0.50;
+  ppavgA[6]  = 0.60;
+  ppavgA[7]  = 0.70;
+  ppavgA[8]  = 0.80;
+  ppavgA[9]  = 0.90;
+  ppavgA[10] = 0.975;
+
+  if(ps->mask == NULL) { nonecell_allgap_masked = -1; } /* special flag */
+
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 1);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+      ESL_ALLOC(ps->bcolAAA[p][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][rfpos], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  limits[0] = 0.0;
+  limits[1] = 0.70;
+  limits[2] = 0.80;
+  limits[3] = 0.85;
+  limits[4] = 0.90;
+  limits[5] = 0.95;
+  limits[6] = 1.00;
+
+  if(tabfp != NULL) { 
+    fprintf(tabfp, "# ----------------------------------\n");
+    fprintf(tabfp, "# Average posterior probability data\n");
+    fprintf(tabfp, "# ----------------------------------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each consensus position\n", ps->rflen);
+    fprintf(tabfp, "# in the alignment and corresponding template.\n");
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 5 : 6);
+    fprintf(tabfp, "# \ttoken 1: 'avgpostprob' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken 2: consensus position (starting at 1)\n");
+    fprintf(tabfp, "# \ttoken 3: average posterior probability of non-gap nucleotides for position\n");
+    fprintf(tabfp, "# \ttoken 4: number of non-gap nucleotides in position (max possible is %d (num seqs in aln))\n", msa_nseq); 
+    fprintf(tabfp, "# \ttoken 5: bin index this positions falls in (see bin values below)\n");
+    if(ps->mask != NULL) fprintf(tabfp, "# \ttoken 6: '1' if position is included by mask, '0' if not\n");
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Posterior probability (PP) values in the alignment file can have 12 possible values,\n");
+    fprintf(tabfp, "# the average per position is calculated by defining each as the average of its range given\n");
+    fprintf(tabfp, "# below. (For example, a '8' which indicates PP between 0.75 and 0.85 is treated as 0.8).\n");
+    fprintf(tabfp, "# \t'.': gap, corresponds to a gap in the sequence (not counted)\n");
+    fprintf(tabfp, "# \t'0': posterior probability of between 0.00 and 0.05\n");
+    fprintf(tabfp, "# \t'1': posterior probability of between 0.05 and 0.15\n");
+    fprintf(tabfp, "# \t'2': posterior probability of between 0.15 and 0.25\n");
+    fprintf(tabfp, "# \t'3': posterior probability of between 0.25 and 0.35\n");
+    fprintf(tabfp, "# \t'4': posterior probability of between 0.35 and 0.45\n");
+    fprintf(tabfp, "# \t'5': posterior probability of between 0.45 and 0.55\n");
+    fprintf(tabfp, "# \t'6': posterior probability of between 0.55 and 0.65\n");
+    fprintf(tabfp, "# \t'7': posterior probability of between 0.65 and 0.75\n");
+    fprintf(tabfp, "# \t'8': posterior probability of between 0.75 and 0.85\n");
+    fprintf(tabfp, "# \t'9': posterior probability of between 0.85 and 0.95\n");
+    fprintf(tabfp, "# \t'*': posterior probability of between 0.95 and 1.00\n");
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Value ranges for bins:\n");
+    fprintf(tabfp, "# \tbin  0: special case, 0 sequences have a non-gap nucleotide at position\n");
+    for(l = 0; l < hc_nbins; l++) { 
+      fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s average posterior probability per position\n", l+1, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %11s  %6s  %8s  %10s  %3s", "type", "cpos", "avgpp", "nongap", "bin");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "mask");
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %11s  %6s  %8s  %10s  %3s", "-----------", "------", "--------", "----------", "---");
+    if(ps->mask != NULL) fprintf(tabfp, "  %4s", "----");
+    fprintf(tabfp, "\n");
+  }
+
+  /* step through each sequence and each column, collecting stats */
+  pp = orig_npage;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, TRUE, TRUE, TRUE);
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) { 
+    apos = ps->msa_rf2a_map[rfpos]; 
+    nnongap = esl_vec_DSum(pp_ct[apos], 11);
+    if(esl_FCompare(nnongap, 0., eslSMALLX1) == eslOK) { /* effectively 0.0, all gaps */
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[hc_onecell_idx])) != eslOK) return status;
+      nonecell_allgap++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nonecell_allgap_masked++; 
+      bi = -1;
+      ppavg = 0.;
+    }
+    else { /* at least 1 non-gap nucleotide in this position */
+      if(esl_FCompare(nnongap, pp_ct[apos][10], eslSMALLX1)) { /* all nongap nucleotides have highest possible posterior probability */
+      }
+      else { 
+      }
+      ppsum = 0.;
+      for(ppidx = 0; ppidx < 11; ppidx++) {
+	ppsum += pp_ct[apos][ppidx] * ppavgA[ppidx]; /* Note: PP value is considered average of range, not minimum ('9' == 0.90 (0.95-0.85/2) */
+      }
+      ppavg = ppsum / nnongap;
+      within_mask = (ps->mask != NULL && ps->mask[rfpos] == '1') ? TRUE : FALSE;
+      if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_scheme[hc_scheme_idx], ppavg, ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+    }
+
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+
+    if(tabfp != NULL) { 
+      fprintf(tabfp, "  avgpostprob  %6d  %8.5f  %10d  %3d", rfpos+1, ppavg, (int) nnongap, bi+1);
+      if(ps->mask != NULL) fprintf(tabfp, "  %4d", ps->mask[rfpos] == '1' ? 1 : 0);
+      fprintf(tabfp, "\n");
+    }
+  }
+
+  /* add one-cell color legend for all gap positions */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[hc_onecell_idx], nonecell_allgap, nonecell_allgap_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "100% gaps", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  ps->nocclA[pp] = 1;
+  
+  /* add color legend */
+  if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "average posterior probability \\(confidence\\)", ps->legx_max_chars,errbuf)) != eslOK) return status;
+
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  /* add description to ps */
+  if((status = add_page_desc_to_sspostscript(ps, pp, "average posterior probability per position", errbuf)) != eslOK) return status;
+
+  free(limits);
+
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function: colormask_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page based on a lanemask, each column
+ *           is either black (if included, a '1' in the mask) or pink (not included, a '0' in the
+ *           mask.
+ *
+ * Return:   eslOK on success.
+ */
+static int
+colormask_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, ESL_MSA *msa, float **hc_onecell, int incmask_idx, int excmask_idx)
+{
+  int status;
+  int p, pp, c;
+  int cpos;
+  int orig_npage = ps->npage;
+  int ncols_inside_mask = 0;
+  int ncols_outside_mask = 0;
+  char *mask_desc = NULL;
+  char *mask_file = NULL;
+  
+  if(ps->mask == NULL) ESL_FAIL(eslEINVAL, errbuf, "ps->mask is null when trying to draw maskcol page");
+  if((status = add_pages_sspostscript(ps, 1, SIMPLEMASKMODE)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->rAA[p], sizeof(char) *  ps->rflen);
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 2);
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+    }
+  }
+  pp = orig_npage;
+
+  for(cpos = 0; cpos < ps->rflen; cpos++) { 
+    if(ps->mask[cpos] == '1') { /* included */
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][cpos], NCMYK, hc_onecell[incmask_idx])) != eslOK) return status; 
+      ncols_inside_mask++;
+    }
+    else if(ps->mask[cpos] == '0') {
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][cpos], NCMYK, hc_onecell[excmask_idx])) != eslOK) return status; 
+      ncols_outside_mask++;
+    }
+    else ESL_FAIL(eslEINVAL, errbuf, "--mask mask char number %d is not a 1 nor a 0, but a %c\n", cpos, ps->mask[cpos]);
+    ps->rAA[pp][cpos] = ' ';
+  }
+
+  /* add color legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[incmask_idx], ncols_inside_mask, OCCL_BLANK_COUNT, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "columns included by mask", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  ps->occlAAA[pp][1] = create_onecell_colorlegend(hc_onecell[excmask_idx], ncols_outside_mask, OCCL_BLANK_COUNT, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "columns excluded by mask", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  if((status = esl_strcat(&(mask_desc), -1, "mask file: ", -1)) != eslOK) ESL_FAIL(status, errbuf, "error copying mask file name string");;
+  if((status = esl_FileTail(esl_opt_GetString(go, "--mask"), FALSE, &mask_file)) != eslOK) ESL_FAIL(status, errbuf, "error copying mask file name string (probably out of memory)."); 
+  if((strlen(mask_file) + strlen(mask_desc)) > (ps->desc_max_chars*2 - 2)) { /* desc would be too long, shorten mask_file so desc is legal */
+    /* the -5 below is so we can add '...' to end */
+    if((status = esl_strcat(&(mask_desc), -1, mask_file, ((ps->desc_max_chars*2) - strlen(mask_desc) - 5))) != eslOK) ESL_FAIL(status, errbuf, "error copying mask file name string");
+    if((status = esl_strcat(&(mask_desc), -1, "...", 3)) != eslOK) ESL_FAIL(status, errbuf, "error copying mask file name string");
+  }
+  else { /* desc will not be too long */
+    if((status = esl_strcat(&(mask_desc), -1, mask_file, -1)) != eslOK) ESL_FAIL(status, errbuf, "error copying mask file name string");
+  }
+  free(mask_file);
+  if((status = add_page_desc_to_sspostscript(ps, pp, mask_desc, errbuf)) != eslOK) return status;
+
+  ps->nocclA[pp] = 2;
+
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "colormask_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: diffmask_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page based on a comparison between
+ *           two masks one in ps->mask the other in <mask2>, each position becomes
+ *           one of four colors, one for each of the four possible combinations of 0 and 1.
+ *
+ * Return:   eslOK on success.
+ */
+static int
+diffmask_sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, ESL_MSA *msa, char *mask2, float **hc_onecell, int incboth_idx, int inc1_idx, int inc2_idx, int excboth_idx)
+{
+  int status;
+  int p, pp, c;
+  int cpos;
+  int orig_npage = ps->npage;
+  int ncols_in_both = 0;
+  int ncols_out_both = 0;
+  int ncols_in_1_out_2 = 0;
+  int ncols_out_1_in_2 = 0;
+
+  if(ps->mask == NULL) ESL_FAIL(eslEINVAL, errbuf, "ps->mask is null when trying to draw maskdiff page");
+  if((status = add_pages_sspostscript(ps, 1, SIMPLEMASKMODE)) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->rAA[p], sizeof(char) *  ps->rflen);
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->occlAAA[p],  sizeof(OneCellColorLegend_t **) * 4);
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+    }
+  }
+  pp = orig_npage;
+
+  for(cpos = 0; cpos < ps->rflen; cpos++) { 
+    if(ps->mask[cpos] == '1' && mask2[cpos] == '1') { 
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][cpos], NCMYK, hc_onecell[incboth_idx])) != eslOK) return status; 
+      ncols_in_both++;
+    }
+    else if(ps->mask[cpos] == '1' && mask2[cpos] == '0') {
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][cpos], NCMYK, hc_onecell[inc1_idx])) != eslOK) return status; 
+      ncols_in_1_out_2++;
+    }
+    else if(ps->mask[cpos] == '0' && mask2[cpos] == '1') {
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][cpos], NCMYK, hc_onecell[inc2_idx])) != eslOK) return status; 
+      ncols_out_1_in_2++;
+    }
+    else if(ps->mask[cpos] == '0' && mask2[cpos] == '0') {
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][cpos], NCMYK, hc_onecell[excboth_idx])) != eslOK) return status; 
+      ncols_out_both++;
+    }
+    else if(ps->mask[cpos] != '0' && ps->mask[cpos] != '1') ESL_FAIL(eslEINVAL, errbuf, "--mask-col char number %d is not a 1 nor a 0, but a %c\n", cpos, ps->mask[cpos]);
+    else if(mask2[cpos] != '0' && mask2[cpos] != '1') ESL_FAIL(eslEINVAL, errbuf, "--mask-diff char number %d is not a 1 nor a 0, but a %c\n", cpos, mask2[cpos]);
+    ps->rAA[pp][cpos] = ' ';
+  }
+
+  /* add color legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[incboth_idx], ncols_in_both, OCCL_BLANK_COUNT, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "included by both masks", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  ps->occlAAA[pp][1] = create_onecell_colorlegend(hc_onecell[inc1_idx], ncols_in_1_out_2, OCCL_BLANK_COUNT, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "incl mask 1, excl mask 2", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  ps->occlAAA[pp][2] = create_onecell_colorlegend(hc_onecell[inc2_idx], ncols_out_1_in_2, OCCL_BLANK_COUNT, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][2], "excl mask 1, incl mask 1", ps->legx_max_chars, errbuf)) != eslOK) return status;
+
+  ps->occlAAA[pp][3] = create_onecell_colorlegend(hc_onecell[excboth_idx], ncols_out_both, OCCL_BLANK_COUNT, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][3], "excluded by both masks", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  ps->nocclA[pp] = 4;
+
+  if((status = add_diffmask_page_desc_to_sspostscript(ps, pp, esl_opt_GetString(go, "--mask"), esl_opt_GetString(go, "--mask-diff"), errbuf)) != eslOK) return status;
+
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "diffmask_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+/* Function: add_pages_sspostscript()
+ * 
+ * Purpose:  Add and initialize blank pages to a postscript object.
+ */ 
+int 
+add_pages_sspostscript(SSPostscript_t *ps, int ntoadd, int page_mode)
+{
+  int status;
+  void *tmp;
+  int p;
+
+  if(ps->npage == 0) { 
+    assert(ps->rAA    == NULL);
+    assert(ps->bcolAAA == NULL);
+    ESL_ALLOC(ps->rAA,    sizeof(char *)   * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->rcolAAA, sizeof(float **) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->bcolAAA, sizeof(float **) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->otypeAA, sizeof(char *) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->occlAAA, sizeof(OneCellColorLegend_t ***) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->nocclA,  sizeof(int) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->tlAAA,   sizeof(TextLegend_t ***) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->ntlA,    sizeof(int) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->sclAA,   sizeof(SchemeColorLegend_t **) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->descA,   sizeof(char *) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->modeA,   sizeof(int) * (ps->npage + ntoadd));
+    ESL_ALLOC(ps->seqidxA, sizeof(int) * (ps->npage + ntoadd));
+  }
+  else { 
+    assert(ps->rAA    != NULL);
+    assert(ps->bcolAAA != NULL);
+    assert(ps->rcolAAA != NULL);
+    ESL_RALLOC(ps->rAA,   tmp, sizeof(char *)   * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->rcolAAA,tmp, sizeof(float **) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->bcolAAA,tmp, sizeof(float **) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->otypeAA,tmp, sizeof(char *) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->occlAAA,tmp, sizeof(OneCellColorLegend_t ***) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->nocclA, tmp, sizeof(int) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->tlAAA,  tmp, sizeof(TextLegend_t ***) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->ntlA,   tmp, sizeof(int) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->sclAA,  tmp, sizeof(SchemeColorLegend_t **) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->descA,  tmp, sizeof(char *) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->modeA,  tmp, sizeof(int) * (ps->npage + ntoadd));
+    ESL_RALLOC(ps->seqidxA,tmp, sizeof(int) * (ps->npage + ntoadd));
+  }
+  for(p = ps->npage; p < (ps->npage + ntoadd); p++) { 
+    ps->rAA[p]    = NULL;
+    ps->rcolAAA[p] = NULL;
+    ps->bcolAAA[p] = NULL;
+    ps->otypeAA[p] = NULL;
+    ps->occlAAA[p] = NULL;
+    ps->nocclA[p]  = 0;
+    ps->tlAAA[p]   = NULL;
+    ps->ntlA[p]    = 0;
+    ps->sclAA[p]   = NULL;
+    ps->descA[p]   = NULL;
+    ps->modeA[p]   = page_mode;
+    ps->seqidxA[p] = -1;
+  }
+  ps->npage += ntoadd;
+
+  return eslOK;
+
+ ERROR: 
+  return status;
+}
+
+/* read_mask_file
+ *
+ * Given an open file pointer, read the first token of the
+ * file and return it as *ret_mask. Also return length of
+ * mask in *ret_masklen, and a flag indicating whether or
+ * not the mask has any internal zeroes in *ret_mask_has_internal_zeroes.
+ * An internal '0' is one that occurs between at least one
+ * 5' and one 3' '1'
+ *
+ * Returns:  eslOK on success.
+ */
+int
+read_mask_file(char *filename, char *errbuf, char **ret_mask, int *ret_masklen, int *ret_mask_has_internal_zeroes)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  char           *mask;
+  int             toklen;
+  int             n;
+  /* for determining if we have internal zeroes */
+  int             seen_1 = FALSE;                /* becomes TRUE when we see first (5'-most) '1' */
+  int             seen_1_then_0 = FALSE;         /* becomes TRUE when we see first (5'-most) '0' that is 3' of first '1' */
+  int             seen_1_then_0_then_1 = FALSE;  /* becomes TRUE when we see first (5'-most) '1' that is 3' of first '0' that is 3' of first '1' */
+
+  if (esl_fileparser_Open(filename, NULL, &efp) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to open %s in read_mask_file\n", filename);
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  if((status = esl_fileparser_GetToken(efp, &tok, &toklen)) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to read a single token from %s\n", filename);
+
+  ESL_ALLOC(mask, sizeof(char) * (toklen+1));
+
+  for(n = 0; n < toklen; n++) { 
+    mask[n] = tok[n];
+    if(mask[n] == '0') { 
+      if((seen_1) && (!seen_1_then_0)) { seen_1_then_0 = TRUE; }
+    }
+    else if (mask[n] == '1') { 
+      if(!seen_1) { seen_1 = TRUE; }
+      if((seen_1) && (seen_1_then_0) && (!seen_1_then_0_then_1)) { seen_1_then_0_then_1 = TRUE; }
+    }
+    else { ESL_FAIL(eslEINVAL, errbuf, "character %d of mask file is invalid: %c (must be a '1' or a '0')\n", n, mask[n]); }
+
+    mask[n] = tok[n];
+  }
+  mask[n] = '\0';
+
+  *ret_mask = mask;
+  *ret_masklen= toklen;
+  *ret_mask_has_internal_zeroes = seen_1_then_0_then_1;
+
+  esl_fileparser_Close(efp);
+  return eslOK;
+  
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* Function: mutual_information_sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with 1 new page, colored squares indicating
+ *           the mutual information of each base paired consensus column.
+ *           mutual information is the extra information gained from modelling
+ *           the pair together (info of vector of bps, size 16) versus separately (sum
+ *           of info of the two independent vector of singlets, size 4).
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+mutual_information_sspostscript(const ESL_GETOPTS *go, ESL_ALPHABET *abc, char *errbuf, SSPostscript_t *ps, double ***bp_ct, int msa_nseq, float ***hc_scheme, int hc_scheme_idx, int hc_nbins, float **hc_onecell, int ss_idx, int zerores_idx, FILE *tabfp)
+{
+  int status;
+  int p, pp, c, i;
+  int rfpos, apos; 
+  int orig_npage = ps->npage;
+  double *bg, *bg_pair;
+  double bg_ent, bg_pair_ent;
+  double *obs_left, *obs_right, *obs_pair;
+  double ent_left, ent_right, ent_pair;
+  int j;
+  ESL_DSQ lres;
+  ESL_DSQ rres;
+  double nres;
+  int nss = 0;
+  int nzerores = 0;
+  int nss_masked = 0;
+  int nzerores_masked = 0;
+  int i_within_mask, j_within_mask;
+  int i_bi, j_bi;
+  float *limits;
+  int l;
+  int idx =1;
+
+  if(ps->mask == NULL) nss_masked = nzerores_masked = -1; /* special flag */
+  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+
+  for(p = orig_npage; p < ps->npage; p++) { 
+    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+    ESL_ALLOC(ps->occlAAA[p], sizeof(OneCellColorLegend_t **) * 2);
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      ESL_ALLOC(ps->rAA[p],     sizeof(char) *  ps->rflen);
+      ESL_ALLOC(ps->rcolAAA[p], sizeof(float *) * ps->rflen);
+      ESL_ALLOC(ps->tlAAA[p],   sizeof(TextLegend_t **) * 1);
+    }
+    for(c = 0; c < ps->rflen; c++) { 
+      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+	ESL_ALLOC(ps->rcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+      }
+    }
+  }
+  pp = orig_npage;
+
+  /* add color legend */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+  limits[0] = 0.0;
+  limits[1] = 0.167;
+  limits[2] = 0.333;
+  limits[3] = 0.500;
+  limits[4] = 0.667;
+  limits[5] = 0.833;
+  limits[6] = 1.000;
+  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, TRUE, TRUE, TRUE);
+
+  if(tabfp != NULL) { 
+    fprintf(tabfp, "# -----------------------\n");
+    fprintf(tabfp, "# Mutual information data\n");
+    fprintf(tabfp, "# -----------------------\n");
+    fprintf(tabfp, "# This section includes %d non #-prefixed lines, one for each consensus position\n", ps->rflen);
+    fprintf(tabfp, "# in the alignment and corresponding template.\n");
+    fprintf(tabfp, "# Each line includes %d tokens, separated by whitespace:\n", ps->mask == NULL ? 9 : 11);
+    fprintf(tabfp, "# \ttoken  1: 'mutualinfo' (tag defining line type to ease parsing)\n");
+    fprintf(tabfp, "# \ttoken  2: base pair index\n");
+    fprintf(tabfp, "# \ttoken  3: 5' consensus position of base pair (starting at 1)\n");
+    fprintf(tabfp, "# \ttoken  4: 3' consensus position of base pair (starting at 1)\n");
+    fprintf(tabfp, "# \ttoken  5: sequence information content at 5' position (bits)\n");
+    fprintf(tabfp, "# \ttoken  6: sequence information content at 3' position (bits)\n");
+    fprintf(tabfp, "# \ttoken  7: mutual information of the base pair (bits)\n");
+    fprintf(tabfp, "# \ttoken  8: number of sequences with non-gap at 5' and 3' posn (max possible is %d)\n", msa_nseq); 
+    fprintf(tabfp, "# \ttoken  8: number of sequences with non-gap at 5' and 3' position\n");
+    fprintf(tabfp, "# \ttoken  9: bin index this positions falls in (see bin values below).\n");
+    if(ps->mask != NULL) { 
+      fprintf(tabfp, "# \ttoken 10: '1' if 5' position is included by mask, '0' if not\n");
+      fprintf(tabfp, "# \ttoken 11: '1' if 3' position is included by mask, '0' if not\n");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# Information content is calculated as 2.0 - H, where\n");
+    fprintf(tabfp, "# H = - \\sum_x p_x \\log_2 p_x, for x in {A, C, G, U}\n");
+    fprintf(tabfp, "# p_x is the frequency of x for *non-gap* nucleotides at the position.\n");
+    fprintf(tabfp, "# Only nucleotides for sequences which have a non-gap nucleotide at both\n"); 
+    fprintf(tabfp, "# the 5' and 3' positions of the pair are counted.\n"); 
+    fprintf(tabfp, "# Mutual information is calculated as\n");
+    fprintf(tabfp, "# \\sum_{x,y} p_{x,y} \\log_2 ((p_x * p_y) / p_{x,y}\n");
+    fprintf(tabfp, "# Value ranges for bins:\n");
+    fprintf(tabfp, "# \tbin  0: special case, 0 sequences have non-gaps at both 5' and 3' position of pair\n");
+	    for(l = 0; l < hc_nbins; l++) { 
+      fprintf(tabfp, "# \tbin %2d: [%.3f-%.3f%s mutual information per position (bits)\n", l+1, limits[l], limits[l+1], (l == hc_nbins-1) ? "]" : ")");
+    }
+    fprintf(tabfp, "#\n");
+    fprintf(tabfp, "# %10s  %4s  %5s  %5s  %8s  %8s  %9s  %10s  %3s", "type", "idx", "5'pos", "3'pos", "5'info", "3'info", "mutinfo/2", "nongap", "bin");
+    if(ps->mask != NULL) fprintf(tabfp, "  %6s  %6s", "5'mask", "3'mask");
+    fprintf(tabfp, "\n");
+    fprintf(tabfp, "# %10s  %4s  %5s  %5s  %8s  %8s  %9s  %10s  %3s", "----------", "----", "-----", "-----", "--------", "--------", "---------", "----------", "---");
+    if(ps->mask != NULL) fprintf(tabfp, "  %6s  %6s", "------", "------");
+    fprintf(tabfp, "\n");
+  }
+
+  /* determine background entropy */
+  ESL_ALLOC(bg,        sizeof(double) * abc->K);
+  ESL_ALLOC(bg_pair,   sizeof(double) * abc->K*abc->K);
+  esl_vec_DSet(bg, abc->K, 1./(abc->K));
+  esl_vec_DSet(bg_pair, abc->K*abc->K, 1./(abc->K*abc->K));
+  bg_pair_ent = esl_vec_DEntropy(bg_pair, abc->K*abc->K);
+  bg_ent      = esl_vec_DEntropy(bg, abc->K);
+  free(bg);
+  free(bg_pair);
+
+  ESL_ALLOC(obs_left,  sizeof(double) * (abc->K));
+  ESL_ALLOC(obs_right, sizeof(double) * (abc->K));
+  ESL_ALLOC(obs_pair,  sizeof(double) * (abc->K*abc->K));
+
+  /* get observed nucleotides and base pairs at each rfpos */
+  for(rfpos = 0; rfpos < ps->rflen; rfpos++) {
+    esl_vec_DSet(obs_left,  abc->K, 0.);
+    esl_vec_DSet(obs_right, abc->K, 0.);
+    esl_vec_DSet(obs_pair,  abc->K*abc->K, 0.);
+    i = rfpos;
+    nres = 0.;
+    apos = ps->msa_rf2a_map[rfpos];
+    /* check if we're base paired */
+    if(ps->msa_ct[rfpos+1] != 0) { 
+      /* printf("msa_ct rfpos+1: %d %d\n", rfpos+1, ps->msa_ct[rfpos+1]); */
+      if(ps->msa_ct[rfpos+1] > (rfpos+1)) { /* rfpos is left half of base pair */
+	/* add up contributions of all possible base pairs,
+	 * we have to be careful to skip nucleotides that are gaps, missing or nonnucleotides in 
+	 * EITHER left or right half of the bp.
+	 * We use the raw counts from msa_count() as the wt, (bp_ct[apos][lres][rres]) */
+	j = ps->msa_ct[i+1] - 1; 
+	for(lres = 0; lres < abc->K; lres++) { 
+	  for(rres = 0; rres < abc->K; rres++) { 
+	    /* printf("apos: %d rfpos: %d lres: %d rres: %d bp_ct[][][]: %.5f\n", apos, rfpos, lres, rres, bp_ct[apos][lres][rres]);*/
+	    esl_abc_DCount(abc, obs_left,  lres, bp_ct[apos][lres][rres]);
+	    esl_abc_DCount(abc, obs_right, rres, bp_ct[apos][lres][rres]);
+	    PairCount(abc, obs_pair, lres, rres, bp_ct[apos][lres][rres]);
+	    nres += bp_ct[apos][lres][rres];
+	  }
+	}
+	for(lres = abc->K+1; lres < abc->Kp-2; lres++) { /* do all degenerates and 'any' (N) */
+	  for(rres = abc->K+1; rres < abc->Kp-2; rres++) { /* do all degenerates and 'any' (N) */
+	    esl_abc_DCount(abc, obs_left,  lres, bp_ct[apos][lres][rres]);
+	    esl_abc_DCount(abc, obs_right, rres, bp_ct[apos][lres][rres]);
+	    PairCount(abc, obs_pair, lres, rres, bp_ct[apos][lres][rres]);
+	    nres += bp_ct[apos][lres][rres];
+	  }
+	}
+	/* esl_vec_DDump(stdout, obs_left, abc->K, NULL);
+	   esl_vec_DDump(stdout, obs_right, abc->K, NULL);
+	   esl_vec_DDump(stdout, obs_pair, abc->K*abc->K, NULL);
+	*/
+	esl_vec_DNorm(obs_left,  abc->K);
+	esl_vec_DNorm(obs_right, abc->K);
+	esl_vec_DNorm(obs_pair, abc->K*abc->K);
+	ent_left  = bg_ent - esl_vec_DEntropy(obs_left, abc->K);      
+	ent_right = bg_ent - esl_vec_DEntropy(obs_right, abc->K);      
+	ent_pair =  bg_pair_ent - esl_vec_DEntropy(obs_pair, abc->K*abc->K);      
+	/* printf("lpos: %5d  rpos: %5d  entP: %8.3f  entL: %8.3f  entR: %8.3f  nres: %.2f  ",  i+1, j+1, ent_pair, ent_left, ent_right, nres); */
+	ent_pair -= ent_left + ent_right;
+	ent_pair /= 2.;
+	/* printf("Final: %8.3f\n", ent_pair);  */
+	
+	/* To verify that the ent_pair is mutual information, calculated a different way, uncomment the following block */
+	/* double mi = 0;
+	   for(lres = 0; lres < abc->K; lres++) { 
+	   for(rres = 0; rres < abc->K; rres++) { 
+	   if(obs_pair[lres*abc->K+rres] > eslSMALLX1) { 
+	   mi += obs_pair[lres*abc->K+rres] * (1.44269504 * log((obs_pair[lres*abc->K+rres])/(obs_left[lres] * obs_right[rres])));
+	   printf("mi: %.2f obs_left %.2f  obs_right: %.2f obs_pair %.2f \n", mi, obs_left[lres], obs_right[rres], obs_pair[lres*abc->K+rres]);  
+	   }
+	   }
+	   }
+	   printf("MI/2: %.2f  EP: %.2f  %.2f\n", mi/2., ent_pair, (mi/2.) - ent_pair); 
+	*/
+
+	if(ent_pair < (-1. * eslSMALLX1)) { 
+	  ESL_FAIL(eslEINCONCEIVABLE, errbuf, "pair information < 0.: %f (lpos: %d rpos: %d)\n", ent_pair, i, j);
+	}
+	if(esl_DCompare(nres, 0., eslSMALLX1) == eslOK) { /* nres is 0 */
+	  if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][i], NCMYK, hc_onecell[zerores_idx])) != eslOK) return status;
+	  if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][j], NCMYK, hc_onecell[zerores_idx])) != eslOK) return status;
+	  nzerores += 2;
+	  if(ps->mask != NULL && ps->mask[i] == '1') nzerores_masked++; 
+	  if(ps->mask != NULL && ps->mask[j] == '1') nzerores_masked++; 
+	  if(tabfp != NULL) { 
+	    fprintf(tabfp, "  mutualinfo  %4d  %5d  %5d  %8.5f  %8.5f  %9.5f  %10d  %3d", idx++, i+1, j+1, 0., 0., 0., 0, 0);
+	    if(ps->mask != NULL) fprintf(tabfp, "  %6d  %6d", ((ps->mask == NULL || ps->mask[i] == '1') ? 1 : 0), ((ps->mask == NULL || ps->mask[j] == '1') ? 1 : 0));
+	    fprintf(tabfp, "\n");
+	  }
+	}
+	else { 
+	  i_within_mask = (ps->mask != NULL && ps->mask[i] == '1') ? TRUE : FALSE;
+	  j_within_mask = (ps->mask != NULL && ps->mask[j] == '1') ? TRUE : FALSE;
+	  if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][i], NCMYK, hc_scheme[hc_scheme_idx], ent_pair, ps->sclAA[pp], i_within_mask, &i_bi)) != eslOK) return status;
+	  if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][j], NCMYK, hc_scheme[hc_scheme_idx], ent_pair, ps->sclAA[pp], j_within_mask, &j_bi)) != eslOK) return status;
+	  if(tabfp != NULL) { 
+	    fprintf(tabfp, "  mutualinfo  %4d  %5d  %5d  %8.5f  %8.5f  %9.5f  %10d  %3d", 
+		    idx++, i+1, j+1, 
+		    ent_left, 
+		    ent_right, 
+		    ent_pair,
+		    (int) nres, 
+		    i_bi+1);
+	    if(ps->mask != NULL) fprintf(tabfp, "  %6d  %6d", ((ps->mask == NULL || ps->mask[i] == '1') ? 1 : 0), ((ps->mask == NULL || ps->mask[j] == '1') ? 1 : 0));
+	    fprintf(tabfp, "\n");
+	  }
+	}
+      } /* end of if(ps->msa_ct[rfpos+1] > (rfpos+1)) { */
+    }
+    else { /* single stranded, paint grey  */
+      nss++;
+      if(ps->mask != NULL && ps->mask[rfpos] == '1') nss_masked++; 
+      if((status = set_onecell_values(errbuf, ps->bcolAAA[pp][rfpos], NCMYK, hc_onecell[ss_idx])) != eslOK) return status;
+    }
+    /* fill in info for the consensus nucleotide */
+    if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+      if(ps->mask == NULL || ps->mask[rfpos] == '1') { 
+	ps->rAA[pp][rfpos] = esl_opt_GetBoolean(go, "--cambig") ? ps->msa_cseq_amb[rfpos] : ps->msa_cseq_maj[rfpos];
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+      else { /* position is a '0' in the mask, leave it blank (' ') */
+	ps->rAA[pp][rfpos] = ' '; 
+	if((status = set_onecell_values(errbuf, ps->rcolAAA[pp][rfpos], NCMYK, hc_onecell[WHITEOC])) != eslOK) return status;
+      }
+    }
+  }
+
+  /* add text to the one cell legend */
+  ps->occlAAA[pp][0] = create_onecell_colorlegend(hc_onecell[ss_idx], nss, nss_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][0], "single-stranded", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  
+  /* add text to the second one cell legend */
+  ps->occlAAA[pp][1] = create_onecell_colorlegend(hc_onecell[zerores_idx], nzerores, nzerores_masked, FALSE, FALSE);
+  if((status = add_text_to_onecell_colorlegend(ps, ps->occlAAA[pp][1], "0 complete basepairs", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  ps->nocclA[pp] = 2;
+  
+  /* add text to the scheme legend */
+  if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], "mutual information per position (bits)", ps->legx_max_chars, errbuf)) != eslOK) return status;
+  
+  /* add the consensus nucleotide explanation text section to the legend */
+  if(! esl_opt_GetBoolean(go, "--no-cnt")) { 
+    ps->tlAAA[pp][0] = create_text_legend_for_consensus_sequence(go, FALSE);
+    ps->ntlA[pp] = 1;
+  }
+
+  /* add description to ps */
+  if((status = add_page_desc_to_sspostscript(ps, pp, "mutual information per basepaired position", errbuf)) != eslOK) return status;
+  
+  free(limits);
+  free(obs_left);
+  free(obs_right);
+  free(obs_pair);
+  
+  if(tabfp != NULL) fprintf(tabfp, "//\n");
+  return eslOK;
+  
+ ERROR: ESL_FAIL(status, errbuf, "mutual_information_sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+/* Function: PairCount()
+ * Date:     SRE, Tue Aug  1 10:34:20 2000 [St. Louis]
+ *
+ * Purpose:  Given a possibly degenerate symbol code for left
+ *           and right symbols in a pair, increment a symbol
+ *           counter array appropriately.
+ *           
+ * Args:     abc      - pointer to the internal alphabet
+ *           counters - vector to count into [0..abc->K^2-1]
+ *           syml     - index of left symbol  [0..abc->sym_iupac-1]
+ *           symr     - index of right symbol [0..abc->sym_iupac-1]
+ *           wt       - weight to use for the count (often 1.0).          
+ *
+ * Returns:  void
+ */
+static void
+PairCount(const ESL_ALPHABET *abc, double *counters, ESL_DSQ syml, ESL_DSQ symr, double wt)
+{
+  int status;
+  if (syml < abc->K && symr < abc->K) {
+    counters[(int) (syml * abc->K + symr)] += wt;
+    return;
+  }
+  else {
+    int   l,r;
+    double *left = NULL;
+    double *right = NULL;
+    ESL_ALLOC(left,  sizeof(double) * abc->K);
+    ESL_ALLOC(right, sizeof(double) * abc->K);
+    
+    esl_vec_DSet(left,  abc->K, 0.);
+    esl_vec_DSet(right, abc->K, 0.);
+    esl_abc_DCount(abc, left,  syml, 1.0);
+    esl_abc_DCount(abc, right, symr, 1.0);
+
+    for (l = 0; l < abc->K; l++)
+      for (r = 0; r < abc->K; r++)
+	counters[l*abc->K +r] += left[l] * right[r] * wt;
+    free(left);
+    free(right);
+  }
+  return;
+
+ ERROR:
+  esl_fatal("Memory error");
+}
+
+/* Function: get_command
+ * Date:     EPN, Fri Jan 25 13:56:10 2008
+ *
+ * Purpose:  Return the command used to call esl-ssdraw
+ *           in <ret_command>.
+ *
+ * Returns:  eslOK on success; eslEMEM on allocation failure.
+ */
+static int 
+get_command(const ESL_GETOPTS *go, char *errbuf, char **ret_command)
+{
+  int status;
+  int i;
+  char *command = NULL;
+
+  for (i = 0; i < go->argc; i++) { /* copy all command line options and args */
+    if((status = esl_strcat(&(command),  -1, go->argv[i], -1)) != eslOK) goto ERROR;
+    if(i < (go->argc-1)) if((status = esl_strcat(&(command), -1, " ", 1)) != eslOK) goto ERROR;
+  }
+  *ret_command = command;
+
+  return eslOK;
+
+ ERROR:
+  ESL_FAIL(status, errbuf, "get_command(): memory allocation error.");
+  return status;
+}
+
+/* Function: get_date
+ * Date:     EPN, Fri Jan 25 13:59:22 2008
+ *
+ * Purpose:  Return a string that gives the current date.
+ *
+ * Returns:  eslOK on success; eslEMEM on allocation failure.
+ */
+static int 
+get_date(char *errbuf, char **ret_date)
+{
+  int    status;
+  time_t date = time(NULL);
+  char  *sdate = NULL;
+
+  if((status = esl_strdup(ctime(&date), -1, &sdate)) != eslOK) goto ERROR;
+  esl_strchop(sdate, -1); /* doesn't return anything but eslOK */
+
+  *ret_date = sdate;
+  return eslOK;
+
+ ERROR:
+  ESL_FAIL(status, errbuf, "get_date() error status: %d, probably out of memory.", status);
+  return status; 
+}
+
+/* Function: set_scheme_values()
+ * 
+ * Purpose:  Set color values from a predefined scheme given min, max, 
+ *           value and number of colors.
+ */ 
+static int 
+set_scheme_values(char *errbuf, float *vec, int ncolvals, float **scheme, float val, SchemeColorLegend_t *scl, int within_mask, int *ret_bi)
+{
+  float min, max;
+  int ci, bi;
+  min = scl->limits[0];
+  max = scl->limits[scl->nbins];
+  if((min-val) > eslSMALLX1) { ESL_FAIL(eslEINVAL, errbuf, "set_scheme_values(), val: %.4f < min: %.4f\n", val, min); }
+  if((val-max) > eslSMALLX1) { ESL_FAIL(eslEINVAL, errbuf, "set_scheme_values(), val: %.4f > max: %.4f\n", val, max); }
+
+  bi = 0;
+  while((bi < (scl->nbins-1)) &&
+	((val > scl->limits[bi+1]) ||                                    /* val exceeds limits[bi+1] OR */
+	 (esl_FCompare(val, scl->limits[bi+1], eslSMALLX1) == eslOK))) { /* val equals limits[bi+1] */
+    bi++; 
+  }    
+  /* printf("%.3f %d (%.3f)\n", val, bi, scl->limits[bi+1]);  */
+  scl->counts[bi]++;
+  if(within_mask) scl->counts_masked[bi]++;
+  for(ci = 0; ci < ncolvals; ci++) { 
+    vec[ci] = scheme[bi][ci]; 
+  }
+
+  if(ret_bi != NULL) *ret_bi = bi;
+  return eslOK;
+}
+
+/* Function: set_onecell_values()
+ * 
+ * Purpose:  Set color values as a  predefined single
+ *           color.
+ */ 
+static int 
+set_onecell_values(char *errbuf, float *vec, int ncolvals, float *onecolor)
+{
+  int ci;
+  for(ci = 0; ci < ncolvals; ci++) { vec[ci] = onecolor[ci]; }
+  return eslOK;
+}
+  
+
+
+/* Function: draw_masked_block()
+ * 
+ * Purpose:  Given coords, color, and mask style options draw a masked block.
+ */ 
+static int 
+draw_masked_block(FILE *fp, float x, float y, float *colvec, int do_circle_mask, int do_square_mask, int do_x_mask, int do_border, float cellsize)
+{
+  if (do_circle_mask) { 
+    if(do_border) { 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, " %.2f %.2f %.1f 0 360 arc closepath\n", x + (cellsize/2.), y + (cellsize/2.), cellsize * (3./8.));
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", colvec[0], colvec[1], colvec[2], colvec[3]);
+      fprintf(fp, "  stroke\n"); 
+    }
+    else { 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, " %.2f %.2f %.1f 0 360 arc closepath\n", x + (cellsize/2.), y + (cellsize/2.), cellsize * (3./8.));
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", colvec[0], colvec[1], colvec[2], colvec[3]);
+      fprintf(fp, "  fill\n"); 
+    }
+  }
+  else if(do_square_mask) { 
+    if(do_border) { 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, "  %.2f %.2f moveto", x +1., y +1.);
+      fprintf(fp, "  0 %.1f rlineto %.1f 0 rlineto 0 -%.1f rlineto closepath\n", cellsize*0.75, cellsize*0.75, cellsize*0.75);
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", colvec[0], colvec[1], colvec[2], colvec[3]);
+      fprintf(fp, "  stroke\n");
+    }
+    else { 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, "  %.2f %.2f moveto", x + 1.5, y + 1.5);
+      fprintf(fp, "  0 %.1f rlineto %.1f 0 rlineto 0 -%.1f rlineto closepath\n", cellsize*(5./8.), cellsize*(5./8.), cellsize*(5./8.));
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", colvec[0], colvec[1], colvec[2], colvec[3]);
+      fprintf(fp, "  fill\n"); 
+    }
+  }
+  else if (do_x_mask) { 
+    if(do_border) { 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, "  %.2f %.2f moveto", x, y);
+      fprintf(fp, "  0 %.1f rlineto %.1f 0 rlineto 0 -%.1f rlineto closepath\n", cellsize, cellsize, cellsize);
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", colvec[0], colvec[1], colvec[2], colvec[3]);
+      fprintf(fp, "  fill\n"); 
+      
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", 0., 0., 0., 0.);
+      fprintf(fp, "newpath\n");
+      fprintf(fp, "  %.2f %.2f moveto", x, y);
+      fprintf(fp, "  %.1f %.1f rlineto closepath\n", cellsize, cellsize);
+      fprintf(fp, "  stroke\n"); 
+      fprintf(fp, "  %.2f %.2f moveto", x + cellsize, y);
+      fprintf(fp, "  -%.1f %.1f rlineto closepath\n", cellsize, cellsize);
+      fprintf(fp, "  stroke\n"); 
+    }
+    else { 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, "  %.4f %.4f %.4f %.4f setcmykcolor\n", colvec[0], colvec[1], colvec[2], colvec[3]);
+      fprintf(fp, "  %.2f %.2f moveto", x, y);
+      fprintf(fp, "  %.1f %.1f rlineto closepath\n", cellsize, cellsize);
+      fprintf(fp, "  stroke\n"); 
+      fprintf(fp, "newpath\n");
+      fprintf(fp, "  %.2f %.2f moveto", x + cellsize, y);
+      fprintf(fp, "  -%.1f %.1f rlineto closepath\n", cellsize, cellsize);
+      fprintf(fp, "  stroke\n"); 
+    }
+  }
+  return eslOK;
+}
+
+/* Function: validate_justread_sspostscript()
+ * 
+ * Purpose:  Validate a sspostscript just created by parsing
+ *           a template file. Nothing fancy here, just make
+ *           sure all we've written everything we expect.
+ */ 
+static int 
+validate_justread_sspostscript(SSPostscript_t *ps, char *errbuf)
+{
+  if(ps->modelname == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read modelname from template file.");
+  if(ps->nbp == 0)          ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read 'lines bpconnects' section from template file.");
+  if(ps->scale < 0)         ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read scale from template file.");
+  if(ps->rflen == 0)        ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read 'text nucleotides' section from template file.");
+  if(ps->leg_posn == -1)    ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read 'legend' section from template file.");
+  if(ps->leg_cellsize == -1) ESL_FAIL(eslEINVAL, errbuf, "Error, failed to read 'legend' section from template file.");
+
+  /* Stuff we don't currently require, but we may want to eventually */
+  /*if(ps->nposntext == 0) ESL_FAIL(eslEINVAL, errbuf, "validate_justread_sspostscript(), failed to read 'text positiontext' section from template file.");*/
+  /*if(ps->nticks == 0) ESL_FAIL(eslEINVAL, errbuf, "validate_justread_sspostscript(), failed to read 'lines positionticks' section from template file.");*/
+  /*if(ps->nbp == 0) ESL_FAIL(eslEINVAL, errbuf, "validate_justread_sspostscript(), failed to read 'lines bpconnects' section from template file.");*/
+
+  return eslOK;
+}
+
+
+/* Function: validate_and_update_sspostscript_given_msa()
+ * 
+ * Purpose:  Validate that a sspostscript works with a MSA.
+ */ 
+static int 
+validate_and_update_sspostscript_given_msa(const ESL_GETOPTS *go, const ESL_ALPHABET *abc, SSPostscript_t *ps, ESL_MSA *msa, int msa_nseq, char *errbuf)
+{
+  int status;
+  int *msa_ct;
+  int msa_nbp = 0;
+  int *tmp_ct;
+  int apos, rfpos_i, rfpos_j, rfpos;
+  int *rf2a_map = NULL;
+  int *a2rf_map = NULL;
+  int rflen = 0;
+
+  ps->msa = msa;
+  ps->abc = abc;
+
+  /* contract check */
+  if(msa->rf == NULL)      ESL_FAIL(eslEINVAL, errbuf, "Error, msa does not have RF annotation.");
+  if(msa->ss_cons == NULL) ESL_FAIL(eslEINVAL, errbuf, "Error, msa does not have SS_cons annotation.");
+
+  /* count non-gap RF columns */
+  for(apos = 0; apos < msa->alen; apos++) { 
+    if(esl_abc_CIsResidue(abc, msa->rf[apos]))
+      rflen++;
+  }
+  if(ps->rflen != rflen) ESL_FAIL(eslEINVAL, errbuf, "validate_and_update_sspostscript_given_msa(), expected consensus length of %d in MSA, but read %d\n", ps->rflen, rflen);
+
+  /* build map of non-gap RF positions to alignment positions and vice versa */
+  ESL_ALLOC(rf2a_map, sizeof(int) * rflen);
+  ESL_ALLOC(a2rf_map, sizeof(int) * msa->alen);
+  esl_vec_ISet(a2rf_map, msa->alen, -1); 
+  rfpos = 0;
+  for(apos = 0; apos < msa->alen; apos++) {
+    if(esl_abc_CIsResidue(abc, msa->rf[apos])) {
+      rf2a_map[rfpos] = apos;
+      a2rf_map[apos]  = rfpos;
+      rfpos++;
+    }
+  }
+
+  /* get the CT array for this msa */
+  ESL_ALLOC(tmp_ct, sizeof(int) * (msa->alen+1));
+  if (esl_wuss2ct(msa->ss_cons, msa->alen, tmp_ct) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "Problem getting ct from SS_cons, does first alignment of MSA file have SS_cons annotation?");
+
+  ESL_ALLOC(msa_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(msa_ct, rflen+1, 0);
+  
+  /* convert tmp_ct which is in alignment coords [1..alen] to non-gap RF coords [1..rflen]*/
+  for(apos = 0; apos < msa->alen; apos++) {
+    if(tmp_ct[apos+1] > (apos+1)) { 
+      rfpos_i = a2rf_map[apos];
+      rfpos_j = a2rf_map[tmp_ct[apos+1]-1];
+      if(rfpos_i != -1 && rfpos_j != -1) { /* a consensus basepair */
+	msa_ct[rfpos_i+1] = rfpos_j+1;
+	msa_ct[rfpos_j+1] = rfpos_i+1;
+	msa_nbp++;
+      }
+    }
+  }
+  free(tmp_ct);
+  if(ps->nbp != 0 && ps->nbp != msa_nbp) ESL_FAIL(eslEINVAL, errbuf, "validate_and_update_sspostscript_given_msa(), expected %d basepairs in MSA's SS_cons, but read %d\n", ps->nbp, msa_nbp);
+
+  /* for(rfpos = 0; rfpos < rflen; rfpos++) printf("ct %5d %5d\n", rfpos, msa_ct[rfpos+1]-1); */
+
+  if(ps->msa_ct != NULL) { free(ps->msa_ct); ps->msa_ct = NULL;}
+  if(ps->msa_rf2a_map != NULL) { free(ps->msa_rf2a_map); ps->msa_rf2a_map = NULL; }
+  if(ps->msa_a2rf_map != NULL) { free(ps->msa_a2rf_map); ps->msa_a2rf_map = NULL; }
+  ps->msa_ct = msa_ct;
+  ps->msa_nbp = msa_nbp;
+  ps->msa_ct = msa_ct;
+  ps->msa_rf2a_map = rf2a_map;
+  ps->msa_a2rf_map = a2rf_map;
+  ps->msa_nseq = msa_nseq;
+
+  return eslOK;
+
+ ERROR:
+  ESL_FAIL(status, errbuf, "validate_and_update_sspostscript_given_msa(), error status %d, probably out of memory.\n", status);
+  return status; 
+}
+
+
+/* Function: draw_header_and_footer()
+ * 
+ * Purpose:  Draw header for a page
+ */ 
+static int 
+draw_header_and_footer(FILE *fp, const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, int page, int pageidx2print)
+{
+  int status;
+  int i, split_idx;
+  float x, y;
+  float header_fontsize;
+  int model_width, desc_width, desc_column_width;
+  char *model_dashes, *desc_dashes, *desc2print;
+  char *desc_string = NULL;
+  float xmodel;
+  char *model2print = NULL;
+  float footer_fontsize, footerx_charsize;
+
+  header_fontsize = HEADER_FONTSIZE_UNSCALED / ps->scale; 
+
+  fprintf(fp, "%% begin header section\n");
+  fprintf(fp, "/%s findfont %.2f scalefont setfont\n", DEFAULT_FONT, header_fontsize);
+  fprintf(fp, "0.00 0.00 0.00 1.00 setcmykcolor\n"); /* black */
+
+  if(! (esl_opt_GetBoolean(go, "--no-head"))) { 
+    model_width = ESL_MAX(strlen("model"), (int) strlen(ps->modelname));
+    if(model_width > HEADER_MODELNAME_MAXCHARS) { 
+      ESL_ALLOC(model2print, sizeof(char) * (HEADER_MODELNAME_MAXCHARS+1));
+      for(i = 0; i < (HEADER_MODELNAME_MAXCHARS-3); i++) model2print[i] = ps->modelname[i];
+      model2print[HEADER_MODELNAME_MAXCHARS-3] = '.';
+      model2print[HEADER_MODELNAME_MAXCHARS-2] = '.';
+      model2print[HEADER_MODELNAME_MAXCHARS-1] = '.';
+      model2print[HEADER_MODELNAME_MAXCHARS] = '\0';
+    }
+    else { 
+      if((status = esl_strdup(ps->modelname, -1, &(model2print))) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "draw_header_and_footer(), error copying modelname");
+    }
+    
+    model_width = ESL_MIN(model_width, HEADER_MODELNAME_MAXCHARS);
+    ESL_ALLOC(model_dashes, sizeof(char) * (model_width+1));
+    for(i = 0; i < model_width; i++) model_dashes[i] = '-'; 
+    model_dashes[model_width] = '\0';
+    
+    if(ps->modeA[page] == ALIMODE || ps->modeA[page] == SIMPLEMASKMODE) { 
+      if((status = esl_strdup("description", -1, &(desc_string))) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "draw_header_and_footer(), error copying description");
+    }
+    else if(ps->modeA[page] == INDIMODE) { 
+      if((status = esl_strdup("sequence name", -1, &(desc_string))) != eslOK) ESL_FAIL(eslEINVAL, errbuf, "draw_header_and_footer(), error copying description");
+    }
+    
+    xmodel = ps->headerx_desc - (ps->headerx_charsize * (model_width  + 6 + 6 + 8 + 2)); /*6,6,8 for #pos,#bps,#seq|seqlen) plus 2 spaces each, first 2 for 2 spaces before desc*/
+    x = xmodel;
+    y = ps->headery;
+    
+    fprintf(fp, "(%-*s  %4s  %4s) %.2f %.2f moveto show\n", model_width, "model", "#pos", "#bps", x, y);
+    y -= header_fontsize * 0.75;
+    fprintf(fp, "(%-*s  %4s  %4s) %.2f %.2f moveto show\n", model_width, model_dashes, "----", "----", x, y);
+    y -= header_fontsize * 0.75;
+    fprintf(fp, "(%-*s  %4d  %4d) %.2f %.2f moveto show\n", model_width, model2print, ps->rflen, ps->msa_nbp, x, y);
+    free(model_dashes);
+    x += (model_width + 6 + 6 +2) * ps->headerx_charsize;
+    
+    if(ps->modeA[page] == ALIMODE) { 
+      y+= header_fontsize * 1.5;
+      fprintf(fp, "(%6s) %.2f %.2f moveto show\n", "#seqs", x, y);
+      y -= header_fontsize * 0.75;
+      fprintf(fp, "(%6s) %.2f %.2f moveto show\n", "------", x, y);
+      y -= header_fontsize * 0.75;
+      fprintf(fp, "(%6d) %.2f %.2f moveto show", ps->msa_nseq, x, y);
+    }
+    else if(ps->modeA[page] == INDIMODE && (ps->seqidxA[page] != -1)) { /* ps->seqidxA[page] == -1 if we're printing the consensus sequence */
+      y+= header_fontsize * 1.5;
+      fprintf(fp, "(%6s) %.2f %.2f moveto show\n", "seqlen", x, y);
+      y -= header_fontsize * 0.75;
+      fprintf(fp, "(%6s) %.2f %.2f moveto show\n", "------", x, y);
+      y -= header_fontsize * 0.75;
+      fprintf(fp, "(%6d) %.2f %.2f moveto show", ps->uaseqlenA[ps->seqidxA[page]], x, y);
+    }
+    
+    if(ps->descA[page] != NULL) { 
+      x =  ps->headerx_desc;
+      y += 2. * header_fontsize * 0.75;
+      desc_width = ESL_MAX((int) strlen(desc_string), (int) strlen(ps->descA[page]));
+      if(desc_width > ps->desc_max_chars) { 
+	/* split into two lines, the add_page_desc_to_sspostscript() function added a '\n' where the split should be */
+	i = 0; 
+	while(ps->descA[page][i] != '\n') { 
+	  i++; 
+	  if(i >= desc_width) ESL_FAIL(eslEINVAL, errbuf, "drawing header, failed to find split point from add_page_desc_to_() in two-line description (%s)", ps->descA[page]);
+	}
+	split_idx = i;
+	desc_column_width = split_idx;
+      }
+      else desc_column_width = desc_width;
+      
+      ESL_ALLOC(desc_dashes, sizeof(char) * (desc_column_width+1));
+      for(i = 0; i < desc_column_width; i++) desc_dashes[i] = '-'; 
+      desc_dashes[desc_column_width] = '\0';
+      
+      fprintf(fp, "(%-*s) %.2f %.2f moveto show\n", desc_column_width, desc_string, x, y);
+      y -= header_fontsize * 0.75;
+      free(desc_string);
+      fprintf(fp, "(%-*s) %.2f %.2f moveto show\n", desc_column_width, desc_dashes, x, y);
+      y -= header_fontsize * 0.75;
+      free(desc_dashes);
+      
+      if(desc_width > ps->desc_max_chars) {
+	ESL_ALLOC(desc2print, sizeof(char) * (split_idx+1));
+	for(i = 0; i < split_idx; i++) desc2print[i] = ps->descA[page][i];
+	desc2print[split_idx] = '\0';
+	fprintf(fp, "(%-*s) %.2f %.2f moveto show\n", desc_column_width, desc2print, x, y);
+	free(desc2print);
+	
+	x = ps->headerx_desc;
+	y-= ps->headery_charsize * 1;
+	ESL_ALLOC(desc2print, sizeof(char) * ((desc_width - split_idx) -1+1));
+	for(i = split_idx+1; i < desc_width; i++) desc2print[(i-(split_idx+1))] = ps->descA[page][i];
+	desc2print[(desc_width-(split_idx+1))] = '\0';
+	fprintf(fp, "(%-*s) %.2f %.2f moveto show\n", desc_column_width, desc2print, x, y);
+	free(desc2print);
+      }
+      else { 
+	fprintf(fp, "(%-*s) %.2f %.2f moveto show\n", desc_width, ps->descA[page], x, y);
+      }
+    }
+    /* masked row of header goes here if desired */
+  }
+  fprintf(fp, "%% end header section\n\n");
+
+  /* draw footer */
+  footer_fontsize = LEG_FONTSIZE_UNSCALED / ps->scale;
+  footerx_charsize = ps->legx_charsize;
+  
+  if(! (esl_opt_GetBoolean(go, "--no-foot"))) { 
+    fprintf(fp, "%% begin footer section\n");
+    fprintf(fp, "/%s findfont %.2f scalefont setfont\n", FOOTER_FONT, footer_fontsize);
+    /* draw alignment file name in lower left hand corner */
+    if(ps->mask != NULL) { 
+      if(esl_opt_GetString(go, "--mask-diff") != NULL) { 
+	fprintf(fp, "(alignment file: %s; mask 1 file: %s; mask 2 file: %s;) %.2f %.2f moveto show\n", esl_opt_GetArg(go, 1), esl_opt_GetString(go, "--mask"), esl_opt_GetString(go, "--mask-diff"), PAGE_SIDEBUF, PAGE_BOTBUF);
+      }
+      else { 
+	fprintf(fp, "(alignment file: %s; mask file: %s;) %.2f %.2f moveto show\n", esl_opt_GetArg(go, 1), esl_opt_GetString(go, "--mask"), PAGE_SIDEBUF, PAGE_BOTBUF);
+      }
+    }
+    else { 
+      fprintf(fp, "(alignment file: %s) %.2f %.2f moveto show\n", esl_opt_GetArg(go, 1), PAGE_SIDEBUF, PAGE_BOTBUF);
+    }
+
+    /* put page number */
+    /* determine ndigits */
+    int tmp, ndigits;
+    tmp = pageidx2print;
+    ndigits = 1;
+    while(tmp >= 10) { tmp /= 10; ndigits++; }
+    x = ps->pagex_max - (PAGE_SIDEBUF) - (footerx_charsize * (5 + ndigits)); 
+    fprintf(fp, "(page %d) %.2f %.2f moveto show\n", pageidx2print, x, PAGE_BOTBUF);
+    
+    /* fprintf(fp, "(Created by \'esl-ssdraw\'. Copyright (C) 2010 Howard Hughes Medical Institute.) %.2f %.2f moveto show \n", PAGE_SIDEBUF , PAGE_BOTBUF); */
+    fprintf(fp, "%% end footer section\n\n");
+  }
+
+  if(model2print != NULL) free(model2print);
+  return eslOK;
+
+ ERROR: ESL_FAIL(eslEINVAL, errbuf, "draw_header_and_footer(), memory error.");
+}
+
+/* Function: get_insert_info_from_msa
+ * Date:     EPN, Fri Dec  4 13:52:53 2009
+ * 
+ * Read an MSA with #=GC RF annotation defining
+ * consensus columns and count how many insertions
+ * occur after each consensus column for each sequence.
+ * 
+ * msa         - the alignment
+ * rflen       - expected nongap RF length (consensus length)
+ * ret_nseq_with_ins_ct - [0..rflen] number of sequences with >= 1 
+ *               insert after each position. NULL if unwanted.
+ * ret_nins_ct - [0..rflen] total number of inserted nucleotides 
+ *               after each position. NULL if unwanted.
+ * ret_per_seq_ins_ct - [0..i..msa->nseq-1][0..rflen] number of inserts 
+ *                      insert after each position per sequence. NULL if unwanted.
+ * 
+ * Returns void. Dies with an informative error message upon an error.
+ */
+void
+get_insert_info_from_msa(const ESL_ALPHABET *abc, ESL_MSA *msa, int rflen, int **ret_nseq_with_ins_ct, int **ret_nins_ct, int ***ret_per_seq_ins_ct)
+{
+  int             status;
+  int             i;
+  int            *nseq_with_ins_ct = NULL;
+  int            *nins_ct = NULL;
+  int           **per_seq_ins_ct = NULL;
+  int             rfpos, apos;
+
+  /* contract check */
+  if(msa->rf == NULL) esl_fatal("Error in get_insert_info_from_msa(), msa->rf is NULL.");
+
+  /* allocate and initialize */
+  ESL_ALLOC(nseq_with_ins_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(nseq_with_ins_ct, rflen+1, 0);
+  ESL_ALLOC(nins_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(nins_ct, rflen+1, 0);
+  ESL_ALLOC(per_seq_ins_ct, sizeof(int *) * (msa->nseq));
+  for(i = 0; i < msa->nseq; i++) { 
+    ESL_ALLOC(per_seq_ins_ct[i],  sizeof(int) * (rflen+1));
+    esl_vec_ISet(per_seq_ins_ct[i], (rflen+1), 0);
+  }
+
+  /* fill per_seq_ins_ct, nseq_with_ins_ct */
+  rfpos = 0;
+  for(apos = 0; apos < msa->alen; apos++) { 
+    if(esl_abc_CIsResidue(abc, msa->rf[apos])) {
+      rfpos++;
+      if(rfpos > rflen) esl_fatal("Error in get_insert_info_from_msa(), expected consensus length (%d) is incorrect."); 
+    }
+    else { 
+      for(i = 0; i < msa->nseq; i++) { 
+	if(! esl_abc_CIsGap(abc, msa->aseq[i][apos])) { 
+	  per_seq_ins_ct[i][rfpos]++;
+	  nins_ct[rfpos]++;
+	  if(per_seq_ins_ct[i][rfpos] == 1) nseq_with_ins_ct[rfpos]++;
+	}	  
+      }
+    }
+  }
+
+  if(ret_nseq_with_ins_ct != NULL) *ret_nseq_with_ins_ct = nseq_with_ins_ct;
+  else free(nseq_with_ins_ct);
+  if(ret_nins_ct != NULL) *ret_nins_ct = nins_ct;
+  else free(nins_ct);
+  if(ret_per_seq_ins_ct != NULL) *ret_per_seq_ins_ct = per_seq_ins_ct;
+  else esl_Free2D((void **) per_seq_ins_ct, msa->nseq);
+
+  return;
+
+ ERROR:
+  esl_fatal("Error in get_insert_info_from_msa(), memory allocation error.");
+  return; /* NEVERREACHED */
+}
+
+
+/* Function: get_insert_info_from_ifile
+ * Date:     EPN, Fri Dec  4 14:49:12 2009
+ * 
+ * Read a file output from Infernal's cmalign 
+ * when run with '--matchonly --ifile <f>' and
+ * fill *ret_ict[0..rflen][0..msa->nseq-1] number
+ * of inserts after each consensus position for 
+ * each sequence. 
+ * 
+ * We also keep track of cases where a count of
+ * the first and final nongap positions of all sequence
+ * per column would be incorrect IF the msa were
+ * to have all insert columns removed. These corrections
+ * are stored and returned in srfoff_ct and erfoff_ct
+ * as explained below.
+ *
+ * Format of an insert file (from the commented header of an ifile):
+ * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+ * This file includes 2+<nseq> non-'#' pre-fixed lines per model used for alignment,
+ * where <nseq> is the number of sequences in the target file.
+ * The first non-'#' prefixed line per model includes 2 tokens, separated by a single space (' '):
+ * The first token is the model name and the second is the consensus length of the model (<clen>).
+ * The following <nseq> lines include (4+3*<n>) whitespace delimited tokens per line.
+ * The format for these <nseq> lines is:
+ *   <seqname> <seqlen> <spos> <epos> <c_1> <u_1> <i_1> <c_2> <u_2> <i_2> .... <c_x> <u_x> <i_x> .... <c_n> <u_n> <i_n>
+ *   indicating <seqname> has >= 1 inserted nucleotides after <n> different consensus positions,
+ *   <seqname> is the name of the sequence
+ *   <seqlen>  is the unaligned length of the sequence
+ *   <spos>    is the first (5'-most) consensus position filled by a nongap for this sequence (-1 if 0 nongap consensus posns)
+ *   <epos>    is the final (3'-most) consensus position filled by a nongap for this sequence (-1 if 0 nongap consensus posns)
+ *   <seqlen>  is the unaligned length of the sequence
+ *   <c_x> is a consensus position (between 1 and <clen>; if 0 inserts occur before 1st consensus posn)
+ *   <u_x> is the *unaligned* position (b/t 1 and <seqlen>) in <seqname> of the first inserted nucleotide after <c_x>.
+ *   <i_x> is the number of inserted nucleotides after position <c_x> for <seqname>.
+ * Lines for sequences with 0 inserted nucleotides will include only <seqname> <seqlen>.
+ * The final non-'#' prefixed line per model includes only '//', indicating the end of info for a model.
+ * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+ * 
+ * Example: 
+ * ~~~~~~~~~~~~~~~~~~~~~~~~~~
+ * tRNA 71
+ * tRNA-1 67 1 71  17 15 1
+ * tRNA-2 71 1 71  20 20 1
+ * tRNA-3 70 1 71  45 41 3  46 44 1
+ * tRNA-4 71 1 71
+ * tRNA-5 69 1 71  46 44 1
+ * tRNA-6 70 1 71
+ * tRNA-7 67 1 71
+ * tRNA-8 71 1 71  17 16 1
+ * tRNA-9 67 1 71
+ * tRNA-10 73 1 71  45 44 4
+ * ~~~~~~~~~~~~~~~~~~~~~~~~~~
+ * 
+ * ifile         - name of ifile
+ * rflen         - expected nongap RF length (consensus length)
+ * msa_nseq      - expected number of sequences
+ * useme_keyhash - keyhash with names of sequences for which we will store insert info
+ *                 if NULL, we store insert info for all seqs.
+ * ret_nseq_with_ins_ct  - [0..rflen] number of sequences with >= 1 inserts
+ *                         after each RF position. 
+ *                         Note [0] is before first posn, [1] is after first posn, [rflen] is after last one
+ * ret_nins_ct           - [0..rflen] total number of inserted nucleotides (over all seqs) after each RF position. 
+ *                         Note [0] is before first posn, [1] is after first posn, [rflen] is after last one
+ * ret_per_seq_ins_ct    - [0..i..msa->nseq-1][0..rflen number of inserts
+ *                         after each position for each sequence.
+ *                         Filled here.
+ * 
+ * ret_srfoff_ct - [0..rfpos..rflen-1] count adjustment to make to a spos_ct[rfpos] if it 
+ *                 were obtained from an alignment with inserts removed, this value is <a>+<b>,
+ *                 where <a> is : -1 times the number of sequences that have their first nongap 
+ *                 RF position as rfpos, but include an insert before an rfpos2 < rfpos. 
+ *                 and <b> is : +1 times the number of sequences that have their first nongap
+ *                 RF position as rfpos3, but have an insert before rfpos < rfpos3. 
+ *                 We can only determine these cases when we read the ifile, since the
+ *                 msa has had inserts removed.
+ *                 NOTE a nasty off-by-one: RF (consensus) positions in the ifile are indexed 1..rflen
+ * 
+ * ret_erfoff_ct - [0..rfpos..rflen-1] count adjustment to make to a epos_ct[rfpos] if it 
+ *                 were obtained from an alignment with inserts removed, this value is <a>+<b>,
+ *                 where <a> is : -1 times the number of sequences that have their final nongap 
+ *                 RF position as rfpos, but include an insert after an rfpos2 > rfpos. 
+ *                 and <b> is : +1 times the number of sequences that have their final nongap
+ *                 RF position as rfpos3, but have an insert after rfpos > rfpos3. 
+ *                 We can only determine these cases when we read the ifile, since the
+ *                 msa has had inserts removed.
+ *                 NOTE a nasty off-by-one: RF (consensus) positions in the ifile are indexed 1..rflen
+ *
+ * Returns void. Dies with an informative error message on an error.
+ */
+void
+get_insert_info_from_ifile(char *ifile, int rflen, int msa_nseq, ESL_KEYHASH *useme_keyhash, int **ret_nseq_with_ins_ct, int **ret_nins_ct, int ***ret_per_seq_ins_ct, int **ret_srfoff_ct, int **ret_erfoff_ct)
+{
+  int             status;
+  ESL_FILEPARSER *efp;
+  char           *tok;
+  int             nseq_read = 0;
+  int             nseq_stored = 0;
+  int           **per_seq_ins_ct = NULL;
+  int            *nins_ct = NULL;
+  int            *nseq_with_ins_ct = NULL;
+  int             nins;
+  int             i;
+  int             rfpos; /* current nongap RF position */
+  int             uapos; /* unaligned position for current sequence */
+  
+  int             seen_model_name_line = FALSE;
+  int             seen_end_of_model_line = FALSE;
+  int             nseq2store;     /* number of seqs we'll store insert info on */
+  int             seqlen;         /* sequence length for current sequence, read from ifile */
+  int             spos;           /* first (5'-most) nongap consensus position for current sequence, read from ifile */
+  int             epos;           /* final (3'-most) nongap consensus position for current sequence, read from ifile */
+  int            *srfoff_ct = NULL; /* [0..rfpos..rflen-1] correction for spos_ct[rfpos], add this value to spos_ct
+				     * to correct the miscounting that occurs if the msa has had all inserts removed, but
+				     * an insert file with insert info has been supplied and is read in this function */
+  int            *erfoff_ct = NULL; /* [0..rfpos..rflen-1] correction for epos_ct[rfpos] (analagous to srfoff_ct) */
+  int             already_handled_special_spos = FALSE;
+  int             prv_e_increment, prv_e_decrement; 
+
+  if (esl_fileparser_Open(ifile, NULL, &efp) != eslOK) esl_fatal("Error: failed to open insert file %s\n", ifile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  /* determine how many sequences we'll be storing info for */
+  nseq2store = (useme_keyhash == NULL) ? msa_nseq : esl_keyhash_GetNumber(useme_keyhash);
+
+  /* allocate and initialize */
+  ESL_ALLOC(nseq_with_ins_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(nseq_with_ins_ct, rflen+1, 0);
+
+  ESL_ALLOC(nins_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(nins_ct, rflen+1, 0);
+
+  if(ret_srfoff_ct != NULL) { 
+    ESL_ALLOC(srfoff_ct, sizeof(int) * rflen);
+    esl_vec_ISet(srfoff_ct, rflen, 0);
+  }
+  if(ret_erfoff_ct != NULL) { 
+    ESL_ALLOC(erfoff_ct, sizeof(int) * rflen);
+    esl_vec_ISet(erfoff_ct, rflen, 0);
+  }
+  if(ret_per_seq_ins_ct != NULL) { 
+    ESL_ALLOC(per_seq_ins_ct, sizeof(int *) * (nseq2store));
+    for(i = 0; i < nseq2store; i++) { 
+      ESL_ALLOC(per_seq_ins_ct[i],  sizeof(int) * (rflen+1));
+      esl_vec_ISet(per_seq_ins_ct[i], (rflen+1), 0);
+    }
+  }
+
+  /* Read the file, verify that it contains the correct number of sequences and the
+   * consensus length(s) listed in the file agrees with expected rflen. 
+   * Special care is taken to allow concatenated ifiles, so we may see more than 
+   * one // lines, but the total number of seqs should match what we expect. 
+   */
+  i = 0;
+  while (esl_fileparser_NextLine(efp) == eslOK) { 
+    if (esl_fileparser_GetTokenOnLine(efp, &tok, NULL) != eslOK) { 
+      if(seen_model_name_line) esl_fatal("Error reading insert file, failed to read seq name on line %d of file %s\n", efp->linenumber, ifile);
+      else                     esl_fatal("Error reading insert file, failed to read model name on line %d of file %s\n", efp->linenumber, ifile);
+    }
+    if(! seen_model_name_line) { /* this should be a special line, 2 tokens: <cmname> <rflen>, verify that <rflen> is what we expect  */
+      seen_model_name_line   = TRUE;
+      seen_end_of_model_line = FALSE;
+      if (esl_fileparser_GetTokenOnLine(efp, &tok, NULL) != eslOK) {
+	esl_fatal("Error reading insert file, failed to read consensus length on line %d of file %s\n", efp->linenumber, ifile); 
+      }
+      if(rflen != atoi(tok)) {
+	esl_fatal("Error reading insert file, read consensus length of %d on line %d of file %s, but expected length %d\n", atoi(tok), efp->linenumber, ifile, rflen);
+      } 
+    }     
+    else if (strncmp(tok, "//", 2) == 0) { /* end of data for an ifile, but we may have concatenated them, so we keep going */
+      seen_model_name_line   = FALSE;
+      seen_end_of_model_line = TRUE;
+    }
+    else { /* should be a seq line with 1+3*n tokens, <seqlen> <rfpos_0> <uapos_0> <nins_0> ... <rfpos_n> <uapos_n> <nins_n>, n can be 0 */
+      /* determine if we're using this sequence */
+      i++;
+      if(useme_keyhash == NULL || (esl_keyhash_Lookup(useme_keyhash, tok, -1, NULL) == eslOK)) { 
+	already_handled_special_spos = FALSE;   /* initialize */
+	prv_e_decrement = prv_e_increment = -1; /* initialize */
+
+	if(esl_fileparser_GetTokenOnLine(efp, &tok, NULL) != eslOK) esl_fatal("Error reading insert file, failed to read unaligned length for sequence on line %d of file %s.\n", efp->linenumber, ifile); 
+	seqlen = atoi(tok);
+
+	if(esl_fileparser_GetTokenOnLine(efp, &tok, NULL) != eslOK) esl_fatal("Error reading insert file, failed to read first nongap consensus position for sequence on line %d of file %s.\n", efp->linenumber, ifile); 
+	spos = atoi(tok);
+	if(spos > rflen) esl_fatal("Error reading insert file, read spos of %d that exceeds expected consensus length %d on line %d of file %s.\n", spos, rflen, efp->linenumber, ifile);
+
+	if(esl_fileparser_GetTokenOnLine(efp, &tok, NULL) != eslOK) esl_fatal("Error reading insert file, failed to read final nongap consensus position for sequence on line %d of file %s.\n", efp->linenumber, ifile); 
+	epos = atoi(tok);
+	if(epos > rflen) esl_fatal("Error reading insert file, read epos of %d that exceeds expected consensus length %d on line %d of file %s.\n", epos, rflen, efp->linenumber, ifile);
+
+	if(spos == -1 && epos != -1) esl_fatal("insert file is corrupt, spos is -1 but epos is not -1, on line %d\n", efp->linenumber);
+	if(spos != -1 && epos == -1) esl_fatal("insert file is corrupt, spos is not -1 but epos is -1, on line %d\n", efp->linenumber);
+
+	while(esl_fileparser_GetTokenOnLine(efp, &tok, NULL) == eslOK) { 
+	  /* rfpos */
+	  rfpos = atoi(tok);
+	  if(rfpos > rflen) esl_fatal("Error reading insert file, read insert info for position %d that exceeds expected consensus length %d on line %d of file %s.\n", rfpos, rflen, efp->linenumber, ifile);
+
+	  /* uapos */
+	  if((status = esl_fileparser_GetTokenOnLine(efp, &tok, NULL)) != eslOK) esl_fatal("Error reading insert file, didn't read unaligned sequence position for rfpos %d on line %d of file %s.\n", rfpos, efp->linenumber, ifile);
+	  uapos = atoi(tok);
+	  if(uapos > seqlen) esl_fatal("Error reading insert file, read insert info for position %d that exceeds expected sequence length %d on line %d of file %s.\n", rfpos, seqlen, efp->linenumber, ifile);
+
+	  /* nins */
+	  if((status = esl_fileparser_GetTokenOnLine(efp, &tok, NULL)) != eslOK) esl_fatal("Error reading insert file, didn't read number of inserts for position %d on line %d of file %s.\n", rfpos, efp->linenumber, ifile);
+	  nins = atoi(tok);
+	  nins_ct[rfpos] += nins;
+	  if(per_seq_ins_ct != NULL) per_seq_ins_ct[nseq_stored][rfpos] = nins;
+	  if(nins > 0) nseq_with_ins_ct[rfpos]++; /* nins should always be > 0, but why not check?  */
+	  
+	  /* check for special cases where a spos_ct and epos_ct read from a de-inserted msa would be incorrect */
+	  if(spos != -1) { 
+	    /* Note, if spos == -1 (then epos also == -1, we checked above), then there are 0 nongap consensus positions for 
+	     * this sequence, and the spos and epos counts were never incremented for this sequence, so they don't need to be corrected. */
+
+	    /* First check if this insert is before spos-1 */
+	    if(srfoff_ct != NULL) {
+	      if((rfpos < (spos-1)) && (! already_handled_special_spos)) { /* we've got an insert *after* a position rfpos < (spos-1) for minimal rfpos */
+		/* Any function that counted the first RF position for this sequence if inserts were
+		 * removed thought it was spos, but an insert exists after rfpos<(spos-1), which means there
+		 * was an insert after rfpos, then a gap in at least 1 consensus position before the
+		 * first nongap consensus nucleotide at cpos. 
+		 * NOTE a nasty off-by-one: RF (consensus) positions in the ifile are indexed 1..rflen, whereas srfoff_ct is 0..rflen-1 */
+		srfoff_ct[(spos-1)]--;    /* this position was overcounted */
+		srfoff_ct[(rfpos-1)+1]++; /* this position was undercounted, we do +1 because insert occured after rfpos */
+		/* printf("decremented srfoff_ct[%d] for seq %d\n", spos-1, i);
+		   printf("incremented srfoff_ct[%d] for seq %d\n", rfpos-1+1, i);
+		*/
+		already_handled_special_spos = TRUE; /* if another rfpos is less than (spos-1) we don't care, we already fixed s_rfoff_ct */
+	      }
+	    }
+
+	    /* Now check if this insert is after epos */
+	    if(erfoff_ct != NULL) { 
+	      if(rfpos > epos) { /* we've got an insert *after* a position rfpos > epos */
+		/* Any function that counted the final RF position for this sequence if inserts were
+		 * removed thought it was epos, but an insert exists after rfpos>epos, which means there
+		 * was a gap in at least one consensus position cpos > epos (cpos <= rfpos) and then inserts 
+		 * after rfpos. 
+		 * NOTE a nasty off-by-one: RF (consensus) positions in the ifile are indexed 1..rflen, whereas srfoff_ct is 0..rflen-1 */
+		erfoff_ct[(epos-1)]--;  /* this position was overcounted */
+		erfoff_ct[(rfpos-1)]++; /* this position was undercounted */
+		
+		/* BUT, be careful, we could have already entered this 'if' for this sequence, if so we need to negate
+		 * the previous time we incremented and decremented. 
+		 * NOTE this case and corresponding code only applies to epos (not spos) b/c with spos
+		 * its the first case only that we want to handle (which is why we use the already_handled_special_spos FLAG) */
+		if(prv_e_decrement != -1 && prv_e_increment != -1) { 
+		  erfoff_ct[prv_e_increment]--;    /* undo increment with a decrement */
+		  erfoff_ct[prv_e_decrement]++;    /* undo decrement with an increment */
+		  prv_e_decrement = (epos-1);
+		  prv_e_increment = (rfpos-1);
+		}
+	      }
+	    }
+	  }
+	}
+	nseq_stored++;
+      }
+      nseq_read++;
+      if(nseq_read > msa_nseq) esl_fatal("Error reading insert file, read info for more sequences than expected (%d) at line %d of file %s.", msa_nseq, efp->linenumber, ifile);
+    }
+  }
+  esl_fileparser_Close(efp);
+
+  /* end of file, make sure we read a '//' at the end of it */
+  if(! seen_end_of_model_line) esl_fatal("Error reading insert file, didn't read the special '//' line at the end of file %s.\n", rfpos, efp->linenumber, ifile);
+
+  /* if useme_keyhash != NULL, make sure we read all the seqs we wanted to */
+  if((useme_keyhash != NULL) && (nseq_stored != nseq2store)) { 
+    esl_fatal("Error reading insert file, wanted to read insert info on %d seqs, but only found %d of them in the insert file %s\n", nseq2store, nseq_stored, ifile);      
+  }
+  if(nseq_read != msa_nseq)  esl_fatal("Error reading insert file, expected to read info on %d seqs, but only found %d in the insert file %s\n", msa_nseq, nseq_read, ifile);      
+
+  if      (ret_nins_ct          != NULL) *ret_nins_ct = nins_ct;
+  else                                   free(nins_ct);
+  if      (ret_nseq_with_ins_ct != NULL) *ret_nseq_with_ins_ct = nseq_with_ins_ct;
+  else                                   free(nseq_with_ins_ct);
+  if      (ret_srfoff_ct        != NULL) *ret_srfoff_ct = srfoff_ct;
+  else if (srfoff_ct            != NULL) free(srfoff_ct);
+  if      (ret_erfoff_ct        != NULL) *ret_erfoff_ct = erfoff_ct;
+  else if (erfoff_ct            != NULL) free(erfoff_ct);
+  if      (ret_per_seq_ins_ct   != NULL) *ret_per_seq_ins_ct = per_seq_ins_ct;
+  else if (per_seq_ins_ct       != NULL) esl_Free2D((void **) per_seq_ins_ct, msa_nseq);
+
+  return;
+
+ ERROR:
+  esl_fatal("Memory allocation error while reading insert file %s.", ifile);
+  return;; /* NEVERREACHED */
+}
+
+/* Function: get_insert_info_from_abc_ct
+ * Date:     EPN, Tue Jan 19 09:32:30 2010
+ * 
+ * Given an abc_ct array:
+ * [0..apos..alen-1][0..abc->K]: per position count of 
+ * each symbol in alphabet over all seqs. 
+ * 
+ * Determine the number of sequences with >= 1 inserted
+ * nucleotides after each RF position.
+ *  
+ * IMPORTANT NOTE: This is done based on the assumption that inserts
+ * have been systematically placed in the MSA by a program like
+ * Infernal or HMMER and that the maximum number of nongap nucleotides in
+ * any insert position after rfpos is the number of sequences with >=1
+ * insert nucleotides after rfpos. However, if the alignments were not
+ * generated from HMMER nor Infernal, or have been modified, the
+ * inserts may not follow this rule (the rule, in other words is that
+ * there is always 1 insert column after each nongap RF position rfpos
+ * that includes a nucleotide from all sequences that have >= 1 inserted
+ * nucleotides after rfpos).
+ * 
+ * abc_ct      - [0..apos..msa_alen-1][0..abc->K] count of each nucleotide in each position 
+ * abc         - the alphabet
+ * msa_rf      - msa->rf, the reference annotation 
+ * msa->alen   - length of alignment
+ * rflen       - expected nongap RF length (consensus length)
+ * ret_nseq_with_ins_ct - [0..rflen]  number of sequences with >= 1 
+ *               insert after each position. NULL if unwanted.
+ * ret_nins_ct - [0..rflen] total number of inserted nucleotides (over
+ *               all sequences after each position. NULL if unwanted.
+ * 
+ * Returns void. Dies with an informative error message upon an error.
+ */
+void
+get_insert_info_from_abc_ct(double **abc_ct, ESL_ALPHABET *abc, char *msa_rf, int64_t msa_alen, int rflen, int **ret_nseq_with_ins_ct, int **ret_nins_ct)
+{
+  int             status;
+  int            *nins_ct;
+  int            *nseq_with_ins_ct;
+  int             nins, nmaxins;
+  int             rfpos, apos;
+
+  /* allocate and initialize */
+  ESL_ALLOC(nseq_with_ins_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(nseq_with_ins_ct, rflen+1, 0);
+  ESL_ALLOC(nins_ct, sizeof(int) * (rflen+1));
+  esl_vec_ISet(nins_ct, rflen+1, 0);
+
+  nmaxins = 0;
+  rfpos = 0;
+  for(apos = 0; apos < msa_alen; apos++) { 
+    if(esl_abc_CIsResidue(abc, msa_rf[apos])) { 
+      nseq_with_ins_ct[rfpos] = nmaxins;
+      nmaxins = 0;
+      rfpos++;
+      if(rfpos > rflen) esl_fatal("Error in get_insert_info_from_abc_ct(), expected consensus length (%d) is incorrect."); 
+    }
+    else { 
+      nins = (int) esl_vec_DSum(abc_ct[apos], abc->K); 
+      nins_ct[rfpos] += nins;
+      nmaxins = ESL_MAX(nmaxins, nins);
+    }
+  }
+  /* get max_nseq with inserts after the final position */
+  nseq_with_ins_ct[rfpos] = nmaxins;
+
+  if(ret_nins_ct          != NULL) *ret_nins_ct          = nins_ct;
+  else free(nins_ct);
+  if(ret_nseq_with_ins_ct != NULL) *ret_nseq_with_ins_ct = nseq_with_ins_ct;
+  else free(nseq_with_ins_ct);
+
+  return;
+
+ ERROR:
+  esl_fatal("Error in get_insert_info_from_abc_ct(), memory allocation error.");
+  return; /* NEVERREACHED */
+}
+
+/* get_pp_idx
+ *                   
+ * Given a #=GR PP or #=GC PP_cons character, return the appropriate index
+ * in a pp_ct[] vector. 
+ * '0' return 0;
+ * '1' return 1;
+ * '2' return 2;
+ * '3' return 3;
+ * '4' return 4;
+ * '5' return 5;
+ * '6' return 6;
+ * '7' return 7;
+ * '8' return 8;
+ * '9' return 9;
+ * '*' return 10;
+ * gap return 11;
+ * 
+ * Anything else (including missing or nonnucleotide) return -1;
+ */
+int
+get_pp_idx(const ESL_ALPHABET *abc, char ppchar)
+{
+  if(esl_abc_CIsGap(abc, ppchar)) return 11;
+  if(ppchar == '*')               return 10;
+  if(ppchar == '9')               return 9;
+  if(ppchar == '8')               return 8;
+  if(ppchar == '7')               return 7;
+  if(ppchar == '6')               return 6;
+  if(ppchar == '5')               return 5;
+  if(ppchar == '4')               return 4;
+  if(ppchar == '3')               return 3;
+  if(ppchar == '2')               return 2;
+  if(ppchar == '1')               return 1;
+  if(ppchar == '0')               return 0;
+  return -1;
+}
+
+/* spos_and_epos2span_ct
+ *                   
+ * Given two arrays, spos_ct[0..apos..alen-1] and epos_ct[0..apos..alen-1], 
+ * specifying the number of sequences for which the first and last non-gap
+ * position is apos, calculate the number of sequences that 'span' each RF
+ * position. A sequence spans position rfpos which is actually alignment
+ * position apos, it has at least one nongap nucleotide in a position x <= apos, 
+ * and at least one nucleotide in a position y, y >= apos.
+ * 
+ * As a special case, if alen == rflen and srfoff_ct != NULL and erfoff_ct != NULL,
+ * then we've read an insert file (with --ifile) which has given us information
+ * that we'll use to update spos_ct and epos_ct. In this case, the inserts
+ * have been removed from the alignment but it is possible that spos_ct and 
+ * epos_ct have miscounted some positions (see get_insert_info_from_ifile()
+ * for more info). 
+ * 
+ * span_ct:   [0..rfpos..ps->msa->rflen-1] number of sequences that 'span' each position rfpos
+ *	      have >= 1 nucleotide at a position apos before rf2a_map[rfpos] and >= 1 nucleotide at 
+ *            any position apos >= rf2a_map[rfpos],
+ */
+int
+get_span_ct(int *msa_rf2a_map, int64_t alen, int rflen, int nseq, int *spos_ct, int *epos_ct, int *srfoff_ct, int *erfoff_ct, int **ret_span_ct)
+{
+  int status;
+  int *nseq_start_after_rfpos = NULL;
+  int *nseq_end_before_rfpos = NULL;
+  int *span_ct = NULL;
+  int rfpos;
+  int do_correction;
+  int apos, nxt_apos, prv_apos;
+
+  ESL_ALLOC(span_ct, sizeof(int) * rflen);
+  ESL_ALLOC(nseq_start_after_rfpos, sizeof(int) * rflen);
+  ESL_ALLOC(nseq_end_before_rfpos, sizeof(int) * rflen);
+
+  esl_vec_ISet(nseq_start_after_rfpos, rflen, 0);
+  esl_vec_ISet(nseq_end_before_rfpos, rflen, 0);
+
+  /* check for special case, when we need to update spos_ct and epos_ct */
+  if(srfoff_ct != NULL && erfoff_ct == NULL) esl_fatal("Internal error, get_span_ct: srfoff_ct != NULL and erfoff_ct == NULL");
+  if(srfoff_ct == NULL && erfoff_ct != NULL) esl_fatal("Internal error, get_span_ct: srfoff_ct == NULL and erfoff_ct != NULL");
+
+  /* determine if we should correct spos_ct and epos_ct using srfoff_ct and erfoff_ct */
+  do_correction = (alen == rflen && srfoff_ct != NULL)  ? TRUE : FALSE;
+
+  /* NOTE: if alen == rflen spos_ct and epos_ct have length rflen, just like srfoff_ct and erfoff_ct */
+
+  /* first count number of seqs that start after each position */
+  nseq_start_after_rfpos[rflen-1] = 0; /* initialize */
+  nxt_apos = (int) alen - 1;
+  for(rfpos = rflen-2; rfpos >= 0; rfpos--) { 
+    for(apos = nxt_apos; apos > msa_rf2a_map[rfpos]; apos--) { 
+      nseq_start_after_rfpos[rfpos] += spos_ct[apos];
+      if(do_correction) nseq_start_after_rfpos[rfpos] += srfoff_ct[apos];
+    }
+    nseq_start_after_rfpos[rfpos] += nseq_start_after_rfpos[rfpos+1];
+    nxt_apos = msa_rf2a_map[rfpos];
+  }
+
+  /* count number of seqs that end before each position */
+  nseq_end_before_rfpos[0] = 0; /* initialize */
+  prv_apos = 0;
+  for(rfpos = 1; rfpos < rflen; rfpos++) { 
+    for(apos = prv_apos; apos < msa_rf2a_map[rfpos]; apos++) { 
+      nseq_end_before_rfpos[rfpos] += epos_ct[apos];
+      if(do_correction) nseq_end_before_rfpos[rfpos] += erfoff_ct[apos];
+    }
+    nseq_end_before_rfpos[rfpos] += nseq_end_before_rfpos[rfpos-1];
+    prv_apos = msa_rf2a_map[rfpos];
+  }
+
+  /* We now know how many seqs start after each rfpos (a = nseq_start_after_rfpos[rfpos]) and
+   *             how many seqs end  before each rfpos (b = nseq_end_before_rfpos[rfpos])
+   * so c = [nseq-(a+b)] seqs span rfpos (b/c they don't start after it AND don't end before it).
+   * 
+   * Note: this is really confusing to me, but I've convinced myself it's true, and I think
+   *       it is only true because we know each sequence's end position must be >= its start position
+   */
+  for(rfpos = 0; rfpos < rflen; rfpos++) { 
+    span_ct[rfpos] = nseq - (nseq_start_after_rfpos[rfpos] + nseq_end_before_rfpos[rfpos]);
+    /*printf("span_ct[rfpos: %d]: %d after: %d before: %d nseq: %d\n", rfpos, span_ct[rfpos], nseq_start_after_rfpos[rfpos], nseq_end_before_rfpos[rfpos], nseq);*/
+  }
+
+  *ret_span_ct = span_ct;
+  free(nseq_start_after_rfpos);
+  free(nseq_end_before_rfpos);
+  return eslOK;
+
+ ERROR: 
+  return eslEMEM;
+}
+
+
+/* Function: drawfile2sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with >= 1 new page(s), with colors described
+ *           in an input 'draw' file, with >= 1 sets of <x> lines of data, each set 
+ *           is separated by a line with only "//". <x> must be equal to the consensus
+ *           ps->rflen. Each line contains a single real number between 0 and 1,
+ *           these are converted into 1 of 6 CMYK colors based on their values, using
+ *           the same color scheme used for frequency of inserts.
+ *
+ * Return:   eslOK on success.
+ */
+static int
+drawfile2sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps, float ***hc_scheme, int hc_scheme_idx, int hc_nbins)
+{
+  int status;
+  int p, pp;
+  int rfpos, c;
+  int orig_npage = ps->npage;
+  ESL_FILEPARSER *efp;
+  char           *s;
+  char *dfile = esl_opt_GetString(go, "--dfile");
+  float *limits;
+  float value;
+  int l;
+  int bi, within_mask;
+  char *desc = NULL;
+  char *legheader = NULL;
+
+  /* allocate for limits, but don't fill it yet */
+  ESL_ALLOC(limits, sizeof(float) * (hc_nbins+1)); 
+
+  if (esl_fileparser_Open(dfile, NULL, &efp) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to open %s in draw_file2sspostscript\n", dfile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  pp = orig_npage - 1;
+
+  /* Format of dfile: 
+   * For each page: 
+   * line 1: description of page (max is ps->desc_max_chars*2 chars)
+   * line 2: header for legend (max is ps->legx_max_chars chars)
+   * line 3: limits for color bins, must be 7 tokens, all numbers, each greater than the last
+   * lines 4-N: single tokens, numerical values for each position, N is CLEN-3.
+   * line N+1: single token, only:"//\n" signifying end of page.
+   * 
+   * '#' prefixed lines are considered comments and skipped.
+   *
+   * Example:
+   */
+
+  rfpos = -1;
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if(rfpos == -1) { /* new page, first add a new page */
+	/* next 3 lines must be a specific format */
+	/* first line is description */
+	if(desc != NULL) { free(desc); desc = NULL; }
+	while((status = esl_fileparser_GetTokenOnLine(efp, &s, NULL)) == eslOK) { 
+	  if((status = esl_strcat(&desc, -1, s, -1)) != eslOK) esl_fatal("Out of memory");
+	  if((status = esl_strcat(&desc, -1, " ", -1)) != eslOK) esl_fatal("Out of memory");
+	}
+	if(strlen(desc) > (ps->desc_max_chars*2.)) esl_fatal("Error reading --dfile, description length (%d) exceeds max allowed (%d)", strlen(desc), (ps->desc_max_chars*2));
+	if(esl_fileparser_NextLine(efp) != eslOK) esl_fatal("Error reading --dfile, expected legend header line at line %d\n", efp->linenumber);
+
+	/* second line is legend header */
+	if(legheader != NULL) { free(legheader); legheader = NULL; }
+	while((status = esl_fileparser_GetTokenOnLine(efp, &s, NULL)) == eslOK) { 
+	  if((status = esl_strcat(&legheader, -1, s, -1)) != eslOK) esl_fatal("Out of memory");
+	  if((status = esl_strcat(&legheader, -1, " ", -1)) != eslOK) esl_fatal("Out of memory");
+	}
+	if(strlen(legheader) > ps->legx_max_chars) esl_fatal("Error reading --dfile, legend header length (%d) exceeds max allowed (%d)", strlen(legheader), ps->legx_max_chars);
+	if(esl_fileparser_NextLine(efp) != eslOK) esl_fatal("Error reading --dfile, expected limits line at line %d\n", efp->linenumber);
+	
+	/* third line is bin limits for the colors, must be 7 numbers, we read them as floats */
+	for(l = 0; l < hc_nbins+1; l++) { 
+	  if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK) esl_fatal("Error reading --dfile, expected limits line at line %d to have %d limits (numbers) in increasing order, it doesn't", efp->linenumber, hc_nbins+1);
+	  limits[l] = atof(s);
+	  if(l > 0 && limits[l] < limits[l-1]) esl_fatal("Error reading --dfile, expected limits line at line %d with %d limits (numbers) in increasing order", efp->linenumber, hc_nbins+1);
+	}
+	rfpos++; /* rfpos will now be 0 */
+      }
+      else if(rfpos == (ps->rflen)) { /* end of page, should be a single token, a "\\" on this line */ 
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	  esl_fatal("Failed to read a final token at the end of description of page %d on line %d of drawfile %s\n", (pp - orig_npage + 1), efp->linenumber, dfile);
+	if (strcmp(s, "//") != 0) 
+	  esl_fatal("Failed to read a final \"//\" token (read %s) at the end of description of draw page %d on line %d of drawfile %s\n", s, (pp - orig_npage + 1), efp->linenumber, dfile);
+	rfpos = -1;
+	/* add color legend */
+	if((status = add_text_to_scheme_colorlegend(ps, ps->sclAA[pp], legheader, ps->legx_max_chars, errbuf)) != eslOK) return status;
+	if((status = add_page_desc_to_sspostscript(ps, ps->npage-1, desc, errbuf)) != eslOK) return status;
+      }
+      else { /* a normal line, should either contain a single float or the \\ marking end of this page */
+	rfpos++;
+	if(rfpos == 1) { /* add a new page, (we now have limits for legend, from if(rfpos == -1) loop above) */
+	  if((status = add_pages_sspostscript(ps, 1, ALIMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+	  for(p = (ps->npage-1); p < ps->npage; p++) { 
+	    ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+	    ESL_ALLOC(ps->sclAA[p],   sizeof(SchemeColorLegend_t *) * 1);
+	    for(c = 0; c < ps->rflen; c++) { 
+	      ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+	    }
+	  }
+	  pp++; /* if first page, pp == orig_npage now */
+	  ps->sclAA[pp] = create_scheme_colorlegend(hc_scheme_idx, hc_nbins, limits, FALSE, TRUE, TRUE, TRUE);
+	}
+	/* now parse the line, it should have a single number, a numerical value for a position */
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK) esl_fatal("Failed to read value for position %d for page %d on line %d of dfile\n", rfpos, (pp - orig_npage + 1), efp->linenumber);
+	value = atof(s);
+	if(value < limits[0] || value > limits[hc_nbins]) esl_fatal("--dfile value %.4f out of allowed range [%.3f-%.3f] on line %d\n", value, limits[0], limits[hc_nbins], efp->linenumber, dfile);
+	within_mask = (ps->mask != NULL && ps->mask[rfpos-1] == '1') ? TRUE : FALSE;
+	if((status = set_scheme_values(errbuf, ps->bcolAAA[pp][rfpos-1], NCMYK, hc_scheme[hc_scheme_idx], value, ps->sclAA[pp], within_mask, &bi)) != eslOK) return status;
+      }
+    }
+  if(pp == (orig_npage - 1)) { /* no new pages were read, this is an error */
+    esl_fatal("Failed to read a single page from drawfile %s\n", dfile);
+  }
+  esl_fileparser_Close(efp);
+
+  free(limits);
+  if(desc != NULL)      { free(desc);      desc = NULL;      }
+  if(legheader != NULL) { free(legheader); legheader = NULL; }
+
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "drawfile2sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* Function: expertfile2sspostscript()
+ * 
+ * Purpose:  Fill a postscript data structure with >= 1 new page(s), with colors described
+ *           in an input 'expert draw' file, with >= 1 sets of <x> lines of data, each set 
+ *           is separated by a line with only "//". <x> must be equal to the consensus
+ *           ps->rflen. Each line has at least 4 floats explaining 
+ *           the CMYK values for the color to use at each position of the SS diagram,
+ *           and optionally contains an extra single character which is the nucleotide
+ *           to put at that position.
+ *           
+ * Return:   eslOK on success.
+ */
+static int
+expertfile2sspostscript(const ESL_GETOPTS *go, char *errbuf, SSPostscript_t *ps)
+{
+  int status;
+  int p, pp;
+  int cpos, c;
+  int orig_npage = ps->npage;
+  ESL_FILEPARSER *efp;
+  char           *s;
+  char *efile = esl_opt_GetString(go, "--efile");
+
+  if (esl_fileparser_Open(efile, NULL, &efp) != eslOK) ESL_FAIL(eslFAIL, errbuf, "failed to open %s in draw_file2sspostscript\n", efile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  pp = orig_npage - 1;
+  cpos = 0;
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      /* example line without nucleotide markup:
+       * 0.000 0.000 0.000 0.500
+       *
+       * example line with nucleotide markup:
+       * 0.000 0.000 0.000 0.500 A
+       */
+
+      cpos++;
+      if(cpos == 1) { /* add a new page */
+	if((status = add_pages_sspostscript(ps, 1, SIMPLEMASKMODE)) != eslOK) ESL_FAIL(status, errbuf, "memory error adding pages to the postscript object.");
+	
+	for(p = (ps->npage-1); p < ps->npage; p++) { 
+	  ESL_ALLOC(ps->rAA[p], sizeof(char) *  (ps->rflen+1));
+	  ESL_ALLOC(ps->bcolAAA[p], sizeof(float *) * ps->rflen);
+	  for(c = 0; c < ps->rflen; c++) { 
+	    ESL_ALLOC(ps->bcolAAA[p][c], sizeof(float) * NCMYK); /* CMYK colors */
+	  }
+	}
+	pp++; /* if first page, pp == orig_npage now */
+      }
+      if(cpos == (ps->rflen+1)) { /* should be a single token, a "\\" on this line */ 
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	  esl_fatal("Failed to read a final token at the end of description of draw page %d on line %d of expertfile %s\n", (pp - orig_npage + 1), efp->linenumber, efile);
+	if (strcmp(s, "//") != 0) 
+	  esl_fatal("Failed to read a final \"//\" token (read %s) at the end of description of draw page %d on line %d of expertfile %s\n", s, (pp - orig_npage + 1), efp->linenumber, efile);
+	cpos = 0;
+      }
+      else { 
+	/* get C value */
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	  esl_fatal("Failed to read C of CMYK value on line %d of expertfile %s\n", efp->linenumber, efile);
+	ps->bcolAAA[pp][(cpos-1)][0] = atof(s);
+
+	/* get M value */
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	  esl_fatal("Failed to read M of CMYK value on line %d of expertfile %s\n", efp->linenumber, efile);
+	ps->bcolAAA[pp][(cpos-1)][1] = atof(s);
+
+	/* get Y value */
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	esl_fatal("Failed to read Y of CMYK value on line %d of expertfile %s\n", efp->linenumber, efile);
+	ps->bcolAAA[pp][(cpos-1)][2] = atof(s);
+
+	/* get K value */
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) != eslOK)
+	  esl_fatal("Failed to read K of CMYK value on line %d of expertfile %s\n", efp->linenumber, efile);
+	ps->bcolAAA[pp][(cpos-1)][3] = atof(s);
+
+	/* optionally read a nucleotide value */
+	if (esl_fileparser_GetTokenOnLine(efp, &s, NULL) == eslOK) {
+	  if(((int) strlen(s)) != 1) esl_fatal("Read multi-character string (%s) for consensus nucleotide %d on line %d of expertfile %s\n", s, cpos, efp->linenumber, efile);
+	  ps->rAA[pp][(cpos-1)] = s[0];
+	}
+	else ps->rAA[pp][(cpos-1)] = ' ';
+      }
+    }
+  if(pp == (orig_npage - 1)) { /* no new pages were read, this is an error */
+    esl_fatal("Failed to read a single page from expertfile %s\n", efile);
+  }
+
+  esl_fileparser_Close(efp);
+  return eslOK;
+
+ ERROR: ESL_FAIL(status, errbuf, "expertfile2sspostscript(): memory allocation error.");
+  return status; /* NEVERREACHED */
+}
+
+
+/* is_watson_crick_bp(i,j): return TRUE if i,j form a watson crick bp, FALSE if not
+ * is_gu_or_ug_bp(i,j):     return TRUE if i,j form a G-U or U-G bp, FALSE if not
+ */
+static int
+is_watson_crick_bp(char i, char j)
+{
+  switch (toupper(i)) { 
+  case 'A':
+    switch (toupper(j)) { 
+    case 'U': return TRUE; break;
+    case 'T': return TRUE; break;
+    default: break;
+    }
+    break;
+  case 'C':
+    switch (toupper(j)) { 
+    case 'G': return TRUE; break;
+    default: break;
+    }
+    break;
+  case 'G':
+    switch (toupper(j)) { 
+    case 'C': return TRUE; break;
+    default: break;
+    }
+    break;
+  case 'U':
+    switch (toupper(j)) { 
+    case 'A': return TRUE; break;
+    default: break;
+    }
+    break;
+  case 'T':
+    switch (toupper(j)) { 
+    case 'A': return TRUE; break;
+    default: break;
+    }
+    break;
+  default: break;
+  }
+
+  return FALSE;
+}
+
+static int
+is_gu_or_ug_bp(char i, char j)
+{
+  switch (toupper(i)) { 
+  case 'G':
+    switch (toupper(j)) { 
+    case 'U': return TRUE; break;
+    case 'T': return TRUE; break;
+    default: break;
+    }
+    break;
+  case 'U':
+    switch (toupper(j)) { 
+    case 'G': return TRUE; break;
+    default: break;
+    }
+    break;
+  case 'T':
+    switch (toupper(j)) { 
+    case 'G': return TRUE; break;
+    default: break;
+    }
+    break;
+  default: break;
+  }
+
+  return FALSE;
+}
+
+/* Function: get_consensus_seqs_from_abc_ct()
+ * Date:     EPN, Wed Apr  7 07:39:57 2010
+ * 
+ * Given an abc_ct array:
+ * [0..apos..alen-1][0..abc->K]: per position count of 
+ * each symbol in alphabet over all seqs. 
+ * 
+ * Determine the consensus sequence for the msa that abc_ct
+ * corresponds to, one nucleotide per nongap RF position, the
+ * most informative IUPAC nucleotide (including ambiguous nucleotides)
+ * that represents >= <x> fraction of the sequences in the msa
+ * that have a nongap at that position.
+ * 
+ * Alternatively, if --majrule is enabled, define consensus nucleotide
+ * as the most common nucleotide at each position. Uppercase
+ * if frequency >= 0.5 of nongap nts, else it is lowercase.
+ *  
+ * ps       - the postscript object
+ * errbuf   - informative error message, returned upon failure
+ * abc_ct   - count of nucleotides per alignment position (see above)
+ * abc      - the alphabet
+ * cthresh  - consensus nucleotide must explain >= <cthresh> fraction
+ *            of nucleotides in msa (ex: if cthresh = 0.8, and 
+ *            A=0.6, C=0.01, G=0.25, U=0.14, consensus nucleotide = R (A|G))
+ * ret_cseq - RETURN: the consensus sequence [0..rflen-1]
+ * 
+ * Returns eslOK on success.
+  */
+typedef struct nt2sort_s {
+  double ntfreq; /* frequency of this nucleotide */
+  int    ntidx;  /* index of this nucleotide in alphabet (ex: 1 for 'C' in eslRNA) */
+} nt2sort_t;
+
+
+int compare_by_ntfreq(const void *a_void, const void *b_void) {
+  nt2sort_t *a, *b;
+  a = (nt2sort_t *) a_void;
+  b = (nt2sort_t *) b_void;
+  if      (a->ntfreq > b->ntfreq) return -1;
+  else if (a->ntfreq < b->ntfreq) return  1;
+  else                          return  0;
+}
+
+/* Function: get_consensus_nucleotide()
+ * Date:     EPN, Wed Apr  7 07:39:57 2010
+ * 
+ * Given a useme array:
+ * [0..i..abc->K]: TRUE if nucleotide i is used, FALSE if not
+ * Return the consensus nucleotide - the least ambiguous iupac 
+ * nucleotide that represents all TRUEs. For ex: [1,0,1,0] --> R
+ * If <do_dna> is TRUE, return 'T' instead of 'U' when appropriate.
+ * 
+ * Returns the consensus nucleotide.
+ * 
+ * Degeneracies:
+ * R = A|G
+ * Y = C|U
+ * M = A|C
+ * K = G|U
+ * S = C|G
+ * W = A|U
+ * H = A|C|U
+ * B = C|G|U
+ * V = A|C|G
+ * D = A|G|U
+ */
+int get_consensus_nucleotide(int *useme, int K) 
+{ 
+  /* You brute! */
+  if((! useme[0]) && (! useme[1]) && (! useme[2]) && (  useme[3])) { return 'U'; } /* 0001 */
+  if((! useme[0]) && (! useme[1]) && (  useme[2]) && (! useme[3])) { return 'G'; } /* 0010 */
+  if((! useme[0]) && (  useme[1]) && (! useme[2]) && (! useme[3])) { return 'C'; } /* 0100 */
+  if((  useme[0]) && (! useme[1]) && (! useme[2]) && (! useme[3])) { return 'A'; } /* 1000 */
+
+  if((  useme[0]) && (  useme[1]) && (  useme[2]) && (  useme[3])) { return 'N'; } /* 1111 */
+
+  if((! useme[0]) && (  useme[1]) && (  useme[2]) && (  useme[3])) { return 'B'; } /* 0111 */
+  if((  useme[0]) && (! useme[1]) && (  useme[2]) && (  useme[3])) { return 'D'; } /* 1011 */
+  if((  useme[0]) && (  useme[1]) && (  useme[2]) && (! useme[3])) { return 'V'; } /* 1110 */
+  if((  useme[0]) && (  useme[1]) && (! useme[2]) && (  useme[3])) { return 'H'; } /* 1101 */
+
+  if((! useme[0]) && (! useme[1]) && (  useme[2]) && (  useme[3])) { return 'K'; } /* 0011 */
+  if((! useme[0]) && (  useme[1]) && (  useme[2]) && (! useme[3])) { return 'S'; } /* 0110 */
+  if((  useme[0]) && (  useme[1]) && (! useme[2]) && (! useme[3])) { return 'M'; } /* 1100 */
+  if((! useme[0]) && (  useme[1]) && (! useme[2]) && (  useme[3])) { return 'Y'; } /* 0101 */
+  if((  useme[0]) && (! useme[1]) && (! useme[2]) && (  useme[3])) { return 'W'; } /* 1001 */
+  if((  useme[0]) && (! useme[1]) && (  useme[2]) && (! useme[3])) { return 'R'; } /* 1010 */
+
+  if((! useme[0]) && (! useme[1]) && (! useme[2]) && (! useme[3])) { return '-'; } /* 0000 */
+  esl_fatal("coding error in consensus_nucleotide");
+  return ' '; /* NEVERREACHED */
+}      
+
+int 
+get_consensus_seqs_from_abc_ct(const ESL_GETOPTS *go, SSPostscript_t *ps, char *errbuf, double **abc_ct, ESL_ALPHABET *abc, int64_t msa_alen)
+{
+  int             status;          /* the Easel return status */
+  char           *cseq_maj = NULL; /* the consensus sequence string based on majority rule that we're building */
+  char           *cseq_amb = NULL; /* the consensus sequence string including ambiguities that we're building */
+  int             rfpos, apos;     /* counter over nongap RF, alignment positions */
+  float           nongap_freq;     /* for current position, fraction of nongap nucleotides from abc_ct */
+  float           covered;         /* fraction of nongap nucleotides currently covered while
+				    * calculating the consensus nucleotide */
+  int            *nt_is_used;      /* [0..a..abc->K-1] TRUE if nucleotide a is included for 
+				    * current consensus nucleotide, FALSE if not */
+  nt2sort_t      *sorted_ntfreq;   /* [0..abc->K-1] sorted array of nt2sort structures */
+  int             sorted_idx;      /* index in sorted_ntfreq */
+  int             a;               /* counter over nucleotides in abc */
+  float           cthresh = esl_opt_GetReal(go, "--cthresh");
+  float           athresh = esl_opt_GetReal(go, "--athresh");
+
+  /* allocate and initialize */
+  ESL_ALLOC(cseq_maj, sizeof(char) * (ps->rflen+1));
+  ESL_ALLOC(cseq_amb, sizeof(char) * (ps->rflen+1));
+  cseq_maj[ps->rflen] = '\0';
+  cseq_amb[ps->rflen] = '\0';
+  ESL_ALLOC(sorted_ntfreq, sizeof(nt2sort_t) * (abc->K));
+  ESL_ALLOC(nt_is_used, sizeof(int) * (abc->K));
+
+  rfpos = 0;
+  for(apos = 0; apos < msa_alen; apos++) { 
+    if(esl_abc_CIsResidue(abc, ps->msa->rf[apos])) { 
+      nongap_freq = esl_vec_DSum(abc_ct[apos], abc->K);
+      if(esl_DCompare(nongap_freq, 0., eslSMALLX1) == eslOK) { /* all nucleotides are gaps */
+	cseq_maj[rfpos] = cseq_amb[rfpos] = '-';
+      }
+      else { /* at least one sequence has a nongap at rfpos, calculate the consensus nucleotide */
+	for(a = 0; a < abc->K; a++) { 
+	  sorted_ntfreq[a].ntfreq = abc_ct[apos][a] / nongap_freq;
+	  sorted_ntfreq[a].ntidx  = a;
+	}
+	/* quicksort */
+	qsort(sorted_ntfreq, abc->K, sizeof(nt2sort_t), compare_by_ntfreq);
+	covered = 0.;
+	esl_vec_ISet(nt_is_used, abc->K, FALSE);
+	sorted_idx = 0;
+	/* determine majority rule nucleotide */
+	cseq_maj[rfpos] = (sorted_ntfreq[sorted_idx].ntfreq >= cthresh) ? 
+	  toupper(abc->sym[sorted_ntfreq[sorted_idx].ntidx]) : 
+	  tolower(abc->sym[sorted_ntfreq[sorted_idx].ntidx]);
+	/* determine ambiguous nucleotide that covers > --athresh fraction of seqs */
+	while(covered < athresh) { 
+	  nt_is_used[sorted_ntfreq[sorted_idx].ntidx] = TRUE;
+	  covered += sorted_ntfreq[sorted_idx].ntfreq;
+	  /*printf("RF: %4d  SIDX: %d  AIDX: %d  FREQ: %.3f  COVERED: %.3f\n", 
+	    rfpos, sorted_idx, 
+	    sorted_ntfreq[sorted_idx].ntidx,
+	    sorted_ntfreq[sorted_idx].ntfreq, 
+	    covered);*/
+	  sorted_idx++;
+	}
+	cseq_amb[rfpos] = get_consensus_nucleotide(nt_is_used, abc->K);
+      }	  
+      rfpos++;
+    }
+  }
+  /* printf("\n"); */
+  ps->msa_cseq_maj = cseq_maj;
+  ps->msa_cseq_amb = cseq_amb;
+
+  free(sorted_ntfreq);
+  free(nt_is_used);
+
+  return eslOK;
+
+ ERROR:
+  ESL_FAIL(eslEMEM, errbuf, "Ran out of memory in get_consensus_seqs_from_abc_ct.");
+  return eslEMEM; /* NEVERREACHED */
+}
+
+/* Function: compare_two_cmyk_colors()
+ * Date:     EPN, Fri Apr 23 05:47:54 2010
+ * 
+ * Given four CMYK values defining a color <a>
+ * and four CMYK values defining a color <b>, check if 
+ * <a> and <b> are the same color. Return TRUE if they
+ * are and FALSE if not.
+ *  
+ * acol_C    - first  CMYK value for color <a> (Cyan)
+ * acol_M    - second CMYK value for color <a> (Magenta)
+ * acol_Y    - third  CMYK value for color <a> (Yellow)
+ * acol_K    - fourth CMYK value for color <a> (Key)
+ * bcol_C    - first  CMYK value for color <b> (Cyan)
+ * bcol_M    - second CMYK value for color <b> (Magenta)
+ * bcol_Y    - third  CMYK value for color <b> (Yellow)
+ * bcol_K    - fourth CMYK value for color <b> (Key)
+ * 
+ * Returns TRUE if colors a and b are identical, FALSE if not.
+  */
+int compare_two_cmyk_colors(float acol_C, float acol_M, float acol_Y, float acol_K, float bcol_C, float bcol_M, float bcol_Y, float bcol_K)
+{
+  if(esl_FCompare(acol_C, bcol_C, eslSMALLX1) != eslOK) return FALSE;
+  if(esl_FCompare(acol_M, bcol_M, eslSMALLX1) != eslOK) return FALSE;
+  if(esl_FCompare(acol_Y, bcol_Y, eslSMALLX1) != eslOK) return FALSE;
+  if(esl_FCompare(acol_K, bcol_K, eslSMALLX1) != eslOK) return FALSE;
+  return TRUE;
+}
+
+
+/* Function: define_outline_procedures()
+ * Date:     EPN, Sun May  2 10:36:32 2010
+ * 
+ * Given an open output postscript file, define 
+ * the three procedures for drawing outlines of
+ * cells.
+ * 
+ * Returns void.
+  */
+void define_outline_procedure(FILE *fp)
+{
+  fprintf(fp, "\n/%s %% stack: x y cellsize linewidth (empty)\n", OUTLINE_PROCEDURE);
+  fprintf(fp, "{\n");;
+  fprintf(fp, "   0. 0. 0. 1. setcmykcolor\n");/* set linewidth as top value on stack */
+  fprintf(fp, "   setlinewidth\n");            /* set linewidth as top value on stack */
+  fprintf(fp, "   /cellsize exch def\n");      /* push /cellsize onto stack, invert top 2 els, and define cellsize */
+  fprintf(fp, "   newpath moveto\n");          /* move to x, y, which are now on top of stack */
+  fprintf(fp, "   currentlinewidth 2. div currentlinewidth 2. div rmoveto\n");
+  fprintf(fp, "   0 cellsize currentlinewidth sub rlineto\n");
+  fprintf(fp, "   cellsize currentlinewidth sub 0 rlineto\n");
+  fprintf(fp, "   0 cellsize currentlinewidth sub -1 mul rlineto\n");
+  fprintf(fp, "   closepath stroke\n");
+  fprintf(fp, "} def\n\n");
+
+  /* Old definitions, kept here for reference, note these only work with OUTLINE_LINEWIDTH of 1.0 */
+  /*
+
+    //printing basic box outline
+    fprintf(fp, "\n/%s %% stack: x y => ---\n", OUTLINE_MAX_PROCEDURE);
+    fprintf(fp, "{  %.2f setlinewidth\n", OUTLINE_LINEWIDTH_MAX);
+    fprintf(fp, "   newpath moveto\n");
+    fprintf(fp, "   %.2f %.2f rmoveto\n", 
+    OUTLINE_LINEWIDTH_MAX / 2., OUTLINE_LINEWIDTH_MAX / 2.);
+    fprintf(fp, "   0 %.2f rlineto %.2f 0 rlineto 0 %.2f rlineto\n", 
+    CELLSIZE - OUTLINE_LINEWIDTH_MAX, CELLSIZE - OUTLINE_LINEWIDTH_MAX, -1 * (CELLSIZE - OUTLINE_LINEWIDTH_MAX));
+    fprintf(fp, "   closepath gsave stroke grestore \n");
+    fprintf(fp, "} def\n\n");
+
+    //printing a double-line outline 
+    fprintf(fp, "\n/%s %% stack: x y => ---\n", OUTLINE_MAX_PROCEDURE);
+    fprintf(fp, "{  %s\n", OUTLINE_MIN_PROCEDURE);
+    fprintf(fp, "   %.2f %.2f rmoveto\n", 
+    OUTLINE_LINEWIDTH * 2., OUTLINE_LINEWIDTH * 2.);
+    fprintf(fp, "   0 %.2f rlineto %.2f 0 rlineto 0 %.2f rlineto\n", 
+    CELLSIZE - (5. * OUTLINE_LINEWIDTH), CELLSIZE - (5. * OUTLINE_LINEWIDTH), -1 * (CELLSIZE - (5. * OUTLINE_LINEWIDTH)));
+    fprintf(fp, "   closepath gsave stroke grestore \n");
+    fprintf(fp, "} def\n\n");
+
+    //drawing corners only for the outline 
+    fprintf(fp, "\n/outlinemin %% stack: x y => ---\n");
+    fprintf(fp, "{  newpath moveto\n");
+    fprintf(fp, "   %.2f     0 rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    OUTLINE_LINEWIDTH/2, CELLSIZE / 4.);
+    fprintf(fp, "   grestore   0     %.2f rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    3 * CELLSIZE / 4., CELLSIZE / 4. );
+    
+    fprintf(fp, "   grestore %.2f  %.2f rmoveto %.2f 0 rlineto closepath gsave stroke\n", 
+    -1 * OUTLINE_LINEWIDTH / 2., 3 * OUTLINE_LINEWIDTH / 2., CELLSIZE / 4.);
+    fprintf(fp, "   grestore %.2f   0 rmoveto %.2f 0 rlineto closepath gsave stroke\n", 
+    3 * CELLSIZE / 4., CELLSIZE / 4. );
+    
+    fprintf(fp, "   grestore  %.2f %.2f rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    3 * OUTLINE_LINEWIDTH / 2., -3 * OUTLINE_LINEWIDTH/2, CELLSIZE / 4.);
+    fprintf(fp, "   grestore    0  %.2f rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    -3 * CELLSIZE / 4., CELLSIZE / 4.);
+    
+    fprintf(fp, "   grestore %.2f  %.2f rmoveto %.2f 0 rlineto closepath gsave stroke\n", 
+    -3 * OUTLINE_LINEWIDTH / 2., OUTLINE_LINEWIDTH / 2., CELLSIZE / 4.);
+    fprintf(fp, "   grestore %.2f    0 rmoveto %.2f 0 rlineto closepath gsave stroke\n", 
+    -3 * CELLSIZE / 4., CELLSIZE / 4.);
+    fprintf(fp, "} def\n");
+    
+    //drawing corners plus a dash in the middle of each side for the outline
+    fprintf(fp, "/outlinemid %% stack: x y => ---\n");
+    fprintf(fp, "{ \n");
+    fprintf(fp, "   outlinemin\n");
+    fprintf(fp, "   grestore  %.2f  %.2f  rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    OUTLINE_LINEWIDTH / 2., CELLSIZE / 4. + OUTLINE_LINEWIDTH / 2., CELLSIZE / 4.);
+    fprintf(fp, "   grestore  %.2f  %.2f  rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    CELLSIZE / 4. + OUTLINE_LINEWIDTH / 2., CELLSIZE / 2. + OUTLINE_LINEWIDTH / 2., CELLSIZE / 4.);
+    fprintf(fp, "   grestore  %.2f  %.2f  rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    CELLSIZE / 2. + OUTLINE_LINEWIDTH / 2., -1 * (CELLSIZE / 2. + OUTLINE_LINEWIDTH / 2.), CELLSIZE / 4.);
+    fprintf(fp, "   grestore  %.2f  %.2f  rmoveto 0 %.2f rlineto closepath gsave stroke\n", 
+    -1 * (CELLSIZE / 2. + OUTLINE_LINEWIDTH / 2.), -1 * CELLSIZE / 4. + OUTLINE_LINEWIDTH / 2., CELLSIZE / 4.);
+    fprintf(fp, "   gsave\n");
+    fprintf(fp, "} def\n");
+  */
+  return;
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-ssdraw.c $
+ * SVN $Id: esl-ssdraw.c 778 2012-07-06 12:39:18Z nawrockie $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.itest.pl
new file mode 100755
index 0000000..459b89e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.itest.pl
@@ -0,0 +1,644 @@
+#! /usr/bin/perl
+
+# Integrated test of the esl-ssdraw miniapp.
+#
+# Usage:     ./esl-ssdraw.itest.pl <esl-ssdraw binary> <postscript template file> <alignment file> <tmpfile prefix>
+# Example:   ./esl-ssdraw.itest.pl ./esl-ssdraw        ../testsuite/trna-ssdraw.ps ../testsuite/trna-5.stk foo
+#
+# EPN, Tue Feb  9 12:22:29 2010
+
+$eslssdraw    = shift;
+$templatefile = shift;
+$alifile      = shift;
+$tmppfx       = shift;
+
+if (! -x "$eslssdraw") { die "FAIL: didn't find esl-ssdraw binary $eslssdraw"; }
+
+open(MASKFILE, ">$tmppfx.mask1") || die "FAIL: couldn't open $tmppfx.mask1 for writing maskfile";
+print MASKFILE << "EOF";
+10010110101101111111111010101111111010101011010001100010101110101010101
+EOF
+close MASKFILE;
+
+open(MASKFILE, ">$tmppfx.mask2") || die "FAIL: couldn't open $tmppfx.mask2 for writing maskfile";
+print MASKFILE << "EOF";
+11011011111110101011111111111010101010100000000001001010011101010101010
+EOF
+close MASKFILE;
+
+open(IFILE, ">$tmppfx.ifile") || die "FAIL: couldn't open $tmppfx.ifile for writing insert file";
+print IFILE << "EOF";
+tRNA 71
+tRNA1 73 1 71  16 17 1  45 47 1
+tRNA2 72 1 71  19 20 1
+tRNA3 72 1 71  19 20 1
+tRNA4 72 1 71  45 46 1
+tRNA5 64 5 71  16 13 1  45 43 1
+//
+EOF
+close IFILE;
+
+open(DFILE, ">$tmppfx.dfile") || die "FAIL: couldn't open $tmppfx.efile for writing draw file";
+print DFILE << "EOF";
+Example of using --dfile to specify colors
+These numbers mean what?
+0.0 0.6 0.7 0.8 0.9 0.95 1.0
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.342
+//
+Another example of using --dfile to specify colors
+Meaning is unknown
+0.0 0.1 0.2 0.3 0.4 0.5 1.0
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.560
+0.730
+0.210
+0.120
+0.910
+1.000
+0.000
+0.302
+0.121
+1.000
+0.998
+0.353
+0.5
+0.342
+0.342
+//
+EOF
+close DFILE;
+
+open(EFILE, ">$tmppfx.efile") || die "FAIL: couldn't open $tmppfx.efile for writing draw file";
+print EFILE << "EOF";
+0.228 0.636 0.044 0.680
+0.470 0.564 0.932 0.933
+0.034 0.171 0.204 0.137
+0.471 0.725 0.013 0.246
+0.414 0.111 0.478 0.329
+0.947 0.110 0.870 0.230
+0.789 0.964 0.649 0.174
+0.991 0.362 0.028 0.634
+0.977 0.838 0.265 0.046
+0.024 0.806 0.148 0.647
+0.235 0.891 0.594 0.694
+0.799 0.366 0.073 0.013
+0.914 0.393 0.793 0.826
+0.054 0.786 0.486 0.386
+0.794 0.360 0.061 0.304
+0.070 0.866 0.646 0.961
+0.217 0.462 0.220 0.608
+0.446 0.715 0.516 0.287
+0.546 0.924 0.456 0.468
+0.438 0.035 0.613 0.031
+0.321 0.437 0.935 0.336
+0.101 0.275 0.089 0.410
+0.714 0.681 0.622 0.676
+0.315 0.079 0.850 0.917
+0.524 0.897 0.908 0.902
+0.460 0.826 0.039 0.979
+0.041 0.130 0.599 0.122
+0.181 0.234 0.813 0.157
+0.514 0.145 0.386 0.801
+0.183 0.929 0.161 0.588
+0.852 0.746 0.189 0.836
+0.455 0.580 0.439 0.373
+0.473 0.212 0.655 0.536
+0.678 0.744 0.434 0.793
+0.844 0.816 0.646 0.459
+0.806 0.807 0.002 0.304
+0.395 0.972 0.800 0.119
+0.981 0.492 0.752 0.463
+0.926 0.327 0.066 0.099
+0.029 0.252 0.846 0.134
+0.571 0.306 0.698 0.213
+0.711 0.470 0.680 0.522
+0.639 0.930 0.336 0.968
+0.839 0.824 0.118 0.877
+0.399 0.449 0.675 0.740
+0.105 0.341 0.014 0.971
+0.965 0.277 0.691 0.732
+0.198 0.648 0.903 0.804
+0.958 0.939 0.561 0.028
+0.359 0.665 0.162 0.298
+0.581 0.260 0.237 0.773
+0.042 0.540 0.410 0.190
+0.013 0.841 0.068 0.796
+0.763 0.904 0.601 0.677
+0.849 0.928 0.010 0.797
+0.517 0.658 0.094 0.870
+0.378 0.132 0.736 0.559
+0.385 0.358 0.951 0.566
+0.100 0.141 0.397 0.492
+0.091 0.913 0.870 0.351
+0.819 0.429 0.862 0.267
+0.263 0.777 0.427 0.602
+0.005 0.225 0.023 0.157
+0.154 0.009 0.800 0.514
+0.915 0.456 0.162 0.235
+0.374 0.595 0.678 0.901
+0.099 0.163 0.410 0.515
+0.969 0.191 0.912 0.117
+0.557 0.919 0.084 0.690
+0.846 0.032 0.300 0.158
+0.736 0.131 0.007 0.138
+//
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 a
+0.0 0.0 0.0 0.0 t
+0.0 0.0 0.0 0.0 R
+0.0 0.0 0.0 0.0 N
+0.0 0.0 0.0 0.0 A
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 a
+0.0 0.0 0.0 0.0 t
+0.0 0.0 0.0 0.0 R
+0.0 0.0 0.0 0.0 N
+0.0 0.0 0.0 0.0 A
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 a
+0.0 0.0 0.0 0.0 t
+0.0 0.0 0.0 0.0 R
+0.0 0.0 0.0 0.0 N
+0.0 0.0 0.0 0.0 A
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 a
+0.0 0.0 0.0 0.0 t
+0.0 0.0 0.0 0.0 R
+0.0 0.0 0.0 0.0 N
+0.0 0.0 0.0 0.0 A
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 a
+0.0 0.0 0.0 0.0 t
+0.0 0.0 0.0 0.0 R
+0.0 0.0 0.0 0.0 N
+0.0 0.0 0.0 0.0 A
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 a
+0.0 0.0 0.0 0.0 t
+0.0 0.0 0.0 0.0 R
+0.0 0.0 0.0 0.0 N
+0.0 0.0 0.0 0.0 A
+0.0 0.0 0.0 0.0 T
+0.0 0.0 0.0 0.0 h
+0.0 0.0 0.0 0.0 i
+0.0 0.0 0.0 0.0 s
+0.0 0.0 0.0 0.0 i
+//
+EOF
+close EFILE;
+
+$output = `$eslssdraw -h`;
+if ($? != 0)                                    { die "FAIL: esl-ssdraw failed unexpectedly"; }
+if ($output !~ /Usage: esl-ssdraw/)             { die "FAIL: help output not right"; }
+
+# We do 2 runs of most tests, with and without --small
+$smallA[0] = "";
+$smallA[1] = "--small ";
+
+# Note: these tests are less rigorous than similar ones for other miniapps because esl-ssdraw
+# creates a postscript file and to test that it was created properly we'd really want to open
+# it in a postscript viewer and look at it. Since we can't do that easily in an automated way,
+# I simply check the postscript file for text that I know should be there.
+
+for($pass = 0; $pass < 2; $pass++) {
+    $pass2write = $pass+1;
+
+    system("$eslssdraw $smallA[$pass] $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                       { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)    { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(\\\[0.800-1.200\\\)\)/) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(tRNA     71    21\)/)    { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 9\nnewpath\n.+0.00\d* 0.21\d* 1.00\d* 0.00\d* setcmykcolor/s) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] -d $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                       { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)    { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(\\\[0.800-1.200\\\)\)/) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(tRNA     71    21\)/)    { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 9\nnewpath\n.+0.00\d* 0.21\d* 1.00\d* 0.00\d* setcmykcolor/s) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --prob $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(\\\[0.900-0.950\\\)\)/)           { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 18\nnewpath\n.+0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/s) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --ifreq $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(\\\[0.500-1.000\\\]\)/)           { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 19\nnewpath\n.+0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 0.63\d* 1.00\d* 0.00\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --iavglen $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(>= 10\)/)                         { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    if($output !~ /\%nucleotide 19\nnewpath\n.+moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.92\d* 0.84\d* 0.00\d* 0.08\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --dall $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(zero deletions\)/)                { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 1\nnewpath\n.+moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.42\d* 0.00\d* 1.00\d* 0.00\d* setcmykcolor/) {  die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --dint $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(zero internal deletions\)/)       { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 1\nnewpath\n.+moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 0.00\d* 0.00\d* 0.20\d* setcmykcolor/) {  die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --mutinfo $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(0 complete basepairs\)/)          { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 61\nnewpath\n.+moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.42\d* 0.00\d* 1.00\d* 0.00\d* setcmykcolor/) {  die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --span $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(no sequences span\)/)             { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 2\nnewpath\n.+0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) {  die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --span $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                 { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(tRNA     71    21\)/)              { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\(no sequences span\)/)             { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    if($output !~ /\%nucleotide 2\nnewpath\n.+moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) {  die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --info --prob --ifreq --dall --dint --mutinfo --span --tabfile $tmppfx.tab $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                                     { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /setcmykcolor \(g\).+moveto show/)                                                { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    $output = `cat $tmppfx.tab`;
+    if($output !~ /Information content data/)                                                       { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /Mutual information data/)                                                        { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /Insert frequency data/)                                                          { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /Delete data/)                                                                    { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /Internal delete data/)                                                           { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /Average posterior probability data/)                                             { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /Span data/)                                                                      { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /infocontent       7   1.27\d+           5    4/)                                 { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /mutualinfo    16     30     38   0.47\d*   0.47\d*    0.76\d*           5    5/) { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /insertfreq      45   0.60000           5    6/)                                  { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /deleteall      67   0.20\d*    4/)                                               { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+    if($output !~ /deleteint      67   0.00\d*           4    0/)                                   { die "FAIL: tab file incorrectly written on pass $pass2write"; } 
+    if($output !~ /avgpostprob      19   0.88\d*           5    4/)                                 { die "FAIL: tab file incorrectly written on pass $pass2write"; } 
+    if($output !~ /span      67   0.80\d*    6/)                                                    { die "FAIL: tab file incorrectly written on pass $pass2write"; } 
+
+    system("$eslssdraw $smallA[$pass] --rf $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                                                                    { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\(\*REFERENCE\* \(\"#=GC RF\"\)\) 212.49 418.24 moveto show/)                    { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    if($output !~ /\(a\) 110.00 332.00 moveto show/)                                                { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+
+    if($pass == 0) { 
+	system("$eslssdraw $smallA[$pass] --indi $alifile $templatefile $tmppfx.ps > /dev/null");
+	if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+	$output = `cat $tmppfx.ps`;
+	# should include tRNA2, tRNA3, and tRNA5 only 
+	if($output !~ /tRNA1/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA2/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA3/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA4/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA5/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(A\) 180.00 392.00 moveto show/)        { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 0.21\d* 1.00\d* 0.00\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    }
+
+    system("$eslssdraw $smallA[$pass] --mask-col --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n  166.40 374.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 1.00\d* 0.00\d* 0.00\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --mask-diff $tmppfx.mask2 --mask-col --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n  166.40 374.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 0.00\d* 0.00\d* 0.20\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --mask-diff $tmppfx.mask2 --mask-col --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n  166.40 374.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 0.00\d* 0.00\d* 0.20\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --no-leg $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /\(LEGEND\) 134.00 216.00 moveto show/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --no-head $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /\(tRNA     71    21\) 96.98 418.24 moveto show/)    { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --no-foot $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /\(Created by 'esl-ssdraw'. Copyright \(C\) 2010 Howard Hughes Medical Institute.\) 12.00 12.00 moveto show/) { die "FAIL: postscript diagram drawn incorrectly on pass $pass2write"; }
+
+    # --small is incompatible with --indi:
+    if($pass == 0) { 
+	system("$eslssdraw $smallA[$pass] --no-pp --indi $alifile $templatefile $tmppfx.ps > /dev/null");
+	if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+	$output = `cat $tmppfx.ps`;
+	# should include tRNA2, tRNA3, and tRNA5 only 
+	if($output !~ /tRNA1/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA2/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA3/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA4/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA5/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(A\) 180.00 392.00 moveto show/)        { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output =~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.92\d* 0.84\d* 0.00\d* 0.08\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(Watson-Crick/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(Positions !=/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	
+	system("$eslssdraw $smallA[$pass] --no-bp --indi $alifile $templatefile $tmppfx.ps > /dev/null");
+	if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+	$output = `cat $tmppfx.ps`;
+	# should include tRNA2, tRNA3, and tRNA5 only 
+	if($output !~ /tRNA1/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA2/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA3/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA4/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA5/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(A\) 180.00 392.00 moveto show/)        { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.92\d* 0.84\d* 0.00\d* 0.08\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output =~ /\(Watson-Crick/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(Positions !=/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	
+	system("$eslssdraw $smallA[$pass] --no-ol --indi $alifile $templatefile $tmppfx.ps > /dev/null");
+	if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+	$output = `cat $tmppfx.ps`;
+	# should include tRNA2, tRNA3, and tRNA5 only 
+	if($output !~ /tRNA1/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA2/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA3/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA4/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA5/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(A\) 180.00 392.00 moveto show/)        { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.92\d* 0.84\d* 0.00\d* 0.08\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(Watson-Crick/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output =~ /\(Positions !=/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	
+	# NOTE: for --no-ntpp we don't actually check that residues are not drawn on PP diagrams
+	system("$eslssdraw $smallA[$pass] --no-ntpp --indi $alifile $templatefile $tmppfx.ps > /dev/null");
+	if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+	$output = `cat $tmppfx.ps`;
+	# should include tRNA2, tRNA3, and tRNA5 only 
+	if($output !~ /tRNA1/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA2/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA3/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA4/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /tRNA5/)                                  { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.50\d* 0.00\d* 0.00\d* 0.50\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(A\) 180.00 392.00 moveto show/)        { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\%nucleotide 19\nnewpath\n  108.40 306.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.92\d* 0.84\d* 0.00\d* 0.08\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(Watson-Crick/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+	if($output !~ /\(Positions !=/)                         { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    }
+
+    system("$eslssdraw $smallA[$pass] --no-cnt --info $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /setcmykcolor (g)\s+168\.\d+\s+392\.\d+\s+moveto show/)  { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --cthresh 0.4 --info $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /setcmykcolor (G)\s+168\.\d+\s+392\.\d+\s+moveto show/)  { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --cambig --info $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /setcmykcolor (K)\s+168\.\d+\s+392\.\d+\s+moveto show/)  { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --cambig --cthresh 0.4 --info $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output =~ /setcmykcolor (C)\s+168\.\d+\s+376\.\d+\s+moveto show/)  { die "FAIL: tab file incorrectly written on pass $pass2write"; }
+
+    system("$eslssdraw $smallA[$pass] --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n 171.00 379.00 3.0 0 360 arc closepath\n  0.0\d*0 0.63\d* 1.0\d*0 0.0\d*0 setcmykcolor\n  stroke/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; } 
+    
+    system("$eslssdraw $smallA[$pass] --mask-x --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /stroke\n  175.00 375.00 moveto  -8.0 8.0 rlineto closepath/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --mask-u --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n  168.00 376.00 moveto  0 6.0 rlineto 6.0 0 rlineto 0 -6.0 rlineto closepath\n  0.00\d* 0.63\d* 1.00\d* 0.00\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --mask-a --mask-x --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /%nucleotide 3\nnewpath\n  0.00\d* 0.63\d* 1.00\d* 0.00\d* setcmykcolor\n  167.00 375.00 moveto  8.0 8.0 rlineto closepath\n  stroke/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --mask-a --mask-u --mask $tmppfx.mask1 $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n  168.50 376.50 moveto  0 5.0 rlineto 5.0 0 rlineto 0 -5.0 rlineto closepath\n  0.00\d* 0.63\d* 1.00\d* 0.00\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --dfile $tmppfx.dfile $alifile $templatefile $tmppfx.ps > /dev/null");
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /%nucleotide 3\nnewpath\n  166.40 374.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.92\d* 0.84\d* 0.00\d* 0.08\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --mask $tmppfx.mask1 --dfile $tmppfx.dfile $alifile $templatefile $tmppfx.ps > /dev/null");
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /%nucleotide 3\nnewpath\n 171.00 379.00 3.0 0 360 arc closepath\n  0.9200 0.8400 0.00\d* 0.0800 setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; } 
+
+    system("$eslssdraw $smallA[$pass] --efile $tmppfx.efile $alifile $templatefile $tmppfx.ps > /dev/null");
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 3\nnewpath\n  166.40 374.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.03 0.17 0.20 0.14 setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+    
+    system("$eslssdraw $smallA[$pass] --ifreq --ifile $tmppfx.ifile $alifile $templatefile $tmppfx.ps > /dev/null");
+    if ($? != 0)                                            { die "FAIL: esl-ssdraw failed unexpectedly on pass $pass2write";}
+    $output = `cat $tmppfx.ps`;
+    if($output !~ /\%nucleotide 45\nnewpath\n  198.40 312.40 moveto  0 8 rlineto 8 0 rlineto 0 -8 rlineto closepath\n  0.00\d* 0.94\d* 1.00\d* 0.00\d* setcmykcolor/) { die "FAIL: postscript diagram drawn incorrectly written on pass $pass2write"; }
+}
+
+print "ok\n"; 
+
+unlink "$tmppfx.mask1";
+unlink "$tmppfx.mask2";
+unlink "$tmppfx.ifile";
+unlink "$tmppfx.dfile";
+unlink "$tmppfx.efile";
+unlink "$tmppfx.ps";
+unlink "$tmppfx.tab";
+unlink "$tmppfx.stk";
+
+
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.man
new file mode 100755
index 0000000..a11cf10
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-ssdraw.man
@@ -0,0 +1,830 @@
+.TH "esl-ssdraw" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-ssdraw - create postscript secondary structure diagrams
+
+.SH SYNOPSIS
+
+.B esl-ssdraw
+.I [options]
+.I msafile
+.I postscript_template
+.I postscript_output_file
+
+.SH DESCRIPTION
+
+.pp
+.B esl-ssdraw
+reads an existing template consensus secondary structure diagram from
+.I postscript_template
+and creates new postscript diagrams including the template structure
+but with positions colored differently based on alignment statistics
+such as frequency of gaps per position, average posterior probability
+per position or information content per position. Additionally, all
+or some of the aligned sequences can be drawn separately, with
+nucleotides or posterior probabilities mapped onto the corresponding
+positions of the consensus structure.
+
+The alignment must be in Stockholm format with per-column reference
+annotation (#=GC RF). The sequences in the alignment must be RNA or
+DNA sequences. The
+.B postscript_template
+file must contain one page that includes <rflen> consensus nucleotides
+(positions), where <rflen> is the number of nongap characters in the
+reference (RF) annotation of the first alignment in
+.B msafile.
+The specific format required in the 
+.B postscript_template
+is described below in the INPUT section.
+Postscript diagrams will only be created for the first alignment in
+.B msafile. 
+
+.SH OUTPUT
+
+By default (if run with zero command line options),
+.B esl-ssdraw
+will create a six or seven page 
+.I postscript_output_file, 
+with each page displaying a different alignment statistic. These pages display
+the alignment consensus sequence, information content per position,
+mutual information per position, frequency of inserts per position,
+average length of inserts per position, frequency of
+deletions (gaps) per position, and average posterior probability per
+position (if posterior probabilites exist in the alignment)
+If 
+.B -d 
+is enabled, all of these pages plus additional ones, such as
+individual sequences (see discussion of 
+.B.--indi 
+below) will be drawn.
+These pages can be selected to be drawn individually by using 
+the command line options
+.B --cons,
+.B --info,
+.B --mutinfo,
+.B --ifreq,
+.B --iavglen,
+.B --dall,
+and
+.B --prob.
+The calculation of the statistics for each of these options is
+discussed below in the description for each option.
+Importantly, only so-called 'consensus' positions of the alignment
+will be drawn. A consensus position is one that is a nongap nucleotide in
+the 'reference' annotation of the Stockholm alignment (#=GC RF) read
+from
+.B msafile.
+
+By default, a consensus sequence for the input alignment will be
+calculated and displayed on the alignment statistic diagrams. The
+consensus sequence is defined as the most common nucleotide at each 
+consensus position of the alignment. The consensus sequence will not
+be displayed if the 
+.B --no-cnt
+option is used. The 
+.B --cthresh,
+.B --cambig, 
+and 
+.B --athresh
+options affect the definition of the consensus sequence as
+explained below in the descriptions for those options.
+
+If the 
+.BI --tabfile " <f>"
+option is used, a tab-delimited text file 
+.I <f>
+will be created that includes per-position lists of the numerical
+values for each of the calculated statistics that were drawn to 
+.B postscript_output_file.
+Comment lines in
+.I <f>
+are prefixed with a '#' character and explain the meaning of
+each of the tab-delimited columns and how each of the statistics was
+calculated.
+
+If 
+.B --indi
+is used,
+.B esl-ssdraw
+will create diagrams showing each sequence in the alignment on a
+separate page, with aligned nucleotides in their corresponding
+position in the structure diagram.  By default, basepaired nucleotides
+will be colored based on their basepair type: either Watson-Crick
+(A:U, U:A, C:G, or G:C), G:U or U:G, or non-canonical (the other ten
+possible basepairs). This coloring can be turned off with the
+.B --no-bp
+option.
+Also by default, nucleotides that differ from the most common
+nucleotide at each aligned consensus position will be outlined. If
+the most common nucleotide occurs in more than 75% of sequences that
+do not have a gap at that position, the outline will be
+bold. Outlining can be turned off with the 
+.B --no-ol 
+option.
+
+.PP
+With 
+.B --indi,
+if the alignment
+contains posterior probability annotation (#=GR PP), the 
+.B postscript_output_file
+will contain an additional page for each sequence drawn with positions
+colored by the posterior probability of each aligned nucleotide.
+No posterior probability pages will be drawn if the 
+.B --no-pp
+option is used. 
+
+.B esl-ssdraw
+can also be used to draw 'mask' diagrams which color positions of the
+structure one of two colors depending on if they are included or
+excluded by a mask. This is enabled with the 
+.BI --mask-col " <f>"
+option. 
+.I <f> 
+must contain a single line of <rflen> characters, where <rflen> is the
+the number of nongap RF characters in the alignment. The line must
+contain only '0' and '1' characters. A '0' at position <x> of the
+string indicates position <x> is excluded from the mask, and a '1'
+indicates position <x> is included by the mask.
+A page comparing the overlap of the 
+.I <f> 
+mask from 
+.BI --mask-col
+and another mask in 
+.I <f2> 
+will be created if the 
+.BI --mask-diff " <f2>" 
+option is used.
+
+If the 
+.BI --mask " <f>"
+option is used, positions excluded by the mask in 
+.I <f>
+will be drawn differently (as open circles by default) than positions
+included by the mask. The style of the masked positions can be
+modified with the 
+.B --mask-u,
+.B --mask-x,
+and 
+.B --mask-a options. 
+
+Finally, two different types of input files can be used to customize
+output diagrams using the
+.B --dfile
+and
+.B --efile
+options, as described below.
+
+.SH INPUT
+
+The 
+.B postscript_template_file
+is a postscript file that must be in a very specific format in order for
+.B esl-ssdraw 
+to work. The specifics of the format, described below, are likely to change in future
+versions of 
+.B esl-ssdraw.
+The 
+.B postscript_output_file
+files generated by 
+.B esl-ssdraw
+will not be valid 
+.B postscript_template_file
+format (i.e. an output file from 
+.B esl-ssdraw
+cannot be used as an 
+.B postscript_template_file
+in a subsequent run of the program).
+
+An example 
+.B postscript_template_file
+('trna-ssdraw.ps') is included with the Easel distribution in
+the 'testsuite/' subdirectory of the top-level 'easel' directory.
+
+The
+.B postscript_template_file
+is a valid postscript file. It includes postscript commands for
+drawing a secondary structure. The commands specify x and y
+coordinates for placing each nucleotide on the page. The 
+.B postscript_template_file
+might also contain commands for drawing lines connecting basepaired
+positions and tick marks indicating every tenth position, though these
+are not required, as explained below. 
+
+If you are unfamiliar with the postscript language, it may be useful
+for you to know that a postscript page is, by default, 612 points wide
+and 792 points tall.
+The (0,0) coordinate of a postscript
+file is at the bottom left corner of the page, (0,792) is the top left,
+(612,0) is the bottom right, and (612,792) is the top right. 
+.B esl-ssdraw
+uses 8 point by 8 point cells for drawing positions of the consensus
+secondary structure. The 'scale' section of the
+.B postscript_template_file
+allows for different 'zoom levels', as described below.
+Also, it is important to know that postscript lines beginning with '%'
+are considered comments and do not include postscript commands.
+
+An 
+.B esl-ssdraw
+.B postscript_template_file
+contains n >= 1 pages, each specifying a consensus secondary structure
+diagram. Each page is delimited by a 'showpage' line in an 'ignore'
+section (as described below).
+.B esl-ssdraw
+will read all pages of the 
+.B postscript_template_file
+and then choose the appropriate one that corresponds with the
+alignment in 
+.B msafile 
+based on the consensus (nongap RF) length of the alignment. 
+For an alignment of consensus length <rflen>, the first
+page of
+.B postscript_template_file
+that has a structure diagram with consensus length <rflen> will be used
+as the template structure for the alignment.
+
+Each page of 
+.B postscript_template_file
+contains blocks of text organized into seven different possible
+sections. Each section must begin with a single line '% begin
+<sectionname>' and end with a single line '% end <sectionname>' and
+have n >= 1 lines in between. On the begin and end lines, there must
+be at least one space between the '%' and the 'begin'
+or 'end'. <sectionname> must be one of the
+following: 'modelname', 'legend', 'scale', 'regurgitate', 'ignore', 'text
+positiontext', 'text nucleotides', 'lines positionticks', or 'lines
+bpconnects'. The n >=1 lines in between the begin and end lines of
+each section must be in a specific format that differs for each
+section as described below.
+
+Importantly, each page must end with an 'ignore' section that includes
+a single line 'showpage' between the begin and end lines. This
+lets 
+.B esl-ssdraw
+know that a page has ended and another might follow.
+
+Each page of a 
+.B postscript_template_file
+must include a single 'modelname' section.
+This section  must include exactly one line in between its
+begin and end lines. This line must begin with a '%' character
+followed by a single space. The remainder of the line will be parsed
+as the model name and will appear on each page of 
+.B postscript_output_file
+in the header section. If the name is more than 16 characters, it will
+be truncated in the output.
+
+Each page of a 
+.B postscript_template_file
+must include a single 'legend' section.  This section must include
+exactly one line in between its begin and end lines. This line must be
+formatted as '% <d1> <f1> <f2> <d2> <f3>', where <d1> is an integer
+specifying the consensus position with relation to which the legend
+will be placed; <f1> and <f2> specify the x and y axis offsets for the
+top left corner of the legend relative to the x and y position of
+consensus position <d1>; <d2> specifies the size of a cell in the
+legend and <f3> specifies how many extra points should be between the
+right hand edge of the legend and the end of the page. the offset of
+the right hand end of the legend . For example, the line '% 34
+-40. -30. 12 0.' specfies that the legend be placed 40 points to the left
+and 30 points below the 34th consensus position, that cells
+appearing in the legend be squares of size 12 points by 12 points, and
+that the right hand side of the legend flush against the right hand
+edge of the printable page. 
+
+Each page of a 
+.B postscript_template_file
+must include a single 'scale' section.  This section must include
+exactly one line in between its begin and end lines. This line must be
+formatted as '<f1> <f2> scale', where <f1> and <f2> are both positive
+real numbers that are identical, for example '1.7 1.7 scale' is valid,
+but '1.7 2.7 scale' is not. This line is a valid postscript command
+which specifies the scale or zoom level on the pages in the output. If
+<f1> and <f2> are '1.0' the default scale is used for which the total
+size of the page is 612 points wide and 792 points tall. A scale of
+2.0 will reduce this to 306 points wide by 396 points tall. A scale of
+0.5 will increase it to 1224 points wide by 1584 points tall. A single
+cell corresponding to one position of the secondary structure is 8
+points by 8 points. For larger RNAs, a scale of less than 1.0 is
+appropriate (for example, SSU rRNA models (about 1500 nt) use a scale
+of about 0.6), and for smaller RNAs, a scale of more than 1.0 might be
+desirable (tRNA (about 70 nt) uses a scale of 1.7). The best way to
+determine the exact scale to use is trial and error.
+
+Each page of a 
+.B postscript_template_file
+can include n >= 0 'regurgitate' sections.
+These sections can include any number of lines. 
+The text in this section will not be parsed by
+.B esl-ssdraw
+but will be included in each page of 
+.B postscript_output_file.
+The format of the lines in this section must therefore be valid
+postscript commands. An example of content that might be in a 
+regurgitate section are commands to draw lines and text annotating the
+anticodon on a tRNA secondary structure diagram.
+
+Each page of a 
+.B postscript_template_file
+must include at least 1 'ignore' section.
+One of these sections must include a single line that
+reads 'showpage'. This section should be placed at the end of each
+page of the template file.  
+Other ignore sections can include any number of lines. 
+The text in these section will not be parsed by
+.B esl-ssdraw
+nor will it be included in each page of 
+.B postscript_output_file.
+An ignore section can contain comments or postscript commands that
+draw features of the
+.B postscript_template_file
+that are 
+unwanted in the 
+.B postscript_output_file.
+
+Each page of a 
+.B postscript_template_file
+must include a single 'text nucleotides' section. This section must
+include exactly <rflen> lines, indicating that the consensus secondary
+structure has exactly <rflen> nucleotide positions. Each line must be of
+the format '(<c>) <x> <y> moveto show' where <c> is a nucleotide (this
+can be any character actually), and <x> and <y> are the coordinates
+specifying the location of the nucleotide on the page, they should be
+positive real numbers. The best way to determine what these
+coordinates should be is manually by trial and error, by inspecting
+the resulting structure as you add each nucleotide. Note that
+.B esl-ssdraw
+will color an 8 point by 8 point cell for each position, so nucleotides
+should be placed about 8 points apart from each other.
+
+Each page of a 
+.B postscript_template_file
+may or may not include a single 'text positiontext' section. This section
+can include n >= 1 lines, each specifying text to be placed next to
+specific positions of the structure, for example, to number them.
+Each line must be of
+the format '(<s>) <x> <y> moveto show' where <s> is a string of text
+to place at coordinates (<x>,<y>) of the postscript page. 
+Currently, the best way to determine what these coordinates is
+manually by trial
+and error, by inspecting the resulting diagram as you add
+each line.
+
+Each page of a 
+.B postscript_template_file
+may or may not include a single 'lines positionticks' section. This section
+can include n >= 1 lines, each specifying the location of a tick mark
+on the diagram. Each line must be of
+the format '<x1> <y1> <x2> <y2> moveto show'. A tick mark (line of
+width 2.0) will be drawn from point (<x1>,<y1>) to point (<x2>,<y2>)
+on each page of
+.B postscript_output_file.
+Currently, the best way to determine what these coordinates should be
+is manually by trial and error, by inspecting the resulting diagram as
+you add each line.
+
+Each page of a 
+.B postscript_template_file
+may or may not include a single 'lines bpconnects' section. This section
+must include <nbp> lines, where <nbp> is the number of basepairs in
+the consensus structure of the input
+.B msafile
+annotated as #=GC SS_cons. Each line should connect two basepaired
+positions in the consensus structure diagram.
+Each line must be of
+the format '<x1> <y1> <x2> <y2> moveto show'. A line
+will be drawn from point (<x1>,<y1>) to point (<x2>,<y2>)
+on each page of
+.B postscript_output_file.
+Currently, the best way to determine what these coordinates should be
+is manually by trial and error, by inspecting the resulting diagram as
+you add each line. 
+
+.SH REQUIRED MEMORY 
+
+The memory required by 
+.B esl-ssdraw
+will be equal to roughly the larger of 2 Mb and 
+the size of the first alignment in
+.B msafile.
+If the 
+.B --small 
+option is used, the memory required will be independent of the
+alignment size. To use 
+.B --small
+the alignment must be in Pfam format, a non-interleaved (1 line/seq)
+version of Stockholm format. 
+
+If the 
+.B --indi
+option is used,
+the required memory may exceed the
+size of the alignment by up to ten-fold, and the output
+.B postscript_output_file 
+may be up to 50 times larger than the
+.B msafile.
+
+.SH OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -d 
+Draw the default set of alignment summary diagrams: consensus
+sequence, information content, mutual information, insert frequency,
+average insert length, deletion frequency, and average posterior
+probability (if posterior probability annotation exists in the
+alignment). These diagrams are also drawn by default (if zero command line
+options are used), but using the
+.B -d 
+option allows the user to add additional pages, such as individual
+aligned sequences with
+.B --indi.
+
+.TP 
+.BI --mask " <f>"
+Read the mask from file
+.I <f>,
+and draw positions differently in 
+.B postscript_output_file
+depending on whether they are included or excluded by the mask.
+.I <f>
+must contain a single line of length <rflen> with only '0' and '1'
+characters. <rflen> is the number of nongap characters in the
+reference (#=GC RF) annotation of the first alignment in 
+.B msafile
+A '0' at position <x> of the mask indicates position <x> is excluded
+by the mask, and a '1' indicates that position <x> is included by the mask.
+
+.TP 
+.B --small
+Operate in memory saving mode. Without
+.B --indi,
+required RAM will be independent of the
+size of the alignment in 
+.B msafile.
+With
+.B --indi, 
+the required RAM will be roughly ten times the size of the alignment
+in 
+.B msafile.
+For 
+.B --small
+to work, the alignment must be in
+Pfam Stockholm (non-interleaved 1 line/seq) format.
+
+.TP 
+.B --rf
+Add a page to 
+.B postscript_output_file 
+showing the reference sequence from the #=GC RF annotation in 
+.B msafile. 
+By default, basepaired nucleotides will be colored based on what type of
+basepair they are. To turn this off, use
+.B --no-bp.
+This page is drawn by default (if zero command-line options are used).
+
+.TP 
+.B --info
+Add a page to
+.B postscript_output_file
+with consensus (nongap RF) positions colored based on their
+information content from the alignment. 
+Information content is calculated as 2.0 - H, where H = sum_x p_x
+log_2 p_x for x in {A,C,G,U}. 
+This page is drawn by default (if zero command-line options are used).
+
+.TP 
+.B --mutinfo
+Add a page to
+.B postscript_output_file
+with basepaired consensus (nongap RF) positions colored based on the
+amount of mutual information they have in the alignment. Mutual
+information is sum_{x,y} p_{x,y} log_2 ((p_x * p_y) / p_{x,y}, where x
+and y are the four possible bases A,C,G,U. p_x is the fractions of
+aligned sequences that have nucleotide x of in the left half (5' half) of
+the basepair. p_y is the fraction of aligned sequences that have
+nucleotide y in the position corresponding to the right half (3' half) of
+the basepair. And p_{x,y} is the fraction of aligned sequences that 
+have basepair x:y. For all p_x, p_y and p{x,y} only sequences that 
+that have a nongap nucleotide at both the left and right half of the
+basepair are counted. 
+This page is drawn by default (if zero command-line options are used).
+
+.TP 
+.B --ifreq
+Add a page to
+.B postscript_output_file
+with each consensus (nongap RF) position colored based on the fraction of
+sequences that span each position that have at least 1 inserted
+nucleotide after the position. 
+A sequence s spans consensus position x that is actual alignment
+position a if s has at least one nongap nucleotide aligned to a position
+b <= a and at least one nongap nucleotide aligned to a consensus position
+c >= a. This page is drawn by default (if zero command-line options
+are used).
+
+.TP 
+.B --iavglen
+Add a page to
+.B postscript_output_file
+with each consensus (nongap RF) position colored based on average
+length of insertions that occur after it. The average is calculated as
+the total number of inserted nucleotides after position x, divided by the
+number of sequences that have at least 1 inserted nucleotide after
+position x (so the minimum possible average insert length is 1.0).
+
+.TP 
+.B --dall
+Add a page to
+.B postscript_output_file
+with each consensus (nongap RF) position colored based on the fraction of
+sequences that have a gap (delete) at the position.
+This page is drawn by default (if zero command-line options are used).
+
+.TP 
+.B --dint
+Add a page to
+.B postscript_output_file
+with each consensus (nongap RF) position colored based on the fraction of
+sequences that have an internal gap (delete) at the position. An
+internal gap in a sequence is one that occurs after (5' of) the
+sequence's first aligned nucleotide and after
+(3' of) the sequence's final aligned nucleotide.
+This page is drawn by default (if zero command-line options are used).
+
+.TP 
+.B --prob
+Add a page to
+.B postscript_output_file
+with positions colored based on average posterior probability (PP). The alignment
+must contain #=GR PP annotation for all sequences. PP annotation is
+converted to numerical PP values as follows: '*' = 0.975, '9' =
+0.90, '8' = 0.80, '7' = 0.70, '6' = 0.60, '5' = 0.50, '4' = 0.40, '3'
+= 0.30, '2' = 0.20, '1' = 0.10, '0' = 0.025.
+This page is drawn by default (if zero command-line options are used).
+
+.TP 
+.B --span
+Add a page to
+.B postscript_output_file
+with consensus (nongap RF) positions colored based on the
+fraction of sequences that 'span' the position. 
+A sequence s spans consensus position x that is actual alignment
+position a if s has at least one nongap nucleotide aligned to a position
+b <= a and at least one nongap nucleotide aligned to a consensus position
+c >= a. This page is drawn by default (if zero command-line options
+are used).
+
+.SH OPTIONS FOR DRAWING INDIVIDUAL ALIGNED SEQUENCES
+
+.TP 
+.B --indi
+Add a page displaying the aligned nucleotides in their corresponding
+consensus positions of the structure diagram for each aligned
+sequence in the alignment. 
+By default, basepaired nucleotides will be colored based on what type of
+basepair they are. To turn this off, use
+.B --no-bp.
+If posterior probability information (#=GR
+PP) exists in the alignment, one additional page per sequence will be
+drawn displaying the posterior probabilities.
+
+.TP
+.B -f
+With 
+.B --indi,
+force 
+.B esl-ssdraw
+to create a diagram, even if it is predicted to be large (> 100 Mb).
+By default, if the predicted size exceeds 100 Mb, 
+.B esl-ssdraw
+will fail with a warning. 
+
+.SH OPTIONS FOR OMITTING PARTS OF THE DIAGRAMS
+
+.TP
+.BI --no-leg
+Omit the legend on all pages of 
+.B postscript_output_file.
+
+.TP
+.BI --no-head
+Omit the header on all pages of 
+.B postscript_output_file.
+
+.TP
+.BI --no-foot
+Omit the footer on all pages of 
+.B postscript_output_file.
+
+.SH OPTIONS FOR SIMPLE TWO-COLOR MASK DIAGRAMS
+
+.TP
+.B --mask-col 
+With
+.B --mask,
+.B postscript_output_file
+will contain exactly 1 page showing positions included by the mask as 
+black squares, and positions excluded as pink squares.
+
+.TP
+.BI --mask-diff " <f>"
+With
+.BI --mask  " <f2>"
+and
+.B mask-col,
+.B postscript_output_file
+will contain one additional page comparing the mask from 
+.I <f>
+and the mask from
+.I <f2>.
+Positions will be colored based on whether they are included by one
+mask and not the other, excluded by both masks, and included by both
+masks.
+
+.SH EXPERT OPTIONS FOR CONTROLLING INDIVIDUAL SEQUENCE DIAGRAMS
+
+.TP
+.B --no-pp
+When used in combination with 
+.B --indi,
+do not draw posterior probability structure diagrams for each
+sequence, even if the alignment has PP annotation.
+
+.TP
+.B --no-bp
+Do not color basepaired nucleotides based on their basepair type.
+
+.TP
+.B --no-ol
+When used in combination with 
+.B --indi,
+do not outline nucleotides that differ from the majority rule
+consensus nucleotide given the alignment.
+
+.TP
+.B --no-ntpp
+When used in combination with 
+.B --indi,
+do not draw nucleotides on the individual sequence posterior
+probability diagrams.
+
+.SH EXPERT OPTIONS RELATED TO CONSENSUS SEQUENCE DEFINITION
+
+.TP
+.B --no-cnt
+Do not draw consensus nucleotides on alignment statistic diagrams (such as
+information content diagrams). By default, the consensus nucleotide is
+defined as the most frequent nucleotide in the alignment at the
+corresponding position. Consensus nucleotides that occur in at least
+.I <x>
+fraction of the aligned sequences (that do not contain a gap at the
+position) are capitalized. By default 
+.I <x>
+is 0.75, but can be changed with the 
+.BI --cthresh " <x>"
+option. 
+
+.TP
+.BI --cthresh " <x>"
+Specify the threshold for capitalizing consensus nucleotides defined by
+the majority rule (i.e. when 
+.B --cambig
+is not enabled) as 
+.I <x>.
+
+.TP
+.B --cambig
+Change how consensus nucleotides are calculated from majority rule to
+the least ambiguous IUPAC nucleotide that represents at least
+.I <x>
+fraction of the nongap nucleotides at each consensus position. 
+By default 
+.I <x>
+is 0.9, but can be changed with the 
+.BI --athresh " <x>"
+option. 
+
+.TP
+.BI --athresh " <x>"
+With
+.B --cambig,
+specify the threshold for defining consensus nucleotides
+is the least ambiguous IUPAC nucleotide that represents at least
+.I <x>
+fraction of the nongap nucleotides at each position.
+
+.SH EXPERT OPTIONS CONTROLLING STYLE OF MASKING POSITIONS
+
+.TP
+.B --mask-u
+With 
+.B --mask, 
+change the style of masked columns to squares.
+
+.TP
+.B --mask-x
+With 
+.B --mask, 
+change the style of masked columns to 'x's
+
+.TP
+.B --mask-a
+With 
+.B --mask
+and
+.B --mask-u
+or
+.B --mask-x
+draw the alternative style of square or 'x' masks
+
+.SH EXPERT OPTIONS RELATED TO INPUT FILES
+
+.TP
+.BI --dfile " <f>"
+Read the 'draw file'
+.I <f>
+which specifies numerical values for each consensus position in one or
+more postscript pages.  For each page, the draw file must include
+<rflen>+3 lines (<rflen> is defined in the DESCRIPTION section). The first three lines are special. The following
+<rflen> 'value lines' each must contain a single number, the numerical
+value for the corresponding position.  The first of the three special
+lines defines the 'description' for the page. This should be text that
+describes what the numerical values refer to for the page. The maximum
+allowable length is roughly 50 characters (the exact maximum
+length depends on the template file and the program will report an
+informative error message upon execution if it is exceeded). The
+second special line defines the 'legend header' line that which will
+appear immediately above the legend. It has a maximum allowable length
+of about 30 characters.  The third special line per page must contain
+exactly 7 numbers, which must be in increasing order, each separated
+by a space. 
+These numbers
+define the numerical ranges for the six different colors used to draw
+the consensus positions on the page. 
+The first number defines the minimum value for the first color
+(blue) and must be less than or equal to the minimum
+value from the value lines. The second number defines the minimum
+value for the second color (turquoise). The third, fourth, fifth and
+sixth numbers define the minimum values for the third, fourth, fifth
+and sixth colors (light green, yellow, orange, red), and the seventh
+final number defines the maximum value for red and must be equal to
+or greater than the maximum value from the value lines. 
+After the <rflen> value lines, there must exist a special line with
+only '//', signifying the end of a page.
+The draw file 
+.I <f>
+must end with this special '//' line, even if it only includes a
+single page. A draw file specifying <n> pages should include exactly
+<n> * (<rflen> + 4) lines.
+
+.TP
+.BI --efile " <f>"
+Read the 'expert draw file'
+.I <f>
+which specifies the colors and nucleotides to draw on each consensus
+position in one or more postscript pages. Unlike with the 
+.B --dfile
+option, no legend will be drawn when
+.B --efile 
+is used.
+For each page, the draw file must include <rflen> lines, each with four
+or five tab-delimited tokens. The first four tokens on line <x>
+specify the color to paint position <x> and must be real numbers
+between 0 and 1. The four numbers specify the cyan, magenta, yellow
+and black values, respectively, in the CMYK color scheme for the
+postscript file. The fifth token on line <x> specifies which nucleotide
+to write on position <x> (on top of the colored background). If the
+fifth token does not exist, no nucleotide will be written. 
+After the <rflen> lines, there must exist a special line with
+only '//', signifying the end of a page.
+The expert draw file 
+.I <f>
+must end with this special '//' line, even if it only includes a
+single page. A expert draw file specifying <n> pages should include exactly
+<n> * (<rflen> + 1) lines.
+
+.TP
+.BI --ifile " <f>"
+Read insert information from the file
+.I <f>,
+which may have been created with INFERNAL's
+.B cmalign
+program. The insert information in 
+.B msafile
+will be ignored and the information from
+.I <f>
+will supersede it. Inserts are columns that are gaps in the reference
+(#=GC RF) annotation. 
+
+.SH AUTHOR
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-stranslate.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-stranslate.c
new file mode 100755
index 0000000..7586efc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-stranslate.c
@@ -0,0 +1,96 @@
+/* Generate the 6 protein sequences from the reading frames of a nucleotide sequence
+ *
+ * WMA, Fri Mar 29 10:12 am 2013 [Janelia]
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "esl_translate.h"
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             1 },
+  { "-r",        eslARG_INT,    "15",     NULL, "n>0", NULL,  NULL, NULL, "minimum size of orf to report",                    1 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <file>";
+static char banner[] = "translate reading frames of a sequence";
+
+static void
+cmdline_failure(char *argv0, char *format, ...)
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  exit(0);
+}
+
+int main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = NULL; 
+  char           *filename = NULL;
+  ESL_SQFILE   *sqfp       = NULL;
+  ESL_SQ        *sq        = NULL;
+  int             i;
+  ESL_SQ        **prot;
+  int             p_count;
+  int min; 
+
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in app configuration: %s\n",   go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help(argv[0], go);
+  if (esl_opt_ArgNumber(go) != 1)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");
+  min = esl_opt_GetInteger(go, "-r");
+    
+  filename = esl_opt_GetArg(go, 1);
+
+  if(esl_sqfile_Open(filename, eslSQFILE_FASTA, NULL, &sqfp) != eslOK) esl_fatal("could not open sequence file");
+  if((sq = esl_sq_Create()) == NULL) esl_fatal("allocation failed");
+  if(esl_sqio_Read(sqfp, sq) != eslOK) esl_fatal("could not read sequence file");
+      
+  if(esl_trans_orf(sq, &prot, &p_count, min) != eslOK) esl_fatal("translation failed");
+      
+  for(i = 0; i < p_count; i++)
+  {
+    esl_sqio_Write(stdout, prot[i], eslSQFILE_FASTA, 0);
+    esl_sq_Destroy(prot[i]);
+  }
+  free(prot);
+  
+   esl_getopts_Destroy(go);
+   return 0;
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *****************************************************************/ 
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-weight.c b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-weight.c
new file mode 100755
index 0000000..d31944f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-weight.c
@@ -0,0 +1,148 @@
+/* Assigns sequence weights to an MSA.
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+#include "esl_random.h"
+
+#define WGTOPTS "-g,-p,-b,-f"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env    range toggles reqs  incomp               help                                     docgroup*/
+  { "-h",         eslARG_NONE,   FALSE, NULL,     NULL,   NULL,NULL,   NULL,          "show brief help on version and usage",        1 },
+  { "-g",         eslARG_NONE,"default",NULL,     NULL,WGTOPTS,NULL,   NULL,          "Gerstein/Sonnhammer/Chothia tree weights",    1 },
+  { "-p",         eslARG_NONE,   FALSE, NULL,     NULL,WGTOPTS,NULL,   NULL,          "Henikoff position-based weights",             1 },
+  { "-b",         eslARG_NONE,   FALSE, NULL,     NULL,WGTOPTS,NULL,   NULL,          "Henikoff simple filter weights",              1 },
+  { "-f",         eslARG_NONE,   FALSE, NULL,     NULL,WGTOPTS,NULL,   NULL,          "filter out seqs by fractional identity",      1 },
+  { "-o",         eslARG_OUTFILE, NULL, NULL,     NULL,   NULL,NULL,   NULL,          "send output to file <f>, not stdout",         1 },
+  { "--id",       eslARG_REAL,  "0.62", NULL,"0<=x<=1",   NULL,"-b",   NULL,          "for -b: set identity cutoff",                 1 },
+  { "--idf",      eslARG_REAL,  "0.80", NULL,"0<=x<=1",   NULL,"-f",   NULL,          "for -f: set identity cutoff",                 1 },
+  { "--informat", eslARG_STRING, FALSE, NULL,     NULL,   NULL,NULL,   NULL,          "specify that input file is in format <s>",    1 },
+  { "--amino",    eslARG_NONE,   FALSE, NULL,     NULL,   NULL,NULL,"--dna,--rna",    "<msa file> contains protein alignments",      1 },
+  { "--dna",      eslARG_NONE,   FALSE, NULL,     NULL,   NULL,NULL,"--amino,--rna",  "<msa file> contains DNA alignments",          1 },
+  { "--rna",      eslARG_NONE,   FALSE, NULL,     NULL,   NULL,NULL,"--amino,--dna",  "<msa file> contains RNA alignments",          1 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msa file>";
+static char banner[] = "calculate sequence weights for an alignment";
+
+static void
+cmdline_failure(char *argv0, ESL_GETOPTS *go, char *format, ...)
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  puts("\n options:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  /* printf("\nTo see more help on available options, do %s -h\n\n", argv0); */
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n options:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  exit(0);
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = NULL; 
+  char           *msafile  = NULL;
+  int             fmt      = eslMSAFILE_UNKNOWN;
+  ESL_ALPHABET   *abc      = NULL;
+  ESLX_MSAFILE   *afp      = NULL;
+  ESL_MSA        *msa      = NULL;
+  int             status;
+  FILE           *ofp;	   /* output stream       */
+
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], go, "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], go, "Error in app configuration: %s\n",   go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) != 1)                      cmdline_failure(argv[0], go, "Incorrect number of command line arguments.\n");
+  msafile = esl_opt_GetArg(go, 1);
+
+  if (esl_opt_IsOn(go, "--informat")) {
+    fmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (fmt == eslMSAFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat", esl_opt_GetString(go, "--informat")); 
+  }
+
+  ofp = (esl_opt_GetString (go, "-o") == NULL ? stdout : fopen(esl_opt_GetString(go, "-o"), "w"));
+  if (! ofp)  esl_fatal("Failed to open output file %s\n", esl_opt_GetString(go, "-o"));
+
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+  
+  if ((status = eslx_msafile_Open(&abc, msafile, NULL, fmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+
+  while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+      if       (esl_opt_GetBoolean(go, "-f")) 
+	{
+	  ESL_MSA *fmsa;
+	  status = esl_msaweight_IDFilter(msa, esl_opt_GetReal(go, "--idf"), &fmsa);
+	  eslx_msafile_Write(ofp, fmsa, eslMSAFILE_STOCKHOLM); 
+	  if (fmsa != NULL) esl_msa_Destroy(fmsa);
+	}
+      else if  (esl_opt_GetBoolean(go, "-g"))
+	{ 
+	  status = esl_msaweight_GSC(msa);                                 
+	  eslx_msafile_Write(ofp, msa, eslMSAFILE_STOCKHOLM);
+	} 
+      else if  (esl_opt_GetBoolean(go, "-p")) 
+	{
+	  status = esl_msaweight_PB(msa);                                  
+	  eslx_msafile_Write(ofp, msa, eslMSAFILE_STOCKHOLM);
+	} 
+      else if  (esl_opt_GetBoolean(go, "-b"))
+	{ 
+	  status = esl_msaweight_BLOSUM(msa, esl_opt_GetReal(go, "--id")); 
+ 	  eslx_msafile_Write(ofp, msa, eslMSAFILE_STOCKHOLM);
+	} 
+     else     esl_fatal("internal error: no weighting algorithm selected");
+      if (status != eslOK) esl_fatal("Failed to calculate weights for msa %s", msa->name);
+      
+      esl_msa_Destroy(msa);
+    }
+
+  esl_alphabet_Destroy(abc);
+  eslx_msafile_Close(afp);
+  if (ofp != stdout) fclose(ofp); 
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+
+/*****************************************************************
+ * Easel - a library of C functions for biological sequence analysis
+ * Version h3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * Easel is distributed under the Janelia Farm Software License, a BSD
+ * license. See the LICENSE file for more details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/miniapps/esl-weight.c $
+ * SVN $Id: esl-weight.c 732 2011-11-11 15:11:13Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-weight.man b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-weight.man
new file mode 100755
index 0000000..395098e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/miniapps/esl-weight.man
@@ -0,0 +1,111 @@
+.TH "esl-weight" 1  "@RELEASEDATE@" "@PACKAGE@ @RELEASE@" "@PACKAGE@ Manual"
+
+.SH NAME
+.TP
+esl-weight - calculate sequence weights in MSA(s)
+
+.SH SYNOPSIS
+
+.B esl-weight
+.I [options]
+.I msafile
+
+.SH DESCRIPTION
+
+.pp
+.B esl-weight
+calculates individual sequence weights for each alignment in 
+.I msafile,
+and outputs a new 
+multiple sequence alignment file in Stockholm format with
+the weights annotated in Stockholm-format 
+.I #=GS <seqname> WT <weight>
+lines.
+The default weighting algorithm is the Gerstein/Sonnhammer/Chothia
+algorithm.
+
+.pp
+If 
+.I msafile
+is - (a single dash),
+MSA input is read from
+.I stdin.
+
+
+
+.pp
+The sequences can be of protein or DNA/RNA sequences. All sequences
+in the same 
+.I seqfile
+must be either protein or DNA/RNA. The alphabet will be autodetected
+unless one of the options 
+.I --amino,
+.I --dna,
+or 
+.I --rna 
+are given. These options may be useful in automated
+pipelines to make 
+.B esl-weight
+more robust; alphabet autodetection is not infallible.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h 
+Print brief help;  includes version number and summary of
+all options, including expert options.
+
+.TP
+.B -g
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm; this is the
+default.
+
+.TP
+.B -p
+Use the Henikoff position-based weighting algorithm.
+
+.TP
+.B -b
+"BLOSUM weights": use approximately the same rule used in constructing
+the BLOSUM score matrices. This involves single-linkage clustering at
+some fractional identity threshold (default 0.62; see 
+.I --id 
+option), then for each cluster, splitting a total weight of one
+uniformly amongst all sequences in the cluster.
+
+.SH EXPERT OPTIONS
+
+.TP 
+.BI --id " <x>"
+Sets the fractional identity threshold used by the BLOSUM weighting
+rule (option 
+.I -b
+; required), to a number 0<=x<=1. Default is 0.62.
+
+.TP
+.B --amino
+Assert that the 
+.I msafile 
+contains protein sequences. 
+
+.TP 
+.B --dna
+Assert that the 
+.I msafile 
+contains DNA sequences. 
+
+.TP 
+.B --rna
+Assert that the 
+.I msafile 
+contains RNA sequences. 
+
+.SH AUTHOR
+
+Easel and its documentation are @EASEL_COPYRIGHT@.
+@EASEL_LICENSE@.
+See COPYING in the source code distribution for more details.
+The Easel home page is: @EASEL_URL@
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/Makefile.in
new file mode 100755
index 0000000..8c684cd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/Makefile.in
@@ -0,0 +1,73 @@
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ @top_srcdir@
+SHELL      = /bin/sh
+
+CC         = @CC@
+CFLAGS     = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+CPPFLAGS   = @CPPFLAGS@
+LDFLAGS    = @LDFLAGS@
+SIMDFLAGS  = @SIMD_CFLAGS@
+DEFS       = @DEFS@
+LIBS       = @LIBGSL@ @LIBS@ -lm
+MPILIBS    = @MPILIBS@
+
+SQCLEVEL = 2
+
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR  $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: check dcheck clean distclean
+
+check:
+	@echo 
+	@echo Running Easel test suite...
+	@echo
+	@${srcdir}/../devkit/sqc ${SQCLEVEL} ${srcdir}/testsuite.sqc .. ${srcdir}/..
+
+dcheck: 
+	@echo    Running developer testsuite...
+	@echo -n Running unit tests...
+	@${srcdir}/../devkit/sqc ${SQCLEVEL} ${srcdir}/testsuite.sqc .. ${srcdir}/..  >  utest.report
+	@echo    done. [See utest.report]
+	@echo -n Testing that all drivers compile...
+	@env CC="${CC}" CFLAGS="${CFLAGS}" ./driver_report.pl       >  driver.report
+	@echo    done. [See driver.report]
+	@echo -n Measuring test code coverage...
+	@env CC="${CC}" CFLAGS="${CFLAGS}" ./coverage_report.pl     >  coverage.report
+	@echo    done. [See coverage.report]
+	@echo -n Looking for memory leaks...
+	@env CC="${CC}" CFLAGS="${CFLAGS}" ./valgrind_report.pl     >  valgrind.report
+	@echo    done. [See valgrind.report]
+	@cat driver.report coverage.report valgrind.report utest.report > dcheck.report
+	@echo
+	@echo    Finished developer testsuite.
+	@echo    For a complete report, see dcheck.report.
+
+clean:
+	-rm -f *.gcno *.gcda *.gcov
+	-rm -f esltmp??????
+	-rm -f *.o *~ 
+	-rm -f driver.report coverage.report valgrind.report utest.report
+	-rm -f ${PROGS} 
+
+distclean: clean
+	rm Makefile
+
+################################################################
+# Easel - a library of C functions for biological sequence analysis
+# Version h3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# Easel is distributed under the Janelia Farm Software License, a BSD
+# license. See the LICENSE file for more details.
+################################################################
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/coverage_report.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/coverage_report.pl
new file mode 100755
index 0000000..9c77791
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/coverage_report.pl
@@ -0,0 +1,117 @@
+#! /usr/bin/perl
+
+# Measures testsuite coverage (as percentage of source lines),
+# using gcov.
+#
+# Usage: from testsuite directory:
+#    ./coverage_report.pl
+#
+# This assumes you've already compiled the library. To recompile
+# from scratch, do 
+#    ./coverage_report.pl -c
+#
+# It assumes you have 'sloccount' installed, so it can count 
+# ANSI C lines in files with no test driver. If you don't, use
+#    ./coverage_report.pl -s
+#
+# SRE, Thu Mar  1 19:22:57 2007 (Janelia)
+# SVN $Id: coverage_report.pl 231 2008-03-25 14:43:57Z eddys $
+require  "getopts.pl";
+$have_sloccount = 1;
+&Getopts('cs');
+if ($opt_c) { $do_recompile     = 1; }
+if ($opt_s) { $have_sloccount   = 0; }
+
+if ($ENV{'CC'}     ne "") { $CC     = $ENV{'CC'};  } else { $CC       = "gcc"; } 
+$CFLAGS = "-g -Wall -fprofile-arcs -ftest-coverage";
+
+printf("Code coverage test for Easel, using gcov:\n\n");
+
+if ($do_recompile) { 
+    print("Recompiling...      ");
+    `(cd ..; make clean > /dev/null)`;                 if ($? != 0) { print "[make clean failed]\n"; exit; }
+    `(cd ..; ./configure --enable-gcov > /dev/null)`;  if ($? != 0) { print "[configure failed]\n"; exit; }
+    `(cd ..; make > /dev/null)`;                       if ($? != 0) { print "[make failed]\n"; exit; }
+    print "ok.\n\n";
+}
+
+
+@modules = <../esl_*.c>;
+unshift(@modules, "../easel.c");
+
+$nmodules       = 0;
+$npresent       = 0;
+$ncompiled      = 0;
+$nsuccess       = 0;
+$nlines         = 0;
+$nlines_covered = 0;
+foreach $module (@modules) {
+    $module =~ /^\.\.\/(\S+)/; 
+    $basecfile = $1;
+    $nmodules++;
+
+    # create the eslDMATRIX_TESTDRIVE flag and dmatrix_utest program name from esl_dmatrix.c
+    if ($module =~ /^\.\.\/(esl_)?(\S+).c/) { 
+	$base     = $2;
+	$progname = $base."_utest";
+	$base     =~ tr/a-z/A-Z/;
+	$flag     = "esl".$base."_TESTDRIVE";
+    }
+
+    printf("%-20s ", $basecfile);
+
+    # one way to fail: there isn't a test driver at all
+    `grep $flag $module`;
+    if ($? != 0) { printf("%6.2f%% coverage  [driver ABSENT]\n", 0);  push @nodriverlist, $module; next; }
+    $npresent++;
+
+    `$CC $CFLAGS -I.. -L.. -o $progname -D$flag $module -leasel -lm  >& /dev/null`;
+    if ($? != 0) { printf("%6.2f%% coverage   [compilation FAILED]\n", 0);       next; };
+    $ncompiled++;
+    
+    `./$progname >& /dev/null`;
+    if ($? != 0) { printf("%6.2f%% coverage   [test driver FAILED ]\n", 0);       next; };
+    $nsuccess++;
+
+    $output = `gcov $module`;
+    if ($output =~ /File.*$module.*\nLines executed:\s*(\d+\.\d+)% of\s+(\d+)/) {
+	$pct_cvg        = $1;
+	$nlines         += $2;
+	$nlines_covered += $1*$2/100;
+	printf("%6.2f%% coverage\n", $pct_cvg);
+    }
+    else {die "failed to parse gcov output";}
+}
+
+if ($have_sloccount) {
+    foreach $badmodule (@nodriverlist) {
+	$output = `sloccount $badmodule`;
+	if ($output =~ /ansic:\s+(\d+)/)  { $nlines_nodrivers += $1; }
+	else { die("failed to parse sloccount output"); }
+    }
+}
+
+printf("\nOf %d total modules in Easel:\n", $nmodules);
+if ($npresent != $nmodules) {
+    printf("   - %d have test drivers, %d do not\n", $npresent, $nmodules-$npresent);
+} else {
+    printf("   - All %d have test drivers\n", $npresent);
+}
+if ($ncompiled != $npresent) {
+    printf("   - %d compiled, %d did not\n", $ncompiled, $npresent-$ncompiled);
+} else {
+    printf("   - All %d compiled\n", $ncompiled);
+}
+if ($nsuccess != $ncompiled) {
+    printf("   - %d ran successfully, %d did not\n", $nsuccess, $ncompiled-$nsuccess);
+} else {
+    printf("   - All %d ran successfully\n", $nsuccess);
+}
+
+print "\n";
+  printf("Total coverage (of .c's with test drivers): %.2f%%\n", 100.*$nlines_covered / $nlines);
+if ($have_sloccount) {
+    printf("Total coverage (including .c files without drivers yet): %.2f%%\n", 100.*$nlines_covered / ($nlines+$nlines_nodrivers));
+}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/driver_report.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/driver_report.pl
new file mode 100755
index 0000000..0a7441b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/driver_report.pl
@@ -0,0 +1,121 @@
+#! /usr/bin/perl
+
+# Make sure that all drivers compile.
+# (Eventually, we should also make sure they run! But that 
+# means tracking their command-line arguments.)
+#
+# In all easel modules, we look for lines like
+#   #ifdef eslFOO_(EXAMPLE|TESTDRIVE|REGRESSION|BENCHMARK|STATS)*
+# that precede one or more example main()'s, then we compile the
+# module with that #define.
+#
+# Usage: from testsuite directory:
+#    ./driver_report.pl
+# 
+# This assumes you've already compiled the library. To recompile
+# from scratch, do 
+#    ./driver_report.pl -c
+#
+# Some regression tests run against the old squid library.
+# squid must be installed and compiled; all drivers are linked
+# against -lsquid.
+# The path to squid's headers and libraries is assumed to be ~/src/squid.
+# This location can be overridden by setting SQUIDSRC in the environment.
+# 
+# SRE, Fri Mar  2 10:01:44 2007 (Janelia)
+# SVN $Id: driver_report.pl 664 2011-02-27 17:08:36Z eddys $
+
+require  "getopts.pl";
+&Getopts('c');
+if ($opt_c) { $do_recompile = 1; }
+
+if ($ENV{'CC'}       ne "") { $CC       = $ENV{'CC'};       } else { $CC        = "gcc"; } 
+if ($ENV{'CFLAGS'}   ne "") { $CFLAGS   = $ENV{'CFLAGS'};   } else { $CFLAGS    = "-g -Wall"; }
+if ($ENV{'SQUIDSRC'} ne "") { $SQUIDSRC = $ENV{'SQUIDSRC'}; } else { $SQUIDSRC  = "/groups/eddys/home/eddys/src/squid"; }
+$progname = "drivertest";
+
+
+print("Driver code compilation test for Easel:\n");
+print("(Compiling with $CC $CFLAGS -L$SQUIDSRC -I$SQUIDSRC)\n\n");
+
+
+if ($do_recompile) {
+    print("Recompiling...      ");
+    `(cd ..; make clean > /dev/null)`;                      if ($? != 0) { print "[make clean failed]\n"; exit; }
+    `(cd ..; ./configure --enable-debugging > /dev/null)`;  if ($? != 0) { print "[configure failed]\n"; exit; }
+    `(cd ..; make > /dev/null)`;                            if ($? != 0) { print "[make failed]\n"; exit; }
+    print "ok.\n\n";
+}
+
+@modules = <../esl_*.c>;
+unshift(@modules, "../easel.c");
+
+$nmodules     = 0;
+$ndrivers     = 0;
+$nfailures    = 0;
+$no_testdriver= 0;
+$no_example   = 0;
+foreach $module (@modules) {
+    $module =~ /^\.\.\/(\S+)/; 
+    $basecfile = $1;
+    $nmodules++;
+    printf("%-20s ", $basecfile);
+    
+
+
+    open(DRIVERFLAGS, qq/grep -E "#ifdef esl.*_(EXAMPLE|TESTDRIVE|REGRESSION|BENCHMARK|STATS)" $module | /) || die;
+    $has_example = $has_testdriver = 0;
+    $n = 0;
+    while (<DRIVERFLAGS>) {
+	/^#ifdef (esl\S+_(EXAMPLE|TESTDRIVE|REGRESSION|BENCHMARK|STATS)\d*)/;
+	$flag = $1;
+	$type = $2;
+	if ($saw_flag{$flag}) { next; }
+
+	if ($type eq "EXAMPLE")   { $has_example    = 1; }
+	if ($type eq "TESTDRIVE") { $has_testdriver = 1; }
+
+	if ($n == 0) { printf("%-30s ", $flag); }
+	else         { printf("%20s %-30s ", "", $flag); }
+	$n++;
+	$ndrivers++;
+
+        `$CC $CFLAGS -I.. -L.. -L$SQUIDSRC -I$SQUIDSRC -o drivertest -D$flag $module -leasel -lsquid -lm  >& /dev/null`;
+ 	if ($? != 0) { print("[FAILED]\n"); $nfailures++; }
+	else         { print("ok.\n"); }
+	$saw_flag{$flag} = 1;
+    }
+    if ($n == 0) { print "[NO DRIVERS PRESENT]\n"; }
+    close DRIVERFLAGS;
+
+    if (! $has_testdriver) { push @notestdrivelist, $module; $no_testdriver++;}
+    if (! $has_example)    { push @noexamplelist,   $module; $no_example++;   } 
+}
+
+printf("\nOf %d total modules in Easel:\n", $nmodules);
+
+if ($no_example == 0) { 
+    printf("   - All %d have at least one example main()\n", $nmodules);
+} else {
+    printf("   - %d do not have an example main()\n", $no_example);
+    foreach $module (@noexamplelist) {
+	printf("        %s\n", $module);
+    }
+}
+if ($no_testdriver == 0) { 
+    printf("   - All %d have at least one test driver main()\n", $nmodules);
+} else {
+    printf("   - %d do not have a test driver main()\n", $no_testdriver);
+    foreach $module (@notestdrivelist) {
+	printf("        %s\n", $module);
+    }
+}
+
+print "\n";
+if ($nfailures == 0) {
+    printf("All of the %d driver main()'s compile successfully\n", $ndrivers);
+} else {
+    printf("%d of the %d driver main()'s fail to compile\n", $nfailures, $ndrivers);
+}
+
+unlink $progname;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/e2.sh b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/e2.sh
new file mode 100755
index 0000000..005ed41
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/e2.sh
@@ -0,0 +1,37 @@
+#! /bin/sh
+
+# Usage:    ./e2.sh <esl-seqstat> <stockholm file>
+# Example:  ./e2.sh ../miniapps/esl-seqstat ../formats/stockholm.1
+#
+# This tests that                 % cat foo.sto | esl-seqstat -
+# produces an error message:      Format of seqfile - unrecognized.
+# whereas                         % cat foo.sto | esl-seqstat --informat stockholm -
+# succeeds
+
+prog=$1
+alifile=$2
+
+output=`cat $alifile | $prog - 2>&1 | head -n 1 | grep -c "^Format of seqfile - unrecognized."`
+if test "$output" = 0 
+then 
+   echo "FAIL"
+   exit 1
+fi
+
+output=`cat $alifile | $prog --informat stockholm - 2>&1`
+if test $? -gt 0 
+then 
+   echo "FAIL"
+   exit 1
+fi
+
+
+echo "ok"
+exit 0
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i1-degen-residues.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i1-degen-residues.pl
new file mode 100755
index 0000000..4bba919
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i1-degen-residues.pl
@@ -0,0 +1,97 @@
+#! /usr/bin/perl
+
+# Integration tests of reading all valid protein sequence residue characters.
+#
+# Usage:    ./i1-degen-residues.pl <top_builddir> <top_srcdir> <tmpfile prefix>
+# Example:  ./i1-degen-residues.pl .. .. foo
+#
+# SRE, Tue Feb  2 13:09:58 2010 [Janelia]
+# SVN $Id: i1-degen-residues.pl 715 2011-08-03 21:04:24Z eddys $
+
+$top_builddir = shift;
+$top_srcdir   = shift;
+$tmppfx       = shift;
+
+# Make sure that any files/executables we need to access are present.
+if (! -x "$top_builddir/miniapps/esl-reformat") { die "FAIL: esl-reformat not found in $top_builddir/miniapps\n"; }
+if (! -x "$top_builddir/miniapps/esl-shuffle")  { die "FAIL: esl-shuffle not found in $top_builddir/miniapps\n"; }
+if (! -x "$top_builddir/miniapps/esl-sfetch")   { die "FAIL: esl-sfetch not found in $top_builddir/miniapps\n"; }
+if (! -x "$top_builddir/miniapps/esl-seqstat")  { die "FAIL: esl-seqstat not found in $top_builddir/miniapps\n"; }
+
+$reformat = "$top_builddir/miniapps/esl-reformat";
+$shuffle  = "$top_builddir/miniapps/esl-shuffle";
+$sfetch   = "$top_builddir/miniapps/esl-sfetch";
+$seqstat  = "$top_builddir/miniapps/esl-seqstat";
+
+# Create test amino acid and sequence files.
+if (! open(DNAFP, ">$tmppfx.dna")) { print "FAIL: couldn't open $tmppfx.dna for writing"; exit 1;  }
+if (! open(AAFP,  ">$tmppfx.aa"))  { print "FAIL: couldn't open $tmppfx.aa for writing";  exit 1;  }
+if (! open(BADFP, ">$tmppfx.bad")) { print "FAIL: couldn't open $tmppfx.bad for writing"; exit 1;  }
+
+print AAFP <<"EOF";
+>test
+ACDEFGHIKLMNPQRSTVWYBJZOUX*acdefghiklmnpqrstvwybjzoux
+EOF
+
+print DNAFP <<"EOF";
+>test
+ACGTRYMKSWHBVDN*acgtrymkswhbvdn*
+EOF
+
+print BADFP <<"EOF";
+>test
+ACGTRYMKSWHBVDN%acgtrymkswhbvdn%
+EOF
+
+# esl-reformat tests
+system("$reformat fasta $tmppfx.dna > $tmppfx.out 2>&1"); if ($? != 0) {  print "FAIL: reformat failed on .dna test\n"; exit 1; }
+system("diff $tmppfx.dna $tmppfx.out > /dev/null  2>&1"); if ($? != 0) {  print "FAIL: reformat changed .dna test\n";   exit 1; }
+
+system("$reformat fasta $tmppfx.aa > $tmppfx.out  2>&1"); if ($? != 0) {  print "FAIL: reformat failed on .aa test\n";  exit 1; }
+system("diff $tmppfx.aa $tmppfx.out > /dev/null   2>&1"); if ($? != 0) {  print "FAIL: reformat changed .aa test\n";    exit 1; }
+
+$output = `$reformat fasta $tmppfx.bad 2>&1`;             if ($? == 0) {  print "FAIL: reformat should have failed on .bad test\n";  exit 1; }
+if (! $output =~ /Illegal character %/) { print "FAIL: reformat should have found illegal % in .bad test\n"; exit 1; }
+
+# esl-seqstat tests
+$output = `$seqstat --dna $tmppfx.dna 2>&1`;   if ($? != 0)  {  print "FAIL: seqstat failed on .dna test\n";  exit 1; }
+($n) = $output =~ /Total # residues:\s+(\d+)/; if ($n != 32) {  print "FAIL: seqstat sees wrong residue count ($n) in .dna test\n";  exit 1; }
+
+$output = `$seqstat       $tmppfx.aa  2>&1`;   if ($? != 0)  {  print "FAIL: seqstat failed on .aa test\n";   exit 1; }
+($n) = $output =~ /Total # residues:\s+(\d+)/; if ($n != 53) {  print "FAIL: seqstat sees wrong residue count ($n) in .aa test\n";  exit 1; }
+
+$output = `$seqstat       $tmppfx.bad 2>&1`;   if ($? == 0)  {  print "FAIL: seqstat should have failed on .bad test\n";   exit 1; }
+
+# esl-shuffle tests
+system("$shuffle $tmppfx.dna           > $tmppfx.out 2>&1");   if ($? != 0)  {  print "FAIL: shuffle failed on .dna test\n";         exit 1; }
+system("$seqstat --dna -c $tmppfx.out  > $tmppfx.out2 2>&1");  if ($? != 0)  {  print "FAIL: seqstat -c failed on shuffled .dna\n";  exit 1; }
+system("$seqstat --dna -c $tmppfx.dna  > $tmppfx.out3 2>&1");  if ($? != 0)  {  print "FAIL: seqstat -c failed on .dna test\n";      exit 1; }
+system("diff $tmppfx.out2 $tmppfx.out3 > /dev/null 2>&1");     if ($? != 0)  {  print "FAIL: shuffle changed .dna composition\n";    exit 1; }
+
+system("$shuffle $tmppfx.aa            > $tmppfx.out 2>&1");   if ($? != 0)  {  print "FAIL: shuffle failed on .aa test\n";         exit 1; }
+system("$seqstat -c $tmppfx.out        > $tmppfx.out2 2>&1");  if ($? != 0)  {  print "FAIL: seqstat -c failed on shuffled .aa\n";  exit 1; }
+system("$seqstat -c $tmppfx.aa         > $tmppfx.out3 2>&1");  if ($? != 0)  {  print "FAIL: seqstat -c failed on .aa test\n";      exit 1; }
+system("diff $tmppfx.out2 $tmppfx.out3 > /dev/null 2>&1");     if ($? != 0)  {  print "FAIL: shuffle changed .aa composition\n";    exit 1; }
+
+$output = `$shuffle  $tmppfx.bad 2>&1`;   if ($? == 0)  {  print "FAIL: shuffle should have failed on .bad test\n";   exit 1; }
+
+# esl-sfetch tests
+system("$sfetch --index $tmppfx.aa           >/dev/null 2>&1");    if ($? != 0)  {  print "FAIL: sfetch --index failed on .aa test\n";  exit 1; }
+$output = `$sfetch -c 27..27 $tmppfx.aa test 2>&1 | grep -v "^>"`; if ($? != 0)  {  print "FAIL: sfetch failed on .aa test\n";          exit 1; }
+if (! $output =~ /^\*/) { print "FAIL: sfetch didn't retrieve * on .aa test ($output)\n";  exit 1; }
+
+system("$sfetch --index $tmppfx.dna >/dev/null 2>&1");             if ($? != 0)  {  print "FAIL: sfetch --index failed on .dna test\n"; exit 1; }
+$output = `$sfetch -c 16..16 $tmppfx.aa test 2>&1 | grep -v "^>"`; if ($? != 0)  {  print "FAIL: sfetch failed on .dna test\n";         exit 1; }
+if (! $output =~ /^\*/) { print "FAIL: sfetch didn't retrieve * on .dna test ($output)\n";  exit 1; }
+
+$output = `$sfetch --index $tmppfx.bad 2>&1`;   if ($? == 0)  {  print "FAIL: sfetch --index should have failed on .bad test\n";   exit 1; }
+
+print "ok\n"; 
+unlink "$tmppfx.dna";
+unlink "$tmppfx.dna.ssi";
+unlink "$tmppfx.aa";
+unlink "$tmppfx.aa.ssi";
+unlink "$tmppfx.bad";
+unlink "$tmppfx.bad.ssi";
+unlink "$tmppfx.out";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i2-ncbi-indices.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i2-ncbi-indices.pl
new file mode 100755
index 0000000..77df333
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i2-ncbi-indices.pl
@@ -0,0 +1,147 @@
+#! /usr/bin/perl
+
+# Testing that we can read FASTA files, even if they have NCBI
+# formatted BLAST databases in the same directory.
+#
+# (This failed in Jan 2010 because the embryonic NCBI db parser
+# automatically opened the NCBI files instead of the FASTA file,
+# but did not have an implementation of esl_sqio_ReadWindow().)
+#
+# Usage:   ./i2-ncbi-indices <top_builddir> <top_srcdir> <tmpfile prefix>
+# Example: ./i2-ncbi-indices . . tmp
+#
+# SRE, Tue Feb  2 12:43:04 2010 [Janelia]
+# SVN $Id: i2-ncbi-indices.pl 715 2011-08-03 21:04:24Z eddys $ 
+#
+
+
+# This idiom (as opposed to just "use foo;") allows you to gracefully
+# catch the case of a missing Perl module:
+eval "use MIME::Base64 ()";  
+$have_base64 = 1 unless $@;
+if (! $have_base64)  { die "FAIL: MIME:Base64 perl module required for this test\n"; }
+
+$top_builddir = shift;
+$top_srcdir   = shift;
+$tmppfx       = shift;
+
+# Make sure that any files/executables we need to access are present.
+if (! -x "$top_builddir/miniapps/esl-seqstat") { die "FAIL: esl-seqstat not found in $top_builddir/miniapps\n"; }
+
+
+# Generate the test files. See notes below, at the function.
+&write_testfiles($tmppfx); 
+
+# The bug we're catching is that esl-seqstat would fail because
+# esl_sqio_ReadWindow() returned eslEUNIMPLEMENTED.
+#
+$output = `$top_builddir/miniapps/esl-seqstat -a $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: esl-seqstat fails to read BLAST-formatted FASTA file\n"; }
+
+
+# We could check more (like whether the output was what we expected)
+# but that's all we need for the bug in question.
+
+print "ok\n";
+unlink "$tmppfx.fa";
+unlink "$tmppfx.fa.phr";
+unlink "$tmppfx.fa.pin";
+unlink "$tmppfx.fa.psq";
+exit 0;
+
+
+
+# We want to test NCBI BLAST data formats, without requiring that the
+# user has "formatdb" installed.
+# 
+# So we want to carry a payload of premade files; but the files are
+# binary.
+#
+# So we carry them base64-encoded, and decode them into tmp files.
+#
+# The test files were created by
+#   % esl-shuffle -G --amino -L 60 -N 10 > test.fa
+#   % formatdb -i test.fa
+#   % base64 test.fa.phr
+#   % base64 test.fa.pin
+#   % base64 test.fa.psq
+#
+sub 
+write_testfiles
+{
+    local($pfx) = @_;
+
+$fafile = ">random0\
+LFGSQIVARDDPSSVLRDIGGSVRPRNEICKIKQKEGQNGLNHDPVKNTWEDESKKQAFA\
+>random1\
+EIARLAAQLRETPAEKAIADIYLEDCLDFIAVTSFTATSDPLEGAGGWEKVNREAPFESA\
+>random2\
+IVLNNSVDYYIPSIHTAFNGLVLPGSKVPVSFFQQPGSLLTNATILGFDLLDLAVAEGLL\
+>random3\
+LSMKVPRFGKNKREDNLQLRLGPPKYPSWNAMVRAHASKFYAVNRGVFIGSLPIQFVEKR\
+>random4\
+VKLTTGAKVLDLTFYHYCEAAISDQMLQATLNQAIGHNARETILTSAQQLDPAYRSDQVW\
+>random5\
+LLFEQVLSFDHGEYRAHGLQRTLRQVLILIAALMVLPEQTKTGDLSPACKLANATVSGKL\
+>random6\
+LERDNAAGMIALASNSEFNIEGCQKYGSKGGLESQGKMKITNQYTSEIDVYERPENVLGF\
+>random7\
+MEAPAWDTPGLGASFQASDEAPPELSLTLHNNPQVAMRKKVVRVSALTLTRPRHLLIMFA\
+>random8\
+SSLNCLQMGLPRRLQWADDPDSDNTAPNAPLVSFKNVHMVLAEEFEGYRIAIVVSYPFDR\
+>random9\
+KKQVADVLELVIEGENQRSMVVLPTGKRFEIESAWGVGRPFPSTQGLIMNLYMAKDRAAT\
+";
+
+$phr_encoded = "\
+MIAwgKCAGgdyYW5kb20wAAChgDCAqoAwgKCAGglCTF9PUkRfSUQAAKGAoIACAQAAAAAAAAAAAAAA\
+AACigAIBAAAAAAAAADCAMICggBoHcmFuZG9tMQAAoYAwgKqAMICggBoJQkxfT1JEX0lEAAChgKCA\
+AgEBAAAAAAAAAAAAAAAAooACAQAAAAAAAAAwgDCAoIAaB3JhbmRvbTIAAKGAMICqgDCAoIAaCUJM\
+X09SRF9JRAAAoYCggAIBAgAAAAAAAAAAAAAAAKKAAgEAAAAAAAAAMIAwgKCAGgdyYW5kb20zAACh\
+gDCAqoAwgKCAGglCTF9PUkRfSUQAAKGAoIACAQMAAAAAAAAAAAAAAACigAIBAAAAAAAAADCAMICg\
+gBoHcmFuZG9tNAAAoYAwgKqAMICggBoJQkxfT1JEX0lEAAChgKCAAgEEAAAAAAAAAAAAAAAAooAC\
+AQAAAAAAAAAwgDCAoIAaB3JhbmRvbTUAAKGAMICqgDCAoIAaCUJMX09SRF9JRAAAoYCggAIBBQAA\
+AAAAAAAAAAAAAKKAAgEAAAAAAAAAMIAwgKCAGgdyYW5kb202AAChgDCAqoAwgKCAGglCTF9PUkRf\
+SUQAAKGAoIACAQYAAAAAAAAAAAAAAACigAIBAAAAAAAAADCAMICggBoHcmFuZG9tNwAAoYAwgKqA\
+MICggBoJQkxfT1JEX0lEAAChgKCAAgEHAAAAAAAAAAAAAAAAooACAQAAAAAAAAAwgDCAoIAaB3Jh\
+bmRvbTgAAKGAMICqgDCAoIAaCUJMX09SRF9JRAAAoYCggAIBCAAAAAAAAAAAAAAAAKKAAgEAAAAA\
+AAAAMIAwgKCAGgdyYW5kb205AAChgDCAqoAwgKCAGglCTF9PUkRfSUQAAKGAoIACAQkAAAAAAAAA\
+AAAAAACigAIBAAAAAAAAAA==";
+
+$pin_encoded = "\
+AAAABAAAAAEAAAAHdGVzdC5mYQAAABlGZWIgMiwgMjAxMCAxMToxMyBBTQAAAAAAAAAAClgCAAAA\
+AAAAAAAAPAAAAAAAAABGAAAAjAAAANIAAAEYAAABXgAAAaQAAAHqAAACMAAAAnYAAAK8AAAAAQAA\
+AD4AAAB7AAAAuAAAAPUAAAEyAAABbwAAAawAAAHpAAACJgAAAmM=";
+
+$psq_encoded = "\
+AAsGBxEPCRMBEAQEDhEREwsQBAkHBxETEA4QDQUJAwoJCg8KBQcPDQcLDQgEDhMKDRIUBQQFEQoK\
+DwEGAQAFCQEQCwEBDwsQBRIOAQUKAQkBBAkWCwUEAwsEBgkBExIRBhIBEhEEDgsFBwEHBxQFChMN\
+EAUBDgYFEQEACRMLDQ0REwQWFgkOEQkIEgEGDQcLEwsOBxEKEw4TEQYGDw8OBxELCxINARIJCwcG\
+BAsLBAsBEwEFBwsLAAsRDAoTDhAGBwoNChAFBA0LDwsQCwcODgoWDhEUDQEMExABCAERCgYWARMN\
+EAcTBgkHEQsOCQ8GEwUKEAATCgsSEgcBChMLBAsSBhYIFgMFAQEJEQQPDAsPARILDQ8BCQcIDQEQ\
+BRIJCxIRAQ8PCwQOARYQEQQPExQACwsGBQ8TCxEGBAgHBRYQAQgHCw8QEgsQDxMLCQsJAQELDBML\
+DgUPEgoSBwQLEQ4BAwoLAQ0BEhMRBwoLAAsFEAQNAQEHDAkBCwERDREFBg0JBQcDDwoWBxEKBwcL\
+BREPBwoMCgkSDQ8WEhEFCQQTFgUQDgUNEwsHBgAMBQEOARQEEg4HCwcBEQYPAREEBQEODgULEQsS\
+CwgNDQ4PEwEMEAoKExMQExEBCxILEhAOEAgLCwkMBgEAERELDQMLDwwHCw4QEAsPFAEEBA4EEQQN\
+EgEODQEOCxMRBgoNEwgMEwsBBQUGBQcWEAkBCRMTERYOBgQQAAoKDxMBBBMLBQsTCQUHBQ0PEBEM\
+ExMLDhIHChAGBQkFEQEUBxMHEA4GDhESDwcLCQwNCxYMAQoEEAEBEgA=";
+
+open(FAFILE, ">$pfx.fa") || die;
+print FAFILE $fafile;
+close (FAFILE);
+
+open(PHRFILE, ">$pfx.fa.phr");
+print PHRFILE MIME::Base64::decode_base64($phr_encoded);
+close PHRFILE;
+
+open(PINFILE, ">$pfx.fa.pin");
+print PINFILE MIME::Base64::decode_base64($pin_encoded);
+close PINFILE;
+
+open(PSQFILE, ">$pfx.fa.psq");
+print PSQFILE MIME::Base64::decode_base64($psq_encoded);
+close PSQFILE;
+}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i3-blank-gf.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i3-blank-gf.pl
new file mode 100755
index 0000000..23ba73c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/i3-blank-gf.pl
@@ -0,0 +1,95 @@
+#! /usr/bin/perl
+
+# Bug #e5: blank text line following #=GF <tag> handled improperly.
+#
+# Easel was allowing blank text, because we want to allow blank #=GF CC
+# lines for line spacing in human-readable comments.
+#
+# Problem is that then blank DE or AC lines are also accepted. HMMER
+# then propagates blank DESC or ACC lines to its save files. But HMMER
+# save file parser strictly requires DESC <s> or ACC <s>.
+#
+# SRE, Tue Jul 13 10:46:02 2010
+# SVN $Id: i3-blank-gf.pl 715 2011-08-03 21:04:24Z eddys $
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/miniapps/esl-reformat") { die "FAIL: didn't find esl-reformat binary in $builddir/miniapps\n";  }
+
+
+# Create four test files
+#   .sto1:  AC, DE followed by spaces; invalid format
+#   .sto2:  AC, DE followed by \n;     invalid format
+#   .sto3,  CC followed by spaces;     valid format
+#   .sto4,  CC followed by \n;         valid format
+
+open(MSA1, ">$tmppfx.sto1") || die "FAIL: couldn't create $tmppfx.sto1\n";
+print MSA1 << "EOF";
+# STOCKHOLM 1.0
+#=GF AC   
+#=GF DE   
+
+seq1  ACGTACGTACGT
+seq2  ACGTACGTACGT
+//
+EOF
+close MSA1;
+
+open(MSA2, ">$tmppfx.sto2") || die "FAIL: couldn't create $tmppfx.sto2\n";
+print MSA2 << "EOF";
+# STOCKHOLM 1.0
+#=GF AC
+#=GF DE
+
+seq1  ACGTACGTACGT
+seq2  ACGTACGTACGT
+//
+EOF
+close MSA2;
+
+open(MSA3, ">$tmppfx.sto3") || die "FAIL: couldn't create $tmppfx.sto3\n";
+print MSA3 << "EOF";
+# STOCKHOLM 1.0
+#=GF CC     
+
+seq1  ACGTACGTACGT
+seq2  ACGTACGTACGT
+//
+EOF
+close MSA3;
+
+open(MSA4, ">$tmppfx.sto4") || die "FAIL: couldn't create $tmppfx.sto4\n";
+print MSA4 << "EOF";
+# STOCKHOLM 1.0
+#=GF CC
+
+seq1  ACGTACGTACGT
+seq2  ACGTACGTACGT
+//
+EOF
+close MSA4;
+
+
+$output = `$builddir/miniapps/esl-reformat stockholm $tmppfx.sto1 2>&1`;
+if ($? == 0) { die "FAIL: blank AC,DE lines should be invalid Stockholm format (bug #e5) (1)\n"; }
+
+$output = `$builddir/miniapps/esl-reformat stockholm $tmppfx.sto2 2>&1`;
+if ($? == 0) { die "FAIL: blank AC,DE lines should be invalid Stockholm format (bug #e5) (2)\n"; }
+
+$output = `$builddir/miniapps/esl-reformat stockholm $tmppfx.sto3`;
+if ($? != 0)              { die "FAIL: blank CC line should be valid Stockholm format (1)\n"; }
+if ($output !~ /#=GF CC/) { die "FAIL: blank CC line did not propagate\n"; }
+
+$output = `$builddir/miniapps/esl-reformat stockholm $tmppfx.sto4`;
+if ($? != 0)              { die "FAIL: blank CC line should be valid Stockholm format (2)\n"; }
+if ($output !~ /#=GF CC/) { die "FAIL: blank CC line did not propagate\n"; }
+
+print  "ok\n";
+unlink <$tmppfx.sto*>;
+exit 0;
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/testsuite.sqc b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/testsuite.sqc
new file mode 100755
index 0000000..8f13204
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/testsuite.sqc
@@ -0,0 +1,144 @@
+# Easel's test suite, in sqc command format
+
+#################################################################
+# Test drivers for each module.
+################################################################
+
+1 exercise alphabet-utest     @esl_alphabet_utest@
+1 exercise buffer-utest       @esl_buffer_utest@
+1 exercise cluster-utest      @esl_cluster_utest@
+1 exercise dirichlet-utest    @esl_dirichlet_utest@
+1 exercise distance-utest     @esl_distance_utest@
+1 exercise dmatrix-utest      @esl_dmatrix_utest@
+1 exercise easel-utest        @easel_utest@
+1 exercise exponential-utest  @esl_exponential_utest@
+1 exercise fileparser-utest   @esl_fileparser_utest@
+1 exercise gamma-utest        @esl_gamma_utest@
+1 exercise getopts-utest      @esl_getopts_utest@
+1 exercise gumbel-utest       @esl_gumbel_utest@
+1 exercise histogram-utest    @esl_histogram_utest@
+1 exercise hyperexp-utest     @esl_hyperexp_utest@
+1 exercise keyhash-utest      @esl_keyhash_utest@
+1 exercise mem-utest          @esl_mem_utest@
+1 exercise msa-utest          @esl_msa_utest@
+1 exercise msafile            @esl_msafile_utest@
+1 exercise msafile2           @esl_msafile2_utest@
+1 exercise msafile-a2m        @esl_msafile_a2m_utest@
+1 exercise msafile-afa        @esl_msafile_afa_utest@
+1 exercise msafile-clustal    @esl_msafile_clustal_utest@
+1 exercise msafile-phylip     @esl_msafile_phylip_utest@
+1 exercise msafile-psiblast   @esl_msafile_psiblast_utest@
+1 exercise msafile-selex      @esl_msafile_selex_utest@
+1 exercise msafile-stockholm  @esl_msafile_stockholm_utest@
+1 exercise msacluster-utest   @esl_msacluster_utest@
+1 exercise msaweight-utest    @esl_msaweight_utest@
+1 exercise random-utest       @esl_random_utest@
+1 exercise randomseq-utest    @esl_randomseq_utest@
+1 exercise ratematrix-utest   @esl_ratematrix_utest@
+1 exercise recorder-utest     @esl_recorder_utest@
+1 exercise regexp-utest       @esl_regexp_utest@
+1 exercise rootfinder-utest   @esl_rootfinder_utest@
+1 exercise scorematrix-utest  @esl_scorematrix_utest@
+1 exercise sq-utest           @esl_sq_utest@
+1 exercise sqio-utest         @esl_sqio_utest@
+1 exercise sse-utest          @esl_sse_utest@
+1 exercise ssi-utest          @esl_ssi_utest@
+1 exercise stack-utest        @esl_stack_utest@
+1 exercise stats-utest        @esl_stats_utest@
+1 exercise stretchexp-utest   @esl_stretchexp_utest@
+1 exercise tree-utest         @esl_tree_utest@
+1 exercise vectorops-utest    @esl_vectorops_utest@
+1 exercise weibull-utest      @esl_weibull_utest@
+1 exercise wuss-utest         @esl_wuss_utest@
+
+1 exercise e2                 !testsuite/e2.sh! @miniapps/esl-seqstat@ !formats/stockholm.1!
+
+1 exercise degen-residues     !testsuite/i1-degen-residues.pl! @@ !! %TESTPFX%
+1 exercise ncbi-indices       !testsuite/i2-ncbi-indices.pl!   @@ !! %TESTPFX%
+1 exercise blank-gf           !testsuite/i3-blank-gf.pl!       @@ !! %TESTPFX%
+
+1 exercise esl-afetch         !miniapps/esl-afetch.itest.pl!    @miniapps/esl-afetch@    %TESTPFX%
+1 exercise esl-alimanip       !miniapps/esl-alimanip.itest.pl!  @miniapps/esl-alimanip@  %TESTPFX%
+1 exercise esl-alimap         !miniapps/esl-alimap.itest.pl!    @miniapps/esl-alimap@    %TESTPFX%
+1 exercise esl-alimask        !miniapps/esl-alimask.itest.pl!   @miniapps/esl-alimask@   %TESTPFX%
+1 exercise esl-alimerge       !miniapps/esl-alimerge.itest.pl!  @miniapps/esl-alimerge@  %TESTPFX%
+1 exercise esl-alistat        !miniapps/esl-alistat.itest.pl!   @miniapps/esl-alistat@   %TESTPFX%
+1 exercise esl-compalign      !miniapps/esl-compalign.itest.pl! @miniapps/esl-compalign@ %TESTPFX%
+1 exercise esl-construct      !miniapps/esl-construct.itest.pl! @miniapps/esl-construct@ %TESTPFX%
+1 exercise esl-mask           !miniapps/esl-mask.itest.pl!      @miniapps/esl-mask@      %TESTPFX%
+1 exercise esl-seqrange       !miniapps/esl-seqrange.itest.pl!  @miniapps/esl-seqrange@  @miniapps/esl-sfetch@ %TESTPFX%
+1 exercise esl-shuffle        !miniapps/esl-shuffle.itest.pl!   @miniapps/esl-shuffle@   %TESTPFX%
+1 exercise esl-ssdraw         !miniapps/esl-ssdraw.itest.pl!    @miniapps/esl-ssdraw@    !testsuite/trna-ssdraw.ps! !testsuite/trna-5.stk! %TESTPFX%
+
+
+# Still to do:
+# gev
+# minimizer
+# mixgev
+# mpi
+# normal
+# paml
+# swat
+# interface_gsl
+# interface_lapack
+
+################################################################
+# valgrind tests (optional. 'make SQCLEVEL=3 check'
+################################################################
+
+3 valgrind alphabet-utest     @esl_alphabet_utest@
+3 valgrind cluster-utest      @esl_cluster_utest@
+3 valgrind dirichlet-utest    @esl_dirichlet_utest@
+3 valgrind distance-utest     @esl_distance_utest@
+3 valgrind dmatrix-utest      @esl_dmatrix_utest@
+3 valgrind easel-utest        @easel_utest@
+3 valgrind exponential-utest  @esl_exponential_utest@
+3 valgrind fileparser-utest   @esl_fileparser_utest@
+3 valgrind gamma-utest        @esl_gamma_utest@
+3 valgrind getopts-utest      @esl_getopts_utest@
+3 valgrind gumbel-utest       @esl_gumbel_utest@
+3 valgrind histogram-utest    @esl_histogram_utest@
+3 valgrind hyperexp-utest     @esl_hyperexp_utest@
+3 valgrind keyhash-utest      @esl_keyhash_utest@
+3 valgrind mem-utest          @esl_mem_utest@
+3 valgrind msa-utest          @esl_msa_utest@
+3 valgrind msafile            @esl_msafile_utest@
+3 valgrind msafile2           @esl_msafile2_utest@
+3 valgrind msafile-a2m        @esl_msafile_a2m_utest@
+3 valgrind msafile-afa        @esl_msafile_afa_utest@
+3 valgrind msafile-clustal    @esl_msafile_clustal_utest@
+3 valgrind msafile-phylip     @esl_msafile_phylip_utest@
+3 valgrind msafile-psiblast   @esl_msafile_psiblast_utest@
+3 valgrind msafile-selex      @esl_msafile_selex_utest@
+3 valgrind msafile-stockholm  @esl_msafile_stockholm_utest@
+3 valgrind msacluster-utest   @esl_msacluster_utest@
+3 valgrind msaweight-utest    @esl_msaweight_utest@
+3 valgrind random-utest       @esl_random_utest@
+3 valgrind randomseq-utest    @esl_randomseq_utest@
+3 valgrind ratematrix-utest   @esl_ratematrix_utest@
+3 valgrind recorder-utest     @esl_recorder_utest@
+3 valgrind regexp-utest       @esl_regexp_utest@
+3 valgrind rootfinder-utest   @esl_rootfinder_utest@
+3 valgrind scorematrix-utest  @esl_scorematrix_utest@
+3 valgrind sq-utest           @esl_sq_utest@
+3 valgrind sqio-utest         @esl_sqio_utest@
+3 valgrind sse-utest          @esl_sse_utest@
+3 valgrind ssi-utest          @esl_ssi_utest@
+3 valgrind stack-utest        @esl_stack_utest@
+3 valgrind stats-utest        @esl_stats_utest@
+3 valgrind stretchexp-utest   @esl_stretchexp_utest@
+3 valgrind tree-utest         @esl_tree_utest@
+3 valgrind vectorops-utest    @esl_vectorops_utest@
+3 valgrind weibull-utest      @esl_weibull_utest@
+3 valgrind wuss-utest         @esl_wuss_utest@
+
+###  esl_buffer_utest exercises valgrind bug #258294 on OSX
+###  still open in valgrind 3.6.1 (Feb 2011)
+###  reinstate the test when valgrind updates
+# 3 valgrind buffer-utest       @esl_buffer_utest@
+
+
+################################################################
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/easel/branches/hmmer/3.1/testsuite/testsuite.sqc $
+# SVN $Id: testsuite.sqc 714 2011-07-29 21:26:26Z eddys $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/trna-5.stk b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/trna-5.stk
new file mode 100755
index 0000000..eba1682
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/trna-5.stk
@@ -0,0 +1,16 @@
+# STOCKHOLM 1.0
+#=GF AU Infernal 0.1
+
+tRNA1         GCGGAUUUAGCUCAGUuGGG.AGAGCGCCAGACUGAAGAUCUGGAGGuCCUGUGUUCGAUCCACAGAAUUCGCA
+#=GR tRNA1 PP ****************9887.*****************************************************
+tRNA2         UCCGAUAUAGUGUAAC.GGCuAUCACAUCACGCUUUCACCGUGGAGA.CCGGGGUUCGACUCCCCGUAUCGGAG
+#=GR tRNA2 PP ****************.8888**************************.**************************
+tRNA3         UCCGUGAUAGUUUAAU.GGUcAGAAUGGGCGCUUGUCGCGUGCCAGA.UCGGGGUUCAAUUCCCCGUCGCGGAG
+#=GR tRNA3 PP ****************.******************************.**************************
+tRNA4         GCUCGUAUGGCGCAGU.GGU.AGCGCAGCAGAUUGCAAAUCUGUUGGuCCUUAGUUCGAUCCUGAGUGCGAGCU
+#=GR tRNA4 PP ****************.***.*****************************************************
+tRNA5         ....ACAUGGCGCAGUuGGU.AGCGCGCUUCCCUUGCAAGGAAGAGGuCAUCGGUUCGAUUCCGGUUGC.....
+#=GR tRNA5 PP ....****************.************************************************.....
+#=GC SS_cons  (((((((,,<<<<___.___._>>>>,<<<<<_______>>>>>,,,.,<<<<<_______>>>>>))))))):
+#=GC RF       gccccugUAGcucAaU.GGU.AgagCauuggaCUuuuAAuccaaagg.ugugGGUUCgAaUCCcaccaggggcA
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/trna-ssdraw.ps b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/trna-ssdraw.ps
new file mode 100755
index 0000000..6919503
Binary files /dev/null and b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/trna-ssdraw.ps differ
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/valgrind_report.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/valgrind_report.pl
new file mode 100755
index 0000000..186a392
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/easel/testsuite/valgrind_report.pl
@@ -0,0 +1,104 @@
+#! /usr/bin/perl
+
+# Run the testsuite under Valgrind, to check for memory leakage.
+#
+# Usage: from testsuite directory:
+#    testsuite/valgrind_report.pl
+# This assumes you've already compiled the library. To recompile
+# from scratch, do 
+#    ./driver_report.pl -c
+#
+# SRE, Fri Mar  2 08:37:48 2007 [Janelia]
+# SVN $Id: valgrind_report.pl 231 2008-03-25 14:43:57Z eddys $
+require  "getopts.pl";
+&Getopts('c');
+if ($opt_c) { $do_recompile = 1; }
+
+if ($ENV{'CC'}     ne "") { $CC     = $ENV{'CC'};     } else { $CC       = "gcc"; } 
+if ($ENV{'CFLAGS'} ne "") { $CFLAGS = $ENV{'CFLAGS'}; } else { $CFLAGS   = "-g -Wall"; }
+
+printf("Memory leak testing for Easel, using valgrind:\n\n");
+
+if ($do_recompile) {
+    print("Recompiling...       ");
+    `(cd ..; make clean > /dev/null)`;                      if ($? != 0) { print "[make clean failed]\n"; exit; }
+    `(cd ..; ./configure --enable-debugging > /dev/null)`;  if ($? != 0) { print "[configure failed]\n"; exit; }
+    `(cd ..; make > /dev/null)`;                            if ($? != 0) { print "[make failed]\n"; exit; }
+    print "ok.\n\n";
+}
+
+@modules = <../esl_*.c>;
+unshift(@modules, "../easel.c");
+
+$nmodules       = 0;
+$npresent       = 0;
+$ncompiled      = 0;
+$nsuccess       = 0;
+$nleaking       = 0;
+foreach $module (@modules) {
+    $module =~ /^\.\.\/(\S+)/; 
+    $basecfile = $1;
+    $nmodules++;
+
+    # create the eslDMATRIX_TESTDRIVE flag and dmatrix_utest program name from esl_dmatrix.c
+    if ($basecfile =~ /^(esl_)?(\S+).c/) { 
+	$base     = $2;
+	$progname = $base."_utest";
+	$base     =~ tr/a-z/A-Z/;
+	$flag     = "esl".$base."_TESTDRIVE";
+    }
+
+    printf("%-20s ", $basecfile);
+
+    # one way to fail: there isn't a test driver at all
+    `grep $flag $module`;
+    if ($? != 0) { printf("                   [NO DRIVER]\n");      next; }
+    $npresent++;
+
+    `$CC $CFLAGS -I.. -L.. -o $progname -D$flag $module -leasel -lm  >& /dev/null`;
+    if ($? != 0) { printf("                   [COMPILE FAILED]\n");       next; };
+    $ncompiled++;
+    push @proglist, $progname;
+    
+    $output = `valgrind ./$progname 2>&1`;
+    if ($? != 0) { printf("                   [VALGRIND FAILED]\n");       next; };
+    $nsuccess++;
+
+    if ($output =~ /malloc\/free: in use at exit: (\S+) bytes in (\S+) blocks/)
+    {
+	if ($1 > 0) { 
+	    $nleaking++;
+	    print("[LEAK DETECTED ]\n");
+	} else {
+	    print("ok.\n");
+	}
+    } else { print "<< problem parsing valgrind output >>\n"; }                      
+}
+
+printf("\nOf %d total modules in Easel:\n", $nmodules);
+if ($npresent != $nmodules) {
+    printf("   - %d have test drivers, %d do not\n", $npresent, $nmodules-$npresent);
+} else {
+    printf("   - All %d have test drivers\n", $npresent);
+}
+if ($ncompiled != $npresent) {
+    printf("   - %d compiled, %d did not\n", $ncompiled, $npresent-$ncompiled);
+} else {
+    printf("   - All %d compiled\n", $ncompiled);
+}
+if ($nsuccess != $ncompiled) {
+    printf("   - %d ran successfully, %d did not\n", $nsuccess, $ncompiled-$nsuccess);
+} else {
+    printf("   - All %d ran successfully\n", $nsuccess);
+}
+
+print "\n";
+if ($nleaking == 0) {
+    printf("None of %d .c's with running test drivers) show memory leaks\n", $nsuccess);
+} else {
+    printf("%d of %d .c's with running test drivers) are leaking.\n", $nleaking, $nsuccess);
+}
+
+unlink @proglist;
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/cachedb.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/cachedb.h
new file mode 100755
index 0000000..7db35db
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/cachedb.h
@@ -0,0 +1,51 @@
+#ifndef P7_CACHEDB_INCLUDED
+#define P7_CACHEDB_INCLUDED
+
+typedef struct {
+  char    *name;                   /* name; ("\0" if no name)               */
+  ESL_DSQ *dsq;                    /* digitized sequence [1..n]             */
+  int64_t  n;                      /* length of dsq                         */
+  int64_t  idx;	                   /* ctr for this seq                      */
+  uint64_t db_key;                 /* flag for included databases           */
+  char    *desc;                   /* description                           */
+} HMMER_SEQ;
+
+typedef struct {
+  uint32_t            count;       /* number of entries                     */
+  uint32_t            K;           /* original number of entries            */
+  HMMER_SEQ         **list;        /* list of sequences [0 .. count-1]      */
+} SEQ_DB;
+
+typedef struct {
+  char               *name;        /* name of the seq database              */
+  char               *id;          /* unique identifier string              */
+  uint32_t            db_cnt;      /* number of sub databases               */
+  SEQ_DB             *db;          /* list of databases [0 .. db_cnt-1]     */
+
+  ESL_ALPHABET       *abc;         /* alphabet for database                 */
+
+  uint32_t            count;       /* total number of sequences             */
+  HMMER_SEQ          *list;        /* complete list of sequences (count)    */
+  void               *residue_mem; /* memory holding the residues           */
+  char               *header_mem;  /* memory holding the header strings     */
+
+  uint64_t            res_size;    /* size of residue memory allocation     */
+  uint64_t            hdr_size;    /* size of header memory allocation      */
+} P7_SEQCACHE;
+
+
+
+extern int    p7_seqcache_Open(char *seqfile, P7_SEQCACHE **ret_cache, char *errbuf);
+extern void   p7_seqcache_Close(P7_SEQCACHE *cache);
+
+#endif /*P7_CACHEDB_INCLUDED*/
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ ************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/hmmer.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/hmmer.h
new file mode 100755
index 0000000..81992f9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/hmmer.h
@@ -0,0 +1,1805 @@
+/* The all-encompassing include file for HMMER.
+ * All-encompassing because there's a lot of crossdependency.
+ * There's some opportunity for modularity, but not a lot.
+ *
+ *    1. P7_HMM:         a core model.
+ *    2. P7_PROFILE:     a scoring profile, and its implicit model.
+ *    3. P7_BG:          a null (background) model.
+ *    4. P7_TRACE:       a traceback path (alignment of seq to profile).
+ *    5. P7_HMMFILE:     an HMM save file or database, open for reading.
+ *    6. P7_GMX:         a "generic" dynamic programming matrix
+ *    7. P7_PRIOR:       mixture Dirichlet prior for profile HMMs
+ *    8. P7_SPENSEMBLE:  segment pair ensembles for domain locations
+ *    9. P7_ALIDISPLAY:  an alignment formatted for printing
+ *   10. P7_DOMAINDEF:   reusably managing workflow in annotating domains
+ *   11. P7_TOPHITS:     ranking lists of top-scoring hits
+ *   12. P7_SCOREDATA:     data used in diagonal recovery and extension
+ *   13. P7_HMM_WINDOW:  data used to track lists of sequence windows
+ *   14. Inclusion of the architecture-specific optimized implementation.
+ *   16. P7_PIPELINE:    H3's accelerated seq/profile comparison pipeline
+ *   17. P7_BUILDER:     configuration options for new HMM construction.
+ *   18. Declaration of functions in HMMER's exposed API.
+ *   19. Copyright and license information.
+ *   
+ * Also, see impl_{sse,vmx}/impl_{sse,vmx}.h for additional API
+ * specific to the acceleration layer; in particular, the P7_OPROFILE
+ * structure for an optimized profile.
+ */
+#ifndef P7_HMMERH_INCLUDED
+#define P7_HMMERH_INCLUDED
+
+#include "p7_config.h"
+
+#include <stdio.h>		/* FILE */
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#endif
+
+#ifdef HMMER_THREADS
+#include <pthread.h>
+#endif
+
+#include "easel.h"
+#include "esl_alphabet.h"	/* ESL_DSQ, ESL_ALPHABET */
+#include "esl_dirichlet.h"	/* ESL_MIXDCHLET         */
+#include "esl_dmatrix.h"	/* ESL_DMATRIX           */
+#include "esl_getopts.h"	/* ESL_GETOPTS           */
+#include "esl_histogram.h"      /* ESL_HISTOGRAM         */
+#include "esl_hmm.h"	        /* ESL_HMM               */
+#include "esl_keyhash.h"        /* ESL_KEYHASH           */
+#include "esl_msa.h"		/* ESL_MSA               */
+#include "esl_random.h"		/* ESL_RANDOMNESS        */
+#include "esl_sq.h"		/* ESL_SQ                */
+#include "esl_scorematrix.h"    /* ESL_SCOREMATRIX       */
+#include "esl_stopwatch.h"      /* ESL_STOPWATCH         */
+
+
+
+/* Search modes. */
+#define p7_NO_MODE   0
+#define p7_LOCAL     1		/* multihit local:  "fs" mode   */
+#define p7_GLOCAL    2		/* multihit glocal: "ls" mode   */
+#define p7_UNILOCAL  3		/* unihit local: "sw" mode      */
+#define p7_UNIGLOCAL 4		/* unihit glocal: "s" mode      */
+
+#define p7_IsLocal(mode)  (mode == p7_LOCAL || mode == p7_UNILOCAL)
+#define p7_IsMulti(mode)  (mode == p7_LOCAL || mode == p7_GLOCAL)
+
+#define p7_NEVPARAM 6	/* number of statistical parameters stored in models                      */
+#define p7_NCUTOFFS 6	/* number of Pfam score cutoffs stored in models                          */
+#define p7_NOFFSETS 3	/* number of disk offsets stored in models for hmmscan's fast model input */
+enum p7_evparams_e {    p7_MMU  = 0, p7_MLAMBDA = 1,     p7_VMU = 2,  p7_VLAMBDA = 3, p7_FTAU = 4, p7_FLAMBDA = 5 };
+enum p7_cutoffs_e  {     p7_GA1 = 0,     p7_GA2 = 1,     p7_TC1 = 2,      p7_TC2 = 3,  p7_NC1 = 4,     p7_NC2 = 5 };
+enum p7_offsets_e  { p7_MOFFSET = 0, p7_FOFFSET = 1, p7_POFFSET = 2 };
+
+#define p7_EVPARAM_UNSET -99999.0f  /* if evparam[0] is unset, then all unset                         */
+#define p7_CUTOFF_UNSET  -99999.0f  /* if cutoff[XX1] is unset, then cutoff[XX2] unset, XX={GA,TC,NC} */
+#define p7_COMPO_UNSET   -1.0f      /* if compo[0] is unset, then all unset                           */
+
+/* Option flags when creating multiple alignments with p7_tracealign_*() */
+#define p7_DEFAULT             0
+#define p7_DIGITIZE            (1<<0)
+#define p7_ALL_CONSENSUS_COLS  (1<<1)
+#define p7_TRIM                (1<<2)
+
+/* Option flags when creating faux traces with p7_trace_FauxFromMSA() */
+#define p7_MSA_COORDS	       (1<<0) /* default: i = unaligned seq residue coords     */
+
+/* Which strand(s) should be searched */
+enum p7_strands_e {    p7_STRAND_TOPONLY  = 0, p7_STRAND_BOTTOMONLY = 1,  p7_STRAND_BOTH = 2};
+
+/*****************************************************************
+ * 1. P7_HMM: a core model.
+ *****************************************************************/
+
+/* Bit flags used in <hmm->flags>: optional annotation in an HMM
+ * 
+ * Flags marked with ! may not be changed nor used for other meanings,
+ * because they're codes used by HMMER2 (and earlier) that must be
+ * preserved for reverse compatibility with old HMMER files.
+ * 
+ * Why use flags? (So I don't ask this question of myself again:)
+ *   1. The way we allocate an HMM, we need to know if we're allocating
+ *      M-width annotation fields (RF, CS, CA, MAP) before we read the
+ *      annotation from the file.
+ *   2. Historically, H2 used flags, so we still need to read H2 flags
+ *      for backwards compatibility; so we may as well keep using them.
+ */
+#define p7H_HASBITS (1<<0)    /* obsolete (was: model has log-odds scores)       !*/
+#define p7H_DESC    (1<<1)    /* description exists (legacy; xref SRE:J5/114)    !*/
+#define p7H_RF      (1<<2)    /* #RF annotation available                        !*/
+#define p7H_CS      (1<<3)    /* #CS annotation available                        !*/
+#define p7H_XRAY    (1<<4)    /* obsolete (was: structural data available)       !*/
+#define p7H_HASPROB (1<<5)    /* obsolete (was: model in probability form)       !*/
+#define p7H_HASDNA  (1<<6)    /* obsolete (was: protein HMM->DNA seq params set) !*/
+#define p7H_STATS   (1<<7)    /* model has E-value statistics calibrated         !*/
+#define p7H_MAP     (1<<8)    /* alignment map is available                      !*/
+#define p7H_ACC     (1<<9)    /* accession is available (legacy; xref SRE:J5/114)!*/
+#define p7H_GA      (1<<10)   /* gathering thresholds available                  !*/
+#define p7H_TC      (1<<11)   /* trusted cutoffs available                       !*/
+#define p7H_NC      (1<<12)   /* noise cutoffs available                         !*/
+#define p7H_CA      (1<<13)   /* surface accessibilities available               !*/
+#define p7H_COMPO   (1<<14)   /* model-specific residue composition available     */
+#define p7H_CHKSUM  (1<<15)   /* model has an alignment checksum                  */
+#define p7H_CONS    (1<<16)   /* consensus residue line available                 */
+#define p7H_MMASK   (1<<17)   /* #MM annotation available                        !*/
+
+/* Indices of Plan7 main model state transitions, hmm->t[k][] */
+enum p7h_transitions_e {
+  p7H_MM = 0,
+  p7H_MI = 1,
+  p7H_MD = 2,
+  p7H_IM = 3,
+  p7H_II = 4,
+  p7H_DM = 5,
+  p7H_DD = 6 
+};
+#define p7H_NTRANSITIONS 7
+
+/* How the hmm->t[k] vector is interpreted as separate probability vectors. */
+#define P7H_TMAT(hmm, k) ((hmm)->t[k])
+#define P7H_TINS(hmm, k) ((hmm)->t[k]+3)
+#define P7H_TDEL(hmm, k) ((hmm)->t[k]+5)
+#define p7H_NTMAT 3
+#define p7H_NTDEL 2
+#define p7H_NTINS 2
+
+/* Some notes:
+ *   0. The model might be either in counts or probability form.
+ *   1. t[0] is special: t[0][TMM,TMI,TMD] are the begin->M_1,I_0,D_1 entry probabilities,
+ *      t[0][TIM,TII] are the I_0 transitions, and delete state 0 doesn't
+ *      exist. Therefore D[0] transitions and mat[0] emissions are unused.
+ *      To simplify some normalization code, we adopt a convention that these are set
+ *      to valid probability distributions: 1.0 for t[0][TDM] and mat[0][0],
+ *      and 0 for the rest.
+ *   2. t[M] is also special: TMD and TDD are 0 because there is no next delete state;
+ *      TDM is therefore 1.0 by definition. TMM and TDM are interpreted as the
+ *      M->E and D->E end transitions. t[M][TDM] must be 1.0, therefore.
+ */
+typedef struct p7_hmm_s {
+  /*::cexcerpt::plan7_core::begin::*/
+  int     M;                    /* length of the model (# nodes)                           */
+  float **t;                    /* transition prob's. t[(0),1..M][0..p7H_NTRANSITIONS-1]   */
+  float **mat;                  /* match emissions.  mat[1..M][0..K-1]                     */ 
+  float **ins;                  /* insert emissions. ins[1..M][0..K-1]                     */
+  /*::cexcerpt::plan7_core::end::*/
+
+  /* Annotation. Everything but <name> is optional. Flags are set when
+   * optional values are set. All the char *'s are proper nul-terminated
+   * strings, not just arrays. (hmm->map is an int array).
+   */
+  char    *name;                 /* name of the model                     (mandatory)      */ /* String, \0-terminated   */
+  char    *acc;	                 /* accession number of model (Pfam)      (optional: NULL) */ /* String, \0-terminated   */
+  char    *desc;                 /* brief (1-line) description of model   (optional: NULL) */ /* String, \0-terminated   */
+  char    *rf;                   /* reference line from alignment 1..M    (p7H_RF)         */ /* String; 0=' ', M+1='\0' */
+  char    *mm;                   /* model mask line from alignment 1..M   (p7H_MM)         */ /* String; 0=' ', M+1='\0' */
+  char    *consensus;		         /* consensus residue line        1..M    (p7H_CONS)       */ /* String; 0=' ', M+1='\0' */
+  char    *cs;                   /* consensus structure line      1..M    (p7H_CS)         */ /* String; 0=' ', M+1='\0' */
+  char    *ca;	                 /* consensus accessibility line  1..M    (p7H_CA)         */ /* String; 0=' ', M+1='\0' */
+
+  char    *comlog;               /* command line(s) that built model      (optional: NULL) */ /* String, \0-terminated   */
+  int      nseq;	         /* number of training sequences          (optional: -1)   */
+  float    eff_nseq;             /* effective number of seqs (<= nseq)    (optional: -1)   */
+  int	   max_length;           /* upper bound length, all but 1e-7 prob (optional: -1)   */
+  char    *ctime;	         /* creation date                         (optional: NULL) */
+  int     *map;	                 /* map of alignment cols onto model 1..M (p7H_MAP)        */ /* Array; map[0]=0 */
+  uint32_t checksum;             /* checksum of training sequences        (p7H_CHKSUM)     */
+  float    evparam[p7_NEVPARAM]; /* E-value params                        (p7H_STATS)      */
+  float    cutoff[p7_NCUTOFFS];  /* Pfam score cutoffs                    (p7H_{GA,TC,NC}) */
+  float    compo[p7_MAXABET];    /* model bg residue comp                 (p7H_COMPO)      */
+
+  off_t    offset;               /* HMM record offset on disk                              */
+  const ESL_ALPHABET *abc;       /* ptr to alphabet info (hmm->abc->K is alphabet size)    */
+  int      flags;                /* status flags                                           */
+} P7_HMM;
+
+
+/*****************************************************************
+ * 2. P7_PROFILE: a scoring profile, and its implicit model.
+ *****************************************************************/
+
+/* Indices for special state types in the length model, gm->xsc[x][]
+ */
+enum p7p_xstates_e { 
+  p7P_E = 0,
+  p7P_N = 1,
+  p7P_J = 2,
+  p7P_C = 3
+};
+#define p7P_NXSTATES 4
+
+/* Indices for transitions from the length modeling scores gm->xsc[][x]
+ */
+enum p7p_xtransitions_e {
+  p7P_LOOP = 0,
+  p7P_MOVE = 1
+};
+#define p7P_NXTRANS 2
+
+/* Indices for transition scores gm->tsc[k][] */
+/* order is optimized for dynamic programming */
+enum p7p_tsc_e {
+  p7P_MM = 0, 
+  p7P_IM = 1, 
+  p7P_DM = 2, 
+  p7P_BM = 3, 
+  p7P_MD = 4, 
+  p7P_DD = 5, 
+  p7P_MI = 6, 
+  p7P_II = 7, 
+};
+#define p7P_NTRANS 8
+
+/* Indices for residue emission score vectors
+ */
+enum p7p_rsc_e {
+  p7P_MSC = 0, 
+  p7P_ISC = 1
+};
+#define p7P_NR 2
+
+/* Accessing transition, emission scores */
+/* _BM is specially stored off-by-one: [k-1][p7P_BM] is score for entering at Mk */
+#define p7P_TSC(gm, k, s) ((gm)->tsc[(k) * p7P_NTRANS + (s)])
+#define p7P_MSC(gm, k, x) ((gm)->rsc[x][(k) * p7P_NR + p7P_MSC])
+#define p7P_ISC(gm, k, x) ((gm)->rsc[x][(k) * p7P_NR + p7P_ISC])
+
+
+typedef struct p7_profile_s {
+  float  *tsc;          /* transitions  [0.1..M-1][0..p7P_NTRANS-1], hand-indexed  */
+  float **rsc;          /* emissions [0..Kp-1][0.1..M][p7P_NR], hand-indexed       */
+  float   xsc[p7P_NXSTATES][p7P_NXTRANS]; /* special transitions [NECJ][LOOP,MOVE] */
+
+  int     mode;        	/* configured algorithm mode (e.g. p7_LOCAL)               */ 
+  int     L;		/* current configured target seq length                    */
+  int     allocM;	/* max # of nodes allocated in this structure              */
+  int     M;		/* number of nodes in the model                            */
+  int     max_length;	/* calculated upper bound on emitted seq length            */
+  float   nj;		/* expected # of uses of J; precalculated from loop config */
+
+  /* Info, most of which is a copy from parent HMM:                                       */
+  char  *name;			/* unique name of model                                   */
+  char  *acc;			/* unique accession of model, or NULL                     */
+  char  *desc;                  /* brief (1-line) description of model, or NULL           */
+  char  *rf;                    /* reference line from alignment 1..M; *rf=0 means unused */
+  char  *mm;                    /* modelmask line           1..M; *ref=0: unused     */
+  char  *cs;                    /* consensus structure line      1..M, *cs=0 means unused */
+  char  *consensus;		/* consensus residues to display in alignments, 1..M      */
+  float  evparam[p7_NEVPARAM]; 	/* parameters for determining E-values, or UNSET          */
+  float  cutoff[p7_NCUTOFFS]; 	/* per-seq/per-domain bit score cutoffs, or UNSET         */
+  float  compo[p7_MAXABET];	/* per-model HMM filter composition, or UNSET             */
+
+  /* Disk offset information for hmmpfam's fast model retrieval                           */
+  off_t  offs[p7_NOFFSETS];     /* p7_{MFP}OFFSET, or -1                                  */
+
+  off_t  roff;                  /* record offset (start of record); -1 if none            */
+  off_t  eoff;                  /* offset to last byte of record; -1 if unknown           */
+
+  const ESL_ALPHABET *abc;	/* copy of pointer to appropriate alphabet                */
+} P7_PROFILE;
+
+
+
+/*****************************************************************
+ * 3. P7_BG: a null (background) model.
+ *****************************************************************/
+
+/* This really contains three different things: 
+ *     
+ *   - the "null1" model, a one-state HMM consisting of background
+ *     frequencies <f> and a parameter <p1> for a target-length
+ *     dependent geometric;
+ *     
+ *   - the "bias filter" <fhmm> a two-state HMM composed from null1's
+ *     background <f> and the model's mean composition <compo>. This
+ *     model is constructed dynamically, every time a new profile is 
+ *     considered;
+ *     
+ *   - a single term <omega> that's needed by the "null2" model to set
+ *     a balance between the null1 and null2 scoring terms.  The null2
+ *     model is otherwise defined by construction, in p7_domaindef.c.
+ *
+ * Someday we might pull this apart into two or three separate
+ * objects.
+ */
+typedef struct p7_bg_s {
+  float   *f;		/* null1 background residue frequencies [0..K-1]: set at initialization    */
+  float    p1;		/* null1's transition prob: p7_bg_SetLength() sets this from target seq L  */
+
+  ESL_HMM *fhmm;	/* bias filter: p7_bg_SetFilter() sets this, from model's mean composition */
+
+  float    omega;	/* the "prior" on null2/null3: set at initialization (one omega for both null types)  */
+
+  const ESL_ALPHABET *abc;	/* reference to alphabet in use: set at initialization             */
+} P7_BG;
+
+/*****************************************************************
+ * 4. P7_TRACE:  a traceback (alignment of seq to profile).
+ *****************************************************************/
+
+/* Traceback structure for alignment of a model to a sequence.
+ *
+ * A traceback only makes sense in a triplet (tr, gm, dsq), for a
+ * given profile or HMM (with nodes 1..M) and a given digital sequence
+ * (with positions 1..L).
+ * 
+ * A traceback may be relative to a profile (usually) or to a core
+ * model (as a special case in model construction; see build.c). You
+ * can tell the difference by looking at the first statetype,
+ * tr->st[0]; if it's a p7T_S, it's for a profile, and if it's p7T_B,
+ * it's for a core model.
+ * 
+ * A "profile" trace uniquely has S,N,C,T,J states and their
+ * transitions; it also can have B->Mk and Mk->E internal entry/exit
+ * transitions for local alignments. It may not contain X states.
+ *
+ * A "core" trace may contain I0, IM, and D1 states and their
+ * transitions. A "core" trace can also have B->X->{MDI}k and
+ * {MDI}k->X->E transitions as a special hack in a build procedure, to
+ * deal with the case of a local alignment fragment implied by an
+ * input alignment, which is "impossible" for a core model.
+ * X "states" only appear in core traces, and only at these
+ * entry/exit places; some code depends on this.
+ *   
+ * A profile's N,C,J states emit on transition, not on state, so a
+ * path of N emits 0 residues, NN emits 1 residue, NNN emits 2
+ * residues, and so on. By convention, the trace always associates an
+ * emission-on-transition with the trailing (destination) state, so
+ * the first N, C, or J is stored in a trace as a nonemitter (i=0).
+ *
+ * A i coords in a traceback are usually 1..L with respect to an
+ * unaligned digital target sequence, but in the special case of
+ * traces faked from existing MSAs (as in hmmbuild), the coords may
+ * be 1..alen relative to an MSA's columns.
+ */
+
+/* State types */
+enum p7t_statetype_e {
+  p7T_BOGUS =  0,
+  p7T_M     =  1,
+  p7T_D     =  2,
+  p7T_I     =  3,
+  p7T_S     =  4,
+  p7T_N     =  5,
+  p7T_B     =  6, 
+  p7T_E     =  7,
+  p7T_C     =  8, 
+  p7T_T     =  9, 
+  p7T_J     = 10,
+  p7T_X     = 11, 	/* missing data: used esp. for local entry/exits */
+};
+#define p7T_NSTATETYPES 12
+
+typedef struct p7_trace_s {
+  int    N;		/* length of traceback                       */
+  int    nalloc;        /* allocated length of traceback             */
+  char  *st;		/* state type code                   [0..N-1]*/
+  int   *k;		/* node index; 1..M if M,D,I; else 0 [0..N-1]*/
+  int   *i;		/* pos emitted in dsq, 1..L; else 0  [0..N-1]*/
+  float *pp;		/* posterior prob of x_i; else 0     [0..N-1]*/
+  int    M;		/* model length M (maximum k)                */
+  int    L;		/* sequence length L (maximum i)             */
+
+  /* The following section is data generated by "indexing" a trace's domains */
+  int   ndom;		/* number of domains in trace (= # of B or E states) */
+  int  *tfrom,   *tto;	/* locations of B/E states in trace (0..tr->N-1)     */
+  int  *sqfrom,  *sqto;	/* first/last M-emitted residue on sequence (1..L)   */
+  int  *hmmfrom, *hmmto;/* first/last M state on model (1..M)                */
+  int   ndomalloc;	/* current allocated size of these stacks            */
+
+} P7_TRACE;
+
+
+
+/*****************************************************************
+ * 5. P7_HMMFILE:  an HMM save file or database, open for reading.
+ *****************************************************************/
+
+/* These tags need to be in temporal order, so we can do tests
+ * like "if (format >= p7_HMMFILE_3b) ..."
+ */
+enum p7_hmmfile_formats_e {
+  p7_HMMFILE_20 = 0,
+  p7_HMMFILE_3a = 1,
+  p7_HMMFILE_3b = 2,
+  p7_HMMFILE_3c = 3,
+  p7_HMMFILE_3d = 4,
+  p7_HMMFILE_3e = 5,
+  p7_HMMFILE_3f = 6,
+};
+
+typedef struct p7_hmmfile_s {
+  FILE         *f;		 /* pointer to stream for reading models                 */
+  char         *fname;	         /* (fully qualified) name of the HMM file; [STDIN] if - */
+  ESL_SSI      *ssi;		 /* open SSI index for model file <f>; NULL if none.     */
+
+  int           do_gzip;	/* TRUE if f is "gzip -dc |" (will pclose(f))           */ 
+  int           do_stdin;       /* TRUE if f is stdin (won't close f)                   */
+  int           newly_opened;	/* TRUE if we just opened the stream (and parsed magic) */
+  int           is_pressed;	/* TRUE if a pressed HMM database file (Pfam or equiv)  */
+
+  int            format;	/* HMM file format code */
+  int           (*parser)(struct p7_hmmfile_s *, ESL_ALPHABET **, P7_HMM **);  
+  ESL_FILEPARSER *efp;
+
+  /* If <is_pressed>, we can read optimized profiles directly, via:  */
+  FILE         *ffp;		/* MSV part of the optimized profile */
+  FILE         *pfp;		/* rest of the optimized profile     */
+
+#ifdef HMMER_THREADS
+  int              syncRead;
+  pthread_mutex_t  readMutex;
+#endif
+
+  char          errbuf[eslERRBUFSIZE];
+} P7_HMMFILE;
+
+/* note on <fname>, above:
+ * this is the actual name of the HMM file being read.
+ * 
+ * The way p7_hmmfile_Open() works, it will preferentially look for
+ * hmmpress'ed binary files. If you open "foo", it will first try to
+ * open "foo.h3m" and <fname> will be "foo.h3m". "foo" does not even
+ * have to exist. If a parsing error occurs, you want <fname> to
+ * be "foo.h3m", so error messages report blame correctly.
+ * In the special case of reading from stdin, <fname> is "[STDIN]".
+ */
+
+
+/*****************************************************************
+ * 6. P7_GMX: a "generic" dynamic programming matrix
+ *****************************************************************/
+
+enum p7g_scells_e {
+  p7G_M = 0,
+  p7G_I = 1,
+  p7G_D = 2,
+};
+#define p7G_NSCELLS 3
+
+enum p7g_xcells_e {
+  p7G_E  = 0,
+  p7G_N  = 1,
+  p7G_J  = 2,
+  p7G_B  = 3,
+  p7G_C  = 4
+};
+#define p7G_NXCELLS 5
+
+
+typedef struct p7_gmx_s {
+  int  M;		/* actual model dimension (model 1..M)    */
+  int  L;		/* actual sequence dimension (seq 1..L)   */
+  
+  int      allocR;      /* current allocated # of rows : L+1 <= validR <= allocR                */
+  int      validR;	/* # of rows actually pointing at DP memory                             */
+  int      allocW;	/* current set row width :  M+1 <= allocW                               */
+  uint64_t ncells;	/* total # of allocated cells in 2D matrix : ncells >= (validR)(allocW) */
+
+  float **dp;           /* logically [0.1..L][0.1..M][0..p7G_NSCELLS-1]; indexed [i][k*p7G_NSCELLS+s] */
+  float  *xmx;          /* logically [0.1..L][0..p7G_NXCELLS-1]; indexed [i*p7G_NXCELLS+s]            */
+
+  float  *dp_mem;
+} P7_GMX;
+
+/* Macros below implement indexing idioms for generic DP routines.
+ * They require the following setup, for profile <gm> and matrix <gx>:
+ *   float const *tsc = gm->tsc;
+ *   float      **dp  = gx->dp;
+ *   float       *xmx = gx->xmx;
+ * and for each row i (target residue x_i in digital seq <dsq>):
+ *   float const *rsc = gm->rsc[dsq[i]];
+ */
+#define MMX(i,k) (dp[(i)][(k) * p7G_NSCELLS + p7G_M])
+#define IMX(i,k) (dp[(i)][(k) * p7G_NSCELLS + p7G_I])
+#define DMX(i,k) (dp[(i)][(k) * p7G_NSCELLS + p7G_D])
+#define XMX(i,s) (xmx[(i) * p7G_NXCELLS + (s)])
+
+#define TSC(s,k) (tsc[(k) * p7P_NTRANS + (s)])
+#define MSC(k)   (rsc[(k) * p7P_NR     + p7P_MSC])
+#define ISC(k)   (rsc[(k) * p7P_NR     + p7P_ISC])
+
+/* Flags that control P7_GMX debugging dumps */
+#define p7_HIDE_SPECIALS (1<<0)
+#define p7_SHOW_LOG      (1<<1)
+
+
+/*****************************************************************
+ * 7. P7_PRIOR: mixture Dirichlet prior for profile HMMs
+ *****************************************************************/
+
+typedef struct p7_prior_s {
+  ESL_MIXDCHLET *tm;		/*  match transitions */
+  ESL_MIXDCHLET *ti;		/* insert transitions */
+  ESL_MIXDCHLET *td;		/* delete transitions */
+  ESL_MIXDCHLET *em;		/*  match emissions   */
+  ESL_MIXDCHLET *ei;		/* insert emissions   */
+} P7_PRIOR;
+
+
+
+
+/*****************************************************************
+ * 8. P7_SPENSEMBLE: segment pair ensembles for domain locations
+ *****************************************************************/
+
+/* struct p7_spcoord_s:
+ *    a coord quad defining a segment pair. 
+ */
+struct p7_spcoord_s { 
+  int idx; 	/* backreference index: which trace a seg came from, or which cluster a domain came from */
+  int i, j;	/* start,end in a target sequence (1..L)  */
+  int k, m;     /* start,end in a query model (1..M)      */
+  float prob;	/* posterior probability of segment       */
+};
+
+/* Structure: P7_SPENSEMBLE
+ *
+ * Collection and clustering of an ensemble of sampled segment pairs,
+ * in order to define domain locations using their posterior
+ * probability distribution (as opposed to Viterbi MAP tracebacks).
+ */
+typedef struct p7_spensemble_s {
+  /* Section 1: a collected ensemble of segment pairs                                       */
+  int                  nsamples;    /* number of sampled traces                             */
+  struct p7_spcoord_s *sp;	    /* array of sampled seg pairs; [0..n-1]                 */
+  int                  nalloc;	    /* allocated size of <sp>                               */
+  int                  n;	    /* number of seg pairs in <sp>                          */
+
+  /* Section 2: then the ensemble is clustered by single-linkage clustering                 */
+  int *workspace;                   /* temp space for Easel SLC algorithm: 2*n              */
+  int *assignment;                  /* each seg pair's cluster index: [0..n-1] = (0..nc-1)  */
+  int  nc;	                    /* number of different clusters                         */
+
+  /* Section 3: then endpoint distribution is examined within each large cluster            */
+  int *epc;	                    /* array counting frequency of each endpoint            */
+  int  epc_alloc;	            /* allocated width of <epc>                             */
+  
+  /* Section 4: finally each large cluster is resolved into domain coords                   */
+  struct p7_spcoord_s *sigc;	    /* array of coords for each domain, [0..nsigc-1]        */
+  int                  nsigc;	    /* number of "significant" clusters, domains            */
+  int                  nsigc_alloc; /* current allocated max for nsigc                      */
+} P7_SPENSEMBLE;
+
+
+
+/*****************************************************************
+ * 9. P7_ALIDISPLAY: an alignment formatted for printing
+ *****************************************************************/
+
+/* Structure: P7_ALIDISPLAY
+ * 
+ * Alignment of a sequence domain to an HMM, formatted for printing.
+ * 
+ * For an alignment of L residues and names C chars long, requires
+ * 6L + 2C + 30 bytes; for typical case of L=100,C=10, that's
+ * <0.7 Kb.
+ */
+typedef struct p7_alidisplay_s {
+  char *rfline;                 /* reference coord info; or NULL        */
+  char *mmline;                 /* modelmask coord info; or NULL        */
+  char *csline;                 /* consensus structure info; or NULL    */
+  char *model;                  /* aligned query consensus sequence     */
+  char *mline;                  /* "identities", conservation +'s, etc. */
+  char *aseq;                   /* aligned target sequence              */
+  char *ppline;			        /* posterior prob annotation; or NULL   */
+  int   N;			            /* length of strings                    */
+
+  char *hmmname;		/* name of HMM                          */
+  char *hmmacc;			/* accession of HMM; or [0]='\0'        */
+  char *hmmdesc;		/* description of HMM; or [0]='\0'      */
+  int   hmmfrom;		/* start position on HMM (1..M, or -1)  */
+  int   hmmto;			/* end position on HMM (1..M, or -1)    */
+  int   M;			/* length of model                      */
+
+  char *sqname;			/* name of target sequence              */
+  char *sqacc;			/* accession of target seq; or [0]='\0' */
+  char *sqdesc;			/* description of targ seq; or [0]='\0' */
+  long  sqfrom;			/* start position on sequence (1..L)    */
+  long  sqto;		    /* end position on sequence   (1..L)    */
+  long  L;			/* length of sequence                   */
+
+  int   memsize;                /* size of allocated block of memory    */
+  char *mem;			/* memory used for the char data above  */
+} P7_ALIDISPLAY;
+
+
+/*****************************************************************
+ * 10. P7_DOMAINDEF: reusably managing workflow in defining domains
+ *****************************************************************/
+
+typedef struct p7_dom_s { 
+  int            ienv, jenv;
+  int            iali, jali;
+  float          envsc;  	/* Forward score in envelope ienv..jenv; NATS; without null2 correction       */
+  float          domcorrection;	/* null2 score when calculating a per-domain score; NATS                      */
+  float          dombias;	/* FLogsum(0, log(bg->omega) + domcorrection): null2 score contribution; NATS */
+  float          oasc;		/* optimal accuracy score (units: expected # residues correctly aligned)      */
+  float          bitscore;	/* overall score in BITS, null corrected, if this were the only domain in seq */
+  double         lnP;	        /* log(P-value) of the bitscore                                               */
+  int            is_reported;	/* TRUE if domain meets reporting thresholds                                  */
+  int            is_included;	/* TRUE if domain meets inclusion thresholds                                  */
+  float         *scores_per_pos; /* score in BITS that each position in the alignment contributes to an overall viterbi score */
+  P7_ALIDISPLAY *ad; 
+} P7_DOMAIN;
+
+/* Structure: P7_DOMAINDEF
+ * 
+ * This is a container for all the necessary information for domain
+ * definition procedures in <p7_domaindef.c>, including a bunch of
+ * heuristic thresholds. The structure is reusable to minimize the
+ * number of allocation/free cycles that need to be done when
+ * processing a large number of sequences. You create the structure
+ * with <p7_domaindef_Create()>; after you're done with defining
+ * domains on a sequence, you call <p7_domaindef_Reuse()> before using
+ * it on the next sequence; and when you're completely done, you free
+ * it with <p7_domaindef_Destroy()>. All memory management is handled
+ * internally; you don't need to reallocate anything yourself.
+ */
+typedef struct p7_domaindef_s {
+  /* for posteriors of being in a domain, B, E */
+  float *mocc;			/* mocc[i=1..L] = prob that i is emitted by core model (is in a domain)       */
+  float *btot; 			/* btot[i=1..L] = cumulative expected times that domain starts at or before i */
+  float *etot;			/* etot[i=1..L] = cumulative expected times that domain ends at or before i   */
+  int    L;
+  int    Lalloc;
+
+  /* the ad hoc null2 model: 1..L nat scores for each residue, log f'(x_i) / f(x_i) */
+  float *n2sc;
+
+  /* rng and reusable memory for stochastic tracebacks */
+  ESL_RANDOMNESS *r;		/* random number generator                                 */
+  int             do_reseeding;	/* TRUE to reset the RNG, make results reproducible        */
+  P7_SPENSEMBLE  *sp;		/* an ensemble of sampled segment pairs (domain endpoints) */
+  P7_TRACE       *tr;		/* reusable space for a trace of a domain                  */
+  P7_TRACE       *gtr;		/* reusable space for a traceback of the entire target seq */
+
+  /* Heuristic thresholds that control the region definition process */
+  /* "rt" = "region threshold", for lack of better term  */
+  float  rt1;   	/* controls when regions are called. mocc[i] post prob >= dt1 : triggers a region around i */
+  float  rt2;		/* controls extent of regions. regions extended until mocc[i]-{b,e}occ[i] < dt2            */
+  float  rt3;		/* controls when regions are flagged for split: if expected # of E preceding B is >= dt3   */
+  
+  /* Heuristic thresholds that control the stochastic traceback/clustering process */
+  int    nsamples;	/* collect ensemble of this many stochastic traces */
+  float  min_overlap;	/* 0.8 means >= 80% overlap of (smaller/larger) segment to link, both in seq and hmm            */
+  int    of_smaller;	/* see above; TRUE means overlap denom is calc'ed wrt smaller segment; FALSE means larger       */
+  int    max_diagdiff;	/* 4 means either start or endpoints of two segments must be within <=4 diagonals of each other */
+  float  min_posterior;	/* 0.25 means a cluster must have >= 25% posterior prob in the sample to be reported            */
+  float  min_endpointp;	/* 0.02 means choose widest endpoint with post prob of at least 2%                              */
+
+  /* storage of the results; domain locations, scores, alignments          */
+  P7_DOMAIN *dcl;
+  int        ndom;	 /* number of domains defined, in the end.         */
+  int        nalloc;     /* number of domain structures allocated in <dcl> */
+
+  /* Additional results storage */
+  float  nexpected;     /* posterior expected number of domains in the sequence (from posterior arrays) */
+  int    nregions;	/* number of regions evaluated */
+  int    nclustered;	/* number of regions evaluated by clustering ensemble of tracebacks */
+  int    noverlaps;	/* number of envelopes defined in ensemble clustering that overlap w/ prev envelope */
+  int    nenvelopes;	/* number of envelopes handed over for domain definition, null2, alignment, and scoring. */
+
+} P7_DOMAINDEF;
+
+
+/*****************************************************************
+ * 11. P7_TOPHITS: ranking lists of top-scoring hits
+ *****************************************************************/
+
+#define p7_HITFLAGS_DEFAULT 0
+#define p7_IS_INCLUDED      (1<<0)
+#define p7_IS_REPORTED      (1<<1)
+#define p7_IS_NEW           (1<<2)
+#define p7_IS_DROPPED       (1<<3)
+#define p7_IS_DUPLICATE     (1<<4)
+
+
+/* Structure: P7_HIT
+ * 
+ * Info about a high-scoring database hit, kept so we can output a
+ * sorted list of high hits at the end.
+ *
+ * sqfrom and sqto are the coordinates that will be shown
+ * in the results, not coords in arrays... therefore, reverse
+ * complements have sqfrom > sqto
+ */
+typedef struct p7_hit_s {
+  char   *name;			/* name of the target               (mandatory)           */
+  char   *acc;			/* accession of the target          (optional; else NULL) */
+  char   *desc;			/* description of the target        (optional; else NULL) */
+  int    window_length;         /* for later use in e-value computation, when splitting long sequences */
+  double sortkey;		/* number to sort by; big is better                       */
+
+  float  score;			/* bit score of the sequence (all domains, w/ correction) */
+  float  pre_score;		/* bit score of sequence before null2 correction          */
+  float  sum_score;		/* bit score reconstructed from sum of domain envelopes   */
+
+  double lnP;		        /* log(P-value) of the score               */
+  double pre_lnP;		/* log(P-value) of the pre_score           */
+  double sum_lnP;		/* log(P-value) of the sum_score           */
+
+  float  nexpected;     /* posterior expected number of domains in the sequence (from posterior arrays) */
+  int    nregions;	/* number of regions evaluated */
+  int    nclustered;	/* number of regions evaluated by clustering ensemble of tracebacks */
+  int    noverlaps;	/* number of envelopes defined in ensemble clustering that overlap w/ prev envelope */
+  int    nenvelopes;	/* number of envelopes handed over for domain definition, null2, alignment, and scoring. */
+  int    ndom;		/* total # of domains identified in this seq   */
+
+  uint32_t flags;      	/* p7_IS_REPORTED | p7_IS_INCLUDED | p7_IS_NEW | p7_IS_DROPPED */
+  int      nreported;	/* # of domains satisfying reporting thresholding  */
+  int      nincluded;	/* # of domains satisfying inclusion thresholding */
+  int      best_domain;	/* index of best-scoring domain in dcl */
+
+  int64_t  seqidx;          /*unique identifier to track the database sequence from which this hit came*/
+  int64_t  subseq_start; /*used to track which subsequence of a full_length target this hit came from, for purposes of removing duplicates */
+
+  P7_DOMAIN *dcl;	/* domain coordinate list and alignment display */
+  esl_pos_t  offset;	/* used in socket communications, in serialized communication: offset of P7_DOMAIN msg for this P7_HIT */
+} P7_HIT;
+
+
+/* Structure: P7_TOPHITS
+ * merging when we prepare to output results. "hit" list is NULL and
+ * unavailable until after we do a sort.  
+ */
+typedef struct p7_tophits_s {
+  P7_HIT **hit;         /* sorted pointer array                     */
+  P7_HIT  *unsrt;	/* unsorted data storage                    */
+  uint64_t Nalloc;	/* current allocation size                  */
+  uint64_t N;		/* number of hits in list now               */
+  uint64_t nreported;	/* number of hits that are reportable       */
+  uint64_t nincluded;	/* number of hits that are includable       */
+  int      is_sorted_by_sortkey; /* TRUE when hits sorted by sortkey and th->hit valid for all N hits */
+  int      is_sorted_by_seqidx; /* TRUE when hits sorted by seq_idx, position, and th->hit valid for all N hits */
+} P7_TOPHITS;
+
+
+
+
+
+/*****************************************************************
+ * 12. P7_SCOREDATA: data used in diagonal recovery and extension
+ *****************************************************************/
+
+enum p7_scoredatatype_e {
+  p7_sd_std  = 0,
+  p7_sd_fm   = 1,
+};
+
+
+/* This contains a compact representation of 8-bit bias-shifted scores for use in
+ * diagonal recovery (standard SSV) and extension (standard and FM-SSV),
+ * along with MAXL-associated prefix- and suffix-lengths, and optimal extensions
+ * for FM-SSV.
+ */
+typedef struct p7_scoredata_s {
+  int         type;
+  int         M;
+  union {//implicit (M+1)*K matrix, where M = # states, and K = # characters in alphabet
+    uint8_t  *ssv_scores;    // this 2D array is used in the default nhmmer pipeline
+    float    *ssv_scores_f;  // this 2D array is used in the FM-index based pipeline
+  };
+  float      *prefix_lengths;
+  float      *suffix_lengths;
+  float      *fwd_scores;
+  float     **fwd_transitions;
+  float     **opt_ext_fwd; // Used only for FM-index based pipeline
+  float     **opt_ext_rev; // Used only for FM-index based pipeline
+} P7_SCOREDATA;
+
+
+/*****************************************************************
+ * 13. P7_HMM_WINDOW: data used to track lists of sequence windows
+ *****************************************************************/
+
+
+typedef struct p7_hmm_window_s {
+  float      score;
+  float      null_sc;
+  int32_t    id;          //sequence id of the database sequence hit
+  int64_t    n;           //position in database sequence at which the diagonal/window starts
+  int64_t    fm_n;        //position in the concatenated fm-index sequence at which the diagonal starts
+  int32_t    length;      // length of the diagonal/window
+  int16_t    k;           //position of the model at which the diagonal ends
+  int64_t    target_len;  //length of the target sequence
+  int8_t     complementarity;
+  int8_t     used_to_extend;
+} P7_HMM_WINDOW;
+
+typedef struct p7_hmm_window_list_s {
+  P7_HMM_WINDOW *windows;
+  int       count;
+  int       size;
+} P7_HMM_WINDOWLIST;
+
+
+
+/*****************************************************************
+ * 14. The optimized implementation.
+ *****************************************************************/
+#if   defined (p7_IMPL_SSE)
+#include "impl_sse/impl_sse.h"
+#elif defined (p7_IMPL_VMX)
+#include "impl_vmx/impl_vmx.h"
+#else
+#include "impl_dummy/impl_dummy.h"
+#endif
+
+
+/*****************************************************************
+ * 15. The FM-index acceleration to the SSV filter.  Only works for SSE
+ *****************************************************************/
+#define FM_MAX_LINE 256
+
+/* Structure the 2D occ array into a single array.  "type" is either b or sb.
+ * Note that one extra count value is required by RLE, one 4-byte int for
+ * each superblock count vector, and one 2-byte short for each block count
+ * vector. This is small overhead, even for a small alphabet like dna.
+ */
+#define FM_OCC_CNT( type, i, c)  ( occCnts_##type[(meta->alph_size)*(i) + (c)])
+
+enum fm_alphabettypes_e {
+  fm_DNA        = 0,  //acgt,  2 bit
+  //fm_DNA_full   = 1,  //includes ambiguity codes, 4 bit.
+  fm_AMINO      = 4,  // 5 bit
+};
+/*TODO: fm_DNA_full has currently been disabled because of problems with how the
+ * FM index handles very long runs of the same character (in this case, Ns).
+ * See wheelert/notebook/2013/12-11-FM-alphabet-speed notes on 12/12.
+ */
+
+enum fm_direction_e {
+  fm_forward    = 0,
+  fm_backward   = 1,
+};
+
+
+typedef struct fm_interval_s {
+  int   lower;
+  int   upper;
+} FM_INTERVAL;
+
+typedef struct fm_hit_s {
+  uint64_t  start;
+  uint32_t  block;
+  int       direction;
+  int       length;
+  int       sortkey;
+} FM_HIT;
+
+
+
+typedef struct fm_ambiglist_s {
+  FM_INTERVAL *ranges;
+  uint32_t     count;
+  uint32_t     size;
+} FM_AMBIGLIST;
+
+
+typedef struct fm_seqdata_s {
+
+  uint32_t target_id;      // Which sequence in the target database did this segment come from (can be multiple segment per sequence, if a sequence has Ns)
+  uint64_t target_start;   // The position in sequence {id} in the target database at which this sequence-block starts (usually 1, unless its a long sequence split out over multiple FMs)
+  uint32_t fm_start;       // The position in the FM block at which this sequence begins
+  uint32_t length;         // Length of this sequence segment  (usually the length of the target sequence, unless its a long sequence split out over multiple FMs)
+
+
+  //meta data taken from the sequence this segment was taken from
+  uint16_t name_length;
+  uint16_t source_length;
+  uint16_t acc_length;
+  uint16_t desc_length;
+  char     *name;
+  char     *source;
+  char     *acc;
+  char     *desc;
+} FM_SEQDATA;
+
+
+typedef struct fm_metadata_s {
+  uint8_t  fwd_only;
+  uint8_t  alph_type;
+  uint8_t  alph_size;
+  uint8_t  charBits;
+  uint32_t freq_SA; //frequency with which SA is sampled
+  uint32_t freq_cnt_sb; //frequency with which full cumulative counts are captured
+  uint32_t freq_cnt_b; //frequency with which intermittent counts are captured
+  uint16_t block_count;
+  uint32_t seq_count;
+  uint64_t char_count; //total count of characters including those in and out of the alphabet
+  char     *alph;
+  char     *inv_alph;
+  int      *compl_alph;
+  FILE         *fp;
+  FM_SEQDATA   *seq_data;
+  FM_AMBIGLIST *ambig_list;
+} FM_METADATA;
+
+
+typedef struct fm_data_s {
+  uint64_t N; //length of text
+  uint32_t term_loc; // location in the BWT at which the '$' char is found (replaced in the sequence with 'a')
+  uint32_t seq_offset;
+  uint32_t ambig_offset;
+  uint32_t seq_cnt;
+  uint32_t ambig_cnt;
+  uint32_t overlap; // number of bases at the beginning that overlap the FM-index for the preceding block
+  uint8_t  *T;  //text corresponding to the BWT
+  uint8_t  *BWT_mem;
+  uint8_t  *BWT;
+  uint32_t *SA; // sampled suffix array
+  int64_t  *C; //the first position of each letter of the alphabet if all of T is sorted.  (signed, as I use that to keep tract of presence/absence)
+  uint32_t *occCnts_sb;
+  uint16_t *occCnts_b;
+} FM_DATA;
+
+typedef struct fm_dp_pair_s {
+  uint16_t    pos;  // position of the diagonal in the model.
+  float       score;
+  float       max_score;
+  uint8_t     score_peak_len; // how long was the diagonal when the most recent peak (within fm_drop_lim of the max score) was seen?
+  uint8_t     consec_pos;
+  uint8_t     max_consec_pos;
+  uint8_t     consec_consensus;
+  uint8_t     model_direction;
+  uint8_t     complementarity;
+} FM_DP_PAIR;
+
+
+typedef struct fm_diag_s {
+  uint64_t    n;  //position of the database sequence at which the diagonal starts
+  union {
+    double    sortkey;
+    double    score;
+  };
+  uint16_t    k;  //position of the model at which the diagonal starts
+  uint16_t    length;
+  uint8_t     complementarity;
+} FM_DIAG;
+
+typedef struct fm_diaglist_s {
+  FM_DIAG   *diags;
+  int       count;
+  int       size;
+} FM_DIAGLIST;
+
+/* Effectively global variables, to be initialized once in fm_initConfig(),
+ * then passed around among threads to avoid recomputing them
+ *
+ * When allocated, must be 16-byte aligned, and all _m128i elements
+ * must precede other types
+ */
+typedef struct {
+#if   defined (p7_IMPL_SSE)
+  /* mask arrays, and 16-byte-offsets into them */
+  __m128i *fm_masks_mem;
+  __m128i *fm_masks_v;
+  __m128i *fm_reverse_masks_mem;
+  __m128i *fm_reverse_masks_v;
+  __m128i *fm_chars_mem;
+  __m128i *fm_chars_v;
+
+  /*various precomputed vectors*/
+  __m128i fm_allones_v;
+  __m128i fm_zeros_v;
+  __m128i fm_neg128_v;
+  __m128i fm_m0f;  //00 00 11 11
+  __m128i fm_m01;  //01 01 01 01
+  __m128i fm_m11;  //00 00 00 11
+
+  /* no non-__m128i- elements above this line */
+#endif //#if   defined (p7_IMPL_SSE)
+
+  /*counter, to compute FM-index speed*/
+  int occCallCnt;
+
+  /*bounding cutoffs*/
+  int max_depth;
+  float drop_lim;  // 0.2 ; in seed, max drop in a run of length [fm_drop_max_len]
+  int drop_max_len; // 4 ; maximum run length with score under (max - [fm_drop_lim])
+  int consec_pos_req; //5
+  int consensus_match_req; //10
+  float score_density_req; //.5
+  int ssv_length;
+  float scthreshFM;
+  float sc_thresh_ratio; //information content deficit,  actual_relent/target_relent
+
+  /*pointer to FM-index metadata*/
+  FM_METADATA *meta;
+
+} FM_CFG;
+
+
+#if   defined (p7_IMPL_SSE)
+//used to convert from a byte array to an __m128i
+typedef union {
+        uint8_t bytes[16];
+        __m128i m128;
+        } byte_m128;
+
+
+/* Gather the sum of all counts in a 16x8-bit element into a single 16-bit
+ *  element of the register (the 0th element)
+ *
+ *  the _mm_sad_epu8  accumulates 8-bit counts into 16-bit counts:
+ *      left 8 counts (64-bits) accumulate in counts_v[0],
+ *      right 8 counts in counts_v[4]  (the other 6 16-bit ints are 0)
+ *  the _mm_shuffle_epi32  flips the 4th int into the 0th slot
+ */
+#define FM_GATHER_8BIT_COUNTS( in_v, mid_v, out_v  ) do {\
+    mid_v = _mm_sad_epu8 (in_v, cfg->fm_zeros_v);\
+    tmp_v = _mm_shuffle_epi32(mid_v, _MM_SHUFFLE(1, 1, 1, 2));\
+    out_v = _mm_add_epi16(mid_v, tmp_v);\
+  } while (0)
+
+
+/* Macro for SSE operations to turn 2-bit character values into 2-bit binary
+ * (00 or 01) match/mismatch values representing occurrences of a character in a
+ * 4-char-per-byte packed BWT.
+ *
+ * Typically followed by a call to FM_COUNT_SSE_4PACKED, possibly with a
+ * mask in between to handle the case where we don't want to add over all
+ * positions in the vector
+ *
+ * tmp_v and tmp2_v are used as temporary vectors throughout, and hold meaningless values
+ * at the end
+ *
+ * xor(in_v, c_v)        : each 2-bit value will be 00 if a match, and non-0 if a mismatch
+ * and(in_v, 01010101)   : look at the right bit of each 2-bit value,
+ * srli(1)+and()         : look at the left bit of each 2-bit value,
+ * or()                  : if either left bit or right bit is non-0, 01, else 00 (match is 00)
+ *
+ * subs()                : invert, so match is 01, mismatch is 00
+ *
+ */
+#define FM_MATCH_2BIT(in_v, c_v, a_v, b_v, out_v) do {\
+    a_v = _mm_xor_si128(in_v, c_v);\
+    \
+    b_v  = _mm_srli_epi16(a_v, 1);\
+    a_v  = _mm_or_si128(a_v, b_v);\
+    b_v  = _mm_and_si128(a_v, cfg->fm_m01);\
+    \
+    out_v  = _mm_subs_epi8(cfg->fm_m01,b_v);\
+  } while (0)
+
+
+/*Macro for SSE operations to count bits produced by FM_MATCH_SSE_4PACKED
+ *
+ * tmp_v and tmp2_v are used as temporary vectors throughout, and hold meaningless values
+ * at the end
+ *
+ * then add up the 2-bit values:
+ * srli(4)+add()         : left 4 bits shifted right, added to right 4 bits
+ *
+ * srli(2)+and(00000011) : left 2 bits (value 0..2) shifted right, masked, so no other bits active
+ * and(00000011)         : right 2 bits (value 0..2) masked so no other bits active
+ *
+ * final 2 add()s        : tack current counts on to already-tabulated counts.
+ */
+#define FM_COUNT_2BIT(a_v, b_v, cnts_v) do {\
+        b_v = _mm_srli_epi16(a_v, 4);\
+        a_v  = _mm_add_epi16(a_v, b_v);\
+        \
+        b_v = _mm_srli_epi16(a_v, 2);\
+        a_v  = _mm_and_si128(a_v,cfg->fm_m11);\
+        b_v = _mm_and_si128(b_v,cfg->fm_m11);\
+        \
+        cnts_v = _mm_add_epi16(cnts_v, a_v);\
+        cnts_v = _mm_add_epi16(cnts_v, b_v);\
+  } while (0)
+
+
+
+/* Macro for SSE operations that turns a vector of 4-bit character values into
+ * 2 vectors representing matches. Each byte in the input vector consists of
+ * a left half (4 bits) and a right half (4 bits). The 16 left-halves produce
+ * one vector, which contains all-1s for bytes in which the left half matches
+ * the c_v character (and 0s if it doesn't), while the 16 right-halves produce
+ * the other vector, again with each byte either all-1s or all-0s.
+ *
+ * The expectation is that FM_COUNT_4BIT will be called after this, to
+ * turn these binary values into sums over a series of vectors. The macros
+ * are split up to allow one end or other to be trimmed in the case that
+ * counting is not expected to include the full vector.
+ *
+ * srli(4)+and() : capture the left 4-bit value   (need the mask because 16-bit shift leaves garbage in left-4-bit chunks)
+ * and()         : capture the right 4-bit value
+ *
+ * cmpeq()x2     : test if both left and right == c.  For each, if ==c , value = 11111111 (-1)
+ */
+#define FM_MATCH_4BIT(in_v, c_v, out1_v, out2_v) do {\
+    out1_v    = _mm_srli_epi16(in_v, 4);\
+    out2_v    = _mm_and_si128(in_v, cfg->fm_m0f);\
+    out1_v    = _mm_and_si128(out1_v, cfg->fm_m0f);\
+    \
+    out1_v    = _mm_cmpeq_epi8(out1_v, c_v);\
+    out2_v    = _mm_cmpeq_epi8(out2_v, c_v);\
+  } while (0)
+
+
+/* Macro for SSE operations that turns a vector of 4-bit character values into
+ * 2 vectors representing matches. Each byte in the input vector consists of
+ * a left half (4 bits) and a right half (4 bits). The 16 left-halves produce
+ * one vector, which contains all-1s for bytes in which the left half is less than
+ * the c_v character (and 0s if it doesn't), while the 16 right-halves produce
+ * the other vector, again with each byte either all-1s or all-0s.
+ *
+ * The expectation is that FM_COUNT_4BIT will be called after this, to
+ * turn these binary values into sums over a series of vectors. The macros
+ * are split up to allow one end or other to be trimmed in the case that
+ * counting is not expected to include the full vector.
+ *
+ * srli(4)+and() : capture the left 4-bit value   (need the mask because 16-bit shift leaves garbage in left-4-bit chunks)
+ * and()         : capture the right 4-bit value
+ *
+ * cmplt()x2     : test if both left and right < c.  For each, if <c , value = 11111111 (-1)
+ */
+#define FM_LT_4BIT(in_v, c_v, out1_v, out2_v) do {\
+    out1_v    = _mm_srli_epi16(in_v, 4);\
+    out2_v    = _mm_and_si128(in_v, cfg->fm_m0f);\
+    out1_v    = _mm_and_si128(out1_v, cfg->fm_m0f);\
+    \
+    out1_v    = _mm_cmplt_epi8(out1_v, c_v);\
+    out2_v    = _mm_cmplt_epi8(out2_v, c_v);\
+  } while (0)
+
+
+
+/* Macro for SSE operations to add occurrence counts to the tally vector counts_v,
+ * in the 4-bits-per-character case
+ *
+ * The expectation is that in[12]_v will contain bytes that are either
+ *   00000000  =  0
+ *  or
+ *   11111111  = -1
+ * so subtracting the value of the byte is the same as adding 0 or 1.
+ */
+#define FM_COUNT_4BIT(in1_v, in2_v, cnts_v) do {\
+    cnts_v = _mm_subs_epi8(cnts_v, in1_v);\
+    cnts_v = _mm_subs_epi8(cnts_v, in2_v);\
+  } while (0)
+
+
+#endif  // if  defined (p7_IMPL_SSE)
+
+/*****************************************************************
+ * 16. P7_PIPELINE: H3's accelerated seq/profile comparison pipeline
+ *****************************************************************/
+
+enum p7_pipemodes_e { p7_SEARCH_SEQS = 0, p7_SCAN_MODELS = 1 };
+enum p7_zsetby_e    { p7_ZSETBY_NTARGETS = 0, p7_ZSETBY_OPTION = 1, p7_ZSETBY_FILEINFO = 2 };
+enum p7_complementarity_e { p7_NOCOMPLEMENT    = 0, p7_COMPLEMENT   = 1 };
+
+typedef struct p7_pipeline_s {
+  /* Dynamic programming matrices                                           */
+  P7_OMX     *oxf;		/* one-row Forward matrix, accel pipe       */
+  P7_OMX     *oxb;		/* one-row Backward matrix, accel pipe      */
+  P7_OMX     *fwd;		/* full Fwd matrix for domain envelopes     */
+  P7_OMX     *bck;		/* full Bck matrix for domain envelopes     */
+
+  /* Domain postprocessing                                                  */
+  ESL_RANDOMNESS *r;		/* random number generator                  */
+  int             do_reseeding; /* TRUE: reseed for reproducible results    */
+  int             do_alignment_score_calc;
+  P7_DOMAINDEF   *ddef;		/* domain definition workflow               */
+
+
+  /* Reporting threshold settings                                           */
+  int     by_E;		        /* TRUE to cut per-target report off by E   */
+  double  E;	                /* per-target E-value threshold             */
+  double  T;	                /* per-target bit score threshold           */
+  int     dom_by_E;             /* TRUE to cut domain reporting off by E    */
+  double  domE;	                /* domain E-value threshold                 */
+  double  domT;	                /* domain bit score threshold               */
+  int     use_bit_cutoffs;      /* (FALSE | p7H_GA | p7H_TC | p7H_NC)       */
+
+  /* Inclusion threshold settings                                           */
+  int     inc_by_E;		/* TRUE to threshold inclusion by E-values  */
+  double  incE;			/* per-target inclusion E-value threshold   */
+  double  incT;			/* per-target inclusion score threshold     */
+  int     incdom_by_E;		/* TRUE to threshold domain inclusion by E  */
+  double  incdomE;		/* per-domain inclusion E-value threshold   */
+  double  incdomT;		/* per-domain inclusion E-value threshold   */
+
+  /* Tracking search space sizes for E value calculations                   */
+  double  Z;			/* eff # targs searched (per-target E-val)  */
+  double  domZ;			/* eff # signific targs (per-domain E-val)  */
+  enum p7_zsetby_e Z_setby;   	/* how Z was set                            */
+  enum p7_zsetby_e domZ_setby;	/* how domZ was set                         */
+  
+  /* Threshold settings for pipeline                                        */
+  int     do_max;	        /* TRUE to run in slow/max mode             */
+  double  F1;		        /* MSV filter threshold                     */
+  double  F2;		        /* Viterbi filter threshold                 */
+  double  F3;		        /* uncorrected Forward filter threshold     */
+  int     B1;               /* window length for biased-composition modifier - MSV*/
+  int     B2;               /* window length for biased-composition modifier - Viterbi*/
+  int     B3;               /* window length for biased-composition modifier - Forward*/
+  int     do_biasfilter;	/* TRUE to use biased comp HMM filter       */
+  int     do_null2;		/* TRUE to use null2 score corrections      */
+
+  /* Accounting. (reduceable in threaded/MPI parallel version)              */
+  uint64_t      nmodels;        /* # of HMMs searched                       */
+  uint64_t      nseqs;	        /* # of sequences searched                  */
+  uint64_t      nres;	        /* # of residues searched                   */
+  uint64_t      nnodes;	        /* # of model nodes searched                */
+  uint64_t      n_past_msv;	/* # comparisons that pass MSVFilter()      */
+  uint64_t      n_past_bias;	/* # comparisons that pass bias filter      */
+  uint64_t      n_past_vit;	/* # comparisons that pass ViterbiFilter()  */
+  uint64_t      n_past_fwd;	/* # comparisons that pass ForwardFilter()  */
+  uint64_t      n_output;	    /* # alignments that make it to the final output (used for nhmmer) */
+  uint64_t      pos_past_msv;	/* # positions that pass MSVFilter()  (used for nhmmer) */
+  uint64_t      pos_past_bias;	/* # positions that pass bias filter  (used for nhmmer) */
+  uint64_t      pos_past_vit;	/* # positions that pass ViterbiFilter()  (used for nhmmer) */
+  uint64_t      pos_past_fwd;	/* # positions that pass ForwardFilter()  (used for nhmmer) */
+  uint64_t      pos_output;	    /* # positions that make it to the final output (used for nhmmer) */
+
+  enum p7_pipemodes_e mode;    	/* p7_SCAN_MODELS | p7_SEARCH_SEQS          */
+  int           long_targets;   /* TRUE if the target sequences are expected to be very long (e.g. dna chromosome search in nhmmer) */
+  int           strands;         /*  p7_STRAND_TOPONLY  | p7_STRAND_BOTTOMONLY |  p7_STRAND_BOTH */
+  int 		    	W;              /* window length for nhmmer scan - essentially maximum length of model that we expect to find*/
+  int           block_length;   /* length of overlapping blocks read in the multi-threaded variant (default MAX_RESIDUE_COUNT) */
+
+  int           show_accessions;/* TRUE to output accessions not names      */
+  int           show_alignments;/* TRUE to output alignments (default)      */
+
+  P7_HMMFILE   *hfp;		/* COPY of open HMM database (if scan mode) */
+  char          errbuf[eslERRBUFSIZE];
+} P7_PIPELINE;
+
+
+
+/*****************************************************************
+ * 17. P7_BUILDER: pipeline for new HMM construction
+ *****************************************************************/
+
+#define p7_DEFAULT_WINDOW_BETA  1e-7
+
+enum p7_archchoice_e { p7_ARCH_FAST = 0, p7_ARCH_HAND = 1 };
+enum p7_wgtchoice_e  { p7_WGT_NONE  = 0, p7_WGT_GIVEN = 1, p7_WGT_GSC    = 2, p7_WGT_PB       = 3, p7_WGT_BLOSUM = 4 };
+enum p7_effnchoice_e { p7_EFFN_NONE = 0, p7_EFFN_SET  = 1, p7_EFFN_CLUST = 2, p7_EFFN_ENTROPY = 3 };
+
+typedef struct p7_builder_s {
+  /* Model architecture                                                                            */
+  enum p7_archchoice_e arch_strategy;    /* choice of model architecture determination algorithm   */
+  float                symfrac;	         /* residue occ thresh for fast architecture determination */
+  float                fragthresh;	 /* if L <= fragthresh*alen, seq is called a fragment      */
+
+  /* Relative sequence weights                                                                     */
+  enum p7_wgtchoice_e  wgt_strategy;     /* choice of relative sequence weighting algorithm        */
+  double               wid;		 /* %id threshold for BLOSUM relative weighting            */
+
+  /* Effective sequence number                                                                     */
+  enum p7_effnchoice_e effn_strategy;    /* choice of effective seq # determination algorithm      */
+  double               re_target;	 /* rel entropy target for effn eweighting, if set; or -1.0*/
+  double               esigma;		 /* min total rel ent parameter for effn entropy weights   */
+  double               eid;		 /* %id threshold for effn clustering                      */
+  double               eset;		 /* effective sequence number, if --eset; or -1.0          */
+
+  /* Run-to-run variation due to random number generation                                          */
+  ESL_RANDOMNESS      *r;	         /* RNG for E-value calibration simulations                */
+  int                  do_reseeding;	 /* TRUE to reseed, making results reproducible            */
+
+  /* E-value parameter calibration                                                                 */
+  int                  EmL;            	 /* length of sequences generated for MSV fitting          */
+  int                  EmN;	         /* # of sequences generated for MSV fitting               */
+  int                  EvL;            	 /* length of sequences generated for Viterbi fitting      */
+  int                  EvN;	         /* # of sequences generated for Viterbi fitting           */
+  int                  EfL;	         /* length of sequences generated for Forward fitting      */
+  int                  EfN;	         /* # of sequences generated for Forward fitting           */
+  double               Eft;	         /* tail mass used for Forward fitting                     */
+
+  /* Choice of prior                                                                               */
+  P7_PRIOR            *prior;	         /* choice of prior when parameterizing from counts        */
+  int                  max_insert_len;
+
+  /* Optional: information used for parameterizing single sequence queries                         */
+  ESL_SCOREMATRIX     *S;		 /* residue score matrix                                   */
+  ESL_DMATRIX         *Q;	         /* Q->mx[a][b] = P(b|a) residue probabilities             */
+  double               popen;         	 /* gap open probability                                   */
+  double               pextend;          /* gap extend probability                                 */
+
+  double               w_beta;    /*beta value used to compute W (window length)   */
+  int                  w_len;     /*W (window length)  explicitly set */
+
+  const ESL_ALPHABET  *abc;		 /* COPY of alphabet                                       */
+  char errbuf[eslERRBUFSIZE];            /* informative message on model construction failure      */
+} P7_BUILDER;
+
+
+
+/*****************************************************************
+ * 18. Routines in HMMER's exposed API.
+ *****************************************************************/
+
+/* build.c */
+extern int p7_Handmodelmaker(ESL_MSA *msa,                P7_BUILDER *bld, P7_HMM **ret_hmm, P7_TRACE ***ret_tr);
+extern int p7_Fastmodelmaker(ESL_MSA *msa, float symfrac, P7_BUILDER *bld, P7_HMM **ret_hmm, P7_TRACE ***ret_tr);
+
+/* emit.c */
+extern int p7_CoreEmit   (ESL_RANDOMNESS *r, const P7_HMM *hmm,                                        ESL_SQ *sq, P7_TRACE *tr);
+extern int p7_ProfileEmit(ESL_RANDOMNESS *r, const P7_HMM *hmm, const P7_PROFILE *gm, const P7_BG *bg, ESL_SQ *sq, P7_TRACE *tr);
+extern int p7_emit_SimpleConsensus(const P7_HMM *hmm, ESL_SQ *sq);
+extern int p7_emit_FancyConsensus (const P7_HMM *hmm, float min_lower, float min_upper, ESL_SQ *sq);
+
+/* errors.c */
+extern void p7_Die (char *format, ...);
+extern void p7_Fail(char *format, ...);
+
+/* evalues.c */
+extern int p7_Calibrate(P7_HMM *hmm, P7_BUILDER *cfg_b, ESL_RANDOMNESS **byp_rng, P7_BG **byp_bg, P7_PROFILE **byp_gm, P7_OPROFILE **byp_om);
+extern int p7_Lambda(P7_HMM *hmm, P7_BG *bg, double *ret_lambda);
+extern int p7_MSVMu     (ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda,               double *ret_mmu);
+extern int p7_ViterbiMu (ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda,               double *ret_vmu);
+extern int p7_Tau       (ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double tailp, double *ret_tau);
+
+/* eweight.c */
+extern int p7_EntropyWeight(const P7_HMM *hmm, const P7_BG *bg, const P7_PRIOR *pri, double infotarget, double *ret_Neff);
+
+
+/* generic_decoding.c */
+extern int p7_GDecoding      (const P7_PROFILE *gm, const P7_GMX *fwd,       P7_GMX *bck, P7_GMX *pp);
+extern int p7_GDomainDecoding(const P7_PROFILE *gm, const P7_GMX *fwd, const P7_GMX *bck, P7_DOMAINDEF *ddef);
+
+/* generic_fwdback.c */
+extern int p7_GForward     (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *ret_sc);
+extern int p7_GBackward    (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *ret_sc);
+extern int p7_GHybrid      (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *opt_fwdscore, float *opt_hybscore);
+
+/* generic_msv.c */
+extern int p7_GMSV           (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float nu, float *ret_sc);
+extern int p7_GMSV_longtarget(const ESL_DSQ *dsq, int L, P7_PROFILE *gm, P7_GMX *gx, float nu,  P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist);
+
+/* generic_null2.c */
+extern int p7_GNull2_ByExpectation(const P7_PROFILE *gm, P7_GMX *pp, float *null2);
+extern int p7_GNull2_ByTrace      (const P7_PROFILE *gm, const P7_TRACE *tr, int zstart, int zend, P7_GMX *wrk, float *null2);
+
+/* generic_optacc.c */
+extern int p7_GOptimalAccuracy(const P7_PROFILE *gm, const P7_GMX *pp,       P7_GMX *gx, float *ret_e);
+extern int p7_GOATrace        (const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, P7_TRACE *tr);
+
+/* generic_stotrace.c */
+extern int p7_GStochasticTrace(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, const P7_GMX *gx, P7_TRACE *tr);
+
+/* generic_viterbi.c */
+extern int p7_GViterbi     (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *ret_sc);
+
+/* generic_vtrace.c */
+extern int p7_GTrace       (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, const P7_GMX *gx, P7_TRACE *tr);
+extern int p7_GViterbi_longtarget(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx,
+                       float filtersc, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* heatmap.c (evolving now, intend to move this to Easel in the future) */
+extern double dmx_upper_max(ESL_DMATRIX *D);
+extern double dmx_upper_min(ESL_DMATRIX *D);
+extern double dmx_upper_element_sum(ESL_DMATRIX *D);
+extern double dmx_upper_norm(ESL_DMATRIX *D);
+extern int    dmx_Visualize(FILE *fp, ESL_DMATRIX *D, double min, double max);
+
+/* hmmdutils.c */
+extern void p7_openlog(const char *ident, int option, int facility);
+extern void p7_syslog(int priority, const char *format, ...);
+extern void p7_closelog(void);
+
+/* hmmlogo.c */
+extern float hmmlogo_maxHeight (P7_BG *bg);
+extern int hmmlogo_RelativeEntropy_all      (P7_HMM *hmm, P7_BG *bg, float *rel_ents, float **probs, float **heights );
+extern int hmmlogo_RelativeEntropy_above_bg (P7_HMM *hmm, P7_BG *bg, float *rel_ents, float **probs, float **heights );
+extern int hmmlogo_ScoreHeights (P7_HMM *hmm, P7_BG *bg, float **heights );
+extern int hmmlogo_IndelValues (P7_HMM *hmm, float *insert_P, float *insert_expL, float *delete_P );
+
+
+
+/* hmmpgmd2msa.c */
+extern int hmmpgmd2msa(void *data, P7_HMM *hmm, ESL_SQ *qsq,  int *incl, int incl_size, int *excl, int excl_size, ESL_MSA **ret_msa);
+
+
+
+/* island.c */
+extern int   p7_island_Viterbi(ESL_DSQ *dsq, int L, P7_PROFILE *gm, P7_GMX *mx, ESL_HISTOGRAM *h);
+
+/* h2_io.c */
+extern int   p7_h2io_WriteASCII(FILE *fp, P7_HMM *hmm);
+
+/* hmmer.c */
+extern void         p7_banner(FILE *fp, char *progname, char *banner);
+extern ESL_GETOPTS *p7_CreateDefaultApp(ESL_OPTIONS *options, int nargs, int argc, char **argv, char *banner, char *usage);
+extern int          p7_AminoFrequencies(float *f);
+
+/* logsum.c */
+extern int   p7_FLogsumInit(void);
+extern float p7_FLogsum(float a, float b);
+extern float p7_FLogsumError(float a, float b);
+extern int   p7_ILogsumInit(void);
+extern int   p7_ILogsum(int s1, int s2);
+
+
+/* modelconfig.c */
+extern int p7_ProfileConfig(const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, int mode);
+extern int p7_ReconfigLength  (P7_PROFILE *gm, int L);
+extern int p7_ReconfigMultihit(P7_PROFILE *gm, int L);
+extern int p7_ReconfigUnihit  (P7_PROFILE *gm, int L);
+
+/* modelstats.c */
+extern double p7_MeanMatchInfo           (const P7_HMM *hmm, const P7_BG *bg);
+extern double p7_MeanMatchEntropy        (const P7_HMM *hmm);
+extern double p7_MeanMatchRelativeEntropy(const P7_HMM *hmm, const P7_BG *bg);
+extern double p7_MeanForwardScore        (const P7_HMM *hmm, const P7_BG *bg);
+extern int    p7_MeanPositionRelativeEntropy(const P7_HMM *hmm, const P7_BG *bg, double *ret_entropy);
+extern int    p7_hmm_CompositionKLDist(P7_HMM *hmm, P7_BG *bg, float *ret_KL, float **opt_avp);
+
+
+/* mpisupport.c */
+#ifdef HAVE_MPI
+extern int p7_hmm_MPISend(P7_HMM *hmm, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_hmm_MPIPackSize(P7_HMM *hmm, MPI_Comm comm, int *ret_n);
+extern int p7_hmm_MPIPack(P7_HMM *hmm, char *buf, int n, int *position, MPI_Comm comm);
+extern int p7_hmm_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_HMM **ret_hmm);
+extern int p7_hmm_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_HMM **ret_hmm);
+
+extern int p7_profile_MPISend(P7_PROFILE *gm, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_profile_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, const P7_BG *bg,
+			      char **buf, int *nalloc,  P7_PROFILE **ret_gm);
+
+extern int p7_pipeline_MPISend(P7_PIPELINE *pli, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_pipeline_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_GETOPTS *go, P7_PIPELINE **ret_pli);
+
+extern int p7_tophits_MPISend(P7_TOPHITS *th, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_tophits_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_TOPHITS **ret_th);
+
+extern int p7_oprofile_MPISend(P7_OPROFILE *om, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_oprofile_MPIPackSize(P7_OPROFILE *om, MPI_Comm comm, int *ret_n);
+extern int p7_oprofile_MPIPack(P7_OPROFILE *om, char *buf, int n, int *pos, MPI_Comm comm);
+extern int p7_oprofile_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_OPROFILE **ret_om);
+#endif /*HAVE_MPI*/
+
+/* tracealign.c */
+extern int p7_tracealign_Seqs(ESL_SQ **sq,           P7_TRACE **tr, int nseq, int M,  int optflags, P7_HMM *hmm, ESL_MSA **ret_msa);
+extern int p7_tracealign_MSA (const ESL_MSA *premsa, P7_TRACE **tr,           int M,  int optflags, ESL_MSA **ret_postmsa);
+extern int p7_tracealign_computeTraces(P7_HMM *hmm, ESL_SQ  **sq, int offset, int N, P7_TRACE  **tr);
+extern int p7_tracealign_getMSAandStats(P7_HMM *hmm, ESL_SQ  **sq, int N, ESL_MSA **ret_msa, float **ret_pp, float **ret_relent, float **ret_scores );
+
+/* p7_alidisplay.c */
+extern P7_ALIDISPLAY *p7_alidisplay_Create(const P7_TRACE *tr, int which, const P7_OPROFILE *om, const ESL_SQ *sq);
+extern P7_ALIDISPLAY *p7_alidisplay_Clone(const P7_ALIDISPLAY *ad);
+extern size_t         p7_alidisplay_Sizeof(const P7_ALIDISPLAY *ad);
+extern int            p7_alidisplay_Serialize(P7_ALIDISPLAY *ad);
+extern int            p7_alidisplay_Deserialize(P7_ALIDISPLAY *ad);
+extern void           p7_alidisplay_Destroy(P7_ALIDISPLAY *ad);
+extern char           p7_alidisplay_EncodePostProb(float p);
+extern float          p7_alidisplay_DecodePostProb(char pc);
+extern char           p7_alidisplay_EncodeAliPostProb(float p, float hi, float med, float lo);
+extern int            p7_alidisplay_Print(FILE *fp, P7_ALIDISPLAY *ad, int min_aliwidth, int linewidth, int show_accessions);
+extern int            p7_alidisplay_Backconvert(const P7_ALIDISPLAY *ad, const ESL_ALPHABET *abc, ESL_SQ **ret_sq, P7_TRACE **ret_tr);
+extern int            p7_alidisplay_Dump(FILE *fp, const P7_ALIDISPLAY *ad);
+extern int            p7_alidisplay_Compare(const P7_ALIDISPLAY *ad1, const P7_ALIDISPLAY *ad2);
+
+/* p7_bg.c */
+extern P7_BG *p7_bg_Create(const ESL_ALPHABET *abc);
+extern P7_BG *p7_bg_CreateUniform(const ESL_ALPHABET *abc);
+extern P7_BG *p7_bg_Clone(const P7_BG *bg);
+extern int    p7_bg_Dump(FILE *ofp, const P7_BG *bg);
+extern void   p7_bg_Destroy(P7_BG *bg);
+extern int    p7_bg_SetLength(P7_BG *bg, int L);
+extern int    p7_bg_NullOne(const P7_BG *bg, const ESL_DSQ *dsq, int L, float *ret_sc);
+
+extern int    p7_bg_Read(char *bgfile, P7_BG *bg, char *errbuf);
+extern int    p7_bg_Write(FILE *fp, P7_BG *bg);
+
+extern int    p7_bg_SetFilter  (P7_BG *bg, int M, const float *compo);
+extern int    p7_bg_FilterScore(P7_BG *bg, const ESL_DSQ *dsq, int L, float *ret_sc);
+
+/* p7_builder.c */
+extern P7_BUILDER *p7_builder_Create(const ESL_GETOPTS *go, const ESL_ALPHABET *abc);
+extern int         p7_builder_LoadScoreSystem(P7_BUILDER *bld, const char *matrix,                  double popen, double pextend, P7_BG *bg);
+extern int         p7_builder_SetScoreSystem (P7_BUILDER *bld, const char *mxfile, const char *env, double popen, double pextend, P7_BG *bg);
+extern void        p7_builder_Destroy(P7_BUILDER *bld);
+
+extern int p7_Builder      (P7_BUILDER *bld, ESL_MSA *msa, P7_BG *bg, P7_HMM **opt_hmm, P7_TRACE ***opt_trarr, P7_PROFILE **opt_gm, P7_OPROFILE **opt_om, ESL_MSA **opt_postmsa);
+extern int p7_SingleBuilder(P7_BUILDER *bld, ESL_SQ *sq,   P7_BG *bg, P7_HMM **opt_hmm, P7_TRACE  **opt_tr,    P7_PROFILE **opt_gm, P7_OPROFILE **opt_om); 
+extern int p7_Builder_MaxLength      (P7_HMM *hmm, double emit_thresh);
+
+/* p7_domaindef.c */
+extern P7_DOMAINDEF *p7_domaindef_Create (ESL_RANDOMNESS *r);
+extern int           p7_domaindef_Fetch  (P7_DOMAINDEF *ddef, int which, int *opt_i, int *opt_j, float *opt_sc, P7_ALIDISPLAY **opt_ad);
+extern int           p7_domaindef_GrowTo (P7_DOMAINDEF *ddef, int L);
+extern int           p7_domaindef_Reuse  (P7_DOMAINDEF *ddef);
+extern int           p7_domaindef_DumpPosteriors(FILE *ofp, P7_DOMAINDEF *ddef);
+extern void          p7_domaindef_Destroy(P7_DOMAINDEF *ddef);
+
+extern int p7_domaindef_ByViterbi            (P7_PROFILE *gm, const ESL_SQ *sq, P7_GMX *gx1, P7_GMX *gx2, P7_DOMAINDEF *ddef);
+extern int p7_domaindef_ByPosteriorHeuristics(const ESL_SQ *sq, P7_OPROFILE *om, P7_OMX *oxf, P7_OMX *oxb, P7_OMX *fwd, P7_OMX *bck,
+				                                  P7_DOMAINDEF *ddef, P7_BG *bg, int long_target,
+				                                  P7_BG *bg_tmp, float *scores_arr, float *fwd_emissions_arr);
+
+
+/* p7_gmx.c */
+extern P7_GMX *p7_gmx_Create (int allocM, int allocL);
+extern int     p7_gmx_GrowTo (P7_GMX *gx, int allocM, int allocL);
+extern size_t  p7_gmx_Sizeof (P7_GMX *gx);
+extern int     p7_gmx_Reuse  (P7_GMX *gx);
+extern void    p7_gmx_Destroy(P7_GMX *gx);
+extern int     p7_gmx_Compare(P7_GMX *gx1, P7_GMX *gx2, float tolerance);
+extern int     p7_gmx_Dump(FILE *fp, P7_GMX *gx, int flags);
+extern int     p7_gmx_DumpWindow(FILE *fp, P7_GMX *gx, int istart, int iend, int kstart, int kend, int show_specials);
+
+
+/* p7_hmm.c */
+/*      1. The P7_HMM object: allocation, initialization, destruction. */
+extern P7_HMM *p7_hmm_Create(int M, const ESL_ALPHABET *abc);
+extern P7_HMM *p7_hmm_CreateShell(void);
+extern int     p7_hmm_CreateBody(P7_HMM *hmm, int M, const ESL_ALPHABET *abc);
+extern void    p7_hmm_Destroy(P7_HMM *hmm);
+extern int     p7_hmm_CopyParameters(const P7_HMM *src, P7_HMM *dest);
+extern P7_HMM *p7_hmm_Clone(const P7_HMM *hmm);
+extern int     p7_hmm_Zero(P7_HMM *hmm);
+extern char    p7_hmm_EncodeStatetype(char *typestring);
+extern char   *p7_hmm_DecodeStatetype(char st);
+/*      2. Convenience routines for setting fields in an HMM. */
+extern int     p7_hmm_SetName       (P7_HMM *hmm, char *name);
+extern int     p7_hmm_SetAccession  (P7_HMM *hmm, char *acc);
+extern int     p7_hmm_SetDescription(P7_HMM *hmm, char *desc);
+extern int     p7_hmm_AppendComlog  (P7_HMM *hmm, int argc, char **argv);
+extern int     p7_hmm_SetCtime      (P7_HMM *hmm);
+extern int     p7_hmm_SetComposition(P7_HMM *hmm);
+extern int     p7_hmm_SetConsensus  (P7_HMM *hmm, ESL_SQ *sq);
+/*      3. Renormalization and rescaling counts in core HMMs. */
+extern int     p7_hmm_Scale      (P7_HMM *hmm, double scale);
+extern int     p7_hmm_Renormalize(P7_HMM *hmm);
+/*      4. Debugging and development code. */
+extern int     p7_hmm_Dump(FILE *fp, P7_HMM *hmm);
+extern int     p7_hmm_Sample          (ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm);
+extern int     p7_hmm_SampleUngapped  (ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm);
+extern int     p7_hmm_SampleEnumerable(ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm);
+extern int     p7_hmm_SampleUniform   (ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, 
+				     float tmi, float tii, float tmd, float tdd,  P7_HMM **ret_hmm);
+extern int     p7_hmm_Compare(P7_HMM *h1, P7_HMM *h2, float tol);
+extern int     p7_hmm_Validate(P7_HMM *hmm, char *errbuf, float tol);
+/*      5. Other routines in the API */
+extern int     p7_hmm_CalculateOccupancy(const P7_HMM *hmm, float *mocc, float *iocc);
+
+
+
+/* p7_hmmfile.c */
+extern int  p7_hmmfile_OpenE    (char *filename, char *env, P7_HMMFILE **ret_hfp, char *errbuf);
+extern int  p7_hmmfile_OpenENoDB(char *filename, char *env, P7_HMMFILE **ret_hfp, char *errbuf);
+extern int  p7_hmmfile_Open     (char *filename, char *env, P7_HMMFILE **ret_hfp); /* deprecated */
+extern int  p7_hmmfile_OpenNoDB (char *filename, char *env, P7_HMMFILE **ret_hfp); /* deprecated */
+extern int  p7_hmmfile_OpenBuffer(char *buffer, int size, P7_HMMFILE **ret_hfp);
+extern void p7_hmmfile_Close(P7_HMMFILE *hfp);
+#ifdef HMMER_THREADS
+extern int  p7_hmmfile_CreateLock(P7_HMMFILE *hfp);
+#endif
+extern int  p7_hmmfile_WriteBinary(FILE *fp, int format, P7_HMM *hmm);
+extern int  p7_hmmfile_WriteASCII (FILE *fp, int format, P7_HMM *hmm);
+extern int  p7_hmmfile_WriteToString (char **s, int format, P7_HMM *hmm);
+extern int  p7_hmmfile_Read(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc,  P7_HMM **opt_hmm);
+extern int  p7_hmmfile_PositionByKey(P7_HMMFILE *hfp, const char *key);
+extern int  p7_hmmfile_Position(P7_HMMFILE *hfp, const off_t offset);
+
+
+/* p7_hmmwindow.c */
+int p7_hmmwindow_init (P7_HMM_WINDOWLIST *list);
+P7_HMM_WINDOW *p7_hmmwindow_new (P7_HMM_WINDOWLIST *list, uint32_t id, uint32_t pos, uint32_t fm_pos, uint16_t k, uint32_t length, float score, uint8_t complementarity, uint32_t target_len);
+
+
+
+/* p7_msvdata.c */
+extern P7_SCOREDATA   *p7_hmm_ScoreDataCreate(P7_OPROFILE *om, P7_PROFILE *gm );
+extern P7_SCOREDATA   *p7_hmm_ScoreDataClone(P7_SCOREDATA *src, int K);
+extern int            p7_hmm_ScoreDataComputeRest(P7_OPROFILE *om, P7_SCOREDATA *data );
+extern void           p7_hmm_ScoreDataDestroy( P7_SCOREDATA *data );
+extern int            p7_hmm_initWindows (P7_HMM_WINDOWLIST *list);
+extern P7_HMM_WINDOW *p7_hmm_newWindow (P7_HMM_WINDOWLIST *list, uint32_t id, uint32_t pos, uint32_t fm_pos, uint16_t k, uint32_t length, float score, uint8_t complementarity);
+
+
+
+/* p7_null3.c */
+extern void p7_null3_score(const ESL_ALPHABET *abc, const ESL_DSQ *dsq, P7_TRACE *tr, int start, int stop, P7_BG *bg, float *ret_sc);
+extern void p7_null3_windowed_score(const ESL_ALPHABET *abc, const ESL_DSQ *dsq, int start, int stop, P7_BG *bg, float *ret_sc);
+
+/* p7_pipeline.c */
+extern P7_PIPELINE *p7_pipeline_Create(ESL_GETOPTS *go, int M_hint, int L_hint, int long_targets, enum p7_pipemodes_e mode);
+extern int          p7_pipeline_Reuse  (P7_PIPELINE *pli);
+extern void         p7_pipeline_Destroy(P7_PIPELINE *pli);
+extern int          p7_pipeline_Merge  (P7_PIPELINE *p1, P7_PIPELINE *p2);
+
+extern int p7_pli_ExtendAndMergeWindows (P7_OPROFILE *om, const P7_SCOREDATA *msvdata, P7_HMM_WINDOWLIST *windowlist, float pct_overlap);
+extern int p7_pli_TargetReportable  (P7_PIPELINE *pli, float score,     double lnP);
+extern int p7_pli_DomainReportable  (P7_PIPELINE *pli, float dom_score, double lnP);
+
+extern int p7_pli_TargetIncludable  (P7_PIPELINE *pli, float score,     double lnP);
+extern int p7_pli_DomainIncludable  (P7_PIPELINE *pli, float dom_score, double lnP);
+extern int p7_pli_NewModel          (P7_PIPELINE *pli, const P7_OPROFILE *om, P7_BG *bg);
+extern int p7_pli_NewModelThresholds(P7_PIPELINE *pli, const P7_OPROFILE *om);
+extern int p7_pli_NewSeq            (P7_PIPELINE *pli, const ESL_SQ *sq);
+extern int p7_Pipeline              (P7_PIPELINE *pli, P7_OPROFILE *om, P7_BG *bg, const ESL_SQ *sq, P7_TOPHITS *th);
+extern int p7_Pipeline_LongTarget   (P7_PIPELINE *pli, P7_OPROFILE *om, P7_SCOREDATA *data,
+                                     P7_BG *bg, P7_TOPHITS *hitlist, int64_t seqidx,
+                                     const ESL_SQ *sq, int complementarity,
+                                     const FM_DATA *fmf, const FM_DATA *fmb, FM_CFG *fm_cfg
+/*                                     , ESL_STOPWATCH *ssv_watch_master
+                                     , ESL_STOPWATCH *postssv_watch_master
+                                     , ESL_STOPWATCH *watch_slave
+*/
+                                     );
+
+
+
+extern int p7_pli_Statistics(FILE *ofp, P7_PIPELINE *pli, ESL_STOPWATCH *w);
+
+
+/* p7_prior.c */
+extern P7_PRIOR  *p7_prior_CreateAmino(void);
+extern P7_PRIOR  *p7_prior_CreateNucleic(void);
+extern P7_PRIOR  *p7_prior_CreateLaplace(const ESL_ALPHABET *abc);
+extern void       p7_prior_Destroy(P7_PRIOR *pri);
+
+extern int        p7_ParameterEstimation(P7_HMM *hmm, const P7_PRIOR *pri);
+
+/* p7_profile.c */
+extern P7_PROFILE *p7_profile_Create(int M, const ESL_ALPHABET *abc);
+extern P7_PROFILE *p7_profile_Clone(const P7_PROFILE *gm);
+extern int         p7_profile_Copy(const P7_PROFILE *src, P7_PROFILE *dst);
+extern int         p7_profile_SetNullEmissions(P7_PROFILE *gm);
+extern int         p7_profile_Reuse(P7_PROFILE *gm);
+extern size_t      p7_profile_Sizeof(P7_PROFILE *gm);
+extern void        p7_profile_Destroy(P7_PROFILE *gm);
+extern int         p7_profile_IsLocal(const P7_PROFILE *gm);
+extern int         p7_profile_IsMultihit(const P7_PROFILE *gm);
+extern int         p7_profile_GetT(const P7_PROFILE *gm, char st1, int k1, 
+				   char st2, int k2, float *ret_tsc);
+extern int         p7_profile_Validate(const P7_PROFILE *gm, char *errbuf, float tol);
+extern int         p7_profile_Compare(P7_PROFILE *gm1, P7_PROFILE *gm2, float tol);
+
+/* p7_spensemble.c */
+P7_SPENSEMBLE *p7_spensemble_Create(int init_n, int init_epc, int init_sigc);
+extern int     p7_spensemble_Reuse(P7_SPENSEMBLE *sp);
+extern int     p7_spensemble_Add(P7_SPENSEMBLE *sp, int sampleidx, int i, int j, int k, int m);
+extern int     p7_spensemble_Cluster(P7_SPENSEMBLE *sp, 
+				     float min_overlap, int of_smaller, int max_diagdiff, 
+				     float min_posterior, float min_endpointp,
+				     int *ret_nclusters);
+extern int     p7_spensemble_GetClusterCoords(P7_SPENSEMBLE *sp, int which,
+					      int *ret_i, int *ret_j, int *ret_k, int *ret_m, float *ret_p);
+extern void    p7_spensemble_Destroy(P7_SPENSEMBLE *sp);
+
+/* p7_tophits.c */
+extern P7_TOPHITS *p7_tophits_Create(void);
+extern int         p7_tophits_Grow(P7_TOPHITS *h);
+extern int         p7_tophits_CreateNextHit(P7_TOPHITS *h, P7_HIT **ret_hit);
+extern int         p7_tophits_Add(P7_TOPHITS *h,
+				  char *name, char *acc, char *desc, 
+				  double sortkey, 
+				  float score,    double lnP, 
+				  float mothersc, double mother_lnP,
+				  int sqfrom, int sqto, int sqlen,
+				  int hmmfrom, int hmmto, int hmmlen, 
+				  int domidx, int ndom,
+				  P7_ALIDISPLAY *ali);
+extern int         p7_tophits_SortBySortkey(P7_TOPHITS *h);
+extern int         p7_tophits_SortBySeqidxAndAlipos(P7_TOPHITS *h);
+extern int         p7_tophits_SortByModelnameAndAlipos(P7_TOPHITS *h);
+
+extern int         p7_tophits_Merge(P7_TOPHITS *h1, P7_TOPHITS *h2);
+extern int         p7_tophits_GetMaxPositionLength(P7_TOPHITS *h);
+extern int         p7_tophits_GetMaxNameLength(P7_TOPHITS *h);
+extern int         p7_tophits_GetMaxAccessionLength(P7_TOPHITS *h);
+extern int         p7_tophits_GetMaxShownLength(P7_TOPHITS *h);
+extern void        p7_tophits_Destroy(P7_TOPHITS *h);
+
+extern int p7_tophits_ComputeNhmmerEvalues(P7_TOPHITS *th, double N, int W);
+extern int p7_tophits_RemoveDuplicates(P7_TOPHITS *th, int using_bit_cutoffs);
+extern int p7_tophits_Threshold(P7_TOPHITS *th, P7_PIPELINE *pli);
+extern int p7_tophits_CompareRanking(P7_TOPHITS *th, ESL_KEYHASH *kh, int *opt_nnew);
+extern int p7_tophits_Targets(FILE *ofp, P7_TOPHITS *th, P7_PIPELINE *pli, int textw);
+extern int p7_tophits_Domains(FILE *ofp, P7_TOPHITS *th, P7_PIPELINE *pli, int textw);
+extern int p7_tophits_Alignment(const P7_TOPHITS *th, const ESL_ALPHABET *abc, 
+				ESL_SQ **inc_sqarr, P7_TRACE **inc_trarr, int inc_n, int optflags,
+				ESL_MSA **ret_msa);
+extern int p7_tophits_TabularTargets(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli, int show_header);
+extern int p7_tophits_TabularDomains(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli, int show_header);
+extern int p7_tophits_TabularXfam(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli);
+extern int p7_tophits_TabularTail(FILE *ofp, const char *progname, enum p7_pipemodes_e pipemode, 
+				  const char *qfile, const char *tfile, const ESL_GETOPTS *go);
+extern int p7_tophits_AliScores(FILE *ofp, char *qname, P7_TOPHITS *th );
+
+/* p7_trace.c */
+extern P7_TRACE *p7_trace_Create(void);
+extern P7_TRACE *p7_trace_CreateWithPP(void);
+extern int  p7_trace_Reuse(P7_TRACE *tr);
+extern int  p7_trace_Grow(P7_TRACE *tr);
+extern int  p7_trace_GrowIndex(P7_TRACE *tr);
+extern int  p7_trace_GrowTo(P7_TRACE *tr, int N);
+extern int  p7_trace_GrowIndexTo(P7_TRACE *tr, int ndom);
+extern void p7_trace_Destroy(P7_TRACE *tr);
+extern void p7_trace_DestroyArray(P7_TRACE **tr, int N);
+
+extern int  p7_trace_GetDomainCount   (const P7_TRACE *tr, int *ret_ndom);
+extern int  p7_trace_GetStateUseCounts(const P7_TRACE *tr, int *counts);
+extern int  p7_trace_GetDomainCoords  (const P7_TRACE *tr, int which, int *ret_i1, int *ret_i2,
+				       int *ret_k1, int *ret_k2);
+
+extern int   p7_trace_Validate(const P7_TRACE *tr, const ESL_ALPHABET *abc, const ESL_DSQ *dsq, char *errbuf);
+extern int   p7_trace_Dump(FILE *fp, const P7_TRACE *tr, const P7_PROFILE *gm, const ESL_DSQ *dsq);
+extern int   p7_trace_Compare(P7_TRACE *tr1, P7_TRACE *tr2, float pptol);
+extern int   p7_trace_Score(P7_TRACE *tr, ESL_DSQ *dsq, P7_PROFILE *gm, float *ret_sc);
+extern int   p7_trace_SetPP(P7_TRACE *tr, const P7_GMX *pp);
+extern float p7_trace_GetExpectedAccuracy(const P7_TRACE *tr);
+
+extern int  p7_trace_Append(P7_TRACE *tr, char st, int k, int i);
+extern int  p7_trace_AppendWithPP(P7_TRACE *tr, char st, int k, int i, float pp);
+extern int  p7_trace_Reverse(P7_TRACE *tr);
+extern int  p7_trace_Index(P7_TRACE *tr);
+
+extern int  p7_trace_FauxFromMSA(ESL_MSA *msa, int *matassign, int optflags, P7_TRACE **tr);
+extern int  p7_trace_Doctor(P7_TRACE *tr, int *opt_ndi, int *opt_nid);
+
+extern int  p7_trace_Count(P7_HMM *hmm, ESL_DSQ *dsq, float wt, P7_TRACE *tr);
+
+
+/* seqmodel.c */
+extern int p7_Seqmodel(const ESL_ALPHABET *abc, ESL_DSQ *dsq, int M, char *name,
+		       ESL_DMATRIX *P, float *f, double popen, double pextend,
+		       P7_HMM **ret_hmm);
+
+/* fm_alphabet.c */
+extern int fm_alphabetCreate (FM_METADATA *meta, uint8_t *alph_bits);
+extern int fm_alphabetDestroy (FM_METADATA *meta);
+extern int fm_reverseString (char *str, int N);
+extern int fm_getComplement (char c, uint8_t alph_type);
+
+
+/* fm_general.c */
+extern uint64_t fm_computeSequenceOffset (const FM_DATA *fms, const FM_METADATA *meta, int block, uint64_t pos);
+extern int fm_getOriginalPosition (const FM_DATA *fms, const FM_METADATA *meta, int fm_id, int length, int direction, uint64_t fm_pos,
+                                    uint32_t *segment_id, uint64_t *seg_pos);
+extern int fm_readFMmeta( FM_METADATA *meta);
+extern int fm_FM_read( FM_DATA *fm, FM_METADATA *meta, int getAll );
+extern void fm_FM_destroy ( FM_DATA *fm, int isMainFM);
+extern uint8_t fm_getChar(uint8_t alph_type, int j, const uint8_t *B );
+extern int fm_getSARangeReverse( const FM_DATA *fm, FM_CFG *cfg, char *query, char *inv_alph, FM_INTERVAL *interval);
+extern int fm_getSARangeForward( const FM_DATA *fm, FM_CFG *cfg, char *query, char *inv_alph, FM_INTERVAL *interval);
+extern int fm_configAlloc(FM_CFG **cfg);
+extern int fm_configDestroy(FM_CFG *cfg);
+extern int fm_metaDestroy(FM_METADATA *meta );
+extern int fm_updateIntervalForward( const FM_DATA *fm, const FM_CFG *cfg, char c, FM_INTERVAL *interval_f, FM_INTERVAL *interval_bk);
+extern int fm_updateIntervalReverse( const FM_DATA *fm, const FM_CFG *cfg, char c, FM_INTERVAL *interval);
+extern int fm_initSeeds (FM_DIAGLIST *list) ;
+extern FM_DIAG * fm_newSeed (FM_DIAGLIST *list);
+extern int fm_initAmbiguityList (FM_AMBIGLIST *list);
+extern int fm_addAmbiguityRange (FM_AMBIGLIST *list, uint32_t start, uint32_t stop);
+extern int fm_convertRange2DSQ(const FM_DATA *fm, const FM_METADATA *meta, uint64_t first, int length, int complementarity, ESL_SQ *sq, int fix_ambiguities );
+extern int fm_initConfigGeneric( FM_CFG *cfg, ESL_GETOPTS *go);
+
+/* fm_ssv.c */
+extern int p7_SSVFM_longlarget( P7_OPROFILE *om, float nu, P7_BG *bg, double F1,
+                      const FM_DATA *fmf, const FM_DATA *fmb, FM_CFG *fm_cfg, const P7_SCOREDATA *ssvdata,
+                      int strands, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* fm_sse.c */
+extern int fm_configInit      (FM_CFG *cfg, ESL_GETOPTS *go);
+extern int fm_getOccCount     (const FM_DATA *fm, const FM_CFG *cfg, int pos, uint8_t c);
+extern int fm_getOccCountLT   (const FM_DATA *fm, const FM_CFG *cfg, int pos, uint8_t c, uint32_t *cnteq, uint32_t *cntlt);
+
+
+
+#endif /*P7_HMMERH_INCLUDED*/
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: hmmer.h 4771 2015-02-25 06:53:51Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmer.h $
+ ************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/impl_sse.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/impl_sse.h
new file mode 100755
index 0000000..7ac57fa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/impl_sse.h
@@ -0,0 +1,445 @@
+/* SSE optimized implementation of various MSV, Viterbi, and Forward
+ * routines: structures, declarations, and macros.
+ * 
+ * SRE, Sun Nov 25 11:23:02 2007
+ * SVN $Id: impl_sse.h 4694 2014-07-01 02:35:31Z wheelert $
+ */
+#ifndef P7_IMPL_SSE_INCLUDED
+#define P7_IMPL_SSE_INCLUDED
+
+#include "p7_config.h"
+
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+#include <xmmintrin.h>    /* SSE  */
+#include <emmintrin.h>    /* SSE2 */
+#ifdef __SSE3__
+#include <pmmintrin.h>   /* DENORMAL_MODE */
+#endif
+#include "hmmer.h"
+
+/* In calculating Q, the number of vectors we need in a row, we have
+ * to make sure there's at least 2, or a striped implementation fails.
+ */
+#define p7O_NQB(M)   ( ESL_MAX(2, ((((M)-1) / 16) + 1)))   /* 16 uchars  */
+#define p7O_NQW(M)   ( ESL_MAX(2, ((((M)-1) / 8)  + 1)))   /*  8 words   */
+#define p7O_NQF(M)   ( ESL_MAX(2, ((((M)-1) / 4)  + 1)))   /*  4 floats  */
+
+#define p7O_EXTRA_SB 17    /* see ssvfilter.c for explanation */
+
+
+/*****************************************************************
+ * 1. P7_OPROFILE: an optimized score profile
+ *****************************************************************/
+/* The OPROFILE is striped [Farrar07] and interleaved, as is the DP matrix.
+ * For example, the layout of a profile for an M=14 model (xref J2/46):
+ * 
+ * rsc[x] : striped blocks of M emissions, starting with q=0
+ *                1     11     1      1  
+ *             1593   2604   371x   482x 
+ * 
+ * tsc:  grouped in order of accession in DP for 7 transition scores;
+ *       starting at q=0 for all but the three transitions to M, which
+ *       are rotated by -1 and rightshifted. DD's follow separately, 
+ *       starting at q=0.
+ *
+ *        {     1      1     1     1     1     1     1 }
+ *        {  1593   x482  x482  x482  1593  1593  1593 }    
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ * 
+ *        {    11      1     1     1    11    11    11 }
+ *        {  2604   1593  1593  1593  2604  2604  2604 } 
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {    1      11    11    11    1     1     1  }
+ *        {  371x   2604  2604  2604  371x  371x  371x }
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {    1      1     1     1     1     1     1  }
+ *        {  482x   371x  371x  371x  482x  482x  482x }
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {     1    11    1     1  }
+ *        {  1593  2604  371x  482x }
+ *        { [TDD] [TDD] [TDD] [TDD] }
+ *        
+ */
+
+#define p7O_NXSTATES  4    /* special states stored: ENJC                       */
+#define p7O_NXTRANS   2         /* special states all have 2 transitions: move, loop */
+#define p7O_NTRANS    8    /* 7 core transitions + BMk entry                    */
+enum p7o_xstates_e      { p7O_E    = 0, p7O_N    = 1,  p7O_J  = 2,  p7O_C  = 3 };
+enum p7o_xtransitions_e { p7O_MOVE = 0, p7O_LOOP = 1 };
+enum p7o_tsc_e          { p7O_BM   = 0, p7O_MM   = 1,  p7O_IM = 2,  p7O_DM = 3, p7O_MD   = 4, p7O_MI   = 5,  p7O_II = 6,  p7O_DD = 7 };
+
+typedef struct p7_oprofile_s {
+  /* MSVFilter uses scaled, biased uchars: 16x unsigned byte vectors                 */
+  __m128i **rbv;         /* match scores [x][q]: rm, rm[0] are allocated      */
+  __m128i **sbv;         /* match scores for ssvfilter                        */
+  uint8_t   tbm_b;    /* constant B->Mk cost:    scaled log 2/M(M+1)       */
+  uint8_t   tec_b;    /* constant E->C  cost:    scaled log 0.5            */
+  uint8_t   tjb_b;    /* constant NCJ move cost: scaled log 3/(L+3)        */
+  float     scale_b;    /* typically 3 / log2: scores scale to 1/3 bits      */
+  uint8_t   base_b;            /* typically +190: offset of uchar scores            */
+  uint8_t   bias_b;    /* positive bias to emission scores, make them >=0   */
+
+  /* ViterbiFilter uses scaled swords: 8x signed 16-bit integer vectors              */
+  __m128i **rwv;    /* [x][q]: rw, rw[0] are allocated  [Kp][Q8]         */
+  __m128i  *twv;    /* transition score blocks          [8*Q8]           */
+  int16_t   xw[p7O_NXSTATES][p7O_NXTRANS]; /* NECJ state transition costs            */
+  float     scale_w;            /* score units: typically 500 / log(2), 1/500 bits   */
+  int16_t   base_w;             /* offset of sword scores: typically +12000          */
+  int16_t   ddbound_w;    /* threshold precalculated for lazy DD evaluation    */
+  float     ncj_roundoff;  /* missing precision on NN,CC,JJ after rounding      */
+
+  /* Forward, Backward use IEEE754 single-precision floats: 4x vectors               */
+  __m128 **rfv;         /* [x][q]:  rf, rf[0] are allocated [Kp][Q4]         */
+  __m128  *tfv;          /* transition probability blocks    [8*Q4]           */
+  float    xf[p7O_NXSTATES][p7O_NXTRANS]; /* NECJ transition costs                   */
+
+  /* Our actual vector mallocs, before we align the memory                           */
+  __m128i  *rbv_mem;
+  __m128i  *sbv_mem;
+  __m128i  *rwv_mem;
+  __m128i  *twv_mem;
+  __m128   *tfv_mem;
+  __m128   *rfv_mem;
+  
+  /* Disk offset information for hmmpfam's fast model retrieval                      */
+  off_t  offs[p7_NOFFSETS];     /* p7_{MFP}OFFSET, or -1                             */
+
+  /* Disk offset bookkeeping for h3f:                                                */
+  off_t  roff;                  /* record offset (start of record); -1 if none       */
+  off_t  eoff;                  /* offset to last byte of record; -1 if unknown      */
+
+  /* Information, annotation copied from parent profile:                             */
+  char  *name;      /* unique name of model                              */
+  char  *acc;      /* unique accession of model, or NULL                */
+  char  *desc;                  /* brief (1-line) description of model, or NULL      */
+  char  *rf;                    /* reference line           1..M; *ref=0: unused     */
+  char  *mm;                    /* modelmask line           1..M; *ref=0: unused     */
+  char  *cs;                    /* consensus structure line 1..M, *cs=0: unused      */
+  char  *consensus;    /* consensus residues for ali display, 1..M          */
+  float  evparam[p7_NEVPARAM];   /* parameters for determining E-values, or UNSET     */
+  float  cutoff[p7_NCUTOFFS];   /* per-seq/per-dom bit cutoffs, or UNSET             */
+  float  compo[p7_MAXABET];  /* per-model HMM filter composition, or UNSET        */
+  const ESL_ALPHABET *abc;  /* copy of ptr to alphabet information               */
+
+  /* Information about current configuration, size, allocation                       */
+  int    L;      /* current configured target seq length              */
+  int    M;      /* model length                                      */
+  int    max_length;    /* upper bound on emitted sequence length            */
+  int    allocM;    /* maximum model length currently allocated for      */
+  int    allocQ4;    /* p7_NQF(allocM): alloc size for tf, rf             */
+  int    allocQ8;    /* p7_NQW(allocM): alloc size for tw, rw             */
+  int    allocQ16;    /* p7_NQB(allocM): alloc size for rb                 */
+  int    mode;      /* currently must be p7_LOCAL                        */
+  float  nj;      /* expected # of J's: 0 or 1, uni vs. multihit       */
+
+  int    clone;                 /* this optimized profile structure is just a copy   */
+                                /* of another profile structre.  all pointers of     */
+                                /* this structure should not be freed.               */
+} P7_OPROFILE;
+
+typedef struct {
+  int            count;       /* number of <P7_OPROFILE> objects in the block */
+  int            listSize;    /* maximum number elements in the list          */
+  P7_OPROFILE  **list;        /* array of <P7_OPROFILE> objects               */
+} P7_OM_BLOCK;
+
+/* retrieve match odds ratio [k][x]
+ * this gets used in p7_alidisplay.c, when we're deciding if a residue is conserved or not */
+static inline float 
+p7_oprofile_FGetEmission(const P7_OPROFILE *om, int k, int x)
+{
+  union { __m128 v; float p[4]; } u;
+  int   Q = p7O_NQF(om->M);
+  int   q = ((k-1) % Q);
+  int   r = (k-1)/Q;
+  u.v = om->rfv[x][q];
+  return u.p[r];
+}
+
+/*****************************************************************
+ * 2. P7_OMX: a one-row dynamic programming matrix
+ *****************************************************************/
+
+enum p7x_scells_e { p7X_M = 0, p7X_D = 1, p7X_I = 2 };
+#define p7X_NSCELLS 3
+
+/* Besides ENJBC states, we may also store a rescaling factor on each row  */
+enum p7x_xcells_e { p7X_E = 0, p7X_N = 1, p7X_J = 2, p7X_B = 3, p7X_C = 4, p7X_SCALE = 5 }; 
+#define p7X_NXCELLS 6
+
+/* 
+ * 
+ * dpf[][] 
+ *    to access M(i,k) for i=0,1..L; k=1..M:  dpf[i][(k-1)/4 + p7X_M].element[(k-1)%4]
+ * 
+ * xmx[] arrays for individual special states:
+ *    xmx[ENJBC] = [0 1 2 3][4 5 6 7]..[L-2 L-1 L x]     XRQ >= (L/4)+1
+ *    to access B[i] for example, for i=0..L:   xmx[B][i/4].x[i%4]  (quad i/4; element i%4).
+ */  
+typedef struct p7_omx_s {
+  int       M;      /* current actual model dimension                              */
+  int       L;      /* current actual sequence dimension                           */
+
+  /* The main dynamic programming matrix for M,D,I states                                      */
+  __m128  **dpf;    /* striped DP matrix for [0,1..L][0..Q-1][MDI], float vectors  */
+  __m128i **dpw;    /* striped DP matrix for [0,1..L][0..Q-1][MDI], sword vectors  */
+  __m128i **dpb;    /* striped DP matrix for [0,1..L][0..Q-1] uchar vectors        */
+  void     *dp_mem;    /* DP memory shared by <dpb>, <dpw>, <dpf>                     */
+  int       allocR;    /* current allocated # rows in dp{uf}. allocR >= validR >= L+1 */
+  int       validR;    /* current # of rows actually pointing at DP memory            */
+  int       allocQ4;    /* current set row width in <dpf> quads:   allocQ4*4 >= M      */
+  int       allocQ8;    /* current set row width in <dpw> octets:  allocQ8*8 >= M      */
+  int       allocQ16;    /* current set row width in <dpb> 16-mers: allocQ16*16 >= M    */
+  size_t    ncells;    /* current allocation size of <dp_mem>, in accessible cells    */
+
+  /* The X states (for full,parser; or NULL, for scorer)                                       */
+  float    *xmx;          /* logically [0.1..L][ENJBCS]; indexed [i*p7X_NXCELLS+s]       */
+  void     *x_mem;    /* X memory before 16-byte alignment                           */
+  int       allocXR;    /* # of rows allocated in each xmx[] array; allocXR >= L+1     */
+  float     totscale;    /* log of the product of all scale factors (0.0 if unscaled)   */
+  int       has_own_scales;  /* TRUE to use own scale factors; FALSE if scales provided     */
+
+  /* Parsers,scorers only hold a row at a time, so to get them to dump full matrix, it
+   * must be done during a DP calculation, after each row is calculated 
+   */
+  int     debugging;    /* TRUE if we're in debugging mode                             */
+  FILE   *dfp;      /* output stream for diagnostics                               */
+} P7_OMX;
+
+/* ?MXo(q) access macros work for either uchar or float, so long as you
+ * init your "dp" to point to the appropriate array.
+ */
+#define MMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_M])
+#define DMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_D])
+#define IMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_I])
+#define XMXo(i,s) (xmx[(i) * p7X_NXCELLS + s])
+
+/* and this version works with a ptr to the approp DP row. */
+#define MMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_M])
+#define DMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_D])
+#define IMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_I])
+
+static inline float
+p7_omx_FGetMDI(const P7_OMX *ox, int s, int i, int k)
+{
+  union { __m128 v; float p[4]; } u;
+  int   Q = p7O_NQF(ox->M);
+  int   q = p7X_NSCELLS * ((k-1) % Q) + s;
+  int   r = (k-1)/Q;
+  u.v = ox->dpf[i][q];
+  return u.p[r];
+}
+
+static inline void
+p7_omx_FSetMDI(const P7_OMX *ox, int s, int i, int k, float val)
+{
+  union { __m128 v; float p[4]; } u;
+  int   Q = p7O_NQF(ox->M);
+  int   q = p7X_NSCELLS * ((k-1) % Q) + s;
+  int   r = (k-1)/Q;
+
+  u.v           = ox->dpf[i][q];
+  u.p[r]        = val;
+  ox->dpf[i][q] = u.v;
+}
+  
+
+
+
+/*****************************************************************
+ * 3. Declarations of the external API.
+ *****************************************************************/
+
+/* p7_omx.c */
+extern P7_OMX      *p7_omx_Create(int allocM, int allocL, int allocXL);
+extern int          p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL);
+extern int          p7_omx_FDeconvert(P7_OMX *ox, P7_GMX *gx);
+extern int          p7_omx_Reuse  (P7_OMX *ox);
+extern void         p7_omx_Destroy(P7_OMX *ox);
+
+extern int          p7_omx_SetDumpMode(FILE *fp, P7_OMX *ox, int truefalse);
+extern int          p7_omx_DumpMFRow(P7_OMX *ox, int rowi, uint8_t xE, uint8_t xN, uint8_t xJ, uint8_t xB, uint8_t xC);
+extern int          p7_omx_DumpVFRow(P7_OMX *ox, int rowi, int16_t xE, int16_t xN, int16_t xJ, int16_t xB, int16_t xC);
+extern int          p7_omx_DumpFBRow(P7_OMX *ox, int logify, int rowi, int width, int precision, float xE, float xN, float xJ, float xB, float xC);
+
+
+
+/* p7_oprofile.c */
+extern P7_OPROFILE *p7_oprofile_Create(int M, const ESL_ALPHABET *abc);
+extern int          p7_oprofile_IsLocal(const P7_OPROFILE *om);
+extern void         p7_oprofile_Destroy(P7_OPROFILE *om);
+extern size_t       p7_oprofile_Sizeof(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Copy(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Clone(const P7_OPROFILE *om);
+extern int          p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+extern int          p7_oprofile_UpdateVitEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+extern int          p7_oprofile_UpdateMSVEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+
+
+extern int          p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om);
+extern int          p7_oprofile_ReconfigLength    (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMSVLength (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMultihit  (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigUnihit    (P7_OPROFILE *om, int L);
+
+extern int          p7_oprofile_Dump(FILE *fp, const P7_OPROFILE *om);
+extern int          p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+               P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om);
+extern int          p7_oprofile_Compare(const P7_OPROFILE *om1, const P7_OPROFILE *om2, float tol, char *errmsg);
+extern int          p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm);
+extern int          p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm);
+
+extern int          p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr );
+extern int          p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr );
+extern int          p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr );
+extern int          p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr );
+
+/* decoding.c */
+extern int p7_Decoding      (const P7_OPROFILE *om, const P7_OMX *oxf,       P7_OMX *oxb, P7_OMX *pp);
+extern int p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef);
+
+/* fwdback.c */
+extern int p7_Forward       (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_ForwardParser (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_Backward      (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+extern int p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+
+/* io.c */
+extern int p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om);
+extern int p7_oprofile_ReadMSV (P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadInfoMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock);
+extern int p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om);
+extern int p7_oprofile_Position(P7_HMMFILE *hfp, off_t offset);
+
+extern P7_OM_BLOCK *p7_oprofile_CreateBlock(int size);
+extern void p7_oprofile_DestroyBlock(P7_OM_BLOCK *block);
+
+/* ssvfilter.c */
+extern int p7_SSVFilter    (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, float *ret_sc);
+
+/* msvfilter.c */
+extern int p7_MSVFilter           (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *msvdata, P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* null2.c */
+extern int p7_Null2_ByExpectation(const P7_OPROFILE *om, const P7_OMX *pp, float *null2);
+extern int p7_Null2_ByTrace      (const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2);
+
+/* optacc.c */
+extern int p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp,       P7_OMX *ox, float *ret_e);
+extern int p7_OATrace        (const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr);
+
+/* stotrace.c */
+extern int p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox, P7_TRACE *tr);
+
+/* vitfilter.c */
+extern int p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                                        float filtersc, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* vitscore.c */
+extern int p7_ViterbiScore (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+
+
+/*****************************************************************
+ * 4. Implementation specific initialization
+ *****************************************************************/
+static inline void
+impl_Init(void)
+{
+#ifdef HAVE_FLUSH_ZERO_MODE
+  /* In order to avoid the performance penalty dealing with sub-normal
+   * values in the floating point calculations, set the processor flag
+   * so sub-normals are "flushed" immediately to zero.
+   */
+  _MM_SET_FLUSH_ZERO_MODE(_MM_FLUSH_ZERO_ON);
+#endif
+
+#ifdef _PMMINTRIN_H_INCLUDED
+  /*
+   * FLUSH_ZERO doesn't necessarily work in non-SIMD calculations
+   * (yes on 64-bit, maybe not of 32-bit). This ensures that those
+   * scalar calculations will agree across architectures.
+   * (See TW notes  2012/0106_printf_underflow_bug/00NOTES for details)
+   */
+  _MM_SET_DENORMALS_ZERO_MODE(_MM_DENORMALS_ZERO_ON);
+#endif
+}
+#endif /* P7_IMPL_SSE_INCLUDED */
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+/* 
+ * Currently (and this remains in flux as of 14 Dec 07) an optimized
+ * implementation is required to provide an MSVFilter(),
+ * ViterbiFilter() and a ForwardFilter() implementation. A call to
+ * p7_oprofile_Convert() makes an optimized profile that works for
+ * all filters.
+ * 
+ * Any "Filter" returns a score may be an approximation (with
+ * characterized or at least characterizable error), and which may
+ * have limited upper range, such that high scores are returned as
+ * eslINFINITY. Additionally, Filters might only work on local
+ * alignment modes, because they are allowed to make assumptions about
+ * the range of scores.
+ * 
+ * Here, MSVFilter() and ViterbiFilter() are 8-bit lspace
+ * implementations with limited precision and limited range (max 20
+ * bits); ForwardFilter() is a pspace float implementation with
+ * correct precision and limited range (max ~127 bits). Both require
+ * local mode models.
+ * 
+ * An optimized implementation may also provide other optimized
+ * routines. It provides specialized Convert*() functions for these,
+ * which may no-op (if the OPROFILE already suffices), or may
+ * overwrite parts of the OPROFILE that Filters or other routines
+ * might need. Therefore, after using a "bonus" function, a fresh
+ * Convert() will be needed before a Filter() is called again. This
+ * API is tentative.
+ * 
+ * For example, here, ViterbiScore() is a 32-bit lspace float SSE
+ * implementation of the Viterbi algorithm.
+ *
+ * A "Score" function might be an additional target for optimization,
+ * for example. A "Score" function returns a correct score with full
+ * floating-point precision and range, and works for any mode model.
+ * 
+ * In the generic implementation, profile scores are 32-bit floating
+ * point log-odds scores. In an optimized implementation, internally,
+ * profile scores can be of any type, and may be in log space (lspace)
+ * or probability space (pspace). (Calculations in probability space
+ * are useful in the Forward algorithm, but always limit range.)  A
+ * shorthand of "lspace uchar" means log-odds scores stored as
+ * unsigned chars, for example; "pspace float" means odds ratios
+ * stored as floats.
+ * 
+ * A note on memory alignment: malloc() is required to return a
+ * pointer "suitably aligned so that it may be aligned to a pointer of
+ * any type of object" (C99 7.20.3). __m128 vectors are 128-bits wide,
+ * so malloc() ought to return a pointer aligned on a 16-byte
+ * boundary.  However, this is not the case for glibc, and apparently
+ * other system libraries. Google turns up threads of arguments
+ * between glibc and gcc developers over whose problem this is; this
+ * argument has apparently not been resolved, and is of no help.
+ * Here, we manually align the relevant pointers by overallocating in
+ * *_mem with malloc, then arithmetically manipulating the address to
+ * mask off (~0xf).
+ */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_config.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_config.h
new file mode 100755
index 0000000..7a94c11
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_config.h
@@ -0,0 +1,145 @@
+/* src/p7_config.h.  Generated from p7_config.h.in by configure.  */
+/* @configure_input@
+ * p7config.h.in -> p7config.h
+ * 
+ * p7config.h is generated from p7config.h.in by the ./configure script.
+ * DO NOT EDIT p7config.h; only edit p7config.h.in.
+ *
+ * Configuration of HMMER, including both system-dependent configuration
+ * (done by ./configure) and hardcoded configuration that someone might
+ * want to alter someday.
+ *
+ * Because this header may configure the behavior of system headers
+ * (for example, LFS support), it must be included before any other
+ * header file.
+ * 
+ * SRE, Mon Jan  1 16:07:28 2007 [Casa de Gatos] [Nirvana, Nevermind]
+ * SVN $Id: p7_config.h.in 4483 2013-06-12 20:20:21Z wheelert $
+ */
+#ifndef P7_CONFIGH_INCLUDED
+#define P7_CONFIGH_INCLUDED
+
+/*****************************************************************
+ * 1. Compile-time constants that control HMMER's computational 
+ *    behavior (memory and processor use), and output formatting.
+ *    It can be edited and configured manually before compilation.
+ *****************************************************************/
+
+/* p7_RAMLIMIT controls the switch from fast full DP to slow
+ * linear-memory divide and conquer. Default devotes 32 MB/thread.
+ */
+#ifndef p7_RAMLIMIT
+#define p7_RAMLIMIT   32
+#endif
+
+/* p7_ALILENGTH controls length of displayed alignment lines.
+ */
+#ifndef p7_ALILENGTH
+#define p7_ALILENGTH       50
+#endif
+
+/*****************************************************************
+ * 2. Compile-time constants that control empirically tuned HMMER
+ *    default parameters. You can edit it, but you ought not to, 
+ *    unless you're trying to improve on our empirical data.
+ *****************************************************************/
+
+/* Relative entropy target defaults:
+ * For proteins, hmmbuild's effective sequence number calculation
+ * aims to achieve a certain relative entropy per match emission.
+ * (= average score per match emission).
+ * These are empirically tuned constants,
+ */
+#define p7_ETARGET_AMINO  0.59 /* bits,  from the work of Steve Johnson. */
+#define p7_ETARGET_DNA    0.45 /* bits,  from the work of Travis Wheeler. */
+#define p7_ETARGET_OTHER  1.0  /* bits */ /* if you define your own alphabet, set this */
+
+
+#define p7_SEQDBENV          "BLASTDB"
+#define p7_HMMDBENV          "PFAMDB"
+
+/*****************************************************************
+ * 3. The next section probably shouldn't be edited at all, unless
+ *    you really know what you're doing. It controls some fundamental
+ *    parameters in HMMER that occasionally get reconfigured in
+ *    experimental versions, or for variants of HMMER that work on
+ *    non-biological alphabets.
+ *****************************************************************/
+
+/* The symbol alphabet is handled by ESL_ALPHABET objects, which
+ * dynamically allocate; but sometimes HMMER uses statically-allocated
+ * space, and it's useful to know a reasonable maximum for
+ * symbol alphabet size.
+ */
+#define p7_MAXABET    20      /* maximum size of alphabet (4 or 20)              */
+#define p7_MAXCODE    29      /* maximum degenerate alphabet size (18 or 29)     */
+
+/* p7_MAX_SC_TXTLEN has to be large enough to represent a score as a
+ * string, including \0 and a sign.
+ */
+#define p7_MAX_SC_TXTLEN   11	      
+
+/* Other stuff.
+ */
+#define p7_MAXDCHLET  20      /* maximum # Dirichlet components in mixture prior */
+
+
+/*****************************************************************
+ * 4. The final section isn't meant to be human editable at all.
+ *    It is configured automatically by the ./configure script. 
+ *****************************************************************/
+
+/* Version info - set once for whole package in configure.ac
+ */
+#define HMMER_VERSION "3.1b2"
+#define HMMER_DATE "February 2015"
+#define HMMER_COPYRIGHT "Copyright (C) 2015 Howard Hughes Medical Institute."
+#define HMMER_LICENSE "Freely distributed under the GNU General Public License (GPLv3)."
+#define HMMER_URL "http://hmmer.org/"
+
+/* Large file support (must precede any header file inclusion.)
+ */
+/* #undef _FILE_OFFSET_BITS */
+/* #undef _LARGE_FILES */
+/* #undef _LARGEFILE_SOURCE */
+
+/* Choice of optimized implementation (one and only one must be set)
+ */
+#define p7_IMPL_SSE 1
+/* #undef p7_IMPL_VMX */
+/* #undef p7_IMPL_DUMMY */
+
+
+/* System headers
+ */
+#define HAVE_NETINET_IN_H 1
+#define HAVE_SYS_PARAM_H 1
+/* #undef HAVE_SYS_SYSCTL_H */
+
+/* Optional parallel implementations
+ */
+#define HAVE_SSE2 1
+/* #undef HAVE_MPI */
+/* #undef HMMER_PVM */
+#define HMMER_THREADS 1
+/* #undef HAVE_PTHREAD_ATTR_SETSCOPE */
+/* #undef HAVE_PTHREAD_SETCONCURRENCY */
+
+/* Optional processor specific support
+ */
+#define HAVE_FLUSH_ZERO_MODE 1
+
+/* Debugging hooks
+ */
+/* #undef p7_DEBUGGING */
+
+#endif /*P7_CONFIGH_INCLUDED*/
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gbands.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gbands.h
new file mode 100755
index 0000000..ee2fc93
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gbands.h
@@ -0,0 +1,30 @@
+#ifndef P7_GBANDS_INCLUDED
+#define P7_GBANDS_INCLUDED
+
+typedef struct {
+  int     nseg;
+  int     nrow;
+  int     L;
+  int     M;
+  int64_t ncell;
+
+  int *imem;
+  int *kmem;
+  
+  int  segalloc;
+  int  rowalloc;
+} P7_GBANDS;
+
+#define p7_GBANDS_NK 2		/* for IK banding. Or 6, for IKS banding */
+
+extern P7_GBANDS *p7_gbands_Create  (void);
+extern int        p7_gbands_Reuse   (P7_GBANDS *bnd);
+extern int        p7_gbands_Append  (P7_GBANDS *bnd, int i, int ka, int kb);
+extern int        p7_gbands_Prepend (P7_GBANDS *bnd, int i, int ka, int kb);
+extern int        p7_gbands_Reverse (P7_GBANDS *bnd);
+extern int        p7_gbands_GrowSegs(P7_GBANDS *bnd);
+extern int        p7_gbands_GrowRows(P7_GBANDS *bnd);
+extern void       p7_gbands_Destroy (P7_GBANDS *bnd);
+extern int        p7_gbands_Dump(FILE *ofp, P7_GBANDS *bnd);
+
+#endif /*P7_GBANDS_INCLUDED*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gmxb.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gmxb.h
new file mode 100755
index 0000000..3965321
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gmxb.h
@@ -0,0 +1,26 @@
+#ifndef P7_GMXB_INCLUDED
+#define P7_GMXB_INCLUDED
+
+#include "p7_gbands.h"
+
+
+
+
+typedef struct {
+  float     *dp;
+  float     *xmx;
+  P7_GBANDS *bnd;   /* a reference copy; caller remains responsible for free'ing banding */
+
+  int64_t    dalloc;
+  int        xalloc;
+} P7_GMXB;
+
+extern P7_GMXB *p7_gmxb_Create(P7_GBANDS *bnd);
+extern int      p7_gmxb_Reinit(P7_GMXB *gxb, P7_GBANDS *bnd);
+extern int      p7_gmxb_Reuse(P7_GMXB *gxb);
+extern void     p7_gmxb_Destroy(P7_GMXB *gxb);
+extern int      p7_gmxb_Dump(FILE *ofp, P7_GMXB *gxb, int flags);
+
+extern int p7_GForwardBanded(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMXB *gxb, float *opt_sc);
+
+#endif /*P7_GMXB_INCLUDED*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gmxchk.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gmxchk.h
new file mode 100755
index 0000000..ca56651
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_gmxchk.h
@@ -0,0 +1,197 @@
+/* P7_GMXCHK implementation
+ *
+ * Checkpointed forward/backward dynamic programming matrix.
+ *
+ * Contents:
+ *   1. Exegesis: layout of rows in a checkpointed matrix.
+ *   2. Exegesis: layout of cells in a single DP row.
+ *   3. The P7_GMXCHK data structure.
+ *   4. Declarations for the p7_gmxchk API
+ *   5. References. 
+ *   6. Copyright and license.
+ */
+#ifndef P7_GMXCHK_INCLUDED
+#define P7_GMXCHK_INCLUDED
+
+#include "p7_config.h"
+
+/*****************************************************************
+ * 1. Exegesis: layout of rows in a checkpointed matrix.
+ *****************************************************************/
+
+/* 
+ * One P7_GMXCHK data structure is used for both Forward and Backward
+ * computations on a target sequence. The Forward calculation is
+ * checkpointed. The Backward calculation is linear memory in two
+ * rows. The end result is a Forward score and a posterior-decoded set
+ * of DP bands.
+ *
+ * In the diagram below, showing the row layout for the main matrix (MDI states):
+ *   O = a checkpointed row; 
+ *   x = row that isn't checkpointed;
+ *   * = boundary row 0, plus row(s) used for Backwards
+ * 
+ *   i = index of residues in a target sequence of length L
+ *   r = index of rows in the DP matrix, R0+R in total
+ *
+ *               |------------------------- L -------------------------------|   
+ *               |-----La----| |-Lb-| |-------------- Lc --------------------|
+ * i =  .  .  0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18 19 20 21
+ *      *  *  *  O  O  O  O  O  x  O  x  x  x  x  O  x  x  x  O  x  x  O  x  O
+ * r =  0  1  2  3  4  5  6  7  .  8  .  .  .  .  9  .  .  . 10  .  . 11  . 12
+ *      |--R0-|  |-----Ra----| |-Rb-| |-------------- Rc --------------------|
+ *               |------------------------- R -------------------------------|   
+ *   
+ * There are four regions in the rows:
+ *    region 0 (R0)                : boundary row 0, and Backwards' two rows
+ *    region a ("all"; Ra)         : all rows are kept (no checkpointing)
+ *    region b ("between"; Rb)     : partially checkpointed
+ *    region c ("checkpointed; Rc) : fully checkpointed
+ *   
+ * In region a, La = Rb
+ * In region b, Rb = 0|1, Lb = 0..Rc+1
+ *              more specificially: (Rb=0 && Lb=0) || (Rb=1 && 1 <= Lb <= Rc+1)
+ * In region c, Lc = {{Rc+2} \choose {2}}-1 = (Rc+2)(Rc+1)/2 - 1
+ * 
+ * In this example:
+ *    R0 = 3
+ *    Ra = 5  La = 5
+ *    Rb = 1  La = 2
+ *    Rc = 4  Lc = 14
+ *                                                             
+ * In checkpointed regions, we refer to "blocks", often indexed
+ * <b>.  There are Rb+Rc blocks, and each block ends in a checkpointed
+ * row. The "width" of each block, often called <w>, decrements from
+ * Rc+1 down to 2 in the fully checkpointed region.
+ *
+ * The reason to mix checkpointing and non-checkpointing is that we
+ * use as many rows as we can, given a set memory ceiling, to minimize
+ * computation time.
+ * 
+ * The special states (ENJBC) are kept in xmx for all rows 1..L, just
+ * as in a normal (uncheckpointed) P7_GMX.
+ */
+
+
+
+/*****************************************************************
+ * 2. Exegesis: layout of rows in a checkpointed matrix.
+ *****************************************************************/
+
+/* Layout of memory in a single DP row:
+ * 
+ *  dpc:   [M  I  D] [M  I  D] [M  I  D]  ...  [M  I  D]  [E  N  JJ  J  B  CC  C]
+ *    k:   |-- 0 --| |-- 1 --| |-- 2 --|  ...  |-- M --|  
+ *         |------------- (M+1)*p7G_NSCELLS -----------|  |---- p7GC_NXCELLS ---|
+ *
+ *  Row dp[r] = gxc->dp_mem+(r*allocW) = dpc
+ *  Main state s={MID} at node k={0..M}: dpc[k*p7G_NSCELLS+s]   
+ *  Special state s={ENJBC,CC,JJ}:       dpc[(M+1)*p7G_NSCELLS+s]
+ *  
+ *  We need to store "JJ" and "CC" states -- the partial path
+ *  probabilities from C(i-1)->C and J(i-1)->J -- because the
+ *  checkpointed implementation does not necessarily have access to
+ *  values on row i-1 when it does posterior decoding. <p7G_NXCELLS>
+ *  from <P7_GMX> is replaced by <p7GC_NXCELLS> in <P7_GMXCHK>, and
+ *  <enum p7g_xcells_e> from 0..4 {ENJBC} with <p7gc_xcells_e> from
+ *  0..6 {E,N,JJ,J,B,CC,C}.
+ */
+
+
+/*****************************************************************
+ * 3. The P7_GMXCHK data structure.
+ *****************************************************************/
+
+/* p7GC_NXCELLS and p7gc_xcells_e
+ * 
+ * For main states we share p7G_NSCELLS and p7G_{MID} with P7_GMX.
+ * For special states, we replace <enum p7g_xcells_e> with an array
+ * that inserts CC and JJ cells, which the checkpointed implementation
+ * needs. (See note 2 above.) Note that the order of the p7GC_{X}
+ * special states is not the same as p7G_{X}, so they should not be
+ * mixed.
+ */
+enum p7gc_xcells_e {
+  p7GC_E  = 0,
+  p7GC_N  = 1,
+  p7GC_JJ = 2,
+  p7GC_J  = 3,
+  p7GC_B  = 4,
+  p7GC_CC = 5,
+  p7GC_C  = 6
+};
+#define p7GC_NXCELLS 7
+
+
+typedef struct p7_gmxchk_s {
+  int      M;	        /* actual query model dimension of current comparison                 */
+  int      L;	        /* actual target sequence dimension of current comparison             */
+  int      R;	        /* actual # rows in current fwd matrix (<= Ra+Rb+Rc), excluding R0    */
+  
+  /* Checkpointed layout, mapping rows 1..R to residues 1..L:                                 */
+  int      R0;	        /* # of extra rows: one for fwd[0] boundary, two for bck[prv,cur]     */
+  int      Ra;	        /* # of rows used in "all" region (uncheckpointed)                    */
+  int      Rb;	        /* # of rows in "between" region (one incomplete checkpoint segment)  */
+  int      Rc;	        /* # of rows in "checkpointed" region                                 */
+  int      La;	        /* residues 1..La are in "all" region                                 */
+  int      Lb;      	/* residues La+1..La+Lb are in "between" region                       */
+  int      Lc;	        /* residues La+Lb+1..La+Lb+Lc=L are in "checkpointed" region          */
+
+  float   *dp_mem;	/* raw memory allocation, that dp[] rows point into                         */
+  int      allocW;	/* allocated width/row, in cells ((M+1)*p7G_NSCELLS+p7G_NXCELLS) <= allocW) */
+  int64_t  ncells;	/* total # of alloc'ed cells: ncells >= (validR)(allocW)                    */
+  int64_t  ncell_limit;	/* recommended RAM limit on dp_mem; can temporarily exceed it               */
+
+  float  **dp;		/* DP row pointers, dp[0..R0-1,R0..R0+R-1]. See note above for layout.      */
+  int      allocR;	/* allocated size of dp[]. R+R0 <= R0+Ra+Rb+Rc <= validR <= allocR          */
+  int      validR;	/* # of rows pointing at DP memory; may be < allocR after a GrowTo() call   */ 
+
+  /* Info for debugging mode (conditionally compiled)                              */
+#ifdef p7_DEBUGGING 
+  int      do_debugging;	/* TRUE if we're in debugging mode                 */
+  FILE    *dfp;			/* output stream for debugging diagnostics         */
+  int      dbg_width;		/* cell values in diagnostic output are fprintf'ed */
+  int      dbg_precision;       /*     dfp, "%*.*f", dbg_width, dbg_precision, val */ 
+  int      dbg_flags;		/* p7_DEFAULT | p7_HIDE_SPECIALS | p7_SHOW_LOG     */
+#endif
+} P7_GMXCHK;
+
+#define MMR(p, k) ((p)[(k)* p7G_NSCELLS + p7G_M])
+#define IMR(p, k) ((p)[(k)* p7G_NSCELLS + p7G_I])
+#define DMR(p, k) ((p)[(k)* p7G_NSCELLS + p7G_D])
+#define XMR(p, s) ((p)[(M+1)* p7G_NSCELLS + s])
+
+/*****************************************************************
+ * 4. Declarations of the p7_gmxchk API
+ *****************************************************************/
+
+extern P7_GMXCHK *p7_gmxchk_Create (int M, int L, int64_t ramlimit);
+extern int        p7_gmxchk_GrowTo (P7_GMXCHK *gxc, int M, int L);
+extern size_t     p7_gmxchk_Sizeof (const P7_GMXCHK *gxc);
+extern int        p7_gmxchk_Reuse  (P7_GMXCHK *gxc);
+extern void       p7_gmxchk_Destroy(P7_GMXCHK *gxc);
+
+extern int        p7_gmxchk_Dump(FILE *ofp, P7_GMXCHK *gxc, int flags);
+extern int        p7_gmxchk_SetDumpMode(P7_GMXCHK *gxc, FILE *ofp, int flags);
+extern int        p7_gmxchk_DumpHeader(FILE *ofp, P7_GMXCHK *gxc,  int kstart, int kend, int flags);
+extern int        p7_gmxchk_DumpRow(FILE *ofp, P7_GMXCHK *gxc, float *dpc, int i, int kstart, int kend, int flags);
+
+/* 
+ * References:
+ *    SRE:J8/109-112, Oct 2011: Implementation plan
+ */
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id$
+ * SVN $URL$
+ *****************************************************************/
+
+#endif /*P7_GMXCHK_INCLUDED*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_hmmcache.h b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_hmmcache.h
new file mode 100755
index 0000000..e86a126
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/include/p7_hmmcache.h
@@ -0,0 +1,36 @@
+/* A cached profile database. Used by the hmmpgmd daemon.
+ */
+#ifndef P7_HMMCACHE_INCLUDED
+#define P7_HMMCACHE_INCLUDED
+
+#include "esl_alphabet.h"
+#include "hmmer.h"
+
+typedef struct {
+  char               *name;        /* name of the hmm database              */
+  ESL_ALPHABET       *abc;         /* alphabet for database                 */
+
+  P7_OPROFILE       **list;        /* list of profiles [0 .. n-1]           */
+  uint32_t            lalloc;	   /* allocated length of <list>            */
+  uint32_t            n;           /* number of entries in <list>           */
+} P7_HMMCACHE;
+
+extern int    p7_hmmcache_Open (char *hmmfile, P7_HMMCACHE **ret_cache, char *errbuf);
+extern size_t p7_hmmcache_Sizeof         (P7_HMMCACHE *cache);
+extern int    p7_hmmcache_SetNumericNames(P7_HMMCACHE *cache);
+extern void   p7_hmmcache_Close          (P7_HMMCACHE *cache);
+
+#endif /*P7_HMMCACHE_INCLUDED*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id: p7_hmmcache.h 3754 2011-11-21 14:25:31Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_hmmcache.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/install-sh b/Exercise11_files/hmmer-3.1b2-cygwin64/install-sh
new file mode 100755
index 0000000..f5061e7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/install-sh
@@ -0,0 +1,295 @@
+#!/bin/sh
+# install - install a program, script, or datafile
+
+scriptversion=2003-09-24.23
+
+# This originates from X11R5 (mit/util/scripts/install.sh), which was
+# later released in X11R6 (xc/config/util/install.sh) with the
+# following copyright and license.
+#
+# Copyright (C) 1994 X Consortium
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to
+# deal in the Software without restriction, including without limitation the
+# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
+# sell copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in
+# all copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
+# X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
+# AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNEC-
+# TION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+#
+# Except as contained in this notice, the name of the X Consortium shall not
+# be used in advertising or otherwise to promote the sale, use or other deal-
+# ings in this Software without prior written authorization from the X Consor-
+# tium.
+#
+#
+# FSF changes to this file are in the public domain.
+#
+# Calling this script install-sh is preferred over install.sh, to prevent
+# `make' implicit rules from creating a file called install from it
+# when there is no Makefile.
+#
+# This script is compatible with the BSD install script, but was written
+# from scratch.  It can only install one file at a time, a restriction
+# shared with many OS's install programs.
+
+# set DOITPROG to echo to test this script
+
+# Don't use :- since 4.3BSD and earlier shells don't like it.
+doit="${DOITPROG-}"
+
+# put in absolute paths if you don't have them in your path; or use env. vars.
+
+mvprog="${MVPROG-mv}"
+cpprog="${CPPROG-cp}"
+chmodprog="${CHMODPROG-chmod}"
+chownprog="${CHOWNPROG-chown}"
+chgrpprog="${CHGRPPROG-chgrp}"
+stripprog="${STRIPPROG-strip}"
+rmprog="${RMPROG-rm}"
+mkdirprog="${MKDIRPROG-mkdir}"
+
+transformbasename=
+transform_arg=
+instcmd="$mvprog"
+chmodcmd="$chmodprog 0755"
+chowncmd=
+chgrpcmd=
+stripcmd=
+rmcmd="$rmprog -f"
+mvcmd="$mvprog"
+src=
+dst=
+dir_arg=
+
+usage="Usage: $0 [OPTION]... SRCFILE DSTFILE
+   or: $0 -d DIR1 DIR2...
+
+In the first form, install SRCFILE to DSTFILE, removing SRCFILE by default.
+In the second, create the directory path DIR.
+
+Options:
+-b=TRANSFORMBASENAME
+-c         copy source (using $cpprog) instead of moving (using $mvprog).
+-d         create directories instead of installing files.
+-g GROUP   $chgrp installed files to GROUP.
+-m MODE    $chmod installed files to MODE.
+-o USER    $chown installed files to USER.
+-s         strip installed files (using $stripprog).
+-t=TRANSFORM
+--help     display this help and exit.
+--version  display version info and exit.
+
+Environment variables override the default commands:
+  CHGRPPROG CHMODPROG CHOWNPROG CPPROG MKDIRPROG MVPROG RMPROG STRIPPROG
+"
+
+while test -n "$1"; do
+  case $1 in
+    -b=*) transformbasename=`echo $1 | sed 's/-b=//'`
+        shift
+        continue;;
+
+    -c) instcmd=$cpprog
+        shift
+        continue;;
+
+    -d) dir_arg=true
+        shift
+        continue;;
+
+    -g) chgrpcmd="$chgrpprog $2"
+        shift
+        shift
+        continue;;
+
+    --help) echo "$usage"; exit 0;;
+
+    -m) chmodcmd="$chmodprog $2"
+        shift
+        shift
+        continue;;
+
+    -o) chowncmd="$chownprog $2"
+        shift
+        shift
+        continue;;
+
+    -s) stripcmd=$stripprog
+        shift
+        continue;;
+
+    -t=*) transformarg=`echo $1 | sed 's/-t=//'`
+        shift
+        continue;;
+
+    --version) echo "$0 $scriptversion"; exit 0;;
+
+    *)  if test -z "$src"; then
+          src=$1
+        else
+          # this colon is to work around a 386BSD /bin/sh bug
+          :
+          dst=$1
+        fi
+        shift
+        continue;;
+  esac
+done
+
+if test -z "$src"; then
+  echo "$0: no input file specified." >&2
+  exit 1
+fi
+
+# Protect names starting with `-'.
+case $src in
+  -*) src=./$src ;;
+esac
+
+if test -n "$dir_arg"; then
+  dst=$src
+  src=
+
+  if test -d "$dst"; then
+    instcmd=:
+    chmodcmd=
+  else
+    instcmd=$mkdirprog
+  fi
+else
+  # Waiting for this to be detected by the "$instcmd $src $dsttmp" command
+  # might cause directories to be created, which would be especially bad
+  # if $src (and thus $dsttmp) contains '*'.
+  if test ! -f "$src" && test ! -d "$src"; then
+    echo "$0: $src does not exist." >&2
+    exit 1
+  fi
+
+  if test -z "$dst"; then
+    echo "$0: no destination specified." >&2
+    exit 1
+  fi
+
+  # Protect names starting with `-'.
+  case $dst in
+    -*) dst=./$dst ;;
+  esac
+
+  # If destination is a directory, append the input filename; won't work
+  # if double slashes aren't ignored.
+  if test -d "$dst"; then
+    dst=$dst/`basename "$src"`
+  fi
+fi
+
+# This sed command emulates the dirname command.
+dstdir=`echo "$dst" | sed -e 's,[^/]*$,,;s,/$,,;s,^$,.,'`
+
+# Make sure that the destination directory exists.
+
+# Skip lots of stat calls in the usual case.
+if test ! -d "$dstdir"; then
+  defaultIFS='
+	'
+  IFS="${IFS-$defaultIFS}"
+
+  oIFS=$IFS
+  # Some sh's can't handle IFS=/ for some reason.
+  IFS='%'
+  set - `echo "$dstdir" | sed -e 's@/@%@g' -e 's@^%@/@'`
+  IFS=$oIFS
+
+  pathcomp=
+
+  while test $# -ne 0 ; do
+    pathcomp=$pathcomp$1
+    shift
+    test -d "$pathcomp" || $mkdirprog "$pathcomp"
+    pathcomp=$pathcomp/
+  done
+fi
+
+if test -n "$dir_arg"; then
+  $doit $instcmd "$dst" \
+    && { test -z "$chowncmd" || $doit $chowncmd "$dst"; } \
+    && { test -z "$chgrpcmd" || $doit $chgrpcmd "$dst"; } \
+    && { test -z "$stripcmd" || $doit $stripcmd "$dst"; } \
+    && { test -z "$chmodcmd" || $doit $chmodcmd "$dst"; }
+
+else
+  # If we're going to rename the final executable, determine the name now.
+  if test -z "$transformarg"; then
+    dstfile=`basename "$dst"`
+  else
+    dstfile=`basename "$dst" $transformbasename \
+             | sed $transformarg`$transformbasename
+  fi
+
+  # don't allow the sed command to completely eliminate the filename.
+  test -z "$dstfile" && dstfile=`basename "$dst"`
+
+  # Make a couple of temp file names in the proper directory.
+  dsttmp=$dstdir/_inst.$$_
+  rmtmp=$dstdir/_rm.$$_
+
+  # Trap to clean up those temp files at exit.
+  trap 'status=$?; rm -f "$dsttmp" "$rmtmp" && exit $status' 0
+  trap '(exit $?); exit' 1 2 13 15
+
+  # Move or copy the file name to the temp name
+  $doit $instcmd "$src" "$dsttmp" &&
+
+  # and set any options; do chmod last to preserve setuid bits.
+  #
+  # If any of these fail, we abort the whole thing.  If we want to
+  # ignore errors from any of these, just make sure not to ignore
+  # errors from the above "$doit $instcmd $src $dsttmp" command.
+  #
+  { test -z "$chowncmd" || $doit $chowncmd "$dsttmp"; } \
+    && { test -z "$chgrpcmd" || $doit $chgrpcmd "$dsttmp"; } \
+    && { test -z "$stripcmd" || $doit $stripcmd "$dsttmp"; } \
+    && { test -z "$chmodcmd" || $doit $chmodcmd "$dsttmp"; } &&
+
+  # Now remove or move aside any old file at destination location.  We
+  # try this two ways since rm can't unlink itself on some systems and
+  # the destination file might be busy for other reasons.  In this case,
+  # the final cleanup might fail but the new file should still install
+  # successfully.
+  {
+    if test -f "$dstdir/$dstfile"; then
+      $doit $rmcmd -f "$dstdir/$dstfile" 2>/dev/null \
+      || $doit $mvcmd -f "$dstdir/$dstfile" "$rmtmp" 2>/dev/null \
+      || {
+	  echo "$0: cannot unlink or rename $dstdir/$dstfile" >&2
+	  (exit 1); exit
+      }
+    else
+      :
+    fi
+  } &&
+
+  # Now rename the file to the real destination.
+  $doit $mvcmd "$dsttmp" "$dstdir/$dstfile"
+fi &&
+
+# The final little trick to "correctly" pass the exit status to the exit trap.
+{
+  (exit 0); exit
+}
+
+# Local variables:
+# eval: (add-hook 'write-file-hooks 'time-stamp)
+# time-stamp-start: "scriptversion="
+# time-stamp-format: "%:y-%02m-%02d.%02H"
+# time-stamp-end: "$"
+# End:
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/lib/libhmmer.a b/Exercise11_files/hmmer-3.1b2-cygwin64/lib/libhmmer.a
new file mode 100755
index 0000000..decfc86
Binary files /dev/null and b/Exercise11_files/hmmer-3.1b2-cygwin64/lib/libhmmer.a differ
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/AUTHORS b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/AUTHORS
new file mode 100755
index 0000000..429a6a5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/AUTHORS
@@ -0,0 +1,3 @@
+-- AUTHORS for libdivsufsort-lite
+
+Yuta Mori <yuta.256@gmail.com>
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/COPYING b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/COPYING
new file mode 100755
index 0000000..13023f7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/COPYING
@@ -0,0 +1,27 @@
+The libdivsufsort-lite copyright is as follows:
+
+Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
+
+Permission is hereby granted, free of charge, to any person
+obtaining a copy of this software and associated documentation
+files (the "Software"), to deal in the Software without
+restriction, including without limitation the rights to use,
+copy, modify, merge, publish, distribute, sublicense, and/or sell
+copies of the Software, and to permit persons to whom the
+Software is furnished to do so, subject to the following
+conditions:
+
+The above copyright notice and this permission notice shall be
+included in all copies or substantial portions of the Software.
+
+THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
+OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
+HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
+WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+OTHER DEALINGS IN THE SOFTWARE.
+
+See also the libdivsufsort web site:
+  http://libdivsufsort.googlecode.com/ for more information.
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/Makefile.in
new file mode 100755
index 0000000..91cd6cc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/Makefile.in
@@ -0,0 +1,58 @@
+# Makefile for fm-index
+
+# VPATH and shell configuration
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ 
+SHELL      = /bin/sh
+
+# sources
+OBJS				= divsufsort.o 
+TARGET				= libdivsufsort.a
+MAKEFILE			= Makefile
+
+# options
+CC        = @CC@
+CFLAGS    = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+CPPFLAGS  = @CPPFLAGS@
+MPILIBS   = @MPILIBS@
+AR        = @AR@ rc
+RANLIB    = @RANLIB@
+INSTALL   = @INSTALL@
+
+#CC					= gcc 
+#CFLAGS  	 		= -g -O3 -fomit-frame-pointer -fstrict-aliasing 
+#CPPFLAGS			= -Wall 
+#AR       = /usr/bin/ar rc
+#RANLIB   = ranlib
+
+
+# beautification magic stolen from git (added within hmmer source)
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_AR      = @echo '    ' AR $@;
+endif
+
+
+# targets
+all: $(TARGET) 
+$(TARGET): $(OBJS)
+
+.c.o:
+	${QUIET_CC}${CC} -I. ${CFLAGS} ${CPPFLAGS} -o $@ -c $<
+
+
+libdivsufsort.a: $(OBJS)
+	${QUIET_AR}${AR} libdivsufsort.a $(OBJS)
+	@${RANLIB} libdivsufsort.a
+	@chmod 644 libdivsufsort.a
+
+
+clean:
+	$(RM) $(TARGET) $(OBJS)
+
+distclean:
+	$(RM) $(TARGET) $(OBJS) $(MAKEFILE) divsufsort.h
+
+# dependencies
+$(OBJS): divsufsort.h $(MAKEFILE)
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/README b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/README
new file mode 100755
index 0000000..63c6655
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/README
@@ -0,0 +1,185 @@
+libdivsufsort - A lightweight suffix-sorting library.
+-----------------------------------------------------
+
+Introduction:
+-------------
+
+The libdivsufsort project provides a fast, lightweight, and robust
+C API library to construct the suffix array and the Burrows-Wheeler
+transformed string for any input string of a constant-size alphabet.
+
+The suffix-sorting algorithm runs in O(n log n) worst-case time
+using only 5n+O(1) bytes of memory space, where n is the length of
+the input string.
+
+The latest version of libdivsufsort is available at:
+  http://libdivsufsort.googlecode.com/
+
+
+License:
+--------
+
+libdivsufsort is released under the MIT/X11 license. See the file
+COPYING for more details.
+
+
+APIs:
+-----
+
+  * Data types
+  typedef int32_t saint_t;
+  typedef int32_t saidx_t;
+  typedef uint8_t sauchar_t;
+
+  * Constructs the suffix array of a given string.
+  * @param T[0..n-1] The input string.
+  * @param SA[0..n-1] The output array or suffixes.
+  * @param n The length of the given string.
+  * @return 0 if no error occurred, -1 or -2 otherwise.
+  saint_t
+  divsufsort(const sauchar_t *T, saidx_t *SA, saidx_t n);
+
+  * Constructs the burrows-wheeler transformed string of a given string.
+  * @param T[0..n-1] The input string.
+  * @param U[0..n-1] The output string. (can be T)
+  * @param A[0..n-1] The temporary array. (can be NULL)
+  * @param n The length of the given string.
+  * @return The primary index if no error occurred, -1 or -2 otherwise.
+  saidx_t
+  divbwt(const sauchar_t *T, sauchar_t *U, saidx_t *A, saidx_t n);
+
+
+Benchmark:
+------------------
+
+= Specifications =
+Processor:        2.66 GHz Intel Core 2 Duo E6750
+L1 Cache:         (32 Kb + 32 Kb) x 2
+L2 Cache:         4 Mb
+RAM:              2 Gb main memory
+Operating system: Windows XP Home SP 3 (with Cygwin)
+Compiler:         GCC version 4.3.1
+
+= Programs =
+Archon4r0    kvark's sorting algorithm            http://forum.compression.ru/viewtopic.php?t=352
+BPR          Bucket-Pointer Refinement algorithm  http://bibiserv.techfak.uni-bielefeld.de/bpr/
+DC           Difference-Cover algorithm (v = 32)  http://www.cs.helsinki.fi/juha.karkkainen/publications/cpm03.tar.gz
+DS           Deep-Shallow sorting algorithm       http://www.mfn.unipmn.it/~manzini/lightweight/
+divsufsort1  libdivsufsort version 1.2.3          http://libdivsufsort.googlecode.com/
+divsufsort2  libdivsufsort version 2.0.0          http://libdivsufsort.googlecode.com/
+KA           Ko-Aluru algorithm                   http://ko.pang.cn.googlepages.com/software2
+KS           Kärkkäinen-Sanders algorithm         http://www.mpi-inf.mpg.de/~sanders/programs/suffix/
+MSufSort3    MSufSort version 3.1.1 beta          http://www.michael-maniscalco.com/msufsort.htm
+qsufsort     Larsson-Sadakane algorithm           http://www.larsson.dogma.net/research.html
+sais         Induced Sorting algorithm            http://yuta.256.googlepages.com/sais
+
+All programs were compiled with gcc/g++ using '-O3 -fomit-frame-pointer -DNDEBUG'
+optimization options. The times are the average of five runs, in seconds, and were
+measured using the standard Unix/Cygwin 'time' command. (user + system) The spaces
+were measured using the 'memusage' command.
+
+= Testfiles =
+Manzini's Large Corpus  http://www.mfn.unipmn.it/~manzini/lightweight/corpus/
+The Gauntlet            http://www.michael-maniscalco.com/testset/gauntlet/
+
+= Running times =
+
+== Manzini's Corpus ==
+Files                 Size  Archon4r0      BPR       DC       DS  divsufsort1  divsufsort2       KA        KS  MSufSort3  qsufsort     sais
+chr22.dna         34553758      6.030    6.196   22.694    7.514        5.404        5.362   16.980    50.006      7.132    10.642   10.796
+etext99          105277340     22.160   32.582   79.872   34.264       18.758       18.064   73.236   202.684     24.106    56.612   38.748
+gcc-3.0.tar       86630400     13.856   20.692   61.690   35.822       10.382       10.084   40.908   135.174     14.952    40.766   20.990
+howto             39422105      5.806    8.326   25.432    8.288        5.472        5.320   20.694    64.834      5.672    16.366   11.388
+jdk13c            69728899     18.106   22.252   61.234   32.182        9.260        9.010   34.172   101.096     11.314    39.792   16.396
+linux-2.4.5.tar  116254720     18.174   26.226   82.830   25.912       14.672       14.290   58.586   194.412     19.890    54.054   29.614
+rctail96         114711151     32.490   55.826  119.026   62.502       18.500       17.914   70.072   190.562     21.060    70.456   33.248
+rfc              116421901     20.736   35.404   91.284   29.666       16.116       15.658   64.390   196.500     17.936    61.436   32.224
+sprot34.dat      109617186     22.832   36.720   93.122   32.096       17.894       17.404   68.084   187.594     23.352    56.946   34.092
+w3c2             104201579     27.264   29.384   89.352   54.682       13.866       13.486   52.660   162.582     17.090    77.804   25.498
+totals           896819039    187.454  273.608  726.536  322.928      130.324      126.592  499.782  1485.444    162.504   484.874  252.994
+
+== The Gauntlet ==
+Files              Size  Archon4r0      BPR      DC       DS  divsufsort1  divsufsort2      KA      KS  MSufSort3  qsufsort    sais
+abac             200000      0.044    0.064   0.104   27.914        0.042        0.036   0.058   0.048      0.050     0.062   0.044
+abba           10500600      3.270    5.124  10.766   30.702        1.714        1.602   2.570   7.952      3.514    15.272   1.460
+book1x20       15375420      4.392    3.530  13.872   97.468        2.312        2.154   7.442  15.756      3.542    22.376   3.912
+fib_s14930352  14930352     12.728   10.830  18.524  179.040        3.638        3.588   3.544  10.232      6.700    18.224   2.542
+fss10          12078908     11.390    8.974  15.130   85.328        2.828        2.824   3.344   8.646      4.618    14.754   2.076
+fss9            2851443      1.002    1.210   1.644    5.256        0.410        0.416   0.618   1.290      0.554     2.836   0.336
+houston         3840000      0.344    0.708   2.226  118.960        0.118        0.128   0.520   0.744      0.242     1.230   0.238
+paper5x80        981924      0.110    0.154   0.454    0.806        0.092        0.090   0.210   0.256      0.144     0.448   0.110
+test1           2097152      0.332    2.132   1.108    8.680        0.268        0.280   0.376   1.066      1.302     2.762   0.202
+test2           2097152      0.710    0.616   1.110    8.682        0.180        0.176   0.374   1.076      3.354     2.768   0.206
+test3           2097152      0.488  213.154   1.164    1.772        0.220        0.226   0.388   1.082      0.922     3.246   0.212
+totals         67050103     34.810  246.496  66.102  564.608       11.822       11.520  19.444  48.148     24.942    83.978  11.338
+
+= Space (in MiBytes) =
+
+== Manzini's Corpus ==
+Files                 Size  Archon4r0      BPR       DC       DS  divsufsort1  divsufsort2       KA        KS  MSufSort3  qsufsort     sais
+chr22.dna         34553758     174.66   296.88   193.60   165.18       165.02       165.02   289.97    428.39     199.72    263.62   164.77
+etext99          105277340     531.13   915.48   589.85   503.23       502.25       502.25   907.34   1305.20     604.45    803.20   502.00
+gcc-3.0.tar       86630400     437.14   756.43   485.38   415.87       413.34       413.34   709.50   1074.01     497.79    660.94   413.09
+howto             39422105     199.20   367.53   220.88   188.45       188.23       188.23   331.54    488.75     227.67    300.77   187.98
+jdk13c            69728899     351.96   603.99   390.68   333.40       332.74       332.74   609.71    864.48     401.04    531.99   332.49
+linux-2.4.5.tar  116254720     586.46  1061.83   651.36   555.76       554.60       554.60   977.81   1441.30     667.39    886.95   554.35
+rctail96         114711151     578.68   987.64   642.71   548.32       547.24       547.24  1004.98   1422.16     658.43    875.18   546.99
+rfc              116421901     587.30  1005.85   652.29   556.53       555.39       555.39   956.52   1443.37     668.26    888.23   555.14
+sprot34.dat      109617186     553.01   941.95   614.17   524.03       522.95       522.95   930.06   1359.01     629.26    836.31   522.70
+w3c2             104201579     525.71   958.37   583.82   498.09       497.12       497.12   912.00   1291.87     598.82    795.00   496.87
+totals           896819039    4525.25  7895.95  5024.74  4288.86      4278.88      4278.88  7629.43  11118.54    5152.83   6842.19  4276.38
+mean                     -       5.29     9.23     5.88     5.01         5.00         5.00     8.92     13.00       6.02      8.00     5.00
+
+== The Gauntlet ==
+Files              Size  Archon4r0     BPR      DC      DS  divsufsort1  divsufsort2      KA      KS  MSufSort3  qsufsort    sais
+abac             200000       1.51    1.73    1.12    0.98         1.21         1.20    1.75    2.48       3.15      1.53    0.95
+abba           10500600      53.43   90.19   58.83   50.21        50.32        50.32   86.20  130.18      62.09     80.11   50.07
+book1x20       15375420      78.00  134.00   86.15   73.52        73.57        73.57  132.42  190.62      89.99    117.31   73.32
+fib_s14930352  14930352      75.75  128.15   83.65   71.71        71.44        71.44  117.16  185.10      87.43    113.91   71.19
+fss10          12078908      61.38  103.68   67.68   58.05        57.85        57.85  107.05  149.75      71.12     92.16   57.60
+fss9            2851443      14.87   24.48   15.98   13.71        13.85        13.85   25.27   35.35      18.32     21.76   13.60
+houston         3840000      19.85   36.96   21.52   18.46        18.56        18.56   28.79   47.58      23.98     29.30   18.31
+paper5x80        981924       5.45   11.40    5.50    4.72         4.93         4.93    8.59   12.17       7.63      7.49    4.68
+test1           2097152      11.07   82.00   11.75   10.10        10.25        10.25   18.34   25.99      14.01     16.00   10.00
+test2           2097152      11.07   82.00   11.75   10.10        10.25        10.25   18.34   25.99      14.01     16.00   10.00
+test3           2097152      11.07   82.00   11.75   10.05        10.25        10.25   18.34   26.00      14.63     16.00   10.12
+totals         67050103     343.45  776.59  375.68  321.61       322.48       322.47  562.25  831.21     406.36    511.57  319.84
+mean                  -       5.37   12.14    5.88    5.03         5.04         5.04    8.79   13.00       6.35      8.00    5.00
+
+
+Algorithm:
+----------
+
+libdivsufsort uses the following algorithms for suffix sorting.
+  - The improved version of Itho-Tanaka two-stage sorting algorithm. [2][6]
+  - A substring sorting/encoding technique. [1][3]
+  - Maniscalco's tandem repeat sorting algorithm. [5]
+  - Larsson-Sadakane sorting algorithm. [4]
+
+
+References:
+-----------
+
+  1. Stefan Burkhardt and Juha K"arkk"ainen. Fast lightweight suffix
+     array construction and checking. Proceedings of the 14th Annual
+     Symposium on Combinatorial Pattern Matching, LNCS 2676,
+     Springer, pp. 55-69, 2003.
+
+  2. Hideo Itoh and Hozumi Tanaka, An Efficient Method for in Memory
+     Construction of Suffix Arrays, Proceedings of the IEEE String
+     Processing and Information Retrieval Symposium, pp. 81-88, 1999.
+
+  3. Pang Ko and Srinivas Aluru, Space-efficient linear time
+     construction of suffix arrays, Proceedings of the 14th Annual
+     Symposium on Combinatorial Pattern Matching, pp. 200-210, 2003.
+
+  4. Jesper Larsson and Kunihiko Sadakane, Faster suffix sorting.
+     Technical report LU-CS-TR:99-214, Department of Computer
+     Science, Lund University, Sweden, 1999.
+
+  5. Michael Maniscalco, MSufSort.
+     http://www.michael-maniscalco.com/msufsort.htm
+
+  6. Yuta Mori, Short description of improved two-stage suffix sorting
+     algorithm, 2005.
+     http://homepage3.nifty.com/wpage/software/itssort.txt
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/VERSION b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/VERSION
new file mode 100755
index 0000000..227cea2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/VERSION
@@ -0,0 +1 @@
+2.0.0
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/divsufsort.c b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/divsufsort.c
new file mode 100755
index 0000000..4499b66
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/divsufsort.c
@@ -0,0 +1,1794 @@
+/*
+ * divsufsort.c for libdivsufsort-lite
+ * Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person
+ * obtaining a copy of this software and associated documentation
+ * files (the "Software"), to deal in the Software without
+ * restriction, including without limitation the rights to use,
+ * copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following
+ * conditions:
+ *
+ * The above copyright notice and this permission notice shall be
+ * included in all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
+ * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+ * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
+ * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
+ * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+ * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ */
+
+#include <assert.h>
+#include <stdio.h>
+#include <stdlib.h>
+#ifdef _OPENMP
+# include <omp.h>
+#endif
+#include "divsufsort.h"
+
+
+/*- Constants -*/
+#define INLINE __inline
+#if defined(ALPHABET_SIZE) && (ALPHABET_SIZE < 1)
+# undef ALPHABET_SIZE
+#endif
+#if !defined(ALPHABET_SIZE)
+# define ALPHABET_SIZE (256)
+#endif
+#define BUCKET_A_SIZE (ALPHABET_SIZE)
+#define BUCKET_B_SIZE (ALPHABET_SIZE * ALPHABET_SIZE)
+#if defined(SS_INSERTIONSORT_THRESHOLD)
+# if SS_INSERTIONSORT_THRESHOLD < 1
+#  undef SS_INSERTIONSORT_THRESHOLD
+#  define SS_INSERTIONSORT_THRESHOLD (1)
+# endif
+#else
+# define SS_INSERTIONSORT_THRESHOLD (8)
+#endif
+#if defined(SS_BLOCKSIZE)
+# if SS_BLOCKSIZE < 0
+#  undef SS_BLOCKSIZE
+#  define SS_BLOCKSIZE (0)
+# elif 32768 <= SS_BLOCKSIZE
+#  undef SS_BLOCKSIZE
+#  define SS_BLOCKSIZE (32767)
+# endif
+#else
+# define SS_BLOCKSIZE (1024)
+#endif
+/* minstacksize = log(SS_BLOCKSIZE) / log(3) * 2 */
+#if SS_BLOCKSIZE == 0
+# define SS_MISORT_STACKSIZE (96)
+#elif SS_BLOCKSIZE <= 4096
+# define SS_MISORT_STACKSIZE (16)
+#else
+# define SS_MISORT_STACKSIZE (24)
+#endif
+#define SS_SMERGE_STACKSIZE (32)
+#define TR_INSERTIONSORT_THRESHOLD (8)
+#define TR_STACKSIZE (64)
+
+
+/*- Macros -*/
+#ifndef SWAP
+# define SWAP(_a, _b) do { t = (_a); (_a) = (_b); (_b) = t; } while(0)
+#endif /* SWAP */
+#ifndef MIN
+# define MIN(_a, _b) (((_a) < (_b)) ? (_a) : (_b))
+#endif /* MIN */
+#ifndef MAX
+# define MAX(_a, _b) (((_a) > (_b)) ? (_a) : (_b))
+#endif /* MAX */
+#define STACK_PUSH(_a, _b, _c, _d)\
+  do {\
+    assert(ssize < STACK_SIZE);\
+    stack[ssize].a = (_a), stack[ssize].b = (_b),\
+    stack[ssize].c = (_c), stack[ssize++].d = (_d);\
+  } while(0)
+#define STACK_PUSH5(_a, _b, _c, _d, _e)\
+  do {\
+    assert(ssize < STACK_SIZE);\
+    stack[ssize].a = (_a), stack[ssize].b = (_b),\
+    stack[ssize].c = (_c), stack[ssize].d = (_d), stack[ssize++].e = (_e);\
+  } while(0)
+#define STACK_POP(_a, _b, _c, _d)\
+  do {\
+    assert(0 <= ssize);\
+    if(ssize == 0) { return; }\
+    (_a) = stack[--ssize].a, (_b) = stack[ssize].b,\
+    (_c) = stack[ssize].c, (_d) = stack[ssize].d;\
+  } while(0)
+#define STACK_POP5(_a, _b, _c, _d, _e)\
+  do {\
+    assert(0 <= ssize);\
+    if(ssize == 0) { return; }\
+    (_a) = stack[--ssize].a, (_b) = stack[ssize].b,\
+    (_c) = stack[ssize].c, (_d) = stack[ssize].d, (_e) = stack[ssize].e;\
+  } while(0)
+#define BUCKET_A(_c0) bucket_A[(_c0)]
+#if ALPHABET_SIZE == 256
+#define BUCKET_B(_c0, _c1) (bucket_B[((_c1) << 8) | (_c0)])
+#define BUCKET_BSTAR(_c0, _c1) (bucket_B[((_c0) << 8) | (_c1)])
+#else
+#define BUCKET_B(_c0, _c1) (bucket_B[(_c1) * ALPHABET_SIZE + (_c0)])
+#define BUCKET_BSTAR(_c0, _c1) (bucket_B[(_c0) * ALPHABET_SIZE + (_c1)])
+#endif
+
+
+/*- Private Functions -*/
+
+static const int lg_table[256]= {
+ -1,0,1,1,2,2,2,2,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
+  5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,5,
+  6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
+  6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,6,
+  7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
+  7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
+  7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,
+  7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7,7
+};
+
+#if (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE)
+
+static INLINE
+int
+ss_ilg(int n) {
+#if SS_BLOCKSIZE == 0
+  return (n & 0xffff0000) ?
+          ((n & 0xff000000) ?
+            24 + lg_table[(n >> 24) & 0xff] :
+            16 + lg_table[(n >> 16) & 0xff]) :
+          ((n & 0x0000ff00) ?
+             8 + lg_table[(n >>  8) & 0xff] :
+             0 + lg_table[(n >>  0) & 0xff]);
+#elif SS_BLOCKSIZE < 256
+  return lg_table[n];
+#else
+  return (n & 0xff00) ?
+          8 + lg_table[(n >> 8) & 0xff] :
+          0 + lg_table[(n >> 0) & 0xff];
+#endif
+}
+
+#endif /* (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE) */
+
+#if SS_BLOCKSIZE != 0
+
+static const int sqq_table[256] = {
+  0,  16,  22,  27,  32,  35,  39,  42,  45,  48,  50,  53,  55,  57,  59,  61,
+ 64,  65,  67,  69,  71,  73,  75,  76,  78,  80,  81,  83,  84,  86,  87,  89,
+ 90,  91,  93,  94,  96,  97,  98,  99, 101, 102, 103, 104, 106, 107, 108, 109,
+110, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126,
+128, 128, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142,
+143, 144, 144, 145, 146, 147, 148, 149, 150, 150, 151, 152, 153, 154, 155, 155,
+156, 157, 158, 159, 160, 160, 161, 162, 163, 163, 164, 165, 166, 167, 167, 168,
+169, 170, 170, 171, 172, 173, 173, 174, 175, 176, 176, 177, 178, 178, 179, 180,
+181, 181, 182, 183, 183, 184, 185, 185, 186, 187, 187, 188, 189, 189, 190, 191,
+192, 192, 193, 193, 194, 195, 195, 196, 197, 197, 198, 199, 199, 200, 201, 201,
+202, 203, 203, 204, 204, 205, 206, 206, 207, 208, 208, 209, 209, 210, 211, 211,
+212, 212, 213, 214, 214, 215, 215, 216, 217, 217, 218, 218, 219, 219, 220, 221,
+221, 222, 222, 223, 224, 224, 225, 225, 226, 226, 227, 227, 228, 229, 229, 230,
+230, 231, 231, 232, 232, 233, 234, 234, 235, 235, 236, 236, 237, 237, 238, 238,
+239, 240, 240, 241, 241, 242, 242, 243, 243, 244, 244, 245, 245, 246, 246, 247,
+247, 248, 248, 249, 249, 250, 250, 251, 251, 252, 252, 253, 253, 254, 254, 255
+};
+
+static INLINE
+int
+ss_isqrt(int x) {
+  int y, e;
+
+  if(x >= (SS_BLOCKSIZE * SS_BLOCKSIZE)) { return SS_BLOCKSIZE; }
+  e = (x & 0xffff0000) ?
+        ((x & 0xff000000) ?
+          24 + lg_table[(x >> 24) & 0xff] :
+          16 + lg_table[(x >> 16) & 0xff]) :
+        ((x & 0x0000ff00) ?
+           8 + lg_table[(x >>  8) & 0xff] :
+           0 + lg_table[(x >>  0) & 0xff]);
+
+  if(e >= 16) {
+    y = sqq_table[x >> ((e - 6) - (e & 1))] << ((e >> 1) - 7);
+    if(e >= 24) { y = (y + 1 + x / y) >> 1; }
+    y = (y + 1 + x / y) >> 1;
+  } else if(e >= 8) {
+    y = (sqq_table[x >> ((e - 6) - (e & 1))] >> (7 - (e >> 1))) + 1;
+  } else {
+    return sqq_table[x] >> 4;
+  }
+
+  return (x < (y * y)) ? y - 1 : y;
+}
+
+#endif /* SS_BLOCKSIZE != 0 */
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Compares two suffixes. */
+static INLINE
+int
+ss_compare(const unsigned char *T,
+           const int *p1, const int *p2,
+           int depth) {
+  const unsigned char *U1, *U2, *U1n, *U2n;
+
+  for(U1 = T + depth + *p1,
+      U2 = T + depth + *p2,
+      U1n = T + *(p1 + 1) + 2,
+      U2n = T + *(p2 + 1) + 2;
+      (U1 < U1n) && (U2 < U2n) && (*U1 == *U2);
+      ++U1, ++U2) {
+  }
+
+  return U1 < U1n ?
+        (U2 < U2n ? *U1 - *U2 : 1) :
+        (U2 < U2n ? -1 : 0);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+#if (SS_BLOCKSIZE != 1) && (SS_INSERTIONSORT_THRESHOLD != 1)
+
+/* Insertionsort for small size groups */
+static
+void
+ss_insertionsort(const unsigned char *T, const int *PA,
+                 int *first, int *last, int depth) {
+  int *i, *j;
+  int t;
+  int r;
+
+  for(i = last - 2; first <= i; --i) {
+    for(t = *i, j = i + 1; 0 < (r = ss_compare(T, PA + t, PA + *j, depth));) {
+      do { *(j - 1) = *j; } while((++j < last) && (*j < 0));
+      if(last <= j) { break; }
+    }
+    if(r == 0) { *j = ~*j; }
+    *(j - 1) = t;
+  }
+}
+
+#endif /* (SS_BLOCKSIZE != 1) && (SS_INSERTIONSORT_THRESHOLD != 1) */
+
+
+/*---------------------------------------------------------------------------*/
+
+#if (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE)
+
+static INLINE
+void
+ss_fixdown(const unsigned char *Td, const int *PA,
+           int *SA, int i, int size) {
+  int j, k;
+  int v;
+  int c, d, e;
+
+  for(v = SA[i], c = Td[PA[v]]; (j = 2 * i + 1) < size; SA[i] = SA[k], i = k) {
+    d = Td[PA[SA[k = j++]]];
+    if(d < (e = Td[PA[SA[j]]])) { k = j; d = e; }
+    if(d <= c) { break; }
+  }
+  SA[i] = v;
+}
+
+/* Simple top-down heapsort. */
+static
+void
+ss_heapsort(const unsigned char *Td, const int *PA, int *SA, int size) {
+  int i, m;
+  int t;
+
+  m = size;
+  if((size % 2) == 0) {
+    m--;
+    if(Td[PA[SA[m / 2]]] < Td[PA[SA[m]]]) { SWAP(SA[m], SA[m / 2]); }
+  }
+
+  for(i = m / 2 - 1; 0 <= i; --i) { ss_fixdown(Td, PA, SA, i, m); }
+  if((size % 2) == 0) { SWAP(SA[0], SA[m]); ss_fixdown(Td, PA, SA, 0, m); }
+  for(i = m - 1; 0 < i; --i) {
+    t = SA[0], SA[0] = SA[i];
+    ss_fixdown(Td, PA, SA, 0, i);
+    SA[i] = t;
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Returns the median of three elements. */
+static INLINE
+int *
+ss_median3(const unsigned char *Td, const int *PA,
+           int *v1, int *v2, int *v3) {
+  int *t;
+  if(Td[PA[*v1]] > Td[PA[*v2]]) { SWAP(v1, v2); }
+  if(Td[PA[*v2]] > Td[PA[*v3]]) {
+    if(Td[PA[*v1]] > Td[PA[*v3]]) { return v1; }
+    else { return v3; }
+  }
+  return v2;
+}
+
+/* Returns the median of five elements. */
+static INLINE
+int *
+ss_median5(const unsigned char *Td, const int *PA,
+           int *v1, int *v2, int *v3, int *v4, int *v5) {
+  int *t;
+  if(Td[PA[*v2]] > Td[PA[*v3]]) { SWAP(v2, v3); }
+  if(Td[PA[*v4]] > Td[PA[*v5]]) { SWAP(v4, v5); }
+  if(Td[PA[*v2]] > Td[PA[*v4]]) { SWAP(v2, v4); SWAP(v3, v5); }
+  if(Td[PA[*v1]] > Td[PA[*v3]]) { SWAP(v1, v3); }
+  if(Td[PA[*v1]] > Td[PA[*v4]]) { SWAP(v1, v4); SWAP(v3, v5); }
+  if(Td[PA[*v3]] > Td[PA[*v4]]) { return v4; }
+  return v3;
+}
+
+/* Returns the pivot element. */
+static INLINE
+int *
+ss_pivot(const unsigned char *Td, const int *PA, int *first, int *last) {
+  int *middle;
+  int t;
+
+  t = last - first;
+  middle = first + t / 2;
+
+  if(t <= 512) {
+    if(t <= 32) {
+      return ss_median3(Td, PA, first, middle, last - 1);
+    } else {
+      t >>= 2;
+      return ss_median5(Td, PA, first, first + t, middle, last - 1 - t, last - 1);
+    }
+  }
+  t >>= 3;
+  first  = ss_median3(Td, PA, first, first + t, first + (t << 1));
+  middle = ss_median3(Td, PA, middle - t, middle, middle + t);
+  last   = ss_median3(Td, PA, last - 1 - (t << 1), last - 1 - t, last - 1);
+  return ss_median3(Td, PA, first, middle, last);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Binary partition for substrings. */
+static INLINE
+int *
+ss_partition(const int *PA,
+                    int *first, int *last, int depth) {
+  int *a, *b;
+  int t;
+  for(a = first - 1, b = last;;) {
+    for(; (++a < b) && ((PA[*a] + depth) >= (PA[*a + 1] + 1));) { *a = ~*a; }
+    for(; (a < --b) && ((PA[*b] + depth) <  (PA[*b + 1] + 1));) { }
+    if(b <= a) { break; }
+    t = ~*b;
+    *b = *a;
+    *a = t;
+  }
+  if(first < a) { *first = ~*first; }
+  return a;
+}
+
+/* Multikey introsort for medium size groups. */
+static
+void
+ss_mintrosort(const unsigned char *T, const int *PA,
+              int *first, int *last,
+              int depth) {
+#define STACK_SIZE SS_MISORT_STACKSIZE
+  struct { int *a, *b, c; int d; } stack[STACK_SIZE];
+  const unsigned char *Td;
+  int *a, *b, *c, *d, *e, *f;
+  int s, t;
+  int ssize;
+  int limit;
+  int v, x = 0;
+
+  for(ssize = 0, limit = ss_ilg(last - first);;) {
+
+    if((last - first) <= SS_INSERTIONSORT_THRESHOLD) {
+#if 1 < SS_INSERTIONSORT_THRESHOLD
+      if(1 < (last - first)) { ss_insertionsort(T, PA, first, last, depth); }
+#endif
+      STACK_POP(first, last, depth, limit);
+      continue;
+    }
+
+    Td = T + depth;
+    if(limit-- == 0) { ss_heapsort(Td, PA, first, last - first); }
+    if(limit < 0) {
+      for(a = first + 1, v = Td[PA[*first]]; a < last; ++a) {
+        if((x = Td[PA[*a]]) != v) {
+          if(1 < (a - first)) { break; }
+          v = x;
+          first = a;
+        }
+      }
+      if(Td[PA[*first] - 1] < v) {
+        first = ss_partition(PA, first, a, depth);
+      }
+      if((a - first) <= (last - a)) {
+        if(1 < (a - first)) {
+          STACK_PUSH(a, last, depth, -1);
+          last = a, depth += 1, limit = ss_ilg(a - first);
+        } else {
+          first = a, limit = -1;
+        }
+      } else {
+        if(1 < (last - a)) {
+          STACK_PUSH(first, a, depth + 1, ss_ilg(a - first));
+          first = a, limit = -1;
+        } else {
+          last = a, depth += 1, limit = ss_ilg(a - first);
+        }
+      }
+      continue;
+    }
+
+    /* choose pivot */
+    a = ss_pivot(Td, PA, first, last);
+    v = Td[PA[*a]];
+    SWAP(*first, *a);
+
+    /* partition */
+    for(b = first; (++b < last) && ((x = Td[PA[*b]]) == v);) { }
+    if(((a = b) < last) && (x < v)) {
+      for(; (++b < last) && ((x = Td[PA[*b]]) <= v);) {
+        if(x == v) { SWAP(*b, *a); ++a; }
+      }
+    }
+    for(c = last; (b < --c) && ((x = Td[PA[*c]]) == v);) { }
+    if((b < (d = c)) && (x > v)) {
+      for(; (b < --c) && ((x = Td[PA[*c]]) >= v);) {
+        if(x == v) { SWAP(*c, *d); --d; }
+      }
+    }
+    for(; b < c;) {
+      SWAP(*b, *c);
+      for(; (++b < c) && ((x = Td[PA[*b]]) <= v);) {
+        if(x == v) { SWAP(*b, *a); ++a; }
+      }
+      for(; (b < --c) && ((x = Td[PA[*c]]) >= v);) {
+        if(x == v) { SWAP(*c, *d); --d; }
+      }
+    }
+
+    if(a <= d) {
+      c = b - 1;
+
+      if((s = a - first) > (t = b - a)) { s = t; }
+      for(e = first, f = b - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+      if((s = d - c) > (t = last - d - 1)) { s = t; }
+      for(e = b, f = last - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+
+      a = first + (b - a), c = last - (d - c);
+      b = (v <= Td[PA[*a] - 1]) ? a : ss_partition(PA, a, c, depth);
+
+      if((a - first) <= (last - c)) {
+        if((last - c) <= (c - b)) {
+          STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+          STACK_PUSH(c, last, depth, limit);
+          last = a;
+        } else if((a - first) <= (c - b)) {
+          STACK_PUSH(c, last, depth, limit);
+          STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+          last = a;
+        } else {
+          STACK_PUSH(c, last, depth, limit);
+          STACK_PUSH(first, a, depth, limit);
+          first = b, last = c, depth += 1, limit = ss_ilg(c - b);
+        }
+      } else {
+        if((a - first) <= (c - b)) {
+          STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+          STACK_PUSH(first, a, depth, limit);
+          first = c;
+        } else if((last - c) <= (c - b)) {
+          STACK_PUSH(first, a, depth, limit);
+          STACK_PUSH(b, c, depth + 1, ss_ilg(c - b));
+          first = c;
+        } else {
+          STACK_PUSH(first, a, depth, limit);
+          STACK_PUSH(c, last, depth, limit);
+          first = b, last = c, depth += 1, limit = ss_ilg(c - b);
+        }
+      }
+    } else {
+      limit += 1;
+      if(Td[PA[*first] - 1] < v) {
+        first = ss_partition(PA, first, last, depth);
+        limit = ss_ilg(last - first);
+      }
+      depth += 1;
+    }
+  }
+#undef STACK_SIZE
+}
+
+#endif /* (SS_BLOCKSIZE == 0) || (SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE) */
+
+
+/*---------------------------------------------------------------------------*/
+
+#if SS_BLOCKSIZE != 0
+
+static INLINE
+void
+ss_blockswap(int *a, int *b, int n) {
+  int t;
+  for(; 0 < n; --n, ++a, ++b) {
+    t = *a, *a = *b, *b = t;
+  }
+}
+
+static INLINE
+void
+ss_rotate(int *first, int *middle, int *last) {
+  int *a, *b, t;
+  int l, r;
+  l = middle - first, r = last - middle;
+  for(; (0 < l) && (0 < r);) {
+    if(l == r) { ss_blockswap(first, middle, l); break; }
+    if(l < r) {
+      a = last - 1, b = middle - 1;
+      t = *a;
+      do {
+        *a-- = *b, *b-- = *a;
+        if(b < first) {
+          *a = t;
+          last = a;
+          if((r -= l + 1) <= l) { break; }
+          a -= 1, b = middle - 1;
+          t = *a;
+        }
+      } while(1);
+    } else {
+      a = first, b = middle;
+      t = *a;
+      do {
+        *a++ = *b, *b++ = *a;
+        if(last <= b) {
+          *a = t;
+          first = a + 1;
+          if((l -= r + 1) <= r) { break; }
+          a += 1, b = middle;
+          t = *a;
+        }
+      } while(1);
+    }
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static
+void
+ss_inplacemerge(const unsigned char *T, const int *PA,
+                int *first, int *middle, int *last,
+                int depth) {
+  const int *p;
+  int *a, *b;
+  int len, half;
+  int q, r;
+  int x;
+
+  for(;;) {
+    if(*(last - 1) < 0) { x = 1; p = PA + ~*(last - 1); }
+    else                { x = 0; p = PA +  *(last - 1); }
+    for(a = first, len = middle - first, half = len >> 1, r = -1;
+        0 < len;
+        len = half, half >>= 1) {
+      b = a + half;
+      q = ss_compare(T, PA + ((0 <= *b) ? *b : ~*b), p, depth);
+      if(q < 0) {
+        a = b + 1;
+        half -= (len & 1) ^ 1;
+      } else {
+        r = q;
+      }
+    }
+    if(a < middle) {
+      if(r == 0) { *a = ~*a; }
+      ss_rotate(a, middle, last);
+      last -= middle - a;
+      middle = a;
+      if(first == middle) { break; }
+    }
+    --last;
+    if(x != 0) { while(*--last < 0) { } }
+    if(middle == last) { break; }
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Merge-forward with internal buffer. */
+static
+void
+ss_mergeforward(const unsigned char *T, const int *PA,
+                int *first, int *middle, int *last,
+                int *buf, int depth) {
+  int *a, *b, *c, *bufend;
+  int t;
+  int r;
+
+  bufend = buf + (middle - first) - 1;
+  ss_blockswap(buf, first, middle - first);
+
+  for(t = *(a = first), b = buf, c = middle;;) {
+    r = ss_compare(T, PA + *b, PA + *c, depth);
+    if(r < 0) {
+      do {
+        *a++ = *b;
+        if(bufend <= b) { *bufend = t; return; }
+        *b++ = *a;
+      } while(*b < 0);
+    } else if(r > 0) {
+      do {
+        *a++ = *c, *c++ = *a;
+        if(last <= c) {
+          while(b < bufend) { *a++ = *b, *b++ = *a; }
+          *a = *b, *b = t;
+          return;
+        }
+      } while(*c < 0);
+    } else {
+      *c = ~*c;
+      do {
+        *a++ = *b;
+        if(bufend <= b) { *bufend = t; return; }
+        *b++ = *a;
+      } while(*b < 0);
+
+      do {
+        *a++ = *c, *c++ = *a;
+        if(last <= c) {
+          while(b < bufend) { *a++ = *b, *b++ = *a; }
+          *a = *b, *b = t;
+          return;
+        }
+      } while(*c < 0);
+    }
+  }
+}
+
+/* Merge-backward with internal buffer. */
+static
+void
+ss_mergebackward(const unsigned char *T, const int *PA,
+                 int *first, int *middle, int *last,
+                 int *buf, int depth) {
+  const int *p1, *p2;
+  int *a, *b, *c, *bufend;
+  int t;
+  int r;
+  int x;
+
+  bufend = buf + (last - middle) - 1;
+  ss_blockswap(buf, middle, last - middle);
+
+  x = 0;
+  if(*bufend < 0)       { p1 = PA + ~*bufend; x |= 1; }
+  else                  { p1 = PA +  *bufend; }
+  if(*(middle - 1) < 0) { p2 = PA + ~*(middle - 1); x |= 2; }
+  else                  { p2 = PA +  *(middle - 1); }
+  for(t = *(a = last - 1), b = bufend, c = middle - 1;;) {
+    r = ss_compare(T, p1, p2, depth);
+    if(0 < r) {
+      if(x & 1) { do { *a-- = *b, *b-- = *a; } while(*b < 0); x ^= 1; }
+      *a-- = *b;
+      if(b <= buf) { *buf = t; break; }
+      *b-- = *a;
+      if(*b < 0) { p1 = PA + ~*b; x |= 1; }
+      else       { p1 = PA +  *b; }
+    } else if(r < 0) {
+      if(x & 2) { do { *a-- = *c, *c-- = *a; } while(*c < 0); x ^= 2; }
+      *a-- = *c, *c-- = *a;
+      if(c < first) {
+        while(buf < b) { *a-- = *b, *b-- = *a; }
+        *a = *b, *b = t;
+        break;
+      }
+      if(*c < 0) { p2 = PA + ~*c; x |= 2; }
+      else       { p2 = PA +  *c; }
+    } else {
+      if(x & 1) { do { *a-- = *b, *b-- = *a; } while(*b < 0); x ^= 1; }
+      *a-- = ~*b;
+      if(b <= buf) { *buf = t; break; }
+      *b-- = *a;
+      if(x & 2) { do { *a-- = *c, *c-- = *a; } while(*c < 0); x ^= 2; }
+      *a-- = *c, *c-- = *a;
+      if(c < first) {
+        while(buf < b) { *a-- = *b, *b-- = *a; }
+        *a = *b, *b = t;
+        break;
+      }
+      if(*b < 0) { p1 = PA + ~*b; x |= 1; }
+      else       { p1 = PA +  *b; }
+      if(*c < 0) { p2 = PA + ~*c; x |= 2; }
+      else       { p2 = PA +  *c; }
+    }
+  }
+}
+
+/* D&C based merge. */
+static
+void
+ss_swapmerge(const unsigned char *T, const int *PA,
+             int *first, int *middle, int *last,
+             int *buf, int bufsize, int depth) {
+#define STACK_SIZE SS_SMERGE_STACKSIZE
+#define GETIDX(a) ((0 <= (a)) ? (a) : (~(a)))
+#define MERGE_CHECK(a, b, c)\
+  do {\
+    if(((c) & 1) ||\
+       (((c) & 2) && (ss_compare(T, PA + GETIDX(*((a) - 1)), PA + *(a), depth) == 0))) {\
+      *(a) = ~*(a);\
+    }\
+    if(((c) & 4) && ((ss_compare(T, PA + GETIDX(*((b) - 1)), PA + *(b), depth) == 0))) {\
+      *(b) = ~*(b);\
+    }\
+  } while(0)
+  struct { int *a, *b, *c; int d; } stack[STACK_SIZE];
+  int *l, *r, *lm, *rm;
+  int m, len, half;
+  int ssize;
+  int check, next;
+
+  for(check = 0, ssize = 0;;) {
+    if((last - middle) <= bufsize) {
+      if((first < middle) && (middle < last)) {
+        ss_mergebackward(T, PA, first, middle, last, buf, depth);
+      }
+      MERGE_CHECK(first, last, check);
+      STACK_POP(first, middle, last, check);
+      continue;
+    }
+
+    if((middle - first) <= bufsize) {
+      if(first < middle) {
+        ss_mergeforward(T, PA, first, middle, last, buf, depth);
+      }
+      MERGE_CHECK(first, last, check);
+      STACK_POP(first, middle, last, check);
+      continue;
+    }
+
+    for(m = 0, len = MIN(middle - first, last - middle), half = len >> 1;
+        0 < len;
+        len = half, half >>= 1) {
+      if(ss_compare(T, PA + GETIDX(*(middle + m + half)),
+                       PA + GETIDX(*(middle - m - half - 1)), depth) < 0) {
+        m += half + 1;
+        half -= (len & 1) ^ 1;
+      }
+    }
+
+    if(0 < m) {
+      lm = middle - m, rm = middle + m;
+      ss_blockswap(lm, middle, m);
+      l = r = middle, next = 0;
+      if(rm < last) {
+        if(*rm < 0) {
+          *rm = ~*rm;
+          if(first < lm) { for(; *--l < 0;) { } next |= 4; }
+          next |= 1;
+        } else if(first < lm) {
+          for(; *r < 0; ++r) { }
+          next |= 2;
+        }
+      }
+
+      if((l - first) <= (last - r)) {
+        STACK_PUSH(r, rm, last, (next & 3) | (check & 4));
+        middle = lm, last = l, check = (check & 3) | (next & 4);
+      } else {
+        if((next & 2) && (r == middle)) { next ^= 6; }
+        STACK_PUSH(first, lm, l, (check & 3) | (next & 4));
+        first = r, middle = rm, check = (next & 3) | (check & 4);
+      }
+    } else {
+      if(ss_compare(T, PA + GETIDX(*(middle - 1)), PA + *middle, depth) == 0) {
+        *middle = ~*middle;
+      }
+      MERGE_CHECK(first, last, check);
+      STACK_POP(first, middle, last, check);
+    }
+  }
+#undef STACK_SIZE
+}
+
+#endif /* SS_BLOCKSIZE != 0 */
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Substring sort */
+static
+void
+sssort(const unsigned char *T, const int *PA,
+       int *first, int *last,
+       int *buf, int bufsize,
+       int depth, int n, int lastsuffix) {
+  int *a;
+#if SS_BLOCKSIZE != 0
+  int *b, *middle, *curbuf;
+  int j, k, curbufsize, limit;
+#endif
+  int i;
+
+  if(lastsuffix != 0) { ++first; }
+
+#if SS_BLOCKSIZE == 0
+  ss_mintrosort(T, PA, first, last, depth);
+#else
+  if((bufsize < SS_BLOCKSIZE) &&
+      (bufsize < (last - first)) &&
+      (bufsize < (limit = ss_isqrt(last - first)))) {
+    if(SS_BLOCKSIZE < limit) { limit = SS_BLOCKSIZE; }
+    buf = middle = last - limit, bufsize = limit;
+  } else {
+    middle = last, limit = 0;
+  }
+  for(a = first, i = 0; SS_BLOCKSIZE < (middle - a); a += SS_BLOCKSIZE, ++i) {
+#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
+    ss_mintrosort(T, PA, a, a + SS_BLOCKSIZE, depth);
+#elif 1 < SS_BLOCKSIZE
+    ss_insertionsort(T, PA, a, a + SS_BLOCKSIZE, depth);
+#endif
+    curbufsize = last - (a + SS_BLOCKSIZE);
+    curbuf = a + SS_BLOCKSIZE;
+    if(curbufsize <= bufsize) { curbufsize = bufsize, curbuf = buf; }
+    for(b = a, k = SS_BLOCKSIZE, j = i; j & 1; b -= k, k <<= 1, j >>= 1) {
+      ss_swapmerge(T, PA, b - k, b, b + k, curbuf, curbufsize, depth);
+    }
+  }
+#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
+  ss_mintrosort(T, PA, a, middle, depth);
+#elif 1 < SS_BLOCKSIZE
+  ss_insertionsort(T, PA, a, middle, depth);
+#endif
+  for(k = SS_BLOCKSIZE; i != 0; k <<= 1, i >>= 1) {
+    if(i & 1) {
+      ss_swapmerge(T, PA, a - k, a, middle, buf, bufsize, depth);
+      a -= k;
+    }
+  }
+  if(limit != 0) {
+#if SS_INSERTIONSORT_THRESHOLD < SS_BLOCKSIZE
+    ss_mintrosort(T, PA, middle, last, depth);
+#elif 1 < SS_BLOCKSIZE
+    ss_insertionsort(T, PA, middle, last, depth);
+#endif
+    ss_inplacemerge(T, PA, first, middle, last, depth);
+  }
+#endif
+
+  if(lastsuffix != 0) {
+    /* Insert last type B* suffix. */
+    int PAi[2]; PAi[0] = PA[*(first - 1)], PAi[1] = n - 2;
+    for(a = first, i = *(first - 1);
+        (a < last) && ((*a < 0) || (0 < ss_compare(T, &(PAi[0]), PA + *a, depth)));
+        ++a) {
+      *(a - 1) = *a;
+    }
+    *(a - 1) = i;
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static INLINE
+int
+tr_ilg(int n) {
+  return (n & 0xffff0000) ?
+          ((n & 0xff000000) ?
+            24 + lg_table[(n >> 24) & 0xff] :
+            16 + lg_table[(n >> 16) & 0xff]) :
+          ((n & 0x0000ff00) ?
+             8 + lg_table[(n >>  8) & 0xff] :
+             0 + lg_table[(n >>  0) & 0xff]);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Simple insertionsort for small size groups. */
+static
+void
+tr_insertionsort(const int *ISAd, int *first, int *last) {
+  int *a, *b;
+  int t, r;
+
+  for(a = first + 1; a < last; ++a) {
+    for(t = *a, b = a - 1; 0 > (r = ISAd[t] - ISAd[*b]);) {
+      do { *(b + 1) = *b; } while((first <= --b) && (*b < 0));
+      if(b < first) { break; }
+    }
+    if(r == 0) { *b = ~*b; }
+    *(b + 1) = t;
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static INLINE
+void
+tr_fixdown(const int *ISAd, int *SA, int i, int size) {
+  int j, k;
+  int v;
+  int c, d, e;
+
+  for(v = SA[i], c = ISAd[v]; (j = 2 * i + 1) < size; SA[i] = SA[k], i = k) {
+    d = ISAd[SA[k = j++]];
+    if(d < (e = ISAd[SA[j]])) { k = j; d = e; }
+    if(d <= c) { break; }
+  }
+  SA[i] = v;
+}
+
+/* Simple top-down heapsort. */
+static
+void
+tr_heapsort(const int *ISAd, int *SA, int size) {
+  int i, m;
+  int t;
+
+  m = size;
+  if((size % 2) == 0) {
+    m--;
+    if(ISAd[SA[m / 2]] < ISAd[SA[m]]) { SWAP(SA[m], SA[m / 2]); }
+  }
+
+  for(i = m / 2 - 1; 0 <= i; --i) { tr_fixdown(ISAd, SA, i, m); }
+  if((size % 2) == 0) { SWAP(SA[0], SA[m]); tr_fixdown(ISAd, SA, 0, m); }
+  for(i = m - 1; 0 < i; --i) {
+    t = SA[0], SA[0] = SA[i];
+    tr_fixdown(ISAd, SA, 0, i);
+    SA[i] = t;
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Returns the median of three elements. */
+static INLINE
+int *
+tr_median3(const int *ISAd, int *v1, int *v2, int *v3) {
+  int *t;
+  if(ISAd[*v1] > ISAd[*v2]) { SWAP(v1, v2); }
+  if(ISAd[*v2] > ISAd[*v3]) {
+    if(ISAd[*v1] > ISAd[*v3]) { return v1; }
+    else { return v3; }
+  }
+  return v2;
+}
+
+/* Returns the median of five elements. */
+static INLINE
+int *
+tr_median5(const int *ISAd,
+           int *v1, int *v2, int *v3, int *v4, int *v5) {
+  int *t;
+  if(ISAd[*v2] > ISAd[*v3]) { SWAP(v2, v3); }
+  if(ISAd[*v4] > ISAd[*v5]) { SWAP(v4, v5); }
+  if(ISAd[*v2] > ISAd[*v4]) { SWAP(v2, v4); SWAP(v3, v5); }
+  if(ISAd[*v1] > ISAd[*v3]) { SWAP(v1, v3); }
+  if(ISAd[*v1] > ISAd[*v4]) { SWAP(v1, v4); SWAP(v3, v5); }
+  if(ISAd[*v3] > ISAd[*v4]) { return v4; }
+  return v3;
+}
+
+/* Returns the pivot element. */
+static INLINE
+int *
+tr_pivot(const int *ISAd, int *first, int *last) {
+  int *middle;
+  int t;
+
+  t = last - first;
+  middle = first + t / 2;
+
+  if(t <= 512) {
+    if(t <= 32) {
+      return tr_median3(ISAd, first, middle, last - 1);
+    } else {
+      t >>= 2;
+      return tr_median5(ISAd, first, first + t, middle, last - 1 - t, last - 1);
+    }
+  }
+  t >>= 3;
+  first  = tr_median3(ISAd, first, first + t, first + (t << 1));
+  middle = tr_median3(ISAd, middle - t, middle, middle + t);
+  last   = tr_median3(ISAd, last - 1 - (t << 1), last - 1 - t, last - 1);
+  return tr_median3(ISAd, first, middle, last);
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+typedef struct _trbudget_t trbudget_t;
+struct _trbudget_t {
+  int chance;
+  int remain;
+  int incval;
+  int count;
+};
+
+static INLINE
+void
+trbudget_init(trbudget_t *budget, int chance, int incval) {
+  budget->chance = chance;
+  budget->remain = budget->incval = incval;
+}
+
+static INLINE
+int
+trbudget_check(trbudget_t *budget, int size) {
+  if(size <= budget->remain) { budget->remain -= size; return 1; }
+  if(budget->chance == 0) { budget->count += size; return 0; }
+  budget->remain += budget->incval - size;
+  budget->chance -= 1;
+  return 1;
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+static INLINE
+void
+tr_partition(const int *ISAd,
+             int *first, int *middle, int *last,
+             int **pa, int **pb, int v) {
+  int *a, *b, *c, *d, *e, *f;
+  int t, s;
+  int x = 0;
+
+  for(b = middle - 1; (++b < last) && ((x = ISAd[*b]) == v);) { }
+  if(((a = b) < last) && (x < v)) {
+    for(; (++b < last) && ((x = ISAd[*b]) <= v);) {
+      if(x == v) { SWAP(*b, *a); ++a; }
+    }
+  }
+  for(c = last; (b < --c) && ((x = ISAd[*c]) == v);) { }
+  if((b < (d = c)) && (x > v)) {
+    for(; (b < --c) && ((x = ISAd[*c]) >= v);) {
+      if(x == v) { SWAP(*c, *d); --d; }
+    }
+  }
+  for(; b < c;) {
+    SWAP(*b, *c);
+    for(; (++b < c) && ((x = ISAd[*b]) <= v);) {
+      if(x == v) { SWAP(*b, *a); ++a; }
+    }
+    for(; (b < --c) && ((x = ISAd[*c]) >= v);) {
+      if(x == v) { SWAP(*c, *d); --d; }
+    }
+  }
+
+  if(a <= d) {
+    c = b - 1;
+    if((s = a - first) > (t = b - a)) { s = t; }
+    for(e = first, f = b - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+    if((s = d - c) > (t = last - d - 1)) { s = t; }
+    for(e = b, f = last - s; 0 < s; --s, ++e, ++f) { SWAP(*e, *f); }
+    first += (b - a), last -= (d - c);
+  }
+  *pa = first, *pb = last;
+}
+
+static
+void
+tr_copy(int *ISA, const int *SA,
+        int *first, int *a, int *b, int *last,
+        int depth) {
+  /* sort suffixes of middle partition
+     by using sorted order of suffixes of left and right partition. */
+  int *c, *d, *e;
+  int s, v;
+
+  v = b - SA - 1;
+  for(c = first, d = a - 1; c <= d; ++c) {
+    if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+      *++d = s;
+      ISA[s] = d - SA;
+    }
+  }
+  for(c = last - 1, e = d + 1, d = b; e < d; --c) {
+    if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+      *--d = s;
+      ISA[s] = d - SA;
+    }
+  }
+}
+
+static
+void
+tr_partialcopy(int *ISA, const int *SA,
+               int *first, int *a, int *b, int *last,
+               int depth) {
+  int *c, *d, *e;
+  int s, v;
+  int rank, lastrank, newrank = -1;
+
+  v = b - SA - 1;
+  lastrank = -1;
+  for(c = first, d = a - 1; c <= d; ++c) {
+    if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+      *++d = s;
+      rank = ISA[s + depth];
+      if(lastrank != rank) { lastrank = rank; newrank = d - SA; }
+      ISA[s] = newrank;
+    }
+  }
+
+  lastrank = -1;
+  for(e = d; first <= e; --e) {
+    rank = ISA[*e];
+    if(lastrank != rank) { lastrank = rank; newrank = e - SA; }
+    if(newrank != rank) { ISA[*e] = newrank; }
+  }
+
+  lastrank = -1;
+  for(c = last - 1, e = d + 1, d = b; e < d; --c) {
+    if((0 <= (s = *c - depth)) && (ISA[s] == v)) {
+      *--d = s;
+      rank = ISA[s + depth];
+      if(lastrank != rank) { lastrank = rank; newrank = d - SA; }
+      ISA[s] = newrank;
+    }
+  }
+}
+
+static
+void
+tr_introsort(int *ISA, const int *ISAd,
+             int *SA, int *first, int *last,
+             trbudget_t *budget) {
+#define STACK_SIZE TR_STACKSIZE
+  struct { const int *a; int *b, *c; int d, e; }stack[STACK_SIZE];
+  int *a, *b, *c;
+  int t;
+  int v, x = 0;
+  int incr = ISAd - ISA;
+  int limit, next;
+  int ssize, trlink = -1;
+
+  for(ssize = 0, limit = tr_ilg(last - first);;) {
+
+    if(limit < 0) {
+      if(limit == -1) {
+        /* tandem repeat partition */
+        tr_partition(ISAd - incr, first, first, last, &a, &b, last - SA - 1);
+
+        /* update ranks */
+        if(a < last) {
+          for(c = first, v = a - SA - 1; c < a; ++c) { ISA[*c] = v; }
+        }
+        if(b < last) {
+          for(c = a, v = b - SA - 1; c < b; ++c) { ISA[*c] = v; }
+        }
+
+        /* push */
+        if(1 < (b - a)) {
+          STACK_PUSH5(NULL, a, b, 0, 0);
+          STACK_PUSH5(ISAd - incr, first, last, -2, trlink);
+          trlink = ssize - 2;
+        }
+        if((a - first) <= (last - b)) {
+          if(1 < (a - first)) {
+            STACK_PUSH5(ISAd, b, last, tr_ilg(last - b), trlink);
+            last = a, limit = tr_ilg(a - first);
+          } else if(1 < (last - b)) {
+            first = b, limit = tr_ilg(last - b);
+          } else {
+            STACK_POP5(ISAd, first, last, limit, trlink);
+          }
+        } else {
+          if(1 < (last - b)) {
+            STACK_PUSH5(ISAd, first, a, tr_ilg(a - first), trlink);
+            first = b, limit = tr_ilg(last - b);
+          } else if(1 < (a - first)) {
+            last = a, limit = tr_ilg(a - first);
+          } else {
+            STACK_POP5(ISAd, first, last, limit, trlink);
+          }
+        }
+      } else if(limit == -2) {
+        /* tandem repeat copy */
+        a = stack[--ssize].b, b = stack[ssize].c;
+        if(stack[ssize].d == 0) {
+          tr_copy(ISA, SA, first, a, b, last, ISAd - ISA);
+        } else {
+          if(0 <= trlink) { stack[trlink].d = -1; }
+          tr_partialcopy(ISA, SA, first, a, b, last, ISAd - ISA);
+        }
+        STACK_POP5(ISAd, first, last, limit, trlink);
+      } else {
+        /* sorted partition */
+        if(0 <= *first) {
+          a = first;
+          do { ISA[*a] = a - SA; } while((++a < last) && (0 <= *a));
+          first = a;
+        }
+        if(first < last) {
+          a = first; do { *a = ~*a; } while(*++a < 0);
+          next = (ISA[*a] != ISAd[*a]) ? tr_ilg(a - first + 1) : -1;
+          if(++a < last) { for(b = first, v = a - SA - 1; b < a; ++b) { ISA[*b] = v; } }
+
+          /* push */
+          if(trbudget_check(budget, a - first)) {
+            if((a - first) <= (last - a)) {
+              STACK_PUSH5(ISAd, a, last, -3, trlink);
+              ISAd += incr, last = a, limit = next;
+            } else {
+              if(1 < (last - a)) {
+                STACK_PUSH5(ISAd + incr, first, a, next, trlink);
+                first = a, limit = -3;
+              } else {
+                ISAd += incr, last = a, limit = next;
+              }
+            }
+          } else {
+            if(0 <= trlink) { stack[trlink].d = -1; }
+            if(1 < (last - a)) {
+              first = a, limit = -3;
+            } else {
+              STACK_POP5(ISAd, first, last, limit, trlink);
+            }
+          }
+        } else {
+          STACK_POP5(ISAd, first, last, limit, trlink);
+        }
+      }
+      continue;
+    }
+
+    if((last - first) <= TR_INSERTIONSORT_THRESHOLD) {
+      tr_insertionsort(ISAd, first, last);
+      limit = -3;
+      continue;
+    }
+
+    if(limit-- == 0) {
+      tr_heapsort(ISAd, first, last - first);
+      for(a = last - 1; first < a; a = b) {
+        for(x = ISAd[*a], b = a - 1; (first <= b) && (ISAd[*b] == x); --b) { *b = ~*b; }
+      }
+      limit = -3;
+      continue;
+    }
+
+    /* choose pivot */
+    a = tr_pivot(ISAd, first, last);
+    SWAP(*first, *a);
+    v = ISAd[*first];
+
+    /* partition */
+    tr_partition(ISAd, first, first + 1, last, &a, &b, v);
+    if((last - first) != (b - a)) {
+      next = (ISA[*a] != v) ? tr_ilg(b - a) : -1;
+
+      /* update ranks */
+      for(c = first, v = a - SA - 1; c < a; ++c) { ISA[*c] = v; }
+      if(b < last) { for(c = a, v = b - SA - 1; c < b; ++c) { ISA[*c] = v; } }
+
+      /* push */
+      if((1 < (b - a)) && (trbudget_check(budget, b - a))) {
+        if((a - first) <= (last - b)) {
+          if((last - b) <= (b - a)) {
+            if(1 < (a - first)) {
+              STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+              STACK_PUSH5(ISAd, b, last, limit, trlink);
+              last = a;
+            } else if(1 < (last - b)) {
+              STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+              first = b;
+            } else {
+              ISAd += incr, first = a, last = b, limit = next;
+            }
+          } else if((a - first) <= (b - a)) {
+            if(1 < (a - first)) {
+              STACK_PUSH5(ISAd, b, last, limit, trlink);
+              STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+              last = a;
+            } else {
+              STACK_PUSH5(ISAd, b, last, limit, trlink);
+              ISAd += incr, first = a, last = b, limit = next;
+            }
+          } else {
+            STACK_PUSH5(ISAd, b, last, limit, trlink);
+            STACK_PUSH5(ISAd, first, a, limit, trlink);
+            ISAd += incr, first = a, last = b, limit = next;
+          }
+        } else {
+          if((a - first) <= (b - a)) {
+            if(1 < (last - b)) {
+              STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+              STACK_PUSH5(ISAd, first, a, limit, trlink);
+              first = b;
+            } else if(1 < (a - first)) {
+              STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+              last = a;
+            } else {
+              ISAd += incr, first = a, last = b, limit = next;
+            }
+          } else if((last - b) <= (b - a)) {
+            if(1 < (last - b)) {
+              STACK_PUSH5(ISAd, first, a, limit, trlink);
+              STACK_PUSH5(ISAd + incr, a, b, next, trlink);
+              first = b;
+            } else {
+              STACK_PUSH5(ISAd, first, a, limit, trlink);
+              ISAd += incr, first = a, last = b, limit = next;
+            }
+          } else {
+            STACK_PUSH5(ISAd, first, a, limit, trlink);
+            STACK_PUSH5(ISAd, b, last, limit, trlink);
+            ISAd += incr, first = a, last = b, limit = next;
+          }
+        }
+      } else {
+        if((1 < (b - a)) && (0 <= trlink)) { stack[trlink].d = -1; }
+        if((a - first) <= (last - b)) {
+          if(1 < (a - first)) {
+            STACK_PUSH5(ISAd, b, last, limit, trlink);
+            last = a;
+          } else if(1 < (last - b)) {
+            first = b;
+          } else {
+            STACK_POP5(ISAd, first, last, limit, trlink);
+          }
+        } else {
+          if(1 < (last - b)) {
+            STACK_PUSH5(ISAd, first, a, limit, trlink);
+            first = b;
+          } else if(1 < (a - first)) {
+            last = a;
+          } else {
+            STACK_POP5(ISAd, first, last, limit, trlink);
+          }
+        }
+      }
+    } else {
+      if(trbudget_check(budget, last - first)) {
+        limit = tr_ilg(last - first), ISAd += incr;
+      } else {
+        if(0 <= trlink) { stack[trlink].d = -1; }
+        STACK_POP5(ISAd, first, last, limit, trlink);
+      }
+    }
+  }
+#undef STACK_SIZE
+}
+
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Tandem repeat sort */
+static
+void
+trsort(int *ISA, int *SA, int n, int depth) {
+  int *ISAd;
+  int *first, *last;
+  trbudget_t budget;
+  int t, skip, unsorted;
+
+  trbudget_init(&budget, tr_ilg(n) * 2 / 3, n);
+/*  trbudget_init(&budget, tr_ilg(n) * 3 / 4, n); */
+  for(ISAd = ISA + depth; -n < *SA; ISAd += ISAd - ISA) {
+    first = SA;
+    skip = 0;
+    unsorted = 0;
+    do {
+      if((t = *first) < 0) { first -= t; skip += t; }
+      else {
+        if(skip != 0) { *(first + skip) = skip; skip = 0; }
+        last = SA + ISA[t] + 1;
+        if(1 < (last - first)) {
+          budget.count = 0;
+          tr_introsort(ISA, ISAd, SA, first, last, &budget);
+          if(budget.count != 0) { unsorted += budget.count; }
+          else { skip = first - last; }
+        } else if((last - first) == 1) {
+          skip = -1;
+        }
+        first = last;
+      }
+    } while(first < (SA + n));
+    if(skip != 0) { *(first + skip) = skip; }
+    if(unsorted == 0) { break; }
+  }
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/* Sorts suffixes of type B*. */
+static
+int
+sort_typeBstar(const unsigned char *T, int *SA,
+               int *bucket_A, int *bucket_B,
+               int n) {
+  int *PAb, *ISAb, *buf;
+#ifdef _OPENMP
+  int *curbuf;
+  int l;
+#endif
+  int i, j, k, t, m, bufsize;
+  int c0, c1;
+#ifdef _OPENMP
+  int d0, d1;
+  int tmp;
+#endif
+
+  /* Initialize bucket arrays. */
+  for(i = 0; i < BUCKET_A_SIZE; ++i) { bucket_A[i] = 0; }
+  for(i = 0; i < BUCKET_B_SIZE; ++i) { bucket_B[i] = 0; }
+
+  /* Count the number of occurrences of the first one or two characters of each
+     type A, B and B* suffix. Moreover, store the beginning position of all
+     type B* suffixes into the array SA. */
+  i = n - 1;
+  m = n;
+  c0 = T[n - 1];
+  while ( 0 <= i) {
+    /* type A suffix. */
+    do {
+    	++BUCKET_A(c1 = c0);
+    } while((0 <= --i) && ((c0 = T[i]) >= c1));
+    if(0 <= i) {
+      /* type B* suffix. */
+      ++BUCKET_BSTAR(c0, c1);
+      SA[--m] = i;
+      /* type B suffix. */
+      for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) <= c1); --i, c1 = c0) {
+        ++BUCKET_B(c0, c1);
+      }
+    }
+  }
+  m = n - m;
+/*
+note:
+  A type B* suffix is lexicographically smaller than a type B suffix that
+  begins with the same first two characters.
+*/
+
+  /* Calculate the index of start/end point of each bucket. */
+  for(c0 = 0, i = 0, j = 0; c0 < ALPHABET_SIZE; ++c0) {
+    t = i + BUCKET_A(c0);
+    BUCKET_A(c0) = i + j; /* start point */
+    i = t + BUCKET_B(c0, c0);
+    for(c1 = c0 + 1; c1 < ALPHABET_SIZE; ++c1) {
+      j += BUCKET_BSTAR(c0, c1);
+      BUCKET_BSTAR(c0, c1) = j; /* end point */
+      i += BUCKET_B(c0, c1);
+    }
+  }
+
+  if(0 < m) {
+    /* Sort the type B* suffixes by their first two characters. */
+    PAb = SA + n - m; ISAb = SA + m;
+    for(i = m - 2; 0 <= i; --i) {
+      t = PAb[i], c0 = T[t], c1 = T[t + 1];
+      SA[--BUCKET_BSTAR(c0, c1)] = i;
+    }
+    t = PAb[m - 1], c0 = T[t], c1 = T[t + 1];
+    SA[--BUCKET_BSTAR(c0, c1)] = m - 1;
+
+    /* Sort the type B* substrings using sssort. */
+#ifdef _OPENMP
+    tmp = omp_get_max_threads();
+    buf = SA + m, bufsize = (n - (2 * m)) / tmp;
+    c0 = ALPHABET_SIZE - 2, c1 = ALPHABET_SIZE - 1, j = m;
+#pragma omp parallel default(shared) private(curbuf, k, l, d0, d1, tmp)
+    {
+      tmp = omp_get_thread_num();
+      curbuf = buf + tmp * bufsize;
+      k = 0;
+      for(;;) {
+        #pragma omp critical(sssort_lock)
+        {
+          if(0 < (l = j)) {
+            d0 = c0, d1 = c1;
+            do {
+              k = BUCKET_BSTAR(d0, d1);
+              if(--d1 <= d0) {
+                d1 = ALPHABET_SIZE - 1;
+                if(--d0 < 0) { break; }
+              }
+            } while(((l - k) <= 1) && (0 < (l = k)));
+            c0 = d0, c1 = d1, j = k;
+          }
+        }
+        if(l == 0) { break; }
+        sssort(T, PAb, SA + k, SA + l,
+               curbuf, bufsize, 2, n, *(SA + k) == (m - 1));
+      }
+    }
+#else
+    buf = SA + m, bufsize = n - (2 * m);
+    for(c0 = ALPHABET_SIZE - 2, j = m; 0 < j; --c0) {
+      for(c1 = ALPHABET_SIZE - 1; c0 < c1; j = i, --c1) {
+        i = BUCKET_BSTAR(c0, c1);
+        if(1 < (j - i)) {
+          sssort(T, PAb, SA + i, SA + j,
+                 buf, bufsize, 2, n, *(SA + i) == (m - 1));
+        }
+      }
+    }
+#endif
+
+    /* Compute ranks of type B* substrings. */
+    for(i = m - 1; 0 <= i; --i) {
+      if(0 <= SA[i]) {
+        j = i;
+        do { ISAb[SA[i]] = i; } while((0 <= --i) && (0 <= SA[i]));
+        SA[i + 1] = i - j;
+        if(i <= 0) { break; }
+      }
+      j = i;
+      do { ISAb[SA[i] = ~SA[i]] = j; } while(SA[--i] < 0);
+      ISAb[SA[i]] = j;
+    }
+
+    /* Construct the inverse suffix array of type B* suffixes using trsort. */
+    trsort(ISAb, SA, m, 1);
+
+    /* Set the sorted order of tyoe B* suffixes. */
+    for(i = n - 1, j = m, c0 = T[n - 1]; 0 <= i;) {
+      for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) >= c1); --i, c1 = c0) { }
+      if(0 <= i) {
+        t = i;
+        for(--i, c1 = c0; (0 <= i) && ((c0 = T[i]) <= c1); --i, c1 = c0) { }
+        SA[ISAb[--j]] = ((t == 0) || (1 < (t - i))) ? t : ~t;
+      }
+    }
+
+    /* Calculate the index of start/end point of each bucket. */
+    BUCKET_B(ALPHABET_SIZE - 1, ALPHABET_SIZE - 1) = n; /* end point */
+    for(c0 = ALPHABET_SIZE - 2, k = m - 1; 0 <= c0; --c0) {
+      i = BUCKET_A(c0 + 1) - 1;
+      for(c1 = ALPHABET_SIZE - 1; c0 < c1; --c1) {
+        t = i - BUCKET_B(c0, c1);
+        BUCKET_B(c0, c1) = i; /* end point */
+
+        /* Move all type B* suffixes to the correct position. */
+        for(i = t, j = BUCKET_BSTAR(c0, c1);
+            j <= k;
+            --i, --k) { SA[i] = SA[k]; }
+      }
+      BUCKET_BSTAR(c0, c0 + 1) = i - BUCKET_B(c0, c0) + 1; /* start point */
+      BUCKET_B(c0, c0) = i; /* end point */
+    }
+  }
+
+  return m;
+}
+
+/* Constructs the suffix array by using the sorted order of type B* suffixes. */
+static
+void
+construct_SA(const unsigned char *T, int *SA,
+             int *bucket_A, int *bucket_B,
+             int n, int m) {
+  int *i, *j, *k;
+  int s;
+  int c0, c1, c2;
+
+  if(0 < m) {
+    /* Construct the sorted order of type B suffixes by using
+       the sorted order of type B* suffixes. */
+    for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
+      /* Scan the suffix array from right to left. */
+      for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
+          j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
+          i <= j;
+          --j) {
+        if(0 < (s = *j)) {
+          assert(T[s] == c1);
+          assert(((s + 1) < n) && (T[s] <= T[s + 1]));
+          assert(T[s - 1] <= T[s]);
+          *j = ~s;
+          c0 = T[--s];
+          if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
+          if(c0 != c2) {
+            if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
+            k = SA + BUCKET_B(c2 = c0, c1);
+          }
+          assert(k < j);
+          *k-- = s;
+        } else {
+          assert(((s == 0) && (T[s] == c1)) || (s < 0));
+          *j = ~s;
+        }
+      }
+    }
+  }
+
+  /* Construct the suffix array by using
+     the sorted order of type B suffixes. */
+  k = SA + BUCKET_A(c2 = T[n - 1]);
+  *k++ = (T[n - 2] < c2) ? ~(n - 1) : (n - 1);
+  /* Scan the suffix array from left to right. */
+  for(i = SA, j = SA + n; i < j; ++i) {
+    if(0 < (s = *i)) {
+      assert(T[s - 1] >= T[s]);
+      c0 = T[--s];
+      if((s == 0) || (T[s - 1] < c0)) { s = ~s; }
+      if(c0 != c2) {
+        BUCKET_A(c2) = k - SA;
+        k = SA + BUCKET_A(c2 = c0);
+      }
+      assert(i < k);
+      *k++ = s;
+    } else {
+      assert(s < 0);
+      *i = ~s;
+    }
+  }
+}
+
+/* Constructs the burrows-wheeler transformed string directly
+   by using the sorted order of type B* suffixes. */
+static
+int
+construct_BWT(const unsigned char *T, int *SA,
+              int *bucket_A, int *bucket_B,
+              int n, int m) {
+  int *i, *j, *k, *orig;
+  int s;
+  int c0, c1, c2;
+
+  if(0 < m) {
+    /* Construct the sorted order of type B suffixes by using
+       the sorted order of type B* suffixes. */
+    for(c1 = ALPHABET_SIZE - 2; 0 <= c1; --c1) {
+      /* Scan the suffix array from right to left. */
+      for(i = SA + BUCKET_BSTAR(c1, c1 + 1),
+          j = SA + BUCKET_A(c1 + 1) - 1, k = NULL, c2 = -1;
+          i <= j;
+          --j) {
+        if(0 < (s = *j)) {
+          assert(T[s] == c1);
+          assert(((s + 1) < n) && (T[s] <= T[s + 1]));
+          assert(T[s - 1] <= T[s]);
+          c0 = T[--s];
+          *j = ~((int)c0);
+          if((0 < s) && (T[s - 1] > c0)) { s = ~s; }
+          if(c0 != c2) {
+            if(0 <= c2) { BUCKET_B(c2, c1) = k - SA; }
+            k = SA + BUCKET_B(c2 = c0, c1);
+          }
+          assert(k < j);
+          *k-- = s;
+        } else if(s != 0) {
+          *j = ~s;
+#ifndef NDEBUG
+        } else {
+          assert(T[s] == c1);
+#endif
+        }
+      }
+    }
+  }
+
+  /* Construct the BWTed string by using
+     the sorted order of type B suffixes. */
+  k = SA + BUCKET_A(c2 = T[n - 1]);
+  *k++ = (T[n - 2] < c2) ? ~((int)T[n - 2]) : (n - 1);
+  /* Scan the suffix array from left to right. */
+  for(i = SA, j = SA + n, orig = SA; i < j; ++i) {
+    if(0 < (s = *i)) {
+      assert(T[s - 1] >= T[s]);
+      c0 = T[--s];
+      *i = c0;
+      if((0 < s) && (T[s - 1] < c0)) { s = ~((int)T[s - 1]); }
+      if(c0 != c2) {
+        BUCKET_A(c2) = k - SA;
+        k = SA + BUCKET_A(c2 = c0);
+      }
+      assert(i < k);
+      *k++ = s;
+    } else if(s != 0) {
+      *i = ~s;
+    } else {
+      orig = i;
+    }
+  }
+
+  return orig - SA;
+}
+
+
+/*---------------------------------------------------------------------------*/
+
+/*- Function -*/
+
+int
+divsufsort(const unsigned char *T, int *SA, int n) {
+  int *bucket_A, *bucket_B;
+  int m;
+  int err = 0;
+
+  /* Check arguments. */
+  if((T == NULL) || (SA == NULL) || (n < 0)) { return -1; }
+  else if(n == 0) { return 0; }
+  else if(n == 1) { SA[0] = 0; return 0; }
+  else if(n == 2) { m = (T[0] < T[1]); SA[m ^ 1] = 0, SA[m] = 1; return 0; }
+
+  bucket_A = (int *)malloc(BUCKET_A_SIZE * sizeof(int));
+  bucket_B = (int *)malloc(BUCKET_B_SIZE * sizeof(int));
+
+  /* Suffixsort. */
+  if((bucket_A != NULL) && (bucket_B != NULL)) {
+    m = sort_typeBstar(T, SA, bucket_A, bucket_B, n);
+    construct_SA(T, SA, bucket_A, bucket_B, n, m);
+  } else {
+    err = -2;
+  }
+
+  free(bucket_B);
+  free(bucket_A);
+
+  return err;
+}
+
+/* Constructs the burrows-wheeler transformed string of a given string.
+* @param T[0..n-1] The input string.
+* @param U[0..n-1] The output string. (can be T)
+* @param A[0..n-1] The temporary array. (can be NULL)
+* @param n The length of the given string.
+* @return The primary index if no error occurred, -1 or -2 otherwise.
+*/
+int
+divbwt(const unsigned char *T, unsigned char *U, int *A, int n) {
+  int *B;
+  int *bucket_A, *bucket_B;
+  int m, pidx, i;
+
+  /* Check arguments. */
+  if((T == NULL) || (U == NULL) || (n < 0)) { return -1; }
+  else if(n <= 1) { if(n == 1) { U[0] = T[0]; } return n; }
+
+  if((B = A) == NULL) { B = (int *)malloc((size_t)(n + 1) * sizeof(int)); }
+  bucket_A = (int *)malloc(BUCKET_A_SIZE * sizeof(int));
+  bucket_B = (int *)malloc(BUCKET_B_SIZE * sizeof(int));
+
+  /* Burrows-Wheeler Transform. */
+  if((B != NULL) && (bucket_A != NULL) && (bucket_B != NULL)) {
+    m = sort_typeBstar(T, B, bucket_A, bucket_B, n);
+    pidx = construct_BWT(T, B, bucket_A, bucket_B, n, m);
+
+    /* Copy to output string. */
+    U[0] = T[n - 1];
+    for(i = 0; i < pidx; ++i) { U[i + 1] = (unsigned char)B[i]; }
+    for(i += 1; i < n; ++i) { U[i] = (unsigned char)B[i]; }
+    pidx += 1;
+  } else {
+    pidx = -2;
+  }
+
+  free(bucket_B);
+  free(bucket_A);
+  if(A == NULL) { free(B); }
+
+  return pidx;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/divsufsort.h.in b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/divsufsort.h.in
new file mode 100755
index 0000000..8d8952e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/libdivsufsort/divsufsort.h.in
@@ -0,0 +1,63 @@
+/*
+ * divsufsort.h for libdivsufsort-lite
+ * Copyright (c) 2003-2008 Yuta Mori All Rights Reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person
+ * obtaining a copy of this software and associated documentation
+ * files (the "Software"), to deal in the Software without
+ * restriction, including without limitation the rights to use,
+ * copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the
+ * Software is furnished to do so, subject to the following
+ * conditions:
+ *
+ * The above copyright notice and this permission notice shall be
+ * included in all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
+ * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
+ * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
+ * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
+ * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
+ * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
+ * OTHER DEALINGS IN THE SOFTWARE.
+ */
+
+#ifndef _DIVSUFSORT_H
+#define _DIVSUFSORT_H 1
+
+#ifdef __cplusplus
+extern "C" {
+#endif /* __cplusplus */
+
+
+/*- Prototypes -*/
+
+/**
+ * Constructs the suffix array of a given string.
+ * @param T[0..n-1] The input string.
+ * @param SA[0..n-1] The output array of suffixes.
+ * @param n The length of the given string.
+ * @return 0 if no error occurred, -1 or -2 otherwise.
+ */
+int
+divsufsort(const unsigned char *T, int *SA, int n);
+
+/**
+ * Constructs the burrows-wheeler transformed string of a given string.
+ * @param T[0..n-1] The input string.
+ * @param U[0..n-1] The output string. (can be T)
+ * @param A[0..n-1] The temporary array. (can be NULL)
+ * @param n The length of the given string.
+ * @return The primary index if no error occurred, -1 or -2 otherwise.
+ */
+int
+divbwt(const unsigned char *T, unsigned char *U, int *A, int n);
+
+
+#ifdef __cplusplus
+} /* extern "C" */
+#endif /* __cplusplus */
+
+#endif /* _DIVSUFSORT_H */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/00README b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/00README
new file mode 100755
index 0000000..1b4aefe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/00README
@@ -0,0 +1,436 @@
+Benchmarking methodology used internally in HMMER testing: the
+"profmark" benchmark.
+
+
+Table of contents:
+   1. Overview of files in the profmark directory.
+   2. create-profmark: creating a new benchmark dataset 
+   3.    format of {.tbl,.msa,.fa,.pos,.neg} files in a benchmark dataset
+   4.    finding summary statistics of a benchmark dataset
+   5. pmark-master.pl: running a pmark benchmark, in parallel using SGE qsub
+   6. x-<benchmark>:   benchmark driver scripts
+   7.    format of benchmark results output files
+   8. rocplot: displaying results as ROC graphs
+
+
+================================================================
+= 1. Overview of files
+================================================================
+
+create-profmark.c  : Creates a new benchmark dataset.
+pmark-master.pl    : Master script that parallelizes the running of a benchmark.
+
+x-hmmsearch        : H3 hmmsearch benchmark  (subsidiary to pmark-master.pl)
+x-phmmer-fps       : phmmer family-pairwise-search benchmark
+x-phmmer-consensus : phmmer consensus query benchmark
+
+rocplot.c          : Constructs ROC plot of results, with bootstrapped
+                     confidence intervals.
+
+rocplot.pl         : quick and dirty ROC plot, no bootstrapping.
+
+
+
+
+================================================================
+= 2. create-profmark: creating a new benchmark dataset 
+================================================================
+
+create-profmark is compiled from ANSI C source create-profmark.c; see
+Makefile.in for build.
+
+Usage:    ./create-profmark <benchmark_prefix> <Stockholm MSA file> <FASTA sequence database>
+Example:  ./create-profmark pmark Pfam-A.seed uniprot-sprot.fa
+
+Creates five output files:
+   <benchmark_prefix>.tbl  - table summarizing the benchmark
+   <benchmark_prefix>.msa  - MSA queries, stockholm format
+   <benchmark_prefix>.fa   - sequence targets, fasta format
+   <benchmark_prefix>.pos  - table summarizing positive test set
+   <benchmark_prefix>.neg  - table summarizing negative test set                
+The format of these files is described in the following section.
+
+
+Briefly: each input alignment in the <Stockholm MSA file> is split
+into a query alignment and a nonredundant set of test domains by two
+single-linkage clustering steps, such that no test domain has >= 25%
+identity to any query sequence and no test domain is >= 50% identical
+to any other test domain. Positive test sequences are constructed by
+embedding two test domains in a larger sequence, with nonhomologous
+segments generated by selecting a random segment of the <FASTA
+sequence database> and shuffling it. Negative test sequences are
+constructed by sampling a positive test sequence at random (for its
+segment length structure) and replacing all its segments with
+nonhomologous shuffled segments. 
+
+In more detail, including options that change the default benchmark
+construction protocol, the procedure is as follows:
+
+ : for each MSA in <Stockholm MSA file>:
+   
+   : Filter out sequence "fragments". 
+     Defined as sequences < x*average length (in residues); default
+     x=0.70; controlled by -F option.
+
+   : Try to split into a training set and test set such that no test
+     sequence has >= x% identity to any training sequence.  Uses
+     efficient single-linkage-clustering at x threshold; defines
+     largest cluster as training set, all other clusters as test
+     set. Pairwise % identity as defined by <esl_dst_XPairId()> on the
+     given alignment. Default x=25% identity; controlled by -1 <x>
+     option.
+
+   : For the remaining test sequences, remove redundancy by performing
+     another single linkage clustering by percent identity, at another
+     threshold x. Default x=50%; controlled by -2 <x> option. For each
+     cluster, one test sequence is chosen at random as a
+     representative. 
+
+   : If less than two test sequences have been identified that meet
+     these criteria, fail and move on to the next MSA. (For instance,
+     if all the sequences in the MSA are highly identical, don't
+     bother using this MSA for a benchmark; it's too easy.)
+
+   : Permute the order of the training set alignment. (This allows
+     single-sequence-query tests to start on a random but reproducible
+     single query sequence, simply by taking the first seq in the
+     alignment.) Other than this (row) permutation, the training set
+     is preserved in its original alignment.
+
+   : The training set alignment is written to <benchmark_prefix>.msa.
+
+   : The test set is now considered to be "test domains", and we
+     construct positive test sequences by embedding these domains
+     in nonhomologous sequence constructed from sequences in
+     the <FASTA sequence database> as follows:
+
+       : choose two test domains (by default; --single option makes it one)
+
+       : select a sequence length from <FASTA sequence database> at random
+         that is sufficiently long to embed both test domains.
+ 
+       : embed the domain(s) at random positions in that sequence length
+
+       : construct the non-domain regions of the test sequence with
+         "nonhomologous" sequence segments. There are several ways to
+         construct "nonhomologous" sequence segments, all of which
+         (except --iid) start with selecting a random subsequence of
+         appropriate length from the <FASTA sequence database>:
+
+	   : shuffle the selected subsequence.         (default; --mono) 
+           : shuffle preserving diresidue composition. (--di)    
+           : synthesize with same monoresidue comp     (--markov0)
+           : synthesize with same diresidue comp       (--markov1)
+	   : reverse C-to-N direction                  (--reverse)
+	   : synthesize iid sequence                   (--iid)
+
+   : The embedded-domain test sequences are written in FASTA format
+     to the <benchmark_prefix>.fa file. Details of how they were 
+     constructed (where all the sequence segments came from) are 
+     written to the <benchmark_prefix>.pos file.
+
+   : Finally a set of <N> negative test sequences is constructed. 
+     Default N=200000; controlled by the -N option.
+     For each negative:
+
+        : choose one of the positive test seqs at random; we will use
+          the same set of segment lengths to construct a negative.
+
+        : for every segment, insert a nonhomologous sequence generated
+          by the same method we used for nonhomologous segments in
+	  the positive sequences.
+
+   : The test sequences are appended in FASTA format to the to the
+     <benchmark_prefix>.fa file. Details of how they were constructed
+     (where all the sequence segments came from) are written to the
+     <benchmark_prefix>.neg file.
+     
+
+================================================================
+= 3. Format of {.tbl,.msa,.fa,.pos,.neg} files in a benchmark dataset
+================================================================
+
+The .tbl file is used by pmark-master.pl as a list of MSA queries in
+the benchmark. Each line has eight whitespace-delimited fields:
+  <query msa name>    <avg pid> <alen> <nseq>  <nfrags> <nseq_train> <ndom_test> <nseq_test>
+For example:
+  2OG-FeII_Oxy           27%    167    141      0    113     16      8
+  3-alpha                24%     48     10      0      6      4      2
+  3_5_exonuc             24%    219     28      0     21      5      2
+  4HBT                   20%     99    141      0     97     37     18
+
+In more detail, these eight fields are: 
+  <query_msa_name> : name of the MSA query, as given in original
+                     <Stockholm MSA file>
+
+         <avg pid> : average % id in the training set alignment, as
+                     calculated by esl_dst_XAverageId().
+
+            <alen> : length of the training set alignment in columns.
+
+          <nfrags> : number of sequences that were excluded from the
+                     original alignment because they appeared to be
+		     fragments.
+
+      <nseq_train> : number of sequences in the training set alignment
+                     saved to <benchmark_prefix>.msa
+
+       <ndom_test> : number of sequences that passed criteria for use
+                     as a possible embedded domain in the test
+                     sequences
+
+       <nseq_test> : number of embedded-domain test sequences saved to
+                     <benchmark_prefix>.fa
+
+
+The .msa file is a Stockholm file containing all the query alignments. 
+
+The .fa file is a FASTA file containing the positive and negative test
+sequences. 
+
+The .pos file is a log of where all the segments in the positive test
+sequences came from.
+
+  <test seq name>  <length> <L1> <D1> <L2> <D2> <L3>  [<source> <from> <to>]...
+
+
+  <test seq name> : name of the test sequence. These are constructed
+                    as <MSA name>/<#>/<f1>-<t1>/<f2>-<t2>, where <#>
+                    ranges from 1 to the number of test sequences, and
+                    <f1>-<t1> and <f2>-<t2> are the coordinates in the
+                    test sequence that correspond to homologous
+                    domains. This naming structure is exploited by 
+		    benchmark scripts to know that the sequence is a
+                    positive, and to know exactly where the bounds of
+                    homologous domains are.
+
+		    In a single-domain embedded test (--single), the
+		    names are <MSA name>/<#>/<f1>-<t1>.
+
+        <length> :  length of the test sequence in residues
+            <L1> :  length of the first nonhomologous segment
+            <D1> :  length of the first homologous test domain
+            <L2> :  length of the 2nd nonhomologous segment
+            <D2> :  length of the second homologous test domain (or 0)
+            <L3> :  length of the 3rd nonhomologous segment (or 0)
+            
+then for each segment (5 for the default two-domain embedding; 3 for
+--single):
+
+        <source> :  name of the source sequence for the segment;
+	            in <FASTA sequence database> for nonhomologous
+	            segments, and in the original MSA for homologous
+	            segments. 
+          <from> :  start coord in the source
+            <to> :  end coord in the source
+		    
+
+The .neg file is a log of where all the segments in the negative test
+sequences came from. It has essentially the same format as the .pos
+file, except that negative sequences are all named <decoy><#>
+(example: "decoy2012"), and the benchmark scripts rely on this to
+identify negative test sequences.
+
+
+
+================================================================     
+= 4. Finding summary statistics of a benchmark dataset
+================================================================
+
+Number of query alignments:   wc -l <benchmark_prefix>.tbl
+                           or esl-alistat -a <benchmark_prefix>.msa
+
+Number of positives:          wc -l <benchmark_prefix>.pos
+
+Number of negatives:          wc -l <benchmark_prefix>.neg
+
+Test sequence length dist:    esl-seqstat <benchmark_prefix>.fa
+
+
+
+================================================================
+= 5. pmark-master.pl: running a pmark benchmark, in parallel using SGE qsub
+================================================================
+
+Usage:   ./pmark-master.pl <top_builddir> <top_srcdir> <resultdir> <nproc> <benchmark_prefix> <benchmark script>
+Example: ./pmark-master.pl ~/releases/hmmer-release/build-icc ~/releases/hmmer-release h3-results  100 pmark ./x-hmmsearch
+     
+pmark-master.pl is a wrapper that coarse-grain parallelizes a
+benchmark run for our SGE queue.
+
+This would typically be run in a notebook directory, which would have
+symlinks to the pmark-master.pl script and the driver x-* scripts, and
+also would have the <benchmark_prefix>.{tbl,msa,fa,pos,neg} files
+either present or symlinked.
+
+For each benchmark you run that day, you'd have a different
+<resultdir>; for example, you might run a "h3" and "h2"
+benchmark. The <resultdir> name should be short because it is used to
+construct other names, including the SGE job name.
+
+The pmark-master.pl creates the <resultdir>, splits the
+<benchmark_prefix>.tbl file into <nproc> separate tbl files called
+<resultdir>/tbl.<i>, and issues "qsub" commands to run the <benchmark
+script> on each of these subtables.
+
+The jobs in SGE are named <resultdir>.<i>.
+
+The <benchmark script> is passed 7 arguments:
+ <top_builddir> <top_srcdir> <resultdir> <subtbl> <benchmark_prefix.msa> <benchmark_prefix.fa> <outfile>
+where <subtbl> is <resultdir>/tbl.<i> (the list of queries this
+parallelized instance of the benchmark driver is supposed to process), 
+and <outfile> is a file named <resultdir>/tbl<i>.out.
+
+When all the driver script instances are done, there will be <nproc>
+output files named <resultdir>/tbl<i>.out. These files can be analysed
+and turned into ROC graphs using rocplot and/or rocplot.pl.
+
+================================================================
+= 6. x-<benchmark>:   benchmark driver scripts
+================================================================
+
+A driver script gets the 7 arguments as described above:
+
+         <top_builddir> : path to top-level build directory of the
+	                  program(s) to be tested, where executables
+	                  can be found. When testing non-HMMER
+	                  programs, this is the installation directory
+	                  where those executables are found.
+
+           <top_srcdir> : path to top-level src directory of the HMMER
+                          program(s) to be tested, where data and
+                          scripts may be found. When testing non-HMMER
+                          programs, this is nonetheless still a HMMER
+			  top-level src directory, where parser scripts
+			  and data may be found. (For example, BLAST
+			  output parsers: our demotic perl modules.)
+
+            <resultdir> : name of the directory that temp files can
+	                  be placed in, unique to the instantiation
+			  of pmark-master.pl that called us, so long
+			  as we use names that don't clash with the
+			  other <nproc>-1 instances of driver scripts;
+			  for example, we can safely create tmp files
+			  that start with <queryname>.
+	                
+               <subtbl> : name of the tbl.<i> file in <resultsdir> that
+	                  lists the query alignments this instantiation
+			  of the driver is supposed to work on.
+
+ <benchmark_prefix.msa> : the benchmark's MSA file; query alignments named
+                          in <subtbl> will be esl-alifetch'ed from here.
+
+  <benchmark_prefix.fa> : the benchmark's positive and negative sequences;
+                          this will be used as the target database for
+			  searches the driver runs. 
+
+                          As a special case (i.e. hack), iterative
+			  search benchmarks may look for related
+			  files, such as <benchmark_prefix.fa.iter>, a
+			  sequence database to iterate on first before
+			  running on <benchmark_prefix.fa>.
+
+              <outfile> : a whitespace-delimited tabular output file, 
+                          one line per target sequence, described below.
+
+Using <top_builddir> and <top_srcdir> allows us to easily construct
+regression tests of different HMMER versions and/or configurations.
+
+Why the BEGIN {} clause: you'll see a BEGIN {} clause wrapping cmdline
+argument parsing on many of the x- scripts. That's a trick that goes
+with "use lib ${top_srcdir}/easel/demotic", where we need the demotic
+library included, but we don't know where it is until we get
+${top_srcdir} from the cmdline, so we defer the 'use lib'.
+
+Error handling: why don't these scripts call die() on errors? That's
+deliberate. If a step fails, the script prints an error message and
+skips to the next query, without cleaning up any tmp files from the
+failed query.  Thus we continue collecting data from as much of the
+.tbl file of queries as possible, while saving tmp files that we'll
+need for debugging later. If you have the x- script fail w/ a fatal
+error, it will stop in the middle of a tbl file, which unnecessarily
+compromises the completeness of a benchmark (say, if one piddly query
+out of 10000 fails, there's no reason to bring down the whole
+benchmark).
+
+
+================================================================
+= 7. format of benchmark results output files
+================================================================
+
+The <nproc> output in files <resultdir>/tbl<i>.out have four fields:
+      <E-value> <bit score> <target> <query>
+for example:
+  6e-41   144.1   UCH/6548/39-342/368-893         UCH
+  1.5e-34 123.1   UCH/6546/168-490/816-1424       UCH
+  0.17    14.4    zf-UBP/6823/3-74/209-283        UCH
+  1.4     11.4    decoy31607                      UCH
+
+These can be concatenated and sorted by E-value:
+   cat *.out | sort -g
+
+Analysis scripts can easily tell the difference between a true,
+false, and "ignored" comparison:
+
+  - if the target is named "decoy", it's a negative (nonhomologous)
+    comparison.
+
+  - if the name of the query matches the first part of the name of the
+    target, it's a true (homologous) comparison.
+
+  - if the name of the query doesn't match the first part of the
+    target name, we will ignore the comparison. This is a match
+    between a positive sequence and a query that doesn't correspond to
+    the positive test domains; it might be a false hit, but it also
+    might be that the two alignments (the query and the one that
+    generated the test sequence) are homologous.
+
+Thus it's easy to keep track (even during a run) of the top-scoring
+false positive:
+   cat *.out | sort -g | grep decoy | head
+
+and using the rocplot.pl script, it's easy to see get a glimpse of
+how the ROC plot is turning out:
+
+   cat *.out | sort -g | ../rocplot.pl | head
+
+
+================================================================
+= 8. rocplot: displaying results as ROC graphs
+================================================================
+
+rocplot is compiled from ANSI C source rocplot.c; see Makefile.in for build.
+
+Usage:    ./rocplot <benchmark_prefix> <sorted .out data>
+Example:  cat *.out | sort -g | ../rocplot pmark - > results.xy
+
+The output is an XMGRACE xydydy file, plotting fractional coverage of
+the positives (on the Y-axis; range 0..1) versus errors per query (on
+the X-axis; ranging from 1/(# of models) to 10.0 by default; see --min
+and --max options). For each point, a 95% confidence interval is
+denoted by the dydy points, as determined by "Bayesian" bootstrap
+resampling of the query alignments.
+ 
+Output from rocplot over a set of different benchmarks are usually
+concatenated into one XMGRACE input .dat file, and worked up into
+a display following a procedure akin to:
+
+
+  cat bench1/*.out  | sort -g | ./rocplot pmark - > bench1.dat
+  cat bench2/*.out  | sort -g | ./rocplot pmark - > bench2.dat
+
+  cat bench1.dat >  todays.dat
+  cat bench2.dat >> todays.dat
+
+  \cp todays.dat todays.agr
+  xmgrace -settype xydydy -param ~/src/hmmer/profmark/pmark.param todays.agr
+
+then manually making the lines pretty colors as in
+  All:  symbols circle 56  opaque white fill  no riser
+  set 0   bench1  orange
+  set 1   bench2  black
+
+and saving (as .agr) and exporting (as .eps):
+  Figure:  todays.{dat,agr,eps}
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/Makefile.in
new file mode 100755
index 0000000..c089a7a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/Makefile.in
@@ -0,0 +1,71 @@
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ 
+
+CC       = @CC@
+CFLAGS   = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS= @SIMD_CFLAGS@
+CPPFLAGS = @CPPFLAGS@
+LDFLAGS  = @LDFLAGS@
+DEFS     = @DEFS@
+LIBS     = -lhmmer -leasel @LIBS@ @LIBGSL@ @PTHREAD_LIBS@ -lm
+MPILIBS  = @MPILIBS@
+IMPLDIR  = impl_@IMPL_CHOICE@
+
+ESLDIR    = @HMMER_ESLDIR@
+
+ESLINC   = -I../${ESLDIR} -I${top_srcdir}/easel
+SRCINC   = -I../src   -I${top_srcdir}/src
+
+PROGS    = create-profmark\
+	   rocplot
+
+PROGOBJS  =\
+	create-profmark.o\
+	rocplot.o
+
+# beautification magic stolen from git 
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: all dev distclean clean
+
+all:    ${PROGS}
+dev:    ${PROGS}
+
+${PROGS}: @EXEC_DEPENDENCY@  ../${ESLDIR}/libeasel.a ../src/libhmmer.a 
+	${QUIET_GEN}${CC} ${CFLAGS} ${DEFS} ${LDFLAGS} -L../${ESLDIR} -L../src -o $@ $@.o ${LIBS}
+
+${PROGOBJS}: ../src/hmmer.h ../src/p7_config.h
+
+.c.o: 
+	${QUIET_CC}${CC} ${ESLINC} ${SRCINC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} -o $@ -c $<		
+
+distclean: clean
+	-rm -f Makefile
+
+clean:
+	-rm -f *.o *~ ${PROGS} 
+	-rm -f *.gcno
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+# 
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/profmark/Makefile.in $
+# SVN $Id: Makefile.in 3844 2012-02-07 21:51:20Z eddys $
+################################################################
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/create-profmark.c b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/create-profmark.c
new file mode 100755
index 0000000..b8a0232
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/create-profmark.c
@@ -0,0 +1,764 @@
+/* Construct a training alignment/test sequences set from an MSA.
+ *
+ * Usage:
+     ./create-profmark <basename> <msa Stockholm file> <FASTA db>
+   For example:
+     ./create-profmark pmark /misc/data0/databases/Pfam/Pfam-A.seed /misc/data0/databases/uniprot-7.0/uniprot_sprot.fasta
+ *
+ * This generates five output files:
+ *   <basename>.tbl  - table summarizing the benchmark
+ *   <basename>.msa  - MSA queries, stockholm format
+ *   <basename>.fa   - sequence targets, fasta format
+ *   <basename>.pos  - table summarizing positive test set
+ *   <basename>.neg  - table summarizing negative test set                
+ * 
+ */
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_distance.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_msa.h"
+#include "esl_msacluster.h"
+#include "esl_msashuffle.h"
+#include "esl_msafile.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stack.h"
+#include "esl_vectorops.h"
+#include "esl_composition.h"
+
+static char banner[] = "construct a benchmark profile training/test set";
+static char usage[]  = "[options] <basename> <msafile> <seqdb>\n";
+
+#define SHUF_OPTS "--mono,--di,--markov0,--markov1,--reverse"   /* toggle group, seq shuffling options          */
+
+static ESL_OPTIONS options[] = {
+  /* name         type        default env   range togs  reqs  incomp      help                                                   docgroup */
+  { "-h",         eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL, NULL,            "help; show brief info on version and usage",              1 },
+  { "-1",         eslARG_REAL, "0.25", NULL,"0<x<=1.0",NULL,NULL,NULL,         "require all test seqs to have < x id to training",        1 },
+  { "-2",         eslARG_REAL, "0.50", NULL,"0<x<=1.0",NULL,NULL,NULL,         "require all test seqs to have < x id to each other",      1 },
+  { "-F",         eslARG_REAL, "0.70", NULL,"0<x<=1.0",NULL,NULL,NULL,         "filter out seqs <x*average length",                       1 },
+  { "-N",         eslARG_INT,"200000", NULL, NULL, NULL, NULL, NULL,           "number of negative test seqs",                            1 },
+  { "--maxtrain", eslARG_INT,   FALSE, NULL, NULL, NULL, NULL, NULL,           "maximum number of test domains taken per input MSA",      1 },
+  { "--maxtest",  eslARG_INT,   FALSE, NULL, NULL, NULL, NULL, NULL,           "maximum number of training domains taken per input MSA",  1 },
+
+  /* Options controlling negative segment randomization method  */
+  { "--mono",    eslARG_NONE,"default", NULL, NULL, SHUF_OPTS, NULL, NULL, "shuffle preserving monoresidue composition",                2 },
+  { "--di",      eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, NULL, NULL, "shuffle preserving mono- and di-residue composition",       2 },
+  { "--markov0", eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, NULL, NULL, "generate with 0th order Markov properties per input",       2 },
+  { "--markov1", eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, NULL, NULL, "generate with 1st order Markov properties per input",       2 },
+  { "--reverse", eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, NULL, NULL, "reverse each input",                                        2 },
+  { "--iid",     eslARG_NONE,    FALSE, NULL, NULL, SHUF_OPTS, NULL, NULL, "generate random iid sequence for negatives",                2 },
+
+  /* Options forcing which alphabet we're working in (normally autodetected) */
+  { "--amino",  eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,"--dna,--rna",    "<msafile> contains protein alignments",                   3 },
+  { "--dna",    eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,"--amino,--rna",  "<msafile> contains DNA alignments",                       3 },
+  { "--rna",    eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL,"--amino,--dna",  "<msafile> contains RNA alignments",                       3 },
+
+  /* Other options */
+  { "--single", eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,           "embed one, not two domains in each positive",                  4 },
+  { "--minDPL", eslARG_INT,   "100", NULL, NULL, NULL, NULL, NULL,           "minimum segment length for DP shuffling",                      4 },
+  { "--seed",   eslARG_INT,     "0", NULL, NULL, NULL, NULL, NULL,           "specify random number generator seed",                         4 },
+  { "--pid",    eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,           "create optional .pid file, %id's for all train/test domain pairs", 4 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+struct testseq_s {
+  int  L;			/* total length            */
+  int  L1;			/* length of first spacer  */
+  int  d1n;			/* length of first domain  */
+  int  L2;			/* length of second spacer */
+  int  d2n;			/* length of second domain */
+  int  L3;			/* length of third spacer  */
+};
+
+struct cfg_s {
+  ESL_ALPHABET   *abc;          /* biological alphabet                                     */
+  ESL_RANDOMNESS *r;            /* random number generator                                 */
+  double          fragfrac;	/* seqs less than x*avg length are removed from alignment  */
+  double          idthresh1;	/* fractional identity threshold for train/test split      */
+  double          idthresh2;	/* fractional identity threshold for selecting test seqs   */
+  int             max_ntrain;	/* maximum number of test domains per input alignment; 0=unlimited */
+  int             max_ntest;	/* maximum number of test domains per input alignment; 0=unlimited */
+
+  FILE           *out_msafp;	/* output stream: training MSAs  */
+  FILE           *out_seqfp;	/* output stream: test sequences */
+  FILE           *possummfp;    /* output stream: summary table of the positive test set */
+  FILE           *negsummfp;	/* output stream: summary table of the negative test set */
+  FILE           *tblfp;	/* output stream: summary table of the training set alignments */
+  FILE           *pidfp;	/* optional out stream: table of pairwise %id for all train x test domain pairs */
+
+  ESL_SQFILE     *dbfp;   	/* source database for negatives                           */
+  int             db_nseq;	/* # of sequences in the db                                */
+  int             db_maxL;	/* maximum seq length in db_lens                           */
+
+  struct testseq_s *test_lens;	/* array of length info about positive test seqs */
+  int               ntest;	/* number of positive test seqs                  */
+
+  double          fq[20];	/* background frequency distribution, if we're making iid negatives */
+};
+
+
+
+static int  process_dbfile      (struct cfg_s *cfg, char *dbfile, int dbfmt);
+static int  remove_fragments    (struct cfg_s *cfg, ESL_MSA *msa, ESL_MSA **ret_filteredmsa, int *ret_nfrags);
+static int  separate_sets       (struct cfg_s *cfg, ESL_MSA *msa, ESL_MSA **ret_trainmsa, ESL_STACK **ret_teststack);
+static int  synthesize_positives(ESL_GETOPTS *go, struct cfg_s *cfg, char *testname, ESL_STACK *teststack, int *ret_ntest);
+static int  synthesize_negatives(ESL_GETOPTS *go, struct cfg_s *cfg, int nneg);
+static int  set_random_segment  (ESL_GETOPTS *go, struct cfg_s *cfg, FILE *logfp, ESL_DSQ *dsq, int L);
+static void msa_select_topn(ESL_MSA **msaptr, int n);
+static void pstack_select_topn(ESL_STACK **stackptr, int n);
+static void write_pids(FILE *pidfp, ESL_MSA *origmsa, ESL_MSA *trainmsa, ESL_STACK *teststack);
+
+static void
+cmdline_failure(char *argv0, char *format, ...)
+{
+  va_list argp;
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n where general options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  puts("\n options controlling segment randomization method:");
+  esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+  puts("\n options declaring a particular alphabet:");
+  esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+  puts("\n other options:");
+  esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+  exit(0);
+}
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	/* command line configuration      */
+  struct cfg_s  cfg;     	/* application configuration       */
+  char         *basename= NULL;	/* base of the output file names   */
+  char         *alifile = NULL;	/* alignment file name             */
+  char         *dbfile  = NULL;	/* name of seq db file             */
+  char          outfile[256];	/* name of an output file          */
+  int           alifmt;		/* format code for alifile         */
+  int           dbfmt;		/* format code for dbfile          */
+  ESLX_MSAFILE  *afp    = NULL;	/* open alignment file             */
+  ESL_MSA      *origmsa = NULL;	/* one multiple sequence alignment */
+  ESL_MSA      *msa     = NULL;	/* MSA after frags are removed     */
+  ESL_MSA      *trainmsa= NULL;	/* training set, aligned           */
+  ESL_STACK    *teststack=NULL; /* test set: stack of ESL_SQ ptrs  */
+  int           status;		/* easel return code               */
+  int           nfrags;		/* # of fragments removed          */
+  int           ntestdom;       /* # of test domains               */
+  int           ntest;		/* # of test sequences created     */
+  int           nali;		/* number of alignments read       */
+  double        avgid;
+  
+  
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in app configuration:   %s\n", go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h"))                    cmdline_help(argv[0], go);
+  if (esl_opt_ArgNumber(go)                  != 3)     cmdline_failure(argv[0], "Incorrect number of command line arguments\n");
+  basename = esl_opt_GetArg(go, 1); 
+  alifile  = esl_opt_GetArg(go, 2);
+  dbfile   = esl_opt_GetArg(go, 3);
+  alifmt   = eslMSAFILE_STOCKHOLM;
+  dbfmt    = eslSQFILE_FASTA;
+
+  /* Set up the configuration structure shared amongst functions here */
+  if (esl_opt_IsDefault(go, "--seed"))   cfg.r = esl_randomness_CreateTimeseeded();
+  else                                   cfg.r = esl_randomness_Create(esl_opt_GetInteger(go, "--seed"));
+  cfg.abc        = NULL;		          /* until we open the MSA file, below */
+  cfg.fragfrac   = esl_opt_GetReal(go, "-F");
+  cfg.idthresh1  = esl_opt_GetReal(go, "-1");
+  cfg.idthresh2  = esl_opt_GetReal(go, "-2");
+  cfg.test_lens  = NULL;
+  cfg.ntest      = 0;
+  cfg.max_ntest  = (esl_opt_IsOn(go, "--maxtest")  ? esl_opt_GetInteger(go, "--maxtest")  : 0); 
+  cfg.max_ntrain = (esl_opt_IsOn(go, "--maxtrain") ? esl_opt_GetInteger(go, "--maxtrain") : 0); 
+
+  /* Open the output files */ 
+  if (snprintf(outfile, 256, "%s.msa", basename) >= 256)  esl_fatal("Failed to construct output MSA file name");
+  if ((cfg.out_msafp = fopen(outfile, "w"))      == NULL) esl_fatal("Failed to open MSA output file %s\n", outfile);
+  if (snprintf(outfile, 256, "%s.fa",  basename) >= 256)  esl_fatal("Failed to construct output FASTA file name");
+  if ((cfg.out_seqfp = fopen(outfile, "w"))      == NULL) esl_fatal("Failed to open FASTA output file %s\n", outfile);
+  if (snprintf(outfile, 256, "%s.pos", basename) >= 256)  esl_fatal("Failed to construct pos test set summary file name");
+  if ((cfg.possummfp = fopen(outfile, "w"))      == NULL) esl_fatal("Failed to open pos test set summary file %s\n", outfile);
+  if (snprintf(outfile, 256, "%s.neg", basename) >= 256)  esl_fatal("Failed to construct neg test set summary file name");
+  if ((cfg.negsummfp = fopen(outfile, "w"))      == NULL) esl_fatal("Failed to open neg test set summary file %s\n", outfile);
+  if (snprintf(outfile, 256, "%s.tbl", basename) >= 256)  esl_fatal("Failed to construct benchmark table file name");
+  if ((cfg.tblfp     = fopen(outfile, "w"))      == NULL) esl_fatal("Failed to open benchmark table file %s\n", outfile);
+  if (esl_opt_GetBoolean(go, "--pid")) {
+    if (snprintf(outfile, 256, "%s.pid", basename) >= 256)  esl_fatal("Failed to construct %%id table file name");
+    if ((cfg.pidfp   = fopen(outfile, "w"))        == NULL) esl_fatal("Failed to open %%id table file %s\n", outfile);
+  } else cfg.pidfp   = NULL;
+
+  /* Open the MSA file, digital mode; determine alphabet */
+  if      (esl_opt_GetBoolean(go, "--amino"))   cfg.abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     cfg.abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     cfg.abc = esl_alphabet_Create(eslRNA);
+
+  status = eslx_msafile_Open(&(cfg.abc), alifile, NULL, alifmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if (cfg.abc->type == eslAMINO) esl_composition_SW34(cfg.fq);
+  else                           esl_vec_DSet(cfg.fq, cfg.abc->K, 1.0 / (double) cfg.abc->K);
+
+  /* Open and process the dbfile; make sure it's in the same alphabet */
+  process_dbfile(&cfg, dbfile, dbfmt);
+
+  /* Read and process MSAs one at a time  */
+  nali = 0;
+  while ((status = eslx_msafile_Read(afp, &origmsa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+      esl_msa_ConvertDegen2X(origmsa); 
+      esl_msa_Hash(origmsa);
+
+      remove_fragments(&cfg, origmsa, &msa, &nfrags);
+      separate_sets   (&cfg, msa, &trainmsa, &teststack);
+
+      if ( esl_stack_ObjectCount(teststack) >= 2) 
+	{
+	  /* randomize test domain order, and apply size limit if any */
+	  esl_stack_Shuffle(cfg.r, teststack);
+	  if (cfg.max_ntest) pstack_select_topn(&teststack, cfg.max_ntest);
+	  ntestdom =  esl_stack_ObjectCount(teststack);
+
+	  /* randomize training set alignment order, and apply size limit if any */
+	  esl_msashuffle_PermuteSequenceOrder(cfg.r, trainmsa);
+	  if (cfg.max_ntrain) msa_select_topn(&trainmsa, cfg.max_ntrain);
+	  esl_msa_MinimGaps(trainmsa, NULL, NULL, FALSE);
+	  
+	  if (esl_opt_GetBoolean(go, "--pid")) write_pids(cfg.pidfp, origmsa, trainmsa, teststack);
+
+	  synthesize_positives(go, &cfg, msa->name, teststack, &ntest);
+
+	  eslx_msafile_Write(cfg.out_msafp, trainmsa, eslMSAFILE_STOCKHOLM);
+
+	  esl_dst_XAverageId(cfg.abc, trainmsa->ax, trainmsa->nseq, 10000, &avgid); /* 10000 is max_comparisons, before sampling kicks in */
+	  fprintf(cfg.tblfp, "%-20s  %3.0f%% %6d %6d %6d %6d %6d %6d\n", msa->name, 100.*avgid, (int) trainmsa->alen, msa->nseq, nfrags, trainmsa->nseq, ntestdom, ntest);
+	  nali++;
+	}
+
+      esl_msa_Destroy(trainmsa);
+      esl_msa_Destroy(origmsa);
+      esl_msa_Destroy(msa);
+    }
+  if  (nali == 0) esl_fatal("No alignments found in file %s\n", alifile);
+  
+  synthesize_negatives(go, &cfg, esl_opt_GetInteger(go, "-N"));
+
+  fclose(cfg.out_msafp);
+  fclose(cfg.out_seqfp);
+  fclose(cfg.possummfp);
+  fclose(cfg.negsummfp);
+  fclose(cfg.tblfp);
+  if (cfg.pidfp) fclose(cfg.pidfp);
+  esl_randomness_Destroy(cfg.r);
+  esl_alphabet_Destroy(cfg.abc);
+  eslx_msafile_Close(afp);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+      
+  
+/* Open the source sequence database for negative subseqs;
+ * upon return, cfg->dbfp is open (digital, SSI indexed);
+ * cfg->db_maxL and cfg->db_nseq are set.
+ */
+static int
+process_dbfile(struct cfg_s *cfg, char *dbfile, int dbfmt)
+{
+  ESL_SQ     *sq    = esl_sq_CreateDigital(cfg->abc);
+  int         status;
+  
+  /* Open the sequence file in digital mode */
+  status = esl_sqfile_OpenDigital(cfg->abc, dbfile, dbfmt, NULL, &(cfg->dbfp));
+  if      (status == eslENOTFOUND) esl_fatal("No such file %s", dbfile);
+  else if (status == eslEFORMAT)   esl_fatal("Format of seqfile %s unrecognized.", dbfile);
+  else if (status == eslEINVAL)    esl_fatal("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  /* Read info on each sequence */
+  cfg->db_nseq   = 0;
+  cfg->db_maxL   = 0;
+  while ((status = esl_sqio_ReadInfo(cfg->dbfp, sq)) == eslOK) {
+    cfg->db_maxL = ESL_MAX(sq->L, cfg->db_maxL);
+    cfg->db_nseq++;
+    esl_sq_Reuse(sq);
+  }
+  if (status != eslEOF) esl_fatal("Something went wrong with reading the seq db");
+
+  /* Open SSI index */
+  if (esl_sqfile_OpenSSI(cfg->dbfp, NULL) != eslOK) esl_fatal("Failed to open SSI index file");
+  if (cfg->dbfp->data.ascii.ssi->nprimary != cfg->db_nseq)     esl_fatal("oops, nprimary != nseq");
+
+  esl_sq_Destroy(sq);
+  return eslOK;
+}
+
+
+/* Step 1. Label all sequence fragments < fragfrac of average raw length */
+static int
+remove_fragments(struct cfg_s *cfg, ESL_MSA *msa, ESL_MSA **ret_filteredmsa, int *ret_nfrags)
+{
+  int     *useme    = NULL;
+  double   len      = 0.0;
+  int      i;
+  int      nfrags;
+  int      status;
+
+  for (i = 0; i < msa->nseq; i++) 
+    len += esl_abc_dsqrlen(msa->abc, msa->ax[i]);
+  len *= cfg->fragfrac / (double) msa->nseq;
+
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+  for (nfrags = 0, i = 0; i < msa->nseq; i++) 
+    useme[i] = (esl_abc_dsqrlen(msa->abc, msa->ax[i]) < len) ? 0 : 1;
+
+  if ((status = esl_msa_SequenceSubset(msa, useme, ret_filteredmsa)) != eslOK) goto ERROR;
+  *ret_nfrags = msa->nseq - esl_vec_ISum(useme, msa->nseq);
+
+  free(useme);
+  return eslOK;
+
+ ERROR:
+  if (useme != NULL) free(useme); 
+  *ret_filteredmsa = NULL;
+  return status;
+}
+
+/* Step 2. Extract the training set and test set.
+ */
+static int
+separate_sets(struct cfg_s *cfg, ESL_MSA *msa, ESL_MSA **ret_trainmsa, ESL_STACK **ret_teststack)
+{      
+  ESL_MSA   *trainmsa  = NULL;
+  ESL_MSA   *test_msa  = NULL;
+  ESL_STACK *teststack = NULL;
+  ESL_SQ    *sq        = NULL;
+  int *assignment = NULL;
+  int *nin        = NULL;
+  int *useme      = NULL;
+  int  nc         = 0;
+  int  c;
+  int  ctrain;			/* index of the cluster that becomes the training alignment */
+  int  ntrain;			/* number of seqs in the training alignment */
+  int  nskip;
+  int  i;
+  int  status;
+
+  if ((teststack = esl_stack_PCreate()) == NULL) { status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(useme, sizeof(int) * msa->nseq);
+
+  if ((status = esl_msacluster_SingleLinkage(msa, cfg->idthresh1, &assignment, &nin, &nc)) != eslOK) goto ERROR;
+  ctrain = esl_vec_IArgMax(nin, nc);
+  ntrain = esl_vec_IMax(nin, nc);
+
+  for (i = 0; i < msa->nseq; i++) useme[i] = (assignment[i] == ctrain) ? 1 : 0;
+  if ((status = esl_msa_SequenceSubset(msa, useme, &trainmsa)) != eslOK) goto ERROR;
+
+  /* If all the seqs went into the training msa, none are left for testing; we're done here */
+  if (trainmsa->nseq == msa->nseq) {
+    free(useme);
+    free(assignment);
+    free(nin);
+    *ret_trainmsa  = trainmsa;
+    *ret_teststack = teststack;
+    return eslOK;
+  }
+
+  /* Put all the other sequences into an MSA of their own; from these, we'll
+   * choose test sequences.
+   */
+  for (i = 0; i < msa->nseq; i++) useme[i] = (assignment[i] != ctrain) ? 1 : 0;
+  if ((status = esl_msa_SequenceSubset(msa, useme, &test_msa))                             != eslOK) goto ERROR;
+
+  /* Cluster those test sequences. */
+  free(nin);         nin        = NULL;
+  free(assignment);  assignment = NULL;
+  if ((status = esl_msacluster_SingleLinkage(test_msa, cfg->idthresh2, &assignment, &nin, &nc)) != eslOK) goto ERROR;
+  for (c = 0; c < nc; c++)
+    {
+      nskip = esl_rnd_Roll(cfg->r, nin[c]); /* pick a random seq in this cluster to be the test. */
+      for (i=0; i < test_msa->nseq; i++)
+	if (assignment[i] == c) {
+	  if (nskip == 0) {
+	    esl_sq_FetchFromMSA(test_msa, i, &sq);
+	    esl_stack_PPush(teststack, (void *) sq);
+	    break;
+	  } else nskip--;
+	}
+    }
+
+  esl_msa_Destroy(test_msa);
+  free(useme);
+  free(nin);
+  free(assignment);
+
+  *ret_trainmsa  = trainmsa;
+  *ret_teststack = teststack;
+  return eslOK;
+
+ ERROR:
+  if (useme      != NULL) free(useme);
+  if (assignment != NULL) free(assignment);
+  if (nin        != NULL) free(nin);
+  esl_msa_Destroy(trainmsa); 
+  esl_msa_Destroy(test_msa); 
+  while (esl_stack_PPop(teststack, (void **) &sq) == eslOK) esl_sq_Destroy(sq);
+  esl_stack_Destroy(teststack);
+  *ret_trainmsa  = NULL;
+  *ret_teststack = NULL;
+  return status;
+}
+
+
+/* Each test sequence will contain one or two domains, depending on whether --single is set.
+ */
+static int
+synthesize_positives(ESL_GETOPTS *go, struct cfg_s *cfg, char *testname, ESL_STACK *teststack, int *ret_ntest)
+{
+  ESL_SQ *domain1, *domain2;
+  ESL_SQ *sq;
+  void   *p;
+  int64_t L;			/* total length of synthetic test seq */
+  int     d1n, d2n;		/* lengths of two domains             */
+  int     L1,L2,L3;		/* lengths of three random regions    */
+  int     i,j;
+  int     ntest = 0;
+  int     ndomains = ( (esl_opt_GetBoolean(go, "--single") == TRUE) ? 1 : 2);
+  int     status;
+
+  while (esl_stack_ObjectCount(teststack) >= ndomains)
+    {
+      ESL_RALLOC(cfg->test_lens, p, (cfg->ntest+1) * sizeof(struct testseq_s));
+
+      /* Pop our one or two test domains off the stack */
+      esl_stack_PPop(teststack, &p);   
+      domain1 = p; 
+      d1n     = domain1->n;
+
+      if (ndomains == 2)
+	{
+	  esl_stack_PPop(teststack, &p); 
+	  domain2 = p;
+	  d2n = domain2->n;
+	}
+      else
+	{
+	  domain2 = NULL;
+	  d2n     = 0;
+	}
+
+      /* Select a random total sequence length */
+      if (d1n+d2n > cfg->db_maxL) esl_fatal("can't construct test seq; no db seq >= %d residues\n", d1n+d2n);
+      do {                                                     
+	if (esl_ssi_FindNumber(cfg->dbfp->data.ascii.ssi, esl_rnd_Roll(cfg->r, cfg->db_nseq), NULL, NULL, NULL, &L, NULL) != eslOK)
+	  esl_fatal("failed to look up a random seq");
+      } while (L < d1n+d2n);
+
+      /* Now figure out the embedding */
+      if (ndomains == 2) 
+	{
+	  /* Select random lengths of three flanking domains;
+	   * Imagine picking two "insert after" points i,j in sequence 1..L', for
+	   * L' = L-d1n-d2n (the total length of nonhomologous test seq)
+	   */
+	  do {
+	    i = esl_rnd_Roll(cfg->r, L - d1n - d2n + 1 ); /* i = 0..L' */
+	    j = esl_rnd_Roll(cfg->r, L - d1n - d2n + 1 ); /* j = 0..L' */
+	  } while (i > j);
+
+	  /* now 1           .. i         = random region 1 (if i==0, there's none); 
+	   *     i+1         .. i+d1n     = domain 1
+	   *     i+d1n+1     .. j+d1n     = random region 2 (if i==j, there's none);
+	   *     j+d1n+1     .. j+d1n+d2n = domain 2
+	   *     j+d1n+d2n+1 .. L         = random region 3 (if j == L-d1n-d2n, there's none);
+	   */
+	  L1 = i;			
+	  L2 = j-i;
+	  L3 = L - d1n - d2n - j;
+	}
+      else 
+	{ /* embedding one domain */
+	  i = esl_rnd_Roll(cfg->r, L - d1n + 1 ); /* i = 0..L' */
+	  /* now 1           .. i         = random region 1 (if i==0, there's none); 
+	   *     i+1         .. i+d1n     = domain 1
+	   *     i+d1n+1     .. L         = random region 2 (if i==j, there's none);
+	   */
+	  L1 = i;			
+	  L2 = L - d1n - L1;
+	  L3 = 0;
+	}
+      
+      sq = esl_sq_CreateDigital(cfg->abc);
+      esl_sq_GrowTo(sq, L);
+      sq->n = L;
+      if (ndomains == 2) 
+	{
+	  esl_sq_FormatName(sq, "%s/%d/%d-%d/%d-%d", testname, cfg->ntest, i+1, i+d1n, j+d1n+1, j+d1n+d2n);
+	  esl_sq_FormatDesc(sq, "domains: %s %s", domain1->name, domain2->name);
+	}
+      else
+	{
+	  esl_sq_FormatName(sq, "%s/%d/%d-%d",   testname, cfg->ntest, i+1, i+d1n);
+	  esl_sq_FormatDesc(sq, "domain: %s", domain1->name);
+	}
+
+      fprintf(cfg->possummfp, "%-35s %5d %5d %5d %5d %5d %5d", sq->name, (int) sq->n, L1, d1n, L2, d2n, L3);
+
+
+      sq->dsq[0] = sq->dsq[L+1] = eslDSQ_SENTINEL;
+      set_random_segment(go, cfg, cfg->possummfp, sq->dsq+1,           L1);
+      memcpy(sq->dsq+i+1,     domain1->dsq+1, sizeof(ESL_DSQ) * d1n);
+      fprintf(cfg->possummfp, " %-24s %5d %5d", domain1->name, 1, d1n);
+      set_random_segment(go, cfg, cfg->possummfp, sq->dsq+i+d1n+1,     L2);
+      if (ndomains == 2) 
+	{
+	  memcpy(sq->dsq+j+d1n+1, domain2->dsq+1, sizeof(ESL_DSQ) * d2n);
+	  fprintf(cfg->possummfp, " %-24s %5d %5d", domain2->name, 1, d2n);
+	  set_random_segment(go, cfg, cfg->possummfp, sq->dsq+j+d1n+d2n+1, L3);
+	}
+      fprintf(cfg->possummfp, "\n");
+
+      cfg->test_lens[cfg->ntest].L   = L;
+      cfg->test_lens[cfg->ntest].L1  = L1;
+      cfg->test_lens[cfg->ntest].d1n = d1n;
+      cfg->test_lens[cfg->ntest].L2  = L2;
+      cfg->test_lens[cfg->ntest].d2n = d2n;
+      cfg->test_lens[cfg->ntest].L3  = L3;
+      cfg->ntest++;
+      ntest++;
+
+      esl_sqio_Write(cfg->out_seqfp, sq, eslSQFILE_FASTA, FALSE);
+
+      esl_sq_Destroy(domain1);
+      if (ndomains == 2) esl_sq_Destroy(domain2);
+      esl_sq_Destroy(sq);
+    }
+
+  *ret_ntest = ntest;
+  return eslOK;
+
+ ERROR:
+  esl_fatal("Failure in synthesize_positives");
+  return status;
+}
+
+
+static int
+synthesize_negatives(ESL_GETOPTS *go, struct cfg_s *cfg, int nneg)
+{
+  ESL_SQ *sq = esl_sq_CreateDigital(cfg->abc);
+  int     a;
+  int     i;
+  int     L1,L2,L3,d1n,d2n;
+
+  for (i = 0; i < nneg; i++)
+    {
+      /* Select a random test seq, to use its same segments */
+      a = esl_rnd_Roll(cfg->r, cfg->ntest);
+
+      L1  = cfg->test_lens[a].L1;
+      L2  = cfg->test_lens[a].L2;
+      L3  = cfg->test_lens[a].L3;
+      d1n = cfg->test_lens[a].d1n;
+      d2n = cfg->test_lens[a].d2n;
+
+      esl_sq_GrowTo(sq, cfg->test_lens[a].L);
+
+      esl_sq_FormatName(sq, "decoy%d", i+1);
+      esl_sq_FormatDesc(sq, "L=%d in segments: %d/%d/%d/%d/%d", cfg->test_lens[a].L, L1, d1n, L2, d2n, L3);
+      sq->n = cfg->test_lens[a].L;
+
+      fprintf(cfg->negsummfp, "%-15s %5d %5d %5d %5d %5d %5d", 
+	      sq->name, (int) sq->n,
+	      L1, d1n, L2, d2n, L3);
+
+      sq->dsq[0] = sq->dsq[cfg->test_lens[a].L+1] = eslDSQ_SENTINEL;
+      set_random_segment(go, cfg, cfg->negsummfp, sq->dsq+1,               L1);
+      set_random_segment(go, cfg, cfg->negsummfp, sq->dsq+1+L1,            d1n);
+      set_random_segment(go, cfg, cfg->negsummfp, sq->dsq+1+L1+d1n,        L2);
+      set_random_segment(go, cfg, cfg->negsummfp, sq->dsq+1+L1+d1n+L2,     d2n);
+      set_random_segment(go, cfg, cfg->negsummfp, sq->dsq+1+L1+d1n+L2+d2n, L3);
+
+      fprintf(cfg->negsummfp, "\n");
+  
+      esl_sqio_Write(cfg->out_seqfp, sq, eslSQFILE_FASTA, FALSE);
+
+      esl_sq_Reuse(sq);
+    }
+
+  esl_sq_Destroy(sq);
+  return eslOK;
+}
+
+/* Fetch in a random sequence of length <L> from the the pre-digitized
+ * concatenated sequence database, select a random subseq, shuffle it
+ * by the chosen algorithm; set dsq[1..L] to the resulting randomized
+ * segment.
+ * 
+ * If <logfp> is non-NULL, append one or more "<sqname> <from> <to>"
+ * fields to current line, to record where the random segment was
+ * selected from. This is useful in cases where we want to track back
+ * the origin of a high-scoring segment, in case the randomization
+ * wasn't good enough to obscure the identity of a segment.
+ * 
+ */
+static int
+set_random_segment(ESL_GETOPTS *go, struct cfg_s *cfg, FILE *logfp, ESL_DSQ *dsq, int L)
+{
+  ESL_SQ  *sq           = esl_sq_CreateDigital(cfg->abc);
+  int      minDPL       = esl_opt_GetInteger(go, "--minDPL");
+  int      db_dependent = (esl_opt_GetBoolean(go, "--iid") == TRUE ? FALSE : TRUE);
+  char    *pkey         = NULL;
+  int      start, end;
+  int64_t  Lseq;
+  int      status = eslOK;
+
+  if (L==0) return eslOK;
+  if (L > cfg->db_maxL) esl_fatal("can't fetch a segment of length %d; database max is %d\n", L, cfg->db_maxL);
+
+  /* fetch a random subseq from the source database */
+  esl_sq_GrowTo(sq, L);
+  if (db_dependent) 
+    {
+      do {                                                     
+	if (pkey != NULL) free(pkey);
+	if (esl_ssi_FindNumber(cfg->dbfp->data.ascii.ssi, esl_rnd_Roll(cfg->r, cfg->db_nseq), NULL, NULL, NULL, &Lseq, &pkey) != eslOK)
+	  esl_fatal("failed to look up a random seq");
+      } while (Lseq < L);
+
+      start = 1 + esl_rnd_Roll(cfg->r, Lseq-L);              
+      end   = start + L - 1;
+      if (esl_sqio_FetchSubseq(cfg->dbfp, pkey, start, end, sq) != eslOK) esl_fatal("failed to fetch subseq");
+      esl_sq_ConvertDegen2X(sq);
+    }
+
+  /* log sequence source info: <name> <start> <end> */
+  if (logfp != NULL && db_dependent) 
+    fprintf(logfp, " %-15s %5d %5d", pkey, start, end); 
+
+  /* Now apply the appropriate randomization algorithm */
+  if      (esl_opt_GetBoolean(go, "--mono"))    status = esl_rsq_XShuffle  (cfg->r, sq->dsq, L, sq->dsq);
+  else if (esl_opt_GetBoolean(go, "--di")) {
+    if (L < minDPL)                             status = esl_rsq_XShuffle  (cfg->r, sq->dsq, L, sq->dsq);
+    else                                        status = esl_rsq_XShuffleDP(cfg->r, sq->dsq, L, cfg->abc->Kp, sq->dsq);
+  } 
+  else if (esl_opt_GetBoolean(go, "--markov0")) status = esl_rsq_XMarkov0  (cfg->r, sq->dsq, L, cfg->abc->Kp, sq->dsq);
+  else if (esl_opt_GetBoolean(go, "--markov1")) status = esl_rsq_XMarkov1  (cfg->r, sq->dsq, L, cfg->abc->Kp, sq->dsq);
+  else if (esl_opt_GetBoolean(go, "--reverse")) status = esl_rsq_XReverse  (sq->dsq, L, sq->dsq);
+  else if (esl_opt_GetBoolean(go, "--iid"))     status = esl_rsq_xIID      (cfg->r, cfg->fq, cfg->abc->K, L, sq->dsq);
+  if (status != eslOK) esl_fatal("esl's shuffling failed");
+
+  memcpy(dsq, sq->dsq+1, sizeof(ESL_DSQ) * L);
+  esl_sq_Destroy(sq);
+  free(pkey);
+  return eslOK;
+}
+  
+
+static void
+msa_select_topn(ESL_MSA **msaptr, int n)
+{
+  ESL_MSA *new;
+  int     *useme;
+  int      i;
+
+  if (n >= (*msaptr)->nseq) return;
+
+  useme = malloc(sizeof(int) * (*msaptr)->nseq);
+  for (i = 0; i < n;               i++) useme[i] = TRUE;
+  for (     ; i < (*msaptr)->nseq; i++) useme[i] = FALSE;
+
+  if ( esl_msa_SequenceSubset(*msaptr, useme, &new) != eslOK) esl_fatal("esl_msa_SequenceSubset() failed");
+
+  free(useme);
+  esl_msa_Destroy(*msaptr);
+  *msaptr = new;
+  return;
+}
+
+/* select the top n test domains, to apply the --maxtest limit.
+ *    if n > size of stack, leave stack untouched and return.
+ *    stack order should first be shuffled.
+ */
+static void
+pstack_select_topn(ESL_STACK **stackptr, int n)
+{
+  ESL_STACK *new;
+  int        i;
+
+  if (n > (*stackptr)->n) return;
+  
+  new = esl_stack_PCreate();
+  for (i = n-1; i >= 0; i--)
+    esl_stack_PPush(new, (*stackptr)->pdata[i]);
+  esl_stack_Destroy(*stackptr);
+  *stackptr = new;
+  return;
+}
+  
+    
+
+static void
+write_pids(FILE *pidfp, ESL_MSA *origmsa, ESL_MSA *trainmsa, ESL_STACK *teststack)
+{
+  int     i,j;
+  double  pid;
+  int     iidx, jidx;
+
+  for (i = 0; i < trainmsa->nseq; i++)
+    {
+      if ( esl_keyhash_Lookup(origmsa->index, trainmsa->sqname[i], -1, &iidx) != eslOK)
+	esl_fatal("failed to find training seq %s in original MSA", trainmsa->sqname[i]);
+
+      for (j = 0; j < teststack->n; j++) /* traverse test seq stack without destroying/popping */
+	{
+	  ESL_SQ *sq = (ESL_SQ *) teststack->pdata[j];
+
+	  if ( esl_keyhash_Lookup(origmsa->index, sq->name, -1, &jidx) != eslOK)
+	    esl_fatal("failed to find test domain %s in original MSA", sq->name);
+
+	  esl_dst_XPairId(origmsa->abc, origmsa->ax[iidx], origmsa->ax[jidx], &pid, NULL, NULL);
+
+	  fprintf(pidfp, "%-20s %-24s %-24s %4.1f\n", origmsa->name, origmsa->sqname[iidx], origmsa->sqname[jidx], pid*100.0);
+	}
+    }
+}
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/profmark/create-profmark.c $
+ * SVN $Id: create-profmark.c 3267 2010-05-14 17:27:36Z eddys $
+ *****************************************************************/
+
+  
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/pmark-master.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/pmark-master.pl
new file mode 100755
index 0000000..44c4b8f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/pmark-master.pl
@@ -0,0 +1,99 @@
+#! /usr/bin/perl -w
+
+# The top level script that runs a pmark benchmark.
+#
+# Usage:
+#   ./pmark-master.pl <top_builddir> <top_srcdir> <resultdir> <nproc> <benchmark prefix> <benchmark script>
+# 
+# <top_builddir>: Top level directory for finding executables to
+#    be benchmarked. This is passed on to the <benchmark script>
+#    without modification. How the script uses it will depend
+#    on where the executables are expected to be found, relative
+#    to this top level directory. For example, for HMMER3 benchmarks,
+#    we might pass ~/releases/hmmer-release/build-icc or
+#    ~/releases/hmmer-3.0xx/build-icc for testing a release candidate
+#    or an existing release.
+#
+# <top_srcdir>: Top level directory for finding scripts or data files.
+#    This too will simply be passed on to the <benchmark script>
+#    without modification.  For example, for HMMER benchmarks, we
+#    might pass ~/releases/hmmer-release/ or ~/releases/hmmer-3.0xx.
+#    For installed packages like BLAST, it's likely that <top_srcdir>
+#    would be the same as <top_builddir>, because we will not have
+#    multiple build directories.
+#
+# <resultdir>: A directory for holding all <nproc> temporary files
+#   created by the benchmark. This name should be short and unique;
+#   it will also be used to construct job names on the cluster, as
+#   <resultdir.$i>.
+#
+# <nproc>: how many processes to parallelize over in our cluster.
+#
+# <benchmark prefix>:  The script will look for files <prefix>.tbl,
+#    <prefix>.msa, and <prefix>.fa, defining a PMARK benchmark set.
+#
+# <benchmark script>: This script is executed on each of <nproc>
+#    processes, on an appropriately constructed subset of the 
+#    benchmark queries.
+#
+#    It must take the following arguments:
+#    <top_builddir> <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+#
+# Examples of HMMER3 benchmark:
+#   ./pmark-master.pl ~/releases/hmmer-release/build-icc ~/releases/hmmer-release h3-results    100 pmark ./pmark-h3
+#   ./pmark-master.pl ~/releases/hmmer-release/build-icc ~/releases/hmmer-release h2-results-ls 100 pmark ./pmark-h2-ls
+#   ./pmark-master.pl ~/releases/hmmer-release/build-icc ~/releases/hmmer-release h2-results-fs 100 pmark ./pmark-h2-fs
+#
+
+$top_builddir  = shift;
+$top_srcdir    = shift;
+$resultdir     = shift;
+$ncpu          = shift;
+$benchmark_pfx = shift;
+$pmark_script  = shift;
+
+$tbl          = "$benchmark_pfx.tbl";
+$msafile      = "$benchmark_pfx.msa";
+$fafile       = "$benchmark_pfx.fa";
+
+if (-e $resultdir) { die("$resultdir exists");}
+system("mkdir $resultdir");
+
+# Suck in the master table
+open(BENCHMARK_TBL, $tbl) || die;
+$n    = 0;
+$pid  = 0;
+$nseq = 0;
+while (<BENCHMARK_TBL>) 
+{
+    ($msaname[$n], $pid, $L, $nseq) = split;
+    $alen{$msaname[$n]} = $L;
+    $n++;
+}
+close BENCHMARK_TBL;
+
+# Sort it by alen - this helps load balance.
+sub by_alen { $alen{$b} <=> $alen{$a} }
+@sorted_msaname = sort by_alen @msaname;
+
+# Create <ncpu> subtables.
+for ($i = 0; $i < $n; $i++)
+{
+    $subtbl[$i % $ncpu] .= $sorted_msaname[$i];
+    $subtbl[$i % $ncpu] .= "\n";
+}
+
+# Output the <ncpu> subtables
+for ($i = 0; $i < $ncpu; $i++)
+{
+    open(SUBTBL, ">$resultdir/tbl.$i") || die ("Failed to create $resultdir/tbl.$i");
+    print SUBTBL $subtbl[$i];
+    close SUBTBL;
+}
+
+# Submit all the individual profmark jobs
+for ($i = 0; $i < $ncpu; $i++)
+{
+   system("qsub -V -cwd -b y -N $resultdir.$i -j y -o $resultdir/tbl$i.sge '$pmark_script $top_builddir $top_srcdir $resultdir $resultdir/tbl.$i $msafile $fafile $resultdir/tbl$i.out'");
+}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/pmark.param b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/pmark.param
new file mode 100755
index 0000000..7df2887
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/pmark.param
@@ -0,0 +1,20 @@
+with g0
+autoscale onread none
+world xmin 0.00063
+world xmax 10
+world ymin 0
+world ymax 1
+xaxes scale Logarithmic
+xaxis offset 0.0, 0.0
+xaxis label "mean false positives per search"
+xaxis tick major 10
+xaxis tick minor ticks 9
+xaxis tick out
+yaxis offset 0.0, 0.0
+yaxis label "fractional coverage of true positives"
+yaxis tick major 0.1
+yaxis tick minor ticks 9
+yaxis tick out
+s0 line type 1
+s0 line linewidth 2.0
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/rocplot.c b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/rocplot.c
new file mode 100755
index 0000000..d2773c1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/rocplot.c
@@ -0,0 +1,540 @@
+/* Summarizing results of a benchmark by plotting a ROC-like plot,
+ * including confidence intervals derived by Bayesian bootstrapping.
+ * 
+ * The <.out file> from a profmark benchmark consists of lines:
+ *     <E-value> <bitscore> <target_sequence> <query_model>
+ * Target sequence names are either
+ *   decoy\d+                    for negatives (decoys); example: decoy75382
+ *   <model>/<#>[/<to>-<from>]+  for positives;          example: CHP02677/42/297-773/781-1257
+ *    
+ * The <.out> file (or stream) must be sorted by E-value, with best
+ * (lowest) E-values first.
+ *   
+ * The format of these names is important - true/false
+ * positive/negatives are classified by matching query model name to
+ * the format of the target sequence name. A hit is a positive if
+ * <query_model> matches the <model> component of the target name -
+ * i.e. the embedded domains in the target are homologous to this
+ * query. A hit is a negative if the target name matches /decoy\d+/.
+ * A hit is ignored if the target contains domains (isn't a decoy) but
+ * <query_model> doesn't match <model>.
+ * 
+ * The program also needs to find the query, positive, and negative
+ * tables for the benchmark that was run. It looks for these by
+ * appending ".tbl", ".neg", and ".pos" to the <pmark> argument;
+ * that is:
+ *   <pmark>.tbl contains one line per query: 1st field is name of query
+ *   <pmark>.pos contains one line per positive: 1st field is name of sequence
+ *   <pmark>.neg contains one line per decoy: 1st field is name of decoy
+ *   
+ * The program calculates a plot of fractional coverage of the positives
+ * (on the Y-axis; range 0..1) versus errors per query (on the X-axis; 
+ * ranging from 1/(# of models) to 10.0 by default). 
+ * 
+ * The default output is an XMGRACE xydydy file, with points
+ * representing mean coverage in the bootstrap samples, and error bars
+ * representing a 95% confidence interval.
+ *
+ * A typical command line, after having run a benchmark on "pmark" under
+ * MPI with many output files:
+ * 
+ *    cat *.out | sort -g | ./rocplot pmark - > results.xy
+ *    xmgrace -settype xydydy results.xy
+ *   
+ * SRE, Wed Jun 18 13:37:31 2008 [Janelia]
+ * SVN $Id: rocplot.c 3546 2011-05-23 14:36:44Z eddys $  
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_dirichlet.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_random.h"
+#include "esl_stats.h"
+#include "esl_vectorops.h"
+
+
+static char banner[] = "construct a ROC plot of profmark results, using Bayesian bootstrapping";
+static char usage[]  = "[options] <profmark_basename> <.out file>\n";
+
+static ESL_OPTIONS options[] = {
+  /* name       type        default env   range togs  reqs  incomp      help                                          docgroup */
+  { "-h",       eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL, NULL, "help; show brief info on version and usage",           1 },
+  { "-a",       eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL, NULL, "all: plot all bootstrap samples individually",         1 },
+  { "-n",       eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL, NULL, "plot original data, without any bootstrapping",        1 },
+  { "-s",       eslARG_NONE,  FALSE, NULL, NULL, NULL,NULL, NULL, "plot error bars by std. dev. not confidence interval", 1 },
+  { "-N",       eslARG_INT,   "500", NULL, NULL, NULL,NULL, NULL, "number of bootstrap samples to take",                  1 },
+  { "--min",    eslARG_REAL,   NULL, NULL, NULL, NULL,NULL, NULL, "set minimum x-axis value (FPs/query) to plot",         1 },
+  { "--max",    eslARG_REAL,  "10.", NULL, NULL, NULL,NULL, NULL, "set maximum x-axis value (FPs/query) to plot",         1 },
+  { "--steps",  eslARG_INT,    "10", NULL, NULL, NULL,NULL, NULL, "set number of steps to plot per 10x on x-axis",        1 },
+  { "--seed",   eslARG_INT,   FALSE, NULL,"n>0", NULL,NULL, NULL, "set random number generator's seed to <n>",            1 },
+  { "--nsd",    eslARG_REAL,   "3.", NULL,"x>0", NULL,"-s", NULL, "how many std.dev.'s big error bars should be",         1 },
+  { "--interval", eslARG_REAL,"0.95",NULL,"0<=x<=1",NULL,NULL,"-s", "confidence interval width for error bars",           1 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+
+/* The FP/query x-axis is discretized into <nxpts> points, evenly spaced on a log scale.
+ *
+ * To calculate FP/query threshold for a point i: 10^{ (base+i) / nsteps }
+ * To convert a FP/query value x to a bin i:      ceil(log10(x) * nsteps)
+ */
+struct oneplot_s {
+  double *tp;			/* yaxis values, [0..nxpts-1]; # of TPs <= given FP/query on x-axis */
+  int     base;                 /* scaled integer offset of bin #0 in tp */
+  int     nsteps;		/* resolution of logarithmic x-axis: # of evenly spaced points per 10x */
+  int     nxpts;		/* total # of points on axis */
+  double  totalpos;		/* total # of positives possible in this bootstrap sample */
+};
+
+struct result_s {
+  double E;			/* E-value */
+  int    qidx;			/* index of query  */
+  int    tidx; 			/* index of target seq: 0..npos-1 for positives; npos..npos+nneg-1 for negatives */
+  int    class;			/* +1 = positive; -1 = negative; 0 = ignore   */
+};
+
+
+
+static int    parse_tblfile(char *tblfile, ESL_KEYHASH *kh);
+static int    parse_results(char *resfile, int **pni, ESL_KEYHASH *modelkh, ESL_KEYHASH *poskh, ESL_KEYHASH *negkh, struct result_s **ret_r, int *ret_nr);
+static int    classify_pair_by_names(const char *query, const char *target);
+static double weighted_total_positives(int **pni, double *queryp, int nq, double *seqp, int npos, int nseq);
+static struct oneplot_s *create_plot(ESL_GETOPTS *go, int nq);
+static void   destroy_plot(struct oneplot_s *plot);
+static void   make_plot(struct result_s *rp, int nr, int **pni, double *queryp, int nq, double *seqp, int nseq, int npos, 
+			struct oneplot_s *plot);
+static void   write_plot(FILE *fp, struct oneplot_s *plot);
+static void   summary_graph(ESL_GETOPTS *go, FILE *fp, struct oneplot_s *plot, double **yv);
+
+
+static void
+cmdline_failure(char *argv0, char *format, ...)
+{
+  va_list argp;
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\n where options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  exit(0);
+}
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go        = NULL;
+  ESL_KEYHASH  *qkh       = esl_keyhash_Create();
+  ESL_KEYHASH  *poskh     = esl_keyhash_Create();
+  ESL_KEYHASH  *negkh     = esl_keyhash_Create();
+  ESL_RANDOMNESS *r       = NULL;
+  char         *pmarkbase = NULL;
+  char         *negfile   = NULL;
+  char         *posfile   = NULL;
+  char         *modelfile = NULL;
+  char         *resfile   = NULL;
+  struct oneplot_s *plot  = NULL;
+  struct result_s  *rp    = NULL;
+  int             **pni   = NULL;
+  double          **yv    = NULL;	/* yv[0..nxpts-1][0..nboots-1]: vector of bootstrapped samples at each xaxis point */
+  int           nq, npos, nneg, nseq;
+  int           nresults  = 0;
+  int           nboots;
+  double       *queryp;
+  double       *seqp;
+  int           i,j;
+  int           xi;
+
+  /* Parse command line */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in app configuration:   %s\n", go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h"))                    cmdline_help(argv[0], go);
+  if (esl_opt_ArgNumber(go)                  != 2)     cmdline_failure(argv[0], "Incorrect number of command line arguments\n");
+  pmarkbase = esl_opt_GetArg(go, 1); 
+  resfile   = esl_opt_GetArg(go, 2);
+
+  nboots    = esl_opt_GetInteger(go, "-N");
+
+  /* Set up the RNG */
+  if (esl_opt_IsDefault(go, "--seed")) r = esl_randomness_CreateTimeseeded();
+  else                                 r = esl_randomness_Create(esl_opt_GetInteger(go, "--seed"));
+
+  /* Read the queries, positives, and decoys into hash tables, and count them. */
+  esl_FileNewSuffix(pmarkbase, "tbl", &modelfile);  parse_tblfile(modelfile, qkh);   free(modelfile);
+  esl_FileNewSuffix(pmarkbase, "pos", &posfile);    parse_tblfile(posfile,   poskh); free(posfile);  
+  esl_FileNewSuffix(pmarkbase, "neg", &negfile);    parse_tblfile(negfile,   negkh); free(negfile);
+  nq   = esl_keyhash_GetNumber(qkh);
+  npos = esl_keyhash_GetNumber(poskh);
+  nneg = esl_keyhash_GetNumber(negkh);
+  nseq = npos+nneg;
+
+  /* Create a [0..nq-1]x[0..pos-1] matrix preclassifying each pair as +1 (positive), -1 (negative), or 0 (ignore) */
+  if ((pni = malloc(sizeof(int *) * nq)) == NULL) esl_fatal("malloc failed");
+  for (i = 0; i < nq; i++) 
+    {
+      if ((pni[i] = malloc(sizeof(int) * npos)) == NULL) esl_fatal("malloc failed");
+      for (j = 0; j < npos; j++)
+	pni[i][j] = classify_pair_by_names(esl_keyhash_Get(qkh, i), esl_keyhash_Get(poskh, j));
+    }  
+
+  /* Read and code the .out file; assigning positives, negatives to the results */
+  parse_results(resfile, pni, qkh, poskh, negkh, &rp, &nresults);
+
+  /* Allocate for the bootstrap weights on queries, seqs */
+  if ((queryp = malloc(sizeof(double) * nq))    == NULL) esl_fatal("malloc failed");
+  if ((seqp   = malloc(sizeof(double) * nseq))  == NULL) esl_fatal("malloc failed");
+
+  /* In seqp, 0..npos-1 are the positives; npos..nseq-1 are the negatives.
+   * To convert a negative's key index to the nseq index, add npos to it.
+   */
+
+  /* Figure out the coordinate system for the plot's xaxis; then
+   * allocate for a single plot sample in <plot>, as well as for
+   * storing all the bootstrap results in <yv>. The <plot> 
+   * holds the information about the x coordinate system.
+   */
+  plot = create_plot(go, nq);
+
+  if ((yv       = malloc(sizeof(double *) * plot->nxpts)) == NULL) esl_fatal("malloc failed");
+  for (xi = 0; xi < plot->nxpts; xi++)
+    if ((yv[xi]   = malloc(sizeof(double *) * nboots)) == NULL) esl_fatal("malloc failed");
+
+
+  /* "Bayesian" bootstraps:  */
+  if (! esl_opt_GetBoolean(go, "-n"))
+    {
+      for (i = 0; i < nboots; i++)
+	{
+	  esl_dirichlet_DSampleUniform(r, nq,    queryp);
+	  esl_dirichlet_DSampleUniform(r, nseq,  seqp);
+
+	  make_plot(rp, nresults, pni, queryp, nq, seqp, nseq, npos, plot);
+      
+	  /* Plot or store this bootstrap sample. */      
+	  if (esl_opt_GetBoolean(go, "-a")) 
+	    write_plot(stdout, plot);
+	  else
+	    {
+	      for (xi = 0; xi < plot->nxpts; xi++) 
+		yv[xi][i] = plot->tp[xi] / plot->totalpos;
+	    }
+	}
+    }
+  else /* just plot the original data with no bootstraps */
+    {
+      make_plot(rp, nresults, pni, NULL, nq, NULL, nseq, npos, plot);
+      write_plot(stdout, plot);
+    }
+
+  /* Summarize the bootstraps */
+  if (! esl_opt_GetBoolean(go, "-a") && ! esl_opt_GetBoolean(go, "-n") )
+    summary_graph(go, stdout, plot, yv);
+
+  for (i = 0; i < nq; i++) free(pni[i]);
+  free(pni);
+  for (xi = 0; xi < plot->nxpts; xi++) free(yv[xi]);
+  free(yv);
+  destroy_plot(plot);
+  free(queryp);
+  free(seqp);
+  free(rp);
+  esl_keyhash_Destroy(negkh);
+  esl_keyhash_Destroy(poskh);
+  esl_keyhash_Destroy(qkh);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+
+
+static int
+parse_tblfile(char *tblfile, ESL_KEYHASH *kh)
+{
+  ESL_FILEPARSER *efp = NULL;
+  char           *tok = NULL;
+  int             toklen;
+
+  if (esl_fileparser_Open(tblfile, NULL, &efp) != eslOK) esl_fatal("failed to open pmark table %s", tblfile);
+  esl_fileparser_SetCommentChar(efp, '#');
+  
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (esl_fileparser_GetTokenOnLine(efp, &tok, &toklen) != eslOK) esl_fatal("failed to parse line %d of %s", efp->linenumber, tblfile);
+      if (esl_keyhash_Store(kh, tok, toklen, NULL)          != eslOK) esl_fatal("failed to add %s to seq index", tok);
+    }      
+  esl_fileparser_Close(efp);
+  return eslOK;
+}
+
+
+static int
+classify_pair_by_names(const char *query, const char *target)
+{
+  int qlen = strlen(query);
+  int tlen = strlen(target);
+  
+  if   (tlen > qlen && strncmp(query, target, qlen) == 0 && target[qlen] == '/') 
+    return 1;   /* this tests for <model> == <query_model> */
+  else if (strncmp(target, "decoy", 5) == 0) 
+    return -1;  /* or a decoy */
+  else
+    return 0;	/* ignore */
+}
+
+/* Given bootstrap sampled weights, calculate the maximum # of positives possible */
+static double
+weighted_total_positives(int **pni, double *queryp, int nq, double *seqp, int npos, int nseq)
+{
+  int    q, t;
+  double total_pos = 0.0;
+
+  for (q = 0; q < nq; q++)
+    for (t = 0; t < npos; t++)
+      if (pni[q][t] == 1) 
+	total_pos += queryp[q] * seqp[t];
+
+  return total_pos * nq * nseq;
+}
+
+
+/* The output files have format:
+ *   <E-value> <bitscore> <target_sequence> <query_model>
+ *
+ * Target sequence names are either
+ *   decoy\d+                    for negatives (decoys); example: decoy75382
+ *   <model>/<#>[/<to>-<from>]+  for positives;          example: CHP02677/42/297-773/781-1257
+ *   
+ * A hit is a positive if <query_model> matches the <model> component of the
+ * target name - i.e. the embedded domains in the target are homologous to this 
+ * query.
+ * 
+ * A hit is a negative if the target name matches /decoy\d+/.
+ * 
+ * A hit is ignored if the target contains domains (isn't a decoy) but <query_model>
+ * doesn't match <model>. 
+ * 
+ * This information is parsed digested here, such that each pairwise comparison
+ * is stored as:
+ *    qidx     : index of the query model
+ *    tidx     : index of the target sequence
+ *    E        : E-value of the comparison; results are already sorted on this
+ */
+static int
+parse_results(char *resfile, int **pni, ESL_KEYHASH *qkh, ESL_KEYHASH *poskh, ESL_KEYHASH *negkh, struct result_s **ret_r, int *ret_nr)
+{
+  ESL_FILEPARSER  *efp    = NULL;
+  char            *tok    = NULL;
+  char            *target = NULL;
+  char            *query  = NULL;
+  int              toklen;
+  int              qlen, tlen;
+  struct result_s *rp     = NULL;
+  int              ralloc = 0;
+  int              nr     = 0;
+
+  if (esl_fileparser_Open(resfile, NULL, &efp) != eslOK) esl_fatal("failed to open pmark results file %s", resfile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  if ((rp = malloc(sizeof(struct result_s) * 256)) == NULL) esl_fatal("malloc failed");
+  ralloc = 256;
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (nr == ralloc) {
+	if ((rp = realloc(rp, sizeof(struct result_s) * ralloc * 2)) == NULL) esl_fatal("realloc failed");
+	ralloc *= 2;
+      }
+
+      if (esl_fileparser_GetTokenOnLine(efp, &tok,    &toklen) != eslOK) esl_fatal("failed to parse line %d of %s", efp->linenumber, resfile); /* E-value => rp[nr].E */
+      rp[nr].E = atof(tok);
+      if (esl_fileparser_GetTokenOnLine(efp, &tok,    &toklen) != eslOK) esl_fatal("failed to parse line %d of %s", efp->linenumber, resfile); /* bit score ignored */
+      if (esl_fileparser_GetTokenOnLine(efp, &target, &tlen)   != eslOK) esl_fatal("failed to parse line %d of %s", efp->linenumber, resfile); /* target name; will be converted to an index */
+      if (esl_fileparser_GetTokenOnLine(efp, &query,  &qlen)   != eslOK) esl_fatal("failed to parse line %d of %s", efp->linenumber, resfile); /* query name; will be converted to an index */
+      if (esl_keyhash_Lookup(qkh, query, qlen, &(rp[nr].qidx)) != eslOK) esl_fatal("failed to find query model %s in hash", query);  /* query index */
+      rp[nr].class = classify_pair_by_names(query, target);
+
+      if (rp[nr].class == -1)		/* negatives: look up in negkh, and offset the index by npos */
+	{
+	  if (esl_keyhash_Lookup(negkh, target, tlen, &(rp[nr].tidx)) != eslOK) esl_fatal("failed to find target seq  %s in hash", target);	/* target index */
+	  rp[nr].tidx  += esl_keyhash_GetNumber(poskh);
+	}
+      else			/* positives/ignores: look up in poskh */
+	{
+	  if (esl_keyhash_Lookup(poskh, target, tlen, &(rp[nr].tidx)) != eslOK) esl_fatal("failed to find target seq  %s in hash", target);	/* target index */
+	}
+      nr++;
+    }
+
+  *ret_r  = rp;
+  *ret_nr = nr;
+  esl_fileparser_Close(efp);
+  return eslOK;
+}
+
+
+static struct oneplot_s *
+create_plot(ESL_GETOPTS *go, int nq)
+{
+  struct oneplot_s *plot;
+  double minfp, maxfp;
+  int    status;
+
+  ESL_ALLOC(plot, sizeof(struct oneplot_s));
+
+  if (esl_opt_IsDefault(go, "--min")) minfp = 1.0 / (double) nq;
+  else                                minfp = esl_opt_GetReal(go, "--min");
+
+  maxfp    = esl_opt_GetReal(go, "--max");
+  plot->nsteps = esl_opt_GetInteger(go, "--steps");
+  plot->base   = (int) floor(log10(minfp) * plot->nsteps);
+  plot->nxpts  = (int) ceil(log10(maxfp) * plot->nsteps) - plot->base + 1;
+
+  ESL_ALLOC(plot->tp, sizeof(double) * plot->nxpts);
+
+  return plot;
+
+ ERROR:
+  destroy_plot(plot);
+  return NULL;
+}
+
+static void
+destroy_plot(struct oneplot_s *plot)
+{
+  if (plot == NULL) return;
+  if (plot->tp != NULL) free(plot->tp);
+  free(plot);
+}
+
+
+/* Given the results <rp> [0..nr-1], 
+ *       positive/ignore classifications pni[0..nq-1][0..npos-1]
+ *       and bootstrap-sampled usage probabilities <queryp>, <seqp>,
+ *       and a plot axis <plot> to store results in;
+ * calculate a new ROC plot for this bootstrap sample,
+ * and store it in <plot->tp>.
+ * 
+ * As a special case, if <queryp> and/or <seqp> are NULL, calculate
+ * the ROC plot for the original data without bootstrapping.
+ */
+static void
+make_plot(struct result_s *rp, int nresults, int **pni, double *queryp, int nq, double *seqp, int nseq, int npos, 
+	  struct oneplot_s *plot)
+{
+  double weight;
+  int    xi, curr_xi;
+  double true_pos, false_pos;
+  int    j;
+
+  if (queryp != NULL && seqp != NULL) 
+    plot->totalpos = weighted_total_positives(pni, queryp, nq,  seqp, npos, nseq);
+  else
+    plot->totalpos = npos;
+
+  curr_xi  = 0;
+  true_pos = false_pos = 0.0;
+  
+  for (j = 0; j < nresults; j++)
+    {
+      if (queryp != NULL && seqp != NULL) 
+	weight = queryp[rp[j].qidx] * seqp[rp[j].tidx] * nseq * nq;
+      else
+	weight = 1.0;
+
+      if (rp[j].class == 1) 
+	{
+	  true_pos  += weight;
+	  plot->tp[curr_xi] = true_pos;
+	}
+      else if (rp[j].class == -1) 
+	{
+	  false_pos += weight / (double) nq;   /* FP/query */
+	  
+	  xi = (int) ceil(log10(false_pos) * plot->nsteps) - plot->base;
+
+	  if (xi > curr_xi) {
+	    for (curr_xi = curr_xi+1; curr_xi < xi && curr_xi < plot->nxpts; curr_xi++)
+	      plot->tp[curr_xi] = true_pos;
+	    
+	    if (curr_xi < plot->nxpts) plot->tp[curr_xi] = true_pos;
+	  }
+	}
+      if (curr_xi >= plot->nxpts) break;
+    }
+
+  /* Rarely, the plot won't have enough false positives to extend all the way to 
+   * the left extreme of the x-axis; make sure we propagate the last true_pos */
+  for (curr_xi++; curr_xi < plot->nxpts; curr_xi++)
+    plot->tp[curr_xi] = true_pos;
+}
+  
+
+static void
+write_plot(FILE *fp, struct oneplot_s *plot)
+{
+  int    xi;
+  double false_pos;
+
+  for (xi = 0; xi < plot->nxpts; xi++) 
+    {
+      false_pos = exp(log(10) * ((double) plot->base + (double) xi) / (double) plot->nsteps);
+      fprintf(fp, "%.5f %.5f\n", false_pos, plot->tp[xi] / plot->totalpos );
+    }
+  fprintf(fp, "&\n"); 
+}
+
+	  
+
+static void
+summary_graph(ESL_GETOPTS *go, FILE *fp, struct oneplot_s *plot, double **yv)
+{
+  int    nboots              = esl_opt_GetInteger(go, "-N");
+  int    by_stddev           = esl_opt_GetBoolean(go, "-s");
+  double confidence_interval = esl_opt_GetReal   (go, "--interval");
+  double nsd                 = esl_opt_GetReal   (go, "--nsd");
+  int    xi;
+  double false_pos;
+  double mean, var;
+  int    ntail;
+
+  for (xi = 0; xi < plot->nxpts; xi++)
+    {
+      false_pos = exp(log(10) * ((double) plot->base + (double) xi) / (double) plot->nsteps);
+      esl_stats_DMean(yv[xi], nboots, &mean, &var);
+
+      /* the dy's in xmgrace xydydy format are dy's, and in order upper, lower  */
+      if (by_stddev)
+	{
+	  fprintf(fp, "%.5f %.5f %.5f %.5f\n", false_pos, mean, nsd*sqrt(var), nsd*sqrt(var)); 
+	}
+      else
+	{
+	  esl_vec_DSortIncreasing(yv[xi], nboots);
+	  ntail = (int) ((double) nboots * (1.0 - confidence_interval) / 2.0);
+
+	  fprintf(fp, "%.5f %.5f %.5f %.5f\n", 
+		  false_pos, mean, 
+		  yv[xi][nboots-ntail] - mean,
+		  mean - yv[xi][ntail]);
+	}
+    }
+  fprintf(fp, "&\n");
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/rocplot.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/rocplot.pl
new file mode 100755
index 0000000..8db1d76
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/rocplot.pl
@@ -0,0 +1,41 @@
+#! /usr/bin/perl
+
+$nsearches = 2809;
+
+require "getopts.pl";
+&Getopts('n:X:x:');
+
+if ($opt_n) { $nsearches = $opt_n; }
+if ($opt_X) { 
+    open(EXCLUDEFILE,$opt_X) || die;
+    while (<EXCLUDEFILE>) {
+	if (/^\s*(\S+)/) { $nsearches--; $excluded{$1} = 1; }
+    }
+    close EXCLUDEFILE;
+}
+if ($opt_x) { $nsearches--; $excluded{$opt_x} = 1; }
+
+
+$fp = 0;
+$tp = 0;
+while (<>)
+{
+    ($Eval, $bitscore, $target, $query) = split;
+
+    if ($excluded{$query}) { next; }
+
+    if ($target =~ /^decoy\d+$/) # a false positive
+    {
+	$fp++;
+	printf("%.4f %d\n", $fp / $nsearches, $tp);
+    }
+
+    if ($target =~ /^$query\//)  # a true positive
+    {
+	$tp++;
+    }
+
+    if ($fp >= $nsearches * 10) { last; }
+}
+
+print "&\n";	
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-fasta b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-fasta
new file mode 100755
index 0000000..00a3466
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-fasta
@@ -0,0 +1,96 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for FASTA searches by FPS
+# (family-pairwise-search; best E-value of all individual queries).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-fasta-fps <top_builddir>          <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-fasta-fps /usr/local/fasta-36x2   ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+#        
+# SRE, Tue Apr 20 10:14:39 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_fasta;
+
+$fasta      = "${top_builddir}/bin/fasta36";
+$opts       = "-q";
+
+if (! -d $top_builddir)                                 { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $fasta)                                        { die "didn't find executable $fasta"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    %seen          = ();
+    %best_pval     = ();
+    %best_bitscore = ();
+
+    `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    # Extract a list of individual sequence names from the multiple alignment.
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat -a $wrkdir/$msaname.sto\n"; next MSA; }
+
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+
+    # Loop over each query; blast; accumulate best pval for each target
+    foreach $qname (@qnames) 
+    {
+	$output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+	if ($?) { print "FAILED: esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname\n"; next MSA; }
+
+	if (! open(FASTA, "$fasta $opts $wrkdir/$msaname.query.fa $fafile |")) {
+	    print "FAILED: $fasta $opts $wrkdir/$msaname.query.fa $fafile |\n"; next MSA;
+	}
+	
+	if (! demotic_fasta::parse(\*FASTA)) {
+	    print "FAILED: demotic parser for fasta output\n"; next MSA; 
+	}
+	
+	for ($i = 0; $i < $demotic_fasta::nhits; $i++)
+	{
+	    $target   = $demotic_fasta::hit_target[$i];
+	    $pval     = $demotic_fasta::hit_Eval[$i];
+	    $bitscore = $demotic_fasta::hit_bitscore[$i];
+
+	    if (! $seen{$target} || $pval < $best_pval{$target})
+	    { 		
+		$seen{$target}          = 1;
+		$best_pval{$target}     = $pval; 
+		$best_bitscore{$target} = $bitscore; 
+	    }
+	}
+	close FASTA;
+    }
+    
+    # Append to the outfile.
+    foreach $target (keys(%seen)) 
+    {
+	printf OUTFILE "%g %.1f %s %s\n", $best_pval{$target}, $best_bitscore{$target}, $target, $msaname;
+    }
+
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.query.fa";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ncbiblast b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ncbiblast
new file mode 100755
index 0000000..ff30141
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ncbiblast
@@ -0,0 +1,96 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for NCBI BLASTP searches by FPS
+# (family-pairwise-search; best E-value of all individual queries).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-ncbiblast-fps <top_builddir>          <top_srcdir>       <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-ncbiblast-fps /usr/local/blast-2.2.22 ~/src/hmmer/trunk  testdir     test.tbl  pmark.msa test.fa  test.out
+#        
+# SRE, Tue Apr 20 08:29:03 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$blastp      = "${top_builddir}/bin/blastall";
+$blastopts   = "-p blastp -a 1 -v 9999 -b 0";
+
+if (! -d $top_builddir)                                 { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $blastp)                                       { die "didn't find executable $blastp"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    %seen          = ();
+    %best_pval     = ();
+    %best_bitscore = ();
+
+    `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    # Extract a list of individual sequence names from the multiple alignment.
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat -a $wrkdir/$msaname.sto\n"; next MSA; }
+
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+
+    # Loop over each query; blast; accumulate best pval for each target
+    foreach $qname (@qnames) 
+    {
+	$output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+	if ($?) { print "FAILED: esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname\n"; next MSA; }
+
+	if (! open(BLASTP, "$blastp -d $fafile -i $wrkdir/$msaname.query.fa $blastopts |")) {
+	    print  "FAILED: $blastp -d $fafile -i $wrkdir/$msaname.query.fa $blastopts |\n"; next MSA;
+	}
+	
+	if (! demotic_blast::parse(\*BLASTP)) {
+	    print "FAILED: demotic parser for blastp output\n"; next MSA; 
+	}
+	
+	for ($i = 0; $i < $demotic_blast::nhits; $i++)
+	{
+	    $target   = $demotic_blast::hit_target[$i];
+	    $pval     = $demotic_blast::hit_Eval[$i];
+	    $bitscore = $demotic_blast::hit_bitscore[$i];
+
+	    if (! $seen{$target} || $pval < $best_pval{$target})
+	    { 		
+		$seen{$target}          = 1;
+		$best_pval{$target}     = $pval; 
+		$best_bitscore{$target} = $bitscore; 
+	    }
+	}
+	close BLASTP;
+    }
+    
+    # Append to the outfile.
+    foreach $target (keys(%seen)) 
+    {
+	printf OUTFILE "%g %.1f %s %s\n", $best_pval{$target}, $best_bitscore{$target}, $target, $msaname;
+    }
+
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.query.fa";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ncbiblast+ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ncbiblast+
new file mode 100755
index 0000000..b7577aa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ncbiblast+
@@ -0,0 +1,96 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for NCBI BLASTP+ searches by FPS
+# (family-pairwise-search; best E-value of all individual queries).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-ncbiblast+-fps <top_builddir>                <top_srcdir>       <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-ncbiblast+-fps /usr/local/ncbi-blast-2.2.21+ ~/src/hmmer/trunk  testdir     test.tbl  pmark.msa test.fa  test.out
+#        
+# SRE, Tue Mar  8 09:12:11 2011
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$blastp      = "${top_builddir}/bin/blastp";
+$blastopts   = "-num_threads 1 -num_descriptions 9999 -num_alignments 0";
+
+if (! -d $top_builddir)                                 { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $blastp)                                       { die "didn't find executable $blastp"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    %seen          = ();
+    %best_pval     = ();
+    %best_bitscore = ();
+
+    `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    # Extract a list of individual sequence names from the multiple alignment.
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat -a $wrkdir/$msaname.sto\n"; next MSA; }
+
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+
+    # Loop over each query; blast; accumulate best pval for each target
+    foreach $qname (@qnames) 
+    {
+	$output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+	if ($?) { print "FAILED: esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname\n"; next MSA; }
+
+	if (! open(BLASTP, "$blastp -db $fafile -query $wrkdir/$msaname.query.fa $blastopts |")) {
+	    print  "FAILED: $blastp -db $fafile -query $wrkdir/$msaname.query.fa $blastopts |\n"; next MSA;
+	}
+	
+	if (! demotic_blast::parse(\*BLASTP)) {
+	    print "FAILED: demotic parser for blastp output\n"; next MSA; 
+	}
+	
+	for ($i = 0; $i < $demotic_blast::nhits; $i++)
+	{
+	    $target   = $demotic_blast::hit_target[$i];
+	    $pval     = $demotic_blast::hit_Eval[$i];
+	    $bitscore = $demotic_blast::hit_bitscore[$i];
+
+	    if (! $seen{$target} || $pval < $best_pval{$target})
+	    { 		
+		$seen{$target}          = 1;
+		$best_pval{$target}     = $pval; 
+		$best_bitscore{$target} = $bitscore; 
+	    }
+	}
+	close BLASTP;
+    }
+    
+    # Append to the outfile.
+    foreach $target (keys(%seen)) 
+    {
+	printf OUTFILE "%g %.1f %s %s\n", $best_pval{$target}, $best_bitscore{$target}, $target, $msaname;
+    }
+
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.query.fa";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-phmmer b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-phmmer
new file mode 100755
index 0000000..c12d5bc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-phmmer
@@ -0,0 +1,92 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for phmmer searches by FPS
+# (family-pairwise-search; best E-value of all individual queries).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-phmmer-fps <top_builddir>                     <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-phmmer-fps ~/releases/hmmer-3.0/build-icc-mpi ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+#        
+# SRE, Sun Feb  7 08:54:28 2010 [Casa de Gatos]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+
+$phmmer      = "$top_builddir/src/phmmer";
+$opts        = "";
+
+if (! -d $top_builddir)                                 { die "didn't find build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find source directory $top_srcdir"; }
+if (! -x $phmmer)                                       { die "didn't find executable $phmmer"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    %seen          = ();
+    %best_pval     = ();
+    %best_bitscore = ();
+
+    `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    # Extract a list of individual sequence names from the multiple alignment.
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat\n"; next MSA; }
+
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+
+    # Loop over each query; phmmer; accumulate best pval for each target
+    foreach $qname (@qnames) 
+    {
+	$output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+	if ($?) { print "FAILED: esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname\n"; next MSA; }
+
+	`$phmmer --cpu 1 --tblout $wrkdir/$msaname.tmp $opts $wrkdir/$msaname.query.fa $fafile > /dev/null`;
+	if ($?) { print "FAILED: $phmmer --tblout $msaname.tmp $opts $wrkdir/$msaname.query.fa $fafile\n"; next MSA; }
+
+	open(OUTPUT, "$wrkdir/$msaname.tmp") || die "FAILED: to open $wrkdir/$msaname.tmp tabular output file"; 
+        while (<OUTPUT>)
+	{
+	    if (/^\#/) { next; }
+	    @fields   = split(' ', $_, 7);
+	    $target   = $fields[0];
+	    $pval     = $fields[4];
+	    $bitscore = $fields[5];
+	    if (! $seen{$target} || $pval < $best_pval{$target})
+	    { 		
+		$seen{$target}          = 1;
+		$best_pval{$target}     = $pval; 
+		$best_bitscore{$target} = $bitscore; 
+	    }
+	}
+	close OUTPUT;
+    }
+
+    # Append to the outfile.
+    foreach $target (keys(%seen)) 
+    {
+	printf OUTFILE "%g %.1f %s %s\n", $best_pval{$target}, $best_bitscore{$target}, $target, $msaname;
+    }
+
+    unlink "$wrkdir/$msaname.tmp";
+    unlink "$wrkdir/$msaname.query.fa";
+    unlink "$wrkdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ssearch b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ssearch
new file mode 100755
index 0000000..ff11d61
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-ssearch
@@ -0,0 +1,96 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for SSEARCH searches by FPS
+# (family-pairwise-search; best E-value of all individual queries).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-ssearch-fps <top_builddir>          <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-ssearch-fps /usr/local/fasta-36x2   ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+#        
+# SRE, Tue Apr 20 10:18:56 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_fasta;
+
+$fasta      = "${top_builddir}/bin/ssearch36";
+$opts       = "-q";
+
+if (! -d $top_builddir)                                 { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $fasta)                                        { die "didn't find executable $fasta"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    %seen          = ();
+    %best_pval     = ();
+    %best_bitscore = ();
+
+    `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    # Extract a list of individual sequence names from the multiple alignment.
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat -a $wrkdir/$msaname.sto\n"; next MSA; }
+
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+
+    # Loop over each query; blast; accumulate best pval for each target
+    foreach $qname (@qnames) 
+    {
+	$output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+	if ($?) { print "FAILED: esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname\n"; next MSA; }
+
+	if (! open(FASTA, "$fasta $opts $wrkdir/$msaname.query.fa $fafile |")) {
+	    print "FAILED: $fasta $opts $wrkdir/$msaname.query.fa $fafile |\n"; next MSA;
+	}
+	
+	if (! demotic_fasta::parse(\*FASTA)) {
+	    print "FAILED: demotic parser for fasta output\n"; next MSA; 
+	}
+	
+	for ($i = 0; $i < $demotic_fasta::nhits; $i++)
+	{
+	    $target   = $demotic_fasta::hit_target[$i];
+	    $pval     = $demotic_fasta::hit_Eval[$i];
+	    $bitscore = $demotic_fasta::hit_bitscore[$i];
+
+	    if (! $seen{$target} || $pval < $best_pval{$target})
+	    { 		
+		$seen{$target}          = 1;
+		$best_pval{$target}     = $pval; 
+		$best_bitscore{$target} = $bitscore; 
+	    }
+	}
+	close FASTA;
+    }
+    
+    # Append to the outfile.
+    foreach $target (keys(%seen)) 
+    {
+	printf OUTFILE "%g %.1f %s %s\n", $best_pval{$target}, $best_bitscore{$target}, $target, $msaname;
+    }
+
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.query.fa";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-wublast b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-wublast
new file mode 100755
index 0000000..4c7215d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-fps-wublast
@@ -0,0 +1,97 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for WU-BLAST searches by FPS
+# (family-pairwise-search; best E-value of all individual queries).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:      x-wublast-fps  <top_builddir>     <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example:  ./x-wublast-fps  /usr/local/wublast ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+#        
+# SRE, Sat Apr 17 11:16:23 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$blastp      = "${top_builddir}/blastp";
+$blastopts   = "cpus=1 V=9999 B=0 filter=seg filter=xnu";
+
+if (! -d $top_builddir)                                 { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $blastp)                                       { die "didn't find executable $blastp"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    %seen          = ();
+    %best_pval     = ();
+    %best_bitscore = ();
+
+    `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    # Extract a list of individual sequence names from the multiple alignment.
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat -a $wrkdir/$msaname.sto\n"; next MSA; }
+
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+
+    # Loop over each query; blast; accumulate best pval for each target
+  QUERY:
+    foreach $qname (@qnames) 
+    {
+	$output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+	if ($?) { print "FAILED: esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname\n"; next QUERY; }
+
+	if (! open(BLASTP, "$blastp $fafile $wrkdir/$msaname.query.fa $blastopts |")) {
+	    print  "FAILED: $blastp $fafile $wrkdir/$msaname.query.fa $blastopts |\n"; next QUERY;
+	}
+	
+	if (! demotic_blast::parse(\*BLASTP)) {
+	    print "FAILED: demotic parser for blastp output; query might be x'ed by filters; skipping this query\n"; next QUERY; 
+	}
+	
+	for ($i = 0; $i < $demotic_blast::nhits; $i++)
+	{
+	    $target   = $demotic_blast::hit_target[$i];
+	    $pval     = $demotic_blast::hit_Eval[$i];
+	    $bitscore = $demotic_blast::hit_bitscore[$i];
+
+	    if (! $seen{$target} || $pval < $best_pval{$target})
+	    { 		
+		$seen{$target}          = 1;
+		$best_pval{$target}     = $pval; 
+		$best_bitscore{$target} = $bitscore; 
+	    }
+	}
+	close BLASTP;
+    }
+    
+    # Append to the outfile.
+    foreach $target (keys(%seen)) 
+    {
+	printf OUTFILE "%g %.1f %s %s\n", $best_pval{$target}, $best_bitscore{$target}, $target, $msaname;
+    }
+
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.query.fa";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-h2-fs b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-h2-fs
new file mode 100755
index 0000000..49081df
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-h2-fs
@@ -0,0 +1,82 @@
+#! /usr/bin/perl -w 
+
+# Do a piece of a profmark benchmark, for H2's hmmsearch.
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# <top_builddir> = HMMER2 build directory (hmmbuild, hmmcalibrate, hmmsearch executables)
+# <top_srcdir>   = HMMER3 src directory (demotic scripts in easel/demotic)
+
+# Usage:     x-h2-fs <top_builddir>         <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-h2-fs ~/releases/hmmer-2.3.2 ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $resultdir     = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_h2;
+
+$hmmbuild      = "${top_builddir}/src/hmmbuild";
+$hmmcalibrate  = "${top_builddir}/src/hmmcalibrate";
+$hmmsearch     = "${top_builddir}/src/hmmsearch";
+$buildopts     = "-f";
+$calibrateopts = "--cpu 1";
+$searchopts    = "-E 1000 --cpu 1";
+
+if (! -d $top_builddir)                                 { die "didn't find H2 build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_builddir"; }
+if (! -x $hmmbuild)                                     { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmcalibrate)                                 { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmsearch)                                    { die "didn't find executable $hmmsearch"; }
+if (! -e $resultdir)                                    { die "$resultdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $output = `esl-afetch -o $resultdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $resultdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    $output = `$hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto`;
+    if ($?) { print "FAILED: $hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto\n"; next MSA; }
+
+    $output = `$hmmcalibrate $calibrateopts $resultdir/$msaname.hmm`;
+    if ($?) { print "FAILED: $hmmcalibrate\n"; next MSA; }
+
+    if (! open(HMMSEARCH, "$hmmsearch $searchopts $resultdir/$msaname.hmm $fafile 2> /dev/null |")) 
+    { print "FAILED: $hmmsearch $searchopts $resultdir/$msaname.hmm $fafile\n"; next MSA; }
+
+    if (! demotic_h2::parse(\*HMMSEARCH)) 
+    { print "FAILED: demotic h2 parser\n"; next MSA; }
+
+    for ($i = 0; $i < $demotic_h2::nhits; $i++) 
+    {
+        printf OUTFILE ("%g\t%.1f\t%s\t%s\n", 
+			$demotic_h2::hit_Eval[$i],
+			$demotic_h2::hit_bitscore[$i], 
+			$demotic_h2::hit_target[$i],
+			$msaname);
+    } 
+    close HMMSEARCH;
+
+    unlink "$resultdir/$msaname.hmm";
+    unlink "$resultdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
+
+    
+
+    
+    
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-h2-ls b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-h2-ls
new file mode 100755
index 0000000..66eae2c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-h2-ls
@@ -0,0 +1,82 @@
+#! /usr/bin/perl -w 
+
+# Do a piece of a profmark benchmark, for H2's hmmsearch (ls mode).
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# <top_builddir> = HMMER2 build directory (hmmbuild, hmmcalibrate, hmmsearch executables)
+# <top_srcdir>   = HMMER3 src directory (demotic scripts in easel/demotic)
+
+# Usage:     x-h2-ls <top_builddir>         <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-h2-ls ~/releases/hmmer-2.3.2 ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $resultdir     = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_h2;
+
+$hmmbuild      = "${top_builddir}/src/hmmbuild";
+$hmmcalibrate  = "${top_builddir}/src/hmmcalibrate";
+$hmmsearch     = "${top_builddir}/src/hmmsearch";
+$buildopts     = "";
+$calibrateopts = "--cpu 1";
+$searchopts    = "-E 1000 --cpu 1";
+
+if (! -d $top_builddir)                                 { die "didn't find H2 build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_builddir"; }
+if (! -x $hmmbuild)                                     { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmcalibrate)                                 { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmsearch)                                    { die "didn't find executable $hmmsearch"; }
+if (! -e $resultdir)                                    { die "$resultdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $output = `esl-afetch -o $resultdir/$msaname.sto $msafile $msaname`;
+    if ($?) { print "FAILED: esl-afetch -o $resultdir/$msaname.sto $msafile $msaname\n"; next MSA; }
+
+    $output = `$hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto`;
+    if ($?) { print "FAILED: $hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto\n"; next MSA; }
+
+    $output = `$hmmcalibrate $calibrateopts $resultdir/$msaname.hmm`;
+    if ($?) { print "FAILED: $hmmcalibrate\n"; next MSA; }
+
+    if (! open(HMMSEARCH, "$hmmsearch $searchopts $resultdir/$msaname.hmm $fafile 2> /dev/null |")) 
+    { print "FAILED: $hmmsearch $searchopts $resultdir/$msaname.hmm $fafile\n"; next MSA; }
+
+    if (! demotic_h2::parse(\*HMMSEARCH)) 
+    { print "FAILED: demotic h2 parser\n"; next MSA; }
+
+    for ($i = 0; $i < $demotic_h2::nhits; $i++) 
+    {
+        printf OUTFILE ("%g\t%.1f\t%s\t%s\n", 
+			$demotic_h2::hit_Eval[$i],
+			$demotic_h2::hit_bitscore[$i], 
+			$demotic_h2::hit_target[$i],
+			$msaname);
+    } 
+    close HMMSEARCH;
+
+    unlink "$resultdir/$msaname.hmm";
+    unlink "$resultdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
+
+    
+
+    
+    
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-hmmsearch b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-hmmsearch
new file mode 100755
index 0000000..b65cf8c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-hmmsearch
@@ -0,0 +1,72 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for hmmsearch.
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:      x-hmmsearch <top_builddir>                     <top_srcdir>        <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example:  ./x-hmmsearch ~/releases/hmmer-3.0/build-icc-mpi ~/releases/hmmer-3.0 testdir    test.tbl  pmark.msa test.fa  test.out
+#
+# SRE, Tue Apr 20 10:32:49 2010 [Janelia]
+# SVN $Id$
+#
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $resultdir     = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+
+$hmmbuild    = "$top_builddir/src/hmmbuild";
+$hmmsearch   = "$top_builddir/src/hmmsearch";
+$buildopts   = "";
+$searchopts  = "-E 200 --cpu 1";
+
+if (! -d $top_builddir)                                 { die "didn't find build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find src directory $top_srcdir"; }
+if (! -x $hmmbuild)                                     { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmsearch)                                    { die "didn't find executable $hmmsearch"; }
+if (! -e $resultdir)                                    { die "$resultdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $output = `esl-afetch -o $resultdir/$msaname.sto $msafile $msaname`;
+    if ($? != 0) { die "FAILED: esl-afetch -o $resultdir/$msaname.sto $msafile $msaname"; }
+
+    $output = `$hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto`;
+    if ($? != 0) { die "FAILED: $hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto"; }
+
+    $status = system("$hmmsearch $searchopts --tblout $resultdir/$msaname.tmp $resultdir/$msaname.hmm $fafile > /dev/null");
+    if ($status != 0) { die "FAILED: $hmmsearch $searchopts --tblout $resultdir/$msaname.tmp $resultdir/$msaname.hmm $fafile"; }
+
+    open(OUTPUT, "$resultdir/$msaname.tmp") || die "FAILED: to open $resultdir/$msaname.tmp tabular output file"; 
+    while (<OUTPUT>)
+    {
+	if (/^\#/) { next; }
+	@fields   = split(' ', $_, 7);
+	$target   = $fields[0];
+	$pval     = $fields[4];
+	$bitscore = $fields[5];
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+
+    unlink "$resultdir/$msaname.hmm";
+    unlink "$resultdir/$msaname.sto";
+    unlink "$resultdir/$msaname.tmp";
+}
+close TABLE;
+close OUTFILE;
+
+    
+
+    
+    
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-hmmsearch-max b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-hmmsearch-max
new file mode 100755
index 0000000..b685b60
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-hmmsearch-max
@@ -0,0 +1,72 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for hmmsearch --max.
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-hmmsearch-max <top_builddir>                     <top_srcdir>         <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-hmmsearch-max ~/releases/hmmer-3.0/build-icc-mpi ~/releases/hmmer-3.0 testdir     test.tbl  pmark.msa test.fa  test.out
+#
+# SRE, Tue Apr 20 10:39:31 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $resultdir     = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+
+$hmmbuild    = "$top_builddir/src/hmmbuild";
+$hmmsearch   = "$top_builddir/src/hmmsearch";
+$buildopts   = "";
+$searchopts  = "--max -E 200 --cpu 1";
+
+if (! -d $top_builddir)                                 { die "didn't find build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find src directory $top_srcdir"; }
+if (! -x $hmmbuild)                                     { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmsearch)                                    { die "didn't find executable $hmmsearch"; }
+if (! -e $resultdir)                                    { die "$resultdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $output = `esl-afetch -o $resultdir/$msaname.sto $msafile $msaname`;
+    if ($? != 0) { die "FAILED: esl-afetch -o $resultdir/$msaname.sto $msafile $msaname"; }
+
+    $output = `$hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto`;
+    if ($? != 0) { die "FAILED: $hmmbuild $buildopts $resultdir/$msaname.hmm $resultdir/$msaname.sto"; }
+
+    $status = system("$hmmsearch $searchopts --tblout $resultdir/$msaname.tmp $resultdir/$msaname.hmm $fafile > /dev/null");
+    if ($status != 0) { die "FAILED: $hmmsearch $searchopts --tblout $resultdir/$msaname.tmp $resultdir/$msaname.hmm $fafile"; }
+
+    open(OUTPUT, "$resultdir/$msaname.tmp") || die "FAILED: to open $resultdir/$msaname.tmp tabular output file"; 
+    while (<OUTPUT>)
+    {
+	if (/^\#/) { next; }
+	@fields   = split(' ', $_, 7);
+	$target   = $fields[0];
+	$pval     = $fields[4];
+	$bitscore = $fields[5];
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+
+    unlink "$resultdir/$msaname.hmm";
+    unlink "$resultdir/$msaname.sto";
+    unlink "$resultdir/$msaname.tmp";
+}
+close TABLE;
+close OUTFILE;
+
+    
+
+    
+    
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-iterate-jackhmmer b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-iterate-jackhmmer
new file mode 100755
index 0000000..826d264
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-iterate-jackhmmer
@@ -0,0 +1,67 @@
+#! /usr/bin/perl
+
+$n_iterations  = 1;
+# $n_iterations  = 2;   # uncomment as needed for -n2, -n3 tests...
+# $n_iterations  = 3;
+
+
+$top_builddir  = shift;
+$top_srcdir    = shift;
+$wrkdir        = shift;
+$tblfile       = shift;
+$msafile       = shift;
+$fafile        = shift;
+$outfile       = shift;
+
+$jackhmmer  = "$top_builddir/src/jackhmmer";
+$hmmbuild   = "$top_builddir/src/hmmbuild";
+$hmmsearch  = "$top_builddir/src/hmmsearch";
+$iteropts   = "-N $n_iterations --cpu 1";
+$searchopts = "-E 200 --cpu 1";
+
+if (! -d $top_builddir)  { die "didn't find build directory $top_builddir"; }
+if (! -d $top_srcdir)    { die "didn't find source directory $top_srcdir"; }
+if (! -x $jackhmmer)     { die "didn't find executable $jackhmmer"; }
+if (! -x $hmmbuild)      { die "didn't find executable $hmmbuild"; }
+if (! -x $hmmsearch)     { die "didn't find executable $hmmsearch"; }
+if (! -e $wrkdir)        { die "$wrkdir doesn't exist"; }
+if (! -e "$fafile.iter") { die "iteration db $fafile.iter doesn't exist"; }
+
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $cmd  = "esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname";                                      $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Fetch the query MSA from the benchmark; tmp .sto file here
+    $cmd  = "esl-seqstat --amino -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'";               $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n", next MSA; }   # Extract list of indiv seq names. --amino for robustness, some msa's v. small
+    @qnames = split(/^/,$output); 
+    chop (@qnames);
+    $qname = $qnames[0];
+    $cmd = "esl-sfetch -o $wrkdir/$msaname.query $wrkdir/$msaname.sto $qname > /dev/null";                         `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Pick a single seq (first one) to tmp file; tmp .query file here
+
+    $cmd = "$jackhmmer $iteropts -A $wrkdir/$msaname.jck $wrkdir/$msaname.query $fafile.iter > /dev/null";         `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Iterate n times on the .iter intermediate database (NR, whatever); alignment to tmp .jck file
+    $cmd = "$hmmbuild --hand $wrkdir/$msaname.hmm $wrkdir/$msaname.jck > /dev/null`";                              `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Build a model from .jck, using the same architecture (--hand)
+    $cmd = "$hmmsearch $searchopts --tblout $wrkdir/$msaname.tmp $wrkdir/$msaname.hmm $fafile > /dev/null";        `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Search against benchmark .fa file; results to tmp .tmp tbl file
+
+    if (! open(OUTPUT, "$wrkdir/$msaname.tmp")) { print "FAILED: to open $wrkdir/$msaname.tmp"; next MSA; }
+    while (<OUTPUT>)
+    {
+	if (/^\#/) { next; }
+	@fields   = split(' ', $_, 7);
+	$target   = $fields[0];
+	$pval     = $fields[4];
+	$bitscore = $fields[5];
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+    close OUTPUT;
+    unlink "$wrkdir/$msaname.tmp";
+    unlink "$wrkdir/$msaname.hmm";
+    unlink "$wrkdir/$msaname.jck";
+    unlink "$wrkdir/$msaname.query";
+    unlink "$wrkdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-iterate-psiblast b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-iterate-psiblast
new file mode 100755
index 0000000..bc83581
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-iterate-psiblast
@@ -0,0 +1,74 @@
+#! /usr/bin/perl -w
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$n_iterations = 1;
+$n_iterations +=1; # +1 because psi-blast stores checkpoint file from the PREVIOUS iteration.
+
+$blastpgp   = "${top_builddir}/bin/blastpgp";
+$blastopts1 = "-a 1 -v 9999 -b 0 -F T -u 1 -j $n_iterations -J TRUE"; # opts for generating checkpoint file
+$blastopts2 = "-a 1 -v 9999 -b 0 -F F -q 1 -t 1";                     # opts for searching the benchmark
+# explanation of options
+#   -a 1    : run a single thread/cpu  (benchmark sends independent jobs to our cluster nodes, uses all cpus that way already)
+#   -v 9999 : show a large hit list, deep into noise (benchmark calculates its own false positive threshold)
+#   -b 0    : suppresses alignment output (benchmark only needs the top hits)
+#   -F T    : filters query seq with SEG (can't use this option on -R restored checkpoint file)
+#   -j <n>  : number of rounds to iterate in the iteration stage, on the iteration db.  Minimum n=2, because the checkpoint file is for the *prev* round. (n=1 generates only a blastp output and no checkpoint)
+#   -u 1    : specifies checkpoint output file is in ASN.1 ASCII
+#   -q 1    : specifies checkpoint input file is in ASN.1 ASCII
+#   -J TRUE : "believe the query defline", but I don't recall why I needed this. 
+#   -t 1    : blastpgp -R checkpoint restart only supports -t 1; otherwise it will bitch.
+#
+# also will add -i <query.fa> -d <database> ;
+#   and -C <checkpoint .asnt file> for the iteration stage
+#   and -R <checkpoint .asnt file> for the benchmark search.
+
+if (! -d $top_builddir)  { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)    { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $blastpgp)      { die "didn't find executable $blastpgp"; }
+if (! -e $wrkdir)        { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile")   || die "failed to open $outfile";
+open(TABLE, "$tblfile")     || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $cmd  = "esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname";                                      $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Fetch the query MSA from the benchmark; tmp .sto file here
+    $cmd  = "esl-seqstat --amino -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'";               $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n", next MSA; }   # Extract list of indiv seq names. --amino for robustness, some msa's v. small
+    @qnames = split(/^/,$output); 
+    chop (@qnames);
+    $qname = $qnames[0];
+    $cmd = "esl-sfetch -o $wrkdir/$msaname.query $wrkdir/$msaname.sto $qname > /dev/null";                         `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Pick a single seq (first one) to tmp file; tmp .query file here
+
+    $cmd  = "$blastpgp $blastopts1 -d $fafile.iter -i $wrkdir/$msaname.query -C $wrkdir/$msaname.asnt";  $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Iterate on the .iter database. tmp .asnt checkpoint file here.
+    $cmd  = "$blastpgp $blastopts2 -d $fafile -R $wrkdir/$msaname.asnt 2>/dev/null |";                   if (! open(PSIBLAST, "$cmd")) { print "FAILED: $cmd\n"; next MSA; }   # Search the benchmark database
+
+    if (! demotic_blast::parse(\*PSIBLAST)) { print "FAILED: demotic psiblast parser on $msaname\n"; next MSA; }
+    for ($i = 0; $i < $demotic_blast::nhits; $i++) 
+    {
+        printf OUTFILE ("%g\t%.1f\t%s\t%s\n", 
+			$demotic_blast::hit_Eval[$i],
+			$demotic_blast::hit_bitscore[$i], 
+			$demotic_blast::hit_target[$i],
+			$msaname);
+    } 
+
+    close PSIBLAST;
+    unlink "$wrkdir/$msaname.query";
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.asnt";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-phmmer-consensus b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-phmmer-consensus
new file mode 100755
index 0000000..a7dae04
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-phmmer-consensus
@@ -0,0 +1,64 @@
+#! /usr/bin/perl
+
+# Do a piece of a profmark benchmark, for phmmer searches using a
+# consensus sequence query.
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage: x-phmmer-consensus  <top_builddir> <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+#
+# SRE, Sun Feb  7 08:58:12 2010 [Case de Gatos]
+# SVN $Id$
+#
+
+$top_builddir  = shift;
+$top_srcdir    = shift;
+$resultdir     = shift;
+$tblfile       = shift;
+$msafile       = shift;
+$fafile        = shift;
+$outfile       = shift;
+
+$phmmer      = "$top_builddir/src/phmmer";
+$esl_afetch  = "$top_builddir/easel/miniapps/esl-afetch";
+$hmmbuild    = "$top_builddir/src/hmmbuild --wnone --enone --laplace";	# for building consensus seqs
+$hmmemit     = "$top_builddir/src/hmmemit -c";
+$opts        = "";
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    # Fetch the query MSA from the benchmark  (.sto file)
+    $output = `$esl_afetch -o $resultdir/$msaname.sto $msafile $msaname`;
+    if ($? != 0) { die "FAILED: $esl_afetch -o $resultdir/$msaname.sto $msafile $msaname"; }
+
+    # Create a  profile HMM from it (.hmm file; .query.fa file)
+    $output = `$hmmbuild  $resultdir/$msaname.hmm $resultdir/$msaname.sto`;
+    if ($? != 0) { die "FAILED: $hmmbuild  $resultdir/$msaname.hmm $resultdir/$msaname.sto"; }
+
+    $output = `$hmmemit -o $resultdir/$msaname.query.fa $resultdir/$msaname.hmm`;
+    if ($? != 0) { die "FAILED: hmmemit -o $resultdir/$msaname.query.fa $resultdir/$msaname.hmm"; }
+
+    # PHMMER it against the benchmark 
+    $output = `$phmmer $opts --cpu 1 --tblout $resultdir/$msaname.tmp $resultdir/$msaname.query.fa $fafile > /dev/null`;
+    if ($? != 0) { die "FAILED: $phmmer --tblout $resultdir/$msaname.tmp $opts $resultdir/$msaname.query.fa $fafile"; }
+
+    open(OUTPUT, "$resultdir/$msaname.tmp") || die "FAILED: to open $resultdir/$msaname.tmp tabular output file"; 
+    while (<OUTPUT>)
+    {
+	if (/^\#/) { next; }
+	($target, $tacc, $query, $qacc, $pval, $bitscore, $remainder) = split(' ', $_, 7);
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+
+    unlink "$resultdir/$msaname.tmp";
+    unlink "$resultdir/$msaname.query.fa";
+    unlink "$resultdir/$msaname.hmm";
+    unlink "$resultdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-psiblast b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-psiblast
new file mode 100755
index 0000000..404bebc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-psiblast
@@ -0,0 +1,105 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for PSI-BLAST
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-psiblast  <top_builddir>          <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+#
+# Example: ./x-psiblast  /usr/local/blast-2.2.22 ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+#
+# For best results, the target database should be masked. For example:
+#   seg pmark.fa -x > pmark-seg.fa
+# 
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$formatdb   = "${top_builddir}/bin/formatdb";
+$blastpgp   = "${top_builddir}/bin/blastpgp";
+$blastopts1 = "-a 1 -v 9999 -b 0 -F T -u 1 -j 5 -J TRUE"; # opts for generating checkpoint file
+$blastopts2 = "-a 1 -v 9999 -b 0 -F F -q 1 -t 1";         # opts for searching the benchmark
+
+if (! -d $top_builddir)                                 { die "didn't find H2 build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $formatdb)                                     { die "didn't find executable $formatdb"; }
+if (! -x $blastpgp)                                     { die "didn't find executable $blastpgp"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile")   || die "failed to open $outfile";
+open(TABLE, "$tblfile")     || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    # Fetch the query MSA from the benchmark  (.sto file)
+    $output = `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($? != 0) { print "FAILED: esl-afetch on $msaname\n"; next MSA; }
+
+    # Reformat to psiblast format (.pbl file)
+    $output = `esl-reformat -o $wrkdir/$msaname.pbl psiblast $wrkdir/$msaname.sto`;
+    if ($? != 0) { print "FAILED: esl-reformat psiblast on $msaname\n"; next MSA; }
+
+    # Select median length single sequence as the "query" (.query.fa file)
+    $output = `esl-seqstat -a $wrkdir/$msaname.sto | grep "^=" | sort -n -k3 | awk '{print \$2}'`;
+    if ($?) { print "FAILED: esl-seqstat on $msaname\n"; next MSA; }
+    @qnames = split(/^/,$output);
+    chop (@qnames);
+    $qname = $qnames[ int(($#qnames+1) / 2)];
+    $output = `esl-sfetch -o $wrkdir/$msaname.query.fa $wrkdir/$msaname.sto $qname`;
+    if ($?) { print "FAILED: esl-sfetch on $msaname\n"; next MSA; }
+
+    # Create a PSI-BLAST checkpoint file by iterative search of the query
+    # against the seed sequences. (Thus, we're not using the seed alignment,
+    # only the seed seqs)
+    $output = `esl-reformat -o $wrkdir/$msaname.fa fasta $wrkdir/$msaname.sto`;
+    if ($?) { print "FAILED: esl-reformat fasta on $msaname\n"; next MSA; }
+
+    $output = `seg $wrkdir/$msaname.fa -x > $wrkdir/$msaname.x.fa`;
+    if ($?) { print "FAILED: esl-reformat fasta on $msaname\n"; next MSA; }
+
+    $output = `$formatdb -i $wrkdir/$msaname.x.fa`;
+    if ($?) { print "FAILED: formatdb on $msaname\n"; next MSA; }
+ 
+    $output = `$blastpgp $blastopts1 -d $wrkdir/$msaname.x.fa -i $wrkdir/$msaname.query.fa -C $wrkdir/$msaname.asnt`;
+    if ($?) { print "FAILED: blastpgp checkpoint file on $msaname\n"; next MSA; }
+    
+    # Run psi-blast against the benchmark
+    if (! open(PSIBLAST, "$blastpgp $blastopts2 -d $fafile -R $wrkdir/$msaname.asnt 2>/dev/null |")) { print "FAILED: $blastpgp on $msaname\n";               next MSA; }
+    if (! demotic_blast::parse(\*PSIBLAST)                                                         ) { print "FAILED: demotic psiblast parser on $msaname\n"; next MSA; }
+
+    for ($i = 0; $i < $demotic_blast::nhits; $i++) 
+    {
+        printf OUTFILE ("%g\t%.1f\t%s\t%s\n", 
+			$demotic_blast::hit_Eval[$i],
+			$demotic_blast::hit_bitscore[$i], 
+			$demotic_blast::hit_target[$i],
+			$msaname);
+    } 
+    close PSIBLAST;
+
+    unlink "$wrkdir/$msaname.query.fa";
+    unlink "$wrkdir/$msaname.hmm";
+    unlink "$wrkdir/$msaname.pbl";
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.asnt";
+    unlink "$wrkdir/$msaname.fa";
+    unlink "$wrkdir/$msaname.x.fa";
+    unlink "$wrkdir/$msaname.x.fa.phr";
+    unlink "$wrkdir/$msaname.x.fa.pin";
+    unlink "$wrkdir/$msaname.x.fa.psq";
+    unlink "$wrkdir/formatdb.log";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-psiblast+ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-psiblast+
new file mode 100755
index 0000000..1bc3d8d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-psiblast+
@@ -0,0 +1,70 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for PSI-BLAST+
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:     x-psiblast+  <top_builddir>                <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example: ./x-psiblast+  /usr/local/ncbi-blast-2.2.21+ ~/src/hmmer/trunk  testdir     test.tbl  pmark.msa test.fa  test.out
+#
+# For best results, the target database should be masked. For example:
+#   seg pmark.fa -x > pmark-seg.fa
+# 
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$formatdb   = "${top_builddir}/bin/makeblastdb";
+$psiblast   = "${top_builddir}/bin/psiblast";
+$blastopts  = "-num_threads 1 -num_descriptions 9999 -num_alignments 0";                            # opts for searching the benchmark
+
+if (! -d $top_builddir)                                 { die "didn't find H2 build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $formatdb)                                     { die "didn't find executable $formatdb"; }
+if (! -x $psiblast)                                     { die "didn't find executable $psiblast"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile")   || die "failed to open $outfile";
+open(TABLE, "$tblfile")     || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    # Fetch the query MSA from the benchmark  (.sto file)
+    $output = `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($? != 0) { print "FAILED: esl-afetch on $msaname\n"; next MSA; }
+
+    # Reformat to psiblast format (.pbl file)
+    $output = `esl-reformat -o $wrkdir/$msaname.pbl psiblast $wrkdir/$msaname.sto`;
+    if ($? != 0) { print "FAILED: esl-reformat psiblast on $msaname\n"; next MSA; }
+
+    # Run psi-blast against the benchmark
+    if (! open(PSIBLAST, "$psiblast $blastopts -db $fafile -in_msa $wrkdir/$msaname.pbl 2>/dev/null |"))    { print "FAILED: $psiblast on $msaname\n";               next MSA; }
+    if (! demotic_blast::parse(\*PSIBLAST)                                                                ) { print "FAILED: demotic psiblast parser on $msaname\n"; next MSA; }
+
+    for ($i = 0; $i < $demotic_blast::nhits; $i++) 
+    {
+        printf OUTFILE ("%g\t%.1f\t%s\t%s\n", 
+			$demotic_blast::hit_Eval[$i],
+			$demotic_blast::hit_bitscore[$i], 
+			$demotic_blast::hit_target[$i],
+			$msaname);
+    } 
+    close PSIBLAST;
+
+    unlink "$wrkdir/$msaname.pbl";
+    unlink "$wrkdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-sam b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-sam
new file mode 100755
index 0000000..4b206f9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-sam
@@ -0,0 +1,87 @@
+#! /usr/bin/perl -w
+
+# Do a piece of a profmark benchmark, for SAM.
+#
+# This script is normally called by pmark_master.pl; its command line
+# syntax is tied to pmark_master.pl.
+#
+# Usage:    x-sam   <top_builddir>                          <top_srcdir> <resultdir> <tblfile> <msafile> <fafile> <outfile>
+# Example:  ./x-sam ~/alien-src/sam-3.5/sam3.5.x86_64-linux ~/src/hmmer  testdir     test.tbl  pmark.msa test.fa  test.out
+#
+# SRE, Tue Apr 20 10:42:48 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+
+$w05          = "$top_builddir/bin/w0.5";
+$hmmscore     = "$top_builddir/bin/hmmscore";
+
+if (! -d $top_builddir)  { die "didn't find directory $top_builddir"; }
+if (! -d $top_srcdir)    { die "didn't find directory $top_srcdir"; }
+if (! -x $w05)           { die "didn't find executable $w05"; }
+if (! -x $hmmscore)      { die "didn't find executable $hmmscore"; }
+if (! -e $wrkdir)        { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    # Fetch query MSA from benchmark's .sto file
+    $output = `esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname`;
+    if ($? != 0) { die "FAILED: esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname"; }
+
+     # Reformat to A2M format (.a2m file)
+    $output = `esl-reformat -o $wrkdir/$msaname.a2m a2m $wrkdir/$msaname.sto`;
+    if ($? != 0) { die "FAILED: esl-reformat"; }
+
+    # Build a model using UCSC's w0.5 script (.mod file)
+    `(cd $wrkdir; $w05 $msaname.a2m $msaname.mod &> /dev/null)`;
+    if ($? != 0) { die "FAILED: $w05"; }
+
+    # Calibrate the model (.mlib file)
+    `(cd $wrkdir; $hmmscore $msaname -i $msaname.mod -calibrate 1 &> /dev/null)`;
+    if ($? != 0) { die "FAILED: $hmmscore -calibrate"; }
+
+    # Run hmmscore, search the benchmark .fa file. The result (a .dist file) drops into the wd.
+    `(cd $wrkdir; $hmmscore $msaname -modellibrary $msaname.mlib -db ../$fafile -sw 2 &> /dev/null)`;
+    if ($? != 0) { die "FAILED: $hmmscore"; }
+
+    # The output is now in the intuitively named file (wait for it): <msaname>.1.<msaname>.mod.dist
+    open (SAMOUTPUT,"$wrkdir/$msaname.1.$msaname.mod.dist") || die "failed to open sam output";
+    while ($line = <SAMOUTPUT>)
+    {
+	if ($line =~ /^%/) { next; }
+	@fields = split(' ', $line);
+	$target = $fields[0];
+	$revnll = $fields[3];
+	$evalue = $fields[4];
+	if ($evalue > 100) { next; }
+ 	printf OUTFILE "%g %.1f %s %s\n", $evalue, $revnll, $target, $msaname;
+     } 
+    close SAMOUTPUT;
+
+    unlink "$wrkdir/$msaname.1.$msaname.mod.dist";
+    unlink "$wrkdir/$msaname.dist";
+    unlink "$wrkdir/$msaname.mlib";
+    unlink "$wrkdir/$msaname.mod";
+    unlink "$wrkdir/$msaname.a2m";
+    unlink "$wrkdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
+
+    
+
+    
+    
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-ncbiblast b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-ncbiblast
new file mode 100755
index 0000000..31a92e4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-ncbiblast
@@ -0,0 +1,57 @@
+#! /usr/bin/perl -w
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_blast;
+
+$blastp      = "${top_builddir}/bin/blastall";
+$blastopts   = "-p blastp -a 1 -v 9999 -b 0";
+# -a 1    : 1 cpu
+# -v 9999 : long hit list, well into noise
+# -b 0    : suppress alignment output, benchmark doesn't use it
+
+if (! -d $top_builddir)                                 { die "didn't find BLAST build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $blastp)                                       { die "didn't find executable $blastp"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $cmd  = "esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname";                           $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Fetch the query MSA from the benchmark; tmp .sto file here
+    $cmd  = "esl-seqstat --amino -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'";    $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n", next MSA; }   # Extract list of indiv seq names. --amino for robustness, some msa's v. small
+    @qnames = split(/^/,$output); 
+    chop (@qnames);
+    $qname = $qnames[0];
+    $cmd = "esl-sfetch -o $wrkdir/$msaname.query $wrkdir/$msaname.sto $qname > /dev/null";              `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Pick a single seq (first one) to tmp file; tmp .query file here
+
+    $cmd = "$blastp -d $fafile -i $wrkdir/$msaname.query $blastopts |";              if (! open(BLASTP, "$cmd"))            { print "FAILED: $cmd\n"; next MSA; }
+
+    if (! demotic_blast::parse(\*BLASTP)) {  print "FAILED: demotic blastp parser on $msaname\n"; next MSA; }
+
+    for ($i = 0; $i < $demotic_blast::nhits; $i++)
+    {
+	$target   = $demotic_blast::hit_target[$i];
+	$pval     = $demotic_blast::hit_Eval[$i];
+	$bitscore = $demotic_blast::hit_bitscore[$i];
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+
+    close BLASTP;
+    unlink "$wrkdir/$msaname.sto";
+    unlink "$wrkdir/$msaname.query";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-phmmer b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-phmmer
new file mode 100755
index 0000000..631510e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-phmmer
@@ -0,0 +1,52 @@
+#! /usr/bin/perl
+
+$top_builddir  = shift;
+$top_srcdir    = shift;
+$wrkdir        = shift;
+$tblfile       = shift;
+$msafile       = shift;
+$fafile        = shift;
+$outfile       = shift;
+
+$phmmer     = "$top_builddir/src/phmmer";
+$searchopts = "-E 200 --cpu 1";
+
+if (! -d $top_builddir)  { die "didn't find build directory $top_builddir"; }
+if (! -d $top_srcdir)    { die "didn't find source directory $top_srcdir"; }
+if (! -x $phmmer)        { die "didn't find executable $jackhmmer"; }
+if (! -e $wrkdir)        { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $cmd  = "esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname";                                      $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Fetch the query MSA from the benchmark; tmp .sto file here
+    $cmd  = "esl-seqstat --amino -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'";               $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n", next MSA; }   # Extract list of indiv seq names. --amino for robustness, some msa's v. small
+    @qnames = split(/^/,$output); 
+    chop (@qnames);
+    $qname = $qnames[0];
+    $cmd = "esl-sfetch -o $wrkdir/$msaname.query $wrkdir/$msaname.sto $qname > /dev/null";                         `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Pick a single seq (first one) to tmp file; tmp .query file here
+
+    $cmd = "$phmmer $searchopts --tblout $wrkdir/$msaname.tmp $wrkdir/$msaname.query $fafile > /dev/null";         `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # phmmer against benchmark db; tmp .tmp output file here
+
+    if (! open(OUTPUT, "$wrkdir/$msaname.tmp")) { print "FAILED: to open $wrkdir/$msaname.tmp"; next MSA; }
+    while (<OUTPUT>)
+    {
+	if (/^\#/) { next; }
+	@fields   = split(' ', $_, 7);
+	$target   = $fields[0];
+	$pval     = $fields[4];
+	$bitscore = $fields[5];
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+
+    close OUTPUT;
+    unlink "$wrkdir/$msaname.tmp";
+    unlink "$wrkdir/$msaname.query";
+    unlink "$wrkdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-ssearch b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-ssearch
new file mode 100755
index 0000000..853bcaf
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/profmark/x-single-ssearch
@@ -0,0 +1,57 @@
+#! /usr/bin/perl -w
+
+BEGIN {
+    $top_builddir  = shift;
+    $top_srcdir    = shift;
+    $wrkdir        = shift;
+    $tblfile       = shift;
+    $msafile       = shift;
+    $fafile        = shift;
+    $outfile       = shift;
+}
+use lib "${top_srcdir}/easel/demotic";
+use demotic_fasta;
+
+$fasta      = "${top_builddir}/bin/ssearch36";
+$opts       = "-q -E 200 -d 0 -H";
+# -q     = quiet (batch) mode
+# -E 200 = report top hits deeper into noise, down to E=200 (default was 10)
+# -d 0   = suppresses alignment output; we only need the hit list
+# -H     = suppresses histogram output.
+
+if (! -d $top_builddir)                                 { die "didn't find FASTA/SSEARCH build directory $top_builddir"; }
+if (! -d $top_srcdir)                                   { die "didn't find H3 source directory $top_srcdir"; }
+if (! -x $fasta)                                        { die "didn't find executable $fasta"; }
+if (! -e $wrkdir)                                       { die "$wrkdir doesn't exist"; }
+
+open(OUTFILE,">$outfile") || die "failed to open $outfile";
+open(TABLE, "$tblfile")   || die "failed to open $tblfile";
+MSA:
+while (<TABLE>)
+{
+    ($msaname) = split;
+
+    $cmd  = "esl-afetch -o $wrkdir/$msaname.sto $msafile $msaname";                           $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Fetch the query MSA from the benchmark; tmp .sto file here
+    $cmd  = "esl-seqstat --amino -a $wrkdir/$msaname.sto | grep "^=" | awk '{print \$2}'";    $output = `$cmd`;     if ($?) { print "FAILED: $cmd\n", next MSA; }   # Extract list of indiv seq names. --amino for robustness, some msa's v. small
+    @qnames = split(/^/,$output); 
+    chop (@qnames);
+    $qname = $qnames[0];
+    $cmd = "esl-sfetch -o $wrkdir/$msaname.query $wrkdir/$msaname.sto $qname > /dev/null";              `$cmd`;     if ($?) { print "FAILED: $cmd\n"; next MSA; }   # Pick a single seq (first one) to tmp file; tmp .query file here
+
+    # search it against the benchmark db
+    $cmd = "$fasta $opts $wrkdir/$msaname.query $fafile |";                           if (! open(FASTA, "$cmd"))            { print "FAILED: $cmd\n", next MSA; }
+
+    if (! demotic_fasta::parse(\*FASTA)) { print "FAILED: demotic fasta parser on $msaname\n"; next MSA; }
+    for ($i = 0; $i < $demotic_fasta::nhits; $i++)
+    {
+	$target   = $demotic_fasta::hit_target[$i];
+	$pval     = $demotic_fasta::hit_Eval[$i];
+	$bitscore = $demotic_fasta::hit_bitscore[$i];
+	printf OUTFILE "%g %.1f %s %s\n", $pval, $bitscore, $target, $msaname;
+    }
+    close FASTA;
+    unlink "$wrkdir/$msaname.query";
+    unlink "$wrkdir/$msaname.sto";
+}
+close TABLE;
+close OUTFILE;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/release-notes b/Exercise11_files/hmmer-3.1b2-cygwin64/release-notes
new file mode 100755
index 0000000..94367bd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/release-notes
@@ -0,0 +1,90 @@
+HMMER 3.1b2 release notes 
+HMMER3.1 beta test, release 2
+http://hmmer.org/
+TJW, Sun Feb 22 07:59:45 2015
+________________________________________________________________
+
+3.1b2 includes the following large changes:
+
+
+-:- New heuristic for accelerating nhmmer roughly 10-fold. 
+
+    We have developed a new algorithm that accelerates DNA search in 
+    nhmmer. The acceleration can be tuned, such that greater speed will
+    tend to decrease sensitivity. The default settings yield roughly 
+    10-fold acceleration while retaining nearly complete sensitivity 
+    among hits with E-value < 1e-3 (with a modest loss in sensitivity 
+    among marginal hits with  E > 1e-3)
+    
+    This algorithm requires that the sequence database first be 
+    preprocessed into a binary file format. The new tool makehmmerdb 
+    performs this task.
+    
+-:- New method of deciding if a sequence is a fragment. 
+    
+    If hmmbuild determines that a sequence is a fragment, all leading and 
+    trailing gap symbols (all gaps before the first residue and after the 
+    last residue) are treated as missing data symbols, and thus do not 
+    count as observed gaps.
+    
+    In H3.0 and H3.1b1, a sequence was called a fragment if its length was
+    less than a specified fraction of the alignment length. In the case of 
+    alignments with many sequences, this often resulted in all sequences
+    being labeled as fragments, which could lead to unexpected terminal 
+    match states when a small fraction of sequences contained a long 
+    terminal extension. Now, a sequence is labeled a fragment if its range 
+    in the alignment (the number of alignment columns between the first 
+    and last positions of the sequence) is not greater than a specified 
+    fraction of the full alignment length. This should improve HMMER's 
+    ability to model alignments with ragged ends.
+        
+    
+Other changes include:
+
+-:- The DNA search tool, nhmmer, depends on a value MAXL, which hmmbuild
+    computes as an assertion of the maximum length at which HMMER 
+    expects to see an instance of the model. This value could previously 
+    become excessively long when building a model from an alignment with 
+    many long insertions. The MAXL value computed by hmmbuild for DNA 
+    alignments is now limited to 20*M, where M is the # of match states.
+
+-:- A new tool, called hmmlogo, that computes letter height and indel
+    parameters that can be used to produce a profile HMM logo. This tool
+    can be thought of as a command-line interface for the data underlying
+    the Skylign logo server (skylign.org).
+
+
+Bugfixes:
+
+-:- #h100 hmmalign would segfault on a zero length input sequence. 
+
+-:- #h101 hmmsearch would segfault when searching a DNA HMM against a 
+          protein db (on Linux only).
+
+-:- #h102 Marginal hits late in a target sequence database were subject 
+          to being filtered in an nhmmer search. This was due to a score 
+          filter that (a) was intended to accelerate search, but had 
+          essentially no impact on speed, and (b) was an overly 
+          aggressive filter. Removed the filter.
+
+-:- #h103 Error printing very small E-values. Closely related to #h98, 
+          but occuring in the main thread (#h98 fixed the same problem
+          in worker threads).
+
+-:- #h104 HMMER would not compile on OpenBSD, because netinet/in.h was
+          not included. This header file is included via arpa/inet.h 
+          on most other systems, but not on OpenBSD.
+ 
+-:- #h105 Errors encountered while running 'make clean' and 'make distclean'
+          in binary builds. This was the result of the Makefile trying to
+          remove the userguide folder and LICENSE.txt file, which are 
+          already removed in the release process. The Makefile now accounts
+          for this possibility.
+          
+-:- #h106 H3 failed to read some old H2 HMM files. This happened in the 
+          cases that (1) there was an empty DESC field in the file, or (2) 
+          the model was not normalized. Both cases have been resolved.
+          
+-:- #h107 hmmsim only worked for Amino Acid models. It now works for 
+          nucleotide models, also.
+                   
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/alimask.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/alimask.1
new file mode 100755
index 0000000..a2251c5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/alimask.1
@@ -0,0 +1,323 @@
+.TH "alimask" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+alimask - Add mask line to a multiple sequence alignment
+
+.SH SYNOPSIS
+.B alimask
+.I [options]
+.I <msafile>
+.I <postmsafile>
+
+
+.SH DESCRIPTION
+
+.PP
+.B alimask
+is used to apply a mask line to a multiple sequence
+alignment, based on provided alignment or model coordinates.
+When 
+.B hmmbuild
+receives a masked alignment as input, it produces a profile
+model in which the emission probabilities at masked positions
+are set to match the background frequency, rather than being
+set based on observed frequencies in the alignment. 
+Position-specific insertion and deletion rates are not 
+altered, even in masked regions. 
+.B alimask
+autodetects input format, and produces masked alignments 
+in Stockholm format.  
+.I <msafile> 
+may contain only one sequence alignment.
+
+.PP
+A common motivation for masking a region in an alignment is
+that the region contains a simple tandem repeat that is 
+observed to cause an unacceptably high rate of false positive
+hits. 
+
+.PP
+In the simplest case, a mask range is given in coordinates 
+relative to the input alignment, using
+.BI --alirange " <s>". 
+However it is more often the case that the region to be 
+masked has been identified in coordinates relative to 
+the profile model (e.g. based on recognizing a simple 
+repeat pattern in false hit alignments or in the HMM logo). 
+Not all alignment columns are converted to match state 
+positions in the profile (see the 
+.I --symfrac
+flag for 
+.B hmmbuild
+for discussion), so model positions do not necessarily match 
+up to alignment column positions. 
+To remove the burden of converting model positions to 
+alignment positions, 
+.B alimask
+accepts the mask range input in model coordinates as well, 
+using
+.BI --modelrange " <s>". 
+When using this flag, 
+.I alimask
+determines which alignment positions would be identified by
+.B hmmbuild
+as match states, a process that requires that all
+.B hmmbuild 
+flags impacting that decision be supplied to 
+.BR alimask .
+It is for this reason that many of the 
+.B hmmbuild 
+flags are also used by
+.BR alimask .  
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -o " <f>"
+Direct the summary output to file
+.IR <f> ,
+rather than to
+.IR stdout .
+
+
+.SH OPTIONS FOR SPECIFYING MASK RANGE
+
+A single mask range is given as a dash-separated pair, like
+.I "--modelrange 10-20"
+and multiple ranges may be submitted as a comma-separated list,
+.IR "--modelrange 10-20,30-42" .
+
+
+.TP
+.BI --modelrange " <s>"
+Supply the given range(s) in model coordinates. 
+
+.TP
+.BI --alirange " <s>"
+Supply the given range(s) in alignment coordinates. 
+
+.TP
+.B --apendmask 
+Add to the existing mask found with the alignment.
+The default is to overwrite any existing mask. 
+
+.TP
+.BI --model2ali " <s>"
+Rather than actually produce the masked alignment, simply
+print model range(s) corresponding to input alignment 
+range(s).
+
+.TP
+.BI --ali2model " <s>"
+Rather than actually produce the masked alignment, simply
+print alignment range(s) corresponding to input model 
+range(s).
+
+
+.SH OPTIONS FOR SPECIFYING THE ALPHABET
+
+The alphabet type (amino, DNA, or RNA) is autodetected by default, by
+looking at the composition of the
+.IR msafile .
+Autodetection is normally quite reliable, but occasionally alphabet
+type may be ambiguous and autodetection can fail (for instance, on
+tiny toy alignments of just a few residues). To avoid this, or to
+increase robustness in automated analysis pipelines, you may specify
+the alphabet type of
+.I msafile
+with these options.
+
+.TP
+.B --amino
+Specify that all sequences in 
+.I msafile
+are proteins.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I msafile
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I msafile
+are RNAs.
+
+
+
+.SH OPTIONS CONTROLLING PROFILE CONSTRUCTION 
+
+These options control how consensus columns are defined in an alignment.
+
+.TP
+.B --fast 
+Define consensus columns as those that have a fraction >= 
+.B symfrac
+of residues as opposed to gaps. (See below for the
+.B --symfrac
+option.) This is the default.
+
+.TP
+.B --hand
+Define consensus columns in next profile using reference annotation to
+the multiple alignment. 
+This allows you to define any consensus columns you like.
+
+.TP
+.BI --symfrac " <x>"
+Define the residue fraction threshold necessary to define a
+consensus column when using the 
+.B --fast 
+option. The default is 0.5. The symbol fraction in each column
+is calculated after taking relative sequence weighting into account,
+and ignoring gap characters corresponding to ends of sequence
+fragments
+(as opposed to internal insertions/deletions).
+Setting this to 0.0 means that every alignment column will be assigned
+as consensus, which may be useful in some cases. Setting it to 1.0
+means that only columns that include 0 gaps (internal
+insertions/deletions) will be assigned as consensus.
+
+.TP
+.BI --fragthresh " <x>"
+We only want to count terminal gaps as deletions if the aligned
+sequence is known to be full-length, not if it is a fragment (for
+instance, because only part of it was sequenced). HMMER uses a simple
+rule to infer fragments: if the sequence length L is less than 
+or equal to a fraction
+.I <x> 
+times the alignment length in columns,
+then the sequence is handled as a fragment. The default is 0.5.
+Setting
+.BI --fragthresh 0
+will define no (nonempty) sequence as a fragment; you might want to do
+this if you know you've got a carefully curated alignment of full-length
+sequences.
+Setting
+.BI --fragthresh 1
+will define all sequences as fragments; you might want to do this if
+you know your alignment is entirely composed of fragments, such as
+translated short reads in metagenomic shotgun data.
+
+
+.SH OPTIONS CONTROLLING RELATIVE WEIGHTS
+
+HMMER uses an ad hoc sequence weighting algorithm to downweight
+closely related sequences and upweight distantly related ones. This
+has the effect of making models less biased by uneven phylogenetic
+representation. For example, two identical sequences would typically
+each receive half the weight that one sequence would.  These options
+control which algorithm gets used.
+
+.TP
+.B --wpb
+Use the Henikoff position-based sequence weighting scheme [Henikoff
+and Henikoff, J. Mol. Biol. 243:574, 1994].  This is the default.
+
+.TP 
+.B --wgsc 
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm [Gerstein et
+al, J. Mol. Biol. 235:1067, 1994].
+
+.TP 
+.B --wblosum
+Use the same clustering scheme that was used to weight data in
+calculating BLOSUM subsitution matrices [Henikoff and Henikoff,
+Proc. Natl. Acad. Sci 89:10915, 1992]. Sequences are single-linkage
+clustered at an identity threshold (default 0.62; see
+.IR --wid )
+and within each cluster of c sequences, each sequence gets relative
+weight 1/c.
+
+.TP
+.B --wnone
+No relative weights. All sequences are assigned uniform weight. 
+
+.TP 
+.BI --wid " <x>"
+Sets the identity threshold used by single-linkage clustering when 
+using 
+.IR --wblosum . 
+Invalid with any other weighting scheme. Default is 0.62.
+
+
+
+
+
+.SH OTHER OPTIONS
+
+.TP 
+.BI --informat " <s>"
+Declare that the input
+.I msafile
+is in format 
+.IR <s> .
+Currently the accepted multiple alignment sequence file formats 
+include Stockholm, Aligned FASTA, Clustal, NCBI PSI-BLAST, PHYLIP, 
+Selex, and UCSC SAM A2M. Default is to autodetect the format of
+the file.
+
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is nonzero, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmalign.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmalign.1
new file mode 100755
index 0000000..e6c4d76
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmalign.1
@@ -0,0 +1,165 @@
+.TH "hmmalign" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmalign - align sequences to a profile HMM
+
+.SH SYNOPSIS
+.B hmmalign
+.I [options]
+.I <hmmfile>
+.I <seqfile>
+
+.SH DESCRIPTION
+
+.PP
+Perform a multiple sequence alignment of all the sequences in
+.I <seqfile>
+by aligning them individually to the profile HMM in
+.I <hmmfile>.
+The new alignment is output to 
+.I stdout
+in Stockholm format.
+
+.PP 
+The
+.I <hmmfile>
+should contain only a single profile. If it contains more, only the
+first profile in the file will be used. 
+
+.PP
+Either 
+.I <hmmfile> 
+or 
+.I <seqfile> 
+(but not both) may be '-' (dash), which
+means reading this input from
+.I stdin
+rather than a file.  
+
+.PP
+The sequences in 
+.I <seqfile>
+are aligned in unihit local alignment mode.  Therefore they should
+already be known to contain only a single domain (or a fragment of one).
+The optimal alignment
+may assign some residues as nonhomologous (N and C states), in which
+case these residues are still included in the resulting alignment, but
+shoved to the outer edges. To trim these unaligned nonhomologous residues from
+the result, see the
+.B --trim
+option.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -o " <f>"
+Direct the output alignment to file
+.I <f>,
+rather than to
+.I stdout.
+
+.TP
+.BI --mapali " <f>"
+Merge the existing alignment in file 
+.I <f>
+into the result, where 
+.I <f> 
+is exactly the same alignment that was used to build the model in  
+.I <hmmfile>.
+This is done using a map of alignment columns to consensus 
+profile positions that is stored in the
+.I <hmmfile>.
+The multiple alignment in 
+.I <f>
+will be exactly reproduced in its consensus columns (as defined by the
+profile), but the displayed alignment in insert columns may be
+altered, because insertions relative to a profile are considered by
+convention to be unaligned data.
+
+
+.TP
+.B --trim
+Trim nonhomologous residues (assigned to N and C states in the optimal
+alignments) from the resulting multiple alignment output. 
+
+.TP
+.B --amino
+Specify that all sequences in 
+.I <seqfile>
+are proteins. By default, alphabet type is autodetected
+from looking at the residue composition.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I <seqfile>
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I <seqfile>
+are RNAs.
+
+.TP 
+.BI --informat " <s>"
+Declare that the input
+.I <seqfile>
+is in format 
+.I <s>.
+Accepted sequence file formats include FASTA, EMBL, GenBank, DDBJ,
+UniProt, Stockholm, and SELEX. Default is to autodetect the format of
+the file.
+
+.TP 
+.BI --outformat " <s>"
+Specify that the output multiple alignment
+is in format 
+.I <s>.
+Currently the accepted multiple alignment sequence file formats only
+include Stockholm and SELEX.
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+The Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmbuild.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmbuild.1
new file mode 100755
index 0000000..9c5cd5c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmbuild.1
@@ -0,0 +1,505 @@
+.TH "hmmbuild" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmbuild - construct profile HMM(s) from multiple sequence alignment(s)
+
+.SH SYNOPSIS
+.B hmmbuild
+.I [options]
+.I <hmmfile_out>
+.I <msafile>
+
+
+.SH DESCRIPTION
+
+For each multiple sequence alignment in 
+.I <msafile>
+build a profile HMM 
+and save it to a new file
+.IR <hmmfile_out> .
+
+
+.PP
+.I <msafile> 
+may be '-' (dash), which means
+reading this input from
+.I stdin
+rather than a file. 
+To use '-', you must also specify the
+alignment file format with
+.BI --informat " <s>",
+as in
+.B "--informat stockholm"
+(because of a current limitation in our implementation,
+MSA file formats cannot be autodetected in a nonrewindable
+input stream.)
+
+.PP
+.I <hmmfile_out>
+may not be '-' 
+.IR (stdout) ,
+because sending the HMM file to 
+.I stdout
+would conflict with the other text
+output of the program.
+
+
+
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -n " <s>"
+Name the new profile 
+.IR <s> .
+The default is to use the name of the alignment (if one is present in 
+the 
+.IR msafile ,
+or, failing that, the name of the
+.IR hmmfile .
+If 
+.I msafile
+contains more than one alignment, 
+.I -n
+doesn't work, and every alignment must have a name 
+annotated in the 
+.I msafile
+(as in Stockholm #=GF ID annotation).
+
+
+.TP
+.BI -o " <f>"
+Direct the summary output to file
+.IR <f> ,
+rather than to
+.IR stdout .
+
+.TP
+.BI -O " <f>"
+After each model is constructed, resave annotated, possibly modified
+source alignments to a file
+.I <f>
+in Stockholm format.
+The alignments are annotated with a reference annotation line
+indicating which columns were assigned as consensus, and sequences are
+annotated with what relative sequence weights were assigned. Some
+residues of the alignment may have been shifted to accommodate
+restrictions of the Plan7 profile architecture, which disallows
+transitions between insert and delete states.
+
+
+.SH OPTIONS FOR SPECIFYING THE ALPHABET
+
+The alphabet type (amino, DNA, or RNA) is autodetected by default, by
+looking at the composition of the
+.IR msafile .
+Autodetection is normally quite reliable, but occasionally alphabet
+type may be ambiguous and autodetection can fail (for instance, on
+tiny toy alignments of just a few residues). To avoid this, or to
+increase robustness in automated analysis pipelines, you may specify
+the alphabet type of
+.I msafile
+with these options.
+
+.TP
+.B --amino
+Specify that all sequences in 
+.I msafile
+are proteins.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I msafile
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I msafile
+are RNAs.
+
+
+
+.SH OPTIONS CONTROLLING PROFILE CONSTRUCTION 
+
+These options control how consensus columns are defined in an alignment.
+
+.TP
+.B --fast 
+Define consensus columns as those that have a fraction >= 
+.B symfrac
+of residues as opposed to gaps. (See below for the
+.B --symfrac
+option.) This is the default.
+
+.TP
+.B --hand
+Define consensus columns in next profile using reference annotation to
+the multiple alignment. 
+This allows you to define any consensus columns you like.
+
+.TP
+.BI --symfrac " <x>"
+Define the residue fraction threshold necessary to define a
+consensus column when using the 
+.B --fast 
+option. The default is 0.5. The symbol fraction in each column
+is calculated after taking relative sequence weighting into account,
+and ignoring gap characters corresponding to ends of sequence
+fragments
+(as opposed to internal insertions/deletions).
+Setting this to 0.0 means that every alignment column will be assigned
+as consensus, which may be useful in some cases. Setting it to 1.0
+means that only columns that include 0 gaps (internal
+insertions/deletions) will be assigned as consensus.
+
+.TP
+.BI --fragthresh " <x>"
+We only want to count terminal gaps as deletions if the aligned
+sequence is known to be full-length, not if it is a fragment (for
+instance, because only part of it was sequenced). HMMER uses a simple
+rule to infer fragments: if the range of a sequence in the alignment 
+(the number of alignment columns between the first and last positions 
+of the sequence) is less than or equal to a fraction
+.I <x> 
+times the alignment length in columns,
+then the sequence is handled as a fragment. The default is 0.5.
+Setting
+.BI --fragthresh 0
+will define no (nonempty) sequence as a fragment; you might want to do
+this if you know you've got a carefully curated alignment of full-length
+sequences.
+Setting
+.BI --fragthresh 1
+will define all sequences as fragments; you might want to do this if
+you know your alignment is entirely composed of fragments, such as
+translated short reads in metagenomic shotgun data.
+
+
+.SH OPTIONS CONTROLLING RELATIVE WEIGHTS
+
+HMMER uses an ad hoc sequence weighting algorithm to downweight
+closely related sequences and upweight distantly related ones. This
+has the effect of making models less biased by uneven phylogenetic
+representation. For example, two identical sequences would typically
+each receive half the weight that one sequence would.  These options
+control which algorithm gets used.
+
+.TP
+.B --wpb
+Use the Henikoff position-based sequence weighting scheme [Henikoff
+and Henikoff, J. Mol. Biol. 243:574, 1994].  This is the default.
+
+.TP 
+.B --wgsc 
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm [Gerstein et
+al, J. Mol. Biol. 235:1067, 1994].
+
+.TP 
+.B --wblosum
+Use the same clustering scheme that was used to weight data in
+calculating BLOSUM subsitution matrices [Henikoff and Henikoff,
+Proc. Natl. Acad. Sci 89:10915, 1992]. Sequences are single-linkage
+clustered at an identity threshold (default 0.62; see
+.IR --wid )
+and within each cluster of c sequences, each sequence gets relative
+weight 1/c.
+
+.TP
+.B --wnone
+No relative weights. All sequences are assigned uniform weight. 
+
+.TP 
+.BI --wid " <x>"
+Sets the identity threshold used by single-linkage clustering when 
+using 
+.IR --wblosum . 
+Invalid with any other weighting scheme. Default is 0.62.
+
+
+
+
+.SH OPTIONS CONTROLLING EFFECTIVE SEQUENCE NUMBER
+
+After relative weights are determined, they are normalized to sum to a
+total effective sequence number, 
+.IR eff_nseq . 
+This number may be the actual number of sequences in the alignment,
+but it is almost always smaller than that.
+The default entropy weighting method 
+.I (--eent)
+reduces the effective sequence
+number to reduce the information content (relative entropy, or average
+expected score on true homologs) per consensus position. The target
+relative entropy is controlled by a two-parameter function, where the
+two parameters are settable with
+.I --ere
+and 
+.IR --esigma .
+
+.TP
+.B --eent
+Adjust effective sequence number to achieve a specific relative entropy
+per position (see
+.IR --ere ).
+This is the default.
+
+.TP
+.B --eclust
+Set effective sequence number to the number of single-linkage clusters
+at a specific identity threshold (see 
+.IR --eid ).
+This option is not recommended; it's for experiments evaluating
+how much better
+.B --eent
+is.
+
+.TP
+.B --enone
+Turn off effective sequence number determination and just use the
+actual number of sequences. One reason you might want to do this is
+to try to maximize the relative entropy/position of your model, which
+may be useful for short models.
+
+.TP
+.BI --eset " <x>"
+Explicitly set the effective sequence number for all models to 
+.IR <x> .
+
+.TP
+.BI --ere " <x>"
+Set the minimum relative entropy/position target to 
+.IR <x> .
+Requires
+.BR --eent . 
+Default depends on the sequence alphabet. For protein
+sequences, it is 0.59 bits/position; for nucleotide 
+sequences, it is 0.45 bits/position.
+
+.TP
+.BI --esigma " <x>"
+Sets the minimum relative entropy contributed by an entire
+model alignment, over its whole length. This has the effect
+of making short models have 
+higher relative entropy per position than 
+.I --ere 
+alone would give. The default is 45.0 bits.
+
+.TP
+.BI --eid " <x>"
+Sets the fractional pairwise identity cutoff used by 
+single linkage clustering with the
+.B --eclust 
+option. The default is 0.62.
+
+
+.SH OPTIONS CONTROLLING PRIORS
+
+By default, weighted counts are converted to mean posterior
+probability parameter estimates using mixture Dirichlet priors.
+Default mixture Dirichlet prior parameters for protein models and for
+nucleic acid (RNA and DNA) models are built in. The following options
+allow you to override the default priors.
+
+.TP
+.B --pnone
+Don't use any priors. Probability parameters will simply be the
+observed frequencies, after relative sequence weighting. 
+
+.TP
+.B --plaplace
+Use a Laplace +1 prior in place of the default mixture Dirichlet
+prior.
+
+
+
+.SH OPTIONS CONTROLLING E-VALUE CALIBRATION
+
+The location parameters for the expected score distributions for MSV
+filter scores, Viterbi filter scores, and Forward scores require three
+short random sequence simulations.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off for your
+site or machine for some reason.
+
+
+.TP 
+.BI --informat " <s>"
+Declare that the input
+.I msafile
+is in format 
+.IR <s> .
+Currently the accepted multiple alignment sequence file formats 
+include Stockholm, Aligned FASTA, Clustal, NCBI PSI-BLAST, PHYLIP, 
+Selex, and UCSC SAM A2M. Default is to autodetect the format of
+the file.
+
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is nonzero, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+
+.TP 
+.BI --w_beta " <x>"
+Window length tail mass.
+The upper bound,
+.IR W ,
+on the length at which nhmmer expects to find an instance of the 
+model is set such that the fraction of all sequences generated
+by the model with length 
+.I ">= W"
+is less than  
+.IR <x> . 
+The default is 1e-7. 
+
+
+
+.TP 
+.BI --w_length " <n>"
+Override the model instance length upper bound,
+.IR W ,
+which is otherwise controlled by
+.BR --w_beta . 
+It should be larger than the model length. The value of 
+.I W
+is used deep in the acceleration pipeline, and modest changes
+are not expected to impact results (though larger values of 
+.I W
+do lead to longer run time). 
+
+
+.TP
+.B --mpi
+Run as a parallel MPI program. Each alignment is assigned to a MPI
+worker node for construction. (Therefore, the maximum parallelization 
+cannot exceed the number of alignments in the input
+.IR msafile .)
+This is useful when building large profile libraries. This option is
+only available if optional MPI capability was enabled at compile-time.
+
+
+.TP 
+.B --stall
+For debugging MPI parallelization: arrest program execution
+immediately after start, and wait for a debugger to attach to the
+running process and release the arrest.
+
+
+.TP 
+.BI --maxinsertlen " <n>"
+Restrict insert length parameterization such that the expected
+insert length at each position of the model is no more than
+.IR <n> . 
+ 
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmconvert.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmconvert.1
new file mode 100755
index 0000000..45d046c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmconvert.1
@@ -0,0 +1,106 @@
+.TH "hmmconvert" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmconvert - convert profile file to a HMMER format
+
+
+.SH SYNOPSIS
+.B hmmconvert
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+The
+.B hmmconvert 
+utility
+converts an input profile file to different HMMER formats.
+
+.PP
+By default, the input profile can be in any HMMER format, including
+old/obsolete formats from HMMER2, ASCII or binary; the output profile
+is a current HMMER3 ASCII format.
+
+.PP
+.I <hmmfile> 
+may be '-' (dash), which
+means reading this input from
+.I stdin
+rather than a file.  
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP 
+.B -a
+Output profiles in ASCII text format. This is the default.
+
+.TP 
+.B -b
+Output profiles in binary format. 
+
+.TP 
+.B -2
+Output in legacy HMMER2 ASCII text format, in ls (glocal) mode. This
+allows HMMER3 models to be converted back to a close approximation of
+HMMER2, for comparative studies.
+
+.TP 
+.BI --outfmt " <s>"
+Output in a HMMER3 ASCII text format other then the most current one.
+Valid choices for 
+.I <s>
+are 3/a through 3/f.
+The current format is 3/f, and this is the default. The format 3/b 
+was used in the official HMMER3 release, and the others were used in
+the various testing versions.
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+pFreely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+"
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmemit.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmemit.1
new file mode 100755
index 0000000..6d634a6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmemit.1
@@ -0,0 +1,256 @@
+.TH "hmmemit" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmemit - sample sequences from a profile HMM
+
+.SH SYNOPSIS
+.B hmmemit
+.I [options]
+.I hmmfile
+
+
+.SH DESCRIPTION
+
+.PP
+The 
+.B hmmemit
+program 
+samples (emits) sequences from the profile HMM(s) in
+.IR hmmfile ,
+and writes them to output.
+Sampling sequences may be useful for a variety of purposes, including
+creating synthetic true positives for benchmarks or tests.
+
+.PP
+The default is to sample one unaligned sequence from the core
+probability model, which means that each sequence consists of one
+full-length domain.  Alternatively, with the
+.B -c
+option, you can emit a simple majority-rule consensus sequence;
+or with the
+.B -a 
+option, you can emit an alignment (in which case, you probably
+also want to set 
+.B -N 
+to something other than its default of 1 sequence per model).
+
+.PP
+As another option, with the
+.B -p
+option you can sample a sequence from a fully configured HMMER search
+profile. This means sampling a `homologous sequence' by HMMER's
+definition, including nonhomologous flanking sequences, local
+alignments, and multiple domains per sequence, depending on the length
+model and alignment mode chosen for the profile.
+
+.PP
+The
+.I hmmfile 
+may contain a library of HMMs, in which case
+each HMM will be used in turn.
+
+.PP
+.I <hmmfile> 
+may be '-' (dash), which
+means reading this input from
+.I stdin
+rather than a file.  
+
+
+.SH COMMON OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.TP
+.BI -o " <f>"
+Direct the output sequences to file
+.IR <f> ,
+rather than to
+.IR stdout .
+
+.TP
+.BI -N " <n>"
+Sample
+.I <n>
+sequences per model, rather than just one.
+
+
+
+.SH OPTIONS CONTROLLING WHAT TO EMIT
+
+The default is to sample
+.B N
+sequences from the core model. Alternatively,
+you may choose one (and only one) of the following alternatives.
+
+
+.TP
+.B -a
+Emit an alignment for each HMM in the 
+.I hmmfile
+rather than sampling unaligned sequences one at a time.
+
+.TP
+.B -c
+Emit a plurality-rule consensus sequence, instead of sampling a
+sequence from the profile HMM's probability distribution. The
+consensus sequence is formed by selecting the maximum probability
+residue at each match state.
+
+.TP
+.B -C
+Emit a fancier plurality-rule consensus sequence than the
+.B -c
+option. If the maximum probability residue has p < 
+.B minl
+show it as a lower case 'any' residue (n or x); if p >= 
+.B minl 
+and < 
+.B minu 
+show it as a lower case residue; and if p >= 
+.B minu
+show it as an upper case residue.
+The default settings of 
+.B minu
+and 
+.B minl 
+are both 0.0, which means
+.B -C 
+gives the same output as 
+.B -c 
+unless you also set 
+.B minu
+and
+.B minl 
+to what you want.
+
+.TP
+.B -p
+Sample unaligned sequences from the implicit search profile, not from
+the core model.  The core model consists only of the homologous states
+(between the begin and end states of a HMMER Plan7 model). The profile
+includes the nonhomologous N, C, and J states, local/glocal and
+uni/multihit algorithm configuration, and the target length model.
+Therefore sequences sampled from a profile may include nonhomologous
+as well as homologous sequences, and may contain more than one
+homologous sequence segment. By default, the profile is in multihit
+local mode, and the target sequence length is configured for L=400. 
+
+
+
+
+.SH OPTIONS CONTROLLING EMISSION FROM PROFILES
+
+These options require that you have set the
+.B -p
+option.
+
+.TP
+.BI -L " <n>"
+Configure the profile's target sequence length model to generate a
+mean length of approximately <n> rather than the default of 400.
+
+.TP
+.B --local
+Configure the profile for multihit local alignment.
+
+.TP
+.B --unilocal
+Configure the profile for unihit local alignment (Smith/Waterman).
+
+.TP
+.B --glocal
+Configure the profile for multihit glocal alignment.
+
+.TP
+.B --uniglocal
+Configure the profile for unihit glocal alignment.
+
+
+.SH OPTIONS CONTROLLING FANCY CONSENSUS EMISSION
+
+These options require that you have set the
+.BR "-C option" .
+
+.TP
+.BI --minl " <x>"
+Sets the 
+.B minl
+threshold for showing weakly conserved residues as lower case.
+(0 <= x <= 1)
+
+.TP
+.BI --minu " <x>"
+Sets the 
+.B minu 
+threshold for showing strongly conserved residues as upper case.
+(0 <= x <= 1)
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is nonzero, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default is 0: use an arbitrary seed, so different
+.B hmmemit
+runs will generate different samples.
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmer.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmer.1
new file mode 100755
index 0000000..842b6a7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmer.1
@@ -0,0 +1,194 @@
+.TH "HMMER" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+
+HMMER - profile HMMs for biological sequence analysis
+
+.SH SYNOPSIS
+
+.B hmmalign
+  Align sequences to a profile
+
+.B hmmbuild
+  Construct profile(s) from multiple sequence alignment(s)
+
+.B hmmconvert
+  Convert profile file to various HMMER and non-HMMER formats
+
+.B hmmemit
+  Sample sequences from a profile
+
+.B hmmfetch
+  Retrieve profile HMM(s) from a file
+
+.B hmmpgmd
+  Daemon used for hmmer.org web server, for phmmer-, hmmsearch-, and hmmscan-like search 
+
+.B hmmpress
+  Prepare an HMM database for hmmscan
+
+.B hmmscan
+  Search protein sequence(s) against a protein profile database
+
+.B hmmsearch
+  Search protein profile(s) against a protein sequence database
+
+.B hmmsim
+  Collect profile score distributions on random sequences
+
+.B hmmstat
+  Summary statistics for a profile file
+
+.B jackhmmer
+  Iterative search of a protein sequence against a protein sequence database  
+
+.B nhmmer
+  Search nucleotide sequence(s), alignment(s), or profile(s) against a nucleotide sequence database
+
+.B nhmmscan
+  Search nucleotide sequence(s) against a nucleotide profile database
+
+.B phmmer
+  Search a protein sequence(s) against a protein sequence database
+
+
+.SH DESCRIPTION
+
+HMMER is a suite of several programs for biological sequence alignment
+and database homology search. It uses probabilistic models called
+"profile hidden Markov models" (profile HMMs) to represent the likely
+evolutionary homologs of a single sequence or a multiple alignment of
+a sequence family. A main avenue of research is to improve the
+evolutionary predictive models in HMMER to be able to recognize and
+accurately align increasingly remote homologs, distant in time.
+
+HMMER is also used as an organizational tool, to group the
+exponentially growing number of biological sequences into a vastly
+smaller set of well-annotated sequence families. New sequences can be
+annotated by comparison against curated sequence family databases of
+prebuilt HMMER profiles, in addition or instead of comparison to the
+entire sequence database. Databases such as Pfam, SMART, and
+TIGRfams, among others, are based on this principle.
+
+HMMER is used in three main modes: to search a sequence database for
+new homologs of a sequence or a sequence family; to search a profile
+database (like Pfam) to find what known family a query sequence
+belongs to, or what domains it has; and to automatically construct
+large multiple alignments (i.e. with an effectively unlimited number
+of sequences) using a profile representative of a sequence family.
+
+
+Suppose you have a multiple sequence alignment of a sequence family of
+interest, and you want to search a sequence database for additional
+homologs. The
+.B hmmbuild 
+program builds profile(s) from multiple alignment(s). 
+The
+.B hmmsearch
+program searches protein profile(s) against a protein sequence database,
+and 
+.B nhmmer
+searches nucleotide profile(s) against a nucleotide sequence database.
+
+Suppose you have a single sequence of interest, and you want to search
+a sequence database for additional homologs. The
+.B phmmer
+program searches a single protein sequence against a protein sequence
+database. The
+.B jackhmmer 
+program does the same thing but iteratively -- homologs detected in a
+previous round are incorporated into a new profile, and the new
+profile is searched again. 
+.B phmmer 
+is used like BLASTP, and 
+.B jackhmmer
+is used like a protein PSI-BLAST. The
+.B nhmmer
+program searches a single nucleotide sequence against a nucleotide sequence.
+
+Suppose you have sequence(s) that you want to analyze using a
+HMMER-based profile HMM database like Pfam (http://pfam.sanger.ac.uk).
+The
+.B hmmpress
+program formats a profile HMM flatfile (such as the file you
+would download from Pfam) into a HMMER binary database.
+The 
+.B hmmscan
+program searches protein sequence(s) against that database.
+The 
+.B nhmmscan
+program can similarly search nucleotide sequence(s) against
+a pressed database of nucleotide profiles, such as from 
+Dfam (http://dfam.janelia.org).
+
+
+Suppose you want to align lots of sequences. You can construct a
+manageably small alignment of a representative set of sequences,
+build a profile with
+.BR hmmbuild ,
+and use the
+.B hmmalign 
+program to align any number of sequences to that profile.
+
+HMMER also includes some auxiliary tools for working with large
+profile databases.
+.B hmmfetch 
+fetches one or more profiles from a database.
+.B hmmstat 
+prints summary statistics about a profile file.
+
+For compatibility with other profile software and previous versions of
+HMMER, the
+.B hmmconvert
+program converts profiles to a few other formats. We intend to add
+more support for other formats over time.
+
+The
+.B hmmemit 
+program generates (simulates) "homologous" sequences by sampling from
+a profile. It can also generate a "consensus" sequence.
+
+The 
+.B hmmsim
+program is a simulator used for collecting statistics about score
+distributions on random sequences. 
+
+Each program has its own man page.
+
+
+.SH SEE ALSO 
+
+This is a summary man page for the entire HMMER3 package.
+See individual man pages
+.BR [hmmbuild(1) ,
+for example]
+for usage, options, and description of each program in the package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmfetch.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmfetch.1
new file mode 100755
index 0000000..7cfe0f0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmfetch.1
@@ -0,0 +1,211 @@
+.TH "hmmfetch" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmfetch - retrieve profile HMM(s) from a file
+
+.SH SYNOPSIS
+
+.B hmmfetch
+.I [options]
+.I <hmmfile>
+.I <key>
+ (retrieves HMM named <key>)
+
+.B "hmmfetch -f"
+.I [options]
+.I <hmmfile>
+.I <keyfile>
+ (retrieves all HMMs listed in <keyfile>)
+
+.B "hmmfetch --index"
+.I [options]
+.I <hmmfile>
+ (indexes <hmmfile> for fetching)
+
+
+.SH DESCRIPTION
+
+.PP
+Quickly retrieves one or more profile HMMs from an
+.I <hmmfile>
+(a large Pfam database, for example). 
+
+.PP
+For maximum speed, the 
+.I <hmmfile>
+should be indexed first, using
+.BR "hmmfetch --index" .
+The index is a binary file named
+.IR <hmmfile>.ssi .
+However, this is optional, and retrieval will still
+work from unindexed files, albeit much more slowly.
+
+.PP
+The default mode is to retrieve a single profile by name or
+accession, called the
+.IR <key> .
+For example:
+
+.nf
+  % hmmfetch Pfam-A.hmm Caudal_act
+  % hmmfetch Pfam-A.hmm PF00045
+.fi
+
+.PP
+With the
+.I -f
+option, a 
+.I <keyfile> 
+containing a list of one or more keys is read instead. 
+The first whitespace-delimited field on each non-blank non-comment
+line of the
+.I <keyfile> 
+is used as a 
+.IR <key> ,
+and any remaining data on the line is ignored. This allows
+a variety of whitespace delimited datafiles to be used
+as 
+.IR <keyfile>s .
+
+.PP
+When using
+.I -f 
+and a
+.IR <keyfile> ,
+if 
+.B hmmfile 
+has been indexed, the keys are retrieved in the order
+they occur in the 
+.IR keyfile ,
+but if 
+.B hmmfile 
+isn't indexed, keys are retrieved in the order they occur
+in the 
+.BR hmmfile . 
+This is a side effect of an implementation that allows
+multiple keys to be retrieved even if the
+.B <hmmfile> 
+is a nonrewindable stream, like a standard input pipe.
+
+.PP 
+In normal use
+(without
+.I --index
+or 
+.I -f
+options),
+.I <hmmfile> 
+may be '-' (dash), which
+means reading input from
+.I stdin
+rather than a file.  
+With the
+.I --index
+option, 
+.I <hmmfile>
+may not be '-'; it does not make sense
+to index a standard input stream.
+With the 
+.I -f 
+option,  
+either 
+.I <hmmfile> 
+or 
+.I <keyfile> 
+(but not both) may be '-'.
+It is often particularly useful to read
+.I <keyfile>
+from standard input, because this allows
+use to use arbitrary command line invocations to
+create a list of HMM names or accessions, then fetch them all
+to a new file, just with one command.
+
+.PP
+By default, fetched HMMs are printed to standard output in HMMER3 format.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.B -f
+The second commandline argument is a 
+.I <keyfile>
+instead of a single 
+.IR <key> .
+The first field on each line of the
+.I <keyfile> 
+is used as a retrieval 
+.I <key>
+(an HMM name or accession). 
+Blank lines and comment lines (that start with
+a # character) are ignored. 
+
+.TP
+.BI -o " <f>"
+Output HMM(s) to file
+.I <f>
+instead of to standard output.
+
+.TP
+.B -O
+Output HMM(s) to individual file(s) named
+.I <key>
+instead of standard output. With the
+.B -f 
+option, this can result in many files
+being created.
+
+.TP
+.B --index
+Instead of retrieving one or more profiles from
+.IR <hmmfile> ,
+index the
+.I <hmmfile>
+for future retrievals.
+This creates a
+.I <hmmfile>.ssi
+binary index file.
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmlogo.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmlogo.1
new file mode 100755
index 0000000..aa6e989
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmlogo.1
@@ -0,0 +1,103 @@
+.TH "hmmlogo" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmlogo - given an HMM, produce data required to build an HMM logo
+
+
+.SH SYNOPSIS
+.B hmmlogo
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+.B hmmlogo 
+computes letter height and indel parameters that can be used to 
+produce a profile HMM logo. This tool is essentially a 
+command-line interface for much of the data underlying the Skylign 
+logo server (skylign.org).
+
+By default, 
+.B hmmlogo
+prints out a table of per-position letter heights (dependent on the 
+requested height method), then prints a table of per-position gap
+probabilities. 
+
+In a typical logo, the total height of a stack of letters for one
+position depends on the information content of the position, and 
+that stack height is subdivided according to the emission 
+probabilities of the letters of the alphabet.
+ 
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.TP
+.B --height_relent_all
+Total height = relative entropy (aka information content); all letters 
+are given a positive height.  (default)
+
+.TP
+.B --height_relent_abovebg
+Total height = relative entropy (aka information content); only letters 
+with above-background probability are given positive height.
+
+.TP
+.B --height_score
+Total height = sums of scores of positive-scoring letters; letter
+height depends on the score of that letter at that position. Only 
+letters with above-background probability (positive score) are 
+given positive height. (Note that only letter height is meaningful -
+stack height has no inherent meaning).
+
+.TP
+.B --no_indel
+Don't print out the indel probability table.
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmpgmd.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmpgmd.1
new file mode 100755
index 0000000..061c8ca
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmpgmd.1
@@ -0,0 +1,233 @@
+.TH "hmmpgmd" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmpgmd - daemon for searching a protein query against a protein database 
+
+
+.SH SYNOPSIS
+.B hmmpgmd
+.I [options]
+
+
+.SH DESCRIPTION
+
+.PP
+The
+.B hmmpgmd 
+program is the daemon that we use internally for the hmmer.org web server, 
+and essentially stands in front of the protein search programs
+.BR phmmer , 
+.BR hmmsearch ,
+and 
+.BR hmmscan . 
+
+To use
+.BR hmmpgmd , 
+first an instance must be started up as a 
+.I master 
+server, and provided with at least one of a 
+.I "sequence database"
+(using the 
+.B --seqdb
+flag)
+and/or an 
+.I "HMM database"
+(using the
+.B --hmmdb
+flag). 
+A sequence database must be in the hmmpgmd format, which may be
+produced using 
+.BR esl-reformat .
+An HMM database is of the form produced by 
+.BR hmmbuild .
+The input database(s) will be loaded into memory by the 
+master. When the master has finished loading the database(s), it 
+prints the line:
+"Data loaded into memory. Master is ready."
+
+
+.PP
+Only after master is ready, one or more instances of hmmpgmd may
+be started as workers. These workers may be (and typically are) on
+different machines from the master, but must have access to the 
+same database file(s) provided to the master, with the same path. As 
+with the master, each worker loads the database(s) into memory, and 
+indicates completion by printing: "Data loaded into memory. Worker is ready."
+
+
+.PP
+The master server and workers are expected to remain running.
+One or more clients then connect to the master and submit possibly
+many queries. The master distributes the work of a query among the
+workers, collects results, and merges them before responding to the
+client. Two example client programs are included in the HMMER3.1 src 
+directory - the C program
+.B hmmc2
+and the perl script
+.BR hmmpgmd_client_example.pl .
+These are intended as examples only, and should be extended as 
+necessary to meet your needs. 
+
+.PP
+A query is submitted to the master from the client as a character
+string. Queries may be the sort that would normally be handled
+by 
+.B phmmer
+(protein sequence vs protein database),
+.B hmmsearch
+(protein HMM query vs protein database), or
+.B hmmscan
+(protein query vs protein HMM database).
+ 
+
+The general form of a client query is to start with a single line
+of the form 
+.IR "@[options]" , 
+followed by multiple lines of text representing either the query HMM 
+or fasta-formatted sequence. The final line of each query is the separator 
+.IR "//" .
+
+
+.PP
+For example, to perform a 
+.B phmmer
+type search of a sequence against a sequence database 
+file, the first line is of the form 
+.IR "@--seqdb 1" ,
+then the fasta-formatted query sequence starting with the header line
+.IR >sequence-name ,
+followed by one or more lines of sequence, and finally the closing
+.IR "//" .
+
+.PP
+To perform an
+.B hmmsearch 
+type search, the query sequence is replaced by the full
+text of a HMMER-format query HMM. 
+
+.PP
+To perform an
+.B hmmscan 
+type search, the text matches that of the 
+.B phmmer
+type search, except that the first line changes to 
+.IR "@--hmmdb 1" .
+
+.PP
+In the hmmpgmd-formatted sequence database file, each sequence
+can be associated with one or more sub-databases. The 
+.I --seqdb
+flag indicates which of these sub-databases will be queried. 
+The HMM database format does not support sub-databases.
+
+.PP
+The result of each query is an undocumented data structure in 
+binary format. In the future the data will be returned in a proper
+serialized structure, but for now, it requires meticulous unpacking
+within the client. The example clients show how this is done.
+
+ 
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH EXPERT OPTIONS
+
+.TP 
+.BI --master
+Run as the master server.
+
+.TP
+.BI --worker " <s>"
+Run as a worker, connecting to the master server that is running on IP
+address
+.IR <s> .
+
+.TP 
+.BI --daemon
+Run as a daemon using config file: /etc/hmmpgmd.conf
+
+.TP 
+.BI --cport " <n>"
+Port to use for communication between clients and the master server. 
+The default is 51371.
+
+.TP 
+.BI --wport " <n>"
+Port to use for communication between workers and the master server. 
+The default is 51372.
+
+.TP 
+.BI --ccncts " <n>"
+Maximum number of client connections to accept. The default is 16.
+
+.TP 
+.BI --wcncts " <n>"
+Maximum number of worker connections to accept. The default is 32.
+
+.TP 
+.BI --pid " <f>"
+Name of file into which the process id will be written. 
+
+.TP 
+.BI --seqdb " <f>"
+Name of the file (in hmmpgmd format) containing protein sequences.
+The contents of this file will be cached for searches. 
+
+.TP 
+.BI --hmmdb " <f>"
+Name of the file containing protein HMMs. The contents of this file 
+will be cached for searches.
+
+.TP 
+.BI --cpu " <n>"
+Number of parallel threads to use (for 
+.I --worker
+).
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmpress.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmpress.1
new file mode 100755
index 0000000..bff4114
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmpress.1
@@ -0,0 +1,110 @@
+.TH "hmmpress" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmpress - prepare an HMM database for hmmscan 
+
+.SH SYNOPSIS
+
+.B hmmpress
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+Starting from a profile database
+.I <hmmfile>
+in standard HMMER3 format,
+construct binary compressed datafiles for 
+.BR hmmscan .
+The 
+.I hmmpress
+step is required for
+.B hmmscan
+to work.
+
+.PP
+Four files are created:
+.IR <hmmfile>.h3m ,
+.IR <hmmfile>.h3i ,
+.IR <hmmfile>.h3f ,
+and
+.IR <hmmfile>.h3p .
+The 
+.I <hmmfile>.h3m
+file contains the profile HMMs and their annotation in a binary
+format.
+The 
+.I <hmmfile>.h3i
+file is an SSI index for the
+.I <hmmfile>.h3m
+file.
+The
+.I <hmmfile>.h3f
+file contains precomputed data structures
+for the fast heuristic filter (the MSV filter).
+The
+.I <hmmfile>.h3p
+file contains precomputed data structures
+for the rest of each profile.
+
+.PP
+.I <hmmfile>
+may not be '-' (dash); running
+.B hmmpress
+on a standard input stream rather than a file
+is not allowed.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.B -f
+Force; overwrites any previous hmmpress'ed datafiles. The default is
+to bitch about any existing files and ask you to delete them first.
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmscan.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmscan.1
new file mode 100755
index 0000000..b91bcef
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmscan.1
@@ -0,0 +1,460 @@
+.TH "hmmscan" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmscan - search protein sequence(s) against a protein profile database
+
+
+.SH SYNOPSIS
+.B hmmscan
+.I [options]
+.I <hmmdb>
+.I <seqfile>
+
+
+
+.SH DESCRIPTION
+
+.PP
+.B hmmscan 
+is used to search protein sequences against collections 
+of protein profiles. For each sequence in 
+.IR <seqfile> ,
+use that query sequence to search the target database of
+profiles in
+.IR <hmmdb> ,
+and output ranked lists of the profiles with the
+most significant matches to the sequence.
+
+.PP
+The 
+.I <seqfile> 
+may contain more than one query sequence. It can be in FASTA format,
+or several other common sequence file formats (genbank, embl, and
+uniprot, among others), or in alignment file formats (stockholm,
+aligned fasta, and others). See the
+.I --qformat 
+option for a complete list.
+
+.PP
+The
+.I <hmmdb>
+needs to be press'ed using 
+.B hmmpress
+before it can be searched with 
+.BR hmmscan . 
+This creates four binary files,
+suffixed .h3{fimp}.
+
+.PP 
+The query
+.I <seqfile> 
+may be '-' (a dash character), in which case
+the query sequences are read from a <stdin> pipe instead of from a
+file.
+The
+.I <hmmdb> 
+cannot be read from a <stdin> stream, because it needs to have
+those four auxiliary binary files generated by 
+.BR hmmpress .
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse. 
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target model
+found.
+
+.TP 
+.BI --domtblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-domain output, with one data line per homologous domain
+detected in a query sequence for each homologous model.
+
+.TP 
+.BI --pfamtblout " <f>"
+Save an especially succinct tabular (space-delimited) file 
+summarizing the per-target output, with one data line per 
+homologous target model found.
+
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS FOR REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+
+.TP
+.BI -E " <x>"
+In the per-target output, report target profiles with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding per-profile output on E-value, instead
+report target profiles with a bit score of >=
+.IR <x> .
+
+.TP
+.BI --domE " <x>"
+In the per-domain output, for target profiles that have already satisfied
+the per-profile reporting threshold, report individual domains
+with a conditional E-value of <=
+.IR <x> . 
+The default is 10.0. 
+A conditional E-value means the expected number of additional false
+positive domains in the smaller search space of those comparisons that
+already satisfied the per-profile reporting threshold (and thus must
+have at least one homologous domain already).
+
+
+.TP
+.BI --domT " <x>"
+Instead of thresholding per-domain output on E-value, instead
+report domains with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be
+reliable enough
+to be included in an output alignment or a subsequent search round.
+In 
+.BR hmmscan ,
+which does not have any alignment output (like 
+.B hmmsearch
+or 
+.BR phmmer ) 
+nor any iterative search steps (like 
+.BR jackhmmer ),
+inclusion thresholds have little effect. They only affect what domains
+get marked as significant (!) or questionable (?) in domain
+output. 
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the per-target inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, instead
+use a bit score of >= 
+.I <x>
+as the per-target inclusion threshold.
+It would be unusual to use bit score thresholds with
+.IR hmmscan ,
+because you don't expect a single score threshold to work for
+different profiles; different profiles have slightly different
+expected score distributions.
+
+.TP
+.BI --incdomE " <x>"
+Use a conditional E-value of <=
+.I <x> 
+as the per-domain inclusion threshold, in targets that have already
+satisfied the overall per-target inclusion threshold.
+The default is 0.01.
+
+.TP
+.BI --incdomT " <x>"
+Instead of using E-values,
+instead use a bit score of >=
+.I <x>
+as the per-domain inclusion threshold.
+As with 
+.B --incT 
+above,
+it would be unusual to use a single bit score threshold in
+.BR hmmscan .
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. Each thresholding option has
+two scores: the per-sequence threshold <x1> and the per-domain
+threshold <x2>
+These act as if
+.BI -T <x1>
+.BI --incT <x1>
+.BI --domT <x2>
+.BI --incdomT <x2>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit scores in the model to set
+per-sequence (GA1) and per-domain (GA2) reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Pfam, these thresholds define what gets included in Pfam Full
+alignments based on searches with Pfam Seed models.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score thresholds in the model to set
+per-sequence (NC1) and per-domain (NC2) reporting and inclusion
+thresholds. NC thresholds are generally considered to be the score of
+the highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the NC (trusted cutoff) bit score thresholds in the model to set
+per-sequence (TC1) and per-domain (TC2) reporting and inclusion
+thresholds. TC thresholds are generally considered to be the score of
+the lowest-scoring known true positive that is above all known false
+positives. 
+
+
+
+
+.SH CONTROL OF THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+MSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off all filters, including the bias filter, and run full
+Forward/Backward postprocessing on every target. This increases
+sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the MSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses an arbitrarily chosen seed.
+
+.TP
+.BI --qformat " <s>"
+Assert that the query sequence file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off for your
+site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmsearch.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmsearch.1
new file mode 100755
index 0000000..f4c3799
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmsearch.1
@@ -0,0 +1,436 @@
+.TH "hmmsearch" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmsearch - search profile(s) against a sequence database
+
+
+.SH SYNOPSIS
+.B hmmsearch
+.I [options]
+.I <hmmfile>
+.I <seqdb>
+
+
+.SH DESCRIPTION
+
+.PP
+.B hmmsearch 
+is used to search one or more profiles against a sequence database.
+For each profile in 
+.IR <hmmfile> ,
+use that query profile to search the target database of sequences in
+.IR <seqdb> ,
+and output ranked lists of the sequences with the most significant
+matches to the profile.
+To build profiles from multiple alignments, see
+.BR hmmbuild .
+
+.PP 
+Either the query
+.I <hmmfile> 
+or the target
+.I <seqdb> 
+may be '-' (a dash character), in which case
+the query profile or target database input will be read from a <stdin> pipe instead of from a
+file. Only one input source can come through <stdin>, not both.
+An exception is that if the
+.I <hmmfile> 
+contains more than one profile query, then
+.I <seqdb> 
+cannot come from <stdin>, because we can't rewind the
+streaming target database to search it with another profile. 
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP
+.BI -A " <f>"
+Save a multiple alignment of all significant hits (those satisfying
+.IR "inclusion thresholds" )
+to the file 
+.IR <f> .
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target sequence
+found.
+
+.TP 
+.BI --domtblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-domain output, with one data line per homologous domain
+detected in a query sequence for each homologous model.
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+Sequence hits and domain hits are ranked by statistical significance
+(E-value) and output is generated in two sections called per-target
+and per-domain output. In per-target output, by default, all
+sequence hits with an E-value <= 10 are reported. In the per-domain
+output, for each target that has passed per-target reporting
+thresholds, all domains satisfying per-domain reporting thresholds are
+reported. By default, these are domains with conditional E-values of
+<= 10. The following options allow you to change the default
+E-value reporting thresholds, or to use bit score thresholds instead.
+
+
+.TP
+.BI -E " <x>"
+In the per-target output, report target sequences with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding per-profile output on E-value, instead
+report target sequences with a bit score of >=
+.IR <x> .
+
+.TP
+.BI --domE " <x>"
+In the per-domain output, for target sequences that have already satisfied
+the per-profile reporting threshold, report individual domains
+with a conditional E-value of <=
+.IR <x> . 
+The default is 10.0. 
+A conditional E-value means the expected number of additional false
+positive domains in the smaller search space of those comparisons that
+already satisfied the per-target reporting threshold (and thus must
+have at least one homologous domain already).
+
+
+.TP
+.BI --domT " <x>"
+Instead of thresholding per-domain output on E-value, instead
+report domains with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be reliable
+enough to be included in an output alignment or a subsequent search
+round, or marked as significant ("!") as opposed to questionable ("?")
+in domain output.
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the per-target inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, instead
+use a bit score of >= 
+.I <x>
+as the per-target inclusion threshold.
+By default this option is unset.
+
+.TP
+.BI --incdomE " <x>"
+Use a conditional E-value of <=
+.I <x> 
+as the per-domain inclusion threshold, in targets that have already
+satisfied the overall per-target inclusion threshold.
+The default is 0.01.
+
+.TP
+.BI --incdomT " <x>"
+Instead of using E-values,
+use a bit score of >=
+.I <x>
+as the per-domain inclusion threshold.
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. Each thresholding option has
+two scores: the per-sequence threshold <x1> and the per-domain
+threshold <x2>
+These act as if
+.BI -T <x1>
+.BI --incT <x1>
+.BI --domT <x2>
+.BI --incdomT <x2>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit scores in the model to set
+per-sequence (GA1) and per-domain (GA2) reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Pfam, these thresholds define what gets included in Pfam Full
+alignments based on searches with Pfam Seed models.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score thresholds in the model to set
+per-sequence (NC1) and per-domain (NC2) reporting and inclusion
+thresholds. NC thresholds are generally considered to be the score of
+the highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the TC (trusted cutoff) bit score thresholds in the model to set
+per-sequence (TC1) and per-domain (TC2) reporting and inclusion
+thresholds. TC thresholds are generally considered to be the score of
+the lowest-scoring known true positive that is above all known false
+positives. 
+
+
+
+
+.SH OPTIONS CONTROLLING THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+MSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off all filters, including the bias filter, and run full
+Forward/Backward postprocessing on every target. This increases
+sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the MSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses a randomly chosen seed.
+
+.TP
+.BI --tformat " <s>"
+Assert that the target sequence database file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmsim.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmsim.1
new file mode 100755
index 0000000..7f3968d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmsim.1
@@ -0,0 +1,516 @@
+.TH "hmmsim" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmsim - collect score distributions on random sequences
+
+.SH SYNOPSIS
+.B hmmsim
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+.PP
+The 
+.B hmmsim 
+program generates random sequences, scores them with the model(s) in 
+.IR <hmmfile> ,
+and outputs various sorts of histograms, plots, and fitted
+distributions for the resulting scores.
+
+.PP
+.B hmmsim
+is not a mainstream part of the HMMER package. Most users would have
+no reason to use it. It is used to develop and test the statistical
+methods used to determine P-values and E-values in HMMER3. For
+example, it was used to generate most of the results in a 2008 paper
+on H3's local alignment statistics (PLoS Comp Bio 4:e1000069, 2008;
+http://www.ploscompbiol.org/doi/pcbi.1000069). 
+
+.PP
+Because it is a research testbed, you should not expect it to be as
+robust as other programs in the package. For example, options may
+interact in weird ways; we haven't tested nor tried to anticipate all
+different possible combinations.
+
+.PP
+The main task is to fit a maximum likelihood Gumbel distribution to
+Viterbi scores or an maximum likelihood exponential tail to
+high-scoring Forward scores, and to test that these fitted
+distributions obey the conjecture that lambda ~ log_2 for both the
+Viterbi Gumbel and the Forward exponential tail. 
+
+.PP
+The output is a table of numbers, one row for each model. Four
+different parametric fits to the score data are tested: (1) maximum
+likelihood fits to both location (mu/tau) and slope (lambda)
+parameters; (2) assuming lambda=log_2, maximum likelihood fit to the
+location parameter only; (3) same but assuming an edge-corrected
+lambda, using current procedures in H3 [Eddy, 2008]; and (4) using
+both parameters determined by H3's current procedures. The standard
+simple, quick and dirty statistic for goodness-of-fit is 'E@10', the
+calculated E-value of the 10th ranked top hit, which we expect to be
+about 10. 
+
+.PP
+In detail, the columns of the output are:
+
+.TP
+.B name
+Name of the model.
+
+.TP
+.B tailp
+Fraction of the highest scores used to fit the distribution. For
+Viterbi, MSV, and Hybrid scores, this defaults to 1.0 (a Gumbel
+distribution is fitted to all the data). For Forward scores, this
+defaults to 0.02 (an exponential tail is fitted to the highest 2%
+scores).
+
+.TP
+.B mu/tau
+Location parameter for the maximum likelihood fit to the data.
+
+.TP
+.B lambda
+Slope parameter for the maximum likelihood fit to the data.
+
+.TP
+.B E@10
+The E-value calculated for the 10th ranked high score ('E@10') using the ML
+mu/tau and lambda. By definition, this expected to be about 10, if
+E-value estimation were accurate.
+
+.TP
+.B mufix
+Location parameter, for a maximum likelihood fit with a known (fixed)
+slope parameter lambda of log_2 (0.693).
+
+.TP
+.B E@10fix
+The E-value calculated for the 10th ranked score using mufix and the
+expected lambda = log_2 = 0.693.
+
+
+.TP
+.B mufix2
+Location parameter, for a maximum likelihood fit with an
+edge-effect-corrected lambda.
+
+.TP
+.B E@10fix2
+The E-value calculated for the 10th ranked score using mufix2 and the
+edge-effect-corrected lambda.
+
+.TP
+.B pmu
+Location parameter as determined by H3's estimation procedures.
+
+.TP
+.B plambda
+Slope parameter as determined by H3's estimation procedures.
+
+.TP
+.B pE@10
+The E-value calculated for the 10th ranked score using pmu, plambda.
+
+
+.PP
+At the end of this table, one more line is printed, starting with #
+and summarizing the overall CPU time used by the simulations.
+
+.PP
+Some of the optional output files are in xmgrace xy format. xmgrace is
+powerful and freely available graph-plotting software.
+
+
+.SH MISCELLANEOUS OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.B -a
+Collect expected Viterbi alignment length statistics from each
+simulated sequence. This only works with Viterbi scores (the default;
+see
+.IR --vit ). 
+Two additional fields are printed in the output table for
+each model: the mean length of Viterbi alignments, and the standard
+deviation.
+
+.TP
+.B -v
+(Verbose). Print the scores too, one score per line. 
+
+.TP
+.BI -L " <n>"
+Set the length of the randomly sampled (nonhomologous) sequences to 
+.IR <n> .
+The default is 100.
+
+
+.TP
+.BI -N " <n>"
+Set the number of randomly sampled sequences to 
+.IR <n> .
+The default is 1000.
+
+.TP
+.B --mpi
+Run in MPI parallel mode, under 
+.BR mpirun . 
+It is parallelized at the level of sending one profile at a time to an
+MPI worker process, so parallelization only helps if you have more
+than one profile in the 
+.IR <hmmfile> ,
+and you want to have at least as many profiles as MPI worker
+processes.
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+.SH OPTIONS CONTROLLING OUTPUT
+
+.TP
+.BI -o " <f>"
+Save the main output table to a file
+.I <f>
+rather than sending it to stdout.
+
+.TP
+.BI --afile " <f>"
+When collecting Viterbi alignment statistics (the
+.I -a 
+option), for each sampled sequence, output two fields per
+line to a file
+.IR <f> :
+the length of the optimal alignment, and the Viterbi bit score.
+Requires that the 
+.I -a
+option is also used. 
+
+.TP
+.BI --efile " <f>"
+Output a rank vs. E-value plot in XMGRACE xy format to file
+.IR <f> .
+The x-axis is the rank of this sequence, from highest score to lowest;
+the y-axis is the E-value calculated for this sequence. E-values are
+calculated using H3's default procedures (i.e. the pmu, plambda
+parameters in the output table). You expect a rough match between rank
+and E-value if E-values are accurately estimated.
+
+
+.TP
+.BI --ffile " <f>"
+Output a "filter power" file to 
+.IR <f> :
+for each model, a line with three fields:
+model name, number of sequences passing the P-value threshold,
+and fraction of sequences passing the P-value threshold. See
+.I --pthresh
+for setting the P-value threshold, which defaults to 0.02 (the default
+MSV filter threshold in H3). The P-values are as determined by H3's
+default procedures (the pmu,plambda parameters in the output table).
+If all is well, you expect to see filter power equal to the predicted
+P-value setting of the threshold.
+
+.TP
+.BI --pfile " <f>"
+Output cumulative survival plots (P(S>x)) to file
+.I <f>
+in XMGRACE xy format. There are three plots:
+(1) the observed score distribution; 
+(2) the maximum likelihood fitted distribution;
+(3) a maximum likelihood fit to the location parameter (mu/tau) while
+    assuming lambda=log_2.
+ 
+.TP
+.BI --xfile " <f>"
+Output the bit scores as a binary array of double-precision floats (8
+bytes per score) to file
+.IR <f> .
+Programs like Easel's 
+.B esl-histplot
+can read such binary files. This is useful when generating extremely
+large sample sizes.
+
+
+.SH OPTIONS CONTROLLING MODEL CONFIGURATION (MODE)
+
+H3 only uses multihit local alignment (
+.I --fs 
+mode), and this is where we believe the statistical fits. 
+Unihit local alignment scores (Smith/Waterman; 
+.I --sw
+mode) also obey our statistical conjectures.
+Glocal alignment statistics (either multihit or unihit) are
+still not adequately understood nor adequately fitted.
+
+.TP
+.B --fs
+Collect multihit local alignment scores. This is the default.
+'fs' comes from HMMER2's historical terminology for multihit local
+alignment as 'fragment search mode'.
+
+.TP
+.B --sw
+Collect unihit local alignment scores. The H3 J state is disabled.
+'sw' comes from HMMER2's historical terminology for unihit local
+alignment as 'Smith/Waterman search mode'.
+
+.TP
+.B --ls
+Collect multihit glocal alignment scores. In glocal (global/local)
+alignment, the entire model must align, to a subsequence of the
+target. The H3 local entry/exit transition probabilities are
+disabled. 'ls' comes from HMMER2's historical terminology for multihit local
+alignment as 'local search mode'.
+
+.TP
+.B --s
+Collect unihit glocal alignment scores.  Both the H3 J state and local
+entry/exit transition probabilities are disabled. 's' comes from
+HMMER2's historical terminology for unihit glocal alignment.
+
+
+
+.SH OPTIONS CONTROLLING SCORING ALGORITHM
+
+.TP
+.B --vit
+Collect Viterbi maximum likelihood alignment scores. This is the default.
+
+.TP
+.B --fwd
+Collect Forward log-odds likelihood scores, summed over alignment ensemble.
+
+.TP
+.B --hyb
+Collect 'Hybrid' scores, as described in papers by Yu and Hwa (for
+instance, Bioinformatics 18:864, 2002). These involve calculating a
+Forward matrix and taking the maximum cell value. The number itself is
+statistically somewhat unmotivated, but the distribution is expected
+be a well-behaved extreme value distribution (Gumbel).
+
+.TP
+.B --msv
+Collect MSV (multiple ungapped segment Viterbi) scores, using H3's
+main acceleration heuristic.
+
+.TP
+.B --fast
+For any of the above options, use H3's optimized production
+implementation (using SIMD vectorization). The default is to use the
+'generic' implementation (slow and non-vectorized). The optimized
+implementations sacrifice a small amount of numerical precision. This
+can introduce confounding noise into statistical simulations and fits,
+so when one gets super-concerned about exact details, it's better to
+be able to factor that source of noise out.
+
+.SH OPTIONS CONTROLLING FITTED TAIL MASSES FOR FORWARD 
+
+In some experiments, it was useful to fit Forward scores to a range of
+different tail masses, rather than just one. These options provide a
+mechanism for fitting an evenly-spaced range of different tail masses.
+For each different tail mass, a line is generated in the output.
+
+.TP
+.BI --tmin " <x>"
+Set the lower bound on the tail mass distribution. (The default is
+0.02 for the default single tail mass.)
+
+.TP
+.BI --tmax " <x>"
+Set the upper bound on the tail mass distribution. (The default is
+0.02 for the default single tail mass.)
+
+.TP
+.BI --tpoints " <n>"
+Set the number of tail masses to sample, starting from
+.I --tmin
+and ending at 
+.IR --tmax .
+(The default is 1, for the default 0.02 single tail mass.)
+
+.TP
+.B --tlinear
+Sample a range of tail masses with uniform linear spacing. The default
+is to use uniform logarithmic spacing.
+
+
+
+.SH OPTIONS CONTROLLING H3 PARAMETER ESTIMATION METHODS
+
+H3 uses three short random sequence simulations to estimating the
+location parameters for the expected score distributions for MSV
+scores, Viterbi scores, and Forward scores. These options allow these
+simulations to be modified.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+.SH DEBUGGING OPTIONS
+
+.TP
+.B --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+The default is 0, which makes the random number generator use
+an arbitrary seed, so that different runs of 
+.B hmmsim 
+will almost certainly generate a different statistical sample.
+For debugging, it is useful to force reproducible results, by
+fixing a random number seed.
+
+
+
+.SH EXPERIMENTAL OPTIONS
+
+These options were used in a small variety of different exploratory
+experiments.
+
+.TP
+.B --bgflat 
+Set the background residue distribution to a uniform distribution,
+both for purposes of the null model used in calculating scores, and
+for generating the random sequences. The default is to use a standard
+amino acid background frequency distribution.
+
+.TP
+.B --bgcomp
+Set the background residue distribution to the mean composition of the
+profile. This was used in exploring some of the effects of biased
+composition.
+
+.TP
+.B --x-no-lengthmodel
+Turn the H3 target sequence length model off. Set the self-transitions
+for N,C,J and the null model to 350/351 instead; this emulates HMMER2.
+Not a good idea in general. This was used to demonstrate one of the
+main H2 vs. H3 differences.
+
+.TP
+.BI --nu " <x>"
+Set the nu parameter for the MSV algorithm -- the expected number of
+ungapped local alignments per target sequence. The default is 2.0,
+corresponding to a E->J transition probability of 0.5. This was used
+to test whether varying nu has significant effect on result (it
+doesn't seem to, within reason).
+This option
+only works if
+.I --msv
+is selected (it only affects MSV),
+and it will not work with 
+.I --fast
+(because the optimized implementations are hardwired to assume nu=2.0).
+
+.TP
+.BI --pthresh " <x>"
+Set the filter P-value threshold to use in generating filter power
+files with
+.IR --ffile .
+The default is 0.02 (which would be appropriate for testing MSV
+scores, since this is the default MSV filter threshold in H3's
+acceleration pipeline.) Other appropriate choices (matching defaults
+in the acceleration pipeline) would be 0.001 for
+Viterbi, and 1e-5 for Forward.
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+
+
+
+
+
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmstat.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmstat.1
new file mode 100755
index 0000000..a1c6f9b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/hmmstat.1
@@ -0,0 +1,134 @@
+.TH "hmmstat" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+hmmstat - display summary statistics for a profile file
+
+
+.SH SYNOPSIS
+.B hmmstat
+.I [options]
+.I <hmmfile>
+
+
+.SH DESCRIPTION
+
+The
+.B hmmstat
+utility prints out a tabular file of summary statistics for each
+profile in
+.IR <hmmfile> .
+
+
+.PP 
+.I <hmmfile> 
+may be '-' (a dash character), in which case profiles
+are read from a <stdin> pipe instead of from a file.
+
+.PP
+The columns are:
+
+.TP
+.B idx
+The index of this profile, numbering each on in the file starting from 1.
+
+.TP
+.B name
+The name of the profile.
+
+.TP
+.B accession
+The optional accession of the profile, or "-" if there is none.
+
+.TP
+.B nseq
+The number of sequences that the profile was estimated from.
+
+.TP
+.B eff_nseq
+The effective number of sequences that the profile was estimated
+from, after HMMER applied an effective sequence number calculation
+such as the default entropy weighting.
+
+.TP
+.B M
+The length of the model in consensus residues (match states).
+
+.TP
+.B relent
+Mean relative entropy per match state, in bits. This is the expected
+(mean) score per consensus position. This is what the default
+entropy-weighting method for effective sequence number estimation
+focuses on, so for default HMMER3 models, you expect this value to
+reflect the default target for entropy-weighting.
+
+.TP
+.B info
+Mean information content per match state, in bits.
+Probably not useful. Information content is a slightly
+different calculation than relative entropy. 
+
+.TP
+.B "p relE"
+Mean positional relative entropy, in bits.
+This is a fancier version of the per-match-state relative entropy,
+taking into account the transition (insertion/deletion) probabilities;
+it may be a more accurate estimation of the average score contributed
+per model consensus position.
+
+.TP
+.B compKL
+Kullback-Leibler distance between the model's overall average
+residue composition and the default background frequency distribution.
+The higher this number, the more biased the residue composition of the
+profile is. Highly biased profiles can slow the HMMER3 acceleration
+pipeline, by causing too many nonhomologous sequences to pass the filters.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+pFreely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/jackhmmer.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/jackhmmer.1
new file mode 100755
index 0000000..ab2a375
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/jackhmmer.1
@@ -0,0 +1,799 @@
+.TH "jackhmmer" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+jackhmmer - iteratively search sequence(s) against a protein database
+
+.SH SYNOPSIS
+.B jackhmmer
+.I [options]
+.I <seqfile>
+.I <seqdb>
+
+.SH DESCRIPTION
+
+.PP
+.B jackhmmer
+iteratively searches each query sequence in 
+.I <seqfile>
+against the target sequence(s) in
+.IR <seqdb> .
+The first iteration is identical to a 
+.B phmmer
+search.
+For the next iteration,
+a multiple alignment of the query together with all target sequences
+satisfying 
+.I "inclusion thresholds"
+is assembled, a profile is constructed from this alignment
+(identical to using
+.B hmmbuild
+on the alignment), and profile search of the
+.I <seqdb>
+is done (identical to an
+.B hmmsearch
+with the profile).
+
+
+.PP 
+The query
+.I <seqfile> 
+may be '-' (a dash character), in which case
+the query sequences are read from a <stdin> pipe instead of from a
+file.
+The
+.I <seqdb> 
+cannot be read from a <stdin> stream, because
+.B jackhmmer
+needs to do multiple passes over the database.
+
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+.TP
+.BI -N " <n>"
+Set the maximum number of iterations to 
+.IR <n> .
+The default is 5. If N=1, the result is equivalent to a
+.B phmmer
+search.
+
+
+
+
+.SH OPTIONS CONTROLLING OUTPUT
+
+By default, output for each iteration appears on stdout in a somewhat
+human readable, somewhat parseable format. These options allow
+redirecting that output or saving additional kinds of output to files,
+including checkpoint files for each iteration.
+
+.TP 
+.BI -o " <f>"
+Direct the human-readable output to a file
+.IR <f> .
+
+.TP
+.BI -A " <f>"
+After the final iteration, save an annotated multiple alignment of all
+hits satisfying inclusion thresholds (also including the original query) to
+.I <f>
+in Stockholm format.
+
+.TP
+.BI --tblout " <f>"
+After the final iteration, save a tabular summary of top sequence hits
+to 
+.I <f>
+in a readily parseable, columnar, whitespace-delimited format.
+
+.TP
+.BI --domtblout " <f>"
+After the final iteration, save a tabular summary of top domain hits
+to 
+.I <f>
+in a readily parseable, columnar, whitespace-delimited format.
+
+.TP
+.BI --chkhmm " <prefix>"
+At the start of each iteration, checkpoint the query HMM, saving it
+to a file named
+.I "<prefix>-<n>.hmm"
+where
+.I <n>
+is the iteration number (from 1..N).
+
+.TP
+.BI --chkali " <prefix>"
+At the end of each iteration, checkpoint an alignment of all
+domains satisfying inclusion thresholds (e.g. what will become the
+query HMM for the next iteration), 
+saving it
+to a file named
+.I "<checkpoint file prefix>-<n>.sto"
+in Stockholm format,
+where
+.I <n>
+is the iteration number (from 1..N).
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+
+
+
+.SH OPTIONS CONTROLLING SINGLE SEQUENCE SCORING (FIRST ITERATION)
+
+By default, the first iteration uses a search model constructed from a
+single query sequence. This model is constructed using a standard
+20x20 substitution matrix for residue probabilities, and two
+additional parameters for position-independent gap open and gap extend
+probabilities. These options allow the default single-sequence scoring
+parameters to be changed.
+
+.TP
+.BI --popen " <x>"
+Set the gap open probability for a single sequence query model to 
+.IR <x> .
+The default is 0.02. 
+.I <x> 
+must be >= 0 and < 0.5.
+
+.TP
+.BI --pextend " <x>"
+Set the gap extend probability for a single sequence query model to 
+.IR <x> .
+The default is 0.4. 
+.I <x> 
+must be >= 0 and < 1.0.
+
+.TP
+.BI --mx " <s>"
+Obtain residue alignment probabilities from the built-in
+substitution matrix named
+.IR <s> . 
+Several standard matrices are built-in, and do not need to be
+read from files. 
+The matrix name
+.I <s> 
+can be
+PAM30, PAM70, PAM120, PAM240, BLOSUM45, BLOSUM50, BLOSUM62, BLOSUM80,
+or BLOSUM90.
+Only one of the
+.B --mx 
+and
+.B --mxfile
+options may be used.
+
+.TP
+.BI --mxfile " <mxfile>"
+Obtain residue alignment probabilities from the substitution matrix
+in file
+.IR <mxfile> .
+The default score matrix is BLOSUM62 (this matrix is internal to
+HMMER and does not have to be available as a file). 
+The format of a substitution matrix
+.I <mxfile>
+is the standard format accepted by BLAST, FASTA, and other sequence 
+analysis software.
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS 
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+In each iteration, sequence hits and domain hits are ranked by
+statistical significance (E-value) and output is generated in two
+sections called per-target and per-domain output. In per-target
+output, by default, all sequence hits with an E-value <= 10 are
+reported. In the per-domain output, for each target that has passed
+per-target reporting thresholds, all domains satisfying per-domain
+reporting thresholds are reported. By default, these are domains with
+conditional E-values of <= 10. The following options allow you to
+change the default E-value reporting thresholds, or to use bit score
+thresholds instead.
+
+
+.TP
+.BI -E " <x>"
+Report sequences with E-values <=
+.I <x>
+in per-sequence output. The default is 10.0.
+
+.TP
+.BI -T " <x>"
+Use a bit score threshold for per-sequence output instead of an
+E-value threshold (any setting of
+.B -E
+is ignored). Report sequences with a bit score of >=
+.IR <x> .
+By default this option is unset.
+
+.TP 
+.BI -Z " <x>"
+Declare the total size of the database to be
+.I <x>
+sequences, for purposes of E-value calculation.
+Normally E-values are calculated relative to the size of the database
+you actually searched (e.g. the number of sequences in 
+.IR target_seqdb ).
+In some cases (for instance, if you've split your
+target sequence database into multiple files for parallelization of
+your search), you may know better what the actual size of your search
+space is.
+
+.TP
+.BI --domE " <x>"
+Report domains with conditional E-values <=
+.I <x>
+in per-domain output, in addition to the top-scoring
+domain per significant sequence hit. The default is 10.0.
+
+.TP
+.BI --domT " <x>"
+Use a bit score threshold for per-domain output instead of an
+E-value threshold (any setting of
+.B --domT
+is ignored). Report domains with a bit score of >=
+.I <x>
+in per-domain output, in addition to the top-scoring domain per
+significant sequence hit. By default this option is unset.
+
+.TP 
+.BI --domZ " <x>"
+Declare the number of significant sequences to be
+.I <x>
+sequences, for purposes of conditional E-value calculation for
+additional domain significance.
+Normally conditional E-values are calculated relative to the number of
+sequences passing per-sequence reporting threshold.
+
+
+.SH OPTIONS CONTROLLING INCLUSION THRESHOLDS 
+
+Inclusion thresholds control which hits are included in the multiple
+alignment and profile constructed for the next search iteration.
+By default, 
+a sequence must have a per-sequence
+E-value of <= 0.001 (see
+.B -E 
+option) to be included, and any additional domains in it besides the
+top-scoring one must have a conditional E-value of <= 0.001 (see 
+.B --domE 
+option). The difference between reporting thresholds and inclusion
+thresholds is that inclusion thresholds control which hits actually
+get used in the next iteration (or the final output multiple alignment
+if the 
+.I -A 
+option is used), whereas reporting thresholds control what you see in
+output. Reporting thresholds are generally more loose so you can see
+borderline hits in the top of the noise that might be of interest.
+
+.TP
+.BI --incE " <x>"
+Include sequences with E-values <=
+.I <x>
+in subsequent iteration or final
+alignment output by 
+.IR -A .
+The default is 0.001.
+
+.TP
+.BI --incT " <x>"
+Use a bit score threshold for per-sequence inclusion instead of an
+E-value threshold (any setting of
+.B --incE
+is ignored). Include sequences with a bit score of >=
+.IR <x> .
+By default this option is unset.
+
+.TP
+.BI --incdomE " <x>"
+Include domains with conditional E-values <=
+.I <x>
+in subsequent iteration or final alignment output by
+.IR -A ,
+in addition to the top-scoring
+domain per significant sequence hit. 
+The default is 0.001.
+
+.TP
+.BI --incdomT " <x>"
+Use a bit score threshold for per-domain inclusion instead of an
+E-value threshold (any setting of
+.B --incT
+is ignored). Include domains with a bit score of >=
+.IR <x> .
+By default this option is unset.
+
+
+
+.SH OPTIONS CONTROLLING ACCELERATION HEURISTICS
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm, slowest but most accurate. There is also a
+bias filter step between MSV and Viterbi. Targets that pass all the
+steps in the acceleration pipeline are then subjected to
+postprocessing -- domain identification and scoring using the
+Forward/Backward algorithm.
+
+Essentially the only free parameters that control HMMER's heuristic
+filters are the P-value thresholds controlling the expected fraction
+of nonhomologous sequences that pass the filters. Setting the default
+thresholds higher will pass a higher proportion of nonhomologous
+sequence, increasing sensitivity at the expense of speed; conversely,
+setting lower P-value thresholds will pass a smaller proportion,
+decreasing sensitivity and increasing speed. Setting a filter's
+P-value threshold to 1.0 means it will passing all sequences, and
+effectively disables the filter.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Maximum sensitivity.  Turn off all filters, including the bias filter,
+and run full Forward/Backward postprocessing on every target. This
+increases sensitivity slightly, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+First filter threshold; set the P-value threshold for the MSV filter
+step.  The default is 0.02, meaning that roughly 2% of the highest
+scoring nonhomologous targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Second filter threshold; set the P-value threshold for the Viterbi
+filter step.  The default is 0.001.
+
+.TP
+.BI --F3 " <x>"
+Third filter threshold; set the P-value threshold for the Forward
+filter step.  The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OPTIONS CONTROLLING PROFILE CONSTRUCTION (LATER ITERATIONS)
+
+These options control how consensus columns are defined in multiple
+alignments when building profiles. By default, 
+.B jackhmmer
+always includes your original query sequence in the alignment result
+at every iteration, and consensus positions are defined by that
+query sequence: that is, a default
+.B jackhmmer
+profile is always the same length as your original query, at every
+iteration.
+
+.TP
+.B --fast 
+Define consensus columns as those that have a fraction >= 
+.B symfrac
+of residues as opposed to gaps. (See below for the
+.B --symfrac
+option.) Although this is the default 
+profile construction option elsewhere (in
+.BR hmmbuild ,
+in particular), it may have undesirable effects in 
+.BR jackhmmer ,
+because a profile could iteratively walk in sequence space away from
+your original query, leaving few or no consensus columns corresponding
+to its residues.
+
+.TP
+.B --hand
+Define consensus columns in next profile using reference annotation to
+the multiple alignment. 
+.B jackhmmer
+propagates reference annotation from the previous profile to the
+multiple alignment, and thence to the next profile. This is the
+default.
+
+.TP
+.BI --symfrac " <x>"
+Define the residue fraction threshold necessary to define a
+consensus column when using the 
+.B --fast 
+option. The default is 0.5. The symbol fraction in each column
+is calculated after taking relative sequence weighting into account,
+and ignoring gap characters corresponding to ends of sequence
+fragments
+(as opposed to internal insertions/deletions).
+Setting this to 0.0 means that every alignment column will be assigned
+as consensus, which may be useful in some cases. Setting it to 1.0
+means that only columns that include 0 gaps (internal
+insertions/deletions) will be assigned as consensus.
+
+.TP
+.BI --fragthresh " <x>"
+We only want to count terminal gaps as deletions if the aligned
+sequence is known to be full-length, not if it is a fragment (for
+instance, because only part of it was sequenced). HMMER uses a simple
+rule to infer fragments: if the sequence length L is less than 
+or equal to a fraction
+.I <x> 
+times the alignment length in columns,
+then the sequence is handled as a fragment. The default is 0.5.
+Setting
+.BI --fragthresh 0
+will define no (nonempty) sequence as a fragment; you might want to do
+this if you know you've got a carefully curated alignment of full-length
+sequences.
+Setting
+.BI --fragthresh 1
+will define all sequences as fragments; you might want to do this if
+you know your alignment is entirely composed of fragments, such as
+translated short reads in metagenomic shotgun data.
+
+
+
+.SH OPTIONS CONTROLLING RELATIVE WEIGHTS
+
+Whenever a profile is built from a multiple alignment, HMMER uses an
+ad hoc sequence weighting algorithm to downweight closely related
+sequences and upweight distantly related ones. This has the effect of
+making models less biased by uneven phylogenetic representation. For
+example, two identical sequences would typically each receive half the
+weight that one sequence would (and this is why 
+.B jackhmmer 
+isn't concerned about always including your original query sequence in
+each iteration's alignment, even if it finds it again in the database
+you're searching). These options control which algorithm gets used.
+
+.TP
+.B --wpb
+Use the Henikoff position-based sequence weighting scheme [Henikoff
+and Henikoff, J. Mol. Biol. 243:574, 1994].  This is the default.
+
+.TP 
+.B --wgsc 
+Use the Gerstein/Sonnhammer/Chothia weighting algorithm [Gerstein et
+al, J. Mol. Biol. 235:1067, 1994].
+
+.TP 
+.B --wblosum
+Use the same clustering scheme that was used to weight data in
+calculating BLOSUM subsitution matrices [Henikoff and Henikoff,
+Proc. Natl. Acad. Sci 89:10915, 1992]. Sequences are single-linkage
+clustered at an identity threshold (default 0.62; see
+.IR --wid )
+and within each cluster of c sequences, each sequence gets relative
+weight 1/c.
+
+.TP
+.B --wnone
+No relative weights. All sequences are assigned uniform weight. 
+
+.TP 
+.BI --wid " <x>"
+Sets the identity threshold used by single-linkage clustering when 
+using 
+.IR --wblosum . 
+Invalid with any other weighting scheme. Default is 0.62.
+
+
+
+
+
+.SH OPTIONS CONTROLLING EFFECTIVE SEQUENCE NUMBER
+
+After relative weights are determined, they are normalized to sum to a
+total effective sequence number, 
+.IR eff_nseq . 
+This number may be the actual number of sequences in the alignment,
+but it is almost always smaller than that.
+The default entropy weighting method 
+.I (--eent)
+reduces the effective sequence
+number to reduce the information content (relative entropy, or average
+expected score on true homologs) per consensus position. The target
+relative entropy is controlled by a two-parameter function, where the
+two parameters are settable with
+.I --ere
+and 
+.IR --esigma .
+
+.TP
+.B --eent
+Adjust effective sequence number to achieve a specific relative entropy
+per position (see
+.IR --ere ).
+This is the default.
+
+.TP
+.B --eclust
+Set effective sequence number to the number of single-linkage clusters
+at a specific identity threshold (see 
+.IR --eid ).
+This option is not recommended; it's for experiments evaluating
+how much better
+.B --eent
+is.
+
+.TP
+.B --enone
+Turn off effective sequence number determination and just use the
+actual number of sequences. One reason you might want to do this is
+to try to maximize the relative entropy/position of your model, which
+may be useful for short models.
+
+.TP
+.BI --eset " <x>"
+Explicitly set the effective sequence number for all models to 
+.IR <x> .
+
+.TP
+.BI --ere " <x>"
+Set the minimum relative entropy/position target to 
+.IR <x> .
+Requires
+.BR --eent . 
+Default depends on the sequence alphabet; for protein
+sequences, it is 0.59 bits/position.
+
+.TP
+.BI --esigma " <x>"
+Sets the minimum relative entropy contributed by an entire
+model alignment, over its whole length. This has the effect
+of making short models have 
+higher relative entropy per position than 
+.I --ere 
+alone would give. The default is 45.0 bits.
+
+.TP
+.BI --eid " <x>"
+Sets the fractional pairwise identity cutoff used by 
+single linkage clustering with the
+.B --eclust 
+option. The default is 0.62.
+
+
+
+.SH OPTIONS CONTROLLING PRIORS
+
+In profile construction, by default, weighted counts are converted to
+mean posterior probability parameter estimates using mixture Dirichlet
+priors.  Default mixture Dirichlet prior parameters for protein models
+and for nucleic acid (RNA and DNA) models are built in. The following
+options allow you to override the default priors.
+
+.B --pnone
+Don't use any priors. Probability parameters will simply be the
+observed frequencies, after relative sequence weighting. 
+
+.B --plaplace
+Use a Laplace +1 prior in place of the default mixture Dirichlet
+prior.
+
+
+
+.SH OPTIONS CONTROLLING E-VALUE CALIBRATION
+
+Estimating the location parameters for the expected score
+distributions for MSV filter scores, Viterbi filter scores, and
+Forward scores requires three short random sequence simulations.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is >0, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+
+.TP 
+.BI --qformat " <s>"
+Declare that the input
+.I query_seqfile
+is in format 
+.IR <s> .
+Accepted sequence file formats include FASTA, EMBL, GenBank, DDBJ,
+UniProt, Stockholm, and SELEX. Default is to autodetect the format of
+the file.
+
+.TP 
+.BI --tformat " <s>"
+Declare that the input
+.I target_seqdb
+is in format 
+.IR <s> .
+Accepted sequence file formats include FASTA, EMBL, GenBank, DDBJ,
+UniProt, Stockholm, and SELEX. Default is to autodetect the format of
+the file.
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/makehmmerdb.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/makehmmerdb.1
new file mode 100755
index 0000000..98e75aa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/makehmmerdb.1
@@ -0,0 +1,161 @@
+.TH "makehmmerdb" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+makehmmerdb - build a HMMER binary database file from a sequence file
+
+
+.SH SYNOPSIS
+.B makehmmerdb
+.I [options]
+.I <seqfile>
+.I <binaryfile>
+
+
+.SH DESCRIPTION
+
+.PP
+.B makehmmerdb 
+is used to create a binary file from a DNA sequence file. This 
+binary file may be used as a target database for the DNA search tool
+.BR nhmmer . Using default settings in 
+.IR nhmmer ,
+this yields a roughly 10-fold acceleration with small loss of 
+sensitivity on benchmarks. (This method has been extensively tested, 
+but should still be treated as somewhat experimental.)
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.\" .SH OPTIONS FOR SPECIFYING THE ALPHABET
+.\" 
+.\" The alphabet type (amino, DNA, or RNA) is autodetected by default, by
+.\" looking at the composition of the
+.\" .IR seqfile .
+.\" Autodetection is normally quite reliable, but occasionally alphabet
+.\" type may be ambiguous and autodetection can fail (for instance, when
+.\" the first sequence starts with a run of ambiguous characters). To avoid 
+.\" this, or to increase robustness in automated analysis pipelines, you 
+.\" may specify the alphabet type of
+.\" .I seqfile
+.\" with these options.
+.\" 
+.\" .TP
+.\" .B --dna
+.\" Specify that all sequences in 
+.\" .I msafile
+.\" are DNAs.
+.\" 
+.\" .TP
+.\" .B --rna
+.\" Specify that all sequences in 
+.\" .I msafile
+.\" are RNAs.
+.\" 
+.\" .TP
+.\" .B --amino
+.\" Specify that all sequences in 
+.\" .I msafile
+.\" are proteins. Note that currently, a binary database of amino
+.\" acid sequence cannot be used as target to hmmsearch of phmmer
+.\" (only nhmmer can use the binary format).
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --informat " <s>"
+Assert that the sequence database file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+
+.TP 
+.BI --bin_length " <n>"
+Bin length. The binary file depends on a data structure called the 
+FM index, which organizes a permuted copy of the sequence in bins 
+of length
+.IR <n> .
+Longer bin length will lead to smaller files (because data is 
+captured about each bin) and possibly slower query time. The 
+default is 256. Much more than 512 may lead to notable reduction 
+in speed.
+
+
+.TP 
+.BI --sa_freq " <n>"
+Suffix array sample rate. The FM index structure also samples from 
+the underlying suffix array for the sequence database. More frequent 
+sampling (smaller value for 
+.IR <n> )
+will yield larger file size and faster search (until file size becomes
+large enough to cause I/O to be a bottleneck). The default value
+is 8. Must be a power of 2.
+
+
+.TP 
+.BI --block_size " <n>"
+The input sequence is broken into blocks of size
+.I <n>
+million letters. An FM index is built for each block, rather than 
+building an FM index for the entire sequence database. Default is 
+50. Larger blocks do not seem to yield substantial speed increase. 
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/nhmmer.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/nhmmer.1
new file mode 100755
index 0000000..3b56957
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/nhmmer.1
@@ -0,0 +1,621 @@
+.TH "nhmmer" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+nhmmer - search DNA/RNA queries against a DNA/RNA sequence database
+
+
+.SH SYNOPSIS
+.B nhmmer
+.I [options]
+.I <queryfile>
+.I <seqdb>
+
+
+.SH DESCRIPTION
+
+.PP
+.B nhmmer 
+is used to search one or more nucleotide queries against a 
+nucleotide sequence database.
+For each query in 
+.IR <queryfile> ,
+use that query to search the target database of sequences in
+.IR <seqdb> ,
+and output a ranked list of the hits with the most significant
+matches to the query. A query may be either a profile model 
+built using 
+.BR hmmbuild , 
+a sequence alignment, or a single sequence. Sequence based
+queries can be in a number of formats (see
+.BR --qformat ), 
+and can typically be autodetected. Note that only 
+.I Stockholm
+format supports queries made up of more than one sequence 
+alignment.
+
+
+
+.PP 
+Either the query
+.I <queryfile> 
+or the target
+.I <seqdb> 
+may be '-' (a dash character), in which case
+the query file or target database input will be read from a <stdin> pipe instead of from a
+file. Only one input source can come through <stdin>, not both.
+If the query is sequence-based and passed via <stdin>, the
+.B --qformat
+flag must be used.
+If the
+.I <queryfile> 
+contains more than one query, then
+.I <seqdb> 
+cannot come from <stdin>, because we can't rewind the
+streaming target database to search it with another profile. 
+
+.PP
+If the query is sequence-based, and not from <stdin>,
+a new file containing the HMM(s) built from the input(s) in 
+.I <queryfile>
+may optionally be produced, with the filename set using the 
+.B --hmmout
+flag.
+
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+option saves output in a simple tabular format that is concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP
+.BI -A " <f>"
+Save a multiple alignment of all significant hits (those satisfying
+.IR "inclusion thresholds" )
+to the file 
+.IR <f> .
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target sequence
+found.
+
+.TP 
+.BI --dfamtblout " <f>"
+Save a tabular (space-delimited) file summarizing the 
+per-hit output, similar to 
+.B --tblout
+but more succinct. 
+
+.TP 
+.BI --aliscoresout " <f>" 
+Save to file a list of per-position scores for each hit.
+This is useful, for example, in identifying regions of high
+score density for use in resolving overlapping hits from 
+different models.
+
+.TP 
+.BI --hmmout " <f>" 
+If <queryfile> is sequence-based, write the internally-computed 
+HMM(s) to
+.IR <f> . 
+
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --dfamtblout ).
+Hits are ranked by statistical significance (E-value). 
+
+
+.TP
+.BI -E " <x>"
+Report target sequences with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding output on E-value, instead
+report target sequences with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be reliable
+enough to be included in an output alignment or a subsequent search
+round, or marked as significant ("!") as opposed to questionable ("?")
+in hit output.
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, 
+use a bit score of >= 
+.I <x>
+as the inclusion threshold.
+By default this option is unset.
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. For a nucleotide model, each 
+thresholding option has a single per-hit threshold <x>
+This acts as if
+.BI -T <x>
+.BI --incT <x>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family known to be found in that organism. They
+may allow for minimal expected false discovery rate.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. NC thresholds are less stringent than GA; in the context
+of Pfam, they are generally used to store the score of the 
+highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the NC (trusted cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. TC thresholds are more stringent than GA, and are
+generally considered to be the score of the lowest-scoring known 
+true positive that is above all known false positives; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family not known to be found in that organism.
+
+
+
+
+.SH OPTIONS CONTROLLING THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+scanning-SSV filter, the Viterbi filter, and the Forward filter. The 
+first filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+SSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off (nearly) all filters, including the bias filter, and run full
+Forward/Backward postprocessing on most of the target sequence. 
+In contrast to 
+.B phmmer
+and
+.BR hmmsearch ,
+where this flag really does turn off the filters entirely, the
+.I --max
+flag in 
+.B nhmmer
+sets the scanning-SSV filter threshold to 0.4, not 1.0. Use of this
+flag increases sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the SSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OPTIONS FOR SPECIFYING THE ALPHABET
+
+The alphabet type of the target database (DNA or RNA) is autodetected 
+by default, by looking at the composition of the
+.IR <seqdb> .
+Autodetection is normally quite reliable, but occasionally alphabet
+type may be ambiguous and autodetection can fail (for instance, when
+the first sequence starts with a run of ambiguous characters). To 
+avoid this, or to increase robustness in automated analysis pipelines, 
+you may specify the alphabet type of
+.I <seqdb>
+with these options.
+
+.TP
+.B --dna
+Specify that all sequences in 
+.I <seqdb>
+are DNAs.
+
+.TP
+.B --rna
+Specify that all sequences in 
+.I <seqdb>
+are RNAs.
+
+
+.SH OPTIONS CONTROLLING SEED SEARCH HEURISTIC
+
+When searching with 
+.IR nhmmer ,
+one may optionally precompute a binary version of the target database, using
+.IR makehmmerdb ,
+then search against that database. Using default settings, this yields a
+roughly 10-fold acceleration with small loss of sensitivity on benchmarks.
+This is achieved using a heuristic method that searches for seeds (ungapped 
+alignments) around which full processing is done. This is essentially  
+a replacement to the SSV stage. (This method has been extensively tested, 
+but should still be treated as somewhat experimental.)
+The following options only impact 
+.I nhmmer
+if the value of 
+.B --tformat
+is
+.IR hmmerdb .
+
+Changing parameters for this seed-finding step will impact both speed and 
+sensitivity - typically faster search leads to lower sensitivity. 
+
+.TP
+.BI --seed_max_depth " <n>"
+The seed step requires that a seed reach a specified bit score in length 
+no longer than 
+.BR <n> . 
+By default, this value is 15. Longer seeds allow a greater chance of 
+meeting the bit score threshold, leading to diminished filtering
+(greater sensitivity, slower run time).
+
+.TP
+.BI --seed_sc_thresh " <x>"
+The seed must reach score 
+.B <x>
+(in bits). The default is 15.0 bits. A higher threshold increases 
+filtering stringency, leading to faster run times and lower 
+sensitivity.
+
+.TP
+.BI --seed_sc_density " <x>"
+Either all prefixes or all suffixes of a seed must have 
+bit density (bits per aligned position) of at least 
+.BR <x> . 
+The default is 0.8 bits/position. An increase in the density 
+requirement leads to increased filtering stringency, thus faster 
+run times and lower sensitivity.
+
+.TP
+.BI --seed_drop_max_len " <n>"
+A seed may not have a run of length
+.B <n>
+in which the score drops by 
+.I --seed_drop_lim
+or more. Basically, this prunes seeds that go through long
+slightly-negative seed extensions. The default is 4.  Increasing 
+the limit causes (slightly) diminished filtering efficiency, thus 
+slower run times and higher sensitivity. (minor tuning option)
+
+.TP
+.BI --seed_drop_lim " <x>"
+In a seed, there may be no run of length 
+.I --seed_drop_max_len
+in which the score drops by 
+.IR --seed_drop_lim .
+The default is 0.3 bits. Larger numbers mean less filtering.
+(minor tuning option)
+
+.TP
+.BI --seed_req_pos " <n>"
+A seed must contain a run of at least 
+.B <n>
+positive-scoring matches. The default is 5. Larger values mean
+increased filtering.
+(minor tuning option)
+
+.TP
+.BI --seed_ssv_length " <n>"
+After finding a short seed, an ungapped alignment is extended 
+in both directions in an attempt to meet the 
+.I --F1
+score threshold. The window through which this ungapped alignment
+extends is length 
+.BR <n> .
+The default is 70.  
+Decreasing this value slightly reduces run time, at a small risk of
+reduced sensitivity. (minor tuning option)
+
+
+.SH OTHER OPTIONS
+
+.TP
+.BI --tformat " <s>"
+Assert that the target sequence database file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+.IR afa , 
+and 
+.IR hmmerfm .
+The default is to autodetect the format of the file. The format
+.I hmmerfm
+indicates that the database file is a binary file produced using
+.I makehmmerdb 
+(this format is not currently autodetected). 
+
+
+.TP 
+.BI --qformat " <s>"
+Declare that the input
+.I <queryfile>
+is in format 
+.IR <s> .
+This is used when the query is sequence-based, rather than made
+up of profile model(s).
+Currently the accepted multiple alignment sequence file formats 
+include Stockholm, Aligned FASTA, Clustal, NCBI PSI-BLAST, PHYLIP, 
+Selex, and UCSC SAM A2M. Default is to autodetect the format of
+the file.
+
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+For the purposes of per-hit E-value calculations,
+Assert that the total size of the target database is
+.I <x>
+million nucleotides, 
+rather than the actual number of targets seen. 
+
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses a randomly chosen seed.
+
+
+.TP 
+.BI --w_beta " <x>"
+Window length tail mass.
+The upper bound,
+.IR W ,
+on the length at which nhmmer expects to find an instance of the 
+model is set such that the fraction of all sequences generated
+by the model with length 
+.I ">= W"
+is less than  
+.IR <x> . 
+The default is 1e-7. 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild ,
+or when the query is sequence-based.
+
+
+
+.TP 
+.BI --w_length " <n>"
+Override the model instance length upper bound,
+.IR W ,
+which is otherwise controlled by
+.BR --w_beta . 
+It should be larger than the model length. The value of 
+.I W
+is used deep in the acceleration pipeline, and modest changes
+are not expected to impact results (though larger values of 
+.I W
+do lead to longer run time). 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild ,
+or when the query is sequence-based.
+
+
+
+.TP 
+.B --toponly 
+Only search the top strand. By default both the query sequence
+and its reverse-complement are searched.
+
+.TP 
+.B --bottomonly 
+Only search the bottom (reverse-complement) strand. By 
+default both the query sequence and its reverse-complement are searched.
+
+
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/nhmmscan.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/nhmmscan.1
new file mode 100755
index 0000000..214a3c6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/nhmmscan.1
@@ -0,0 +1,468 @@
+.TH "nhmmscan" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+nhmmscan - search nucleotide sequence(s) against a nucleotide profile database
+
+
+.SH SYNOPSIS
+.B hmmscan
+.I [options]
+.I <hmmdb>
+.I <seqfile>
+
+
+
+.SH DESCRIPTION
+
+.PP
+.B nhmmscan 
+is used to search nucleotide sequences against collections 
+of nucleotide profiles. For each sequence in 
+.IR <seqfile> ,
+use that query sequence to search the target database of
+profiles in
+.IR <hmmdb> ,
+and output ranked lists of the profiles with the
+most significant matches to the sequence.
+
+.PP
+The 
+.I <seqfile> 
+may contain more than one query sequence. It can be in FASTA format,
+or several other common sequence file formats (genbank, embl, and
+uniprot, among others), or in alignment file formats (stockholm,
+aligned fasta, and others). See the
+.I --qformat 
+option for a complete list.
+
+.PP
+The
+.I <hmmdb>
+needs to be press'ed using 
+.B hmmpress
+before it can be searched with 
+.BR hmmscan . 
+This creates four binary files,
+suffixed .h3{fimp}.
+
+.PP 
+The query
+.I <seqfile> 
+may be '-' (a dash character), in which case
+the query sequences are read from a <stdin> pipe instead of from a
+file.
+The
+.I <hmmdb> 
+cannot be read from a <stdin> stream, because it needs to have
+those four auxiliary binary files generated by 
+.BR hmmpress .
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+option saves output in a simple tabular format that is concise and
+easier to parse. 
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-hit output, with one data line per homologous target model 
+hit found.
+
+.TP 
+.BI --dfamtblout " <f>"
+Save a tabular (space-delimited) file summarizing the 
+per-hit output, similar to 
+.B --tblout
+but more succinct. 
+
+.TP 
+.BI --aliscoresout " <f>" 
+Save to file a list of per-position scores for each hit.
+This is useful, for example, in identifying regions of high
+score density for use in resolving overlapping hits from 
+different models.
+
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS FOR REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --dfamtblout ).
+Hits are ranked by statistical significance (E-value). 
+
+.TP
+.BI -E " <x>"
+Report target profiles with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding output on E-value, instead
+report target profiles with a bit score of >=
+.IR <x> .
+
+
+
+
+.SH OPTIONS FOR INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds.
+Inclusion thresholds control which hits are considered to be
+reliable enough
+to be included in an output alignment or a subsequent search round.
+In 
+.BR nhmmscan , 
+which does not have any alignment output (like 
+.BR nhmmer ),
+inclusion thresholds have little effect. They only affect what hits
+get marked as significant (!) or questionable (?) in hit
+output. 
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, 
+use a bit score of >= 
+.I <x>
+as the inclusion threshold.
+It would be unusual to use bit score thresholds with
+.IR hmmscan ,
+because you don't expect a single score threshold to work for
+different profiles; different profiles have slightly different
+expected score distributions.
+
+
+
+.SH OPTIONS FOR MODEL-SPECIFIC SCORE THRESHOLDING
+
+Curated profile databases may define specific bit score thresholds for
+each profile, superseding any thresholding based on statistical
+significance alone.
+
+To use these options, the profile must contain the appropriate (GA,
+TC, and/or NC) optional score threshold annotation; this is picked up
+by 
+.B hmmbuild
+from Stockholm format alignment files. For a nucleotide model, each 
+thresholding option has a single per-hit threshold <x>
+This acts as if
+.BI -T <x>
+.BI --incT <x>
+has been applied specifically using each model's curated thresholds.
+
+.TP
+.B --cut_ga
+Use the GA (gathering) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. GA thresholds are generally considered to be the
+reliable curated thresholds defining family membership; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family known to be found in that organism. They
+may allow for minimal expected false discovery rate.
+
+.TP
+.B --cut_nc
+Use the NC (noise cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. NC thresholds are less stringent than GA; in the context
+of Pfam, they are generally used to store the score of the 
+highest-scoring known false positive.
+
+.TP
+.B --cut_tc
+Use the NC (trusted cutoff) bit score threshold in the model to set
+per-hit reporting and inclusion
+thresholds. TC thresholds are more stringent than GA, and are
+generally considered to be the score of the lowest-scoring known 
+true positive that is above all known false positives; for example,
+in Dfam, these thresholds are applied when annotating a genome
+with a model of a family not known to be found in that organism.
+
+
+
+.SH CONTROL OF THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+scanning-SSV filter, the Viterbi filter, and the Forward filter. The 
+first filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm. There is also a bias filter step between
+SSV and Viterbi. Targets that pass all the steps in the acceleration
+pipeline are then subjected to postprocessing -- domain
+identification and scoring using the Forward/Backward algorithm.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Turn off (nearly) all filters, including the bias filter, and run full
+Forward/Backward postprocessing on most of the target sequence.
+In contrast to  
+.B hmmscan,
+where this flag really does turn off the filters entirely, the 
+.I --max
+flag in 
+.B nhmmscan
+sets the scanning-SSV filter threshold to 0.4, not 1.0. Use of this
+flag increases sensitivity somewhat, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+Set the P-value threshold for the MSV filter step.  The default is
+0.02, meaning that roughly 2% of the highest scoring nonhomologous
+targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Set the P-value threshold for the Viterbi filter step.
+The default is 0.001. 
+
+.TP
+.BI --F3 " <x>"
+Set the P-value threshold for the Forward filter step.
+The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --seed " <n>"
+Set the random number seed to 
+.IR <n> .
+Some steps in postprocessing require Monte Carlo simulation.  The
+default is to use a fixed seed (42), so that results are exactly
+reproducible. Any other positive integer will give different (but also
+reproducible) results. A choice of 0 uses an arbitrarily chosen seed.
+
+.TP
+.BI --qformat " <s>"
+Assert that the query sequence file is in format 
+.IR <s> . 
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+
+.TP 
+.BI --w_beta " <x>"
+Window length tail mass.
+The upper bound,
+.IR W ,
+on the length at which nhmmer expects to find an instance of the 
+model is set such that the fraction of all sequences generated
+by the model with length 
+.I ">= W"
+is less than  
+.IR <x> . 
+The default is 1e-7. 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild .
+
+
+
+.TP 
+.BI --w_length " <n>"
+Override the model instance length upper bound,
+.IR W ,
+which is otherwise controlled by
+.BR --w_beta . 
+It should be larger than the model length. The value of 
+.I W
+is used deep in the acceleration pipeline, and modest changes
+are not expected to impact results (though larger values of 
+.I W
+do lead to longer run time). 
+This flag may be used to override the value of 
+.I W
+established for the model by 
+.BR hmmbuild .
+
+
+.TP 
+.B --toponly 
+Only search the top strand. By default both the query sequence
+and its reverse-complement are searched.
+
+.TP 
+.B --bottomonly 
+Only search the bottom (reverse-complement) strand. By 
+default both the query sequence and its reverse-complement are searched.
+
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off for your
+site or machine for some reason.
+
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/phmmer.1 b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/phmmer.1
new file mode 100755
index 0000000..f878a49
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/share/man/man1/phmmer.1
@@ -0,0 +1,520 @@
+.TH "phmmer" 1 "February 2015" "HMMER 3.1b2" "HMMER Manual"
+
+.SH NAME
+phmmer - search protein sequence(s) against a protein sequence database
+
+
+.SH SYNOPSIS
+.B phmmer
+.I [options]
+.I <seqfile>
+.I <seqdb>
+
+
+.SH DESCRIPTION
+
+.PP
+.B phmmer
+is used to search one or more query protein sequences against a protein sequence database.
+For each query sequence in 
+.IR <seqfile> ,
+use that sequence to search the target database of sequences in
+.IR <seqdb> ,
+and output ranked lists of the sequences with the most significant
+matches to the query.
+
+.PP 
+Either the query
+.I <seqfile> 
+or the target
+.I <seqdb> 
+may be '-' (a dash character), in which case
+the query sequences or target database input will be read from a <stdin> pipe instead of from a
+file. Only one input source can come through <stdin>, not both.
+An exception is that if the
+.I <seqfile> 
+contains more than one query sequence, then
+.I <seqdb> 
+cannot come from <stdin>, because we can't rewind the
+streaming target database to search it with another query.
+
+
+.PP
+The output format is designed to be human-readable, but is often so
+voluminous that reading it is impractical, and parsing it is a pain. The
+.B --tblout 
+and 
+.B --domtblout 
+options save output in simple tabular formats that are concise and
+easier to parse.
+The 
+.B -o
+option allows redirecting the main output, including throwing it away
+in /dev/null.
+
+.SH OPTIONS
+
+.TP
+.B -h
+Help; print a brief reminder of command line usage and all available
+options.
+
+
+.SH OPTIONS FOR CONTROLLING OUTPUT
+
+.TP 
+.BI -o " <f>"
+Direct the main human-readable output to a file
+.I <f> 
+instead of the default stdout.
+
+.TP
+.BI -A " <f>"
+Save a multiple alignment of all significant hits (those satisfying
+inclusion thresholds)
+to the file 
+.I <f>
+in Stockholm format.
+
+.TP 
+.BI --tblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-target output, with one data line per homologous target sequence
+found.
+
+.TP 
+.BI --domtblout " <f>"
+Save a simple tabular (space-delimited) file summarizing the
+per-domain output, with one data line per homologous domain
+detected in a query sequence for each homologous model.
+
+.TP 
+.B --acc
+Use accessions instead of names in the main output, where available
+for profiles and/or sequences.
+
+.TP 
+.B --noali
+Omit the alignment section from the main output. This can greatly
+reduce the output volume.
+
+.TP 
+.B --notextw
+Unlimit the length of each line in the main output. The default
+is a limit of 120 characters per line, which helps in displaying
+the output cleanly on terminals and in editors, but can truncate
+target profile description lines.
+
+.TP 
+.BI --textw " <n>"
+Set the main output's line length limit to
+.I <n>
+characters per line. The default is 120.
+
+
+
+.SH OPTIONS CONTROLLING SCORING SYSTEM
+
+The probability model in
+.B phmmer
+is constructed by inferring residue probabilities from a standard
+20x20 substitution score matrix, plus two additional parameters for
+position-independent gap open and gap extend probabilities.
+
+.TP
+.BI --popen " <x>"
+Set the gap open probability for a single sequence query model to 
+.IR <x> .
+The default is 0.02. 
+.I <x> 
+must be >= 0 and < 0.5.
+
+.TP
+.BI --pextend " <x>"
+Set the gap extend probability for a single sequence query model to 
+.IR <x> .
+The default is 0.4. 
+.I <x> 
+must be >= 0 and < 1.0.
+
+.TP
+.BI --mx " <s>"
+Obtain residue alignment probabilities from the built-in
+substitution matrix named
+.IR <s> . 
+Several standard matrices are built-in, and do not need to be
+read from files. 
+The matrix name
+.I <s> 
+can be
+PAM30, PAM70, PAM120, PAM240, BLOSUM45, BLOSUM50, BLOSUM62, BLOSUM80,
+or BLOSUM90.
+Only one of the
+.B --mx 
+and
+.B --mxfile
+options may be used.
+
+.TP
+.BI --mxfile " <mxfile>"
+Obtain residue alignment probabilities from the substitution matrix
+in file
+.IR <mxfile> .
+The default score matrix is BLOSUM62 (this matrix is internal to
+HMMER and does not have to be available as a file). 
+The format of a substitution matrix
+.I <mxfile>
+is the standard format accepted by BLAST, FASTA, and other sequence 
+analysis software.
+Only one of the
+.B --mx 
+and
+.B --mxfile
+options may be used.
+
+
+.SH OPTIONS CONTROLLING REPORTING THRESHOLDS
+
+Reporting thresholds control which hits are reported in output files
+(the main output,
+.IR --tblout ,
+and 
+.IR --domtblout ).
+Sequence hits and domain hits are ranked by statistical significance
+(E-value) and output is generated in two sections called per-target
+and per-domain output. In per-target output, by default, all
+sequence hits with an E-value <= 10 are reported. In the per-domain
+output, for each target that has passed per-target reporting
+thresholds, all domains satisfying per-domain reporting thresholds are
+reported. By default, these are domains with conditional E-values of
+<= 10. The following options allow you to change the default
+E-value reporting thresholds, or to use bit score thresholds instead.
+
+
+.TP
+.BI -E " <x>"
+In the per-target output, report target sequences with an E-value of <=
+.IR <x> . 
+The default is 10.0, meaning that on average, about 10 false positives
+will be reported per query, so you can see the top of the noise
+and decide for yourself if it's really noise.
+
+.TP
+.BI -T " <x>"
+Instead of thresholding per-profile output on E-value, instead
+report target sequences with a bit score of >=
+.IR <x> .
+
+.TP
+.BI --domE " <x>"
+In the per-domain output, for target sequences that have already satisfied
+the per-profile reporting threshold, report individual domains
+with a conditional E-value of <=
+.IR <x> . 
+The default is 10.0. 
+A conditional E-value means the expected number of additional false
+positive domains in the smaller search space of those comparisons that
+already satisfied the per-target reporting threshold (and thus must
+have at least one homologous domain already).
+
+.TP
+.BI --domT " <x>"
+Instead of thresholding per-domain output on E-value, instead
+report domains with a bit score of >=
+.IR <x> .
+
+.SH OPTIONS CONTROLLING INCLUSION THRESHOLDS
+
+Inclusion thresholds are stricter than reporting thresholds. They
+control which hits are included in any output multiple alignment (the
+.I -A 
+option) and which domains are marked as significant ("!") as opposed
+to questionable ("?")  in domain output.
+
+.TP
+.BI --incE " <x>"
+Use an E-value of <=
+.I <x>
+as the per-target inclusion threshold.
+The default is 0.01, meaning that on average, about 1 false positive
+would be expected in every 100 searches with different query
+sequences.
+
+.TP
+.BI --incT " <x>"
+Instead of using E-values for setting the inclusion threshold, instead
+use a bit score of >= 
+.I <x>
+as the per-target inclusion threshold.
+By default this option is unset.
+
+.TP
+.BI --incdomE " <x>"
+Use a conditional E-value of <=
+.I <x> 
+as the per-domain inclusion threshold, in targets that have already
+satisfied the overall per-target inclusion threshold.
+The default is 0.01.
+
+.TP
+.BI --incdomT " <x>"
+Instead of using E-values,
+use a bit score of >=
+.I <x>
+as the per-domain inclusion threshold.
+By default this option is unset.
+
+
+
+
+.SH OPTIONS CONTROLLING THE ACCELERATION PIPELINE
+
+HMMER3 searches are accelerated in a three-step filter pipeline: the
+MSV filter, the Viterbi filter, and the Forward filter. The first
+filter is the fastest and most approximate; the last is the full
+Forward scoring algorithm, slowest but most accurate. There is also a
+bias filter step between MSV and Viterbi. Targets that pass all the
+steps in the acceleration pipeline are then subjected to
+postprocessing -- domain identification and scoring using the
+Forward/Backward algorithm.
+
+Essentially the only free parameters that control HMMER's heuristic
+filters are the P-value thresholds controlling the expected fraction
+of nonhomologous sequences that pass the filters. Setting the default
+thresholds higher will pass a higher proportion of nonhomologous
+sequence, increasing sensitivity at the expense of speed; conversely,
+setting lower P-value thresholds will pass a smaller proportion,
+decreasing sensitivity and increasing speed. Setting a filter's
+P-value threshold to 1.0 means it will passing all sequences, and
+effectively disables the filter.
+
+Changing filter thresholds only removes or includes targets from
+consideration; changing filter thresholds does not alter bit scores,
+E-values, or alignments, all of which are determined solely in
+postprocessing.
+
+.TP
+.B --max
+Maximum sensitivity.  Turn off all filters, including the bias filter,
+and run full Forward/Backward postprocessing on every target. This
+increases sensitivity slightly, at a large cost in speed.
+
+.TP
+.BI --F1 " <x>"
+First filter threshold; set the P-value threshold for the MSV filter
+step.  The default is 0.02, meaning that roughly 2% of the highest
+scoring nonhomologous targets are expected to pass the filter.
+
+.TP
+.BI --F2 " <x>"
+Second filter threshold; set the P-value threshold for the Viterbi
+filter step.  The default is 0.001.
+
+.TP
+.BI --F3 " <x>"
+Third filter threshold; set the P-value threshold for the Forward
+filter step.  The default is 1e-5.
+
+.TP
+.B --nobias
+Turn off the bias filter. This increases sensitivity somewhat, but can
+come at a high cost in speed, especially if the query has biased
+residue composition (such as a repetitive sequence region, or if it is
+a membrane protein with large regions of hydrophobicity). Without the
+bias filter, too many sequences may pass the filter with biased
+queries, leading to slower than expected performance as the
+computationally intensive Forward/Backward algorithms shoulder an
+abnormally heavy load.
+
+
+
+
+.SH OPTIONS CONTROLLING E-VALUE CALIBRATION
+
+Estimating the location parameters for the expected score
+distributions for MSV filter scores, Viterbi filter scores, and
+Forward scores requires three short random sequence simulations.
+
+.TP
+.BI --EmL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EmN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for MSV filter E-values. Default is 200.
+
+.TP
+.BI --EvL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EvN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter mu for Viterbi filter E-values. Default is 200.
+
+.TP
+.BI --EfL " <n>"
+Sets the sequence length in simulation that estimates the location
+parameter tau for Forward E-values. Default is 100.
+
+.TP
+.BI --EfN " <n>"
+Sets the number of sequences in simulation that estimates the location
+parameter tau for Forward E-values. Default is 200.
+
+.TP
+.BI --Eft " <x>"
+Sets the tail mass fraction to fit in the simulation that estimates
+the location parameter tau for Forward evalues. Default is 0.04.
+
+
+
+
+.SH OTHER OPTIONS
+
+.TP
+.B --nonull2
+Turn off the null2 score corrections for biased composition.
+
+.TP
+.BI -Z " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-sequence E-value calculations,
+rather than the actual number of targets seen. 
+
+.TP
+.BI --domZ " <x>"
+Assert that the total number of targets in your searches is
+.IR <x> ,
+for the purposes of per-domain conditional E-value calculations,
+rather than the number of targets that passed the reporting thresholds.
+
+.TP 
+.BI --seed " <n>"
+Seed the random number generator with
+.IR <n> ,
+an integer >= 0. 
+If 
+.I <n> 
+is >0, any stochastic simulations will be reproducible; the same
+command will give the same results.
+If 
+.I <n>
+is 0, the random number generator is seeded arbitrarily, and
+stochastic simulations will vary from run to run of the same command.
+The default seed is 42.
+
+.TP 
+.BI --qformat " <s>"
+Declare that the input
+.I <seqfile>
+is in format 
+.IR <s> .
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+.TP 
+.BI --tformat " <s>"
+Declare that the input
+.I <seqdb>
+is in format 
+.IR <s> .
+Accepted formats include 
+.IR fasta , 
+.IR embl , 
+.IR genbank ,
+.IR ddbj , 
+.IR uniprot ,
+.IR stockholm , 
+.IR pfam , 
+.IR a2m , 
+and 
+.IR afa .
+The default is to autodetect the format of the file.
+
+.TP
+.BI --cpu " <n>"
+Set the number of parallel worker threads to 
+.IR <n> .
+By default, HMMER sets this to the number of CPU cores it detects in
+your machine - that is, it tries to maximize the use of your available
+processor cores. Setting 
+.I <n>
+higher than the number of available cores is of little if any value,
+but you may want to set it to something less. You can also control
+this number by setting an environment variable, 
+.IR HMMER_NCPU .
+
+This option is only available if HMMER was compiled with POSIX threads
+support. This is the default, but it may have been turned off at
+compile-time for your site or machine for some reason.
+
+.TP
+.BI --stall
+For debugging the MPI master/worker version: pause after start, to
+enable the developer to attach debuggers to the running master and
+worker(s) processes. Send SIGCONT signal to release the pause.
+(Under gdb: 
+.IR "(gdb) signal SIGCONT" )
+(Only available if optional MPI support was enabled at compile-time.)
+
+.TP
+.BI --mpi
+Run in MPI master/worker mode, using
+.IR mpirun .
+(Only available if optional MPI support was enabled at compile-time.)
+
+
+
+
+.SH SEE ALSO 
+
+See 
+.B hmmer(1)
+for a master man page with a list of all the individual man pages
+for programs in the HMMER package.
+
+.PP
+For complete documentation, see the user guide that came with your
+HMMER distribution (Userguide.pdf); or see the HMMER web page
+().
+
+
+
+.SH COPYRIGHT
+
+.nf
+Copyright (C) 2015 Howard Hughes Medical Institute.
+Freely distributed under the GNU General Public License (GPLv3).
+.fi
+
+For additional information on copyright and licensing, see the file
+called COPYRIGHT in your HMMER source distribution, or see the HMMER
+web page 
+().
+
+
+.SH AUTHOR
+
+.nf
+Eddy/Rivas Laboratory
+Janelia Farm Research Campus
+19700 Helix Drive
+Ashburn VA 20147 USA
+http://eddylab.org
+.fi
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/src/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/src/Makefile.in
new file mode 100755
index 0000000..5a9a432
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/Makefile.in
@@ -0,0 +1,376 @@
+# VPATH and shell configuration
+top_srcdir = @top_srcdir@
+srcdir     = @srcdir@
+VPATH      = @srcdir@ 
+SHELL      = /bin/sh
+
+# Installation targets
+#
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+mandir      = @mandir@
+docdir      = @docdir@
+pdfdir      = @pdfdir@
+mandir      = @mandir@
+man1dir     = ${mandir}/man1
+man1ext     = .1
+
+CC        = @CC@
+CFLAGS    = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS = @SIMD_CFLAGS@
+CPPFLAGS  = @CPPFLAGS@
+LDFLAGS   = @LDFLAGS@
+DEFS      = @DEFS@
+LIBS      = -lhmmer -leasel -ldivsufsort  @LIBS@ @LIBGSL@ @PTHREAD_LIBS@ -lm
+MPILIBS   = @MPILIBS@
+
+AR        = @AR@ 
+RANLIB    = @RANLIB@
+INSTALL   = @INSTALL@
+
+IMPLDIR   = impl_@IMPL_CHOICE@
+ESLDIR    = @HMMER_ESLDIR@
+SADIR     = @HMMER_SADIR@
+
+MYLIBDIRS = -L../${ESLDIR} -L./${IMPLDIR} -L../${SADIR} -L.
+MYINCDIRS = -I../${ESLDIR} \
+	    -I../${SADIR} \
+	    -I${top_srcdir}/easel \
+	    -I. \
+	    -I${srcdir}
+
+
+PROGS = alimask\
+	hmmalign\
+	hmmbuild\
+	hmmconvert\
+	hmmemit\
+	hmmfetch\
+	hmmlogo\
+	hmmpress\
+	hmmscan\
+	hmmsearch\
+	hmmsim\
+	hmmstat\
+	jackhmmer\
+	phmmer\
+	nhmmer\
+	nhmmscan\
+	hmmpgmd\
+	hmmc2\
+	makehmmerdb\
+	hmmerfm-exactmatch
+
+
+PROGOBJS =\
+	alimask.o\
+	exactmatch.o\
+	hmmalign.o\
+	hmmbuild.o\
+	hmmconvert.o\
+	hmmemit.o\
+	hmmfetch.o\
+	hmmlogo.o\
+	hmmpress.o\
+	hmmscan.o\
+	hmmsearch.o\
+	hmmsim.o\
+	hmmstat.o\
+	jackhmmer.o\
+	phmmer.o\
+	nhmmer.o\
+	nhmmscan.o\
+	hmmpgmd.o\
+	hmmc2.o\
+	makehmmerdb.o\
+	hmmerfm-exactmatch.o
+
+HDRS =  hmmer.h \
+	cachedb.h \
+	p7_gbands.h \
+	p7_gmxb.h \
+	p7_gmxchk.h \
+	p7_hmmcache.h
+
+OBJS =  build.o\
+	cachedb.o\
+	emit.o\
+	errors.o\
+	evalues.o\
+	eweight.o\
+	generic_decoding.o\
+	generic_fwdback.o\
+	generic_fwdback_chk.o\
+	generic_fwdback_banded.o\
+	generic_null2.o\
+	generic_msv.o\
+	generic_optacc.o\
+	generic_stotrace.o\
+	generic_viterbi.o\
+	generic_vtrace.o\
+	h2_io.o\
+	heatmap.o\
+	hmmlogo.o\
+	hmmdmstr.o\
+	hmmdwrkr.o\
+	hmmdutils.o\
+	hmmer.o\
+	logsum.o\
+	modelconfig.o\
+	modelstats.o\
+	mpisupport.o\
+	seqmodel.o\
+	tracealign.o\
+	p7_alidisplay.o\
+	p7_bg.o\
+	p7_builder.o\
+	p7_domaindef.o\
+	p7_gbands.o\
+	p7_gmx.o\
+	p7_gmxb.o\
+	p7_gmxchk.o\
+	p7_hmm.o\
+	p7_hmmcache.o\
+	p7_hmmfile.o\
+	p7_hmmwindow.o\
+	p7_null3.o\
+	p7_pipeline.o\
+	p7_prior.o\
+	p7_profile.o\
+	p7_spensemble.o\
+	p7_tophits.o\
+	p7_trace.o\
+	p7_scoredata.o\
+	hmmpgmd2msa.o\
+	fm_alphabet.o\
+	fm_general.o\
+	fm_sse.o\
+	fm_ssv.o
+#	island.o\
+
+STATS = \
+	evalues_stats
+
+BENCHMARKS = \
+	evalues_benchmark\
+	logsum_benchmark\
+	generic_decoding_benchmark\
+	generic_fwdback_benchmark\
+	generic_fwdback_chk_benchmark\
+	generic_msv_benchmark\
+	generic_null2_benchmark\
+	generic_optacc_benchmark\
+	generic_stotrace_benchmark\
+	generic_viterbi_benchmark \
+	p7_hmmcache_benchmark
+
+UTESTS =\
+	build_utest\
+	generic_fwdback_utest\
+	generic_fwdback_chk_utest\
+	generic_msv_utest\
+	generic_stotrace_utest\
+	generic_viterbi_utest\
+	hmmer_utest\
+	logsum_utest\
+	modelconfig_utest\
+	seqmodel_utest\
+	p7_alidisplay_utest\
+	p7_bg_utest\
+	p7_gmx_utest\
+	p7_gmxchk_utest\
+	p7_hmm_utest\
+	p7_hmmfile_utest\
+	p7_profile_utest\
+	p7_tophits_utest\
+	p7_trace_utest\
+	p7_scoredata_utest\
+  hmmpgmd2msa_utest
+
+ITESTS = \
+	itest_brute
+
+EXAMPLES = \
+	build_example\
+	emit_example\
+	generic_fwdback_example\
+	generic_fwdback_chk_example\
+	generic_msv_example\
+	generic_decoding_example\
+	generic_optacc_example\
+	generic_stotrace_example\
+	generic_viterbi_example\
+	generic_vtrace_example\
+	logsum_example\
+	p7_alidisplay_example\
+	p7_bg_example\
+	p7_bg_example2\
+	p7_domaindef_example\
+	p7_hmmfile_example\
+	p7_pipeline_example\
+	p7_spensemble_example
+
+# beautification magic stolen from git
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: all dev tests check install uninstall distclean clean TAGS
+
+all:   ${PROGS} .FORCE
+
+dev:   ${PROGS} ${UTESTS} ${ITESTS} ${STATS} ${BENCHMARKS} ${EXAMPLES} .FORCE
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} dev
+
+tests: ${PROGS} ${UTESTS} ${ITESTS} .FORCE
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} tests
+
+check: ${PROGS} ${UTESTS} ${ITESTS} .FORCE
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} check
+
+libhmmer.a: libhmmer-src.stamp .FORCE
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} libhmmer-impl.stamp
+
+libhmmer-src.stamp: ${OBJS}
+	${QUIET_AR}${AR} -r libhmmer.a $? > /dev/null 2>&1 
+	@${RANLIB} libhmmer.a
+	@echo "src_lib objects compiled:\c" > $@
+	@date >> $@
+
+.FORCE:
+
+${OBJS}:     ${HDRS} p7_config.h  
+${PROGOBJS}: ${HDRS} p7_config.h
+
+${PROGS}: @EXEC_DEPENDENCY@  libhmmer.a ../${ESLDIR}/libeasel.a 
+	${QUIET_GEN}${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} ${MYLIBDIRS} -o $@ $@.o ${MPILIBS} ${LIBS}
+
+.c.o:
+	${QUIET_CC}${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${CPPFLAGS} ${MYINCDIRS} -o $@ -c $<
+
+${ITESTS}: @EXEC_DEPENDENCY@ libhmmer.a ${HDRS} p7_config.h
+	${QUIET_GEN}${CC} ${CFLAGS} ${SIMDFLAGS} ${DEFS} ${LDFLAGS} ${MYLIBDIRS} -o $@ $@.o ${MPILIBS} ${LIBS}
+
+${UTESTS}: libhmmer.a  ${HDRS} p7_config.h
+	@BASENAME=`echo $@ | sed -e 's/_utest//' | sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_TESTDRIVE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "{CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+        fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${BENCHMARKS}: libhmmer.a  ${HDRS} p7_config.h
+	@BASENAME=`echo $@ | sed -e 's/_benchmark//' | sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_BENCHMARK ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "{CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+        fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${STATS}: libhmmer.a ${HDRS} p7_config.h
+	@BASENAME=`echo $@ | sed -e 's/_stats//' | sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_STATS ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "{CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+        fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${EXAMPLES}: libhmmer.a ${HDRS} p7_config.h
+	@BASENAME=`echo $@ | sed -e 's/_example[0-9]*//' | sed -e 's/^p7_//'` ;\
+	DFLAG=p7`echo $@ | sed -e 's/^p7_//' | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "{CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+        fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+install:
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} install
+	for file in ${PROGS}; do \
+	   ${INSTALL} -m 0755 $$file ${DESTDIR}${bindir}/ ;\
+	done
+	${INSTALL} -m 0755 libhmmer.a ${DESTDIR}${libdir}/
+	for file in ${HDRS}; do \
+	   ${INSTALL} -m 0644 ${srcdir}/$$file ${DESTDIR}${includedir}/ ;\
+	done
+	${INSTALL} -m 0644 p7_config.h ${DESTDIR}${includedir}/ ;\
+
+uninstall:
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} uninstall
+	for file in ${PROGS}; do \
+	   rm -f ${DESTDIR}${bindir}/$$file ;\
+	done
+	-rm -f ${DESTDIR}${libdir}/libhmmer.a
+	for file in ${HDRS}; do \
+	   rm -f ${DESTDIR}${includedir}/$$file ;\
+	done
+	-rm -f ${DESTDIR}${includedir}/p7_config.h
+
+distclean: clean
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} distclean
+	-rm -f Makefile p7_config.h
+
+clean:
+	${QUIET_SUBDIR0}${IMPLDIR} ${QUIET_SUBDIR1} clean
+	-rm -f *.o *~ Makefile.bak core ${PROGS} TAGS gmon.out
+	-rm -f libhmmer.a libhmmer-src.stamp
+	-rm -f ${UTESTS}
+	-rm -f ${ITESTS}
+	-rm -f ${STATS}
+	-rm -f ${BENCHMARKS}
+	-rm -f ${EXAMPLES}
+	-rm -f *.gcno
+	-rm -f cscope.out
+	for prog in ${PROGS} ${UTESTS} ${STATS} ${BENCHMARKS} ${EXAMPLES}; do \
+	   if test -d $$prog.dSYM; then rm -rf $$prog.dSYM; fi ;\
+	done
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/Makefile.in $
+# SVN $Id: Makefile.in 4511 2013-07-08 19:05:40Z wheelert $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/alimask.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/alimask.c
new file mode 100755
index 0000000..986c46e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/alimask.c
@@ -0,0 +1,468 @@
+/* Add mask line to a multiple sequence alignment
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#undef HMMER_THREADS
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_mpi.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+#include "esl_msacluster.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+#include "esl_regexp.h"
+
+#include "hmmer.h"
+
+typedef struct {
+  P7_BG	           *bg;
+  P7_BUILDER       *bld;
+} WORKER_INFO;
+
+
+#define ALPHOPTS "--amino,--dna,--rna"                         /* Exclusive options for alphabet choice */
+#define CONOPTS "--fast,--hand"                                /* Exclusive options for model construction                    */
+#define WGTOPTS "--wgsc,--wblosum,--wpb,--wnone,--wgiven"      /* Exclusive options for relative weighting                    */
+#define RANGEOPTS "--modelrange,--alirange,--ali2model,--model2ali"      /* Exclusive options for relative weighting                    */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "show brief help on version and usage",                  1 },
+  { "-o",        eslARG_OUTFILE,FALSE, NULL, NULL,      NULL,      NULL,    NULL, "direct summary output to file <f>, not stdout",         1 },
+/* Selecting the alphabet rather than autoguessing it */
+  { "--amino",   eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL, "input alignment is protein sequence data",              2 },
+  { "--dna",     eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL, "input alignment is DNA sequence data",                  2 },
+  { "--rna",     eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL, "input alignment is RNA sequence data",                  2 },
+/* Alternate model construction strategies */
+  { "--fast",    eslARG_NONE,"default",NULL, NULL,    CONOPTS,    NULL,     NULL, "assign cols w/ >= symfrac residues as consensus",       3 },
+  { "--hand",    eslARG_NONE,   FALSE, NULL, NULL,    CONOPTS,    NULL,     NULL, "manual construction (requires reference annotation)",   3 },
+  { "--symfrac", eslARG_REAL,   "0.5", NULL, "0<=x<=1", NULL,   "--fast",   NULL, "sets sym fraction controlling --fast construction",     3 },
+  { "--fragthresh",eslARG_REAL, "0.5", NULL, "0<=x<=1", NULL,     NULL,     NULL, "if L <= x*alen, tag sequence as a fragment",            3 },
+/* Alternate relative sequence weighting strategies */
+  /* --wme not implemented in HMMER3 yet */
+  { "--wpb",     eslARG_NONE,"default",NULL, NULL,    WGTOPTS,    NULL,      NULL, "Henikoff position-based weights",                      4 },
+  { "--wgsc",    eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "Gerstein/Sonnhammer/Chothia tree weights",             4 },
+  { "--wblosum", eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "Henikoff simple filter weights",                       4 },
+  { "--wnone",   eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "don't do any relative weighting; set all to 1",        4 },
+  { "--wgiven",  eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "use weights as given in MSA file",                     4 },
+  { "--wid",     eslARG_REAL, "0.62",  NULL,"0<=x<=1",   NULL,"--wblosum",   NULL, "for --wblosum: set identity cutoff",                   4 },
+/* mask ranges */
+  { "--modelrange", eslARG_STRING, NULL, NULL, NULL,  NULL,    NULL,     RANGEOPTS,  "range(s) for mask(s) in model coordinates", 5 },
+  { "--alirange",   eslARG_STRING, NULL, NULL, NULL,  NULL,    NULL,     RANGEOPTS,  "range(s) for mask(s) in alignment coordinates", 5 },
+  { "--apendmask",    eslARG_NONE, NULL, NULL, NULL,  NULL,  WGTOPTS,         NULL,  "add to existing mask (default ignores to existing mask)",    5 },
+  { "--model2ali",  eslARG_STRING, NULL, NULL, NULL,  NULL,    NULL,     RANGEOPTS,  "given model ranges, print corresp. input alignment ranges", 5 },
+  { "--ali2model",  eslARG_STRING, NULL, NULL, NULL,  NULL,    NULL,     RANGEOPTS,  "given alignment ranges, print corresp. model ranges", 5 },
+
+/* Other options */
+  { "--informat", eslARG_STRING,      NULL,    NULL, NULL,   NULL,   NULL,  NULL, "assert input alifile is in format <s> (no autodetect)", 8 },
+  { "--outformat", eslARG_STRING, "Stockholm", NULL, NULL,   NULL,   NULL,  NULL, "output alignment in format <s>",                                    2 },
+  { "--seed",     eslARG_INT,        "42",     NULL, "n>=0", NULL,   NULL,  NULL, "set RNG seed to <n> (if 0: one-time arbitrary seed)",   8 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+static char usage[]  = "[-options] <msafile> <postmsafile>";
+static char banner[] = "appending modelmask line to a multiple sequence alignments";
+
+static int output_header(const ESL_GETOPTS *go, FILE *ofp, char *alifile, char *postmsafile);
+
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_alifile, char **ret_postalifile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK) { if (printf("Failed to process environment:\n%s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) { if (printf("Failed to parse command line:\n%s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK) { if (printf("Failed to parse command line:\n%s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+
+      if (puts("\nBasic options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+
+      if (puts("\nMask range options (format:  --xxx 10-20,30-40 ) :") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80);
+
+      if (puts("\nOptions for selecting alphabet rather than guessing it:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+
+      if (puts("\nAlternative model construction strategies:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+
+      if (puts("\nAlternative relative sequence weighting strategies:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+
+      if (puts("\nOther options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 8, 2, 80);
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                  > 2)    { if (puts("Incorrect number of command line arguments.")          < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_alifile     = esl_opt_GetArg(go, 1)) == NULL) { if (puts("Failed to get <msafile> argument on command line")     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_IsUsed(go, "--alirange") || esl_opt_IsUsed(go, "--modelrange") ) {
+    if ((*ret_postalifile = esl_opt_GetArg(go, 2)) == NULL) { if (puts("Failed to get <postmsafile> argument on command line")     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  }
+
+  if (strcmp(*ret_alifile, "-") == 0 && ! esl_opt_IsOn(go, "--informat"))
+    { if (puts("Must specify --informat to read <alifile> from stdin ('-')") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  puts("\nwhere basic options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  printf("\nTo see more help on other available options, do:\n  %s -h\n\n", argv[0]);
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+static int
+output_header(const ESL_GETOPTS *go, FILE *ofp, char *alifile, char *postmsafile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+
+  if (fprintf(ofp, "# input alignment file:             %s\n", alifile) < 0)     ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--alirange") || esl_opt_IsUsed(go, "--modelrange") ) {
+    if (fprintf(ofp, "# output alignment file:            %s\n", postmsafile) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+
+  if (esl_opt_IsUsed(go, "--alirange")   && fprintf(ofp, "# alignment range:                  %s\n",        esl_opt_GetString(go, "--alirange"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--modelrange") && fprintf(ofp, "# model range:                      %s\n",        esl_opt_GetString(go, "--modelrange"))< 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--apendmask")  && fprintf(ofp, "# add to existing mask:             [on]\n"                                            )< 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--model2ali")   && fprintf(ofp, "# ali ranges for model range:      %s\n",        esl_opt_GetString(go, "--model2ali"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--ali2model")   && fprintf(ofp, "# model ranges for ali range:      %s\n",        esl_opt_GetString(go, "--ali2model"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+  if (esl_opt_IsUsed(go, "-o")           && fprintf(ofp, "# output directed to file:          %s\n",        esl_opt_GetString(go, "-o"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--amino")      && fprintf(ofp, "# input alignment is asserted as:   protein\n")                                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--dna")        && fprintf(ofp, "# input alignment is asserted as:   DNA\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--rna")        && fprintf(ofp, "# input alignment is asserted as:   RNA\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--fast")       && fprintf(ofp, "# model architecture construction:  fast/heuristic\n")                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--hand")       && fprintf(ofp, "# model architecture construction:  hand-specified by RF annotation\n")                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--symfrac")    && fprintf(ofp, "# sym fraction for model structure: %.3f\n",      esl_opt_GetReal(go, "--symfrac"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--fragthresh") && fprintf(ofp, "# seq called frag if L <= x*alen:   %.3f\n",      esl_opt_GetReal(go, "--fragthresh")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wpb")        && fprintf(ofp, "# relative weighting scheme:        Henikoff PB\n")                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wgsc")       && fprintf(ofp, "# relative weighting scheme:        G/S/C\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wblosum")    && fprintf(ofp, "# relative weighting scheme:        BLOSUM filter\n")                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wnone")      && fprintf(ofp, "# relative weighting scheme:        none\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wid")        && fprintf(ofp, "# frac id cutoff for BLOSUM wgts:   %f\n",        esl_opt_GetReal(go, "--wid"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed") == 0  && fprintf(ofp,"# random number seed:               one-time arbitrary\n")                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if                              (  fprintf(ofp,"# random number seed set to:        %d\n",         esl_opt_GetInteger(go, "--seed"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+/* Function:  p7_Alimask_MakeModel2AliMap()
+ * Synopsis:  Compute map of coordinate in the alignment corresponding to each model position.
+ *
+ * Args:      msa     - The alignment for which the mapped model is to be computed. We assume
+ *                      the MSA has already been manipulated to account for model building
+ *                      flags (e.g. weighting).
+ *            do_hand - TRUE when the model is to follow a hand-build RF line (which must be
+ *                      part of the file.
+ *            symfraq - if weighted occupancy exceeds this value, include the column in the model.
+ *            map     - int array into which the map values will be stored. Calling function
+ *                      must allocate (msa->alen+1) ints.
+ *
+ * Returns:   The number of mapped model positions.
+ */
+int
+p7_Alimask_MakeModel2AliMap(ESL_MSA *msa, int do_hand, float symfrac, int *map )
+{
+  int      i = 0;
+  int      apos, idx;
+  float    r;            /* weighted residue count              */
+  float    totwgt;       /* weighted residue+gap count          */
+
+  i = 0;
+  if ( do_hand ) {
+     if (msa->rf == NULL)      p7_Fail("Model file does not contain an RF line, required for --hand.\n");
+     /* Watch for off-by-one. rf is [0..alen-1]*/
+     for (apos = 1; apos <= msa->alen; apos++) {
+       if (!esl_abc_CIsGap(msa->abc, msa->rf[apos-1]) ) {
+         map[i] = apos;
+         i++;
+       }
+     }
+
+  } else {
+
+    for (apos = 1; apos <= msa->alen; apos++)
+    {
+        r = totwgt = 0.;
+        for (idx = 0; idx < msa->nseq; idx++)
+        {
+          if       (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos])) { r += msa->wgt[idx]; totwgt += msa->wgt[idx]; }
+          else if  (esl_abc_XIsGap(msa->abc,     msa->ax[idx][apos])) {                     totwgt += msa->wgt[idx]; }
+          else if  (esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos])) continue;
+        }
+
+        if (r > 0. && r / totwgt >= symfrac) {
+          map[i] = apos;
+          i++;
+        }
+    }
+  }
+  return i;
+}
+
+int
+main(int argc, char **argv)
+{
+
+  int i,j;
+
+  ESL_GETOPTS     *go = NULL;	/* command line processing                 */
+  ESL_STOPWATCH   *w  = esl_stopwatch_Create();
+
+  int              status;
+  ESL_MSA      *msa         = NULL;
+  FILE         *ofp         = NULL;    /* output file (default is stdout) */
+  ESL_ALPHABET *abc         = NULL;    /* digital alphabet */
+
+  char         *alifile;  /* name of the alignment file we're building HMMs from  */
+  ESLX_MSAFILE *afp         = NULL;            /* open alifile  */
+  int           infmt       = eslMSAFILE_UNKNOWN;    /* autodetect alignment format by default. */
+  int           outfmt      = eslMSAFILE_STOCKHOLM;
+
+
+  char         *postmsafile;  /* optional file to resave annotated, modified MSAs to  */
+  FILE         *postmsafp = NULL;  /* open <postmsafile>, or NULL */
+
+  int           mask_range_cnt = 0;
+  uint32_t      mask_starts[100]; // over-the-top allocation.
+  uint32_t      mask_ends[100];
+
+  char         *rangestr;
+  char         *range;
+
+
+  int     *map = NULL; /* map[i]=j,  means model position i comes from column j of the alignment; 1..alen */
+
+  int    keep_mm;
+
+  /* Set processor specific flags */
+  impl_Init();
+  alifile     = NULL;
+  postmsafile = NULL;
+
+  /* Parse the command line
+   */
+  process_commandline(argc, argv, &go, &alifile, &postmsafile);
+  keep_mm = esl_opt_IsUsed(go, "--apendmask");
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet).
+   * Fields controlled by masters are set up in usual_master() or mpi_master()
+   * Fields used by workers are set up in mpi_worker()
+   */
+  ofp         = NULL;
+  infmt         = eslMSAFILE_UNKNOWN;
+  afp         = NULL;
+  abc         = NULL;
+
+  if (esl_opt_IsOn(go, "--informat")) {
+    infmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslMSAFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--informat"));
+  }
+
+  /* Determine output alignment file format */
+  outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"));
+  if (outfmt == eslMSAFILE_UNKNOWN)    p7_Fail(argv[0], "%s is not a recognized output MSA file format\n", esl_opt_GetString(go, "--outformat"));
+
+
+
+  /* Parse the ranges */
+
+  if (esl_opt_IsUsed(go, "--alirange")) {
+    esl_strdup(esl_opt_GetString(go, "--alirange"), -1, &rangestr) ;
+  } else if (esl_opt_IsUsed(go, "--modelrange")) {
+    esl_strdup(esl_opt_GetString(go, "--modelrange"), -1, &rangestr) ;
+  } else if (esl_opt_IsUsed(go, "--model2ali")) {
+    esl_strdup(esl_opt_GetString(go, "--model2ali"), -1, &rangestr) ;
+  } else if (esl_opt_IsUsed(go, "--ali2model")) {
+    esl_strdup(esl_opt_GetString(go, "--ali2model"), -1, &rangestr) ;
+  } else {
+    if (puts("Must specify mask range with --modelrange, --alirange, --model2ali, or --ali2model\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto ERROR;
+  }
+
+  while ( (status = esl_strtok(&rangestr, ",", &range) ) == eslOK) {
+    status = esl_regexp_ParseCoordString(range, mask_starts + mask_range_cnt, mask_ends + mask_range_cnt );
+    if (status == eslESYNTAX) esl_fatal("range flags take coords <from>..<to>; %s not recognized", range);
+    if (status == eslFAIL)    esl_fatal("Failed to find <from> or <to> coord in %s", range);
+
+    mask_range_cnt++;
+  }
+
+
+  /* Start timing. */
+  esl_stopwatch_Start(w);
+
+
+  /* Open files, set alphabet.
+   *   afp       - open alignment file for input
+   *   abc       - alphabet expected or guessed in ali file
+   *   postmsafp - open MSA output file
+   *   ofp       - optional open output file, or stdout
+   */
+  if      (esl_opt_GetBoolean(go, "--amino"))   abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     abc = esl_alphabet_Create(eslRNA);
+  else                                          abc = NULL;
+  
+  status = eslx_msafile_Open(&abc, alifile, NULL, infmt, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  if (esl_opt_IsUsed(go, "--alirange") || esl_opt_IsUsed(go, "--modelrange") ) {
+    postmsafp = fopen(postmsafile, "w");
+    if (postmsafp == NULL) p7_Fail("Failed to MSA output file %s for writing", postmsafile);
+  }
+
+  if (esl_opt_IsUsed(go, "-o")) 
+    {
+      ofp = fopen(esl_opt_GetString(go, "-o"), "w");
+      if (ofp == NULL) p7_Fail("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+    } 
+  else ofp = stdout;
+
+
+  /* Looks like the i/o is set up successfully...
+   * Initial output to the user
+   */
+  output_header(go, ofp, alifile, postmsafile);                                  /* cheery output header                                */
+
+  /* read the alignment */
+  if ((status = eslx_msafile_Read(afp, &msa)) != eslOK)  eslx_msafile_ReadFailure(afp, status);
+
+
+  if (esl_opt_IsUsed(go, "--alirange") || esl_opt_IsUsed(go, "--modelrange") ) {
+    /* add/modify mmline for the mask */
+    if (msa->mm == NULL) {
+      ESL_ALLOC(msa->mm, msa->alen);
+      keep_mm = FALSE;
+    }
+
+    if (!keep_mm)
+      for (i=0; i<msa->alen; i++) msa->mm[i] = '.';
+
+  }
+
+  // convert model coordinates to alignment coordinates, if necessary
+  if (esl_opt_IsUsed(go, "--modelrange") || esl_opt_IsUsed(go, "--model2ali") || esl_opt_IsUsed(go, "--ali2model") ) {
+
+    float symfrac = esl_opt_GetReal(go, "--symfrac");
+    int do_hand  =  esl_opt_IsOn(go, "--hand");
+    int L;
+
+    //same as p7_builder relative_weights
+    if      (esl_opt_IsOn(go, "--wnone")  )                  { esl_vec_DSet(msa->wgt, msa->nseq, 1.); }
+    else if (esl_opt_IsOn(go, "--wgiven") )                  ;
+    else if (esl_opt_IsOn(go, "--wpb")    )                  status = esl_msaweight_PB(msa);
+    else if (esl_opt_IsOn(go, "--wgsc")   )                  status = esl_msaweight_GSC(msa);
+    else if (esl_opt_IsOn(go, "--wblosum"))                  status = esl_msaweight_BLOSUM(msa, esl_opt_GetReal(go, "--wid"));
+
+    if ((status =  esl_msa_MarkFragments(msa, esl_opt_GetReal(go, "--fragthresh")))           != eslOK) goto ERROR;
+
+    //build a map of model mask coordinates to alignment coords
+    ESL_ALLOC(map, sizeof(int)     * (msa->alen+1));
+    L = p7_Alimask_MakeModel2AliMap(msa, do_hand, symfrac, map );
+
+
+    if ( esl_opt_IsUsed(go, "--model2ali") ) {
+      //print mapping
+      printf ("model coordinates     alignment coordinates\n");
+      for (i=0; i<mask_range_cnt; i++)
+        printf ("%8d..%-8d -> %8d..%-8d\n", mask_starts[i], mask_ends[i], map[mask_starts[i]-1], map[mask_ends[i]-1]);
+      /* If I wanted to, I could print all the map values independently:
+        printf("\n\n-----------\n");
+        printf("Map\n");
+        printf("---\n");
+        for (i=0; i<L; i++)
+          printf("%d -> %d\n", i+1, map[i]);
+      */
+    } else if ( esl_opt_IsUsed(go, "--ali2model") ) {
+      //print mapping  (requires scanning the inverted map
+      int alistart = 0;
+      int aliend = 0;
+      printf ("alignment coordinates     model coordinates\n");
+      for (i=0; i<mask_range_cnt; i++) {
+        //find j for ali positions
+        while (map[alistart] < mask_starts[i] )
+          alistart++;
+        aliend = alistart;
+        while (map[aliend] < mask_ends[i] )
+          aliend++;
+
+        printf ("   %8d..%-8d -> %8d..%-8d\n", map[alistart], map[aliend], alistart+1, aliend+1);
+      }
+    } else {
+      //convert the mask coords based on map
+      for (i=0; i<mask_range_cnt; i++) {
+          mask_starts[i] = map[mask_starts[i]-1]; //-1 because mmline is offset by one relative to the 1-base alignment
+          mask_ends[i]   = map[mask_ends[i]-1];
+      }
+    }
+  }
+
+  if (esl_opt_IsUsed(go, "--alirange") || esl_opt_IsUsed(go, "--modelrange") ) {
+    //overwrite '.' with 'm' everywhere the range says to do it
+    for (i=0; i<mask_range_cnt; i++)
+      for (j=mask_starts[i]; j<=mask_ends[i]; j++)
+        msa->mm[j-1] = 'm';
+
+    if ((status = eslx_msafile_Write(postmsafp, msa, outfmt))  != eslOK) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+
+  esl_stopwatch_Stop(w);
+
+  if (esl_opt_IsOn(go, "-o"))  fclose(ofp);
+  if (postmsafp) fclose(postmsafp);
+  if (afp)   eslx_msafile_Close(afp);
+  if (abc)   esl_alphabet_Destroy(abc);
+
+  esl_getopts_Destroy(go);
+  esl_stopwatch_Destroy(w);
+  return 0;
+
+
+  ERROR:
+   return eslFAIL;
+}
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/build.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/build.c
new file mode 100755
index 0000000..7c631ad
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/build.c
@@ -0,0 +1,690 @@
+/* Construction of new HMMs from multiple alignments.
+ * 
+ * Two versions: 
+ *    p7_Handmodelmaker() -- use #=RF annotation to indicate match columns
+ *    p7_Fastmodelmaker() -- Krogh/Haussler heuristic
+ * 
+ * The maximum likelihood model construction algorithm that was in previous
+ * HMMER versions has been deprecated, at least for the moment.
+ * 
+ * The meat of the model construction code is in matassign2hmm().
+ * The two model construction strategies simply label which columns
+ * are supposed to be match states, and then hand this info to
+ * matassign2hmm().
+ * 
+ * 
+ * Contents:
+ *    1. Exported API: model construction routines.
+ *    2. Private functions used in constructing models.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Example.
+ *    6. Copyright and license.
+ */
+
+#include "p7_config.h"
+
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+
+#include "hmmer.h"
+
+static int do_modelmask( ESL_MSA *msa);
+static int matassign2hmm(ESL_MSA *msa, int *matassign, P7_HMM **ret_hmm, P7_TRACE ***opt_tr);
+static int annotate_model(P7_HMM *hmm, int *matassign, ESL_MSA *msa);
+
+/*****************************************************************
+ * 1. Exported API: model construction routines.
+ *****************************************************************/
+
+/* Function: p7_Handmodelmaker()
+ * 
+ * Purpose:  Manual model construction.
+ *           Construct an HMM from a digital alignment, where the
+ *           <#=RF> line of the alignment file is used to indicate the
+ *           columns assigned to matches vs. inserts.
+ *           
+ *           The <msa> must be in digital mode, and it must have
+ *           a reference annotation line.
+ *           
+ *           NOTE: <p7_Handmodelmaker()> will slightly revise the
+ *           alignment if necessary, if the assignment of columns
+ *           implies DI and ID transitions.
+ *           
+ *           Returns both the HMM in counts form (ready for applying
+ *           Dirichlet priors as the next step), and fake tracebacks
+ *           for each aligned sequence. 
+ *
+ *           Models must have at least one node, so if the <msa> defined 
+ *           no consensus columns, a <eslENORESULT> error is returned.
+ *           
+ * Args:     msa     - multiple sequence alignment
+ *           bld       - holds information on regions requiring masking, optionally NULL -> no masking
+ *           ret_hmm - RETURN: counts-form HMM
+ *           opt_tr  - optRETURN: array of tracebacks for aseq's
+ *           
+ * Return:   <eslOK> on success. <ret_hmm> and <opt_tr> are allocated 
+ *           here, and must be free'd by caller.
+ *
+ *           Returns <eslENORESULT> if no consensus columns were annotated;
+ *           in this case, <ret_hmm> and <opt_tr> are returned NULL. 
+ *           
+ *           Returns <eslEFORMAT> if the <msa> doesn't have a reference
+ *           annotation line.
+ *           
+ * Throws:   <eslEMEM> on allocation failure. Throws <eslEINVAL> if the <msa>
+ *           isn't in digital mode.
+ */            
+int
+p7_Handmodelmaker(ESL_MSA *msa, P7_BUILDER *bld, P7_HMM **ret_hmm, P7_TRACE ***opt_tr)
+{
+  int        status;
+  int       *matassign = NULL;    /* MAT state assignments if 1; 1..alen */
+  int        apos;                /* counter for aligned columns         */
+
+  if (! (msa->flags & eslMSA_DIGITAL)) ESL_XEXCEPTION(eslEINVAL, "need a digital msa");
+  if (msa->rf == NULL)                 return eslEFORMAT;
+
+  ESL_ALLOC(matassign, sizeof(int) * (msa->alen+1));
+ 
+  /* Watch for off-by-one. rf is [0..alen-1]; matassign is [1..alen] */
+  for (apos = 1; apos <= msa->alen; apos++)
+    matassign[apos] = (esl_abc_CIsGap(msa->abc, msa->rf[apos-1])? FALSE : TRUE);
+
+  /* matassign2hmm leaves ret_hmm, opt_tr in their proper state: */
+  if ((status = matassign2hmm(msa, matassign, ret_hmm, opt_tr)) != eslOK) goto ERROR;
+
+  free(matassign);
+  return eslOK;
+
+ ERROR:
+  if (matassign != NULL) free(matassign);
+  return status;
+}
+
+/* Function: p7_Fastmodelmaker()
+ * 
+ * Purpose:  Heuristic model construction.
+ *           Construct an HMM from an alignment by a simple rule,
+ *           based on the fractional occupancy of each columns w/
+ *           residues vs gaps. Any column w/ a fractional
+ *           occupancy of $\geq$ <symfrac> is assigned as a MATCH column;
+ *           for instance, if thresh = 0.5, columns w/ $\geq$ 50\% 
+ *           residues are assigned to match... roughly speaking.
+ *           
+ *           "Roughly speaking" because sequences may be weighted
+ *           in the input <msa>, and because missing data symbols are
+ *           ignored, in order to deal with sequence fragments.
+ *
+ *           The <msa> must be in digital mode. 
+ *
+ *           If the caller wants to designate any sequences as
+ *           fragments, it does so by converting all N-terminal and
+ *           C-terminal flanking gap symbols to missing data symbols.
+ *
+ *           NOTE: p7_Fastmodelmaker() will slightly revise the
+ *           alignment if the assignment of columns implies
+ *           DI and ID transitions.
+ *           
+ *           Returns the HMM in counts form (ready for applying Dirichlet
+ *           priors as the next step). Also returns fake traceback
+ *           for each training sequence.
+ *           
+ *           Models must have at least one node, so if the <msa> defined 
+ *           no consensus columns, a <eslENORESULT> error is returned.
+ *           
+ * Args:     msa       - multiple sequence alignment
+ *           symfrac   - threshold for residue occupancy; >= assigns MATCH
+ *           bld       - holds information on regions requiring masking, optionally NULL -> no masking
+ *           ret_hmm   - RETURN: counts-form HMM
+ *           opt_tr    - optRETURN: array of tracebacks for aseq's
+ *           
+ * Return:   <eslOK> on success. ret_hmm and opt_tr allocated here,
+ *           and must be free'd by the caller (FreeTrace(tr[i]), free(tr),
+ *           FreeHMM(hmm)).       
+ *
+ *           Returns <eslENORESULT> if no consensus columns were annotated;
+ *           in this case, <ret_hmm> and <opt_tr> are returned NULL.
+ *           
+ * Throws:   <eslEMEM> on allocation failure; <eslEINVAL> if the 
+ *           <msa> isn't in digital mode.
+ */
+int
+p7_Fastmodelmaker(ESL_MSA *msa, float symfrac, P7_BUILDER *bld, P7_HMM **ret_hmm, P7_TRACE ***opt_tr)
+{
+  int      status;	     /* return status flag                  */
+  int     *matassign = NULL; /* MAT state assignments if 1; 1..alen */
+  int      idx;              /* counter over sequences              */
+  int      apos;             /* counter for aligned columns         */
+  float    r;		         /* weighted residue count              */
+  float    totwgt;	     /* weighted residue+gap count          */
+
+  if (! (msa->flags & eslMSA_DIGITAL)) ESL_XEXCEPTION(eslEINVAL, "need digital MSA");
+
+  /* Allocations: matassign is 1..alen array of bit flags.
+   */
+  ESL_ALLOC(matassign, sizeof(int)     * (msa->alen+1));
+
+  /* Determine weighted sym freq in each column, set matassign[] accordingly.
+   */
+  for (apos = 1; apos <= msa->alen; apos++) 
+    {  
+      r = totwgt = 0.;
+      for (idx = 0; idx < msa->nseq; idx++) 
+      {
+        if       (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos])) { r += msa->wgt[idx]; totwgt += msa->wgt[idx]; }
+        else if  (esl_abc_XIsGap(msa->abc,     msa->ax[idx][apos])) {                     totwgt += msa->wgt[idx]; }
+        else if  (esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos])) continue;
+      }
+      if (r > 0. && r / totwgt >= symfrac) matassign[apos] = TRUE;
+      else                                 matassign[apos] = FALSE;
+    }
+
+
+  /* Once we have matassign calculated, modelmakers behave
+   * the same; matassign2hmm() does this stuff (traceback construction,
+   * trace counting) and sets up ret_hmm and opt_tr.
+   */
+  if ((status = matassign2hmm(msa, matassign, ret_hmm, opt_tr)) != eslOK) {
+    fprintf (stderr, "hmm construction error during trace counting\n");
+    goto ERROR;
+  }
+
+  free(matassign);
+  return eslOK;
+
+ ERROR:
+  if (matassign != NULL) free(matassign);
+  return status;
+}
+
+/*-------------------- end, exported API -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Private functions used in constructing models.
+ *****************************************************************/ 
+
+
+/* Function: do_modelmask()
+ *
+ * Purpose:  If the given <msa> has a MM CS line, mask (turn to
+ *           degenerate) residues in the msa positions associated
+ *           with the marked position in the MM (marked with 'm')
+ *
+ * Return:   <eslOK> on success.
+ *           <eslENORESULT> if error.
+ */
+static int
+do_modelmask( ESL_MSA *msa)
+{
+  int i,j;
+
+  if (msa->mm == NULL)  return eslOK;  //nothing to do
+
+  for (i = 1; i <= msa->alen; i++) {
+    for (j = 0; j < msa->nseq; j++) {
+      if (msa->mm[i-1] == 'm') {
+#ifdef eslAUGMENT_ALPHABET
+        if (msa->ax[j][i] != msa->abc->K && msa->ax[j][i] != msa->abc->Kp-1) // if not gap
+          msa->ax[j][i] = msa->abc->Kp-3; //that's the degenerate "any character" (N for DNA, X for protein)
+#else
+        if (msa->aseq[j][i] != '-' && msa->aseq[j][i] != '.') // if not gap
+          msa->aseq[j][i] = 'N';
+#endif
+      }
+    }
+  }
+  return eslOK;
+}
+
+/* Function: matassign2hmm()
+ * 
+ * Purpose:  Given an assignment of alignment columns to match vs.
+ *           insert, finish the final part of the model construction 
+ *           calculation that is constant between model construction
+ *           algorithms.
+ *           
+ * Args:     msa       - multiple sequence alignment
+ *           matassign - 1..alen bit flags for column assignments
+ *           ret_hmm   - RETURN: counts-form HMM
+ *           opt_tr    - optRETURN: array of tracebacks for aseq's
+ *                         
+ * Return:   <eslOK> on success.
+ *           <eslENORESULT> if no consensus columns are identified.
+ *
+ *           ret_hmm and opt_tr alloc'ed here.
+ */
+static int
+matassign2hmm(ESL_MSA *msa, int *matassign, P7_HMM **ret_hmm, P7_TRACE ***opt_tr)
+{
+  int        status;		/* return status                       */
+  P7_HMM    *hmm = NULL;        /* RETURN: new hmm                     */
+  P7_TRACE **tr  = NULL;        /* RETURN: 0..nseq-1 fake traces       */
+  int      M;                   /* length of new model in match states */
+  int      idx;                 /* counter over sequences              */
+  int      apos;                /* counter for aligned columns         */
+  char errbuf[eslERRBUFSIZE];
+
+  /* apply the model mask in the 'GC MM' row */
+  do_modelmask(msa);
+
+  /* How many match states in the HMM? */
+  for (M = 0, apos = 1; apos <= msa->alen; apos++) 
+    if (matassign[apos]) M++;
+  if (M == 0) { status = eslENORESULT; goto ERROR; }
+
+  /* Make fake tracebacks for each seq */
+  ESL_ALLOC(tr, sizeof(P7_TRACE *) * msa->nseq);
+  if ((status = p7_trace_FauxFromMSA(msa, matassign, p7_MSA_COORDS, tr))        != eslOK) goto ERROR;
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      if ((status = p7_trace_Doctor(tr[idx], NULL, NULL))                       != eslOK) goto ERROR;
+      if ((status = p7_trace_Validate(tr[idx], msa->abc, msa->ax[idx], errbuf)) != eslOK) 
+	ESL_XEXCEPTION(eslFAIL, "validation failed: %s", errbuf);
+    }
+
+  /* Build count model from tracebacks */
+  if ((hmm    = p7_hmm_Create(M, msa->abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+  if ((status = p7_hmm_Zero(hmm))           != eslOK) goto ERROR;
+  for (idx = 0; idx < msa->nseq; idx++) {
+    if (tr[idx] == NULL) continue; /* skip rare examples of empty sequences */
+    if ((status = p7_trace_Count(hmm, msa->ax[idx], msa->wgt[idx], tr[idx])) != eslOK) goto ERROR;
+  }
+
+  hmm->nseq     = msa->nseq;
+  hmm->eff_nseq = msa->nseq;
+
+  /* Transfer annotation from the MSA to the new model
+   */
+  if ((status = annotate_model(hmm, matassign, msa)) != eslOK) goto ERROR;
+
+  /* Reset #=RF line of alignment to reflect our assignment
+   * of match, delete. matassign is valid from 1..alen and is off
+   * by one from msa->rf.
+   */
+  if (msa->rf == NULL)  ESL_ALLOC(msa->rf, sizeof(char) * (msa->alen + 1));
+  for (apos = 1; apos <= msa->alen; apos++)
+    msa->rf[apos-1] = matassign[apos] ? 'x' : '.';
+  msa->rf[msa->alen] = '\0';
+
+  if (opt_tr  != NULL) *opt_tr  = tr; 
+  else                  p7_trace_DestroyArray(tr, msa->nseq);
+  *ret_hmm = hmm;
+  return eslOK;
+
+ ERROR:
+  if (tr     != NULL) p7_trace_DestroyArray(tr, msa->nseq);
+  if (hmm    != NULL) p7_hmm_Destroy(hmm);
+  if (opt_tr != NULL) *opt_tr = NULL;
+  *ret_hmm = NULL;
+  return status;
+}
+  
+
+
+/* Function: annotate_model()
+ * 
+ * Purpose:  Transfer rf, cs, and other optional annotation from the alignment
+ *           to the new model.
+ * 
+ * Args:     hmm       - [M] new model to annotate
+ *           matassign - which alignment columns are MAT; [1..alen]
+ *           msa       - alignment, including annotation to transfer
+ *           
+ * Return:   <eslOK> on success.
+ *
+ * Throws:   <eslEMEM> on allocation error.
+ */
+static int
+annotate_model(P7_HMM *hmm, int *matassign, ESL_MSA *msa)
+{                      
+  int   apos;			/* position in matassign, 1.alen  */
+  int   k;			/* position in model, 1.M         */
+  int   status;
+
+  /* Reference coord annotation  */
+  if (msa->rf != NULL) {
+    ESL_ALLOC(hmm->rf, sizeof(char) * (hmm->M+2));
+    hmm->rf[0] = ' ';
+    for (apos = k = 1; apos <= msa->alen; apos++) 
+      if (matassign[apos]) hmm->rf[k++] = msa->rf[apos-1]; /* watch off-by-one in msa's rf */
+    hmm->rf[k] = '\0';
+    hmm->flags |= p7H_RF;
+  }
+
+  /* Model mask annotation  */
+  if (msa->mm != NULL) {
+    ESL_ALLOC(hmm->mm, sizeof(char) * (hmm->M+2));
+    hmm->mm[0] = ' ';
+    for (apos = k = 1; apos <= msa->alen; apos++)
+      if (matassign[apos]) hmm->mm[k++] = ( msa->mm[apos-1] == '.' ? '-' : msa->mm[apos-1]) ;
+    hmm->mm[k] = '\0';
+    hmm->flags |= p7H_MMASK;
+  }
+
+  /* Consensus structure annotation */
+  if (msa->ss_cons != NULL) {
+    ESL_ALLOC(hmm->cs, sizeof(char) * (hmm->M+2));
+    hmm->cs[0] = ' ';
+    for (apos = k = 1; apos <= msa->alen; apos++)
+      if (matassign[apos]) hmm->cs[k++] = msa->ss_cons[apos-1];
+    hmm->cs[k] = '\0';
+    hmm->flags |= p7H_CS;
+  }
+
+  /* Surface accessibility annotation */
+  if (msa->sa_cons != NULL) {
+    ESL_ALLOC(hmm->ca, sizeof(char) * (hmm->M+2));
+    hmm->ca[0] = ' ';
+    for (apos = k = 1; apos <= msa->alen; apos++)
+      if (matassign[apos]) hmm->ca[k++] = msa->sa_cons[apos-1];
+    hmm->ca[k] = '\0';
+    hmm->flags |= p7H_CA;
+  }
+
+  /* The alignment map (1..M in model, 1..alen in alignment) */
+  ESL_ALLOC(hmm->map, sizeof(int) * (hmm->M+1));
+  hmm->map[0] = 0;
+  for (apos = k = 1; apos <= msa->alen; apos++)
+    if (matassign[apos]) hmm->map[k++] = apos;
+  hmm->flags |= p7H_MAP;
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7BUILD_TESTDRIVE
+
+/* utest_basic()
+ * An MSA to ex{e,o}rcise past demons.
+ *   1. seq2 gives an I->end transition.
+ *   2. seq1 contains degenerate Z,X, exercising symbol counting
+ *      of degenerate residues.
+ */
+static void
+utest_basic(void)
+{
+  char         *failmsg      = "failure in build.c::utest_basic() unit test";
+  char          msafile[16]  = "p7tmpXXXXXX"; /* tmpfile name template */
+  FILE         *ofp          = NULL;
+  ESL_ALPHABET *abc          = esl_alphabet_Create(eslAMINO);
+  ESLX_MSAFILE *afp          = NULL;
+  ESL_MSA      *msa          = NULL;
+  P7_HMM       *hmm          = NULL;
+  float         symfrac      = 0.5;
+
+  if (esl_tmpfile_named(msafile, &ofp) != eslOK) esl_fatal(failmsg);
+  fprintf(ofp, "# STOCKHOLM 1.0\n");
+  fprintf(ofp, "#=GC RF --xxxxxxxxxxxxxxxx-xxx-x--\n");
+  fprintf(ofp, "seq1    --ACDEFGHIKLMNPZXS-TVW-Yyy\n");
+  fprintf(ofp, "seq2    aaACDEFGHIKLMNPQRS-TVWw---\n");
+  fprintf(ofp, "seq3    aaAC-EFGHIKLMNPQRS-TVW-Y--\n");
+  fprintf(ofp, "seq4    aaAC-EFGHIKLMNPQRS-TVW-Y--\n");
+  fprintf(ofp, "//\n");
+  fclose(ofp);
+
+  if (eslx_msafile_Open(&abc, msafile, NULL, eslMSAFILE_UNKNOWN, NULL, &afp) != eslOK) esl_fatal(failmsg);
+  if (eslx_msafile_Read(afp, &msa)                                           != eslOK) esl_fatal(failmsg);
+  if (p7_Fastmodelmaker(msa, symfrac, NULL, &hmm, NULL)                      != eslOK) esl_fatal(failmsg);
+  
+  p7_hmm_Destroy(hmm);
+  esl_msa_Destroy(msa);
+  eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+  remove(msafile);
+  return;
+}
+
+/* utest_fragments()
+ * This exercises the building code that deals with fragments,
+ * creating traces with B->X->{MDI}k and {MDI}k->X->E 
+ * transitions, and making sure we can make MSAs correctly
+ * from them using p7_tracealign_MSA(). This code was initially
+ * buggy when first written; bugs first detected by Elena, 
+ * Nov 2009
+ */
+static void
+utest_fragments(void)
+{
+  char         *failmsg      = "failure in build.c::utest_fragments() unit test";
+  char          msafile[16]  = "p7tmpXXXXXX"; /* tmpfile name template */
+  FILE         *ofp          = NULL;
+  ESL_ALPHABET *abc          = esl_alphabet_Create(eslAMINO);
+  ESLX_MSAFILE *afp          = NULL;
+  ESL_MSA      *msa          = NULL;
+  ESL_MSA      *dmsa         = NULL;
+  ESL_MSA      *postmsa      = NULL;
+  P7_HMM       *hmm          = NULL;
+  P7_TRACE    **trarr        = NULL;
+  int           i;
+
+  /* Write an MSA that tests fragment/missing data transitions. 
+   * When built with Handmodelmaker (using the RF line):
+   *   seq1 forces B->X->Mk and Mk->X->E missing data transitions; 
+   *   seq2 forces B->X->Ik and Ik->X->E missing data transitions;
+   *   seq3 forces B->X->Dk and Dk->X->E missing data transitions.
+   *
+   * The first two cases can arise from fragment definition in
+   * model construction, or in an input file. 
+   *
+   * The X->Dk and Dk->X cases should never happen, but we don't
+   * prohibit them. They can only arise in an input file, because
+   * esl_msa_MarkFragments() converts everything before/after
+   * first/last residue to ~, and won't leave a gap character in
+   * between.
+   *
+   * There's nothing being tested by seq4 and seq5; they're just there.
+   */
+  if (esl_tmpfile_named(msafile, &ofp) != eslOK) esl_fatal(failmsg);
+  fprintf(ofp, "# STOCKHOLM 1.0\n");
+  fprintf(ofp, "#=GC RF xxxxx.xxxxxxxxxxxx.xxx\n");
+  fprintf(ofp, "seq1    ~~~~~~GHIKLMNPQRST~~~~\n");
+  fprintf(ofp, "seq2    ~~~~~aGHIKLMNPQRSTa~~~\n");
+  fprintf(ofp, "seq3    ~~~~~~-HIKLMNPQRS-~~~~\n");
+  fprintf(ofp, "seq4    ACDEF.GHIKLMNPQRST.VWY\n");
+  fprintf(ofp, "seq5    ACDEF.GHIKLMNPQRST.VWY\n");
+  fprintf(ofp, "//\n");
+  fclose(ofp);
+
+  /* Read the original as text for comparison to postmsa. Make a digital copy for construction */
+  if (eslx_msafile_Open(NULL, msafile, NULL, eslMSAFILE_UNKNOWN, NULL, &afp)!= eslOK) esl_fatal(failmsg);
+  if (eslx_msafile_Read(afp, &msa)                                          != eslOK) esl_fatal(failmsg);
+  if ((dmsa = esl_msa_Clone(msa))                                           == NULL)  esl_fatal(failmsg);
+  if (esl_msa_Digitize(abc, dmsa, NULL)                                     != eslOK) esl_fatal(failmsg);
+
+  if (p7_Handmodelmaker(dmsa, NULL, &hmm, &trarr)                                 != eslOK) esl_fatal(failmsg);
+  for (i = 0; i < dmsa->nseq; i++)
+    if (p7_trace_Validate(trarr[i], abc, dmsa->ax[i], NULL)                 != eslOK) esl_fatal(failmsg);
+
+  /* The example is contrived such that the traces should give exactly the
+   * same (text) alignment as the input alignment; no tracedoctoring.
+   * Not a trivial test; for example, sequence 2 has a B->X->I transition that 
+   * can be problematic to handle.
+   */
+  if (p7_tracealign_MSA(dmsa, trarr, hmm->M, p7_DEFAULT, &postmsa)          != eslOK) esl_fatal(failmsg);
+  for (i = 0; i < msa->nseq; i++)
+    if (strcmp(msa->aseq[i], postmsa->aseq[i]) != 0) esl_fatal(failmsg);
+
+  p7_trace_DestroyArray(trarr, msa->nseq);
+  p7_hmm_Destroy(hmm);
+  esl_msa_Destroy(msa);
+  esl_msa_Destroy(dmsa);
+  esl_msa_Destroy(postmsa);
+  eslx_msafile_Close(afp);
+  esl_alphabet_Destroy(abc);
+  remove(msafile);
+  return;
+}
+
+#endif /*p7BUILD_TESTDRIVE*/
+/*---------------------- end of unit tests -----------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+
+#ifdef p7BUILD_TESTDRIVE
+/* gcc -g -Wall -Dp7BUILD_TESTDRIVE -I. -I../easel -L. -L../easel -o build_utest build.c -lhmmer -leasel -lm
+ */
+#include "easel.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{  
+  utest_basic();
+  utest_fragments();
+
+  return eslOK;
+}
+
+
+#endif /*p7BUILD_TESTDRIVE*/
+/*-------------------- end of test driver ---------------------*/
+
+
+
+/******************************************************************************
+ * 5. Example.
+ ******************************************************************************/ 
+#ifdef p7BUILD_EXAMPLE
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",    0 },
+  { "--dna",     eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use DNA alphabet",                        0 },
+  { "--rna",     eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use RNA alphabet",                        0 },
+  { "--amino",   eslARG_NONE,   FALSE,  NULL, NULL,  NULL,  NULL, NULL, "use protein alphabet",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <msafile>";
+static char banner[] = "example for the build module";
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go        = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char         *msafile   = esl_opt_GetArg(go, 1);
+  int           fmt       = eslMSAFILE_UNKNOWN;
+  int           alphatype = eslUNKNOWN;
+  ESL_ALPHABET *abc       = NULL;
+  ESLX_MSAFILE *afp       = NULL;
+  ESL_MSA      *msa       = NULL;
+  P7_HMM       *hmm       = NULL;
+  P7_PRIOR     *prior     = NULL;
+  P7_TRACE    **trarr     = NULL;
+  P7_BG        *bg        = NULL;
+  P7_PROFILE   *gm        = NULL;
+  ESL_MSA      *postmsa   = NULL;
+  int           i;
+  int           status;
+  
+  /* Standard idioms for opening and reading a digital MSA. (See esl_msa.c example). */
+  if      (esl_opt_GetBoolean(go, "--rna"))   alphatype = eslRNA;
+  else if (esl_opt_GetBoolean(go, "--dna"))   alphatype = eslDNA;
+  else if (esl_opt_GetBoolean(go, "--amino")) alphatype = eslAMINO;
+
+  if ((status = eslx_msafile_Open(&abc, msafile, NULL, fmt, NULL, &afp)) != eslOK)
+    eslx_msafile_OpenFailure(afp, status);
+
+  bg  = p7_bg_Create(abc);
+
+  switch (abc->type) {
+  case eslAMINO: prior = p7_prior_CreateAmino();      break;
+  case eslDNA:   prior = p7_prior_CreateNucleic();    break;
+  case eslRNA:   prior = p7_prior_CreateNucleic();    break;
+  default:       prior = p7_prior_CreateLaplace(abc); break;
+  }
+  if (prior == NULL) esl_fatal("Failed to initialize prior");
+
+  while ((status = eslx_msafile_Read(afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+      /* The modelmakers collect counts in an HMM structure */
+      status = p7_Handmodelmaker(msa, NULL, &hmm, &trarr);
+      if      (status == eslENORESULT) esl_fatal("no consensus columns in alignment %s\n",  msa->name);
+      else if (status != eslOK)        esl_fatal("failed to build HMM from alignment %s\n", msa->name);
+
+      printf("COUNTS:\n");
+      p7_hmm_Dump(stdout, hmm);
+
+      /* These counts, in combination with a prior, are converted to probability parameters */
+      status = p7_ParameterEstimation(hmm, prior);
+      if (status != eslOK)             esl_fatal("failed to parameterize HMM for %s", msa->name);
+
+      printf("PROBABILITIES:\n");
+      p7_hmm_Dump(stdout, hmm);
+
+      /* Just so we can dump a more informatively annotated trace - build a profile */
+      gm = p7_profile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+
+      /* Dump the individual traces */
+      for (i = 0; i < msa->nseq; i++)
+	{
+	  printf("Trace %d: %s\n", i+1, msa->sqname[i]);
+	  p7_trace_Dump(stdout, trarr[i], gm, msa->ax[i]);
+	}
+      
+      /* Create an MSA from the individual traces */
+      status = p7_tracealign_MSA(msa, trarr, hmm->M, p7_DEFAULT, &postmsa);
+      if (status != eslOK) esl_fatal("failed to create new MSA from traces\n");
+
+      eslx_msafile_Write(stdout, postmsa, eslMSAFILE_PFAM);
+
+      p7_profile_Destroy(gm);
+      p7_hmm_Destroy(hmm);
+      p7_trace_DestroyArray(trarr, msa->nseq);
+      esl_msa_Destroy(postmsa);
+      esl_msa_Destroy(msa);
+    }
+
+  eslx_msafile_Close(afp);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+#endif /*p7BUILD_EXAMPLE*/
+
+
+
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/build.c $
+ * SVN $Id: build.c 3496 2011-02-28 22:18:49Z eddys $
+ ************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/cachedb.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/cachedb.c
new file mode 100755
index 0000000..d0d567a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/cachedb.c
@@ -0,0 +1,671 @@
+/* Sequence and profile caches, used by the hmmpgmd daemon.
+ * 
+ * Contents:
+ *   2. P7_CACHEDB_SEQS: a daemon's cached sequence database
+ *   x. Benchmark driver
+ *   x. Unit tests
+ *   x. License and copyright information.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <stdint.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "cachedb.h"
+#include "hmmpgmd.h"
+
+
+/* sort routines */
+static int
+sort_seq(const void *p1, const void *p2)
+{
+  int cmp;
+
+  cmp  = (((HMMER_SEQ *)p1)->idx < ((HMMER_SEQ *)p2)->idx);
+  cmp -= (((HMMER_SEQ *)p1)->idx > ((HMMER_SEQ *)p2)->idx);
+
+  return cmp;
+}
+
+int
+p7_seqcache_Open(char *seqfile, P7_SEQCACHE **ret_cache, char *errbuf)
+{
+  int                i;
+  int                inx;
+  int                val;
+  int                status;
+
+  int32_t            seq_cnt;
+  int32_t            db_cnt;
+  int32_t            db_inx[32];
+  uint32_t           db_key;
+
+  uint64_t           res_cnt;
+  uint64_t           res_size;
+  uint64_t           hdr_size;
+
+  char              *hdr_ptr;
+  char              *res_ptr;
+  char              *desc_ptr;
+  char              *ptr;
+  char               buffer[512];
+  off_t              offset;
+
+  uint64_t           total_mem;
+
+  SEQ_DB            *db         = NULL;
+  P7_SEQCACHE       *cache      = NULL;
+
+  ESL_RANDOMNESS    *rnd        = NULL;
+  ESL_SQFILE        *sqfp       = NULL;
+  ESL_SQ            *sq         = NULL;
+  ESL_ALPHABET      *abc        = NULL;
+  ESL_SQASCII_DATA  *ascii      = NULL;
+
+  if (errbuf) errbuf[0] = '\0';	/* CURRENTLY UNUSED. FIXME */
+
+  /* Open the target sequence database */
+  if ((status = esl_sqfile_Open(seqfile, eslSQFILE_FASTA, NULL, &sqfp)) != eslOK) return status;
+
+  /* This is a bit of a hack.  The first line contains database information.
+   *
+   * #<res_count> <seq_count> <db_count> <db_sequences_1> <db_sequences_before_removing_duplicates_1> <db_sequences_2> <db_sequences_before_removing_duplicates_2>  ... <date_stamp>
+   *
+   * The rest of the file is a fasta format.  The fasta header is just
+   * sequence number followed by a binary number indicating which
+   * database this sequence occurs in.
+   *
+   * The header line will be read in, parsed and saved.  Then the
+   * parser will be repositioned after the line and used normally.
+   */
+  ascii = &sqfp->data.ascii;
+  fseek(ascii->fp, 0L, SEEK_SET);
+  if (fgets(buffer, sizeof(buffer), ascii->fp) == NULL) return eslEFORMAT;
+  if (buffer[0] != '#')                                 return eslEFORMAT;
+
+  ptr = buffer + 1;
+  res_cnt = strtoll(ptr, &ptr, 10);
+  seq_cnt = strtol(ptr, &ptr, 10);
+  db_cnt  = strtol(ptr, &ptr, 10);
+
+  if (db_cnt > (sizeof(db_inx)/sizeof(db_inx[0])))      return eslEFORMAT;
+
+  total_mem = sizeof(P7_SEQCACHE);
+  ESL_ALLOC(cache, sizeof(P7_SEQCACHE));
+  memset(cache, 0, sizeof(P7_SEQCACHE));
+
+  if (esl_strdup(seqfile, -1, &cache->name) != eslOK)   goto ERROR;
+
+  total_mem += (sizeof(HMMER_SEQ) * seq_cnt);
+  ESL_ALLOC(cache->list, sizeof(HMMER_SEQ) * seq_cnt);
+  memset(cache->list, 0, sizeof(HMMER_SEQ) * seq_cnt);
+
+  total_mem += (sizeof(SEQ_DB) * db_cnt);
+  ESL_ALLOC(db, sizeof(SEQ_DB) * db_cnt);
+  for (i = 0; i < db_cnt; ++i) {
+    db[i].count  = strtol(ptr, &ptr, 10);
+    db[i].K      = strtol(ptr, &ptr, 10);
+    total_mem   += (sizeof(HMMER_SEQ *) * db[i].count);
+    ESL_ALLOC(db[i].list, sizeof(HMMER_SEQ *) * db[i].count);
+    memset(db[i].list, 0, sizeof(HMMER_SEQ *) * db[i].count);
+  }
+
+  /* grab the unique identifier */
+  while (*ptr && isspace(*ptr)) ++ptr;
+  i = strlen(ptr);
+  ESL_ALLOC(cache->id, i+1);
+  strcpy(cache->id, ptr);
+  while (--i > 0 && isspace(cache->id[i])) cache->id[i] = 0;
+
+  res_size = res_cnt + seq_cnt + 1;
+  hdr_size = seq_cnt * 10;
+
+  total_mem += res_size + hdr_size;
+  ESL_ALLOC(cache->residue_mem, res_size);
+  ESL_ALLOC(cache->header_mem, hdr_size);
+
+  /* position the sequence file to the start of the first sequence.
+   * this will force any buffers associated with the file to be reset.
+   */
+  offset = ftell(ascii->fp);
+  if ((status = esl_sqfile_Position(sqfp, offset)) != eslOK) goto ERROR;
+
+  abc = esl_alphabet_Create(eslAMINO);
+  sq  = esl_sq_CreateDigital(abc);
+
+  cache->db_cnt      = db_cnt;
+  cache->db          = db;
+  cache->abc         = abc;
+  cache->res_size    = res_size;
+  cache->hdr_size    = hdr_size;
+  cache->count       = seq_cnt;
+
+  hdr_ptr = cache->header_mem;
+  res_ptr = cache->residue_mem;
+  for (i = 0; i < db_cnt; ++i) db_inx[i] = 0;
+
+  strcpy(buffer, "000000001");
+  
+  inx = 0;
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK) {
+
+    /* sanity checks */
+    if (inx >= seq_cnt)       { printf("inx: %d\n", inx); return eslEFORMAT; }
+    if (sq->n + 1 > res_size) { printf("inx: %d size %d %d\n", inx, (int)sq->n + 1, (int)res_size); return eslEFORMAT; }
+    if (hdr_size <= 0)        { printf("inx: %d hdr %d\n", inx, (int)hdr_size); return eslEFORMAT; }
+
+    /* generate the database key - modified to take the first word in the desc line.
+     * The remaining part of the desc is then cached as the description.  */
+
+    ptr = sq->desc;;
+    desc_ptr = strchr(sq->desc, ' ');
+    if(desc_ptr != NULL) {
+    	*desc_ptr= '\0';
+    	++desc_ptr;
+    }
+    val = 1;
+    db_key = 0;
+    while (*ptr) {
+      if (*ptr == '1') db_key += val;
+      val <<= 1;
+      ++ptr;
+    }
+
+
+    if (db_key >= (1 << (db_cnt + 1))) { printf("inx: %d db %d %s\n", inx, db_key, sq->desc); return eslEFORMAT; }
+
+    cache->list[inx].name   = hdr_ptr;
+    cache->list[inx].dsq    = (ESL_DSQ *)res_ptr;
+    cache->list[inx].n      = sq->n;
+    cache->list[inx].idx    = inx;
+    cache->list[inx].db_key = db_key;
+    if(desc_ptr != NULL) esl_strdup(desc_ptr, -1, &(cache->list[inx].desc));
+
+    /* copy the digitized sequence */
+    memcpy(res_ptr, sq->dsq, sq->n + 1);
+    res_ptr  += (sq->n + 1);
+    res_size -= (sq->n + 1);
+
+    /* copy the index to the header */
+    strcpy(hdr_ptr, buffer);
+    hdr_ptr += 10;
+    hdr_size -= 10;
+
+    /* increment the buffer string */
+    ++buffer[8];
+    for (i = 8; i > 0; --i) {
+      if (buffer[i] > '9') {
+        buffer[i] = '0';
+        buffer[i-1]++;
+      }
+    }
+
+    esl_sq_Reuse(sq);
+    ++inx;    
+  }
+  if (status != eslEOF) { printf("Unexpected error %d at %d\n", status, inx); return status; }
+
+  if (inx != seq_cnt) { printf("inx:: %d %d\n", inx, seq_cnt); return eslEFORMAT; }
+  if (hdr_size != 0)  { printf("inx:: %d hdr %d\n", inx, (int)hdr_size); return eslEFORMAT; }
+  if (res_size != 1)  { printf("inx:: %d size %d %d\n", inx, (int)sq->n + 1, (int)res_size); return eslEFORMAT; }
+
+  /* copy the final sentinel character */
+  *res_ptr++ = eslDSQ_SENTINEL;
+  --res_size;
+
+  /* sort the order of the database sequences */
+  rnd = esl_randomness_CreateFast(seq_cnt);
+  for (i = 0 ; i < seq_cnt; ++i) {
+    rnd->x = rnd->x * 69069 + 1;
+    cache->list[i].idx = rnd->x;
+  }
+  esl_randomness_Destroy(rnd);
+  qsort(cache->list, seq_cnt, sizeof(HMMER_SEQ), sort_seq);
+
+  /* fill in the different databases and fix the index */
+  for (i = 0 ; i < seq_cnt; ++i) {
+    inx = 0;
+    db_key = cache->list[i].db_key;
+    while (db_key) {
+      if (db_key & 1) {
+        SEQ_DB *db = cache->db + inx;
+        if (db_inx[inx] >= db->count) { printf("sort:: %d %d\n", db_inx[inx], db->count); return eslEFORMAT; }
+        db->list[db_inx[inx]] = &cache->list[i];
+        ++db_inx[inx];
+      }
+      db_key >>= 1;
+      ++inx;
+    }
+    cache->list[i].idx = (cache->list[i].name - cache->header_mem) / 10 + 1;
+  }
+
+  for (i = 0; i < cache->db_cnt; ++i) {
+    printf("sequence database (%d):: %d %d\n", i, cache->db[i].count, db_inx[i]);
+  }
+
+  printf("\nLoaded sequence db file %s; total memory %" PRId64 "\n", seqfile, total_mem);
+
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+
+  *ret_cache = cache;
+
+  return eslOK;
+
+ ERROR:
+  if (sq    != NULL) esl_sq_Destroy(sq);
+  if (abc   != NULL) esl_alphabet_Destroy(abc);
+  if (cache != NULL) {
+    if (cache->header_mem  != NULL) free(cache->header_mem);
+    if (cache->residue_mem != NULL) free(cache->residue_mem);
+    if (cache->name        != NULL) free(cache->name);
+    if (cache->id          != NULL) free(cache->id);
+    free(cache);
+  }
+  for (i = 0; i < db_cnt; ++i) {
+    if (db[i].list != NULL) free(db[i].list);
+  }
+  return eslEMEM;
+}
+
+void
+p7_seqcache_Close(P7_SEQCACHE *cache)
+{
+  int i;
+
+  if (cache->name)        free(cache->name);
+  if (cache->id)          free(cache->id);
+  if (cache->db) 
+    {
+      for (i = 0; i < cache->db_cnt; ++i) {
+	if (cache->db[i].list != NULL) free(cache->db[i].list);
+      }
+      free(cache->db);
+    }
+  if (cache->abc)         esl_alphabet_Destroy(cache->abc);
+  if (cache->list)        free(cache->list);
+  if (cache->residue_mem) free(cache->residue_mem);
+  if (cache->header_mem)  free(cache->header_mem);
+  free(cache);
+}
+
+
+
+
+/*****************************************************************
+ * x. Unit test
+ *****************************************************************/
+
+#ifdef CACHEDB_UTEST1
+/*
+ *   gcc -O3 -malign-double -msse2 -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *   gcc -g -O -pg  -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *   gcc -g -Wall -msse2 -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *
+ *   ./evalues-benchmark <hmmfile>
+ *
+ *  -malign-double is needed for gcc if the rest of HMMER was compiled w/ -malign-double 
+ *  (i.e., our default gcc optimization)
+ *
+ *  27 Dec 08 on wanderoo: 24 msec per RRM_1 calibration; 37 msec for Caudal_act
+ *  profiling shows 75% in Forward; 12% esl_random(); <3% in MSVFilter.
+ */
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <stdint.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "cachedb.h"
+#include "hmmpgmd.h"
+
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-o",        eslARG_OUTFILE, NULL, NULL, NULL,  NULL,  NULL, NULL, "direct output to file <f>, not stdout",            2 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+typedef struct seq_info_s {
+  ESL_DSQ *dsq;                    /* digitized sequence [1..n]             */
+  int64_t  n;                      /* length of dsq                         */
+  int32_t  inx;                    /* length of dsq                         */
+  uint64_t db_key;                 /* flag for included databases           */
+  struct seq_info_s *next;
+} SEQ_INFO;
+
+#define HASH_KEY 52807
+#define SUB_HASH 1531
+
+int 
+main(int argc, char **argv)
+{
+  FILE           *ofp     = stdout;
+
+  int             i;
+  int             cnt;
+  int             inx;
+  int             status;
+  int             seq_cnt;
+  int             db_inx;
+  int             db_key;
+  int             db_K[32];
+  int             db_cnt[32];
+
+  uint64_t        res_cnt;
+
+  char           *seqfile;
+  char            buffer[10];
+
+  ESL_GETOPTS    *go      = NULL;
+  ESL_ALPHABET   *abc     = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  ESL_SQ         *sq      = NULL;
+
+  SEQ_INFO       *info;
+  SEQ_INFO      **hash;
+
+  time_t          timep;
+
+  if ((go = esl_getopts_Create(options)) == NULL) { 
+    printf("Failed to create options\n");
+    return 0;
+  }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) { 
+    printf("Failed to parse command line: %s\n",  go->errbuf);
+    esl_getopts_Destroy(go);
+    return 0;
+  }
+  if (esl_opt_VerifyConfig(go) != eslOK) { 
+    printf("Failed to parse command line: %s\n",  go->errbuf);
+    esl_getopts_Destroy(go);
+    return 0;
+  }
+
+  if (esl_opt_ArgNumber(go) < 1) {
+    printf("Must specify at least one database\n");
+    esl_getopts_Destroy(go);
+    return 0;
+  }
+
+  if (esl_opt_IsOn(go, "-o")) { 
+    if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) {
+      printf("Failed to open output database %s for writing\n", esl_opt_GetString(go, "-o"));
+      return 0;
+    }
+  }
+
+  abc = esl_alphabet_Create(eslAMINO);
+  sq  = esl_sq_CreateDigital(abc);
+
+  ESL_ALLOC(hash, sizeof(char *) * HASH_KEY);
+  memset(hash, 0, sizeof(char *) * HASH_KEY);
+
+  memset(db_K, 0, sizeof(db_K));
+  memset(db_cnt, 0, sizeof(db_cnt));
+
+  res_cnt = 0;
+  seq_cnt = 0;
+
+  cnt = 0;
+
+  db_key = 1;
+  db_inx = 1;
+
+  while (db_inx <= esl_opt_ArgNumber(go)) {
+
+    /* the first db just build the list */
+    seqfile = esl_opt_GetArg(go, db_inx);
+    if ((status = esl_sqfile_Open(seqfile, eslSQFILE_FASTA, NULL, &sqfp)) != eslOK) {
+      printf("Unable to open sequence database %s\n", seqfile);
+      return status;
+    }
+    printf("Database %d: %s\n", db_inx, seqfile);
+
+    while ((status = esl_sqio_Read(sqfp, sq)) == eslOK) {
+      int sum = 0;
+
+      inx = 0;
+      for (i = 1; i <= sq->n; ++i) {
+        inx += (sq->dsq[i] * sq->dsq[i]);
+        sum = inx % SUB_HASH;
+      }
+      inx = inx % HASH_KEY;
+
+      info = hash[inx];
+      while (info != NULL) {
+        if (sq->n == info->n && sum == info->inx && memcmp(sq->dsq, info->dsq, sq->n+2) == 0) {
+          break;
+        }
+        info = info->next;
+      }
+
+      if (info == NULL) {
+        ESL_ALLOC(info, sizeof(SEQ_INFO));
+        ESL_ALLOC(info->dsq, sq->n+2);
+        memcpy(info->dsq, sq->dsq, sq->n+2);
+        info->n = sq->n;
+        info->db_key = db_key;
+        info->inx = sum;
+        ++db_cnt[db_inx-1];
+
+        info->next = hash[inx];
+        hash[inx] = info;
+
+        res_cnt += sq->n;
+        seq_cnt++;
+      } else if ((info->db_key & db_key) == 0) {
+        info->db_key |= db_key;
+        ++db_cnt[db_inx-1];
+      }
+
+      ++db_K[db_inx-1];
+  
+      esl_sq_Reuse(sq);
+    }
+
+    esl_sqfile_Close(sqfp);
+
+    db_key <<= 1;
+    db_inx++;
+
+    printf("\n");
+  }
+
+  printf("Writing cache %s\n", esl_opt_GetString(go, "-o"));
+
+  timep = time(NULL);
+  fprintf(ofp, "# %" PRId64 " %d %d", res_cnt, seq_cnt, db_inx - 1);
+  for (i = 0; i < db_inx - 1; ++i) fprintf(ofp, " %d %d", db_cnt[i], db_K[i]);
+  fprintf(ofp, " %s", ctime(&timep));
+
+  strcpy(buffer, "000000001");
+
+  for (inx = 0; inx < HASH_KEY; ++inx) {
+    info = hash[inx];
+    while (info) {
+      int pos;
+      char buf[80];
+      SEQ_INFO *next = info->next;
+      fprintf(ofp, ">%s ", buffer);
+
+      while (info->db_key) {
+        fprintf(ofp, "%c", (info->db_key & 1) ? '1' : '0');
+        info->db_key >>= 1;
+      }
+      fprintf(ofp, "\n");
+
+      for (pos = 0; pos < info->n; pos += 60) {
+        esl_abc_TextizeN(abc, info->dsq+pos+1, 60, buf);
+        buf[60] = '\0';
+        fprintf(ofp, "%s\n", buf);
+      }
+
+      free(info->dsq);
+      free(info);
+
+      info = next;
+
+      /* increment the buffer string */
+      ++buffer[8];
+      for (i = 8; i > 0; --i) {
+        if (buffer[i] > '9') {
+          buffer[i] = '0';
+          buffer[i-1]++;
+        }
+      }
+    }
+  }
+
+  free(hash);
+
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq);
+
+  if (ofp != stdout) fclose(ofp);
+
+  if (esl_opt_IsOn(go, "-o")) { 
+    P7_CACHEDB_SEQS *cache = NULL;
+    printf("Reading cache %s\n", esl_opt_GetString(go, "-o"));
+    if ((status = cache_SeqDb(esl_opt_GetString(go, "-o"), &cache)) != eslOK) {
+      printf("ERROR %d\n", status);
+      return 0;
+    }
+    cache_SeqDestroy(cache);
+  }
+
+  esl_getopts_Destroy(go);
+
+  return 0;
+
+ ERROR:
+  return status;
+}
+
+#endif /*CACHEDB_UTEST1*/
+
+
+#ifdef CACHEDB_UTEST2
+/*
+ *   gcc -O3 -malign-double -msse2 -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *   gcc -g -O -pg  -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *   gcc -g -Wall -msse2 -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *
+ *   ./evalues-benchmark <hmmfile>
+ *
+ *  -malign-double is needed for gcc if the rest of HMMER was compiled w/ -malign-double 
+ *  (i.e., our default gcc optimization)
+ *
+ *  27 Dec 08 on wanderoo: 24 msec per RRM_1 calibration; 37 msec for Caudal_act
+ *  profiling shows 75% in Forward; 12% esl_random(); <3% in MSVFilter.
+ */
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <stdint.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "cachedb.h"
+#include "hmmpgmd.h"
+
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] db1 [db2 ...]";
+static char banner[] = "unit test for cached databases";
+
+typedef struct seq_info_s {
+  ESL_DSQ *dsq;                    /* digitized sequence [1..n]             */
+  int64_t  n;                      /* length of dsq                         */
+  uint64_t db_key;                 /* flag for included databases           */
+  struct seq_info_s *next;
+} SEQ_INFO;
+
+int 
+main(int argc, char **argv)
+{
+  int             status;
+
+  ESL_GETOPTS    *go      = NULL;
+  P7_CACHEDB_SEQS      *cache   = NULL;
+
+
+  if ((go = esl_getopts_Create(options)) == NULL) { 
+    printf("Failed to create options\n");
+    return 0;
+  }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) { 
+    printf("Failed to parse command line: %s\n",  go->errbuf);
+    esl_getopts_Destroy(go);
+    return 0;
+  }
+  if (esl_opt_VerifyConfig(go) != eslOK) { 
+    printf("Failed to parse command line: %s\n",  go->errbuf);
+    esl_getopts_Destroy(go);
+    return 0;
+  }
+
+  if (esl_opt_ArgNumber(go) < 1) {
+    printf("Must specify at least one database\n");
+    esl_getopts_Destroy(go);
+    return 0;
+  }
+
+  printf("Reading cache %s\n", esl_opt_GetArg(go, 1));
+  if ((status = cache_SeqDb(esl_opt_GetArg(go, 1), &cache)) != eslOK) {
+    printf("ERROR %d\n", status);
+    return 0;
+  }
+  cache_SeqDestroy(cache);
+
+  esl_getopts_Destroy(go);
+
+  return 0;
+}
+
+#endif /*CACHEDB_UTEST2*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/cachedb.c $
+ * SVN $Id: cachedb.c 4437 2013-04-26 17:57:41Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/cachedb.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/cachedb.h
new file mode 100755
index 0000000..7db35db
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/cachedb.h
@@ -0,0 +1,51 @@
+#ifndef P7_CACHEDB_INCLUDED
+#define P7_CACHEDB_INCLUDED
+
+typedef struct {
+  char    *name;                   /* name; ("\0" if no name)               */
+  ESL_DSQ *dsq;                    /* digitized sequence [1..n]             */
+  int64_t  n;                      /* length of dsq                         */
+  int64_t  idx;	                   /* ctr for this seq                      */
+  uint64_t db_key;                 /* flag for included databases           */
+  char    *desc;                   /* description                           */
+} HMMER_SEQ;
+
+typedef struct {
+  uint32_t            count;       /* number of entries                     */
+  uint32_t            K;           /* original number of entries            */
+  HMMER_SEQ         **list;        /* list of sequences [0 .. count-1]      */
+} SEQ_DB;
+
+typedef struct {
+  char               *name;        /* name of the seq database              */
+  char               *id;          /* unique identifier string              */
+  uint32_t            db_cnt;      /* number of sub databases               */
+  SEQ_DB             *db;          /* list of databases [0 .. db_cnt-1]     */
+
+  ESL_ALPHABET       *abc;         /* alphabet for database                 */
+
+  uint32_t            count;       /* total number of sequences             */
+  HMMER_SEQ          *list;        /* complete list of sequences (count)    */
+  void               *residue_mem; /* memory holding the residues           */
+  char               *header_mem;  /* memory holding the header strings     */
+
+  uint64_t            res_size;    /* size of residue memory allocation     */
+  uint64_t            hdr_size;    /* size of header memory allocation      */
+} P7_SEQCACHE;
+
+
+
+extern int    p7_seqcache_Open(char *seqfile, P7_SEQCACHE **ret_cache, char *errbuf);
+extern void   p7_seqcache_Close(P7_SEQCACHE *cache);
+
+#endif /*P7_CACHEDB_INCLUDED*/
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ ************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/emit.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/emit.c
new file mode 100755
index 0000000..78dba52
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/emit.c
@@ -0,0 +1,617 @@
+/* Emitting (sampling) sequences from an HMM, in either core or
+ * profile form.
+ * 
+ *    1. Exported API: sequence emission routines.
+ *    2. Private functions.
+ *    3. Stats driver.
+ *    4. Copyright and license.
+ * 
+ * SRE, Tue Jan  9 08:55:53 2007 [Janelia] [The Crystal Method, Vegas]
+ * SVN $Id: emit.c 4216 2012-09-26 18:52:10Z wheelert $
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+static int sample_endpoints(ESL_RANDOMNESS *r, const P7_PROFILE *gm, int *ret_kstart, int *ret_kend);
+
+
+/*****************************************************************
+ * 1. Exported API: sequence emission routines.
+ *****************************************************************/
+
+/* Function:  p7_CoreEmit()
+ * Incept:    SRE, Tue Jan  9 10:20:51 2007 [Janelia]
+ *
+ * Purpose:   Generate (sample) a sequence from a core HMM <hmm>.
+ *            
+ *            Optionally return the sequence and/or its trace in <sq>
+ *            and <tr>, respectively, which the caller has
+ *            allocated. Having the caller provide these reusable
+ *            objects allows re-use of both <sq> and <tr> in repeated
+ *            calls, saving malloc/free wastage. Either can be passed
+ *            as <NULL> if it isn't needed.
+ *            
+ *            This does not set any fields in the <sq> except for the
+ *            sequence itself. Caller must set the name, and any other
+ *            annotation it wants to add.
+ *
+ *            Trace is relative to the core model: it may include
+ *            I_0 and I_M states, B->DD->M entry is explicit, and a
+ *            0 length generated sequence is possible.
+ *            
+ * Args:      r     -  source of randomness
+ *            hmm   -  core HMM to generate from
+ *            sq    -  opt: digital sequence sampled (or NULL)
+ *            tr    -  opt: trace sampled            (or NULL)
+ *
+ * Returns:   <eslOK> on success; 
+ *            optionally return the digital sequence through <ret_sq>,
+ *            and optionally return its trace in <ret_tr>.
+ *
+ * Throws:    <eslECORRUPT> if emission gets us into an illegal state, 
+ *            probably indicating that a probability that should have
+ *            been zero wasn't. 
+ *
+ *            Throws <eslEMEM> on a reallocation error.
+ * 
+ *            In these cases, the contents of <sq> and <tr> may be
+ *            corrupted. Caller should not trust their data, but may
+ *            safely reuse them.
+ *
+ * Xref:      STL11/124.
+ */
+int
+p7_CoreEmit(ESL_RANDOMNESS *r, const P7_HMM *hmm, ESL_SQ *sq, P7_TRACE *tr)
+{
+  int       k   = 0;		/* position in model nodes 1..M */
+  int       i   = 0;		/* position in sequence 1..L */
+  char      st  = p7T_B;	/* state type */
+  int       x;			/* sampled residue */
+  int       status;
+
+  if (sq != NULL) esl_sq_Reuse(sq);    
+  if (tr != NULL) {
+    if ((status = p7_trace_Reuse(tr))            != eslOK) goto ERROR;
+    if ((status = p7_trace_Append(tr, st, k, i)) != eslOK) goto ERROR;
+  }
+  while (st != p7T_E)
+    {
+      /* Sample next state type, given current state type (and current k) */
+      switch (st) {
+      case p7T_B:
+      case p7T_M:
+	switch (esl_rnd_FChoose(r, hmm->t[k], 3)) {
+	case 0:  st = p7T_M; break;
+	case 1:  st = p7T_I; break;
+	case 2:  st = p7T_D; break;
+	default: ESL_XEXCEPTION(eslEINCONCEIVABLE, "impossible.");  	    
+	}
+	break;
+
+      case p7T_I:
+	switch (esl_rnd_FChoose(r, hmm->t[k]+3, 2)) {
+	case 0: st = p7T_M; break;
+	case 1: st = p7T_I; break;
+	default: ESL_XEXCEPTION(eslEINCONCEIVABLE, "impossible.");  	    
+	}
+	break;
+
+      case p7T_D:
+	switch (esl_rnd_FChoose(r, hmm->t[k]+5, 2)) {
+	case 0: st = p7T_M; break;
+	case 1: st = p7T_D; break;
+	default: ESL_XEXCEPTION(eslEINCONCEIVABLE, "impossible.");  	    
+	}
+	break;
+
+      default: ESL_XEXCEPTION(eslECORRUPT, "impossible state reached during emission");
+      }
+
+      /* Bump k,i if needed, depending on new state type */
+      if (st == p7T_M || st == p7T_D) k++;
+      if (st == p7T_M || st == p7T_I) i++;
+
+      /* a transit to M_M+1 is a transit to the E state */
+      if (k == hmm->M+1) {
+	if   (st == p7T_M) { st = p7T_E; k = 0; }
+	else ESL_XEXCEPTION(eslECORRUPT, "failed to reach E state properly");
+      }
+
+      /* Sample new residue x if in match or insert */
+      if      (st == p7T_M) x = esl_rnd_FChoose(r, hmm->mat[k], hmm->abc->K);
+      else if (st == p7T_I) x = esl_rnd_FChoose(r, hmm->ins[k], hmm->abc->K);
+      else                   x = eslDSQ_SENTINEL;
+
+      /* Add state to trace */
+      if (tr != NULL) {
+	if ((status = p7_trace_Append(tr, st, k, i)) != eslOK) goto ERROR;
+      }
+      /* Add x to sequence */
+      if (sq != NULL && x != eslDSQ_SENTINEL) 
+	if ((status = esl_sq_XAddResidue(sq, x)) != eslOK) goto ERROR;
+    }
+
+  /* Terminate the trace and sequence (both are optional, remember) */
+  if (tr != NULL) {  tr->M = hmm->M; tr->L = i; }
+  if (sq != NULL && (status = esl_sq_XAddResidue(sq, eslDSQ_SENTINEL)) != eslOK) goto ERROR;
+  return eslOK;
+
+ERROR:
+  return status;
+}
+
+
+/* Function:  p7_ProfileEmit()
+ * Synopsis:  Sample a sequence from the search form of the model.
+ * Incept:    SRE, Mon Jan 22 10:23:28 2007 [Janelia]
+ *
+ * Purpose:   Sample a sequence from the implicit 
+ *            probabilistic model of a Plan7 profile <gm>. This
+ *            requires also having the core probabilities of
+ *            the accompanying <hmm>, and the background 
+ *            frequencies of null1 model <bg>.
+ *            
+ *            Optionally return the sequence and/or its trace in <sq>
+ *            and <tr>, respectively. Caller has allocated space for
+ *            both of these, though they may get reallocated/grown
+ *            here. Either can be passed as <NULL> if unneeded.
+ *            
+ *            Only the sequence field is set in the <sq>. Caller must
+ *            set the name, plus any other fields it wants to set. If
+ *            the <sq> was created in digital mode, this is the <sq->dsq>;
+ *            if the <sq> was created in text mode, this is <sq->seq>.
+ *            
+ *            <p7_ProfileEmit()> deliberately uses an <ESL_SQ> object
+ *            instead of a plain <ESL_DSQ *> or <char *> string, to
+ *            take advantage of the object's support for dynamic
+ *            reallocation of seq length, and to allow both digital and
+ *            text mode generation.
+ *
+ * Args:      r    - source of randomness
+ *            hmm  - core probabilities of the profile
+ *            gm   - configured search profile
+ *            sq   - optRETURN: sampled sequence
+ *            tr   - optRETURN: sampled trace
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_ProfileEmit(ESL_RANDOMNESS *r, const P7_HMM *hmm, const P7_PROFILE *gm, const P7_BG *bg, ESL_SQ *sq, P7_TRACE *tr)
+{
+  char      prv, st;		/* prev, current state type */
+  int       k = 0;	        /* position in model nodes 1..M */
+  int       i = 0;		/* position in sequence 1..L */
+  int       x;			/* sampled residue */
+  int       kend = hmm->M;      /* predestined end node */
+  int       status;
+  float     xt[p7P_NXSTATES][p7P_NXTRANS];
+
+  /* Backcalculate the probabilities in the special states (loop and length model) */
+  for (i = 0; i < p7P_NXSTATES; i++)
+    for (x = 0; x < p7P_NXTRANS; x++)
+      xt[i][x] = exp(gm->xsc[i][x]);
+
+  if (sq != NULL) esl_sq_Reuse(sq);    
+  if (tr != NULL) {
+    if ((status = p7_trace_Reuse(tr))               != eslOK) goto ERROR;
+    if ((status = p7_trace_Append(tr, p7T_S, k, i)) != eslOK) goto ERROR;
+    if ((status = p7_trace_Append(tr, p7T_N, k, i)) != eslOK) goto ERROR;
+  }
+  st    = p7T_N;
+  i     = 0;
+  while (st != p7T_T)
+    {
+      /* Sample a state transition. After this section, prv and st (prev->current state) are set;
+       * k also gets set if we make a B->Mk entry transition.
+       */
+      prv = st;
+      switch (st) {
+      case p7T_B:  
+	if (p7_profile_IsLocal(gm)) 
+	  { /* local mode: enter the implicit profile: choose our entry and our predestined exit */
+	    if ((status = sample_endpoints(r, gm, &k, &kend)) != eslOK) goto ERROR;
+	    st = p7T_M;		/* must be, because left wing is retracted */
+	  }
+	else
+	  { /* glocal mode: treat B as M_0, use its transitions to MID. */
+	    /* FIXME: this is wrong. It should sample from B->Mk distribution! */
+	    switch (esl_rnd_FChoose(r, P7H_TMAT(hmm, 0), p7H_NTMAT)) {
+	    case 0:  st = p7T_M; k = 1; break;
+	    case 1:  st = p7T_I; k = 0; break;
+	    case 2:  st = p7T_D; k = 1; break;
+	    default: ESL_XEXCEPTION(eslEINCONCEIVABLE, "impossible.");  	    
+	    }
+	  }
+	break;
+	
+      case p7T_M:
+	if (k == kend) st = p7T_E; /* check our preordained fate */
+	else {
+	  switch (esl_rnd_FChoose(r, P7H_TMAT(hmm, k), p7H_NTMAT)) {
+	  case 0:  st = p7T_M; break;
+	  case 1:  st = p7T_I; break;
+	  case 2:  st = p7T_D; break;
+	  default: ESL_XEXCEPTION(eslEINCONCEIVABLE, "impossible.");  	    
+	  }
+	}
+	break;
+
+      case p7T_D:
+	if (k == kend) st = p7T_E; 
+	else           st = (esl_rnd_FChoose(r, P7H_TDEL(hmm, k), p7H_NTDEL) == 0) ? p7T_M : p7T_D; 
+	break;
+
+      case p7T_I: st = (esl_rnd_FChoose(r, P7H_TINS(hmm, k), p7H_NTINS) == 0)        ? p7T_M : p7T_I;  break;
+      case p7T_N: st = (esl_rnd_FChoose(r, xt[p7P_N],     p7P_NXTRANS)  == p7P_MOVE) ? p7T_B : p7T_N;  break;
+      case p7T_E: st = (esl_rnd_FChoose(r, xt[p7P_E],     p7P_NXTRANS)  == p7P_MOVE) ? p7T_C : p7T_J;  break;
+      case p7T_C: st = (esl_rnd_FChoose(r, xt[p7P_C],     p7P_NXTRANS)  == p7P_MOVE) ? p7T_T : p7T_C;  break;
+      case p7T_J: st = (esl_rnd_FChoose(r, xt[p7P_J],     p7P_NXTRANS)  == p7P_MOVE) ? p7T_B : p7T_J;  break;
+      default:     ESL_XEXCEPTION(eslECORRUPT, "impossible state reached during emission");
+      }
+     
+      /* Based on the transition we just sampled, update k. */
+      if      (st == p7T_E)                 k = 0;
+      else if (st == p7T_M && prv != p7T_B) k++;    /* be careful about B->Mk, where we already set k */
+      else if (st == p7T_D)                 k++;
+
+      /* Based on the transition we just sampled, generate a residue. */
+      if      (st == p7T_M)                                            x = esl_rnd_FChoose(r, hmm->mat[k], hmm->abc->K);
+      else if (st == p7T_I)                                            x = esl_rnd_FChoose(r, hmm->ins[k], hmm->abc->K);
+      else if ((st == p7T_N || st == p7T_C || st == p7T_J) && prv==st) x = esl_rnd_FChoose(r, bg->f,       hmm->abc->K);
+      else    x = eslDSQ_SENTINEL;
+
+      if (x != eslDSQ_SENTINEL) i++;
+
+      /* Add residue (if any) to sequence */
+      if (sq != NULL && x != eslDSQ_SENTINEL && (status = esl_sq_XAddResidue(sq, x)) != eslOK) goto ERROR;
+
+      /* Add state to trace. */
+      if (tr != NULL) {
+	if ((status = p7_trace_Append(tr, st, k, i)) != eslOK) goto ERROR;
+      } 
+    }
+  /* Terminate the trace and sequence (both are optional, remember) */
+  if (tr != NULL) {  tr->M = hmm->M; tr->L = i; }
+  if (sq != NULL && (status = esl_sq_XAddResidue(sq, eslDSQ_SENTINEL)) != eslOK) goto ERROR;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_emit_SimpleConsensus()
+ * Synopsis:  Generate simple consensus: ML residue in each match state
+ * Incept:    SRE, Mon Sep  1 09:10:47 2008 [Janelia]
+ *
+ * Purpose:   Generate a simple consensus sequence for model <hmm>
+ *            consisting of the maximum probability residue in each
+ *            match state; store this consensus in digital <sq>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the <sq> isn't in digital mode.
+ */
+int
+p7_emit_SimpleConsensus(const P7_HMM *hmm, ESL_SQ *sq)
+{
+  int k;
+  int x;
+  int status;
+  
+  if (! esl_sq_IsDigital(sq)) ESL_EXCEPTION(eslEINVAL, "p7_emit_SimpleConsensus() expects a digital-mode <sq>");
+  if ((status = esl_sq_GrowTo(sq, hmm->M)) != eslOK) return status;
+
+  for (k = 1; k <= hmm->M; k++)
+    {
+      if (hmm->mm && hmm->mm[k] == 'm') { //masked position, spit out the degenerate code
+        if ((status = esl_sq_XAddResidue(sq, hmm->abc->Kp-3)) != eslOK) return status;
+      } else {
+        x = esl_vec_FArgMax(hmm->mat[k], hmm->abc->K);
+        if ((status = esl_sq_XAddResidue(sq, x)) != eslOK) return status;
+      }
+    }
+  if ((status = esl_sq_XAddResidue(sq, eslDSQ_SENTINEL)) != eslOK) return status;
+  return eslOK;
+}
+
+
+/* Function:  p7_emit_FancyConsensus()
+ * Synopsis:  Emit a fancier consensus with upper/lower case and N/X's.
+ * Incept:    SRE, Fri May 14 09:33:10 2010 [Janelia]
+ *
+ * Purpose:   Generate a consensus sequence for model <hmm>, consisting
+ *            of the maximum probability residue in each match state;
+ *            store this sequence in text-mode <sq> provided by the caller.
+ *            
+ *            If the probability of the consensus residue is less than
+ *            <min_lower>, show an ``any'' residue (N or X) instead.
+ *            If the probability of the consensus residue is $\geq$
+ *            <min_lower>  and less than <min_upper>, show the residue
+ *            as lower case; if it is $\geq$ <min_upper>, show it as
+ *            upper case.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the <sq> isn't in text mode.
+ *
+ * Xref:      SRE:J6/59.
+ */
+int
+p7_emit_FancyConsensus(const P7_HMM *hmm, float min_lower, float min_upper, ESL_SQ *sq)
+{
+  int   k, x;
+  float p;
+  char  c;
+  int   status;
+
+  if (! esl_sq_IsText(sq)) ESL_EXCEPTION(eslEINVAL, "p7_emit_FancyConsensus() expects a text-mode <sq>");
+
+  if ((status = esl_sq_GrowTo(sq, hmm->M)) != eslOK) return status;
+
+  for (k = 1; k <= hmm->M; k++)
+  {
+
+    if (hmm->mm && hmm->mm[k] == 'm') { //masked position, spit out the degenerate code
+      if ((status = esl_sq_CAddResidue(sq, tolower(esl_abc_CGetUnknown(hmm->abc))) ) != eslOK) return status;
+    } else {
+      p = esl_vec_FMax(   hmm->mat[k], hmm->abc->K);
+      x = esl_vec_FArgMax(hmm->mat[k], hmm->abc->K);
+  
+      if      (p <  min_lower)  c = tolower(esl_abc_CGetUnknown(hmm->abc));
+      else if (p >= min_upper)  c = toupper(hmm->abc->sym[x]);
+      else                      c = tolower(hmm->abc->sym[x]);
+
+      if ((status = esl_sq_CAddResidue(sq, c)) != eslOK) return status;
+    }
+  }
+  if ((status = esl_sq_CAddResidue(sq, '\0')) != eslOK) return status;
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * 2. Private functions.
+ *****************************************************************/
+
+/* sample_endpoints()
+ * Incept:    SRE, Mon Jan 22 10:43:20 2007 [Janelia]
+ *
+ * Purpose:   Given a profile <gm> and random number source <r>, sample
+ *            a begin transition from the implicit probabilistic profile
+ *            model, yielding a sampled start and end node; return these
+ *            via <ret_kstart> and <ret_kend>.
+ *            
+ *            By construction, the entry at node <kstart> is into a
+ *            match state, but the exit from node <kend> might turn
+ *            out to be from either a match or delete state.
+ *            
+ *            We assume that exits j are uniformly distributed for a
+ *            particular entry point i: $a_{ij} =$ constant $\forall
+ *            j$.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            
+ * Xref:      STL11/138           
+ */
+static int
+sample_endpoints(ESL_RANDOMNESS *r, const P7_PROFILE *gm, int *ret_kstart, int *ret_kend)
+{
+  float *pstart = NULL;
+  int    k;
+  int    kstart, kend;
+  int    status;
+
+  /* We have to backcalculate a probability distribution from the
+   * lod B->Mk scores in a local model; this is a little time consuming,
+   * but we don't have to do it often.
+   */
+  ESL_ALLOC(pstart, sizeof(float) * (gm->M+1));
+  pstart[0] = 0.0f;
+  for (k = 1; k <= gm->M; k++)
+    pstart[k] = exp(p7P_TSC(gm, k-1, p7P_BM)) * (gm->M - k + 1); /* multiply p_ij by the number of exits j */
+  kstart = esl_rnd_FChoose(r, pstart, gm->M+1);          	 /* sample the starting position from that distribution */
+  kend   = kstart + esl_rnd_Roll(r, gm->M-kstart+1);           /* and the exit uniformly from possible exits for it */
+
+  free(pstart);
+  *ret_kstart = kstart;
+  *ret_kend   = kend;
+  return eslOK;
+  
+ ERROR:
+  if (pstart != NULL) free(pstart);
+  *ret_kstart = 0;
+  *ret_kend   = 0;
+  return status;
+}
+
+
+/*****************************************************************
+ * 3. Stats driver
+ *****************************************************************/
+
+/* A small driver providing a testbed for sequence-emission related development testing.
+ * 
+ * gcc -g -Wall -o stats -L. -I. -L../easel -I../easel -Dp7EMIT_STATS emit.c -lhmmer -leasel -lm
+ */
+#ifdef p7EMIT_STATS
+#include "p7_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  char            *hmmfile = argv[1];  /* name of HMM file to read one HMM from   */
+  ESL_ALPHABET    *abc     = NULL;     /* sequence alphabet                       */
+  ESL_RANDOMNESS  *r       = NULL;     /* source of randomness                    */
+  P7_HMMFILE      *hfp     = NULL;     /* open hmmfile                            */
+  P7_HMM          *hmm     = NULL;     /* HMM to emit from                        */
+  P7_PROFILE      *gm      = NULL;     /* profile HMM (scores)                    */
+  P7_BG           *bg      = NULL;     /* null model                              */
+  P7_TRACE        *tr      = NULL;     /* sampled trace                           */
+  ESL_SQ          *sq      = NULL;     /* sampled digital sequence                */
+  int              n       = 1000;
+  int              counts[p7T_NSTATETYPES];
+  int              i;
+  float            sc;
+  float            nullsc;
+  double           bitscore;
+
+  r  = esl_randomness_CreateFast(0);
+  tr = p7_trace_Create();
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("failed to open %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("failed to read HMM");
+  sq = esl_sq_CreateDigital(abc);
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+
+  for (i = 0; i < n; i++) 
+    {
+      p7_ProfileEmit(r, hmm, gm, bg, sq, tr);
+      p7_trace_GetStateUseCounts(tr, counts);
+
+      p7_ReconfigLength(gm, sq->n);
+      p7_bg_SetLength(bg, sq->n);
+      p7_trace_Score(tr, sq->dsq, gm, &sc);
+      p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
+      bitscore = (sc - nullsc)/ eslCONST_LOG2;
+
+      printf("%d  %8.4f\n",
+	     counts[p7T_M] + (counts[p7T_I] + counts[p7T_D])/2,
+	     bitscore);
+    }
+
+  p7_profile_Destroy(gm);
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_hmmfile_Close(hfp);
+  p7_hmm_Destroy(hmm);
+  return eslOK;
+} 
+#endif /*p7EMIT_STATS*/
+/*-------------------- end, stats driver ------------------------*/
+
+
+/*****************************************************************
+ * x. Example
+ *****************************************************************/
+#ifdef p7EMIT_EXAMPLE
+/* 
+   gcc -g -Wall -o emit_example -Dp7EMIT_EXAMPLE -I. -I../easel -L. -L../easel emit.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-L",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "configured mean seq length for profile",           0 },
+  { "-N",        eslARG_INT,     "10", NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "example of emitting sequences from profile";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng     = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_TRACE       *tr      = p7_trace_Create();
+  ESL_SQ         *sq      = NULL;
+  char            errbuf[eslERRBUFSIZE];
+  int             i;
+  int             status;
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);  
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  p7_hmmfile_Close(hfp);
+
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  sq = esl_sq_CreateDigital(abc);
+
+  for (i = 0; i < N; i++)
+    {
+      p7_ProfileEmit(rng, hmm, gm, bg, sq, tr);
+      esl_sq_FormatName(sq, "%s-sample%d", hmm->name, i);
+      esl_sqio_Write(stdout, sq, eslSQFILE_FASTA, FALSE);
+
+      if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) esl_fatal(errbuf);
+
+      esl_sq_Reuse(sq);
+      p7_trace_Reuse(tr);
+    }      
+
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7EMIT_EXAMPLE*/
+
+
+
+/*---------------------- end, example ---------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/errors.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/errors.c
new file mode 100755
index 0000000..caa457e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/errors.c
@@ -0,0 +1,59 @@
+/* error handling.
+ * 
+ * HMMER's fatal error messages distinguish between user errors
+ * ("failure", with p7_Fail()) and internal faults ("death", with
+ * p7_Die()). For now, though, there is no difference between the two
+ * functions. Someday we might have p7_Die() print a comforting
+ * apology, or provide some help on how to report bugs to us;
+ * p7_Fail() might provide some pointers on where to read more
+ * documentation.
+ * 
+ * SRE, Fri Jan 12 08:46:02 2007
+ * SVN $Id: errors.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "hmmer.h"
+
+/* Function:  p7_Die()
+ * Synopsis:  Handle a fatal exception (something that's our fault)
+ * Incept:    SRE, Fri Jan 12 08:54:45 2007 [Janelia]
+ */
+void
+p7_Die(char *format, ...)
+{
+  va_list  argp;
+                                /* format the error mesg */
+  fprintf(stderr, "\nFATAL: ");
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  fprintf(stderr, "\n");
+  fflush(stderr);
+  exit(1);
+}
+
+/* Function:  p7_Fail()
+ * Synopsis:  Handle a user error (something that's the user's fault).
+ * Incept:    SRE, Fri Jan 12 08:54:45 2007 [Janelia]
+ */
+void
+p7_Fail(char *format, ...)
+{
+  va_list  argp;
+                                /* format the error mesg */
+  fprintf(stderr, "\nError: ");
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  fprintf(stderr, "\n");
+  fflush(stderr);
+  exit(1);
+}
+
+  
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/evalues.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/evalues.c
new file mode 100755
index 0000000..05776ad
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/evalues.c
@@ -0,0 +1,661 @@
+/* Calculations and simulations relevant to E-value calculations.
+ * 
+ * Contents:
+ *   1. p7_Calibrate():  model calibration wrapper 
+ *   2. Determination of individual E-value parameters
+ *   3. Statistics and specific experiment drivers
+ *   4. Benchmark driver
+ *   5. Copyright and license information
+ * 
+ * SRE, Mon Aug  6 13:00:06 2007
+ * SVN $Id: evalues.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_gumbel.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. p7_Calibrate():  model calibration wrapper 
+ *****************************************************************/ 
+
+/* Function:  p7_Calibrate()
+ * Synopsis:  Calibrate the E-value parameters of a model.
+ * Incept:    SRE, Thu Dec 25 09:29:31 2008 [Magallon]
+ *
+ * Purpose:   Calibrate the E-value parameters of a model with 
+ *            one calculation ($\lambda$) and two brief simulations
+ *            (Viterbi $\mu$, Forward $\tau$).
+ *            
+ * Args:      hmm     - HMM to be calibrated
+ *            cfg_b   - OPTCFG: ptr to optional build configuration;
+ *                      if <NULL>, use default parameters.
+ *            byp_rng - BYPASS optimization: pass ptr to <ESL_RANDOMNESS> generator
+ *                      if already known; 
+ *                      <*byp_rng> == NULL> if <rng> return is desired;
+ *                      pass <NULL> to use and discard internal default.
+ *            byp_bg  - BYPASS optimization: pass ptr to <P7_BG> if already known; 
+ *                      <*byp_bg == NULL> if <bg> return is desired;
+ *                      pass <NULL> to use and discard internal default.
+ *            byp_gm  - BYPASS optimization: pass ptr to <gm> profile if already known;
+ *                      pass <*byp_gm == NULL> if <gm> return desired;
+ *                      pass <NULL> to use and discard internal default.
+ *            byp_om  - BYPASS optimization: pass ptr to <om> profile if already known;
+ *                      pass <*byp_om == NULL> if <om> return desired;
+ *                      pass <NULL> to use and discard internal default.          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEINVAL> if <hmm>, <gm>, <om> aren't compatible somehow.
+ *
+ * Xref:      J4/41
+ */
+int
+p7_Calibrate(P7_HMM *hmm, P7_BUILDER *cfg_b, ESL_RANDOMNESS **byp_rng, P7_BG **byp_bg, P7_PROFILE **byp_gm, P7_OPROFILE **byp_om)
+{
+  P7_BG          *bg     = (esl_byp_IsProvided(byp_bg)  ? *byp_bg  : NULL); 
+  P7_PROFILE     *gm     = (esl_byp_IsProvided(byp_gm)  ? *byp_gm  : NULL); 
+  P7_OPROFILE    *om     = (esl_byp_IsProvided(byp_om)  ? *byp_om  : NULL); 
+  ESL_RANDOMNESS *r      = (esl_byp_IsProvided(byp_rng) ? *byp_rng : NULL);
+  char           *errbuf = ((cfg_b != NULL) ? cfg_b->errbuf : NULL);
+  int             EmL    = ((cfg_b != NULL) ? cfg_b->EmL    : 200);
+  int             EmN    = ((cfg_b != NULL) ? cfg_b->EmN    : 200);
+  int             EvL    = ((cfg_b != NULL) ? cfg_b->EvL    : 200);
+  int             EvN    = ((cfg_b != NULL) ? cfg_b->EvN    : 200);
+  int             EfL    = ((cfg_b != NULL) ? cfg_b->EfL    : 100);
+  int             EfN    = ((cfg_b != NULL) ? cfg_b->EfN    : 200);
+  double          Eft    = ((cfg_b != NULL) ? cfg_b->Eft    : 0.04);
+  double          lambda, mmu, vmu, tau;
+  int             status;
+  
+  /* Configure any objects we need
+   * that weren't already passed to us as a bypass optimization 
+   */
+  if (r  == NULL) {
+    if ((r = esl_randomness_CreateFast(42)) == NULL) ESL_XFAIL(eslEMEM, errbuf, "failed to create RNG");
+  } else if (cfg_b != NULL && cfg_b->do_reseeding) {
+    esl_randomness_Init(r, esl_randomness_GetSeed(r));
+  }
+
+  if (bg == NULL) {
+    if ((bg = p7_bg_Create(hmm->abc)) == NULL)  ESL_XFAIL(eslEMEM, errbuf, "failed to allocate background");
+  }
+
+  /* there's an odd case where the <om> is provided and a <gm> isn't going to be returned
+   * where we don't need a <gm> at all, and <gm> stays <NULL> after the next block.
+   * Note that the <EvL> length in the ProfileConfig doesn't matter; the individual
+   * calibration routines MSVMu(), etc. contain their own length reconfig calls.
+   */
+  if ((esl_byp_IsInternal(byp_gm) && ! esl_byp_IsProvided(byp_om)) || esl_byp_IsReturned(byp_gm)) {
+    if  ( (gm     = p7_profile_Create(hmm->M, hmm->abc))          == NULL)  ESL_XFAIL(eslEMEM, errbuf, "failed to allocate profile");
+    if  ( (status = p7_ProfileConfig(hmm, bg, gm, EvL, p7_LOCAL)) != eslOK) ESL_XFAIL(status,  errbuf, "failed to configure profile");
+  }
+
+  if (om == NULL) {
+    if ((om     = p7_oprofile_Create(hmm->M, hmm->abc)) == NULL) ESL_XFAIL(eslEMEM, errbuf, "failed to create optimized profile");
+    if ((status = p7_oprofile_Convert(gm, om))         != eslOK) ESL_XFAIL(status,  errbuf, "failed to convert to optimized profile");
+  }
+
+  /* The calibration steps themselves */
+  if ((status = p7_Lambda(hmm, bg, &lambda))                          != eslOK) ESL_XFAIL(status,  errbuf, "failed to determine lambda");
+  if ((status = p7_MSVMu    (r, om, bg, EmL, EmN, lambda, &mmu))      != eslOK) ESL_XFAIL(status,  errbuf, "failed to determine msv mu");
+  if ((status = p7_ViterbiMu(r, om, bg, EvL, EvN, lambda, &vmu))      != eslOK) ESL_XFAIL(status,  errbuf, "failed to determine vit mu");
+  if ((status = p7_Tau      (r, om, bg, EfL, EfN, lambda, Eft, &tau)) != eslOK) ESL_XFAIL(status,  errbuf, "failed to determine fwd tau");
+
+  /* Store results */
+  hmm->evparam[p7_MLAMBDA] = om->evparam[p7_MLAMBDA] = lambda;
+  hmm->evparam[p7_VLAMBDA] = om->evparam[p7_VLAMBDA] = lambda;
+  hmm->evparam[p7_FLAMBDA] = om->evparam[p7_FLAMBDA] = lambda;
+  hmm->evparam[p7_MMU]     = om->evparam[p7_MMU]     = mmu;
+  hmm->evparam[p7_VMU]     = om->evparam[p7_VMU]     = vmu;
+  hmm->evparam[p7_FTAU]    = om->evparam[p7_FTAU]    = tau;
+  hmm->flags              |= p7H_STATS;
+
+  if (gm != NULL) {
+    gm->evparam[p7_MLAMBDA] = lambda;
+    gm->evparam[p7_VLAMBDA] = lambda;
+    gm->evparam[p7_FLAMBDA] = lambda;
+    gm->evparam[p7_MMU]     = mmu;
+    gm->evparam[p7_VMU]     = vmu;
+    gm->evparam[p7_FTAU]    = tau;
+  }
+    
+  if (byp_rng != NULL) *byp_rng = r;  else esl_randomness_Destroy(r); /* bypass convention: no-op if rng was provided.*/
+  if (byp_bg  != NULL) *byp_bg  = bg; else p7_bg_Destroy(bg);         /* bypass convention: no-op if bg was provided. */
+  if (byp_gm  != NULL) *byp_gm  = gm; else p7_profile_Destroy(gm);    /* bypass convention: no-op if gm was provided. */
+  if (byp_om  != NULL) *byp_om  = om; else p7_oprofile_Destroy(om);   /* bypass convention: no-op if om was provided. */
+  return eslOK;
+
+ ERROR:
+  if (! esl_byp_IsProvided(byp_rng)) esl_randomness_Destroy(r);
+  if (! esl_byp_IsProvided(byp_bg))  p7_bg_Destroy(bg);
+  if (! esl_byp_IsProvided(byp_gm))  p7_profile_Destroy(gm);
+  if (! esl_byp_IsProvided(byp_om))  p7_oprofile_Destroy(om);
+  return status;
+}
+/*---------------------- end, wrapper API -----------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. Determination of individual E-value parameters
+ *****************************************************************/ 
+
+/* Function:  p7_Lambda()
+ * Synopsis:  Determines length-corrected local lambda parameter.
+ * Incept:    SRE, Wed Aug  8 17:54:55 2007 [Janelia]
+ *
+ * Purpose:   Determine the effective scale parameter $\hat{\lambda}$ to
+ *            use for model <hmm>. This will be applied both to
+ *            Viterbi Gumbel distributions and Forward exponential
+ *            tails.
+ *            
+ *            The 'true' $\lambda$ is always $\log 2 = 0.693$. The effective
+ *            lambda is corrected for edge effect, using the equation
+ *             
+ *             \[
+ *                \hat{\lambda} = \lambda + \frac{1.44}{MH}
+ *             \]
+ *             
+ *            where $M$ is the model length and $H$ is the model
+ *            relative entropy. The model relative entropy is
+ *            approximated by the average relative entropy of match
+ *            emission distributions.  The 1.44 is an empirically
+ *            determined fudge factor [J1/125]. This edge-effect
+ *            correction is based largely on \citep{Altschul01},
+ *            except for the fudge factor, which we don't understand
+ *            and can't theoretically justify.
+ *            
+ * Args:      hmm        : model to calculate corrected lambda for
+ *            bg         : null model (source of background frequencies)
+ *            ret_lambda : RETURN: edge-corrected lambda
+ *
+ * Returns:   <eslOK> on success, and <*ret_lambda> is the result.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_Lambda(P7_HMM *hmm, P7_BG *bg, double *ret_lambda)
+{
+  double H = p7_MeanMatchRelativeEntropy(hmm, bg);
+  
+  *ret_lambda = eslCONST_LOG2 + 1.44 / ((double) hmm->M * H);
+  return eslOK;
+}
+
+
+/* Function:  p7_MSVMu()
+ * Synopsis:  Determines the local MSV Gumbel mu parameter for a model.
+ * Incept:    SRE, Mon Aug  6 13:00:57 2007 [Janelia]
+ *
+ * Purpose:   Given model <om> configured for local alignment (typically
+ *            multihit, but may be unihit), determine the Gumbel
+ *            location parameter $\mu$ for MSV scores by brief simulation. The
+ *            simulation generates <N> random sequences of length <L>
+ *            using background frequencies in the null model <bg> and
+ *            the random number generator <r>; scores them with <gm>
+ *            and <bg> with the MSV algorithm; and fits the
+ *            resulting distribution to a Gumbel of assumed <lambda>.
+ *            
+ *            Typical default choices are L=100, N=200, which gives
+ *            $\hat{\mu}$ estimates with precision (standard
+ *            deviation) of $\pm$ 0.1 bits, corresponding to an error
+ *            of $\pm$ 8\% in E-value estimates. [J1/135]. (Default L
+ *            was later increased to 200 to improve length dependence
+ *            slightly.)
+ *            
+ *            This function changes the length configuration of both
+ *            <om> and <bg>. The caller must remember to reconfigure
+ *            both of their length models appropriately for any
+ *            subsequent alignments.
+ *            
+ * Args:      r       :  source of random numbers
+ *            om      :  score profile (length config is changed upon return!)
+ *            bg      :  null model    (length config is changed upon return!)
+ *            L       :  length of sequences to simulate
+ *            N	      :  number of sequences to simulate		
+ *            lambda  :  known Gumbel lambda parameter
+ *            ret_mmu :  RETURN: ML estimate of location param mu
+ *
+ * Returns:   <eslOK> on success, and <ret_mu> contains the ML estimate
+ *            of $\mu$.
+ *
+ * Throws:    (no abnormal error conditions)
+ * 
+ * Note:      The FitCompleteLoc() function is simple, and it's tempting
+ *            to inline it here and save the <xv> working memory. However,
+ *            the FitCompleteLoc() function is vulnerable
+ *            to under/overflow error, and we'll probably fix it
+ *            eventually - need to be sure that fix applies here too.
+ */
+int
+p7_MSVMu(ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double *ret_mmu)
+{
+  P7_OMX  *ox      = p7_omx_Create(om->M, 0, 0); /* DP matrix: 1 row version */
+  ESL_DSQ *dsq     = NULL;
+  double  *xv      = NULL;
+  int      i;
+  float    sc, nullsc;
+#ifndef p7_IMPL_DUMMY
+  float    maxsc   = (255 - om->base_b) / om->scale_b; /* if score overflows, use this */
+#endif
+  int      status;
+
+  if (ox == NULL) { status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(xv,  sizeof(double)  * N);
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+
+  p7_oprofile_ReconfigLength(om, L);
+  p7_bg_SetLength(bg, L);
+
+  for (i = 0; i < N; i++)
+    {
+      if ((status = esl_rsq_xfIID(r, bg->f, om->abc->K, L, dsq)) != eslOK) goto ERROR;
+      if ((status = p7_bg_NullOne(bg, dsq, L, &nullsc))          != eslOK) goto ERROR;   
+
+      status = p7_MSVFilter(dsq, L, om, ox, &sc); 
+#ifndef p7_IMPL_DUMMY
+      if (status == eslERANGE) { sc = maxsc; status = eslOK; }
+#endif
+      if (status != eslOK)     goto ERROR;
+
+      xv[i] = (sc - nullsc) / eslCONST_LOG2;
+    }
+
+  if ((status = esl_gumbel_FitCompleteLoc(xv, N, lambda, ret_mmu))  != eslOK) goto ERROR;
+  p7_omx_Destroy(ox);
+  free(xv);
+  free(dsq);
+  return eslOK;
+
+ ERROR:
+  *ret_mmu = 0.0;
+  if (ox  != NULL) p7_omx_Destroy(ox);
+  if (xv  != NULL) free(xv);
+  if (dsq != NULL) free(dsq);
+  return status;
+
+}
+
+/* Function:  p7_ViterbiMu()
+ * Synopsis:  Determines the local Viterbi Gumbel mu parameter for a model.
+ * Incept:    SRE, Tue May 19 10:26:19 2009 [Janelia]
+ *
+ * Purpose:   Identical to p7_MSVMu(), above, except that it fits
+ *            Viterbi scores instead of MSV scores. 
+ *
+ *            The difference between the two mus is small, but can be
+ *            up to ~1 bit or so for large, low-info models [J4/126] so
+ *            decided to calibrate the two mus separately [J5/8]. 
+ *            
+ * Args:      r       :  source of random numbers
+ *            om      :  score profile (length config is changed upon return!)
+ *            bg      :  null model    (length config is changed upon return!)
+ *            L       :  length of sequences to simulate
+ *            N	      :  number of sequences to simulate		
+ *            lambda  :  known Gumbel lambda parameter
+ *            ret_vmu :  RETURN: ML estimate of location param mu
+ *
+ * Returns:   <eslOK> on success, and <ret_mu> contains the ML estimate
+ *            of $\mu$.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_ViterbiMu(ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double *ret_vmu)
+{
+  P7_OMX  *ox      = p7_omx_Create(om->M, 0, 0); /* DP matrix: 1 row version */
+  ESL_DSQ *dsq     = NULL;
+  double  *xv      = NULL;
+  int      i;
+  float    sc, nullsc;
+#ifndef p7_IMPL_DUMMY
+  float    maxsc   = (32767.0 - om->base_w) / om->scale_w; /* if score overflows, use this [J4/139] */
+#endif
+  int      status;
+
+  if (ox == NULL) { status = eslEMEM; goto ERROR; }
+  ESL_ALLOC(xv,  sizeof(double)  * N);
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+
+  p7_oprofile_ReconfigLength(om, L);
+  p7_bg_SetLength(bg, L);
+
+  for (i = 0; i < N; i++)
+    {
+      if ((status = esl_rsq_xfIID(r, bg->f, om->abc->K, L, dsq)) != eslOK) goto ERROR;
+      if ((status = p7_bg_NullOne(bg, dsq, L, &nullsc))          != eslOK) goto ERROR;   
+
+      status = p7_ViterbiFilter(dsq, L, om, ox, &sc); 
+#ifndef p7_IMPL_DUMMY
+      if (status == eslERANGE) { sc = maxsc; status = eslOK; }
+#endif
+      if (status != eslOK)     goto ERROR;
+
+      xv[i] = (sc - nullsc) / eslCONST_LOG2;
+    }
+
+  if ((status = esl_gumbel_FitCompleteLoc(xv, N, lambda, ret_vmu))  != eslOK) goto ERROR;
+  p7_omx_Destroy(ox);
+  free(xv);
+  free(dsq);
+  return eslOK;
+
+ ERROR:
+  *ret_vmu = 0.0;
+  if (ox  != NULL) p7_omx_Destroy(ox);
+  if (xv  != NULL) free(xv);
+  if (dsq != NULL) free(dsq);
+  return status;
+
+}
+
+
+/* Function:  p7_Tau()
+ * Synopsis:  Determine Forward tau by brief simulation.
+ * Incept:    SRE, Thu Aug  9 15:08:39 2007 [Janelia]
+ *
+ * Purpose:   Determine the <tau> parameter for an exponential tail fit
+ *            to the Forward score distribution for model <om>, on
+ *            random sequences with the composition of the background
+ *            model <bg>. This <tau> parameter is for an exponential
+ *            distribution anchored from $P=1.0$, so it's not really a
+ *            tail per se; but it's only an accurate fit in the tail
+ *            of the Forward score distribution, from about $P=0.001$
+ *            or so.
+ *            
+ *            The determination of <tau> is done by a brief simulation
+ *            in which we fit a Gumbel distribution to a small number
+ *            of Forward scores of random sequences, and use that to
+ *            predict the location of the tail at probability <tailp>.
+ *            
+ *            The Gumbel is of course inaccurate, but we can use it
+ *            here solely as an empirical distribution to determine
+ *            the location of a reasonable <tau> more accurately on a
+ *            smaller number of samples than we could do with raw
+ *            order statistics. 
+ *            
+ *            Typical choices are L=100, N=200, tailp=0.04, which
+ *            typically yield estimates $\hat{\mu}$ with a precision
+ *            (standard deviation) of $\pm$ 0.2 bits, corresponding to
+ *            a $\pm$ 15\% error in E-values. See [J1/135].
+ *            
+ *            The use of Gumbel fitting to a small number of $N$
+ *            samples and the extrapolation of $\hat{\mu}$ from the
+ *            estimated location of the 0.04 tail mass are both
+ *            empirical and carefully optimized against several
+ *            tradeoffs. Most importantly, around this choice of tail
+ *            probability, a systematic error introduced by the use of
+ *            the Gumbel fit is being cancelled by systematic error
+ *            introduced by the use of a higher tail probability than
+ *            the regime in which the exponential tail is a valid
+ *            approximation. See [J1/135] for discussion.
+ *            
+ *            This function changes the length configuration of both
+ *            <om> and <bg>. The caller must remember to reconfigure
+ *            both of their length models appropriately for any
+ *            subsequent alignments.
+ *            
+ * Args:      r      : source of randomness
+ *            om     : configured profile to sample sequences from
+ *            bg     : null model (for background residue frequencies)
+ *            L      : mean length model for seq emission from profile
+ *            N      : number of sequences to generate
+ *            lambda : expected slope of the exponential tail (from p7_Lambda())
+ *            tailp  : tail mass from which we will extrapolate mu
+ *            ret_mu : RETURN: estimate for the Forward mu (base of exponential tail)
+ *
+ * Returns:   <eslOK> on success, and <*ret_fv> is the score difference
+ *            in bits.
+ *
+ * Throws:    <eslEMEM> on allocation error, and <*ret_fv> is 0.
+ */
+int
+p7_Tau(ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double tailp, double *ret_tau)
+{
+  P7_OMX  *ox      = p7_omx_Create(om->M, 0, L);     /* DP matrix: for ForwardParser,  L rows */
+  ESL_DSQ *dsq     = NULL;
+  double  *xv      = NULL;
+  float    fsc, nullsc;		                  
+  double   gmu, glam;
+  int      status;
+  int      i;
+
+  ESL_ALLOC(xv,  sizeof(double)  * N);
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+  if (ox == NULL) { status = eslEMEM; goto ERROR; }
+
+  p7_oprofile_ReconfigLength(om, L);
+  p7_bg_SetLength(bg, L);
+
+  for (i = 0; i < N; i++)
+    {
+      if ((status = esl_rsq_xfIID(r, bg->f, om->abc->K, L, dsq)) != eslOK) goto ERROR;
+      if ((status = p7_ForwardParser(dsq, L, om, ox, &fsc))      != eslOK) goto ERROR;
+      if ((status = p7_bg_NullOne(bg, dsq, L, &nullsc))          != eslOK) goto ERROR;   
+      xv[i] = (fsc - nullsc) / eslCONST_LOG2;
+    }
+  if ((status = esl_gumbel_FitComplete(xv, N, &gmu, &glam)) != eslOK) goto ERROR;
+
+  /* Explanation of the eqn below: first find the x at which the Gumbel tail
+   * mass is predicted to be equal to tailp. Then back up from that x
+   * by log(tailp)/lambda to set the origin of the exponential tail to 1.0
+   * instead of tailp.
+   */
+  *ret_tau =  esl_gumbel_invcdf(1.0-tailp, gmu, glam) + (log(tailp) / lambda);
+  
+  free(xv);
+  free(dsq);
+  p7_omx_Destroy(ox);
+  return eslOK;
+
+ ERROR:
+  *ret_tau = 0.;
+  if (xv  != NULL) free(xv);
+  if (dsq != NULL) free(dsq);
+  if (ox  != NULL) p7_omx_Destroy(ox);
+  return status;
+}
+/*-------------- end, determining individual parameters ---------*/
+
+
+
+
+/*****************************************************************
+ * 3. Statistics and specific experiment drivers
+ *****************************************************************/
+#ifdef p7EVALUES_STATS
+/* gcc -o evalues_stats -g -O2 -msse2 -I. -L. -I../easel -L../easel -Dp7EVALUES_STATS evalues.c -lhmmer -leasel -lm
+ * ./evalues_stats <hmmfile>
+ */
+/* The J1/135 experiment determining precision of mu, tau estimates can be done with this driver by setting Z=1000 or so. 
+ * There used to be a separate script, tagged p7EXP_J1_135, to specifically run that experiment.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+
+#include "hmmer.h"
+
+#define BMARKS "--msvonly,--vitonly,--fwdonly"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp   help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL,  "show brief help on version and usage",            0 },
+  { "-s",        eslARG_INT,      "0", NULL, NULL,  NULL,  NULL, NULL,  "set random number generator seed to <n>",         0 },
+  { "--EmL",     eslARG_INT,    "200", NULL,"n>0",  NULL,  NULL, NULL,  "length of sequences for MSV Gumbel mu fit",       0 },   
+  { "--EmN",     eslARG_INT,    "200", NULL,"n>0",  NULL,  NULL, NULL,  "number of sequences for MSV Gumbel mu fit",       0 },   
+  { "--EvL",     eslARG_INT,    "200", NULL,"n>0",  NULL,  NULL, NULL,  "length of sequences for Viterbi Gumbel mu fit",   0 },   
+  { "--EvN",     eslARG_INT,    "200", NULL,"n>0",  NULL,  NULL, NULL,  "number of sequences for Viterbi Gumbel mu fit",   0 },   
+  { "--EfL",     eslARG_INT,    "100", NULL,"n>0",  NULL,  NULL, NULL,  "length of sequences for Forward exp tail tau fit",0 },   
+  { "--EfN",     eslARG_INT,    "200", NULL,"n>0",  NULL,  NULL, NULL,  "number of sequences for Forward exp tail tau fit",0 },   
+  { "--Eft",     eslARG_REAL,  "0.04", NULL,"0<x<1",NULL,  NULL, NULL,  "tail mass for Forward exponential tail tau fit",  0 },   
+  { "-Z",        eslARG_INT,      "1", NULL, NULL,  NULL,  NULL, NULL,  "set number of iterations per model to <n>",       0 },
+  { "--lambda",  eslARG_REAL,    NULL, NULL, NULL,  NULL,  NULL, NULL,  "set lambda param to <x>",                         0 },
+  { "--msvonly", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL,BMARKS, "only run MSV mu calibration (for benchmarking)",  0 },
+  { "--vitonly", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL,BMARKS, "only run Vit mu calibration (for benchmarking)",  0 },
+  { "--fwdonly", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL,BMARKS, "only run Fwd tau calibration (for benchmarking)", 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "collect test statistics for E-value calculations";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  double          lambda  = 0.0;
+  double          mmu     = 0.0;
+  double          vmu     = 0.0;
+  double          ftau    = 0.0;
+  int             Z       = esl_opt_GetInteger(go, "-Z");
+  int             EmL     = esl_opt_GetInteger(go, "--EmL");
+  int             EmN     = esl_opt_GetInteger(go, "--EmN");
+  int             EvL     = esl_opt_GetInteger(go, "--EvL");
+  int             EvN     = esl_opt_GetInteger(go, "--EvN");
+  int             EfL     = esl_opt_GetInteger(go, "--EfL");
+  int             EfN     = esl_opt_GetInteger(go, "--EfN");
+  int             Eft     = esl_opt_GetReal   (go, "--Eft");
+  int             iteration;
+  int             do_msv, do_vit, do_fwd;
+  int             status;
+
+  if      (esl_opt_GetBoolean(go, "--msvonly") == TRUE) { do_msv =  TRUE; do_vit = FALSE; do_fwd = FALSE; }
+  else if (esl_opt_GetBoolean(go, "--vitonly") == TRUE) { do_msv = FALSE; do_vit =  TRUE; do_fwd = FALSE; }
+  else if (esl_opt_GetBoolean(go, "--fwdonly") == TRUE) { do_msv = FALSE; do_vit = FALSE; do_fwd =  TRUE; }
+  else                                                  { do_msv =  TRUE; do_vit =  TRUE; do_fwd =  TRUE; }
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF) 
+    {
+      if (bg == NULL) bg = p7_bg_Create(abc);
+      gm = p7_profile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, EvL, p7_LOCAL); /* the EvL doesn't matter */
+      om = p7_oprofile_Create(hmm->M, abc);
+      p7_oprofile_Convert(gm, om);
+
+      if (esl_opt_IsOn(go, "--lambda"))	lambda = esl_opt_GetReal(go, "--lambda"); 
+      else p7_Lambda(hmm, bg, &lambda);	  
+
+      for (iteration = 0; iteration < Z; iteration++)
+	{
+	  if (do_msv) p7_MSVMu     (r, om, bg, EmL, EmN, lambda,       &mmu);
+	  if (do_vit) p7_ViterbiMu (r, om, bg, EvL, EvN, lambda,       &vmu);
+	  if (do_fwd) p7_Tau       (r, om, bg, EfL, EfN, lambda, Eft,  &ftau);
+      
+	  printf("%s %.4f %.4f %.4f %.4f\n", hmm->name, lambda, mmu, vmu, ftau);
+	}
+
+      p7_hmm_Destroy(hmm);      
+      p7_profile_Destroy(gm);
+      p7_oprofile_Destroy(om);
+    }
+
+  p7_hmmfile_Close(hfp);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7EVALUES_STATS*/
+/*----------------- end, stats/experiment drivers ---------------*/
+
+
+/*****************************************************************
+ * 4. Benchmark driver
+ *****************************************************************/
+
+#ifdef p7EVALUES_BENCHMARK
+/*
+ *   gcc -O3 -malign-double -msse2 -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *   gcc -g -O -pg  -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *   gcc -g -Wall -msse2 -o evalues-benchmark -I. -L. -I../easel -L../easel -Dp7EVALUES_BENCHMARK evalues.c -lhmmer -leasel -lm
+ *
+ *   ./evalues-benchmark <hmmfile>
+ *
+ *  -malign-double is needed for gcc if the rest of HMMER was compiled w/ -malign-double 
+ *  (i.e., our default gcc optimization)
+ *
+ *  27 Dec 08 on wanderoo: 24 msec per RRM_1 calibration; 37 msec for Caudal_act
+ *  profiling shows 75% in Forward; 12% esl_random(); <3% in MSVFilter.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,    "100", NULL, "n>0", NULL,  NULL, NULL, "number of calibrations to do",                     0 },
+   {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for E-value calibration";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  esl_stopwatch_Start(w);
+  while (N--)
+    { /*                cfg   rng   bg    gm    om  */
+      p7_Calibrate(hmm, NULL, NULL, NULL, NULL, NULL);
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7EVALUES_BENCHMARK*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/eweight.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/eweight.c
new file mode 100755
index 0000000..4e29f73
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/eweight.c
@@ -0,0 +1,101 @@
+/* "Entropy weighting" to determine absolute sequence number to use in hmmbuild.
+ * 
+ * Reference: 
+ *    L. Steven Johnson, "Remote Protein Homology Detection Using Hidden Markov Models",
+ *    Ph.D. thesis, Washington University School of Medicine, 2006.
+ *    
+ * SRE, Fri May  4 14:01:54 2007 [Janelia] [Tom Waits, Orphans]
+ * SVN $Id: eweight.c 3474 2011-01-17 13:25:32Z eddys $   
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_rootfinder.h"
+
+#include "hmmer.h"
+
+struct ew_param_s {
+  const P7_HMM    *hmm;		/* ptr to the original count-based HMM, which remains unchanged */
+  const P7_BG     *bg;		/* ptr to the null model */
+  const P7_PRIOR  *pri;		/* Dirichlet prior used to parameterize from counts */
+  P7_HMM          *h2;		/* our working space: a copy of <hmm> that we can muck with */
+  double           etarget;	/* information content target, in bits */
+};
+
+/* Evaluate fx = rel entropy - etarget, which we want to be = 0,
+ * for effective sequence number <x>.
+ */
+static int
+eweight_target_f(double Neff, void *params, double *ret_fx)
+{
+  struct ew_param_s *p = (struct ew_param_s *) params;
+
+  p7_hmm_CopyParameters(p->hmm, p->h2);
+  p7_hmm_Scale(p->h2, Neff / (double) p->h2->nseq);
+  p7_ParameterEstimation(p->h2, p->pri);
+  *ret_fx = p7_MeanMatchRelativeEntropy(p->h2, p->bg) - p->etarget;
+  return eslOK;
+}
+
+/* Function:  p7_EntropyWeight()
+ * Incept:    SRE, Fri May  4 15:32:59 2007 [Janelia]
+ *
+ * Purpose:   Use the "entropy weighting" algorithm to determine
+ *            what effective sequence number we should use, and 
+ *            return it in <ret_Neff>. 
+ *            
+ *            Caller provides a count-based <hmm>, and the
+ *            Dirichlet prior <pri> that's to be used to parameterize
+ *            models; neither of these will be modified. 
+ *            Caller also provides the relative entropy
+ *            target in bits in <etarget>. 
+ *            
+ *            <ret_Neff> will range from 0 to the true number of
+ *            sequences counted into the model, <hmm->nseq>.
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_EntropyWeight(const P7_HMM *hmm, const P7_BG *bg, const P7_PRIOR *pri, double etarget, double *ret_Neff)
+{
+  int status;
+  ESL_ROOTFINDER *R = NULL;
+  struct ew_param_s p;
+  double Neff;
+  double fx;
+
+  /* Store parameters in the structure we'll pass to the rootfinder
+   */
+  p.hmm = hmm;
+  p.bg  = bg;
+  p.pri = pri;
+  if ((p.h2  = p7_hmm_Clone(hmm)) == NULL) return eslEMEM;
+  p.etarget = etarget;
+  
+  Neff = (double) hmm->nseq;
+  if ((status = eweight_target_f(Neff, &p, &fx)) != eslOK) goto ERROR;
+  if (fx > 0.)
+    {
+      if ((R = esl_rootfinder_Create(eweight_target_f, &p)) == NULL) {status = eslEMEM; goto ERROR;}
+      esl_rootfinder_SetAbsoluteTolerance(R, 0.01); /* getting Neff to ~2 sig digits is fine */
+      if ((status = esl_root_Bisection(R, 0., (double) hmm->nseq, &Neff)) != eslOK) goto ERROR;
+
+      esl_rootfinder_Destroy(R);
+    }
+  
+  p7_hmm_Destroy(p.h2);
+  *ret_Neff = Neff;
+  return eslOK;
+
+ ERROR:
+  if (p.h2 != NULL)   p7_hmm_Destroy(p.h2);
+  if (R    != NULL)   esl_rootfinder_Destroy(R);
+  *ret_Neff = (double) hmm->nseq;
+  return status;
+}
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_alphabet.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_alphabet.c
new file mode 100755
index 0000000..f0830e5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_alphabet.c
@@ -0,0 +1,175 @@
+#include "p7_config.h"
+
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_mem.h"
+#include "hmmer.h"
+
+
+/* Function:  fm_alphabetCreate()
+ *
+ * Synopsis:   Produce an alphabet for FMindex.
+ *
+ * Purpose:   Produce an alphabet for FMindex. This may end up being
+ *            replaced with easel alphabet functions, but the easel
+ *            requirement of having a gap-character between
+ *            cannonical and degenerate symbols poses a problem
+ *            from a bit-packing perspective
+ *
+ * Args:      meta      - metadata object already initialized with the alphabet type.
+ *                        This will hold the alphabet (and corresponding reverse alphabet)
+ *                        created here.
+ *            alph_bits - pointer to an int that this function sets equal to the
+ *                        number of bits required to store the alphabet (log of alph size)
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+fm_alphabetCreate (FM_METADATA *meta, uint8_t *alph_bits) {
+
+	int i = 0;
+	int status;
+
+	if ( meta->alph_type ==  fm_DNA) {
+      meta->alph_size = 4;
+      if (alph_bits) *alph_bits = 2;
+/*
+	} else if ( meta->alph_type ==  fm_DNA_full) {
+      meta->alph_size = 15;
+      if (alph_bits) *alph_bits = 4;
+*/
+	} else if ( meta->alph_type ==  fm_AMINO) {
+	    meta->alph_size = 26;
+      if (alph_bits) *alph_bits = 5;
+	} else {
+      esl_fatal("Unknown alphabet type\n%s", "");
+	}
+
+	ESL_ALLOC(meta->alph, (1+meta->alph_size)*sizeof(char));
+	ESL_ALLOC(meta->inv_alph, 256*sizeof(char));
+
+	if ( meta->alph_type ==  fm_DNA /*|| meta->alph_type ==  fm_DNA_full*/)
+	  ESL_ALLOC(meta->compl_alph, (1+meta->alph_size)*sizeof(int));
+
+
+
+	if ( meta->alph_type ==  fm_DNA) {
+		esl_memstrcpy("ACGT", 4, meta->alph);
+		for (i=0; i<4; i++)
+		  meta->compl_alph[i] = 3-i;
+
+/* TODO: fm_DNA_full has currently been disabled because of problems with how the
+ * FM index handles very long runs of the same character (in this case, Ns).
+ * See wheelert/notebook/2013/12-11-FM-alphabet-speed notes on 12/12.
+ *
+	} else if ( meta->alph_type ==  fm_DNA_full) {
+		esl_memstrcpy("ACGTRYMKSWHBVDN", 15, meta->alph);
+	  meta->compl_alph[0] = 3;    // A->T
+		meta->compl_alph[1] = 2;    // C->G
+	  meta->compl_alph[2] = 1;    // G->C
+	  meta->compl_alph[3] = 0;    // T->A
+	  meta->compl_alph[4] = 5;    // R->Y
+	  meta->compl_alph[5] = 4;    // Y->R
+	  meta->compl_alph[6] = 7;    // M->K
+	  meta->compl_alph[7] = 6;    // K->M
+	  meta->compl_alph[8] = 8;    // S  S
+	  meta->compl_alph[9] = 9;    // W  W
+	  meta->compl_alph[10]= 13;   // H->D
+	  meta->compl_alph[11]= 12;   // B->V
+	  meta->compl_alph[12]= 11;   // V->B
+	  meta->compl_alph[13]= 10;   // D->H
+	  meta->compl_alph[14]= 14;   // N  N
+*/
+	} else if ( meta->alph_type ==  fm_AMINO) {
+		esl_memstrcpy("ACDEFGHIKLMNPQRSTVWYBJZOUX", meta->alph_size, meta->alph);
+	}
+
+	for (i=0; i<256; i++)
+	  meta->inv_alph[i] = -1;
+
+	for (i=0; i<meta->alph_size; i++) {
+	  meta->inv_alph[tolower(meta->alph[i])] = meta->inv_alph[toupper(meta->alph[i])] = i;
+
+	  //special case for RNA, equate U to T:
+	  if (   (meta->alph_type ==  fm_DNA /*|| meta->alph_type ==  fm_DNA_full*/) && toupper(meta->alph[i]) == 'T')
+	    meta->inv_alph['u'] = meta->inv_alph['U'] = i;
+	}
+
+
+
+	return eslOK;
+
+ERROR:
+    esl_fatal("error allocating space for alphabet\n");
+    return eslFAIL;
+}
+
+/* Function:  fm_alphabetDestroy()
+ *
+ * Synopsis:  Free the alphabet for an FMindex metadata object
+ *
+ * Purpose:   Free both the alphabet and corresponding inverse alphabet
+ *            (inv_alph) held within <meta>.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+fm_alphabetDestroy (FM_METADATA *meta) {
+  if (meta != NULL){
+    if (meta->alph != NULL)       free (meta->alph);
+    if (meta->inv_alph != NULL)   free (meta->inv_alph);
+    if (meta->compl_alph != NULL) free (meta->compl_alph);
+  }
+  return eslOK;
+}
+
+
+/* Function:  fm_reverseString()
+ *
+ * Synopsis:   Take as input a string and its length, and reverse the
+ *             string in place.
+ *
+ * Returns:    <eslOK> on success.
+ */
+int
+fm_reverseString (char* str, int N)
+{
+  int end   = N-1;
+  int start = 0;
+
+  while( start<end )
+  {
+    str[start] ^= str[end];
+    str[end]   ^= str[start];
+    str[start] ^= str[end];
+
+    ++start;
+    --end;
+  }
+
+  return eslOK;
+}
+
+/* Function:  fm_getComplement()
+ *
+ * Synopsis:  convert a character c to its complement
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+fm_getComplement (char c, uint8_t alph_type)
+{
+    if ( alph_type ==  fm_DNA ) {
+        return 3-c;
+/*
+    } else if ( alph_type ==  fm_DNA_full) {
+        esl_fatal("complement for DNA_full not yet implemented\n");
+*/
+    } else if ( alph_type ==  fm_AMINO) {
+        esl_fatal("complement for amino acids is undefined\n");
+    } else {
+        esl_fatal("Unknown alphabet type\n%s", "");
+    }
+    return -1;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_general.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_general.c
new file mode 100755
index 0000000..d1c299a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_general.c
@@ -0,0 +1,786 @@
+/* Architecture-independent functions used in FM-index range compuations
+ * and list management.
+ *
+ * Contents:
+ *   1. List management
+ *   2. Interval / range computation
+ *   3. Functions related to the original sequence
+ *   4. FM data initialization, configuration, and reading from file
+ *
+ *  # 5. Unit tests.
+ *  # 6. Test driver.
+ *  # 7. Copyright and license.
+ *
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "hmmer.h"
+
+/* Function:  fm_initSeeds()
+ *
+ * Synopsis:  initialize the object used to store a list of seed diagonals
+ *
+ * Returns:   eslEMEM in event of allocation failure, otherwise eslOK
+ */
+int
+fm_initSeeds (FM_DIAGLIST *list) {
+  int status;
+  list->size = 1000;
+  ESL_ALLOC(list->diags, list->size * sizeof(FM_DIAG));
+  list->count = 0;
+
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+
+}
+
+/* Function:  fm_newSeed()
+ *
+ * Synopsis:  return a pointer to the next seed element on the list,
+ *            increasing the size of the list, if necessary.
+ *
+ * Returns:   NULL in event of allocation failure, otherwise pointer to
+ *            the next seed diagonal
+ */
+FM_DIAG *
+fm_newSeed (FM_DIAGLIST *list) {
+  int status;
+
+  if (list->count == list->size) {
+    list->size *= 4;
+    ESL_REALLOC(list->diags, list->size * sizeof(FM_DIAG));
+  }
+  list->count++;
+  return list->diags + (list->count - 1);
+
+ERROR:
+  return NULL;
+}
+
+
+
+/* Function:  fm_initAmbiguityList()
+ *
+ * Synopsis:  initialize the object used to store a list of ambiguity ranges
+ *
+ * Returns:   eslEMEM in event of allocation failure, otherwise eslOK
+ */
+int
+fm_initAmbiguityList (FM_AMBIGLIST *list) {
+
+  int status;
+
+  list->size = 1000;
+
+  ESL_ALLOC(list->ranges, list->size * sizeof(FM_INTERVAL));
+  if (list->ranges == NULL  )
+    esl_fatal("unable to allocate memory to store FM ambiguity data\n");
+
+  list->count = 0;
+
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+
+}
+
+/* Function:  fm_addAmbiguityRange()
+ *
+ * Synopsis:  return a pointer to the next seed element on the list,
+ *            increasing the size of the list, if necessary.
+ *
+ * Returns:   NULL in event of allocation failure, otherwise pointer to
+ *            the next seed diagonal
+ */
+int
+fm_addAmbiguityRange (FM_AMBIGLIST *list, uint32_t start, uint32_t stop) {
+  int status;
+
+  if (list->count == list->size) {
+    list->size *= 4;
+    ESL_REALLOC(list->ranges, list->size * sizeof(FM_INTERVAL));
+  }
+
+  list->ranges[list->count].lower = start;
+  list->ranges[list->count].upper = stop;
+
+  list->count++;
+
+  return eslOK;
+
+ERROR:
+  return eslFAIL;
+}
+
+
+
+
+
+/*********************************************************************
+ *# 2. Interval / range computation
+ *********************************************************************/
+
+/* Function:  fm_updateIntervalForward()
+ *
+ * Synopsis:  Implement Algorithm 4 (i371) of Simpson (Bioinformatics 2010)
+ *
+ * Purpose:
+ *
+ * Returns:   eslOK
+ */
+int
+fm_updateIntervalForward( const FM_DATA *fm, const FM_CFG *cfg, char c, FM_INTERVAL *interval_bk, FM_INTERVAL *interval_f) {
+  uint32_t occLT_l, occLT_u, occ_l, occ_u;
+
+  fm_getOccCountLT (fm, cfg, interval_bk->lower - 1, c, &occ_l, &occLT_l);
+  fm_getOccCountLT (fm, cfg, interval_bk->upper,     c, &occ_u, &occLT_u);
+
+  interval_f->lower += (occLT_u - occLT_l);
+  interval_f->upper = interval_f->lower + (occ_u - occ_l) - 1;
+
+  interval_bk->lower = abs(fm->C[(int)c]) + occ_l;
+  interval_bk->upper = abs(fm->C[(int)c]) + occ_u - 1;
+
+  return eslOK;
+}
+
+/* Function:  getSARangeForward()
+ * Synopsis:  For a given query sequence, find its interval in the FM-index, using forward search
+ * Purpose:   Implement Algorithm 4 (i371) of Simpson (Bioinformatics 2010). It's the forward
+ *            search on a bi-directional BWT, as described by Lam 2009.
+ *            All the meat is in the method of counting characters - bwt_getOccCount, which
+ *            depends on compilation choices.
+ *
+ *            Note: it seems odd, but is correct, that the fm-index passed in to this function
+ *            is the backward index corresponding to the forward index into which I want to
+ *            do a forward search
+ */
+int
+fm_getSARangeForward( const FM_DATA *fm, FM_CFG *cfg, char *query, char *inv_alph, FM_INTERVAL *interval)
+{
+
+  int i=0;
+  FM_INTERVAL interval_bk;
+
+  uint8_t c = inv_alph[(int)query[0]];
+  interval->lower  = interval_bk.lower = abs(fm->C[c]);
+  interval->upper  = interval_bk.upper = abs(fm->C[c+1])-1;
+
+
+  while (interval_bk.lower>=0 && interval_bk.lower <= interval_bk.upper) {
+    c = query[++i];
+    if (c == '\0')  // end of query - the current range defines the hits
+      break;
+
+    c = inv_alph[c];
+    fm_updateIntervalForward( fm, cfg, c, &interval_bk, interval);
+    cfg->occCallCnt+=2;
+  }
+
+  return eslOK;
+}
+
+
+int
+fm_updateIntervalReverse( const FM_DATA *fm, const FM_CFG *cfg, char c, FM_INTERVAL *interval) {
+  int count1, count2;
+  //TODO: counting in these calls will often overlap
+    // - might get acceleration by merging to a single redundancy-avoiding call
+  count1 = fm_getOccCount (fm, cfg, interval->lower-1, c);
+  count2 = fm_getOccCount (fm, cfg, interval->upper, c);
+
+  interval->lower = abs(fm->C[(int)c]) + count1;
+  interval->upper = abs(fm->C[(int)c]) + count2 - 1;
+
+  return eslOK;
+}
+
+
+
+/* Function:  getSARangeReverse()
+ * Synopsis:  For a given query sequence, find its interval in the FM-index, using backward search
+ * Purpose:   Implement Algorithm 3.6 (p17) of Firth paper (A Comparison of BWT Approaches
+ *            to String Pattern Matching). This is what Simpson and Lam call "Reverse Search".
+ *            All the meat is in the method of counting characters - bwt_getOccCount, which
+ *            depends on compilation choices.
+ */
+int
+fm_getSARangeReverse( const FM_DATA *fm, FM_CFG *cfg, char *query, char *inv_alph, FM_INTERVAL *interval)
+{
+
+
+  int i=0;
+
+  char c = inv_alph[(int)query[0]];
+  interval->lower  = abs(fm->C[(int)c]);
+  interval->upper  = abs(fm->C[(int)c+1])-1;
+
+  while (interval->lower>=0 && interval->lower <= interval->upper) {
+    c = query[++i];
+    if (c == '\0')  // end of query - the current range defines the hits
+      break;
+
+    c = inv_alph[(int)c];
+
+    fm_updateIntervalReverse(fm, cfg, c, interval);
+
+    cfg->occCallCnt+=2;
+  }
+
+  return eslOK;
+}
+
+
+
+/*********************************************************************
+ *# 3. Functions related to the original sequence
+ *********************************************************************/
+
+
+/* Function:  getChar()
+ * Synopsis:  Find the character c residing at a given position in the BWT.
+ * Purpose:   This method must account for possible string compression, either
+ *            4 characters in one byte for a 4-letter DNA/RNA alphabet, 2 chars
+ *            per byte for a 15-letter alphabet of DNA/RNA with ambiguity codes,
+ *            or one char per byte for amino acids.
+ */
+uint8_t
+fm_getChar(uint8_t alph_type, int j, const uint8_t *B )
+{
+  uint8_t c = -1;
+
+  if (alph_type == fm_DNA /* || alph_type == fm_RNA */) {
+    /*
+     *  B[j/4] is the byte of B in which j is found
+     *
+     *  Let j' be the final two bits of j (j&0x2)
+     *  The char bits are the two starting at position 2*j'.
+     *  Without branching, grab them by shifting B[j/4] right 6-2*j' bits,
+     *  then masking to keep the final two bits
+     */
+    c = (B[j/4] >> ( 0x6 - ((j&0x3)*2) ) & 0x3);
+/*
+  } else if (alph_type == fm_DNA_full ) {
+    c = (B[j/2] >> (((j&0x1)^0x1)*4) ) & 0xf;  //unpack the char: shift 4 bits right if it's odd, then mask off left bits in any case
+*/
+  } else { // amino
+    c = B[j];
+  }
+
+  return c;
+}
+
+
+
+/* Function:  fm_findOverlappingAmbiguityBlock()
+ * Synopsis:  Search in the meta->ambig_list array for the first
+ *            ambiguity range starting after <start>. If that index
+ *            comes before <end>, return it. Otherwise, return -1.
+ */
+int32_t
+fm_findOverlappingAmbiguityBlock (const FM_DATA *fm, const FM_METADATA *meta, uint32_t start, uint32_t end)
+{
+
+  int lo = fm->ambig_offset;
+  int hi = lo + fm->ambig_cnt - 1;
+  int mid;
+  FM_INTERVAL *ranges = meta->ambig_list->ranges;
+
+  // (1) Search in the meta->ambig_list array for the last ambiguity range
+  // ending before <start>, using binary search, first handling edge cases:
+  if (hi <= lo)                   return hi; // either 0 or -1
+  if (ranges[lo].lower > end)     return -1;
+  if (ranges[hi].upper < start)   return -1;
+
+  while (lo < hi) {
+    mid = (lo + hi) / 2;  // round down
+    if      (ranges[mid].lower   < start)  lo = mid + 1; // too far left
+    else                                   hi = mid;    // might be too far right
+  }
+
+  //the range test above may have pushed the target one too far to the right
+  if      (lo>0 &&  ranges[lo-1].upper   >= start && ranges[lo-1].lower <= end) return lo-1;
+  else if (         ranges[lo].upper     >= start && ranges[lo].lower   <= end) return lo;
+  else return -1;
+
+}
+
+
+/* Function:  fm_convertRange2DSQ()
+ * Synopsis:  Convert the BWT range into a DSQ.
+ *
+ * Purpose:   The input value of <first> is the 0-based position at which
+ *            the requested range starts on either FM->T or revcomp(FM->T),
+ *            depending on <complementarity>. Since only FM->T is stored,
+ *            the necessary work is done to correct positions in the case
+ *            that the positions are relative to the revcomp.
+ */
+int
+fm_convertRange2DSQ(const FM_DATA *fm, const FM_METADATA *meta, uint64_t first, int length, int complementarity, ESL_SQ *sq, int fix_ambiguities)
+{
+  uint64_t i, j;
+
+  if (complementarity == p7_COMPLEMENT)
+    first = fm->N-(first+length)-1;
+
+  //All the "+1" dsq offsets below are because the dsq characters are 1-based.
+  esl_sq_GrowTo(sq, length);
+  sq->n = length;
+
+  if (meta->alph_type == fm_DNA ) {
+    /*
+     *  B[j>>2] is the byte of B in which j is found (j/4)
+     *
+     *  Let j' be the final two bits of j (j&0x2)
+     *  The char bits are the two starting at position 2*j'.
+     *  Without branching, grab them by shifting B[j/4] right 6-2*j' bits,
+     *  then masking to keep the final two bits
+     */
+    for (i = first; i <= first+length-1; i++)
+      sq->dsq[i-first+1] = (fm->T[i/4] >> ( 0x6 - ((i&0x3)*2) ) & 0x3);
+    sq->dsq[length+1] = eslDSQ_SENTINEL;
+
+    if (fix_ambiguities) {
+      /*  Account for the fact that in the DNA alphabet without ambiguity codes,
+       *  makehmmerdb turns ambiguity codes into one of the nucleotides. Need
+       *  to replace with an N.
+       */
+      int32_t pos = fm_findOverlappingAmbiguityBlock (fm, meta, first, first+length-1 );
+      if (pos != -1) {
+        while (pos <= fm->ambig_offset + fm->ambig_cnt -1 && meta->ambig_list->ranges[pos].lower <= first+length-1) {
+          int start = ESL_MAX(first,          meta->ambig_list->ranges[pos].lower);
+          int end =   ESL_MIN(first+length-1, meta->ambig_list->ranges[pos].upper);
+          for (j= start; j<=end; j++)
+              sq->dsq[j-first+1] = sq->abc->Kp-3; //'N'
+          pos++;
+        }
+      }
+    }
+
+/*
+  } else if (meta->alph_type == fm_DNA_full) {
+    for (i = first; i<= first+length-1; i++) {
+      c = (fm->T[i/2] >> (((i&0x1)^0x1)*4) ) & 0xf;  //unpack the char: shift 4 bits right if it's odd, then mask off left bits in any case
+      sq->dsq[i-first+1] = c + (c < 4 ? 0 : 1); //increment by one for ambiguity codes
+    }
+    sq->dsq[length+1] = eslDSQ_SENTINEL;
+*/
+  } else { // amino
+    for (i = first; i<= first+length-1; i++)
+      sq->dsq[i-first+1] = fm->T[i] + (fm->T[i] < 20 ? 0 : 1); //increment by one for ambiguity codes
+
+    sq->dsq[length+1] = eslDSQ_SENTINEL;
+  }
+
+  if (complementarity == p7_COMPLEMENT)
+    esl_sq_ReverseComplement(sq);
+
+  return eslOK;
+}
+
+
+
+/* Function:  fm_computeSequenceOffset()
+ * Synopsis:  Search in the meta->seq_data array for the sequence id corresponding to the
+ *            requested position. The matching entry is the one with the largest index i
+ *            such that seq_data[i].offset < pos
+ */
+uint64_t
+fm_computeSequenceOffset (const FM_DATA *fms, const FM_METADATA *meta, int block, uint64_t pos)
+{
+
+  uint64_t lo = fms[block].seq_offset;
+  uint64_t hi  = lo + fms[block].seq_cnt - 1;
+  uint64_t mid;
+
+  //binary search, first handling edge cases
+  if (lo==hi)                             return lo;
+  if (meta->seq_data[hi].fm_start <= pos) return hi;
+
+  while (1) {
+    mid = (lo + hi + 1) / 2;  /* round up */
+    if      (meta->seq_data[mid].fm_start <= pos) lo = mid; /* too far left  */
+    else if (meta->seq_data[mid-1].fm_start > pos) hi = mid; /* too far right */
+    else return mid-1;                 /* found it */
+  }
+
+}
+
+
+/* Function:  fm_getOriginalPosition()
+ * Synopsis:  Find the id of the sequence in the original input corresponding
+ *            to a given hit, and the position of that hit in the original
+ * Purpose:   Given:
+ *            fms       - an array of FM-indexes
+ *            meta      - the fm metadata
+ *            fm_id     - index of the fm-index in which a hit is sought
+ *            length    - length of the hit in question
+ *            direction - direction of the hit in question
+ *            fm_pos    - position in the fm-index
+ *
+ *            Returns
+ *            *segment_id - index of the sequence segment captured in the FM-index
+ *            *seg_pos    - position in the original sequence, as compressed in the FM binary data structure (zero based)
+ *            int         - eslERANGE if the range in question crosses the boundary between two target sequences. Otherwise eslOK.
+ */
+int
+fm_getOriginalPosition (const FM_DATA *fms, const FM_METADATA *meta, int fm_id, int length, int complementarity,
+                        uint64_t fm_pos, uint32_t *segment_id, uint64_t *seg_pos
+) {
+
+  // if complementarity == p7_NOCOMPLEMENT, the end positions are in context of FM->T
+  // otherwise, they're in context of revcomp(FM->T).
+  if (complementarity == p7_COMPLEMENT)  // need location in forward context:
+    fm_pos = fms->N - fm_pos - 1;
+
+  *segment_id = fm_computeSequenceOffset( fms, meta, fm_id, fm_pos);
+  *seg_pos    =  ( fm_pos - meta->seq_data[ *segment_id ].fm_start) + 1;
+
+  if (complementarity == p7_COMPLEMENT) // now reverse orientation
+    *seg_pos    =  meta->seq_data[ *segment_id ].length - *seg_pos + 1;
+
+
+  //verify that the hit doesn't extend beyond the bounds of the target sequence
+  if (*seg_pos + length - 1  > meta->seq_data[ *segment_id ].length )
+    return eslERANGE;
+
+  return eslOK;
+}
+
+/*********************************************************************
+ *# 4. FM data initialization, configuration, and reading from file
+ *********************************************************************/
+
+int
+fm_initConfigGeneric( FM_CFG *cfg, ESL_GETOPTS *go ) {
+
+  cfg->ssv_length        = (go ? esl_opt_GetInteger(go, "--seed_ssv_length") : -1);
+  cfg->max_depth         = (go ? esl_opt_GetInteger(go, "--seed_max_depth") :  -1);
+  cfg->drop_max_len      = (go ? esl_opt_GetInteger(go, "--seed_drop_max_len") : -1);
+  cfg->consec_pos_req    = (go ? esl_opt_GetInteger(go, "--seed_req_pos") : -1);
+  cfg->consensus_match_req = (go ? esl_opt_GetInteger(go, "--seed_consens_match") : 10);
+  cfg->drop_lim          = eslCONST_LOG2 * (go ? esl_opt_GetReal(go, "--seed_drop_lim") : -1.0);  // convert from bits to nats
+  cfg->score_density_req = eslCONST_LOG2 * (go ? esl_opt_GetReal(go, "--seed_sc_density") : -1.0);// convert from bits to nats
+  cfg->scthreshFM        = eslCONST_LOG2 * (go ? esl_opt_GetReal(go, "--seed_sc_thresh") : -1.0); // convert from bits to nats
+
+  return eslOK;
+}
+
+/* Function:  fm_FM_free()
+ * Synopsis:  release the memory required to store an individual FM-index
+ */
+void
+fm_FM_destroy ( FM_DATA *fm, int isMainFM)
+{
+
+  if (fm->BWT_mem)      free (fm->BWT_mem);
+  if (fm->C)            free (fm->C);
+  if (fm->occCnts_b)    free (fm->occCnts_b);
+  if (fm->occCnts_sb)   free (fm->occCnts_sb);
+
+  if (isMainFM && fm->T)  free (fm->T);
+  if (isMainFM && fm->SA) free (fm->SA);
+}
+
+/* Function:  fm_FM_read()
+ * Synopsis:  Read the FM index off disk
+ * Purpose:   Read the FM-index as written by fmbuild.
+ *            First read the metadata header, then allocate space for the full index,
+ *            then read it in.
+ */
+int
+fm_FM_read( FM_DATA *fm, FM_METADATA *meta, int getAll )
+{
+  //shortcut variables
+  int64_t *C               = NULL;
+
+  int status;
+  int i;
+
+  uint16_t *occCnts_b  = NULL;  //convenience variables, used to simplify macro calls
+  uint32_t *occCnts_sb = NULL;
+
+  int32_t compressed_bytes;
+  int num_freq_cnts_b;
+  int num_freq_cnts_sb;
+  int num_SA_samples;
+  int64_t prevC;
+  int cnt;
+  int chars_per_byte = 8/meta->charBits;
+
+
+  if(fread(&(fm->N), sizeof(uint64_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading block_length in FM index.\n", __FILE__);
+  if(fread(&(fm->term_loc), sizeof(uint32_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading terminal location in FM index.\n", __FILE__);
+  if(fread(&(fm->seq_offset), sizeof(uint32_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading seq_offset in FM index.\n", __FILE__);
+  if(fread(&(fm->ambig_offset), sizeof(uint32_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading ambig_offset in FM index.\n", __FILE__);
+  if(fread(&(fm->overlap), sizeof(uint32_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading overlap in FM index.\n", __FILE__);
+  if(fread(&(fm->seq_cnt), sizeof(uint32_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading seq_cnt in FM index.\n", __FILE__);
+  if(fread(&(fm->ambig_cnt), sizeof(uint32_t), 1, meta->fp) !=  1)
+    esl_fatal( "%s: Error reading ambig_cnt in FM index.\n", __FILE__);
+
+  compressed_bytes =   ((chars_per_byte-1+fm->N)/chars_per_byte);
+  num_freq_cnts_b  = 1+ceil((double)fm->N/meta->freq_cnt_b);
+  num_freq_cnts_sb = 1+ceil((double)fm->N/meta->freq_cnt_sb);
+  num_SA_samples   = 1+floor((double)fm->N/meta->freq_SA);
+
+  // allocate space, then read the data
+  if (getAll) ESL_ALLOC (fm->T, sizeof(uint8_t) * compressed_bytes );
+  ESL_ALLOC (fm->BWT_mem,  sizeof(uint8_t) * (compressed_bytes + 31) ); // +31 for manual 16-byte alignment  ( typically only need +15, but this allows offset in memory, plus offset in case of <16 bytes of characters at the end)
+     fm->BWT =   (uint8_t *) (((unsigned long int)fm->BWT_mem + 15) & (~0xf));   // align vector memory on 16-byte boundaries
+  if (getAll) ESL_ALLOC (fm->SA, num_SA_samples * sizeof(uint32_t));
+  ESL_ALLOC (fm->C, (1+meta->alph_size) * sizeof(int64_t));
+  ESL_ALLOC (fm->occCnts_b,  num_freq_cnts_b *  (meta->alph_size ) * sizeof(uint16_t)); // every freq_cnt positions, store an array of ints
+  ESL_ALLOC (fm->occCnts_sb,  num_freq_cnts_sb *  (meta->alph_size ) * sizeof(uint32_t)); // every freq_cnt positions, store an array of ints
+
+
+  if(getAll && fread(fm->T, sizeof(uint8_t), compressed_bytes, meta->fp) != compressed_bytes)
+    esl_fatal( "%s: Error reading T in FM index.\n", __FILE__);
+  if( fread(fm->BWT, sizeof(uint8_t), compressed_bytes, meta->fp)  != compressed_bytes)
+    esl_fatal( "%s: Error reading BWT in FM index.\n", __FILE__);
+  if(getAll && fread(fm->SA, sizeof(uint32_t), (size_t)num_SA_samples, meta->fp) != (size_t)num_SA_samples)
+    esl_fatal( "%s: Error reading SA in FM index.\n", __FILE__);
+
+  if(fread(fm->occCnts_b, sizeof(uint16_t)*(meta->alph_size), (size_t)num_freq_cnts_b, meta->fp) != (size_t)num_freq_cnts_b)
+    esl_fatal( "%s: Error reading occCnts_b in FM index.\n", __FILE__);
+  if(fread(fm->occCnts_sb, sizeof(uint32_t)*(meta->alph_size), (size_t)num_freq_cnts_sb, meta->fp) != (size_t)num_freq_cnts_sb)
+    esl_fatal( "%s: Error reading occCnts_sb in FM index.\n", __FILE__);
+
+
+  //shortcut variables
+  C          = fm->C;
+  occCnts_b  = fm->occCnts_b;
+  occCnts_sb = fm->occCnts_sb;
+
+
+  /*compute the first position of each letter in the alphabet in a sorted list
+  * (with an extra value to simplify lookup of the last position for the last letter).
+  * Negative values indicate that there are zero of that character in T, can be
+  * used to establish the end of the prior range*/
+  C[0] = 0;
+  for (i=0; i<meta->alph_size; i++) {
+    prevC = abs(C[i]);
+
+    cnt = FM_OCC_CNT( sb, num_freq_cnts_sb-1, i);
+
+    if (cnt==0) {// none of this character
+      C[i+1] = prevC;
+      C[i] *= -1; // use negative to indicate that there's no character of this type, the number gives the end point of the previous
+    } else {
+      C[i+1] = prevC + cnt;
+    }
+  }
+  C[meta->alph_size] *= -1;
+  C[0] = 1;
+
+  return eslOK;
+
+ERROR:
+  fm_FM_destroy(fm, getAll);
+  esl_fatal("Error allocating memory in %s\n", "readFM");
+  return eslFAIL;
+}
+
+
+/* Function:  readFMmeta()
+ * Synopsis:  Read metadata from disk for the set of FM-indexes stored in a HMMER binary file
+ *
+ * Input: file pointer to binary file
+ * Output: return filled meta struct
+ */
+int
+fm_readFMmeta( FM_METADATA *meta)
+{
+  int status;
+  int i;
+
+
+  fm_initAmbiguityList(meta->ambig_list);
+
+  if( fread(&(meta->fwd_only),     sizeof(meta->fwd_only),     1, meta->fp) != 1 ||
+      fread(&(meta->alph_type),    sizeof(meta->alph_type),    1, meta->fp) != 1 ||
+      fread(&(meta->alph_size),    sizeof(meta->alph_size),    1, meta->fp) != 1 ||
+      fread(&(meta->charBits),     sizeof(meta->charBits),     1, meta->fp) != 1 ||
+      fread(&(meta->freq_SA),      sizeof(meta->freq_SA),      1, meta->fp) != 1 ||
+      fread(&(meta->freq_cnt_sb),  sizeof(meta->freq_cnt_sb),  1, meta->fp) != 1 ||
+      fread(&(meta->freq_cnt_b),   sizeof(meta->freq_cnt_b),   1, meta->fp) != 1 ||
+      fread(&(meta->block_count),  sizeof(meta->block_count),  1, meta->fp) != 1 ||
+      fread(&(meta->seq_count),    sizeof(meta->seq_count),    1, meta->fp) != 1 ||
+      fread(&(meta->ambig_list->count), sizeof(meta->ambig_list->count),    1, meta->fp) != 1 ||
+      fread(&(meta->char_count),   sizeof(meta->char_count),   1, meta->fp) != 1
+  )
+    esl_fatal( "%s: Error reading meta data for FM index.\n", __FILE__);
+
+
+  ESL_ALLOC (meta->seq_data,  meta->seq_count   * sizeof(FM_SEQDATA));
+  if (meta->seq_data == NULL  )
+    esl_fatal("unable to allocate memory to store FM meta data\n");
+
+
+  for (i=0; i<meta->seq_count; i++) {
+    if( fread(&(meta->seq_data[i].target_id),    sizeof(meta->seq_data[i].target_id),           1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].target_start), sizeof(meta->seq_data[i].target_start),        1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].fm_start),     sizeof(meta->seq_data[i].fm_start),        1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].length),       sizeof(meta->seq_data[i].length),       1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].name_length),  sizeof(meta->seq_data[i].name_length),  1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].acc_length),   sizeof(meta->seq_data[i].acc_length),   1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].source_length),sizeof(meta->seq_data[i].source_length),1, meta->fp) != 1 ||
+        fread(&(meta->seq_data[i].desc_length),  sizeof(meta->seq_data[i].desc_length),  1, meta->fp) != 1
+        )
+      esl_fatal( "%s: Error reading meta data for FM index.\n", __FILE__);
+
+    ESL_ALLOC (meta->seq_data[i].name,  (1+meta->seq_data[i].name_length)   * sizeof(char));
+    ESL_ALLOC (meta->seq_data[i].acc,   (1+meta->seq_data[i].acc_length)    * sizeof(char));
+    ESL_ALLOC (meta->seq_data[i].source,(1+meta->seq_data[i].source_length) * sizeof(char));
+    ESL_ALLOC (meta->seq_data[i].desc,  (1+meta->seq_data[i].desc_length)   * sizeof(char));
+
+    if(
+        fread(meta->seq_data[i].name,   sizeof(char), meta->seq_data[i].name_length+1   , meta->fp) !=  meta->seq_data[i].name_length+1  ||
+        fread(meta->seq_data[i].acc,    sizeof(char), meta->seq_data[i].acc_length+1    , meta->fp) !=  meta->seq_data[i].acc_length+1  ||
+        fread(meta->seq_data[i].source, sizeof(char), meta->seq_data[i].source_length+1 , meta->fp) !=  meta->seq_data[i].source_length+1  ||
+        fread(meta->seq_data[i].desc,   sizeof(char), meta->seq_data[i].desc_length+1   , meta->fp) !=  meta->seq_data[i].desc_length+1 )
+      esl_fatal( "%s: Error reading meta data for FM index.\n", __FILE__);
+
+  }
+
+  if (meta->ambig_list->count > meta->ambig_list->size) {
+    ESL_REALLOC(meta->ambig_list->ranges,  meta->ambig_list->count  * sizeof(FM_INTERVAL));
+    if (meta->ambig_list->ranges == NULL  )
+      esl_fatal("unable to allocate memory to store FM ambiguity data\n");
+    meta->ambig_list->size = meta->ambig_list->count;
+  }
+
+  for (i=0; i<meta->ambig_list->count; i++) {
+    if( fread(&(meta->ambig_list->ranges[i].lower),   sizeof(meta->ambig_list->ranges[i].lower),       1, meta->fp) != 1 ||
+        fread(&(meta->ambig_list->ranges[i].upper),   sizeof(meta->ambig_list->ranges[i].upper),       1, meta->fp) != 1
+    )
+      esl_fatal( "%s: Error reading ambiguity data for FM index.\n", __FILE__);
+  }
+
+  return eslOK;
+
+ERROR:
+
+  if (meta->seq_data) {
+    for (i=0; i<meta->seq_count; i++)
+      free(meta->seq_data[i].name);
+    free(meta->seq_data);
+  }
+  free(meta);
+
+   esl_fatal("Error allocating memory in %s\n", "readFM");
+   return eslFAIL;
+}
+
+
+/* Function:  fm_configAlloc()
+ * Synopsis:  Allocate a <FM_CFG> model object, and its FM_METADATA
+ */
+int
+fm_configAlloc(FM_CFG **cfg)
+{
+  int status;
+
+  if ( cfg == NULL)
+    esl_fatal("null pointer when allocating FM configuration\n");
+
+  *cfg = NULL;
+
+  ESL_ALLOC(*cfg, sizeof(FM_CFG) );
+  if ((*cfg) == NULL)
+    esl_fatal("unable to allocate memory to store FM config data\n");
+
+  ESL_ALLOC((*cfg)->meta, sizeof(FM_METADATA));
+  if ((*cfg)->meta == NULL)
+    esl_fatal("unable to allocate memory to store FM meta data\n");
+
+  ESL_ALLOC ((*cfg)->meta->ambig_list, sizeof(FM_AMBIGLIST));
+  if ((*cfg)->meta->ambig_list == NULL)
+      esl_fatal("unable to allocate memory to store FM ambiguity data\n");
+
+
+
+
+  return eslOK;
+
+ERROR:
+  if (*cfg != NULL) {
+    if ((*cfg)->meta != NULL) free ((*cfg)->meta);
+    free (*cfg);
+  }
+  return eslEMEM;
+}
+
+
+
+/* Function:  fm_configDestroy()
+ * Synopsis:  Destroy various memory items used for the FMindex implementation
+ *
+ * Purpose:   Destroy the masks used by the FM index, the metadata for
+ *            the FM index, and the config itself.
+ */
+int
+fm_configDestroy(FM_CFG *cfg ) {
+  if (cfg) {
+#if   defined (p7_IMPL_SSE)
+    if (cfg->fm_chars_mem)         free(cfg->fm_chars_mem);
+    if (cfg->fm_masks_mem)         free(cfg->fm_masks_mem);
+    if (cfg->fm_reverse_masks_mem) free(cfg->fm_reverse_masks_mem);
+#endif
+    fm_metaDestroy(cfg->meta);
+    free(cfg);
+  }
+  return eslOK;
+}
+
+/* Function:  fm_metaDestroy()
+ * Synopsis:  Destroy various metadata for the FMindex implementation
+ */
+int
+fm_metaDestroy(FM_METADATA *meta ) {
+  int i;
+  if (meta != NULL) {
+    for (i=0; i<meta->seq_count; i++) {
+      if(meta->seq_data[i].name)   free(meta->seq_data[i].name);
+      if(meta->seq_data[i].acc)    free(meta->seq_data[i].acc);
+      if(meta->seq_data[i].source) free(meta->seq_data[i].source);
+      if(meta->seq_data[i].desc)   free(meta->seq_data[i].desc);
+
+    }
+    free(meta->seq_data);
+
+    if (meta->ambig_list) {
+      if (meta->ambig_list->ranges) free(meta->ambig_list->ranges);
+      free(meta->ambig_list);
+    }
+
+    fm_alphabetDestroy(meta);
+    free (meta);
+  }
+
+  return eslOK;
+}
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: fm_general.c 3784 2011-12-07 21:51:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/trunk/src/fm_general.c $
+ ************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_sse.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_sse.c
new file mode 100755
index 0000000..c67a526
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_sse.c
@@ -0,0 +1,635 @@
+#include "p7_config.h"
+
+#include <stdio.h>
+
+#if   defined (p7_IMPL_SSE)
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+#endif
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "hmmer.h"
+
+#if   defined (p7_IMPL_SSE)
+int
+fm_getbits_m128 (__m128i in, char *buf, int reverse) 
+{
+  byte_m128 new;
+  new.m128 = in;
+  int i,j;
+
+  for (i=0; i<16;i++) {
+
+    for (j=0; j<8; j++) {
+      if (reverse)
+        buf[9*i+j] = (new.bytes[i]>>j)&0x1 ? '1' : '0';
+      else
+        buf[9*i+(7-j)] = (new.bytes[i]>>j)&0x1 ? '1' : '0';
+    }
+    buf[9*i + 8] = ' ';
+  }
+  buf[143] = '\0';
+
+  return eslOK;
+}
+
+int
+fm_print_m128 (__m128i in) 
+{
+  char str[144];
+  fm_getbits_m128(in, str, 0);
+  fprintf (stderr, "%s\n", str);
+  return eslOK;
+}
+
+
+int
+fm_print_m128_rev (__m128i in) 
+{
+  char str[144];
+  fm_getbits_m128(in, str, 1);
+  fprintf (stderr, "%s\n", str);
+  return eslOK;
+}
+#endif //#if   defined (p7_IMPL_SSE)
+
+
+/* Function:  fm_initConfig()
+ * Purpose:   Initialize vector masks used in SSE FMindex implementation
+ */
+int
+fm_configInit( FM_CFG *cfg, ESL_GETOPTS *go )
+{
+  int status;
+  int i,j;
+  int trim_chunk_count;
+
+  fm_initConfigGeneric(cfg, go);
+
+#if   defined (p7_IMPL_SSE)
+
+  cfg->fm_allones_v = _mm_set1_epi8(0xff);
+  cfg->fm_neg128_v  = _mm_set1_epi8((int8_t) -128);
+  cfg->fm_zeros_v = _mm_set1_epi8((int8_t) 0x00);      //00 00 00 00
+  cfg->fm_m0f     = _mm_set1_epi8((int8_t) 0x0f);      //00 00 11 11
+
+  if (cfg->meta->alph_type == fm_DNA) {
+    cfg->fm_m01 = _mm_set1_epi8((int8_t) 0x55);   //01 01 01 01
+    cfg->fm_m11 = _mm_set1_epi8((int8_t) 0x03);  //00 00 00 11
+  }
+    //set up an array of vectors, one for each character in the alphabet
+  cfg->fm_chars_v         = NULL;
+  ESL_ALLOC (cfg->fm_chars_mem, cfg->meta->alph_size * sizeof(__m128)  + 15 ); // +15 for manual 16-byte alignment, which matters for SIMD stuff
+  cfg->fm_chars_v =   (__m128i *) (((unsigned long int)(cfg->fm_chars_mem) + 15) & (~0xf));   /* align vector memory on 16-byte boundaries */
+
+
+  for (i=0; i<cfg->meta->alph_size; i++) {
+    int8_t c = i;
+    if (cfg->meta->alph_type == fm_DNA) {
+      // need 4 copies per byte
+      c |= i<<2;
+      c |= i<<4;
+      c |= i<<6;
+    } //else, just leave it on the right-most bits
+
+    cfg->fm_chars_v[i] = _mm_set1_epi8(c);
+  }
+
+  /* this is a collection of masks used to clear off the left- or right- part
+   *  of a register when we shouldn't be counting the whole thing
+   * Incrementally chew off the 1s in chunks of 2 (for DNA) or 4 (for DNA_full)
+   * from the right side, and stick each result into an element of a __m128 array
+   */
+  //if (cfg->meta->alph_type == fm_DNA)
+   trim_chunk_count = 64; //2-bit steps
+//  else //(meta->alph_type == fm_DNA_full)
+//    trim_chunk_count = 16; //8-bit steps
+
+  //chars_per_vector = 128/meta->charBits;
+  cfg->fm_masks_v         = NULL;
+  cfg->fm_reverse_masks_v = NULL;
+  ESL_ALLOC (cfg->fm_masks_mem, (1+trim_chunk_count) *sizeof(__m128)  + 15 ); // +15 for manual 16-byte alignment, which matters for SIMD stuff
+     cfg->fm_masks_v =   (__m128i *) (((unsigned long int)(cfg->fm_masks_mem) + 15) & (~0xf));   /* align vector memory on 16-byte boundaries */
+
+  ESL_ALLOC (cfg->fm_reverse_masks_mem, (1+trim_chunk_count) *sizeof(__m128)  + 15 ); // +15 for manual 16-byte alignment, which matters for SIMD stuff
+     cfg->fm_reverse_masks_v =   (__m128i *) (((unsigned long int)(cfg->fm_reverse_masks_mem) + 15) & (~0xf));   /* align vector memory on 16-byte boundaries */
+
+  {
+    byte_m128 arr;
+    arr.m128 = cfg->fm_allones_v;
+
+    for (i=trim_chunk_count-1; i>0; i--) {
+      int byte_mask=0xff; //11 11 11 11
+      int byte_i = (i-1)/(trim_chunk_count/16);
+      if (cfg->meta->alph_type == fm_DNA) {
+        switch (i&0x03) {
+          case 1:
+            byte_mask = 0xc0; //11 00 00 00
+            break;
+          case 2:
+            byte_mask = 0xf0; //11 11 00 00
+            break;
+          case 3:
+            byte_mask = 0xfc; //11 11 11 00
+            break;
+          default:
+            break;
+        }
+      }
+
+      arr.bytes[byte_i] = byte_mask; //chew off the appropriate number of bits
+      for (j=byte_i+1; j<16; j++) {
+        arr.bytes[j] = 0x0;
+      }
+      cfg->fm_masks_v[i]                           = *(__m128i*)(&(arr.m128));
+      cfg->fm_reverse_masks_v[trim_chunk_count-i]  = _mm_andnot_si128(cfg->fm_masks_v[i], cfg->fm_allones_v );
+
+    }
+  }
+#endif //#if   defined (p7_IMPL_SSE)
+
+/*
+  if (cfg->meta->alph_type == fm_DNA_full) {
+    cfg->fm_masks_v[16]          = cfg->fm_allones_v;
+    cfg->fm_reverse_masks_v[16]  = cfg->fm_allones_v;
+  }
+*/
+  return eslOK;
+
+ERROR:
+#if   defined (p7_IMPL_SSE)
+  if (cfg->fm_chars_mem)         free(cfg->fm_chars_mem);
+  if (cfg->fm_masks_mem)         free(cfg->fm_masks_mem);
+  if (cfg->fm_reverse_masks_mem) free(cfg->fm_reverse_masks_mem);
+#endif
+
+  esl_fatal("Error allocating memory in initGlobals\n");
+  return eslFAIL;
+}
+
+
+
+/* Function:  fm_getOccCount()
+ * Synopsis:  Compute number of occurrences of c in BWT[1..pos]
+ *
+ * Purpose:   Scan through the BWT to compute number of occurrence of c in BWT[0..pos],
+ *            using SSE to scan 16 bytes-at-a-time.
+ *
+ *            First, use checkpointed occurrence counts in the arrays occCnts_sb and occCnts_b.
+ *            The checkpoint used is the one closest to pos, possibly requiring that counts be
+ *            subtracted from the checkpointed total
+ *
+ *            The counting method is SIMD, loading 16 bytes (32 or 64 chars, depending on
+ *            alphabet) at a time into the vector co-processors, then counting occurrences. One
+ *            constraint of this approach is that occCnts_b checkpoints must be spaced at least
+ *            every 32 or 64 chars (16 bytes, in pressed format), and in multiples of 64/32, so
+ *            that _mm_load_si128 calls appropriately meet 16-byte-alignment requirements. That's
+ *            a reasonable expectation, as spacings of 256 or more seem to give the best speed,
+ *            and certainly better space-utilization.
+ */
+int
+fm_getOccCount (const FM_DATA *fm, const FM_CFG *cfg, int pos, uint8_t c) {
+
+  int i;
+  FM_METADATA *meta = cfg->meta;
+
+  int cnt;
+  const int b_pos          = (pos+1) / meta->freq_cnt_b ; //floor(pos/b_size)   : the b count element preceding pos
+  const uint16_t * occCnts_b  = fm->occCnts_b;
+  const uint32_t * occCnts_sb = fm->occCnts_sb;
+  const int sb_pos         = (pos+1) / meta->freq_cnt_sb; //floor(pos/sb_size) : the sb count element preceding pos
+
+
+  const int cnt_mod_mask_b = meta->freq_cnt_b - 1; //used to compute the mod function
+  const int b_rel_pos      = (pos+1) & cnt_mod_mask_b; // pos % b_size      : how close is pos to the boundary corresponding to b_pos
+  int up_b           = 2*b_rel_pos/meta->freq_cnt_b; //1 if pos is expected to be closer to the boundary of b_pos+1, 0 otherwise
+  int landmark       = ((b_pos+up_b)*meta->freq_cnt_b) - 1 ;
+
+  if (landmark >= fm->N) { // special case: for a count in the final block, just count from the bottom
+    up_b      = 0;
+    landmark  = (b_pos*(meta->freq_cnt_b)) - 1 ;
+  }
+
+#if   defined (p7_IMPL_SSE)
+
+
+  // get the cnt stored at the nearest checkpoint
+  cnt =  FM_OCC_CNT(sb, sb_pos, c );
+
+  if (up_b)
+    cnt += FM_OCC_CNT(b, b_pos + 1, c ) ;
+  else if ( b_pos !=  sb_pos * (meta->freq_cnt_sb / meta->freq_cnt_b) )
+    cnt += FM_OCC_CNT(b, b_pos, c )  ;// b_pos has cumulative counts since the prior sb_pos - if sb_pos references the same count as b_pos, it'll doublecount
+
+  if ( landmark < fm->N || landmark == -1 ) {
+
+    const uint8_t * BWT = fm->BWT;
+
+
+    register __m128i c_v = *(cfg->fm_chars_v + c);
+    register __m128i BWT_v;
+    register __m128i tmp_v;
+    register __m128i tmp2_v;
+    register __m128i counts_v = cfg->fm_neg128_v; // set to -128, offset to allow each 8-bit int to hold up to 255.
+                         // so effectively, can guarantee holding 128*16 = 2048.
+                         // Since I count from left or right, whichever is closer, this means
+                         // we can support an occ_b interval of up to 4096 with guarantee of
+                         // correctness.
+    if (meta->alph_type == fm_DNA ) {
+
+      if (!up_b) { // count forward, adding
+        for (i=1+floor(landmark/4.0) ; i+15<( (pos+1)/4);  i+=16) { // keep running until i begins a run that shouldn't all be counted
+          BWT_v    = *(__m128i*)(BWT+i);
+          FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+          FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v);
+        }
+
+        int remaining_cnt = pos + 1 -  i*4 ;
+        if (remaining_cnt > 0) {
+          BWT_v    = *(__m128i*)(BWT+i);
+                    FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+                    tmp_v    = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + remaining_cnt)); // leaves only the remaining_cnt chars in the array
+                    FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v);
+        }
+
+      } else { // count backwards, subtracting
+        for (i=(landmark/4)-15 ; i>(pos/4);  i-=16) {
+          BWT_v = *(__m128i*)(BWT+i);
+                    FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+                    FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v);
+        }
+
+        int remaining_cnt = 64 - (pos + 1 - i*4);
+        if (remaining_cnt > 0) {
+          BWT_v = *(__m128i*)(BWT+i);
+                    FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+                    tmp_v    = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt)); // leaves only the remaining_cnt chars in the array
+                    FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v);
+        }
+      }
+/*
+    } else if ( meta->alph_type == fm_DNA_full ) {
+
+      if (!up_b) { // count forward, adding
+        for (i=1+floor(landmark/2.0) ; i+15<( (pos+1)/2);  i+=16) { // keep running until i begins a run that shouldn't all be counted
+          BWT_v    = *(__m128i*)(BWT+i);
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v);
+        }
+        int remaining_cnt = pos + 1 -  i*2 ;
+        if (remaining_cnt > 0) {
+          BWT_v    = *(__m128i*)(BWT+i);
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          tmp_v     = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + (remaining_cnt+1)/2)); // mask characters we don't want to count
+          tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_masks_v + remaining_cnt/2));
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v);
+        }
+
+      } else { // count backwards, subtracting
+        for (i=(landmark/2)-15 ; i>(pos/2);  i-=16) {
+          BWT_v = *(__m128i*)(BWT+i);
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v);
+        }
+
+        int remaining_cnt = 32 - (pos + 1 - i*2);
+        if (remaining_cnt > 0) {
+          BWT_v = *(__m128i*)(BWT+i);
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          tmp_v     = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt/2)); // mask characters we don't want to count
+          tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_reverse_masks_v + (remaining_cnt+1)/2));
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v);
+        }
+      }
+*/
+    } else { //amino
+
+      if (!up_b) { // count forward, adding
+        for (i=1+landmark ; i+15<(pos+1);  i+=16) { // keep running until i begins a run that shouldn't all be counted
+          BWT_v    = *(__m128i*)(BWT+i);
+          BWT_v    = _mm_cmpeq_epi8(BWT_v, c_v);  // each byte is all 1s if matching, all zeros otherwise
+          counts_v = _mm_subs_epi8(counts_v, BWT_v); // adds 1 for each matching byte  (subtracting negative 1)
+        }
+        int remaining_cnt = pos + 1 -  i ;
+        if (remaining_cnt > 0) {
+          BWT_v    = *(__m128i*)(BWT+i);
+          BWT_v    = _mm_cmpeq_epi8(BWT_v, c_v);
+          BWT_v    = _mm_and_si128(BWT_v, *(cfg->fm_masks_v + remaining_cnt));// mask characters we don't want to count
+          counts_v = _mm_subs_epi8(counts_v, BWT_v);
+        }
+      } else { // count backwards, subtracting
+
+        for (i=landmark-15 ; i>pos;  i-=16) {
+          BWT_v = *(__m128i*)(BWT+i);
+          BWT_v    = _mm_cmpeq_epi8(BWT_v, c_v);  // each byte is all 1s if matching, all zeros otherwise
+          counts_v = _mm_subs_epi8(counts_v, BWT_v); // adds 1 for each matching byte  (subtracting negative 1)
+        }
+        int remaining_cnt = 16 - (pos + 1 - i);
+        if (remaining_cnt > 0) {
+          BWT_v = *(__m128i*)(BWT+i);
+          BWT_v    = _mm_cmpeq_epi8(BWT_v, c_v);
+          BWT_v     = _mm_and_si128(BWT_v, *(cfg->fm_reverse_masks_v + remaining_cnt));// mask characters we don't want to count
+          //tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_reverse_masks_v + (remaining_cnt+1)/2));
+          counts_v = _mm_subs_epi8(counts_v, BWT_v);
+        }
+      }
+    }
+
+    counts_v = _mm_xor_si128(counts_v, cfg->fm_neg128_v); //counts are stored in signed bytes, base -128. Move them to unsigned bytes
+    FM_GATHER_8BIT_COUNTS(counts_v,counts_v,counts_v);
+
+    cnt  +=   ( up_b == 1 ?  -1 : 1) * ( _mm_extract_epi16(counts_v, 0) );
+  }
+
+  if (c==0 && pos >= fm->term_loc) { // I overcounted 'A' by one, because '$' was replaced with an 'A'
+    cnt--;
+  }
+
+#endif //#if   defined (p7_IMPL_SSE)
+
+
+  return cnt ;
+
+}
+
+
+
+/* Function:  fm_getOccCountLT()
+ * Synopsis:  Compute number of occurrences of characters with value <c in BWT[1..pos]
+ *
+ * Purpose:   Scan through the BWT to compute number of occurrences of characters with value <c
+ *            in BWT[0..pos], using SSE to scan 16 bytes-at-a-time.
+ *
+ *            First, use checkpointed occurrence counts in the arrays occCnts_sb and occCnts_b.
+ *            The checkpoint used is the one closest to pos, possibly requiring that counts be
+ *            subtracted from the checkpointed total
+ *
+ *            The counting method is SIMD, loading 16 bytes (32 or 64 chars, depending on
+ *            alphabet) at a time into the vector co-processors, then counting occurrences. One
+ *            constraint of this approach is that occCnts_b checkpoints must be spaced at least
+ *            every 32 or 64 chars (16 bytes, in pressed format), and in multiples of 64/32, so
+ *            that _mm_load_si128 calls appropriately meet 16-byte-alignment requirements. That's
+ *            a reasonable expectation, as spacings of 256 or more seem to give the best speed,
+ *            and certainly better space-utilization.
+ *
+ */
+int
+fm_getOccCountLT (const FM_DATA *fm, const FM_CFG *cfg, int pos, uint8_t c, uint32_t *cnteq, uint32_t *cntlt) {
+
+  FM_METADATA *meta = cfg->meta;
+
+  int i,j;
+  const uint16_t * occCnts_b  = fm->occCnts_b;
+  const uint32_t * occCnts_sb = fm->occCnts_sb;
+  const int b_pos          = (pos+1) / meta->freq_cnt_b; //floor(pos/b_size)   : the b count element preceding pos
+  const int sb_pos         = (pos+1) / meta->freq_cnt_sb; //floor(pos/sb_size) : the sb count element preceding pos
+
+  const int b_rel_pos      = (pos+1) % meta->freq_cnt_b; //  how close is pos to the boundary corresponding to b_pos
+  int up_b                 = 2*b_rel_pos/meta->freq_cnt_b; //1 if pos is expected to be closer to the boundary of b_pos+1, 0 otherwise
+  int landmark             = ((b_pos+up_b)*(meta->freq_cnt_b)) - 1 ;
+
+
+  if (landmark >= fm->N) { // special case: for a count in the final block, just count from the bottom
+    up_b      = 0;
+    landmark  = (b_pos*(meta->freq_cnt_b)) - 1 ;
+  }
+
+  // get the cnt stored at the nearest checkpoint
+  *cntlt = 0;
+  *cnteq = FM_OCC_CNT(sb, sb_pos, c );
+  for (i=0; i<c; i++)
+    *cntlt += FM_OCC_CNT(sb, sb_pos, i );
+
+  if (up_b) {
+    *cnteq += FM_OCC_CNT(b, b_pos + 1, c ) ;
+    for (i=0; i<c; i++)
+      *cntlt += FM_OCC_CNT(b, b_pos + 1, i ) ;
+  } else if ( b_pos !=  sb_pos * (meta->freq_cnt_sb / meta->freq_cnt_b))  {
+    *cnteq += FM_OCC_CNT(b, b_pos, c )  ;// b_pos has cumulative counts since the prior sb_pos - if sb_pos references the same count as b_pos, it'll doublecount
+    for (i=0; i<c; i++)
+      *cntlt += FM_OCC_CNT(b, b_pos, i ) ;
+  }
+
+#if   defined (p7_IMPL_SSE)
+
+  if ( landmark < fm->N - 1 || landmark == -1 ) {
+
+    const uint8_t * BWT = fm->BWT;
+
+
+    register __m128i c_v = cfg->fm_zeros_v;
+    register __m128i BWT_v;
+    register __m128i tmp_v;
+    register __m128i tmp2_v;
+    register __m128i counts_v_lt = cfg->fm_neg128_v;
+    register __m128i counts_v_eq = cfg->fm_neg128_v; // set to -128, offset to allow each 8-bit int to hold up to 255.
+                         // so effectively, can guarantee holding 128*16 = 2048.
+                         // Since I count from left or right, whichever is closer, this means
+                         // we can support an occ_b interval of up to 4096 with guarantee of
+                         // correctness.
+    if (meta->alph_type == fm_DNA ) {
+
+      /* TODO: For 4-bit characters, it's easy to develop an alternative SSE function that will count
+       *       instances <c in the same time as counting matches. I haven't yet identified a similar
+       *       modification to the 2-bit counting. Instead, I just loop over the FM_MATCH_2BIT macro
+       *       for each character j<c.  The expected # of such iterations is (0+1+2+3)/4 = 1.5 ...
+       *       since much of the run time is in loading data from memory/cache, I don't expect
+       *       this to be a major problem for speed, but improving the less-than counting is still
+       *       desirable.
+       */
+
+
+      if (!up_b) { // count forward, adding
+        for (i=1+floor(landmark/4.0) ; i+15<( (pos+1)/4);  i+=16) { // keep running until i begins a run that shouldn't all be counted
+          BWT_v    = *(__m128i*)(BWT+i);
+          for (j=0; j<c; j++) {
+            c_v = *(cfg->fm_chars_v + j);
+            FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+            FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_lt);
+          }
+          c_v = *(cfg->fm_chars_v + c);
+          FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+          FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_eq);
+
+        }
+
+        int remaining_cnt = pos + 1 -  i*4 ;
+        if (remaining_cnt > 0) {
+          BWT_v    = *(__m128i*)(BWT+i);
+          for (j=0; j<c; j++) {
+            c_v = *(cfg->fm_chars_v + j);
+            FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+            tmp_v    = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + remaining_cnt)); // leaves only the remaining_cnt chars in the array
+            FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_lt);
+          }
+          c_v = *(cfg->fm_chars_v + c);
+          FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+          tmp_v    = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + remaining_cnt)); // leaves only the remaining_cnt chars in the array
+          FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_eq);
+
+        }
+
+      } else { // count backwards, subtracting
+        for (i=(landmark/4)-15 ; i>(pos/4);  i-=16) {
+          BWT_v = *(__m128i*)(BWT+i);
+          for (j=0; j<c; j++) {
+            c_v = *(cfg->fm_chars_v + j);
+            FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+            FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_lt);
+          }
+          c_v = *(cfg->fm_chars_v + c);
+          FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+          FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_eq);
+
+        }
+
+        int remaining_cnt = 64 - (pos + 1 - i*4);
+        if (remaining_cnt > 0) {
+          BWT_v = *(__m128i*)(BWT+i);
+          for (j=0; j<c; j++) {
+            c_v = *(cfg->fm_chars_v + j);
+            FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+            tmp_v    = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt)); // leaves only the remaining_cnt chars in the array
+            FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_lt);
+          }
+          c_v = *(cfg->fm_chars_v + c);
+          FM_MATCH_2BIT(BWT_v, c_v, tmp_v, tmp2_v, tmp_v);
+          tmp_v    = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt)); // leaves only the remaining_cnt chars in the array
+          FM_COUNT_2BIT(tmp_v, tmp2_v, counts_v_eq);
+        }
+      }
+/*
+    } else if ( meta->alph_type == fm_DNA_full) {
+      c_v = *(cfg->fm_chars_v + c);
+
+      if (!up_b) { // count forward, adding
+        for (i=1+floor(landmark/2.0) ; i+15<( (pos+1)/2);  i+=16) { // keep running until i begins a run that shouldn't all be counted
+          BWT_v    = *(__m128i*)(BWT+i);
+          FM_LT_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_lt);
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_eq);
+
+        }
+        int remaining_cnt = pos + 1 -  i*2 ;
+        if (remaining_cnt > 0) {
+          BWT_v    = *(__m128i*)(BWT+i);
+          FM_LT_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          tmp_v     = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + (remaining_cnt+1)/2)); // mask characters we don't want to count
+          tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_masks_v + remaining_cnt/2));
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_lt);
+
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          tmp_v     = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + (remaining_cnt+1)/2)); // mask characters we don't want to count
+          tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_masks_v + remaining_cnt/2));
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_eq);
+
+        }
+
+      } else { // count backwards, subtracting
+        for (i=(landmark/2)-15 ; i>(pos/2);  i-=16) {
+          BWT_v = *(__m128i*)(BWT+i);
+          FM_LT_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_lt);
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_eq);
+        }
+
+        int remaining_cnt = 32 - (pos + 1 - i*2);
+        if (remaining_cnt > 0) {
+          BWT_v = *(__m128i*)(BWT+i);
+          FM_LT_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          tmp_v     = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt/2)); // mask characters we don't want to count
+          tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_reverse_masks_v + (remaining_cnt+1)/2));
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_lt);
+
+          FM_MATCH_4BIT(BWT_v, c_v, tmp_v, tmp2_v);
+          tmp_v     = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt/2)); // mask characters we don't want to count
+          tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_reverse_masks_v + (remaining_cnt+1)/2));
+          FM_COUNT_4BIT(tmp_v, tmp2_v, counts_v_eq);
+
+        }
+      }
+*/
+    } else { //amino
+      if (!up_b) { // count forward, adding
+        for (i=1+landmark ; i+15<(pos+1);  i+=16) { // keep running until i begins a run that shouldn't all be counted
+          BWT_v       = *(__m128i*)(BWT+i);
+          tmp_v       = _mm_cmplt_epi8(BWT_v, c_v);  // each byte is all 1s if leq, all zeros otherwise
+          counts_v_lt = _mm_subs_epi8(counts_v_lt, tmp_v); // adds 1 for each matching byte  (subtracting negative 1)
+          BWT_v       = _mm_cmpeq_epi8(BWT_v, c_v);  // each byte is all 1s if eq, all zeros otherwise
+          counts_v_eq = _mm_subs_epi8(counts_v_eq, BWT_v);
+        }
+        int remaining_cnt = pos + 1 -  i ;
+        if (remaining_cnt > 0) {
+          BWT_v       = *(__m128i*)(BWT+i);
+          tmp_v       = _mm_cmplt_epi8(BWT_v, c_v);  // each byte is all 1s if leq, all zeros otherwise
+          tmp_v       = _mm_and_si128(tmp_v, *(cfg->fm_masks_v + remaining_cnt/4));
+          counts_v_lt = _mm_subs_epi8(counts_v_lt, tmp_v); // adds 1 for each matching byte  (subtracting negative 1)
+
+          BWT_v       = _mm_cmpeq_epi8(BWT_v, c_v);
+          BWT_v       = _mm_and_si128(BWT_v, *(cfg->fm_masks_v + remaining_cnt/4));// mask characters we don't want to count
+          counts_v_eq = _mm_subs_epi8(counts_v_eq, BWT_v);
+        }
+
+      } else { // count backwards, subtracting
+        for (i=landmark-15 ; i>pos;  i-=16) {
+          BWT_v = *(__m128i*)(BWT+i);
+          tmp_v       = _mm_cmplt_epi8(BWT_v, c_v);  // each byte is all 1s if leq, all zeros otherwise
+          counts_v_lt = _mm_subs_epi8(counts_v_lt, tmp_v); // adds 1 for each matching byte  (subtracting negative 1)
+          BWT_v       = _mm_cmpeq_epi8(BWT_v, c_v);  // each byte is all 1s if eq, all zeros otherwise
+          counts_v_eq = _mm_subs_epi8(counts_v_eq, BWT_v);
+        }
+
+        int remaining_cnt = 16 - (pos + 1 - i);
+        if (remaining_cnt > 0) {
+          BWT_v = *(__m128i*)(BWT+i);
+          tmp_v       = _mm_cmplt_epi8(BWT_v, c_v);  // each byte is all 1s if leq, all zeros otherwise
+          tmp_v       = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt/4));
+          counts_v_lt = _mm_subs_epi8(counts_v_lt, tmp_v); // adds 1 for each matching byte  (subtracting negative 1)
+
+          BWT_v       = _mm_cmpeq_epi8(BWT_v, c_v);
+          BWT_v       = _mm_and_si128(tmp_v, *(cfg->fm_reverse_masks_v + remaining_cnt/4));// mask characters we don't want to count
+          //tmp2_v    = _mm_and_si128(tmp2_v, *(cfg->fm_reverse_masks_v + (remaining_cnt+1)/2));
+          counts_v_eq = _mm_subs_epi8(counts_v_eq, BWT_v);
+        }
+      }
+
+    }
+
+    if (c>0) {
+      counts_v_lt = _mm_xor_si128(counts_v_lt, cfg->fm_neg128_v); //counts are stored in signed bytes, base -128. Move them to unsigned bytes
+      FM_GATHER_8BIT_COUNTS(counts_v_lt,counts_v_lt,counts_v_lt);
+      (*cntlt)  +=   ( up_b == 1 ?  -1 : 1) * ( _mm_extract_epi16(counts_v_lt, 0) );
+    }
+
+    counts_v_eq = _mm_xor_si128(counts_v_eq, cfg->fm_neg128_v);
+    FM_GATHER_8BIT_COUNTS(counts_v_eq,counts_v_eq,counts_v_eq);
+    (*cnteq)  +=   ( up_b == 1 ?  -1 : 1) * ( _mm_extract_epi16(counts_v_eq, 0) );
+  }
+
+
+  if ( pos >= fm->term_loc) {
+    if (c == 0) { // deal with the fact that '$' was replaced with an 'A'
+      (*cnteq)--; // I overcounted 'A' by one
+      (*cntlt) = 1; // '$' is lexicographically lower than 'A', but I didn't count it in the method above
+    }
+  }
+
+#endif //#if   defined (p7_IMPL_SSE)
+
+  return eslOK ;
+
+}
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_ssv.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_ssv.c
new file mode 100755
index 0000000..85e3e45
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/fm_ssv.c
@@ -0,0 +1,838 @@
+#include "p7_config.h"
+
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+
+#include "hmmer.h"
+
+
+/* hit_sorter(): qsort's pawn, below */
+static int
+FM_hit_sorter(const void *a, const void *b)
+{
+//    return 2 * (((FM_DIAG*)a)->sortkey > ((FM_DIAG*)b)->sortkey) - 1;  // same as the test below
+    if      ( ((FM_DIAG*)a)->sortkey > ((FM_DIAG*)b)->sortkey) return 1;
+    else                                 return -1;
+}
+
+
+
+/* Function:  FM_mergeSeeds()
+ *
+ * Synopsis:  Given collection of seeds, sort and merge overlapping ones
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+FM_mergeSeeds(FM_DIAGLIST *seeds, int N, int ssv_length) {
+  int i;
+  int j = 0;
+
+  FM_DIAG next;
+  int tmp;
+  int next_is_complement;
+  int curr_is_complement;
+  int curr_n;
+  int curr_k;
+  int curr_len;
+  int curr_end;
+  int curr_diagval;
+
+  FM_DIAG *diags = seeds->diags;
+
+
+  if (seeds->count == 0)
+    return eslOK;
+
+  //sort, first by direction, then N (position on database sequence), then K (model position)
+  qsort(diags, seeds->count, sizeof(FM_DIAG), FM_hit_sorter);
+
+  next = diags[0];
+
+  curr_is_complement = (next.complementarity == p7_COMPLEMENT);
+  curr_n             = next.n;
+  curr_k             = next.k;
+  curr_len           = next.length;
+  curr_end           = curr_n + curr_len - 1;
+  curr_diagval       = next.n - next.k;
+
+  for( i=1; i<seeds->count; i++) {
+
+    next = diags[i];
+    next_is_complement = (next.complementarity == p7_COMPLEMENT);
+
+    if (  next_is_complement == curr_is_complement              //same direction
+          && ( next.n - next.k) == curr_diagval                 //overlapping diagonals will share the same value of (n - k)
+          && next.n + next.length < curr_n + curr_len + ssv_length       //overlapping, or close to it
+    ) {
+
+
+      //overlapping diags; extend, if appropriate
+        tmp = next.n + next.length - 1;
+        if (tmp > curr_end) {
+          curr_end = tmp;
+          curr_len = curr_end - curr_n + 1;
+        }
+    } else {
+      //doesn't overlap current diagonal, so store current...
+      diags[j].n      = curr_n;
+      diags[j].k      = curr_k;
+      diags[j].length = curr_end - curr_n + 1;
+      diags[j].complementarity = curr_is_complement;
+      diags[j].score = 0.0;
+
+      // ... then start up a new one
+      curr_n   = next.n;
+      curr_k   = next.k;
+      curr_len = next.length;
+      curr_end = curr_n + curr_len - 1;
+      curr_diagval = next.n - next.k;
+      curr_is_complement = next_is_complement;
+
+      j++;
+    }
+  }
+  // store final entry
+  diags[j].n      = curr_n;
+  diags[j].k      = curr_k;
+  diags[j].length = curr_end - curr_n + 1;
+  diags[j].score  = 0.0;
+  diags[j].complementarity = curr_is_complement;
+
+  seeds->count = j+1;
+
+  return eslOK;
+
+}
+
+
+ /* Function:  FM_backtrackSeed()
+  *
+  * Synopsis:  Find position(s) in the FM index for a diagonal that meets score threshold
+  *
+  * Details:   Follows the BWT/FM-index until finding an entry of the implicit
+  *            suffix array that is found in the sampled SA.
+
+  *
+  * Args:      fmf             - FM index for finding matches to the input sequence
+  *            fm_cfg          - FM-index meta data
+  *            i               - Single position in the BWT
+  *
+  * Returns:   <eslOK> on success.
+  */
+static uint32_t
+FM_backtrackSeed(const FM_DATA *fmf, const FM_CFG *fm_cfg, int i) {
+  int j = i;
+  int len = 0;
+  int c;
+
+  while ( j != fmf->term_loc && (j % fm_cfg->meta->freq_SA)) { //go until we hit a position in the full SA that was sampled during FM index construction
+    c = fm_getChar( fm_cfg->meta->alph_type, j, fmf->BWT);
+    j = fm_getOccCount (fmf, fm_cfg, j-1, c);
+    j += abs(fmf->C[c]);
+    len++;
+  }
+
+  return len + (j==fmf->term_loc ? 0 : fmf->SA[ j / fm_cfg->meta->freq_SA ]) ; // len is how many backward steps we had to take to find a sampled SA position
+}
+
+/* Function:  FM_getPassingDiags()
+ *
+ * Synopsis:  Find position(s) in the FM index for a seed that meets score threshold, keep list
+ *
+ * Details:   This step determines the location of each instance of the seed
+ *            and creates a diagonal for that instance
+ *
+ * Args:      fmf             - FM index for finding matches to the input sequence
+ *            fmb             - FM index for finding matches to the reverse of the input sequence
+ *            fm_cfg          - FM-index meta data
+ *            k               - Position of the diagonal in the model
+ *            M               - Length of the model
+ *            depth           - Length of the diagonal
+ *            fm_direction    - which FM is in use for this diag
+ *            model_direction - forward or reverse path over the model
+ *            complementarity - top or bottom strand
+ *            interval        - FM-index interval
+ *            seeds           - RETURN: collection of threshold-passing windows
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+FM_getPassingDiags(const FM_DATA *fmf, const FM_CFG *fm_cfg,
+            int k, int M, float sc, int depth, int fm_direction,
+            int model_direction, int complementarity,
+            FM_INTERVAL *interval,
+            FM_DIAGLIST *seeds
+            )
+{
+  int i;
+  FM_DIAG *seed;
+
+  //iterate over the forward interval, for each entry backtrack until hitting a sampled suffix array entry
+  for (i = interval->lower;  i<= interval->upper; i++) {
+
+    seed = fm_newSeed(seeds);
+    seed->k      = k;
+    seed->length = depth;
+
+    if (complementarity == p7_NOCOMPLEMENT )
+      seed->n    =  fmf->N - FM_backtrackSeed(fmf, fm_cfg, i) - depth - 1;
+    else
+      seed->n    =  FM_backtrackSeed(fmf, fm_cfg, i) ;
+
+    seed->complementarity = complementarity;
+
+    /* seed->n corresponds to the start of the seed in terms of the
+     * target sequence, in a forward direction.  seed->k holds the
+     * model position at the beginning of that seed.  If model_direction
+     * is fm_reverse, the ->n value is from the beginning of the revcomp,
+     */
+    if (model_direction == fm_forward)
+      seed->k -= (depth - 1) ;
+
+
+    seed->sortkey =  (int)( complementarity == p7_COMPLEMENT ? fmf->N + 1 : 0)   // makes complement seeds cover a different score range than non-complements
+                    +  ((int)(seed->n) - (int)(seed->k) )                        // unique diagonal within the complement/non-complement score range
+                    + ((double)(seed->k)/(double)(M+1))  ;                       // fractional part, used to sort seeds sharing a diagonal
+
+
+  }
+
+  return eslOK;
+}
+
+/* Function:  FM_Recurse()
+ *
+ * Synopsis:  Recursively traverse/prune a string trie, testing all strings vs the model
+ *
+ * Details:   This is the heart of the FM SSV method. Given a path P on the
+ *            trie, we keep track of a compact list of all not-yet-pruned
+ *            diagonals in the DP table of the string S corresponding to
+ *            P against the model. The preserved diagonals might be for
+ *            either a forward or backwards pass over the model and a pass
+ *            over either the top or bottom (reverse complemented) strand
+ *            of the target sequences.
+ *
+ * Args:      depth       - how long is the current path
+ *            Kp          - alphabet size (including ambiguity)
+ *            fmf         - FM index for finding matches to the input sequence
+ *            fmb         - FM index for finding matches to the reverse of the input sequence
+ *            fm_cfg      - FM-index meta data
+ *            ssvdata     - compact data required for computing SSV scores
+ *            sc_threshFM - Score that a short diagonal must pass to warrant extension to a full diagonal
+ *            dp_pairs    - Compact representation of the surviving diagonals in the DP table
+ *            first       - The index of the first entry in dp_pairs for the current column of the DP table
+ *            last        - The index of the last entry in dp_pairs for the current column of the DP table
+ *            interval_1  - FM-index interval - used for the standard backwards pass along the BWT (fmf)
+ *            interval_2  - FM-index interval - used for the forward pass along the BWT (fmb)
+ *            seeds       - RETURN: collection of threshold-passing windows
+ *            seq         - preallocated char* used to capture and print the string for the current path - for debugging only
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+FM_Recurse( int depth, int Kp, int fm_direction,
+            const FM_DATA *fmf, const FM_DATA *fmb,
+            const FM_CFG *fm_cfg,
+            const P7_SCOREDATA *ssvdata, uint8_t *consensus,
+            float sc_threshFM,
+            FM_DP_PAIR *dp_pairs, int first, int last,
+            FM_INTERVAL *interval_1, FM_INTERVAL *interval_2,
+            FM_DIAGLIST *seeds
+            , char *seq
+          )
+{
+
+
+  float sc, next_score;
+
+  int c, i, k;
+  FM_INTERVAL interval_1_new, interval_2_new;
+  uint8_t positive_run = 0;
+  uint8_t consec_consensus = 0;
+
+  for (c=0; c< fm_cfg->meta->alph_size; c++) {//acgt
+    int dppos = last;
+    seq[depth-1] = fm_cfg->meta->alph[c];
+    seq[depth] = '\0';
+
+    for (i=first; i<=last; i++) { // for each surviving diagonal from the previous round
+
+        if (dp_pairs[i].model_direction == fm_forward)
+          k = dp_pairs[i].pos + 1;
+        else  //fm_backward
+          k = dp_pairs[i].pos - 1;
+
+        if (dp_pairs[i].complementarity == p7_COMPLEMENT) {
+          next_score = ssvdata->ssv_scores_f[k*Kp + fm_cfg->meta->compl_alph[c]];
+        } else {
+          next_score = ssvdata->ssv_scores_f[k*Kp + c];
+        }
+
+        sc = dp_pairs[i].score + next_score;
+        positive_run =  (next_score > 0 ? dp_pairs[i].consec_pos + 1 : 0);
+        consec_consensus = (c == consensus[k] ? dp_pairs[i].consec_consensus+1 : 0);
+
+        if ( sc >= sc_threshFM
+            || (fm_cfg->consensus_match_req > 0 && consec_consensus == fm_cfg->consensus_match_req)
+            ) { // this is a seed I want to extend
+
+          interval_1_new.lower = interval_1->lower;
+          interval_1_new.upper = interval_1->upper;
+
+          if (fm_direction == fm_forward) {
+            if ( interval_1_new.lower >= 0 && interval_1_new.lower <= interval_1_new.upper  )  //no use extending a non-existent string
+            fm_updateIntervalReverse( fmf, fm_cfg, c, &interval_1_new);
+
+            if ( interval_1_new.lower >= 0 && interval_1_new.lower <= interval_1_new.upper  ) {  //no use passing a non-existent string
+              FM_getPassingDiags(fmf, fm_cfg, k, ssvdata->M, sc, depth, fm_forward,
+                                 dp_pairs[i].model_direction, dp_pairs[i].complementarity,
+                                 &interval_1_new, seeds);
+            }
+          } else { // fm_direction == fm_reverse
+            //searching for forward matches on the FM-index
+            interval_2_new.lower = interval_2->lower;
+            interval_2_new.upper = interval_2->upper;
+
+            //searching for reverse matches on the FM-index
+            if ( interval_1_new.lower >= 0 && interval_1_new.lower <= interval_1_new.upper  )  //no use extending a non-existent string
+              fm_updateIntervalForward( fmb, fm_cfg, c, &interval_1_new, &interval_2_new);
+
+            if ( interval_2_new.lower >= 0 && interval_2_new.lower <= interval_2_new.upper  ) { //no use passing a non-existent string
+              FM_getPassingDiags(fmf, fm_cfg, k, ssvdata->M, sc, depth, fm_backward,
+                                 dp_pairs[i].model_direction, dp_pairs[i].complementarity,
+                                 &interval_2_new, seeds);
+            }
+          }
+
+        } else if (  sc <= 0                                                                                         //some other path in the string enumeration tree will do the job
+            || depth == fm_cfg->max_depth                                                                            //can't extend anymore, 'cause we've reached the pruning length
+            || ( dp_pairs[i].model_direction == fm_forward  && k == ssvdata->M)                                     //can't extend anymore, 'cause we're at the end of the model, going forward
+            || ( dp_pairs[i].model_direction == fm_backward && k == 1 )                                             //can't extend anymore, 'cause we're at the beginning of the model, going backwards
+            || (depth == dp_pairs[i].score_peak_len + fm_cfg->drop_max_len)                                        //too many consecutive positions with a negative total score contribution (sort of like Xdrop)
+            || (depth > 4 && depth > consec_consensus && (float)sc/(float)depth < fm_cfg->score_density_req)       //score density is too low (don't bother checking in the first couple slots
+            || (depth >= 0.7*fm_cfg->max_depth && depth > consec_consensus &&  (float)sc/(float)depth < sc_threshFM/(float)(fm_cfg->max_depth))                      // if we're most of the way across the sequence, and score density is too low, abort -- if the density on the other side is high enough, I'll find it on the reverse sweep
+            || (dp_pairs[i].max_consec_pos < fm_cfg->consec_pos_req  &&                                               //a seed is expected to have at least one run of positive-scoring matches at least length consec_pos_req;  if it hasn't,  (see Tue Nov 23 09:39:54 EST 2010)
+                (fm_cfg->consec_pos_req - positive_run) ==  (fm_cfg->max_depth - depth + 1)                 // if we're close to the end of the sequence, abort -- if that end does have sufficiently long all-positive run, I'll find it on the reverse sweep
+               )
+            || (dp_pairs[i].model_direction == fm_forward  &&
+                   ( (depth > (fm_cfg->max_depth - 10)) &&  sc + ssvdata->opt_ext_fwd[k][fm_cfg->max_depth-depth-1] < sc_threshFM)   //can't hit threshold, even with best possible forward extension up to length ssv_req
+                  )
+            || (dp_pairs[i].model_direction == fm_backward &&
+                   ( (depth > (fm_cfg->max_depth - 10)) &&  sc + ssvdata->opt_ext_rev[k-1][fm_cfg->max_depth-depth-1] < sc_threshFM )  //can't hit threshold, even with best possible extension up to length ssv_req
+                  )
+
+         )
+        {
+
+          //do nothing - it's been pruned
+
+        } else { // it's possible to extend this diagonal and reach the threshold score
+
+            dppos++;
+
+            dp_pairs[dppos].pos = k;
+            dp_pairs[dppos].score = sc;
+            dp_pairs[dppos].model_direction   = dp_pairs[i].model_direction;
+            dp_pairs[dppos].complementarity   = dp_pairs[i].complementarity;
+
+            if (sc > dp_pairs[i].max_score) {
+              dp_pairs[dppos].max_score = sc;
+              dp_pairs[dppos].score_peak_len = depth;
+            } else {
+              dp_pairs[dppos].max_score = dp_pairs[i].max_score;
+              if (sc >= dp_pairs[i].max_score - fm_cfg->drop_lim)
+                dp_pairs[dppos].score_peak_len = depth; // close enough to call it a new peak
+              else
+                dp_pairs[dppos].score_peak_len = dp_pairs[i].score_peak_len;
+            }
+
+            dp_pairs[dppos].consec_pos =  positive_run;
+            dp_pairs[dppos].max_consec_pos = ESL_MAX( positive_run, dp_pairs[i].max_consec_pos);
+            dp_pairs[dppos].consec_consensus = consec_consensus;
+        }
+    }
+
+    if ( dppos > last ){  // at least one diagonal that might reach threshold score, but hasn't yet, so extend
+
+      interval_1_new.lower = interval_1->lower;
+      interval_1_new.upper = interval_1->upper;
+
+      if (fm_direction == fm_forward) {
+
+        if ( interval_1_new.lower >= 0 && interval_1_new.lower <= interval_1_new.upper  )  //no use extending a non-existent string
+          fm_updateIntervalReverse( fmf, fm_cfg, c, &interval_1_new);
+
+        if (  interval_1_new.lower < 0 || interval_1_new.lower > interval_1_new.upper ) { //that string doesn't exist in fwd index
+          continue;
+        }
+        FM_Recurse(depth+1, Kp, fm_direction,
+                  fmf, fmb, fm_cfg, ssvdata, consensus,
+                  sc_threshFM, dp_pairs, last+1, dppos,
+                  &interval_1_new, NULL,
+                  seeds
+                  , seq
+                  );
+
+
+      } else { // fm_direction == fm_reverse
+
+        interval_2_new.lower = interval_2->lower;
+        interval_2_new.upper = interval_2->upper;
+
+        if ( interval_1_new.lower >= 0 && interval_1_new.lower <= interval_1_new.upper  )  //no use extending a non-existent string
+          fm_updateIntervalForward( fmb, fm_cfg, c, &interval_1_new, &interval_2_new);
+
+
+        if (  interval_1_new.lower < 0 || interval_1_new.lower > interval_1_new.upper ) { //that string doesn't exist in reverse index
+          continue;
+        }
+        FM_Recurse(depth+1, Kp, fm_direction,
+                  fmf, fmb, fm_cfg, ssvdata, consensus,
+                  sc_threshFM, dp_pairs, last+1, dppos,
+                  &interval_1_new, &interval_2_new,
+                  seeds
+                  , seq
+                  );
+
+      }
+
+    }
+
+  }
+
+  return eslOK;
+}
+
+/* Function:  FM_getSeeds()
+ *
+ * Synopsis:  Find short diagonal seeds with score above a modest threshold.
+ *
+ * Details:   Given FM configuration <fm_cfg>, model scoring data <ssvdata>,
+ *            both forward and backward FM indexes (<fmf>, <fmb>), and
+ *            a score threshold <sc_threshFM>, find all seeds in the FMs
+ *            that meet the threshold, and place them in the container
+ *            <seeds>.
+ *
+ *            This involves building diagonals in both forward and reverse
+ *            orientation relative to the model, because the pruning method
+ *            includes a score density calculation - sometimes that density
+ *            is only found on one end of the hit. This function merely
+ *            kickstarts the task of traversing over a trie of all strings
+ *            up to some fixed length looking for threshold-passing
+ *            diagonals - FM_Recurse() does the hard work.
+ *
+ * Args:      fmf         - FM index for finding matches to the input sequence
+ *            fmb         - FM index for finding matches to the reverse of the input sequence
+ *            fm_cfg      - FM-index meta data
+ *            ssvdata     - compact data required for computing SSV scores
+ *            Kp          - Alphabet size (including ambiguity chars)
+ *            sc_threshFM - Score that a short diagonal must pass to warrant extension to a full diagonal
+ *            strands     - p7_STRAND_TOPONLY  | p7_STRAND_BOTTOMONLY |  p7_STRAND_BOTH
+ *            seeds       - RETURN: collection of threshold-passing windows
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int FM_getSeeds ( const FM_DATA *fmf, const FM_DATA *fmb,
+                         const FM_CFG *fm_cfg, const P7_SCOREDATA *ssvdata,
+                         uint8_t  *consensus, int Kp, float sc_threshFM,
+                         int strands, FM_DIAGLIST *seeds
+                 )
+{
+  FM_INTERVAL interval_f1, interval_f2, interval_bk;
+  int i, k;
+  int status;
+  float sc;
+  char         *seq;
+
+  FM_DP_PAIR *dp_pairs_fwd;
+  FM_DP_PAIR *dp_pairs_rev;
+
+  ESL_ALLOC(dp_pairs_fwd, ssvdata->M * fm_cfg->max_depth * sizeof(FM_DP_PAIR)); // guaranteed to be enough to hold all diagonals
+  ESL_ALLOC(dp_pairs_rev, ssvdata->M * fm_cfg->max_depth * sizeof(FM_DP_PAIR));
+
+  ESL_ALLOC(seq, 50*sizeof(char));
+
+  for (i=0; i<fm_cfg->meta->alph_size; i++) {
+    int fwd_cnt=0;
+    int rev_cnt=0;
+    interval_f1.lower = interval_f2.lower = interval_bk.lower = fmf->C[i];
+    interval_f1.upper = interval_f2.upper = interval_bk.upper = abs(fmf->C[i+1])-1;
+
+    if (interval_f1.lower<0 ) //none of that character found
+      continue;
+
+    // This is here for debugging purposes only. Feel free to comment out.
+    seq[0] = fm_cfg->meta->alph[i];
+    seq[1] = '\0';
+
+    // Fill in a DP column for the character c, (compressed so that only positive-scoring entries are kept)
+    // There will be 4 DP columns for each character, (1) fwd-std, (2) fwd-complement, (3) rev-std, (4) rev-complement
+    for (k = 1; k <= ssvdata->M; k++) // there's no need to bother keeping an entry starting at the last position (gm->M)
+    {
+
+      if (strands != p7_STRAND_BOTTOMONLY) {
+        sc = ssvdata->ssv_scores_f[k*Kp + i];
+        if (sc>0) { // we'll extend any positive-scoring diagonal
+          /* fwd on model, fwd on FM (really, reverse on FM, but the FM is on a reversed string, so its fwd*/
+          if (k < ssvdata->M-3) { // don't bother starting a forward diagonal so close to the end of the model
+            //Forward pass on the FM-index
+            dp_pairs_fwd[fwd_cnt].pos =             k;
+            dp_pairs_fwd[fwd_cnt].score =           sc;
+            dp_pairs_fwd[fwd_cnt].max_score =       sc;
+            dp_pairs_fwd[fwd_cnt].score_peak_len =  1;
+            dp_pairs_fwd[fwd_cnt].consec_pos =      1;
+            dp_pairs_fwd[fwd_cnt].max_consec_pos =  1;
+            dp_pairs_fwd[fwd_cnt].consec_consensus = (i==consensus[k] ? 1 : 0);
+            dp_pairs_fwd[fwd_cnt].complementarity = p7_NOCOMPLEMENT;
+            dp_pairs_fwd[fwd_cnt].model_direction = fm_forward;
+            fwd_cnt++;
+          }
+
+          /* rev on model, rev on FM (the FM is on the unreversed string)*/
+          if (k > 4) { // don't bother starting a reverse diagonal so close to the start of the model
+            dp_pairs_rev[rev_cnt].pos =             k;
+            dp_pairs_rev[rev_cnt].score =           sc;
+            dp_pairs_rev[rev_cnt].max_score =       sc;
+            dp_pairs_rev[rev_cnt].score_peak_len =  1;
+            dp_pairs_rev[rev_cnt].consec_pos =      1;
+            dp_pairs_rev[rev_cnt].max_consec_pos =  1;
+            dp_pairs_rev[rev_cnt].consec_consensus = (i==consensus[k] ? 1: 0);
+            dp_pairs_rev[rev_cnt].complementarity = p7_NOCOMPLEMENT;
+            dp_pairs_rev[rev_cnt].model_direction = fm_backward;
+            rev_cnt++;
+          }
+        }
+      }
+
+
+      // Now do the reverse complement
+      if (strands != p7_STRAND_TOPONLY) {
+        sc = ssvdata->ssv_scores_f[k*Kp + fm_cfg->meta->compl_alph[i]];
+        if (sc>0) { // we'll extend any positive-scoring diagonal
+          /* rev on model, fwd on FM (really, reverse on FM, but the FM is on a reversed string, so its fwd*/
+          if (k > 4) { // don't bother starting a reverse diagonal so close to the start of the model
+            dp_pairs_fwd[fwd_cnt].pos =             k;
+            dp_pairs_fwd[fwd_cnt].score =           sc;
+            dp_pairs_fwd[fwd_cnt].max_score =       sc;
+            dp_pairs_fwd[fwd_cnt].score_peak_len =  1;
+            dp_pairs_fwd[fwd_cnt].consec_pos =      1;
+            dp_pairs_fwd[fwd_cnt].max_consec_pos =  1;
+            dp_pairs_fwd[fwd_cnt].consec_consensus = (i==consensus[k] ? 1: 0);
+            dp_pairs_fwd[fwd_cnt].complementarity = p7_COMPLEMENT;
+            dp_pairs_fwd[fwd_cnt].model_direction = fm_backward;
+            fwd_cnt++;
+          }
+
+          /* fwd on model, rev on FM (the FM is on the unreversed string - complemented)*/
+          if (k < ssvdata->M-3) { // don't bother starting a forward diagonal so close to the end of the model
+            dp_pairs_rev[rev_cnt].pos =             k;
+            dp_pairs_rev[rev_cnt].score =           sc;
+            dp_pairs_rev[rev_cnt].max_score =       sc;
+            dp_pairs_rev[rev_cnt].score_peak_len =  1;
+            dp_pairs_rev[rev_cnt].consec_pos =      1;
+            dp_pairs_rev[rev_cnt].max_consec_pos =  1;
+            dp_pairs_rev[rev_cnt].consec_consensus = (i==consensus[k] ? 1: 0);
+            dp_pairs_rev[rev_cnt].complementarity = p7_COMPLEMENT;
+            dp_pairs_rev[rev_cnt].model_direction = fm_forward;
+            rev_cnt++;
+          }
+
+        }
+      }
+    }
+
+
+    FM_Recurse ( 2, Kp, fm_forward,
+                 fmf, fmb, fm_cfg, ssvdata, consensus,
+                 sc_threshFM, dp_pairs_fwd, 0, fwd_cnt-1,
+                 &interval_f1, NULL,
+                 seeds
+                 , seq
+            );
+
+    FM_Recurse ( 2, Kp, fm_backward,
+                 fmf, fmb, fm_cfg, ssvdata, consensus,
+                 sc_threshFM, dp_pairs_rev, 0, rev_cnt-1,
+                 &interval_bk, &interval_f2,
+                 seeds
+                 , seq
+            );
+  }
+
+
+  //merge duplicates
+  FM_mergeSeeds(seeds, fmf->N, fm_cfg->ssv_length);
+
+  free (dp_pairs_fwd);
+  free (dp_pairs_rev);
+  if (seq) free(seq);
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+
+}
+
+
+/* Function:  FM_window_from_diag()
+ *
+ * Synopsis:  Create a hit window, with sequence-based coordinates, from a diagonal
+ *            holding FM-based coordinates
+ *
+ * Details:   The submitted diagonal is in FM-based coordinates. Since a single
+ *            FM index might be the concatenation of many sequences in the
+ *            original, this needs to be converted to coordinates in the
+ *            original sequence space (get sequence ID and positions). A diag
+ *            might span multiple input strings, so it is broken up as
+ *            necessary (usually, only one of these will pan out as a legit
+ *            diagonal, but we'll let the next stage sort that out).
+ *
+ * Args:      diag       - The FM-based diagonal
+ *            fm         - Data for the FM-index.
+ *            meta       - FM metadata from the config
+ *            windowlist - RETURN: collection of SSV-passing windows, with meta data required for downstream stages.
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+FM_window_from_diag (FM_DIAG *diag, const FM_DATA *fm, const FM_METADATA *meta, P7_HMM_WINDOWLIST *windowlist) {
+
+  // if diag->complementarity == p7_NOCOMPLEMENT, these positions are in context of FM->T
+  // otherwise, they're in context of revcomp(FM->T).
+
+  int status;
+  uint32_t seg_id;
+  uint64_t seg_pos;
+
+  status = fm_getOriginalPosition (fm, meta, 0, diag->length, diag->complementarity, diag->n, &seg_id, &seg_pos);
+
+  p7_hmmwindow_new(windowlist, seg_id, seg_pos, diag->n, diag->k+diag->length-1, diag->length, diag->score, diag->complementarity,
+         meta->seq_data[seg_id].length);
+
+  return eslOK;
+
+}
+
+
+/* Function:  FM_extendSeed()
+ * Synopsis:  Extend seed in both diagonal directions, capturing the score
+ *
+ * Details:   Given a diagonal seed found using FM-index traversal (typically
+ *            around length 16, with a modest score, but not necessarily enough
+ *            to pass the SSV threshold), establish a window around that seed,
+ *            and extend it to maximize score (with the constraint of not going
+ *            through a long negative scoring stretch). Capture the score of
+ *            this extended diagonal.
+ *
+ * Args:      diag    - The initial seed
+ *            fm      - Data for the FM-index (only need the forward FM from the
+ *                      calling function).
+ *            ssvdata - Compact data required for computing MSV (SSV) scores
+ *            cfg     - FM-index meta data
+ *            tmp_sq  - Sequence object that this function uses for calculations.
+ *                      Must be pre-allocated.
+ *
+ * Returns:   <eslOK> on success.
+ */
+static int
+FM_extendSeed(FM_DIAG *diag, const FM_DATA *fm, const P7_SCOREDATA *ssvdata, FM_CFG *cfg, ESL_SQ  *tmp_sq)
+{
+
+  uint64_t k,n;
+  int32_t model_start, model_end;
+  int64_t target_start, target_end;
+  int64_t hit_start, max_hit_start, max_hit_end;
+  float sc;
+  float max_sc = 0.0;
+  int c;
+  // this will allow a diagonal to be extended at least 10 bases in each direction, an up to as much as required to allow a diag of length  cfg->ssv_length
+  int extend = ESL_MAX(10, cfg->ssv_length - diag->length);
+
+  //this determines the start and end of the window that we think it's possible we'll extend to the window to (which determines the sequence we'll extract)
+  model_start      = ESL_MAX ( 1,         diag->k - extend + 1) ;
+  model_end        = ESL_MIN( ssvdata->M, diag->k + diag->length + extend - 1 );
+  target_start     = diag->n - (diag->k - model_start);
+  target_end       = diag->n + (model_end - diag->k);
+
+  if (target_start < 0) {
+    model_start -= target_start;
+    target_start = 0;
+  }
+  if (target_end > fm->N-2) {
+    model_end -= target_end - (fm->N-2);
+    target_end = fm->N-2;
+  }
+
+  fm_convertRange2DSQ(fm, cfg->meta, target_start, target_end-target_start+1, diag->complementarity, tmp_sq, FALSE );
+
+
+  //This finds the highest-scoring sub-diag in the just-determined potential diagonal range.
+  k = model_start;
+  n = 1;
+  sc = 0.0;
+
+  hit_start = n;
+  for (  ; k <= model_end; k++, n++) {
+      c = tmp_sq->dsq[n];
+
+      sc  += ssvdata->ssv_scores_f[k*tmp_sq->abc->Kp + c];
+
+      if (sc < 0) {
+        sc = 0;
+        hit_start = n+1;
+      } else if (sc > max_sc) {
+          max_sc = sc;
+          max_hit_start = hit_start;
+          max_hit_end   = n;
+      }
+  }
+
+
+  diag->n       = target_start + max_hit_start - 1;
+  diag->k       = model_start  + max_hit_start - 1;
+  diag->length  = max_hit_end - max_hit_start + 1;
+  diag->score   = max_sc;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_SSVFM_longlarget()
+ * Synopsis:  Finds windows with SSV scores above given threshold, using FM-index
+ *
+ * Details:   Uses FM-index to find high-scoring diagonals (seeds), then extends those
+ *            seeds to maximal scoring diagonals (no gaps). Windows meeting the SSV
+ *            scoring threshold (usually score s.t. p=0.02) are captured, and passed
+ *            on to the Viterbi and Forward stages of the pipeline.
+ *
+ * Args:      om      - optimized profile
+ *            nu      - configuration: expected number of hits (use 2.0 as a default)
+ *            bg      - the background model, required for translating a P-value threshold into a score threshold
+ *            F1      - p-value below which a window is captured as being above threshold
+ *            fmf     - data for forward traversal of the FM-index
+ *            fmb     - data for backward traversal of the FM-index
+ *            fm_cfg  - FM-index meta data
+ *            ssvdata - compact data required for computing SSV scores
+ *            strands     - p7_STRAND_TOPONLY  | p7_STRAND_BOTTOMONLY |  p7_STRAND_BOTH
+ *            windowlist - RETURN: collection of SSV-passing windows, with meta data required for downstream stages.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> if trouble allocating memory for seeds
+ */
+int
+p7_SSVFM_longlarget( P7_OPROFILE *om, float nu, P7_BG *bg, double F1,
+         const FM_DATA *fmf, const FM_DATA *fmb, FM_CFG *fm_cfg, const P7_SCOREDATA *ssvdata,
+         int strands, P7_HMM_WINDOWLIST *windowlist)
+{
+  float sc_thresh, sc_threshFM;
+  float invP;
+  //, invP_FM;
+  float nullsc;
+
+  int i;
+
+  float      tloop = logf((float) om->max_length / (float) (om->max_length+3));
+  float      tloop_total = tloop * om->max_length;
+  float      tmove = logf(     3.0f / (float) (om->max_length+3));
+  float      tbmk  = logf(     2.0f / ((float) om->M * (float) (om->M+1)));
+  float      tec   = logf(1.0f / nu);
+  FM_DIAG   *diag;
+
+  ESL_SQ   *tmp_sq;
+  uint8_t  *consensus;
+
+
+  FM_DIAGLIST seeds;
+  int         status;
+  status = fm_initSeeds(&seeds);
+  if (status != eslOK)
+    ESL_EXCEPTION(eslEMEM, "Error allocating memory for seed list\n");
+
+  /* convert the consensus to a collection of ints, so I can test for runs of identity to the consensus */
+  ESL_ALLOC(consensus, (om->M+1)*sizeof(uint8_t) );
+  for (i=1; i<=om->M; i++)
+    consensus[i] = om->abc->inmap[(int)(om->consensus[i])];
+
+
+  /* Set false target length. This is a conservative estimate of the length of window that'll
+   * soon be passed on to later phases of the pipeline;  used to recover some bits of the score
+   * that we would miss if we left length parameters set to the full target length */
+  p7_oprofile_ReconfigMSVLength(om, om->max_length);
+  p7_bg_SetLength(bg, om->max_length);
+  p7_bg_NullOne  (bg, NULL, om->max_length, &nullsc);
+
+  tmp_sq   =  esl_sq_CreateDigital(om->abc);
+
+  /*
+   * Computing the score required to let P meet the F1 prob threshold
+   * In original code, converting from an SSV score S (the score getting
+   * to state C) to a probability goes like this:
+   *  S = XMX(L,p7G_C)
+   *  usc = S + tmove + tloop_total
+   *  P = f ( (usc - nullsc) / eslCONST_LOG2 , mu, lambda)
+   *  and XMX(C) was the diagonal score + tmove + tbmk + tec
+   * and we're computing the threshold score S, so reverse it:
+   *  (usc - nullsc) /  eslCONST_LOG2 = inv_f( P, mu, lambda)
+   *  usc = nullsc + eslCONST_LOG2 * inv_f( P, mu, lambda)
+   *  S = usc - tmove - tloop_total - tmove - tbmk - tec
+   *
+   *
+   *  Here, I compute threshold with length model based on max_length.  Usually, the
+   *  length of a window returned by this scan will be 2*max_length-1 or longer.  Doesn't
+   *  really matter - in any case, both the bg and om models will change with roughly
+   *  1 bit for each doubling of the length model, so they offset.
+   */
+
+  invP = esl_gumbel_invsurv(F1, om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+  sc_thresh =   (invP * eslCONST_LOG2) + nullsc - (tmove + tloop_total + tmove + tbmk + tec);
+
+
+//  invP_FM = esl_gumbel_invsurv(0.5, om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+//  sc_threshFM = ESL_MAX(fm_cfg->scthreshFM,  (invP_FM * eslCONST_LOG2) + nullsc - (tmove + tloop_total + tmove + tbmk + tec) ) ;
+  sc_threshFM = fm_cfg->scthreshFM * fm_cfg->sc_thresh_ratio;
+
+  //get diagonals that score above sc_threshFM
+  status = FM_getSeeds(fmf, fmb, fm_cfg, ssvdata, consensus, om->abc->Kp, sc_threshFM, strands, &seeds );
+  if (status != eslOK)
+    ESL_EXCEPTION(eslEMEM, "Error allocating memory for seed computation\n");
+
+  //now extend those diagonals to find ones scoring above sc_thresh
+  for(i=0; i<seeds.count; i++) {
+    FM_extendSeed( seeds.diags+i, fmf, ssvdata, fm_cfg, tmp_sq);
+  }
+
+  for(i=0; i<seeds.count; i++) {
+    diag = seeds.diags+i;
+    if (diag->score >= sc_thresh)
+      FM_window_from_diag(diag, fmf, fm_cfg->meta, windowlist );
+
+  }
+
+  esl_sq_Destroy(tmp_sq);
+
+  free(seeds.diags);
+  free(consensus);
+  return eslEOF;
+
+ERROR:
+  ESL_EXCEPTION(eslEMEM, "Error allocating memory for SSVFM longtarget\n");
+
+}
+/*------------------ end, FM_MSV() ------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_decoding.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_decoding.c
new file mode 100755
index 0000000..e63e56f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_decoding.c
@@ -0,0 +1,494 @@
+/* Posterior decoding algorithms; generic versions.
+ * 
+ * Contents:
+ *   1. Posterior decoding algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ */
+#include "p7_config.h"
+
+#include <math.h>
+#include "easel.h"
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Posterior decoding algorithms.
+ *****************************************************************/
+
+/* Function:  p7_GDecoding()
+ * Synopsis:  Posterior decoding of residue assignments.
+ *
+ * Purpose:   Calculates a posterior decoding of the residues in a
+ *            target sequence, given profile <gm> and filled Forward
+ *            and Backward matrices <fwd>, <bck> for the profile
+ *            aligned to that target sequence. The resulting posterior
+ *            decoding is stored in a DP matrix <pp>, provided by the
+ *            caller.
+ *            
+ *            Each residue <i> must have been emitted by match state
+ *            <1..M>, insert state <1..M-1>, or an NN, CC, or JJ loop
+ *            transition.  For <dp = pp->dp>, <xmx = pp->xmx>,
+ *            <MMX(i,k)> is the probability that match <k> emitted
+ *            residue <i>; <IMX(i,k)> is the probability that insert
+ *            <k> emitted residue <i>; <XMX(i,N)>,<XMX(i,C)>,
+ *            <XMX(i,J)> are the probabilities that residue <i> was
+ *            emitted on an NN, CC, or JJ transition. The sum over all
+ *            these possibilities for a given residue <i> is 1.0.
+ *
+ *            Thus the only nonzero entries in a posterior decoding matrix
+ *            <pp> are <M_{1..M}>, <I_{1..M-1}>, <N_{1..L-1}> (residue L
+ *            can't be emitted by N), <C_{2..L}> (residue 1 can't be 
+ *            emitted by C), and <J_{2..L-1}> (residues 1,L can't be
+ *            emitted by J).
+ *            
+ *            In particular, row i=0 is unused (all zeros) in a pp
+ *            matrix; the null2 calculation will take advantage of
+ *            this by using the zero row for workspace.
+ *            
+ *            The caller may pass the Backward matrix <bck> as <pp>,
+ *            in which case <bck> will be overwritten with
+ *            <pp>. However, the caller may \emph{not} overwrite <fwd>
+ *            this way; an <(i-1)> dependency in the calculation of
+ *            NN, CC, JJ transitions prevents this.
+ *
+ * Args:      gm   - profile (must be the same that was used to fill <fwd>, <bck>).
+ *            fwd  - filled Forward matrix 
+ *            bck  - filled Backward matrix
+ *            pp   - RESULT: posterior decoding matrix.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Note:      Burns time renormalizing each row. If you don't do this,
+ *            probabilities will have an error of +/- 0.001 or so, creeping
+ *            in from error in FLogsum()'s table approximation and even
+ *            in log() and exp() themselves; including "probabilities"
+ *            up to  ~1.001. Though this isn't going to break anything
+ *            in normal use, it does drive the unit tests wild; the SSE
+ *            implementation is more accurate, and unit tests that try
+ *            to compare SSE and generic results will see differences,
+ *            some sufficient to alter the choice of OA traceback.
+ *    
+ */
+int
+p7_GDecoding(const P7_PROFILE *gm, const P7_GMX *fwd, P7_GMX *bck, P7_GMX *pp)
+{
+  float      **dp   = pp->dp;
+  float       *xmx  = pp->xmx;
+  int          L    = fwd->L;
+  int          M    = gm->M;
+  int          i,k;
+  float        overall_sc = fwd->xmx[p7G_NXCELLS*L + p7G_C] + gm->xsc[p7P_C][p7P_MOVE];
+  float        denom;
+  
+  pp->M = M;
+  pp->L = L;
+
+  XMX(0, p7G_E) = 0.0;
+  XMX(0, p7G_N) = 0.0;		
+  XMX(0, p7G_J) = 0.0;		
+  XMX(0, p7G_B) = 0.0;
+  XMX(0, p7G_C) = 0.0;
+  for (k = 0; k <= M; k++)
+    MMX(0,k) = IMX(0,k) = DMX(0,k) = 0.0;
+  
+  for (i = 1; i <= L; i++)
+    {
+      denom = 0.0;
+      MMX(i,0) = IMX(i,0) = DMX(i,0) = 0.0;
+      for (k = 1; k < M; k++)
+	{
+	  MMX(i,k) = expf(fwd->dp[i][k*p7G_NSCELLS + p7G_M] + bck->dp[i][k*p7G_NSCELLS + p7G_M] - overall_sc); denom += MMX(i,k);
+	  IMX(i,k) = expf(fwd->dp[i][k*p7G_NSCELLS + p7G_I] + bck->dp[i][k*p7G_NSCELLS + p7G_I] - overall_sc); denom += IMX(i,k);
+	  DMX(i,k) = 0.;
+	}
+      MMX(i,M)     = expf(fwd->dp[i][M*p7G_NSCELLS + p7G_M] + bck->dp[i][M*p7G_NSCELLS + p7G_M] - overall_sc); denom += MMX(i,M);
+      IMX(i,M)     = 0.;
+      DMX(i,M)     = 0.;
+      
+      /* order doesn't matter.  note that this whole function is trivially simd parallel */
+      XMX(i,p7G_E) = 0.;
+      XMX(i,p7G_N) = expf(fwd->xmx[p7G_NXCELLS*(i-1) + p7G_N] + bck->xmx[p7G_NXCELLS*i + p7G_N] + gm->xsc[p7P_N][p7P_LOOP] - overall_sc);
+      XMX(i,p7G_J) = expf(fwd->xmx[p7G_NXCELLS*(i-1) + p7G_J] + bck->xmx[p7G_NXCELLS*i + p7G_J] + gm->xsc[p7P_J][p7P_LOOP] - overall_sc);
+      XMX(i,p7G_B) = 0.;
+      XMX(i,p7G_C) = expf(fwd->xmx[p7G_NXCELLS*(i-1) + p7G_C] + bck->xmx[p7G_NXCELLS*i + p7G_C] + gm->xsc[p7P_C][p7P_LOOP] - overall_sc);
+      denom += XMX(i,p7G_N) + XMX(i,p7G_J) + XMX(i,p7G_C);
+      
+      denom = 1.0 / denom;
+      for (k = 1; k < M; k++) {  MMX(i,k) *= denom; IMX(i,k) *= denom; }
+      MMX(i,M)     *= denom;
+      XMX(i,p7G_N) *= denom;
+      XMX(i,p7G_J) *= denom;
+      XMX(i,p7G_C) *= denom;
+    }
+  return eslOK;
+}
+
+/* Function:  p7_GDomainDecoding()
+ * Synopsis:  Posterior decoding of domain location.
+ *
+ * Purpose:   The caller has calculated Forward and Backward matrices
+ *            <fwd> and <bck> for model <gm> aligned to a target
+ *            sequence. (The target sequence doesn't need to be
+ *            provided, because all we need to know is its length
+ *            <L>, and that's available in either of the two DP 
+ *            matrices.)
+ * 
+ *            We use this information to calculate the posterior
+ *            probabilities that we're in a begin state B, end state
+ *            E, or any core model state {M,D,I} at each target
+ *            sequence position <i = 1..L>.
+ * 
+ *            This information is stored in three arrays in
+ *            <ddef>. This routine expects that this storage has
+ *            already been (re)allocated appropriately for a target
+ *            seq of length <L>.
+ * 
+ *            <ddef->btot[i]> stores the cumulative expectation
+ *            $\sum_1^i$ of the number of i's that were emitted (by an
+ *            Mk state) immediately after a B : i.e., the expected
+ *            number of times domains have started at or before
+ *            position i.
+ * 
+ *            <ddef->etot[i]> stores the cumulative expectation
+ *            $\sum_1^i$ of the number of i's that were emitted (by
+ *            an Mk or Dk state) and immediately followed by an end
+ *            transition to E : i.e., the expected number of times
+ *            domains have ended at or before position i.
+ * 
+ *            <ddef->mocc[i]> stores the probability that residue i is
+ *            emitted by the core model, as opposed to the flanking
+ *            N,C,J states : i.e., the probability that i is in a
+ *            domain.
+ * 
+ *            Upon return, each of these arrays has been made, and
+ *            <ddef->L> has * been set.
+ *
+ * Args:      gm   - profile
+ *            fwd  - filled Forward matrix
+ *            bck  - filled Backward matrix
+ *            ddef - container for the results.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ * 
+ * Notes:    Ideas for future optimization:
+ * 
+ *           - The calculations only need to access the xmx[CNJBE][i] special
+ *             states in the fwd, bck matrices, so we could use
+ *             streamlined (checkpointed?) matrices that only maintain
+ *             this info over all i. This would be a step in letting
+ *             us do domain parses in linear memory.
+ *   
+ *           - indeed, the <btot>, <etot>, and <mocc> arrays could be made
+ *             sparse; on long target sequences, we expect long
+ *             stretches of negligible posterior probability that
+ *             we're in the model or using a begin or end
+ *             transition.
+ *   
+ *           - indeed indeed, we don't really need to store the <btot>, <etot>,
+ *             and <mocc> arrays at all. We can define regions in a
+ *             single pass in O(1) extra memory, straight from the
+ *             <fwd>, <bck> matrices, if we have to (xref
+ *             J2/101). <p7_domaindef_ByPosteriorHeuristics()> is
+ *             already implemented in a way to make this easy. We're
+ *             not doing that for now, partly for clarity in the code,
+ *             and partly because I think we'll want to output the
+ *             <btot>, <etot>, and <mocc> arrays -- this view of the
+ *             posterior decoding of the domain structure of a target
+ *             sequence will be useful. Also, it's a lot easier to
+ *             implement the <is_multidomain_region()> trigger if
+ *             these arrays are available.  
+ */
+int
+p7_GDomainDecoding(const P7_PROFILE *gm, const P7_GMX *fwd, const P7_GMX *bck, P7_DOMAINDEF *ddef)
+{
+  int   L            = fwd->L;
+  float overall_logp = fwd->xmx[p7G_NXCELLS*L + p7G_C] + gm->xsc[p7P_C][p7P_MOVE];
+  float njcp;
+  int   i;
+
+  for (i = 1; i <= L; i++)
+    {
+      ddef->btot[i] = ddef->btot[i-1] + exp(fwd->xmx[(i-1)*p7G_NXCELLS+p7G_B] + bck->xmx[(i-1)*p7G_NXCELLS+p7G_B] - overall_logp);
+      ddef->etot[i] = ddef->etot[i-1] + exp(fwd->xmx[i    *p7G_NXCELLS+p7G_E] + bck->xmx[i    *p7G_NXCELLS+p7G_E] - overall_logp);
+
+      njcp  = expf(fwd->xmx[p7G_NXCELLS*(i-1) + p7G_N] + bck->xmx[p7G_NXCELLS*i + p7G_N] + gm->xsc[p7P_N][p7P_LOOP] - overall_logp);
+      njcp += expf(fwd->xmx[p7G_NXCELLS*(i-1) + p7G_J] + bck->xmx[p7G_NXCELLS*i + p7G_J] + gm->xsc[p7P_J][p7P_LOOP] - overall_logp);
+      njcp += expf(fwd->xmx[p7G_NXCELLS*(i-1) + p7G_C] + bck->xmx[p7G_NXCELLS*i + p7G_C] + gm->xsc[p7P_C][p7P_LOOP] - overall_logp);
+      ddef->mocc[i] = 1. - njcp;
+    }
+  ddef->L = gm->L;
+  return eslOK;
+}
+/*------------------ end, decoding algorithms -------------------*/
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7GENERIC_DECODING_BENCHMARK
+/*
+   icc -O3 -static -o generic_decoding_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_DECODING_BENCHMARK generic_decoding.c -lhmmer -leasel -lm
+   ./benchmark-generic-decoding <hmmfile>
+                   RRM_1 (M=72)       Caudal_act (M=136)      SMC_N (M=1151)
+                 -----------------    ------------------     -------------------
+   21 Aug 08      6.62u (21.8 Mc/s)    12.52u (21.7 Mc/s)     106.27u (21.7 Mc/s)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,   "5000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for posterior residue decoding, generic version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *bck     = NULL;
+  P7_GMX         *pp      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  fwd = p7_gmx_Create(gm->M, L);  
+  bck = p7_gmx_Create(gm->M, L);
+  pp  = p7_gmx_Create(gm->M, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_GForward (dsq, L, gm, fwd, &fsc);
+  p7_GBackward(dsq, L, gm, bck, &bsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) 
+    p7_GDecoding(gm, fwd, bck, pp);   
+  esl_stopwatch_Stop(w);
+
+  Mcs  = (double) N * (double) L * (double) gm->M * 1e-6 / w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n", gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmx_Destroy(pp);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_DECODING_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_DECODING_TESTDRIVE
+
+#endif /*p7GENERIC_DECODING_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7GENERIC_DECODING_TESTDRIVE
+
+#endif /*p7GENERIC_DECODING_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7GENERIC_DECODING_EXAMPLE
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+#define STYLES     "--fs,--sw,--ls,--s"	  /* Exclusive choice for alignment mode     */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range  toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "--fs",      eslARG_NONE,"default",NULL, NULL, STYLES,  NULL, NULL, "multihit local alignment",                         0 },
+  { "--sw",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit local alignment",                           0 },
+  { "--ls",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "multihit glocal alignment",                        0 },
+  { "--s",       eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit glocal alignment",                          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of posterior decoding, generic implementation";
+
+static void dump_matrix_csv(FILE *fp, P7_GMX *pp, int istart, int iend, int kstart, int kend);
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *bck     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fsc, bsc;
+
+  /* Read in one query profile */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one target sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  if (esl_sqfile_Open(seqfile, format, NULL, &sqfp) != eslOK) p7_Fail("Failed to open sequence file %s", seqfile);
+  if (esl_sqio_Read(sqfp, sq)                       != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+
+  /* Now reconfig the model however we were asked to */
+  if      (esl_opt_GetBoolean(go, "--fs"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  else if (esl_opt_GetBoolean(go, "--sw"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNILOCAL);
+  else if (esl_opt_GetBoolean(go, "--ls"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_GLOCAL);
+  else if (esl_opt_GetBoolean(go, "--s"))   p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNIGLOCAL);
+  
+  /* Allocate matrices */
+  fwd = p7_gmx_Create(gm->M, sq->n);
+  bck = p7_gmx_Create(gm->M, sq->n);
+
+  /* Set the profile and null model's target length models */
+  p7_bg_SetLength(bg,   sq->n);
+  p7_ReconfigLength(gm, sq->n);
+
+  /* Run Forward, Backward */
+  p7_GForward (sq->dsq, sq->n, gm, fwd, &fsc);
+  p7_GBackward(sq->dsq, sq->n, gm, bck, &bsc);
+
+  /* Decoding: <bck> becomes the posterior probability mx */
+  p7_GDecoding(gm, fwd, bck, bck);
+
+  //p7_gmx_Dump(stdout, bck, p7_DEFAULT);
+  dump_matrix_csv(stdout, bck, 1, sq->n, 1, gm->M);
+
+  /* Cleanup */
+  esl_sq_Destroy(sq);
+  p7_profile_Destroy(gm);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+static void
+dump_matrix_csv(FILE *fp, P7_GMX *pp, int istart, int iend, int kstart, int kend)
+{
+  int   width     = 7;
+  int   precision = 5;
+  int   i, k;
+  float val;
+
+  printf("i,");
+  for (k = kstart; k <= kend; k++)
+    printf("%-d%s", k, k==kend ? "\n" : ",");
+
+  for (i = istart; i <= iend; i++)
+    {
+      printf("%-d,", i);
+      for (k = kstart; k <= kend; k++)
+	{
+	  val = pp->dp[i][k * p7G_NSCELLS + p7G_M] + 
+	    pp->dp[i][k * p7G_NSCELLS + p7G_I] + 
+	    pp->dp[i][k * p7G_NSCELLS + p7G_D];
+
+	  fprintf(fp, "%*.*f%s", width, precision, val, k==kend ? "\n" : ", ");
+	}
+    }
+}  
+#endif /*p7GENERIC_DECODING_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *   
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/generic_decoding.c $
+ * SVN $Id: generic_decoding.c 3816 2012-01-22 15:23:50Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback.c
new file mode 100755
index 0000000..c96cb89
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback.c
@@ -0,0 +1,840 @@
+/* Forward/Backward algorithms; generic (non-SIMD) versions.
+ * 
+ * Contents:
+ *   1. Forward, Backward, Hybrid implementations.  
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Forward, Backward, Hybrid implementations.
+ *****************************************************************/
+
+/* Function:  p7_GForward()
+ * Synopsis:  The Forward algorithm.
+ *
+ * Purpose:   The Forward dynamic programming algorithm. 
+ *
+ *            Given a digital sequence <dsq> of length <L>, a profile
+ *            <gm>, and DP matrix <gx> allocated for at least <gm->M>
+ *            by <L> cells; calculate the probability of the sequence
+ *            given the model using the Forward algorithm; return the
+ *            Forward matrix in <gx>, and the Forward score in <ret_sc>.
+ *           
+ *            The Forward score is in lod score form.  To convert to a
+ *            bitscore, the caller needs to subtract a null model lod
+ *            score, then convert to bits.
+ *           
+ *            Caller must have initialized the log-sum calculation
+ *            with a call to <p7_FLogsumInit()>.
+ *
+ * Args:      dsq    - sequence in digitized form, 1..L
+ *            L      - length of dsq
+ *            gm     - profile. 
+ *            gx     - DP matrix with room for an MxL alignment
+ *            opt_sc - optRETURN: Forward lod score in nats
+ *           
+ * Return:    <eslOK> on success.
+ */
+int
+p7_GForward(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float *opt_sc)
+{
+  float const *tsc  = gm->tsc;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx; 			    
+  int          M    = gm->M;
+  int          i, k;  
+  float        esc  = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+
+  p7_FLogsumInit();		/* Would like to get rid of this -- have main()'s all initialize instead, more efficient */
+
+  /* Initialization of the zero row. */
+  XMX(0,p7G_N) = 0;                                           /* S->N, p=1            */
+  XMX(0,p7G_B) = gm->xsc[p7P_N][p7P_MOVE];                    /* S->N->B, no N-tail   */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) = -eslINFINITY;  /* need seq to get here */
+  for (k = 0; k <= M; k++)
+    MMX(0,k) = IMX(0,k) = DMX(0,k) = -eslINFINITY;            /* need seq to get here */
+
+  /* Recursion. Done as a pull.
+   * Note some slightly wasteful boundary conditions:  
+   *    tsc[0] = impossible for all eight transitions (no node 0)
+   *    D_1 is wastefully calculated (doesn't exist)
+   */
+  for (i = 1; i <= L; i++) 
+    {
+      float const *rsc = gm->rsc[dsq[i]];
+      float sc;
+
+      MMX(i,0) = IMX(i,0) = DMX(i,0) = -eslINFINITY;
+      XMX(i, p7G_E) = -eslINFINITY;
+
+      for (k = 1; k < M; k++)
+	{
+	  /* match state */
+	  sc = p7_FLogsum(p7_FLogsum(MMX(i-1,k-1)   + TSC(p7P_MM,k-1), 
+				     IMX(i-1,k-1)   + TSC(p7P_IM,k-1)),
+			  p7_FLogsum(XMX(i-1,p7G_B) + TSC(p7P_BM,k-1),
+				     DMX(i-1,k-1)   + TSC(p7P_DM,k-1)));
+	  MMX(i,k) = sc + MSC(k);
+
+	  /* insert state */
+	  sc = p7_FLogsum(MMX(i-1,k) + TSC(p7P_MI,k),
+			  IMX(i-1,k) + TSC(p7P_II,k));
+	  IMX(i,k) = sc + ISC(k);
+
+	  /* delete state */
+	  DMX(i,k) = p7_FLogsum(MMX(i,k-1) + TSC(p7P_MD,k-1),
+				DMX(i,k-1) + TSC(p7P_DD,k-1));
+
+	  /* E state update */
+	  XMX(i,p7G_E) = p7_FLogsum(p7_FLogsum(MMX(i,k) + esc,
+					       DMX(i,k) + esc),
+				               XMX(i,p7G_E));
+	}
+      /* unrolled match state M_M */
+      sc = p7_FLogsum(p7_FLogsum(MMX(i-1,M-1)   + TSC(p7P_MM,M-1), 
+				 IMX(i-1,M-1)   + TSC(p7P_IM,M-1)),
+		      p7_FLogsum(XMX(i-1,p7G_B) + TSC(p7P_BM,M-1),
+				 DMX(i-1,M-1)   + TSC(p7P_DM,M-1)));
+      MMX(i,M) = sc + MSC(M);
+      IMX(i,M) = -eslINFINITY;
+
+      /* unrolled delete state D_M */
+      DMX(i,M) = p7_FLogsum(MMX(i,M-1) + TSC(p7P_MD,M-1),
+			    DMX(i,M-1) + TSC(p7P_DD,M-1));
+
+      /* unrolled E state update */
+      XMX(i,p7G_E) = p7_FLogsum(p7_FLogsum(MMX(i,M),
+					   DMX(i,M)),
+					   XMX(i,p7G_E));
+
+      /* J state */
+      XMX(i,p7G_J) = p7_FLogsum(XMX(i-1,p7G_J) + gm->xsc[p7P_J][p7P_LOOP],
+				XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_LOOP]);
+      /* C state */
+      XMX(i,p7G_C) = p7_FLogsum(XMX(i-1,p7G_C) + gm->xsc[p7P_C][p7P_LOOP],
+				XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_MOVE]);
+      /* N state */
+      XMX(i,p7G_N) = XMX(i-1,p7G_N) + gm->xsc[p7P_N][p7P_LOOP];
+
+      /* B state */
+      XMX(i,p7G_B) = p7_FLogsum(XMX(i,  p7G_N) + gm->xsc[p7P_N][p7P_MOVE],
+				XMX(i,  p7G_J) + gm->xsc[p7P_J][p7P_MOVE]);
+    }
+
+  if (opt_sc != NULL) *opt_sc = XMX(L,p7G_C) + gm->xsc[p7P_C][p7P_MOVE];
+  gx->M = M;
+  gx->L = L;
+  return eslOK;
+}
+
+
+/* Function:  p7_GBackward()
+ * Synopsis:  The Backward algorithm.
+ *
+ * Purpose:   The Backward dynamic programming algorithm.
+ * 
+ *            Given a digital sequence <dsq> of length <L>, a profile
+ *            <gm>, and DP matrix <gx> allocated for at least <gm->M>
+ *            by <L> cells; calculate the probability of the sequence
+ *            given the model using the Backward algorithm; return the
+ *            Backward matrix in <gx>, and the Backward score in <ret_sc>.
+ *           
+ *            The Backward score is in lod score form. To convert to a
+ *            bitscore, the caller needs to subtract a null model lod
+ *            score, then convert to bits.
+ *
+ * Args:      dsq    - sequence in digitized form, 1..L
+ *            L      - length of dsq
+ *            gm     - profile 
+ *            gx     - DP matrix with room for an MxL alignment
+ *            opt_sc - optRETURN: Backward lod score in nats
+ *           
+ * Return:    <eslOK> on success.
+ */
+int
+p7_GBackward(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float *opt_sc)
+{
+  float const *tsc  = gm->tsc;
+  float const *rsc  = NULL;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx; 			    
+  int          M    = gm->M;
+  int          i, k;  
+  float        esc  = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+
+  /* Note: backward calculates the probability we can get *out* of
+   * cell i,k; exclusive of emitting residue x_i.
+   */
+  p7_FLogsumInit();
+
+  /* Initialize the L row.  */
+  XMX(L,p7G_J) = XMX(L,p7G_B) = XMX(L,p7G_N) = -eslINFINITY;
+  XMX(L,p7G_C) = gm->xsc[p7P_C][p7P_MOVE];                 /* C<-T          */
+  XMX(L,p7G_E) = XMX(L,p7G_C) + gm->xsc[p7P_E][p7P_MOVE];  /* E<-C, no tail */
+  
+  MMX(L,M) = DMX(L,M) = XMX(L,p7G_E); /* {MD}_M <- E (prob 1.0) */
+  IMX(L,M) = -eslINFINITY;	      /* no I_M state        */
+  for (k = M-1; k >= 1; k--) {
+    MMX(L,k) = p7_FLogsum( XMX(L,p7G_E) + esc,
+			   DMX(L, k+1)  + TSC(p7P_MD,k));
+    DMX(L,k) = p7_FLogsum( XMX(L,p7G_E) + esc,
+			   DMX(L, k+1)  + TSC(p7P_DD,k));
+    IMX(L,k) = -eslINFINITY;
+  }
+  
+  /* Main recursion */
+  for (i = L-1; i >= 1; i--)
+    {
+      rsc = gm->rsc[dsq[i+1]];
+
+      XMX(i,p7G_B) = MMX(i+1,1) + TSC(p7P_BM,0) + MSC(1); /* t_BM index is 0 because it's stored off-by-one. */
+      for (k = 2; k <= M; k++)
+	XMX(i,p7G_B) = p7_FLogsum(XMX(i, p7G_B), MMX(i+1,k) + TSC(p7P_BM,k-1) + MSC(k));
+
+      XMX(i,p7G_J) = p7_FLogsum( XMX(i+1,p7G_J) + gm->xsc[p7P_J][p7P_LOOP],
+				 XMX(i,  p7G_B) + gm->xsc[p7P_J][p7P_MOVE]);
+      
+      XMX(i,p7G_C) = XMX(i+1,p7G_C) + gm->xsc[p7P_C][p7P_LOOP];
+      
+      XMX(i,p7G_E) = p7_FLogsum( XMX(i, p7G_J)  + gm->xsc[p7P_E][p7P_LOOP],
+				 XMX(i, p7G_C)  + gm->xsc[p7P_E][p7P_MOVE]);
+      
+      XMX(i,p7G_N) = p7_FLogsum( XMX(i+1,p7G_N) + gm->xsc[p7P_N][p7P_LOOP],
+				 XMX(i,  p7G_B) + gm->xsc[p7P_N][p7P_MOVE]);
+      
+      
+      MMX(i,M) = DMX(i,M) = XMX(i,p7G_E);
+      IMX(i,M) = -eslINFINITY;
+      for (k = M-1; k >= 1; k--)
+	{
+	  MMX(i,k) = p7_FLogsum( p7_FLogsum(MMX(i+1,k+1) + TSC(p7P_MM,k) + MSC(k+1),
+					    IMX(i+1,k)   + TSC(p7P_MI,k) + ISC(k)),
+				 p7_FLogsum(XMX(i,p7G_E) + esc,
+					    DMX(i,  k+1) + TSC(p7P_MD,k)));
+      
+	  IMX(i,k) = p7_FLogsum( MMX(i+1,k+1) + TSC(p7P_IM,k) + MSC(k+1),
+				 IMX(i+1,k)   + TSC(p7P_II,k) + ISC(k));
+	  
+	  DMX(i,k) = p7_FLogsum( MMX(i+1,k+1) + TSC(p7P_DM,k) + MSC(k+1),
+				 p7_FLogsum( DMX(i,  k+1)  + TSC(p7P_DD,k),
+					     XMX(i, p7G_E) + esc));
+	}
+    }
+
+  /* At i=0, only N,B states are reachable. */
+  rsc = gm->rsc[dsq[1]];
+  XMX(0,p7G_B) = MMX(1,1) + TSC(p7P_BM,0) + MSC(1); /* t_BM index is 0 because it's stored off-by-one. */
+  for (k = 2; k <= M; k++)
+    XMX(0,p7G_B) = p7_FLogsum(XMX(0, p7G_B), MMX(1,k) + TSC(p7P_BM,k-1) + MSC(k));
+  XMX(i,p7G_J) = -eslINFINITY;
+  XMX(i,p7G_C) = -eslINFINITY;
+  XMX(i,p7G_E) = -eslINFINITY;
+  XMX(i,p7G_N) = p7_FLogsum( XMX(1, p7G_N) + gm->xsc[p7P_N][p7P_LOOP],
+			     XMX(0, p7G_B) + gm->xsc[p7P_N][p7P_MOVE]);
+  for (k = M; k >= 1; k--)
+    MMX(i,k) = IMX(i,k) = DMX(i,k) = -eslINFINITY;
+
+
+  if (opt_sc != NULL) *opt_sc = XMX(0,p7G_N);
+  gx->M = M;
+  gx->L = L;
+  return eslOK;
+}
+
+
+
+/* Function:  p7_GHybrid()
+ * Synopsis:  The "hybrid" algorithm.
+ *
+ * Purpose:   The profile HMM version of the Hwa "hybrid" alignment
+ *            algorithm \citep{YuHwa02}. The "hybrid" score is the
+ *            maximum score in the Forward matrix. 
+ *            
+ *            Given a digital sequence <dsq> of length <L>, a profile
+ *            <gm>, and DP matrix <mx> allocated for at least <gm->M>
+ *            by <L> cells; calculate the probability of the sequence
+ *            given the model using the Forward algorithm; return
+ *            the calculated Forward matrix in <mx>, and optionally
+ *            return the Forward score in <opt_fwdscore> and/or the
+ *            Hybrid score in <opt_hybscore>.
+ *           
+ *            This is implemented as a wrapper around <p7_GForward()>.
+ *            The Forward matrix and the Forward score obtained from
+ *            this routine are identical to what <p7_GForward()> would
+ *            return.
+ *           
+ *            The scores are returned in lod form.  To convert to a
+ *            bitscore, the caller needs to subtract a null model lod
+ *            score, then convert to bits.
+ *           
+ * Args:      dsq          - sequence in digitized form, 1..L
+ *            L            - length of dsq
+ *            gm           - profile. 
+ *            gx           - DP matrix with room for an MxL alignment
+ *            opt_fwdscore - optRETURN: Forward lod score in nats.
+ *            opt_hybscore - optRETURN: Hybrid lod score in nats.
+ *
+ * Returns:   <eslOK> on success, and results are in <mx>, <opt_fwdscore>,
+ *            and <opt_hybscore>.
+ */
+int
+p7_GHybrid(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float *opt_fwdscore, float *opt_hybscore)
+{
+  float   F    = -eslINFINITY;
+  float   H    = -eslINFINITY;
+  float **dp   = gx->dp;
+  int     i,k;
+  int     status;
+
+  if ((status = p7_GForward(dsq, L, gm, gx, &F)) != eslOK)  goto ERROR;
+  for (i = 1; i <= L; i++)
+    for (k = 1 ; k <= gm->M; k++)
+      H = ESL_MAX(H, MMX(i,k));
+  
+  gx->M = gm->M;
+  gx->L = L;
+  if (opt_fwdscore != NULL) *opt_fwdscore = F;
+  if (opt_hybscore != NULL) *opt_hybscore = H;
+  return eslOK;
+
+ ERROR:
+  if (opt_fwdscore != NULL) *opt_fwdscore = 0;
+  if (opt_hybscore != NULL) *opt_hybscore = 0;
+  return status;
+}
+/*------------- end: forward, backward, hybrid ------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_BENCHMARK
+/*
+   gcc -g -O2      -o generic_fwdback_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_FWDBACK_BENCHMARK generic_fwdback.c -lhmmer -leasel -lm
+   icc -O3 -static -o generic_fwdback_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_FWDBACK_BENCHMARK generic_fwdback.c -lhmmer -leasel -lm
+   ./generic_fwdback_benchmark <hmmfile>
+ */
+/* As of Fri Dec 28 14:48:39 2007
+ *    Viterbi  = 61.8 Mc/s
+ *    Forward  =  8.6 Mc/s
+ *   Backward  =  7.1 Mc/s
+ *        MSV  = 55.9 Mc/s
+ * (gcc -g -O2, 3.2GHz Xeon, N=50K, L=400, M=72 RRM_1 model)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,   "2000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  { "-B",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark GBackward()",                     0 },
+  { "-F",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark GForward()",                      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for generic Forward/Backward";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *bck     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  fwd = p7_gmx_Create(gm->M, L);
+  bck = p7_gmx_Create(gm->M, L);
+
+  /* Baseline time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Benchmark time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      if (! esl_opt_GetBoolean(go, "-B"))  p7_GForward (dsq, L, gm, fwd, &sc);
+      if (! esl_opt_GetBoolean(go, "-F"))  p7_GBackward(dsq, L, gm, bck, NULL);
+
+      p7_gmx_Reuse(fwd);
+      p7_gmx_Reuse(bck);
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmx_Destroy(bck);
+  p7_gmx_Destroy(fwd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_FWDBACK_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_TESTDRIVE
+#include <string.h>
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* Forward is hard to validate. 
+ * We do know that the Forward score is >= Viterbi.
+ * We also know that the expected score on random seqs is <= 0 (not
+ * exactly - we'd have to sample the random length from the background
+ * model too, not just use a fixed L - but it's close enough to
+ * being true to be a useful test.)
+ */
+static void
+utest_forward(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, P7_PROFILE *gm, int nseq, int L)
+{
+  float     avg_sc;
+  ESL_DSQ  *dsq  = NULL;
+  P7_GMX   *fwd  = NULL;
+  P7_GMX   *bck  = NULL;
+  int       idx;
+  float     fsc, bsc;
+  float     vsc, nullsc;
+
+  if ((dsq    = malloc(sizeof(ESL_DSQ) *(L+2))) == NULL)  esl_fatal("malloc failed");
+  if ((fwd    = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("matrix creation failed");
+  if ((bck    = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("matrix creation failed");
+
+  avg_sc = 0.;
+  for (idx = 0; idx < nseq; idx++)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+      if (p7_GViterbi(dsq, L, gm, fwd, &vsc)      != eslOK) esl_fatal("viterbi failed");
+      if (p7_GForward(dsq, L, gm, fwd, &fsc)      != eslOK) esl_fatal("forward failed");
+      if (p7_GBackward(dsq, L, gm, bck, &bsc)     != eslOK) esl_fatal("backward failed");
+
+      if (fsc < vsc)             esl_fatal("Forward score can't be less than Viterbi score");
+      if (fabs(fsc-bsc) > 0.001) esl_fatal("Forward/Backward failed: %f %f\n", fsc, bsc);
+
+      if (p7_bg_NullOne(bg, dsq, L, &nullsc)      != eslOK) esl_fatal("null score failed");
+
+      avg_sc += fsc - nullsc;
+
+      if (esl_opt_GetBoolean(go, "--vv")) 
+	printf("utest_forward: Forward score: %.4f (total so far: %.4f)\n", fsc, avg_sc);
+    }
+
+  avg_sc /= (float) nseq;
+  if (avg_sc > 0.) esl_fatal("Forward scores have positive expectation (%f nats)", avg_sc);
+
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  free(dsq);
+  return;
+}
+
+/* The "generation" test scores sequences generated by the same profile.
+ * Each Viterbi and Forward score should be >= the trace score of the emitted seq.
+ * The expectation of Forward scores should be positive.
+ */
+static void
+utest_generation(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc,
+		 P7_PROFILE *gm, P7_HMM *hmm, P7_BG *bg, int nseq)
+{
+  ESL_SQ   *sq = esl_sq_CreateDigital(abc);
+  P7_GMX   *gx = p7_gmx_Create(gm->M, 100);
+  P7_TRACE *tr = p7_trace_Create();
+  float     vsc, fsc, nullsc, tracesc;
+  float     avg_fsc;
+  int       idx;
+
+  avg_fsc = 0.0;
+  for (idx = 0; idx < nseq; idx++)
+    {
+      if (p7_ProfileEmit(r, hmm, gm, bg, sq, tr)     != eslOK) esl_fatal("profile emission failed");
+
+      if (p7_gmx_GrowTo(gx, gm->M, sq->n)            != eslOK) esl_fatal("failed to reallocate gmx");
+      if (p7_GViterbi(sq->dsq, sq->n, gm, gx, &vsc)  != eslOK) esl_fatal("viterbi failed");
+      if (p7_GForward(sq->dsq, sq->n, gm, gx, &fsc)  != eslOK) esl_fatal("forward failed");
+      if (p7_trace_Score(tr, sq->dsq, gm, &tracesc)  != eslOK) esl_fatal("trace score failed");
+      if (p7_bg_NullOne(bg, sq->dsq, sq->n, &nullsc) != eslOK) esl_fatal("null score failed");
+
+      if (vsc < tracesc) esl_fatal("viterbi score is less than trace");
+      if (fsc < tracesc) esl_fatal("forward score is less than trace");
+      if (vsc > fsc)     esl_fatal("viterbi score is greater than forward");
+
+      if (esl_opt_GetBoolean(go, "--vv")) 
+	printf("generated:  len=%d v=%8.4f  f=%8.4f  t=%8.4f\n", (int) sq->n, vsc, fsc, tracesc);
+      
+      avg_fsc += (fsc - nullsc);
+    }
+  
+  avg_fsc /= (float) nseq;
+  if (avg_fsc < 0.) esl_fatal("generation: Forward scores have negative expectation (%f nats)", avg_fsc);
+
+  p7_gmx_Destroy(gx);
+  p7_trace_Destroy(tr);
+  esl_sq_Destroy(sq);
+}
+
+
+/* The "enumeration" test samples a random enumerable HMM (transitions to insert are 0,
+ * so the generated seq space only includes seqs of L<=M). 
+ *
+ * The test scores all seqs of length <=M by both Viterbi and Forward, verifies that 
+ * the two scores are identical, and verifies that the sum of all the probabilities is
+ * 1.0. It also verifies that the score of a sequence of length M+1 is indeed -infinity.
+ * 
+ * Because this function is going to work in unscaled probabilities, adding them up,
+ * all P(seq) terms must be >> DBL_EPSILON.  That means M must be small; on the order 
+ * of <= 10. 
+ */
+static void
+utest_enumeration(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, int M)
+{
+  char            errbuf[eslERRBUFSIZE];
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_BG          *bg   = NULL;
+  ESL_DSQ        *dsq  = NULL;
+  P7_GMX         *gx   = NULL;
+  float  vsc, fsc;
+  float  bg_ll;   		/* log P(seq | bg) */
+  double vp, fp;		/* P(seq,\pi | model) and P(seq | model) */
+  int L;
+  int i;
+  double total_p;
+  char   *seq;
+    
+  /* Sample an enumerable HMM & profile of length M.  */
+  if (p7_hmm_SampleEnumerable(r, M, abc, &hmm)      != eslOK) esl_fatal("failed to sample an enumerable HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, 0, p7_UNILOCAL) != eslOK) esl_fatal("failed to config profile");
+  if (p7_hmm_Validate    (hmm, errbuf, 0.0001)      != eslOK) esl_fatal("whoops, HMM is bad!: %s", errbuf);
+  if (p7_profile_Validate(gm, errbuf, 0.0001)       != eslOK) esl_fatal("whoops, profile is bad!: %s", errbuf);
+
+  if (  (dsq = malloc(sizeof(ESL_DSQ) * (M+3)))     == NULL)  esl_fatal("allocation failed");
+  if (  (seq = malloc(sizeof(char)    * (M+2)))     == NULL)  esl_fatal("allocation failed");
+  if ((gx     = p7_gmx_Create(hmm->M, M+3))         == NULL)  esl_fatal("matrix creation failed");
+
+  /* Enumerate all sequences of length L <= M
+   */
+  total_p = 0;
+  for (L = 0; L <= M; L++)
+    {
+      /* Initialize dsq of length L at 0000... */
+      dsq[0] = dsq[L+1] = eslDSQ_SENTINEL;
+      for (i = 1; i <= L; i++) dsq[i] = 0;
+
+      while (1) 		/* enumeration of seqs of length L*/
+	{
+	  if (p7_GViterbi(dsq, L, gm, gx, &vsc)  != eslOK) esl_fatal("viterbi failed");
+	  if (p7_GForward(dsq, L, gm, gx, &fsc)  != eslOK) esl_fatal("forward failed");
+ 
+	  /* calculate bg log likelihood component of the scores */
+	  for (bg_ll = 0., i = 1; i <= L; i++)  bg_ll += log(bg->f[dsq[i]]);
+	  
+	  /* convert to probabilities, adding the bg LL back to the LLR */
+	  vp =  exp(vsc + bg_ll);
+	  fp =  exp(fsc + bg_ll);
+
+	  if (esl_opt_GetBoolean(go, "--vv")) {
+	    esl_abc_Textize(abc, dsq, L, seq);
+	    printf("probability of sequence: %10s   %16g  (lod v=%8.4f f=%8.4f)\n", seq, fp, vsc, fsc);
+	  }
+	  total_p += fp;
+
+	  /* Increment dsq like a reversed odometer */
+	  for (i = 1; i <= L; i++) 
+	    if (dsq[i] < abc->K-1) { dsq[i]++; break; } else { dsq[i] = 0; }
+	  if (i > L) break;	/* we're done enumerating sequences */
+	}
+    }
+
+  /* That sum is subject to significant numerical error because of
+   * discretization error in FLogsum(); don't expect it to be too close.
+   */
+  if (total_p < 0.999 || total_p > 1.001) esl_fatal("Enumeration unit test failed: total Forward p isn't near 1.0 (%g)", total_p);
+  if (esl_opt_GetBoolean(go, "-v")) {
+    printf("enumeration test: total p is %g\n", total_p);
+  }
+  
+  p7_gmx_Destroy(gx);
+  p7_bg_Destroy(bg);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+  free(dsq);
+  free(seq);
+}
+#endif /*p7GENERIC_FWDBACK_TESTDRIVE*/
+/*------------------------- end, unit tests ---------------------*/
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+
+/* gcc -g -Wall -Dp7GENERIC_FWDBACK_TESTDRIVE -I. -I../easel -L. -L../easel -o generic_fwdback_utest generic_fwdback.c -lhmmer -leasel -lm
+ */
+#ifdef p7GENERIC_FWDBACK_TESTDRIVE
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for the generic Forward/Backward implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = 100;
+  int             L    = 200;
+  int             nseq = 20;
+  char            errbuf[eslERRBUFSIZE];
+
+  p7_FLogsumInit();
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if (p7_hmm_Validate    (hmm, errbuf, 0.0001)      != eslOK) esl_fatal("whoops, HMM is bad!: %s", errbuf);
+  if (p7_profile_Validate(gm,  errbuf, 0.0001)      != eslOK) esl_fatal("whoops, profile is bad!: %s", errbuf);
+
+  utest_forward    (go, r, abc, bg, gm, nseq, L);
+  utest_generation (go, r, abc, gm, hmm, bg, nseq);
+  utest_enumeration(go, r, abc, 4);	/* can't go much higher than 5; enumeration test is cpu-intensive. */
+
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_FWDBACK_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_EXAMPLE
+/* 
+   gcc -g -O2 -o generic_fwdback_example -Dp7GENERIC_FWDBACK_EXAMPLE -I. -I../easel -L. -L../easel generic_fwdback.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+#define STYLES     "--fs,--sw,--ls,--s"	               /* Exclusive choice for alignment mode     */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range  toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "--fs",      eslARG_NONE,"default",NULL, NULL, STYLES,  NULL, NULL, "multihit local alignment",                         0 },
+  { "--sw",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit local alignment",                           0 },
+  { "--ls",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "multihit glocal alignment",                        0 },
+  { "--s",       eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit glocal alignment",                          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Forward/Backward, generic implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *bck     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fsc, bsc;
+  float           nullsc;
+  int             status;
+
+  /* Initialize log-sum calculator */
+  p7_FLogsumInit();
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+
+  /* Now reconfig the models however we were asked to */
+  if      (esl_opt_GetBoolean(go, "--fs"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  else if (esl_opt_GetBoolean(go, "--sw"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNILOCAL);
+  else if (esl_opt_GetBoolean(go, "--ls"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_GLOCAL);
+  else if (esl_opt_GetBoolean(go, "--s"))   p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNIGLOCAL);
+  
+  /* Allocate matrices */
+  fwd = p7_gmx_Create(gm->M, sq->n);
+  bck = p7_gmx_Create(gm->M, sq->n);
+
+  printf("%-30s   %-10s %-10s   %-10s %-10s\n", "# seq name",      "fwd (raw)",   "bck (raw) ",  "fwd (bits)",  "bck (bits)");
+  printf("%-30s   %10s %10s   %10s %10s\n",     "#--------------", "----------",  "----------",  "----------",  "----------");
+
+  while ( (status = esl_sqio_Read(sqfp, sq)) != eslEOF)
+    {
+      if      (status == eslEFORMAT) p7_Fail("Parse failed (sequence file %s)\n%s\n", sqfp->filename, sqfp->get_error(sqfp));     
+      else if (status != eslOK)      p7_Fail("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+
+      /* Resize the DP matrices if necessary */
+      p7_gmx_GrowTo(fwd, gm->M, sq->n);
+      p7_gmx_GrowTo(bck, gm->M, sq->n);
+
+      /* Set the profile and null model's target length models */
+      p7_bg_SetLength(bg,   sq->n);
+      p7_ReconfigLength(gm, sq->n);
+
+      /* Run Forward, Backward */
+      p7_GForward (sq->dsq, sq->n, gm, fwd, &fsc);
+      p7_GBackward(sq->dsq, sq->n, gm, bck, &bsc);
+
+      p7_gmx_Dump(stdout, fwd, p7_DEFAULT);
+
+      /* Those scores are partial log-odds likelihoods in nats.
+       * Subtract off the rest of the null model, convert to bits.
+       */
+      p7_bg_NullOne(bg, sq->dsq, sq->n, &nullsc);
+
+      printf("%-30s   %10.4f %10.4f   %10.4f %10.4f\n", 
+	     sq->name, 
+	     fsc, bsc, 
+	     (fsc - nullsc) / eslCONST_LOG2, (bsc - nullsc) / eslCONST_LOG2);
+
+      p7_gmx_Reuse(fwd);
+      p7_gmx_Reuse(bck);
+      esl_sq_Reuse(sq);
+    }
+
+  /* Cleanup */
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_FWDBACK_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/generic_fwdback.c $
+ * SVN $Id: generic_fwdback.c 3776 2011-12-02 18:38:22Z eddys $  
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_banded.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_banded.c
new file mode 100755
index 0000000..f337539
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_banded.c
@@ -0,0 +1,230 @@
+/* Forward/Backward, generic, with bands.
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_sq.h"
+
+#include "hmmer.h"
+#include "p7_gbands.h"
+#include "p7_gmxb.h"
+
+int
+p7_GForwardBanded(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMXB *gxb, float *opt_sc)
+{
+  int         *bnd_ip = gxb->bnd->imem;          /* ptr to current ia, ib segment band in gxb->bnd */
+  int         *bnd_kp = gxb->bnd->kmem;		 /* ptr to current ka, kb row band in gxb->bnd     */
+  float       *dpc    = gxb->dp;	         /* ptr to current DP matrix cell */
+  float       *xpc    = gxb->xmx;		 /* ptr to current special cell   */
+  float const *tsc    = gm->tsc;		 /* sets up TSC() macro, access to profile's transitions */
+  float const *rsc;				 /* will be set up for MSC(), ISC() macros for residue scores */
+  float       *dpp;	                  	 /* ptr to previous DP matrix cell */
+  float       *last_dpc;			 /* used to reinitialize dpp after each row        */
+  int          ia, ib;				 /* current segment band is rows ia..ib            */
+  int          last_ib;				 /* intersegment interval is last_ib+1..ia-1       */
+  int          kac, kbc;			 /* current row band is kac..kbc                   */
+  int          kap, kbp;			 /* previous row band is kap..kbp                  */
+  int          kbc2;				 /* if kbc==M, kbc2=M-1, main loop goes kac..kbc2 and M is unrolled */
+  float        xE, xN, xJ, xB, xC;               /* tmp scores on special states. only stored when in row bands */
+  float        mvp, ivp, dvp;			 /* M,I,D cell values from previous row i-1     */
+  float        dc;				 /* precalculated D(i,k+1) value on current row */
+  float        sc;				 /* temporary score calculation M(i,k)          */
+  int          g, i, k;				 /* indices running over segments, residues (rows) x_i, model positions (cols) k  */
+  //float        esc  = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+  
+  xN      = 0.0f;
+  xJ      = -eslINFINITY;
+  xC      = -eslINFINITY;
+  last_ib = 0;
+
+  for (g = 0; g < gxb->bnd->nseg; g++)
+    {
+      ia = *bnd_ip++;
+      ib = *bnd_ip++;
+
+      /* kap,kbp initialization for i=ia:
+       *  left overhang dpp advance must always eval to 0, 
+       *  {m,i,d}vp initialization must always eval to -eslINFINITY.
+       */
+      kap = kbp = gm->M+1;   
+      dpp = dpc;		/* re-initialize dpp */
+      
+      /* re-initialization: specials for previous row ia-1 just outside banded segment:  */
+      xE  = -eslINFINITY;
+      xN  = xN + (ia - last_ib - 1) * gm->xsc[p7P_N][p7P_LOOP];
+      xJ  = xJ + (ia - last_ib - 1) * gm->xsc[p7P_J][p7P_LOOP];
+      xB  = p7_FLogsum( xN + gm->xsc[p7P_N][p7P_MOVE], xJ + gm->xsc[p7P_J][p7P_MOVE]);
+      xC  = xC + (ia - last_ib - 1) * gm->xsc[p7P_C][p7P_LOOP];
+
+      for (i = ia; i <= ib; i++)
+	{
+	  rsc      = gm->rsc[dsq[i]];   /* sets up MSC(k), ISC(k) residue scores for this row i */
+	  dc       = -eslINFINITY;
+	  xE       = -eslINFINITY;
+	  last_dpc = dpc;
+
+	  kac      = *bnd_kp++;         /* current row's band is cells k=kac..kbc  */
+	  kbc      = *bnd_kp++; 
+	  kbc2     = (kbc == gm->M ? kbc-1 : kbc); /* a "do_M" flag works too, but this way we avoid an if statement */
+
+	  /* dpp must advance by any left overhang of previous row; but no more than the entire row */
+	  dpp += (kac-1 > kap ? ESL_MIN(kac-kap-1, kbp-kap+1) : 0);
+
+	  if (kac > kap && kac-1 <= kbp) { mvp = *dpp++;       ivp = *dpp++;       dvp = *dpp++;       }
+	  else                           { mvp = -eslINFINITY; ivp = -eslINFINITY; dvp = -eslINFINITY; }
+
+	  for (k = kac; k <= kbc2; k++)
+	    {
+	      *dpc++ = sc = MSC(k) + p7_FLogsum( p7_FLogsum(mvp + TSC(p7P_MM, k-1), ivp + TSC(p7P_IM, k-1)),
+						 dvp + TSC(p7P_DM, k-1));
+						 //p7_FLogsum(dvp + TSC(p7P_DM, k-1), xB  + TSC(p7P_BM, k-1)));
+	      
+
+	      if (k >= kap && k <= kbp) {  mvp = *dpp++;       ivp = *dpp++;        dvp = *dpp++;       } 	      // an if seems unavoidable. alternatively, might unroll 
+	      else                      {  mvp = -eslINFINITY; ivp = -eslINFINITY;  dvp = -eslINFINITY; }	      // all possible (kap,kac)..(kbp,kbc) orderings, but this 
+                                                                                                                      // seems too complex
+
+	      *dpc++ = ISC(k) + p7_FLogsum( mvp + TSC(p7P_MI, k), ivp + TSC(p7P_II, k));
+
+	      //xE     = p7_FLogsum( p7_FLogsum(sc + esc, dc + esc), xE);/* Mk->E accumulation      */
+
+	      /* next D_k+1 */
+	      *dpc++ = dc;
+	      dc     = p7_FLogsum( sc + TSC(p7P_MD, k), dc + TSC(p7P_DD, k));	     
+	    }
+
+	  if (kbc2 < kbc) /* i.e., if kbc==M and we need to do the final M column: */
+	    {
+	      *dpc++ = sc = MSC(k) + p7_FLogsum( p7_FLogsum(mvp + TSC(p7P_MM, k-1), ivp + TSC(p7P_IM, k-1)),
+						 p7_FLogsum(dvp + TSC(p7P_DM, k-1), xB  + TSC(p7P_BM, k-1)));
+	      *dpc++ = -eslINFINITY; 
+	      *dpc++ = dc;           
+	      xE     = p7_FLogsum( p7_FLogsum(sc, dc), xE);
+	    }
+
+	  *xpc++ = xE;
+	  *xpc++ = xN = xN + gm->xsc[p7P_N][p7P_LOOP];
+	  *xpc++ = xJ = p7_FLogsum( xJ + gm->xsc[p7P_J][p7P_LOOP],  xE + gm->xsc[p7P_E][p7P_MOVE]);
+	  *xpc++ = xB = p7_FLogsum( xJ + gm->xsc[p7P_J][p7P_MOVE],  xN + gm->xsc[p7P_N][p7P_MOVE]);
+	  *xpc++ = xC = p7_FLogsum( xE + gm->xsc[p7P_E][p7P_MOVE],  xC + gm->xsc[p7P_C][p7P_LOOP]);
+
+	  dpp = last_dpc;	/* this skips any right overhang on the previous row, so dpp advances (if necessary) to start of curr row */
+	  kap = kac;
+	  kbp = kbc;
+	}
+      last_ib = ib;
+    }
+
+  /* last_ib+1..L is outside any band segment, so it can only run through xC. */
+  if (opt_sc != NULL) *opt_sc = xC + (L-last_ib) *  gm->xsc[p7P_C][p7P_LOOP] + gm->xsc[p7P_C][p7P_MOVE];
+  return eslOK;
+}
+
+/*****************************************************************
+ * x. Benchmark driver
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_BANDED_BENCHMARK
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "p7_gbands.h"
+#include "p7_gmxb.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,   "2000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  { "-W",        eslARG_INT,      "3", NULL,"n>=0", NULL,  NULL, NULL, "band halfwidth",                                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for banded Forward/Backward";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GBANDS      *bnd     = NULL;
+  P7_GMXB        *fwd     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             W       = esl_opt_GetInteger(go, "-W");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             idx, k, base;
+  float           sc;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_GLOCAL);
+
+  /* Contrive bands: one length M band of width W */
+  bnd = p7_gbands_Create(L, gm->M);
+  if (L < gm->M) p7_Fail("for now, L must be >=M, because we make a single band");
+  base = (L-gm->M) / 2;
+  for (k = 1; k <= gm->M; k++)
+    p7_gbands_Append(bnd, k+base, ESL_MAX(1,k-W), ESL_MIN(gm->M,k+W));
+
+  fwd = p7_gmxb_Create(bnd);
+
+  /* Baseline time. */
+  esl_stopwatch_Start(w);
+  for (idx = 0; idx < N; idx++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+    /* Benchmark time. */
+  esl_stopwatch_Start(w);
+  for (idx = 0; idx < N; idx++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_gmxb_Reinit(fwd, bnd);
+
+      p7_GForwardBanded(dsq, L, gm, fwd, &sc);
+
+      p7_gmxb_Reuse(fwd);
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmxb_Destroy(fwd);
+  p7_gbands_Destroy(bnd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_FWDBACK_BANDED_BENCHMARK*/
+/************** end, benchmark driver*****************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_chk.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_chk.c
new file mode 100755
index 0000000..49d306e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_chk.c
@@ -0,0 +1,853 @@
+/* Forward/Backward, checkpointed: generic (non-SIMD) demonstration version.
+ * 
+ * Contents:
+ *    1. Forwards:  checkpointed fill, Forwards nat score.
+ *    2. Backwards: linear-memory back pass, recovering posterior-decoded bands.
+ *    3. Benchmark driver.
+ *    4. Example main().
+ *    5. References.
+ *    6. Copyright and license information.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "p7_gmxchk.h"
+#include "p7_gbands.h"
+
+static inline void posterior_decode_row(int rowi, float *fwd, float *bck, int M, float overall_sc, P7_GBANDS *bnd);
+
+/*****************************************************************
+ *= 1. Forwards: checkpointed fill, Forwards nat score
+ *****************************************************************/
+
+/* forward_row()
+ * 
+ * inlined function, because we have to call the row calculation in
+ * several places in a checkpointed calculation, including in the Backwards()
+ * routine.
+ * 
+ */
+static inline void
+forward_row(const ESL_DSQ *dsq, const P7_PROFILE *gm, P7_GMXCHK *gxc, const float *dpp, float *dpc, int i)
+{
+  const float *tsc = gm->tsc;
+  const float *rsc = gm->rsc[dsq[i]] + p7P_NR; /* +NR skips _0, ahead to _1 */
+  int      M = gm->M;
+  float  esc = p7_profile_IsLocal(gm) ? 0. : -eslINFINITY;
+  int      k;
+  float    sc, dc;
+  float   xB = *(dpp + (M+1)*p7G_NSCELLS + p7GC_B);
+  float   xE = -eslINFINITY;
+  float   mvp, ivp, dvp;
+
+  *dpc++ = -eslINFINITY;  /* M_0 */
+  *dpc++ = -eslINFINITY;  /* I_0 */
+  *dpc++ = -eslINFINITY;  /* D_0 */
+  dc     = -eslINFINITY;
+
+  mvp = *dpp++; ivp = *dpp++; dvp = *dpp++;
+
+  for (k = 1; k < M; k++)
+    {
+      /* match state */
+      *dpc++ = sc = *rsc++                                           /* emission(M_k, x_i)           */
+   	            + p7_FLogsum(p7_FLogsum( mvp + *(tsc+p7P_MM),    /* M(i-1,k-1) * t_M(k-1)->M(k)  */
+					     ivp + *(tsc+p7P_IM)),   /* I(i-1,k-1) * t_I(k-1)->M(k)  */
+				 p7_FLogsum( dvp + *(tsc+p7P_DM),    /* D(i-1,k-1) * t_D(k-1)->M(k)  */
+					     xB  + *(tsc+p7P_BM)));  /* B(i-1)     * t_B->M_k        */
+      tsc += p7P_NTRANS;	/* advance to the t_X(k) transitions now */
+
+      /* pick up values from prev row, (k)... at next loop iteration they're magically the k-1 values we need for M calc */
+      mvp = *dpp++; ivp = *dpp++; dvp = *dpp++;
+      
+      /* insert state */
+      *dpc++ = *rsc++                               /* emission(I_k, x_i)      */
+  	        + p7_FLogsum( mvp + *(tsc+p7P_MI),  /* M(i-1,k) * t_M(k)->I(k) */
+			      ivp + *(tsc+p7P_II)); /* I(i-1,k) * t_I(k)->I(k) */
+
+      /* E state accumulation */
+      xE = p7_FLogsum( p7_FLogsum(sc + esc, dc + esc), xE);
+
+      /* delayed store of delete state; then calculate/push NEXT D_k+1 */
+      *dpc++  = dc; 
+      dc      = p7_FLogsum( sc + *(tsc+p7P_MD),     /* M(i,k) * t_M(k)->D(k+1) */
+			    dc + *(tsc+p7P_DD));    /* D(i,k) * t_D(k)->D(k+1) */
+    }
+
+  /* unrolled match state M_M */
+  *dpc++ = sc = *rsc++                                             /* emission(M_M, x_i)  */
+                + p7_FLogsum(p7_FLogsum( mvp + *(tsc + p7P_MM),    /* M(i-1,M-1) * t_MM   */
+					 ivp + *(tsc + p7P_IM)),   /* I(i-1,M-1) * t_IM   */
+			     p7_FLogsum( dvp + *(tsc + p7P_DM),    /* D(i-1,M-1) * t_DM   */
+					 xB  + *(tsc + p7P_BM)));  /* B(i-1)     * t_BM_M */
+  *dpc++ = -eslINFINITY;       /* I_M: no such state   */
+  *dpc++ = dc;		       /* delayed store of D_M */
+  dpp += 3;
+
+  /* now dpc and dpp are sitting on [ENJBC] special state arrays for current, prev row. */
+  dpc[p7GC_E]  = p7_FLogsum( p7_FLogsum(sc, dc), xE);                                                             /* E state update += D_M + M_M */
+  dpc[p7GC_N]  =              dpp[p7GC_N] + gm->xsc[p7P_N][p7P_LOOP];                                             /* N state = N(i-1)->N(i)      */
+  dpc[p7GC_JJ] =              dpp[p7GC_J] + gm->xsc[p7P_J][p7P_LOOP];                                             /* J->J emission partial path  */
+  dpc[p7GC_J]  = p7_FLogsum(  dpc[p7GC_JJ],                           dpc[p7GC_E] + gm->xsc[p7P_E][p7P_LOOP]);    /* J state = JJ + E->J         */
+  dpc[p7GC_B]  = p7_FLogsum(  dpc[p7GC_N] + gm->xsc[p7P_N][p7P_MOVE], dpc[p7GC_J] + gm->xsc[p7P_J][p7P_MOVE]);    /* B state = N->B + J->B       */
+  dpc[p7GC_CC] =              dpp[p7GC_C] + gm->xsc[p7P_C][p7P_LOOP];                                             /* C->C emission partial path  */
+  dpc[p7GC_C]  = p7_FLogsum(  dpc[p7GC_CC],                           dpc[p7GC_E] + gm->xsc[p7P_E][p7P_MOVE]);    /* C state = CC + E->C         */
+}
+  
+
+/* Function:  p7_GForwardCheckpointed()
+ * Synopsis:  Forward pass in a checkpointed generic DP matrix
+ *
+ * Purpose:   Compute the Forward pass of a comparison of model <gm>
+ *            against digital sequence <dsq> of length <L>, resulting
+ *            in a filled DP matrix <gxc> and (optionally)
+ *            a Forward score <opt_sc> in nats.
+ *            
+ *            The caller has already allocated and laid out <gxc>
+ *            appropriately for the <gm->M> by <L> comparison, either
+ *            with <p7_gmxchk_Create()> or <p7_gmxchk_GrowTo()>.
+ *            
+ *            The caller has also already configured the length model
+ *            in <gm> for the target sequence length <L>, for example
+ *            by calling <p7_ReconfigLength()>.
+ *            
+ * Args:      dsq    : digital sequence target
+ *            L      : length of <dsq> in residues
+ *            gm     : query profile
+ *            gxc    : checkpointed DP matrix to fill
+ *            opt_sc : optRETURN: Forward raw lod score, in nats
+ *
+ * Returns:   <eslOK> on success. <gxc> contains checkpointed DP
+ *            Forward matrix, ready for backwards pass. <opt_sc>
+ *            is the raw lod score in nats.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_GForwardCheckpointed(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMXCHK *gxc, float *opt_sc)
+{
+  float *dpc;			/* ptr to current row  */
+  float *dpp;			/* ptr to previous row */
+  int    M   = gm->M;
+  int    w;			/* size of a segment of DP rows ended w/ one checkpointed row, inclusive */
+  int    b;			/* counts down over segment number (Rb+Rc..1); each segment has r+1 rows */
+  int    i,k;
+
+  /* Initialization of the zero row, fwd[0], inc. ENJBC */
+  dpc = dpp = gxc->dp[gxc->R0-1]; 	  /* i.e., dp[2], the reserved fwd[0] row; 0,1 are reserved for tmp space and backwards calculation */
+  for (k = 0; k < (M+1)*p7G_NSCELLS; k++) /* MID[0..M] are all impossible */
+    *dpc++ = -eslINFINITY;
+  *dpc++ = -eslINFINITY;	     /* E; need seq to get here  */
+  *dpc++ = 0;			     /* N                        */
+  *dpc++ = -eslINFINITY;	     /* JJ; need seq to get here */
+  *dpc++ = -eslINFINITY;	     /* J; need seq to get here  */
+  *dpc++ = gm->xsc[p7P_N][p7P_MOVE]; /* B; from N->B only        */
+  *dpc++ = -eslINFINITY;	     /* CC; need seq to get here */
+  *dpc   = -eslINFINITY;	     /* C; need seq to get here  */
+
+  /* Phase one: "a" region: uncheckpointed rows of matrix */
+  for (i = 1; i <= gxc->La; i++)
+    {
+      dpc = gxc->dp[gxc->R0+gxc->R]; gxc->R++; /* idiomatic for "get next saved row" */
+      forward_row(dsq, gm, gxc, dpp, dpc, i);
+      dpp = dpc;
+    }
+
+  /* Phase two: "b" and "c" regions: partially and fully checkpointed */
+  /* i= gxc->La+1, from previous loop's end */
+  for (b = gxc->Rb + gxc->Rc, w = (gxc->Rb ? gxc->Lb : gxc->Rc+1); i <= L; i++)
+    {
+      if (! (--w))
+	{ 		                           /* we're on the last row in segment: this row is saved    */
+	  dpc = gxc->dp[gxc->R0+gxc->R]; gxc->R++; /* idiomatic for "get next saved row"                     */
+	  w=b;  			           /* next segment has this many rows, ending in a saved row */
+	  b--;					   /* decrement segment number counter; last segment is r=1  */
+	}
+      else
+	dpc =  gxc->dp[i%2];	/* idiomatic for "get next temp row", 0 or 1; i%2 is to make sure dpp != dpc  */
+      
+      forward_row(dsq, gm, gxc, dpp, dpc, i);
+      dpp = dpc;
+    }
+  
+  gxc->M = M;
+  gxc->L = L;
+  gxc->R = gxc->Ra + gxc->Rb + gxc->Rc;
+  if (opt_sc) *opt_sc = gxc->dp[gxc->R0+gxc->R-1][(M+1)*p7G_NSCELLS + p7GC_C] + gm->xsc[p7P_C][p7P_MOVE];
+  return eslOK;
+}
+/*-------------------- end, forwards ----------------------------*/
+
+
+/*****************************************************************
+ *= 2. Backwards: linear-memory back pass, recovering posterior-decoded bands
+ *****************************************************************/
+
+static inline void
+backward_row(const ESL_DSQ *dsq, const P7_PROFILE *gm, P7_GMXCHK *gxc, const float *dpp, float *dpc, int i)
+{
+  const float * const tsc = gm->tsc;             /* both the parameters and the pointer itself are constant */
+  const float * const rsc = gm->rsc[dsq[i+1]];
+  int                 M   = gm->M;
+  float               esc = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+  int                 k;
+  
+  XMR(dpc,p7GC_C) =  XMR(dpc,p7GC_CC) =  XMR(dpp,p7GC_C) + gm->xsc[p7P_C][p7P_LOOP];
+
+  XMR(dpc,p7GC_B) = MMR(dpp,1) + TSC(p7P_BM,0) + MSC(1); /* t_BM index = 0 because it's stored off by one */
+  for (k = 2; k <= M; k++)
+    XMR(dpc,p7GC_B) = p7_FLogsum( XMR(dpc,p7GC_B), MMR(dpp,k) + TSC(p7P_BM,k-1) + MSC(k));
+
+  XMR(dpc,p7GC_J)  = XMR(dpc,p7GC_JJ) = p7_FLogsum( XMR(dpp,p7GC_J) + gm->xsc[p7P_J][p7P_LOOP],  XMR(dpc,p7GC_B) + gm->xsc[p7P_J][p7P_MOVE]);
+
+  XMR(dpc,p7GC_N)  = p7_FLogsum( XMR(dpp,p7GC_N) + gm->xsc[p7P_N][p7P_LOOP],  XMR(dpc,p7GC_B) + gm->xsc[p7P_N][p7P_MOVE]);
+  XMR(dpc,p7GC_E)  = p7_FLogsum( XMR(dpc,p7GC_J) + gm->xsc[p7P_E][p7P_LOOP],  XMR(dpc,p7GC_C) + gm->xsc[p7P_E][p7P_MOVE]);
+
+  DMR(dpc,M) = XMR(dpc,p7GC_E);
+  IMR(dpc,M) = -eslINFINITY;
+  MMR(dpc,M) = XMR(dpc,p7GC_E);
+
+  for (k = M-1; k >= 1; k--)
+    {
+      DMR(dpc,k) = p7_FLogsum( p7_FLogsum( DMR(dpc,  k+1)  + TSC(p7P_DD,k),
+					   XMR(dpc, p7GC_E) + esc),
+			       MMR(dpp,k+1) + TSC(p7P_DM,k) + MSC(k+1));
+
+      IMR(dpc,k) = p7_FLogsum( MMR(dpp,k+1) + TSC(p7P_IM,k) + MSC(k+1),
+			       IMR(dpp,k)   + TSC(p7P_II,k) + ISC(k));
+
+      MMR(dpc,k) = p7_FLogsum( p7_FLogsum(MMR(dpp,k+1) + TSC(p7P_MM,k) + MSC(k+1),
+					  IMR(dpp,k)   + TSC(p7P_MI,k) + ISC(k)),
+			       p7_FLogsum(XMR(dpc,p7GC_E) + esc,
+					  DMR(dpc,k+1) + TSC(p7P_MD,k)));
+    }
+}
+
+/* worry about small seq cases: L=0..2 */
+int
+p7_GBackwardCheckpointed(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMXCHK *gxc, P7_GBANDS *bnd, float *opt_sc)
+{
+  float const *tsc  = gm->tsc;
+  float const *rsc  = NULL;
+  int          M    = gm->M;
+  float        esc  = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+  float       *fwd;
+  float       *bck;
+  float       *dpp;		/* "previous" row (i-1 for forward, i+1 for backward) */
+  int          i,i2,k,b,w,s;
+  float        overall_sc = gxc->dp[gxc->R0+gxc->R-1][(M+1)*p7G_NSCELLS + p7GC_C] + gm->xsc[p7P_C][p7P_MOVE];
+
+#ifdef p7_DEBUGGING
+  if (gxc->do_debugging) p7_gmxchk_DumpHeader(gxc->dfp, gxc, 0, gxc->M, gxc->dbg_flags);
+#endif
+
+  /* this initialization could be in gmxchk: nothing else touches these boundary cells */
+  for (s = 0; s < p7G_NSCELLS; s++) gxc->dp[0][s] = gxc->dp[1][s] = -eslINFINITY;
+
+  /* We have to handle the first block b=1 as a special case (rows L-1, L)
+   * because row L is a special case.
+   */
+  
+  /* Initialize backwards row L */
+  i = L;
+  gxc->R--;
+  fwd = gxc->dp[gxc->R0+gxc->R];			    /* pop row for fwd[L] off "stack"  */
+  bck = gxc->dp[L%2];					    /* get tmp space for bck[L] */
+  XMR(bck, p7GC_C)  = gm->xsc[p7P_C][p7P_MOVE];                    /* C<-T */
+  XMR(bck, p7GC_CC) = gm->xsc[p7P_C][p7P_MOVE];                    /* CC<-T */
+  XMR(bck, p7GC_B)  = -eslINFINITY;		                   /* B<-T not possible */
+  XMR(bck, p7GC_J)  = -eslINFINITY;		                   /* J<-T not possible */
+  XMR(bck, p7GC_JJ) = -eslINFINITY;		                   /* JJ<-T not possible*/
+  XMR(bck, p7GC_N)  = -eslINFINITY; 		                   /* N<-T not possible */
+  XMR(bck, p7GC_E)  = XMR(bck, p7GC_C) + gm->xsc[p7P_E][p7P_MOVE]; /* E<-C, no tail */
+
+  DMR(bck, M) = XMR(bck, p7GC_E);              /* D_M <- E (t = 1.0) */
+  IMR(bck, M) = -eslINFINITY;		       /* I_M nonexistent */
+  MMR(bck, M) = XMR(bck, p7GC_E);              /* M_M <- E */
+
+  for (k = M-1; k >= 1; k--)
+    {
+      DMR(bck, k) = p7_FLogsum( XMR(bck, p7GC_E) + esc,
+				DMR(bck, k+1)    + TSC(p7P_DD, k));
+      IMR(bck, k) = -eslINFINITY;
+      MMR(bck, k) = p7_FLogsum( XMR(bck, p7GC_E) + esc,
+				DMR(bck, k+1)    + TSC(p7P_MD, k));
+    }
+#ifdef p7_DEBUGGING
+  if (gxc->do_debugging) p7_gmxchk_DumpRow(gxc->dfp, gxc, bck, i, 0, gxc->M, gxc->dbg_flags);
+#endif
+  posterior_decode_row(i, fwd, bck, M, overall_sc, bnd);
+  i--;				/* i is now L-1 */
+  dpp = bck;
+
+  /* If there's any checkpointing at all, there's an L-1 row to fill in */
+  if (gxc->Rb+gxc->Rc > 0)
+    {				/* i=L-1 as we enter */
+      /* Compute forwards from last checkpoint (which we know is L-2) */
+      dpp = gxc->dp[gxc->R0+gxc->R-1];
+      fwd = gxc->dp[gxc->R0+gxc->R];    /* new row, from top of stack */
+      forward_row(dsq, gm, gxc, dpp, fwd, i);
+
+      /* Compute backwards: L-1 row from L row */
+      dpp = bck;
+      bck = gxc->dp[(L-1)%2];
+      backward_row(dsq, gm, gxc, dpp, bck, i);
+#ifdef p7_DEBUGGING
+      if (gxc->do_debugging) p7_gmxchk_DumpRow(gxc->dfp, gxc, bck, i, 0, gxc->M, gxc->dbg_flags);
+#endif
+
+      posterior_decode_row(i, fwd, bck, M, overall_sc, bnd);
+      dpp = bck;
+      i--;			/* i is now L-2 if there was any checkpointing; L-1 if not. */
+    }
+
+  /* Checkpointed regions (b,c) */
+  for (b = 2; b <= gxc->Rb+gxc->Rc; b++)
+    {				/* i=L-2 as we enter here. */
+      w = (b <= gxc->Rc ? b+1 : gxc->Lb);
+
+      /* current row i (r=R0+R-1) ends a block and is checkpointed. */
+      gxc->R--;
+      fwd = gxc->dp[gxc->R0+gxc->R]; /* pop last forward row off "stack" */
+      bck = gxc->dp[i%2];
+      backward_row(dsq, gm, gxc, dpp, bck, i);
+#ifdef p7_DEBUGGING
+      if (gxc->do_debugging) p7_gmxchk_DumpRow(gxc->dfp, gxc, bck, i, 0, gxc->M, gxc->dbg_flags);
+#endif
+      posterior_decode_row(i, fwd, bck, M, overall_sc, bnd);
+      
+      /* compute Forwards from last checkpoint */
+      dpp = gxc->dp[gxc->R0+gxc->R-1];
+      for (i2 = i-w+1; i2 <= i-1; i2++)
+	{
+	  fwd = gxc->dp[gxc->R0+gxc->R]; gxc->R++; /* push new forward row on "stack" */
+	  forward_row(dsq, gm, gxc, dpp, fwd, i2);
+	  dpp = fwd;	  
+	}
+
+      /* now compute Backwards over the block we just calculated */
+      dpp = bck;
+      for (i2 = i-1; i2 >= i-w+1; i2--)
+	{
+	  gxc->R--;
+	  fwd = gxc->dp[gxc->R0+gxc->R]; /* pop last forward row off "stack" */
+	  bck = gxc->dp[i2%2];
+
+	  backward_row(dsq, gm, gxc, dpp, bck, i2);
+#ifdef p7_DEBUGGING
+	  if (gxc->do_debugging) p7_gmxchk_DumpRow(gxc->dfp, gxc, bck, i2, 0, gxc->M, gxc->dbg_flags);
+#endif
+
+	  posterior_decode_row(i2, fwd, bck, M, overall_sc, bnd);
+	  dpp = bck;
+	}
+
+      i -= w;
+    }
+  /* now i=La as we leave the checkpointed regions; or i=L-1 if there was no checkpointing */
+
+
+  /* The uncheckpointed "a" region */
+  for (; i >= 1; i--)
+    {
+      gxc->R--; 
+      fwd = gxc->dp[gxc->R0+gxc->R];
+      bck = gxc->dp[i%2];
+
+      backward_row(dsq, gm, gxc, dpp, bck, i);
+#ifdef p7_DEBUGGING
+      if (gxc->do_debugging) p7_gmxchk_DumpRow(gxc->dfp, gxc, bck, i, 0, gxc->M, gxc->dbg_flags);
+#endif
+      posterior_decode_row(i, fwd, bck, M, overall_sc, bnd);
+
+      dpp = bck;
+    }
+
+  /* now i=0. At i=0, only N,B states are reachable. */
+  bck = gxc->dp[0];
+  rsc = gm->rsc[dsq[1]];
+  XMR(bck,p7GC_B) = MMR(dpp,1) + TSC(p7P_BM,0) + MSC(1); /* t_BM index is 0 because it's stored off-by-one. */
+  for (k = 2; k <= M; k++)
+    XMR(bck,p7GC_B) = p7_FLogsum(XMR(bck,p7GC_B), MMR(dpp,k) + TSC(p7P_BM,k-1) + MSC(k));
+  XMR(bck,p7GC_J) = -eslINFINITY;
+  XMR(bck,p7GC_C) = -eslINFINITY;
+  XMR(bck,p7GC_N) = p7_FLogsum( XMR(dpp, p7GC_N) + gm->xsc[p7P_N][p7P_LOOP],
+				XMR(bck, p7GC_B) + gm->xsc[p7P_N][p7P_MOVE]);
+  XMR(bck,p7GC_E) = -eslINFINITY;
+
+  for (k = M; k >= 1; k--)
+    MMR(bck,k) = IMR(bck,k) = DMR(bck,k) = -eslINFINITY;
+#ifdef p7_DEBUGGING
+  if (gxc->do_debugging) p7_gmxchk_DumpRow(gxc->dfp, gxc, bck, i, 0, gxc->M, gxc->dbg_flags);
+#endif
+
+  bnd->L = L;
+  bnd->M = M;
+  p7_gbands_Reverse(bnd);
+  if (opt_sc != NULL) *opt_sc = XMR(bck,p7GC_N);
+  return eslOK;
+}
+/*--------------------- end, backwards --------------------------*/
+
+
+/*****************************************************************
+ * x. Posterior decoding in linear memory
+ *****************************************************************/
+
+/* remember, the row layout is (see note 2 in p7_gmxchk.h):
+ *  dpc:   [M  I  D] [M  I  D] [M  I  D]  ...  [M  I  D]  [E  N  JJ  J  B  CC  C]
+ *    k:   |-- 0 --| |-- 1 --| |-- 2 --|  ...  |-- M --|  
+ *         |------------- (M+1)*p7G_NSCELLS -----------|  |---- p7GC_NXCELLS ---|
+ */
+
+static inline void
+posterior_decode_row(int rowi, float *fwd, float *bck, int M, float overall_sc, P7_GBANDS *bnd)
+{
+  int   k;
+  int   ka, kb;
+  
+  XMR(fwd, p7GC_N)  = expf(XMR(fwd, p7GC_N) +  XMR(bck, p7GC_N)  - overall_sc);  
+  XMR(fwd, p7GC_JJ) = expf(XMR(fwd, p7GC_JJ) + XMR(bck, p7GC_JJ) - overall_sc);  
+  XMR(fwd, p7GC_CC) = expf(XMR(fwd, p7GC_CC) + XMR(bck, p7GC_CC) - overall_sc);  
+
+  if (XMR(fwd, p7GC_N) + XMR(fwd, p7GC_JJ) + XMR(fwd, p7GC_CC) >= 0.9) return;
+
+  for (k = 1; k < M; k++)
+    {
+      MMR(fwd, k) = expf(MMR(fwd,k) + MMR(bck,k) - overall_sc);   
+      IMR(fwd, k) = expf(IMR(fwd,k) + IMR(bck,k) - overall_sc);   
+    }
+  MMR(fwd, M) = expf(MMR(fwd, M) + MMR(bck,M) - overall_sc);      
+  IMR(fwd, M) = 0.0f;
+  
+  for (ka = 1; ka <= M; ka++) if (MMR(fwd, ka) + IMR(fwd, ka) >= 0.02) break;
+  if (ka == M+1) return;
+  for (kb = M; kb >= 1; kb--) if (MMR(fwd, kb) + IMR(fwd, kb) >= 0.02) break;
+
+  p7_gbands_Prepend(bnd, rowi, ka, kb);
+  //printf("%4d %.4f %.4f %.4f  %4d %4d\n", rowi, 1-outp, outp, denom, ka, kb);
+}
+
+
+/*****************************************************************
+ * 3. Benchmark driver.
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_CHK_BENCHMARK
+/*
+   gcc -g -O2      -o generic_fwdback_chk_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_FWDBACK_CHK_BENCHMARK generic_fwdback_chk.c -lhmmer -leasel -lm
+   icc -O3 -static -o generic_fwdback_chk_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_FWDBACK_CHK_BENCHMARK generic_fwdback_chk.c -lhmmer -leasel -lm
+   ./generic_fwdback_chk_benchmark <hmmfile>
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "p7_gmxchk.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,   "2000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  { "-F",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark GForwardCheckpointed()",          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for checkpointed generic Forward/Backward";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMXCHK      *gxc     = NULL;
+  P7_GBANDS      *bnd     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+
+  gxc = p7_gmxchk_Create(gm->M, L, ESL_MBYTES(32));
+  bnd = p7_gbands_Create();
+
+  /* Baseline time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Benchmark time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_GForwardCheckpointed (dsq, L, gm, gxc, &sc);
+      if (! esl_opt_GetBoolean(go, "-F"))
+	p7_GBackwardCheckpointed(dsq, L, gm, gxc, bnd, &sc);
+      
+      p7_gmxchk_Reuse(gxc);
+      p7_gbands_Reuse(bnd);
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmxchk_Destroy(gxc);
+  p7_gbands_Destroy(bnd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_FWDBACK_CHK_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+
+
+/*****************************************************************
+ * x. Unit tests.
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_CHK_TESTDRIVE
+#include "esl_sq.h"
+#include "esl_randomseq.h"
+
+static void
+scoring_comparison(ESL_DSQ *dsq, int L, P7_PROFILE *gm, P7_GMX *gx, P7_GMXCHK *gxc, P7_GBANDS *bnd)
+{
+  char  msg[]     = "generic_fwdback_chk: score comparison test failure";
+  float tolerance = 0.01;	/* nats (absolute score difference) */
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+
+  if ( p7_gmx_GrowTo(gx, gm->M, L)                      != eslOK) esl_fatal(msg);
+  if ( p7_gmxchk_GrowTo(gxc, gm->M, L)                  != eslOK) esl_fatal(msg);
+
+  if ( p7_GForward(dsq, L, gm, gx, &fsc1)                    != eslOK) esl_fatal(msg);
+  if ( p7_gmx_Reuse(gx)                                      != eslOK) esl_fatal(msg);
+  if ( p7_GBackward(dsq, L, gm, gx, &bsc1)                   != eslOK) esl_fatal(msg);
+  if ( p7_GForwardCheckpointed (dsq, L, gm, gxc,      &fsc2) != eslOK) esl_fatal(msg);
+  if ( p7_GBackwardCheckpointed(dsq, L, gm, gxc, bnd, &bsc2) != eslOK) esl_fatal(msg);
+
+  if ( fabs(fsc1-bsc1) > tolerance) esl_fatal(msg);
+  if ( fabs(fsc1-fsc2) > tolerance) esl_fatal(msg);
+  if ( fabs(bsc1-bsc2) > tolerance) esl_fatal(msg);
+
+  if ( p7_gmx_Reuse(gx)     != eslOK) esl_fatal(msg);
+  if ( p7_gmxchk_Reuse(gxc) != eslOK) esl_fatal(msg);
+  if ( p7_gbands_Reuse(bnd) != eslOK) esl_fatal(msg);
+}
+
+static void
+utest_randomseq(ESL_RANDOMNESS *rng, ESL_ALPHABET *abc,
+		P7_PROFILE *gm, P7_BG *bg, int nseq, int L)
+{
+  char       msg[] = "generic_fwdback_chk: random seq test failure";
+  ESL_DSQ   *dsq   = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_GMX    *gx    = p7_gmx_Create(gm->M, 100);
+  P7_GMXCHK *gxc   = p7_gmxchk_Create(gm->M, 100, ESL_MBYTES(32));
+  P7_GBANDS *bnd   = p7_gbands_Create();
+  int        idx;
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      if (esl_rsq_xfIID(rng, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      scoring_comparison(dsq, L, gm, gx, gxc, bnd);
+    }
+
+  p7_gmxchk_Destroy(gxc);
+  p7_gmx_Destroy(gx);
+  p7_gbands_Destroy(bnd);
+  free(dsq);
+}
+
+static void
+utest_emitseq(ESL_RANDOMNESS *rng, ESL_ALPHABET *abc,
+	      P7_HMM *hmm, P7_PROFILE *gm, P7_BG *bg, int nseq)
+{
+  char       msg[] = "generic_fwdback_chk: emitted seq test failure";
+  ESL_SQ    *sq    = esl_sq_CreateDigital(abc);
+  P7_GMX    *gx    = p7_gmx_Create(gm->M, 100);
+  P7_GMXCHK *gxc   = p7_gmxchk_Create(gm->M, 100, ESL_MBYTES(32));
+  P7_GBANDS *bnd   = p7_gbands_Create();
+  int        idx;
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      if ( p7_ProfileEmit(rng, hmm, gm, bg, sq, NULL) != eslOK) esl_fatal(msg);
+      
+      scoring_comparison(sq->dsq, sq->n, gm, gx, gxc, bnd);
+    }
+
+  p7_gmxchk_Destroy(gxc);
+  p7_gmx_Destroy(gx);
+  p7_gbands_Destroy(bnd);
+  esl_sq_Destroy(sq);
+}
+
+
+#endif /*p7GENERIC_FWDBACK_CHK_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+
+/*****************************************************************
+ * x. Test driver.
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_CHK_TESTDRIVE
+
+#include "p7_config.h"
+#include "easel.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "p7_gmxchk.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,      "0", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "tests for generic checkpointed Forward/Backward implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng  = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = 100;
+  int             L    = 200;
+  int             nseq = 20;
+  char            errbuf[eslERRBUFSIZE];
+
+  p7_FLogsumInit();
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(rng, M, abc, &hmm)              != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if (p7_hmm_Validate    (hmm, errbuf, 0.0001)      != eslOK) esl_fatal("whoops, HMM is bad!: %s", errbuf);
+  if (p7_profile_Validate(gm,  errbuf, 0.0001)      != eslOK) esl_fatal("whoops, profile is bad!: %s", errbuf);
+
+  utest_randomseq(rng, abc,      gm, bg, nseq, L);
+  utest_emitseq  (rng, abc, hmm, gm, bg, nseq);
+
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+#endif /*p7GENERIC_FWDBACK_CHK_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+
+/*****************************************************************
+ * 4. Example main()
+ *****************************************************************/
+#ifdef p7GENERIC_FWDBACK_CHK_EXAMPLE
+/* 
+   gcc -g -O2 -o generic_fwdback_chk_example -Dp7GENERIC_FWDBACK_CHK_EXAMPLE -I. -I../easel -L. -L../easel generic_fwdback_chk.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "p7_gmxchk.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range  toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of checkpointed Forward/Backward, generic implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *bck     = NULL;
+  P7_GMXCHK      *gxc     = NULL;
+  P7_GBANDS      *bnd     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fsc, fsc2;
+  float           bsc, bsc2;
+  float           nullsc;
+  int             status;
+
+  /* Initialize log-sum calculator */
+  p7_FLogsumInit();
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file, or file open failed");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+
+  /* Allocate matrices */
+  fwd = p7_gmx_Create(gm->M, 400);
+  bck = p7_gmx_Create(gm->M, 400);
+  gxc = p7_gmxchk_Create(gm->M, 400, ESL_MBYTES(32));
+  bnd = p7_gbands_Create();
+
+  while ( (status = esl_sqio_Read(sqfp, sq)) != eslEOF)
+    {
+      if      (status == eslEFORMAT) p7_Fail("Parse failed (sequence file %s)\n%s\n", sqfp->filename, sqfp->get_error(sqfp));     
+      else if (status != eslOK)      p7_Fail("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+
+      /* Resize the DP matrices if necessary */
+      p7_gmx_GrowTo   (fwd, gm->M, sq->n);
+      p7_gmx_GrowTo   (bck, gm->M, sq->n);
+      p7_gmxchk_GrowTo(gxc, gm->M, sq->n);
+
+      //printf("Allocation: %ld\n", p7_gmxchk_Sizeof(fwdc));
+
+      /* Set the profile and null model's target length models */
+      p7_bg_SetLength(bg,   sq->n);
+      p7_ReconfigLength(gm, sq->n);
+
+      /* Run Forward in both modes */
+      p7_GForward            (sq->dsq, sq->n, gm, fwd,  &fsc);
+      p7_GForwardCheckpointed(sq->dsq, sq->n, gm, gxc, &fsc2);
+
+      /* Dump the DP matrices. (Voluminous; only small examples are reasonable) */
+      //p7_gmx_Dump(stdout,    fwd, p7_DEFAULT);
+      //p7_gmxchk_Dump(stdout, gxc, p7_DEFAULT);
+
+      /* Run Backward in both modes */
+      p7_GBackward            (sq->dsq, sq->n, gm, bck, &bsc);
+      //p7_gmx_Dump(stdout,    bck, p7_DEFAULT);
+
+      //p7_gmxchk_SetDumpMode(gxc, stdout, p7_DEFAULT);
+      p7_GBackwardCheckpointed(sq->dsq, sq->n, gm, gxc, bnd, &bsc2);
+      //p7_gmxchk_SetDumpMode(gxc, NULL, 0);
+
+      p7_gbands_Dump(stdout, bnd);
+
+      /* Those scores are partial log-odds likelihoods in nats.
+       * Subtract off the rest of the null model, convert to bits.
+       */
+      p7_bg_NullOne(bg, sq->dsq, sq->n, &nullsc);
+
+      printf("%-30s   %10.4f %10.4f   %10.4f %10.4f     %10.4f %10.4f   %10.4f %10.4f\n",
+	     sq->name, 
+	     fsc, fsc2, 
+	     (fsc - nullsc) / eslCONST_LOG2, (fsc2 - nullsc) / eslCONST_LOG2,
+	     bsc, bsc2,
+	     (bsc - nullsc) / eslCONST_LOG2, (bsc2 - nullsc) / eslCONST_LOG2);
+
+      p7_gmx_Reuse(fwd);
+      p7_gmx_Reuse(bck);
+      p7_gmxchk_Reuse(gxc);
+      p7_gbands_Reuse(bnd);
+      esl_sq_Reuse(sq);
+    }
+
+  /* Cleanup */
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_gmxchk_Destroy(gxc);
+  p7_gbands_Destroy(bnd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_FWDBACK_CHK_EXAMPLE*/
+/*------------------- end, example main() -----------------------*/
+      
+
+/* References:
+ *    SRE J8/109-112, Oct 2011: implementation plan.
+ */
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *    
+ * SVN $Id$
+ * SVN $URL$
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_rescaled.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_rescaled.c
new file mode 100755
index 0000000..7377988
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_fwdback_rescaled.c
@@ -0,0 +1,642 @@
+/*
+ *  gcc -o generic_fwdback_rescaled_example -mssse3 -I. -I../easel -L../easel -L. generic_fwdback_rescaled.c  -lhmmer -leasel
+ */
+
+#include "p7_config.h"
+
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+extern int   p7_GForwardOdds(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float *opt_sc);
+extern int   p7_profile_CopyInfoFromHMM(P7_PROFILE *gm, const P7_HMM *hmm);
+extern int   p7_profile_ReconfigLengthInOdds(P7_PROFILE *gm, int L);
+extern int   p7_profile_ConfigInOdds         (const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, int mode);
+extern int   p7_profile_ConfigInOdds_DDScaled(const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, float *ret_ddscale);
+extern float p7_gmx_Max(P7_GMX *gx);
+extern float p7_gmx_Min(P7_GMX *gx);
+
+
+#define STYLES     "--dd,--fs,--sw,--ls,--s"	               /* Exclusive choice for alignment mode     */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range  toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "--dd",      eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "DD-scaled unihit glocal alignment",                0 },
+  { "--fs",      eslARG_NONE,"default",NULL, NULL, STYLES,  NULL, NULL, "multihit local alignment",                         0 },
+  { "--sw",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit local alignment",                           0 },
+  { "--ls",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "multihit glocal alignment",                        0 },
+  { "--s",       eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit glocal alignment",                          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "testbed for Farrar DD-scaled Forward, generic implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_PROFILE     *gmref   = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *fwdref  = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fsc, fscref;
+  float           nullsc;
+  float           ddscale           = 0.0;
+  float           min, max;
+  int             status;
+
+  printf("%-30s %-30s   %-10s   %-10s\n", "# profile name",  "# seq name",      "fwd (test)",  "fwd (ref) ");
+  printf("%-30s %-30s   %10s   %10s\n",   "#--------------", "#--------------", "----------",  "----------");
+
+
+  /* Open the HMM file */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+ 
+  while ( (status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF)
+    {
+      if      (status == eslEOD)       p7_Fail("read failed, HMM file %s may be truncated?", hmmfile);
+      else if (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+      else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+      else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+      /* Open the sqfile */
+      sq     = esl_sq_CreateDigital(abc);
+      status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+      if      (status == eslENOTFOUND) p7_Fail("No such file.");
+      else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+      else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+      else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+      bg     = p7_bg_Create(abc);
+
+      /* Config the test model however we were asked to */
+      gm = p7_profile_Create(hmm->M, abc);
+      if      (esl_opt_GetBoolean(go, "--dd"))  status = p7_profile_ConfigInOdds_DDScaled(hmm, bg, gm, sq->n, &ddscale);
+      else if (esl_opt_GetBoolean(go, "--fs"))  status = p7_profile_ConfigInOdds         (hmm, bg, gm, sq->n, p7_LOCAL);
+      else if (esl_opt_GetBoolean(go, "--sw"))  status = p7_profile_ConfigInOdds         (hmm, bg, gm, sq->n, p7_UNILOCAL);
+      else if (esl_opt_GetBoolean(go, "--ls"))  status = p7_profile_ConfigInOdds         (hmm, bg, gm, sq->n, p7_GLOCAL);
+      else if (esl_opt_GetBoolean(go, "--s"))   status = p7_profile_ConfigInOdds         (hmm, bg, gm, sq->n, p7_UNIGLOCAL);
+      if (status == eslERANGE) printf("# MODEL ENTRY UNDERFLOW: %s\n", hmm->name);
+
+      /* Config the reference model the same way */
+      gmref = p7_profile_Create(hmm->M, abc);
+      if      (esl_opt_GetBoolean(go, "--dd"))  status = p7_ProfileConfig(hmm, bg, gmref, sq->n, p7_UNIGLOCAL);
+      else if (esl_opt_GetBoolean(go, "--fs"))  status = p7_ProfileConfig(hmm, bg, gmref, sq->n, p7_LOCAL);
+      else if (esl_opt_GetBoolean(go, "--sw"))  status = p7_ProfileConfig(hmm, bg, gmref, sq->n, p7_UNILOCAL);
+      else if (esl_opt_GetBoolean(go, "--ls"))  status = p7_ProfileConfig(hmm, bg, gmref, sq->n, p7_GLOCAL);
+      else if (esl_opt_GetBoolean(go, "--s"))   status = p7_ProfileConfig(hmm, bg, gmref, sq->n, p7_UNIGLOCAL);
+
+      fwd    = p7_gmx_Create(gm->M,    400);
+      fwdref = p7_gmx_Create(gmref->M, 400);
+
+      while ( (status = esl_sqio_Read(sqfp, sq)) != eslEOF)
+	{
+	  if      (status == eslEFORMAT) p7_Fail("Parse failed (sequence file %s)\n%s\n", sqfp->filename, sqfp->get_error(sqfp));     
+	  else if (status != eslOK)      p7_Fail("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+
+	  /* Resize DP matrix if necessary */
+	  p7_gmx_GrowTo(fwd,    gm->M,    sq->n);
+	  p7_gmx_GrowTo(fwdref, gmref->M, sq->n);
+
+	  /* Set the profile and null model's target length models */
+	  p7_bg_SetLength(bg, sq->n);
+	  p7_profile_ReconfigLengthInOdds(gm,    sq->n);
+	  p7_ReconfigLength      (gmref, sq->n);
+
+	  /* Run Forward test version*/
+	  p7_GForwardOdds (sq->dsq, sq->n, gm, fwd, &fsc);
+	  fsc += ddscale;
+
+	  /* Run Forward reference version */
+	  p7_GForward( sq->dsq, sq->n, gmref, fwdref, &fscref);
+
+	  //p7_gmx_Dump(stdout, fwd, p7_SHOW_LOG);
+      
+	  /* Those scores are partial log-odds likelihoods in nats.
+	   * Subtract off the rest of the null model, convert to bits.
+	   */
+	  p7_bg_NullOne(bg, sq->dsq, sq->n, &nullsc);
+	  
+	  min    = p7_gmx_Min(fwd);
+	  max    = p7_gmx_Max(fwd);
+	  fsc    = (fsc    - nullsc) / eslCONST_LOG2;
+	  fscref = (fscref - nullsc) / eslCONST_LOG2;
+	  printf("%-30s %-30s   %10.4f   %10.4f     %10.4g %10.4g    %4s %9s %9s\n", 
+		 gm->name, sq->name, fsc, fscref,
+		 min, max,
+		 (fabs(fsc - fscref) >= 0.5 ? "FAIL"      : "pass"),
+		 (min == 0.0 ?                "UNDERFLOW" : "ok"),
+		 ((max > 1e37 || isinf(max))? "OVERFLOW"  : "ok"));
+		  
+	  
+	  p7_gmx_Reuse(fwd);
+	  p7_gmx_Reuse(fwdref);
+	  esl_sq_Reuse(sq);
+	}
+
+      p7_gmx_Destroy(fwd);
+      p7_gmx_Destroy(fwdref);
+      p7_profile_Destroy(gm);
+      p7_profile_Destroy(gmref);
+      p7_hmm_Destroy(hmm);
+      p7_bg_Destroy(bg);
+      esl_sq_Destroy(sq);
+      esl_sqfile_Close(sqfp);
+    }
+
+  /* Cleanup */
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+int
+p7_GForwardOdds(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float *opt_sc)
+{
+  float const *tsc = gm->tsc;
+  float      **dp  = gx->dp;
+  float       *xmx = gx->xmx;
+  int          M   = gm->M;
+  int          i,k;
+  float        esc  = p7_profile_IsLocal(gm) ? 1.0f : 0.0f;
+  float        totscale = 0.0f;
+  float        rescale;
+
+  /* Initialization of the zero row */
+  XMX(0,p7G_N) = 1.0f;		              /* S->N, p=1 */
+  XMX(0,p7G_B) = gm->xsc[p7P_N][p7P_MOVE];    /* S->N->B, 1*t_NB */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) = 0.0f; /* need seq to get here */
+  for (k = 0; k <= M; k++) 
+    MMX(0,k) = IMX(0,k) = DMX(0,k) = 0.0f;
+  
+  /* Recursion
+   * boundary conditions: tsc[0][] = impossible for all eight transitions (no node 0)
+   *                      D_1 wastefully calculated (doesn't exist)
+   */
+  for (i = 1; i <= L; i++)
+    {
+      float const *rsc = gm->rsc[dsq[i]];
+      float sc;
+
+      MMX(i,0) = IMX(i,0) = DMX(i,0) = 0.0f;
+      XMX(i, p7G_E) = 0.0f;
+      
+      for (k = 1; k < M; k++)
+	{
+	  /* match state */
+	  sc =   MMX(i-1,k-1)   * TSC(p7P_MM,k-1) 
+	       + IMX(i-1,k-1)   * TSC(p7P_IM,k-1)
+	       + XMX(i-1,p7G_B) * TSC(p7P_BM,k-1)
+	       + DMX(i-1,k-1)   * TSC(p7P_DM,k-1);
+	  MMX(i,k) = sc * MSC(k);
+
+	  /* insert state */
+	  sc =   MMX(i-1,k) * TSC(p7P_MI,k)
+	       + IMX(i-1,k) * TSC(p7P_II,k);
+	  IMX(i,k) = sc * ISC(k);
+
+	  /* delete state */
+	  DMX(i,k) =   MMX(i,k-1) * TSC(p7P_MD,k-1)
+	             + DMX(i,k-1) * TSC(p7P_DD,k-1);
+	  
+	  /* E state update */
+	  XMX(i,p7G_E) +=   MMX(i,k) * esc
+                          + DMX(i,k) * esc;
+	}
+      /* unrolled match state M_M */
+      sc =   MMX(i-1,M-1)   * TSC(p7P_MM,M-1) 
+	   + IMX(i-1,M-1)   * TSC(p7P_IM,M-1)
+	   + XMX(i-1,p7G_B) * TSC(p7P_BM,M-1)
+	   + DMX(i-1,M-1)   * TSC(p7P_DM,M-1);
+      MMX(i,M) = sc * MSC(M);
+      IMX(i,M) = 0.0f;
+
+      /* unrolled delete state D_M */
+      DMX(i,M) =   MMX(i,M-1) * TSC(p7P_MD,M-1)
+	         + DMX(i,M-1) * TSC(p7P_DD,M-1);
+
+      /* unrolled E state update */
+      XMX(i,p7G_E) += MMX(i,M) + DMX(i,M);
+
+      /* J state */
+      XMX(i,p7G_J) =   XMX(i-1,p7G_J) * gm->xsc[p7P_J][p7P_LOOP]
+                     + XMX(i,  p7G_E) * gm->xsc[p7P_E][p7P_LOOP];
+      /* C state */
+      XMX(i,p7G_C) =   XMX(i-1,p7G_C) * gm->xsc[p7P_C][p7P_LOOP]
+		     + XMX(i,  p7G_E) * gm->xsc[p7P_E][p7P_MOVE];
+      /* N state */
+      XMX(i,p7G_N) =   XMX(i-1,p7G_N) * gm->xsc[p7P_N][p7P_LOOP];
+
+      /* B state */
+      XMX(i,p7G_B) =   XMX(i,  p7G_N) * gm->xsc[p7P_N][p7P_MOVE]
+		     + XMX(i,  p7G_J) * gm->xsc[p7P_J][p7P_MOVE];
+
+      /* sparse rescaling */
+      if (XMX(i,p7G_E) > 1.0e4)
+	{
+	  rescale   = 1.0 / XMX(i,p7G_E);
+	  totscale += log(XMX(i,p7G_E));
+
+	  XMX(i,p7G_N) *= rescale;
+	  XMX(i,p7G_B) *= rescale;
+	  XMX(i,p7G_E)  = 1.0;
+	  XMX(i,p7G_J) *= rescale;
+	  XMX(i,p7G_C) *= rescale;
+	  for (k = 1; k <= M; k++)
+	    {
+	      MMX(i,k) *= rescale;
+	      DMX(i,k) *= rescale;
+	      IMX(i,k) *= rescale;
+	    }
+	}
+    }
+
+  if (opt_sc != NULL) *opt_sc = log(XMX(L,p7G_C) * gm->xsc[p7P_C][p7P_MOVE]) + totscale;
+  gx->M = M;
+  gx->L = L;
+  return eslOK;
+}
+
+
+/* this is a copy of a block of modelconfig.c::p7_ProfileConfig() 
+ * ...and could replace it
+ */
+int
+p7_profile_CopyInfoFromHMM(P7_PROFILE *gm, const P7_HMM *hmm)
+{
+  int z;
+  int status;
+
+  /* Contract checks */
+  if (gm->abc->type != hmm->abc->type) ESL_XEXCEPTION(eslEINVAL, "HMM and profile alphabet don't match");
+  if (hmm->M > gm->allocM)             ESL_XEXCEPTION(eslEINVAL, "profile too small to hold HMM");
+  if (! (hmm->flags & p7H_CONS))       ESL_XEXCEPTION(eslEINVAL, "HMM must have a consensus to transfer to the profile");
+
+  /* Copy some pointer references and other info across from HMM  */
+  gm->M                = hmm->M;
+  gm->max_length       = hmm->max_length;
+  gm->mode             = p7_NO_MODE;
+  gm->roff             = -1;
+  gm->eoff             = -1;
+  gm->offs[p7_MOFFSET] = -1;
+  gm->offs[p7_FOFFSET] = -1;
+  gm->offs[p7_POFFSET] = -1;
+  if (gm->name != NULL) free(gm->name);
+  if (gm->acc  != NULL) free(gm->acc);
+  if (gm->desc != NULL) free(gm->desc);
+  if ((status = esl_strdup(hmm->name,   -1, &(gm->name))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(hmm->acc,    -1, &(gm->acc)))  != eslOK) goto ERROR;
+  if ((status = esl_strdup(hmm->desc,   -1, &(gm->desc))) != eslOK) goto ERROR;
+  if (hmm->flags & p7H_RF)    strcpy(gm->rf,        hmm->rf);
+  if (hmm->flags & p7H_MMASK) strcpy(gm->mm,        hmm->mm);
+  if (hmm->flags & p7H_CONS)  strcpy(gm->consensus, hmm->consensus); /* must be present, actually, so the flag test is just for symmetry w/ other optional HMM fields */
+  if (hmm->flags & p7H_CS)    strcpy(gm->cs,        hmm->cs);
+  for (z = 0; z < p7_NEVPARAM; z++) gm->evparam[z] = hmm->evparam[z];
+  for (z = 0; z < p7_NCUTOFFS; z++) gm->cutoff[z]  = hmm->cutoff[z];
+  for (z = 0; z < p7_MAXABET;  z++) gm->compo[z]   = hmm->compo[z];
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+int
+p7_profile_ReconfigLengthInOdds(P7_PROFILE *gm, int L)
+{
+  float ploop, pmove;
+  
+  /* Configure N,J,C transitions so they bear L/(2+nj) of the total
+   * unannotated sequence length L. 
+   */
+  pmove = (2.0f + gm->nj) / ((float) L + 2.0f + gm->nj); /* 2/(L+2) for sw; 3/(L+3) for fs */
+  ploop = 1.0f - pmove;
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = gm->xsc[p7P_J][p7P_LOOP] = ploop;
+  gm->xsc[p7P_N][p7P_MOVE] =  gm->xsc[p7P_C][p7P_MOVE] = gm->xsc[p7P_J][p7P_MOVE] = pmove;
+  gm->L = L;
+  return eslOK;
+}
+
+/* like p7_ProfileConfig(), but in odds ratios rather than log. 
+ * This is the "normal" odds ratio version.
+ * See _DDScaled for an experimental version for glocal/global.
+ * 
+ * In glocal, because we left-wing-retract the BMk transition,
+ * that transition can underflow. If it does, return <eslERANGE>.
+ */
+int
+p7_profile_ConfigInOdds(const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, int mode)
+{
+  int    k,x;
+  float *occ = NULL;
+  float *tp, *rp;
+  float  sc[p7_MAXCODE];
+  float  Z;
+  int    status;
+  int    did_underflow = FALSE;
+
+  if ( (status = p7_profile_CopyInfoFromHMM(gm, hmm)) != eslOK) return status;
+  gm->mode = mode;
+
+  /* Some initializations assumed log space. Change them to probspace.  */
+  esl_vec_FSet(gm->tsc, p7P_NTRANS, 0.0f);     /* node 0 nonexistent, has no transitions  */
+  if (gm->M > 1) {
+    p7P_TSC(gm, 1, p7P_DM) = 0.0f;             /* delete state D_1 is wing-retracted      */
+    p7P_TSC(gm, 1, p7P_DD) = 0.0f;
+  }
+  for (x = 0; x < gm->abc->Kp; x++) {        
+    p7P_MSC(gm, 0,      x) = 0.0f;             /* no emissions from nonexistent M_0... */
+    p7P_ISC(gm, 0,      x) = 0.0f;             /* or I_0... */
+    /* I_M is initialized in profile config, when we know actual M, not just allocated max M   */
+  }
+  x = esl_abc_XGetGap(gm->abc);	                       /* no emission can emit/score gap characters */
+  esl_vec_FSet(gm->rsc[x], (gm->M+1)*p7P_NR, 0.0f);
+  x = esl_abc_XGetMissing(gm->abc);	                      /* no emission can emit/score missing data characters */
+  esl_vec_FSet(gm->rsc[x], (gm->M+1)*p7P_NR, 0.0f);
+
+
+  /* Entry scores. Recall k-1,k off-by-one storage issue here. 
+   * p7P_TSC(gm, k-1, p7P_BM) is the t_BMk transition 
+   */
+  if (p7_profile_IsLocal(gm))
+    {
+      /* Local mode entry:  occ[k] /( \sum_i occ[i] * (M-i+1))
+       * (Reduces to uniform 2/(M(M+1)) for occupancies of 1.0)  */
+      Z = 0.;
+      ESL_ALLOC(occ, sizeof(float) * (hmm->M+1));
+
+      if ((status = p7_hmm_CalculateOccupancy(hmm, occ, NULL)) != eslOK) goto ERROR;
+      for (k = 1; k <= hmm->M; k++) 
+	Z += occ[k] * (float) (hmm->M-k+1);
+      for (k = 1; k <= hmm->M; k++) 
+	p7P_TSC(gm, k-1, p7P_BM) = occ[k] / Z; /* note off-by-one: entry at Mk stored as [k-1][BM] */
+      free(occ);
+    }
+  else	/* glocal modes: left wing retraction. Check for underflow. */
+    {	
+      Z = hmm->t[0][p7H_MD];
+      p7P_TSC(gm, 0, p7P_BM) = 1.0 - Z;
+      for (k = 1; k < hmm->M; k++) 
+	{
+	  p7P_TSC(gm, k, p7P_BM) =  Z * hmm->t[k][p7H_DM];
+	  Z *= hmm->t[k][p7H_DD];
+	}
+      if (p7P_TSC(gm, hmm->M-1, p7P_BM) == 0.0f) did_underflow = TRUE;
+    }
+
+  /* E state loop/move probabilities: nonzero for MOVE allows loops/multihits
+   * N,C,J transitions are set later by target length model config
+   */
+  if (p7_profile_IsMultihit(gm)) {
+    gm->xsc[p7P_E][p7P_MOVE] = 0.5f;
+    gm->xsc[p7P_E][p7P_LOOP] = 0.5f;
+    gm->nj                   = 1.0f;
+  } else {
+    gm->xsc[p7P_E][p7P_MOVE] = 1.0f;   
+    gm->xsc[p7P_E][p7P_LOOP] = 0.0f;
+    gm->nj                   = 0.0f;
+  }
+  
+  /* main profile transition scores */
+  for (k = 1; k < gm->M; k++) 
+    {
+      tp = gm->tsc + k * p7P_NTRANS;
+      tp[p7P_MM] = hmm->t[k][p7H_MM];
+      tp[p7P_MI] = hmm->t[k][p7H_MI];
+      tp[p7P_MD] = hmm->t[k][p7H_MD];
+      tp[p7P_IM] = hmm->t[k][p7H_IM];
+      tp[p7P_II] = hmm->t[k][p7H_II];
+      tp[p7P_DM] = hmm->t[k][p7H_DM];
+      tp[p7P_DD] = hmm->t[k][p7H_DD];
+    }
+				 
+  /* match residue scores */
+  /* we still compute this in log space, then exp() it back,
+   * because degenerate residue scores are avg log odds.
+   */
+  sc[hmm->abc->K]     = -eslINFINITY; /* gap character */
+  sc[hmm->abc->Kp-2]  = -eslINFINITY; /* nonresidue character */
+  sc[hmm->abc->Kp-1]  = -eslINFINITY; /* missing data character */
+  for (k = 1; k <= hmm->M; k++) {
+    for (x = 0; x < hmm->abc->K; x++) 
+      sc[x] = log(hmm->mat[k][x] / bg->f[x]);
+    esl_abc_FExpectScVec(hmm->abc, sc, bg->f); 
+    for (x = 0; x < hmm->abc->Kp; x++) {
+      rp = gm->rsc[x] + k * p7P_NR;
+      rp[p7P_MSC] = exp(sc[x]);
+    }
+  }
+
+  /* insert residue scores, hardwired to odds ratio of 1.0 */
+  for (x = 0; x < gm->abc->Kp; x++)
+    {
+      for (k = 1; k < hmm->M; k++) p7P_ISC(gm, k, x) = 1.0f;
+      p7P_ISC(gm, hmm->M, x) = 0.0f;   /* init I_M to impossible.   */
+    }
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->K)    = 0.0f; /* gap symbol */
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->Kp-2) = 0.0f; /* nonresidue symbol */
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->Kp-1) = 0.0f; /* missing data symbol */
+
+
+  /* Remaining specials, [NCJ][MOVE | LOOP] are set by ReconfigLengthInOdds() */
+  gm->L = 0;			/* force ReconfigLengthInOdds to reconfig */
+  if ((status = p7_profile_ReconfigLengthInOdds(gm, L)) != eslOK) goto ERROR;
+
+  return (did_underflow ? eslERANGE : eslOK);
+
+ ERROR:
+  if (occ) free(occ);
+  return status;
+}
+
+
+/* Experimental version that scales by DD transitions
+ * Model must be unihit glocal (p7_UNILOCAL)
+ */
+int
+p7_profile_ConfigInOdds_DDScaled(const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, float *ret_ddscale)
+{
+  int    k,x;
+  float *occ = NULL;
+  float  ddscale;
+  float *tp, *rp;
+  float  sc[p7_MAXCODE];
+  int    status;
+
+  if ( (status = p7_profile_CopyInfoFromHMM(gm, hmm)) != eslOK) return status;
+  gm->mode = p7_UNIGLOCAL;
+
+  /* Some initializations assumed log space. 
+   * Change them
+   */
+  esl_vec_FSet(gm->tsc, p7P_NTRANS, 0.0f);     /* node 0 nonexistent, has no transitions  */
+  if (gm->M > 1) {
+    p7P_TSC(gm, 1, p7P_DM) = 0.0f;             /* delete state D_1 is wing-retracted      */
+    p7P_TSC(gm, 1, p7P_DD) = 0.0f;
+  }
+  for (x = 0; x < gm->abc->Kp; x++) {        
+    p7P_MSC(gm, 0,      x) = 0.0f;             /* no emissions from nonexistent M_0... */
+    p7P_ISC(gm, 0,      x) = 0.0f;             /* or I_0... */
+    /* I_M is initialized in profile config, when we know actual M, not just allocated max M   */
+  }
+  x = esl_abc_XGetGap(gm->abc);	                       /* no emission can emit/score gap characters */
+  esl_vec_FSet(gm->rsc[x], (gm->M+1)*p7P_NR, 0.0f);
+  x = esl_abc_XGetMissing(gm->abc);	                      /* no emission can emit/score missing data characters */
+  esl_vec_FSet(gm->rsc[x], (gm->M+1)*p7P_NR, 0.0f);
+
+
+  /* glocal mode BMk entries, DD-scaled */
+  p7P_TSC(gm, 0, p7P_BM) = 1.0 - hmm->t[0][p7H_MD];
+  for (k = 1; k < hmm->M; k++) 
+    p7P_TSC(gm, k, p7P_BM) =  hmm->t[0][p7H_MD] * hmm->t[k][p7H_DM] / hmm->t[k][p7H_DD];
+
+  /* unihit E state loop/move probabilities */
+  gm->xsc[p7P_E][p7P_MOVE] = 1.0f;   
+  gm->xsc[p7P_E][p7P_LOOP] = 0.0f;
+  gm->nj                   = 0.0f;
+
+  /* main profile transition scores, DD-scaled */
+  for (k = 1; k < gm->M; k++)
+    {
+      tp      = gm->tsc + k * p7P_NTRANS;
+      ddscale = 1.0f/hmm->t[k][p7H_DD];
+      
+      tp[p7P_MM] = hmm->t[k][p7H_MM] * ddscale;
+      tp[p7P_MI] = hmm->t[k][p7H_MI];
+      tp[p7P_MD] = hmm->t[k][p7H_MD] * ddscale;
+      tp[p7P_IM] = hmm->t[k][p7H_IM] * ddscale;
+      tp[p7P_II] = hmm->t[k][p7H_II];
+      tp[p7P_DM] = hmm->t[k][p7H_DM] * ddscale;
+      tp[p7P_DD] = 1.0;
+    }
+
+  /* compute log(\prod_k=1..M-1 t_k(DD), total rescale factor */
+  ddscale = 0.0f;
+  if (! p7_profile_IsLocal(gm)) /* glocal mode: nonzero ddscale  */
+    {
+      for (k = 1; k < gm->M; k++)
+	ddscale += log(hmm->t[k][p7H_DD]);
+    }
+
+  /* match residue scores */
+  /* we still compute this in log space, then exp() it back,
+   * because degenerate residue scores are avg log odds.
+   */
+  sc[hmm->abc->K]     = -eslINFINITY; /* gap character */
+  sc[hmm->abc->Kp-2]  = -eslINFINITY; /* nonresidue character */
+  sc[hmm->abc->Kp-1]  = -eslINFINITY; /* missing data character */
+  for (k = 1; k <= hmm->M; k++) {
+    for (x = 0; x < hmm->abc->K; x++) 
+      sc[x] = log(hmm->mat[k][x] / bg->f[x]);
+    esl_abc_FExpectScVec(hmm->abc, sc, bg->f); 
+    for (x = 0; x < hmm->abc->Kp; x++) {
+      rp = gm->rsc[x] + k * p7P_NR;
+      rp[p7P_MSC] = exp(sc[x]);
+    }
+  }
+
+  /* insert residue scores, hardwired to odds ratio of 1.0 */
+  for (x = 0; x < gm->abc->Kp; x++)
+    {
+      for (k = 1; k < hmm->M; k++) p7P_ISC(gm, k, x) = 1.0f;
+      p7P_ISC(gm, hmm->M, x) = 0.0f;   /* init I_M to impossible.   */
+    }
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->K)    = 0.0f; /* gap symbol */
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->Kp-2) = 0.0f; /* nonresidue symbol */
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->Kp-1) = 0.0f; /* missing data symbol */
+
+
+  /* Remaining specials, [NCJ][MOVE | LOOP] are set by ReconfigLengthInOdds() */
+  gm->L = 0;			/* force ReconfigLengthInOdds to reconfig */
+  if ((status = p7_profile_ReconfigLengthInOdds(gm, L)) != eslOK) goto ERROR;
+
+  *ret_ddscale = ddscale;
+  return eslOK;
+
+ ERROR:
+  if (occ) free(occ);
+  return status;
+}
+
+
+
+
+float
+p7_gmx_Max(P7_GMX *gx)
+{
+  float **dp  = gx->dp;
+  float  *xmx = gx->xmx;
+  float   max;
+  int     i,k;
+  
+  /* all k=0 are invalid (-inf or 0 as boundary condition)       */
+  /* all D_1 and I_M are invalid (don't exist in search profile) */
+  /* on i=0 row, only B, N are valid */
+  /* on i=1 row, all I_k are invalid */
+  /* in unihit mode, all J are invalid */
+  max = ESL_MAX( XMX(0, p7G_N), XMX(0, p7G_B));
+  for (i = 1; i <= gx->L; i++)
+    {
+      for (k = 1; k <= gx->M; k++) max = ESL_MAX( max, MMX(i,k));
+      for (k = 2; k <= gx->M; k++) max = ESL_MAX( max, DMX(i,k));
+      if (i > 1) 
+	for (k = 1; k <  gx->M; k++) max = ESL_MAX( max, IMX(i,k));
+
+      /* we don't have to check J; it's equal to C in multihit mode, for our current multihit parameterization of EJ=EC=0.5 */
+      max = ESL_MAX(max, XMX(i, p7G_E));
+      max = ESL_MAX(max, XMX(i, p7G_N));
+      max = ESL_MAX(max, XMX(i, p7G_B));
+      max = ESL_MAX(max, XMX(i, p7G_C));
+    }
+  return max;
+}
+
+float
+p7_gmx_Min(P7_GMX *gx)
+{
+  float **dp  = gx->dp;
+  float  *xmx = gx->xmx;
+  float   min;
+  int     i,k;
+  
+  /* all k=0 are invalid (-inf or 0 as boundary condition)       */
+  /* all D_1 and I_M are invalid (don't exist in search profile) */
+  /* on i=0 row, only B, N are valid */
+  /* on i=1 row, all I_k are invalid */
+  /* in unihit mode, all J are invalid */
+  min = ESL_MIN( XMX(0, p7G_N), XMX(0, p7G_B));
+  for (i = 1; i <= gx->L; i++)
+    {
+      for (k = 1; k <= gx->M; k++) min = ESL_MIN( min, MMX(i,k));
+      for (k = 2; k <= gx->M; k++) min = ESL_MIN( min, DMX(i,k));
+      if (i > 1) 
+	for (k = 1; k <  gx->M; k++) min = ESL_MIN( min, IMX(i,k));
+
+      /* we don't have to check J; it's equal to C in multihit mode, for our current multihit parameterization of EJ=EC=0.5 */
+      min = ESL_MIN(min, XMX(i, p7G_E));
+      min = ESL_MIN(min, XMX(i, p7G_N));
+      min = ESL_MIN(min, XMX(i, p7G_B));
+      min = ESL_MIN(min, XMX(i, p7G_C));
+    }
+  return min;
+}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_msv.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_msv.c
new file mode 100755
index 0000000..ec2357a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_msv.c
@@ -0,0 +1,583 @@
+/* MSV algorithm; generic (non-SIMD) version.
+ * 
+ * Contents:
+ *   1. MSV implementation.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ * 
+ * SRE, Fri Aug 15 10:38:21 2008 [Janelia]
+ * SVN $Id: generic_msv.c 4540 2013-10-15 15:45:51Z wheelert $
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_gumbel.h"
+
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. MSV implementation.
+ *****************************************************************/
+
+/* Function:  p7_GMSV()
+ * Synopsis:  The MSV score algorithm (slow, correct version)
+ * Incept:    SRE, Thu Dec 27 08:33:39 2007 [Janelia]
+ *
+ * Purpose:   Calculates the maximal score of ungapped local segment
+ *            pair alignments, taking advantage of the fact that this
+ *            is simply equivalent to setting all MM transitions to 1.0
+ *            in a multihit local profile.
+ *            
+ * Args:      dsq          - sequence in digitized form, 1..L
+ *            L            - length of dsq
+ *            gm           - profile (can be in any mode)
+ *            gx           - DP matrix with room for an MxL alignment
+ *            nu           - configuration: expected number of hits (use 2.0 as a default)
+ *            opt_sc       - optRETURN: MSV lod score in nats.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Note:      This is written deliberately as a modified p7_GViterbi
+ *            routine. It could be faster -- we don't need the
+ *            interleaved dp matrix or residue scores, since we aren't
+ *            calculating D or I states, for example, and we could do
+ *            without some of the special states -- but speed is the
+ *            job of the optimized implementations. Rather, the goal
+ *            here is to establish a stable, probabilistically correct
+ *            reference calculation. (Thus, the CC, NN, JJ transitions
+ *            are real scores here, not fixed to 0 as in the optimized
+ *            versions.)  
+ */            
+int
+p7_GMSV(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float nu, float *opt_sc)
+{
+  float      **dp    = gx->dp;
+  float       *xmx   = gx->xmx;
+  float        tloop = logf((float) L / (float) (L+3));
+  float        tmove = logf(     3.0f / (float) (L+3));
+  float        tbmk  = logf(     2.0f / ((float) gm->M * (float) (gm->M+1)));
+  float        tej   = logf((nu - 1.0f) / nu);
+  float        tec   = logf(1.0f / nu);
+  int          i,k;
+
+
+  XMX(0,p7G_N) = 0;
+  XMX(0,p7G_B) = tmove;                                      /* S->N->B, no N-tail   */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) =-eslINFINITY;  /* need seq to get here */
+  for (k = 0; k <= gm->M; k++)
+    MMX(0,k) = -eslINFINITY;                                 /* need seq to get here */
+
+
+  for (i = 1; i <= L; i++)
+  {
+
+	  float const *rsc = gm->rsc[dsq[i]];
+      MMX(i,0)     = -eslINFINITY;
+      XMX(i,p7G_E) = -eslINFINITY;
+      for (k = 1; k <= gm->M; k++) 
+		{
+		  MMX(i,k)     = MSC(k) + ESL_MAX(MMX(i-1,k-1), XMX(i-1,p7G_B) + tbmk);
+		  XMX(i,p7G_E) = ESL_MAX(XMX(i,p7G_E), MMX(i,k));
+		}
+
+   
+      XMX(i,p7G_J) = ESL_MAX( XMX(i-1,p7G_J) + tloop,     XMX(i, p7G_E) + tej);
+      XMX(i,p7G_C) = ESL_MAX( XMX(i-1,p7G_C) + tloop,     XMX(i, p7G_E) + tec);
+      XMX(i,p7G_N) =          XMX(i-1,p7G_N) + tloop;
+      XMX(i,p7G_B) = ESL_MAX( XMX(i,  p7G_N) + tmove,     XMX(i, p7G_J) + tmove);
+
+  }
+
+
+  gx->M = gm->M;
+  gx->L = L;
+  if (opt_sc != NULL) *opt_sc = XMX(L,p7G_C) + tmove;
+  return eslOK;
+}
+/*---------------------- end, msv -------------------------------*/ 
+
+
+
+
+/* Function:  p7_GMSV_longtarget()
+ * Synopsis:  Finds windows with MSV scores above some threshold (slow, correct version)
+ * Incept:    TJW, Thu Jun 17 14:32:08 EDT 2010 [Janelia]
+ *
+ *
+ * Purpose:   Calculates the MSV score for regions of sequence <dsq> of length <L>
+ *            residues, and captures the positions at which such regions exceed the
+ *            score required to be significant in the eyes of the calling function
+ *            (usually p=0.02).  Note that this variant performs MSV computations,
+ *            while the optimized versions typically perform SSV (never passing
+ *            through the J state). See comments in impl_sse/p7_MSVFilter_longtarget()
+ *            for details
+ *
+ *            Rather than simply capturing positions at which a score threshold
+ *            is reached, this function establishes windows around those
+ *            high-scoring positions, then merges overlapping windows.
+ *
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues
+ *            gm      - profile (can be in any mode)
+ *            gx      - DP matrix
+ *            nu      - configuration: expected number of hits (use 2.0 as a default)
+ *            bg      - the background model, required for translating a P-value threshold into a score threshold
+ *            P       - p-value below which a region is captured as being above threshold
+ *            windowlist - RETURN: array of hit windows (start and end of diagonal) for the above-threshold areas
+ * *
+ *
+ * Note:      Not worried about speed here. Based on p7_GMSV
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_GMSV_longtarget(const ESL_DSQ *dsq, int L, P7_PROFILE *gm, P7_GMX *gx, float nu,  P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+
+  /* A couple differences between this MSV and the standard one:
+   *
+   * - the transitions are parameterized based on window length (gm->max_length), not target length.
+   * - because we're scanning along a sequence with the implicit assumption that each
+   *   point we're inspecting is part of a window, but we don't know where that window starts/ends,
+   *   we don't use the tloop cost in its proper form. Instead of incuring the tloop cost for
+   *   each pass through the N/C states, we simply build the whole chunk of loop cost into the
+   *   threshold (treating it as though it would've been added at the end of computation)
+   *
+   */
+
+  float      **dp    = gx->dp;
+  float       *xmx   = gx->xmx;
+  float        tloop = logf((float) gm->max_length / (float) (gm->max_length+3));
+  float        tmove = logf(     3.0f / (float) (gm->max_length+3));
+  float        tbmk  = logf(     2.0f / ((float) gm->M * (float) (gm->M+1)));
+  float        tej   = logf((nu - 1.0f) / nu);
+  float        tec   = logf(1.0f / nu);
+  int          i,k;
+
+  float 	   tloop_total = tloop * gm->max_length;
+
+  //int target_end;
+  int target_start;
+
+
+  float sc_thresh;
+  float nullsc;
+
+
+  /*
+   * Computing the score required to let P meet the F1 prob threshold
+   * In original code, converting from an MSV score S (the score getting
+   * to state C) to a probability goes like this:
+   *  S = XMX(L,p7G_C)
+   *  usc = S + tmove + tloop_total
+   *  P = f ( (usc - nullsc) / eslCONST_LOG2 , mu, lambda)
+   * and we're computing the threshold score S, so reverse it:
+   *  (usc - nullsc) /  eslCONST_LOG2 = inv_f( P, mu, lambda)
+   *  usc = nullsc + eslCONST_LOG2 * inv_f( P, mu, lambda)
+   *  S = usc - tmove - tloop_total
+   *
+   *  Here, I compute threshold with length model based on max_length.  Usually, the
+   *  length of a window returned by this scan will be longer than max_length.  Doesn't
+   *  really matter - in any case, both the bg and om models will change with roughly
+   *  1 bit for each doubling of the length model, so they offset.
+   */
+  float invP = esl_gumbel_invsurv(P, gm->evparam[p7_MMU],  gm->evparam[p7_MLAMBDA]);
+  p7_bg_SetLength(bg, gm->max_length);
+  p7_ReconfigLength(gm, gm->max_length);
+  p7_bg_NullOne  (bg, dsq, gm->max_length, &nullsc);
+
+  sc_thresh =   nullsc  + (invP * eslCONST_LOG2) - tmove - tloop_total;
+
+
+  XMX(0,p7G_N) = 0;
+  XMX(0,p7G_B) = tmove;                                      /* S->N->B, no N-tail   */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) =-eslINFINITY;  /* need seq to get here */
+  for (k = 0; k <= gm->M; k++)
+	MMX(0,k) = -eslINFINITY;                                 /* need seq to get here */
+
+  for (i = 1; i <= L; i++)
+  {
+	  float const *rsc = gm->rsc[dsq[i]];
+
+	  MMX(i,0)     = -eslINFINITY;
+	  XMX(i,p7G_E) = -eslINFINITY;
+
+	  for (k = 1; k <= gm->M; k++)
+	  {
+		  MMX(i,k)     = MSC(k) + ESL_MAX(MMX(i-1,k-1), XMX(i-1,p7G_B) + tbmk);
+		  XMX(i,p7G_E) = ESL_MAX(XMX(i,p7G_E), MMX(i,k));
+ 	  }
+
+      XMX(i,p7G_J) = ESL_MAX( XMX(i-1,p7G_J) /*+ tloop*/,     XMX(i, p7G_E) + tej);
+      XMX(i,p7G_C) = ESL_MAX( XMX(i-1,p7G_C) /*+ tloop*/,     XMX(i, p7G_E) + tec);
+      XMX(i,p7G_N) =          XMX(i-1,p7G_N) /*+ tloop*/;
+      XMX(i,p7G_B) = ESL_MAX( XMX(i,  p7G_N) + tmove,     XMX(i, p7G_J) + tmove);
+
+
+	  if (XMX(i,p7G_C) > sc_thresh)
+	  {
+	    target_start =  ESL_MAX(1, i - gm->max_length + 1);
+	    //target_end   =  ESL_MIN(L, i + gm->max_length - 1);
+
+	    //TODO: this is wrong - it just pretends the hit was to the middle of the model, to get dummy to
+	    // quit crashing.  Results are definitely wrong.
+	    // Need to get diagonal backtracking implemented in dummy
+	    p7_hmmwindow_new(windowlist, 0, target_start, 0, gm->M/2, 1, XMX(i,p7G_C), p7_NOCOMPLEMENT, L);
+
+
+		  //start the search all over again
+		  XMX(i,p7G_N) = 0;
+		  XMX(i,p7G_B) = tmove;                                      /* S->N->B, no N-tail   */
+		  XMX(i,p7G_E) = XMX(i,p7G_C) = XMX(i,p7G_J) =-eslINFINITY;  /* need seq to get here */
+		  for (k = 0; k <= gm->M; k++)
+			  MMX(i,k) = -eslINFINITY;
+
+	  }
+
+  }
+
+
+  return eslOK;
+
+}
+/*------------------ end, p7_GMSV_longtarget() ------------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7GENERIC_MSV_BENCHMARK
+/*
+   gcc -g -O2      -o generic_msv_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_MSV_BENCHMARK generic_msv.c -lhmmer -leasel -lm
+   icc -O3 -static -o generic_msv_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_MSV_BENCHMARK generic_msv.c -lhmmer -leasel -lm
+   ./benchmark-generic-msv <hmmfile>
+ */
+/* As of Fri Dec 28 14:48:39 2007
+ *    Viterbi  = 61.8 Mc/s
+ *    Forward  =  8.6 Mc/s
+ *   Backward  =  7.1 Mc/s
+ *       GMSV  = 55.9 Mc/s
+ * (gcc -g -O2, 3.2GHz Xeon, N=50K, L=400, M=72 RRM_1 model)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,  "20000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for generic MSV";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Baseline time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Benchmark time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_GMSV      (dsq, L, gm, gx, 2.0, &sc);
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_MSV_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_MSV_TESTDRIVE
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+/* The MSV score can be validated against Viterbi (provided we trust
+ * Viterbi), by creating a multihit local profile in which:
+ *   1. All t_MM scores = 0
+ *   2. All other core transitions = -inf
+ *   3. All t_BMk entries uniformly log 2/(M(M+1))
+ */
+static void
+utest_msv(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, P7_PROFILE *gm, int nseq, int L)
+{
+  P7_PROFILE *g2 = NULL;
+  ESL_DSQ   *dsq = NULL;
+  P7_GMX    *gx  = NULL;
+  float     sc1, sc2;
+  int       k, idx;
+
+  if ((dsq    = malloc(sizeof(ESL_DSQ) *(L+2))) == NULL)  esl_fatal("malloc failed");
+  if ((gx     = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("matrix creation failed");
+  if ((g2     = p7_profile_Clone(gm))           == NULL)  esl_fatal("profile clone failed");
+
+  /* Make g2's scores appropriate for simulating the MSV algorithm in Viterbi */
+  esl_vec_FSet(g2->tsc, p7P_NTRANS * g2->M, -eslINFINITY);
+  for (k = 1; k <  g2->M; k++) p7P_TSC(g2, k, p7P_MM) = 0.0f;
+  for (k = 0; k <  g2->M; k++) p7P_TSC(g2, k, p7P_BM) = log(2.0f / ((float) g2->M * (float) (g2->M+1)));
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+
+      if (p7_GMSV    (dsq, L, gm, gx, 2.0, &sc1)       != eslOK) esl_fatal("MSV failed");
+      if (p7_GViterbi(dsq, L, g2, gx,      &sc2)       != eslOK) esl_fatal("viterbi failed");
+      if (fabs(sc1-sc2) > 0.0001) esl_fatal("MSV score not equal to Viterbi score");
+    }
+
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(g2);
+  free(dsq);
+  return;
+}
+#endif /*p7GENERIC_MSV_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+/* gcc -g -Wall -Dp7GENERIC_MSV_TESTDRIVE -I. -I../easel -L. -L../easel -o generic_msv_utest generic_msv.c -lhmmer -leasel -lm
+ */
+#ifdef p7GENERIC_MSV_TESTDRIVE
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for the generic Msv implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = 100;
+  int             L    = 200;
+  int             nseq = 20;
+  char            errbuf[eslERRBUFSIZE];
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if (p7_hmm_Validate    (hmm, errbuf, 0.0001)      != eslOK) esl_fatal("whoops, HMM is bad!: %s", errbuf);
+  if (p7_profile_Validate(gm,  errbuf, 0.0001)      != eslOK) esl_fatal("whoops, profile is bad!: %s", errbuf);
+
+  utest_msv(go, r, abc, bg, gm, nseq, L);
+
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_MSV_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7GENERIC_MSV_EXAMPLE
+/* 
+   gcc -g -O2 -Dp7GENERIC_MSV_EXAMPLE -I. -I../easel -L. -L../easel -o generic_msv_example generic_msv.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "--nu",      eslARG_REAL,   "2.0", NULL, NULL,  NULL,  NULL, NULL, "set nu param to <x>: expected # MSV diagonals",    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of generic MSV algorithm";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  float           nu      = esl_opt_GetReal(go, "--nu");
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           sc, nullsc, seqscore, lnP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Open sequence file */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+
+  /* Allocate matrix */
+  fwd = p7_gmx_Create(gm->M, sq->n);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_ReconfigLength(gm,  sq->n);
+      p7_bg_SetLength(bg,    sq->n);
+      p7_gmx_GrowTo(fwd, gm->M, sq->n); 
+
+      /* Run MSV */
+      p7_GMSV(sq->dsq, sq->n, gm, fwd, nu, &sc);
+
+      /* Calculate bit score and P-value using standard null1 model*/
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+      seqscore = (sc - nullsc) / eslCONST_LOG2;
+      lnP      =  esl_gumbel_logsurv(seqscore,  gm->evparam[p7_MMU],  gm->evparam[p7_MLAMBDA]);
+
+      /* output suitable for direct use in profmark benchmark postprocessors:
+       * <Pvalue> <bitscore> <target name> <query name>
+       */
+      printf("%g\t%.2f\t%s\t%s\n", exp(lnP), seqscore, sq->name, hmm->name);
+
+      esl_sq_Reuse(sq);
+    }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n", sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+
+  /* Cleanup */
+  esl_sqfile_Close(sqfp); 
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(fwd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_MSV_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_null2.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_null2.c
new file mode 100755
index 0000000..6fb8b09
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_null2.c
@@ -0,0 +1,455 @@
+/* "null2" model: biased composition correction
+ * 
+ * Contents:
+ *   1. Null2 estimation algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *
+ * See p7_domaindef.c -- null2 correction of per-seq and per-domain
+ * scores is embedded within p7_domaindef's logic; we split it out
+ * to a separate file because it's so important.
+ * 
+ * SRE, Thu Feb 28 09:51:27 2008 [Janelia]
+ * SVN $Id: generic_null2.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+#define MMX(i,k)      (dp[(i)][(k) * p7G_NSCELLS + p7G_M])
+#define IMX(i,k)      (dp[(i)][(k) * p7G_NSCELLS + p7G_I])
+#define DMX(i,k)      (dp[(i)][(k) * p7G_NSCELLS + p7G_D])
+#define XMX(i,s)      (xmx[(i) * p7G_NXCELLS + (s)])
+
+
+/*****************************************************************
+ * 1. Null2 estimation algorithms.
+ *****************************************************************/
+
+/* Function:  p7_GNull2_ByExpectation()
+ * Synopsis:  Calculate null2 model from posterior probabilities.
+ * Incept:    SRE, Thu Feb 28 09:52:28 2008 [Janelia]
+ *
+ * Purpose:   Calculate the "null2" model for the envelope encompassed
+ *            by a posterior probability calculation <pp> for model
+ *            <gm>.  Return the null2 odds emission probabilities
+ *            $\frac{f'{x}}{f{x}}$ in <null2>, which caller
+ *            provides as space for at least <alphabet->Kp> residues.
+ *            
+ *            The expectation method is applied to envelopes in
+ *            simple, well resolved regions (regions containing just a
+ *            single envelope, where no stochastic traceback
+ *            clustering was required).
+ *            
+ *            Make sure that the posterior probability matrix <pp> has
+ *            been calculated by the caller for only the envelope; thus
+ *            its rows are numbered <1..Ld>, for envelope <ienv..jenv>
+ *            of length <Ld=jenv-ienv+1>.
+ *            
+ * Args:      gm    - profile, in any mode, target length model set to <L>
+ *            pp    - posterior prob matrix, for <gm> against domain envelope <dsq+i-1> (offset)
+ *            null2 - RETURN: null2 odds ratios per residue; <0..Kp-1>; caller allocated space
+ *
+ * Returns:   <eslOK> on success; <null2> contains the null2 scores. The 0
+ *            row of <pp> has been used as temp space, and happens to contain
+ *            the expected frequency that each M,I,N,C,J state is used in this
+ *            <pp> matrix to generate residues.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_GNull2_ByExpectation(const P7_PROFILE *gm, P7_GMX *pp, float *null2)
+{
+  int      M      = gm->M;
+  int      Ld     = pp->L;
+  float  **dp     = pp->dp;
+  float   *xmx    = pp->xmx;
+  float    xfactor;
+  int      x;			/* over symbols 0..K-1                       */
+  int      i;			/* over offset envelope dsq positions 1..Ld  */
+  int      k;			/* over model M states 1..M, I states 1..M-1 */
+
+  /* Calculate expected # of times that each emitting state was used
+   * in generating the Ld residues in this domain.
+   * The 0 row in <wrk> is used to hold these numbers.
+   */
+  esl_vec_FCopy(pp->dp[1],            (M+1)*p7G_NSCELLS, pp->dp[0]); 
+  esl_vec_FCopy(pp->xmx+p7G_NXCELLS,  p7G_NXCELLS,       pp->xmx);   
+  for (i = 2; i <= Ld; i++)
+    {
+      esl_vec_FAdd(pp->dp[0], pp->dp[i],             (M+1)*p7G_NSCELLS);
+      esl_vec_FAdd(pp->xmx,   pp->xmx+i*p7G_NXCELLS, p7G_NXCELLS); 
+    }
+  
+  /* Convert those expected #'s to log frequencies; these we'll use as
+   * the log posterior weights.
+   */
+  esl_vec_FLog(pp->dp[0], (M+1)*p7G_NSCELLS);
+  esl_vec_FLog(pp->xmx,   p7G_NXCELLS);  
+
+  esl_vec_FIncrement(pp->dp[0], (M+1)*p7G_NSCELLS, -log((float)Ld));
+  esl_vec_FIncrement(pp->xmx,   p7G_NXCELLS,       -log((float)Ld)); 
+
+  /* Calculate null2's log odds emission probabilities, by taking
+   * posterior weighted sum over all emission vectors used in paths
+   * explaining the domain.
+   * This is dog-slow; a point for future optimization.
+   */
+  xfactor = XMX(0,p7G_N);
+  xfactor = p7_FLogsum(xfactor, XMX(0,p7G_C));
+  xfactor = p7_FLogsum(xfactor, XMX(0,p7G_J));
+  esl_vec_FSet(null2, gm->abc->K, -eslINFINITY);
+  for (x = 0; x < gm->abc->K; x++)
+    { 
+      for (k = 1; k < M; k++)
+	{
+	  null2[x] = p7_FLogsum(null2[x], MMX(0,k) + p7P_MSC(gm, k, x));
+	  null2[x] = p7_FLogsum(null2[x], IMX(0,k) + p7P_ISC(gm, k, x));
+	}
+      null2[x] = p7_FLogsum(null2[x], MMX(0,M) + p7P_MSC(gm, k, x));
+      null2[x] = p7_FLogsum(null2[x], xfactor);
+    }
+
+  esl_vec_FExp (null2, gm->abc->K);
+  /* now null2[x] = \frac{f_d(x)}{f_0(x)} for all x in alphabet,
+   * 0..K-1, where f_d(x) are the ad hoc "null2" residue frequencies
+   * for this envelope.
+   */
+
+  /* make valid scores for all degeneracies, by averaging the odds ratios. */
+  esl_abc_FAvgScVec(gm->abc, null2); /* does not set gap, nonres, missing  */
+  null2[gm->abc->K]    = 1.0;        /* gap character    */
+  null2[gm->abc->Kp-2] = 1.0;	     /* nonresidue "*"   */
+  null2[gm->abc->Kp-1] = 1.0;	     /* missing data "~" */
+
+  return eslOK;
+}
+
+
+/* Function:  p7_GNull2_ByTrace()
+ * Synopsis:  Assign null2 scores to an envelope by the sampling method.
+ * Incept:    SRE, Thu May  1 10:00:43 2008 [Janelia]
+ *
+ * Purpose:   Given a traceback <tr> for an alignment of model <gm> to
+ *            some target sequence; calculate null2 odds ratios $\frac{f'{x}}{f{x}}$ 
+ *            as the state-usage-weighted emission probabilities,
+ *            with state usages calculated by counting emissions used
+ *            at positions <zstart..zend> in the trace.
+ *            
+ *            Because we only need to collect state usages from the
+ *            trace <tr>, the target sequence is irrelevant. Because
+ *            we are only averaging emission odds ratios from model
+ *            <gm>, the configuration of <gm> is irrelevant (uni
+ *            vs. multihit, or length config).
+ *
+ * Args:      gm     - model, in any configuration; only emission odds are used
+ *            tr     - traceback for any region (or all) of a target sequence
+ *            zstart - first elem in <tr> to collect from; use 0 for complete
+ *            zend   - last elem in <tr> to collect from; use tr->N-1 for complete
+ *            wrk    - DP matrix w/ at least one row, for workspace
+ *            null2  - RESULT: odds ratios f'(x)/f(x) for all Kp residues
+ * 
+ * Returns:   <eslOK> on success, and the <ddef->n2sc> scores are set
+ *            for region <i..j>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_GNull2_ByTrace(const P7_PROFILE *gm, const P7_TRACE *tr, int zstart, int zend, P7_GMX *wrk, float *null2)
+{
+  float  **dp   = wrk->dp;	/* so that {MDI}MX() macros work */
+  float   *xmx  = wrk->xmx;	/* so that XMX() macro works     */
+  int      Ld   = 0;
+  int      M    = gm->M;
+  int      k;			/* index over model position     */
+  int      x;			/* index over residues           */
+  int      z;			/* index over trace position     */
+  float    xfactor;
+ 
+  /* We'll use the i=0 row in wrk for working space: dp[0][] and xmx[0..4]. */
+  esl_vec_FSet(wrk->dp[0], (M+1)*p7G_NSCELLS, 0.0);
+  esl_vec_FSet(wrk->xmx,   p7G_NXCELLS,       0.0);
+
+  /* Calculate emitting state usage in this particular trace segment: */
+  for (z = zstart; z <= zend; z++) 
+    {
+      switch (tr->st[z]) {
+      case p7T_M:  Ld++; MMX(0,tr->k[z]) += 1.0; break;
+      case p7T_I:  Ld++; IMX(0,tr->k[z]) += 1.0; break;
+      case p7T_N:  if (tr->st[z-1] == p7T_N) { Ld++; XMX(0,p7G_N) += 1.0; } break;
+      case p7T_C:  if (tr->st[z-1] == p7T_C) { Ld++; XMX(0,p7G_C) += 1.0; } break;
+      case p7T_J:  if (tr->st[z-1] == p7T_J) { Ld++; XMX(0,p7G_J) += 1.0; } break;
+      }
+    }
+  esl_vec_FScale(wrk->dp[0], (M+1)*p7G_NSCELLS, (1.0 / (float) Ld));
+  esl_vec_FScale(wrk->xmx,   p7G_NXCELLS,       (1.0 / (float) Ld));
+  
+  /* Calculate null2's odds ratio emission probabilities, by taking
+   * posterior weighted sum over all emission vectors used in paths
+   * explaining the domain.
+   */
+  esl_vec_FSet(null2, gm->abc->K, 0.0);
+  xfactor = XMX(0,p7G_N) + XMX(0,p7G_C) + XMX(0,p7G_J);
+  for (x = 0; x < gm->abc->K; x++)
+    {
+      for (k = 1; k < M; k++)
+	{
+	  null2[x] += MMX(0,k) * expf(p7P_MSC(gm, k, x));
+	  null2[x] += IMX(0,k) * expf(p7P_ISC(gm, k, x));
+	}
+      null2[x] += MMX(0,M) * expf(p7P_MSC(gm, M, x));
+      null2[x] += xfactor;
+    }
+  /* now null2[x] = \frac{f_d(x)}{f_0(x)} odds ratios for all x in alphabet,
+   * 0..K-1, where f_d(x) are the ad hoc "null2" residue frequencies
+   * for this envelope.
+   */
+
+  /* make valid scores for all degeneracies, by averaging the odds ratios. */
+  esl_abc_FAvgScVec(gm->abc, null2);
+  null2[gm->abc->K]    = 1.0;        /* gap character    */
+  null2[gm->abc->Kp-2] = 1.0;	     /* nonresidue "*"   */
+  null2[gm->abc->Kp-1] = 1.0;	     /* missing data "~" */
+
+  return eslOK;
+}
+
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7GENERIC_NULL2_BENCHMARK
+/*
+   icc -O3 -static -o generic_null2_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_NULL2_BENCHMARK generic_null2.c -lhmmer -leasel -lm
+   ./benchmark-generic-null2 <hmmfile>
+                   RRM_1 (M=72)       Caudal_act (M=136)      SMC_N (M=1151)
+                 -----------------    ------------------     -------------------
+   21 Aug 2008    7.77u (185 Mc/s)     14.13u (192 Mc/s)     139.03u (165.6 Mc/s)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for posterior residue null2, generic version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  float           null2[p7_MAXCODE];
+  int             i;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  gx1 = p7_gmx_Create(gm->M, L);  
+  gx2 = p7_gmx_Create(gm->M, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_GForward (dsq, L, gm, gx1, &fsc);
+  p7_GBackward(dsq, L, gm, gx2, &bsc);
+  p7_GDecoding(gm, gx1, gx2, gx2);   
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) 
+    p7_GNull2_ByExpectation(gm, gx2, null2);   
+  esl_stopwatch_Stop(w);
+
+  Mcs  = (double) N * (double) L * (double) gm->M * 1e-6 / w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n", gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmx_Destroy(gx1);
+  p7_gmx_Destroy(gx2);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_NULL2_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_NULL2_TESTDRIVE
+
+static void
+utest_correct_normalization(ESL_RANDOMNESS *r, P7_PROFILE *gm, P7_BG *bg, ESL_DSQ *dsq, int L, P7_GMX *fwd, P7_GMX *bck)
+{
+  char *msg = "normalization unit test failed";
+  float null2[p7_MAXABET];
+  float sum;
+  int   x;
+
+  esl_rsq_xfIID(r, bg->f, gm->abc->K, L, dsq); /* sample a random digital seq of length L */
+
+  p7_GForward (dsq, L, gm, fwd, NULL); 
+  p7_GBackward(dsq, L, gm, bck, NULL);       
+  p7_PosteriorNull2(L, gm, fwd, bck, bck); /* <bck> now contains posterior probs */
+  p7_Null2Corrections(gm, dsq, L, 0, bck, fwd, null2, NULL, NULL);	/* use <fwd> as workspace */
+
+  /* Convert null2 from lod score to frequencies f_d  */
+  for (x = 0; x < gm->abc->K; x++)
+    null2[x] = exp(null2[x]) * bg->f[x];
+
+  sum = esl_vec_FSum(null2, gm->abc->K);
+  if (sum < 0.99 || sum > 1.01) esl_fatal(msg);
+}  
+
+
+#endif /*p7GENERIC_NULL2_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7GENERIC_NULL2_TESTDRIVE
+/* gcc -o null2_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7NULL2_TESTDRIVE null2.c -lhmmer -leasel -lm
+ * ./null2_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "length of sampled sequences",                      0 },
+  { "-M",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "length of sampled HMM",                            0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for the null2 correction calculation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r           = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc         = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm         = NULL;
+  P7_BG          *bg          = NULL;
+  P7_PROFILE     *gm          = NULL;
+  P7_GMX         *fwd         = NULL;
+  P7_GMX         *bck         = NULL;
+  ESL_DSQ        *dsq         = NULL;
+  int             M           = esl_opt_GetInteger(go, "-M");
+  int             L           = esl_opt_GetInteger(go, "-L");
+
+  /* Sample a random HMM */
+  p7_hmm_Sample(r, M, abc, &hmm);
+
+  /* Configure a profile from the sampled HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+
+  /* Other initial allocations */
+  dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  fwd  = p7_gmx_Create(gm->M, L);
+  bck  = p7_gmx_Create(gm->M, L);
+  p7_FLogsumInit();
+
+  utest_correct_normalization(r, gm, bg, dsq, L, fwd, bck);
+
+  free(dsq);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_NULL2_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7GENERIC_NULL2_EXAMPLE
+
+#endif /*p7GENERIC_NULL2_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_optacc.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_optacc.c
new file mode 100755
index 0000000..334c6d8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_optacc.c
@@ -0,0 +1,634 @@
+/* Optimal accuracy alignment; generic version.
+ * 
+ * Contents:
+ *   1. Optimal alignment accuracy fill.
+ *   2. Optimal alignment accuracy traceback.
+ *   3. Benchmark driver
+ *   4. Unit tests
+ *   5. Test driver
+ *   6. Example
+ *   7. Copyright and license information
+ * 
+ * SRE, Fri Feb 29 12:48:46 2008 [Janelia]
+ * SVN $Id: generic_optacc.c 3788 2011-12-16 01:53:22Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include <float.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Optimal alignment fill and traceback.
+ *****************************************************************/
+
+#define MMX(i,k)      (dp[(i)][(k) * p7G_NSCELLS + p7G_M])
+#define IMX(i,k)      (dp[(i)][(k) * p7G_NSCELLS + p7G_I])
+#define DMX(i,k)      (dp[(i)][(k) * p7G_NSCELLS + p7G_D])
+#define XMX(i,s)      (xmx[(i) * p7G_NXCELLS + (s)])
+#define TSCDELTA(s,k) ( (tsc[(k) * p7P_NTRANS + (s)] == -eslINFINITY) ? FLT_MIN : 1.0)
+
+/* The TSCDELTA is used to make impossible paths impossible in the
+ * optimal accuracy decoding algorithm; see Kall et al (2005). What we
+ * want to do is multiply by a Kronecker delta that's 1 when the
+ * transition probability is finite, and 0 when it's zero (when the
+ * log prob is -eslINFINITY). But we can't do that easily, when we're
+ * in log space, because 0 * -eslINFINITY = NaN. Instead, we use a
+ * tiny number (FLT_MIN, ~1e-37).
+ * 
+ * A side concern is that we don't want to put a bunch of if-else
+ * branches in the code; compilers should be able to generate more
+ * efficient code from the TSCDELTA() construction.
+ */
+
+
+/* Function:  p7_GOptimalAccuracy()
+ * Synopsis:  Optimal accuracy decoding: fill. 
+ * Incept:    SRE, Fri Feb 29 11:56:49 2008 [Janelia]
+ *
+ * Purpose:   Calculates the fill step of the optimal accuracy decoding
+ *            algorithm \citep{Kall05}.
+ *            
+ *            Caller provides the posterior decoding matrix <pp>,
+ *            which was calculated by Forward/Backward on a target sequence
+ *            of length <L> using the query model <gm>.
+ *            
+ *            Caller also provides a DP matrix <gx>, allocated for the
+ *            <gm->M> by <pp->L> comparison. The routine fills this in
+ *            with OA scores.
+ *            
+ * Args:      gm    - query profile      
+ *            pp    - posterior decoding matrix created by <p7_GPosteriorDecoding()>
+ *            gx    - RESULT: caller provided DP matrix for <gm->M> by <L> 
+ *            ret_e - RETURN: expected number of correctly decoded positions 
+ *
+ * Returns:   <eslOK> on success, and <*ret_e> contains the final OA
+ *            score, which is the expected number of correctly decoded
+ *            positions in the target sequence (up to <L>).
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_GOptimalAccuracy(const P7_PROFILE *gm, const P7_GMX *pp, P7_GMX *gx, float *ret_e)
+{
+  int          L    = pp->L;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx;
+  float const *tsc  = gm->tsc;
+  int          i,k;
+  int          M    = gm->M;
+  float        esc  = p7_profile_IsLocal(gm) ? 1.0 : 0.0;
+  float        t1, t2;
+
+  /* Initialization of the zero row (i=0; no residues to account for.  */
+  XMX(0,p7G_N) = 0.;                                          /* S->N, p=1            */
+  XMX(0,p7G_B) = 0.;                                          /* S->N->B, no N-tail   */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) = -eslINFINITY;  /* need seq to get here */
+  for (k = 0; k <= M; k++)
+    MMX(0,k) = IMX(0,k) = DMX(0,k) = -eslINFINITY;            /* need seq to get here */
+
+  for (i = 1; i <= L; i++)
+    {
+      MMX(i,0) = IMX(i,0) = DMX(i,0) = XMX(i,p7G_E) = -eslINFINITY;
+
+      for (k = 1; k < M; k++)
+	{
+	  MMX(i,k)     = ESL_MAX(ESL_MAX(TSCDELTA(p7P_MM, k-1) * (MMX(i-1,k-1)  + pp->dp[i][k*p7G_NSCELLS + p7G_M]),
+					 TSCDELTA(p7P_IM, k-1) * (IMX(i-1,k-1)  + pp->dp[i][k*p7G_NSCELLS + p7G_M])),
+				 ESL_MAX(TSCDELTA(p7P_DM, k-1) * (DMX(i-1,k-1)  + pp->dp[i][k*p7G_NSCELLS + p7G_M]),
+					 TSCDELTA(p7P_BM, k-1) * (XMX(i-1,p7G_B)+ pp->dp[i][k*p7G_NSCELLS + p7G_M])));
+
+	  XMX(i,p7G_E) = ESL_MAX(XMX(i,p7G_E), 
+				 esc * MMX(i,k));
+
+	  IMX(i,k)     = ESL_MAX(TSCDELTA(p7P_MI, k) * (MMX(i-1,k) + pp->dp[i][k*p7G_NSCELLS + p7G_I]),
+				 TSCDELTA(p7P_II, k) * (IMX(i-1,k) + pp->dp[i][k*p7G_NSCELLS + p7G_I]));
+
+	  DMX(i,k)     = ESL_MAX(TSCDELTA(p7P_MD, k-1) * MMX(i,k-1),
+				 TSCDELTA(p7P_DD, k-1) * DMX(i,k-1));
+	} 
+
+      /* last node (k=M) is unrolled; it has no I state, and it has a p=1.0 {MD}->E transition even in local mode */
+      MMX(i,M)     = ESL_MAX(ESL_MAX(TSCDELTA(p7P_MM, M-1) * (MMX(i-1,M-1)  + pp->dp[i][M*p7G_NSCELLS + p7G_M]),
+				     TSCDELTA(p7P_IM, M-1) * (IMX(i-1,M-1)  + pp->dp[i][M*p7G_NSCELLS + p7G_M])),
+			     ESL_MAX(TSCDELTA(p7P_DM, M-1) * (DMX(i-1,M-1)  + pp->dp[i][M*p7G_NSCELLS + p7G_M]),
+				     TSCDELTA(p7P_BM, M-1) * (XMX(i-1,p7G_B)+ pp->dp[i][M*p7G_NSCELLS + p7G_M])));
+
+      DMX(i,M)     = ESL_MAX(TSCDELTA(p7P_MD, M-1) * MMX(i,M-1),
+			     TSCDELTA(p7P_DD, M-1) * DMX(i,M-1));
+
+      /* note: we calculated XMX before DMX in the loop, because we probably had MMX(i,k) in a register. 
+       * but now we can't do that, because XMX depends on DMX
+       */
+      XMX(i,p7G_E) = ESL_MAX(XMX(i,p7G_E), ESL_MAX(MMX(i,M), DMX(i, M)));
+
+      /* now the special states; it's important that E is already done, and B is done after N,J */
+      t1 = ( (gm->xsc[p7P_J][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+      t2 = ( (gm->xsc[p7P_E][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+      XMX(i, p7G_J) = ESL_MAX( t1 * (XMX(i-1,p7G_J) + pp->xmx[i*p7G_NXCELLS + p7G_J]),
+			       t2 * XMX(i,  p7G_E));
+
+      t1 = ( (gm->xsc[p7P_C][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+      t2 = ( (gm->xsc[p7P_E][p7P_MOVE] == -eslINFINITY) ? FLT_MIN : 1.0);
+      XMX(i,p7G_C) = ESL_MAX( t1 * (XMX(i-1,p7G_C) + pp->xmx[i*p7G_NXCELLS + p7G_C]),
+			      t2 * XMX(i,  p7G_E));
+      
+      t1 = ( (gm->xsc[p7P_N][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+      XMX(i,p7G_N) = t1 *  (XMX(i-1,p7G_N) + pp->xmx[i*p7G_NXCELLS + p7G_N]);
+
+      t1 = ( (gm->xsc[p7P_N][p7P_MOVE] == -eslINFINITY) ? FLT_MIN : 1.0);
+      t2 = ( (gm->xsc[p7P_J][p7P_MOVE] == -eslINFINITY) ? FLT_MIN : 1.0);
+      XMX(i,p7G_B) = ESL_MAX( t1 * XMX(i,  p7G_N), 
+			      t2 * XMX(i,  p7G_J));
+    }
+  
+  *ret_e = XMX(L,p7G_C);
+  return eslOK;
+}
+/*---------------------- end, oa fill ---------------------------*/
+
+/*****************************************************************
+ * 2. Optimal alignment accuracy, traceback
+ *****************************************************************/
+
+static inline float get_postprob(const P7_GMX *pp, int scur, int sprv, int k, int i);
+
+static inline int select_m(const P7_PROFILE *gm,                   const P7_GMX *gx, int i, int k);
+static inline int select_d(const P7_PROFILE *gm,                   const P7_GMX *gx, int i, int k);
+static inline int select_i(const P7_PROFILE *gm,                   const P7_GMX *gx, int i, int k);
+static inline int select_n(int i);
+static inline int select_c(const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, int i);
+static inline int select_j(const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, int i);
+static inline int select_e(const P7_PROFILE *gm,                   const P7_GMX *gx, int i, int *ret_k);
+static inline int select_b(const P7_PROFILE *gm,                   const P7_GMX *gx, int i);
+
+
+/* Function:  p7_GOATrace()
+ * Synopsis:  Optimal accuracy decoding: traceback.
+ * Incept:    SRE, Fri Feb 29 12:59:11 2008 [Janelia]
+ *
+ * Purpose:   The traceback stage of the optimal accuracy decoding algorithm
+ *            \citep{Kall05}.
+ *            
+ *            Caller provides the OA DP matrix <gx> that was just
+ *            calculated by <p7_GOptimalAccuracy()>, as well as the
+ *            posterior decoding matrix <pp>, which was calculated by
+ *            Forward/Backward on a target sequence of length <L>
+ *            using the query model <gm>.
+ *            
+ *            Caller provides an empty traceback structure <tr> to
+ *            hold the result, allocated to hold optional posterior
+ *            probability annotation on residues (with
+ *            <p7_trace_CreateWithPP()>, generally).  This will be
+ *            internally reallocated as needed for larger traces.
+ *
+ * Args:      gm    - query profile      
+ *            pp    - posterior decoding matrix created by <p7_PosteriorDecoding()>
+ *            gx    - OA DP matrix calculated by  <p7_OptimalAccuracyDP()>
+ *            tr    - RESULT: OA traceback, allocated with posterior probs
+ *
+ * Returns:   <eslOK> on success, and <tr> contains the OA traceback.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_GOATrace(const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, P7_TRACE *tr)
+{
+  int           i   = gx->L;	/* position in seq (1..L)         */
+  int           k   = 0;	/* position in model (1..M)       */
+  float        postprob;
+  int          sprv, scur;
+  int          status;
+
+#ifdef p7_DEBUGGING
+  if (tr->N != 0) ESL_EXCEPTION(eslEINVAL, "trace isn't empty: forgot to Reuse()?");
+#endif
+
+  if ((status = p7_trace_AppendWithPP(tr, p7T_T, k, i, 0.0)) != eslOK) return status;
+  if ((status = p7_trace_AppendWithPP(tr, p7T_C, k, i, 0.0)) != eslOK) return status;
+
+  sprv = p7T_C;
+  while (sprv != p7T_S) 
+    {
+      switch (sprv) {
+      case p7T_M: scur = select_m(gm,     gx, i, k);  k--; i--; break;
+      case p7T_D: scur = select_d(gm,     gx, i, k);  k--;      break;
+      case p7T_I: scur = select_i(gm,     gx, i, k);       i--; break;
+      case p7T_N: scur = select_n(i);                           break;
+      case p7T_C: scur = select_c(gm, pp, gx, i);               break;
+      case p7T_J: scur = select_j(gm, pp, gx, i);               break;
+      case p7T_E: scur = select_e(gm,     gx, i, &k);           break;
+      case p7T_B: scur = select_b(gm,     gx, i);               break;
+      default: ESL_EXCEPTION(eslEINVAL, "bogus state in traceback");
+      }
+      if (scur == -1) ESL_EXCEPTION(eslEINVAL, "OA traceback choice failed");
+
+      postprob = get_postprob(pp, scur, sprv, k, i);
+      if ((status = p7_trace_AppendWithPP(tr, scur, k, i, postprob)) != eslOK) return status;
+
+      /* For NCJ, we had to defer i decrement. */
+      if ( (scur == p7T_N || scur == p7T_J || scur == p7T_C) && scur == sprv) i--;
+      sprv = scur;
+    }
+  tr->M = gm->M;
+  tr->L = gx->L;
+  return p7_trace_Reverse(tr);
+}
+
+static inline float
+get_postprob(const P7_GMX *pp, int scur, int sprv, int k, int i)
+{
+  float **dp  = pp->dp;
+  float  *xmx = pp->xmx;
+
+  switch (scur) {
+  case p7T_M: return MMX(i,k);
+  case p7T_I: return IMX(i,k);
+  case p7T_N: if (sprv == scur) return XMX(i,p7G_N);
+  case p7T_C: if (sprv == scur) return XMX(i,p7G_C); 
+  case p7T_J: if (sprv == scur) return XMX(i,p7G_J); 
+  default:    return 0.0;
+  }
+}
+
+static inline int
+select_m(const P7_PROFILE *gm, const P7_GMX *gx, int i, int k)
+{
+  float      **dp   = gx->dp;	/* so {MDI}MX() macros work       */
+  float       *xmx  = gx->xmx;	/* so XMX() macro works           */
+  float const *tsc  = gm->tsc;	/* so TSCDELTA() macro works */
+  float path[4];
+  int   state[4] = { p7T_M, p7T_I, p7T_D, p7T_B };
+
+  path[0] = TSCDELTA(p7P_MM, k-1) * MMX(i-1,k-1);
+  path[1] = TSCDELTA(p7P_IM, k-1) * IMX(i-1,k-1);
+  path[2] = TSCDELTA(p7P_DM, k-1) * DMX(i-1,k-1);
+  path[3] = TSCDELTA(p7P_BM, k-1) * XMX(i-1,p7G_B);
+  return state[esl_vec_FArgMax(path, 4)];
+}
+
+static inline int
+select_d(const P7_PROFILE *gm, const P7_GMX *gx, int i, int k)
+{
+  float      **dp   = gx->dp;	/* so {MDI}MX() macros work       */
+  float const *tsc  = gm->tsc;	/* so TSCDELTA() macro works */
+  float        path[2];
+
+  path[0] = TSCDELTA(p7P_MD, k-1) * MMX(i, k-1);
+  path[1] = TSCDELTA(p7P_DD, k-1) * DMX(i, k-1);
+  return ((path[0] >= path[1]) ? p7T_M : p7T_D);
+}
+	
+static inline int
+select_i(const P7_PROFILE *gm, const P7_GMX *gx, int i, int k)
+{
+  float      **dp   = gx->dp;	/* so {MDI}MX() macros work       */
+  float const *tsc  = gm->tsc;	/* so TSCDELTA() macro works */
+  float        path[2];
+
+  path[0] = TSCDELTA(p7P_MI, k) * MMX(i-1,k);
+  path[1] = TSCDELTA(p7P_II, k) * IMX(i-1,k);
+  return ((path[0] >= path[1]) ? p7T_M : p7T_I);
+}
+
+static inline int
+select_n(int i)
+{
+  return ((i==0) ? p7T_S : p7T_N);
+}
+
+static inline int
+select_c(const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, int i)
+{
+  float  t1   =  ( (gm->xsc[p7P_C][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+  float  t2   =  ( (gm->xsc[p7P_E][p7P_MOVE] == -eslINFINITY) ? FLT_MIN : 1.0);
+  float *xmx  = gx->xmx;	/* so XMX() macro works           */
+  float  path[2];
+
+  path[0] = t1 * (XMX(i-1, p7G_C) + pp->xmx[i*p7G_NXCELLS + p7G_C]);
+  path[1] = t2 *  XMX(i,p7G_E);
+  return  ((path[0] > path[1]) ? p7T_C : p7T_E);
+}
+
+static inline int
+select_j(const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, int i)
+{
+  float  t1   = ( (gm->xsc[p7P_J][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+  float  t2   = ( (gm->xsc[p7P_E][p7P_LOOP] == -eslINFINITY) ? FLT_MIN : 1.0);
+  float *xmx  = gx->xmx;	/* so XMX() macro works           */
+  float  path[2];
+
+  path[0] = t1 * (XMX(i-1,p7G_J) + pp->xmx[i*p7G_NXCELLS + p7G_J]);
+  path[1] = t2 * XMX(i,p7G_E);
+  return  ((path[0] > path[1]) ? p7T_J : p7T_E);
+}
+  
+static inline int
+select_e(const P7_PROFILE *gm, const P7_GMX *gx, int i, int *ret_k)
+{
+  float **dp   = gx->dp;	/* so {MDI}MX() macros work       */
+  float   max  = -eslINFINITY;
+  int     smax = -1;		/* will be returned as "error code" if no max found */
+  int     kmax = -1;
+  int     k;
+
+  if (! p7_profile_IsLocal(gm)) /* glocal/global is easier */
+    {
+      *ret_k = gm->M;
+      return ((MMX(i,gm->M) >= DMX(i,gm->M)) ? p7T_M : p7T_D);
+    }
+
+  for (k = 1; k <= gm->M; k++)
+    {
+      if (MMX(i,k) >= max) { max = MMX(i,k); smax = p7T_M; kmax = k; }
+      if (DMX(i,k) >  max) { max = DMX(i,k); smax = p7T_D; kmax = k; }
+    }
+  *ret_k = kmax;
+  return smax;
+}
+
+static inline int
+select_b(const P7_PROFILE *gm, const P7_GMX *gx, int i)
+{
+  float t1 = ( (gm->xsc[p7P_N][p7P_MOVE] == -eslINFINITY) ? FLT_MIN : 1.0);
+  float t2 = ( (gm->xsc[p7P_J][p7P_MOVE] == -eslINFINITY) ? FLT_MIN : 1.0);
+  float *xmx  = gx->xmx;	/* so XMX() macro works           */
+  float path[2];
+
+  path[0] = t1 * XMX(i, p7G_N);
+  path[1] = t2 * XMX(i, p7G_J);
+  return  ((path[0] > path[1]) ? p7T_N : p7T_J);
+}
+
+
+
+/*------------------------ end, oa traceback --------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Benchmark driver
+ *****************************************************************/
+#ifdef p7GENERIC_OPTACC_BENCHMARK
+/*
+   icc -O3 -static -o generic_optacc_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_OPTACC_BENCHMARK generic_optacc.c -lhmmer -leasel -lm
+   ./benchmark-generic-optacc <hmmfile>
+                   RRM_1 (M=72)       Caudal_act (M=136)      SMC_N (M=1151)
+                 -----------------    ------------------     -------------------
+   20 Aug 08:    67.96u (21.2 Mc/s)   128.14u (21.2 Mc/s)    1091.90u (21.1 Mc/s)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,   "5000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  { "--notrace", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark the DP fill stage",               0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for optimal accuracy alignment, generic version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc, accscore;
+  double          Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  gx1 = p7_gmx_Create(gm->M, L);
+  gx2 = p7_gmx_Create(gm->M, L);
+  tr  = p7_trace_CreateWithPP();
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_GForward (dsq, L, gm, gx1, &fsc);
+  p7_GBackward(dsq, L, gm, gx2, &bsc);
+  p7_GDecoding(gm, gx1, gx2, gx2);                   /* <gx2> is now the posterior decoding matrix */
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_GOptimalAccuracy(gm, gx2, gx1, &accscore);	     /* <gx1> is now the OA matrix */
+
+      if (! esl_opt_GetBoolean(go, "--notrace"))
+	{
+	  p7_GOATrace(gm, gx2, gx1, tr);
+	  p7_trace_Reuse(tr);
+	}
+    }
+  esl_stopwatch_Stop(w);
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n", gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx1);
+  p7_gmx_Destroy(gx2);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_OPTACC_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_OPTACC_TESTDRIVE
+
+#endif /*p7GENERIC_OPTACC_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef p7GENERIC_OPTACC_TESTDRIVE
+
+#endif /*p7GENERIC_OPTACC_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+#ifdef p7GENERIC_OPTACC_EXAMPLE
+/* 
+   gcc -g -Wall -o generic_optacc_example -Dp7GENERIC_OPTACC_EXAMPLE -I. -I../easel -L. -L../easel generic_optacc.c -lhmmer -leasel -lm
+   ./generic_optacc_example <hmmfile> <seqfile>
+*/
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-d",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump posterior residue decoding matrix",           0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump OA matrix",                                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of optimal accuracy alignment, generic implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  float           fsc, bsc, vsc;
+  float           accscore;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL); /* multihit local: H3 default */
+  
+  /* Allocations */
+  gx1 = p7_gmx_Create(gm->M, sq->n);
+  gx2 = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_CreateWithPP();
+  p7_FLogsumInit();
+
+  /* Run Forward, Backward; do OA fill and trace */
+  p7_GForward (sq->dsq, sq->n, gm, gx1, &fsc);
+  p7_GBackward(sq->dsq, sq->n, gm, gx2, &bsc);
+  p7_GDecoding(gm, gx1, gx2, gx2);                   /* <gx2> is now the posterior decoding matrix */
+  p7_GOptimalAccuracy(gm, gx2, gx1, &accscore);	     /* <gx1> is now the OA matrix */
+  p7_GOATrace(gm, gx2, gx1, tr);
+
+  if (esl_opt_GetBoolean(go, "-d")) p7_gmx_Dump(stdout, gx2, p7_DEFAULT);
+  if (esl_opt_GetBoolean(go, "-m")) p7_gmx_Dump(stdout, gx1, p7_DEFAULT);
+
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+  if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
+
+  printf("fwd = %.4f nats\n", fsc);
+  printf("bck = %.4f nats\n", bsc);
+  printf("acc = %.4f (%.2f%%)\n", accscore, accscore * 100. / (float) sq->n);
+
+  p7_trace_Reuse(tr);
+
+  p7_GViterbi(sq->dsq, sq->n, gm, gx1, &vsc);
+  p7_GTrace  (sq->dsq, sq->n, gm, gx1, tr);
+  p7_trace_SetPP(tr, gx2);
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+
+  printf("vit = %.4f nats\n", vsc);
+  printf("acc = %.4f\n", p7_trace_GetExpectedAccuracy(tr));
+
+  /* Cleanup */
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx1);
+  p7_gmx_Destroy(gx2);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_OPTACC_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_stotrace.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_stotrace.c
new file mode 100755
index 0000000..7e0ecbd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_stotrace.c
@@ -0,0 +1,533 @@
+/* Stochastic traceback of a Forward matrix; generic (non-SIMD) version.
+ * 
+ * Contents:
+ *   1. Stochastic traceback implementation.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *
+ * SRE, Fri Aug 15 10:50:55 2008 [Janelia]
+ * SVN $Id: generic_stotrace.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Stochastic traceback implementation.
+ *****************************************************************/
+
+/* Function:  p7_GStochasticTrace()
+ * Synopsis:  Stochastic traceback of a Forward matrix.
+ * Incept:    SRE, Thu Jan  3 15:39:20 2008 [Janelia]
+ *
+ * Purpose:   Stochastic traceback of Forward matrix <gx> to
+ *            sample an alignment of digital sequence <dsq>
+ *            (of length <L>) to the profile <gm>. 
+ *            
+ *            The sampled traceback is returned in <tr>, which the
+ *            caller must have at least made an initial allocation of
+ *            (the <tr> will be grown as needed here).
+ *
+ * Args:      r      - source of random numbers
+ *            dsq    - digital sequence aligned to, 1..L 
+ *            L      - length of dsq
+ *            gm     - profile
+ *            mx     - Forward matrix to trace, L x M
+ *            tr     - storage for the recovered traceback.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_GStochasticTrace(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, const P7_GMX *gx, P7_TRACE *tr)
+{
+  int     status;
+  int     i;			/* position in seq (1..L) */
+  int     k;			/* position in model (1..M) */
+  int     M   = gm->M;
+  float **dp  = gx->dp;
+  float  *xmx = gx->xmx;
+  float const *tsc  = gm->tsc;
+  float  *sc;			/* scores of possible choices: up to 2M-1, in the case of exits to E  */
+  int     scur, sprv;
+
+  /* we'll index M states as 1..M, and D states as 2..M = M+2..2M: M0, D1 are impossibles. */
+  ESL_ALLOC(sc, sizeof(float) * (2*M+1)); 
+
+  k = 0;
+  i = L;			
+  if ((status = p7_trace_Append(tr, p7T_T, k, i)) != eslOK) goto ERROR;
+  if ((status = p7_trace_Append(tr, p7T_C, k, i)) != eslOK) goto ERROR;
+  sprv = p7T_C;
+  while (sprv != p7T_S) 
+    {
+      switch (tr->st[tr->N-1]) {
+      /* C(i) comes from C(i-1) or E(i) */
+      case p7T_C:		
+	if   (XMX(i,p7G_C) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible C reached at i=%d", i);
+
+	sc[0] = XMX(i-1, p7G_C) + gm->xsc[p7P_C][p7P_LOOP];
+	sc[1] = XMX(i,   p7G_E) + gm->xsc[p7P_E][p7P_MOVE];
+	esl_vec_FLogNorm(sc, 2); 
+	scur = (esl_rnd_FChoose(r, sc, 2) == 0) ? p7T_C : p7T_E;
+	break;
+
+      /* E connects from any M or D state. k set here */
+      case p7T_E:	
+	if (XMX(i, p7G_E) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible E reached at i=%d", i);
+	
+	if (p7_profile_IsLocal(gm)) { /* local models come from any M, D */
+	  sc[0] = sc[M+1] = -eslINFINITY;
+	  for (k = 1; k <= M; k++) sc[k]   = MMX(i,k);
+	  for (k = 2; k <= M; k++) sc[k+M] = DMX(i,k);
+	  esl_vec_FLogNorm(sc, 2*M+1); /* now sc is a prob vector */
+	  k = esl_rnd_FChoose(r, sc, 2*M+1);
+	  if (k <= M)    scur = p7T_M;
+	  else { k -= M; scur = p7T_D; }
+	} else { 		/* glocal models come from M_M or D_M  */
+	  k     = M;
+	  sc[0] = MMX(i,M);
+	  sc[1] = DMX(i,M);
+	  esl_vec_FLogNorm(sc, 2); /* now sc is a prob vector */
+	  scur = (esl_rnd_FChoose(r, sc, 2) == 0) ? p7T_M : p7T_D;
+	}
+	break;
+
+      /* M connects from {MDI} i-1,k-1, or B */
+      case p7T_M:
+	if (MMX(i,k) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible M reached at k=%d,i=%d", k,i);
+	
+	sc[0] = XMX(i-1,p7G_B) + TSC(p7P_BM, k-1);
+	sc[1] = MMX(i-1,k-1)   + TSC(p7P_MM, k-1);
+	sc[2] = IMX(i-1,k-1)   + TSC(p7P_IM, k-1);
+	sc[3] = DMX(i-1,k-1)   + TSC(p7P_DM, k-1);
+	esl_vec_FLogNorm(sc, 4); 
+	switch (esl_rnd_FChoose(r, sc, 4)) {
+	case 0: scur = p7T_B;   break;
+	case 1: scur = p7T_M;   break;
+	case 2: scur = p7T_I;   break;
+	case 3: scur = p7T_D;   break;
+	}
+	k--; 
+	i--;
+	break;
+
+      /* D connects from M,D at i,k-1 */
+      case p7T_D:
+	if (DMX(i, k) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible D reached at k=%d,i=%d", k,i);
+
+	sc[0] = MMX(i, k-1) + TSC(p7P_MD, k-1);
+	sc[1] = DMX(i, k-1) + TSC(p7P_DD, k-1);
+	esl_vec_FLogNorm(sc, 2); 
+	scur = (esl_rnd_FChoose(r, sc, 2) == 0) ? p7T_M : p7T_D;
+	k--;
+	break;
+
+      /* I connects from M,I at i-1,k */
+      case p7T_I:
+	if (IMX(i,k) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible I reached at k=%d,i=%d", k,i);
+	
+	sc[0] = MMX(i-1,k) + TSC(p7P_MI, k);
+	sc[1] = IMX(i-1,k) + TSC(p7P_II, k);
+	esl_vec_FLogNorm(sc, 2); 
+	scur = (esl_rnd_FChoose(r, sc, 2) == 0) ? p7T_M : p7T_I;
+	i--;
+	break;
+
+      /* N connects from S, N */
+      case p7T_N:
+	if (XMX(i, p7G_N) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible N reached at i=%d", i);
+	scur = (i == 0) ? p7T_S : p7T_N;
+	break;
+
+      /* B connects from N, J */
+      case p7T_B:			
+	if (XMX(i,p7G_B) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible B reached at i=%d", i);
+
+	sc[0] = XMX(i, p7G_N) + gm->xsc[p7P_N][p7P_MOVE];
+	sc[1] = XMX(i, p7G_J) + gm->xsc[p7P_J][p7P_MOVE];
+	esl_vec_FLogNorm(sc, 2); 
+	scur = (esl_rnd_FChoose(r, sc, 2) == 0) ? p7T_N : p7T_J;
+	break;
+
+      /* J connects from E(i) or J(i-1) */
+      case p7T_J:	
+	if (XMX(i,p7G_J) == -eslINFINITY) ESL_XEXCEPTION(eslFAIL, "impossible J reached at i=%d", i);
+	
+	sc[0] = XMX(i-1,p7G_J) + gm->xsc[p7P_J][p7P_LOOP];
+	sc[1] = XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_LOOP];
+	esl_vec_FLogNorm(sc, 2); 
+	scur = (esl_rnd_FChoose(r, sc, 2) == 0) ? p7T_J : p7T_E;
+	break;
+
+      default: ESL_XEXCEPTION(eslFAIL, "bogus state in traceback");
+      } /* end switch over statetype[tpos-1] */
+
+      /* Append this state and the current i,k to be explained to the growing trace */
+      if ((status = p7_trace_Append(tr, scur, k, i)) != eslOK) goto ERROR;
+
+      /* For NCJ, we had to defer i decrement. */
+      if ( (scur == p7T_N || scur == p7T_J || scur == p7T_C) && scur == sprv) i--;
+
+      sprv = scur;
+    } /* end traceback, at S state */
+
+  if ((status = p7_trace_Reverse(tr)) != eslOK) goto ERROR;
+  tr->M = gm->M;
+  tr->L = L;
+  free(sc);
+  return eslOK;
+
+ ERROR:
+  if (sc != NULL) free(sc);
+  return status;
+}
+/*------------------- end, stochastic trace ---------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7GENERIC_STOTRACE_BENCHMARK
+/*
+   gcc -g -O2      -o generic_stotrace_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_STOTRACE_BENCHMARK generic_stotrace.c -lhmmer -leasel -lm
+   icc -O3 -static -o generic_stotrace_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_STOTRACE_BENCHMARK generic_stotrace.c -lhmmer -leasel -lm
+   ./generic_stotrace_benchmark <hmmfile>
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seq" ,                   0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of sampled tracebacks",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for generic stochastic trace";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc, fsc, vsc;
+  float           bestsc  = -eslINFINITY;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  fwd = p7_gmx_Create(gm->M, L);
+  tr  = p7_trace_Create();
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+  p7_GViterbi(dsq, L, gm, fwd, &vsc);
+  p7_GForward(dsq, L, gm, fwd, &fsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_GStochasticTrace(r, dsq, L, gm, fwd, tr);
+      p7_trace_Score(tr, dsq, gm, &sc);	/* this doesn't add significantly to benchmark time */
+      bestsc = ESL_MAX(bestsc, sc);
+      p7_trace_Reuse(tr);
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  printf("forward sc   = %.4f nats\n", fsc);
+  printf("viterbi sc   = %.4f nats\n", vsc);
+  printf("max trace sc = %.4f nats\n", bestsc);
+
+  free(dsq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(fwd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_STOTRACE_BENCHMARK*/
+/*---------------------- end, benchmark -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_STOTRACE_TESTDRIVE
+#include "esl_getopts.h"
+/* fairly weak tests: each sampled trace must be <= viterbi trace score, and must pass validation */
+static void
+utest_stotrace(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_PROFILE *gm, ESL_DSQ *dsq, int L, int ntrace)
+{
+  P7_GMX   *gx  = NULL;
+  P7_TRACE *tr  = NULL;
+  char      errbuf[eslERRBUFSIZE];
+  int       idx;
+  float     maxsc = -eslINFINITY;
+  float     vsc, sc;
+
+  if ((gx     = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("matrix creation failed");
+  if ((tr     = p7_trace_Create())              == NULL)  esl_fatal("trace creation failed");
+    
+  if (p7_GViterbi(dsq, L, gm, gx, &vsc)         != eslOK) esl_fatal("viterbi failed");
+  if (p7_GForward(dsq, L, gm, gx, NULL)         != eslOK) esl_fatal("forward failed");
+
+  for (idx = 0; idx < ntrace; idx++)
+    {
+      if (p7_GStochasticTrace(r, dsq, L, gm, gx, tr) != eslOK) esl_fatal("stochastic trace failed");
+      if (p7_trace_Validate(tr, abc, dsq, errbuf)    != eslOK) esl_fatal("trace invalid:\n%s", errbuf);
+      if (p7_trace_Score(tr, dsq, gm, &sc)           != eslOK) esl_fatal("trace scoring failed"); 
+
+      maxsc = ESL_MAX(sc, maxsc);
+      if (sc > vsc) esl_fatal("sampled trace has score > optimal Viterbi path; not possible");
+      p7_trace_Reuse(tr);
+    }
+  if (esl_FCompare(maxsc, vsc, 0.001) != eslOK) esl_fatal("stochastic trace failed to sample the Viterbi path");
+
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx);
+}
+#endif /*p7GENERIC_STOTRACE_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7GENERIC_STOTRACE_TESTDRIVE
+/* gcc -g -Wall -Dp7GENERIC_STOTRACE_TESTDRIVE -I. -I../easel -L. -L../easel -o generic_stotrace_utest generic_stotrace.c -lhmmer -leasel -lm
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_randomseq.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for stochastic Viterbi traceback (generic version)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go     = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r      = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc    = NULL;
+  P7_HMM         *hmm    = NULL;
+  P7_PROFILE     *gm     = NULL;
+  P7_BG          *bg     = NULL;
+  ESL_DSQ        *dsq    = NULL;
+  ESL_SQ         *sq     = NULL;
+  int             M      = 5;
+  int             L      = 10;
+  int             ntrace = 1000;
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+
+  /* Test with randomly generated (iid) sequence */
+  if ((dsq = malloc(sizeof(ESL_DSQ) *(L+2)))  == NULL)  esl_fatal("malloc failed");
+  if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+  utest_stotrace(go, r, abc, gm, dsq, L, ntrace);
+
+  /* Test with seq sampled from profile */
+  if ((sq = esl_sq_CreateDigital(abc))            == NULL) esl_fatal("sequence allocation failed");
+  if (p7_ProfileEmit(r, hmm, gm, bg, sq, NULL)    != eslOK) esl_fatal("profile emission failed");
+  utest_stotrace(go, r, abc, gm, sq->dsq, sq->n, ntrace);
+   
+  esl_sq_Destroy(sq);
+  free(dsq);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_STOTRACE_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7GENERIC_STOTRACE_EXAMPLE
+/* 
+   gcc -g -Dp7GENERIC_STOTRACE_EXAMPLE -I. -I../easel -L. -L../easel -o generic_stotrace_example generic_stotrace.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",     0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the DP matrix to stdout",             0 },
+  { "-s",        eslARG_INT,      "0", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",            0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the sampled trace to stdout",         0 },
+  { "-N",        eslARG_INT,      "1", NULL, NULL,  NULL,  NULL, NULL, "number of traces to sample",               0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of stochastic backtrace";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+  float           vsc, fsc, tsc;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+
+  fwd = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_Create();
+
+  p7_GViterbi(sq->dsq, sq->n, gm, fwd,  &vsc);
+  p7_GForward(sq->dsq, sq->n, gm, fwd, &fsc);
+  if (esl_opt_GetBoolean(go, "-m") == TRUE)  p7_gmx_Dump(stdout, fwd, p7_DEFAULT);
+
+  for (i = 0; i < N; i++)
+    {
+      p7_GStochasticTrace(r, sq->dsq, sq->n, gm, fwd, tr);
+      p7_trace_Score(tr, sq->dsq, gm, &tsc);
+  
+      if (esl_opt_GetBoolean(go, "-t") == TRUE) p7_trace_Dump(stdout, tr, gm, sq->dsq);
+      if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) esl_fatal("trace failed validation: %s\n", errbuf);
+
+      printf("Sampled trace:  %.4f nats\n", tsc);
+      p7_trace_Reuse(tr);
+    }
+  printf("Forward score:  %.4f nats\n", fsc);
+  printf("Viterbi score:  %.4f nats\n", vsc);
+
+
+  /* Cleanup */
+  p7_gmx_Destroy(fwd);
+  p7_trace_Destroy(tr);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_STOTRACE_EXAMPLE*/
+/*----------------------- end, example --------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_viterbi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_viterbi.c
new file mode 100755
index 0000000..d720fee
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_viterbi.c
@@ -0,0 +1,725 @@
+/* Viterbi algorithm; generic (non-SIMD) version.
+ * 
+ * This implementation is modified from an optimized implementation
+ * contributed by Jeremy D. Buhler (Washington University in
+ * St. Louis).
+ * 
+ * Relative to the implementation in HMMER2, Jeremy rearranged data
+ * structures to reduce the number of registers needed in the inner
+ * loop; eliminated branches from the inner loop by unrolling the Mth
+ * iteration in Viterbi and by replacing a bunch of "if" tests with
+ * MAX; and exposed opportunities for hoisting and strength reduction
+ * to the compiler. (The preceding sentence is nearly verbatim from
+ * Jeremy's notes.) I then uplifted the JB code to H3, most notably 
+ * involving conversion from H2's scaled integers to H3's floating
+ * point calculations.
+ * 
+ * Contents:
+ *    1. Viterbi implementation.
+ *    2. Benchmark driver.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Example.
+ *    6. Copyright and license information.
+ */
+ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_gumbel.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Viterbi implementation.
+ *****************************************************************/
+
+/* Function:  p7_GViterbi()
+ * Synopsis:  The Viterbi algorithm.
+ * Incept:    SRE, Tue Jan 30 10:50:53 2007 [Einstein's, St. Louis]
+ * 
+ * Purpose:   The standard Viterbi dynamic programming algorithm. 
+ *
+ *            Given a digital sequence <dsq> of length <L>, a profile
+ *            <gm>, and DP matrix <gx> allocated for at least <L>
+ *            by <gm->M> cells; calculate the maximum scoring path by
+ *            Viterbi; return the Viterbi score in <ret_sc>, and the
+ *            Viterbi matrix is in <gx>.
+ *            
+ *            The caller may then retrieve the Viterbi path by calling
+ *            <p7_GTrace()>.
+ *           
+ *            The Viterbi lod score is returned in nats. The caller
+ *            needs to subtract a null model lod score, then convert
+ *            to bits.
+ *           
+ * Args:      dsq    - sequence in digitized form, 1..L
+ *            L      - length of dsq
+ *            gm     - profile. 
+ *            gx     - DP matrix with room for an MxL alignment
+ *            opt_sc - optRETURN: Viterbi lod score in nats
+ *           
+ * Return:   <eslOK> on success.
+ */
+int
+p7_GViterbi(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float *opt_sc)
+{
+  float const *tsc  = gm->tsc;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx;
+  int          M    = gm->M;
+  int          i,k;
+  float        esc  = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+
+  /* Initialization of the zero row.  */
+  XMX(0,p7G_N) = 0;                                           /* S->N, p=1            */
+  XMX(0,p7G_B) = gm->xsc[p7P_N][p7P_MOVE];                    /* S->N->B, no N-tail   */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) = -eslINFINITY;  /* need seq to get here */
+  for (k = 0; k <= gm->M; k++)
+    MMX(0,k) = IMX(0,k) = DMX(0,k) = -eslINFINITY;            /* need seq to get here */
+
+  /* DP recursion */
+  for (i = 1; i <= L; i++) 
+    {
+      float const *rsc = gm->rsc[dsq[i]];
+      float sc;
+
+      MMX(i,0) = IMX(i,0) = DMX(i,0) = -eslINFINITY;
+      XMX(i,p7G_E) = -eslINFINITY;
+    
+      for (k = 1; k < gm->M; k++) 
+	{
+  	  /* match state */
+	  sc       = ESL_MAX(    MMX(i-1,k-1)   + TSC(p7P_MM,k-1), 
+				 IMX(i-1,k-1)   + TSC(p7P_IM,k-1));
+	  sc       = ESL_MAX(sc, DMX(i-1,k-1)   + TSC(p7P_DM,k-1));
+	  sc       = ESL_MAX(sc, XMX(i-1,p7G_B) + TSC(p7P_BM,k-1));
+	  MMX(i,k) = sc + MSC(k);
+
+	  /* E state update */
+	  XMX(i,p7G_E) = ESL_MAX(XMX(i,p7G_E), MMX(i,k) + esc);
+	  /* in Viterbi alignments, Dk->E can't win in local mode (and
+	   * isn't possible in glocal mode), so don't bother
+	   * looking. */
+
+	  /* insert state */
+	  sc = ESL_MAX(MMX(i-1,k) + TSC(p7P_MI,k),
+		       IMX(i-1,k) + TSC(p7P_II,k));
+	  IMX(i,k) = sc + ISC(k);
+	  
+	  /* delete state */
+	  DMX(i,k) =  ESL_MAX(MMX(i,k-1) + TSC(p7P_MD,k-1),
+			      DMX(i,k-1) + TSC(p7P_DD,k-1));
+	}
+
+      /* Unrolled match state M. */
+      sc       = ESL_MAX(    MMX(i-1,M-1)   + TSC(p7P_MM,M-1),
+			     IMX(i-1,M-1)   + TSC(p7P_IM,M-1));
+      sc       = ESL_MAX(sc, DMX(i-1,M-1 )  + TSC(p7P_DM,M-1));
+      sc       = ESL_MAX(sc, XMX(i-1,p7G_B) + TSC(p7P_BM,M-1));
+      MMX(i,M) = sc + MSC(M);
+      
+      /* Unrolled delete state D_M 
+       * (Unlike internal Dk->E transitions that can never appear in 
+       * Viterbi alignments, D_M->E is possible in glocal mode.)
+       */
+      DMX(i,M) = ESL_MAX(MMX(i,M-1) + TSC(p7P_MD,M-1),
+			 DMX(i,M-1) + TSC(p7P_DD,M-1));
+
+      /* E state update; transition from M_M scores 0 by def'n */
+      sc  =          ESL_MAX(XMX(i,p7G_E), MMX(i,M));
+      XMX(i,p7G_E) = ESL_MAX(sc,           DMX(i,M));
+   
+      /* Now the special states. E must already be done, and B must follow N,J.
+       * remember, N, C and J emissions are zero score by definition.
+       */
+      /* J state */
+      sc           =             XMX(i-1,p7G_J) + gm->xsc[p7P_J][p7P_LOOP];   /* J->J */
+      XMX(i,p7G_J) = ESL_MAX(sc, XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_LOOP]);  /* E->J is E's "loop" */
+      
+      /* C state */
+      sc           =             XMX(i-1,p7G_C) + gm->xsc[p7P_C][p7P_LOOP];
+      XMX(i,p7G_C) = ESL_MAX(sc, XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_MOVE]);
+      
+      /* N state */
+      XMX(i,p7G_N) = XMX(i-1,p7G_N) + gm->xsc[p7P_N][p7P_LOOP];
+      
+      /* B state */
+      sc           =             XMX(i,p7G_N) + gm->xsc[p7P_N][p7P_MOVE];   /* N->B is N's move */
+      XMX(i,p7G_B) = ESL_MAX(sc, XMX(i,p7G_J) + gm->xsc[p7P_J][p7P_MOVE]);  /* J->B is J's move */
+    }
+  
+  /* T state (not stored) */
+  if (opt_sc != NULL) *opt_sc = XMX(L,p7G_C) + gm->xsc[p7P_C][p7P_MOVE];
+  gx->M = gm->M;
+  gx->L = L;
+  return eslOK;
+}
+
+
+/*-------------------- end, viterbi -----------------------------*/
+
+
+
+/* Function:  p7_GViterbi_longtarget()
+ * Synopsis:  The Viterbi algorithm.
+ * Incept:    SRE, Tue Jan 30 10:50:53 2007 [Einstein's, St. Louis]
+ *
+ * Purpose:   Given a digital sequence <dsq> of length <L>, a profile
+ *            <gm>, and DP matrix <gx> allocated for at least <L>
+ *            by <gm->M> cells; calculates the Viterbi score for
+ *            regions of <dsq>, and captures the positions at which
+ *            such regions exceed the score required to be
+ *            significant in the eyes of the calling function
+ *            (usually p=0.001).
+ *
+ * Args:      dsq    - sequence in digitized form, 1..L
+ *            L      - length of dsq
+ *            gm     - profile.
+ *            gx     - DP matrix with room for an MxL alignment
+ *            filtersc   - null or bias correction, required for translating a P-value threshold into a score threshold
+ *            P       - p-value below which a region is captured as being above threshold
+ *            windowlist - RETURN: array of hit windows (start and end of diagonal) for the above-threshold areas
+ *
+ * Return:   <eslOK> on success.
+ */
+int
+p7_GViterbi_longtarget(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx,
+                       float filtersc, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+  float const *tsc  = gm->tsc;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx;
+  int          M    = gm->M;
+  int          i,k;
+  float        esc  = p7_profile_IsLocal(gm) ? 0 : -eslINFINITY;
+
+  int16_t sc_thresh;
+  float invP;
+
+  /* Initialization of the zero row.  */
+  XMX(0,p7G_N) = 0;                                           /* S->N, p=1            */
+  XMX(0,p7G_B) = gm->xsc[p7P_N][p7P_MOVE];                    /* S->N->B, no N-tail   */
+  XMX(0,p7G_E) = XMX(0,p7G_C) = XMX(0,p7G_J) = -eslINFINITY;  /* need seq to get here */
+  for (k = 0; k <= gm->M; k++)
+    MMX(0,k) = IMX(0,k) = DMX(0,k) = -eslINFINITY;            /* need seq to get here */
+
+
+  /*
+   *  In p7_ViterbiFilter, converting from a scaled int Viterbi score
+   *  S (aka xE the score getting to state E) to a probability
+   *  goes like this:
+   *    S =  XMX(i,p7G_E)
+   *    vsc =  S + gm->xsc[p7P_E][p7P_MOVE] +  gm->xsc[p7P_C][p7P_MOVE];
+   *    P  = esl_gumbel_surv((vfsc - filtersc) / eslCONST_LOG2  ,  gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA]);
+   *  and we're computing the threshold vsc, so invert it:
+   *    (vsc - filtersc) /  eslCONST_LOG2 = esl_gumbel_invsurv( P, gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA])
+   *    vsc = filtersc + eslCONST_LOG2 * esl_gumbel_invsurv( P, gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA])
+   *    S = vsc - gm->xsc[p7P_E][p7P_MOVE] -  gm->xsc[p7P_C][p7P_MOVE]
+   */
+    invP = esl_gumbel_invsurv(P, gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA]);
+    sc_thresh =   (int) ceil (filtersc + (eslCONST_LOG2 * invP)
+                  - gm->xsc[p7P_E][p7P_MOVE] -  gm->xsc[p7P_C][p7P_MOVE] );
+
+
+  /* DP recursion */
+  for (i = 1; i <= L; i++)
+  {
+      float const *rsc = gm->rsc[dsq[i]];
+      float sc;
+
+      MMX(i,0) = IMX(i,0) = DMX(i,0) = -eslINFINITY;
+      XMX(i,p7G_E) = -eslINFINITY;
+
+      for (k = 1; k < gm->M; k++)
+      {
+          /* match state */
+        sc       = ESL_MAX(    MMX(i-1,k-1)   + TSC(p7P_MM,k-1),
+             IMX(i-1,k-1)   + TSC(p7P_IM,k-1));
+        sc       = ESL_MAX(sc, DMX(i-1,k-1)   + TSC(p7P_DM,k-1));
+        sc       = ESL_MAX(sc, XMX(i-1,p7G_B) + TSC(p7P_BM,k-1));
+        MMX(i,k) = sc + MSC(k);
+
+        /* E state update */
+        XMX(i,p7G_E) = ESL_MAX(XMX(i,p7G_E), MMX(i,k) + esc);
+        /* in Viterbi alignments, Dk->E can't win in local mode (and
+         * isn't possible in glocal mode), so don't bother
+         * looking. */
+
+        /* insert state */
+        sc = ESL_MAX(MMX(i-1,k) + TSC(p7P_MI,k),
+               IMX(i-1,k) + TSC(p7P_II,k));
+        IMX(i,k) = sc + ISC(k);
+
+        /* delete state */
+        DMX(i,k) =  ESL_MAX(MMX(i,k-1) + TSC(p7P_MD,k-1),
+                DMX(i,k-1) + TSC(p7P_DD,k-1));
+      }
+
+      /* Unrolled match state M. */
+      sc       = ESL_MAX(    MMX(i-1,M-1)   + TSC(p7P_MM,M-1),
+           IMX(i-1,M-1)   + TSC(p7P_IM,M-1));
+      sc       = ESL_MAX(sc, DMX(i-1,M-1 )  + TSC(p7P_DM,M-1));
+      sc       = ESL_MAX(sc, XMX(i-1,p7G_B) + TSC(p7P_BM,M-1));
+      MMX(i,M) = sc + MSC(M);
+
+      /* Unrolled delete state D_M
+       * (Unlike internal Dk->E transitions that can never appear in
+       * Viterbi alignments, D_M->E is possible in glocal mode.)
+       */
+      DMX(i,M) = ESL_MAX(MMX(i,M-1) + TSC(p7P_MD,M-1),
+       DMX(i,M-1) + TSC(p7P_DD,M-1));
+
+      /* E state update; transition from M_M scores 0 by def'n */
+      sc  =          ESL_MAX(XMX(i,p7G_E), MMX(i,M));
+      XMX(i,p7G_E) = ESL_MAX(sc,           DMX(i,M));
+
+
+      if (XMX(i,p7G_E) >= sc_thresh) {
+        //hit score threshold. Add a window to the list, then reset scores.
+
+        for (k = 1; k <= gm->M; k++) {
+          if (MMX(i,k) == XMX(i,p7G_E)) {
+            p7_hmmwindow_new(windowlist, 0, i, 0, k, 1, 0.0, p7_NOCOMPLEMENT, L);
+          }
+          MMX(i,0) = IMX(i,0) = DMX(i,0) = -eslINFINITY;
+        }
+      } else {
+
+        /* Now the special states. E must already be done, and B must follow N,J.
+         * remember, N, C and J emissions are zero score by definition.
+         */
+        /* J state */
+        sc           =             XMX(i-1,p7G_J) + gm->xsc[p7P_J][p7P_LOOP];   /* J->J */
+        XMX(i,p7G_J) = ESL_MAX(sc, XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_LOOP]);  /* E->J is E's "loop" */
+
+        /* C state */
+        sc           =             XMX(i-1,p7G_C) + gm->xsc[p7P_C][p7P_LOOP];
+        XMX(i,p7G_C) = ESL_MAX(sc, XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_MOVE]);
+
+        /* N state */
+        XMX(i,p7G_N) = XMX(i-1,p7G_N) + gm->xsc[p7P_N][p7P_LOOP];
+
+        /* B state */
+        sc           =             XMX(i,p7G_N) + gm->xsc[p7P_N][p7P_MOVE];   /* N->B is N's move */
+        XMX(i,p7G_B) = ESL_MAX(sc, XMX(i,p7G_J) + gm->xsc[p7P_J][p7P_MOVE]);  /* J->B is J's move */
+
+      }
+   }
+
+  /* T state (not stored) */
+  gx->M = gm->M;
+  gx->L = L;
+  return eslOK;
+}
+
+/*-------------------- end, p7_GViterbi_longtarget -----------------------------*/
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7GENERIC_VITERBI_BENCHMARK
+/*
+   gcc -g -O2      -o generic_viterbi_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_VITERBI_BENCHMARK generic_viterbi.c -lhmmer -leasel -lm
+   icc -O3 -static -o generic_viterbi_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_VITERBI_BENCHMARK generic_viterbi.c -lhmmer -leasel -lm
+   ./benchmark-generic-viterbi <hmmfile>
+ */
+/* As of Fri Dec 28 14:48:39 2007
+ *    Viterbi  = 61.8 Mc/s
+ *    Forward  =  8.6 Mc/s
+ *   Backward  =  7.1 Mc/s
+ *        MSV  = 55.9 Mc/s
+ * (gcc -g -O2, 3.2GHz Xeon, N=50K, L=400, M=72 RRM_1 model)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,  "20000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for generic Viterbi";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Baseline time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Benchmark time. */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_GViterbi     (dsq, L, gm, gx, &sc);
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+
+  free(dsq);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_VITERBI_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GENERIC_VITERBI_TESTDRIVE
+#include <string.h>
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* The "basic" utest is a minimal driver for making a small DNA profile and a small DNA sequence,
+ * then running Viterbi and Forward. It's useful for dumping DP matrices and profiles for debugging.
+ */
+static void
+utest_basic(ESL_GETOPTS *go)
+{
+  char           *query= "# STOCKHOLM 1.0\n\nseq1 GAATTC\nseq2 GAATTC\n//\n";
+  int             fmt  = eslMSAFILE_STOCKHOLM;
+  char           *targ = "GAATTC";
+  ESL_ALPHABET   *abc  = NULL;
+  ESL_MSA        *msa  = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_BG          *bg   = NULL;
+  P7_PRIOR       *pri  = NULL;	
+  ESL_DSQ        *dsq  = NULL;
+  P7_GMX         *gx   = NULL;
+  P7_TRACE        *tr  = NULL;
+  int             L    = strlen(targ);
+  float           vsc, vsc2, fsc;
+
+  if ((abc = esl_alphabet_Create(eslDNA))          == NULL)  esl_fatal("failed to create alphabet");
+  if ((pri = p7_prior_CreateNucleic())             == NULL)  esl_fatal("failed to create prior");
+  if ((msa = esl_msa_CreateFromString(query, fmt)) == NULL)  esl_fatal("failed to create MSA");
+  if (esl_msa_Digitize(abc, msa, NULL)             != eslOK) esl_fatal("failed to digitize MSA");
+  if (p7_Fastmodelmaker(msa, 0.5, NULL, &hmm, NULL) != eslOK) esl_fatal("failed to create GAATTC model");
+  if (p7_ParameterEstimation(hmm, pri)             != eslOK) esl_fatal("failed to parameterize GAATTC model");
+  if (p7_hmm_SetConsensus(hmm, NULL)               != eslOK) esl_fatal("failed to make consensus");
+  if ((bg = p7_bg_Create(abc))                     == NULL)  esl_fatal("failed to create DNA null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))        == NULL)  esl_fatal("failed to create GAATTC profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL)!= eslOK) esl_fatal("failed to config profile");
+  if (p7_profile_Validate(gm, NULL, 0.0001)        != eslOK) esl_fatal("whoops, profile is bad!");
+  if (esl_abc_CreateDsq(abc, targ, &dsq)           != eslOK) esl_fatal("failed to create GAATTC digital sequence");
+  if ((gx = p7_gmx_Create(gm->M, L))               == NULL)  esl_fatal("failed to create DP matrix");
+  if ((tr = p7_trace_Create())                     == NULL)  esl_fatal("trace creation failed");
+
+  p7_GViterbi   (dsq, L, gm, gx, &vsc);
+  if (esl_opt_GetBoolean(go, "-v")) printf("Viterbi score: %.4f\n", vsc);
+  if (esl_opt_GetBoolean(go, "-v")) p7_gmx_Dump(stdout, gx, p7_DEFAULT);
+
+  p7_GTrace     (dsq, L, gm, gx, tr);
+  p7_trace_Score(tr, dsq, gm, &vsc2);
+  if (esl_opt_GetBoolean(go, "-v")) p7_trace_Dump(stdout, tr, gm, dsq);
+  
+  if (esl_FCompare(vsc, vsc2, 1e-5) != eslOK)  esl_fatal("trace score and Viterbi score don't agree.");
+
+  p7_GForward   (dsq, L, gm, gx, &fsc);
+  if (esl_opt_GetBoolean(go, "-v")) printf("Forward score: %.4f\n", fsc);
+  if (esl_opt_GetBoolean(go, "-v")) p7_gmx_Dump(stdout, gx, p7_DEFAULT);
+
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx);
+  free(dsq);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_msa_Destroy(msa);
+  p7_prior_Destroy(pri);
+  esl_alphabet_Destroy(abc);
+  return;
+}
+
+/* Viterbi validation is done by comparing the returned score
+ * to the score of the optimal trace. Not foolproof, but catches
+ * many kinds of errors.
+ * 
+ * Another check is that the average score should be <= 0,
+ * since the random sequences are drawn from the null model.
+ */ 
+static void
+utest_viterbi(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, P7_PROFILE *gm, int nseq, int L)
+{
+  float     avg_sc = 0.;
+  char      errbuf[eslERRBUFSIZE];
+  ESL_DSQ  *dsq = NULL;
+  P7_GMX   *gx  = NULL;
+  P7_TRACE *tr  = NULL;
+  int       idx;
+  float     sc1, sc2;
+
+  if ((dsq    = malloc(sizeof(ESL_DSQ) *(L+2))) == NULL)  esl_fatal("malloc failed");
+  if ((tr     = p7_trace_Create())              == NULL)  esl_fatal("trace creation failed");
+  if ((gx     = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("matrix creation failed");
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+      if (p7_GViterbi(dsq, L, gm, gx, &sc1)       != eslOK) esl_fatal("viterbi failed");
+      if (p7_GTrace  (dsq, L, gm, gx, tr)         != eslOK) esl_fatal("trace failed");
+      if (p7_trace_Validate(tr, abc, dsq, errbuf) != eslOK) esl_fatal("trace invalid:\n%s", errbuf);
+      if (p7_trace_Score(tr, dsq, gm, &sc2)       != eslOK) esl_fatal("trace score failed");
+      if (esl_FCompare(sc1, sc2, 1e-6)            != eslOK) esl_fatal("Trace score != Viterbi score"); 
+      if (p7_bg_NullOne(bg, dsq, L, &sc2)         != eslOK) esl_fatal("null score failed");
+
+      avg_sc += (sc1 - sc2);
+
+      if (esl_opt_GetBoolean(go, "--vv"))       
+	printf("utest_viterbi: Viterbi score: %.4f (null %.4f) (total so far: %.4f)\n", sc1, sc2, avg_sc);
+
+      p7_trace_Reuse(tr);
+    }
+
+  avg_sc /= (float) nseq;
+  if (avg_sc > 0.) esl_fatal("Viterbi scores have positive expectation (%f nats)", avg_sc);
+
+  p7_gmx_Destroy(gx);
+  p7_trace_Destroy(tr);
+  free(dsq);
+  return;
+}
+
+#endif /*p7GENERIC_VITERBI_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+/* gcc -g -Wall -Dp7GENERIC_VITERBI_TESTDRIVE -I. -I../easel -L. -L../easel -o generic_viterbi_utest generic_viterbi.c -lhmmer -leasel -lm
+ */
+#ifdef p7GENERIC_VITERBI_TESTDRIVE
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for the generic Viterbi implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go    = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = 100;
+  int             L    = 200;
+  int             nseq = 20;
+  char            errbuf[eslERRBUFSIZE];
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if (p7_hmm_Validate    (hmm, errbuf, 0.0001)      != eslOK) esl_fatal("whoops, HMM is bad!: %s", errbuf);
+  if (p7_profile_Validate(gm,  errbuf, 0.0001)      != eslOK) esl_fatal("whoops, profile is bad!: %s", errbuf);
+
+  utest_basic  (go);
+  utest_viterbi(go, r, abc, bg, gm, nseq, L);
+
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_VITERBI_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+/* This is essentially identical to the vtrace example. */
+#ifdef p7GENERIC_VITERBI_EXAMPLE
+/* 
+   gcc -g -O2 -Dp7GENERIC_VITERBI_EXAMPLE -I. -I../easel -L. -L../easel -o generic_viterbi_example generic_viterbi.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of generic Viterbi";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  float           sc;
+  int             d;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  
+  /* Allocate matrix and a trace */
+  fwd = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_Create();
+
+  /* Run Viterbi; do traceback */
+  p7_GViterbi (sq->dsq, sq->n, gm, fwd, &sc);
+  p7_GTrace   (sq->dsq, sq->n, gm, fwd, tr);
+
+  /* Dump and validate the trace. */
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+  if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
+
+  /* Domain info in the trace. */
+  p7_trace_Index(tr);
+  printf("# Viterbi: %d domains : ", tr->ndom);
+  for (d = 0; d < tr->ndom; d++) printf("%6d %6d %6d %6d  ", tr->sqfrom[d], tr->sqto[d], tr->hmmfrom[d], tr->hmmto[d]);
+  printf("\n");
+
+  /* Cleanup */
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(fwd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_sq_Destroy(sq);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_VITERBI_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/generic_viterbi.c $
+ * SVN $Id: generic_viterbi.c 3569 2011-06-16 16:16:13Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_vtrace.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_vtrace.c
new file mode 100755
index 0000000..07bb64f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/generic_vtrace.c
@@ -0,0 +1,280 @@
+/* Viterbi traceback; generic (non-SIMD) version.
+ * 
+ * Contents:
+ *   1. Viterbi traceback
+ *   2. Example.
+ *   3. Copyright and license information.
+ *   
+ * SRE, Fri Aug 15 09:17:11 2008 [Janelia]
+ * SVN $Id: generic_vtrace.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Viterbi traceback, generic version
+ *****************************************************************/
+
+/* Function: p7_GTrace()
+ * Incept:   SRE, Thu Feb  1 10:25:56 2007 [UA 8018 St. Louis to Dulles]
+ * 
+ * Purpose:  Traceback of a Viterbi matrix: retrieval 
+ *           of optimum alignment.
+ *           
+ *           This function is currently implemented as a
+ *           reconstruction traceback, rather than using a shadow
+ *           matrix. Because H3 uses floating point scores, and we
+ *           can't compare floats for equality, we have to compare
+ *           floats for near-equality and therefore, formally, we can
+ *           only guarantee a near-optimal traceback. However, even in
+ *           the unlikely event that a suboptimal is returned, the
+ *           score difference from true optimal will be negligible.
+ *           
+ * Args:     dsq    - digital sequence aligned to, 1..L 
+ *           L      - length of <dsq>
+ *           gm     - profile
+ *           mx     - Viterbi matrix to trace, L x M
+ *           tr     - storage for the recovered traceback.
+ *           
+ * Return:   <eslOK> on success.
+ *           <eslFAIL> if even the optimal path has zero probability;
+ *           in this case, the trace is set blank (<tr->N = 0>).
+ *
+ * Note:     Care is taken to evaluate the prev+tsc+emission
+ *           calculations in exactly the same order that Viterbi did
+ *           them, lest you get numerical problems with
+ *           a+b+c = d; d-c != a+b because d,c are nearly equal.
+ *           (This bug appeared in dev: xref J1/121.)
+ */
+int
+p7_GTrace(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, const P7_GMX *gx, P7_TRACE *tr)
+{
+  int          i   = L;		/* position in seq (1..L)         */
+  int          k   = 0;		/* position in model (1..M)       */
+  int          M   = gm->M;
+  float      **dp  = gx->dp;	/* so {MDI}MX() macros work       */
+  float       *xmx = gx->xmx;	/* so XMX() macro works           */
+  float        tol = 1e-5;	/* floating point "equality" test */
+  float const *tsc = gm->tsc;
+  int     sprv, scur;		/* previous, current state in trace */
+  int     status;
+
+#ifdef p7_DEBUGGING
+  if (tr->N != 0) ESL_EXCEPTION(eslEINVAL, "trace isn't empty: forgot to Reuse()?");
+#endif
+
+  if ((status = p7_trace_Append(tr, p7T_T, k, i)) != eslOK) return status;
+  if ((status = p7_trace_Append(tr, p7T_C, k, i)) != eslOK) return status;
+  sprv = p7T_C;
+  while (sprv != p7T_S) {
+    float const *rsc = (i>0 ? gm->rsc[dsq[i]] : NULL);
+
+    switch (sprv) {
+    case p7T_C:		/* C(i) comes from C(i-1) or E(i) */
+      if   (XMX(i,p7G_C) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible C reached at i=%d", i);
+
+      if      (esl_FCompare(XMX(i, p7G_C), XMX(i-1, p7G_C) + gm->xsc[p7P_C][p7P_LOOP], tol) == eslOK)  scur = p7T_C; 
+      else if (esl_FCompare(XMX(i, p7G_C), XMX(i,   p7G_E) + gm->xsc[p7P_E][p7P_MOVE], tol) == eslOK)  scur = p7T_E; 
+      else ESL_EXCEPTION(eslFAIL, "C at i=%d couldn't be traced", i);
+      break;
+
+    case p7T_E:		/* E connects from any M state. k set here */
+      if (XMX(i, p7G_E) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible E reached at i=%d", i);
+
+      if (p7_profile_IsLocal(gm))
+	{
+	  scur = p7T_M;		/* can't come from D, in a *local* Viterbi trace. */
+	  for (k = M; k >= 1; k--) if (esl_FCompare(XMX(i, p7G_E), MMX(i,k), tol) == eslOK) break;
+	  if (k == 0) ESL_EXCEPTION(eslFAIL, "E at i=%d couldn't be traced", i);
+	}
+      else 			/* glocal mode: we either come from D_M or M_M */
+	{
+	  if      (esl_FCompare(XMX(i, p7G_E), MMX(i,M), tol) == eslOK) { scur = p7T_M; k = M; }
+	  else if (esl_FCompare(XMX(i, p7G_E), DMX(i,M), tol) == eslOK) { scur = p7T_D; k = M; }
+	  else    ESL_EXCEPTION(eslFAIL, "E at i=%d couldn't be traced", i);
+	}
+      break;      
+
+    case p7T_M:			/* M connects from i-1,k-1, or B */
+      if (MMX(i,k) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible M reached at k=%d,i=%d", k,i);
+
+      if      (esl_FCompare(MMX(i,k), XMX(i-1,p7G_B) + TSC(p7P_BM, k-1) + MSC(k), tol) == eslOK) scur = p7T_B;
+      else if (esl_FCompare(MMX(i,k), MMX(i-1,k-1)   + TSC(p7P_MM, k-1) + MSC(k), tol) == eslOK) scur = p7T_M;
+      else if (esl_FCompare(MMX(i,k), IMX(i-1,k-1)   + TSC(p7P_IM, k-1) + MSC(k), tol) == eslOK) scur = p7T_I;
+      else if (esl_FCompare(MMX(i,k), DMX(i-1,k-1)   + TSC(p7P_DM, k-1) + MSC(k), tol) == eslOK) scur = p7T_D;
+      else ESL_EXCEPTION(eslFAIL, "M at k=%d,i=%d couldn't be traced", k,i);
+      k--; i--;
+      break;
+
+    case p7T_D:			/* D connects from M,D at i,k-1 */
+      if (DMX(i, k) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible D reached at k=%d,i=%d", k,i);
+
+      if      (esl_FCompare(DMX(i,k), MMX(i, k-1) + TSC(p7P_MD, k-1), tol) == eslOK) scur = p7T_M;
+      else if (esl_FCompare(DMX(i,k), DMX(i, k-1) + TSC(p7P_DD, k-1), tol) == eslOK) scur = p7T_D;
+      else ESL_EXCEPTION(eslFAIL, "D at k=%d,i=%d couldn't be traced", k,i);
+      k--;
+      break;
+
+    case p7T_I:			/* I connects from M,I at i-1,k*/
+      if (IMX(i,k) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible I reached at k=%d,i=%d", k,i);
+
+      if      (esl_FCompare(IMX(i,k), MMX(i-1,k) + TSC(p7P_MI, k) + ISC(k), tol) == eslOK) scur = p7T_M;
+      else if (esl_FCompare(IMX(i,k), IMX(i-1,k) + TSC(p7P_II, k) + ISC(k), tol) == eslOK) scur = p7T_I;
+      else ESL_EXCEPTION(eslFAIL, "I at k=%d,i=%d couldn't be traced", k,i);
+      i--;
+      break;
+
+    case p7T_N:			/* N connects from S, N */
+      if (XMX(i, p7G_N) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible N reached at i=%d", i);
+      scur = ( (i == 0) ? p7T_S : p7T_N);
+      break;
+
+    case p7T_B:			/* B connects from N, J */
+      if (XMX(i,p7G_B) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible B reached at i=%d", i);
+
+      if      (esl_FCompare(XMX(i,p7G_B), XMX(i, p7G_N) + gm->xsc[p7P_N][p7P_MOVE], tol) == eslOK) scur = p7T_N;
+      else if (esl_FCompare(XMX(i,p7G_B), XMX(i, p7G_J) + gm->xsc[p7P_J][p7P_MOVE], tol) == eslOK) scur = p7T_J;
+      else  ESL_EXCEPTION(eslFAIL, "B at i=%d couldn't be traced", i);
+      break;
+
+    case p7T_J:			/* J connects from E(i) or J(i-1) */
+      if (XMX(i,p7G_J) == -eslINFINITY) ESL_EXCEPTION(eslFAIL, "impossible J reached at i=%d", i);
+
+      if      (esl_FCompare(XMX(i,p7G_J), XMX(i-1,p7G_J) + gm->xsc[p7P_J][p7P_LOOP], tol) == eslOK) scur = p7T_J; 
+      else if (esl_FCompare(XMX(i,p7G_J), XMX(i,  p7G_E) + gm->xsc[p7P_E][p7P_LOOP], tol) == eslOK) scur = p7T_E; 
+      else  ESL_EXCEPTION(eslFAIL, "J at i=%d couldn't be traced", i);
+      break;
+
+    default: ESL_EXCEPTION(eslFAIL, "bogus state in traceback");
+    } /* end switch over statetype[tpos-1] */
+
+    /* Append this state and the current i,k to be explained to the growing trace */
+    if ((status = p7_trace_Append(tr, scur, k, i)) != eslOK) return status;
+
+    /* For NCJ, we had to defer i decrement. */
+    if ( (scur == p7T_N || scur == p7T_J || scur == p7T_C) && scur == sprv) i--;
+
+    sprv = scur;
+  } /* end traceback, at S state */
+
+  tr->M = gm->M;
+  tr->L = L;
+  return p7_trace_Reverse(tr);
+}
+
+/*****************************************************************
+ * 2. Example
+ *****************************************************************/
+#ifdef p7GENERIC_VTRACE_EXAMPLE
+/* 
+   gcc -g -O2 -Dp7GENERIC_VTRACE_EXAMPLE -I. -I../easel -L. -L../easel -o generic_vtrace_example generic_vtrace.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of generic Viterbi tracebacks";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *fwd     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  float           sc;
+  int             d;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  
+  /* Allocate matrix and a trace */
+  fwd = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_Create();
+
+  /* Run Viterbi; do traceback */
+  p7_GViterbi (sq->dsq, sq->n, gm, fwd, &sc);
+  p7_GTrace   (sq->dsq, sq->n, gm, fwd, tr);
+
+  /* Dump and validate the trace. */
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+  if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) 
+    p7_Die("trace fails validation:\n%s\n", errbuf);
+
+  /* Domain info in the trace. */
+  p7_trace_Index(tr);
+  printf("# Viterbi: %d domains :\n", tr->ndom);
+  for (d = 0; d < tr->ndom; d++)
+    printf("%6d %6d %6d %6d\n", tr->sqfrom[d], tr->sqto[d], tr->hmmfrom[d], tr->hmmto[d]);
+
+  /* Cleanup */
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(fwd);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7GENERIC_VTRACE_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/h2_io.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/h2_io.c
new file mode 100755
index 0000000..fbec286
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/h2_io.c
@@ -0,0 +1,255 @@
+/* Input/output of HMMER3 HMMs in HMMER2 save file formats:
+ * for backwards compatibility.
+ * 
+ * Contents:
+ *    1. Writing profiles in HMMER2 format.
+ *    2. Copyright and license information
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "hmmer.h"
+#include "easel.h"
+
+static int h2_multiline(FILE *fp, const char *pfx, char *s);
+static int printprob(FILE *fp, int fieldwidth, float p, float null);
+
+/*****************************************************************
+ *= 1. Writing profiles in HMMER2 format
+ *****************************************************************/
+
+/* Function:  p7_h2io_WriteASCII()
+ * Synopsis:  Write an H3 HMM in HMMER2 compatible format
+ *
+ * Purpose:   Write HMM <hmm> to stream <fp> in HMMER2 ASCII save
+ *            file format.
+ *            
+ *            HMMER2 saved the null model and the search configuration
+ *            (local vs. glocal, for example) as part of its HMM file;
+ *            H3 only saves the core HMM. The HMMER2 file is created
+ *            for HMMER2's default ``ls mode'' (glocal) with default
+ *            null model transitions and default special state
+ *            transitions (NECJ).
+ *            
+ *            Optional statistical calibration and alignment checksum
+ *            are not written, because for these H3 and H2 differ too
+ *            much.
+ *
+ * Args:      fp   - stream to write save file format to
+ *            hmm  - HMM to save
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error. 
+ *
+ *            <eslEINVAL> if <hmm> can't be converted; for example, if
+ *            it is not in a protein or nucleic acid alphabet (H2
+ *            requires biosequence in its save files).
+ * 
+ *            <eslEWRITE> if any write fails; for example, if the
+ *            disk fills up.
+ */
+int
+p7_h2io_WriteASCII(FILE *fp, P7_HMM *hmm)
+{
+  P7_BG *bg;			/* H2 saves null model in HMM file   */
+  int    k;                     /* counter for nodes                 */
+  int    x;                     /* counter for symbols               */
+  int    ts;			/* counter for state transitions     */
+  float  pmove,ploop;		/* default H2 null model transitions */
+  int    status;
+
+  if ((bg = p7_bg_Create(hmm->abc)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  /* magic header */
+  if (fprintf(fp, "HMMER2.0  [converted from %s]\n", HMMER_VERSION) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (fprintf(fp, "NAME  %s\n", hmm->name)                          < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (hmm->acc  && fprintf(fp, "ACC   %s\n", hmm->acc)              < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (hmm->desc && fprintf(fp, "DESC  %s\n", hmm->desc)             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (fprintf(fp, "LENG  %d\n", hmm->M)                             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+  if      (hmm->abc->type == eslAMINO)   { if (fprintf(fp, "ALPH  Amino\n")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  else if (hmm->abc->type == eslDNA)     { if (fprintf(fp, "ALPH  Nucleic\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  else if (hmm->abc->type == eslRNA)     { if (fprintf(fp, "ALPH  Nucleic\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  else    ESL_XEXCEPTION(eslEINVAL, "Only protein, DNA, RNA HMMs can be saved in H2 format");
+
+  if (fprintf(fp, "RF    %s\n", (hmm->flags & p7H_RF)  ? "yes" : "no") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (fprintf(fp, "CS    %s\n", (hmm->flags & p7H_CS)  ? "yes" : "no") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (fprintf(fp, "MAP   %s\n", (hmm->flags & p7H_MAP) ? "yes" : "no") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  /* H3 consensus line has no counterpart in H2 */
+
+  if (hmm->comlog != NULL)  { if ( (status = h2_multiline(fp, "COM   ",     hmm->comlog)) != eslOK) goto ERROR; }
+  if (hmm->nseq   != -1)    { if (           fprintf     (fp, "NSEQ  %d\n", hmm->nseq)     < 0)     ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  if (hmm->ctime  != NULL)  { if (           fprintf     (fp, "DATE  %s\n", hmm->ctime)    < 0)     ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+
+  /* Checksum is not written; H2 and H3 use different checksum algorithms */
+
+  if (hmm->flags & p7H_GA) { if (fprintf(fp, "GA    %.1f %.1f\n", hmm->cutoff[p7_GA1], hmm->cutoff[p7_GA2]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  if (hmm->flags & p7H_TC) { if (fprintf(fp, "TC    %.1f %.1f\n", hmm->cutoff[p7_TC1], hmm->cutoff[p7_TC2]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  if (hmm->flags & p7H_NC) { if (fprintf(fp, "NC    %.1f %.1f\n", hmm->cutoff[p7_NC1], hmm->cutoff[p7_NC2]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+
+  /* in H3, the HMM does not include NECJ; these are part of the profile.
+   * for emulating H2 output, assume default LS config */
+  if (fputs("XT     ", fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  pmove = ( (hmm->abc->type == eslAMINO) ?   1./351. :    1./1001.); 
+  ploop = ( (hmm->abc->type == eslAMINO) ? 350./351. : 1000./1001.); 
+  if ( (status = printprob(fp, 6, pmove, 1.0)) != eslOK) goto ERROR;	/* NB */
+  if ( (status = printprob(fp, 6, ploop, 1.0)) != eslOK) goto ERROR;	/* NN */
+  if ( (status = printprob(fp, 6,   0.5, 1.0)) != eslOK) goto ERROR;	/* EC */
+  if ( (status = printprob(fp, 6,   0.5, 1.0)) != eslOK) goto ERROR;	/* EJ */
+  if ( (status = printprob(fp, 6, pmove, 1.0)) != eslOK) goto ERROR;	/* CT */
+  if ( (status = printprob(fp, 6, ploop, 1.0)) != eslOK) goto ERROR;	/* CC */
+  if ( (status = printprob(fp, 6, pmove, 1.0)) != eslOK) goto ERROR;	/* JB */
+  if ( (status = printprob(fp, 6, ploop, 1.0)) != eslOK) goto ERROR;	/* JJ */
+  if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+  /* Save the default H2 null model transitions, not H3's null model transitions  */
+  if (fprintf(fp, "NULT   ") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if ( (status = printprob(fp, 6, ploop, 1.0)) != eslOK) goto ERROR;	/* 1-p1 */
+  if ( (status = printprob(fp, 6, pmove, 1.0)) != eslOK) goto ERROR;	/* p1   */
+  if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  
+  /* but null emissions really are the H3 null model emissions */
+  if (fputs("NULE   ", fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  for (x = 0; x < hmm->abc->K; x++)
+    { if ( (status = printprob(fp, 6, bg->f[x], 1./(float)hmm->abc->K)) != eslOK) goto ERROR; }
+  if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+  /* Don't save stats; H3 local alignment stats are different from H2 calibration */
+  
+  /* The main model section */
+  if (fprintf(fp, "HMM      ") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  for (x = 0; x < hmm->abc->K; x++) 
+    { if (fprintf(fp, "  %c    ", hmm->abc->sym[x]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if (fprintf(fp, "       %6s %6s %6s %6s %6s %6s %6s %6s %6s\n",
+	      "m->m", "m->i", "m->d", "i->m", "i->i", "d->m", "d->d", "b->m", "m->e") < 0) 
+    ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+  /* Print HMM parameters (main section of the save file) */
+  if (fprintf(fp, "      ")                                    < 0)     ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if ( (status = printprob(fp, 6, 1.-hmm->t[0][p7H_MD], 1.0)) != eslOK) goto ERROR;
+  if (fprintf(fp, " %6s", "*")                                 < 0)     ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+  if ( (status = printprob(fp, 6, hmm->t[0][p7H_MD], 1.0))    != eslOK) goto ERROR;
+  if (fputc('\n', fp)                                          < 0)     ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+  for (k = 1; k <= hmm->M; k++)
+    {
+				/* Line 1: k, match emissions, map */
+      if (fprintf(fp, " %5d ", k)              < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+      for (x = 0; x < hmm->abc->K; x++) 
+	if ( (status = printprob(fp, 6, hmm->mat[k][x], bg->f[x])) != eslOK) goto ERROR;
+      if (hmm->flags & p7H_MAP) 
+	{ if (fprintf(fp, " %5d", hmm->map[k]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+      if (fputc('\n', fp)                      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+				/* Line 2: RF and insert emissions */
+      if (fprintf(fp, " %5c ", hmm->flags & p7H_RF ? hmm->rf[k] : '-') < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+      for (x = 0; x < hmm->abc->K; x++) 
+	if ( (status = printprob(fp, 6, ((k < hmm->M) ? hmm->ins[k][x] : 0.0), bg->f[x])) != eslOK) goto ERROR;
+      if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+				/* Line 3: CS and transition probs */
+      if (fprintf(fp, " %5c ", hmm->flags & p7H_CS ? hmm->cs[k] : '-') < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+      for (ts = 0; ts < 7; ts++)
+	if ( (status = printprob(fp, 6, ((k < hmm->M) ? hmm->t[k][ts] : 0.0), 1.0)) != eslOK) goto ERROR;
+      if ( (status = printprob(fp, 6, ((k==1)     ? hmm->t[0][p7H_MM] : 0.0), 1.0)) != eslOK) goto ERROR;
+      if ( (status = printprob(fp, 6, ((k<hmm->M) ? 0.0: 1.0), 1.0))                != eslOK) goto ERROR;
+      if (fputc('\n', fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+    }
+  if (fputs("//\n", fp) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+
+  p7_bg_Destroy(bg);
+  return eslOK;
+
+ ERROR:
+  p7_bg_Destroy(bg);
+  return status;
+}
+
+/* h2_multiline()
+ * 
+ * Used to print the command log to HMMER2 ASCII save files.
+ * H3 records command numbers in brackets, as in "COM [1] hmmbuild ..."
+ * H2 just records commands, as in "COM   hmmbuild ...".
+ * Compare p7_hmmfile.c::multiline().
+ *
+ * Given a record (like the comlog) that contains 
+ * multiple lines, print it as multiple lines with
+ * a given prefix. e.g.:
+ *           
+ * given:   "COM   ", "foo\nbar\nbaz"
+ * print:   COM   foo
+ *          COM   bar
+ *          COM   baz
+ *
+ * If <s> is NULL, no-op. Otherwise <s> must be a <NUL>-terminated
+ * string.  It does not matter if it ends in <\n> or not. <pfx>
+ * must be a valid <NUL>-terminated string; it may be empty.
+ *           
+ * Args:     fp:   FILE to print to
+ *           pfx:  prefix for each line
+ *           s:    line to break up and print; tolerates a NULL
+ *           
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEWRITE> on any write error.
+ */
+static int
+h2_multiline(FILE *fp, const char *pfx, char *s)
+{
+  char *sptr  = s;
+  char *end   = NULL;
+  int   n     = 0;
+
+  do {
+    end = strchr(sptr, '\n');
+
+    if (end != NULL) 		             /* if there's no \n left, end == NULL */
+      {
+	n = end - sptr;	                     /* n chars exclusive of \n */
+	if (fprintf(fp, "%s ", pfx)            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed");
+	if (fwrite(sptr, sizeof(char), n, fp) != n) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed");   /* using fwrite lets us write fixed # of chars   */
+	if (fprintf(fp, "\n")                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed");   /* while writing \n w/ printf allows newline conversion */
+	sptr += n + 1;	                     /* +1 to get past \n */
+      } 
+    else 
+      {
+	if (fprintf(fp, "%s %s\n", pfx, sptr) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); /* last line */
+      }
+  } while (end != NULL  && *sptr != '\0');   /* *sptr == 0 if <s> terminates with a \n */
+  return eslOK;
+}
+
+
+/* printprob()
+ * Print a probability (with a leading space), formatted
+ * for an H2 ASCII save file.
+ * 
+ * Returns: <eslOK> on success.
+ * 
+ * Throws:  <eslEWRITE> on any write failure.
+ */
+static int
+printprob(FILE *fp, int fieldwidth, float p, float null)
+{
+  if      (p == 0.0)                { if (fprintf(fp, " %*s", fieldwidth, "*")                                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  else if (null == 1.0 && p == 1.0) { if (fprintf(fp, " %*d", fieldwidth, 0)                                         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  else                              { if (fprintf(fp, " %*d", fieldwidth, (int) floor(0.5 + 1442.695 * log(p/null))) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "h2 profile write failed"); }
+  return eslOK;
+}
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id: h2_io.c 3722 2011-10-24 17:23:02Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/h2_io.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/heatmap.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/heatmap.c
new file mode 100755
index 0000000..ae25283
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/heatmap.c
@@ -0,0 +1,107 @@
+/* working version of heat map displays in PostScript
+ * evolving toward eventual inclusion in Easel
+ * 
+ * SRE, Thu Jan 25 09:51:18 2007 [Janelia] [Elgar, Enigma Variations]
+ * SVN $Id: heatmap.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_dmatrix.h"
+
+
+/* dmx_Visualize()
+ * Incept:    SRE, Wed Jan 24 11:58:21 2007 [Janelia]
+ *
+ * Purpose:   
+ *            
+ *            Color scheme roughly follows Tufte, Envisioning
+ *            Information, p.91, where he shows a beautiful
+ *            bathymetric chart. The CMYK values conjoin two
+ *            recommendations from ColorBrewer (Cindy Brewer
+ *            and Mark Harrower) 
+ *            [http://www.personal.psu.edu/cab38/ColorBrewer/ColorBrewer.html],
+ *            specifically the 9-class sequential2 Blues and
+ *            9-class sequential YlOrBr.
+ * 
+ *            Might eventually become part of Easel, once mature?
+ *           
+ * Note:      Binning rules basically follow same convention as
+ *            esl_histogram. nb = xmax-xmin/w, so w = xmax-xmin/nb; 
+ *            picking bin is (int) ceil((x - xmin)/w) - 1. (xref
+ *            esl_histogram_Score2Bin()). This makes bin b contain
+ *            values bw+min < x <= (b+1)w+min. (Which means that 
+ *            min itself falls in bin -1, whoops - but we catch
+ *            all bin<0 and bin>=nshades and put them in the extremes.
+ *
+ * Args:      
+ *
+ * Returns:   
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      
+ */
+int
+dmx_Visualize(FILE *fp, ESL_DMATRIX *D, double min, double max)
+{
+  int    nshades   = 18;
+  double cyan[]    = { 1.00, 1.00, 0.90, 0.75, 0.57, 0.38, 0.24, 0.13, 0.03,
+                       0.00, 0.00, 0.00, 0.00, 0.00, 0.07, 0.20, 0.40, 0.60};
+  double magenta[] = { 0.55, 0.45, 0.34, 0.22, 0.14, 0.08, 0.06, 0.03, 0.01,
+		       0.00, 0.03, 0.11, 0.23, 0.40, 0.55, 0.67, 0.75, 0.80};
+  double yellow[]  = { 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00,
+		       0.10, 0.25, 0.40, 0.65, 0.80, 0.90, 1.00, 1.00, 1.00};
+  double black[]   = { 0.30, 0.07, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00,
+		       0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00};
+  double w;			
+  int    i,j;
+  int    bin;
+  int    boxsize;		/* box size in points */
+  int    xcoord, ycoord;	/* postscript coords in points */
+  int    leftmargin;
+  int    bottommargin;
+
+  /* Set some defaults that might become arguments later.
+   */
+  leftmargin  = 20;
+  bottommargin = 20;
+
+  /* Determine some working parameters 
+   */
+  w = (max-min) / (double) nshades; /* w = bin size for assigning values->colors*/
+  boxsize = ESL_MIN( (792 - bottommargin) / D->n, 
+		     (612 - leftmargin)   / D->m);
+  
+  /* or start from j=i, to do diagonals */
+
+  for (i = 0; i < D->n; i++)
+    for (j = 0; j < D->m; j++)
+      {
+	xcoord = j * boxsize + leftmargin;
+	ycoord = (D->n-i+1) * boxsize + bottommargin;
+
+	if      (D->mx[i][j] == -eslINFINITY) bin = 0;
+	else if (D->mx[i][j] ==  eslINFINITY) bin = nshades-1;
+	else {
+	  bin    = (int) ceil((D->mx[i][j] - min) / w) - 1;
+	  if (bin < 0)        bin = 0;
+	  if (bin >= nshades) bin = nshades-1;
+	}
+
+	fprintf(fp, "newpath\n");
+	fprintf(fp, "  %d %d moveto\n", xcoord, ycoord);
+	fprintf(fp, "  0  %d rlineto\n", boxsize);
+	fprintf(fp, "  %d 0  rlineto\n", boxsize);
+	fprintf(fp, "  0 -%d rlineto\n", boxsize);
+	fprintf(fp, "  closepath\n");
+  	fprintf(fp, " %.2f %.2f %.2f %.2f setcmykcolor\n",
+		cyan[bin], magenta[bin], yellow[bin], black[bin]);
+	fprintf(fp, "  fill\n");
+      }
+  fprintf(fp, "showpage\n");
+  return eslOK;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmalign.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmalign.c
new file mode 100755
index 0000000..22d97e3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmalign.c
@@ -0,0 +1,304 @@
+/* hmmalign:  align sequences to a profile HMM
+ * 
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+static int map_alignment(const char *msafile, const P7_HMM *hmm, ESL_SQ ***ret_sq, P7_TRACE ***ret_tr, int *ret_ntot);
+
+
+#define ALPHOPTS "--amino,--dna,--rna"                         /* Exclusive options for alphabet choice */
+
+static ESL_OPTIONS options[] = {
+  /* name             type        default      env  range   toggles   reqs  incomp               help                                          docgroup*/
+  { "-h",          eslARG_NONE,     FALSE,     NULL, NULL,   NULL,    NULL,  NULL, "show brief help on version and usage",                              1 },
+  { "-o",          eslARG_OUTFILE,   NULL,     NULL, NULL,   NULL,    NULL,  NULL, "output alignment to file <f>, not stdout",                          1 },
+
+  { "--mapali",    eslARG_INFILE,    NULL,     NULL, NULL,   NULL,    NULL,  NULL, "include alignment in file <f> (same ali that HMM came from)",       2 },
+  { "--trim",      eslARG_NONE,     FALSE,     NULL, NULL,    NULL,   NULL,  NULL, "trim terminal tails of nonaligned residues from alignment",         2 },
+  { "--amino",     eslARG_NONE,     FALSE,     NULL, NULL, ALPHOPTS,  NULL,  NULL, "assert <seqfile>, <hmmfile> both protein: no autodetection",  2 },
+  { "--dna",       eslARG_NONE,     FALSE,     NULL, NULL, ALPHOPTS,  NULL,  NULL, "assert <seqfile>, <hmmfile> both DNA: no autodetection",      2 },
+  { "--rna",       eslARG_NONE,     FALSE,     NULL, NULL, ALPHOPTS,  NULL,  NULL, "assert <seqfile>, <hmmfile> both RNA: no autodetection",      2 },
+  { "--informat",  eslARG_STRING,    NULL,     NULL, NULL,   NULL,    NULL,  NULL, "assert <seqfile> is in format <s>: no autodetection",            2 },
+  { "--outformat", eslARG_STRING, "Stockholm", NULL, NULL,   NULL,    NULL,  NULL, "output alignment in format <s>",                                    2 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "align sequences to a profile HMM";
+
+
+
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+  printf("\nERROR: ");
+  va_start(argp, format);
+  vfprintf(stdout, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  p7_banner (stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\nBasic options:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  puts("\nLess common options:");
+  esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+  puts("\nSequence input formats include:   FASTA, EMBL, GenBank, UniProt");
+  puts("Alignment output formats include: Stockholm, Pfam, A2M, PSIBLAST\n");
+  exit(0);
+}
+
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	/* application configuration       */
+  char         *hmmfile = NULL;	/* HMM file name                   */
+  char         *seqfile = NULL; /* sequence file name              */
+  char         *mapfile = NULL; /* optional mapped MSA file name   */
+  int           infmt   = eslSQFILE_UNKNOWN;
+  int           outfmt  = eslMSAFILE_STOCKHOLM;
+  P7_HMMFILE   *hfp     = NULL;	/* open HMM file                   */
+  ESL_SQFILE   *sqfp    = NULL;	/* open sequence file              */
+  char         *outfile = NULL;	  /* output filename               */
+  FILE         *ofp     = stdout; /* output stream                 */
+  ESL_SQ      **sq      = NULL;	/* array of sequences              */
+  void         *p       = NULL;	/* tmp ptr for reallocation        */
+  int           nseq    = 0;	/* # of sequences in <seqfile>     */
+  int           mapseq  = 0;	/* # of sequences in mapped MSA    */
+  int           totseq  = 0;	/* # of seqs in all sources        */
+  ESL_ALPHABET *abc     = NULL;	/* alphabet (set from the HMM file)*/
+  P7_HMM       *hmm     = NULL;
+  P7_TRACE    **tr      = NULL;	/* array of tracebacks             */
+  ESL_MSA      *msa     = NULL;	/* resulting multiple alignment    */
+  int           msaopts = 0;	/* flags to p7_tracealign_Seqs()   */
+  int           idx;		/* counter over seqs, traces       */
+  int           status;		/* easel/hmmer return code         */
+  char          errbuf[eslERRBUFSIZE];
+
+  /* Parse the command line
+   */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) != 2)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+  hmmfile = esl_opt_GetArg(go, 1);
+  seqfile = esl_opt_GetArg(go, 2);
+
+  if (strcmp(hmmfile, "-") == 0 && strcmp(seqfile, "-") == 0) 
+    cmdline_failure(argv[0], "Either <hmmfile> or <seqfile> may be '-' (to read from stdin), but not both.\n");
+
+  msaopts |= p7_ALL_CONSENSUS_COLS; /* default as of 3.1 */
+  if (esl_opt_GetBoolean(go, "--trim"))    msaopts |= p7_TRIM;
+
+  /* If caller declared an input format, decode it 
+   */
+  if (esl_opt_IsOn(go, "--informat")) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) cmdline_failure(argv[0], "%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--informat"));
+  }
+
+  /* Determine output alignment file format */
+  outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"));
+  if (outfmt == eslMSAFILE_UNKNOWN)    cmdline_failure(argv[0], "%s is not a recognized output MSA file format\n", esl_opt_GetString(go, "--outformat"));
+
+  /* Open output stream */
+  if ( (outfile = esl_opt_GetString(go, "-o")) != NULL) 
+  {
+    if ((ofp = fopen(outfile, "w")) == NULL)
+      cmdline_failure(argv[0], "failed to open -o output file %s for writing\n", outfile);
+  }
+
+
+  /* If caller forced an alphabet on us, create the one the caller wants  
+   */
+  if      (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+
+  /* Read one HMM, and make sure there's only one.
+   */
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);  
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  status = p7_hmmfile_Read(hfp, &abc, NULL);
+  if      (status != eslEOF)       p7_Fail("HMM file %s does not contain just one HMM\n",    hfp->fname);
+  p7_hmmfile_Close(hfp);
+
+
+  /* We're going to build up two arrays: sequences and traces.
+   * If --mapali option is chosen, the first set of sequences/traces is from the provided alignment
+   */
+  if ( (mapfile = esl_opt_GetString(go, "--mapali")) != NULL)
+  {
+    map_alignment(mapfile, hmm, &sq, &tr, &mapseq);
+  }
+  totseq = mapseq;
+
+  /* Read digital sequences into an array (possibly concat'ed onto mapped seqs)
+   */
+  status = esl_sqfile_OpenDigital(abc, seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",          seqfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",            seqfile);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening sequence file %s\n", status, seqfile);
+
+  ESL_RALLOC(sq, p, sizeof(ESL_SQ *) * (totseq + 1));
+  sq[totseq] = esl_sq_CreateDigital(abc);
+  nseq = 0;
+  while ((status = esl_sqio_Read(sqfp, sq[totseq+nseq])) == eslOK)
+  {
+    nseq++;
+    ESL_RALLOC(sq, p, sizeof(ESL_SQ *) * (totseq+nseq+1));
+    sq[totseq+nseq] = esl_sq_CreateDigital(abc);
+  }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n", 
+					   sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+  esl_sqfile_Close(sqfp);
+  totseq += nseq;
+
+
+  /* Remaining initializations, including trace array allocation
+   */
+  ESL_RALLOC(tr, p, sizeof(P7_TRACE *) * totseq);
+  for (idx = mapseq; idx < totseq; idx++)
+    tr[idx] = p7_trace_CreateWithPP();
+
+  p7_tracealign_computeTraces(hmm, sq, mapseq, totseq - mapseq, tr);
+
+  p7_tracealign_Seqs(sq, tr, totseq, hmm->M, msaopts, hmm, &msa);
+
+  eslx_msafile_Write(ofp, msa, outfmt);
+
+  for (idx = 0; idx <= totseq; idx++) esl_sq_Destroy(sq[idx]);    /* including sq[nseq] because we overallocated */
+  for (idx = 0; idx <  totseq; idx++) p7_trace_Destroy(tr[idx]); 
+  free(sq);
+  free(tr);
+  esl_msa_Destroy(msa);
+  p7_hmm_Destroy(hmm);
+  if (ofp != stdout) fclose(ofp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+
+/*****************************************************************
+ * Internal functions used by main and API
+ *****************************************************************/
+
+static int
+map_alignment(const char *msafile, const P7_HMM *hmm, ESL_SQ ***ret_sq, P7_TRACE ***ret_tr, int *ret_ntot)
+{
+  ESL_SQ       **sq        = NULL;
+  P7_TRACE     **tr        = NULL;
+  ESLX_MSAFILE  *afp       = NULL;
+  ESL_MSA       *msa       = NULL;
+  ESL_ALPHABET  *abc       = (ESL_ALPHABET *) hmm->abc; /* removing const'ness to make compiler happy. Safe. */
+  int           *matassign = NULL;
+  uint32_t       chksum    = 0;
+  int            i,k;
+  int            status;
+
+  status = eslx_msafile_Open(&abc, msafile, NULL, eslMSAFILE_UNKNOWN, NULL, &afp);
+  if (status != eslOK) eslx_msafile_OpenFailure(afp, status);
+
+  status = eslx_msafile_Read(afp, &msa);
+  if (status != eslOK) eslx_msafile_ReadFailure(afp, status);
+
+  if (! (hmm->flags & p7H_CHKSUM)  )  esl_fatal("HMM has no checksum. --mapali unreliable without it.");
+  if (! (hmm->flags & p7H_MAP)  )     esl_fatal("HMM has no map. --mapali can't work without it.");
+  esl_msa_Checksum(msa, &chksum);
+  if (hmm->checksum != chksum)        esl_fatal("--mapali MSA %s isn't same as the one HMM came from (checksum mismatch)", msafile);
+
+  ESL_ALLOC(sq, sizeof(ESL_SQ *)   * msa->nseq);
+  ESL_ALLOC(tr, sizeof(P7_TRACE *) * msa->nseq);
+  ESL_ALLOC(matassign, sizeof(int) * (msa->alen + 1));
+
+  esl_vec_ISet(matassign, msa->alen+1, 0);
+  for (k = 1; k <= hmm->M; k++) matassign[hmm->map[k]] = 1;
+
+  p7_trace_FauxFromMSA(msa, matassign, p7_DEFAULT, tr);
+
+  /* The 'faux' core traces constructed by FauxFromMSA() may contain
+   * D->I and I->D transitions.  They may *only* now be passed to
+   * p7_tracealign_Seqs(), which can deal with these 'illegal'
+   * transitions, in order to exactly reproduce the input --mapali
+   * alignment.
+   */
+
+  for (i = 0; i < msa->nseq; i++)
+    esl_sq_FetchFromMSA(msa, i, &(sq[i]));
+      
+  *ret_ntot = msa->nseq;
+  *ret_tr   = tr;
+  *ret_sq   = sq;
+
+  eslx_msafile_Close(afp);
+  esl_msa_Destroy(msa);
+  free(matassign);
+  return eslOK;
+
+ ERROR:
+  *ret_ntot = 0;
+  *ret_tr   = NULL;
+  *ret_sq   = NULL;
+  if (afp       != NULL) eslx_msafile_Close(afp);
+  if (msa       != NULL) esl_msa_Destroy(msa);
+  if (matassign != NULL) free(matassign);
+  return status;
+}
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmalign.c $
+ * SVN $Id: hmmalign.c 3619 2011-07-28 11:14:18Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmbuild.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmbuild.c
new file mode 100755
index 0000000..ad395d4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmbuild.c
@@ -0,0 +1,1381 @@
+/* Profile HMM construction from a multiple sequence alignment
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#endif
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_mpi.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_msaweight.h"
+#include "esl_msacluster.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif /*HMMER_THREADS*/
+  P7_BG	           *bg;
+  P7_BUILDER       *bld;
+} WORKER_INFO;
+
+#ifdef HMMER_THREADS
+typedef struct {
+  int         nali;
+  int         processed;
+  ESL_MSA    *postmsa;
+  ESL_MSA    *msa;
+  P7_HMM     *hmm;
+  double      entropy;
+  int         force_single; /* FALSE by default,  TRUE if esl_opt_IsUsed(go, "--singlemx") ;  only matters for single sequences */
+} WORK_ITEM;
+
+typedef struct _pending_s {
+  int         nali;
+  ESL_MSA    *postmsa;
+  ESL_MSA    *msa;
+  P7_HMM     *hmm;
+  double      entropy;
+  struct _pending_s *next;
+} PENDING_ITEM;
+#endif /*HMMER_THREADS*/
+
+#define ALPHOPTS "--amino,--dna,--rna"                         /* Exclusive options for alphabet choice */
+#define CONOPTS "--fast,--hand"                                /* Exclusive options for model construction                    */
+#define EFFOPTS "--eent,--eclust,--eset,--enone"               /* Exclusive options for effective sequence number calculation */
+#define WGTOPTS "--wgsc,--wblosum,--wpb,--wnone,--wgiven"      /* Exclusive options for relative weighting                    */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "show brief help on version and usage",                  1 },
+  { "-n",        eslARG_STRING,  NULL, NULL, NULL,      NULL,      NULL,    NULL, "name the HMM <s>",                                      1 },
+  { "-o",        eslARG_OUTFILE,FALSE, NULL, NULL,      NULL,      NULL,    NULL, "direct summary output to file <f>, not stdout",         1 },
+  { "-O",        eslARG_OUTFILE,FALSE, NULL, NULL,      NULL,      NULL,    NULL, "resave annotated, possibly modified MSA to file <f>",   1 },
+/* Selecting the alphabet rather than autoguessing it */
+  { "--amino",   eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL, "input alignment is protein sequence data",              2 },
+  { "--dna",     eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL, "input alignment is DNA sequence data",                  2 },
+  { "--rna",     eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL, "input alignment is RNA sequence data",                  2 },
+/* Alternate model construction strategies */
+  { "--fast",    eslARG_NONE,"default",NULL, NULL,    CONOPTS,    NULL,     NULL, "assign cols w/ >= symfrac residues as consensus",       3 },
+  { "--hand",    eslARG_NONE,   FALSE, NULL, NULL,    CONOPTS,    NULL,     NULL, "manual construction (requires reference annotation)",   3 },
+  { "--symfrac", eslARG_REAL,   "0.5", NULL, "0<=x<=1", NULL,   "--fast",   NULL, "sets sym fraction controlling --fast construction",     3 },
+  { "--fragthresh",eslARG_REAL, "0.5", NULL, "0<=x<=1", NULL,     NULL,     NULL, "if L <= x*alen, tag sequence as a fragment",            3 },
+/* Alternate relative sequence weighting strategies */
+  /* --wme not implemented in HMMER3 yet */
+  { "--wpb",     eslARG_NONE,"default",NULL, NULL,    WGTOPTS,    NULL,      NULL, "Henikoff position-based weights",                      4 },
+  { "--wgsc",    eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "Gerstein/Sonnhammer/Chothia tree weights",             4 },
+  { "--wblosum", eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "Henikoff simple filter weights",                       4 },
+  { "--wnone",   eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "don't do any relative weighting; set all to 1",        4 },
+  { "--wgiven",  eslARG_NONE,   NULL,  NULL, NULL,    WGTOPTS,    NULL,      NULL, "use weights as given in MSA file",                     4 },
+  { "--wid",     eslARG_REAL, "0.62",  NULL,"0<=x<=1",   NULL,"--wblosum",   NULL, "for --wblosum: set identity cutoff",                   4 },
+/* Alternative effective sequence weighting strategies */
+  { "--eent",    eslARG_NONE,"default",NULL, NULL,    EFFOPTS,    NULL,      NULL, "adjust eff seq # to achieve relative entropy target",  5 },
+  { "--eclust",  eslARG_NONE,  FALSE,  NULL, NULL,    EFFOPTS,    NULL,      NULL, "eff seq # is # of single linkage clusters",            5 },
+  { "--enone",   eslARG_NONE,  FALSE,  NULL, NULL,    EFFOPTS,    NULL,      NULL, "no effective seq # weighting: just use nseq",          5 },
+  { "--eset",    eslARG_REAL,   NULL,  NULL, NULL,    EFFOPTS,    NULL,      NULL, "set eff seq # for all models to <x>",                  5 },
+  { "--ere",     eslARG_REAL,   NULL,  NULL,"x>0",       NULL, "--eent",     NULL, "for --eent: set minimum rel entropy/position to <x>",  5 },
+  { "--esigma",  eslARG_REAL, "45.0",  NULL,"x>0",       NULL, "--eent",     NULL, "for --eent: set sigma param to <x>",                   5 },
+  { "--eid",     eslARG_REAL, "0.62",  NULL,"0<=x<=1",   NULL,"--eclust",    NULL, "for --eclust: set fractional identity cutoff to <x>",  5 },
+/* Alternative prior strategies */
+  { "--pnone",   eslARG_NONE,  FALSE,  NULL, NULL,       NULL,  NULL,"--plaplace", "don't use any prior; parameters are frequencies",      9 },
+  { "--plaplace",eslARG_NONE,  FALSE,  NULL, NULL,       NULL,  NULL,   "--pnone", "use a Laplace +1 prior",                               9 },
+  { "--popen",    eslARG_REAL,  NULL,  NULL,"0<=x<0.5",NULL, NULL,           "",   "force gap open prob. (w/ --singlemx, aa default 0.02, nt 0.031)",       9 },
+  { "--pextend",  eslARG_REAL,  NULL,  NULL, "0<=x<1", NULL, NULL,           "",   "force gap extend prob. (w/ --singlemx, aa default 0.4, nt 0.75)",      9 },
+
+/* Single sequence methods */
+  { "--singlemx", eslARG_NONE,   FALSE, NULL,   NULL,   NULL,  NULL,           "",   "use substitution score matrix for single-sequence inputs",     10 },
+//  { "--popen",    eslARG_REAL,   "0.02", NULL,"0<=x<0.5",NULL, NULL,           "",   "gap open probability (with --singlemx)",                         10 },
+//  { "--pextend",  eslARG_REAL,    "0.4", NULL, "0<=x<1", NULL, NULL,           "",   "gap extend probability (with --singlemx)",                       10 },
+  { "--mx",     eslARG_STRING, "BLOSUM62", NULL, NULL,   NULL, NULL,   "--mxfile",   "substitution score matrix (built-in matrices, with --singlemx)", 10 },
+  { "--mxfile", eslARG_INFILE,     NULL, NULL,   NULL,   NULL, NULL,       "--mx",   "read substitution score matrix from file <f> (with --singlemx)", 10 },
+
+  /* Control of E-value calibration */
+  { "--EmL",     eslARG_INT,    "200", NULL,"n>0",       NULL,    NULL,      NULL, "length of sequences for MSV Gumbel mu fit",            6 },   
+  { "--EmN",     eslARG_INT,    "200", NULL,"n>0",       NULL,    NULL,      NULL, "number of sequences for MSV Gumbel mu fit",            6 },   
+  { "--EvL",     eslARG_INT,    "200", NULL,"n>0",       NULL,    NULL,      NULL, "length of sequences for Viterbi Gumbel mu fit",        6 },   
+  { "--EvN",     eslARG_INT,    "200", NULL,"n>0",       NULL,    NULL,      NULL, "number of sequences for Viterbi Gumbel mu fit",        6 },   
+  { "--EfL",     eslARG_INT,    "100", NULL,"n>0",       NULL,    NULL,      NULL, "length of sequences for Forward exp tail tau fit",     6 },   
+  { "--EfN",     eslARG_INT,    "200", NULL,"n>0",       NULL,    NULL,      NULL, "number of sequences for Forward exp tail tau fit",     6 },   
+  { "--Eft",     eslARG_REAL,  "0.04", NULL,"0<x<1",     NULL,    NULL,      NULL, "tail mass for Forward exponential tail tau fit",       6 },   
+
+/* Other options */
+#ifdef HMMER_THREADS 
+  { "--cpu",     eslARG_INT,    NULL,"HMMER_NCPU","n>=0",NULL,     NULL,  NULL,  "number of parallel CPU workers for multithreads",       8 },
+#endif
+#ifdef HAVE_MPI
+  { "--mpi",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,  NULL,  "run as an MPI parallel program",                        8 },
+#endif
+  { "--stall",   eslARG_NONE,       FALSE, NULL, NULL,    NULL,     NULL,    NULL, "arrest after start: for attaching debugger to process", 8 },
+  { "--informat", eslARG_STRING,     NULL, NULL, NULL,    NULL,     NULL,    NULL, "assert input alifile is in format <s> (no autodetect)", 8 },
+  { "--seed",     eslARG_INT,        "42", NULL, "n>=0",  NULL,     NULL,    NULL, "set RNG seed to <n> (if 0: one-time arbitrary seed)",   8 },
+  { "--w_beta",   eslARG_REAL,       NULL, NULL, NULL,    NULL,     NULL,    NULL, "tail mass at which window length is determined",        8 },
+  { "--w_length", eslARG_INT,        NULL, NULL, NULL,    NULL,     NULL,    NULL, "window length ",                                        8 },
+  { "--maxinsertlen",  eslARG_INT,   NULL, NULL, "n>=5",  NULL,     NULL,    NULL, "pretend all inserts are length <= <n>",   8 },
+
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  FILE         *ofp;		/* output file (default is stdout) */
+
+  char         *alifile;	/* name of the alignment file we're building HMMs from  */
+  int           fmt;		/* format code for alifile */
+  ESLX_MSAFILE *afp;            /* open alifile  */
+  ESL_ALPHABET *abc;		/* digital alphabet */
+
+  char         *hmmName;        /* hmm file name supplied from -n          */
+  char         *hmmfile;        /* file to write HMM to                    */
+  FILE         *hmmfp;          /* HMM output file handle                  */
+
+  char         *postmsafile;	/* optional file to resave annotated, modified MSAs to  */
+  FILE         *postmsafp;	/* open <postmsafile>, or NULL */
+
+  int           nali;		/* which # alignment this is in file (only valid in serial mode)   */
+  int           nnamed;		/* number of alignments that had their own names */
+
+  int           do_mpi;		/* TRUE if we're doing MPI parallelization */
+  int           nproc;		/* how many MPI processes, total */
+  int           my_rank;	/* who am I, in 0..nproc-1 */
+  int           do_stall;	/* TRUE to stall the program until gdb attaches */
+};
+
+
+static char usage[]  = "[-options] <hmmfile_out> <msafile>";
+static char banner[] = "profile HMM construction from multiple sequence alignments";
+
+static int  usual_master(const ESL_GETOPTS *go, struct cfg_s *cfg);
+static void serial_loop  (WORKER_INFO *info, struct cfg_s *cfg, const ESL_GETOPTS *go);
+#ifdef HMMER_THREADS
+static void thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, struct cfg_s *cfg, const ESL_GETOPTS *go);
+static void pipeline_thread(void *arg);
+#endif /*HMMER_THREADS*/
+
+#ifdef HAVE_MPI
+static void  mpi_master    (const ESL_GETOPTS *go, struct cfg_s *cfg);
+static void  mpi_worker    (const ESL_GETOPTS *go, struct cfg_s *cfg);
+static void  mpi_init_open_failure(ESLX_MSAFILE *afp, int status);
+static void  mpi_init_other_failure(char *format, ...);
+#endif
+
+static int output_header(const ESL_GETOPTS *go, const struct cfg_s *cfg);
+static int output_result(const struct cfg_s *cfg, char *errbuf, int msaidx, ESL_MSA *msa, P7_HMM *hmm, ESL_MSA *postmsa, double entropy);
+static int set_msa_name (      struct cfg_s *cfg, char *errbuf, ESL_MSA *msa);
+
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_hmmfile, char **ret_alifile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK) { if (printf("Failed to process environment:\n%s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) { if (printf("Failed to parse command line:\n%s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK) { if (printf("Failed to parse command line:\n%s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+
+      if (puts("\nBasic options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+
+      if (puts("\nOptions for selecting alphabet rather than guessing it:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+
+      if (puts("\nAlternative model construction strategies:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+
+      if (puts("\nAlternative relative sequence weighting strategies:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+
+      if (puts("\nAlternative effective sequence weighting strategies:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80);
+
+      if (puts("\nAlternative prior strategies:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 9, 2, 80);
+
+      if (puts("\nHandling single sequence inputs:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 10, 2, 80);
+
+
+      if (puts("\nControl of E-value calibration:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80);
+
+      if (puts("\nOther options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 8, 2, 80);
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                  != 2)    { if (puts("Incorrect number of command line arguments.")          < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_hmmfile = esl_opt_GetArg(go, 1)) == NULL) { if (puts("Failed to get <hmmfile_out> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_alifile = esl_opt_GetArg(go, 2)) == NULL) { if (puts("Failed to get <msafile> argument on command line")     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  if (strcmp(*ret_hmmfile, "-") == 0) 
+    { if (puts("Can't write <hmmfile_out> to stdout: don't use '-'")         < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (strcmp(*ret_alifile, "-") == 0 && ! esl_opt_IsOn(go, "--informat"))
+    { if (puts("Must specify --informat to read <alifile> from stdin ('-')") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+#ifdef HAVE_MPI
+  if (esl_opt_IsOn(go, "--mpi") && esl_opt_IsOn(go, "--cpu")) 
+    {
+      int mpisetby = esl_opt_GetSetter(go, "--mpi");
+      int cpusetby = esl_opt_GetSetter(go, "--cpu");
+
+      if (mpisetby == cpusetby) {
+	if (puts("Options --cpu and --mpi are incompatible. The MPI implementation is not multithreaded.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+	goto FAILURE;
+      }
+    }
+#endif
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  puts("\nwhere basic options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  printf("\nTo see more help on other available options, do:\n  %s -h\n\n", argv[0]);
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+static int
+output_header(const ESL_GETOPTS *go, const struct cfg_s *cfg)
+{
+  if (cfg->my_rank > 0)  return eslOK;
+
+  p7_banner(cfg->ofp, go->argv[0], banner);
+  
+  if (fprintf(cfg->ofp, "# input alignment file:             %s\n", cfg->alifile) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(cfg->ofp, "# output HMM file:                  %s\n", cfg->hmmfile) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "-n")           && fprintf(cfg->ofp, "# name (the single) HMM:            %s\n",        esl_opt_GetString(go, "-n"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")           && fprintf(cfg->ofp, "# output directed to file:          %s\n",        esl_opt_GetString(go, "-o"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-O")           && fprintf(cfg->ofp, "# processed alignment resaved to:   %s\n",        esl_opt_GetString(go, "-O"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--amino")      && fprintf(cfg->ofp, "# input alignment is asserted as:   protein\n")                                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--dna")        && fprintf(cfg->ofp, "# input alignment is asserted as:   DNA\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--rna")        && fprintf(cfg->ofp, "# input alignment is asserted as:   RNA\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--fast")       && fprintf(cfg->ofp, "# model architecture construction:  fast/heuristic\n")                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--hand")       && fprintf(cfg->ofp, "# model architecture construction:  hand-specified by RF annotation\n")                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--symfrac")    && fprintf(cfg->ofp, "# sym fraction for model structure: %.3f\n",      esl_opt_GetReal(go, "--symfrac"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--fragthresh") && fprintf(cfg->ofp, "# seq called frag if L <= x*alen:   %.3f\n",      esl_opt_GetReal(go, "--fragthresh")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wpb")        && fprintf(cfg->ofp, "# relative weighting scheme:        Henikoff PB\n")                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wgsc")       && fprintf(cfg->ofp, "# relative weighting scheme:        G/S/C\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wblosum")    && fprintf(cfg->ofp, "# relative weighting scheme:        BLOSUM filter\n")                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wnone")      && fprintf(cfg->ofp, "# relative weighting scheme:        none\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wid")        && fprintf(cfg->ofp, "# frac id cutoff for BLOSUM wgts:   %f\n",        esl_opt_GetReal(go, "--wid"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eent")       && fprintf(cfg->ofp, "# effective seq number scheme:      entropy weighting\n")                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eclust")     && fprintf(cfg->ofp, "# effective seq number scheme:      single linkage clusters\n")                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--enone")      && fprintf(cfg->ofp, "# effective seq number scheme:      none\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eset")       && fprintf(cfg->ofp, "# effective seq number:             set to %f\n", esl_opt_GetReal(go, "--eset"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--ere")        && fprintf(cfg->ofp, "# minimum rel entropy target:       %f bits\n",   esl_opt_GetReal(go, "--ere"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--esigma")     && fprintf(cfg->ofp, "# entropy target sigma parameter:   %f bits\n",   esl_opt_GetReal(go, "--esigma"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eid")        && fprintf(cfg->ofp, "# frac id cutoff for --eclust:      %f\n",        esl_opt_GetReal(go, "--eid"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pnone")      && fprintf(cfg->ofp, "# prior scheme:                     none\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--plaplace")   && fprintf(cfg->ofp, "# prior scheme:                     Laplace +1\n")                                     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EmL")        && fprintf(cfg->ofp, "# seq length for MSV Gumbel mu fit: %d\n",        esl_opt_GetInteger(go, "--EmL"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EmN")        && fprintf(cfg->ofp, "# seq number for MSV Gumbel mu fit: %d\n",        esl_opt_GetInteger(go, "--EmN"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EvL")        && fprintf(cfg->ofp, "# seq length for Vit Gumbel mu fit: %d\n",        esl_opt_GetInteger(go, "--EvL"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EvN")        && fprintf(cfg->ofp, "# seq number for Vit Gumbel mu fit: %d\n",        esl_opt_GetInteger(go, "--EvN"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EfL")        && fprintf(cfg->ofp, "# seq length for Fwd exp tau fit:   %d\n",        esl_opt_GetInteger(go, "--EfL"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EfN")        && fprintf(cfg->ofp, "# seq number for Fwd exp tau fit:   %d\n",        esl_opt_GetInteger(go, "--EfN"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--Eft")        && fprintf(cfg->ofp, "# tail mass for Fwd exp tau fit:    %f\n",        esl_opt_GetReal(go, "--Eft"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--singlemx")   && fprintf(cfg->ofp, "# use score matrix for 1-seq MSAs:  on\n")                                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--popen")      && fprintf(cfg->ofp, "# gap open probability:             %f\n",         esl_opt_GetReal   (go, "--popen"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pextend")    && fprintf(cfg->ofp, "# gap extend probability:           %f\n",         esl_opt_GetReal   (go, "--pextend")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mx")         && fprintf(cfg->ofp, "# subst score matrix (built-in):    %s\n",         esl_opt_GetString (go, "--mx"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mxfile")     && fprintf(cfg->ofp, "# subst score matrix (file):        %s\n",         esl_opt_GetString (go, "--mxfile"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--maxinsertlen")  && fprintf(cfg->ofp, "# max insert length:                %d\n",         esl_opt_GetInteger (go, "--maxinsertlen"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+#ifdef HMMER_THREADS
+  if (esl_opt_IsUsed(go, "--cpu")        && fprintf(cfg->ofp, "# number of worker threads:         %d\n",        esl_opt_GetInteger(go, "--cpu"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+#endif
+#ifdef HAVE_MPI
+  if (esl_opt_IsUsed(go, "--mpi")        && fprintf(cfg->ofp, "# parallelization mode:             MPI\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed") == 0  && fprintf(cfg->ofp,"# random number seed:               one-time arbitrary\n")                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if                              (  fprintf(cfg->ofp,"# random number seed set to:        %d\n",         esl_opt_GetInteger(go, "--seed"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--w_beta")     && fprintf(cfg->ofp, "# window length tail mass:          %g bits\n",   esl_opt_GetReal(go, "--w_beta"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--w_length")   && fprintf(cfg->ofp, "# window length :                   %d\n",        esl_opt_GetInteger(go, "--w_length"))< 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+  if (fprintf(cfg->ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+void
+apply_fixed_gap_params(P7_HMM *hmm, double popen, double pextend){
+  int k;
+  for (k = 0; k <= hmm->M; k++)
+  {
+     if (popen != -1) {
+        hmm->t[k][p7H_MM] = 1.0 - 2 * popen;
+        hmm->t[k][p7H_MI] = popen;
+        hmm->t[k][p7H_MD] = popen;
+     }
+     if (pextend != -1) {
+        hmm->t[k][p7H_IM] = 1.0 - pextend;
+        hmm->t[k][p7H_II] = pextend;
+        hmm->t[k][p7H_DM] = 1.0 - pextend;
+        hmm->t[k][p7H_DD] = pextend;
+     }
+  }
+
+  /* Deal w/ special stuff at node M, overwriting a little of what we
+   * just did.
+   */
+  if (popen != -1) {
+    hmm->t[hmm->M][p7H_MM] = 1.0 - popen;
+  }
+  hmm->t[hmm->M][p7H_MD] = 0.;
+  hmm->t[hmm->M][p7H_DM] = 1.0;
+  hmm->t[hmm->M][p7H_DD] = 0.;
+
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go = NULL;	/* command line processing                 */
+  ESL_STOPWATCH   *w  = esl_stopwatch_Create();
+  struct cfg_s     cfg;
+
+  /* Set processor specific flags */
+  impl_Init();
+
+  cfg.alifile     = NULL;
+  cfg.hmmfile     = NULL;
+
+  /* Parse the command line
+   */
+  process_commandline(argc, argv, &go, &cfg.hmmfile, &cfg.alifile);    
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet).
+   * Fields controlled by masters are set up in usual_master() or mpi_master()
+   * Fields used by workers are set up in mpi_worker()
+   */
+  cfg.ofp         = NULL;	           
+  cfg.fmt         = eslMSAFILE_UNKNOWN;    /* autodetect alignment format by default. */ 
+  cfg.afp         = NULL;	           
+  cfg.abc         = NULL;	           
+  cfg.hmmfp       = NULL;	           
+  cfg.postmsafile = esl_opt_GetString(go, "-O"); /* NULL by default */
+  cfg.postmsafp   = NULL;                  
+
+  cfg.nali       = 0;		           /* this counter is incremented in masters */
+  cfg.nnamed     = 0;		           /* 0 or 1 if a single MSA; == nali if multiple MSAs */
+  cfg.do_mpi     = FALSE;	           /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;		           /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;		           /* this gets reset below, if we init MPI */
+  cfg.do_stall   = esl_opt_GetBoolean(go, "--stall");
+  cfg.hmmName    = esl_opt_GetString(go, "-n"); /* NULL by default */
+
+  if (esl_opt_IsOn(go, "--informat")) {
+    cfg.fmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (cfg.fmt == eslMSAFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--informat"));
+  }
+
+
+  /* This is our stall point, if we need to wait until we get a
+   * debugger attached to this process for debugging (especially
+   * useful for MPI):
+   */
+  while (cfg.do_stall); 
+
+  /* Start timing. */
+  esl_stopwatch_Start(w);
+
+  /* Figure out who we are, and send control there: 
+   * we might be an MPI master, an MPI worker, or a serial program.
+   */
+#ifdef HAVE_MPI
+  if (esl_opt_GetBoolean(go, "--mpi")) 
+    {
+      cfg.do_mpi     = TRUE;
+      MPI_Init(&argc, &argv);
+      MPI_Comm_rank(MPI_COMM_WORLD, &(cfg.my_rank));
+      MPI_Comm_size(MPI_COMM_WORLD, &(cfg.nproc));
+
+      if (cfg.my_rank > 0)  mpi_worker(go, &cfg);
+      else 		    mpi_master(go, &cfg);
+
+      esl_stopwatch_Stop(w);
+      esl_stopwatch_MPIReduce(w, 0, MPI_COMM_WORLD);
+      MPI_Finalize();
+    }
+  else
+#endif /*HAVE_MPI*/
+    {
+      usual_master(go, &cfg);
+      esl_stopwatch_Stop(w);
+    }
+
+  if (cfg.my_rank == 0) {
+    fputc('\n', cfg.ofp);
+    esl_stopwatch_Display(cfg.ofp, w, "# CPU time: ");
+  }
+
+  /* Clean up the shared cfg. 
+   */
+  if (cfg.my_rank == 0) {
+    if (esl_opt_IsOn(go, "-o")) { fclose(cfg.ofp); }
+    if (cfg.afp)   eslx_msafile_Close(cfg.afp);
+    if (cfg.abc)   esl_alphabet_Destroy(cfg.abc);
+    if (cfg.hmmfp) fclose(cfg.hmmfp);
+  }
+  esl_getopts_Destroy(go);
+  esl_stopwatch_Destroy(w);
+  return 0;
+}
+
+
+/* usual_master()
+ * The usual version of hmmbuild, serial or threaded
+ * For each MSA, build an HMM and save it.
+ * 
+ * A master can only return if it's successful. 
+ * All errors are handled immediately and fatally with p7_Fail() or equiv.
+ */
+static int
+usual_master(const ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int              ncpus    = 0;
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  WORK_ITEM       *item     = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+  int              i;
+  int              status;
+
+  /* Open files, set alphabet.
+   *   cfg->afp       - open alignment file for input
+   *   cfg->abc       - alphabet expected or guessed in ali file
+   *   cfg->hmmfp     - open HMM file for output
+   *   cfg->postmsafp - optional open MSA resave file, or NULL
+   *   cfp->ofp       - optional open output file, or stdout
+   * The mpi_master's version of this is in init_master_cfg(), with
+   * different error handling (necessitated by our MPI design).
+   */
+  if      (esl_opt_GetBoolean(go, "--amino"))   cfg->abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     cfg->abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     cfg->abc = esl_alphabet_Create(eslRNA);
+  else                                          cfg->abc = NULL;
+  
+  status = eslx_msafile_Open(&(cfg->abc), cfg->alifile, NULL, cfg->fmt, NULL, &(cfg->afp));
+  if (status != eslOK) eslx_msafile_OpenFailure(cfg->afp, status);
+
+  cfg->hmmfp = fopen(cfg->hmmfile, "w");
+  if (cfg->hmmfp == NULL) p7_Fail("Failed to open HMM file %s for writing", cfg->hmmfile);
+
+  if (esl_opt_IsUsed(go, "-o")) 
+    {
+      cfg->ofp = fopen(esl_opt_GetString(go, "-o"), "w");
+      if (cfg->ofp == NULL) p7_Fail("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+    } 
+  else cfg->ofp = stdout;
+
+  if (cfg->postmsafile) 
+    {
+      cfg->postmsafp = fopen(cfg->postmsafile, "w");
+      if (cfg->postmsafp == NULL) p7_Fail("Failed to MSA resave file %s for writing", cfg->postmsafile);
+    } 
+  else cfg->postmsafp = NULL;
+
+  /* Looks like the i/o is set up successfully...
+   * Initial output to the user
+   */
+  output_header(go, cfg);                                  /* cheery output header                                */
+  output_result(cfg, NULL, 0, NULL, NULL, NULL, 0.0);	   /* tabular results header (with no args, special-case) */
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                                   esl_threads_CPUCount(&ncpus);
+
+  if (ncpus > 0)
+    {
+      threadObj = esl_threads_Create(&pipeline_thread);
+      queue = esl_workqueue_Create(ncpus * 2);
+    }
+#endif
+
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  for (i = 0; i < infocnt; ++i)
+  {
+      info[i].bg = p7_bg_Create(cfg->abc);
+      info[i].bld = p7_builder_Create(go, cfg->abc);
+
+      if (info[i].bld == NULL)  p7_Fail("p7_builder_Create failed");
+
+      //do this here instead of in p7_builder_Create(), because it's an hmmbuild-specific option
+      if ( esl_opt_IsOn(go, "--maxinsertlen") )
+        info[i].bld->max_insert_len    = esl_opt_GetInteger(go, "--maxinsertlen");
+
+
+      double popen   ;
+      double pextend ;
+      if ( cfg->abc->type == eslDNA || cfg->abc->type == eslRNA ) {
+        //If user hasn't overridden defaults, assign the nucleotide defaults
+        popen   = esl_opt_IsUsed(go, "--popen")   ? esl_opt_GetReal(go, "--popen") : 0.03125;
+        pextend = esl_opt_IsUsed(go, "--pextend") ? esl_opt_GetReal(go, "--pextend") : 0.75;
+      } else {
+        //protein defaults
+        popen   = esl_opt_IsUsed(go, "--popen")   ? esl_opt_GetReal(go, "--popen") : 0.02;
+        pextend = esl_opt_IsUsed(go, "--pextend") ? esl_opt_GetReal(go, "--pextend") : 0.4;
+      }
+
+      /* Default matrix is stored in the --mx option, so it's always IsOn().
+       * Check --mxfile first; then go to the --mx option and the default.
+       */
+      if ( esl_opt_IsUsed(go, "--singlemx") ) {
+        char  *mx      = esl_opt_GetString(go, "--mx");
+
+        if ( cfg->abc->type == eslDNA || cfg->abc->type == eslRNA ) {
+          //If user hasn't overridden defaults, assign the nucleotide defaults
+          if ( !esl_opt_IsUsed(go, "--mx") )       mx      = "DNA1";
+        }
+        if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (info[i].bld, esl_opt_GetString(go, "--mxfile"), NULL, popen, pextend, info[i].bg);
+        else                              status = p7_builder_LoadScoreSystem(info[i].bld, mx,                                      popen, pextend, info[i].bg);
+        if (status != eslOK) p7_Fail("Failed to set single query seq score system:\n%s\n", info[i].bld->errbuf);
+      } else {
+        if (esl_opt_IsUsed(go, "--popen") )  info[i].bld->popen   = popen;
+        if (esl_opt_IsUsed(go, "--pextend")) info[i].bld->pextend = pextend;
+      }
+
+      /* special arguments for hmmbuild */
+      info[i].bld->w_len      = (go != NULL && esl_opt_IsOn (go, "--w_length")) ?  esl_opt_GetInteger(go, "--w_length"): -1;
+      info[i].bld->w_beta     = (go != NULL && esl_opt_IsOn (go, "--w_beta"))   ?  esl_opt_GetReal   (go, "--w_beta")    : p7_DEFAULT_WINDOW_BETA;
+      if ( info[i].bld->w_beta < 0 || info[i].bld->w_beta > 1  ) esl_fatal("Invalid window-length beta value\n");
+
+#ifdef HMMER_THREADS
+      info[i].queue = queue;
+      if (ncpus > 0) esl_threads_AddThread(threadObj, &info[i]);
+#endif
+  }
+
+#ifdef HMMER_THREADS
+  for (i = 0; i < ncpus * 2; ++i)
+  {
+      ESL_ALLOC(item, sizeof(*item));
+
+      item->nali      = 0;
+      item->processed = FALSE;
+      item->postmsa   = NULL;
+      item->msa       = NULL;
+      item->hmm       = NULL;
+      item->entropy   = 0.0;
+
+      status = esl_workqueue_Init(queue, item);
+      if (status != eslOK) esl_fatal("Failed to add block to work queue");
+  }
+#endif
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)  thread_loop(threadObj, queue, cfg, go);
+  else            serial_loop(info, cfg, go);
+#else
+  serial_loop(info, cfg, go);
+#endif
+
+  for (i = 0; i < infocnt; ++i)
+  {
+      p7_bg_Destroy(info[i].bg);
+      p7_builder_Destroy(info[i].bld);
+  }
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)
+  {
+      esl_workqueue_Reset(queue);
+      while (esl_workqueue_Remove(queue, (void **) &item) == eslOK)
+      {
+        free(item);
+      }
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+  }
+#endif
+
+  free(info);
+  return eslOK;
+
+ ERROR:
+  return eslFAIL;
+}
+
+#ifdef HAVE_MPI
+/* mpi_master()
+ * The MPI version of hmmbuild.
+ * Follows standard pattern for a master/worker load-balanced MPI program (J1/78-79).
+ * 
+ * A master can only return if it's successful. 
+ * Errors in an MPI master come in two classes: recoverable and nonrecoverable.
+ * 
+ * Recoverable errors include all worker-side errors, and any
+ * master-side error that do not affect MPI communication. Error
+ * messages from recoverable messages are delayed until we've cleanly
+ * shut down the workers.
+ * 
+ * Unrecoverable errors are master-side errors that may affect MPI
+ * communication, meaning we cannot count on being able to reach the
+ * workers and shut them down. Unrecoverable errors result in immediate
+ * p7_Fail()'s, which will cause MPI to shut down the worker processes
+ * uncleanly.
+ */
+static void
+mpi_master(const ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int         have_work     = TRUE;	/* TRUE while alignments remain  */
+  int         nproc_working = 0;	        /* number of worker processes working, up to nproc-1 */
+  int         wi;          	        /* rank of next worker to get an alignment to work on */
+  char       *buf           = NULL;	/* input/output buffer, for packed MPI messages */
+  int         bn            = 0;
+  ESL_MSA    *msa           = NULL;
+  P7_HMM     *hmm           = NULL;
+  P7_BG      *bg            = NULL;
+  ESL_MSA   **msalist       = NULL;
+  ESL_MSA    *postmsa       = NULL;
+  int        *msaidx        = NULL;
+  char        errmsg[eslERRBUFSIZE];
+  int         n;
+  int         pos;
+  double      entropy;
+  int         status;
+  int         xstatus       = eslOK;	/* changes from OK on recoverable error */
+  int         rstatus;			/* status specifically from msa read */
+  MPI_Status  mpistatus; 
+
+  /* Open files, set alphabet.
+   *   cfg->abc       - alphabet expected or guessed in ali file
+   *   cfg->afp       - open alignment file for input
+   *   cfg->hmmfp     - open HMM file for output
+   *   cfp->ofp       - optional open output file, or stdout
+   *   cfg->postmsafp - optional open MSA resave file, or NULL
+   * Error handling requires first broadcasting a non-OK status to workers
+   * to get them to shut down cleanly.
+   */
+  if      (esl_opt_GetBoolean(go, "--amino"))   cfg->abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))     cfg->abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))     cfg->abc = esl_alphabet_Create(eslRNA);
+  else                                          cfg->abc = NULL;
+
+  status = eslx_msafile_Open(&(cfg->abc), cfg->alifile, NULL, cfg->fmt, NULL, &(cfg->afp));
+  if (status != eslOK) mpi_init_open_failure(cfg->afp, status);
+
+  cfg->hmmfp = fopen(cfg->hmmfile, "w");
+  if (cfg->hmmfp == NULL) mpi_init_other_failure("Failed to open HMM file %s for writing", cfg->hmmfile); 
+  
+  if (esl_opt_IsUsed(go, "-o")) 
+    {
+      cfg->ofp = fopen(esl_opt_GetString(go, "-o"), "w");
+      if (cfg->ofp == NULL) mpi_init_other_failure("Failed to open -o output file %s\n", esl_opt_GetString(go, "-o"));
+    }
+  else cfg->ofp = stdout;
+
+  if (cfg->postmsafile) 
+    {
+      cfg->postmsafp = fopen(cfg->postmsafile, "w");
+      if (cfg->postmsafp == NULL) mpi_init_other_failure("Failed to MSA resave file %s for writing", cfg->postmsafile);
+    }
+  else cfg->postmsafp = NULL;
+
+  /* Other initialization in the master
+   */
+  bn = 4096; 
+  if ((buf     = malloc(sizeof(char) * bn))              == NULL) mpi_init_other_failure("allocation failed"); 
+  if ((msalist = malloc(sizeof(ESL_MSA *) * cfg->nproc)) == NULL) mpi_init_other_failure("allocation failed"); 
+  if ((msaidx  = malloc(sizeof(int)       * cfg->nproc)) == NULL) mpi_init_other_failure("allocation failed"); 
+  if ((bg      = p7_bg_Create(cfg->abc))                 == NULL) mpi_init_other_failure("allocation failed"); 
+
+  for (wi = 0; wi < cfg->nproc; wi++) { msalist[wi] = NULL; msaidx[wi] = 0; } 
+
+  /* Looks like the master is initialized successfully...
+   * Tell the workers we're fine; send initial output to the user
+   */
+  xstatus = eslOK;
+  MPI_Bcast(&xstatus, 1, MPI_INT, 0, MPI_COMM_WORLD);
+  output_header(go, cfg);                                  /* cheery output header                                */
+  output_result(cfg, NULL, 0, NULL, NULL, NULL, 0.0);	   /* tabular results header (with no args, special-case) */  
+  ESL_DPRINTF1(("MPI master is initialized\n"));  
+
+  /* Worker initialization:
+   * Because we've already successfully initialized the master before we start
+   * initializing the workers, we don't expect worker initialization to fail;
+   * so we just receive a quick OK/error code reply from each worker to be sure,
+   * and don't worry about an informative message. 
+   */
+  MPI_Bcast(&(cfg->abc->type), 1, MPI_INT, 0, MPI_COMM_WORLD);
+  MPI_Reduce(&xstatus, &status, 1, MPI_INT, MPI_MAX, 0, MPI_COMM_WORLD);
+  if (status != eslOK) { MPI_Finalize(); p7_Fail("One or more MPI worker processes failed to initialize."); }
+  ESL_DPRINTF1(("%d workers are initialized\n", cfg->nproc-1));
+
+
+  /* Main loop: combining load workers, send/receive, clear workers loops;
+   * also, catch error states and die later, after clean shutdown of workers.
+   * 
+   * When a recoverable error occurs, have_work = FALSE, xstatus !=
+   * eslOK, and errmsg is set to an informative message. No more
+   * errmsg's can be received after the first one. We wait for all the
+   * workers to clear their work units, then send them shutdown signals,
+   * then finally print our errmsg and exit.
+   * 
+   * Unrecoverable errors just crash us out with p7_Fail().
+   */
+  wi = 1;
+  while (have_work || nproc_working)
+    {
+      if (have_work) 
+	{
+	  rstatus = eslx_msafile_Read(cfg->afp, &msa);
+	  if      (rstatus == eslOK)  {  cfg->nali++;                            ESL_DPRINTF1(("MPI master read MSA %s\n", msa->name == NULL? "" : msa->name));  } 
+	  else if (rstatus == eslEOF) {  have_work  = FALSE;  rstatus = eslOK;   ESL_DPRINTF1(("MPI master has run out of MSAs (having read %d)\n", cfg->nali)); }
+	  else                        {  have_work  = FALSE;  xstatus = rstatus; ESL_DPRINTF1(("MPI master msa read has failed... start to shut down\n")); }
+	}
+
+      if ((have_work && nproc_working == cfg->nproc-1) || (!have_work && nproc_working > 0))
+	{
+	  if (MPI_Probe(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &mpistatus) != 0) { MPI_Finalize(); p7_Fail("mpi probe failed"); }
+	  if (MPI_Get_count(&mpistatus, MPI_PACKED, &n)                != 0) { MPI_Finalize(); p7_Fail("mpi get count failed"); }
+	  wi = mpistatus.MPI_SOURCE;
+	  ESL_DPRINTF1(("MPI master sees a result of %d bytes from worker %d\n", n, wi));
+
+	  if (n > bn) {
+	    if ((buf = realloc(buf, sizeof(char) * n)) == NULL) p7_Fail("reallocation failed");
+	    bn = n; 
+	  }
+	  if (MPI_Recv(buf, bn, MPI_PACKED, wi, 0, MPI_COMM_WORLD, &mpistatus) != 0) { MPI_Finalize(); p7_Fail("mpi recv failed"); }
+	  ESL_DPRINTF1(("MPI master has received the buffer\n"));
+
+	  /* If we're in a recoverable error state, we're only clearing worker results;
+           * just receive them, don't unpack them or print them.
+           * But if our xstatus is OK, go ahead and process the result buffer.
+	   */
+	  if (xstatus == eslOK)	
+	    {
+	      pos = 0;
+	      if (MPI_Unpack(buf, bn, &pos, &xstatus, 1, MPI_INT, MPI_COMM_WORLD)     != 0) { MPI_Finalize();  p7_Fail("mpi unpack failed");}
+	      if (xstatus == eslOK) /* worker reported success. Get the HMM. */
+		{
+		  ESL_DPRINTF1(("MPI master sees that the result buffer contains an HMM\n"));
+		  if (p7_hmm_MPIUnpack(buf, bn, &pos, MPI_COMM_WORLD, &(cfg->abc), &hmm) != eslOK) {  MPI_Finalize(); p7_Fail("HMM unpack failed"); }
+		  ESL_DPRINTF1(("MPI master has unpacked the HMM\n"));
+
+		  if (cfg->postmsafile != NULL) {
+		    if (esl_msa_MPIUnpack(cfg->abc, buf, bn, &pos, MPI_COMM_WORLD, &postmsa) != eslOK) { MPI_Finalize(); p7_Fail("postmsa unpack failed");}
+		  } 
+
+		  entropy = p7_MeanMatchRelativeEntropy(hmm, bg);
+		  if ((status = output_result(cfg, errmsg, msaidx[wi], msalist[wi], hmm, postmsa, entropy)) != eslOK) xstatus = status;
+
+		  esl_msa_Destroy(postmsa); postmsa = NULL;
+		  p7_hmm_Destroy(hmm);      hmm     = NULL;
+		}
+	      else	/* worker reported an error. Get the errmsg. */
+		{
+		  if (MPI_Unpack(buf, bn, &pos, errmsg, eslERRBUFSIZE, MPI_CHAR, MPI_COMM_WORLD) != 0) { MPI_Finalize(); p7_Fail("mpi unpack of errmsg failed"); }
+		  ESL_DPRINTF1(("MPI master sees that the result buffer contains an error message\n"));
+		}
+	    }
+	  esl_msa_Destroy(msalist[wi]);
+	  msalist[wi] = NULL;
+	  msaidx[wi]  = 0;
+	  nproc_working--;
+	}
+
+      if (have_work)
+	{   
+	  ESL_DPRINTF1(("MPI master is sending MSA %s to worker %d\n", msa->name == NULL ? "":msa->name, wi));
+	  if (esl_msa_MPISend(msa, wi, 0, MPI_COMM_WORLD, &buf, &bn) != eslOK) p7_Fail("MPI msa send failed");
+	  msalist[wi] = msa;
+	  msaidx[wi]  = cfg->nali; /* 1..N for N alignments in the MSA database */
+	  msa = NULL;
+	  wi++;
+	  nproc_working++;
+	}
+    }
+  
+  /* On success or recoverable errors:
+   * Shut down workers cleanly. 
+   */
+  ESL_DPRINTF1(("MPI master is done. Shutting down all the workers cleanly\n"));
+  for (wi = 1; wi < cfg->nproc; wi++) 
+    if (esl_msa_MPISend(NULL, wi, 0, MPI_COMM_WORLD, &buf, &bn) != eslOK) p7_Fail("MPI msa send failed");
+
+  free(buf);
+  free(msaidx);
+  free(msalist);
+  p7_bg_Destroy(bg);
+
+  if      (rstatus != eslOK) { MPI_Finalize(); eslx_msafile_ReadFailure(cfg->afp, rstatus); }
+  else if (xstatus != eslOK) { MPI_Finalize(); p7_Fail(errmsg); }
+  else                        return;
+}
+
+static void
+mpi_init_open_failure(ESLX_MSAFILE *afp, int status)
+{
+  MPI_Bcast(&status, 1, MPI_INT, 0, MPI_COMM_WORLD);
+  MPI_Finalize();
+  eslx_msafile_OpenFailure(afp, status);
+}
+
+static void
+mpi_init_other_failure(char *format, ...)
+{
+  va_list argp;
+  int status = eslFAIL;
+
+  MPI_Bcast(&status, 1, MPI_INT, 0, MPI_COMM_WORLD);
+  MPI_Finalize();
+  if (fprintf(stderr, "\nError: ") < 0) exit(eslEWRITE);
+
+  va_start(argp, format);
+  if (vfprintf(stderr, format, argp) < 0) exit(eslEWRITE);
+  va_end(argp);
+
+  if (fprintf(stderr, "\n") < 0) exit(eslEWRITE);
+  fflush(stderr);
+  exit(1);
+}
+
+static void
+mpi_worker(const ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int           xstatus = eslOK;
+  int           status;
+  int           type;
+  P7_BUILDER   *bld         = NULL;
+  ESL_MSA      *msa         = NULL;
+  ESL_MSA      *postmsa     = NULL;
+  ESL_MSA     **postmsa_ptr = (cfg->postmsafile != NULL) ? &postmsa : NULL;
+  P7_HMM       *hmm         = NULL;
+  P7_BG        *bg          = NULL;
+  char         *wbuf        = NULL;	/* packed send/recv buffer  */
+  void         *tmp;			/* for reallocation of wbuf */
+  int           wn          = 0;	/* allocation size for wbuf */
+  int           sz, n;		        /* size of a packed message */
+  int           pos;
+  char          errmsg[eslERRBUFSIZE];
+  ESL_SQ     *sq          = NULL;
+
+  /* After master initialization: master broadcasts its status.
+   */
+  MPI_Bcast(&xstatus, 1, MPI_INT, 0, MPI_COMM_WORLD);
+  if (xstatus != eslOK) return; /* master saw an error code; workers do an immediate normal shutdown. */
+  ESL_DPRINTF2(("worker %d: sees that master has initialized\n", cfg->my_rank));
+  
+  /* Master now broadcasts worker initialization information (alphabet type) 
+   * Workers returns their status post-initialization.
+   * Initial allocation of wbuf must be large enough to guarantee that
+   * we can pack an error result into it, because after initialization,
+   * errors will be returned as packed (code, errmsg) messages.
+   */
+  MPI_Bcast(&type, 1, MPI_INT, 0, MPI_COMM_WORLD);
+  if (xstatus == eslOK) { if ((cfg->abc = esl_alphabet_Create(type))      == NULL)    xstatus = eslEMEM; }
+  if (xstatus == eslOK) { wn = 4096;  if ((wbuf = malloc(wn * sizeof(char))) == NULL) xstatus = eslEMEM; }
+  if (xstatus == eslOK) { if ((bld = p7_builder_Create(go, cfg->abc))     == NULL)    xstatus = eslEMEM; }
+
+  //special arguments for hmmbuild
+  bld->w_len      = (go != NULL && esl_opt_IsOn (go, "--w_length")) ?  esl_opt_GetInteger(go, "--w_length"): -1;
+  bld->w_beta     = (go != NULL && esl_opt_IsOn (go, "--w_beta"))   ?  esl_opt_GetReal   (go, "--w_beta")    : p7_DEFAULT_WINDOW_BETA;
+  if ( bld->w_beta < 0 || bld->w_beta > 1  ) goto ERROR;
+
+
+  MPI_Reduce(&xstatus, &status, 1, MPI_INT, MPI_MAX, 0, MPI_COMM_WORLD); /* everyone sends xstatus back to master */
+  if (xstatus != eslOK) {
+    if (wbuf != NULL) free(wbuf);
+    if (bld  != NULL) p7_builder_Destroy(bld);
+    return; /* shutdown; we passed the error back for the master to deal with. */
+  }
+
+  bg = p7_bg_Create(cfg->abc);
+
+  ESL_DPRINTF2(("worker %d: initialized\n", cfg->my_rank));
+
+                      /* source = 0 (master); tag = 0 */
+  while (esl_msa_MPIRecv(0, 0, MPI_COMM_WORLD, cfg->abc, &wbuf, &wn, &msa) == eslOK) 
+    {
+      /* Build the HMM */
+      ESL_DPRINTF2(("worker %d: has received MSA %s (%d columns, %d seqs)\n", cfg->my_rank, msa->name, msa->alen, msa->nseq));
+
+      if ( msa->nseq == 1 && esl_opt_IsUsed(go, "--singlemx")) {
+        //for, single sequence, use blosum matrix:
+        sq = esl_sq_CreateDigital(cfg->abc);
+        if ((status = esl_sq_FetchFromMSA(msa, 0, &sq)) != eslOK) { strcpy(errmsg, bld->errbuf); goto ERROR; }
+        if ((status = p7_SingleBuilder(bld, sq, bg, &hmm, NULL, NULL, NULL)) != eslOK) { strcpy(errmsg, bld->errbuf); goto ERROR; }
+        esl_sq_Destroy(sq);
+        sq = NULL;
+        hmm->eff_nseq = 1;
+      } else {
+        if ((status = p7_Builder(bld, msa, bg, &hmm, NULL, NULL, NULL, postmsa_ptr)) != eslOK) { strcpy(errmsg, bld->errbuf); goto ERROR; }
+      }
+
+
+      ESL_DPRINTF2(("worker %d: has produced an HMM %s\n", cfg->my_rank, hmm->name));
+
+      /* Calculate upper bound on size of sending status, HMM, and optional postmsa; make sure wbuf can hold it. */
+      n = 0;
+      if (MPI_Pack_size(1,    MPI_INT, MPI_COMM_WORLD, &sz) != 0)     goto ERROR;   n += sz;
+      if (p7_hmm_MPIPackSize( hmm,     MPI_COMM_WORLD, &sz) != eslOK) goto ERROR;   n += sz;
+      if (esl_msa_MPIPackSize(postmsa, MPI_COMM_WORLD, &sz) != eslOK) goto ERROR;   n += sz;
+      if (n > wn) { ESL_RALLOC(wbuf, tmp, sizeof(char) * n); wn = n; }
+      ESL_DPRINTF2(("worker %d: has calculated that HMM will pack into %d bytes\n", cfg->my_rank, n));
+
+      /* Send status, HMM, and optional postmsa back to the master */
+      pos = 0;
+      if (MPI_Pack       (&status, 1, MPI_INT, wbuf, wn, &pos, MPI_COMM_WORLD) != 0)     goto ERROR;
+      if (p7_hmm_MPIPack (hmm,                 wbuf, wn, &pos, MPI_COMM_WORLD) != eslOK) goto ERROR;
+      if (esl_msa_MPIPack(postmsa,             wbuf, wn, &pos, MPI_COMM_WORLD) != eslOK) goto ERROR;
+      MPI_Send(wbuf, pos, MPI_PACKED, 0, 0, MPI_COMM_WORLD);
+      ESL_DPRINTF2(("worker %d: has sent HMM to master in message of %d bytes\n", cfg->my_rank, pos));
+
+      esl_msa_Destroy(msa);     msa     = NULL;
+      esl_msa_Destroy(postmsa); postmsa = NULL;
+      p7_hmm_Destroy(hmm);      hmm     = NULL;
+    }
+
+  if (wbuf != NULL) free(wbuf);
+  p7_builder_Destroy(bld);
+  return;
+
+ ERROR:
+  ESL_DPRINTF2(("worker %d: fails, is sending an error message, as follows:\n%s\n", cfg->my_rank, errmsg));
+  pos = 0;
+  MPI_Pack(&status, 1,                MPI_INT,  wbuf, wn, &pos, MPI_COMM_WORLD);
+  MPI_Pack(errmsg,  eslERRBUFSIZE,    MPI_CHAR, wbuf, wn, &pos, MPI_COMM_WORLD);
+  MPI_Send(wbuf, pos, MPI_PACKED, 0, 0, MPI_COMM_WORLD);
+  if (wbuf != NULL) free(wbuf);
+  if (msa  != NULL) esl_msa_Destroy(msa);
+  if (hmm  != NULL) p7_hmm_Destroy(hmm);
+  if (bld  != NULL) p7_builder_Destroy(bld);
+  return;
+}
+#endif /*HAVE_MPI*/
+
+
+static void
+serial_loop(WORKER_INFO *info, struct cfg_s *cfg, const ESL_GETOPTS *go)
+{
+  P7_BUILDER *bld         = NULL;
+  ESL_MSA    *msa         = NULL;
+  ESL_SQ     *sq          = NULL;
+  ESL_MSA    *postmsa     = NULL;
+  ESL_MSA   **postmsa_ptr = (cfg->postmsafile != NULL) ? &postmsa : NULL;
+  P7_HMM     *hmm         = NULL;
+  char        errmsg[eslERRBUFSIZE];
+  int         status;
+
+  double      entropy;
+
+  cfg->nali = 0;
+  while ((status = eslx_msafile_Read(cfg->afp, &msa)) != eslEOF)
+    {
+      if (status != eslOK) eslx_msafile_ReadFailure(cfg->afp, status);
+      cfg->nali++;  
+
+      if ((status = set_msa_name(cfg, errmsg, msa)) != eslOK) p7_Fail("%s\n", errmsg); /* cfg->nnamed gets incremented in this call */
+
+
+      /*         bg   new-HMM trarr gm   om  */
+      if ( msa->nseq == 1 && esl_opt_IsUsed(go, "--singlemx")) {
+        if ((status = esl_sq_FetchFromMSA(msa, 0, &sq)) != eslOK) p7_Fail("build failed: %s", bld->errbuf);
+        if ((status = p7_SingleBuilder(info->bld, sq, info->bg, &hmm, NULL, NULL, NULL)) != eslOK) p7_Fail("build failed: %s", bld->errbuf);
+        esl_sq_Destroy(sq);
+        sq = NULL;
+        hmm->eff_nseq = 1;
+      } else {
+        if ((status = p7_Builder(info->bld, msa, info->bg, &hmm, NULL, NULL, NULL, postmsa_ptr)) != eslOK) p7_Fail("build failed: %s", bld->errbuf);
+
+        //if not --singlemx, but the user set the popen/pextend flags, override the computed gap params now:
+        if (info->bld->popen != -1 || info->bld->pextend != -1) {
+          apply_fixed_gap_params(hmm, info->bld->popen, info->bld->pextend);
+        }
+      }
+      entropy = p7_MeanMatchRelativeEntropy(hmm, info->bg);
+      if ((status = output_result(cfg, errmsg, cfg->nali, msa, hmm, postmsa, entropy))         != eslOK) p7_Fail(errmsg);
+
+
+
+      p7_hmm_Destroy(hmm);
+      esl_msa_Destroy(msa);
+      esl_msa_Destroy(postmsa);
+    }
+}
+
+#ifdef HMMER_THREADS
+static void
+thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, struct cfg_s *cfg, const ESL_GETOPTS *go)
+{
+  int          status    = eslOK;
+  int          sstatus   = eslOK;
+  int          processed = 0;
+  WORK_ITEM   *item;
+  void        *newItem;
+
+  int           next     = 1;
+  PENDING_ITEM *top      = NULL;
+  PENDING_ITEM *empty    = NULL;
+  PENDING_ITEM *tmp      = NULL;
+
+  char        errmsg[eslERRBUFSIZE];
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newItem);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+      
+  /* Main loop: */
+  item = (WORK_ITEM *) newItem;
+  while (sstatus == eslOK) {
+    sstatus = eslx_msafile_Read(cfg->afp, &item->msa);
+    if (sstatus == eslOK) {
+      item->nali = ++cfg->nali;
+      if (set_msa_name(cfg, errmsg, item->msa) != eslOK) p7_Fail("%s\n", errmsg);
+    }
+    else if (sstatus == eslEOF && processed < cfg->nali) sstatus = eslOK;
+    else if (sstatus != eslEOF) 
+      eslx_msafile_ReadFailure(cfg->afp, sstatus);
+	  
+    if (sstatus == eslOK) {
+      item->force_single = esl_opt_IsUsed(go, "--singlemx");
+      status = esl_workqueue_ReaderUpdate(queue, item, &newItem);
+      if (status != eslOK) esl_fatal("Work queue reader failed");
+
+      /* process any results */
+      item = (WORK_ITEM *) newItem;
+      if (item->processed == TRUE) {
+	++processed;
+
+	/* try to keep the input output order the same */
+	if (item->nali == next) {
+	  sstatus = output_result(cfg, errmsg, item->nali, item->msa, item->hmm, item->postmsa, item->entropy);
+	  if (sstatus != eslOK) p7_Fail(errmsg);
+
+	  p7_hmm_Destroy(item->hmm);
+	  esl_msa_Destroy(item->msa);
+	  esl_msa_Destroy(item->postmsa);
+
+	  ++next;
+
+	  /* output any pending msa as long as the order
+	   * remains the same as read in.
+	   */
+	  while (top != NULL && top->nali == next) {
+	    sstatus = output_result(cfg, errmsg, top->nali, top->msa, top->hmm, top->postmsa, top->entropy);
+	    if (sstatus != eslOK) p7_Fail(errmsg);
+
+	    p7_hmm_Destroy(top->hmm);
+	    esl_msa_Destroy(top->msa);
+	    esl_msa_Destroy(top->postmsa);
+
+	    tmp = top;
+	    top = tmp->next;
+
+	    tmp->next = empty;
+	    empty     = tmp;
+	    
+	    ++next;
+	  }
+	} else {
+	  /* queue up the msa so the sequence order is the same in
+	   * the .sto and .hmm
+	   */
+	  if (empty != NULL) {
+	    tmp   = empty;
+	    empty = tmp->next;
+	  } else {
+	    ESL_ALLOC(tmp, sizeof(PENDING_ITEM));
+	  }
+
+	  tmp->nali     = item->nali;
+	  tmp->hmm      = item->hmm;
+	  tmp->msa      = item->msa;
+	  tmp->postmsa  = item->postmsa;
+	  tmp->entropy  = item->entropy;
+
+	  /* add the msa to the pending list */
+	  if (top == NULL || tmp->nali < top->nali) {
+	    tmp->next = top;
+	    top       = tmp;
+	  } else {
+	    PENDING_ITEM *ptr = top;
+	    while (ptr->next != NULL && tmp->nali > ptr->next->nali) {
+	      ptr = ptr->next;
+	    }
+	    tmp->next = ptr->next;
+	    ptr->next = tmp;
+	  }
+	}
+
+	item->nali      = 0;
+	item->processed = FALSE;
+	item->hmm       = NULL;
+	item->msa       = NULL;
+	item->postmsa   = NULL;
+	item->entropy   = 0.0;
+      }
+    }
+  }
+
+  if (top != NULL) esl_fatal("Top is not empty\n");
+
+  while (empty != NULL) {
+    tmp   = empty;
+    empty = tmp->next;
+    free(tmp);
+  }
+
+  status = esl_workqueue_ReaderUpdate(queue, item, NULL);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+
+  if (sstatus == eslEOF)
+    {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+    }
+  return;
+
+ ERROR:
+  p7_Fail("thread_loop failed: memory allocation problem");
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int           workeridx;
+  int           status;
+
+  WORK_ITEM    *item;
+  void         *newItem;
+
+  WORKER_INFO  *info;
+  ESL_THREADS  *obj;
+  ESL_SQ     *sq          = NULL;
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newItem);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  /* loop until all blocks have been processed */
+  item = (WORK_ITEM *) newItem;
+  while (item->msa != NULL)
+    {
+
+      if ( item->msa->nseq == 1 && item->force_single) {
+        status = esl_sq_FetchFromMSA(item->msa, 0, &sq);
+        if (status != eslOK) p7_Fail("build failed: %s", info->bld->errbuf);
+
+        status = p7_SingleBuilder(info->bld, sq, info->bg, &item->hmm, NULL, NULL, NULL);
+        if (status != eslOK) p7_Fail("build failed: %s", info->bld->errbuf);
+
+        esl_sq_Destroy(sq);
+        sq = NULL;
+        item->hmm->eff_nseq = 1;
+      } else {
+        status = p7_Builder(info->bld, item->msa, info->bg, &item->hmm, NULL, NULL, NULL, &item->postmsa);
+        if (status != eslOK) p7_Fail("build failed: %s", info->bld->errbuf);
+
+        //if not --singlemx, but the user set the popen/pextend flags, override the computed gap params now:
+        if (info->bld->popen != -1 || info->bld->pextend != -1) {
+          apply_fixed_gap_params(item->hmm, info->bld->popen, info->bld->pextend);
+        }
+      }
+
+      item->entropy   = p7_MeanMatchRelativeEntropy(item->hmm, info->bg);
+      item->processed = TRUE;
+
+      status = esl_workqueue_WorkerUpdate(info->queue, item, &newItem);
+      if (status != eslOK) esl_fatal("Work queue worker failed");
+
+      item = (WORK_ITEM *) newItem;
+    }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, item, NULL);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+#endif   /* HMMER_THREADS */
+ 
+
+
+
+static int
+output_result(const struct cfg_s *cfg, char *errbuf, int msaidx, ESL_MSA *msa, P7_HMM *hmm, ESL_MSA *postmsa, double entropy)
+{
+  int status;
+
+  /* Special case: output the tabular results header. 
+   * Arranged this way to keep the two fprintf()'s close together in the code,
+   * so we can keep the data and labels properly sync'ed.
+   */
+  if (msa == NULL)
+  {
+    if (cfg->abc->type == eslAMINO) {
+      if (fprintf(cfg->ofp, "#%4s %-20s %5s %5s %5s %8s %6s %s\n", " idx", "name",                 "nseq",  "alen",  "mlen",  "eff_nseq",  "re/pos",  "description")     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "output_result: write failed");
+      if (fprintf(cfg->ofp, "#%4s %-20s %5s %5s %5s %8s %6s %s\n", "----", "--------------------", "-----", "-----", "-----", "--------",  "------",  "-----------") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "output_result: write failed");
+    } else {
+      if (fprintf(cfg->ofp, "#%4s %-20s %5s %5s %5s %5s %8s %6s %s\n", " idx", "name",                 "nseq",  "alen",  "mlen",  "W", "eff_nseq",  "re/pos",  "description")     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "output_result: write failed");
+      if (fprintf(cfg->ofp, "#%4s %-20s %5s %5s %5s %5s %8s %6s %s\n", "----", "--------------------", "-----", "-----", "-----", "-----", "--------",  "------",  "-----------") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "output_result: write failed");
+    }
+    return eslOK;
+  }
+//  if ((status = p7_hmm_Validate(hmm, errbuf, 0.0001))       != eslOK) return status;
+  if ((status = p7_hmmfile_WriteASCII(cfg->hmmfp, -1, hmm)) != eslOK) ESL_FAIL(status, errbuf, "HMM save failed");
+
+	             /* #   name nseq alen M max_length eff_nseq re/pos description */
+  if (cfg->abc->type == eslAMINO) {
+    if (fprintf(cfg->ofp, "%-5d %-20s %5d %5" PRId64 " %5d %8.2f %6.3f %s\n",
+          msaidx,
+          (msa->name != NULL) ? msa->name : "",
+          msa->nseq,
+          msa->alen,
+          hmm->M,
+          hmm->eff_nseq,
+          entropy,
+          (msa->desc != NULL) ? msa->desc : "") < 0)
+      ESL_EXCEPTION_SYS(eslEWRITE, "output_result: write failed");
+  } else {
+    if (fprintf(cfg->ofp, "%-5d %-20s %5d %5" PRId64 " %5d %5d %8.2f %6.3f %s\n",
+          msaidx,
+          (msa->name != NULL) ? msa->name : "",
+          msa->nseq,
+          msa->alen,
+          hmm->M,
+          hmm->max_length,
+          hmm->eff_nseq,
+          entropy,
+          (msa->desc != NULL) ? msa->desc : "") < 0)
+      ESL_EXCEPTION_SYS(eslEWRITE, "output_result: write failed");
+  }
+
+  if (cfg->postmsafp != NULL && postmsa != NULL) {
+    eslx_msafile_Write(cfg->postmsafp, postmsa, eslMSAFILE_STOCKHOLM);
+  }
+
+  return eslOK;
+}
+
+
+
+/* set_msa_name() 
+ * Make sure the alignment has a name; this name will
+ * then be transferred to the model.
+ * 
+ * We can only do this for a single alignment in a file. For multi-MSA
+ * files, each MSA is required to have a name already.
+ *
+ * Priority is:
+ *      1. Use -n <name> if set, overriding any name the alignment might already have. 
+ *      2. Use alignment's existing name, if non-NULL.
+ *      3. Make a name, from alignment file name without path and without filename extension 
+ *         (e.g. "/usr/foo/globins.slx" gets named "globins")
+ * If none of these succeeds, return <eslEINVAL>.
+ *         
+ * If a multiple MSA database (e.g. Stockholm/Pfam), and we encounter
+ * an MSA that doesn't already have a name, return <eslEINVAL> if nali > 1.
+ * (We don't know we're in a multiple MSA database until we're on the second
+ * alignment.)
+ * 
+ * If we're in MPI mode, we assume we're in a multiple MSA database,
+ * even on the first alignment.
+ * 
+ * Because we can't tell whether we've got more than one
+ * alignment 'til we're on the second one, these fatal errors
+ * only happen after the first HMM has already been built.
+ * Oh well.
+ */
+static int
+set_msa_name(struct cfg_s *cfg, char *errbuf, ESL_MSA *msa)
+{
+  char *name = NULL;
+  int   status;
+
+  if (cfg->do_mpi == FALSE && cfg->nali == 1) /* first (only?) HMM in file: */
+    {
+      if  (cfg->hmmName != NULL)
+	{
+	  if ((status = esl_msa_SetName(msa, cfg->hmmName, -1)) != eslOK) return status;
+	}
+      else if (msa->name != NULL) 
+	{
+	  cfg->nnamed++;
+	}
+      else if (cfg->afp->bf->filename)
+	{
+	  if ((status = esl_FileTail(cfg->afp->bf->filename, TRUE, &name)) != eslOK) return status; /* TRUE=nosuffix */	  
+	  if ((status = esl_msa_SetName(msa, name, -1))                    != eslOK) return status;
+	  free(name);
+	}
+      else ESL_FAIL(eslEINVAL, errbuf, "Failed to set model name: msa has no name, no msa filename, and no -n");
+    }
+  else 
+    {
+      if (cfg->hmmName   != NULL) ESL_FAIL(eslEINVAL, errbuf, "Oops. Wait. You can't use -n with an alignment database.");
+      else if (msa->name != NULL) cfg->nnamed++;
+      else                        ESL_FAIL(eslEINVAL, errbuf, "Oops. Wait. I need name annotation on each alignment in a multi MSA file; failed on #%d", cfg->nali+1);
+
+      /* special kind of failure: the *first* alignment didn't have a name, and we used the filename to
+       * construct one; now that we see a second alignment, we realize this was a boo-boo*/
+      if (cfg->nnamed != cfg->nali)            ESL_FAIL(eslEINVAL, errbuf, "Oops. Wait. I need name annotation on each alignment in a multi MSA file; first MSA didn't have one");
+    }
+  return eslOK;
+}
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmc2.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmc2.c
new file mode 100755
index 0000000..7aab14e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmc2.c
@@ -0,0 +1,622 @@
+/* hmmd: hmmc2 deamon client.
+ */
+
+#include "p7_config.h"
+
+#ifdef HMMER_THREADS
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <errno.h>
+#include <unistd.h>
+#include <signal.h>
+#include <ctype.h>
+
+#include <sys/socket.h>
+#ifdef HAVE_NETINET_IN_H
+#include <netinet/in.h>     /* On FreeBSD, you need netinet/in.h for struct sockaddr_in            */
+#endif                      /* On OpenBSD, netinet/in.h is required for (must precede) arpa/inet.h */
+#include <arpa/inet.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "hmmpgmd.h"
+
+#define SERVER_PORT      51371
+#define MAX_READ_LEN     4096
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+
+static ESL_OPTIONS searchOpts[] = {
+  /* Control of output */
+  { "--acc",        eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "prefer accessions over names in output",                       2 },
+  { "--noali",      eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "don't output alignments, so output is smaller",                2 },
+  { "--notextw",    eslARG_NONE,         NULL, NULL, NULL,    NULL,  NULL, "--textw",        "unlimit ASCII text output line width",                         2 },
+  { "--textw",      eslARG_INT,         "120", NULL, "n>=120",NULL,  NULL, "--notextw",      "set max width of ASCII text output lines",                     2 },
+  /* Control of scoring system */
+  { "--popen",      eslARG_REAL,       "0.02", NULL, "0<=x<0.5",NULL,  NULL,  NULL,          "gap open probability",                                         3 },
+  { "--pextend",    eslARG_REAL,        "0.4", NULL, "0<=x<1",  NULL,  NULL,  NULL,          "gap extend probability",                                       3 },
+  { "--mx",         eslARG_STRING, "BLOSUM62", NULL, NULL,      NULL,  NULL,  "--mxfile",    "substitution score matrix choice (of some built-in matrices)", 3 },
+  { "--mxfile",     eslARG_INFILE,       NULL, NULL, NULL,      NULL,  NULL,  "--mx",        "read substitution score matrix from file <f>",                 3 },
+  /* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,       "10.0", NULL, "x>0",   NULL,  NULL,  REPOPTS,         "report sequences <= this E-value threshold in output",         4 },
+  { "-T",           eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  REPOPTS,         "report sequences >= this score threshold in output",           4 },
+  { "--domE",       eslARG_REAL,       "10.0", NULL, "x>0",   NULL,  NULL,  DOMREPOPTS,      "report domains <= this E-value threshold in output",           4 },
+  { "--domT",       eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  DOMREPOPTS,      "report domains >= this score cutoff in output",                4 },
+  /* Control of inclusion (significance) thresholds */
+  { "--incE",       eslARG_REAL,       "0.01", NULL, "x>0",   NULL,  NULL,  INCOPTS,         "consider sequences <= this E-value threshold as significant",  5 },
+  { "--incT",       eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  INCOPTS,         "consider sequences >= this score threshold as significant",    5 },
+  { "--incdomE",    eslARG_REAL,       "0.01", NULL, "x>0",   NULL,  NULL,  INCDOMOPTS,      "consider domains <= this E-value threshold as significant",    5 },
+  { "--incdomT",    eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  INCDOMOPTS,      "consider domains >= this score threshold as significant",      5 },
+  /* Model-specific thresholding for both reporting and inclusion */
+  { "--cut_ga",     eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's GA gathering cutoffs to set all thresholding",   6 },
+  { "--cut_nc",     eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's NC noise cutoffs to set all thresholding",       6 },
+  { "--cut_tc",     eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's TC trusted cutoffs to set all thresholding",     6 },
+  /* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL, "--F1,--F2,--F3", "Turn all heuristic filters off (less speed, more power)",      7 },
+  { "--F1",         eslARG_REAL,       "0.02", NULL, NULL,    NULL,  NULL, "--max",          "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             7 },
+  { "--F2",         eslARG_REAL,       "1e-3", NULL, NULL,    NULL,  NULL, "--max",          "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             7 },
+  { "--F3",         eslARG_REAL,       "1e-5", NULL, NULL,    NULL,  NULL, "--max",          "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             7 },
+  { "--nobias",     eslARG_NONE,        NULL,  NULL, NULL,    NULL,  NULL, "--max",          "turn off composition bias filter",                             7 },
+  /* Control of E-value calibration */
+  { "--EmL",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,          "length of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EmN",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,          "number of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EvL",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,          "length of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EvN",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,          "number of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EfL",        eslARG_INT,         "100", NULL,"n>0",      NULL,  NULL,  NULL,          "length of sequences for Forward exp tail tau fit",            11 },   
+  { "--EfN",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,          "number of sequences for Forward exp tail tau fit",            11 },   
+  { "--Eft",        eslARG_REAL,       "0.04", NULL,"0<x<1",    NULL,  NULL,  NULL,          "tail mass for Forward exponential tail tau fit",              11 },   
+  /* Other options */
+  { "--seed",       eslARG_INT,         "42",  NULL, "n>=0",  NULL,  NULL,  NULL,            "set RNG seed to <n> (if 0: one-time arbitrary seed)",         12 },
+  { "--nonull2",    eslARG_NONE,        NULL,  NULL, NULL,    NULL,  NULL,  NULL,            "turn off biased composition score corrections",               12 },
+  { "-Z",           eslARG_REAL,        FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "set # of comparisons done, for E-value calculation",          12 },
+  { "--domZ",       eslARG_REAL,        FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "set # of significant seqs, for domain E-value calculation",   12 },
+  { "--hmmdb",      eslARG_INT,         NULL,  NULL, "n>0",   NULL,  NULL,  "--seqdb",       "hmm database to search",                                      12 },
+  { "--seqdb",      eslARG_INT,         NULL,  NULL, "n>0",   NULL,  NULL,  "--hmmdb",       "protein database to search",                                  12 },
+  { "--seqdb_ranges",eslARG_STRING,     NULL,  NULL,  NULL,   NULL, "--seqdb", NULL,         "range(s) of sequences within --seqdb that will be searched",  12 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+//static char banner_seq[] = "search a protein sequence against a sequence database";
+//static char banner_hmm[] = "search profile(s) against a sequence database";
+
+static void
+sig_int(int signo)
+{
+  fprintf(stderr, "Exiting due to ctrl-c\n");
+  exit(1);
+}
+
+#if 0
+static int
+output_header(FILE *ofp, const ESL_GETOPTS *sopt, char *seqfile, char *banner)
+{
+  int status;
+
+  p7_banner(ofp, "hmmpgmd client", banner);
+  
+  if (fprintf(ofp, "# target sequence database:        %s\n", seqfile) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(sopt, "--acc")       && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--noali")     && fprintf(ofp, "# show alignments in output:       no\n")                                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--notextw")   && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--textw")     && fprintf(ofp, "# max ASCII text line length:      %d\n",             esl_opt_GetInteger(sopt, "--textw"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+  if (esl_opt_IsUsed(sopt, "--popen")     && fprintf(ofp, "# gap open probability:            %f\n",             esl_opt_GetReal   (sopt, "--popen"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--pextend")   && fprintf(ofp, "# gap extend probability:          %f\n",             esl_opt_GetReal   (sopt, "--pextend")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--mx")        && fprintf(ofp, "# subst score matrix (built-in):   %s\n",             esl_opt_GetString (sopt, "--mx"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--mxfile")    && fprintf(ofp, "# subst score matrix (file):       %s\n",             esl_opt_GetString (sopt, "--mxfile"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "-E")          && fprintf(ofp, "# sequence reporting threshold:    E-value <= %g\n",  esl_opt_GetReal   (sopt, "-E"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "-T")          && fprintf(ofp, "# sequence reporting threshold:    score >= %g\n",    esl_opt_GetReal   (sopt, "-T"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--domE")      && fprintf(ofp, "# domain reporting threshold:      E-value <= %g\n",  esl_opt_GetReal   (sopt, "--domE"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--domT")      && fprintf(ofp, "# domain reporting threshold:      score >= %g\n",    esl_opt_GetReal   (sopt, "--domT"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--incE")      && fprintf(ofp, "# sequence inclusion threshold:    E-value <= %g\n",  esl_opt_GetReal   (sopt, "--incE"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--incT")      && fprintf(ofp, "# sequence inclusion threshold:    score >= %g\n",    esl_opt_GetReal   (sopt, "--incT"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--incdomE")   && fprintf(ofp, "# domain inclusion threshold:      E-value <= %g\n",  esl_opt_GetReal   (sopt, "--incdomE")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--incdomT")   && fprintf(ofp, "# domain inclusion threshold:      score >= %g\n",    esl_opt_GetReal   (sopt, "--incdomT")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--cut_ga")    && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--cut_nc")    && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--cut_tc")    && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+  if (esl_opt_IsUsed(sopt, "--max")       && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--F1")        && fprintf(ofp, "# MSV filter P threshold:       <= %g\n",            esl_opt_GetReal(sopt, "--F1"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--F2")        && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",            esl_opt_GetReal(sopt, "--F2"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--F3")        && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",            esl_opt_GetReal(sopt, "--F3"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--nobias")    && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--nonull2")   && fprintf(ofp, "# null2 bias corrections:          off\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--EmL")       && fprintf(ofp, "# seq length, MSV Gumbel mu fit:   %d\n",            esl_opt_GetInteger(sopt, "--EmL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--EmN")       && fprintf(ofp, "# seq number, MSV Gumbel mu fit:   %d\n",            esl_opt_GetInteger(sopt, "--EmN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--EvL")       && fprintf(ofp, "# seq length, Vit Gumbel mu fit:   %d\n",            esl_opt_GetInteger(sopt, "--EvL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--EvN")       && fprintf(ofp, "# seq number, Vit Gumbel mu fit:   %d\n",            esl_opt_GetInteger(sopt, "--EvN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--EfL")       && fprintf(ofp, "# seq length, Fwd exp tau fit:     %d\n",            esl_opt_GetInteger(sopt, "--EfL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--EfN")       && fprintf(ofp, "# seq number, Fwd exp tau fit:     %d\n",            esl_opt_GetInteger(sopt, "--EfN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--Eft")       && fprintf(ofp, "# tail mass for Fwd exp tau fit:   %f\n",            esl_opt_GetReal   (sopt, "--Eft"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "-Z")          && fprintf(ofp, "# sequence search space set to:    %.0f\n",          esl_opt_GetReal   (sopt, "-Z"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--domZ")      && fprintf(ofp, "# domain search space set to:      %.0f\n",          esl_opt_GetReal   (sopt, "--domZ"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(sopt, "--seed"))  {
+    if (esl_opt_GetInteger(sopt, "--seed") == 0  && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if (                              fprintf(ofp, "# random number seed set to:       %d\n",            esl_opt_GetInteger(sopt, "--seed"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+#endif /*0; SRE removed to silence compiler warning, looks like MSF wasn't using it*/
+
+static int
+usage(char *pgm)
+{
+  if (fprintf(stderr, "Usage: %s [-i addr] [-p port] [-A] [-S]\n", pgm)                     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(stderr, "    -S      : print sequence scores\n")                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(stderr, "    -A      : print sequence alignments\n")                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(stderr, "    -i addr : ip address running daemon (default: 127.0.0.1)\n")     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(stderr, "    -p port : port daemon listens to clients on (default: 51371)\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  exit(1);
+}
+
+int main(int argc, char *argv[])
+{
+  int              i, j;
+  int              n;
+  int              eod;
+  int              size;
+
+  char            *seq;
+  char            *opts;
+  int              seqlen;
+
+  int              ali;
+  int              scores;
+
+  char             buffer[MAX_READ_LEN];
+
+  int              status  = eslOK;
+  char            *data    = NULL;
+  char            *ptr     = NULL;
+
+  ESL_GETOPTS     *go      = NULL;
+  ESL_STOPWATCH   *w       = NULL;
+  P7_PIPELINE     *pli     = NULL;
+  P7_TOPHITS      *th      = NULL;
+  P7_DOMAIN       *dcl     = NULL;
+
+  HMMD_SEARCH_STATS   *stats;
+  HMMD_SEARCH_STATUS   sstatus;
+
+  int                  sock;
+  char                 serv_ip[64];
+  unsigned short       serv_port;
+
+  struct sockaddr_in   serv_addr;
+
+  /* set up defaults */
+  strcpy(serv_ip, "127.0.0.1");
+  serv_port = SERVER_PORT;
+  scores = 0;
+  ali = 0;
+
+  i = 1;
+  while (i < argc) {
+    if (argv[i][0] != '-') usage(argv[0]);
+    if (argv[i][1] == 0 || argv[i][2] != 0) usage(argv[0]);
+    switch (argv[i][1]) {
+    case 'p':
+      if (i + 1 >= argc) {
+        printf("Missing port number\n");
+        usage(argv[0]);
+      }
+      serv_port = atoi(argv[i+1]);
+      ++i;
+      break;
+    case 'i':
+      if (i + 1 >= argc) {
+        printf("Missing ip address\n");
+        usage(argv[0]);
+      }
+      strcpy(serv_ip, argv[i+1]);
+      ++i;
+      break;
+    case 'A':
+      ali = 1;
+      scores = 1;
+      break;
+    case 'S':
+      scores = 1;
+      break;
+    default:
+      usage(argv[0]);
+    }
+    ++i;
+  }
+
+  seqlen = MAX_READ_LEN;
+  if ((seq = malloc(seqlen)) == NULL) {
+    fprintf(stderr, "[%s:%d] malloc error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+    exit(1);
+  }
+
+  if ((opts = malloc(MAX_READ_LEN)) == NULL) {
+    fprintf(stderr, "[%s:%d] malloc error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+    exit(1);
+  }
+
+  /* set up a signal handler for broken pipes */
+  if (signal(SIGINT, sig_int) == SIG_ERR) {
+    fprintf(stderr, "[%s:%d] signal error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+    exit(1);
+  }
+
+  /* Create a reliable, stream socket using TCP */
+  if ((sock = socket(AF_INET, SOCK_STREAM, 0)) < 0) {
+    fprintf(stderr, "[%s:%d] socket error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+    exit(1);
+  }
+
+  /* Construct the server address structure */
+  memset(&serv_addr, 0, sizeof(serv_addr));
+  serv_addr.sin_family      = AF_INET;
+  serv_addr.sin_addr.s_addr = inet_addr(serv_ip);
+  serv_addr.sin_port        = htons(serv_port);
+  if ((inet_pton(AF_INET, serv_ip, &serv_addr.sin_addr)) < 0) {
+    fprintf(stderr, "[%s:%d] inet_pton error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+    exit(1);
+  }
+
+  /* Establish the connection to the echo server */
+  if (connect(sock, (struct sockaddr *) &serv_addr, sizeof(serv_addr)) < 0) {
+    fprintf(stderr, "[%s:%d] connect error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+    exit(1);
+  }
+
+  w  = esl_stopwatch_Create();
+  go = esl_getopts_Create(searchOpts);
+
+  seq[0] = 0;
+  while (strncmp(seq, "//", 2) != 0) {
+    int rem;
+    int total = 0;
+
+    eod = 0;
+    seq[0] = 0;
+    rem = seqlen - 1;
+    fprintf(stdout, "\n\nEnter next sequence:\n");
+    while (!eod) {
+      if (fgets(buffer, MAX_READ_LEN, stdin) != NULL) {
+        int n = strlen(buffer);
+        if (n >= rem) {
+          if ((seq = realloc(seq, seqlen * 2)) == NULL) {
+            fprintf(stderr, "[%s:%d] realloc error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+            exit(1);
+          }
+          rem += seqlen;
+          seqlen *= 2;
+        }
+        strcat(seq, buffer);
+        rem -= n;
+
+        eod = (strncmp(buffer, "//", 2) == 0);
+      } else {
+        eod = 1;
+      }
+    }
+
+    /* skip all leading white spaces */
+    ptr = seq;
+    while (*ptr && isspace(*ptr)) ++ptr;
+
+    /* process server commands */
+    if (*ptr == '!') {
+
+      /* Send the string to the server */ 
+      n = strlen(seq);
+      printf ("Sending data %d:\n", n);
+      if (writen(sock, seq, n) != n) {
+        fprintf(stderr, "[%s:%d] write (size %d) error %d - %s\n", __FILE__, __LINE__, n, errno, strerror(errno));
+        exit(1);
+      }
+
+      n = sizeof(sstatus);
+      total += n;
+      if ((size = readn(sock, &sstatus, n)) == -1) {
+        fprintf(stderr, "[%s:%d] read error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+        exit(1);
+      }
+
+      if (sstatus.status != eslOK) {
+        char *ebuf;
+        n = sstatus.msg_size;
+        total += n; 
+        ebuf = malloc(n);
+        if ((size = readn(sock, ebuf, n)) == -1) {
+          fprintf(stderr, "[%s:%d] read error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+          exit(1);
+        }
+        fprintf(stderr, "ERROR (%d): %s\n", sstatus.status, ebuf);
+        free(ebuf);
+      }
+
+      continue;
+    }
+
+    /* process search specific options */
+    if (*ptr == '@') {
+      char t;
+      char *s = ++ptr;
+
+      /* skip to the end of the line */
+      while (*ptr && (*ptr != '\n' && *ptr != '\r')) ++ptr;
+      t = *ptr;
+      *ptr = 0;
+
+      /* create a commandline string with dummy program name for
+       * the esl_opt_ProcessSpoof() function to parse.
+       */
+      strncpy(opts, "X ", MAX_READ_LEN);
+      strncat(opts, s,    MAX_READ_LEN);
+      strncat(opts, "\n", MAX_READ_LEN);
+      opts[MAX_READ_LEN-1] = 0;
+
+      if (esl_getopts_Reuse(go) != eslOK) p7_Die("Internal failure reusing options object");
+      if (esl_opt_ProcessSpoof(go, opts) != eslOK) { 
+        printf("Failed to parse options string: %s\n", go->errbuf);
+        continue;
+      }
+      if (esl_opt_VerifyConfig(go) != eslOK) { 
+        printf("Failed to parse options string: %s\n", go->errbuf);
+        continue;
+      }
+
+      /* the options string can handle an optional database */
+      if (esl_opt_ArgNumber(go) != 0) { 
+        printf("Incorrect number of command line arguments.");
+        continue;
+      }
+
+      /* skip remaining white spaces */
+      *ptr = t;
+      while (*ptr && isspace(*ptr)) ++ptr;
+    }
+
+
+    if (*ptr && strncmp(ptr, "//", 2) != 0) {
+      P7_HMM          *hmm     = NULL;        /* query HMM                       */
+      //     P7_HMMFILE      *hfp     = NULL;        /* open input HMM file             */
+      ESL_SQ          *sq      = NULL;        /* one target sequence (digital)   */
+      ESL_ALPHABET    *abc     = NULL;        /* digital alphabet                */
+
+      status = eslOK;
+      abc = esl_alphabet_Create(eslAMINO);
+#if 0
+      /* try to parse the input buffer as a sequence */
+      sq = esl_sq_CreateDigital(abc);
+      status = esl_sqio_Parse(ptr, strlen(ptr), sq, eslSQFILE_DAEMON);
+      if (status != eslOK) {
+        esl_sq_Destroy(sq);
+        sq = NULL;
+      }
+#endif
+#if 0
+      /* now try to parse the buffer as an hmm */
+      if (status != eslOK) {
+        status = p7_hmmfile_OpenBuffer(ptr, strlen(ptr), &hfp);
+        if (status == eslOK) {
+          status = p7_hmmfile_Read(hfp, &abc,  &hmm);
+          p7_hmmfile_Close(hfp);
+        }
+      }
+#endif
+      if (status == eslOK) {
+        total = 0;
+#if 0
+        if (hmm == NULL) {
+          output_header(stdout, go, argv[0], banner_seq);
+          fprintf(stdout, "Query:       %s  [L=%ld]\n", sq->name, (long) sq->n);
+          if (sq->acc[0]  != '\0') fprintf(stdout, "Accession:   %s\n", sq->acc);
+          if (sq->desc[0] != '\0') fprintf(stdout, "Description: %s\n", sq->desc);  
+        } else {
+          output_header(stdout, go, argv[0], banner_hmm);
+          fprintf(stdout, "Query:       %s  [M=%d]\n", hmm->name, hmm->M);
+          if (hmm->acc)  fprintf(stdout, "Accession:   %s\n", hmm->acc);
+          if (hmm->desc) fprintf(stdout, "Description: %s\n", hmm->desc);
+        }
+#endif
+        /* Send the string to the server */ 
+        n = strlen(seq);
+        printf ("Sending data %d:\n", n);
+        if (writen(sock, seq, n) != n) {
+          fprintf(stderr, "[%s:%d] write (size %d) error %d - %s\n", __FILE__, __LINE__, n, errno, strerror(errno));
+          exit(1);
+        }
+
+        n = sizeof(sstatus);
+        total += n;
+        if ((size = readn(sock, &sstatus, n)) == -1) {
+          fprintf(stderr, "[%s:%d] read error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+          exit(1);
+        }
+
+        if (sstatus.status != eslOK) {
+          char *ebuf;
+          n = sstatus.msg_size;
+          total += n; 
+          ebuf = malloc(n);
+          if ((size = readn(sock, ebuf, n)) == -1) {
+            fprintf(stderr, "[%s:%d] read error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+            exit(1);
+          }
+          fprintf(stderr, "ERROR (%d): %s\n", sstatus.status, ebuf);
+          free(ebuf);
+          goto COMPLETE;
+        }
+
+        n = sstatus.msg_size;
+        if ((data = malloc(n)) == NULL) {
+          fprintf(stderr, "[%s:%d] malloc error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+          exit(1);
+        }
+        if ((size = readn(sock, data, n)) == -1) {
+          fprintf(stderr, "[%s:%d] read error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+          exit(1);
+        }
+
+        pli = p7_pipeline_Create(go, 100, 100, FALSE, (esl_opt_IsUsed(go, "--seqdb")) ? p7_SEARCH_SEQS : p7_SCAN_MODELS);
+        stats = (HMMD_SEARCH_STATS *)data;
+
+        /* copy the search stats */
+        w->elapsed       = stats->elapsed;
+        w->user          = stats->user;
+        w->sys           = stats->sys;
+
+        pli->nmodels     = stats->nmodels;
+        pli->nseqs       = stats->nseqs;
+        pli->n_past_msv  = stats->n_past_msv;
+        pli->n_past_bias = stats->n_past_bias;
+        pli->n_past_vit  = stats->n_past_vit;
+        pli->n_past_fwd  = stats->n_past_fwd;
+
+        pli->Z           = stats->Z;
+        pli->domZ        = stats->domZ;
+        pli->Z_setby     = stats->Z_setby;
+        pli->domZ_setby  = stats->domZ_setby;
+
+        th = p7_tophits_Create(); 
+
+        free(th->unsrt);
+        free(th->hit);
+
+        th->N         = stats->nhits;
+        th->unsrt     = (P7_HIT *)(data + sizeof(HMMD_SEARCH_STATS));
+        th->nreported = stats->nreported;
+        th->nincluded = stats->nincluded;
+        th->is_sorted_by_seqidx  = FALSE;
+        th->is_sorted_by_sortkey = TRUE;
+
+        if ((th->hit = malloc(sizeof(void *) * stats->nhits)) == NULL) {
+          fprintf(stderr, "[%s:%d] malloc error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+          exit(1);
+        }
+        for (i = 0; i < stats->nhits; i++) th->hit[i] = th->unsrt + i;
+        
+        /* loop through the hit list adjusting the pointers */
+        for (i = 0; i < stats->nhits; ++i) {
+          char   *ptr;
+          char   *base;
+          P7_HIT *hit = th->unsrt + i;
+
+
+          /* Given the sequence header:
+           * >1 000101001 12343829483298 1234
+           * hmmpgmd hijacks the desc and acc fields to pass back domain
+           * architecture and taxonomy id information to the hmmer webserver.
+           * This means the fields are non-NULL, but don't point to real
+           * addresses, so will break any attempt to print non-NULL desc
+           * or acc fields. So we simply clear them out here
+           */
+          hit->desc = NULL;
+          hit->acc  = NULL;
+
+
+          hit->dcl = (P7_DOMAIN *)(data + ((char *)hit->dcl - (char *)NULL));
+
+          /* the hit string pointers contain the length of the string including
+           * the null terminator at the end.
+           */
+          if (hit->name != NULL) {
+            char *name = malloc(16);
+            sprintf(name, "%d", (int)(hit->name - (char *)NULL));
+            hit->name = name;
+          }
+
+          /* send the domains for this hit */
+          dcl  = hit->dcl;
+          base = (char *)dcl;
+          ptr  = (char *)(dcl + hit->ndom);
+          for (j = 0; j < hit->ndom; ++j) {
+            P7_ALIDISPLAY *ad = (P7_ALIDISPLAY *)ptr;
+
+            dcl->ad  = ad;
+            ad->mem  = ptr + sizeof(P7_ALIDISPLAY);
+                        
+            /* readjust all the pointers to the new memory block */
+            if (ad->rfline  != NULL) ad->rfline  = base + (ad->rfline  - (char *)NULL);
+            if (ad->mmline  != NULL) ad->mmline  = base + (ad->mmline  - (char *)NULL);
+            if (ad->csline  != NULL) ad->csline  = base + (ad->csline  - (char *)NULL);
+            if (ad->model   != NULL) ad->model   = base + (ad->model   - (char *)NULL);
+            if (ad->mline   != NULL) ad->mline   = base + (ad->mline   - (char *)NULL);
+            if (ad->aseq    != NULL) ad->aseq    = base + (ad->aseq    - (char *)NULL);
+            if (ad->ppline  != NULL) ad->ppline  = base + (ad->ppline  - (char *)NULL);
+            if (ad->hmmname != NULL) ad->hmmname = base + (ad->hmmname - (char *)NULL);
+            if (ad->hmmacc  != NULL) ad->hmmacc  = base + (ad->hmmacc  - (char *)NULL);
+            if (ad->hmmdesc != NULL) ad->hmmdesc = base + (ad->hmmdesc - (char *)NULL);
+            if (ad->sqname  != NULL) ad->sqname  = base + (ad->sqname  - (char *)NULL);
+            if (ad->sqacc   != NULL) ad->sqacc   = base + (ad->sqacc   - (char *)NULL);
+            if (ad->sqdesc  != NULL) ad->sqdesc  = base + (ad->sqdesc  - (char *)NULL);
+
+            ptr += sizeof(P7_ALIDISPLAY) + ad->memsize;
+            ++dcl;
+          }
+        }
+
+        /* adjust the reported and included hits */
+        //th->is_sorted = FALSE;
+        //p7_tophits_Sort(th);
+
+        /* Print the results.  */
+        if (scores) p7_tophits_Targets(stdout, th, pli, 120); fprintf(stdout, "\n\n");
+        if (ali)    p7_tophits_Domains(stdout, th, pli, 120); fprintf(stdout, "\n\n");
+        p7_pli_Statistics(stdout, pli, w);  
+
+        p7_pipeline_Destroy(pli); 
+        free(th->hit);
+        free(data);
+        free(th);
+
+        fprintf(stdout, "//\n");  fflush(stdout);
+
+        fprintf(stdout, "Total bytes received %" PRId64 "\n", sstatus.msg_size);
+      } else {
+        printf("Error parsing input query\n");
+      }
+
+    COMPLETE:
+      if (abc) esl_alphabet_Destroy(abc);
+      if (hmm) p7_hmm_Destroy(hmm);
+      if (sq)  esl_sq_Destroy(sq);
+    }
+  }
+
+  free(seq);
+  free(opts);
+
+  esl_getopts_Destroy(go);
+  esl_stopwatch_Destroy(w);
+
+  close(sock);
+  return 0;
+}
+
+#endif /*HMMER_THREADS*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: hmmc2.c 4690 2014-06-26 13:48:10Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmc2.c $
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmconvert.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmconvert.c
new file mode 100755
index 0000000..715a956
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmconvert.c
@@ -0,0 +1,83 @@
+/* hmmconvert: converting profile HMM files to HMMER3 HMM format.
+ * 
+ * SRE, Thu Oct 16 08:57:43 2008 [janelia] [Enigma MCMXC a.D.]
+ * SVN $Id: hmmconvert.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,       NULL,    NULL, "show brief help on version and usage",                             0 },
+  { "-a",        eslARG_NONE,"default",NULL, NULL, "-a,-b,-2",      NULL,    NULL, "ascii:  output models in HMMER3 ASCII format",                     0 },
+  { "-b",        eslARG_NONE,   FALSE, NULL, NULL, "-a,-b,-2",      NULL,    NULL, "binary: output models in HMMER3 binary format",                    0 },
+  { "-2",        eslARG_NONE,   FALSE, NULL, NULL, "-a,-b,-2",      NULL,    NULL, "HMMER2: output backward compatible HMMER2 ASCII format (ls mode)", 0 },
+  { "--outfmt",  eslARG_STRING, NULL,  NULL, NULL,      NULL,       NULL,    "-2", "choose output legacy 3.x file formats by name, such as '3/a'",     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "convert profile file to a HMMER format";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET  *abc     = NULL;
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE    *hfp     = NULL;
+  P7_HMM        *hmm     = NULL;
+  FILE          *ofp     = stdout;
+  char          *outfmt  = esl_opt_GetString(go, "--outfmt");
+  int            fmtcode = -1;	/* -1 = write the current default format */
+  int            status;
+  char           errbuf[eslERRBUFSIZE];
+
+  if (outfmt != NULL) {
+    if      (strcmp(outfmt, "3/a") == 0) fmtcode = p7_HMMFILE_3a;
+    else if (strcmp(outfmt, "3/b") == 0) fmtcode = p7_HMMFILE_3b;
+    else if (strcmp(outfmt, "3/c") == 0) fmtcode = p7_HMMFILE_3c;
+    else    p7_Fail("No such 3.x output format code %s.\n", outfmt);
+  }
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);  
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) == eslOK)
+    {
+      if      (esl_opt_GetBoolean(go, "-a") == TRUE) p7_hmmfile_WriteASCII (ofp, fmtcode, hmm);
+      else if (esl_opt_GetBoolean(go, "-b") == TRUE) p7_hmmfile_WriteBinary(ofp, fmtcode, hmm);
+      else if (esl_opt_GetBoolean(go, "-2") == TRUE) p7_h2io_WriteASCII    (ofp, hmm);
+
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdmstr.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdmstr.c
new file mode 100755
index 0000000..520a0aa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdmstr.c
@@ -0,0 +1,2148 @@
+/* master side of the hmmpgmd daemon
+ * 
+ * MSF, Thu Aug 12, 2010 [Janelia]
+ * SVN $Id: hmmdmstr.c 4571 2013-12-17 11:27:17Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmdmstr.c $
+ */
+#include "p7_config.h"
+
+#ifdef HMMER_THREADS
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <errno.h>
+#include <unistd.h>
+#include <signal.h>
+#include <pthread.h>
+#include <setjmp.h>
+#include <sys/socket.h>
+#ifdef HAVE_NETINET_IN_H
+#include <netinet/in.h>     /* On FreeBSD, you need netinet/in.h for struct sockaddr_in            */
+#endif                      /* On OpenBSD, netinet/in.h is required for (must precede) arpa/inet.h */
+#include <arpa/inet.h>
+#include <syslog.h>
+#include <assert.h>
+#include <time.h>
+
+#ifndef HMMER_THREADS
+#error "Program requires pthreads be enabled."
+#endif /*HMMER_THREADS*/
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stack.h"
+#include "esl_stopwatch.h"
+#include "esl_threads.h"
+
+#include "hmmer.h"
+#include "hmmpgmd.h"
+#include "cachedb.h"
+#include "p7_hmmcache.h"
+
+#define MAX_WORKERS  64
+#define MAX_BUFFER   4096
+
+#define CONF_FILE "/etc/hmmpgmd.conf"
+
+typedef struct {
+  uint32_t        count;
+  uint32_t        data_size;
+  P7_HIT         *hit;
+  char           *data;
+} HIT_LIST;
+
+typedef struct {
+  HMMD_SEARCH_STATS   stats;
+  HMMD_SEARCH_STATUS  status;
+  HIT_LIST           *hits;
+  int                 nhits;
+  int                 db_inx;
+  int                 db_cnt;
+  int                 errors;
+} SEARCH_RESULTS;
+
+typedef struct {
+  int             sock_fd;
+  char            ip_addr[64];
+
+  ESL_STACK      *cmdstack;	/* stack of commands that clients want done */
+} CLIENTSIDE_ARGS;
+
+typedef struct {
+  int              sock_fd;
+
+  pthread_mutex_t  work_mutex;
+  pthread_cond_t   start_cond;
+  pthread_cond_t   complete_cond;
+
+  int              db_version;
+  P7_SEQCACHE     *seq_db;
+  P7_HMMCACHE     *hmm_db;
+
+  int              ready;
+  int              failed;
+  struct worker_s *head;
+  struct worker_s *tail;
+
+  int              pend_cnt;
+  struct worker_s *pending;
+
+  int              idle_cnt;
+  struct worker_s *idling;
+
+  RANGE_LIST       *range_list;  /* (optional) list of ranges searched within the seqdb */
+
+  int              completed;
+} WORKERSIDE_ARGS;
+
+typedef struct worker_s {
+  int                   sock_fd;
+  char                  ip_addr[64];
+  
+  int                   completed;
+  int                   terminated;
+  HMMD_COMMAND         *cmd;
+
+  uint32_t              srch_inx;
+  uint32_t              srch_cnt;
+
+  HMMD_SEARCH_STATS     stats;
+  HMMD_SEARCH_STATUS    status;
+  char                 *err_buf;
+  P7_HIT               *hit;
+  void                 *hit_data;
+  int                   total;
+
+  WORKERSIDE_ARGS      *parent;
+
+  struct worker_s      *next;
+  struct worker_s      *prev;
+} WORKER_DATA;
+
+static void setup_clientside_comm(ESL_GETOPTS *opts, CLIENTSIDE_ARGS  *args);
+static void setup_workerside_comm(ESL_GETOPTS *opts, WORKERSIDE_ARGS  *args);
+
+static void destroy_worker(WORKER_DATA *worker);
+
+static void init_results(SEARCH_RESULTS *results);
+static void clear_results(WORKERSIDE_ARGS *comm, SEARCH_RESULTS *results);
+static void gather_results(QUEUE_DATA *query, WORKERSIDE_ARGS *comm, SEARCH_RESULTS *results);
+static void forward_results(QUEUE_DATA *query, SEARCH_RESULTS *results);
+
+static void
+print_client_msg(int fd, int status, char *format, va_list ap)
+{
+  int   n;
+  char  ebuf[512];
+
+  HMMD_SEARCH_STATUS s;
+
+  memset(&s, 0, sizeof(HMMD_SEARCH_STATUS));
+
+  s.status   = status;
+  s.msg_size = vsnprintf(ebuf, sizeof(ebuf), format, ap) +1; /* +1 because we send the \0 */
+  p7_syslog(LOG_ERR, ebuf);
+
+  /* send back an unsuccessful status message */
+  n = sizeof(s);
+  if (writen(fd, &s, n) != n) {
+    p7_syslog(LOG_ERR,"[%s:%d] - writing (%d) error %d - %s\n", __FILE__, __LINE__, fd, errno, strerror(errno));
+    return;
+  }
+  if (writen(fd, ebuf, s.msg_size) != s.msg_size)  {
+    p7_syslog(LOG_ERR,"[%s:%d] - writing (%d) error %d - %s\n", __FILE__, __LINE__, fd, errno, strerror(errno));
+    return;
+  }
+}
+
+static void
+client_msg(int fd, int status, char *format, ...)
+{
+  va_list ap;
+
+  va_start(ap, format);
+  print_client_msg(fd, status, format, ap);
+  va_end(ap);
+}
+
+static void
+client_msg_longjmp(int fd, int status, jmp_buf *env, char *format, ...)
+{
+  va_list ap;
+
+  va_start(ap, format);
+  print_client_msg(fd, status, format, ap);
+  va_end(ap);
+
+  longjmp(*env, 1);
+}
+
+static int
+validate_workers(WORKERSIDE_ARGS *args)
+{
+  int ready    = 0;
+  int failed   = 0;
+  int pending  = 0;
+  int idling   = 0;
+
+  WORKER_DATA *worker = NULL;
+  WORKER_DATA *tail   = NULL;
+
+  /* count the idling workers */
+  worker = args->idling;
+  while (worker != NULL) {
+    ++idling;
+    if (worker->terminated) ++failed;
+    worker = worker->next;
+  }
+  assert(idling == args->idle_cnt);
+
+  /* count the pending workers */
+  worker = args->pending;
+  while (worker != NULL) {
+    ++pending;
+    if (worker->terminated) ++failed;
+    worker = worker->next;
+  }
+  assert(pending == args->pend_cnt);
+
+  if (args->head == NULL && args->tail == NULL) {
+    assert(failed == args->failed);
+    assert(ready == 0);
+    return 1;
+  }
+
+  assert(args->head != NULL && args->tail != NULL);
+  assert(args->head->prev == NULL);
+  assert(args->tail->next == NULL);
+
+  /* count the ready workers */
+  worker = args->head;
+  while (worker != NULL) {
+    ++ready;
+    assert(worker->prev == tail);
+    assert(ready <= args->ready);
+    tail = worker;
+    if (worker->terminated) ++failed;
+    worker = worker->next;
+  }
+  assert(ready  == args->ready);
+  assert(failed == args->failed);
+  assert(tail   == args->tail);
+
+  return 1;
+}
+
+static void
+update_workers(WORKERSIDE_ARGS *args)
+{
+  WORKER_DATA *worker = NULL;
+
+  assert(validate_workers(args));
+
+  /* if there are any workers waiting to join, add them */
+  while (args->pending != NULL) {
+    worker = args->pending;
+    args->pending = worker->next;
+
+    worker->next = NULL;
+    if (args->head == NULL) {
+      args->head = worker;
+      worker->prev = NULL;
+    } else {
+      args->tail->next = worker;
+      worker->prev = args->tail;
+    }
+    args->tail = worker;
+
+    args->pend_cnt--;
+    args->ready++;
+  }
+
+  /* remove any workers who have failed */
+  worker = args->head;
+  while (args->failed > 0 && worker != NULL) {
+    WORKER_DATA *next =  worker->next;
+    if (worker->terminated) {
+      --args->failed;
+      --args->ready;
+      if (args->head == worker && args->tail == worker) {
+        args->head = NULL;
+        args->tail = NULL;
+      } else if (args->head == worker) {
+        args->head = worker->next;
+        worker->next->prev = NULL;
+      } else if (args->tail == worker) {
+        args->tail = worker->prev;
+        worker->prev->next = NULL;
+      } else {
+        worker->next->prev = worker->prev;
+        worker->prev->next = worker->next;
+      }
+      destroy_worker(worker);
+    }
+    worker = next;
+  }
+
+  assert(validate_workers(args));
+}
+
+static void
+process_search(WORKERSIDE_ARGS *args, QUEUE_DATA *query)
+{
+  ESL_STOPWATCH  *w          = NULL;      /* timer used for profiling statistics             */
+  WORKER_DATA    *worker     = NULL;
+  SEARCH_RESULTS  results;
+  int n;
+  int cnt;
+  int inx;
+  int ready_workers;    /* counter variable used to track the number of workers currently available to receive work; short for "remaining", I imagine */
+  int tries;
+  int i;
+
+
+  memset(&results, 0, sizeof(SEARCH_RESULTS)); /* avoid valgrind bitching about uninit bytes; remove, if we ever serialize structs properly */
+
+  w = esl_stopwatch_Create();
+  esl_stopwatch_Start(w);
+
+  /* figure out the size of the database we are searching */
+  if (query->cmd_type == HMMD_CMD_SEARCH) {
+    cnt = args->seq_db->db[query->dbx].count;
+  } else {
+    cnt = args->hmm_db->n;
+  }
+
+  init_results(&results);
+
+  //if range(s) are given, count how many of the seqdb's sequences are within supplied range(s)
+  if (args->range_list) { // can only happen in HMMD_CMD_SEARCH case
+    int range_cnt = 0; // this will now count how many of the seqs in the db are within the range
+    for (i=0; i<cnt; i++) {
+      if ( hmmpgmd_IsWithinRanges(args->seq_db->list[i].idx, args->range_list ) )
+        range_cnt++;
+    }
+    cnt = range_cnt;
+  }
+
+
+  inx = 0;
+  tries = 0;
+  do {
+    /* process any changes to the available workers */
+    if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    /* build a list of the currently available workers */
+    update_workers(args);
+
+    /* if there are no workers, report an error */
+    if (args->ready > 0) {
+      ready_workers = args->ready;
+
+      /* update the workers search information */
+      worker = args->head;
+
+      while (worker != NULL) {
+        worker->cmd        = query->cmd;
+        worker->completed  = 0;
+        worker->total      = 0;
+
+        /* assign each worker a portion of the database */
+        worker->srch_inx = inx;
+        if (args->range_list) {
+          // if ranges are given, need to split the db list based on which elements in the list are within the given range(s)
+          int goal = cnt / ready_workers; //how many within-range sequences do I want to ask this worker to handle
+          int curr = 0;                   //how many within-range sequences have I seen since the start of this full-db range
+          worker->srch_cnt = 0;
+          while (curr < goal) {
+            if ( hmmpgmd_IsWithinRanges (args->seq_db->list[inx].idx, args->range_list ) )
+                curr++;
+            worker->srch_cnt++;
+            inx++;
+          }
+          cnt -= curr;
+        } else {
+          // default - split evenly among workers
+          worker->srch_cnt = cnt / ready_workers;
+          inx += worker->srch_cnt;
+          cnt -= worker->srch_cnt;
+        }
+
+        --ready_workers;
+        worker            = worker->next;
+      }
+
+      args->completed = 0;
+
+      /* notify all the worker threads of the new query */
+      if ((n = pthread_cond_broadcast(&args->start_cond)) != 0) LOG_FATAL_MSG("cond broadcast", n);
+    }
+
+    if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+
+    if (args->ready > 0) {
+      /* Wait for all the workers to complete */
+      if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+      while (args->completed < args->ready) {
+        if ((n = pthread_cond_wait (&args->complete_cond, &args->work_mutex)) != 0) LOG_FATAL_MSG("cond wait", n);
+      }
+
+      if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+    }
+
+    /* gather up the results from all the workers */
+    gather_results(query, args, &results);
+
+    /* we can recover from one worker crashing.  get the block that worker ran on
+     * and redistribute its load to all the remaining workers.
+     */
+    inx = results.db_inx;
+    cnt = results.db_cnt;
+    ++tries;
+
+  } while (args->ready > 0 && results.errors == 1 && tries < 2);
+
+
+  esl_stopwatch_Stop(w);
+
+  /* copy the search stats */
+  results.stats.elapsed = w->elapsed;
+  results.stats.user    = w->user;
+  results.stats.sys     = w->sys;
+
+  /* TODO: check for errors */
+  if (args->ready == 0) {
+    client_msg(query->sock, eslFAIL, "No compute nodes available\n");
+  } else if (args->failed > 0) {
+    client_msg(query->sock, eslFAIL, "Errors running search\n");
+    clear_results(args, &results);
+  } else {
+    forward_results(query, &results);  
+  }
+
+  esl_stopwatch_Destroy(w);
+}
+
+static void
+process_reset(WORKERSIDE_ARGS *args, QUEUE_DATA *query)
+{
+  int n;
+  int cnt;
+
+  WORKER_DATA *worker = NULL;
+
+  /* process any changes to the available workers */
+  if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+  /* build a list of the currently available workers */
+  update_workers(args);
+
+  cnt = 0;
+
+  /* look for the active workers to reset */
+  worker = args->head;
+  while (worker != NULL) {
+    if (strcmp(worker->ip_addr, query->cmd->reset.ip_addr) == 0) {
+      worker->cmd        = query->cmd;
+      worker->completed  = 0;
+      worker->total      = 0;
+
+      ++cnt;
+    }
+
+    worker = worker->next;
+  }
+
+  /* look for the idle workers to reset */
+  worker = args->idling;
+  while (worker != NULL) {
+    if (strcmp(worker->ip_addr, query->cmd->reset.ip_addr) == 0) {
+      worker->cmd        = query->cmd;
+      worker->completed  = 0;
+      worker->total      = 0;
+
+      ++cnt;
+    }
+
+    worker = worker->next;
+  }
+
+  /* check if there are any worker matching the ip address */
+  if (cnt > 0) {
+    args->completed = 0;
+
+    /* notify all the worker threads of the new query */
+    if ((n = pthread_cond_broadcast(&args->start_cond)) != 0) LOG_FATAL_MSG("cond broadcast", n);
+    if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+
+    /* Wait for all the workers to complete */
+    if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    while (args->completed < cnt) {
+      if ((n = pthread_cond_wait (&args->complete_cond, &args->work_mutex)) != 0) LOG_FATAL_MSG("cond wait", n);
+    }
+  }
+
+  /* build a list of the currently available workers */
+  update_workers(args);
+
+  if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+
+  if (cnt == 0) {
+    client_msg(query->sock, eslFAIL, "No compute nodes found matching ip %s\n", query->cmd->reset.ip_addr);
+  } else {
+    HMMD_SEARCH_STATUS status;
+
+    status.status     = eslOK;
+    status.msg_size   = 0;
+
+    /* send back a successful status message */
+    n = sizeof(status);
+    if (writen(query->sock, &status, n) != n) {
+      p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, query->ip_addr, errno, strerror(errno));
+    }
+  }
+}
+
+static void
+process_load(WORKERSIDE_ARGS *args, QUEUE_DATA *query)
+{
+  void          *tmp;
+  P7_SEQCACHE   *seq_db  = NULL;
+  P7_HMMCACHE   *hmm_db  = NULL;
+  WORKER_DATA   *worker  = NULL;
+  HMMD_COMMAND   cmd;
+  int            n, cnt;
+  char           errbuf[eslERRBUFSIZE];
+  int            status;
+
+  client_msg(query->sock, eslOK, "Loading databases...\n");
+
+  if (query->cmd->init.seqdb_off) {
+    char *name = (char *)&query->cmd;
+    name += query->cmd->init.seqdb_off;
+
+    if ((status = p7_seqcache_Open(name, &seq_db, errbuf)) != eslOK) {
+      client_msg(query->sock, status, "Failed to load sequence database %s\n  %s", name, errbuf);
+      return;
+    }
+  }
+
+  if (query->cmd->init.hmmdb_off) {
+    char *name = (char *)&query->cmd;
+    name += query->cmd->init.hmmdb_off;
+
+    status = p7_hmmcache_Open(name, &hmm_db, errbuf);
+    if      (status == eslENOTFOUND) { client_msg(query->sock, status, "Failed to open profile database %s\n  %s\n",    name, errbuf); goto ERROR; }
+    else if (status == eslEFORMAT)   { client_msg(query->sock, status, "Failed to parse profile database %s\n  %s\n",   name, errbuf); goto ERROR; }
+    else if (status == eslEINCOMPAT) { client_msg(query->sock, status, "Mismatched alphabets in profile db %s\n  %s\n", name, errbuf); goto ERROR; }
+    else if (status != eslOK)        { client_msg(query->sock, status, "Failed to load profile db %s : code %d\n",      name, status); goto ERROR; }
+
+    if ( (status = p7_hmmcache_SetNumericNames(hmm_db)) != eslOK) goto ERROR;
+
+    client_msg(query->sock, eslOK, "Loaded profile db %s;  models: %d  memory: %" PRId64 "\n",
+	       name, hmm_db->n, p7_hmmcache_Sizeof(hmm_db));
+  }
+
+  /* process any changes to the available workers */
+  if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+  /* swap in the new cached databases */
+  tmp = args->seq_db;
+  args->seq_db = seq_db;
+  seq_db = tmp;
+
+  tmp = args->seq_db;
+  args->seq_db = seq_db;
+  seq_db = tmp;
+
+  args->db_version++;
+
+  /* build a list of the currently available workers */
+  update_workers(args);
+
+  /* reset all the idle and active workers */
+  cnt = 0;
+
+  /* build a reset command */
+  cmd.hdr.length  = 0;
+  cmd.hdr.command = HMMD_CMD_RESET;
+
+  /* look for the active workers to reset */
+  worker = args->head;
+  while (worker != NULL) {
+    worker->cmd        = &cmd;
+    worker->completed  = 0;
+    worker->total      = 0;
+
+    worker = worker->next;
+    ++cnt;
+  }
+
+  /* look for the idle workers to reset */
+  worker = args->idling;
+  while (worker != NULL) {
+    worker->cmd        = &cmd;
+    worker->completed  = 0;
+    worker->total      = 0;
+
+    worker = worker->next;
+    ++cnt;
+  }
+
+  /* check if there are any worker matching the ip address */
+  if (cnt > 0) {
+    args->completed = 0;
+
+    /* notify all the worker threads of the new query */
+    if ((n = pthread_cond_broadcast(&args->start_cond)) != 0) LOG_FATAL_MSG("cond broadcast", n);
+    if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+
+    /* Wait for all the workers to complete */
+    if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    while (args->completed < cnt) {
+      if ((n = pthread_cond_wait (&args->complete_cond, &args->work_mutex)) != 0) LOG_FATAL_MSG("cond wait", n);
+    }
+  }
+
+  /* build a list of the currently available workers */
+  update_workers(args);
+
+  if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+
+  /* free up the old copies */
+  if (seq_db != NULL) p7_seqcache_Close(seq_db);
+  if (hmm_db != NULL) p7_hmmcache_Close(hmm_db);
+
+  client_msg(query->sock, eslOK, "Load complete\n");
+  return;
+
+ ERROR:
+  if (seq_db) p7_seqcache_Close(seq_db);
+  if (hmm_db) p7_hmmcache_Close(hmm_db);
+  return;
+}
+
+static void
+process_shutdown(WORKERSIDE_ARGS *args, QUEUE_DATA *query)
+{
+  int n;
+  int cnt;
+
+  HMMD_COMMAND cmd;
+
+  WORKER_DATA *worker  = NULL;
+
+  /* process any changes to the available workers */
+  if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+  /* build a list of the currently available workers */
+  update_workers(args);
+
+  /* reset all the idle and active workers */
+  cnt = 0;
+
+  /* build a reset command */
+  cmd.hdr.length  = 0;
+  cmd.hdr.command = HMMD_CMD_SHUTDOWN;
+
+  /* look for the active workers to shutdown */
+  worker = args->head;
+  while (worker != NULL) {
+    worker->cmd        = &cmd;
+    worker->completed  = 0;
+    worker->total      = 0;
+
+    worker = worker->next;
+    ++cnt;
+  }
+
+  /* look for the idle workers to shutdown */
+  worker = args->idling;
+  while (worker != NULL) {
+    worker->cmd        = &cmd;
+    worker->completed  = 0;
+    worker->total      = 0;
+
+    worker = worker->next;
+    ++cnt;
+  }
+
+  /* check if there are any workers to shutdown */
+  if (cnt > 0) {
+    args->completed = 0;
+
+    /* notify all the worker threads of the new query */
+    if ((n = pthread_cond_broadcast(&args->start_cond)) != 0) LOG_FATAL_MSG("cond broadcast", n);
+    if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+
+    /* Wait for all the workers to complete */
+    if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    while (args->completed < cnt) {
+      if ((n = pthread_cond_wait (&args->complete_cond, &args->work_mutex)) != 0) LOG_FATAL_MSG("cond wait", n);
+    }
+  }
+
+  /* build a list of the currently available workers */
+  update_workers(args);
+
+  if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+}
+
+
+void
+master_process(ESL_GETOPTS *go)
+{
+  P7_SEQCACHE        *seq_db     = NULL;
+  P7_HMMCACHE        *hmm_db     = NULL;
+  ESL_STACK          *cmdstack   = NULL; /* stack of commands that clients want done */
+  QUEUE_DATA         *query      = NULL;
+  CLIENTSIDE_ARGS     client_comm;
+  WORKERSIDE_ARGS     worker_comm;
+  int                 n;
+  int                 shutdown;
+  char                errbuf[eslERRBUFSIZE]; 
+  int                 status     = eslOK;
+
+  impl_Init();
+  p7_FLogsumInit();     /* we're going to use table-driven Logsum() approximations at times */
+
+  if (esl_opt_IsUsed(go, "--seqdb")) {
+    char *name = esl_opt_GetString(go, "--seqdb");
+    if ((status = p7_seqcache_Open(name, &seq_db, errbuf)) != eslOK) 
+      p7_Fail("Failed to cache %s (%d)", name, status);
+
+  }
+
+  if (esl_opt_IsUsed(go, "--hmmdb")) {
+    char *name = esl_opt_GetString(go, "--hmmdb");
+
+    status = p7_hmmcache_Open(name, &hmm_db, errbuf);
+    if      (status == eslENOTFOUND) p7_Fail("Failed to open profile database %s\n  %s\n",    name, errbuf);
+    else if (status == eslEFORMAT)   p7_Fail("Failed to parse profile database %s\n  %s\n",   name, errbuf); 
+    else if (status == eslEINCOMPAT) p7_Fail("Mismatched alphabets in profile db %s\n  %s\n", name, errbuf);
+    else if (status != eslOK)        p7_Fail("Failed to load profile db %s : code %d\n",      name, status);
+
+    p7_hmmcache_SetNumericNames(hmm_db);
+
+    printf("Loaded profile db %s;  models: %d  memory: %" PRId64 "\n", 
+	   name, hmm_db->n, (uint64_t) p7_hmmcache_Sizeof(hmm_db));
+  }
+
+  /* if stdout is redirected at the commandline, it causes printf's to be buffered,
+   * which means status logging isn't printed. This line strongly requests unbuffering,
+   * which should be ok, given the low stdout load of hmmpgmd
+   */
+  setvbuf (stdout, NULL, _IONBF, BUFSIZ);
+  printf("Data loaded into memory. Master is ready.\n");
+  setvbuf (stdout, NULL, _IOFBF, BUFSIZ);
+
+  /* initialize the search stack, set it up for interthread communication  */
+  cmdstack = esl_stack_PCreate();
+  esl_stack_UseMutex(cmdstack);
+  esl_stack_UseCond(cmdstack);
+
+  /* start the communications with the web clients */
+  client_comm.cmdstack = cmdstack;
+  setup_clientside_comm(go, &client_comm);
+
+  /* initialize the worker structure */
+  if ((n = pthread_mutex_init(&worker_comm.work_mutex, NULL)) != 0)   LOG_FATAL_MSG("mutex init", n);
+  if ((n = pthread_cond_init(&worker_comm.start_cond, NULL)) != 0)    LOG_FATAL_MSG("cond init", n);
+  if ((n = pthread_cond_init(&worker_comm.complete_cond, NULL)) != 0) LOG_FATAL_MSG("cond init", n);
+
+  worker_comm.sock_fd    = -1;
+  worker_comm.head       = NULL;
+  worker_comm.tail       = NULL;
+  worker_comm.pending    = NULL;
+  worker_comm.idling     = NULL;
+  worker_comm.seq_db     = seq_db;
+  worker_comm.hmm_db     = hmm_db;
+  worker_comm.db_version = 1;
+
+  worker_comm.ready      = 0;
+  worker_comm.failed     = 0;
+  worker_comm.pend_cnt   = 0;
+  worker_comm.idle_cnt   = 0;
+
+  setup_workerside_comm(go, &worker_comm);
+
+  /* read query hmm/sequence 
+   * the PPop() will wait until a client pushes a command to the queue
+   */
+  shutdown = 0;
+  while (!shutdown &&  esl_stack_PPop(cmdstack, (void **) &query) == eslOK) {
+    printf("Processing command %d from %s\n", query->cmd_type, query->ip_addr);
+    fflush(stdout);
+
+    worker_comm.range_list = NULL;
+    if (esl_opt_IsUsed(query->opts, "--seqdb_ranges")) {
+      ESL_ALLOC(worker_comm.range_list, sizeof(RANGE_LIST));
+      hmmpgmd_GetRanges(worker_comm.range_list, esl_opt_GetString(query->opts, "--seqdb_ranges"));
+    }
+
+
+    switch(query->cmd_type) {
+    case HMMD_CMD_SEARCH:      process_search(&worker_comm, query); break;
+    case HMMD_CMD_SCAN:        process_search(&worker_comm, query); break;
+    case HMMD_CMD_INIT:        process_load  (&worker_comm, query); break;
+    case HMMD_CMD_RESET:       process_reset (&worker_comm, query); break;
+    case HMMD_CMD_SHUTDOWN:    
+      process_shutdown(&worker_comm, query);
+      p7_syslog(LOG_ERR,"[%s:%d] - shutting down...\n", __FILE__, __LINE__);
+      shutdown = 1;
+      break;
+    default:
+      p7_syslog(LOG_ERR,"[%s:%d] - unknown command %d from %s\n", __FILE__, __LINE__, query->cmd_type, query->ip_addr);
+      break;
+    }
+
+    free_QueueData(query);
+  }
+
+  esl_stack_ReleaseCond(cmdstack);
+
+  if (hmm_db) p7_hmmcache_Close(hmm_db);
+  if (seq_db) p7_seqcache_Close(seq_db);
+
+  esl_stack_Destroy(cmdstack);
+
+  pthread_mutex_destroy(&worker_comm.work_mutex);
+  pthread_cond_destroy(&worker_comm.start_cond);
+  pthread_cond_destroy(&worker_comm.complete_cond);
+
+
+  if (worker_comm.range_list) {
+    if (worker_comm.range_list->starts)  free(worker_comm.range_list->starts);
+    if (worker_comm.range_list->ends)    free(worker_comm.range_list->ends);
+    free (worker_comm.range_list);
+  }
+
+  return;
+
+
+ERROR:
+  p7_Fail("Memory allocation error. Code: %d\n",    status);
+
+}
+
+static int
+hit_sorter(const void *p1, const void *p2)
+{
+  int cmp;
+
+  const P7_HIT *h1 = p1;
+  const P7_HIT *h2 = p2;
+
+  cmp  = (h1->sortkey < h2->sortkey);
+  cmp -= (h1->sortkey > h2->sortkey);
+
+  return cmp;
+}
+
+static void
+init_results(SEARCH_RESULTS *results)
+{
+  results->status.status     = eslOK;
+  results->status.msg_size   = 0;
+
+  results->stats.nhits       = 0;
+  results->stats.nreported   = 0;
+  results->stats.nincluded   = 0;
+
+  results->stats.nmodels     = 0;
+  results->stats.nseqs       = 0;
+  results->stats.n_past_msv  = 0;
+  results->stats.n_past_bias = 0;
+  results->stats.n_past_vit  = 0;
+  results->stats.n_past_fwd  = 0;
+  results->stats.Z           = 0;
+
+  results->hits              = NULL;
+  results->nhits             = 0;
+  results->db_inx            = 0;
+  results->db_cnt            = 0;
+  results->errors            = 0;
+}
+
+static void
+gather_results(QUEUE_DATA *query, WORKERSIDE_ARGS *comm, SEARCH_RESULTS *results)
+{
+  int cnt;
+  int n;
+
+  WORKER_DATA        *worker;
+
+  /* allocate spaces to hold all the hits */
+  cnt = results->nhits + MAX_WORKERS;
+  if ((results->hits = realloc(results->hits, sizeof(HIT_LIST) * cnt)) == NULL) LOG_FATAL_MSG("malloc", errno);
+
+  /* lock the workers until we have merged the results */
+  if ((n = pthread_mutex_lock (&comm->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+  /* count the number of hits */
+  cnt = results->nhits;
+  worker = comm->head;
+  while (worker != NULL) {
+    if (worker->completed) {
+      results->stats.nhits        += worker->stats.nhits;
+      results->stats.nreported    += worker->stats.nreported;
+      results->stats.nincluded    += worker->stats.nincluded;
+
+      results->stats.n_past_msv   += worker->stats.n_past_msv;
+      results->stats.n_past_bias  += worker->stats.n_past_bias;
+      results->stats.n_past_vit   += worker->stats.n_past_vit;
+      results->stats.n_past_fwd   += worker->stats.n_past_fwd;
+
+      results->stats.Z_setby       = worker->stats.Z_setby;
+      results->stats.domZ_setby    = worker->stats.domZ_setby;
+      results->stats.domZ          = worker->stats.domZ;
+      results->stats.Z             = worker->stats.Z;
+
+      results->status.msg_size    += worker->status.msg_size - sizeof(HMMD_SEARCH_STATS);
+
+      results->hits[cnt].count     = worker->stats.nhits;
+      results->hits[cnt].data_size = worker->status.msg_size - sizeof(HMMD_SEARCH_STATS) - sizeof(P7_HIT) * worker->stats.nhits;
+      results->hits[cnt].hit       = worker->hit;
+      results->hits[cnt].data      = worker->hit_data;
+
+      worker->hit         = NULL;
+      worker->hit_data    = NULL;
+
+      worker->completed   = 0;
+      ++cnt;
+    } else {
+      results->errors++;
+      results->db_inx            = worker->srch_inx;
+      results->db_cnt            = worker->srch_cnt;
+    }
+
+    worker = worker->next;
+  }
+
+  if ((n = pthread_mutex_unlock (&comm->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+
+  if (query->cmd_type == HMMD_CMD_SEARCH) {
+    results->stats.nmodels = 1;
+    results->stats.nseqs   = comm->seq_db->db[query->dbx].K;
+  } else {
+    results->stats.nseqs   = 1;
+    results->stats.nmodels = comm->hmm_db->n;
+  }
+    
+  if (results->stats.Z_setby == p7_ZSETBY_NTARGETS) {
+    results->stats.Z = (query->cmd_type == HMMD_CMD_SEARCH) ? results->stats.nseqs : results->stats.nmodels;
+  }
+
+  results->nhits = cnt;
+}
+
+static void
+forward_results(QUEUE_DATA *query, SEARCH_RESULTS *results)
+{
+  uint32_t           adj;
+  esl_pos_t          offset;
+  P7_TOPHITS         th;
+  P7_PIPELINE        *pli   = NULL;
+  P7_DOMAIN         **dcl   = NULL;
+  P7_HIT             *hits  = NULL;
+  HIT_LIST           *list  = NULL;
+  int fd;
+  int i, j;
+  int n;
+  enum p7_pipemodes_e mode;
+
+  fd    = query->sock;
+  list  = results->hits;
+
+  if (query->cmd_type == HMMD_CMD_SEARCH) mode = p7_SEARCH_SEQS;
+  else                                    mode = p7_SCAN_MODELS;
+    
+  /* sort the hits and apply score and E-value thresholds */
+  if (results->nhits > 0) {
+    P7_HIT *h1;
+
+    /* at this point h1->offset's are the offset of the domain structure
+     * in the block of memory pointed to by "list[n]->data".  now we will change
+     * that offset to be the true pointers back to the dcl data.
+     */
+    for (i = 0; i < results->nhits; ++i) {
+      h1 = list[i].hit;
+      for (j = 0; j < list[i].count; ++j) {
+        esl_pos_t off = h1->offset - sizeof(HMMD_SEARCH_STATS) - (sizeof(P7_HIT) * list[i].count);
+        h1->dcl = (P7_DOMAIN *)(list[i].data + off);
+        ++h1;
+      }
+    }
+
+    /* combine all the hits into a single list */
+    offset = 0;
+    if ((hits = malloc(sizeof(P7_HIT) * results->stats.nhits)) == NULL) LOG_FATAL_MSG("malloc", errno);
+    memset(hits, 0, sizeof(P7_HIT) * results->stats.nhits); /* avoiding valgrind bitching; remove if structs serialized properly */
+    for (i = 0; i < results->nhits; ++i) {
+      memcpy(hits + offset, list[i].hit, sizeof(P7_HIT) * list[i].count);
+      offset += list[i].count;
+    }
+
+    qsort(hits, results->stats.nhits, sizeof(P7_HIT), hit_sorter);
+
+    th.unsrt     = NULL;
+    th.N         = results->stats.nhits;
+    th.nreported = 0;
+    th.nincluded = 0;
+    th.is_sorted_by_sortkey = 0;
+    th.is_sorted_by_seqidx  = 0;
+      
+    pli = p7_pipeline_Create(query->opts, 100, 100, FALSE, mode);
+    pli->nmodels     = results->stats.nmodels;
+    pli->nseqs       = results->stats.nseqs;
+    pli->n_past_msv  = results->stats.n_past_msv;
+    pli->n_past_bias = results->stats.n_past_bias;
+    pli->n_past_vit  = results->stats.n_past_vit;
+    pli->n_past_fwd  = results->stats.n_past_fwd;
+
+    pli->Z           = results->stats.Z;
+    pli->domZ        = results->stats.domZ;
+    pli->Z_setby     = results->stats.Z_setby;
+    pli->domZ_setby  = results->stats.domZ_setby;
+
+    if ((dcl = malloc(sizeof(void *) * results->stats.nhits)) == NULL) LOG_FATAL_MSG("malloc", errno);
+    th.hit = (P7_HIT **)dcl;
+
+    for (i = 0; i < th.N; ++i) th.hit[i] = hits + i;
+    p7_tophits_Threshold(&th, pli);
+
+    /* after the top hits thresholds are checked, the number of sequences
+     * and domains to be reported can change. */
+    results->stats.nreported = th.nreported;
+    results->stats.nincluded = th.nincluded;
+    results->stats.domZ      = pli->domZ;
+    results->stats.Z         = pli->Z;
+
+    /* at this point the domain pointers need to be converted back to offsets
+     * within the binary data stream.
+     */
+    adj = sizeof(HMMD_SEARCH_STATS) + sizeof(P7_HIT) * results->stats.nhits;
+    h1 = hits;
+    for (i = 0; i < results->stats.nhits; ++i) {
+      char *ptr;
+
+      dcl[i] = h1->dcl;
+      h1->dcl = (P7_DOMAIN *)(((char *)NULL) + adj);
+
+      /* figure out the size of the domain and alignment info */
+      adj += sizeof(P7_DOMAIN) * h1->ndom;
+      ptr = (char *)(dcl[i] + h1->ndom);
+      for (j = 0; j < h1->ndom; ++j) {
+        n = sizeof(P7_ALIDISPLAY) + ((P7_ALIDISPLAY *)ptr)->memsize;
+        adj += n;
+        ptr += n;
+      }
+      ++h1;
+    }
+  }
+
+  /* add the size of the status structure to the message size */
+  results->status.msg_size += sizeof(HMMD_SEARCH_STATS);
+
+  /* send back a successful status message */
+  n = sizeof(HMMD_SEARCH_STATUS);
+  if (writen(fd, &results->status, n) != n) {
+    p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, query->ip_addr, errno, strerror(errno));
+    goto CLEAR;
+  }
+
+  n = sizeof(HMMD_SEARCH_STATS);
+  if (writen(fd, &results->stats, n) != n) {
+    p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, query->ip_addr, errno, strerror(errno));
+    goto CLEAR;
+  }
+
+  if (results->stats.nhits > 0) {
+    /* send all the hit data */
+    n = sizeof(P7_HIT) * results->stats.nhits;
+    if (writen(fd, hits, n) != n) {
+      p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, query->ip_addr, errno, strerror(errno));
+      goto CLEAR;
+    }
+
+    for (i = 0; i < results->stats.nhits; ++i) {
+      if (i + 1 < results->stats.nhits) {
+        n = (char *)hits[i+1].dcl - (char *)hits[i].dcl;
+      } else {
+        n = ((char *)NULL) + results->status.msg_size - (char *)hits[i].dcl;
+      }
+      if (writen(fd, dcl[i], n) != n) {
+        p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, query->ip_addr, errno, strerror(errno));
+        goto CLEAR;
+      }
+    }
+  }
+
+  printf("Results for %s (%d) sent %" PRId64 " bytes\n", query->ip_addr, fd, results->status.msg_size);
+  printf("Hits:%"PRId64 "  reported:%" PRId64 "  included:%"PRId64 "\n", results->stats.nhits, results->stats.nreported, results->stats.nincluded);
+  fflush(stdout);
+
+ CLEAR:
+  /* free all the data */
+  for (i = 0; i < results->nhits; ++i) {
+    if (list[i].hit  != NULL) free(list[i].hit);
+    if (list[i].data != NULL) free(list[i].data);
+    list[i].hit  = NULL;
+    list[i].data = NULL;
+  }
+
+  if (pli)  p7_pipeline_Destroy(pli);
+  if (list) free(list);
+  if (hits) free(hits);
+  if (dcl)  free(dcl);
+
+  init_results(results);
+}
+
+static void
+destroy_worker(WORKER_DATA *worker)
+{
+  if (worker == NULL) {
+    if (worker->hit      != NULL) free(worker->hit);
+    if (worker->hit_data != NULL) free(worker->hit_data);
+    if (worker->err_buf  != NULL) free(worker->err_buf);
+
+    memset(worker, 0, sizeof(WORKER_DATA));
+    free(worker);
+  }
+}
+
+static void
+clear_results(WORKERSIDE_ARGS *args, SEARCH_RESULTS *results)
+{
+  int i;
+  int n;
+  WORKER_DATA *worker;
+
+  /* lock the workers until we have freed the results */
+  if ((n = pthread_mutex_lock (&args->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+  assert(validate_workers(args));
+
+  /* free all the results */
+  worker = args->head;
+  while (worker != NULL) {
+    if (worker->hit      != NULL) free(worker->hit);
+    if (worker->hit_data != NULL) free(worker->hit_data);
+    if (worker->err_buf  != NULL) free(worker->err_buf);
+
+    worker->hit      = NULL;
+    worker->hit_data = NULL;
+    worker->err_buf  = NULL;
+      
+    worker->completed = 0;
+    worker = worker->next;
+  }
+
+  if ((n = pthread_mutex_unlock (&args->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+
+  for (i = 0; i < results->nhits; ++i) {
+    if (results->hits[i].hit  != NULL) free(results->hits[i].hit);
+    if (results->hits[i].data != NULL) free(results->hits[i].data);
+    results->hits[i].hit  = NULL;
+    results->hits[i].data = NULL;
+  }
+
+  if (results->hits != NULL) free(results->hits);
+  init_results(results);
+}
+
+static void
+process_ServerCmd(char *ptr, CLIENTSIDE_ARGS *data)
+{
+  QUEUE_DATA    *parms    = NULL;     /* cmd to queue           */
+  HMMD_COMMAND  *cmd      = NULL;     /* parsed cmd to process  */
+  int            fd       = data->sock_fd;
+  ESL_STACK     *cmdstack = data->cmdstack;
+  int            n;
+  char          *s;
+  time_t         date;
+  char           timestamp[32];
+
+  /* skip leading white spaces */
+  ++ptr;
+  while (*ptr == ' ' || *ptr == '\t') ++ptr;
+
+  /* skip to the end of the line */
+  s = ptr;
+  while (*s && (*s != '\n' && *s != '\r')) ++s;
+  *s = 0;
+
+  /* process the different commands */
+  s = strsep(&ptr, " \t");
+  if (strcmp(s, "shutdown") == 0) 
+    {
+      if ((cmd = malloc(sizeof(HMMD_HEADER))) == NULL) LOG_FATAL_MSG("malloc", errno);
+      memset(cmd, 0, sizeof(HMMD_HEADER)); /* avoid uninit bytes & valgrind bitching. Remove, if we ever serialize structs correctly. */
+      cmd->hdr.length  = 0;
+      cmd->hdr.command = HMMD_CMD_SHUTDOWN;
+    } 
+  else if (strcmp(s, "load") == 0) 
+    {
+      char **db;
+      char  *hmmdb = NULL;
+      char  *seqdb = NULL;
+
+      /* skip leading white spaces */
+      while (*ptr == ' ' || *ptr == '\t') ++ptr;
+      if (!*ptr) 
+	{
+	  client_msg(fd, eslEINVAL, "Load command missing --seqdb or --hmmdb option\n");
+	  return;
+	}
+
+      while (*ptr) 
+	{
+	  s = strsep(&ptr, " \t");
+
+	  db = NULL;
+	  if      (strcmp (s, "--seqdb") == 0) db = &seqdb;
+	  else if (strcmp (s, "--hmmdb") == 0) db = &hmmdb;
+    
+	  if       (db == NULL) { client_msg(fd, eslEINVAL, "Unknown option %s for load command\n", s);         return; }
+	  else if (*db != NULL) { client_msg(fd, eslEINVAL, "Option %s for load command specified twice\n", s); return; }
+
+	  /* skip leading white spaces */
+	  while (*ptr == ' ' || *ptr == '\t') ++ptr;
+	  if (!*ptr) { client_msg(fd, eslEINVAL, "Missing file name following options %s\n", s); return; }
+	  *db = strsep(&ptr, " \t");
+
+	  /* skip leading white spaces */
+	  while (*ptr == ' ' || *ptr == '\t') ++ptr;
+	}
+
+      n = sizeof(HMMD_COMMAND);
+      if (seqdb) n += strlen(seqdb) + 1;
+      if (hmmdb) n += strlen(hmmdb) + 1;
+
+      if ((cmd = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+      memset(cmd, 0, n);	/* avoiding valgrind bitching about uninit bytes; remove if we serialize structs correctly */
+      cmd->hdr.length  = n - sizeof(HMMD_HEADER);
+      cmd->hdr.command = HMMD_CMD_INIT;
+
+      s = cmd->init.data;
+
+      if (seqdb != NULL) {
+	cmd->init.seqdb_off = s - cmd->init.data;
+	strcpy(s, seqdb);
+	s += strlen(seqdb) + 1;
+      }
+
+      if (hmmdb != NULL) {
+	cmd->init.hmmdb_off = s - cmd->init.data;
+	strcpy(s, hmmdb);
+	s += strlen(hmmdb) + 1;
+      }
+      
+    } 
+  else if (strcmp(s, "reset") == 0) 
+    {
+      char *ip_addr = NULL;
+
+      /* skip leading white spaces */
+      while (*ptr == ' ' || *ptr == '\t') ++ptr;
+      if (!*ptr) { client_msg(fd, eslEINVAL, "Load command missing ip addres\n"); return; }
+
+      while (ptr && *ptr) {
+	if (ip_addr != NULL) { client_msg(fd, eslEINVAL, "Multiple ip addresses on command line %s\n", s); return; }
+
+	ip_addr = strsep(&ptr, " \t");
+
+	/* skip leading white spaces */
+	while (ptr && (*ptr == ' ' || *ptr == '\t')) ++ptr;
+      }
+
+      n = sizeof(HMMD_COMMAND) + strlen(ip_addr) + 1;
+      if ((cmd = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+      memset(cmd, 0, n);	/* remove if we ever serialize structs correctly */
+      cmd->hdr.length  = n - sizeof(HMMD_HEADER);
+      cmd->hdr.command = HMMD_CMD_RESET;
+      strcpy(cmd->reset.ip_addr, ip_addr);
+
+    } 
+  else 
+    {
+      client_msg(fd, eslEINVAL, "Unknown command %s\n", s);
+      return;
+    }
+
+  if ((parms = malloc(sizeof(QUEUE_DATA))) == NULL) LOG_FATAL_MSG("malloc", errno);
+  memset(parms, 0, sizeof(QUEUE_DATA)); /* avoid valgrind bitches about uninit bytes; remove if structs are serialized properly */
+
+  parms->hmm  = NULL;
+  parms->seq  = NULL;
+  parms->abc  = NULL;
+  parms->opts = NULL;
+  parms->dbx  = -1;
+  parms->cmd  = cmd;
+
+  strcpy(parms->ip_addr, data->ip_addr);
+  parms->sock       = fd;
+  parms->cmd_type   = cmd->hdr.command;
+  parms->query_type = 0;
+
+  date = time(NULL);
+  ctime_r(&date, timestamp);
+  printf("\n%s", timestamp);	/* note ctime_r() leaves \n on end of timestamp */
+  printf("Queuing command %d from %s (%d)\n", cmd->hdr.command, parms->ip_addr, parms->sock);
+  fflush(stdout);
+
+  esl_stack_PPush(cmdstack, parms);
+}
+
+static int
+clientside_loop(CLIENTSIDE_ARGS *data)
+{
+  int                status;
+
+  char              *ptr;
+  char              *buffer;
+  char              *opt_str;
+
+  int                dbx;
+  int                buf_size;
+  int                remaining;
+  int                amount;
+  int                eod;
+  int                n;
+
+  P7_HMM            *hmm     = NULL;     /* query HMM                      */
+  ESL_SQ            *seq     = NULL;     /* query sequence                 */
+  ESL_SCOREMATRIX   *sco     = NULL;     /* scoring matrix                 */
+  P7_HMMFILE        *hfp     = NULL;
+  ESL_ALPHABET      *abc     = NULL;     /* digital alphabet               */
+  ESL_GETOPTS       *opts    = NULL;     /* search specific options        */
+  HMMD_COMMAND      *cmd     = NULL;     /* search cmd to send to workers  */
+
+  ESL_STACK         *cmdstack = data->cmdstack;
+  QUEUE_DATA        *parms;
+  jmp_buf            jmp_env;
+  time_t             date;
+  char               timestamp[32];
+
+  buf_size = MAX_BUFFER;
+  if ((buffer  = malloc(buf_size))   == NULL) LOG_FATAL_MSG("malloc", errno);
+  if ((opt_str = malloc(MAX_BUFFER)) == NULL) LOG_FATAL_MSG("malloc", errno);
+
+  ptr = buffer;
+  remaining = buf_size;
+  amount = 0;
+
+  eod = 0;
+  while (!eod) {
+    int   l;
+    char *s;
+
+    /* Receive message from client */
+    if ((n = read(data->sock_fd, ptr, remaining)) < 0) {
+      p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, data->ip_addr, errno, strerror(errno));
+      return 1;
+    }
+
+    if (n == 0) return 1;
+
+    ptr += n;
+    amount += n;
+    remaining -= n;
+
+    /* scan backwards till we hit the start of the line */
+    l = amount;
+    s = ptr - 1;
+    while (l-- > 0 && (*s == '\n' || *s == '\r')) --s;
+    while (l-- > 0 && (*s != '\n' && *s != '\r')) --s;
+    eod = (amount > 1 && *(s + 1) == '/' && *(s + 2) == '/' );
+
+    /* if the buffer is full, make it larger */
+    if (!eod && remaining == 0) {
+      if ((buffer = realloc(buffer, buf_size * 2)) == NULL) LOG_FATAL_MSG("realloc", errno);
+      ptr = buffer + buf_size;
+      remaining = buf_size;
+      buf_size *= 2;
+    }
+  }
+
+  /* zero terminate the buffer */
+  if (remaining == 0) {
+    if ((buffer = realloc(buffer, buf_size + 1)) == NULL) LOG_FATAL_MSG("realloc", errno);
+    ptr = buffer + buf_size;
+  }
+  *ptr = 0;
+
+  /* skip all leading white spaces */
+  ptr = buffer;
+  while (*ptr && isspace(*ptr)) ++ptr;
+
+  opt_str[0] = 0;
+  if (*ptr == '!') {
+    process_ServerCmd(ptr, data);
+    free(buffer);
+    free(opt_str);
+    return 0;
+  } else if (*ptr == '@') {
+    char *s = ++ptr;
+
+    /* skip to the end of the line */
+    while (*ptr && (*ptr != '\n' && *ptr != '\r')) ++ptr;
+    *ptr++ = 0;
+
+    /* create a commandline string with dummy program name for
+     * the esl_opt_ProcessSpoof() function to parse.
+     */
+    strncpy(opt_str, "hmmpgmd ", MAX_BUFFER);
+    strncat(opt_str, s, MAX_BUFFER);
+    strncat(opt_str, "\n", MAX_BUFFER);
+    opt_str[MAX_BUFFER-1] = 0;
+
+    /* skip remaining white spaces */
+    while (*ptr && isspace(*ptr)) ++ptr;
+  } else {
+    client_msg(data->sock_fd, eslEFORMAT, "Missing options string");
+    free(buffer);
+    free(opt_str);
+    return 0;
+  }
+
+  if (strncmp(ptr, "//", 2) == 0) {
+    client_msg(data->sock_fd, eslEFORMAT, "Missing search sequence/hmm");
+    free(buffer);
+    free(opt_str);
+    return 0;
+  }
+
+  if (!setjmp(jmp_env)) {
+    dbx = 0;
+    
+    status = process_searchopts(data->sock_fd, opt_str, &opts);
+    if (status != eslOK) {
+      client_msg_longjmp(data->sock_fd, status, &jmp_env, "Failed to parse options string: %s", opts->errbuf);
+    }
+
+    /* the options string can handle an optional database */
+    if (esl_opt_ArgNumber(opts) > 0) {
+      client_msg_longjmp(data->sock_fd, status, &jmp_env, "Incorrect number of command line arguments.");
+    }
+
+    if (esl_opt_IsUsed(opts, "--seqdb")) {
+      dbx = esl_opt_GetInteger(opts, "--seqdb");
+    } else if (esl_opt_IsUsed(opts, "--hmmdb")) {
+      dbx = esl_opt_GetInteger(opts, "--hmmdb");
+    } else {
+      client_msg_longjmp(data->sock_fd, eslEINVAL, &jmp_env, "No search database specified, --seqdb or --hmmdb.");
+    }
+
+
+    abc = esl_alphabet_Create(eslAMINO);
+    seq = NULL;
+    hmm = NULL;
+
+    if (*ptr == '>') {
+      /* try to parse the input buffer as a FASTA sequence */
+      seq = esl_sq_CreateDigital(abc);
+      status = esl_sqio_Parse(ptr, strlen(ptr), seq, eslSQFILE_DAEMON);
+      if (status != eslOK) client_msg_longjmp(data->sock_fd, status, &jmp_env, "Error parsing FASTA sequence");
+      if (seq->n < 1) client_msg_longjmp(data->sock_fd, eslEFORMAT, &jmp_env, "Error zero length FASTA sequence");
+
+    } else if (strncmp(ptr, "HMM", 3) == 0) {
+      if (esl_opt_IsUsed(opts, "--hmmdb")) {
+        client_msg_longjmp(data->sock_fd, status, &jmp_env, "A HMM cannot be used to search a hmm database");
+      }
+
+      /* try to parse the buffer as an hmm */
+      status = p7_hmmfile_OpenBuffer(ptr, strlen(ptr), &hfp);
+      if (status != eslOK) client_msg_longjmp(data->sock_fd, status, &jmp_env, "Failed to open query hmm buffer");
+
+      status = p7_hmmfile_Read(hfp, &abc,  &hmm);
+      if (status != eslOK) client_msg_longjmp(data->sock_fd, status, &jmp_env, "Error reading query hmm: %s", hfp->errbuf);
+
+      p7_hmmfile_Close(hfp);
+
+    } else {
+      /* no idea what we are trying to parse */
+      client_msg_longjmp(data->sock_fd, eslEFORMAT, &jmp_env, "Unknown query sequence/hmm format");
+    }
+  } else {
+    /* an error occured some where, so try to clean up */
+    if (opts != NULL) esl_getopts_Destroy(opts);
+    if (abc  != NULL) esl_alphabet_Destroy(abc);
+    if (hmm  != NULL) p7_hmm_Destroy(hmm);
+    if (seq  != NULL) esl_sq_Destroy(seq);
+    if (sco  != NULL) esl_scorematrix_Destroy(sco);
+
+    free(opt_str);
+    free(buffer);
+    return 0;
+  }
+
+  if ((parms = malloc(sizeof(QUEUE_DATA))) == NULL) LOG_FATAL_MSG("malloc", errno);
+
+  /* build the search structure that will be sent to all the workers */
+  n = sizeof(HMMD_COMMAND);
+  n = n + strlen(opt_str) + 1;
+
+  if (seq != NULL) {
+    n = n + strlen(seq->name) + 1;
+    n = n + strlen(seq->desc) + 1;
+    n = n + seq->n + 2;
+  } else {
+    n = n + sizeof(P7_HMM);
+    n = n + sizeof(float) * (hmm->M + 1) * p7H_NTRANSITIONS;
+    n = n + sizeof(float) * (hmm->M + 1) * abc->K;
+    n = n + sizeof(float) * (hmm->M + 1) * abc->K;
+    if (hmm->name   != NULL)    n = n + strlen(hmm->name) + 1;
+    if (hmm->acc    != NULL)    n = n + strlen(hmm->acc)  + 1;
+    if (hmm->desc   != NULL)    n = n + strlen(hmm->desc) + 1;
+    if (hmm->flags & p7H_RF)    n = n + hmm->M + 2;
+    if (hmm->flags & p7H_MMASK) n = n + hmm->M + 2;
+    if (hmm->flags & p7H_CONS)  n = n + hmm->M + 2;
+    if (hmm->flags & p7H_CS)    n = n + hmm->M + 2;
+    if (hmm->flags & p7H_CA)    n = n + hmm->M + 2;
+    if (hmm->flags & p7H_MAP)   n = n + sizeof(int) * (hmm->M + 1);
+  }
+
+  if ((cmd = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+  memset(cmd, 0, n);		/* silence valgrind bitching about uninit bytes; remove if we ever serialize structs properly */
+  cmd->hdr.length       = n - sizeof(HMMD_HEADER);
+  cmd->hdr.command      = (esl_opt_IsUsed(opts, "--seqdb")) ? HMMD_CMD_SEARCH : HMMD_CMD_SCAN;
+  cmd->srch.db_inx      = dbx - 1;   /* the program indexes databases 0 .. n-1 */
+  cmd->srch.opts_length = strlen(opt_str) + 1;
+
+  ptr = cmd->srch.data;
+
+  memcpy(ptr, opt_str, cmd->srch.opts_length);
+  ptr += cmd->srch.opts_length;
+  
+  if (seq != NULL) {
+    cmd->srch.query_type   = HMMD_SEQUENCE;
+    cmd->srch.query_length = seq->n + 2;
+
+    n = strlen(seq->name) + 1;
+    memcpy(ptr, seq->name, n);
+    ptr += n;
+
+    n = strlen(seq->desc) + 1;
+    memcpy(ptr, seq->desc, n);
+    ptr += n;
+
+    n = seq->n + 2;
+    memcpy(ptr, seq->dsq, n);
+    ptr += n;
+  } else {
+    cmd->srch.query_type   = HMMD_HMM;
+    cmd->srch.query_length = hmm->M;
+
+    n = sizeof(P7_HMM);
+    memcpy(ptr, hmm, n);
+    ptr += n;
+
+    n = sizeof(float) * (hmm->M + 1) * p7H_NTRANSITIONS;
+    memcpy(ptr, *hmm->t, n);
+    ptr += n;
+
+    n = sizeof(float) * (hmm->M + 1) * abc->K;
+    memcpy(ptr, *hmm->mat, n);
+    ptr += n;
+    memcpy(ptr, *hmm->ins, n);
+    ptr += n;
+
+    if (hmm->name) { n = strlen(hmm->name) + 1;  memcpy(ptr, hmm->name, n);  ptr += n; }
+    if (hmm->acc)  { n = strlen(hmm->acc)  + 1;  memcpy(ptr, hmm->acc, n);   ptr += n; }
+    if (hmm->desc) { n = strlen(hmm->desc) + 1;  memcpy(ptr, hmm->desc, n);  ptr += n; }
+
+    n = hmm->M + 2;
+    if (hmm->flags & p7H_RF)    { memcpy(ptr, hmm->rf,        n); ptr += n; }
+    if (hmm->flags & p7H_MMASK) { memcpy(ptr, hmm->mm,        n); ptr += n; }
+    if (hmm->flags & p7H_CONS)  { memcpy(ptr, hmm->consensus, n); ptr += n; }
+    if (hmm->flags & p7H_CS)    { memcpy(ptr, hmm->cs,        n); ptr += n; }
+    if (hmm->flags & p7H_CA)    { memcpy(ptr, hmm->ca,        n); ptr += n; }
+
+    if (hmm->flags & p7H_MAP) {
+      n = sizeof(int) * (hmm->M + 1);
+      memcpy(ptr, hmm->map, n);
+      ptr += n;
+    }
+  }
+
+  parms->hmm  = hmm;
+  parms->seq  = seq;
+  parms->abc  = abc;
+  parms->opts = opts;
+  parms->dbx  = dbx - 1;
+  parms->cmd  = cmd;
+
+  strcpy(parms->ip_addr, data->ip_addr);
+  parms->sock       = data->sock_fd;
+  parms->cmd_type   = cmd->hdr.command;
+  parms->query_type = (seq != NULL) ? HMMD_SEQUENCE : HMMD_HMM;
+
+  date = time(NULL);
+  ctime_r(&date, timestamp);
+  printf("\n%s", timestamp);	/* note ctime_r() leaves \n on end of timestamp */
+
+  if (parms->seq != NULL) {
+    printf("Queuing %s %s from %s (%d)\n", (cmd->hdr.command == HMMD_CMD_SEARCH) ? "search" : "scan", parms->seq->name, parms->ip_addr, parms->sock);
+  } else {
+    printf("Queuing hmm %s from %s (%d)\n", parms->hmm->name, parms->ip_addr, parms->sock);
+  }
+  printf("%s", opt_str);	/* note opt_str already has trailing \n */
+  fflush(stdout);
+
+  esl_stack_PPush(cmdstack, parms);
+
+  free(buffer);
+  free(opt_str);
+  return 0;
+}
+
+/* discard_function()
+ * function handed to esl_stack_DiscardSelected() to remove
+ * all commands in the stack that are associated with a
+ * particular client socket, because we're closing that
+ * client down. Prototype to this is dictate by the generalized
+ * interface to esl_stack_DiscardSelected().
+ */
+static int
+discard_function(void *elemp, void *args)
+{
+  QUEUE_DATA  *elem = (QUEUE_DATA *) elemp;
+  int          fd   = * (int *) args;
+
+  if (elem->sock == fd) 
+    {
+      free_QueueData(elem);
+      return TRUE;
+    }
+  return FALSE;
+}
+
+static void *
+clientside_thread(void *arg)
+{
+  int              eof;
+  CLIENTSIDE_ARGS *data = (CLIENTSIDE_ARGS *)arg;
+
+  /* Guarantees that thread resources are deallocated upon return */
+  pthread_detach(pthread_self()); 
+
+  eof = 0;
+  while (!eof) {
+    eof = clientside_loop(data);
+  }
+
+  /* remove any commands in stack associated with this client's socket */
+  esl_stack_DiscardSelected(data->cmdstack, discard_function, &(data->sock_fd));
+
+  printf("Closing %s (%d)\n", data->ip_addr, data->sock_fd);
+  fflush(stdout);
+
+  close(data->sock_fd);
+  free(data);
+
+  pthread_exit(NULL);
+}
+
+static void *
+client_comm_thread(void *arg)
+{
+  int                  n;
+  int                  fd;
+  int                  addrlen;
+  pthread_t            thread_id;
+
+  struct sockaddr_in   addr;
+
+  CLIENTSIDE_ARGS     *targs    = NULL;
+  CLIENTSIDE_ARGS     *data     = (CLIENTSIDE_ARGS *)arg;
+
+  for ( ;; ) {
+
+    /* Wait for a client to connect */
+    n = sizeof(addr);
+    if ((fd = accept(data->sock_fd, (struct sockaddr *)&addr, (unsigned int *)&n)) < 0) LOG_FATAL_MSG("accept", errno);
+
+    if ((targs = malloc(sizeof(CLIENTSIDE_ARGS))) == NULL) LOG_FATAL_MSG("malloc", errno);
+    targs->cmdstack   = data->cmdstack;
+    targs->sock_fd    = fd;
+
+    addrlen = sizeof(targs->ip_addr);
+    strncpy(targs->ip_addr, inet_ntoa(addr.sin_addr), addrlen);
+    targs->ip_addr[addrlen-1] = 0;
+
+    if ((n = pthread_create(&thread_id, NULL, clientside_thread, targs)) != 0) LOG_FATAL_MSG("thread create", n);
+  }
+  
+  pthread_exit(NULL);
+}
+
+static void 
+setup_clientside_comm(ESL_GETOPTS *opts, CLIENTSIDE_ARGS *args)
+{
+  int                  n;
+  int                  reuse;
+  int                  sock_fd;
+  pthread_t            thread_id;
+
+  struct linger        linger;
+  struct sockaddr_in   addr;
+
+  /* Create socket for incoming connections */
+  if ((sock_fd = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP)) < 0) LOG_FATAL_MSG("socket", errno);
+      
+  /* incase the server went down in an ungraceful way, allow the port to be
+   * reused avoiding the timeout.
+   */
+  reuse = 1;
+  if (setsockopt(sock_fd, SOL_SOCKET, SO_REUSEADDR, (char *)&reuse, sizeof(reuse)) < 0) LOG_FATAL_MSG("setsockopt", errno);
+
+  /* the sockets are never closed, so if the server exits, force the kernel to
+   * close the socket and clear it so the server can be restarted immediately.
+   */
+  linger.l_onoff = 1;
+  linger.l_linger = 0;
+  if (setsockopt(sock_fd, SOL_SOCKET, SO_REUSEADDR, (char *)&linger, sizeof(linger)) < 0) LOG_FATAL_MSG("setsockopt", errno);
+
+  /* Construct local address structure */
+  memset(&addr, 0, sizeof(addr));
+  addr.sin_family = AF_INET;
+  addr.sin_addr.s_addr = htonl(INADDR_ANY);
+  addr.sin_port = htons(esl_opt_GetInteger(opts, "--cport"));
+
+  /* Bind to the local address */
+  if (bind(sock_fd, (struct sockaddr *) &addr, sizeof(addr)) < 0) LOG_FATAL_MSG("bind", errno);
+
+  /* Mark the socket so it will listen for incoming connections */
+  if (listen(sock_fd, esl_opt_GetInteger(opts, "--ccncts")) < 0) LOG_FATAL_MSG("listen", errno);
+  args->sock_fd = sock_fd;
+
+  if ((n = pthread_create(&thread_id, NULL, client_comm_thread, (void *)args)) != 0) LOG_FATAL_MSG("socket", n);
+}
+
+static void
+workerside_loop(WORKERSIDE_ARGS *data, WORKER_DATA *worker)
+{
+  ESL_STOPWATCH      *w     = NULL;
+  HMMD_SEARCH_STATS  *stats = NULL;
+  HMMD_COMMAND        cmd;
+  int    n;
+  int    size;
+  int    total;
+  char  *ptr;
+
+  memset(&cmd, 0, sizeof(HMMD_COMMAND)); /* silence valgrind. if we ever serialize structs properly, remove */
+  w = esl_stopwatch_Create();
+
+  for ( ; ; ) {
+
+    /* wait for the next search object */
+    if ((n = pthread_mutex_lock (&data->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    /* wait for the master's signal to start the calculations */
+    while (worker->cmd == NULL) {
+      if ((n = pthread_cond_wait(&data->start_cond, &data->work_mutex)) != 0) LOG_FATAL_MSG("cond wait", n);
+    }
+
+    if ((n = pthread_mutex_unlock (&data->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+
+    /* terminate the connection */
+    if (worker->cmd->hdr.command == HMMD_CMD_RESET) {
+      break;
+    } else if (worker->cmd->hdr.command == HMMD_CMD_SHUTDOWN) {
+      fd_set rset;
+      struct timeval tv;
+      
+      n = MSG_SIZE(worker->cmd);
+      if (writen(worker->sock_fd, worker->cmd, n) != n) {
+        p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+        break;
+      }
+
+      FD_ZERO(&rset);
+      FD_SET(worker->sock_fd, &rset);
+
+      tv.tv_sec = 2;
+      tv.tv_usec = 0;
+
+      if ((n = select(worker->sock_fd + 1, &rset, NULL, NULL, &tv)) < 0) {
+        p7_syslog(LOG_ERR,"[%s:%d] - select %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+      } else {
+        if (n == 0) {
+          p7_syslog(LOG_ERR,"[%s:%d] - shutdown %s is not responding\n", __FILE__, __LINE__, worker->ip_addr);
+        } else {
+          n = sizeof(HMMD_HEADER);
+          if ((size = readn(worker->sock_fd, &cmd, n)) == -1) {
+            p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+          }
+          if (cmd.hdr.command == HMMD_CMD_SHUTDOWN) {
+            p7_syslog(LOG_ERR,"[%s:%d] - shutting down %s\n", __FILE__, __LINE__, worker->ip_addr);
+          } else {
+            p7_syslog(LOG_ERR,"[%s:%d] - error shutting down %s - received %d\n", __FILE__, __LINE__, worker->ip_addr, cmd.hdr.command);
+          }
+        }
+      }
+      break;
+    }
+
+    //printf ("Writing %d bytes to %s [MSG = %d/%d]\n", (int)MSG_SIZE(worker->cmd), worker->ip_addr, worker->cmd->hdr.command, worker->cmd->hdr.length);
+
+    esl_stopwatch_Start(w);
+
+    /* write search message in two parts */
+    n = sizeof(HMMD_HEADER) + sizeof(HMMD_SEARCH_CMD);
+    memcpy(&cmd, worker->cmd, n);
+    cmd.srch.inx = worker->srch_inx;
+    cmd.srch.cnt = worker->srch_cnt;
+    if (writen(worker->sock_fd, &cmd, n) != n) {
+      p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+      break;
+    }
+
+    /* write remaining data, i.e. sequence, options etc. */
+    ptr = (char *)worker->cmd;
+    ptr += n;
+    n = MSG_SIZE(worker->cmd) - n;
+    if (writen(worker->sock_fd, ptr, n) != n) {
+      p7_syslog(LOG_ERR,"[%s:%d] - writing %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+      break;
+    }
+    
+    total = 0;
+    worker->total = 0;
+
+    n = sizeof(worker->status);
+    total += n;
+    if ((size = readn(worker->sock_fd, &worker->status, n)) == -1) {
+      p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+      break;
+    }
+
+    if (worker->status.status != eslOK) {
+      n = worker->status.msg_size;
+      total += n; 
+      if ((worker->err_buf = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+      worker->err_buf[0] = 0;
+      if ((size = readn(worker->sock_fd, worker->err_buf, n)) == -1) {
+        p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+        break;
+      }
+    } else {
+
+      n = sizeof(worker->stats);
+      total += n;
+      if ((size = readn(worker->sock_fd, &worker->stats, n)) == -1) {
+        p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+        break;
+      }
+
+      stats = &worker->stats;
+
+      /* read in the hits */
+      n = sizeof(P7_HIT) * stats->nhits;
+      if ((worker->hit = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+      if ((size = readn(worker->sock_fd, worker->hit, n)) == -1) {
+        p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+        break;
+      }
+
+      /* read in the domain and alignment info */
+      n = worker->status.msg_size - sizeof(worker->stats) - n;
+      if ((worker->hit_data = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+      if ((size = readn(worker->sock_fd, worker->hit_data, n)) == -1) {
+        p7_syslog(LOG_ERR,"[%s:%d] - reading %s error %d - %s\n", __FILE__, __LINE__, worker->ip_addr, errno, strerror(errno));
+        break;
+      }
+    }
+
+    esl_stopwatch_Stop(w);
+
+    if ((n = pthread_mutex_lock (&data->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    /* set the state of the worker to completed */
+    worker->cmd       = NULL;
+    worker->completed = 1;
+    worker->total     = total;
+    ++data->completed;
+
+    /* notify the master that a worker has completed */
+    if ((n = pthread_cond_broadcast(&data->complete_cond)) != 0) LOG_FATAL_MSG("cond broadcast", n);
+    if ((n = pthread_mutex_unlock (&data->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+
+    printf ("WORKER %s COMPLETED: %.2f sec received %d bytes\n", worker->ip_addr, w->elapsed, total);
+    fflush(stdout);
+  }
+
+  esl_stopwatch_Destroy(w);
+
+  return;
+}
+
+static void *
+workerside_thread(void *arg)
+{
+  HMMD_COMMAND     *cmd     = NULL;
+  WORKER_DATA      *worker  = (WORKER_DATA *)arg;
+  WORKERSIDE_ARGS  *parent  = (WORKERSIDE_ARGS *)worker->parent;
+  HMMD_HEADER       hdr;
+  int               n;
+  int               fd = 0;
+  int               version;
+  int               updated;
+  int               status = eslOK;
+  char             *p;
+
+  memset(&hdr, 0, sizeof(HMMD_HEADER)); /* silence valgrind; remove if/when we serialize structs properly */
+
+  /* Guarantees that thread resources are deallocated upon return */
+  pthread_detach(pthread_self()); 
+
+  printf("Handling worker %s (%d)\n", worker->ip_addr, worker->sock_fd);
+  fflush(stdout);
+
+  updated = 0;
+  while (!updated) {
+    /* get the database version to load */
+    if ((n = pthread_mutex_lock (&parent->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+    version = parent->db_version;
+    if ((n = pthread_mutex_unlock (&parent->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+
+    n = sizeof(HMMD_COMMAND);
+    if (parent->seq_db != NULL) n += strlen(parent->seq_db->name) + 1;
+    if (parent->hmm_db != NULL) n += strlen(parent->hmm_db->name) + 1;
+
+    cmd = malloc(n);
+    if (cmd == NULL) {
+      p7_syslog(LOG_ERR,"[%s:%d] - malloc %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+      goto EXIT;
+    }
+    memset(cmd, 0, n);
+
+    cmd->hdr.length  = n - sizeof(HMMD_HEADER);
+    cmd->hdr.command = HMMD_CMD_INIT;
+
+    p = cmd->init.data;
+
+    if (parent->seq_db != NULL) {
+      cmd->init.db_cnt      = parent->seq_db->db_cnt;
+      cmd->init.seq_cnt     = parent->seq_db->count;
+      cmd->init.seqdb_off   = p - cmd->init.data;
+
+      strncpy(cmd->init.sid, parent->seq_db->id, sizeof(cmd->init.sid));
+      cmd->init.sid[sizeof(cmd->init.sid)-1] = 0;
+
+      strcpy(p, parent->seq_db->name);
+      p += strlen(parent->seq_db->name) + 1;
+    }
+
+    if (parent->hmm_db != NULL) {
+      cmd->init.hmm_cnt     = 1;
+      cmd->init.model_cnt   = parent->hmm_db->n;
+      cmd->init.hmmdb_off   = p - cmd->init.data;
+
+      //strncpy(cmd->init.hid, parent->hmm_db->id, sizeof(cmd->init.hid));
+      //cmd->init.hid[sizeof(cmd->init.hid)-1] = 0;
+
+      strcpy(p, parent->hmm_db->name);
+      p += strlen(parent->hmm_db->name) + 1;
+    }
+
+    if (writen(worker->sock_fd, cmd, n) != n) {
+      p7_syslog(LOG_ERR,"[%s:%d] - writing (%d) error %d - %s\n", __FILE__, __LINE__, worker->sock_fd, errno, strerror(errno));
+      status = eslFAIL;
+    }
+
+    /* process the init command first */
+    if (readn(worker->sock_fd, &hdr, sizeof(hdr)) == -1) {
+      p7_syslog(LOG_ERR,"[%s:%d] - reading (%d) error %d - %s\n", __FILE__, __LINE__, worker->sock_fd, errno, strerror(errno));
+      status = eslFAIL;
+    }
+
+    /* cmd is a HMMD_COMMAND.
+     *    consists of HMMD_HEADER:  length, command, status
+     *    and a union of HMMD_INIT_CMD, HMMD_SEARCH_COMMAND, HMMD_INIT_RESET.
+     *    we know which is valid, from hdr.command
+     *    the total malloc size for an HMMD_COMMAND is calculated from the header, using MSG_SIZE(cmd)
+     */
+    n = MSG_SIZE(&hdr);
+    if ((cmd = realloc(cmd, n)) == NULL) {
+      p7_syslog(LOG_ERR,"[%s:%d] - realloc error %d - %s\n", __FILE__, __LINE__, errno, strerror(errno));
+      status = eslFAIL;
+    }
+    if (readn(worker->sock_fd, &(cmd->init), hdr.length) == -1) {
+      p7_syslog(LOG_ERR,"[%s:%d] - reading (%d) error %d - %s\n", __FILE__, __LINE__, worker->sock_fd, errno, strerror(errno));
+      status = eslFAIL;
+    }
+
+    /* validate the database of the worker before adding him to the list */
+    if (hdr.command != HMMD_CMD_INIT) {
+      p7_syslog(LOG_ERR,"[%s:%d] - expecting HMMD_CMD_INIT %d\n", __FILE__, __LINE__, hdr.command);
+      status = eslFAIL;
+    }
+    if (cmd->hdr.status != eslOK) {
+      p7_syslog(LOG_ERR,"[%s:%d] - workers init status failed %d\n", __FILE__, __LINE__, cmd->hdr.status);
+      status = eslFAIL;
+    }
+
+    worker->next = NULL;
+    worker->prev = NULL;
+
+    /* add the worker to the pending list */
+    if ((n = pthread_mutex_lock (&parent->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+    assert(validate_workers(parent));
+    
+    /* make sure the master has not loaded a new database while we were waiting
+     * for the worker to load and verify the database we started out this.  If
+     * the version has changed, force the worker to reload and verify.
+     */
+    if (version == parent->db_version) {
+      if (status == eslOK) {
+        worker->next    = parent->pending;
+        parent->pending = worker;
+        ++parent->pend_cnt;
+      } else {
+        worker->next   = parent->idling;
+        parent->idling = worker;
+        ++parent->idle_cnt;
+      }
+      updated = 1;
+    }
+   
+    assert(validate_workers(parent));
+
+    if ((n = pthread_mutex_unlock (&parent->work_mutex)) != 0)  LOG_FATAL_MSG("mutex unlock", n);
+  }
+
+  printf("Pending worker %s (%d)\n", worker->ip_addr, worker->sock_fd);
+  fflush(stdout);
+
+  workerside_loop(parent, worker);
+
+  if ((n = pthread_mutex_lock (&parent->work_mutex)) != 0) LOG_FATAL_MSG("mutex lock", n);
+
+  fd = worker->sock_fd;
+
+  ++parent->failed;
+  ++parent->completed;
+
+  worker->terminated = 1;
+  worker->total      = 0;
+  worker->sock_fd    = -1;
+
+  assert(validate_workers(parent));
+
+  /* notify the master that a worker has completed */
+  if ((n = pthread_cond_broadcast(&parent->complete_cond)) != 0) LOG_FATAL_MSG("cond broadcast", n);
+  if ((n = pthread_mutex_unlock (&parent->work_mutex)) != 0) LOG_FATAL_MSG("mutex unlock", n);
+
+ EXIT:
+  printf("Closing worker %s (%d)\n", worker->ip_addr, fd);
+  fflush(stdout);
+
+  if (cmd != NULL) free(cmd);
+  close(fd);
+
+  pthread_exit(NULL);
+}
+
+static void *
+worker_comm_thread(void *arg)
+{
+  int                  n;
+  int                  fd;
+  int                  addrlen;
+  pthread_t            thread_id;
+
+  struct sockaddr_in   addr;
+
+  WORKERSIDE_ARGS     *data  = (WORKERSIDE_ARGS *)arg;
+  WORKER_DATA         *worker;
+
+  for ( ;; ) {
+
+    /* Wait for a worker to connect */
+    n = sizeof(addr);
+    if ((fd = accept(data->sock_fd, (struct sockaddr *)&addr, (unsigned int *)&n)) < 0) LOG_FATAL_MSG("accept", errno);
+
+    if ((worker = malloc(sizeof(WORKER_DATA))) == NULL) LOG_FATAL_MSG("thread create", errno);
+    memset(worker, 0, sizeof(WORKER_DATA));
+
+    worker->parent     = data;
+    worker->sock_fd    = fd;
+
+    addrlen = sizeof(worker->ip_addr);
+    strncpy(worker->ip_addr, inet_ntoa(addr.sin_addr), addrlen);
+    worker->ip_addr[addrlen-1] = 0;
+
+    if ((n = pthread_create(&thread_id, NULL, workerside_thread, worker)) != 0) LOG_FATAL_MSG("thread create", n);
+  }
+  
+  pthread_exit(NULL);
+}
+
+static void 
+setup_workerside_comm(ESL_GETOPTS *opts, WORKERSIDE_ARGS *args)
+{
+  int                  n;
+  int                  reuse;
+  int                  sock_fd;
+  pthread_t            thread_id;
+
+  struct linger        linger;
+  struct sockaddr_in   addr;
+
+  /* Create socket for incoming connections */
+  if ((sock_fd = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP)) < 0) LOG_FATAL_MSG("socket", errno);
+      
+  /* incase the server went down in an ungraceful way, allow the port to be
+   * reused avoiding the timeout.
+   */
+  reuse = 1;
+  if (setsockopt(sock_fd, SOL_SOCKET, SO_REUSEADDR, (char *)&reuse, sizeof(reuse)) < 0) LOG_FATAL_MSG("setsockopt", errno);
+
+  /* the sockets are never closed, so if the server exits, force the kernel to
+   * close the socket and clear it so the server can be restarted immediately.
+   */
+  linger.l_onoff = 1;
+  linger.l_linger = 0;
+  if (setsockopt(sock_fd, SOL_SOCKET, SO_REUSEADDR, (char *)&linger, sizeof(linger)) < 0) LOG_FATAL_MSG("setsockopt", errno);
+
+  /* Construct local address structure */
+  memset(&addr, 0, sizeof(addr));
+  addr.sin_family = AF_INET;
+  addr.sin_addr.s_addr = htonl(INADDR_ANY);
+  addr.sin_port = htons(esl_opt_GetInteger(opts, "--wport"));
+
+  /* Bind to the local address */
+  if (bind(sock_fd, (struct sockaddr *) &addr, sizeof(addr)) < 0) LOG_FATAL_MSG("bind", errno);
+
+  /* Mark the socket so it will listen for incoming connections */
+  if (listen(sock_fd, esl_opt_GetInteger(opts, "--wcncts")) < 0) LOG_FATAL_MSG("listen", errno);
+
+  args->sock_fd = sock_fd;
+
+  if ((n = pthread_create(&thread_id, NULL, worker_comm_thread, (void *)args)) != 0) LOG_FATAL_MSG("thread create", n);
+}
+
+#endif /*HMMER_THREADS*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdutils.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdutils.c
new file mode 100755
index 0000000..f91a096
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdutils.c
@@ -0,0 +1,277 @@
+/* hmmpgmd: hmmer deamon searchs against a sequence database.
+ * 
+ * MSF, Thu Aug 12, 2010 [Janelia]
+ * SVN $Id: hmmdutils.c 4423 2013-04-12 18:56:33Z wheelert $
+ */
+#include "p7_config.h"
+
+#ifdef HMMER_THREADS
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <errno.h>
+#include <unistd.h>
+#include <signal.h>
+#include <pthread.h>
+#include <setjmp.h>
+#include <sys/socket.h>
+#include <arpa/inet.h>
+#include <syslog.h>
+#include <assert.h>
+
+#ifndef HMMER_THREADS
+#error "Program requires pthreads be enabled."
+#endif /*HMMER_THREADS*/
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+#include "esl_threads.h"
+#include "esl_regexp.h"
+
+#include "hmmer.h"
+#include "hmmpgmd.h"
+#include "cachedb.h"
+
+#define MAX_WORKERS  64
+#define MAX_BUFFER   4096
+
+#define CONF_FILE "/etc/hmmpgmd.conf"
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define STAGEOPTS   "--F1,--F2,--F3"
+
+static ESL_OPTIONS searchOpts[] = {
+  /* Control of output */
+  { "--acc",        eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL, NULL,        "prefer accessions over names in output",                       2 },
+  { "--noali",      eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL, NULL,        "don't output alignments, so output is smaller",                2 },
+  /* Control of scoring system */
+  { "--popen",      eslARG_REAL,       "0.02", NULL, "0<=x<0.5",NULL,  NULL, NULL,        "gap open probability",                                         3 },
+  { "--pextend",    eslARG_REAL,        "0.4", NULL, "0<=x<1",  NULL,  NULL, NULL,        "gap extend probability",                                       3 },
+  { "--mx",         eslARG_STRING, "BLOSUM62", NULL, NULL,      NULL,  NULL,  "--mxfile", "substitution score matrix choice (of some built-in matrices)", 3 },
+  { "--mxfile",     eslARG_INFILE,       NULL, NULL, NULL,      NULL,  NULL,  "--mx",     "read substitution score matrix from file <f>",                 3 },
+  /* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,     "10.0", NULL, "x>0",     NULL,  NULL, REPOPTS,     "report sequences <= this E-value threshold in output",         4 },
+  { "-T",           eslARG_REAL,      FALSE, NULL, NULL,      NULL,  NULL, REPOPTS,     "report sequences >= this score threshold in output",           4 },
+  { "--domE",       eslARG_REAL,     "10.0", NULL, "x>0",     NULL,  NULL, DOMREPOPTS,  "report domains <= this E-value threshold in output",           4 },
+  { "--domT",       eslARG_REAL,      FALSE, NULL, NULL,      NULL,  NULL, DOMREPOPTS,  "report domains >= this score cutoff in output",                4 },
+  /* Control of inclusion (significance) thresholds */
+  { "--incE",       eslARG_REAL,     "0.01", NULL, "x>0",     NULL,  NULL, INCOPTS,     "consider sequences <= this E-value threshold as significant",  5 },
+  { "--incT",       eslARG_REAL,      FALSE, NULL, NULL,      NULL,  NULL, INCOPTS,     "consider sequences >= this score threshold as significant",    5 },
+  { "--incdomE",    eslARG_REAL,     "0.01", NULL, "x>0",     NULL,  NULL, INCDOMOPTS,  "consider domains <= this E-value threshold as significant",    5 },
+  { "--incdomT",    eslARG_REAL,      FALSE, NULL, NULL,      NULL,  NULL, INCDOMOPTS,  "consider domains >= this score threshold as significant",      5 },
+  /* Model-specific thresholding for both reporting and inclusion */
+  { "--cut_ga",     eslARG_NONE,      FALSE, NULL, NULL,      NULL,  NULL, THRESHOPTS,  "use profile's GA gathering cutoffs to set all thresholding",   6 },
+  { "--cut_nc",     eslARG_NONE,      FALSE, NULL, NULL,      NULL,  NULL, THRESHOPTS,  "use profile's NC noise cutoffs to set all thresholding",       6 },
+  { "--cut_tc",     eslARG_NONE,      FALSE, NULL, NULL,      NULL,  NULL, THRESHOPTS,  "use profile's TC trusted cutoffs to set all thresholding",     6 },
+  /* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,      FALSE, NULL, NULL,      NULL,  NULL, STAGEOPTS,   "Turn all heuristic filters off (less speed, more power)",      7 },
+  { "--F1",         eslARG_REAL,     "0.02", NULL, NULL,      NULL,  NULL, "--max",     "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             7 },
+  { "--F2",         eslARG_REAL,     "1e-3", NULL, NULL,      NULL,  NULL, "--max",     "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             7 },
+  { "--F3",         eslARG_REAL,     "1e-5", NULL, NULL,      NULL,  NULL, "--max",     "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             7 },
+  { "--nobias",     eslARG_NONE,       NULL, NULL, NULL,      NULL,  NULL, "--max",     "turn off composition bias filter",                             7 },
+  /* Control of E-value calibration */
+  { "--EmL",        eslARG_INT,       "200", NULL,"n>0",      NULL,  NULL, NULL,        "length of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EmN",        eslARG_INT,       "200", NULL,"n>0",      NULL,  NULL, NULL,        "number of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EvL",        eslARG_INT,       "200", NULL,"n>0",      NULL,  NULL, NULL,        "length of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EvN",        eslARG_INT,       "200", NULL,"n>0",      NULL,  NULL, NULL,        "number of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EfL",        eslARG_INT,       "100", NULL,"n>0",      NULL,  NULL, NULL,        "length of sequences for Forward exp tail tau fit",            11 },   
+  { "--EfN",        eslARG_INT,       "200", NULL,"n>0",      NULL,  NULL, NULL,        "number of sequences for Forward exp tail tau fit",            11 },   
+  { "--Eft",        eslARG_REAL,     "0.04", NULL,"0<x<1",    NULL,  NULL, NULL,        "tail mass for Forward exponential tail tau fit",              11 },   
+  /* Other options */
+  { "--seed",       eslARG_INT,        "42", NULL, "n>=0",    NULL,  NULL, NULL,        "set RNG seed to <n> (if 0: one-time arbitrary seed)",         12 },
+  { "--nonull2",    eslARG_NONE,       NULL, NULL, NULL,      NULL,  NULL, NULL,        "turn off biased composition score corrections",               12 },
+  { "-Z",           eslARG_REAL,      FALSE, NULL, "x>0",     NULL,  NULL, NULL,        "set # of comparisons done, for E-value calculation",          12 },
+  { "--domZ",       eslARG_REAL,      FALSE, NULL, "x>0",     NULL,  NULL, NULL,        "set # of significant seqs, for domain E-value calculation",   12 },
+  { "--hmmdb",      eslARG_INT,         NULL,  NULL, "n>0",   NULL,  NULL,  "--seqdb",       "hmm database to search",                                      12 },
+  { "--seqdb",      eslARG_INT,         NULL,  NULL, "n>0",   NULL,  NULL,  "--hmmdb",       "protein database to search",                                  12 },
+  { "--seqdb_ranges",eslARG_STRING,     NULL,  NULL,  NULL,   NULL, "--seqdb", NULL,         "range(s) of sequences within --seqdb that will be searched",  12 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+size_t
+writen(int fd, const void *vptr, size_t n)
+{
+  ssize_t     remaining;
+  ssize_t     outn;
+  const char *ptr;
+
+  ptr = vptr;
+  remaining = n;
+  while (remaining > 0) {
+    if ((outn = write(fd, ptr, remaining)) <= 0) {
+      if (outn < 0 && errno == EINTR) {
+        outn = 0;
+      } else {
+        return -1;
+      }
+    }
+
+    remaining -= outn;
+    ptr += outn;
+  }
+
+  return n;
+}
+
+size_t
+readn(int fd, void *vptr, size_t n)
+{
+  size_t      remaining;
+  size_t      bytes;
+  char       *ptr;
+
+  ptr = vptr;
+  remaining = n;
+  while (remaining > 0) {
+    if ((bytes = read(fd, ptr, remaining)) <= 0) {
+      if (errno == EINTR) {
+        bytes = 0;
+      } else {
+        return -1;
+      }
+    }
+    
+    remaining -= bytes;
+    ptr += bytes;
+  }
+
+  return n - remaining;
+}
+
+#define LOG_TO_STDOUT
+#ifdef LOG_TO_STDOUT
+void p7_openlog(const char *ident, int option, int facility)
+{
+  /* do nothing */
+  return;
+}
+
+void p7_syslog(int priority, const char *format, ...)
+{
+  va_list ap;
+
+  printf("\n*** ERROR ***\n");
+
+  va_start(ap, format);
+  vprintf(format, ap);
+  va_end(ap);
+
+  printf("\n");
+  fflush(stdout);
+
+  return;
+}
+void p7_closelog(void)
+{
+  /* do nothing */
+  return;
+}
+#endif
+
+int
+process_searchopts(int fd, char *cmdstr, ESL_GETOPTS **ret_opts)
+{
+  int status;
+
+  ESL_GETOPTS *go = NULL;
+
+  if ((go = esl_getopts_Create(searchOpts))       == NULL)  return eslEMEM;
+  if ((status = esl_opt_ProcessSpoof(go, cmdstr)) != eslOK) return status;
+  if ((status = esl_opt_VerifyConfig(go))         != eslOK) return status;
+
+  *ret_opts = go;
+  return eslOK;
+}
+
+void
+free_QueueData(QUEUE_DATA *data)
+{
+  /* free the query data */
+  esl_getopts_Destroy(data->opts);
+
+  if (data->abc != NULL) esl_alphabet_Destroy(data->abc);
+  if (data->hmm != NULL) p7_hmm_Destroy(data->hmm);
+  if (data->seq != NULL) esl_sq_Destroy(data->seq);
+  if (data->cmd != NULL) free(data->cmd);
+  memset(data, 0, sizeof(*data));
+  free(data);
+}
+
+/* Function:  hmmpgmd_IsWithinRanges()
+ * Synopsis:  Test if the given id falls within one of a collection of ranges
+ *
+ * Purpose:   Given an index <sq_idx> and a number <N> of ranges stored in two
+ *            parallel arrays of start (<range_starts>) and end (<range_ends>)
+ *            positions, return TRUE if sq_idx falls in one of the ranges.
+ *            Otherwise return FALSE;
+ *
+ * Returns:   <TRUE> if within range(s), otherwise <FALSE>
+ */
+int
+hmmpgmd_IsWithinRanges (int64_t sq_idx, RANGE_LIST *list )  {
+  int i;
+  for (i=0; i<list->N; i++) {
+    if (sq_idx >= list->starts[i] && sq_idx <= list->ends[i] )
+      return TRUE;
+  }
+  return FALSE;
+}
+
+
+/* Function:  hmmpgmd_GetRanges()
+ * Synopsis:  Parse command flag into range(s)
+ *
+ * Purpose:   Given a command flag string <rangestr> of the form
+ *            <start1>..<end1>,<start2>..<end2>...
+ *            parse the string into a RANGE_LIST <list>
+ *
+ * Returns:   <eslOK> on success <TRUE>, <eslEMEM> on memory allocation failure,
+ *            otherwise <eslESYNTAX> or <eslFAIL> on parsing errors.
+ */
+int
+hmmpgmd_GetRanges (RANGE_LIST *list, char *rangestr)  {
+  char *range;
+  char *rangestr_cpy;
+  char *rangestr_cpy_ptr;
+  int status;
+
+  list->N      = 0;
+  list->starts = NULL;
+  list->ends   = NULL;
+
+  //first pass to figure out how much to allocate
+  esl_strdup(rangestr, -1, &rangestr_cpy); // do this because esl_strtok modifies the string, and we shouldn't change the opts value
+  rangestr_cpy_ptr = rangestr_cpy;         // do this because esl_strtok advances the pointer on the target string, but we need to free it
+  while ( (status = esl_strtok(&rangestr_cpy, ",", &range) ) == eslOK)  list->N++;
+  ESL_ALLOC(list->starts, list->N * sizeof(int));
+  ESL_ALLOC(list->ends,   list->N * sizeof(int));
+  free(rangestr_cpy_ptr);
+
+  //2nd pass to get the values
+  list->N = 0;
+  esl_strdup(rangestr, -1, &rangestr_cpy);
+  rangestr_cpy_ptr = rangestr_cpy;
+  while ( (status = esl_strtok(&rangestr_cpy, ",", &range) ) == eslOK) {
+    status = esl_regexp_ParseCoordString(range, list->starts + list->N, list->ends + list->N);
+    if (status == eslESYNTAX) esl_fatal("--seqdb_ranges takes coords <from>..<to>; %s not recognized", range);
+    if (status == eslFAIL)    esl_fatal("Failed to find <from> or <to> coord in %s", range);
+    list->N++;
+  }
+  free(rangestr_cpy_ptr);
+
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+}
+
+#endif /*HMMER_THREADS*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdwrkr.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdwrkr.c
new file mode 100755
index 0000000..f2e4dd4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmdwrkr.c
@@ -0,0 +1,965 @@
+/* worker side of the hmmer daemon
+ */
+#include "p7_config.h"
+
+#ifdef HMMER_THREADS
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <errno.h>
+#include <unistd.h>
+#include <signal.h>
+#include <pthread.h>
+#include <setjmp.h>
+#include <sys/socket.h>
+#ifdef HAVE_NETINET_IN_H
+#include <netinet/in.h>     /* On FreeBSD, you need netinet/in.h for struct sockaddr_in            */
+#endif                      /* On OpenBSD, netinet/in.h is required for (must precede) arpa/inet.h */
+#include <arpa/inet.h>
+#include <syslog.h>
+#include <time.h>
+
+#ifndef HMMER_THREADS
+#error "Program requires pthreads be enabled."
+#endif /*HMMER_THREADS*/
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+#include "esl_threads.h"
+
+#include "hmmer.h"
+#include "hmmpgmd.h"
+#include "cachedb.h"
+#include "p7_hmmcache.h"
+
+#define MAX_WORKERS  64
+#define MAX_BUFFER   4096
+
+#define CONF_FILE "/etc/hmmpgmd.conf"
+
+typedef struct {
+  HMMER_SEQ       **sq_list;     /* list of sequences to process     */
+  int               sq_cnt;      /* number of sequences              */
+  int               db_Z;        /* true number of sequences         */
+
+  P7_OPROFILE     **om_list;     /* list of profiles to process      */
+  int               om_cnt;      /* number of profiles               */
+
+  pthread_mutex_t  *inx_mutex;   /* protect data                     */
+  int              *blk_size;    /* sequences per block              */
+  int              *limit;       /* point to decrease block size     */
+  int              *inx;         /* next index to process            */
+
+  P7_HMM           *hmm;         /* query HMM                        */
+  ESL_SQ           *seq;         /* query sequence                   */
+  ESL_ALPHABET     *abc;         /* digital alphabet                 */
+  ESL_GETOPTS      *opts;        /* search specific options          */
+
+  RANGE_LIST       *range_list;  /* (optional) list of ranges searched within the seqdb */
+
+  double            elapsed;     /* elapsed search time              */
+
+  /* Structure created and populated by the individual threads.
+   * The main thread is responsible for freeing up the memory.
+   */
+  P7_PIPELINE      *pli;         /* work pipeline                    */
+  P7_TOPHITS       *th;          /* top hit results                  */
+} WORKER_INFO;
+
+typedef struct {
+  int fd;                        /* socket connection to server      */
+  int ncpus;                     /* number of cpus to use            */
+
+  P7_SEQCACHE *seq_db;           /* cached sequence database         */
+  P7_HMMCACHE *hmm_db;           /* cached hmm database              */
+} WORKER_ENV;
+
+static void process_InitCmd(HMMD_COMMAND *cmd, WORKER_ENV *env);
+static void process_SearchCmd(HMMD_COMMAND *cmd, WORKER_ENV *env);
+static void process_Shutdown(HMMD_COMMAND *cmd, WORKER_ENV *env);
+
+static QUEUE_DATA *process_QueryCmd(HMMD_COMMAND *cmd, WORKER_ENV *env);
+
+static int  setup_masterside_comm(ESL_GETOPTS *opts);
+
+static void send_results(int fd, ESL_STOPWATCH *w, WORKER_INFO *info);
+
+#define BLOCK_SIZE 1000
+static void search_thread(void *arg);
+static void scan_thread(void *arg);
+
+static void
+print_timings(int i, double elapsed, P7_PIPELINE *pli)
+{
+  char buf1[16];
+  int h, m, s, hs;
+
+  h  = (int) (elapsed / 3600.);
+  m  = (int) (elapsed / 60.) - h * 60;
+  s  = (int) (elapsed) - h * 3600 - m * 60;
+  hs = (int) (elapsed * 100.) - h * 360000 - m * 6000 - s * 100;
+  sprintf(buf1, "%02d:%02d.%02d", m,s,hs);
+
+  fprintf (stdout, "%2d %9" PRId64 " %9" PRId64 " %7" PRId64 " %7" PRId64 " %6" PRId64 " %5" PRId64 " %s\n",
+           i, pli->nseqs, pli->nres, pli->n_past_msv, pli->n_past_bias, pli->n_past_vit, pli->n_past_fwd, buf1);
+}
+
+static int
+read_Command(HMMD_COMMAND **ret_cmd, WORKER_ENV *env)
+{
+  HMMD_HEADER   hdr;
+  HMMD_COMMAND *cmd = NULL;
+  int           n;
+
+  /* read the command header */  
+  if (readn(env->fd, &hdr, sizeof(hdr)) == -1) {
+    if (errno && errno != ECONNREFUSED) LOG_FATAL_MSG("read", errno);
+    return eslEOD;
+  }
+
+  /* read the command data */
+  n = MSG_SIZE(&hdr);
+  if ((cmd = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+  memset(cmd, 0, n);		/* avoid uninitialized bytes. remove this, if we ever serialize/deserialize structures properly */
+  cmd->hdr.command = hdr.command;
+  cmd->hdr.length  = hdr.length;
+  if (hdr.length > 0) {
+    if (readn(env->fd, &cmd->init, hdr.length) == -1) {
+      if (errno && errno != ECONNREFUSED) LOG_FATAL_MSG("read", errno);
+      return eslEOD;
+    }
+  }
+
+  *ret_cmd = cmd;
+  return eslOK;
+}
+
+void
+worker_process(ESL_GETOPTS *go)
+{
+  HMMD_COMMAND *cmd      = NULL;  /* see hmmpgmd.h */
+  int           shutdown = 0;
+  WORKER_ENV    env;
+  int           status;
+    
+  /* Initializations */
+  impl_Init();
+  p7_FLogsumInit();      /* we're going to use table-driven Logsum() approximations at times */
+
+  if (esl_opt_IsOn(go, "--cpu")) env.ncpus = esl_opt_GetInteger(go, "--cpu");
+  else esl_threads_CPUCount(&env.ncpus);
+
+  env.hmm_db = NULL;
+  env.seq_db = NULL;
+  env.fd     = setup_masterside_comm(go);
+
+  while (!shutdown) 
+    {
+      if ((status = read_Command(&cmd, &env)) != eslOK) break;
+
+      switch (cmd->hdr.command) {
+      case HMMD_CMD_INIT:      process_InitCmd  (cmd, &env);                break;
+      case HMMD_CMD_SCAN:      process_SearchCmd(cmd, &env);                break;
+      case HMMD_CMD_SEARCH:    process_SearchCmd(cmd, &env);                break;
+      case HMMD_CMD_SHUTDOWN:  process_Shutdown (cmd, &env);  shutdown = 1; break;
+      default: p7_syslog(LOG_ERR,"[%s:%d] - unknown command %d (%d)\n", __FILE__, __LINE__, cmd->hdr.command, cmd->hdr.length);
+      }
+
+      free(cmd);
+      cmd = NULL;
+    }
+
+  if (env.hmm_db) p7_hmmcache_Close(env.hmm_db);
+  if (env.seq_db) p7_seqcache_Close(env.seq_db);
+  if (env.fd != -1) close(env.fd);
+  return;
+}
+
+static void 
+process_SearchCmd(HMMD_COMMAND *cmd, WORKER_ENV *env)
+{ 
+  int              i;
+  int              cnt;
+  int              limit;
+  int              status;
+  int              blk_size;
+  WORKER_INFO     *info       = NULL;
+  ESL_ALPHABET    *abc;
+  ESL_STOPWATCH   *w;
+  ESL_THREADS     *threadObj  = NULL;
+  pthread_mutex_t  inx_mutex;
+  int              current_index;
+  QUEUE_DATA      *query      = NULL;
+  time_t           date;
+  char             timestamp[32];
+
+  w = esl_stopwatch_Create();
+  abc = esl_alphabet_Create(eslAMINO);
+
+  if (pthread_mutex_init(&inx_mutex, NULL) != 0) p7_Fail("mutex init failed");
+  ESL_ALLOC(info, sizeof(*info) * env->ncpus);
+
+  /* Log the current time (at search start) */
+  date = time(NULL);
+  ctime_r(&date, timestamp);
+  printf("\n%s", timestamp);	/* note that ctime_r() leaves \n on end of timestamp  */
+
+  /* initialize thread data */
+  query = process_QueryCmd(cmd, env);
+  esl_stopwatch_Start(w);
+
+  info->range_list = NULL;
+  if (esl_opt_IsUsed(query->opts, "--seqdb_ranges")) {
+    ESL_ALLOC(info->range_list, sizeof(RANGE_LIST));
+    hmmpgmd_GetRanges(info->range_list, esl_opt_GetString(query->opts, "--seqdb_ranges"));
+  }
+
+
+  if (query->cmd_type == HMMD_CMD_SEARCH) threadObj = esl_threads_Create(&search_thread);
+  else                                    threadObj = esl_threads_Create(&scan_thread);
+
+  if (query->query_type == HMMD_SEQUENCE) {
+    fprintf(stdout, "Search seq %s  [L=%ld]", query->seq->name, (long) query->seq->n);
+  } else {
+    fprintf(stdout, "Search hmm %s  [M=%d]", query->hmm->name, query->hmm->M);
+  }
+  fprintf(stdout, " vs %s DB %d [%d - %d]",
+          (query->cmd_type == HMMD_CMD_SEARCH) ? "SEQ" : "HMM", 
+          query->dbx, query->inx, query->inx + query->cnt - 1);
+
+  if (info->range_list)
+    fprintf(stdout, " in range(s) %s", esl_opt_GetString(query->opts, "--seqdb_ranges"));
+
+  fprintf(stdout, "\n");
+
+  /* Create processing pipeline and hit list */
+  for (i = 0; i < env->ncpus; ++i) {
+    info[i].abc   = query->abc;
+    info[i].hmm   = query->hmm;
+    info[i].seq   = query->seq;
+    info[i].opts  = query->opts;
+
+    info[i].range_list  = info[0].range_list;
+
+    info[i].th    = NULL;
+    info[i].pli   = NULL;
+
+    info[i].inx_mutex = &inx_mutex;
+    info[i].inx       = &current_index;/* this is confusing trickery - to share a single variable across all threads */
+    info[i].blk_size  = &blk_size;     /* ditto */
+    info[i].limit     = &limit;	       /* ditto. TODO: come back and clean this up. */
+
+    if (query->cmd_type == HMMD_CMD_SEARCH) {
+      HMMER_SEQ **list  = env->seq_db->db[query->dbx].list;
+      info[i].sq_list   = &list[query->inx];
+      info[i].sq_cnt    = query->cnt;
+      info[i].db_Z      = env->seq_db->db[query->dbx].K;
+      info[i].om_list   = NULL;
+      info[i].om_cnt    = 0;
+    } else {
+      info[i].sq_list   = NULL;
+      info[i].sq_cnt    = 0;
+      info[i].db_Z      = 0;
+      info[i].om_list   = &env->hmm_db->list[query->inx];
+      info[i].om_cnt    = query->cnt;
+    }
+
+    esl_threads_AddThread(threadObj, &info[i]);
+  }
+
+  /* try block size of 5000.  we will need enough sequences for four
+   * blocks per thread or better.
+   */
+  blk_size = 5000;
+  cnt = query->cnt / env->ncpus / blk_size;
+  limit = query->cnt * 2 / 3;
+  if (cnt < 4) {
+    /* try block size of 1000  */
+    blk_size /= 5;
+    cnt = query->cnt / env->ncpus / blk_size;
+    if (cnt < 4) {
+      /* still not enough.  just divide it up into one block per thread */
+      blk_size = query->cnt / env->ncpus + 1;
+      limit = query->cnt * 2;
+    }
+  }
+  current_index = 0;
+
+  esl_threads_WaitForStart(threadObj);
+  esl_threads_WaitForFinish(threadObj);
+
+  esl_stopwatch_Stop(w);
+#if 1
+  fprintf (stdout, "   Sequences  Residues                              Elapsed\n");
+  for (i = 0; i < env->ncpus; ++i) {
+    print_timings(i, info[i].elapsed, info[i].pli);
+  }
+#endif
+  /* merge the results of the search results */
+  for (i = 1; i < env->ncpus; ++i) {
+    p7_tophits_Merge(info[0].th, info[i].th);
+    p7_pipeline_Merge(info[0].pli, info[i].pli);
+    p7_pipeline_Destroy(info[i].pli);
+    p7_tophits_Destroy(info[i].th);
+  }
+
+  print_timings(99, w->elapsed, info[0].pli);
+  send_results(env->fd, w, info);
+
+  /* free the last of the pipeline data */
+  p7_pipeline_Destroy(info->pli);
+  p7_tophits_Destroy(info->th);
+
+  free_QueueData(query);
+
+  esl_threads_Destroy(threadObj);
+
+  pthread_mutex_destroy(&inx_mutex);
+
+  if (info->range_list) {
+    if (info->range_list->starts)  free(info->range_list->starts);
+    if (info->range_list->ends)    free(info->range_list->ends);
+    free (info->range_list);
+  }
+
+  free(info);
+
+  esl_stopwatch_Destroy(w);
+  esl_alphabet_Destroy(abc);
+
+  return;
+
+ ERROR:
+  LOG_FATAL_MSG("malloc", errno);
+}
+
+
+static QUEUE_DATA *
+process_QueryCmd(HMMD_COMMAND *cmd, WORKER_ENV *env)
+{
+  int                i;
+  int                n;
+  int                status;
+
+  char              *p;
+  char              *name;
+  char              *desc;
+  ESL_DSQ           *dsq;
+
+  QUEUE_DATA        *query  = NULL;
+
+  if ((query = malloc(sizeof(QUEUE_DATA))) == NULL) LOG_FATAL_MSG("malloc", errno);
+  memset(query, 0, sizeof(QUEUE_DATA));	 /* avoid uninitialized bytes. remove this, if we ever serialize/deserialize structures properly */
+
+  printf("CMD: %d %d\n", cmd->hdr.command, cmd->srch.query_type);
+
+  query->cmd_type   = cmd->hdr.command;
+  query->query_type = cmd->srch.query_type;
+  query->dbx        = cmd->srch.db_inx;
+  query->inx        = cmd->srch.inx;
+  query->cnt        = cmd->srch.cnt;
+  query->sock       = env->fd;
+  query->cmd        = NULL;
+
+  p = cmd->srch.data;
+
+  /* process search specific options */
+  status = process_searchopts(env->fd, p, &query->opts);
+  if (status != eslOK)  LOG_FATAL_MSG("esl_getopts_Create", status);
+
+  query->hmm = NULL;
+  query->seq = NULL;
+  query->abc = esl_alphabet_Create(eslAMINO);
+
+  /* check if we are processing a sequence or hmm */
+  if (cmd->srch.query_type == HMMD_SEQUENCE) {
+    n    = cmd->srch.query_length - 2;
+    name = p + cmd->srch.opts_length;
+    desc = name + strlen(name) + 1;
+    dsq  = (ESL_DSQ *) (desc + strlen(desc) + 1);
+    query->seq = esl_sq_CreateDigitalFrom(query->abc, name, dsq, n, desc, NULL, NULL);
+  } else {
+    P7_HMM  thmm;
+    P7_HMM *hmm = p7_hmm_CreateShell();
+
+    /* allocate memory for the hmm and initialize */
+    p += cmd->srch.opts_length;
+    memcpy(&thmm, p, sizeof(P7_HMM));
+
+    hmm->flags = thmm.flags;
+    p7_hmm_CreateBody(hmm, cmd->srch.query_length, query->abc);
+    p += sizeof(P7_HMM);
+
+    /* initialize fields */
+    hmm->nseq       = thmm.nseq;
+    hmm->eff_nseq   = thmm.eff_nseq;
+    hmm->max_length = thmm.max_length;
+    hmm->checksum   = thmm.checksum;
+    hmm->ctime      = NULL;
+    hmm->comlog     = NULL;
+
+    for (i = 0; i < p7_NCUTOFFS; i++) hmm->cutoff[i]  = thmm.cutoff[i];
+    for (i = 0; i < p7_NEVPARAM; i++) hmm->evparam[i] = thmm.evparam[i];
+    for (i = 0; i < p7_MAXABET;  i++) hmm->compo[i]   = thmm.compo[i];
+
+    /* fill in the hmm pointers */
+    n = sizeof(float) * (hmm->M + 1) * p7H_NTRANSITIONS;
+    memcpy(*hmm->t, p, n);     p += n;
+
+    n = sizeof(float) * (hmm->M + 1) * query->abc->K;
+    memcpy(*hmm->mat, p, n);   p += n;
+    memcpy(*hmm->ins, p, n);   p += n;
+
+    if (thmm.name) { hmm->name = strdup(p); p += strlen(hmm->name) + 1; }
+    if (thmm.acc)  { hmm->acc  = strdup(p); p += strlen(hmm->acc)  + 1; }
+    if (thmm.desc) { hmm->desc = strdup(p); p += strlen(hmm->desc) + 1; }
+
+    n = hmm->M + 2;
+    if (hmm->flags & p7H_RF)    { memcpy(hmm->rf,        p, n); p += n; }
+    if (hmm->flags & p7H_MMASK) { memcpy(hmm->mm,        p, n); p += n; }
+    if (hmm->flags & p7H_CONS)  { memcpy(hmm->consensus, p, n); p += n; }
+    if (hmm->flags & p7H_CS)    { memcpy(hmm->cs,        p, n); p += n; }
+    if (hmm->flags & p7H_CA)    { memcpy(hmm->ca,        p, n); p += n; }
+
+    n = sizeof(int) * (hmm->M + 1);
+    if (hmm->flags & p7H_MAP) {  memcpy(hmm->map,       p, n); p += n; }
+
+    query->hmm = hmm;
+  }
+
+  return query;
+}
+
+static void
+process_Shutdown(HMMD_COMMAND *cmd, WORKER_ENV  *env)
+{
+  int            n;
+
+  n = MSG_SIZE(cmd);
+  cmd->hdr.status = eslOK;
+  if (writen(env->fd, cmd, n) != n) {
+    LOG_FATAL_MSG("write error", errno);
+  }
+}
+
+static void
+process_InitCmd(HMMD_COMMAND *cmd, WORKER_ENV  *env)
+{
+  char *p;
+  int   n;
+  int   status;
+
+  if (env->hmm_db != NULL) p7_hmmcache_Close(env->hmm_db);
+  if (env->seq_db != NULL) p7_seqcache_Close(env->seq_db);
+
+  env->hmm_db = NULL;
+  env->seq_db = NULL;
+
+  /* load the sequence database */
+  if (cmd->init.db_cnt != 0) {
+    P7_SEQCACHE *sdb = NULL;
+
+    p  = cmd->init.data + cmd->init.seqdb_off;
+    status = p7_seqcache_Open(p, &sdb, NULL);
+    if (status != eslOK) {
+      p7_syslog(LOG_ERR,"[%s:%d] - p7_seqcache_Open %s error %d\n", __FILE__, __LINE__, p, status);
+      LOG_FATAL_MSG("cache seqdb error", status);
+    }
+
+    /* validate the sequence database */
+    cmd->init.sid[MAX_INIT_DESC-1] = 0;
+    if (strcmp (cmd->init.sid, sdb->id) != 0 || cmd->init.db_cnt != sdb->db_cnt || cmd->init.seq_cnt != sdb->count) {
+      p7_syslog(LOG_ERR,"[%s:%d] - seq db %s: integrity error %s - %s\n", __FILE__, __LINE__, p, cmd->init.sid, sdb->id);
+      LOG_FATAL_MSG("database integrity error", 0);
+    }
+
+    env->seq_db = sdb;
+  }
+
+  /* load the hmm database */
+  if (cmd->init.hmm_cnt != 0) {
+    P7_HMMCACHE *hcache = NULL;
+
+    p  = cmd->init.data + cmd->init.hmmdb_off;
+
+    status = p7_hmmcache_Open(p, &hcache, NULL);
+    if (status != eslOK) {
+      p7_syslog(LOG_ERR,"[%s:%d] - p7_hmmcache_Open %s error %d\n", __FILE__, __LINE__, p, status);
+      LOG_FATAL_MSG("cache hmmdb error", status);
+    }
+
+    if ( (status = p7_hmmcache_SetNumericNames(hcache)) != eslOK){
+      p7_syslog(LOG_ERR,"[%s:%d] - p7_hmmcache_SetNumericNames %s error %d\n", __FILE__, __LINE__, p, status);
+      LOG_FATAL_MSG("cache hmmdb error", status);
+    }
+
+    /* validate the hmm database */
+    cmd->init.hid[MAX_INIT_DESC-1] = 0;
+    /* TODO: come up with a new pressed format with an id to compare - strcmp (cmd->init.hid, hdb->id) != 0 */
+    if (cmd->init.hmm_cnt != 1 || cmd->init.model_cnt != hcache->n) {
+      p7_syslog(LOG_ERR,"[%s:%d] - hmm db %s: integrity error\n", __FILE__, __LINE__, p);
+      LOG_FATAL_MSG("database integrity error", 0);
+    }
+
+    env->hmm_db = hcache;
+
+    printf("Loaded profile db %s;  models: %d  memory: %" PRId64 "\n",
+         p, hcache->n, (uint64_t) p7_hmmcache_Sizeof(hcache));
+
+  }
+
+  /* if stdout is redirected at the commandline, it causes printf's to be buffered,
+   * which means status logging isn't printed. This line strongly requests unbuffering,
+   * which should be ok, given the low stdout load of hmmpgmd
+   */
+  setvbuf (stdout, NULL, _IONBF, BUFSIZ);
+  printf("Data loaded into memory. Worker is ready.\n");
+  setvbuf (stdout, NULL, _IOFBF, BUFSIZ);
+
+
+  /* write back to the master that we are on line */
+  n = MSG_SIZE(cmd);
+  cmd->hdr.status = eslOK;
+  if (writen(env->fd, cmd, n) != n) {
+    LOG_FATAL_MSG("write error", errno);
+  }
+}
+
+
+static void 
+search_thread(void *arg)
+{
+  int               i;
+  int               count;
+  int               seed;
+  int               status;
+  int               workeridx;
+  WORKER_INFO      *info;
+  ESL_THREADS      *obj;
+  ESL_SQ            dbsq;
+  ESL_STOPWATCH    *w        = NULL;         /* timing stopwatch               */
+  P7_BUILDER       *bld      = NULL;         /* HMM construction configuration */
+  P7_BG            *bg       = NULL;         /* null model                     */
+  P7_PIPELINE      *pli      = NULL;         /* work pipeline                  */
+  P7_TOPHITS       *th       = NULL;         /* top hit results                */
+  P7_PROFILE       *gm       = NULL;         /* generic model                  */
+  P7_OPROFILE      *om       = NULL;         /* optimized query profile        */
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+  w    = esl_stopwatch_Create();
+  bg   = p7_bg_Create(info->abc);
+  esl_stopwatch_Start(w);
+
+  /* set up the dummy description and accession fields */
+  dbsq.desc = "";
+  dbsq.acc  = "";
+
+  /* process a query sequence or hmm */
+  if (info->seq != NULL) {
+    bld = p7_builder_Create(NULL, info->abc);
+    if ((seed = esl_opt_GetInteger(info->opts, "--seed")) > 0) {
+      esl_randomness_Init(bld->r, seed);
+      bld->do_reseeding = TRUE;
+    }
+    bld->EmL = esl_opt_GetInteger(info->opts, "--EmL");
+    bld->EmN = esl_opt_GetInteger(info->opts, "--EmN");
+    bld->EvL = esl_opt_GetInteger(info->opts, "--EvL");
+    bld->EvN = esl_opt_GetInteger(info->opts, "--EvN");
+    bld->EfL = esl_opt_GetInteger(info->opts, "--EfL");
+    bld->EfN = esl_opt_GetInteger(info->opts, "--EfN");
+    bld->Eft = esl_opt_GetReal   (info->opts, "--Eft");
+
+    if (esl_opt_IsOn(info->opts, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(info->opts, "--mxfile"), NULL, esl_opt_GetReal(info->opts, "--popen"), esl_opt_GetReal(info->opts, "--pextend"), bg);
+    else                                      status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(info->opts, "--mx"),           esl_opt_GetReal(info->opts, "--popen"), esl_opt_GetReal(info->opts, "--pextend"), bg); 
+    if (status != eslOK) {
+      //client_error(info->sock, status, "hmmgpmd: failed to set single query sequence score system: %s", bld->errbuf);
+      fprintf(stderr, "hmmpgmd: failed to set single query sequence score system: %s", bld->errbuf);
+      pthread_exit(NULL);
+      return;
+    }
+    p7_SingleBuilder(bld, info->seq, bg, NULL, NULL, NULL, &om); /* bypass HMM - only need model */
+    p7_builder_Destroy(bld);
+  } else {
+    gm = p7_profile_Create (info->hmm->M, info->abc);
+    om = p7_oprofile_Create(info->hmm->M, info->abc);
+    p7_ProfileConfig(info->hmm, bg, gm, 100, p7_LOCAL);
+    p7_oprofile_Convert(gm, om);
+  }
+
+  /* Create processing pipeline and hit list */
+  th  = p7_tophits_Create(); 
+  pli = p7_pipeline_Create(info->opts, om->M, 100, FALSE, p7_SEARCH_SEQS);
+  p7_pli_NewModel(pli, om, bg);
+
+  if (pli->Z_setby == p7_ZSETBY_NTARGETS) pli->Z = info->db_Z;
+
+  /* loop until all sequences have been processed */
+  count = 1;
+  while (count > 0) {
+    int          inx;
+    int          blksz;
+    HMMER_SEQ  **sq;
+
+    /* grab the next block of sequences */
+    if (pthread_mutex_lock(info->inx_mutex) != 0) p7_Fail("mutex lock failed");
+    inx = *info->inx;
+    blksz = *info->blk_size;
+    if (inx > *info->limit) {
+      blksz /= 5;
+      if (blksz < 1000) {
+        *info->limit = info->sq_cnt * 2;
+      } else {
+        *info->limit = inx + (info->sq_cnt - inx) * 2 / 3; 
+      }
+    }
+    *info->blk_size = blksz;
+    *info->inx += blksz;
+    if (pthread_mutex_unlock(info->inx_mutex) != 0) p7_Fail("mutex unlock failed");
+
+    sq = info->sq_list + inx;
+
+    count = info->sq_cnt - inx;
+    if (count > blksz) count = blksz;
+
+    /* Main loop: */
+    for (i = 0; i < count; ++i, ++sq) {
+      if ( !(info->range_list) || hmmpgmd_IsWithinRanges ((*sq)->idx, info->range_list)) {
+        dbsq.name  = (*sq)->name;
+        dbsq.dsq   = (*sq)->dsq;
+        dbsq.n     = (*sq)->n;
+        dbsq.idx   = (*sq)->idx;
+        if((*sq)->desc != NULL) dbsq.desc  = (*sq)->desc;
+
+        p7_bg_SetLength(bg, dbsq.n);
+        p7_oprofile_ReconfigLength(om, dbsq.n);
+
+        p7_Pipeline(pli, om, bg, &dbsq, th);
+
+        p7_pipeline_Reuse(pli);
+      }
+    }
+  }
+
+  /* make available the pipeline objects to the main thread */
+  info->th = th;
+  info->pli = pli;
+
+  /* clean up */
+  p7_bg_Destroy(bg);
+  p7_oprofile_Destroy(om);
+
+  if (gm != NULL)  p7_profile_Destroy(gm);
+
+  esl_stopwatch_Stop(w);
+  info->elapsed = w->elapsed;
+
+  esl_stopwatch_Destroy(w);
+
+  esl_threads_Finished(obj, workeridx);
+
+  pthread_exit(NULL);
+  return;
+}
+
+static void 
+scan_thread(void *arg)
+{
+  int               i;
+  int               count;
+  int               workeridx;
+  WORKER_INFO      *info;
+  ESL_THREADS      *obj;
+
+  ESL_STOPWATCH    *w;
+
+  P7_BG            *bg       = NULL;         /* null model                     */
+  P7_PIPELINE      *pli      = NULL;         /* work pipeline                  */
+  P7_TOPHITS       *th       = NULL;         /* top hit results                */
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  w = esl_stopwatch_Create();
+  esl_stopwatch_Start(w);
+
+  /* Convert to an optimized model */
+  bg = p7_bg_Create(info->abc);
+
+  /* Create processing pipeline and hit list */
+  th  = p7_tophits_Create(); 
+  pli = p7_pipeline_Create(info->opts, 100, 100, FALSE, p7_SCAN_MODELS);
+
+  p7_pli_NewSeq(pli, info->seq);
+
+  /* loop until all sequences have been processed */
+  count = 1;
+  while (count > 0) {
+    int           inx;
+    int          blksz;
+    P7_OPROFILE **om;
+
+    /* grab the next block of sequences */
+    if (pthread_mutex_lock(info->inx_mutex) != 0) p7_Fail("mutex lock failed");
+    inx   = *info->inx;
+    blksz = *info->blk_size;
+    if (inx > *info->limit) {
+      blksz /= 5;
+      if (blksz < 1000) {
+        *info->limit = info->om_cnt * 2;
+      } else {
+        *info->limit = inx + (info->om_cnt - inx) * 2 / 3; 
+      }
+    }
+    *info->blk_size = blksz;
+    *info->inx += blksz;
+    if (pthread_mutex_unlock(info->inx_mutex) != 0) p7_Fail("mutex unlock failed");
+
+    om    = info->om_list + inx;
+    count = info->om_cnt - inx;
+    if (count > blksz) count = blksz;
+
+    /* Main loop: */
+    for (i = 0; i < count; ++i, ++om) {
+      p7_pli_NewModel(pli, *om, bg);
+      p7_bg_SetLength(bg, info->seq->n);
+      p7_oprofile_ReconfigLength(*om, info->seq->n);
+	      
+      p7_Pipeline(pli, *om, bg, info->seq, th);
+      p7_pipeline_Reuse(pli);
+    }
+  }
+
+  /* make available the pipeline objects to the main thread */
+  info->th = th;
+  info->pli = pli;
+
+  /* clean up */
+  p7_bg_Destroy(bg);
+
+  esl_stopwatch_Stop(w);
+  info->elapsed = w->elapsed;
+
+  esl_stopwatch_Destroy(w);
+
+  esl_threads_Finished(obj, workeridx);
+
+  pthread_exit(NULL);
+  return;
+}
+
+static void
+send_results(int fd, ESL_STOPWATCH *w, WORKER_INFO *info)
+{
+  HMMD_SEARCH_STATS   stats;
+  HMMD_SEARCH_STATUS  status;
+  P7_HIT             *hit;
+  P7_DOMAIN          *dcl;
+  int                 i, j, n;
+  esl_pos_t           offset;
+  char               *pEnd; /* pointer used by strtol to locate the taxonomy id on the description line. */
+
+
+  memset(&status, 0, sizeof(HMMD_SEARCH_STATUS)); /* silence valgrind errors - zero out entire structure including its padding */
+  status.status     = eslOK;
+  status.msg_size   = sizeof(stats);
+
+  /* copy the search stats */
+  stats.elapsed     = w->elapsed;
+  stats.user        = w->user;
+  stats.sys         = w->sys;
+
+  stats.nmodels     = info->pli->nmodels;
+  stats.nseqs       = info->pli->nseqs;
+  stats.n_past_msv  = info->pli->n_past_msv;
+  stats.n_past_bias = info->pli->n_past_bias;
+  stats.n_past_vit  = info->pli->n_past_vit;
+  stats.n_past_fwd  = info->pli->n_past_fwd;
+
+  stats.Z           = info->pli->Z;
+  stats.domZ        = info->pli->domZ;
+  stats.Z_setby     = info->pli->Z_setby;
+  stats.domZ_setby  = info->pli->domZ_setby;
+
+  stats.nhits       = info->th->N;
+  stats.nreported   = info->th->nreported;
+  stats.nincluded   = info->th->nincluded;
+
+  n = sizeof(P7_HIT) * stats.nhits;
+
+  status.msg_size += n;
+  offset = status.msg_size;
+  if ((hit = malloc(n)) == NULL) LOG_FATAL_MSG("malloc", errno);
+
+  /* get the data in the right format before we send it */
+  for (i = 0; i < stats.nhits; ++i) {
+    P7_HIT *h1 = &hit[i];
+    P7_HIT *h2 = &info->th->unsrt[i];
+
+    memcpy(h1, h2, sizeof(P7_HIT));
+
+    /* the name will be an integer value of the sequence index */
+    h1->name = (char *) strtol(h2->name, NULL, 10);
+//    h1->acc  = NULL;
+
+    /* We want to override the sequence description as a container
+     * for the domain architecture.
+     * We have already assigned the architecture when generating
+     * the sequence database, and comparing it to the latest version
+     * of Pfam. Copying the example above, convert the string to
+     * a long and cast back to a char. Nasty hack, but at least
+     * then it gets written back out to the socket. rdf
+     */
+    //if(h2->desc != NULL) h1->desc = (char *) strtol(h2->desc, NULL, 10);
+    if (h2->desc != NULL) {
+      h1->desc = (char *) strtol(h2->desc, &pEnd, 10);
+      /* Given the sequence header:
+       * >1 000101001 12343829483298 1234
+       * This will grab the last value (1234) if present and place it in
+       * the acc entry as it is not being used by hmmpgmd. This is the same
+       * way that we hijacked the desc field to pass the architecture
+       * information back. Currently used to pass the taxonomy id to the
+       * hmmer website.
+       */
+       h1->acc  = (char *) strtol(pEnd, &pEnd, 10);
+    }
+
+
+    h1->offset = offset;
+
+    /* figure out how big the domains are and their offset */
+    dcl = h2->dcl;
+    for (j = 0; j < h1->ndom; ++j) {
+      n = sizeof(P7_DOMAIN) + sizeof(P7_ALIDISPLAY) + dcl->ad->memsize;
+      status.msg_size += n;
+      offset += n;
+
+      ++dcl;
+    }
+  }
+
+  /* send back a successful status message */
+  n = sizeof(status);
+  if (writen(fd, &status, n) != n) LOG_FATAL_MSG("write", errno);
+
+  /* send back that search stats */
+  n = sizeof(stats);
+  if (writen(fd, &stats, n) != n) LOG_FATAL_MSG("write", errno);
+
+  /* send all the hit data */
+  n = sizeof(P7_HIT) * stats.nhits;
+  if (writen(fd, hit, n) != n) LOG_FATAL_MSG("write", errno);
+
+  /* loop through the hit list sending the domains */
+  for (i = 0; i < stats.nhits; ++i) {
+    char *base;
+    P7_HIT *h2 = &info->th->unsrt[i];
+
+    dcl = h2->dcl;
+
+    n = sizeof(P7_DOMAIN) * h2->ndom;
+    if (writen(fd, dcl, n) != n) LOG_FATAL_MSG("write", errno);
+    base = (char *)NULL + n;
+
+    for (j = 0; j < h2->ndom; ++j) {
+      P7_ALIDISPLAY *ad = NULL;
+
+      /* save off the original mem pointer so all the pointers can be adjusted
+       * to the new block of memory.
+       */
+      base += sizeof(P7_ALIDISPLAY);
+
+      /* readjust all the pointers to the new memory block */
+      ad = dcl->ad;
+      if (ad->rfline  != NULL) ad->rfline  = base + (ad->rfline  - ad->mem);
+      if (ad->mmline  != NULL) ad->mmline  = base + (ad->mmline  - ad->mem);
+      if (ad->csline  != NULL) ad->csline  = base + (ad->csline  - ad->mem);
+      if (ad->model   != NULL) ad->model   = base + (ad->model   - ad->mem);
+      if (ad->mline   != NULL) ad->mline   = base + (ad->mline   - ad->mem);
+      if (ad->aseq    != NULL) ad->aseq    = base + (ad->aseq    - ad->mem);
+      if (ad->ppline  != NULL) ad->ppline  = base + (ad->ppline  - ad->mem);
+      if (ad->hmmname != NULL) ad->hmmname = base + (ad->hmmname - ad->mem);
+      if (ad->hmmacc  != NULL) ad->hmmacc  = base + (ad->hmmacc  - ad->mem);
+      if (ad->hmmdesc != NULL) ad->hmmdesc = base + (ad->hmmdesc - ad->mem);
+      if (ad->sqname  != NULL) ad->sqname  = base + (ad->sqname  - ad->mem);
+      if (ad->sqacc   != NULL) ad->sqacc   = base + (ad->sqacc   - ad->mem);
+      if (ad->sqdesc  != NULL) ad->sqdesc  = base + (ad->sqdesc  - ad->mem);
+
+      n = sizeof(P7_ALIDISPLAY);
+      if (writen(fd, dcl->ad, n) != n) LOG_FATAL_MSG("write", errno);
+
+      n = dcl->ad->memsize;
+      if (writen(fd, dcl->ad->mem, n) != n) LOG_FATAL_MSG("write", errno);
+
+      base += ad->memsize;
+      ++dcl;
+    }
+  }
+
+  free(hit);
+  printf("Bytes: %" PRId64 "  hits: %" PRId64 "  sent on socket %d\n", status.msg_size, stats.nhits, fd);
+  fflush(stdout);
+}
+
+
+static int 
+setup_masterside_comm(ESL_GETOPTS *opts)
+{
+  int    fd = -1;
+  int    cnt;
+  int    sec;
+  int    connected;
+
+  struct sockaddr_in   addr;
+
+  /* create a reliable, stream socket using TCP */
+  if ((fd = socket(AF_INET, SOCK_STREAM, 0)) < 0) LOG_FATAL_MSG("socket", errno);
+
+  /* construct the server address structure */
+  memset(&addr, 0, sizeof(addr));
+  addr.sin_family = AF_INET;
+  addr.sin_port   = htons(esl_opt_GetInteger(opts, "--wport"));
+  if ((inet_pton(AF_INET, esl_opt_GetString(opts, "--worker"), &addr.sin_addr)) < 0) LOG_FATAL_MSG("inet pton", errno);
+
+  /* try to connect to the master server */
+  cnt = 0;
+  sec = 1;
+  connected = -1;
+  while (connected < 0) {
+    /* establish the connection to the master server */
+    if ((connected = connect(fd, (struct sockaddr *) &addr, sizeof(addr))) < 0) {
+      if (errno != ECONNREFUSED) LOG_FATAL_MSG("connect", errno);
+
+      /* the master server is not listening.  sleep and try again */
+      sleep(sec);
+      if (++cnt > 10) {
+        cnt = 0;
+        if (sec < 64) sec *= 2;
+      }
+    }
+  }
+
+  return fd;    
+}
+
+#endif /*HMMER_THREADS*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmemit.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmemit.c
new file mode 100755
index 0000000..6687736
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmemit.c
@@ -0,0 +1,286 @@
+/* hmmemit: sample sequence(s) from a profile HMM.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+#define EMITOPTS "-a,-c,-C,-p"
+#define MODEOPTS "--local,--unilocal,--glocal,--uniglocal"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",          eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL,  "show brief help on version and usage",                   1 },
+  { "-o",          eslARG_OUTFILE,FALSE, NULL, NULL,      NULL,      NULL,    NULL,  "send sequence output to file <f>, not stdout",           1 },
+  { "-N",          eslARG_INT,      "1", NULL, "n>0",     NULL,      NULL,  "-c,-C", "number of seqs to sample",                               1 },
+/* options controlling what to emit */
+  { "-a",          eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL, EMITOPTS, "emit alignment",                                         2 },
+  { "-c",          eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL, EMITOPTS, "emit simple majority-rule consensus sequence",           2 },
+  { "-C",          eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL, EMITOPTS, "emit fancier consensus sequence (req's --minl, --minu)", 2 },
+  { "-p",          eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL, EMITOPTS, "sample sequences from profile, not core model",          2 },
+/* options controlling emission from profiles with -p  */
+  { "-L",          eslARG_INT,    "400", NULL, NULL,      NULL,      "-p",    NULL, "set expected length from profile to <n>",               3 },
+  { "--local",     eslARG_NONE,"default",NULL, NULL,    MODEOPTS,    "-p",    NULL, "configure profile in multihit local mode",              3 }, 
+  { "--unilocal",  eslARG_NONE,  FALSE,  NULL, NULL,    MODEOPTS,    "-p",    NULL, "configure profile in unilocal mode",                    3 }, 
+  { "--glocal",    eslARG_NONE,  FALSE,  NULL, NULL,    MODEOPTS,    "-p",    NULL, "configure profile in multihit glocal mode",             3 }, 
+  { "--uniglocal", eslARG_NONE,  FALSE,  NULL, NULL,    MODEOPTS,    "-p",    NULL, "configure profile in unihit glocal mode",               3 }, 
+/* options controlling fancy consensus emission with -C */
+  { "--minl",      eslARG_REAL,  "0.0",  NULL, "0<=x<=1", NULL,      "-C",    NULL, "show consensus as 'any' (X/N) unless >= this fraction", 4 },
+  { "--minu",      eslARG_REAL,  "0.0",  NULL, "0<=x<=1", NULL,      "-C",    NULL, "show consensus as upper case if >= this fraction",      4 },
+/* other options */
+  { "--seed",      eslARG_INT,      "0", NULL, "n>=0",    NULL,      NULL,    NULL, "set RNG seed to <n>",                                    5 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <hmmfile (single)>";
+static char banner[] = "sample sequence(s) from a profile HMM";
+
+static void cmdline_failure(char *argv0, char *format, ...);
+static void cmdline_help(char *argv0, ESL_GETOPTS *go);
+
+static void emit_consensus(ESL_GETOPTS *go, FILE *ofp, int outfmt,                    P7_HMM *hmm);
+static void emit_fancycons(ESL_GETOPTS *go, FILE *ofp, int outfmt,                    P7_HMM *hmm);
+static void emit_alignment(ESL_GETOPTS *go, FILE *ofp, int outfmt, ESL_RANDOMNESS *r, P7_HMM *hmm);
+static void emit_sequences(ESL_GETOPTS *go, FILE *ofp, int outfmt, ESL_RANDOMNESS *r, P7_HMM *hmm);
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go         = NULL;             /* command line processing                 */
+  ESL_ALPHABET    *abc        = NULL;             /* sequence alphabet                       */
+  ESL_RANDOMNESS  *r          = NULL;             /* source of randomness                    */
+  char            *hmmfile    = NULL;             /* file to read HMM(s) from                */
+  P7_HMMFILE      *hfp        = NULL;             /* open hmmfile                            */
+  P7_HMM          *hmm        = NULL;             /* HMM to emit from                        */
+  FILE            *ofp        = NULL;	          /* output stream                           */
+  int              outfmt     = 0;
+  int              nhmms      = 0;
+  int              status;	      
+  char             errbuf[eslERRBUFSIZE];
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h"))                    cmdline_help   (argv[0], go);      
+  if (esl_opt_ArgNumber(go) != 1)                      cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+  if ((hmmfile = esl_opt_GetArg(go, 1)) == NULL)       cmdline_failure(argv[0], "Failed to get <hmmfile> on cmdline: %s\n", go->errbuf);
+
+  if ( esl_opt_IsOn(go, "-o") ) {
+    if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) esl_fatal("Failed to open output file %s", esl_opt_GetString(go, "-o"));
+  } else ofp = stdout;
+
+  if (esl_opt_GetBoolean(go, "-a"))  outfmt = eslMSAFILE_STOCKHOLM;
+  else                               outfmt = eslSQFILE_FASTA;
+
+  r = esl_randomness_CreateFast(esl_opt_GetInteger(go, "--seed"));
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);  
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF)
+    {
+      if      (status == eslEFORMAT)    esl_fatal("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+      else if (status == eslEINCOMPAT)  esl_fatal("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+      else if (status != eslOK)         esl_fatal("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+      nhmms++;
+
+      if      (esl_opt_GetBoolean(go, "-c"))  emit_consensus(go, ofp, outfmt,    hmm);
+      else if (esl_opt_GetBoolean(go, "-C"))  emit_fancycons(go, ofp, outfmt,    hmm);
+      else if (esl_opt_GetBoolean(go, "-a"))  emit_alignment(go, ofp, outfmt, r, hmm);
+      else                                    emit_sequences(go, ofp, outfmt, r, hmm);
+
+
+
+      p7_hmm_Destroy(hmm);
+    }
+  if (nhmms == 0) esl_fatal("Empty HMM file %s? No HMM data found.\n"); 
+
+  if (esl_opt_IsOn(go, "-o")) { fclose(ofp); }
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  p7_hmmfile_Close(hfp);
+  return eslOK;
+}
+
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+  printf("\nERROR: ");
+  va_start(argp, format);
+  vfprintf(stdout, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  p7_banner (stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage);
+  puts("\nCommon options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+  puts("\nOptions controlling what to emit:");
+  esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+  puts("\nOptions controlling emission from profiles with -p:");
+  esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+  puts("\nOptions controlling fancy consensus emission with -C:");
+  esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+  puts("\nOther options::");
+  esl_opt_DisplayHelp(stdout, go, 5, 2, 80);
+  exit(0);
+}
+
+static void
+emit_consensus(ESL_GETOPTS *go, FILE *ofp, int outfmt, P7_HMM *hmm)
+{
+  ESL_SQ     *sq           = NULL;
+
+  if ((sq = esl_sq_CreateDigital(hmm->abc))             == NULL) esl_fatal("failed to allocate sequence");
+
+  if (p7_emit_SimpleConsensus(hmm, sq)                 != eslOK) esl_fatal("failed to create simple consensus seq");
+  if (esl_sq_FormatName(sq, "%s-consensus", hmm->name) != eslOK) esl_fatal("failed to set sequence name");
+  if (esl_sqio_Write(ofp, sq, outfmt, FALSE)           != eslOK) esl_fatal("failed to write sequence");
+
+  esl_sq_Destroy(sq);
+  return;
+}
+
+static void
+emit_fancycons(ESL_GETOPTS *go, FILE *ofp, int outfmt, P7_HMM *hmm)
+{
+  ESL_SQ  *sq   = NULL;
+  float    minl = esl_opt_GetReal(go, "--minl");
+  float    minu = esl_opt_GetReal(go, "--minu");
+
+  if ((sq = esl_sq_Create()) == NULL) esl_fatal("failed to allocate sequence");
+
+  if (p7_emit_FancyConsensus(hmm, minl, minu, sq)      != eslOK) esl_fatal("failed to create consensus seq");
+  if (esl_sq_FormatName(sq, "%s-consensus", hmm->name) != eslOK) esl_fatal("failed to set sequence name");
+  if (esl_sqio_Write(ofp, sq, outfmt, FALSE)           != eslOK) esl_fatal("failed to write sequence");
+
+  esl_sq_Destroy(sq);
+  return;
+}
+
+static void 
+emit_alignment(ESL_GETOPTS *go, FILE *ofp, int outfmt, ESL_RANDOMNESS *r, P7_HMM *hmm)
+{
+  ESL_MSA   *msa       = NULL;
+  ESL_SQ   **sq        = NULL;
+  P7_TRACE **tr        = NULL;
+  int         N        = esl_opt_GetInteger(go, "-N");
+  int         optflags = p7_ALL_CONSENSUS_COLS;
+  int         i;
+  
+  if ((tr = malloc(sizeof(P7_TRACE *) * N)) == NULL) esl_fatal("failed to allocate trace array");
+  if ((sq = malloc(sizeof(ESL_SQ   *) * N)) == NULL) esl_fatal("failed to allocate seq array");
+  for (i = 0; i < N; i++) 
+    {
+      if ((sq[i] = esl_sq_CreateDigital(hmm->abc)) == NULL) esl_fatal("failed to allocate seq");
+      if ((tr[i] = p7_trace_Create())              == NULL) esl_fatal("failed to allocate trace");
+    }
+
+  for (i = 0; i < N; i++)
+    {
+      if (p7_CoreEmit(r, hmm, sq[i], tr[i])                       != eslOK) esl_fatal("Failed to emit sequence");
+      if (esl_sq_FormatName(sq[i], "%s-sample%d", hmm->name, i+1) != eslOK) esl_fatal("Failed to set sequence name\n");
+    }
+
+  p7_tracealign_Seqs(sq, tr, N, hmm->M, optflags, hmm, &msa);
+  eslx_msafile_Write(ofp, msa, outfmt);
+  
+  for (i = 0; i < N; i++) p7_trace_Destroy(tr[i]);  free(tr);
+  for (i = 0; i < N; i++) esl_sq_Destroy(sq[i]);    free(sq);
+  esl_msa_Destroy(msa);
+  return;
+}
+
+static void
+emit_sequences(ESL_GETOPTS *go, FILE *ofp, int outfmt, ESL_RANDOMNESS *r, P7_HMM *hmm)
+{
+  ESL_SQ     *sq           = NULL;
+  P7_TRACE   *tr           = NULL;
+  P7_BG      *bg           = NULL;
+  P7_PROFILE *gm           = NULL;
+  int         do_profile   = esl_opt_GetBoolean(go, "-p");
+  int         N            = esl_opt_GetInteger(go, "-N");
+  int         L            = esl_opt_GetInteger(go, "-L");
+  int         mode         = p7_LOCAL;
+  int         nseq;
+  int         status;
+
+  if      (esl_opt_GetBoolean(go, "--local"))     mode = p7_LOCAL;
+  else if (esl_opt_GetBoolean(go, "--unilocal"))  mode = p7_UNILOCAL;
+  else if (esl_opt_GetBoolean(go, "--glocal"))    mode = p7_GLOCAL;
+  else if (esl_opt_GetBoolean(go, "--uniglocal")) mode = p7_UNIGLOCAL;
+
+  if ((sq = esl_sq_CreateDigital(hmm->abc))      == NULL)  esl_fatal("failed to allocate sequence");
+  if ((tr = p7_trace_Create())                   == NULL)  esl_fatal("failed to allocate trace");
+  if ((bg = p7_bg_Create(hmm->abc))              == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, hmm->abc)) == NULL)  esl_fatal("failed to create profile");
+
+  if (p7_ProfileConfig(hmm, bg, gm, L, mode)     != eslOK) esl_fatal("failed to configure profile");
+  if (p7_bg_SetLength(bg, L)                     != eslOK) esl_fatal("failed to reconfig null model length");
+  if (p7_hmm_Validate    (hmm, NULL, 0.0001)     != eslOK) esl_fatal("whoops, HMM is bad!");
+  if (p7_profile_Validate(gm,  NULL, 0.0001)     != eslOK) esl_fatal("whoops, profile is bad!");
+
+  for (nseq = 1; nseq <= N; nseq++)
+    {
+      if (do_profile) status = p7_ProfileEmit(r, hmm, gm, bg, sq, tr);
+      else            status = p7_CoreEmit   (r, hmm, sq, tr);
+      if (status)  esl_fatal("Failed to emit sequence\n");
+
+      status = esl_sq_FormatName(sq, "%s-sample%d", hmm->name, nseq);
+      if (status) esl_fatal("Failed to set sequence name\n");
+
+      status = esl_sqio_Write(ofp, sq, outfmt, FALSE);
+      if (status != eslOK) esl_fatal("Failed to write sequence\n");
+
+      p7_trace_Reuse(tr);
+      esl_sq_Reuse(sq);
+    }
+
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_bg_Destroy(bg);
+  p7_profile_Destroy(gm);
+  return;
+}
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmemit.c $
+ * SVN $Id: hmmemit.c 3474 2011-01-17 13:25:32Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmer.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmer.c
new file mode 100755
index 0000000..6e29a1c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmer.c
@@ -0,0 +1,252 @@
+/* General routines used throughout HMMER.
+ * 
+ * Contents:
+ *   1. Miscellaneous functions for H3
+ *   2. Unit tests
+ *   3. Test driver
+ *   4. License and copyright 
+ *
+ * SRE, Fri Jan 12 13:19:38 2007 [Janelia] [Franz Ferdinand, eponymous]
+ * SVN $Id: hmmer.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Miscellaneous functions for H3
+ *****************************************************************/
+
+/* Function:  p7_banner()
+ * Synopsis:  print standard HMMER application output header
+ * Incept:    SRE, Wed May 23 10:45:53 2007 [Janelia]
+ *
+ * Purpose:   Print the standard HMMER command line application banner
+ *            to <fp>, constructing it from <progname> (the name of the
+ *            program) and a short one-line description <banner>.
+ *            For example, 
+ *            <p7_banner(stdout, "hmmsim", "collect profile HMM score distributions");>
+ *            might result in:
+ *            
+ *            \begin{cchunk}
+ *            # hmmsim :: collect profile HMM score distributions
+ *            # HMMER 3.0 (May 2007)
+ *            # Copyright (C) 2004-2007 HHMI Janelia Farm Research Campus
+ *            # Freely licensed under the Janelia Software License.
+ *            # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+ *            \end{cchunk}
+ *              
+ *            <progname> would typically be an application's
+ *            <argv[0]>, rather than a fixed string. This allows the
+ *            program to be renamed, or called under different names
+ *            via symlinks. Any path in the <progname> is discarded;
+ *            for instance, if <progname> is "/usr/local/bin/hmmsim",
+ *            "hmmsim" is used as the program name.
+ *            
+ * Note:    
+ *    Needs to pick up preprocessor #define's from p7_config.h,
+ *    as set by ./configure:
+ *            
+ *    symbol          example
+ *    ------          ----------------
+ *    HMMER_VERSION   "3.0"
+ *    HMMER_DATE      "May 2007"
+ *    HMMER_COPYRIGHT "Copyright (C) 2004-2007 HHMI Janelia Farm Research Campus"
+ *    HMMER_LICENSE   "Freely licensed under the Janelia Software License."
+ *
+ * Returns:   (void)
+ */
+void
+p7_banner(FILE *fp, char *progname, char *banner)
+{
+  char *appname = NULL;
+
+  if (esl_FileTail(progname, FALSE, &appname) != eslOK) appname = progname;
+
+  fprintf(fp, "# %s :: %s\n", appname, banner);
+  fprintf(fp, "# HMMER %s (%s); %s\n", HMMER_VERSION, HMMER_DATE, HMMER_URL);
+  fprintf(fp, "# %s\n", HMMER_COPYRIGHT);
+  fprintf(fp, "# %s\n", HMMER_LICENSE);
+  fprintf(fp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n");
+
+  if (appname != NULL) free(appname);
+  return;
+}
+
+
+/* Function:  p7_CreateDefaultApp()
+ * Synopsis:  Initialize a small/simple/standard HMMER application
+ * Incept:    SRE, Thu Oct 28 15:03:21 2010 [Janelia]
+ *
+ * Purpose:   Identical to <esl_getopts_CreateDefaultApp()>, but 
+ *            specialized for HMMER. See documentation in 
+ *            <easel/esl_getopts.c>.
+ *
+ * Args:      options - array of <ESL_OPTIONS> structures for getopts
+ *            nargs   - number of cmd line arguments expected (excl. of cmdname)
+ *            argc    - <argc> from main()
+ *            argv    - <argv> from main()
+ *            banner  - optional one-line description of program (or NULL)
+ *            usage   - optional one-line usage hint (or NULL)
+ *
+ * Returns:   ptr to new <ESL_GETOPTS> object.
+ * 
+ *            On command line errors, this routine prints an error
+ *            message to <stderr> then calls <exit(1)> to halt
+ *            execution with abnormal (1) status.
+ *            
+ *            If the standard <-h> option is seen, the routine prints
+ *            the help page (using the data in the <options> structure),
+ *            then calls <exit(0)> to exit with normal (0) status.
+ *            
+ * Xref:      J7/3
+ * 
+ * Note:      The only difference between this and esl_getopts_CreateDefaultApp()
+ *            is to call p7_banner() instead of esl_banner(), to get HMMER
+ *            versioning info into the header. There ought to be a better way
+ *            (perhaps using PACKAGE_* define's instead of HMMER_* vs. EASEL_*
+ *            define's in esl_banner(), thus removing the need for p7_banner).
+ */
+ESL_GETOPTS *
+p7_CreateDefaultApp(ESL_OPTIONS *options, int nargs, int argc, char **argv, char *banner, char *usage)
+{
+  ESL_GETOPTS *go = NULL;
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
+      esl_opt_VerifyConfig(go)               != eslOK) 
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      if (usage != NULL) esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      if (banner != NULL) p7_banner(stdout, argv[0], banner);
+      if (usage  != NULL) esl_usage (stdout, argv[0], usage);
+      puts("\nOptions:");
+      esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+      exit(0);
+    }
+  if (esl_opt_ArgNumber(go) != nargs) 
+    {
+      puts("Incorrect number of command line arguments.");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  return go;
+}
+
+
+/* Function:  p7_AminoFrequencies()
+ * Incept:    SRE, Fri Jan 12 13:46:41 2007 [Janelia]
+ *
+ * Purpose:   Fills a vector <f> with amino acid background frequencies,
+ *            in [A..Y] alphabetic order, same order that Easel digital
+ *            alphabet uses. Caller must provide <f> allocated for at
+ *            least 20 floats.
+ *            
+ *            These were updated 4 Sept 2007, from Swiss-Prot 50.8,
+ *            (Oct 2006), counting over 85956127 (86.0M) residues.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_AminoFrequencies(float *f)
+{
+  f[0] = 0.0787945;		/* A */
+  f[1] = 0.0151600;		/* C */
+  f[2] = 0.0535222;		/* D */
+  f[3] = 0.0668298;		/* E */
+  f[4] = 0.0397062;		/* F */
+  f[5] = 0.0695071;		/* G */
+  f[6] = 0.0229198;		/* H */
+  f[7] = 0.0590092;		/* I */
+  f[8] = 0.0594422;		/* K */
+  f[9] = 0.0963728;		/* L */
+  f[10]= 0.0237718;		/* M */
+  f[11]= 0.0414386;		/* N */
+  f[12]= 0.0482904;		/* P */
+  f[13]= 0.0395639;		/* Q */
+  f[14]= 0.0540978;		/* R */
+  f[15]= 0.0683364;		/* S */
+  f[16]= 0.0540687;		/* T */
+  f[17]= 0.0673417;		/* V */
+  f[18]= 0.0114135;		/* W */
+  f[19]= 0.0304133;		/* Y */
+  return eslOK;
+}
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+#ifdef p7HMMER_TESTDRIVE
+
+static void
+utest_alphabet_config(int alphatype)
+{
+  char         *msg = "HMMER alphabet config unit test failed";
+  ESL_ALPHABET *abc = NULL;
+
+  if ((abc = esl_alphabet_Create(alphatype)) == NULL) esl_fatal(msg);
+  if (abc->K  > p7_MAXABET)                           esl_fatal(msg);
+  if (abc->Kp > p7_MAXCODE)                           esl_fatal(msg);
+  esl_alphabet_Destroy(abc);
+}
+#endif /*p7HMMER_TESTDRIVE*/
+
+  
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+#ifdef p7HMMER_TESTDRIVE
+
+/* gcc -o hmmer_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7HMMER_TESTDRIVE hmmer.c -lhmmer -leasel -lm
+ * ./hmmer_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for hmmer.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+
+  utest_alphabet_config(eslAMINO);
+  utest_alphabet_config(eslDNA);
+  utest_alphabet_config(eslRNA);
+  utest_alphabet_config(eslCOINS);
+  utest_alphabet_config(eslDICE);
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7HMMER_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmer.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmer.h
new file mode 100755
index 0000000..81992f9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmer.h
@@ -0,0 +1,1805 @@
+/* The all-encompassing include file for HMMER.
+ * All-encompassing because there's a lot of crossdependency.
+ * There's some opportunity for modularity, but not a lot.
+ *
+ *    1. P7_HMM:         a core model.
+ *    2. P7_PROFILE:     a scoring profile, and its implicit model.
+ *    3. P7_BG:          a null (background) model.
+ *    4. P7_TRACE:       a traceback path (alignment of seq to profile).
+ *    5. P7_HMMFILE:     an HMM save file or database, open for reading.
+ *    6. P7_GMX:         a "generic" dynamic programming matrix
+ *    7. P7_PRIOR:       mixture Dirichlet prior for profile HMMs
+ *    8. P7_SPENSEMBLE:  segment pair ensembles for domain locations
+ *    9. P7_ALIDISPLAY:  an alignment formatted for printing
+ *   10. P7_DOMAINDEF:   reusably managing workflow in annotating domains
+ *   11. P7_TOPHITS:     ranking lists of top-scoring hits
+ *   12. P7_SCOREDATA:     data used in diagonal recovery and extension
+ *   13. P7_HMM_WINDOW:  data used to track lists of sequence windows
+ *   14. Inclusion of the architecture-specific optimized implementation.
+ *   16. P7_PIPELINE:    H3's accelerated seq/profile comparison pipeline
+ *   17. P7_BUILDER:     configuration options for new HMM construction.
+ *   18. Declaration of functions in HMMER's exposed API.
+ *   19. Copyright and license information.
+ *   
+ * Also, see impl_{sse,vmx}/impl_{sse,vmx}.h for additional API
+ * specific to the acceleration layer; in particular, the P7_OPROFILE
+ * structure for an optimized profile.
+ */
+#ifndef P7_HMMERH_INCLUDED
+#define P7_HMMERH_INCLUDED
+
+#include "p7_config.h"
+
+#include <stdio.h>		/* FILE */
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#endif
+
+#ifdef HMMER_THREADS
+#include <pthread.h>
+#endif
+
+#include "easel.h"
+#include "esl_alphabet.h"	/* ESL_DSQ, ESL_ALPHABET */
+#include "esl_dirichlet.h"	/* ESL_MIXDCHLET         */
+#include "esl_dmatrix.h"	/* ESL_DMATRIX           */
+#include "esl_getopts.h"	/* ESL_GETOPTS           */
+#include "esl_histogram.h"      /* ESL_HISTOGRAM         */
+#include "esl_hmm.h"	        /* ESL_HMM               */
+#include "esl_keyhash.h"        /* ESL_KEYHASH           */
+#include "esl_msa.h"		/* ESL_MSA               */
+#include "esl_random.h"		/* ESL_RANDOMNESS        */
+#include "esl_sq.h"		/* ESL_SQ                */
+#include "esl_scorematrix.h"    /* ESL_SCOREMATRIX       */
+#include "esl_stopwatch.h"      /* ESL_STOPWATCH         */
+
+
+
+/* Search modes. */
+#define p7_NO_MODE   0
+#define p7_LOCAL     1		/* multihit local:  "fs" mode   */
+#define p7_GLOCAL    2		/* multihit glocal: "ls" mode   */
+#define p7_UNILOCAL  3		/* unihit local: "sw" mode      */
+#define p7_UNIGLOCAL 4		/* unihit glocal: "s" mode      */
+
+#define p7_IsLocal(mode)  (mode == p7_LOCAL || mode == p7_UNILOCAL)
+#define p7_IsMulti(mode)  (mode == p7_LOCAL || mode == p7_GLOCAL)
+
+#define p7_NEVPARAM 6	/* number of statistical parameters stored in models                      */
+#define p7_NCUTOFFS 6	/* number of Pfam score cutoffs stored in models                          */
+#define p7_NOFFSETS 3	/* number of disk offsets stored in models for hmmscan's fast model input */
+enum p7_evparams_e {    p7_MMU  = 0, p7_MLAMBDA = 1,     p7_VMU = 2,  p7_VLAMBDA = 3, p7_FTAU = 4, p7_FLAMBDA = 5 };
+enum p7_cutoffs_e  {     p7_GA1 = 0,     p7_GA2 = 1,     p7_TC1 = 2,      p7_TC2 = 3,  p7_NC1 = 4,     p7_NC2 = 5 };
+enum p7_offsets_e  { p7_MOFFSET = 0, p7_FOFFSET = 1, p7_POFFSET = 2 };
+
+#define p7_EVPARAM_UNSET -99999.0f  /* if evparam[0] is unset, then all unset                         */
+#define p7_CUTOFF_UNSET  -99999.0f  /* if cutoff[XX1] is unset, then cutoff[XX2] unset, XX={GA,TC,NC} */
+#define p7_COMPO_UNSET   -1.0f      /* if compo[0] is unset, then all unset                           */
+
+/* Option flags when creating multiple alignments with p7_tracealign_*() */
+#define p7_DEFAULT             0
+#define p7_DIGITIZE            (1<<0)
+#define p7_ALL_CONSENSUS_COLS  (1<<1)
+#define p7_TRIM                (1<<2)
+
+/* Option flags when creating faux traces with p7_trace_FauxFromMSA() */
+#define p7_MSA_COORDS	       (1<<0) /* default: i = unaligned seq residue coords     */
+
+/* Which strand(s) should be searched */
+enum p7_strands_e {    p7_STRAND_TOPONLY  = 0, p7_STRAND_BOTTOMONLY = 1,  p7_STRAND_BOTH = 2};
+
+/*****************************************************************
+ * 1. P7_HMM: a core model.
+ *****************************************************************/
+
+/* Bit flags used in <hmm->flags>: optional annotation in an HMM
+ * 
+ * Flags marked with ! may not be changed nor used for other meanings,
+ * because they're codes used by HMMER2 (and earlier) that must be
+ * preserved for reverse compatibility with old HMMER files.
+ * 
+ * Why use flags? (So I don't ask this question of myself again:)
+ *   1. The way we allocate an HMM, we need to know if we're allocating
+ *      M-width annotation fields (RF, CS, CA, MAP) before we read the
+ *      annotation from the file.
+ *   2. Historically, H2 used flags, so we still need to read H2 flags
+ *      for backwards compatibility; so we may as well keep using them.
+ */
+#define p7H_HASBITS (1<<0)    /* obsolete (was: model has log-odds scores)       !*/
+#define p7H_DESC    (1<<1)    /* description exists (legacy; xref SRE:J5/114)    !*/
+#define p7H_RF      (1<<2)    /* #RF annotation available                        !*/
+#define p7H_CS      (1<<3)    /* #CS annotation available                        !*/
+#define p7H_XRAY    (1<<4)    /* obsolete (was: structural data available)       !*/
+#define p7H_HASPROB (1<<5)    /* obsolete (was: model in probability form)       !*/
+#define p7H_HASDNA  (1<<6)    /* obsolete (was: protein HMM->DNA seq params set) !*/
+#define p7H_STATS   (1<<7)    /* model has E-value statistics calibrated         !*/
+#define p7H_MAP     (1<<8)    /* alignment map is available                      !*/
+#define p7H_ACC     (1<<9)    /* accession is available (legacy; xref SRE:J5/114)!*/
+#define p7H_GA      (1<<10)   /* gathering thresholds available                  !*/
+#define p7H_TC      (1<<11)   /* trusted cutoffs available                       !*/
+#define p7H_NC      (1<<12)   /* noise cutoffs available                         !*/
+#define p7H_CA      (1<<13)   /* surface accessibilities available               !*/
+#define p7H_COMPO   (1<<14)   /* model-specific residue composition available     */
+#define p7H_CHKSUM  (1<<15)   /* model has an alignment checksum                  */
+#define p7H_CONS    (1<<16)   /* consensus residue line available                 */
+#define p7H_MMASK   (1<<17)   /* #MM annotation available                        !*/
+
+/* Indices of Plan7 main model state transitions, hmm->t[k][] */
+enum p7h_transitions_e {
+  p7H_MM = 0,
+  p7H_MI = 1,
+  p7H_MD = 2,
+  p7H_IM = 3,
+  p7H_II = 4,
+  p7H_DM = 5,
+  p7H_DD = 6 
+};
+#define p7H_NTRANSITIONS 7
+
+/* How the hmm->t[k] vector is interpreted as separate probability vectors. */
+#define P7H_TMAT(hmm, k) ((hmm)->t[k])
+#define P7H_TINS(hmm, k) ((hmm)->t[k]+3)
+#define P7H_TDEL(hmm, k) ((hmm)->t[k]+5)
+#define p7H_NTMAT 3
+#define p7H_NTDEL 2
+#define p7H_NTINS 2
+
+/* Some notes:
+ *   0. The model might be either in counts or probability form.
+ *   1. t[0] is special: t[0][TMM,TMI,TMD] are the begin->M_1,I_0,D_1 entry probabilities,
+ *      t[0][TIM,TII] are the I_0 transitions, and delete state 0 doesn't
+ *      exist. Therefore D[0] transitions and mat[0] emissions are unused.
+ *      To simplify some normalization code, we adopt a convention that these are set
+ *      to valid probability distributions: 1.0 for t[0][TDM] and mat[0][0],
+ *      and 0 for the rest.
+ *   2. t[M] is also special: TMD and TDD are 0 because there is no next delete state;
+ *      TDM is therefore 1.0 by definition. TMM and TDM are interpreted as the
+ *      M->E and D->E end transitions. t[M][TDM] must be 1.0, therefore.
+ */
+typedef struct p7_hmm_s {
+  /*::cexcerpt::plan7_core::begin::*/
+  int     M;                    /* length of the model (# nodes)                           */
+  float **t;                    /* transition prob's. t[(0),1..M][0..p7H_NTRANSITIONS-1]   */
+  float **mat;                  /* match emissions.  mat[1..M][0..K-1]                     */ 
+  float **ins;                  /* insert emissions. ins[1..M][0..K-1]                     */
+  /*::cexcerpt::plan7_core::end::*/
+
+  /* Annotation. Everything but <name> is optional. Flags are set when
+   * optional values are set. All the char *'s are proper nul-terminated
+   * strings, not just arrays. (hmm->map is an int array).
+   */
+  char    *name;                 /* name of the model                     (mandatory)      */ /* String, \0-terminated   */
+  char    *acc;	                 /* accession number of model (Pfam)      (optional: NULL) */ /* String, \0-terminated   */
+  char    *desc;                 /* brief (1-line) description of model   (optional: NULL) */ /* String, \0-terminated   */
+  char    *rf;                   /* reference line from alignment 1..M    (p7H_RF)         */ /* String; 0=' ', M+1='\0' */
+  char    *mm;                   /* model mask line from alignment 1..M   (p7H_MM)         */ /* String; 0=' ', M+1='\0' */
+  char    *consensus;		         /* consensus residue line        1..M    (p7H_CONS)       */ /* String; 0=' ', M+1='\0' */
+  char    *cs;                   /* consensus structure line      1..M    (p7H_CS)         */ /* String; 0=' ', M+1='\0' */
+  char    *ca;	                 /* consensus accessibility line  1..M    (p7H_CA)         */ /* String; 0=' ', M+1='\0' */
+
+  char    *comlog;               /* command line(s) that built model      (optional: NULL) */ /* String, \0-terminated   */
+  int      nseq;	         /* number of training sequences          (optional: -1)   */
+  float    eff_nseq;             /* effective number of seqs (<= nseq)    (optional: -1)   */
+  int	   max_length;           /* upper bound length, all but 1e-7 prob (optional: -1)   */
+  char    *ctime;	         /* creation date                         (optional: NULL) */
+  int     *map;	                 /* map of alignment cols onto model 1..M (p7H_MAP)        */ /* Array; map[0]=0 */
+  uint32_t checksum;             /* checksum of training sequences        (p7H_CHKSUM)     */
+  float    evparam[p7_NEVPARAM]; /* E-value params                        (p7H_STATS)      */
+  float    cutoff[p7_NCUTOFFS];  /* Pfam score cutoffs                    (p7H_{GA,TC,NC}) */
+  float    compo[p7_MAXABET];    /* model bg residue comp                 (p7H_COMPO)      */
+
+  off_t    offset;               /* HMM record offset on disk                              */
+  const ESL_ALPHABET *abc;       /* ptr to alphabet info (hmm->abc->K is alphabet size)    */
+  int      flags;                /* status flags                                           */
+} P7_HMM;
+
+
+/*****************************************************************
+ * 2. P7_PROFILE: a scoring profile, and its implicit model.
+ *****************************************************************/
+
+/* Indices for special state types in the length model, gm->xsc[x][]
+ */
+enum p7p_xstates_e { 
+  p7P_E = 0,
+  p7P_N = 1,
+  p7P_J = 2,
+  p7P_C = 3
+};
+#define p7P_NXSTATES 4
+
+/* Indices for transitions from the length modeling scores gm->xsc[][x]
+ */
+enum p7p_xtransitions_e {
+  p7P_LOOP = 0,
+  p7P_MOVE = 1
+};
+#define p7P_NXTRANS 2
+
+/* Indices for transition scores gm->tsc[k][] */
+/* order is optimized for dynamic programming */
+enum p7p_tsc_e {
+  p7P_MM = 0, 
+  p7P_IM = 1, 
+  p7P_DM = 2, 
+  p7P_BM = 3, 
+  p7P_MD = 4, 
+  p7P_DD = 5, 
+  p7P_MI = 6, 
+  p7P_II = 7, 
+};
+#define p7P_NTRANS 8
+
+/* Indices for residue emission score vectors
+ */
+enum p7p_rsc_e {
+  p7P_MSC = 0, 
+  p7P_ISC = 1
+};
+#define p7P_NR 2
+
+/* Accessing transition, emission scores */
+/* _BM is specially stored off-by-one: [k-1][p7P_BM] is score for entering at Mk */
+#define p7P_TSC(gm, k, s) ((gm)->tsc[(k) * p7P_NTRANS + (s)])
+#define p7P_MSC(gm, k, x) ((gm)->rsc[x][(k) * p7P_NR + p7P_MSC])
+#define p7P_ISC(gm, k, x) ((gm)->rsc[x][(k) * p7P_NR + p7P_ISC])
+
+
+typedef struct p7_profile_s {
+  float  *tsc;          /* transitions  [0.1..M-1][0..p7P_NTRANS-1], hand-indexed  */
+  float **rsc;          /* emissions [0..Kp-1][0.1..M][p7P_NR], hand-indexed       */
+  float   xsc[p7P_NXSTATES][p7P_NXTRANS]; /* special transitions [NECJ][LOOP,MOVE] */
+
+  int     mode;        	/* configured algorithm mode (e.g. p7_LOCAL)               */ 
+  int     L;		/* current configured target seq length                    */
+  int     allocM;	/* max # of nodes allocated in this structure              */
+  int     M;		/* number of nodes in the model                            */
+  int     max_length;	/* calculated upper bound on emitted seq length            */
+  float   nj;		/* expected # of uses of J; precalculated from loop config */
+
+  /* Info, most of which is a copy from parent HMM:                                       */
+  char  *name;			/* unique name of model                                   */
+  char  *acc;			/* unique accession of model, or NULL                     */
+  char  *desc;                  /* brief (1-line) description of model, or NULL           */
+  char  *rf;                    /* reference line from alignment 1..M; *rf=0 means unused */
+  char  *mm;                    /* modelmask line           1..M; *ref=0: unused     */
+  char  *cs;                    /* consensus structure line      1..M, *cs=0 means unused */
+  char  *consensus;		/* consensus residues to display in alignments, 1..M      */
+  float  evparam[p7_NEVPARAM]; 	/* parameters for determining E-values, or UNSET          */
+  float  cutoff[p7_NCUTOFFS]; 	/* per-seq/per-domain bit score cutoffs, or UNSET         */
+  float  compo[p7_MAXABET];	/* per-model HMM filter composition, or UNSET             */
+
+  /* Disk offset information for hmmpfam's fast model retrieval                           */
+  off_t  offs[p7_NOFFSETS];     /* p7_{MFP}OFFSET, or -1                                  */
+
+  off_t  roff;                  /* record offset (start of record); -1 if none            */
+  off_t  eoff;                  /* offset to last byte of record; -1 if unknown           */
+
+  const ESL_ALPHABET *abc;	/* copy of pointer to appropriate alphabet                */
+} P7_PROFILE;
+
+
+
+/*****************************************************************
+ * 3. P7_BG: a null (background) model.
+ *****************************************************************/
+
+/* This really contains three different things: 
+ *     
+ *   - the "null1" model, a one-state HMM consisting of background
+ *     frequencies <f> and a parameter <p1> for a target-length
+ *     dependent geometric;
+ *     
+ *   - the "bias filter" <fhmm> a two-state HMM composed from null1's
+ *     background <f> and the model's mean composition <compo>. This
+ *     model is constructed dynamically, every time a new profile is 
+ *     considered;
+ *     
+ *   - a single term <omega> that's needed by the "null2" model to set
+ *     a balance between the null1 and null2 scoring terms.  The null2
+ *     model is otherwise defined by construction, in p7_domaindef.c.
+ *
+ * Someday we might pull this apart into two or three separate
+ * objects.
+ */
+typedef struct p7_bg_s {
+  float   *f;		/* null1 background residue frequencies [0..K-1]: set at initialization    */
+  float    p1;		/* null1's transition prob: p7_bg_SetLength() sets this from target seq L  */
+
+  ESL_HMM *fhmm;	/* bias filter: p7_bg_SetFilter() sets this, from model's mean composition */
+
+  float    omega;	/* the "prior" on null2/null3: set at initialization (one omega for both null types)  */
+
+  const ESL_ALPHABET *abc;	/* reference to alphabet in use: set at initialization             */
+} P7_BG;
+
+/*****************************************************************
+ * 4. P7_TRACE:  a traceback (alignment of seq to profile).
+ *****************************************************************/
+
+/* Traceback structure for alignment of a model to a sequence.
+ *
+ * A traceback only makes sense in a triplet (tr, gm, dsq), for a
+ * given profile or HMM (with nodes 1..M) and a given digital sequence
+ * (with positions 1..L).
+ * 
+ * A traceback may be relative to a profile (usually) or to a core
+ * model (as a special case in model construction; see build.c). You
+ * can tell the difference by looking at the first statetype,
+ * tr->st[0]; if it's a p7T_S, it's for a profile, and if it's p7T_B,
+ * it's for a core model.
+ * 
+ * A "profile" trace uniquely has S,N,C,T,J states and their
+ * transitions; it also can have B->Mk and Mk->E internal entry/exit
+ * transitions for local alignments. It may not contain X states.
+ *
+ * A "core" trace may contain I0, IM, and D1 states and their
+ * transitions. A "core" trace can also have B->X->{MDI}k and
+ * {MDI}k->X->E transitions as a special hack in a build procedure, to
+ * deal with the case of a local alignment fragment implied by an
+ * input alignment, which is "impossible" for a core model.
+ * X "states" only appear in core traces, and only at these
+ * entry/exit places; some code depends on this.
+ *   
+ * A profile's N,C,J states emit on transition, not on state, so a
+ * path of N emits 0 residues, NN emits 1 residue, NNN emits 2
+ * residues, and so on. By convention, the trace always associates an
+ * emission-on-transition with the trailing (destination) state, so
+ * the first N, C, or J is stored in a trace as a nonemitter (i=0).
+ *
+ * A i coords in a traceback are usually 1..L with respect to an
+ * unaligned digital target sequence, but in the special case of
+ * traces faked from existing MSAs (as in hmmbuild), the coords may
+ * be 1..alen relative to an MSA's columns.
+ */
+
+/* State types */
+enum p7t_statetype_e {
+  p7T_BOGUS =  0,
+  p7T_M     =  1,
+  p7T_D     =  2,
+  p7T_I     =  3,
+  p7T_S     =  4,
+  p7T_N     =  5,
+  p7T_B     =  6, 
+  p7T_E     =  7,
+  p7T_C     =  8, 
+  p7T_T     =  9, 
+  p7T_J     = 10,
+  p7T_X     = 11, 	/* missing data: used esp. for local entry/exits */
+};
+#define p7T_NSTATETYPES 12
+
+typedef struct p7_trace_s {
+  int    N;		/* length of traceback                       */
+  int    nalloc;        /* allocated length of traceback             */
+  char  *st;		/* state type code                   [0..N-1]*/
+  int   *k;		/* node index; 1..M if M,D,I; else 0 [0..N-1]*/
+  int   *i;		/* pos emitted in dsq, 1..L; else 0  [0..N-1]*/
+  float *pp;		/* posterior prob of x_i; else 0     [0..N-1]*/
+  int    M;		/* model length M (maximum k)                */
+  int    L;		/* sequence length L (maximum i)             */
+
+  /* The following section is data generated by "indexing" a trace's domains */
+  int   ndom;		/* number of domains in trace (= # of B or E states) */
+  int  *tfrom,   *tto;	/* locations of B/E states in trace (0..tr->N-1)     */
+  int  *sqfrom,  *sqto;	/* first/last M-emitted residue on sequence (1..L)   */
+  int  *hmmfrom, *hmmto;/* first/last M state on model (1..M)                */
+  int   ndomalloc;	/* current allocated size of these stacks            */
+
+} P7_TRACE;
+
+
+
+/*****************************************************************
+ * 5. P7_HMMFILE:  an HMM save file or database, open for reading.
+ *****************************************************************/
+
+/* These tags need to be in temporal order, so we can do tests
+ * like "if (format >= p7_HMMFILE_3b) ..."
+ */
+enum p7_hmmfile_formats_e {
+  p7_HMMFILE_20 = 0,
+  p7_HMMFILE_3a = 1,
+  p7_HMMFILE_3b = 2,
+  p7_HMMFILE_3c = 3,
+  p7_HMMFILE_3d = 4,
+  p7_HMMFILE_3e = 5,
+  p7_HMMFILE_3f = 6,
+};
+
+typedef struct p7_hmmfile_s {
+  FILE         *f;		 /* pointer to stream for reading models                 */
+  char         *fname;	         /* (fully qualified) name of the HMM file; [STDIN] if - */
+  ESL_SSI      *ssi;		 /* open SSI index for model file <f>; NULL if none.     */
+
+  int           do_gzip;	/* TRUE if f is "gzip -dc |" (will pclose(f))           */ 
+  int           do_stdin;       /* TRUE if f is stdin (won't close f)                   */
+  int           newly_opened;	/* TRUE if we just opened the stream (and parsed magic) */
+  int           is_pressed;	/* TRUE if a pressed HMM database file (Pfam or equiv)  */
+
+  int            format;	/* HMM file format code */
+  int           (*parser)(struct p7_hmmfile_s *, ESL_ALPHABET **, P7_HMM **);  
+  ESL_FILEPARSER *efp;
+
+  /* If <is_pressed>, we can read optimized profiles directly, via:  */
+  FILE         *ffp;		/* MSV part of the optimized profile */
+  FILE         *pfp;		/* rest of the optimized profile     */
+
+#ifdef HMMER_THREADS
+  int              syncRead;
+  pthread_mutex_t  readMutex;
+#endif
+
+  char          errbuf[eslERRBUFSIZE];
+} P7_HMMFILE;
+
+/* note on <fname>, above:
+ * this is the actual name of the HMM file being read.
+ * 
+ * The way p7_hmmfile_Open() works, it will preferentially look for
+ * hmmpress'ed binary files. If you open "foo", it will first try to
+ * open "foo.h3m" and <fname> will be "foo.h3m". "foo" does not even
+ * have to exist. If a parsing error occurs, you want <fname> to
+ * be "foo.h3m", so error messages report blame correctly.
+ * In the special case of reading from stdin, <fname> is "[STDIN]".
+ */
+
+
+/*****************************************************************
+ * 6. P7_GMX: a "generic" dynamic programming matrix
+ *****************************************************************/
+
+enum p7g_scells_e {
+  p7G_M = 0,
+  p7G_I = 1,
+  p7G_D = 2,
+};
+#define p7G_NSCELLS 3
+
+enum p7g_xcells_e {
+  p7G_E  = 0,
+  p7G_N  = 1,
+  p7G_J  = 2,
+  p7G_B  = 3,
+  p7G_C  = 4
+};
+#define p7G_NXCELLS 5
+
+
+typedef struct p7_gmx_s {
+  int  M;		/* actual model dimension (model 1..M)    */
+  int  L;		/* actual sequence dimension (seq 1..L)   */
+  
+  int      allocR;      /* current allocated # of rows : L+1 <= validR <= allocR                */
+  int      validR;	/* # of rows actually pointing at DP memory                             */
+  int      allocW;	/* current set row width :  M+1 <= allocW                               */
+  uint64_t ncells;	/* total # of allocated cells in 2D matrix : ncells >= (validR)(allocW) */
+
+  float **dp;           /* logically [0.1..L][0.1..M][0..p7G_NSCELLS-1]; indexed [i][k*p7G_NSCELLS+s] */
+  float  *xmx;          /* logically [0.1..L][0..p7G_NXCELLS-1]; indexed [i*p7G_NXCELLS+s]            */
+
+  float  *dp_mem;
+} P7_GMX;
+
+/* Macros below implement indexing idioms for generic DP routines.
+ * They require the following setup, for profile <gm> and matrix <gx>:
+ *   float const *tsc = gm->tsc;
+ *   float      **dp  = gx->dp;
+ *   float       *xmx = gx->xmx;
+ * and for each row i (target residue x_i in digital seq <dsq>):
+ *   float const *rsc = gm->rsc[dsq[i]];
+ */
+#define MMX(i,k) (dp[(i)][(k) * p7G_NSCELLS + p7G_M])
+#define IMX(i,k) (dp[(i)][(k) * p7G_NSCELLS + p7G_I])
+#define DMX(i,k) (dp[(i)][(k) * p7G_NSCELLS + p7G_D])
+#define XMX(i,s) (xmx[(i) * p7G_NXCELLS + (s)])
+
+#define TSC(s,k) (tsc[(k) * p7P_NTRANS + (s)])
+#define MSC(k)   (rsc[(k) * p7P_NR     + p7P_MSC])
+#define ISC(k)   (rsc[(k) * p7P_NR     + p7P_ISC])
+
+/* Flags that control P7_GMX debugging dumps */
+#define p7_HIDE_SPECIALS (1<<0)
+#define p7_SHOW_LOG      (1<<1)
+
+
+/*****************************************************************
+ * 7. P7_PRIOR: mixture Dirichlet prior for profile HMMs
+ *****************************************************************/
+
+typedef struct p7_prior_s {
+  ESL_MIXDCHLET *tm;		/*  match transitions */
+  ESL_MIXDCHLET *ti;		/* insert transitions */
+  ESL_MIXDCHLET *td;		/* delete transitions */
+  ESL_MIXDCHLET *em;		/*  match emissions   */
+  ESL_MIXDCHLET *ei;		/* insert emissions   */
+} P7_PRIOR;
+
+
+
+
+/*****************************************************************
+ * 8. P7_SPENSEMBLE: segment pair ensembles for domain locations
+ *****************************************************************/
+
+/* struct p7_spcoord_s:
+ *    a coord quad defining a segment pair. 
+ */
+struct p7_spcoord_s { 
+  int idx; 	/* backreference index: which trace a seg came from, or which cluster a domain came from */
+  int i, j;	/* start,end in a target sequence (1..L)  */
+  int k, m;     /* start,end in a query model (1..M)      */
+  float prob;	/* posterior probability of segment       */
+};
+
+/* Structure: P7_SPENSEMBLE
+ *
+ * Collection and clustering of an ensemble of sampled segment pairs,
+ * in order to define domain locations using their posterior
+ * probability distribution (as opposed to Viterbi MAP tracebacks).
+ */
+typedef struct p7_spensemble_s {
+  /* Section 1: a collected ensemble of segment pairs                                       */
+  int                  nsamples;    /* number of sampled traces                             */
+  struct p7_spcoord_s *sp;	    /* array of sampled seg pairs; [0..n-1]                 */
+  int                  nalloc;	    /* allocated size of <sp>                               */
+  int                  n;	    /* number of seg pairs in <sp>                          */
+
+  /* Section 2: then the ensemble is clustered by single-linkage clustering                 */
+  int *workspace;                   /* temp space for Easel SLC algorithm: 2*n              */
+  int *assignment;                  /* each seg pair's cluster index: [0..n-1] = (0..nc-1)  */
+  int  nc;	                    /* number of different clusters                         */
+
+  /* Section 3: then endpoint distribution is examined within each large cluster            */
+  int *epc;	                    /* array counting frequency of each endpoint            */
+  int  epc_alloc;	            /* allocated width of <epc>                             */
+  
+  /* Section 4: finally each large cluster is resolved into domain coords                   */
+  struct p7_spcoord_s *sigc;	    /* array of coords for each domain, [0..nsigc-1]        */
+  int                  nsigc;	    /* number of "significant" clusters, domains            */
+  int                  nsigc_alloc; /* current allocated max for nsigc                      */
+} P7_SPENSEMBLE;
+
+
+
+/*****************************************************************
+ * 9. P7_ALIDISPLAY: an alignment formatted for printing
+ *****************************************************************/
+
+/* Structure: P7_ALIDISPLAY
+ * 
+ * Alignment of a sequence domain to an HMM, formatted for printing.
+ * 
+ * For an alignment of L residues and names C chars long, requires
+ * 6L + 2C + 30 bytes; for typical case of L=100,C=10, that's
+ * <0.7 Kb.
+ */
+typedef struct p7_alidisplay_s {
+  char *rfline;                 /* reference coord info; or NULL        */
+  char *mmline;                 /* modelmask coord info; or NULL        */
+  char *csline;                 /* consensus structure info; or NULL    */
+  char *model;                  /* aligned query consensus sequence     */
+  char *mline;                  /* "identities", conservation +'s, etc. */
+  char *aseq;                   /* aligned target sequence              */
+  char *ppline;			        /* posterior prob annotation; or NULL   */
+  int   N;			            /* length of strings                    */
+
+  char *hmmname;		/* name of HMM                          */
+  char *hmmacc;			/* accession of HMM; or [0]='\0'        */
+  char *hmmdesc;		/* description of HMM; or [0]='\0'      */
+  int   hmmfrom;		/* start position on HMM (1..M, or -1)  */
+  int   hmmto;			/* end position on HMM (1..M, or -1)    */
+  int   M;			/* length of model                      */
+
+  char *sqname;			/* name of target sequence              */
+  char *sqacc;			/* accession of target seq; or [0]='\0' */
+  char *sqdesc;			/* description of targ seq; or [0]='\0' */
+  long  sqfrom;			/* start position on sequence (1..L)    */
+  long  sqto;		    /* end position on sequence   (1..L)    */
+  long  L;			/* length of sequence                   */
+
+  int   memsize;                /* size of allocated block of memory    */
+  char *mem;			/* memory used for the char data above  */
+} P7_ALIDISPLAY;
+
+
+/*****************************************************************
+ * 10. P7_DOMAINDEF: reusably managing workflow in defining domains
+ *****************************************************************/
+
+typedef struct p7_dom_s { 
+  int            ienv, jenv;
+  int            iali, jali;
+  float          envsc;  	/* Forward score in envelope ienv..jenv; NATS; without null2 correction       */
+  float          domcorrection;	/* null2 score when calculating a per-domain score; NATS                      */
+  float          dombias;	/* FLogsum(0, log(bg->omega) + domcorrection): null2 score contribution; NATS */
+  float          oasc;		/* optimal accuracy score (units: expected # residues correctly aligned)      */
+  float          bitscore;	/* overall score in BITS, null corrected, if this were the only domain in seq */
+  double         lnP;	        /* log(P-value) of the bitscore                                               */
+  int            is_reported;	/* TRUE if domain meets reporting thresholds                                  */
+  int            is_included;	/* TRUE if domain meets inclusion thresholds                                  */
+  float         *scores_per_pos; /* score in BITS that each position in the alignment contributes to an overall viterbi score */
+  P7_ALIDISPLAY *ad; 
+} P7_DOMAIN;
+
+/* Structure: P7_DOMAINDEF
+ * 
+ * This is a container for all the necessary information for domain
+ * definition procedures in <p7_domaindef.c>, including a bunch of
+ * heuristic thresholds. The structure is reusable to minimize the
+ * number of allocation/free cycles that need to be done when
+ * processing a large number of sequences. You create the structure
+ * with <p7_domaindef_Create()>; after you're done with defining
+ * domains on a sequence, you call <p7_domaindef_Reuse()> before using
+ * it on the next sequence; and when you're completely done, you free
+ * it with <p7_domaindef_Destroy()>. All memory management is handled
+ * internally; you don't need to reallocate anything yourself.
+ */
+typedef struct p7_domaindef_s {
+  /* for posteriors of being in a domain, B, E */
+  float *mocc;			/* mocc[i=1..L] = prob that i is emitted by core model (is in a domain)       */
+  float *btot; 			/* btot[i=1..L] = cumulative expected times that domain starts at or before i */
+  float *etot;			/* etot[i=1..L] = cumulative expected times that domain ends at or before i   */
+  int    L;
+  int    Lalloc;
+
+  /* the ad hoc null2 model: 1..L nat scores for each residue, log f'(x_i) / f(x_i) */
+  float *n2sc;
+
+  /* rng and reusable memory for stochastic tracebacks */
+  ESL_RANDOMNESS *r;		/* random number generator                                 */
+  int             do_reseeding;	/* TRUE to reset the RNG, make results reproducible        */
+  P7_SPENSEMBLE  *sp;		/* an ensemble of sampled segment pairs (domain endpoints) */
+  P7_TRACE       *tr;		/* reusable space for a trace of a domain                  */
+  P7_TRACE       *gtr;		/* reusable space for a traceback of the entire target seq */
+
+  /* Heuristic thresholds that control the region definition process */
+  /* "rt" = "region threshold", for lack of better term  */
+  float  rt1;   	/* controls when regions are called. mocc[i] post prob >= dt1 : triggers a region around i */
+  float  rt2;		/* controls extent of regions. regions extended until mocc[i]-{b,e}occ[i] < dt2            */
+  float  rt3;		/* controls when regions are flagged for split: if expected # of E preceding B is >= dt3   */
+  
+  /* Heuristic thresholds that control the stochastic traceback/clustering process */
+  int    nsamples;	/* collect ensemble of this many stochastic traces */
+  float  min_overlap;	/* 0.8 means >= 80% overlap of (smaller/larger) segment to link, both in seq and hmm            */
+  int    of_smaller;	/* see above; TRUE means overlap denom is calc'ed wrt smaller segment; FALSE means larger       */
+  int    max_diagdiff;	/* 4 means either start or endpoints of two segments must be within <=4 diagonals of each other */
+  float  min_posterior;	/* 0.25 means a cluster must have >= 25% posterior prob in the sample to be reported            */
+  float  min_endpointp;	/* 0.02 means choose widest endpoint with post prob of at least 2%                              */
+
+  /* storage of the results; domain locations, scores, alignments          */
+  P7_DOMAIN *dcl;
+  int        ndom;	 /* number of domains defined, in the end.         */
+  int        nalloc;     /* number of domain structures allocated in <dcl> */
+
+  /* Additional results storage */
+  float  nexpected;     /* posterior expected number of domains in the sequence (from posterior arrays) */
+  int    nregions;	/* number of regions evaluated */
+  int    nclustered;	/* number of regions evaluated by clustering ensemble of tracebacks */
+  int    noverlaps;	/* number of envelopes defined in ensemble clustering that overlap w/ prev envelope */
+  int    nenvelopes;	/* number of envelopes handed over for domain definition, null2, alignment, and scoring. */
+
+} P7_DOMAINDEF;
+
+
+/*****************************************************************
+ * 11. P7_TOPHITS: ranking lists of top-scoring hits
+ *****************************************************************/
+
+#define p7_HITFLAGS_DEFAULT 0
+#define p7_IS_INCLUDED      (1<<0)
+#define p7_IS_REPORTED      (1<<1)
+#define p7_IS_NEW           (1<<2)
+#define p7_IS_DROPPED       (1<<3)
+#define p7_IS_DUPLICATE     (1<<4)
+
+
+/* Structure: P7_HIT
+ * 
+ * Info about a high-scoring database hit, kept so we can output a
+ * sorted list of high hits at the end.
+ *
+ * sqfrom and sqto are the coordinates that will be shown
+ * in the results, not coords in arrays... therefore, reverse
+ * complements have sqfrom > sqto
+ */
+typedef struct p7_hit_s {
+  char   *name;			/* name of the target               (mandatory)           */
+  char   *acc;			/* accession of the target          (optional; else NULL) */
+  char   *desc;			/* description of the target        (optional; else NULL) */
+  int    window_length;         /* for later use in e-value computation, when splitting long sequences */
+  double sortkey;		/* number to sort by; big is better                       */
+
+  float  score;			/* bit score of the sequence (all domains, w/ correction) */
+  float  pre_score;		/* bit score of sequence before null2 correction          */
+  float  sum_score;		/* bit score reconstructed from sum of domain envelopes   */
+
+  double lnP;		        /* log(P-value) of the score               */
+  double pre_lnP;		/* log(P-value) of the pre_score           */
+  double sum_lnP;		/* log(P-value) of the sum_score           */
+
+  float  nexpected;     /* posterior expected number of domains in the sequence (from posterior arrays) */
+  int    nregions;	/* number of regions evaluated */
+  int    nclustered;	/* number of regions evaluated by clustering ensemble of tracebacks */
+  int    noverlaps;	/* number of envelopes defined in ensemble clustering that overlap w/ prev envelope */
+  int    nenvelopes;	/* number of envelopes handed over for domain definition, null2, alignment, and scoring. */
+  int    ndom;		/* total # of domains identified in this seq   */
+
+  uint32_t flags;      	/* p7_IS_REPORTED | p7_IS_INCLUDED | p7_IS_NEW | p7_IS_DROPPED */
+  int      nreported;	/* # of domains satisfying reporting thresholding  */
+  int      nincluded;	/* # of domains satisfying inclusion thresholding */
+  int      best_domain;	/* index of best-scoring domain in dcl */
+
+  int64_t  seqidx;          /*unique identifier to track the database sequence from which this hit came*/
+  int64_t  subseq_start; /*used to track which subsequence of a full_length target this hit came from, for purposes of removing duplicates */
+
+  P7_DOMAIN *dcl;	/* domain coordinate list and alignment display */
+  esl_pos_t  offset;	/* used in socket communications, in serialized communication: offset of P7_DOMAIN msg for this P7_HIT */
+} P7_HIT;
+
+
+/* Structure: P7_TOPHITS
+ * merging when we prepare to output results. "hit" list is NULL and
+ * unavailable until after we do a sort.  
+ */
+typedef struct p7_tophits_s {
+  P7_HIT **hit;         /* sorted pointer array                     */
+  P7_HIT  *unsrt;	/* unsorted data storage                    */
+  uint64_t Nalloc;	/* current allocation size                  */
+  uint64_t N;		/* number of hits in list now               */
+  uint64_t nreported;	/* number of hits that are reportable       */
+  uint64_t nincluded;	/* number of hits that are includable       */
+  int      is_sorted_by_sortkey; /* TRUE when hits sorted by sortkey and th->hit valid for all N hits */
+  int      is_sorted_by_seqidx; /* TRUE when hits sorted by seq_idx, position, and th->hit valid for all N hits */
+} P7_TOPHITS;
+
+
+
+
+
+/*****************************************************************
+ * 12. P7_SCOREDATA: data used in diagonal recovery and extension
+ *****************************************************************/
+
+enum p7_scoredatatype_e {
+  p7_sd_std  = 0,
+  p7_sd_fm   = 1,
+};
+
+
+/* This contains a compact representation of 8-bit bias-shifted scores for use in
+ * diagonal recovery (standard SSV) and extension (standard and FM-SSV),
+ * along with MAXL-associated prefix- and suffix-lengths, and optimal extensions
+ * for FM-SSV.
+ */
+typedef struct p7_scoredata_s {
+  int         type;
+  int         M;
+  union {//implicit (M+1)*K matrix, where M = # states, and K = # characters in alphabet
+    uint8_t  *ssv_scores;    // this 2D array is used in the default nhmmer pipeline
+    float    *ssv_scores_f;  // this 2D array is used in the FM-index based pipeline
+  };
+  float      *prefix_lengths;
+  float      *suffix_lengths;
+  float      *fwd_scores;
+  float     **fwd_transitions;
+  float     **opt_ext_fwd; // Used only for FM-index based pipeline
+  float     **opt_ext_rev; // Used only for FM-index based pipeline
+} P7_SCOREDATA;
+
+
+/*****************************************************************
+ * 13. P7_HMM_WINDOW: data used to track lists of sequence windows
+ *****************************************************************/
+
+
+typedef struct p7_hmm_window_s {
+  float      score;
+  float      null_sc;
+  int32_t    id;          //sequence id of the database sequence hit
+  int64_t    n;           //position in database sequence at which the diagonal/window starts
+  int64_t    fm_n;        //position in the concatenated fm-index sequence at which the diagonal starts
+  int32_t    length;      // length of the diagonal/window
+  int16_t    k;           //position of the model at which the diagonal ends
+  int64_t    target_len;  //length of the target sequence
+  int8_t     complementarity;
+  int8_t     used_to_extend;
+} P7_HMM_WINDOW;
+
+typedef struct p7_hmm_window_list_s {
+  P7_HMM_WINDOW *windows;
+  int       count;
+  int       size;
+} P7_HMM_WINDOWLIST;
+
+
+
+/*****************************************************************
+ * 14. The optimized implementation.
+ *****************************************************************/
+#if   defined (p7_IMPL_SSE)
+#include "impl_sse/impl_sse.h"
+#elif defined (p7_IMPL_VMX)
+#include "impl_vmx/impl_vmx.h"
+#else
+#include "impl_dummy/impl_dummy.h"
+#endif
+
+
+/*****************************************************************
+ * 15. The FM-index acceleration to the SSV filter.  Only works for SSE
+ *****************************************************************/
+#define FM_MAX_LINE 256
+
+/* Structure the 2D occ array into a single array.  "type" is either b or sb.
+ * Note that one extra count value is required by RLE, one 4-byte int for
+ * each superblock count vector, and one 2-byte short for each block count
+ * vector. This is small overhead, even for a small alphabet like dna.
+ */
+#define FM_OCC_CNT( type, i, c)  ( occCnts_##type[(meta->alph_size)*(i) + (c)])
+
+enum fm_alphabettypes_e {
+  fm_DNA        = 0,  //acgt,  2 bit
+  //fm_DNA_full   = 1,  //includes ambiguity codes, 4 bit.
+  fm_AMINO      = 4,  // 5 bit
+};
+/*TODO: fm_DNA_full has currently been disabled because of problems with how the
+ * FM index handles very long runs of the same character (in this case, Ns).
+ * See wheelert/notebook/2013/12-11-FM-alphabet-speed notes on 12/12.
+ */
+
+enum fm_direction_e {
+  fm_forward    = 0,
+  fm_backward   = 1,
+};
+
+
+typedef struct fm_interval_s {
+  int   lower;
+  int   upper;
+} FM_INTERVAL;
+
+typedef struct fm_hit_s {
+  uint64_t  start;
+  uint32_t  block;
+  int       direction;
+  int       length;
+  int       sortkey;
+} FM_HIT;
+
+
+
+typedef struct fm_ambiglist_s {
+  FM_INTERVAL *ranges;
+  uint32_t     count;
+  uint32_t     size;
+} FM_AMBIGLIST;
+
+
+typedef struct fm_seqdata_s {
+
+  uint32_t target_id;      // Which sequence in the target database did this segment come from (can be multiple segment per sequence, if a sequence has Ns)
+  uint64_t target_start;   // The position in sequence {id} in the target database at which this sequence-block starts (usually 1, unless its a long sequence split out over multiple FMs)
+  uint32_t fm_start;       // The position in the FM block at which this sequence begins
+  uint32_t length;         // Length of this sequence segment  (usually the length of the target sequence, unless its a long sequence split out over multiple FMs)
+
+
+  //meta data taken from the sequence this segment was taken from
+  uint16_t name_length;
+  uint16_t source_length;
+  uint16_t acc_length;
+  uint16_t desc_length;
+  char     *name;
+  char     *source;
+  char     *acc;
+  char     *desc;
+} FM_SEQDATA;
+
+
+typedef struct fm_metadata_s {
+  uint8_t  fwd_only;
+  uint8_t  alph_type;
+  uint8_t  alph_size;
+  uint8_t  charBits;
+  uint32_t freq_SA; //frequency with which SA is sampled
+  uint32_t freq_cnt_sb; //frequency with which full cumulative counts are captured
+  uint32_t freq_cnt_b; //frequency with which intermittent counts are captured
+  uint16_t block_count;
+  uint32_t seq_count;
+  uint64_t char_count; //total count of characters including those in and out of the alphabet
+  char     *alph;
+  char     *inv_alph;
+  int      *compl_alph;
+  FILE         *fp;
+  FM_SEQDATA   *seq_data;
+  FM_AMBIGLIST *ambig_list;
+} FM_METADATA;
+
+
+typedef struct fm_data_s {
+  uint64_t N; //length of text
+  uint32_t term_loc; // location in the BWT at which the '$' char is found (replaced in the sequence with 'a')
+  uint32_t seq_offset;
+  uint32_t ambig_offset;
+  uint32_t seq_cnt;
+  uint32_t ambig_cnt;
+  uint32_t overlap; // number of bases at the beginning that overlap the FM-index for the preceding block
+  uint8_t  *T;  //text corresponding to the BWT
+  uint8_t  *BWT_mem;
+  uint8_t  *BWT;
+  uint32_t *SA; // sampled suffix array
+  int64_t  *C; //the first position of each letter of the alphabet if all of T is sorted.  (signed, as I use that to keep tract of presence/absence)
+  uint32_t *occCnts_sb;
+  uint16_t *occCnts_b;
+} FM_DATA;
+
+typedef struct fm_dp_pair_s {
+  uint16_t    pos;  // position of the diagonal in the model.
+  float       score;
+  float       max_score;
+  uint8_t     score_peak_len; // how long was the diagonal when the most recent peak (within fm_drop_lim of the max score) was seen?
+  uint8_t     consec_pos;
+  uint8_t     max_consec_pos;
+  uint8_t     consec_consensus;
+  uint8_t     model_direction;
+  uint8_t     complementarity;
+} FM_DP_PAIR;
+
+
+typedef struct fm_diag_s {
+  uint64_t    n;  //position of the database sequence at which the diagonal starts
+  union {
+    double    sortkey;
+    double    score;
+  };
+  uint16_t    k;  //position of the model at which the diagonal starts
+  uint16_t    length;
+  uint8_t     complementarity;
+} FM_DIAG;
+
+typedef struct fm_diaglist_s {
+  FM_DIAG   *diags;
+  int       count;
+  int       size;
+} FM_DIAGLIST;
+
+/* Effectively global variables, to be initialized once in fm_initConfig(),
+ * then passed around among threads to avoid recomputing them
+ *
+ * When allocated, must be 16-byte aligned, and all _m128i elements
+ * must precede other types
+ */
+typedef struct {
+#if   defined (p7_IMPL_SSE)
+  /* mask arrays, and 16-byte-offsets into them */
+  __m128i *fm_masks_mem;
+  __m128i *fm_masks_v;
+  __m128i *fm_reverse_masks_mem;
+  __m128i *fm_reverse_masks_v;
+  __m128i *fm_chars_mem;
+  __m128i *fm_chars_v;
+
+  /*various precomputed vectors*/
+  __m128i fm_allones_v;
+  __m128i fm_zeros_v;
+  __m128i fm_neg128_v;
+  __m128i fm_m0f;  //00 00 11 11
+  __m128i fm_m01;  //01 01 01 01
+  __m128i fm_m11;  //00 00 00 11
+
+  /* no non-__m128i- elements above this line */
+#endif //#if   defined (p7_IMPL_SSE)
+
+  /*counter, to compute FM-index speed*/
+  int occCallCnt;
+
+  /*bounding cutoffs*/
+  int max_depth;
+  float drop_lim;  // 0.2 ; in seed, max drop in a run of length [fm_drop_max_len]
+  int drop_max_len; // 4 ; maximum run length with score under (max - [fm_drop_lim])
+  int consec_pos_req; //5
+  int consensus_match_req; //10
+  float score_density_req; //.5
+  int ssv_length;
+  float scthreshFM;
+  float sc_thresh_ratio; //information content deficit,  actual_relent/target_relent
+
+  /*pointer to FM-index metadata*/
+  FM_METADATA *meta;
+
+} FM_CFG;
+
+
+#if   defined (p7_IMPL_SSE)
+//used to convert from a byte array to an __m128i
+typedef union {
+        uint8_t bytes[16];
+        __m128i m128;
+        } byte_m128;
+
+
+/* Gather the sum of all counts in a 16x8-bit element into a single 16-bit
+ *  element of the register (the 0th element)
+ *
+ *  the _mm_sad_epu8  accumulates 8-bit counts into 16-bit counts:
+ *      left 8 counts (64-bits) accumulate in counts_v[0],
+ *      right 8 counts in counts_v[4]  (the other 6 16-bit ints are 0)
+ *  the _mm_shuffle_epi32  flips the 4th int into the 0th slot
+ */
+#define FM_GATHER_8BIT_COUNTS( in_v, mid_v, out_v  ) do {\
+    mid_v = _mm_sad_epu8 (in_v, cfg->fm_zeros_v);\
+    tmp_v = _mm_shuffle_epi32(mid_v, _MM_SHUFFLE(1, 1, 1, 2));\
+    out_v = _mm_add_epi16(mid_v, tmp_v);\
+  } while (0)
+
+
+/* Macro for SSE operations to turn 2-bit character values into 2-bit binary
+ * (00 or 01) match/mismatch values representing occurrences of a character in a
+ * 4-char-per-byte packed BWT.
+ *
+ * Typically followed by a call to FM_COUNT_SSE_4PACKED, possibly with a
+ * mask in between to handle the case where we don't want to add over all
+ * positions in the vector
+ *
+ * tmp_v and tmp2_v are used as temporary vectors throughout, and hold meaningless values
+ * at the end
+ *
+ * xor(in_v, c_v)        : each 2-bit value will be 00 if a match, and non-0 if a mismatch
+ * and(in_v, 01010101)   : look at the right bit of each 2-bit value,
+ * srli(1)+and()         : look at the left bit of each 2-bit value,
+ * or()                  : if either left bit or right bit is non-0, 01, else 00 (match is 00)
+ *
+ * subs()                : invert, so match is 01, mismatch is 00
+ *
+ */
+#define FM_MATCH_2BIT(in_v, c_v, a_v, b_v, out_v) do {\
+    a_v = _mm_xor_si128(in_v, c_v);\
+    \
+    b_v  = _mm_srli_epi16(a_v, 1);\
+    a_v  = _mm_or_si128(a_v, b_v);\
+    b_v  = _mm_and_si128(a_v, cfg->fm_m01);\
+    \
+    out_v  = _mm_subs_epi8(cfg->fm_m01,b_v);\
+  } while (0)
+
+
+/*Macro for SSE operations to count bits produced by FM_MATCH_SSE_4PACKED
+ *
+ * tmp_v and tmp2_v are used as temporary vectors throughout, and hold meaningless values
+ * at the end
+ *
+ * then add up the 2-bit values:
+ * srli(4)+add()         : left 4 bits shifted right, added to right 4 bits
+ *
+ * srli(2)+and(00000011) : left 2 bits (value 0..2) shifted right, masked, so no other bits active
+ * and(00000011)         : right 2 bits (value 0..2) masked so no other bits active
+ *
+ * final 2 add()s        : tack current counts on to already-tabulated counts.
+ */
+#define FM_COUNT_2BIT(a_v, b_v, cnts_v) do {\
+        b_v = _mm_srli_epi16(a_v, 4);\
+        a_v  = _mm_add_epi16(a_v, b_v);\
+        \
+        b_v = _mm_srli_epi16(a_v, 2);\
+        a_v  = _mm_and_si128(a_v,cfg->fm_m11);\
+        b_v = _mm_and_si128(b_v,cfg->fm_m11);\
+        \
+        cnts_v = _mm_add_epi16(cnts_v, a_v);\
+        cnts_v = _mm_add_epi16(cnts_v, b_v);\
+  } while (0)
+
+
+
+/* Macro for SSE operations that turns a vector of 4-bit character values into
+ * 2 vectors representing matches. Each byte in the input vector consists of
+ * a left half (4 bits) and a right half (4 bits). The 16 left-halves produce
+ * one vector, which contains all-1s for bytes in which the left half matches
+ * the c_v character (and 0s if it doesn't), while the 16 right-halves produce
+ * the other vector, again with each byte either all-1s or all-0s.
+ *
+ * The expectation is that FM_COUNT_4BIT will be called after this, to
+ * turn these binary values into sums over a series of vectors. The macros
+ * are split up to allow one end or other to be trimmed in the case that
+ * counting is not expected to include the full vector.
+ *
+ * srli(4)+and() : capture the left 4-bit value   (need the mask because 16-bit shift leaves garbage in left-4-bit chunks)
+ * and()         : capture the right 4-bit value
+ *
+ * cmpeq()x2     : test if both left and right == c.  For each, if ==c , value = 11111111 (-1)
+ */
+#define FM_MATCH_4BIT(in_v, c_v, out1_v, out2_v) do {\
+    out1_v    = _mm_srli_epi16(in_v, 4);\
+    out2_v    = _mm_and_si128(in_v, cfg->fm_m0f);\
+    out1_v    = _mm_and_si128(out1_v, cfg->fm_m0f);\
+    \
+    out1_v    = _mm_cmpeq_epi8(out1_v, c_v);\
+    out2_v    = _mm_cmpeq_epi8(out2_v, c_v);\
+  } while (0)
+
+
+/* Macro for SSE operations that turns a vector of 4-bit character values into
+ * 2 vectors representing matches. Each byte in the input vector consists of
+ * a left half (4 bits) and a right half (4 bits). The 16 left-halves produce
+ * one vector, which contains all-1s for bytes in which the left half is less than
+ * the c_v character (and 0s if it doesn't), while the 16 right-halves produce
+ * the other vector, again with each byte either all-1s or all-0s.
+ *
+ * The expectation is that FM_COUNT_4BIT will be called after this, to
+ * turn these binary values into sums over a series of vectors. The macros
+ * are split up to allow one end or other to be trimmed in the case that
+ * counting is not expected to include the full vector.
+ *
+ * srli(4)+and() : capture the left 4-bit value   (need the mask because 16-bit shift leaves garbage in left-4-bit chunks)
+ * and()         : capture the right 4-bit value
+ *
+ * cmplt()x2     : test if both left and right < c.  For each, if <c , value = 11111111 (-1)
+ */
+#define FM_LT_4BIT(in_v, c_v, out1_v, out2_v) do {\
+    out1_v    = _mm_srli_epi16(in_v, 4);\
+    out2_v    = _mm_and_si128(in_v, cfg->fm_m0f);\
+    out1_v    = _mm_and_si128(out1_v, cfg->fm_m0f);\
+    \
+    out1_v    = _mm_cmplt_epi8(out1_v, c_v);\
+    out2_v    = _mm_cmplt_epi8(out2_v, c_v);\
+  } while (0)
+
+
+
+/* Macro for SSE operations to add occurrence counts to the tally vector counts_v,
+ * in the 4-bits-per-character case
+ *
+ * The expectation is that in[12]_v will contain bytes that are either
+ *   00000000  =  0
+ *  or
+ *   11111111  = -1
+ * so subtracting the value of the byte is the same as adding 0 or 1.
+ */
+#define FM_COUNT_4BIT(in1_v, in2_v, cnts_v) do {\
+    cnts_v = _mm_subs_epi8(cnts_v, in1_v);\
+    cnts_v = _mm_subs_epi8(cnts_v, in2_v);\
+  } while (0)
+
+
+#endif  // if  defined (p7_IMPL_SSE)
+
+/*****************************************************************
+ * 16. P7_PIPELINE: H3's accelerated seq/profile comparison pipeline
+ *****************************************************************/
+
+enum p7_pipemodes_e { p7_SEARCH_SEQS = 0, p7_SCAN_MODELS = 1 };
+enum p7_zsetby_e    { p7_ZSETBY_NTARGETS = 0, p7_ZSETBY_OPTION = 1, p7_ZSETBY_FILEINFO = 2 };
+enum p7_complementarity_e { p7_NOCOMPLEMENT    = 0, p7_COMPLEMENT   = 1 };
+
+typedef struct p7_pipeline_s {
+  /* Dynamic programming matrices                                           */
+  P7_OMX     *oxf;		/* one-row Forward matrix, accel pipe       */
+  P7_OMX     *oxb;		/* one-row Backward matrix, accel pipe      */
+  P7_OMX     *fwd;		/* full Fwd matrix for domain envelopes     */
+  P7_OMX     *bck;		/* full Bck matrix for domain envelopes     */
+
+  /* Domain postprocessing                                                  */
+  ESL_RANDOMNESS *r;		/* random number generator                  */
+  int             do_reseeding; /* TRUE: reseed for reproducible results    */
+  int             do_alignment_score_calc;
+  P7_DOMAINDEF   *ddef;		/* domain definition workflow               */
+
+
+  /* Reporting threshold settings                                           */
+  int     by_E;		        /* TRUE to cut per-target report off by E   */
+  double  E;	                /* per-target E-value threshold             */
+  double  T;	                /* per-target bit score threshold           */
+  int     dom_by_E;             /* TRUE to cut domain reporting off by E    */
+  double  domE;	                /* domain E-value threshold                 */
+  double  domT;	                /* domain bit score threshold               */
+  int     use_bit_cutoffs;      /* (FALSE | p7H_GA | p7H_TC | p7H_NC)       */
+
+  /* Inclusion threshold settings                                           */
+  int     inc_by_E;		/* TRUE to threshold inclusion by E-values  */
+  double  incE;			/* per-target inclusion E-value threshold   */
+  double  incT;			/* per-target inclusion score threshold     */
+  int     incdom_by_E;		/* TRUE to threshold domain inclusion by E  */
+  double  incdomE;		/* per-domain inclusion E-value threshold   */
+  double  incdomT;		/* per-domain inclusion E-value threshold   */
+
+  /* Tracking search space sizes for E value calculations                   */
+  double  Z;			/* eff # targs searched (per-target E-val)  */
+  double  domZ;			/* eff # signific targs (per-domain E-val)  */
+  enum p7_zsetby_e Z_setby;   	/* how Z was set                            */
+  enum p7_zsetby_e domZ_setby;	/* how domZ was set                         */
+  
+  /* Threshold settings for pipeline                                        */
+  int     do_max;	        /* TRUE to run in slow/max mode             */
+  double  F1;		        /* MSV filter threshold                     */
+  double  F2;		        /* Viterbi filter threshold                 */
+  double  F3;		        /* uncorrected Forward filter threshold     */
+  int     B1;               /* window length for biased-composition modifier - MSV*/
+  int     B2;               /* window length for biased-composition modifier - Viterbi*/
+  int     B3;               /* window length for biased-composition modifier - Forward*/
+  int     do_biasfilter;	/* TRUE to use biased comp HMM filter       */
+  int     do_null2;		/* TRUE to use null2 score corrections      */
+
+  /* Accounting. (reduceable in threaded/MPI parallel version)              */
+  uint64_t      nmodels;        /* # of HMMs searched                       */
+  uint64_t      nseqs;	        /* # of sequences searched                  */
+  uint64_t      nres;	        /* # of residues searched                   */
+  uint64_t      nnodes;	        /* # of model nodes searched                */
+  uint64_t      n_past_msv;	/* # comparisons that pass MSVFilter()      */
+  uint64_t      n_past_bias;	/* # comparisons that pass bias filter      */
+  uint64_t      n_past_vit;	/* # comparisons that pass ViterbiFilter()  */
+  uint64_t      n_past_fwd;	/* # comparisons that pass ForwardFilter()  */
+  uint64_t      n_output;	    /* # alignments that make it to the final output (used for nhmmer) */
+  uint64_t      pos_past_msv;	/* # positions that pass MSVFilter()  (used for nhmmer) */
+  uint64_t      pos_past_bias;	/* # positions that pass bias filter  (used for nhmmer) */
+  uint64_t      pos_past_vit;	/* # positions that pass ViterbiFilter()  (used for nhmmer) */
+  uint64_t      pos_past_fwd;	/* # positions that pass ForwardFilter()  (used for nhmmer) */
+  uint64_t      pos_output;	    /* # positions that make it to the final output (used for nhmmer) */
+
+  enum p7_pipemodes_e mode;    	/* p7_SCAN_MODELS | p7_SEARCH_SEQS          */
+  int           long_targets;   /* TRUE if the target sequences are expected to be very long (e.g. dna chromosome search in nhmmer) */
+  int           strands;         /*  p7_STRAND_TOPONLY  | p7_STRAND_BOTTOMONLY |  p7_STRAND_BOTH */
+  int 		    	W;              /* window length for nhmmer scan - essentially maximum length of model that we expect to find*/
+  int           block_length;   /* length of overlapping blocks read in the multi-threaded variant (default MAX_RESIDUE_COUNT) */
+
+  int           show_accessions;/* TRUE to output accessions not names      */
+  int           show_alignments;/* TRUE to output alignments (default)      */
+
+  P7_HMMFILE   *hfp;		/* COPY of open HMM database (if scan mode) */
+  char          errbuf[eslERRBUFSIZE];
+} P7_PIPELINE;
+
+
+
+/*****************************************************************
+ * 17. P7_BUILDER: pipeline for new HMM construction
+ *****************************************************************/
+
+#define p7_DEFAULT_WINDOW_BETA  1e-7
+
+enum p7_archchoice_e { p7_ARCH_FAST = 0, p7_ARCH_HAND = 1 };
+enum p7_wgtchoice_e  { p7_WGT_NONE  = 0, p7_WGT_GIVEN = 1, p7_WGT_GSC    = 2, p7_WGT_PB       = 3, p7_WGT_BLOSUM = 4 };
+enum p7_effnchoice_e { p7_EFFN_NONE = 0, p7_EFFN_SET  = 1, p7_EFFN_CLUST = 2, p7_EFFN_ENTROPY = 3 };
+
+typedef struct p7_builder_s {
+  /* Model architecture                                                                            */
+  enum p7_archchoice_e arch_strategy;    /* choice of model architecture determination algorithm   */
+  float                symfrac;	         /* residue occ thresh for fast architecture determination */
+  float                fragthresh;	 /* if L <= fragthresh*alen, seq is called a fragment      */
+
+  /* Relative sequence weights                                                                     */
+  enum p7_wgtchoice_e  wgt_strategy;     /* choice of relative sequence weighting algorithm        */
+  double               wid;		 /* %id threshold for BLOSUM relative weighting            */
+
+  /* Effective sequence number                                                                     */
+  enum p7_effnchoice_e effn_strategy;    /* choice of effective seq # determination algorithm      */
+  double               re_target;	 /* rel entropy target for effn eweighting, if set; or -1.0*/
+  double               esigma;		 /* min total rel ent parameter for effn entropy weights   */
+  double               eid;		 /* %id threshold for effn clustering                      */
+  double               eset;		 /* effective sequence number, if --eset; or -1.0          */
+
+  /* Run-to-run variation due to random number generation                                          */
+  ESL_RANDOMNESS      *r;	         /* RNG for E-value calibration simulations                */
+  int                  do_reseeding;	 /* TRUE to reseed, making results reproducible            */
+
+  /* E-value parameter calibration                                                                 */
+  int                  EmL;            	 /* length of sequences generated for MSV fitting          */
+  int                  EmN;	         /* # of sequences generated for MSV fitting               */
+  int                  EvL;            	 /* length of sequences generated for Viterbi fitting      */
+  int                  EvN;	         /* # of sequences generated for Viterbi fitting           */
+  int                  EfL;	         /* length of sequences generated for Forward fitting      */
+  int                  EfN;	         /* # of sequences generated for Forward fitting           */
+  double               Eft;	         /* tail mass used for Forward fitting                     */
+
+  /* Choice of prior                                                                               */
+  P7_PRIOR            *prior;	         /* choice of prior when parameterizing from counts        */
+  int                  max_insert_len;
+
+  /* Optional: information used for parameterizing single sequence queries                         */
+  ESL_SCOREMATRIX     *S;		 /* residue score matrix                                   */
+  ESL_DMATRIX         *Q;	         /* Q->mx[a][b] = P(b|a) residue probabilities             */
+  double               popen;         	 /* gap open probability                                   */
+  double               pextend;          /* gap extend probability                                 */
+
+  double               w_beta;    /*beta value used to compute W (window length)   */
+  int                  w_len;     /*W (window length)  explicitly set */
+
+  const ESL_ALPHABET  *abc;		 /* COPY of alphabet                                       */
+  char errbuf[eslERRBUFSIZE];            /* informative message on model construction failure      */
+} P7_BUILDER;
+
+
+
+/*****************************************************************
+ * 18. Routines in HMMER's exposed API.
+ *****************************************************************/
+
+/* build.c */
+extern int p7_Handmodelmaker(ESL_MSA *msa,                P7_BUILDER *bld, P7_HMM **ret_hmm, P7_TRACE ***ret_tr);
+extern int p7_Fastmodelmaker(ESL_MSA *msa, float symfrac, P7_BUILDER *bld, P7_HMM **ret_hmm, P7_TRACE ***ret_tr);
+
+/* emit.c */
+extern int p7_CoreEmit   (ESL_RANDOMNESS *r, const P7_HMM *hmm,                                        ESL_SQ *sq, P7_TRACE *tr);
+extern int p7_ProfileEmit(ESL_RANDOMNESS *r, const P7_HMM *hmm, const P7_PROFILE *gm, const P7_BG *bg, ESL_SQ *sq, P7_TRACE *tr);
+extern int p7_emit_SimpleConsensus(const P7_HMM *hmm, ESL_SQ *sq);
+extern int p7_emit_FancyConsensus (const P7_HMM *hmm, float min_lower, float min_upper, ESL_SQ *sq);
+
+/* errors.c */
+extern void p7_Die (char *format, ...);
+extern void p7_Fail(char *format, ...);
+
+/* evalues.c */
+extern int p7_Calibrate(P7_HMM *hmm, P7_BUILDER *cfg_b, ESL_RANDOMNESS **byp_rng, P7_BG **byp_bg, P7_PROFILE **byp_gm, P7_OPROFILE **byp_om);
+extern int p7_Lambda(P7_HMM *hmm, P7_BG *bg, double *ret_lambda);
+extern int p7_MSVMu     (ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda,               double *ret_mmu);
+extern int p7_ViterbiMu (ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda,               double *ret_vmu);
+extern int p7_Tau       (ESL_RANDOMNESS *r, P7_OPROFILE *om, P7_BG *bg, int L, int N, double lambda, double tailp, double *ret_tau);
+
+/* eweight.c */
+extern int p7_EntropyWeight(const P7_HMM *hmm, const P7_BG *bg, const P7_PRIOR *pri, double infotarget, double *ret_Neff);
+
+
+/* generic_decoding.c */
+extern int p7_GDecoding      (const P7_PROFILE *gm, const P7_GMX *fwd,       P7_GMX *bck, P7_GMX *pp);
+extern int p7_GDomainDecoding(const P7_PROFILE *gm, const P7_GMX *fwd, const P7_GMX *bck, P7_DOMAINDEF *ddef);
+
+/* generic_fwdback.c */
+extern int p7_GForward     (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *ret_sc);
+extern int p7_GBackward    (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *ret_sc);
+extern int p7_GHybrid      (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *opt_fwdscore, float *opt_hybscore);
+
+/* generic_msv.c */
+extern int p7_GMSV           (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx, float nu, float *ret_sc);
+extern int p7_GMSV_longtarget(const ESL_DSQ *dsq, int L, P7_PROFILE *gm, P7_GMX *gx, float nu,  P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist);
+
+/* generic_null2.c */
+extern int p7_GNull2_ByExpectation(const P7_PROFILE *gm, P7_GMX *pp, float *null2);
+extern int p7_GNull2_ByTrace      (const P7_PROFILE *gm, const P7_TRACE *tr, int zstart, int zend, P7_GMX *wrk, float *null2);
+
+/* generic_optacc.c */
+extern int p7_GOptimalAccuracy(const P7_PROFILE *gm, const P7_GMX *pp,       P7_GMX *gx, float *ret_e);
+extern int p7_GOATrace        (const P7_PROFILE *gm, const P7_GMX *pp, const P7_GMX *gx, P7_TRACE *tr);
+
+/* generic_stotrace.c */
+extern int p7_GStochasticTrace(ESL_RANDOMNESS *r, const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, const P7_GMX *gx, P7_TRACE *tr);
+
+/* generic_viterbi.c */
+extern int p7_GViterbi     (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm,       P7_GMX *gx, float *ret_sc);
+
+/* generic_vtrace.c */
+extern int p7_GTrace       (const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, const P7_GMX *gx, P7_TRACE *tr);
+extern int p7_GViterbi_longtarget(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMX *gx,
+                       float filtersc, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* heatmap.c (evolving now, intend to move this to Easel in the future) */
+extern double dmx_upper_max(ESL_DMATRIX *D);
+extern double dmx_upper_min(ESL_DMATRIX *D);
+extern double dmx_upper_element_sum(ESL_DMATRIX *D);
+extern double dmx_upper_norm(ESL_DMATRIX *D);
+extern int    dmx_Visualize(FILE *fp, ESL_DMATRIX *D, double min, double max);
+
+/* hmmdutils.c */
+extern void p7_openlog(const char *ident, int option, int facility);
+extern void p7_syslog(int priority, const char *format, ...);
+extern void p7_closelog(void);
+
+/* hmmlogo.c */
+extern float hmmlogo_maxHeight (P7_BG *bg);
+extern int hmmlogo_RelativeEntropy_all      (P7_HMM *hmm, P7_BG *bg, float *rel_ents, float **probs, float **heights );
+extern int hmmlogo_RelativeEntropy_above_bg (P7_HMM *hmm, P7_BG *bg, float *rel_ents, float **probs, float **heights );
+extern int hmmlogo_ScoreHeights (P7_HMM *hmm, P7_BG *bg, float **heights );
+extern int hmmlogo_IndelValues (P7_HMM *hmm, float *insert_P, float *insert_expL, float *delete_P );
+
+
+
+/* hmmpgmd2msa.c */
+extern int hmmpgmd2msa(void *data, P7_HMM *hmm, ESL_SQ *qsq,  int *incl, int incl_size, int *excl, int excl_size, ESL_MSA **ret_msa);
+
+
+
+/* island.c */
+extern int   p7_island_Viterbi(ESL_DSQ *dsq, int L, P7_PROFILE *gm, P7_GMX *mx, ESL_HISTOGRAM *h);
+
+/* h2_io.c */
+extern int   p7_h2io_WriteASCII(FILE *fp, P7_HMM *hmm);
+
+/* hmmer.c */
+extern void         p7_banner(FILE *fp, char *progname, char *banner);
+extern ESL_GETOPTS *p7_CreateDefaultApp(ESL_OPTIONS *options, int nargs, int argc, char **argv, char *banner, char *usage);
+extern int          p7_AminoFrequencies(float *f);
+
+/* logsum.c */
+extern int   p7_FLogsumInit(void);
+extern float p7_FLogsum(float a, float b);
+extern float p7_FLogsumError(float a, float b);
+extern int   p7_ILogsumInit(void);
+extern int   p7_ILogsum(int s1, int s2);
+
+
+/* modelconfig.c */
+extern int p7_ProfileConfig(const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, int mode);
+extern int p7_ReconfigLength  (P7_PROFILE *gm, int L);
+extern int p7_ReconfigMultihit(P7_PROFILE *gm, int L);
+extern int p7_ReconfigUnihit  (P7_PROFILE *gm, int L);
+
+/* modelstats.c */
+extern double p7_MeanMatchInfo           (const P7_HMM *hmm, const P7_BG *bg);
+extern double p7_MeanMatchEntropy        (const P7_HMM *hmm);
+extern double p7_MeanMatchRelativeEntropy(const P7_HMM *hmm, const P7_BG *bg);
+extern double p7_MeanForwardScore        (const P7_HMM *hmm, const P7_BG *bg);
+extern int    p7_MeanPositionRelativeEntropy(const P7_HMM *hmm, const P7_BG *bg, double *ret_entropy);
+extern int    p7_hmm_CompositionKLDist(P7_HMM *hmm, P7_BG *bg, float *ret_KL, float **opt_avp);
+
+
+/* mpisupport.c */
+#ifdef HAVE_MPI
+extern int p7_hmm_MPISend(P7_HMM *hmm, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_hmm_MPIPackSize(P7_HMM *hmm, MPI_Comm comm, int *ret_n);
+extern int p7_hmm_MPIPack(P7_HMM *hmm, char *buf, int n, int *position, MPI_Comm comm);
+extern int p7_hmm_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_HMM **ret_hmm);
+extern int p7_hmm_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_HMM **ret_hmm);
+
+extern int p7_profile_MPISend(P7_PROFILE *gm, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_profile_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, const P7_BG *bg,
+			      char **buf, int *nalloc,  P7_PROFILE **ret_gm);
+
+extern int p7_pipeline_MPISend(P7_PIPELINE *pli, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_pipeline_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_GETOPTS *go, P7_PIPELINE **ret_pli);
+
+extern int p7_tophits_MPISend(P7_TOPHITS *th, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_tophits_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_TOPHITS **ret_th);
+
+extern int p7_oprofile_MPISend(P7_OPROFILE *om, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+extern int p7_oprofile_MPIPackSize(P7_OPROFILE *om, MPI_Comm comm, int *ret_n);
+extern int p7_oprofile_MPIPack(P7_OPROFILE *om, char *buf, int n, int *pos, MPI_Comm comm);
+extern int p7_oprofile_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_OPROFILE **ret_om);
+#endif /*HAVE_MPI*/
+
+/* tracealign.c */
+extern int p7_tracealign_Seqs(ESL_SQ **sq,           P7_TRACE **tr, int nseq, int M,  int optflags, P7_HMM *hmm, ESL_MSA **ret_msa);
+extern int p7_tracealign_MSA (const ESL_MSA *premsa, P7_TRACE **tr,           int M,  int optflags, ESL_MSA **ret_postmsa);
+extern int p7_tracealign_computeTraces(P7_HMM *hmm, ESL_SQ  **sq, int offset, int N, P7_TRACE  **tr);
+extern int p7_tracealign_getMSAandStats(P7_HMM *hmm, ESL_SQ  **sq, int N, ESL_MSA **ret_msa, float **ret_pp, float **ret_relent, float **ret_scores );
+
+/* p7_alidisplay.c */
+extern P7_ALIDISPLAY *p7_alidisplay_Create(const P7_TRACE *tr, int which, const P7_OPROFILE *om, const ESL_SQ *sq);
+extern P7_ALIDISPLAY *p7_alidisplay_Clone(const P7_ALIDISPLAY *ad);
+extern size_t         p7_alidisplay_Sizeof(const P7_ALIDISPLAY *ad);
+extern int            p7_alidisplay_Serialize(P7_ALIDISPLAY *ad);
+extern int            p7_alidisplay_Deserialize(P7_ALIDISPLAY *ad);
+extern void           p7_alidisplay_Destroy(P7_ALIDISPLAY *ad);
+extern char           p7_alidisplay_EncodePostProb(float p);
+extern float          p7_alidisplay_DecodePostProb(char pc);
+extern char           p7_alidisplay_EncodeAliPostProb(float p, float hi, float med, float lo);
+extern int            p7_alidisplay_Print(FILE *fp, P7_ALIDISPLAY *ad, int min_aliwidth, int linewidth, int show_accessions);
+extern int            p7_alidisplay_Backconvert(const P7_ALIDISPLAY *ad, const ESL_ALPHABET *abc, ESL_SQ **ret_sq, P7_TRACE **ret_tr);
+extern int            p7_alidisplay_Dump(FILE *fp, const P7_ALIDISPLAY *ad);
+extern int            p7_alidisplay_Compare(const P7_ALIDISPLAY *ad1, const P7_ALIDISPLAY *ad2);
+
+/* p7_bg.c */
+extern P7_BG *p7_bg_Create(const ESL_ALPHABET *abc);
+extern P7_BG *p7_bg_CreateUniform(const ESL_ALPHABET *abc);
+extern P7_BG *p7_bg_Clone(const P7_BG *bg);
+extern int    p7_bg_Dump(FILE *ofp, const P7_BG *bg);
+extern void   p7_bg_Destroy(P7_BG *bg);
+extern int    p7_bg_SetLength(P7_BG *bg, int L);
+extern int    p7_bg_NullOne(const P7_BG *bg, const ESL_DSQ *dsq, int L, float *ret_sc);
+
+extern int    p7_bg_Read(char *bgfile, P7_BG *bg, char *errbuf);
+extern int    p7_bg_Write(FILE *fp, P7_BG *bg);
+
+extern int    p7_bg_SetFilter  (P7_BG *bg, int M, const float *compo);
+extern int    p7_bg_FilterScore(P7_BG *bg, const ESL_DSQ *dsq, int L, float *ret_sc);
+
+/* p7_builder.c */
+extern P7_BUILDER *p7_builder_Create(const ESL_GETOPTS *go, const ESL_ALPHABET *abc);
+extern int         p7_builder_LoadScoreSystem(P7_BUILDER *bld, const char *matrix,                  double popen, double pextend, P7_BG *bg);
+extern int         p7_builder_SetScoreSystem (P7_BUILDER *bld, const char *mxfile, const char *env, double popen, double pextend, P7_BG *bg);
+extern void        p7_builder_Destroy(P7_BUILDER *bld);
+
+extern int p7_Builder      (P7_BUILDER *bld, ESL_MSA *msa, P7_BG *bg, P7_HMM **opt_hmm, P7_TRACE ***opt_trarr, P7_PROFILE **opt_gm, P7_OPROFILE **opt_om, ESL_MSA **opt_postmsa);
+extern int p7_SingleBuilder(P7_BUILDER *bld, ESL_SQ *sq,   P7_BG *bg, P7_HMM **opt_hmm, P7_TRACE  **opt_tr,    P7_PROFILE **opt_gm, P7_OPROFILE **opt_om); 
+extern int p7_Builder_MaxLength      (P7_HMM *hmm, double emit_thresh);
+
+/* p7_domaindef.c */
+extern P7_DOMAINDEF *p7_domaindef_Create (ESL_RANDOMNESS *r);
+extern int           p7_domaindef_Fetch  (P7_DOMAINDEF *ddef, int which, int *opt_i, int *opt_j, float *opt_sc, P7_ALIDISPLAY **opt_ad);
+extern int           p7_domaindef_GrowTo (P7_DOMAINDEF *ddef, int L);
+extern int           p7_domaindef_Reuse  (P7_DOMAINDEF *ddef);
+extern int           p7_domaindef_DumpPosteriors(FILE *ofp, P7_DOMAINDEF *ddef);
+extern void          p7_domaindef_Destroy(P7_DOMAINDEF *ddef);
+
+extern int p7_domaindef_ByViterbi            (P7_PROFILE *gm, const ESL_SQ *sq, P7_GMX *gx1, P7_GMX *gx2, P7_DOMAINDEF *ddef);
+extern int p7_domaindef_ByPosteriorHeuristics(const ESL_SQ *sq, P7_OPROFILE *om, P7_OMX *oxf, P7_OMX *oxb, P7_OMX *fwd, P7_OMX *bck,
+				                                  P7_DOMAINDEF *ddef, P7_BG *bg, int long_target,
+				                                  P7_BG *bg_tmp, float *scores_arr, float *fwd_emissions_arr);
+
+
+/* p7_gmx.c */
+extern P7_GMX *p7_gmx_Create (int allocM, int allocL);
+extern int     p7_gmx_GrowTo (P7_GMX *gx, int allocM, int allocL);
+extern size_t  p7_gmx_Sizeof (P7_GMX *gx);
+extern int     p7_gmx_Reuse  (P7_GMX *gx);
+extern void    p7_gmx_Destroy(P7_GMX *gx);
+extern int     p7_gmx_Compare(P7_GMX *gx1, P7_GMX *gx2, float tolerance);
+extern int     p7_gmx_Dump(FILE *fp, P7_GMX *gx, int flags);
+extern int     p7_gmx_DumpWindow(FILE *fp, P7_GMX *gx, int istart, int iend, int kstart, int kend, int show_specials);
+
+
+/* p7_hmm.c */
+/*      1. The P7_HMM object: allocation, initialization, destruction. */
+extern P7_HMM *p7_hmm_Create(int M, const ESL_ALPHABET *abc);
+extern P7_HMM *p7_hmm_CreateShell(void);
+extern int     p7_hmm_CreateBody(P7_HMM *hmm, int M, const ESL_ALPHABET *abc);
+extern void    p7_hmm_Destroy(P7_HMM *hmm);
+extern int     p7_hmm_CopyParameters(const P7_HMM *src, P7_HMM *dest);
+extern P7_HMM *p7_hmm_Clone(const P7_HMM *hmm);
+extern int     p7_hmm_Zero(P7_HMM *hmm);
+extern char    p7_hmm_EncodeStatetype(char *typestring);
+extern char   *p7_hmm_DecodeStatetype(char st);
+/*      2. Convenience routines for setting fields in an HMM. */
+extern int     p7_hmm_SetName       (P7_HMM *hmm, char *name);
+extern int     p7_hmm_SetAccession  (P7_HMM *hmm, char *acc);
+extern int     p7_hmm_SetDescription(P7_HMM *hmm, char *desc);
+extern int     p7_hmm_AppendComlog  (P7_HMM *hmm, int argc, char **argv);
+extern int     p7_hmm_SetCtime      (P7_HMM *hmm);
+extern int     p7_hmm_SetComposition(P7_HMM *hmm);
+extern int     p7_hmm_SetConsensus  (P7_HMM *hmm, ESL_SQ *sq);
+/*      3. Renormalization and rescaling counts in core HMMs. */
+extern int     p7_hmm_Scale      (P7_HMM *hmm, double scale);
+extern int     p7_hmm_Renormalize(P7_HMM *hmm);
+/*      4. Debugging and development code. */
+extern int     p7_hmm_Dump(FILE *fp, P7_HMM *hmm);
+extern int     p7_hmm_Sample          (ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm);
+extern int     p7_hmm_SampleUngapped  (ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm);
+extern int     p7_hmm_SampleEnumerable(ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm);
+extern int     p7_hmm_SampleUniform   (ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, 
+				     float tmi, float tii, float tmd, float tdd,  P7_HMM **ret_hmm);
+extern int     p7_hmm_Compare(P7_HMM *h1, P7_HMM *h2, float tol);
+extern int     p7_hmm_Validate(P7_HMM *hmm, char *errbuf, float tol);
+/*      5. Other routines in the API */
+extern int     p7_hmm_CalculateOccupancy(const P7_HMM *hmm, float *mocc, float *iocc);
+
+
+
+/* p7_hmmfile.c */
+extern int  p7_hmmfile_OpenE    (char *filename, char *env, P7_HMMFILE **ret_hfp, char *errbuf);
+extern int  p7_hmmfile_OpenENoDB(char *filename, char *env, P7_HMMFILE **ret_hfp, char *errbuf);
+extern int  p7_hmmfile_Open     (char *filename, char *env, P7_HMMFILE **ret_hfp); /* deprecated */
+extern int  p7_hmmfile_OpenNoDB (char *filename, char *env, P7_HMMFILE **ret_hfp); /* deprecated */
+extern int  p7_hmmfile_OpenBuffer(char *buffer, int size, P7_HMMFILE **ret_hfp);
+extern void p7_hmmfile_Close(P7_HMMFILE *hfp);
+#ifdef HMMER_THREADS
+extern int  p7_hmmfile_CreateLock(P7_HMMFILE *hfp);
+#endif
+extern int  p7_hmmfile_WriteBinary(FILE *fp, int format, P7_HMM *hmm);
+extern int  p7_hmmfile_WriteASCII (FILE *fp, int format, P7_HMM *hmm);
+extern int  p7_hmmfile_WriteToString (char **s, int format, P7_HMM *hmm);
+extern int  p7_hmmfile_Read(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc,  P7_HMM **opt_hmm);
+extern int  p7_hmmfile_PositionByKey(P7_HMMFILE *hfp, const char *key);
+extern int  p7_hmmfile_Position(P7_HMMFILE *hfp, const off_t offset);
+
+
+/* p7_hmmwindow.c */
+int p7_hmmwindow_init (P7_HMM_WINDOWLIST *list);
+P7_HMM_WINDOW *p7_hmmwindow_new (P7_HMM_WINDOWLIST *list, uint32_t id, uint32_t pos, uint32_t fm_pos, uint16_t k, uint32_t length, float score, uint8_t complementarity, uint32_t target_len);
+
+
+
+/* p7_msvdata.c */
+extern P7_SCOREDATA   *p7_hmm_ScoreDataCreate(P7_OPROFILE *om, P7_PROFILE *gm );
+extern P7_SCOREDATA   *p7_hmm_ScoreDataClone(P7_SCOREDATA *src, int K);
+extern int            p7_hmm_ScoreDataComputeRest(P7_OPROFILE *om, P7_SCOREDATA *data );
+extern void           p7_hmm_ScoreDataDestroy( P7_SCOREDATA *data );
+extern int            p7_hmm_initWindows (P7_HMM_WINDOWLIST *list);
+extern P7_HMM_WINDOW *p7_hmm_newWindow (P7_HMM_WINDOWLIST *list, uint32_t id, uint32_t pos, uint32_t fm_pos, uint16_t k, uint32_t length, float score, uint8_t complementarity);
+
+
+
+/* p7_null3.c */
+extern void p7_null3_score(const ESL_ALPHABET *abc, const ESL_DSQ *dsq, P7_TRACE *tr, int start, int stop, P7_BG *bg, float *ret_sc);
+extern void p7_null3_windowed_score(const ESL_ALPHABET *abc, const ESL_DSQ *dsq, int start, int stop, P7_BG *bg, float *ret_sc);
+
+/* p7_pipeline.c */
+extern P7_PIPELINE *p7_pipeline_Create(ESL_GETOPTS *go, int M_hint, int L_hint, int long_targets, enum p7_pipemodes_e mode);
+extern int          p7_pipeline_Reuse  (P7_PIPELINE *pli);
+extern void         p7_pipeline_Destroy(P7_PIPELINE *pli);
+extern int          p7_pipeline_Merge  (P7_PIPELINE *p1, P7_PIPELINE *p2);
+
+extern int p7_pli_ExtendAndMergeWindows (P7_OPROFILE *om, const P7_SCOREDATA *msvdata, P7_HMM_WINDOWLIST *windowlist, float pct_overlap);
+extern int p7_pli_TargetReportable  (P7_PIPELINE *pli, float score,     double lnP);
+extern int p7_pli_DomainReportable  (P7_PIPELINE *pli, float dom_score, double lnP);
+
+extern int p7_pli_TargetIncludable  (P7_PIPELINE *pli, float score,     double lnP);
+extern int p7_pli_DomainIncludable  (P7_PIPELINE *pli, float dom_score, double lnP);
+extern int p7_pli_NewModel          (P7_PIPELINE *pli, const P7_OPROFILE *om, P7_BG *bg);
+extern int p7_pli_NewModelThresholds(P7_PIPELINE *pli, const P7_OPROFILE *om);
+extern int p7_pli_NewSeq            (P7_PIPELINE *pli, const ESL_SQ *sq);
+extern int p7_Pipeline              (P7_PIPELINE *pli, P7_OPROFILE *om, P7_BG *bg, const ESL_SQ *sq, P7_TOPHITS *th);
+extern int p7_Pipeline_LongTarget   (P7_PIPELINE *pli, P7_OPROFILE *om, P7_SCOREDATA *data,
+                                     P7_BG *bg, P7_TOPHITS *hitlist, int64_t seqidx,
+                                     const ESL_SQ *sq, int complementarity,
+                                     const FM_DATA *fmf, const FM_DATA *fmb, FM_CFG *fm_cfg
+/*                                     , ESL_STOPWATCH *ssv_watch_master
+                                     , ESL_STOPWATCH *postssv_watch_master
+                                     , ESL_STOPWATCH *watch_slave
+*/
+                                     );
+
+
+
+extern int p7_pli_Statistics(FILE *ofp, P7_PIPELINE *pli, ESL_STOPWATCH *w);
+
+
+/* p7_prior.c */
+extern P7_PRIOR  *p7_prior_CreateAmino(void);
+extern P7_PRIOR  *p7_prior_CreateNucleic(void);
+extern P7_PRIOR  *p7_prior_CreateLaplace(const ESL_ALPHABET *abc);
+extern void       p7_prior_Destroy(P7_PRIOR *pri);
+
+extern int        p7_ParameterEstimation(P7_HMM *hmm, const P7_PRIOR *pri);
+
+/* p7_profile.c */
+extern P7_PROFILE *p7_profile_Create(int M, const ESL_ALPHABET *abc);
+extern P7_PROFILE *p7_profile_Clone(const P7_PROFILE *gm);
+extern int         p7_profile_Copy(const P7_PROFILE *src, P7_PROFILE *dst);
+extern int         p7_profile_SetNullEmissions(P7_PROFILE *gm);
+extern int         p7_profile_Reuse(P7_PROFILE *gm);
+extern size_t      p7_profile_Sizeof(P7_PROFILE *gm);
+extern void        p7_profile_Destroy(P7_PROFILE *gm);
+extern int         p7_profile_IsLocal(const P7_PROFILE *gm);
+extern int         p7_profile_IsMultihit(const P7_PROFILE *gm);
+extern int         p7_profile_GetT(const P7_PROFILE *gm, char st1, int k1, 
+				   char st2, int k2, float *ret_tsc);
+extern int         p7_profile_Validate(const P7_PROFILE *gm, char *errbuf, float tol);
+extern int         p7_profile_Compare(P7_PROFILE *gm1, P7_PROFILE *gm2, float tol);
+
+/* p7_spensemble.c */
+P7_SPENSEMBLE *p7_spensemble_Create(int init_n, int init_epc, int init_sigc);
+extern int     p7_spensemble_Reuse(P7_SPENSEMBLE *sp);
+extern int     p7_spensemble_Add(P7_SPENSEMBLE *sp, int sampleidx, int i, int j, int k, int m);
+extern int     p7_spensemble_Cluster(P7_SPENSEMBLE *sp, 
+				     float min_overlap, int of_smaller, int max_diagdiff, 
+				     float min_posterior, float min_endpointp,
+				     int *ret_nclusters);
+extern int     p7_spensemble_GetClusterCoords(P7_SPENSEMBLE *sp, int which,
+					      int *ret_i, int *ret_j, int *ret_k, int *ret_m, float *ret_p);
+extern void    p7_spensemble_Destroy(P7_SPENSEMBLE *sp);
+
+/* p7_tophits.c */
+extern P7_TOPHITS *p7_tophits_Create(void);
+extern int         p7_tophits_Grow(P7_TOPHITS *h);
+extern int         p7_tophits_CreateNextHit(P7_TOPHITS *h, P7_HIT **ret_hit);
+extern int         p7_tophits_Add(P7_TOPHITS *h,
+				  char *name, char *acc, char *desc, 
+				  double sortkey, 
+				  float score,    double lnP, 
+				  float mothersc, double mother_lnP,
+				  int sqfrom, int sqto, int sqlen,
+				  int hmmfrom, int hmmto, int hmmlen, 
+				  int domidx, int ndom,
+				  P7_ALIDISPLAY *ali);
+extern int         p7_tophits_SortBySortkey(P7_TOPHITS *h);
+extern int         p7_tophits_SortBySeqidxAndAlipos(P7_TOPHITS *h);
+extern int         p7_tophits_SortByModelnameAndAlipos(P7_TOPHITS *h);
+
+extern int         p7_tophits_Merge(P7_TOPHITS *h1, P7_TOPHITS *h2);
+extern int         p7_tophits_GetMaxPositionLength(P7_TOPHITS *h);
+extern int         p7_tophits_GetMaxNameLength(P7_TOPHITS *h);
+extern int         p7_tophits_GetMaxAccessionLength(P7_TOPHITS *h);
+extern int         p7_tophits_GetMaxShownLength(P7_TOPHITS *h);
+extern void        p7_tophits_Destroy(P7_TOPHITS *h);
+
+extern int p7_tophits_ComputeNhmmerEvalues(P7_TOPHITS *th, double N, int W);
+extern int p7_tophits_RemoveDuplicates(P7_TOPHITS *th, int using_bit_cutoffs);
+extern int p7_tophits_Threshold(P7_TOPHITS *th, P7_PIPELINE *pli);
+extern int p7_tophits_CompareRanking(P7_TOPHITS *th, ESL_KEYHASH *kh, int *opt_nnew);
+extern int p7_tophits_Targets(FILE *ofp, P7_TOPHITS *th, P7_PIPELINE *pli, int textw);
+extern int p7_tophits_Domains(FILE *ofp, P7_TOPHITS *th, P7_PIPELINE *pli, int textw);
+extern int p7_tophits_Alignment(const P7_TOPHITS *th, const ESL_ALPHABET *abc, 
+				ESL_SQ **inc_sqarr, P7_TRACE **inc_trarr, int inc_n, int optflags,
+				ESL_MSA **ret_msa);
+extern int p7_tophits_TabularTargets(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli, int show_header);
+extern int p7_tophits_TabularDomains(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli, int show_header);
+extern int p7_tophits_TabularXfam(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli);
+extern int p7_tophits_TabularTail(FILE *ofp, const char *progname, enum p7_pipemodes_e pipemode, 
+				  const char *qfile, const char *tfile, const ESL_GETOPTS *go);
+extern int p7_tophits_AliScores(FILE *ofp, char *qname, P7_TOPHITS *th );
+
+/* p7_trace.c */
+extern P7_TRACE *p7_trace_Create(void);
+extern P7_TRACE *p7_trace_CreateWithPP(void);
+extern int  p7_trace_Reuse(P7_TRACE *tr);
+extern int  p7_trace_Grow(P7_TRACE *tr);
+extern int  p7_trace_GrowIndex(P7_TRACE *tr);
+extern int  p7_trace_GrowTo(P7_TRACE *tr, int N);
+extern int  p7_trace_GrowIndexTo(P7_TRACE *tr, int ndom);
+extern void p7_trace_Destroy(P7_TRACE *tr);
+extern void p7_trace_DestroyArray(P7_TRACE **tr, int N);
+
+extern int  p7_trace_GetDomainCount   (const P7_TRACE *tr, int *ret_ndom);
+extern int  p7_trace_GetStateUseCounts(const P7_TRACE *tr, int *counts);
+extern int  p7_trace_GetDomainCoords  (const P7_TRACE *tr, int which, int *ret_i1, int *ret_i2,
+				       int *ret_k1, int *ret_k2);
+
+extern int   p7_trace_Validate(const P7_TRACE *tr, const ESL_ALPHABET *abc, const ESL_DSQ *dsq, char *errbuf);
+extern int   p7_trace_Dump(FILE *fp, const P7_TRACE *tr, const P7_PROFILE *gm, const ESL_DSQ *dsq);
+extern int   p7_trace_Compare(P7_TRACE *tr1, P7_TRACE *tr2, float pptol);
+extern int   p7_trace_Score(P7_TRACE *tr, ESL_DSQ *dsq, P7_PROFILE *gm, float *ret_sc);
+extern int   p7_trace_SetPP(P7_TRACE *tr, const P7_GMX *pp);
+extern float p7_trace_GetExpectedAccuracy(const P7_TRACE *tr);
+
+extern int  p7_trace_Append(P7_TRACE *tr, char st, int k, int i);
+extern int  p7_trace_AppendWithPP(P7_TRACE *tr, char st, int k, int i, float pp);
+extern int  p7_trace_Reverse(P7_TRACE *tr);
+extern int  p7_trace_Index(P7_TRACE *tr);
+
+extern int  p7_trace_FauxFromMSA(ESL_MSA *msa, int *matassign, int optflags, P7_TRACE **tr);
+extern int  p7_trace_Doctor(P7_TRACE *tr, int *opt_ndi, int *opt_nid);
+
+extern int  p7_trace_Count(P7_HMM *hmm, ESL_DSQ *dsq, float wt, P7_TRACE *tr);
+
+
+/* seqmodel.c */
+extern int p7_Seqmodel(const ESL_ALPHABET *abc, ESL_DSQ *dsq, int M, char *name,
+		       ESL_DMATRIX *P, float *f, double popen, double pextend,
+		       P7_HMM **ret_hmm);
+
+/* fm_alphabet.c */
+extern int fm_alphabetCreate (FM_METADATA *meta, uint8_t *alph_bits);
+extern int fm_alphabetDestroy (FM_METADATA *meta);
+extern int fm_reverseString (char *str, int N);
+extern int fm_getComplement (char c, uint8_t alph_type);
+
+
+/* fm_general.c */
+extern uint64_t fm_computeSequenceOffset (const FM_DATA *fms, const FM_METADATA *meta, int block, uint64_t pos);
+extern int fm_getOriginalPosition (const FM_DATA *fms, const FM_METADATA *meta, int fm_id, int length, int direction, uint64_t fm_pos,
+                                    uint32_t *segment_id, uint64_t *seg_pos);
+extern int fm_readFMmeta( FM_METADATA *meta);
+extern int fm_FM_read( FM_DATA *fm, FM_METADATA *meta, int getAll );
+extern void fm_FM_destroy ( FM_DATA *fm, int isMainFM);
+extern uint8_t fm_getChar(uint8_t alph_type, int j, const uint8_t *B );
+extern int fm_getSARangeReverse( const FM_DATA *fm, FM_CFG *cfg, char *query, char *inv_alph, FM_INTERVAL *interval);
+extern int fm_getSARangeForward( const FM_DATA *fm, FM_CFG *cfg, char *query, char *inv_alph, FM_INTERVAL *interval);
+extern int fm_configAlloc(FM_CFG **cfg);
+extern int fm_configDestroy(FM_CFG *cfg);
+extern int fm_metaDestroy(FM_METADATA *meta );
+extern int fm_updateIntervalForward( const FM_DATA *fm, const FM_CFG *cfg, char c, FM_INTERVAL *interval_f, FM_INTERVAL *interval_bk);
+extern int fm_updateIntervalReverse( const FM_DATA *fm, const FM_CFG *cfg, char c, FM_INTERVAL *interval);
+extern int fm_initSeeds (FM_DIAGLIST *list) ;
+extern FM_DIAG * fm_newSeed (FM_DIAGLIST *list);
+extern int fm_initAmbiguityList (FM_AMBIGLIST *list);
+extern int fm_addAmbiguityRange (FM_AMBIGLIST *list, uint32_t start, uint32_t stop);
+extern int fm_convertRange2DSQ(const FM_DATA *fm, const FM_METADATA *meta, uint64_t first, int length, int complementarity, ESL_SQ *sq, int fix_ambiguities );
+extern int fm_initConfigGeneric( FM_CFG *cfg, ESL_GETOPTS *go);
+
+/* fm_ssv.c */
+extern int p7_SSVFM_longlarget( P7_OPROFILE *om, float nu, P7_BG *bg, double F1,
+                      const FM_DATA *fmf, const FM_DATA *fmb, FM_CFG *fm_cfg, const P7_SCOREDATA *ssvdata,
+                      int strands, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* fm_sse.c */
+extern int fm_configInit      (FM_CFG *cfg, ESL_GETOPTS *go);
+extern int fm_getOccCount     (const FM_DATA *fm, const FM_CFG *cfg, int pos, uint8_t c);
+extern int fm_getOccCountLT   (const FM_DATA *fm, const FM_CFG *cfg, int pos, uint8_t c, uint32_t *cnteq, uint32_t *cntlt);
+
+
+
+#endif /*P7_HMMERH_INCLUDED*/
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: hmmer.h 4771 2015-02-25 06:53:51Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmer.h $
+ ************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmerfm-exactmatch.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmerfm-exactmatch.c
new file mode 100755
index 0000000..20ca342
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmerfm-exactmatch.c
@@ -0,0 +1,491 @@
+#include "p7_config.h"
+
+#include <sys/times.h>
+#include <string.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles   reqs   incomp              help                                                      docgroup*/
+  { "-h",           eslARG_NONE,      FALSE, NULL, NULL,    NULL,  NULL,  NULL,    "show brief help on version and usage",                      1 },
+  { "--out",      eslARG_STRING,     "none", NULL, NULL,    NULL,  NULL,  NULL,    "save list of hits to file <s>  ('-' writes to stdout)",     2 },
+  { "--count_only", eslARG_NONE,      FALSE, NULL, NULL,    NULL,  NULL,  NULL,    "compute just counts, not locations",                        2 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[options] <qfile> <fmfile>";
+static char banner[] = "Find all instances of each <qfile> sequence in the database represented by <fmfile>";
+
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_fmfile, char **ret_qfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n", go->errbuf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n", go->errbuf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      esl_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+
+      if (puts("\nBasic options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 120=textwidth*/
+
+      if (puts("\nSpecial options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); /* 2= group; 2 = indentation; 120=textwidth*/
+
+      exit(0);
+  }
+
+  if (esl_opt_ArgNumber(go)                  != 2)    { if (puts("Incorrect number of command line arguments.")     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_qfile  = esl_opt_GetArg(go, 1)) == NULL)  { if (puts("Failed to get <qfile> argument on command line")  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_fmfile = esl_opt_GetArg(go, 2)) == NULL)  { if (puts("Failed to get <fmfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (esl_strcmp(*ret_fmfile, "-") == 0 && esl_strcmp(*ret_qfile, "-") == 0) 
+    { if (puts("Either <fmfile> or <qfile> may be '-' (to read from stdin), but not both.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  puts("\nwhere basic options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+  esl_getopts_Destroy(go);
+  exit(1);
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+//see: http://c-faq.com/stdio/commaprint.html
+char *
+commaprint(unsigned long n)
+{
+    static int comma = ',';
+    static char retbuf[30];
+    char *p = &retbuf[sizeof(retbuf)-1];
+    int i = 0;
+    *p = '\0';
+
+    do {
+      if(i%3 == 0 && i != 0)
+              *--p = comma;
+      *--p = '0' + n % 10;
+      n /= 10;
+      i++;
+    } while(n != 0);
+
+    return p;
+}
+
+static int
+output_header(FM_METADATA *meta, FILE *ofp, const ESL_GETOPTS *go, char *fmfile, char *qfile)
+{
+  char *alph;
+  char *appname = NULL;
+  int   status;
+
+  if      (meta->alph_type == fm_DNA)       alph = "dna";
+  else if (meta->alph_type == fm_AMINO)     alph = "amino";
+
+  if ((status = esl_FileTail(go->argv[0], FALSE, &appname)) != eslOK) return status;
+
+
+
+  if (fprintf(ofp, "# %s :: %s\n", appname, banner)                                               < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# %s\n", EASEL_COPYRIGHT)                                                     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# %s\n", EASEL_LICENSE)                                                       < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+  if (fprintf(ofp, "# input binary-formatted HMMER database:   %s\n", fmfile) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# input file of query sequences:           %s\n", qfile)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--out")) {
+    char *outfile = esl_opt_GetString(go, "--out");
+    if (fprintf(ofp, "# output file containing list of hits:     %s\n", (esl_strcmp(outfile, "-") == 0 ? "stdout" : outfile)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+  }
+
+  if (esl_opt_IsUsed(go, "--count_only") && fprintf(ofp, "# output only counts, not hit locations\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (fprintf(ofp, "# alphabet     :                           %s\n", alph)                         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# bin_length   :                           %d\n", meta->freq_cnt_b)             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# suffix array sample rate:                %d\n", meta->freq_SA)                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+  if (appname) free(appname);
+    return eslOK;
+
+ERROR:
+if (appname) free(appname);
+return status;
+
+}
+
+
+
+/* Function:  getFMHits()
+ * Synopsis:  For a given interval, identify the position in original text for each element
+ *            of interval
+ * Purpose:   Implement Algorithm 3.7 (p17) of Firth paper (A Comparison of BWT Approaches
+ *            to String Pattern Matching). Most of the meat is in the method of counting
+ *            characters - bwt_getOccCount, which depends on compilation choices.
+ */
+int
+getFMHits( FM_DATA *fm, FM_CFG *cfg, FM_INTERVAL *interval, int block_id, int hit_offset, int hit_length, FM_HIT *hits_ptr, int fm_direction) {
+
+  int i, j, len = 0;
+  int dist_from_end;
+
+  for (i = interval->lower;  i<= interval->upper; i++) {
+    j = i;
+    len = 0;
+
+    while ( j != fm->term_loc && (j % cfg->meta->freq_SA)) { //go until we hit a position in the full SA that was sampled during FM index construction
+      uint8_t c = fm_getChar( cfg->meta->alph_type, j, fm->BWT);
+      j = fm_getOccCount (fm, cfg, j-1, c);
+      j += abs(fm->C[c]);
+      len++;
+    }
+
+
+    hits_ptr[hit_offset + i - interval->lower].block     = block_id;
+    hits_ptr[hit_offset + i - interval->lower].direction = fm_direction;
+    hits_ptr[hit_offset + i - interval->lower].length    = hit_length;
+
+    dist_from_end = 1 + len + (j==fm->term_loc ? 0 : fm->SA[ j / cfg->meta->freq_SA ]) ; // len is how many backward steps we had to take to find a sampled SA position
+
+    if (fm_direction == fm_forward)
+      dist_from_end += hit_length;
+    else
+      dist_from_end += 1;
+
+    //the SA is on the reversed string.  What would be the position in the unreversed string?
+    hits_ptr[hit_offset + i - interval->lower].start = fm->N - dist_from_end;
+
+    //printf ("SA: %d\n", hits_ptr[hit_offset + i - interval->lower].start);
+
+  }
+
+  return eslOK;
+
+}
+
+/* hit_sorter(): qsort's pawn, below */
+static int
+hit_sorter(const void *a, const void *b)
+{
+  FM_HIT *h1 = (FM_HIT*)a;
+  FM_HIT *h2 = (FM_HIT*)b;
+
+  if      (h1->sortkey > h2->sortkey) return  1;
+  else if (h1->sortkey < h2->sortkey) return -1;
+  else {
+    if      (h1->direction > h2->direction) return 1;
+    else if (h1->direction < h2->direction) return -1;
+    else {
+      if  (h1->start > h2->start) return  1;
+      else                        return -1;
+    }
+  }
+}
+
+/* Function:  main()
+ * Synopsis:  Run set of queries against an FM
+ * Purpose:   Read in a FM and a file of query sequences.
+ *            For each query, find matching FM interval, then collect positions in
+ *            the original text T for the corresponding occurrences. These positions
+ *            are 0-based (so first character is position 0).
+ */
+int
+main(int argc,  char *argv[]) 
+{
+  void* tmp; // used for RALLOC calls
+  clock_t t1, t2;
+  struct tms ts1, ts2;
+  char *fname_fm      = NULL;
+  char *fname_queries = NULL;
+  FM_HIT *hits        = NULL;
+  char *line          = NULL;
+  int status        = eslOK;
+  int hit_cnt       = 0;
+  int hit_indiv_cnt = 0;
+  int miss_cnt      = 0;
+  int hit_num       = 0;
+  int hit_num2       = 0;
+  int hits_size     = 0;
+  int i,j;
+  int count_only    = 0;
+
+  FM_INTERVAL interval;
+  FM_DATA *fmsf = NULL;
+  FM_DATA *fmsb = NULL;
+  FILE* fp_fm   = NULL;
+  FILE* fp      = NULL;
+  FILE* out     = NULL;
+  char *outname = NULL;
+
+  ESL_GETOPTS     *go  = NULL;    /* command line processing                 */
+  FM_CFG *cfg;
+  FM_METADATA *meta;
+
+  ESL_SQ       *tmpseq;  // used for sequence validation
+  ESL_ALPHABET *abc = NULL;
+
+
+  //start timer
+  t1 = times(&ts1);
+
+  process_commandline(argc, argv, &go, &fname_fm, &fname_queries);
+
+
+  if (esl_opt_IsOn(go, "--out")) {
+    outname = esl_opt_GetString(go, "--out");
+    if ( esl_strcmp ("-", outname) == 0 ) {
+      out = stdout;
+      outname = "stdout";
+    } else {
+      out = fopen(outname,"w");
+    }
+  }
+
+  if (esl_opt_IsOn(go, "--count_only"))
+    count_only = 1;
+
+
+  if((fp_fm = fopen(fname_fm, "rb")) == NULL)
+    esl_fatal("Cannot open file `%s': ", fname_fm);
+
+
+  fm_configAlloc(&cfg);
+  cfg->occCallCnt = 0;
+  meta = cfg->meta;
+  meta->fp = fp_fm;
+
+
+  fm_readFMmeta( meta);
+
+
+
+  if      (meta->alph_type == fm_DNA)   abc     = esl_alphabet_Create(eslDNA);
+  else if (meta->alph_type == fm_AMINO) abc     = esl_alphabet_Create(eslAMINO);
+  tmpseq = esl_sq_CreateDigital(abc);
+
+
+
+  //read in FM-index blocks
+  ESL_ALLOC(fmsf, meta->block_count * sizeof(FM_DATA) );
+  if (!meta->fwd_only)
+    ESL_ALLOC(fmsb, meta->block_count * sizeof(FM_DATA) );
+
+  for (i=0; i<meta->block_count; i++) {
+    fm_FM_read( fmsf+i,meta, TRUE );
+
+    if (!meta->fwd_only) {
+      fm_FM_read(fmsb+i, meta, FALSE );
+      fmsb[i].SA = fmsf[i].SA;
+      fmsb[i].T = fmsf[i].T;
+    }
+  }
+  fclose(fp_fm);
+
+  output_header(meta, stdout, go, fname_fm, fname_queries);
+
+
+  /* initialize a few global variables, then call initGlobals
+   * to do architecture-specific initialization
+   */
+  fm_configInit(cfg, NULL);
+
+  fm_alphabetCreate(meta, NULL); // don't override charBits
+
+  fp = fopen(fname_queries,"r");
+  if (fp == NULL)
+    esl_fatal("Unable to open file %s\n", fname_queries);
+
+  ESL_ALLOC(line, FM_MAX_LINE * sizeof(char));
+
+  hits_size = 200;
+  ESL_ALLOC(hits, hits_size * sizeof(FM_HIT));
+
+  while(fgets(line, FM_MAX_LINE, fp) ) {
+    int qlen=0;
+    while (line[qlen] != '\0' && line[qlen] != '\n')  qlen++;
+    if (line[qlen] == '\n')  line[qlen] = '\0';
+
+    hit_num = 0;
+
+    for (i=0; i<meta->block_count; i++) {
+
+      fm_getSARangeReverse(fmsf+i, cfg, line, meta->inv_alph, &interval);
+      if (interval.lower>=0 && interval.lower <= interval.upper) {
+        int new_hit_num =  interval.upper - interval.lower + 1;
+        hit_num += new_hit_num;
+        if (!count_only) {
+          if (hit_num > hits_size) {
+            hits_size = 2*hit_num;
+            ESL_RALLOC(hits, tmp, hits_size * sizeof(FM_HIT));
+          }
+          getFMHits(fmsf+i, cfg, &interval, i, hit_num-new_hit_num, qlen, hits, fm_forward);
+        }
+
+      }
+
+
+      /* find reverse hits, using backward search on the forward FM*/
+      if (!meta->fwd_only) {
+        fm_getSARangeForward(fmsb+i, cfg, line, meta->inv_alph, &interval);// yes, use the backward fm to produce the equivalent of a forward search on the forward fm
+        if (interval.lower>=0 && interval.lower <= interval.upper) {
+          int new_hit_num =  interval.upper - interval.lower + 1;
+          hit_num += new_hit_num;
+          if (!count_only) {
+            if (hit_num > hits_size) {
+              hits_size = 2*hit_num;
+              ESL_RALLOC(hits, tmp, hits_size * sizeof(FM_HIT));
+            }
+            //even though I used fmsb above, use fmsf here, since we'll now do a backward trace
+            //in the FM-index to find the next sampled SA position
+            getFMHits(fmsf+i, cfg, &interval, i, hit_num-new_hit_num, qlen, hits, fm_backward);
+          }
+        }
+
+      }
+
+    }
+
+
+    if (hit_num > 0) {
+      if (count_only) {
+        hit_cnt++;
+        hit_indiv_cnt += hit_num;
+      } else {
+        hit_num2 = 0;
+
+        //for each hit, identify the sequence id and position within that sequence
+        for (i = 0; i< hit_num; i++) {
+
+          status = fm_getOriginalPosition (fmsf, meta, hits[i].block, hits[i].length, fm_forward, hits[i].start,  &(hits[i].block), &(hits[i].start) );
+          hits[i].sortkey = (status==eslERANGE ? -1 : meta->seq_data[ hits[i].block ].target_id);
+
+          //validate match - if any characters in orig sequence were ambiguities, reject
+          fm_convertRange2DSQ( fmsf, meta, hits[i].start, hits[i].length, p7_NOCOMPLEMENT, tmpseq, TRUE );
+          for (j=1; j<=hits[i].length; j++) {
+            if (tmpseq->dsq[j] >= abc->K) {
+              hits[i].sortkey = -1; //reject
+              j = hits[i].length+1; //quit looking
+            }
+          }
+
+          if (hits[i].sortkey != -1)
+            hit_num2++; // legitimate hit
+
+        }
+        if (hit_num2 > 0)
+          hit_cnt++;
+
+        //now sort according the the sequence_id corresponding to that seq_offset
+        qsort(hits, hit_num, sizeof(FM_HIT), hit_sorter);
+
+        //skim past the skipped entries
+        i = 0;
+        while ( i < hit_num ) {
+          if (hits[i].sortkey != -1 )
+            break;  //
+          i++;
+        }
+
+
+        if (i < hit_num) {
+          if (out != NULL) {
+            fprintf (out, "%s\n",line);
+            //fprintf (out, "\t%10s (%8d %s)\n",meta->seq_data[ hits[i].block ].name, hits[i].start, (hits[i].direction==fm_forward?"+":"-"));
+            fprintf (out, "    %8ld %s %10s\n", (long)(hits[i].start), (hits[i].direction==fm_forward?"f":"r"), meta->seq_data[ hits[i].block ].name);
+          }
+          hit_indiv_cnt++;
+          i++; // skip the first one, since I'll be comparing each to the previous
+
+          for (  ; i< hit_num; i++) {
+            if ( //meta->seq_data[ hits[i].block ].id != meta->seq_data[ hits[i-1].block ].id ||
+                 hits[i].sortkey   != hits[i-1].sortkey ||  //sortkey is seq_data[].id
+                 hits[i].direction != hits[i-1].direction ||
+                 hits[i].start     != hits[i-1].start )
+            {
+              if (out != NULL)
+                //fprintf (out, "\t%10s (%8d %s)\n",meta->seq_data[ hits[i].block ].name, hits[i].start, (hits[i].direction==fm_forward?"+":"-"));
+                fprintf (out, "    %8ld %s %10s\n", (long)(hits[i].start), (hits[i].direction==fm_forward?"f":"r"), meta->seq_data[ hits[i].block ].name);
+              hit_indiv_cnt++;
+            }
+          }
+          if (out != NULL)
+            fprintf (out, "\n");
+        }
+      }
+    } else {
+      miss_cnt++;
+    }
+
+
+  }
+
+  for (i=0; i<meta->block_count; i++) {
+    fm_FM_destroy( fmsf+i, 1 );
+    if (!meta->fwd_only)
+      fm_FM_destroy( fmsb+i, 0 );
+  }
+
+
+  free (hits);
+  free (line);
+  fclose(fp);
+
+  fm_configDestroy(cfg);
+
+
+  // compute and print the elapsed time in millisec
+  t2 = times(&ts2);
+  {
+    double clk_ticks = sysconf(_SC_CLK_TCK);
+    double elapsedTime = (t2-t1)/clk_ticks;
+    double throughput = cfg->occCallCnt/elapsedTime;
+
+    fprintf (stderr, "hit: %-10d  (%d)\n", hit_cnt, hit_indiv_cnt);
+    fprintf (stderr, "miss:%-10d\n", miss_cnt);
+    fprintf (stderr, "run time:  %.2f seconds\n", elapsedTime);
+    fprintf (stderr, "occ calls: %12s\n", commaprint(cfg->occCallCnt));
+    fprintf (stderr, "occ/sec:   %12s\n", commaprint(throughput));
+  }
+
+  exit(eslOK);
+
+
+ERROR:
+  printf ("failure allocating memory for hits\n");
+  exit(status);
+
+
+}
+
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmfetch.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmfetch.c
new file mode 100755
index 0000000..1704a48
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmfetch.c
@@ -0,0 +1,330 @@
+/* Fetch an HMM from an HMM database (such as Pfam)
+ * 
+ * SRE, Mon Jun 18 09:30:06 2007 [Janelia]
+ * SVN $Id: hmmfetch.c 3546 2011-05-23 14:36:44Z eddys $
+ */
+#include "esl_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_fileparser.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_ssi.h"
+
+#include "hmmer.h"
+
+static char banner[] = "retrieve profile HMM(s) from a file";
+static char usage1[] = "[options] <hmmfile> <key>         (retrieves HMM named <key>)";
+static char usage2[] = "[options] -f <hmmfile> <keyfile>  (retrieves all HMMs in <keyfile>)";
+static char usage3[] = "[options] --index <hmmfile>       (indexes <hmmfile>)";
+
+static void
+cmdline_failure(char *argv0, char *format, ...) 
+{
+  va_list argp;
+
+  va_start(argp, format);
+  vfprintf(stderr, format, argp);
+  va_end(argp);
+  esl_usage(stdout, argv0, usage1);
+  esl_usage(stdout, argv0, usage2);
+  esl_usage(stdout, argv0, usage3);
+  printf("\nTo see more help on available options, do %s -h\n\n", argv0);
+  exit(1);
+}
+
+static void
+cmdline_help(char *argv0, ESL_GETOPTS *go) 
+{
+  esl_banner(stdout, argv0, banner);
+  esl_usage (stdout, argv0, usage1);
+  esl_usage (stdout, argv0, usage2);
+  esl_usage (stdout, argv0, usage3);
+  puts("\nOptions:");
+  esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
+  exit(0);
+}
+
+static ESL_OPTIONS options[] = {
+  /* name       type        default env   range togs  reqs  incomp      help                                                   docgroup */
+  { "-h",       eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,          "help; show brief info on version and usage",        0 },
+  { "-f",       eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL,"--index",      "second cmdline arg is a file of names to retrieve", 0 },
+  { "-o",       eslARG_OUTFILE,FALSE,NULL, NULL, NULL, NULL,"-O,--index",   "output HMM to file <f> instead of stdout",          0 },
+  { "-O",       eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL,"-o,-f,--index","output HMM to file named <key>",                    0 },
+  { "--index",  eslARG_NONE,  FALSE, NULL, NULL, NULL, NULL, NULL,          "index the <hmmfile>, creating <hmmfile>.ssi",       0 },
+  { 0,0,0,0,0,0,0,0,0,0 },
+};
+
+static void create_ssi_index(ESL_GETOPTS *go, P7_HMMFILE *hfp);
+static void multifetch(ESL_GETOPTS *go, FILE *ofp, char *keyfile, P7_HMMFILE *hfp);
+static void onefetch(ESL_GETOPTS *go, FILE *ofp, char *key, P7_HMMFILE *hfp);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;	/* application configuration       */
+  char         *hmmfile = NULL;	/* HMM file name                   */
+  char         *keyfile = NULL;	/* keyfile name                    */
+  char         *keyname = NULL;	/* key name                        */
+  P7_HMMFILE   *hfp     = NULL;	/* open HMM file                   */
+  FILE         *ofp     = NULL;	/* output stream for HMMs          */
+  int           status;		/* easel/hmmer return code         */
+  char          errbuf[eslERRBUFSIZE];
+
+  /***********************************************
+   * Parse command line
+   ***********************************************/
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) cmdline_failure(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) cmdline_failure(argv[0], "Error in configuration: %s\n",       go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") )                   cmdline_help   (argv[0], go);
+  if (esl_opt_ArgNumber(go) < 1)                       cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+  
+  /* Check arguments. Consider three modes separately.
+   */
+  if (esl_opt_GetBoolean(go, "--index")) 
+    {
+      if (esl_opt_ArgNumber(go) != 1) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+      hmmfile = esl_opt_GetArg(go, 1);
+      keyfile = NULL;
+      keyname = NULL;
+
+      if (strcmp(hmmfile, "-") == 0) cmdline_failure(argv[0], "Can't use - with --index, can't index <stdin>.\n");
+    }
+
+  else if (esl_opt_GetBoolean(go, "-f"))
+    {
+      if (esl_opt_ArgNumber(go) != 2) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+      hmmfile = esl_opt_GetArg(go, 1);
+      keyfile = esl_opt_GetArg(go, 2);
+      keyname = NULL;
+
+      if (strcmp(hmmfile, "-") == 0 && strcmp(keyfile, "-") == 0) 
+	cmdline_failure(argv[0], "Either <hmmfile> or <keyfile> can be - but not both.\n");
+    }
+  else
+    {
+      if (esl_opt_ArgNumber(go) != 2) cmdline_failure(argv[0], "Incorrect number of command line arguments.\n");        
+
+      hmmfile = esl_opt_GetArg(go, 1);
+      keyfile = NULL;
+      keyname = esl_opt_GetArg(go, 2);
+    }
+    
+  /* Open the HMM file.  */
+  status  = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);  
+
+ /* Open the output file, if any  */
+  if (esl_opt_GetBoolean(go, "-O")) 
+    {
+      if (! keyname)                            p7_Fail("No key name? Can't use -O\n"); 
+      if ((ofp = fopen(keyname, "w")) == NULL)	p7_Fail("Failed to open output file %s\n", keyname);
+    }
+  else if (esl_opt_GetString(go, "-o") != NULL)
+    {
+      if ((ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL)
+	esl_fatal("Failed to open output file %s\n", esl_opt_GetString(go, "-o"));
+    }
+  else ofp = stdout;
+
+  
+  /* Hand off to the appropriate routine */
+  if     (esl_opt_GetBoolean(go, "--index"))  create_ssi_index(go, hfp);
+  else if (esl_opt_GetBoolean(go, "-f"))      multifetch(go, ofp, keyfile, hfp);
+  else 
+    {
+      onefetch(go, ofp, keyname, hfp);
+      if (ofp != stdout) printf("\n\nRetrieved HMM %s.\n",  keyname);
+    }
+
+  if (esl_opt_GetBoolean(go, "-O") || esl_opt_GetString(go, "-o") != NULL) fclose(ofp);
+  p7_hmmfile_Close(hfp);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
+
+
+/* Create an SSI index file for open HMM file <hfp>.
+ * Both name and accession of HMMs are stored as keys.
+ */
+static void
+create_ssi_index(ESL_GETOPTS *go, P7_HMMFILE *hfp)
+{
+  ESL_NEWSSI   *ns      = NULL;
+  ESL_ALPHABET *abc     = NULL;
+  P7_HMM       *hmm     = NULL;
+  int           nhmm    = 0;
+  char         *ssifile = NULL;
+  uint16_t      fh;
+  int           status;
+
+  if (esl_sprintf(&ssifile, "%s.ssi", hfp->fname) != eslOK) p7_Die("esl_sprintf() failed");
+
+  status = esl_newssi_Open(ssifile, FALSE, &ns);
+  if      (status == eslENOTFOUND)   esl_fatal("failed to open SSI index %s", ssifile);
+  else if (status == eslEOVERWRITE)  esl_fatal("SSI index %s already exists; delete or rename it", ssifile);
+  else if (status != eslOK)          esl_fatal("failed to create a new SSI index");
+
+  if (esl_newssi_AddFile(ns, hfp->fname, 0, &fh) != eslOK) /* 0 = format code (HMMs don't have any yet) */
+    esl_fatal("Failed to add HMM file %s to new SSI index\n", hfp->fname);
+
+  printf("Working...    "); 
+  fflush(stdout);
+  
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF)
+    {
+      if      (status == eslEOD)       p7_Fail("read failed, HMM file %s may be truncated?", hfp->fname);
+      else if (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hfp->fname);
+      else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hfp->fname);
+      else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s",   hfp->fname);
+      nhmm++;
+
+      if (hmm->name == NULL)           p7_Fail("Every HMM must have a name to be indexed. Failed to find name of HMM #%d\n", nhmm);
+
+      if (esl_newssi_AddKey(ns, hmm->name, fh, hmm->offset, 0, 0) != eslOK)
+	p7_Fail("Failed to add key %s to SSI index", hmm->name);
+
+      if (hmm->acc) {
+	if (esl_newssi_AddAlias(ns, hmm->acc, hmm->name) != eslOK)
+	  p7_Fail("Failed to add secondary key %s to SSI index", hmm->acc);
+      }
+      p7_hmm_Destroy(hmm);
+    }
+  
+  if (esl_newssi_Write(ns) != eslOK) 
+    p7_Fail("Failed to write keys to ssi file %s\n", ssifile);
+
+  printf("done.\n");
+  if (ns->nsecondary > 0) 
+    printf("Indexed %d HMMs (%ld names and %ld accessions).\n", nhmm, (long) ns->nprimary, (long) ns->nsecondary);
+  else 
+    printf("Indexed %d HMMs (%ld names).\n", nhmm, (long) ns->nprimary);
+  printf("SSI index written to file %s\n", ssifile);
+
+  free(ssifile);
+  esl_alphabet_Destroy(abc);
+  esl_newssi_Close(ns);
+  return;
+}  
+
+
+/* multifetch:
+ * given a file containing lines with one name or key per line;
+ * parse the file line-by-line;
+ * if we have an SSI index available, retrieve the HMMs by key
+ * as we see each line;
+ * else, without an SSI index, store the keys in a hash, then
+ * read the entire HMM file in a single pass, outputting HMMs
+ * that are in our keylist. 
+ * 
+ * Note that with an SSI index, you get the HMMs in the order they
+ * appear in the <keyfile>, but without an SSI index, you get HMMs in
+ * the order they occur in the HMM file.
+ */
+static void
+multifetch(ESL_GETOPTS *go, FILE *ofp, char *keyfile, P7_HMMFILE *hfp)
+{
+  ESL_KEYHASH    *keys   = esl_keyhash_Create();
+  ESL_FILEPARSER *efp    = NULL;
+  ESL_ALPHABET   *abc    = NULL;
+  P7_HMM         *hmm    = NULL;
+  int             nhmm   = 0;
+  char           *key;
+  int             keylen;
+  int             keyidx;
+  int             status;
+  
+  if (esl_fileparser_Open(keyfile, NULL, &efp) != eslOK)  p7_Fail("Failed to open key file %s\n", keyfile);
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  while (esl_fileparser_NextLine(efp) == eslOK)
+    {
+      if (esl_fileparser_GetTokenOnLine(efp, &key, &keylen) != eslOK)
+	p7_Fail("Failed to read HMM name on line %d of file %s\n", efp->linenumber, keyfile);
+      
+      status = esl_keyhash_Store(keys, key, -1, &keyidx);
+      if (status == eslEDUP) p7_Fail("HMM key %s occurs more than once in file %s\n", key, keyfile);
+	
+      if (hfp->ssi != NULL) { onefetch(go, ofp, key, hfp);  nhmm++; }
+    }
+
+  if (hfp->ssi == NULL) 
+    {
+      while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF)
+	{
+	  if      (status == eslEOD)       p7_Fail("read failed, HMM file %s may be truncated?", hfp->fname);
+	  else if (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hfp->fname);
+	  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hfp->fname);
+	  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s",   hfp->fname);
+
+	  if (esl_keyhash_Lookup(keys, hmm->name, -1, &keyidx) == eslOK || 
+	      ((hmm->acc) && esl_keyhash_Lookup(keys, hmm->acc, -1, &keyidx) == eslOK))
+	    {
+	      p7_hmmfile_WriteASCII(ofp, -1, hmm);
+	      nhmm++;
+	    }
+
+	  p7_hmm_Destroy(hmm);
+	}
+    }
+  
+  if (ofp != stdout) printf("\nRetrieved %d HMMs.\n", nhmm);
+  if (abc != NULL) esl_alphabet_Destroy(abc);
+  esl_keyhash_Destroy(keys);
+  esl_fileparser_Close(efp);
+  return;
+}
+
+
+/* onefetch():
+ * Given one <key> (an HMM name or accession), retrieve the corresponding HMM.
+ * In SSI mode, we can do this quickly by positioning the file, then reading
+ * and writing the HMM that's at that position.
+ * Without an SSI index, we have to parse the HMMs sequentially 'til we find
+ * the one we're after.
+ */
+static void
+onefetch(ESL_GETOPTS *go, FILE *ofp, char *key, P7_HMMFILE *hfp)
+{
+  ESL_ALPHABET *abc  = NULL;
+  P7_HMM       *hmm  = NULL;
+  int           status;
+
+  if (hfp->ssi != NULL)
+    {
+      status = p7_hmmfile_PositionByKey(hfp, key);
+      if      (status == eslENOTFOUND) p7_Fail("HMM %s not found in SSI index for file %s\n", key, hfp->fname);
+      else if (status == eslEFORMAT)   p7_Fail("Failed to parse SSI index for %s\n", hfp->fname);
+      else if (status != eslOK)        p7_Fail("Failed to look up location of HMM %s in SSI index of file %s\n", key, hfp->fname);
+    }
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF)
+    {
+      if      (status == eslEOD)       p7_Fail("read failed, HMM file %s may be truncated?", hfp->fname);
+      else if (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hfp->fname);
+      else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hfp->fname);
+      else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s",   hfp->fname);
+
+      if (strcmp(key, hmm->name) == 0 || (hmm->acc && strcmp(key, hmm->acc) == 0)) break;
+      p7_hmm_Destroy(hmm);
+      hmm = NULL;
+    }
+  
+  if (status == eslOK) 
+    {
+      p7_hmmfile_WriteASCII(ofp, -1, hmm);
+      p7_hmm_Destroy(hmm);
+    }
+  else p7_Fail("HMM %s not found in file %s\n", key, hfp->fname);
+
+  esl_alphabet_Destroy(abc);
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmlogo.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmlogo.c
new file mode 100755
index 0000000..bb51eb8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmlogo.c
@@ -0,0 +1,342 @@
+/* HMMLOGO, code to print values for building logos, or functions to inline
+ *
+ * Contents:
+ *   1. logo value functions
+ *   2. hmmlogo application
+ *   3. Copyright and license information
+ *
+ */
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. logo value functions
+ *****************************************************************/
+
+float
+hmmlogo_maxHeight (P7_BG *bg)
+{
+  float min_p = 1;
+  int i;
+  for (i=0; i<bg->abc->K; i++)
+    min_p = ESL_MIN(min_p,bg->f[i]);
+
+  return eslCONST_LOG2R * log(1.0/min_p);  //bits
+}
+
+
+/* assumes rel_ents is allocated with abc->K floats, and heights with hmm->M*abc->K floats*/
+int
+hmmlogo_RelativeEntropy_all (P7_HMM *hmm, P7_BG *bg, float *rel_ents, float **probs, float **heights ) {
+
+  int    K     = hmm->abc->K;
+  int    M     = hmm->M;
+  int    i, j;
+
+  float logodds;
+
+  for (i = 1; i <= M; i++) {
+    // height of column, to be split among the residues
+    rel_ents[i] = 0;
+    for (j=0; j<K; j++) {
+      probs[i][j] = hmm->mat[i][j];
+
+      if ( probs[i][j] > 0 ) {
+        logodds = eslCONST_LOG2R * log(probs[i][j] / bg->f[j]);  //bits
+        rel_ents[i] +=  probs[i][j] * logodds ;
+      }
+    }
+
+    // height of residues
+    for (j=0; j<K; j++) {
+      heights[i][j] = rel_ents[i] * probs[i][j];
+    }
+
+  }
+  return eslOK;
+}
+
+
+/* assumes rel_ents is allocated with abc->K floats, and heights with hmm->M*abc->K floats*/
+int
+hmmlogo_RelativeEntropy_above_bg (P7_HMM *hmm, P7_BG *bg, float *rel_ents, float **probs, float **heights ) {
+
+  int    K     = hmm->abc->K;
+  int    M     = hmm->M;
+  int    i, j;
+
+  float logodds;
+  float abovebg_prob_sum;
+
+  for (i = 1; i <= M; i++) {
+
+    // height of column, to be split among the residues; also sum of of positive scores
+    rel_ents[i] = 0;
+    abovebg_prob_sum = 0.0;
+    for (j=0; j<K; j++) {
+      probs[i][j] = hmm->mat[i][j];
+
+      if ( probs[i][j] > 0 ) {
+        logodds = eslCONST_LOG2R * log(probs[i][j] / bg->f[j]);  //bits
+        rel_ents[i] += probs[i][j] * logodds ;
+
+        if (logodds > 0)
+          abovebg_prob_sum += probs[i][j];
+      }
+    }
+
+    //height of residues
+    for (j=0; j<K; j++) {
+      heights[i][j] = 0.0;
+      if ( probs[i][j] > 0 ) {
+        logodds = eslCONST_LOG2R * log(probs[i][j] / bg->f[j]);  //bits
+        heights[i][j] = logodds<=0 ? 0.0 : (rel_ents[i] * probs[i][j] / abovebg_prob_sum) ;
+      }
+    }
+  }
+  return eslOK;
+}
+
+/* assumes heights is allocated with hmm->M floats*/
+int
+hmmlogo_ScoreHeights (P7_HMM *hmm, P7_BG *bg, float **heights ) {
+
+  int    K     = hmm->abc->K;
+  int    M     = hmm->M;
+  int    i, j;
+
+  float p;
+  float logodds;
+  float pos_scoresum;
+
+  for (i = 1; i <= M; i++) {
+
+    // height of column, to be split among the residues; also sum of of positive scores
+    pos_scoresum = 0.0;
+    for (j=0; j<K; j++) {
+      p       = hmm->mat[i][j];
+      logodds = eslCONST_LOG2R * log(p / bg->f[j]);  //bits
+      heights[i][j] = logodds;
+    }
+  }
+  return eslOK;
+}
+
+
+/* assumes heights is allocated with hmm->M floats*/
+int
+hmmlogo_IndelValues (P7_HMM *hmm, float *insert_P, float *insert_expL, float *occupancy ) {
+
+  int    i;
+
+  if (insert_P != NULL)    insert_P[1]    = hmm->t[1][p7H_MI];                   //probability of inserting after this match
+  if (insert_expL != NULL) insert_expL[1] =  1 / (1 - hmm->t[1][p7H_II]) ;       //expected length of the insert, if it happens
+//  if (delete_P != NULL)    delete_P[1]    = 0.0;  //1st match state never deleted
+
+  for (i = 2; i < hmm->M; i++) {
+    if (insert_P != NULL)    insert_P[i]    = hmm->t[i][p7H_MI];                         //probability of inserting after this match
+    if (insert_expL != NULL) insert_expL[i] =  1 / (1 - hmm->t[i][p7H_II]) ;          //expected length of the insert, if it happens
+//    if (delete_P != NULL)    delete_P[i]    = ( (1.0-delete_P[i-1]) * hmm->t[i-1][p7H_MD] ) + ( delete_P[i-1] * hmm->t[i-1][p7H_DD]) ; //probability of missing this state, either due to DD or MD from previous position
+  }
+
+  if (insert_P != NULL)    insert_P[hmm->M]    = 0.0;   //no inserts after final position
+  if (insert_expL != NULL) insert_expL[hmm->M] = 0.0;   //no inserts after final position
+//  if (delete_P != NULL)    delete_P[hmm->M]    = ( (1.0-delete_P[hmm->M-1]) * hmm->t[hmm->M-1][p7H_MD] ) + ( delete_P[hmm->M-1] * hmm->t[hmm->M-1][p7H_DD]) ; //probability of missing this state, either due to DD or MD from previous position
+
+  if (occupancy != NULL)  p7_hmm_CalculateOccupancy(hmm, occupancy, NULL);
+
+  return eslOK;
+}
+
+
+
+/*---------------- end, logo value functions ----------------------*/
+
+
+/*****************************************************************
+ * 2. hmmlogo application
+ *****************************************************************/
+
+#define HMMLOGO_OPTS "--height_relent_all,--height_relent_abovebg,--height_score"
+#define HMMLOGO_RELENT_ALL        1
+#define HMMLOGO_RELENT_ABOVEBG    2
+#define HMMLOGO_SCORE             3
+
+
+static ESL_OPTIONS options[] = {
+  /* name                           type        defaul  env  range   toggles   reqs   incomp              help                                                      docgroup*/
+  { "-h",                        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,             "show brief help on version and usage",                         1 },
+  /* Control of output */
+  { "--height_relent_all",       eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  HMMLOGO_OPTS,     "total height = relative entropy ; all letters shown (default)",     1 },
+  { "--height_relent_abovebg",   eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  HMMLOGO_OPTS,     "total height = relative entropy ; only letters >bg shown",    1 },
+  { "--height_score",            eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  HMMLOGO_OPTS,     "total height = sums of (pos|neg) scores; residue height = score",            1 },
+  { "--no_indel",                eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  NULL,             "don't provide indel rate values",                                            1 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+static char usage[]  = "[options] <hmmfile>";
+static char banner[] = "given an hmm, produce data required to build an hmm logo";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = NULL;
+  int i, j;
+  int              status   = eslOK;
+  P7_HMMFILE      *hfp      = NULL;              /* open input HMM file                             */
+  P7_HMM          *hmm      = NULL;              /* one HMM query                                   */
+  ESL_ALPHABET    *abc      = NULL;              /* digital alphabet                                */
+  P7_BG           *bg       = NULL;
+
+  char   errbuf[eslERRBUFSIZE];
+  char* hmmfile;
+
+  float *rel_ents  = NULL;
+  float **heights  = NULL;
+  float **probs    = NULL;
+  float *ins_P     = NULL;
+  float *ins_expL  = NULL;
+  float *occupancy = NULL;
+
+
+  int mode = HMMLOGO_RELENT_ALL;  //default
+
+
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal(argv[0], "Error in configuration: %s\n",       go->errbuf);
+
+  if (esl_opt_GetBoolean(go, "-h") )  {
+   p7_banner (stdout, argv[0], banner);
+   esl_usage (stdout, argv[0], usage);
+   puts("\nOptions:");
+   esl_opt_DisplayHelp(stdout, go, 1, 2, 100);
+   exit(0);
+  }
+
+  if (esl_opt_ArgNumber(go) != 1)                      esl_fatal(argv[0], "Incorrect number of command line arguments.\n");
+
+  hmmfile = esl_opt_GetArg(go, 1);
+
+  if (esl_opt_IsOn(go, "--height_relent_all"))
+    mode = HMMLOGO_RELENT_ALL;
+  else if (esl_opt_IsOn(go, "--height_relent_abovebg"))
+    mode = HMMLOGO_RELENT_ABOVEBG;
+  else if (esl_opt_IsOn(go, "--height_score"))
+    mode = HMMLOGO_SCORE;
+  else
+    mode = HMMLOGO_RELENT_ALL;  //default
+
+  /* Open the query profile HMM file */
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);
+
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+
+  bg     = p7_bg_Create(abc);
+
+  ESL_ALLOC(rel_ents, (hmm->M+1) * sizeof(float));
+  ESL_ALLOC(heights,  (hmm->M+1) * sizeof(float*));
+  ESL_ALLOC(probs,    (hmm->M+1) * sizeof(float*));
+
+  for (i = 1; i <= hmm->M; i++) {
+    ESL_ALLOC(heights[i], abc->K * sizeof(float));
+    ESL_ALLOC(probs[i],   abc->K * sizeof(float));
+  }
+
+  /* residue heights */
+  if (mode == HMMLOGO_RELENT_ALL) {
+    printf ("max expected height = %.2f\n", hmmlogo_maxHeight(bg) );
+    hmmlogo_RelativeEntropy_all(hmm, bg, rel_ents, probs, heights);
+  } else if (mode == HMMLOGO_RELENT_ABOVEBG) {
+    printf ("max expected height = %.2f\n", hmmlogo_maxHeight(bg) );
+    hmmlogo_RelativeEntropy_above_bg(hmm, bg, rel_ents, probs, heights);
+  } else if (mode == HMMLOGO_SCORE) {
+    hmmlogo_ScoreHeights(hmm, bg, heights );
+  }
+
+  printf ("Residue heights\n");
+  for (i = 1; i <= hmm->M; i++) {
+    printf("%d: ", i);
+    for (j=0; j<abc->K; j++)
+      printf("%6.3f ", heights[i][j] );
+
+    if (mode != HMMLOGO_SCORE)
+      printf(" (%6.3f)", rel_ents[i]);
+
+    printf("\n");
+
+  }
+
+  if (rel_ents != NULL) free(rel_ents);
+  if (heights != NULL) {
+    for (i = 1; i <= hmm->M; i++)
+      if (heights[i] != NULL) free(heights[i]);
+    free(heights);
+  }
+
+
+  /* indel values */
+  if (! esl_opt_IsOn(go, "--no_indel")) {
+
+    ESL_ALLOC(ins_P, (hmm->M+1) * sizeof(float));
+    ESL_ALLOC(ins_expL, (hmm->M+1) * sizeof(float));
+    ESL_ALLOC(occupancy, (hmm->M+1) * sizeof(float));
+
+    hmmlogo_IndelValues(hmm, ins_P, ins_expL, occupancy);
+
+    printf ("Indel values\n");
+    for (i = 1; i <= hmm->M; i++)
+      printf("%d: %6.3f %6.3f %6.3f\n", i, ins_P[i], ins_expL[i], occupancy[i] );
+
+    free(ins_P);
+    free(ins_expL);
+    free(occupancy);
+
+  }
+
+
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+
+  exit(0);
+
+
+  ERROR:
+  if (rel_ents != NULL) free(rel_ents);
+  if (heights != NULL) {
+    for (i = 1; i <= hmm->M; i++)
+      if (heights[i] != NULL) free(heights[i]);
+    free(heights);
+  }
+  if (hfp != NULL) p7_hmmfile_Close(hfp);
+  if (abc != NULL) esl_alphabet_Destroy(abc);
+
+
+  if (ins_P != NULL)     free(ins_P);
+  if (ins_expL != NULL)  free(ins_expL);
+  if (occupancy != NULL) free(occupancy);
+
+
+}
+
+/*---------------- end, hmmlogo application ----------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd.c
new file mode 100755
index 0000000..c44bca1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd.c
@@ -0,0 +1,231 @@
+/* HMMER search daemon
+ */
+#include "p7_config.h"
+
+#ifdef HMMER_THREADS
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <signal.h>
+
+#ifndef HMMER_THREADS
+#error "Program requires pthreads be enabled."
+#endif /*HMMER_THREADS*/
+
+#include "easel.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "hmmpgmd.h"
+
+#define CONF_FILE "/etc/hmmpgmd.conf"
+
+static ESL_OPTIONS cmdlineOpts[] = {
+  /* name           type         default      env   range           toggles  reqs   incomp           help                                                     docgroup */
+  { "-h",           eslARG_NONE,   FALSE,     NULL, NULL,           NULL,  NULL,  NULL,            "show brief help on version and usage",                         1 },
+  { "--master",     eslARG_NONE,    NULL,     NULL, NULL,           NULL,  NULL,  "--worker",      "run program as the master server",                            12 },
+  { "--worker",     eslARG_STRING,  NULL,     NULL, NULL,           NULL,  NULL,  "--master",      "run program as a worker with server at <s>",                  12 },
+  { "--cport",      eslARG_INT,     "51371",  NULL, "49151<n<65536",NULL,  NULL,  "--worker",      "port to use for client/server communication",                 12 },
+  { "--wport",      eslARG_INT,     "51372",  NULL, "49151<n<65536",NULL,  NULL,  NULL,            "port to use for server/worker communication",                 12 },
+  { "--ccncts",     eslARG_INT,     "16",     NULL, "n>0",          NULL,  NULL,  "--worker",      "maximum number of client side connections to accept",         12 },
+  { "--wcncts",     eslARG_INT,     "32",     NULL, "n>0",          NULL,  NULL,  "--worker",      "maximum number of worker side connections to accept",         12 },
+  { "--pid",        eslARG_OUTFILE, NULL,     NULL, NULL,           NULL,  NULL,  NULL,            "file to write process id to",                                 12 },
+  { "--daemon",     eslARG_NONE,    NULL,     NULL, NULL,           NULL,  NULL,  NULL,            "run as a daemon using config file: /etc/hmmpgmd.conf",        12 },
+  { "--seqdb",      eslARG_INFILE,  NULL,     NULL, NULL,           NULL,  NULL,  "--worker",      "protein database to cache for searches",                      12 },
+  { "--hmmdb",      eslARG_INFILE,  NULL,     NULL, NULL,           NULL,  NULL,  "--worker",      "hmm database to cache for searches",                          12 },
+  { "--cpu",        eslARG_INT,     NULL,"HMMER_NCPU","n>0",        NULL,  NULL,  "--master",      "number of parallel CPU workers to use for multithreads",      12 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[options]";
+static char banner[] = "search a query against a database";
+
+
+typedef void sig_func(int);
+
+/* MSF called this <signal()>. That conflicts with system's <signal()>. 
+ * Unclear what he was doing. This appears to duplicated functionality
+ * of the system's <signal()>. Revisit later. For now, silence compiler
+ * warning by renaming the function.
+ */
+sig_func *
+our_signal(int signo, sig_func *fn)
+{
+  struct sigaction act;
+  struct sigaction oact;
+
+  act.sa_handler = fn;
+  sigemptyset(&act.sa_mask);
+  act.sa_flags = 0;
+  if (signo == SIGALRM) {
+#ifdef SA_INTERRUPT
+    act.sa_flags |= SA_INTERRUPT;  /* SunOS 4.x */
+#endif
+  } else {
+#ifdef SA_RESTART
+    act.sa_flags |= SA_RESTART;  /* SVR4, 4.4BSD */
+#endif
+  }
+  if (sigaction(signo, &act, &oact) < 0) {
+    return SIG_ERR;
+  }
+
+  return oact.sa_handler;
+}
+
+/* write_pid()
+ * Log the process id to a file.
+ */
+static void
+write_pid(ESL_GETOPTS *go)
+{
+  char   *pid_file = esl_opt_GetString(go, "--pid");
+  FILE   *fp       = fopen(pid_file, "w");
+
+  if (!fp) p7_Fail("Unable to open PID file %s for writing.", pid_file);
+  fprintf(fp,"%ld\n", (long)getpid());
+  fclose(fp);
+}
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(cmdlineOpts);
+  int          status;
+
+  /* if there are no command line arguments, let's try to read /etc/hmmpgmd.conf
+   * for any configuration data.
+   */
+  if (argc == 1) 
+    {
+      FILE        *fp = NULL;
+
+      if ((fp = fopen(CONF_FILE, "r")) == NULL) 
+	{ if (puts("Options --master or --worker must be specified.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+      if ((status = esl_opt_ProcessConfigfile(go, CONF_FILE, fp) ) != eslOK)
+	{ if (printf("Failed to parse configuration file %s: %s\n",  CONF_FILE, go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+      fclose(fp);
+    } 
+  else 
+    {
+      if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) 
+	{ if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+    }
+
+  if (esl_opt_VerifyConfig(go) != eslOK) { if (printf("Failed to parse command line: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+ 
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+
+      if (puts("\nBasic options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+
+      if (puts("\nOther expert options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 80); 
+      exit(0);
+    }
+
+
+  if (esl_opt_ArgNumber(go) != 0) { if (puts("Incorrect number of command line arguments.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  if (esl_opt_IsUsed(go, "--master") && !(esl_opt_IsUsed(go, "--seqdb") || esl_opt_IsUsed(go, "--hmmdb"))) 
+    { if (puts("At least one --seqdb or --hmmdb must be specified.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  puts("\nwhere most common options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+  esl_getopts_Destroy(go);
+  exit(0);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go = NULL;      /* command line processing */
+
+  process_commandline(argc, argv, &go);
+
+  /* if we write to a broken socket, ignore the signal and handle the error. */
+  our_signal(SIGPIPE, SIG_IGN);
+
+  /* check if we need to write out our pid */
+  if (esl_opt_IsOn(go, "--pid")) write_pid(go);
+
+  if      (esl_opt_IsUsed(go, "--master"))  master_process(go);
+  else if (esl_opt_IsUsed(go, "--worker"))  worker_process(go);
+  else
+    { puts("Options --master or --worker must be specified.");  }
+
+  esl_getopts_Destroy(go);
+
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * Notes on testing and debugging
+ *****************************************************************/
+
+
+/* How to run a test:
+ *   Need a test sequence database: mine is ~eddys/data/hmmpgmd/hmmpgmd.fa
+ *   Need a test profile database:  mine is ~eddys/data/hmmpgmd/hmmpgmd.hmm
+ *   
+ *   src/hmmpgmd --master --seqdb ~/data/hmmpgmd/hmmpgmd.fa --hmmdb ~/data/hmmpgmd/hmmpgmd.hmm &
+ *   src/hmmpgmd --worker 127.0.0.1 --cpu 1 &
+ *   src/hmmc2 -S
+ *     @--seqdb 1
+ *     >foo
+ *     ACDEFGH...
+ *     //
+ *     !shutdown
+ *     //
+ *     
+ * Or, for hmmscan against the hmm db, replace @--seqdb 1 with @--hmmdb 1.
+ *
+ * For debugging, start two of the three processes on cmdline, and the
+ * one to be debugged under gdb.
+ *    in worker: break process_SearchCmd
+ *    
+ *    
+ * Valgrind debugging
+ * generate a small test seq database:
+ *     esl-shuffle -G --amino -N 10 -L 400 > foo.fa
+ *     fasta2daemon.pl foo.fa              > foo.d
+ *     
+ * in three separate terminal windows    
+ *     valgrind --dsymutil=yes --leak-check=yes --show-reachable=yes src/hmmpgmd --master --seqdb foo.d 
+ *     valgrind                --leak-check=yes --show-reachable=yes src/hmmpgmd --worker 127.0.0.1 --cpu 1 
+ *     valgrind --dsymutil=yes --leak-check=yes --show-reachable=yes src/hmmc2 -S
+ *     
+ * copy/paste tutorial/M1.hmm as an example hmmsearch    
+ * or any HMM. On Mac OS/X, to "copy" a file my.hmm to the clipboard:
+ *    cat my.hmm | pbcopy   
+ */
+
+#endif /*HMMER_THREADS*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd.h
new file mode 100755
index 0000000..167a13c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd.h
@@ -0,0 +1,151 @@
+/*
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmpgmd.h $
+ * SVN $Id: hmmpgmd.h 4423 2013-04-12 18:56:33Z wheelert $
+ */
+#ifndef P7_HMMPGMD_INCLUDED
+#define P7_HMMPGMD_INCLUDED
+
+
+typedef struct {
+  uint32_t   status;            /* error status                             */
+  uint64_t   msg_size;          /* size of the next packet.  if status not  */
+                                /* zero, the length is for the error string */
+                                /* otherwise it is the length of the data   */
+                                /* to follow.                               */
+} HMMD_SEARCH_STATUS;
+
+typedef struct {
+  double     elapsed;         	/* elapsed time, seconds                    */
+  double     user;            	/* CPU time, seconds                        */
+  double     sys;             	/* system time, seconds                     */
+
+  double  Z;			/* eff # targs searched (per-target E-val)  */
+  double  domZ;			/* eff # signific targs (per-domain E-val)  */
+  enum p7_zsetby_e Z_setby;   	/* how Z was set                            */
+  enum p7_zsetby_e domZ_setby;	/* how domZ was set                         */
+
+  uint64_t   nmodels;         	/* # of HMMs searched                       */
+  uint64_t   nseqs;           	/* # of sequences searched                  */
+  uint64_t   n_past_msv;      	/* # comparisons that pass MSVFilter()      */
+  uint64_t   n_past_bias;     	/* # comparisons that pass bias filter      */
+  uint64_t   n_past_vit;      	/* # comparisons that pass ViterbiFilter()  */
+  uint64_t   n_past_fwd;      	/* # comparisons that pass ForwardFilter()  */
+
+  uint64_t   nhits;           	/* number of hits in list now               */
+  uint64_t   nreported;       	/* number of hits that are reportable       */
+  uint64_t   nincluded;       	/* number of hits that are includable       */
+} HMMD_SEARCH_STATS;
+
+#define HMMD_SEQUENCE   101
+#define HMMD_HMM        102
+
+/* commands between master and worker */
+#define HMMD_CMD_SEARCH     10001
+#define HMMD_CMD_SCAN       10002
+#define HMMD_CMD_INIT       10003
+#define HMMD_CMD_SHUTDOWN   10004
+#define HMMD_CMD_RESET      10005
+
+#define MAX_INIT_DESC 32
+
+/* HMMD_CMD_SEARCH or HMMD_CMD_SCAN */
+typedef struct {
+  uint32_t    db_inx;               /* database index to search                 */
+  uint32_t    db_type;              /* database type to search                  */
+  uint32_t    inx;                  /* index to begin search                    */
+  uint32_t    cnt;                  /* number of sequences to search            */
+  uint32_t    query_type;           /* sequence / hmm                           */
+  uint32_t    query_length;         /* length of the query data                 */
+  uint32_t    opts_length;          /* length of the options string             */
+  char        data[1];              /* search data                              */
+} HMMD_SEARCH_CMD;
+
+/* HMMD_CMD_INIT */
+typedef struct {
+  char        sid[MAX_INIT_DESC];   /* unique id for sequence database          */
+  char        hid[MAX_INIT_DESC];   /* unique id for hmm database               */
+  uint32_t    seqdb_off;            /* offset to seq database name, 0 if none   */
+  uint32_t    hmmdb_off;            /* offset to hmm database name, 0 if none   */
+  uint32_t    db_cnt;               /* total number of sequence databases       */
+  uint32_t    seq_cnt;              /* sequences in database                    */
+  uint32_t    hmm_cnt;              /* total number hmm databases               */
+  uint32_t    model_cnt;            /* models in hmm database                   */
+  char        data[1];              /* string data                              */
+} HMMD_INIT_CMD;
+
+/* HMMD_CMD_RESET */
+typedef struct {
+  char        ip_addr[1];           /* ip address                               */
+} HMMD_INIT_RESET;
+
+/* HMMD_HEADER */
+typedef struct {
+  uint32_t   length;                /* message length                           */
+  uint32_t   command;               /* message type                             */
+  uint32_t    status;               /* 0 - success                              */
+} HMMD_HEADER;
+
+typedef struct {
+  HMMD_HEADER hdr;                  /* length and type of message               */
+  union {
+    HMMD_INIT_CMD   init;
+    HMMD_SEARCH_CMD srch;
+    HMMD_INIT_RESET reset;
+  };
+} HMMD_COMMAND;
+
+#define MSG_SIZE(x) (sizeof(HMMD_HEADER) + ((HMMD_HEADER *)(x))->length)
+
+size_t writen(int fd, const void *vptr, size_t n);
+size_t readn(int fd, void *vptr, size_t n);
+
+typedef struct queue_data_s {
+  uint32_t       cmd_type;    /* type of command to perform     */
+  uint32_t       query_type;  /* type of the query              */
+  P7_HMM        *hmm;         /* query HMM                      */
+  ESL_SQ        *seq;         /* query sequence                 */
+  ESL_ALPHABET  *abc;         /* digital alphabet               */
+  ESL_GETOPTS   *opts;        /* search specific options        */
+  HMMD_COMMAND  *cmd;         /* workers search command         */
+
+  int            sock;        /* socket descriptor of client    */
+  char           ip_addr[64];
+
+  int            dbx;         /* database index to search       */
+  int            inx;         /* sequence index to start search */
+  int            cnt;         /* number of sequences to search  */
+
+} QUEUE_DATA;
+
+
+typedef struct {
+  int       N;       /* number of ranges */
+  uint32_t *starts;  /* 0..N-1  start positions */
+  uint32_t *ends;    /* 0..N-1  start positions */
+} RANGE_LIST;
+
+extern void free_QueueData(QUEUE_DATA *data);
+extern int  hmmpgmd_IsWithinRanges (int64_t sq_idx, RANGE_LIST *list );
+extern int  hmmpgmd_GetRanges (RANGE_LIST *list, char *rangestr);
+
+extern int  process_searchopts(int fd, char *cmdstr, ESL_GETOPTS **ret_opts);
+
+extern void worker_process(ESL_GETOPTS *go);
+extern void master_process(ESL_GETOPTS *go);
+
+#define LOG_FATAL_MSG(str, err) {                                               \
+    p7_syslog(LOG_CRIT,"[%s:%d] - %s error %d - %s\n", __FILE__, __LINE__, str, err, strerror(err)); \
+    exit(0); \
+  }
+
+#endif /*P7_HMMPGMD_INCLUDED*/
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ ************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd2msa.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd2msa.c
new file mode 100755
index 0000000..15cd3e3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd2msa.c
@@ -0,0 +1,670 @@
+/* Function for conversion of binary data to MSA.
+ *
+ * Contents:
+ *    1. The <esl_msa_hmmpgmd2msa> function
+ *    2. Test driver
+ *    3. Copyright and license information
+ *
+ */
+
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <hmmer.h>
+#include <hmmpgmd.h>
+#include <esl_sqio.h>
+
+
+/******************************************************************************
+ *# 1. The <hmmpgmd2msa> function
+ *****************************************************************************/
+
+
+
+/* Function:  hmmpgmd2msa()
+ * Synopsis:  Convert an HMMPGMD-derived data stream to an MSA, based
+ *            on the corresponding hmm
+ *
+ * Purpose:   Given a data stream from HMMPGMD of the form shown
+ *            here, produce an MSA:
+ *                 HMMD_SEARCH_STATS
+ *                 P7_HITS array of size (nhits) from above?
+ *                 then repeats of P7_DOMAIN and P7_ALIDISPLAY data
+ *                 for the hits, where each hit with d domains
+ *                 produces
+ *                   d P7_DOMAINs
+ *                   then
+ *                   d P7_ALIDISPLAYs
+ *            ... optionally adding a sequence with length matching
+ *            that of the hmm, which will be included in the alignment.
+ *
+ *			  A further extension has been the ability to include or exclude
+ *            sequences form the list of hits.
+ *
+ *            This function's expected use is as a helper function for
+ *            the hmmer website, which gets the above data stream from
+ *            hmmpgmd.
+ *
+ * Args :     data: a pointer to binary data in the format given above
+ *            hmm:  the HMM against which the alidisplay traces and
+ *                  additional sequences/traces are threaded to reach
+ *                  the returned msa.
+ *            qsq : optional sequence to be included in the output msa;
+ *                  must have the same number of residues as the hmm
+ *                  has states, as each residue i will be aligned to
+ *                  state i.
+ *            incl: optional array of sequence names, in the case of
+ *            		hmmpgmd a list of ints, which are are excluded due
+ *            		to the sequence threshold, but have been selected
+ *            		to be included in the alignment.  This ties in
+ *            		with the way jackhmmer is implemented on the
+ *            		HMMER website.
+ *       incl_size: required size of the incl array. zero if incl is null.
+ *       	  excl: optional array of sequence names, in the case of
+ *            		hmmpgmd a list of ints, which are are included as they
+ *            		score above threshold, but have been selected
+ *            		to be excluded from the alignment.
+ *       excl_size: required size of the excl array. zero if excl is null.
+ *
+ *
+ * Returns:   Pointer to completed MSA object. NULL on error
+ *
+ */
+int
+hmmpgmd2msa(void *data, P7_HMM *hmm, ESL_SQ *qsq, int *incl, int incl_size, int *excl, int excl_size, ESL_MSA **ret_msa) {
+  int i, j;
+  int c;
+  int status;
+  int set_included;
+
+  /* trace of the query sequence with N residues onto model with N match states */
+  P7_TRACE          *qtr         = NULL;
+  int                extra_sqcnt = 0;
+
+  /* vars used to read from the binary data */
+  HMMD_SEARCH_STATS *stats   = NULL;              /* pointer to a single stats object, at the beginning of data */
+  P7_HIT            *hits    = NULL;              /* an array of hits, at the appropriate offset in data */
+
+  /* vars used in msa construction */
+  P7_TOPHITS         th;
+  P7_ALIDISPLAY     *ad, *ad2;
+  ESL_MSA           *msa   = NULL;
+  P7_DOMAIN         *dom   = NULL;
+
+  char              *p     = (char*)data;        /*pointer used to walk along data, must be char* to allow pointer arithmetic */
+
+  th.N = 0;
+  th.unsrt = NULL;
+  th.hit   = NULL;
+
+  /* optionally build a faux trace for the query sequence: relative to core model (B->M_1..M_L->E) */
+  if (qsq != NULL) {
+    if (qsq->n != hmm->M) {
+      status = eslFAIL;
+      goto ERROR;
+    }
+
+    if ((qtr = p7_trace_Create())                      == NULL)  {status = eslFAIL;  goto ERROR; }
+    if ((status = p7_trace_Append(qtr, p7T_B, 0, 0))   != eslOK) goto ERROR;
+    for (i = 1; i <= qsq->n; i++)
+      if ((status = p7_trace_Append(qtr, p7T_M, i, i)) != eslOK) goto ERROR;
+    if ((status = p7_trace_Append(qtr, p7T_E, 0, 0))   != eslOK) goto ERROR;
+    qtr->M = qsq->n;
+    qtr->L = qsq->n;
+    extra_sqcnt = 1;
+  }
+
+  /* get search stats + hit info */
+  stats = (HMMD_SEARCH_STATS*)p;
+
+  /* sanity check */
+  if (   ( stats->Z_setby != p7_ZSETBY_NTARGETS    && stats->Z_setby != p7_ZSETBY_OPTION    && stats->Z_setby != p7_ZSETBY_FILEINFO )
+      || ( stats->domZ_setby != p7_ZSETBY_NTARGETS && stats->domZ_setby != p7_ZSETBY_OPTION && stats->domZ_setby != p7_ZSETBY_FILEINFO )
+      ||   stats->nhits > 10000000
+      ||   stats->elapsed > 1000000
+  ) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+
+  /* ok, it looks legitimate */
+  p    += sizeof(HMMD_SEARCH_STATS);
+  hits  = (P7_HIT*)p;
+  p    += sizeof(P7_HIT) * stats->nhits;
+
+  /* create a tophits object, to be passed to p7_tophits_Alignment() */
+  ESL_ALLOC( th.unsrt, sizeof(P7_HIT) * stats->nhits);
+  memcpy( th.unsrt, hits, sizeof(P7_HIT) * stats->nhits);
+  ESL_ALLOC( th.hit, sizeof(P7_HIT*) * stats->nhits);
+  for (i=0; i<stats->nhits; i++) {
+    th.hit[i] = &(th.unsrt[i]);
+    if (   th.hit[i]->ndom > 10000
+        || th.hit[i]->flags >  p7_IS_INCLUDED + p7_IS_REPORTED + p7_IS_NEW + p7_IS_DROPPED + p7_IS_DUPLICATE
+    ) {
+      status = eslFAIL;
+      goto ERROR;
+    }
+  }
+
+//  th.unsrt     = NULL;
+  th.N         = stats->nhits;
+  th.nreported = 0;
+  th.nincluded = 0;
+  th.is_sorted_by_sortkey = 0;
+  th.is_sorted_by_seqidx  = 0;
+
+  for (i = 0; i < th.N; i++) {
+    ESL_ALLOC( th.hit[i]->dcl, sizeof(P7_DOMAIN) *  th.hit[i]->ndom);
+    /* Go through the hits and set to be excluded or included as necessary */
+    set_included = 0;
+    if(th.hit[i]->flags & p7_IS_INCLUDED){
+      if(excl_size > 0){
+        for( c = 0; c < excl_size; c++){
+          if(excl[c] == (long)(th.hit[i]->name) ){
+            th.hit[i]->flags = p7_IS_DROPPED;
+            th.hit[i]->nincluded = 0;
+            break;
+          }
+        }
+      }
+    }else{
+      if(incl_size > 0){
+    	for( c = 0; c < incl_size; c++){
+          if(incl[c] == (long)th.hit[i]->name ){
+            th.hit[i]->flags = p7_IS_INCLUDED;
+            set_included = 1;
+          }
+        }
+      }
+    }
+    /* first grab all the P7_DOMAINs for the hit */
+    for (j=0; j < th.hit[i]->ndom; j++) {
+      dom = th.hit[i]->dcl + j;
+      memcpy(dom , (P7_DOMAIN*)p, sizeof(P7_DOMAIN));
+      /* Possibly set domains to be include if being
+       * externally set via incl list*/
+      if(set_included) th.hit[i]->dcl[j].is_included = 1;
+      p += sizeof(P7_DOMAIN);
+    }
+    /* then grab the P7_ALIDISPLAYs for the hit */
+    for (j=0; j < th.hit[i]->ndom; j++) {
+      ad = (P7_ALIDISPLAY*)p;
+      ESL_ALLOC(th.hit[i]->dcl[j].ad, sizeof(P7_ALIDISPLAY));
+      ad2 = th.hit[i]->dcl[j].ad;
+
+      ad2->memsize = ad->memsize;
+      ad2->rfline = ad->rfline;
+      ad2->mmline = ad->mmline;
+      ad2->csline = ad->csline ;
+      ad2->model  = ad->model ;
+      ad2->mline  = ad->mline ;
+      ad2->aseq   = ad->aseq ;
+      ad2->ppline = ad->ppline;
+      ad2->N      = ad->N;
+
+      ad2->hmmname = ad->hmmname;
+      ad2->hmmacc  = ad->hmmacc ;
+      ad2->hmmdesc = ad->hmmdesc;
+      ad2->hmmfrom = ad->hmmfrom;
+      ad2->hmmto   = ad->hmmto;
+      ad2->M       = ad->M;
+
+      ad2->sqname  = ad->sqname;
+      ad2->sqacc   = ad->sqacc ;
+      ad2->sqdesc  = ad->sqdesc;
+      ad2->sqfrom  = ad->sqfrom;
+      ad2->sqto    = ad->sqto;
+      ad2->L       = ad->L;
+
+      p += sizeof(P7_ALIDISPLAY);
+
+      ESL_ALLOC(ad2->mem, ad2->memsize);
+      
+      memcpy(ad2->mem, p, ad->memsize);
+      
+      p += ad2->memsize;
+      p7_alidisplay_Deserialize(ad2);
+    }
+  }
+
+
+  /* use the tophits and trace info above to produce an alignment */
+  if ( (status = p7_tophits_Alignment(&th, hmm->abc, &qsq, &qtr, extra_sqcnt, p7_ALL_CONSENSUS_COLS, &msa)) != eslOK) goto ERROR;
+
+
+  /* free memory */
+  if (qtr != NULL) free(qtr);
+  for (i = 0; i < th.N; i++) {
+    for (j=0; j < th.hit[i]->ndom; j++)
+      p7_alidisplay_Destroy(th.hit[i]->dcl[j].ad);
+
+    if (th.hit[i]->dcl != NULL) free (th.hit[i]->dcl);
+  }
+  if (th.unsrt != NULL) free (th.unsrt);
+  if (th.hit != NULL) free (th.hit);
+
+  *ret_msa = msa;
+  return eslOK;
+
+ERROR:
+  /* free memory */
+  if (qtr != NULL) free(qtr);
+
+  for (i = 0; i < th.N; i++) {
+    for (j=0; j < th.hit[i]->ndom; j++)
+      p7_alidisplay_Destroy(th.hit[i]->dcl[j].ad);
+
+    if (th.hit[i]->dcl != NULL) free (th.hit[i]->dcl);
+  }
+  if (th.unsrt != NULL) free (th.unsrt);
+  if (th.hit != NULL) free (th.hit);
+
+  return status;
+}
+
+/******************************************************************************
+ *# 2. The <hmmpgmd2stats> function
+ *****************************************************************************/
+
+
+
+/* Function:  hmmpgmd2stats()
+ * Synopsis:  Use a HMMPGMD-derived data stream to extract some simple
+ *            statistics regarding its alignment.
+ * Purpose:   Given a data stream from HMMPGMD of the form shown
+ *            here, produce a vector of floats:
+ *                 positions 0 to hmm->M-1 are:
+ *                   Fraction of alignments which cover model at that position
+ *                 positions hmm->M to hmm->M*2-1
+ *                   Fraction of alignments which cover model at that position (mod hmm->M)     
+ *                   with a similar residue
+ *                 positions hmm->M*2 to hmm->M*3-1
+ *                   Fraction of alignments which cover model at that position (mod hmm->M)
+ *                   with the consensus residue
+ *
+ * Args :     data: a pointer to binary data in the format given above
+ *            hmm:  the HMM against which the alidisplay traces and
+ *                  additional sequences/traces are threaded to reach
+ *                  the returned msa.
+ *            
+ * Returns:   the location where the output vector will be placed.
+ *                      caller is responsible for freeing it later   
+ *
+ */
+int hmmpgmd2stats(void *data, P7_HMM *hmm, float** statsOut) 
+{
+  int i, j, k;
+  int status;
+
+  /* trace of the query sequence with N residues onto model with N match states */
+  P7_TRACE          *qtr         = NULL;
+
+  /* vars used to read from the binary data */
+  HMMD_SEARCH_STATS *stats   = NULL;              /* pointer to a single stats object, at the beginning of data */
+  P7_HIT            *hits    = NULL;              /* an array of hits, at the appropriate offset in data */
+
+  P7_TOPHITS         th;
+  P7_DOMAIN         *dom;
+  P7_ALIDISPLAY     *ad, *ad2;
+
+  int *cover, *id, *similar; //store statistics result per hit
+  int readPos, writePos;     //for converting alignment contents into model indexing
+
+  char              *p     = (char*)data;        /*pointer used to walk along data, must be char* to allow pointer arithmetic */
+
+  th.N = 0;
+  th.unsrt = NULL;
+  th.hit   = NULL;
+
+  //storage for output
+  ESL_ALLOC( *statsOut,   sizeof(float) * hmm->M * 3);
+
+  //storage for accumulation per hit
+  ESL_ALLOC( cover,   sizeof(int) * hmm->M);
+  ESL_ALLOC( id,      sizeof(int) * hmm->M);
+  ESL_ALLOC( similar, sizeof(int) * hmm->M);
+  for(k = 0; k < hmm->M; k++)
+  {
+    cover[k] = 0;
+    id[k] = 0;
+    similar[k] = 0;
+    
+    (*statsOut)[k         ] = 0;
+    (*statsOut)[k+hmm->M  ] = 0;
+    (*statsOut)[k+hmm->M*2] = 0;
+  }
+
+  /* get search stats + hit info */
+  stats = (HMMD_SEARCH_STATS*)p;
+
+  /* sanity check */
+  if (   ( stats->Z_setby != p7_ZSETBY_NTARGETS    && stats->Z_setby != p7_ZSETBY_OPTION    && stats->Z_setby != p7_ZSETBY_FILEINFO )
+      || ( stats->domZ_setby != p7_ZSETBY_NTARGETS && stats->domZ_setby != p7_ZSETBY_OPTION && stats->domZ_setby != p7_ZSETBY_FILEINFO )
+      ||   stats->nhits > 10000000
+      ||   stats->elapsed > 1000000
+  ) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+
+  /* ok, it looks legitimate */
+  p    += sizeof(HMMD_SEARCH_STATS);
+  hits  = (P7_HIT*)p;
+  p    += sizeof(P7_HIT) * stats->nhits;
+
+  /* create a tophits object, use it to step through the alignments */
+  ESL_ALLOC( th.unsrt, sizeof(P7_HIT) * stats->nhits);
+  memcpy( th.unsrt, hits, sizeof(P7_HIT) * stats->nhits);
+  ESL_ALLOC( th.hit, sizeof(P7_HIT*) * stats->nhits);
+  for (i=0; i<stats->nhits; i++) {
+    th.hit[i] = &(th.unsrt[i]);
+    if (   th.hit[i]->ndom > 10000
+        || th.hit[i]->flags >  p7_IS_INCLUDED + p7_IS_REPORTED + p7_IS_NEW + p7_IS_DROPPED + p7_IS_DUPLICATE
+    ) {
+      status = eslFAIL;
+      goto ERROR;
+    }
+  }
+
+  th.N         = stats->nhits;
+  th.nreported = 0;
+  th.nincluded = 0;
+  th.is_sorted_by_sortkey = 0;
+  th.is_sorted_by_seqidx  = 0;
+
+  for (i = 0; i < th.N; i++) 
+  {
+    ESL_ALLOC( th.hit[i]->dcl, sizeof(P7_DOMAIN) *  th.hit[i]->ndom);
+   
+    if(th.hit[i]->flags & p7_IS_INCLUDED) th.nincluded++;
+
+    /* first grab all the P7_DOMAINs for the hit */
+    for (j=0; j < th.hit[i]->ndom; j++) 
+    {
+      dom = (P7_DOMAIN*)p;
+      th.hit[i]->dcl[j].is_included = dom->is_included;
+      p += sizeof(P7_DOMAIN);
+    }
+    
+    /* then grab the P7_ALIDISPLAYs for the hit */
+    for (j=0; j < th.hit[i]->ndom; j++) 
+    {
+      ad = (P7_ALIDISPLAY*)p;
+      ESL_ALLOC(th.hit[i]->dcl[j].ad, sizeof(P7_ALIDISPLAY));
+      ad2 = th.hit[i]->dcl[j].ad;
+
+      ad2->memsize = ad->memsize;
+      ad2->rfline = ad->rfline;
+      ad2->mmline = ad->mmline;
+      
+      ad2->csline = ad->csline ;
+      ad2->model  = ad->model ;
+      ad2->mline  = ad->mline ;
+      ad2->aseq   = ad->aseq ;
+      ad2->ppline = ad->ppline;
+      ad2->N      = ad->N;
+
+      ad2->hmmname = ad->hmmname;
+      ad2->hmmacc  = ad->hmmacc ;
+      ad2->hmmdesc = ad->hmmdesc;
+      ad2->hmmfrom = ad->hmmfrom;
+      ad2->hmmto   = ad->hmmto;
+      ad2->M       = ad->M;
+
+      ad2->sqname  = ad->sqname;
+      ad2->sqacc   = ad->sqacc ;
+      ad2->sqdesc  = ad->sqdesc;
+      ad2->sqfrom  = ad->sqfrom;
+      ad2->sqto    = ad->sqto;
+      ad2->L       = ad->L;    
+      
+      p += sizeof(P7_ALIDISPLAY);
+
+      ESL_ALLOC(ad2->mem, ad2->memsize);
+      
+      memcpy(ad2->mem, p, ad->memsize);
+      
+      p += ad2->memsize;
+      
+      p7_alidisplay_Deserialize(ad2);
+      
+      if(th.hit[i]->flags & p7_IS_INCLUDED && th.hit[i]->dcl[j].is_included)
+      {
+        writePos = ad2->hmmfrom-1;  
+        readPos = 0;
+        while(readPos < ad2->N)
+        {
+          //check if model covers residue
+          if(isupper(ad2->aseq[readPos]) || ad2->aseq[readPos] == '-')
+          {          
+            cover[writePos]++;
+          
+            //check mline for id
+            if(isalpha(ad2->mline[readPos]))
+            {
+              id[writePos]++;
+              similar[writePos]++;
+            }
+            //check mline for not-a-space
+            else if(ad2->mline[readPos] == '+')
+            {
+              similar[writePos]++;
+            }
+            writePos++;
+          }       
+          readPos++;
+        }
+      }
+    }
+      
+    //increment output, adjusting for overlaps
+    for(k = 0; k < hmm->M; k++)
+    {
+      if(cover[k]) (*statsOut)[k]+=1.0;
+      
+      if(id[k]) (*statsOut)[k+hmm->M]+=(id[k]/cover[k]);
+      id[k] = 0;
+      
+      if(similar[k]) (*statsOut)[k+hmm->M*2]+=(similar[k]/cover[k]);
+      similar[k] = 0;
+      
+      cover[k] = 0;
+    }
+    
+  }
+
+  for(i = 0; i < hmm->M*3; i++)
+  {
+    (*statsOut)[i] = (*statsOut)[i]/(th.nincluded);
+  }
+
+  for(i = hmm->M; i < hmm->M*3; i++)
+  {
+    if((*statsOut)[i%hmm->M])
+    {  
+      (*statsOut)[i] = (*statsOut)[i]/(*statsOut)[i%hmm->M];
+    }
+    else
+    {
+      (*statsOut)[i] = 0.0;
+    }
+  }
+
+  
+  /* free memory */
+  if (qtr != NULL) free(qtr);
+  qtr = NULL;
+  
+  for (i = 0; i < th.N; i++) {
+    for (j=0; j < th.hit[i]->ndom; j++)
+      if(th.hit[i]->dcl[j].ad)
+      {
+        p7_alidisplay_Destroy(th.hit[i]->dcl[j].ad);
+        th.hit[i]->dcl[j].ad = NULL;
+      }
+      
+    if (th.hit[i]->dcl != NULL) free (th.hit[i]->dcl);
+    th.hit[i]->dcl = NULL;
+  }
+  if (th.unsrt != NULL) free (th.unsrt);
+  th.unsrt = NULL;
+  if (th.hit != NULL) free (th.hit);
+  th.hit = NULL;
+
+  return eslOK;
+
+ERROR:
+  /* free memory */
+  if (qtr != NULL) free(qtr);
+  qtr = NULL;
+  
+  for (i = 0; i < th.N; i++) {
+    for (j=0; j < th.hit[i]->ndom; j++)
+      if(th.hit[i]->dcl[j].ad)
+      {
+        p7_alidisplay_Destroy(th.hit[i]->dcl[j].ad);
+        th.hit[i]->dcl[j].ad = NULL;
+      }
+      
+    if (th.hit[i]->dcl != NULL) free (th.hit[i]->dcl);
+    th.hit[i]->dcl = NULL;
+  }
+  if (th.unsrt != NULL) free (th.unsrt);
+  th.unsrt = NULL;
+  if (th.hit != NULL) free (th.hit);
+  th.hit = NULL;
+  
+
+  return status;
+}
+
+
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+
+//#define hmmpgmd2msa_TESTDRIVE
+#ifdef hmmpgmd2msa_TESTDRIVE
+
+//gcc -o alistat_test -msse2 -std=gnu99 -g -O2 -I. -L. -I../easel -L../easel -D hmmpgmd2msa_TESTDRIVE hmmpgmd2msa.c -lhmmer -leasel -lm
+
+/* Test driver. As written, requires files that won't be released with
+ * the distribution. So it should be replaced with a tighter test.
+ */
+int
+main(int argc, char **argv) {
+  ESL_MSA           *msa   = NULL;
+  ESL_SQ            *qsq   = NULL;
+  ESL_SQFILE        *qfp   = NULL;              /* open qfile                                      */
+  P7_HMMFILE        *hfp   = NULL;              /* open input HMM file                             */
+  P7_HMM            *hmm   = NULL;              /* one HMM query                                   */
+  ESL_ALPHABET      *abc   = NULL;              /* digital alphabet                                */
+  FILE              *fp    = NULL;              /* open file containing the HMMPGMD data */
+  void              *data  = NULL;              /* pointer to the full data stream built as if from hmmdmstr */
+  long size = 0;
+
+  char   errbuf[eslERRBUFSIZE];
+  int status;
+  
+  float* statsOut;
+  int x;
+  //char *badstring = "asdlfuhasdfuhasdfhasdfhaslidhflaishdfliasuhdfliasuhdfliasudfh";
+
+  char *hmm_file = "esl_align.hmm";
+  char *fa_file  = "esl_align.fa";
+  char *dat_file = "esl_align.big.bin";
+
+  if (argc > 1 ) {
+    ESL_ALLOC(hmm_file, sizeof(char) * (strlen(argv[1])+1) );
+    strcpy(hmm_file, argv[1]);
+  }
+  if (argc > 2 ) {
+    ESL_ALLOC(dat_file, sizeof(char) * (strlen(argv[2])+1) );
+    strcpy(dat_file, argv[2]);
+  }
+  if (argc > 3 ) {
+    ESL_ALLOC(fa_file, sizeof(char) * (strlen(argv[3])+1) );
+    strcpy(fa_file, argv[3]);
+  }
+
+  printf("hmmpgmd2msa:\nhmm: %s\nfa:  %s\ndat: %s\n", hmm_file, fa_file, dat_file);
+
+
+  /* read the hmm */
+  if ( (status = p7_hmmfile_OpenE(hmm_file, NULL, &hfp, errbuf)) != 0 ) goto ERROR;
+  if ( (status = p7_hmmfile_Read(hfp, &abc, &hmm)) != 0 ) goto ERROR;
+
+  /* read the query sequence */
+  //if ( (status = esl_sqfile_OpenDigital(abc, fa_file, eslSQFILE_UNKNOWN, NULL, &qfp)) != 0) goto ERROR;
+  //qsq = esl_sq_CreateDigital(abc);
+  //if ( (status = esl_sqio_Read(qfp, qsq)) != eslOK)  goto ERROR;
+
+  //printf("sequence length %d\n", qsq->n);
+
+  /* get stats for the hmmd data */
+
+  if ( (fp = fopen(dat_file, "rb")) == NULL ) goto ERROR;
+
+  fseek (fp , 0 , SEEK_END);
+  size = ftell (fp);
+  rewind (fp);
+  ESL_ALLOC(data, size);
+  fread(data, size, 1, fp);
+
+  status = hmmpgmd2stats(data, hmm, &statsOut);
+  //status = hmmpgmd2msa(data, hmm, qsq, NULL,0, NULL, 0, &msa);
+
+  for(x = 0; x < hmm->M*3; x++)
+  {
+    if(statsOut[x] > 1)
+    {
+      printf("problem x: %d %f\n", x, statsOut[x]);
+    }
+  }
+
+  for(x = 0; x < hmm->M; x++)
+  {
+    printf("%d", ((int)(10*statsOut[x])>=10)?9:(int)(10*statsOut[x]));
+  }
+  printf("\n");
+  for(x = hmm->M; x < hmm->M*2; x++)
+  {
+    printf("%d", ((int)(10*statsOut[x])>=10)?9:(int)(10*statsOut[x]));
+  }
+  printf("\n");
+  for(x = hmm->M*2; x < hmm->M*3; x++)
+  {
+    printf("%d", ((int)(10*statsOut[x])>=10)?9:(int)(10*statsOut[x]));
+  }
+  printf("\n");
+
+  if (status != eslOK) goto ERROR;
+
+  //eslx_msafile_Write(stdout, msa, eslMSAFILE_STOCKHOLM);
+
+  exit(0);
+
+ERROR:
+  printf ("fail!\n");
+  exit(1);
+
+}
+#endif
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/trunk/src/hmmpgmd2msa.c $
+ * SVN $Id: build.c 3496 2011-02-28 22:18:49Z wheelert $
+ ************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd_client_example.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd_client_example.pl
new file mode 100755
index 0000000..e4d42fd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpgmd_client_example.pl
@@ -0,0 +1,648 @@
+#!/usr/bin/env perl
+
+=head1 SYNOPSIS
+
+ This script is a very basic version of what is performed by the HMMER website
+ searches. The script will connet to a hmmpgmd client and take the input fasta file
+ (containing one or more sequences) and push each sequence down the socket 
+ to be searched by the master. When the results come back, the status is 
+ read.  If successful, the whole message is read from the socket and written
+ to file in /tmp, as well as being stored in a scalar. The scalar is then
+ unpacked, just to the level of the stats. The sequence is searched against
+ the first database in the hmmpgmd list of databases (whether sequence of HMM).
+
+ NOTE: The socket call is wrapped up in a sig alarm that will die terminate when
+ it does not response. Under normal website operation, this is set to 30 secs.
+ 
+
+=cut
+
+use strict;
+use warnings;
+use Carp;
+use IO::Socket::INET;
+use Getopt::Long;
+
+#------------------------------------------------------------------------------
+#Process the options;
+#------------------------------------------------------------------------------
+
+my ( $map, $file, $nocleanup, $peerAddr, $peerPort, $proto, $verbose, $help, $timeout );
+
+$timeout = 30;
+GetOptions(
+  "map=s"      => \$map,
+  "file=s"     => \$file,
+  "PeerAddr=s" => \$peerAddr,
+  "PeerPort=s" => \$peerPort,
+  "Proto=s"    => \$proto,
+  "timeout=i"  => \$timeout,
+  "verbose"    => \$verbose,
+  "nocleanup"  => \$nocleanup,
+  "h|help"     => \$help
+) or die "Failed to parse options, run -h :[$@]\n";
+
+if ( !defined($map) ) {
+  warn("No accessions will be reported, just hmmpgmd index.\n");
+}
+elsif ( !-s $map ) {
+  warn
+"A map file [$map]  was specified, but it either has no size or does not exist.\n";
+  $help = 1;
+}
+
+if ( defined($file) ) {
+  unless ( -s $file ) {
+    warn "\n$file either does not exist, or has no size\n\n";
+    $help = 1;
+  }
+}
+else {
+  warn "\nPlease specify a query fasta filename!\n\n";
+  $help = 1;
+}
+
+help() if ($help);
+
+#------------------------------------------------------------------------------
+#Now get the socket connection.
+#------------------------------------------------------------------------------
+
+my $connection;
+$connection = {
+  PeerAddr => defined($peerAddr) ? $peerAddr : '127.0.0.1',
+  PeerPort => defined($peerPort) ? $peerPort : '51371',
+  Proto    => defined($proto)    ? $proto    : 'tcp'
+};
+
+$verbose && print STDERR "Getting socket connection";
+my $sock = IO::Socket::INET->new(%$connection)
+  or die "Could not connect to socket: [$!] \n";
+$sock->autoflush(1);
+
+#------------------------------------------------------------------------------
+# Read in the mapping file
+#------------------------------------------------------------------------------
+# In this example, the mappings are read into memory.  If you have a large
+#database, you may want to consider a NoSQL alternative such as Redis or
+#MongoDB
+
+my $mappings;
+if ($map) {
+  $mappings = readMapFile($map);
+}
+
+#------------------------------------------------------------------------------
+main();
+
+sub main {
+
+  #Build up the connection string
+  my ($optStr);
+
+  #If you are using a hmm database, you would change this to be --hmmdb
+  $optStr = '@--seqdb 1';
+
+  #open the input fasta file.
+  my $c = 1;
+  local $/ = "\n>";
+  open( my $fh, '<', $file ) or die "Could not open $file:[$!]\n";
+  my @fasta = <$fh>;
+  close($fh);
+
+  foreach (@fasta) {
+    $verbose && print STDERR "Working on sequence #: $c\n";
+
+    my $seq = $_;
+    $seq =~ s/>$//mx;
+    $seq =~ s/^([^>])/>$1/x;
+    my ($query_name) = $seq =~ /^>([^\s]*)/mx;
+    $seq .= "\n//";    #add on the file delimiter required by hmmer;  That's all there is ...
+                       
+    $verbose && print STDERR "sending |$optStr\n$seq| to the socket\n";
+
+    #Print the query to the socket
+    print $sock "$optStr\n$seq";
+    my ( $stats, $hits );
+
+    #Wrap this whole call in a sig alarm.
+    local $SIG{ALRM} = sub { croak "Failed to get response from hmmpgmd" };
+    alarm $timeout;
+    eval {
+      #open the file where we store the binary data.
+      open( my $outFH, '>', "/tmp/hmmer.$$.$c.out" )
+        or die "Could not open /tmp/hmmer.$$.c.out:[$!]\n";
+      ( $stats, $hits ) = &unpackResults( $sock, $outFH, $verbose );
+      close($outFH) or croak "Could not close tmp file";
+    };
+    if ($@) {
+      die "Timeout on the socket:$@\n";
+    }
+    alarm 0;
+
+    $verbose && print STDERR "Got " . $stats->{nincluded} . " hits\n";
+    printHits($hits);
+    $c++;
+  }
+
+ #------------------------------------------------------------------------------
+ # Normally we will want to clean up /tmp, but occasionally it will be useful.
+ #------------------------------------------------------------------------------
+
+  unless ($nocleanup) {
+    $verbose && print STDERR "Cleaning up /tmp\n";
+    my @files = glob("/tmp/hmmer.$$.*");
+    foreach my $f (@files) {
+      unlink($f) if ( -e $f );
+    }
+  }
+  exit;
+}
+
+#------------------------------------------------------------------------------
+#Subroutines
+#------------------------------------------------------------------------------
+#------------------------------------------------------------------------------
+
+=head1 SUBROUTINES
+
+
+=cut
+
+
+=head2 printHits
+
+  Title    : printHits
+  Incept   : finnr, Apr 22, 2013 5:16:13 PM
+  Usage    : printHits( $hitArrayRef );
+  Function : Prints out elements form the unpacked data sturcture so that
+           : alignments can be viewed.
+  Args     : The array reference containing the unpacked data
+  Returns  : 1
+  
+=cut
+
+sub printHits {
+  my ($hits) = @_;
+
+  my $ruler = '-' x 80;
+
+  #Use a flush buffer, so results are written in the entirity.
+  local $/ = 1;
+  foreach my $seq (@$hits) {
+    next if ( !$seq->{nincluded} );
+    my $str = join( "\t",
+      "Seq hit", $seq->{name}, $seq->{desc}, $seq->{score}, $seq->{evalue} );
+    print "$str\n\n";
+    foreach my $dom ( @{ $seq->{domains} } ) {
+      if ( $dom->{is_included} ) {
+        print "Domain hit "
+          . $seq->{name} . "/"
+          . $dom->{ienv} . "-"
+          . $dom->{jenv}
+          . ": score "
+          . sprintf( '%.2f', $dom->{bitscore} )
+          . ", E-value (individual) "
+          . $dom->{ievalue}
+          . " E-value (conditional) "
+          . $dom->{cevalue} . "\n\n";
+        print sprintf( "\t%-30s %6d %s %-6d\n",
+          $seq->{name}, $dom->{alisqfrom}, $dom->{aliaseq}, $dom->{alisqto} );
+        print sprintf( "\t%37s %s\n", '', $dom->{alimline} );
+        print sprintf(
+          "\t%-30s %6d %s %-6d\n",
+          $dom->{alihmmname}, $dom->{alihmmfrom},
+          $dom->{alimodel},   $dom->{alihmmto}
+        );
+        print sprintf( "\t%37s %s\n\n", '', $dom->{alippline} );
+      }
+    }
+    print "$ruler\n";
+  }
+  return 1;
+}
+
+#------------------------------------------------------------------------------
+=head2 unpackResults
+
+  Title    : unpackResu;ts
+  Incept   : finnr, Apr 22, 2013 5:18:15 PM
+  Usage    : unpackResults( $socket, $fh)
+  Function : Takes the sockect connection to hmmpgmd and reads the response. If
+           : successful it will unpack the binary data structure and build a
+           : Perl data structure.
+  Args     : An IO::Socket::INET to hmmpgmd, filehandle to temp file. 
+  Returns  : Perl data sturcture of results.
+  Note     : Include a data export module such as Data::Priner to reveal
+           : the entirity of the HMMER result data structure. Everything that
+           : is available in the commandline version is present.
+  
+=cut
+
+sub unpackResults {
+  my ( $socket, $fh ) = @_;
+
+  #Ths is the unpacking template and length.
+  my $statusTemplate = "I x4 Q";
+  my $STATUS         = 16;
+  my $rl             = read( $sock, my $statusB, $STATUS );
+
+  #Read the status from the socket.
+  unless ( $rl == $STATUS ) {
+    die "Error reading STATUS from socket. Requested " . $STATUS
+      . "bytes, but only read $rl bytes\n";
+  }
+
+  #Unpack the status.
+  my ( $status, $messLen ) = unpack( $statusTemplate, $statusB );
+  if ( $status == 0 )    #Everything was successful
+  {
+    #read the entire results from the socket. We will store this
+    #in a temporary file. This is not entirely necessary.
+    my $binaryData = readAndStore( $socket, $messLen, $fh );
+
+    #We now process the binary data structure returned by
+    #hmmpgmd. To make the code more readable, we will
+    #unpack section by section, cutting off the front
+    #of the binary and processing just that bit.
+
+    my $bit = substr( $binaryData, 0, 120, '' );
+
+    #Get a hash reference back containing all the search
+    #stats, such as time, number of hits
+    my $stats = unpackStats($bit);
+
+    my $hits = [];
+
+    if ( $stats->{nreported} ) {
+
+      #We have at least some hits to unpack....
+      #The first hit section contains all of the sequence matches
+      #but not domain mataches.
+      for ( my $n = 1 ; $n <= $stats->{nreported} ; $n++ ) {
+        $bit = substr( $binaryData, 0, 152, '' );
+        unpackHit( $bit, $hits, $stats->{Z} );
+      }
+
+      #Now, unpack the domain hits for the sequences
+      for ( my $h = 0 ; $h < $stats->{nreported} ; $h++ ) {
+        if ( $hits->[$h]->{ndom} ) {
+          my $dombit = substr( $binaryData, 0, 72 * $hits->[$h]->{ndom}, '' );
+
+          #This gets the fixed size fields
+          unpackDomain( $dombit, $hits, $h, $stats );
+          for ( my $a = 1 ; $a <= $hits->[$h]->{ndom} ; $a++ ) {
+
+            #Now unpack the variable sized fields.
+            unpackAli( \$binaryData, $hits, $h, $a );
+          }
+        }
+      }
+    }
+    return ( $stats, $hits );
+  }
+  else    #There was an error, read the message
+  {
+    $rl = read( $sock, my $errorLine, $messLen );
+    my $errorMessage = unpack( "a$messLen", $errorLine );
+    die "There was an error reported by HMMER: $errorMessage\n";
+  }
+}
+
+#------------------------------------------------------------------------------
+=head2 unpackAli
+
+  Title    : unpackAli
+  Incept   : finnr, Apr 22, 2013 7:53:39 PM
+  Usage    : unpackAli( $binaryData, $hits, $hitCount, $domCount);
+  Function : Takes the binary data, gets the alignment data, which in this case
+           : are dynamic fields.  This uses the data found within the hit/domain
+           : information to locate and read the appropriate amount of bytes.
+  Args     : The binary data stream, the hit data structure and the hit and domain
+           : positions.
+  Returns  : 1
+  
+=cut
+
+sub unpackAli {
+  my ( $binary, $hits, $h, $a ) = @_;
+
+  my $bit = substr( $$binary, 0, 168, '' );
+  my @aliKeys =
+    qw(rfline mmline csline model mline aseq ppline N hmmname hmmacc hmmdesc
+    hmmfrom hmmto M sqname sqacc sqdesc sqfrom sqto L memsize mem);
+  my @ali = unpack( "Q7 I x4 Q3 I3 x4 Q6 I x4 Q", $bit );
+  my %ali = map { $aliKeys[$_] => $ali[$_] } 0 .. $#aliKeys;
+
+  $bit = substr( $$binary, 0, $ali{memsize}, '' );
+  my @unpackElements = qw(0 1 2 3 4 5 6 8 9 10 14 15 16 20);
+
+  my $offset = 0;
+  for ( my $i = 0 ; $i < $#unpackElements ; $i++ ) {
+    my $e = $unpackElements[$i];
+    next if ( $ali[$e] == 0 );   #Then this element is not defined in the binary
+    my $ne;                      #Store the next defined element.
+    for ( my $j = $i + 1 ; $j <= $#unpackElements ; $j++ ) {
+      if ( $ali[ $unpackElements[$j] ] > 0 ) {
+        $ne = $unpackElements[$j];
+        $j  = $#unpackElements + 1;    #break the loop
+      }
+    }
+
+    #The number of bytes that we need to unpack is:
+    my $l = ( $ali[$ne] - $ali[$e] );
+
+    #Define the unpack template:
+    my $template = $offset > 0 ? "x$offset a$l" : "a$l";
+    my $s = $ali[$e] == 0 ? '' : unpack( $template, $bit );
+    chop($s);    #This removes the \0 - C string terminator
+    $ali{ $aliKeys[$e] } = $s;
+
+    #keep a note of what has aready been unpacked.
+    $offset += $l;
+  }
+
+  foreach my $k (@aliKeys) {
+    next if $k =~ /memsize/;
+    $hits->[$h]->{domains}->[ $a - 1 ]->{ 'ali' . $k } = $ali{$k};
+  }
+  return 1;
+}
+
+#------------------------------------------------------------------------------
+=head2 unpackDomain
+
+  Title    : unpackDomain
+  Incept   : finnr, Apr 22, 2013 7:59:59 PM
+  Usage    : unpackDomain( $binary, $hits, $h, $stats );
+  Function : unpack the domain hit from the binary string.
+  Args     : binary string, the hit array reference, the sequence position, 
+           : stats hash ref.
+  Returns  : 1
+  
+=cut
+
+sub unpackDomain {
+  my ( $binary, $hits, $h, $stats ) = @_;
+
+  my @dom = unpack( "i4 f5 x4 d i2 Q x8" x $hits->[$h]->{ndom}, $binary );
+  my $noDomKeys = 13;
+
+  #*** If the P7_DOMAIN struc changes, modify these numbers
+  for ( my $d = 0 ; $d < $hits->[$h]->{ndom} ; $d++ ) {
+    my $off = ( $d * $noDomKeys );
+    my $ievalue = sprintf( "%.1e", exp( $dom[ $off + 9 ] ) * $stats->{Z} );
+    $ievalue = $ievalue < 0.0001 ? $ievalue : sprintf( "%.6g", $ievalue );
+    my $cevalue = sprintf( "%.1e", exp( $dom[ $off + 9 ] ) * $stats->{domZ} );
+    $cevalue = $cevalue < 0.0001 ? $cevalue : sprintf( "%.6g", $cevalue );
+    $hits->[$h]->{domains}->[$d] = {
+      ienv     => $dom[$off],
+      jenv     => $dom[ $off + 1 ],
+      iali     => $dom[ $off + 2 ],
+      jali     => $dom[ $off + 3 ],
+      bitscore => $dom[ $off + 8 ],
+      ievalue  => $ievalue,
+      cevalue  => $cevalue,
+      oasc     => sprintf( "%4.2f",
+        ( $dom[ $off + 9 ] / ( 1.0 + abs( $dom[ $off + 1 ] - $dom[$off] ) ) ) ),
+      bias        => sprintf( "%.2f", abs( $dom[ $off + 9 ] * 1.442695041 ) ),
+      is_reported => $dom[ $off + 10 ],
+      is_included => $dom[ $off + 11 ],
+    };
+
+  }
+  return 1;
+}
+
+#------------------------------------------------------------------------------
+=head2 unpackHit
+
+  Title    : unpackHit
+  Incept   : finnr, Apr 22, 2013 8:22:55 PM
+  Usage    : unpackHit($binary, $hitArray, $dbsize);
+  Function : unpack a single sequence match, pushing the data into the hitArray
+           : reference.  The database size is also passed in to correctly set
+           : the e-value.
+  Args     : Binary data, hit array, int of the database size
+  Returns  : 1
+  
+=cut
+
+sub unpackHit {
+  my ( $binary, $hits, $z ) = @_;
+
+  my @hitKeys =
+    qw(name acc desc window_length sort_key score pre_score sum_score
+    pvalue pre_pvalue sum_pvalue nexpected nregions nclustered noverlaps
+    nenvelopes ndom flags nreported nincluded best_domain seqidx subseq_start dcl offset);
+  my $noHitsKeys = scalar(@hitKeys);
+  my $raw_hits   = [];
+  @{$raw_hits} = unpack( "Q3 I x4 d f3 x4 d3 f I9 Q4", $binary );
+
+  my $evalue = sprintf( "%.1e", exp( $raw_hits->[8] ) * $z );
+  $evalue = $evalue < 0.0001 ? $evalue : sprintf( "%.6g", $evalue );
+
+  my $acc  = $raw_hits->[0];
+  my $desc = $raw_hits->[2];
+
+  if ($mappings) {
+    ( $acc, $desc ) = split( /\s+/xm, $mappings->[ $raw_hits->[0] ], 2 );
+  }
+
+  push @$hits,
+    {
+    name      => $acc,
+    acc       => $raw_hits->[1],
+    desc      => $desc,
+    score     => sprintf( "%.1f", $raw_hits->[5] ),
+    bias      => sprintf( "%.1f", abs( $raw_hits->[6] - $raw_hits->[5] ) ),
+    pvalue    => $raw_hits->[8],
+    nregions  => $raw_hits->[12],
+    ndom      => $raw_hits->[16],
+    flags     => $raw_hits->[17],
+    nreported => $raw_hits->[18],
+    nincluded => $raw_hits->[19],
+    evalue    => $evalue,
+    dcl       => $raw_hits->[23]
+    };
+  return 1;
+}
+
+#------------------------------------------------------------------------------
+=head2 readAndStore
+
+  Title    : readAndStore
+  Incept   : finnr, Apr 22, 2013 8:13:49 PM
+  Usage    : readAndStore($socket, $messageLength, $filehandle)
+  Function : Reads the message (length in bytes) from the socket and
+           : writes the binary response to the temporary file, returning the
+           : binary data in scalar context.
+  Args     : IO::Socket::INET, message length, filehandle.
+  Returns  : binary data in scalar
+  
+=cut
+
+sub readAndStore {
+  my ( $socket, $messLen, $fh ) = @_;
+
+  #Read the number of bytes in the messlen, from the socket, into the results
+  #scalar (binary format)
+  my $rl = read( $socket, my $resultsB, $messLen );
+
+  #Check that the read length is correct.
+  unless ( $rl == $messLen ) {
+    die "Error reading STATS from socket. Requested " . $messLen
+      . " bytes, but only read $rl bytes\n";
+  }
+
+  #Print the results to the file
+  print $fh $resultsB;
+
+  #return the binary string
+  return $resultsB;
+}
+
+#------------------------------------------------------------------------------
+=head2 unpackStats
+
+  Title    : unpackStats
+  Incept   : finnr, Apr 22, 2013 8:09:15 PM
+  Usage    : unpackStats($binaryData)
+  Function : Unpacks the search stats binary data.
+  Args     : The binary data
+  Returns  : hashRef containing the search statistics.
+  
+=cut
+
+sub unpackStats {
+  my ($bit) = @_;
+
+  #The binary template
+  my $statsTemplate = "d5 I2 q9";
+
+  #Store how far we have read through the file
+  my @stats = unpack( $statsTemplate, $bit );
+
+  #This is the literal mean of each values. Store in a more informative
+  #hash.
+  my @statsKeys = qw(elapsed user sys Z domZ Z_setby domZ_setby nmodels nseqs
+    n_past_msv n_past_bias n_past_vit n_past_fwd nhits nreported nincluded );
+
+  unless ( $#stats == $#statsKeys ) {
+    die "Missmatch between the number of stats data elements recieved ["
+      . $#stats
+      . "] and expected [$#statsKeys]\n";
+  }
+
+  my %stats = map { $statsKeys[$_] => $stats[$_] } 0 .. $#statsKeys;
+
+  #Return the hashref containing the stats.
+  return \%stats;
+}
+
+#------------------------------------------------------------------------------
+=head2 readMapFile
+
+  Title    : readMapFile
+  Incept   : finnr, Apr 22, 2013 8:00:16 PM
+  Usage    : readMapFile('/path/to/file');
+  Function : Reads the map file produced by esl-reformat into an array so that
+           : sequence 'meta' data can be reapplied.
+  Args     : Path to file.
+  Returns  : ArrayRef containing sequence meta data. The sequence index is
+           : used as the index into the array.
+  
+=cut
+
+sub readMapFile {
+  my ($mapfile) = @_;
+
+#Read the file produced by hmmpgmd, using the sequence index/name as the array
+#index. This will produce an array where the first zeroth element is uninitalized.
+
+  my @mappings;
+
+  $verbose && print STDERR "Reading map file, $mapfile\n";
+
+  my $M;
+  open( $M, '<', $mapfile ) or die "Could not open map file:[$!]\n";
+  while (<$M>) {
+    chomp;
+    my ( $idx, $header ) = split( /\s+/xm, $_, 2 );
+    next if ( !defined($header) );
+    $mappings[$idx] = $header;
+  }
+  close($M);
+
+  #Return the array reference to the
+  return ( \@mappings );
+}
+
+#------------------------------------------------------------------------------
+=head2 help
+
+  Title    : help
+  Incept   : finnr, Apr 22, 2013 8:03:50 PM
+  Usage    : help
+  Function : prints some help
+  Args     : none
+  Returns  : nothing
+  
+=cut
+
+sub help {
+
+  print <<'EOF';
+
+Summary: Sample hmmpgmd client
+ 
+Usage: hmmpgmd_client_example.pl [options] -file seq.fa 
+  
+  file      : The name of the fasta file.  The file is not being validated; give it
+            : rubbish and bad things will happen.
+  map       : The map file produced by esl-reformat when using hmmpgmd format option. 
+            : If this is not provided, then it will just report the index numbers.
+  h|help    : Prints this help statement   
+  verbose   : Prints debug statements/progress reports.
+  nocleanup : When this flag is set, leaves the hmmpgmd binary output files in
+            : /tmp. The files has the format hmmer.#PID.#sequence.out.
+  timeout   : Change the default timeout, 30 secs. Time in seconds.
+   
+  #The following options control which hmmpgmd master is linked by the client. They are used
+  #by IO::Socket::INET, see CPAN for more information.
+  
+  PeerAddr  : The IP address of the machine where the master is running, default 127.0.0.1
+  PeerPort  : The port number that the master is listening on, default 51371
+  Proto     : The socket protocol - should not change this unless the master 
+            : changes its communications protocol, which is tcp
+  
+  Also, you can run:
+  
+  perldoc hmmpgmd_client_example.pl
+  
+  for more information.
+  
+Details: This example script shows how to search sequences in a FASTA file against an
+hmmpgmd format database file, using HMMER's hmmpgmd. Steps include:  
+
+(1) Generate an hmmpgmd format file, including map file, from a FASTA format
+    file, for example using the HMMER/Easel tool esl-reformat:
+  
+  prompt% esl-reformat --id_map my.hmmpgmd.map hmmpgmd my.fasta > my.hmmpgmd 
+  
+(2) Start the hmmpgmd master/worker, run the following commands:
+  
+  prompt% hmmpgmd --master --seqdb my.hmmpgmd
+  prompt% hmmpgmd --worker 127.0.0.1 --cpu 4
+
+(3) Run this client to connect to the master
+
+(4) Submit one query to hmmpgmd for each sequence in the query file, retrieve results 
+    from the master, then unpack the custom (and undocumented) binary. Examples of 
+    unpacking the binary are seen in the unpackXXX() functions.
+    
+EOF
+
+  exit 0;
+
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpress.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpress.c
new file mode 100755
index 0000000..c778e32
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpress.c
@@ -0,0 +1,176 @@
+/* hmmpress: prepare an HMM database for faster hmmscan searches.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "show brief help on version and usage",          0 },
+  { "-f",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "force: overwrite any previous pressed files",   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "prepare an HMM database for faster hmmscan searches";
+
+static void open_db_files(ESL_GETOPTS *go, char *basename, FILE **ret_mfp,  FILE **ret_ffp,  FILE **ret_pfp, ESL_NEWSSI **ret_nssi);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET  *abc     = NULL;
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE    *hfp     = NULL;
+  P7_HMM        *hmm     = NULL;
+  P7_BG         *bg      = NULL;
+  P7_PROFILE    *gm      = NULL;
+  P7_OPROFILE   *om      = NULL;
+  FILE          *mfp     = NULL; 
+  FILE          *ffp     = NULL; 
+  FILE          *pfp     = NULL; 
+  ESL_NEWSSI    *nssi    = NULL;
+  uint16_t       fh      = 0;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+  char           errbuf[eslERRBUFSIZE];
+
+  if (strcmp(hmmfile, "-") == 0) p7_Fail("Can't use - for <hmmfile> argument: can't index standard input\n");
+
+  status = p7_hmmfile_OpenENoDB(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);  
+
+  if (hfp->do_stdin || hfp->do_gzip) p7_Fail("HMM file %s must be a normal file, not gzipped or a stdin pipe", hmmfile);
+
+  open_db_files(go, hmmfile, &mfp, &ffp, &pfp, &nssi);
+
+  if (esl_newssi_AddFile(nssi, hfp->fname, 0, &fh) != eslOK) /* 0 = format code (HMMs don't have any yet) */
+    p7_Die("Failed to add HMM file %s to new SSI index\n", hfp->fname);
+
+  printf("Working...    "); 
+  fflush(stdout);
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) == eslOK)
+    {
+     if (hmm->name == NULL) p7_Fail("Every HMM must have a name to be indexed. Failed to find name of HMM #%d\n", nmodel+1);
+
+     if (nmodel == 0) { 	/* first time initialization, now that alphabet known */
+	bg = p7_bg_Create(abc);
+	p7_bg_SetLength(bg, 400);
+      }
+
+      nmodel++;
+      totM += hmm->M;
+
+      gm = p7_profile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+      om = p7_oprofile_Create(gm->M, abc);
+      p7_oprofile_Convert(gm, om);
+      
+      if ((om->offs[p7_MOFFSET] = ftello(mfp)) == -1) p7_Fail("Failed to ftello() current disk position of HMM db file");
+      if ((om->offs[p7_FOFFSET] = ftello(ffp)) == -1) p7_Fail("Failed to ftello() current disk position of MSV db file");
+      if ((om->offs[p7_POFFSET] = ftello(pfp)) == -1) p7_Fail("Failed to ftello() current disk position of profile db file");
+
+#ifndef p7_IMPL_DUMMY
+      if (esl_newssi_AddKey(nssi, hmm->name, fh, om->offs[p7_MOFFSET], 0, 0) != eslOK)	p7_Fail("Failed to add key %s to SSI index", hmm->name);
+      if (hmm->acc) {
+	if (esl_newssi_AddAlias(nssi, hmm->acc, hmm->name) != eslOK) p7_Fail("Failed to add secondary key %s to SSI index", hmm->acc);
+      }
+#endif
+
+      p7_hmmfile_WriteBinary(mfp, -1, hmm);
+      p7_oprofile_Write(ffp, pfp, om);
+
+      p7_profile_Destroy(gm);
+      p7_oprofile_Destroy(om);
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+  if (esl_newssi_Write(nssi) != eslOK) p7_Fail("Failed to write keys to ssi file\n");
+  
+  printf("done.\n");
+  if (nssi->nsecondary > 0) 
+    printf("Pressed and indexed %d HMMs (%ld names and %ld accessions).\n", nmodel, (long) nssi->nprimary, (long) nssi->nsecondary);
+  else 
+    printf("Pressed and indexed %d HMMs (%ld names).\n", nmodel, (long) nssi->nprimary);
+  printf("Models pressed into binary file:   %s.h3m\n", hfp->fname);
+  printf("SSI index for binary model file:   %s.h3i\n", hfp->fname);
+  printf("Profiles (MSV part) pressed into:  %s.h3f\n", hfp->fname);
+  printf("Profiles (remainder) pressed into: %s.h3p\n", hfp->fname);
+
+  fclose(mfp);
+  fclose(ffp); 
+  fclose(pfp);
+  esl_newssi_Close(nssi);
+  p7_bg_Destroy(bg);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+
+
+static void
+open_db_files(ESL_GETOPTS *go, char *basename, FILE **ret_mfp,  FILE **ret_ffp,  FILE **ret_pfp, ESL_NEWSSI **ret_nssi)
+{
+  char       *mfile           = NULL; /* .h3m file: binary core HMMs */
+  char       *ffile           = NULL; /* .h3f file: binary optimized profiles, MSV filter part only */
+  char       *pfile           = NULL; /* .h3p file: binary optimized profiles, remainder (excluding MSV filter) */
+  char       *ssifile         = NULL;
+  FILE       *mfp             = NULL;
+  FILE       *ffp             = NULL;
+  FILE       *pfp             = NULL;
+  ESL_NEWSSI *nssi            = NULL;
+  int         allow_overwrite = esl_opt_GetBoolean(go, "-f");
+  int         status;
+
+  if (esl_sprintf(&ssifile, "%s.h3i", basename) != eslOK) p7_Die("esl_sprintf() failed");
+  status = esl_newssi_Open(ssifile, allow_overwrite, &nssi);
+  if      (status == eslENOTFOUND)   p7_Fail("failed to open SSI index %s", ssifile);
+  else if (status == eslEOVERWRITE)  p7_Fail("Looks like %s is already pressed (.h3i file present, anyway):\nDelete old hmmpress indices first", basename);
+  else if (status != eslOK)          p7_Fail("failed to create a new SSI index");
+
+  if (esl_sprintf(&mfile, "%s.h3m", basename) != eslOK) p7_Die("esl_sprintf() failed");
+  if (! allow_overwrite && esl_FileExists(mfile))       p7_Fail("Binary HMM file %s already exists;\nDelete old hmmpress indices first", mfile);
+  if ((mfp = fopen(mfile, "wb"))              == NULL)  p7_Fail("Failed to open binary HMM file %s for writing", mfile);
+
+  if (esl_sprintf(&ffile, "%s.h3f", basename) != eslOK) p7_Die("esl_sprintf() failed");
+  if (! allow_overwrite && esl_FileExists(ffile))       p7_Fail("Binary MSV filter file %s already exists\nDelete old hmmpress indices first", ffile);
+  if ((ffp = fopen(ffile, "wb"))              == NULL)  p7_Fail("Failed to open binary MSV filter file %s for writing", ffile);
+
+  if (esl_sprintf(&pfile, "%s.h3p", basename) != eslOK) p7_Die("esl_sprintf() failed");
+  if (! allow_overwrite && esl_FileExists(pfile))       p7_Fail("Binary profile file %s already exists\nDelete old hmmpress indices first", pfile);
+  if ((pfp = fopen(pfile, "wb"))              == NULL)  p7_Fail("Failed to open binary profile file %s for writing", pfile);
+
+  free(mfile);     free(ffile);     free(pfile);      free(ssifile);
+  *ret_mfp = mfp;  *ret_ffp = ffp;  *ret_pfp = pfp;   *ret_nssi = nssi;
+  return;
+}
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmpress.c $
+ * SVN $Id: hmmpress.c 3630 2011-08-03 14:09:27Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpress.itest.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpress.itest.pl
new file mode 100755
index 0000000..809a5a5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmpress.itest.pl
@@ -0,0 +1,52 @@
+#! /usr/bin/perl
+
+# Integrated test of hmmpress 
+#
+# Usage:   ./hmmpress.itest.pl <hmmpress binary> <hmmfile> <tmpfile prefix>
+# Example: ./hmmpress.itest.pl ./hmmpress ../testsuite/minifam.hmm foo
+#
+# SRE, Thu Nov 12 08:47:56 2009 [Janelia]
+# SVN $Id: hmmpress.itest.pl 3042 2009-11-12 14:44:48Z eddys $
+
+$hmmpress = shift;		# The hmmpress executable. example: "./hmmpress"
+$minifam  = shift;		# An HMM database.         example: "../testsuite/minifam.hmm"
+$tmppfx   = shift;		# A tmpfile prefix to use. example: "foo"
+
+if (! -x "$hmmpress") { die "FAIL: didn't find hmmpress binary $hmmpress"; }
+if (! -r "$minifam")  { die "FAIL: didn't find hmm file $minifam"; }
+
+# Make a copy of minifam, so we can whack on it.
+system("cp $minifam $tmppfx.hmm 2>&1");
+if ($? != 0) { die "failed to copy $minifam"; }
+
+# Get the model names from it. We at least need to know how many there are.
+@output = `grep "^NAME  " $tmppfx.hmm 2>&1`;
+if ($? != 0) { die "failed to grep $minifam for names"; }
+$nmodels = 0;
+foreach $line (@output) { $hmmname[$nmodels++] = ($line =~ /^NAME  (\S+)/); }
+
+# Press it. Creates .h3{mifp} files.
+#
+$output = `$hmmpress $tmppfx.hmm 2>&1`;
+if ($? != 0)                                     { die "failed to press $minifam"; }
+if ($output !~ /Pressed and indexed (\d+) HMMs/) { die "unexpected hmmpress output"; }
+if ($1 != $nmodels)                              { die "unexpected number of models pressed"; }
+
+# Try to press it again. 
+# This should issue a normal warning that the files already exist.
+$output = `$hmmpress $tmppfx.hmm 2>&1`;
+if ( ($? >> 8) != 1)                            { die "expected exit code 1 from hmmpress"; }
+if ($output !~ /Error:.+is already pressed/)    { die "second press should have failed"; }
+
+# Press it again with -f
+# Bug #h65 was here.
+$output = `$hmmpress -f $tmppfx.hmm 2>&1`;
+if ($? != 0)                                     { die "hmmpress -f failed to press $minifam"; }
+if ($output !~ /Pressed and indexed (\d+) HMMs/) { die "unexpected hmmpress -f output"; }
+if ($1 != $nmodels)                              { die "unexpected number of models after hmmpress -f"; }
+
+print "ok\n";
+unlink <$tmppfx.hmm*>;
+exit 0;
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmscan.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmscan.c
new file mode 100755
index 0000000..66d6ac1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmscan.c
@@ -0,0 +1,1319 @@
+/* hmmscan: search sequence(s) against a profile HMM database
+ *
+ * To do:
+ *  - in MPI mode, add a check to make sure ncpus >= 2. If 1, then we
+ *    only have a master, no workers. See Infernal commit r3972 on the
+ *    same point; and same note in hmmsearch.c's to do list.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#include "esl_mpi.h"
+#endif /*HAVE_MPI*/
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif /*HMMER_THREADS*/
+  ESL_SQ           *qsq;
+  P7_BG            *bg;	         /* null model                              */
+  P7_PIPELINE      *pli;         /* work pipeline                           */
+  P7_TOPHITS       *th;          /* top hit results                         */
+} WORKER_INFO;
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+
+#if defined (HMMER_THREADS) && defined (HAVE_MPI)
+#define CPUOPTS     "--mpi"
+#define MPIOPTS     "--cpu"
+#else
+#define CPUOPTS     NULL
+#define MPIOPTS     NULL
+#endif
+
+#ifdef HAVE_MPI
+#define DAEMONOPTS  "-o,--tblout,--domtblout,--pfamtblout,--mpi,--stall"
+#else
+#define DAEMONOPTS  "-o,--tblout,--domtblout,--pfamtblout"
+#endif
+
+static ESL_OPTIONS options[] = {
+  /* name           type          default  env  range toggles  reqs   incomp                         help                                           docgroup*/
+  { "-h",           eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "show brief help on version and usage",                          1 },
+  /* Control of output */
+  { "-o",           eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "direct output to file <f>, not stdout",                         2 },
+  { "--tblout",     eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save parseable table of per-sequence hits to file <f>",         2 },
+  { "--domtblout",  eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save parseable table of per-domain hits to file <f>",           2 },
+  { "--pfamtblout", eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save table of hits and domains to file, in Pfam format <f>",    2 },
+  { "--acc",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "prefer accessions over names in output",                        2 },
+  { "--noali",      eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "don't output alignments, so output is smaller",                 2 },
+  { "--notextw",    eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL, "--textw",        "unlimit ASCII text output line width",                          2 },
+  { "--textw",      eslARG_INT,    "120", NULL, "n>=120",NULL,  NULL, "--notextw",      "set max width of ASCII text output lines",                      2 },
+  /* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,  "10.0", NULL, "x>0",   NULL,  NULL,  REPOPTS,         "report models <= this E-value threshold in output",             4 },
+  { "-T",           eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  REPOPTS,         "report models >= this score threshold in output",               4 },
+  { "--domE",       eslARG_REAL,  "10.0", NULL, "x>0",   NULL,  NULL,  DOMREPOPTS,      "report domains <= this E-value threshold in output",            4 },
+  { "--domT",       eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  DOMREPOPTS,      "report domains >= this score cutoff in output",                 4 },
+  /* Control of inclusion (significance) thresholds: */
+  { "--incE",       eslARG_REAL,  "0.01", NULL, "x>0",   NULL,  NULL,  INCOPTS,         "consider models <= this E-value threshold as significant",      5 },
+  { "--incT",       eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  INCOPTS,         "consider models >= this score threshold as significant",        5 },
+  { "--incdomE",    eslARG_REAL,  "0.01", NULL, "x>0",   NULL,  NULL,  INCDOMOPTS,      "consider domains <= this E-value threshold as significant",     5 },
+  { "--incdomT",    eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  INCDOMOPTS,      "consider domains >= this score threshold as significant",       5 },
+  /* Model-specific thresholding for both reporting and inclusion */
+  { "--cut_ga",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's GA gathering cutoffs to set all thresholding",    6 },
+  { "--cut_nc",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's NC noise cutoffs to set all thresholding",        6 },
+  { "--cut_tc",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's TC trusted cutoffs to set all thresholding",      6 },
+  /* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL, "--F1,--F2,--F3", "Turn all heuristic filters off (less speed, more power)",       7 },
+  { "--F1",         eslARG_REAL,  "0.02", NULL, NULL,    NULL,  NULL, "--max",          "MSV threshold: promote hits w/ P <= F1",                        7 },
+  { "--F2",         eslARG_REAL,  "1e-3", NULL, NULL,    NULL,  NULL, "--max",          "Vit threshold: promote hits w/ P <= F2",                        7 },
+  { "--F3",         eslARG_REAL,  "1e-5", NULL, NULL,    NULL,  NULL, "--max",          "Fwd threshold: promote hits w/ P <= F3",                        7 },
+  { "--nobias",     eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL, "--max",          "turn off composition bias filter",                              7 },
+  /* Other options */
+  { "--nonull2",    eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  NULL,            "turn off biased composition score corrections",                12 },
+  { "-Z",           eslARG_REAL,   FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "set # of comparisons done, for E-value calculation",           12 },
+  { "--domZ",       eslARG_REAL,   FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "set # of significant seqs, for domain E-value calculation",    12 },
+  { "--seed",       eslARG_INT,    "42",  NULL, "n>=0",  NULL,  NULL,  NULL,            "set RNG seed to <n> (if 0: one-time arbitrary seed)",          12 },
+  { "--qformat",    eslARG_STRING,  NULL, NULL, NULL,    NULL,  NULL,  NULL,            "assert input <seqfile> is in format <s>: no autodetection",    12 },
+  { "--daemon",     eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  DAEMONOPTS,      "run program as a daemon",                                      12 },
+#ifdef HMMER_THREADS
+  { "--cpu",        eslARG_INT, NULL,"HMMER_NCPU","n>=0",NULL,  NULL,  CPUOPTS,         "number of parallel CPU workers to use for multithreads",       12 },
+#endif
+#ifdef HAVE_MPI
+  { "--stall",      eslARG_NONE,   FALSE, NULL, NULL,    NULL,"--mpi", NULL,            "arrest after start: for debugging MPI under gdb",              12 },  
+  { "--mpi",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  MPIOPTS,         "run as an MPI parallel program",                               12 },
+#endif
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  char            *seqfile;           /* query sequence file                             */
+  char            *hmmfile;           /* database HMM file                               */
+
+  int              do_mpi;            /* TRUE if we're doing MPI parallelization         */
+  int              nproc;             /* how many MPI processes, total                   */
+  int              my_rank;           /* who am I, in 0..nproc-1                         */
+};
+
+static char usage[]  = "[-options] <hmmdb> <seqfile>";
+static char banner[] = "search sequence(s) against a profile database";
+
+static int  serial_master(ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  serial_loop  (WORKER_INFO *info, P7_HMMFILE *hfp);
+#ifdef HMMER_THREADS
+#define BLOCK_SIZE 1000
+
+static int  thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, P7_HMMFILE *hfp);
+static void pipeline_thread(void *arg);
+#endif /*HMMER_THREADS*/
+
+#ifdef HAVE_MPI
+static int  mpi_master   (ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  mpi_worker   (ESL_GETOPTS *go, struct cfg_s *cfg);
+#endif /*HAVE_MPI*/
+
+/* process_commandline()
+ * 
+ * Processes the commandline, filling in fields in <cfg> and creating and returning
+ * an <ESL_GETOPTS> options structure. The help page (hmmsearch -h) is formatted
+ * here.
+ */
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_hmmfile, char **ret_seqfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+ 
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      if (puts("\nBasic options:")                                           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+
+      if (puts("\nOptions controlling output:")                              < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+
+      if (puts("\nOptions controlling reporting thresholds:")                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+
+      if (puts("\nOptions controlling inclusion (significance) thresholds:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+
+      if (puts("\nOptions for model-specific thresholding:")                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80); 
+
+      if (puts("\nOptions controlling acceleration heuristics:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80); 
+
+      if (puts("\nOther expert options:")                                    < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 80); 
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                 != 2)      { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_hmmfile = esl_opt_GetArg(go, 1)) == NULL)  { if (puts("Failed to get <hmmdb> argument on command line")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_seqfile = esl_opt_GetArg(go, 2)) == NULL)  { if (puts("Failed to get <seqfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (strcmp(*ret_hmmfile, "-") == 0) 
+    { if (puts("hmmscan cannot read <hmm database> from stdin stream, because it must have hmmpress'ed auxfiles") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");   goto FAILURE;  }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  if (puts("\nwhere most common options are:")                                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  if (printf("\nTo see more help on available options, do %s -h\n\n", argv[0]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+
+static int
+output_header(FILE *ofp, ESL_GETOPTS *go, char *hmmfile, char *seqfile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+  
+  if (fprintf(ofp, "# query sequence file:             %s\n", seqfile)                                                                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# target HMM database:             %s\n", hmmfile)                                                                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")          && fprintf(ofp, "# output directed to file:         %s\n",            esl_opt_GetString(go, "-o"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tblout")    && fprintf(ofp, "# per-seq hits tabular output:     %s\n",            esl_opt_GetString(go, "--tblout"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domtblout") && fprintf(ofp, "# per-dom hits tabular output:     %s\n",            esl_opt_GetString(go, "--domtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pfamtblout")&& fprintf(ofp, "# pfam-style tabular hit output:   %s\n",            esl_opt_GetString(go, "--pfamtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--acc")       && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--noali")     && fprintf(ofp, "# show alignments in output:       no\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--notextw")   && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--textw")     && fprintf(ofp, "# max ASCII text line length:      %d\n",            esl_opt_GetInteger(go, "--textw"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+  if (esl_opt_IsUsed(go, "-E")          && fprintf(ofp, "# profile reporting threshold:     E-value <= %g\n", esl_opt_GetReal(go, "-E"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-T")          && fprintf(ofp, "# profile reporting threshold:     score >= %g\n",   esl_opt_GetReal(go, "-T"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domE")      && fprintf(ofp, "# domain reporting threshold:      E-value <= %g\n", esl_opt_GetReal(go, "--domE"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domT")      && fprintf(ofp, "# domain reporting threshold:      score >= %g\n",   esl_opt_GetReal(go, "--domT"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incE")      && fprintf(ofp, "# profile inclusion threshold:     E-value <= %g\n", esl_opt_GetReal(go, "--incE"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incT")      && fprintf(ofp, "# profile inclusion threshold:     score >= %g\n",   esl_opt_GetReal(go, "--incT"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomE")   && fprintf(ofp, "# domain inclusion threshold:      E-value <= %g\n", esl_opt_GetReal(go, "--incdomE"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomT")   && fprintf(ofp, "# domain inclusion threshold:      score >= %g\n",   esl_opt_GetReal(go, "--incdomT"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_ga")    && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_nc")    && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_tc")    && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--max")       && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F1")        && fprintf(ofp, "# MSV filter P threshold:       <= %g\n",            esl_opt_GetReal(go, "--F1"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F2")        && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",            esl_opt_GetReal(go, "--F2"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F3")        && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",            esl_opt_GetReal(go, "--F3"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nobias")    && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nonull2")   && fprintf(ofp, "# null2 bias corrections:          off\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-Z")          && fprintf(ofp, "# sequence search space set to:    %.0f\n",          esl_opt_GetReal(go, "-Z"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domZ")      && fprintf(ofp, "# domain search space set to:      %.0f\n",          esl_opt_GetReal(go, "--domZ"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed")==0 && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if (                                  fprintf(ofp, "# random number seed set to:       %d\n",        esl_opt_GetInteger(go, "--seed"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--qformat")   && fprintf(ofp, "# input seqfile format asserted:   %s\n",            esl_opt_GetString(go, "--qformat"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--daemon")    && fprintf(ofp, "run as a daemon process\n")                                                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#ifdef HMMER_THREADS
+  if (esl_opt_IsUsed(go, "--cpu")       && fprintf(ofp, "# number of worker threads:        %d\n",            esl_opt_GetInteger(go, "--cpu"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+#endif
+#ifdef HAVE_MPI
+  if (esl_opt_IsUsed(go, "--mpi")       && fprintf(ofp, "# MPI:                             on\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go  = NULL;	
+  struct cfg_s     cfg;         
+  int              status   = eslOK;
+
+  impl_Init();			/* processor-specific initialization */
+  p7_FLogsumInit();		/* we're going to use table-driven Logsum() approximations at times */
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet) */
+  cfg.hmmfile    = NULL;
+  cfg.seqfile    = NULL;
+  cfg.do_mpi     = FALSE;	           /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;		           /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;		           /* this gets reset below, if we init MPI */
+
+  process_commandline(argc, argv, &go, &cfg.hmmfile, &cfg.seqfile);    
+
+  /* Figure out who we are, and send control there: 
+   * we might be an MPI master, an MPI worker, or a serial program.
+   */
+#ifdef HAVE_MPI
+  /* pause the execution of the programs execution until the user has a
+   * chance to attach with a debugger and send a signal to resume execution
+   * i.e. (gdb) signal SIGCONT
+   */
+  if (esl_opt_GetBoolean(go, "--stall")) pause();
+
+  if (esl_opt_GetBoolean(go, "--mpi")) 
+    {
+      cfg.do_mpi     = TRUE;
+      MPI_Init(&argc, &argv);
+      MPI_Comm_rank(MPI_COMM_WORLD, &(cfg.my_rank));
+      MPI_Comm_size(MPI_COMM_WORLD, &(cfg.nproc));
+
+      if (cfg.my_rank > 0)  status = mpi_worker(go, &cfg);
+      else 		    status = mpi_master(go, &cfg);
+
+      MPI_Finalize();
+    }
+  else
+#endif /*HAVE_MPI*/
+    {
+      status = serial_master(go, &cfg);
+    }
+
+  esl_getopts_Destroy(go);
+  return status;
+}
+
+
+/* serial_master()
+ * The serial version of hmmsearch.
+ * For each query HMM in <hmmdb> search the database for hits.
+ * 
+ * A master can only return if it's successful. All errors are handled
+ * immediately and fatally with p7_Fail().
+ */
+static int
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;	         /* output file for results (default stdout)        */
+  FILE            *tblfp    = NULL;		 /* output stream for tabular per-seq (--tblout)    */
+  FILE            *domtblfp = NULL;	  	 /* output stream for tabular per-seq (--domtblout) */
+  FILE            *pfamtblfp= NULL;              /* output stream for pfam tabular output (--pfamtblout)    */
+  int              seqfmt   = eslSQFILE_UNKNOWN; /* format of seqfile                               */
+  ESL_SQFILE      *sqfp     = NULL;              /* open seqfile                                    */
+  P7_HMMFILE      *hfp      = NULL;		 /* open HMM database file                          */
+  ESL_ALPHABET    *abc      = NULL;              /* sequence alphabet                               */
+  P7_OPROFILE     *om       = NULL;		 /* target profile                                  */
+  ESL_STOPWATCH   *w        = NULL;              /* timing                                          */
+  ESL_SQ          *qsq      = NULL;		 /* query sequence                                  */
+  int              nquery   = 0;
+  int              textw;
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              i;
+
+  int              ncpus    = 0;
+
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  P7_OM_BLOCK     *block    = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+  char             errbuf[eslERRBUFSIZE];
+
+  w = esl_stopwatch_Create();
+
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+
+  /* If caller declared an input format, decode it */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    seqfmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (seqfmt == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+
+  /* validate options if running as a daemon */
+  if (esl_opt_IsOn(go, "--daemon")) {
+
+    /* running as a daemon, the input format must be type daemon */
+    if (seqfmt != eslSQFILE_UNKNOWN && seqfmt != eslSQFILE_DAEMON) 
+      esl_fatal("Input format %s not supported.  Must be daemon\n", esl_opt_GetString(go, "--qformat"));
+    seqfmt = eslSQFILE_DAEMON;
+
+    if (strcmp(cfg->seqfile, "-") != 0) esl_fatal("Query sequence file must be '-'\n");
+  }
+
+  /* Open the target profile database to get the sequence alphabet */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem, trying to open HMM file %s.\n%s\n",                  cfg->hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+  if (! hfp->is_pressed)           p7_Fail("Failed to open binary auxfiles for %s: use hmmpress first\n",             hfp->fname);
+
+  hstatus = p7_oprofile_ReadMSV(hfp, &abc, &om);
+  if      (hstatus == eslEFORMAT)   p7_Fail("bad format, binary auxfiles, %s:\n%s",     cfg->hmmfile, hfp->errbuf);
+  else if (hstatus == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets", cfg->hmmfile);
+  else if (hstatus != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s", cfg->hmmfile); 
+
+  p7_oprofile_Destroy(om);
+  p7_hmmfile_Close(hfp);
+
+  /* Open the query sequence database */
+  status = esl_sqfile_OpenDigital(abc, cfg->seqfile, seqfmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",      cfg->seqfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",        cfg->seqfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening sequence file %s\n", status, cfg->seqfile);
+  qsq = esl_sq_CreateDigital(abc);
+
+  /* Open the results output files */
+  if (esl_opt_IsOn(go, "-o"))          { if ((ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)  esl_fatal("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o")); }
+  if (esl_opt_IsOn(go, "--tblout"))    { if ((tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  esl_fatal("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblout")); }
+  if (esl_opt_IsOn(go, "--domtblout")) { if ((domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)  esl_fatal("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblout")); }
+  if (esl_opt_IsOn(go, "--pfamtblout")){ if ((pfamtblfp = fopen(esl_opt_GetString(go, "--pfamtblout"), "w")) == NULL)  esl_fatal("Failed to open pfam-style tabular output file %s for writing\n", esl_opt_GetString(go, "--pfamtblout")); }
+
+  output_header(ofp, go, cfg->hmmfile, cfg->seqfile);
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                           esl_threads_CPUCount(&ncpus);
+
+  if (ncpus > 0)
+    {
+      threadObj = esl_threads_Create(&pipeline_thread);
+      queue = esl_workqueue_Create(ncpus * 2);
+    }
+#endif
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  for (i = 0; i < infocnt; ++i)
+    {
+      info[i].bg    = p7_bg_Create(abc);
+#ifdef HMMER_THREADS
+      info[i].queue = queue;
+#endif
+    }
+
+#ifdef HMMER_THREADS
+  for (i = 0; i < ncpus * 2; ++i)
+    {
+      block = p7_oprofile_CreateBlock(BLOCK_SIZE);
+      if (block == NULL)    esl_fatal("Failed to allocate sequence block");
+
+      status = esl_workqueue_Init(queue, block);
+      if (status != eslOK)  esl_fatal("Failed to add block to work queue");
+    }
+#endif
+
+  /* Outside loop: over each query sequence in <seqfile>. */
+  while ((sstatus = esl_sqio_Read(sqfp, qsq)) == eslOK)
+    {
+      nquery++;
+      esl_stopwatch_Start(w);	                          
+
+      /* Open the target profile database */
+      status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, NULL);
+      if (status != eslOK)        p7_Fail("Unexpected error %d in opening hmm file %s.\n",           status, cfg->hmmfile);  
+  
+#ifdef HMMER_THREADS
+      /* if we are threaded, create a lock to prevent multiple readers */
+      if (ncpus > 0)
+	{
+	  status = p7_hmmfile_CreateLock(hfp);
+	  if (status != eslOK) p7_Fail("Unexpected error %d creating lock\n", status);
+	}
+#endif
+
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != 0 && fprintf(ofp, "Accession:   %s\n", qsq->acc)     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->desc[0] != 0 && fprintf(ofp, "Description: %s\n", qsq->desc)    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      for (i = 0; i < infocnt; ++i)
+	{
+	  /* Create processing pipeline and hit list */
+	  info[i].th  = p7_tophits_Create(); 
+	  info[i].pli = p7_pipeline_Create(go, 100, 100, FALSE, p7_SCAN_MODELS); /* M_hint = 100, L_hint = 100 are just dummies for now */
+	  info[i].pli->hfp = hfp;  /* for two-stage input, pipeline needs <hfp> */
+
+	  p7_pli_NewSeq(info[i].pli, qsq);
+	  info[i].qsq = qsq;
+
+#ifdef HMMER_THREADS
+	  if (ncpus > 0) esl_threads_AddThread(threadObj, &info[i]);
+#endif
+	}
+
+#ifdef HMMER_THREADS
+      if (ncpus > 0)  hstatus = thread_loop(threadObj, queue, hfp);
+      else	      hstatus = serial_loop(info, hfp);
+#else
+      hstatus = serial_loop(info, hfp);
+#endif
+      switch(hstatus)
+	{
+	case eslEFORMAT:   p7_Fail("bad file format in HMM file %s",             cfg->hmmfile);	  break;
+	case eslEINCOMPAT: p7_Fail("HMM file %s contains different alphabets",   cfg->hmmfile);	  break;
+	case eslEOF: 	  /* do nothing */                                                 	  break;
+	default: 	   p7_Fail("Unexpected error in reading HMMs from %s",   cfg->hmmfile); 
+	}
+
+      /* merge the results of the search results */
+      for (i = 1; i < infocnt; ++i)
+	{
+	  p7_tophits_Merge(info[0].th, info[i].th);
+	  p7_pipeline_Merge(info[0].pli, info[i].pli);
+
+	  p7_pipeline_Destroy(info[i].pli);
+	  p7_tophits_Destroy(info[i].th);
+	}
+
+      /* Print results */
+      p7_tophits_SortBySortkey(info->th);
+      p7_tophits_Threshold(info->th, info->pli);
+
+      p7_tophits_Targets(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (domtblfp)  p7_tophits_TabularDomains(domtblfp, qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (pfamtblfp) p7_tophits_TabularXfam(pfamtblfp, qsq->name, qsq->acc, info->th, info->pli);
+
+      esl_stopwatch_Stop(w);
+      p7_pli_Statistics(ofp, info->pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      fflush(ofp);
+
+      p7_hmmfile_Close(hfp);
+      p7_pipeline_Destroy(info->pli);
+      p7_tophits_Destroy(info->th);
+      esl_sq_Reuse(qsq);
+    }
+  if      (sstatus == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					    sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (sstatus != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    sstatus, sqfp->filename);
+
+  /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "hmmscan", p7_SCAN_MODELS, cfg->seqfile, cfg->hmmfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp, "hmmscan", p7_SCAN_MODELS, cfg->seqfile, cfg->hmmfile, go);
+  if (pfamtblfp)p7_tophits_TabularTail(pfamtblfp,"hmmscan", p7_SEARCH_SEQS, cfg->seqfile, cfg->hmmfile, go);
+  if (ofp)      { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for successful exit
+   */
+  for (i = 0; i < infocnt; ++i)
+    p7_bg_Destroy(info[i].bg);
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)
+    {
+      esl_workqueue_Reset(queue);
+      while (esl_workqueue_Remove(queue, (void **) &block) == eslOK)
+	p7_oprofile_DestroyBlock(block);
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+    }
+#endif
+
+  free(info);
+
+  esl_sq_Destroy(qsq);
+  esl_stopwatch_Destroy(w);
+  esl_alphabet_Destroy(abc);
+  esl_sqfile_Close(sqfp);
+
+  if (ofp != stdout) fclose(ofp);
+  if (tblfp)         fclose(tblfp);
+  if (domtblfp)      fclose(domtblfp);
+  if (pfamtblfp)     fclose(pfamtblfp);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+#ifdef HAVE_MPI
+
+/* Define common tags used by the MPI master/slave processes */
+#define HMMER_ERROR_TAG          1
+#define HMMER_HMM_TAG            2
+#define HMMER_SEQUENCE_TAG       3
+#define HMMER_BLOCK_TAG          4
+#define HMMER_PIPELINE_TAG       5
+#define HMMER_TOPHITS_TAG        6
+#define HMMER_HIT_TAG            7
+#define HMMER_TERMINATING_TAG    8
+#define HMMER_READY_TAG          9
+
+/* mpi_failure()
+ * Generate an error message.  If the clients rank is not 0, a
+ * message is created with the error message and sent to the
+ * master process for handling.
+ */
+static void
+mpi_failure(char *format, ...)
+{
+  va_list  argp;
+  int      status = eslFAIL;
+  int      len;
+  int      rank;
+  char     str[512];
+
+  MPI_Comm_rank(MPI_COMM_WORLD, &rank);
+
+  /* format the error mesg */
+  va_start(argp, format);
+  len = vsnprintf(str, sizeof(str), format, argp);
+  va_end(argp);
+
+  /* make sure the error string is terminated */
+  str[sizeof(str)-1] = '\0';
+
+  /* if the caller is the master, print the results and abort */
+  if (rank == 0)
+    {
+      if (fprintf(stderr, "\nError: ") < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "%s", str)   < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "\n")        < 0) exit(eslEWRITE);
+      fflush(stderr);
+
+      MPI_Abort(MPI_COMM_WORLD, status);
+      exit(1);
+    }
+  else
+    {
+      MPI_Send(str, len, MPI_CHAR, 0, HMMER_ERROR_TAG, MPI_COMM_WORLD);
+      pause();
+    }
+}
+
+#define MAX_BLOCK_SIZE (512*1024)
+
+typedef struct {
+  uint64_t  offset;
+  uint64_t  length;
+  uint64_t  count;
+} MSV_BLOCK;
+
+typedef struct {
+  int        complete;
+  int        size;
+  int        current;
+  int        last;
+  MSV_BLOCK *blocks;
+} BLOCK_LIST;
+
+/* this routine parses the database keeping track of the blocks
+ * offset within the file, number of sequences and the length
+ * of the block.  These blocks are passed as work units to the
+ * MPI workers.  If multiple hmm's are in the query file, the
+ * blocks are reused without parsing the database a second time.
+ */
+int next_block(P7_HMMFILE *hfp, BLOCK_LIST *list, MSV_BLOCK *block)
+{
+  P7_OPROFILE   *om       = NULL;
+  ESL_ALPHABET  *abc      = NULL;
+  int            status   = eslOK;
+
+  /* if the list has been calculated, use it instead of parsing the database */
+  if (list->complete)
+    {
+      if (list->current == list->last)
+	{
+	  block->offset = 0;
+	  block->length = 0;
+	  block->count  = 0;
+
+	  status = eslEOF;
+	}
+      else
+	{
+	  int inx = list->current++;
+
+	  block->offset = list->blocks[inx].offset;
+	  block->length = list->blocks[inx].length;
+	  block->count  = list->blocks[inx].count;
+
+	  status = eslOK;
+	}
+
+      return status;
+    }
+
+  block->offset = 0;
+  block->length = 0;
+  block->count = 0;
+
+  while (block->length < MAX_BLOCK_SIZE && (status = p7_oprofile_ReadInfoMSV(hfp, &abc, &om)) == eslOK)
+    {
+      if (block->count == 0) block->offset = om->roff;
+      block->length = om->eoff - block->offset + 1;
+      block->count++;
+      p7_oprofile_Destroy(om);
+    }
+
+  if (status == eslEOF && block->count > 0) status = eslOK;
+  if (status == eslEOF) list->complete = 1;
+
+  /* add the block to the list of known blocks */
+  if (status == eslOK)
+    {
+      int inx;
+
+      if (list->last >= list->size)
+	{
+	  void *tmp;
+	  list->size += 500;
+	  ESL_RALLOC(list->blocks, tmp, sizeof(MSV_BLOCK) * list->size);
+	}
+
+      inx = list->last++;
+      list->blocks[inx].offset = block->offset;
+      list->blocks[inx].length = block->length;
+      list->blocks[inx].count  = block->count;
+    }
+
+  return status;
+
+ ERROR:
+  return eslEMEM;
+}
+
+/* mpi_master()
+ * The MPI version of hmmscan
+ * Follows standard pattern for a master/worker load-balanced MPI program (J1/78-79).
+ * 
+ * A master can only return if it's successful. 
+ * Errors in an MPI master come in two classes: recoverable and nonrecoverable.
+ * 
+ * Recoverable errors include all worker-side errors, and any
+ * master-side error that do not affect MPI communication. Error
+ * messages from recoverable messages are delayed until we've cleanly
+ * shut down the workers.
+ * 
+ * Unrecoverable errors are master-side errors that may affect MPI
+ * communication, meaning we cannot count on being able to reach the
+ * workers and shut them down. Unrecoverable errors result in immediate
+ * p7_Fail()'s, which will cause MPI to shut down the worker processes
+ * uncleanly.
+ */
+static int
+mpi_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;	         /* output file for results (default stdout)        */
+  FILE            *tblfp    = NULL;		 /* output stream for tabular per-seq (--tblout)    */
+  FILE            *domtblfp = NULL;	  	 /* output stream for tabular per-seq (--domtblout) */
+  FILE            *pfamtblfp= NULL;              /* output stream for pfam-style tabular output  (--pfamtblout) */
+  int              seqfmt   = eslSQFILE_UNKNOWN; /* format of seqfile                               */
+  P7_BG           *bg       = NULL;	         /* null model                                      */
+  ESL_SQFILE      *sqfp     = NULL;              /* open seqfile                                    */
+  P7_HMMFILE      *hfp      = NULL;		 /* open HMM database file                          */
+  ESL_ALPHABET    *abc      = NULL;              /* sequence alphabet                               */
+  P7_OPROFILE     *om       = NULL;		 /* target profile                                  */
+  ESL_STOPWATCH   *w        = NULL;              /* timing                                          */
+  ESL_SQ          *qsq      = NULL;		 /* query sequence                                  */
+  int              nquery   = 0;
+  int              textw;
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              dest;
+
+  char            *mpi_buf  = NULL;              /* buffer used to pack/unpack structures */
+  int              mpi_size = 0;                 /* size of the allocated buffer */
+  BLOCK_LIST      *list     = NULL;
+  MSV_BLOCK        block;
+
+  int              i;
+  int              size;
+  MPI_Status       mpistatus;
+  char             errbuf[eslERRBUFSIZE];
+
+  w = esl_stopwatch_Create();
+
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+
+  /* If caller declared an input format, decode it */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    seqfmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (seqfmt == eslSQFILE_UNKNOWN) mpi_failure("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+
+  /* Open the target profile database to get the sequence alphabet */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, errbuf);
+  if      (status == eslENOTFOUND) mpi_failure("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   mpi_failure("File format problem, trying to open HMM file %s.\n%s\n",                  cfg->hmmfile, errbuf);
+  else if (status != eslOK)        mpi_failure("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+  if (! hfp->is_pressed)           mpi_failure("Failed to open binary auxfiles for %s: use hmmpress first\n",             hfp->fname);
+  
+  hstatus = p7_oprofile_ReadMSV(hfp, &abc, &om);
+  if      (hstatus == eslEFORMAT)   mpi_failure("bad format, binary auxfiles, %s",            cfg->hmmfile);
+  else if (hstatus == eslEINCOMPAT) mpi_failure("HMM file %s contains different alphabets",   cfg->hmmfile);
+  else if (hstatus != eslOK)        mpi_failure("Unexpected error in reading HMMs from %s",   cfg->hmmfile); 
+
+  p7_oprofile_Destroy(om);
+  p7_hmmfile_Close(hfp);
+
+  /* Open the query sequence database */
+  status = esl_sqfile_OpenDigital(abc, cfg->seqfile, seqfmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",      cfg->seqfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",        cfg->seqfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening sequence file %s\n", status, cfg->seqfile);
+
+  /* Open the results output files */
+  if (esl_opt_IsOn(go, "-o")          && (ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)
+    mpi_failure("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o"));
+  if (esl_opt_IsOn(go, "--tblout")    && (tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)
+    mpi_failure("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblfp"));
+  if (esl_opt_IsOn(go, "--domtblout") && (domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)  
+    mpi_failure("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblfp"));
+  if (esl_opt_IsOn(go, "--pfamtblout") && (pfamtblfp = fopen(esl_opt_GetString(go, "--pfamtblout"), "w")) == NULL)
+    mpi_failure("Failed to open pfam-style tabular output file %s for writing\n", esl_opt_GetString(go, "--pfamtblout"));
+ 
+  ESL_ALLOC(list, sizeof(MSV_BLOCK));
+  list->complete = 0;
+  list->size     = 0;
+  list->current  = 0;
+  list->last     = 0;
+  list->blocks   = NULL;
+
+  output_header(ofp, go, cfg->hmmfile, cfg->seqfile);
+  qsq = esl_sq_CreateDigital(abc);
+  bg = p7_bg_Create(abc);
+
+  /* Outside loop: over each query sequence in <seqfile>. */
+  while ((sstatus = esl_sqio_Read(sqfp, qsq)) == eslOK)
+    {
+      P7_PIPELINE     *pli     = NULL;		/* processing pipeline                      */
+      P7_TOPHITS      *th      = NULL;        	/* top-scoring sequence hits                */
+
+      nquery++;
+
+      esl_stopwatch_Start(w);	                          
+
+      /* seqfile may need to be rewound (multiquery mode) */
+      if (nquery > 1) list->current = 0;
+
+      /* Open the target profile database */
+      status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, NULL);
+      if (status != eslOK) mpi_failure("Unexpected error %d in opening hmm file %s.\n", status, cfg->hmmfile);  
+  
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != 0 && fprintf(ofp, "Accession:   %s\n", qsq->acc)     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->desc[0] != 0 && fprintf(ofp, "Description: %s\n", qsq->desc)    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      /* Create processing pipeline and hit list */
+      th  = p7_tophits_Create(); 
+      pli = p7_pipeline_Create(go, 100, 100, FALSE, p7_SCAN_MODELS); /* M_hint = 100, L_hint = 100 are just dummies for now */
+      pli->hfp = hfp;  /* for two-stage input, pipeline needs <hfp> */
+
+      p7_pli_NewSeq(pli, qsq);
+
+      /* Main loop: */
+      while ((hstatus = next_block(hfp, list, &block)) == eslOK)
+	{
+	  if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	    mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+	  MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+	  if (mpi_buf == NULL || size > mpi_size) {
+	    void *tmp;
+	    ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	    mpi_size = size; 
+	  }
+
+	  dest = mpistatus.MPI_SOURCE;
+	  MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+	  if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	    mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+	  if (mpistatus.MPI_TAG != HMMER_READY_TAG)
+	    mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+      
+	  MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+	}
+      switch(hstatus)
+	{
+	case eslEFORMAT:
+	  mpi_failure("bad file format in HMM file %s",              cfg->hmmfile);
+	  break;
+	case eslEINCOMPAT:
+	  mpi_failure("HMM file %s contains different alphabets",    cfg->hmmfile);
+	  break;
+	case eslEOF:
+	  /* do nothing */
+	  break;
+	default:
+	  mpi_failure("Unexpected error %d in reading HMMs from %s", hstatus, cfg->hmmfile); 
+	}
+
+      block.offset = 0;
+      block.length = 0;
+      block.count  = 0;
+
+      /* wait for all workers to finish up their work blocks */
+      for (i = 1; i < cfg->nproc; ++i)
+	{
+	  if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	    mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+	  MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+	  if (mpi_buf == NULL || size > mpi_size) {
+	    void *tmp;
+	    ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	    mpi_size = size; 
+	  }
+
+	  dest = mpistatus.MPI_SOURCE;
+	  MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+	  if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	    mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+	  if (mpistatus.MPI_TAG != HMMER_READY_TAG)
+	    mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+	}
+
+      /* merge the results of the search results */
+      for (dest = 1; dest < cfg->nproc; ++dest)
+	{
+	  P7_PIPELINE     *mpi_pli   = NULL;
+	  P7_TOPHITS      *mpi_th    = NULL;
+
+	  /* send an empty block to signal the worker they are done */
+	  MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+
+	  /* wait for the results */
+	  if ((status = p7_tophits_MPIRecv(dest, HMMER_TOPHITS_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, &mpi_th)) != eslOK)
+	    mpi_failure("Unexpected error %d receiving tophits from %d", status, dest);
+
+	  if ((status = p7_pipeline_MPIRecv(dest, HMMER_PIPELINE_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, go, &mpi_pli)) != eslOK)
+	    mpi_failure("Unexpected error %d receiving pipeline from %d", status, dest);
+
+	  p7_tophits_Merge(th, mpi_th);
+	  p7_pipeline_Merge(pli, mpi_pli);
+
+	  p7_pipeline_Destroy(mpi_pli);
+	  p7_tophits_Destroy(mpi_th);
+	}
+
+      /* Print the results.  */
+      p7_tophits_SortBySortkey(th);
+      p7_tophits_Threshold(th, pli);
+      p7_tophits_Targets(ofp, th, pli, textw); fprintf(ofp, "\n\n");
+      p7_tophits_Domains(ofp, th, pli, textw); fprintf(ofp, "\n\n");
+
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, th, pli, (nquery == 1));
+      if (domtblfp)  p7_tophits_TabularDomains(domtblfp, qsq->name, qsq->acc, th, pli, (nquery == 1));
+      if (pfamtblfp) p7_tophits_TabularXfam(pfamtblfp,   qsq->name, qsq->acc, th, pli);
+
+      esl_stopwatch_Stop(w);
+      p7_pli_Statistics(ofp, pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      p7_hmmfile_Close(hfp);
+      p7_pipeline_Destroy(pli);
+      p7_tophits_Destroy(th);
+      esl_sq_Reuse(qsq);
+    }
+  if (sstatus == eslEFORMAT) 
+    mpi_failure("Parse failed (sequence file %s):\n%s\n", sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (sstatus != eslEOF)     
+    mpi_failure("Unexpected error %d reading sequence file %s", sstatus, sqfp->filename);
+
+  /* monitor all the workers to make sure they have ended */
+  for (i = 1; i < cfg->nproc; ++i)
+    {
+      if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+      MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+      if (mpi_buf == NULL || size > mpi_size) {
+	void *tmp;
+	ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	mpi_size = size; 
+      }
+
+      dest = mpistatus.MPI_SOURCE;
+      MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+      if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+      if (mpistatus.MPI_TAG != HMMER_TERMINATING_TAG)
+	mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+    }
+
+ /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "hmmscan", p7_SCAN_MODELS, cfg->seqfile, cfg->hmmfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp, "hmmscan", p7_SCAN_MODELS, cfg->seqfile, cfg->hmmfile, go);
+  if (pfamtblfp)p7_tophits_TabularTail(pfamtblfp, "hmmscan", p7_SEARCH_SEQS, cfg->seqfile, cfg->hmmfile, go);
+  if (ofp)      { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for successful exit
+   */
+  free(list);
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_bg_Destroy(bg);
+  esl_sq_Destroy(qsq);
+  esl_stopwatch_Destroy(w);
+  esl_alphabet_Destroy(abc);
+  esl_sqfile_Close(sqfp);
+
+  if (ofp != stdout) fclose(ofp);
+  if (tblfp)         fclose(tblfp);
+  if (domtblfp)      fclose(domtblfp);
+  if (pfamtblfp)     fclose(pfamtblfp);
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+static int
+mpi_worker(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int              seqfmt   = eslSQFILE_UNKNOWN; /* format of seqfile                               */
+  P7_BG           *bg       = NULL;	         /* null model                                      */
+  ESL_SQFILE      *sqfp     = NULL;              /* open seqfile                                    */
+  P7_HMMFILE      *hfp      = NULL;		 /* open HMM database file                          */
+  ESL_ALPHABET    *abc      = NULL;              /* sequence alphabet                               */
+  P7_OPROFILE     *om       = NULL;		 /* target profile                                  */
+  ESL_STOPWATCH   *w        = NULL;              /* timing                                          */
+  ESL_SQ          *qsq      = NULL;		 /* query sequence                                  */
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+
+  char            *mpi_buf  = NULL;              /* buffer used to pack/unpack structures */
+  int              mpi_size = 0;                 /* size of the allocated buffer */
+
+  MPI_Status       mpistatus;
+  char             errbuf[eslERRBUFSIZE];
+
+  w = esl_stopwatch_Create();
+
+  /* Open the target profile database to get the sequence alphabet */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, errbuf);
+  if      (status == eslENOTFOUND) mpi_failure("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   mpi_failure("File format problem in trying to open HMM file %s.\n%s\n",                cfg->hmmfile, errbuf);
+  else if (status != eslOK)        mpi_failure("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+  if (! hfp->is_pressed)           mpi_failure("Failed to open binary dbs for HMM file %s: use hmmpress first\n",         hfp->fname);
+
+  hstatus = p7_oprofile_ReadMSV(hfp, &abc, &om);
+  if      (hstatus == eslEFORMAT)   mpi_failure("bad file format in HMM file %s",             cfg->hmmfile);
+  else if (hstatus == eslEINCOMPAT) mpi_failure("HMM file %s contains different alphabets",   cfg->hmmfile);
+  else if (hstatus != eslOK)        mpi_failure("Unexpected error in reading HMMs from %s",   cfg->hmmfile); 
+
+  p7_oprofile_Destroy(om);
+  p7_hmmfile_Close(hfp);
+
+  /* Open the query sequence database */
+  status = esl_sqfile_OpenDigital(abc, cfg->seqfile, seqfmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",      cfg->seqfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",        cfg->seqfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening sequence file %s\n", status, cfg->seqfile);
+
+  qsq = esl_sq_CreateDigital(abc);
+  bg = p7_bg_Create(abc);
+
+  /* Outside loop: over each query sequence in <seqfile>. */
+  while ((sstatus = esl_sqio_Read(sqfp, qsq)) == eslOK)
+    {
+      P7_PIPELINE     *pli     = NULL;		/* processing pipeline                      */
+      P7_TOPHITS      *th      = NULL;        	/* top-scoring sequence hits                */
+
+      MSV_BLOCK        block;
+
+      esl_stopwatch_Start(w);
+
+      status = 0;
+      MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+      /* Open the target profile database */
+      status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, NULL);
+      if (status != eslOK) mpi_failure("Unexpected error %d in opening hmm file %s.\n", status, cfg->hmmfile);  
+  
+      /* Create processing pipeline and hit list */
+      th  = p7_tophits_Create(); 
+      pli = p7_pipeline_Create(go, 100, 100, FALSE, p7_SCAN_MODELS); /* M_hint = 100, L_hint = 100 are just dummies for now */
+      pli->hfp = hfp;  /* for two-stage input, pipeline needs <hfp> */
+
+      p7_pli_NewSeq(pli, qsq);
+
+      /* receive a sequence block from the master */
+      MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+      while (block.count > 0)
+	{
+	  uint64_t length = 0;
+	  uint64_t count  = block.count;
+
+	  hstatus = p7_oprofile_Position(hfp, block.offset);
+	  if (hstatus != eslOK) mpi_failure("Cannot position optimized model to %ld\n", block.offset);
+
+	  while (count > 0 && (hstatus = p7_oprofile_ReadMSV(hfp, &abc, &om)) == eslOK)
+	    {
+	      length = om->eoff - block.offset + 1;
+
+	      p7_pli_NewModel(pli, om, bg);
+	      p7_bg_SetLength(bg, qsq->n);
+	      p7_oprofile_ReconfigLength(om, qsq->n);
+	      
+	      p7_Pipeline(pli, om, bg, qsq, th);
+	      
+	      p7_oprofile_Destroy(om);
+	      p7_pipeline_Reuse(pli);
+
+	      --count;
+	    }
+
+	  /* check the status of reading the hmm */
+
+	  /* lets do a little bit of sanity checking here to make sure the blocks are the same */
+	  if (count > 0)              
+	    {
+	      switch(hstatus)
+		{
+		case eslEFORMAT:
+		  mpi_failure("bad file format in HMM file %s",              cfg->hmmfile);
+		  break;
+		case eslEINCOMPAT:
+		  mpi_failure("HMM file %s contains different alphabets",    cfg->hmmfile);
+		  break;
+		case eslOK:
+		case eslEOF:
+		  mpi_failure("Block count mismatch - expected %ld found %ld at offset %ld\n", block.count, block.count-count, block.offset);
+		  break;
+		default:
+		  mpi_failure("Unexpected error %d in reading HMMs from %s", hstatus, cfg->hmmfile); 
+		}
+	    }
+	  if (block.length != length) 
+	    mpi_failure("Block length mismatch - expected %ld found %ld at offset %ld\n", block.length, length, block.offset);
+
+	  /* inform the master we need another block of sequences */
+	  status = 0;
+	  MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+	  /* wait for the next block of sequences */
+	  MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+	}
+
+      esl_stopwatch_Stop(w);
+
+      /* Send the top hits back to the master. */
+      p7_tophits_MPISend(th, 0, HMMER_TOPHITS_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+      p7_pipeline_MPISend(pli, 0, HMMER_PIPELINE_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+
+      p7_hmmfile_Close(hfp);
+      p7_pipeline_Destroy(pli);
+      p7_tophits_Destroy(th);
+      esl_sq_Reuse(qsq);
+    } /* end outer loop over query HMMs */
+  if (sstatus == eslEFORMAT) 
+    mpi_failure("Parse failed (sequence file %s):\n%s\n", sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (sstatus != eslEOF)
+    mpi_failure("Unexpected error %d reading sequence file %s", sstatus, sqfp->filename);
+
+  status = 0;
+  MPI_Send(&status, 1, MPI_INT, 0, HMMER_TERMINATING_TAG, MPI_COMM_WORLD);
+
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_bg_Destroy(bg);
+
+  esl_sq_Destroy(qsq);
+  esl_stopwatch_Destroy(w);
+  esl_alphabet_Destroy(abc);
+  esl_sqfile_Close(sqfp);
+
+  return eslOK;
+}
+#endif /*HAVE_MPI*/
+
+static int
+serial_loop(WORKER_INFO *info, P7_HMMFILE *hfp)
+{
+  int            status;
+
+  P7_OPROFILE   *om;
+  ESL_ALPHABET  *abc = NULL;
+
+  /* Main loop: */
+  while ((status = p7_oprofile_ReadMSV(hfp, &abc, &om)) == eslOK)
+    {
+      p7_pli_NewModel(info->pli, om, info->bg);
+      p7_bg_SetLength(info->bg, info->qsq->n);
+      p7_oprofile_ReconfigLength(om, info->qsq->n);
+
+      p7_Pipeline(info->pli, om, info->bg, info->qsq, info->th);
+
+      p7_oprofile_Destroy(om);
+      p7_pipeline_Reuse(info->pli);
+    }
+
+  esl_alphabet_Destroy(abc);
+
+  return status;
+}
+
+#ifdef HMMER_THREADS
+static int
+thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, P7_HMMFILE *hfp)
+{
+  int  status   = eslOK;
+  int  sstatus  = eslOK;
+  int  eofCount = 0;
+  P7_OM_BLOCK   *block;
+  ESL_ALPHABET  *abc = NULL;
+  void          *newBlock;
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+      
+  /* Main loop: */
+  while (sstatus == eslOK)
+    {
+      block = (P7_OM_BLOCK *) newBlock;
+      sstatus = p7_oprofile_ReadBlockMSV(hfp, &abc, block);
+      if (sstatus == eslEOF)
+	{
+	  if (eofCount < esl_threads_GetWorkerCount(obj)) sstatus = eslOK;
+	  ++eofCount;
+	}
+	  
+      if (sstatus == eslOK)
+	{
+	  status = esl_workqueue_ReaderUpdate(queue, block, &newBlock);
+	  if (status != eslOK) esl_fatal("Work queue reader failed");
+	}
+    }
+
+  status = esl_workqueue_ReaderUpdate(queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+
+  if (sstatus == eslEOF)
+    {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+    }
+  
+  esl_alphabet_Destroy(abc);
+  return sstatus;
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int i;
+  int status;
+  int workeridx;
+  WORKER_INFO   *info;
+  ESL_THREADS   *obj;
+  P7_OM_BLOCK   *block;
+  void          *newBlock;
+  
+  impl_Init();
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  /* loop until all blocks have been processed */
+  block = (P7_OM_BLOCK *) newBlock;
+  while (block->count > 0)
+    {
+      /* Main loop: */
+      for (i = 0; i < block->count; ++i)
+	{
+	  P7_OPROFILE *om = block->list[i];
+
+	  p7_pli_NewModel(info->pli, om, info->bg);
+	  p7_bg_SetLength(info->bg, info->qsq->n);
+	  p7_oprofile_ReconfigLength(om, info->qsq->n);
+
+	  p7_Pipeline(info->pli, om, info->bg, info->qsq, info->th);
+
+	  p7_oprofile_Destroy(om);
+	  p7_pipeline_Reuse(info->pli);
+
+	  block->list[i] = NULL;
+	}
+
+      status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
+      if (status != eslOK) esl_fatal("Work queue worker failed");
+
+      block = (P7_OM_BLOCK *) newBlock;
+    }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+#endif   /* HMMER_THREADS */
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: hmmscan.c 4583 2013-12-30 18:56:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmscan.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmsearch.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmsearch.c
new file mode 100755
index 0000000..43617b1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmsearch.c
@@ -0,0 +1,1440 @@
+/* hmmsearch: search profile HMM(s) against a sequence database.
+ *
+ * To do:
+ *  - in MPI mode, add a check to make sure ncpus >= 2. If 1, then we
+ *    only have a master, no workers. See Infernal commit r3972 on the
+ *    same point; and same note in hmmscan.c's to do list.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#include "esl_mpi.h"
+#endif /*HAVE_MPI*/
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif /*HMMER_THREADS*/
+  P7_BG            *bg;	         /* null model                              */
+  P7_PIPELINE      *pli;         /* work pipeline                           */
+  P7_TOPHITS       *th;          /* top hit results                         */
+  P7_OPROFILE      *om;          /* optimized query profile                 */
+} WORKER_INFO;
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+
+#if defined (HMMER_THREADS) && defined (HAVE_MPI)
+#define CPUOPTS     "--mpi"
+#define MPIOPTS     "--cpu"
+#else
+#define CPUOPTS     NULL
+#define MPIOPTS     NULL
+#endif
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles   reqs   incomp              help                                                      docgroup*/
+  { "-h",           eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "show brief help on version and usage",                         1 },
+  /* Control of output */
+  { "-o",           eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "direct output to file <f>, not stdout",                        2 },
+  { "-A",           eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save multiple alignment of all hits to file <f>",              2 },
+  { "--tblout",     eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save parseable table of per-sequence hits to file <f>",        2 },
+  { "--domtblout",  eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save parseable table of per-domain hits to file <f>",          2 },
+  { "--pfamtblout", eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save table of hits and domains to file, in Pfam format <f>",   2 },
+  { "--acc",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "prefer accessions over names in output",                       2 },
+  { "--noali",      eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "don't output alignments, so output is smaller",                2 },
+  { "--notextw",    eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL, "--textw",        "unlimit ASCII text output line width",                         2 },
+  { "--textw",      eslARG_INT,    "120", NULL, "n>=120",NULL,  NULL, "--notextw",      "set max width of ASCII text output lines",                     2 },
+  /* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,  "10.0", NULL, "x>0",   NULL,  NULL,  REPOPTS,         "report sequences <= this E-value threshold in output",         4 },
+  { "-T",           eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  REPOPTS,         "report sequences >= this score threshold in output",           4 },
+  { "--domE",       eslARG_REAL,  "10.0", NULL, "x>0",   NULL,  NULL,  DOMREPOPTS,      "report domains <= this E-value threshold in output",           4 },
+  { "--domT",       eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  DOMREPOPTS,      "report domains >= this score cutoff in output",                4 },
+  /* Control of inclusion (significance) thresholds */
+  { "--incE",       eslARG_REAL,  "0.01", NULL, "x>0",   NULL,  NULL,  INCOPTS,         "consider sequences <= this E-value threshold as significant",  5 },
+  { "--incT",       eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  INCOPTS,         "consider sequences >= this score threshold as significant",    5 },
+  { "--incdomE",    eslARG_REAL,  "0.01", NULL, "x>0",   NULL,  NULL,  INCDOMOPTS,      "consider domains <= this E-value threshold as significant",    5 },
+  { "--incdomT",    eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  INCDOMOPTS,      "consider domains >= this score threshold as significant",      5 },
+  /* Model-specific thresholding for both reporting and inclusion */
+  { "--cut_ga",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's GA gathering cutoffs to set all thresholding",   6 },
+  { "--cut_nc",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's NC noise cutoffs to set all thresholding",       6 },
+  { "--cut_tc",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's TC trusted cutoffs to set all thresholding",     6 },
+  /* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL, "--F1,--F2,--F3", "Turn all heuristic filters off (less speed, more power)",      7 },
+  { "--F1",         eslARG_REAL,  "0.02", NULL, NULL,    NULL,  NULL, "--max",          "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             7 },
+  { "--F2",         eslARG_REAL,  "1e-3", NULL, NULL,    NULL,  NULL, "--max",          "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             7 },
+  { "--F3",         eslARG_REAL,  "1e-5", NULL, NULL,    NULL,  NULL, "--max",          "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             7 },
+  { "--nobias",     eslARG_NONE,   NULL,  NULL, NULL,    NULL,  NULL, "--max",          "turn off composition bias filter",                             7 },
+
+/* Other options */
+  { "--nonull2",    eslARG_NONE,   NULL,  NULL, NULL,    NULL,  NULL,  NULL,            "turn off biased composition score corrections",               12 },
+  { "-Z",           eslARG_REAL,   FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "set # of comparisons done, for E-value calculation",          12 },
+  { "--domZ",       eslARG_REAL,   FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "set # of significant seqs, for domain E-value calculation",   12 },
+  { "--seed",       eslARG_INT,    "42",  NULL, "n>=0",  NULL,  NULL,  NULL,            "set RNG seed to <n> (if 0: one-time arbitrary seed)",         12 },
+  { "--tformat",    eslARG_STRING,  NULL, NULL, NULL,    NULL,  NULL,  NULL,            "assert target <seqfile> is in format <s>: no autodetection",  12 },
+
+#ifdef HMMER_THREADS 
+  { "--cpu",        eslARG_INT, NULL,"HMMER_NCPU","n>=0",NULL,  NULL,  CPUOPTS,         "number of parallel CPU workers to use for multithreads",      12 },
+#endif
+#ifdef HAVE_MPI
+  { "--stall",      eslARG_NONE,   FALSE, NULL, NULL,    NULL,"--mpi", NULL,            "arrest after start: for debugging MPI under gdb",             12 },  
+  { "--mpi",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  MPIOPTS,         "run as an MPI parallel program",                              12 },
+#endif
+
+  /* Restrict search to subset of database - hidden because these flags are
+   *   (a) currently for internal use
+   *   (b) probably going to change
+   * Doesn't work with MPI
+   */
+  { "--restrictdb_stkey", eslARG_STRING, "0",  NULL, NULL,    NULL,  NULL,  NULL,       "Search starts at the sequence with name <s> (not with MPI)",     99 },
+  { "--restrictdb_n",eslARG_INT,        "-1",  NULL, NULL,    NULL,  NULL,  NULL,       "Search <j> target sequences (starting at --restrictdb_stkey)",   99 },
+  { "--ssifile",    eslARG_STRING,       NULL, NULL, NULL,    NULL,  NULL,  NULL,       "restrictdb_x values require ssi file. Override default to <s>",  99 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[options] <hmmfile> <seqdb>";
+static char banner[] = "search profile(s) against a sequence database";
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  char            *dbfile;            /* target sequence database file                   */
+  char            *hmmfile;           /* query HMM file                                  */
+
+  int              do_mpi;            /* TRUE if we're doing MPI parallelization         */
+  int              nproc;             /* how many MPI processes, total                   */
+  int              my_rank;           /* who am I, in 0..nproc-1                         */
+
+  char             *firstseq_key;     /* name of the first sequence in the restricted db range */
+  int              n_targetseq;       /* number of sequences in the restricted range */
+};
+
+static int  serial_master(ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  serial_loop  (WORKER_INFO *info, ESL_SQFILE *dbfp, int n_targetseqs);
+#ifdef HMMER_THREADS
+#define BLOCK_SIZE 1000
+
+static int  thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp, int n_targetseqs);
+static void pipeline_thread(void *arg);
+#endif /*HMMER_THREADS*/
+
+#ifdef HAVE_MPI
+static int  mpi_master   (ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  mpi_worker   (ESL_GETOPTS *go, struct cfg_s *cfg);
+#endif /*HAVE_MPI*/
+
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_hmmfile, char **ret_seqfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      if (puts("\nBasic options:")                                           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+
+      if (puts("\nOptions directing output:")                                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+
+      if (puts("\nOptions controlling reporting thresholds:")                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+
+      if (puts("\nOptions controlling inclusion (significance) thresholds:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+
+      if (puts("\nOptions controlling model-specific thresholding:")         < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80); 
+
+      if (puts("\nOptions controlling acceleration heuristics:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80); 
+
+      if (puts("\nOther expert options:")                                    < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 80); 
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                  != 2)     { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_hmmfile = esl_opt_GetArg(go, 1)) == NULL)  { if (puts("Failed to get <hmmfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_seqfile = esl_opt_GetArg(go, 2)) == NULL)  { if (puts("Failed to get <seqdb> argument on command line")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (strcmp(*ret_hmmfile, "-") == 0 && strcmp(*ret_seqfile, "-") == 0) 
+    { if (puts("Either <hmmfile> or <seqdb> may be '-' (to read from stdin), but not both.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  if (puts("\nwhere most common options are:")                                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  if (printf("\nTo see more help on available options, do %s -h\n\n", argv[0]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+static int
+output_header(FILE *ofp, const ESL_GETOPTS *go, char *hmmfile, char *seqfile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+  
+  if (fprintf(ofp, "# query HMM file:                  %s\n", hmmfile)                                                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# target sequence database:        %s\n", seqfile)                                                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")           && fprintf(ofp, "# output directed to file:         %s\n",             esl_opt_GetString(go, "-o"))           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-A")           && fprintf(ofp, "# MSA of all hits saved to file:   %s\n",             esl_opt_GetString(go, "-A"))           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tblout")     && fprintf(ofp, "# per-seq hits tabular output:     %s\n",             esl_opt_GetString(go, "--tblout"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domtblout")  && fprintf(ofp, "# per-dom hits tabular output:     %s\n",             esl_opt_GetString(go, "--domtblout"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pfamtblout") && fprintf(ofp, "# pfam-style tabular hit output:   %s\n",             esl_opt_GetString(go, "--pfamtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--acc")        && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--noali")      && fprintf(ofp, "# show alignments in output:       no\n")                                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--notextw")    && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--textw")      && fprintf(ofp, "# max ASCII text line length:      %d\n",             esl_opt_GetInteger(go, "--textw"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-E")           && fprintf(ofp, "# sequence reporting threshold:    E-value <= %g\n",  esl_opt_GetReal(go, "-E"))             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-T")           && fprintf(ofp, "# sequence reporting threshold:    score >= %g\n",    esl_opt_GetReal(go, "-T"))             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domE")       && fprintf(ofp, "# domain reporting threshold:      E-value <= %g\n",  esl_opt_GetReal(go, "--domE"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domT")       && fprintf(ofp, "# domain reporting threshold:      score >= %g\n",    esl_opt_GetReal(go, "--domT"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incE")       && fprintf(ofp, "# sequence inclusion threshold:    E-value <= %g\n",  esl_opt_GetReal(go, "--incE"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incT")       && fprintf(ofp, "# sequence inclusion threshold:    score >= %g\n",    esl_opt_GetReal(go, "--incT"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomE")    && fprintf(ofp, "# domain inclusion threshold:      E-value <= %g\n",  esl_opt_GetReal(go, "--incdomE"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomT")    && fprintf(ofp, "# domain inclusion threshold:      score >= %g\n",    esl_opt_GetReal(go, "--incdomT"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_ga")     && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+  if (esl_opt_IsUsed(go, "--cut_nc")     && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+  if (esl_opt_IsUsed(go, "--cut_tc")     && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--max")        && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F1")         && fprintf(ofp, "# MSV filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F1"))           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F2")         && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F2"))           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F3")         && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F3"))           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nobias")     && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") && fprintf(ofp, "# Restrict db to start at seq key: %s\n",            esl_opt_GetString(go, "--restrictdb_stkey"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--restrictdb_n")     && fprintf(ofp, "# Restrict db to # target seqs:    %d\n",            esl_opt_GetInteger(go, "--restrictdb_n")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--ssifile")          && fprintf(ofp, "# Override ssi file to:            %s\n",            esl_opt_GetString(go, "--ssifile"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--nonull2")    && fprintf(ofp, "# null2 bias corrections:          off\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-Z")           && fprintf(ofp, "# sequence search space set to:    %.0f\n",           esl_opt_GetReal(go, "-Z"))             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domZ")       && fprintf(ofp, "# domain search space set to:      %.0f\n",           esl_opt_GetReal(go, "--domZ"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed") == 0 && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                               < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if (                               fprintf(ofp, "# random number seed set to:       %d\n",             esl_opt_GetInteger(go, "--seed"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--tformat")    && fprintf(ofp, "# targ <seqfile> format asserted:  %s\n",             esl_opt_GetString(go, "--tformat"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#ifdef HMMER_THREADS
+  if (esl_opt_IsUsed(go, "--cpu")        && fprintf(ofp, "# number of worker threads:        %d\n",             esl_opt_GetInteger(go, "--cpu"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+#endif
+#ifdef HAVE_MPI
+  if (esl_opt_IsUsed(go, "--mpi")        && fprintf(ofp, "# MPI:                             on\n")                                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go       = NULL;	
+  struct cfg_s     cfg;        
+  int              status   = eslOK;
+
+  impl_Init();                  /* processor specific initialization */
+  p7_FLogsumInit();		/* we're going to use table-driven Logsum() approximations at times */
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet) 
+   */
+  cfg.hmmfile    = NULL;
+  cfg.dbfile     = NULL;
+  cfg.do_mpi     = FALSE;	           /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;		           /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;		           /* this gets reset below, if we init MPI */
+  cfg.firstseq_key = NULL;
+  cfg.n_targetseq  = -1;
+
+  process_commandline(argc, argv, &go, &cfg.hmmfile, &cfg.dbfile);    
+
+/* is the range restricted? */
+
+#ifndef eslAUGMENT_SSI
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")  || esl_opt_IsUsed(go, "--ssifile")  )
+    p7_Fail("Unable to use range-control options unless an SSI index file is available. See 'esl_sfetch --index'\n");
+#else
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") )
+    if ((cfg.firstseq_key = esl_opt_GetString(go, "--restrictdb_stkey")) == NULL)  p7_Fail("Failure capturing --restrictdb_stkey\n");
+
+  if (esl_opt_IsUsed(go, "--restrictdb_n") )
+    cfg.n_targetseq = esl_opt_GetInteger(go, "--restrictdb_n");
+
+  if ( cfg.n_targetseq != -1 && cfg.n_targetseq < 1 )
+    p7_Fail("--restrictdb_n must be >= 1\n");
+
+#endif
+
+
+  /* Figure out who we are, and send control there: 
+   * we might be an MPI master, an MPI worker, or a serial program.
+   */
+#ifdef HAVE_MPI
+  /* pause the execution of the programs execution until the user has a
+   * chance to attach with a debugger and send a signal to resume execution
+   * i.e. (gdb) signal SIGCONT
+   */
+  if (esl_opt_GetBoolean(go, "--stall")) pause();
+
+  if (esl_opt_GetBoolean(go, "--mpi")) 
+    {
+      cfg.do_mpi     = TRUE;
+      MPI_Init(&argc, &argv);
+      MPI_Comm_rank(MPI_COMM_WORLD, &(cfg.my_rank));
+      MPI_Comm_size(MPI_COMM_WORLD, &(cfg.nproc));
+
+      if (cfg.my_rank > 0)  status = mpi_worker(go, &cfg);
+      else 		    status = mpi_master(go, &cfg);
+
+      MPI_Finalize();
+    }
+  else
+#endif /*HAVE_MPI*/
+    {
+      status = serial_master(go, &cfg);
+    }
+
+  esl_getopts_Destroy(go);
+
+  return status;
+}
+
+
+/* serial_master()
+ * The serial version of hmmsearch.
+ * For each query HMM in <hmmfile> search the database for hits.
+ * 
+ * A master can only return if it's successful. All errors are handled
+ * immediately and fatally with p7_Fail().  We also use the
+ * ESL_EXCEPTION and ERROR: mechanisms, but only because we know we're
+ * using a fatal exception handler.
+ */
+static int
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;            /* results output file (-o)                        */
+  FILE            *afp      = NULL;              /* alignment output file (-A)                      */
+  FILE            *tblfp    = NULL;              /* output stream for tabular per-seq (--tblout)    */
+  FILE            *domtblfp = NULL;              /* output stream for tabular per-dom (--domtblout) */
+  FILE            *pfamtblfp= NULL;              /* output stream for pfam tabular output (--pfamtblout)    */
+  P7_HMMFILE      *hfp      = NULL;              /* open input HMM file                             */
+  ESL_SQFILE      *dbfp     = NULL;              /* open input sequence file                        */
+  P7_HMM          *hmm      = NULL;              /* one HMM query                                   */
+  ESL_ALPHABET    *abc      = NULL;              /* digital alphabet                                */
+  int              dbfmt    = eslSQFILE_UNKNOWN; /* format code for sequence database file          */
+  ESL_STOPWATCH   *w;
+  int              textw    = 0;
+  int              nquery   = 0;
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              i;
+
+  int              ncpus    = 0;
+
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  ESL_SQ_BLOCK    *block    = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+  char             errbuf[eslERRBUFSIZE];
+
+  w = esl_stopwatch_Create();
+
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbfmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbfmt == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  /* Open the target sequence database */
+  status = esl_sqfile_Open(cfg->dbfile, dbfmt, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",          cfg->dbfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",            cfg->dbfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening sequence file %s\n", status, cfg->dbfile);  
+
+
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")) {
+    if (esl_opt_IsUsed(go, "--ssifile"))
+      esl_sqfile_OpenSSI(dbfp, esl_opt_GetString(go, "--ssifile"));
+    else
+      esl_sqfile_OpenSSI(dbfp, NULL);
+  }
+
+
+
+  /* Open the query profile HMM file */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                cfg->hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+
+  /* Open the results output files */
+  if (esl_opt_IsOn(go, "-o"))          { if ((ofp      = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) p7_Fail("Failed to open output file %s for writing\n",    esl_opt_GetString(go, "-o")); }
+  if (esl_opt_IsOn(go, "-A"))          { if ((afp      = fopen(esl_opt_GetString(go, "-A"), "w")) == NULL) p7_Fail("Failed to open alignment file %s for writing\n", esl_opt_GetString(go, "-A")); }
+  if (esl_opt_IsOn(go, "--tblout"))    { if ((tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  esl_fatal("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblout")); }
+  if (esl_opt_IsOn(go, "--domtblout")) { if ((domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)  esl_fatal("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblout")); }
+  if (esl_opt_IsOn(go, "--pfamtblout")){ if ((pfamtblfp = fopen(esl_opt_GetString(go, "--pfamtblout"), "w")) == NULL)  esl_fatal("Failed to open pfam-style tabular output file %s for writing\n", esl_opt_GetString(go, "--pfamtblout")); }
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                                   esl_threads_CPUCount(&ncpus);
+
+  if (ncpus > 0)
+    {
+      threadObj = esl_threads_Create(&pipeline_thread);
+      queue = esl_workqueue_Create(ncpus * 2);
+    }
+#endif
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  /* <abc> is not known 'til first HMM is read. */
+  hstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if (hstatus == eslOK)
+    {
+      /* One-time initializations after alphabet <abc> becomes known */
+      output_header(ofp, go, cfg->hmmfile, cfg->dbfile);
+      esl_sqfile_SetDigital(dbfp, abc); //ReadBlock requires knowledge of the alphabet to decide how best to read blocks
+
+      for (i = 0; i < infocnt; ++i)
+	{
+	  info[i].bg    = p7_bg_Create(abc);
+#ifdef HMMER_THREADS
+	  info[i].queue = queue;
+#endif
+	}
+
+#ifdef HMMER_THREADS
+      for (i = 0; i < ncpus * 2; ++i)
+	{
+	  block = esl_sq_CreateDigitalBlock(BLOCK_SIZE, abc);
+	  if (block == NULL) 	      esl_fatal("Failed to allocate sequence block");
+
+ 	  status = esl_workqueue_Init(queue, block);
+	  if (status != eslOK)	      esl_fatal("Failed to add block to work queue");
+	}
+#endif
+    }
+
+  /* Outer loop: over each query HMM in <hmmfile>. */
+  while (hstatus == eslOK) 
+    {
+      P7_PROFILE      *gm      = NULL;
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+
+      nquery++;
+      esl_stopwatch_Start(w);
+
+      /* seqfile may need to be rewound (multiquery mode) */
+      if (nquery > 1)
+      {
+        if (! esl_sqfile_IsRewindable(dbfp))
+          esl_fatal("Target sequence file %s isn't rewindable; can't search it with multiple queries", cfg->dbfile);
+
+        if (! esl_opt_IsUsed(go, "--restrictdb_stkey") )
+          esl_sqfile_Position(dbfp, 0); //only re-set current position to 0 if we're not planning to set it in a moment
+      }
+
+      if ( cfg->firstseq_key != NULL ) { //it's tempting to want to do this once and capture the offset position for future passes, but ncbi files make this non-trivial, so this keeps it general
+        sstatus = esl_sqfile_PositionByKey(dbfp, cfg->firstseq_key);
+        if (sstatus != eslOK)
+          p7_Fail("Failure setting restrictdb_stkey to %d\n", cfg->firstseq_key);
+      }
+
+      if (fprintf(ofp, "Query:       %s  [M=%d]\n", hmm->name, hmm->M)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (hmm->acc)  { if (fprintf(ofp, "Accession:   %s\n", hmm->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+      if (hmm->desc) { if (fprintf(ofp, "Description: %s\n", hmm->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+      /* Convert to an optimized model */
+      gm = p7_profile_Create (hmm->M, abc);
+      om = p7_oprofile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, info->bg, gm, 100, p7_LOCAL); /* 100 is a dummy length for now; and MSVFilter requires local mode */
+      p7_oprofile_Convert(gm, om);                  /* <om> is now p7_LOCAL, multihit */
+
+      for (i = 0; i < infocnt; ++i)
+      {
+        /* Create processing pipeline and hit list */
+        info[i].th  = p7_tophits_Create();
+        info[i].om  = p7_oprofile_Clone(om);
+        info[i].pli = p7_pipeline_Create(go, om->M, 100, FALSE, p7_SEARCH_SEQS); /* L_hint = 100 is just a dummy for now */
+        p7_pli_NewModel(info[i].pli, info[i].om, info[i].bg);
+
+#ifdef HMMER_THREADS
+        if (ncpus > 0) esl_threads_AddThread(threadObj, &info[i]);
+#endif
+      }
+
+#ifdef HMMER_THREADS
+      if (ncpus > 0)  sstatus = thread_loop(threadObj, queue, dbfp, cfg->n_targetseq);
+      else            sstatus = serial_loop(info, dbfp, cfg->n_targetseq);
+#else
+      sstatus = serial_loop(info, dbfp, cfg->n_targetseq);
+#endif
+      switch(sstatus)
+      {
+      case eslEFORMAT:
+        esl_fatal("Parse failed (sequence file %s):\n%s\n",
+            dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+        break;
+      case eslEOF:
+        /* do nothing */
+        break;
+      default:
+        esl_fatal("Unexpected error %d reading sequence file %s", sstatus, dbfp->filename);
+      }
+
+      /* merge the results of the search results */
+      for (i = 1; i < infocnt; ++i)
+      {
+        p7_tophits_Merge(info[0].th, info[i].th);
+        p7_pipeline_Merge(info[0].pli, info[i].pli);
+
+        p7_pipeline_Destroy(info[i].pli);
+        p7_tophits_Destroy(info[i].th);
+        p7_oprofile_Destroy(info[i].om);
+      }
+
+      /* Print the results.  */
+      p7_tophits_SortBySortkey(info->th);
+      p7_tophits_Threshold(info->th, info->pli);
+      p7_tophits_Targets(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    hmm->name, hmm->acc, info->th, info->pli, (nquery == 1));
+      if (domtblfp)  p7_tophits_TabularDomains(domtblfp, hmm->name, hmm->acc, info->th, info->pli, (nquery == 1));
+      if (pfamtblfp) p7_tophits_TabularXfam(pfamtblfp, hmm->name, hmm->acc, info->th, info->pli);
+  
+      esl_stopwatch_Stop(w);
+      p7_pli_Statistics(ofp, info->pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      /* Output the results in an MSA (-A option) */
+      if (afp) {
+	ESL_MSA *msa = NULL;
+
+	if (p7_tophits_Alignment(info->th, abc, NULL, NULL, 0, p7_ALL_CONSENSUS_COLS, &msa) == eslOK)
+	  {
+	    if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+	    else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+	  
+	    if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  } 
+	else { if (fprintf(ofp, "# No hits satisfy inclusion thresholds; no alignment saved\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+	  
+	esl_msa_Destroy(msa);
+      }
+
+      p7_pipeline_Destroy(info->pli);
+      p7_tophits_Destroy(info->th);
+      p7_oprofile_Destroy(info->om);
+      p7_oprofile_Destroy(om);
+      p7_profile_Destroy(gm);
+      p7_hmm_Destroy(hmm);
+
+      hstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+    } /* end outer loop over query HMMs */
+
+  switch(hstatus) {
+  case eslEOD:       p7_Fail("read failed, HMM file %s may be truncated?", cfg->hmmfile);      break;
+  case eslEFORMAT:   p7_Fail("bad file format in HMM file %s",             cfg->hmmfile);      break;
+  case eslEINCOMPAT: p7_Fail("HMM file %s contains different alphabets",   cfg->hmmfile);      break;
+  case eslEOF:       /* do nothing. EOF is what we want. */                                    break;
+  default:           p7_Fail("Unexpected error (%d) in reading HMMs from %s", hstatus, cfg->hmmfile);
+  }
+
+
+  /* Terminate outputs... any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "hmmsearch", p7_SEARCH_SEQS, cfg->hmmfile, cfg->dbfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp, "hmmsearch", p7_SEARCH_SEQS, cfg->hmmfile, cfg->dbfile, go);
+  if (pfamtblfp) p7_tophits_TabularTail(pfamtblfp,"hmmsearch", p7_SEARCH_SEQS, cfg->hmmfile, cfg->dbfile, go);
+  if (ofp)      { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for exit
+   */
+  for (i = 0; i < infocnt; ++i)
+    p7_bg_Destroy(info[i].bg);
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)
+    {
+      esl_workqueue_Reset(queue);
+      while (esl_workqueue_Remove(queue, (void **) &block) == eslOK)
+	esl_sq_DestroyBlock(block);
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+    }
+#endif
+
+  free(info);
+  p7_hmmfile_Close(hfp);
+  esl_sqfile_Close(dbfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+
+  if (ofp != stdout) fclose(ofp);
+  if (afp)           fclose(afp);
+  if (tblfp)         fclose(tblfp);
+  if (domtblfp)      fclose(domtblfp);
+  if (pfamtblfp)     fclose(pfamtblfp);
+
+  return eslOK;
+
+ ERROR:
+  return eslFAIL;
+}
+
+#ifdef HAVE_MPI
+
+/* Define common tags used by the MPI master/slave processes */
+#define HMMER_ERROR_TAG          1
+#define HMMER_HMM_TAG            2
+#define HMMER_SEQUENCE_TAG       3
+#define HMMER_BLOCK_TAG          4
+#define HMMER_PIPELINE_TAG       5
+#define HMMER_TOPHITS_TAG        6
+#define HMMER_HIT_TAG            7
+#define HMMER_TERMINATING_TAG    8
+#define HMMER_READY_TAG          9
+
+/* mpi_failure()
+ * Generate an error message.  If the clients rank is not 0, a
+ * message is created with the error message and sent to the
+ * master process for handling.
+ */
+static void
+mpi_failure(char *format, ...)
+{
+  va_list  argp;
+  int      status = eslFAIL;
+  int      len;
+  int      rank;
+  char     str[512];
+
+  MPI_Comm_rank(MPI_COMM_WORLD, &rank);
+
+  /* format the error mesg */
+  va_start(argp, format);
+  len = vsnprintf(str, sizeof(str), format, argp);
+  va_end(argp);
+
+  /* make sure the error string is terminated */
+  str[sizeof(str)-1] = '\0';
+
+  /* if the caller is the master, print the results and abort */
+  if (rank == 0)
+    {
+      if (fprintf(stderr, "\nError: ") < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "%s", str)   < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "\n")        < 0) exit(eslEWRITE);
+      fflush(stderr);
+
+      MPI_Abort(MPI_COMM_WORLD, status);
+      exit(1);
+    }
+  else
+    {
+      MPI_Send(str, len, MPI_CHAR, 0, HMMER_ERROR_TAG, MPI_COMM_WORLD);
+      pause();
+    }
+}
+
+#define MAX_BLOCK_SIZE (512*1024)
+
+typedef struct {
+  uint64_t  offset;
+  uint64_t  length;
+  uint64_t  count;
+} SEQ_BLOCK;
+
+typedef struct {
+  int        complete;
+  int        size;
+  int        current;
+  int        last;
+  SEQ_BLOCK *blocks;
+} BLOCK_LIST;
+
+/* this routine parses the database keeping track of the blocks
+ * offset within the file, number of sequences and the length
+ * of the block.  These blocks are passed as work units to the
+ * MPI workers.  If multiple hmm's are in the query file, the
+ * blocks are reused without parsing the database a second time.
+ */
+int next_block(ESL_SQFILE *sqfp, ESL_SQ *sq, BLOCK_LIST *list, SEQ_BLOCK *block, int n_targetseqs)
+{
+  int      status   = eslOK;
+
+  /* if the list has been calculated, use it instead of parsing the database */
+  if (list->complete)
+    {
+      if (list->current == list->last)
+      {
+        block->offset = 0;
+        block->length = 0;
+        block->count  = 0;
+
+        status = eslEOF;
+      }
+      else
+      {
+        int inx = list->current++;
+
+        block->offset = list->blocks[inx].offset;
+        block->length = list->blocks[inx].length;
+        block->count  = list->blocks[inx].count;
+
+        status = eslOK;
+      }
+
+      return status;
+    }
+
+  block->offset = 0;
+  block->length = 0;
+  block->count = 0;
+
+  esl_sq_Reuse(sq);
+  if (n_targetseqs == 0) status = eslEOF; //this is to handle the end-case of a restrictdb scenario, where no more targets are required, and we want to mark the list as complete
+  while (block->length < MAX_BLOCK_SIZE && (n_targetseqs <0 || block->count < n_targetseqs) && (status = esl_sqio_ReadInfo(sqfp, sq)) == eslOK)
+    {
+      if (block->count == 0) block->offset = sq->roff;
+      block->length = sq->eoff - block->offset + 1;
+      block->count++;
+      esl_sq_Reuse(sq);
+    }
+
+  if (block->count > 0)
+    if (status == eslEOF || block->count == n_targetseqs)
+      status = eslOK;
+  if (status == eslEOF) list->complete = 1;
+
+  /* add the block to the list of known blocks */
+  if (status == eslOK)
+    {
+      int inx;
+
+      if (list->last >= list->size)
+	{
+	  void *tmp;
+	  list->size += 500;
+	  ESL_RALLOC(list->blocks, tmp, sizeof(SEQ_BLOCK) * list->size);
+	}
+
+      inx = list->last++;
+      list->blocks[inx].offset = block->offset;
+      list->blocks[inx].length = block->length;
+      list->blocks[inx].count  = block->count;
+    }
+
+  return status;
+
+ ERROR:
+  return eslEMEM;
+}
+
+/* mpi_master()
+ * The MPI version of hmmbuild.
+ * Follows standard pattern for a master/worker load-balanced MPI program (J1/78-79).
+ * 
+ * A master can only return if it's successful. 
+ * Errors in an MPI master come in two classes: recoverable and nonrecoverable.
+ * 
+ * Recoverable errors include all worker-side errors, and any
+ * master-side error that do not affect MPI communication. Error
+ * messages from recoverable messages are delayed until we've cleanly
+ * shut down the workers.
+ * 
+ * Unrecoverable errors are master-side errors that may affect MPI
+ * communication, meaning we cannot count on being able to reach the
+ * workers and shut them down. Unrecoverable errors result in immediate
+ * p7_Fail()'s, which will cause MPI to shut down the worker processes
+ * uncleanly.
+ */
+static int
+mpi_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;            /* results output file (-o)                        */
+  FILE            *afp      = NULL;              /* alignment output file (-A)                      */
+  FILE            *tblfp    = NULL;              /* output stream for tabular per-seq (--tblout)    */
+  FILE            *domtblfp = NULL;              /* output stream for tabular per-dom (--domtblout) */
+  FILE            *pfamtblfp= NULL;              /* output stream for pfam-style tabular output  (--pfamtblout) */
+  P7_BG           *bg       = NULL;	         /* null model                                      */
+  P7_HMMFILE      *hfp      = NULL;              /* open input HMM file                             */
+  ESL_SQFILE      *dbfp     = NULL;              /* open input sequence file                        */
+  P7_HMM          *hmm      = NULL;              /* one HMM query                                   */
+  ESL_SQ          *dbsq     = NULL;              /* one target sequence (digital)                   */
+  ESL_ALPHABET    *abc      = NULL;              /* digital alphabet                                */
+  int              dbfmt    = eslSQFILE_UNKNOWN; /* format code for sequence database file          */
+  ESL_STOPWATCH   *w;
+  int              textw    = 0;
+  int              nquery   = 0;
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              dest;
+
+  char            *mpi_buf  = NULL;              /* buffer used to pack/unpack structures */
+  int              mpi_size = 0;                 /* size of the allocated buffer */
+  BLOCK_LIST      *list     = NULL;
+  SEQ_BLOCK        block;
+
+  int              i;
+  int              size;
+  MPI_Status       mpistatus;
+  char             errbuf[eslERRBUFSIZE];
+
+  int              n_targets;
+
+  w = esl_stopwatch_Create();
+
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbfmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbfmt == eslSQFILE_UNKNOWN) mpi_failure("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  /* Open the target sequence database */
+  status = esl_sqfile_Open(cfg->dbfile, dbfmt, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",          cfg->dbfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",            cfg->dbfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening sequence file %s\n", status, cfg->dbfile);  
+
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")) {
+      if (esl_opt_IsUsed(go, "--ssifile"))
+        esl_sqfile_OpenSSI(dbfp, esl_opt_GetString(go, "--ssifile"));
+      else
+        esl_sqfile_OpenSSI(dbfp, NULL);
+  }
+
+
+  /* Open the query profile HMM file */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) mpi_failure("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   mpi_failure("File format problem in trying to open HMM file %s.\n%s\n",                cfg->hmmfile, errbuf);
+  else if (status != eslOK)        mpi_failure("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+
+  /* Open the results output files */
+  if (esl_opt_IsOn(go, "-o") && (ofp = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL)
+    mpi_failure("Failed to open output file %s for writing\n",    esl_opt_GetString(go, "-o"));
+
+  if (esl_opt_IsOn(go, "-A") && (afp = fopen(esl_opt_GetString(go, "-A"), "w")) == NULL) 
+    mpi_failure("Failed to open alignment file %s for writing\n", esl_opt_GetString(go, "-A"));
+
+  if (esl_opt_IsOn(go, "--tblout") && (tblfp = fopen(esl_opt_GetString(go, "--tblout"), "w")) == NULL)
+    mpi_failure("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblout"));
+
+  if (esl_opt_IsOn(go, "--domtblout") && (domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)
+    mpi_failure("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblout"));
+
+  if (esl_opt_IsOn(go, "--pfamtblout") && (pfamtblfp = fopen(esl_opt_GetString(go, "--pfamtblout"), "w")) == NULL)
+    mpi_failure("Failed to open pfam-style tabular output file %s for writing\n", esl_opt_GetString(go, "--pfamtblout"));
+
+  ESL_ALLOC(list, sizeof(BLOCK_LIST));
+  list->complete = 0;
+  list->size     = 0;
+  list->current  = 0;
+  list->last     = 0;
+  list->blocks   = NULL;
+
+  /* <abc> is not known 'til first HMM is read. */
+  hstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if (hstatus == eslOK)
+    {
+      /* One-time initializations after alphabet <abc> becomes known */
+      output_header(ofp, go, cfg->hmmfile, cfg->dbfile);
+      dbsq = esl_sq_CreateDigital(abc);
+      bg = p7_bg_Create(abc);
+    }
+  
+
+  if ( cfg->firstseq_key != NULL ) { //it's tempting to want to do this once and capture the offset position for future passes, but ncbi files make this non-trivial, so this keeps it general
+    sstatus = esl_sqfile_PositionByKey(dbfp, cfg->firstseq_key);
+    if (sstatus != eslOK)
+      p7_Fail("Failure setting restrictdb_stkey to %d\n", cfg->firstseq_key);
+  }
+
+  /* Outer loop: over each query HMM in <hmmfile>. */
+  while (hstatus == eslOK) 
+    {
+      P7_PROFILE      *gm      = NULL;
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+      P7_PIPELINE     *pli     = NULL;
+      P7_TOPHITS      *th      = NULL;
+      int              seq_cnt = 0;
+      nquery++;
+      esl_stopwatch_Start(w);
+
+      n_targets = cfg->n_targetseq;
+
+      /* seqfile may need to be rewound (multiquery mode) */
+      if (nquery > 1)   list->current = 0;
+
+      if (fprintf(ofp, "Query:       %s  [M=%d]\n", hmm->name, hmm->M)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (hmm->acc)  { if (fprintf(ofp, "Accession:   %s\n", hmm->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+      if (hmm->desc) { if (fprintf(ofp, "Description: %s\n", hmm->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+      /* Convert to an optimized model */
+      gm = p7_profile_Create (hmm->M, abc);
+      om = p7_oprofile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 100, p7_LOCAL);
+      p7_oprofile_Convert(gm, om);
+
+      /* Create processing pipeline and hit list */
+      th  = p7_tophits_Create(); 
+      pli = p7_pipeline_Create(go, hmm->M, 100, FALSE, p7_SEARCH_SEQS);
+      p7_pli_NewModel(pli, om, bg);
+
+      /* Main loop: */
+      while ((n_targets==-1 || seq_cnt<=n_targets) && (sstatus = next_block(dbfp, dbsq, list, &block, n_targets-seq_cnt)) == eslOK )
+      {
+        seq_cnt += block.count;
+
+        if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0)
+          mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+        MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+        if (mpi_buf == NULL || size > mpi_size) {
+          void *tmp;
+          ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+          mpi_size = size;
+        }
+
+        dest = mpistatus.MPI_SOURCE;
+        MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+        if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+          mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+        if (mpistatus.MPI_TAG != HMMER_READY_TAG)
+          mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+
+        MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+      }
+
+      if (n_targets!=-1 && seq_cnt==n_targets)
+        sstatus = eslEOF;
+
+      switch(sstatus)
+      {
+      case eslEFORMAT:
+        mpi_failure("Parse failed (sequence file %s):\n%s\n", dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+        break;
+      case eslEOF:
+        break;
+      default:
+        mpi_failure("Unexpected error %d reading sequence file %s", sstatus, dbfp->filename);
+      }
+
+      block.offset = 0;
+      block.length = 0;
+      block.count  = 0;
+
+      /* wait for all workers to finish up their work blocks */
+      for (i = 1; i < cfg->nproc; ++i)
+	{
+	  if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	    mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+	  MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+	  if (mpi_buf == NULL || size > mpi_size) {
+	    void *tmp;
+	    ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	    mpi_size = size; 
+	  }
+
+	  dest = mpistatus.MPI_SOURCE;
+	  MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+	  if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	    mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+	  if (mpistatus.MPI_TAG != HMMER_READY_TAG)
+	    mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+	}
+
+      /* merge the results of the search results */
+      for (dest = 1; dest < cfg->nproc; ++dest)
+	{
+	  P7_PIPELINE     *mpi_pli   = NULL;
+	  P7_TOPHITS      *mpi_th    = NULL;
+
+	  /* send an empty block to signal the worker they are done */
+	  MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+
+	  /* wait for the results */
+	  if ((status = p7_tophits_MPIRecv(dest, HMMER_TOPHITS_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, &mpi_th)) != eslOK)
+	    mpi_failure("Unexpected error %d receiving tophits from %d", status, dest);
+
+	  if ((status = p7_pipeline_MPIRecv(dest, HMMER_PIPELINE_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, go, &mpi_pli)) != eslOK)
+	    mpi_failure("Unexpected error %d receiving pipeline from %d", status, dest);
+
+	  p7_tophits_Merge(th, mpi_th);
+	  p7_pipeline_Merge(pli, mpi_pli);
+
+	  p7_pipeline_Destroy(mpi_pli);
+	  p7_tophits_Destroy(mpi_th);
+	}
+
+      /* Print the results.  */
+      p7_tophits_SortBySortkey(th);
+      p7_tophits_Threshold(th, pli);
+      p7_tophits_Targets(ofp, th, pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, th, pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      if (tblfp)    p7_tophits_TabularTargets(tblfp,    hmm->name, hmm->acc, th, pli, (nquery == 1));
+      if (domtblfp) p7_tophits_TabularDomains(domtblfp, hmm->name, hmm->acc, th, pli, (nquery == 1));
+      if (pfamtblfp) p7_tophits_TabularXfam(pfamtblfp, hmm->name, hmm->acc, th, pli);
+
+      esl_stopwatch_Stop(w);
+      p7_pli_Statistics(ofp, pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      /* Output the results in an MSA (-A option) */
+      if (afp) {
+	ESL_MSA *msa = NULL;
+
+	if (p7_tophits_Alignment(th, abc, NULL, NULL, 0, p7_ALL_CONSENSUS_COLS, &msa) == eslOK)
+	  {
+	    if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+	    else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+	  
+	    if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  } 
+	else { if (fprintf(ofp, "# No hits satisfy inclusion thresholds; no alignment saved\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+	  
+	esl_msa_Destroy(msa);
+      }
+
+      p7_pipeline_Destroy(pli);
+      p7_tophits_Destroy(th);
+      p7_hmm_Destroy(hmm);
+
+      hstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+    } /* end outer loop over query HMMs */
+
+  switch(hstatus) {
+  case eslEOD:       mpi_failure("read failed, HMM file %s may be truncated?", cfg->hmmfile);      break;
+  case eslEFORMAT:   mpi_failure("bad file format in HMM file %s",             cfg->hmmfile);      break;
+  case eslEINCOMPAT: mpi_failure("HMM file %s contains different alphabets",   cfg->hmmfile);      break;
+  case eslEOF:       /* EOF is good, that's what we expect here */                                 break;
+  default:           mpi_failure("Unexpected error (%d) in reading HMMs from %s", hstatus, cfg->hmmfile);
+  }
+
+  /* monitor all the workers to make sure they have ended */
+  for (i = 1; i < cfg->nproc; ++i)
+    {
+      if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+      MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+      if (mpi_buf == NULL || size > mpi_size) {
+	void *tmp;
+	ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	mpi_size = size; 
+      }
+
+      dest = mpistatus.MPI_SOURCE;
+      MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+      if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+      if (mpistatus.MPI_TAG != HMMER_TERMINATING_TAG)
+	mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+    }
+
+  /* Terminate outputs... any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,     "hmmsearch", p7_SEARCH_SEQS, cfg->hmmfile, cfg->dbfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp,  "hmmsearch", p7_SEARCH_SEQS, cfg->hmmfile, cfg->dbfile, go);
+  if (pfamtblfp)p7_tophits_TabularTail(pfamtblfp, "hmmsearch", p7_SEARCH_SEQS, cfg->hmmfile, cfg->dbfile, go);
+  if (ofp)     { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for exit
+   */
+  free(list);
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_hmmfile_Close(hfp);
+  esl_sqfile_Close(dbfp);
+
+  p7_bg_Destroy(bg);
+  esl_sq_Destroy(dbsq);
+  esl_stopwatch_Destroy(w);
+
+  if (ofp != stdout) fclose(ofp);
+  if (afp)           fclose(afp);
+  if (tblfp)         fclose(tblfp);
+  if (domtblfp)      fclose(domtblfp);
+  if (pfamtblfp)     fclose(pfamtblfp);
+
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+static int
+mpi_worker(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  P7_HMM          *hmm      = NULL;              /* one HMM query                                   */
+  ESL_SQ          *dbsq     = NULL;              /* one target sequence (digital)                   */
+  ESL_ALPHABET    *abc      = NULL;              /* digital alphabet                                */
+  P7_BG           *bg       = NULL;	         /* null model                                      */
+  P7_HMMFILE      *hfp      = NULL;              /* open input HMM file                             */
+  ESL_SQFILE      *dbfp     = NULL;              /* open input sequence file                        */
+  int              dbfmt    = eslSQFILE_UNKNOWN; /* format code for sequence database file          */
+  ESL_STOPWATCH   *w;
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+
+  char            *mpi_buf  = NULL;              /* buffer used to pack/unpack structures           */
+  int              mpi_size = 0;                 /* size of the allocated buffer                    */
+
+  MPI_Status       mpistatus;
+  char             errbuf[eslERRBUFSIZE];
+
+  w = esl_stopwatch_Create();
+
+  /* Open the target sequence database */
+  status = esl_sqfile_Open(cfg->dbfile, dbfmt, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",          cfg->dbfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",            cfg->dbfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening sequence file %s\n", status, cfg->dbfile);  
+
+  /* Open the query profile HMM file */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) mpi_failure("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   mpi_failure("File format problem in trying to open HMM file %s.\n%s\n",                cfg->hmmfile, errbuf);
+  else if (status != eslOK)        mpi_failure("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+
+  /* <abc> is not known 'til first HMM is read. */
+  hstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if (hstatus == eslOK)
+    {
+      /* One-time initializations after alphabet <abc> becomes known */
+      dbsq = esl_sq_CreateDigital(abc);
+      bg = p7_bg_Create(abc);
+      esl_sqfile_SetDigital(dbfp, abc);
+    }
+  
+  /* Outer loop: over each query HMM in <hmmfile>. */
+  while (hstatus == eslOK) 
+    {
+      P7_PROFILE      *gm      = NULL;
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+      P7_PIPELINE     *pli     = NULL;
+      P7_TOPHITS      *th      = NULL;
+
+      SEQ_BLOCK        block;
+
+      esl_stopwatch_Start(w);
+
+      status = 0;
+      MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+      /* Convert to an optimized model */
+      gm = p7_profile_Create (hmm->M, abc);
+      om = p7_oprofile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 100, p7_LOCAL);
+      p7_oprofile_Convert(gm, om);
+
+      th  = p7_tophits_Create(); 
+      pli = p7_pipeline_Create(go, om->M, 100, FALSE, p7_SEARCH_SEQS); /* L_hint = 100 is just a dummy for now */
+      p7_pli_NewModel(pli, om, bg);
+
+      /* receive a sequence block from the master */
+      MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+      while (block.count > 0)
+	{
+	  uint64_t length = 0;
+	  uint64_t count  = block.count;
+
+	  status = esl_sqfile_Position(dbfp, block.offset);
+	  if (status != eslOK) mpi_failure("Cannot position sequence database to %ld\n", block.offset);
+
+	  while (count > 0 && (sstatus = esl_sqio_Read(dbfp, dbsq)) == eslOK)
+	    {
+	      length = dbsq->eoff - block.offset + 1;
+
+	      p7_pli_NewSeq(pli, dbsq);
+	      p7_bg_SetLength(bg, dbsq->n);
+	      p7_oprofile_ReconfigLength(om, dbsq->n);
+      
+	      p7_Pipeline(pli, om, bg, dbsq, th);
+
+	      esl_sq_Reuse(dbsq);
+	      p7_pipeline_Reuse(pli);
+
+	      --count;
+	    }
+
+	  /* lets do a little bit of sanity checking here to make sure the blocks are the same */
+	  if (count > 0)              mpi_failure("Block count mismatch - expected %ld found %ld at offset %ld\n",  block.count,  block.count - count, block.offset);
+	  if (block.length != length) mpi_failure("Block length mismatch - expected %ld found %ld at offset %ld\n", block.length, length,              block.offset);
+
+	  /* inform the master we need another block of sequences */
+	  status = 0;
+	  MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+	  /* wait for the next block of sequences */
+	  MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+	}
+
+      esl_stopwatch_Stop(w);
+
+      /* Send the top hits back to the master. */
+      p7_tophits_MPISend(th, 0, HMMER_TOPHITS_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+      p7_pipeline_MPISend(pli, 0, HMMER_PIPELINE_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+
+      p7_pipeline_Destroy(pli);
+      p7_tophits_Destroy(th);
+      p7_oprofile_Destroy(om);
+      p7_profile_Destroy(gm);
+      p7_hmm_Destroy(hmm);
+
+      hstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+    } /* end outer loop over query HMMs */
+
+  switch(hstatus)
+    {
+    case eslEOF:
+      /* do nothing */
+      break;
+    case eslEFORMAT:
+      mpi_failure("bad file format in HMM file %s", cfg->hmmfile);
+      break;
+    case eslEINCOMPAT:
+      mpi_failure("HMM file %s contains different alphabets", cfg->hmmfile);
+      break;
+    default:
+      mpi_failure("Unexpected error (%d) in reading HMMs from %s", hstatus, cfg->hmmfile);
+    }
+
+  status = 0;
+  MPI_Send(&status, 1, MPI_INT, 0, HMMER_TERMINATING_TAG, MPI_COMM_WORLD);
+
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_hmmfile_Close(hfp);
+  esl_sqfile_Close(dbfp);
+
+  p7_bg_Destroy(bg);
+  esl_sq_Destroy(dbsq);
+  esl_stopwatch_Destroy(w);
+
+  return eslOK;
+}
+#endif /*HAVE_MPI*/
+
+static int
+serial_loop(WORKER_INFO *info, ESL_SQFILE *dbfp, int n_targetseqs)
+{
+  int      sstatus;
+  ESL_SQ   *dbsq     = NULL;   /* one target sequence (digital)  */
+  int seq_cnt = 0;
+
+  dbsq = esl_sq_CreateDigital(info->om->abc);
+
+  /* Main loop: */
+  while ( (n_targetseqs==-1 || seq_cnt<n_targetseqs) &&  (sstatus = esl_sqio_Read(dbfp, dbsq)) == eslOK)
+  {
+      p7_pli_NewSeq(info->pli, dbsq);
+      p7_bg_SetLength(info->bg, dbsq->n);
+      p7_oprofile_ReconfigLength(info->om, dbsq->n);
+      
+      p7_Pipeline(info->pli, info->om, info->bg, dbsq, info->th);
+
+      seq_cnt++;
+      esl_sq_Reuse(dbsq);
+      p7_pipeline_Reuse(info->pli);
+  }
+
+  if (n_targetseqs!=-1 && seq_cnt==n_targetseqs)
+    sstatus = eslEOF;
+
+  esl_sq_Destroy(dbsq);
+
+  return sstatus;
+}
+
+#ifdef HMMER_THREADS
+static int
+thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp, int n_targetseqs)
+{
+  int  status  = eslOK;
+  int  sstatus = eslOK;
+  int  eofCount = 0;
+  ESL_SQ_BLOCK *block;
+  void         *newBlock;
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+      
+  /* Main loop: */
+  while (sstatus == eslOK )
+    {
+      block = (ESL_SQ_BLOCK *) newBlock;
+
+      if (n_targetseqs == 0)
+      {
+        block->count = 0;
+        sstatus = eslEOF;
+      } else {
+        sstatus = esl_sqio_ReadBlock(dbfp, block, -1, n_targetseqs, FALSE);
+        n_targetseqs -= block->count;
+      }
+
+      if (sstatus == eslEOF)
+      {
+        if (eofCount < esl_threads_GetWorkerCount(obj)) sstatus = eslOK;
+        ++eofCount;
+      }
+
+      if (sstatus == eslOK)
+      {
+        status = esl_workqueue_ReaderUpdate(queue, block, &newBlock);
+        if (status != eslOK) esl_fatal("Work queue reader failed");
+      }
+    }
+
+  status = esl_workqueue_ReaderUpdate(queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+
+  if (sstatus == eslEOF)
+    {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+    }
+
+  return sstatus;
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int i;
+  int status;
+  int workeridx;
+  WORKER_INFO   *info;
+  ESL_THREADS   *obj;
+
+  ESL_SQ_BLOCK  *block = NULL;
+  void          *newBlock;
+  
+  impl_Init();
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  /* loop until all blocks have been processed */
+  block = (ESL_SQ_BLOCK *) newBlock;
+  while (block->count > 0)
+    {
+      /* Main loop: */
+      for (i = 0; i < block->count; ++i)
+	{
+	  ESL_SQ *dbsq = block->list + i;
+
+	  p7_pli_NewSeq(info->pli, dbsq);
+	  p7_bg_SetLength(info->bg, dbsq->n);
+	  p7_oprofile_ReconfigLength(info->om, dbsq->n);
+	  
+	  p7_Pipeline(info->pli, info->om, info->bg, dbsq, info->th);
+	  
+	  esl_sq_Reuse(dbsq);
+	  p7_pipeline_Reuse(info->pli);
+	}
+
+      status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
+      if (status != eslOK) esl_fatal("Work queue worker failed");
+
+      block = (ESL_SQ_BLOCK *) newBlock;
+    }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+#endif   /* HMMER_THREADS */
+ 
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmsearch.c $
+ * SVN $Id: hmmsearch.c 3572 2011-06-20 18:06:12Z wheelert $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmsim.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmsim.c
new file mode 100755
index 0000000..eb35e0a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmsim.c
@@ -0,0 +1,975 @@
+/* hmmsim: scoring profile HMMs against simulated sequences.
+ * 
+ * Main testbed for exploring the statistical behavior of HMMER3
+ * scores on random sequences.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <math.h>
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#endif 
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_stats.h"
+#include "esl_exponential.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_histogram.h"
+#include "esl_mpi.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_ratematrix.h"
+#include "esl_stopwatch.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+#define ALGORITHMS "--fwd,--vit,--hyb,--msv"           /* Exclusive choice for scoring algorithms */
+#define STYLES     "--fs,--sw,--ls,--s"	               /* Exclusive choice for alignment mode     */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles   reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "show brief help on version and usage",              1 },
+  { "-a",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,"--vit",NULL, "obtain alignment length statistics too",            1 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "verbose: print scores",                             1 },
+  { "-L",        eslARG_INT,    "100", NULL, "n>0",     NULL,  NULL, NULL, "length of random target seqs",                      1 },
+  { "-N",        eslARG_INT,   "1000", NULL, "n>0",     NULL,  NULL, NULL, "number of random target seqs",                      1 },
+#ifdef HAVE_MPI
+  { "--mpi",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "run as an MPI parallel program",                    1 },
+#endif
+  { "-o",        eslARG_OUTFILE, NULL, NULL, NULL,      NULL,  NULL, NULL, "direct output to file <f>, not stdout",             2 },
+  { "--afile",   eslARG_OUTFILE, NULL, NULL, NULL,      NULL, "-a",  NULL, "output alignment lengths to file <f>",              2 },
+  { "--efile",   eslARG_OUTFILE, NULL, NULL, NULL,      NULL,  NULL, NULL, "output E vs. E plots to <f> in xy format",          2 },
+  { "--ffile",   eslARG_OUTFILE, NULL, NULL, NULL,      NULL,  NULL, NULL, "output filter fraction: # seqs passing P thresh",   2 },
+  { "--pfile",   eslARG_OUTFILE, NULL, NULL, NULL,      NULL,  NULL, NULL, "output P(S>x) plots to <f> in xy format",           2 },
+  { "--xfile",   eslARG_OUTFILE, NULL, NULL, NULL,      NULL,  NULL, NULL, "output bitscores as binary double vector to <f>",   2 },
+
+  { "--fs",      eslARG_NONE,"default",NULL, NULL,    STYLES,  NULL, NULL, "multihit local alignment",                          3 },
+  { "--sw",      eslARG_NONE,   FALSE, NULL, NULL,    STYLES,  NULL, NULL, "unihit local alignment",                            3 },
+  { "--ls",      eslARG_NONE,   FALSE, NULL, NULL,    STYLES,  NULL, NULL, "multihit glocal alignment",                         3 },
+  { "--s",       eslARG_NONE,   FALSE, NULL, NULL,    STYLES,  NULL, NULL, "unihit glocal alignment",                           3 },
+
+  { "--vit",     eslARG_NONE,"default",NULL, NULL, ALGORITHMS, NULL, NULL, "score seqs with the Viterbi algorithm",             4 },
+  { "--fwd",     eslARG_NONE,   FALSE, NULL, NULL, ALGORITHMS, NULL, NULL, "score seqs with the Forward algorithm",             4 },
+  { "--hyb",     eslARG_NONE,   FALSE, NULL, NULL, ALGORITHMS, NULL, NULL, "score seqs with the Hybrid algorithm",              4 },
+  { "--msv",     eslARG_NONE,   FALSE, NULL, NULL, ALGORITHMS, NULL, NULL, "score seqs with the MSV algorithm",                 4 },
+  { "--fast",    eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "use the optimized versions of the above",           4 },
+
+  { "--tmin",    eslARG_REAL,  "0.02", NULL, NULL,      NULL,  NULL, NULL, "set lower bound tail mass for fwd,island",          5 },
+  { "--tmax",    eslARG_REAL,  "0.02", NULL, NULL,      NULL,  NULL, NULL, "set lower bound tail mass for fwd,island",          5 },
+  { "--tpoints", eslARG_INT,      "1", NULL, NULL,      NULL,  NULL, NULL, "set number of tail probs to try",                   5 },
+  { "--tlinear", eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "use linear not log spacing of tail probs",          5 },
+
+  { "--EmL",    eslARG_INT,     "200", NULL, "n>0",     NULL,  NULL, NULL, "length of sequences for MSV Gumbel mu fit",         6 },   
+  { "--EmN",    eslARG_INT,     "200", NULL, "n>0",     NULL,  NULL, NULL, "number of sequences for MSV Gumbel mu fit",         6 },   
+  { "--EvL",    eslARG_INT,     "200", NULL, "n>0",     NULL,  NULL, NULL, "length of sequences for Viterbi Gumbel mu fit",     6 },   
+  { "--EvN",    eslARG_INT,     "200", NULL, "n>0",     NULL,  NULL, NULL, "number of sequences for Viterbi Gumbel mu fit",     6 },   
+  { "--EfL",    eslARG_INT,     "100", NULL, "n>0",     NULL,  NULL, NULL, "length of sequences for Forward exp tail tau fit",  6 },   
+  { "--EfN",    eslARG_INT,     "200", NULL, "n>0",     NULL,  NULL, NULL, "number of sequences for Forward exp tail tau fit",  6 },   
+  { "--Eft",    eslARG_REAL,   "0.04", NULL, "0<x<1",   NULL,  NULL, NULL, "tail mass for Forward exponential tail tau fit",    6 },   
+
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "arrest after start: for debugging MPI under gdb",   7 },  
+  { "--seed",    eslARG_INT,      "0", NULL, NULL,      NULL,  NULL, NULL, "set random number seed to <n>",                     7 },  
+
+  { "--bgflat",  eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "set uniform background frequencies",                8 },  
+  { "--bgcomp",  eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "set bg frequencies to model's average composition", 8 },
+  { "--x-no-lengthmodel", eslARG_NONE, FALSE,NULL,NULL, NULL,  NULL, NULL, "turn the H3 length model off",                      8 },
+  { "--nu",      eslARG_REAL,   "2.0", NULL, NULL,     NULL,"--msv","--fast", "set nu parameter (# expected HSPs) for GMSV",    8 },  
+  { "--pthresh", eslARG_REAL,   "0.02",NULL, NULL,     NULL,"--ffile", NULL, "set P-value threshold for --ffile",               8 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "collect profile HMM score distributions on random sequences";
+
+
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes.
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  /* Shared configuration in masters & workers */
+  char           *hmmfile;	/* name of input HMM file  */ 
+  ESL_RANDOMNESS *r;		/* randomness source       */
+  ESL_ALPHABET   *abc;		/* alphabet type, eslAMINO */
+  P7_BG          *bg;		/* background model        */
+  int             my_rank;	/* 0 in masters, >0 in workers     */
+  int             nproc;	/* 1 in serial mode, >1 in MPI     */
+  int             do_mpi;	/* TRUE if we're --mpi             */
+  int             do_stall;	/* TRUE to stall for MPI debugging */
+  int             N;		/* number of simulated seqs per HMM */
+  int             L;		/* length of simulated seqs */
+
+  /* Masters only (i/o streams) */
+  P7_HMMFILE     *hfp;		/* open input HMM file stream */
+  FILE           *ofp;		/* output file for results (default is stdout) */
+  FILE           *survfp;	/* optional output for survival plots */
+  FILE           *efp;		/* optional output for E vs. E plots */
+  FILE           *ffp;		/* optional output for filter power data */
+  FILE           *xfp;		/* optional output for binary score vectors */
+  FILE           *alfp;		/* optional output for alignment lengths */
+};
+
+
+static int  init_master_cfg(ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf);
+
+static void serial_master  (ESL_GETOPTS *go, struct cfg_s *cfg);
+#ifdef HAVE_MPI
+static void mpi_master     (ESL_GETOPTS *go, struct cfg_s *cfg);
+static void mpi_worker     (ESL_GETOPTS *go, struct cfg_s *cfg);
+#endif 
+static int process_workunit   (ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf, P7_HMM *hmm, double *scores, int *alilens, double *ret_mu, double *ret_lambda);
+static int output_result      (ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf, P7_HMM *hmm, double *scores, int *alilens, double mu, double lambda);
+static int output_filter_power(ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf, P7_HMM *hmm, double *scores, double mu, double lambda);
+
+#ifdef HAVE_MPI
+static int minimum_mpi_working_buffer(ESL_GETOPTS *go, int N, int *ret_wn);
+#endif 
+
+static int elide_length_model(P7_PROFILE *gm, P7_BG *bg);
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go	   = NULL;   
+  ESL_STOPWATCH   *w       = esl_stopwatch_Create();
+  struct cfg_s     cfg;
+
+
+  /* Process command line options.
+   */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK || 
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      puts("\nCommon options:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1=docgroup, 2 = indentation; 80=textwidth*/
+      puts("\nOutput options (only in serial mode, for single HMM input):");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+      puts("\nAlternative alignment styles :");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80);
+      puts("\nAlternative scoring algorithms :");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80);
+      puts("\nControlling range of fitted tail masses :");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80);
+      puts("\nControlling E-value calibration :");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80);
+      puts("\nDebugging :");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80);
+      puts("\nExperiments :");
+      esl_opt_DisplayHelp(stdout, go, 8, 2, 80);
+      exit(0);
+    }
+  if (esl_opt_ArgNumber(go) != 1) 
+    {
+      puts("Incorrect number of command line arguments.");
+      esl_usage(stdout, argv[0], usage);
+      puts("\nwhere general options are:");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1=docgroup, 2 = indentation; 80=textwidth*/
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+
+  /* Initialize configuration shared across all kinds of masters
+   * and workers in this .c file.
+   */
+  cfg.hmmfile  = esl_opt_GetArg(go, 1);
+  cfg.r        = esl_randomness_Create(esl_opt_GetInteger(go, "--seed"));
+  //cfg.abc      = esl_alphabet_Create(eslAMINO);
+
+  cfg.my_rank  = 0;		/* MPI init will change this soon, if --mpi was set */
+  cfg.nproc    = 0;		/* MPI init will change this soon, if --mpi was set */
+  cfg.do_mpi   = FALSE;		/* --mpi will change this soon (below) if necessary */
+  cfg.do_stall = esl_opt_GetBoolean(go, "--stall");
+  cfg.N        = esl_opt_GetInteger(go, "-N");
+  cfg.L        = esl_opt_GetInteger(go, "-L");
+  cfg.hfp      = NULL;
+  cfg.ofp      = NULL;
+  cfg.survfp   = NULL;
+  cfg.efp      = NULL;
+  cfg.ffp      = NULL;
+  cfg.xfp      = NULL;
+  cfg.alfp     = NULL;
+  cfg.bg       = NULL;
+
+  /* This is our stall point, if we need to wait until we get a
+   * debugger attached to this process for debugging (especially
+   * useful for MPI):
+   */
+  while (cfg.do_stall); 
+
+
+  /* Start timing. */
+  esl_stopwatch_Start(w);
+
+
+  /* Main body:
+   * Handed off to serial version or MPI masters and workers as appropriate.
+   */
+#ifdef HAVE_MPI
+  if (esl_opt_GetBoolean(go, "--mpi")) 
+    {
+      /* Initialize MPI, figure out who we are, and whether we're running
+       * this show (proc 0) or working in it (procs >0).
+       */
+      cfg.do_mpi = TRUE;
+      MPI_Init(&argc, &argv);
+      MPI_Comm_rank(MPI_COMM_WORLD, &(cfg.my_rank));
+      MPI_Comm_size(MPI_COMM_WORLD, &(cfg.nproc));
+      if (cfg.my_rank == 0 && cfg.nproc < 2) p7_Fail("Need at least 2 MPI processes to run --mpi mode.");
+
+      if (cfg.my_rank > 0)   mpi_worker(go, &cfg);
+      else                   mpi_master(go, &cfg);
+
+      esl_stopwatch_Stop(w);
+      esl_stopwatch_MPIReduce(w, 0, MPI_COMM_WORLD);
+      MPI_Finalize();		/* both workers and masters reach this line */
+    }
+  else
+#endif /*HAVE_MPI*/
+    {		
+      /* No MPI? Then we're just the serial master. */
+      serial_master(go, &cfg);
+      esl_stopwatch_Stop(w);
+    }      
+
+  /* Stop timing. */
+  if (cfg.my_rank == 0) esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  /* Clean up and exit. */
+  if (cfg.my_rank == 0) {
+    if (cfg.hfp    != NULL)      p7_hmmfile_Close(cfg.hfp);
+    if (esl_opt_IsOn(go, "-o"))  fclose(cfg.ofp); 
+    if (cfg.survfp != NULL)      fclose(cfg.survfp);
+    if (cfg.efp    != NULL)      fclose(cfg.efp);
+    if (cfg.ffp    != NULL)      fclose(cfg.ffp);
+    if (cfg.xfp    != NULL)      fclose(cfg.xfp);
+    if (cfg.alfp   != NULL)      fclose(cfg.alfp);
+  }
+  p7_bg_Destroy(cfg.bg);
+  esl_alphabet_Destroy(cfg.abc);
+  esl_randomness_Destroy(cfg.r);
+  esl_getopts_Destroy(go);
+  esl_stopwatch_Destroy(w);
+  return eslOK;
+}
+
+/* init_master_cfg()
+ * Called by either master version, mpi or serial.
+ * Already set:
+ *    cfg->hmmfile - command line arg 
+ * Sets:
+ *    cfg->hfp     - open HMM stream
+ *    cfg->ofp     - open output steam
+ *    cfg->survfp  - open xmgrace survival plot file 
+ *    cfg->efp     - open E vs. E plot file
+ *    cfg->ffp     - open filter power data file
+ *    cfg->xfp     - open binary score file
+ *    cfg->alfp    - open alignment length file
+ *
+ * Error handling relies on the result pointers being initialized to
+ * NULL by the caller.
+ *                   
+ * Errors in the MPI master here are considered to be "recoverable",
+ * in the sense that we'll try to delay output of the error message
+ * until we've cleanly shut down the worker processes. Therefore
+ * errors return (code, errmsg) by the ESL_FAIL mech.
+ */
+static int
+init_master_cfg(ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf)
+{
+  char *filename;
+  int   status;
+
+  status = p7_hmmfile_OpenE(cfg->hmmfile, NULL, &(cfg->hfp), NULL);
+  if      (status == eslENOTFOUND) ESL_FAIL(eslFAIL, errbuf, "Failed to open HMM file %s for reading.\n",                   cfg->hmmfile);
+  else if (status == eslEFORMAT)   ESL_FAIL(eslFAIL, errbuf, "File %s does not appear to be in a recognized HMM format.\n", cfg->hmmfile);
+  else if (status != eslOK)        ESL_FAIL(eslFAIL, errbuf, "Unexpected error %d in opening HMM file %s.\n",       status, cfg->hmmfile);  
+
+  filename = esl_opt_GetString(go, "-o");
+  if (filename != NULL) 
+    {
+      if ((cfg->ofp = fopen(filename, "w")) == NULL) 
+	ESL_FAIL(eslFAIL, errbuf, "Failed to open -o output file %s\n", filename);
+    } 
+  else cfg->ofp = stdout;
+
+  filename = esl_opt_GetString(go, "--pfile");
+  if (filename != NULL) 
+    {
+      if ((cfg->survfp = fopen(filename, "w")) == NULL) 
+	ESL_FAIL(eslFAIL, errbuf, "Failed to open --pfile output file %s\n", filename);
+    }
+
+  filename = esl_opt_GetString(go, "--efile");
+  if (filename != NULL) 
+    {
+      if ((cfg->efp = fopen(filename, "w")) == NULL) 
+	ESL_FAIL(eslFAIL, errbuf, "Failed to open --efile output file %s\n", filename);
+    }
+
+  filename = esl_opt_GetString(go, "--ffile");
+  if (filename != NULL) 
+    {
+      if ((cfg->ffp = fopen(filename, "w")) == NULL) 
+	ESL_FAIL(eslFAIL, errbuf, "Failed to open --ffile output file %s\n", filename);
+    }
+
+  filename = esl_opt_GetString(go, "--xfile");
+  if (filename != NULL) 
+    {
+      if ((cfg->xfp = fopen(filename, "w")) == NULL) 
+	ESL_FAIL(eslFAIL, errbuf, "Failed to open --xfile output file %s\n", filename);
+    }
+
+  filename = esl_opt_GetString(go, "--afile");
+  if (filename != NULL) 
+    {
+      if ((cfg->alfp = fopen(filename, "w")) == NULL) 
+	ESL_FAIL(eslFAIL, errbuf, "Failed to open --afile output file %s\n", filename);
+    }
+
+  return eslOK;
+}
+
+
+
+
+static void
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  P7_HMM     *hmm = NULL;     
+  double     *xv  = NULL;	/* results: array of N scores */
+  int        *av  = NULL;	/* optional results: array of N alignment lengths */
+  double      mu, lambda;
+  char        errbuf[eslERRBUFSIZE];
+  int         status;
+
+
+  if ((status = init_master_cfg(go, cfg, errbuf)) != eslOK) p7_Fail(errbuf);
+  if ((xv = malloc(sizeof(double) * cfg->N)) == NULL)       p7_Fail("allocation failed");
+  if (esl_opt_GetBoolean(go, "-a") && 
+      (av = malloc(sizeof(int)    * cfg->N)) == NULL)       p7_Fail("allocation failed");
+
+  while ((status = p7_hmmfile_Read(cfg->hfp, &(cfg->abc), &hmm)) != eslEOF) 
+  {
+      if      (status == eslEOD)       p7_Fail("read failed, HMM file %s may be truncated?", cfg->hmmfile);
+      else if (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             cfg->hmmfile);
+      else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   cfg->hmmfile);
+      else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s",   cfg->hmmfile);
+
+      if (cfg->bg == NULL) {
+        if (esl_opt_GetBoolean(go, "--bgflat")) cfg->bg = p7_bg_CreateUniform(cfg->abc);
+        else                                    cfg->bg = p7_bg_Create(cfg->abc);
+        p7_bg_SetLength(cfg->bg, esl_opt_GetInteger(go, "-L"));  /* set the null model background length in both master and workers. */
+      }
+
+      if (process_workunit(go, cfg, errbuf, hmm, xv, av, &mu, &lambda) != eslOK) p7_Fail(errbuf);
+      if (output_result   (go, cfg, errbuf, hmm, xv, av,  mu,  lambda) != eslOK) p7_Fail(errbuf);
+
+      p7_hmm_Destroy(hmm);      
+    }
+  free(xv);
+  if (av != NULL) free(av);
+}
+
+
+#ifdef HAVE_MPI
+/* mpi_master()
+ * The MPI version of hmmsim.
+ * Follows standard pattern for a master/worker load-balanced MPI program (J1/78-79).
+ * 
+ * A master can only return if it's successful. 
+ * Errors in an MPI master come in two classes: recoverable and nonrecoverable.
+ * 
+ * Recoverable errors include all worker-side errors, and any
+ * master-side error that do not affect MPI communication. Error
+ * messages from recoverable messages are delayed until we've cleanly
+ * shut down the workers.
+ * 
+ * Unrecoverable errors are master-side errors that may affect MPI
+ * communication, meaning we cannot count on being able to reach the
+ * workers and shut them down. Unrecoverable errors result in immediate
+ * p7_Fail()'s, which will cause MPI to shut down the worker processes
+ * uncleanly.
+ */
+static void
+mpi_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int              xstatus       = eslOK; /* changes in the event of a recoverable error */
+  P7_HMM          *hmm           = NULL;  /* query HMM                                 */
+  P7_HMM         **hmmlist       = NULL;  /* queue of HMMs being worked on, 1..nproc-1 */
+  char            *wbuf          = NULL;  /* working buffer for sending packed profiles and receiving packed results. */
+  int              wn            = 0;
+  double          *xv            = NULL;  /* results: array of N scores */
+  int             *av            = NULL;  /* optional results: array of N alignment lengths */
+  int              have_work     = TRUE;
+  int              nproc_working = 0;
+  int              wi;
+  int              pos;
+  double           mu, lambda;
+  char             errbuf[eslERRBUFSIZE];
+  int              status;
+  MPI_Status       mpistatus;
+  
+
+  /* Master initialization. */
+  if (init_master_cfg(go, cfg, errbuf)            != eslOK) p7_Fail(errbuf);
+  if (minimum_mpi_working_buffer(go, cfg->N, &wn) != eslOK) p7_Fail("mpi pack sizes must have failed");
+  ESL_ALLOC(wbuf,    sizeof(char)     * wn);
+  ESL_ALLOC(xv,      sizeof(double)   * cfg->N);
+  if (esl_opt_GetBoolean(go, "-a"))
+    ESL_ALLOC(av,    sizeof(int)      * cfg->N);
+  ESL_ALLOC(hmmlist, sizeof(P7_HMM *) * cfg->nproc);
+  for (wi = 0; wi < cfg->nproc; wi++) hmmlist[wi] = NULL;
+
+  /* Standard design pattern for data parallelization in a master/worker model. (J1/78-79).  */
+  wi = 1;
+  while (have_work || nproc_working)
+    {
+      /* Get next work unit: one HMM, <hmm> */
+      if (have_work) 
+	{
+	  if ((status = p7_hmmfile_Read(cfg->hfp, &(cfg->abc), &hmm)) != eslOK) 
+	    {
+	      have_work = FALSE;
+	      if      (status == eslEOD)       { xstatus = status; sprintf(errbuf, "read failed, HMM file %s may be truncated?", cfg->hmmfile); }
+	      else if (status == eslEFORMAT)   { xstatus = status; sprintf(errbuf, "bad file format in HMM file %s",             cfg->hmmfile); }
+	      else if (status == eslEINCOMPAT) { xstatus = status; sprintf(errbuf, "HMM file %s contains different alphabets",   cfg->hmmfile); }
+	      else if (status != eslEOF)       { xstatus = status; sprintf(errbuf, "Unexpected error in reading HMMs from %s",   cfg->hmmfile); }
+
+	      if (cfg->bg == NULL) { // first time only
+          if (esl_opt_GetBoolean(go, "--bgflat")) cfg->bg = p7_bg_CreateUniform(cfg->abc);
+          else                                    cfg->bg = p7_bg_Create(cfg->abc);
+	      }
+	      //this next step is redundant, but it avoids a race condition above.
+        p7_bg_SetLength(cfg->bg, esl_opt_GetInteger(go, "-L"));  /* set the null model background length in both master and workers. */
+	    }
+	}
+
+      /* If we have work but no free workers, or we have no work but workers
+       * are still working, then wait for a result to return from any worker.
+       */
+      if ( (have_work && nproc_working == cfg->nproc-1) || (! have_work && nproc_working > 0))
+	{
+	  if (MPI_Recv(wbuf, wn, MPI_PACKED, MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &mpistatus) != 0) p7_Fail("mpi recv failed");
+	  wi = mpistatus.MPI_SOURCE;
+	  
+	  /* Check the xstatus before printing results.
+           * If we're in a recoverable error state, we're only clearing worker results, prior to a clean failure
+	   */
+	  if (xstatus == eslOK)	
+	    {
+	      pos = 0;
+	      if (MPI_Unpack(wbuf, wn, &pos, &xstatus, 1, MPI_INT, MPI_COMM_WORLD)     != 0)     p7_Fail("mpi unpack failed");
+	      if (xstatus == eslOK) /* worker reported success. Get the results. */
+		{
+		  if (MPI_Unpack(wbuf, wn, &pos, xv,     cfg->N, MPI_DOUBLE, MPI_COMM_WORLD) != 0)   p7_Fail("score vector unpack failed");
+		  if (esl_opt_GetBoolean(go, "-a") &&
+		      MPI_Unpack(wbuf, wn, &pos, av,     cfg->N, MPI_INT,    MPI_COMM_WORLD) != 0)   p7_Fail("alilen vector unpack failed");
+		  if (MPI_Unpack(wbuf, wn, &pos, &mu,         1, MPI_DOUBLE, MPI_COMM_WORLD) != 0)   p7_Fail("mu param unpack failed");
+		  if (MPI_Unpack(wbuf, wn, &pos, &lambda,     1, MPI_DOUBLE, MPI_COMM_WORLD) != 0)   p7_Fail("lambda param unpack failed");
+		  if ((status = output_result(go, cfg, errbuf, hmmlist[wi], xv, av, mu, lambda))  != eslOK) xstatus = status;
+		}
+	      else	/* worker reported a user error. Get the errbuf. */
+		{
+		  if (MPI_Unpack(wbuf, wn, &pos, errbuf, eslERRBUFSIZE, MPI_CHAR, MPI_COMM_WORLD) != 0) p7_Fail("mpi unpack of errbuf failed");
+		  have_work = FALSE;
+		  p7_hmm_Destroy(hmm);
+		}
+	    }
+	  p7_hmm_Destroy(hmmlist[wi]);
+	  hmmlist[wi] = NULL;
+	  nproc_working--;
+	}
+	
+      /* If we have work, assign it to a free worker; else, terminate the free worker. */
+      if (have_work) 
+	{
+	  p7_hmm_MPISend(hmm, wi, 0, MPI_COMM_WORLD, &wbuf, &wn);
+	  hmmlist[wi] = hmm;
+	  wi++;
+	  nproc_working++;
+	}
+    }
+
+  /* Tell all the workers (1..nproc-1) to shut down by sending them a NULL workunit. */
+  for (wi = 1; wi < cfg->nproc; wi++)
+    if (p7_hmm_MPISend(NULL, wi, 0, MPI_COMM_WORLD, &wbuf, &wn) != eslOK) p7_Fail("MPI HMM send failed");	
+
+
+  free(hmmlist);
+  free(wbuf);
+  free(xv);
+  if (av != NULL) free(av);
+  if (xstatus != eslOK) p7_Fail(errbuf);
+  else                  return;
+
+ ERROR:
+  if (hmmlist != NULL) free(hmmlist);
+  if (wbuf    != NULL) free(wbuf);
+  if (xv      != NULL) free(xv);
+  if (av      != NULL) free(av);
+  p7_Fail("Fatal error in mpi_master");
+}
+
+
+/* mpi_worker()
+ * The main control for an MPI worker process.
+ */
+static void
+mpi_worker(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int             xstatus = eslOK;
+  int             status;
+  P7_HMM         *hmm     = NULL;
+  char           *wbuf    = NULL;
+  double         *xv      = NULL; /* result: array of N scores */
+  int            *av      = NULL; /* optional result: array of N alignment lengths */
+  int             wn      = 0;
+  char            errbuf[eslERRBUFSIZE];
+  int             pos;
+  double          mu, lambda;
+ 
+  /* Worker initializes */
+  if ((status = minimum_mpi_working_buffer(go, cfg->N, &wn)) != eslOK) xstatus = status;
+  ESL_ALLOC(wbuf, wn * sizeof(char));
+  ESL_ALLOC(xv,   cfg->N * sizeof(double) + 2);	
+  if (esl_opt_GetBoolean(go, "-a"))
+    ESL_ALLOC(av, cfg->N * sizeof(int));
+
+  /* Main worker loop */
+  while (p7_hmm_MPIRecv(0, 0, MPI_COMM_WORLD, &wbuf, &wn, &(cfg->abc), &hmm) == eslOK) 
+    {
+      if ((status = process_workunit(go, cfg, errbuf, hmm, xv, av, &mu, &lambda)) != eslOK) goto CLEANERROR;
+
+      pos = 0;
+      MPI_Pack(&status, 1,      MPI_INT,    wbuf, wn, &pos, MPI_COMM_WORLD);
+      MPI_Pack(xv,      cfg->N, MPI_DOUBLE, wbuf, wn, &pos, MPI_COMM_WORLD);
+      if (esl_opt_GetBoolean(go, "-a"))
+	MPI_Pack(av,    cfg->N, MPI_INT,    wbuf, wn, &pos, MPI_COMM_WORLD);
+      MPI_Pack(&mu,     1,      MPI_DOUBLE, wbuf, wn, &pos, MPI_COMM_WORLD);
+      MPI_Pack(&lambda, 1,      MPI_DOUBLE, wbuf, wn, &pos, MPI_COMM_WORLD);
+      MPI_Send(wbuf, pos, MPI_PACKED, 0, 0, MPI_COMM_WORLD);
+
+      p7_hmm_Destroy(hmm);
+    }
+
+  free(wbuf);
+  free(xv);
+  if (av != NULL) free(av);
+  return;
+
+ CLEANERROR:
+  pos = 0;
+  MPI_Pack(&status, 1,                MPI_INT,  wbuf, wn, &pos, MPI_COMM_WORLD);
+  MPI_Pack(errbuf,  eslERRBUFSIZE,    MPI_CHAR, wbuf, wn, &pos, MPI_COMM_WORLD);
+  MPI_Send(wbuf, pos, MPI_PACKED, 0, 0, MPI_COMM_WORLD);
+  if (wbuf != NULL) free(wbuf);
+  if (hmm  != NULL) p7_hmm_Destroy(hmm);
+  if (xv   != NULL) free(xv);
+  if (av   != NULL) free(av);
+  return;
+
+ ERROR:
+  p7_Fail("Allocation error in mpi_worker");
+}
+#endif /*HAVE_MPI*/
+
+
+/* process_workunit()
+ *
+ * This is the routine that actually does the work.
+ *
+ * A work unit consists of one HMM, <hmm>.
+ * The result is the <scores> array, which contains an array of N scores;
+ * caller provides this memory.
+ * How those scores are generated is controlled by the application configuration in <cfg>.
+ */
+static int
+process_workunit(ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf, P7_HMM *hmm, double *scores, int *alilens, double *ret_mu, double *ret_lambda)
+{
+  int             L   = esl_opt_GetInteger(go, "-L");
+  P7_PROFILE     *gm  = NULL;
+  P7_OPROFILE    *om  = NULL;
+  P7_GMX         *gx  = NULL;
+  P7_OMX         *ox  = NULL;
+  P7_TRACE       *tr  = NULL;
+  ESL_DSQ        *dsq = NULL;
+  int             i;
+  int             status;
+  int    scounts[p7T_NSTATETYPES]; /* state usage counts from a trace */
+  float  sc;
+  float  nullsc;
+  double mu, lambda;
+  int    EmL          = esl_opt_GetInteger(go, "--EmL");
+  int    EmN          = esl_opt_GetInteger(go, "--EmN");
+  int    EvL          = esl_opt_GetInteger(go, "--EvL");
+  int    EvN          = esl_opt_GetInteger(go, "--EvN");
+  int    EfL          = esl_opt_GetInteger(go, "--EfL");
+  int    EfN          = esl_opt_GetInteger(go, "--EfN");
+  double Eft          = esl_opt_GetReal   (go, "--Eft");
+  float  nu           = esl_opt_GetReal   (go, "--nu");
+
+  /* Optionally set a custom background, determined by model composition;
+   * an experimental hack. 
+   */
+  if (esl_opt_GetBoolean(go, "--bgcomp")) 
+    {
+      float *p = NULL;
+      float  KL;
+
+      p7_hmm_CompositionKLDist(hmm, cfg->bg, &KL, &p);
+      esl_vec_FCopy(p, cfg->abc->K, cfg->bg->f);
+    }
+
+  /* First pass: configure gm, om for local until after we've determined mu, lambda, tau params */
+  gm = p7_profile_Create(hmm->M, cfg->abc);
+  p7_ProfileConfig(hmm, cfg->bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, cfg->abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* Determine E-value parameters (in addition to any that are already in the HMM structure)  */
+  p7_Lambda(hmm, cfg->bg, &lambda);
+  if      (esl_opt_GetBoolean(go, "--vit"))  p7_ViterbiMu(cfg->r, om, cfg->bg, EvL, EvN, lambda,      &mu);
+  else if (esl_opt_GetBoolean(go, "--msv"))  p7_MSVMu    (cfg->r, om, cfg->bg, EmL, EmN, lambda,      &mu);
+  else if (esl_opt_GetBoolean(go, "--fwd"))  p7_Tau      (cfg->r, om, cfg->bg, EfL, EfN, lambda, Eft, &mu);
+  else    mu = 0.0;		/* undetermined, for Hybrid, at least for now. */
+
+  /* Now reconfig the models however we were asked to */
+  if      (esl_opt_GetBoolean(go, "--fs"))  p7_ProfileConfig(hmm, cfg->bg, gm, L, p7_LOCAL);
+  else if (esl_opt_GetBoolean(go, "--sw"))  p7_ProfileConfig(hmm, cfg->bg, gm, L, p7_UNILOCAL);
+  else if (esl_opt_GetBoolean(go, "--ls"))  p7_ProfileConfig(hmm, cfg->bg, gm, L, p7_GLOCAL);
+  else if (esl_opt_GetBoolean(go, "--s"))   p7_ProfileConfig(hmm, cfg->bg, gm, L, p7_UNIGLOCAL);
+
+  if (esl_opt_GetBoolean(go, "--x-no-lengthmodel")) elide_length_model(gm, cfg->bg);
+
+  p7_oprofile_Convert(gm, om);
+  p7_bg_SetLength    (cfg->bg, L);
+
+  /* Remaining allocations */
+  gx = p7_gmx_Create(gm->M, L);
+  ox = p7_omx_Create(gm->M, 0, L);
+  ESL_ALLOC(dsq, sizeof(ESL_DSQ) * (L+2));
+  tr = p7_trace_Create();
+
+  /* Collect scores from N random sequences of length L  */
+  for (i = 0; i < cfg->N; i++)
+    {
+      esl_rsq_xfIID(cfg->r, cfg->bg->f, cfg->abc->K, L, dsq);
+
+      if (esl_opt_GetBoolean(go, "--fast")) 
+	{
+	  if      (esl_opt_GetBoolean(go, "--vit")) p7_ViterbiFilter(dsq, L, om, ox, &sc);
+	  else if (esl_opt_GetBoolean(go, "--fwd")) p7_ForwardParser(dsq, L, om, ox, &sc);
+	  else if (esl_opt_GetBoolean(go, "--msv")) p7_MSVFilter    (dsq, L, om, ox, &sc);
+	} 
+
+      if (! esl_opt_GetBoolean(go, "--fast") || sc == eslINFINITY) /* note, if a filter overflows, failover to slow versions */
+	{
+	  if      (esl_opt_GetBoolean(go, "--vit")) p7_GViterbi(dsq, L, gm, gx,       &sc);
+	  else if (esl_opt_GetBoolean(go, "--fwd")) p7_GForward(dsq, L, gm, gx,       &sc);
+	  else if (esl_opt_GetBoolean(go, "--hyb")) p7_GHybrid (dsq, L, gm, gx, NULL, &sc);
+	  else if (esl_opt_GetBoolean(go, "--msv")) p7_GMSV    (dsq, L, gm, gx, nu,   &sc);
+	}
+
+      /* Optional: get Viterbi alignment length too. */
+      if (esl_opt_GetBoolean(go, "-a"))  /* -a only works with Viterbi; getopts has checked this already */
+	{
+	  p7_GTrace(dsq, L, gm, gx, tr);
+	  p7_trace_GetStateUseCounts(tr, scounts);
+
+	  /* there's various ways we could counts "alignment length". 
+	   * Here we'll use the total length of model used, in nodes: M+D states.
+           * score vs al would gives us relative entropy / model position.
+	   */
+	  /* alilens[i] = scounts[p7T_D] + scounts[p7T_I]; SRE: temporarily testing this instead */
+	  alilens[i] = scounts[p7T_M] + scounts[p7T_D] + scounts[p7T_I];
+
+	  p7_trace_Reuse(tr);
+	}
+
+      p7_bg_NullOne(cfg->bg, dsq, L, &nullsc);
+      scores[i] = (sc - nullsc) / eslCONST_LOG2;
+    }
+
+  *ret_mu     = mu;
+  *ret_lambda = lambda;
+  status      = eslOK;
+
+ ERROR:
+  if (dsq != NULL) free(dsq);
+  p7_omx_Destroy(ox);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_gmx_Destroy(gx);
+  p7_trace_Destroy(tr);
+  if (status == eslEMEM) sprintf(errbuf, "allocation failure");
+  return status;
+}
+
+
+static int 
+output_result(ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf, P7_HMM *hmm, double *scores, int *alilens, double pmu, double plambda)
+{
+  ESL_HISTOGRAM *h = NULL;
+  int            i;
+  double         tailp;
+  double         x10;
+  double         mu, lambda, E10;
+  double         mufix,  E10fix;
+  double         mufix2, E10fix2;
+  double         E10p;
+  double         almean, alvar;	/* alignment length mean and variance (optional output) */
+  int            status;
+
+
+  /* Optional output of scores/alignment lengths:
+   */
+  if (cfg->xfp)                      fwrite(scores, sizeof(double), cfg->N, cfg->xfp);
+  if (cfg->alfp)                     for (i = 0; i < cfg->N; i++) fprintf(cfg->alfp, "%d  %.3f\n", alilens[i], scores[i]);
+  if (esl_opt_GetBoolean(go, "-v"))  for (i = 0; i < cfg->N; i++) printf("%.3f\n", scores[i]);
+
+  /* optional "filter power" data file: <hmm name> <# seqs <= P threshold> <fraction of seqs <= P threshold>  */
+  if (cfg->ffp)                      output_filter_power(go, cfg, errbuf, hmm, scores, pmu, plambda);
+
+  /* Count the scores into a histogram object.  */
+  if ((h = esl_histogram_CreateFull(-50., 50., 0.2)) == NULL) ESL_XFAIL(eslEMEM, errbuf, "allocation failed");
+  for (i = 0; i < cfg->N; i++) esl_histogram_Add(h, scores[i]);
+
+  /* For viterbi, MSV, and hybrid, fit data to a Gumbel, either with known lambda or estimated lambda. */
+  if (esl_opt_GetBoolean(go, "--vit") || esl_opt_GetBoolean(go, "--hyb") || esl_opt_GetBoolean(go, "--msv"))
+    {
+      esl_histogram_GetRank(h, 10, &x10);
+      tailp  = 1.0;
+
+      /* mu, lambda, E10 fields: ML Gumbel fit to the observed data */
+      esl_gumbel_FitComplete(scores, cfg->N, &mu, &lambda);
+      E10    = cfg->N * esl_gumbel_surv(x10, mu, lambda); 
+
+      /* mufix, E10fix fields:   assume lambda = log2; fit an ML mu to the data */
+      esl_gumbel_FitCompleteLoc(scores, cfg->N, 0.693147, &mufix);
+      E10fix = cfg->N * esl_gumbel_surv(x10, mufix, 0.693147); 
+
+      /* mufix2, E10fix2 fields: assume edge-corrected H3 lambda estimate; fit ML mu */
+      esl_gumbel_FitCompleteLoc(scores, cfg->N, plambda, &mufix2);
+      E10fix2 = cfg->N * esl_gumbel_surv(x10, mufix2, plambda); 
+      
+      /* pmu, plambda, E10p:     use H3 estimates (pmu, plambda) */
+      E10p    = cfg->N * esl_gumbel_surv(x10, pmu,   plambda); 
+      
+      fprintf(cfg->ofp, "%-20s  %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f", 
+              hmm->name, tailp, mu, lambda, E10, mufix, E10fix, mufix2, E10fix2, pmu, plambda, E10p);
+
+      if (esl_opt_GetBoolean(go, "-a")) {
+	esl_stats_IMean(alilens, cfg->N, &almean, &alvar);
+	fprintf(cfg->ofp, " %8.4f %8.4f\n", almean, sqrt(alvar));
+      } else 
+	fprintf(cfg->ofp, "\n");
+
+      if (cfg->survfp != NULL) {
+	esl_histogram_PlotSurvival(cfg->survfp, h);
+	esl_gumbel_Plot(cfg->survfp, mu,    lambda,   esl_gumbel_surv, h->xmin - 5., h->xmax + 5., 0.1);
+	esl_gumbel_Plot(cfg->survfp, mufix, 0.693147, esl_gumbel_surv, h->xmin - 5., h->xmax + 5., 0.1);
+      }
+
+      if (cfg->efp != NULL) {
+	double x;
+
+	fprintf(cfg->efp, "# %s\n", hmm->name);
+	for (i = 1; i <= 1000 && i <= cfg->N; i++) {
+	  esl_histogram_GetRank(h, i, &x);
+	  fprintf(cfg->efp, "%d %g\n", i, cfg->N * esl_gumbel_surv(x, pmu, plambda));
+	}
+	fprintf(cfg->efp, "&\n");
+      }
+    }
+
+  /* For Forward, fit tail to exponential tails, for a range of tail mass choices. */
+  else if (esl_opt_GetBoolean(go, "--fwd"))
+    {
+      double  tmin      = esl_opt_GetReal(go, "--tmin");
+      double  tmax      = esl_opt_GetReal(go, "--tmax");
+      double  tpoints   = (double) esl_opt_GetInteger(go, "--tpoints");
+      int     do_linear = esl_opt_GetBoolean(go, "--tlinear");
+      double *xv;
+      int     n;
+
+      esl_histogram_GetRank(h, 10, &x10);
+
+      tailp = tmin;
+      do {
+	if (tailp > 1.0)       tailp = 1.0;
+	esl_histogram_GetTailByMass(h, tailp, &xv, &n, NULL);
+	
+	esl_exp_FitComplete(xv, n, &mu, &lambda);
+	E10    = cfg->N * tailp * esl_exp_surv(x10, mu,  lambda);
+	mufix  = mu;
+	E10fix = cfg->N * tailp * esl_exp_surv(x10, mu,  0.693147);
+	E10p   = cfg->N * esl_exp_surv(x10, pmu, plambda); /* the pmu is relative to a P=1.0 tail origin. */
+	
+	fprintf(cfg->ofp, "%-20s  %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f %8.4f\n", 
+		hmm->name, tailp, mu, lambda, E10, mufix, E10fix, pmu, plambda, E10p);
+
+	if      (tpoints == 1) break;
+	else if (do_linear)    tailp += (tmax-tmin) / (tpoints-1);
+	else                   tailp *= exp(log(tmax/tmin) / (tpoints-1));
+      } while (tailp <= tmax+1e-7);
+
+      if (cfg->survfp) 
+	{
+	  esl_histogram_PlotSurvival(cfg->survfp, h);
+	  esl_exp_Plot(cfg->survfp, mu,    lambda,     esl_exp_surv, mu, h->xmax + 5., 0.1);
+	  esl_exp_Plot(cfg->survfp, mu,    0.693147,   esl_exp_surv, mu, h->xmax + 5., 0.1);
+	}
+
+      if (cfg->efp != NULL) {
+	double x;
+
+	fprintf(cfg->efp, "# %s\n", hmm->name);
+	for (i = 1; i <= 1000 && i <= cfg->N; i++) {
+	  esl_histogram_GetRank(h, i, &x);
+	  fprintf(cfg->efp, "%d %g\n", i, cfg->N * esl_exp_surv(x, pmu, plambda));
+	}
+	fprintf(cfg->efp, "&\n");
+      }
+
+    }
+
+
+  /* fallthrough: both normal, error cases execute same cleanup code */
+  status = eslOK;
+ ERROR:
+  esl_histogram_Destroy(h);
+  return status;
+}
+
+
+/* output_filter_power()
+ *
+ * Used for testing whether the filters (MSV scores, Viterbi scores)
+ * have the power they're supposed to have: for example, if MSV filter
+ * is set at a P-value threshold of 0.02, ~2% of sequences should get
+ * through, regardless of things like model and target sequence
+ * length.
+ * 
+ * Output a file suitable for constructing histograms over many HMMs,
+ * for a particular choice of hmmsim'ed L and N targets:
+ *    <hmm name>  <# of seqs passing threshold>  <fraction of seqs passing threshold>
+ * 
+ * SRE, Thu Apr  9 08:57:32 2009 [Janelia] xref J4/133
+ */
+static int
+output_filter_power(ESL_GETOPTS *go, struct cfg_s *cfg, char *errbuf, P7_HMM *hmm, double *scores, double pmu, double plambda)
+{
+  double pthresh = esl_opt_GetReal(go, "--pthresh"); /* P-value threshold set for the filter score       */
+  double P;					     /* calculated P-value (using HMM's own calibration) */
+  int    npass = 0;				     /* number of scores that pass the P threshold       */
+  double fpass;					     /* fraction of scores that pass the P threshold     */
+  int    i;					     /* counter over scores                              */
+  int    do_gumbel;				     /* flag for how to determine P values               */
+
+  if       (esl_opt_GetBoolean(go, "--vit")) do_gumbel = TRUE;
+  else if  (esl_opt_GetBoolean(go, "--msv")) do_gumbel = TRUE; 
+  else if  (esl_opt_GetBoolean(go, "--hyb")) do_gumbel = FALSE;
+  else     ESL_FAIL(eslEINVAL, errbuf, "can only use --ffile with viterbi, msv, or fwd scores");
+
+  for (i = 0; i < cfg->N; i++)
+    {
+      P = (do_gumbel ?  esl_gumbel_surv(scores[i], pmu, plambda) : 
+                        esl_exp_surv   (scores[i], pmu, plambda));
+      if (P <= pthresh) npass++;
+    }
+  fpass = (double) npass / (double) cfg->N;
+
+  fprintf(cfg->ffp, "%s\t%d\t%.4f\n", hmm->name, npass, fpass);
+  return eslOK;
+}
+
+
+
+#ifdef HAVE_MPI
+/* the pack send/recv buffer must be big enough to hold either an error message or a result vector.
+ * it may even grow larger than that, to hold largest HMM we send.
+ */
+static int
+minimum_mpi_working_buffer(ESL_GETOPTS *go, int N, int *ret_wn)
+{
+  int n;
+  int nerr    = 0;
+  int nresult = 0;
+
+  /* error packet */
+  if (MPI_Pack_size(eslERRBUFSIZE, MPI_CHAR,   MPI_COMM_WORLD, &nerr)!= 0)return eslESYS;   
+  
+  /* results packet */
+  if (MPI_Pack_size(N,             MPI_DOUBLE, MPI_COMM_WORLD, &n)  != 0) return eslESYS;   nresult += n;   /* scores */
+  if (esl_opt_GetBoolean(go, "-a")) {
+    if (MPI_Pack_size(N,           MPI_INT,    MPI_COMM_WORLD, &n)  != 0) return eslESYS;   nresult += n;   /* alignment lengths */
+  }
+  if (MPI_Pack_size(1,             MPI_DOUBLE, MPI_COMM_WORLD, &n)  != 0) return eslESYS;   nresult += n*2; /* mu, lambda */
+
+  /* add the shared status code to the max of the two possible kinds of packets */
+  *ret_wn =  ESL_MAX(nresult, nerr);
+  if (MPI_Pack_size(1,             MPI_INT,    MPI_COMM_WORLD, &n)  != 0) return eslESYS;   *ret_wn += n;   /* status code */
+  return eslOK;
+}
+#endif
+
+
+/* elide_length_model()
+ * 
+ * Fix bg->p1 to 350/351, 
+ * then make the N, C, J transition probabilities p1;
+ * this removes H3's length model, and emulates H2 instead.
+ * 
+ * This makes the NN, CC, JJ transitions score 0, and
+ * makes the NB, CE, and JB transitions a fixed penalty
+ * of log(1/351).
+ * 
+ * In general this isn't a good idea. This code is only for
+ * experimental purposes, demonstrating the difference between
+ * H3's improved statistics and the old way.
+ */
+static int 
+elide_length_model(P7_PROFILE *gm, P7_BG *bg)
+{
+  bg->p1 = 350./351.;
+
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = gm->xsc[p7P_J][p7P_LOOP] = log(bg->p1);
+  gm->xsc[p7P_N][p7P_MOVE] =  gm->xsc[p7P_C][p7P_MOVE] = gm->xsc[p7P_J][p7P_MOVE] = log(1.0 - bg->p1);
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/hmmsim.c $
+ * SVN $Id: hmmsim.c 4601 2014-01-17 02:46:10Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmstat.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmstat.c
new file mode 100755
index 0000000..ff23c64
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/hmmstat.c
@@ -0,0 +1,249 @@
+/* hmmstat: display summary statistics for an HMM database.
+ * 
+ * Example:
+ *  ./hmmstat Pfam
+ *  
+ * SRE, Thu May 24 11:18:20 2007
+ * SVN $Id: hmmstat.c 4321 2012-11-27 16:15:47Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_exponential.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type       default   env  range    toggles    reqs       incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,    FALSE,  NULL, NULL,    NULL,  NULL,           NULL, "show brief help on version and usage",            0 },
+
+  { "--eval2score",  eslARG_NONE, FALSE, NULL, NULL,    NULL,  "-E",        NULL,            "compute score for E-value (E) for database of (Z) sequences",        0 },
+  { "--score2eval",  eslARG_NONE, FALSE, NULL, NULL,    NULL,  "-S",        NULL,            "compute E-value for score (S) for database of (Z) sequences",        0 },
+  { "-Z",            eslARG_INT,    "1", NULL, "n>0",   NULL,  NULL,   "--baseZ1,--baseZ",   "database size (in seqs) for --eval2score or --score2eval",           0 },
+  { "--baseZ",      eslARG_INT,     "0", NULL, NULL,   NULL,  NULL,      "--baseZ1,-Z",      "database size (M bases) (DNA only, if search on both strands)",      0 },
+  { "--baseZ1",     eslARG_INT,     "0", NULL, NULL,   NULL,  NULL,       "--baseZ,-Z",      "database size (M bases) (DNA only, if search on single strand)",     0 },
+  { "-E",           eslARG_REAL,  "0.01", NULL, NULL,   NULL,  "--eval2score", NULL,         "E-value threshold, for --eval2score",                                0 },
+  { "-S",           eslARG_REAL,  "0.01", NULL, NULL,   NULL,  "--score2eval", NULL,         "Score input for --score2eval",                                       0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "display summary statistics for a profile file";
+
+
+static int
+output_header(FILE *ofp, const ESL_GETOPTS *go)
+{
+  p7_banner(ofp, go->argv[0], banner);
+
+  if (esl_opt_IsUsed(go, "--eval2score"))  {
+     if (  fprintf(ofp, "# show score required to reach E-value:      %.2g\n",        esl_opt_GetReal(go, "-E"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--score2eval"))  {
+     if (  fprintf(ofp,   "# show E-value corresponding to score:     %.2g\n",        esl_opt_GetReal(go, "-S"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+
+  if (esl_opt_IsUsed(go, "--eval2score") || esl_opt_IsUsed(go, "--score2eval"))  {
+     if (esl_opt_IsUsed(go, "--baseZ") ) {
+       if (  fprintf(ofp, "# using base count (search both strands):  %d Mb\n",     esl_opt_GetInteger(go, "--baseZ")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+     } else if (esl_opt_IsUsed(go, "--baseZ1") ) {
+       if (  fprintf(ofp, "# using base count (search single strand): %d Mb\n",     esl_opt_GetInteger(go, "--baseZ1")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+     } else {
+       if (  fprintf(ofp, "# using database sequence count:           %d\n",        esl_opt_GetInteger(go, "-Z")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+     }
+  }
+
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go	   = NULL;      /* command line processing                   */
+  ESL_ALPHABET    *abc     = NULL;
+  char            *hmmfile = NULL;
+  P7_HMMFILE      *hfp     = NULL;
+  P7_HMM          *hmm     = NULL;
+  P7_BG           *bg      = NULL;
+  int              nhmm;	
+  double           x;
+  float            KL;
+  int              status;
+  char             errbuf[eslERRBUFSIZE];
+
+  int              do_eval2score = 0;
+  int              do_score2eval = 0;
+  long             z_val;
+  float            e_val;
+  float            s_val;
+
+  float nseq;
+
+  /* Process the command line options.
+   */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK || 
+      esl_opt_VerifyConfig(go)               != eslOK)
+    {
+      printf("Failed to parse command line: %s\n", go->errbuf);
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      puts("\nOptions:");
+      esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=docgroup, 2 = indentation; 80=textwidth*/
+
+
+      exit(0);
+    }
+  if (esl_opt_ArgNumber(go) != 1) 
+    {
+      puts("Incorrect number of command line arguments.");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  if ((hmmfile = esl_opt_GetArg(go, 1)) == NULL) 
+    {
+      puts("Failed to read <hmmfile> argument from command line.");
+      esl_usage(stdout, argv[0], usage);
+      printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+      exit(1);
+    }
+
+  output_header(stdout, go);
+
+  if ( esl_opt_IsOn(go, "--eval2score") ) {
+    do_eval2score = TRUE;
+    e_val         =  esl_opt_GetReal(go, "-E");
+  } else if ( esl_opt_IsOn(go, "--score2eval") ) {
+    do_score2eval = TRUE;
+    s_val         =  esl_opt_GetReal(go, "-S");
+  } else if (  esl_opt_IsUsed(go, "--baseZ") || esl_opt_IsUsed(go, "--baseZ1") || esl_opt_IsUsed(go, "-Z") ) {
+    puts("The flags -Z, --baseZ, and --baseZ1 are for use with --eval2score and --score2eval.");
+    esl_usage(stdout, argv[0], usage);
+    printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+    exit(1);
+  }
+
+  if (esl_opt_IsUsed(go, "--baseZ") ) {
+    z_val    = 1000000 * 2 * (long)(esl_opt_GetInteger(go, "--baseZ"));
+  } else if (esl_opt_IsUsed(go, "--baseZ1") ) {
+    z_val    = 1000000 * (long)(esl_opt_GetInteger(go, "--baseZ1"));
+  } else {
+    z_val    =  esl_opt_GetInteger(go, "-Z");
+  }
+
+  /* Initializations: open the HMM file
+   */
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  /* Main body: read HMMs one at a time, print one line of stats
+   */
+  printf("#\n");
+  printf("# %-4s %-20s %-12s %8s %8s %6s %6s %6s %6s %6s", "idx",  "name",                 "accession",    "nseq",     "eff_nseq", "M",      "relent", "info",   "p relE", "compKL");
+  if (do_eval2score)
+    printf (" %6s %6.2g", "sc for", e_val);
+  if (do_score2eval)
+    printf (" %6s %6.2f", "E-val for", s_val);
+
+  printf("\n");
+  printf("# %-4s %-20s %-12s %8s %8s %6s %6s %6s %6s %6s", "----", "--------------------", "------------", "--------", "--------", "------", "------", "------", "------", "------");
+  if (do_eval2score)
+    printf (" %13s", "-------------");
+  if (do_score2eval)
+    printf (" %13s", "-------------");
+  printf("\n");
+
+
+  nhmm = 0;
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslEOF) 
+    {
+      if      (status == eslEOD)       esl_fatal("read failed, HMM file %s may be truncated?", hmmfile);
+      else if (status == eslEFORMAT)   esl_fatal("bad file format in HMM file %s",             hmmfile);
+      else if (status == eslEINCOMPAT) esl_fatal("HMM file %s contains different alphabets",   hmmfile);
+      else if (status != eslOK)        esl_fatal("Unexpected error in reading HMMs from %s",   hmmfile);
+      nhmm++;
+
+      if ( esl_opt_IsOn(go, "--eval2score") || esl_opt_IsOn(go, "--score2eval") ) {
+        if (esl_opt_IsUsed(go, "--baseZ") || esl_opt_IsUsed(go, "--baseZ1" ) ) {
+          if ( hmm->abc->type != eslRNA   && hmm->abc->type != eslDNA) {
+            puts("The flags --baseZ and --baseZ1 can't be used with non-nucleotide models.");
+            esl_usage(stdout, argv[0], usage);
+            printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+            exit(1);
+          }
+        } else if ( hmm->abc->type != eslAMINO  && hmm->abc->type != eslRNA && hmm->abc->type != eslDNA) {
+          puts("The flags --eval2score and --score2eval can't be used with non-sequence models.");
+          esl_usage(stdout, argv[0], usage);
+          printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+          exit(1);
+        }
+      }
+
+      if (esl_opt_IsUsed(go, "--baseZ") ) {
+        nseq = (float)z_val / (float)(hmm->max_length);
+      } else if (esl_opt_IsUsed(go, "--baseZ1") ) {
+        nseq = (float)z_val / (float)(hmm->max_length);
+      } else {
+        nseq = z_val;
+      }
+
+      if (bg == NULL) bg = p7_bg_Create(abc);
+
+      p7_MeanPositionRelativeEntropy(hmm, bg, &x); 
+      p7_hmm_CompositionKLDist(hmm, bg, &KL, NULL);
+
+      printf("%-6d %-20s %-12s %8d %8.2f %6d %6.2f %6.2f %6.2f %6.2f",
+	     nhmm,
+	     hmm->name,
+	     hmm->acc == NULL ? "-" : hmm->acc,
+	     hmm->nseq,
+	     hmm->eff_nseq,
+	     hmm->M,
+	     p7_MeanMatchRelativeEntropy(hmm, bg),
+	     p7_MeanMatchInfo(hmm, bg),
+	     x,
+	     KL);
+
+
+      if ( esl_opt_IsOn(go, "--eval2score") ) {
+        float sc;
+        sc = esl_exp_invsurv( e_val / nseq ,  hmm->evparam[p7_FTAU],  hmm->evparam[p7_FLAMBDA]);
+        printf("%13.2f", sc);
+      } else  if ( esl_opt_IsOn(go, "--score2eval") ) {
+        float e;
+        e = nseq * esl_exp_surv( s_val ,  hmm->evparam[p7_FTAU],  hmm->evparam[p7_FLAMBDA]);
+        printf("%13.2g", e);
+      }
+
+      printf("\n");
+
+	     /*	     p7_MeanForwardScore(hmm, bg)); */
+
+      p7_hmm_Destroy(hmm);
+    }
+
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  p7_hmmfile_Close(hfp);
+  esl_getopts_Destroy(go);
+  exit(0);
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/Makefile.in
new file mode 100755
index 0000000..94a275b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/Makefile.in
@@ -0,0 +1,191 @@
+top_srcdir  = @top_srcdir@
+srcdir      = @srcdir@
+VPATH       = @srcdir@ 
+SHELL       = /bin/sh
+
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+
+CC          = @CC@
+CFLAGS      = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS   = @SIMD_CFLAGS@
+CPPFLAGS    = @CPPFLAGS@
+LDFLAGS     = @LDFLAGS@
+DEFS        = @DEFS@
+LIBS        = -lhmmer -leasel @LIBS@ -lm
+
+AR          = @AR@ 
+RANLIB      = @RANLIB@
+INSTALL     = @INSTALL@
+
+ESLDIR      = @HMMER_ESLDIR@
+MYLIBDIRS   = -L../../${ESLDIR} -L.. 
+MYINCDIRS   = -I../../${ESLDIR} \
+	      -I${top_srcdir}/easel \
+	      -I. \
+	      -I.. \
+	      -I${srcdir} \
+	      -I${top_srcdir}/src \
+	      -I${srcdir}/..
+
+OBJS =  decoding.o\
+	fwdback.o\
+	io.o\
+	msvfilter.o\
+	null2.o\
+	optacc.o\
+	stotrace.o\
+	vitfilter.o\
+	p7_omx.o\
+	p7_oprofile.o\
+	mpi.o
+
+HDRS =  impl_dummy.h
+
+UTESTS = @MPI_UTESTS@\
+	decoding_utest\
+	fwdback_utest\
+	io_utest\
+	msvfilter_utest\
+	null2_utest\
+	optacc_utest\
+	stotrace_utest\
+	vitfilter_utest
+
+BENCHMARKS = @MPI_BENCHMARKS@\
+	decoding_benchmark\
+	fwdback_benchmark\
+	msvfilter_benchmark\
+	null2_benchmark\
+	optacc_benchmark\
+	stotrace_benchmark\
+	vitfilter_benchmark
+
+EXAMPLES =\
+	fwdback_example\
+	io_example\
+	msvfilter_example\
+	optacc_example\
+	p7_oprofile_example\
+	stotrace_example\
+	vitfilter_example
+
+# beautification magic stolen from git 
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: all dev check tests install uninstall distclean clean 
+
+all:   libhmmer-impl.stamp
+dev:   ${UTESTS} ${BENCHMARKS} ${EXAMPLES}
+check: ${UTESTS}
+tests: ${UTESTS}
+
+libhmmer-impl.stamp: ${OBJS}
+	${QUIET_AR}${AR} -r ../libhmmer.a $? > /dev/null 2>&1
+	@${RANLIB} ../libhmmer.a
+	@echo "impl_lib objects compiled:\c" > $@
+	@date >> $@
+
+.FORCE: 
+
+${OBJS}:   ${HDRS} ../hmmer.h 
+
+.c.o:  
+	${QUIET_CC}${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${DEFS} ${PTHREAD_CFLAGS} ${MYINCDIRS} -c $<
+
+${UTESTS}:  libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_utest//'| sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_TESTDRIVE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${BENCHMARKS}:   libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_benchmark//' | sed -e 's/^p7_//'`;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_BENCHMARK ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${EXAMPLES}:    libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_example//'| sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_EXAMPLE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+install:
+	for file in ${HDRS}; do \
+	   ${INSTALL} -m 0644 ${srcdir}/$$file ${DESTDIR}${includedir}/ ;\
+	done
+
+uninstall:
+	for file in ${HDRS}; do \
+	   rm -f ${DESTDIR}${includedir}/$$file ;\
+	done
+
+distclean: clean
+	-rm -f Makefile 
+
+clean:
+	-rm -f libhmmer-impl.stamp
+	-rm -f ${UTESTS}
+	-rm -f ${BENCHMARKS}
+	-rm -f ${EXAMPLES}
+	-rm -f *.o *~ Makefile.bak core TAGS gmon.out cscope.out
+	-rm -f *.gcno
+	for prog in ${UTESTS} ${BENCHMARKS} ${EXAMPLES}; do\
+	   if test -d $$prog.dSYM; then rm -rf $$prog.dSYM; fi;\
+	done
+
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+# 
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_dummy/Makefile.in $
+# SVN $Id: Makefile.in 4321 2012-11-27 16:15:47Z wheelert $
+################################################################
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/decoding.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/decoding.c
new file mode 100755
index 0000000..e1e2673
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/decoding.c
@@ -0,0 +1,334 @@
+/* Non-optimized posterior decoding algorithms
+ * 
+ * Contents:
+ *   1. Posterior decoding algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: decoding.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. Posterior decoding algorithms.
+ *****************************************************************/
+
+/* Function:  p7_Decoding()
+ * Synopsis:  Posterior decoding of residue assignment.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GDecoding()>. See <p7_GDecoding()>
+ *            documentation for more info.
+ *
+ * Args:      om   - profile (must be the same that was used to fill <oxf>, <oxb>).
+ *            oxf  - filled Forward matrix 
+ *            oxb  - filled Backward matrix
+ *            pp   - RESULT: posterior decoding matrix.
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            Returns <eslERANGE> if numeric range of floating-point
+ *            values is exceeded during posterior probability
+ *            calculations. In this case, the <pp> matrix must not be
+ *            used by the caller; it will contain <NaN> values. To be
+ *            safe, the caller should recalculate a generic posterior
+ *            decoding matrix instead -- generic calculations are done
+ *            in log probability space and are robust. 
+ *            
+ *            However, I currently believe that this overflow only
+ *            occurs on an unusual and ignorable situation: when a
+ *            <p7_UNILOCAL> model is used on a region that contains
+ *            two or more high scoring distinct alignments to the
+ *            model. And that only happens if domain definition fails,
+ *            after stochastic clustering, and an envelope that we
+ *            pass to p7_domaindef.c::rescore_isolated_domain()
+ *            erroneously contains 2+ distinct domains. (Note that
+ *            this is different from having 2+ expected B states: that
+ *            can happen normally, if a single consistent domain is
+ *            better described by 2+ passes through the model). And I
+ *            strongly believe all this only can happen on repetitive
+ *            or biased-composition junk that we want to ignore anyway.
+ *            Therefore the caller should be safe in ignoring any domain
+ *            for which <p7_Decoding()> returns <eslERANGE>.
+ */
+int
+p7_Decoding(const P7_OPROFILE *om, const P7_OMX *oxf, P7_OMX *oxb, P7_OMX *pp)
+{
+  return p7_GDecoding(om, oxf, oxb, pp);
+}
+
+/* Function:  p7_DomainDecoding()
+ * Synopsis:  Posterior decoding of domain location.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GDomainDecoding()>. See <p7_GDomainDecoding()>
+ *            documentation for more info.
+ *
+ * Args:      gm   - profile
+ *            oxf  - filled Forward matrix
+ *            oxb  - filled Backward matrix
+ *            ddef - container for the results.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslERANGE> on numeric overflow. See commentary in
+ *            <p7_Decoding()>.
+ */
+int
+p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef)
+{
+  return p7_GDomainDecoding(om, oxf, oxb, ddef);
+}
+/*------------------ end, posterior decoding --------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7DECODING_BENCHMARK
+/*
+   icc  -O3 -static -o decoding_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7DECODING_BENCHMARK decoding.c -lhmmer -leasel -lm 
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for non-optimized posterior residue decoding";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  P7_OMX         *pp      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  fwd = p7_omx_Create(gm->M, L, L);
+  bck = p7_omx_Create(gm->M, L, L);
+  pp  = p7_omx_Create(gm->M, L, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, fwd,      &fsc);
+  p7_Backward(dsq, L, om, fwd, bck, &bsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_Decoding(om, fwd, bck, pp);              
+  esl_stopwatch_Stop(w);
+
+  Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(pp);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7DECODING_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7DECODING_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/* compare results to GDecoding(). */
+static void
+utest_decoding(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N, float tolerance)
+{
+  char        *msg  = "decoding unit test failed";
+  P7_HMM      *hmm  = NULL;
+  P7_PROFILE  *gm   = NULL;
+  P7_OPROFILE *om   = NULL;
+  ESL_DSQ     *dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd  = p7_omx_Create(M, L, L);
+  P7_OMX      *bck  = p7_omx_Create(M, L, L);
+  P7_OMX      *pp   = p7_omx_Create(M, L, L);
+  P7_GMX      *gxf  = p7_gmx_Create(M, L);
+  P7_GMX      *gxb  = p7_gmx_Create(M, L);
+  P7_GMX      *gxp2 = p7_gmx_Create(M, L);
+  float        fsc1, fsc2;
+  float        bsc1, bsc2;
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om) != eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      if (p7_Forward       (dsq, L, om, fwd,      &fsc1) != eslOK) esl_fatal(msg);
+      if (p7_Backward      (dsq, L, om, fwd, bck, &bsc1) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, fwd, bck, pp)                  != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (dsq, L, gm, gxf, &fsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GBackward(dsq, L, gm, gxb, &bsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GDecoding(gm, gxf, gxb, gxp2)               != eslOK) esl_fatal(msg);
+
+      if (p7_gmx_Compare(pp, gxp2, tolerance)            != eslOK) esl_fatal(msg);
+    }
+
+  p7_gmx_Destroy(gxp2);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(pp);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+#endif /*p7DECODING_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7DECODING_TESTDRIVE
+
+/*
+  gcc -o decoding_utest -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7DECODING_TESTDRIVE decoding.c -lhmmer -leasel -lm
+  ./decoding_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  { "-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                  0},
+  { "-s",  eslARG_INT,     "42",  NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",        0 },
+  { "-t",  eslARG_REAL,  "0.01",  NULL, NULL, NULL, NULL, NULL, "floating point comparison tolerance",  0 },
+  { "-L",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled sequences",          0 },
+  { "-M",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled test profile",       0 },
+  { "-N",  eslARG_INT,     "10",  NULL, NULL, NULL, NULL, NULL, "number of sampled test sequences",     0 },
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for non-optmized posterior decoding";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+  
+  p7_FLogsumInit();
+
+  utest_decoding(r, abc, bg, M, L, N, tol);
+  
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  return eslOK;
+}
+#endif /*p7DECODING_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7DECODING_EXAMPLE
+
+#endif /*p7DECODING_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/fwdback.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/fwdback.c
new file mode 100755
index 0000000..e267eb0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/fwdback.c
@@ -0,0 +1,619 @@
+/* Non-optmized implementation of Forward and Backward algorithms.
+ *
+ * Contents:
+ *   1. Forward/Backward wrapper API
+ *   2. Forward and Backward engine implementations
+ *   4. Benchmark driver.
+ *   5. Unit tests.
+ *   6. Test driver.
+ *   7. Example.
+ *   8. Copyright and license information.
+ * 
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: fwdback.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+
+/*****************************************************************
+ * 1. Forward/Backward API.
+ *****************************************************************/
+
+/* Function:  p7_Forward()
+ * Synopsis:  The Forward algorithm, full matrix fill version.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Calculates the Forward algorithm for sequence <dsq> of
+ *            length <L> residues, using optimized profile <om>, and a
+ *            preallocated DP matrix <ox>. Upon successful return, <ox>
+ *            contains the filled Forward matrix, and <*opt_sc>
+ *            optionally contains the raw Forward score in nats.
+ *            
+ *            This calculation requires $O(ML)$ memory and time.
+ *            The caller must provide a suitably allocated full <ox>
+ *            by calling <ox = p7_omx_Create(M, L, L)> or
+ *            <p7_omx_GrowTo(ox, M, L, L)>.
+ *
+ *            The model <om> must be configured in local alignment
+ *            mode. The sparse rescaling method used to keep
+ *            probability values within single-precision floating
+ *            point dynamic range cannot be safely applied to models in
+ *            glocal or global mode.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - RETURN: Forward DP matrix
+ *            opt_sc  - RETURN: Forward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ */
+int
+p7_Forward(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+  return p7_GForward(dsq, L, om, ox, opt_sc);
+}
+
+
+/* Function:  p7_ForwardParser()
+ * Synopsis:  The Forward algorithm, linear memory parsing version.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Same as <p7_Forward() except that the full matrix isn't
+ *            kept. Instead, a linear $O(M+L)$ memory algorithm is
+ *            used, keeping only the DP matrix values for the special
+ *            (BENCJ) states. These are sufficient to do posterior
+ *            decoding to identify high-probability regions where
+ *            domains are.
+ * 
+ *            The caller must provide a suitably allocated "parsing"
+ *            <ox> by calling <ox = p7_omx_Create(M, 0, L)> or
+ *            <p7_omx_GrowTo(ox, M, 0, L)>.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - RETURN: Forward DP matrix
+ *            ret_sc  - RETURN: Forward score (in nats)          
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_ForwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+  return p7_GForward(dsq, L, om, ox, opt_sc);
+}
+
+/* Function:  p7_Backward()
+ * Synopsis:  The Backward algorithm; full matrix fill version.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Calculates the Backward algorithm for sequence <dsq> of
+ *            length <L> residues, using optimized profile <om>, and a
+ *            preallocated DP matrix <bck>. A filled Forward matrix
+ *            must also be provided in <fwd>, because we need to use
+ *            the same sparse scaling factors that Forward used. The
+ *            <bck> matrix is filled in, and the Backward score (in
+ *            nats) is optionally returned in <opt_sc>.
+ *            
+ *            This calculation requires $O(ML)$ memory and time. The
+ *            caller must provide a suitably allocated full <bck> by
+ *            calling <bck = p7_omx_Create(M, L, L)> or
+ *            <p7_omx_GrowTo(bck, M, L, L)>.
+ *            
+ *            Because only the sparse scaling factors are needed from
+ *            the <fwd> matrix, the caller may have this matrix
+ *            calculated either in full or parsing mode.
+ *            
+ *            The model <om> must be configured in local alignment
+ *            mode. The sparse rescaling method used to keep
+ *            probability values within single-precision floating
+ *            point dynamic range cannot be safely applied to models in
+ *            glocal or global mode.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            fwd     - filled Forward DP matrix, for scale factors
+ *            do_full - TRUE=full matrix; FALSE=linear memory parse mode
+ *            bck     - RETURN: filled Backward matrix
+ *            opt_sc  - optRETURN: Backward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ */
+int 
+p7_Backward(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+  return p7_GBackward(dsq, L, om, bck, opt_sc);
+}
+
+/* Function:  p7_BackwardParser()
+ * Synopsis:  The Backward algorithm, linear memory parsing version.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Same as <p7_Backward()> except that the full matrix isn't
+ *            kept. Instead, a linear $O(M+L)$ memory algorithm is
+ *            used, keeping only the DP matrix values for the special
+ *            (BENCJ) states. These are sufficient to do posterior
+ *            decoding to identify high-probability regions where
+ *            domains are.
+ *       
+ *            The caller must provide a suitably allocated "parsing"
+ *            <bck> by calling <bck = p7_omx_Create(M, 0, L)> or
+ *            <p7_omx_GrowTo(bck, M, 0, L)>.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            fwd     - filled Forward DP matrix, for scale factors
+ *            bck     - RETURN: filled Backward matrix
+ *            opt_sc  - optRETURN: Backward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ */
+int 
+p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+  return p7_GBackward(dsq, L, om, bck, opt_sc);
+}
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7FWDBACK_BENCHMARK
+/* -c, -x options are for debugging and testing: see fwdfilter.c for explanation */
+/* 
+   icc  -O3 -static -o fwdback_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_BENCHMARK fwdback.c -lhmmer -leasel -lm 
+
+   ./fwdback_benchmark <hmmfile>           runs benchmark on both Forward and Backward parser
+   ./fwdback_benchmark -c -N100 <hmmfile>  compare scores of SSE to generic impl
+   ./fwdback_benchmark -x -N100 <hmmfile>  test that scores match trusted implementation.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  { "-F",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-B", "only benchmark Forward",                           0 },
+  { "-B",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-F", "only benchmark Backward",                          0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "benchmark parsing version, not full version",      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for non-optimized Forward, Backward implementations";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  float           fsc2, bsc2;
+  double          base_time, bench_time, Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
+    p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
+
+  if (esl_opt_GetBoolean(go, "-P")) {
+    fwd = p7_omx_Create(gm->M, 0, L);
+    bck = p7_omx_Create(gm->M, 0, L);
+  } else {
+    fwd = p7_omx_Create(gm->M, L, L);
+    bck = p7_omx_Create(gm->M, L, L);
+  }
+  gx  = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      if (esl_opt_GetBoolean(go, "-P")) {
+	if (! esl_opt_GetBoolean(go, "-B"))  p7_ForwardParser (dsq, L, om,      fwd, &fsc);
+	if (! esl_opt_GetBoolean(go, "-F"))  p7_BackwardParser(dsq, L, om, fwd, bck, &bsc);
+      } else {
+	if (! esl_opt_GetBoolean(go, "-B"))  p7_Forward (dsq, L, om,      fwd, &fsc);
+	if (! esl_opt_GetBoolean(go, "-F"))  p7_Backward(dsq, L, om, fwd, bck, &bsc);
+      }
+
+      if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GForward (dsq, L, gm, gx, &fsc2); 
+	  p7_GBackward(dsq, L, gm, gx, &bsc2); 
+	  printf("%.4f %.4f %.4f %.4f\n", fsc, bsc, fsc2, bsc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7FWDBACK_BENCHMARK*/
+/*------------------- end, benchmark driver ---------------------*/
+
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef p7FWDBACK_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* 
+ * compare to GForward() scores.
+ */
+static void
+utest_fwdback(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  char        *msg = "forward/backward unit test failed";
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd = p7_omx_Create(M, 0, L);
+  P7_OMX      *bck = p7_omx_Create(M, 0, L);
+  P7_OMX      *oxf = p7_omx_Create(M, L, L);
+  P7_OMX      *oxb = p7_omx_Create(M, L, L);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float tolerance;
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+  float generic_sc;
+
+  p7_FLogsumInit();
+  if (p7_FLogsumError(-0.4, -0.5) > 0.0001) tolerance = 1.0;  /* weaker test against GForward()   */
+  else tolerance = 0.001;   /* stronger test: FLogsum() is in slow exact mode. */
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_Forward       (dsq, L, om, oxf,      &fsc1);
+      p7_Backward      (dsq, L, om, oxf, oxb, &bsc1);
+      p7_ForwardParser (dsq, L, om, fwd,      &fsc2);
+      p7_BackwardParser(dsq, L, om, fwd, bck, &bsc2);
+      p7_GForward      (dsq, L, gm, gx,  &generic_sc);
+
+      /* Forward and Backward scores should agree with high tolerance */
+      if (fabs(fsc1-bsc1) > 0.001)    esl_fatal(msg);
+      if (fabs(fsc2-bsc2) > 0.001)    esl_fatal(msg);
+      if (fabs(fsc1-fsc2) > 0.001)    esl_fatal(msg);
+
+      /* GForward scores should approximate Forward scores, 
+       * with tolerance that depends on how logsum.c was compiled
+       */
+      if (fabs(fsc1-generic_sc) > tolerance) esl_fatal(msg);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(oxb);
+  p7_omx_Destroy(oxf);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7FWDBACK_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef p7FWDBACK_TESTDRIVE
+/* 
+   gcc -g -Wall -std=gnu99 -o fwdback_utest -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_TESTDRIVE fwdback.c -lhmmer -leasel -lm
+   ./fwdback_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for non-optimized Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_fwdback(r, abc, bg, M, L, N);   /* normal sized models */
+  utest_fwdback(r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_fwdback(r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_fwdback(r, abc, bg, M, L, N);   
+  utest_fwdback(r, abc, bg, 1, L, 10);  
+  utest_fwdback(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7FWDBACK_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example
+ *****************************************************************/
+#ifdef p7FWDBACK_EXAMPLE
+/* Useful for debugging on small HMMs and sequences.
+ * 
+ * Compares to GForward().
+ * 
+   gcc -g -Wall -std=gnu99 -o fwdback_example -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_EXAMPLE fwdback.c -lhmmer -leasel -lm
+   ./fwdback_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_exponential.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Forward/Backward (non-optmized versions)";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fraw, braw, nullsc, fsc;
+  float           gfraw, gbraw, gfsc;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Open sequence file for reading */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);               
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc); 
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNILOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* p7_oprofile_Dump(stdout, om);  */
+
+  /* allocate DP matrices for O(M+L) parsers */
+  fwd = p7_omx_Create(gm->M, 0, sq->n);
+  bck = p7_omx_Create(gm->M, 0, sq->n);
+  gx  = p7_gmx_Create(gm->M,    sq->n);
+
+  /* allocate DP matrices for O(ML) fills */
+  /* fwd = p7_omx_Create(gm->M, sq->n, sq->n); */
+  /* bck = p7_omx_Create(gm->M, sq->n, sq->n); */
+
+  /* p7_omx_SetDumpMode(stdout, fwd, TRUE); */     /* makes the fast DP algorithms dump their matrices */
+  /* p7_omx_SetDumpMode(stdout, bck, TRUE); */  
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(fwd, om->M, 0,   sq->n); 
+      p7_omx_GrowTo(bck, om->M, 0,   sq->n); 
+      p7_gmx_GrowTo(gx,  gm->M,      sq->n); 
+
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+    
+      p7_ForwardParser (sq->dsq, sq->n, om,      fwd, &fraw);
+      p7_BackwardParser(sq->dsq, sq->n, om, fwd, bck, &braw);
+
+      /* p7_Forward (sq->dsq, sq->n, om,      fwd, &fsc);        printf("forward:              %.2f nats\n", fsc);  */
+      /* p7_Backward(sq->dsq, sq->n, om, fwd, bck, &bsc);        printf("backward:             %.2f nats\n", bsc);  */
+
+      /* Comparison to other F/B implementations */
+      p7_GForward     (sq->dsq, sq->n, gm, gx,  &gfraw);
+      p7_GBackward    (sq->dsq, sq->n, gm, gx,  &gbraw);
+
+      /* p7_gmx_Dump(stdout, gx, p7_DEFAULT);  */
+
+      fsc  =  (fraw-nullsc) / eslCONST_LOG2;
+      gfsc = (gfraw-nullsc) / eslCONST_LOG2;
+      P  = esl_exp_surv(fsc,   om->evparam[p7_FTAU],  om->evparam[p7_FLAMBDA]);
+      gP = esl_exp_surv(gfsc,  gm->evparam[p7_FTAU],  gm->evparam[p7_FLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%6.1f\t%9.2g\t%6.1f\n", sq->name, hmm->name, P, fsc, gP, gfsc);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, fsc, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("fwd filter raw score: %.2f nats\n", fraw);
+	  printf("bck filter raw score: %.2f nats\n", braw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", fsc);
+	  printf("P-value:              %g\n",        P);
+	  printf("GForward raw score:   %.2f nats\n", gfraw);
+	  printf("GBackward raw score:  %.2f nats\n", gbraw);
+	  printf("GForward seq score:   %.2f bits\n", gfsc);
+	  printf("GForward P-value:     %g\n",        gP);
+	}
+
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7FWDBACK_EXAMPLE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/impl_dummy.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/impl_dummy.h
new file mode 100755
index 0000000..d3fbf72
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/impl_dummy.h
@@ -0,0 +1,221 @@
+/* non-optimized implementation of various MSV, Viterbi, and Forward
+ * routines: structures, declarations, and macros.
+ * 
+ * MSF, Oct 27, 2009 [Janelia]
+ * SVN $Id: impl_dummy.h 4511 2013-07-08 19:05:40Z wheelert $
+ */
+#ifndef P7_IMPL_DUMMY_INCLUDED
+#define P7_IMPL_DUMMY_INCLUDED
+
+#include "p7_config.h"
+
+#include <math.h>		/* roundf() */
+
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+//#include <pmmintrin.h>   /* DENORMAL_MODE */
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. P7_OPROFILE: an optimized score profile
+ *****************************************************************/
+typedef P7_PROFILE P7_OPROFILE;
+
+#define p7O_NTRANS    8    /* 7 core transitions + BMk entry                    */
+enum p7o_tsc_e          { p7O_BM   = 0, p7O_MM   = 1,  p7O_IM = 2,  p7O_DM = 3, p7O_MD   = 4, p7O_MI   = 5,  p7O_II = 6,  p7O_DD = 7 };
+
+typedef struct {
+  int            count;       /* number of <P7_OPROFILE> objects in the block */
+  int            listSize;    /* maximum number elements in the list          */
+  P7_OPROFILE  **list;        /* array of <P7_OPROFILE> objects               */
+} P7_OM_BLOCK;
+
+/* retrieve match odds ratio [k][x]
+ * this gets used in p7_alidisplay.c, when we're deciding if a residue is conserved or not */
+static inline float 
+p7_oprofile_FGetEmission(const P7_OPROFILE *om, int k, int x)
+{
+  return expf(p7P_MSC(om, k, x));
+}
+
+/*****************************************************************
+ * 2. P7_OMX: a one-row dynamic programming matrix
+ *****************************************************************/
+
+typedef P7_GMX P7_OMX;
+
+
+/*****************************************************************
+ * 3. Declarations of the external API.
+ *****************************************************************/
+
+/* p7_omx.c */
+extern P7_OMX      *p7_omx_Create(int allocM, int allocL, int allocXL);
+extern int          p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL);
+extern int          p7_omx_FDeconvert(P7_OMX *ox, P7_GMX *gx);
+extern int          p7_omx_Reuse  (P7_OMX *ox);
+extern void         p7_omx_Destroy(P7_OMX *ox);
+
+extern int          p7_omx_SetDumpMode(FILE *fp, P7_OMX *ox, int truefalse);
+extern int          p7_omx_DumpMFRow(P7_OMX *ox, int rowi, uint8_t xE, uint8_t xN, uint8_t xJ, uint8_t xB, uint8_t xC);
+extern int          p7_omx_DumpVFRow(P7_OMX *ox, int rowi, int16_t xE, int16_t xN, int16_t xJ, int16_t xB, int16_t xC);
+extern int          p7_omx_DumpFBRow(P7_OMX *ox, int logify, int rowi, int width, int precision, float xE, float xN, float xJ, float xB, float xC);
+
+
+
+/* p7_oprofile.c */
+extern P7_OPROFILE *p7_oprofile_Create(int M, const ESL_ALPHABET *abc);
+extern int          p7_oprofile_IsLocal(const P7_OPROFILE *om);
+extern void         p7_oprofile_Destroy(P7_OPROFILE *om);
+extern size_t       p7_oprofile_Sizeof(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Copy(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Clone(P7_OPROFILE *om);
+extern int          p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+
+extern int          p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om);
+extern int          p7_oprofile_ReconfigLength    (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMSVLength (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMultihit  (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigUnihit    (P7_OPROFILE *om, int L);
+
+extern int          p7_oprofile_Dump(FILE *fp, const P7_OPROFILE *om);
+extern int          p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+				       P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om);
+extern int          p7_oprofile_Compare(P7_OPROFILE *om1, P7_OPROFILE *om2, float tol, char *errmsg);
+extern int          p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm);
+extern int          p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm);
+
+extern int          p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr );
+extern int          p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr );
+extern int          p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr );
+extern int          p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr );
+
+/* decoding.c */
+extern int p7_Decoding      (const P7_OPROFILE *om, const P7_OMX *oxf,       P7_OMX *oxb, P7_OMX *pp);
+extern int p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef);
+
+/* fwdback.c */
+extern int p7_Forward       (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_ForwardParser (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_Backward      (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+extern int p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+
+/* io.c */
+extern int p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om);
+extern int p7_oprofile_ReadMSV (P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock);
+extern int p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om);
+
+extern P7_OM_BLOCK *p7_oprofile_CreateBlock(int size);
+extern void p7_oprofile_DestroyBlock(P7_OM_BLOCK *block);
+
+/* msvfilter.c */
+extern int p7_MSVFilter    (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *msvdata, P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist);
+
+/* null2.c */
+extern int p7_Null2_ByExpectation(const P7_OPROFILE *om, P7_OMX *pp, float *null2);
+extern int p7_Null2_ByTrace      (const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2);
+
+/* optacc.c */
+extern int p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp,       P7_OMX *ox, float *ret_e);
+extern int p7_OATrace        (const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr);
+
+/* stotrace.c */
+extern int p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox,
+			      P7_TRACE *tr);
+
+/* vitfilter.c */
+extern int p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                            float filtersc, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* vitscore.c */
+extern int p7_ViterbiScore (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+
+
+/*****************************************************************
+ * 4. Implementation specific initialization
+ *****************************************************************/
+static inline void
+impl_Init(void)
+{
+}
+  
+
+static inline void
+impl_ThreadInit(void)
+{
+}
+
+
+#endif /* P7_IMPL_DUMMY_INCLUDED */
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+/* 
+ * Currently (and this remains in flux as of 14 Dec 07) an optimized
+ * implementation is required to provide an MSVFilter(),
+ * ViterbiFilter() and a ForwardFilter() implementation. A call to
+ * p7_oprofile_Convert() makes an optimized profile that works for
+ * all filters.
+ * 
+ * Any "Filter" returns a score may be an approximation (with
+ * characterized or at least characterizable error), and which may
+ * have limited upper range, such that high scores are returned as
+ * eslINFINITY. Additionally, Filters might only work on local
+ * alignment modes, because they are allowed to make assumptions about
+ * the range of scores.
+ * 
+ * Here, MSVFilter() and ViterbiFilter() are 8-bit lspace
+ * implementations with limited precision and limited range (max 20
+ * bits); ForwardFilter() is a pspace float implementation with
+ * correct precision and limited range (max ~127 bits). Both require
+ * local mode models.
+ * 
+ * An optimized implementation may also provide other optimized
+ * routines. It provides specialized Convert*() functions for these,
+ * which may no-op (if the OPROFILE already suffices), or may
+ * overwrite parts of the OPROFILE that Filters or other routines
+ * might need. Therefore, after using a "bonus" function, a fresh
+ * Convert() will be needed before a Filter() is called again. This
+ * API is tentative.
+ * 
+ * A "Score" function might be an additional target for optimization,
+ * for example. A "Score" function returns a correct score with full
+ * floating-point precision and range, and works for any mode model.
+ * 
+ * In the generic implementation, profile scores are 32-bit floating
+ * point log-odds scores. In an optimized implementation, internally,
+ * profile scores can be of any type, and may be in log space (lspace)
+ * or probability space (pspace). (Calculations in probability space
+ * are useful in the Forward algorithm, but always limit range.)  A
+ * shorthand of "lspace uchar" means log-odds scores stored as
+ * unsigned chars, for example; "pspace float" means odds ratios
+ * stored as floats.
+ * 
+ * A note on memory alignment: malloc() is required to return a
+ * pointer "suitably aligned so that it may be aligned to a pointer of
+ * any type of object" (C99 7.20.3). __m128 vectors are 128-bits wide,
+ * so malloc() ought to return a pointer aligned on a 16-byte
+ * boundary.  However, this is not the case for glibc, and apparently
+ * other system libraries. Google turns up threads of arguments
+ * between glibc and gcc developers over whose problem this is; this
+ * argument has apparently not been resolved, and is of no help.
+ * Here, we manually align the relevant pointers by overallocating in
+ * *_mem with malloc, then arithmetically manipulating the address to
+ * mask off (~0xf).
+ */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/io.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/io.c
new file mode 100755
index 0000000..d6d767d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/io.c
@@ -0,0 +1,882 @@
+/* Saving optimized profiles in two pieces: MSV part and the rest.
+ * 
+ * To accelerate hmmscan, which is limited by speed of HMM input,
+ * hmmpress saves an optimized profile in two pieces. One file gets
+ * a bare minimum of information needed to run the MSV filter.
+ * The other file gets the rest of the profile. Both files are binary,
+ * stored exactly as the <P7_OPROFILE> has the information internally.
+ * 
+ * By convention, hmmpress calls the two files <hmmfile>.h3f and
+ * <hmmfile>.h3p, which nominally stand for "H3 filter" and "H3
+ * profile".
+ * 
+ * Contents:
+ *    1. Writing optimized profiles to two files.
+ *    2. Reading optimized profiles in two stages.
+ *    3. Utility routines.
+ *    4. Benchmark driver.
+ *    5. Unit tests.
+ *    6. Test driver.
+ *    7. Example.
+ *    8. Copyright and license information.
+ *    
+ * TODO:
+ *    - crossplatform binary compatibility (endedness and off_t)
+ *    - Write() could save a tag (model #) instead of name for verifying
+ *      that MSV and Rest parts match, saving a malloc for var-lengthed name
+ *      in ReadRest().
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static uint32_t  v3f_fmagic = 0xb3e6e6e4; /* 3/f binary MSV file, dummy:     "3ffd" = 0x 33 66 66 64  + 0x80808080 */
+static uint32_t  v3f_pmagic = 0xb3e6f0e4; /* 3/f binary profile file, dummy: "3fpd" = 0x 33 66 70 64  + 0x80808080 */
+
+static uint32_t  v3e_fmagic = 0xb3e5e6e4; /* 3/e binary MSV file, dummy:     "3efd" = 0x 33 65 66 64  + 0x80808080 */
+static uint32_t  v3e_pmagic = 0xb3e5f0e4; /* 3/e binary profile file, dummy: "3epd" = 0x 33 65 70 64  + 0x80808080 */
+
+static uint32_t  v3d_fmagic = 0xb3e4e6e4; /* 3/d binary MSV file, dummy:     "3dfd" = 0x 33 64 66 64  + 0x80808080 */
+static uint32_t  v3d_pmagic = 0xb3e4f0e4; /* 3/d binary profile file, dummy: "3dpd" = 0x 33 64 70 64  + 0x80808080 */
+
+static uint32_t  v3c_fmagic = 0xb3e3e6e4; /* 3/c binary MSV file, dummy:     "3cfd" = 0x 33 63 66 64  + 0x80808080 */
+static uint32_t  v3c_pmagic = 0xb3e3f0e4; /* 3/c binary profile file, dummy: "3cpd" = 0x 33 63 70 64  + 0x80808080 */
+
+static uint32_t  v3b_fmagic = 0xb3e2e6e4; /* 3/b binary MSV file, dummy:     "3bfd" = 0x 33 62 66 64  + 0x80808080 */
+static uint32_t  v3b_pmagic = 0xb3e2f0e4; /* 3/b binary profile file, dummy: "3bpd" = 0x 33 62 70 64  + 0x80808080 */
+
+static uint32_t  v3a_fmagic = 0xe8b3e6e4; /* 3/a binary MSV file, dummy:     "h3fd" = 0x 68 33 66 64  + 0x80808080 */
+static uint32_t  v3a_pmagic = 0xe8b3f0e4; /* 3/a binary profile file, dummy: "h3pd" = 0x 68 33 70 64  + 0x80808080 */
+
+/*****************************************************************
+ *# 1. Writing optimized profiles to two files.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_Write()
+ * Synopsis:  Write an optimized profile in two files.
+ *
+ * Purpose:   Write the MSV filter part of <om> to open binary stream
+ *            <ffp>, and the rest of the model to <pfp>. These two
+ *            streams will typically be <.h3f> and <.h3p> files 
+ *            being created by hmmpress.
+ *
+ * Args:      ffp  - open binary stream for saving MSV filter part
+ *            pfp  - open binary stream for saving rest of profile
+ *            om   - optimized profile to save
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any write failure; for example,
+ *            if disk is full. 
+ */
+int
+p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om)
+{
+  /* <ffp> is the part of the oprofile that MSVFilter() needs */
+  if (fwrite((char *) &(v3f_fmagic),    sizeof(uint32_t), 1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->M),         sizeof(int),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->abc->type), sizeof(int),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->offs,         sizeof(off_t),    p7_NOFFSETS, ffp) != p7_NOFFSETS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(v3f_fmagic),    sizeof(uint32_t), 1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed"); /* sentinel */
+
+  /* <pfp> gets the rest of the oprofile */
+  if (fwrite((char *) &(v3f_pmagic),    sizeof(uint32_t), 1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->M),         sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->abc->type), sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(v3f_pmagic),    sizeof(uint32_t), 1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed"); /* sentinel */
+  
+  return eslOK;
+}
+/*---------------- end, writing oprofile ------------------------*/
+
+
+/*****************************************************************
+ * 2. Reading optimized profiles in two stages.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_ReadMSV()
+ * Synopsis:  Read MSV filter part of an optimized profile.
+ *
+ * Purpose:   Read the MSV filter part of a profile from the
+ *            <.h3f> file associated with an open HMM file <hfp>.
+ *            Allocate a new model, populate it with this minimal
+ *            MSV filter information, and return a pointer to it
+ *            in <*ret_om>. 
+ *            
+ *            Our alphabet may get set by the first HMM we read.  If
+ *            <*byp_abc> is <NULL> at start, create a new alphabet and
+ *            return a pointer to it in <*byp_abc>. If <*byp_abc> is
+ *            non-<NULL>, it is assumed to be a pointer to an existing
+ *            alphabet; we verify that the HMM's alphabet matches it
+ *            and <*ret_abc> isn't changed.  This is the same
+ *            convention used by <p7_hmmfile_Read()>.
+ *            
+ *            The <.h3f> file was opened automatically, if it existed,
+ *            when the HMM file was opened with <p7_hmmfile_OpenE()>.
+ *            
+ *            When no more HMMs remain in the file, return <eslEOF>.
+ *
+ * Args:      hfp     - open HMM file, with associated .h3p file
+ *            byp_abc - BYPASS: <*byp_abc == ESL_ALPHABET *> if known; 
+ *                              <*byp_abc == NULL> if desired; 
+ *                              <NULL> if unwanted.
+ *            ret_om  - RETURN: newly allocated <om> with MSV filter
+ *                      data filled in.
+ *            
+ * Returns:   <eslOK> on success. <*ret_om> is allocated here;
+ *            caller free's with <p7_oprofile_Destroy()>.
+ *            <*byp_abc> is allocated here if it was requested;
+ *            caller free's with <esl_alphabet_Destroy()>.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3f> file open,
+ *            or on any parsing error.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM we read is incompatible
+ *            with the existing alphabet <*byp_abc> led us to expect.
+ *            
+ *            On any returned error, <hfp->errbuf> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om)
+{
+  uint32_t       magic;
+  P7_BG         *bg      = NULL;
+  P7_PROFILE    *gm      = NULL;
+  P7_OPROFILE   *om      = NULL;
+  ESL_ALPHABET  *abc     = NULL;
+  P7_HMM        *hmm     = NULL;
+  int            alphatype;
+  off_t          offs[p7_NOFFSETS];
+  off_t          roff;
+  int            M;
+  int            i;
+  int            status;
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->ffp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (feof(hfp->ffp))   { status = eslEOF; goto ERROR; }	/* normal EOF: no more profiles */
+  
+  /* keep track of the starting offset of the MSV model */
+  roff = ftello(hfp->ffp);
+
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp)) { status = eslEOF; goto ERROR; }
+  if (magic == v3a_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database?");
+
+  if (! fread( (char *) &M,         sizeof(int),      1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype, sizeof(int),      1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alpha type");
+  if (! fread( (char *) offs,       sizeof(off_t),    p7_NOFFSETS, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read hmmpfam offsets");
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3f file corrupted?");
+  if (magic != v3f_fmagic)                                                    ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic; .h3f file corrupted?");
+
+  /* Set or verify alphabet. */
+  if (byp_abc == NULL || *byp_abc == NULL)	{	/* alphabet unknown: whether wanted or unwanted, make a new one */
+    if ((abc = esl_alphabet_Create(alphatype)) == NULL)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: alphabet");
+  } else {			/* alphabet already known: verify it against what we see in the HMM */
+    abc = *byp_abc;
+    if (abc->type != alphatype) 
+      ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current profile says %s", 
+		esl_abc_DecodeType(abc->type), esl_abc_DecodeType(alphatype));
+  }
+
+  if ((status = p7_hmmfile_Position(hfp, offs[p7_MOFFSET])) != eslOK) goto ERROR;
+  if ((status = p7_hmmfile_Read(hfp, &abc, &hmm))           != eslOK) goto ERROR;
+
+  bg  = p7_bg_Create(hmm->abc);
+  gm = p7_profile_Create(hmm->M, hmm->abc);
+  p7_ProfileConfig(hmm, bg, gm, hmm->M, p7_LOCAL);
+  om = p7_oprofile_Create(hmm->M, abc);
+
+  if ((status = p7_oprofile_Convert(gm, om)) != eslOK) goto ERROR;
+
+  om->M     = M;
+  om->roff  = roff;
+  for (i = 0; i < p7_NOFFSETS; ++i)  om->offs[i] = offs[i];
+
+  /* keep track of the ending offset of the MSV model */
+  om->eoff = ftello(hfp->ffp) - 1;;
+
+  if (byp_abc != NULL)  *byp_abc = abc;
+
+  if (gm != NULL) p7_oprofile_Destroy(gm);
+
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (abc != NULL && (byp_abc == NULL || *byp_abc == NULL)) esl_alphabet_Destroy(abc); /* destroy alphabet if we created it here */
+  if (gm  != NULL) p7_oprofile_Destroy(gm);
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_ReadInfoMSV()
+ * Synopsis:  Read MSV filter info, but not the scores.
+ *
+ * Purpose:   Read just enough of the MSV filter header from the
+ *            <.h3f> file associated with an open HMM file <hfp>
+ *            to skip ahead to the next MSV filter. Allocate a new
+ *            model, populate it with just the file offsets of this
+ *            model and return a pointer to it in <*ret_om>. 
+ *            
+ *            The <.h3f> file was opened automatically, if it existed,
+ *            when the HMM file was opened with <p7_hmmfile_OpenE()>.
+ *            
+ *            When no more HMMs remain in the file, return <eslEOF>.
+ *
+ * Args:      hfp     - open HMM file, with associated .h3p file
+ *            byp_abc - BYPASS: <*byp_abc == ESL_ALPHABET *> if known; 
+ *                              <*byp_abc == NULL> if desired; 
+ *                              <NULL> if unwanted.
+ *            ret_om  - RETURN: newly allocated <om> with partial MSV
+ *                      filter data filled in.
+ *            
+ * Returns:   <eslOK> on success. <*ret_om> is allocated here;
+ *            caller free's with <p7_oprofile_Destroy()>.
+ *            <*byp_abc> is allocated here if it was requested;
+ *            caller free's with <esl_alphabet_Destroy()>.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3f> file open,
+ *            or on any parsing error.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM we read is incompatible
+ *            with the existing alphabet <*byp_abc> led us to expect.
+ *            
+ *            On any returned error, <hfp->errbuf> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadInfoMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om)
+{
+  uint32_t       magic;
+  P7_OPROFILE   *om      = NULL;
+  ESL_ALPHABET  *abc     = NULL;
+  int            alphatype;
+  off_t          offs[p7_NOFFSETS];
+  off_t          roff;
+  int            M;
+  int            i;
+  int            status;
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->ffp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (feof(hfp->ffp))   { status = eslEOF; goto ERROR; }	/* normal EOF: no more profiles */
+  
+  /* keep track of the starting offset of the MSV model */
+  roff = ftello(hfp->ffp);
+
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp)) { status = eslEOF; goto ERROR; }
+  if (magic == v3a_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database?");
+
+  if (! fread( (char *) &M,         sizeof(int),      1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype, sizeof(int),      1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alpha type");
+  if (! fread( (char *) offs,       sizeof(off_t),    p7_NOFFSETS, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read hmmpfam offsets");
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3f file corrupted?");
+  if (magic != v3f_fmagic)                                                    ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic; .h3f file corrupted?");
+
+  /* Set or verify alphabet. */
+  if (byp_abc == NULL || *byp_abc == NULL)	{	/* alphabet unknown: whether wanted or unwanted, make a new one */
+    if ((abc = esl_alphabet_Create(alphatype)) == NULL)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: alphabet");
+  } else {			/* alphabet already known: verify it against what we see in the HMM */
+    abc = *byp_abc;
+    if (abc->type != alphatype) 
+      ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current profile says %s", 
+		esl_abc_DecodeType(abc->type), esl_abc_DecodeType(alphatype));
+  }
+
+  om = p7_oprofile_Create(M, abc);
+
+  om->M     = M;
+  om->roff  = roff;
+  for (i = 0; i < p7_NOFFSETS; ++i)  om->offs[i] = offs[i];
+
+  /* keep track of the ending offset of the MSV model */
+  om->eoff = ftello(hfp->ffp) - 1;;
+
+  if (byp_abc != NULL)  *byp_abc = abc;
+
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (abc != NULL && (byp_abc == NULL || *byp_abc == NULL)) esl_alphabet_Destroy(abc); /* destroy alphabet if we created it here */
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_ReadBlockMSV()
+ * Synopsis:  Read the next block of optimized profiles from a hmm file.
+ *
+ * Purpose:   Reads a block of optimized profiles from open hmm file <hfp> into 
+ *            <hmmBlock>.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <sqBlock>.
+ * 
+ *            Returns <eslEOF> when there is no profiles left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Otherwise return the status of the p7_oprofile_ReadMSV function.
+ */
+int
+p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock)
+{
+  int     i;
+  int     size = 0;
+  int     status = eslOK;
+
+  hmmBlock->count = 0;
+  for (i = 0; i < hmmBlock->listSize; ++i)
+    {
+      status = p7_oprofile_ReadMSV(hfp, byp_abc, &hmmBlock->list[i]);
+      if (status != eslOK) break;
+      size += hmmBlock->list[i]->M;
+      ++hmmBlock->count;
+    }
+
+  /* EOF will be returned only in the case were no profiles were read */
+  if (status == eslEOF && i > 0) status = eslOK;
+
+  return status;
+}
+
+/* Function:  p7_oprofile_ReadRest()
+ * Synopsis:  Read the rest of an optimized profile.
+ *
+ * Purpose:   Read the rest of an optimized profile <om> from
+ *            the <.h3p> file associated with an open HMM
+ *            file <hfp>. 
+ *            
+ *            This is the second part of a two-part calling sequence.
+ *            The <om> here must be the result of a previous
+ *            successful <p7_oprofile_ReadMSV()> call on the same
+ *            open <hfp>.
+ *
+ * Args:      hfp - open HMM file, from which we've previously
+ *                  called <p7_oprofile_ReadMSV()>.
+ *            om  - optimized profile that was successfully
+ *                  returned by  <p7_oprofile_ReadMSV()>.
+ *
+ * Returns:   <eslOK> on success, and <om> is now a complete
+ *            optimized profile.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3p> file open,
+ *            or on any parsing error, and set <hfp->errbuf> to
+ *            an informative error message.
+ *
+ * Throws:    <eslESYS> if an <fseek()> fails to reposition the
+ *            binary <.h3p> file.
+ *            
+ *            <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om)
+{
+  uint32_t       magic;
+  int            M;
+  int            alphatype;
+  int            status = eslOK;
+
+#ifdef HMMER_THREADS
+  /* lock the mutex to prevent other threads from reading from the optimized
+   * profile at the same time.
+   */
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_lock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex lock failed");
+    }
+#endif
+
+  if (! fread( (char *) &magic,          sizeof(uint32_t), 1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read magic");
+  if (magic == v3a_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database file?");
+
+  if (! fread( (char *) &M,              sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype,      sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  if (! fread( (char *) &magic,          sizeof(uint32_t), 1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3p file corrupted?");
+
+  if (magic     != v3f_pmagic)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic: .h3p file corrupted?");
+  if (M         != om->M)          ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f model length mismatch");
+  if (alphatype != om->abc->type)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f alphabet type mismatch");
+
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_unlock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+    }
+#endif
+
+  return eslOK;
+
+ ERROR:
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_unlock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+    }
+#endif
+
+  return status;
+}
+/*----------- end, reading optimized profiles -------------------*/
+
+
+/*****************************************************************
+ * 3. Utility routines
+ *****************************************************************/
+/* Function:  p7_oprofile_CreateBlock()
+ * Synopsis:  Create a new block of empty <P7_OM_BLOCK>.
+ *
+ * Purpose:   Creates a block of empty <P7_OM_BLOCK> profile objects.
+ *            
+ * Returns:   a pointer to the new <P7_OM_BLOCK>. Caller frees this
+ *            with <p7_oprofile_DestroyBlock()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+P7_OM_BLOCK *
+p7_oprofile_CreateBlock(int count)
+{
+  int i = 0;
+
+  P7_OM_BLOCK *block = NULL;
+  int status = eslOK;
+
+  ESL_ALLOC(block, sizeof(*block));
+
+  block->count = 0;
+  block->listSize = 0;
+  block->list  = NULL;
+
+  ESL_ALLOC(block->list, sizeof(P7_OPROFILE *) * count);
+  block->listSize = count;
+
+  for (i = 0; i < count; ++i)
+    {
+      block->list[i] = NULL;
+    }
+
+  return block;
+
+ ERROR:
+  if (block != NULL)
+    {
+      if (block->list != NULL)  free(block->list);
+      free(block);
+    }
+  
+  return NULL;
+}
+
+/* Function:  p7_oprofile_DestroyBlock()
+ * Synopsis:  Frees an <P7_OM_BLOCK>.
+ *
+ * Purpose:   Free a Create()'d block of profiles.
+ */
+void
+p7_oprofile_DestroyBlock(P7_OM_BLOCK *block)
+{
+  int i;
+
+  if (block == NULL) return;
+
+  if (block->list != NULL)
+    {
+      for (i = 0; i < block->listSize; ++i)
+	{
+	  if (block->list[i] != NULL) p7_oprofile_Destroy(block->list[i]);
+	}
+      free(block->list);
+    }
+
+  free(block);
+  return;
+}
+
+/* Function:  p7_oprofile_Position()
+ * Synopsis:  Reposition an open hmm file to an offset.
+ *
+ * Purpose:   Reposition an open <hfp> to offset <offset>.
+ *            <offset> would usually be the first byte of a
+ *            desired hmm record.
+ *            
+ * Returns:   <eslOK>     on success;
+ *            <eslEOF>    if no data can be read from this position.
+ *
+ * Throws:    <eslEINVAL>  if the <sqfp> is not positionable.
+ *            <eslEFORMAT> if no msv profile opened.
+ *            <eslESYS>    if the fseeko() call fails.
+ */
+int
+p7_oprofile_Position(P7_HMMFILE *hfp, off_t offset)
+{
+  if (hfp->ffp == NULL)  ESL_EXCEPTION(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (hfp->do_stdin)     ESL_EXCEPTION(eslEINVAL, "can't Position() in standard input");
+  if (hfp->do_gzip)      ESL_EXCEPTION(eslEINVAL, "can't Position() in a gzipped file");
+  if (offset < 0)        ESL_EXCEPTION(eslEINVAL, "bad offset");
+
+  if (fseeko(hfp->ffp, offset, SEEK_SET) != 0) ESL_EXCEPTION(eslESYS, "fseeko() failed");
+
+  return eslOK;
+}
+
+/*-------------------- end, utility routines ---------------------*/
+
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7IO_BENCHMARK
+/*
+  gcc  -g -Wall    -o benchmark-io -I.. -L.. -I../../easel -L../../easel -Dp7IO_BENCHMARK io.c -lhmmer -leasel -lm 
+  icc  -O3 -static -o benchmark-io -I.. -L.. -I../../easel -L../../easel -Dp7IO_BENCHMARK io.c -lhmmer -leasel -lm 
+
+  ./benchmark-io Pfam.msv
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM MSV profile file>";
+static char banner[] = "benchmark driver for profile input";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w       = esl_stopwatch_Create();
+  ESL_ALPHABET  *abc     = NULL;
+  char          *msvfile = esl_opt_GetArg(go, 1);
+  FILE          *msvfp   = NULL;
+  P7_OPROFILE   *om      = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+
+  esl_stopwatch_Start(w);
+
+  if ((msvfp = fopen(msvfile, "r")) == NULL) p7_Fail("Failed to open MSV file %s for reading.\n", msvfile);
+
+  while ((status = p7_oprofile_ReadMSV(msvfp, &abc, NULL, &om)) == eslOK)
+    {
+      nmodel++;
+      totM += om->M;
+
+      p7_oprofile_Destroy(om);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in profile file %s",           msvfile);
+  else if (status == eslEINCOMPAT) p7_Fail("profile file %s contains different alphabets", msvfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading profiles from %s", msvfile);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# number of models: %d\n", nmodel);
+  printf("# total M:          %" PRId64 "\n", totM);
+  
+  fclose(msvfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*IO_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef p7IO_TESTDRIVE
+
+static void
+utest_ReadWrite(P7_HMM *hmm, P7_OPROFILE *om)
+{
+  char        *msg         = "oprofile read/write unit test failure";
+  ESL_ALPHABET *abc        = NULL;
+  P7_OPROFILE *om2         = NULL;
+  char         tmpfile[16] = "esltmpXXXXXX";
+  char        *mfile       = NULL;
+  char        *ffile       = NULL;
+  char        *pfile       = NULL;
+  char        *ssifile     = NULL;
+  FILE        *fp          = NULL;
+  FILE        *mfp         = NULL;
+  FILE        *ffp         = NULL;
+  FILE        *pfp         = NULL;
+  ESL_NEWSSI  *nssi        = NULL;
+  P7_HMMFILE  *hfp         = NULL;
+  uint16_t     fh          = 0;
+  float        tolerance   = 0.001;
+  char         errbuf[eslERRBUFSIZE];
+
+
+  /* 1. A mini version of hmmpress: save the test HMM to a file along with its associated .h3{mfpi} files
+   */
+  if ( esl_tmpfile_named(tmpfile, &fp)          != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&mfile,   "%s.h3m", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&ffile,   "%s.h3f", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&pfile,   "%s.h3p", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&ssifile, "%s.h3i", tmpfile) != eslOK) esl_fatal(msg);
+
+  if ( esl_newssi_Open(ssifile, TRUE, &nssi)    != eslOK) esl_fatal(msg);
+  if (( mfp = fopen(mfile, "wb"))               == NULL)  esl_fatal(msg);
+  if (( ffp = fopen(ffile, "wb"))               == NULL)  esl_fatal(msg);
+  if (( pfp = fopen(pfile, "wb"))               == NULL)  esl_fatal(msg);
+
+  /* the disk offsets are all 0 by construction, if there's only one
+   * HMM in the file - but don't want to forget them, if we change the
+   * unit test in the future to be multi HMM
+   */
+  if ((om->offs[p7_MOFFSET] = ftello(mfp))      == -1)    esl_fatal(msg);
+  if ((om->offs[p7_FOFFSET] = ftello(ffp))      == -1)    esl_fatal(msg);
+  if ((om->offs[p7_POFFSET] = ftello(pfp))      == -1)    esl_fatal(msg);
+
+  if ( p7_hmmfile_WriteASCII(fp,   -1, hmm)     != eslOK) esl_fatal(msg);
+  if ( p7_hmmfile_WriteBinary(mfp, -1, hmm)     != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_Write(ffp, pfp, om)          != eslOK) esl_fatal(msg);
+
+  if ( esl_newssi_AddFile(nssi, tmpfile, 0, &fh)                           != eslOK) esl_fatal(msg);
+  if ( esl_newssi_AddKey (nssi, hmm->name, fh, om->offs[p7_MOFFSET], 0, 0) != eslOK) esl_fatal(msg);
+  if ( esl_newssi_Write(nssi)                                              != eslOK) esl_fatal(msg);
+
+  fclose(fp);
+  fclose(mfp);
+  fclose(ffp); 
+  fclose(pfp);
+  esl_newssi_Close(nssi);
+
+  /* 2. read the optimized profile back in */
+  if ( p7_hmmfile_OpenE(tmpfile, NULL, &hfp, NULL)  != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_ReadMSV(hfp, &abc, &om2)         != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_ReadRest(hfp, om2)               != eslOK) esl_fatal(msg);
+
+  /* 3. it should be identical to the original  */
+  if ( p7_oprofile_Compare(om, om2, tolerance, errbuf) != eslOK) esl_fatal("%s\n%s", msg, errbuf);
+       
+  p7_oprofile_Destroy(om2);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  remove(ssifile);
+  remove(ffile);
+  remove(pfile);
+  remove(mfile);
+  remove(tmpfile);
+
+  free(ssifile);
+  free(mfile);
+  free(ffile);
+  free(pfile);
+}
+  
+#endif /*p7IO_TESTDRIVE*/
+/*------------------ end, unit tests ----------------------------*/
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef p7IO_TESTDRIVE
+/* 
+   gcc -g -Wall -std=gnu99 -o io_utest -I.. -L.. -I../../easel -L../../easel -Dp7IO_TESTDRIVE io.c -lhmmer -leasel -lm
+   ./io_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-M",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "size of random model to sample",                 0 },
+  { "-L",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "configure model for length <n>",                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for non-optimized Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_OPROFILE    *om   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  
+  /* Sample a random HMM and optimized profile, in amino acid alphabet.  */
+  if ((abc = esl_alphabet_Create(eslAMINO))                    == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))                                 == NULL)  esl_fatal("failed to create null model");
+  if (( p7_oprofile_Sample(r, abc, bg, M, L, &hmm, NULL, &om)) != eslOK) esl_fatal("failed to sample HMM and profile");
+
+  /* unit test(s) */
+  utest_ReadWrite(hmm, om);
+
+  p7_oprofile_Destroy(om);
+  p7_hmm_Destroy(hmm);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+
+#endif /*p7IO_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example.
+ *****************************************************************/
+#ifdef p7IO_EXAMPLE
+/* gcc -g -Wall -Dp7IO_EXAMPLE -I.. -I../../easel -L.. -L../../easel -o io_example io.c -lhmmer -leasel -lm
+ * ./io_example <hmmfile>
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",      0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "verbose: print model info as they're read", 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM file>";
+static char banner[] = "example of writing MSV profile part";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET  *abc     = NULL;
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE    *hfp     = NULL;
+  P7_HMM        *hmm     = NULL;
+  P7_BG         *bg      = NULL;
+  P7_PROFILE    *gm      = NULL;
+  P7_OPROFILE   *om      = NULL;
+  char          *fname   = NULL;
+  char          *pname   = NULL;
+  FILE          *ffp     = NULL;
+  FILE          *pfp     = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+  char           errbuf[eslERRBUFSIZE];
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  esl_sprintf(&fname, "%s.h3f", hmmfile);  
+  esl_sprintf(&pname, "%s.h3f", hmmfile);  
+  if ((ffp = fopen(fname, "wb")) == NULL) p7_Fail("failed to open %s\n", fname);
+  if ((pfp = fopen(pname, "wb")) == NULL) p7_Fail("failed to open %s\n", pname);
+  free(fname);
+  free(pname);
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) == eslOK)
+    {
+      if (nmodel == 0) { 	/* first time initialization, now that alphabet known */
+	bg = p7_bg_Create(abc);
+	p7_bg_SetLength(bg, 400);
+      }
+
+      if (esl_opt_GetBoolean(go, "-v")) printf("%s\n", hmm->name);
+      nmodel++;
+      totM += hmm->M;
+
+      gm = p7_profile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+      om = p7_oprofile_Create(gm->M, abc);
+      p7_oprofile_Convert(gm, om);
+      
+      p7_oprofile_Write(ffp, pfp, om);
+
+      p7_profile_Destroy(gm);
+      p7_oprofile_Destroy(om);
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+  fclose(ffp);
+  fclose(pfp);
+  p7_bg_Destroy(bg);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*IO_EXAMPLE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *    
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_dummy/io.c $
+ * SVN $Id: io.c 3960 2012-03-22 21:42:50Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/mpi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/mpi.c
new file mode 100755
index 0000000..8f7feed
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/mpi.c
@@ -0,0 +1,376 @@
+/* Optional support for MPI parallelization.
+ * 
+ * Contents:
+ *    1. Communicating P7_OPROFILE, a score profile.
+ *    2. Benchmark driver.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Copyright and license information.
+ *    
+ * SRE, Thu Jun 14 09:59:20 2007 [Janelia] [Tom Waits, Orphans]
+ * SVN $Id: mpi.c 4560 2013-11-04 09:24:44Z eddys $
+ */
+#include "p7_config.h"		
+
+#ifdef HAVE_MPI
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "mpi.h"
+
+#include "easel.h"
+#include "esl_mpi.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. Communicating P7_OPROFILE, an optimized model.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_MPISend()
+ * Synopsis:  Send an OPROFILE as an MPI work unit.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Sends an OPROFILE <om> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            Work units are prefixed by a status code. If <hmm> is
+ *            <non-NULL>, the work unit is an <eslOK> code followed by
+ *            the packed HMM. If <hmm> is NULL, the work unit is an
+ *            <eslEOD> code, which <p7_hmm_MPIRecv()> knows how to
+ *            interpret; this is typically used for an end-of-data
+ *            signal to cleanly shut down worker processes.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <hmm> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ * 
+ * Note:      Compare to p7_hmmfile_WriteBinary(). The two operations (sending
+ *            an HMM via MPI, or saving it as a binary file to disk) are
+ *            similar.
+ */
+int
+p7_oprofile_MPISend(P7_OPROFILE *om, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  return p7_profile_MPISend(om, dest, tag, comm, buf, nalloc);
+}
+
+/* Function:  p7_oprofile_MPIRecv()
+ * Synopsis:  Receives an OPROFILE as a work unit from an MPI sender.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Receive a work unit that consists of a single OPROFILE
+ *            sent by MPI <source> (<0..nproc-1>, or
+ *            <MPI_ANY_SOURCE>) tagged as <tag> for MPI communicator <comm>.
+ *            
+ *            Work units are prefixed by a status code. If the unit's
+ *            code is <eslOK> and no errors are encountered, this
+ *            routine will return <eslOK> and a non-<NULL> <*ret_om>.
+ *            If the unit's code is <eslEOD> (a shutdown signal), 
+ *            this routine returns <eslEOD> and <*ret_om> is <NULL>.
+ *   
+ *            Caller provides a working buffer <*buf> of size
+ *            <*nalloc> characters. These are passed by reference, so
+ *            that <*buf> can be reallocated and <*nalloc> increased
+ *            if necessary. As a special case, if <*buf> is <NULL> and
+ *            <*nalloc> is 0, the buffer will be allocated
+ *            appropriately, but the caller is still responsible for
+ *            free'ing it.
+ *            
+ *            Caller may or may not already know what alphabet the OPROFILE
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the OPROFILE is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*ret_abc> is that alphabet, and the new
+ *            OPROFILE's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first OPROFILE
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*ret_om> contains the received OPROFILE;
+ *            it is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.  If
+ *            <*abc> was passed as <NULL>, it now points to an
+ *            <ESL_ALPHABET> object that was allocated here; caller is
+ *            responsible for free'ing this.
+ *            
+ *            Returns <eslEOD> if an end-of-data signal was received.
+ *            In this case, <*buf>, <*nalloc>, and <*abc> are left unchanged,
+ *            and <*ret_om> is <NULL>.
+ *            
+ *            Returns <eslEINCOMPAT> if the OPROFILE is in a different alphabet
+ *            than <*abc> said to expect. In this case, <*abc> is unchanged,
+ *            <*buf> and <*nalloc> may have been changed, and <*ret_om> is
+ *            <NULL>.
+ *            
+ * Throws:    <eslEMEM> on allocation error, in which case <*ret_om> is 
+ *            <NULL>.           
+ */
+int
+p7_oprofile_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_OPROFILE **ret_om)
+{
+  return p7_profile_MPIRecv(source, tag, comm, abc, NULL, buf, nalloc, ret_om);
+}
+
+/*----------------- end, P7_OPROFILE communication -------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7MPI_BENCHMARK
+/* 
+  mpicc -g -Wall -L. -I. -L ../easel -I ../easel -D p7MPI_BENCHMARK -o benchmark-mpi mpi.c -lhmmer -leasel -lm
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi  ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi -b ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+ */
+#include "p7_config.h"
+
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-b",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "baseline timing: don't send any HMMs",             0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "arrest after start: for debugging MPI under gdb",  0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MPI communication";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_ALPHABET   *abc     = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg      = p7_bg_Create(abc);
+  int             my_rank;
+  int             nproc;
+  char           *buf    = NULL;
+  int             nbuf   = 0;
+  int             subtotalM = 0;
+  int             allM   = 0;
+  int             stalling = esl_opt_GetBoolean(go, "--stall");
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  while (stalling); 
+
+  /* Master MPI process: */
+  if (my_rank == 0) 
+    {
+      ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+      P7_HMMFILE     *hfp     = NULL;
+      P7_OPROFILE    *om      = NULL;
+      P7_HMM         *hmm     = NULL;
+
+      /* Read HMMs from a file. */
+      if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+
+      esl_stopwatch_Start(w);
+      while (p7_oprofile_ReadMSV(hfp, &abc, &om)  == eslOK &&
+	     p7_oprofile_ReadRest(hfp, om)       == eslOK)
+	{
+	  if (!esl_opt_GetBoolean(go, "-b"))
+	    p7_oprofile_MPISend(om, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* 1 = dest; 0 = tag */
+
+	  p7_hmm_Destroy(hmm);
+	  p7_oprofile_Destroy(om);
+	}
+      p7_oprofile_MPISend(NULL, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* send the "no more HMMs" sign */
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+
+      printf("total: %d\n", allM);
+      esl_stopwatch_Stop(w);
+      esl_stopwatch_Display(stdout, w, "CPU Time: ");
+      esl_stopwatch_Destroy(w);
+    }
+  /* Worker MPI process: */
+  else 
+    {
+      P7_OPROFILE     *om_recd = NULL;      
+
+      while (p7_oprofile_MPIRecv(0, 0, MPI_COMM_WORLD, &buf, &nbuf, &abc, &om_recd) == eslOK) 
+	{
+	  subtotalM += om_recd->M;
+	  p7_oprofile_Destroy(om_recd);  
+	}
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+    }
+
+  free(buf);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  MPI_Finalize();
+  exit(0);
+}
+
+#endif /*p7MPI_BENCHMARK*/
+/*---------------------- end, benchmark -------------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7MPI_TESTDRIVE
+
+static void
+utest_oprofileSendRecv(int my_rank, int nproc)
+{
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(42);
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_OPROFILE    *om   = NULL;
+  P7_OPROFILE    *om2  = NULL;
+  int             M    = 200;
+  int             L    = 400;
+  char           *wbuf = NULL;
+  int             wn   = 0;
+  int             i;
+  char            errbuf[eslERRBUFSIZE];
+
+  p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled profiles are identical */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  om = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  p7_oprofile_Convert(gm, om);
+  p7_bg_SetLength  (bg, L);
+
+  if (my_rank == 0)
+    {
+      for (i = 1; i < nproc; i++)
+	{
+	  ESL_DPRINTF1(("Master: receiving test profile\n"));
+	  p7_oprofile_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &wbuf, &wn, &abc, &om2);
+	  ESL_DPRINTF1(("Master: test profile received\n"));
+
+	  if (p7_oprofile_Compare(om, om2, 0.001, errbuf) != eslOK) 
+	    p7_Die("Received profile not identical to what was sent\n%s", errbuf);
+
+	  p7_oprofile_Destroy(om2);
+	}
+    }
+  else 
+    {
+      ESL_DPRINTF1(("Worker %d: sending test profile\n", my_rank));
+      p7_oprofile_MPISend(om, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
+      ESL_DPRINTF1(("Worker %d: test profile sent\n", my_rank));
+    }
+
+  free(wbuf);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  return;
+}
+#endif /*p7MPI_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+#ifdef p7MPI_TESTDRIVE
+
+/* mpicc -o mpi_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7MPI_TESTDRIVE mpi.c -lhmmer -leasel -lm
+ * In an MPI environment: (qlogin -pe lam-mpi-tight 2; setenv JOB_ID <jobid>; setenv TMPDIR /tmp/<jobid>....
+ *    mpirun C ./mpi_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "arrest after start: for debugging MPI under gdb",   0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for mpi.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  int          my_rank;
+  int          nproc;
+
+  /* For debugging: stall until GDB can be attached */
+  if (esl_opt_GetBoolean(go, "--stall"))  pause();
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  utest_oprofileSendRecv(my_rank, nproc);
+
+  MPI_Finalize();
+  return 0;
+}
+
+#endif /*p7MPI_TESTDRIVE*/
+/*---------------------- end, test driver -----------------------*/
+
+
+#else /*!HAVE_MPI*/
+/* If we don't have MPI compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+void p7_mpi_DoAbsolutelyNothing(void) { return; }
+
+#if defined p7MPI_TESTDRIVE || p7MPI_BENCHMARK || p7MPI_EXAMPLE
+int main(void) { return 0; }
+#endif
+#endif /*HAVE_MPI*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/msvfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/msvfilter.c
new file mode 100755
index 0000000..9081b53
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/msvfilter.c
@@ -0,0 +1,519 @@
+/* Non-optimized MSV filter implementation.
+ * 
+ * A "filter" is a one-row, O(M), DP implementation that calculates an
+ * approximated nat score (i.e. in limited precision - here, uchar)
+ * and may have limited numeric range. It will return <eslERANGE> if
+ * its numeric range is exceeded, in which case the caller will have
+ * to obtain the score by another (probably slower) method.
+ * 
+ * Contents:
+ *   1. p7_MSVFilter() implementation
+ *   2. Benchmark driver
+ *   3. Unit tests
+ *   4. Test driver
+ *   5. Example
+ *   6. Copyright and license information
+ * 
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: msvfilter.c 4386 2013-02-06 01:24:42Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. The p7_MSVFilter() DP implementation.
+ *****************************************************************/
+
+/* Function:  p7_MSVFilter()
+ * Synopsis:  Calculates MSV score.
+ * Incept:    MSF, Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Calculates an approximation of the MSV score for sequence
+ *            <dsq> of length <L> residues, using optimized profile <om>,
+ *            and a preallocated one-row DP matrix <ox>. Return the 
+ *            estimated MSV score (in nats) in <ret_sc>.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: MSV score (in nats)          
+ *                      
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_MSVFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  int status;
+  if ((status = p7_gmx_GrowTo(ox, om->M, L)) != eslOK) return status;
+  return p7_GMSV(dsq, L, om, ox, 2.0, ret_sc);
+}
+/*------------------ end, p7_MSVFilter() ------------------------*/
+
+
+/* Function:  p7_SSVFilter_longtarget()
+ * Synopsis:  Finds windows with MSV scores above some threshold (slow, correct version)
+ *
+ * Purpose:   Calculates the MSV score for regions of sequence <dsq> of length <L>
+ * 			      residues, and captures the positions at which such regions exceed the
+ * 			      score required to be significant in the eyes of the calling function
+ * 			      (usually p=0.02).  Note - this is out of touch with the vectorized
+ *            SSVFilter code. As dummy functions are deprecated, there's no
+ *            need to update it.
+ *
+ * Args:      dsq        - digital target sequence, 1..L
+ *            L          - length of dsq in residues
+ *            om         - optimized profile
+ *            ox         - DP matrix
+ *            msvdata    - compact representation of substitution scores, for backtracking diagonals
+ *            bg         - the background model, required for translating a P-value threshold into a score threshold
+ *            P          - p-value below which a region is captured as being above threshold
+ *            windowlist - RETURN: array of hit windows (start and end of diagonal) for the above-threshold areas
+ *
+ * Note:      Not worried about speed here. Based on p7_GMSV
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *msvdata, P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+	  int status;
+	  if ((status = p7_gmx_GrowTo(ox, om->M, L)) != eslOK) return status;
+	  return p7_GMSV_longtarget(dsq, L, om, ox, 2.0, bg, P, windowlist);
+}
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+/* The benchmark driver has some additional non-benchmarking options
+ * to facilitate small-scale (by-eye) comparison of MSV scores against
+ * other implementations, for debugging purposes.
+ * 
+ * The -c option compares against p7_GMSV() scores. This allows
+ * measuring the error inherent in the SSE implementation's reduced
+ * precision (p7_MSVFilter() runs in uint8_t; p7_GMSV() uses floats).
+ * 
+ * The -x option compares against an emulation that should give
+ * exactly the same scores. The emulation is achieved by jiggering the
+ * fp scores in a generic profile to disallow gaps, have the same
+ * rounding and precision as the uint8_t's MSVFilter() is using, and
+ * to make the same post-hoc corrections for the NN, CC, JJ
+ * contributions to the final nat score; under these contrived
+ * circumstances, p7_GViterbi() gives the same scores as
+ * p7_MSVFilter().
+ * 
+ * For using either -c or -x, you probably also want to limit the
+ * number of generated target sequences, using -N10 or -N100 for
+ * example.
+ */
+#ifdef p7MSVFILTER_BENCHMARK
+/* 
+   gcc -o msvfilter-benchmark -std=gnu99 -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7MSVFILTER_BENCHMARK msvfilter.c -lhmmer -leasel -lm 
+   icc -o msvfilter-benchmark -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7MSVFILTER_BENCHMARK msvfilter.c -lhmmer -leasel -lm 
+
+   ./benchmark-msvfilter <hmmfile>            runs benchmark 
+   ./benchmark-msvfilter -N100 -c <hmmfile>   compare scores to generic impl
+   ./benchmark-msvfilter -N100 -x <hmmfile>   compare scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MSVFilter() implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsMF(om, gm);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_MSVFilter    (dsq, L, om, ox, &sc1);   
+
+      /* -c option: compare generic to fast score */
+      if (esl_opt_GetBoolean(go, "-c")) 
+	{
+	  p7_GMSV    (dsq, L, gm, gx, 2.0, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+
+      /* -x option: compare generic to fast score in a way that should give exactly the same result */
+      if (esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7MSVFILTER_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7MSVFILTER_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* 
+ * We can check that scores are identical (within machine error) to
+ * scores of generic DP with scores rounded the same way.  Do this for
+ * a random model of length <M>, for <N> test sequences of length <L>.
+ * 
+ * We assume that we don't accidentally generate a high-scoring random
+ * sequence that overflows MSVFilter()'s limited range.
+ * 
+ */
+static void
+utest_msv_filter(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, L, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float        sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_profile_SameAsMF(om, gm);
+
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+      if (p7_MSVFilter(dsq, L, om, ox, &sc1)      != eslOK) esl_fatal("MSV failed");
+      if (p7_GViterbi (dsq, L, gm, gx, &sc2)      != eslOK) esl_fatal("viterbi failed");
+
+      if (fabs(sc1-sc2) > 0.0001) esl_fatal("MSV score not equal to Viterbi score");
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7MSVFILTER_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7MSVFILTER_TESTDRIVE
+/* 
+   gcc -g -Wall -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o msvfilter_utest -Dp7MSVFILTER_TESTDRIVE msvfilter.c -lhmmer -leasel -lm
+   ./msvfilter_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the SSE MSVFilter() implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("MSVFilter() tests, DNA\n");
+  utest_msv_filter(r, abc, bg, M, L, N);   /* normal sized models */
+  utest_msv_filter(r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_msv_filter(r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("MSVFilter() tests, protein\n");
+  utest_msv_filter(r, abc, bg, M, L, N);   
+  utest_msv_filter(r, abc, bg, 1, L, 10);  
+  utest_msv_filter(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITFILTER_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+
+#ifdef p7MSVFILTER_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o msvfilter_example -Dp7MSVFILTER_EXAMPLE msvfilter.c -lhmmer -leasel -lm
+   ./msvfilter_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of MSV filter algorithm";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           msvraw, nullsc, msvscore;
+  float           graw, gscore;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Open sequence file for reading */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, 0); /* one row version */
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);   dumps a generic DP matrix
+  */
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(ox, om->M, 0,    sq->n); 
+      p7_gmx_GrowTo(gx, gm->M,       sq->n); 
+
+      p7_MSVFilter   (sq->dsq, sq->n, om, ox, &msvraw);  
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+      msvscore = (msvraw - nullsc) / eslCONST_LOG2;
+      P        = esl_gumbel_surv(msvscore,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+
+      p7_GMSV(sq->dsq, sq->n, gm, gx, 2.0, &graw);
+      gscore   = (graw - nullsc) / eslCONST_LOG2;
+      gP       = esl_gumbel_surv(gscore,  gm->evparam[p7_MMU],  gm->evparam[p7_MLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%7.2f\t%9.2g\t%7.2f\n", sq->name, hmm->name, P, msvscore, gP, gscore);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, msvscore, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("msv filter raw score: %.2f nats\n", msvraw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", msvscore);
+	  printf("P-value:              %g\n",        P);
+	  printf("GMSV raw score:       %.2f nats\n", graw);
+	  printf("GSMV per-seq score:   %.2f bits\n", gscore);
+	  printf("GSMV P-value:         %g\n",        gP);
+	}
+      
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7MSVFILTER_EXAMPLE*/
+/*---------------------- end, example ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/null2.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/null2.c
new file mode 100755
index 0000000..d2c8620
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/null2.c
@@ -0,0 +1,339 @@
+/* Non-optimized "null2" model, biased composition correction
+ * 
+ * Contents:
+ *   1. Null2 estimation algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: null2.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. Null2 estimation algorithms.
+ *****************************************************************/
+
+/* Function:  p7_Null2_ByExpectation()
+ * Synopsis:  Calculate null2 model from posterior probabilities.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GNull2_ByExpectation()> . See 
+ *            <p7_GNull2_ByExpectation()>  documentation.
+ *            
+ * Args:      om    - profile, in any mode, target length model set to <L>
+ *            pp    - posterior prob matrix, for <om> against domain envelope <dsq+i-1> (offset)
+ *            null2 - RETURN: null2 log odds scores per residue; <0..Kp-1>; caller allocated space
+ */
+int
+p7_Null2_ByExpectation(const P7_OPROFILE *om, P7_OMX *pp, float *null2)
+{
+  return p7_GNull2_ByExpectation(om, pp, null2);
+}
+
+
+/* Function:  p7_Null2_ByTrace()
+ * Synopsis:  Assign null2 scores to an envelope by the sampling method.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GNull2_ByTrace()>. See 
+ *            <p7_GNull2_ByTrace()>  documentation.
+ */
+int
+p7_Null2_ByTrace(const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2)
+{
+  return p7_GNull2_ByTrace(om, tr, zstart, zend, wrk, null2);
+}
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7NULL2_BENCHMARK
+/*
+   icc  -O3 -static -o null2_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7NULL2_BENCHMARK null2.c -lhmmer -leasel -lm 
+   ./null2_benchmark    <hmmfile>      Does the expectation version.
+   ./null2_benchmark -t <hmmfile>      Does the stochastic-traceback-dependent version. 
+                                       (This version isn't really dependent on M, so Mc/s may not be an appropriate measure.)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "benchmark the trace-dependent version of null2",   0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for null2 estimation, non-optimized version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  float           null2[p7_MAXCODE];
+  int             i,j,d,pos;
+  int             nsamples = 200;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  ox1 = p7_omx_Create(gm->M, L, L);
+  ox2 = p7_omx_Create(gm->M, L, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, ox1,      &fsc);
+
+  if (esl_opt_GetBoolean(go, "-t"))
+    {
+      P7_TRACE *tr   = p7_trace_Create();
+      float    *n2sc = malloc(sizeof(float) * (L+1));
+
+      esl_stopwatch_Start(w);
+      for (i = 0; i < N; i++)
+	{ /* This is approximately what p7_domaindef.c::region_trace_ensemble() is doing: */
+	  for (j = 0; j < nsamples; j++)
+	    {
+	      p7_StochasticTrace(r, dsq, L, om, ox1, tr);
+	      p7_trace_Index(tr);
+	      pos = 1; 
+	      for (d = 0; d < tr->ndom; d++)
+		{
+		  p7_Null2_ByTrace(om, tr, tr->tfrom[d], tr->tto[d], ox2, null2);
+		  for (; pos <= tr->sqfrom[d]; pos++) n2sc[pos] += 1.0;
+		  for (; pos < tr->sqto[d];    pos++) n2sc[pos] += null2[dsq[pos]];
+		}
+	      for (; pos <= L; pos++)  n2sc[pos] += 1.0;
+	      p7_trace_Reuse(tr);
+	    }
+
+	  for (pos = 1; pos <= L; pos++)
+	    n2sc[pos] = logf(n2sc[pos] / nsamples);
+	}
+      esl_stopwatch_Stop(w);
+
+      free(n2sc);
+      p7_trace_Destroy(tr);
+    }
+  else
+    {
+      p7_Backward(dsq, L, om, ox1, ox2, &bsc);
+      p7_Decoding(om, ox1, ox2, ox2);              
+
+      esl_stopwatch_Start(w);
+      for (i = 0; i < N; i++)
+	p7_Null2_ByExpectation(om, ox2, null2);
+      esl_stopwatch_Stop(w);
+    }
+
+
+  Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7NULL2_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7NULL2_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+
+/* compare results to GDecoding(). */
+static void
+utest_null2_expectation(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N, float tolerance)
+{
+  char        *msg  = "decoding unit test failed";
+  P7_HMM      *hmm  = NULL;
+  P7_PROFILE  *gm   = NULL;
+  P7_OPROFILE *om   = NULL;
+  ESL_DSQ     *dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd  = p7_omx_Create(M, L, L);
+  P7_OMX      *bck  = p7_omx_Create(M, L, L);
+  P7_OMX      *pp   = p7_omx_Create(M, L, L);
+  P7_GMX      *gxf  = p7_gmx_Create(M, L);
+  P7_GMX      *gxb  = p7_gmx_Create(M, L);
+  P7_GMX      *gpp  = p7_gmx_Create(M, L);
+  float       *on2  = malloc(sizeof(float) * abc->Kp);
+  float       *gn2  = malloc(sizeof(float) * abc->Kp);
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+
+  if (!gn2 || !on2) esl_fatal(msg);
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om) != eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      if (p7_Forward       (dsq, L, om, fwd,      &fsc1) != eslOK) esl_fatal(msg);
+      if (p7_Backward      (dsq, L, om, fwd, bck, &bsc1) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, fwd, bck, pp)                  != eslOK) esl_fatal(msg);
+      if (p7_Null2_ByExpectation(om, pp, on2)            != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (dsq, L, gm, gxf, &fsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GBackward(dsq, L, gm, gxb, &bsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GDecoding(gm, gxf, gxb, gpp)                != eslOK) esl_fatal(msg);
+      if (p7_GNull2_ByExpectation(gm, gpp, gn2)          != eslOK) esl_fatal(msg);
+
+      if (esl_vec_FCompare(gn2, on2, abc->Kp, tolerance) != eslOK) esl_fatal(msg);
+    }
+
+  p7_gmx_Destroy(gpp);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_omx_Destroy(pp);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  free(on2);
+  free(gn2);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+#endif /*p7NULL2_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7NULL2_TESTDRIVE
+/* 
+   gcc -g -Wall -std=gnu99 -o null2_utest -I.. -L.. -I../../easel -L../../easel -Dp7NULL2_TESTDRIVE null2.c -lhmmer -leasel -lm
+   ./null2_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-t",        eslARG_REAL,  "0.01", NULL, NULL,  NULL,  NULL, NULL, "floating point comparison tolerance",            0 },
+  { "-L",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,     "72", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,     "10", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for non-optimized implementation of null2 model";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+
+  p7_FLogsumInit();
+
+  utest_null2_expectation(r, abc, bg, M, L, N, tol);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  return eslOK;
+}
+#endif /*p7NULL2_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7NULL2_EXAMPLE
+
+#endif /*p7NULL2_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/optacc.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/optacc.c
new file mode 100755
index 0000000..5c20da8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/optacc.c
@@ -0,0 +1,597 @@
+/* Non-optimized optimal accuracy alignment.
+ * 
+ * Contents:
+ *   1. Optimal accuracy alignment, DP fill
+ *   2. OA traceback
+ *   3. Benchmark driver
+ *   4. Unit tests
+ *   5. Test driver
+ *   6. Example
+ *   7. Copyright and license information.
+ * 
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: optacc.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <float.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+
+/*****************************************************************
+ * 1. Optimal accuracy alignment, DP fill
+ *****************************************************************/
+
+/* Function:  p7_OptimalAccuracy()
+ * Synopsis:  DP fill of an optimal accuracy alignment calculation.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Calculates the fill step of the optimal accuracy decoding
+ *            algorithm \citep{Kall05}.
+ *            
+ *            Caller provides the posterior decoding matrix <pp>,
+ *            which was calculated by Forward/Backward on a target sequence
+ *            of length <pp->L> using the query model <om>.
+ *            
+ *            Caller also provides a DP matrix <ox>, allocated for a full
+ *            <om->M> by <L> comparison. The routine fills this in
+ *            with OA scores.
+ *  
+ * Args:      gm    - query profile      
+ *            pp    - posterior decoding matrix created by <p7_GPosteriorDecoding()>
+ *            gx    - RESULT: caller provided DP matrix for <gm->M> by <L> 
+ *            ret_e - RETURN: expected number of correctly decoded positions 
+ *
+ * Returns:   <eslOK> on success, and <*ret_e> contains the final OA
+ *            score, which is the expected number of correctly decoded
+ *            positions in the target sequence (up to <L>).
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp, P7_OMX *ox, float *ret_e)
+{
+  return p7_GOptimalAccuracy(om, pp, ox, ret_e);
+}
+/*------------------- end, OA DP fill ---------------------------*/
+
+
+/*****************************************************************
+ * 2. OA traceback
+ *****************************************************************/
+
+/* Function:  p7_OATrace()
+ * Synopsis:  Optimal accuracy decoding: traceback.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   The traceback stage of the optimal accuracy decoding algorithm
+ *            \citep{Kall05}.
+ *            
+ *            Caller provides the OA DP matrix <ox> that was just
+ *            calculated by <p7_OptimalAccuracyDP()>, as well as the
+ *            posterior decoding matrix <pp>, which was calculated by
+ *            Forward/Backward on a target sequence using the query
+ *            model <gm>. Because the calculation depends only on
+ *            <pp>, the target sequence itself need not be provided.
+ *            
+ *            The resulting optimal accuracy decoding traceback is put
+ *            in a caller-provided traceback structure <tr>, which the
+ *            caller has allocated for optional posterior probability
+ *            annotation on residues (with <p7_trace_CreateWithPP()>,
+ *            generally). This structure will be reallocated
+ *            internally if necessary.
+ *
+ * Args:      om  - profile
+ *            pp  - posterior probability matrix
+ *            ox  - OA matrix to trace, LxM
+ *            tr  - storage for the recovered traceback
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_OATrace(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr)
+{
+  return p7_GOATrace((P7_PROFILE *)om, (P7_GMX *)pp, (P7_GMX *)ox, tr);
+}
+/*---------------------- end, OA traceback ----------------------*/
+
+
+/*****************************************************************
+ * 3. Benchmark driver
+ *****************************************************************/
+#ifdef p7OPTACC_BENCHMARK
+/* 
+   icc  -O3 -static -o optacc_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7OPTACC_BENCHMARK optacc.c -lhmmer -leasel -lm 
+
+   ./optacc_benchmark <hmmfile>         runs benchmark on optimal accuracy fill and trace
+   ./optacc_benchmark -c -N1 <hmmfile>  compare scores of non-optimized version to generic impl
+   ./optacc_benchmark -x -N1 <hmmfile>  test that scores match trusted implementation.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  { "--notrace", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark the DP fill stage",                 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for optimal accuracy alignment, non-optimized version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc, accscore;
+  float           fsc_g, bsc_g, accscore_g;
+  double          Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
+    p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
+
+  ox1 = p7_omx_Create(gm->M, L, L);
+  ox2 = p7_omx_Create(gm->M, L, L);
+  tr  = p7_trace_CreateWithPP();
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, ox1,      &fsc);
+  p7_Backward(dsq, L, om, ox1, ox2, &bsc);
+  p7_Decoding(om, ox1, ox2, ox2);              
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_OptimalAccuracy(om, ox2, ox1, &accscore);
+
+      if (! esl_opt_GetBoolean(go, "--notrace"))
+	{
+	  p7_OATrace(om, ox2, ox1, tr);
+	  p7_trace_Reuse(tr);
+	}
+    }
+  esl_stopwatch_Stop(w);
+
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x") )
+    {
+      gx1 = p7_gmx_Create(gm->M, L);
+      gx2 = p7_gmx_Create(gm->M, L);
+      
+      p7_GForward (dsq, L, gm, gx1, &fsc_g);
+      p7_GBackward(dsq, L, gm, gx2, &bsc_g);
+      p7_GDecoding(gm, gx1, gx2, gx2);             
+      p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g);
+
+      printf("generic:       fwd=%8.4f  bck=%8.4f  acc=%8.4f\n", fsc_g, bsc_g, accscore_g);
+      printf("non-optimized: fwd=%8.4f  bck=%8.4f  acc=%8.4f\n", fsc,   bsc,   accscore);
+
+      p7_gmx_Destroy(gx1);
+      p7_gmx_Destroy(gx2);
+    }
+
+  free(dsq);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_trace_Destroy(tr);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPTACC_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7OPTACC_TESTDRIVE
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+/* 
+ * 1. Compare accscore to GOptimalAccuracy().
+ * 2. Compare trace to GOATrace().
+ * 
+ * Note: This test is subject to some expected noise and can fail
+ * for entirely innocent reasons. Generic Forward/Backward calculations with
+ * p7_GForward(), p7_GBackward() use coarse-grain table lookups to sum
+ * log probabilities, and sufficient roundoff error can accumulate to
+ * change the optimal accuracy traceback, causing this test to fail.
+ * So, if optacc_utest fails, before you go looking for bugs, first
+ * go to ../logsum.c, change the #ifdef to activate the slow/accurate 
+ * version, recompile and rerun optacc_utest. If the failure goes away,
+ * you can ignore it.   - SRE, Wed Dec 17 09:45:31 2008
+ */
+static void
+utest_optacc(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  char        *msg = "optimal accuracy unit test failed";
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_SQ      *sq  = esl_sq_CreateDigital(abc);
+  P7_OMX      *ox1 = p7_omx_Create(M, L, L);
+  P7_OMX      *ox2 = p7_omx_Create(M, L, L);
+  P7_GMX      *gx1 = p7_gmx_Create(M, L);
+  P7_GMX      *gx2 = p7_gmx_Create(M, L);
+  P7_TRACE    *tr  = p7_trace_CreateWithPP();
+  P7_TRACE    *trg = p7_trace_CreateWithPP();
+  P7_TRACE    *tro = p7_trace_CreateWithPP();
+  float        accscore_o;
+  float        fsc, bsc, accscore;
+  float        fsc_g, bsc_g, accscore_g, accscore_g2;
+  float        pptol = 0.01;
+  float        sctol = 0.001;
+  float        gtol;
+
+  p7_FLogsumInit();
+  gtol = ( (p7_FLogsumError(-0.4, -0.5) > 0.0001) ?  0.1 : 0.001);
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om)!= eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (p7_ProfileEmit(r, hmm, gm, bg, sq, tro)         != eslOK) esl_fatal(msg);
+
+      if (p7_omx_GrowTo(ox1, M, sq->n, sq->n)             != eslOK) esl_fatal(msg);
+      if (p7_omx_GrowTo(ox2, M, sq->n, sq->n)             != eslOK) esl_fatal(msg);
+      if (p7_gmx_GrowTo(gx1, M, sq->n)                    != eslOK) esl_fatal(msg);
+      if (p7_gmx_GrowTo(gx2, M, sq->n)                    != eslOK) esl_fatal(msg);
+
+      if (p7_Forward (sq->dsq, sq->n, om, ox1,      &fsc) != eslOK) esl_fatal(msg);
+      if (p7_Backward(sq->dsq, sq->n, om, ox1, ox2, &bsc) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, ox1, ox2, ox2)                  != eslOK) esl_fatal(msg);
+      if (p7_OptimalAccuracy(om, ox2, ox1, &accscore)     != eslOK) esl_fatal(msg);
+
+      if (p7_OATrace(om, ox2, ox1, tr)                    != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (sq->dsq, sq->n, gm, gx1, &fsc_g)   != eslOK) esl_fatal(msg);
+      if (p7_GBackward(sq->dsq, sq->n, gm, gx2, &bsc_g)   != eslOK) esl_fatal(msg);
+
+      if (p7_GDecoding(gm, gx1, gx2, gx2)                 != eslOK) esl_fatal(msg);
+      if (p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g)  != eslOK) esl_fatal(msg);
+      
+      if (p7_GOATrace(gm, gx2, gx1, trg)                  != eslOK) esl_fatal(msg);
+
+      if (p7_trace_SetPP(tro, gx2)                        != eslOK) esl_fatal(msg);
+
+      if (esl_opt_GetBoolean(go, "--traces"))
+	{
+	  p7_trace_Dump(stdout, tro, gm, sq->dsq);
+	  p7_trace_Dump(stdout, tr,  gm, sq->dsq);
+	  p7_trace_Dump(stdout, trg, gm, sq->dsq);
+	}
+
+      if (p7_trace_Validate(tr,  abc, sq->dsq, NULL)      != eslOK) esl_fatal(msg);
+      if (p7_trace_Validate(trg, abc, sq->dsq, NULL)      != eslOK) esl_fatal(msg);
+      if (p7_trace_Compare(tr, trg, pptol)                != eslOK) esl_fatal(msg);
+
+      accscore_o  = p7_trace_GetExpectedAccuracy(tro); /* according to gx2; see p7_trace_SetPP() call above */
+      accscore_g2 = p7_trace_GetExpectedAccuracy(trg);
+
+      if (esl_FCompare(fsc,        bsc,         sctol)    != eslOK) esl_fatal(msg);
+      if (esl_FCompare(fsc_g,      bsc_g,       gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(fsc,        fsc_g,       gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(accscore,   accscore_g,  gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(accscore_g, accscore_g2, gtol)     != eslOK) esl_fatal(msg);
+      if (accscore_g2 < accscore_o)                                 esl_fatal(msg);
+      /* the above deserves explanation:
+       *  - accscore_o is the accuracy of the originally emitted trace, according
+       *      to the generic posterior decoding matrix <gx2>. This is a lower bound
+       *      on the expected # of accurately aligned residues found by a DP 
+       *      optimization.
+       *  - accscore is the accuracy found by the fast (vector) code DP implementation.
+       *  - accscore_g is the accuracy found by the generic DP implementation.
+       *      accscore and accscore_g should be nearly identical,
+       *      within tolerance of roundoff error accumulation and
+       *      the imprecision of Logsum() tables.
+       *  - accscore_g2 is the accuracy of the traceback identified by the generic
+       *      DP implementation. It should be identical (within order-of-evaluation
+       *      roundoff error) to accscore_g.
+       *      
+       * the "accscore_g2 < accscore_o" test is carefully contrived.
+       * accscore_o is a theoretical lower bound but because of fp error, 
+       * accscore and (much more rarely) even accscore_g can exceed accscore_o.
+       * accscore_g2, however, is calculated with identical order of evaluation
+       * as accscore_o if the optimal trace does turn out to be identical to 
+       * the originally emitted trace. It should be extremely unlikely (though
+       * not impossible) for accscore_o to exceed accscore_g2. (The DP algorithm
+       * would have to identify a trace that was different than the original trace,
+       * which the DP algorithm, by order-of-evaluation, assigned higher accuracy,
+       * but order-of-evaluation in traceback dependent code assigned lower accuracy.
+       * [xref J5/29]
+       */
+
+      esl_sq_Reuse(sq);
+      p7_trace_Reuse(tr);
+      p7_trace_Reuse(trg);
+      p7_trace_Reuse(tro);
+    }
+
+  p7_trace_Destroy(tro);
+  p7_trace_Destroy(trg);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx2);
+  p7_gmx_Destroy(gx1);
+  p7_omx_Destroy(ox2);
+  p7_omx_Destroy(ox1);  
+  esl_sq_Destroy(sq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+
+#endif /*p7OPTACC_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef p7OPTACC_TESTDRIVE
+
+/* Failures in this test are to be expected, if you change the defaults.
+ * The default RNG seed of 41 is very carefully chosen! Most seeds will
+ * cause this test to fail. (Only 13 and 41 work for seeds 1..50.)
+ * 
+ * The generic fwd/bck algorithms work in log space and suffer from a
+ * small amount of imprecision, not only from the use of FLogsum()'s
+ * table-driven approximation, but even (apparently) inherent in log()
+ * and exp(). To minimize this, the generic decoding algorithm burns
+ * time renormalizing each row. Still, it's a problem. See notes at
+ * the header of utest_optacc() for more info.
+ * 
+ * Another expected failure mode is when a fwd, bck nat score are close to
+ * 0.0; FCompare() can evaluate two close-to-zero numbers as "different"
+ * even if their absolute diff is negligible. (I suppose I could fix this.)
+ */
+
+/* 
+   gcc -g -Wall -std=gnu99 -o optacc_utest -I.. -L.. -I../../easel -L../../easel -Dp7OPTACC_TESTDRIVE optacc.c -lhmmer -leasel -lm
+   ./optacc_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "41", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,     "50", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,     "20", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  { "--traces",  eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump all tracebacks",                            0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for non-optimized Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* first round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_optacc(go, r, abc, bg, M, L, N);   /* normal sized models */
+  utest_optacc(go, r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_optacc(go, r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_optacc(go, r, abc, bg, M, L, N);   
+  utest_optacc(go, r, abc, bg, 1, L, 10);  
+  utest_optacc(go, r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7OPTACC_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+#ifdef p7OPTACC_EXAMPLE
+/* 
+   gcc -g -Wall -o optacc_example -Dp7OPTACC_EXAMPLE -I.. -I../../easel -L.. -L../../easel optacc.c -lhmmer -leasel -lm
+   ./optacc_example <hmmfile> <seqfile>
+*/
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-d",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump posterior residue decoding matrix",           0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump OA matrix",                                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of optimal accuracy alignment, non-optimized implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  float           fsc, bsc;
+  float           accscore;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL); /* multihit local: H3 default */
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+
+  /* Allocations */
+  ox1 = p7_omx_Create(gm->M, sq->n, sq->n);
+  ox2 = p7_omx_Create(gm->M, sq->n, sq->n);
+  tr  = p7_trace_CreateWithPP();
+  p7_FLogsumInit();
+
+  /* Run Forward, Backward; do OA fill and trace */
+  p7_Forward (sq->dsq, sq->n, om, ox1,      &fsc);
+  p7_Backward(sq->dsq, sq->n, om, ox1, ox2, &bsc);
+  p7_Decoding(om, ox1, ox2, ox2);                   /* <gx2> is now the posterior decoding matrix */
+  p7_OptimalAccuracy(om, ox2, ox1, &accscore);	    /* <gx1> is now the OA matrix */
+  p7_OATrace(om, ox2, ox1, tr);
+  
+  if (esl_opt_GetBoolean(go, "-d")) p7_gmx_Dump(stdout, ox2, p7_DEFAULT);
+  if (esl_opt_GetBoolean(go, "-m")) p7_gmx_Dump(stdout, ox1, p7_DEFAULT);
+
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+
+  if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
+
+  printf("fwd = %.4f nats\n", fsc);
+  printf("bck = %.4f nats\n", bsc);
+  printf("acc = %.4f (%.2f%%)\n", accscore, accscore * 100. / (float) sq->n);
+
+  /* Cleanup */
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPTACC_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/p7_omx.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/p7_omx.c
new file mode 100755
index 0000000..0c31aaa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/p7_omx.c
@@ -0,0 +1,124 @@
+/* Non-optimized implementation of an optimized profile structure.
+ * 
+ * Contents:
+ *   1. The P7_OMX structure: a dynamic programming matrix
+ *   2. Debugging dumps of P7_OMX structures
+ *   3. Copyright and license information
+ * 
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: p7_omx.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. The P7_OMX structure: a dynamic programming matrix
+ *****************************************************************/
+
+/* Function:  p7_omx_Create()
+ * Synopsis:  Create an dynamic programming matrix.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Allocates a reusable, resizeable <P7_OMX> for models up to
+ *            size <allocM> and target sequences up to length
+ *            <allocL/allocXL>, for use by any of the various optimized
+ *            DP routines.
+ *            
+ * Returns:   a pointer to the new <P7_OMX>.
+ */
+P7_OMX *
+p7_omx_Create(int allocM, int allocL, int allocXL)
+{
+  int L = (allocL > allocXL) ? allocL : allocXL;
+  return p7_gmx_Create(allocM, L);
+}
+
+/* Function:  p7_omx_GrowTo()
+ * Synopsis:  Assure that a DP matrix is big enough.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Assures that an optimized DP matrix <ox> is allocated for
+ *            a model up to <allocM> in length; if not, reallocate to
+ *            make it so.
+ *            
+ * Returns:   <eslOK> on success, and <gx> may be reallocated upon
+ *            return; any data that may have been in <gx> must be 
+ *            assumed to be invalidated.
+ */
+int
+p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL)
+{
+  int L = (allocL > allocXL) ? allocL : allocXL;
+  return p7_gmx_GrowTo(ox, allocM, L);
+}  
+
+/* Function:  p7_omx_Reuse()
+ * Synopsis:  Recycle an optimized DP matrix.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Recycles <ox> for re-use.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_omx_Reuse(P7_OMX *ox)
+{
+  ox->M              = 0;
+  ox->L              = 0;
+
+  return eslOK;
+}
+
+/* Function:  p7_omx_Destroy()
+ * Synopsis:  Frees an optimized DP matrix.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Frees optimized DP matrix <ox>.
+ *
+ * Returns:   (void)
+ */
+void
+p7_omx_Destroy(P7_OMX *ox)
+{
+  p7_gmx_Destroy(ox);
+  return;
+}
+
+/*------------------- end, P7_OMX structure ---------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+/*---------------------- end, unit tests ------------------------*/
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+/*---------------------- end, test driver -----------------------*/
+
+
+/*****************************************************************
+ * 13. Example
+ *****************************************************************/
+/*------------------------ example ------------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/p7_oprofile.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/p7_oprofile.c
new file mode 100755
index 0000000..8130c53
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/p7_oprofile.c
@@ -0,0 +1,802 @@
+/* Non-optimized routines for the P7_OPROFILE structure:  
+ * a search profile in an optimized implementation.
+ * 
+ * Contents:
+ *   1. The P7_OPROFILE object: allocation, initialization, destruction.
+ *   2. Conversion from generic P7_PROFILE to optimized P7_OPROFILE
+ *   3. Conversion from optimized P7_OPROFILE to compact score arrays
+ *   4. Debugging and development utilities.
+ *   5. Benchmark driver.
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Example.
+ *   9. Copyright and license information.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <string.h>
+#include <math.h>		/* roundf() */
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+
+/*****************************************************************
+ * 1. The P7_OPROFILE structure: a score profile.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_Create()
+ * Synopsis:  Allocate an optimized profile structure.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Allocate for profiles of up to <allocM> nodes for digital alphabet <abc>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Create(int allocM, const ESL_ALPHABET *abc)
+{
+  return p7_profile_Create(allocM, abc);
+}
+
+/* Function:  p7_oprofile_IsLocal()
+ * Synopsis:  Returns TRUE if profile is in local alignment mode.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ */
+int
+p7_oprofile_IsLocal(const P7_OPROFILE *om)
+{
+  return p7_profile_IsLocal(om);
+}
+
+
+/* Function:  p7_oprofile_Destroy()
+ * Synopsis:  Frees an optimized profile structure.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ */
+void
+p7_oprofile_Destroy(P7_OPROFILE *om)
+{
+  p7_profile_Destroy(om);
+}
+
+/* Function:  p7_oprofile_Sizeof()
+ * Synopsis:  Return the allocated size of a <P7_OPROFILE>.
+ * Incept:    SRE, Wed Mar  2 10:39:54 2011 [Janelia]
+ *
+ * Purpose:   Returns the allocated size of a <P7_OPROFILE>,
+ *            in bytes.
+ */
+size_t 
+p7_oprofile_Sizeof(P7_OPROFILE *om) 
+{ 
+  return p7_profile_Sizeof(om); 
+}
+
+/* TODO: this is not following the _Copy interface guidelines; it's a _Clone */
+/* TODO: its documentation header is a cut/paste of _Create; FIXME */
+/* Function:  p7_oprofile_Copy()
+ * Synopsis:  Allocate an optimized profile structure.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Allocate for profiles of up to <allocM> nodes for digital alphabet <abc>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Copy(P7_OPROFILE *om1)
+{
+  P7_PROFILE  *dst   = NULL;
+
+  if ((dst = p7_profile_Create(om1->M, om1->abc)) == NULL)  goto ERROR;
+  if ((p7_profile_Copy(om1, dst))                 != eslOK) goto ERROR;
+    
+  return dst;
+
+ ERROR:
+  p7_profile_Destroy(dst);
+  return NULL;
+}
+
+/* Function:  p7_oprofile_Clone()
+ * Synopsis:  Allocate a cloned copy of the optimized profile structure.  All
+ *            allocated memory from the original profile is not reallocated.
+ *            The cloned copy will point to the same memory as the original.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Quick copy of an optimized profile used in mutiple threads.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Clone(P7_OPROFILE *om1)
+{
+  return p7_oprofile_Copy(om1);
+}
+
+/*----------------- end, P7_OPROFILE structure ------------------*/
+
+/* Function:  p7_oprofile_Convert()
+ * Synopsis:  Converts standard profile to an optimized one.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Convert a standard profile <gm> to an optimized profile <om>,
+ *            where <om> has already been allocated for a profile of at 
+ *            least <gm->M> nodes and the same emission alphabet <gm->abc>.
+ *
+ * Args:      gm - profile to optimize
+ *            om - allocated optimized profile for holding the result.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <gm>, <om> aren't compatible. 
+ *            <eslEMEM> on allocation failure.
+ */
+int
+p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+
+  return p7_profile_Copy(gm, om);
+}
+
+/* Function:  p7_oprofile_ReconfigLength()
+ * Synopsis:  Set the target sequence length of a model.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Given an already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>. 
+ *            
+ *            This doesn't affect the length distribution of the null
+ *            model. That must also be reset, using <p7_bg_SetLength()>.
+ *            
+ *            We want this routine to run as fast as possible, because
+ *            this call is in the critical path: it must be called at
+ *            each new target sequence in a database search.
+ *
+ * Returns:   <eslOK> on success. Costs/scores for N,C,J transitions are set
+ *            here.
+ */
+int
+p7_oprofile_ReconfigLength(P7_OPROFILE *om, int L)
+{
+  return p7_ReconfigLength(om, L);
+}
+
+/* Function:  p7_oprofile_ReconfigMSVLength()
+ * Synopsis:  Set the target sequence length of the MSVFilter part of the model.
+ * Incept:    SRE, Tue Dec 16 13:39:17 2008 [Janelia]
+ *
+ * Purpose:   Given an  already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>, only for the part of the model that's used
+ *            for the accelerated MSV filter.
+ *
+ *            The acceleration pipeline uses this to defer reconfiguring the
+ *            length distribution of the main model, mostly because hmmscan
+ *            reads the model in two pieces, MSV part first, then the rest.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_oprofile_ReconfigMSVLength(P7_OPROFILE *om, int L)
+{
+	return p7_ReconfigLength(om, L);
+}
+
+
+/* Function:  p7_oprofile_ReconfigRestLength()
+ * Synopsis:  Set the target sequence length of the main profile.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Given an  already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>, for everything except the MSV filter part
+ *            of the model.
+ *            
+ *            Calling <p7_oprofile_ReconfigMSVLength()> then
+ *            <p7_oprofile_ReconfigRestLength()> is equivalent to
+ *            just calling <p7_oprofile_ReconfigLength()>. The two
+ *            part version is used in the acceleration pipeline.
+ *
+ * Returns:   <eslOK> on success.           
+ */
+int
+p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L)
+{
+	return p7_ReconfigLength(om, L);
+}
+
+/* Function:  p7_oprofile_ReconfigMultihit()
+ * Synopsis:  Quickly reconfig model into multihit mode for target length <L>.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Given a profile <om> that's already been configured once,
+ *            quickly reconfigure it into a multihit mode for target 
+ *            length <L>. 
+ *            
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit mode to
+ *            process individual domains.
+ *            
+ * Note:      You can't just flip uni/multi mode alone, because that
+ *            parameterization also affects target length
+ *            modeling. You need to make sure uni vs. multi choice is
+ *            made before the length model is set, and you need to
+ *            make sure the length model is recalculated if you change
+ *            the uni/multi mode. Hence, these functions call
+ *            <p7_oprofile_ReconfigLength()>.
+ */
+int
+p7_oprofile_ReconfigMultihit(P7_OPROFILE *om, int L)
+{
+  return p7_ReconfigMultihit(om, L);
+}
+
+/* Function:  p7_oprofile_ReconfigUnihit()
+ * Synopsis:  Quickly reconfig model into unihit mode for target length <L>.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Given a profile <om> that's already been configured once,
+ *            quickly reconfigure it into a unihit mode for target 
+ *            length <L>. 
+ *            
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit <L=0> mode to
+ *            process individual domains.
+ */
+int
+p7_oprofile_ReconfigUnihit(P7_OPROFILE *om, int L)
+{
+  return p7_ReconfigUnihit(om, L);
+}
+/*------------ end, conversions to P7_OPROFILE ------------------*/
+
+/*******************************************************************
+*   3. Conversion from optimized P7_OPROFILE to compact score arrays
+ *******************************************************************/
+
+
+/* Function:  p7_oprofile_GetFwdTransitionArray()
+ * Synopsis:  Retrieve full 32-bit float transition probabilities from a
+ *            profile into a flat array
+ *
+ * Purpose:   Extract an array of <type> (e.g. p7O_II) transition probabilities
+ *            from the underlying <om> profile. In SIMD implementations,
+ *            these are striped and interleaved, making them difficult to
+ *            directly access. Here, this is trivial.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <type> - transition type (e.g. p7O_II)
+ *            <arr>  - preallocated array into which floats will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr )
+{
+  int i;
+
+  for (i=0; i<om->M; i++) {
+    arr[i] = exp(p7P_TSC(om, i, type));
+  }
+
+  return eslOK;
+
+}
+
+
+
+/* Function:  p7_oprofile_GetSSVEmissionScoreArray()
+ * Synopsis:  Retrieve MSV residue emission scores from a
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 8-bit int MSV residue
+ *            emission scores from a profile <om>. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In the dummy implementation, we need to convert from the
+ *            float emission probabilities to 8-bit int scores. Conversion
+ *            is based on code from the function mf_conversion in impl_sse's
+ *            p7_oprofile.c
+ *
+ * Args:      <om>   - profile, containing emission information
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr )
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int i, j;
+  float x;
+  float max = 0.0;
+  float scale;
+  uint8_t bias;
+
+  /* scale and bias required for float->8bit conversion   */
+  scale = 3.0 / eslCONST_LOG2;                    /* scores in units of third-bits */
+  for (i = 0; i < om->abc->K; i++)  max = ESL_MAX(max, esl_vec_FMax(om->rsc[i], (M+1)*2));
+  max = -1.0f * roundf(scale * -1.0 * max);   //based on unbiased_byteify
+  bias   = (max > 255.) ? 255 : (uint8_t) max;
+
+
+  for (i = 1; i <= om->M; i++) {
+    for (j=0; j<om->abc->Kp; j++) {
+      //based on p7_oprofile's biased_byteify()
+      x =  -1.0f * roundf(scale * om->rsc[j][(i) * p7P_NR     + p7P_MSC]);
+      arr[i*om->abc->Kp + j] = (x > 255. - bias) ? 255 : (uint8_t) (x + bias);
+    }
+  }
+
+
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_GetFwdEmissionArray()
+ * Synopsis:  Retrieve Fwd (float) residue emission scores from a
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 32-bit float Fwd residue
+ *            emission scores from a profile <om>. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *
+ * Args:      <om>   - profile
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr )
+{
+  int i, j;
+
+  for (i = 1; i <= om->M; i++) {
+    for (j=0; j<om->abc->Kp; j++) {
+      arr[i*om->abc->Kp + j] =  om->rsc[j][(i) * p7P_NR     + p7P_MSC];
+    }
+  }
+
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_GetFwdEmissionArray()
+ * Synopsis:  Retrieve Fwd (float) residue emission values from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 32-bit float Fwd residue
+ *            emission values from an optimized profile <om>, converting
+ *            back to emission values based on the background. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <bg>   - background frequencies
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr )
+{
+  int i, j;
+
+  for (i = 1; i <= om->M; i++) {
+    for (j=0; j<om->abc->Kp; j++) {
+      arr[i*om->abc->Kp + j] =  bg->f[j] * exp( om->rsc[j][(i) * p7P_NR     + p7P_MSC]);
+    }
+  }
+
+  return eslOK;
+}
+
+
+
+/* Function:  p7_oprofile_UpdateFwdEmissionScores()
+ * Synopsis:  Update om match emissions to account for new bg, using
+ *            preallocated sc_tmp[].
+ *
+ * Purpose:   Change scores based on updated background model
+ *
+ */
+int
+p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_tmp)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     i, j;
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+
+  for (i = 1; i <= om->M; i++) {
+
+    for (j=0; j<K; j++) {
+      if (om->mm && om->mm[i] == 'm')
+        sc_tmp[j] = 0;
+      else
+        sc_tmp[j] = log(fwd_emissions[i*om->abc->Kp + j] / bg->f[j]);
+    }
+
+
+    esl_abc_FExpectScVec(bg->abc, sc_tmp, bg->f);
+
+    for (j=0; j<Kp; j++)
+      om->rsc[j][(i) * p7P_NR  + p7P_MSC] =  sc_tmp[j];
+
+  }
+
+  return eslOK;
+
+}
+
+/* Function:  p7_oprofile_UpdateVitEmissionScores()
+ * Synopsis:  Dummy function - no need to update Viterbi-specific scores in dummy
+ *
+ */
+int
+p7_oprofile_UpdateVitEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_UpdateMSVEmissionScores()
+ * Synopsis:  Dummy function - no need to update Viterbi-specific scores in dummy
+ */
+int
+p7_oprofile_UpdateMSVEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  return eslOK;
+
+}
+/*------------ end, conversions from P7_OPROFILE ------------------*/
+
+
+
+/*****************************************************************
+ * 4. Debugging and development utilities.
+ *****************************************************************/
+
+
+/* Function:  p7_oprofile_Sample()
+ * Synopsis:  Sample a random profile.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Sample a random profile of <M> nodes for alphabet <abc>,
+ *            using <r> as the source of random numbers. Parameterize
+ *            it for generation of target sequences of mean length
+ *            <L>. Calculate its log-odds scores using background
+ *            model <bg>.
+ *            
+ * Args:      r       - random number generator
+ *            abc     - emission alphabet 
+ *            bg      - background frequency model
+ *            M       - size of sampled profile, in nodes
+ *            L       - configured target seq mean length
+ *            opt_hmm - optRETURN: sampled HMM
+ *            opt_gm  - optRETURN: sampled normal profile
+ *            opt_om  - RETURN: optimized profile
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+		   P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om)
+{
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_OPROFILE    *om   = NULL;
+  int             status;
+
+  if ((gm = p7_profile_Create (M, abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+
+  if ((status = p7_hmm_Sample(r, M, abc, &hmm))             != eslOK) goto ERROR;
+  if ((status = p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)) != eslOK) goto ERROR;
+  if ((status = p7_oprofile_Convert(gm, om))                != eslOK) goto ERROR;
+  if ((status = p7_oprofile_ReconfigLength(om, L))          != eslOK) goto ERROR;
+
+  if (opt_hmm != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  if (opt_gm  != NULL) *opt_gm  = gm;  else p7_profile_Destroy(gm);
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (opt_hmm != NULL) *opt_hmm = NULL;
+  if (opt_gm  != NULL) *opt_gm  = NULL;
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_Compare()
+ * Synopsis:  Compare two optimized profiles for equality.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Compare the contents of <om1> and <om2>; return 
+ *            <eslOK> if they are effectively identical profiles,
+ *            or <eslFAIL> if not.
+ * 
+ *            Floating point comparisons are done to a tolerance
+ *            of <tol> using <esl_FCompare()>.
+ *            
+ *            If a comparison fails, an informative error message is
+ *            left in <errmsg> to indicate why.
+ *            
+ *            Internal allocation sizes are not compared, only the
+ *            data.
+ *            
+ * Args:      om1    - one optimized profile to compare
+ *            om2    - the other
+ *            tol    - floating point comparison tolerance; see <esl_FCompare()>
+ *            errmsg - ptr to array of at least <eslERRBUFSIZE> characters.
+ *            
+ * Returns:   <eslOK> on effective equality;  <eslFAIL> on difference.
+ */
+int
+p7_oprofile_Compare(P7_OPROFILE *om1, P7_OPROFILE *om2, float tol, char *errmsg)
+{
+  return p7_profile_Compare(om1, om2, tol);
+}
+
+
+/* Function:  p7_profile_SameAsMF()
+ * Synopsis:  Set a generic profile's scores to give MSV scores.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Set a generic profile's scores so that the normal <dp_generic> DP 
+ *            algorithms will give the same score as <p7_MSVFilter()>:
+ *            all t_MM scores = 0; all other core transitions = -inf;
+ *            multihit local mode; all <t_BMk> entries uniformly <log 2/(M(M+1))>;
+ *            <tCC, tNN, tJJ> scores 0; total approximated later as -3;
+ *            rounded in the same way as the 8-bit limited precision.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm)
+{
+  int    k;
+  float  tbm = log(2.0f / ((float) gm->M * (float) (gm->M+1)));
+
+  /* Transitions */
+  esl_vec_FSet(gm->tsc, p7P_NTRANS * gm->M, -eslINFINITY);
+  for (k = 1; k <  gm->M; k++) p7P_TSC(gm, k, p7P_MM) = 0.0f;
+  for (k = 0; k <  gm->M; k++) p7P_TSC(gm, k, p7P_BM) = tbm;
+  
+  return eslOK;
+}
+
+/* Function:  p7_profile_SameAsVF()
+ * Synopsis:  Round a generic profile to match ViterbiFilter scores.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Round all the scores in a generic (lspace) <P7_PROFILE> <gm> in
+ *            exactly the same way that the scores in the
+ *            <P7_OPROFILE> <om> were rounded. Then we can test that two profiles
+ *            give identical internal scores in testing, say,
+ *            <p7_ViterbiFilter()> against <p7_GViterbi()>. 
+ *            
+ *            The 3nat approximation is used; NN=CC=JJ=0, and 3 nats are
+ *            subtracted at the end to account for their contribution.
+ *            
+ *            To convert a generic Viterbi score <gsc> calculated with this profile
+ *            to a nat score that should match ViterbiFilter() exactly,
+ *            do <(gsc / om->scale_w) - 3.0>.
+ *
+ *            <gm> must be the same profile that <om> was constructed from.
+ * 
+ *            <gm> is irrevocably altered by this call. 
+ *            
+ *            Do not call this more than once on any given <gm>! 
+ *
+ * Args:      <om>  - optimized profile, containing scale information.
+ *            <gm>  - generic profile that <om> was built from.          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm)
+{
+  return eslOK;
+}
+
+/*------------ end, P7_OPROFILE debugging tools  ----------------*/
+
+/*****************************************************************
+ * 5. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7OPROFILE_BENCHMARK
+/* Timing profile conversion.
+   gcc -o benchmark-oprofile -std=gnu99 -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7OPROFILE_BENCHMARK\
+      p7_oprofile.c -lhmmer -leasel -lm 
+   icc -o benchmark-oprofile -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7OPROFILE_BENCHMARK p7_oprofile.c -lhmmer -leasel -lm 
+   ./benchmark-sse <hmmfile>         runs benchmark
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,    "400", NULL, NULL,  NULL,  NULL, NULL, "length of target sequence",                        0 },
+  { "-N",        eslARG_INT, "100000", NULL, NULL,  NULL,  NULL, NULL, "number of conversions to time",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for the non-optmized implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_oprofile_Convert(gm, om);
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M = %d\n", gm->M);
+
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPROFILE_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+  
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef p7OPROFILE_TESTDRIVE
+
+
+#endif /*p7OPROFILE_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+#ifdef p7OPROFILE_TESTDRIVE
+
+
+#endif /*p7OPROFILE_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+/*****************************************************************
+ * 8. Example
+ *****************************************************************/
+#ifdef p7OPROFILE_EXAMPLE
+/* gcc -std=gnu99 -g -Wall -Dp7OPROFILE_EXAMPLE -I.. -I../../easel -L.. -L../../easel -o p7_oprofile_example p7_oprofile.c -lhmmer -leasel -lm
+ * ./p7_oprofile_example <hmmfile>
+ */
+#include "p7_config.h"
+#include <stdlib.h>
+#include "easel.h"
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  char         *hmmfile = argv[1];
+  ESL_ALPHABET *abc     = NULL;
+  P7_HMMFILE   *hfp     = NULL;
+  P7_HMM       *hmm     = NULL;
+  P7_BG        *bg      = NULL;
+  P7_PROFILE   *gm      = NULL;
+  P7_OPROFILE  *om1     = NULL;
+  P7_OPROFILE  *om2     = NULL;
+  int           status;
+  char          errbuf[eslERRBUFSIZE];
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  bg  = p7_bg_Create(abc);
+  gm  = p7_profile_Create(hmm->M, abc);   
+  om1 = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+  p7_oprofile_Convert(gm, om1);
+  
+  om2 = p7_oprofile_Copy(om1);
+  if (p7_oprofile_Compare(om1, om2, 0.001f, errbuf) != eslOK) p7_Fail("Compare failed %s\n", errbuf);
+
+  p7_oprofile_Destroy(om1);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*p7OPROFILE_EXAMPLE*/
+/*----------------------- end, example --------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/stotrace.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/stotrace.c
new file mode 100755
index 0000000..0340f22
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/stotrace.c
@@ -0,0 +1,421 @@
+/* Non-optimized implementation of stochastic backtrace of a Forward matrix.
+ * (Compare generic version, p7_GStochasticTrace().)
+ * 
+ * Contents:
+ *    1. Stochastic trace implementation.
+ *    2. Selection of steps in the traceback.
+ *    3. Benchmark driver.
+ *    4. Unit tests.
+ *    5. Test driver.
+ *    6. Example.
+ *    7. Copyright and license information.
+ *    
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: stotrace.c 3474 2011-01-17 13:25:32Z eddys $
+ */   
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+
+/*****************************************************************
+ * 1. Stochastic trace implementation.
+ *****************************************************************/
+
+/* Function:  p7_StochasticTrace()
+ * Synopsis:  Sample a traceback from a Forward matrix
+ * Incept:    MSF, Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Perform a stochastic traceback from Forward matrix <ox>,
+ *            using random number generator <r>, in order to sample an
+ *            alignment of model <om> to digital sequence <dsq> of
+ *            length <L>. 
+ *            
+ *            The sampled traceback is returned in <tr>, which the
+ *            caller provides with at least an initial allocation;
+ *            the <tr> allocation will be grown as needed here.
+ *
+ * Args:      r   - source of random numbers
+ *            dsq - digital sequence being aligned, 1..L
+ *            L   - length of dsq
+ *            om  - profile
+ *            ox  - Forward matrix to trace, LxM
+ *            tr  - storage for the recovered traceback
+ *
+ * Returns:   <eslOK> on success
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> on several types of problems, including:
+ *            the trace isn't empty (wasn't Reuse()'d);
+ */
+int
+p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox,
+		   P7_TRACE *tr)
+{
+  return p7_GStochasticTrace(rng, dsq, L, (P7_PROFILE *)om, (P7_GMX *)ox, tr);
+}
+/*------------------ end, stochastic traceback ------------------*/
+
+
+/*****************************************************************
+ * 3. Benchmark
+ *****************************************************************/
+#ifdef p7STOTRACE_BENCHMARK
+/*
+   gcc -g -O2      -o stotrace_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_BENCHMARK stotrace.c -lhmmer -leasel -lm
+   icc -O3 -static -o stotrace_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_BENCHMARK stotrace.c -lhmmer -leasel -lm
+   ./stotrace_benchmark <hmmfile>
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seq" ,                   0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of sampled tracebacks",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for stochastic traceback, non-optimized version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc, fsc, vsc;
+  float           bestsc  = -eslINFINITY;
+  
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  om = p7_oprofile_Create(gm->M, abc);   p7_oprofile_Convert(gm, om);
+
+  fwd = p7_omx_Create(gm->M, L, L);
+  gx  = p7_gmx_Create(gm->M, L);
+  tr  = p7_trace_Create();
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+  p7_GViterbi(dsq, L, gm, gx,  &vsc);
+  p7_Forward (dsq, L, om, fwd, &fsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_StochasticTrace(r, dsq, L, om, fwd, tr);
+      p7_trace_Score(tr, dsq, gm, &sc);
+      bestsc = ESL_MAX(bestsc, sc);
+      p7_trace_Reuse(tr);
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  printf("forward sc   = %.4f nats\n", fsc);
+  printf("viterbi sc   = %.4f nats\n", vsc);
+  printf("max trace sc = %.4f nats\n", bestsc);
+
+  free(dsq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx);
+  p7_omx_Destroy(fwd);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7STOTRACE_TESTDRIVE
+#include "esl_getopts.h"
+
+/* tests: 
+ *   1. each sampled trace must validate.
+ *   2. each trace must be <= viterbi trace score
+ *   3. in a large # of traces, one is "equal" to the viterbi trace score.
+ *      (this of course is stochastic; but it's true for the particular
+ *       choice of RNG seed used in tests here.)
+ */
+static void
+utest_stotrace(ESL_GETOPTS *go, ESL_RANDOMNESS *rng, ESL_ALPHABET *abc, P7_PROFILE *gm, P7_OPROFILE *om, ESL_DSQ *dsq, int L, int ntrace)
+{
+  P7_GMX   *gx  = NULL;
+  P7_OMX   *ox  = NULL;
+  P7_TRACE *tr  = NULL;
+  char      errbuf[eslERRBUFSIZE];
+  int       idx;
+  float     maxsc = -eslINFINITY;
+  float     vsc, sc;
+
+  if ((gx     = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("generic DP matrix creation failed");
+  if ((ox     = p7_omx_Create(gm->M, L, L))     == NULL)  esl_fatal("optimized DP matrix create failed");
+  if ((tr     = p7_trace_Create())              == NULL)  esl_fatal("trace creation failed");
+
+  if (p7_GViterbi(dsq, L, gm, gx, &vsc)         != eslOK) esl_fatal("viterbi failed");
+  if (p7_Forward (dsq, L, om, ox, NULL)         != eslOK) esl_fatal("forward failed");
+
+  for (idx = 0; idx < ntrace; idx++)
+    {
+      if (p7_StochasticTrace(rng, dsq, L, om, ox, tr) != eslOK) esl_fatal("stochastic trace failed");
+      if (p7_trace_Validate(tr, abc, dsq, errbuf)     != eslOK) esl_fatal("trace invalid:\n%s", errbuf);
+      if (p7_trace_Score(tr, dsq, gm, &sc)            != eslOK) esl_fatal("trace scoring failed"); 
+
+      maxsc = ESL_MAX(sc, maxsc);
+      if (sc > vsc) esl_fatal("sampled trace has score > optimal Viterbi path; not possible");
+      p7_trace_Reuse(tr);
+    }
+  if (esl_FCompare(maxsc, vsc, 0.1) != eslOK) esl_fatal("stochastic trace failed to sample the Viterbi path");
+  
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+}
+#endif /*p7STOTRACE_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Test driver 
+ *****************************************************************/
+#ifdef p7STOTRACE_TESTDRIVE
+/* gcc -g -Wall -o stotrace_utest -Dp7STOTRACE_TESTDRIVE -I.. -L.. -I../../easel -L../../easel stotrace.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for stochastic Viterbi traceback (non-optimized version)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go     = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r      = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc    = NULL;
+  P7_HMM         *hmm    = NULL;
+  P7_PROFILE     *gm     = NULL;
+  P7_OPROFILE    *om     = NULL;
+  P7_BG          *bg     = NULL;
+  ESL_DSQ        *dsq    = NULL;
+  ESL_SQ         *sq     = NULL;
+  int             M      = 6;
+  int             L      = 10;
+  int             ntrace = 1000;
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if ((om = p7_oprofile_Create(gm->M, abc))         == NULL)  esl_fatal("failed to create optimized profile");
+  if (p7_oprofile_Convert(gm, om)                   != eslOK) esl_fatal("failed to convert profile");
+
+  /* Test with randomly generated (iid) sequence */
+  if ((dsq = malloc(sizeof(ESL_DSQ) *(L+2)))  == NULL)  esl_fatal("malloc failed");
+  if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+  utest_stotrace(go, r, abc, gm, om, dsq, L, ntrace);
+
+  /* Test with seq sampled from profile */
+  if ((sq = esl_sq_CreateDigital(abc))             == NULL) esl_fatal("sequence allocation failed");
+  if (p7_ProfileEmit(r, hmm, gm, bg, sq, NULL)    != eslOK) esl_fatal("profile emission failed");
+  utest_stotrace(go, r, abc, gm, om, sq->dsq, sq->n, ntrace);
+   
+  esl_sq_Destroy(sq);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+/*****************************************************************
+ * 6. Example.
+ *****************************************************************/
+#ifdef p7STOTRACE_EXAMPLE
+/* 
+   gcc -g -Wall -std=gnu99 -o stotrace_example -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_EXAMPLE stotrace.c -lhmmer -leasel -lm
+   ./example <hmmfile> <seqfile>
+ */ 
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",     0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the sampled trace to stdout",         0 },
+  { "-N",        eslARG_INT,      "1", NULL, NULL,  NULL,  NULL, NULL, "number of traces to sample",               0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of stochastic backtrace (non-optimized version)";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  ESL_RANDOMNESS *rng     = esl_randomness_CreateFast(0);
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+  float           vsc, fsc, tsc;
+  char            errbuf[eslERRBUFSIZE];
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);   p7_oprofile_Convert(gm, om);
+
+  fwd = p7_omx_Create(gm->M, sq->n, sq->n);
+  gx  = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_Create();
+
+  p7_GViterbi(sq->dsq, sq->n, gm, gx,  &vsc);
+  p7_Forward (sq->dsq, sq->n, om, fwd, &fsc);
+
+  for (i = 0; i < N; i++)
+    {
+      p7_StochasticTrace(rng, sq->dsq, sq->n, om, fwd, tr);
+      p7_trace_Score(tr, sq->dsq, gm, &tsc);
+  
+      if (esl_opt_GetBoolean(go, "-t") == TRUE) p7_trace_Dump(stdout, tr, gm, sq->dsq);
+      if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK)  p7_Die("trace %d fails validation:\n%s\n", i, errbuf);
+
+      printf("Sampled trace:  %.4f nats\n", tsc);
+      p7_trace_Reuse(tr);
+    }
+  printf("Forward score:  %.4f nats\n", fsc);
+  printf("Viterbi score:  %.4f nats\n", vsc);
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_randomness_Destroy(rng);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_EXAMPLE*/
+/*------------------------ end, example -------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/vitfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/vitfilter.c
new file mode 100755
index 0000000..6fb5bac
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/vitfilter.c
@@ -0,0 +1,518 @@
+/* Non-optimized Viterbi filter implementation.
+ * 
+ * It calculates a close approximation of the Viterbi score, in
+ * limited precision (signed words: 16 bits) and range. It may overflow on
+ * high scoring sequences, but this indicates that the sequence is a
+ * high-scoring hit worth examining more closely anyway.  It will not
+ * underflow, in local alignment mode.
+ * 
+ * Contents:
+ *   1. Viterbi filter implementation.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information
+ * 
+ * MSF Tue Nov 3, 2009 [Janelia]
+ * SVN $Id: vitfilter.c 4103 2012-06-24 02:09:43Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. Viterbi filter implementation.
+ *****************************************************************/
+
+/* Function:  p7_ViterbiFilter()
+ * Synopsis:  Calculates Viterbi score, vewy vewy fast, in limited precision.
+ * Incept:    MSF Tue Nov 3, 2009 [Janelia]
+ *
+ * Purpose:   Calculates an approximation of the Viterbi score for sequence
+ *            <dsq> of length <L> residues, using optimized profile <om>,
+ *            and a preallocated one-row DP matrix <ox>. Return the 
+ *            estimated Viterbi score (in nats) in <ret_sc>.
+ *            
+ *            Score may overflow (and will, on high-scoring
+ *            sequences), but will not underflow. 
+ *            
+ *            The model must be in a local alignment mode; other modes
+ *            cannot provide the necessary guarantee of no underflow.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: Viterbi score (in nats)          
+ *
+ * Returns:   <eslOK> on success;
+ *            <eslERANGE> if the score overflows; in this case
+ *            <*ret_sc> is <eslINFINITY>, and the sequence can 
+ *            be treated as a high-scoring hit.
+ */
+int
+p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  int status;
+  if ((status = p7_gmx_GrowTo(ox, om->M, L)) != eslOK) return status;
+  return p7_GViterbi(dsq, L, om, ox, ret_sc);
+}
+/*---------------- end, p7_ViterbiFilter() ----------------------*/
+
+
+
+/* Function:  p7_ViterbiFilter_longtarget()
+ * Synopsis:  Finds windows within potentially long sequence blocks with Viterbi
+ *            scores above threshold (vewy vewy fast, in limited precision)
+ *
+ * Purpose:   Calculates the Viterbi score for regions of sequence <dsq>,
+ *            and captures the positions at which such regions exceed the
+ *            score required to be significant in the eyes of the calling
+ *            function (usually p=0.001).
+ *
+ *            The resulting landmarks are converted to subsequence
+ *            windows by the calling function
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            filtersc   - null or bias correction, required for translating a P-value threshold into a score threshold
+ *            P          - p-value below which a region is captured as being above threshold
+ *            windowlist - RETURN: array of hit windows (start and end of diagonal) for the above-threshold areas
+ *
+ * Returns:   <eslOK> on success;
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small
+ *
+ * Xref:      See p7_ViterbiFilter()
+ */
+int
+p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                            float filtersc, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+  int status;
+  if ((status = p7_gmx_GrowTo(ox, om->M, L)) != eslOK) return status;
+  return p7_GViterbi_longtarget(dsq, L, om, ox, filtersc, P, windowlist);
+
+}
+/*---------------- end, p7_ViterbiFilter() ----------------------*/
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7VITFILTER_BENCHMARK
+/* -c, -x are used for debugging, testing; see msvfilter.c for explanation */
+
+/* 
+   gcc -o vitfilter_benchmark -std=gnu99 -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7VITFILTER_BENCHMARK vitfilter.c -lhmmer -leasel -lm 
+   icc -o vitfilter_benchmark -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7VITFILTER_BENCHMARK vitfilter.c -lhmmer -leasel -lm 
+
+   ./benchmark-vitfilter <hmmfile>          runs benchmark 
+   ./benchmark-vitfilter -N100 -c <hmmfile> compare scores to generic impl
+   ./benchmark-vitfilter -N100 -x <hmmfile> compare scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for Viterbi filter";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsVF(om, gm);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Run the benchmark */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_ViterbiFilter(dsq, L, om, ox, &sc1);   
+
+      if (esl_opt_GetBoolean(go, "-c")) 
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+
+      if (esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITFILTER_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7VITFILTER_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* ViterbiFilter() unit test
+ * 
+ * We can check that scores are identical (within machine error) to
+ * scores of generic DP with scores rounded the same way.  Do this for
+ * a random model of length <M>, for <N> test sequences of length <L>.
+ * 
+ * We assume that we don't accidentally generate a high-scoring random
+ * sequence that overflows ViterbiFilter()'s limited range.
+ * 
+ */
+static void
+utest_viterbi_filter(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, L, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float        sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_profile_SameAsVF(om, gm);	/* round and scale the scores in <gm> the same as in <om> */
+
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_ViterbiFilter(dsq, L, om, ox, &sc1);
+      p7_GViterbi     (dsq, L, gm, gx, &sc2);
+
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("viterbi filter unit test failed: scores differ (%.2f, %.2f)", sc1, sc2);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7VITFILTER_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7VITFILTER_TESTDRIVE
+/* 
+   gcc -g -Wall -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitfilter_utest -Dp7VITFILTER_TESTDRIVE vitfilter.c -lhmmer -leasel -lm
+   ./vitfilter_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the non-optimized implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("ViterbiFilter() tests, DNA\n");
+  utest_viterbi_filter(r, abc, bg, M, L, N);   
+  utest_viterbi_filter(r, abc, bg, 1, L, 10);  
+  utest_viterbi_filter(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("ViterbiFilter() tests, protein\n");
+  utest_viterbi_filter(r, abc, bg, M, L, N); 
+  utest_viterbi_filter(r, abc, bg, 1, L, 10);
+  utest_viterbi_filter(r, abc, bg, M, 1, 10);
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITFILTER_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7VITFILTER_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitfilter_example -Dp7VITFILTER_EXAMPLE vitfilter.c -lhmmer -leasel -lm
+   ./vitfilter_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Viterbi filter algorithm";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           vfraw, nullsc, vfscore;
+  float           graw, gscore;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, sq->n);
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);        dumps the optimized profile
+     p7_omx_SetDumpMode(ox, TRUE);        makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT); dumps a generic DP matrix
+  */
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(ox, om->M, 0,    sq->n); 
+      p7_gmx_GrowTo(gx, gm->M,       sq->n); 
+
+      p7_ViterbiFilter  (sq->dsq, sq->n, om, ox, &vfraw);
+      p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
+      vfscore = (vfraw - nullsc) / eslCONST_LOG2;
+      P        = esl_gumbel_surv(vfscore,  om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+
+      p7_GViterbi       (sq->dsq, sq->n, gm, gx, &graw); 
+      gscore   = (graw - nullsc) / eslCONST_LOG2;
+      gP       = esl_gumbel_surv(gscore,  gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%7.2f\t%9.2g\t%7.2f\n", sq->name, hmm->name, P, vfscore, gP, gscore);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, vfscore, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("vit filter raw score: %.2f nats\n", vfraw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", vfscore);
+	  printf("P-value:              %g\n",        P);
+	  printf("GViterbi raw score:   %.2f nats\n", graw);
+	  printf("GViterbi seq score:   %.2f bits\n", gscore);
+	  printf("GViterbi P-value:     %g\n",        gP);
+	}
+      
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITFILTER_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/vitscore.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/vitscore.c
new file mode 100755
index 0000000..c788681
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_dummy/vitscore.c
@@ -0,0 +1,401 @@
+/* Viterbi score implementation; non-optimized.
+ * 
+ * This Viterbi routine is pass through to the generic
+ * Viterbi routine.
+ * 
+ * Contents:
+ *   1. Viterbi score implementation.
+ *   2. Benchmark driver. 
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * MSF, Tue Nov 03, 2009 [Janelia]
+ * SVN $Id: vitscore.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+/*****************************************************************
+ * 1. Viterbi score implementation
+ *****************************************************************/
+
+/* Function:  p7_ViterbiScore()
+ * Synopsis:  Calculates Viterbi score.
+ * Incept:    MSF, Tue Nov 03, 2009 [Janelia]
+ *
+ * Purpose:   Calculates the Viterbi score for sequence <dsq> of
+ *            length <L> residues, using profile <om>. Return the
+ *            Viterbi score (in nats) in <ret_sc>.
+ *            
+ *            The score is calculated using the generic Viterbi
+ *            routine.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: Viterbi score (in nats)          
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_ViterbiScore(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  return p7_GViterbi(dsq, L, om, ox, ret_sc);
+}
+/*------------------ end, p7_ViterbiScore() ---------------------*/
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7VITSCORE_BENCHMARK
+/* -c, -x are used for debugging, testing. See msvfilter.c for
+ * an explanation. Here -c and -x are the same: both compare
+ * to p7_GViterbi() scores.
+ */
+/* 
+  gcc -o benchmark-vitscore -std=gnu99 -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7VITSCORE_BENCHMARK vitscore.c -lhmmer -leasel -lm 
+  icc -o benchmark-vitscore -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7VITSCORE_BENCHMARK vitscore.c -lhmmer -leasel -lm 
+
+  ./benchmark-vitscore <hmmfile>            runs benchmark 
+  ./benchmark-vitscore -N100 -c <hmmfile>   compare scores to generic impl
+  ./benchmark-vitscore -N100 -x <hmmfile>   equate scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for non-optimized ViterbiScore()";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+  p7_oprofile_Logify(om);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Run the benchmark */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_ViterbiScore (dsq, L, om, ox, &sc1);   
+
+      if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITSCORE_BENCHMARK*/
+/*------------------- end, benchmark driver ---------------------*/
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7VITSCORE_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* ViterbiScore() unit test
+ * 
+ * We can compare these scores to GViterbi() almost exactly; the only
+ * differences should be negligible roundoff errors. Must convert
+ * the optimized profile to lspace, though, rather than pspace.
+ */
+static void
+utest_viterbi_score(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_oprofile_Logify(om);
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_ViterbiScore(dsq, L, om, ox, &sc1);
+      p7_GViterbi    (dsq, L, gm, gx, &sc2);
+
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("viterbi score unit test failed: scores differ");
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7VITSCORE_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7VITSCORE_TESTDRIVE
+/* 
+   gcc -g -Wall -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitscore_utest -Dp7VITSCORE_TESTDRIVE vitscore.c -lhmmer -leasel -lm
+   ./vitscore_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the non-optimized implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_viterbi_score(r, abc, bg, M, L, N);   
+  utest_viterbi_score(r, abc, bg, 1, L, 10);  
+  utest_viterbi_score(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_viterbi_score(r, abc, bg, M, L, N);   
+  utest_viterbi_score(r, abc, bg, 1, L, 10);  
+  utest_viterbi_score(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITSCORE_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7VITSCORE_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o example -Dp7VITSCORE_EXAMPLE vitscore.c -lhmmer -leasel -lm
+   ./example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_dummy.h"
+
+int 
+main(int argc, char **argv)
+{
+  char           *hmmfile = argv[1];
+  char           *seqfile = argv[2];
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           sc;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_Logify(om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, sq->n);
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);         dumps the optimized profile
+     p7_omx_SetDumpMode(ox, TRUE);         makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);  dumps a generic DP matrix
+  */
+
+  p7_ViterbiScore(sq->dsq, sq->n, om, ox, &sc);  printf("viterbi (non-optimized):  %.2f nats\n", sc);
+  p7_GViterbi    (sq->dsq, sq->n, gm, gx, &sc);  printf("viterbi (generic):        %.2f nats\n", sc);
+
+  /* now in a real app, you'd need to convert raw nat scores to final bit
+   * scores, by subtracting the null model score and rescaling.
+   */
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  return 0;
+}
+#endif /*p7VITSCORE_EXAMPLE*/
+/*-------------------------- end, example ------------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/00MANIFEST b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/00MANIFEST
new file mode 100755
index 0000000..0be925c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/00MANIFEST
@@ -0,0 +1,34 @@
+
+
+================================================================
+= Overall structure (P7_OPROFILE, P7_OMX)
+================================================================                 
+
+impl_sse.h    :  declarations, including P7_OPROFILE, P7_OMX, macros, functions
+p7_oprofile.c :  vectorized profile structure
+p7_omx.c      :  vectorized DP matrix
+io.c          :  i/o of vectorized profiles
+
+
+================================================================
+= Dynamic programming routines for scoring target sequences
+================================================================
+
+msvfilter.c   :  p7_MSVFilter()      - main acceleration routine
+vitfilter.c   :  p7_ViterbiFilter()  - secondary acceleration routine
+fwdback.c     :  p7_Forward()        - Forward algorithm
+                 p7_Backward()       - Backward algorithm
+                 p7_ForwardParser()  - streamlined Forward used for first pass domain definition
+                 p7_BackwardParser() - streamlined Backward used for first pass domain definition 
+
+
+================================================================
+= Postprocessing domains, alignments, and null2 model
+================================================================
+
+decoding.c    : posterior decoding of Forward/Backward matrices
+stotrace.c    : stochastic traceback, sampling paths from Forward matrices
+optacc.c      : "optimal accuracy" alignment algorithm, using posterior decoding
+null2.c       : null2 model for biased composition corrections
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/Makefile.in
new file mode 100755
index 0000000..cb147b3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/Makefile.in
@@ -0,0 +1,193 @@
+top_srcdir  = @top_srcdir@
+srcdir      = @srcdir@
+VPATH       = @srcdir@ 
+SHELL       = /bin/sh
+
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+
+CC          = @CC@
+CFLAGS      = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS   = @SIMD_CFLAGS@
+CPPFLAGS    = @CPPFLAGS@
+LDFLAGS     = @LDFLAGS@
+DEFS        = @DEFS@
+LIBS        = -lhmmer -leasel @LIBS@ -lm
+
+AR          = @AR@ 
+RANLIB      = @RANLIB@
+INSTALL     = @INSTALL@
+
+ESLDIR         = @HMMER_ESLDIR@
+MYLIBDIRS      = -L../../${ESLDIR} -L.. 
+MYINCDIRS      = -I../../${ESLDIR} \
+		 -I${top_srcdir}/easel \
+		 -I. \
+		 -I.. \
+		 -I${srcdir} \
+		 -I${top_srcdir}/src \
+		 -I${srcdir}/.. 
+
+OBJS =  decoding.o\
+	fwdback.o\
+	io.o\
+	ssvfilter.o\
+	msvfilter.o\
+	null2.o\
+	optacc.o\
+	stotrace.o\
+	vitfilter.o\
+	p7_omx.o\
+	p7_oprofile.o\
+	mpi.o
+
+HDRS =  impl_sse.h
+
+UTESTS = @MPI_UTESTS@\
+	decoding_utest\
+	fwdback_utest\
+	io_utest\
+	msvfilter_utest\
+	null2_utest\
+	optacc_utest\
+	stotrace_utest\
+	vitfilter_utest
+
+BENCHMARKS = @MPI_BENCHMARKS@\
+	decoding_benchmark\
+	fwdback_benchmark\
+	msvfilter_benchmark\
+	null2_benchmark\
+	optacc_benchmark\
+	stotrace_benchmark\
+	vitfilter_benchmark
+
+EXAMPLES =\
+	fwdback_example\
+	io_example\
+	msvfilter_example\
+	optacc_example\
+	p7_oprofile_example\
+	stotrace_example\
+	vitfilter_example
+
+# beautification magic stolen from git 
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: all dev check tests install uninstall distclean clean 
+
+
+all:   libhmmer-impl.stamp
+dev:   ${UTESTS} ${BENCHMARKS} ${EXAMPLES}
+check: ${UTESTS}
+tests: ${UTESTS}
+
+libhmmer-impl.stamp: ${OBJS}
+	${QUIET_AR}${AR} -r ../libhmmer.a $? > /dev/null 2>&1
+	@${RANLIB} ../libhmmer.a
+	@echo "impl_lib objects compiled:\c" > $@
+	@date >> $@
+
+.FORCE:
+
+${OBJS}:   ${HDRS} ../hmmer.h 
+
+.c.o:  
+	${QUIET_CC}${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${DEFS} ${PTHREAD_CFLAGS} ${MYINCDIRS} -o $@ -c $<
+
+${UTESTS}: libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_utest//'| sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_TESTDRIVE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${BENCHMARKS}: libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_benchmark//' | sed -e 's/^p7_//'`;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_BENCHMARK ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${EXAMPLES}: libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_example//'| sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_EXAMPLE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+
+install:
+	for file in ${HDRS}; do \
+	   ${INSTALL} -m 0644 ${srcdir}/$$file ${DESTDIR}${includedir}/ ;\
+	done
+
+uninstall:
+	for file in ${HDRS}; do \
+	   rm -f ${DESTDIR}${includedir}/$$file ;\
+	done
+
+distclean: clean
+	-rm -f Makefile 
+
+clean:
+	-rm -f libhmmer-impl.stamp
+	-rm -f ${UTESTS}
+	-rm -f ${BENCHMARKS}
+	-rm -f ${EXAMPLES}
+	-rm -f *.o *~ Makefile.bak core TAGS gmon.out cscope.out
+	-rm -f *.gcno
+	for prog in ${UTESTS} ${BENCHMARKS} ${EXAMPLES}; do\
+	   if test -d $$prog.dSYM; then rm -rf $$prog.dSYM; fi;\
+	done
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_sse/Makefile.in $
+# SVN $Id: Makefile.in 4321 2012-11-27 16:15:47Z wheelert $
+################################################################
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/decoding.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/decoding.c
new file mode 100755
index 0000000..e41e6cd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/decoding.c
@@ -0,0 +1,453 @@
+/* Posterior decoding algorithms; SSE versions.
+ * 
+ * Contents:
+ *   1. Posterior decoding algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * SRE, Mon Aug 18 08:15:50 2008 [Janelia]
+ * SVN $Id: decoding.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+/*****************************************************************
+ * 1. Posterior decoding algorithms.
+ *****************************************************************/
+
+/* Function:  p7_Decoding()
+ * Synopsis:  Posterior decoding of residue assignment.
+ * Incept:    SRE, Fri Aug  8 14:29:42 2008 [UA217 to SFO]
+ *
+ * Purpose:   Identical to <p7_GDecoding()> except that <om>, <oxf>,
+ *            <oxb> are SSE optimized versions. See <p7_GDecoding()>
+ *            documentation for more info.
+ *
+ * Args:      om   - profile (must be the same that was used to fill <oxf>, <oxb>).
+ *            oxf  - filled Forward matrix 
+ *            oxb  - filled Backward matrix
+ *            pp   - RESULT: posterior decoding matrix.
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            Returns <eslERANGE> if numeric range of floating-point
+ *            values is exceeded during posterior probability
+ *            calculations. In this case, the <pp> matrix must not be
+ *            used by the caller; it will contain <NaN> values. To be
+ *            safe, the caller should recalculate a generic posterior
+ *            decoding matrix instead -- generic calculations are done
+ *            in log probability space and are robust. 
+ *            
+ *            However, I currently believe that this overflow only
+ *            occurs on an unusual and ignorable situation: when a
+ *            <p7_UNILOCAL> model is used on a region that contains
+ *            two or more high scoring distinct alignments to the
+ *            model. And that only happens if domain definition fails,
+ *            after stochastic clustering, and an envelope that we
+ *            pass to p7_domaindef.c::rescore_isolated_domain()
+ *            erroneously contains 2+ distinct domains. (Note that
+ *            this is different from having 2+ expected B states: that
+ *            can happen normally, if a single consistent domain is
+ *            better described by 2+ passes through the model). And I
+ *            strongly believe all this only can happen on repetitive
+ *            or biased-composition junk that we want to ignore anyway.
+ *            Therefore the caller should be safe in ignoring any domain
+ *            for which <p7_Decoding()> returns <eslERANGE>.
+ *            
+ *            Exception (bug #h68): see hmmalign.c, where the model is
+ *            in unilocal mode, and it is entirely possible for the
+ *            user to give us a multidomain protein.
+ *
+ * Throws:    (no abnormal error conditions)
+ * 
+ * Xref:      [J3/119-121]: for analysis of numeric range issues when
+ *            <scaleproduct> overflows.
+ */
+int
+p7_Decoding(const P7_OPROFILE *om, const P7_OMX *oxf, P7_OMX *oxb, P7_OMX *pp)
+{
+  __m128 *ppv;
+  __m128 *fv;
+  __m128 *bv;
+  __m128  totrv;
+  int    L  = oxf->L;
+  int    M  = om->M;
+  int    Q  = p7O_NQF(M);	
+  int    i,q;
+  float  scaleproduct = 1.0 / oxb->xmx[p7X_N];
+
+  pp->M = M;
+  pp->L = L;
+
+  ppv = pp->dpf[0];
+  for (q = 0; q < Q; q++) {
+    *ppv = _mm_setzero_ps(); ppv++;
+    *ppv = _mm_setzero_ps(); ppv++;
+    *ppv = _mm_setzero_ps(); ppv++;
+  }
+  pp->xmx[p7X_E] = 0.0;
+  pp->xmx[p7X_N] = 0.0;
+  pp->xmx[p7X_J] = 0.0;
+  pp->xmx[p7X_C] = 0.0;
+  pp->xmx[p7X_B] = 0.0;
+
+  for (i = 1; i <= L; i++)
+    {
+      ppv   =  pp->dpf[i];
+      fv    = oxf->dpf[i];
+      bv    = oxb->dpf[i];
+      totrv = _mm_set1_ps(scaleproduct * oxf->xmx[i*p7X_NXCELLS+p7X_SCALE]);
+
+      for (q = 0; q < Q; q++)
+	{
+	  /* M */
+	  *ppv = _mm_mul_ps(*fv,  *bv);
+	  *ppv = _mm_mul_ps(*ppv,  totrv);
+	  ppv++;  fv++;  bv++;
+
+	  /* D */
+	  *ppv = _mm_setzero_ps();
+	  ppv++;  fv++;  bv++;
+
+	  /* I */
+	  *ppv = _mm_mul_ps(*fv,  *bv);
+	  *ppv = _mm_mul_ps(*ppv,  totrv);
+	  ppv++;  fv++;  bv++;
+	}
+      pp->xmx[i*p7X_NXCELLS+p7X_E] = 0.0;
+      pp->xmx[i*p7X_NXCELLS+p7X_N] = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_N] * oxb->xmx[i*p7X_NXCELLS+p7X_N] * om->xf[p7O_N][p7O_LOOP] * scaleproduct;
+      pp->xmx[i*p7X_NXCELLS+p7X_J] = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_J] * oxb->xmx[i*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_LOOP] * scaleproduct;
+      pp->xmx[i*p7X_NXCELLS+p7X_C] = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_C] * oxb->xmx[i*p7X_NXCELLS+p7X_C] * om->xf[p7O_C][p7O_LOOP] * scaleproduct;
+      pp->xmx[i*p7X_NXCELLS+p7X_B] = 0.0;
+
+      if (oxb->has_own_scales) scaleproduct *= oxf->xmx[i*p7X_NXCELLS+p7X_SCALE] /  oxb->xmx[i*p7X_NXCELLS+p7X_SCALE];
+    }
+
+  if (isinf(scaleproduct)) return eslERANGE;
+  else                     return eslOK;
+}
+
+/* Function:  p7_DomainDecoding()
+ * Synopsis:  Posterior decoding of domain location.
+ * Incept:    SRE, Tue Aug  5 08:39:07 2008 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GDomainDecoding()> except that <om>, <oxf>,
+ *            <oxb> are SSE optimized versions. See <p7_GDomainDecoding()>
+ *            documentation for more info.
+ *
+ * Args:      gm   - profile
+ *            oxf  - filled Forward matrix
+ *            oxb  - filled Backward matrix
+ *            ddef - container for the results.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslERANGE> on numeric overflow. See commentary in
+ *            <p7_Decoding()>.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef)
+{
+  int   L             = oxf->L;
+  float scaleproduct  = 1.0 / oxb->xmx[p7X_N];
+  float njcp;
+  int   i;
+
+  ddef->btot[0] = 0.0;
+  ddef->etot[0] = 0.0;
+  ddef->mocc[0] = 0.0;
+  for (i = 1; i <= L; i++)
+    {
+      /* scaleproduct is prod_j=0^i-2 now */
+      ddef->btot[i] = ddef->btot[i-1] +
+	(oxf->xmx[(i-1)*p7X_NXCELLS+p7X_B] * oxb->xmx[(i-1)*p7X_NXCELLS+p7X_B] * oxf->xmx[(i-1)*p7X_NXCELLS+p7X_SCALE] * scaleproduct);
+
+      if (oxb->has_own_scales) scaleproduct *= oxf->xmx[(i-1)*p7X_NXCELLS+p7X_SCALE] /  oxb->xmx[(i-1)*p7X_NXCELLS+p7X_SCALE]; 
+      /* scaleproduct is prod_j=0^i-1 now */
+
+      ddef->etot[i] = ddef->etot[i-1] +
+	(oxf->xmx[i*p7X_NXCELLS+p7X_E] * oxb->xmx[i*p7X_NXCELLS+p7X_E] * oxf->xmx[i*p7X_NXCELLS+p7X_SCALE] * scaleproduct);
+
+      njcp  = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_N] * oxb->xmx[i*p7X_NXCELLS+p7X_N] * om->xf[p7O_N][p7O_LOOP] * scaleproduct;
+      njcp += oxf->xmx[(i-1)*p7X_NXCELLS+p7X_J] * oxb->xmx[i*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_LOOP] * scaleproduct;
+      njcp += oxf->xmx[(i-1)*p7X_NXCELLS+p7X_C] * oxb->xmx[i*p7X_NXCELLS+p7X_C] * om->xf[p7O_C][p7O_LOOP] * scaleproduct;
+      ddef->mocc[i] = 1. - njcp;
+    }
+  ddef->L = oxf->L;
+
+  if (isinf(scaleproduct)) return eslERANGE;
+  else                     return eslOK;
+}
+/*------------------ end, posterior decoding --------------------*/
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7DECODING_BENCHMARK
+/*
+   icc  -O3 -static -o decoding_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7DECODING_BENCHMARK decoding.c -lhmmer -leasel -lm 
+   ./decoding_benchmark <hmmfile>     
+                    RRM_1 (M=72)       Caudal_act (M=136)     SMC_N (M=1151)
+                 -----------------    ------------------     ---------------
+   21 Aug 08      3.52u (409 Mc/s)     15.36u (177 Mc/s)     318.78u (72.2 Mc/s)
+
+   The length dependency probably indicates L1 cache missing; because we're 
+   manipulating 3 matrices at the same time, we can't fit the calculation 
+   in cache.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for posterior residue decoding, SSE version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  P7_OMX         *pp      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  fwd = p7_omx_Create(gm->M, L, L);
+  bck = p7_omx_Create(gm->M, L, L);
+  pp  = p7_omx_Create(gm->M, L, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, fwd,      &fsc);
+  p7_Backward(dsq, L, om, fwd, bck, &bsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_Decoding(om, fwd, bck, pp);              
+  esl_stopwatch_Stop(w);
+
+  Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(pp);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7DECODING_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7DECODING_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* compare results to GDecoding(). */
+static void
+utest_decoding(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N, float tolerance)
+{
+  char        *msg  = "decoding unit test failed";
+  P7_HMM      *hmm  = NULL;
+  P7_PROFILE  *gm   = NULL;
+  P7_OPROFILE *om   = NULL;
+  ESL_DSQ     *dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd  = p7_omx_Create(M, L, L);
+  P7_OMX      *bck  = p7_omx_Create(M, L, L);
+  P7_OMX      *pp   = p7_omx_Create(M, L, L);
+  P7_GMX      *gxf  = p7_gmx_Create(M, L);
+  P7_GMX      *gxb  = p7_gmx_Create(M, L);
+  P7_GMX      *gxp1 = p7_gmx_Create(M, L);
+  P7_GMX      *gxp2 = p7_gmx_Create(M, L);
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om) != eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      if (p7_Forward       (dsq, L, om, fwd,      &fsc1) != eslOK) esl_fatal(msg);
+      if (p7_Backward      (dsq, L, om, fwd, bck, &bsc1) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, fwd, bck, pp)                  != eslOK) esl_fatal(msg);
+      if (p7_omx_FDeconvert(pp, gxp1)                    != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (dsq, L, gm, gxf, &fsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GBackward(dsq, L, gm, gxb, &bsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GDecoding(gm, gxf, gxb, gxp2)               != eslOK) esl_fatal(msg);
+
+      // p7_gmx_Dump(stdout, gxp1, p7_DEFAULT);
+      // p7_gmx_Dump(stdout, gxp2, p7_DEFAULT);
+
+      if (p7_gmx_Compare(gxp1, gxp2, tolerance)          != eslOK) esl_fatal(msg);
+    }
+
+  p7_gmx_Destroy(gxp1);
+  p7_gmx_Destroy(gxp2);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(pp);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+#endif /*p7DECODING_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7DECODING_TESTDRIVE
+
+/*
+  gcc -o decoding_utest -msse2 -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7DECODING_TESTDRIVE decoding.c -lhmmer -leasel -lm
+  ./decoding_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  { "-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                  0},
+  { "-s",  eslARG_INT,     "42",  NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",        0 },
+  { "-t",  eslARG_REAL,  "0.01",  NULL, NULL, NULL, NULL, NULL, "floating point comparison tolerance",  0 },
+  { "-L",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled sequences",          0 },
+  { "-M",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled test profile",       0 },
+  { "-N",  eslARG_INT,     "10",  NULL, NULL, NULL, NULL, NULL, "number of sampled test sequences",     0 },
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for SSE posterior decoding";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+  
+  p7_FLogsumInit();
+
+  utest_decoding(r, abc, bg, M, L, N, tol);
+  
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  return eslOK;
+}
+#endif /*p7DECODING_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7DECODING_EXAMPLE
+
+#endif /*p7DECODING_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/fbparsers.tex b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/fbparsers.tex
new file mode 100755
index 0000000..f8c601a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/fbparsers.tex
@@ -0,0 +1,32 @@
+\documentclass[11pt]{article}
+\usepackage{times}
+\usepackage{fullpage}
+\begin{document}
+
+\subsection{The Backward algorithm for Plan7 profiles: serial version}
+
+\begin{tabbing}
+
+Initialization on row $L$:\\
+\> $F^\mathrm{J}(L) = F^\mathrm{B}(L) = F^\mathrm{N}(L) = 0; $\\
+\> $F^\mathrm{C}(L) = t_{\mathrm{CT}}; $\\
+\> $F^\mathrm{E}(L) = F^\mathrm{C}(L) * t_{\mathrm{EC}}; $\\
+\> $F^\mathrm{M}(L,M) = F^\mathrm{E}(L); $\\
+\> $F^\mathrm{D}(L,M) = F^\mathrm{E}(L); $\\
+\> for $k = M-1$ down to $1$: \\
+ \>\> $F^\mathrm{M}(L,k) = F^\mathrm{D}(L,k+1) * t_{\mathrm{M}_k\mathrm{D}_{k+1}} * F^\mathrm{E}(L); $\\
+ \>\> $F^\mathrm{D}(L,k) = F^\mathrm{D}(L,k+1) * t_{\mathrm{D}_k\mathrm{D}_{k+1}} * F^\mathrm{E}(L); $\\
+ \>\> $F^\mathrm{I}(L,k) = 0.
+
+
+
+
+
+\> $V_k^\mathrm{M}(0) = -\infty \quad \forall k.$\\
+\\
+
+
+
+\end{tabbing}
+
+\end{document}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/fwdback.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/fwdback.c
new file mode 100755
index 0000000..05b7048
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/fwdback.c
@@ -0,0 +1,1207 @@
+/* SSE implementation of Forward and Backward algorithms.
+ *
+ * Both profile and DP matrix are striped and interleaved, for fast
+ * SIMD vector operations. Calculations are in probability space
+ * (scaled odds ratios, actually) rather than log probabilities,
+ * allowing fast multiply/add operations rather than slow Logsum()
+ * calculations. Sparse rescaling is used to achieve full dynamic
+ * range of scores.
+ * 
+ * The Forward and Backward implementations may be used either in a
+ * full O(ML) mode that keeps an entire DP matrix, or in a O(M+L)
+ * linear memory "parsing" mode that only keeps one row of memory for
+ * the main MDI states and one column 0..L for the special states
+ * B,E,N,C,J. Keeping a full matrix allows subsequent stochastic
+ * traceback or posterior decoding of any state. In parsing mode, we
+ * can do posterior decoding on the special states and determine
+ * regions of the target sequence that are generated by the
+ * nonhomology states (NCJ) versus not -- thus, identifying where
+ * high-probability "regions" are, the first step of identifying the
+ * domain structure of a target sequence.
+ * 
+ * Contents:
+ *   1. Forward/Backward wrapper API
+ *   2. Forward and Backward engine implementations
+ *   4. Benchmark driver.
+ *   5. Unit tests.
+ *   6. Test driver.
+ *   7. Example.
+ *   8. Copyright and license information.
+ * 
+ * SRE, Thu Jul 31 08:43:20 2008 [Janelia]
+ * SVN $Id: fwdback.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static int forward_engine (int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+static int backward_engine(int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+
+
+/*****************************************************************
+ * 1. Forward/Backward API.
+ *****************************************************************/
+
+/* Function:  p7_Forward()
+ * Synopsis:  The Forward algorithm, full matrix fill version.
+ * Incept:    SRE, Fri Aug 15 18:59:43 2008 [Casa de Gatos]
+ *
+ * Purpose:   Calculates the Forward algorithm for sequence <dsq> of
+ *            length <L> residues, using optimized profile <om>, and a
+ *            preallocated DP matrix <ox>. Upon successful return, <ox>
+ *            contains the filled Forward matrix, and <*opt_sc>
+ *            optionally contains the raw Forward score in nats.
+ *            
+ *            This calculation requires $O(ML)$ memory and time.
+ *            The caller must provide a suitably allocated full <ox>
+ *            by calling <ox = p7_omx_Create(M, L, L)> or
+ *            <p7_omx_GrowTo(ox, M, L, L)>.
+ *
+ *            The model <om> must be configured in local alignment
+ *            mode. The sparse rescaling method used to keep
+ *            probability values within single-precision floating
+ *            point dynamic range cannot be safely applied to models in
+ *            glocal or global mode.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - RETURN: Forward DP matrix
+ *            opt_sc  - RETURN: Forward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int
+p7_Forward(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  ox->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (L     >= ox->validR)       ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= ox->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (! p7_oprofile_IsLocal(om)) ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+  return forward_engine(TRUE, dsq, L, om, ox, opt_sc);
+}
+
+/* Function:  p7_ForwardParser()
+ * Synopsis:  The Forward algorithm, linear memory parsing version.
+ * Incept:    SRE, Fri Aug 15 19:05:26 2008 [Casa de Gatos]
+ *
+ * Purpose:   Same as <p7_Forward() except that the full matrix isn't
+ *            kept. Instead, a linear $O(M+L)$ memory algorithm is
+ *            used, keeping only the DP matrix values for the special
+ *            (BENCJ) states. These are sufficient to do posterior
+ *            decoding to identify high-probability regions where
+ *            domains are.
+ * 
+ *            The caller must provide a suitably allocated "parsing"
+ *            <ox> by calling <ox = p7_omx_Create(M, 0, L)> or
+ *            <p7_omx_GrowTo(ox, M, 0, L)>.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - RETURN: Forward DP matrix
+ *            ret_sc  - RETURN: Forward score (in nats)          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int
+p7_ForwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  ox->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (ox->validR < 1)            ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= ox->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (! p7_oprofile_IsLocal(om)) ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+  return forward_engine(FALSE, dsq, L, om, ox, opt_sc);
+}
+
+
+
+/* Function:  p7_Backward()
+ * Synopsis:  The Backward algorithm; full matrix fill version.
+ * Incept:    SRE, Sat Aug 16 08:34:22 2008 [Janelia]
+ *
+ * Purpose:   Calculates the Backward algorithm for sequence <dsq> of
+ *            length <L> residues, using optimized profile <om>, and a
+ *            preallocated DP matrix <bck>. A filled Forward matrix
+ *            must also be provided in <fwd>, because we need to use
+ *            the same sparse scaling factors that Forward used. The
+ *            <bck> matrix is filled in, and the Backward score (in
+ *            nats) is optionally returned in <opt_sc>.
+ *            
+ *            This calculation requires $O(ML)$ memory and time. The
+ *            caller must provide a suitably allocated full <bck> by
+ *            calling <bck = p7_omx_Create(M, L, L)> or
+ *            <p7_omx_GrowTo(bck, M, L, L)>.
+ *            
+ *            Because only the sparse scaling factors are needed from
+ *            the <fwd> matrix, the caller may have this matrix
+ *            calculated either in full or parsing mode.
+ *            
+ *            The model <om> must be configured in local alignment
+ *            mode. The sparse rescaling method used to keep
+ *            probability values within single-precision floating
+ *            point dynamic range cannot be safely applied to models in
+ *            glocal or global mode.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            fwd     - filled Forward DP matrix, for scale factors
+ *            do_full - TRUE=full matrix; FALSE=linear memory parse mode
+ *            bck     - RETURN: filled Backward matrix
+ *            opt_sc  - optRETURN: Backward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int 
+p7_Backward(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  bck->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (L     >= bck->validR)       ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= bck->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (L     != fwd->L)            ESL_EXCEPTION(eslEINVAL, "fwd matrix size doesn't agree with length L");
+  if (! p7_oprofile_IsLocal(om))  ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+ return backward_engine(TRUE, dsq, L, om, fwd, bck, opt_sc);
+}
+
+
+
+/* Function:  p7_BackwardParser()
+ * Synopsis:  The Backward algorithm, linear memory parsing version.
+ * Incept:    SRE, Sat Aug 16 08:34:13 2008 [Janelia]
+ *
+ * Purpose:   Same as <p7_Backward()> except that the full matrix isn't
+ *            kept. Instead, a linear $O(M+L)$ memory algorithm is
+ *            used, keeping only the DP matrix values for the special
+ *            (BENCJ) states. These are sufficient to do posterior
+ *            decoding to identify high-probability regions where
+ *            domains are.
+ *       
+ *            The caller must provide a suitably allocated "parsing"
+ *            <bck> by calling <bck = p7_omx_Create(M, 0, L)> or
+ *            <p7_omx_GrowTo(bck, M, 0, L)>.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            fwd     - filled Forward DP matrix, for scale factors
+ *            bck     - RETURN: filled Backward matrix
+ *            opt_sc  - optRETURN: Backward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int 
+p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  bck->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (bck->validR < 1)            ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= bck->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (L     != fwd->L)            ESL_EXCEPTION(eslEINVAL, "fwd matrix size doesn't agree with length L");
+  if (! p7_oprofile_IsLocal(om))  ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+  return backward_engine(FALSE, dsq, L, om, fwd, bck, opt_sc);
+}
+
+
+
+/*****************************************************************
+ * 2. Forward/Backward engine implementations (called thru API)
+ *****************************************************************/
+
+static int
+forward_engine(int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+  register __m128 mpv, dpv, ipv;   /* previous row values                                       */
+  register __m128 sv;		   /* temp storage of 1 curr row value in progress              */
+  register __m128 dcv;		   /* delayed storage of D(i,q+1)                               */
+  register __m128 xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  register __m128 xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  __m128   zerov;		   /* splatted 0.0's in a vector                                */
+  float    xN, xE, xB, xC, xJ;	   /* special states' scores                                    */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over quads 0..nq-1                                */
+  int j;			   /* counter over DD iterations (4 is full serialization)      */
+  int Q       = p7O_NQF(om->M);	   /* segment length: # of vectors                              */
+  __m128 *dpc = ox->dpf[0];        /* current row, for use in {MDI}MO(dpp,q) access macro       */
+  __m128 *dpp;                     /* previous row, for use in {MDI}MO(dpp,q) access macro      */
+  __m128 *rp;			   /* will point at om->rfv[x] for residue x[i]                 */
+  __m128 *tp;			   /* will point into (and step thru) om->tfv                   */
+
+  /* Initialization. */
+  ox->M  = om->M;
+  ox->L  = L;
+  ox->has_own_scales = TRUE; 	/* all forward matrices control their own scalefactors */
+  zerov  = _mm_setzero_ps();
+  for (q = 0; q < Q; q++)
+    MMO(dpc,q) = IMO(dpc,q) = DMO(dpc,q) = zerov;
+  xE    = ox->xmx[p7X_E] = 0.;
+  xN    = ox->xmx[p7X_N] = 1.;
+  xJ    = ox->xmx[p7X_J] = 0.;
+  xB    = ox->xmx[p7X_B] = om->xf[p7O_N][p7O_MOVE];
+  xC    = ox->xmx[p7X_C] = 0.;
+
+  ox->xmx[p7X_SCALE] = 1.0;
+  ox->totscale       = 0.0;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpFBRow(ox, TRUE, 0, 9, 5, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=0, width=8, precision=5*/
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      dpp   = dpc;                      
+      dpc   = ox->dpf[do_full * i];     /* avoid conditional, use do_full as kronecker delta */
+      rp    = om->rfv[dsq[i]];
+      tp    = om->tfv;
+      dcv   = _mm_setzero_ps();
+      xEv   = _mm_setzero_ps();
+      xBv   = _mm_set1_ps(xB);
+
+      /* Right shifts by 4 bytes. 4,8,12,x becomes x,4,8,12.  Shift zeros on. */
+      mpv   = esl_sse_rightshift_ps(MMO(dpp,Q-1), zerov);
+      dpv   = esl_sse_rightshift_ps(DMO(dpp,Q-1), zerov);
+      ipv   = esl_sse_rightshift_ps(IMO(dpp,Q-1), zerov);
+      
+      for (q = 0; q < Q; q++)
+	{
+	  /* Calculate new MMO(i,q); don't store it yet, hold it in sv. */
+	  sv   =                _mm_mul_ps(xBv, *tp);  tp++;
+	  sv   = _mm_add_ps(sv, _mm_mul_ps(mpv, *tp)); tp++;
+	  sv   = _mm_add_ps(sv, _mm_mul_ps(ipv, *tp)); tp++;
+	  sv   = _mm_add_ps(sv, _mm_mul_ps(dpv, *tp)); tp++;
+	  sv   = _mm_mul_ps(sv, *rp);                  rp++;
+	  xEv  = _mm_add_ps(xEv, sv);
+	  
+	  /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+	   * {MDI}MX(q) is then the current, not the prev row
+	   */
+	  mpv = MMO(dpp,q);
+	  dpv = DMO(dpp,q);
+	  ipv = IMO(dpp,q);
+
+	  /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+	  MMO(dpc,q) = sv;
+	  DMO(dpc,q) = dcv;
+
+	  /* Calculate the next D(i,q+1) partially: M->D only;
+           * delay storage, holding it in dcv
+	   */
+	  dcv   = _mm_mul_ps(sv, *tp); tp++;
+
+	  /* Calculate and store I(i,q); assumes odds ratio for emission is 1.0 */
+	  sv         =                _mm_mul_ps(mpv, *tp);  tp++;
+	  IMO(dpc,q) = _mm_add_ps(sv, _mm_mul_ps(ipv, *tp)); tp++;
+	}	  
+
+      /* Now the DD paths. We would rather not serialize them but 
+       * in an accurate Forward calculation, we have few options.
+       */
+      /* dcv has carried through from end of q loop above; store it 
+       * in first pass, we add M->D and D->D path into DMX
+       */
+      /* We're almost certainly're obligated to do at least one complete 
+       * DD path to be sure: 
+       */
+      dcv        = esl_sse_rightshift_ps(dcv, zerov);
+      DMO(dpc,0) = zerov;
+      tp         = om->tfv + 7*Q;	/* set tp to start of the DD's */
+      for (q = 0; q < Q; q++) 
+	{
+	  DMO(dpc,q) = _mm_add_ps(dcv, DMO(dpc,q));	
+	  dcv        = _mm_mul_ps(DMO(dpc,q), *tp); tp++; /* extend DMO(q), so we include M->D and D->D paths */
+	}
+
+      /* now. on small models, it seems best (empirically) to just go
+       * ahead and serialize. on large models, we can do a bit better,
+       * by testing for when dcv (DD path) accrued to DMO(q) is below
+       * machine epsilon for all q, in which case we know DMO(q) are all
+       * at their final values. The tradeoff point is (empirically) somewhere around M=100,
+       * at least on my desktop. We don't worry about the conditional here;
+       * it's outside any inner loops.
+       */
+      if (om->M < 100)
+	{			/* Fully serialized version */
+	  for (j = 1; j < 4; j++)
+	    {
+	      dcv = esl_sse_rightshift_ps(dcv, zerov);
+	      tp  = om->tfv + 7*Q;	/* set tp to start of the DD's */
+	      for (q = 0; q < Q; q++) 
+		{ /* note, extend dcv, not DMO(q); only adding DD paths now */
+		  DMO(dpc,q) = _mm_add_ps(dcv, DMO(dpc,q));	
+		  dcv        = _mm_mul_ps(dcv, *tp);   tp++; 
+		}	    
+	    }
+	} 
+      else
+	{			/* Slightly parallelized version, but which incurs some overhead */
+	  for (j = 1; j < 4; j++)
+	    {
+	      register __m128 cv;	/* keeps track of whether any DD's change DMO(q) */
+
+	      dcv = esl_sse_rightshift_ps(dcv, zerov);
+	      tp  = om->tfv + 7*Q;	/* set tp to start of the DD's */
+	      cv  = zerov;
+	      for (q = 0; q < Q; q++) 
+		{ /* using cmpgt below tests if DD changed any DMO(q) *without* conditional branch */
+		  sv         = _mm_add_ps(dcv, DMO(dpc,q));	
+		  cv         = _mm_or_ps(cv, _mm_cmpgt_ps(sv, DMO(dpc,q))); 
+		  DMO(dpc,q) = sv;	                                    /* store new DMO(q) */
+		  dcv        = _mm_mul_ps(dcv, *tp);   tp++;            /* note, extend dcv, not DMO(q) */
+		}	    
+	      if (! _mm_movemask_ps(cv)) break; /* DD's didn't change any DMO(q)? Then done, break out. */
+	    }
+	}
+
+      /* Add D's to xEv */
+      for (q = 0; q < Q; q++) xEv = _mm_add_ps(DMO(dpc,q), xEv);
+
+      /* Finally the "special" states, which start from Mk->E (->C, ->J->B) */
+      /* The following incantation is a horizontal sum of xEv's elements  */
+      /* These must follow DD calculations, because D's contribute to E in Forward
+       * (as opposed to Viterbi)
+       */
+      xEv = _mm_add_ps(xEv, _mm_shuffle_ps(xEv, xEv, _MM_SHUFFLE(0, 3, 2, 1)));
+      xEv = _mm_add_ps(xEv, _mm_shuffle_ps(xEv, xEv, _MM_SHUFFLE(1, 0, 3, 2)));
+      _mm_store_ss(&xE, xEv);
+
+      xN =  xN * om->xf[p7O_N][p7O_LOOP];
+      xC = (xC * om->xf[p7O_C][p7O_LOOP]) +  (xE * om->xf[p7O_E][p7O_MOVE]);
+      xJ = (xJ * om->xf[p7O_J][p7O_LOOP]) +  (xE * om->xf[p7O_E][p7O_LOOP]);
+      xB = (xJ * om->xf[p7O_J][p7O_MOVE]) +  (xN * om->xf[p7O_N][p7O_MOVE]);
+      /* and now xB will carry over into next i, and xC carries over after i=L */
+
+      /* Sparse rescaling. xE above threshold? trigger a rescaling event.            */
+      if (xE > 1.0e4)	/* that's a little less than e^10, ~10% of our dynamic range */
+	{
+	  xN  = xN / xE;
+	  xC  = xC / xE;
+	  xJ  = xJ / xE;
+	  xB  = xB / xE;
+	  xEv = _mm_set1_ps(1.0 / xE);
+	  for (q = 0; q < Q; q++)
+	    {
+	      MMO(dpc,q) = _mm_mul_ps(MMO(dpc,q), xEv);
+	      DMO(dpc,q) = _mm_mul_ps(DMO(dpc,q), xEv);
+	      IMO(dpc,q) = _mm_mul_ps(IMO(dpc,q), xEv);
+	    }
+	  ox->xmx[i*p7X_NXCELLS+p7X_SCALE] = xE;
+	  ox->totscale += log(xE);
+	  xE = 1.0;		
+	}
+      else ox->xmx[i*p7X_NXCELLS+p7X_SCALE] = 1.0;
+
+      /* Storage of the specials.  We could've stored these already
+       * but using xE, etc. variables makes it easy to convert this
+       * code to O(M) memory versions just by deleting storage steps.
+       */
+      ox->xmx[i*p7X_NXCELLS+p7X_E] = xE;
+      ox->xmx[i*p7X_NXCELLS+p7X_N] = xN;
+      ox->xmx[i*p7X_NXCELLS+p7X_J] = xJ;
+      ox->xmx[i*p7X_NXCELLS+p7X_B] = xB;
+      ox->xmx[i*p7X_NXCELLS+p7X_C] = xC;
+
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpFBRow(ox, TRUE, i, 9, 5, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=i, width=8, precision=5*/
+#endif
+    } /* end loop over sequence residues 1..L */
+
+  /* finally C->T, and flip total score back to log space (nats) */
+  /* On overflow, xC is inf or nan (nan arises because inf*0 = nan). */
+  /* On an underflow (which shouldn't happen), we counterintuitively return infinity:
+   * the effect of this is to force the caller to rescore us with full range.
+   */
+  if       (isnan(xC))        ESL_EXCEPTION(eslERANGE, "forward score is NaN");
+  else if  (L>0 && xC == 0.0) ESL_EXCEPTION(eslERANGE, "forward score underflow (is 0.0)");     /* if L==0, xC *should* be 0.0; J5/118 */
+  else if  (isinf(xC) == 1)   ESL_EXCEPTION(eslERANGE, "forward score overflow (is infinity)");
+
+  if (opt_sc != NULL) *opt_sc = ox->totscale + log(xC * om->xf[p7O_C][p7O_MOVE]);
+  return eslOK;
+}
+
+
+
+static int 
+backward_engine(int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+  register __m128 mpv, ipv, dpv;      /* previous row values                                       */
+  register __m128 mcv, dcv;           /* current row values                                        */
+  register __m128 tmmv, timv, tdmv;   /* tmp vars for accessing rotated transition scores          */
+  register __m128 xBv;		      /* collects B->Mk components of B(i)                         */
+  register __m128 xEv;	              /* splatted E(i)                                             */
+  __m128   zerov;		      /* splatted 0.0's in a vector                                */
+  float    xN, xE, xB, xC, xJ;	      /* special states' scores                                    */
+  int      i;			      /* counter over sequence positions 0,1..L                    */
+  int      q;			      /* counter over quads 0..Q-1                                 */
+  int      Q       = p7O_NQF(om->M);  /* segment length: # of vectors                              */
+  int      j;			      /* DD segment iteration counter (4 = full serialization)     */
+  __m128  *dpc;                       /* current DP row                                            */
+  __m128  *dpp;			      /* next ("previous") DP row                                  */
+  __m128  *rp;			      /* will point into om->rfv[x] for residue x[i+1]             */
+  __m128  *tp;		              /* will point into (and step thru) om->tfv transition scores */
+
+  /* initialize the L row. */
+  bck->M = om->M;
+  bck->L = L;
+  bck->has_own_scales = FALSE;	/* backwards scale factors are *usually* given by <fwd> */
+  dpc    = bck->dpf[L * do_full];
+  xJ     = 0.0;
+  xB     = 0.0;
+  xN     = 0.0;
+  xC     = om->xf[p7O_C][p7O_MOVE];      /* C<-T */
+  xE     = xC * om->xf[p7O_E][p7O_MOVE]; /* E<-C, no tail */
+  xEv    = _mm_set1_ps(xE); 
+  zerov  = _mm_setzero_ps();  
+  dcv    = zerov;		/* solely to silence a compiler warning */
+  for (q = 0; q < Q; q++) MMO(dpc,q) = DMO(dpc,q) = xEv;
+  for (q = 0; q < Q; q++) IMO(dpc,q) = zerov;
+
+  /* init row L's DD paths, 1) first segment includes xE, from DMO(q) */
+  tp  = om->tfv + 8*Q - 1;	                        /* <*tp> now the [4 8 12 x] TDD quad         */
+  dpv = _mm_move_ss(DMO(dpc,Q-1), zerov);               /* start leftshift: [1 5 9 13] -> [x 5 9 13] */
+  dpv = _mm_shuffle_ps(dpv, dpv, _MM_SHUFFLE(0,3,2,1)); /* finish leftshift:[x 5 9 13] -> [5 9 13 x] */
+  for (q = Q-1; q >= 0; q--)
+    {
+      dcv        = _mm_mul_ps(dpv, *tp);      tp--;
+      DMO(dpc,q) = _mm_add_ps(DMO(dpc,q), dcv);
+      dpv        = DMO(dpc,q);
+    }
+  /* 2) three more passes, only extending DD component (dcv only; no xE contrib from DMO(q)) */
+  for (j = 1; j < 4; j++)
+    {
+      tp  = om->tfv + 8*Q - 1;	                            /* <*tp> now the [4 8 12 x] TDD quad         */
+      dcv = _mm_move_ss(dcv, zerov);                        /* start leftshift: [1 5 9 13] -> [x 5 9 13] */
+      dcv = _mm_shuffle_ps(dcv, dcv, _MM_SHUFFLE(0,3,2,1)); /* finish leftshift:[x 5 9 13] -> [5 9 13 x] */
+      for (q = Q-1; q >= 0; q--)
+	{
+	  dcv        = _mm_mul_ps(dcv, *tp); tp--;
+	  DMO(dpc,q) = _mm_add_ps(DMO(dpc,q), dcv);
+	}
+    }
+  /* now MD init */
+  tp  = om->tfv + 7*Q - 3;	                        /* <*tp> now the [4 8 12 x] Mk->Dk+1 quad    */
+  dcv = _mm_move_ss(DMO(dpc,0), zerov);                 /* start leftshift: [1 5 9 13] -> [x 5 9 13] */
+  dcv = _mm_shuffle_ps(dcv, dcv, _MM_SHUFFLE(0,3,2,1)); /* finish leftshift:[x 5 9 13] -> [5 9 13 x] */
+  for (q = Q-1; q >= 0; q--)
+    {
+      MMO(dpc,q) = _mm_add_ps(MMO(dpc,q), _mm_mul_ps(dcv, *tp)); tp -= 7;
+      dcv        = DMO(dpc,q);
+    }
+
+  /* Sparse rescaling: same scale factors as fwd matrix */
+  if (fwd->xmx[L*p7X_NXCELLS+p7X_SCALE] > 1.0)
+    {
+      xE  = xE / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xN  = xN / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xC  = xC / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xJ  = xJ / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xB  = xB / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xEv = _mm_set1_ps(1.0 / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE]);
+      for (q = 0; q < Q; q++) {
+	MMO(dpc,q) = _mm_mul_ps(MMO(dpc,q), xEv);
+	DMO(dpc,q) = _mm_mul_ps(DMO(dpc,q), xEv);
+	IMO(dpc,q) = _mm_mul_ps(IMO(dpc,q), xEv);
+      }
+    }
+  bck->xmx[L*p7X_NXCELLS+p7X_SCALE] = fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+  bck->totscale                     = log(bck->xmx[L*p7X_NXCELLS+p7X_SCALE]);
+
+  /* Stores */
+  bck->xmx[L*p7X_NXCELLS+p7X_E] = xE;
+  bck->xmx[L*p7X_NXCELLS+p7X_N] = xN;
+  bck->xmx[L*p7X_NXCELLS+p7X_J] = xJ;
+  bck->xmx[L*p7X_NXCELLS+p7X_B] = xB;
+  bck->xmx[L*p7X_NXCELLS+p7X_C] = xC;
+
+#if p7_DEBUGGING
+  if (bck->debugging) p7_omx_DumpFBRow(bck, TRUE, L, 9, 4, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=L, width=9, precision=4*/
+#endif
+
+  /* main recursion */
+  for (i = L-1; i >= 1; i--)	/* backwards stride */
+    {
+      /* phase 1. B(i) collected. Old row destroyed, new row contains
+       *    complete I(i,k), partial {MD}(i,k) w/ no {MD}->{DE} paths yet.
+       */
+      dpc = bck->dpf[i     * do_full];
+      dpp = bck->dpf[(i+1) * do_full];
+      rp  = om->rfv[dsq[i+1]] + Q-1; /* <*rp> is now the [4 8 12 x] match emission quad */
+      tp  = om->tfv + 7*Q - 1;	     /* <*tp> is now the [4 8 12 x] TII transition quad  */
+
+      /* leftshift the first transition quads */
+      tmmv = _mm_move_ss(om->tfv[1], zerov); tmmv = _mm_shuffle_ps(tmmv, tmmv, _MM_SHUFFLE(0,3,2,1));
+      timv = _mm_move_ss(om->tfv[2], zerov); timv = _mm_shuffle_ps(timv, timv, _MM_SHUFFLE(0,3,2,1));
+      tdmv = _mm_move_ss(om->tfv[3], zerov); tdmv = _mm_shuffle_ps(tdmv, tdmv, _MM_SHUFFLE(0,3,2,1));
+
+      mpv = _mm_mul_ps(MMO(dpp,0), om->rfv[dsq[i+1]][0]); /* precalc M(i+1,k+1) * e(M_k+1, x_{i+1}) */
+      mpv = _mm_move_ss(mpv, zerov);
+      mpv = _mm_shuffle_ps(mpv, mpv, _MM_SHUFFLE(0,3,2,1));
+
+      xBv = zerov;
+      for (q = Q-1; q >= 0; q--)     /* backwards stride */
+	{
+	  ipv = IMO(dpp,q); /* assumes emission odds ratio of 1.0; i+1's IMO(q) now free */
+	  IMO(dpc,q) = _mm_add_ps(_mm_mul_ps(ipv, *tp), _mm_mul_ps(mpv, timv));   tp--;
+	  DMO(dpc,q) =                                  _mm_mul_ps(mpv, tdmv); 
+	  mcv        = _mm_add_ps(_mm_mul_ps(ipv, *tp), _mm_mul_ps(mpv, tmmv));   tp-= 2;
+	  
+	  mpv        = _mm_mul_ps(MMO(dpp,q), *rp);  rp--;  /* obtain mpv for next q. i+1's MMO(q) is freed  */
+	  MMO(dpc,q) = mcv;
+
+	  tdmv = *tp;   tp--;
+	  timv = *tp;   tp--;
+	  tmmv = *tp;   tp--;
+
+	  xBv = _mm_add_ps(xBv, _mm_mul_ps(mpv, *tp)); tp--;
+	}
+
+      /* phase 2: now that we have accumulated the B->Mk transitions in xBv, we can do the specials */
+      /* this incantation is a horiz sum of xBv elements: (_mm_hadd_ps() would require SSE3) */
+      xBv = _mm_add_ps(xBv, _mm_shuffle_ps(xBv, xBv, _MM_SHUFFLE(0, 3, 2, 1)));
+      xBv = _mm_add_ps(xBv, _mm_shuffle_ps(xBv, xBv, _MM_SHUFFLE(1, 0, 3, 2)));
+      _mm_store_ss(&xB, xBv);
+
+      xC =  xC * om->xf[p7O_C][p7O_LOOP];
+      xJ = (xB * om->xf[p7O_J][p7O_MOVE]) + (xJ * om->xf[p7O_J][p7O_LOOP]); /* must come after xB */
+      xN = (xB * om->xf[p7O_N][p7O_MOVE]) + (xN * om->xf[p7O_N][p7O_LOOP]); /* must come after xB */
+      xE = (xC * om->xf[p7O_E][p7O_MOVE]) + (xJ * om->xf[p7O_E][p7O_LOOP]); /* must come after xJ, xC */
+      xEv = _mm_set1_ps(xE);	/* splat */
+
+
+      /* phase 3: {MD}->E paths and one step of the D->D paths */
+      tp  = om->tfv + 8*Q - 1;	/* <*tp> now the [4 8 12 x] TDD quad */
+      dpv = _mm_add_ps(DMO(dpc,0), xEv);
+      dpv = _mm_move_ss(dpv, zerov);
+      dpv = _mm_shuffle_ps(dpv, dpv, _MM_SHUFFLE(0,3,2,1));
+      for (q = Q-1; q >= 0; q--)
+	{
+	  dcv        = _mm_mul_ps(dpv, *tp); tp--;
+	  DMO(dpc,q) = _mm_add_ps(DMO(dpc,q), _mm_add_ps(dcv, xEv));
+	  dpv        = DMO(dpc,q);
+	  MMO(dpc,q) = _mm_add_ps(MMO(dpc,q), xEv);
+	}
+      
+      /* phase 4: finish extending the DD paths */
+      /* fully serialized for now */
+      for (j = 1; j < 4; j++)	/* three passes: we've already done 1 segment, we need 4 total */
+	{
+	  dcv = _mm_move_ss(dcv, zerov);
+	  dcv = _mm_shuffle_ps(dcv, dcv, _MM_SHUFFLE(0,3,2,1));
+	  tp  = om->tfv + 8*Q - 1;	/* <*tp> now the [4 8 12 x] TDD quad */
+	  for (q = Q-1; q >= 0; q--)
+	    {
+	      dcv        = _mm_mul_ps(dcv, *tp); tp--;
+	      DMO(dpc,q) = _mm_add_ps(DMO(dpc,q), dcv);
+	    }
+	}
+
+      /* phase 5: add M->D paths */
+      dcv = _mm_move_ss(DMO(dpc,0), zerov);
+      dcv = _mm_shuffle_ps(dcv, dcv, _MM_SHUFFLE(0,3,2,1));
+      tp  = om->tfv + 7*Q - 3;	/* <*tp> is now the [4 8 12 x] Mk->Dk+1 quad */
+      for (q = Q-1; q >= 0; q--)
+	{
+	  MMO(dpc,q) = _mm_add_ps(MMO(dpc,q), _mm_mul_ps(dcv, *tp)); tp -= 7;
+	  dcv        = DMO(dpc,q);
+	}
+
+      /* Sparse rescaling  */
+
+      /* In rare cases [J3/119] scale factors from <fwd> are
+       * insufficient and backwards will overflow. In this case, we
+       * switch on the fly to using our own scale factors, different
+       * from those in <fwd>. This will complicate subsequent
+       * posterior decoding routines.
+       */
+      if (xB > 1.0e16) bck->has_own_scales = TRUE;
+
+      if      (bck->has_own_scales)  bck->xmx[i*p7X_NXCELLS+p7X_SCALE] = (xB > 1.0e4) ? xB : 1.0;
+      else                           bck->xmx[i*p7X_NXCELLS+p7X_SCALE] = fwd->xmx[i*p7X_NXCELLS+p7X_SCALE];
+
+      if (bck->xmx[i*p7X_NXCELLS+p7X_SCALE] > 1.0)
+	{
+	  xE /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xN /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xJ /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xB /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xC /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xBv = _mm_set1_ps(1.0 / bck->xmx[i*p7X_NXCELLS+p7X_SCALE]);
+	  for (q = 0; q < Q; q++) {
+	    MMO(dpc,q) = _mm_mul_ps(MMO(dpc,q), xBv);
+	    DMO(dpc,q) = _mm_mul_ps(DMO(dpc,q), xBv);
+	    IMO(dpc,q) = _mm_mul_ps(IMO(dpc,q), xBv);
+	  }
+	  bck->totscale += log(bck->xmx[i*p7X_NXCELLS+p7X_SCALE]);
+	}
+
+      /* Stores are separate only for pedagogical reasons: easy to
+       * turn this into a more memory efficient version just by
+       * deleting the stores.
+       */
+      bck->xmx[i*p7X_NXCELLS+p7X_E] = xE;
+      bck->xmx[i*p7X_NXCELLS+p7X_N] = xN;
+      bck->xmx[i*p7X_NXCELLS+p7X_J] = xJ;
+      bck->xmx[i*p7X_NXCELLS+p7X_B] = xB;
+      bck->xmx[i*p7X_NXCELLS+p7X_C] = xC;
+
+#if p7_DEBUGGING
+      if (bck->debugging) p7_omx_DumpFBRow(bck, TRUE, i, 9, 4, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=i, width=9, precision=4*/
+#endif
+    } /* thus ends the loop over sequence positions i */
+
+  /* Termination at i=0, where we can only reach N,B states. */
+  dpp = bck->dpf[1 * do_full];
+  tp  = om->tfv;          /* <*tp> is now the [1 5 9 13] TBMk transition quad  */
+  rp  = om->rfv[dsq[1]];  /* <*rp> is now the [1 5 9 13] match emission quad   */
+  xBv = zerov;
+  for (q = 0; q < Q; q++)
+    {
+      mpv = _mm_mul_ps(MMO(dpp,q), *rp);  rp++;
+      mpv = _mm_mul_ps(mpv,        *tp);  tp += 7;
+      xBv = _mm_add_ps(xBv,        mpv);
+    }
+  /* horizontal sum of xBv */
+  xBv = _mm_add_ps(xBv, _mm_shuffle_ps(xBv, xBv, _MM_SHUFFLE(0, 3, 2, 1)));
+  xBv = _mm_add_ps(xBv, _mm_shuffle_ps(xBv, xBv, _MM_SHUFFLE(1, 0, 3, 2)));
+  _mm_store_ss(&xB, xBv);
+ 
+  xN = (xB * om->xf[p7O_N][p7O_MOVE]) + (xN * om->xf[p7O_N][p7O_LOOP]);  
+
+  bck->xmx[p7X_B]     = xB;
+  bck->xmx[p7X_C]     = 0.0;
+  bck->xmx[p7X_J]     = 0.0;
+  bck->xmx[p7X_N]     = xN;
+  bck->xmx[p7X_E]     = 0.0;
+  bck->xmx[p7X_SCALE] = 1.0;
+
+#if p7_DEBUGGING
+  dpc = bck->dpf[0];
+  for (q = 0; q < Q; q++) /* Not strictly necessary, but if someone's looking at DP matrices, this is nice to do: */
+    MMO(dpc,q) = DMO(dpc,q) = IMO(dpc,q) = zerov;
+  if (bck->debugging) p7_omx_DumpFBRow(bck, TRUE, 0, 9, 4, bck->xmx[p7X_E], bck->xmx[p7X_N],  bck->xmx[p7X_J], bck->xmx[p7X_B],  bck->xmx[p7X_C]);	/* logify=TRUE, <rowi>=0, width=9, precision=4*/
+#endif
+
+  if       (isnan(xN))        ESL_EXCEPTION(eslERANGE, "backward score is NaN");
+  else if  (L>0 && xN == 0.0) ESL_EXCEPTION(eslERANGE, "backward score underflow (is 0.0)");    /* if L==0, xN *should* be 0.0 [J5/118]*/
+  else if  (isinf(xN) == 1)   ESL_EXCEPTION(eslERANGE, "backward score overflow (is infinity)");
+
+  if (opt_sc != NULL) *opt_sc = bck->totscale + log(xN);
+  return eslOK;
+}
+/*-------------- end, forward/backward engines  -----------------*/
+
+
+
+
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7FWDBACK_BENCHMARK
+/* -c, -x options are for debugging and testing: see fwdfilter.c for explanation */
+/* 
+   icc  -O3 -static -o fwdback_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_BENCHMARK fwdback.c -lhmmer -leasel -lm 
+
+   ./fwdback_benchmark <hmmfile>           runs benchmark on both Forward and Backward parser
+   ./fwdback_benchmark -c -N100 <hmmfile>  compare scores of SSE to generic impl
+   ./fwdback_benchmark -x -N100 <hmmfile>  test that scores match trusted implementation.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  { "-F",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-B", "only benchmark Forward",                           0 },
+  { "-B",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-F", "only benchmark Backward",                          0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "benchmark parsing version, not full version",      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for Forward, Backward implementations";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  float           fsc2, bsc2;
+  double          base_time, bench_time, Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
+    p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
+
+  if (esl_opt_GetBoolean(go, "-P")) {
+    fwd = p7_omx_Create(gm->M, 0, L);
+    bck = p7_omx_Create(gm->M, 0, L);
+  } else {
+    fwd = p7_omx_Create(gm->M, L, L);
+    bck = p7_omx_Create(gm->M, L, L);
+  }
+  gx  = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      if (esl_opt_GetBoolean(go, "-P")) {
+	if (! esl_opt_GetBoolean(go, "-B"))  p7_ForwardParser (dsq, L, om,      fwd, &fsc);
+	if (! esl_opt_GetBoolean(go, "-F"))  p7_BackwardParser(dsq, L, om, fwd, bck, &bsc);
+      } else {
+	if (! esl_opt_GetBoolean(go, "-B"))  p7_Forward (dsq, L, om,      fwd, &fsc);
+	if (! esl_opt_GetBoolean(go, "-F"))  p7_Backward(dsq, L, om, fwd, bck, &bsc);
+      }
+
+      if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GForward (dsq, L, gm, gx, &fsc2); 
+	  p7_GBackward(dsq, L, gm, gx, &bsc2); 
+	  printf("%.4f %.4f %.4f %.4f\n", fsc, bsc, fsc2, bsc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7FWDBACK_BENCHMARK*/
+/*------------------- end, benchmark driver ---------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef p7FWDBACK_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* 
+ * compare to GForward() scores.
+ */
+static void
+utest_fwdback(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  char        *msg = "forward/backward unit test failed";
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd = p7_omx_Create(M, 0, L);
+  P7_OMX      *bck = p7_omx_Create(M, 0, L);
+  P7_OMX      *oxf = p7_omx_Create(M, L, L);
+  P7_OMX      *oxb = p7_omx_Create(M, L, L);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float tolerance;
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+  float generic_sc;
+
+  p7_FLogsumInit();
+  if (p7_FLogsumError(-0.4, -0.5) > 0.0001) tolerance = 1.0;  /* weaker test against GForward()   */
+  else tolerance = 0.0001;   /* stronger test: FLogsum() is in slow exact mode. */
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_Forward       (dsq, L, om, oxf,      &fsc1);
+      p7_Backward      (dsq, L, om, oxf, oxb, &bsc1);
+      p7_ForwardParser (dsq, L, om, fwd,      &fsc2);
+      p7_BackwardParser(dsq, L, om, fwd, bck, &bsc2);
+      p7_GForward      (dsq, L, gm, gx,  &generic_sc);
+
+      /* Forward and Backward scores should agree with high tolerance */
+      if (fabs(fsc1-bsc1) > 0.0001)    esl_fatal(msg);
+      if (fabs(fsc2-bsc2) > 0.0001)    esl_fatal(msg);
+      if (fabs(fsc1-fsc2) > 0.0001)    esl_fatal(msg);
+
+      /* GForward scores should approximate Forward scores, 
+       * with tolerance that depends on how logsum.c was compiled
+       */
+      if (fabs(fsc1-generic_sc) > tolerance) esl_fatal(msg);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(oxb);
+  p7_omx_Destroy(oxf);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7FWDBACK_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef p7FWDBACK_TESTDRIVE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -o fwdback_utest -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_TESTDRIVE fwdback.c -lhmmer -leasel -lm
+   ./fwdback_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for SSE Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_fwdback(r, abc, bg, M, L, N);   /* normal sized models */
+  utest_fwdback(r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_fwdback(r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_fwdback(r, abc, bg, M, L, N);   
+  utest_fwdback(r, abc, bg, 1, L, 10);  
+  utest_fwdback(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7FWDBACK_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example
+ *****************************************************************/
+#ifdef p7FWDBACK_EXAMPLE
+/* Useful for debugging on small HMMs and sequences.
+ * 
+ * Compares to GForward().
+ * 
+   gcc -g -Wall -msse2 -std=gnu99 -o fwdback_example -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_EXAMPLE fwdback.c -lhmmer -leasel -lm
+   ./fwdback_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_exponential.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+#define STYLES     "--fs,--sw,--ls,--s"	               /* Exclusive choice for alignment mode     */
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range  toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,   NULL,  NULL, NULL, "output in profmark format",                        0 },
+  { "--fs",      eslARG_NONE,"default",NULL, NULL, STYLES,  NULL, NULL, "multihit local alignment",                         0 },
+  { "--sw",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit local alignment",                           0 },
+  { "--ls",      eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "multihit glocal alignment",                        0 },
+  { "--s",       eslARG_NONE,   FALSE, NULL, NULL, STYLES,  NULL, NULL, "unihit glocal alignment",                          0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Forward/Backward (SSE versions)";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fraw, braw, nullsc, fsc;
+  float           gfraw, gbraw, gfsc;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Open sequence file for reading */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);               
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc); 
+
+  /* Now reconfig the models however we were asked to */
+  if      (esl_opt_GetBoolean(go, "--fs"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  else if (esl_opt_GetBoolean(go, "--sw"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNILOCAL);
+  else if (esl_opt_GetBoolean(go, "--ls"))  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_GLOCAL);
+  else if (esl_opt_GetBoolean(go, "--s"))   p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNIGLOCAL);
+
+  /* now the optimized profile */
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  /* p7_oprofile_Dump(stdout, om);  */
+
+  /* allocate DP matrices for O(M+L) parsers */
+  fwd = p7_omx_Create(gm->M, 0, sq->n);
+  bck = p7_omx_Create(gm->M, 0, sq->n);
+  gx  = p7_gmx_Create(gm->M,    sq->n);
+
+  /* allocate DP matrices for O(ML) fills */
+  /* fwd = p7_omx_Create(gm->M, sq->n, sq->n); */
+  /* bck = p7_omx_Create(gm->M, sq->n, sq->n); */
+
+  /* p7_omx_SetDumpMode(stdout, fwd, TRUE); */     /* makes the fast DP algorithms dump their matrices */
+  /* p7_omx_SetDumpMode(stdout, bck, TRUE); */  
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(fwd, om->M, 0,   sq->n); 
+      p7_omx_GrowTo(bck, om->M, 0,   sq->n); 
+      p7_gmx_GrowTo(gx,  gm->M,      sq->n); 
+
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+    
+      p7_ForwardParser (sq->dsq, sq->n, om,      fwd, &fraw);
+      p7_BackwardParser(sq->dsq, sq->n, om, fwd, bck, &braw);
+
+      /* p7_Forward (sq->dsq, sq->n, om,      fwd, &fsc);        printf("forward:              %.2f nats\n", fsc);  */
+      /* p7_Backward(sq->dsq, sq->n, om, fwd, bck, &bsc);        printf("backward:             %.2f nats\n", bsc);  */
+
+      /* Comparison to other F/B implementations */
+      p7_GForward     (sq->dsq, sq->n, gm, gx,  &gfraw);
+      p7_GBackward    (sq->dsq, sq->n, gm, gx,  &gbraw);
+
+      /* p7_gmx_Dump(stdout, gx, p7_DEFAULT);  */
+
+      fsc  =  (fraw-nullsc) / eslCONST_LOG2;
+      gfsc = (gfraw-nullsc) / eslCONST_LOG2;
+      P  = esl_exp_surv(fsc,   om->evparam[p7_FTAU],  om->evparam[p7_FLAMBDA]);
+      gP = esl_exp_surv(gfsc,  gm->evparam[p7_FTAU],  gm->evparam[p7_FLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%6.1f\t%9.2g\t%6.1f\n", sq->name, hmm->name, P, fsc, gP, gfsc);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, fsc, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("fwd filter raw score: %.2f nats\n", fraw);
+	  printf("bck filter raw score: %.2f nats\n", braw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", fsc);
+	  printf("P-value:              %g\n",        P);
+	  printf("GForward raw score:   %.2f nats\n", gfraw);
+	  printf("GBackward raw score:  %.2f nats\n", gbraw);
+	  printf("GForward seq score:   %.2f bits\n", gfsc);
+	  printf("GForward P-value:     %g\n",        gP);
+	}
+
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7FWDBACK_EXAMPLE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/impl_sse.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/impl_sse.h
new file mode 100755
index 0000000..7ac57fa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/impl_sse.h
@@ -0,0 +1,445 @@
+/* SSE optimized implementation of various MSV, Viterbi, and Forward
+ * routines: structures, declarations, and macros.
+ * 
+ * SRE, Sun Nov 25 11:23:02 2007
+ * SVN $Id: impl_sse.h 4694 2014-07-01 02:35:31Z wheelert $
+ */
+#ifndef P7_IMPL_SSE_INCLUDED
+#define P7_IMPL_SSE_INCLUDED
+
+#include "p7_config.h"
+
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+#include <xmmintrin.h>    /* SSE  */
+#include <emmintrin.h>    /* SSE2 */
+#ifdef __SSE3__
+#include <pmmintrin.h>   /* DENORMAL_MODE */
+#endif
+#include "hmmer.h"
+
+/* In calculating Q, the number of vectors we need in a row, we have
+ * to make sure there's at least 2, or a striped implementation fails.
+ */
+#define p7O_NQB(M)   ( ESL_MAX(2, ((((M)-1) / 16) + 1)))   /* 16 uchars  */
+#define p7O_NQW(M)   ( ESL_MAX(2, ((((M)-1) / 8)  + 1)))   /*  8 words   */
+#define p7O_NQF(M)   ( ESL_MAX(2, ((((M)-1) / 4)  + 1)))   /*  4 floats  */
+
+#define p7O_EXTRA_SB 17    /* see ssvfilter.c for explanation */
+
+
+/*****************************************************************
+ * 1. P7_OPROFILE: an optimized score profile
+ *****************************************************************/
+/* The OPROFILE is striped [Farrar07] and interleaved, as is the DP matrix.
+ * For example, the layout of a profile for an M=14 model (xref J2/46):
+ * 
+ * rsc[x] : striped blocks of M emissions, starting with q=0
+ *                1     11     1      1  
+ *             1593   2604   371x   482x 
+ * 
+ * tsc:  grouped in order of accession in DP for 7 transition scores;
+ *       starting at q=0 for all but the three transitions to M, which
+ *       are rotated by -1 and rightshifted. DD's follow separately, 
+ *       starting at q=0.
+ *
+ *        {     1      1     1     1     1     1     1 }
+ *        {  1593   x482  x482  x482  1593  1593  1593 }    
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ * 
+ *        {    11      1     1     1    11    11    11 }
+ *        {  2604   1593  1593  1593  2604  2604  2604 } 
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {    1      11    11    11    1     1     1  }
+ *        {  371x   2604  2604  2604  371x  371x  371x }
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {    1      1     1     1     1     1     1  }
+ *        {  482x   371x  371x  371x  482x  482x  482x }
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {     1    11    1     1  }
+ *        {  1593  2604  371x  482x }
+ *        { [TDD] [TDD] [TDD] [TDD] }
+ *        
+ */
+
+#define p7O_NXSTATES  4    /* special states stored: ENJC                       */
+#define p7O_NXTRANS   2         /* special states all have 2 transitions: move, loop */
+#define p7O_NTRANS    8    /* 7 core transitions + BMk entry                    */
+enum p7o_xstates_e      { p7O_E    = 0, p7O_N    = 1,  p7O_J  = 2,  p7O_C  = 3 };
+enum p7o_xtransitions_e { p7O_MOVE = 0, p7O_LOOP = 1 };
+enum p7o_tsc_e          { p7O_BM   = 0, p7O_MM   = 1,  p7O_IM = 2,  p7O_DM = 3, p7O_MD   = 4, p7O_MI   = 5,  p7O_II = 6,  p7O_DD = 7 };
+
+typedef struct p7_oprofile_s {
+  /* MSVFilter uses scaled, biased uchars: 16x unsigned byte vectors                 */
+  __m128i **rbv;         /* match scores [x][q]: rm, rm[0] are allocated      */
+  __m128i **sbv;         /* match scores for ssvfilter                        */
+  uint8_t   tbm_b;    /* constant B->Mk cost:    scaled log 2/M(M+1)       */
+  uint8_t   tec_b;    /* constant E->C  cost:    scaled log 0.5            */
+  uint8_t   tjb_b;    /* constant NCJ move cost: scaled log 3/(L+3)        */
+  float     scale_b;    /* typically 3 / log2: scores scale to 1/3 bits      */
+  uint8_t   base_b;            /* typically +190: offset of uchar scores            */
+  uint8_t   bias_b;    /* positive bias to emission scores, make them >=0   */
+
+  /* ViterbiFilter uses scaled swords: 8x signed 16-bit integer vectors              */
+  __m128i **rwv;    /* [x][q]: rw, rw[0] are allocated  [Kp][Q8]         */
+  __m128i  *twv;    /* transition score blocks          [8*Q8]           */
+  int16_t   xw[p7O_NXSTATES][p7O_NXTRANS]; /* NECJ state transition costs            */
+  float     scale_w;            /* score units: typically 500 / log(2), 1/500 bits   */
+  int16_t   base_w;             /* offset of sword scores: typically +12000          */
+  int16_t   ddbound_w;    /* threshold precalculated for lazy DD evaluation    */
+  float     ncj_roundoff;  /* missing precision on NN,CC,JJ after rounding      */
+
+  /* Forward, Backward use IEEE754 single-precision floats: 4x vectors               */
+  __m128 **rfv;         /* [x][q]:  rf, rf[0] are allocated [Kp][Q4]         */
+  __m128  *tfv;          /* transition probability blocks    [8*Q4]           */
+  float    xf[p7O_NXSTATES][p7O_NXTRANS]; /* NECJ transition costs                   */
+
+  /* Our actual vector mallocs, before we align the memory                           */
+  __m128i  *rbv_mem;
+  __m128i  *sbv_mem;
+  __m128i  *rwv_mem;
+  __m128i  *twv_mem;
+  __m128   *tfv_mem;
+  __m128   *rfv_mem;
+  
+  /* Disk offset information for hmmpfam's fast model retrieval                      */
+  off_t  offs[p7_NOFFSETS];     /* p7_{MFP}OFFSET, or -1                             */
+
+  /* Disk offset bookkeeping for h3f:                                                */
+  off_t  roff;                  /* record offset (start of record); -1 if none       */
+  off_t  eoff;                  /* offset to last byte of record; -1 if unknown      */
+
+  /* Information, annotation copied from parent profile:                             */
+  char  *name;      /* unique name of model                              */
+  char  *acc;      /* unique accession of model, or NULL                */
+  char  *desc;                  /* brief (1-line) description of model, or NULL      */
+  char  *rf;                    /* reference line           1..M; *ref=0: unused     */
+  char  *mm;                    /* modelmask line           1..M; *ref=0: unused     */
+  char  *cs;                    /* consensus structure line 1..M, *cs=0: unused      */
+  char  *consensus;    /* consensus residues for ali display, 1..M          */
+  float  evparam[p7_NEVPARAM];   /* parameters for determining E-values, or UNSET     */
+  float  cutoff[p7_NCUTOFFS];   /* per-seq/per-dom bit cutoffs, or UNSET             */
+  float  compo[p7_MAXABET];  /* per-model HMM filter composition, or UNSET        */
+  const ESL_ALPHABET *abc;  /* copy of ptr to alphabet information               */
+
+  /* Information about current configuration, size, allocation                       */
+  int    L;      /* current configured target seq length              */
+  int    M;      /* model length                                      */
+  int    max_length;    /* upper bound on emitted sequence length            */
+  int    allocM;    /* maximum model length currently allocated for      */
+  int    allocQ4;    /* p7_NQF(allocM): alloc size for tf, rf             */
+  int    allocQ8;    /* p7_NQW(allocM): alloc size for tw, rw             */
+  int    allocQ16;    /* p7_NQB(allocM): alloc size for rb                 */
+  int    mode;      /* currently must be p7_LOCAL                        */
+  float  nj;      /* expected # of J's: 0 or 1, uni vs. multihit       */
+
+  int    clone;                 /* this optimized profile structure is just a copy   */
+                                /* of another profile structre.  all pointers of     */
+                                /* this structure should not be freed.               */
+} P7_OPROFILE;
+
+typedef struct {
+  int            count;       /* number of <P7_OPROFILE> objects in the block */
+  int            listSize;    /* maximum number elements in the list          */
+  P7_OPROFILE  **list;        /* array of <P7_OPROFILE> objects               */
+} P7_OM_BLOCK;
+
+/* retrieve match odds ratio [k][x]
+ * this gets used in p7_alidisplay.c, when we're deciding if a residue is conserved or not */
+static inline float 
+p7_oprofile_FGetEmission(const P7_OPROFILE *om, int k, int x)
+{
+  union { __m128 v; float p[4]; } u;
+  int   Q = p7O_NQF(om->M);
+  int   q = ((k-1) % Q);
+  int   r = (k-1)/Q;
+  u.v = om->rfv[x][q];
+  return u.p[r];
+}
+
+/*****************************************************************
+ * 2. P7_OMX: a one-row dynamic programming matrix
+ *****************************************************************/
+
+enum p7x_scells_e { p7X_M = 0, p7X_D = 1, p7X_I = 2 };
+#define p7X_NSCELLS 3
+
+/* Besides ENJBC states, we may also store a rescaling factor on each row  */
+enum p7x_xcells_e { p7X_E = 0, p7X_N = 1, p7X_J = 2, p7X_B = 3, p7X_C = 4, p7X_SCALE = 5 }; 
+#define p7X_NXCELLS 6
+
+/* 
+ * 
+ * dpf[][] 
+ *    to access M(i,k) for i=0,1..L; k=1..M:  dpf[i][(k-1)/4 + p7X_M].element[(k-1)%4]
+ * 
+ * xmx[] arrays for individual special states:
+ *    xmx[ENJBC] = [0 1 2 3][4 5 6 7]..[L-2 L-1 L x]     XRQ >= (L/4)+1
+ *    to access B[i] for example, for i=0..L:   xmx[B][i/4].x[i%4]  (quad i/4; element i%4).
+ */  
+typedef struct p7_omx_s {
+  int       M;      /* current actual model dimension                              */
+  int       L;      /* current actual sequence dimension                           */
+
+  /* The main dynamic programming matrix for M,D,I states                                      */
+  __m128  **dpf;    /* striped DP matrix for [0,1..L][0..Q-1][MDI], float vectors  */
+  __m128i **dpw;    /* striped DP matrix for [0,1..L][0..Q-1][MDI], sword vectors  */
+  __m128i **dpb;    /* striped DP matrix for [0,1..L][0..Q-1] uchar vectors        */
+  void     *dp_mem;    /* DP memory shared by <dpb>, <dpw>, <dpf>                     */
+  int       allocR;    /* current allocated # rows in dp{uf}. allocR >= validR >= L+1 */
+  int       validR;    /* current # of rows actually pointing at DP memory            */
+  int       allocQ4;    /* current set row width in <dpf> quads:   allocQ4*4 >= M      */
+  int       allocQ8;    /* current set row width in <dpw> octets:  allocQ8*8 >= M      */
+  int       allocQ16;    /* current set row width in <dpb> 16-mers: allocQ16*16 >= M    */
+  size_t    ncells;    /* current allocation size of <dp_mem>, in accessible cells    */
+
+  /* The X states (for full,parser; or NULL, for scorer)                                       */
+  float    *xmx;          /* logically [0.1..L][ENJBCS]; indexed [i*p7X_NXCELLS+s]       */
+  void     *x_mem;    /* X memory before 16-byte alignment                           */
+  int       allocXR;    /* # of rows allocated in each xmx[] array; allocXR >= L+1     */
+  float     totscale;    /* log of the product of all scale factors (0.0 if unscaled)   */
+  int       has_own_scales;  /* TRUE to use own scale factors; FALSE if scales provided     */
+
+  /* Parsers,scorers only hold a row at a time, so to get them to dump full matrix, it
+   * must be done during a DP calculation, after each row is calculated 
+   */
+  int     debugging;    /* TRUE if we're in debugging mode                             */
+  FILE   *dfp;      /* output stream for diagnostics                               */
+} P7_OMX;
+
+/* ?MXo(q) access macros work for either uchar or float, so long as you
+ * init your "dp" to point to the appropriate array.
+ */
+#define MMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_M])
+#define DMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_D])
+#define IMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_I])
+#define XMXo(i,s) (xmx[(i) * p7X_NXCELLS + s])
+
+/* and this version works with a ptr to the approp DP row. */
+#define MMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_M])
+#define DMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_D])
+#define IMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_I])
+
+static inline float
+p7_omx_FGetMDI(const P7_OMX *ox, int s, int i, int k)
+{
+  union { __m128 v; float p[4]; } u;
+  int   Q = p7O_NQF(ox->M);
+  int   q = p7X_NSCELLS * ((k-1) % Q) + s;
+  int   r = (k-1)/Q;
+  u.v = ox->dpf[i][q];
+  return u.p[r];
+}
+
+static inline void
+p7_omx_FSetMDI(const P7_OMX *ox, int s, int i, int k, float val)
+{
+  union { __m128 v; float p[4]; } u;
+  int   Q = p7O_NQF(ox->M);
+  int   q = p7X_NSCELLS * ((k-1) % Q) + s;
+  int   r = (k-1)/Q;
+
+  u.v           = ox->dpf[i][q];
+  u.p[r]        = val;
+  ox->dpf[i][q] = u.v;
+}
+  
+
+
+
+/*****************************************************************
+ * 3. Declarations of the external API.
+ *****************************************************************/
+
+/* p7_omx.c */
+extern P7_OMX      *p7_omx_Create(int allocM, int allocL, int allocXL);
+extern int          p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL);
+extern int          p7_omx_FDeconvert(P7_OMX *ox, P7_GMX *gx);
+extern int          p7_omx_Reuse  (P7_OMX *ox);
+extern void         p7_omx_Destroy(P7_OMX *ox);
+
+extern int          p7_omx_SetDumpMode(FILE *fp, P7_OMX *ox, int truefalse);
+extern int          p7_omx_DumpMFRow(P7_OMX *ox, int rowi, uint8_t xE, uint8_t xN, uint8_t xJ, uint8_t xB, uint8_t xC);
+extern int          p7_omx_DumpVFRow(P7_OMX *ox, int rowi, int16_t xE, int16_t xN, int16_t xJ, int16_t xB, int16_t xC);
+extern int          p7_omx_DumpFBRow(P7_OMX *ox, int logify, int rowi, int width, int precision, float xE, float xN, float xJ, float xB, float xC);
+
+
+
+/* p7_oprofile.c */
+extern P7_OPROFILE *p7_oprofile_Create(int M, const ESL_ALPHABET *abc);
+extern int          p7_oprofile_IsLocal(const P7_OPROFILE *om);
+extern void         p7_oprofile_Destroy(P7_OPROFILE *om);
+extern size_t       p7_oprofile_Sizeof(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Copy(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Clone(const P7_OPROFILE *om);
+extern int          p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+extern int          p7_oprofile_UpdateVitEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+extern int          p7_oprofile_UpdateMSVEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+
+
+extern int          p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om);
+extern int          p7_oprofile_ReconfigLength    (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMSVLength (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMultihit  (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigUnihit    (P7_OPROFILE *om, int L);
+
+extern int          p7_oprofile_Dump(FILE *fp, const P7_OPROFILE *om);
+extern int          p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+               P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om);
+extern int          p7_oprofile_Compare(const P7_OPROFILE *om1, const P7_OPROFILE *om2, float tol, char *errmsg);
+extern int          p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm);
+extern int          p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm);
+
+extern int          p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr );
+extern int          p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr );
+extern int          p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr );
+extern int          p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr );
+
+/* decoding.c */
+extern int p7_Decoding      (const P7_OPROFILE *om, const P7_OMX *oxf,       P7_OMX *oxb, P7_OMX *pp);
+extern int p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef);
+
+/* fwdback.c */
+extern int p7_Forward       (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_ForwardParser (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_Backward      (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+extern int p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+
+/* io.c */
+extern int p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om);
+extern int p7_oprofile_ReadMSV (P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadInfoMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock);
+extern int p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om);
+extern int p7_oprofile_Position(P7_HMMFILE *hfp, off_t offset);
+
+extern P7_OM_BLOCK *p7_oprofile_CreateBlock(int size);
+extern void p7_oprofile_DestroyBlock(P7_OM_BLOCK *block);
+
+/* ssvfilter.c */
+extern int p7_SSVFilter    (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, float *ret_sc);
+
+/* msvfilter.c */
+extern int p7_MSVFilter           (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *msvdata, P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* null2.c */
+extern int p7_Null2_ByExpectation(const P7_OPROFILE *om, const P7_OMX *pp, float *null2);
+extern int p7_Null2_ByTrace      (const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2);
+
+/* optacc.c */
+extern int p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp,       P7_OMX *ox, float *ret_e);
+extern int p7_OATrace        (const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr);
+
+/* stotrace.c */
+extern int p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox, P7_TRACE *tr);
+
+/* vitfilter.c */
+extern int p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                                        float filtersc, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* vitscore.c */
+extern int p7_ViterbiScore (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+
+
+/*****************************************************************
+ * 4. Implementation specific initialization
+ *****************************************************************/
+static inline void
+impl_Init(void)
+{
+#ifdef HAVE_FLUSH_ZERO_MODE
+  /* In order to avoid the performance penalty dealing with sub-normal
+   * values in the floating point calculations, set the processor flag
+   * so sub-normals are "flushed" immediately to zero.
+   */
+  _MM_SET_FLUSH_ZERO_MODE(_MM_FLUSH_ZERO_ON);
+#endif
+
+#ifdef _PMMINTRIN_H_INCLUDED
+  /*
+   * FLUSH_ZERO doesn't necessarily work in non-SIMD calculations
+   * (yes on 64-bit, maybe not of 32-bit). This ensures that those
+   * scalar calculations will agree across architectures.
+   * (See TW notes  2012/0106_printf_underflow_bug/00NOTES for details)
+   */
+  _MM_SET_DENORMALS_ZERO_MODE(_MM_DENORMALS_ZERO_ON);
+#endif
+}
+#endif /* P7_IMPL_SSE_INCLUDED */
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+/* 
+ * Currently (and this remains in flux as of 14 Dec 07) an optimized
+ * implementation is required to provide an MSVFilter(),
+ * ViterbiFilter() and a ForwardFilter() implementation. A call to
+ * p7_oprofile_Convert() makes an optimized profile that works for
+ * all filters.
+ * 
+ * Any "Filter" returns a score may be an approximation (with
+ * characterized or at least characterizable error), and which may
+ * have limited upper range, such that high scores are returned as
+ * eslINFINITY. Additionally, Filters might only work on local
+ * alignment modes, because they are allowed to make assumptions about
+ * the range of scores.
+ * 
+ * Here, MSVFilter() and ViterbiFilter() are 8-bit lspace
+ * implementations with limited precision and limited range (max 20
+ * bits); ForwardFilter() is a pspace float implementation with
+ * correct precision and limited range (max ~127 bits). Both require
+ * local mode models.
+ * 
+ * An optimized implementation may also provide other optimized
+ * routines. It provides specialized Convert*() functions for these,
+ * which may no-op (if the OPROFILE already suffices), or may
+ * overwrite parts of the OPROFILE that Filters or other routines
+ * might need. Therefore, after using a "bonus" function, a fresh
+ * Convert() will be needed before a Filter() is called again. This
+ * API is tentative.
+ * 
+ * For example, here, ViterbiScore() is a 32-bit lspace float SSE
+ * implementation of the Viterbi algorithm.
+ *
+ * A "Score" function might be an additional target for optimization,
+ * for example. A "Score" function returns a correct score with full
+ * floating-point precision and range, and works for any mode model.
+ * 
+ * In the generic implementation, profile scores are 32-bit floating
+ * point log-odds scores. In an optimized implementation, internally,
+ * profile scores can be of any type, and may be in log space (lspace)
+ * or probability space (pspace). (Calculations in probability space
+ * are useful in the Forward algorithm, but always limit range.)  A
+ * shorthand of "lspace uchar" means log-odds scores stored as
+ * unsigned chars, for example; "pspace float" means odds ratios
+ * stored as floats.
+ * 
+ * A note on memory alignment: malloc() is required to return a
+ * pointer "suitably aligned so that it may be aligned to a pointer of
+ * any type of object" (C99 7.20.3). __m128 vectors are 128-bits wide,
+ * so malloc() ought to return a pointer aligned on a 16-byte
+ * boundary.  However, this is not the case for glibc, and apparently
+ * other system libraries. Google turns up threads of arguments
+ * between glibc and gcc developers over whose problem this is; this
+ * argument has apparently not been resolved, and is of no help.
+ * Here, we manually align the relevant pointers by overallocating in
+ * *_mem with malloc, then arithmetically manipulating the address to
+ * mask off (~0xf).
+ */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/io.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/io.c
new file mode 100755
index 0000000..19c070c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/io.c
@@ -0,0 +1,1035 @@
+/* Saving optimized profiles in two pieces: MSV part and the rest.
+ * 
+ * To accelerate hmmscan, which is limited by speed of HMM input,
+ * hmmpress saves an optimized profile in two pieces. One file gets
+ * a bare minimum of information needed to run the MSV filter.
+ * The other file gets the rest of the profile. Both files are binary,
+ * stored exactly as the <P7_OPROFILE> has the information internally.
+ * 
+ * By convention, hmmpress calls the two files <hmmfile>.h3f and
+ * <hmmfile>.h3p, which nominally stand for "H3 filter" and "H3
+ * profile".
+ * 
+ * Contents:
+ *    1. Writing optimized profiles to two files.
+ *    2. Reading optimized profiles in two stages.
+ *    3. Utility routines.
+ *    4. Benchmark driver.
+ *    5. Unit tests.
+ *    6. Test driver.
+ *    7. Example.
+ *    8. Copyright and license information.
+ *    
+ * TODO:
+ *    - crossplatform binary compatibility (endedness and off_t)
+ *    - Write() could save a tag (model #) instead of name for verifying
+ *      that MSV and Rest parts match, saving a malloc for var-lengthed name
+ *      in ReadRest().
+ *    
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#ifdef HMMER_THREADS
+#include <pthread.h>
+#endif
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static uint32_t  v3f_fmagic = 0xb3e6e6f3; /* 3/f binary MSV file, SSE:     "3ffs" = 0x 33 66 66 73  + 0x80808080 */
+static uint32_t  v3f_pmagic = 0xb3e6f0f3; /* 3/f binary profile file, SSE: "3fps" = 0x 33 66 70 73  + 0x80808080 */
+
+static uint32_t  v3e_fmagic = 0xb3e5e6f3; /* 3/e binary MSV file, SSE:     "3efs" = 0x 33 65 66 73  + 0x80808080 */
+static uint32_t  v3e_pmagic = 0xb3e5f0f3; /* 3/e binary profile file, SSE: "3eps" = 0x 33 65 70 73  + 0x80808080 */
+
+static uint32_t  v3d_fmagic = 0xb3e4e6f3; /* 3/d binary MSV file, SSE:     "3dfs" = 0x 33 64 66 73  + 0x80808080 */
+static uint32_t  v3d_pmagic = 0xb3e4f0f3; /* 3/d binary profile file, SSE: "3dps" = 0x 33 64 70 73  + 0x80808080 */
+
+static uint32_t  v3c_fmagic = 0xb3e3e6f3; /* 3/c binary MSV file, SSE:     "3cfs" = 0x 33 63 66 73  + 0x80808080 */
+static uint32_t  v3c_pmagic = 0xb3e3f0f3; /* 3/c binary profile file, SSE: "3cps" = 0x 33 63 70 73  + 0x80808080 */
+
+static uint32_t  v3b_fmagic = 0xb3e2e6f3; /* 3/b binary MSV file, SSE:     "3bfs" = 0x 33 62 66 73  + 0x80808080 */
+static uint32_t  v3b_pmagic = 0xb3e2f0f3; /* 3/b binary profile file, SSE: "3bps" = 0x 33 62 70 73  + 0x80808080 */
+
+static uint32_t  v3a_fmagic = 0xe8b3e6f3; /* 3/a binary MSV file, SSE:     "h3fs" = 0x 68 33 66 73  + 0x80808080 */
+static uint32_t  v3a_pmagic = 0xe8b3f0f3; /* 3/a binary profile file, SSE: "h3ps" = 0x 68 33 70 73  + 0x80808080 */
+
+
+/*****************************************************************
+ *# 1. Writing optimized profiles to two files.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_Write()
+ * Synopsis:  Write an optimized profile in two files.
+ *
+ * Purpose:   Write the MSV filter part of <om> to open binary stream
+ *            <ffp>, and the rest of the model to <pfp>. These two
+ *            streams will typically be <.h3f> and <.h3p> files 
+ *            being created by hmmpress.
+ *
+ * Args:      ffp  - open binary stream for saving MSV filter part
+ *            pfp  - open binary stream for saving rest of profile
+ *            om   - optimized profile to save
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any write failure, such as filling
+ *            the disk.
+ */
+int
+p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om)
+{
+  int Q4   = p7O_NQF(om->M);
+  int Q8   = p7O_NQW(om->M);
+  int Q16  = p7O_NQB(om->M);
+  int Q16x = p7O_NQB(om->M) + p7O_EXTRA_SB;
+  int n    = strlen(om->name);
+  int x;
+
+  /* <ffp> is the part of the oprofile that MSVFilter() needs */
+  if (fwrite((char *) &(v3f_fmagic),    sizeof(uint32_t), 1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->M),         sizeof(int),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->abc->type), sizeof(int),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &n,               sizeof(int),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->name,         sizeof(char),     n+1,         ffp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->max_length),sizeof(int),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->tbm_b),     sizeof(uint8_t),  1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->tec_b),     sizeof(uint8_t),  1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->tjb_b),     sizeof(uint8_t),  1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->scale_b),   sizeof(float),    1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->base_b),    sizeof(uint8_t),  1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->bias_b),    sizeof(uint8_t),  1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->sbv[x],    sizeof(__m128i),  Q16x,        ffp) != Q16x)        ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->rbv[x],    sizeof(__m128i),  Q16,         ffp) != Q16)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  
+  if (fwrite((char *) om->evparam,      sizeof(float),    p7_NEVPARAM, ffp) != p7_NEVPARAM) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->offs,         sizeof(off_t),    p7_NOFFSETS, ffp) != p7_NOFFSETS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->compo,        sizeof(float),    p7_MAXABET,  ffp) != p7_MAXABET)  ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(v3f_fmagic),    sizeof(uint32_t), 1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed"); /* sentinel */
+
+  /* <pfp> gets the rest of the oprofile */
+  if (fwrite((char *) &(v3f_pmagic),    sizeof(uint32_t), 1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->M),         sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->abc->type), sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &n,               sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->name,         sizeof(char),     n+1,         pfp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  if (om->acc == NULL) {
+    n = 0;
+    if (fwrite((char *) &n,             sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  } else {
+    n = strlen(om->acc);
+    if (fwrite((char *) &n,             sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+    if (fwrite((char *) om->acc,        sizeof(char),     n+1,         pfp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  }
+
+  if (om->desc == NULL) {
+    n = 0;
+    if (fwrite((char *) &n,             sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  } else {
+    n = strlen(om->desc);
+    if (fwrite((char *) &n,             sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+    if (fwrite((char *) om->desc,       sizeof(char),     n+1,         pfp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  }
+  
+  if (fwrite((char *) om->rf,           sizeof(char),     om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->mm,           sizeof(char),     om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->cs,           sizeof(char),     om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->consensus,    sizeof(char),     om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  /* ViterbiFilter part */
+  if (fwrite((char *) om->twv,             sizeof(__m128i),  8*Q8,        pfp) != 8*Q8)        ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->rwv[x],       sizeof(__m128i),  Q8,          pfp) != Q8)          ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (fwrite( (char *) om->xw[x],        sizeof(int16_t),  p7O_NXTRANS, pfp) != p7O_NXTRANS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->scale_w),      sizeof(float),    1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->base_w),       sizeof(int16_t),  1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->ddbound_w),    sizeof(int16_t),  1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->ncj_roundoff), sizeof(float),    1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  /* Forward/Backward part */
+  if (fwrite((char *) om->tfv,          sizeof(__m128),   8*Q4,        pfp) != 8*Q4)        ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->rfv[x],    sizeof(__m128),   Q4,          pfp) != Q4)          ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (fwrite( (char *) om->xf[x],     sizeof(float),    p7O_NXTRANS, pfp) != p7O_NXTRANS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  if (fwrite((char *)   om->cutoff,     sizeof(float),    p7_NCUTOFFS, pfp) != p7_NCUTOFFS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->nj),        sizeof(float),    1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->mode),      sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->L)   ,      sizeof(int),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(v3f_pmagic),    sizeof(uint32_t), 1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed"); /* sentinel */
+  return eslOK;
+}
+/*---------------- end, writing oprofile ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Reading optimized profiles in two stages.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_ReadMSV()
+ * Synopsis:  Read MSV filter part of an optimized profile.
+ *
+ * Purpose:   Read the MSV filter part of a profile from the
+ *            <.h3f> file associated with an open HMM file <hfp>.
+ *            Allocate a new model, populate it with this minimal
+ *            MSV filter information, and return a pointer to it
+ *            in <*ret_om>. 
+ *            
+ *            Our alphabet may get set by the first HMM we read.  If
+ *            <*byp_abc> is <NULL> at start, create a new alphabet and
+ *            return a pointer to it in <*byp_abc>. If <*byp_abc> is
+ *            non-<NULL>, it is assumed to be a pointer to an existing
+ *            alphabet; we verify that the HMM's alphabet matches it
+ *            and <*ret_abc> isn't changed.  This is the same
+ *            convention used by <p7_hmmfile_Read()>.
+ *            
+ *            The <.h3f> file was opened automatically, if it existed,
+ *            when the HMM file was opened with <p7_hmmfile_OpenE()>.
+ *            
+ *            When no more HMMs remain in the file, return <eslEOF>.
+ *
+ * Args:      hfp     - open HMM file, with associated .h3p file
+ *            byp_abc - BYPASS: <*byp_abc == ESL_ALPHABET *> if known; 
+ *                              <*byp_abc == NULL> if desired; 
+ *                              <NULL> if unwanted.
+ *            ret_om  - RETURN: newly allocated <om> with MSV filter
+ *                      data filled in.
+ *            
+ * Returns:   <eslOK> on success. <*ret_om> is allocated here;
+ *            caller free's with <p7_oprofile_Destroy()>.
+ *            <*byp_abc> is allocated here if it was requested;
+ *            caller free's with <esl_alphabet_Destroy()>.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3f> file open,
+ *            or on any parsing error.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM we read is incompatible
+ *            with the existing alphabet <*byp_abc> led us to expect.
+ *            
+ *            On any returned error, <hfp->errbuf> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om)
+{
+  P7_OPROFILE  *om = NULL;
+  ESL_ALPHABET *abc = NULL;
+  uint32_t      magic;
+  off_t         roff;
+  int           M, Q16, Q16x;
+  int           x,n;
+  int           alphatype;
+  int           status;
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->ffp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (feof(hfp->ffp))   { status = eslEOF; goto ERROR; }	/* normal EOF: no more profiles */
+  
+  /* keep track of the starting offset of the MSV model */
+  roff = ftello(hfp->ffp);
+
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp)) { status = eslEOF; goto ERROR; }
+  if (magic == v3a_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database?");
+
+  if (! fread( (char *) &M,         sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype, sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  Q16  = p7O_NQB(M);
+  Q16x = p7O_NQB(M) + p7O_EXTRA_SB;
+
+  /* Set or verify alphabet. */
+  if (byp_abc == NULL || *byp_abc == NULL)	{	/* alphabet unknown: whether wanted or unwanted, make a new one */
+    if ((abc = esl_alphabet_Create(alphatype)) == NULL)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: alphabet");
+  } else {			/* alphabet already known: verify it against what we see in the HMM */
+    abc = *byp_abc;
+    if (abc->type != alphatype) 
+      ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current profile says %s", 
+		esl_abc_DecodeType(abc->type), esl_abc_DecodeType(alphatype));
+  }
+  /* Now we know the sizes of things, so we can allocate. */
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)         ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: oprofile");
+  om->M = M;
+  om->roff = roff;
+
+  if (! fread((char *) &n,               sizeof(int),     1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name length");
+  ESL_ALLOC(om->name, sizeof(char) * (n+1));
+  if (! fread((char *) om->name,         sizeof(char),    n+1,         hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name");
+
+  if (! fread((char *) &(om->max_length),sizeof(int),     1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read max_length");
+  if (! fread((char *) &(om->tbm_b),     sizeof(uint8_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read tbm");
+  if (! fread((char *) &(om->tec_b),     sizeof(uint8_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read tec");
+  if (! fread((char *) &(om->tjb_b),     sizeof(uint8_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read tjb");
+  if (! fread((char *) &(om->scale_b),   sizeof(float),   1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read scale");
+  if (! fread((char *) &(om->base_b),    sizeof(uint8_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read base");
+  if (! fread((char *) &(om->bias_b),    sizeof(uint8_t), 1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read bias");
+  for (x = 0; x < abc->Kp; x++)
+    if (! fread((char *) om->sbv[x],     sizeof(__m128i), Q16x,        hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ssv scores at %d [residue %c]", x, abc->sym[x]); 
+  for (x = 0; x < abc->Kp; x++)
+    if (! fread((char *) om->rbv[x],     sizeof(__m128i), Q16,         hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read msv scores at %d [residue %c]", x, abc->sym[x]); 
+  if (! fread((char *) om->evparam,      sizeof(float),   p7_NEVPARAM, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read stat params");
+  if (! fread((char *) om->offs,         sizeof(off_t),   p7_NOFFSETS, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read hmmpfam offsets");
+  if (! fread((char *) om->compo,        sizeof(float),   p7_MAXABET,  hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model composition");
+
+  /* record ends with magic sentinel, for detecting binary file corruption */
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp))  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3f file corrupted?");
+  if (magic != v3f_fmagic)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic; .h3f file corrupted?");
+
+  /* keep track of the ending offset of the MSV model */
+  om->eoff = ftello(hfp->ffp) - 1;;
+
+  if (byp_abc != NULL) *byp_abc = abc;  /* pass alphabet (whether new or not) back to caller, if caller wanted it */
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (abc != NULL && (byp_abc == NULL || *byp_abc == NULL)) esl_alphabet_Destroy(abc); /* destroy alphabet if we created it here */
+  if (om != NULL) p7_oprofile_Destroy(om);
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_ReadInfoMSV()
+ * Synopsis:  Read MSV filter info, but not the scores.
+ *
+ * Purpose:   Read just enough of the MSV filter header from the
+ *            <.h3f> file associated with an open HMM file <hfp>
+ *            to skip ahead to the next MSV filter. Allocate a new
+ *            model, populate it with just the file offsets of this
+ *            model and return a pointer to it in <*ret_om>. 
+ *            
+ *            The <.h3f> file was opened automatically, if it existed,
+ *            when the HMM file was opened with <p7_hmmfile_OpenE()>.
+ *            
+ *            When no more HMMs remain in the file, return <eslEOF>.
+ *
+ * Args:      hfp     - open HMM file, with associated .h3p file
+ *            byp_abc - BYPASS: <*byp_abc == ESL_ALPHABET *> if known; 
+ *                              <*byp_abc == NULL> if desired; 
+ *                              <NULL> if unwanted.
+ *            ret_om  - RETURN: newly allocated <om> with partial MSV
+ *                      filter data filled in.
+ *            
+ * Returns:   <eslOK> on success. <*ret_om> is allocated here;
+ *            caller free's with <p7_oprofile_Destroy()>.
+ *            <*byp_abc> is allocated here if it was requested;
+ *            caller free's with <esl_alphabet_Destroy()>.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3f> file open,
+ *            or on any parsing error.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM we read is incompatible
+ *            with the existing alphabet <*byp_abc> led us to expect.
+ *            
+ *            On any returned error, <hfp->errbuf> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadInfoMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om)
+{
+  P7_OPROFILE  *om = NULL;
+  ESL_ALPHABET *abc = NULL;
+  uint32_t      magic;
+  off_t         roff;
+  int           M, Q16, Q16x;
+  int           n;
+  int           alphatype;
+  int           status;
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->ffp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (feof(hfp->ffp))   { status = eslEOF; goto ERROR; }	/* normal EOF: no more profiles */
+  
+  /* keep track of the starting offset of the MSV model */
+  roff = ftello(hfp->ffp);
+
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp)) { status = eslEOF; goto ERROR; }
+  if (magic == v3a_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database?");
+
+  if (! fread( (char *) &M,         sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype, sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  Q16  = p7O_NQB(M);
+  Q16x = p7O_NQB(M) + p7O_EXTRA_SB;
+
+  /* Set or verify alphabet. */
+  if (byp_abc == NULL || *byp_abc == NULL)	{	/* alphabet unknown: whether wanted or unwanted, make a new one */
+    if ((abc = esl_alphabet_Create(alphatype)) == NULL)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: alphabet");
+  } else {			/* alphabet already known: verify it against what we see in the HMM */
+    abc = *byp_abc;
+    if (abc->type != alphatype) 
+      ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current profile says %s", 
+		esl_abc_DecodeType(abc->type), esl_abc_DecodeType(alphatype));
+  }
+  /* Now we know the sizes of things, so we can allocate. */
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)         ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: oprofile");
+  om->M = M;
+  om->roff = roff;
+
+  /* calculate the remaining length of the msv model */
+  om->name = NULL;
+  if (!fread((char *) &n, sizeof(int), 1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name length");
+  roff += (sizeof(int) * 5);                      /* magic, model size, alphabet type, max length, name length */
+  roff += (sizeof(char) * (n + 1));               /* name string and terminator '\0'                           */
+  roff += (sizeof(float) + sizeof(uint8_t) * 5);  /* transition  costs, bias, scale and base                   */
+  roff += (sizeof(__m128i) * abc->Kp * Q16x);     /* ssv scores                                                */
+  roff += (sizeof(__m128i) * abc->Kp * Q16);      /* msv scores                                                */
+  roff += (sizeof(float) * p7_NEVPARAM);          /* stat params                                               */
+  roff += (sizeof(off_t) * p7_NOFFSETS);          /* hmmscan offsets                                           */
+  roff += (sizeof(float) * p7_MAXABET);           /* model composition                                         */
+  roff += sizeof(uint32_t);			  /* sentinel magic                                            */
+
+  /* keep track of the ending offset of the MSV model */
+  p7_oprofile_Position(hfp, roff);
+  om->eoff = ftello(hfp->ffp) - 1;
+
+  if (byp_abc != NULL) *byp_abc = abc;  /* pass alphabet (whether new or not) back to caller, if caller wanted it */
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (abc != NULL && (byp_abc == NULL || *byp_abc == NULL)) esl_alphabet_Destroy(abc); /* destroy alphabet if we created it here */
+  if (om != NULL) p7_oprofile_Destroy(om);
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_ReadBlockMSV()
+ * Synopsis:  Read the next block of optimized profiles from a hmm file.
+ *
+ * Purpose:   Reads a block of optimized profiles from open hmm file <hfp> into 
+ *            <hmmBlock>.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <sqBlock>.
+ * 
+ *            Returns <eslEOF> when there is no profiles left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Otherwise return the status of the p7_oprofile_ReadMSV function.
+ */
+int
+p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock)
+{
+  int     i;
+  int     size = 0;
+  int     status = eslOK;
+
+  hmmBlock->count = 0;
+  for (i = 0; i < hmmBlock->listSize; ++i)
+    {
+      status = p7_oprofile_ReadMSV(hfp, byp_abc, &hmmBlock->list[i]);
+      if (status != eslOK) break;
+      size += hmmBlock->list[i]->M;
+      ++hmmBlock->count;
+    }
+
+  /* EOF will be returned only in the case were no profiles were read */
+  if (status == eslEOF && i > 0) status = eslOK;
+
+  return status;
+}
+
+/* Function:  p7_oprofile_ReadRest()
+ * Synopsis:  Read the rest of an optimized profile.
+ *
+ * Purpose:   Read the rest of an optimized profile <om> from
+ *            the <.h3p> file associated with an open HMM
+ *            file <hfp>. 
+ *            
+ *            This is the second part of a two-part calling sequence.
+ *            The <om> here must be the result of a previous
+ *            successful <p7_oprofile_ReadMSV()> call on the same
+ *            open <hfp>.
+ *
+ * Args:      hfp - open HMM file, from which we've previously
+ *                  called <p7_oprofile_ReadMSV()>.
+ *            om  - optimized profile that was successfully
+ *                  returned by  <p7_oprofile_ReadMSV()>.
+ *
+ * Returns:   <eslOK> on success, and <om> is now a complete
+ *            optimized profile.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3p> file open,
+ *            or on any parsing error, and set <hfp->errbuf> to
+ *            an informative error message.
+ *
+ * Throws:    <eslESYS> if an <fseek()> fails to reposition the
+ *            binary <.h3p> file.
+ *            
+ *            <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om)
+{
+  uint32_t      magic;
+  int           M, Q4, Q8;
+  int           x,n;
+  char         *name = NULL;
+  int           alphatype;
+  int           status;
+
+#ifdef HMMER_THREADS
+  /* lock the mutex to prevent other threads from reading from the optimized
+   * profile at the same time.
+   */
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_lock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex lock failed");
+    }
+#endif
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->pfp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+ 
+  /* Position the <hfp->pfp> using offset stored in <om> */
+  if (fseeko(hfp->pfp, om->offs[p7_POFFSET], SEEK_SET) != 0)                       ESL_EXCEPTION(eslESYS, "fseeko() failed");
+   
+  if (! fread( (char *) &magic,          sizeof(uint32_t), 1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read magic");
+  if (magic == v3a_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "binary auxfiles are in an outdated HMMER format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database file?");
+
+  if (! fread( (char *) &M,              sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype,      sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  if (! fread( (char *) &n,              sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name length");  
+  if (M         != om->M)                                                          ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f model length mismatch");
+  if (alphatype != om->abc->type)                                                  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f alphabet type mismatch");
+
+  ESL_ALLOC(name, sizeof(char) * (n+1));
+  if (! fread( (char *) name,            sizeof(char),     n+1,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name");  
+  if (strcmp(name, om->name) != 0)                                                 ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f name mismatch");  
+  
+  if (! fread((char *) &n,               sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read accession length");
+  if (n > 0) {
+    ESL_ALLOC(om->acc, sizeof(char) * (n+1));
+    if (! fread( (char *) om->acc,       sizeof(char),     n+1,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read accession");      
+  }
+  if (! fread((char *) &n,               sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read description length");
+  if (n > 0) {
+    ESL_ALLOC(om->desc, sizeof(char) * (n+1));
+    if (! fread( (char *) om->desc,      sizeof(char),     n+1,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read description");      
+  }
+
+  if (! fread((char *) om->rf,           sizeof(char),     M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read rf annotation");
+  if (! fread((char *) om->mm,           sizeof(char),     M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read mm annotation");
+  if (! fread((char *) om->cs,           sizeof(char),     M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read cs annotation");
+  if (! fread((char *) om->consensus,    sizeof(char),     M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read consensus annotation");
+
+  Q4  = p7O_NQF(om->M);
+  Q8  = p7O_NQW(om->M);
+
+  if (! fread((char *) om->twv,             sizeof(__m128i),  8*Q8,        hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <tu>, vitfilter transitions");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (! fread( (char *) om->rwv[x],       sizeof(__m128i),  Q8,          hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <ru>[%d], vitfilter emissions for sym %c", x, om->abc->sym[x]);
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (! fread( (char *) om->xw[x],        sizeof(int16_t),  p7O_NXTRANS, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <xu>[%d], vitfilter special transitions", x);
+  if (! fread((char *) &(om->scale_w),      sizeof(float),    1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read scale_w");
+  if (! fread((char *) &(om->base_w),       sizeof(int16_t),  1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read base_w");
+  if (! fread((char *) &(om->ddbound_w),    sizeof(int16_t),  1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ddbound_w");
+  if (! fread((char *) &(om->ncj_roundoff), sizeof(float),    1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ddbound_w");
+
+  if (! fread((char *) om->tfv,          sizeof(__m128),   8*Q4,        hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <tf> transitions");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (! fread( (char *) om->rfv[x],    sizeof(__m128),   Q4,          hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <rf>[%d] emissions for sym %c", x, om->abc->sym[x]);
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (! fread( (char *) om->xf[x],     sizeof(float),    p7O_NXTRANS, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <xf>[%d] special transitions", x);
+
+  if (! fread((char *)   om->cutoff,     sizeof(float),    p7_NCUTOFFS, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read Pfam score cutoffs");
+  if (! fread((char *) &(om->nj),        sizeof(float),    1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read nj");
+  if (! fread((char *) &(om->mode),      sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read mode");
+  if (! fread((char *) &(om->L)   ,      sizeof(int),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read L");
+
+  /* record ends with magic sentinel, for detecting binary file corruption */
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->pfp))  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3p file corrupted?");
+  if (magic != v3f_pmagic)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic; .h3p file corrupted?");
+
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_unlock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+    }
+#endif
+
+  free(name);
+  return eslOK;
+
+ ERROR:
+
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_unlock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+    }
+#endif
+
+  if (name != NULL) free(name);
+  return status;
+}
+/*----------- end, reading optimized profiles -------------------*/
+
+
+/*****************************************************************
+ * 3. Utility routines
+ *****************************************************************/
+/* Function:  p7_oprofile_CreateBlock()
+ * Synopsis:  Create a new block of empty <P7_OM_BLOCK>.
+ *
+ * Purpose:   Creates a block of empty <P7_OM_BLOCK> profile objects.
+ *            
+ * Returns:   a pointer to the new <P7_OM_BLOCK>. Caller frees this
+ *            with <p7_oprofile_DestroyBlock()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+P7_OM_BLOCK *
+p7_oprofile_CreateBlock(int count)
+{
+  int i = 0;
+
+  P7_OM_BLOCK *block = NULL;
+  int status = eslOK;
+
+  ESL_ALLOC(block, sizeof(*block));
+
+  block->count = 0;
+  block->listSize = 0;
+  block->list  = NULL;
+
+  ESL_ALLOC(block->list, sizeof(P7_OPROFILE *) * count);
+  block->listSize = count;
+
+  for (i = 0; i < count; ++i)
+    {
+      block->list[i] = NULL;
+    }
+
+  return block;
+
+ ERROR:
+  if (block != NULL)
+    {
+      if (block->list != NULL)  free(block->list);
+      free(block);
+    }
+  
+  return NULL;
+}
+
+/* Function:  p7_oprofile_DestroyBlock()
+ * Synopsis:  Frees an <P7_OM_BLOCK>.
+ *
+ * Purpose:   Free a Create()'d block of profiles.
+ */
+void
+p7_oprofile_DestroyBlock(P7_OM_BLOCK *block)
+{
+  int i;
+
+  if (block == NULL) return;
+
+  if (block->list != NULL)
+    {
+      for (i = 0; i < block->listSize; ++i)
+	{
+	  if (block->list[i] != NULL) p7_oprofile_Destroy(block->list[i]);
+	}
+      free(block->list);
+    }
+
+  free(block);
+  return;
+}
+
+/* Function:  p7_oprofile_Position()
+ * Synopsis:  Reposition an open hmm file to an offset.
+ *
+ * Purpose:   Reposition an open <hfp> to offset <offset>.
+ *            <offset> would usually be the first byte of a
+ *            desired hmm record.
+ *            
+ * Returns:   <eslOK>     on success;
+ *            <eslEOF>    if no data can be read from this position.
+ *
+ * Throws:    <eslEINVAL>  if the <sqfp> is not positionable.
+ *            <eslEFORMAT> if no msv profile opened.
+ *            <eslESYS>    if the fseeko() call fails.
+ */
+int
+p7_oprofile_Position(P7_HMMFILE *hfp, off_t offset)
+{
+  if (hfp->ffp == NULL)  ESL_EXCEPTION(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (hfp->do_stdin)     ESL_EXCEPTION(eslEINVAL, "can't Position() in standard input");
+  if (hfp->do_gzip)      ESL_EXCEPTION(eslEINVAL, "can't Position() in a gzipped file");
+  if (offset < 0)        ESL_EXCEPTION(eslEINVAL, "bad offset");
+
+  if (fseeko(hfp->ffp, offset, SEEK_SET) != 0) ESL_EXCEPTION(eslESYS, "fseeko() failed");
+
+  return eslOK;
+}
+
+/*-------------------- end, utility routines ---------------------*/
+
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7IO_BENCHMARK
+/*
+  gcc  -g -Wall    -o benchmark-io -I.. -L.. -I../../easel -L../../easel -Dp7IO_BENCHMARK io.c -lhmmer -leasel -lm 
+  icc  -O3 -static -o benchmark-io -I.. -L.. -I../../easel -L../../easel -Dp7IO_BENCHMARK io.c -lhmmer -leasel -lm 
+
+  ./benchmark-io Pfam.msv
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM MSV profile file>";
+static char banner[] = "benchmark driver for profile input";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w       = esl_stopwatch_Create();
+  ESL_ALPHABET  *abc     = NULL;
+  char          *msvfile = esl_opt_GetArg(go, 1);
+  FILE          *msvfp   = NULL;
+  P7_OPROFILE   *om      = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+
+  esl_stopwatch_Start(w);
+
+  if ((msvfp = fopen(msvfile, "r")) == NULL) p7_Fail("Failed to open MSV file %s for reading.\n", msvfile);
+
+  while ((status = p7_oprofile_ReadMSV(msvfp, &abc, NULL, &om)) == eslOK)
+    {
+      nmodel++;
+      totM += om->M;
+
+      p7_oprofile_Destroy(om);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in profile file %s",           msvfile);
+  else if (status == eslEINCOMPAT) p7_Fail("profile file %s contains different alphabets", msvfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading profiles from %s", msvfile);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# number of models: %d\n", nmodel);
+  printf("# total M:          %" PRId64 "\n", totM);
+  
+  fclose(msvfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*IO_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef p7IO_TESTDRIVE
+
+static void
+utest_ReadWrite(P7_HMM *hmm, P7_OPROFILE *om)
+{
+  char        *msg         = "oprofile read/write unit test failure";
+  ESL_ALPHABET *abc        = NULL;
+  P7_OPROFILE *om2         = NULL;
+  char         tmpfile[16] = "esltmpXXXXXX";
+  char        *mfile       = NULL;
+  char        *ffile       = NULL;
+  char        *pfile       = NULL;
+  char        *ssifile     = NULL;
+  FILE        *fp          = NULL;
+  FILE        *mfp         = NULL;
+  FILE        *ffp         = NULL;
+  FILE        *pfp         = NULL;
+  ESL_NEWSSI  *nssi        = NULL;
+  P7_HMMFILE  *hfp         = NULL;
+  uint16_t     fh          = 0;
+  float        tolerance   = 0.001;
+  char         errbuf[eslERRBUFSIZE];
+
+
+  /* 1. A mini version of hmmpress: save the test HMM to a file along with its associated .h3{mfpi} files
+   */
+  if ( esl_tmpfile_named(tmpfile, &fp)          != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&mfile,   "%s.h3m", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&ffile,   "%s.h3f", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&pfile,   "%s.h3p", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&ssifile, "%s.h3i", tmpfile) != eslOK) esl_fatal(msg);
+
+  if ( esl_newssi_Open(ssifile, TRUE, &nssi)    != eslOK) esl_fatal(msg);
+  if (( mfp = fopen(mfile, "wb"))               == NULL)  esl_fatal(msg);
+  if (( ffp = fopen(ffile, "wb"))               == NULL)  esl_fatal(msg);
+  if (( pfp = fopen(pfile, "wb"))               == NULL)  esl_fatal(msg);
+
+  /* the disk offsets are all 0 by construction, if there's only one
+   * HMM in the file - but don't want to forget them, if we change the
+   * unit test in the future to be multi HMM
+   */
+  if ((om->offs[p7_MOFFSET] = ftello(mfp))      == -1)    esl_fatal(msg);
+  if ((om->offs[p7_FOFFSET] = ftello(ffp))      == -1)    esl_fatal(msg);
+  if ((om->offs[p7_POFFSET] = ftello(pfp))      == -1)    esl_fatal(msg);
+
+  if ( p7_hmmfile_WriteASCII(fp,   -1, hmm)     != eslOK) esl_fatal(msg);
+  if ( p7_hmmfile_WriteBinary(mfp, -1, hmm)     != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_Write(ffp, pfp, om)          != eslOK) esl_fatal(msg);
+
+  if ( esl_newssi_AddFile(nssi, tmpfile, 0, &fh)                           != eslOK) esl_fatal(msg);
+  if ( esl_newssi_AddKey (nssi, hmm->name, fh, om->offs[p7_MOFFSET], 0, 0) != eslOK) esl_fatal(msg);
+  if ( esl_newssi_Write(nssi)                                              != eslOK) esl_fatal(msg);
+
+  fclose(fp);
+  fclose(mfp);
+  fclose(ffp); 
+  fclose(pfp);
+  esl_newssi_Close(nssi);
+
+  /* 2. read the optimized profile back in */
+  if ( p7_hmmfile_OpenE(tmpfile, NULL, &hfp, NULL)  != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_ReadMSV(hfp, &abc, &om2)         != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_ReadRest(hfp, om2)               != eslOK) esl_fatal(msg);
+
+  /* 3. it should be identical to the original  */
+  if ( p7_oprofile_Compare(om, om2, tolerance, errbuf) != eslOK) esl_fatal("%s\n%s", msg, errbuf);
+       
+  p7_oprofile_Destroy(om2);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  remove(ssifile);
+  remove(ffile);
+  remove(pfile);
+  remove(mfile);
+  remove(tmpfile);
+
+  free(ssifile);
+  free(mfile);
+  free(ffile);
+  free(pfile);
+}
+  
+#endif /*p7IO_TESTDRIVE*/
+/*------------------ end, unit tests ----------------------------*/
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef p7IO_TESTDRIVE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -o io_utest -I.. -L.. -I../../easel -L../../easel -Dp7IO_TESTDRIVE io.c -lhmmer -leasel -lm
+   ./io_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-M",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "size of random model to sample",                 0 },
+  { "-L",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "configure model for length <n>",                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for SSE Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_OPROFILE    *om   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  
+  /* Sample a random HMM and optimized profile, in amino acid alphabet.  */
+  if ((abc = esl_alphabet_Create(eslAMINO))                    == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))                                 == NULL)  esl_fatal("failed to create null model");
+  if (( p7_oprofile_Sample(r, abc, bg, M, L, &hmm, NULL, &om)) != eslOK) esl_fatal("failed to sample HMM and profile");
+
+  /* unit test(s) */
+  utest_ReadWrite(hmm, om);
+
+  p7_oprofile_Destroy(om);
+  p7_hmm_Destroy(hmm);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+
+#endif /*p7IO_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example.
+ *****************************************************************/
+#ifdef p7IO_EXAMPLE
+/* gcc -g -Wall -Dp7IO_EXAMPLE -I.. -I../../easel -L.. -L../../easel -o io_example io.c -lhmmer -leasel -lm
+ * ./io_example <hmmfile>
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",      0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "verbose: print model info as they're read", 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM file>";
+static char banner[] = "example of writing MSV profile part";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET  *abc     = NULL;
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE    *hfp     = NULL;
+  P7_HMM        *hmm     = NULL;
+  P7_BG         *bg      = NULL;
+  P7_PROFILE    *gm      = NULL;
+  P7_OPROFILE   *om      = NULL;
+  char          *fname   = NULL;
+  char          *pname   = NULL;
+  FILE          *ffp     = NULL;
+  FILE          *pfp     = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+  char           errbuf[eslERRBUFSIZE];
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  esl_sprintf(&fname, "%s.h3f", hmmfile);  
+  esl_sprintf(&pname, "%s.h3f", hmmfile);  
+  if ((ffp = fopen(fname, "wb")) == NULL) p7_Fail("failed to open %s\n", fname);
+  if ((pfp = fopen(pname, "wb")) == NULL) p7_Fail("failed to open %s\n", pname);
+  free(fname);
+  free(pname);
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) == eslOK)
+    {
+      if (nmodel == 0) { 	/* first time initialization, now that alphabet known */
+	bg = p7_bg_Create(abc);
+	p7_bg_SetLength(bg, 400);
+      }
+
+      if (esl_opt_GetBoolean(go, "-v")) printf("%s\n", hmm->name);
+      nmodel++;
+      totM += hmm->M;
+
+      gm = p7_profile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+      om = p7_oprofile_Create(gm->M, abc);
+      p7_oprofile_Convert(gm, om);
+      
+      p7_oprofile_Write(ffp, pfp, om);
+
+      p7_profile_Destroy(gm);
+      p7_oprofile_Destroy(om);
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+  fclose(ffp);
+  fclose(pfp);
+  p7_bg_Destroy(bg);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*IO_EXAMPLE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_sse/io.c $
+ * SVN $Id: io.c 3960 2012-03-22 21:42:50Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/mpi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/mpi.c
new file mode 100755
index 0000000..55f4707
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/mpi.c
@@ -0,0 +1,795 @@
+/* Optional support for MPI parallelization.
+ * 
+ * Contents:
+ *    1. Communicating P7_OPROFILE, a score profile.
+ *    2. Benchmark driver.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Copyright and license information.
+ *    
+ * SRE, Thu Jun 14 09:59:20 2007 [Janelia] [Tom Waits, Orphans]
+ * SVN $Id: mpi.c 4452 2013-05-05 01:44:04Z wheelert $
+ */
+#include "p7_config.h"		
+
+#ifdef HAVE_MPI
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "mpi.h"
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_mpi.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Communicating P7_OPROFILE, an optimized model.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_MPISend()
+ * Synopsis:  Send an OPROFILE as an MPI work unit.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Sends an OPROFILE <om> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            Work units are prefixed by a status code. If <hmm> is
+ *            <non-NULL>, the work unit is an <eslOK> code followed by
+ *            the packed HMM. If <hmm> is NULL, the work unit is an
+ *            <eslEOD> code, which <p7_hmm_MPIRecv()> knows how to
+ *            interpret; this is typically used for an end-of-data
+ *            signal to cleanly shut down worker processes.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <hmm> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ * 
+ * Note:      Compare to p7_hmmfile_WriteBinary(). The two operations (sending
+ *            an HMM via MPI, or saving it as a binary file to disk) are
+ *            similar.
+ */
+int
+p7_oprofile_MPISend(P7_OPROFILE *om, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   code;
+  int   sz, n, pos;
+
+  /* Figure out size */
+  if (MPI_Pack_size(1, MPI_INT, comm, &n) != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+  if (om != NULL) {
+    if ((status = p7_oprofile_MPIPackSize(om, comm, &sz)) != eslOK) return status;
+    n += sz;
+  }
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Pack the status code and OPROFILE into the buffer */
+  pos  = 0;
+  code = (om == NULL) ? eslEOD : eslOK;
+  if (MPI_Pack(&code, 1, MPI_INT, *buf, n, &pos, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi pack failed");
+  if (om != NULL) {
+    if ((status = p7_oprofile_MPIPack(om, *buf, n, &pos, comm)) != eslOK) return status;
+  }
+
+  /* Send the packed OPROFILE to the destination. */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0)  ESL_EXCEPTION(eslESYS, "mpi send failed");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_oprofile_MPIPackSize()
+ * Synopsis:  Calculates size needed to pack an OPROFILE.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Calculate an upper bound on the number of bytes
+ *            that <p7_oprofile_MPIPack()> will need to pack an 
+ *            OPROFILE <om> in a packed MPI message for MPI 
+ *            communicator <comm>; return that number of bytes
+ *            in <*ret_n>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the answer.
+ *
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is 0.
+ */
+int
+p7_oprofile_MPIPackSize(P7_OPROFILE *om, MPI_Comm comm, int *ret_n)
+{
+  int   status;
+  int   n = 0;
+  int   K = om->abc->Kp;
+  int   len = 0;
+  int   cnt;
+  int   sz;
+
+  int   Q4  = p7O_NQF(om->M);
+  int   Q8  = p7O_NQW(om->M);
+  int   Q16 = p7O_NQB(om->M);
+  int   vsz = sizeof(__m128i);
+
+  /* MSV Filter information */
+  if (MPI_Pack_size(5,          MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(1,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(vsz*Q16,    MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += (K*sz);
+
+  /* Viterbi Filter information */
+  if (MPI_Pack_size(1,         MPI_SHORT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += ((p7O_NXSTATES*p7O_NXTRANS+2)*sz);
+  if (MPI_Pack_size(2,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(K*vsz*Q8,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(8*vsz*Q8,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  /* Forward/Backward information */
+  if (MPI_Pack_size(1,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += (p7O_NXSTATES*p7O_NXTRANS*sz);
+  if (MPI_Pack_size(K*vsz*Q4,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(8*vsz*Q4,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  /* disk offsets */
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += ((p7_NOFFSETS+2)*sz);
+
+  /* annotation info */
+  if (om->name      != NULL) len += strlen(om->name)      + 1;
+  if (om->acc       != NULL) len += strlen(om->acc)       + 1;
+  if (om->desc      != NULL) len += strlen(om->desc)      + 1;
+  if (om->rf        != NULL) len += strlen(om->rf)        + 1;
+  if (om->mm        != NULL) len += strlen(om->mm)        + 1;
+  if (om->cs        != NULL) len += strlen(om->cs)        + 1;
+  if (om->consensus != NULL) len += strlen(om->consensus) + 1;
+  if (MPI_Pack_size(7,           MPI_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(len,        MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  cnt = p7_NEVPARAM + p7_NCUTOFFS + p7_MAXABET;
+  if (MPI_Pack_size(cnt,       MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  /* current model size */
+  if (MPI_Pack_size(4,           MPI_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(1,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+
+}
+
+/* Function:  p7_oprofile_MPIPack()
+ * Synopsis:  Packs an OPROFILE into MPI buffer.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Packs OPROFILE <om> into an MPI packed message buffer <buf>
+ *            of length <n> bytes, starting at byte position <*position>,
+ *            for MPI communicator <comm>.
+ *            
+ *            The caller must know that <buf>'s allocation of <n>
+ *            bytes is large enough to append the packed OPROFILE at
+ *            position <*pos>. This typically requires a call to
+ *            <p7_oprofile_MPIPackSize()> first, and reallocation if
+ *            needed.
+ *            
+ * Returns:   <eslOK> on success; <buf> now contains the
+ *            packed <om>, and <*position> is set to the byte
+ *            immediately following the last byte of the OPROFILE
+ *            in <buf>. 
+ *
+ * Throws:    <eslESYS> if an MPI call fails; or <eslEMEM> if the
+ *            buffer's length <n> was overflowed in trying to pack
+ *            <msa> into <buf>. In either case, the state of
+ *            <buf> and <*position> is undefined, and both should
+ *            be considered to be corrupted.
+ */
+int
+p7_oprofile_MPIPack(P7_OPROFILE *om, char *buf, int n, int *pos, MPI_Comm comm)
+{
+  int   K     = om->abc->Kp;
+  int   atype = om->abc->type;
+  int   len;
+  int   x;
+
+  int   Q4    = p7O_NQF(om->M);
+  int   Q8    = p7O_NQW(om->M);
+  int   Q16   = p7O_NQB(om->M);
+  int   vsz   = sizeof(__m128i);
+
+  /* model configuration */
+  if (MPI_Pack(&om->M,            1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&atype,            1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->L,            1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->mode,         1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->nj,           1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* MSV Filter information */
+  if (MPI_Pack(&om->tbm_b,        1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->tec_b,        1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->tjb_b,        1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->scale_b,      1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->base_b,       1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->bias_b,       1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Pack( om->rbv[x],     vsz*Q16,               MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Viterbi Filter information */
+  if (MPI_Pack(&om->scale_w,      1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->base_w,       1,                    MPI_SHORT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->ddbound_w,    1,                    MPI_SHORT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->ncj_roundoff, 1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( om->twv,          8*vsz*Q8,              MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Pack( om->xw[x],      p7O_NXTRANS,          MPI_SHORT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Pack( om->rwv[x],     vsz*Q8,                MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Pack( om->tfv,          8*vsz*Q4,              MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Pack( om->xf[x],      p7O_NXTRANS,          MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Pack( om->rfv[x],     vsz*Q4,                MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Pack( om->offs,         p7_NOFFSETS,  MPI_LONG_LONG_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->roff,         1,            MPI_LONG_LONG_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->eoff,         1,            MPI_LONG_LONG_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Annotation information */
+  len = (om->name != NULL)      ? strlen(om->name)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->name,       len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->acc != NULL)       ? strlen(om->acc)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->acc,        len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->desc != NULL)      ? strlen(om->desc)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->desc,       len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->rf != NULL)        ? strlen(om->rf)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->rf,         len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->mm != NULL)        ? strlen(om->mm)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->mm,         len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->cs != NULL)        ? strlen(om->cs)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->cs,         len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->consensus != NULL) ? strlen(om->consensus)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->consensus,  len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  if (MPI_Pack( om->evparam,      p7_NEVPARAM,          MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( om->cutoff,       p7_NCUTOFFS,          MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( om->compo,        p7_MAXABET,           MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  if (*pos > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_MPIUnpack()
+ * Synopsis:  Unpacks an OPROFILE from an MPI buffer.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Unpack a newly allocated OPROFILE from MPI packed buffer
+ *            <buf>, starting from position <*pos>, where the total length
+ *            of the buffer in bytes is <n>. 
+ *            
+ *            Caller may or may not already know what alphabet the OPROFILE
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the OPROFILE is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*abc> is that alphabet, and the new
+ *            OPROFILE's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first OPROFILE
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*pos> is updated to the position of
+ *            the next element in <buf> to unpack (if any). <*ret_om>
+ *            contains a newly allocated OPROFILE, which the caller is
+ *            responsible for free'ing.  If <*abc> was passed as
+ *            <NULL>, it now points to an <ESL_ALPHABET> object that
+ *            was allocated here; caller is responsible for free'ing
+ *            this.
+ *            
+ *            Returns <eslEINCOMPAT> if the OPROFILE is in a different
+ *            alphabet than <*abc> said to expect. In this case,
+ *            <*abc> is unchanged, <*buf> and <*nalloc> may have been
+ *            changed, and <*ret_om> is <NULL>.
+ *            
+ * Throws:    <eslESYS> on an MPI call failure. <eslEMEM> on allocation failure.
+ *            In either case, <*ret_om> is <NULL>, and the state of <buf>
+ *            and <*pos> is undefined and should be considered to be corrupted.
+ */
+int
+p7_oprofile_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_OPROFILE **ret_om)
+{
+  int   status;
+  int   M, K, atype;
+  int   len;
+  int   x;
+
+  int   Q4, Q8, Q16;
+  int   vsz = sizeof(__m128i);
+
+  P7_OPROFILE *om = NULL;
+
+  if (MPI_Unpack(buf, n, pos, &M,                1,                      MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &atype,            1,                      MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Set or verify the alphabet */
+  if (*abc == NULL)	{	/* still unknown: set it, pass control of it back to caller */
+    if ((*abc = esl_alphabet_Create(atype)) == NULL)       { status = eslEMEM;      goto ERROR; }
+  } else {			/* already known: check it */
+    if ((*abc)->type != atype)                             { status = eslEINCOMPAT; goto ERROR; }
+  }
+
+  Q4  = p7O_NQF(M);
+  Q8  = p7O_NQW(M);
+  Q16 = p7O_NQB(M);
+
+  if ((om = p7_oprofile_Create(M, *abc)) == NULL) { status = eslEMEM; goto ERROR;    }
+  om->M = M;
+
+  K = (*abc)->Kp;
+
+  /* model configuration */
+  if (MPI_Unpack(buf, n, pos, &om->L,            1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->mode,         1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->nj,           1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* MSV Filter information */
+  if (MPI_Unpack(buf, n, pos, &om->tbm_b,        1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->tec_b,        1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->tjb_b,        1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->scale_b,      1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->base_b,       1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->bias_b,       1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Unpack(buf, n, pos,  om->rbv[x],     vsz*Q16,               MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Viterbi Filter information */
+  if (MPI_Unpack(buf, n, pos, &om->scale_w,      1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->base_w,       1,                    MPI_SHORT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->ddbound_w,    1,                    MPI_SHORT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->ncj_roundoff, 1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos,  om->twv,          8*vsz*Q8,              MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Unpack(buf, n, pos,  om->xw[x],      p7O_NXTRANS,          MPI_SHORT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Unpack(buf, n, pos,  om->rwv[x],     vsz*Q8,                MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Unpack(buf, n, pos,  om->tfv,          8*vsz*Q4,              MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Unpack(buf, n, pos,  om->xf[x],      p7O_NXTRANS,          MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Unpack(buf, n, pos,  om->rfv[x],     vsz*Q4,                MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Unpack(buf, n, pos,  om->offs,         p7_NOFFSETS,  MPI_LONG_LONG_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->roff,         1,            MPI_LONG_LONG_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->eoff,         1,            MPI_LONG_LONG_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Annotation information */
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->name, len);
+    if (MPI_Unpack(buf, n, pos,  om->name,       len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->name[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->acc, len);
+    if (MPI_Unpack(buf, n, pos,  om->acc,        len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->acc[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->desc, len);
+    if (MPI_Unpack(buf, n, pos,  om->desc,       len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->desc[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->rf, len);
+    if (MPI_Unpack(buf, n, pos,  om->rf,         len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->rf[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->mm, len);
+    if (MPI_Unpack(buf, n, pos,  om->mm,         len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->mm[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->cs, len);
+    if (MPI_Unpack(buf, n, pos,  om->cs,         len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->cs[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->consensus, len);
+    if (MPI_Unpack(buf, n, pos,  om->consensus,  len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->consensus[len-1] = '\0';
+  }
+
+  if (MPI_Unpack(buf, n, pos,  om->evparam,      p7_NEVPARAM,          MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos,  om->cutoff,       p7_NCUTOFFS,          MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos,  om->compo,        p7_MAXABET,           MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (om != NULL) p7_oprofile_Destroy(om);
+  return status;
+}
+
+
+/* Function:  p7_oprofile_MPIRecv()
+ * Synopsis:  Receives an OPROFILE as a work unit from an MPI sender.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Receive a work unit that consists of a single OPROFILE
+ *            sent by MPI <source> (<0..nproc-1>, or
+ *            <MPI_ANY_SOURCE>) tagged as <tag> for MPI communicator <comm>.
+ *            
+ *            Work units are prefixed by a status code. If the unit's
+ *            code is <eslOK> and no errors are encountered, this
+ *            routine will return <eslOK> and a non-<NULL> <*ret_om>.
+ *            If the unit's code is <eslEOD> (a shutdown signal), 
+ *            this routine returns <eslEOD> and <*ret_om> is <NULL>.
+ *   
+ *            Caller provides a working buffer <*buf> of size
+ *            <*nalloc> characters. These are passed by reference, so
+ *            that <*buf> can be reallocated and <*nalloc> increased
+ *            if necessary. As a special case, if <*buf> is <NULL> and
+ *            <*nalloc> is 0, the buffer will be allocated
+ *            appropriately, but the caller is still responsible for
+ *            free'ing it.
+ *            
+ *            Caller may or may not already know what alphabet the OPROFILE
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the OPROFILE is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*ret_abc> is that alphabet, and the new
+ *            OPROFILE's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first OPROFILE
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*ret_om> contains the received OPROFILE;
+ *            it is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.  If
+ *            <*abc> was passed as <NULL>, it now points to an
+ *            <ESL_ALPHABET> object that was allocated here; caller is
+ *            responsible for free'ing this.
+ *            
+ *            Returns <eslEOD> if an end-of-data signal was received.
+ *            In this case, <*buf>, <*nalloc>, and <*abc> are left unchanged,
+ *            and <*ret_om> is <NULL>.
+ *            
+ *            Returns <eslEINCOMPAT> if the OPROFILE is in a different alphabet
+ *            than <*abc> said to expect. In this case, <*abc> is unchanged,
+ *            <*buf> and <*nalloc> may have been changed, and <*ret_om> is
+ *            <NULL>.
+ *            
+ * Throws:    <eslEMEM> on allocation error, in which case <*ret_om> is 
+ *            <NULL>.           
+ */
+int
+p7_oprofile_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_OPROFILE **ret_om)
+{
+  int         status;
+  int         code;
+  P7_OPROFILE     *om     = NULL;
+  int         n;
+  int         pos;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough. */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Receive the packed work unit */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it, looking at the status code prefix for EOD/EOK  */
+  pos = 0;
+  if (MPI_Unpack(*buf, n, &pos, &code, 1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (code == eslEOD)  { *ret_om = NULL;  return eslEOD; }
+
+  return p7_oprofile_MPIUnpack(*buf, *nalloc, &pos, comm, abc, ret_om);
+
+ ERROR:
+  if (om != NULL) p7_oprofile_Destroy(om);
+  return status;
+}
+
+/*----------------- end, P7_OPROFILE communication -------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7MPI_BENCHMARK
+/* 
+  mpicc -g -Wall -L. -I. -L ../easel -I ../easel -D p7MPI_BENCHMARK -o benchmark-mpi mpi.c -lhmmer -leasel -lm
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi  ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi -b ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+ */
+#include "p7_config.h"
+
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-b",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "baseline timing: don't send any HMMs",             0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "arrest after start: for debugging MPI under gdb",  0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MPI communication";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_ALPHABET   *abc     = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg      = p7_bg_Create(abc);
+  int             my_rank;
+  int             nproc;
+  char           *buf    = NULL;
+  int             nbuf   = 0;
+  int             subtotalM = 0;
+  int             allM   = 0;
+  int             stalling = esl_opt_GetBoolean(go, "--stall");
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  while (stalling); 
+
+  /* Master MPI process: */
+  if (my_rank == 0) 
+    {
+      ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+      P7_HMMFILE     *hfp     = NULL;
+      P7_OPROFILE    *om      = NULL;
+      P7_HMM         *hmm     = NULL;
+
+      /* Read HMMs from a file. */
+      if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+
+      esl_stopwatch_Start(w);
+      while (p7_oprofile_ReadMSV(hfp, &abc, &om)  == eslOK &&
+	     p7_oprofile_ReadRest(hfp, om)       == eslOK)
+	{
+	  if (!esl_opt_GetBoolean(go, "-b"))
+	    p7_oprofile_MPISend(om, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* 1 = dest; 0 = tag */
+
+	  p7_hmm_Destroy(hmm);
+	  p7_oprofile_Destroy(om);
+	}
+      p7_oprofile_MPISend(NULL, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* send the "no more HMMs" sign */
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+
+      printf("total: %d\n", allM);
+      esl_stopwatch_Stop(w);
+      esl_stopwatch_Display(stdout, w, "CPU Time: ");
+      esl_stopwatch_Destroy(w);
+    }
+  /* Worker MPI process: */
+  else 
+    {
+      P7_OPROFILE     *om_recd = NULL;      
+
+      while (p7_oprofile_MPIRecv(0, 0, MPI_COMM_WORLD, &buf, &nbuf, &abc, &om_recd) == eslOK) 
+	{
+	  subtotalM += om_recd->M;
+	  p7_oprofile_Destroy(om_recd);  
+	}
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+    }
+
+  free(buf);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  MPI_Finalize();
+  exit(0);
+}
+
+#endif /*p7MPI_BENCHMARK*/
+/*---------------------- end, benchmark -------------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7MPI_TESTDRIVE
+
+static void
+utest_oprofileSendRecv(int my_rank, int nproc)
+{
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(42);
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_OPROFILE    *om   = NULL;
+  P7_OPROFILE    *om2  = NULL;
+  int             M    = 200;
+  int             L    = 400;
+  char           *wbuf = NULL;
+  int             wn   = 0;
+  int             i;
+  char            errbuf[eslERRBUFSIZE];
+
+  p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled profiles are identical */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  om = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  p7_oprofile_Convert(gm, om);
+  p7_bg_SetLength  (bg, L);
+
+  if (my_rank == 0)
+    {
+      for (i = 1; i < nproc; i++)
+	{
+	  ESL_DPRINTF1(("Master: receiving test profile\n"));
+	  p7_oprofile_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &wbuf, &wn, &abc, &om2);
+	  ESL_DPRINTF1(("Master: test profile received\n"));
+
+	  if (p7_oprofile_Compare(om, om2, 0.001, errbuf) != eslOK) 
+	    p7_Die("Received profile not identical to what was sent\n%s", errbuf);
+
+	  p7_oprofile_Destroy(om2);
+	}
+    }
+  else 
+    {
+      ESL_DPRINTF1(("Worker %d: sending test profile\n", my_rank));
+      p7_oprofile_MPISend(om, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
+      ESL_DPRINTF1(("Worker %d: test profile sent\n", my_rank));
+    }
+
+  free(wbuf);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  return;
+}
+#endif /*p7MPI_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+#ifdef p7MPI_TESTDRIVE
+
+/* mpicc -o mpi_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7MPI_TESTDRIVE mpi.c -lhmmer -leasel -lm
+ * In an MPI environment: (qlogin -pe lam-mpi-tight 2; setenv JOB_ID <jobid>; setenv TMPDIR /tmp/<jobid>....
+ *    mpirun C ./mpi_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "arrest after start: for debugging MPI under gdb",   0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for mpi.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  int          my_rank;
+  int          nproc;
+
+  /* For debugging: stall until GDB can be attached */
+  if (esl_opt_GetBoolean(go, "--stall"))  pause();
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  utest_oprofileSendRecv(my_rank, nproc);
+
+  MPI_Finalize();
+  return 0;
+}
+
+#endif /*p7MPI_TESTDRIVE*/
+/*---------------------- end, test driver -----------------------*/
+
+
+#else /*!HAVE_MPI*/
+/* If we don't have MPI compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+void p7_mpi_DoAbsolutelyNothing(void) { return; }
+
+#if defined p7MPI_TESTDRIVE || p7MPI_BENCHMARK || p7MPI_EXAMPLE
+int main(void) { return 0; }
+#endif
+#endif /*HAVE_MPI*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/msvfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/msvfilter.c
new file mode 100755
index 0000000..5e10d96
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/msvfilter.c
@@ -0,0 +1,896 @@
+/* The MSV filter implementation; SSE version.
+ * 
+ * A "filter" is a one-row, O(M), DP implementation that calculates an
+ * approximated nat score (i.e. in limited precision - here, uchar)
+ * and may have limited numeric range. It will return <eslERANGE> if
+ * its numeric range is exceeded, in which case the caller will have
+ * to obtain the score by another (probably slower) method.
+ * 
+ * Contents:
+ *   1. p7_MSVFilter() implementation
+ *   2. Benchmark driver
+ *   3. Unit tests
+ *   4. Test driver
+ *   5. Example
+ *   6. Copyright and license information
+ * 
+ * SRE, Sun Nov 25 11:26:48 2007 [Casa de Gatos]
+ * SVN $Id: msvfilter.c 4699 2014-07-03 14:54:25Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+#include "esl_gumbel.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+/*****************************************************************
+ * 1. The p7_MSVFilter() DP implementation.
+ *****************************************************************/
+ 
+/* Function:  p7_MSVFilter()
+ * Synopsis:  Calculates MSV score, vewy vewy fast, in limited precision.
+ * Incept:    SRE, Wed Dec 26 15:12:25 2007 [Janelia]
+ *
+ * Purpose:   Calculates an approximation of the MSV score for sequence
+ *            <dsq> of length <L> residues, using optimized profile <om>,
+ *            and a preallocated one-row DP matrix <ox>. Return the 
+ *            estimated MSV score (in nats) in <ret_sc>.
+ *            
+ *            Score may overflow (and will, on high-scoring
+ *            sequences), but will not underflow.
+ *            
+ *            The model may be in any mode, because only its match
+ *            emission scores will be used. The MSV filter inherently
+ *            assumes a multihit local mode, and uses its own special
+ *            state transition scores, not the scores in the profile.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: MSV score (in nats)          
+ *                      
+ * Note:      We misuse the matrix <ox> here, using only a third of the
+ *            first dp row, accessing it as <dp[0..Q-1]> rather than
+ *            in triplets via <{MDI}MX(q)> macros, since we only need
+ *            to store M state values. We know that if <ox> was big
+ *            enough for normal DP calculations, it must be big enough
+ *            to hold the MSVFilter calculation.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslERANGE> if the score overflows the limited range; in
+ *            this case, this is a high-scoring hit.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_MSVFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  register __m128i mpv;            /* previous row values                                       */
+  register __m128i xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  register __m128i xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  register __m128i sv;		   /* temp storage of 1 curr row value in progress              */
+  register __m128i biasv;	   /* emission bias in a vector                                 */
+  uint8_t  xJ;                     /* special states' scores                                    */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQB(om->M);   /* segment length: # of vectors                              */
+  __m128i *dp  = ox->dpb[0];	   /* we're going to use dp[0][0..q..Q-1], not {MDI}MX(q) macros*/
+  __m128i *rsc;			   /* will point at om->rbv[x] for residue x[i]                 */
+
+  __m128i xJv;                     /* vector for states score                                   */
+  __m128i tjbmv;                   /* vector for cost of moving from either J or N through B to an M state */
+  __m128i tecv;                    /* vector for E->C  cost                                     */
+  __m128i basev;                   /* offset for scores                                         */
+  __m128i ceilingv;                /* saturateed simd value used to test for overflow           */
+  __m128i tempv;                   /* work vector                                               */
+
+  int cmp;
+  int status = eslOK;
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ16)  ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  ox->M   = om->M;
+
+  /* Try highly optimized ssv filter first */
+  status = p7_SSVFilter(dsq, L, om, ret_sc);
+  if (status != eslENORESULT) return status;
+
+  /* Initialization. In offset unsigned arithmetic, -infinity is 0, and 0 is om->base.
+   */
+  biasv = _mm_set1_epi8((int8_t) om->bias_b); /* yes, you can set1() an unsigned char vector this way */
+  for (q = 0; q < Q; q++) dp[q] = _mm_setzero_si128();
+  xJ   = 0;
+
+  /* saturate simd register for overflow test */
+  ceilingv = _mm_cmpeq_epi8(biasv, biasv);
+  basev = _mm_set1_epi8((int8_t) om->base_b);
+
+  tjbmv = _mm_set1_epi8((int8_t) om->tjb_b + (int8_t) om->tbm_b);
+  tecv = _mm_set1_epi8((int8_t) om->tec_b);
+
+  xJv = _mm_subs_epu8(biasv, biasv);
+  xBv = _mm_subs_epu8(basev, tjbmv);
+
+#if p7_DEBUGGING
+  if (ox->debugging)
+  {
+      uint8_t xB;
+      xB = _mm_extract_epi16(xBv, 0);
+      xJ = _mm_extract_epi16(xJv, 0);
+      p7_omx_DumpMFRow(ox, 0, 0, 0, xJ, xB, xJ);
+  }
+#endif
+
+  for (i = 1; i <= L; i++)
+  {
+      rsc = om->rbv[dsq[i]];
+      xEv = _mm_setzero_si128();      
+
+      /* Right shifts by 1 byte. 4,8,12,x becomes x,4,8,12. 
+       * Because ia32 is littlendian, this means a left bit shift.
+       * Zeros shift on automatically, which is our -infinity.
+       */
+      mpv = _mm_slli_si128(dp[Q-1], 1);   
+      for (q = 0; q < Q; q++)
+      {
+        /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+        sv   = _mm_max_epu8(mpv, xBv);
+        sv   = _mm_adds_epu8(sv, biasv);
+        sv   = _mm_subs_epu8(sv, *rsc);   rsc++;
+        xEv  = _mm_max_epu8(xEv, sv);
+
+        mpv   = dp[q];   	  /* Load {MDI}(i-1,q) into mpv */
+        dp[q] = sv;       	  /* Do delayed store of M(i,q) now that memory is usable */
+      }
+
+      /* test for the overflow condition */
+      tempv = _mm_adds_epu8(xEv, biasv);
+      tempv = _mm_cmpeq_epi8(tempv, ceilingv);
+      cmp = _mm_movemask_epi8(tempv);
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B)
+       * Use shuffles instead of shifts so when the last max has completed,
+       * the last four elements of the simd register will contain the
+       * max value.  Then the last shuffle will broadcast the max value
+       * to all simd elements.
+       */
+      tempv = _mm_shuffle_epi32(xEv, _MM_SHUFFLE(2, 3, 0, 1));
+      xEv = _mm_max_epu8(xEv, tempv);
+      tempv = _mm_shuffle_epi32(xEv, _MM_SHUFFLE(0, 1, 2, 3));
+      xEv = _mm_max_epu8(xEv, tempv);
+      tempv = _mm_shufflelo_epi16(xEv, _MM_SHUFFLE(2, 3, 0, 1));
+      xEv = _mm_max_epu8(xEv, tempv);
+      tempv = _mm_srli_si128(xEv, 1);
+      xEv = _mm_max_epu8(xEv, tempv);
+      xEv = _mm_shuffle_epi32(xEv, _MM_SHUFFLE(0, 0, 0, 0));
+
+      /* immediately detect overflow */
+      if (cmp != 0x0000)
+      {
+        *ret_sc = eslINFINITY;
+        return eslERANGE;
+      }
+
+      xEv = _mm_subs_epu8(xEv, tecv);
+      xJv = _mm_max_epu8(xJv,xEv);
+      
+      xBv = _mm_max_epu8(basev, xJv);
+      xBv = _mm_subs_epu8(xBv, tjbmv);
+	  
+#if p7_DEBUGGING
+      if (ox->debugging)
+      {
+        uint8_t xB, xE;
+        xB = _mm_extract_epi16(xBv, 0);
+        xE = _mm_extract_epi16(xEv, 0);
+        xJ = _mm_extract_epi16(xJv, 0);
+        p7_omx_DumpMFRow(ox, i, xE, 0, xJ, xB, xJ);
+      }
+#endif
+  } /* end loop over sequence residues 1..L */
+
+  xJ = (uint8_t) _mm_extract_epi16(xJv, 0);
+
+  /* finally C->T, and add our missing precision on the NN,CC,JJ back */
+  *ret_sc = ((float) (xJ - om->tjb_b) - (float) om->base_b);
+  *ret_sc /= om->scale_b;
+  *ret_sc -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+
+  return eslOK;
+}
+/*------------------ end, p7_MSVFilter() ------------------------*/
+
+
+
+/* Function:  p7_SSVFilter_longtarget()
+ * Synopsis:  Finds windows with SSV scores above some threshold (vewy vewy fast, in limited precision)
+ *
+ * Purpose:   Calculates an approximation of the SSV (single ungapped diagonal)
+ *            score for regions of sequence <dsq> of length <L> residues, using
+ *            optimized profile <om>, and a preallocated one-row DP matrix <ox>,
+ *            and captures the positions at which such regions exceed the score
+ *            required to be significant in the eyes of the calling function,
+ *            which depends on the <bg> and <p> (usually p=0.02 for nhmmer).
+ *            Note that this variant performs only SSV computations, never
+ *            passing through the J state - the score required to pass SSV at
+ *            the default threshold (or less restrictive) is sufficient to
+ *            pass MSV in essentially all DNA models we've tested.
+ *
+ *            Above-threshold diagonals are captured into a preallocated list
+ *            <windowlist>. Rather than simply capturing positions at which a
+ *            score threshold is reached, this function establishes windows
+ *            around those high-scoring positions, using scores in <msvdata>.
+ *            These windows can be merged by the calling function.
+ *
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            msvdata    - compact representation of substitution scores, for backtracking diagonals
+ *            bg         - the background model, required for translating a P-value threshold into a score threshold
+ *            P          - p-value below which a region is captured as being above threshold
+ *            windowlist - preallocated container for all hits (resized if necessary)
+ *
+ *
+ * Note:      We misuse the matrix <ox> here, using only a third of the
+ *            first dp row, accessing it as <dp[0..Q-1]> rather than
+ *            in triplets via <{MDI}MX(q)> macros, since we only need
+ *            to store M state values. We know that if <ox> was big
+ *            enough for normal DP calculations, it must be big enough
+ *            to hold the MSVFilter calculation.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *ssvdata,
+                        P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+
+  register __m128i mpv;            /* previous row values                                       */
+  register __m128i xEv;		   /* E state: keeps max for Mk->E for a single iteration       */
+  register __m128i xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  register __m128i sv;		   /* temp storage of 1 curr row value in progress              */
+  register __m128i biasv;	   /* emission bias in a vector                                 */
+  uint8_t  xJ;                     /* special states' scores                                    */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQB(om->M);   /* segment length: # of vectors                              */
+  __m128i *dp  = ox->dpb[0];	   /* we're going to use dp[0][0..q..Q-1], not {MDI}MX(q) macros*/
+  __m128i *rsc;			   /* will point at om->rbv[x] for residue x[i]                 */
+  __m128i tecv;                    /* vector for E->C  cost                                     */
+  __m128i tjbmv;                   /* vector for J->B move cost + B->M move costs               */
+  __m128i basev;                   /* offset for scores                                         */
+  __m128i ceilingv;                /* saturated simd value used to test for overflow           */
+  __m128i tempv;                   /* work vector                                               */
+  int cmp;
+  int k;
+  int n;
+  int end;
+  int rem_sc;
+  int start;
+  int target_end;
+  int target_start;
+  int max_end;
+  int max_sc;
+  int sc;
+  int pos_since_max;
+  float ret_sc;
+
+  union { __m128i v; uint8_t b[16]; } u;
+
+  /*
+   * Computing the score required to let P meet the F1 prob threshold
+   * In original code, converting from a scaled int MSV
+   * score S (the score getting to state E) to a probability goes like this:
+   *  usc =  S - om->tec_b - om->tjb_b - om->base_b;
+   *  usc /= om->scale_b;
+   *  usc -= 3.0;
+   *  P = f ( (usc - nullsc) / eslCONST_LOG2 , mu, lambda)
+   * and we're computing the threshold usc, so reverse it:
+   *  (usc - nullsc) /  eslCONST_LOG2 = inv_f( P, mu, lambda)
+   *  usc = nullsc + eslCONST_LOG2 * inv_f( P, mu, lambda)
+   *  usc += 3
+   *  usc *= om->scale_b
+   *  S = usc + om->tec_b + om->tjb_b + om->base_b
+   *
+   *  Here, I compute threshold with length model based on max_length.  Doesn't
+   *  matter much - in any case, both the bg and om models will change with roughly
+   *  1 bit for each doubling of the length model, so they offset.
+   */
+  float nullsc;
+  __m128i sc_threshv;
+  uint8_t sc_thresh;
+  float invP = esl_gumbel_invsurv(P, om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ16)  ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  ox->M   = om->M;
+
+
+  p7_bg_SetLength(bg, om->max_length);
+  p7_oprofile_ReconfigMSVLength(om, om->max_length);
+  p7_bg_NullOne  (bg, dsq, om->max_length, &nullsc);
+
+  sc_thresh = (int) ceil( ( ( nullsc  + (invP * eslCONST_LOG2) + 3.0 )  * om->scale_b ) + om->base_b +  om->tec_b  + om->tjb_b );
+  sc_threshv = _mm_set1_epi8((int8_t) 255 - sc_thresh);
+
+  /* Initialization. In offset unsigned  arithmetic, -infinity is 0, and 0 is om->base.
+   */
+  biasv = _mm_set1_epi8((int8_t) om->bias_b); /* yes, you can set1() an unsigned char vector this way */
+  ceilingv = _mm_cmpeq_epi8(biasv, biasv);
+  for (q = 0; q < Q; q++) dp[q] = _mm_setzero_si128();
+  xJ   = 0;
+
+  basev = _mm_set1_epi8((int8_t) om->base_b);
+  tecv = _mm_set1_epi8((int8_t) om->tec_b);
+  tjbmv = _mm_set1_epi8((int8_t) om->tjb_b + (int8_t) om->tbm_b);
+
+  xBv = _mm_subs_epu8(basev, tjbmv);
+
+  for (i = 1; i <= L; i++) {
+    rsc = om->rbv[dsq[i]];
+    xEv = _mm_setzero_si128();
+
+	  /* Right shifts by 1 byte. 4,8,12,x becomes x,4,8,12.
+	   * Because ia32 is littlendian, this means a left bit shift.
+	   * Zeros shift on automatically, which is our -infinity.
+	   */
+	  mpv = _mm_slli_si128(dp[Q-1], 1);
+	  for (q = 0; q < Q; q++) {
+		  /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+		  sv   = _mm_max_epu8(mpv, xBv);
+		  sv   = _mm_adds_epu8(sv, biasv);
+		  sv   = _mm_subs_epu8(sv, *rsc);   rsc++;
+		  xEv  = _mm_max_epu8(xEv, sv);
+
+		  mpv   = dp[q];   	  /* Load {MDI}(i-1,q) into mpv */
+		  dp[q] = sv;       	  /* Do delayed store of M(i,q) now that memory is usable */
+	  }
+
+	  /* test if the pthresh significance threshold has been reached;
+	   * note: don't use _mm_cmpgt_epi8, because it's a signed comparison, which won't work on uint8s */
+	  tempv = _mm_adds_epu8(xEv, sc_threshv);
+	  tempv = _mm_cmpeq_epi8(tempv, ceilingv);
+	  cmp = _mm_movemask_epi8(tempv);
+
+	  if (cmp != 0) {  //hit pthresh, so add position to list and reset values
+	    //figure out which model state hit threshold
+	    end = -1;
+	    rem_sc = -1;
+	    for (q = 0; q < Q; q++) {  /// Unpack and unstripe, so we can find the state that exceeded pthresh
+          u.v = dp[q];
+          for (k = 0; k < 16; k++) { // unstripe
+            //(q+Q*k+1) is the model position k at which the xE score is found
+            if (u.b[k] >= sc_thresh && u.b[k] > rem_sc && (q+Q*k+1) <= om->M) {
+              end = (q+Q*k+1);
+              rem_sc = u.b[k];
+            }
+          }
+          dp[q] = _mm_set1_epi8(0); // while we're here ... this will cause values to get reset to xB in next dp iteration
+	    }
+
+	    //recover the diagonal that hit threshold
+	    start = end;                    // model position
+	    target_end = target_start = i;  // target position
+	    sc = rem_sc;
+	    while (rem_sc > om->base_b - om->tjb_b - om->tbm_b) {
+	      rem_sc -= om->bias_b -  ssvdata->ssv_scores[start*om->abc->Kp + dsq[target_start]];
+	      --start;
+	      --target_start;
+	    }
+	    start++;
+	    target_start++;
+
+
+	    //extend diagonal further with single diagonal extension
+	    k = end+1;
+	    n = target_end+1;
+	    max_end = target_end;
+	    max_sc = sc;
+	    pos_since_max = 0;
+	    while (k<om->M && n<=L) {
+	      sc += om->bias_b -  ssvdata->ssv_scores[k*om->abc->Kp + dsq[n]];
+
+	      if (sc >= max_sc) {
+	        max_sc = sc;
+	        max_end = n;
+	        pos_since_max=0;
+	      } else {
+	        pos_since_max++;
+	        if (pos_since_max == 5)
+	          break;
+	      }
+	      k++;
+	      n++;
+	    }
+
+	    end  +=  (max_end - target_end);
+      //k    +=  (max_end - target_end);
+      target_end = max_end;
+
+      ret_sc = ((float) (max_sc - om->tjb_b) - (float) om->base_b);
+      ret_sc /= om->scale_b;
+      ret_sc -= 3.0; // that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ
+
+      p7_hmmwindow_new(  windowlist,
+                         0,                  // sequence_id; used in the FM-based filter, but not here
+                         target_start,       // position in the target at which the diagonal starts
+                         0,                  // position in the target fm_index at which diagonal starts;  not used here, just in FM-based filter
+                         end,                // position in the model at which the diagonal ends
+                         end-start+1 ,       // length of diagonal
+                         ret_sc,             // score of diagonal
+                         p7_NOCOMPLEMENT,    // always p7_NOCOMPLEMENT here;  varies in FM-based filter
+                         L
+                       );
+
+      i = target_end; // skip forward
+	  }
+
+
+  } /* end loop over sequence residues 1..L */
+
+  return eslOK;
+
+}
+/*------------------ end, p7_SSVFilter_longtarget() ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+/* The benchmark driver has some additional non-benchmarking options
+ * to facilitate small-scale (by-eye) comparison of MSV scores against
+ * other implementations, for debugging purposes.
+ * 
+ * The -c option compares against p7_GMSV() scores. This allows
+ * measuring the error inherent in the SSE implementation's reduced
+ * precision (p7_MSVFilter() runs in uint8_t; p7_GMSV() uses floats).
+ * 
+ * The -x option compares against an emulation that should give
+ * exactly the same scores. The emulation is achieved by jiggering the
+ * fp scores in a generic profile to disallow gaps, have the same
+ * rounding and precision as the uint8_t's MSVFilter() is using, and
+ * to make the same post-hoc corrections for the NN, CC, JJ
+ * contributions to the final nat score; under these contrived
+ * circumstances, p7_GViterbi() gives the same scores as
+ * p7_MSVFilter().
+ * 
+ * For using either -c or -x, you probably also want to limit the
+ * number of generated target sequences, using -N10 or -N100 for
+ * example.
+ */
+#ifdef p7MSVFILTER_BENCHMARK
+/* 
+   gcc -o msvfilter-benchmark -std=gnu99 -g -Wall -msse2 -I.. -L.. -I../../easel -L../../easel -Dp7MSVFILTER_BENCHMARK msvfilter.c -lhmmer -leasel -lm 
+   icc -o msvfilter-benchmark -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7MSVFILTER_BENCHMARK msvfilter.c -lhmmer -leasel -lm 
+
+   ./benchmark-msvfilter <hmmfile>            runs benchmark 
+   ./benchmark-msvfilter -N100 -c <hmmfile>   compare scores to generic impl
+   ./benchmark-msvfilter -N100 -x <hmmfile>   compare scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MSVFilter() implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsMF(om, gm);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_MSVFilter    (dsq, L, om, ox, &sc1);   
+
+      /* -c option: compare generic to fast score */
+      if (esl_opt_GetBoolean(go, "-c")) 
+	{
+	  p7_GMSV    (dsq, L, gm, gx, 2.0, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+
+      /* -x option: compare generic to fast score in a way that should give exactly the same result */
+      if (esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  sc2 /= om->scale_b;
+	  if (om->mode == p7_UNILOCAL)   sc2 -= 2.0; /* that's ~ L \log \frac{L}{L+2}, for our NN,CC,JJ */
+	  else if (om->mode == p7_LOCAL) sc2 -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7MSVFILTER_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7MSVFILTER_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* 
+ * We can check that scores are identical (within machine error) to
+ * scores of generic DP with scores rounded the same way.  Do this for
+ * a random model of length <M>, for <N> test sequences of length <L>.
+ * 
+ * We assume that we don't accidentally generate a high-scoring random
+ * sequence that overflows MSVFilter()'s limited range.
+ * 
+ */
+static void
+utest_msv_filter(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_profile_SameAsMF(om, gm);
+#if 0
+  p7_oprofile_Dump(stdout, om);              /* dumps the optimized profile */
+  p7_omx_SetDumpMode(stdout, ox, TRUE);      /* makes the fast DP algorithms dump their matrices */
+#endif
+
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_MSVFilter(dsq, L, om, ox, &sc1);
+      p7_GViterbi (dsq, L, gm, gx, &sc2);
+#if 0
+      p7_gmx_Dump(stdout, gx, p7_DEFAULT);   /* dumps a generic DP matrix */
+#endif
+
+      sc2 = sc2 / om->scale_b - 3.0f;
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("msv filter unit test failed: scores differ (%.2f, %.2f)", sc1, sc2);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7MSVFILTER_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7MSVFILTER_TESTDRIVE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o msvfilter_utest -Dp7MSVFILTER_TESTDRIVE msvfilter.c -lhmmer -leasel -lm
+   ./msvfilter_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the SSE MSVFilter() implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("MSVFilter() tests, DNA\n");
+  utest_msv_filter(r, abc, bg, M, L, N);   /* normal sized models */
+  utest_msv_filter(r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_msv_filter(r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("MSVFilter() tests, protein\n");
+  utest_msv_filter(r, abc, bg, M, L, N);   
+  utest_msv_filter(r, abc, bg, 1, L, 10);  
+  utest_msv_filter(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITFILTER_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+
+#ifdef p7MSVFILTER_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -msse2 -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o msvfilter_example -Dp7MSVFILTER_EXAMPLE msvfilter.c -lhmmer -leasel -lm
+   ./msvfilter_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of MSV filter algorithm";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           msvraw, nullsc, msvscore;
+  float           graw, gscore;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Open sequence file for reading */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, 0); /* one row version */
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);              dumps the optimized profile
+     p7_omx_SetDumpMode(stdout, ox, TRUE);      makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);       dumps a generic DP matrix
+     p7_oprofile_SameMSV(om, gm);
+  */
+  //p7_oprofile_Dump(stdout, om);
+  //p7_omx_SetDumpMode(stdout, ox, TRUE);    
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(ox, om->M, 0,    sq->n); 
+      p7_gmx_GrowTo(gx, gm->M,       sq->n); 
+
+      p7_MSVFilter   (sq->dsq, sq->n, om, ox, &msvraw);  
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+      msvscore = (msvraw - nullsc) / eslCONST_LOG2;
+      P        = esl_gumbel_surv(msvscore,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+
+      p7_GMSV(sq->dsq, sq->n, gm, gx, 2.0, &graw);
+      gscore   = (graw - nullsc) / eslCONST_LOG2;
+      gP       = esl_gumbel_surv(gscore,  gm->evparam[p7_MMU],  gm->evparam[p7_MLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s  %-20s  %9.2g  %7.2f  %9.2g  %7.2f\n", sq->name, hmm->name, P, msvscore, gP, gscore);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g  %.2f  %s  %s\n", P, msvscore, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("msv filter raw score: %.2f nats\n", msvraw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", msvscore);
+	  printf("P-value:              %g\n",        P);
+	  printf("GMSV raw score:       %.2f nats\n", graw);
+	  printf("GSMV per-seq score:   %.2f bits\n", gscore);
+	  printf("GSMV P-value:         %g\n",        gP);
+	}
+      
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7MSVFILTER_EXAMPLE*/
+/*---------------------- end, example ---------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/null2.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/null2.c
new file mode 100755
index 0000000..4a8d72a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/null2.c
@@ -0,0 +1,516 @@
+/* "null2" model, biased composition correction; SSE implementations.
+ * 
+ * Contents:
+ *   1. Null2 estimation algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *
+ * SRE, Mon Aug 18 08:31:11 2008 [Janelia]
+ * SVN $Id: null2.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+/*****************************************************************
+ * 1. Null2 estimation algorithms.
+ *****************************************************************/
+
+/* Function:  p7_Null2_ByExpectation()
+ * Synopsis:  Calculate null2 model from posterior probabilities.
+ * Incept:    SRE, Mon Aug 18 08:32:55 2008 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GNull2_ByExpectation()> except that
+ *            <om>, <pp> are SSE optimized versions of the profile
+ *            and the residue posterior probability matrix. See 
+ *            <p7_GNull2_ByExpectation()>  documentation.
+ *            
+ * Args:      om    - profile, in any mode, target length model set to <L>
+ *            pp    - posterior prob matrix, for <om> against domain envelope <dsq+i-1> (offset)
+ *            null2 - RETURN: null2 log odds scores per residue; <0..Kp-1>; caller allocated space
+ */
+int
+p7_Null2_ByExpectation(const P7_OPROFILE *om, const P7_OMX *pp, float *null2)
+{
+  int      M    = om->M;
+  int      Ld   = pp->L;
+  int      Q    = p7O_NQF(M);
+  float   *xmx  = pp->xmx;	/* enables use of XMXo(i,s) macro */
+  float    norm;
+  __m128  *rp;
+  __m128   sv;
+  float    xfactor;
+  int      i,q,x;
+  
+  /* Calculate expected # of times that each emitting state was used
+   * in generating the Ld residues in this domain.
+   * The 0 row in <wrk> is used to hold these numbers.
+   */
+  memcpy(pp->dpf[0], pp->dpf[1], sizeof(__m128) * 3 * Q);
+  XMXo(0,p7X_N) = XMXo(1,p7X_N);
+  XMXo(0,p7X_C) = XMXo(1,p7X_C); /* 0.0 */
+  XMXo(0,p7X_J) = XMXo(1,p7X_J); /* 0.0 */
+
+  for (i = 2; i <= Ld; i++)
+    {
+      for (q = 0; q < Q; q++)
+	{
+	  pp->dpf[0][q*3 + p7X_M] = _mm_add_ps(pp->dpf[i][q*3 + p7X_M], pp->dpf[0][q*3 + p7X_M]);
+	  pp->dpf[0][q*3 + p7X_I] = _mm_add_ps(pp->dpf[i][q*3 + p7X_I], pp->dpf[0][q*3 + p7X_I]);
+	}
+      XMXo(0,p7X_N) += XMXo(i,p7X_N);
+      XMXo(0,p7X_C) += XMXo(i,p7X_C); 
+      XMXo(0,p7X_J) += XMXo(i,p7X_J); 
+    }
+
+  /* Convert those expected #'s to frequencies, to use as posterior weights. */
+  norm = 1.0 / (float) Ld;
+  sv   = _mm_set1_ps(norm);
+  for (q = 0; q < Q; q++)
+    {
+      pp->dpf[0][q*3 + p7X_M] = _mm_mul_ps(pp->dpf[0][q*3 + p7X_M], sv);
+      pp->dpf[0][q*3 + p7X_I] = _mm_mul_ps(pp->dpf[0][q*3 + p7X_I], sv);
+    }
+  XMXo(0,p7X_N) *= norm;
+  XMXo(0,p7X_C) *= norm;
+  XMXo(0,p7X_J) *= norm;
+
+  /* Calculate null2's emission odds, by taking posterior weighted sum
+   * over all emission vectors used in paths explaining the domain.
+   */
+  xfactor = XMXo(0, p7X_N) + XMXo(0, p7X_C) + XMXo(0, p7X_J); 
+  for (x = 0; x < om->abc->K; x++)
+    {
+      sv = _mm_setzero_ps();
+      rp = om->rfv[x];
+      for (q = 0; q < Q; q++)
+	{
+	  sv = _mm_add_ps(sv, _mm_mul_ps(pp->dpf[0][q*3 + p7X_M], *rp)); rp++;
+	  sv = _mm_add_ps(sv,            pp->dpf[0][q*3 + p7X_I]);              /* insert odds implicitly 1.0 */
+	  //	  sv = _mm_add_ps(sv, _mm_mul_ps(pp->dpf[0][q*3 + p7X_I], *rp)); rp++; 
+	}
+      esl_sse_hsum_ps(sv, &(null2[x]));
+      null2[x] += xfactor;
+    }
+  /* now null2[x] = \frac{f_d(x)}{f_0(x)} for all x in alphabet,
+   * 0..K-1, where f_d(x) are the ad hoc "null2" residue frequencies
+   * for this envelope.
+   */
+
+  /* make valid scores for all degeneracies, by averaging the odds ratios. */
+  esl_abc_FAvgScVec(om->abc, null2);
+  null2[om->abc->K]    = 1.0;        /* gap character    */
+  null2[om->abc->Kp-2] = 1.0;	     /* nonresidue "*"   */
+  null2[om->abc->Kp-1] = 1.0;	     /* missing data "~" */
+
+  return eslOK;
+}
+
+
+/* Function:  p7_Null2_ByTrace()
+ * Synopsis:  Assign null2 scores to an envelope by the sampling method.
+ * Incept:    SRE, Mon Aug 18 10:22:49 2008 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GNull2_ByTrace()> except that
+ *            <om>, <wrk> are SSE optimized versions of the profile
+ *            and the residue posterior probability matrix. See 
+ *            <p7_GNull2_ByTrace()>  documentation.
+ */
+int
+p7_Null2_ByTrace(const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2)
+{
+  union { __m128 v; float p[4]; } u;
+  int    Q  = p7O_NQF(om->M);
+  int    Ld = 0;
+  float *xmx = wrk->xmx;	/* enables use of XMXo macro */
+  float  norm;
+  float  xfactor;
+  __m128 sv;
+  __m128 *rp;
+  int    q, r, s;
+  int    x;
+  int    z;
+
+  /* We'll use the i=0 row in wrk for working space: dp[0][] and xmx[][0]. */
+  for (q = 0; q < Q; q++)
+    {
+      wrk->dpf[0][q*3 + p7X_M] = _mm_setzero_ps();
+      wrk->dpf[0][q*3 + p7X_I] = _mm_setzero_ps();
+    }
+  XMXo(0,p7X_N) =  0.0;
+  XMXo(0,p7X_C) =  0.0;
+  XMXo(0,p7X_J) =  0.0;
+
+  /* Calculate emitting state usage in this particular trace segment */
+  for (z = zstart; z <= zend; z++)
+    {
+      if (tr->i[z] == 0) continue; /* quick test for whether this trace elem emitted or not */
+      Ld++;
+      if (tr->k[z] > 0)	/* must be an M or I */
+	{ /* surely there's an easier way? but our workspace is striped, interleaved quads... */
+	  s = ( (tr->st[z] == p7T_M) ?  p7X_M : p7X_I);
+	  q = p7X_NSCELLS * ( (tr->k[z] - 1) % Q) + p7X_M;
+	  r = (tr->k[z] - 1) / Q;
+	  u.v            = wrk->dpf[0][q];
+	  u.p[r]        += 1.0;	/* all this to increment a count by one! */
+	  wrk->dpf[0][q] = u.v;
+
+	}
+      else /* emitted an x_i with no k; must be an N,C,J */
+	{
+	  switch (tr->st[z]) {
+	  case p7T_N: XMXo(0,p7X_N) += 1.0; break;
+	  case p7T_C: XMXo(0,p7X_C) += 1.0; break;
+	  case p7T_J: XMXo(0,p7X_J) += 1.0; break;
+	  }
+	}
+    }
+  norm = 1.0 / (float) Ld;
+  sv = _mm_set1_ps(norm);
+  for (q = 0; q < Q; q++)
+    {
+      wrk->dpf[0][q*3 + p7X_M] = _mm_mul_ps(wrk->dpf[0][q*3 + p7X_M], sv);
+      wrk->dpf[0][q*3 + p7X_I] = _mm_mul_ps(wrk->dpf[0][q*3 + p7X_I], sv);
+    }
+  XMXo(0,p7X_N) *= norm;
+  XMXo(0,p7X_C) *= norm;
+  XMXo(0,p7X_J) *= norm;
+
+  /* Calculate null2's emission odds, by taking posterior weighted sum
+   * over all emission vectors used in paths explaining the domain.
+   */
+  xfactor =  XMXo(0,p7X_N) + XMXo(0,p7X_C) + XMXo(0,p7X_J);
+  for (x = 0; x < om->abc->K; x++)
+    {
+      sv = _mm_setzero_ps();
+      rp = om->rfv[x];
+      for (q = 0; q < Q; q++)
+	{
+	  sv = _mm_add_ps(sv, _mm_mul_ps(wrk->dpf[0][q*3 + p7X_M], *rp)); rp++;
+	  sv = _mm_add_ps(sv,            wrk->dpf[0][q*3 + p7X_I]); /* insert emission odds implicitly 1.0 */
+	  //	  sv = _mm_add_ps(sv, _mm_mul_ps(wrk->dpf[0][q*3 + p7X_I], *rp)); rp++;
+	}
+      esl_sse_hsum_ps(sv, &(null2[x]));
+      null2[x] += xfactor;
+    }
+  /* now null2[x] = \frac{f_d(x)}{f_0(x)} for all x in alphabet,
+   * 0..K-1, where f_d(x) are the ad hoc "null2" residue frequencies
+   * for this envelope.
+   */
+
+  /* make valid scores for all degeneracies, by averaging the odds ratios. */
+  esl_abc_FAvgScVec(om->abc, null2);
+  null2[om->abc->K]    = 1.0;        /* gap character    */
+  null2[om->abc->Kp-2] = 1.0;	     /* nonresidue "*"   */
+  null2[om->abc->Kp-1] = 1.0;	     /* missing data "~" */
+
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7NULL2_BENCHMARK
+/*
+   icc  -O3 -static -o null2_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7NULL2_BENCHMARK null2.c -lhmmer -leasel -lm 
+   ./null2_benchmark    <hmmfile>      Does the expectation version.
+   ./null2_benchmark -t <hmmfile>      Does the stochastic-traceback-dependent version. 
+                                       (This version isn't really dependent on M, so Mc/s may not be an appropriate measure.)
+
+                       RRM_1 (M=72)       Caudal_act (M=136)     SMC_N (M=1151)
+                     -----------------    ------------------     ---------------
+        21 Aug 2008   3.00u (480 Mc/s)     5.45u (499 Mc/s)     77.56u (297 Mc/s)
+    -t  21 Aug 2008  30.50u  (47 Mc/s)    44.96u  (61 Mc/s)  32.03u*10 ( 72 Mc/s)
+             
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "benchmark the trace-dependent version of null2",   0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for null2 estimation, SSE version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  float           null2[p7_MAXCODE];
+  int             i,j,d,pos;
+  int             nsamples = 200;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  ox1 = p7_omx_Create(gm->M, L, L);
+  ox2 = p7_omx_Create(gm->M, L, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, ox1,      &fsc);
+
+  if (esl_opt_GetBoolean(go, "-t"))
+    {
+      P7_TRACE *tr   = p7_trace_Create();
+      float    *n2sc = malloc(sizeof(float) * (L+1));
+
+      esl_stopwatch_Start(w);
+      for (i = 0; i < N; i++)
+	{ /* This is approximately what p7_domaindef.c::region_trace_ensemble() is doing: */
+	  for (j = 0; j < nsamples; j++)
+	    {
+	      p7_StochasticTrace(r, dsq, L, om, ox1, tr);
+	      p7_trace_Index(tr);
+	      pos = 1; 
+	      for (d = 0; d < tr->ndom; d++)
+		{
+		  p7_Null2_ByTrace(om, tr, tr->tfrom[d], tr->tto[d], ox2, null2);
+		  for (; pos <= tr->sqfrom[d]; pos++) n2sc[pos] += 1.0;
+		  for (; pos < tr->sqto[d];    pos++) n2sc[pos] += null2[dsq[pos]];
+		}
+	      for (; pos <= L; pos++)  n2sc[pos] += 1.0;
+	      p7_trace_Reuse(tr);
+	    }
+
+	  for (pos = 1; pos <= L; pos++)
+	    n2sc[pos] = logf(n2sc[pos] / nsamples);
+	}
+      esl_stopwatch_Stop(w);
+
+      free(n2sc);
+      p7_trace_Destroy(tr);
+    }
+  else
+    {
+      p7_Backward(dsq, L, om, ox1, ox2, &bsc);
+      p7_Decoding(om, ox1, ox2, ox2);              
+
+      esl_stopwatch_Start(w);
+      for (i = 0; i < N; i++)
+	p7_Null2_ByExpectation(om, ox2, null2);
+      esl_stopwatch_Stop(w);
+    }
+
+
+  Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7NULL2_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7NULL2_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+
+/* compare results to GDecoding(). */
+static void
+utest_null2_expectation(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N, float tolerance)
+{
+  char        *msg  = "decoding unit test failed";
+  P7_HMM      *hmm  = NULL;
+  P7_PROFILE  *gm   = NULL;
+  P7_OPROFILE *om   = NULL;
+  ESL_DSQ     *dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd  = p7_omx_Create(M, L, L);
+  P7_OMX      *bck  = p7_omx_Create(M, L, L);
+  P7_OMX      *pp   = p7_omx_Create(M, L, L);
+  P7_GMX      *gxf  = p7_gmx_Create(M, L);
+  P7_GMX      *gxb  = p7_gmx_Create(M, L);
+  P7_GMX      *gpp  = p7_gmx_Create(M, L);
+  float       *on2  = malloc(sizeof(float) * abc->Kp);
+  float       *gn2  = malloc(sizeof(float) * abc->Kp);
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+
+  if (!gn2 || !on2) esl_fatal(msg);
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om) != eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      if (p7_Forward       (dsq, L, om, fwd,      &fsc1) != eslOK) esl_fatal(msg);
+      if (p7_Backward      (dsq, L, om, fwd, bck, &bsc1) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, fwd, bck, pp)                  != eslOK) esl_fatal(msg);
+      if (p7_Null2_ByExpectation(om, pp, on2)            != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (dsq, L, gm, gxf, &fsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GBackward(dsq, L, gm, gxb, &bsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GDecoding(gm, gxf, gxb, gpp)                != eslOK) esl_fatal(msg);
+      if (p7_GNull2_ByExpectation(gm, gpp, gn2)          != eslOK) esl_fatal(msg);
+
+      if (esl_vec_FCompare(gn2, on2, abc->Kp, tolerance) != eslOK) esl_fatal(msg);
+    }
+
+  p7_gmx_Destroy(gpp);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_omx_Destroy(pp);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  free(on2);
+  free(gn2);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+#endif /*p7NULL2_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7NULL2_TESTDRIVE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -o null2_utest -I.. -L.. -I../../easel -L../../easel -Dp7NULL2_TESTDRIVE null2.c -lhmmer -leasel -lm
+   ./null2_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-t",        eslARG_REAL,  "0.01", NULL, NULL,  NULL,  NULL, NULL, "floating point comparison tolerance",            0 },
+  { "-L",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,     "72", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,     "10", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for SSE implementation of null2 model";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+
+  p7_FLogsumInit();
+
+  utest_null2_expectation(r, abc, bg, M, L, N, tol);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  return eslOK;
+}
+#endif /*p7NULL2_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7NULL2_EXAMPLE
+
+#endif /*p7NULL2_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/optacc.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/optacc.c
new file mode 100755
index 0000000..31483fb
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/optacc.c
@@ -0,0 +1,956 @@
+/* Optimal accuracy alignment; SSE version.
+ * 
+ * Contents:
+ *   1. Optimal accuracy alignment, DP fill
+ *   2. OA traceback
+ *   3. Benchmark driver
+ *   4. Unit tests
+ *   5. Test driver
+ *   6. Example
+ *   7. Copyright and license information.
+ * 
+ * SRE, Mon Aug 18 20:01:01 2008 [Casa de Gatos]
+ * SVN $Id: optacc.c 3991 2012-04-17 21:08:00Z eddys $
+ */
+#include "p7_config.h"
+
+#include <float.h>
+
+#include <xmmintrin.h>
+#include <emmintrin.h>
+
+#include "easel.h"
+#include "esl_sse.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. Optimal accuracy alignment, DP fill
+ *****************************************************************/
+
+/* Function:  p7_OptimalAccuracy()
+ * Synopsis:  DP fill of an optimal accuracy alignment calculation.
+ * Incept:    SRE, Mon Aug 18 11:04:48 2008 [Janelia]
+ *
+ * Purpose:   Calculates the fill step of the optimal accuracy decoding
+ *            algorithm \citep{Kall05}.
+ *            
+ *            Caller provides the posterior decoding matrix <pp>,
+ *            which was calculated by Forward/Backward on a target sequence
+ *            of length <pp->L> using the query model <om>.
+ *            
+ *            Caller also provides a DP matrix <ox>, allocated for a full
+ *            <om->M> by <L> comparison. The routine fills this in
+ *            with OA scores.
+ *  
+ * Args:      gm    - query profile      
+ *            pp    - posterior decoding matrix created by <p7_GPosteriorDecoding()>
+ *            gx    - RESULT: caller provided DP matrix for <gm->M> by <L> 
+ *            ret_e - RETURN: expected number of correctly decoded positions 
+ *
+ * Returns:   <eslOK> on success, and <*ret_e> contains the final OA
+ *            score, which is the expected number of correctly decoded
+ *            positions in the target sequence (up to <L>).
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp, P7_OMX *ox, float *ret_e)
+{
+  register __m128 mpv, dpv, ipv;   /* previous row values                                       */
+  register __m128 sv;		   /* temp storage of 1 curr row value in progress              */
+  register __m128 xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  register __m128 xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  register __m128 dcv;
+  float  *xmx = ox->xmx;
+  __m128 *dpc = ox->dpf[0];        /* current row, for use in {MDI}MO(dpp,q) access macro       */
+  __m128 *dpp;                     /* previous row, for use in {MDI}MO(dpp,q) access macro      */
+  __m128 *ppp;			   /* quads in the <pp> posterior probability matrix            */
+  __m128 *tp;			   /* quads in the <om->tfv> transition scores                  */
+  __m128 zerov = _mm_setzero_ps();
+  __m128 infv  = _mm_set1_ps(-eslINFINITY);
+  int M = om->M;
+  int Q = p7O_NQF(M);
+  int q;
+  int j;
+  int i;
+  float t1, t2;
+
+  ox->M = om->M;
+  ox->L = pp->L;
+  for (q = 0; q < Q; q++) MMO(dpc, q) = IMO(dpc,q) = DMO(dpc,q) = infv;
+  XMXo(0, p7X_E)    = -eslINFINITY;
+  XMXo(0, p7X_N)    = 0.;
+  XMXo(0, p7X_J)    = -eslINFINITY;
+  XMXo(0, p7X_B)    = 0.;
+  XMXo(0, p7X_C)    = -eslINFINITY;
+
+  for (i = 1; i <= pp->L; i++)
+    {
+      dpp = dpc;		/* previous DP row in OA matrix */
+      dpc = ox->dpf[i];   	/* current DP row in OA matrix  */
+      ppp = pp->dpf[i];		/* current row in the posterior probabilities per position */
+      tp  = om->tfv;		/* transition probabilities */
+      dcv = infv;
+      xEv = infv;
+      xBv = _mm_set1_ps(XMXo(i-1, p7X_B));
+
+      mpv = esl_sse_rightshift_ps(MMO(dpp,Q-1), infv);  /* Right shifts by 4 bytes. 4,8,12,x becomes x,4,8,12. */
+      dpv = esl_sse_rightshift_ps(DMO(dpp,Q-1), infv);
+      ipv = esl_sse_rightshift_ps(IMO(dpp,Q-1), infv);
+      for (q = 0; q < Q; q++)
+	{
+	  sv  =                _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), xBv);  tp++;
+	  sv  = _mm_max_ps(sv, _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), mpv)); tp++;
+	  sv  = _mm_max_ps(sv, _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), ipv)); tp++;
+	  sv  = _mm_max_ps(sv, _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), dpv)); tp++;
+	  sv  = _mm_add_ps(sv, *ppp);                                      ppp += 2;
+	  xEv = _mm_max_ps(xEv, sv);
+	  
+	  mpv = MMO(dpp,q);
+	  dpv = DMO(dpp,q);
+	  ipv = IMO(dpp,q);
+
+	  MMO(dpc,q) = sv;
+	  DMO(dpc,q) = dcv;
+
+	  dcv = _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), sv); tp++;
+
+	  sv         =                _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), mpv);   tp++;
+	  sv         = _mm_max_ps(sv, _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), ipv));  tp++;
+	  IMO(dpc,q) = _mm_add_ps(sv, *ppp);                                       ppp++;
+	}
+      
+      /* dcv has carried through from end of q loop above; store it 
+       * in first pass, we add M->D and D->D path into DMX
+       */
+      dcv = esl_sse_rightshift_ps(dcv, infv); 
+      tp  = om->tfv + 7*Q;	/* set tp to start of the DD's */
+      for (q = 0; q < Q; q++)
+	{
+	  DMO(dpc, q) = _mm_max_ps(dcv, DMO(dpc, q));
+	  dcv         = _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), DMO(dpc,q));   tp++;
+	}
+
+      /* fully serialized D->D; can optimize later */
+      for (j = 1; j < 4; j++)
+	{
+	  dcv = esl_sse_rightshift_ps(dcv, infv);
+	  tp  = om->tfv + 7*Q;	
+	  for (q = 0; q < Q; q++)
+	    {
+	      DMO(dpc, q) = _mm_max_ps(dcv, DMO(dpc, q));
+	      dcv         = _mm_and_ps(_mm_cmpgt_ps(*tp, zerov), dcv);   tp++;
+	    }
+	}
+
+      /* D->E paths */
+      for (q = 0; q < Q; q++) xEv = _mm_max_ps(xEv, DMO(dpc,q));
+      
+      /* Specials */
+      esl_sse_hmax_ps(xEv, &(XMXo(i,p7X_E)));
+      
+      t1 = ( (om->xf[p7O_J][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[(i-1)*p7X_NXCELLS+p7X_J] + pp->xmx[i*p7X_NXCELLS+p7X_J]);
+      t2 = ( (om->xf[p7O_E][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+      ox->xmx[i*p7X_NXCELLS+p7X_J] = ESL_MAX(t1, t2);
+
+      t1 = ( (om->xf[p7O_C][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[(i-1)*p7X_NXCELLS+p7X_C] + pp->xmx[i*p7X_NXCELLS+p7X_C]);
+      t2 = ( (om->xf[p7O_E][p7O_MOVE] == 0.0) ? 0.0 : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+      ox->xmx[i*p7X_NXCELLS+p7X_C] = ESL_MAX(t1, t2);
+      
+      ox->xmx[i*p7X_NXCELLS+p7X_N] = ((om->xf[p7O_N][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[(i-1)*p7X_NXCELLS+p7X_N] + pp->xmx[i*p7X_NXCELLS+p7X_N]);
+      
+      t1 = ( (om->xf[p7O_N][p7O_MOVE] == 0.0) ? 0.0 : ox->xmx[i*p7X_NXCELLS+p7X_N]);
+      t2 = ( (om->xf[p7O_J][p7O_MOVE] == 0.0) ? 0.0 : ox->xmx[i*p7X_NXCELLS+p7X_J]);
+      ox->xmx[i*p7X_NXCELLS+p7X_B] = ESL_MAX(t1, t2);
+    }
+
+  *ret_e = ox->xmx[pp->L*p7X_NXCELLS+p7X_C];
+  return eslOK;
+}
+/*------------------- end, OA DP fill ---------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. OA traceback
+ *****************************************************************/
+
+static inline float get_postprob(const P7_OMX *pp, int scur, int sprv, int k, int i);
+
+static inline int select_m(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int k);
+static inline int select_d(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int k);
+static inline int select_i(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int k);
+static inline int select_n(int i);
+static inline int select_c(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i);
+static inline int select_j(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i);
+static inline int select_e(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int *ret_k);
+static inline int select_b(const P7_OPROFILE *om,                   const P7_OMX *ox, int i);
+
+
+/* Function:  p7_OATrace()
+ * Synopsis:  Optimal accuracy decoding: traceback.
+ * Incept:    SRE, Mon Aug 18 13:53:33 2008 [Janelia]
+ *
+ * Purpose:   The traceback stage of the optimal accuracy decoding algorithm
+ *            \citep{Kall05}.
+ *            
+ *            Caller provides the OA DP matrix <ox> that was just
+ *            calculated by <p7_OptimalAccuracyDP()>, as well as the
+ *            posterior decoding matrix <pp>, which was calculated by
+ *            Forward/Backward on a target sequence using the query
+ *            model <gm>. Because the calculation depends only on
+ *            <pp>, the target sequence itself need not be provided.
+ *            
+ *            The resulting optimal accuracy decoding traceback is put
+ *            in a caller-provided traceback structure <tr>, which the
+ *            caller has allocated for optional posterior probability
+ *            annotation on residues (with <p7_trace_CreateWithPP()>,
+ *            generally). This structure will be reallocated
+ *            internally if necessary.
+ *
+ * Args:      om  - profile
+ *            pp  - posterior probability matrix
+ *            ox  - OA matrix to trace, LxM
+ *            tr  - storage for the recovered traceback
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> if the trace <tr> isn't empty (needs to be Reuse()'d).
+ */
+int
+p7_OATrace(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr)
+{
+  int   i   = ox->L;		/* position in sequence 1..L */
+  int   k   = 0;		/* position in model 1..M */
+  int   s0, s1;			/* choice of a state */
+  float postprob;
+  int   status;			
+  
+  if (tr->N != 0) ESL_EXCEPTION(eslEINVAL, "trace not empty; needs to be Reuse()'d?");
+
+  if ((status = p7_trace_AppendWithPP(tr, p7T_T, k, i, 0.0)) != eslOK) return status;
+  if ((status = p7_trace_AppendWithPP(tr, p7T_C, k, i, 0.0)) != eslOK) return status;
+
+  s0 = tr->st[tr->N-1];
+  while (s0 != p7T_S)
+    {
+      switch (s0) {
+      case p7T_M: s1 = select_m(om,     ox, i, k);  k--; i--; break;
+      case p7T_D: s1 = select_d(om,     ox, i, k);  k--;      break;
+      case p7T_I: s1 = select_i(om,     ox, i, k);       i--; break;
+      case p7T_N: s1 = select_n(i);                           break;
+      case p7T_C: s1 = select_c(om, pp, ox, i);               break;
+      case p7T_J: s1 = select_j(om, pp, ox, i);               break;
+      case p7T_E: s1 = select_e(om,     ox, i, &k);           break;
+      case p7T_B: s1 = select_b(om,     ox, i);               break;
+      default: ESL_EXCEPTION(eslEINVAL, "bogus state in traceback");
+      }
+      if (s1 == -1) ESL_EXCEPTION(eslEINVAL, "OA traceback choice failed");
+
+      postprob = get_postprob(pp, s1, s0, k, i);
+      if ((status = p7_trace_AppendWithPP(tr, s1, k, i, postprob)) != eslOK) return status;
+
+      if ( (s1 == p7T_N || s1 == p7T_J || s1 == p7T_C) && s1 == s0) i--;
+      s0 = s1;
+    } /* end traceback, at S state */
+  tr->M = om->M;
+  tr->L = ox->L;
+  return p7_trace_Reverse(tr);
+}
+
+static inline float
+get_postprob(const P7_OMX *pp, int scur, int sprv, int k, int i)
+{
+  int     Q     = p7O_NQF(pp->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell M(i,k) */
+  int     r     = (k-1) / Q;
+  union { __m128 v; float p[4]; } u;
+
+  switch (scur) {
+  case p7T_M: u.v = MMO(pp->dpf[i], q); return u.p[r]; 
+  case p7T_I: u.v = IMO(pp->dpf[i], q); return u.p[r]; 
+  case p7T_N: if (sprv == scur) return pp->xmx[i*p7X_NXCELLS+p7X_N];
+  case p7T_C: if (sprv == scur) return pp->xmx[i*p7X_NXCELLS+p7X_C];
+  case p7T_J: if (sprv == scur) return pp->xmx[i*p7X_NXCELLS+p7X_J];
+  default:    return 0.0;
+  }
+}
+
+/* M(i,k) is reached from B(i-1), M(i-1,k-1), D(i-1,k-1), or I(i-1,k-1). */
+static inline int
+select_m(const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell M(i,k) */
+  int     r     = (k-1) / Q;
+  __m128 *tp    = om->tfv + 7*q;       	/* *tp now at start of transitions to cur cell M(i,k) */
+  __m128  xBv   = _mm_set1_ps(ox->xmx[(i-1)*p7X_NXCELLS+p7X_B]);
+  __m128  zerov = _mm_setzero_ps();
+  __m128  mpv, dpv, ipv;
+  union { __m128 v; float p[4]; } u, tv;
+  float   path[4];
+  int     state[4] = { p7T_M, p7T_I, p7T_D, p7T_B };
+  
+  if (q > 0) {
+    mpv = ox->dpf[i-1][(q-1)*3 + p7X_M];
+    dpv = ox->dpf[i-1][(q-1)*3 + p7X_D];
+    ipv = ox->dpf[i-1][(q-1)*3 + p7X_I];
+  } else {
+    mpv = esl_sse_rightshift_ps(ox->dpf[i-1][(Q-1)*3 + p7X_M], zerov);
+    dpv = esl_sse_rightshift_ps(ox->dpf[i-1][(Q-1)*3 + p7X_D], zerov);
+    ipv = esl_sse_rightshift_ps(ox->dpf[i-1][(Q-1)*3 + p7X_I], zerov);
+  }	  
+
+  /* paths are numbered so that most desirable choice in case of tie is first. */
+  u.v = xBv;  tv.v = *tp;  path[3] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  tp++;
+  u.v = mpv;  tv.v = *tp;  path[0] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  tp++;
+  u.v = ipv;  tv.v = *tp;  path[1] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  tp++;
+  u.v = dpv;  tv.v = *tp;  path[2] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  
+  return state[esl_vec_FArgMax(path, 4)];
+}
+
+
+/* D(i,k) is reached from M(i, k-1) or D(i,k-1). */
+static inline int
+select_d(const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r     = (k-1) / Q;
+  __m128  zerov = _mm_setzero_ps();
+  union { __m128 v; float p[4]; } mpv, dpv, tmdv, tddv;
+  float   path[2];
+
+  if (q > 0) {
+    mpv.v  = ox->dpf[i][(q-1)*3 + p7X_M];
+    dpv.v  = ox->dpf[i][(q-1)*3 + p7X_D];
+    tmdv.v = om->tfv[7*(q-1) + p7O_MD];
+    tddv.v = om->tfv[7*Q + (q-1)];
+  } else {
+    mpv.v  = esl_sse_rightshift_ps(ox->dpf[i][(Q-1)*3 + p7X_M], zerov);
+    dpv.v  = esl_sse_rightshift_ps(ox->dpf[i][(Q-1)*3 + p7X_D], zerov);
+    tmdv.v = esl_sse_rightshift_ps(om->tfv[7*(Q-1) + p7O_MD],   zerov);
+    tddv.v = esl_sse_rightshift_ps(om->tfv[8*Q-1],              zerov);
+  }	  
+
+  path[0] = ((tmdv.p[r] == 0.0) ? -eslINFINITY : mpv.p[r]);
+  path[1] = ((tddv.p[r] == 0.0) ? -eslINFINITY : dpv.p[r]);
+  return  ((path[0] >= path[1]) ? p7T_M : p7T_D);
+}
+
+/* I(i,k) is reached from M(i-1, k) or I(i-1,k). */
+static inline int
+select_i(const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q    = p7O_NQF(ox->M);
+  int     q    = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r    = (k-1) / Q;
+  __m128 *tp   = om->tfv + 7*q + p7O_MI;
+  union { __m128 v; float p[4]; } tv, mpv, ipv;
+  float   path[2];
+
+  mpv.v = ox->dpf[i-1][q*3 + p7X_M]; tv.v = *tp;  path[0] = ((tv.p[r] == 0.0) ? -eslINFINITY : mpv.p[r]);  tp++;
+  ipv.v = ox->dpf[i-1][q*3 + p7X_I]; tv.v = *tp;  path[1] = ((tv.p[r] == 0.0) ? -eslINFINITY : ipv.p[r]);  
+  return  ((path[0] >= path[1]) ? p7T_M : p7T_I);
+}
+
+/* N(i) must come from N(i-1) for i>0; else it comes from S */
+static inline int
+select_n(int i)
+{
+  return ((i==0) ? p7T_S : p7T_N);
+}
+
+/* C(i) is reached from E(i) or C(i-1). */
+static inline int
+select_c(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i)
+{
+  float path[2];
+  path[0] = ( (om->xf[p7O_C][p7O_LOOP] == 0.0) ? -eslINFINITY : ox->xmx[(i-1)*p7X_NXCELLS+p7X_C] + pp->xmx[i*p7X_NXCELLS+p7X_C]);
+  path[1] = ( (om->xf[p7O_E][p7O_MOVE] == 0.0) ? -eslINFINITY : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+  return  ((path[0] > path[1]) ? p7T_C : p7T_E);
+}
+
+/* J(i) is reached from E(i) or J(i-1). */
+static inline int
+select_j(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i)
+{
+  float path[2];
+
+  path[0] = ( (om->xf[p7O_J][p7O_LOOP] == 0.0) ? -eslINFINITY : ox->xmx[(i-1)*p7X_NXCELLS+p7X_J] + pp->xmx[i*p7X_NXCELLS+p7X_J]);
+  path[1] = ( (om->xf[p7O_E][p7O_LOOP] == 0.0) ? -eslINFINITY : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+  return  ((path[0] > path[1]) ? p7T_J : p7T_E);
+}
+ 
+/* E(i) is reached from any M(i, k=1..M) or D(i, k=2..M). */
+/* This assumes all M_k->E, D_k->E are 1.0 */
+static inline int
+select_e(const P7_OPROFILE *om, const P7_OMX *ox, int i, int *ret_k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  __m128 *dp    = ox->dpf[i];
+  union { __m128 v; float p[4]; } u;
+  float  max   = -eslINFINITY;
+  int    smax, kmax;
+  int    q,r;
+
+  /* precedence rules in case of ties here are a little tricky: M beats D: note the >= max!  */
+  for (q = 0; q < Q; q++)
+    {
+      u.v   = *dp; dp++;  for (r = 0; r < 4; r++) if (u.p[r] >= max) { max = u.p[r]; smax = p7T_M; kmax = r*Q + q + 1; }
+      u.v   = *dp; dp+=2; for (r = 0; r < 4; r++) if (u.p[r] > max)  { max = u.p[r]; smax = p7T_D; kmax = r*Q + q + 1; }
+    }
+  *ret_k = kmax;
+  return smax;
+}
+
+
+/* B(i) is reached from N(i) or J(i). */
+static inline int
+select_b(const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+
+  path[0] = ( (om->xf[p7O_N][p7O_MOVE] == 0.0) ? -eslINFINITY : ox->xmx[i*p7X_NXCELLS+p7X_N]);
+  path[1] = ( (om->xf[p7O_J][p7O_MOVE] == 0.0) ? -eslINFINITY : ox->xmx[i*p7X_NXCELLS+p7X_J]);
+  return  ((path[0] > path[1]) ? p7T_N : p7T_J);
+}
+/*---------------------- end, OA traceback ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Benchmark driver
+ *****************************************************************/
+#ifdef p7OPTACC_BENCHMARK
+/* 
+   icc  -O3 -static -o optacc_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7OPTACC_BENCHMARK optacc.c -lhmmer -leasel -lm 
+
+   ./optacc_benchmark <hmmfile>         runs benchmark on optimal accuracy fill and trace
+   ./optacc_benchmark -c -N1 <hmmfile>  compare scores of SSE version to generic impl
+   ./optacc_benchmark -x -N1 <hmmfile>  test that scores match trusted implementation.
+
+                    RRM_1 (M=72)       Caudal_act (M=136)     SMC_N (M=1151)
+                 -----------------    ------------------     ---------------
+   20 Aug 08:     13.11u (110 Mc/s)     23.39u (116 Mc/s)    332.62u (69 Mc/s)
+
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  { "--notrace", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark the DP fill stage",                 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for optimal accuracy alignment, SSE version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc, accscore;
+  float           fsc_g, bsc_g, accscore_g;
+  double          Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
+    p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
+
+  ox1 = p7_omx_Create(gm->M, L, L);
+  ox2 = p7_omx_Create(gm->M, L, L);
+  tr  = p7_trace_CreateWithPP();
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, ox1,      &fsc);
+  p7_Backward(dsq, L, om, ox1, ox2, &bsc);
+  p7_Decoding(om, ox1, ox2, ox2);              
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_OptimalAccuracy(om, ox2, ox1, &accscore);
+
+      if (! esl_opt_GetBoolean(go, "--notrace"))
+	{
+	  p7_OATrace(om, ox2, ox1, tr);
+	  p7_trace_Reuse(tr);
+	}
+    }
+  esl_stopwatch_Stop(w);
+
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x") )
+    {
+      gx1 = p7_gmx_Create(gm->M, L);
+      gx2 = p7_gmx_Create(gm->M, L);
+      
+      p7_GForward (dsq, L, gm, gx1, &fsc_g);
+      p7_GBackward(dsq, L, gm, gx2, &bsc_g);
+      p7_GDecoding(gm, gx1, gx2, gx2);             
+      p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g);
+
+      printf("generic:  fwd=%8.4f  bck=%8.4f  acc=%8.4f\n", fsc_g, bsc_g, accscore_g);
+      printf("SSE:      fwd=%8.4f  bck=%8.4f  acc=%8.4f\n", fsc,   bsc,   accscore);
+
+      p7_gmx_Destroy(gx1);
+      p7_gmx_Destroy(gx2);
+    }
+
+  free(dsq);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_trace_Destroy(tr);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPTACC_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7OPTACC_TESTDRIVE
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+/* 
+ * 1. Compare accscore to GOptimalAccuracy().
+ * 2. Compare trace to GOATrace().
+ * 
+ * Note: This test is subject to some expected noise and can fail
+ * for entirely innocent reasons. Generic Forward/Backward calculations with
+ * p7_GForward(), p7_GBackward() use coarse-grain table lookups to sum
+ * log probabilities, and sufficient roundoff error can accumulate to
+ * change the optimal accuracy traceback, causing this test to fail.
+ * So, if optacc_utest fails, before you go looking for bugs, first
+ * go to ../logsum.c, change the #ifdef to activate the slow/accurate 
+ * version, recompile and rerun optacc_utest. If the failure goes away,
+ * you can ignore it.   - SRE, Wed Dec 17 09:45:31 2008
+ */
+static void
+utest_optacc(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  char        *msg = "optimal accuracy unit test failed";
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_SQ      *sq  = esl_sq_CreateDigital(abc);
+  P7_OMX      *ox1 = p7_omx_Create(M, L, L);
+  P7_OMX      *ox2 = p7_omx_Create(M, L, L);
+  P7_GMX      *gx1 = p7_gmx_Create(M, L);
+  P7_GMX      *gx2 = p7_gmx_Create(M, L);
+  P7_TRACE    *tr  = p7_trace_CreateWithPP();
+  P7_TRACE    *trg = p7_trace_CreateWithPP();
+  P7_TRACE    *tro = p7_trace_CreateWithPP();
+  float        accscore_o;
+  float        fsc, bsc, accscore;
+  float        fsc_g, bsc_g, accscore_g, accscore_g2;
+  float        pptol = 0.01;
+  float        sctol = 0.001;
+  float        gtol;
+
+  p7_FLogsumInit();
+  gtol = ( (p7_FLogsumError(-0.4, -0.5) > 0.0001) ?  0.1 : 0.001);
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om)!= eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (p7_ProfileEmit(r, hmm, gm, bg, sq, tro)         != eslOK) esl_fatal(msg);
+
+      if (p7_omx_GrowTo(ox1, M, sq->n, sq->n)             != eslOK) esl_fatal(msg);
+      if (p7_omx_GrowTo(ox2, M, sq->n, sq->n)             != eslOK) esl_fatal(msg);
+      if (p7_gmx_GrowTo(gx1, M, sq->n)                    != eslOK) esl_fatal(msg);
+      if (p7_gmx_GrowTo(gx2, M, sq->n)                    != eslOK) esl_fatal(msg);
+
+      if (p7_Forward (sq->dsq, sq->n, om, ox1,      &fsc) != eslOK) esl_fatal(msg);
+      if (p7_Backward(sq->dsq, sq->n, om, ox1, ox2, &bsc) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, ox1, ox2, ox2)                  != eslOK) esl_fatal(msg);
+      if (p7_OptimalAccuracy(om, ox2, ox1, &accscore)     != eslOK) esl_fatal(msg);
+
+#if 0
+      p7_omx_FDeconvert(ox1, gx1); 
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); 
+      p7_omx_FDeconvert(ox2, gx1); 
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); 
+#endif
+      if (p7_OATrace(om, ox2, ox1, tr)                    != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (sq->dsq, sq->n, gm, gx1, &fsc_g)   != eslOK) esl_fatal(msg);
+      if (p7_GBackward(sq->dsq, sq->n, gm, gx2, &bsc_g)   != eslOK) esl_fatal(msg);
+
+#if 0
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); /* fwd */
+      p7_gmx_Dump(stdout, gx2, p7_DEFAULT); /* bck */
+#endif
+
+      if (p7_GDecoding(gm, gx1, gx2, gx2)                 != eslOK) esl_fatal(msg);
+      if (p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g)  != eslOK) esl_fatal(msg);
+      
+#if 0
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); /* oa */
+      p7_gmx_Dump(stdout, gx2, p7_DEFAULT); /* pp */
+#endif
+      if (p7_GOATrace(gm, gx2, gx1, trg)                  != eslOK) esl_fatal(msg);
+
+      if (p7_trace_SetPP(tro, gx2)                        != eslOK) esl_fatal(msg);
+
+      if (esl_opt_GetBoolean(go, "--traces"))
+	{
+	  p7_trace_Dump(stdout, tro, gm, sq->dsq);
+	  p7_trace_Dump(stdout, tr,  gm, sq->dsq);
+	  p7_trace_Dump(stdout, trg, gm, sq->dsq);
+	}
+
+      if (p7_trace_Validate(tr,  abc, sq->dsq, NULL)      != eslOK) esl_fatal(msg);
+      if (p7_trace_Validate(trg, abc, sq->dsq, NULL)      != eslOK) esl_fatal(msg);
+      if (p7_trace_Compare(tr, trg, pptol)                != eslOK) esl_fatal(msg);
+
+      accscore_o  = p7_trace_GetExpectedAccuracy(tro); /* according to gx2; see p7_trace_SetPP() call above */
+      accscore_g2 = p7_trace_GetExpectedAccuracy(trg);
+
+#if 0
+      printf("%f %f %f %f\n", accscore, accscore_g, accscore_g2, accscore_o);
+#endif
+
+      if (esl_FCompare(fsc,        bsc,         sctol)    != eslOK) esl_fatal(msg);
+      if (esl_FCompare(fsc_g,      bsc_g,       gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(fsc,        fsc_g,       gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(accscore,   accscore_g,  gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(accscore_g, accscore_g2, gtol)     != eslOK) esl_fatal(msg);
+      if (accscore_g2 < accscore_o)                                 esl_fatal(msg);
+      /* the above deserves explanation:
+       *  - accscore_o is the accuracy of the originally emitted trace, according
+       *      to the generic posterior decoding matrix <gx2>. This is a lower bound
+       *      on the expected # of accurately aligned residues found by a DP 
+       *      optimization.
+       *  - accscore is the accuracy found by the fast (vector) code DP implementation.
+       *  - accscore_g is the accuracy found by the generic DP implementation.
+       *      accscore and accscore_g should be nearly identical,
+       *      within tolerance of roundoff error accumulation and
+       *      the imprecision of Logsum() tables.
+       *  - accscore_g2 is the accuracy of the traceback identified by the generic
+       *      DP implementation. It should be identical (within order-of-evaluation
+       *      roundoff error) to accscore_g.
+       *      
+       * the "accscore_g2 < accscore_o" test is carefully contrived.
+       * accscore_o is a theoretical lower bound but because of fp error, 
+       * accscore and (much more rarely) even accscore_g can exceed accscore_o.
+       * accscore_g2, however, is calculated with identical order of evaluation
+       * as accscore_o if the optimal trace does turn out to be identical to 
+       * the originally emitted trace. It should be extremely unlikely (though
+       * not impossible) for accscore_o to exceed accscore_g2. (The DP algorithm
+       * would have to identify a trace that was different than the original trace,
+       * which the DP algorithm, by order-of-evaluation, assigned higher accuracy,
+       * but order-of-evaluation in traceback dependent code assigned lower accuracy.
+       * [xref J5/29]
+       */
+
+      esl_sq_Reuse(sq);
+      p7_trace_Reuse(tr);
+      p7_trace_Reuse(trg);
+      p7_trace_Reuse(tro);
+    }
+
+  p7_trace_Destroy(tro);
+  p7_trace_Destroy(trg);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx2);
+  p7_gmx_Destroy(gx1);
+  p7_omx_Destroy(ox2);
+  p7_omx_Destroy(ox1);  
+  esl_sq_Destroy(sq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+
+#endif /*p7OPTACC_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef p7OPTACC_TESTDRIVE
+
+/* Failures in this test are to be expected, if you change the defaults.
+ * The default RNG seed of 41 is very carefully chosen! Most seeds will
+ * cause this test to fail. (Only 13 and 41 work for seeds 1..50.)
+ * 
+ * The generic fwd/bck algorithms work in log space and suffer from a
+ * small amount of imprecision, not only from the use of FLogsum()'s
+ * table-driven approximation, but even (apparently) inherent in log()
+ * and exp(). To minimize this, the generic decoding algorithm burns
+ * time renormalizing each row. Still, it's a problem. See notes at
+ * the header of utest_optacc() for more info.
+ * 
+ * Another expected failure mode is when a fwd, bck nat score are close to
+ * 0.0; FCompare() can evaluate two close-to-zero numbers as "different"
+ * even if their absolute diff is negligible. (I suppose I could fix this.)
+ */
+
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -o optacc_utest -I.. -L.. -I../../easel -L../../easel -Dp7OPTACC_TESTDRIVE optacc.c -lhmmer -leasel -lm
+   ./optacc_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "41", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,     "50", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,     "20", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  { "--traces",  eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump all tracebacks",                            0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for SSE Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* first round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_optacc(go, r, abc, bg, M, L, N);   /* normal sized models */
+  utest_optacc(go, r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_optacc(go, r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_optacc(go, r, abc, bg, M, L, N);   
+  utest_optacc(go, r, abc, bg, 1, L, 10);  
+  utest_optacc(go, r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7OPTACC_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+#ifdef p7OPTACC_EXAMPLE
+/* 
+   gcc -g -Wall -o optacc_example -Dp7OPTACC_EXAMPLE -I.. -I../../easel -L.. -L../../easel optacc.c -lhmmer -leasel -lm
+   ./optacc_example <hmmfile> <seqfile>
+*/
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-d",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump posterior residue decoding matrix",           0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump OA matrix",                                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of optimal accuracy alignment, SSE implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  float           fsc, bsc;
+  float           accscore;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL); /* multihit local: H3 default */
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+
+  /* Allocations */
+  ox1 = p7_omx_Create(gm->M, sq->n, sq->n);
+  ox2 = p7_omx_Create(gm->M, sq->n, sq->n);
+  gx  = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_CreateWithPP();
+  p7_FLogsumInit();
+
+  /* Run Forward, Backward; do OA fill and trace */
+  p7_Forward (sq->dsq, sq->n, om, ox1,      &fsc);
+  p7_Backward(sq->dsq, sq->n, om, ox1, ox2, &bsc);
+  p7_Decoding(om, ox1, ox2, ox2);                   /* <gx2> is now the posterior decoding matrix */
+  p7_OptimalAccuracy(om, ox2, ox1, &accscore);	    /* <gx1> is now the OA matrix */
+  p7_OATrace(om, ox2, ox1, tr);
+  
+  if (esl_opt_GetBoolean(go, "-d")) { p7_omx_FDeconvert(ox2, gx);  p7_gmx_Dump(stdout, gx, p7_DEFAULT); }
+  if (esl_opt_GetBoolean(go, "-m")) { p7_omx_FDeconvert(ox1, gx);  p7_gmx_Dump(stdout, gx, p7_DEFAULT); }
+
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+
+  if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
+
+  printf("fwd = %.4f nats\n", fsc);
+  printf("bck = %.4f nats\n", bsc);
+  printf("acc = %.4f (%.2f%%)\n", accscore, accscore * 100. / (float) sq->n);
+
+  /* Cleanup */
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPTACC_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_omx.ai b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_omx.ai
new file mode 100755
index 0000000..79e3e3f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_omx.ai
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+8��6��6��6��6��6��6��6��6���o  �x  �  �~  �  w�  k�  ^�  U�  N� J� H� G�% E�/ D�8 B�@ @�G?�O=�V;�_9�h7�s5��3��1��0��/��/��/��/��/��/��	/��	�v  �  ��  ��  }�  p�  e�  Z�  O�  F�  A� >� =� ;�( :�1 9�: 7�B 6�J 5�R3�Z1�d/�o-�{,��*��)��(��'��'��'��'��'��'���~  ��  ��  ��  v�  j�  ^�  T�  I�  @�  7� 2� 1� 0�! .�* -�2 ,�: +�C *�K )�T (�^ &�i %�v#��"�� ������������������  ��  ��  }�  o�  c�  W�  M�  C�  8�  0�  (� $� #� !�!  �) �1 �: �B �L �V �a �o �~ �� �� �� �� �� �� ��������  ��  ��  u�  h�  [�  P�  E�  ;�  1�  '�   �  � � � � �& �. �7 �A �L �W �e �t �� 
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+ �  � ( � 5 � A � N � Z � e � n � w �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �% � 1 � > � J � V � a � k � s � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �" �- �9 �F � Q � \ � f � o � w � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � �� �� �� �� �� � � � � � �( �4 �
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+�  �   �   �   �   �   �   �  �  �  �  �  �  �(  �4  �C  �T  �g  �|  ��  �  �  �  �� f�  Y�  L�  ?�  2�  $�  �  �  �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �  �'  �5  �F  �X  �k  �  ��  ��  ��  �� �  �  �  �  �  � , � 9 � E � P � Z � c � k � r � x � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  � ( � 4 � A � L � V � _ � f � m � t � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  � 	 � 
+ �  �  � " � / � ; � G � Q � Z � b � i � o � u � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  � ) � 6 � A � K � T � \ � c � j � p � u � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �   �  �  �  � " � / � ; � E � N � W � ^ � d � j � p � u � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �   �  �  �  � ' � 3 � > � H � Q � X � _ � e � j � p � v � | � � � � � � � � � � � � � � �� �� �� �� �� �� �� �
+  �  �  �  �  � �  � �, �7 �B �J �R �Y �_ �e �k �q �w �~ �� �	� �	� �
+� �
+� �� �� �� �� �� �� �� �� �  �  �  �  �  �  �
+ � �$ �0 �; �D �L �S �Z �` �f �l �r �y �� �� �� �� �� �� �� �� �� �� �� �� �� �  �!  �%  �"  �  �  � � � �* �5 �> �G �N �U �[ �a �g �m �t �| �� �� �� �� ~� }� |� z� y� x� x� x� �"  �)  �,  �*  �'  �#  �  � � �$ �/ �9 �A �I �P �V �\ �b i } p | x z � y!� w!� u"� t"� s#� r#� p$� o$� o$� n$� n$� �)  �0  �2  �0  �.  �*  �'  �#
+ �# �$ �%* �%4 �&= }&D |&K z&R x&X w&^ u&e t'l r't q'} o(� n(� l(� k)�j)�i*�g*�g+�f+�f*�f*��/  �6  �6  �5  �4  �0  �-  �* �) * |+% y+/ w,8 u,@ s,G q,M p,T n,Z m,a k-h j-p h-z g.� e.�d.�b/�a/�a0�`0�_0�_0�_0�_0��4  �;  �:  �:  �8  �5  �2  0 {/ w0 t0! q1+ o14 m1< k1C j1J h2P g2W e2] d2e b2m a3w _3�^3�]4�[4�Z5�Z5�Y5�Y5�X5�X5�Y5��8  �>  �>  �=  �<  �:  }7  x4  t4 p5 m5 j5' h60 f68 d6? c6F a6M `6S ^7Z ]7b \7j Z8tY8W8�V9�U9�T9�S:�S:�S:�S:�S9�S9��<  �A  �@  �@  �?  ~=  x:  s8  n9 j9 g9 d:$ b:, `:4 ^:< ];C [;J Z;P X;W W;_ V<g T<qS<|R=�Q=�O=�N>�N>�N>�M>�N>�N=�N=��?  �C  �C  �C  �B  z@  s=  m<  h= d= a> ^>! \>) Z>1 X>9 W>@ U?F T?M S?U R@\ P@e O@oNAzMA�KA�JA�IB�IB�IB�IB�IA�IA�IA��C  �E  �E  �E  E  vC  o@  h@  cA _A \A YB WB& UB. SB6 QB= OBC OCK NCR MDZ LDc JDmIExHE�GE�EE�EF�DF�DF�DE�DE�EE�EE��F  �H  �H  �H  {G  rF  jB  cC  ^D  ZE VE TF QF# OF+ NF3 LG: KGA JGI IHP HHX GHa FIk DIvCI�BI�AI�@I�?J�?J�?I�@I�@H�@H��I  �J  �J  �J  wJ  nI  eE  ^G  YH  UI QJ OJ LJ! JK) IK1 GK8 FL? ELF DLN CMV BM_ AMh @Mt>M�=M�<M�;N�:N�:N�;M�;M�;L�<L��M  �L  �L  L  tL  jL  `J  YK  TL  PM LN IO GO EO& DP. BP5 AP= @QD ?QK >QS =R\ <Rf :Rr 9R8R�7R�6R�5R�5R�6R�6Q�6P�7P��O  �O  �O  {O  pO  fO  \N  TO  OQ  JR FS CT AT @U# >U+ =V2 <V: ;VA :VI 9WQ 8WZ 6Wc 5Wo 4W|3W�1W�0W�0W�0W�0V�1V�1U�1U��R  �R  �R  wR  lR  bR  XS  OT  IV  DW  @Y =Z ;Z 9[  8[' 7\/ 6\6 5\> 4\F 3]N 1]W 0]a /]l .]z ,]� +]�*]�*]�)]�*\�*[�+[�+Z��U  �U  U  rU  gV  ^V  TW  LY  E[  ?]  :_ 6` 4a 2b 1b# 0b+ /c2 .c: -cB ,cJ *dS )d] (di 'dv &d� %d� $d� #d� "d� #c� #b�$a�$a��X  �X  zY  nY  cY  ZZ  P\  H^  A`  :c  4f  /h
+ ,i *i )j (j& 'j. &k5 %k= $kF #kO "lY  le lr l� l� l� k� k� j� i� h� h� �\  �\  u\  i]  _]  V^  La  Cd  <g  5j  /m  (p #r !r  s s! s( t0 t8 t@ tJ tT u` un u~ u� t� t� t� s� r� q� q� �`  }`  oa  ea  [b  Qd  Hg  >k  7n  0q  )u  "x  { } } } ~" ~* ~1 ~: ~D N Z h x � ~� 
+~� 	}� 
+}� 
+|� {� z� �e  we  je  af  Vh  Lk  Bo  9s  1w  *z  #~  �  �  � � � � �# 
+�+ 	�3 �= �H �T �a �q ��  ��  ��  ��  ��  ��  ��  �� ~j  qj  gk  [l  Pp  Ft  <x  3}  *�  #�  �  �  �  � � �  �  �  �$  �,  �5  �@  �L  �Y  �i  �z  ��  ��  ��  ��  ��  ��  �� xp  mp  `r  Tu  Iy  ?~  5�  ,�  #�  �  �  �  
+�  �  �	  �  �  �  �  �%  �-  �7  �C  �P  �_  �q  ��  ��  ��  ��  ��  ��  �� sv  fw  Y{  M�  B�  8�  .�  $�  �  �  �  	�  �   �   �  �
+  �  �  �  �  �$  �-  �9  �F  �U  �f  �y  ��  ��  ��  ��  ��  �� l~  _�  R�  F�  ;�  0�  &�  �  �  �  �   �   �   �   �   �  �  �  �  �  �  �#  �-  �:  �I  �Z  �l  Ă  ė  ī  ļ  ��  �� e�  X�  K�  ?�  3�  (�  �  �  �  �   �   �   �   �   �   �   �   �  �	  �  �  �  �!  �-  �<  �M  �_  �s  ڊ  ۞  ۮ  ۺ  �� ^�  Q�  D�  8�  ,�   �  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �   �-  �>  �Q  �e  �z  �  �  �  � �  �  �  �  �  � ) � 5 � A � M � V � _ � f � m � t � y �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  � 
+ � 	 �  �  � $ � 1 � = � H � R � Z � b � i � o � u � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  �  � + � 7 � B � L � U � ] � d � j � p � u � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  � % � 1 � < � G � P � W � ^ � e � j � p � u � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  �  � + � 6 � @ � J � R � Y � _ � e � j � o � u � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � $ � / � : � C � L � S � Y � _ � d � j � o � u � { � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �
+  �  � 
+ �  �  � ( � 3 � = � E � M � S � Y � _ � d � j � p � v � ~ � � �� �� �� �� �� �� �� �� �� �� �� �  �  �  �  �  �  � � �  �, �6 �? �	G �	N �	T �
+Z �
+_ �
+e �
+k �
+r �y �� �� �� �� �� �� � }� |� {� {� {� �  �  �  �  �  �  � � � �% �/ �9 �A �H �O �U �[ �a �g �n u }~ |� z� x� w� u� t� s� q� q� q� p� �  �%  �%  �#  �!  �  �  � � � �) �3 �< �C ~J |P zV y\ wb vi tq sz q� o� n� l� k� j� i� h� h� g� g� �&  �*  �*  �*  �(  �%  �"  � �  |$ z. w6 v> tE rK qQ oX n^ le k m i v h!� f!� e"� c"� b#� a#� `$� `$� _$� _$� _$� �,  �/  �/  �/  �-  �*  �(  }$  z" v# s#  q$) o$2 m$: k%A j%G h%M f%T e%Z d&a b&i a&r _'} ^'� ](� [)� Z)� Z*� Y*� X*� X*� X*� X*� �1  �3  �3  �3  �2  /  y-  u*  r(
+ o( k) i)% g*- e*5 c*= b*C `*J _+P ^+W \+^ [,f Y,o X-z W-� V.� T.� S/� S/� R/� R/� R/� R/� R/� �6  �6  �6  �6  �5  y3  s1  o/  k. h- d. b.! `/* ^/1 \/9 [/@ Y/F X/M W0S V0[ T1c S1l R2w Q2� O3� N3� M3� M4�L4�L4� L4� L4� L3� �9  �9  �9  �9  |9  t7  n4  i3  e2 a2 ^2 \3 Z3& X3. V35 U4< S4C R4J Q4P P5X N5` M6j L6u K7� J7� I8� H8�G8�G8�G8�G8�G8�G8��;  �<  �<  �<  x<  p:  j7  d6  `6  \6 Y7 V7 T7# R7+ P72 O89 M8@ L8G K8N J9U I9^ H:h G:s F;� E;� D<� C<�B<�B=�B<�B<�B<�B;��=  �>  �>  >  u>  l=  f:  `9  [:  W: S; Q; N;  L;( K;/ I<6 G<= G<D F=K E=S D>\ C>f B?q A?~ @?� ?@� >@�=@�=@�=@�=@�>?�>?��@  �@  �A  |A  qA  h@  a<  [=  V>  R> N? L? I? G@% F@, D@3 C@: BAB AAI @AQ ?BZ >Bc =Co <C| ;C� :D� 9D�9D�8D�9D�9C�9C�9C��B  �C  �C  xC  nC  eC  ]@  V@  QB  MB IC FC DD BD" AD* ?E1 >E8 =E? <FG ;FO :FW 9Ga 8Gl 7Gz 6H� 5H� 4H� 4H� 3H� 4H� 4G� 4G� 5F� �D  �E  �F  uF  jF  aE  YD  QD  LF  HG  DG
+ AH ?I =I  <I' :J. 9J6 8J= 7KD 6KL 5KU 4L_ 3Lj 2Lw 1L� 0L� /M� .M� .M� .L� /L� /K� 0K� �G  �H  ~H  qH  fI  ]H  UH  LI  GJ  BK  ?L ;M 9N 7N 6O$ 5O+ 3O3 2P: 1PB 0PJ /QR .Q\ -Qg ,Qu +Q� *R� )R� )R� (R� )Q� )P� *P� *O� �J  �J  zK  mK  cL  ZL  QL  HM  CO  =P  9R 5S 3T 1T 0U! .U( -U/ ,V7 +V> *VF )VO (WY 'Wd &Wr %W� $W� #W� "W� "W� "W� #V� #U� $U� �M  �N  uN  iN  _O  VO  MP  ER  ?S  9V  3X  /Z +[ *[ (\ '\$ &\+ %\3 $]: #]C "]L !]V  ^a ^n ^~ ^� ^� ^� ]� ]� \� [� [� �Q  ~Q  pQ  dR  [R  RS  JT  AW  ;Y  5[  .^  (` $b "c !c d  d' d. d6 e> eG eQ e] ej ez e� e� e� e� d� c� b� b� �T  xU  kU  `V  WV  OW  FY  =\  6_  0b  )d  #g  j l l m m! m) m0 m9 nB nL nX ne nu n� n� m� m� l� k� k� j� �Y  rY  fY  \Z  TZ  J\  A_  9c  1f  *i  $l  o  r  u	 w w w w# w* w3 
+w< 	wG wR w_ wo w� w� v�  v� u� t� t� t� {]  m]  b^  Y^  N`  Ec  <g  3k  +n  $r  u  y  |   	� � � � �$  �-  �6  �@  �L  �Y  �h  �y  ��  ��  ��  ��  �  ~�  ~� tb  hb  ^b  Sd  Ig  ?k  6p  -t  %x  |  �  �  �  � �
+  �  �  �  �  �&  �/  �9  �D  �Q  �`  �q  ��  ��  ��  ��  ��  ��  �� nh  dg  Xi  Ml  Bq  8v  /{  &  �  �  �  �  �   �   �  �  �  �  �  �  �&  �0  �;  �H  �W  �h  �{  ��  ��  ��  ��  ��  �� jm  ^o  Qr  Fw  ;|  1�  '�  �  �  �  
+�  �   �   �   �  �  �  �  �  �  �  �&  �1  �>  �M  �]  �p  ��  ��  ��  ��  ��  �� du  Wy  K~  ?�  4�  )�  �  �  �  	�  �   �   �   �   �   �   �  �  �  �  �  �  �&  �3  �A  �R  �d  �y  ��  ��  ��  ��  �� \  P�  D�  8�  ,�  !�  �  �  	�   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �  �&  �5  �E  �W  �k  ӂ  ӗ  ө  Ҹ  �� U�  I�  =�  0�  %�  �  �  	�   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �'  �8  �J  �]  �r  �  �  �  � �  �  �  �  �  � & � 2 � = � H � R � Z � b � i � o � u � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  � ! � , � 8 � C � M � U � ] � d � j � p � u � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   � 
+ �  �  � ' � 2 � = � G � P � X � _ � e � j � p � u � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  � ! � - � 7 � A � J � R � Y � _ � e � j � o � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   � 
+ �  �  � & � 1 � ; � D � L � S � Y � _ � d � i � o � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �   � + � 5 � > � F � M � T � Y � _ � d � i � n � u � { � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �   �  �  �  � $ � . � 7 � @ � G � N � T � Y � ^ � d � i � o � v � ~ � � � � � � � � � � � � � � � �  �  �  � �  �  �  �  �  �  � �  �  � ' � 1 � 9 �A �H �N �T �Y �_ �d �k �r �z ~� }� {� y� x� v� u� u	� t
+� s
+� s
+� �  �  �  �  �  �  � � � �	  �	* �
+3 �; �B �I ~O }T {Z z` xg wn uv t� r� p� o� m� l� k� j� i� i� i� �  �  �  �  �  �  �  � � � ~$ {- y6 w= vD tJ sP qV p\ nb mj ks i} h� f� e� c� b� b� a� `� `� `� �"  �#  �$  �#  �"  �   ~  |  z w t q( o0 n8 l? kE iK hQ fX e^ cf bo `y _� ]� \� [� Z� Y� X� X� X� X� �'  �(  �(  �(  �'  {%  v#  s   q	 n k i# g, e3 c: bA `G _M ^T \[ [b Y k X v V!� U!� T"� S"� R#� Q#� Q$� Q$� Q$� Q#� �+  �,  �,  �-  |,  t*  o(  k%  i" f! c" a" _#' ]#/ \#6 Z#= Y$C W$J V$P U$W S%_ R%h Q&s O& N'� M(� L(� K)� K)� J)� J)� K)� K)� �.  �/  �0  �0  w/  o.  j+  e*  c' _' \' Z' X($ V(+ U(2 S(9 R)@ P)F O)M N)T M*\ L*e J+p I+| H,� G-� F-� E.� E.� E.� E.� E.� E-� �1  �2  �3  |3  r3  k1  e/  `-  ],  Y,	 V, T, R,  P,( N-/ M-6 L-< J-C I-J H.Q G.Y F/c E0m C0z B1� A1� A2� @2� ?2� ?2� @2� @2� @2� �3  �5  �5  y6  n5  f5  a2  \0  W0  T0 Q0 N0 L1 J1% H1, G12 F19 D1@ C2G B2O A3W @3` ?4k >5x =5� <6� ;6� ;6� :6� :6� ;6� ;6� ;6� �6  �7  �8  u8  k8  c7  ]6  W3  S4  O4 K4 I4 F5 E5" C5) A5/ @56 ?6= >6D =7L <7U ;8^ :8i 99v 89� 7:� 7:� 6:� 5:� 6:� 6:� 69� 79� �8  �9  ~:  r;  h;  _:  Y9  S6  N7  J8  F8
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+gP 	g] gl g} g� f� f� e� e� d� d� wQ  iR  ]R  TR  LS  CU  ;X  3[  +^  %a  d  g  j  m p p p p p$ p, p5  p?  pJ  pW  pe  pv  p�  o�  o�  n�  m�  m�  m� pV  cV  YV  QW  GX  >[  6_  .b  &f  j  m  p  s  v x x  y  y  y  z&  z/  z9  zD  zP  z_  zp  z�  z�  z�  y�  x�  x�  w� j[  _[  V[  L\  B`  9c  0h  (l   p  t  w  {  	~  �  �  �  �  �  �  �   �(  �1  �<  �I  �W  �h  �{  ��  ��  ��  ��  ��  �� e`  \`  Qa  Fd  <i  2m  )r  !w  {  �  �  �  �   �   �  �	  �  �  �  �  �   �)  �3  �@  �N  �_  �r  ��  ��  ��  ��  ��  �� ae  Vf  Jj  ?n  5t  +y  !  �  �  �  �   �   �   �   �   �  �  �  �  �  �  �   �)  �6  �D  �U  �h  �}  ��  ��  ��  ��  �� [l  Op  Cu  8{  -�  #�  �  �  �  �   �   �   �   �   �   �   �   �  �	  �  �  �  �   �+  �:  �K  �\  �q  ��  ��  ��  ��  �� Tv  H|  <�  1�  &�  �  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �   �.  �>  �P  �d  �z  ͑  ͤ  ʹ  �� M�  A�  5�  )�  �  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �!  �1  �C  �V  �k  �  �  �  � � 	 �  �  �  �  � ! � - � 8 � C � M � U � ] � c � i � o � t � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �  �  �  �  � ( � 3 � > � H � P � X � ^ � d � j � o � t � z �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  � # � . � 8 � B � K � R � Y � _ � e � j � o � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  �  � ( � 2 � < � E � M � S � Y � _ � d � i � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � " � , � 6 � ? � G � M � T � Y � ^ � c � h � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � & � 0 � 8 � @ � G � N � S � X � ] � c � h � n � t � | � � � � � � � � � � � � � � � � � � � � � � �   �   �  �   �   �  �  �  �   � ) � 2 � : � A � H � M � S � X � ] � c � i � o � w � � � � ~ � } � { � z � y � x � w � x � x � �
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+ x
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+ !H  I I I" I) J0 J8 JA JK KU Kb Kq K� K� K� K� K� J� J� I� ?  o@  aA  WB  NB  GB  AB  :C  2E  -G  (I  #K  M O P P P P% P, Q4 Q= QG QR Q_ Rm R~ Q� Q� Q� Q� P� P� O� yC  jD  ]D  SE  KE  DE  >F  6H  /J  )L  $O  Q  S  V	 W X X X  X( X0 X9 XC XN 
+XZ Xh Xy X� X� X� W� W� W� V� sF  dG  YH  PH  HH  AI  :J  2M  +P  %R   U  X  Z  ] ` 
+` 	` ` `# `+ `4 `= `I  `U  `c  `s  `�  _�  _�  _�  ^�  ^�  ^� lJ  _K  UK  LL  EL  =N  5P  .S  'V   Y  \  _  b  e g g  h  h  h  i&  i.  i8  iC  iO  i]  im  i�  i�  h�  h�  g�  f�  f� fO  ZO  QO  JO  AQ  8T  0W  ([  !^  b  e  h  k  n p	  p  q  q  r  s!  s(  s1  s<  tH  sV  sf  sy  s�  s�  r�  q�  q�  p� aS  VS  OS  EU  ;X  2\  *`  "d  h  l  o  r  v   y   z  z
+  {  |  }  ~  "  �*  �5  �A  �O  �_  �q  ��  ��  �  ~�  ~�  }� \X  TX  IZ  ?]  5a  ,e  #j  o  s  w  	{     �   �   �  �  �
+  �  �  �  �  �"  �,  �8  �F  �V  �h  �~  ��  ��  ��  ��  �� Y]  N_  Cb  8f  .l  $q  w  |  �  �   �   �   �   �   �   �   �  �  �  �  �  �  �#  �.  �<  �L  �^  �t  ��  ��  ��  ��  �� Sd  Gh  <m  1s  'y    �  �  �   �   �   �   �   �   �   �   �   �   �  �	  �  �  �  �#  �1  �B  �T  �i  ��  ��  ��  ��  �� Ln  @s  5z  *�  �  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �&  �7  �I  �]  �r  Ǌ  ȟ  ȯ  ȼ Fz  9�  .�  "�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �*  �<  �P  �e  �{  �  �  � �  �   �  �  �  �  � ( � 3 � > � H � P � W � ^ � d � i � o � t � y �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  � $ � . � 9 � B � K � R � Y � _ � d � i � n � t � y �  � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  �  � ) � 3 � = � E � M � S � Y � _ � d � i � n � s � y � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   � 
+ �  �  � # � - � 7 � ? � G � N � S � Y � ^ � c � h � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � ' � 0 � 9 � A � H � M � S � X � ] � b � g � m � s � { � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 
+ �  �  � ! � * � 3 � ; � A � H � M � R � W � \ � a � g � n � u � ~ � � � � � � � �  � ~ � } � } � } � } � �   �   �   �   �   �  �  �  �  � $ � - � 4 � ; � B � G � M � R � W  \ ~ b } h { p z y x � v � u � t � r � q � p � p � p � p � �  �  �  �  �  �   �  �  �  �   ' } . | 6 z < y B w G v L u R s W r ] q c o k n t l ~ k � i � h � g � f � e � e � e � e � �  �  �  �  �  �  ~ | y  w  u ! s ) q 0 o 6 n < l B k G j M i R h X f _ e g c p bz `� _� ^� \� \� [� [� [� [� �  �  �  �  |  v  s  r q n l i# g* f1 d7 c= bC aI _N ^U ]\ [	c Z	m X
+x W
+� V� T� S� R� R� Q� Q� Q� �  �  �  }  t  m  j  g  g f c a _% ], \3 [9 Z? XE WK VQ UY Sa Rk Pv N� M� L� K� J� I� I� I� I� �  �  �  v  m  f  b  _  ^ ^
+ [ Y W  U' T. S4 Q; PA OG NN LU K^ Ig Hs F� E� D� C� B� B� B� B� B� �  �   }!  q"  h"  a!  \  Y  W  U T Q O N# L* K0 J7 I= GC FJ ER CZ Bd Ap ?} >� =� <� ;� ;� ;� ;� <� �!  �#  x$  l%  c%  \$  W#  S   Q  O M K H G  E& D- C3 B9 @@ ?G >O =X <b :m 9{ 8 � 7!� 6!� 5!� 5!� 5!� 6!� 6!� �#  �&  t'  h(  _(  X'  S&  O$  L"  I   G 	 D B @  ? # > ) < / ;!6 :!= 9!D 8"L 7"U 6#_ 4#k 3$y 2%� 1%� 0%� 0&� /&� 0&� 0&� 1%� �&  (  q*  e*  \*  U*  O)  K(  H%  D$  A$ ?$ =$ ;$ 9$ 7$& 6$, 5%3 4%: 3&A 2&J 1'S 0'] /(i .)w -)� ,)� +*� **� **� +*� +*� ,)� �(  |*  m,  b-  Y-  Q-  L,  G+  C(  ?(  <( 9( 7( 5( 3( 2(# 0() /)0 /*7 .*? -+G ,+Q +,[ *,g )-u (-� '-� &.� %.� %.� &.� &.� '-� �+  x-  j.  _/  V/  N/  H.  C-  ?,  ;,  7,  4,	 2, 0- .- --  +-' *.- *.5 )/= (/E '0N &0Y %1e $1s #1� "2� !2� !2�  2� !2� "1� "1� �-  u/  g0  \1  S1  K1  E1  @0  ;0  60  30  01 -1 +1 )2 (2 '2$ %3+ %32 $3: #4C "4L !5W  5c 5q 6� 6� 6� 6� 6� 6� 6� 5� �0  q2  c3  Y4  P4  I4  B3  =3  73  14  .5  +5 (6 %7 $7 "7 !8"  8( 80 87 9@ 9I :T :` :n : ;� ;� ;� ;� :� :� 9� }2  m4  `5  U6  M6  F6  @6  :6  46  .8  *9  &:  #;  < = = = >% >- >4 >= ?G ?Q ?^ ?l @| @� @� @� @� ?� ?� >� y5  i7  \8  R9  J9  C9  =9  79  1:  +<  '=  "?  A B C C D D" D) D1 D: EC EN E[ Ei Ey E� E� E� E� E� D� D� t9  e:  X;  O;  G<  @<  :<  4<  .>  (@  #B  D  F  H J J J K K% K- K6 K@ KJ 
+KV 	Kd Kt K� K� K� J� J� J� I� n<  `=  T>  K>  D>  =>  7?  1@  *B  $E  G  I  L  N Q Q 
+Q 	Q Q" Q) Q2 R; RF RR  R_  Ro  R�  Q�  Q�  Q�  P�  P�  P� h@  [A  PA  HA  AA  ;B  4C  -E  &H   K  M  P  S  U 
+X
+ X X  Y  Y  Y%  Y-  Y6  YA  YM  ZZ  Zi  Y|  Y�  Y�  X�  X�  W�  W� cD  VE  ME  EE  ?E  7G  /I  (L  "O  R  U  X  Z  	] _	  `  `  a  a  b   b'  b1  b;  bG  bU  cd  bv  b�  b�  a�  a�  `�  `� ]H  RI  JH  CH  :J  2M  *P  #S  W  Z  ]  `  c  f  g  h  i  j  k  l  m"  m*  m4  m@  mN  m]  mo  m�  l�  l�  k�  k�  j� XM  NM  HL  >N  5Q  ,T  $X  \  `  d  g  k  n   p   r  r  s  u  v  w  x  y#  z-  z9  zG  zV  yh  z|  y�  x�  x�  w�  w� TQ  LQ  BR  8U  /Y  &^  b  g  k  o  s   w   z   |   ~     �  �
+  �  �  �  �  �%  �0  �>  �M  �_  �s  ��  ��  ��  ��  �� RV  GW  <Z  2_  (d  i  o  t  
+y  }   �   �   �   �   �   �   �   �  �  �  �  �  �  �'  �4  �D  �V  �j  ��  ��  ��  ��  �� K\  @`  5e  +j  !q  w  }  	�  �   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �  �*  �9  �K  �_  �w  ��  ��  ��  �� Ef  9k  .q  #x    �  	�   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �  �.  �@  �T  �k  ��  ��  ��  �� >r  2x  '�  �  �  
+�   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �#  �5  �I  �^  �u  ی  ܟ  ܫ �   �   �   � 	 �  �  � $ � / � 9 � C � K � R � Y � _ � d � i � n � s � y �  � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  �  � * � 4 � = � E � M � S � Y � ^ � c � h � m � s � y � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � $ � . � 7 � @ � G � N � S � Y � ^ � c � h � m � s � y � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � ( � 1 � : � A � H � N � S � X � \ � a � g � l � s � z � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � " � + � 3 � ; � B � H � M � R � W � [ � a � f � m � t � } � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � % � - � 5 � < � B � G � L � Q � V � [ � ` � g � n ~ w } � { � z � x � w � v � v � v � u � u � �   �   �   �   �   �  �  �  �  �   � ' � /  5 } < | A { F y K x P w U v [ t a s i q q p { n � m � k � j � j � i � i � i � i � �   �   �  �  �   �     {  y  w  v " t ) s 0 q 6 p < o A m F l K k P j V h \ g d e l d v c � a � ` � _ � ^ � ^ � ^ � ] � ] � �  �	  �  �  |
+  w  t  q 	 o  m  k  i # h * g 1 e 6 d < c A b F ` L _ R ^ X ] _ [ h Z r X ~ W � V � U � T � T � S � T � T � �  �  �  z  r  l  i  g	 f d  b  `  ^ % ] + \ 1 Z 7 Y < X B WG VN UT S\ Re Qo O{ N� M� L� K� J� J� J� J� �  �  ~  s  j  d  `  ^  ] ]	 Z X V  U' S- R3 Q8 P> O	D N	J L	Q K
+Y J
+b Hm Gz F� D� C� B� B� B� B� B� �  �  x  l  c  ]  Y  V  T  T S Q O M" L( K. J4 I: GA FG EO DW Ba Al ?y >� =� ;� ;� :� :� :� ;� �  �  s  g  ^  X  S  P  N  L L J H F E$ D* B0 A7 @= ?D =L <T ;^ 9i 8v 7� 6� 4� 4� 3� 3� 4� 4� �  |  n  c   Z   S   N  J  H  F  E C A ? >  =' ;- :3 9: 8A 7I 5Q 4[ 3f 2s 0� /� .� -� -� -� .� .� �  x   j"  _#  V#  O"  J!  F   C  A  ? = ; 9 7 6# 5) 40 36 1> 0F /O .Y -d ,q +� *� )� ( � ' � ' � ( � )� �   t#  g$  \%  S%  L%  G$  B#  ?!  =  :  7	 5 3 1 0  /& .- -3 , ; + C *!L )!V ("b &"o %# $#� ##� "$� "$� "$� #$� $#� �#  q%  c&  Y'  P(  I'  C'  ?&  ;$  8"  5"  2" 0" ." ," *" )"# (#* '#1 &$8 %%A $%J #&T "&` !'m  '} '� (� (� (� (� (� '� ~%  n'  `)  V)  M*  F*  A)  <(  7'  4&  0&  -& +' (' '' %' $'! #(' "(. !)6  )> *H *R +^ +k +{ ,� ,� ,� ,� ,� +� +� z'  j*  ]+  S,  J,  C,  >+  9+  4*  0*  +*  )+  &+ #, ",  , , -% -, -3 .< .E /P /\ /i 0y 0� 0� 0� 0� 0� 0� /� v*  g,  Z-  P.  H.  A.  ;.  6-  1-  ,-  '/  $/  !0 1 1 2 2 2" 2) 31 39 3C 4M 4Y 4g 5w 5� 5� 5� 5� 4� 4� 4� r,  c.  W0  M0  E0  >0  80  30  /0  )1  $2  !3  5 6	 7 7 8 8 8& 8. 96 9@ 9K 9W :d :t :� :� 9� 
+9� 
+9� 9� 8� n/  _1  S2  J3  B3  ;3  63  12  ,3  '4  !6  8  9  ; = > > > ># >* >3 >< ?G 
+?R ?` ?o ?� ?� ?� >� >� >� >� i3  [4  P5  G5  ?5  95  45  .5  )7  #8  ;  <  ?  A C
+ D 
+D 	D D  D' D/ D8 EB EN  E[  Ej  E|  E�  D�  D�  D�  D�  C� d6  W7  L8  C8  <8  78  18  +9  %;   =  @  B  D  G I	 J K K  K  K#  K+  K4  K>  LI  LW  Lf  Lw  K�  K�  K�  J�  J�  J� _:  R;  H;  @;  :;  4;  .<  '>  "A  C  F  I  K  N P Q  Q  R  S  S  S&  S/  S9  SE  SR  Sa  Sr  S�  R�  R�  Q�  Q�  Q� Y>  N>  E>  >>  8>  0@  )B  #D  G  J  M  P  S  U  W  X  Y  Z  Z  [  \!  \*  \4  \?  \M  \[  \l  \�  [�  [�  Z�  Z�  Y� TB  JB  BB  <B  4C  ,F  %I  L  O  S  V  
+Y  [   ^   `  a  b  c  d  e  f  g#  g-  g9  gF  gU  gf  gz  f�  e�  e�  d�  d� OF  GF  @E  7G  /J  &M  Q  U  Y  \  `  c   f   h   j   k  l  m  o  p  r  s  t&  t2  t?  tN  s_  tr  s�  r�  q�  q�  p� LJ  EJ  ;K  2N  )R   V  [  _  d  h   k   o   r   u   v   w   y  z  |
+  ~  �  �  �  �)  �6  �E  �V  �j  ��  ��  ��  ��  �� JN  ?P  5S  +W  "\  b  g  l  q   u   y   }   �   �   �   �   �   �   �  �  �  �  �  �   �,  �;  �L  �`  �v  ��  ��  ��  �� DU  9Y  /]  $c  i  o  u  {   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �#  �1  �C  �V  �m  ��  ��  ��  �� >^  2c  'j  p  x    �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �	  �  �  �&  �8  �K  �a  �z  ��  ��  �� 7j  +p   x  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �,  �@  �W  �n  Ԇ  ԛ  ӫ �   �   �   �  �  �  �   � * � 4 � = � F � M � S � Y � ^ � c � h � n � s � y � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  �  � % � . � 8 � @ � G � N � T � Y � ^ � c � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �   � ) � 2 � : � B � H � N � S � X � ] � b � g � l � s � { � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � # � , � 4 � < � B � H � M � R � W � [ � ` � f � l � t � } � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � & � . � 5 � < � B � G � L � Q � U � Z � ` � f � m � v � � � � � �  � } � | � | � | � | � | � �   �   �   �   �   �  �  �  �  �   � ( � / � 6 � < � A � F  K } O | T { Z y ` x g v p u z s � q � p � o � n � n � n � n � n � �   �   �   �   �   �   �  ~  |  {  y " x ) w 0 u 6 t ; r @ q E p J o O m T l [ k b i j h t f � e � c � b � a � a � a � a � a � �   �   �   �   ~   y   u  q  o  m  l  k $ k * i 0 h 6 f ; e @ d E c J a O ` V _ ] ] e \ o Z z Y � X � W � V � V � V � V � V � �  �  �  z  r  l  i  g  d  c  a  `  _ % ^ + ] 0 [ 6 Z ; Y @ X E W K V Q U X S a R j P v O � N � M � L � L � L � L � L � �	  �  |  p  h  b  _
+  ] \	 Z  X  W  V   U & S + R 1 Q 6 P ; O A N G M M K U J ] I g G s F � E � D � C � C � C � C � C � �  �  t  i  `  Z  V  T  S
+ S Q O N L! K' J, I2 H7 G= EC DJ CQ BZ @d ?p >~ =� <� ;� :� :� :� :� �  |  n  b  Z  T  P  M  K  K J
+ I G E D# B( A	. @	3 ?	9 >
+@ =
+G <
+O :X 9c 8o 6~ 5� 4� 3� 2� 2� 2� 2� �  w  i  ^  U  O  J  G  E  C C B @ ? = <$ ;* 90 87 7= 6E 5M 3W 2b 1n /} .� -� ,� +� +� +� ,� �  r  d  Y  Q  K  F  B  ?  >  < ;
+ : 8 7 5! 4' 3- 23 0: /B .K -T +_ *l ){ (� '� &� %� %� %� &� ~  n  `  V  M  G  B  >  :  8  7  5 4 2 0 / -# ,* +0 *7 )? (H 'R &] $j #y "� !�  � � �  �  � z  j  ]  S   J   D   >  :  7  4  2  0 . , * ) '  && %- $5 #= "F !P  [ h w � � � � � � � w  g   Z!  P"  H"  A"  ;"  7!  3   0  -  +  ( & % # ! !$  * 2 : C  M !Y !f !u "� "� "� "� "� !� !� s   d"  W#  M$  E%  >$  9$  4#  0"  ,"  )!  &!  $! "!  ! ! " "! "( #/ #8 $A $K %W %d &s &� &� &� &� &� %� %� p"  a$  T&  J&  B'  <&  6&  1%  -%  )$  &$  "%  % &
+ & ' ' ' '% (- (5 )> )I )U *b *q *� *� *� *� *� *� )� l$  ]&  Q(  H(  @)  9(  4(  /(  +'  ''  "(  )  *  + + , , , -# -* -2 .< .F .R ._ /n / 
+/� 	/� 	.� .� 	.� 
+.� h'  Z)  N*  E+  =+  7+  1*  -*  )*  $*   +  -  .  / 1
+ 2 2 2 2  2' 2/ 38 
+3B 	3N 3[ 4j 4{ 3� 3� 3� 3� 3� 2� d*  V,  K-  B-  :-  4-  /,  +,  &,  "-  /  1  2  4 6	 8 
+8 	8 8 8$ 8, 84 8> 9J  9W  9e  9w  9�  8�  8�  8�  8�  7� _-  R.  H/  ?0  8/  2/  -/  )/  $0  1  3  5  7  9 ; = > >  >  >!  >(  >1  ?;  ?F  ?S  ?a  ?s  ?�  >�  >�  =�  =�  =� Z0  N2  D2  <2  52  01  +1  &2   4  6  8  ;  =  ? A C  C  D  E  E  E$  E-  F6  FB  FN  F]  Fn  E�  E�  D�  D�  C�  C� U4  J5  A5  95  34  .4  (5  "7  :  <  ?  A  D  F H  I
+  J  K  L  M  N   N(  N2  M=  NJ  NX  Mi  M}  L�  L�  K�  K�  J� P8  F8  =8  78  17  *9  $;  =  @  C  F  I  K  N   P  Q  R  S  T  U  V  W#  W,  W8  WD  WR  Vc  Vw  V�  U�  T�  S�  S� K<  B<  ;;  5;  -<  &?  B  E  H  K  O  Q   T   W   X  Z  [  \  ]  _  `  b  b&  b1  b>  aL  a]  ap  `�  `�  _�  ^�  ]� G@  ??  :?  1@  )C  !F  J  N  Q  
+U  X   [   ^   a   c   d  e  g  h  j  l  n  o   o*  o6  nE  nU  nh  m  m�  l�  k�  j� DD  >C  5D  +G  #K  O  T  X  \  `   d   g   k   m   o   p   r   t  u  w
+  y  |  ~  "  .  =  ~M  }a  }w  |�  {�  z�  y� CG  9I  /L  %P  U  [  `  e   j   n   r   v   y   |   ~      �   �   �   �  �  �  �  �  �%  �3  �D  �W  �m  ��  ��  ��  �� =N  2Q  (V  \  b  h  n   t   y   ~   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �)  �:  �M  �b  �{  ��  ��  �� 6W  ,\  !b  i  p  w   ~   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �0  �C  �X  �p  ��  ��  �� 0b  %i  p  x  	�   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �%  �8  �N  �e  �~  ͖  ̩ �   �   �   �  �  �  �  � % � / � 8 � @ � H � N � T � Y � ^ � c � h � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �   � ) � 3 � ; � B � H � N � S � X � ] � b � g � m � t � { � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � $ � , � 5 � < � C � H � N � R � W � \ � a � g � m � t � } � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ' � / � 6 � < � B � G � L � Q � U � Z � ` � f � n � v � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ! � ( � 0 � 6 � < � A � F � K � O � T � Z � `  g ~ o | z z � x � w � u � t � s � t � t � t � �   �   �   �   �   �   �  �  �  �  � #  * } 0 { 6 z ; x @ w E u I t N s T q Z p a n i m s k  i � h � g � f � e � f � f � g � �   �   �   �   �   |   v  t  r  q  p  p $ n * m 0 k 5 j : i ? h D g I e N d T c [ a c ` m ^ y ] � [ � Z � Y � Y � Y � Z � Z � �   �   �   {   s   n   j  g  e  d  c  c  b % a * _ 0 ^ 5 ] : \ > [ D Y I X O W V V ^ T h S s Q � P � O � N � N � N � N � O � �   �   {  p  h  b  _   ]  [  Y  X  W  W   V % U * S 0 R 4 Q 9 P ? O D N K M R K Z J c I o G | F � E � E � D � D � D � E � �  �  q
+  f
+  ^
+  Y	  U  T  R  P  O  N  M  L   K & J + I 0 H 5 G : F @ E F C N B V A _ @ k > x = � < � < � < � ; � ; � ; � �
+  x  j  _  W  Q  M  K  J I	 H  F  E  D  C ! B & A + ? 1 > 6 = < < C ; J : R 9 \ 8 h 6 u 5 � 4 � 4 � 3 � 3 � 3 � 3 � �  q  d  Y  Q  K  G  D  B  A A ? > < ; :" 9( 8- 72 69 5? 4G 3P 1Z 0f /s .� -� ,� +� +� +� +� }  l  _  T  L  F  B  >  <  : : :
+ 8	 6 5 4	 2	$ 1	) 0	/ /
+6 .
+= -
+E ,N +Y )e (s '� &� %� $� #� #� #� x  h  [  Q  H  B  =  9  7  5  3 3 2 0 / - ,! +' *- )4 (; 'D %N $Y #e !s  � � � � � � � s  d  W  M  E  ?  :  5  2  0  .  - ,
+ + ) ( & %$ $* #1 "9 !B  K V c q � � � � � � � p  `  T  J  B  <  6  2  /  ,  *  ( & % # "   ! ' . 6 ? I T a p � � � � � � � l  ]  Q  G  ?  9  4  /  +  (  &  $  "  
+     $ , 4 = G R _ n  � � � � � � i  Z  N  E  =   6  1  -  )  %  #           " ) 1 : E P  ]  l  |  �  �  �  �  � � e  W  L!  B!  :!  4!  /!  *   &  #              ! ! " " "& #/ #7 #A $M $Y 
+$g 	$x $� $� $� $� #� #� b  T!  I#  @#  8#  2#  ,#  ("  $!  !!  !  !  #  $ % & ' ' ' '# 
+'+ 	(4 (> (I (U )d )t )� )� (�  (� (� '� ^"  Q$  F%  =%  5%  /%  *$  &$  "#  #  $  %  &  ( ) , 
+, , , ,! ,( -0 -: -E  -R  .`  .q  -�  -�  -�  ,�  ,�  ,� Z$  M&  C'  :'  3'  -'  (&  $&  !&  &  '  )  +  , . 	0 1 1 2  2  2%  2-  26  3B  3N  3]  3m  3�  2�  2�  1�  1�  1� V'  J)  ?*  7*  0*  +)  '(  #(  )  *  ,  .  0  1 
+4 5 6  7  8  8  8"  8*  93  9>  9J  9Y  9i  9}  8�  8�  7�  7�  6� Q+  F,  <,  4,  .,  *+  %+   ,  -  /  1  3  5  	7 : ;
+  <  =  >  ?  @  @%  @/  @:  @F  @T  @e  ?x  ?�  >�  >�  =�  =� M.  B/  9/  2/  -.  (.  "/  0  2  5  7  :  	<  >   A  B  C  D  F  G  H  H!  H*  H5  HA  HO  H`  Gs  G�  F�  E�  E�  D� H2  >2  62  01  +1  %2  4  6  9  <  ?  B  D   F   H  J  K  L  N  O  Q  R  R%  R0  R<  QJ  QZ  Qm  P�  O�  N�  M�  M� C6  ;6  45  /4  '5  !8  ;  >  A  D  G  J   M   O   Q   S  T  U  W  Y  [  ]  ]  ]*  ]6  \D  \T  [g  [~  Z�  Y�  X�  W� ?9  89  38  +9  #<  ?  C  G  J  N   Q   T   W   Z   \   ]   _   `  b  d  f  h  k  k#  j.  j<  jM  i_  hu  g�  f�  e�  d� ==  7<  .=  %@  D  I  M  
+Q  U   Z   ]   `   c   f   h   j   k   m   o  q  t
+  v  y  {  {'  z5  yE  xY  xm  w�  v�  u�  t� <A  2B  (E   J  N  T  
+Y  ^   c   g   k   o   r   u   w   y   {   }      �   �  �	  �  �  �  �+  �;  �N  �c  �|  ��  ��  �� 6G  ,K  "O  U  [  
+a  g   m   r   w   {      �   �   �   �   �   �   �   �   �   �  �  �  �  �!  �1  �D  �Y  �p  ��  ��  �� 0P  %U  [  b  i  p   w   }   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �'  �9  �N  �e  �~  ��  �� )[  b  i  q  y   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �/  �D  �[  �s  ˍ  ʡ �   �   �   �   �  �  �  �   � * � 3 � ; � C � I � O � T � Y � ^ � c � h � n � u � } � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � $ � - � 6 � = � C � I � N � S � X � ] � b � g � n � v �  � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 	 �  �  �  � ' � / � 7 � = � C � H � M � R � V � [ � a � g � o � x � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � " � ) � 0 � 7 � = � B � G � K � P � U � Z � a � h � p � { � � � �  � } � | � | � | � x � v � �   �   �   �   �   �   � 	 �  �  �  � # � * � 0 � 6 � ; � @  E ~ J | O { T z Z x a v i u s s � q � o � n � m � l � l � k � i � �   �   �   �   �   �   |  z  x  x  x  w $ u * s 0 q 5 p : n ? m D l I k N j T h [ g c e m d x b � ` � _ � ^ � ^ � ^ � ^ � ] � �   �   �      w   q   m   j  i  h  g  g  g % e * c / b 4 a 9 ` > _ C ^ H ] N [ U Z ] X g W r U � T � S � R � Q � Q � R � R � �   �   |   q   i   d   `   ^  \  [  [  Z  Z  Y % W * V / U 4 T 8 S = R C P I O P N X M b K m J z I � H � G � G � F � G � G � �   ~   p   f   ^   Y   V   S  R  P  O  O  N  N   M % L * J . I 3 H 8 G > F D E K D S C ] A h @ u ? � > � = � = � = � = � > � �   u  h  ]  U  P  L  J  I  G 
+ F  E  E  D  C   B % A * @ / ? 4 > : = @ ; G : O 9 Y 8 d 7 q 6 � 5 � 4 � 4 � 4 � 4 � 5 � ~  m	  `  V  N  H  D
+  B  @ ? >  =  <  ;  ;  : ! 9 % 7 * 6 0 5 5 4 < 3 C 2 L 1 U 0 ` / m . } - � , � , � , � , � , � w
+  g  Z  P  I  C  >  ;  9  8	 7 6 5 4  3  2  1 " 0 ' / , . 2 - 8 , @ + I * R ) ] ( k 'z &� % � % � % � % � % � r  b  V  L  D  >  9  6  3  1 0 0
+ / . , + * )# () '/ &5 %= $F #P "\ !i  y � � � � � � m  ^  R  H  @  :  5  1  .  ,  * * ) (	 '	 % $ #	  "	& !	,  
+3 
+; D O [ i y � � � � � � i  Z  N  E  =  7  1  -  *  (  & $ # # "     # * 2 : D P \ j { � � � � � � e  W  K  B  :  4  /  *  '  $  "     	     ! ( 0 9 C N Z i y � � � � � � b  T  I  ?  7  1  ,  (  $  !            & - 6 A L W e u � 
+� 	� � � 	� _  Q  F  =  5  /  *  %  "         	     # * 3 < G 
+S 	a q � � � � � � \  N  C  :  3  ,  '  #                 
+ 	' / 9 C P ^ n �  �  �  �  �  � X  K  A  8  0  *  %  !             
+    ! ! !$ ", "5  "@  #M  #Z  #k  #~  #�  "�  "�  !�  !� U  H  >   5   .   (   #                " 
+$ % % &  &  &!  ')  '2  '=  'I  (W  (g  '{  '�  '�  &�  &�  %� Q   E!  ;"  2"  ,"  &!  "!             "  #  % 
+& (
+ )  +  ,  ,  ,  ,&  -/  -9  -F  -T  -d  -w  ,�  ,�  +�  +�  *� M"  A$  8$  0$  )$  $#  !"  "  "  #  $  &  (  
+* , .	  /  0  2  3  3  3"  3+  36  3B  3P  3`  3s  2�  2�  1�  0�  0� I%  >&  4'  -'  (&  #%  $  %  &  (  *  ,  
+.  0 2  4  5
+  7  8  :  :  :  :'  :2  :>  :L  :\  :o  9�  8�  8�  7�  6� D)  :)  1)  +)  &(  "'  (  )  +  .  0  	2  5  7   9  ;  <  >  ?  A  C  C  C#  C.  C9  CG  BW  Bj  A�  @�  ?�  >�  >� ?,  6,  /,  *+  %*  +  -  /  2  5  8  :   <   ?   A   C  E  F  H  J  L  M  M  M(  M4  LB  LQ  Kd  K{  J�  I�  H�  G� ;0  3/  -/  (-  "/  1  4  7  :  =  @   C   F   H   J   L   N  O  Q  S  U  X  Y  X"  X.  W<  WK  V^  Vs  U�  T�  R�  R� 83  12  ,1  %2  5  8  <  @  D   G   J   M   P   S   U   W   Y   Z   \  ^  a  d  f  g  f'  f4  eD  dW  dk  b�  a�  `�  ^� 57  05  (7   :  =  B  F  J   O   S   V   Y   \   _   a   d   e   g   i   l  n  q  t  w  w   v-  v=  uO  tc  s{  r�  p�  o� 5:  +;  "?  C  H  M  R   W   \   `   d   h   k   n   q   s   u   w   z   |      �  �
+  �  �  �$  �3  �E  �[  �r  ��  ��  �� /@  %D  I  N  T  Z   a   f   k   o   t   y   }   �   �   �   �   �   �   �   �   �   �  �	  �  �  �)  �;  �P  �g  ��  ��  �� )I  N  T  [  b   i   p   w   }   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �
+  �  �  �0  �E  �\  �t  ��  �� "T  [  b  j   s   {   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �&  �:  �Q  �h  ˁ  ʖ �   �   �   �   �  �  �  �  � % � . � 6 � > � D � J � O � T � Y � ^ � c � i � p � x � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 	 �  �  �   � ( � 0 � 7 � > � D � I � N � S � W � ] � b � i � q � z � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � " � * � 1 � 8 � = � C � H � L � Q � V � \ � b � i � r � } � � � � � � � � � � � �  � z � x � �   �   �   �   �   �   � 	 �  �  �  � $ � + � 1 � 7 � < � A � F � K � P � U � [ � b � k ~ u | � z � x � w � v � u � r � n � l � �   �   �   �   �   �   �  �  �  �  �  � % ~ + | 1 z 6 y ; w @ v D u I s O r U p \ o d m n l z j � h � g � f � e � d � a � ` � �   �   �   �   }   w   s   p  o  o  o  o  m % k * i 0 h 4 g 9 f > e C c H b N a U _ ^ ^ g \ s [ � Y � X � W � W � W � V � T � �   �      u   l   h   d   a  `  _  _  _  _  ] % \ * [ / Y 3 X 8 W = V C U I S P R X Q a P m N { M � L � K � J � J � J � J � �   �   r   g   _   Z   W   U  S  R  R  R  R  Q  O $ N ) M . L 3 K 8 J = I C H J F R E \ D g C u B � A � @ � @ � ? � @ � @ � �   t   g   ]   U   O   L   J   H  G 
+ G  F  F  F  E  D $ C ) B - A 3 ? 8 > > = E < N ; W : b 9 o 8 � 7 � 6 � 6 � 6 � 6 � 6 � |   k   ^  T  M  G  C  A   ?  >  =  =  <  <  <  :  9 $ 8 ) 7 . 6 3 5 : 4 A 3 I 2 S 1 ^ 0 k / { . � - � - � - � - � . � s  d  W  M  F  @  ;  8  7  6  5  4  4  4  3  2  1   0 $ / ) . / - 6 , = + E * O ) Z ( g ' w & � & � % � % � % � & � m  ^	  R  H  @  :  6  2
+  0  . . - 
+ ,  ,  +  *  )  (   ' % & + % 2 $ 9 # B " K " W ! d   s  �  �  �  �  �  � h	  Y  M  C  <  6  1  -  *  (  '	 & & % $ $ " ! ! "   (  . 6 ? I T a p �  �  �  �  �  � c  U  I  @  8  2  -  )  &  #  "    		       % + 3 < F R _ n � � � � � � _  Q  F  <  5  /  *  &  "        
+ 
+ 	 	 	 	 	" 
+) 
+1 
+: E Q _ n � � � � 
+� 
+� \  N  C  :  2  ,  '  #         	        ( 0 ; F Q ^ m 
+ 	� 	� � � � X  K  @  7  0  )  %  !         	 
+      % - 6 
+A 	M Z j | � � � � � U  I  >  5  -  '  "           	 
+    
+ 	 	" * 3 > J X g z  �  �  �  �  � R  F  ;  2  +  %  !           	 
+ 
+     ' 0 ;  G  U  d  w  �  �  �  �  � O  C  9  0  )  #              
+
+        $  -  8  D  R  b  u  �  �  �  �  � L  @  6  -  &  !             
+ 	           !  !"  !*  !5  "A  "O  "_  "r  !�  !�   �  �  � H  =  3  +  $              
+  !  "
+  $  &  &  &  '  ''  '2  '>  'K  '\  'n  &�  &�  %�  $�  #� D  9  0  (  #                
+!  " $  &  (  *  +  -  -  -  -$  ..  .:  .H  -X  -j  -�  ,�  +�  *�  )� @   6!  -!  &!  !           !  "  
+$  &  (   +  -  /  0	  2  4  5  5  5   5*  56  5C  5S  4f  4|  3�  2�  1�  0� <#  2$  *$  $#   "  !  !  #  %  '  	)  +  .   0   2   4  6  8  :	  <  >  >  >  >&  >1  >?  =N  =a  <w  ;�  :�  9�  8� 7'  /'  (&  #%  $  %  &  (  +  	.  0   3   5   8   :   <   >  @  B  D
+  F  I  I  H!  H,  G:  GI  F[  Eq  D�  C�  B�  A� 4*  ,*  '(  "'  (  *  -  0  	3  6   9   <   >   A   C   F   H   J   L  N  P
+  S  T  T  S'  S4  SC  RU  Qj  P�  O�  M�  L� 0-  +,  &+  ,  .  2  5  9  =   @   C   F   I   L   N   Q   S   U   W   Y  \  _
+  b  c  c  b,  a<  `N  _b  ^{  \�  [�  Y� /0  */  "0  3  7  ;  ?  D   H   L   O   R   U   X   [   ]   `   b   d   f   i   m  p  t  t  s%  r4  rE  pY  oq  m�  k�  j� .3  %5  8  <  A  G   L   Q   U   Y   ]   a   e   h   k   m   o   r   t   w   z   ~   �  �  �  �  �+  �=  �R  �g  ��  �  ~� ):   =  B  H  N   T   Z   `   d   i   n   r   v   z   }   �   �   �   �   �   �   �   �   �  �  �  �!  �3  �G  �^  �w  ��  �� #C  H  N  	U   \   c   j   q   v   {   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �(  �<  �R  �j  ��  �� N  T  \  d   l   t   |   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �1  �H  �_  �v  Ȏ                 	
+ !"$%&()*+-./02346789;<=>@ABDEFGIJKMNOPRSTUWXY[\]^`abcefgijklnopqstuwxyz|}~���������������������������������������������������������������������������������������������������������������������������������������������                	
+ !"$%&()*+-./02346789;<=>@ABDEFGIJKMNOPRSTUWXY[\]^`abcefgijklnopqstuwxyz|}~���������������������������������������������������������������������������������������������������������������������������������������������                	
+ !"$%&()*+-./02346789;<=>@ABDEFGIJKMNOPRSTUWXY[\]^`abcefgijklnopqstuwxyz|}~��������������������������������������������������������������������������������������������������������������������������������������������� 	
+ !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~��������������������������������������������������������������������������������������������������������������������������������mft1    !                                   	
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+�  �   �   �   �   �  �  �  �  �  �!  �,  �:  �J  �]  �r  �  �  ��  ��  ��  ��  �� z�  k�  \�  M�  ?�  0�  #�  �  �  �   �   �   �   �   �   �   �   �  �	  �  �  �  �+  �:  �M  �a  �y  ��  ��  ��  ��  ��  �� m�  ^�  O�  @�  1�  "�  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �)  �;  �O  �f  �  ��  ��  ��  ��  �� � �  �  �  � " � + � 8 � F � S � ^ � i � r � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  � & � 4 � B � N � Z � d � m � u � } � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  � " � . � < � I � T � _ � h � p � x �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �	 � �  �  �  � ( � 6 � C � N � Y � b � k � r � y � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  � " � / � < � H � S � \ � e � l � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �
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+c �
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+ 5h 4h 3i$ 2i- 1i5 /j= .jF -jO ,jY +ke )kr (k� &k� $k� #k� "j� #i�#g�#f�#f�$e��`  �`  �`  v_  j_  a`  W`  Mc  Df  =h  6k  0n ,p *q )q (q& 'r/ &r7 %r@ $rJ "rT !s`  sm s} s� s� s� s� q� p� o� n�m��f  �e  d  qd  fd  ]d  Rf  Hi  ?l  7o  0s  )v  "y { { { {( {0 |9 |C |N |Z |g }x }� }� }� }� {� y� x� w� w� �k  �j  zi  mi  bi  Wj  Lm  Cp  9t  1x  ){  "  �  �	 � � � �( �1 �; �F �S �a 
+�q 	�� �� �� �� �� �� �� 	�� 	�� �q  �o  tn  in  \o  Pr  Fu  <y  2}  *�  "�  �  �  � 
+� � � �  �)  �3  �>  �K  �Y  �i  �{  ��  ��  ��  ��  ��  ��  ��  �� �w  }u  pt  bu  Ux  I|  ?�  4�  +�  "�  �  �  �  	�  �  �  �  �  �"  �+  �5  �B  �P  �_  �q  ��  ��  ��  ��  ��  ��  ��  �� �}  x|  i|  [  N�  A�  6�  ,�  #�  �  �  �  �   �   �  �
+  �  �  �  �"  �+  �7  �E  �T  �f  �{  ��  ��  ��  ��  ��  ��  �� ��  q�  a�  S�  F�  9�  .�  #�  �  �  �  �   �   �   �   �  �  �  �  �  �!  �+  �8  �H  �Z  �n  ��  ��  ��  ��  ��  ��  �� y�  h�  Y�  K�  =�  1�  %�  �  �  �  �   �   �   �   �   �   �   �  �  �  �  �  �+  �:  �L  �`  �w  ؒ  ج  ��  ��  ��  �� p�  `�  Q�  C�  5�  (�  �  �  	�   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �*  �<  �Q  �g  �  �  �  ��  ��  �� g�  X�  I�  :�  *�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �,  �?  �U  �n  ��  ��  ��  ��  �� �  �  �  �  �  � % � 2 � ? � K � V � ` � h � p � x �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  �   � - � : � F � Q � [ � c � k � s � y � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  � 
+ �  � 	 �  �  � ( � 5 � @ � K � U � ^ � f � m � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �   �  �  �  � " � . � : � E � O � X � ` � g � m � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � ' � 3 � > � I � R � Y � a � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �   �   �   �  �  � ! � , � 8 � B � K � S � Z � a � g � m � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �  �  �   �  �  �  � % � 1 � ; � E � M � U � [ � b � h � n � u � | � � � � � � � � � � � � � � � � � � � � � � � � � � �
+  �  �  �  �  �  � 
+ �  �  � ) � 4 � > � G � O � V �\ �c �i �p �x �� �� �� �� �� �� �� �	� �
+� �� �� �� �� �  �  �  �  �  �  �  � � �" �	. �
+8 �A �J �Q �X �^ �e �l �t �} �� �� �� �� ~� }� z� x� w� w� w� w� �  �!  �$  �#  �   �  �  � � � �' �2 �< �D �L �S �Z �` ~h }o {x y� x� v� t� s� r� o� n� m� m� m� m� �   �)  �+  �*  �(  �$  �   �  � � �" �- ~7 |@ zH yO wU v\ tc sk q t p  n!� l!� k!� i"� h"� f"� e#� d#� d"� d"� d!� �&  �/  �1  �0  �.  �+  �(  �$  �  ~  {" x#) u$3 s%< q%C p&K n&R m'Y k'` j'h i(q g({ e(� d)� b)� `)� _)� ^*� \*� \)� \)� \)� \(� �,  �5  �5  �4  �3  �1  �-  |+  y( v' r) p*% m+/ k,8 j,@ h-G g-N e.U d.] c.e a/n _/x ^/� \/� Z/�Y/�X0�V0�U0�U/� U/� U.� U.� �1  �:  �9  �8  �7  �6  z2  u0  r.  n. k/ i0! f1+ d24 c2= a3D `3K _4R ]4Z \4b Z4k Y5u W5� U5�T5�R5�Q5�P5�O5�O5�O4�O4�O3��6  �=  �<  �<  �;  {:  t7  o5  l3  h4
+ e5 b6 `7( ^71 ]8: [8A Z9H Y9P W9W V:_ T:h S:s Q:O:�N:�L:�K:�J:�I:�I9�I9�I8�J8��:  �@  �?  �?  �>  w=  p;  j8  f8  b9 _: \; Z;% Y<. W=7 V=> T>F S>M R>U Q>] O?f M?p L?}J?�H?�G?�E?�D?�D>�D>�D=�D=�E<��>  �C  �B  �B  }A  s@  k?  e<  `<  \> Y> W? U@" SA+ RA4 PB< OBC NBK MCR KCZ JCd HCn GC{EC�CC�BC�@C�?C�?C�?B�?A�@A�@@��A  �E  �E  �E  yD  oD  gB  `?  [A  WB  TC QD OE NE( LF1 KF9 JGA IGH HGP FGX EGa CHl BHx@H�>H�<H�;H�:H�:G�:F�:E�;E�;D��E  �H  �G  �G  vG  kG  cF  [C  VE  RG  NH
+ LI JI HJ% GJ. FK6 EK> CKF BLM ALV @L_ >Lj <Lv ;L�9L�7L�6L�5L�5K�5K�5J�6I�6I��I  �K  �J  ~J  rJ  hJ  _I  UH  PJ  LK  IL FM DN BO" AO+ @P3 ?P; >PC <QJ ;QS :Q\ 8Qg 7Qs 5Q� 3Q�2Q�0Q�/Q�/P�/O�0N�0N�0M��M  �M  �M  zM  nM  dM  [M  QM  KO  FP  BR ?S =T <T :U' 9U/ 8U7 7V? 6VG 5VP 3VY 2Wd 0Wq /W� -W� +W� *W� )W� )V� )U� *T�*S�*R��Q  �Q  �Q  vP  jP  `P  XQ  NR  GS  AU  ;X  8Y
+ 5Z 4Z 3[" 2[+ 1[3 /\; .\C -\L ,\V +]` )]m (]| &]� $]� #]� "]� "\� "[� #Z� #Y� $X� �U  �T  �T  qT  fT  \T  TU  JV  CX  <[  6]  0` -a +a *b )b% (b. 'c6 &c> %cG #cQ "d\ !di dy d� d� d� d� c� a� `� `� _� �Y  �X  {X  mX  bX  YX  PY  G[  >^  7`  1c  *f  $i	 !j  j j  k( k0 k9 kB lL lX le lt l� l� l� l� k� i� h� h� g� �]  �]  u\  h\  ^\  U\  K^  Ba  9d  2g  +j  $m  p s t t t! u) u2 u; uF uR u_ un u� u� 
+u� t� 	t� 
+s� q� q� p� �b  a  pa  da  Za  Ob  Ee  <h  3l  +o  $r  v  y  |   
+ 	" * 4 ? K X g  y  �  �  ~�  }�  }�  |�  {�  {� �g  xg  kf  af  Tg  Ii  ?m  5q  ,u  $y  |  �  �  � �
+ �  �  �  �#  �,  �7  �C  �P  �_  �q  ��  ��  ��  ��  ��  ��  ��  �� �m  sl  hl  Zm  No  Bs  8w  .{  %�  �  �  �  �  �   �  �  �  �  �  �$  �.  �9  �G  �V  �h  �}  ��  ��  ��  ��  ��  ��  �� {t  os  as  Sv  Fz  ;  0�  &�  �  �  �  	�  �   �   �   �  �  �  �  �  �$  �/  �=  �L  �^  �r  ��  ��  ��  ��  ��  ��  �� w{  h{  Y~  K�  >�  2�  '�  �  �  �  �   �   �   �   �   �   �  �
+  �  �  �  �$  �1  �@  �R  �e  �}  ��  ��  ��  ��  ��  �� o�  _�  Q�  C�  6�  *�  �  �  �  �   �   �   �   �   �   �   �   �  �  �  �  �  �$  �3  �D  �X  �n  ш  Ф  ��  ��  ��  �� g�  W�  I�  ;�  .�  !�  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �	  �  �  �$  �6  �I  �_  �x  �  �  ��  ��  �� _�  P�  B�  4�  &�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �%  �9  �O  �g  ��  ��  ��  ��  �� �  �  �  �  �  � " � / � ; � G � R � [ � d � l � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  � 
+ �  �  �  � * � 6 � A � L � V � _ � f � m � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 	 �  �  �  �  �  � $ � 0 � ; � F � P � Y � ` � g � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �   �   �  �  �  � * � 5 � @ � J � R � Z � a � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � # � . � 9 � C � L � T � [ � a � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 
+ �  �  � ( � 3 � = � F � M � U � [ � a � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �  �   �   �  �  �  � ! � , � 6 � ? � G � O � U � [ � a � g � n � u � } � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �	  �  � 	 �  �  � % � 0 � 9 � A � I � P � V � \ � b � i � p � x � � � � � � � � � � ~ � }� |� {� {� {� {� �  �  �  �  �  �  �
+  � �  �  �) �3 �< �C �K �Q �W �^ �d l }t |~ z	� x	� w
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+ � �# �- �6 ~> |F {M yS xZ va uh sq q{ p� n� l� k� i� h� f� e� e� e� e� �  �$  �$  �#  �!  �  �  �  �  | y( v1 t: rA qH oO nV l] kd im hw f� d� c� a� `� ^� ]� \� \� \� \� �%  �*  �)  �)  �(  �%  }"  y  x v r o# m- k5 i= hD fK eR c Y b a a i _!s ]! \!� Z"� Y"� W"� V#� U#� T#� T"� T"� T"� �+  �.  �.  �.  �-  |+  v(  r&  o#  m! j" g# e$) c$1 b%9 `&A _&H ]&O \'V ['] Y'f X(p V(| T(� S)� Q)� P)� O)� N)� M)� M)� M(� N(� �0  �2  �2  �2  �1  v0  p-  k+  h)  f(	 c( `) ^*% \+. [+6 Y,= X,D W-L U-S T-[ S-c Q.n P.z N.� L/� K/� I/� H/� H/� G/� G.� G-� H-� �4  �5  �5  �5  {5  r4  k2  f/  b.  _- \. Z/ X0" V0+ U13 S1: R2B Q2I P2P N3X M3a K3k J3w H4� G4� E4� C4� B4� B4� B4� B3� B2� B2� �8  �8  �8  �8  w8  m7  f6  a3  ]2  Y2 W3 T4 R5 Q5( O60 N68 L7? K7F J7N I8V G8_ F8i D8u C8� A9� @9� >9� =9� <9� <8� =7� =7� =6� �;  �;  �;  ;  s;  j:  b9  ]7  X6  T7  Q8 O9 M9 K:% J:- H;5 G;< F<D E<K D<S B<\ A=g ?=s >=� <=� :=� 9=� 8=� 7=� 7<� 8;� 8;� 8:� �=  �>  �>  |>  o>  f=  ^=  X;  S:  O;  L< I= G> F?" D?* C?2 B@: A@A @@I >AQ =AZ <Ad :Ap 8A 7A� 5B� 4B� 2B� 2A� 2@� 3@� 3?� 4>� �@  �@  �@  xA  lA  b@  [@  T?  N?  J@  FA DB BC @C ?D' >D/ <D7 ;E> :EF 9EN 8FX 6Fb 5Fn 3F| 1F� 0F� .F� -F� -F� -E� .D� .C� .C� �C  �C  �C  tC  hC  _C  WC  PC  HC  DE  AF >G <H :H 9I$ 8I, 6I4 5J; 4JC 3JL 2JU 0K_ /Kk -Kz ,K� *K� (K� 'K� 'K� 'J� (I� (H� )G� �F  �F  F  pF  eF  [F  TF  LG  DH  ?J  ;K  7L	 5M 3N 2N  1O( 0O0 /O8 .O@ ,PH +PR *P\ (Ph 'Pw %P� $P� "P� !P�  P� !O� "N� "M� #M� �I  �I  zI  lJ  aJ  XJ  PJ  IK  @L  ;N  5P  1R -S ,T *T )U$ (U, 'U3 &U< %VE $VN "VY !Ve Vt V� V� V� V� V� U� T� S� R� �M  �M  uM  hM  ]M  TM  MN  EO  <Q  6S  1U  +X  &Z	 #[ "[ !\  \' \. \7 ]@ ]J ]U ]a ]p ]� ]� ]� ]� ]� [� Z� Z� Y� �Q  �Q  pQ  dQ  YQ  QQ  IR  AS  8V  2Y  +[  %^  a c d d d! d) e1 e: eD eP e] ek e} e� e� 
+d� 
+d� c� b� a� a� �U  zU  kU  _U  VU  NU  DW  <Y  4\  ,_  &b  e  h  k m n n n" n+ n4 
+n> nJ nW ne nv n�  m�  m�  l�  l� k� j� j� �Z  tZ  fZ  \Y  SY  HZ  ?]  6`  .c  &g  j  m  q  t 
+w
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+�  �   �   �   �   �   �   �   �  �  �  �  �  �)  �9  �J  �]  �s  ��  ��  ��  ��  ��  �� fz  W}  I�  <�  /�  #�  �  �  	�   �   �   �   �   �   �   �   �   �   �  �  �  �  �  �,  �=  �P  �f  �  ʛ  ʸ  ��  ��  �� ^�  O�  A�  3�  '�  �  �  	�   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �.  �B  �W  �o  �  �  ��  ��  �� V�  H�  :�  ,�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �
+  �  �  �2  �H  �_  �z  ��  ��  ��  �� �  �  �  �  �  �  � * � 6 � B � M � W � _ � g � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � 
+ �  �  �  �  �  � % � 1 � = � G � Q � Y � a � h � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �   �  �  �  �   � + � 6 � A � K � T � [ � b � h � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � % � 0 � ; � E � M � U � [ � b � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � * � 4 � > � G � N � U � [ � a � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � # � . � 7 � @ � H � O � U � [ � ` � f � l � s � { � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ' � 1 � : � B � I � O � U � [ � ` � g � m � u � ~ � � � � � � � � � � � � � �  � � � � � � � �  �	  �  �  �  �   �  �  �  � ! � * � 3 � < � C � I � P � U � [ � a � h � p ~ y | � { � y � x � v � u � s � s � s � s � s � �  �  �  �  �  �  �  �  �  �  � $ � . � 6  > } D | K z Q y W w ] v d t l su q� o� n� l� k� i� h� h� g� g� g� �  �  �  �  �  �  �  � � � | y( w0 u8 s	@ r	F p
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+^T ^b ^s ^� ^� ^� ]� ]� \� [� [� �N  pN  bN  WN  NN  GN  >O  6Q  .T  'W  !Z  ]  `  c f g g g g$ g- g7  gB  gN  g\  gm  g�  f�  f�  e�  e�  d�  d�  c� zR  jS  ]R  TR  KR  BS  9U  0X  ([  !_  b  e  h  k n	  o  o  o  p  p'  q0  q;  qH  qV  qf  qy  q�  p�  o�  o�  n�  m�  m� sX  eW  ZW  QV  FW  <Z  2]  *a  "d  h  l  o  
+r  v   x  x  y  z  {  |   })  }3  }@  }N  }^  }r  }�  |�  |�  {�  z�  y�  x� m]  `\  W\  K]  @_  5c  +g  #k  o  s  w  {  ~   �   �  �  �  �  �  �  �!  �+  �7  �F  �V  �i  ��  ��  ��  ��  ��  ��  �� hc  ^b  Qb  De  8i  .n  $s  x  }  �  �   �   �   �   �   �   �  �
+  �  �  �  �!  �-  �<  �L  �_  �v  ��  ��  ��  ��  ��  �� ei  Wi  Il  =q  0v  %|  �  �  �  �   �   �   �   �   �   �   �   �  �  �  �  �  �"  �0  �A  �T  �k  ��  ��  ��  ��  ��  �� ^q  Ot  By  5  (�  �  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �$  �5  �I  �^  �w  œ  ů  ��  ��  �� V|  G�  :�  ,�   �  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �'  �:  �P  �h  ��  �  �  ��  �� N�  @�  2�  %�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �+  �A  �X  �r  ��  ��  ��  �� �  �  � 	 �  �  �  � & � 2 � > � H � R � Z � b � i � o � u � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �   �  �  �  � ! � , � 8 � C � L � T � \ � c � i � o � u � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   � 
+ �  �  � ' � 2 � < � F � N � V � \ � c � h � n � t � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � ! � + � 6 � ? � H � O � V � \ � a � g � m � s � z � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 
+ �  �  � % � / � 8 � A � H � O � U � [ � a � f � l � s � { � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ) � 2 � : � B � I � O � U � Z � ` � f � l � t � } � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   � 
+ �  �  � # � , � 4 � < � C � I � O � T � Z � ` � f � n � w � �  � ~ � | � { � z � x � x � x � x � x � �   �  �  �  �   �   �  �  �  �  � & � . � 6 � = � C ~ I } O | U z [ y a w i u q t | r � q � o � n � m � l � k � k � k � k � �  �  �  �  �  �  �  � 	 �    |   z ( x 0 v 8 t > s D q J p P n V m ] l d j m h w g � e � d � c � a � ` � ` � ` � ` � ` � �  �  �  �  �  �  |  y	 x u  s  p # n+ l3 j9 i@ gF fL eR cY ba `j _t ]� \� Z� Y� W� V	� V
+� U
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+� �  �  �  �    v  q  n  m m	 j	 g
+ e
+& c. b5 `< _B ^H \O [V Y^ Xh Vs U� S� Q� P� N� M� M� M� M� M� �  �  �  �  w  o  i  f  d  d b _ ]! [) Z1 X8 W> VE TL SS Q[ Pe Np L} K� I� G� F� E� E� E� E� E� �  �!  �"  |"  q"  h!  b  _  \  [ Z W U T% R- Q4 O; NB MH KP JX Hb Gm Ez C� B� @� ?� >� =� >� >� >� �#  �$  �%  w&  l&  c%  ]$  Y"  V  T  S Q N M" K) J1 I7 G> F E E M C U B _ @!j ?!w =!� ;!� 9!� 8"� 7"� 7"� 7"� 8!� 8!� �&  �'  �)  s)  g)  _)  X(  T&  Q#  O"  L" J" H" G# E$& D$. B$4 A%; @%C ?%J =&S <&\ :&g 9&u 7'� 5'� 4'� 2'� 1'� 1'� 2&� 2&� 3%� �)  �*  },  o,  d-  [,  U+  P*  L(  J&  G' D' B( A( ?)# >)+ =)2 <*9 ;*@ 9*H 8+P 6+Z 5+e 3+r 1+� 0,� .,� ,,� +,� ,,� ,+� -*� -*� �,  �-  y.  k/  `/  X/  Q.  L.  H,  E+  A+  ?, =, ;- :.! 9.( 7./ 6/6 5/> 4/E 3/N 10X 00c .0p ,0� *0� )0� '0� &0� &0� '/� (/� (.� �.  �0  v1  h2  ]2  U2  N1  H1  D0  @/  <0  :1	 71 62 52 33% 23, 133 04; /4C -4L ,4V *5a )5n '5~ %5� #5� "5� !5� !4� "4� #3� #2� �1  �3  r4  e4  Z5  Q5  K4  E4  @4  :3  74  45 26 07 /7 .7" -8) +81 *88 )9@ (9I &9S %9_ #9l !:|  :� :� :� 9� 9� 8� 8� 7� �4  6  n7  a7  W7  N7  H7  B7  <7  58  29  /: ,; *< )< (= &=& %=. $=5 #>= ">F  >P >\ ?i ?y ?� ?� ?� >� >� =� <� <� �7  z8  j9  ^:  S:  K:  E:  ?:  9:  2<  .>  )@  &A $B "B !B  C# C* C2 C: DC DM DY Dg Dw D� D� D� D� C� B� B� A� �;  v<  f=  Z=  P=  H=  B=  <=  6>  /@  *B  %D  !F H I I I I& I. J6 J@ JJ JV Jd Jt J� J� J� 
+J� I� H� G� G� �>  q?  b@  V@  M@  E@  ?@  9A  2B  +E  &G  !I  K  N P P P P! P) P1 P; QF QQ 
+Q_ 	Qo P� P� P� P� O� O� N� M� }B  kC  ]D  RD  JD  CC  <D  5E  .G  'J  !L  O  Q  T W
+ X 
+X X X$ X, X6 X@ XL  XZ  Xi  X|  X�  W�  W�  V�  V�  U�  U� vG  fG  YH  OG  GG  @G  8H  0J  )M  "P  S  U  X  [ 	^	 _  _  _  `  `'  `0  `;  `G  `T  `c  `v  `�  _�  _�  _�  ^�  ]�  ]� oK  aL  UL  LK  DK  ;L  2N  +Q  #T  W  [  ^  `  c  f  g  g  h  i  j!  j)  j4  j@  jM  j]  jo  j�  j�  i�  h�  h�  g�  f� iQ  \P  RP  JO  ?P  5S  -V  $Y  ]  `  d  g  j   n   o  p  q  r  t  u  v#  w,  w8  vF  vV  vh  v~  v�  u�  t�  s�  s�  r� cV  XU  PT  DU  9X  /[  &_  c  g  l  
+p  s   v   z   |   |  ~    �  �  �  �$  �/  �=  �M  �_  �u  ��  ��  ��  ��  ��  �� _[  VZ  I[  =^  2a  'f  k  p  u  	y  ~   �   �   �   �   �   �  �  �  �  �  �  �&  �4  �D  �V  �l  ��  ��  ��  ��  ��  �� ]a  Oa  Bd  6i  *n  t  y    �   �   �   �   �   �   �   �   �   �   �  �  �  �  �  �(  �9  �K  �a  �z  ��  ��  ��  ��  �� Vh  Hl  :p  .v  "}  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �-  �@  �U  �n  ��  ��  ��  ��  �� Nt  @y  2  %�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �!  �4  �I  �`  �|  ښ  ۵  ��  �� F�  8�  +�  �  �  
+�   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �
+  �  �%  �:  �Q  �k  �  ��  ��  �� �  �  �  �  �  �  � " � - � 9 � D � M � U � ] � d � j � p � v � | � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  �  � ( � 3 � > � G � O � W � ] � c � i � o � u � | � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � " � - � 7 � @ � I � P � W � ] � c � h � n � u � | � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � & � 0 � : � B � J � P � V � \ � a � g � m � t � | � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �   � * � 3 � ; � C � I � O � U � Z � ` � f � m � t � } � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � $ � , � 5 � < � C � I � O � T � Z � _ � f � m � v � � � � � � � � � � � � � �  �  �  � ~ � �   �   �   �   �   �   �  �  �  �  � & � . � 6 � = � C � I � N � T  Y ~ ` | g z o y z w � u � t � r � r � q � p � p � p � q � �   �   �   �   �   �   �  �  �  �   ! } ) | 0 y 7 x = v C t I s N r T p Z o b m j k t j � h � g � e � e � d � d � c � c � d � �  �  �  �  �  �  ~   {  w  u  r  q # o + m 2 l 8 j > i D g I f O e V c ] b e ` o _ { ] � \ � [ � Y � Y � X � X � X � Y � �  �  �  �  }  v  q
+  o  m 
+ k  i  g  e & c - a 3 ` 9 _ ? ] E \ K [ R Z Y X b W l U x S � R � Q � P � O� N� N� N� N� �  �  �    t  l  g  e  c c a ^ \! [( Y/ X5 V; UB TH SO QV P	_ N	i M	v K
+� I
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+ P N L  J' I. H4 G; EB DI CR A[ ?e >r <� :� 8� 7� 5� 5� 6� 6� 7� �  �  {   m!  b!  Z!  T  P  M  L  K I G E D$ B* A1 @8 ?? =F <O :X 9c 7o 5~ 3� 2� 0� /� /� /� 0� 0� �  �"  w#  i$  ^$  V$  P#  K"  H   F  E C A ? >! <' ;. :5 9< 7D 6L 4 V 3 ` 1 m / | -!� ,!� *!� )!� )!� )!� * � + � �"  �%  s&  e'  ['  S'  L&  G%  D$  B!  ?!  =!	 ;! 9" 8" 6#% 5#+ 4$2 3$9 2$A 0$J /%S -%^ +%k *%z (%� &%� $%� #%� #%� $%� %$� %$� �%  �'  o)  b*  W*  O*  I)  D(  @'  =&  :%  7& 5& 4' 2' 1(" 0() /(0 -)7 ,)? +)G ))Q (*\ &*i $*x #*� !*� *� *� *� )�  )� !(� �(  |*  l+  _,  T,  L,  F,  A+  <+  8*  5*  2+ 0+ ., -, ,, *-& )-- (-4 '.< &.E $.O #.Z !/g /v /� /� /� /� .� .� -� -� �+  x-  h.  [/  Q/  I/  C/  >.  9.  4.  0.  -/  +0
+ )1 '1 &1 %2# $2* #21 !39  3B 3L 3W 3d 4t 4� 4� 3� 3� 3� 3� 2� 1� �.  t/  e1  X1  N2  F2  @1  ;1  61  11  +3  (4  %5 #6 !6  7 7  7' 8. 86 8? 8I 9U 9b 9q 9� 9� 9� 8� 8� 8� 7� 6� �1  p2  a4  U4  K4  D4  =4  84  34  -5  (7  $9   : ; < = = =# =+ >3 >< >F >R >_ >o >� >� >� 
+>� 
+=� =� <� ;� }4  k6  ]7  Q7  H7  A7  ;7  57  07  *9  %;   =  ?  A C C C C D' D/ D9 DC DN D[ 	Dj D| D� C� C� C� C� B� A� x8  g9  Y:  N:  E:  >:  8:  3:  -;  '=  !@  B  D  F I
+ J J J 	J# J+ J4 J> JI JV  Je  Jw  J�  J�  I�  I�  I�  H�  H� r<  b=  U>  J>  B=  <=  6=  />  )@  #B  E  G  J  L O	 P Q  Q  Q  Q&  Q/  Q9  QD  RQ  R`  Qr  Q�  Q�  Q�  P�  P�  O�  O� l@  ]A  QA  GA  @@  9@  2A  *C  $F  H  K  N  Q  S V  W  X  X  Y  Z!  Z)  Z3  Z?  ZL  ZZ  Zl  Z�  Y�  Y�  X�  X�  W�  W� eE  XE  ME  ED  >D  5E  -G  %J  M  P  S  V  
+Y  \   ^  _	  `  a  b  c  d#  d-  d8  dE  dT  df  d{  c�  c�  b�  a�  a�  `� _J  SJ  JI  CH  9I  /L  'O  R  U  Y  ]  `  c   f   h  i  j
+  k  m  n  p  q&  q1  p>  pN  p_  ps  o�  o�  n�  m�  l�  l� ZO  PN  HM  =N  3Q  )T   X  \  `  d  h   k   o   r   t   u   w  x	  z  |  }    �(  �5  �E  V  k  �  ~�  }�  |�  {�  z� VT  NS  BT  7V  ,Z  "_  c  h  m  r   v   z   }   �   �   �   �   �  �  �  �  �  �  �,  �;  �M  �b  �z  ��  ��  ��  ��  �� UY  HZ  ;]  /a  $f  l  r  
+w  }   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �!  �1  �C  �W  �p  ��  ��  ��  ��  �� Na  @d  3i  'n  u  |  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �%  �7  �L  �d  ��  ��  ��  ��  �� Fk  9p  +w    �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �+  �@  �X  �t  Ӓ  Ұ  ��  �� >y  1�  #�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �3  �K  �d  �  �  �  �� �   �   �  � 	 �  �  �  � ) � 4 � ? � H � P � X � ^ � e � k � q � w � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   � 	 �  �  � # � . � 9 � B � J � R � X � ^ � d � j � p � v � } � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � ( � 2 � ; � D � K � Q � X � ] � c � h � o � v � ~ � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � " � + � 4 � = � D � K � Q � V � \ � a � g � n � v �  � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � % � . � 6 � = � D � J � O � U � Z � ` � f � n � w � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   �  �  �  �  � ' � / � 7 � = � C � I � N � T � Y � ` � g � o � z ~ � | � z � y � x � w � x � x � w � u � �   �   �   �   �   �   �  �  �  �  � ! � ) � 0  7 } = | C z H y M w S v Y t a r i q s o  m � l � j � i � h � i � i � i � i � �   �   �   �   �   �   �   |  y  w  v  t # s + q 1 o 7 n = l C k H j N h T g [ e c c m b x ` � _ � ] � ] � \ � \ � \ � \ � \ � �   �  �  �    x   t   p  m  k  i  h  f % e , c 2 b 8 ` = _ C ^ I \ O [ V Z ^ X h W s U � T � R � Q � Q � Q � Q � Q � R � �  �	  �  ~  s  l
+  h  e  c  a  _  ]  \ ! [ ' Y - X 3 V 9 U ? T E S K Q R P Z O d M o L } J � I � H � G � G � F � G � G � �  �  �  u  k  c  ^  [  Z	 Y
+ W  U  S  R # Q ) O / N 5 M; LA JH IO HW Fa Em Cz B� @� ?� >� =� =� =� >� �  �  |  n  d  \  V  S  Q  P P	 O M K I% H	+ G	1 F	8 D
+> C
+E B
+M @U ?_ =k <y :� 8� 7� 5� 5� 5� 5� 6� �  �  v  i  ^  V  P  M  J  I  I H F D C! B( @. ?5 >< =C ;K :T 8^ 6k 4y 2� 1� /� -� -� -� .� /� �  �  q  d  Y  Q  L  G  D  C  B A @ > < ;% :+ 82 79 6@ 4H 3Q 1\ 0h .w ,� *� (� '� &� '� (� )� �  }  m  `  V  N  H  C  @  >  =  ; 9 8 6 5" 3( 2/ 16 0= .F -O +Y *f (t &� $� "� !�  � !� "� #� �  y  i!  \"  R"  J"  D!  ?!  <   9  8  5 4 2 0 / .% -, +3 *; )C 'M &W $d "r  � � � � � � � � �   u"  e#  Y$  O%  G%  A$  <#  8#  5"  3   0  .!
+ ,! +! *" ("# '") &#0 %#8 ##A "$J !$U $a $p $� $� $� $� $� $� #� #� �"  q$  b&  V'  L'  D'  >'  9&  5&  1%  .$  +%  )% '& %& $' #'  "'' !(.  (6 (> (H )S )_ )n )� )� )� )� (� (� (� '� �%  n'  _(  S)  I*  B)  ;)  6)  2(  .(  *(  &)  $* "+  + , , ,$ -+ -3 -< -E .P .] .l .~ .� .� -� -� -� ,� ,� |(  j*  [+  P,  F,  ?,  9,  4+  /+  ++  &,  ".  /  0	 1 1 1 2! 2( 20 29 3C 3N 3[ 3i 3z 3� 
+3� 2� 2� 2� 
+1� 1� w+  f-  X.  M/  C/  <.  6.  1.  -.  ).  #0  2  3  5 6 7 7 7 8$ 8, 85 8? 8J 8W 	8e 8v 8� 8� 7� 7� 7� 6� 6� s.  b0  T1  I1  A1  91  41  /0  +0  %2   3  6  8  : <	 = = = 
+=! 	=) =1 >; >F >R >a  >r  >�  =�  =�  =�  <�  <�  <� m2  ]3  P4  F4  >4  74  23  -3  '4  "6  8  :  =  ? A 	C D D D  D$  D-  D6  DA  DN  D\  Dm  D�  D�  C�  C�  B�  B�  B� h6  X7  L8  C8  ;7  56  06  )7  #9  ;  =  @  B  E G I  I  J  K  K   K(  K2  K=  LI  LW  Kh  K}  K�  J�  J�  I�  I�  I� b:  T;  I;  @;  9:  39  ,:  %<  ?  A  D  G  I  L  O  P
+  P  Q  R  T  T#  T,  T7  TD  TR  Tc  Tw  T�  S�  R�  R�  Q�  Q� \?  O?  E?  >>  7=  />  '@   C  F  I  L  O  R   T   W  X  Y  Z  [  ]  ^  _&  _1  ^=  ^L  ^]  ^q  ]�  ]�  \�  [�  Z�  Z� VD  KC  CB  <A  2B  )E  !H  K  N  R  
+U  Y   [   ^   `   b  c  e
+  f  h  j  k  k)  k6  kE  kV  jj  j�  i�  h�  g�  f�  e� QH  HH  AF  7G  ,J  #M  Q  U  Y  ]  a   d   g   j   l   n   p   r  s	  u  w  z  {!  {.  z=  zN  yb  yy  x�  w�  u�  t�  s� NM  GL  ;M  0O  &S  X  \  a  f   j   o   r   v   y   |   }      �   �  �  �  �  �  �$  �3  �D  �X  �o  ��  ��  ��  ��  �� MQ  AS  4U  )Z  _  e  j  p   v   {      �   �   �   �   �   �   �   �   �   �  �  �  �  �(  �:  �N  �e  ��  ��  ��  ��  �� FY  9\  -a  !g  n  u  {   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �/  �C  �Z  �v  ��  ��  ��  �� ?d  1i  %o  w    �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �
+  �  �#  �7  �O  �j  ͊  ʫ  ��  �� 7q  )x  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �+  �C  �^  �z  �  �  �� �   �   �  �  �  �  �  � % � / � : � C � K � S � Z � ` � f � k � r � x � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � ) � 3 � = � E � M � S � Y � _ � e � j � q � x � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 	 �  �  � # � - � 6 � > � F � L � R � X � ] � c � i � p � x � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � & � / � 7 � ? � E � K � Q � V � \ � a � h � p � y � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   � 
+ �  �  �   � ( � 0 � 8 � > � D � J � O � U � Z � a � h � q � { � � � � � � � � � � � � � � | � { � y � �   �   �   �   �   �   �  �  �  �  � " � * � 1 � 8 � > � C � H � N  T ~ Z | a z i x s v  u � s � q � p � o � o � o � m � l � �   �   �   �   �   �   �   � 	   ~  }  | $ z + w 1 u 7 t = r B q H o M n S l Z k b i l g x f � d � b � a � ` � a � a � a � ` � �   �   �   �   �   |   w   r  p  n  l  l  k % i , g 1 f 7 d = c B b H ` N _ U ] ] \ f Z r Y � W � V � U � T � T � T � U � U � �   �   �      u   n   i   f  c 	 a  `  _  ^   ] & [ , Z 2 X 7 W = V C U I S P R X Q a O l N z L � K � J � I � I � I � I � J � �  �  �  t  j  c  ^  [   Y  W  V  T  S  R " Q ( P - N 3 M 8 L > K E J L H T G ] F h D u C � A � @ � @ � ? � ? � @ � @ � �  �  y  l  a  Z  U  R	  P  O N  L  K  J  I # G ) F / E 4 D : B A A H @ P > Z = d < r : � 9 � 8 � 7 � 6 � 6 � 6 � 7 � �  �  r  e  [  S  N  J  H  G
+ G
+ E D B A  @% >+ =1 <7 ;> :E 9N 7W 6b 4p 2� 1� 0� /� .� .� -� .� �  }  l  _  U  N  H  D  A  @  @ @
+ >	 <	 ;
+ 9
+" 8
+( 7. 65 5; 3C 2L 0V /a -o + *� (� '� %� %� &� '� �  w  g  [  Q  I  C  ?  <  :  9 9 8 7 5 4 2% 1, 02 /: -B ,K *U (a &o $� #� !� � � � �  � �  s  c  W  M  E  @  ;  8  5  4  3 2 1 / - ," +) *0 (7 '? &H $S "_  m ~ � � � � � � � �  o  _  S  J  B  <  7  4  1  /  .  , + ) ( '  %& $- #4 "=  F Q ] k | � � � � � � � }  k  \  P   G   ?   9  4  1  -  +  )  ' % $ " !  # * 2 : D N [ i z � � � � � � � z  g  Y!  M"  D"  <"  6"  2!  .!  *   '   $  "    
+ ! ! ! "! "' "/ "8 #A #L #X #g #x #� #� #� #� "� "� !� v  d"  V#  K$  A$  :$  4$  /#  +#  (#  $#   #  $  % & & & ' '% ', '5 (? (J (V (d (t 
+(� 	(� '� '� '� &� &� q"  `$  S&  H'  ?'  7&  1&  -&  )%  %%  "%  '  (  * + , , , ," ,) -2 -; -F 
+-R -` -p -� -�  ,�  ,�  ,� +� +� m%  ]'  O(  E)  <)  5)  /(  +(  ''  #'  (  *  ,  . 0 1 1 1 1 
+1& 2. 27 2B 2N 2\  2l  2  2�  1�  1�  0�  0�  0� h)  X*  L+  A,  9,  2+  -+  )*  %*   +  ,  .  0  2 4 
+7 7 7 7 7"  7*  83  8>  8J  8X  8h  8|  7�  7�  6�  6�  6�  5� c,  T.  H/  >/  6.  0.  +-  '-  "-  /  1  3  5  7 
+: ; <  =  >  >  >&  >/  >:  >F  >T  >d  >w  >�  =�  =�  <�  <�  ;� ^0  P1  D2  ;2  41  .0  )/  $0  2  4  6  9  ;  
+=  @  A
+  B  C  D  E  F"  F+  F5  FA  FO  F_  Fs  E�  E�  D�  C�  C�  B� X4  K5  A5  95  24  -3  &4   5  8  :  =  @  	B  E   G  H  J  K  L  N  O  O%  O/  O<  OJ  OZ  Nm  N�  M�  L�  K�  K�  J� S9  G9  >9  78  17  )7  !9  <  ?  B  E  H  J   M   O   Q  R  T  U  W  Y  Z  Y)  Y6  YD  YT  Xg  X  W�  V�  U�  T�  T� N=  C=  <<  5;  ,<  $>  A  D  H  K  N   Q   T   W   Y   [   ]  ^  `  b  d  g  g"  f.  f<  fM  e`  ew  d�  c�  a�  `�  _� IB  AA  :?  0@  &C  F  J  N  
+R  V   Z   ]   `   c   e   g   i   k  m  o
+  r  u  w  v&  v5  uF  tY  to  s�  r�  p�  o�  n� FF  @E  5F  *H   L  Q  V  	Z  _   c   h   k   o   r   u   w   y   {   }   �  �  �  �  �  �+  �<  �O  �f  ��  ��  ��  ��  � FK  :L  .O  #S  X  ^  	d   i   o   t   x   |   �   �   �   �   �   �   �   �   �   �  �  �  �!  �1  �D  �[  �v  ��  ��  ��  �� ?R  2U  &Z  `  g  	m   t   {   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �&  �9  �P  �j  ��  ��  ��  �� 7\  +a  h  p  x   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �.  �E  �_  �~  ɞ  Ⱦ  �� /i  #p  y  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �#  �:  �T  �r  �  �  �� �   �   �   �  �  �  �  � ! � + � 5 � > � G � N � U � [ � a � f � m � s � { � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � $ � . � 8 � @ � H � N � T � Z � _ � e � k � r � { � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ( � 1 � 9 � @ � G � M � S � X � ^ � d � k � s � | � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   � 
+ �  �  � ! � * � 2 � : � @ � F � L � Q � V � \ � c � j � s � ~ � � � � � � � � � � � � � � � � } � | � �   �   �   �   �   �   �  �  �  �  � # � + � 2 � 9 � ? � D � J � O � U � [ � c � k � v � � � � ~ � | � z � y � w � r � p � o � �   �   �   �   �   �   �  � 
+ �  �  �  � % � , � 2  8 } = { C y H x N v T u [ s c q n o z m � l � j � i � h � g � e � d � c � �   �   �   �   �   �   {   x  v  u  t  s  r % p , n 2 l 7 j < i B h H f N e U c ] b f ` r ^ � ] � [ � Z � Y � Y � Y � X � X � �   �   �   �   y   q   m   i  f 	 e  d  c  c   a & ` , ^ 1 \ 7 [ < Z B X H W O V W T ` S l Q y P � O � N � M � M � M � M � M � �   �   �   u   k   d   `   ]   Z  X  W  V  V  U ! S ' R , Q 1 O 7 N = M C L J J R I [ H f F s E � D � C � B � B � B � C � C � �   �   x  j  a  Z  U  R   P  N 	 M  L  K  J  I " H ' G - E 2 D 8 C > B E A M ? V > a = n ; ~ : � 9 � 8 � 8 � 8 � 9 � 9 � �  �  o	  b
+  X  Q
+  L  I  G  F  D  C  B  A  A  ? # > ) = . ; 4 : : 9 A 8 I 7 R 6 ] 4 j 3 z 2 � 1 � 0 � / � / � / � 0 � �	  x  h  \  R  K  E  A  ?
+  > = < ;  :  9  8   6 % 5 + 4 0 3 7 2 > 1 F / P . Z - g + w * � ) � ( � ' � ' � ' � ' � �  r  c  V  M  E  @  <  9  7  6 6
+ 5 4 2 1 0" /( .. -4 +< *D )N 'Y &e $u #� "�  �  � � � � �  m  ^  R  H  A  ;  7  4  2  0 0 0 /
+ -
+ , * )% (+ '2 &: $C #M !X  e u � � � � � � � {  i  Z  N  E  =  8  3  0  -  +  * * ) ( & % $# #) !1  9 B L X f v � � � � � � � w  e  W  K  B  :  4  0  ,  )  '  & % # " !     ' . 6 @ J V d t � � � � � � � s  a  S  H  ?  7  2  -  )  &  $  "         $ + 4 = H T b r � � 
+� 	� 	� 	� 
+� o  ^  P  E  <  5  /  *  &  #  !           " ) 1 ; E Q ^ 
+m 	� � � � � � � k  [  M  B  :  2  -  (  $  !          	 ! ! ! ! "& ". "7 
+"A 	"M "Z "i "| "�  "�  !�  !�   �   � g  W  J!  @!  7"  0!  *!  &   "          !  # $ & & & 
+& 	&" &* '3 '= 'I 'V  'f  'y  '�  &�  &�  %�  %�  $� c   T"  G#  =$  4$  .#  (#  $"  !"  !  "  #  $  & ( * + + + + ,'  ,0  ,:  ,E  ,S  ,c  ,v  ,�  +�  +�  *�  *�  )� _#  P%  D&  :&  2&  +&  &%  #$  $  $  %  '  )  + - / 0  0  1  1  1#  2,  26  2B  2O  2_  2r  1�  1�  0�  0�  /�  /� Z'  L(  @)  7)  /)  )(  %'  !&  '  (  *  ,  .  0 2 4	  5  6  7  8  8   8(  82  9=  9K  9[  8n  8�  7�  7�  6�  5�  5� U*  H,  =,  4,  -+  (*  $)  *  +  -  /  1  
+4  6  8  :  ;
+  =  >  @  @  @$  @.  @9  @G  @V  @i  @�  ?�  >�  =�  <�  <� P/  C/  9/  2/  ,-  ',   -  /  1  3  6  	8  ;   =   @  A  C  E  F  H  J  J  J(  J4  IB  IQ  Id  H{  H�  G�  F�  E�  D� J3  ?3  63  01  *0  #1  3  5  8  ;  >  A   C   F   H   J   L  N  O  Q  T  U  U"  T.  T<  TK  S^  St  R�  Q�  P�  O�  N� E7  <7  56  /4  &5  7  :  =  A  D   H   J   M   P   S   U   W   X  [  ]  _  b  b  b'  b4  aE  `W  `m  _�  ]�  \�  Z�  Y� A<  :;  49  *:  !<  @  C  G  K   O   S   V   Y   \   _   a   c   e   g  j  m
+  p  s  r   r-  q=  pO  oe  n�  m�  k�  i�  h� ?@  9>  .?  $B  F  J  O  T   X   ]   a   e   h   k   n   q   s   u   x   {   ~  �
+  �  �  �$  �4  �F  �]  �v  �  ~�  |�  z� ?D  3E  (H  L  R  W  ]   c   h   m   q   v   z   ~   �   �   �   �   �   �   �   �  �	  �  �  �)  �<  �R  �l  ��  ��  ��  �� 8K  ,N   S  Y  `  g   n   t   z   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �	  �  �  �0  �F  �`  �~  ��  ��  �� 1U  $[  a  i  q   y   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �
+  �  �%  �;  �T  �q  Ȓ  ų  �� )b  i  q  {   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �/  �I  �e  �  �  �� �   �   �   �  �  �  �  �  � & � 0 � : � B � I � P � V � \ � b � h � o � v �  � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 	 �  �  �   � * � 3 � ; � C � I � O � U � [ � ` � g � n � v � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � # � , � 4 � ; � B � H � N � S � Y � _ � f � n � w � � � � � � � � � � � � � � � � � � � � ~ � �   �   �   �   �   �   �  �  �  �  � % � - � 4 � ; � A � F � L � Q � W � ^ � e � n � y � � � � � � � � � � � � | � v � s � r � �   �   �   �   �   �   �  � 
+ �  �  �  � & � - � 4 � : � ? � E � J � P � V � ^ � f ~ q | } y � w � u � s � r � n � i � g � e � �   �   �   �   �   �   �   �  �      �   } & z - w 3 u 8 t > r C p I o O m V l ^ j h h u g � e � d � b � a � ` � \ � [ � Z � �   �   �   �   ~   x   s   o  m 	 l  k  k  j   h & f , e 2 c 7 b < ` B _ H ] O \ W Z a Y m W { V � U � S � R � R � P � O � O � �   �   �   x   n   g   c   `   ]  \  [  [  [  Z ! X & V , T 1 S 6 R < Q B O I N Q M [ K f J t I � H � G � F � F � E � E � E � �   �   x   l   b   [   V   S   Q  O  O  N  N  M  L ! J & I , H 1 G 7 E = D D C L B U @ ` ? n > ~ = � < � ; � ; � ; � ; � < � �   ~   n   a   X   Q   L   I   G   E  D  C  C  C  B  @ " ? ' > , = 2 ; 8 : ? 9 G 8 P 7 [ 5 h 4 x 3 � 2 � 1 � 1 � 1 � 2 � 3 � �   v  f  Y  P  I  C  @  >  <  ;  :  :  9  9  7  6 # 5 ( 4 . 3 4 2 ; 0 C / L . W - d , s + � * � ) � ) � ) � ) � * � �  n  _
+  S  J  B  =
+  9	  6  5  4 3 
+ 2  1  1  0  /  . $ , * + 0 * 7 ) ? ( I ' T & ` $ o # � " � ! � ! � ! � ! � " � {	  h  Z  N  E  =  8  3  0  .  -	 - , + * ) ( ' ! & ' % - $ 4 #= "F !Q ] l   �  �  �  �  �  � u  d  U  J  @  9  3  /  ,  )  ' ' '
+
+ & % $ " !  $ + 2 : D O \ k } � � � � � � q  _  Q  F  =  6  0  +  (  %  #  " ! !      " ) 1 9 C O \ k ~ � � � � � � m  \  N  C  :  2  -  (  %  "            ! ( 0 9 D P ] k | � 	� � � � � i  X  K  @  7  0  *  &  "         
+     % . 7 @ K X 	g x � � � � � � e  U  H  =  4  -  (  #                 " ) 2 	< G T c u �  �  �  �  �  � a  R  E  ;  2  +  %  !               
+  & / 8 D  Q  `  r  �  �  �  �  �  � ^  O  B  8  /  )  #              	       !#  !+  !5  !@  !N  !]  !o  !�   �   �  �  �  � Z  K  ?  5  -  '  "              ! 	"
+ # $  %  %  &   &(  &2  &=  &J  &Z  &l  &�  %�  %�  $�  #�  #� U  G   <!  2!  +!  %                 !  # % '	  (  *  +  ,  ,  ,%  ,.  ,:  ,G  ,V  ,i  ,�  +�  *�  )�  )�  (� Q"  D#  8$  /$  (#  #"  !        !  #  $  &  (  *  ,  .	  0  1  3  3  3!  3*  35  3C  3R  3e  2{  2�  1�  0�  /�  .� L%  ?&  5'  -&  '%  "$  #  #  $  &  (  *  ,  /   1  3  5  7
+  9  :  ;  ;  ;&  ;1  ;>  ;N  ;`  :w  9�  8�  7�  6�  5� G)  ;*  2*  +)  %'  !&  '  (  *  ,  
+/  1  4   6   8   ;  =  ?  A
+  C  E  E  E!  E,  D9  DH  D[  Cq  B�  A�  @�  ?�  >� B-  8.  /-  )+  $*  *  ,  .  1  	4  7   :   <   ?   A   D   F   H  J  L  N  P  P  P'  O4  OC  OU  Nj  M�  L�  J�  I�  H� >2  51  ./  ).   .  1  3  7  	:  =   @   D   G   I   L   O   Q   S   U  X  Z  ]  _  ^   ^,  ]<  \N  [c  Z~  X�  W�  U�  T� :6  34  -2  $3  6  9  =  A   E   I   L   P   S   V   Y   [   ]   `   b   e   h  k  o  o  n%  m4  mF  k[  ju  h�  f�  d�  b� 89  27  (9  ;  ?  D  I   M   R   V   Z   ^   b   e   h   k   m   p   s   v   y   }  �  �  �  �,  �>  ~T  ~k  {�  z�  w�  u� 8=  ,>  "A  F  K  Q   W   \   b   f   k   o   t   x   {   ~   �   �   �   �   �   �   �  �  �  �!  �3  �I  �b  �  ��  ��  �� 1D  %H  M  S  Z   a   h   n   t   y      �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �(  �>  �V  �s  ��  ��  �� *O  T  [  
+b   j   s   {   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �2  �K  �f  Ƈ  ©  �� "[  b  k  t   }   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �'  �?  �[  �z  �  � �   �   �   �   �  �  �  �  � " � , � 5 � = � E � L � R � X � ^ � d � j � r � z � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � % � . � 7 � > � E � K � P � V � \ � b � j � r � | � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   �  �  �  �  � ' � / � 7 � = � D � I � O � U � [ � a � i � s �  � � � � � � � � � � � � � � { � v � t � �   �   �   �   �   �   �  �  �  �  �   � ( � / � 6 � < � B � G � M � S � Y � a � j � u � � � � � � � � � � | � s � m � j � h � �   �   �   �   �   �   �   �  �  �  �  � ! � ( � / � 5 � : � @ � E ~ K | R z Y x b v l t y r � q � o � m � l � e � ` � ^ � \ � �   �   �   �   �   �   |   z  x 	 w  x  w  t ! r ' p - n 3 l 8 k > i D h J f Q d Z c d a p _  ^ � ] � \ � [ � W � T � R � Q � �   �   �      t   n   j   f   e  c  c  c  c  a ! _ ' ] , \ 2 Z 7 Y = W C V K U S S \ R h P w O � N � M � L � K � I � G � G � �   �   |   n   e   ^   Y   W   U  T  S  S  T  R  Q ! O & N + L 1 K 7 J = I D G L F V D a C p B � A � @ � ? � ? � > � = � > � �      o   c   Y   Q   M   J   H   G  G 
+ F  F  G  E  D ! B & A + @ 1 > 7 = > < G : P 9 [ 8 i 7 z 6 � 5 � 5 � 4 � 4 � 4 � 5 � �   t   e   X   O   H   C   ?   =   <  <  ;  ;  ;  :  9  7 ! 6 & 5 , 4 2 3 9 1 A 0 K / V . c - s , � , � + � + � + � + � , �    l   ]  Q  H  @  ;  7   4   3   2  2 	 2  1  1  0  /  - " , ( + . * 5 ) = ( F ' Q & ^ % n $ � # � # � " � " � # � $ � w   e  V  K  B  :  5  0  -  ,  +  *  )  )  )  (  '  &  % $ $ * # 1 " 9 ! C   N  Z  i  |  �  �  �  �  �  � p  _  Q
+  F  =  5  0  +
+  (	  %  $ # #	 " "  !           &  .  6  ?  J  W  f  x  �  �  �  �  �  � k  [  M  B  9  1  ,  '  #  !   
+        # + 3 < G T c u � �  �  �  �  � g  W  I  >  5  .  (  $          	 	 	 	 	 	 	! 	( 	0 	: 	E 	R 	a 	s � � 
+� 
+� 
+� 
+� c  S  F  ;  2  +  %  !         	       ' / 9 E Q 	` q � � � � � � _  P  C  8  /  (  #           	 
+      $ 
+, 	6 A N ] o �  �  �  �  �  � \  M  @  6  -  &  !           
+     
+ 	 ! ) 3 > K  Z  l  �  �  �  �  �  � X  I  =  3  +  $           	 	 	 
+ 	     '  0  ;  H  X  j  �  �  �  �  �  � U  F  :  0  (  "              		         $  -  8  F  U  g  }  �  �  �  �  � Q  C  7  .  &               	  
+              !  !*  !5  !B  !R   d   z  �  �  �  �  � M  ?  4  +  $                 !  #  %  &  &  &  ''  '2  '?  &N  &`  &w  %�  $�  #�  "�  !� H  <  1  (  "                  !  #  %  '  )	  ,  .  .  .  .#  ..  .;  .J  -\  -r  ,�  +�  *�  )�  (� D   8!  .!  &!                !  #  %   '   )   ,  .  0  3
+  5  6  6  6  6)  66  6E  5W  5m  4�  2�  1�  0�  /� ?$  4$  +$  $#  !        !  #  
+%  (  *   -   /   2   4   7   9  ;  >
+  @  A  A  @%  @1  @@  ?R  >g  =�  <�  :�  9�  8� :(  0(  )'  #%  #  $  %  (  
+*  -   0   3   6   8   ;   >   @   B   E  G  J
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+�9 	�D �P �^ �n �� ��  ��  ��  ��  ��  �� �� �� ��  ��  ��  w�  j�  ]�  P�  D�  8�  ,�  "�  �  �  � � �  �  �  �'  �1  �<  �H  �V  �e  �w  ��  ��  ��  ��  ��  ��  ��  �� ��  ��  {�  m�  `�  S�  F�  9�  -�  #�  �  �  �  �   �  �  �  �  �   �(  �2  �>  �L  �[  �l  ��  ��  ��  ��  ��  ��  ��  �� ��  �  q�  c�  U�  G�  :�  -�  "�  �  �  
+�  �   �   �   �  �  �  �  �  �'  �2  �@  �O  �`  �t  Ë  á  ø  ��  ��  ��  �� ��  s�  e�  W�  I�  ;�  -�  !�  �  �  �   �   �   �   �   �   �  �  �  �  �  �&  �2  �A  �S  �f  �|  ٔ  ٫  ��  ��  ��  �� v�  g�  Y�  K�  <�  .�  !�  �  �  �   �   �   �   �   �   �   �   �   �  �  �  �  �$  �2  �C  �V  �k  �  �  �  ��  ��  �� j�  [�  L�  >�  /�   �  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �	  �  �  �#  �3  �F  �Z  �q  ��  ��  ��  ��  �� �  �  �  �  �  � ( � 7 � D � Q � \ � f � o � w � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  � $ � 2 � ? � L � W � a � j � r � y � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  � , � : � F � R � \ � e � l � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �	
+ � �  � 	 �  �  � & � 4 � @ � L � V � _ � g � n � t � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �  �  �  �  � - � : � E � O � X � ` � h � n � t � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �   �  �  �  � % � 2 � > � I � R � Z � a � h � n � t � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �	  �  �  �  � * � 7 � B � K � T � [ � b � h � n � u � { � � � � � � � � �� �� �� �� �� �� �	� �	� �	� �	� �  �  �  �  �  �  �
+ � �! �. �: �	D �	M �
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+ p p p q' q/ q8 qB qN q[ qi qz 
+q� q� q� p� p� o� 	n� 	n� �o  �u  �y  ~|  t~  f~  Y~  M~  @}  5}  *|  !|  |  | | 
+| 	| |! |) |2 |= |H |U  |c  |t  |�  {�  {�  z�  y�  y�  y�  x� �w  �|  ��  y�  l�  ^�  Q�  E�  9�  -�  #�  �  �  � �
+ �  �  �  �#  �,  �6  �B  �N  �]  �m  ��  ��  ��  ��  ��  ��  ��  �� �~  ��  ~�  q�  c�  V�  I�  <�  0�  $�  �  �  �  �   �  �  �  �  �  �$  �.  �9  �F  �U  �e  �x  ��  ��  ��  ��  ��  ��  �� ��  ��  u�  g�  Y�  L�  ?�  2�  &�  �  �  �  �   �   �  �  �  �  �  �  �%  �/  �<  �K  �[  �n  ��  ��  ��  ��  ��  ��  �� ��  x�  j�  \�  N�  A�  3�  &�  �  �  
+�  �   �   �   �   �   �  �  �  �  �  �$  �0  �?  �P  �b  �x  ��  ��  ��  ��  ��  �� {�  m�  _�  P�  B�  4�  &�  �  �  	�   �   �   �   �   �   �   �   �  �  �  �  �  �$  �2  �C  �U  �j  ̃  ̜  ˵  ��  ��  �� p�  a�  R�  D�  6�  '�  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �$  �5  �H  �\  �s  �  �  �  ��  �� c�  U�  F�  8�  (�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �%  �8  �M  �c  �|  ��  ��  ��  �� �  �  �  �  �  � # � 0 � = � I � T � ^ � f � n � v � | � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  � 	 �  � 
+ �  �  � + � 8 � D � O � Y � a � i � p � w � } � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �   �  �  �  � % � 2 � > � I � S � \ � c � j � q � w � } � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �   � , � 8 � C � M � V � ] � d � k � q � v � | � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � % � 1 � < � F � O � W � ^ � d � j � p � v � | � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � * � 5 � ? � H � P � W � ^ � d � i � o � u � | � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �   �  �  �  � # � . � 8 � A � J � Q � W � ] � c � i � o � v � } � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  �  �  �  �  � & � 1 � : � C � J � Q � W � ] � c � i � p � w � � � � � � � � ~ � } � {� z� z� y� x� x� �  �  �  �  �  �  �  � �  �  �) �3 �< �D �K �Q �W �] c }j {r z| x	� v	� t
+� s
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+a� 	a� a� a� 	`� 
+_� _� �f  �m  �q  ~s  uu  jt  \s  Or  Cp  8o  -n  $l  k  k j j j j! 
+j) 	j2 j< kG kS ka kq  j�  j�  j�  i�  i�  i�  h�  h� �m  �s  �w  {z  p{  c{  Vz  Iz  =y  1x  'w  v  v  v 	v
+ v  v  v  v$  u,  u6  uA  uN  u\  ul  u~  t�  t�  s�  s�  r�  r�  q� �u  �z  �~  v�  i�  [�  N�  A�  5�  )�  �  �  �  
+�  �  �  �  �  �  �&  �/  �;  �G  �U  �e  �x  ��  ��  �  �  ~�  }�  }� �|  ��  {�  n�  `�  R�  E�  9�  ,�  !�  �  �  	�  �   �  �	  �  �  �  �  �(  �2  �?  �M  �]  �p  ��  ��  ��  ��  ��  ��  �� ��  ��  r�  d�  V�  H�  ;�  .�  "�  �  �  �   �   �   �   �  �	  �  �  �  �  �)  �5  �C  �T  �f  �{  ��  ��  ��  ��  ��  �� ��  u�  g�  Y�  K�  =�  0�  #�  �  �  �   �   �   �   �   �   �  �  �  �  �  �  �)  �8  �H  �Z  �o  ��  ��  ��  ��  ��  �� x�  j�  \�  M�  ?�  1�  #�  �  �  �   �   �   �   �   �   �   �   �   �  �	  �  �  �  �+  �<  �N  �b  �z  Ɣ  ƭ  ��  ��  �� l�  ^�  O�  A�  2�  $�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �-  �@  �T  �k  �  �  �  ��  �� `�  R�  C�  4�  %�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �1  �F  �\  �t  ��  ��  ��  �� �  �  �  �  �  �  � , � 9 � E � P � Y � b � j � q � w � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �  �  �  �  �  � ' � 3 � ? � J � T � ] � d � k � r � x � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �  �  �  � " � . � 9 � E � N � W � ^ � e � l � r � w � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   � 	 �  �  � ( � 3 � > � H � Q � X � _ � e � k � q � w � } � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � " � - � 7 � A � J � R � Y � _ � e � j � p � v � } � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 	 �  �  � & � 1 � : � C � K � R � X � ^ � d � i � p � v � ~ � � � � � � � � � � � � � � � � � � � � � � � � �   �  �  �  �   �  �  �  �   � * � 4 � < � D � K � R � X � ] � c � i � p � w � � � � � � � � � � � � � � � �  �  �  �  � �
+  �  �  �  �  �  �  �  �  � # � , � 5 � > � E � K � Q � W � ] � c � j � q  z } � { � y � w � u � t � r � r � r � q � q � �  �  �  �  �  �  �
+  �
+ �  �  � % � / � 7 � > ~ E } K { Q y W x ] v d tk rt p n� l� k� i� h� g� f� f	� e	� e	� �  �   �#  �#  �   �  �  � � � | y( v0 t8 r	? p	E o
+L m
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+X j_ hg gp ez c� b� `� _� ^� \� \� [� [� [� �!  �(  �+  �+  �)  �$  �  �  { u q n! k* i2 g9 e@ dF cM aS _Z ^b \k [v Y� X� V� U� T� S� R� R� R� R� �(  �.  �2  �2  �1  �-  �'  z!  r  k g d a% _- ]4 \; [B YH XO VV U^ Sg Rr P O� N� L� K� K� J� J� J� J� �-  �4  �7  �8  �7  �4  }/  t)  l#  d ^ [ Y! W) U0 T7 R= QD OK NR MZ Kc Jn I| G� F � E!� D!� C"� C"� C"� C"� C"� �2  �8  �<  �>  �=  �:  y5  o0  f*  ^$ W  T  Q  O!% N!, L!3 K": I"@ H"G G"N F#W D#` C$k B$y A%� ?&� >&� ='� ='� =(� =(� ='� ='� �6  �=  �@  �B  �B  �?  v;  l6  b0  Y*  Q% M% K% I%! G&( E&/ D&6 C&= B'D A'K ?(T >(] =)i <)v ;*� 9+� 8+� 7,� 7,� 7,� 7,� 7,� 8,� �:  �@  �D  �F  �F  }D  s@  h;  _6  U1  L+ G) E* C* A*% ?*, >+3 =+9 <+A ;,H :,Q 9-[ 8.f 6.s 5/� 4/� 30� 20� 11� 11� 21� 20� 30� �>  �D  �H  �J  �J  {I  pE  e@  [;  R6  H1 B. ?. =. ;." 9/) 8// 7/6 60> 50F 41O 31Y 22d 12q 03� /4� .4� ,5� ,5� ,5� -5� -4� .4� �A  �H  �L  �N  �N  yM  nJ  bE  X@  N<  E7  =3 93 73 63 43& 33- 244 14< 05D /5L .6V -6b ,7o +7 *8� (8� '9� &9� '9� (9� (8� )8� �E  �K  �O  �R  �S  wR  lO  _I  VF  LB  B=  88 48 28 18 /8$ .8+ -92 ,99 +:A *:J );T (;_ '<m %<} $=� #=� "=� !>� !>� "=� #=� #<� �I  �O  �S  �V  W  uV  jS  ]O  SL  JH  @D  6@ /= -= += *>! )>( (>/ '>7 &?? $?H #@R "@] !Aj  Az A� B� B� B� B� B� A� A� �M  �S  �X  �[  }\  r[  gX  [T  QR  HN  =J  3G  *C &C %C $C #D% "D, !D4  E< EE EO FZ Fh Fx G� G� G� H� G� G� F� F� �R  �X  �]  �`  za  p`  e^  YZ  OX  DT  9Q  /N  &K  J J J J! K( K0 K8 KB LL LW Le Mu M� M� M� N� M� M� L� L� �W  �]  �b  �e  wf  mf  cd  Va  J^  ?[  5X  +V  "T R
+ R R R R$ R, R4 R> SH ST Sb Tr T� T� 	T� T� 	T� 
+S� R� R� �]  �d  �h  ~k  tl  kl  _j  Rg  Ed  :b  0`  &^  ]  [ Z Z Z [  [' [0 
+[: 	[E [Q [^ [m [� [�  [�  [�  Z�  Z� Z� Y� �d  �k  �n  {p  rr  gq  Yp  Ln  @l  5k  *i  !g  f  f e
+ e e d d#  d,  d5  d@  dL  dZ  di  d{  d�  c�  c�  b�  b�  b�  a� �l  �q  �u  xw  mx  `w  Rv  Fu  9t  .t  #r  q  q  q  q  p  p  p  o  o&  o0  o;  oG  oT  od  ou  n�  m�  m�  l�  k�  k�  k� �s  �x  }{  s}  e~  X~  K~  >~  2~  &}  |  |  |  }   }  |  |  |  |  |!  |)  |4  {@  {N  {^  {o  z�  z�  y�  x�  w�  v�  v� �z  �  x�  k�  ]�  O�  B�  5�  )�  �  �  �  �   �   �   �  �  �  �  �  �"  �,  �8  �F  �V  �h  �|  ��  ��  ��  ��  ��  �� ��  }�  o�  a�  S�  E�  8�  +�  �  �  �  �   �   �   �   �   �  �  �  �  �  �"  �.  �=  �M  �^  �s  ��  ��  ��  ��  ��  �� ��  r�  d�  V�  H�  :�  ,�  �  �  �  �   �   �   �   �   �   �   �  �  �  �  �  �#  �1  �A  �S  �g  ��  ��  ��  ��  ��  �� u�  g�  Y�  J�  <�  -�   �  �  �  �   �   �   �   �   �   �   �   �   �   �  �  �  �  �$  �5  �G  �[  �r  ��  ��  ��  ��  �� j�  [�  M�  >�  /�  !�  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �'  �9  �M  �d  �~  ܙ  ܰ  ��  �� ]�  O�  @�  2�  "�  �  
+�   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �*  �?  �U  �m  �  ��  ��  �� � 	 �  �  �  �  �  � ( � 4 � A � L � U � ] � e � l � r � x � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �  �   �   �  �  �  � # � / � ; � F � P � X � _ � f � l � r � x � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � * � 5 � @ � J � R � Y � ` � f � l � r � x � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � $ � / � 9 � C � L � S � Z � ` � f � k � q � w � ~ � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � ) � 3 � = � E � M � T � Z � _ � e � j � p � w �  � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � " � , � 6 � > � F � M � S � Y � ^ � d � j � p � w � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   �  �  �  � & � / � 7 � ? � F � L � R � X � ] � c � j � q � y � � � �  � ~ � | � z � x � x � w � w � w � �  �  �  �  �  �   �  �  �  �  � ( � 1 � 9 � @ � F � L � R  W } ] { c z k x s v } t � q � p � n � l � k � j � j � j � j � �  �  �  �  �  �  �  � 	 �  �  � ! ~ * { 2 y 9 w @ u F s L r Q p W n ^ m e k n i w g � e � c � b � ` � _ � _� ^� ^� ^� �  �  �   �  �  �  �  �  ~ y  u  r # o + m3 k: i@ gF fL dR cY a` _i ^s \ Z� Y� W� V� U	� T� T� T� T� �  �%  �(  �(  �%  �!  �  {  t n	 i f	 d
+% b
+- `4 ^: ]@ [G ZM XT W\ Ud To R{ P� O� N� L� L� K� K� K� K� �&  �+  �/  �/  �-  �)  }$  t  l  e _ \ Z X' V. T5 S; RB PH OP NW L` Kk Ix H� F� E� D� C� C� C� C� C� �+  �1  �4  �5  �4  �1  x+  o&  f   ^ W T Q O# N* L1 K7 I> HD GL ET D] Cg At @� ?� =� <� ;� ;� <� <� <� �0  �6  �9  �;  �:  ~7  s2  j-  a'  Y!  Q	 L J H F& E- C3 B: AA @H >P =Y <d ;q 9� 8� 7 � 6 � 5!� 5!� 5"� 5!� 6!� �4  �:  �>  �?  �?  {<  p8  g2  ]-  T(  L" F C A ?" > ) = 0 ; 6 :!= 9!E 8"M 7"W 6#b 4#n 3$~ 2$� 1%� /%� /&� /&� /&� 0&� 0&� �8  �>  �B  �C  �C  xA  n=  c8  Z3  Q.  H( @$ =# ;$ 9$ 8$& 6$, 5%3 4%: 3&B 2&J 1'T 0'_ /(l .({ ,)� +*� **� )*� )+� *+� **� +*� �<  �B  �F  �G  �G  vE  lB  a=  W8  N3  D.  <)	 7( 5( 3( 2(# 0() /)0 /*7 .*? -+H ,+R +,] *,j (-y '-� &.� %.� $/� $/� %/� %/� &.� �?  �E  �I  �K  ~L  tJ  jG  ^B  T=  K9  A4  8/ 2- 0- .- --  +-' *.. ).5 )/= (/F '0O %0[ $1h #1w "2� !2� 3� 3� 3� 3�  3� !2� �C  �I  �M  �O  |P  sO  hL  \F  RC  I?  ?;  66 .2 +2 )2 (2 &2$ %3+ $32 #4: "4C !5M  5X 6e 6u 7� 7� 7� 8� 8� 8� 7� 7� �G  �M  �Q  �S  {T  qS  fP  ZL  PI  GE  =A  3=  *9	 %7 #7 "8 !8"  8( 80 98 9A :K :V ;c ;r ;� <� <� =� =� <� <� ;� �K  �Q  �U  �X  yY  nX  dV  XQ  NO  EK  :G  0C  '@  > > > > >% >- ?5 ?> ?H @S @` Ap A� A� A� B� B� A� A� @� �P  �V  �Z  �]  v^  l]  b[  VW  LU  AQ  6N  ,K  #H  E	 D D E E" E) E1 E; FE FP G^ Gm G G� 	G� G� G� 	G� 
+F� F� �U  �[  �`  }b  sc  jb  `a  S^  GZ  <W  2U  (R  P  N L L L L M% M. M7 
+MB 	MM NZ Ni N{ N� N�  M�  M� M� M� L� �[  �b  �f  zh  qi  hi  \g  Od  Ba  7_  -\  #Z  X  W V	 	U U U U" U* U4  U>  UJ  VW  Ve  Uw  U�  U�  U�  T�  T�  S�  S� �b  �h  �l  wn  oo  cn  Vl  Ij  =h  2f  'e  c  b  a  	` `  _  _  _  _&  _/  _:  _E  _S  _a  ^r  ^�  ]�  ]�  \�  \�  [�  [� �j  �o  }r  ut  ju  ]t  Os  Br  6p  +o   n  m  l  
+l  k  k  j  j  j  j!  i*  i4  i@  iN  i\  im  h�  h�  g�  f�  e�  e�  d� �q  �v  zy  p{  b{  U{  Hz  ;z  /z  #y  x  w  
+w  w   w  w  v  v  v  v  v#  v.  u:  uG  uV  uh  t|  t�  s�  r�  q�  p�  p� �y  }  v  h�  Z�  L�  ?�  2�  %�  �  �  
+�  �   �   �   �  �  �  �  �  �  �&  �2  �?  �O  �`  �u  ��  ��  ��  �  ~�  ~� ��  z�  l�  ^�  P�  B�  5�  '�  �  �  
+�   �   �   �   �   �   �  �  �  �  �  �  �(  �6  �E  �W  �k  ��  ��  ��  ��  ��  �� ~�  p�  a�  S�  E�  7�  )�  �  �  	�   �   �   �   �   �   �   �   �   �  �	  �  �  �  �*  �:  �L  �`  �x  ��  ��  ��  ��  �� s�  d�  V�  G�  9�  *�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �.  �@  �T  �j  ��  ��  ��  ��  �� g�  X�  J�  ;�  ,�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �   �2  �F  �]  �v  Ԓ  ի  ��  �� [�  L�  =�  /�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �$  �8  �N  �g  ��  �  �  �� �  �  �  � 	 �  �  � $ � 0 � < � G � Q � Y � ` � g � m � s � y �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �   � + � 7 � B � K � S � [ � a � g � m � s � y �  � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � & � 1 � ; � E � M � U � [ � a � g � l � r � x �  � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �   � * � 5 � > � G � N � U � [ � a � f � l � r � x � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 	 �  �  � $ � . � 8 � @ � H � N � T � Z � _ � e � k � q � x � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ( � 1 � 9 � A � H � N � S � Y � ^ � d � j � q � z � � � � � � � � � � � � � � � �  �  � ~ � �   �   �   �   �   �   � 	 �  �  � " � * � 2 � : � A � G � M � R � X � ] � d � k  s } } { � x � v � u � s � q � p � p � p � p � �  �
+  �  �	  �  �   �  �  �  �  � $ � , � 3  : } A { G y L w R v W t ] r d p m o v l � j � i � g � e � d � c � c � b � c � �  �  �  �  �  �  �  �  �  ~  z  v % t - q 4 o : n @ l F j L i R g X f _ d g b q ` | ^ � \ � [ � Y � X � X � X � W � W � �  �  �  �  �  �  �  ~	  w
+ r  n  j  h ' e . d 4 b ; ` @ _ F ] L \ S Z Z X b W l U w S � R � P� O� N� M� M� M� M� �  �"  �%  �%  �"  �  }  u  n g c _ ]! [( Y/ W5 V; TA SG QN PU N^ Mg Ks I	� H	� G
+� E
+� D� D� C� C� D� �$  �)  �,  �,  �*  �&  w!  n  f  _ Y U
+ S Q" O) M/ L6 K< IB HI FQ EZ Dd Bp @ ?� >� <� ;� ;� ;� ;� <� �)  �/  �2  �2  �1  |-  r(  i#  a  Y  Q L J H F$ E+ C1 B7 A> @E >M =V <a :m 9| 7� 6� 5� 4� 3� 4� 4� 4� �.  �4  �7  �8  �6  x4  n.  e*  \$  T  L F B @ ?  =' <- ;4 9: 8B 7J 6S 5^ 3j 2y 0� /� .� -� -� -� .� .� �2  �8  �;  �<  �<  v9  k4  b/  Y*  P%  G  @
+ < : 8 6# 5) 40 37 2> 1G /P .[ -g ,v *� )� (� ' � & � ' � ( � ( � �6  �<  �?  �A  }@  t>  i:  _5  V0  M+  D%  ;  6 3 2 0  /& .- -4 , ; + D *!N )!X '"e &"t %#� ##� "$� !$� !%� "%� "$� #$� �:  �?  �C  �E  {D  rC  g?  ]:  S6  J1  A,  8& 1# ." ," *" )"# (#* '#1 &$9 %%A $%K #&V "&c !'r '� (� (� )� )� )� )� (� �>  �C  �G  �I  zI  pG  fD  Z?  Q;  G7  >2  5-  ,(	 (' '' %' $'! #(' "(. !)6  )? *I *T +` +o ,� ,� -� -� -� -� -� -� �A  �G  �K  �M  xM  nL  dI  XD  O@  F=  =8  34  */ $, !,  , - -% -, .4 .< /F /Q 0^ 0m 1 1� 1� 2� 2� 2� 1� 1� �E  �K  �O  �Q  vR  mP  bN  VI  MF  DC  ;?  1:  '6 2 2 2 2 2" 3) 31 4: 4D 4O 5\ 5k 6} 6� 6� 7� 7� 6� 6� 6� �I  �O  �S  ~V  uV  jU  `S  UO  LL  BI  8E  .A  $=  : 8 8 8 9 9& 9. 97 :A :L ;Y ;h ;z 
+;� 	<� <� <� <� 	;� 
+;� �N  �T  �X  |[  r[  hZ  ^X  SU  IR  >N  4K  *G  !D  B @ ? ? ? @# @+ @4 
+@> 	AJ AV Ae Av A� A�  A�  A� A� A� @� �T  �Y  �^  y`  p`  f`  ]^  Q[  EW  :T  /Q  %O  L  J  H G G G G  H( H1 H;  HG  HS  Hb  Hs  H�  H�  H�  G�  G�  G�  G� �Z  �`  �c  we  nf  ef  Yd  L`  @]  5[  *Y   W  U  S  R Q P  P  P  P%  P.  P8  PC  PP  P^  Po  P�  O�  O�  N�  N�  M�  M� �a  �f  }i  tl  lm  ak  Si  Fg  :d  /c  $a  _  ^  \  \  [  Z  Z  Z  Y!  Y)  Y3  Y?  YL  YZ  Yk  X~  X�  W�  W�  V�  U�  U� �h  �m  zp  rr  gr  Zq  Lp  ?n  3m  (k  j  h  g  g   f  f	  e  e  d  d  d$  d.  d:  cG  cU  cf  cz  b�  a�  `�  _�  _�  ^� �o  t  xw  nx  `x  Rw  Ew  8v  +v   t  s  s  r   r   r   q  q
+  q  p  p  p  p'  p3  o@  oP  o`  nt  n�  m�  l�  k�  j�  i� �w  |{  s}  e~  W  I  <  /�  "  ~  ~  ~            ~   ~  ~
+  ~  ~  ~  ~   ~+  }9  }H  }Y  |m  |�  {�  z�  y�  x�  w� �  w�  i�  [�  M�  ?�  2�  $�  �  �  �   �   �   �   �   �   �   �  �  �  �  �  �"  �/  �?  �P  �d  �{  ��  ��  ��  ��  �� {�  m�  ^�  P�  B�  4�  &�  �  �  �   �   �   �   �   �   �   �   �   �   �  �  �  �  �$  �4  �F  �Y  �p  ��  ��  ��  ��  �� p�  a�  S�  D�  6�  '�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �  �	  �  �  �'  �9  �M  �d  �~  ��  ��  ��  �� d�  U�  G�  8�  )�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �,  �@  �V  �o  ͋  ̨  ��  �� X�  I�  :�  ,�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �2  �H  �`  �{  �  �  �� �   �   �   �  �  �  � ! � , � 8 � C � L � T � [ � b � h � n � t � z � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   � 	 �  �  � ' � 2 � = � F � O � V � \ � b � h � n � s � y � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � " � , � 7 � @ � I � P � V � \ � b � g � m � s � y � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � & � 0 � : � B � J � P � V � [ � a � f � l � r � z � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �   � * � 3 � ; � C � I � O � U � Z � _ � e � k � r � { � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � # � , � 4 � < � C � I � N � S � Y � ^ � d � k � s � } � � � �  � } � { � y � x � w � w � u � �   �   �   �   �   �   �  �  �  �  � & � - � 5 � < � B � G � M  R } X { ^ y e x m v v s � q � o � m � l � j � i � h � h � i � �  �  �  �  �   �   �   � 
+ �  �     | ' z . w 5 u ; t A r G p L o R m X k _ i f g p e { c � b � ` � ^ � ] � \ � \ � [ � [ � �  �  �  �  �  �  �   �  {  w  s  o ! l ( j / h 5 g ; e A c F b L ` R _ Y ] a [ j Y u W � U � T � S � Q � P � P � P � P � �  �  �  �  �  �    w  q  k  g  d  a " ^ ) ] / [ 5 Y ; X A V F U M S T R \ P e N p L } K � I � H � G � F � F � F � E � �  �   �"  �"  �  �  w  o  h  a
+ ]  Y  V  T # R * P 0 O 5 N ; L A K H I O GW Fa Dl Cy A� @� >� =� <� <� <� <� �"  �'  �)  �)  �'  {#  q  i  a  Z S O L J H$ G* E0 D6 C= AC @K >	S =	] ;
+h :
+v 8� 7� 5� 4� 3� 3� 3� 4� �'  �,  �/  �/  �.  w*  m%  d   \  T  L F C A ? >% <+ ;2 :8 8? 7G 6P 4Z 3f 1t 0� .� -� ,� +� ,� ,� -� �,  �1  �4  �5  }4  t1  j+  `'  X!  O  G  @	 ; 9 7 6! 4' 3- 24 1; 0C .M -W ,c *q )� '� &� %� $� %� &� &� �1  �6  �9  �:  {9  q6  g1  ]-  T(  L"  C  ; 5 2 1 / .$ ,* +1 *8 )@ (J 'T &` $o #� !�  � � � �  �  � �4  �:  �=  �>  y=  o;  e7  [2  R-  I(  @#  8 0
+ , * ) '  &' %- $5 #> "G !R  ^ l ~ � � � � � � � �8  �=  �A  �B  wB  m@  c<  Y7  O3  F.  =)  5$  -  ' % # ! !$  + 2 ; E  O !\ !j "{ "� "� #� #� #� #� #� �<  �A  �D  F  uF  lD  bA  W<  M8  D4  <0  3+  *& #"  ! ! " "! "( #0 #8 $B %M %Y &h &y &� '� '� '� (� '� '� �@  �E  �H  }J  tJ  jI  `F  UA  L>  C:  :6  12  (-   )	 ' ' ' ' (% (- (6 )@ )K *W *f +w +� ,� ,� ,� ,� ,� +� �D  �I  �L  |N  sO  iN  ^K  SG  JD  B@  9=  /8  %4  0 - , - - -# -* .3 .= /H /U 0c 
+0t 	0� 1� 1� 1� 1� 0� 0� �H  �M  �Q  zS  qT  gR  ]P  RL  IJ  @F  5B  +>  ":  7 4	 3 3 3 3  4( 41 
+5; 5F 5R 6` 6q 6�  6�  6�  6�  6�  6� 5� �M  �R  �V  xX  oY  eX  [U  QR  GO  <L  1H  'D  A  ?  < : 	: ; ; ;& ;. ;8 <C  <O  <^  <n  <�  <�  <�  ;�  ;�  ;�  ;� �R  �X  \  v]  m^  c]  Z\  NX  BT  7Q  -N  #K  I  F  D C C  C  C  C#  C+  C5  C@  CM  C[  Ck  C~  C�  B�  B�  A�  A�  A� �X  �^  }a  sc  kd  bc  Wa  I]  =Z  2X  'U  S  Q  O  	M M  L  L  K  K  K(  K2  K=  KI  KW  Kg  J{  J�  I�  I�  H�  H�  G� �_  �d  zg  qi  ij  ^i  Pf  Cd  7a  ,_  !]  [  Y  
+X  W  W	  V  U  U  T  T#  T-  T9  TE  TS  Td  Sw  S�  R�  Q�  P�  P�  O� �g  k  wn  op  ep  Wn  Jl  =k  0i  %h  f  d  c  b   b  a  `  `  _  _  _  ^(  ^3  ^@  ^O  ^_  ]r  ]�  \�  [�  Z�  Y�  X� �n  |r  uu  kv  ]u  Ot  Bs  5s  (r  p  o  n  n   n   n   l  l  k  k  k  j  j"  j-  j:  iI  iZ  il  h�  g�  f�  e�  d�  d� �u  zy  p{  b{  T|  F|  9|  ,|  {  z  z  z   z   z   z   y   y  x  x  x  x  x  x%  x2  wA  wR  we  v|  u�  t�  s�  r�  q� ~}  u�  g�  X�  J�  <�  .�  !�  �  �  �   �   �   �   �   �   �   �   �  �	  �  �  �  �)  �8  �J  �]  �s  ��  ��  ��  ��  �� x�  j�  \�  M�  ?�  1�  #�  �  �  �   �   �   �   �   �   �   �   �   �   �   �  �  �  �  �-  �?  �R  �h  ��  ��  ��  ��  �� m�  _�  P�  A�  3�  $�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �!  �3  �G  �]  �v  ��  ��  ��  �� a�  S�  D�  5�  &�  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �%  �9  �O  �h  ƅ  Ƣ  Ƽ  �� U�  G�  8�  )�  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �+  �A  �Z  �t  �  �  �� �   �   �   �  � 
+ �  �  � ( � 4 � > � H � P � W � ] � c � i � o � t � { � � � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  � # � . � 8 � B � J � Q � X � ] � c � h � n � t � { � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � ( � 2 � < � D � K � Q � W � ] � b � g � m � t � { � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � " � + � 5 � = � E � K � Q � V � [ � a � f � m � t � | � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � % � . � 6 � > � D � J � P � U � Z � _ � f � l � u � ~ � � � � � � � � � � � � � � � � ~ � | � �   �   �   �   �   �   � 	 �  �  �  � ' � / � 7 � = � C � I � N � S � Y � _ � e � m ~ w | � z � x � u � s � r � q � p � p � n � �   �   �   �   �   �   �  �  �  �  � ! � ) � 0  7 } = { B y H x M v R t X r _ q g o p l { j � h � f � e � c � b � a � a � a � �  �  �  �  �   �   �   �  �  |  x  u # r ) p 0 n 6 m < k A i G h L f R d Y c ` a i _ t ] � [ � Y � W � V � U � U � T � U � �  �  �  �  �  �  �   {  u  p  l  h  f # c * a 0 ` 6 ^ ; ] A [ F Z L X S V [ T d R n Q { O � M � L � K � J � I � I � I � �  �  �  �  �  �  y  q  k  e  a  ]  Z  X $ V * T 0 S 6 Q ; P A N G M N K V I _ G i F v D � C � A � @ � ? � ? � > � ? � �  �  �  �  �  z  r  j  b  \ W  S  P  N  L % J + H 0 G 6 F < D B C I A Q ? Z > e < r : � 9 � 8 � 6 � 6 � 5 � 5 � 5 � �   �$  �&  �&  $  u   l  d  \  T N
+ J G  D  B   @ % ? + >1 <7 ;> 9E 8M 6V 5a 3n 1~ 0� /� -� ,� ,� ,� ,� �%  �*  �,  �-  {+  r'  h"  _  W  O  H A
+ > ; 9 8! 6& 5, 32 2	9 1	A /	I .
+S ,
+^ +l )| (� &� %� $� #� $� %� �*  �/  �2  �2  y1  o.  e)  \$  S  K  C  < 5 3 1 / ." -( +. *5 )= 'F &P $\ #j "{  � � � � � � � �/  �3  �6  �7  v6  m3  c/  Y*  P%  H   ?  8  0 , * ( ' %$ $* #2 ": !C  N Z h x � � � � � � � �3  �7  �:  ~;  t;  k8  a4  W/  N+  E&  =!  4  - & # "   ! ' / 7 A K W e v � � � � � � � �6  �;  �>  |?  s?  i=  _9  U5  L0  C,  :'  2"  * "	     $ , 4 > I U c t � � � � � � � �:  �?  �B  {D  qC  hB  ^>  S:  J6  A2  9-  1)  (%         " ) 2 < F  S  a !q !� "� 
+"� 	"� 	"� 
+"� !� �>  �C  �F  yH  pH  gF  \D  R?  I;  @8  84  /0  ',  ' #
+ ! ! " "  "' #/ $9 $D %P 
+%^ 	&o &� &� &� &� &� &� &� �B  �G  �J  xL  oL  eK  [H  PD  GA  ?>  7;  -6  $1  -  * ( ' ( ( (% 
+)- 	)7 *B *N +\ +l +  +�  +�  +�  +�  +�  *� �F  �K  O  vQ  mQ  cP  ZM  OJ  GG  >D  3@  )<   8  4  1 / 	. . / /# /+ 05  0?  0L  1Y  1i  1|  1�  1�  0�  0�  0�  /� �K  �P  }T  uV  kV  bU  XS  NP  EM  :I  /E  %B  >  ;  9 	7 6 6  6  6   6)  62  7=  7I  7W  7g  7y  7�  6�  6�  6�  5�  5� �P  �V  |Z  r[  i[  `[  WY  LV  @R  5N  *K   H  F  C  A @
+  ?  >  >  >  >&  >/  >:  >F  >T  >d  >v  =�  =�  <�  <�  ;�  ;� �W  �\  y_  pa  ha  _a  T^  G[  :W  /U  %R  P  M  K  J  I	  H  G  G  F  F"  F,  F7  FC  FQ  F`  Es  E�  D�  D�  C�  B�  B� �]  b  we  ng  gh  [f  Nc  Aa  4^  )\  Z  W  V  T   S  R  Q  Q  P  O  O  O'  O2  O?  OM  N]  No  N�  M�  L�  K�  J�  J� �e  |i  tl  mn  bm  Tk  Gi  :g  -e  "d  b  `  	_   ^   ^   ]  \  [  Z  Z  Y  Y"  Y-  Y:  YH  XX  Xk  W�  W�  V�  U�  T�  S� �l  yp  ss  hs  Zr  Lq  ?p  2o  %n  l  k  	j   j   i   i   h   g  f  f  f  e  e  e'  d4  dC  dS  de  c{  b�  a�  `�  _�  ^� }t  ww  ny  _y  Qy  Cy  6x  )x  w  v  
+u   u   u   v   u   t   t   s  s  s  r  r  r   r,  r;  qL  q_  qt  p�  o�  n�  l�  k� {{  r~  d~  U  G�  9�  +�  �  �  
+�   �   �   �   �   �   �   �   �   �   �  �
+  �  �  �#  �2  �C  �V  �l  ��  �  ~�  }�  |� v�  h�  Y�  K�  <�  .�   �  �  
+�   �   �   �   �   �   �   �   �   �   �   �   �  �	  �  �  �'  �8  �L  �b  �|  ��  ��  ��  �� j�  \�  M�  ?�  0�  !�  �  
+�   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �-  �@  �V  �o  ��  ��  ��  �� _�  P�  A�  3�  #�  �  
+�   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �3  �I  �b  �~  ��  ��  �� S�  D�  5�  &�  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �%  �;  �S  �n  ߌ  ݩ  �� �   �   �   �   �  �  �  � $ � / � : � C � K � R � Y � ^ � d � i � o � u � | � � � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �  �  �  �  � ) � 4 � = � E � L � S � X � ^ � c � i � n � u � } � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   � 
+ �  �  � # � . � 7 � ? � F � M � R � X � ] � b � h � n � u � ~ � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ' � 0 � 8 � @ � F � L � Q � V � [ � a � g � n � v � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �   � 
+ �  �  � ! � ) � 2 � 9 � ? � E � J � P � U � Z � ` � g � o � x � � � � � � � � } � | � { � z � w � u � �   �   �   �   �   �   �  �  �  �  � # � + � 2 � 8 � > � D � I � N  S } Y { ` y h w q u | s � p � o � m � k � j � i � i � g � �   �   �   �   �   �   �   � 
+ �  �    } $ z + x 2 v 8 t = r B q H o M m S l Y j a h j f t d � a � _ � ^ � \ � [ � [ � Z � Z � �   �  �  �   �   �   �   �  z  u  q  n  k % i + g 1 f 7 d < c A a G _ M ^ S \ [ Z d X n V { T � R � Q � P � O � N � N � M � �
+  �  �  �  �  �  |   u   n  i  e  b  _  ] % [ + Y 1 X 6 V ; U A S G Q N P U N ^ L h J u H � G � E � D � C � B � B � B � �  �  �  �  �  {  s  l   e  _  [  W  T  Q  O % N + L 0 K 6 I < H B F H E P C Y A c ? o > ~ < � ; � : � 9 � 8 � 8 � 8 � �  �  �  �    u  l  d  ]  V  Q  M  J  G  E   D & B + A 1 ? 6 > = < D ; K 9 T 7 _ 6 k 4 z 2 � 1 � 0 � / � / � . � . � �  �"  �$  �$  z!  q  g  _  W  P
+  I E  A  >  <  : ! 9 & 7 , 6 2 4 8 3 ? 1 G 0 P . [ - g + v * � ( � ' � & � % � %� %� �#  �(  �*  �*  w(  m%  d   [  R  K  C =	 9 6 3 1 0" /' -- ,4 *; )C (M &X %e #t "�  � � � � � 	� �(  �-  �/  ~/  t.  j+  a&  X!  O  G  ?  8 1
+ . + ) ( '# %) $	0 #	7 !
+@  
+J U b r � � � � � � � �-  �1  �4  |4  r3  h1  _,  U'  L#  D  <  4  - & $ " !  % , 4 = G S a q � � � � � � � �1  �5  �8  z9  p8  g6  ]2  S-  J(  B$  9  1  * #     ! ) 1 : E Q _ o � � � � � � � �5  �9  �<  x=  o=  e:  [7  R2  I.  @*  7%  /!  (    
+     & . 8 B O \ l  	� � � � � 	� �8  �=  �@  wA  mA  d?  Z<  P8  G3  >0  6+  .'  '#         # , 5 @ 
+L 	Z i | � � � � � � �<  �A  D  uE  lE  cD  YA  O=  F9  >6  52  ..  %*  %  !     
+" * 3  >  J !W !g  !y  !�  !�  !�  !�  !�   � �@  �E  }H  tJ  kJ  bI  XF  NB  E?  =<  59  +4  "/  +  ( $
+ 	# # # $  $( %1  %<  %H  &U  &e  &w  &�  &�  &�  &�  %�  %� �E  �I  {M  sO  jO  `N  WK  MH  DE  <B  1=  '9  5  2  . 
+,
+ + *  *  *  *&  +/  +9  +E  ,S  ,b  ,u  ,�  +�  +�  +�  *�  *� �I  �N  zR  qT  hT  _S  VQ  LN  CK  7G  -C  #?  <  8  6 3	  2  2  1  1  1#  1,  27  2C  2P  2`  2r  2�  1�  1�  0�  0�  /� �O  �T  xW  oY  fY  ^Y  UW  IS  >O  2L  (H  E  B  @  = <  ;  :  9  9  9   9)  94  9@  9N  9]  9o  8�  8�  7�  7�  6�  5� �U  Z  v]  m_  e_  ]_  R\  DX  8U  -R  "O  L  J  
+H  F  E  D
+  C  B  A  A  A&  A1  A=  AJ  AZ  Al  @�  ?�  ?�  >�  =�  <� �\  |`  sc  le  df  Yd  Ka  >^  2[  &Y  V  T  R  Q   O   N  M  L  K  K  J  J"  J,  J9  JG  JV  Ih  I~  H�  G�  F�  E�  D� �c  yg  rj  kl  `k  Ri  Df  7d  *b  `  ^  ]  [   Z   Y   X   W  V  V  U  T  T  T'  T4  TB  SR  Sd  Ry  R�  Q�  P�  O�  N� ~j  wn  pq  fq  Xp  Jo  <m  /l  "j  i  g  f   e   e   e   c   b   b  a  a  `  `  `!  _.  _<  _M  ^^  ^t  ]�  \�  [�  Z�  Y� {r  uv  kw  ]v  Ov  Au  3u  &t  s  r  q   q   q   q   q   o   o   n   n  n  m  m  m  m&  l5  lF  kX  km  j�  i�  h�  g�  f� yz  p|  a|  S}  D}  6~  (~  }  }  }   }   }   ~      ~   }   }   |   |   |   |  |  |  |  |,  |<  |O  {e  {~  z�  y�  x�  w� s�  e�  V�  H�  9�  +�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �!  �2  �F  �[  �t  ��  ��  ��  �� h�  Z�  K�  <�  -�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �&  �:  �O  �h  ��  ��  ��  �� \�  M�  ?�  0�  !�  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �-  �C  �[  �w  ��  ��  �� P�  A�  2�  #�  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �5  �M  �i  ׆  ף  ֽ �   �   �   �   �  �  �  �   � + � 5 � ? � G � N � T � Z � _ � d � j � p � v � ~ � � � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  � % � 0 � 9 � A � H � N � T � Y � ^ � c � i � o � w �  � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � ) � 2 � : � A � H � M � S � X � ] � b � i � o � x � � � � � � � � � � � � � � � � � � � � � � �   �   �   �   �   �  �  �  �  � " � + � 4 � ; � A � G � L � Q � V � \ � b � h � p � z � � � � � � � � � � � � � � � �  � | � �   �   �   �   �   �   �  �  �  �  � % � - � 4 � : � @ � E � J � P � U � [ � a � i � r  } } � { � x � v � t � s � s � p � n � �   �   �   �   �   �   �  �  �  �  �  � & � - � 3  9 } ? { D y I x N v T t Z s b p k n u l � j � h � f � d � c � b � b � ` � �   �   �   �   �   �   �   �  �  |  x  u  s & q - o 2 m 8 k = j B h H g N e T c [ a d _ n ] { [ � Y � W � V � U � T � T � T � �   �   �   �   �   �   �   y  s 
+ o  k  g  e   c & a , _ 2 ^ 7 \ < [ B Y G W N V U T ^ R h P t N � L � J � I � H � G � G � G � �	  �  �  �
+  �  ~   v   o   h  c  _  [  X  V ! T & S , Q 1 P 6 N < M B K H I P H X F b D n B } @ � ? � = � = � < � < � < � �  �  �  �    v  n  f   `  Y  U  Q  N  K  I ! H & F + E 1 C 6 B < @ C > K = S ; ] 9 i 7 x 6 � 4 � 3 � 2 � 2 � 1 � 1 � �  �  �  �  z  p  h  _
+  X  Q  L 
+ H  D  A  ?  = ! < & : , 9 1 7 7 6 > 4 F 3 O 1 Y / e . s , � + � * � ) � ( � ( � ( � �  �   �!  !  u  l  c  Z  R  K  D  @  <  8  6  4  3 ! 1 ' 0 , . 3 - : + B * K ( U & a % p $ � " � ! �   �   �  �  � �"  �&  �(  |'  r%  i"  _  W  N  F  ?  8 4  1  .  ,  *  ) " ' ( & . $ 6 # > " G   R  ^  m  ~  �  �  �  � � � �'  �+  �-  y-  p+  f(  ]$  T  K  C  ;  4 -		 ) & $ " !  $ * 2 : D O \ j | � � � � � 	� �+  �/  �1  w2  n1  d.  [*  Q%  I   @  8  1  ) #	 	      	' 	. 
+7 
+A M Z i { � � � � � � �/  �3  6  v6  l5  c3  Y/  P+  G&  >!  6  .  '    
+     # + 4 ? J X g 
+y � � � � � � �3  �7  ~:  t;  k:  a8  X5  N0  E,  ='  5#  -  &          ( 2 
+< H U e v � �  �  �  �  � �6  �;  |>  s?  j?  `=  W9  M6  D1  <.  4*  ,&  %"     	  
+ 	  & / : F S  b  t  �  �  �  �  �  � �:  �?  {B  rC  hC  _B  V?  L;  C7  ;4  30  ,,  $)  $   	 	    $  -  8  D  Q  `  r  �  �  �  �  �  � �>  �C  yF  pH  hH  ^F  UD  K@  C=  ;:  37  *2   -  )  % "	          "   +  !6  !A  !O  !^  "p  "�  !�  !�  !�   �  � �C  �H  xK  oL  fM  ]K  TI  JF  BC  :@  /;  %7  3  /  , ) '  &  %  &  &!  &)  &3  '?  'M  '\  'm  '�  '�  &�  %�  %�  $� �H  L  vP  nQ  eR  \Q  SO  JL  AI  5D  +@  !<  9  6  
+2 0  /  .  -  -  -  -'  -1  -=  -J  -Y  -k  -�  ,�  ,�  +�  *�  *� �M  }R  uU  lW  cW  [V  SU  GQ  ;M  0I  %F  C  ?  =  :   8  7	  6  5  4  4  4$  4.  4:  4G  4W  4h  4}  3�  2�  1�  1�  0� �S  {X  s[  j]  b]  []  OZ  BV  6R  *O   L  I  G  D   B   A  ?  >  =  =  <  <!  <+  <7  <D  <S  <e  ;z  :�  :�  9�  8�  7� �Z  y^  qa  ic  bd  Wb  I^  <[  /X  $U  S  Q  
+O  M   L   J   I  H  G  F  F  E  E'  E3  E@  EP  Da  Dv  C�  B�  A�  @�  ?� ~a  ve  oh  hj  ]i  Of  Bd  4a  (_  ]  [  Y  X   V   V   T   S   R  Q	  P  P  O  O"  O.  O<  OK  N]  Nr  M�  L�  K�  I�  H� {i  tl  no  do  Um  Gl  9j  ,i   g  e  d  b   b   a   `   _   ^   ]   \  \	  [  [  [  Z(  Z6  ZF  YX  Ym  X�  W�  V�  U�  S� yp  st  iu  [t  Ls  >s  0r  #q  o  n  m   m   m   m   l   k   j   i   i   i  h	  h  h  g!  g/  g?  fR  ff  e  d�  c�  b�  a� wx  mz  _z  Pz  Bz  3{  %{  z  y  y   y   y   z   z   z   x   x   w   w   w   w  w  w  w  w&  v6  vI  u_  uw  t�  s�  r�  q� q~  c  T�  E�  6�  (�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �  �,  �?  �U  �m  ��  ��  ��  �� f�  W�  H�  9�  *�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �!  �3  �I  �b  �  ��  ��  �� Z�  K�  <�  -�  �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �	  �  �'  �=  �U  �p  ��  ��  �� M�  ?�  /�   �  �  �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �   �  �  �/  �H  �b  Ѐ  Н  и                 	
+ !"$%&()*+-./02346789;<=>@ABDEFGIJKMNOPRSTUWXY[\]^`abcefgijklnopqstuwxyz|}~���������������������������������������������������������������������������������������������������������������������������������������������                	
+ !"$%&()*+-./02346789;<=>@ABDEFGIJKMNOPRSTUWXY[\]^`abcefgijklnopqstuwxyz|}~���������������������������������������������������������������������������������������������������������������������������������������������                	
+ !"$%&()*+-./02346789;<=>@ABDEFGIJKMNOPRSTUWXY[\]^`abcefgijklnopqstuwxyz|}~��������������������������������������������������������������������������������������������������������������������������������������������� 	
+ !"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~��������������������������������������������������������������������������������������������������������������������������������mft1    !                                   	
+ !"#$%&'()*+,-./01123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~����������������������������������������������������������������������������������������������������������������������������� 		
+  !""#$$%&&'())*+,--./01223456789:;<=>?@BCDEFHIJLMOPRSUWXZ\^`bdfhjmoqtvy|~�������������������������������������������������������������������������������������������������������������������������������� 		
+  !""#$$%&&'())*+,--./01223456789:;<=>?@BCDEFHIJLMOPRSUWXZ\^`bdfhjmoqtvy|~��������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������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+              y�����������������m              f������������������U             E�������������������j#+5?JU`ju~������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������϶��iN��������������������첃\:      {������������������m)            @�����������������              ����������������                 ����������������                 j���������������                 A���������������                ���������������9                 ���������������`                 ����������������                 ����������������                 ����������������                 ����������������                }���������������>                l���������������i                Z����������������                I����������������               9����������������X               )�����������������               �����������������V              ������������������/              �������������������)             ��������������������G     .>Rh������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������Ұ�w]B(  J�������������������}E          �����������������P               ����������������                h���������������                 6���������������                 ���������������                 ���������������H                 ���������������u                 ����������������                 i���������������                 R���������������                >���������������3                +���������������X                ����������������                ����������������                 ����������������"                ����������������\                �����������������                �����������������J               ������������������              ������������������z             w������������������z           L��������������������Wht������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������ңzX:)#  ������������������R             i���������������C                4��������������y                  ���������������                  ���������������                 ���������������O                 ]���������������                 :���������������                 ���������������                ���������������*                 ���������������O                 ���������������t                 ����������������                 ����������������                ����������������3                ����������������g                �����������������                r����������������D               \�����������������              A�����������������_              ������������������K              �������������������W  $1?N`t������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������¾������������������������~S?0#	        ��������������v                  ���������������                  u��������������                 F��������������N                 ���������������                  ���������������                  ���������������                 ���������������D                 ���������������k                 ����������������                 y���������������                 f���������������!                S���������������J                ?���������������w                +����������������
+               ����������������E                �����������������                �����������������M               ������������������.              �������������������*        -E`��������������������ct�����������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������������˷�������|xtplhe���������������jH-
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diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_omx.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_omx.c
new file mode 100755
index 0000000..f4ad92e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_omx.c
@@ -0,0 +1,650 @@
+/* SSE implementation of an optimized profile structure.
+ * 
+ * Contents:
+ *   1. The P7_OMX structure: a dynamic programming matrix
+ *   2. Debugging dumps of P7_OMX structures
+ *   3. Copyright and license information
+ * 
+ * See also:
+ *   p7_omx.ai - figure illustrating the layout of a P7_OMX.
+ *
+ * SRE, Sun Nov 25 11:26:48 2007 [Casa de Gatos]
+ * SVN $Id: p7_omx.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_vectorops.h"
+#include "esl_sse.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+/*****************************************************************
+ * 1. The P7_OMX structure: a dynamic programming matrix
+ *****************************************************************/
+
+/* Function:  p7_omx_Create()
+ * Synopsis:  Create an optimized dynamic programming matrix.
+ * Incept:    SRE, Tue Nov 27 08:48:20 2007 [Janelia]
+ *
+ * Purpose:   Allocates a reusable, resizeable <P7_OMX> for models up to
+ *            size <allocM> and target sequences up to length
+ *            <allocL/allocXL>, for use by any of the various optimized
+ *            DP routines.
+ *            
+ *            To allocate the very memory-efficient one-row matrix
+ *            used by *Filter() and *Score() functions that only
+ *            calculate scores, <allocM=M>, <allocL=0>, and
+ *            <allocXL=0>.
+ *            
+ *            To allocate the reasonably memory-efficient linear
+ *            arrays used by *Parser() functions that only keep
+ *            special (X) state scores, <allocM=M>, <allocL=0>,
+ *            and <allocXL=L>.
+ *            
+ *            To allocate a complete matrix suitable for functions
+ *            that need the whole DP matrix for traceback, sampling,
+ *            posterior decoding, or reestimation, <allocM=M> and
+ *            <allocL=allocXL=L>.
+ *
+ * Returns:   a pointer to the new <P7_OMX>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_OMX *
+p7_omx_Create(int allocM, int allocL, int allocXL)
+{
+  P7_OMX  *ox     = NULL;
+  int      i;
+  int      status;
+
+  ESL_ALLOC(ox, sizeof(P7_OMX));
+  ox->dp_mem = NULL;
+  ox->dpb    = NULL;
+  ox->dpw    = NULL;
+  ox->dpf    = NULL;
+  ox->xmx    = NULL;
+  ox->x_mem  = NULL;
+
+  /* DP matrix will be allocated for allocL+1 rows 0,1..L; allocQ4*p7X_NSCELLS columns */
+  ox->allocR   = allocL+1;
+  ox->validR   = ox->allocR;
+  ox->allocQ4  = p7O_NQF(allocM);
+  ox->allocQ8  = p7O_NQW(allocM);
+  ox->allocQ16 = p7O_NQB(allocM);
+  ox->ncells   = ox->allocR * ox->allocQ4 * 4;      /* # of DP cells allocated, where 1 cell contains MDI */
+
+  ESL_ALLOC(ox->dp_mem, sizeof(__m128) * ox->allocR * ox->allocQ4 * p7X_NSCELLS + 15);  /* floats always dominate; +15 for alignment */
+  ESL_ALLOC(ox->dpb,    sizeof(__m128i *) * ox->allocR);
+  ESL_ALLOC(ox->dpw,    sizeof(__m128i *) * ox->allocR);
+  ESL_ALLOC(ox->dpf,    sizeof(__m128  *) * ox->allocR);
+
+  ox->dpb[0] = (__m128i *) ( ( (unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf)));
+  ox->dpw[0] = (__m128i *) ( ( (unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf)));
+  ox->dpf[0] = (__m128  *) ( ( (unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf)));
+
+  for (i = 1; i <= allocL; i++) {
+    ox->dpf[i] = ox->dpf[0] + i * ox->allocQ4  * p7X_NSCELLS;
+    ox->dpw[i] = ox->dpw[0] + i * ox->allocQ8  * p7X_NSCELLS;
+    ox->dpb[i] = ox->dpb[0] + i * ox->allocQ16;
+  }
+
+  ox->allocXR = allocXL+1;
+  ESL_ALLOC(ox->x_mem,  sizeof(float) * ox->allocXR * p7X_NXCELLS + 15); 
+  ox->xmx = (float *) ( ( (unsigned long int) ((char *) ox->x_mem  + 15) & (~0xf)));
+
+  ox->M              = 0;
+  ox->L              = 0;
+  ox->totscale       = 0.0;
+  ox->has_own_scales = TRUE;	/* most matrices are Forward, control their own scale factors */
+#ifdef p7_DEBUGGING
+  ox->debugging = FALSE;
+  ox->dfp       = NULL;
+#endif
+  return ox;
+
+ ERROR:
+  p7_omx_Destroy(ox);
+  return NULL;
+}
+
+/* Function:  p7_omx_GrowTo()
+ * Synopsis:  Assure that a DP matrix is big enough.
+ * Incept:    SRE, Thu Dec 20 09:27:07 2007 [Janelia]
+ *
+ * Purpose:   Assures that an optimized DP matrix <ox> is allocated for
+ *            a model up to <allocM> in length; if not, reallocate to
+ *            make it so.
+ *            
+ *            Because the optimized matrix is one-row, only the model
+ *            length matters; the target sequence length isn't
+ *            relevant.
+ *
+ * Returns:   <eslOK> on success, and <gx> may be reallocated upon
+ *            return; any data that may have been in <gx> must be 
+ *            assumed to be invalidated.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and any data that may
+ *            have been in <gx> must be assumed to be invalidated.
+ */
+int
+p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL)
+{
+  void  *p;
+  int    nqf  = p7O_NQF(allocM);	       /* segment length; total # of striped vectors for uchar */
+  int    nqw  = p7O_NQW(allocM);	       /* segment length; total # of striped vectors for float */
+  int    nqb  = p7O_NQB(allocM);	       /* segment length; total # of striped vectors for float */
+  size_t ncells = (allocL+1) * nqf * 4;
+  int    reset_row_pointers = FALSE;
+  int    i;
+  int    status;
+ 
+  /* If all possible dimensions are already satisfied, the matrix is fine */
+  if (ox->allocQ4*4 >= allocM && ox->validR > allocL && ox->allocXR >= allocXL+1) return eslOK;
+
+  /* If the main matrix is too small in cells, reallocate it; 
+   * and we'll need to realign/reset the row pointers later.
+   */
+  if (ncells > ox->ncells)
+    {
+      ESL_RALLOC(ox->dp_mem, p, sizeof(__m128) * (allocL+1) * nqf * p7X_NSCELLS + 15);
+      ox->ncells = ncells;
+      reset_row_pointers = TRUE;
+    }
+
+  /* If the X beams are too small, reallocate them. */
+  if (allocXL+1 >= ox->allocXR)
+    {
+      ESL_RALLOC(ox->x_mem, p,  sizeof(float) * (allocXL+1) * p7X_NXCELLS + 15); 
+      ox->allocXR = allocXL+1;
+      ox->xmx     = (float *) ( ( (unsigned long int) ((char *) ox->x_mem  + 15) & (~0xf)));
+    }
+
+  /* If there aren't enough rows, reallocate the row pointers; we'll
+   * realign and reset them later.
+   */
+  if (allocL >= ox->allocR)
+    {
+      ESL_RALLOC(ox->dpb, p, sizeof(__m128i *) * (allocL+1));
+      ESL_RALLOC(ox->dpw, p, sizeof(__m128i *) * (allocL+1));
+      ESL_RALLOC(ox->dpf, p, sizeof(__m128  *) * (allocL+1));
+      ox->allocR         = allocL+1;
+      reset_row_pointers = TRUE;
+    }
+
+  /* must we widen the rows? */
+  if (allocM > ox->allocQ4*4)
+    reset_row_pointers = TRUE;
+
+  /* must we set some more valid row pointers? */
+  if (allocL >= ox->validR)
+    reset_row_pointers = TRUE;
+
+  /* now reset the row pointers, if needed */
+  if (reset_row_pointers)
+    {
+      ox->dpb[0] = (__m128i *) ( ( (unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf)));
+      ox->dpw[0] = (__m128i *) ( ( (unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf)));
+      ox->dpf[0] = (__m128  *) ( ( (unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf)));
+
+      ox->validR = ESL_MIN( ox->ncells / (nqf * 4), ox->allocR);
+      for (i = 1; i < ox->validR; i++)
+	{
+	  ox->dpb[i] = ox->dpb[0] + i * nqb;
+	  ox->dpw[i] = ox->dpw[0] + i * nqw * p7X_NSCELLS;
+	  ox->dpf[i] = ox->dpf[0] + i * nqf * p7X_NSCELLS;
+	}
+
+      ox->allocQ4  = nqf;
+      ox->allocQ8  = nqw;
+      ox->allocQ16 = nqb;
+    }
+  
+  ox->M = 0;
+  ox->L = 0;
+  return eslOK;
+
+ ERROR:
+  return status;
+}  
+
+/* Function:  p7_omx_FDeconvert()
+ * Synopsis:  Convert an optimized DP matrix to generic one.
+ * Incept:    SRE, Tue Aug 19 17:58:13 2008 [Janelia]
+ *
+ * Purpose:   Convert the 32-bit float values in optimized DP matrix
+ *            <ox> to a generic one <gx>. Caller provides <gx> with sufficient
+ *            space to hold the <ox->M> by <ox->L> matrix.
+ *            
+ *            This function is used to gain access to the
+ *            somewhat more powerful debugging and display
+ *            tools available for generic DP matrices.
+ */
+int
+p7_omx_FDeconvert(P7_OMX *ox, P7_GMX *gx)
+{
+  int Q = p7O_NQF(ox->M);
+  int i, q, r, k;
+  union { __m128 v; float p[4]; } u;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx; 			    
+
+  for (i = 0; i <= ox->L; i++)
+    {
+      MMX(i,0) = DMX(i,0) = IMX(i,0) = -eslINFINITY;
+      for (q = 0; q < Q; q++)
+	{
+	  u.v = MMO(ox->dpf[i],q);  for (r = 0; r < 4; r++) { k = (Q*r)+q+1; if (k <= ox->M) MMX(i, (Q*r)+q+1) = u.p[r]; }
+	  u.v = DMO(ox->dpf[i],q);  for (r = 0; r < 4; r++) { k = (Q*r)+q+1; if (k <= ox->M) DMX(i, (Q*r)+q+1) = u.p[r]; }
+	  u.v = IMO(ox->dpf[i],q);  for (r = 0; r < 4; r++) { k = (Q*r)+q+1; if (k <= ox->M) IMX(i, (Q*r)+q+1) = u.p[r]; }
+	}
+      XMX(i,p7G_E) = ox->xmx[i*p7X_NXCELLS+p7X_E];
+      XMX(i,p7G_N) = ox->xmx[i*p7X_NXCELLS+p7X_N];
+      XMX(i,p7G_J) = ox->xmx[i*p7X_NXCELLS+p7X_J];
+      XMX(i,p7G_B) = ox->xmx[i*p7X_NXCELLS+p7X_B];
+      XMX(i,p7G_C) = ox->xmx[i*p7X_NXCELLS+p7X_C];
+    }
+  gx->L = ox->L;
+  gx->M = ox->M;
+  return eslOK;
+}
+
+
+/* Function:  p7_omx_Reuse()
+ * Synopsis:  Recycle an optimized DP matrix.
+ * Incept:    SRE, Wed Oct 22 11:31:00 2008 [Janelia]
+ *
+ * Purpose:   Recycles <ox> for re-use.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_omx_Reuse(P7_OMX *ox)
+{
+  ox->M              = 0;
+  ox->L              = 0;
+  ox->totscale       = 0.0;
+  ox->has_own_scales = TRUE;	/* default assumes a Forward matrix, with its own scale factors */
+#ifdef p7_DEBUGGING
+  ox->debugging      = FALSE;
+  ox->dfp            = NULL;
+#endif
+  return eslOK;
+}
+
+
+
+
+/* Function:  p7_omx_Destroy()
+ * Synopsis:  Frees an optimized DP matrix.
+ * Incept:    SRE, Tue Nov 27 09:11:42 2007 [Janelia]
+ *
+ * Purpose:   Frees optimized DP matrix <ox>.
+ *
+ * Returns:   (void)
+ */
+void
+p7_omx_Destroy(P7_OMX *ox)
+{
+  if (ox == NULL) return;
+  if (ox->x_mem   != NULL) free(ox->x_mem);
+  if (ox->dp_mem  != NULL) free(ox->dp_mem);
+  if (ox->dpf     != NULL) free(ox->dpf);
+  if (ox->dpw     != NULL) free(ox->dpw);
+  if (ox->dpb     != NULL) free(ox->dpb);
+  free(ox);
+  return;
+}
+/*------------------- end, P7_OMX structure ---------------------*/
+
+
+
+/*****************************************************************
+ * 2. Debugging dumps of P7_OMX structures
+ *****************************************************************/
+/* Because the P7_OMX may be a one-row DP matrix, we can't just run a
+ * DP calculation and then dump a whole matrix; we have to dump each
+ * row one at a time, as the DP calculation is progressing. Thus we
+ * need to call the dump from *within* some DP routines. We'd rather not
+ * have anything like this in production code - not even a flag check.
+ * So, we use a compile-time debugging idiom, with conditionally
+ * compiled debugging code that's added to the DP routines to check a
+ * debugging flag in the P7_OMX structure; if it's up, we dump a row.
+ *
+ * Therefore, the externally exposed API call is p7_omx_SetDumpMode(),
+ * rather than the dumping routine itself; and all p7_omx_SetDumpMode()
+ * does is sets the debugging flag in <ox>.
+ */
+
+/* Function:  p7_omx_SetDumpMode()
+ * Synopsis:  Set an optimized DP matrix to be dumped for debugging.
+ * Incept:    SRE, Thu Dec 13 10:24:38 2007 [Janelia]
+ *
+ * Purpose:   Sets debugging mode for DP matrix <ox>.  If <truefalse>
+ *            flag is <TRUE>, then whenever a dynamic programming
+ *            calculation is run, dump DP matrix <ox> to stream <fp>
+ *            for diagnostics.
+ *            
+ *            When the dump mode is on, the DP routine itself actually
+ *            does the dumping, because it has to dump after every row
+ *            is calculated. (We're doing an optimized one-row
+ *            calculation.)
+ *            
+ *            If the code has not been compiled with the
+ *            <p7_DEBUGGING> flag up, this function is a no-op.
+ *
+ * Args:      fp        - output stream for diagnostics (stdout, perhaps)
+ *            ox        - DP matrix to set debugging mode
+ *            truefalse - TRUE to set dumping, FALSE to unset
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      J2/62.
+ */
+int
+p7_omx_SetDumpMode(FILE *fp, P7_OMX *ox, int truefalse)
+{
+#if p7_DEBUGGING
+  ox->debugging = truefalse;
+  ox->dfp       = fp;
+#endif
+  return eslOK;
+}
+
+
+/* Function:  p7_omx_DumpMFRow()
+ * Synopsis:  Dump one row from MSV uchar version of a DP matrix.
+ * Incept:    SRE, Wed Jul 30 16:47:26 2008 [Janelia]
+ *
+ * Purpose:   Dump current row of uchar part of DP matrix <ox> for diagnostics,
+ *            and include the values of specials <xE>, etc. The index <rowi> for
+ *            the current row is used as a row label. This routine has to be 
+ *            specialized for the layout of the MSVFilter() row, because it's
+ *            all match scores dp[0..q..Q-1], rather than triplets of M,D,I.
+ * 
+ *            If <rowi> is 0, print a header first too.
+ * 
+ *            The output format is coordinated with <p7_gmx_Dump()> to
+ *            facilitate comparison to a known answer.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. 
+ */
+int
+p7_omx_DumpMFRow(P7_OMX *ox, int rowi, uint8_t xE, uint8_t xN, uint8_t xJ, uint8_t xB, uint8_t xC)
+{
+  __m128i *dp = ox->dpb[0];	
+  int      M  = ox->M;
+  int      Q  = p7O_NQB(M);
+  uint8_t *v  = NULL;		/* array of unstriped scores  */
+  int      q,z,k;
+  union { __m128i v; uint8_t i[16]; } tmp;
+  int      status;
+
+  ESL_ALLOC(v, sizeof(unsigned char) * ((Q*16)+1));
+  v[0] = 0;
+
+  /* Header (if we're on the 0th row)  */
+  if (rowi == 0)
+    {
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M;  k++) fprintf(ox->dfp, "%3d ", k);
+      fprintf(ox->dfp, "%3s %3s %3s %3s %3s\n", "E", "N", "J", "B", "C");
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M+5;  k++) fprintf(ox->dfp, "%3s ", "---");
+      fprintf(ox->dfp, "\n");
+    }
+
+  /* Unpack and unstripe, then print M's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = dp[q];
+    for (z = 0; z < 16; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d M ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%3d ", v[k]);
+
+  /* The specials */
+  fprintf(ox->dfp, "%3d %3d %3d %3d %3d\n", xE, xN, xJ, xB, xC);
+
+  /* I's are all 0's; print just to facilitate comparison. */
+  fprintf(ox->dfp, "%4d I ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%3d ", 0);
+  fprintf(ox->dfp, "\n");
+
+  /* D's are all 0's too */
+  fprintf(ox->dfp, "%4d D ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%3d ", 0);
+  fprintf(ox->dfp, "\n\n");
+
+  free(v);
+  return eslOK;
+
+ERROR:
+  free(v);
+  return status;
+}
+
+
+/* Function:  p7_omx_DumpVFRow()
+ * Synopsis:  Dump current row of ViterbiFilter (int16) part of <ox> matrix.
+ * Incept:    SRE, Wed Jul 30 16:43:21 2008 [Janelia]
+ *
+ * Purpose:   Dump current row of ViterbiFilter (int16) part of DP
+ *            matrix <ox> for diagnostics, and include the values of
+ *            specials <xE>, etc. The index <rowi> for the current row
+ *            is used as a row label.
+ *
+ *            If <rowi> is 0, print a header first too.
+ * 
+ *            The output format is coordinated with <p7_gmx_Dump()> to
+ *            facilitate comparison to a known answer.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_omx_DumpVFRow(P7_OMX *ox, int rowi, int16_t xE, int16_t xN, int16_t xJ, int16_t xB, int16_t xC)
+{
+  __m128i *dp = ox->dpw[0];	/* must set <dp> before using {MDI}MX macros */
+  int      M  = ox->M;
+  int      Q  = p7O_NQW(M);
+  int16_t *v  = NULL;		/* array of unstriped, uninterleaved scores  */
+  int      q,z,k;
+  union { __m128i v; int16_t i[8]; } tmp;
+  int      status;
+
+  ESL_ALLOC(v, sizeof(int16_t) * ((Q*8)+1));
+  v[0] = 0;
+
+  /* Header (if we're on the 0th row)
+   */
+  if (rowi == 0)
+    {
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M;  k++) fprintf(ox->dfp, "%6d ", k);
+      fprintf(ox->dfp, "%6s %6s %6s %6s %6s\n", "E", "N", "J", "B", "C");
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M+5;  k++) fprintf(ox->dfp, "%6s ", "------");
+      fprintf(ox->dfp, "\n");
+    }
+
+  /* Unpack and unstripe, then print M's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = MMXo(q);
+    for (z = 0; z < 8; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d M ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%6d ", v[k]);
+
+  /* The specials */
+  fprintf(ox->dfp, "%6d %6d %6d %6d %6d\n", xE, xN, xJ, xB, xC);
+
+  /* Unpack and unstripe, then print I's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = IMXo(q);
+    for (z = 0; z < 8; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d I ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%6d ", v[k]);
+  fprintf(ox->dfp, "\n");
+
+  /* Unpack, unstripe, then print D's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = DMXo(q);
+    for (z = 0; z < 8; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d D ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%6d ", v[k]);
+  fprintf(ox->dfp, "\n\n");
+
+  free(v);
+  return eslOK;
+
+ERROR:
+  free(v);
+  return status;
+
+}
+
+/* Function:  p7_omx_DumpFBRow()
+ * Synopsis:  Dump one row from float part of a DP matrix.
+ * Incept:    SRE, Wed Jul 30 16:45:16 2008 [Janelia]
+ *
+ * Purpose:   Dump current row of Forward/Backward (float) part of DP
+ *	      matrix <ox> for diagnostics, and include the values of
+ *	      specials <xE>, etc. The index <rowi> for the current row
+ *	      is used as a row label. 
+ *
+ *            The output format of the floats is controlled by
+ *	      <width>, <precision>; 8,5 is good for pspace, 5,2 is
+ *	      fine for lspace.
+ * 	       								       
+ * 	      If <rowi> is 0, print a header first too.			       
+ * 	       								       
+ * 	      If <logify> is TRUE, then scores are printed as log(score); this is 
+ * 	      useful for comparing DP with pspace scores with other DP matrices   
+ * 	      (like generic P7_GMX ones) that use log-odds scores.		       
+ * 	       								       
+ * 	      The output format is coordinated with <p7_gmx_Dump()> to	       
+ * 	      facilitate comparison to a known answer.                            
+ * 
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.  
+ */
+int
+p7_omx_DumpFBRow(P7_OMX *ox, int logify, int rowi, int width, int precision, float xE, float xN, float xJ, float xB, float xC)
+{
+  __m128 *dp;
+  int      M  = ox->M;
+  int      Q  = p7O_NQF(M);
+  float   *v  = NULL;		/* array of uninterleaved, unstriped scores  */
+  int      q,z,k;
+  union { __m128 v; float x[4]; } tmp;
+  int      status;
+
+  dp = (ox->allocR == 1) ? ox->dpf[0] :	ox->dpf[rowi];	  /* must set <dp> before using {MDI}MX macros */
+
+  ESL_ALLOC(v, sizeof(float) * ((Q*4)+1));
+  v[0] = 0.;
+
+  if (rowi == 0)
+    {
+      fprintf(ox->dfp, "      ");
+      for (k = 0; k <= M;  k++) fprintf(ox->dfp, "%*d ", width, k);
+      fprintf(ox->dfp, "%*s %*s %*s %*s %*s\n", width, "E", width, "N", width, "J", width, "B", width, "C");
+      fprintf(ox->dfp, "      ");
+      for (k = 0; k <= M+5;  k++) fprintf(ox->dfp, "%*s ", width, "--------");
+      fprintf(ox->dfp, "\n");
+    }
+
+  /* Unpack, unstripe, then print M's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = MMXo(q);
+    for (z = 0; z < 4; z++) v[q+Q*z+1] = tmp.x[z];
+  }
+  fprintf(ox->dfp, "%3d M ", rowi);
+  if (logify) for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k] == 0. ? -eslINFINITY : log(v[k]));
+  else        for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k]);
+
+ /* The specials */
+  if (logify) fprintf(ox->dfp, "%*.*f %*.*f %*.*f %*.*f %*.*f\n",
+		      width, precision, xE == 0. ? -eslINFINITY : log(xE),
+		      width, precision, xN == 0. ? -eslINFINITY : log(xN),
+		      width, precision, xJ == 0. ? -eslINFINITY : log(xJ),
+		      width, precision, xB == 0. ? -eslINFINITY : log(xB), 
+		      width, precision, xC == 0. ? -eslINFINITY : log(xC));
+  else        fprintf(ox->dfp, "%*.*f %*.*f %*.*f %*.*f %*.*f\n",
+		      width, precision, xE,   width, precision, xN, width, precision, xJ, 
+		      width, precision, xB,   width, precision, xC);
+
+  /* Unpack, unstripe, then print I's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = IMXo(q);
+    for (z = 0; z < 4; z++) v[q+Q*z+1] = tmp.x[z];
+  }
+  fprintf(ox->dfp, "%3d I ", rowi);
+  if (logify) for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k] == 0. ? -eslINFINITY : log(v[k]));
+  else        for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k]);
+  fprintf(ox->dfp, "\n");
+
+  /* Unpack, unstripe, then print D's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = DMXo(q);
+    for (z = 0; z < 4; z++) v[q+Q*z+1] = tmp.x[z];
+  }
+  fprintf(ox->dfp, "%3d D ", rowi);
+  if (logify) for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k] == 0. ? -eslINFINITY : log(v[k]));
+  else        for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k]);
+  fprintf(ox->dfp, "\n\n");
+
+  free(v);
+  return eslOK;
+
+ERROR:
+  free(v);
+  return status;
+}
+/*------------- end, debugging dumps of P7_OMX ------------------*/
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+/*---------------------- end, unit tests ------------------------*/
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+/*---------------------- end, test driver -----------------------*/
+
+
+/*****************************************************************
+ * 13. Example
+ *****************************************************************/
+/*------------------------ example ------------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_oprofile.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_oprofile.c
new file mode 100755
index 0000000..bdb488b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/p7_oprofile.c
@@ -0,0 +1,2161 @@
+/* Routines for the P7_OPROFILE structure:  
+ * a search profile in an optimized implementation.
+ * 
+ * Contents:
+ *   1. The P7_OPROFILE object: allocation, initialization, destruction.
+ *   2. Conversion from generic P7_PROFILE to optimized P7_OPROFILE
+ *   3. Conversion from optimized P7_OPROFILE to compact score arrays
+ *   4. Debugging and development utilities.
+ *   5. Benchmark driver.
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Example.
+ *   9. Copyright and license information.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <string.h>
+#include <math.h>		/* roundf() */
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_sse.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static uint8_t unbiased_byteify(P7_OPROFILE *om, float sc);
+static uint8_t biased_byteify(P7_OPROFILE *om, float sc);
+static int16_t wordify(P7_OPROFILE *om, float sc);
+static int     sf_conversion(P7_OPROFILE *om);
+
+/*****************************************************************
+ * 1. The P7_OPROFILE structure: a score profile.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_Create()
+ * Synopsis:  Allocate an optimized profile structure.
+ * Incept:    SRE, Sun Nov 25 12:03:19 2007 [Casa de Gatos]
+ *
+ * Purpose:   Allocate for profiles of up to <allocM> nodes for digital alphabet <abc>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Create(int allocM, const ESL_ALPHABET *abc)
+{
+  int          status;
+  P7_OPROFILE *om  = NULL;
+  int          nqb = p7O_NQB(allocM); /* # of uchar vectors needed for query */
+  int          nqw = p7O_NQW(allocM); /* # of sword vectors needed for query */
+  int          nqf = p7O_NQF(allocM); /* # of float vectors needed for query */
+  int          nqs = nqb + p7O_EXTRA_SB;
+  int          x;
+
+  /* level 0 */
+  ESL_ALLOC(om, sizeof(P7_OPROFILE));
+  om->rbv_mem = NULL;
+  om->sbv_mem = NULL;
+  om->rwv_mem = NULL;
+  om->twv_mem = NULL;
+  om->rfv_mem = NULL;
+  om->tfv_mem = NULL;
+  om->rbv     = NULL;
+  om->sbv     = NULL;
+  om->rwv     = NULL;
+  om->twv     = NULL;
+  om->rfv     = NULL;
+  om->tfv     = NULL;
+  om->clone   = 0;
+
+  /* level 1 */
+  ESL_ALLOC(om->rbv_mem, sizeof(__m128i) * nqb  * abc->Kp          +15); /* +15 is for manual 16-byte alignment */
+  ESL_ALLOC(om->sbv_mem, sizeof(__m128i) * nqs  * abc->Kp          +15); 
+  ESL_ALLOC(om->rwv_mem, sizeof(__m128i) * nqw  * abc->Kp          +15);                     
+  ESL_ALLOC(om->twv_mem, sizeof(__m128i) * nqw  * p7O_NTRANS       +15);   
+  ESL_ALLOC(om->rfv_mem, sizeof(__m128)  * nqf  * abc->Kp          +15);                     
+  ESL_ALLOC(om->tfv_mem, sizeof(__m128)  * nqf  * p7O_NTRANS       +15);    
+
+  ESL_ALLOC(om->rbv, sizeof(__m128i *) * abc->Kp); 
+  ESL_ALLOC(om->sbv, sizeof(__m128i *) * abc->Kp); 
+  ESL_ALLOC(om->rwv, sizeof(__m128i *) * abc->Kp); 
+  ESL_ALLOC(om->rfv, sizeof(__m128  *) * abc->Kp); 
+
+  /* align vector memory on 16-byte boundaries */
+  om->rbv[0] = (__m128i *) (((unsigned long int) om->rbv_mem + 15) & (~0xf));
+  om->sbv[0] = (__m128i *) (((unsigned long int) om->sbv_mem + 15) & (~0xf));
+  om->rwv[0] = (__m128i *) (((unsigned long int) om->rwv_mem + 15) & (~0xf));
+  om->twv    = (__m128i *) (((unsigned long int) om->twv_mem + 15) & (~0xf));
+  om->rfv[0] = (__m128  *) (((unsigned long int) om->rfv_mem + 15) & (~0xf));
+  om->tfv    = (__m128  *) (((unsigned long int) om->tfv_mem + 15) & (~0xf));
+
+  /* set the rest of the row pointers for match emissions */
+  for (x = 1; x < abc->Kp; x++) {
+    om->rbv[x] = om->rbv[0] + (x * nqb);
+    om->sbv[x] = om->sbv[0] + (x * nqs);
+    om->rwv[x] = om->rwv[0] + (x * nqw);
+    om->rfv[x] = om->rfv[0] + (x * nqf);
+  }
+  om->allocQ16  = nqb;
+  om->allocQ8   = nqw;
+  om->allocQ4   = nqf;
+
+  /* Remaining initializations */
+  om->tbm_b     = 0;
+  om->tec_b     = 0;
+  om->tjb_b     = 0;
+  om->scale_b   = 0.0f;
+  om->base_b    = 0;
+  om->bias_b    = 0;
+
+  om->scale_w      = 0.0f;
+  om->base_w       = 0;
+  om->ddbound_w    = 0;
+  om->ncj_roundoff = 0.0f;	
+
+  for (x = 0; x < p7_NOFFSETS; x++) om->offs[x]    = -1;
+  for (x = 0; x < p7_NEVPARAM; x++) om->evparam[x] = p7_EVPARAM_UNSET;
+  for (x = 0; x < p7_NCUTOFFS; x++) om->cutoff[x]  = p7_CUTOFF_UNSET;
+  for (x = 0; x < p7_MAXABET;  x++) om->compo[x]   = p7_COMPO_UNSET;
+
+  om->name      = NULL;
+  om->acc       = NULL;
+  om->desc      = NULL;
+
+  /* in a P7_OPROFILE, we always allocate for the optional RF, CS annotation.  
+   * we only rely on the leading \0 to signal that it's unused, but 
+   * we initialize all this memory to zeros to shut valgrind up about 
+   * fwrite'ing uninitialized memory in the io functions.
+   */
+  ESL_ALLOC(om->rf,          sizeof(char) * (allocM+2));
+  ESL_ALLOC(om->mm,          sizeof(char) * (allocM+2));
+  ESL_ALLOC(om->cs,          sizeof(char) * (allocM+2));
+  ESL_ALLOC(om->consensus,   sizeof(char) * (allocM+2));
+  memset(om->rf,       '\0', sizeof(char) * (allocM+2));
+  memset(om->mm,       '\0', sizeof(char) * (allocM+2));
+  memset(om->cs,       '\0', sizeof(char) * (allocM+2));
+  memset(om->consensus,'\0', sizeof(char) * (allocM+2));
+
+  om->abc        = abc;
+  om->L          = 0;
+  om->M          = 0;
+  om->max_length = -1;
+  om->allocM     = allocM;
+  om->mode       = p7_NO_MODE;
+  om->nj         = 0.0f;
+  return om;
+
+ ERROR:
+  p7_oprofile_Destroy(om);
+  return NULL;
+}
+
+/* Function:  p7_oprofile_IsLocal()
+ * Synopsis:  Returns TRUE if profile is in local alignment mode.
+ * Incept:    SRE, Sat Aug 16 08:46:00 2008 [Janelia]
+ */
+int
+p7_oprofile_IsLocal(const P7_OPROFILE *om)
+{
+  if (om->mode == p7_LOCAL || om->mode == p7_UNILOCAL) return TRUE;
+  return FALSE;
+}
+
+
+
+/* Function:  p7_oprofile_Destroy()
+ * Synopsis:  Frees an optimized profile structure.
+ * Incept:    SRE, Sun Nov 25 12:22:21 2007 [Casa de Gatos]
+ */
+void
+p7_oprofile_Destroy(P7_OPROFILE *om)
+{
+  if (om == NULL) return;
+
+  if (om->clone == 0)
+    {
+      if (om->rbv_mem   != NULL) free(om->rbv_mem);
+      if (om->sbv_mem   != NULL) free(om->sbv_mem);
+      if (om->rwv_mem   != NULL) free(om->rwv_mem);
+      if (om->twv_mem   != NULL) free(om->twv_mem);
+      if (om->rfv_mem   != NULL) free(om->rfv_mem);
+      if (om->tfv_mem   != NULL) free(om->tfv_mem);
+      if (om->rbv       != NULL) free(om->rbv);
+      if (om->sbv       != NULL) free(om->sbv);
+      if (om->rwv       != NULL) free(om->rwv);
+      if (om->rfv       != NULL) free(om->rfv);
+      if (om->name      != NULL) free(om->name);
+      if (om->acc       != NULL) free(om->acc);
+      if (om->desc      != NULL) free(om->desc);
+      if (om->rf        != NULL) free(om->rf);
+      if (om->mm        != NULL) free(om->mm);
+      if (om->cs        != NULL) free(om->cs);
+      if (om->consensus != NULL) free(om->consensus);
+    }
+
+  free(om);
+}
+
+/* Function:  p7_oprofile_Sizeof()
+ * Synopsis:  Return the allocated size of a <P7_OPROFILE>.
+ * Incept:    SRE, Wed Mar  2 10:09:21 2011 [Janelia]
+ *
+ * Purpose:   Returns the allocated size of a <P7_OPROFILE>,
+ *            in bytes.
+ */
+size_t
+p7_oprofile_Sizeof(P7_OPROFILE *om)
+{
+  size_t n   = 0;
+  int    nqb = om->allocQ16;	/* # of uchar vectors needed for query */
+  int    nqw = om->allocQ8;     /* # of sword vectors needed for query */
+  int    nqf = om->allocQ4;     /* # of float vectors needed for query */
+  int    nqs = nqb + p7O_EXTRA_SB;
+
+  /* Stuff below exactly mirrors the malloc()'s in
+   * p7_oprofile_Create(); so even though we could
+   * write this more compactly, leave it like this
+   * w/ one:one correspondence to _Create(), for
+   * maintainability and clarity.
+   */
+  n  += sizeof(P7_OPROFILE);
+  n  += sizeof(__m128i) * nqb  * om->abc->Kp +15; /* om->rbv_mem   */
+  n  += sizeof(__m128i) * nqs  * om->abc->Kp +15; /* om->sbv_mem   */
+  n  += sizeof(__m128i) * nqw  * om->abc->Kp +15; /* om->rwv_mem   */
+  n  += sizeof(__m128i) * nqw  * p7O_NTRANS  +15; /* om->twv_mem   */
+  n  += sizeof(__m128)  * nqf  * om->abc->Kp +15; /* om->rfv_mem   */
+  n  += sizeof(__m128)  * nqf  * p7O_NTRANS  +15; /* om->tfv_mem   */
+  
+  n  += sizeof(__m128i *) * om->abc->Kp;          /* om->rbv       */
+  n  += sizeof(__m128i *) * om->abc->Kp;          /* om->sbv       */
+  n  += sizeof(__m128i *) * om->abc->Kp;          /* om->rwv       */
+  n  += sizeof(__m128  *) * om->abc->Kp;          /* om->rfv       */
+  
+  n  += sizeof(char) * (om->allocM+2);            /* om->rf        */
+  n  += sizeof(char) * (om->allocM+2);            /* om->mm        */
+  n  += sizeof(char) * (om->allocM+2);            /* om->cs        */
+  n  += sizeof(char) * (om->allocM+2);            /* om->consensus */
+
+  return n;
+}
+
+
+/* TODO: this is not following the _Copy interface guidelines; it's a _Clone */
+/* TODO: its documentation header is a cut/paste of _Create; FIXME */
+/* Function:  p7_oprofile_Copy()
+ * Synopsis:  Allocate an optimized profile structure.
+ * Incept:    SRE, Sun Nov 25 12:03:19 2007 [Casa de Gatos]
+ *
+ * Purpose:   Allocate for profiles of up to <allocM> nodes for digital alphabet <abc>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Copy(P7_OPROFILE *om1)
+{
+  int           x, y;
+  int           status;
+
+  int           nqb  = p7O_NQB(om1->allocM); /* # of uchar vectors needed for query */
+  int           nqw  = p7O_NQW(om1->allocM); /* # of sword vectors needed for query */
+  int           nqf  = p7O_NQF(om1->allocM); /* # of float vectors needed for query */
+  int           nqs  = nqb + p7O_EXTRA_SB;
+
+  size_t        size = sizeof(char) * (om1->allocM+2);
+
+  P7_OPROFILE  *om2  = NULL;
+  
+  const ESL_ALPHABET *abc = om1->abc;
+
+  /* level 0 */
+  ESL_ALLOC(om2, sizeof(P7_OPROFILE));
+  om2->rbv_mem = NULL;
+  om2->sbv_mem = NULL;
+  om2->rwv_mem = NULL;
+  om2->twv_mem = NULL;
+  om2->rfv_mem = NULL;
+  om2->tfv_mem = NULL;
+  om2->rbv     = NULL;
+  om2->sbv     = NULL;
+  om2->rwv     = NULL;
+  om2->twv     = NULL;
+  om2->rfv     = NULL;
+  om2->tfv     = NULL;
+
+  /* level 1 */
+  ESL_ALLOC(om2->rbv_mem, sizeof(__m128i) * nqb  * abc->Kp    +15);	/* +15 is for manual 16-byte alignment */
+  ESL_ALLOC(om2->sbv_mem, sizeof(__m128i) * nqs  * abc->Kp    +15);
+  ESL_ALLOC(om2->rwv_mem, sizeof(__m128i) * nqw  * abc->Kp    +15);                     
+  ESL_ALLOC(om2->twv_mem, sizeof(__m128i) * nqw  * p7O_NTRANS +15);   
+  ESL_ALLOC(om2->rfv_mem, sizeof(__m128)  * nqf  * abc->Kp    +15);                     
+  ESL_ALLOC(om2->tfv_mem, sizeof(__m128)  * nqf  * p7O_NTRANS +15);    
+
+  ESL_ALLOC(om2->rbv, sizeof(__m128i *) * abc->Kp); 
+  ESL_ALLOC(om2->sbv, sizeof(__m128i *) * abc->Kp); 
+  ESL_ALLOC(om2->rwv, sizeof(__m128i *) * abc->Kp); 
+  ESL_ALLOC(om2->rfv, sizeof(__m128  *) * abc->Kp); 
+
+  /* align vector memory on 16-byte boundaries */
+  om2->rbv[0] = (__m128i *) (((unsigned long int) om2->rbv_mem + 15) & (~0xf));
+  om2->sbv[0] = (__m128i *) (((unsigned long int) om2->sbv_mem + 15) & (~0xf));
+  om2->rwv[0] = (__m128i *) (((unsigned long int) om2->rwv_mem + 15) & (~0xf));
+  om2->twv    = (__m128i *) (((unsigned long int) om2->twv_mem + 15) & (~0xf));
+  om2->rfv[0] = (__m128  *) (((unsigned long int) om2->rfv_mem + 15) & (~0xf));
+  om2->tfv    = (__m128  *) (((unsigned long int) om2->tfv_mem + 15) & (~0xf));
+
+  /* copy the vector data */
+  memcpy(om2->rbv[0], om1->rbv[0], sizeof(__m128i) * nqb  * abc->Kp);
+  memcpy(om2->sbv[0], om1->sbv[0], sizeof(__m128i) * nqs  * abc->Kp);
+  memcpy(om2->rwv[0], om1->rwv[0], sizeof(__m128i) * nqw  * abc->Kp);
+  memcpy(om2->rfv[0], om1->rfv[0], sizeof(__m128i) * nqf  * abc->Kp);
+
+  /* set the rest of the row pointers for match emissions */
+  for (x = 1; x < abc->Kp; x++) {
+    om2->rbv[x] = om2->rbv[0] + (x * nqb);
+    om2->sbv[x] = om2->sbv[0] + (x * nqs);
+    om2->rwv[x] = om2->rwv[0] + (x * nqw);
+    om2->rfv[x] = om2->rfv[0] + (x * nqf);
+  }
+  om2->allocQ16  = nqb;
+  om2->allocQ8   = nqw;
+  om2->allocQ4   = nqf;
+
+  /* Remaining initializations */
+  om2->tbm_b     = om1->tbm_b;
+  om2->tec_b     = om1->tec_b;
+  om2->tjb_b     = om1->tjb_b;
+  om2->scale_b   = om1->scale_b;
+  om2->base_b    = om1->base_b;
+  om2->bias_b    = om1->bias_b;
+
+  om2->scale_w      = om1->scale_w;
+  om2->base_w       = om1->base_w;
+  om2->ddbound_w    = om1->ddbound_w;
+  om2->ncj_roundoff = om1->ncj_roundoff;	
+
+  for (x = 0; x < p7_NOFFSETS; x++) om2->offs[x]    = om1->offs[x];
+  for (x = 0; x < p7_NEVPARAM; x++) om2->evparam[x] = om1->evparam[x];
+  for (x = 0; x < p7_NCUTOFFS; x++) om2->cutoff[x]  = om1->cutoff[x];
+  for (x = 0; x < p7_MAXABET;  x++) om2->compo[x]   = om1->compo[x];
+
+  for (x = 0; x < nqw  * p7O_NTRANS; ++x) om2->twv[x] = om1->twv[x];
+  for (x = 0; x < nqf  * p7O_NTRANS; ++x) om2->tfv[x] = om1->tfv[x];
+
+  for (x = 0; x < p7O_NXSTATES; x++)
+    for (y = 0; y < p7O_NXTRANS; y++)
+      {
+	om2->xw[x][y] = om1->xw[x][y];
+	om2->xf[x][y] = om1->xf[x][y];
+      }
+
+  if ((status = esl_strdup(om1->name, -1, &om2->name)) != eslOK) goto ERROR;
+  if ((status = esl_strdup(om1->acc,  -1, &om2->acc))  != eslOK) goto ERROR;
+  if ((status = esl_strdup(om1->desc, -1, &om2->desc)) != eslOK) goto ERROR;
+
+  /* in a P7_OPROFILE, we always allocate for the optional RF, CS annotation.  
+   * we only rely on the leading \0 to signal that it's unused, but 
+   * we initialize all this memory to zeros to shut valgrind up about 
+   * fwrite'ing uninitialized memory in the io functions.
+   */
+  ESL_ALLOC(om2->rf,          size);
+  ESL_ALLOC(om2->mm,          size);
+  ESL_ALLOC(om2->cs,          size);
+  ESL_ALLOC(om2->consensus,   size);
+
+  memcpy(om2->rf,        om1->rf,        size);
+  memcpy(om2->mm,        om1->mm,        size);
+  memcpy(om2->cs,        om1->cs,        size);
+  memcpy(om2->consensus, om1->consensus, size);
+
+  om2->abc       = om1->abc;
+  om2->L         = om1->L;
+  om2->M         = om1->M;
+  om2->allocM    = om1->allocM;
+  om2->mode      = om1->mode;
+  om2->nj        = om1->nj;
+  om2->max_length   = om1->max_length;
+
+  om2->clone     = om1->clone;
+
+  return om2;
+
+ ERROR:
+  p7_oprofile_Destroy(om2);
+  return NULL;
+}
+
+/* Function:  p7_oprofile_Clone()
+ * Synopsis:  Allocate a cloned copy of the optimized profile structure.  All
+ *            allocated memory from the original profile is not reallocated.
+ *            The cloned copy will point to the same memory as the original.
+ * Incept:    SRE, Sun Nov 25 12:03:19 2007 [Casa de Gatos]
+ *
+ * Purpose:   Quick copy of an optimized profile used in mutiple threads.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Clone(const P7_OPROFILE *om1)
+{
+  int           status;
+
+  P7_OPROFILE  *om2  = NULL;
+
+  ESL_ALLOC(om2, sizeof(P7_OPROFILE));
+  memcpy(om2, om1, sizeof(P7_OPROFILE));
+
+  om2->clone  = 1;
+
+  return om2;
+
+ ERROR:
+  p7_oprofile_Destroy(om2);
+  return NULL;
+}
+
+
+/* Function:  p7_oprofile_UpdateFwdEmissionScores()
+ * Synopsis:  Update the Forward/Backward part of the optimized profile
+ *            match emissions to account for new background distribution.
+ *
+ * Purpose:   This implementation re-orders the loops used to access/modify
+ *            the rfv array relative to how it's accessed for example in
+ *            fb_conversion(), to minimize the required size of sc_arr.
+ *
+ * Args:      om              - optimized profile to be updated.
+ *            bg              - the new bg distribution
+ *            fwd_emissions   - precomputed Fwd (float) residue emission
+ *                              probabilities in serial order (gathered from
+ *                              the optimized striped <om> with
+ *                              p7_oprofile_GetFwdEmissionArray() ).
+ *            sc_arr            Preallocated array of at least Kp*4 floats
+ */
+int
+p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     k, q, x, z;
+  int     nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+  union   { __m128 v; float x[4]; } tmp; /* used to align and load simd minivectors               */
+
+
+  for (k = 1, q = 0; q < nq; q++, k++) {
+
+    //First compute the core characters of the alphabet
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 4; z++) {
+        if (k+ z*nq <= M)  sc_arr[z*Kp + x] =  (om->mm && om->mm[(k+z*nq)]=='m') ? 0 : log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]);
+        else               sc_arr[z*Kp + x] =  -eslINFINITY;
+
+        tmp.x[z] = sc_arr[z*Kp + x];
+      }
+      om->rfv[x][q] = esl_sse_expf(tmp.v);
+
+    }
+
+    // Then compute corresponding scores for ambiguity codes.
+    for (z = 0; z < 4; z++)
+      esl_abc_FExpectScVec(om->abc, sc_arr+(z*Kp), bg->f);
+
+    //finish off the interleaved values
+    for (x = K; x < Kp; x++) {
+      for (z = 0; z < 4; z++)
+         tmp.x[z] = sc_arr[z*Kp + x];  // computed in FExpectScVec call above
+      om->rfv[x][q] = esl_sse_expf(tmp.v);
+    }
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_UpdateVitEmissionScores()
+ * Synopsis:  Update the Viterbi part of the optimized profile match
+ *            emissions to account for new background distribution.
+ *.
+ * Purpose:   This implementation re-orders the loops used to access/modify
+ *            the rmv array relative to how it's accessed for example in
+ *            vf_conversion(), to minimize the required size of sc_arr.
+ *
+ * Args:      om              - optimized profile to be updated.
+ *            bg              - the new bg distribution
+ *            fwd_emissions   - precomputed Fwd (float) residue emission
+ *                              probabilities in serial order (gathered from
+ *                              the optimized striped <om> with
+ *                              p7_oprofile_GetFwdEmissionArray() ).
+ *            sc_arr            Preallocated array of at least Kp*8 floats
+ */
+int
+p7_oprofile_UpdateVitEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     k, q, x, z;
+  int     nq  = p7O_NQW(M);     /* segment length; total # of striped vectors needed            */
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+  int     idx;
+  union   { __m128i v; int16_t i[8]; } tmp; /* used to align and load simd minivectors            */
+
+  for (k = 1, q = 0; q < nq; q++, k++) {
+
+    //First compute the core characters of the alphabet
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 8; z++) {
+        idx = z*Kp + x;
+        if (k+ z*nq <= M)  {
+          sc_arr[idx] = (om->mm && om->mm[(k+z*nq)]=='m') ? 0 : log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]);
+          tmp.i[z]    = wordify(om, sc_arr[idx]);
+        }
+        else
+        {
+          sc_arr[idx] =  -eslINFINITY;
+          tmp.i[z]    =  -32768;
+        }
+
+      }
+      om->rwv[x][q] = tmp.v;
+
+    }
+
+    // Then compute corresponding scores for ambiguity codes.
+    for (z = 0; z < 8; z++)
+      esl_abc_FExpectScVec(om->abc, sc_arr+(z*Kp), bg->f);
+
+    //finish off the interleaved values
+    for (x = K; x < Kp; x++) {
+      for (z = 0; z < 8; z++) {
+        idx = z*Kp + x;
+        if (x==K || x>Kp-3 || sc_arr[idx] == -eslINFINITY)
+          tmp.i[z]  =  -32768;
+        else
+          tmp.i[z]  = wordify(om, sc_arr[idx]);
+      }
+      om->rwv[x][q] = tmp.v;
+    }
+  }
+
+  return eslOK;
+}
+
+
+
+/* Function:  p7_oprofile_UpdateMSVEmissionScores()
+ * Synopsis:  Update the MSV part of the optimized profile match
+ *            emissions to account for new background distribution.
+ *.
+ * Purpose:   This implementation re-orders the loops used to access/modify
+ *            the rbv array relative to how it's accessed for example in
+ *            mf_conversion(), to minimize the required size of sc_arr.
+ *
+ * Args:      om              - optimized profile to be updated.
+ *            bg              - the new bg distribution
+ *            fwd_emissions   - precomputed Fwd (float) residue emission
+ *                              probabilities in serial order (gathered from
+ *                              the optimized striped <om> with
+ *                              p7_oprofile_GetFwdEmissionArray() ).
+ *            sc_arr            Preallocated array of at least Kp*16 floats
+ */
+int
+p7_oprofile_UpdateMSVEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     k, q, x, z;
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+  int     idx;
+  float   max = 0.0;    /* maximum residue score: used for unsigned emission score bias */
+  union   { __m128i v; uint8_t i[16]; } tmp; /* used to align and load simd minivectors           */
+
+
+  /* First we determine the basis for the limited-precision MSVFilter scoring system.
+   * Default: 1/3 bit units, base offset 190:  range 0..255 => -190..65 => -63.3..21.7 bits
+   * See J2/66, J4/138 for analysis.
+   * This depends on having computed scores. I do this in a first pass, to get the max
+   * score ... then re-compute those scores so they can be converted to 8bit scores
+   */
+  for (k = 1, q = 0; q < nq; q++, k++) {
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 16; z++) {
+        idx = z*Kp + x;
+        if (k+ z*nq <= M && !(om->mm && om->mm[(k+z*nq)]=='m'))
+          max = ESL_MAX(max, log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]));
+      }
+    }
+  }
+  om->scale_b = 3.0 / eslCONST_LOG2;                    /* scores in units of third-bits */
+  om->base_b  = 190;
+  om->bias_b  = unbiased_byteify(om, -1.0 * max);
+
+  for (k = 1, q = 0; q < nq; q++, k++) {
+
+    //First compute the core characters of the alphabet
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 16; z++) {
+        idx = z*Kp + x;
+        if (k+ z*nq <= M)  {
+          sc_arr[idx] = (om->mm && om->mm[(k+z*nq)]=='m') ? 0 : log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]);
+          tmp.i[z]    = biased_byteify(om, sc_arr[idx]);
+        }
+        else
+        {
+          sc_arr[idx] =  -eslINFINITY;
+          tmp.i[z]    =  255;
+        }
+
+      }
+      om->rbv[x][q] = tmp.v;
+
+    }
+
+    // Then compute corresponding scores for ambiguity codes.
+    for (z = 0; z < 16; z++)
+      esl_abc_FExpectScVec(om->abc, sc_arr+(z*Kp), bg->f);
+
+    //finish off the interleaved values
+    for (x = K; x < Kp; x++) {
+      for (z = 0; z < 16; z++) {
+        idx = z*Kp + x;
+        if (x==K || x>Kp-3 || sc_arr[idx] == -eslINFINITY)
+          tmp.i[z]  =  255;
+        else
+          tmp.i[z]  = biased_byteify(om, sc_arr[idx]);
+      }
+      om->rbv[x][q] = tmp.v;
+    }
+  }
+
+  sf_conversion(om);
+
+  return eslOK;
+}
+
+
+/*----------------- end, P7_OPROFILE structure ------------------*/
+
+
+
+/*****************************************************************
+ * 2. Conversion from generic P7_PROFILE to optimized P7_OPROFILE
+ *****************************************************************/
+
+/* biased_byteify()
+ * Converts original log-odds residue score to a rounded biased uchar cost.
+ * Match emission scores for MSVFilter get this treatment.
+ * e.g. a score of +3.2, with scale 3.0 and bias 12, becomes 2.
+ *    3.2*3 = 9.6; rounded = 10; bias-10 = 2.
+ * When used, we add the bias, then subtract this cost.
+ * (A cost of +255 is our -infinity "prohibited event")
+ */
+static uint8_t
+biased_byteify(P7_OPROFILE *om, float sc)
+{
+  uint8_t b;
+
+  sc  = -1.0f * roundf(om->scale_b * sc);                          /* ugh. sc is now an integer cost represented in a float...           */
+  b   = (sc > 255 - om->bias_b) ? 255 : (uint8_t) sc + om->bias_b; /* and now we cast, saturate, and bias it to an unsigned char cost... */
+  return b;
+}
+ 
+/* unbiased_byteify()
+ * Convert original transition score to a rounded uchar cost
+ * Transition scores for MSVFilter get this treatment.
+ * e.g. a score of -2.1, with scale 3.0, becomes a cost of 6.
+ * (A cost of +255 is our -infinity "prohibited event")
+ */
+static uint8_t 
+unbiased_byteify(P7_OPROFILE *om, float sc)
+{
+  uint8_t b;
+
+  sc  = -1.0f * roundf(om->scale_b * sc);       /* ugh. sc is now an integer cost represented in a float...    */
+  b   = (sc > 255.) ? 255 : (uint8_t) sc;	/* and now we cast and saturate it to an unsigned char cost... */
+  return b;
+}
+ 
+/* wordify()
+ * Converts log probability score to a rounded signed 16-bit integer cost.
+ * Both emissions and transitions for ViterbiFilter get this treatment.
+ * No bias term needed, because we use signed words. 
+ *   e.g. a score of +3.2, with scale 500.0, becomes +1600.
+ */
+static int16_t 
+wordify(P7_OPROFILE *om, float sc)
+{
+  sc  = roundf(om->scale_w * sc);
+  if      (sc >=  32767.0) return  32767;
+  else if (sc <= -32768.0) return -32768;
+  else return (int16_t) sc;
+}
+
+
+/* sf_conversion():
+ * Author: Bjarne Knudsen
+ * 
+ * Generates the SSVFilter() parts of the profile <om> scores
+ * from the completed MSV score.  This includes calculating 
+ * special versions of the match scores for using the the
+ * ssv filter.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+static int
+sf_conversion(P7_OPROFILE *om)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  __m128i tmp;
+  __m128i tmp2;
+
+  /* We now want to fill out om->sbv with om->rbv - bias for use in the
+   * SSV filter. The only challenge is that the om->rbv values are
+   * unsigned and generally use the whole scale while the om->sbv
+   * values are signed. To solve that problem we perform the following
+   * calculation:
+   *
+   *   ((127 + bias) - rbv) ^ 127
+   *
+   * where the subtraction is unsigned saturated and the addition is
+   * unsigned (it will not overflow, since bias is a small positive
+   * number). The f(x) = x ^ 127 combined with a change from unsigned
+   * to signed numbers have the same effect as f(x) = -x + 127. So if
+   * we regard the above as signed instead of unsigned it is equal to:
+   *
+   *   -((127 + bias) - rbv) + 127 = rbv - bias
+   *
+   * which is what we want. The reason for this slightly complex idea
+   * is that we wish the transformation to be fast, especially for
+   * hmmscan where many models are loaded.
+   */
+
+  tmp = _mm_set1_epi8((int8_t) (om->bias_b + 127));
+  tmp2  = _mm_set1_epi8(127);
+
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      for (q = 0;  q < nq;            q++) om->sbv[x][q] = _mm_xor_si128(_mm_subs_epu8(tmp, om->rbv[x][q]), tmp2);
+      for (q = nq; q < nq + p7O_EXTRA_SB; q++) om->sbv[x][q] = om->sbv[x][q % nq];
+    }
+
+  return eslOK;
+}
+
+/* mf_conversion(): 
+ * 
+ * This builds the MSVFilter() parts of the profile <om>, scores
+ * in lspace uchars (16-way parallel), by rescaling, rounding, and
+ * casting the scores in <gm>.
+ * 
+ * Returns <eslOK> on success;
+ * throws <eslEINVAL> if <om> hasn't been allocated properly.
+ */
+static int
+mf_conversion(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int     M   = gm->M;		/* length of the query                                          */
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  float   max = 0.0;		/* maximum residue score: used for unsigned emission score bias */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  union { __m128i v; uint8_t i[16]; } tmp; /* used to align and load simd minivectors           */
+
+  if (nq > om->allocQ16) ESL_EXCEPTION(eslEINVAL, "optimized profile is too small to hold conversion");
+
+  /* First we determine the basis for the limited-precision MSVFilter scoring system. 
+   * Default: 1/3 bit units, base offset 190:  range 0..255 => -190..65 => -63.3..21.7 bits
+   * See J2/66, J4/138 for analysis.
+   */
+  for (x = 0; x < gm->abc->K; x++)  max = ESL_MAX(max, esl_vec_FMax(gm->rsc[x], (M+1)*2));
+  om->scale_b = 3.0 / eslCONST_LOG2;                    /* scores in units of third-bits */
+  om->base_b  = 190;
+  om->bias_b  = unbiased_byteify(om, -1.0 * max);
+
+  /* striped match costs: start at k=1.  */
+  for (x = 0; x < gm->abc->Kp; x++)
+  {
+    for (q = 0, k = 1; q < nq; q++, k++)
+    {
+      for (z = 0; z < 16; z++) tmp.i[z] = ((k+ z*nq <= M) ? biased_byteify(om, p7P_MSC(gm, k+z*nq, x)) : 255);
+      om->rbv[x][q]   = tmp.v;
+    }
+  }
+
+  /* transition costs */
+  om->tbm_b = unbiased_byteify(om, logf(2.0f / ((float) gm->M * (float) (gm->M+1)))); /* constant B->Mk penalty        */
+  om->tec_b = unbiased_byteify(om, logf(0.5f));                                       /* constant multihit E->C = E->J */
+  om->tjb_b = unbiased_byteify(om, logf(3.0f / (float) (gm->L+3))); /* this adopts the L setting of the parent profile */
+
+  sf_conversion(om);
+
+  return eslOK;
+}
+
+
+/* vf_conversion(): 
+ * 
+ * This builds the ViterbiFilter() parts of the profile <om>, scores
+ * in lspace swords (8-way parallel), by rescaling, rounding, and
+ * casting the scores in <gm>.
+ * 
+ * Returns <eslOK> on success;
+ * throws <eslEINVAL> if <om> hasn't been allocated properly.
+ */
+static int
+vf_conversion(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int     M   = gm->M;		/* length of the query                                          */
+  int     nq  = p7O_NQW(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     tg;			/* transition index in gm                                       */
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+  int     ddtmp;		/* used in finding worst DD transition bound                    */
+  int16_t  maxval;		/* used to prevent zero cost II                                 */
+  int16_t  val;
+  union { __m128i v; int16_t i[8]; } tmp; /* used to align and load simd minivectors            */
+
+  if (nq > om->allocQ8) ESL_EXCEPTION(eslEINVAL, "optimized profile is too small to hold conversion");
+
+  /* First set the basis for the limited-precision scoring system. 
+   * Default: 1/500 bit units, base offset 12000:  range -32768..32767 => -44768..20767 => -89.54..41.53 bits
+   * See J4/138 for analysis.
+   */
+  om->scale_w = 500.0 / eslCONST_LOG2;
+  om->base_w  = 12000;
+
+  /* striped match scores */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 1, q = 0; q < nq; q++, k++)
+      {
+	for (z = 0; z < 8; z++) tmp.i[z] = ((k+ z*nq <= M) ? wordify(om, p7P_MSC(gm, k+z*nq, x)) : -32768);
+	om->rwv[x][q]   = tmp.v;
+      }
+
+  /* Transition costs, all but the DD's. */
+  for (j = 0, k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (t = p7O_BM; t <= p7O_II; t++) /* this loop of 7 transitions depends on the order in p7o_tsc_e */
+	{
+	  switch (t) {
+	  case p7O_BM: tg = p7P_BM;  kb = k-1; maxval =  0; break; /* gm has tBMk stored off by one! start from k=0 not 1   */
+	  case p7O_MM: tg = p7P_MM;  kb = k-1; maxval =  0; break; /* MM, DM, IM vectors are rotated by -1, start from k=0  */
+	  case p7O_IM: tg = p7P_IM;  kb = k-1; maxval =  0; break;
+	  case p7O_DM: tg = p7P_DM;  kb = k-1; maxval =  0; break;
+	  case p7O_MD: tg = p7P_MD;  kb = k;   maxval =  0; break; /* the remaining ones are straight up  */
+	  case p7O_MI: tg = p7P_MI;  kb = k;   maxval =  0; break; 
+	  case p7O_II: tg = p7P_II;  kb = k;   maxval = -1; break; 
+	  }
+
+	  for (z = 0; z < 8; z++) {
+	    val      = ((kb+ z*nq < M) ? wordify(om, p7P_TSC(gm, kb+ z*nq, tg)) : -32768);
+	    tmp.i[z] = (val <= maxval) ? val : maxval; /* do not allow an II transition cost of 0, or hell may occur. */
+	  }
+	  om->twv[j++] = tmp.v;
+	}
+    }
+
+  /* Finally the DD's, which are at the end of the optimized tsc vector; (j is already sitting there) */
+  for (k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (z = 0; z < 8; z++) tmp.i[z] = ((k+ z*nq < M) ? wordify(om, p7P_TSC(gm, k+ z*nq, p7P_DD)) : -32768);
+      om->twv[j++] = tmp.v;
+    }
+
+  /* Specials. (Actually in same order in om and gm, but we copy in general form anyway.)  */
+  /* VF CC,NN,JJ transitions hardcoded zero; -3.0 nat approximation used instead; this papers
+   * over a length independence problem, where the approximation weirdly outperforms the
+   * exact solution, probably indicating that the model's Pascal distribution is problematic,
+   * and the "approximation" is in fact closer to the One True Model, the mythic H4 supermodel.
+   * [xref J5/36] 
+   */
+  om->xw[p7O_E][p7O_LOOP] = wordify(om, gm->xsc[p7P_E][p7P_LOOP]);  
+  om->xw[p7O_E][p7O_MOVE] = wordify(om, gm->xsc[p7P_E][p7P_MOVE]);
+  om->xw[p7O_N][p7O_MOVE] = wordify(om, gm->xsc[p7P_N][p7P_MOVE]);
+  om->xw[p7O_N][p7O_LOOP] = 0;                                        /* was wordify(om, gm->xsc[p7P_N][p7P_LOOP]); */
+  om->xw[p7O_C][p7O_MOVE] = wordify(om, gm->xsc[p7P_C][p7P_MOVE]);
+  om->xw[p7O_C][p7O_LOOP] = 0;                                        /* was wordify(om, gm->xsc[p7P_C][p7P_LOOP]); */
+  om->xw[p7O_J][p7O_MOVE] = wordify(om, gm->xsc[p7P_J][p7P_MOVE]);
+  om->xw[p7O_J][p7O_LOOP] = 0;                                        /* was wordify(om, gm->xsc[p7P_J][p7P_LOOP]); */
+
+  om->ncj_roundoff = 0.0; /* goes along with NN=CC=JJ=0, -3.0 nat approximation */
+                          /* otherwise, would be = om->scale_w * gm->xsc[p7P_N][p7P_LOOP] -  om->xw[p7O_N][p7O_LOOP];   */
+			  /* see J4/150 for discussion of VF error suppression, superceded by the -3.0 nat approximation */
+
+  /* Transition score bound for "lazy F" DD path evaluation (xref J2/52) */
+  om->ddbound_w = -32768;	
+  for (k = 2; k < M-1; k++) 
+    {
+      ddtmp         = (int) wordify(om, p7P_TSC(gm, k,   p7P_DD));
+      ddtmp        += (int) wordify(om, p7P_TSC(gm, k+1, p7P_DM));
+      ddtmp        -= (int) wordify(om, p7P_TSC(gm, k+1, p7P_BM));
+      om->ddbound_w = ESL_MAX(om->ddbound_w, ddtmp);
+    }
+
+  return eslOK;
+}
+
+
+/* fb_conversion()
+ * This builds the Forward/Backward part of the optimized profile <om>,
+ * where we use odds ratios (not log-odds scores).
+ */
+static int
+fb_conversion(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int     M   = gm->M;		/* length of the query                                          */
+  int     nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     tg;			/* transition index in gm                                       */
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+  union { __m128 v; float x[4]; } tmp; /* used to align and load simd minivectors               */
+
+  if (nq > om->allocQ4) ESL_EXCEPTION(eslEINVAL, "optimized profile is too small to hold conversion");
+
+  /* striped match scores: start at k=1 */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 1, q = 0; q < nq; q++, k++)
+      {
+	for (z = 0; z < 4; z++) tmp.x[z] = (k+ z*nq <= M) ? p7P_MSC(gm, k+z*nq, x) : -eslINFINITY;
+	om->rfv[x][q] = esl_sse_expf(tmp.v);
+      }
+
+
+  /* Transition scores, all but the DD's. */
+  for (j = 0, k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (t = p7O_BM; t <= p7O_II; t++) /* this loop of 7 transitions depends on the order in the definition of p7o_tsc_e */
+	{
+	  switch (t) {
+	  case p7O_BM: tg = p7P_BM;  kb = k-1; break; /* gm has tBMk stored off by one! start from k=0 not 1 */
+	  case p7O_MM: tg = p7P_MM;  kb = k-1; break; /* MM, DM, IM quads are rotated by -1, start from k=0  */
+	  case p7O_IM: tg = p7P_IM;  kb = k-1; break;
+	  case p7O_DM: tg = p7P_DM;  kb = k-1; break;
+	  case p7O_MD: tg = p7P_MD;  kb = k;   break; /* the remaining ones are straight up  */
+	  case p7O_MI: tg = p7P_MI;  kb = k;   break; 
+	  case p7O_II: tg = p7P_II;  kb = k;   break; 
+	  }
+
+	  for (z = 0; z < 4; z++) tmp.x[z] = (kb+z*nq < M) ? p7P_TSC(gm, kb+z*nq, tg) : -eslINFINITY;
+	  om->tfv[j++] = esl_sse_expf(tmp.v);
+	}
+    }
+
+  /* And finally the DD's, which are at the end of the optimized tfv vector; (j is already there) */
+  for (k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (z = 0; z < 4; z++) tmp.x[z] = (k+z*nq < M) ? p7P_TSC(gm, k+z*nq, p7P_DD) : -eslINFINITY;
+      om->tfv[j++] = esl_sse_expf(tmp.v);
+    }
+
+  /* Specials. (These are actually in exactly the same order in om and
+   *  gm, but we copy in general form anyway.)
+   */
+  om->xf[p7O_E][p7O_LOOP] = expf(gm->xsc[p7P_E][p7P_LOOP]);  
+  om->xf[p7O_E][p7O_MOVE] = expf(gm->xsc[p7P_E][p7P_MOVE]);
+  om->xf[p7O_N][p7O_LOOP] = expf(gm->xsc[p7P_N][p7P_LOOP]);
+  om->xf[p7O_N][p7O_MOVE] = expf(gm->xsc[p7P_N][p7P_MOVE]);
+  om->xf[p7O_C][p7O_LOOP] = expf(gm->xsc[p7P_C][p7P_LOOP]);
+  om->xf[p7O_C][p7O_MOVE] = expf(gm->xsc[p7P_C][p7P_MOVE]);
+  om->xf[p7O_J][p7O_LOOP] = expf(gm->xsc[p7P_J][p7P_LOOP]);
+  om->xf[p7O_J][p7O_MOVE] = expf(gm->xsc[p7P_J][p7P_MOVE]);
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_Convert()
+ * Synopsis:  Converts standard profile to an optimized one.
+ * Incept:    SRE, Mon Nov 26 07:38:57 2007 [Janelia]
+ *
+ * Purpose:   Convert a standard profile <gm> to an optimized profile <om>,
+ *            where <om> has already been allocated for a profile of at 
+ *            least <gm->M> nodes and the same emission alphabet <gm->abc>.
+ *
+ * Args:      gm - profile to optimize
+ *            om - allocated optimized profile for holding the result.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <gm>, <om> aren't compatible. 
+ *            <eslEMEM> on allocation failure.
+ */
+int
+p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int status, z;
+
+  /* Set these first so they are available in the following calls */
+  om->mode       = gm->mode;
+  om->L          = gm->L;
+  om->M          = gm->M;
+  om->nj         = gm->nj;
+  om->max_length = gm->max_length;
+
+  if (gm->abc->type != om->abc->type)  ESL_EXCEPTION(eslEINVAL, "alphabets of the two profiles don't match");  
+  if (gm->M         >  om->allocM)     ESL_EXCEPTION(eslEINVAL, "oprofile is too small");  
+
+  if ((status =  mf_conversion(gm, om)) != eslOK) return status;   /* MSVFilter()'s information     */
+  if ((status =  vf_conversion(gm, om)) != eslOK) return status;   /* ViterbiFilter()'s information */
+  if ((status =  fb_conversion(gm, om)) != eslOK) return status;   /* ForwardFilter()'s information */
+
+  if (om->name != NULL) free(om->name);
+  if (om->acc  != NULL) free(om->acc);
+  if (om->desc != NULL) free(om->desc);
+  if ((status = esl_strdup(gm->name, -1, &(om->name))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(gm->acc,  -1, &(om->acc)))  != eslOK) goto ERROR;
+  if ((status = esl_strdup(gm->desc, -1, &(om->desc))) != eslOK) goto ERROR;
+  strcpy(om->rf,        gm->rf);
+  strcpy(om->mm,        gm->mm);
+  strcpy(om->cs,        gm->cs);
+  strcpy(om->consensus, gm->consensus);
+  for (z = 0; z < p7_NEVPARAM; z++) om->evparam[z] = gm->evparam[z];
+  for (z = 0; z < p7_NCUTOFFS; z++) om->cutoff[z]  = gm->cutoff[z];
+  for (z = 0; z < p7_MAXABET;  z++) om->compo[z]   = gm->compo[z];
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_oprofile_ReconfigLength()
+ * Synopsis:  Set the target sequence length of a model.
+ * Incept:    SRE, Thu Dec 20 09:56:40 2007 [Janelia]
+ *
+ * Purpose:   Given an already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>. 
+ *            
+ *            This doesn't affect the length distribution of the null
+ *            model. That must also be reset, using <p7_bg_SetLength()>.
+ *            
+ *            We want this routine to run as fast as possible, because
+ *            this call is in the critical path: it must be called at
+ *            each new target sequence in a database search.
+ *
+ * Returns:   <eslOK> on success. Costs/scores for N,C,J transitions are set
+ *            here.
+ */
+int
+p7_oprofile_ReconfigLength(P7_OPROFILE *om, int L)
+{
+  int status;
+  if ((status = p7_oprofile_ReconfigMSVLength (om, L)) != eslOK) return status;
+  if ((status = p7_oprofile_ReconfigRestLength(om, L)) != eslOK) return status;
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_ReconfigMSVLength()
+ * Synopsis:  Set the target sequence length of the MSVFilter part of the model.
+ * Incept:    SRE, Tue Dec 16 13:39:17 2008 [Janelia]
+ *
+ * Purpose:   Given an  already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>, only for the part of the model that's used
+ *            for the accelerated MSV filter.
+ *            
+ *            The acceleration pipeline uses this to defer reconfiguring the
+ *            length distribution of the main model, mostly because hmmscan
+ *            reads the model in two pieces, MSV part first, then the rest.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_oprofile_ReconfigMSVLength(P7_OPROFILE *om, int L)
+{
+  om->tjb_b = unbiased_byteify(om, logf(3.0f / (float) (L+3)));
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_ReconfigRestLength()
+ * Synopsis:  Set the target sequence length of the main profile.
+ * Incept:    SRE, Tue Dec 16 13:41:30 2008 [Janelia]
+ *
+ * Purpose:   Given an  already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>, for everything except the MSV filter part
+ *            of the model.
+ *            
+ *            Calling <p7_oprofile_ReconfigMSVLength()> then
+ *            <p7_oprofile_ReconfigRestLength()> is equivalent to
+ *            just calling <p7_oprofile_ReconfigLength()>. The two
+ *            part version is used in the acceleration pipeline.
+ *
+ * Returns:   <eslOK> on success.           
+ */
+int
+p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L)
+{
+  float pmove, ploop;
+  
+  pmove = (2.0f + om->nj) / ((float) L + 2.0f + om->nj); /* 2/(L+2) for sw; 3/(L+3) for fs */
+  ploop = 1.0f - pmove;
+
+  /* ForwardFilter() parameters: pspace floats */
+  om->xf[p7O_N][p7O_LOOP] =  om->xf[p7O_C][p7O_LOOP] = om->xf[p7O_J][p7O_LOOP] = ploop;
+  om->xf[p7O_N][p7O_MOVE] =  om->xf[p7O_C][p7O_MOVE] = om->xf[p7O_J][p7O_MOVE] = pmove;
+
+  /* ViterbiFilter() parameters: lspace signed 16-bit ints */
+  om->xw[p7O_N][p7O_MOVE] =  om->xw[p7O_C][p7O_MOVE] = om->xw[p7O_J][p7O_MOVE] = wordify(om, logf(pmove));
+  /* om->xw[p7O_N][p7O_LOOP] =  om->xw[p7O_C][p7O_LOOP] = om->xw[p7O_J][p7O_LOOP] = wordify(om, logf(ploop)); */ /* 3nat approx in force: these stay 0 */
+  /* om->ncj_roundoff        = (om->scale_w * logf(ploop)) - om->xw[p7O_N][p7O_LOOP];                         */ /* and this does too                  */
+
+  om->L = L;
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_ReconfigMultihit()
+ * Synopsis:  Quickly reconfig model into multihit mode for target length <L>.
+ * Incept:    SRE, Thu Aug 21 10:04:07 2008 [Janelia]
+ *
+ * Purpose:   Given a profile <om> that's already been configured once,
+ *            quickly reconfigure it into a multihit mode for target 
+ *            length <L>. 
+ *            
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit mode to
+ *            process individual domains.
+ *            
+ * Note:      You can't just flip uni/multi mode alone, because that
+ *            parameterization also affects target length
+ *            modeling. You need to make sure uni vs. multi choice is
+ *            made before the length model is set, and you need to
+ *            make sure the length model is recalculated if you change
+ *            the uni/multi mode. Hence, these functions call
+ *            <p7_oprofile_ReconfigLength()>.
+ */
+int
+p7_oprofile_ReconfigMultihit(P7_OPROFILE *om, int L)
+{
+  om->xf[p7O_E][p7O_MOVE] = 0.5;
+  om->xf[p7O_E][p7O_LOOP] = 0.5;
+  om->nj = 1.0f;
+
+  om->xw[p7O_E][p7O_MOVE] = wordify(om, -eslCONST_LOG2);
+  om->xw[p7O_E][p7O_LOOP] = wordify(om, -eslCONST_LOG2);
+
+  return p7_oprofile_ReconfigLength(om, L);
+}
+
+/* Function:  p7_oprofile_ReconfigUnihit()
+ * Synopsis:  Quickly reconfig model into unihit mode for target length <L>.
+ * Incept:    SRE, Thu Aug 21 10:10:32 2008 [Janelia]
+ *
+ * Purpose:   Given a profile <om> that's already been configured once,
+ *            quickly reconfigure it into a unihit mode for target 
+ *            length <L>. 
+ *            
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit <L=0> mode to
+ *            process individual domains.
+ */
+int
+p7_oprofile_ReconfigUnihit(P7_OPROFILE *om, int L)
+{
+  om->xf[p7O_E][p7O_MOVE] = 1.0f;
+  om->xf[p7O_E][p7O_LOOP] = 0.0f;
+  om->nj = 0.0f;
+
+  om->xw[p7O_E][p7O_MOVE] = 0;
+  om->xw[p7O_E][p7O_LOOP] = -32768;
+
+  return p7_oprofile_ReconfigLength(om, L);
+}
+/*------------ end, conversions to P7_OPROFILE ------------------*/
+
+/*******************************************************************
+*   3. Conversion from optimized P7_OPROFILE to compact score arrays
+ *******************************************************************/
+
+/* Function:  p7_oprofile_GetFwdTransitionArray()
+ * Synopsis:  Retrieve full 32-bit float transition probabilities from an
+ *            optimized profile into a flat array
+ *
+ * Purpose:   Extract an array of <type> (e.g. p7O_II) transition probabilities
+ *            from the underlying <om> profile. In SIMD implementations,
+ *            these are striped and interleaved, making them difficult to
+ *            directly access.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <type> - transition type (e.g. p7O_II)
+ *            <arr>  - preallocated array into which floats will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr )
+{
+  int     nq  = p7O_NQF(om->M);     /* # of striped vectors needed            */
+  int i, j;
+  union { __m128 v; float x[4]; } tmp; /* used to align and read simd minivectors               */
+
+
+  for (i=0; i<nq; i++) {
+    // because DD transitions are held at the end of the tfv array
+    tmp.v = om->tfv[ (type==p7O_DD ?  nq*7+i :  type+7*i) ];
+    for (j=0; j<4; j++)
+      if ( i+1+ j*nq < om->M+1)
+        arr[i+1+ j*nq]      = tmp.x[j];
+  }
+
+  return eslOK;
+
+}
+
+/* Function:  p7_oprofile_GetSSVEmissionScoreArray()
+ * Synopsis:  Retrieve MSV residue emission scores from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 8-bit int SSV residue
+ *            emission scores from an optimized profile <om>. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In SIMD implementations, the residue scores are striped
+ *            and interleaved, making them somewhat difficult to
+ *            directly access. Faster access is desired, for example,
+ *            in SSV back-tracking of a high-scoring diagonal
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr )
+{
+  int x, q, z, k;
+  union { __m128i v; uint8_t i[16]; } tmp; /* used to align and read simd minivectors           */
+  int      M   = om->M;    /* length of the query                                          */
+  int      K   = om->abc->Kp;
+  int      nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int cell_cnt = (om->M + 1) * K;
+
+  for (x = 0; x < K ; x++) {
+    for (q = 0, k = 1; q < nq; q++, k++) {
+      tmp.v = om->rbv[x][q];
+      for (z=0; z<16; z++)
+        if (  (K * (k+z*nq) + x) < cell_cnt) 
+          arr[ K * (k+z*nq) + x ] = tmp.i[z];
+    }
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_GetFwdEmissionScoreArray()
+ * Synopsis:  Retrieve Fwd (float) residue emission scores from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 32-bit float Fwd residue
+ *            emission scores from an optimized profile <om>. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In SIMD implementations, the residue scores are striped
+ *            and interleaved, making them somewhat difficult to
+ *            directly access.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr )
+{
+  int x, q, z, k;
+  union { __m128 v; float f[4]; } tmp; /* used to align and read simd minivectors               */
+  int      M   = om->M;    /* length of the query                                          */
+  int      K   = om->abc->Kp;
+  int      nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int cell_cnt = (om->M + 1) * K;
+
+  for (x = 0; x < K; x++) {
+      for (q = 0, k = 1; q < nq; q++, k++) {
+        tmp.v = esl_sse_logf(om->rfv[x][q]);
+        for (z = 0; z < 4; z++)
+          if (  (K * (k+z*nq) + x) < cell_cnt)
+            arr[ K * (k+z*nq) + x ] = tmp.f[z];
+      }
+  }
+
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_GetFwdEmissionArray()
+ * Synopsis:  Retrieve Fwd (float) residue emission values from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 32-bit float Fwd residue
+ *            emission values from an optimized profile <om>, converting
+ *            back to emission values based on the background. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In SIMD implementations, the residue scores are striped
+ *            and interleaved, making them somewhat difficult to
+ *            directly access.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <bg>   - background frequencies
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr )
+{
+  int x, q, z, k;
+  union { __m128 v; float f[4]; } tmp; /* used to align and read simd minivectors               */
+  int      M   = om->M;    /* length of the query                                          */
+  int      Kp  = om->abc->Kp;
+  int      K   = om->abc->K;
+  int      nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int cell_cnt = (om->M + 1) * Kp;
+
+  for (x = 0; x < K; x++) {
+      for (q = 0, k = 1; q < nq; q++, k++) {
+        tmp.v = om->rfv[x][q];
+        for (z = 0; z < 4; z++)
+          if (  (Kp * (k+z*nq) + x) < cell_cnt)
+            arr[ Kp * (k+z*nq) + x ] = tmp.f[z] * bg->f[x];
+      }
+  }
+
+  //degeneracy emissions for each position
+  for (x = 0; x <= M; x++)
+    esl_abc_FExpectScVec(om->abc, arr+Kp*x, bg->f);
+
+  return eslOK;
+}
+
+
+/*------------ end, conversions from P7_OPROFILE ------------------*/
+
+
+/*****************************************************************
+ * 4. Debugging and development utilities.
+ *****************************************************************/
+
+
+/* oprofile_dump_mf()
+ * 
+ * Dump the MSVFilter part of a profile <om> to <stdout>.
+ */
+static int
+oprofile_dump_mf(FILE *fp, const P7_OPROFILE *om)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* counter over nodes 1..M                                      */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  union { __m128i v; uint8_t i[16]; } tmp; /* used to align and read simd minivectors           */
+
+  /* Header (rearranged column numbers, in the vectors)  */
+  fprintf(fp, "     ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 16; z++) 
+	if (k+z*nq <= M) fprintf(fp, "%4d ", k+z*nq);
+	else             fprintf(fp, "%4s ", "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");
+
+  /* Table of residue emissions */
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      fprintf(fp, "(%c): ", om->abc->sym[x]); 
+
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  _mm_store_si128(&tmp.v, om->rbv[x][q]);
+	  for (z = 0; z < 16; z++) fprintf(fp, "%4d ", tmp.i[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");
+    }
+  fprintf(fp, "\n");
+
+  fprintf(fp, "t_EC,EJ:    %4d\n",  om->tec_b);
+  fprintf(fp, "t_NB,JB,CT: %4d\n",  om->tjb_b);
+  fprintf(fp, "t_BMk:      %4d\n",  om->tbm_b);
+  fprintf(fp, "scale:      %.2f\n", om->scale_b);
+  fprintf(fp, "base:       %4d\n",  om->base_b);
+  fprintf(fp, "bias:       %4d\n",  om->bias_b);
+  fprintf(fp, "Q:          %4d\n",  nq);  
+  fprintf(fp, "M:          %4d\n",  M);  
+  return eslOK;
+}
+
+
+
+/* oprofile_dump_vf()
+ * 
+ * Dump the ViterbiFilter part of a profile <om> to <stdout>.
+ */
+static int
+oprofile_dump_vf(FILE *fp, const P7_OPROFILE *om)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQW(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+  union { __m128i v; int16_t i[8]; } tmp; /* used to align and read simd minivectors           */
+
+  /* Emission score header (rearranged column numbers, in the vectors)  */
+  fprintf(fp, "     ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 8; z++) 
+	if (k+z*nq <= M) fprintf(fp, "%6d ", k+z*nq);
+	else             fprintf(fp, "%6s ", "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");
+
+  /* Table of residue emissions */
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      fprintf(fp, "(%c): ", om->abc->sym[x]); 
+
+      /* Match emission scores (insert emissions are assumed zero by design) */
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  _mm_store_si128(&tmp.v, om->rwv[x][q]);
+	  for (z = 0; z < 8; z++) fprintf(fp, "%6d ", tmp.i[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");
+    }
+  fprintf(fp, "\n");
+
+  /* Transitions */
+  for (t = p7O_BM; t <= p7O_II; t++)
+    {
+      switch (t) {
+      case p7O_BM: fprintf(fp, "\ntBM: "); break;
+      case p7O_MM: fprintf(fp, "\ntMM: "); break;
+      case p7O_IM: fprintf(fp, "\ntIM: "); break;
+      case p7O_DM: fprintf(fp, "\ntDM: "); break;
+      case p7O_MD: fprintf(fp, "\ntMD: "); break;
+      case p7O_MI: fprintf(fp, "\ntMI: "); break;
+      case p7O_II: fprintf(fp, "\ntII: "); break;
+      }
+
+      for (k = 1, q = 0; q < nq; q++, k++)
+	{
+	  switch (t) {
+	  case p7O_BM: kb = k;                 break; 
+	  case p7O_MM: kb = (1 + (nq+k-2)) % nq; break; /* MM, DM, IM quads rotated by +1  */
+	  case p7O_IM: kb = (1 + (nq+k-2)) % nq; break;  
+	  case p7O_DM: kb = (1 + (nq+k-2)) % nq; break;  
+	  case p7O_MD: kb = k;                 break; /* the remaining ones are straight up  */
+	  case p7O_MI: kb = k;                 break; 
+	  case p7O_II: kb = k;                 break; 
+	  }
+	  fprintf(fp, "[ ");
+	  for (z = 0; z < 8; z++) 
+	    if (kb+z*nq <= M) fprintf(fp, "%6d ", kb+z*nq);
+	    else              fprintf(fp, "%6s ", "xx");
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n     ");	  
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  _mm_store_si128(&tmp.v, om->twv[q*7 + t]);
+	  for (z = 0; z < 8; z++) fprintf(fp, "%6d ", tmp.i[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");	  
+    }
+
+  /* DD transitions */
+  fprintf(fp, "\ntDD: ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 8; z++) 
+	if (k+z*nq <= M) fprintf(fp, "%6d ", k+z*nq);
+	else             fprintf(fp, "%6s ", "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n     ");	  
+  for (j = nq*7, q = 0; q < nq; q++, j++)
+    {
+      fprintf(fp, "[ ");
+      _mm_store_si128(&tmp.v, om->twv[j]);
+      for (z = 0; z < 8; z++) fprintf(fp, "%6d ", tmp.i[z]);
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");	  
+
+  fprintf(fp, "E->C: %6d    E->J: %6d\n", om->xw[p7O_E][p7O_MOVE], om->xw[p7O_E][p7O_LOOP]);
+  fprintf(fp, "N->B: %6d    N->N: %6d\n", om->xw[p7O_N][p7O_MOVE], om->xw[p7O_N][p7O_LOOP]);
+  fprintf(fp, "J->B: %6d    J->J: %6d\n", om->xw[p7O_J][p7O_MOVE], om->xw[p7O_J][p7O_LOOP]);
+  fprintf(fp, "C->T: %6d    C->C: %6d\n", om->xw[p7O_C][p7O_MOVE], om->xw[p7O_C][p7O_LOOP]);
+
+  fprintf(fp, "scale: %6.2f\n", om->scale_w);
+  fprintf(fp, "base:  %6d\n",   om->base_w);
+  fprintf(fp, "bound: %6d\n",   om->ddbound_w);
+  fprintf(fp, "Q:     %6d\n",   nq);  
+  fprintf(fp, "M:     %6d\n",   M);  
+  return eslOK;
+}
+
+
+/* oprofile_dump_fb()
+ * 
+ * Dump the Forward/Backward part of a profile <om> to <stdout>.
+ * <width>, <precision> control the floating point output:
+ *  8,5 is a reasonable choice for prob space,
+ *  5,2 is reasonable for log space.
+ */
+static int
+oprofile_dump_fb(FILE *fp, const P7_OPROFILE *om, int width, int precision)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+  union { __m128 v; float x[4]; } tmp; /* used to align and read simd minivectors               */
+
+  /* Residue emissions */
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      fprintf(fp, "(%c): ", om->abc->sym[x]); 
+      for (k =1, q = 0; q < nq; q++, k++)
+	{
+	  fprintf(fp, "[ ");
+	  for (z = 0; z < 4; z++) 
+	    if (k+z*nq <= M) fprintf(fp, "%*d ", width, k+z*nq);
+	    else             fprintf(fp, "%*s ", width, "xx");
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\nmat: ");
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->rfv[x][q];
+	  for (z = 0; z < 4; z++) fprintf(fp, "%*.*f ", width, precision, tmp.x[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n\n");
+    }
+
+  /* Transitions */
+  for (t = p7O_BM; t <= p7O_II; t++)
+    {
+      switch (t) {
+      case p7O_BM: fprintf(fp, "\ntBM: "); break;
+      case p7O_MM: fprintf(fp, "\ntMM: "); break;
+      case p7O_IM: fprintf(fp, "\ntIM: "); break;
+      case p7O_DM: fprintf(fp, "\ntDM: "); break;
+      case p7O_MD: fprintf(fp, "\ntMD: "); break;
+      case p7O_MI: fprintf(fp, "\ntMI: "); break;
+      case p7O_II: fprintf(fp, "\ntII: "); break;
+      }
+      for (k = 1, q = 0; q < nq; q++, k++)
+	{
+	  switch (t) {
+	  case p7O_MM:/* MM, DM, IM quads rotated by +1  */
+	  case p7O_IM:
+	  case p7O_DM:
+		  kb = (1 + (nq+k-2)) % nq;
+		  break;
+	  case p7O_BM:/* the remaining ones are straight up  */
+	  case p7O_MD:
+	  case p7O_MI:
+	  case p7O_II:
+		  kb = k;
+		  break;
+	  }
+	  fprintf(fp, "[ ");
+	  for (z = 0; z < 4; z++) 
+	    if (kb+z*nq <= M) fprintf(fp, "%*d ", width, kb+z*nq);
+	    else              fprintf(fp, "%*s ", width, "xx");
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n     ");	  
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->tfv[q*7 + t];
+	  for (z = 0; z < 4; z++) fprintf(fp, "%*.*f ", width, precision, tmp.x[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");	  
+    }
+
+  /* DD transitions */
+  fprintf(fp, "\ntDD: ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 4; z++) 
+	if (k+z*nq <= M) fprintf(fp, "%*d ", width, k+z*nq);
+	else             fprintf(fp, "%*s ", width, "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n     ");	  
+  for (j = nq*7, q = 0; q < nq; q++, j++)
+    {
+      fprintf(fp, "[ ");
+      tmp.v = om->tfv[j];
+      for (z = 0; z < 4; z++) fprintf(fp, "%*.*f ", width, precision, tmp.x[z]);
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");	  
+  
+  /* Specials */
+  fprintf(fp, "E->C: %*.*f    E->J: %*.*f\n", width, precision, om->xf[p7O_E][p7O_MOVE], width, precision, om->xf[p7O_E][p7O_LOOP]);
+  fprintf(fp, "N->B: %*.*f    N->N: %*.*f\n", width, precision, om->xf[p7O_N][p7O_MOVE], width, precision, om->xf[p7O_N][p7O_LOOP]);
+  fprintf(fp, "J->B: %*.*f    J->J: %*.*f\n", width, precision, om->xf[p7O_J][p7O_MOVE], width, precision, om->xf[p7O_J][p7O_LOOP]);
+  fprintf(fp, "C->T: %*.*f    C->C: %*.*f\n", width, precision, om->xf[p7O_C][p7O_MOVE], width, precision, om->xf[p7O_C][p7O_LOOP]);
+  fprintf(fp, "Q:     %d\n",   nq);  
+  fprintf(fp, "M:     %d\n",   M);  
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_Dump()
+ * Synopsis:  Dump internals of a <P7_OPROFILE>
+ * Incept:    SRE, Thu Dec 13 08:49:30 2007 [Janelia]
+ *
+ * Purpose:   Dump the internals of <P7_OPROFILE> structure <om>
+ *            to stream <fp>; generally for testing or debugging
+ *            purposes.
+ *
+ * Args:      fp   - output stream (often stdout)
+ *            om   - optimized profile to dump
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_Dump(FILE *fp, const P7_OPROFILE *om)
+{
+  int status;
+
+  fprintf(fp, "Dump of a <P7_OPROFILE> ::\n");
+
+  fprintf(fp, "\n  -- float part, odds ratios for Forward/Backward:\n");
+  if ((status = oprofile_dump_fb(fp, om, 8, 5)) != eslOK) return status;
+
+  fprintf(fp, "\n  -- sword part, log odds for ViterbiFilter(): \n");
+  if ((status = oprofile_dump_vf(fp, om))       != eslOK) return status;
+
+  fprintf(fp, "\n  -- uchar part, log odds for MSVFilter(): \n");
+  if ((status = oprofile_dump_mf(fp, om))       != eslOK) return status;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_Sample()
+ * Synopsis:  Sample a random profile.
+ * Incept:    SRE, Wed Jul 30 13:11:52 2008 [Janelia]
+ *
+ * Purpose:   Sample a random profile of <M> nodes for alphabet <abc>,
+ *            using <r> as the source of random numbers. Parameterize
+ *            it for generation of target sequences of mean length
+ *            <L>. Calculate its log-odds scores using background
+ *            model <bg>.
+ *            
+ * Args:      r       - random number generator
+ *            abc     - emission alphabet 
+ *            bg      - background frequency model
+ *            M       - size of sampled profile, in nodes
+ *            L       - configured target seq mean length
+ *            opt_hmm - optRETURN: sampled HMM
+ *            opt_gm  - optRETURN: sampled normal profile
+ *            opt_om  - RETURN: optimized profile
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+		   P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om)
+{
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_OPROFILE    *om   = NULL;
+  int             status;
+
+  if ((gm = p7_profile_Create (M, abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+
+  if ((status = p7_hmm_Sample(r, M, abc, &hmm))             != eslOK) goto ERROR;
+  if ((status = p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)) != eslOK) goto ERROR;
+  if ((status = p7_oprofile_Convert(gm, om))                != eslOK) goto ERROR;
+  if ((status = p7_oprofile_ReconfigLength(om, L))          != eslOK) goto ERROR;
+
+  if (opt_hmm != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  if (opt_gm  != NULL) *opt_gm  = gm;  else p7_profile_Destroy(gm);
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (opt_hmm != NULL) *opt_hmm = NULL;
+  if (opt_gm  != NULL) *opt_gm  = NULL;
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_Compare()
+ * Synopsis:  Compare two optimized profiles for equality.
+ * Incept:    SRE, Wed Jan 21 13:29:10 2009 [Janelia]
+ *
+ * Purpose:   Compare the contents of <om1> and <om2>; return 
+ *            <eslOK> if they are effectively identical profiles,
+ *            or <eslFAIL> if not.
+ * 
+ *            Floating point comparisons are done to a tolerance
+ *            of <tol> using <esl_FCompare()>.
+ *            
+ *            If a comparison fails, an informative error message is
+ *            left in <errmsg> to indicate why.
+ *            
+ *            Internal allocation sizes are not compared, only the
+ *            data.
+ *            
+ * Args:      om1    - one optimized profile to compare
+ *            om2    - the other
+ *            tol    - floating point comparison tolerance; see <esl_FCompare()>
+ *            errmsg - ptr to array of at least <eslERRBUFSIZE> characters.
+ *            
+ * Returns:   <eslOK> on effective equality;  <eslFAIL> on difference.
+ */
+int
+p7_oprofile_Compare(const P7_OPROFILE *om1, const P7_OPROFILE *om2, float tol, char *errmsg)
+{
+  int Q4  = p7O_NQF(om1->M);
+  int Q8  = p7O_NQW(om1->M);
+  int Q16 = p7O_NQB(om1->M);
+  int q, r, x, y;
+  union { __m128i v; uint8_t c[16]; } a16, b16;
+  union { __m128i v; int16_t w[8];  } a8,  b8;
+  union { __m128  v; float   x[4];  } a4,  b4;
+
+  if (om1->mode      != om2->mode)      ESL_FAIL(eslFAIL, errmsg, "comparison failed: mode");
+  if (om1->L         != om2->L)         ESL_FAIL(eslFAIL, errmsg, "comparison failed: L");
+  if (om1->M         != om2->M)         ESL_FAIL(eslFAIL, errmsg, "comparison failed: M");
+  if (om1->nj        != om2->nj)        ESL_FAIL(eslFAIL, errmsg, "comparison failed: nj");
+  if (om1->abc->type != om2->abc->type) ESL_FAIL(eslFAIL, errmsg, "comparison failed: alphabet type");
+
+  /* MSVFilter part */
+  for (x = 0; x < om1->abc->Kp; x++)
+    for (q = 0; q < Q16; q++)
+      {
+	a16.v = om1->rbv[x][q]; b16.v = om2->rbv[x][q];
+	for (r = 0; r < 16; r++) if (a16.c[r] != b16.c[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: rb[%d] elem %d", q, r);
+      }
+  if (om1->tbm_b     != om2->tbm_b)     ESL_FAIL(eslFAIL, errmsg, "comparison failed: tbm_b");
+  if (om1->tec_b     != om2->tec_b)     ESL_FAIL(eslFAIL, errmsg, "comparison failed: tec_b");
+  if (om1->tjb_b     != om2->tjb_b)     ESL_FAIL(eslFAIL, errmsg, "comparison failed: tjb_b");
+  if (om1->scale_b   != om2->scale_b)   ESL_FAIL(eslFAIL, errmsg, "comparison failed: scale_b");
+  if (om1->base_b    != om2->base_b)    ESL_FAIL(eslFAIL, errmsg, "comparison failed: base_b");
+  if (om1->bias_b    != om2->bias_b)    ESL_FAIL(eslFAIL, errmsg, "comparison failed: bias_b");
+
+  /* ViterbiFilter() part */
+  for (x = 0; x < om1->abc->Kp; x++)
+    for (q = 0; q < Q8; q++)
+      {
+	a8.v = om1->rwv[x][q]; b8.v = om2->rwv[x][q];
+	for (r = 0; r < 8; r++) if (a8.w[r] != b8.w[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: rw[%d] elem %d", q, r);
+      }
+  for (q = 0; q < 8*Q16; q++)
+    {
+      a8.v = om1->twv[q]; b8.v = om2->twv[q];
+      for (r = 0; r < 8; r++) if (a8.w[r] != b8.w[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: tw[%d] elem %d", q, r);
+    }
+  for (x = 0; x < p7O_NXSTATES; x++)
+    for (y = 0; y < p7O_NXTRANS; y++)
+      if (om1->xw[x][y] != om2->xw[x][y]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: xw[%d][%d]", x, y);
+
+  if (om1->scale_w   != om2->scale_w)   ESL_FAIL(eslFAIL, errmsg, "comparison failed: scale");
+  if (om1->base_w    != om2->base_w)    ESL_FAIL(eslFAIL, errmsg, "comparison failed: base");
+  if (om1->ddbound_w != om2->ddbound_w) ESL_FAIL(eslFAIL, errmsg, "comparison failed: ddbound_w");
+  
+  /* Forward/Backward part */
+  for (x = 0; x < om1->abc->Kp; x++)
+    for (q = 0; q < Q4; q++)
+      {
+	a4.v = om1->rfv[x][q]; b4.v = om2->rfv[x][q];
+	for (r = 0; r < 4; r++) if (esl_FCompare(a4.x[r], b4.x[r], tol) != eslOK)  ESL_FAIL(eslFAIL, errmsg, "comparison failed: rf[%d] elem %d", q, r);
+      }
+  for (q = 0; q < 8*Q4; q++)
+    {
+      a4.v = om1->tfv[q]; b4.v = om2->tfv[q];
+      for (r = 0; r < 4; r++) if (a4.x[r] != b4.x[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: tf[%d] elem %d", q, r);
+    }
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (esl_vec_FCompare(om1->xf[x], om2->xf[x], p7O_NXTRANS, tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: xf[%d] vector", x);
+
+   for (x = 0; x < p7_NOFFSETS; x++)
+     if (om1->offs[x] != om2->offs[x]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: offs[%d]", x);
+
+   if (esl_strcmp(om1->name,      om2->name)      != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: name");
+   if (esl_strcmp(om1->acc,       om2->acc)       != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: acc");
+   if (esl_strcmp(om1->desc,      om2->desc)      != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: desc");
+   if (esl_strcmp(om1->rf,        om2->rf)        != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: ref");
+   if (esl_strcmp(om1->mm,        om2->mm)        != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: mm");
+   if (esl_strcmp(om1->cs,        om2->cs)        != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: cs");
+   if (esl_strcmp(om1->consensus, om2->consensus) != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: consensus");
+   
+   if (esl_vec_FCompare(om1->evparam, om2->evparam, p7_NEVPARAM, tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: evparam vector");
+   if (esl_vec_FCompare(om1->cutoff,  om2->cutoff,  p7_NCUTOFFS, tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: cutoff vector");
+   if (esl_vec_FCompare(om1->compo,   om2->compo,   p7_MAXABET,  tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: compo vector");
+
+   return eslOK;
+}
+
+
+/* Function:  p7_profile_SameAsMF()
+ * Synopsis:  Set a generic profile's scores to give MSV scores.
+ * Incept:    SRE, Wed Jul 30 13:42:49 2008 [Janelia]
+ *
+ * Purpose:   Set a generic profile's scores so that the normal <dp_generic> DP 
+ *            algorithms will give the same score as <p7_MSVFilter()>:
+ *            all t_MM scores = 0; all other core transitions = -inf;
+ *            multihit local mode; all <t_BMk> entries uniformly <log 2/(M(M+1))>;
+ *            <tCC, tNN, tJJ> scores 0; total approximated later as -3;
+ *            rounded in the same way as the 8-bit limited precision.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm)
+{
+  int    k,x;
+  float  tbm = roundf(om->scale_b * (log(2.0f / ((float) gm->M * (float) (gm->M+1)))));
+
+  /* Transitions */
+  esl_vec_FSet(gm->tsc, p7P_NTRANS * gm->M, -eslINFINITY);
+  for (k = 1; k <  gm->M; k++) p7P_TSC(gm, k, p7P_MM) = 0.0f;
+  for (k = 0; k <  gm->M; k++) p7P_TSC(gm, k, p7P_BM) = tbm;
+  
+  /* Emissions */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 0; k <= gm->M; k++)
+      {
+	gm->rsc[x][k*2]   = (gm->rsc[x][k*2] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_b * gm->rsc[x][k*2]);
+	gm->rsc[x][k*2+1] = 0;	/* insert score: VF makes it zero no matter what. */
+      }	
+
+   /* Specials */
+  for (k = 0; k < p7P_NXSTATES; k++)
+    for (x = 0; x < p7P_NXTRANS; x++)
+      gm->xsc[k][x] = (gm->xsc[k][x] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_b * gm->xsc[k][x]);
+
+  /* NN, CC, JJ hardcoded 0 in limited precision */
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_J][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = 0;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_profile_SameAsVF()
+ * Synopsis:  Round a generic profile to match ViterbiFilter scores.
+ * Incept:    SRE, Wed Jul 30 13:37:48 2008 [Janelia]
+ *
+ * Purpose:   Round all the scores in a generic (lspace) <P7_PROFILE> <gm> in
+ *            exactly the same way that the scores in the
+ *            <P7_OPROFILE> <om> were rounded. Then we can test that two profiles
+ *            give identical internal scores in testing, say,
+ *            <p7_ViterbiFilter()> against <p7_GViterbi()>. 
+ *            
+ *            The 3nat approximation is used; NN=CC=JJ=0, and 3 nats are
+ *            subtracted at the end to account for their contribution.
+ *            
+ *            To convert a generic Viterbi score <gsc> calculated with this profile
+ *            to a nat score that should match ViterbiFilter() exactly,
+ *            do <(gsc / om->scale_w) - 3.0>.
+ *
+ *            <gm> must be the same profile that <om> was constructed from.
+ * 
+ *            <gm> is irrevocably altered by this call. 
+ *            
+ *            Do not call this more than once on any given <gm>! 
+ *
+ * Args:      <om>  - optimized profile, containing scale information.
+ *            <gm>  - generic profile that <om> was built from.          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm)
+{
+  int k;
+  int x;
+
+  /* Transitions */
+  /* <= -eslINFINITY test is used solely to silence compiler. really testing == -eslINFINITY */
+  for (x = 0; x < gm->M*p7P_NTRANS; x++)
+    gm->tsc[x] = (gm->tsc[x] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_w * gm->tsc[x]);
+  
+  /* Enforce the rule that no II can be 0; max of -1 */
+  for (x = p7P_II; x < gm->M*p7P_NTRANS; x += p7P_NTRANS) 
+    if (gm->tsc[x] == 0.0) gm->tsc[x] = -1.0;
+
+  /* Emissions */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 0; k <= gm->M; k++)
+      {
+	gm->rsc[x][k*2]   = (gm->rsc[x][k*2]   <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_w * gm->rsc[x][k*2]);
+	gm->rsc[x][k*2+1] = 0.0;	/* insert score: VF makes it zero no matter what. */
+      }	
+
+  /* Specials */
+  for (k = 0; k < p7P_NXSTATES; k++)
+    for (x = 0; x < p7P_NXTRANS; x++)
+      gm->xsc[k][x] = (gm->xsc[k][x] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_w * gm->xsc[k][x]);
+
+  /* 3nat approximation: NN, CC, JJ hardcoded 0 in limited precision */
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_J][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = 0.0;
+
+  return eslOK;
+}
+/*------------ end, P7_OPROFILE debugging tools  ----------------*/
+
+
+
+/*****************************************************************
+ * 5. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7OPROFILE_BENCHMARK
+/* Timing profile conversion.
+   gcc -o benchmark-oprofile -std=gnu99 -g -Wall -msse2 -I.. -L.. -I../../easel -L../../easel -Dp7OPROFILE_BENCHMARK\
+      p7_oprofile.c -lhmmer -leasel -lm 
+   icc -o benchmark-oprofile -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7OPROFILE_BENCHMARK p7_oprofile.c -lhmmer -leasel -lm 
+   ./benchmark-sse <hmmfile>         runs benchmark
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,    "400", NULL, NULL,  NULL,  NULL, NULL, "length of target sequence",                        0 },
+  { "-N",        eslARG_INT, "100000", NULL, NULL,  NULL,  NULL, NULL, "number of conversions to time",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for the generic implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_oprofile_Convert(gm, om);
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M = %d\n", gm->M);
+
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPROFILE_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+  
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef p7OPROFILE_TESTDRIVE
+
+
+#endif /*p7OPROFILE_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+#ifdef p7OPROFILE_TESTDRIVE
+
+
+#endif /*p7OPROFILE_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+/*****************************************************************
+ * 8. Example
+ *****************************************************************/
+#ifdef p7OPROFILE_EXAMPLE
+/* gcc -std=gnu99 -g -Wall -Dp7OPROFILE_EXAMPLE -I.. -I../../easel -L.. -L../../easel -o p7_oprofile_example p7_oprofile.c -lhmmer -leasel -lm
+ * ./p7_oprofile_example <hmmfile>
+ */
+#include "p7_config.h"
+#include <stdlib.h>
+#include "easel.h"
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  char         *hmmfile = argv[1];
+  ESL_ALPHABET *abc     = NULL;
+  P7_HMMFILE   *hfp     = NULL;
+  P7_HMM       *hmm     = NULL;
+  P7_BG        *bg      = NULL;
+  P7_PROFILE   *gm      = NULL;
+  P7_OPROFILE  *om1     = NULL;
+  P7_OPROFILE  *om2     = NULL;
+  int           status;
+  char          errbuf[eslERRBUFSIZE];
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  bg  = p7_bg_Create(abc);
+  gm  = p7_profile_Create(hmm->M, abc);   
+  om1 = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+  p7_oprofile_Convert(gm, om1);
+  
+  p7_oprofile_Dump(stdout, om1);
+
+  om2 = p7_oprofile_Copy(om1);
+  if (p7_oprofile_Compare(om1, om2, 0.001f, errbuf) != eslOK)    printf ("ERROR %s\n", errbuf);
+
+  p7_oprofile_Destroy(om1);
+  p7_oprofile_Destroy(om2);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*p7OPROFILE_EXAMPLE*/
+/*----------------------- end, example --------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *   
+ * SVN $Id: p7_oprofile.c 4699 2014-07-03 14:54:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_sse/p7_oprofile.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/ssvfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/ssvfilter.c
new file mode 100755
index 0000000..b15c681
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/ssvfilter.c
@@ -0,0 +1,938 @@
+/* The SSV filter implementation; SSE version.
+ * 
+ * Contents:
+ *   1. Introduction
+ *   2. p7_SSVFilter() implementation
+ *   3. Copyright and license information
+ * 
+ * Bjarne Knudsen, CLC Bio
+ * SVN $Id: ssvfilter.c 3974 2012-03-30 13:53:57Z wheelert $
+ */
+
+/*****************************************************************
+ * 1. Introduction
+ *****************************************************************/
+ 
+/* Here is a description of the major ides going into this
+ * implementation of the SSV filter.
+ *
+ *
+ * REMOVING THE J STATE
+ * ====================
+ *
+ * The original MSV filter allows use of the J state to chain together
+ * multiple matches in different diagonals. Thus, a full match can
+ * consist of diagonal match followed by the J state and then another
+ * diagonal match later in the sequence.  Going through the J state
+ * has a certain price so for the full match to contain two different
+ * diagonal matches connected by the J state, each of the individual
+ * diagonal matches must score higher than the cost of going through
+ * the J state.
+ *
+ * It turns out that even the best match in a model-sequence
+ * comparison rarely scores higher than the cost of going through the
+ * J state. This is the basis of the idea used here, which is to
+ * completely ignore the J state. To avoid this leading to false
+ * negatives, we check the resulting maximum score against the cost of
+ * the going through the J state. In the rare cases where the J state
+ * may in fact have been used, we return eslNORESULT. This indicates
+ * to the original J state that it should recalculate the score.
+ *
+ * Since removing the J state allows significant improvements in
+ * speed, the extra overhead of having to go through the original MSV
+ * filter in about 1% of the cases is not a problem.
+ *
+ * Note that for the score to actually be different, we need two
+ * diagonals to have a high scoring match, but we cannot easily check
+ * for that. Thus, oftentimes the re-calculated score in the original
+ * MSV filter will be the same as without the J state.
+ *
+ * The code governing the use of the J state in the original filter is:
+ *
+ *   xEv = _mm_subs_epu8(xEv, tecv);
+ *   xJv = _mm_max_epu8(xJv,xEv);
+ *   xBv = _mm_max_epu8(basev, xJv);
+ *
+ * So for an xE value to be high enough to affect xJ, the following
+ * inequality must be true:
+ *
+ *   xJ = xE - om->tec_b > om->base_b
+ *
+ * We defer this check until the final maximal xE value has been
+ * calculated. If the above holds true, we return eslNORESULT.
+ *
+ * Since the J state is removed, the xBv vector is constant, so we can
+ * set it once an for all to a vector where all entries are:
+ *
+ *   om->base_b - om->tjb_b - om->tbm_b
+ *
+ * But see the following section for why this is changed for other
+ * reasons.
+ *
+ *
+ * INTERNAL LOOP ADJUSTMENT AND IMPLICATIONS
+ * =========================================
+ *
+ * The following assumes that we have already gotten rid of the J
+ * state.
+ *
+ * Here is an analysis of what is going on in the central loop. The
+ * original code is:
+ *
+ *   1: sv  = _mm_max_epu8(sv, xBv);
+ *   2: sv  = _mm_adds_epu8(sv, biasv);      
+ *   3: sv  = _mm_subs_epu8(sv, *rsc); rsc++;
+ *   4: xEv = _mm_max_epu8(xEv, sv);	
+ *
+ * Here is a line by line description:
+ *
+ *   1: If sv is below xBv, it is set to xBv. xBv is the begin score,
+ *      which is om->base_b - om->tjb_b - om->tbm_b.
+ *
+ *   2: The bias (om->bias_b) is added. This is done since we are
+ *      using unsigned numbers and the score can be both positive and
+ *      negative. The bias is the negative of the highest value the
+ *      real match scores may have.
+ *
+ *   3: The match score (and bias) is subtracted. The subtracted score
+ *      must be positive since we using are unsigned bytes, thus the
+ *      score subtracted here is the one adjusted for bias. We also
+ *      progress to the next match score (rsc++).
+ *
+ *   4: The global maximum is updated.
+ *
+ * When the everything has been traversed, xEv is checked for a number
+ * of conditions. First, the maximum value is extracted to xE, though.
+ *
+ * if xE is greater than or equal to 255 - om->bias_b, there may have
+ * been an overflow, and the result is reported as infinite.
+ *
+ * Since we ignored the J state, we have to check whether it could
+ * potentially have been used, possibly resulting in a higher
+ * score. This is the case if (xE - om->tec_b) > om->base_b. The left
+ * side of the check is the highest score that xJ could have
+ * attained. In the original MSV filter this score would only have
+ * affected the begin scores if this xJ value exceeded
+ * om->base_b. This explains the check.
+ *
+ * Now, we optimize this internal loop by using two ideas:
+ *
+ *   A: Get rid of line 1 by using saturation. This can be done
+ *      because xBv is a constant vector after getting rid of the J
+ *      state.
+ *
+ *   B: Combine lines 2 and 3 by using a single signed subtraction
+ *      instead of an unsigned addition followed by an unsigned
+ *      subtraction.
+ *
+ * It is a challenge that SSE2 does not have a signed byte max
+ * operation, yet we need to subtract a signed byte in idea B. First
+ * the new code, then the explanation:
+ *
+ *   sv   = _mm_subs_epi8(sv, *rsc); rsc++;
+ *   xEv  = _mm_max_epu8(xEv, sv);
+ *
+ * The last line is unchanged, i.e. the overall max is still done as
+ * an unsigned maximum. The subtraction is saturated to satisfy idea A
+ * and it is signed to satisfy idea B.
+ *
+ * To make the saturation work in the lower end of the scale, the
+ * begin scores have to equal signed -128 which is the same as
+ * unsigned 128, or a bit value of 10000000.  Thus, we basically shift
+ * the calculation with a (signed) value of -(om->base_b - om->tjb_b -
+ * om->tbm_b + 128), which takes the original begin value to -128.
+ *
+ * Since we are using an unsigned maximum, the signed saturation at
+ * +127 will not work. Thus, if the score gets high enough, we are
+ * going to pass from signed negative values to non-negative values
+ * without any saturation kicking in. In the unsigned domain this
+ * basically constitutes an overflow from 255 to 0. This means that we
+ * may miss a high score of it crosses this boundary.
+ *
+ * The highest positive effect that the subtraction can have is to add
+ * om->bias_b, since this is the highest real match score. So only
+ * scores strictly higher than 255 - om->bias_b in the unsigned domain
+ * may cause an overflow. In the signed domain this corresponds to -1
+ * - om->bias_b.
+ *
+ * When the calculation is all done, we may check xE against this
+ * boundary to determine if an overflow might have occurred. The other
+ * thing to consider is the check for whether the J state may have
+ * been used. This happens when:
+ *
+ *   (xE + (om->base_b - om->tjb_b - om->tbm_b - 128) - om->tec_b)
+ *           > om->base_b. 
+ *
+ *   <=>   xE > om->tjb_b + om->tbm_b + om->tec_b + 128
+ *
+ * Thus, we have these two checks:
+ *
+ *   xE >= 255 - om->bias_b                        (possible overflow)
+ *
+ *   xE > om->tjb_b + om->tbm_b + om->tec_b - 128  (possible J state)
+ *
+ * To avoid having to call too many false positives, we do not want
+ * the overflow to occur before the J state becomes possible. This
+ * mean that we want:
+ *
+ *   (Overflow => J state)
+ *
+ *   <=>  255 - om->bias_b > om->tjb_b + om->tbm_b + om->tec_b + 128
+ *
+ *   <=>  om->tjb_b + om->tbm_b + om->tec_b + om->bias_b < 127
+ *
+ * The worst case bias is 19, om->tec_B is 3 for a sequence length of
+ * L and a model length of M, we have:
+ *
+ *   om->tjb_b = 3 * logf(3 / (L + 3))
+ *   om->tbm_b = 3 * logf(2 / (M * (M + 1)))
+ *
+ * So if the sequence length is L = 1,000,000, the longest possible
+ * model where the above holds true is M = 482. If the model size is M
+ * = 2,295 (the largest in Pfam 23.0), the longest sequence length
+ * where the condition is true is L = 43,786. So, the condition is not
+ * always true, but typically, it is. And, importantly, it can be
+ * checked.
+ *
+ * A final thing to consider is what to do on an overflow. Since we
+ * shifted the baseline for the calculation, the question is if an
+ * overflow is necessarily going to happen in the original MSV
+ * filter. This is true when our baseline as no higher than the
+ * original MSV filter baseline.  Thus, when the following holds we
+ * know that an overflow will occur for the original filter:
+ *
+ *   om->base_b - om->tjb_b - om->tbm_b >= 128
+ *
+ * If it does not hold, we are not sure what the true result is and we
+ * have to indicate that in the return value.
+ *
+ * Since we perform a single signed subtraction instead of an unsigned
+ * addition followed by in unsigned subtraction, a new set of match
+ * scores have been introduced in the P7_OPROFILE structure. These are
+ * called sb where the originals are rb.
+ *
+ *
+ * EXPLANATION OF THE CODE
+ * =======================
+ *
+ * The basic idea is to traverse the sequence while analyzing only
+ * enough diagonals that they may residue in registers rather than
+ * memory. This may require several traversals of the sequence, but
+ * this is still worth it due to reduced memory access.
+ *
+ * So we have a basic calculation concept where we fill out some
+ * number of adjacent striped diagonal vectors throughout the whole
+ * sequence. Consider a simple case where we have two registers, A and
+ * B and they each have only two fields instead of 16. In one sweep of
+ * a sequence we calculate the following matrix cells:
+ *
+ *     |  BA  BA  BA  BA  BA  BA  BA
+ *     | BA  BA  BA  BA  BA  BA  BA 
+ *     |BA  BA  BA  BA  BA  BA  BA  
+ *   H |A  BA  BA  BA  BA  BA  BA  B
+ *   M |  BA  BA  BA  BA  BA  BA  BA
+ *   M | BA  BA  BA  BA  BA  BA  BA 
+ *     |BA  BA  BA  BA  BA  BA  BA  
+ *     |A  BA  BA  BA  BA  BA  BA  B
+ *      ----------------------------
+ *                Sequence
+ *
+ * When the top entry in one of the vectors hits the top, the vector
+ * must be left shifted to be ready for the next column. This first
+ * happens to the last vector (B), then in the following round to the
+ * first vector (A).
+ *
+ * This means that the sweep contains two different phases: one where
+ * vectors are being moved without shifting and then a phase where the
+ * vectors are being shifted one by one until the have all been
+ * shifted. If we have Q sets of 16 diagonal and we have w registers
+ * in use, the first phase takes Q - w rounds and the second phase
+ * takes w rounds and we are back where we started. This is done until
+ * the sequence ends.
+ *
+ * After having done this, we do another sweep, where we calculate the
+ * remaining cells:
+ *
+ *     |BA  BA  BA  BA  BA  BA  BA  
+ *     |A  BA  BA  BA  BA  BA  BA  B
+ *     |  BA  BA  BA  BA  BA  BA  BA
+ *   H | BA  BA  BA  BA  BA  BA  BA 
+ *   M |BA  BA  BA  BA  BA  BA  BA  
+ *   M |A  BA  BA  BA  BA  BA  BA  B
+ *     |  BA  BA  BA  BA  BA  BA  BA
+ *     | BA  BA  BA  BA  BA  BA  BA 
+ *      ----------------------------
+ *                Sequence
+ *
+ * This sweep is identical to the first, except there is an offset to
+ * the starting point. We call this offset q which is 2 in this case
+ * and 0 above).
+ *
+ * Apart from the model, sequence, etc., the core calculation has two
+ * parameters: w and q. If we have three registers and Q = 8, we do
+ * three sweeps:
+ *
+ *   sweep 1: q = 0, w = 3
+ *   sweep 2: q = 3, w = 3
+ *   sweep 3: q = 6, w = 2
+ *
+ * This covers all diagonals and we are done.
+ *
+ * To make the compiler use registers as much as possible, we have to
+ * be quite specific about what is going on, so we have to make a
+ * function for each value of w. Since 64 bit machines have 16 xmm
+ * registers, we need quite a few of these functions. It is also
+ * possible that some of the diagonals actually end up in memory while
+ * retaining high performance since a few scattered memory accesses
+ * are not going to slow things down.
+ *
+ * To make the code maintainable, we cannot write out all these
+ * functions. Instead the are defined via macros. So a function
+ * definition may look like this:
+ *
+ *   __m128i calc_band_6(ESL_DSQ *dsq, int L, P7_OPROFILE *om, int q, __m128i beginv, __m128i xEv)
+ *   {
+ *     CALC(RESET_6, STEP_BANDS_6, CONVERT_6, 6)
+ *   }
+ *
+ * The parameters are the sequence, its length, the model, the q
+ * value, a begin vector and the max vector. The return value is the
+ * updated max vector. The whole body of the function is defined as a
+ * macro with parameters that are themselves expanded macros (apart
+ * from the last parameter).
+ *
+ * The RESET macro defines and resets the xmm variables in the
+ * function. It is defined recursively:
+ *
+ *   #define RESET_1()
+ *     register __m128i sv00 = beginv;
+ *
+ *   #define RESET_2()
+ *     RESET_1()
+ *     register __m128i sv01 = beginv;
+ *
+ *   #define RESET_3()
+ *     RESET_2()
+ *     register __m128i sv02 = beginv;
+ *
+ * So the variables holding the scores for the diagonals are called
+ * sv00, sv01, etc.
+ *
+ * The next macro is STEP_BANDS, which moves the diagonals. Again,
+ * this is a recursively defined macro:
+ *
+ *   #define STEP_BANDS_1()
+ *     STEP_SINGLE(sv00)
+ *
+ *   #define STEP_BANDS_2()
+ *     STEP_BANDS_1()
+ *     STEP_SINGLE(sv01)
+ *
+ *   #define STEP_BANDS_3()
+ *     STEP_BANDS_2()
+ *     STEP_SINGLE(sv02)
+ *
+ * So we end up using STEP_SINGLE on each vector. This is where the
+ * central calculation is done as described above:
+ *
+ *   #define STEP_SINGLE(sv)
+ *     sv   = _mm_subs_epi8(sv, *rsc); rsc++;
+ *     xEv  = _mm_max_epu8(xEv, sv);
+ *
+ * The CONVERT macro handles the second phase mentioned above where
+ * the vectors have to be shifted. This is yet another recursive
+ * macro:
+ *
+ *   #define CONVERT_1(step, LENGTH_CHECK, label)
+ *     CONVERT_STEP(step, LENGTH_CHECK, label, sv00, Q - 1)
+ *
+ *   #define CONVERT_2(step, LENGTH_CHECK, label)
+ *     CONVERT_STEP(step, LENGTH_CHECK, label, sv01, Q - 2)
+ *     CONVERT_1(step, LENGTH_CHECK, label)
+ *
+ *   #define CONVERT_3(step, LENGTH_CHECK, label)
+ *     CONVERT_STEP(step, LENGTH_CHECK, label, sv02, Q - 3)
+ *     CONVERT_2(step, LENGTH_CHECK, label)
+ *
+ * Here, CONVERT_STEP ends up being called on each vector in reverse
+ * order. It does the following:
+ *
+ *   #define CONVERT_STEP(step, LENGTH_CHECK, label, sv, pos)
+ *     length_check(label)
+ *     rsc = om->sbv[dsq[i]] + pos;
+ *     step()
+ *     sv = _mm_slli_si128(sv, 1);
+ *     sv = _mm_or_si128(sv, beginv);
+ *     i++;
+ *
+ * First a check is made. This is sometimes used to check whether the
+ * sequence is done. Then the match score pointer is set. After this,
+ * STEP_BANDS is called using the step parameter of this
+ * macro. Finally one vector is shifted and or'ed with the begin
+ * vector of (128, 128, ... ). This ensures that the zero that was
+ * shifted in is converted to the needed base line of 128. Other
+ * entries are not significantly affected by this since either their
+ * most significant bit is already set or we already had an overflow
+ * and it does not matter.
+ *
+ * Notice that the CONVERT macro ends up stepping the diagonals w
+ * times, so it handles the whole of phase two. Note also that the
+ * macro may let rsc overflow since it does not reset rsc after a
+ * shift operation. This is handled by extending the match score array
+ * in the P7_OPROFILE by MAX_BANDS - 1 = 17 as defined by the p7O_EXTRA_SB
+ * constant in that file.
+ *
+ * The only macro remaining is the CALC macro which just contains the
+ * overall function for going through the various phases. Due to the
+ * starting offset (q), the first Q - q sequence positions have to be
+ * handled separately. After this follows a number of blocks of length
+ * Q where we can be efficient and not do a check of whether the
+ * sequence stops (the NO_CHECK macro indicates this). Finally, at the
+ * end of the sequence we have to be careful and stop at the right
+ * time, again using LENGTH_CHECK.
+ *
+ * Even though the code is only around 500 lines, it expands to a
+ * fairly large file when the macros are parsed. For example,
+ * _mm_subs_epi8() is called 6,840 times even though it is only
+ * present once in this file. The object file is still not
+ * ridiculously large.
+ *
+ * To better see what is going on, run the preprocessor on this file:
+ *
+ *   gcc -E ssvfilter.c | sed 's/[;:]/&\n/g' | less
+ *
+ * Ignore the warnings and go look for the calc_band_2 function.
+ *
+ */
+
+#include "p7_config.h"
+
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+/* Note that some ifdefs below has to be changed if these values are
+   changed. These values are chosen based on some simple speed
+   tests. Apparently, two registers are generally used for something
+   else, leaving 14 registers on 64 bit versions and 6 registers on 32
+   bit versions. */
+#ifdef __x86_64__ /* 64 bit version */
+#define  MAX_BANDS 14
+#else
+#define  MAX_BANDS 6
+#endif
+
+
+#define STEP_SINGLE(sv)                         \
+  sv   = _mm_subs_epi8(sv, *rsc); rsc++;        \
+  xEv  = _mm_max_epu8(xEv, sv);
+
+
+#define LENGTH_CHECK(label)                     \
+  if (i >= L) goto label;
+
+
+#define NO_CHECK(label)
+
+
+#define STEP_BANDS_1()                          \
+  STEP_SINGLE(sv00)
+
+#define STEP_BANDS_2()                          \
+  STEP_BANDS_1()                                \
+  STEP_SINGLE(sv01)
+
+#define STEP_BANDS_3()                          \
+  STEP_BANDS_2()                                \
+  STEP_SINGLE(sv02)
+
+#define STEP_BANDS_4()                          \
+  STEP_BANDS_3()                                \
+  STEP_SINGLE(sv03)
+
+#define STEP_BANDS_5()                          \
+  STEP_BANDS_4()                                \
+  STEP_SINGLE(sv04)
+
+#define STEP_BANDS_6()                          \
+  STEP_BANDS_5()                                \
+  STEP_SINGLE(sv05)
+
+#define STEP_BANDS_7()                          \
+  STEP_BANDS_6()                                \
+  STEP_SINGLE(sv06)
+
+#define STEP_BANDS_8()                          \
+  STEP_BANDS_7()                                \
+  STEP_SINGLE(sv07)
+
+#define STEP_BANDS_9()                          \
+  STEP_BANDS_8()                                \
+  STEP_SINGLE(sv08)
+
+#define STEP_BANDS_10()                         \
+  STEP_BANDS_9()                                \
+  STEP_SINGLE(sv09)
+
+#define STEP_BANDS_11()                         \
+  STEP_BANDS_10()                               \
+  STEP_SINGLE(sv10)
+
+#define STEP_BANDS_12()                         \
+  STEP_BANDS_11()                               \
+  STEP_SINGLE(sv11)
+
+#define STEP_BANDS_13()                         \
+  STEP_BANDS_12()                               \
+  STEP_SINGLE(sv12)
+
+#define STEP_BANDS_14()                         \
+  STEP_BANDS_13()                               \
+  STEP_SINGLE(sv13)
+
+#define STEP_BANDS_15()                         \
+  STEP_BANDS_14()                               \
+  STEP_SINGLE(sv14)
+
+#define STEP_BANDS_16()                         \
+  STEP_BANDS_15()                               \
+  STEP_SINGLE(sv15)
+
+#define STEP_BANDS_17()                         \
+  STEP_BANDS_16()                               \
+  STEP_SINGLE(sv16)
+
+#define STEP_BANDS_18()                         \
+  STEP_BANDS_17()                               \
+  STEP_SINGLE(sv17)
+
+
+#define CONVERT_STEP(step, length_check, label, sv, pos)        \
+  length_check(label)                                           \
+  rsc = om->sbv[dsq[i]] + pos;                                   \
+  step()                                                        \
+  sv = _mm_slli_si128(sv, 1);                                   \
+  sv = _mm_or_si128(sv, beginv);                                \
+  i++;
+
+
+#define CONVERT_1(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv00, Q - 1)
+
+#define CONVERT_2(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv01, Q - 2)  \
+  CONVERT_1(step, LENGTH_CHECK, label)
+
+#define CONVERT_3(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv02, Q - 3)  \
+  CONVERT_2(step, LENGTH_CHECK, label)
+
+#define CONVERT_4(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv03, Q - 4)  \
+  CONVERT_3(step, LENGTH_CHECK, label)
+
+#define CONVERT_5(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv04, Q - 5)  \
+  CONVERT_4(step, LENGTH_CHECK, label)
+
+#define CONVERT_6(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv05, Q - 6)  \
+  CONVERT_5(step, LENGTH_CHECK, label)
+
+#define CONVERT_7(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv06, Q - 7)  \
+  CONVERT_6(step, LENGTH_CHECK, label)
+
+#define CONVERT_8(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv07, Q - 8)  \
+  CONVERT_7(step, LENGTH_CHECK, label)
+
+#define CONVERT_9(step, LENGTH_CHECK, label)            \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv08, Q - 9)  \
+  CONVERT_8(step, LENGTH_CHECK, label)
+
+#define CONVERT_10(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv09, Q - 10) \
+  CONVERT_9(step, LENGTH_CHECK, label)
+
+#define CONVERT_11(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv10, Q - 11) \
+  CONVERT_10(step, LENGTH_CHECK, label)
+
+#define CONVERT_12(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv11, Q - 12) \
+  CONVERT_11(step, LENGTH_CHECK, label)
+
+#define CONVERT_13(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv12, Q - 13) \
+  CONVERT_12(step, LENGTH_CHECK, label)
+
+#define CONVERT_14(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv13, Q - 14) \
+  CONVERT_13(step, LENGTH_CHECK, label)
+
+#define CONVERT_15(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv14, Q - 15) \
+  CONVERT_14(step, LENGTH_CHECK, label)
+
+#define CONVERT_16(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv15, Q - 16) \
+  CONVERT_15(step, LENGTH_CHECK, label)
+
+#define CONVERT_17(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv16, Q - 17) \
+  CONVERT_16(step, LENGTH_CHECK, label)
+
+#define CONVERT_18(step, LENGTH_CHECK, label)           \
+  CONVERT_STEP(step, LENGTH_CHECK, label, sv17, Q - 18) \
+  CONVERT_17(step, LENGTH_CHECK, label)
+
+
+#define RESET_1()                               \
+  register __m128i sv00 = beginv;
+
+#define RESET_2()                               \
+  RESET_1()                                     \
+  register __m128i sv01 = beginv;
+
+#define RESET_3()                               \
+  RESET_2()                                     \
+  register __m128i sv02 = beginv;
+
+#define RESET_4()                               \
+  RESET_3()                                     \
+  register __m128i sv03 = beginv;
+
+#define RESET_5()                               \
+  RESET_4()                                     \
+  register __m128i sv04 = beginv;
+
+#define RESET_6()                               \
+  RESET_5()                                     \
+  register __m128i sv05 = beginv;
+
+#define RESET_7()                               \
+  RESET_6()                                     \
+  register __m128i sv06 = beginv;
+
+#define RESET_8()                               \
+  RESET_7()                                     \
+  register __m128i sv07 = beginv;
+
+#define RESET_9()                               \
+  RESET_8()                                     \
+  register __m128i sv08 = beginv;
+
+#define RESET_10()                              \
+  RESET_9()                                     \
+  register __m128i sv09 = beginv;
+
+#define RESET_11()                              \
+  RESET_10()                                    \
+  register __m128i sv10 = beginv;
+
+#define RESET_12()                              \
+  RESET_11()                                    \
+  register __m128i sv11 = beginv;
+
+#define RESET_13()                              \
+  RESET_12()                                    \
+  register __m128i sv12 = beginv;
+
+#define RESET_14()                              \
+  RESET_13()                                    \
+  register __m128i sv13 = beginv;
+
+#define RESET_15()                              \
+  RESET_14()                                    \
+  register __m128i sv14 = beginv;
+
+#define RESET_16()                              \
+  RESET_15()                                    \
+  register __m128i sv15 = beginv;
+
+#define RESET_17()                              \
+  RESET_16()                                    \
+  register __m128i sv16 = beginv;
+
+#define RESET_18()                              \
+  RESET_17()                                    \
+  register __m128i sv17 = beginv;
+
+
+#define CALC(reset, step, convert, width)       \
+  int i;                                        \
+  int i2;                                       \
+  int Q        = p7O_NQB(om->M);                \
+  __m128i *rsc;                                 \
+                                                \
+  int w = width;                                \
+                                                \
+  dsq++;                                        \
+                                                \
+  reset()                                       \
+                                                \
+  for (i = 0; i < L && i < Q - q - w; i++)      \
+    {                                           \
+      rsc = om->sbv[dsq[i]] + i + q;            \
+      step()                                    \
+    }                                           \
+                                                \
+  i = Q - q - w;                                \
+  convert(step, LENGTH_CHECK, done1)            \
+done1:                                          \
+                                                \
+ for (i2 = Q - q; i2 < L - Q; i2 += Q)          \
+   {                                            \
+     for (i = 0; i < Q - w; i++)                \
+       {                                        \
+         rsc = om->sbv[dsq[i2 + i]] + i;        \
+         step()                                 \
+       }                                        \
+                                                \
+     i += i2;                                   \
+     convert(step, NO_CHECK, )                  \
+   }                                            \
+                                                \
+ for (i = 0; i2 + i < L && i < Q - w; i++)      \
+   {                                            \
+     rsc = om->sbv[dsq[i2 + i]] + i;            \
+     step()                                     \
+   }                                            \
+                                                \
+ i+=i2;                                         \
+ convert(step, LENGTH_CHECK, done2)             \
+done2:                                          \
+                                                \
+ return xEv;
+
+
+__m128i
+calc_band_1(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_1, STEP_BANDS_1, CONVERT_1, 1)
+}
+
+__m128i
+calc_band_2(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_2, STEP_BANDS_2, CONVERT_2, 2)
+}
+
+__m128i
+calc_band_3(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_3, STEP_BANDS_3, CONVERT_3, 3)
+}
+
+__m128i
+calc_band_4(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_4, STEP_BANDS_4, CONVERT_4, 4)
+}
+
+__m128i
+calc_band_5(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_5, STEP_BANDS_5, CONVERT_5, 5)
+}
+
+__m128i
+calc_band_6(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_6, STEP_BANDS_6, CONVERT_6, 6)
+}
+
+#if MAX_BANDS > 6 /* Only include needed functions to limit object file size */
+__m128i
+calc_band_7(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_7, STEP_BANDS_7, CONVERT_7, 7)
+}
+
+__m128i
+calc_band_8(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_8, STEP_BANDS_8, CONVERT_8, 8)
+}
+
+__m128i
+calc_band_9(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_9, STEP_BANDS_9, CONVERT_9, 9)
+}
+
+__m128i
+calc_band_10(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_10, STEP_BANDS_10, CONVERT_10, 10)
+}
+
+__m128i
+calc_band_11(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_11, STEP_BANDS_11, CONVERT_11, 11)
+}
+
+__m128i
+calc_band_12(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_12, STEP_BANDS_12, CONVERT_12, 12)
+}
+
+__m128i
+calc_band_13(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_13, STEP_BANDS_13, CONVERT_13, 13)
+}
+
+__m128i
+calc_band_14(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_14, STEP_BANDS_14, CONVERT_14, 14)
+}
+#endif /* MAX_BANDS > 6 */
+#if MAX_BANDS > 14
+__m128i
+calc_band_15(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_15, STEP_BANDS_15, CONVERT_15, 15)
+}
+
+__m128i
+calc_band_16(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_16, STEP_BANDS_16, CONVERT_16, 16)
+}
+
+__m128i
+calc_band_17(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_17, STEP_BANDS_17, CONVERT_17, 17)
+}
+
+__m128i
+calc_band_18(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, int q, __m128i beginv, register __m128i xEv)
+{
+  CALC(RESET_18, STEP_BANDS_18, CONVERT_18, 18)
+}
+#endif /* MAX_BANDS > 14 */
+
+
+/*****************************************************************
+ * 2. p7_SSVFilter() implementation
+ *****************************************************************/
+
+uint8_t
+get_xE(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om)
+{
+  __m128i xEv;		           /* E state: keeps max for Mk->E as we go                     */
+  __m128i beginv;                  /* begin scores                                              */
+
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQB(om->M);   /* segment length: # of vectors                              */
+
+  int bands;                       /* the number of bands (rounds) to use                       */
+
+  int last_q = 0;                  /* for saving the last q value to find band width            */
+  int i;                           /* counter for bands                                         */
+
+  /* function pointers for the various number of vectors to use */
+  __m128i (*fs[MAX_BANDS + 1]) (const ESL_DSQ *, int, const P7_OPROFILE *, int, register __m128i, __m128i)
+    = {NULL
+       , calc_band_1,  calc_band_2,  calc_band_3,  calc_band_4,  calc_band_5,  calc_band_6
+#if MAX_BANDS > 6
+       , calc_band_7,  calc_band_8,  calc_band_9,  calc_band_10, calc_band_11, calc_band_12, calc_band_13, calc_band_14
+#endif
+#if MAX_BANDS > 14
+       , calc_band_15, calc_band_16, calc_band_17, calc_band_18
+#endif
+  };
+
+  beginv =  _mm_set1_epi8(128);
+  xEv    =  beginv;
+
+  /* Use the highest number of bands but no more than MAX_BANDS */
+  bands = (Q + MAX_BANDS - 1) / MAX_BANDS;
+
+  for (i = 0; i < bands; i++) {
+    q = (Q * (i + 1)) / bands;
+
+    xEv = fs[q-last_q](dsq, L, om, last_q, beginv, xEv);
+
+    last_q = q;
+  }
+
+  return esl_sse_hmax_epu8(xEv);
+}
+
+
+int
+p7_SSVFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, float *ret_sc)
+{
+  /* Use 16 bit values to avoid overflow due to moved baseline */
+  uint16_t  xE;
+  uint16_t  xJ;
+
+  if (om->tjb_b + om->tbm_b + om->tec_b + om->bias_b >= 127) {
+    /* the optimizations are not guaranteed to work under these
+       conditions (see comments at start of file) */
+    return eslENORESULT;
+  }
+
+  xE = get_xE(dsq, L, om);
+
+  if (xE >= 255 - om->bias_b)
+    {
+      /* We have an overflow. */
+      *ret_sc = eslINFINITY;
+      if (om->base_b - om->tjb_b - om->tbm_b < 128) 
+        {
+          /* The original MSV filter may not overflow, so we are not sure our result is correct */
+          return eslENORESULT;
+        }
+
+      /* We know that the overflow will also occur in the original MSV filter */
+      return eslERANGE;
+    }
+
+  xE += om->base_b - om->tjb_b - om->tbm_b;
+  xE -= 128;
+
+  if (xE >= 255 - om->bias_b)
+    {
+      /* We know that the result will overflow in the original MSV filter */
+      *ret_sc = eslINFINITY;
+      return eslERANGE;
+    }
+
+  xJ = xE - om->tec_b;
+
+  if (xJ > om->base_b)  return eslENORESULT; /* The J state could have been used, so doubt about score */
+
+  /* finally C->T, and add our missing precision on the NN,CC,JJ back */
+  *ret_sc = ((float) (xJ - om->tjb_b) - (float) om->base_b);
+  *ret_sc /= om->scale_b;
+  *ret_sc -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/stotrace.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/stotrace.c
new file mode 100755
index 0000000..b72e472
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/stotrace.c
@@ -0,0 +1,662 @@
+/* SSE implementation of stochastic backtrace of a Forward matrix.
+ * (Compare generic version, p7_GStochasticTrace().)
+ * 
+ * Contents:
+ *    1. Stochastic trace implementation.
+ *    2. Selection of steps in the traceback.
+ *    3. Benchmark driver.
+ *    4. Unit tests.
+ *    5. Test driver.
+ *    6. Example.
+ *    7. Copyright and license information.
+ *    
+ * SRE, Fri Aug 15 08:02:43 2008 [Janelia]
+ * SVN $Id: stotrace.c 3639 2011-08-05 14:43:19Z nawrockie $
+ */   
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_sse.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static inline int select_m(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k);
+static inline int select_d(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k);
+static inline int select_i(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k);
+static inline int select_n(int i);
+static inline int select_c(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i);
+static inline int select_j(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i);
+static inline int select_e(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int *ret_k);
+static inline int select_b(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i);
+
+
+/*****************************************************************
+ * 1. Stochastic trace implementation.
+ *****************************************************************/
+
+/* Function:  p7_StochasticTrace()
+ * Synopsis:  Sample a traceback from a Forward matrix
+ * Incept:    SRE, Fri Aug  8 17:40:18 2008 [UA217, IAD-SFO]
+ *
+ * Purpose:   Perform a stochastic traceback from Forward matrix <ox>,
+ *            using random number generator <r>, in order to sample an
+ *            alignment of model <om> to digital sequence <dsq> of
+ *            length <L>. 
+ *            
+ *            The sampled traceback is returned in <tr>, which the
+ *            caller provides with at least an initial allocation;
+ *            the <tr> allocation will be grown as needed here.
+ *
+ * Args:      r   - source of random numbers
+ *            dsq - digital sequence being aligned, 1..L
+ *            L   - length of dsq
+ *            om  - profile
+ *            ox  - Forward matrix to trace, LxM
+ *            tr  - storage for the recovered traceback
+ *
+ * Returns:   <eslOK> on success
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> on several types of problems, including:
+ *            the trace isn't empty (wasn't Reuse()'d);
+ */
+int
+p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox,
+		   P7_TRACE *tr)
+{
+  int   i;			/* position in sequence 1..L */
+  int   k;			/* position in model 1..M */
+  int   s0, s1;			/* choice of a state */
+  int   status;			
+  
+  if (tr->N != 0) ESL_EXCEPTION(eslEINVAL, "trace not empty; needs to be Reuse()'d?");
+
+  i = L;			
+  k = 0;
+  if ((status = p7_trace_Append(tr, p7T_T, k, i)) != eslOK) return status;
+  if ((status = p7_trace_Append(tr, p7T_C, k, i)) != eslOK) return status;
+  s0 = tr->st[tr->N-1];
+  while (s0 != p7T_S)
+    {
+      switch (s0) {
+      case p7T_M: s1 = select_m(rng, om, ox, i, k);  k--; i--; break;
+      case p7T_D: s1 = select_d(rng, om, ox, i, k);  k--;      break;
+      case p7T_I: s1 = select_i(rng, om, ox, i, k);       i--; break;
+      case p7T_N: s1 = select_n(i);                            break;
+      case p7T_C: s1 = select_c(rng, om, ox, i);               break;
+      case p7T_J: s1 = select_j(rng, om, ox, i);               break;
+      case p7T_E: s1 = select_e(rng, om, ox, i, &k);           break;
+      case p7T_B: s1 = select_b(rng, om, ox, i);               break;
+      default: ESL_EXCEPTION(eslEINVAL, "bogus state in traceback");
+      }
+      if (s1 == -1) ESL_EXCEPTION(eslEINVAL, "Stochastic traceback choice failed");
+
+      if ((status = p7_trace_Append(tr, s1, k, i)) != eslOK) return status;
+
+      if ( (s1 == p7T_N || s1 == p7T_J || s1 == p7T_C) && s1 == s0) i--;
+      s0 = s1;
+    } /* end traceback, at S state */
+
+  tr->M = om->M;
+  tr->L = L;
+  return p7_trace_Reverse(tr);
+}
+/*------------------ end, stochastic traceback ------------------*/
+
+
+/*****************************************************************
+ * 2. Selection of steps in the traceback
+ *****************************************************************/
+/* The guts of the stochastic backtrace function is broken out in
+ * pieces: each select_?() function randomly selects one of the
+ * possible paths, according to their probability, and returns the
+ * index of the state we move to next.
+ */
+
+/* M(i,k) is reached from B(i-1), M(i-1,k-1), D(i-1,k-1), or I(i-1,k-1). */
+static inline int
+select_m(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell M(i,k) */
+  int     r     = (k-1) / Q;
+  __m128 *tp    = om->tfv + 7*q;       	/* *tp now at start of transitions to cur cell M(i,k) */
+  __m128  xBv   = _mm_set1_ps(ox->xmx[(i-1)*p7X_NXCELLS+p7X_B]);
+  __m128  zerov = _mm_setzero_ps();
+  __m128  mpv, dpv, ipv;
+  union { __m128 v; float p[4]; } u;
+  float   path[4];
+  int     state[4] = { p7T_B, p7T_M, p7T_I, p7T_D };
+  
+  if (q > 0) {
+    mpv = ox->dpf[i-1][(q-1)*3 + p7X_M];
+    dpv = ox->dpf[i-1][(q-1)*3 + p7X_D];
+    ipv = ox->dpf[i-1][(q-1)*3 + p7X_I];
+  } else {
+    mpv = esl_sse_rightshift_ps(ox->dpf[i-1][(Q-1)*3 + p7X_M], zerov);
+    dpv = esl_sse_rightshift_ps(ox->dpf[i-1][(Q-1)*3 + p7X_D], zerov);
+    ipv = esl_sse_rightshift_ps(ox->dpf[i-1][(Q-1)*3 + p7X_I], zerov);
+  }	  
+  
+  u.v = _mm_mul_ps(xBv, *tp); tp++;  path[0] = u.p[r];
+  u.v = _mm_mul_ps(mpv, *tp); tp++;  path[1] = u.p[r];
+  u.v = _mm_mul_ps(ipv, *tp); tp++;  path[2] = u.p[r];
+  u.v = _mm_mul_ps(dpv, *tp);        path[3] = u.p[r];
+  esl_vec_FNorm(path, 4);
+  return state[esl_rnd_FChoose(rng, path, 4)];
+}
+
+/* D(i,k) is reached from M(i, k-1) or D(i,k-1). */
+static inline int
+select_d(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r     = (k-1) / Q;
+  __m128  zerov = _mm_setzero_ps();
+  __m128  mpv, dpv;
+  __m128  tmdv, tddv;
+  union { __m128 v; float p[4]; } u;
+  float   path[2];
+  int     state[2] = { p7T_M, p7T_D };
+
+  if (q > 0) {
+    mpv  = ox->dpf[i][(q-1)*3 + p7X_M];
+    dpv  = ox->dpf[i][(q-1)*3 + p7X_D];
+    tmdv = om->tfv[7*(q-1) + p7O_MD];
+    tddv = om->tfv[7*Q + (q-1)];
+  } else {
+    mpv  = esl_sse_rightshift_ps(ox->dpf[i][(Q-1)*3 + p7X_M], zerov);
+    dpv  = esl_sse_rightshift_ps(ox->dpf[i][(Q-1)*3 + p7X_D], zerov);
+    tmdv = esl_sse_rightshift_ps(om->tfv[7*(Q-1) + p7O_MD],   zerov);
+    tddv = esl_sse_rightshift_ps(om->tfv[8*Q-1],              zerov);
+  }	  
+
+  u.v = _mm_mul_ps(mpv, tmdv); path[0] = u.p[r];
+  u.v = _mm_mul_ps(dpv, tddv); path[1] = u.p[r];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* I(i,k) is reached from M(i-1, k) or I(i-1,k). */
+static inline int
+select_i(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q    = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r    = (k-1) / Q;
+  __m128  mpv  = ox->dpf[i-1][q*3 + p7X_M];
+  __m128  ipv  = ox->dpf[i-1][q*3 + p7X_I];
+  __m128 *tp   = om->tfv + 7*q + p7O_MI;
+  union { __m128 v; float p[4]; } u;
+  float   path[2];
+  int     state[2] = { p7T_M, p7T_I };
+
+  u.v = _mm_mul_ps(mpv, *tp); tp++;  path[0] = u.p[r];
+  u.v = _mm_mul_ps(ipv, *tp);        path[1] = u.p[r];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* N(i) must come from N(i-1) for i>0; else it comes from S */
+static inline int
+select_n(int i)
+{
+  if (i == 0) return p7T_S;
+  else        return p7T_N;
+}
+
+/* C(i) is reached from E(i) or C(i-1). */
+static inline int
+select_c(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+  int   state[2] = { p7T_C, p7T_E };
+
+  path[0] = ox->xmx[(i-1)*p7X_NXCELLS+p7X_C] * om->xf[p7O_C][p7O_LOOP];
+  path[1] = ox->xmx[    i*p7X_NXCELLS+p7X_E] * om->xf[p7O_E][p7O_MOVE] * ox->xmx[i*p7X_NXCELLS+p7X_SCALE];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* J(i) is reached from E(i) or J(i-1). */
+static inline int
+select_j(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+  int   state[2] = { p7T_J, p7T_E };
+
+  path[0] = ox->xmx[(i-1)*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_LOOP];
+  path[1] = ox->xmx[    i*p7X_NXCELLS+p7X_E] * om->xf[p7O_E][p7O_LOOP] * ox->xmx[i*p7X_NXCELLS+p7X_SCALE];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* E(i) is reached from any M(i, k=1..M) or D(i, k=2..M). */
+/* Using FChoose() here would mean allocating tmp space for 2M-1 paths;
+ * instead we use the fact that E(i) is itself the necessary normalization
+ * factor, and implement FChoose's algorithm here for an on-the-fly 
+ * calculation.
+ * Note that that means double-precision calculation, to be sure 0.0 <= roll < 1.0
+ */
+static inline int
+select_e(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int *ret_k)
+{
+  int    Q     = p7O_NQF(ox->M);
+  double sum   = 0.0;
+  double roll  = esl_random(rng);
+  double norm  = 1.0 / ox->xmx[i*p7X_NXCELLS+p7X_E];
+  __m128 xEv   = _mm_set1_ps(norm); /* all M, D already scaled exactly the same */
+  union { __m128 v; float p[4]; } u;
+  int    q,r;
+
+  while (1) {
+    for (q = 0; q < Q; q++)
+      {
+	u.v = _mm_mul_ps(ox->dpf[i][q*3 + p7X_M], xEv);
+	for (r = 0; r < 4; r++) {
+	  sum += u.p[r];
+	  if (roll < sum) { *ret_k = r*Q + q + 1; return p7T_M;}
+	}
+
+	u.v = _mm_mul_ps(ox->dpf[i][q*3 + p7X_D], xEv);
+	for (r = 0; r < 4; r++) {
+	  sum += u.p[r];
+	  if (roll < sum) { *ret_k = r*Q + q + 1; return p7T_D;}
+	}
+      }
+    ESL_DASSERT1((sum > 0.99));
+  }
+  /*UNREACHED*/
+  ESL_EXCEPTION(-1, "unreached code was reached. universe collapses.");
+} 
+
+/* B(i) is reached from N(i) or J(i). */
+static inline int
+select_b(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+  int   state[2] = { p7T_N, p7T_J };
+
+  path[0] = ox->xmx[i*p7X_NXCELLS+p7X_N] * om->xf[p7O_N][p7O_MOVE];
+  path[1] = ox->xmx[i*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_MOVE];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+/*---------------------- end, step selection --------------------*/
+
+/*****************************************************************
+ * 3. Benchmark
+ *****************************************************************/
+#ifdef p7STOTRACE_BENCHMARK
+/*
+   gcc -g -O2      -o stotrace_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_BENCHMARK stotrace.c -lhmmer -leasel -lm
+   icc -O3 -static -o stotrace_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_BENCHMARK stotrace.c -lhmmer -leasel -lm
+   ./stotrace_benchmark <hmmfile>
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seq" ,                   0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of sampled tracebacks",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for stochastic traceback, SSE version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc, fsc, vsc;
+  float           bestsc  = -eslINFINITY;
+  
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  om = p7_oprofile_Create(gm->M, abc);   p7_oprofile_Convert(gm, om);
+
+  fwd = p7_omx_Create(gm->M, L, L);
+  gx  = p7_gmx_Create(gm->M, L);
+  tr  = p7_trace_Create();
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+  p7_GViterbi(dsq, L, gm, gx,  &vsc);
+  p7_Forward (dsq, L, om, fwd, &fsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_StochasticTrace(r, dsq, L, om, fwd, tr);
+      p7_trace_Score(tr, dsq, gm, &sc);
+      bestsc = ESL_MAX(bestsc, sc);
+      p7_trace_Reuse(tr);
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  printf("forward sc   = %.4f nats\n", fsc);
+  printf("viterbi sc   = %.4f nats\n", vsc);
+  printf("max trace sc = %.4f nats\n", bestsc);
+
+  free(dsq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx);
+  p7_omx_Destroy(fwd);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7STOTRACE_TESTDRIVE
+#include "esl_getopts.h"
+
+/* tests: 
+ *   1. each sampled trace must validate.
+ *   2. each trace must be <= viterbi trace score
+ *   3. in a large # of traces, one is "equal" to the viterbi trace score.
+ *      (this of course is stochastic; but it's true for the particular
+ *       choice of RNG seed used in tests here.)
+ */
+static void
+utest_stotrace(ESL_GETOPTS *go, ESL_RANDOMNESS *rng, ESL_ALPHABET *abc, P7_PROFILE *gm, P7_OPROFILE *om, ESL_DSQ *dsq, int L, int ntrace)
+{
+  P7_GMX   *gx  = NULL;
+  P7_OMX   *ox  = NULL;
+  P7_TRACE *vtr = NULL;
+  P7_TRACE *tr  = NULL;
+  char      errbuf[eslERRBUFSIZE];
+  int       idx;
+  float     maxsc = -eslINFINITY;
+  float     vsc, sc;
+
+  if ((gx     = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("generic DP matrix creation failed");
+  if ((ox     = p7_omx_Create(gm->M, L, L))     == NULL)  esl_fatal("optimized DP matrix create failed");
+  if ((tr     = p7_trace_Create())              == NULL)  esl_fatal("trace creation failed");
+  if ((vtr    = p7_trace_Create())              == NULL)  esl_fatal("trace creation failed");
+
+  if (p7_GViterbi(dsq, L, gm, gx, &vsc)         != eslOK) esl_fatal("viterbi failed");
+  if (p7_GTrace  (dsq, L, gm, gx, vtr)          != eslOK) esl_fatal("viterbi trace failed");
+  if (p7_Forward (dsq, L, om, ox, NULL)         != eslOK) esl_fatal("forward failed");
+
+  for (idx = 0; idx < ntrace; idx++)
+    {
+      if (p7_StochasticTrace(rng, dsq, L, om, ox, tr) != eslOK) esl_fatal("stochastic trace failed");
+      if (p7_trace_Validate(tr, abc, dsq, errbuf)     != eslOK) esl_fatal("trace invalid:\n%s", errbuf);
+      if (p7_trace_Score(tr, dsq, gm, &sc)            != eslOK) esl_fatal("trace scoring failed"); 
+
+      maxsc = ESL_MAX(sc, maxsc);
+      if (sc > vsc + 0.001){	/* need a little tolerance of floating point math here  */
+	//p7_trace_Dump(stdout, vtr, gm, dsq);
+	//p7_trace_Dump(stdout, tr,  gm, dsq);
+	esl_fatal("sampled trace has score > optimal Viterbi path; not possible (%f > %f)", sc, vsc);
+      }
+      p7_trace_Reuse(tr);
+    }
+  if (esl_FCompare(maxsc, vsc, 0.1) != eslOK) esl_fatal("stochastic trace failed to sample the Viterbi path");
+  
+  p7_trace_Destroy(tr);
+  p7_trace_Destroy(vtr);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+}
+#endif /*p7STOTRACE_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Test driver 
+ *****************************************************************/
+#ifdef p7STOTRACE_TESTDRIVE
+/* gcc -std=gnu99 -msse2 -g -Wall -o stotrace_utest -Dp7STOTRACE_TESTDRIVE -I.. -L.. -I../../easel -L../../easel stotrace.c -lhmmer -leasel -lm
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_randomseq.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for stochastic Viterbi traceback (optimized version)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go     = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r      = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc    = NULL;
+  P7_HMM         *hmm    = NULL;
+  P7_PROFILE     *gm     = NULL;
+  P7_OPROFILE    *om     = NULL;
+  P7_BG          *bg     = NULL;
+  ESL_DSQ        *dsq    = NULL;
+  ESL_SQ         *sq     = NULL;
+  int             M      = 6;
+  int             L      = 10;
+  int             ntrace = 1000;
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if ((om = p7_oprofile_Create(gm->M, abc))         == NULL)  esl_fatal("failed to create optimized profile");
+  if (p7_oprofile_Convert(gm, om)                   != eslOK) esl_fatal("failed to convert profile");
+
+  /* Test with randomly generated (iid) sequence */
+  if ((dsq = malloc(sizeof(ESL_DSQ) *(L+2)))  == NULL)  esl_fatal("malloc failed");
+  if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+  utest_stotrace(go, r, abc, gm, om, dsq, L, ntrace);
+
+  /* Test with seq sampled from profile */
+  if ((sq = esl_sq_CreateDigital(abc))             == NULL) esl_fatal("sequence allocation failed");
+  if (p7_ProfileEmit(r, hmm, gm, bg, sq, NULL)    != eslOK) esl_fatal("profile emission failed");
+  utest_stotrace(go, r, abc, gm, om, sq->dsq, sq->n, ntrace);
+   
+  esl_sq_Destroy(sq);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+/*****************************************************************
+ * 6. Example.
+ *****************************************************************/
+#ifdef p7STOTRACE_EXAMPLE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -o stotrace_example -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_EXAMPLE stotrace.c -lhmmer -leasel -lm
+   ./example <hmmfile> <seqfile>
+ */ 
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",     0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the DP matrix to stdout",             0 },
+  { "-p",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the profile to stdout",               0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the sampled trace to stdout",         0 },
+  { "-N",        eslARG_INT,      "1", NULL, NULL,  NULL,  NULL, NULL, "number of traces to sample",               0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of stochastic backtrace (SSE version)";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  ESL_RANDOMNESS *rng     = esl_randomness_CreateFast(0);
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+  float           vsc, fsc, tsc;
+  char            errbuf[eslERRBUFSIZE];
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);   p7_oprofile_Convert(gm, om);
+
+  if (esl_opt_GetBoolean(go, "-p")) p7_oprofile_Dump(stdout, om);  
+
+  fwd = p7_omx_Create(gm->M, sq->n, sq->n);
+  gx  = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_Create();
+
+  if (esl_opt_GetBoolean(go, "-m") == TRUE) p7_omx_SetDumpMode(stdout, fwd, TRUE); 
+  p7_GViterbi(sq->dsq, sq->n, gm, gx,  &vsc);
+  p7_Forward (sq->dsq, sq->n, om, fwd, &fsc);
+
+  for (i = 0; i < N; i++)
+    {
+      p7_StochasticTrace(rng, sq->dsq, sq->n, om, fwd, tr);
+      p7_trace_Score(tr, sq->dsq, gm, &tsc);
+  
+      if (esl_opt_GetBoolean(go, "-t") == TRUE) p7_trace_Dump(stdout, tr, gm, sq->dsq);
+      if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK)  p7_Die("trace %d fails validation:\n%s\n", i, errbuf);
+
+      printf("Sampled trace:  %.4f nats\n", tsc);
+      p7_trace_Reuse(tr);
+    }
+  printf("Forward score:  %.4f nats\n", fsc);
+  printf("Viterbi score:  %.4f nats\n", vsc);
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_randomness_Destroy(rng);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_EXAMPLE*/
+/*------------------------ end, example -------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/vitfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/vitfilter.c
new file mode 100755
index 0000000..c91724e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/vitfilter.c
@@ -0,0 +1,929 @@
+/* Viterbi filter implementation; SSE version.
+ * 
+ * This is a SIMD vectorized, striped, interleaved, one-row, reduced
+ * precision (epi16) implementation of the Viterbi algorithm.
+ * 
+ * It calculates a close approximation of the Viterbi score, in
+ * limited precision (signed words: 16 bits) and range. It may overflow on
+ * high scoring sequences, but this indicates that the sequence is a
+ * high-scoring hit worth examining more closely anyway.  It will not
+ * underflow, in local alignment mode.
+ * 
+ * Contents:
+ *   1. Viterbi filter implementation.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+#include "esl_gumbel.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+
+/*****************************************************************
+ * 1. Viterbi filter implementation.
+ *****************************************************************/
+
+/* Function:  p7_ViterbiFilter()
+ * Synopsis:  Calculates Viterbi score, vewy vewy fast, in limited precision.
+ * Incept:    SRE, Tue Nov 27 09:15:24 2007 [Janelia]
+ *
+ * Purpose:   Calculates an approximation of the Viterbi score for sequence
+ *            <dsq> of length <L> residues, using optimized profile <om>,
+ *            and a preallocated one-row DP matrix <ox>. Return the 
+ *            estimated Viterbi score (in nats) in <ret_sc>.
+ *            
+ *            Score may overflow (and will, on high-scoring
+ *            sequences), but will not underflow. 
+ *            
+ *            The model must be in a local alignment mode; other modes
+ *            cannot provide the necessary guarantee of no underflow.
+ *            
+ *            This is a striped SIMD Viterbi implementation using Intel
+ *            SSE/SSE2 integer intrinsics \citep{Farrar07}, in reduced
+ *            precision (signed words, 16 bits).
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: Viterbi score (in nats)          
+ *
+ * Returns:   <eslOK> on success;
+ *            <eslERANGE> if the score overflows; in this case
+ *            <*ret_sc> is <eslINFINITY>, and the sequence can 
+ *            be treated as a high-scoring hit.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if
+ *            profile isn't in a local alignment mode. (Must be in local
+ *            alignment mode because that's what helps us guarantee 
+ *            limited dynamic range.)
+ *
+ * Xref:      [Farrar07] for ideas behind striped SIMD DP.
+ *            J2/46-47 for layout of HMMER's striped SIMD DP.
+ *            J2/50 for single row DP.
+ *            J2/60 for reduced precision (epu8)
+ *            J2/65 for initial benchmarking
+ *            J2/66 for precision maximization
+ *            J4/138-140 for reimplementation in 16-bit precision
+ */
+int
+p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  register __m128i mpv, dpv, ipv;  /* previous row values                                       */
+  register __m128i sv;		   /* temp storage of 1 curr row value in progress              */
+  register __m128i dcv;		   /* delayed storage of D(i,q+1)                               */
+  register __m128i xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  register __m128i xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  register __m128i Dmaxv;          /* keeps track of maximum D cell on row                      */
+  int16_t  xE, xB, xC, xJ, xN;	   /* special states' scores                                    */
+  int16_t  Dmax;		   /* maximum D cell score on row                               */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQW(om->M);   /* segment length: # of vectors                              */
+  __m128i *dp  = ox->dpw[0];	   /* using {MDI}MX(q) macro requires initialization of <dp>    */
+  __m128i *rsc;			   /* will point at om->ru[x] for residue x[i]                  */
+  __m128i *tsc;			   /* will point into (and step thru) om->tu                    */
+
+  __m128i negInfv;
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ8)                                 ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  if (om->mode != p7_LOCAL && om->mode != p7_UNILOCAL) ESL_EXCEPTION(eslEINVAL, "Fast filter only works for local alignment");
+  ox->M   = om->M;
+
+  /* -infinity is -32768 */
+  negInfv = _mm_set1_epi16(-32768);
+  negInfv = _mm_srli_si128(negInfv, 14);  /* negInfv = 16-byte vector, 14 0 bytes + 2-byte value=-32768, for an OR operation. */
+
+  /* Initialization. In unsigned arithmetic, -infinity is -32768
+   */
+  for (q = 0; q < Q; q++)
+    MMXo(q) = IMXo(q) = DMXo(q) = _mm_set1_epi16(-32768);
+  xN   = om->base_w;
+  xB   = xN + om->xw[p7O_N][p7O_MOVE];
+  xJ   = -32768;
+  xC   = -32768;
+  xE   = -32768;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpVFRow(ox, 0, xE, 0, xJ, xB, xC); /* first 0 is <rowi>: do header. second 0 is xN: always 0 here. */
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      rsc   = om->rwv[dsq[i]];
+      tsc   = om->twv;
+      dcv   = _mm_set1_epi16(-32768);      /* "-infinity" */
+      xEv   = _mm_set1_epi16(-32768);     
+      Dmaxv = _mm_set1_epi16(-32768);     
+      xBv   = _mm_set1_epi16(xB);
+
+      /* Right shifts by 1 value (2 bytes). 4,8,12,x becomes x,4,8,12. 
+       * Because ia32 is littlendian, this means a left bit shift.
+       * Zeros shift on automatically; replace it with -32768.
+       */
+      mpv = MMXo(Q-1);  mpv = _mm_slli_si128(mpv, 2);  mpv = _mm_or_si128(mpv, negInfv);
+      dpv = DMXo(Q-1);  dpv = _mm_slli_si128(dpv, 2);  dpv = _mm_or_si128(dpv, negInfv);
+      ipv = IMXo(Q-1);  ipv = _mm_slli_si128(ipv, 2);  ipv = _mm_or_si128(ipv, negInfv);
+
+      for (q = 0; q < Q; q++)
+      {
+        /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+        sv   =                    _mm_adds_epi16(xBv, *tsc);  tsc++;
+        sv   = _mm_max_epi16 (sv, _mm_adds_epi16(mpv, *tsc)); tsc++;
+        sv   = _mm_max_epi16 (sv, _mm_adds_epi16(ipv, *tsc)); tsc++;
+        sv   = _mm_max_epi16 (sv, _mm_adds_epi16(dpv, *tsc)); tsc++;
+        sv   = _mm_adds_epi16(sv, *rsc);                      rsc++;
+        xEv  = _mm_max_epi16(xEv, sv);
+
+        /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+         * {MDI}MX(q) is then the current, not the prev row
+         */
+        mpv = MMXo(q);
+        dpv = DMXo(q);
+        ipv = IMXo(q);
+
+        /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+        MMXo(q) = sv;
+        DMXo(q) = dcv;
+
+        /* Calculate the next D(i,q+1) partially: M->D only;
+               * delay storage, holding it in dcv
+         */
+        dcv   = _mm_adds_epi16(sv, *tsc);  tsc++;
+        Dmaxv = _mm_max_epi16(dcv, Dmaxv);
+
+        /* Calculate and store I(i,q) */
+        sv     =                    _mm_adds_epi16(mpv, *tsc);  tsc++;
+        IMXo(q)= _mm_max_epi16 (sv, _mm_adds_epi16(ipv, *tsc)); tsc++;
+      }
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B) */
+      xE = esl_sse_hmax_epi16(xEv);
+      if (xE >= 32767) { *ret_sc = eslINFINITY; return eslERANGE; }	/* immediately detect overflow */
+      xN = xN + om->xw[p7O_N][p7O_LOOP];
+      xC = ESL_MAX(xC + om->xw[p7O_C][p7O_LOOP], xE + om->xw[p7O_E][p7O_MOVE]);
+      xJ = ESL_MAX(xJ + om->xw[p7O_J][p7O_LOOP], xE + om->xw[p7O_E][p7O_LOOP]);
+      xB = ESL_MAX(xJ + om->xw[p7O_J][p7O_MOVE], xN + om->xw[p7O_N][p7O_MOVE]);
+      /* and now xB will carry over into next i, and xC carries over after i=L */
+
+      /* Finally the "lazy F" loop (sensu [Farrar07]). We can often
+       * prove that we don't need to evaluate any D->D paths at all.
+       *
+       * The observation is that if we can show that on the next row,
+       * B->M(i+1,k) paths always dominate M->D->...->D->M(i+1,k) paths
+       * for all k, then we don't need any D->D calculations.
+       * 
+       * The test condition is:
+       *      max_k D(i,k) + max_k ( TDD(k-2) + TDM(k-1) - TBM(k) ) < xB(i)
+       * So:
+       *   max_k (TDD(k-2) + TDM(k-1) - TBM(k)) is precalc'ed in om->dd_bound;
+       *   max_k D(i,k) is why we tracked Dmaxv;
+       *   xB(i) was just calculated above.
+       */
+      Dmax = esl_sse_hmax_epi16(Dmaxv);
+      if (Dmax + om->ddbound_w > xB) 
+	{
+	  /* Now we're obligated to do at least one complete DD path to be sure. */
+	  /* dcv has carried through from end of q loop above */
+	  dcv = _mm_slli_si128(dcv, 2); 
+	  dcv = _mm_or_si128(dcv, negInfv);
+	  tsc = om->twv + 7*Q;	/* set tsc to start of the DD's */
+	  for (q = 0; q < Q; q++) 
+	    {
+	      DMXo(q) = _mm_max_epi16(dcv, DMXo(q));	
+	      dcv     = _mm_adds_epi16(DMXo(q), *tsc); tsc++;
+	    }
+
+	  /* We may have to do up to three more passes; the check
+	   * is for whether crossing a segment boundary can improve
+	   * our score. 
+	   */
+	  do {
+	    dcv = _mm_slli_si128(dcv, 2);
+	    dcv = _mm_or_si128(dcv, negInfv);
+	    tsc = om->twv + 7*Q;	/* set tsc to start of the DD's */
+	    for (q = 0; q < Q; q++) 
+	      {
+		if (! esl_sse_any_gt_epi16(dcv, DMXo(q))) break;
+		DMXo(q) = _mm_max_epi16(dcv, DMXo(q));	
+		dcv     = _mm_adds_epi16(DMXo(q), *tsc);   tsc++;
+	      }	    
+	  } while (q == Q);
+	}
+      else  /* not calculating DD? then just store the last M->D vector calc'ed.*/
+	{
+	  dcv = _mm_slli_si128(dcv, 2);
+	  DMXo(0) = _mm_or_si128(dcv, negInfv);
+	}
+	  
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpVFRow(ox, i, xE, 0, xJ, xB, xC);   
+#endif
+    } /* end loop over sequence residues 1..L */
+
+  /* finally C->T */
+  if (xC > -32768)
+    {
+      *ret_sc = (float) xC + (float) om->xw[p7O_C][p7O_MOVE] - (float) om->base_w;
+      /* *ret_sc += L * om->ncj_roundoff;  see J4/150 for rationale: superceded by -3.0nat approximation*/
+      *ret_sc /= om->scale_w;
+      *ret_sc -= 3.0; /* the NN/CC/JJ=0,-3nat approximation: see J5/36. That's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ contrib */
+    }
+  else  *ret_sc = -eslINFINITY;
+  return eslOK;
+}
+/*---------------- end, p7_ViterbiFilter() ----------------------*/
+
+
+
+/* Function:  p7_ViterbiFilter_longtarget()
+ * Synopsis:  Finds windows within potentially long sequence blocks with Viterbi
+ *            scores above threshold (vewy vewy fast, in limited precision)
+ *
+ * Purpose:   Calculates an approximation of the Viterbi score for regions
+ *            of sequence <dsq>, using optimized profile <om>, and a pre-
+ *            allocated one-row DP matrix <ox>, and captures the positions
+ *            at which such regions exceed the score required to be
+ *            significant in the eyes of the calling function (usually
+ *            p=0.001).
+ *
+ *            The resulting landmarks are converted to subsequence
+ *            windows by the calling function
+ *
+ *            The model must be in a local alignment mode; other modes
+ *            cannot provide the necessary guarantee of no underflow.
+ *
+ *            This is a striped SIMD Viterbi implementation using Intel
+ *            SSE/SSE2 integer intrinsics \citep{Farrar07}, in reduced
+ *            precision (signed words, 16 bits).
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            filtersc   - null or bias correction, required for translating a P-value threshold into a score threshold
+ *            P          - p-value below which a region is captured as being above threshold
+ *            windowlist - RETURN: preallocated array of hit windows (start and end of diagonal) for the above-threshold areas
+ *
+ * Returns:   <eslOK> on success;
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if
+ *            profile isn't in a local alignment mode. (Must be in local
+ *            alignment mode because that's what helps us guarantee
+ *            limited dynamic range.)
+ *
+ * Xref:      See p7_ViterbiFilter()
+ */
+int
+p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                            float filtersc, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+  register __m128i mpv, dpv, ipv;  /* previous row values                                       */
+  register __m128i sv;       /* temp storage of 1 curr row value in progress              */
+  register __m128i dcv;      /* delayed storage of D(i,q+1)                               */
+  register __m128i xEv;      /* E state: keeps max for Mk->E as we go                     */
+  register __m128i xBv;      /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  register __m128i Dmaxv;          /* keeps track of maximum D cell on row                      */
+  int16_t  xE, xB, xC, xJ, xN;     /* special states' scores                                    */
+  int16_t  Dmax;       /* maximum D cell score on row                               */
+  int i;         /* counter over sequence positions 1..L                      */
+  int q;         /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQW(om->M);   /* segment length: # of vectors                              */
+  __m128i *dp  = ox->dpw[0];     /* using {MDI}MX(q) macro requires initialization of <dp>    */
+  __m128i *rsc;        /* will point at om->ru[x] for residue x[i]                  */
+  __m128i *tsc;        /* will point into (and step thru) om->tu                    */
+
+  __m128i negInfv;
+
+  int16_t sc_thresh;
+  float invP;
+
+  int z;
+  union { __m128i v; int16_t i[8]; } tmp;
+  windowlist->count = 0;
+
+/*
+ *  In p7_ViterbiFilter, converting from a scaled int Viterbi score
+ *  S (aka xE the score getting to state E) to a probability
+ *  goes like this:
+ *    vsc =  S + om->xw[p7O_E][p7O_MOVE] + om->xw[p7O_C][p7O_MOVE] - om->base_w
+ *    ret_sc /= om->scale_w;
+ *    vsc -= 3.0;
+ *    P  = esl_gumbel_surv((vfsc - filtersc) / eslCONST_LOG2  ,  om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+ *  and we're computing the threshold vsc, so invert it:
+ *    (vsc - filtersc) /  eslCONST_LOG2 = esl_gumbel_invsurv( P, om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA])
+ *    vsc = filtersc + eslCONST_LOG2 * esl_gumbel_invsurv( P, om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA])
+ *    vsc += 3.0
+ *    vsc *= om->scale_w
+ *    S = vsc - (float)om->xw[p7O_E][p7O_MOVE] - (float)om->xw[p7O_C][p7O_MOVE] + (float)om->base_w
+ */
+  invP = esl_gumbel_invsurv(P, om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+  sc_thresh =   (int) ceil ( ( (filtersc + (eslCONST_LOG2 * invP) + 3.0) * om->scale_w )
+                - (float)om->xw[p7O_E][p7O_MOVE] - (float)om->xw[p7O_C][p7O_MOVE] + (float)om->base_w );
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ8)                                 ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  if (om->mode != p7_LOCAL && om->mode != p7_UNILOCAL) ESL_EXCEPTION(eslEINVAL, "Fast filter only works for local alignment");
+  ox->M   = om->M;
+
+  /* -infinity is -32768 */
+  negInfv = _mm_set1_epi16(-32768);
+  negInfv = _mm_srli_si128(negInfv, 14);  /* negInfv = 16-byte vector, 14 0 bytes + 2-byte value=-32768, for an OR operation. */
+
+  /* Initialization. In unsigned arithmetic, -infinity is -32768
+   */
+  for (q = 0; q < Q; q++)
+    MMXo(q) = IMXo(q) = DMXo(q) = _mm_set1_epi16(-32768);
+  xN   = om->base_w;
+  xB   = xN + om->xw[p7O_N][p7O_MOVE];
+  xJ   = -32768;
+  xC   = -32768;
+  xE   = -32768;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpVFRow(ox, 0, xE, 0, xJ, xB, xC); /* first 0 is <rowi>: do header. second 0 is xN: always 0 here. */
+#endif
+
+
+  for (i = 1; i <= L; i++)
+  {
+      rsc   = om->rwv[dsq[i]];
+      tsc   = om->twv;
+      dcv   = _mm_set1_epi16(-32768);      /* "-infinity" */
+      xEv   = _mm_set1_epi16(-32768);
+      Dmaxv = _mm_set1_epi16(-32768);
+      xBv   = _mm_set1_epi16(xB);
+
+      /* Right shifts by 1 value (2 bytes). 4,8,12,x becomes x,4,8,12.
+       * Because ia32 is littlendian, this means a left bit shift.
+       * Zeros shift on automatically; replace it with -32768.
+       */
+      mpv = MMXo(Q-1);  mpv = _mm_slli_si128(mpv, 2);  mpv = _mm_or_si128(mpv, negInfv);
+      dpv = DMXo(Q-1);  dpv = _mm_slli_si128(dpv, 2);  dpv = _mm_or_si128(dpv, negInfv);
+      ipv = IMXo(Q-1);  ipv = _mm_slli_si128(ipv, 2);  ipv = _mm_or_si128(ipv, negInfv);
+
+      for (q = 0; q < Q; q++)
+      {
+        /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+        sv   =                    _mm_adds_epi16(xBv, *tsc);  tsc++;
+        sv   = _mm_max_epi16 (sv, _mm_adds_epi16(mpv, *tsc)); tsc++;
+        sv   = _mm_max_epi16 (sv, _mm_adds_epi16(ipv, *tsc)); tsc++;
+        sv   = _mm_max_epi16 (sv, _mm_adds_epi16(dpv, *tsc)); tsc++;
+        sv   = _mm_adds_epi16(sv, *rsc);                      rsc++;
+        xEv  = _mm_max_epi16(xEv, sv);
+
+        /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+         * {MDI}MX(q) is then the current, not the prev row
+         */
+        mpv = MMXo(q);
+        dpv = DMXo(q);
+        ipv = IMXo(q);
+
+        /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+        MMXo(q) = sv;
+        DMXo(q) = dcv;
+
+        /* Calculate the next D(i,q+1) partially: M->D only;
+               * delay storage, holding it in dcv
+         */
+        dcv   = _mm_adds_epi16(sv, *tsc);  tsc++;
+        Dmaxv = _mm_max_epi16(dcv, Dmaxv);
+
+        /* Calculate and store I(i,q) */
+        sv     =                    _mm_adds_epi16(mpv, *tsc);  tsc++;
+        IMXo(q)= _mm_max_epi16 (sv, _mm_adds_epi16(ipv, *tsc)); tsc++;
+      }
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B) */
+      xE = esl_sse_hmax_epi16(xEv);
+
+      if (xE >= sc_thresh) {
+        //hit score threshold. Add a window to the list, then reset scores.
+
+        /* Unpack and unstripe, then find the position responsible for the hit */
+        for (q = 0; q < Q; q++) {
+          tmp.v = MMXo(q);
+          for (z = 0; z < 8; z++)  { // unstripe
+            if ( tmp.i[z] == xE && (q+Q*z+1) <= om->M) {
+              // (q+Q*z+1) is the model position k at which the xE score is found
+              p7_hmmwindow_new(windowlist, 0, i, i-1, (q+Q*z+1), 1, 0.0, p7_NOCOMPLEMENT, L );
+            }
+          }
+          MMXo(q) = IMXo(q) = DMXo(q) = _mm_set1_epi16(-32768); //reset score to start search for next vit window.
+        }
+
+      } else {
+
+
+        xN = xN + om->xw[p7O_N][p7O_LOOP];
+        xC = ESL_MAX(xC + om->xw[p7O_C][p7O_LOOP], xE + om->xw[p7O_E][p7O_MOVE]);
+        xJ = ESL_MAX(xJ + om->xw[p7O_J][p7O_LOOP], xE + om->xw[p7O_E][p7O_LOOP]);
+        xB = ESL_MAX(xJ + om->xw[p7O_J][p7O_MOVE], xN + om->xw[p7O_N][p7O_MOVE]);
+        /* and now xB will carry over into next i, and xC carries over after i=L */
+
+        /* Finally the "lazy F" loop (sensu [Farrar07]). We can often
+         * prove that we don't need to evaluate any D->D paths at all.
+         *
+         * The observation is that if we can show that on the next row,
+         * B->M(i+1,k) paths always dominate M->D->...->D->M(i+1,k) paths
+         * for all k, then we don't need any D->D calculations.
+         *
+         * The test condition is:
+         *      max_k D(i,k) + max_k ( TDD(k-2) + TDM(k-1) - TBM(k) ) < xB(i)
+         * So:
+         *   max_k (TDD(k-2) + TDM(k-1) - TBM(k)) is precalc'ed in om->dd_bound;
+         *   max_k D(i,k) is why we tracked Dmaxv;
+         *   xB(i) was just calculated above.
+         */
+        Dmax = esl_sse_hmax_epi16(Dmaxv);
+        if (Dmax + om->ddbound_w > xB)
+        {
+          /* Now we're obligated to do at least one complete DD path to be sure. */
+          /* dcv has carried through from end of q loop above */
+          dcv = _mm_slli_si128(dcv, 2);
+          dcv = _mm_or_si128(dcv, negInfv);
+          tsc = om->twv + 7*Q;  /* set tsc to start of the DD's */
+          for (q = 0; q < Q; q++)
+          {
+            DMXo(q) = _mm_max_epi16(dcv, DMXo(q));
+            dcv     = _mm_adds_epi16(DMXo(q), *tsc); tsc++;
+          }
+
+          /* We may have to do up to three more passes; the check
+           * is for whether crossing a segment boundary can improve
+           * our score.
+           */
+          do {
+            dcv = _mm_slli_si128(dcv, 2);
+            dcv = _mm_or_si128(dcv, negInfv);
+            tsc = om->twv + 7*Q;  /* set tsc to start of the DD's */
+            for (q = 0; q < Q; q++)
+            {
+              if (! esl_sse_any_gt_epi16(dcv, DMXo(q))) break;
+              DMXo(q) = _mm_max_epi16(dcv, DMXo(q));
+              dcv     = _mm_adds_epi16(DMXo(q), *tsc);   tsc++;
+            }
+          } while (q == Q);
+        }
+        else  /* not calculating DD? then just store the last M->D vector calc'ed.*/
+        {
+          dcv = _mm_slli_si128(dcv, 2);
+          DMXo(0) = _mm_or_si128(dcv, negInfv);
+        }
+      }
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpVFRow(ox, i, xE, 0, xJ, xB, xC);
+#endif
+  } /* end loop over sequence residues 1..L */
+
+
+  return eslOK;
+
+}
+/*---------------- end, p7_ViterbiFilter_longtarget() ----------------------*/
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7VITFILTER_BENCHMARK
+/* -c, -x are used for debugging, testing; see msvfilter.c for explanation */
+
+/* 
+   gcc -o vitfilter_benchmark -std=gnu99 -g -Wall -msse2 -I.. -L.. -I../../easel -L../../easel -Dp7VITFILTER_BENCHMARK vitfilter.c -lhmmer -leasel -lm 
+   icc -o vitfilter_benchmark -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7VITFILTER_BENCHMARK vitfilter.c -lhmmer -leasel -lm 
+
+   ./benchmark-vitfilter <hmmfile>          runs benchmark 
+   ./benchmark-vitfilter -N100 -c <hmmfile> compare scores to generic impl
+   ./benchmark-vitfilter -N100 -x <hmmfile> compare scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for Viterbi filter";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsVF(om, gm);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Run the benchmark */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_ViterbiFilter(dsq, L, om, ox, &sc1);   
+
+      if (esl_opt_GetBoolean(go, "-c")) 
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+
+      if (esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  sc2 /= om->scale_w;
+	  if (om->mode == p7_UNILOCAL)   sc2 -= 2.0; /* that's ~ L \log \frac{L}{L+2}, for our NN,CC,JJ */
+	  else if (om->mode == p7_LOCAL) sc2 -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITFILTER_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7VITFILTER_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* ViterbiFilter() unit test
+ * 
+ * We can check that scores are identical (within machine error) to
+ * scores of generic DP with scores rounded the same way.  Do this for
+ * a random model of length <M>, for <N> test sequences of length <L>.
+ * 
+ * We assume that we don't accidentally generate a high-scoring random
+ * sequence that overflows ViterbiFilter()'s limited range.
+ * 
+ */
+static void
+utest_viterbi_filter(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_profile_SameAsVF(om, gm);	/* round and scale the scores in <gm> the same as in <om> */
+
+#if 0
+  p7_oprofile_Dump(stdout, om);              // dumps the optimized profile
+  p7_omx_SetDumpMode(stdout, ox, TRUE);      // makes the fast DP algorithms dump their matrices
+#endif
+
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_ViterbiFilter(dsq, L, om, ox, &sc1);
+      p7_GViterbi     (dsq, L, gm, gx, &sc2);
+
+#if 0
+      p7_gmx_Dump(stdout, gx, p7_DEFAULT);   // dumps a generic DP matrix
+#endif
+      
+      sc2 /= om->scale_w;
+      sc2 -= 3.0;
+
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("viterbi filter unit test failed: scores differ (%.2f, %.2f)", sc1, sc2);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7VITFILTER_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7VITFILTER_TESTDRIVE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitfilter_utest -Dp7VITFILTER_TESTDRIVE vitfilter.c -lhmmer -leasel -lm
+   ./vitfilter_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the SSE implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("ViterbiFilter() tests, DNA\n");
+  utest_viterbi_filter(r, abc, bg, M, L, N);   
+  utest_viterbi_filter(r, abc, bg, 1, L, 10);  
+  utest_viterbi_filter(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("ViterbiFilter() tests, protein\n");
+  utest_viterbi_filter(r, abc, bg, M, L, N); 
+  utest_viterbi_filter(r, abc, bg, 1, L, 10);
+  utest_viterbi_filter(r, abc, bg, M, 1, 10);
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITFILTER_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7VITFILTER_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -msse2 -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitfilter_example -Dp7VITFILTER_EXAMPLE vitfilter.c -lhmmer -leasel -lm
+   ./vitfilter_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Viterbi filter algorithm";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           vfraw, nullsc, vfscore;
+  float           graw, gscore;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, sq->n);
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);         dumps the optimized profile
+     p7_omx_SetDumpMode(ox, TRUE);         makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);  dumps a generic DP matrix
+  */
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(ox, om->M, 0,    sq->n); 
+      p7_gmx_GrowTo(gx, gm->M,       sq->n); 
+
+      p7_ViterbiFilter  (sq->dsq, sq->n, om, ox, &vfraw);
+      p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
+      vfscore = (vfraw - nullsc) / eslCONST_LOG2;
+      P        = esl_gumbel_surv(vfscore,  om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+
+      p7_GViterbi       (sq->dsq, sq->n, gm, gx, &graw); 
+      gscore   = (graw - nullsc) / eslCONST_LOG2;
+      gP       = esl_gumbel_surv(gscore,  gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%7.2f\t%9.2g\t%7.2f\n", sq->name, hmm->name, P, vfscore, gP, gscore);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, vfscore, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("vit filter raw score: %.2f nats\n", vfraw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", vfscore);
+	  printf("P-value:              %g\n",        P);
+	  printf("GViterbi raw score:   %.2f nats\n", graw);
+	  printf("GViterbi seq score:   %.2f bits\n", gscore);
+	  printf("GViterbi P-value:     %g\n",        gP);
+	}
+      
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITFILTER_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id: vitfilter.c 4540 2013-10-15 15:45:51Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_sse/vitfilter.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/vitscore.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/vitscore.c
new file mode 100755
index 0000000..1e96e8b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_sse/vitscore.c
@@ -0,0 +1,563 @@
+/* Viterbi score implementation; SSE version.
+ * 
+ * This is a SIMD vectorized, striped, interleaved, one-row O(M)
+ * memory implementation of the Viterbi algorithm, for calculating an
+ * accurate Viterbi score, without traceback.
+ * 
+ * This implementation has full range and precision, so it may be used
+ * in any alignment mode (not just local), and on any target sequence
+ * (not excluding high-scoring ones).
+ * 
+ * The optimized profile must be configured to contain lspace float
+ * scores, not its normal pspace float scores.
+ * 
+ * Contents:
+ *   1. Viterbi score implementation.
+ *   2. Benchmark driver. 
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * SRE, Sun Aug  3 13:10:24 2008 [St. Louis]
+ * SVN $Id: vitscore.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include <xmmintrin.h>		/* SSE  */
+#include <emmintrin.h>		/* SSE2 */
+
+#include "easel.h"
+#include "esl_sse.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+/*****************************************************************
+ * 1. Viterbi score implementation
+ *****************************************************************/
+
+/* Function:  p7_ViterbiScore()
+ * Synopsis:  Calculates Viterbi score, correctly, and vewy vewy fast.
+ * Incept:    SRE, Tue Nov 27 09:15:24 2007 [Janelia]
+ *
+ * Purpose:   Calculates the Viterbi score for sequence <dsq> of length <L> 
+ *            residues, using optimized profile <om>, and a preallocated
+ *            one-row DP matrix <ox>. Return the Viterbi score (in nats)
+ *            in <ret_sc>.
+ *            
+ *            The model <om> must be configured specially to have
+ *            lspace float scores, not its usual pspace float scores for
+ *            <p7_ForwardFilter()>.
+ *            
+ *            As with all <*Score()> implementations, the score is
+ *            accurate (full range and precision) and can be
+ *            calculated on models in any mode, not only local modes.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: Viterbi score (in nats)          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_ViterbiScore(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  register __m128 mpv, dpv, ipv;   /* previous row values                                       */
+  register __m128 sv;		   /* temp storage of 1 curr row value in progress              */
+  register __m128 dcv;		   /* delayed storage of D(i,q+1)                               */
+  register __m128 xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  register __m128 xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  register __m128 Dmaxv;           /* keeps track of maximum D cell on row                      */
+  __m128  infv;			   /* -eslINFINITY in a vector                                  */
+  float    xN, xE, xB, xC, xJ;	   /* special states' scores                                    */
+  float    Dmax;		   /* maximum D cell on row                                     */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q       = p7O_NQF(om->M);	   /* segment length: # of vectors                              */
+  __m128 *dp  = ox->dpf[0];	   /* using {MDI}MX(q) macro requires initialization of <dp>    */
+  __m128 *rsc;			   /* will point at om->rf[x] for residue x[i]                  */
+  __m128 *tsc;			   /* will point into (and step thru) om->tf                    */
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ4) ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  ox->M  = om->M;
+
+  /* Initialization. */
+  infv = _mm_set1_ps(-eslINFINITY);
+  for (q = 0; q < Q; q++)
+    MMXo(q) = IMXo(q) = DMXo(q) = infv;
+  xN   = 0.;
+  xB   = om->xf[p7O_N][p7O_MOVE];
+  xE   = -eslINFINITY;
+  xJ   = -eslINFINITY;
+  xC   = -eslINFINITY;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpFloatRow(ox, FALSE, 0, 5, 2, xE, xN, xJ, xB, xC); /* logify=FALSE, <rowi>=0, width=5, precision=2*/
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      rsc   = om->rf[dsq[i]];
+      tsc   = om->tf;
+      dcv   = infv;
+      xEv   = infv;
+      Dmaxv = infv;
+      xBv   = _mm_set1_ps(xB);
+
+      mpv = esl_sse_rightshift_ps(MMXo(Q-1), infv);  /* Right shifts by 4 bytes. 4,8,12,x becomes x,4,8,12. */
+      dpv = esl_sse_rightshift_ps(DMXo(Q-1), infv);
+      ipv = esl_sse_rightshift_ps(IMXo(Q-1), infv);
+      for (q = 0; q < Q; q++)
+	{
+	  /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+	  sv   =                _mm_add_ps(xBv, *tsc);  tsc++;
+	  sv   = _mm_max_ps(sv, _mm_add_ps(mpv, *tsc)); tsc++;
+	  sv   = _mm_max_ps(sv, _mm_add_ps(ipv, *tsc)); tsc++;
+	  sv   = _mm_max_ps(sv, _mm_add_ps(dpv, *tsc)); tsc++;
+	  sv   = _mm_add_ps(sv, *rsc);                  rsc++;
+	  xEv  = _mm_max_ps(xEv, sv);
+	  
+	  /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+	   * {MDI}MX(q) is then the current, not the prev row
+	   */
+	  mpv = MMXo(q);
+	  dpv = DMXo(q);
+	  ipv = IMXo(q);
+
+	  /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+	  MMXo(q) = sv;
+	  DMXo(q) = dcv;
+
+	  /* Calculate the next D(i,q+1) partially: M->D only;
+           * delay storage, holding it in dcv
+	   */
+	  dcv   = _mm_add_ps(sv, *tsc); tsc++;
+	  Dmaxv = _mm_max_ps(dcv, Dmaxv);
+
+	  /* Calculate and store I(i,q) */
+	  sv     =                _mm_add_ps(mpv, *tsc);  tsc++;
+	  sv     = _mm_max_ps(sv, _mm_add_ps(ipv, *tsc)); tsc++;
+	  IMXo(q) = _mm_add_ps(sv, *rsc);                  rsc++;
+	}	  
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B) */
+      esl_sse_hmax_ps(xEv, &xE);
+      xN = xN +  om->xf[p7O_N][p7O_LOOP];
+      xC = ESL_MAX(xC + om->xf[p7O_C][p7O_LOOP],  xE + om->xf[p7O_E][p7O_MOVE]);
+      xJ = ESL_MAX(xJ + om->xf[p7O_J][p7O_LOOP],  xE + om->xf[p7O_E][p7O_LOOP]);
+      xB = ESL_MAX(xJ + om->xf[p7O_J][p7O_MOVE],  xN + om->xf[p7O_N][p7O_MOVE]);
+      /* and now xB will carry over into next i, and xC carries over after i=L */
+
+      /* Finally the "lazy F" loop (sensu [Farrar07]). We can often
+       * prove that we don't need to evaluate any D->D paths at all.
+       *
+       * The observation is that if we can show that on the next row,
+       * B->M(i+1,k) paths always dominate M->D->...->D->M(i+1,k) paths
+       * for all k, then we don't need any D->D calculations.
+       * 
+       * The test condition is:
+       *      max_k D(i,k) + max_k ( TDD(k-2) + TDM(k-1) - TBM(k) ) < xB(i)
+       * So:
+       *   max_k (TDD(k-2) + TDM(k-1) - TBM(k)) is precalc'ed in om->dd_bound;
+       *   max_k D(i,k) is why we tracked Dmaxv;
+       *   xB(i) was just calculated above.
+       */
+      esl_sse_hmax_ps(Dmaxv, &Dmax);
+      if (Dmax + om->ddbound_f > xB) 
+	{
+	  /* Now we're obligated to do at least one complete DD path to be sure. */
+	  /* dcv has carried through from end of q loop above */
+	  dcv = esl_sse_rightshift_ps(dcv, infv);
+	  tsc = om->tf + 7*Q;	/* set tsc to start of the DD's */
+	  for (q = 0; q < Q; q++) 
+	    {
+	      DMXo(q) = _mm_max_ps(dcv, DMXo(q));	
+	      dcv     = _mm_add_ps(DMXo(q), *tsc); tsc++;
+	    }
+
+	  /* We may have to do up to three more passes; the check
+	   * is for whether crossing a segment boundary can improve
+	   * our score. 
+	   */
+	  do {
+	    dcv = esl_sse_rightshift_ps(dcv, infv);
+	    tsc = om->tf + 7*Q;	/* set tsc to start of the DD's */
+	    for (q = 0; q < Q; q++) 
+	      {
+		if (! esl_sse_any_gt_ps(dcv, DMXo(q))) break;
+		DMXo(q) = _mm_max_ps(dcv, DMXo(q));	
+		dcv     = _mm_add_ps(DMXo(q), *tsc);   tsc++;
+	      }	    
+	  } while (q == Q);
+	}
+      else
+	{ /* not calculating DD? then just store that last MD vector we calc'ed. */
+	  dcv     = esl_sse_rightshift_ps(dcv, infv);
+	  DMXo(0) = dcv;
+	}
+
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpFloatRow(ox, FALSE, i, 5, 2, xE, xN, xJ, xB, xC); /* logify=FALSE, <rowi>=i, width=5, precision=2*/
+#endif
+    } /* end loop over sequence residues 1..L */
+
+  /* finally C->T */
+  *ret_sc = xC + om->xf[p7O_C][p7O_MOVE];
+  return eslOK;
+}
+/*------------------ end, p7_ViterbiScore() ---------------------*/
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7VITSCORE_BENCHMARK
+/* -c, -x are used for debugging, testing. See msvfilter.c for
+ * an explanation. Here -c and -x are the same: both compare
+ * to p7_GViterbi() scores.
+ */
+/* 
+  gcc -o benchmark-vitscore -std=gnu99 -g -Wall -msse2 -I.. -L.. -I../../easel -L../../easel -Dp7VITSCORE_BENCHMARK vitscore.c -lhmmer -leasel -lm 
+  icc -o benchmark-vitscore -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7VITSCORE_BENCHMARK vitscore.c -lhmmer -leasel -lm 
+
+  ./benchmark-vitscore <hmmfile>            runs benchmark 
+  ./benchmark-vitscore -N100 -c <hmmfile>   compare scores to generic impl
+  ./benchmark-vitscore -N100 -x <hmmfile>   equate scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for SSE ViterbiScore()";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+  p7_oprofile_Logify(om);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Run the benchmark */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_ViterbiScore (dsq, L, om, ox, &sc1);   
+
+      if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITSCORE_BENCHMARK*/
+/*------------------- end, benchmark driver ---------------------*/
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7VITSCORE_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* ViterbiScore() unit test
+ * 
+ * We can compare these scores to GViterbi() almost exactly; the only
+ * differences should be negligible roundoff errors. Must convert
+ * the optimized profile to lspace, though, rather than pspace.
+ */
+static void
+utest_viterbi_score(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_oprofile_Logify(om);
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_ViterbiScore(dsq, L, om, ox, &sc1);
+      p7_GViterbi    (dsq, L, gm, gx, &sc2);
+
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("viterbi score unit test failed: scores differ");
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7VITSCORE_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7VITSCORE_TESTDRIVE
+/* 
+   gcc -g -Wall -msse2 -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitscore_utest -Dp7VITSCORE_TESTDRIVE vitscore.c -lhmmer -leasel -lm
+   ./vitscore_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the SSE implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_viterbi_score(r, abc, bg, M, L, N);   
+  utest_viterbi_score(r, abc, bg, 1, L, 10);  
+  utest_viterbi_score(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_viterbi_score(r, abc, bg, M, L, N);   
+  utest_viterbi_score(r, abc, bg, 1, L, 10);  
+  utest_viterbi_score(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITSCORE_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7VITSCORE_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -msse2 -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o example -Dp7VITSCORE_EXAMPLE vitscore.c -lhmmer -leasel -lm
+   ./example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_sse.h"
+
+int 
+main(int argc, char **argv)
+{
+  char           *hmmfile = argv[1];
+  char           *seqfile = argv[2];
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           sc;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_Logify(om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, sq->n);
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);         dumps the optimized profile
+     p7_omx_SetDumpMode(ox, TRUE);         makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);  dumps a generic DP matrix
+  */
+
+  p7_ViterbiScore(sq->dsq, sq->n, om, ox, &sc);  printf("viterbi score (SSE):  %.2f nats\n", sc);
+  p7_GViterbi    (sq->dsq, sq->n, gm, gx, &sc);  printf("viterbi (generic):    %.2f nats\n", sc);
+
+  /* now in a real app, you'd need to convert raw nat scores to final bit
+   * scores, by subtracting the null model score and rescaling.
+   */
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  return 0;
+}
+#endif /*p7VITSCORE_EXAMPLE*/
+/*-------------------------- end, example ------------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/00MANIFEST b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/00MANIFEST
new file mode 100755
index 0000000..7043606
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/00MANIFEST
@@ -0,0 +1,34 @@
+
+
+================================================================
+= Overall structure (P7_OPROFILE, P7_OMX)
+================================================================                 
+
+impl_vmx.h    :  declarations, including P7_OPROFILE, P7_OMX, macros, functions
+p7_oprofile.c :  vectorized profile structure
+p7_omx.c      :  vectorized DP matrix
+io.c          :  i/o of vectorized profiles
+
+
+================================================================
+= Dynamic programming routines for scoring target sequences
+================================================================
+
+msvfilter.c   :  p7_MSVFilter()      - main acceleration routine
+vitfilter.c   :  p7_ViterbiFilter()  - secondary acceleration routine
+fwdback.c     :  p7_Forward()        - Forward algorithm
+                 p7_Backward()       - Backward algorithm
+                 p7_ForwardParser()  - streamlined Forward used for first pass domain definition
+                 p7_BackwardParser() - streamlined Backward used for first pass domain definition 
+
+
+================================================================
+= Postprocessing domains, alignments, and null2 model
+================================================================
+
+decoding.c    : posterior decoding of Forward/Backward matrices
+stotrace.c    : stochastic traceback, sampling paths from Forward matrices
+optacc.c      : "optimal accuracy" alignment algorithm, using posterior decoding
+null2.c       : null2 model for biased composition corrections
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/Makefile.in
new file mode 100755
index 0000000..5eba5ae
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/Makefile.in
@@ -0,0 +1,189 @@
+top_srcdir  = @top_srcdir@
+srcdir      = @srcdir@
+VPATH       = @srcdir@ 
+SHELL       = /bin/sh
+
+prefix      = @prefix@
+exec_prefix = @exec_prefix@
+datarootdir = @datarootdir@
+bindir      = @bindir@
+libdir      = @libdir@
+includedir  = @includedir@
+
+CC          = @CC@
+CFLAGS      = @CFLAGS@ @PTHREAD_CFLAGS@ @PIC_FLAGS@
+SIMDFLAGS   = @SIMD_CFLAGS@
+CPPFLAGS    = @CPPFLAGS@
+LDFLAGS     = @LDFLAGS@
+DEFS        = @DEFS@
+LIBS        = -lhmmer -leasel @LIBS@ -lm
+
+AR          = @AR@ 
+RANLIB      = @RANLIB@
+INSTALL     = @INSTALL@
+
+ESLDIR         = @HMMER_ESLDIR@
+MYLIBDIRS      = -L../../${ESLDIR} -L.. 
+MYINCDIRS      = -I../../${ESLDIR} \
+		 -I${top_srcdir}/easel \
+		 -I. \
+		 -I.. \
+		 -I${srcdir} \
+		 -I${top_srcdir}/src \
+		 -I${srcdir}/..
+
+OBJS =  decoding.o\
+	fwdback.o\
+	io.o\
+	msvfilter.o\
+	null2.o\
+	optacc.o\
+	stotrace.o\
+	vitfilter.o\
+	p7_omx.o\
+	p7_oprofile.o\
+	mpi.o
+
+HDRS =  impl_vmx.h
+
+UTESTS = @MPI_UTESTS@\
+	decoding_utest\
+	fwdback_utest\
+	io_utest\
+	msvfilter_utest\
+	null2_utest\
+	optacc_utest\
+	stotrace_utest\
+	vitfilter_utest
+
+BENCHMARKS = @MPI_BENCHMARKS@\
+	decoding_benchmark\
+	fwdback_benchmark\
+	msvfilter_benchmark\
+	null2_benchmark\
+	optacc_benchmark\
+	stotrace_benchmark\
+	vitfilter_benchmark
+
+EXAMPLES =\
+	fwdback_example\
+	io_example\
+	msvfilter_example\
+	optacc_example\
+	p7_oprofile_example\
+	stotrace_example\
+	vitfilter_example
+
+# beautification magic stolen from git 
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: all dev check tests install uninstall distclean clean 
+
+all:   libhmmer-impl.stamp
+dev:   ${UTESTS} ${BENCHMARKS} ${EXAMPLES}
+check: ${UTESTS}
+tests: ${UTESTS}
+
+libhmmer-impl.stamp: ${OBJS}
+	${QUIET_AR}${AR} -r ../libhmmer.a $? > /dev/null 2>&1
+	@${RANLIB} ../libhmmer.a
+	@echo "impl_lib objects compiled:\c" > $@
+	@date >> $@
+
+.FORCE: 
+
+${OBJS}:   ${HDRS} ../hmmer.h 
+
+.c.o:  
+	${QUIET_CC}${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${DEFS} ${PTHREAD_CFLAGS} ${MYINCDIRS} -c $<
+
+${UTESTS}: libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_utest//'| sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_TESTDRIVE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${BENCHMARKS}: libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_benchmark//' | sed -e 's/^p7_//'`;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_BENCHMARK ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+${EXAMPLES}: libhmmer-impl.stamp ../libhmmer.a ${HDRS} ../hmmer.h
+	@BASENAME=`echo $@ | sed -e 's/_example//'| sed -e 's/^p7_//'` ;\
+	DFLAG=`echo $${BASENAME} | sed -e 'y/abcdefghijklmnopqrstuvwxyz/ABCDEFGHIJKLMNOPQRSTUVWXYZ/'`;\
+	DFLAG=p7$${DFLAG}_EXAMPLE ;\
+	if test -e ${srcdir}/p7_$${BASENAME}.c; then \
+           DFILE=${srcdir}/p7_$${BASENAME}.c ;\
+        else \
+           DFILE=${srcdir}/$${BASENAME}.c ;\
+	fi;\
+	if test ${V} ;\
+	   then echo "${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}" ;\
+	   else echo '    ' GEN $@ ;\
+	fi ;\
+	${CC} ${CFLAGS} ${SIMDFLAGS} ${CPPFLAGS} ${LDFLAGS} ${DEFS} ${MYLIBDIRS} ${MYINCDIRS} -D$${DFLAG} -o $@ $${DFILE} ${LIBS}
+
+install:
+	for file in ${HDRS}; do \
+	   ${INSTALL} -m 0644 ${srcdir}/$$file ${DESTDIR}${includedir}/ ;\
+	done
+
+uninstall:
+	for file in ${HDRS}; do \
+	   rm -f ${DESTDIR}${includedir}/$$file ;\
+	done
+
+distclean: clean
+	-rm -f Makefile 
+
+clean:
+	-rm -f impl_lib.stamp
+	-rm -f ${UTESTS}
+	-rm -f ${BENCHMARKS}
+	-rm -f ${EXAMPLES}
+	-rm -f *.o *~ Makefile.bak core TAGS gmon.out cscope.out 
+	-rm -f *.gcno
+	for prog in ${UTESTS} ${BENCHMARKS} ${EXAMPLES}; do \
+	   if test -d $$prog.dSYM; then rm -rf $$prog.dSYM ; fi ;\
+	done
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+# 
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_vmx/Makefile.in $
+# SVN $Id: Makefile.in 4321 2012-11-27 16:15:47Z wheelert $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/decoding.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/decoding.c
new file mode 100755
index 0000000..ca2578f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/decoding.c
@@ -0,0 +1,454 @@
+/* Posterior decoding algorithms; VMX versions.
+ * 
+ * Contents:
+ *   1. Posterior decoding algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * SRE, Mon Aug 18 08:15:50 2008 [Janelia]
+ * SVN $Id: decoding.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+/*****************************************************************
+ * 1. Posterior decoding algorithms.
+ *****************************************************************/
+
+/* Function:  p7_Decoding()
+ * Synopsis:  Posterior decoding of residue assignment.
+ * Incept:    SRE, Fri Aug  8 14:29:42 2008 [UA217 to SFO]
+ *
+ * Purpose:   Identical to <p7_GDecoding()> except that <om>, <oxf>,
+ *            <oxb> are VMX optimized versions. See <p7_GDecoding()>
+ *            documentation for more info.
+ *
+ * Args:      om   - profile (must be the same that was used to fill <oxf>, <oxb>).
+ *            oxf  - filled Forward matrix 
+ *            oxb  - filled Backward matrix
+ *            pp   - RESULT: posterior decoding matrix.
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            Returns <eslERANGE> if numeric range of floating-point
+ *            values is exceeded during posterior probability
+ *            calculations. In this case, the <pp> matrix must not be
+ *            used by the caller; it will contain <NaN> values. To be
+ *            safe, the caller should recalculate a generic posterior
+ *            decoding matrix instead -- generic calculations are done
+ *            in log probability space and are robust. 
+ *            
+ *            However, I currently believe that this overflow only
+ *            occurs on an unusual and ignorable situation: when a
+ *            <p7_UNILOCAL> model is used on a region that contains
+ *            two or more high scoring distinct alignments to the
+ *            model. And that only happens if domain definition fails,
+ *            after stochastic clustering, and an envelope that we
+ *            pass to p7_domaindef.c::rescore_isolated_domain()
+ *            erroneously contains 2+ distinct domains. (Note that
+ *            this is different from having 2+ expected B states: that
+ *            can happen normally, if a single consistent domain is
+ *            better described by 2+ passes through the model). And I
+ *            strongly believe all this only can happen on repetitive
+ *            or biased-composition junk that we want to ignore anyway.
+ *            Therefore the caller should be safe in ignoring any domain
+ *            for which <p7_Decoding()> returns <eslERANGE>.
+ *
+ * Throws:    (no abnormal error conditions)
+ * 
+ * Xref:      [J3/119-121]: for analysis of numeric range issues when
+ *            <scaleproduct> overflows.
+ */
+int
+p7_Decoding(const P7_OPROFILE *om, const P7_OMX *oxf, P7_OMX *oxb, P7_OMX *pp)
+{
+  vector float *ppv;
+  vector float *fv;
+  vector float *bv;
+  vector float  totrv;
+  vector float  zerov;
+  int    L  = oxf->L;
+  int    M  = om->M;
+  int    Q  = p7O_NQF(M);	
+  int    i,q;
+  float  scaleproduct = 1.0 / oxb->xmx[p7X_N];
+
+  pp->M = M;
+  pp->L = L;
+
+  zerov = (vector float) vec_splat_u32(0);
+
+  ppv = pp->dpf[0];
+  for (q = 0; q < Q; q++) {
+    *ppv = (vector float) vec_splat_u32(0); ppv++;
+    *ppv = (vector float) vec_splat_u32(0); ppv++;
+    *ppv = (vector float) vec_splat_u32(0); ppv++;
+  }
+  pp->xmx[p7X_E] = 0.0;
+  pp->xmx[p7X_N] = 0.0;
+  pp->xmx[p7X_J] = 0.0;
+  pp->xmx[p7X_C] = 0.0;
+  pp->xmx[p7X_B] = 0.0;
+
+  for (i = 1; i <= L; i++)
+    {
+      ppv   = pp->dpf[i];
+      fv    = oxf->dpf[i];
+      bv    = oxb->dpf[i];
+
+      totrv = esl_vmx_set_float(scaleproduct * oxf->xmx[i*p7X_NXCELLS+p7X_SCALE]);
+
+      for (q = 0; q < Q; q++)
+	{
+	  /* M */
+	  *ppv = vec_madd(*fv,  *bv,    zerov);
+	  *ppv = vec_madd(*ppv,  totrv, zerov);
+	  ppv++;  fv++;  bv++;
+
+	  /* D */
+	  *ppv = (vector float) vec_splat_u32(0);
+	  ppv++;  fv++;  bv++;
+
+	  /* I */
+	  *ppv = vec_madd(*fv,  *bv,    zerov);
+	  *ppv = vec_madd(*ppv,  totrv, zerov);
+	  ppv++;  fv++;  bv++;
+	}
+      pp->xmx[i*p7X_NXCELLS+p7X_E] = 0.0;
+      pp->xmx[i*p7X_NXCELLS+p7X_N] = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_N] * oxb->xmx[i*p7X_NXCELLS+p7X_N] * om->xf[p7O_N][p7O_LOOP] * scaleproduct;
+      pp->xmx[i*p7X_NXCELLS+p7X_J] = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_J] * oxb->xmx[i*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_LOOP] * scaleproduct;
+      pp->xmx[i*p7X_NXCELLS+p7X_C] = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_C] * oxb->xmx[i*p7X_NXCELLS+p7X_C] * om->xf[p7O_C][p7O_LOOP] * scaleproduct;
+      pp->xmx[i*p7X_NXCELLS+p7X_B] = 0.0;
+
+      if (oxb->has_own_scales) scaleproduct *= oxf->xmx[i*p7X_NXCELLS+p7X_SCALE] /  oxb->xmx[i*p7X_NXCELLS+p7X_SCALE];
+    }
+
+  if (isinf(scaleproduct)) return eslERANGE;
+  else                     return eslOK;
+}
+
+/* Function:  p7_DomainDecoding()
+ * Synopsis:  Posterior decoding of domain location.
+ * Incept:    SRE, Tue Aug  5 08:39:07 2008 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GDomainDecoding()> except that <om>, <oxf>,
+ *            <oxb> are VMX optimized versions. See <p7_GDomainDecoding()>
+ *            documentation for more info.
+ *
+ * Args:      gm   - profile
+ *            oxf  - filled Forward matrix
+ *            oxb  - filled Backward matrix
+ *            ddef - container for the results.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslERANGE> on numeric overflow. See commentary in
+ *            <p7_Decoding()>.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef)
+{
+  int   L             = oxf->L;
+  float scaleproduct  = 1.0 / oxb->xmx[p7X_N];
+  float njcp;
+  int   i;
+
+  ddef->btot[0] = 0.0;
+  ddef->etot[0] = 0.0;
+  ddef->mocc[0] = 0.0;
+  for (i = 1; i <= L; i++)
+    {
+      /* scaleproduct is prod_j=0^i-2 now */
+      ddef->btot[i] = ddef->btot[i-1] +
+	(oxf->xmx[(i-1)*p7X_NXCELLS+p7X_B] * oxb->xmx[(i-1)*p7X_NXCELLS+p7X_B] * oxf->xmx[(i-1)*p7X_NXCELLS+p7X_SCALE] * scaleproduct);
+
+      if (oxb->has_own_scales) scaleproduct *= oxf->xmx[(i-1)*p7X_NXCELLS+p7X_SCALE] /  oxb->xmx[(i-1)*p7X_NXCELLS+p7X_SCALE]; 
+      /* scaleproduct is prod_j=0^i-1 now */
+
+      ddef->etot[i] = ddef->etot[i-1] +
+	(oxf->xmx[i*p7X_NXCELLS+p7X_E] * oxb->xmx[i*p7X_NXCELLS+p7X_E] * oxf->xmx[i*p7X_NXCELLS+p7X_SCALE] * scaleproduct);
+
+      njcp  = oxf->xmx[(i-1)*p7X_NXCELLS+p7X_N] * oxb->xmx[i*p7X_NXCELLS+p7X_N] * om->xf[p7O_N][p7O_LOOP] * scaleproduct;
+      njcp += oxf->xmx[(i-1)*p7X_NXCELLS+p7X_J] * oxb->xmx[i*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_LOOP] * scaleproduct;
+      njcp += oxf->xmx[(i-1)*p7X_NXCELLS+p7X_C] * oxb->xmx[i*p7X_NXCELLS+p7X_C] * om->xf[p7O_C][p7O_LOOP] * scaleproduct;
+      ddef->mocc[i] = 1. - njcp;
+    }
+  ddef->L = oxf->L;
+
+  if (isinf(scaleproduct)) return eslERANGE;
+  else                     return eslOK;
+}
+/*------------------ end, posterior decoding --------------------*/
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7DECODING_BENCHMARK
+/*
+   icc  -O3 -static -o decoding_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7DECODING_BENCHMARK decoding.c -lhmmer -leasel -lm 
+   ./decoding_benchmark <hmmfile>     
+                    RRM_1 (M=72)       Caudal_act (M=136)     SMC_N (M=1151)
+                 -----------------    ------------------     ---------------
+   21 Aug 08      3.52u (409 Mc/s)     15.36u (177 Mc/s)     318.78u (72.2 Mc/s)
+
+   The length dependency probably indicates L1 cache missing; because we're 
+   manipulating 3 matrices at the same time, we can't fit the calculation 
+   in cache.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for posterior residue decoding, VMX version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  P7_OMX         *pp      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  fwd = p7_omx_Create(gm->M, L, L);
+  bck = p7_omx_Create(gm->M, L, L);
+  pp  = p7_omx_Create(gm->M, L, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, fwd,      &fsc);
+  p7_Backward(dsq, L, om, fwd, bck, &bsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_Decoding(om, fwd, bck, pp);              
+  esl_stopwatch_Stop(w);
+
+  Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(pp);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7DECODING_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7DECODING_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* compare results to GDecoding(). */
+static void
+utest_decoding(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N, float tolerance)
+{
+  char        *msg  = "decoding unit test failed";
+  P7_HMM      *hmm  = NULL;
+  P7_PROFILE  *gm   = NULL;
+  P7_OPROFILE *om   = NULL;
+  ESL_DSQ     *dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd  = p7_omx_Create(M, L, L);
+  P7_OMX      *bck  = p7_omx_Create(M, L, L);
+  P7_OMX      *pp   = p7_omx_Create(M, L, L);
+  P7_GMX      *gxf  = p7_gmx_Create(M, L);
+  P7_GMX      *gxb  = p7_gmx_Create(M, L);
+  P7_GMX      *gxp1 = p7_gmx_Create(M, L);
+  P7_GMX      *gxp2 = p7_gmx_Create(M, L);
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om) != eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      if (p7_Forward       (dsq, L, om, fwd,      &fsc1) != eslOK) esl_fatal(msg);
+      if (p7_Backward      (dsq, L, om, fwd, bck, &bsc1) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, fwd, bck, pp)                  != eslOK) esl_fatal(msg);
+      if (p7_omx_FDeconvert(pp, gxp1)                    != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (dsq, L, gm, gxf, &fsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GBackward(dsq, L, gm, gxb, &bsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GDecoding(gm, gxf, gxb, gxp2)               != eslOK) esl_fatal(msg);
+
+      //p7_gmx_Dump(stdout, gxp1, p7_DEFAULT);
+      //p7_gmx_Dump(stdout, gxp2, p7_DEFAULT);
+
+      if (p7_gmx_Compare(gxp1, gxp2, tolerance)          != eslOK) esl_fatal(msg);
+    }
+
+  p7_gmx_Destroy(gxp1);
+  p7_gmx_Destroy(gxp2);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(pp);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+#endif /*p7DECODING_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7DECODING_TESTDRIVE
+
+/*
+  gcc -o decoding_utest -maltivec -g -Wall -I.. -L.. -I../../easel -L../../easel -Dp7DECODING_TESTDRIVE decoding.c -lhmmer -leasel -lm
+  ./decoding_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  { "-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                  0},
+  { "-s",  eslARG_INT,     "42",  NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",        0 },
+  { "-t",  eslARG_REAL,  "0.01",  NULL, NULL, NULL, NULL, NULL, "floating point comparison tolerance",  0 },
+  { "-L",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled sequences",          0 },
+  { "-M",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled test profile",       0 },
+  { "-N",  eslARG_INT,     "10",  NULL, NULL, NULL, NULL, NULL, "number of sampled test sequences",     0 },
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for VMX posterior decoding";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+  
+  p7_FLogsumInit();
+
+  utest_decoding(r, abc, bg, M, L, N, tol);
+  
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  return eslOK;
+}
+#endif /*p7DECODING_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7DECODING_EXAMPLE
+
+#endif /*p7DECODING_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/fwdback.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/fwdback.c
new file mode 100755
index 0000000..42e58e3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/fwdback.c
@@ -0,0 +1,1194 @@
+/* VMX implementation of Forward and Backward algorithms.
+ *
+ * Both profile and DP matrix are striped and interleaved, for fast
+ * SIMD vector operations. Calculations are in probability space
+ * (scaled odds ratios, actually) rather than log probabilities,
+ * allowing fast multiply/add operations rather than slow Logsum()
+ * calculations. Sparse rescaling is used to achieve full dynamic
+ * range of scores.
+ * 
+ * The Forward and Backward implementations may be used either in a
+ * full O(ML) mode that keeps an entire DP matrix, or in a O(M+L)
+ * linear memory "parsing" mode that only keeps one row of memory for
+ * the main MDI states and one column 0..L for the special states
+ * B,E,N,C,J. Keeping a full matrix allows subsequent stochastic
+ * traceback or posterior decoding of any state. In parsing mode, we
+ * can do posterior decoding on the special states and determine
+ * regions of the target sequence that are generated by the
+ * nonhomology states (NCJ) versus not -- thus, identifying where
+ * high-probability "regions" are, the first step of identifying the
+ * domain structure of a target sequence.
+ * 
+ * Contents:
+ *   1. Forward/Backward wrapper API
+ *   2. Forward and Backward engine implementations
+ *   4. Benchmark driver.
+ *   5. Unit tests.
+ *   6. Test driver.
+ *   7. Example.
+ *   8. Copyright and license information.
+ * 
+ * SRE, Thu Jul 31 08:43:20 2008 [Janelia]
+ * SVN $Id: fwdback.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static int forward_engine (int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+static int backward_engine(int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+
+
+/*****************************************************************
+ * 1. Forward/Backward API.
+ *****************************************************************/
+
+/* Function:  p7_Forward()
+ * Synopsis:  The Forward algorithm, full matrix fill version.
+ * Incept:    SRE, Fri Aug 15 18:59:43 2008 [Casa de Gatos]
+ *
+ * Purpose:   Calculates the Forward algorithm for sequence <dsq> of
+ *            length <L> residues, using optimized profile <om>, and a
+ *            preallocated DP matrix <ox>. Upon successful return, <ox>
+ *            contains the filled Forward matrix, and <*opt_sc>
+ *            optionally contains the raw Forward score in nats.
+ *            
+ *            This calculation requires $O(ML)$ memory and time.
+ *            The caller must provide a suitably allocated full <ox>
+ *            by calling <ox = p7_omx_Create(M, L, L)> or
+ *            <p7_omx_GrowTo(ox, M, L, L)>.
+ *
+ *            The model <om> must be configured in local alignment
+ *            mode. The sparse rescaling method used to keep
+ *            probability values within single-precision floating
+ *            point dynamic range cannot be safely applied to models in
+ *            glocal or global mode.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - RETURN: Forward DP matrix
+ *            opt_sc  - RETURN: Forward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int
+p7_Forward(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  ox->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (L     >= ox->validR)       ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= ox->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (! p7_oprofile_IsLocal(om)) ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+  return forward_engine(TRUE, dsq, L, om, ox, opt_sc);
+}
+
+/* Function:  p7_ForwardParser()
+ * Synopsis:  The Forward algorithm, linear memory parsing version.
+ * Incept:    SRE, Fri Aug 15 19:05:26 2008 [Casa de Gatos]
+ *
+ * Purpose:   Same as <p7_Forward() except that the full matrix isn't
+ *            kept. Instead, a linear $O(M+L)$ memory algorithm is
+ *            used, keeping only the DP matrix values for the special
+ *            (BENCJ) states. These are sufficient to do posterior
+ *            decoding to identify high-probability regions where
+ *            domains are.
+ * 
+ *            The caller must provide a suitably allocated "parsing"
+ *            <ox> by calling <ox = p7_omx_Create(M, 0, L)> or
+ *            <p7_omx_GrowTo(ox, M, 0, L)>.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - RETURN: Forward DP matrix
+ *            ret_sc  - RETURN: Forward score (in nats)          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int
+p7_ForwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  ox->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (ox->validR < 1)            ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= ox->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (! p7_oprofile_IsLocal(om)) ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+  return forward_engine(FALSE, dsq, L, om, ox, opt_sc);
+}
+
+
+
+/* Function:  p7_Backward()
+ * Synopsis:  The Backward algorithm; full matrix fill version.
+ * Incept:    SRE, Sat Aug 16 08:34:22 2008 [Janelia]
+ *
+ * Purpose:   Calculates the Backward algorithm for sequence <dsq> of
+ *            length <L> residues, using optimized profile <om>, and a
+ *            preallocated DP matrix <bck>. A filled Forward matrix
+ *            must also be provided in <fwd>, because we need to use
+ *            the same sparse scaling factors that Forward used. The
+ *            <bck> matrix is filled in, and the Backward score (in
+ *            nats) is optionally returned in <opt_sc>.
+ *            
+ *            This calculation requires $O(ML)$ memory and time. The
+ *            caller must provide a suitably allocated full <bck> by
+ *            calling <bck = p7_omx_Create(M, L, L)> or
+ *            <p7_omx_GrowTo(bck, M, L, L)>.
+ *            
+ *            Because only the sparse scaling factors are needed from
+ *            the <fwd> matrix, the caller may have this matrix
+ *            calculated either in full or parsing mode.
+ *            
+ *            The model <om> must be configured in local alignment
+ *            mode. The sparse rescaling method used to keep
+ *            probability values within single-precision floating
+ *            point dynamic range cannot be safely applied to models in
+ *            glocal or global mode.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            fwd     - filled Forward DP matrix, for scale factors
+ *            do_full - TRUE=full matrix; FALSE=linear memory parse mode
+ *            bck     - RETURN: filled Backward matrix
+ *            opt_sc  - optRETURN: Backward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int 
+p7_Backward(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  bck->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (L     >= bck->validR)       ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= bck->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (L     != fwd->L)            ESL_EXCEPTION(eslEINVAL, "fwd matrix size doesn't agree with length L");
+  if (! p7_oprofile_IsLocal(om))  ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+ return backward_engine(TRUE, dsq, L, om, fwd, bck, opt_sc);
+}
+
+
+
+/* Function:  p7_BackwardParser()
+ * Synopsis:  The Backward algorithm, linear memory parsing version.
+ * Incept:    SRE, Sat Aug 16 08:34:13 2008 [Janelia]
+ *
+ * Purpose:   Same as <p7_Backward()> except that the full matrix isn't
+ *            kept. Instead, a linear $O(M+L)$ memory algorithm is
+ *            used, keeping only the DP matrix values for the special
+ *            (BENCJ) states. These are sufficient to do posterior
+ *            decoding to identify high-probability regions where
+ *            domains are.
+ *       
+ *            The caller must provide a suitably allocated "parsing"
+ *            <bck> by calling <bck = p7_omx_Create(M, 0, L)> or
+ *            <p7_omx_GrowTo(bck, M, 0, L)>.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            fwd     - filled Forward DP matrix, for scale factors
+ *            bck     - RETURN: filled Backward matrix
+ *            opt_sc  - optRETURN: Backward score (in nats)          
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if the profile
+ *            isn't in local alignment mode.
+ *            <eslERANGE> if the score exceeds the limited range of
+ *            a probability-space odds ratio.
+ *            In either case, <*opt_sc> is undefined.
+ */
+int 
+p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+#ifdef p7_DEBUGGING		
+  if (om->M >  bck->allocQ4*4)    ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few columns)");
+  if (bck->validR < 1)            ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few MDI rows)");
+  if (L     >= bck->allocXR)      ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small (too few X rows)");
+  if (L     != fwd->L)            ESL_EXCEPTION(eslEINVAL, "fwd matrix size doesn't agree with length L");
+  if (! p7_oprofile_IsLocal(om))  ESL_EXCEPTION(eslEINVAL, "Forward implementation makes assumptions that only work for local alignment");
+#endif
+
+  return backward_engine(FALSE, dsq, L, om, fwd, bck, opt_sc);
+}
+
+
+
+/*****************************************************************
+ * 2. Forward/Backward engine implementations (called thru API)
+ *****************************************************************/
+
+static int
+forward_engine(int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *opt_sc)
+{
+  vector float mpv, dpv, ipv;      /* previous row values                                       */
+  vector float sv;		   /* temp storage of 1 curr row value in progress              */
+  vector float dcv;		   /* delayed storage of D(i,q+1)                               */
+  vector float xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  vector float xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector float zerov;		   /* splatted 0.0's in a vector                                */
+  float    xN, xE, xB, xC, xJ;	   /* special states' scores                                    */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over quads 0..nq-1                                */
+  int j;			   /* counter over DD iterations (4 is full serialization)      */
+  int Q       = p7O_NQF(om->M);	   /* segment length: # of vectors                              */
+  vector float *dpc = ox->dpf[0];  /* current row, for use in {MDI}MO(dpp,q) access macro       */
+  vector float *dpp;               /* previous row, for use in {MDI}MO(dpp,q) access macro      */
+  vector float *rp;		   /* will point at om->rfv[x] for residue x[i]                 */
+  vector float *tp;		   /* will point into (and step thru) om->tfv                   */
+
+  /* Initialization. */
+  ox->M  = om->M;
+  ox->L  = L;
+  ox->has_own_scales = TRUE; 	/* all forward matrices control their own scalefactors */
+  zerov = (vector float) vec_splat_u32(0);
+  for (q = 0; q < Q; q++)
+    MMO(dpc,q) = IMO(dpc,q) = DMO(dpc,q) = zerov;
+  xE    = ox->xmx[p7X_E] = 0.;
+  xN    = ox->xmx[p7X_N] = 1.;
+  xJ    = ox->xmx[p7X_J] = 0.;
+  xB    = ox->xmx[p7X_B] = om->xf[p7O_N][p7O_MOVE];
+  xC    = ox->xmx[p7X_C] = 0.;
+
+  ox->xmx[p7X_SCALE] = 1.0;
+  ox->totscale       = 0.0;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpFBRow(ox, TRUE, 0, 9, 5, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=0, width=8, precision=5*/
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      dpp   = dpc;                      
+      dpc   = ox->dpf[do_full * i];     /* avoid conditional, use do_full as kronecker delta */
+      rp    = om->rfv[dsq[i]];
+      tp    = om->tfv;
+      dcv   = (vector float) vec_splat_u32(0);
+      xEv   = (vector float) vec_splat_u32(0);
+      xBv   = esl_vmx_set_float(xB);
+
+      /* Right shifts by 4 bytes. 4,8,12,x becomes x,4,8,12.  Shift zeros on. */
+      mpv   = vec_sld(zerov, MMO(dpp,Q-1), 12);
+      dpv   = vec_sld(zerov, DMO(dpp,Q-1), 12);
+      ipv   = vec_sld(zerov, IMO(dpp,Q-1), 12);
+      
+      for (q = 0; q < Q; q++)
+	{
+	  /* Calculate new MMO(i,q); don't store it yet, hold it in sv. */
+	  sv   = (vector float) vec_splat_u32(0);
+	  sv   = vec_madd(xBv, *tp, sv);     tp++;
+	  sv   = vec_madd(mpv, *tp, sv);     tp++;
+	  sv   = vec_madd(ipv, *tp, sv);     tp++;
+	  sv   = vec_madd(dpv, *tp, sv);     tp++;
+	  sv   = vec_madd(sv,  *rp, zerov);  rp++;
+	  xEv  = vec_add(xEv, sv);
+	  
+	  /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+	   * {MDI}MX(q) is then the current, not the prev row
+	   */
+	  mpv = MMO(dpp,q);
+	  dpv = DMO(dpp,q);
+	  ipv = IMO(dpp,q);
+
+	  /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+	  MMO(dpc,q) = sv;
+	  DMO(dpc,q) = dcv;
+
+	  /* Calculate the next D(i,q+1) partially: M->D only;
+           * delay storage, holding it in dcv
+	   */
+	  dcv   = vec_madd(sv, *tp, zerov); tp++;
+
+	  /* Calculate and store I(i,q); assumes odds ratio for emission is 1.0 */
+	  sv         = vec_madd(mpv, *tp, zerov);  tp++;
+	  IMO(dpc,q) = vec_madd(ipv, *tp, sv);     tp++;
+	}	  
+
+      /* Now the DD paths. We would rather not serialize them but 
+       * in an accurate Forward calculation, we have few options.
+       */
+      /* dcv has carried through from end of q loop above; store it 
+       * in first pass, we add M->D and D->D path into DMX
+       */
+      /* We're almost certainly're obligated to do at least one complete 
+       * DD path to be sure: 
+       */
+      dcv        = vec_sld(zerov, dcv, 12);
+      DMO(dpc,0) = (vector float) vec_splat_u32(0);
+      tp         = om->tfv + 7*Q;	/* set tp to start of the DD's */
+      for (q = 0; q < Q; q++) 
+	{
+	  DMO(dpc,q) = vec_add(dcv, DMO(dpc,q));	
+	  dcv        = vec_madd(DMO(dpc,q), *tp, zerov); tp++; /* extend DMO(q), so we include M->D and D->D paths */
+	}
+
+      /* now. on small models, it seems best (empirically) to just go
+       * ahead and serialize. on large models, we can do a bit better,
+       * by testing for when dcv (DD path) accrued to DMO(q) is below
+       * machine epsilon for all q, in which case we know DMO(q) are all
+       * at their final values. The tradeoff point is (empirically) somewhere around M=100,
+       * at least on my desktop. We don't worry about the conditional here;
+       * it's outside any inner loops.
+       */
+      if (om->M < 100)
+	{			/* Fully serialized version */
+	  for (j = 1; j < 4; j++)
+	    {
+	      dcv = vec_sld(zerov, dcv, 12);
+	      tp  = om->tfv + 7*Q;	/* set tp to start of the DD's */
+	      for (q = 0; q < Q; q++) 
+		{ /* note, extend dcv, not DMO(q); only adding DD paths now */
+		  DMO(dpc,q) = vec_add(dcv, DMO(dpc,q));	
+		  dcv        = vec_madd(dcv, *tp, zerov);   tp++; 
+		}	    
+	    }
+	} 
+      else
+	{			/* Slightly parallelized version, but which incurs some overhead */
+	  for (j = 1; j < 4; j++)
+	    {
+	      vector bool int cv;	/* keeps track of whether any DD's change DMO(q) */
+
+	      dcv = vec_sld(zerov, dcv, 12);
+	      tp  = om->tfv + 7*Q;	/* set tp to start of the DD's */
+	      cv  = (vector bool int) vec_splat_u32(0);
+	      for (q = 0; q < Q; q++) 
+		{ /* using cmpgt below tests if DD changed any DMO(q) *without* conditional branch */
+		  sv         = vec_add(dcv, DMO(dpc,q));	
+		  cv         = vec_or(cv, vec_cmpgt(sv, DMO(dpc,q))); 
+		  DMO(dpc,q) = sv;	                               /* store new DMO(q) */
+		  dcv        = vec_madd(dcv, *tp, zerov);   tp++;      /* note, extend dcv, not DMO(q) */
+		}	    
+	      /* DD's didn't change any DMO(q)? Then done, break out. */
+	      if (vec_all_eq(cv, (vector bool int)zerov)) break;
+	    }
+	}
+
+      /* Add D's to xEv */
+      for (q = 0; q < Q; q++) xEv = vec_add(DMO(dpc,q), xEv);
+
+      /* Finally the "special" states, which start from Mk->E (->C, ->J->B) */
+      /* The following incantation is a horizontal sum of xEv's elements  */
+      /* These must follow DD calculations, because D's contribute to E in Forward
+       * (as opposed to Viterbi)
+       */
+      xE = esl_vmx_hsum_float(xEv);
+
+      xN =  xN * om->xf[p7O_N][p7O_LOOP];
+      xC = (xC * om->xf[p7O_C][p7O_LOOP]) +  (xE * om->xf[p7O_E][p7O_MOVE]);
+      xJ = (xJ * om->xf[p7O_J][p7O_LOOP]) +  (xE * om->xf[p7O_E][p7O_LOOP]);
+      xB = (xJ * om->xf[p7O_J][p7O_MOVE]) +  (xN * om->xf[p7O_N][p7O_MOVE]);
+      /* and now xB will carry over into next i, and xC carries over after i=L */
+
+      /* Sparse rescaling. xE above threshold? trigger a rescaling event.            */
+      if (xE > 1.0e4)	/* that's a little less than e^10, ~10% of our dynamic range */
+	{
+	  xN  = xN / xE;
+	  xC  = xC / xE;
+	  xJ  = xJ / xE;
+	  xB  = xB / xE;
+	  xEv = esl_vmx_set_float(1.0 / xE); 
+	  for (q = 0; q < Q; q++)
+	    {
+	      MMO(dpc,q) = vec_madd(MMO(dpc,q), xEv, zerov);
+	      DMO(dpc,q) = vec_madd(DMO(dpc,q), xEv, zerov);
+	      IMO(dpc,q) = vec_madd(IMO(dpc,q), xEv, zerov);
+	    }
+	  ox->xmx[i*p7X_NXCELLS+p7X_SCALE] = xE;
+	  ox->totscale += log(xE);
+	  xE = 1.0;		
+	}
+      else ox->xmx[i*p7X_NXCELLS+p7X_SCALE] = 1.0;
+
+      /* Storage of the specials.  We could've stored these already
+       * but using xE, etc. variables makes it easy to convert this
+       * code to O(M) memory versions just by deleting storage steps.
+       */
+      ox->xmx[i*p7X_NXCELLS+p7X_E] = xE;
+      ox->xmx[i*p7X_NXCELLS+p7X_N] = xN;
+      ox->xmx[i*p7X_NXCELLS+p7X_J] = xJ;
+      ox->xmx[i*p7X_NXCELLS+p7X_B] = xB;
+      ox->xmx[i*p7X_NXCELLS+p7X_C] = xC;
+
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpFBRow(ox, TRUE, i, 9, 5, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=i, width=8, precision=5*/
+#endif
+    } /* end loop over sequence residues 1..L */
+
+  /* finally C->T, and flip total score back to log space (nats) */
+  /* On overflow, xC is inf or nan (nan arises because inf*0 = nan). */
+  /* On an underflow (which shouldn't happen), we counterintuitively return infinity:
+   * the effect of this is to force the caller to rescore us with full range.
+   */
+  if       (isnan(xC))        ESL_EXCEPTION(eslERANGE, "forward score is NaN");
+  else if  (L>0 && xC == 0.0) ESL_EXCEPTION(eslERANGE, "forward score underflow (is 0.0)");     /* [J5/118] */
+  else if  (isinf(xC) == 1)   ESL_EXCEPTION(eslERANGE, "forward score overflow (is infinity)");
+
+  if (opt_sc != NULL) *opt_sc = ox->totscale + log(xC * om->xf[p7O_C][p7O_MOVE]);
+  return eslOK;
+}
+
+
+
+static int 
+backward_engine(int do_full, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc)
+{
+  vector float mpv, ipv, dpv;         /* previous row values                                       */
+  vector float mcv, dcv;              /* current row values                                        */
+  vector float tmmv, timv, tdmv;      /* tmp vars for accessing rotated transition scores          */
+  vector float xBv;		      /* collects B->Mk components of B(i)                         */
+  vector float xEv;	              /* splatted E(i)                                             */
+  vector float zerov;		      /* splatted 0.0's in a vector                                */
+  float    xN, xE, xB, xC, xJ;	      /* special states' scores                                    */
+  int      i;			      /* counter over sequence positions 0,1..L                    */
+  int      q;			      /* counter over quads 0..Q-1                                 */
+  int      Q       = p7O_NQF(om->M);  /* segment length: # of vectors                              */
+  int      j;			      /* DD segment iteration counter (4 = full serialization)     */
+  vector float  *dpc;                 /* current DP row                                            */
+  vector float  *dpp;	              /* next ("previous") DP row                                  */
+  vector float  *rp;		      /* will point into om->rfv[x] for residue x[i+1]             */
+  vector float  *tp;		      /* will point into (and step thru) om->tfv transition scores */
+
+  /* initialize the L row. */
+  bck->M = om->M;
+  bck->L = L;
+  bck->has_own_scales = FALSE;	/* backwards scale factors are *usually* given by <fwd> */
+  dpc    = bck->dpf[L * do_full];
+  xJ     = 0.0;
+  xB     = 0.0;
+  xN     = 0.0;
+  xC     = om->xf[p7O_C][p7O_MOVE];      /* C<-T */
+  xE     = xC * om->xf[p7O_E][p7O_MOVE]; /* E<-C, no tail */
+  xEv    = esl_vmx_set_float(xE); 
+  zerov  = (vector float) vec_splat_u32(0);
+  dcv    = (vector float) vec_splat_u32(0);;		/* solely to silence a compiler warning */
+  for (q = 0; q < Q; q++) MMO(dpc,q) = DMO(dpc,q) = xEv;
+  for (q = 0; q < Q; q++) IMO(dpc,q) = zerov;
+
+  /* init row L's DD paths, 1) first segment includes xE, from DMO(q) */
+  tp  = om->tfv + 8*Q - 1;	                        /* <*tp> now the [4 8 12 x] TDD quad         */
+  dpv = vec_sld(DMO(dpc,Q-1), zerov, 4);
+  for (q = Q-1; q >= 1; q--)
+    {
+      DMO(dpc,q) = vec_madd(dpv, *tp, DMO(dpc,q));      tp--;
+      dpv        = DMO(dpc,q);
+    }
+  dcv        = vec_madd(dpv, *tp, zerov);
+  DMO(dpc,q) = vec_add(DMO(dpc,q), dcv);
+
+  /* 2) three more passes, only extending DD component (dcv only; no xE contrib from DMO(q)) */
+  for (j = 1; j < 4; j++)
+    {
+      tp  = om->tfv + 8*Q - 1;	                        /* <*tp> now the [4 8 12 x] TDD quad         */
+      dcv = vec_sld(dcv, zerov, 4);
+      for (q = Q-1; q >= 0; q--)
+	{
+	  dcv        = vec_madd(dcv, *tp, zerov); tp--;
+	  DMO(dpc,q) = vec_add(DMO(dpc,q), dcv);
+	}
+    }
+
+  /* now MD init */
+  tp  = om->tfv + 7*Q - 3;	                        /* <*tp> now the [4 8 12 x] Mk->Dk+1 quad    */
+  dcv = vec_sld(DMO(dpc,0), zerov, 4);
+  for (q = Q-1; q >= 0; q--)
+    {
+      MMO(dpc,q) = vec_madd(dcv, *tp, MMO(dpc,q)); tp -= 7;
+      dcv        = DMO(dpc,q);
+    }
+
+  /* Sparse rescaling: same scale factors as fwd matrix */
+  if (fwd->xmx[L*p7X_NXCELLS+p7X_SCALE] > 1.0)
+    {
+      xE  = xE / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xN  = xN / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xC  = xC / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xJ  = xJ / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xB  = xB / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+      xEv = esl_vmx_set_float(1.0 / fwd->xmx[L*p7X_NXCELLS+p7X_SCALE]);
+      for (q = 0; q < Q; q++) {
+	MMO(dpc,q) = vec_madd(MMO(dpc,q), xEv, zerov);
+	DMO(dpc,q) = vec_madd(DMO(dpc,q), xEv, zerov);
+	IMO(dpc,q) = vec_madd(IMO(dpc,q), xEv, zerov);
+      }
+    }
+  bck->xmx[L*p7X_NXCELLS+p7X_SCALE] = fwd->xmx[L*p7X_NXCELLS+p7X_SCALE];
+  bck->totscale                     = log(bck->xmx[L*p7X_NXCELLS+p7X_SCALE]);
+
+  /* Stores */
+  bck->xmx[L*p7X_NXCELLS+p7X_E] = xE;
+  bck->xmx[L*p7X_NXCELLS+p7X_N] = xN;
+  bck->xmx[L*p7X_NXCELLS+p7X_J] = xJ;
+  bck->xmx[L*p7X_NXCELLS+p7X_B] = xB;
+  bck->xmx[L*p7X_NXCELLS+p7X_C] = xC;
+
+#if p7_DEBUGGING
+  if (bck->debugging) p7_omx_DumpFBRow(bck, TRUE, L, 9, 4, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=L, width=9, precision=4*/
+#endif
+
+  /* main recursion */
+  for (i = L-1; i >= 1; i--)	/* backwards stride */
+    {
+      /* phase 1. B(i) collected. Old row destroyed, new row contains
+       *    complete I(i,k), partial {MD}(i,k) w/ no {MD}->{DE} paths yet.
+       */
+      dpc = bck->dpf[i     * do_full];
+      dpp = bck->dpf[(i+1) * do_full];
+      rp  = om->rfv[dsq[i+1]] + Q-1; /* <*rp> is now the [4 8 12 x] match emission quad */
+      tp  = om->tfv + 7*Q - 1;	    /* <*tp> is now the [4 8 12 x] TII transition quad  */
+
+      /* leftshift the first transition quads */
+      tmmv = vec_sld(om->tfv[1], zerov, 4);
+      timv = vec_sld(om->tfv[2], zerov, 4);
+      tdmv = vec_sld(om->tfv[3], zerov, 4);
+
+      mpv = vec_madd(MMO(dpp,0), om->rfv[dsq[i+1]][0], zerov); /* precalc M(i+1,k+1)*e(M_k+1,x_{i+1}) */
+      mpv = vec_sld(mpv, zerov, 4);
+
+      xBv = zerov;
+      for (q = Q-1; q >= 0; q--)     /* backwards stride */
+	{
+	  vector float t1;
+
+	  ipv = IMO(dpp,q); /* assumes emission odds ratio of 1.0; i+1's IMO(q) now free */
+	  t1         = vec_madd(mpv, timv, zerov);
+	  IMO(dpc,q) = vec_madd(ipv, *tp,  t1);            tp--;
+	  DMO(dpc,q) = vec_madd(mpv, tdmv, zerov);
+	  t1         = vec_madd(mpv, tmmv, zerov);
+	  mcv        = vec_madd(ipv, *tp,  t1);            tp -= 2;
+	  
+	  /* obtain mpv for next q. i+1's MMO(q) is freed  */
+	  mpv        = vec_madd(MMO(dpp,q), *rp, zerov);   rp--;
+	  MMO(dpc,q) = mcv;
+
+	  tdmv = *tp;   tp--;
+	  timv = *tp;   tp--;
+	  tmmv = *tp;   tp--;
+
+	  xBv = vec_madd(mpv, *tp, xBv); tp--;
+	}
+
+      /* phase 2: now that we have accumulated the B->Mk transitions in xBv, we can do the specials */
+      xB = esl_vmx_hsum_float(xBv);
+
+      xC =  xC * om->xf[p7O_C][p7O_LOOP];
+      xJ = (xB * om->xf[p7O_J][p7O_MOVE]) + (xJ * om->xf[p7O_J][p7O_LOOP]); /* must come after xB */
+      xN = (xB * om->xf[p7O_N][p7O_MOVE]) + (xN * om->xf[p7O_N][p7O_LOOP]); /* must come after xB */
+      xE = (xC * om->xf[p7O_E][p7O_MOVE]) + (xJ * om->xf[p7O_E][p7O_LOOP]); /* must come after xJ, xC */
+      xEv = esl_vmx_set_float(xE);	/* splat */
+
+
+      /* phase 3: {MD}->E paths and one step of the D->D paths */
+      tp  = om->tfv + 8*Q - 1;	/* <*tp> now the [4 8 12 x] TDD quad */
+      dpv = vec_add(DMO(dpc,0), xEv);
+      dpv = vec_sld(dpv, zerov, 4);
+      for (q = Q-1; q >= 1; q--)
+	{
+	  dcv        = vec_madd(dpv, *tp, xEv);    tp--;
+	  DMO(dpc,q) = vec_add(DMO(dpc,q), dcv);
+	  dpv        = DMO(dpc,q);
+	  MMO(dpc,q) = vec_add(MMO(dpc,q), xEv);
+	}
+      dcv        = vec_madd(dpv, *tp, zerov);
+      DMO(dpc,q) = vec_add(DMO(dpc,q), vec_add(dcv, xEv));
+      MMO(dpc,q) = vec_add(MMO(dpc,q), xEv);
+      
+      /* phase 4: finish extending the DD paths */
+      /* fully serialized for now */
+      for (j = 1; j < 4; j++)	/* three passes: we've already done 1 segment, we need 4 total */
+	{
+	  dcv = vec_sld(dcv, zerov, 4);
+	  tp  = om->tfv + 8*Q - 1;	/* <*tp> now the [4 8 12 x] TDD quad */
+	  for (q = Q-1; q >= 0; q--)
+	    {
+	      dcv        = vec_madd(dcv, *tp, zerov); tp--;
+	      DMO(dpc,q) = vec_add(DMO(dpc,q), dcv);
+	    }
+	}
+
+      /* phase 5: add M->D paths */
+      dcv = vec_sld(DMO(dpc,0), zerov, 4);
+      tp  = om->tfv + 7*Q - 3;	/* <*tp> is now the [4 8 12 x] Mk->Dk+1 quad */
+      for (q = Q-1; q >= 0; q--)
+	{
+	  MMO(dpc,q) = vec_madd(dcv, *tp, MMO(dpc,q)); tp -= 7;
+	  dcv        = DMO(dpc,q);
+	}
+
+      /* Sparse rescaling  */
+
+      /* In rare cases [J3/119] scale factors from <fwd> are
+       * insufficient and backwards will overflow. In this case, we
+       * switch on the fly to using our own scale factors, different
+       * from those in <fwd>. This will complicate subsequent
+       * posterior decoding routines.
+       */
+      if (xB > 1.0e16) bck->has_own_scales = TRUE;
+
+      if      (bck->has_own_scales)  bck->xmx[i*p7X_NXCELLS+p7X_SCALE] = (xB > 1.0e4) ? xB : 1.0;
+      else                           bck->xmx[i*p7X_NXCELLS+p7X_SCALE] = fwd->xmx[i*p7X_NXCELLS+p7X_SCALE];
+
+      if (bck->xmx[i*p7X_NXCELLS+p7X_SCALE] > 1.0)
+	{
+	  xE /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xN /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xJ /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xB /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xC /= bck->xmx[i*p7X_NXCELLS+p7X_SCALE];
+	  xBv = esl_vmx_set_float(1.0 / bck->xmx[i*p7X_NXCELLS+p7X_SCALE]);
+	  for (q = 0; q < Q; q++) {
+	    MMO(dpc,q) = vec_madd(MMO(dpc,q), xBv, zerov);
+	    DMO(dpc,q) = vec_madd(DMO(dpc,q), xBv, zerov);
+	    IMO(dpc,q) = vec_madd(IMO(dpc,q), xBv, zerov);
+	  }
+	  bck->totscale += log(bck->xmx[i*p7X_NXCELLS+p7X_SCALE]);
+	}
+
+      /* Stores are separate only for pedagogical reasons: easy to
+       * turn this into a more memory efficient version just by
+       * deleting the stores.
+       */
+      bck->xmx[i*p7X_NXCELLS+p7X_E] = xE;
+      bck->xmx[i*p7X_NXCELLS+p7X_N] = xN;
+      bck->xmx[i*p7X_NXCELLS+p7X_J] = xJ;
+      bck->xmx[i*p7X_NXCELLS+p7X_B] = xB;
+      bck->xmx[i*p7X_NXCELLS+p7X_C] = xC;
+
+#if p7_DEBUGGING
+      if (bck->debugging) p7_omx_DumpFBRow(bck, TRUE, i, 9, 4, xE, xN, xJ, xB, xC);	/* logify=TRUE, <rowi>=i, width=9, precision=4*/
+#endif
+    } /* thus ends the loop over sequence positions i */
+
+  /* Termination at i=0, where we can only reach N,B states. */
+  dpp = bck->dpf[1 * do_full];
+  tp  = om->tfv;	        /* <*tp> is now the [1 5 9 13] TBMk transition quad  */
+  rp  = om->rfv[dsq[1]];	/* <*rp> is now the [1 5 9 13] match emission quad   */
+  xBv = (vector float) vec_splat_u32(0);
+  for (q = 0; q < Q; q++)
+    {
+      mpv = vec_madd(MMO(dpp,q), *rp, zerov);  rp++;
+      xBv = vec_madd(mpv,        *tp, xBv);    tp += 7;
+    }
+  /* horizontal sum of xBv */
+  xB = esl_vmx_hsum_float(xBv);
+ 
+  xN = (xB * om->xf[p7O_N][p7O_MOVE]) + (xN * om->xf[p7O_N][p7O_LOOP]);  
+
+  bck->xmx[p7X_B]     = xB;
+  bck->xmx[p7X_C]     = 0.0;
+  bck->xmx[p7X_J]     = 0.0;
+  bck->xmx[p7X_N]     = xN;
+  bck->xmx[p7X_E]     = 0.0;
+  bck->xmx[p7X_SCALE] = 1.0;
+
+#if p7_DEBUGGING
+  dpc = bck->dpf[0];
+  for (q = 0; q < Q; q++) /* Not strictly necessary, but if someone's looking at DP matrices, this is nice to do: */
+    MMO(dpc,q) = DMO(dpc,q) = IMO(dpc,q) = zerov;
+  if (bck->debugging) p7_omx_DumpFBRow(bck, TRUE, 0, 9, 4, bck->xmx[p7X_E], bck->xmx[p7X_N],  bck->xmx[p7X_J], bck->xmx[p7X_B],  bck->xmx[p7X_C]);	/* logify=TRUE, <rowi>=0, width=9, precision=4*/
+#endif
+
+  if       (isnan(xN))         ESL_EXCEPTION(eslERANGE, "backward score is NaN");
+  else if  (L>0 && xN == 0.0)  ESL_EXCEPTION(eslERANGE, "backward score underflow (is 0.0)");    /* [J5/118] */
+  else if  (isinf(xN) == 1)    ESL_EXCEPTION(eslERANGE, "backward score overflow (is infinity)");
+
+  if (opt_sc != NULL) *opt_sc = bck->totscale + log(xN);
+  return eslOK;
+}
+/*-------------- end, forward/backward engines  -----------------*/
+
+
+
+
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7FWDBACK_BENCHMARK
+/* -c, -x options are for debugging and testing: see fwdfilter.c for explanation */
+/* 
+   icc  -O3 -static -o fwdback_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_BENCHMARK fwdback.c -lhmmer -leasel -lm 
+
+   ./fwdback_benchmark <hmmfile>           runs benchmark on both Forward and Backward parser
+   ./fwdback_benchmark -c -N100 <hmmfile>  compare scores of VMX to generic impl
+   ./fwdback_benchmark -x -N100 <hmmfile>  test that scores match trusted implementation.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  { "-F",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-B", "only benchmark Forward",                           0 },
+  { "-B",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-F", "only benchmark Backward",                          0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "benchmark parsing version, not full version",      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for Forward, Backward implementations";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc;
+  float           fsc2, bsc2;
+  double          base_time, bench_time, Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
+    p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
+
+  if (esl_opt_GetBoolean(go, "-P")) {
+    fwd = p7_omx_Create(gm->M, 0, L);
+    bck = p7_omx_Create(gm->M, 0, L);
+  } else {
+    fwd = p7_omx_Create(gm->M, L, L);
+    bck = p7_omx_Create(gm->M, L, L);
+  }
+  gx  = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      if (esl_opt_GetBoolean(go, "-P")) {
+	if (! esl_opt_GetBoolean(go, "-B"))  p7_ForwardParser (dsq, L, om,      fwd, &fsc);
+	if (! esl_opt_GetBoolean(go, "-F"))  p7_BackwardParser(dsq, L, om, fwd, bck, &bsc);
+      } else {
+	if (! esl_opt_GetBoolean(go, "-B"))  p7_Forward (dsq, L, om,      fwd, &fsc);
+	if (! esl_opt_GetBoolean(go, "-F"))  p7_Backward(dsq, L, om, fwd, bck, &bsc);
+      }
+
+      if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GForward (dsq, L, gm, gx, &fsc2); 
+	  p7_GBackward(dsq, L, gm, gx, &bsc2); 
+	  printf("%.4f %.4f %.4f %.4f\n", fsc, bsc, fsc2, bsc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7FWDBACK_BENCHMARK*/
+/*------------------- end, benchmark driver ---------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef p7FWDBACK_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* 
+ * compare to GForward() scores.
+ */
+static void
+utest_fwdback(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  char        *msg = "forward/backward unit test failed";
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd = p7_omx_Create(M, 0, L);
+  P7_OMX      *bck = p7_omx_Create(M, 0, L);
+  P7_OMX      *oxf = p7_omx_Create(M, L, L);
+  P7_OMX      *oxb = p7_omx_Create(M, L, L);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float tolerance;
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+  float generic_sc;
+
+  p7_FLogsumInit();
+  if (p7_FLogsumError(-0.4, -0.5) > 0.0001) tolerance = 1.0;  /* weaker test against GForward()   */
+  else tolerance = 0.0001;   /* stronger test: FLogsum() is in slow exact mode. */
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_Forward       (dsq, L, om, oxf,      &fsc1);
+      p7_Backward      (dsq, L, om, oxf, oxb, &bsc1);
+      p7_ForwardParser (dsq, L, om, fwd,      &fsc2);
+      p7_BackwardParser(dsq, L, om, fwd, bck, &bsc2);
+      p7_GForward      (dsq, L, gm, gx,  &generic_sc);
+
+      /* Forward and Backward scores should agree with high tolerance */
+      if (fabs(fsc1-bsc1) > 0.0001)    esl_fatal(msg);
+      if (fabs(fsc2-bsc2) > 0.0001)    esl_fatal(msg);
+      if (fabs(fsc1-fsc2) > 0.0001)    esl_fatal(msg);
+
+      /* GForward scores should approximate Forward scores, 
+       * with tolerance that depends on how logsum.c was compiled
+       */
+      if (fabs(fsc1-generic_sc) > tolerance) esl_fatal(msg);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(oxb);
+  p7_omx_Destroy(oxf);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7FWDBACK_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef p7FWDBACK_TESTDRIVE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -o fwdback_utest -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_TESTDRIVE fwdback.c -lhmmer -leasel -lm
+   ./fwdback_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for VMX Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_fwdback(r, abc, bg, M, L, N);   /* normal sized models */
+  utest_fwdback(r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_fwdback(r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_fwdback(r, abc, bg, M, L, N);   
+  utest_fwdback(r, abc, bg, 1, L, 10);  
+  utest_fwdback(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7FWDBACK_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example
+ *****************************************************************/
+#ifdef p7FWDBACK_EXAMPLE
+/* Useful for debugging on small HMMs and sequences.
+ * 
+ * Compares to GForward().
+ * 
+   gcc -g -Wall -maltivec -std=gnu99 -o fwdback_example -I.. -L.. -I../../easel -L../../easel -Dp7FWDBACK_EXAMPLE fwdback.c -lhmmer -leasel -lm
+   ./fwdback_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_exponential.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Forward/Backward (VMX versions)";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_OMX         *bck     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           fraw, braw, nullsc, fsc;
+  float           gfraw, gbraw, gfsc;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Open sequence file for reading */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);               
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc); 
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_UNILOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* p7_oprofile_Dump(stdout, om);  */
+
+  /* allocate DP matrices for O(M+L) parsers */
+  fwd = p7_omx_Create(gm->M, 0, sq->n);
+  bck = p7_omx_Create(gm->M, 0, sq->n);
+  gx  = p7_gmx_Create(gm->M,    sq->n);
+
+  /* allocate DP matrices for O(ML) fills */
+  /* fwd = p7_omx_Create(gm->M, sq->n, sq->n); */
+  /* bck = p7_omx_Create(gm->M, sq->n, sq->n); */
+
+  /* p7_omx_SetDumpMode(stdout, fwd, TRUE); */     /* makes the fast DP algorithms dump their matrices */
+  /* p7_omx_SetDumpMode(stdout, bck, TRUE); */  
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(fwd, om->M, 0,   sq->n); 
+      p7_omx_GrowTo(bck, om->M, 0,   sq->n); 
+      p7_gmx_GrowTo(gx,  gm->M,      sq->n); 
+
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+    
+      p7_ForwardParser (sq->dsq, sq->n, om,      fwd, &fraw);
+      p7_BackwardParser(sq->dsq, sq->n, om, fwd, bck, &braw);
+
+      /* p7_Forward (sq->dsq, sq->n, om,      fwd, &fsc);        printf("forward:              %.2f nats\n", fsc);  */
+      /* p7_Backward(sq->dsq, sq->n, om, fwd, bck, &bsc);        printf("backward:             %.2f nats\n", bsc);  */
+
+      /* Comparison to other F/B implementations */
+      p7_GForward     (sq->dsq, sq->n, gm, gx,  &gfraw);
+      p7_GBackward    (sq->dsq, sq->n, gm, gx,  &gbraw);
+
+      /* p7_gmx_Dump(stdout, gx, p7_DEFAULT);  */
+
+      fsc  =  (fraw-nullsc) / eslCONST_LOG2;
+      gfsc = (gfraw-nullsc) / eslCONST_LOG2;
+      P  = esl_exp_surv(fsc,   om->evparam[p7_FTAU],  om->evparam[p7_FLAMBDA]);
+      gP = esl_exp_surv(gfsc,  gm->evparam[p7_FTAU],  gm->evparam[p7_FLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%6.1f\t%9.2g\t%6.1f\n", sq->name, hmm->name, P, fsc, gP, gfsc);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, fsc, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("fwd filter raw score: %.2f nats\n", fraw);
+	  printf("bck filter raw score: %.2f nats\n", braw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", fsc);
+	  printf("P-value:              %g\n",        P);
+	  printf("GForward raw score:   %.2f nats\n", gfraw);
+	  printf("GBackward raw score:  %.2f nats\n", gbraw);
+	  printf("GForward seq score:   %.2f bits\n", gfsc);
+	  printf("GForward P-value:     %g\n",        gP);
+	}
+
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(bck);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7FWDBACK_EXAMPLE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/impl_vmx.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/impl_vmx.h
new file mode 100755
index 0000000..6919763
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/impl_vmx.h
@@ -0,0 +1,424 @@
+/* VMX optimized implementation of various MSV, Viterbi, and Forward
+ * routines: structures, declarations, and macros.
+ * 
+ * SRE, Sun Nov 25 11:23:02 2007
+ * SVN $Id: impl_vmx.h 4511 2013-07-08 19:05:40Z wheelert $
+ */
+#ifndef P7_IMPL_VMX_INCLUDED
+#define P7_IMPL_VMX_INCLUDED
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "p7_config.h"
+
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+/* In calculating Q, the number of vectors we need in a row, we have
+ * to make sure there's at least 2, or a striped implementation fails.
+ */
+#define p7O_NQB(M)   ( ESL_MAX(2, ((((M)-1) / 16) + 1)))   /* 16 uchars  */
+#define p7O_NQW(M)   ( ESL_MAX(2, ((((M)-1) / 8)  + 1)))   /*  8 words   */
+#define p7O_NQF(M)   ( ESL_MAX(2, ((((M)-1) / 4)  + 1)))   /*  4 floats  */
+
+
+/*****************************************************************
+ * 1. P7_OPROFILE: an optimized score profile
+ *****************************************************************/
+/* The OPROFILE is striped [Farrar07] and interleaved, as is the DP matrix.
+ * For example, the layout of a profile for an M=14 model (xref J2/46):
+ * 
+ * rsc[x] : striped blocks of M emissions, starting with q=0
+ *                1     11     1      1  
+ *             1593   2604   371x   482x 
+ * 
+ * tsc:  grouped in order of accession in DP for 7 transition scores;
+ *       starting at q=0 for all but the three transitions to M, which
+ *       are rotated by -1 and rightshifted. DD's follow separately, 
+ *       starting at q=0.
+ *
+ *        {     1      1     1     1     1     1     1 }
+ *        {  1593   x482  x482  x482  1593  1593  1593 }    
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ * 
+ *        {    11      1     1     1    11    11    11 }
+ *        {  2604   1593  1593  1593  2604  2604  2604 } 
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {    1      11    11    11    1     1     1  }
+ *        {  371x   2604  2604  2604  371x  371x  371x }
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {    1      1     1     1     1     1     1  }
+ *        {  482x   371x  371x  371x  482x  482x  482x }
+ *        { [tBMk] [tMM] [tIM] [tDM] [tMD] [tMI] [tII] }
+ *        
+ *        {     1    11    1     1  }
+ *        {  1593  2604  371x  482x }
+ *        { [TDD] [TDD] [TDD] [TDD] }
+ *        
+ */
+
+#define p7O_NXSTATES  4		/* special states stored: ENJC                       */
+#define p7O_NXTRANS   2         /* special states all have 2 transitions: move, loop */
+#define p7O_NTRANS    8		/* 7 core transitions + BMk entry                    */
+enum p7o_xstates_e      { p7O_E    = 0, p7O_N    = 1,  p7O_J  = 2,  p7O_C  = 3 };
+enum p7o_xtransitions_e { p7O_MOVE = 0, p7O_LOOP = 1 };
+enum p7o_tsc_e          { p7O_BM   = 0, p7O_MM   = 1,  p7O_IM = 2,  p7O_DM = 3, p7O_MD   = 4, p7O_MI   = 5,  p7O_II = 6,  p7O_DD = 7 };
+
+typedef struct p7_oprofile_s {
+  /* MSVFilter uses scaled, biased uchars: 16x unsigned byte vectors                 */
+  vector unsigned char **rbv;   /* match scores [x][q]: rm, rm[0] are allocated      */
+  uint8_t   tbm_b;		/* constant B->Mk cost:    scaled log 2/M(M+1)       */
+  uint8_t   tec_b;		/* constant E->C  cost:    scaled log 0.5            */
+  uint8_t   tjb_b;		/* constant NCJ move cost: scaled log 3/(L+3)        */
+  float     scale_b;		/* typically 3 / log2: scores scale to 1/3 bits      */
+  uint8_t   base_b;  	        /* typically +190: offset of uchar scores            */
+  uint8_t   bias_b;		/* positive bias to emission scores, make them >=0   */
+
+  /* ViterbiFilter uses scaled swords: 8x signed 16-bit integer vectors              */
+  vector signed short **rwv;	/* [x][q]: rw, rw[0] are allocated  [Kp][Q8]         */
+  vector signed short  *twv;	/* transition score blocks          [8*Q8]           */
+  int16_t   xw[p7O_NXSTATES][p7O_NXTRANS]; /* NECJ state transition costs            */
+  float     scale_w;            /* score units: typically 500 / log(2), 1/500 bits   */
+  int16_t   base_w;             /* offset of sword scores: typically +12000          */
+  int16_t   ddbound_w;		/* threshold precalculated for lazy DD evaluation    */
+  float     ncj_roundoff;	/* missing precision on NN,CC,JJ after rounding      */
+
+  /* Forward, Backward use IEEE754 single-precision floats: 4x vectors               */
+  vector float **rfv;           /* [x][q]:  rf, rf[0] are allocated [Kp][Q4]         */
+  vector float  *tfv;	    	/* transition probability blocks    [8*Q4]           */
+  float    xf[p7O_NXSTATES][p7O_NXTRANS]; /* NECJ transition costs                   */
+
+  /* Our actual vector mallocs, before we align the memory                           */
+  vector unsigned char  *rbv_mem;
+  vector signed short   *rwv_mem;
+  vector signed short   *twv_mem;
+  vector float          *tfv_mem;
+  vector float          *rfv_mem;
+  
+  /* Disk offset information for hmmpfam's fast model retrieval                      */
+  off_t  offs[p7_NOFFSETS];     /* p7_{MFP}OFFSET, or -1                             */
+
+  /* Disk offset bookkeeping for h3f:                                                */
+  off_t  roff;                  /* record offset (start of record); -1 if none       */
+  off_t  eoff;                  /* offset to last byte of record; -1 if unknown      */
+
+  /* Information, annotation copied from parent profile:                             */
+  char  *name;			/* unique name of model                              */
+  char  *acc;			/* unique accession of model, or NULL                */
+  char  *desc;                  /* brief (1-line) description of model, or NULL      */
+  char  *rf;                    /* reference line           1..M; *ref=0: unused     */
+  char  *mm;                    /* modelmask line           1..M; *ref=0: unused     */
+  char  *cs;                    /* consensus structure line 1..M, *cs=0: unused      */
+  char  *consensus;		/* consensus residues for ali display, 1..M          */
+  float  evparam[p7_NEVPARAM]; 	/* parameters for determining E-values, or UNSET     */
+  float  cutoff[p7_NCUTOFFS]; 	/* per-seq/per-dom bit cutoffs, or UNSET             */
+  float  compo[p7_MAXABET];	/* per-model HMM filter composition, or UNSET        */
+  const ESL_ALPHABET *abc;	/* copy of ptr to alphabet information               */
+
+  /* Information about current configuration, size, allocation                       */
+  int    L;			/* current configured target seq length              */
+  int    M;			/* model length                                      */
+  int    max_length;		/* upper bound on emitted seq length                 */
+  int    allocM;		/* maximum model length currently allocated for      */
+  int    allocQ4;		/* p7_NQF(allocM): alloc size for tf, rf             */
+  int    allocQ8;		/* p7_NQW(allocM): alloc size for tw, rw             */
+  int    allocQ16;		/* p7_NQB(allocM): alloc size for rb                 */
+  int    mode;			/* currently must be p7_LOCAL                        */
+  float  nj;			/* expected # of J's: 0 or 1, uni vs. multihit       */
+
+  int    clone;                 /* this optimized profile structure is just a copy   */
+                                /* of another profile structre.  all pointers of     */
+                                /* this structure should not be freed.               */
+} P7_OPROFILE;
+
+typedef struct {
+  int            count;       /* number of <P7_OPROFILE> objects in the block */
+  int            listSize;    /* maximum number elements in the list          */
+  P7_OPROFILE  **list;        /* array of <P7_OPROFILE> objects               */
+} P7_OM_BLOCK;
+
+/* retrieve match odds ratio [k][x]
+ * this gets used in p7_alidisplay.c, when we're deciding if a residue is conserved or not */
+static inline float 
+p7_oprofile_FGetEmission(const P7_OPROFILE *om, int k, int x)
+{
+  union { vector float v; float p[4]; } u;
+  int   Q = p7O_NQF(om->M);
+  int   q = ((k-1) % Q);
+  int   r = (k-1)/Q;
+  u.v = om->rfv[x][q];
+  return u.p[r];
+}
+
+/*****************************************************************
+ * 2. P7_OMX: a one-row dynamic programming matrix
+ *****************************************************************/
+
+enum p7x_scells_e { p7X_M = 0, p7X_D = 1, p7X_I = 2 };
+#define p7X_NSCELLS 3
+
+/* Besides ENJBC states, we may also store a rescaling factor on each row  */
+enum p7x_xcells_e { p7X_E = 0, p7X_N = 1, p7X_J = 2, p7X_B = 3, p7X_C = 4, p7X_SCALE = 5 }; 
+#define p7X_NXCELLS 6
+
+/* 
+ * 
+ * dpf[][] 
+ *    to access M(i,k) for i=0,1..L; k=1..M:  dpf[i][(k-1)/4 + p7X_M].element[(k-1)%4]
+ * 
+ * xmx[] arrays for individual special states:
+ *    xmx[ENJBC] = [0 1 2 3][4 5 6 7]..[L-2 L-1 L x]     XRQ >= (L/4)+1
+ *    to access B[i] for example, for i=0..L:   xmx[B][i/4].x[i%4]  (quad i/4; element i%4).
+ */  
+typedef struct p7_omx_s {
+  int       M;			/* current actual model dimension                              */
+  int       L;			/* current actual sequence dimension                           */
+
+  /* The main dynamic programming matrix for M,D,I states                                      */
+  vector float         **dpf;	/* striped DP matrix for [0,1..L][0..Q-1][MDI], float vectors  */
+  vector signed short  **dpw;	/* striped DP matrix for [0,1..L][0..Q-1][MDI], sword vectors  */
+  vector unsigned char **dpb;	/* striped DP matrix for [0,1..L][0..Q-1] uchar vectors        */
+  void     *dp_mem;		/* DP memory shared by <dpb>, <dpw>, <dpf>                     */
+  int       allocR;		/* current allocated # rows in dp{uf}. allocR >= validR >= L+1 */
+  int       validR;		/* current # of rows actually pointing at DP memory            */
+  int       allocQ4;		/* current set row width in <dpf> quads:   allocQ4*4 >= M      */
+  int       allocQ8;		/* current set row width in <dpw> octets:  allocQ8*8 >= M      */
+  int       allocQ16;		/* current set row width in <dpb> 16-mers: allocQ16*16 >= M    */
+  size_t    ncells;		/* current allocation size of <dp_mem>, in accessible cells    */
+
+  /* The X states (for full,parser; or NULL, for scorer)                                       */
+  float    *xmx;        	/* logically [0.1..L][ENJBCS]; indexed [i*p7X_NXCELLS+s]       */
+  void     *x_mem;		/* X memory before 16-byte alignment                           */
+  int       allocXR;		/* # of rows allocated in each xmx[] array; allocXR >= L+1     */
+  float     totscale;		/* log of the product of all scale factors (0.0 if unscaled)   */
+  int       has_own_scales;	/* TRUE to use own scale factors; FALSE if scales provided     */
+
+  /* Parsers,scorers only hold a row at a time, so to get them to dump full matrix, it
+   * must be done during a DP calculation, after each row is calculated 
+   */
+  int     debugging;		/* TRUE if we're in debugging mode                             */
+  FILE   *dfp;			/* output stream for diagnostics                               */
+} P7_OMX;
+
+/* ?MXo(q) access macros work for either uchar or float, so long as you
+ * init your "dp" to point to the appropriate array.
+ */
+#define MMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_M])
+#define DMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_D])
+#define IMXo(q)   (dp[(q) * p7X_NSCELLS + p7X_I])
+#define XMXo(i,s) (xmx[(i) * p7X_NXCELLS + s])
+
+/* and this version works with a ptr to the approp DP row. */
+#define MMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_M])
+#define DMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_D])
+#define IMO(dp,q) ((dp)[(q) * p7X_NSCELLS + p7X_I])
+
+static inline float
+p7_omx_FGetMDI(const P7_OMX *ox, int s, int i, int k)
+{
+  union { vector float v; float p[4]; } u;
+  int   Q = p7O_NQF(ox->M);
+  int   q = p7X_NSCELLS * ((k-1) % Q) + s;
+  int   r = (k-1)/Q;
+  u.v = ox->dpf[i][q];
+  return u.p[r];
+}
+
+static inline void
+p7_omx_FSetMDI(const P7_OMX *ox, int s, int i, int k, float val)
+{
+  union { vector float v; float p[4]; } u;
+  int   Q = p7O_NQF(ox->M);
+  int   q = p7X_NSCELLS * ((k-1) % Q) + s;
+  int   r = (k-1)/Q;
+
+  u.v           = ox->dpf[i][q];
+  u.p[r]        = val;
+  ox->dpf[i][q] = u.v;
+}
+  
+
+
+/*****************************************************************
+ * 3. Declarations of the external API.
+ *****************************************************************/
+
+/* p7_omx.c */
+extern P7_OMX      *p7_omx_Create(int allocM, int allocL, int allocXL);
+extern int          p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL);
+extern int          p7_omx_FDeconvert(P7_OMX *ox, P7_GMX *gx);
+extern int          p7_omx_Reuse  (P7_OMX *ox);
+extern void         p7_omx_Destroy(P7_OMX *ox);
+
+extern int          p7_omx_SetDumpMode(FILE *fp, P7_OMX *ox, int truefalse);
+extern int          p7_omx_DumpMFRow(P7_OMX *ox, int rowi, uint8_t xE, uint8_t xN, uint8_t xJ, uint8_t xB, uint8_t xC);
+extern int          p7_omx_DumpVFRow(P7_OMX *ox, int rowi, int16_t xE, int16_t xN, int16_t xJ, int16_t xB, int16_t xC);
+extern int          p7_omx_DumpFBRow(P7_OMX *ox, int logify, int rowi, int width, int precision, float xE, float xN, float xJ, float xB, float xC);
+
+
+
+/* p7_oprofile.c */
+extern P7_OPROFILE *p7_oprofile_Create(int M, const ESL_ALPHABET *abc);
+extern int          p7_oprofile_IsLocal(const P7_OPROFILE *om);
+extern void         p7_oprofile_Destroy(P7_OPROFILE *om);
+extern size_t       p7_oprofile_Sizeof(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Copy(P7_OPROFILE *om);
+extern P7_OPROFILE *p7_oprofile_Clone(const P7_OPROFILE *om);
+extern int          p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr);
+
+extern int          p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om);
+extern int          p7_oprofile_ReconfigLength    (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMSVLength (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigMultihit  (P7_OPROFILE *om, int L);
+extern int          p7_oprofile_ReconfigUnihit    (P7_OPROFILE *om, int L);
+
+extern int          p7_oprofile_Dump(FILE *fp, const P7_OPROFILE *om);
+extern int          p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+				       P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om);
+extern int          p7_oprofile_Compare(const P7_OPROFILE *om1, const P7_OPROFILE *om2, float tol, char *errmsg);
+extern int          p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm);
+extern int          p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm);
+
+extern int          p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr );
+extern int          p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr );
+extern int          p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr );
+extern int          p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr );
+
+/* decoding.c */
+extern int p7_Decoding      (const P7_OPROFILE *om, const P7_OMX *oxf,       P7_OMX *oxb, P7_OMX *pp);
+extern int p7_DomainDecoding(const P7_OPROFILE *om, const P7_OMX *oxf, const P7_OMX *oxb, P7_DOMAINDEF *ddef);
+
+/* fwdback.c */
+extern int p7_Forward       (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_ForwardParser (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om,                    P7_OMX *fwd, float *opt_sc);
+extern int p7_Backward      (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+extern int p7_BackwardParser(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *fwd, P7_OMX *bck, float *opt_sc);
+
+/* io.c */
+extern int p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om);
+extern int p7_oprofile_ReadMSV (P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadInfoMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om);
+extern int p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock);
+extern int p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om);
+extern int p7_oprofile_Position(P7_HMMFILE *hfp, off_t offset);
+
+extern P7_OM_BLOCK *p7_oprofile_CreateBlock(int size);
+extern void p7_oprofile_DestroyBlock(P7_OM_BLOCK *block);
+
+/* msvfilter.c */
+extern int p7_MSVFilter    (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *msvdata, P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist);
+
+/* null2.c */
+extern int p7_Null2_ByExpectation(const P7_OPROFILE *om, const P7_OMX *pp, float *null2);
+extern int p7_Null2_ByTrace      (const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2);
+
+/* optacc.c */
+extern int p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp,       P7_OMX *ox, float *ret_e);
+extern int p7_OATrace        (const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr);
+
+/* stotrace.c */
+extern int p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox,
+			      P7_TRACE *tr);
+
+/* vitfilter.c */
+extern int p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+extern int p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                            float filtersc, double P, P7_HMM_WINDOWLIST *windowlist);
+
+
+/* vitscore.c */
+extern int p7_ViterbiScore (const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc);
+
+
+
+/*****************************************************************
+ * 3. Implementation specific initialization
+ *****************************************************************/
+static inline void
+impl_Init(void)
+{
+}
+
+
+static inline void
+impl_ThreadInit(void)
+{
+}
+  
+
+#endif /* P7_IMPL_VMX_INCLUDED */
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+/* 
+ * Currently (and this remains in flux as of 14 Dec 07) an optimized
+ * implementation is required to provide an MSVFilter(),
+ * ViterbiFilter() and a ForwardFilter() implementation. A call to
+ * p7_oprofile_Convert() makes an optimized profile that works for
+ * all filters.
+ * 
+ * Any "Filter" returns a score may be an approximation (with
+ * characterized or at least characterizable error), and which may
+ * have limited upper range, such that high scores are returned as
+ * eslINFINITY. Additionally, Filters might only work on local
+ * alignment modes, because they are allowed to make assumptions about
+ * the range of scores.
+ * 
+ * Here, MSVFilter() and ViterbiFilter() are 8-bit lspace
+ * implementations with limited precision and limited range (max 20
+ * bits); ForwardFilter() is a pspace float implementation with
+ * correct precision and limited range (max ~127 bits). Both require
+ * local mode models.
+ * 
+ * An optimized implementation may also provide other optimized
+ * routines. It provides specialized Convert*() functions for these,
+ * which may no-op (if the OPROFILE already suffices), or may
+ * overwrite parts of the OPROFILE that Filters or other routines
+ * might need. Therefore, after using a "bonus" function, a fresh
+ * Convert() will be needed before a Filter() is called again. This
+ * API is tentative.
+ * 
+ * For example, here, ViterbiScore() is a 32-bit lspace float VMX
+ * implementation of the Viterbi algorithm.
+ *
+ * A "Score" function might be an additional target for optimization,
+ * for example. A "Score" function returns a correct score with full
+ * floating-point precision and range, and works for any mode model.
+ * 
+ * In the generic implementation, profile scores are 32-bit floating
+ * point log-odds scores. In an optimized implementation, internally,
+ * profile scores can be of any type, and may be in log space (lspace)
+ * or probability space (pspace). (Calculations in probability space
+ * are useful in the Forward algorithm, but always limit range.)  A
+ * shorthand of "lspace uchar" means log-odds scores stored as
+ * unsigned chars, for example; "pspace float" means odds ratios
+ * stored as floats.
+ * 
+ * A note on memory alignment: malloc() is required to return a
+ * pointer "suitably aligned so that it may be aligned to a pointer of
+ * any type of object" (C99 7.20.3). vectors are 128-bits wide,
+ * so malloc() ought to return a pointer aligned on a 16-byte
+ * boundary.  However, this is not the case for glibc, and apparently
+ * other system libraries. Google turns up threads of arguments
+ * between glibc and gcc developers over whose problem this is; this
+ * argument has apparently not been resolved, and is of no help.
+ * Here, we manually align the relevant pointers by overallocating in
+ * *_mem with malloc, then arithmetically manipulating the address to
+ * mask off (~0xf).
+ */
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/io.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/io.c
new file mode 100755
index 0000000..c5e0d63
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/io.c
@@ -0,0 +1,1029 @@
+/* Saving optimized profiles in two pieces: MSV part and the rest.
+ * 
+ * To accelerate hmmscan, which is limited by speed of HMM input,
+ * hmmpress saves an optimized profile in two pieces. One file gets
+ * a bare minimum of information needed to run the MSV filter.
+ * The other file gets the rest of the profile. Both files are binary,
+ * stored exactly as the <P7_OPROFILE> has the information internally.
+ * 
+ * By convention, hmmpress calls the two files <hmmfile>.h3f and
+ * <hmmfile>.h3p, which nominally stand for "H3 filter" and "H3
+ * profile".
+ * 
+ * Contents:
+ *    1. Writing optimized profiles to two files.
+ *    2. Reading optimized profiles in two stages.
+ *    3. Utility routines.
+ *    4. Benchmark driver.
+ *    5. Unit tests.
+ *    6. Test driver.
+ *    7. Example.
+ *    8. Copyright and license information.
+ *    
+ * TODO:
+ *    - crossplatform binary compatibility (endedness and off_t)
+ *    - Write() could save a tag (model #) instead of name for verifying
+ *      that MSV and Rest parts match, saving a malloc for var-lengthed name
+ *      in ReadRest().
+ *    
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#ifdef HMMER_THREADS
+#include <pthread.h>
+#endif
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static uint32_t  v3f_fmagic = 0xb3e6e6f6; /* 3/f binary MSV file, VMX:     "3ffv" = 0x 33 66 66 76  + 0x80808080 */
+static uint32_t  v3f_pmagic = 0xb3e6f0f6; /* 3/f binary profile file, VMX: "3fpv" = 0x 33 66 70 76  + 0x80808080 */
+
+static uint32_t  v3e_fmagic = 0xb3e5e6f6; /* 3/e binary MSV file, VMX:     "3efv" = 0x 33 65 66 76  + 0x80808080 */
+static uint32_t  v3e_pmagic = 0xb3e5f0f6; /* 3/e binary profile file, VMX: "3epv" = 0x 33 65 70 76  + 0x80808080 */
+
+static uint32_t  v3d_fmagic = 0xb3e4e6f6; /* 3/d binary MSV file, VMX:     "3dfv" = 0x 33 64 66 76  + 0x80808080 */
+static uint32_t  v3d_pmagic = 0xb3e4f0f6; /* 3/d binary profile file, VMX: "3dpv" = 0x 33 64 70 76  + 0x80808080 */
+
+static uint32_t  v3c_fmagic = 0xb3e3e6f6; /* 3/c binary MSV file, VMX:     "3cfv" = 0x 33 63 66 76  + 0x80808080 */
+static uint32_t  v3c_pmagic = 0xb3e3f0f6; /* 3/c binary profile file, VMX: "3cpv" = 0x 33 63 70 76  + 0x80808080 */
+
+static uint32_t  v3b_fmagic = 0xb3e2e6f3; /* 3/b binary MSV file, VMX:     "3bfs" = 0x 33 62 66 73  + 0x80808080 */
+static uint32_t  v3b_pmagic = 0xb3e2f0f3; /* 3/b binary profile file, VMX: "3bps" = 0x 33 62 70 73  + 0x80808080 */
+
+static uint32_t  v3a_fmagic = 0xe8b3e6f3; /* 3/a binary MSV file, VMX:     "h3fs" = 0x 68 33 66 73  + 0x80808080 */
+static uint32_t  v3a_pmagic = 0xe8b3f0f3; /* 3/a binary profile file, VMX: "h3ps" = 0x 68 33 70 73  + 0x80808080 */
+/* the 3/a and 3/b codes should have ended in v not s, to
+ * distinguish VMX from SSE binary files. caught too late, now
+ * legacied. (SRE, 27 Oct 10)
+ */
+
+
+/*****************************************************************
+ *# 1. Writing optimized profiles to two files.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_Write()
+ * Synopsis:  Write an optimized profile in two files.
+ *
+ * Purpose:   Write the MSV filter part of <om> to open binary stream
+ *            <ffp>, and the rest of the model to <pfp>. These two
+ *            streams will typically be <.h3f> and <.h3p> files 
+ *            being created by hmmpress.
+ *
+ * Args:      ffp  - open binary stream for saving MSV filter part
+ *            pfp  - open binary stream for saving rest of profile
+ *            om   - optimized profile to save
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any write failure; for example,
+ *            if disk is full. 
+ */
+int
+p7_oprofile_Write(FILE *ffp, FILE *pfp, P7_OPROFILE *om)
+{
+  int Q4  = p7O_NQF(om->M);
+  int Q8  = p7O_NQW(om->M);
+  int Q16 = p7O_NQB(om->M);
+  int n   = strlen(om->name);
+  int x;
+
+  /* <ffp> is the part of the oprofile that MSVFilter() needs */
+  if (fwrite((char *) &(v3f_fmagic),    sizeof(uint32_t),   1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->M),         sizeof(int),        1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->abc->type), sizeof(int),        1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &n,               sizeof(int),        1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->name,         sizeof(char),       n+1,         ffp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->max_length),sizeof(int),        1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->tbm_b),     sizeof(uint8_t),    1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->tec_b),     sizeof(uint8_t),    1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->tjb_b),     sizeof(uint8_t),    1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->scale_b),   sizeof(float),      1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->base_b),    sizeof(uint8_t),    1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->bias_b),    sizeof(uint8_t),    1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->rbv[x],    sizeof(vector unsigned char), Q16, ffp) != Q16)       ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  
+  if (fwrite((char *) om->evparam,      sizeof(float),      p7_NEVPARAM, ffp) != p7_NEVPARAM) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->offs,         sizeof(off_t),      p7_NOFFSETS, ffp) != p7_NOFFSETS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->compo,        sizeof(float),      p7_MAXABET,  ffp) != p7_MAXABET)  ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(v3f_fmagic),    sizeof(uint32_t),   1,           ffp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  /* <pfp> gets the rest of the oprofile */
+  if (fwrite((char *) &(v3f_pmagic),    sizeof(uint32_t),   1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->M),         sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->abc->type), sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &n,               sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->name,         sizeof(char),       n+1,         pfp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  if (om->acc == NULL) {
+    n = 0;
+    if (fwrite((char *) &n,             sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  } else {
+    n = strlen(om->acc);
+    if (fwrite((char *) &n,             sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+    if (fwrite((char *) om->acc,        sizeof(char),       n+1,         pfp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  }
+
+  if (om->desc == NULL) {
+    n = 0;
+    if (fwrite((char *) &n,             sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  } else {
+    n = strlen(om->desc);
+    if (fwrite((char *) &n,             sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+    if (fwrite((char *) om->desc,       sizeof(char),       n+1,         pfp) != n+1)         ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  }
+  
+  if (fwrite((char *) om->rf,           sizeof(char),       om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->mm,           sizeof(char),       om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->cs,           sizeof(char),       om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) om->consensus,    sizeof(char),       om->M+2,     pfp) != om->M+2)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  /* ViterbiFilter part */
+  if (fwrite((char *) om->twv,             sizeof(vector signed short), 8*Q8, pfp) != 8*Q8)   ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->rwv[x],       sizeof(vector signed short), Q8,   pfp) != Q8)     ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (fwrite( (char *) om->xw[x],        sizeof(int16_t), p7O_NXTRANS, pfp) != p7O_NXTRANS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->scale_w),      sizeof(float),   1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->base_w),       sizeof(int16_t), 1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");  
+  if (fwrite((char *) &(om->ddbound_w),    sizeof(int16_t), 1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->ncj_roundoff), sizeof(float),   1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  /* Forward/Backward part */
+  if (fwrite((char *) om->tfv,          sizeof(vector float), 8*Q4,        pfp) != 8*Q4)      ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (fwrite( (char *) om->rfv[x],    sizeof(vector float), Q4,          pfp) != Q4)        ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (fwrite( (char *) om->xf[x],     sizeof(float),      p7O_NXTRANS, pfp) != p7O_NXTRANS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+
+  if (fwrite((char *)   om->cutoff,     sizeof(float),      p7_NCUTOFFS, pfp) != p7_NCUTOFFS) ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->nj),        sizeof(float),      1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->mode),      sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(om->L)   ,      sizeof(int),        1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  if (fwrite((char *) &(v3f_pmagic),    sizeof(uint32_t),   1,           pfp) != 1)           ESL_EXCEPTION_SYS(eslEWRITE, "oprofile write failed");
+  return eslOK;
+}
+/*---------------- end, writing oprofile ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Reading optimized profiles in two stages.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_ReadMSV()
+ * Synopsis:  Read MSV filter part of an optimized profile.
+ *
+ * Purpose:   Read the MSV filter part of a profile from the
+ *            <.h3f> file associated with an open HMM file <hfp>.
+ *            Allocate a new model, populate it with this minimal
+ *            MSV filter information, and return a pointer to it
+ *            in <*ret_om>. 
+ *            
+ *            Our alphabet may get set by the first HMM we read.  If
+ *            <*byp_abc> is <NULL> at start, create a new alphabet and
+ *            return a pointer to it in <*byp_abc>. If <*byp_abc> is
+ *            non-<NULL>, it is assumed to be a pointer to an existing
+ *            alphabet; we verify that the HMM's alphabet matches it
+ *            and <*ret_abc> isn't changed.  This is the same
+ *            convention used by <p7_hmmfile_Read()>.
+ *            
+ *            The <.h3f> file was opened automatically, if it existed,
+ *            when the HMM file was opened with <p7_hmmfile_OpenE()>.
+ *            
+ *            When no more HMMs remain in the file, return <eslEOF>.
+ *
+ * Args:      hfp     - open HMM file, with associated .h3p file
+ *            byp_abc - BYPASS: <*byp_abc == ESL_ALPHABET *> if known; 
+ *                              <*byp_abc == NULL> if desired; 
+ *                              <NULL> if unwanted.
+ *            ret_om  - RETURN: newly allocated <om> with MSV filter
+ *                      data filled in.
+ *            
+ * Returns:   <eslOK> on success. <*ret_om> is allocated here;
+ *            caller free's with <p7_oprofile_Destroy()>.
+ *            <*byp_abc> is allocated here if it was requested;
+ *            caller free's with <esl_alphabet_Destroy()>.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3f> file open,
+ *            or on any parsing error.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM we read is incompatible
+ *            with the existing alphabet <*byp_abc> led us to expect.
+ *            
+ *            On any returned error, <hfp->errbuf> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om)
+{
+  P7_OPROFILE  *om = NULL;
+  ESL_ALPHABET *abc = NULL;
+  uint32_t      magic;
+  off_t         roff;
+  int           M, Q16;
+  int           x,n;
+  int           alphatype;
+  int           status;
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->ffp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (feof(hfp->ffp))   { status = eslEOF; goto ERROR; }	/* normal EOF: no more profiles */
+  
+  /* keep track of the starting offset of the MSV model */
+  roff = ftello(hfp->ffp);
+
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp)) { status = eslEOF; goto ERROR; }
+  if (magic == v3a_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database?");
+
+  if (! fread( (char *) &M,         sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype, sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  Q16 = p7O_NQB(M);
+
+  /* Set or verify alphabet. */
+  if (byp_abc == NULL || *byp_abc == NULL)	{	/* alphabet unknown: whether wanted or unwanted, make a new one */
+    if ((abc = esl_alphabet_Create(alphatype)) == NULL)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: alphabet");
+  } else {			/* alphabet already known: verify it against what we see in the HMM */
+    abc = *byp_abc;
+    if (abc->type != alphatype) 
+      ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current profile says %s", 
+		esl_abc_DecodeType(abc->type), esl_abc_DecodeType(alphatype));
+  }
+  /* Now we know the sizes of things, so we can allocate. */
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)         ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: oprofile");
+  om->M = M;
+  om->roff = roff;
+
+  if (! fread((char *) &n,                sizeof(int),        1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name length");
+  ESL_ALLOC(om->name, sizeof(char) * (n+1));
+  if (! fread((char *) om->name,          sizeof(char),       n+1,           hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name");
+
+  if (! fread((char *) &(om->max_length), sizeof(int),        1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read max_length");
+  if (! fread((char *) &(om->tbm_b),      sizeof(uint8_t),    1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read tbm");
+  if (! fread((char *) &(om->tec_b),      sizeof(uint8_t),    1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read tec");
+  if (! fread((char *) &(om->tjb_b),      sizeof(uint8_t),    1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read tjb");
+  if (! fread((char *) &(om->scale_b),    sizeof(float),      1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read scale");
+  if (! fread((char *) &(om->base_b),     sizeof(uint8_t),    1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read base");
+  if (! fread((char *) &(om->bias_b),     sizeof(uint8_t),    1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read bias");
+  for (x = 0; x < abc->Kp; x++)
+    if (! fread((char *) om->rbv[x],      sizeof(vector unsigned char), Q16, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read msv scores at %d [residue %c]", x, abc->sym[x]); 
+  if (! fread((char *) om->evparam,       sizeof(float),      p7_NEVPARAM,   hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read stat params");
+  if (! fread((char *) om->offs,          sizeof(off_t),      p7_NOFFSETS,   hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read hmmpfam offsets");
+  if (! fread((char *) om->compo,         sizeof(float),      p7_MAXABET,    hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model composition");
+  if (! fread( (char *) &magic,           sizeof(uint32_t),   1,             hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3f file corrupted?");
+
+  if (magic != v3f_fmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic; .h3f file corrupted?");
+
+  /* keep track of the ending offset of the MSV model */
+  om->eoff = ftello(hfp->ffp) - 1;;
+
+  if (byp_abc != NULL) *byp_abc = abc;  /* pass alphabet (whether new or not) back to caller, if caller wanted it */
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (abc != NULL && (byp_abc == NULL || *byp_abc == NULL)) esl_alphabet_Destroy(abc); /* destroy alphabet if we created it here */
+  if (om != NULL) p7_oprofile_Destroy(om);
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_ReadMSVInfo()
+ * Synopsis:  Read MSV filter info, but not the scores.
+ *
+ * Purpose:   Read just enough of the MSV filter header from the
+ *            <.h3f> file associated with an open HMM file <hfp>
+ *            to skip ahead to the next MSV filter. Allocate a new
+ *            model, populate it with just the file offsets of this
+ *            model and return a pointer to it in <*ret_om>. 
+ *            
+ *            The <.h3f> file was opened automatically, if it existed,
+ *            when the HMM file was opened with <p7_hmmfile_OpenE()>.
+ *            
+ *            When no more HMMs remain in the file, return <eslEOF>.
+ *
+ * Args:      hfp     - open HMM file, with associated .h3p file
+ *            byp_abc - BYPASS: <*byp_abc == ESL_ALPHABET *> if known; 
+ *                              <*byp_abc == NULL> if desired; 
+ *                              <NULL> if unwanted.
+ *            ret_om  - RETURN: newly allocated <om> with partial MSV
+ *                      filter data filled in.
+ *            
+ * Returns:   <eslOK> on success. <*ret_om> is allocated here;
+ *            caller free's with <p7_oprofile_Destroy()>.
+ *            <*byp_abc> is allocated here if it was requested;
+ *            caller free's with <esl_alphabet_Destroy()>.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3f> file open,
+ *            or on any parsing error.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM we read is incompatible
+ *            with the existing alphabet <*byp_abc> led us to expect.
+ *            
+ *            On any returned error, <hfp->errbuf> contains an
+ *            informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadInfoMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OPROFILE **ret_om)
+{
+  P7_OPROFILE  *om = NULL;
+  ESL_ALPHABET *abc = NULL;
+  uint32_t      magic;
+  off_t         roff;
+  int           M, Q16;
+  int           n;
+  int           alphatype;
+  int           status;
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->ffp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (feof(hfp->ffp))   { status = eslEOF; goto ERROR; }	/* normal EOF: no more profiles */
+  
+  /* keep track of the starting offset of the MSV model */
+  roff = ftello(hfp->ffp);
+
+  if (! fread( (char *) &magic,     sizeof(uint32_t), 1, hfp->ffp)) { status = eslEOF; goto ERROR; }
+  if (magic == v3a_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_fmagic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database?");
+
+  if (! fread( (char *) &M,         sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype, sizeof(int),      1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  Q16 = p7O_NQB(M);
+
+  /* Set or verify alphabet. */
+  if (byp_abc == NULL || *byp_abc == NULL)	{	/* alphabet unknown: whether wanted or unwanted, make a new one */
+    if ((abc = esl_alphabet_Create(alphatype)) == NULL)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: alphabet");
+  } else {			/* alphabet already known: verify it against what we see in the HMM */
+    abc = *byp_abc;
+    if (abc->type != alphatype) 
+      ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current profile says %s", 
+		esl_abc_DecodeType(abc->type), esl_abc_DecodeType(alphatype));
+  }
+  /* Now we know the sizes of things, so we can allocate. */
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)         ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed: oprofile");
+  om->M = M;
+  om->roff = roff;
+
+  /* calculate the remaining length of the msv model */
+  om->name = NULL;
+  if (!fread((char *) &n, sizeof(int), 1, hfp->ffp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name length");
+  roff += (sizeof(int) * 3);                            /* magic, model size, and alphabet type    */
+  roff += sizeof(int) + n + 1;                          /* length, name string and terminator '\0' */
+  roff += (sizeof(float) + sizeof(uint8_t) * 5);        /* transition  costs, bias, scale and base */
+  roff += (sizeof(vector signed char) * abc->Kp * Q16); /* msv scores                              */
+  roff += (sizeof(float) * p7_NEVPARAM);                /* stat params                             */
+  roff += (sizeof(off_t) * p7_NOFFSETS);                /* hmmpfam offsets                         */
+  roff += (sizeof(float) * p7_MAXABET);                 /* model composition                       */
+  roff += sizeof(uint32_t);		                /* sentinel magic                          */
+
+  /* keep track of the ending offset of the MSV model */
+  p7_oprofile_Position(hfp, roff);
+  om->eoff = ftello(hfp->ffp) - 1;
+
+  if (byp_abc != NULL) *byp_abc = abc;  /* pass alphabet (whether new or not) back to caller, if caller wanted it */
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (abc != NULL && (byp_abc == NULL || *byp_abc == NULL)) esl_alphabet_Destroy(abc); /* destroy alphabet if we created it here */
+  if (om != NULL) p7_oprofile_Destroy(om);
+  *ret_om = NULL;
+  return status;
+}
+
+/* Function:  p7_oprofile_ReadBlockMSV()
+ * Synopsis:  Read the next block of optimized profiles from a hmm file.
+ *
+ * Purpose:   Reads a block of optimized profiles from open hmm file <hfp> into 
+ *            <hmmBlock>.
+ *
+ * Returns:   <eslOK> on success; the new sequence is stored in <sqBlock>.
+ * 
+ *            Returns <eslEOF> when there is no profiles left in the
+ *            file (including first attempt to read an empty file).
+ * 
+ *            Otherwise return the status of the p7_oprofile_ReadMSV function.
+ */
+int
+p7_oprofile_ReadBlockMSV(P7_HMMFILE *hfp, ESL_ALPHABET **byp_abc, P7_OM_BLOCK *hmmBlock)
+{
+  int     i;
+  int     size = 0;
+  int     status = eslOK;
+
+  hmmBlock->count = 0;
+  for (i = 0; i < hmmBlock->listSize; ++i)
+    {
+      status = p7_oprofile_ReadMSV(hfp, byp_abc, &hmmBlock->list[i]);
+      if (status != eslOK) break;
+      size += hmmBlock->list[i]->M;
+      ++hmmBlock->count;
+    }
+
+  /* EOF will be returned only in the case were no profiles were read */
+  if (status == eslEOF && i > 0) status = eslOK;
+
+  return status;
+}
+
+/* Function:  p7_oprofile_ReadRest()
+ * Synopsis:  Read the rest of an optimized profile.
+ *
+ * Purpose:   Read the rest of an optimized profile <om> from
+ *            the <.h3p> file associated with an open HMM
+ *            file <hfp>. 
+ *            
+ *            This is the second part of a two-part calling sequence.
+ *            The <om> here must be the result of a previous
+ *            successful <p7_oprofile_ReadMSV()> call on the same
+ *            open <hfp>.
+ *
+ * Args:      hfp - open HMM file, from which we've previously
+ *                  called <p7_oprofile_ReadMSV()>.
+ *            om  - optimized profile that was successfully
+ *                  returned by  <p7_oprofile_ReadMSV()>.
+ *
+ * Returns:   <eslOK> on success, and <om> is now a complete
+ *            optimized profile.
+ *            
+ *            Returns <eslEFORMAT> if <hfp> has no <.h3p> file open,
+ *            or on any parsing error, and set <hfp->errbuf> to
+ *            an informative error message.
+ *
+ * Throws:    <eslESYS> if an <fseek()> fails to reposition the
+ *            binary <.h3p> file.
+ *            
+ *            <eslEMEM> on allocation error.
+ */
+int
+p7_oprofile_ReadRest(P7_HMMFILE *hfp, P7_OPROFILE *om)
+{
+  uint32_t      magic;
+  int           M, Q4, Q8;
+  int           x,n;
+  char         *name = NULL;
+  int           alphatype;
+  int           status;
+
+#ifdef HMMER_THREADS
+  /* lock the mutex to prevent other threads from reading from the optimized
+   * profile at the same time.
+   */
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_lock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex lock failed");
+    }
+#endif
+
+  if (hfp->errbuf != NULL) hfp->errbuf[0] = '\0';
+  if (hfp->pfp == NULL) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+ 
+  /* Position the <hfp->pfp> using offset stored in <om> */
+  if (fseeko(hfp->pfp, om->offs[p7_POFFSET], SEEK_SET) != 0)                       ESL_EXCEPTION(eslESYS, "fseeko() failed");
+   
+  if (! fread( (char *) &magic,          sizeof(uint32_t),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read magic");
+  if (magic == v3a_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/a); please hmmpress your HMM file again");
+  if (magic == v3b_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/b); please hmmpress your HMM file again");
+  if (magic == v3c_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/c); please hmmpress your HMM file again");
+  if (magic == v3d_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/d); please hmmpress your HMM file again");
+  if (magic == v3e_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "this is an outdated HMM database format (3/e); please hmmpress your HMM file again");
+  if (magic != v3f_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic; not an HMM database file?");
+
+  if (! fread( (char *) &M,              sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread( (char *) &alphatype,      sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet type");  
+  if (! fread( (char *) &n,              sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name length");  
+  if (M         != om->M)                                                          ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f model length mismatch");
+  if (alphatype != om->abc->type)                                                  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f alphabet type mismatch");
+
+  ESL_ALLOC(name, sizeof(char) * (n+1));
+  if (! fread( (char *) name,            sizeof(char),          n+1,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name");  
+  if (strcmp(name, om->name) != 0)                                                 ESL_XFAIL(eslEFORMAT, hfp->errbuf, "p/f name mismatch");  
+  
+  if (! fread((char *) &n,               sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read accession length");
+  if (n > 0) {
+    ESL_ALLOC(om->acc, sizeof(char) * (n+1));
+    if (! fread( (char *) om->acc,       sizeof(char),          n+1,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read accession");      
+  }
+  if (! fread((char *) &n,               sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read description length");
+  if (n > 0) {
+    ESL_ALLOC(om->desc, sizeof(char) * (n+1));
+    if (! fread( (char *) om->desc,      sizeof(char),          n+1,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read description");      
+  }
+
+  if (! fread((char *) om->rf,           sizeof(char),          M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read rf annotation");
+  if (! fread((char *) om->mm,           sizeof(char),          M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read mm annotation");
+  if (! fread((char *) om->cs,           sizeof(char),          M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read cs annotation");
+  if (! fread((char *) om->consensus,    sizeof(char),          M+2,         hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read consensus annotation");
+
+  Q4  = p7O_NQF(om->M);
+  Q8  = p7O_NQW(om->M);
+
+  if (! fread((char *) om->twv,             sizeof(vector signed short), 8*Q8, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <tu>, vitfilter transitions");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (! fread( (char *) om->rwv[x],       sizeof(vector signed short), Q8, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <ru>[%d], vitfilter emissions for sym %c", x, om->abc->sym[x]);
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (! fread( (char *) om->xw[x],        sizeof(int16_t),    p7O_NXTRANS, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <xu>[%d], vitfilter special transitions", x);
+  if (! fread((char *) &(om->scale_w),      sizeof(float),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read scale_w");
+  if (! fread((char *) &(om->base_w),       sizeof(int16_t),    1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read base_w");
+  if (! fread((char *) &(om->ddbound_w),    sizeof(int16_t),    1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ddbound_w");
+  if (! fread((char *) &(om->ncj_roundoff), sizeof(float),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ddbound_w");
+
+  if (! fread((char *) om->tfv,          sizeof(vector float),  8*Q4,        hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <tf> transitions");
+  for (x = 0; x < om->abc->Kp; x++)
+    if (! fread( (char *) om->rfv[x],    sizeof(vector float),  Q4,          hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <rf>[%d] emissions for sym %c", x, om->abc->sym[x]);
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (! fread( (char *) om->xf[x],     sizeof(float),         p7O_NXTRANS, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read <xf>[%d] special transitions", x);
+
+  if (! fread((char *)   om->cutoff,     sizeof(float),         p7_NCUTOFFS, hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read Pfam score cutoffs");
+  if (! fread((char *) &(om->nj),        sizeof(float),         1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read nj");
+  if (! fread((char *) &(om->mode),      sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read mode");
+  if (! fread((char *) &(om->L)   ,      sizeof(int),           1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read L");
+  if (! fread( (char *) &magic,          sizeof(uint32_t),      1,           hfp->pfp)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no sentinel magic: .h3p file corrupted?");
+
+  if (magic != v3f_pmagic) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad sentinel magic; .h3p file corrupted?");
+
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_unlock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+    }
+#endif
+
+  free(name);
+  return eslOK;
+
+ ERROR:
+
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)
+    {
+      if (pthread_mutex_unlock (&hfp->readMutex) != 0) ESL_EXCEPTION(eslESYS, "mutex unlock failed");
+    }
+#endif
+
+  if (name != NULL) free(name);
+  return status;
+}
+/*----------- end, reading optimized profiles -------------------*/
+
+
+/*****************************************************************
+ * 3. Utility routines
+ *****************************************************************/
+
+/* Function:  p7_oprofile_CreateBlock()
+ * Synopsis:  Create a new block of empty <P7_OM_BLOCK>.
+ *
+ * Purpose:   Creates a block of empty <P7_OM_BLOCK> profile objects.
+ *            
+ * Returns:   a pointer to the new <P7_OM_BLOCK>. Caller frees this
+ *            with <p7_oprofile_DestroyBlock()>.
+ *
+ * Throws:    <NULL> if allocation fails.
+ */
+P7_OM_BLOCK *
+p7_oprofile_CreateBlock(int count)
+{
+  int i = 0;
+
+  P7_OM_BLOCK *block = NULL;
+  int status = eslOK;
+
+  ESL_ALLOC(block, sizeof(*block));
+
+  block->count = 0;
+  block->listSize = 0;
+  block->list  = NULL;
+
+  ESL_ALLOC(block->list, sizeof(P7_OPROFILE *) * count);
+  block->listSize = count;
+
+  for (i = 0; i < count; ++i)
+    {
+      block->list[i] = NULL;
+    }
+
+  return block;
+
+ ERROR:
+  if (block != NULL)
+    {
+      if (block->list != NULL)  free(block->list);
+      free(block);
+    }
+  
+  return NULL;
+}
+
+/* Function:  p7_oprofile_DestroyBlock()
+ * Synopsis:  Frees an <P7_OM_BLOCK>.
+ *
+ * Purpose:   Free a Create()'d block of profiles.
+ */
+void
+p7_oprofile_DestroyBlock(P7_OM_BLOCK *block)
+{
+  int i;
+
+  if (block == NULL) return;
+
+  if (block->list != NULL)
+    {
+      for (i = 0; i < block->listSize; ++i)
+	{
+	  if (block->list[i] != NULL) p7_oprofile_Destroy(block->list[i]);
+	}
+      free(block->list);
+    }
+
+  free(block);
+  return;
+}
+
+/* Function:  p7_oprofile_Position()
+ * Synopsis:  Reposition an open hmm file to an offset.
+ *
+ * Purpose:   Reposition an open <hfp> to offset <offset>.
+ *            <offset> would usually be the first byte of a
+ *            desired hmm record.
+ *            
+ * Returns:   <eslOK>     on success;
+ *            <eslEOF>    if no data can be read from this position.
+ *
+ * Throws:    <eslEINVAL>  if the <sqfp> is not positionable.
+ *            <eslEFORMAT> if no msv profile opened.
+ *            <eslESYS>    if the fseeko() call fails.
+ */
+int
+p7_oprofile_Position(P7_HMMFILE *hfp, off_t offset)
+{
+  if (hfp->ffp == NULL)  ESL_EXCEPTION(eslEFORMAT, hfp->errbuf, "no MSV profile file; hmmpress probably wasn't run");
+  if (hfp->do_stdin)     ESL_EXCEPTION(eslEINVAL, "can't Position() in standard input");
+  if (hfp->do_gzip)      ESL_EXCEPTION(eslEINVAL, "can't Position() in a gzipped file");
+  if (offset < 0)        ESL_EXCEPTION(eslEINVAL, "bad offset");
+
+  if (fseeko(hfp->ffp, offset, SEEK_SET) != 0) ESL_EXCEPTION(eslESYS, "fseeko() failed");
+
+  return eslOK;
+}
+
+/*-------------------- end, utility routines ---------------------*/
+
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7IO_BENCHMARK
+/*
+  gcc  -g -Wall    -o benchmark-io -I.. -L.. -I../../easel -L../../easel -Dp7IO_BENCHMARK io.c -lhmmer -leasel -lm 
+  icc  -O3 -static -o benchmark-io -I.. -L.. -I../../easel -L../../easel -Dp7IO_BENCHMARK io.c -lhmmer -leasel -lm 
+
+  ./benchmark-io Pfam.msv
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM MSV profile file>";
+static char banner[] = "benchmark driver for profile input";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w       = esl_stopwatch_Create();
+  ESL_ALPHABET  *abc     = NULL;
+  char          *msvfile = esl_opt_GetArg(go, 1);
+  FILE          *msvfp   = NULL;
+  P7_OPROFILE   *om      = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+
+  esl_stopwatch_Start(w);
+
+  if ((msvfp = fopen(msvfile, "r")) == NULL) p7_Fail("Failed to open MSV file %s for reading.\n", msvfile);
+
+  while ((status = p7_oprofile_ReadMSV(msvfp, &abc, NULL, &om)) == eslOK)
+    {
+      nmodel++;
+      totM += om->M;
+
+      p7_oprofile_Destroy(om);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in profile file %s",           msvfile);
+  else if (status == eslEINCOMPAT) p7_Fail("profile file %s contains different alphabets", msvfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading profiles from %s", msvfile);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# number of models: %d\n", nmodel);
+  printf("# total M:          %" PRId64 "\n", totM);
+  
+  fclose(msvfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*IO_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Unit tests.
+ *****************************************************************/
+#ifdef p7IO_TESTDRIVE
+
+static void
+utest_ReadWrite(P7_HMM *hmm, P7_OPROFILE *om)
+{
+  char        *msg         = "oprofile read/write unit test failure";
+  ESL_ALPHABET *abc        = NULL;
+  P7_OPROFILE *om2         = NULL;
+  char         tmpfile[16] = "esltmpXXXXXX";
+  char        *mfile       = NULL;
+  char        *ffile       = NULL;
+  char        *pfile       = NULL;
+  char        *ssifile     = NULL;
+  FILE        *fp          = NULL;
+  FILE        *mfp         = NULL;
+  FILE        *ffp         = NULL;
+  FILE        *pfp         = NULL;
+  ESL_NEWSSI  *nssi        = NULL;
+  P7_HMMFILE  *hfp         = NULL;
+  uint16_t     fh          = 0;
+  float        tolerance   = 0.001;
+  char         errbuf[eslERRBUFSIZE];
+
+
+  /* 1. A mini version of hmmpress: save the test HMM to a file along with its associated .h3{mfpi} files
+   */
+  if ( esl_tmpfile_named(tmpfile, &fp)          != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&mfile,   "%s.h3m", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&ffile,   "%s.h3f", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&pfile,   "%s.h3p", tmpfile) != eslOK) esl_fatal(msg);
+  if ( esl_sprintf(&ssifile, "%s.h3i", tmpfile) != eslOK) esl_fatal(msg);
+
+  if ( esl_newssi_Open(ssifile, TRUE, &nssi)    != eslOK) esl_fatal(msg);
+  if (( mfp = fopen(mfile, "wb"))               == NULL)  esl_fatal(msg);
+  if (( ffp = fopen(ffile, "wb"))               == NULL)  esl_fatal(msg);
+  if (( pfp = fopen(pfile, "wb"))               == NULL)  esl_fatal(msg);
+
+  /* the disk offsets are all 0 by construction, if there's only one
+   * HMM in the file - but don't want to forget them, if we change the
+   * unit test in the future to be multi HMM
+   */
+  if ((om->offs[p7_MOFFSET] = ftello(mfp))      == -1)    esl_fatal(msg);
+  if ((om->offs[p7_FOFFSET] = ftello(ffp))      == -1)    esl_fatal(msg);
+  if ((om->offs[p7_POFFSET] = ftello(pfp))      == -1)    esl_fatal(msg);
+
+  if ( p7_hmmfile_WriteASCII(fp,   -1, hmm)     != eslOK) esl_fatal(msg);
+  if ( p7_hmmfile_WriteBinary(mfp, -1, hmm)     != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_Write(ffp, pfp, om)          != eslOK) esl_fatal(msg);
+
+  if ( esl_newssi_AddFile(nssi, tmpfile, 0, &fh)                           != eslOK) esl_fatal(msg);
+  if ( esl_newssi_AddKey (nssi, hmm->name, fh, om->offs[p7_MOFFSET], 0, 0) != eslOK) esl_fatal(msg);
+  if ( esl_newssi_Write(nssi)                                              != eslOK) esl_fatal(msg);
+
+  fclose(fp);
+  fclose(mfp);
+  fclose(ffp); 
+  fclose(pfp);
+  esl_newssi_Close(nssi);
+
+  /* 2. read the optimized profile back in */
+  if ( p7_hmmfile_OpenE(tmpfile, NULL, &hfp, NULL)  != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_ReadMSV(hfp, &abc, &om2)         != eslOK) esl_fatal(msg);
+  if ( p7_oprofile_ReadRest(hfp, om2)               != eslOK) esl_fatal(msg);
+
+  /* 3. it should be identical to the original  */
+  if ( p7_oprofile_Compare(om, om2, tolerance, errbuf) != eslOK) esl_fatal("%s\n%s", msg, errbuf);
+       
+  p7_oprofile_Destroy(om2);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  remove(ssifile);
+  remove(ffile);
+  remove(pfile);
+  remove(mfile);
+  remove(tmpfile);
+
+  free(ssifile);
+  free(mfile);
+  free(ffile);
+  free(pfile);
+}
+  
+#endif /*p7IO_TESTDRIVE*/
+/*------------------ end, unit tests ----------------------------*/
+
+
+/*****************************************************************
+ * 6. Test driver
+ *****************************************************************/
+#ifdef p7IO_TESTDRIVE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -o io_utest -I.. -L.. -I../../easel -L../../easel -Dp7IO_TESTDRIVE io.c -lhmmer -leasel -lm
+   ./io_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-M",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "size of random model to sample",                 0 },
+  { "-L",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "configure model for length <n>",                 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for VMX Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_HMM         *hmm  = NULL;
+  P7_OPROFILE    *om   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  
+  /* Sample a random HMM and optimized profile, in amino acid alphabet.  */
+  if ((abc = esl_alphabet_Create(eslAMINO))                    == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))                                 == NULL)  esl_fatal("failed to create null model");
+  if (( p7_oprofile_Sample(r, abc, bg, M, L, &hmm, NULL, &om)) != eslOK) esl_fatal("failed to sample HMM and profile");
+
+  /* unit test(s) */
+  utest_ReadWrite(hmm, om);
+
+  p7_oprofile_Destroy(om);
+  p7_hmm_Destroy(hmm);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+
+#endif /*p7IO_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+
+/*****************************************************************
+ * 7. Example.
+ *****************************************************************/
+#ifdef p7IO_EXAMPLE
+/* gcc -g -Wall -Dp7IO_EXAMPLE -I.. -I../../easel -L.. -L../../easel -o io_example io.c -lhmmer -leasel -lm
+ * ./io_example <hmmfile>
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",      0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "verbose: print model info as they're read", 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM file>";
+static char banner[] = "example of writing MSV profile part";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_ALPHABET  *abc     = NULL;
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE    *hfp     = NULL;
+  P7_HMM        *hmm     = NULL;
+  P7_BG         *bg      = NULL;
+  P7_PROFILE    *gm      = NULL;
+  P7_OPROFILE   *om      = NULL;
+  char          *fname   = NULL;
+  char          *pname   = NULL;
+  FILE          *ffp     = NULL;
+  FILE          *pfp     = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+  char           errbuf[eslERRBUFSIZE];
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  esl_sprintf(&fname, "%s.h3f", hmmfile);  
+  esl_sprintf(&pname, "%s.h3f", hmmfile);  
+  if ((ffp = fopen(fname, "wb")) == NULL) p7_Fail("failed to open %s\n", fname);
+  if ((pfp = fopen(pname, "wb")) == NULL) p7_Fail("failed to open %s\n", pname);
+  free(fname);
+  free(pname);
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) == eslOK)
+    {
+      if (nmodel == 0) { 	/* first time initialization, now that alphabet known */
+	bg = p7_bg_Create(abc);
+	p7_bg_SetLength(bg, 400);
+      }
+
+      if (esl_opt_GetBoolean(go, "-v")) printf("%s\n", hmm->name);
+      nmodel++;
+      totM += hmm->M;
+
+      gm = p7_profile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+      om = p7_oprofile_Create(gm->M, abc);
+      p7_oprofile_Convert(gm, om);
+      
+      p7_oprofile_Write(ffp, pfp, om);
+
+      p7_profile_Destroy(gm);
+      p7_oprofile_Destroy(om);
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+  fclose(ffp);
+  fclose(pfp);
+  p7_bg_Destroy(bg);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*IO_EXAMPLE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/impl_vmx/io.c $
+ * SVN $Id: io.c 3960 2012-03-22 21:42:50Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/mpi.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/mpi.c
new file mode 100755
index 0000000..93315d3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/mpi.c
@@ -0,0 +1,795 @@
+/* Optional support for MPI parallelization.
+ * 
+ * Contents:
+ *    1. Communicating P7_OPROFILE, a score profile.
+ *    2. Benchmark driver.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Copyright and license information.
+ *    
+ * SRE, Thu Jun 14 09:59:20 2007 [Janelia] [Tom Waits, Orphans]
+ * SVN $Id: mpi.c 4452 2013-05-05 01:44:04Z wheelert $
+ */
+#include "p7_config.h"		
+
+#ifdef HAVE_MPI
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "mpi.h"
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_mpi.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Communicating P7_OPROFILE, an optimized model.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_MPISend()
+ * Synopsis:  Send an OPROFILE as an MPI work unit.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Sends an OPROFILE <om> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            Work units are prefixed by a status code. If <hmm> is
+ *            <non-NULL>, the work unit is an <eslOK> code followed by
+ *            the packed HMM. If <hmm> is NULL, the work unit is an
+ *            <eslEOD> code, which <p7_hmm_MPIRecv()> knows how to
+ *            interpret; this is typically used for an end-of-data
+ *            signal to cleanly shut down worker processes.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <hmm> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ * 
+ * Note:      Compare to p7_hmmfile_WriteBinary(). The two operations (sending
+ *            an HMM via MPI, or saving it as a binary file to disk) are
+ *            similar.
+ */
+int
+p7_oprofile_MPISend(P7_OPROFILE *om, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   code;
+  int   sz, n, pos;
+
+  /* Figure out size */
+  if (MPI_Pack_size(1, MPI_INT, comm, &n) != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+  if (om != NULL) {
+    if ((status = p7_oprofile_MPIPackSize(om, comm, &sz)) != eslOK) return status;
+    n += sz;
+  }
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Pack the status code and OPROFILE into the buffer */
+  pos  = 0;
+  code = (om == NULL) ? eslEOD : eslOK;
+  if (MPI_Pack(&code, 1, MPI_INT, *buf, n, &pos, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi pack failed");
+  if (om != NULL) {
+    if ((status = p7_oprofile_MPIPack(om, *buf, n, &pos, comm)) != eslOK) return status;
+  }
+
+  /* Send the packed OPROFILE to the destination. */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0)  ESL_EXCEPTION(eslESYS, "mpi send failed");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_oprofile_MPIPackSize()
+ * Synopsis:  Calculates size needed to pack an OPROFILE.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Calculate an upper bound on the number of bytes
+ *            that <p7_oprofile_MPIPack()> will need to pack an 
+ *            OPROFILE <om> in a packed MPI message for MPI 
+ *            communicator <comm>; return that number of bytes
+ *            in <*ret_n>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the answer.
+ *
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is 0.
+ */
+int
+p7_oprofile_MPIPackSize(P7_OPROFILE *om, MPI_Comm comm, int *ret_n)
+{
+  int   status;
+  int   n = 0;
+  int   K = om->abc->Kp;
+  int   len = 0;
+  int   cnt;
+  int   sz;
+
+  int   Q4  = p7O_NQF(om->M);
+  int   Q8  = p7O_NQW(om->M);
+  int   Q16 = p7O_NQB(om->M);
+  int   vsz = sizeof(vector float);
+
+  /* MSV Filter information */
+  if (MPI_Pack_size(5,          MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(1,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(vsz*Q16,    MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += (K*sz);
+
+  /* Viterbi Filter information */
+  if (MPI_Pack_size(1,         MPI_SHORT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += ((p7O_NXSTATES*p7O_NXTRANS+2)*sz);
+  if (MPI_Pack_size(2,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(K*vsz*Q8,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(8*vsz*Q8,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  /* Forward/Backward information */
+  if (MPI_Pack_size(1,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += (p7O_NXSTATES*p7O_NXTRANS*sz);
+  if (MPI_Pack_size(K*vsz*Q4,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(8*vsz*Q4,   MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  /* disk offsets */
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += ((p7_NOFFSETS+2)*sz);
+
+  /* annotation info */
+  if (om->name      != NULL) len += strlen(om->name)      + 1;
+  if (om->acc       != NULL) len += strlen(om->acc)       + 1;
+  if (om->desc      != NULL) len += strlen(om->desc)      + 1;
+  if (om->rf        != NULL) len += strlen(om->rf)        + 1;
+  if (om->mm        != NULL) len += strlen(om->mm)        + 1;
+  if (om->cs        != NULL) len += strlen(om->cs)        + 1;
+  if (om->consensus != NULL) len += strlen(om->consensus) + 1;
+  if (MPI_Pack_size(7,           MPI_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(len,        MPI_CHAR, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  cnt = p7_NEVPARAM + p7_NCUTOFFS + p7_MAXABET;
+  if (MPI_Pack_size(cnt,       MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  /* current model size */
+  if (MPI_Pack_size(4,           MPI_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+  if (MPI_Pack_size(1,         MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;
+
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+
+}
+
+/* Function:  p7_oprofile_MPIPack()
+ * Synopsis:  Packs an OPROFILE into MPI buffer.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Packs OPROFILE <om> into an MPI packed message buffer <buf>
+ *            of length <n> bytes, starting at byte position <*position>,
+ *            for MPI communicator <comm>.
+ *            
+ *            The caller must know that <buf>'s allocation of <n>
+ *            bytes is large enough to append the packed OPROFILE at
+ *            position <*pos>. This typically requires a call to
+ *            <p7_oprofile_MPIPackSize()> first, and reallocation if
+ *            needed.
+ *            
+ * Returns:   <eslOK> on success; <buf> now contains the
+ *            packed <om>, and <*position> is set to the byte
+ *            immediately following the last byte of the OPROFILE
+ *            in <buf>. 
+ *
+ * Throws:    <eslESYS> if an MPI call fails; or <eslEMEM> if the
+ *            buffer's length <n> was overflowed in trying to pack
+ *            <msa> into <buf>. In either case, the state of
+ *            <buf> and <*position> is undefined, and both should
+ *            be considered to be corrupted.
+ */
+int
+p7_oprofile_MPIPack(P7_OPROFILE *om, char *buf, int n, int *pos, MPI_Comm comm)
+{
+  int   K     = om->abc->Kp;
+  int   atype = om->abc->type;
+  int   len;
+  int   x;
+
+  int   Q4    = p7O_NQF(om->M);
+  int   Q8    = p7O_NQW(om->M);
+  int   Q16   = p7O_NQB(om->M);
+  int   vsz   = sizeof(vector float);
+
+  /* model configuration */
+  if (MPI_Pack(&om->M,            1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&atype,            1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->L,            1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->mode,         1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->nj,           1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* MSV Filter information */
+  if (MPI_Pack(&om->tbm_b,        1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->tec_b,        1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->tjb_b,        1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->scale_b,      1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->base_b,       1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->bias_b,       1,                     MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Pack( om->rbv[x],     vsz*Q16,               MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Viterbi Filter information */
+  if (MPI_Pack(&om->scale_w,      1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->base_w,       1,                    MPI_SHORT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->ddbound_w,    1,                    MPI_SHORT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->ncj_roundoff, 1,                    MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( om->twv,          8*vsz*Q8,              MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Pack( om->xw[x],      p7O_NXTRANS,          MPI_SHORT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Pack( om->rwv[x],     vsz*Q8,                MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Pack( om->tfv,          8*vsz*Q4,              MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Pack( om->xf[x],      p7O_NXTRANS,          MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Pack( om->rfv[x],     vsz*Q4,                MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Pack( om->offs,         p7_NOFFSETS,  MPI_LONG_LONG_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->roff,         1,            MPI_LONG_LONG_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&om->eoff,         1,            MPI_LONG_LONG_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  /* Annotation information */
+  len = (om->name != NULL)      ? strlen(om->name)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->name,       len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->acc != NULL)       ? strlen(om->acc)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->acc,        len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->desc != NULL)      ? strlen(om->desc)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->desc,       len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->rf != NULL)        ? strlen(om->rf)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->rf,         len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->mm != NULL)        ? strlen(om->mm)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->mm,         len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->cs != NULL)        ? strlen(om->cs)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->cs,         len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  len = (om->consensus != NULL) ? strlen(om->consensus)+1 : 0;
+  if (MPI_Pack(&len,              1,                      MPI_INT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (len > 0)
+    if (MPI_Pack( om->consensus,  len,                   MPI_CHAR, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  if (MPI_Pack( om->evparam,      p7_NEVPARAM,          MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( om->cutoff,       p7_NCUTOFFS,          MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( om->compo,        p7_MAXABET,           MPI_FLOAT, buf, n, pos, comm) != 0) ESL_EXCEPTION(eslESYS, "pack failed");
+
+  if (*pos > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_MPIUnpack()
+ * Synopsis:  Unpacks an OPROFILE from an MPI buffer.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Unpack a newly allocated OPROFILE from MPI packed buffer
+ *            <buf>, starting from position <*pos>, where the total length
+ *            of the buffer in bytes is <n>. 
+ *            
+ *            Caller may or may not already know what alphabet the OPROFILE
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the OPROFILE is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*abc> is that alphabet, and the new
+ *            OPROFILE's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first OPROFILE
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*pos> is updated to the position of
+ *            the next element in <buf> to unpack (if any). <*ret_om>
+ *            contains a newly allocated OPROFILE, which the caller is
+ *            responsible for free'ing.  If <*abc> was passed as
+ *            <NULL>, it now points to an <ESL_ALPHABET> object that
+ *            was allocated here; caller is responsible for free'ing
+ *            this.
+ *            
+ *            Returns <eslEINCOMPAT> if the OPROFILE is in a different
+ *            alphabet than <*abc> said to expect. In this case,
+ *            <*abc> is unchanged, <*buf> and <*nalloc> may have been
+ *            changed, and <*ret_om> is <NULL>.
+ *            
+ * Throws:    <eslESYS> on an MPI call failure. <eslEMEM> on allocation failure.
+ *            In either case, <*ret_om> is <NULL>, and the state of <buf>
+ *            and <*pos> is undefined and should be considered to be corrupted.
+ */
+int
+p7_oprofile_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_OPROFILE **ret_om)
+{
+  int   status;
+  int   M, K, atype;
+  int   len;
+  int   x;
+
+  int   Q4, Q8, Q16;
+  int   vsz = sizeof(vector float);
+
+  P7_OPROFILE *om = NULL;
+
+  if (MPI_Unpack(buf, n, pos, &M,                1,                      MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &atype,            1,                      MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Set or verify the alphabet */
+  if (*abc == NULL)	{	/* still unknown: set it, pass control of it back to caller */
+    if ((*abc = esl_alphabet_Create(atype)) == NULL)       { status = eslEMEM;      goto ERROR; }
+  } else {			/* already known: check it */
+    if ((*abc)->type != atype)                             { status = eslEINCOMPAT; goto ERROR; }
+  }
+
+  Q4  = p7O_NQF(M);
+  Q8  = p7O_NQW(M);
+  Q16 = p7O_NQB(M);
+
+  if ((om = p7_oprofile_Create(M, *abc)) == NULL) { status = eslEMEM; goto ERROR;    }
+  om->M = M;
+
+  K = (*abc)->Kp;
+
+  /* model configuration */
+  if (MPI_Unpack(buf, n, pos, &om->L,            1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->mode,         1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->nj,           1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* MSV Filter information */
+  if (MPI_Unpack(buf, n, pos, &om->tbm_b,        1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->tec_b,        1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->tjb_b,        1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->scale_b,      1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->base_b,       1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->bias_b,       1,                     MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Unpack(buf, n, pos,  om->rbv[x],     vsz*Q16,               MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Viterbi Filter information */
+  if (MPI_Unpack(buf, n, pos, &om->scale_w,      1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->base_w,       1,                    MPI_SHORT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->ddbound_w,    1,                    MPI_SHORT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->ncj_roundoff, 1,                    MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos,  om->twv,          8*vsz*Q8,              MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Unpack(buf, n, pos,  om->xw[x],      p7O_NXTRANS,          MPI_SHORT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Unpack(buf, n, pos,  om->rwv[x],     vsz*Q8,                MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Unpack(buf, n, pos,  om->tfv,          8*vsz*Q4,              MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (MPI_Unpack(buf, n, pos,  om->xf[x],      p7O_NXTRANS,          MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  for (x = 0; x < K; x++)
+    if (MPI_Unpack(buf, n, pos,  om->rfv[x],     vsz*Q4,                MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Forward/Backward information */
+  if (MPI_Unpack(buf, n, pos,  om->offs,         p7_NOFFSETS,  MPI_LONG_LONG_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->roff,         1,            MPI_LONG_LONG_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &om->eoff,         1,            MPI_LONG_LONG_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Annotation information */
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->name, len);
+    if (MPI_Unpack(buf, n, pos,  om->name,       len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->name[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->acc, len);
+    if (MPI_Unpack(buf, n, pos,  om->acc,        len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->acc[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->desc, len);
+    if (MPI_Unpack(buf, n, pos,  om->desc,       len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->desc[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->rf, len);
+    if (MPI_Unpack(buf, n, pos,  om->rf,         len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->rf[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->mm, len);
+    if (MPI_Unpack(buf, n, pos,  om->mm,         len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->mm[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->cs, len);
+    if (MPI_Unpack(buf, n, pos,  om->cs,         len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->cs[len-1] = '\0';
+  }
+  if (MPI_Unpack(buf, n, pos, &len,              1,                      MPI_INT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (len > 0) {
+    ESL_ALLOC(om->consensus, len);
+    if (MPI_Unpack(buf, n, pos,  om->consensus,  len,                   MPI_CHAR, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+    om->consensus[len-1] = '\0';
+  }
+
+  if (MPI_Unpack(buf, n, pos,  om->evparam,      p7_NEVPARAM,          MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos,  om->cutoff,       p7_NCUTOFFS,          MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos,  om->compo,        p7_MAXABET,           MPI_FLOAT, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi unpack failed");
+
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (om != NULL) p7_oprofile_Destroy(om);
+  return status;
+}
+
+
+/* Function:  p7_oprofile_MPIRecv()
+ * Synopsis:  Receives an OPROFILE as a work unit from an MPI sender.
+ * Incept:    MSF, Wed Oct 21, 2009 [Janelia]
+ *
+ * Purpose:   Receive a work unit that consists of a single OPROFILE
+ *            sent by MPI <source> (<0..nproc-1>, or
+ *            <MPI_ANY_SOURCE>) tagged as <tag> for MPI communicator <comm>.
+ *            
+ *            Work units are prefixed by a status code. If the unit's
+ *            code is <eslOK> and no errors are encountered, this
+ *            routine will return <eslOK> and a non-<NULL> <*ret_om>.
+ *            If the unit's code is <eslEOD> (a shutdown signal), 
+ *            this routine returns <eslEOD> and <*ret_om> is <NULL>.
+ *   
+ *            Caller provides a working buffer <*buf> of size
+ *            <*nalloc> characters. These are passed by reference, so
+ *            that <*buf> can be reallocated and <*nalloc> increased
+ *            if necessary. As a special case, if <*buf> is <NULL> and
+ *            <*nalloc> is 0, the buffer will be allocated
+ *            appropriately, but the caller is still responsible for
+ *            free'ing it.
+ *            
+ *            Caller may or may not already know what alphabet the OPROFILE
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the OPROFILE is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*ret_abc> is that alphabet, and the new
+ *            OPROFILE's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first OPROFILE
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*ret_om> contains the received OPROFILE;
+ *            it is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.  If
+ *            <*abc> was passed as <NULL>, it now points to an
+ *            <ESL_ALPHABET> object that was allocated here; caller is
+ *            responsible for free'ing this.
+ *            
+ *            Returns <eslEOD> if an end-of-data signal was received.
+ *            In this case, <*buf>, <*nalloc>, and <*abc> are left unchanged,
+ *            and <*ret_om> is <NULL>.
+ *            
+ *            Returns <eslEINCOMPAT> if the OPROFILE is in a different alphabet
+ *            than <*abc> said to expect. In this case, <*abc> is unchanged,
+ *            <*buf> and <*nalloc> may have been changed, and <*ret_om> is
+ *            <NULL>.
+ *            
+ * Throws:    <eslEMEM> on allocation error, in which case <*ret_om> is 
+ *            <NULL>.           
+ */
+int
+p7_oprofile_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_OPROFILE **ret_om)
+{
+  int         status;
+  int         code;
+  P7_OPROFILE     *om     = NULL;
+  int         n;
+  int         pos;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough. */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Receive the packed work unit */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it, looking at the status code prefix for EOD/EOK  */
+  pos = 0;
+  if (MPI_Unpack(*buf, n, &pos, &code, 1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (code == eslEOD)  { *ret_om = NULL;  return eslEOD; }
+
+  return p7_oprofile_MPIUnpack(*buf, *nalloc, &pos, comm, abc, ret_om);
+
+ ERROR:
+  if (om != NULL) p7_oprofile_Destroy(om);
+  return status;
+}
+
+/*----------------- end, P7_OPROFILE communication -------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7MPI_BENCHMARK
+/* 
+  mpicc -g -Wall -L. -I. -L ../easel -I ../easel -D p7MPI_BENCHMARK -o benchmark-mpi mpi.c -lhmmer -leasel -lm
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi  ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi -b ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+ */
+#include "p7_config.h"
+
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-b",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "baseline timing: don't send any HMMs",             0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "arrest after start: for debugging MPI under gdb",  0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MPI communication";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_ALPHABET   *abc     = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg      = p7_bg_Create(abc);
+  int             my_rank;
+  int             nproc;
+  char           *buf    = NULL;
+  int             nbuf   = 0;
+  int             subtotalM = 0;
+  int             allM   = 0;
+  int             stalling = esl_opt_GetBoolean(go, "--stall");
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  while (stalling); 
+
+  /* Master MPI process: */
+  if (my_rank == 0) 
+    {
+      ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+      P7_HMMFILE     *hfp     = NULL;
+      P7_OPROFILE    *om      = NULL;
+      P7_HMM         *hmm     = NULL;
+
+      /* Read HMMs from a file. */
+      if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+
+      esl_stopwatch_Start(w);
+      while (p7_oprofile_ReadMSV(hfp, &abc, &om)  == eslOK &&
+	     p7_oprofile_ReadRest(hfp, om)       == eslOK)
+	{
+	  if (!esl_opt_GetBoolean(go, "-b"))
+	    p7_oprofile_MPISend(om, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* 1 = dest; 0 = tag */
+
+	  p7_hmm_Destroy(hmm);
+	  p7_oprofile_Destroy(om);
+	}
+      p7_oprofile_MPISend(NULL, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* send the "no more HMMs" sign */
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+
+      printf("total: %d\n", allM);
+      esl_stopwatch_Stop(w);
+      esl_stopwatch_Display(stdout, w, "CPU Time: ");
+      esl_stopwatch_Destroy(w);
+    }
+  /* Worker MPI process: */
+  else 
+    {
+      P7_OPROFILE     *om_recd = NULL;      
+
+      while (p7_oprofile_MPIRecv(0, 0, MPI_COMM_WORLD, &buf, &nbuf, &abc, &om_recd) == eslOK) 
+	{
+	  subtotalM += om_recd->M;
+	  p7_oprofile_Destroy(om_recd);  
+	}
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+    }
+
+  free(buf);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  MPI_Finalize();
+  exit(0);
+}
+
+#endif /*p7MPI_BENCHMARK*/
+/*---------------------- end, benchmark -------------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7MPI_TESTDRIVE
+
+static void
+utest_oprofileSendRecv(int my_rank, int nproc)
+{
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(42);
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_OPROFILE    *om   = NULL;
+  P7_OPROFILE    *om2  = NULL;
+  int             M    = 200;
+  int             L    = 400;
+  char           *wbuf = NULL;
+  int             wn   = 0;
+  int             i;
+  char            errbuf[eslERRBUFSIZE];
+
+  p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled profiles are identical */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  om = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  p7_oprofile_Convert(gm, om);
+  p7_bg_SetLength  (bg, L);
+
+  if (my_rank == 0)
+    {
+      for (i = 1; i < nproc; i++)
+	{
+	  ESL_DPRINTF1(("Master: receiving test profile\n"));
+	  p7_oprofile_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &wbuf, &wn, &abc, &om2);
+	  ESL_DPRINTF1(("Master: test profile received\n"));
+
+	  if (p7_oprofile_Compare(om, om2, 0.001, errbuf) != eslOK) 
+	    p7_Die("Received profile not identical to what was sent\n%s", errbuf);
+
+	  p7_oprofile_Destroy(om2);
+	}
+    }
+  else 
+    {
+      ESL_DPRINTF1(("Worker %d: sending test profile\n", my_rank));
+      p7_oprofile_MPISend(om, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
+      ESL_DPRINTF1(("Worker %d: test profile sent\n", my_rank));
+    }
+
+  free(wbuf);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  return;
+}
+#endif /*p7MPI_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+#ifdef p7MPI_TESTDRIVE
+
+/* mpicc -o mpi_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7MPI_TESTDRIVE mpi.c -lhmmer -leasel -lm
+ * In an MPI environment: (qlogin -pe lam-mpi-tight 2; setenv JOB_ID <jobid>; setenv TMPDIR /tmp/<jobid>....
+ *    mpirun C ./mpi_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "arrest after start: for debugging MPI under gdb",   0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for mpi.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  int          my_rank;
+  int          nproc;
+
+  /* For debugging: stall until GDB can be attached */
+  if (esl_opt_GetBoolean(go, "--stall"))  pause();
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  utest_oprofileSendRecv(my_rank, nproc);
+
+  MPI_Finalize();
+  return 0;
+}
+
+#endif /*p7MPI_TESTDRIVE*/
+/*---------------------- end, test driver -----------------------*/
+
+
+#else /*!HAVE_MPI*/
+/* If we don't have MPI compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+void p7_mpi_DoAbsolutelyNothing(void) { return; }
+#if defined p7MPI_TESTDRIVE || p7MPI_BENCHMARK || p7MPI_EXAMPLE
+int main(void) { return 0; }
+#endif
+#endif /*HAVE_MPI*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/msvfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/msvfilter.c
new file mode 100755
index 0000000..06cea87
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/msvfilter.c
@@ -0,0 +1,892 @@
+/* The MSV filter implementation; VMX version.
+ * 
+ * A "filter" is a one-row, O(M), DP implementation that calculates an
+ * approximated nat score (i.e. in limited precision - here, uchar)
+ * and may have limited numeric range. It will return <eslERANGE> if
+ * its numeric range is exceeded, in which case the caller will have
+ * to obtain the score by another (probably slower) method.
+ * 
+ * Contents:
+ *   1. p7_MSVFilter() implementation
+ *   2. Benchmark driver
+ *   3. Unit tests
+ *   4. Test driver
+ *   5. Example
+ *   6. Copyright and license information
+ * 
+ * SRE, Sun Nov 25 11:26:48 2007 [Casa de Gatos]
+ * SVN $Id: msvfilter.c 4699 2014-07-03 14:54:25Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+#include "esl_gumbel.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+/*****************************************************************
+ * 1. The p7_MSVFilter() DP implementation.
+ *****************************************************************/
+
+/* Function:  p7_MSVFilter()
+ * Synopsis:  Calculates MSV score, vewy vewy fast, in limited precision.
+ * Incept:    SRE, Wed Dec 26 15:12:25 2007 [Janelia]
+ *
+ * Purpose:   Calculates an approximation of the MSV score for sequence
+ *            <dsq> of length <L> residues, using optimized profile <om>,
+ *            and a preallocated one-row DP matrix <ox>. Return the 
+ *            estimated MSV score (in nats) in <ret_sc>.
+ *            
+ *            Score may overflow (and will, on high-scoring
+ *            sequences), but will not underflow.
+ *            
+ *            The model may be in any mode, because only its match
+ *            emission scores will be used. The MSV filter inherently
+ *            assumes a multihit local mode, and uses its own special
+ *            state transition scores, not the scores in the profile.
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: MSV score (in nats)          
+ *                      
+ * Note:      We misuse the matrix <ox> here, using only a third of the
+ *            first dp row, accessing it as <dp[0..Q-1]> rather than
+ *            in triplets via <{MDI}MX(q)> macros, since we only need
+ *            to store M state values. We know that if <ox> was big
+ *            enough for normal DP calculations, it must be big enough
+ *            to hold the MSVFilter calculation.
+ *
+ * Returns:   <eslOK> on success.
+ *            <eslERANGE> if the score overflows the limited range; in
+ *            this case, this is a high-scoring hit.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_MSVFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  vector unsigned char mpv;        /* previous row values                                       */
+  vector unsigned char xEv;	   /* E state: keeps max for Mk->E as we go                     */
+  vector unsigned char xBv;	   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector unsigned char sv;	   /* temp storage of 1 curr row value in progress              */
+  vector unsigned char biasv;	   /* emission bias in a vector                                 */
+  uint8_t xJ;                      /* special states' scores                                    */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQB(om->M);   /* segment length: # of vectors                              */
+  vector unsigned char *dp;	   /* we're going to use dp[0][0..q..Q-1], not {MDI}MX(q) macros*/
+  vector unsigned char *rsc;	   /* will point at om->rbv[x] for residue x[i]                 */
+
+  vector unsigned char zerov;	   /* vector of zeros                                           */
+  vector unsigned char xJv;        /* vector for states score                                   */
+  vector unsigned char tjbmv;       /* vector for B->Mk cost                                     */
+  vector unsigned char tecv;       /* vector for E->C  cost                                     */
+  vector unsigned char basev;      /* offset for scores                                         */
+  vector unsigned char ceilingv;   /* saturateed simd value used to test for overflow           */
+  vector unsigned char tempv;
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ16)  ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  ox->M   = om->M;
+
+  /* Initialization. In offset unsigned arithmetic, -infinity is 0, and 0 is om->base.
+   */
+  dp  = ox->dpb[0];
+  for (q = 0; q < Q; q++) dp[q] = vec_splat_u8(0);
+  xJ   = 0;
+
+  biasv = esl_vmx_set_u8(om->bias_b);
+  zerov = vec_splat_u8(0);
+
+  /* saturate simd register for overflow test */
+  tempv = vec_splat_u8(1);
+  ceilingv = (vector unsigned char)vec_cmpeq(biasv, biasv);
+  ceilingv = vec_subs(ceilingv, biasv);
+  ceilingv = vec_subs(ceilingv, tempv);
+
+  basev = esl_vmx_set_u8((int8_t) om->base_b);
+
+  tecv = esl_vmx_set_u8((int8_t) om->tec_b);
+  tjbmv = esl_vmx_set_u8((int8_t) om->tjb_b + (int8_t) om->tbm_b);
+
+  xJv = vec_subs(biasv, biasv);
+  xBv = vec_subs(basev, tjbmv);
+
+#if p7_DEBUGGING
+  if (ox->debugging)
+	{
+	  unsigned char xB;
+	  vec_ste(xBv, 0, &xB);
+	  vec_ste(xJv, 0, &xJ);
+	  p7_omx_DumpMFRow(ox, 0, 0, 0, xJ, xB, xJ);
+	}
+#endif
+
+  for (i = 1; i <= L; i++)
+  {
+      rsc = om->rbv[dsq[i]];
+      xEv = vec_splat_u8(0);
+//      xBv = vec_sub(xBv, tbmv);
+
+      /* Right shifts by 1 byte. 4,8,12,x becomes x,4,8,12. 
+       * Because ia32 is littlendian, this means a left bit shift.
+       * Zeros shift on automatically, which is our -infinity.
+       */
+      mpv = vec_sld(zerov, dp[Q-1], 15);   
+      for (q = 0; q < Q; q++)
+      {
+        /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+        sv   = vec_max(mpv, xBv);
+        sv   = vec_adds(sv, biasv);
+        sv   = vec_subs(sv, *rsc);   rsc++;
+        xEv  = vec_max(xEv, sv);
+
+        mpv   = dp[q];   	  /* Load {MDI}(i-1,q) into mpv */
+        dp[q] = sv;       	  /* Do delayed store of M(i,q) now that memory is usable */
+      }
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B)
+       * Use rotates instead of shifts so when the last max has completed,
+       * all elements of the simd register will contain the max value.
+       */
+      tempv = vec_sld(xEv, xEv, 1);
+      xEv = vec_max(xEv, tempv);
+      tempv = vec_sld(xEv, xEv, 2);
+      xEv = vec_max(xEv, tempv);
+      tempv = vec_sld(xEv, xEv, 4);
+      xEv = vec_max(xEv, tempv);
+      tempv = vec_sld(xEv, xEv, 8);
+      xEv = vec_max(xEv, tempv);
+
+      /* immediately detect overflow */
+      if (vec_any_gt(xEv, ceilingv))
+      {
+        *ret_sc = eslINFINITY;
+        return eslERANGE;
+      }
+
+      xEv = vec_subs(xEv, tecv);
+      xJv = vec_max(xJv,xEv);
+
+      xBv = vec_max(basev, xJv);
+      xBv = vec_subs(xBv, tjbmv);
+	  
+#if p7_DEBUGGING
+      if (ox->debugging)
+      {
+        unsigned char xB, xE;
+        vec_ste(xBv, 0, &xB);
+        vec_ste(xEv, 0, &xE);
+        vec_ste(xJv, 0, &xJ);
+        p7_omx_DumpMFRow(ox, i, xE, 0, xJ, xB, xJ);
+      }
+#endif
+  } /* end loop over sequence residues 1..L */
+
+  /* finally C->T, and add our missing precision on the NN,CC,JJ back */
+  vec_ste(xJv, 0, &xJ);
+  *ret_sc = ((float) (xJ - om->tjb_b) - (float) om->base_b);
+  *ret_sc /= om->scale_b;
+  *ret_sc -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+
+  return eslOK;
+}
+/*------------------ end, p7_MSVFilter() ------------------------*/
+
+
+/* Function:  p7_SSVFilter_longtarget()
+ * Synopsis:  Finds windows with SSV scores above some threshold (vewy vewy fast, in limited precision)
+ *
+ * Purpose:   Calculates an approximation of the SSV (single ungapped diagonal)
+ *            score for regions of sequence <dsq> of length <L> residues, using
+ *            optimized profile <om>, and a preallocated one-row DP matrix <ox>,
+ *            and captures the positions at which such regions exceed the score
+ *            required to be significant in the eyes of the calling function,
+ *            which depends on the <bg> and <p> (usually p=0.02 for nhmmer).
+ *            Note that this variant performs only SSV computations, never
+ *            passing through the J state - the score required to pass SSV at
+ *            the default threshold (or less restrictive) is sufficient to
+ *            pass MSV in essentially all DNA models we've tested.
+ *
+ *            Above-threshold diagonals are captured into a preallocated list
+ *            <windowlist>. Rather than simply capturing positions at which a
+ *            score threshold is reached, this function establishes windows
+ *            around those high-scoring positions, using scores in <msvdata>.
+ *            These windows can be merged by the calling function.
+ *
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            msvdata    - compact representation of substitution scores, for backtracking diagonals
+ *            bg         - the background model, required for translating a P-value threshold into a score threshold
+ *            P          - p-value below which a region is captured as being above threshold
+ *            windowlist - preallocated container for all hits (resized if necessary)
+ *
+ *
+ * Note:      We misuse the matrix <ox> here, using only a third of the
+ *            first dp row, accessing it as <dp[0..Q-1]> rather than
+ *            in triplets via <{MDI}MX(q)> macros, since we only need
+ *            to store M state values. We know that if <ox> was big
+ *            enough for normal DP calculations, it must be big enough
+ *            to hold the MSVFilter calculation.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_SSVFilter_longtarget(const ESL_DSQ *dsq, int L, P7_OPROFILE *om, P7_OMX *ox, const P7_SCOREDATA *ssvdata,
+                        P7_BG *bg, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+
+  vector unsigned char mpv;        /* previous row values                                       */
+  vector unsigned char xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  vector unsigned char xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector unsigned char sv;		   /* temp storage of 1 curr row value in progress              */
+  vector unsigned char biasv;	   /* emission bias in a vector                                 */
+  uint8_t  xJ;                 /* special states' scores                                    */
+  int i;			           /* counter over sequence positions 1..L                      */
+  int q;			           /* counter over vectors 0..nq-1                              */
+  int Q        = p7O_NQB(om->M);   /* segment length: # of vectors                              */
+  vector unsigned char *dp  = ox->dpb[0];	   /* we're going to use dp[0][0..q..Q-1], not {MDI}MX(q) macros*/
+  vector unsigned char *rsc;			        /* will point at om->rbv[x] for residue x[i]                 */
+
+  vector unsigned char zerov;	   /* vector of zeros                                           */
+  vector unsigned char tecv;                    /* vector for E->C  cost                                     */
+  vector unsigned char tjbmv;                    /* vector for [JN]->B->M move cost                                  */
+  vector unsigned char basev;                   /* offset for scores                                         */
+
+  int status;
+
+  int k;
+  int n;
+  int end;
+  int rem_sc;
+  int start;
+  int target_end;
+  int target_start;
+  int max_end;
+  int max_sc;
+  int sc;
+  int pos_since_max;
+  float ret_sc;
+
+  union { vector unsigned char v; uint8_t b[16]; } u;
+
+
+  /*
+   * Computing the score required to let P meet the F1 prob threshold
+   * In original code, converting from a scaled int MSV
+   * score S (the score getting to state E) to a probability goes like this:
+   *  usc =  S - om->tec_b - om->tjb_b - om->base_b;
+   *  usc /= om->scale_b;
+   *  usc -= 3.0;
+   *  P = f ( (usc - nullsc) / eslCONST_LOG2 , mu, lambda)
+   * and we're computing the threshold usc, so reverse it:
+   *  (usc - nullsc) /  eslCONST_LOG2 = inv_f( P, mu, lambda)
+   *  usc = nullsc + eslCONST_LOG2 * inv_f( P, mu, lambda)
+   *  usc += 3
+   *  usc *= om->scale_b
+   *  S = usc + om->tec_b + om->tjb_b + om->base_b
+   *
+   *  Here, I compute threshold with length model based on max_length.  Doesn't
+   *  matter much - in any case, both the bg and om models will change with roughly
+   *  1 bit for each doubling of the length model, so they offset.
+   */
+  float nullsc;
+  float invP = esl_gumbel_invsurv(P, om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+  vector unsigned char sc_threshv;               /* pushes value to saturation if it's above pthresh  */
+  int sc_thresh;
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ16)  ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  ox->M   = om->M;
+
+
+  p7_bg_SetLength(bg, om->max_length);
+  p7_oprofile_ReconfigMSVLength(om, om->max_length);
+  p7_bg_NullOne  (bg, dsq, om->max_length, &nullsc);
+
+  sc_thresh = (int) ceil( ( ( nullsc  + (invP * eslCONST_LOG2) + 3.0 )  * om->scale_b ) + om->base_b +  om->tec_b  + om->tjb_b  );
+  sc_threshv = esl_vmx_set_u8( (int8_t)sc_thresh - 1);
+
+
+  /* Initialization. In offset unsigned arithmetic, -infinity is 0, and 0 is om->base.
+   */
+  biasv = esl_vmx_set_u8(om->bias_b);
+  for (q = 0; q < Q; q++) dp[q] = vec_splat_u8(0);
+  xJ   = 0;
+  zerov = vec_splat_u8(0);
+
+
+  basev = esl_vmx_set_u8((int8_t) om->base_b);
+  tecv = esl_vmx_set_u8((int8_t) om->tec_b);
+  tjbmv = esl_vmx_set_u8((int8_t) om->tjb_b + (int8_t) om->tbm_b);
+
+  xBv = vec_subs(basev, tjbmv);
+
+  for (i = 1; i <= L; i++) {
+	  rsc = om->rbv[dsq[i]];
+    xEv = vec_splat_u8(0);
+
+	  /* Right shifts by 1 byte. 4,8,12,x becomes x,4,8,12.
+	   * Because ia32 is littlendian, this means a left bit shift.
+	   * Zeros shift on automatically, which is our -infinity.
+	   */
+    mpv = vec_sld(zerov, dp[Q-1], 15);
+	  for (q = 0; q < Q; q++)
+	  {
+		  /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+		  sv   = vec_max(mpv, xBv);
+		  sv   = vec_adds(sv, biasv);
+		  sv   = vec_subs(sv, *rsc);   rsc++;
+		  xEv  = vec_max(xEv, sv);
+
+		  mpv   = dp[q];   	  /* Load {MDI}(i-1,q) into mpv */
+		  dp[q] = sv;       	  /* Do delayed store of M(i,q) now that memory is usable */
+	  }
+
+
+	  if (vec_any_gt(xEv, sc_threshv) ) { //hit pthresh, so add position to list and reset values
+      //figure out which model state hit threshold
+      end = -1;
+      rem_sc = -1;
+      for (q = 0; q < Q; q++) {  /// Unpack and unstripe, so we can find the state that exceeded pthresh
+          u.v = dp[q];
+          for (k = 0; k < 16; k++) { // unstripe
+            //(q+Q*k+1) is the model position k at which the xE score is found
+            if (u.b[k] >= sc_thresh && u.b[k] > rem_sc && (q+Q*k+1) <= om->M) {
+              end = (q+Q*k+1);
+              rem_sc = u.b[k];
+            }
+          }
+          dp[q] = vec_splat_u8(0); // while we're here ... this will cause values to get reset to xB in next dp iteration
+      }
+
+      //recover the diagonal that hit threshold
+      start = end;
+      target_end = target_start = i;
+      sc = rem_sc;
+      while (rem_sc > om->base_b - om->tjb_b - om->tbm_b) {
+        rem_sc -= om->bias_b -  ssvdata->ssv_scores[start*om->abc->Kp + dsq[target_start]];
+        --start;
+        --target_start;
+        //if ( start == 0 || target_start==0)    break;
+      }
+      start++;
+      target_start++;
+
+
+
+      //extend diagonal further with single diagonal extension
+      k = end+1;
+      n = target_end+1;
+      max_end = target_end;
+      max_sc = sc;
+      pos_since_max = 0;
+      while (k<om->M && n<=L) {
+        sc += om->bias_b -  ssvdata->ssv_scores[k*om->abc->Kp + dsq[n]];
+        if (sc >= max_sc) {
+          max_sc = sc;
+          max_end = n;
+          pos_since_max=0;
+        } else {
+          pos_since_max++;
+          if (pos_since_max == 5)
+            break;
+        }
+        k++;
+        n++;
+      }
+
+      end  +=  (max_end - target_end);
+      target_end = max_end;
+
+      ret_sc = ((float) (max_sc - om->tjb_b) - (float) om->base_b);
+      ret_sc /= om->scale_b;
+      ret_sc -= 3.0; // that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ
+
+      p7_hmmwindow_new(  windowlist,
+                         0,                  // sequence_id; used in the FM-based filter, but not here
+                         target_start,       // position in the target at which the diagonal starts
+                         0,                  // position in the target fm_index at which diagonal starts;  not used here, just in FM-based filter
+                         end,                // position in the model at which the diagonal ends
+                         end-start+1 ,       // length of diagonal
+                         ret_sc,             // score of diagonal
+                         p7_NOCOMPLEMENT,    // always p7_NOCOMPLEMENT here;  varies in FM-based filter
+                         L
+                       );
+
+
+
+      i = target_end; // skip forward
+
+
+	  }
+
+  } /* end loop over sequence residues 1..L */
+
+  return eslOK;
+
+
+  ERROR:
+  ESL_EXCEPTION(eslEMEM, "Error allocating memory for hit list\n");
+
+}
+/*------------------ end, p7_SSVFilter_longtarget() ------------------------*/
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+/* The benchmark driver has some additional non-benchmarking options
+ * to facilitate small-scale (by-eye) comparison of MSV scores against
+ * other implementations, for debugging purposes.
+ * 
+ * The -c option compares against p7_GMSV() scores. This allows
+ * measuring the error inherent in the VMX implementation's reduced
+ * precision (p7_MSVFilter() runs in uint8_t; p7_GMSV() uses floats).
+ * 
+ * The -x option compares against an emulation that should give
+ * exactly the same scores. The emulation is achieved by jiggering the
+ * fp scores in a generic profile to disallow gaps, have the same
+ * rounding and precision as the uint8_t's MSVFilter() is using, and
+ * to make the same post-hoc corrections for the NN, CC, JJ
+ * contributions to the final nat score; under these contrived
+ * circumstances, p7_GViterbi() gives the same scores as
+ * p7_MSVFilter().
+ * 
+ * For using either -c or -x, you probably also want to limit the
+ * number of generated target sequences, using -N10 or -N100 for
+ * example.
+ */
+#ifdef p7MSVFILTER_BENCHMARK
+/* 
+   gcc -o msvfilter-benchmark -std=gnu99 -g -Wall -maltivec -I.. -L.. -I../../easel -L../../easel -Dp7MSVFILTER_BENCHMARK msvfilter.c -lhmmer -leasel -lm 
+   icc -o msvfilter-benchmark -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7MSVFILTER_BENCHMARK msvfilter.c -lhmmer -leasel -lm 
+
+   ./benchmark-msvfilter <hmmfile>            runs benchmark 
+   ./benchmark-msvfilter -N100 -c <hmmfile>   compare scores to generic impl
+   ./benchmark-msvfilter -N100 -x <hmmfile>   compare scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MSVFilter() implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsMF(om, gm);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_MSVFilter    (dsq, L, om, ox, &sc1);   
+
+      /* -c option: compare generic to fast score */
+      if (esl_opt_GetBoolean(go, "-c")) 
+	{
+	  p7_GMSV    (dsq, L, gm, gx, 2.0, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+
+      /* -x option: compare generic to fast score in a way that should give exactly the same result */
+      if (esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  sc2 /= om->scale_b;
+	  if (om->mode == p7_UNILOCAL)   sc2 -= 2.0; /* that's ~ L \log \frac{L}{L+2}, for our NN,CC,JJ */
+	  else if (om->mode == p7_LOCAL) sc2 -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7MSVFILTER_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7MSVFILTER_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* 
+ * We can check that scores are identical (within machine error) to
+ * scores of generic DP with scores rounded the same way.  Do this for
+ * a random model of length <M>, for <N> test sequences of length <L>.
+ * 
+ * We assume that we don't accidentally generate a high-scoring random
+ * sequence that overflows MSVFilter()'s limited range.
+ * 
+ */
+static void
+utest_msv_filter(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_profile_SameAsMF(om, gm);
+#if 0
+  p7_oprofile_Dump(stdout, om);              //dumps the optimized profile
+  p7_omx_SetDumpMode(stdout, ox, TRUE);      //makes the fast DP algorithms dump their matrices
+#endif
+
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_MSVFilter(dsq, L, om, ox, &sc1);
+      p7_GViterbi (dsq, L, gm, gx, &sc2);
+#if 0
+      p7_gmx_Dump(stdout, gx, p7_DEFAULT);   //dumps a generic DP matrix
+#endif
+
+      sc2 = sc2 / om->scale_b - 3.0f;
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("msv filter unit test failed: scores differ (%.2f, %.2f)", sc1, sc2);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7MSVFILTER_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7MSVFILTER_TESTDRIVE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o msvfilter_utest -Dp7MSVFILTER_TESTDRIVE msvfilter.c -lhmmer -leasel -lm
+   ./msvfilter_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the VMX MSVFilter() implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("MSVFilter() tests, DNA\n");
+  utest_msv_filter(r, abc, bg, M, L, N);   /* normal sized models */
+  utest_msv_filter(r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_msv_filter(r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("MSVFilter() tests, protein\n");
+  utest_msv_filter(r, abc, bg, M, L, N);   
+  utest_msv_filter(r, abc, bg, 1, L, 10);  
+  utest_msv_filter(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITFILTER_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+
+#ifdef p7MSVFILTER_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -maltivec -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o msvfilter_example -Dp7MSVFILTER_EXAMPLE msvfilter.c -lhmmer -leasel -lm
+   ./msvfilter_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of MSV filter algorithm";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           msvraw, nullsc, msvscore;
+  float           graw, gscore;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Open sequence file for reading */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, 0); /* one row version */
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);              dumps the optimized profile
+     p7_omx_SetDumpMode(stdout, ox, TRUE);      makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);       dumps a generic DP matrix
+     p7_oprofile_SameMSV(om, gm);
+  */
+  p7_omx_SetDumpMode(stdout, ox, TRUE);    
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(ox, om->M, 0,    sq->n); 
+      p7_gmx_GrowTo(gx, gm->M,       sq->n); 
+
+      p7_MSVFilter   (sq->dsq, sq->n, om, ox, &msvraw);  
+      p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+      msvscore = (msvraw - nullsc) / eslCONST_LOG2;
+      P        = esl_gumbel_surv(msvscore,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+
+      p7_GMSV(sq->dsq, sq->n, gm, gx, 2.0, &graw);
+      gscore   = (graw - nullsc) / eslCONST_LOG2;
+      gP       = esl_gumbel_surv(gscore,  gm->evparam[p7_MMU],  gm->evparam[p7_MLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s  %-20s  %9.2g  %7.2f  %9.2g  %7.2f\n", sq->name, hmm->name, P, msvscore, gP, gscore);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g  %.2f  %s  %s\n", P, msvscore, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("msv filter raw score: %.2f nats\n", msvraw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", msvscore);
+	  printf("P-value:              %g\n",        P);
+	  printf("GMSV raw score:       %.2f nats\n", graw);
+	  printf("GSMV per-seq score:   %.2f bits\n", gscore);
+	  printf("GSMV P-value:         %g\n",        gP);
+	}
+      
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7MSVFILTER_EXAMPLE*/
+/*---------------------- end, example ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/null2.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/null2.c
new file mode 100755
index 0000000..138bf63
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/null2.c
@@ -0,0 +1,527 @@
+/* "null2" model, biased composition correction; VMX implementations.
+ * 
+ * Contents:
+ *   1. Null2 estimation algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *
+ * SRE, Mon Aug 18 08:31:11 2008 [Janelia]
+ * SVN $Id: null2.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+/*****************************************************************
+ * 1. Null2 estimation algorithms.
+ *****************************************************************/
+
+/* Function:  p7_Null2_ByExpectation()
+ * Synopsis:  Calculate null2 model from posterior probabilities.
+ * Incept:    SRE, Mon Aug 18 08:32:55 2008 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GNull2_ByExpectation()> except that
+ *            <om>, <pp> are VMX optimized versions of the profile
+ *            and the residue posterior probability matrix. See 
+ *            <p7_GNull2_ByExpectation()>  documentation.
+ *            
+ * Args:      om    - profile, in any mode, target length model set to <L>
+ *            pp    - posterior prob matrix, for <om> against domain envelope <dsq+i-1> (offset)
+ *            null2 - RETURN: null2 log odds scores per residue; <0..Kp-1>; caller allocated space
+ */
+int
+p7_Null2_ByExpectation(const P7_OPROFILE *om, const P7_OMX *pp, float *null2)
+{
+  int      M    = om->M;
+  int      Ld   = pp->L;
+  int      Q    = p7O_NQF(M);
+  float   *xmx  = pp->xmx;	/* enables use of XMXo(i,s) macro */
+  float    norm;
+  float    xfactor;
+  int      i,q,x;
+
+  vector float *rp;
+  vector float  sv;
+  vector float  zerov;
+
+  zerov = (vector float) vec_splat_u32(0);
+
+  /* Calculate expected # of times that each emitting state was used
+   * in generating the Ld residues in this domain.
+   * The 0 row in <wrk> is used to hold these numbers.
+   */
+  memcpy(pp->dpf[0], pp->dpf[1], sizeof(vector float) * 3 * Q);
+  XMXo(0,p7X_N) = XMXo(1,p7X_N);
+  XMXo(0,p7X_C) = XMXo(1,p7X_C); /* 0.0 */
+  XMXo(0,p7X_J) = XMXo(1,p7X_J); /* 0.0 */
+
+  for (i = 2; i <= Ld; i++)
+    {
+      for (q = 0; q < Q; q++)
+	{
+	  pp->dpf[0][q*3 + p7X_M] = vec_add(pp->dpf[i][q*3 + p7X_M], pp->dpf[0][q*3 + p7X_M]);
+	  pp->dpf[0][q*3 + p7X_I] = vec_add(pp->dpf[i][q*3 + p7X_I], pp->dpf[0][q*3 + p7X_I]);
+	}
+      XMXo(0,p7X_N) += XMXo(i,p7X_N);
+      XMXo(0,p7X_C) += XMXo(i,p7X_C); 
+      XMXo(0,p7X_J) += XMXo(i,p7X_J); 
+    }
+
+  /* Convert those expected #'s to frequencies, to use as posterior weights. */
+  norm = 1.0 / (float) Ld;
+  sv   = esl_vmx_set_float(norm);
+
+  for (q = 0; q < Q; q++)
+    {
+      pp->dpf[0][q*3 + p7X_M] = vec_madd(pp->dpf[0][q*3 + p7X_M], sv, zerov);
+      pp->dpf[0][q*3 + p7X_I] = vec_madd(pp->dpf[0][q*3 + p7X_I], sv, zerov);
+    }
+  XMXo(0,p7X_N) *= norm;
+  XMXo(0,p7X_C) *= norm;
+  XMXo(0,p7X_J) *= norm;
+
+  /* Calculate null2's emission odds, by taking posterior weighted sum
+   * over all emission vectors used in paths explaining the domain.
+   */
+  xfactor = XMXo(0, p7X_N) + XMXo(0, p7X_C) + XMXo(0, p7X_J); 
+  for (x = 0; x < om->abc->K; x++)
+    {
+      sv = (vector float) vec_splat_u32(0);
+      rp = om->rfv[x];
+      for (q = 0; q < Q; q++)
+	{
+	  sv = vec_madd(pp->dpf[0][q*3 + p7X_M], *rp, sv); rp++;
+	  sv = vec_add(sv, pp->dpf[0][q*3 + p7X_I]);       /* insert odds implicitly 1.0 */
+	}
+      null2[x] = esl_vmx_hsum_float(sv);
+      null2[x] += xfactor;
+   }
+  /* now null2[x] = \frac{f_d(x)}{f_0(x)} for all x in alphabet,
+   * 0..K-1, where f_d(x) are the ad hoc "null2" residue frequencies
+   * for this envelope.
+   */
+
+  /* make valid scores for all degeneracies, by averaging the odds ratios. */
+  esl_abc_FAvgScVec(om->abc, null2);
+  null2[om->abc->K]    = 1.0;        /* gap character    */
+  null2[om->abc->Kp-2] = 1.0;	     /* nonresidue "*"   */
+  null2[om->abc->Kp-1] = 1.0;	     /* missing data "~" */
+
+  /* ta-da */
+  return eslOK;
+}
+
+
+/* Function:  p7_Null2_ByTrace()
+ * Synopsis:  Assign null2 scores to an envelope by the sampling method.
+ * Incept:    SRE, Mon Aug 18 10:22:49 2008 [Janelia]
+ *
+ * Purpose:   Identical to <p7_GNull2_ByTrace()> except that
+ *            <om>, <wrk> are VMX optimized versions of the profile
+ *            and the residue posterior probability matrix. See 
+ *            <p7_GNull2_ByTrace()>  documentation.
+ */
+int
+p7_Null2_ByTrace(const P7_OPROFILE *om, const P7_TRACE *tr, int zstart, int zend, P7_OMX *wrk, float *null2)
+{
+  union { vector float v; float p[4]; } u;
+  int    Q  = p7O_NQF(om->M);
+  int    Ld = 0;
+  float *xmx = wrk->xmx;	/* enables use of XMXo macro */
+  float  norm;
+  float  xfactor;
+  int    q, r, s;
+  int    x;
+  int    z;
+
+  vector float  sv;
+  vector float *rp;
+  vector float  zerov;
+
+  zerov = (vector float) vec_splat_u32(0);
+
+  /* We'll use the i=0 row in wrk for working space: dp[0][] and xmx[][0]. */
+  for (q = 0; q < Q; q++)
+    {
+      wrk->dpf[0][q*3 + p7X_M] = (vector float) vec_splat_u32(0);
+      wrk->dpf[0][q*3 + p7X_I] = (vector float) vec_splat_u32(0);
+    }
+  XMXo(0,p7X_N) =  0.0;
+  XMXo(0,p7X_C) =  0.0;
+  XMXo(0,p7X_J) =  0.0;
+
+  /* Calculate emitting state usage in this particular trace segment */
+  for (z = zstart; z <= zend; z++)
+    {
+      if (tr->i[z] == 0) continue; /* quick test for whether this trace elem emitted or not */
+      Ld++;
+      if (tr->k[z] > 0)	/* must be an M or I */
+	{ /* surely there's an easier way? but our workspace is striped, interleaved quads... */
+	  s = ( (tr->st[z] == p7T_M) ?  p7X_M : p7X_I);
+	  q = p7X_NSCELLS * ( (tr->k[z] - 1) % Q) + p7X_M;
+	  r = (tr->k[z] - 1) / Q;
+	  u.v            = wrk->dpf[0][q];
+	  u.p[r]        += 1.0;	/* all this to increment a count by one! */
+	  wrk->dpf[0][q] = u.v;
+
+	}
+      else /* emitted an x_i with no k; must be an N,C,J */
+	{
+	  switch (tr->st[z]) {
+	  case p7T_N: XMXo(0,p7X_N) += 1.0; break;
+	  case p7T_C: XMXo(0,p7X_C) += 1.0; break;
+	  case p7T_J: XMXo(0,p7X_J) += 1.0; break;
+	  }
+	}
+    }
+  norm = 1.0 / (float) Ld;
+  sv   = esl_vmx_set_float(norm);
+
+  for (q = 0; q < Q; q++)
+    {
+      wrk->dpf[0][q*3 + p7X_M] = vec_madd(wrk->dpf[0][q*3 + p7X_M], sv, zerov);
+      wrk->dpf[0][q*3 + p7X_I] = vec_madd(wrk->dpf[0][q*3 + p7X_I], sv, zerov);
+    }
+  XMXo(0,p7X_N) *= norm;
+  XMXo(0,p7X_C) *= norm;
+  XMXo(0,p7X_J) *= norm;
+
+  /* Calculate null2's emission odds, by taking posterior weighted sum
+   * over all emission vectors used in paths explaining the domain.
+   */
+  xfactor =  XMXo(0,p7X_N) + XMXo(0,p7X_C) + XMXo(0,p7X_J);
+  for (x = 0; x < om->abc->K; x++)
+    {
+      sv = (vector float) vec_splat_u32(0);
+      rp = om->rfv[x];
+      for (q = 0; q < Q; q++)
+	{
+	  sv = vec_madd(wrk->dpf[0][q*3 + p7X_M], *rp, sv); rp++;
+	  sv = vec_add(sv, wrk->dpf[0][q*3 + p7X_I]);       /* insert emission odds implicitly 1.0 */
+	  //	  sv = _mm_add_ps(sv, _mm_mul_ps(wrk->dpf[0][q*3 + p7X_I], *rp)); rp++;
+	}
+      null2[x] = esl_vmx_hsum_float(sv);
+      null2[x] += xfactor;
+    }
+
+  /* now null2[x] = \frac{f_d(x)}{f_0(x)} for all x in alphabet,
+   * 0..K-1, where f_d(x) are the ad hoc "null2" residue frequencies
+   * for this envelope.
+   */
+
+  /* make valid scores for all degeneracies, by averaging the odds ratios. */
+  esl_abc_FAvgScVec(om->abc, null2);
+  null2[om->abc->K]    = 1.0;        /* gap character    */
+  null2[om->abc->Kp-2] = 1.0;	     /* nonresidue "*"   */
+  null2[om->abc->Kp-1] = 1.0;	     /* missing data "~" */
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7NULL2_BENCHMARK
+/*
+   icc  -O3 -static -o null2_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7NULL2_BENCHMARK null2.c -lhmmer -leasel -lm 
+   ./null2_benchmark    <hmmfile>      Does the expectation version.
+   ./null2_benchmark -t <hmmfile>      Does the stochastic-traceback-dependent version. 
+                                       (This version isn't really dependent on M, so Mc/s may not be an appropriate measure.)
+
+                       RRM_1 (M=72)       Caudal_act (M=136)     SMC_N (M=1151)
+                     -----------------    ------------------     ---------------
+        21 Aug 2008   3.00u (480 Mc/s)     5.45u (499 Mc/s)     77.56u (297 Mc/s)
+    -t  21 Aug 2008  30.50u  (47 Mc/s)    44.96u  (61 Mc/s)  32.03u*10 ( 72 Mc/s)
+             
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "benchmark the trace-dependent version of null2",   0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for null2 estimation, VMX version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  float           null2[p7_MAXCODE];
+  int             i,j,d,pos;
+  int             nsamples = 200;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  ox1 = p7_omx_Create(gm->M, L, L);
+  ox2 = p7_omx_Create(gm->M, L, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, ox1,      &fsc);
+
+  if (esl_opt_GetBoolean(go, "-t"))
+    {
+      P7_TRACE *tr   = p7_trace_Create();
+      float    *n2sc = malloc(sizeof(float) * (L+1));
+
+      esl_stopwatch_Start(w);
+      for (i = 0; i < N; i++)
+	{ /* This is approximately what p7_domaindef.c::region_trace_ensemble() is doing: */
+	  for (j = 0; j < nsamples; j++)
+	    {
+	      p7_StochasticTrace(r, dsq, L, om, ox1, tr);
+	      p7_trace_Index(tr);
+	      pos = 1; 
+	      for (d = 0; d < tr->ndom; d++)
+		{
+		  p7_Null2_ByTrace(om, tr, tr->tfrom[d], tr->tto[d], ox2, null2);
+		  for (; pos <= tr->sqfrom[d]; pos++) n2sc[pos] += 1.0;
+		  for (; pos < tr->sqto[d];    pos++) n2sc[pos] += null2[dsq[pos]];
+		}
+	      for (; pos <= L; pos++)  n2sc[pos] += 1.0;
+	      p7_trace_Reuse(tr);
+	    }
+
+	  for (pos = 1; pos <= L; pos++)
+	    n2sc[pos] = logf(n2sc[pos] / nsamples);
+	}
+      esl_stopwatch_Stop(w);
+
+      free(n2sc);
+      p7_trace_Destroy(tr);
+    }
+  else
+    {
+      p7_Backward(dsq, L, om, ox1, ox2, &bsc);
+      p7_Decoding(om, ox1, ox2, ox2);              
+
+      esl_stopwatch_Start(w);
+      for (i = 0; i < N; i++)
+	p7_Null2_ByExpectation(om, ox2, null2);
+      esl_stopwatch_Stop(w);
+    }
+
+
+  Mcs = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7NULL2_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7NULL2_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_vectorops.h"
+
+/* compare results to GDecoding(). */
+static void
+utest_null2_expectation(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N, float tolerance)
+{
+  char        *msg  = "null2 unit test failed";
+  P7_HMM      *hmm  = NULL;
+  P7_PROFILE  *gm   = NULL;
+  P7_OPROFILE *om   = NULL;
+  ESL_DSQ     *dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *fwd  = p7_omx_Create(M, L, L);
+  P7_OMX      *bck  = p7_omx_Create(M, L, L);
+  P7_OMX      *pp   = p7_omx_Create(M, L, L);
+  P7_GMX      *gxf  = p7_gmx_Create(M, L);
+  P7_GMX      *gxb  = p7_gmx_Create(M, L);
+  P7_GMX      *gpp  = p7_gmx_Create(M, L);
+  float       *on2  = malloc(sizeof(float) * abc->Kp);
+  float       *gn2  = malloc(sizeof(float) * abc->Kp);
+  float fsc1, fsc2;
+  float bsc1, bsc2;
+
+  if (!gn2 || !on2) esl_fatal(msg);
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om) != eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal(msg);
+      if (p7_Forward       (dsq, L, om, fwd,      &fsc1) != eslOK) esl_fatal(msg);
+      if (p7_Backward      (dsq, L, om, fwd, bck, &bsc1) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, fwd, bck, pp)                  != eslOK) esl_fatal(msg);
+      if (p7_Null2_ByExpectation(om, pp, on2)            != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (dsq, L, gm, gxf, &fsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GBackward(dsq, L, gm, gxb, &bsc2)           != eslOK) esl_fatal(msg);
+      if (p7_GDecoding(gm, gxf, gxb, gpp)                != eslOK) esl_fatal(msg);
+      if (p7_GNull2_ByExpectation(gm, gpp, gn2)          != eslOK) esl_fatal(msg);
+
+      if (esl_vec_FCompare(gn2, on2, abc->Kp, tolerance) != eslOK) esl_fatal(msg);
+    }
+
+  p7_gmx_Destroy(gpp);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_omx_Destroy(pp);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  free(on2);
+  free(gn2);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+#endif /*p7NULL2_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7NULL2_TESTDRIVE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -o null2_utest -I.. -L.. -I../../easel -L../../easel -Dp7NULL2_TESTDRIVE null2.c -lhmmer -leasel -lm
+   ./null2_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-t",        eslARG_REAL,  "0.01", NULL, NULL,  NULL,  NULL, NULL, "floating point comparison tolerance",            0 },
+  { "-L",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,     "72", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,     "10", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for VMX implementation of null2 model";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+
+  p7_FLogsumInit();
+
+  utest_null2_expectation(r, abc, bg, M, L, N, tol);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  return eslOK;
+}
+#endif /*p7NULL2_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7NULL2_EXAMPLE
+
+#endif /*p7NULL2_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/optacc.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/optacc.c
new file mode 100755
index 0000000..dd2ad9e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/optacc.c
@@ -0,0 +1,965 @@
+/* Optimal accuracy alignment; VMX version.
+ * 
+ * Contents:
+ *   1. Optimal accuracy alignment, DP fill
+ *   2. OA traceback
+ *   3. Benchmark driver
+ *   4. Unit tests
+ *   5. Test driver
+ *   6. Example
+ *   7. Copyright and license information.
+ * 
+ * SRE, Mon Aug 18 20:01:01 2008 [Casa de Gatos]
+ * SVN $Id: optacc.c 3991 2012-04-17 21:08:00Z eddys $
+ */
+#include "p7_config.h"
+
+#include <float.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. Optimal accuracy alignment, DP fill
+ *****************************************************************/
+
+/* Function:  p7_OptimalAccuracy()
+ * Synopsis:  DP fill of an optimal accuracy alignment calculation.
+ * Incept:    SRE, Mon Aug 18 11:04:48 2008 [Janelia]
+ *
+ * Purpose:   Calculates the fill step of the optimal accuracy decoding
+ *            algorithm \citep{Kall05}.
+ *            
+ *            Caller provides the posterior decoding matrix <pp>,
+ *            which was calculated by Forward/Backward on a target sequence
+ *            of length <pp->L> using the query model <om>.
+ *            
+ *            Caller also provides a DP matrix <ox>, allocated for a full
+ *            <om->M> by <L> comparison. The routine fills this in
+ *            with OA scores.
+ *  
+ * Args:      gm    - query profile      
+ *            pp    - posterior decoding matrix created by <p7_GPosteriorDecoding()>
+ *            gx    - RESULT: caller provided DP matrix for <gm->M> by <L> 
+ *            ret_e - RETURN: expected number of correctly decoded positions 
+ *
+ * Returns:   <eslOK> on success, and <*ret_e> contains the final OA
+ *            score, which is the expected number of correctly decoded
+ *            positions in the target sequence (up to <L>).
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_OptimalAccuracy(const P7_OPROFILE *om, const P7_OMX *pp, P7_OMX *ox, float *ret_e)
+{
+  vector float mpv, dpv, ipv;      /* previous row values                                       */
+  vector float sv;		   /* temp storage of 1 curr row value in progress              */
+  vector float xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  vector float xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector float dcv;
+  float  *xmx = ox->xmx;
+  vector float *dpc = ox->dpf[0];  /* current row, for use in {MDI}MO(dpp,q) access macro       */
+  vector float *dpp;               /* previous row, for use in {MDI}MO(dpp,q) access macro      */
+  vector float *ppp;		   /* quads in the <pp> posterior probability matrix            */
+  vector float *tp;		   /* quads in the <om->tfv> transition scores                  */
+  vector float zerov;
+  vector float infv;
+  int M = om->M;
+  int Q = p7O_NQF(M);
+  int q;
+  int j;
+  int i;
+  float t1, t2;
+
+  zerov = (vector float) vec_splat_u32(0);
+  infv  = esl_vmx_set_float(-eslINFINITY);
+
+  ox->M = om->M;
+  ox->L = pp->L;
+  for (q = 0; q < Q; q++) MMO(dpc, q) = IMO(dpc,q) = DMO(dpc,q) = infv;
+  XMXo(0, p7X_E)    = -eslINFINITY;
+  XMXo(0, p7X_N)    = 0.;
+  XMXo(0, p7X_J)    = -eslINFINITY;
+  XMXo(0, p7X_B)    = 0.;
+  XMXo(0, p7X_C)    = -eslINFINITY;
+
+  for (i = 1; i <= pp->L; i++)
+    {
+      dpp = dpc;		/* previous DP row in OA matrix */
+      dpc = ox->dpf[i];   	/* current DP row in OA matrix  */
+      ppp = pp->dpf[i];		/* current row in the posterior probabilities per position */
+      tp  = om->tfv;		/* transition probabilities */
+      dcv = infv;
+      xEv = infv;
+      xBv = esl_vmx_set_float(XMXo(i-1, p7X_B));
+
+      mpv = vec_sld(infv, MMO(dpp,Q-1), 12);  /* Right shifts by 4 bytes. 4,8,12,x becomes x,4,8,12. */
+      dpv = vec_sld(infv, DMO(dpp,Q-1), 12);
+      ipv = vec_sld(infv, IMO(dpp,Q-1), 12);
+      for (q = 0; q < Q; q++)
+	{
+	  sv  =             vec_and(vec_cmpgt(*tp, zerov), xBv);  tp++;
+	  sv  = vec_max(sv, vec_and(vec_cmpgt(*tp, zerov), mpv)); tp++;
+	  sv  = vec_max(sv, vec_and(vec_cmpgt(*tp, zerov), ipv)); tp++;
+	  sv  = vec_max(sv, vec_and(vec_cmpgt(*tp, zerov), dpv)); tp++;
+	  sv  = vec_add(sv, *ppp);                                ppp += 2;
+	  xEv = vec_max(xEv, sv);
+	  
+	  mpv = MMO(dpp,q);
+	  dpv = DMO(dpp,q);
+	  ipv = IMO(dpp,q);
+
+	  MMO(dpc,q) = sv;
+	  DMO(dpc,q) = dcv;
+
+	  dcv = vec_and(vec_cmpgt(*tp, zerov), sv); tp++;
+
+	  sv         =             vec_and(vec_cmpgt(*tp, zerov), mpv);   tp++;
+	  sv         = vec_max(sv, vec_and(vec_cmpgt(*tp, zerov), ipv));  tp++;
+	  IMO(dpc,q) = vec_add(sv, *ppp);                                 ppp++;
+	}
+      
+      /* dcv has carried through from end of q loop above; store it 
+       * in first pass, we add M->D and D->D path into DMX
+       */
+      dcv = vec_sld(infv, dcv, 12);
+      tp  = om->tfv + 7*Q;	/* set tp to start of the DD's */
+      for (q = 0; q < Q; q++)
+	{
+	  DMO(dpc, q) = vec_max(dcv, DMO(dpc, q));
+	  dcv         = vec_and(vec_cmpgt(*tp, zerov), DMO(dpc,q));   tp++;
+	}
+
+      /* fully serialized D->D; can optimize later */
+      for (j = 1; j < 4; j++)
+	{
+	  dcv = vec_sld(infv, dcv, 12);
+	  tp  = om->tfv + 7*Q;	
+	  for (q = 0; q < Q; q++)
+	    {
+	      DMO(dpc, q) = vec_max(dcv, DMO(dpc, q));
+	      dcv         = vec_and(vec_cmpgt(*tp, zerov), dcv);   tp++;
+	    }
+	}
+
+      /* D->E paths */
+      for (q = 0; q < Q; q++) xEv = vec_max(xEv, DMO(dpc,q));
+      
+      /* Specials */
+      XMXo(i,p7X_E) = esl_vmx_hmax_float(xEv);
+      
+      t1 = ( (om->xf[p7O_J][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[(i-1)*p7X_NXCELLS+p7X_J] + pp->xmx[i*p7X_NXCELLS+p7X_J]);
+      t2 = ( (om->xf[p7O_E][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+      ox->xmx[i*p7X_NXCELLS+p7X_J] = ESL_MAX(t1, t2);
+
+      t1 = ( (om->xf[p7O_C][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[(i-1)*p7X_NXCELLS+p7X_C] + pp->xmx[i*p7X_NXCELLS+p7X_C]);
+      t2 = ( (om->xf[p7O_E][p7O_MOVE] == 0.0) ? 0.0 : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+      ox->xmx[i*p7X_NXCELLS+p7X_C] = ESL_MAX(t1, t2);
+      
+      ox->xmx[i*p7X_NXCELLS+p7X_N] = ((om->xf[p7O_N][p7O_LOOP] == 0.0) ? 0.0 : ox->xmx[(i-1)*p7X_NXCELLS+p7X_N] + pp->xmx[i*p7X_NXCELLS+p7X_N]);
+      
+      t1 = ( (om->xf[p7O_N][p7O_MOVE] == 0.0) ? 0.0 : ox->xmx[i*p7X_NXCELLS+p7X_N]);
+      t2 = ( (om->xf[p7O_J][p7O_MOVE] == 0.0) ? 0.0 : ox->xmx[i*p7X_NXCELLS+p7X_J]);
+      ox->xmx[i*p7X_NXCELLS+p7X_B] = ESL_MAX(t1, t2);
+    }
+
+  *ret_e = ox->xmx[pp->L*p7X_NXCELLS+p7X_C];
+  return eslOK;
+}
+/*------------------- end, OA DP fill ---------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. OA traceback
+ *****************************************************************/
+
+static inline float get_postprob(const P7_OMX *pp, int scur, int sprv, int k, int i);
+
+static inline int select_m(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int k);
+static inline int select_d(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int k);
+static inline int select_i(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int k);
+static inline int select_n(int i);
+static inline int select_c(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i);
+static inline int select_j(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i);
+static inline int select_e(const P7_OPROFILE *om,                   const P7_OMX *ox, int i, int *ret_k);
+static inline int select_b(const P7_OPROFILE *om,                   const P7_OMX *ox, int i);
+
+
+/* Function:  p7_OATrace()
+ * Synopsis:  Optimal accuracy decoding: traceback.
+ * Incept:    SRE, Mon Aug 18 13:53:33 2008 [Janelia]
+ *
+ * Purpose:   The traceback stage of the optimal accuracy decoding algorithm
+ *            \citep{Kall05}.
+ *            
+ *            Caller provides the OA DP matrix <ox> that was just
+ *            calculated by <p7_OptimalAccuracyDP()>, as well as the
+ *            posterior decoding matrix <pp>, which was calculated by
+ *            Forward/Backward on a target sequence using the query
+ *            model <gm>. Because the calculation depends only on
+ *            <pp>, the target sequence itself need not be provided.
+ *            
+ *            The resulting optimal accuracy decoding traceback is put
+ *            in a caller-provided traceback structure <tr>, which the
+ *            caller has allocated for optional posterior probability
+ *            annotation on residues (with <p7_trace_CreateWithPP()>,
+ *            generally). This structure will be reallocated
+ *            internally if necessary.
+ *
+ * Args:      om  - profile
+ *            pp  - posterior probability matrix
+ *            ox  - OA matrix to trace, LxM
+ *            tr  - storage for the recovered traceback
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> if the trace <tr> isn't empty (needs to be Reuse()'d).
+ */
+int
+p7_OATrace(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, P7_TRACE *tr)
+{
+  int   i   = ox->L;		/* position in sequence 1..L */
+  int   k   = 0;		/* position in model 1..M */
+  int   s0, s1;			/* choice of a state */
+  float postprob;
+  int   status;			
+  
+  if (tr->N != 0) ESL_EXCEPTION(eslEINVAL, "trace not empty; needs to be Reuse()'d?");
+
+  if ((status = p7_trace_AppendWithPP(tr, p7T_T, k, i, 0.0)) != eslOK) return status;
+  if ((status = p7_trace_AppendWithPP(tr, p7T_C, k, i, 0.0)) != eslOK) return status;
+
+  s0 = tr->st[tr->N-1];
+  while (s0 != p7T_S)
+    {
+      switch (s0) {
+      case p7T_M: s1 = select_m(om,     ox, i, k);  k--; i--; break;
+      case p7T_D: s1 = select_d(om,     ox, i, k);  k--;      break;
+      case p7T_I: s1 = select_i(om,     ox, i, k);       i--; break;
+      case p7T_N: s1 = select_n(i);                           break;
+      case p7T_C: s1 = select_c(om, pp, ox, i);               break;
+      case p7T_J: s1 = select_j(om, pp, ox, i);               break;
+      case p7T_E: s1 = select_e(om,     ox, i, &k);           break;
+      case p7T_B: s1 = select_b(om,     ox, i);               break;
+      default: ESL_EXCEPTION(eslEINVAL, "bogus state in traceback");
+      }
+      if (s1 == -1) ESL_EXCEPTION(eslEINVAL, "OA traceback choice failed");
+
+      postprob = get_postprob(pp, s1, s0, k, i);
+      if ((status = p7_trace_AppendWithPP(tr, s1, k, i, postprob)) != eslOK) return status;
+
+      if ( (s1 == p7T_N || s1 == p7T_J || s1 == p7T_C) && s1 == s0) i--;
+      s0 = s1;
+    } /* end traceback, at S state */
+  tr->M = om->M;
+  tr->L = ox->L;
+  return p7_trace_Reverse(tr);
+}
+
+static inline float
+get_postprob(const P7_OMX *pp, int scur, int sprv, int k, int i)
+{
+  int     Q     = p7O_NQF(pp->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell M(i,k) */
+  int     r     = (k-1) / Q;
+  union { vector float v; float p[4]; } u;
+
+  switch (scur) {
+  case p7T_M: u.v = MMO(pp->dpf[i], q); return u.p[r]; 
+  case p7T_I: u.v = IMO(pp->dpf[i], q); return u.p[r]; 
+  case p7T_N: if (sprv == scur) return pp->xmx[i*p7X_NXCELLS+p7X_N];
+  case p7T_C: if (sprv == scur) return pp->xmx[i*p7X_NXCELLS+p7X_C];
+  case p7T_J: if (sprv == scur) return pp->xmx[i*p7X_NXCELLS+p7X_J];
+  default:    return 0.0;
+  }
+}
+
+/* M(i,k) is reached from B(i-1), M(i-1,k-1), D(i-1,k-1), or I(i-1,k-1). */
+static inline int
+select_m(const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell M(i,k) */
+  int     r     = (k-1) / Q;
+  vector float *tp    = om->tfv + 7*q;       	/* *tp now at start of transitions to cur cell M(i,k) */
+  vector float  xBv;
+  vector float  zerov;
+  vector float  mpv, dpv, ipv;
+  union { vector float v; float p[4]; } u, tv;
+  float   path[4];
+  int     state[4] = { p7T_M, p7T_I, p7T_D, p7T_B };
+  
+  xBv   = esl_vmx_set_float(ox->xmx[(i-1)*p7X_NXCELLS+p7X_B]);
+  zerov = (vector float) vec_splat_u32(0);
+
+  if (q > 0) {
+    mpv = ox->dpf[i-1][(q-1)*3 + p7X_M];
+    dpv = ox->dpf[i-1][(q-1)*3 + p7X_D];
+    ipv = ox->dpf[i-1][(q-1)*3 + p7X_I];
+  } else {
+    mpv = vec_sld(zerov, ox->dpf[i-1][(Q-1)*3 + p7X_M], 12);
+    dpv = vec_sld(zerov, ox->dpf[i-1][(Q-1)*3 + p7X_D], 12);
+    ipv = vec_sld(zerov, ox->dpf[i-1][(Q-1)*3 + p7X_I], 12);
+  }	  
+
+  /* paths are numbered so that most desirable choice in case of tie is first. */
+  u.v = xBv;  tv.v = *tp;  path[3] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  tp++;
+  u.v = mpv;  tv.v = *tp;  path[0] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  tp++;
+  u.v = ipv;  tv.v = *tp;  path[1] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  tp++;
+  u.v = dpv;  tv.v = *tp;  path[2] = ((tv.p[r] == 0.0) ?  -eslINFINITY : u.p[r]);  
+  return state[esl_vec_FArgMax(path, 4)];
+}
+
+
+/* D(i,k) is reached from M(i, k-1) or D(i,k-1). */
+static inline int
+select_d(const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r     = (k-1) / Q;
+  vector float zerov;
+  union { vector float v; float p[4]; } mpv, dpv, tmdv, tddv;
+  float   path[2];
+
+  zerov = (vector float) vec_splat_u32(0);
+
+  if (q > 0) {
+    mpv.v  = ox->dpf[i][(q-1)*3 + p7X_M];
+    dpv.v  = ox->dpf[i][(q-1)*3 + p7X_D];
+    tmdv.v = om->tfv[7*(q-1) + p7O_MD];
+    tddv.v = om->tfv[7*Q + (q-1)];
+  } else {
+    mpv.v  = vec_sld(zerov, ox->dpf[i][(Q-1)*3 + p7X_M], 12);
+    dpv.v  = vec_sld(zerov, ox->dpf[i][(Q-1)*3 + p7X_D], 12);
+    tmdv.v = vec_sld(zerov, om->tfv[7*(Q-1) + p7O_MD],   12);
+    tddv.v = vec_sld(zerov, om->tfv[8*Q-1],              12);
+  }	  
+
+  path[0] = ((tmdv.p[r] == 0.0) ? -eslINFINITY : mpv.p[r]);
+  path[1] = ((tddv.p[r] == 0.0) ? -eslINFINITY : dpv.p[r]);
+  return  ((path[0] >= path[1]) ? p7T_M : p7T_D);
+}
+
+/* I(i,k) is reached from M(i-1, k) or I(i-1,k). */
+static inline int
+select_i(const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q    = p7O_NQF(ox->M);
+  int     q    = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r    = (k-1) / Q;
+  vector float *tp   = om->tfv + 7*q + p7O_MI;
+  union { vector float v; float p[4]; } tv, mpv, ipv;
+  float   path[2];
+
+  mpv.v = ox->dpf[i-1][q*3 + p7X_M]; tv.v = *tp;  path[0] = ((tv.p[r] == 0.0) ? -eslINFINITY : mpv.p[r]);  tp++;
+  ipv.v = ox->dpf[i-1][q*3 + p7X_I]; tv.v = *tp;  path[1] = ((tv.p[r] == 0.0) ? -eslINFINITY : ipv.p[r]);  
+  return  ((path[0] >= path[1]) ? p7T_M : p7T_I);
+}
+
+/* N(i) must come from N(i-1) for i>0; else it comes from S */
+static inline int
+select_n(int i)
+{
+  return ((i==0) ? p7T_S : p7T_N);
+}
+
+/* C(i) is reached from E(i) or C(i-1). */
+static inline int
+select_c(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i)
+{
+  float path[2];
+  path[0] = ( (om->xf[p7O_C][p7O_LOOP] == 0.0) ? -eslINFINITY : ox->xmx[(i-1)*p7X_NXCELLS+p7X_C] + pp->xmx[i*p7X_NXCELLS+p7X_C]);
+  path[1] = ( (om->xf[p7O_E][p7O_MOVE] == 0.0) ? -eslINFINITY : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+  return  ((path[0] > path[1]) ? p7T_C : p7T_E);
+}
+
+/* J(i) is reached from E(i) or J(i-1). */
+static inline int
+select_j(const P7_OPROFILE *om, const P7_OMX *pp, const P7_OMX *ox, int i)
+{
+  float path[2];
+
+  path[0] = ( (om->xf[p7O_J][p7O_LOOP] == 0.0) ? -eslINFINITY : ox->xmx[(i-1)*p7X_NXCELLS+p7X_J] + pp->xmx[i*p7X_NXCELLS+p7X_J]);
+  path[1] = ( (om->xf[p7O_E][p7O_LOOP] == 0.0) ? -eslINFINITY : ox->xmx[   i *p7X_NXCELLS+p7X_E]);
+  return  ((path[0] > path[1]) ? p7T_J : p7T_E);
+}
+ 
+/* E(i) is reached from any M(i, k=1..M) or D(i, k=2..M). */
+/* This assumes all M_k->E, D_k->E are 1.0 */
+static inline int
+select_e(const P7_OPROFILE *om, const P7_OMX *ox, int i, int *ret_k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  vector float *dp    = ox->dpf[i];
+  union { vector float v; float p[4]; } u;
+  float  max   = -eslINFINITY;
+  int    smax, kmax;
+  int    q,r;
+
+  /* precedence rules in case of ties here are a little tricky: M beats D: note the >= max!  */
+  for (q = 0; q < Q; q++)
+    {
+      u.v   = *dp; dp++;  for (r = 0; r < 4; r++) if (u.p[r] >= max) { max = u.p[r]; smax = p7T_M; kmax = r*Q + q + 1; }
+      u.v   = *dp; dp+=2; for (r = 0; r < 4; r++) if (u.p[r] > max)  { max = u.p[r]; smax = p7T_D; kmax = r*Q + q + 1; }
+    }
+  *ret_k = kmax;
+  return smax;
+}
+
+
+/* B(i) is reached from N(i) or J(i). */
+static inline int
+select_b(const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+
+  path[0] = ( (om->xf[p7O_N][p7O_MOVE] == 0.0) ? -eslINFINITY : ox->xmx[i*p7X_NXCELLS+p7X_N]);
+  path[1] = ( (om->xf[p7O_J][p7O_MOVE] == 0.0) ? -eslINFINITY : ox->xmx[i*p7X_NXCELLS+p7X_J]);
+  return  ((path[0] > path[1]) ? p7T_N : p7T_J);
+}
+/*---------------------- end, OA traceback ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Benchmark driver
+ *****************************************************************/
+#ifdef p7OPTACC_BENCHMARK
+/* 
+   icc  -O3 -static -o optacc_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7OPTACC_BENCHMARK optacc.c -lhmmer -leasel -lm 
+
+   ./optacc_benchmark <hmmfile>         runs benchmark on optimal accuracy fill and trace
+   ./optacc_benchmark -c -N1 <hmmfile>  compare scores of VMX version to generic impl
+   ./optacc_benchmark -x -N1 <hmmfile>  test that scores match trusted implementation.
+
+                    RRM_1 (M=72)       Caudal_act (M=136)     SMC_N (M=1151)
+                 -----------------    ------------------     ---------------
+   20 Aug 08:     13.11u (110 Mc/s)     23.39u (116 Mc/s)    332.62u (69 Mc/s)
+
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  { "--notrace", eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "only benchmark the DP fill stage",                 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for optimal accuracy alignment, VMX version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           fsc, bsc, accscore;
+  float           fsc_g, bsc_g, accscore_g;
+  double          Mcs;
+
+  p7_FLogsumInit();
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x") && p7_FLogsumError(-0.4, -0.5) > 0.0001)
+    p7_Fail("-x here requires p7_Logsum() recompiled in slow exact mode");
+
+  ox1 = p7_omx_Create(gm->M, L, L);
+  ox2 = p7_omx_Create(gm->M, L, L);
+  tr  = p7_trace_CreateWithPP();
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_Forward (dsq, L, om, ox1,      &fsc);
+  p7_Backward(dsq, L, om, ox1, ox2, &bsc);
+  p7_Decoding(om, ox1, ox2, ox2);              
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_OptimalAccuracy(om, ox2, ox1, &accscore);
+
+      if (! esl_opt_GetBoolean(go, "--notrace"))
+	{
+	  p7_OATrace(om, ox2, ox1, tr);
+	  p7_trace_Reuse(tr);
+	}
+    }
+  esl_stopwatch_Stop(w);
+
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x") )
+    {
+      gx1 = p7_gmx_Create(gm->M, L);
+      gx2 = p7_gmx_Create(gm->M, L);
+      
+      p7_GForward (dsq, L, gm, gx1, &fsc_g);
+      p7_GBackward(dsq, L, gm, gx2, &bsc_g);
+      p7_GDecoding(gm, gx1, gx2, gx2);             
+      p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g);
+
+      printf("generic:  fwd=%8.4f  bck=%8.4f  acc=%8.4f\n", fsc_g, bsc_g, accscore_g);
+      printf("VMX:      fwd=%8.4f  bck=%8.4f  acc=%8.4f\n", fsc,   bsc,   accscore);
+
+      p7_gmx_Destroy(gx1);
+      p7_gmx_Destroy(gx2);
+    }
+
+  free(dsq);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_trace_Destroy(tr);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPTACC_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7OPTACC_TESTDRIVE
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+/* 
+ * 1. Compare accscore to GOptimalAccuracy().
+ * 2. Compare trace to GOATrace().
+ * 
+ * Note: This test is subject to some expected noise and can fail
+ * for entirely innocent reasons. Generic Forward/Backward calculations with
+ * p7_GForward(), p7_GBackward() use coarse-grain table lookups to sum
+ * log probabilities, and sufficient roundoff error can accumulate to
+ * change the optimal accuracy traceback, causing this test to fail.
+ * So, if optacc_utest fails, before you go looking for bugs, first
+ * go to ../logsum.c, change the #ifdef to activate the slow/accurate 
+ * version, recompile and rerun optacc_utest. If the failure goes away,
+ * you can ignore it.   - SRE, Wed Dec 17 09:45:31 2008
+ */
+static void
+utest_optacc(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  char        *msg = "optimal accuracy unit test failed";
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_SQ      *sq  = esl_sq_CreateDigital(abc);
+  P7_OMX      *ox1 = p7_omx_Create(M, L, L);
+  P7_OMX      *ox2 = p7_omx_Create(M, L, L);
+  P7_GMX      *gx1 = p7_gmx_Create(M, L);
+  P7_GMX      *gx2 = p7_gmx_Create(M, L);
+  P7_TRACE    *tr  = p7_trace_CreateWithPP();
+  P7_TRACE    *trg = p7_trace_CreateWithPP();
+  P7_TRACE    *tro = p7_trace_CreateWithPP();
+  float        accscore_o;
+  float        fsc, bsc, accscore;
+  float        fsc_g, bsc_g, accscore_g, accscore_g2;
+  float        pptol = 0.01;
+  float        sctol = 0.001;
+  float        gtol;
+
+  p7_FLogsumInit();
+  gtol = ( (p7_FLogsumError(-0.4, -0.5) > 0.0001) ?  0.1 : 0.001);
+
+  if (p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om)!= eslOK) esl_fatal(msg);
+  while (N--)
+    {
+      if (p7_ProfileEmit(r, hmm, gm, bg, sq, tro)         != eslOK) esl_fatal(msg);
+
+      if (p7_omx_GrowTo(ox1, M, sq->n, sq->n)             != eslOK) esl_fatal(msg);
+      if (p7_omx_GrowTo(ox2, M, sq->n, sq->n)             != eslOK) esl_fatal(msg);
+      if (p7_gmx_GrowTo(gx1, M, sq->n)                    != eslOK) esl_fatal(msg);
+      if (p7_gmx_GrowTo(gx2, M, sq->n)                    != eslOK) esl_fatal(msg);
+
+      if (p7_Forward (sq->dsq, sq->n, om, ox1,      &fsc) != eslOK) esl_fatal(msg);
+      if (p7_Backward(sq->dsq, sq->n, om, ox1, ox2, &bsc) != eslOK) esl_fatal(msg);
+      if (p7_Decoding(om, ox1, ox2, ox2)                  != eslOK) esl_fatal(msg);
+      if (p7_OptimalAccuracy(om, ox2, ox1, &accscore)     != eslOK) esl_fatal(msg);
+
+#if 0
+      p7_omx_FDeconvert(ox1, gx1); 
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); 
+      p7_omx_FDeconvert(ox2, gx1); 
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); 
+#endif
+      if (p7_OATrace(om, ox2, ox1, tr)                    != eslOK) esl_fatal(msg);
+      
+      if (p7_GForward (sq->dsq, sq->n, gm, gx1, &fsc_g)   != eslOK) esl_fatal(msg);
+      if (p7_GBackward(sq->dsq, sq->n, gm, gx2, &bsc_g)   != eslOK) esl_fatal(msg);
+
+#if 0
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); /* fwd */
+      p7_gmx_Dump(stdout, gx2, p7_DEFAULT); /* bck */
+#endif
+
+      if (p7_GDecoding(gm, gx1, gx2, gx2)                 != eslOK) esl_fatal(msg);
+      if (p7_GOptimalAccuracy(gm, gx2, gx1, &accscore_g)  != eslOK) esl_fatal(msg);
+      
+#if 0
+      p7_gmx_Dump(stdout, gx1, p7_DEFAULT); /* oa */
+      p7_gmx_Dump(stdout, gx2, p7_DEFAULT); /* pp */
+#endif
+      if (p7_GOATrace(gm, gx2, gx1, trg)                  != eslOK) esl_fatal(msg);
+
+      if (p7_trace_SetPP(tro, gx2)                        != eslOK) esl_fatal(msg);
+
+      if (esl_opt_GetBoolean(go, "--traces"))
+	{
+	  p7_trace_Dump(stdout, tro, gm, sq->dsq);
+	  p7_trace_Dump(stdout, tr,  gm, sq->dsq);
+	  p7_trace_Dump(stdout, trg, gm, sq->dsq);
+	}
+
+      if (p7_trace_Validate(tr,  abc, sq->dsq, NULL)      != eslOK) esl_fatal(msg);
+      if (p7_trace_Validate(trg, abc, sq->dsq, NULL)      != eslOK) esl_fatal(msg);
+      if (p7_trace_Compare(tr, trg, pptol)                != eslOK) esl_fatal(msg);
+
+      accscore_o  = p7_trace_GetExpectedAccuracy(tro); /* according to gx2; see p7_trace_SetPP() call above */
+      accscore_g2 = p7_trace_GetExpectedAccuracy(trg);
+
+#if 0
+      printf("%f %f %f %f\n", accscore, accscore_g, accscore_g2, accscore_o);
+#endif
+
+      if (esl_FCompare(fsc,        bsc,         sctol)    != eslOK) esl_fatal(msg);
+      if (esl_FCompare(fsc_g,      bsc_g,       gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(fsc,        fsc_g,       gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(accscore,   accscore_g,  gtol)     != eslOK) esl_fatal(msg);
+      if (esl_FCompare(accscore_g, accscore_g2, gtol)     != eslOK) esl_fatal(msg);
+      if (accscore_g2 < accscore_o)                                 esl_fatal(msg);
+      /* the above deserves explanation:
+       *  - accscore_o is the accuracy of the originally emitted trace, according
+       *      to the generic posterior decoding matrix <gx2>. This is a lower bound
+       *      on the expected # of accurately aligned residues found by a DP 
+       *      optimization.
+       *  - accscore is the accuracy found by the fast (vector) code DP implementation.
+       *  - accscore_g is the accuracy found by the generic DP implementation.
+       *      accscore and accscore_g should be nearly identical,
+       *      within tolerance of roundoff error accumulation and
+       *      the imprecision of Logsum() tables.
+       *  - accscore_g2 is the accuracy of the traceback identified by the generic
+       *      DP implementation. It should be identical (within order-of-evaluation
+       *      roundoff error) to accscore_g.
+       *      
+       * the "accscore_g2 < accscore_o" test is carefully contrived.
+       * accscore_o is a theoretical lower bound but because of fp error, 
+       * accscore and (much more rarely) even accscore_g can exceed accscore_o.
+       * accscore_g2, however, is calculated with identical order of evaluation
+       * as accscore_o if the optimal trace does turn out to be identical to 
+       * the originally emitted trace. It should be extremely unlikely (though
+       * not impossible) for accscore_o to exceed accscore_g2. (The DP algorithm
+       * would have to identify a trace that was different than the original trace,
+       * which the DP algorithm, by order-of-evaluation, assigned higher accuracy,
+       * but order-of-evaluation in traceback dependent code assigned lower accuracy.
+       * [xref J5/29]
+       */
+
+      esl_sq_Reuse(sq);
+      p7_trace_Reuse(tr);
+      p7_trace_Reuse(trg);
+      p7_trace_Reuse(tro);
+    }
+
+  p7_trace_Destroy(tro);
+  p7_trace_Destroy(trg);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx2);
+  p7_gmx_Destroy(gx1);
+  p7_omx_Destroy(ox2);
+  p7_omx_Destroy(ox1);  
+  esl_sq_Destroy(sq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+}
+
+#endif /*p7OPTACC_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef p7OPTACC_TESTDRIVE
+
+/* Failures in this test are to be expected, if you change the defaults.
+ * The default RNG seed of 41 is very carefully chosen! Most seeds will
+ * cause this test to fail. (Only 13 and 41 work for seeds 1..50.)
+ * 
+ * The generic fwd/bck algorithms work in log space and suffer from a
+ * small amount of imprecision, not only from the use of FLogsum()'s
+ * table-driven approximation, but even (apparently) inherent in log()
+ * and exp(). To minimize this, the generic decoding algorithm burns
+ * time renormalizing each row. Still, it's a problem. See notes at
+ * the header of utest_optacc() for more info.
+ * 
+ * Another expected failure mode is when a fwd, bck nat score are close to
+ * 0.0; FCompare() can evaluate two close-to-zero numbers as "different"
+ * even if their absolute diff is negligible. (I suppose I could fix this.)
+ */
+
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -o optacc_utest -I.. -L.. -I../../easel -L../../easel -Dp7OPTACC_TESTDRIVE optacc.c -lhmmer -leasel -lm
+   ./optacc_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "41", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,     "50", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,     "45", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,     "20", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  { "--traces",  eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump all tracebacks",                            0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for VMX Forward, Backward implementations";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* first round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_optacc(go, r, abc, bg, M, L, N);   /* normal sized models */
+  utest_optacc(go, r, abc, bg, 1, L, 10);  /* size 1 models       */
+  utest_optacc(go, r, abc, bg, M, 1, 10);  /* size 1 sequences    */
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_optacc(go, r, abc, bg, M, L, N);   
+  utest_optacc(go, r, abc, bg, 1, L, 10);  
+  utest_optacc(go, r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7OPTACC_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Example
+ *****************************************************************/
+#ifdef p7OPTACC_EXAMPLE
+/* 
+   gcc -g -Wall -o optacc_example -Dp7OPTACC_EXAMPLE -I.. -I../../easel -L.. -L../../easel optacc.c -lhmmer -leasel -lm
+   ./optacc_example <hmmfile> <seqfile>
+*/
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-d",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump posterior residue decoding matrix",           0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump OA matrix",                                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of optimal accuracy alignment, VMX implementation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox1     = NULL;
+  P7_OMX         *ox2     = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  char            errbuf[eslERRBUFSIZE];
+  float           fsc, bsc;
+  float           accscore;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+ 
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+ 
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL); /* multihit local: H3 default */
+  om = p7_oprofile_Create(gm->M, abc);    p7_oprofile_Convert(gm, om);
+
+  /* Allocations */
+  ox1 = p7_omx_Create(gm->M, sq->n, sq->n);
+  ox2 = p7_omx_Create(gm->M, sq->n, sq->n);
+  gx  = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_CreateWithPP();
+  p7_FLogsumInit();
+
+  /* Run Forward, Backward; do OA fill and trace */
+  p7_Forward (sq->dsq, sq->n, om, ox1,      &fsc);
+  p7_Backward(sq->dsq, sq->n, om, ox1, ox2, &bsc);
+  p7_Decoding(om, ox1, ox2, ox2);                   /* <gx2> is now the posterior decoding matrix */
+  p7_OptimalAccuracy(om, ox2, ox1, &accscore);	    /* <gx1> is now the OA matrix */
+  p7_OATrace(om, ox2, ox1, tr);
+  
+  if (esl_opt_GetBoolean(go, "-d")) { p7_omx_FDeconvert(ox2, gx);  p7_gmx_Dump(stdout, gx, p7_DEFAULT); }
+  if (esl_opt_GetBoolean(go, "-m")) { p7_omx_FDeconvert(ox1, gx);  p7_gmx_Dump(stdout, gx, p7_DEFAULT); }
+
+  p7_trace_Dump(stdout, tr, gm, sq->dsq);
+
+  if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK) p7_Die("trace fails validation:\n%s\n", errbuf);
+
+  printf("fwd = %.4f nats\n", fsc);
+  printf("bck = %.4f nats\n", bsc);
+  printf("acc = %.4f (%.2f%%)\n", accscore, accscore * 100. / (float) sq->n);
+
+  /* Cleanup */
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(ox1);
+  p7_omx_Destroy(ox2);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPTACC_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/p7_omx.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/p7_omx.c
new file mode 100755
index 0000000..abbe9dd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/p7_omx.c
@@ -0,0 +1,670 @@
+/* VMX implementation of an optimized profile structure.
+ * 
+ * Contents:
+ *   1. The P7_OMX structure: a dynamic programming matrix
+ *   2. Debugging dumps of P7_OMX structures
+ *   3. Copyright and license information
+ * 
+ * See also:
+ *   p7_omx.ai - figure illustrating the layout of a P7_OMX.
+ *
+ * SRE, Sun Nov 25 11:26:48 2007 [Casa de Gatos]
+ * SVN $Id: p7_omx.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+#include <float.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_vectorops.h"
+#include "esl_vmx.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+/*****************************************************************
+ * 1. The P7_OMX structure: a dynamic programming matrix
+ *****************************************************************/
+
+/* Function:  p7_omx_Create()
+ * Synopsis:  Create an optimized dynamic programming matrix.
+ * Incept:    SRE, Tue Nov 27 08:48:20 2007 [Janelia]
+ *
+ * Purpose:   Allocates a reusable, resizeable <P7_OMX> for models up to
+ *            size <allocM> and target sequences up to length
+ *            <allocL/allocXL>, for use by any of the various optimized
+ *            DP routines.
+ *            
+ *            To allocate the very memory-efficient one-row matrix
+ *            used by *Filter() and *Score() functions that only
+ *            calculate scores, <allocM=M>, <allocL=0>, and
+ *            <allocXL=0>.
+ *            
+ *            To allocate the reasonably memory-efficient linear
+ *            arrays used by *Parser() functions that only keep
+ *            special (X) state scores, <allocM=M>, <allocL=0>,
+ *            and <allocXL=L>.
+ *            
+ *            To allocate a complete matrix suitable for functions
+ *            that need the whole DP matrix for traceback, sampling,
+ *            posterior decoding, or reestimation, <allocM=M> and
+ *            <allocL=allocXL=L>.
+ *
+ * Returns:   a pointer to the new <P7_OMX>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_OMX *
+p7_omx_Create(int allocM, int allocL, int allocXL)
+{
+  P7_OMX  *ox     = NULL;
+  int      i;
+  int      status;
+
+  ESL_ALLOC(ox, sizeof(P7_OMX));
+  ox->dp_mem = NULL;
+  ox->dpb    = NULL;
+  ox->dpw    = NULL;
+  ox->dpf    = NULL;
+  ox->xmx    = NULL;
+  ox->x_mem  = NULL;
+
+  /* DP matrix will be allocated for allocL+1 rows 0,1..L; allocQ4*p7X_NSCELLS columns */
+  ox->allocR   = allocL+1;
+  ox->validR   = ox->allocR;
+  ox->allocQ4  = p7O_NQF(allocM);
+  ox->allocQ8  = p7O_NQW(allocM);
+  ox->allocQ16 = p7O_NQB(allocM);
+  ox->ncells   = ox->allocR * ox->allocQ4 * 4;      /* # of DP cells allocated, where 1 cell contains MDI */
+
+  /* floats always dominate; +15 for alignment */
+  ESL_ALLOC(ox->dp_mem, sizeof(vector float) * ox->allocR * ox->allocQ4 * p7X_NSCELLS + 15);
+  ESL_ALLOC(ox->dpb,    sizeof(vector unsigned char *) * ox->allocR);
+  ESL_ALLOC(ox->dpw,    sizeof(vector signed short *)  * ox->allocR);
+  ESL_ALLOC(ox->dpf,    sizeof(vector float *)         * ox->allocR);
+
+  /* DP memory shared by <dpb>, <dpw>, <dpf> */
+  ox->dpb[0] = (vector unsigned char *) ((unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf));
+  ox->dpw[0] = (vector signed short *)  ox->dpb[0];
+  ox->dpf[0] = (vector float *)         ox->dpb[0];
+
+  for (i = 1; i <= allocL; i++) {
+    ox->dpf[i] = ox->dpf[0] + i * ox->allocQ4  * p7X_NSCELLS;
+    ox->dpw[i] = ox->dpw[0] + i * ox->allocQ8  * p7X_NSCELLS;
+    ox->dpb[i] = ox->dpb[0] + i * ox->allocQ16;
+  }
+
+  ox->allocXR = allocXL+1;
+  ESL_ALLOC(ox->x_mem,  sizeof(float) * ox->allocXR * p7X_NXCELLS + 15); 
+  ox->xmx = (float *) ((unsigned long int) ((char *) ox->x_mem  + 15) & (~0xf));
+
+  ox->M              = 0;
+  ox->L              = 0;
+  ox->totscale       = 0.0;
+  ox->has_own_scales = TRUE;	/* most matrices are Forward, control their own scale factors */
+#ifdef p7_DEBUGGING
+  ox->debugging = FALSE;
+  ox->dfp       = NULL;
+#endif
+  return ox;
+
+ ERROR:
+  p7_omx_Destroy(ox);
+  return NULL;
+}
+
+/* Function:  p7_omx_GrowTo()
+ * Synopsis:  Assure that a DP matrix is big enough.
+ * Incept:    SRE, Thu Dec 20 09:27:07 2007 [Janelia]
+ *
+ * Purpose:   Assures that an optimized DP matrix <ox> is allocated for
+ *            a model up to <allocM> in length; if not, reallocate to
+ *            make it so.
+ *            
+ *            Because the optimized matrix is one-row, only the model
+ *            length matters; the target sequence length isn't
+ *            relevant.
+ *
+ * Returns:   <eslOK> on success, and <gx> may be reallocated upon
+ *            return; any data that may have been in <gx> must be 
+ *            assumed to be invalidated.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and any data that may
+ *            have been in <gx> must be assumed to be invalidated.
+ */
+int
+p7_omx_GrowTo(P7_OMX *ox, int allocM, int allocL, int allocXL)
+{
+  void  *p;
+  int    nqf  = p7O_NQF(allocM);	       /* segment length; total # of striped vectors for uchar */
+  int    nqw  = p7O_NQW(allocM);	       /* segment length; total # of striped vectors for float */
+  int    nqb  = p7O_NQB(allocM);	       /* segment length; total # of striped vectors for float */
+  size_t ncells = (allocL+1) * nqf * 4;
+  int    reset_row_pointers = FALSE;
+  int    i;
+  int    status;
+ 
+  /* If all possible dimensions are already satisfied, the matrix is fine */
+  if (ox->allocQ4*4 >= allocM && ox->validR > allocL && ox->allocXR >= allocXL+1) return eslOK;
+
+  /* If the main matrix is too small in cells, reallocate it; 
+   * and we'll need to realign/reset the row pointers later.
+   */
+  if (ncells > ox->ncells)
+    {
+      ESL_RALLOC(ox->dp_mem, p, sizeof(vector float) * (allocL+1) * nqf * p7X_NSCELLS + 15);
+      ox->ncells = ncells;
+      reset_row_pointers = TRUE;
+    }
+
+  /* If the X beams are too small, reallocate them. */
+  if (allocXL+1 >= ox->allocXR)
+    {
+      ESL_RALLOC(ox->x_mem, p,  sizeof(float) * (allocXL+1) * p7X_NXCELLS + 15); 
+      ox->allocXR = allocXL+1;
+      ox->xmx     = (float *) ((unsigned long int) ((char *) ox->x_mem  + 15) & (~0xf));
+    }
+
+  /* If there aren't enough rows, reallocate the row pointers; we'll
+   * realign and reset them later.
+   */
+  if (allocL >= ox->allocR)
+    {
+      ESL_RALLOC(ox->dpb, p, sizeof(vector unsigned char *) * (allocL+1));
+      ESL_RALLOC(ox->dpw, p, sizeof(vector signed short * ) * (allocL+1));
+      ESL_RALLOC(ox->dpf, p, sizeof(vector float *)         * (allocL+1));
+      ox->allocR         = allocL+1;
+      reset_row_pointers = TRUE;
+    }
+
+  /* must we widen the rows? */
+  if (allocM > ox->allocQ4*4)
+    reset_row_pointers = TRUE;
+
+  /* must we set some more valid row pointers? */
+  if (allocL >= ox->validR)
+    reset_row_pointers = TRUE;
+
+  /* now reset the row pointers, if needed */
+  if (reset_row_pointers)
+    {
+      ox->dpb[0] = (vector unsigned char *) ((unsigned long int) ((char *) ox->dp_mem + 15) & (~0xf));
+      ox->dpw[0] = (vector signed short *) ox->dpb[0];
+      ox->dpf[0] = (vector float *) ox->dpb[0];
+
+      ox->validR = ESL_MIN( ox->ncells / (nqf * 4), ox->allocR);
+      for (i = 1; i < ox->validR; i++)
+	{
+	  ox->dpb[i] = ox->dpb[0] + i * nqb;
+	  ox->dpw[i] = ox->dpw[0] + i * nqw * p7X_NSCELLS;
+	  ox->dpf[i] = ox->dpf[0] + i * nqf * p7X_NSCELLS;
+	}
+
+      ox->allocQ4  = nqf;
+      ox->allocQ8  = nqw;
+      ox->allocQ16 = nqb;
+    }
+  
+  ox->M = 0;
+  ox->L = 0;
+  return eslOK;
+
+ ERROR:
+  return status;
+}  
+
+/* Function:  p7_omx_FDeconvert()
+ * Synopsis:  Convert an optimized DP matrix to generic one.
+ * Incept:    SRE, Tue Aug 19 17:58:13 2008 [Janelia]
+ *
+ * Purpose:   Convert the 32-bit float values in optimized DP matrix
+ *            <ox> to a generic one <gx>. Caller provides <gx> with sufficient
+ *            space to hold the <ox->M> by <ox->L> matrix.
+ *            
+ *            This function is used to gain access to the
+ *            somewhat more powerful debugging and display
+ *            tools available for generic DP matrices.
+ */
+int
+p7_omx_FDeconvert(P7_OMX *ox, P7_GMX *gx)
+{
+  int Q = p7O_NQF(ox->M);
+  int i, q, r, k;
+  union { vector float v; float p[4]; } u;
+  float      **dp   = gx->dp;
+  float       *xmx  = gx->xmx; 			    
+
+  for (i = 0; i <= ox->L; i++)
+    {
+      MMX(i,0) = DMX(i,0) = IMX(i,0) = -eslINFINITY;
+      for (q = 0; q < Q; q++)
+	{
+	  u.v = MMO(ox->dpf[i],q);  
+	  for (r = 0; r < 4; r++) 
+	    { 
+	      k = (Q*r)+q+1; 
+	      if (k <= ox->M) MMX(i, (Q*r)+q+1) = u.p[r]; 
+	    }
+
+	  u.v = DMO(ox->dpf[i],q);  
+	  for (r = 0; r < 4; r++) 
+	    { 
+	      k = (Q*r)+q+1; 
+	      if (k <= ox->M) DMX(i, (Q*r)+q+1) = u.p[r]; 
+	    }
+
+	  u.v = IMO(ox->dpf[i],q);  
+	  for (r = 0; r < 4; r++) 
+	    { 
+	      k = (Q*r)+q+1; 
+	      if (k <= ox->M) IMX(i, (Q*r)+q+1) = u.p[r]; 
+	    }
+	}
+      XMX(i,p7G_E) = ox->xmx[i*p7X_NXCELLS+p7X_E];
+      XMX(i,p7G_N) = ox->xmx[i*p7X_NXCELLS+p7X_N];
+      XMX(i,p7G_J) = ox->xmx[i*p7X_NXCELLS+p7X_J];
+      XMX(i,p7G_B) = ox->xmx[i*p7X_NXCELLS+p7X_B];
+      XMX(i,p7G_C) = ox->xmx[i*p7X_NXCELLS+p7X_C];
+    }
+  gx->L = ox->L;
+  gx->M = ox->M;
+  return eslOK;
+}
+
+
+/* Function:  p7_omx_Reuse()
+ * Synopsis:  Recycle an optimized DP matrix.
+ * Incept:    SRE, Wed Oct 22 11:31:00 2008 [Janelia]
+ *
+ * Purpose:   Recycles <ox> for re-use.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_omx_Reuse(P7_OMX *ox)
+{
+  ox->M              = 0;
+  ox->L              = 0;
+  ox->totscale       = 0.0;
+  ox->has_own_scales = TRUE;	/* default assumes a Forward matrix, with its own scale factors */
+#ifdef p7_DEBUGGING
+  ox->debugging      = FALSE;
+  ox->dfp            = NULL;
+#endif
+  return eslOK;
+}
+
+
+
+
+/* Function:  p7_omx_Destroy()
+ * Synopsis:  Frees an optimized DP matrix.
+ * Incept:    SRE, Tue Nov 27 09:11:42 2007 [Janelia]
+ *
+ * Purpose:   Frees optimized DP matrix <ox>.
+ *
+ * Returns:   (void)
+ */
+void
+p7_omx_Destroy(P7_OMX *ox)
+{
+  if (ox == NULL) return;
+  if (ox->x_mem   != NULL) free(ox->x_mem);
+  if (ox->dp_mem  != NULL) free(ox->dp_mem);
+  if (ox->dpf     != NULL) free(ox->dpf);
+  if (ox->dpw     != NULL) free(ox->dpw);
+  if (ox->dpb     != NULL) free(ox->dpb);
+  free(ox);
+  return;
+}
+/*------------------- end, P7_OMX structure ---------------------*/
+
+
+
+/*****************************************************************
+ * 2. Debugging dumps of P7_OMX structures
+ *****************************************************************/
+/* Because the P7_OMX may be a one-row DP matrix, we can't just run a
+ * DP calculation and then dump a whole matrix; we have to dump each
+ * row one at a time, as the DP calculation is progressing. Thus we
+ * need to call the dump from *within* some DP routines. We'd rather not
+ * have anything like this in production code - not even a flag check.
+ * So, we use a compile-time debugging idiom, with conditionally
+ * compiled debugging code that's added to the DP routines to check a
+ * debugging flag in the P7_OMX structure; if it's up, we dump a row.
+ *
+ * Therefore, the externally exposed API call is p7_omx_SetDumpMode(),
+ * rather than the dumping routine itself; and all p7_omx_SetDumpMode()
+ * does is sets the debugging flag in <ox>.
+ */
+
+/* Function:  p7_omx_SetDumpMode()
+ * Synopsis:  Set an optimized DP matrix to be dumped for debugging.
+ * Incept:    SRE, Thu Dec 13 10:24:38 2007 [Janelia]
+ *
+ * Purpose:   Sets debugging mode for DP matrix <ox>.  If <truefalse>
+ *            flag is <TRUE>, then whenever a dynamic programming
+ *            calculation is run, dump DP matrix <ox> to stream <fp>
+ *            for diagnostics.
+ *            
+ *            When the dump mode is on, the DP routine itself actually
+ *            does the dumping, because it has to dump after every row
+ *            is calculated. (We're doing an optimized one-row
+ *            calculation.)
+ *            
+ *            If the code has not been compiled with the
+ *            <p7_DEBUGGING> flag up, this function is a no-op.
+ *
+ * Args:      fp        - output stream for diagnostics (stdout, perhaps)
+ *            ox        - DP matrix to set debugging mode
+ *            truefalse - TRUE to set dumping, FALSE to unset
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      J2/62.
+ */
+int
+p7_omx_SetDumpMode(FILE *fp, P7_OMX *ox, int truefalse)
+{
+#if p7_DEBUGGING
+  ox->debugging = truefalse;
+  ox->dfp       = fp;
+#endif
+  return eslOK;
+}
+
+
+/* Function:  p7_omx_DumpMFRow()
+ * Synopsis:  Dump one row from MSV uchar version of a DP matrix.
+ * Incept:    SRE, Wed Jul 30 16:47:26 2008 [Janelia]
+ *
+ * Purpose:   Dump current row of uchar part of DP matrix <ox> for diagnostics,
+ *            and include the values of specials <xE>, etc. The index <rowi> for
+ *            the current row is used as a row label. This routine has to be 
+ *            specialized for the layout of the MSVFilter() row, because it's
+ *            all match scores dp[0..q..Q-1], rather than triplets of M,D,I.
+ * 
+ *            If <rowi> is 0, print a header first too.
+ * 
+ *            The output format is coordinated with <p7_gmx_Dump()> to
+ *            facilitate comparison to a known answer.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. 
+ */
+int
+p7_omx_DumpMFRow(P7_OMX *ox, int rowi, uint8_t xE, uint8_t xN, uint8_t xJ, uint8_t xB, uint8_t xC)
+{
+  vector unsigned char *dp = ox->dpb[0];	
+  int      M  = ox->M;
+  int      Q  = p7O_NQB(M);
+  uint8_t *v  = NULL;		/* array of unstriped scores  */
+  int      q,z,k;
+  union { vector unsigned char v; uint8_t i[16]; } tmp;
+  int      status;
+
+  ESL_ALLOC(v, sizeof(unsigned char) * ((Q*16)+1));
+  v[0] = 0;
+
+  /* Header (if we're on the 0th row)  */
+  if (rowi == 0)
+    {
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M;  k++) fprintf(ox->dfp, "%3d ", k);
+      fprintf(ox->dfp, "%3s %3s %3s %3s %3s\n", "E", "N", "J", "B", "C");
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M+5;  k++) fprintf(ox->dfp, "%3s ", "---");
+      fprintf(ox->dfp, "\n");
+    }
+
+  /* Unpack and unstripe, then print M's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = dp[q];
+    for (z = 0; z < 16; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d M ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%3d ", v[k]);
+
+  /* The specials */
+  fprintf(ox->dfp, "%3d %3d %3d %3d %3d\n", xE, xN, xJ, xB, xC);
+
+  /* I's are all 0's; print just to facilitate comparison. */
+  fprintf(ox->dfp, "%4d I ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%3d ", 0);
+  fprintf(ox->dfp, "\n");
+
+  /* D's are all 0's too */
+  fprintf(ox->dfp, "%4d D ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%3d ", 0);
+  fprintf(ox->dfp, "\n\n");
+
+  free(v);
+  return eslOK;
+
+ERROR:
+  free(v);
+  return status;
+}
+
+
+/* Function:  p7_omx_DumpVFRow()
+ * Synopsis:  Dump current row of ViterbiFilter (int16) part of <ox> matrix.
+ * Incept:    SRE, Wed Jul 30 16:43:21 2008 [Janelia]
+ *
+ * Purpose:   Dump current row of ViterbiFilter (int16) part of DP
+ *            matrix <ox> for diagnostics, and include the values of
+ *            specials <xE>, etc. The index <rowi> for the current row
+ *            is used as a row label.
+ *
+ *            If <rowi> is 0, print a header first too.
+ * 
+ *            The output format is coordinated with <p7_gmx_Dump()> to
+ *            facilitate comparison to a known answer.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_omx_DumpVFRow(P7_OMX *ox, int rowi, int16_t xE, int16_t xN, int16_t xJ, int16_t xB, int16_t xC)
+{
+  vector signed short *dp = ox->dpw[0];	/* must set <dp> before using {MDI}MX macros */
+  int      M  = ox->M;
+  int      Q  = p7O_NQW(M);
+  int16_t *v  = NULL;		/* array of unstriped, uninterleaved scores  */
+  int      q,z,k;
+  union { vector signed short v; int16_t i[8]; } tmp;
+  int      status;
+
+  ESL_ALLOC(v, sizeof(int16_t) * ((Q*8)+1));
+  v[0] = 0;
+
+  /* Header (if we're on the 0th row)
+   */
+  if (rowi == 0)
+    {
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M;  k++) fprintf(ox->dfp, "%6d ", k);
+      fprintf(ox->dfp, "%6s %6s %6s %6s %6s\n", "E", "N", "J", "B", "C");
+      fprintf(ox->dfp, "       ");
+      for (k = 0; k <= M+5;  k++) fprintf(ox->dfp, "%6s ", "------");
+      fprintf(ox->dfp, "\n");
+    }
+
+  /* Unpack and unstripe, then print M's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = MMXo(q);
+    for (z = 0; z < 8; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d M ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%6d ", v[k]);
+
+  /* The specials */
+  fprintf(ox->dfp, "%6d %6d %6d %6d %6d\n", xE, xN, xJ, xB, xC);
+
+  /* Unpack and unstripe, then print I's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = IMXo(q);
+    for (z = 0; z < 8; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d I ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%6d ", v[k]);
+  fprintf(ox->dfp, "\n");
+
+  /* Unpack, unstripe, then print D's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = DMXo(q);
+    for (z = 0; z < 8; z++) v[q+Q*z+1] = tmp.i[z];
+  }
+  fprintf(ox->dfp, "%4d D ", rowi);
+  for (k = 0; k <= M; k++) fprintf(ox->dfp, "%6d ", v[k]);
+  fprintf(ox->dfp, "\n\n");
+
+  free(v);
+  return eslOK;
+
+ERROR:
+  free(v);
+  return status;
+
+}
+
+/* Function:  p7_omx_DumpFBRow()
+ * Synopsis:  Dump one row from float part of a DP matrix.
+ * Incept:    SRE, Wed Jul 30 16:45:16 2008 [Janelia]
+ *
+ * Purpose:   Dump current row of Forward/Backward (float) part of DP
+ *	      matrix <ox> for diagnostics, and include the values of
+ *	      specials <xE>, etc. The index <rowi> for the current row
+ *	      is used as a row label. 
+ *
+ *            The output format of the floats is controlled by
+ *	      <width>, <precision>; 8,5 is good for pspace, 5,2 is
+ *	      fine for lspace.
+ * 	       								       
+ * 	      If <rowi> is 0, print a header first too.			       
+ * 	       								       
+ * 	      If <logify> is TRUE, then scores are printed as log(score); this is 
+ * 	      useful for comparing DP with pspace scores with other DP matrices   
+ * 	      (like generic P7_GMX ones) that use log-odds scores.		       
+ * 	       								       
+ * 	      The output format is coordinated with <p7_gmx_Dump()> to	       
+ * 	      facilitate comparison to a known answer.                            
+ * 
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.  
+ */
+int
+p7_omx_DumpFBRow(P7_OMX *ox, int logify, int rowi, int width, int precision, float xE, float xN, float xJ, float xB, float xC)
+{
+  vector float *dp;
+  int      M  = ox->M;
+  int      Q  = p7O_NQF(M);
+  float   *v  = NULL;		/* array of uninterleaved, unstriped scores  */
+  int      q,z,k;
+  union { vector float v; float x[4]; } tmp;
+  int      status;
+
+  dp = (ox->allocR == 1) ? ox->dpf[0] :	ox->dpf[rowi];	  /* must set <dp> before using {MDI}MX macros */
+
+  ESL_ALLOC(v, sizeof(float) * ((Q*4)+1));
+  v[0] = 0.;
+
+  if (rowi == 0)
+    {
+      fprintf(ox->dfp, "      ");
+      for (k = 0; k <= M;  k++) fprintf(ox->dfp, "%*d ", width, k);
+      fprintf(ox->dfp, "%*s %*s %*s %*s %*s\n", width, "E", width, "N", width, "J", width, "B", width, "C");
+      fprintf(ox->dfp, "      ");
+      for (k = 0; k <= M+5;  k++) fprintf(ox->dfp, "%*s ", width, "--------");
+      fprintf(ox->dfp, "\n");
+    }
+
+  /* Unpack, unstripe, then print M's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = MMXo(q);
+    for (z = 0; z < 4; z++) v[q+Q*z+1] = tmp.x[z];
+  }
+  fprintf(ox->dfp, "%3d M ", rowi);
+  if (logify) for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k] == 0. ? -eslINFINITY : log(v[k]));
+  else        for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k]);
+
+ /* The specials */
+  if (logify) fprintf(ox->dfp, "%*.*f %*.*f %*.*f %*.*f %*.*f\n",
+		      width, precision, xE == 0. ? -eslINFINITY : log(xE),
+		      width, precision, xN == 0. ? -eslINFINITY : log(xN),
+		      width, precision, xJ == 0. ? -eslINFINITY : log(xJ),
+		      width, precision, xB == 0. ? -eslINFINITY : log(xB), 
+		      width, precision, xC == 0. ? -eslINFINITY : log(xC));
+  else        fprintf(ox->dfp, "%*.*f %*.*f %*.*f %*.*f %*.*f\n",
+		      width, precision, xE,   width, precision, xN, width, precision, xJ, 
+		      width, precision, xB,   width, precision, xC);
+
+  /* Unpack, unstripe, then print I's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = IMXo(q);
+    for (z = 0; z < 4; z++) v[q+Q*z+1] = tmp.x[z];
+  }
+  fprintf(ox->dfp, "%3d I ", rowi);
+  if (logify) for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k] == 0. ? -eslINFINITY : log(v[k]));
+  else        for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k]);
+  fprintf(ox->dfp, "\n");
+
+  /* Unpack, unstripe, then print D's. */
+  for (q = 0; q < Q; q++) {
+    tmp.v = DMXo(q);
+    for (z = 0; z < 4; z++) v[q+Q*z+1] = tmp.x[z];
+  }
+  fprintf(ox->dfp, "%3d D ", rowi);
+  if (logify) for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k] == 0. ? -eslINFINITY : log(v[k]));
+  else        for (k = 0; k <= M; k++) fprintf(ox->dfp, "%*.*f ", width, precision, v[k]);
+  fprintf(ox->dfp, "\n\n");
+
+  free(v);
+  return eslOK;
+
+ERROR:
+  free(v);
+  return status;
+}
+/*------------- end, debugging dumps of P7_OMX ------------------*/
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+/*---------------------- end, unit tests ------------------------*/
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+/*---------------------- end, test driver -----------------------*/
+
+
+/*****************************************************************
+ * 13. Example
+ *****************************************************************/
+/*------------------------ example ------------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/p7_oprofile.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/p7_oprofile.c
new file mode 100755
index 0000000..7b6dad2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/p7_oprofile.c
@@ -0,0 +1,2099 @@
+/* Routines for the P7_OPROFILE structure:
+ * a search profile in an optimized implementation.
+ *
+ * Contents:
+ *   1. The P7_OPROFILE object: allocation, initialization, destruction.
+ *   2. Conversion from generic P7_PROFILE to optimized P7_OPROFILE
+ *   3. Conversion from optimized P7_OPROFILE to compact score arrays
+ *   4. Debugging and development utilities.
+ *   5. Benchmark driver.
+ *   6. Unit tests.
+ *   7. Test driver.
+ *   8. Example.
+ *   9. Copyright and license information.
+ *
+ * SRE, Wed Jul 30 11:00:04 2008 [Janelia]
+ * SVN $Id: p7_oprofile.c 4699 2014-07-03 14:54:25Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <string.h>
+#include <math.h>		/* roundf() */
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_vmx.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static uint8_t unbiased_byteify(P7_OPROFILE *om, float sc);
+static uint8_t biased_byteify(P7_OPROFILE *om, float sc);
+static int16_t wordify(P7_OPROFILE *om, float sc);
+
+/*****************************************************************
+ * 1. The P7_OPROFILE structure: a score profile.
+ *****************************************************************/
+
+/* Function:  p7_oprofile_Create()
+ * Synopsis:  Allocate an optimized profile structure.
+ * Incept:    SRE, Sun Nov 25 12:03:19 2007 [Casa de Gatos]
+ *
+ * Purpose:   Allocate for profiles of up to <allocM> nodes for digital alphabet <abc>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Create(int allocM, const ESL_ALPHABET *abc)
+{
+  int          status;
+  P7_OPROFILE *om  = NULL;
+  int          nqb = p7O_NQB(allocM); /* # of uchar vectors needed for query */
+  int          nqw = p7O_NQW(allocM); /* # of sword vectors needed for query */
+  int          nqf = p7O_NQF(allocM); /* # of float vectors needed for query */
+  int          x;
+
+  /* level 0 */
+  ESL_ALLOC(om, sizeof(P7_OPROFILE));
+  om->rbv_mem = NULL;
+  om->rwv_mem = NULL;
+  om->twv_mem = NULL;
+  om->rfv_mem = NULL;
+  om->tfv_mem = NULL;
+  om->rbv     = NULL;
+  om->rwv     = NULL;
+  om->twv     = NULL;
+  om->rfv     = NULL;
+  om->tfv     = NULL;
+  om->clone   = 0;
+
+  /* level 1 */
+
+  /* +15 is for manual 16-byte alignment */
+  ESL_ALLOC(om->rbv_mem, sizeof(vector unsigned char) * nqb  * abc->Kp          +15);
+  ESL_ALLOC(om->rwv_mem, sizeof(vector signed short)  * nqw  * abc->Kp          +15);
+  ESL_ALLOC(om->twv_mem, sizeof(vector signed short)  * nqw  * p7O_NTRANS       +15);
+  ESL_ALLOC(om->rfv_mem, sizeof(vector float)         * nqf  * abc->Kp          +15);
+  ESL_ALLOC(om->tfv_mem, sizeof(vector float)         * nqf  * p7O_NTRANS       +15);
+
+  ESL_ALLOC(om->rbv, sizeof(vector unsigned char *) * abc->Kp);
+  ESL_ALLOC(om->rwv, sizeof(vector signed short *)  * abc->Kp);
+  ESL_ALLOC(om->rfv, sizeof(vector float *)         * abc->Kp);
+
+  /* align vector memory on 16-byte boundaries */
+  om->rbv[0] = (vector unsigned char *) (((unsigned long int) om->rbv_mem + 15) & (~0xf));
+  om->rwv[0] = (vector signed short *)  (((unsigned long int) om->rwv_mem + 15) & (~0xf));
+  om->twv    = (vector signed short *)  (((unsigned long int) om->twv_mem + 15) & (~0xf));
+  om->rfv[0] = (vector float *)         (((unsigned long int) om->rfv_mem + 15) & (~0xf));
+  om->tfv    = (vector float *)         (((unsigned long int) om->tfv_mem + 15) & (~0xf));
+
+
+  /* set the rest of the row pointers for match emissions */
+  for (x = 1; x < abc->Kp; x++) {
+    om->rbv[x] = om->rbv[0] + (x * nqb);
+    om->rwv[x] = om->rwv[0] + (x * nqw);
+    om->rfv[x] = om->rfv[0] + (x * nqf);
+  }
+  om->allocQ16  = nqb;
+  om->allocQ8   = nqw;
+  om->allocQ4   = nqf;
+
+  /* Remaining initializations */
+  om->tbm_b     = 0;
+  om->tec_b     = 0;
+  om->tjb_b     = 0;
+  om->scale_b   = 0.0f;
+  om->base_b    = 0;
+  om->bias_b    = 0;
+
+  om->scale_w      = 0.0f;
+  om->base_w       = 0;
+  om->ddbound_w    = 0;
+  om->ncj_roundoff = 0.0f;	
+
+  for (x = 0; x < p7_NOFFSETS; x++) om->offs[x]    = -1;
+  for (x = 0; x < p7_NEVPARAM; x++) om->evparam[x] = p7_EVPARAM_UNSET;
+  for (x = 0; x < p7_NCUTOFFS; x++) om->cutoff[x]  = p7_CUTOFF_UNSET;
+  for (x = 0; x < p7_MAXABET;  x++) om->compo[x]   = p7_COMPO_UNSET;
+
+  om->name      = NULL;
+  om->acc       = NULL;
+  om->desc      = NULL;
+
+  /* in a P7_OPROFILE, we always allocate for the optional RF, CS annotation.
+   * we only rely on the leading \0 to signal that it's unused, but
+   * we initialize all this memory to zeros to shut valgrind up about
+   * fwrite'ing uninitialized memory in the io functions.
+   */
+  ESL_ALLOC(om->rf,          sizeof(char) * (allocM+2));
+  ESL_ALLOC(om->mm,          sizeof(char) * (allocM+2));
+  ESL_ALLOC(om->cs,          sizeof(char) * (allocM+2));
+  ESL_ALLOC(om->consensus,   sizeof(char) * (allocM+2));
+  memset(om->rf,       '\0', sizeof(char) * (allocM+2));
+  memset(om->mm,       '\0', sizeof(char) * (allocM+2));
+  memset(om->cs,       '\0', sizeof(char) * (allocM+2));
+  memset(om->consensus,'\0', sizeof(char) * (allocM+2));
+
+  om->abc        = abc;
+  om->L          = 0;
+  om->M          = 0;
+  om->max_length = -1;
+  om->allocM     = allocM;
+  om->mode       = p7_NO_MODE;
+  om->nj         = 0.0f;
+  return om;
+
+ ERROR:
+  p7_oprofile_Destroy(om);
+  return NULL;
+}
+
+/* Function:  p7_oprofile_IsLocal()
+ * Synopsis:  Returns TRUE if profile is in local alignment mode.
+ * Incept:    SRE, Sat Aug 16 08:46:00 2008 [Janelia]
+ */
+int
+p7_oprofile_IsLocal(const P7_OPROFILE *om)
+{
+  if (om->mode == p7_LOCAL || om->mode == p7_UNILOCAL) return TRUE;
+  return FALSE;
+}
+
+
+
+/* Function:  p7_oprofile_Destroy()
+ * Synopsis:  Frees an optimized profile structure.
+ * Incept:    SRE, Sun Nov 25 12:22:21 2007 [Casa de Gatos]
+ */
+void
+p7_oprofile_Destroy(P7_OPROFILE *om)
+{
+  if (om == NULL) return;
+
+  if (om->clone == 0)
+    {
+      if (om->rbv_mem    != NULL) free(om->rbv_mem);
+      if (om->rwv_mem    != NULL) free(om->rwv_mem);
+      if (om->twv_mem    != NULL) free(om->twv_mem);
+      if (om->rfv_mem    != NULL) free(om->rfv_mem);
+      if (om->tfv_mem    != NULL) free(om->tfv_mem);
+      if (om->rbv        != NULL) free(om->rbv);
+      if (om->rwv        != NULL) free(om->rwv);
+      if (om->rfv        != NULL) free(om->rfv);
+      if (om->name       != NULL) free(om->name);
+      if (om->acc        != NULL) free(om->acc);
+      if (om->desc       != NULL) free(om->desc);
+      if (om->rf         != NULL) free(om->rf);
+      if (om->mm         != NULL) free(om->mm);
+      if (om->cs         != NULL) free(om->cs);
+      if (om->consensus  != NULL) free(om->consensus);
+    }
+
+  free(om);
+}
+
+/* Function:  p7_oprofile_Sizeof()
+ * Synopsis:  Return the allocated size of a <P7_OPROFILE>.
+ * Incept:    SRE, Wed Mar  2 10:52:47 2011 [Janelia]
+ *
+ * Purpose:   Returns the allocated size of a <P7_OPROFILE>,
+ *            in bytes.
+ */
+size_t
+p7_oprofile_Sizeof(P7_OPROFILE *om)
+{
+  size_t n = 0;
+  int    nqb = om->allocQ16; /* # of uchar vectors needed for query */
+  int    nqw = om->allocQ8;  /* # of sword vectors needed for query */
+  int    nqf = om->allocQ4;  /* # of float vectors needed for query */
+
+  n += sizeof(P7_OPROFILE);
+  n += sizeof(vector unsigned char) * nqb  * om->abc->Kp +15; /* om->rbv_mem */
+  n += sizeof(vector signed short)  * nqw  * om->abc->Kp +15; /* om->rwv_mem */
+  n += sizeof(vector signed short)  * nqw  * p7O_NTRANS  +15; /* om->twv_mem */
+  n += sizeof(vector float)         * nqf  * om->abc->Kp +15; /* om->rfv_mem */
+  n += sizeof(vector float)         * nqf  * p7O_NTRANS  +15; /* om->tfv_mem */
+
+  n += sizeof(vector unsigned char *) * om->abc->Kp; /* om->rbv */
+  n += sizeof(vector signed short *)  * om->abc->Kp; /* om->rwv */
+  n += sizeof(vector float *)         * om->abc->Kp; /* om->rfv */
+
+  n += sizeof(char) * (om->allocM+2); /* om->rf */
+  n += sizeof(char) * (om->allocM+2); /* om->mm */
+  n += sizeof(char) * (om->allocM+2); /* om->cs */
+  n += sizeof(char) * (om->allocM+2); /* om->consensus */
+
+  return n;
+}
+
+/* Function:  p7_oprofile_Copy()
+ * Synopsis:  Allocate an optimized profile structure.
+ * Incept:    SRE, Sun Nov 25 12:03:19 2007 [Casa de Gatos]
+ *
+ * Purpose:   Allocate for profiles of up to <allocM> nodes for digital alphabet <abc>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Copy(P7_OPROFILE *om1)
+{
+  int           x, y;
+  int           status;
+
+  int           nqb  = p7O_NQB(om1->allocM); /* # of uchar vectors needed for query */
+  int           nqw  = p7O_NQW(om1->allocM); /* # of sword vectors needed for query */
+  int           nqf  = p7O_NQF(om1->allocM); /* # of float vectors needed for query */
+
+  size_t        size = sizeof(char) * (om1->allocM+2);
+
+  P7_OPROFILE  *om2  = NULL;
+
+  const ESL_ALPHABET *abc = om1->abc;
+
+  /* level 0 */
+  ESL_ALLOC(om2, sizeof(P7_OPROFILE));
+  om2->rbv_mem = NULL;
+  om2->rwv_mem = NULL;
+  om2->twv_mem = NULL;
+  om2->rfv_mem = NULL;
+  om2->tfv_mem = NULL;
+  om2->rbv     = NULL;
+  om2->rwv     = NULL;
+  om2->twv     = NULL;
+  om2->rfv     = NULL;
+  om2->tfv     = NULL;
+
+  /* level 1 */
+
+  /* +15 is for manual 16-byte alignment */
+  ESL_ALLOC(om2->rbv_mem, sizeof(vector unsigned char) * nqb  * abc->Kp    +15);	
+  ESL_ALLOC(om2->rwv_mem, sizeof(vector signed short)  * nqw  * abc->Kp    +15);
+  ESL_ALLOC(om2->twv_mem, sizeof(vector signed short)  * nqw  * p7O_NTRANS +15);
+  ESL_ALLOC(om2->rfv_mem, sizeof(vector float)         * nqf  * abc->Kp    +15);
+  ESL_ALLOC(om2->tfv_mem, sizeof(vector float)         * nqf  * p7O_NTRANS +15);
+
+  ESL_ALLOC(om2->rbv, sizeof(vector unsigned char *) * abc->Kp);
+  ESL_ALLOC(om2->rwv, sizeof(vector signed short *)  * abc->Kp);
+  ESL_ALLOC(om2->rfv, sizeof(vector float *)         * abc->Kp);
+
+  /* align vector memory on 16-byte boundaries */
+  om2->rbv[0] = (vector unsigned char *) (((unsigned long int) om2->rbv_mem + 15) & (~0xf));
+  om2->rwv[0] = (vector signed short *)  (((unsigned long int) om2->rwv_mem + 15) & (~0xf));
+  om2->twv    = (vector signed short *)  (((unsigned long int) om2->twv_mem + 15) & (~0xf));
+  om2->rfv[0] = (vector float *)         (((unsigned long int) om2->rfv_mem + 15) & (~0xf));
+  om2->tfv    = (vector float *)         (((unsigned long int) om2->tfv_mem + 15) & (~0xf));
+
+  /* copy the vector data */
+  memcpy(om2->rbv[0], om1->rbv[0], sizeof(vector unsigned char) * nqb  * abc->Kp);
+  memcpy(om2->rwv[0], om1->rwv[0], sizeof(vector signed short)  * nqw  * abc->Kp);
+  memcpy(om2->rfv[0], om1->rfv[0], sizeof(vector float)         * nqf  * abc->Kp);
+
+  /* set the rest of the row pointers for match emissions */
+  for (x = 1; x < abc->Kp; x++) {
+    om2->rbv[x] = om2->rbv[0] + (x * nqb);
+    om2->rwv[x] = om2->rwv[0] + (x * nqw);
+    om2->rfv[x] = om2->rfv[0] + (x * nqf);
+  }
+  om2->allocQ16  = nqb;
+  om2->allocQ8   = nqw;
+  om2->allocQ4   = nqf;
+
+  /* Remaining initializations */
+  om2->tbm_b     = om1->tbm_b;
+  om2->tec_b     = om1->tec_b;
+  om2->tjb_b     = om1->tjb_b;
+  om2->scale_b   = om1->scale_b;
+  om2->base_b    = om1->base_b;
+  om2->bias_b    = om1->bias_b;
+
+  om2->scale_w      = om1->scale_w;
+  om2->base_w       = om1->base_w;
+  om2->ddbound_w    = om1->ddbound_w;
+  om2->ncj_roundoff = om1->ncj_roundoff;	
+
+  for (x = 0; x < p7_NOFFSETS; x++) om2->offs[x]    = om1->offs[x];
+  for (x = 0; x < p7_NEVPARAM; x++) om2->evparam[x] = om1->evparam[x];
+  for (x = 0; x < p7_NCUTOFFS; x++) om2->cutoff[x]  = om1->cutoff[x];
+  for (x = 0; x < p7_MAXABET;  x++) om2->compo[x]   = om1->compo[x];
+
+  for (x = 0; x < nqw  * p7O_NTRANS; ++x) om2->twv[x] = om1->twv[x];
+  for (x = 0; x < nqf  * p7O_NTRANS; ++x) om2->tfv[x] = om1->tfv[x];
+
+  for (x = 0; x < p7O_NXSTATES; x++)
+    for (y = 0; y < p7O_NXTRANS; y++)
+      {
+	om2->xw[x][y] = om1->xw[x][y];
+	om2->xf[x][y] = om1->xf[x][y];
+      }
+
+  if ((status = esl_strdup(om1->name, -1, &om2->name)) != eslOK) goto ERROR;
+  if ((status = esl_strdup(om1->acc,  -1, &om2->acc))  != eslOK) goto ERROR;
+  if ((status = esl_strdup(om1->desc, -1, &om2->desc)) != eslOK) goto ERROR;
+
+  /* in a P7_OPROFILE, we always allocate for the optional RF, CS annotation.
+   * we only rely on the leading \0 to signal that it's unused, but
+   * we initialize all this memory to zeros to shut valgrind up about
+   * fwrite'ing uninitialized memory in the io functions.
+   */
+  ESL_ALLOC(om2->rf,          size);
+  ESL_ALLOC(om2->mm,          size);
+  ESL_ALLOC(om2->cs,          size);
+  ESL_ALLOC(om2->consensus,   size);
+
+  memcpy(om2->rf,        om1->rf,        size);
+  memcpy(om2->mm,        om1->mm,        size);
+  memcpy(om2->cs,        om1->cs,        size);
+  memcpy(om2->consensus, om1->consensus, size);
+
+  om2->abc       = om1->abc;
+  om2->L         = om1->L;
+  om2->M         = om1->M;
+  om2->allocM    = om1->allocM;
+  om2->mode      = om1->mode;
+  om2->nj        = om1->nj;
+  om2->max_length = om1->max_length;
+
+  om2->clone     = om1->clone;
+
+  return om2;
+
+ ERROR:
+  p7_oprofile_Destroy(om2);
+  return NULL;
+}
+
+/* Function:  p7_oprofile_Clone()
+ * Synopsis:  Allocate a cloned copy of the optimized profile structure.  All
+ *            allocated memory from the original profile is not reallocated.
+ *            The cloned copy will point to the same memory as the original.
+ * Incept:    SRE, Sun Nov 25 12:03:19 2007 [Casa de Gatos]
+ *
+ * Purpose:   Quick copy of an optimized profile used in mutiple threads.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_OPROFILE *
+p7_oprofile_Clone(const P7_OPROFILE *om1)
+{
+  int           status;
+
+  P7_OPROFILE  *om2  = NULL;
+
+  ESL_ALLOC(om2, sizeof(P7_OPROFILE));
+  memcpy(om2, om1, sizeof(P7_OPROFILE));
+
+  om2->clone  = 1;
+
+  return om2;
+
+ ERROR:
+  p7_oprofile_Destroy(om2);
+  return NULL;
+}
+
+
+/* Function:  p7_oprofile_UpdateFwdEmissionScores()
+ * Synopsis:  Update the Forward/Backward part of the optimized profile
+ *            match emissions to account for new background distribution.
+ *
+ * Purpose:   This implementation re-orders the loops used to access/modify
+ *            the rfv array relative to how it's accessed for example in
+ *            fb_conversion(), to minimize the required size of sc_arr.
+ *
+ * Args:      om              - optimized profile to be updated.
+ *            bg              - the new bg distribution
+ *            fwd_emissions   - precomputed Fwd (float) residue emission
+ *                              probabilities in serial order (gathered from
+ *                              the optimized striped <om> with
+ *                              p7_oprofile_GetFwdEmissionArray() ).
+ *            sc_arr            Preallocated array of at least Kp*4 floats
+ */
+int
+p7_oprofile_UpdateFwdEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     k, q, x, z;
+  int     nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+  union   { vector float v; float x[4]; } tmp;
+
+  for (k = 1, q = 0; q < nq; q++, k++) {
+
+    //First compute the core characters of the alphabet
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 4; z++) {
+         if (k+ z*nq <= M)  sc_arr[z*Kp + x] =  (om->mm && om->mm[(k+z*nq)]=='m') ? 0 : log(fwd_emissions[Kp * (k+z*nq) + x]/bg->f[x]);
+         else               sc_arr[z*Kp + x] =  -eslINFINITY;
+
+         tmp.x[z] = sc_arr[z*Kp + x];
+      }
+      om->rfv[x][q] =  esl_vmx_expf(tmp.v);
+    }
+
+    // Then compute corresponding scores for ambiguity codes.
+    for (z = 0; z < 4; z++)
+      esl_abc_FExpectScVec(om->abc, sc_arr+(z*Kp), bg->f);
+
+    //finish off the interleaved values
+    for (x = K; x < Kp; x++) {
+      for (z = 0; z < 4; z++)
+        tmp.x[z] = sc_arr[z*Kp + x];  // computed in FExpectScVec call above
+      om->rfv[x][q] = esl_vmx_expf(tmp.v);
+    }
+  }
+
+  return eslOK;
+
+}
+
+/* Function:  p7_oprofile_UpdateVitEmissionScores()
+ * Synopsis:  Update the Viterbi part of the optimized profile match
+ *            emissions to account for new background distribution.
+ *.
+ * Purpose:   This implementation re-orders the loops used to access/modify
+ *            the rmv array relative to how it's accessed for example in
+ *            vf_conversion(), to minimize the required size of sc_arr.
+ *
+ * Args:      om              - optimized profile to be updated.
+ *            bg              - the new bg distribution
+ *            fwd_emissions   - precomputed Fwd (float) residue emission
+ *                              probabilities in serial order (gathered from
+ *                              the optimized striped <om> with
+ *                              p7_oprofile_GetFwdEmissionArray() ).
+ *            sc_arr            Preallocated array of at least Kp*8 floats
+ */
+int
+p7_oprofile_UpdateVitEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     k, q, x, z;
+  int     nq  = p7O_NQW(M);     /* segment length; total # of striped vectors needed            */
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+  int     idx;
+  union { vector signed short v; int16_t i[8]; } tmp; /* used to align and load simd minivectors            */
+
+  for (k = 1, q = 0; q < nq; q++, k++) {
+
+    //First compute the core characters of the alphabet
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 8; z++) {
+        idx = z*Kp + x;
+        if (k+ z*nq <= M)  {
+          sc_arr[idx] = (om->mm && om->mm[(k+z*nq)]=='m') ? 0 : log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]);
+          tmp.i[z]    = wordify(om, sc_arr[idx]);
+        }
+        else
+        {
+          sc_arr[idx] =  -eslINFINITY;
+          tmp.i[z]    =  -32768;
+        }
+
+      }
+      om->rwv[x][q] = tmp.v;
+
+    }
+
+    // Then compute corresponding scores for ambiguity codes.
+    for (z = 0; z < 8; z++)
+      esl_abc_FExpectScVec(om->abc, sc_arr+(z*Kp), bg->f);
+
+    //finish off the interleaved values
+    for (x = K; x < Kp; x++) {
+      for (z = 0; z < 8; z++) {
+        idx = z*Kp + x;
+        if (x==K || x>Kp-3 || sc_arr[idx] == -eslINFINITY)
+          tmp.i[z]  =  -32768;
+        else
+          tmp.i[z]  = wordify(om, sc_arr[idx]);
+      }
+      om->rwv[x][q] = tmp.v;
+    }
+  }
+
+  return eslOK;
+}
+
+
+
+/* Function:  p7_oprofile_UpdateMSVEmissionScores()
+ * Synopsis:  Update the MSV part of the optimized profile match
+ *            emissions to account for new background distribution.
+ *.
+ * Purpose:   This implementation re-orders the loops used to access/modify
+ *            the rbv array relative to how it's accessed for example in
+ *            mf_conversion(), to minimize the required size of sc_arr.
+ *
+ * Args:      om              - optimized profile to be updated.
+ *            bg              - the new bg distribution
+ *            fwd_emissions   - precomputed Fwd (float) residue emission
+ *                              probabilities in serial order (gathered from
+ *                              the optimized striped <om> with
+ *                              p7_oprofile_GetFwdEmissionArray() ).
+ *            sc_arr            Preallocated array of at least Kp*16 floats
+ */
+int
+p7_oprofile_UpdateMSVEmissionScores(P7_OPROFILE *om, P7_BG *bg, float *fwd_emissions, float *sc_arr)
+{
+  int     M   = om->M;    /* length of the query                                          */
+  int     k, q, x, z;
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int     K   = om->abc->K;
+  int     Kp  = om->abc->Kp;
+  int     idx;
+  float   max = 0.0;    /* maximum residue score: used for unsigned emission score bias */
+  union { vector unsigned char v; uint8_t i[16]; } tmp; /* used to align and load simd minivectors */
+
+  /* First we determine the basis for the limited-precision MSVFilter scoring system.
+   * Default: 1/3 bit units, base offset 190:  range 0..255 => -190..65 => -63.3..21.7 bits
+   * See J2/66, J4/138 for analysis.
+   * This depends on having computed scores. I do this in a first pass, to get the max
+   * score ... then re-compute those scores so they can be converted to 8bit scores
+   */
+  for (k = 1, q = 0; q < nq; q++, k++) {
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 16; z++) {
+        idx = z*Kp + x;
+        if (k+ z*nq <= M && !(om->mm && om->mm[(k+z*nq)]=='m'))
+          max = ESL_MAX(max, log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]));
+      }
+    }
+  }
+  om->scale_b = 3.0 / eslCONST_LOG2;                    /* scores in units of third-bits */
+  om->base_b  = 190;
+  om->bias_b  = unbiased_byteify(om, -1.0 * max);
+
+  for (k = 1, q = 0; q < nq; q++, k++) {
+
+    //First compute the core characters of the alphabet
+    for (x = 0; x < K; x++) {
+      for (z = 0; z < 16; z++) {
+        idx = z*Kp + x;
+        if (k+ z*nq <= M)  {
+          sc_arr[idx] = (om->mm && om->mm[(k+z*nq)]=='m') ? 0 : log( (double)(fwd_emissions[Kp * (k+z*nq) + x])/bg->f[x]);
+          tmp.i[z]    = biased_byteify(om, sc_arr[idx]);
+        }
+        else
+        {
+          sc_arr[idx] =  -eslINFINITY;
+          tmp.i[z]    =  255;
+        }
+
+      }
+      om->rbv[x][q] = tmp.v;
+
+    }
+
+    // Then compute corresponding scores for ambiguity codes.
+    for (z = 0; z < 16; z++)
+      esl_abc_FExpectScVec(om->abc, sc_arr+(z*Kp), bg->f);
+
+    //finish off the interleaved values
+    for (x = K; x < Kp; x++) {
+      for (z = 0; z < 16; z++) {
+        idx = z*Kp + x;
+        if (x==K || x>Kp-3 || sc_arr[idx] == -eslINFINITY)
+          tmp.i[z]  =  255;
+        else
+          tmp.i[z]  = biased_byteify(om, sc_arr[idx]);
+      }
+      om->rbv[x][q] = tmp.v;
+    }
+  }
+
+  return eslOK;
+}
+
+
+/*----------------- end, P7_OPROFILE structure ------------------*/
+
+
+
+/*****************************************************************
+ * 2. Conversion from generic P7_PROFILE to optimized P7_OPROFILE
+ *****************************************************************/
+
+/* biased_byteify()
+ * Converts original log-odds residue score to a rounded biased uchar cost.
+ * Match emission scores for MSVFilter get this treatment.
+ * e.g. a score of +3.2, with scale 3.0 and bias 12, becomes 2.
+ *    3.2*3 = 9.6; rounded = 10; bias-10 = 2.
+ * When used, we add the bias, then subtract this cost.
+ * (A cost of +255 is our -infinity "prohibited event")
+ */
+
+/* The (uint8_t) (int) cast is to fix an issue with the ibm's
+ * xlc compiler.  The C standard says the results are undefined
+ * when casting from a float to an integral type and the value
+ * is not is range.  So, if the float has a value of -6.0 and
+ * is cast to an unsigned char, whose range is 0..255, the
+ * result is undefined.  The xlc compiler sets the result to 0.
+ * With gcc and msvc compilers the result is 250.
+ *
+ * This double cast gives the same result on the different compilers.
+ */
+
+static uint8_t
+biased_byteify(P7_OPROFILE *om, float sc)
+{
+  uint8_t b;
+
+  sc  = -1.0f * roundf(om->scale_b * sc);                                /* ugh. sc is now an integer cost represented in a float...           */
+  b   = (sc > 255 - om->bias_b) ? 255 : (uint8_t) (int) sc + om->bias_b; /* and now we cast, saturate, and bias it to an unsigned char cost... */
+  return b;
+}
+
+/* unbiased_byteify()
+ * Convert original transition score to a rounded uchar cost
+ * Transition scores for MSVFilter get this treatment.
+ * e.g. a score of -2.1, with scale 3.0, becomes a cost of 6.
+ * (A cost of +255 is our -infinity "prohibited event")
+ *
+ * See comment above explaining the double cast.
+ */
+static uint8_t
+unbiased_byteify(P7_OPROFILE *om, float sc)
+{
+  uint8_t b;
+
+  sc  = -1.0f * roundf(om->scale_b * sc);       /* ugh. sc is now an integer cost represented in a float...    */
+  b   = (sc > 255.) ? 255 : (uint8_t) (int) sc;	/* and now we cast and saturate it to an unsigned char cost... */
+  return b;
+}
+
+/* wordify()
+ * Converts log probability score to a rounded signed 16-bit integer cost.
+ * Both emissions and transitions for ViterbiFilter get this treatment.
+ * No bias term needed, because we use signed words.
+ *   e.g. a score of +3.2, with scale 500.0, becomes +1600.
+ */
+static int16_t
+wordify(P7_OPROFILE *om, float sc)
+{
+  sc  = roundf(om->scale_w * sc);
+  if      (sc >=  32767.0) return  32767;
+  else if (sc <= -32768.0) return -32768;
+  else return (int16_t) sc;
+}
+
+/* mf_conversion():
+ *
+ * This builds the MSVFilter() parts of the profile <om>, scores
+ * in lspace uchars (16-way parallel), by rescaling, rounding, and
+ * casting the scores in <gm>.
+ *
+ * Returns <eslOK> on success;
+ * throws <eslEINVAL> if <om> hasn't been allocated properly.
+ */
+static int
+mf_conversion(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int     M   = gm->M;		/* length of the query                                          */
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  float   max = 0.0;		/* maximum residue score: used for unsigned emission score bias */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     z;			/* counter within elements of one SIMD minivector               */
+
+  /* used to align and load simd minivectors */
+  union { vector unsigned char v; uint8_t i[16]; } tmp;
+
+  if (nq > om->allocQ16) ESL_EXCEPTION(eslEINVAL, "optimized profile is too small to hold conversion");
+
+  /* First we determine the basis for the limited-precision MSVFilter scoring system.
+   * Default: 1/3 bit units, base offset 190:  range 0..255 => -190..65 => -63.3..21.7 bits
+   * See J2/66, J4/138 for analysis.
+   */
+  for (x = 0; x < gm->abc->K; x++)  max = ESL_MAX(max, esl_vec_FMax(gm->rsc[x], (M+1)*2));
+  om->scale_b = 3.0 / eslCONST_LOG2;                    /* scores in units of third-bits */
+  om->base_b  = 190;
+  om->bias_b  = unbiased_byteify(om, -1.0 * max);
+
+  /* striped match costs: start at k=1.  */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (q = 0, k = 1; q < nq; q++, k++)
+      {
+	for (z = 0; z < 16; z++) tmp.i[z] = ((k+ z*nq <= M) ? biased_byteify(om, p7P_MSC(gm, k+z*nq, x)) : 255);
+	om->rbv[x][q]   = tmp.v;	
+      }
+
+  /* transition costs */
+  om->tbm_b = unbiased_byteify(om, logf(2.0f / ((float) gm->M * (float) (gm->M+1)))); /* constant B->Mk penalty        */
+  om->tec_b = unbiased_byteify(om, logf(0.5f));                                       /* constant multihit E->C = E->J */
+  om->tjb_b = unbiased_byteify(om, logf(3.0f / (float) (gm->L+3))); /* this adopts the L setting of the parent profile */
+
+  return eslOK;
+}
+
+
+/* vf_conversion():
+ *
+ * This builds the ViterbiFilter() parts of the profile <om>, scores
+ * in lspace swords (8-way parallel), by rescaling, rounding, and
+ * casting the scores in <gm>.
+ *
+ * Returns <eslOK> on success;
+ * throws <eslEINVAL> if <om> hasn't been allocated properly.
+ */
+static int
+vf_conversion(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int     M   = gm->M;		/* length of the query                                          */
+  int     nq  = p7O_NQW(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     tg;			/* transition index in gm                                       */
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+  int     ddtmp;		/* used in finding worst DD transition bound                    */
+  int16_t  maxval;		/* used to prevent zero cost II                                 */
+  int16_t  val;
+
+  /* used to align and load simd minivectors */
+  union { vector signed short v; int16_t i[8]; } tmp;
+
+  if (nq > om->allocQ8) ESL_EXCEPTION(eslEINVAL, "optimized profile is too small to hold conversion");
+
+  /* First set the basis for the limited-precision scoring system.
+   * Default: 1/500 bit units, base offset 12000:  range -32768..32767 => -44768..20767 => -89.54..41.53 bits
+   * See J4/138 for analysis.
+   */
+  om->scale_w = 500.0 / eslCONST_LOG2;
+  om->base_w  = 12000;
+
+  /* striped match scores */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 1, q = 0; q < nq; q++, k++)
+      {
+	for (z = 0; z < 8; z++) tmp.i[z] = ((k+ z*nq <= M) ? wordify(om, p7P_MSC(gm, k+z*nq, x)) : -32768);
+	om->rwv[x][q]   = tmp.v;
+      }
+
+  /* Transition costs, all but the DD's. */
+  for (j = 0, k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (t = p7O_BM; t <= p7O_II; t++) /* this loop of 7 transitions depends on the order in p7o_tsc_e */
+	{
+	  switch (t) {
+	  case p7O_BM: tg = p7P_BM;  kb = k-1; maxval =  0; break; /* gm has tBMk stored off by one! start from k=0 not 1   */
+	  case p7O_MM: tg = p7P_MM;  kb = k-1; maxval =  0; break; /* MM, DM, IM vectors are rotated by -1, start from k=0  */
+	  case p7O_IM: tg = p7P_IM;  kb = k-1; maxval =  0; break;
+	  case p7O_DM: tg = p7P_DM;  kb = k-1; maxval =  0; break;
+	  case p7O_MD: tg = p7P_MD;  kb = k;   maxval =  0; break; /* the remaining ones are straight up  */
+	  case p7O_MI: tg = p7P_MI;  kb = k;   maxval =  0; break;
+	  case p7O_II: tg = p7P_II;  kb = k;   maxval = -1; break;
+	  }
+
+	  for (z = 0; z < 8; z++) {
+	    val      = ((kb+ z*nq < M) ? wordify(om, p7P_TSC(gm, kb+ z*nq, tg)) : -32768);
+	    tmp.i[z] = (val <= maxval) ? val : maxval; /* do not allow an II transition cost of 0, or hell may occur. */
+	  }
+	  om->twv[j++] = tmp.v;
+	}
+    }
+
+  /* Finally the DD's, which are at the end of the optimized tsc vector; (j is already sitting there) */
+  for (k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (z = 0; z < 8; z++) tmp.i[z] = ((k+ z*nq < M) ? wordify(om, p7P_TSC(gm, k+ z*nq, p7P_DD)) : -32768);
+      om->twv[j++] = tmp.v;
+    }
+
+  /* Specials. (Actually in same order in om and gm, but we copy in general form anyway.)  */
+  /* VF CC,NN,JJ transitions hardcoded zero; -3.0 nat approximation used instead; this papers
+   * over a length independence problem, where the approximation weirdly outperforms the
+   * exact solution, probably indicating that the model's Pascal distribution is problematic,
+   * and the "approximation" is in fact closer to the One True Model, the mythic H4 supermodel.
+   * [xref J5/36]
+   */
+  om->xw[p7O_E][p7O_LOOP] = wordify(om, gm->xsc[p7P_E][p7P_LOOP]);
+  om->xw[p7O_E][p7O_MOVE] = wordify(om, gm->xsc[p7P_E][p7P_MOVE]);
+  om->xw[p7O_N][p7O_MOVE] = wordify(om, gm->xsc[p7P_N][p7P_MOVE]);
+  om->xw[p7O_N][p7O_LOOP] = 0;                                        /* was wordify(om, gm->xsc[p7P_N][p7P_LOOP]); */
+  om->xw[p7O_C][p7O_MOVE] = wordify(om, gm->xsc[p7P_C][p7P_MOVE]);
+  om->xw[p7O_C][p7O_LOOP] = 0;                                        /* was wordify(om, gm->xsc[p7P_C][p7P_LOOP]); */
+  om->xw[p7O_J][p7O_MOVE] = wordify(om, gm->xsc[p7P_J][p7P_MOVE]);
+  om->xw[p7O_J][p7O_LOOP] = 0;                                        /* was wordify(om, gm->xsc[p7P_J][p7P_LOOP]); */
+
+  om->ncj_roundoff = 0.0; /* goes along with NN=CC=JJ=0, -3.0 nat approximation */
+                          /* otherwise, would be = om->scale_w * gm->xsc[p7P_N][p7P_LOOP] -  om->xw[p7O_N][p7O_LOOP];   */
+			  /* see J4/150 for discussion of VF error suppression, superceded by the -3.0 nat approximation */
+
+  /* Transition score bound for "lazy F" DD path evaluation (xref J2/52) */
+  om->ddbound_w = -32768;	
+  for (k = 2; k < M-1; k++)
+    {
+      ddtmp         = (int) wordify(om, p7P_TSC(gm, k,   p7P_DD));
+      ddtmp        += (int) wordify(om, p7P_TSC(gm, k+1, p7P_DM));
+      ddtmp        -= (int) wordify(om, p7P_TSC(gm, k+1, p7P_BM));
+      om->ddbound_w = ESL_MAX(om->ddbound_w, ddtmp);
+    }
+
+  return eslOK;
+}
+
+
+/* fb_conversion()
+ * This builds the Forward/Backward part of the optimized profile <om>,
+ * where we use odds ratios (not log-odds scores).
+ */
+static int
+fb_conversion(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int     M   = gm->M;		/* length of the query                                          */
+  int     nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     tg;			/* transition index in gm                                       */
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+
+  /* used to align and load simd minivectors */
+  union { vector float v; float x[4]; } tmp;
+
+  if (nq > om->allocQ4) ESL_EXCEPTION(eslEINVAL, "optimized profile is too small to hold conversion");
+
+  /* striped match scores: start at k=1 */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 1, q = 0; q < nq; q++, k++)
+      {
+	for (z = 0; z < 4; z++) tmp.x[z] = (k+ z*nq <= M) ? p7P_MSC(gm, k+z*nq, x) : -eslINFINITY;
+	om->rfv[x][q] = esl_vmx_expf(tmp.v);
+      }
+
+  /* Transition scores, all but the DD's. */
+  for (j = 0, k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (t = p7O_BM; t <= p7O_II; t++) /* this loop of 7 transitions depends on the order in the definition of p7o_tsc_e */
+	{
+	  switch (t) {
+	  case p7O_BM: tg = p7P_BM;  kb = k-1; break; /* gm has tBMk stored off by one! start from k=0 not 1 */
+	  case p7O_MM: tg = p7P_MM;  kb = k-1; break; /* MM, DM, IM quads are rotated by -1, start from k=0  */
+	  case p7O_IM: tg = p7P_IM;  kb = k-1; break;
+	  case p7O_DM: tg = p7P_DM;  kb = k-1; break;
+	  case p7O_MD: tg = p7P_MD;  kb = k;   break; /* the remaining ones are straight up  */
+	  case p7O_MI: tg = p7P_MI;  kb = k;   break;
+	  case p7O_II: tg = p7P_II;  kb = k;   break;
+	  }
+
+	  for (z = 0; z < 4; z++) tmp.x[z] = (kb+z*nq < M) ? p7P_TSC(gm, kb+z*nq, tg) : -eslINFINITY;
+	  om->tfv[j++] = esl_vmx_expf(tmp.v);
+	}
+    }
+
+  /* And finally the DD's, which are at the end of the optimized tsc vector; (j is already there) */
+  for (k = 1, q = 0; q < nq; q++, k++)
+    {
+      for (z = 0; z < 4; z++) tmp.x[z] = (k+z*nq < M) ? p7P_TSC(gm, k+z*nq, p7P_DD) : -eslINFINITY;
+      om->tfv[j++] = esl_vmx_expf(tmp.v);
+    }
+
+  /* Specials. (These are actually in exactly the same order in om and
+   *  gm, but we copy in general form anyway.)
+   */
+  om->xf[p7O_E][p7O_LOOP] = expf(gm->xsc[p7P_E][p7P_LOOP]);
+  om->xf[p7O_E][p7O_MOVE] = expf(gm->xsc[p7P_E][p7P_MOVE]);
+  om->xf[p7O_N][p7O_LOOP] = expf(gm->xsc[p7P_N][p7P_LOOP]);
+  om->xf[p7O_N][p7O_MOVE] = expf(gm->xsc[p7P_N][p7P_MOVE]);
+  om->xf[p7O_C][p7O_LOOP] = expf(gm->xsc[p7P_C][p7P_LOOP]);
+  om->xf[p7O_C][p7O_MOVE] = expf(gm->xsc[p7P_C][p7P_MOVE]);
+  om->xf[p7O_J][p7O_LOOP] = expf(gm->xsc[p7P_J][p7P_LOOP]);
+  om->xf[p7O_J][p7O_MOVE] = expf(gm->xsc[p7P_J][p7P_MOVE]);
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_Convert()
+ * Synopsis:  Converts standard profile to an optimized one.
+ * Incept:    SRE, Mon Nov 26 07:38:57 2007 [Janelia]
+ *
+ * Purpose:   Convert a standard profile <gm> to an optimized profile <om>,
+ *            where <om> has already been allocated for a profile of at
+ *            least <gm->M> nodes and the same emission alphabet <gm->abc>.
+ *
+ * Args:      gm - profile to optimize
+ *            om - allocated optimized profile for holding the result.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <gm>, <om> aren't compatible.
+ *            <eslEMEM> on allocation failure.
+ */
+int
+p7_oprofile_Convert(const P7_PROFILE *gm, P7_OPROFILE *om)
+{
+  int status, z;
+
+  if (gm->abc->type != om->abc->type)  ESL_EXCEPTION(eslEINVAL, "alphabets of the two profiles don't match");
+  if (gm->M         >  om->allocM)     ESL_EXCEPTION(eslEINVAL, "oprofile is too small");
+
+  if ((status =  mf_conversion(gm, om)) != eslOK) return status;   /* MSVFilter()'s information     */
+  if ((status =  vf_conversion(gm, om)) != eslOK) return status;   /* ViterbiFilter()'s information */
+  if ((status =  fb_conversion(gm, om)) != eslOK) return status;   /* ForwardFilter()'s information */
+
+  if (om->name != NULL) free(om->name);
+  if (om->acc  != NULL) free(om->acc);
+  if (om->desc != NULL) free(om->desc);
+  if ((status = esl_strdup(gm->name, -1, &(om->name))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(gm->acc,  -1, &(om->acc)))  != eslOK) goto ERROR;
+  if ((status = esl_strdup(gm->desc, -1, &(om->desc))) != eslOK) goto ERROR;
+  strcpy(om->rf,        gm->rf);
+  strcpy(om->mm,        gm->mm);
+  strcpy(om->cs,        gm->cs);
+  strcpy(om->consensus, gm->consensus);
+  for (z = 0; z < p7_NEVPARAM; z++) om->evparam[z] = gm->evparam[z];
+  for (z = 0; z < p7_NCUTOFFS; z++) om->cutoff[z]  = gm->cutoff[z];
+  for (z = 0; z < p7_MAXABET;  z++) om->compo[z]   = gm->compo[z];
+
+  om->mode = gm->mode;
+  om->L    = gm->L;
+  om->M    = gm->M;
+  om->max_length = gm->max_length;
+  om->nj   = gm->nj;
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_oprofile_ReconfigLength()
+ * Synopsis:  Set the target sequence length of a model.
+ * Incept:    SRE, Thu Dec 20 09:56:40 2007 [Janelia]
+ *
+ * Purpose:   Given an already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>.
+ *
+ *            This doesn't affect the length distribution of the null
+ *            model. That must also be reset, using <p7_bg_SetLength()>.
+ *
+ *            We want this routine to run as fast as possible, because
+ *            this call is in the critical path: it must be called at
+ *            each new target sequence in a database search.
+ *
+ * Returns:   <eslOK> on success. Costs/scores for N,C,J transitions are set
+ *            here.
+ */
+int
+p7_oprofile_ReconfigLength(P7_OPROFILE *om, int L)
+{
+  int status;
+  if ((status = p7_oprofile_ReconfigMSVLength (om, L)) != eslOK) return status;
+  if ((status = p7_oprofile_ReconfigRestLength(om, L)) != eslOK) return status;
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_ReconfigMSVLength()
+ * Synopsis:  Set the target sequence length of the MSVFilter part of the model.
+ * Incept:    SRE, Tue Dec 16 13:39:17 2008 [Janelia]
+ *
+ * Purpose:   Given an  already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>, only for the part of the model that's used
+ *            for the accelerated MSV filter.
+ *
+ *            The acceleration pipeline uses this to defer reconfiguring the
+ *            length distribution of the main model, mostly because hmmscan
+ *            reads the model in two pieces, MSV part first, then the rest.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_oprofile_ReconfigMSVLength(P7_OPROFILE *om, int L)
+{
+  om->tjb_b = unbiased_byteify(om, logf(3.0f / (float) (L+3)));
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_ReconfigRestLength()
+ * Synopsis:  Set the target sequence length of the main profile.
+ * Incept:    SRE, Tue Dec 16 13:41:30 2008 [Janelia]
+ *
+ * Purpose:   Given an  already configured model <om>, quickly reset its
+ *            expected length distribution for a new mean target sequence
+ *            length of <L>, for everything except the MSV filter part
+ *            of the model.
+ *
+ *            Calling <p7_oprofile_ReconfigMSVLength()> then
+ *            <p7_oprofile_ReconfigRestLength()> is equivalent to
+ *            just calling <p7_oprofile_ReconfigLength()>. The two
+ *            part version is used in the acceleration pipeline.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_oprofile_ReconfigRestLength(P7_OPROFILE *om, int L)
+{
+  float pmove, ploop;
+
+  pmove = (2.0f + om->nj) / ((float) L + 2.0f + om->nj); /* 2/(L+2) for sw; 3/(L+3) for fs */
+  ploop = 1.0f - pmove;
+
+  /* ForwardFilter() parameters: pspace floats */
+  om->xf[p7O_N][p7O_LOOP] =  om->xf[p7O_C][p7O_LOOP] = om->xf[p7O_J][p7O_LOOP] = ploop;
+  om->xf[p7O_N][p7O_MOVE] =  om->xf[p7O_C][p7O_MOVE] = om->xf[p7O_J][p7O_MOVE] = pmove;
+
+  /* ViterbiFilter() parameters: lspace signed 16-bit ints */
+  om->xw[p7O_N][p7O_MOVE] =  om->xw[p7O_C][p7O_MOVE] = om->xw[p7O_J][p7O_MOVE] = wordify(om, logf(pmove));
+  /* om->xw[p7O_N][p7O_LOOP] =  om->xw[p7O_C][p7O_LOOP] = om->xw[p7O_J][p7O_LOOP] = wordify(om, logf(ploop)); */ /* 3nat approx in force: these stay 0 */
+  /* om->ncj_roundoff        = (om->scale_w * logf(ploop)) - om->xw[p7O_N][p7O_LOOP];                         */ /* and this does too                  */
+
+  om->L = L;
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_ReconfigMultihit()
+ * Synopsis:  Quickly reconfig model into multihit mode for target length <L>.
+ * Incept:    SRE, Thu Aug 21 10:04:07 2008 [Janelia]
+ *
+ * Purpose:   Given a profile <om> that's already been configured once,
+ *            quickly reconfigure it into a multihit mode for target
+ *            length <L>.
+ *
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit mode to
+ *            process individual domains.
+ *
+ * Note:      You can't just flip uni/multi mode alone, because that
+ *            parameterization also affects target length
+ *            modeling. You need to make sure uni vs. multi choice is
+ *            made before the length model is set, and you need to
+ *            make sure the length model is recalculated if you change
+ *            the uni/multi mode. Hence, these functions call
+ *            <p7_oprofile_ReconfigLength()>.
+ */
+int
+p7_oprofile_ReconfigMultihit(P7_OPROFILE *om, int L)
+{
+  om->xf[p7O_E][p7O_MOVE] = 0.5;
+  om->xf[p7O_E][p7O_LOOP] = 0.5;
+  om->nj = 1.0f;
+
+  om->xw[p7O_E][p7O_MOVE] = wordify(om, -eslCONST_LOG2);
+  om->xw[p7O_E][p7O_LOOP] = wordify(om, -eslCONST_LOG2);
+
+  return p7_oprofile_ReconfigLength(om, L);
+}
+
+/* Function:  p7_oprofile_ReconfigUnihit()
+ * Synopsis:  Quickly reconfig model into unihit mode for target length <L>.
+ * Incept:    SRE, Thu Aug 21 10:10:32 2008 [Janelia]
+ *
+ * Purpose:   Given a profile <om> that's already been configured once,
+ *            quickly reconfigure it into a unihit mode for target
+ *            length <L>.
+ *
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit <L=0> mode to
+ *            process individual domains.
+ */
+int
+p7_oprofile_ReconfigUnihit(P7_OPROFILE *om, int L)
+{
+  om->xf[p7O_E][p7O_MOVE] = 1.0f;
+  om->xf[p7O_E][p7O_LOOP] = 0.0f;
+  om->nj = 0.0f;
+
+  om->xw[p7O_E][p7O_MOVE] = 0;
+  om->xw[p7O_E][p7O_LOOP] = -32768;
+
+  return p7_oprofile_ReconfigLength(om, L);
+}
+/*------------ end, conversions to P7_OPROFILE ------------------*/
+
+
+
+/*******************************************************************
+*   3. Conversion from optimized P7_OPROFILE to compact score arrays
+ *******************************************************************/
+
+/* Function:  p7_oprofile_GetFwdTransitionArray()
+ * Synopsis:  Retrieve full 32-bit float transition probabilities from an
+ *            optimized profile into a flat array
+ *
+ * Purpose:   Extract an array of <type> (e.g. p7O_II) transition probabilities
+ *            from the underlying <om> profile. In SIMD implementations,
+ *            these are striped and interleaved, making them difficult to
+ *            directly access.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <type> - transition type (e.g. p7O_II)
+ *            <arr>  - preallocated array into which floats will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdTransitionArray(const P7_OPROFILE *om, int type, float *arr )
+{
+  int     nq  = p7O_NQF(om->M);     /* # of striped vectors needed            */
+  int i, j;
+  union { vector float v; float x[4]; } tmp;
+
+  for (i=0; i<nq; i++) {
+    // because DD transitions are held at the end of the tfv array
+    tmp.v = om->tfv[ (type==p7O_DD ?  nq*7+i :  type+7*i) ];
+    for (j=0; j<4; j++)
+      if ( i+1+ j*nq < om->M+1) 
+        arr[i+1+ j*nq]      = tmp.x[j];
+  }
+
+  return eslOK;
+
+}
+
+
+/* Function:  p7_oprofile_GetMSVEmissionArray()
+ * Synopsis:  Retrieve MSV residue emission scores from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 8-bit int MSV residue
+ *            emission scores from an optimized profile <om>. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In SIMD implementations, the residue scores are striped
+ *            and interleaved, making them somewhat difficult to
+ *            directly access. Faster access is desired, for example,
+ *            in SSV back-tracking of a high-scoring diagonal
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetSSVEmissionScoreArray(const P7_OPROFILE *om, uint8_t *arr )
+{
+  int x, q, z, k;
+  union { vector unsigned char v; uint8_t i[16]; } tmp; /* used to align and read simd minivectors           */
+  int      M   = om->M;    /* length of the query                                          */
+  int      K   = om->abc->Kp;
+  int      nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int cell_cnt = (om->M + 1) * K;
+
+
+  for (x = 0; x < K ; x++) {
+    for (q = 0, k = 1; q < nq; q++, k++) {
+      tmp.v = om->rbv[x][q];
+      for (z=0; z<16; z++)
+        if (  (K * (k+z*nq) + x) < cell_cnt)
+          arr[ K * (k+z*nq) + x ] = tmp.i[z];
+    }
+  }
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_GetFwdEmissionScoreArray()
+ * Synopsis:  Retrieve Fwd (float) residue emission scores from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 32-bit float Fwd residue
+ *            emission scores from an optimized profile <om>. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In SIMD implementations, the residue scores are striped
+ *            and interleaved, making them somewhat difficult to
+ *            directly access.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdEmissionScoreArray(const P7_OPROFILE *om, float *arr )
+{
+  int x, q, z, k;
+  union { vector float v; float f[4]; } tmp; /* used to align and read simd minivectors           */
+  int      M   = om->M;    /* length of the query                                          */
+  int      K   = om->abc->Kp;
+  int      nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int cell_cnt = (om->M + 1) * K;
+
+  for (x = 0; x < K; x++) {
+      for (q = 0, k = 1; q < nq; q++, k++) {
+        tmp.v = esl_vmx_logf(om->rfv[x][q]);
+        for (z = 0; z < 4; z++)
+          if (  (K * (k+z*nq) + x) < cell_cnt)
+            arr[ K * (k+z*nq) + x ] = tmp.f[z];
+      }
+  }
+
+  return eslOK;
+}
+
+/* Function:  p7_oprofile_GetFwdEmissionArray()
+ * Synopsis:  Retrieve Fwd (float) residue emission values from an optimized
+ *            profile into an array
+ *
+ * Purpose:   Extract an implicitly 2D array of 32-bit float Fwd residue
+ *            emission values from an optimized profile <om>, converting
+ *            back to emission values based on the background. <arr> must
+ *            be allocated by the calling function to be of size
+ *            ( om->abc->Kp * ( om->M  + 1 )), and indexing into the array
+ *            is done as  [om->abc->Kp * i +  c ] for character c at
+ *            position i.
+ *
+ *            In SIMD implementations, the residue scores are striped
+ *            and interleaved, making them somewhat difficult to
+ *            directly access.
+ *
+ * Args:      <om>   - optimized profile, containing transition information
+ *            <bg>   - background frequencies
+ *            <arr>  - preallocated array into which scores will be placed
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_GetFwdEmissionArray(const P7_OPROFILE *om, P7_BG *bg, float *arr )
+{
+  int x, q, z, k;
+  union { vector float v; float f[4]; } tmp; /* used to align and read simd minivectors           */
+  int      M   = om->M;    /* length of the query                                          */
+  int      Kp  = om->abc->Kp;
+  int      K   = om->abc->K;
+  int      nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int cell_cnt = (om->M + 1) * Kp;
+
+  for (x = 0; x < K; x++) {
+      for (q = 0, k = 1; q < nq; q++, k++) {
+        tmp.v = om->rfv[x][q];
+        for (z = 0; z < 4; z++)
+          if (  (Kp * (k+z*nq) + x) < cell_cnt)
+            arr[ Kp * (k+z*nq) + x ] = tmp.f[z] * bg->f[x];
+      }
+  }
+
+  //degeneracy emissions for each position
+  for (x = 0; x <= M; x++)
+    esl_abc_FExpectScVec(om->abc, arr+Kp*x, bg->f);
+
+  return eslOK;
+}
+/*------------ end, conversions from P7_OPROFILE ------------------*/
+
+/*****************************************************************
+ * 4. Debugging and development utilities.
+ *****************************************************************/
+
+
+/* oprofile_dump_mf()
+ *
+ * Dump the MSVFilter part of a profile <om> to <stdout>.
+ */
+static int
+oprofile_dump_mf(FILE *fp, const P7_OPROFILE *om)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQB(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* counter over nodes 1..M                                      */
+  int     z;			/* counter within elements of one SIMD minivector               */
+
+  /* used to align and read simd minivectors */
+  union { vector unsigned char v; uint8_t i[16]; } tmp;
+
+  /* Header (rearranged column numbers, in the vectors)  */
+  fprintf(fp, "     ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 16; z++)
+	if (k+z*nq <= M) fprintf(fp, "%4d ", k+z*nq);
+	else             fprintf(fp, "%4s ", "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");
+
+  /* Table of residue emissions */
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      fprintf(fp, "(%c): ", om->abc->sym[x]);
+
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->rbv[x][q];
+	  for (z = 0; z < 16; z++) fprintf(fp, "%4d ", tmp.i[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");
+    }
+  fprintf(fp, "\n");
+
+  fprintf(fp, "t_EC,EJ:    %4d\n",  om->tec_b);
+  fprintf(fp, "t_NB,JB,CT: %4d\n",  om->tjb_b);
+  fprintf(fp, "t_BMk:      %4d\n",  om->tbm_b);
+  fprintf(fp, "scale:      %.2f\n", om->scale_b);
+  fprintf(fp, "base:       %4d\n",  om->base_b);
+  fprintf(fp, "bias:       %4d\n",  om->bias_b);
+  fprintf(fp, "Q:          %4d\n",  nq);
+  fprintf(fp, "M:          %4d\n",  M);
+  return eslOK;
+}
+
+
+
+/* oprofile_dump_vf()
+ *
+ * Dump the ViterbiFilter part of a profile <om> to <stdout>.
+ */
+static int
+oprofile_dump_vf(FILE *fp, const P7_OPROFILE *om)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQW(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+
+  /* used to align and read simd minivectors */
+  union { vector signed short v; int16_t i[8]; } tmp;
+
+  /* Emission score header (rearranged column numbers, in the vectors)  */
+  fprintf(fp, "     ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 8; z++)
+	if (k+z*nq <= M) fprintf(fp, "%6d ", k+z*nq);
+	else             fprintf(fp, "%6s ", "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");
+
+  /* Table of residue emissions */
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      fprintf(fp, "(%c): ", om->abc->sym[x]);
+
+      /* Match emission scores (insert emissions are assumed zero by design) */
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->rwv[x][q];
+	  for (z = 0; z < 8; z++) fprintf(fp, "%6d ", tmp.i[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");
+    }
+  fprintf(fp, "\n");
+
+  /* Transitions */
+  for (t = p7O_BM; t <= p7O_II; t++)
+    {
+      switch (t) {
+      case p7O_BM: fprintf(fp, "\ntBM: "); break;
+      case p7O_MM: fprintf(fp, "\ntMM: "); break;
+      case p7O_IM: fprintf(fp, "\ntIM: "); break;
+      case p7O_DM: fprintf(fp, "\ntDM: "); break;
+      case p7O_MD: fprintf(fp, "\ntMD: "); break;
+      case p7O_MI: fprintf(fp, "\ntMI: "); break;
+      case p7O_II: fprintf(fp, "\ntII: "); break;
+      }
+
+      for (k = 1, q = 0; q < nq; q++, k++)
+	{
+	  switch (t) {
+	  case p7O_BM: kb = k;                 break;
+	  case p7O_MM: kb = (1 + (nq+k-2)) % nq; break; /* MM, DM, IM quads rotated by +1  */
+	  case p7O_IM: kb = (1 + (nq+k-2)) % nq; break;
+	  case p7O_DM: kb = (1 + (nq+k-2)) % nq; break;
+	  case p7O_MD: kb = k;                 break; /* the remaining ones are straight up  */
+	  case p7O_MI: kb = k;                 break;
+	  case p7O_II: kb = k;                 break;
+	  }
+	  fprintf(fp, "[ ");
+	  for (z = 0; z < 8; z++)
+	    if (kb+z*nq <= M) fprintf(fp, "%6d ", kb+z*nq);
+	    else              fprintf(fp, "%6s ", "xx");
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n     ");	
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->twv[q*7 + t];
+	  for (z = 0; z < 8; z++) fprintf(fp, "%6d ", tmp.i[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");	
+    }
+
+  /* DD transitions */
+  fprintf(fp, "\ntDD: ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 8; z++)
+	if (k+z*nq <= M) fprintf(fp, "%6d ", k+z*nq);
+	else             fprintf(fp, "%6s ", "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n     ");	
+  for (j = nq*7, q = 0; q < nq; q++, j++)
+    {
+      fprintf(fp, "[ ");
+      tmp.v = om->twv[j];
+      for (z = 0; z < 8; z++) fprintf(fp, "%6d ", tmp.i[z]);
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");	
+
+  fprintf(fp, "E->C: %6d    E->J: %6d\n", om->xw[p7O_E][p7O_MOVE], om->xw[p7O_E][p7O_LOOP]);
+  fprintf(fp, "N->B: %6d    N->N: %6d\n", om->xw[p7O_N][p7O_MOVE], om->xw[p7O_N][p7O_LOOP]);
+  fprintf(fp, "J->B: %6d    J->J: %6d\n", om->xw[p7O_J][p7O_MOVE], om->xw[p7O_J][p7O_LOOP]);
+  fprintf(fp, "C->T: %6d    C->C: %6d\n", om->xw[p7O_C][p7O_MOVE], om->xw[p7O_C][p7O_LOOP]);
+
+  fprintf(fp, "scale: %6.2f\n", om->scale_w);
+  fprintf(fp, "base:  %6d\n",   om->base_w);
+  fprintf(fp, "bound: %6d\n",   om->ddbound_w);
+  fprintf(fp, "Q:     %6d\n",   nq);
+  fprintf(fp, "M:     %6d\n",   M);
+  return eslOK;
+}
+
+
+/* oprofile_dump_fb()
+ *
+ * Dump the Forward/Backward part of a profile <om> to <stdout>.
+ * <width>, <precision> control the floating point output:
+ *  8,5 is a reasonable choice for prob space,
+ *  5,2 is reasonable for log space.
+ */
+static int
+oprofile_dump_fb(FILE *fp, const P7_OPROFILE *om, int width, int precision)
+{
+  int     M   = om->M;		/* length of the query                                          */
+  int     nq  = p7O_NQF(M);     /* segment length; total # of striped vectors needed            */
+  int     x;			/* counter over residues                                        */
+  int     q;			/* q counts over total # of striped vectors, 0..nq-1            */
+  int     k;			/* the usual counter over model nodes 1..M                      */
+  int     kb;			/* possibly offset base k for loading om's TSC vectors          */
+  int     z;			/* counter within elements of one SIMD minivector               */
+  int     t;			/* counter over transitions 0..7 = p7O_{BM,MM,IM,DM,MD,MI,II,DD}*/
+  int     j;			/* counter in interleaved vector arrays in the profile          */
+
+  /* used to align and read simd minivectors */
+  union { vector float v; float x[4]; } tmp;
+
+  /* Residue emissions */
+  for (x = 0; x < om->abc->Kp; x++)
+    {
+      fprintf(fp, "(%c): ", om->abc->sym[x]);
+      for (k =1, q = 0; q < nq; q++, k++)
+	{
+	  fprintf(fp, "[ ");
+	  for (z = 0; z < 4; z++)
+	    if (k+z*nq <= M) fprintf(fp, "%*d ", width, k+z*nq);
+	    else             fprintf(fp, "%*s ", width, "xx");
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\nmat: ");
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->rfv[x][q];
+	  for (z = 0; z < 4; z++) fprintf(fp, "%*.*f ", width, precision, tmp.x[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n\n");
+    }
+
+  /* Transitions */
+  for (t = p7O_BM; t <= p7O_II; t++)
+    {
+      switch (t) {
+      case p7O_BM: fprintf(fp, "\ntBM: "); break;
+      case p7O_MM: fprintf(fp, "\ntMM: "); break;
+      case p7O_IM: fprintf(fp, "\ntIM: "); break;
+      case p7O_DM: fprintf(fp, "\ntDM: "); break;
+      case p7O_MD: fprintf(fp, "\ntMD: "); break;
+      case p7O_MI: fprintf(fp, "\ntMI: "); break;
+      case p7O_II: fprintf(fp, "\ntII: "); break;
+      }
+      for (k = 1, q = 0; q < nq; q++, k++)
+	{
+	  switch (t) {
+	  case p7O_MM:/* MM, DM, IM quads rotated by +1  */
+	  case p7O_IM:
+	  case p7O_DM:
+		  kb = (1 + (nq+k-2)) % nq;
+		  break;
+	  case p7O_BM:/* the remaining ones are straight up  */
+	  case p7O_MD:
+	  case p7O_MI:
+	  case p7O_II:
+		  kb = k;
+		  break;
+	  }
+	  fprintf(fp, "[ ");
+	  for (z = 0; z < 4; z++)
+	    if (kb+z*nq <= M) fprintf(fp, "%*d ", width, kb+z*nq);
+	    else              fprintf(fp, "%*s ", width, "xx");
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n     ");	
+      for (q = 0; q < nq; q++)
+	{
+	  fprintf(fp, "[ ");
+	  tmp.v = om->tfv[q*7 + t];
+	  for (z = 0; z < 4; z++) fprintf(fp, "%*.*f ", width, precision, tmp.x[z]);
+	  fprintf(fp, "]");
+	}
+      fprintf(fp, "\n");	
+    }
+
+  /* DD transitions */
+  fprintf(fp, "\ntDD: ");
+  for (k =1, q = 0; q < nq; q++, k++)
+    {
+      fprintf(fp, "[ ");
+      for (z = 0; z < 4; z++)
+	if (k+z*nq <= M) fprintf(fp, "%*d ", width, k+z*nq);
+	else             fprintf(fp, "%*s ", width, "xx");
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n     ");	
+  for (j = nq*7, q = 0; q < nq; q++, j++)
+    {
+      fprintf(fp, "[ ");
+      tmp.v = om->tfv[j];
+      for (z = 0; z < 4; z++) fprintf(fp, "%*.*f ", width, precision, tmp.x[z]);
+      fprintf(fp, "]");
+    }
+  fprintf(fp, "\n");	
+
+  /* Specials */
+  fprintf(fp, "E->C: %*.*f    E->J: %*.*f\n", width, precision, om->xf[p7O_E][p7O_MOVE], width, precision, om->xf[p7O_E][p7O_LOOP]);
+  fprintf(fp, "N->B: %*.*f    N->N: %*.*f\n", width, precision, om->xf[p7O_N][p7O_MOVE], width, precision, om->xf[p7O_N][p7O_LOOP]);
+  fprintf(fp, "J->B: %*.*f    J->J: %*.*f\n", width, precision, om->xf[p7O_J][p7O_MOVE], width, precision, om->xf[p7O_J][p7O_LOOP]);
+  fprintf(fp, "C->T: %*.*f    C->C: %*.*f\n", width, precision, om->xf[p7O_C][p7O_MOVE], width, precision, om->xf[p7O_C][p7O_LOOP]);
+  fprintf(fp, "Q:     %d\n",   nq);
+  fprintf(fp, "M:     %d\n",   M);
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_Dump()
+ * Synopsis:  Dump internals of a <P7_OPROFILE>
+ * Incept:    SRE, Thu Dec 13 08:49:30 2007 [Janelia]
+ *
+ * Purpose:   Dump the internals of <P7_OPROFILE> structure <om>
+ *            to stream <fp>; generally for testing or debugging
+ *            purposes.
+ *
+ * Args:      fp   - output stream (often stdout)
+ *            om   - optimized profile to dump
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_Dump(FILE *fp, const P7_OPROFILE *om)
+{
+  int status;
+
+  fprintf(fp, "Dump of a <P7_OPROFILE> ::\n");
+
+  fprintf(fp, "\n  -- float part, odds ratios for Forward/Backward:\n");
+  if ((status = oprofile_dump_fb(fp, om, 8, 5)) != eslOK) return status;
+
+  fprintf(fp, "\n  -- sword part, log odds for ViterbiFilter(): \n");
+  if ((status = oprofile_dump_vf(fp, om))       != eslOK) return status;
+
+  fprintf(fp, "\n  -- uchar part, log odds for MSVFilter(): \n");
+  if ((status = oprofile_dump_mf(fp, om))       != eslOK) return status;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_oprofile_Sample()
+ * Synopsis:  Sample a random profile.
+ * Incept:    SRE, Wed Jul 30 13:11:52 2008 [Janelia]
+ *
+ * Purpose:   Sample a random profile of <M> nodes for alphabet <abc>,
+ *            using <r> as the source of random numbers. Parameterize
+ *            it for generation of target sequences of mean length
+ *            <L>. Calculate its log-odds scores using background
+ *            model <bg>.
+ *
+ * Args:      r       - random number generator
+ *            abc     - emission alphabet
+ *            bg      - background frequency model
+ *            M       - size of sampled profile, in nodes
+ *            L       - configured target seq mean length
+ *            opt_hmm - optRETURN: sampled HMM
+ *            opt_gm  - optRETURN: sampled normal profile
+ *            opt_om  - RETURN: optimized profile
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_oprofile_Sample(ESL_RANDOMNESS *r, const ESL_ALPHABET *abc, const P7_BG *bg, int M, int L,
+		   P7_HMM **opt_hmm, P7_PROFILE **opt_gm, P7_OPROFILE **ret_om)
+{
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_OPROFILE    *om   = NULL;
+  int             status;
+
+  if ((gm = p7_profile_Create (M, abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+  if ((om = p7_oprofile_Create(M, abc)) == NULL)  { status = eslEMEM; goto ERROR; }
+
+  if ((status = p7_hmm_Sample(r, M, abc, &hmm))             != eslOK) goto ERROR;
+  if ((status = p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)) != eslOK) goto ERROR;
+  if ((status = p7_oprofile_Convert(gm, om))                != eslOK) goto ERROR;
+  if ((status = p7_oprofile_ReconfigLength(om, L))          != eslOK) goto ERROR;
+
+  if (opt_hmm != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  if (opt_gm  != NULL) *opt_gm  = gm;  else p7_profile_Destroy(gm);
+  *ret_om = om;
+  return eslOK;
+
+ ERROR:
+  if (opt_hmm != NULL) *opt_hmm = NULL;
+  if (opt_gm  != NULL) *opt_gm  = NULL;
+  *ret_om = NULL;
+  return status;
+}
+
+
+/* Function:  p7_oprofile_Compare()
+ * Synopsis:  Compare two optimized profiles for equality.
+ * Incept:    SRE, Wed Jan 21 13:29:10 2009 [Janelia]
+ *
+ * Purpose:   Compare the contents of <om1> and <om2>; return
+ *            <eslOK> if they are effectively identical profiles,
+ *            or <eslFAIL> if not.
+ *
+ *            Floating point comparisons are done to a tolerance
+ *            of <tol> using <esl_FCompare()>.
+ *
+ *            If a comparison fails, an informative error message is
+ *            left in <errmsg> to indicate why.
+ *
+ *            Internal allocation sizes are not compared, only the
+ *            data.
+ *
+ * Args:      om1    - one optimized profile to compare
+ *            om2    - the other
+ *            tol    - floating point comparison tolerance; see <esl_FCompare()>
+ *            errmsg - ptr to array of at least <eslERRBUFSIZE> characters.
+ *
+ * Returns:   <eslOK> on effective equality;  <eslFAIL> on difference.
+ */
+int
+p7_oprofile_Compare(const P7_OPROFILE *om1, const P7_OPROFILE *om2, float tol, char *errmsg)
+{
+  int Q4  = p7O_NQF(om1->M);
+  int Q8  = p7O_NQW(om1->M);
+  int Q16 = p7O_NQB(om1->M);
+  int q, r, x, y;
+
+  union { vector unsigned char v; uint8_t c[16]; } a16, b16;
+  union { vector signed short v;  int16_t w[8];  } a8,  b8;
+  union { vector float v;         float   x[4];  } a4,  b4;
+
+  if (om1->mode      != om2->mode)      ESL_FAIL(eslFAIL, errmsg, "comparison failed: mode");
+  if (om1->L         != om2->L)         ESL_FAIL(eslFAIL, errmsg, "comparison failed: L");
+  if (om1->M         != om2->M)         ESL_FAIL(eslFAIL, errmsg, "comparison failed: M");
+  if (om1->nj        != om2->nj)        ESL_FAIL(eslFAIL, errmsg, "comparison failed: nj");
+  if (om1->abc->type != om2->abc->type) ESL_FAIL(eslFAIL, errmsg, "comparison failed: alphabet type");
+
+  /* MSVFilter part */
+  for (x = 0; x < om1->abc->Kp; x++)
+    for (q = 0; q < Q16; q++)
+      {
+	a16.v = om1->rbv[x][q]; b16.v = om2->rbv[x][q];
+	for (r = 0; r < 16; r++) if (a16.c[r] != b16.c[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: rb[%d] elem %d", q, r);
+      }
+  if (om1->tbm_b     != om2->tbm_b)     ESL_FAIL(eslFAIL, errmsg, "comparison failed: tbm_b");
+  if (om1->tec_b     != om2->tec_b)     ESL_FAIL(eslFAIL, errmsg, "comparison failed: tec_b");
+  if (om1->tjb_b     != om2->tjb_b)     ESL_FAIL(eslFAIL, errmsg, "comparison failed: tjb_b");
+  if (om1->scale_b   != om2->scale_b)   ESL_FAIL(eslFAIL, errmsg, "comparison failed: scale_b");
+  if (om1->base_b    != om2->base_b)    ESL_FAIL(eslFAIL, errmsg, "comparison failed: base_b");
+  if (om1->bias_b    != om2->bias_b)    ESL_FAIL(eslFAIL, errmsg, "comparison failed: bias_b");
+
+  /* ViterbiFilter() part */
+  for (x = 0; x < om1->abc->Kp; x++)
+    for (q = 0; q < Q8; q++)
+      {
+	a8.v = om1->rwv[x][q]; b8.v = om2->rwv[x][q];
+	for (r = 0; r < 8; r++) if (a8.w[r] != b8.w[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: rw[%d] elem %d", q, r);
+      }
+  for (q = 0; q < 8*Q16; q++)
+    {
+      a8.v = om1->twv[q]; b8.v = om2->twv[q];
+      for (r = 0; r < 8; r++) if (a8.w[r] != b8.w[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: tw[%d] elem %d", q, r);
+    }
+  for (x = 0; x < p7O_NXSTATES; x++)
+    for (y = 0; y < p7O_NXTRANS; y++)
+      if (om1->xw[x][y] != om2->xw[x][y]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: xw[%d][%d]", x, y);
+
+  if (om1->scale_w   != om2->scale_w)   ESL_FAIL(eslFAIL, errmsg, "comparison failed: scale");
+  if (om1->base_w    != om2->base_w)    ESL_FAIL(eslFAIL, errmsg, "comparison failed: base");
+  if (om1->ddbound_w != om2->ddbound_w) ESL_FAIL(eslFAIL, errmsg, "comparison failed: ddbound_w");
+
+  /* Forward/Backward part */
+  for (x = 0; x < om1->abc->Kp; x++)
+    for (q = 0; q < Q4; q++)
+      {
+	a4.v = om1->rfv[x][q]; b4.v = om2->rfv[x][q];
+	for (r = 0; r < 4; r++) if (esl_FCompare(a4.x[r], b4.x[r], tol) != eslOK)  ESL_FAIL(eslFAIL, errmsg, "comparison failed: rf[%d] elem %d", q, r);
+      }
+  for (q = 0; q < 8*Q4; q++)
+    {
+      a4.v = om1->tfv[q]; b4.v = om2->tfv[q];
+      for (r = 0; r < 4; r++) if (a4.x[r] != b4.x[r]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: tf[%d] elem %d", q, r);
+    }
+  for (x = 0; x < p7O_NXSTATES; x++)
+    if (esl_vec_FCompare(om1->xf[x], om2->xf[x], p7O_NXTRANS, tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: xf[%d] vector", x);
+
+   for (x = 0; x < p7_NOFFSETS; x++)
+     if (om1->offs[x] != om2->offs[x]) ESL_FAIL(eslFAIL, errmsg, "comparison failed: offs[%d]", x);
+
+   if (esl_strcmp(om1->name,      om2->name)      != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: name");
+   if (esl_strcmp(om1->acc,       om2->acc)       != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: acc");
+   if (esl_strcmp(om1->desc,      om2->desc)      != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: desc");
+   if (esl_strcmp(om1->rf,        om2->rf)        != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: ref");
+   if (esl_strcmp(om1->mm,        om2->mm)        != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: mm");
+   if (esl_strcmp(om1->cs,        om2->cs)        != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: cs");
+   if (esl_strcmp(om1->consensus, om2->consensus) != 0) ESL_FAIL(eslFAIL, errmsg, "comparison failed: consensus");
+
+   if (esl_vec_FCompare(om1->evparam, om2->evparam, p7_NEVPARAM, tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: evparam vector");
+   if (esl_vec_FCompare(om1->cutoff,  om2->cutoff,  p7_NCUTOFFS, tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: cutoff vector");
+   if (esl_vec_FCompare(om1->compo,   om2->compo,   p7_MAXABET,  tol) != eslOK) ESL_FAIL(eslFAIL, errmsg, "comparison failed: compo vector");
+
+   return eslOK;
+}
+
+
+/* Function:  p7_profile_SameAsMF()
+ * Synopsis:  Set a generic profile's scores to give MSV scores.
+ * Incept:    SRE, Wed Jul 30 13:42:49 2008 [Janelia]
+ *
+ * Purpose:   Set a generic profile's scores so that the normal <dp_generic> DP
+ *            algorithms will give the same score as <p7_MSVFilter()>:
+ *            all t_MM scores = 0; all other core transitions = -inf;
+ *            multihit local mode; all <t_BMk> entries uniformly <log 2/(M(M+1))>;
+ *            <tCC, tNN, tJJ> scores 0; total approximated later as -3;
+ *            rounded in the same way as the 8-bit limited precision.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_profile_SameAsMF(const P7_OPROFILE *om, P7_PROFILE *gm)
+{
+  int    k,x;
+  float  tbm = roundf(om->scale_b * (log(2.0f / ((float) gm->M * (float) (gm->M+1)))));
+
+  /* Transitions */
+  esl_vec_FSet(gm->tsc, p7P_NTRANS * gm->M, -eslINFINITY);
+  for (k = 1; k <  gm->M; k++) p7P_TSC(gm, k, p7P_MM) = 0.0f;
+  for (k = 0; k <  gm->M; k++) p7P_TSC(gm, k, p7P_BM) = tbm;
+
+  /* Emissions */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 0; k <= gm->M; k++)
+      {
+	gm->rsc[x][k*2]   = (gm->rsc[x][k*2] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_b * gm->rsc[x][k*2]);
+	gm->rsc[x][k*2+1] = 0;	/* insert score: VF makes it zero no matter what. */
+      }	
+
+   /* Specials */
+  for (k = 0; k < p7P_NXSTATES; k++)
+    for (x = 0; x < p7P_NXTRANS; x++)
+      gm->xsc[k][x] = (gm->xsc[k][x] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_b * gm->xsc[k][x]);
+
+  /* NN, CC, JJ hardcoded 0 in limited precision */
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_J][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = 0;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_profile_SameAsVF()
+ * Synopsis:  Round a generic profile to match ViterbiFilter scores.
+ * Incept:    SRE, Wed Jul 30 13:37:48 2008 [Janelia]
+ *
+ * Purpose:   Round all the scores in a generic (lspace) <P7_PROFILE> <gm> in
+ *            exactly the same way that the scores in the
+ *            <P7_OPROFILE> <om> were rounded. Then we can test that two profiles
+ *            give identical internal scores in testing, say,
+ *            <p7_ViterbiFilter()> against <p7_GViterbi()>.
+ *
+ *            The 3nat approximation is used; NN=CC=JJ=0, and 3 nats are
+ *            subtracted at the end to account for their contribution.
+ *
+ *            To convert a generic Viterbi score <gsc> calculated with this profile
+ *            to a nat score that should match ViterbiFilter() exactly,
+ *            do <(gsc / om->scale_w) - 3.0>.
+ *
+ *            <gm> must be the same profile that <om> was constructed from.
+ *
+ *            <gm> is irrevocably altered by this call.
+ *
+ *            Do not call this more than once on any given <gm>!
+ *
+ * Args:      <om>  - optimized profile, containing scale information.
+ *            <gm>  - generic profile that <om> was built from.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_profile_SameAsVF(const P7_OPROFILE *om, P7_PROFILE *gm)
+{
+  int k;
+  int x;
+
+  /* Transitions */
+  /* <= -eslINFINITY test is used solely to silence compiler. really testing == -eslINFINITY */
+  for (x = 0; x < gm->M*p7P_NTRANS; x++)
+    gm->tsc[x] = (gm->tsc[x] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_w * gm->tsc[x]);
+
+  /* Enforce the rule that no II can be 0; max of -1 */
+  for (x = p7P_II; x < gm->M*p7P_NTRANS; x += p7P_NTRANS)
+    if (gm->tsc[x] == 0.0) gm->tsc[x] = -1.0;
+
+  /* Emissions */
+  for (x = 0; x < gm->abc->Kp; x++)
+    for (k = 0; k <= gm->M; k++)
+      {
+	gm->rsc[x][k*2]   = (gm->rsc[x][k*2]   <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_w * gm->rsc[x][k*2]);
+	gm->rsc[x][k*2+1] = 0.0;	/* insert score: VF makes it zero no matter what. */
+      }	
+
+  /* Specials */
+  for (k = 0; k < p7P_NXSTATES; k++)
+    for (x = 0; x < p7P_NXTRANS; x++)
+      gm->xsc[k][x] = (gm->xsc[k][x] <= -eslINFINITY) ? -eslINFINITY : roundf(om->scale_w * gm->xsc[k][x]);
+
+  /* 3nat approximation: NN, CC, JJ hardcoded 0 in limited precision */
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_J][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = 0.0;
+
+  return eslOK;
+}
+
+/*------------ end, P7_OPROFILE debugging tools  ----------------*/
+
+
+
+/*****************************************************************
+ * 5. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7OPROFILE_BENCHMARK
+/* Timing profile conversion.
+   gcc -o benchmark-oprofile -std=gnu99 -g -Wall -maltivec -I.. -L.. -I../../easel -L../../easel -Dp7OPROFILE_BENCHMARK\
+      p7_oprofile.c -lhmmer -leasel -lm
+   icc -o benchmark-oprofile -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7OPROFILE_BENCHMARK p7_oprofile.c -lhmmer -leasel -lm
+   ./benchmark-vmx <hmmfile>         runs benchmark
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,    "400", NULL, NULL,  NULL,  NULL, NULL, "length of target sequence",                        0 },
+  { "-N",        eslARG_INT, "100000", NULL, NULL,  NULL,  NULL, NULL, "number of conversions to time",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for the generic implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_oprofile_Convert(gm, om);
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M = %d\n", gm->M);
+
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7OPROFILE_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef p7OPROFILE_TESTDRIVE
+
+
+#endif /*p7OPROFILE_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+#ifdef p7OPROFILE_TESTDRIVE
+
+
+#endif /*p7OPROFILE_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+/*****************************************************************
+ * 8. Example
+ *****************************************************************/
+#ifdef p7OPROFILE_EXAMPLE
+/* gcc -std=gnu99 -g -Wall -Dp7OPROFILE_EXAMPLE -I.. -I../../easel -L.. -L../../easel -o p7_oprofile_example p7_oprofile.c -lhmmer -leasel -lm
+ * ./p7_oprofile_example <hmmfile>
+ */
+#include "p7_config.h"
+#include <stdlib.h>
+#include "easel.h"
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  char         *hmmfile = argv[1];
+  ESL_ALPHABET *abc     = NULL;
+  P7_HMMFILE   *hfp     = NULL;
+  P7_HMM       *hmm     = NULL;
+  P7_BG        *bg      = NULL;
+  P7_PROFILE   *gm      = NULL;
+  P7_OPROFILE  *om1     = NULL;
+  P7_OPROFILE  *om2     = NULL;
+  int           status;
+  char          errbuf[eslERRBUFSIZE];
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  bg  = p7_bg_Create(abc);
+  gm  = p7_profile_Create(hmm->M, abc);
+  om1 = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+  p7_oprofile_Convert(gm, om1);
+
+  p7_oprofile_Dump(stdout, om1);
+
+  om2 = p7_oprofile_Copy(om1);
+  if (p7_oprofile_Compare(om1, om2, 0.001f, errbuf) != eslOK)
+    printf ("ERROR %s\n", errbuf);
+
+  p7_oprofile_Destroy(om1);
+  p7_oprofile_Destroy(om2);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*p7OPROFILE_EXAMPLE*/
+/*----------------------- end, example --------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/stotrace.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/stotrace.c
new file mode 100755
index 0000000..e680bf7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/stotrace.c
@@ -0,0 +1,662 @@
+/* VMX implementation of stochastic backtrace of a Forward matrix.
+ * (Compare generic version, p7_GStochasticTrace().)
+ * 
+ * Contents:
+ *    1. Stochastic trace implementation.
+ *    2. Selection of steps in the traceback.
+ *    3. Benchmark driver.
+ *    4. Unit tests.
+ *    5. Test driver.
+ *    6. Example.
+ *    7. Copyright and license information.
+ *    
+ * SRE, Fri Aug 15 08:02:43 2008 [Janelia]
+ * SVN $Id: stotrace.c 3497 2011-03-02 23:18:03Z eddys $
+ */   
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_vmx.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static inline int select_m(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k);
+static inline int select_d(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k);
+static inline int select_i(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k);
+static inline int select_n(int i);
+static inline int select_c(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i);
+static inline int select_j(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i);
+static inline int select_e(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int *ret_k);
+static inline int select_b(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i);
+
+
+/*****************************************************************
+ * 1. Stochastic trace implementation.
+ *****************************************************************/
+
+/* Function:  p7_StochasticTrace()
+ * Synopsis:  Sample a traceback from a Forward matrix
+ * Incept:    SRE, Fri Aug  8 17:40:18 2008 [UA217, IAD-SFO]
+ *
+ * Purpose:   Perform a stochastic traceback from Forward matrix <ox>,
+ *            using random number generator <r>, in order to sample an
+ *            alignment of model <om> to digital sequence <dsq> of
+ *            length <L>. 
+ *            
+ *            The sampled traceback is returned in <tr>, which the
+ *            caller provides with at least an initial allocation;
+ *            the <tr> allocation will be grown as needed here.
+ *
+ * Args:      r   - source of random numbers
+ *            dsq - digital sequence being aligned, 1..L
+ *            L   - length of dsq
+ *            om  - profile
+ *            ox  - Forward matrix to trace, LxM
+ *            tr  - storage for the recovered traceback
+ *
+ * Returns:   <eslOK> on success
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> on several types of problems, including:
+ *            the trace isn't empty (wasn't Reuse()'d);
+ */
+int
+p7_StochasticTrace(ESL_RANDOMNESS *rng, const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, const P7_OMX *ox,
+		   P7_TRACE *tr)
+{
+  int   i;			/* position in sequence 1..L */
+  int   k;			/* position in model 1..M */
+  int   s0, s1;			/* choice of a state */
+  int   status;			
+  
+  if (tr->N != 0) ESL_EXCEPTION(eslEINVAL, "trace not empty; needs to be Reuse()'d?");
+
+  i = L;			
+  k = 0;
+  if ((status = p7_trace_Append(tr, p7T_T, k, i)) != eslOK) return status;
+  if ((status = p7_trace_Append(tr, p7T_C, k, i)) != eslOK) return status;
+  s0 = tr->st[tr->N-1];
+  while (s0 != p7T_S)
+    {
+      switch (s0) {
+      case p7T_M: s1 = select_m(rng, om, ox, i, k);  k--; i--; break;
+      case p7T_D: s1 = select_d(rng, om, ox, i, k);  k--;      break;
+      case p7T_I: s1 = select_i(rng, om, ox, i, k);       i--; break;
+      case p7T_N: s1 = select_n(i);                            break;
+      case p7T_C: s1 = select_c(rng, om, ox, i);               break;
+      case p7T_J: s1 = select_j(rng, om, ox, i);               break;
+      case p7T_E: s1 = select_e(rng, om, ox, i, &k);           break;
+      case p7T_B: s1 = select_b(rng, om, ox, i);               break;
+      default: ESL_EXCEPTION(eslEINVAL, "bogus state in traceback");
+      }
+      if (s1 == -1) ESL_EXCEPTION(eslEINVAL, "Stochastic traceback choice failed");
+
+      if ((status = p7_trace_Append(tr, s1, k, i)) != eslOK) return status;
+
+      if ( (s1 == p7T_N || s1 == p7T_J || s1 == p7T_C) && s1 == s0) i--;
+      s0 = s1;
+    } /* end traceback, at S state */
+
+  tr->M = om->M;
+  tr->L = L;
+  return p7_trace_Reverse(tr);
+}
+/*------------------ end, stochastic traceback ------------------*/
+
+
+/*****************************************************************
+ * 2. Selection of steps in the traceback
+ *****************************************************************/
+/* The guts of the stochastic backtrace function is broken out in
+ * pieces: each select_?() function randomly selects one of the
+ * possible paths, according to their probability, and returns the
+ * index of the state we move to next.
+ */
+
+/* M(i,k) is reached from B(i-1), M(i-1,k-1), D(i-1,k-1), or I(i-1,k-1). */
+static inline int
+select_m(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell M(i,k) */
+  int     r     = (k-1) / Q;
+  vector float *tp = om->tfv + 7*q;    	/* *tp now at start of transitions to cur cell M(i,k) */
+  vector float  xBv;
+  vector float  zerov;
+  vector float  mpv, dpv, ipv;
+  union { vector float v; float p[4]; } u;
+  float   path[4];
+  int     state[4] = { p7T_B, p7T_M, p7T_I, p7T_D };
+  
+  xBv   = esl_vmx_set_float(ox->xmx[(i-1)*p7X_NXCELLS+p7X_B]);
+  zerov = (vector float) vec_splat_u32(0);
+
+  if (q > 0) {
+    mpv = ox->dpf[i-1][(q-1)*3 + p7X_M];
+    dpv = ox->dpf[i-1][(q-1)*3 + p7X_D];
+    ipv = ox->dpf[i-1][(q-1)*3 + p7X_I];
+  } else {
+    mpv = vec_sld(zerov, ox->dpf[i-1][(Q-1)*3 + p7X_M], 12);
+    dpv = vec_sld(zerov, ox->dpf[i-1][(Q-1)*3 + p7X_D], 12);
+    ipv = vec_sld(zerov, ox->dpf[i-1][(Q-1)*3 + p7X_I], 12);
+  }	  
+  
+  u.v = vec_madd(xBv, *tp, zerov); tp++;  path[0] = u.p[r];
+  u.v = vec_madd(mpv, *tp, zerov); tp++;  path[1] = u.p[r];
+  u.v = vec_madd(ipv, *tp, zerov); tp++;  path[2] = u.p[r];
+  u.v = vec_madd(dpv, *tp, zerov);        path[3] = u.p[r];
+  esl_vec_FNorm(path, 4);
+  return state[esl_rnd_FChoose(rng, path, 4)];
+}
+
+/* D(i,k) is reached from M(i, k-1) or D(i,k-1). */
+static inline int
+select_d(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q     = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r     = (k-1) / Q;
+  vector float  zerov;
+  vector float  mpv, dpv;
+  vector float  tmdv, tddv;
+  union { vector float v; float p[4]; } u;
+  float   path[2];
+  int     state[2] = { p7T_M, p7T_D };
+
+  zerov = (vector float) vec_splat_u32(0);
+
+  if (q > 0) {
+    mpv  = ox->dpf[i][(q-1)*3 + p7X_M];
+    dpv  = ox->dpf[i][(q-1)*3 + p7X_D];
+    tmdv = om->tfv[7*(q-1) + p7O_MD];
+    tddv = om->tfv[7*Q + (q-1)];
+  } else {
+    mpv  = vec_sld(zerov, ox->dpf[i][(Q-1)*3 + p7X_M], 12);
+    dpv  = vec_sld(zerov, ox->dpf[i][(Q-1)*3 + p7X_D], 12);
+    tmdv = vec_sld(zerov, om->tfv[7*(Q-1) + p7O_MD],   12);
+    tddv = vec_sld(zerov, om->tfv[8*Q-1],              12);
+  }	  
+
+  u.v = vec_madd(mpv, tmdv, zerov); path[0] = u.p[r];
+  u.v = vec_madd(dpv, tddv, zerov); path[1] = u.p[r];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* I(i,k) is reached from M(i-1, k) or I(i-1,k). */
+static inline int
+select_i(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int k)
+{
+  int     Q     = p7O_NQF(ox->M);
+  int     q    = (k-1) % Q;		/* (q,r) is position of the current DP cell D(i,k) */
+  int     r    = (k-1) / Q;
+  vector float  zerov;
+  vector float  mpv  = ox->dpf[i-1][q*3 + p7X_M];
+  vector float  ipv  = ox->dpf[i-1][q*3 + p7X_I];
+  vector float *tp   = om->tfv + 7*q + p7O_MI;
+  union { vector float v; float p[4]; } u;
+  float   path[2];
+  int     state[2] = { p7T_M, p7T_I };
+
+  zerov = (vector float) vec_splat_u32(0);
+
+  u.v = vec_madd(mpv, *tp, zerov); tp++;  path[0] = u.p[r];
+  u.v = vec_madd(ipv, *tp, zerov);        path[1] = u.p[r];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* N(i) must come from N(i-1) for i>0; else it comes from S */
+static inline int
+select_n(int i)
+{
+  if (i == 0) return p7T_S;
+  else        return p7T_N;
+}
+
+/* C(i) is reached from E(i) or C(i-1). */
+static inline int
+select_c(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+  int   state[2] = { p7T_C, p7T_E };
+
+  path[0] = ox->xmx[(i-1)*p7X_NXCELLS+p7X_C] * om->xf[p7O_C][p7O_LOOP];
+  path[1] = ox->xmx[    i*p7X_NXCELLS+p7X_E] * om->xf[p7O_E][p7O_MOVE] * ox->xmx[i*p7X_NXCELLS+p7X_SCALE];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* J(i) is reached from E(i) or J(i-1). */
+static inline int
+select_j(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+  int   state[2] = { p7T_J, p7T_E };
+
+  path[0] = ox->xmx[(i-1)*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_LOOP];
+  path[1] = ox->xmx[    i*p7X_NXCELLS+p7X_E] * om->xf[p7O_E][p7O_LOOP] * ox->xmx[i*p7X_NXCELLS+p7X_SCALE];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+
+/* E(i) is reached from any M(i, k=1..M) or D(i, k=2..M). */
+/* Using FChoose() here would mean allocating tmp space for 2M-1 paths;
+ * instead we use the fact that E(i) is itself the necessary normalization
+ * factor, and implement FChoose's algorithm here for an on-the-fly 
+ * calculation.
+ */
+static inline int
+select_e(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i, int *ret_k)
+{
+  int          Q     = p7O_NQF(ox->M);
+  double       sum   = 0.0;
+  double       roll  = esl_random(rng);
+  double       norm  = 1.0 / ox->xmx[i*p7X_NXCELLS+p7X_E];   /* all M, D already scaled exactly the same */
+  vector float xEv   = esl_vmx_set_float(norm);
+  vector float zerov = (vector float) vec_splat_u32(0);
+  union { vector float v; float p[4]; } u;
+  int    q,r;
+
+  while (1) {
+    for (q = 0; q < Q; q++)
+      {
+	u.v = vec_madd(ox->dpf[i][q*3 + p7X_M], xEv, zerov);
+	for (r = 0; r < 4; r++) {
+	  sum += u.p[r];
+	  if (roll < sum) { *ret_k = r*Q + q + 1; return p7T_M;}
+	}
+
+	u.v = vec_madd(ox->dpf[i][q*3 + p7X_D], xEv, zerov);
+	for (r = 0; r < 4; r++) {
+	  sum += u.p[r];
+	  if (roll < sum) { *ret_k = r*Q + q + 1; return p7T_D;}
+	}
+      }
+    ESL_DASSERT1(sum > 0.99);
+  }
+  /*UNREACHED*/
+  ESL_EXCEPTION(-1, "unreached code was reached. universe collapses.");
+} 
+
+/* B(i) is reached from N(i) or J(i). */
+static inline int
+select_b(ESL_RANDOMNESS *rng, const P7_OPROFILE *om, const P7_OMX *ox, int i)
+{
+  float path[2];
+  int   state[2] = { p7T_N, p7T_J };
+
+  path[0] = ox->xmx[i*p7X_NXCELLS+p7X_N] * om->xf[p7O_N][p7O_MOVE];
+  path[1] = ox->xmx[i*p7X_NXCELLS+p7X_J] * om->xf[p7O_J][p7O_MOVE];
+  esl_vec_FNorm(path, 2);
+  return state[esl_rnd_FChoose(rng, path, 2)];
+}
+/*---------------------- end, step selection --------------------*/
+
+/*****************************************************************
+ * 3. Benchmark
+ *****************************************************************/
+#ifdef p7STOTRACE_BENCHMARK
+/*
+   gcc -g -O2      -o stotrace_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_BENCHMARK stotrace.c -lhmmer -leasel -lm
+   icc -O3 -static -o stotrace_benchmark -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_BENCHMARK stotrace.c -lhmmer -leasel -lm
+   ./stotrace_benchmark <hmmfile>
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seq" ,                   0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of sampled tracebacks",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for stochastic traceback, VMX version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc, fsc, vsc;
+  float           bestsc  = -eslINFINITY;
+  
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+  om = p7_oprofile_Create(gm->M, abc);   p7_oprofile_Convert(gm, om);
+
+  fwd = p7_omx_Create(gm->M, L, L);
+  gx  = p7_gmx_Create(gm->M, L);
+  tr  = p7_trace_Create();
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+  p7_GViterbi(dsq, L, gm, gx,  &vsc);
+  p7_Forward (dsq, L, om, fwd, &fsc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_StochasticTrace(r, dsq, L, om, fwd, tr);
+      p7_trace_Score(tr, dsq, gm, &sc);
+      bestsc = ESL_MAX(bestsc, sc);
+      p7_trace_Reuse(tr);
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  printf("forward sc   = %.4f nats\n", fsc);
+  printf("viterbi sc   = %.4f nats\n", vsc);
+  printf("max trace sc = %.4f nats\n", bestsc);
+
+  free(dsq);
+  p7_trace_Destroy(tr);
+  p7_gmx_Destroy(gx);
+  p7_omx_Destroy(fwd);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_BENCHMARK*/
+/*----------------- end, benchmark ------------------------------*/
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7STOTRACE_TESTDRIVE
+#include "esl_getopts.h"
+
+/* tests: 
+ *   1. each sampled trace must validate.
+ *   2. each trace must be <= viterbi trace score
+ *   3. in a large # of traces, one is "equal" to the viterbi trace score.
+ *      (this of course is stochastic; but it's true for the particular
+ *       choice of RNG seed used in tests here.)
+ */
+static void
+utest_stotrace(ESL_GETOPTS *go, ESL_RANDOMNESS *rng, ESL_ALPHABET *abc, P7_PROFILE *gm, P7_OPROFILE *om, ESL_DSQ *dsq, int L, int ntrace)
+{
+  P7_GMX   *gx  = NULL;
+  P7_OMX   *ox  = NULL;
+  P7_TRACE *tr  = NULL;
+  char      errbuf[eslERRBUFSIZE];
+  int       idx;
+  float     maxsc = -eslINFINITY;
+  float     vsc, sc;
+
+  if ((gx     = p7_gmx_Create(gm->M, L))        == NULL)  esl_fatal("generic DP matrix creation failed");
+  if ((ox     = p7_omx_Create(gm->M, L, L))     == NULL)  esl_fatal("optimized DP matrix create failed");
+  if ((tr     = p7_trace_Create())              == NULL)  esl_fatal("trace creation failed");
+
+  if (p7_GViterbi(dsq, L, gm, gx, &vsc)         != eslOK) esl_fatal("viterbi failed");
+  if (p7_Forward (dsq, L, om, ox, NULL)         != eslOK) esl_fatal("forward failed");
+
+  for (idx = 0; idx < ntrace; idx++)
+    {
+      if (p7_StochasticTrace(rng, dsq, L, om, ox, tr) != eslOK) esl_fatal("stochastic trace failed");
+      if (p7_trace_Validate(tr, abc, dsq, errbuf)     != eslOK) esl_fatal("trace invalid:\n%s", errbuf);
+      if (p7_trace_Score(tr, dsq, gm, &sc)            != eslOK) esl_fatal("trace scoring failed"); 
+
+      maxsc = ESL_MAX(sc, maxsc);
+      if (sc > vsc) esl_fatal("sampled trace has score > optimal Viterbi path; not possible");
+      p7_trace_Reuse(tr);
+    }
+  if (esl_FCompare(maxsc, vsc, 0.1) != eslOK) esl_fatal("stochastic trace failed to sample the Viterbi path");
+  
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+}
+#endif /*p7STOTRACE_TESTDRIVE*/
+/*----------------- end, unit tests -----------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Test driver 
+ *****************************************************************/
+#ifdef p7STOTRACE_TESTDRIVE
+/* gcc -g -Wall -o stotrace_utest -Dp7STOTRACE_TESTDRIVE -I.. -L.. -I../../easel -L../../easel stotrace.c -lhmmer -leasel -lm
+ */
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_randomseq.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for stochastic Viterbi traceback (generic version)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go     = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r      = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc    = NULL;
+  P7_HMM         *hmm    = NULL;
+  P7_PROFILE     *gm     = NULL;
+  P7_OPROFILE    *om     = NULL;
+  P7_BG          *bg     = NULL;
+  ESL_DSQ        *dsq    = NULL;
+  ESL_SQ         *sq     = NULL;
+  int             M      = 6;
+  int             L      = 10;
+  int             ntrace = 1000;
+
+  if ((abc = esl_alphabet_Create(eslAMINO))         == NULL)  esl_fatal("failed to create alphabet");
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal("failed to sample an HMM");
+  if ((bg = p7_bg_Create(abc))                      == NULL)  esl_fatal("failed to create null model");
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal("failed to create profile");
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL)    != eslOK) esl_fatal("failed to config profile");
+  if ((om = p7_oprofile_Create(gm->M, abc))         == NULL)  esl_fatal("failed to create optimized profile");
+  if (p7_oprofile_Convert(gm, om)                   != eslOK) esl_fatal("failed to convert profile");
+
+  /* Test with randomly generated (iid) sequence */
+  if ((dsq = malloc(sizeof(ESL_DSQ) *(L+2)))  == NULL)  esl_fatal("malloc failed");
+  if (esl_rsq_xfIID(r, bg->f, abc->K, L, dsq) != eslOK) esl_fatal("seq generation failed");
+  utest_stotrace(go, r, abc, gm, om, dsq, L, ntrace);
+
+  /* Test with seq sampled from profile */
+  if ((sq = esl_sq_CreateDigital(abc))             == NULL) esl_fatal("sequence allocation failed");
+  if (p7_ProfileEmit(r, hmm, gm, bg, sq, NULL)    != eslOK) esl_fatal("profile emission failed");
+  utest_stotrace(go, r, abc, gm, om, sq->dsq, sq->n, ntrace);
+   
+  esl_sq_Destroy(sq);
+  free(dsq);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+/*****************************************************************
+ * 6. Example.
+ *****************************************************************/
+#ifdef p7STOTRACE_EXAMPLE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -o stotrace_example -I.. -L.. -I../../easel -L../../easel -Dp7STOTRACE_EXAMPLE stotrace.c -lhmmer -leasel -lm
+   ./example <hmmfile> <seqfile>
+ */ 
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",     0 },
+  { "-m",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the DP matrix to stdout",             0 },
+  { "-p",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the profile to stdout",               0 },
+  { "-t",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "dump the sampled trace to stdout",         0 },
+  { "-N",        eslARG_INT,      "1", NULL, NULL,  NULL,  NULL, NULL, "number of traces to sample",               0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of stochastic backtrace (VMX version)";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  ESL_RANDOMNESS *rng     = esl_randomness_CreateFast(0);
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_GMX         *gx      = NULL;
+  P7_OMX         *fwd     = NULL;
+  P7_TRACE       *tr      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+  float           vsc, fsc, tsc;
+  char            errbuf[eslERRBUFSIZE];
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);                p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);   p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);   p7_oprofile_Convert(gm, om);
+
+  if (esl_opt_GetBoolean(go, "-p")) p7_oprofile_Dump(stdout, om);  
+
+  fwd = p7_omx_Create(gm->M, sq->n, sq->n);
+  gx  = p7_gmx_Create(gm->M, sq->n);
+  tr  = p7_trace_Create();
+
+  if (esl_opt_GetBoolean(go, "-m") == TRUE) p7_omx_SetDumpMode(stdout, fwd, TRUE); 
+  p7_GViterbi(sq->dsq, sq->n, gm, gx,  &vsc);
+  p7_Forward (sq->dsq, sq->n, om, fwd, &fsc);
+
+  for (i = 0; i < N; i++)
+    {
+      p7_StochasticTrace(rng, sq->dsq, sq->n, om, fwd, tr);
+      p7_trace_Score(tr, sq->dsq, gm, &tsc);
+  
+      if (esl_opt_GetBoolean(go, "-t") == TRUE) p7_trace_Dump(stdout, tr, gm, sq->dsq);
+      if (p7_trace_Validate(tr, abc, sq->dsq, errbuf) != eslOK)  p7_Die("trace %d fails validation:\n%s\n", i, errbuf);
+
+      printf("Sampled trace:  %.4f nats\n", tsc);
+      p7_trace_Reuse(tr);
+    }
+  printf("Forward score:  %.4f nats\n", fsc);
+  printf("Viterbi score:  %.4f nats\n", vsc);
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_trace_Destroy(tr);
+  p7_omx_Destroy(fwd);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_randomness_Destroy(rng);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7STOTRACE_EXAMPLE*/
+/*------------------------ end, example -------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/vitfilter.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/vitfilter.c
new file mode 100755
index 0000000..8f6f5f8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/vitfilter.c
@@ -0,0 +1,923 @@
+/* Viterbi filter implementation; VMX version.
+ * 
+ * This is a SIMD vectorized, striped, interleaved, one-row, reduced
+ * precision (epi16) implementation of the Viterbi algorithm.
+ * 
+ * It calculates a close approximation of the Viterbi score, in
+ * limited precision (signed words: 16 bits) and range. It may overflow on
+ * high scoring sequences, but this indicates that the sequence is a
+ * high-scoring hit worth examining more closely anyway.  It will not
+ * underflow, in local alignment mode.
+ * 
+ * Contents:
+ *   1. Viterbi filter implementation.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information
+ * 
+ * SRE, Thu Jul 31 20:32:25 2008 [Casa de Gatos]
+ * SVN $Id: vitfilter.c 4699 2014-07-03 14:54:25Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+#include "esl_gumbel.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+
+/*****************************************************************
+ * 1. Viterbi filter implementation.
+ *****************************************************************/
+
+/* Function:  p7_ViterbiFilter()
+ * Synopsis:  Calculates Viterbi score, vewy vewy fast, in limited precision.
+ * Incept:    SRE, Tue Nov 27 09:15:24 2007 [Janelia]
+ *
+ * Purpose:   Calculates an approximation of the Viterbi score for sequence
+ *            <dsq> of length <L> residues, using optimized profile <om>,
+ *            and a preallocated one-row DP matrix <ox>. Return the 
+ *            estimated Viterbi score (in nats) in <ret_sc>.
+ *            
+ *            Score may overflow (and will, on high-scoring
+ *            sequences), but will not underflow. 
+ *            
+ *            The model must be in a local alignment mode; other modes
+ *            cannot provide the necessary guarantee of no underflow.
+ *            
+ *            This is a striped SIMD Viterbi implementation using Intel
+ *            VMX integer intrinsics \citep{Farrar07}, in reduced
+ *            precision (signed words, 16 bits).
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: Viterbi score (in nats)          
+ *
+ * Returns:   <eslOK> on success;
+ *            <eslERANGE> if the score overflows; in this case
+ *            <*ret_sc> is <eslINFINITY>, and the sequence can 
+ *            be treated as a high-scoring hit.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if
+ *            profile isn't in a local alignment mode. (Must be in local
+ *            alignment mode because that's what helps us guarantee 
+ *            limited dynamic range.)
+ *
+ * Xref:      [Farrar07] for ideas behind striped SIMD DP.
+ *            J2/46-47 for layout of HMMER's striped SIMD DP.
+ *            J2/50 for single row DP.
+ *            J2/60 for reduced precision (epu8)
+ *            J2/65 for initial benchmarking
+ *            J2/66 for precision maximization
+ *            J4/138-140 for reimplementation in 16-bit precision
+ */
+int
+p7_ViterbiFilter(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  vector signed short mpv, dpv, ipv; /* previous row values                                       */
+  vector signed short sv;	     /* temp storage of 1 curr row value in progress              */
+  vector signed short dcv;	     /* delayed storage of D(i,q+1)                               */
+  vector signed short xEv;	     /* E state: keeps max for Mk->E as we go                     */
+  vector signed short xBv;	     /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector signed short Dmaxv;         /* keeps track of maximum D cell on row                      */
+  int16_t  xE, xB, xC, xJ, xN;	     /* special states' scores                                    */
+  int16_t  Dmax;		     /* maximum D cell score on row                               */
+  int i;			     /* counter over sequence positions 1..L                      */
+  int q;			     /* counter over vectors 0..nq-1                              */
+  int Q;                             /* segment length: # of vectors                              */
+  vector signed short *dp;           /* using {MDI}MX(q) macro requires initialization of <dp>    */
+  vector signed short *rsc;	     /* will point at om->ru[x] for residue x[i]                  */
+  vector signed short *tsc;	     /* will point into (and step thru) om->tu                    */
+
+  vector signed short negInfv;
+
+  Q = p7O_NQW(om->M);
+  dp = ox->dpw[0];
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ8)                                 ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  if (om->mode != p7_LOCAL && om->mode != p7_UNILOCAL) ESL_EXCEPTION(eslEINVAL, "Fast filter only works for local alignment");
+  ox->M   = om->M;
+
+  negInfv = esl_vmx_set_s16((signed short)-32768);
+  
+  /* Initialization. In unsigned arithmetic, -infinity is -32768
+   */
+  for (q = 0; q < Q; q++)
+    MMXo(q) = IMXo(q) = DMXo(q) = negInfv;
+  xN   = om->base_w;
+  xB   = xN + om->xw[p7O_N][p7O_MOVE];
+  xJ   = -32768;
+  xC   = -32768;
+  xE   = -32768;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpVFRow(ox, 0, xE, 0, xJ, xB, xC); /* first 0 is <rowi>: do header. second 0 is xN: always 0 here. */
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      rsc   = om->rwv[dsq[i]];
+      tsc   = om->twv;
+      dcv   = negInfv;               /* "-infinity" */
+      xEv   = negInfv;
+      Dmaxv = negInfv;
+      xBv   = esl_vmx_set_s16(xB);
+
+      /* Right shifts by 1 value (2 bytes). 4,8,12,x becomes x,4,8,12. 
+       * Because ia32 is littlendian, this means a left bit shift.
+       * Zeros shift on automatically; replace it with -32768.
+       */
+      mpv = MMXo(Q-1);  mpv = vec_sld(negInfv, mpv, 14);
+      dpv = DMXo(Q-1);  dpv = vec_sld(negInfv, dpv, 14);
+      ipv = IMXo(Q-1);  ipv = vec_sld(negInfv, ipv, 14);
+
+      for (q = 0; q < Q; q++)
+	{
+	  /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+	  sv   =              vec_adds(xBv, *tsc);  tsc++;
+	  sv   = vec_max (sv, vec_adds(mpv, *tsc)); tsc++;
+	  sv   = vec_max (sv, vec_adds(ipv, *tsc)); tsc++;
+	  sv   = vec_max (sv, vec_adds(dpv, *tsc)); tsc++;
+	  sv   = vec_adds(sv, *rsc);                rsc++;
+	  xEv  = vec_max(xEv, sv);
+	  
+	  /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+	   * {MDI}MX(q) is then the current, not the prev row
+	   */
+	  mpv = MMXo(q);
+	  dpv = DMXo(q);
+	  ipv = IMXo(q);
+
+	  /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+	  MMXo(q) = sv;
+	  DMXo(q) = dcv;
+
+	  /* Calculate the next D(i,q+1) partially: M->D only;
+           * delay storage, holding it in dcv
+	   */
+	  dcv   = vec_adds(sv, *tsc);  tsc++;
+	  Dmaxv = vec_max(dcv, Dmaxv);
+
+	  /* Calculate and store I(i,q) */
+	  sv     =             vec_adds(mpv, *tsc);  tsc++;
+	  IMXo(q)= vec_max(sv, vec_adds(ipv, *tsc)); tsc++;
+	}	  
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B) */
+      xE = esl_vmx_hmax_s16(xEv);
+      if (xE >= 32767) { *ret_sc = eslINFINITY; return eslERANGE; }	/* immediately detect overflow */
+      xN = xN + om->xw[p7O_N][p7O_LOOP];
+      xC = ESL_MAX(xC + om->xw[p7O_C][p7O_LOOP], xE + om->xw[p7O_E][p7O_MOVE]);
+      xJ = ESL_MAX(xJ + om->xw[p7O_J][p7O_LOOP], xE + om->xw[p7O_E][p7O_LOOP]);
+      xB = ESL_MAX(xJ + om->xw[p7O_J][p7O_MOVE], xN + om->xw[p7O_N][p7O_MOVE]);
+      /* and now xB will carry over into next i, and xC carries over after i=L */
+
+      /* Finally the "lazy F" loop (sensu [Farrar07]). We can often
+       * prove that we don't need to evaluate any D->D paths at all.
+       *
+       * The observation is that if we can show that on the next row,
+       * B->M(i+1,k) paths always dominate M->D->...->D->M(i+1,k) paths
+       * for all k, then we don't need any D->D calculations.
+       * 
+       * The test condition is:
+       *      max_k D(i,k) + max_k ( TDD(k-2) + TDM(k-1) - TBM(k) ) < xB(i)
+       * So:
+       *   max_k (TDD(k-2) + TDM(k-1) - TBM(k)) is precalc'ed in om->dd_bound;
+       *   max_k D(i,k) is why we tracked Dmaxv;
+       *   xB(i) was just calculated above.
+       */
+      Dmax = esl_vmx_hmax_s16(Dmaxv);
+      if (Dmax + om->ddbound_w > xB) 
+	{
+	  /* Now we're obligated to do at least one complete DD path to be sure. */
+	  /* dcv has carried through from end of q loop above */
+	  dcv = vec_sld(negInfv, dcv, 14); 
+	  tsc = om->twv + 7*Q;	/* set tsc to start of the DD's */
+	  for (q = 0; q < Q; q++) 
+	    {
+	      DMXo(q) = vec_max(dcv, DMXo(q));	
+	      dcv     = vec_adds(DMXo(q), *tsc); tsc++;
+	    }
+
+	  /* We may have to do up to three more passes; the check
+	   * is for whether crossing a segment boundary can improve
+	   * our score. 
+	   */
+	  do {
+	    dcv = vec_sld(negInfv, dcv, 14); 
+	    tsc = om->twv + 7*Q;	/* set tsc to start of the DD's */
+	    for (q = 0; q < Q; q++) 
+	      {
+		if (! vec_any_gt(dcv, DMXo(q))) break;
+		DMXo(q) = vec_max(dcv, DMXo(q));	
+		dcv     = vec_adds(DMXo(q), *tsc);   tsc++;
+	      }	    
+	  } while (q == Q);
+	}
+      else  /* not calculating DD? then just store the last M->D vector calc'ed.*/
+	DMXo(0) = vec_sld(negInfv, dcv, 14);
+	  
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpVFRow(ox, i, xE, 0, xJ, xB, xC);   
+#endif
+    } /* end loop over sequence residues 1..L */
+
+  /* finally C->T */
+  if (xC > -32768) 
+    {
+      *ret_sc = (float) xC + (float) om->xw[p7O_C][p7O_MOVE] - (float) om->base_w;
+      /* *ret_sc += L * om->ncj_roundoff;  see J4/150 for rationale: superceded by -3.0nat approximation*/
+      *ret_sc /= om->scale_w;
+      *ret_sc -= 3.0; /* the NN/CC/JJ=0,-3nat approximation: see J5/36. That's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ contrib */
+    }
+  else *ret_sc = -eslINFINITY;
+  return eslOK;
+}
+/*---------------- end, p7_ViterbiFilter() ----------------------*/
+
+
+
+
+/* Function:  p7_ViterbiFilter_longtarget()
+ * Synopsis:  Finds windows within potentially long sequence blocks with Viterbi
+ *            scores above threshold (vewy vewy fast, in limited precision)
+ *
+ * Purpose:   Calculates an approximation of the Viterbi score for regions
+ *            of sequence <dsq>, using optimized profile <om>, and a pre-
+ *            allocated one-row DP matrix <ox>, and captures the positions
+ *            at which such regions exceed the score required to be
+ *            significant in the eyes of the calling function (usually
+ *            p=0.001).
+ *
+ *            The resulting landmarks are converted to subsequence
+ *            windows by the calling function
+ *
+ *            The model must be in a local alignment mode; other modes
+ *            cannot provide the necessary guarantee of no underflow.
+ *
+ *            This is a striped SIMD Viterbi implementation using Intel
+ *            VMX integer intrinsics \citep{Farrar07}, in reduced
+ *            precision (signed words, 16 bits).
+ *
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            filtersc   - null or bias correction, required for translating a P-value threshold into a score threshold
+ *            P          - p-value below which a region is captured as being above threshold
+ *            windowlist - RETURN: array of hit windows (start and end of diagonal) for the above-threshold areas
+ *
+ * Returns:   <eslOK> on success;
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small, or if
+ *            profile isn't in a local alignment mode. (Must be in local
+ *            alignment mode because that's what helps us guarantee
+ *            limited dynamic range.)
+ *
+ * Xref:      See p7_ViterbiFilter()
+ */
+int
+p7_ViterbiFilter_longtarget(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox,
+                            float filtersc, double P, P7_HMM_WINDOWLIST *windowlist)
+{
+  vector signed short mpv, dpv, ipv; /* previous row values                                       */
+  vector signed short sv;      /* temp storage of 1 curr row value in progress              */
+  vector signed short dcv;       /* delayed storage of D(i,q+1)                               */
+  vector signed short xEv;       /* E state: keeps max for Mk->E as we go                     */
+  vector signed short xBv;       /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector signed short Dmaxv;         /* keeps track of maximum D cell on row                      */
+  int16_t  xE, xB, xC, xJ, xN;       /* special states' scores                                    */
+  int16_t  Dmax;         /* maximum D cell score on row                               */
+  int i;           /* counter over sequence positions 1..L                      */
+  int q;           /* counter over vectors 0..nq-1                              */
+  int Q          =  p7O_NQW(om->M);                             /* segment length: # of vectors                              */
+  vector signed short *dp  =  ox->dpw[0];    /* using {MDI}MX(q) macro requires initialization of <dp>    */
+  vector signed short *rsc;      /* will point at om->ru[x] for residue x[i]                  */
+  vector signed short *tsc;      /* will point into (and step thru) om->tu                    */
+
+  vector signed short negInfv;
+
+  int16_t sc_thresh;
+  float invP;
+
+  int z;
+  union { vector signed short v; int16_t i[8]; } tmp;
+  windowlist->count = 0;
+
+  /*
+   *  In p7_ViterbiFilter, converting from a scaled int Viterbi score
+   *  S (aka xE the score getting to state E) to a probability
+   *  goes like this:
+   *    vsc =  S + om->xw[p7O_E][p7O_MOVE] + om->xw[p7O_C][p7O_MOVE] - om->base_w
+   *    ret_sc /= om->scale_w;
+   *    vsc -= 3.0;
+   *    P  = esl_gumbel_surv((vfsc - filtersc) / eslCONST_LOG2  ,  om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+   *  and we're computing the threshold vsc, so invert it:
+   *    (vsc - filtersc) /  eslCONST_LOG2 = esl_gumbel_invsurv( P, om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA])
+   *    vsc = filtersc + eslCONST_LOG2 * esl_gumbel_invsurv( P, om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA])
+   *    vsc += 3.0
+   *    vsc *= om->scale_w
+   *    S = vsc - (float)om->xw[p7O_E][p7O_MOVE] - (float)om->xw[p7O_C][p7O_MOVE] + (float)om->base_w
+   */
+  invP = esl_gumbel_invsurv(P, om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+  sc_thresh =   (int) ceil ( ( (filtersc + (eslCONST_LOG2 * invP) + 3.0) * om->scale_w )
+                - (float)om->xw[p7O_E][p7O_MOVE] - (float)om->xw[p7O_C][p7O_MOVE] + (float)om->base_w );
+
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ8)                                 ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  if (om->mode != p7_LOCAL && om->mode != p7_UNILOCAL) ESL_EXCEPTION(eslEINVAL, "Fast filter only works for local alignment");
+  ox->M   = om->M;
+
+  negInfv = esl_vmx_set_s16((signed short)-32768);
+
+  /* Initialization. In unsigned arithmetic, -infinity is -32768
+   */
+  for (q = 0; q < Q; q++)
+    MMXo(q) = IMXo(q) = DMXo(q) = negInfv;
+  xN   = om->base_w;
+  xB   = xN + om->xw[p7O_N][p7O_MOVE];
+  xJ   = -32768;
+  xC   = -32768;
+  xE   = -32768;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpVFRow(ox, 0, xE, 0, xJ, xB, xC); /* first 0 is <rowi>: do header. second 0 is xN: always 0 here. */
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      rsc   = om->rwv[dsq[i]];
+      tsc   = om->twv;
+      dcv   = negInfv;               /* "-infinity" */
+      xEv   = negInfv;
+      Dmaxv = negInfv;
+      xBv   = esl_vmx_set_s16(xB);
+
+      /* Right shifts by 1 value (2 bytes). 4,8,12,x becomes x,4,8,12.
+       * Because ia32 is littlendian, this means a left bit shift.
+       * Zeros shift on automatically; replace it with -32768.
+       */
+      mpv = MMXo(Q-1);  mpv = vec_sld(negInfv, mpv, 14);
+      dpv = DMXo(Q-1);  dpv = vec_sld(negInfv, dpv, 14);
+      ipv = IMXo(Q-1);  ipv = vec_sld(negInfv, ipv, 14);
+
+      for (q = 0; q < Q; q++)
+      {
+        /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+        sv   =              vec_adds(xBv, *tsc);  tsc++;
+        sv   = vec_max (sv, vec_adds(mpv, *tsc)); tsc++;
+        sv   = vec_max (sv, vec_adds(ipv, *tsc)); tsc++;
+        sv   = vec_max (sv, vec_adds(dpv, *tsc)); tsc++;
+        sv   = vec_adds(sv, *rsc);                rsc++;
+        xEv  = vec_max(xEv, sv);
+
+        /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+         * {MDI}MX(q) is then the current, not the prev row
+         */
+        mpv = MMXo(q);
+        dpv = DMXo(q);
+        ipv = IMXo(q);
+
+        /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+        MMXo(q) = sv;
+        DMXo(q) = dcv;
+
+        /* Calculate the next D(i,q+1) partially: M->D only;
+               * delay storage, holding it in dcv
+         */
+        dcv   = vec_adds(sv, *tsc);  tsc++;
+        Dmaxv = vec_max(dcv, Dmaxv);
+
+        /* Calculate and store I(i,q) */
+        sv     =             vec_adds(mpv, *tsc);  tsc++;
+        IMXo(q)= vec_max(sv, vec_adds(ipv, *tsc)); tsc++;
+      }
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B) */
+      xE = esl_vmx_hmax_s16(xEv);
+
+      if (xE >= sc_thresh) {
+        //hit score threshold. Add a window to the list, then reset scores.
+
+        /* Unpack and unstripe, then find the position responsible for the hit */
+
+        for (q = 0; q < Q; q++) {
+          tmp.v = MMXo(q);
+          for (z = 0; z < 8; z++)  { // unstripe
+            if ( tmp.i[z] == xE && (q+Q*z+1) <= om->M) {
+              // (q+Q*z+1) is the model position k at which the xE score is found
+              p7_hmmwindow_new(windowlist, 0, i, i-1, (q+Q*z+1), 1, 0.0, p7_NOCOMPLEMENT, L );
+            }
+          }
+          MMXo(q) = IMXo(q) = DMXo(q) = negInfv; //reset score to start search for next vit window.
+        }
+
+      } else {
+
+          xN = xN + om->xw[p7O_N][p7O_LOOP];
+          xC = ESL_MAX(xC + om->xw[p7O_C][p7O_LOOP], xE + om->xw[p7O_E][p7O_MOVE]);
+          xJ = ESL_MAX(xJ + om->xw[p7O_J][p7O_LOOP], xE + om->xw[p7O_E][p7O_LOOP]);
+          xB = ESL_MAX(xJ + om->xw[p7O_J][p7O_MOVE], xN + om->xw[p7O_N][p7O_MOVE]);
+          /* and now xB will carry over into next i, and xC carries over after i=L */
+
+          /* Finally the "lazy F" loop (sensu [Farrar07]). We can often
+           * prove that we don't need to evaluate any D->D paths at all.
+           *
+           * The observation is that if we can show that on the next row,
+           * B->M(i+1,k) paths always dominate M->D->...->D->M(i+1,k) paths
+           * for all k, then we don't need any D->D calculations.
+           *
+           * The test condition is:
+           *      max_k D(i,k) + max_k ( TDD(k-2) + TDM(k-1) - TBM(k) ) < xB(i)
+           * So:
+           *   max_k (TDD(k-2) + TDM(k-1) - TBM(k)) is precalc'ed in om->dd_bound;
+           *   max_k D(i,k) is why we tracked Dmaxv;
+           *   xB(i) was just calculated above.
+           */
+          Dmax = esl_vmx_hmax_s16(Dmaxv);
+          if (Dmax + om->ddbound_w > xB)
+          {
+            /* Now we're obligated to do at least one complete DD path to be sure. */
+            /* dcv has carried through from end of q loop above */
+            dcv = vec_sld(negInfv, dcv, 14);
+            tsc = om->twv + 7*Q;  /* set tsc to start of the DD's */
+            for (q = 0; q < Q; q++)
+              {
+                DMXo(q) = vec_max(dcv, DMXo(q));
+                dcv     = vec_adds(DMXo(q), *tsc); tsc++;
+              }
+
+            /* We may have to do up to three more passes; the check
+             * is for whether crossing a segment boundary can improve
+             * our score.
+             */
+            do {
+              dcv = vec_sld(negInfv, dcv, 14);
+              tsc = om->twv + 7*Q;  /* set tsc to start of the DD's */
+              for (q = 0; q < Q; q++)
+                {
+            if (! vec_any_gt(dcv, DMXo(q))) break;
+            DMXo(q) = vec_max(dcv, DMXo(q));
+            dcv     = vec_adds(DMXo(q), *tsc);   tsc++;
+                }
+            } while (q == Q);
+          }
+          else  /* not calculating DD? then just store the last M->D vector calc'ed.*/
+            DMXo(0) = vec_sld(negInfv, dcv, 14);
+
+#if p7_DEBUGGING
+          if (ox->debugging) p7_omx_DumpVFRow(ox, i, xE, 0, xJ, xB, xC);
+#endif
+
+      }
+    } /* end loop over sequence residues 1..L */
+
+
+  return eslOK;
+}
+/*---------------- end, p7_ViterbiFilter() ----------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7VITFILTER_BENCHMARK
+/* -c, -x are used for debugging, testing; see msvfilter.c for explanation */
+
+/* 
+   gcc -o vitfilter_benchmark -std=gnu99 -g -Wall -maltivec -I.. -L.. -I../../easel -L../../easel -Dp7VITFILTER_BENCHMARK vitfilter.c -lhmmer -leasel -lm 
+   icc -o vitfilter_benchmark -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7VITFILTER_BENCHMARK vitfilter.c -lhmmer -leasel -lm 
+
+   ./benchmark-vitfilter <hmmfile>          runs benchmark 
+   ./benchmark-vitfilter -N100 -c <hmmfile> compare scores to generic impl
+   ./benchmark-vitfilter -N100 -x <hmmfile> compare scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for Viterbi filter";
+
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+
+  if (esl_opt_GetBoolean(go, "-x")) p7_profile_SameAsVF(om, gm);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Run the benchmark */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_ViterbiFilter(dsq, L, om, ox, &sc1);   
+
+      if (esl_opt_GetBoolean(go, "-c")) 
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+
+      if (esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  sc2 /= om->scale_w;
+	  if (om->mode == p7_UNILOCAL)   sc2 -= 2.0; /* that's ~ L \log \frac{L}{L+2}, for our NN,CC,JJ */
+	  else if (om->mode == p7_LOCAL) sc2 -= 3.0; /* that's ~ L \log \frac{L}{L+3}, for our NN,CC,JJ */
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITFILTER_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7VITFILTER_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* ViterbiFilter() unit test
+ * 
+ * We can check that scores are identical (within machine error) to
+ * scores of generic DP with scores rounded the same way.  Do this for
+ * a random model of length <M>, for <N> test sequences of length <L>.
+ * 
+ * We assume that we don't accidentally generate a high-scoring random
+ * sequence that overflows ViterbiFilter()'s limited range.
+ * 
+ */
+static void
+utest_viterbi_filter(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_profile_SameAsVF(om, gm);	/* round and scale the scores in <gm> the same as in <om> */
+
+#if 0
+  p7_oprofile_Dump(stdout, om);              // dumps the optimized profile
+  p7_omx_SetDumpMode(stdout, ox, TRUE);      // makes the fast DP algorithms dump their matrices
+#endif
+
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_ViterbiFilter(dsq, L, om, ox, &sc1);
+      p7_GViterbi     (dsq, L, gm, gx, &sc2);
+
+#if 0
+      p7_gmx_Dump(stdout, gx, p7_DEFAULT);  // dumps a generic DP matrix
+#endif
+      
+      sc2 /= om->scale_w;
+      sc2 -= 3.0;
+
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("viterbi filter unit test failed: scores differ (%.2f, %.2f)", sc1, sc2);
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7VITFILTER_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7VITFILTER_TESTDRIVE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitfilter_utest -Dp7VITFILTER_TESTDRIVE vitfilter.c -lhmmer -leasel -lm
+   ./vitfilter_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the VMX implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("ViterbiFilter() tests, DNA\n");
+  utest_viterbi_filter(r, abc, bg, M, L, N);   
+  utest_viterbi_filter(r, abc, bg, 1, L, 10);  
+  utest_viterbi_filter(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  if (esl_opt_GetBoolean(go, "-v")) printf("ViterbiFilter() tests, protein\n");
+  utest_viterbi_filter(r, abc, bg, M, L, N); 
+  utest_viterbi_filter(r, abc, bg, 1, L, 10);
+  utest_viterbi_filter(r, abc, bg, M, 1, 10);
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITFILTER_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7VITFILTER_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -maltivec -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitfilter_example -Dp7VITFILTER_EXAMPLE vitfilter.c -lhmmer -leasel -lm
+   ./vitfilter_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-1",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in one line awkable format",                0 },
+  { "-P",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "output in profmark format",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of Viterbi filter algorithm";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           vfraw, nullsc, vfscore;
+  float           graw, gscore;
+  double          P, gP;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, sq->n);
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);        dumps the optimized profile
+     p7_omx_SetDumpMode(ox, TRUE);        makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT); dumps a generic DP matrix
+  */
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_oprofile_ReconfigLength(om, sq->n);
+      p7_ReconfigLength(gm,          sq->n);
+      p7_bg_SetLength(bg,            sq->n);
+      p7_omx_GrowTo(ox, om->M, 0,    sq->n); 
+      p7_gmx_GrowTo(gx, gm->M,       sq->n); 
+
+      p7_ViterbiFilter  (sq->dsq, sq->n, om, ox, &vfraw);
+      p7_bg_NullOne (bg, sq->dsq, sq->n, &nullsc);
+      vfscore = (vfraw - nullsc) / eslCONST_LOG2;
+      P        = esl_gumbel_surv(vfscore,  om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+
+      p7_GViterbi       (sq->dsq, sq->n, gm, gx, &graw); 
+      gscore   = (graw - nullsc) / eslCONST_LOG2;
+      gP       = esl_gumbel_surv(gscore,  gm->evparam[p7_VMU],  gm->evparam[p7_VLAMBDA]);
+
+      if (esl_opt_GetBoolean(go, "-1"))
+	{
+	  printf("%-30s\t%-20s\t%9.2g\t%7.2f\t%9.2g\t%7.2f\n", sq->name, hmm->name, P, vfscore, gP, gscore);
+	}
+      else if (esl_opt_GetBoolean(go, "-P"))
+	{ /* output suitable for direct use in profmark benchmark postprocessors: */
+	  printf("%g\t%.2f\t%s\t%s\n", P, vfscore, sq->name, hmm->name);
+	}
+      else
+	{
+	  printf("target sequence:      %s\n",        sq->name);
+	  printf("vit filter raw score: %.2f nats\n", vfraw);
+	  printf("null score:           %.2f nats\n", nullsc);
+	  printf("per-seq score:        %.2f bits\n", vfscore);
+	  printf("P-value:              %g\n",        P);
+	  printf("GViterbi raw score:   %.2f nats\n", graw);
+	  printf("GViterbi seq score:   %.2f bits\n", gscore);
+	  printf("GViterbi P-value:     %g\n",        gP);
+	}
+      
+      esl_sq_Reuse(sq);
+    }
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITFILTER_EXAMPLE*/
+/*-------------------- end, example -----------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/vitscore.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/vitscore.c
new file mode 100755
index 0000000..a1e88a5
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/impl_vmx/vitscore.c
@@ -0,0 +1,564 @@
+/* Viterbi score implementation; VMX version.
+ * 
+ * This is a SIMD vectorized, striped, interleaved, one-row O(M)
+ * memory implementation of the Viterbi algorithm, for calculating an
+ * accurate Viterbi score, without traceback.
+ * 
+ * This implementation has full range and precision, so it may be used
+ * in any alignment mode (not just local), and on any target sequence
+ * (not excluding high-scoring ones).
+ * 
+ * The optimized profile must be configured to contain lspace float
+ * scores, not its normal pspace float scores.
+ * 
+ * Contents:
+ *   1. Viterbi score implementation.
+ *   2. Benchmark driver. 
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *   
+ * SRE, Sun Aug  3 13:10:24 2008 [St. Louis]
+ * SVN $Id: vitscore.c 3665 2011-08-25 13:45:55Z eddys $
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#ifndef __APPLE_ALTIVEC__
+#include <altivec.h>
+#endif
+
+#include "easel.h"
+#include "esl_vmx.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+/*****************************************************************
+ * 1. Viterbi score implementation
+ *****************************************************************/
+
+/* Function:  p7_ViterbiScore()
+ * Synopsis:  Calculates Viterbi score, correctly, and vewy vewy fast.
+ * Incept:    SRE, Tue Nov 27 09:15:24 2007 [Janelia]
+ *
+ * Purpose:   Calculates the Viterbi score for sequence <dsq> of length <L> 
+ *            residues, using optimized profile <om>, and a preallocated
+ *            one-row DP matrix <ox>. Return the Viterbi score (in nats)
+ *            in <ret_sc>.
+ *            
+ *            The model <om> must be configured specially to have
+ *            lspace float scores, not its usual pspace float scores for
+ *            <p7_ForwardFilter()>.
+ *            
+ *            As with all <*Score()> implementations, the score is
+ *            accurate (full range and precision) and can be
+ *            calculated on models in any mode, not only local modes.
+ *            
+ * Args:      dsq     - digital target sequence, 1..L
+ *            L       - length of dsq in residues          
+ *            om      - optimized profile
+ *            ox      - DP matrix
+ *            ret_sc  - RETURN: Viterbi score (in nats)          
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <ox> allocation is too small.
+ */
+int
+p7_ViterbiScore(const ESL_DSQ *dsq, int L, const P7_OPROFILE *om, P7_OMX *ox, float *ret_sc)
+{
+  vector float mpv, dpv, ipv;      /* previous row values                                       */
+  vector float sv;		   /* temp storage of 1 curr row value in progress              */
+  vector float dcv;		   /* delayed storage of D(i,q+1)                               */
+  vector float xEv;		   /* E state: keeps max for Mk->E as we go                     */
+  vector float xBv;		   /* B state: splatted vector of B[i-1] for B->Mk calculations */
+  vector float Dmaxv;              /* keeps track of maximum D cell on row                      */
+  vector float infv;		   /* -eslINFINITY in a vector                                  */
+  float    xN, xE, xB, xC, xJ;	   /* special states' scores                                    */
+  float    Dmax;		   /* maximum D cell on row                                     */
+  int i;			   /* counter over sequence positions 1..L                      */
+  int q;			   /* counter over vectors 0..nq-1                              */
+  int Q       = p7O_NQF(om->M);	   /* segment length: # of vectors                              */
+  vector float *dp  = ox->dpf[0];  /* using {MDI}MX(q) macro requires initialization of <dp>    */
+  vector float *rsc;		   /* will point at om->rf[x] for residue x[i]                  */
+  vector float *tsc;		   /* will point into (and step thru) om->tf                    */
+
+  /* Check that the DP matrix is ok for us. */
+  if (Q > ox->allocQ4) ESL_EXCEPTION(eslEINVAL, "DP matrix allocated too small");
+  ox->M  = om->M;
+
+  /* Initialization. */
+  infv = esl_vmx_set_float(-eslINFINITY);
+  for (q = 0; q < Q; q++)
+    MMXo(q) = IMXo(q) = DMXo(q) = infv;
+  xN   = 0.;
+  xB   = om->xf[p7O_N][p7O_MOVE];
+  xE   = -eslINFINITY;
+  xJ   = -eslINFINITY;
+  xC   = -eslINFINITY;
+
+#if p7_DEBUGGING
+  if (ox->debugging) p7_omx_DumpFloatRow(ox, FALSE, 0, 5, 2, xE, xN, xJ, xB, xC); /* logify=FALSE, <rowi>=0, width=5, precision=2*/
+#endif
+
+  for (i = 1; i <= L; i++)
+    {
+      rsc   = om->rf[dsq[i]];
+      tsc   = om->tf;
+      dcv   = infv;
+      xEv   = infv;
+      Dmaxv = infv;
+      xBv   = esl_vmx_set_float(xB);
+
+      mpv = vec_sld(infv, MMXo(Q-1), 12);  /* Right shifts by 4 bytes. 4,8,12,x becomes x,4,8,12. */
+      dpv = vec_sld(infv, DMXo(Q-1), 12);
+      ipv = vec_sld(infv, IMXo(Q-1), 12);
+      for (q = 0; q < Q; q++)
+	{
+	  /* Calculate new MMXo(i,q); don't store it yet, hold it in sv. */
+	  sv   =                vec_add(xBv, *tsc);  tsc++;
+	  sv   = vec_max(sv, vec_add(mpv, *tsc));    tsc++;
+	  sv   = vec_max(sv, vec_add(ipv, *tsc));    tsc++;
+	  sv   = vec_max(sv, vec_add(dpv, *tsc));    tsc++;
+	  sv   = vec_add(sv, *rsc);                  rsc++;
+	  xEv  = vec_max(xEv, sv);
+
+	  /* Load {MDI}(i-1,q) into mpv, dpv, ipv;
+	   * {MDI}MX(q) is then the current, not the prev row
+	   */
+	  mpv = MMXo(q);
+	  dpv = DMXo(q);
+	  ipv = IMXo(q);
+
+	  /* Do the delayed stores of {MD}(i,q) now that memory is usable */
+	  MMXo(q) = sv;
+	  DMXo(q) = dcv;
+
+	  /* Calculate the next D(i,q+1) partially: M->D only;
+           * delay storage, holding it in dcv
+	   */
+	  dcv   = vec_add(sv, *tsc); tsc++;
+	  Dmaxv = vec_max(dcv, Dmaxv);
+
+	  /* Calculate and store I(i,q) */
+	  sv      =             vec_add(mpv, *tsc);  tsc++;
+	  sv      = vec_max(sv, vec_add(ipv, *tsc)); tsc++;
+	  IMXo(q) = vec_add(sv, *rsc);               rsc++;
+	}	  
+
+      /* Now the "special" states, which start from Mk->E (->C, ->J->B) */
+      xE = esl_vmx_hmax_float(xEv);
+      xN = xN +  om->xf[p7O_N][p7O_LOOP];
+      xC = ESL_MAX(xC + om->xf[p7O_C][p7O_LOOP],  xE + om->xf[p7O_E][p7O_MOVE]);
+      xJ = ESL_MAX(xJ + om->xf[p7O_J][p7O_LOOP],  xE + om->xf[p7O_E][p7O_LOOP]);
+      xB = ESL_MAX(xJ + om->xf[p7O_J][p7O_MOVE],  xN + om->xf[p7O_N][p7O_MOVE]);
+      /* and now xB will carry over into next i, and xC carries over after i=L */
+
+      /* Finally the "lazy F" loop (sensu [Farrar07]). We can often
+       * prove that we don't need to evaluate any D->D paths at all.
+       *
+       * The observation is that if we can show that on the next row,
+       * B->M(i+1,k) paths always dominate M->D->...->D->M(i+1,k) paths
+       * for all k, then we don't need any D->D calculations.
+       * 
+       * The test condition is:
+       *      max_k D(i,k) + max_k ( TDD(k-2) + TDM(k-1) - TBM(k) ) < xB(i)
+       * So:
+       *   max_k (TDD(k-2) + TDM(k-1) - TBM(k)) is precalc'ed in om->dd_bound;
+       *   max_k D(i,k) is why we tracked Dmaxv;
+       *   xB(i) was just calculated above.
+       */
+      Dmax = esl_vmx_hmax_float(Dmaxv);
+      if (Dmax + om->ddbound_f > xB) 
+	{
+	  /* Now we're obligated to do at least one complete DD path to be sure. */
+	  /* dcv has carried through from end of q loop above */
+	  dcv = vec_sld(infv, dcv, 12);
+	  tsc = om->tf + 7*Q;	/* set tsc to start of the DD's */
+	  for (q = 0; q < Q; q++) 
+	    {
+	      DMXo(q) = vec_max(dcv, DMXo(q));	
+	      dcv     = vec_add(DMXo(q), *tsc); tsc++;
+	    }
+
+	  /* We may have to do up to three more passes; the check
+	   * is for whether crossing a segment boundary can improve
+	   * our score. 
+	   */
+	  do {
+	    dcv = vec_sld(infv, dcv, 12);
+	    tsc = om->tf + 7*Q;	/* set tsc to start of the DD's */
+	    for (q = 0; q < Q; q++) 
+	      {
+		if (! vec_any_gt(dcv, DMXo(q))) break;
+		DMXo(q) = vec_max(dcv, DMXo(q));	
+		dcv     = vec_add(DMXo(q), *tsc);   tsc++;
+	      }	    
+	  } while (q == Q);
+	}
+      else
+	{ /* not calculating DD? then just store that last MD vector we calc'ed. */
+	  dcv     = vec_sld(infv, dcv, 12);
+	  DMXo(0) = dcv;
+	}
+
+#if p7_DEBUGGING
+      if (ox->debugging) p7_omx_DumpFloatRow(ox, FALSE, i, 5, 2, xE, xN, xJ, xB, xC); /* logify=FALSE, <rowi>=i, width=5, precision=2*/
+#endif
+    } /* end loop over sequence residues 1..L */
+
+  /* finally C->T */
+  *ret_sc = xC + om->xf[p7O_C][p7O_MOVE];
+  return eslOK;
+}
+/*------------------ end, p7_ViterbiScore() ---------------------*/
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7VITSCORE_BENCHMARK
+/* -c, -x are used for debugging, testing. See msvfilter.c for
+ * an explanation. Here -c and -x are the same: both compare
+ * to p7_GViterbi() scores.
+ */
+/* 
+  gcc -o benchmark-vitscore -std=gnu99 -g -Wall -maltivec -I.. -L.. -I../../easel -L../../easel -Dp7VITSCORE_BENCHMARK vitscore.c -lhmmer -leasel -lm 
+  icc -o benchmark-vitscore -O3 -static -I.. -L.. -I../../easel -L../../easel -Dp7VITSCORE_BENCHMARK vitscore.c -lhmmer -leasel -lm 
+
+  ./benchmark-vitscore <hmmfile>            runs benchmark 
+  ./benchmark-vitscore -N100 -c <hmmfile>   compare scores to generic impl
+  ./benchmark-vitscore -N100 -x <hmmfile>   equate scores to exact emulation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-c",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-x", "compare scores to generic implementation (debug)", 0 }, 
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-x",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, "-c", "equate scores to trusted implementation (debug)",  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                     0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for VMX ViterbiScore()";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  int             i;
+  float           sc1, sc2;
+  double          base_time, bench_time, Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, L);
+  p7_oprofile_Logify(om);
+
+  ox = p7_omx_Create(gm->M, 0, 0);
+  gx = p7_gmx_Create(gm->M, L);
+
+  /* Get a baseline time: how long it takes just to generate the sequences */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  esl_stopwatch_Stop(w);
+  base_time = w->user;
+
+  /* Run the benchmark */
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+      p7_ViterbiScore (dsq, L, om, ox, &sc1);   
+
+      if (esl_opt_GetBoolean(go, "-c") || esl_opt_GetBoolean(go, "-x"))
+	{
+	  p7_GViterbi(dsq, L, gm, gx, &sc2); 
+	  printf("%.4f %.4f\n", sc1, sc2);  
+	}
+    }
+  esl_stopwatch_Stop(w);
+  bench_time = w->user - base_time;
+  Mcs        = (double) N * (double) L * (double) gm->M * 1e-6 / (double) bench_time;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n",   gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7VITSCORE_BENCHMARK*/
+/*------------------- end, benchmark driver ---------------------*/
+
+
+
+/*****************************************************************
+ * 3. Unit tests.
+ *****************************************************************/
+#ifdef p7VITSCORE_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+/* ViterbiScore() unit test
+ * 
+ * We can compare these scores to GViterbi() almost exactly; the only
+ * differences should be negligible roundoff errors. Must convert
+ * the optimized profile to lspace, though, rather than pspace.
+ */
+static void
+utest_viterbi_score(ESL_RANDOMNESS *r, ESL_ALPHABET *abc, P7_BG *bg, int M, int L, int N)
+{
+  P7_HMM      *hmm = NULL;
+  P7_PROFILE  *gm  = NULL;
+  P7_OPROFILE *om  = NULL;
+  ESL_DSQ     *dsq = malloc(sizeof(ESL_DSQ) * (L+2));
+  P7_OMX      *ox  = p7_omx_Create(M, 0, 0);
+  P7_GMX      *gx  = p7_gmx_Create(M, L);
+  float sc1, sc2;
+
+  p7_oprofile_Sample(r, abc, bg, M, L, &hmm, &gm, &om);
+  p7_oprofile_Logify(om);
+  while (N--)
+    {
+      esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+
+      p7_ViterbiScore(dsq, L, om, ox, &sc1);
+      p7_GViterbi    (dsq, L, gm, gx, &sc2);
+
+      if (fabs(sc1-sc2) > 0.001) esl_fatal("viterbi score unit test failed: scores differ");
+    }
+
+  free(dsq);
+  p7_hmm_Destroy(hmm);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+}
+#endif /*p7VITSCORE_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7VITSCORE_TESTDRIVE
+/* 
+   gcc -g -Wall -maltivec -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o vitscore_utest -Dp7VITSCORE_TESTDRIVE vitscore.c -lhmmer -leasel -lm
+   ./vitscore_utest
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "size of random sequences to sample",             0 },
+  { "-M",        eslARG_INT,    "145", NULL, NULL,  NULL,  NULL, NULL, "size of random models to sample",                0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of random sequences to sample",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for the VMX implementation";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = NULL;
+  P7_BG          *bg   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  int             N    = esl_opt_GetInteger(go, "-N");
+
+  /* First round of tests for DNA alphabets.  */
+  if ((abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))            == NULL)  esl_fatal("failed to create null model");
+
+  utest_viterbi_score(r, abc, bg, M, L, N);   
+  utest_viterbi_score(r, abc, bg, 1, L, 10);  
+  utest_viterbi_score(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  /* Second round of tests for amino alphabets.  */
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create alphabet");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to create null model");
+
+  utest_viterbi_score(r, abc, bg, M, L, N);   
+  utest_viterbi_score(r, abc, bg, 1, L, 10);  
+  utest_viterbi_score(r, abc, bg, M, 1, 10);  
+
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*VITSCORE_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7VITSCORE_EXAMPLE
+/* A minimal example.
+   Also useful for debugging on small HMMs and sequences.
+
+   gcc -g -Wall -maltivec -std=gnu99 -I.. -L.. -I../../easel -L../../easel -o example -Dp7VITSCORE_EXAMPLE vitscore.c -lhmmer -leasel -lm
+   ./example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+#include "impl_vmx.h"
+
+int 
+main(int argc, char **argv)
+{
+  char           *hmmfile = argv[1];
+  char           *seqfile = argv[2];
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *ox      = NULL;
+  P7_GMX         *gx      = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  float           sc;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* create default null model, then create and optimize profile */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_Logify(om);
+
+  /* allocate DP matrices, both a generic and an optimized one */
+  ox = p7_omx_Create(gm->M, 0, sq->n);
+  gx = p7_gmx_Create(gm->M, sq->n);
+
+  /* Useful to place and compile in for debugging: 
+     p7_oprofile_Dump(stdout, om);         dumps the optimized profile
+     p7_omx_SetDumpMode(ox, TRUE);         makes the fast DP algorithms dump their matrices
+     p7_gmx_Dump(stdout, gx, p7_DEFAULT);  dumps a generic DP matrix
+  */
+
+  p7_ViterbiScore(sq->dsq, sq->n, om, ox, &sc);  printf("viterbi score (VMX):  %.2f nats\n", sc);
+  p7_GViterbi    (sq->dsq, sq->n, gm, gx, &sc);  printf("viterbi (generic):    %.2f nats\n", sc);
+
+  /* now in a real app, you'd need to convert raw nat scores to final bit
+   * scores, by subtracting the null model score and rescaling.
+   */
+
+  /* cleanup */
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_omx_Destroy(ox);
+  p7_gmx_Destroy(gx);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  return 0;
+}
+#endif /*p7VITSCORE_EXAMPLE*/
+/*-------------------------- end, example ------------------------------*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/ 
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/itest_brute.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/itest_brute.c
new file mode 100755
index 0000000..1f756ae
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/itest_brute.c
@@ -0,0 +1,591 @@
+/* The "brute" integration test.
+ * 
+ * Create an entirely hand-specified profile HMM from given
+ * parameters; enumerate all paths and calculate either the sum
+ * (Forward score) or max (Viterbi score). Compare this to
+ * <p7_GForward()> and <p7_GViterbi()> results.
+ * 
+ * The test exercises all possible transitions in a model. The model
+ * is M=3 because this is the minimum model size that can use a D->D
+ * transition in the search profile (D2->D3; D1 isn't in a profile).
+ * The target sequences go up to L=4 because this is the minimum
+ * length that uses an I->I transition.
+ * 
+ * To see the models and paths drawn out by hand, xref J1/106-109.
+ * 
+ * Besides the hand-specified model, the integration test samples many
+ * more "brute" HMMs randomly, peppering them with zero probability
+ * transitions where possible.
+ * 
+ * Viterbi scores (hand enumerated vs. GViterbi()) should match
+ * exactly (within machine precision). Forward scores should match
+ * "closely", with some error introduced by the discretization in
+ * FLogsum()'s table lookup.
+ *
+ * This is an important test of correctness for the generic Viterbi
+ * and Forward implementations. Optimized implementations (impl_sse,
+ * etc) are then verified against the generic implementations. 
+ * 
+ * SRE, Tue Jul 17 08:17:36 2007 [Janelia]
+ * SVN $Id: itest_brute.c 3960 2012-03-22 21:42:50Z wheelert $
+ * xref J1/106-109: original implementation
+ * xref J5/118:     revival; brought up to date with H3's assumptions of zero insert scores.
+ */
+
+/*  gcc -std=c99 -g -Wall -I. -I../easel -L. -L../easel -o itest_brute itest_brute.c  -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-o",        eslARG_OUTFILE, NULL, NULL, NULL,  NULL,  NULL, NULL, "save each tested HMM to file <f>",               0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of randomly sampled HMMs",                0 },
+  { "--vv",      eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be very verbose",                                0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "the brute force HMM integration test";
+
+struct p7_bruteparam_s {
+  double a;      	/* hmm->t[0][p7H_MM] */
+  double b;      	/* hmm->t[1][p7H_MM] */
+  double c;      	/* hmm->t[2][p7H_MM] */
+  double d;      	/* hmm->t[3][p7H_MM] */
+  double e;      	/* hmm->t[0][p7H_MI] */
+  double f;      	/* hmm->t[1][p7H_MI] */
+  double g;      	/* hmm->t[2][p7H_MI] */
+  double h;      	/* hmm->t[3][p7H_MI] */
+  double i;      	/* hmm->t[1][p7H_IM] */
+  double j;      	/* hmm->t[2][p7H_IM] */
+  double k;      	/* hmm->t[3][p7H_IM] */
+  double l;      	/* hmm->t[1][p7H_DD] */
+  double m;      	/* hmm->t[2][p7H_DD] */
+
+  double n;             /* N->B   exp(gm->xsc[p7P_N][p7P_MOVE]) */
+  double p;             /* E->C   exp(gm->xsc[p7P_E][p7P_MOVE]) */
+  double q;             /* C->T   exp(gm->xsc[p7P_C][p7P_MOVE]) */
+  double r;             /* J->B   exp(gm->xsc[p7P_J][p7P_MOVE]) */  
+
+  double alpha;  	/* hmm->mat[k][A] emission for all match states */
+  double beta;  	/* hmm->ins[k][A] emission for all insert states */
+
+  double begin[4];	/* constructed from transitions when brute profile is configured. */
+  double end;		/* internal ends, set when profile is configured */
+};
+
+static void        set_bruteparams(struct p7_bruteparam_s *prm);
+static void        sample_zeropeppered_probvector(ESL_RANDOMNESS *r, double *p, int n);
+static void        sample_bruteparams(ESL_RANDOMNESS *r, struct p7_bruteparam_s *prm);
+static P7_HMM     *create_brute_hmm(ESL_ALPHABET *abc, struct p7_bruteparam_s *prm);
+static P7_PROFILE *create_brute_profile(struct p7_bruteparam_s *prm, P7_HMM *hmm, P7_BG *bg, int do_local);
+static double      score_brute_profile(struct p7_bruteparam_s *prm, P7_BG *bg, int do_viterbi, double sc[5]);
+
+int
+main(int argc, char **argv)
+{
+  struct p7_bruteparam_s prm;
+  ESL_GETOPTS    *go       = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_ALPHABET   *abc      = esl_alphabet_Create(eslDNA);
+  ESL_RANDOMNESS *r        = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  P7_BG          *bg       = p7_bg_Create(abc);
+  P7_GMX         *gx       = p7_gmx_Create(3, 4); /* M=3, L up to 4. */
+  P7_HMM         *hmm      = NULL;
+  P7_PROFILE     *gm       = NULL;
+  char           *hmmfile  = esl_opt_GetString (go, "-o");
+  int             N        = esl_opt_GetInteger(go, "-N");
+  int             do_local;
+  double          brute_fwd[5];	/* lod Forward scores for seqs L=0..4 calculated by brute force path enumeration */
+  double          brute_vit[5];	/* lod Viterbi scores for seqs L=0..4 calculated by brute force path enumeration */
+  float           fsc[5];	/* lod scores for seqs L=0..4 calculated by GForward() DP */
+  float           vsc[5];	/* lod scores for seqs L=0..4 calculated by GViterbi() DP */
+  ESL_DSQ         dsq[6];
+  int             L;
+  int             i,j;
+  float           vprecision, fprecision; /* expected bound on absolute accuracy for viterbi, forward */
+
+  p7_FLogsumInit();
+
+  for (do_local = 0; do_local <= 1; do_local++) /* run tests in both glocal and local mode   */
+    for (j = 0; j <= N; j++)	                /* #0 = fixed params; #1..N = sampled params */
+      {
+	if (esl_opt_GetBoolean(go, "-v")) 
+	  printf("%s\n", do_local ? "Local mode (implicit model)" : "Glocal mode (wing retracted)");
+	  
+	if (j == 0)      set_bruteparams(&prm);
+	else             sample_bruteparams(r, &prm);
+
+	hmm = create_brute_hmm(abc, &prm);
+	gm  = create_brute_profile(&prm, hmm, bg, do_local);
+	score_brute_profile(&prm, bg, TRUE,  brute_vit);
+	score_brute_profile(&prm, bg, FALSE, brute_fwd);
+  
+	if (hmmfile)
+	  {
+	    FILE *ofp = fopen(hmmfile, "w");
+	    p7_hmmfile_WriteASCII(ofp, -1, hmm);
+	    fclose(ofp);
+	  }
+
+	for (L = 0; L <= 4; L++)
+	  {
+	    p7_gmx_GrowTo(gx, 3, L);
+
+	    dsq[0] = dsq[L+1] = eslDSQ_SENTINEL;       /* Initialize dsq of length L at 0000... (all A) */
+	    for (i = 1; i <= L; i++) dsq[i] = 0;
+	    
+	    if (p7_GViterbi(dsq, L, gm, gx, &(vsc[L]))  != eslOK) esl_fatal("viterbi failed");
+
+	    if (esl_opt_GetBoolean(go, "--vv")) 
+	      p7_gmx_Dump(stdout, gx, p7_DEFAULT);
+	    p7_gmx_Reuse(gx);
+
+	    p7_gmx_GrowTo(gx, 3, L);
+	    if (p7_GForward(dsq, L, gm, gx, &(fsc[L]))  != eslOK) esl_fatal("forward failed");
+	    if (esl_opt_GetBoolean(go, "--vv")) 
+	      p7_gmx_Dump(stdout, gx, p7_DEFAULT);
+	    p7_gmx_Reuse(gx);
+
+	    vprecision = 1e-4;    /* default impl uses fp, should be accurate within machine precision      */
+	    fprecision = 0.01;    /* default impl uses FLogsum, tolerate e^0.1 ~= 1% error in Forward probs */
+
+
+	    if (esl_opt_GetBoolean(go, "-v")) 
+	      printf("%d %-6s %6s %1d %8.4f %8.4f %8.4f %8.4f\n",
+		     j,
+		     do_local ? "local" : "glocal",
+		     (j > 0)  ? "random": "fixed",
+		     L, 
+		     brute_fwd[L], fsc[L], 
+		     brute_vit[L], vsc[L]);
+
+
+	    if (fabs(vsc[L] - brute_vit[L]) > vprecision)
+	      esl_fatal("Viterbi scores mismatched: %-6s %s  L=%1d brute=%8.4f GViterbi()=%8.4f (difference %g)",
+			do_local ? "local" : "glocal",
+			(j > 0)  ? "random": "fixed",
+			L, 
+			brute_vit[L], vsc[L], fabs(brute_vit[L] - vsc[L]));
+
+	    /* verify that Forward scores match closely (within error introduced by FLogsum() */
+	    if (fabs(fsc[L] - brute_fwd[L]) > fprecision) 
+	      esl_fatal("Forward scores mismatched: %-6s %s L=%1d brute=%8.4f GForward()=%8.4f",
+			do_local ? "local" : "glocal",
+			(j > 0)  ? "random": "fixed",
+			L, 
+			brute_fwd[L], fsc[L]);
+
+
+	  }
+	p7_profile_Destroy(gm);
+	p7_hmm_Destroy(hmm);
+      }
+
+  p7_gmx_Destroy(gx);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+
+  printf("ok\n");
+  return 0;
+}
+    
+
+static void
+set_bruteparams(struct p7_bruteparam_s *prm)
+{
+  prm->a = 0.8;       /* hmm->t[0][p7H_MM] */
+  prm->b = 0.7;       /* hmm->t[1][p7H_MM] */
+  prm->c = 0.1;       /* hmm->t[2][p7H_MM] */
+  prm->d = 0.6;       /* hmm->t[3][p7H_MM] */
+  prm->e = 0.05;      /* hmm->t[0][p7H_MI] */
+  prm->f = 0.2;       /* hmm->t[1][p7H_MI] */
+  prm->g = 0.88;      /* hmm->t[2][p7H_MI] */
+  prm->h = 0.90;      /* hmm->t[0][p7H_IM] */
+  prm->i = 0.92;      /* hmm->t[1][p7H_IM] */
+  prm->j = 0.94;      /* hmm->t[2][p7H_IM] */
+  prm->k = 0.96;      /* hmm->t[3][p7H_IM] */
+  prm->l = 0.57;      /* hmm->t[1][p7H_DD] */
+  prm->m = 0.59;      /* hmm->t[2][p7H_DD] */
+
+#if 0
+  /* Setting n,p,q,r to 1.0 makes the core model account
+   * for the entire target seq: <= 19 paths are possible,
+   * SNB->core->ECT.
+   */
+  prm->n = 1.0;      /* N->B   exp(gm->xsc[p7P_N][p7P_MOVE]) */
+  prm->p = 1.0;      /* E->C   exp(gm->xsc[p7P_E][p7P_MOVE]) */
+  prm->q = 1.0;      /* C->T   exp(gm->xsc[p7P_C][p7P_MOVE]) */
+  prm->r = 1.0;      /* J->B   exp(gm->xsc[p7P_J][p7P_MOVE]) */
+#endif
+
+  prm->n = 0.41;      /* N->B   exp(gm->xsc[p7P_N][p7P_MOVE]) */
+  prm->p = 0.43;      /* E->C   exp(gm->xsc[p7P_E][p7P_MOVE]) */
+  prm->q = 0.45;      /* C->T   exp(gm->xsc[p7P_C][p7P_MOVE]) */
+  prm->r = 0.47;      /* J->B   exp(gm->xsc[p7P_J][p7P_MOVE]) */
+
+  prm->alpha = 0.7;    /* hmm->mat[k][A] for all k  */
+  prm->beta  = 0.25;   /* hmm->ins[k][A] for all k [MUST be 0.25, equal to background; H3 assumes insert score 0; xref J5/118 */
+  return;
+}
+
+
+static void
+sample_zeropeppered_probvector(ESL_RANDOMNESS *r, double *p, int n)
+{
+  esl_dirichlet_DSampleUniform(r, n, p);
+  if (esl_rnd_Roll(r, 2))	/* coin flip */
+    {
+      p[esl_rnd_Roll(r, n)] = 0.0;
+      esl_vec_DNorm(p, n);
+    }
+}
+
+
+static void
+sample_bruteparams(ESL_RANDOMNESS *r, struct p7_bruteparam_s *prm)
+{
+  double tmp[3];
+
+  /* make sure we can get M->M w/ nonzero prob, but pepper zeros elsewhere */
+  do { sample_zeropeppered_probvector(r, tmp, 3);  prm->a = tmp[0]; prm->e = tmp[1]; } while (prm->a == 0.0);
+  do { sample_zeropeppered_probvector(r, tmp, 3);  prm->b = tmp[0]; prm->f = tmp[1]; } while (prm->b == 0.0);
+  do { sample_zeropeppered_probvector(r, tmp, 3);  prm->c = tmp[0]; prm->g = tmp[1]; } while (prm->c == 0.0);
+  do { sample_zeropeppered_probvector(r, tmp, 2);  prm->d = tmp[0]; }                  while (prm->d == 0.0);
+
+  /* pepper any D, I transition. [3][II] cannot be 1.0 (k param)*/
+  sample_zeropeppered_probvector(r, tmp, 2);  prm->h = tmp[0];
+  sample_zeropeppered_probvector(r, tmp, 2);  prm->i = tmp[0];
+  sample_zeropeppered_probvector(r, tmp, 2);  prm->j = tmp[0];
+  do { sample_zeropeppered_probvector(r, tmp, 2);  prm->k = tmp[0]; } while (prm->k == 1.0);
+  sample_zeropeppered_probvector(r, tmp, 2);  prm->l = tmp[0];
+  sample_zeropeppered_probvector(r, tmp, 2);  prm->m = tmp[0];
+
+  /* make sure N,E,C move probs are nonzero, pepper otherwise */
+  do { sample_zeropeppered_probvector(r, tmp, 2);  prm->n = tmp[0]; } while (prm->n == 0.0);
+  do { sample_zeropeppered_probvector(r, tmp, 2);  prm->p = tmp[0]; } while (prm->p == 0.0);
+  do { sample_zeropeppered_probvector(r, tmp, 2);  prm->q = tmp[0]; } while (prm->q == 0.0);
+
+  /* J can be peppered */
+  sample_zeropeppered_probvector(r, tmp, 2);  prm->r = tmp[0];
+
+  /* make sure x=A emissions for match, insert are nonzero */
+  prm->alpha = esl_rnd_UniformPositive(r);
+  prm->beta  = 0.25;		/* MUST match background; H3 assumes isc=0; xref J5/118 */
+  return;
+}
+
+/* 1.0-a-b operations below can result in -epsilon or +epsilon. Round these to 0. */
+static float zerofy(float p) { return (p < 1e-6) ? 0.0 : p; }
+
+static P7_HMM *
+create_brute_hmm(ESL_ALPHABET *abc, struct p7_bruteparam_s *prm)
+{
+  P7_HMM       *hmm = NULL;
+  int           M   = 3;
+  int           k;
+  char         *logmsg = "[test created by create_brute_hmm()]";
+  if (abc->type != eslDNA) esl_fatal("brute hmm uses DNA alphabet");
+
+ 
+  hmm = p7_hmm_Create(M, abc);
+  hmm->t[0][p7H_MM] = prm->a;
+  hmm->t[0][p7H_MI] = prm->e;
+  hmm->t[0][p7H_MD] = zerofy(1.0 - (prm->a+prm->e));
+  hmm->t[0][p7H_IM] = prm->h;
+  hmm->t[0][p7H_II] = zerofy(1.0 - prm->h);
+  hmm->t[0][p7H_DM] = 1.0;	/* D0 doesn't exist; 1.0 is a convention */
+  hmm->t[0][p7H_DD] = 0.0;	/* D0 doesn't exist; 0.0 is a convention */
+  hmm->t[1][p7H_MM] = prm->b;
+  hmm->t[1][p7H_MI] = prm->f;
+  hmm->t[1][p7H_MD] = zerofy(1.0 - (prm->b+prm->f));
+  hmm->t[1][p7H_IM] = prm->i;
+  hmm->t[1][p7H_II] = zerofy(1.0 - prm->i);
+  hmm->t[1][p7H_DM] = zerofy(1.0 - prm->l);
+  hmm->t[1][p7H_DD] = prm->l;
+  hmm->t[2][p7H_MM] = prm->c;
+  hmm->t[2][p7H_MI] = prm->g;
+  hmm->t[2][p7H_MD] = zerofy(1.0 - (prm->c+prm->g));
+  hmm->t[2][p7H_IM] = prm->j;
+  hmm->t[2][p7H_II] = zerofy(1.0 - prm->j);
+  hmm->t[2][p7H_DM] = zerofy(1.0 - prm->m);
+  hmm->t[2][p7H_DD] = prm->m;
+  hmm->t[3][p7H_MM] = prm->d;	               /* M3->E */
+  hmm->t[3][p7H_MI] = zerofy(1.0 - prm->d);
+  hmm->t[3][p7H_MD] = 0.0;	               /* no D_M+1 state to move to */
+  hmm->t[3][p7H_IM] = prm->k;
+  hmm->t[3][p7H_II] = zerofy(1.0 - prm->k);
+  hmm->t[3][p7H_DM] = 1.0;	               /* forced transition to E */
+  hmm->t[3][p7H_DD] = 0.0;
+
+  for (k = 1; k <= M; k++) {
+    esl_vec_FSet(hmm->mat[k], abc->K, (1.0-prm->alpha)/(float)(abc->K-1));
+    hmm->mat[k][0] = prm->alpha;
+  }
+  for (k = 0; k <= M; k++) {
+    esl_vec_FSet(hmm->ins[k], abc->K, (1.0-prm->beta)/(float)(abc->K-1));
+    hmm->ins[k][0] = prm->beta;
+  }
+  
+  /* Add mandatory annotation */
+  p7_hmm_SetName(hmm, "itest-brute");
+  p7_hmm_AppendComlog(hmm, 1, &logmsg);
+  hmm->nseq     = 0;
+  hmm->eff_nseq = 0;
+  p7_hmm_SetCtime(hmm);
+  p7_hmm_SetConsensus(hmm, NULL);
+  hmm->checksum = 0;
+
+  return hmm;
+}
+
+
+static P7_PROFILE *
+create_brute_profile(struct p7_bruteparam_s *prm, P7_HMM *hmm, P7_BG *bg, int do_local)
+{
+  P7_PROFILE *gm = NULL;
+  double occ[4], Z;
+
+  gm = p7_profile_Create(hmm->M, hmm->abc);
+
+  if (do_local) p7_ProfileConfig(hmm, bg, gm, 100, p7_UNILOCAL);  /* only local vs. glocal matters... */
+  else          p7_ProfileConfig(hmm, bg, gm, 100, p7_UNIGLOCAL); /* all else will be replaced.       */
+
+  if (do_local) 
+    {	/* local modes: uniform but weighted by match occupancy;
+         * occ[k] / \sum_i occ[i] * (M-k+1), which
+         * reduces to uniform 2/(M(M+1)) for uniform match occupancy 
+	 */
+      occ[1] = prm->a+prm->e;
+      occ[2] = occ[1] * (prm->b+prm->f) + zerofy(1.0-occ[1]) * zerofy(1.0-prm->l);
+      occ[3] = occ[2] * (prm->c+prm->g) + zerofy(1.0-occ[2]) * zerofy(1.0-prm->m);
+      Z = occ[1] * 3.0 + occ[2] * 2.0 + occ[3];
+      prm->begin[1] = occ[1] / Z;
+      prm->begin[2] = occ[2] / Z;
+      prm->begin[3] = occ[3] / Z;
+      prm->end = 1.0;
+    }
+  else
+    {				/* glocal modes: right wing retraction and no internal exit */
+      prm->begin[1] = (prm->a + prm->e);
+      prm->begin[2] = zerofy(1. - (prm->a+prm->e)) * zerofy(1.-prm->l);
+      prm->begin[3] = zerofy(1. - (prm->a+prm->e)) * prm->l * zerofy(1.-prm->m);
+      prm->end = 0.0;
+    }
+
+  /* Replace profile's configured length and multihit modeling. */
+  gm->xsc[p7P_N][p7P_MOVE] = log(prm->n);
+  gm->xsc[p7P_N][p7P_LOOP] = log(zerofy(1. - prm->n));
+  gm->xsc[p7P_E][p7P_MOVE] = log(prm->p);
+  gm->xsc[p7P_E][p7P_LOOP] = log(zerofy(1. - prm->p));
+  gm->xsc[p7P_C][p7P_MOVE] = log(prm->q);
+  gm->xsc[p7P_C][p7P_LOOP] = log(zerofy(1. - prm->q));
+  gm->xsc[p7P_J][p7P_MOVE] = log(prm->r);
+  gm->xsc[p7P_J][p7P_LOOP] = log(zerofy(1. - prm->r));
+
+  return gm;
+}
+
+
+/* score_brute_profile() enumerates all paths combinatorially, and
+ * calculates their Forward or Viterbi probabilities either by summing
+ * or by max, for A* (polyA) sequences of lengths 0..4.
+ */
+static double
+score_brute_profile(struct p7_bruteparam_s *prm, P7_BG *bg, int do_viterbi, double sc[5])
+{
+  double b = prm->b;
+  double c = prm->c;
+  double f = prm->f;
+  double g = prm->g;
+  double i = prm->i;
+  double j = prm->j;
+  double m = prm->m;
+  double n = prm->n;
+  double p = prm->p;
+  double q = prm->q;
+  double r = prm->r;
+  double msc = prm->alpha / (double) bg->f[0];
+  double isc = prm->beta  / (double) bg->f[0];
+
+  double cp[19];		/* odds of 19 possible paths through core model */
+  double cL[5];			/* summed odds of core model accounting for seq of length 0..4 */
+  double jp[21];		/* odds of 21 possible paths using core model and J state */
+  double jL[5];			/* summed odds of core+J accounting for seq of length 0..4   */
+  double ap[10];		/* odds of 10 possible paths through flanking states, accounting for 0..3 residues */
+  double aL[4];			/* summed odds of flanks accounting for 0..3 residues */
+
+
+  /* 1. There are 19 possible paths that up to L=4 residues can align
+        to the core model.
+   */
+  cp[0] = msc * prm->begin[1] * prm->end;	              /* B M1 E             (L=1) */
+  cp[1] = msc * prm->begin[2] * prm->end;	              /* B M2 E             (L=1) */
+  cp[2] = msc * prm->begin[3];                                /* B M3 E             (L=1) */
+  cp[3] = msc * prm->begin[1] * zerofy(1. - (b+f)) * prm->end;/* B M1 D2 E          (L=1) */
+  cp[4] = msc * prm->begin[2] * zerofy(1. - (c+g));           /* B M2 D3 E          (L=1) */
+  cp[5] = msc * prm->begin[1] * zerofy(1. - (b+f)) * m;       /* B M1 D2 D3 E       (L=1) */
+  
+  cp[6] = msc * msc * prm->begin[1] * b * prm->end;	               /* B M1 M2 E          (L=2) */
+  cp[7] = msc * msc * prm->begin[2] * c;                               /* B M2 M3 E          (L=2) */
+  cp[8] = msc * msc * prm->begin[1] * b * zerofy(1.-(c+g));            /* B M1 M2 D3 E       (L=2) */
+  cp[9] = msc * msc * prm->begin[1] * zerofy(1.-(b+f)) * zerofy(1.-m); /* B M1 D2 M3 E       (L=2) */
+  
+  cp[10]= msc * msc * msc * prm->begin[1] * b * c;	                  /* B M1 M2 M3 E       (L=3) */
+  cp[11]= msc * isc * msc * prm->begin[1] * f * i * zerofy(1.-(c+g));     /* B M1 I1 M2 D3 E    (L=3) */
+  cp[12]= msc * isc * msc * prm->begin[1] * f * i * prm->end;	          /* B M1 I1 M2 E       (L=3) */
+  cp[13]= msc * isc * msc * prm->begin[2] * g * j;	                  /* B M2 I2 M3 E       (L=3) */
+
+  cp[14] = msc * isc * msc * msc * prm->begin[1] * f * i * c;	                             /* B M1 I1 M2 M3 E    (L=4) */
+  cp[15] = msc * isc * isc * msc * prm->begin[1] * f * zerofy(1.-i) * i * zerofy(1.-(c+g));  /* B M1 I1 I1 M2 D3 E (L=4) */
+  cp[16] = msc * msc * isc * msc * prm->begin[1] * b * g * j;      	                     /* B M1 M2 I2 M3 E    (L=4) */
+  cp[17] = msc * isc * isc * msc * prm->begin[1] * f * zerofy(1.-i) * i * prm->end;          /* B M1 I1 I1 M2 E    (L=4) */
+  cp[18] = msc * isc * isc * msc * prm->begin[2] * g * zerofy(1.-j) * j;                     /* B M2 I2 I2 M3 E    (L=4) */
+
+  /* 2. Sum or max the total probability of L={1..4} aligned to one pass
+        through the core model
+   */
+  if (do_viterbi) 
+    {
+      cL[0] = 0.0;
+      cL[1] = esl_vec_DMax(cp,    6);
+      cL[2] = esl_vec_DMax(cp+6,  4);
+      cL[3] = esl_vec_DMax(cp+10, 4);
+      cL[4] = esl_vec_DMax(cp+14, 5);
+    }
+  else 
+    {
+      cL[0] = 0.0;
+      cL[1] = esl_vec_DSum(cp,    6);
+      cL[2] = esl_vec_DSum(cp+6,  4);
+      cL[3] = esl_vec_DSum(cp+10, 4);
+      cL[4] = esl_vec_DSum(cp+14, 5);
+    }
+
+  /* 3. J state introduces a combiexplosion of paths accounting for
+   *    jL={1..4} total residues in one or more passes through the
+   *    core model: 21 such paths.
+   */
+  jp[0]  = cL[4];			                                                            /* B [4] E                    (jL=4, 0 in J) */
+  jp[1]  = cL[3] * zerofy(1.-p) * r * cL[1];                                                        /* B [3] J [1] E              (jL=4, 0 in J) */
+  jp[2]  = cL[2] * zerofy(1.-p) * r * cL[2];                                                        /* B [2] J [2] E              (jL=4, 0 in J) */        
+  jp[3]  = cL[2] * zerofy(1.-p) * r * cL[1] * zerofy(1.-p) * r * cL[1];                             /* B [2] J [1] J [1] E        (jL=4, 0 in J) */
+  jp[4]  = cL[1] * zerofy(1.-p) * r * cL[3];                                                        /* B [1] J [3] E              (jL=4, 0 in J) */
+  jp[5]  = cL[1] * zerofy(1.-p) * r * cL[2] * zerofy(1.-p) * r * cL[1];                             /* B [1] J [2] J [1] E        (jL=4, 0 in J) */
+  jp[6]  = cL[1] * zerofy(1.-p) * r * cL[1] * zerofy(1.-p) * r * cL[2];                             /* B [1] J [1] J [2] E        (jL=4, 0 in J) */
+  jp[7]  = cL[1] * zerofy(1.-p) * r * cL[1] * zerofy(1.-p) * r * cL[1] * zerofy(1.-p) * r * cL[1];  /* B [1] J [1] J [1] J [1] E  (jL=4, 0 in J) */
+  jp[8]  = cL[2] * zerofy(1.-p) * zerofy(1.-r) * r * cL[1];                                         /* B [2] JJ [1] E             (jL=4, 1 in J) */
+  jp[9]  = cL[1] * zerofy(1.-p) * zerofy(1.-r) * r * cL[2];                                         /* B [1] JJ [2] E             (jL=4, 1 in J) */
+  jp[10] = cL[1] * zerofy(1.-p) * zerofy(1.-r) * r * cL[1] * zerofy(1.-p) * r * cL[1];              /* B [1] JJ [1] J [1] E       (jL=4, 1 in J) */
+  jp[11] = cL[1] * zerofy(1.-p) * r * cL[1] * zerofy(1.-p) * zerofy(1.-r) * r * cL[1];              /* B [1] J [1] JJ [1] E       (jL=4, 1 in J) */
+  jp[12] = cL[1] * zerofy(1.-p) * zerofy(1.-r) * zerofy(1.-r) * r * cL[1];                          /* B [1] JJJ [1] E            (jL=4, 2 in J) */
+
+  jp[13] = cL[3];		                                                                    /* B [3] E                    (jL=3, 0 in J) */
+  jp[14] = cL[2] * zerofy(1.-p) * r * cL[1];                                                        /* B [2] J [1] E              (jL=3, 0 in J) */
+  jp[15] = cL[1] * zerofy(1.-p) * r * cL[2];                                                        /* B [1] J [2] E              (jL=3, 0 in J) */
+  jp[16] = cL[1] * zerofy(1.-p) * r * cL[1] * zerofy(1.-p) * r * cL[1];                             /* B [1] J [1] J [1] E        (jL=3, 0 in J) */
+  jp[17] = cL[1] * zerofy(1.-p) * zerofy(1.-r) * r * cL[1];                                         /* B [1] JJ [1] E             (jL=3, 1 in J) */
+
+  jp[18] = cL[2];                                                                                   /* B [2] E                    (jL=2, 0 in J) */
+  jp[19] = cL[1] * zerofy(1.-p) * r * cL[1];                                                        /* B [1] J [1] E              (jL=2, 0 in J) */
+  
+  jp[20] = cL[1];		                                                                    /* B [1] E                    (jL=1, 0 in J) */
+
+  /* 4. Sum or max the total path probability of jL={1..4} 
+   */
+  if (do_viterbi)
+    {
+      jL[0] = 0.;
+      jL[1] = jp[20];
+      jL[2] = esl_vec_DMax(jp + 18, 2);
+      jL[3] = esl_vec_DMax(jp + 13, 5);
+      jL[4] = esl_vec_DMax(jp,      13);
+    }
+  else
+    {
+      jL[0] = 0.;
+      jL[1] = jp[20];
+      jL[2] = esl_vec_DSum(jp + 18, 2);
+      jL[3] = esl_vec_DSum(jp + 13, 5);
+      jL[4] = esl_vec_DSum(jp,      13);
+    }
+
+  /* 5. The total probability, including SNB...ECJ flanks, accounts for
+   *    10 possible paths accounting for 0..3 residues in the flanks.
+   */
+  ap[0] = n * p * q;
+  ap[1] = zerofy(1.-n) * n * p * q;
+  ap[2] = n * p * zerofy(1.-q) * q;
+  ap[3] = zerofy(1.-n) * zerofy(1.-n) * n * p * q;
+  ap[4] = zerofy(1.-n) * n * p * zerofy(1.-q) * q;
+  ap[5] = n * p * zerofy(1.-q) * zerofy(1.-q) * q;
+  ap[6] = zerofy(1.-n) * zerofy(1.-n) * zerofy(1.-n) * n * p * q;
+  ap[7] = zerofy(1.-n) * zerofy(1.-n) * n * p * zerofy(1.-q) * q;
+  ap[8] = zerofy(1.-n) * n * p * zerofy(1.-q) * zerofy(1.-q) * q;
+  ap[9] = n * p * zerofy(1.-q) * zerofy(1.-q) * zerofy(1.-q) * q;
+
+  /* 6. Sum or max the total path probability for the flanks generating
+   *     0..3 residues
+   */
+  if (do_viterbi) 
+    {
+      aL[0] = ap[0];
+      aL[1] = esl_vec_DMax(ap+1, 2);
+      aL[2] = esl_vec_DMax(ap+3, 3);
+      aL[3] = esl_vec_DMax(ap+6, 4);
+    }
+  else
+    {
+      aL[0] = ap[0];
+      aL[1] = esl_vec_DSum(ap+1, 2);
+      aL[2] = esl_vec_DSum(ap+3, 3);
+      aL[3] = esl_vec_DSum(ap+6, 4);
+    }
+
+  /* 6. The total lod score is then the possible combinations
+   *    of flank + (core+J)
+   */
+  if (do_viterbi) 
+    {
+      sc[0] = -eslINFINITY;
+      sc[1] = jL[1] * aL[0];
+      sc[2] = ESL_MAX(jL[2] * aL[0],
+		      jL[1] * aL[1]); 
+
+      sc[3] = ESL_MAX(ESL_MAX(jL[3] * aL[0],
+			      jL[2] * aL[1]),
+		              jL[1] * aL[2]);
+      sc[4] = ESL_MAX(ESL_MAX(jL[4] * aL[0], jL[3] * aL[1]),
+		      ESL_MAX(jL[2] * aL[2], jL[1] * aL[3]));
+      sc[1] = log(sc[1]);
+      sc[2] = log(sc[2]);
+      sc[3] = log(sc[3]);
+      sc[4] = log(sc[4]);
+    }
+  else
+    {
+      sc[0] = -eslINFINITY;
+      sc[1] = log(jL[1] * aL[0]);
+      sc[2] = log(jL[2] * aL[0] + jL[1] * aL[1]);
+      sc[3] = log(jL[3] * aL[0] + jL[2] * aL[1] + jL[1] * aL[2]);
+      sc[4] = log(jL[4] * aL[0] + jL[3] * aL[1] + jL[2] * aL[2] + jL[1] * aL[3]);
+    }
+
+  return eslOK;
+}
+  
+
+  
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/jackhmmer.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/jackhmmer.c
new file mode 100755
index 0000000..c4947ba
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/jackhmmer.c
@@ -0,0 +1,1721 @@
+/* jackhmmer: iterative search of a protein sequence against a protein database
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_keyhash.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_scorematrix.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#include "esl_mpi.h"
+#endif /*HAVE_MPI*/
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif
+  P7_BG            *bg;
+  P7_PIPELINE      *pli;
+  P7_TOPHITS       *th;
+  P7_OPROFILE      *om;
+} WORKER_INFO;
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define CONOPTS     "--fast,--hand"                            /* Exclusive options for model construction                    */
+#define EFFOPTS     "--eent,--eclust,--eset,--enone"           /* Exclusive options for effective sequence number calculation */
+#define WGTOPTS     "--wgsc,--wblosum,--wpb,--wnone,--wgiven"  /* Exclusive options for relative weighting                    */
+
+#if defined (HMMER_THREADS) && defined (HAVE_MPI)
+#define CPUOPTS     "--mpi"
+#define MPIOPTS     "--cpu"
+#else
+#define CPUOPTS     NULL
+#define MPIOPTS     NULL
+#endif
+
+static ESL_OPTIONS options[] = {
+  /* name           type              default   env  range   toggles     reqs   incomp                             help                                                  docgroup*/
+  { "-h",           eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL,  NULL,            "show brief help on version and usage",                         1 },
+  { "-N",           eslARG_INT,           "5", NULL, "n>0",     NULL,    NULL,  NULL,            "set maximum number of iterations to <n>",                      1 },
+/* Control of output */
+  { "-o",           eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,    NULL,  NULL,            "direct output to file <f>, not stdout",                        2 },
+  { "-A",           eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,    NULL,  NULL,            "save multiple alignment of hits to file <f>",                  2 },
+  { "--tblout",     eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,    NULL,  NULL,            "save parseable table of per-sequence hits to file <f>",        2 },
+  { "--domtblout",  eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,    NULL,  NULL,            "save parseable table of per-domain hits to file <f>",          2 },
+  { "--chkhmm",     eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,    NULL,  NULL,            "save HMM checkpoints to files <f>-<iteration>.hmm",            2 },
+  { "--chkali",     eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,    NULL,  NULL,            "save alignment checkpoints to files <f>-<iteration>.sto",      2 },
+  { "--acc",        eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL,  NULL,            "prefer accessions over names in output",                       2 },
+  { "--noali",      eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL,  NULL,            "don't output alignments, so output is smaller",                2 },
+  { "--notextw",    eslARG_NONE,         NULL, NULL, NULL,      NULL,    NULL, "--textw",        "unlimit ASCII text output line width",                         2 },
+  { "--textw",      eslARG_INT,         "120", NULL, "n>=120",  NULL,    NULL, "--notextw",      "set max width of ASCII text output lines",                     2 },
+/* Control of scoring system */
+  { "--popen",      eslARG_REAL,       "0.02", NULL, "0<=x<0.5",NULL,    NULL,  NULL,            "gap open probability",                                         3 },
+  { "--pextend",    eslARG_REAL,        "0.4", NULL, "0<=x<1",  NULL,    NULL,  NULL,            "gap extend probability",                                       3 },
+  { "--mx",         eslARG_STRING, "BLOSUM62", NULL, NULL,      NULL,    NULL,  "--mxfile",      "substitution score matrix choice (of some built-in matrices)", 3 },
+  { "--mxfile",     eslARG_INFILE,       NULL, NULL, NULL,      NULL,    NULL,  "--mx",          "read substitution score matrix from file <f>",                 3 },
+/* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,       "10.0", NULL, "x>0",     NULL,    NULL,  REPOPTS,         "report sequences <= this E-value threshold in output",         4 },
+  { "-T",           eslARG_REAL,        FALSE, NULL, NULL,      NULL,    NULL,  REPOPTS,         "report sequences >= this score threshold in output",           4 },
+  { "--domE",       eslARG_REAL,       "10.0", NULL, "x>0",     NULL,    NULL,  DOMREPOPTS,      "report domains <= this E-value threshold in output",           4 },
+  { "--domT",       eslARG_REAL,        FALSE, NULL, NULL,      NULL,    NULL,  DOMREPOPTS,      "report domains >= this score cutoff in output",                4 },
+/* Control of inclusion (significance) thresholds */
+  { "--incE",       eslARG_REAL,      "0.001", NULL, "x>0",     NULL,    NULL,  INCOPTS,         "consider sequences <= this E-value threshold as significant",  5 },
+  { "--incT",       eslARG_REAL,        FALSE, NULL, NULL,      NULL,    NULL,  INCOPTS,         "consider sequences >= this score threshold as significant",    5 },
+  { "--incdomE",    eslARG_REAL,      "0.001", NULL, "x>0",     NULL,    NULL,  INCDOMOPTS,      "consider domains <= this E-value threshold as significant",    5 },
+  { "--incdomT",    eslARG_REAL,        FALSE, NULL, NULL,      NULL,    NULL,  INCDOMOPTS,      "consider domains >= this score threshold as significant",      5 },
+/* Model-specific thresholding for both reporting and inclusion (unused in jackhmmer) */
+  { "--cut_ga",     eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL,  THRESHOPTS,      "use profile's GA gathering cutoffs to set all thresholding",  99 },
+  { "--cut_nc",     eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL,  THRESHOPTS,      "use profile's NC noise cutoffs to set all thresholding",      99 },
+  { "--cut_tc",     eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL,  THRESHOPTS,      "use profile's TC trusted cutoffs to set all thresholding",    99 },
+/* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,        FALSE, NULL, NULL,      NULL,    NULL, "--F1,--F2,--F3", "Turn all heuristic filters off (less speed, more power)",      7 },
+  { "--F1",         eslARG_REAL,       "0.02", NULL, NULL,      NULL,    NULL, "--max",          "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             7 },
+  { "--F2",         eslARG_REAL,       "1e-3", NULL, NULL,      NULL,    NULL, "--max",          "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             7 },
+  { "--F3",         eslARG_REAL,       "1e-5", NULL, NULL,      NULL,    NULL, "--max",          "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             7 },
+  { "--nobias",     eslARG_NONE,         NULL, NULL, NULL,      NULL,    NULL, "--max",          "turn off composition bias filter",                             7 },
+/* Alternative model construction strategies */
+  { "--fast",       eslARG_NONE,        FALSE, NULL, NULL,   CONOPTS,    NULL,  NULL,            "assign cols w/ >= symfrac residues as consensus",              8 },
+  { "--hand",       eslARG_NONE,    "default", NULL, NULL,   CONOPTS,    NULL,  NULL,            "manual construction (requires reference annotation)",          8 },
+  { "--symfrac",    eslARG_REAL,        "0.5", NULL, "0<=x<=1", NULL,"--fast",  NULL,            "sets sym fraction controlling --fast construction",            8 },
+  { "--fragthresh", eslARG_REAL,        "0.5", NULL, "0<=x<=1", NULL,    NULL,  NULL,            "if L <= x*alen, tag sequence as a fragment",                   8 },
+/* Alternative relative sequence weighting strategies */
+  { "--wpb",        eslARG_NONE,    "default", NULL, NULL,   WGTOPTS,    NULL,  NULL,            "Henikoff position-based weights",                              9 },
+  { "--wgsc",       eslARG_NONE,         NULL, NULL, NULL,   WGTOPTS,    NULL,  NULL,            "Gerstein/Sonnhammer/Chothia tree weights",                     9 },
+  { "--wblosum",    eslARG_NONE,         NULL, NULL, NULL,   WGTOPTS,    NULL,  NULL,            "Henikoff simple filter weights",                               9 },
+  { "--wnone",      eslARG_NONE,         NULL, NULL, NULL,   WGTOPTS,    NULL,  NULL,            "don't do any relative weighting; set all to 1",                9 },
+  { "--wgiven",     eslARG_NONE,         NULL, NULL, NULL,   WGTOPTS,    NULL,  NULL,            "use weights as given in MSA file",                            99 }, /* no-op in jackhmmer */
+  { "--wid",        eslARG_REAL,       "0.62", NULL,"0<=x<=1", NULL,"--wblosum",NULL,            "for --wblosum: set identity cutoff",                           9 },
+/* Alternative effective sequence weighting strategies */
+  { "--eent",       eslARG_NONE,    "default", NULL, NULL,   EFFOPTS,    NULL,  NULL,            "adjust eff seq # to achieve relative entropy target",         10 },
+  { "--eclust",     eslARG_NONE,        FALSE, NULL, NULL,   EFFOPTS,    NULL,  NULL,            "eff seq # is # of single linkage clusters",                   10 },
+  { "--enone",      eslARG_NONE,        FALSE, NULL, NULL,   EFFOPTS,    NULL,  NULL,            "no effective seq # weighting: just use nseq",                 10 },
+  { "--eset",       eslARG_REAL,         NULL, NULL, NULL,   EFFOPTS,    NULL,  NULL,            "set eff seq # for all models to <x>",                         10 },
+  { "--ere",        eslARG_REAL,         NULL, NULL,"x>0",      NULL, "--eent", NULL,            "for --eent: set minimum rel entropy/position to <x>",         10 },
+  { "--esigma",     eslARG_REAL,       "45.0", NULL,"x>0",      NULL, "--eent", NULL,            "for --eent: set sigma param to <x>",                          10 },
+  { "--eid",        eslARG_REAL,       "0.62", NULL,"0<=x<=1",  NULL,"--eclust",NULL,            "for --eclust: set fractional identity cutoff to <x>",         10 },
+/* Alternative prior strategies */
+  { "--pnone",       eslARG_NONE,       FALSE, NULL, NULL,      NULL,    NULL,"--plaplace",      "don't use any prior; parameters are frequencies",             13 },
+  { "--plaplace",    eslARG_NONE,       FALSE, NULL, NULL,      NULL,    NULL,   "--pnone",      "use a Laplace +1 prior",                                      13 },
+/* Control of E-value calibration */
+  { "--EmL",         eslARG_INT,        "200", NULL,"n>0",      NULL,    NULL,  NULL,            "length of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EmN",         eslARG_INT,        "200", NULL,"n>0",      NULL,    NULL,  NULL,            "number of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EvL",         eslARG_INT,        "200", NULL,"n>0",      NULL,    NULL,  NULL,            "length of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EvN",         eslARG_INT,        "200", NULL,"n>0",      NULL,    NULL,  NULL,            "number of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EfL",         eslARG_INT,        "100", NULL,"n>0",      NULL,    NULL,  NULL,            "length of sequences for Forward exp tail tau fit",            11 },   
+  { "--EfN",         eslARG_INT,        "200", NULL,"n>0",      NULL,    NULL,  NULL,            "number of sequences for Forward exp tail tau fit",            11 },   
+  { "--Eft",         eslARG_REAL,      "0.04", NULL,"0<x<1",    NULL,    NULL,  NULL,            "tail mass for Forward exponential tail tau fit",              11 },   
+/* Other options */
+  { "--nonull2",    eslARG_NONE,         NULL, NULL, NULL,      NULL,    NULL,  NULL,            "turn off biased composition score corrections",               12 },
+  { "-Z",           eslARG_REAL,        FALSE, NULL, "x>0",     NULL,    NULL,  NULL,            "set # of comparisons done, for E-value calculation",          12 },
+  { "--domZ",       eslARG_REAL,        FALSE, NULL, "x>0",     NULL,    NULL,  NULL,            "set # of significant seqs, for domain E-value calculation",   12 },
+  { "--seed",       eslARG_INT,          "42", NULL, "n>=0",    NULL,    NULL,  NULL,            "set RNG seed to <n> (if 0: one-time arbitrary seed)",         12 },
+  { "--qformat",    eslARG_STRING,       NULL, NULL, NULL,      NULL,    NULL,  NULL,            "assert query <seqfile> is in format <s>: no autodetection",   12 },
+  { "--tformat",    eslARG_STRING,       NULL, NULL, NULL,      NULL,    NULL,  NULL,            "assert target <seqdb> is in format <s>>: no autodetection",   12 },
+
+#ifdef HMMER_THREADS
+  { "--cpu",        eslARG_INT,       NULL,"HMMER_NCPU","n>=0", NULL,    NULL,  CPUOPTS,         "number of parallel CPU workers to use for multithreads",      12 },
+#endif
+#ifdef HAVE_MPI
+  { "--stall",      eslARG_NONE,       FALSE, NULL,  NULL,      NULL,  "--mpi", NULL,            "arrest after start: for debugging MPI under gdb",             12 },  
+  { "--mpi",        eslARG_NONE,       FALSE, NULL,  NULL,      NULL,    NULL,  MPIOPTS,         "run as an MPI parallel program",                              12 },
+#endif  
+ {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <seqfile> <seqdb>";
+static char banner[] = "iteratively search a protein sequence against a protein database";
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  char            *qfile;             /* file to read query sequence from                */
+  char            *dbfile;            /* file to read sequence(s) from                   */
+
+  int              do_mpi;            /* TRUE if we're doing MPI parallelization         */
+  int              nproc;             /* how many MPI processes, total                   */
+  int              my_rank;           /* who am I, in 0..nproc-1                         */
+};
+
+
+
+static int  serial_master(ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  serial_loop(WORKER_INFO *info, ESL_SQFILE *dbfp);
+#ifdef HMMER_THREADS
+#define BLOCK_SIZE 1000
+
+static int  thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp);
+static void pipeline_thread(void *arg);
+#endif /*HMMER_THREADS*/
+
+#ifdef HAVE_MPI
+static int  mpi_master   (ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  mpi_worker   (ESL_GETOPTS *go, struct cfg_s *cfg);
+#endif /*HAVE_MPI*/
+
+static void checkpoint_hmm(int nquery, P7_HMM *hmm,  char *basename, int iteration);
+static void checkpoint_msa(int nquery, ESL_MSA *msa, char *basename, int iteration);
+
+/* process_commandline()
+ * Take argc, argv, and options; parse the command line;
+ * display help/usage info.
+ */
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_qfile, char **ret_dbfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      if (puts("\nBasic options:")                                                            < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 120=textwidth*/
+
+      if (puts("\nOptions directing output:")                                                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+
+      if (puts("\nOptions controlling scoring system in first iteration:")                    < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); 
+
+      if (puts("\nOptions controlling reporting thresholds:")                                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+
+      if (puts("\nOptions controlling significance thresholds for inclusion in next round:")  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+
+      if (puts("\nOptions controlling acceleration heuristics:")                              < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80); 
+
+      if (puts("\nOptions controlling model construction after first iteration:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 8, 2, 80); 
+
+      if (puts("\nOptions controlling relative weights in models after first iteration:")     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 9, 2, 80); 
+
+      if (puts("\nOptions controlling effective seq number in models after first iteration:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 10, 2, 80); 
+
+      if (puts("\nOptions controlling prior strategy in models after first iteration:")       < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 13, 2, 80); 
+
+      if (puts("\nOptions controlling E value calibration:")                                  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 11, 2, 80); 
+
+      if (puts("\nOther expert options:")                                                     < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 80); 
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                 != 2)    { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");      goto FAILURE; }
+  if ((*ret_qfile  = esl_opt_GetArg(go, 1)) == NULL) { if (puts("Failed to get <seqfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_dbfile = esl_opt_GetArg(go, 2)) == NULL) { if (puts("Failed to get <seqdb> argument on command line")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");   goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (strcmp(*ret_dbfile, "-") == 0) 
+    { if (puts("jackhmmer cannot read <seqdb> from stdin stream") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  if (puts("\nwhere basic options are:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 120); /* 1= group; 2 = indentation; 120=textwidth*/
+  if (printf("\nTo see more help on available options, do %s -h\n\n", argv[0]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+static int
+output_header(FILE *ofp, ESL_GETOPTS *go, char *qfile, char *dbfile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+  
+  if (fprintf(ofp, "# query sequence file:             %s\n", qfile)                                                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# target sequence database:        %s\n", dbfile)                                                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-N")           && fprintf(ofp, "# maximum iterations set to:       %d\n",             esl_opt_GetInteger(go, "-N"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")           && fprintf(ofp, "# output directed to file:         %s\n",             esl_opt_GetString(go, "-o"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-A")           && fprintf(ofp, "# MSA of hits saved to file:       %s\n",             esl_opt_GetString(go, "-A"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tblout")     && fprintf(ofp, "# per-seq hits tabular output:     %s\n",             esl_opt_GetString(go, "--tblout"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domtblout")  && fprintf(ofp, "# per-dom hits tabular output:     %s\n",             esl_opt_GetString(go, "--domtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--chkhmm")     && fprintf(ofp, "# HMM checkpoint files output:     %s-<i>.hmm\n",     esl_opt_GetString(go, "--chkhmm"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--chkali")     && fprintf(ofp, "# MSA checkpoint files output:     %s-<i>.sto\n",     esl_opt_GetString(go, "--chkali"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--acc")        && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--noali")      && fprintf(ofp, "# show alignments in output:       no\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--notextw")    && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--textw")      && fprintf(ofp, "# max ASCII text line length:      %d\n",             esl_opt_GetInteger(go, "--textw"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--popen")      && fprintf(ofp, "# gap open probability:            %f\n",             esl_opt_GetReal   (go, "--popen"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pextend")    && fprintf(ofp, "# gap extend probability:          %f\n",             esl_opt_GetReal   (go, "--pextend"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mx")         && fprintf(ofp, "# subst score matrix (built-in):   %s\n",             esl_opt_GetString (go, "--mx"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mxfile")     && fprintf(ofp, "# subst score matrix (file):       %s\n",             esl_opt_GetString (go, "--mxfile"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-E")           && fprintf(ofp, "# sequence reporting threshold:    E-value <= %g\n",  esl_opt_GetReal   (go, "-E"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-T")           && fprintf(ofp, "# sequence reporting threshold:    score <= %g\n",    esl_opt_GetReal   (go, "-T"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domE")       && fprintf(ofp, "# domain reporting threshold:      E-value <= %g\n",  esl_opt_GetReal   (go, "--domE"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domT")       && fprintf(ofp, "# domain reporting threshold:      score <= %g\n",    esl_opt_GetReal   (go, "--domT"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incE")       && fprintf(ofp, "# sequence inclusion threshold:    E-value <= %g\n",  esl_opt_GetReal   (go, "--incE"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incT")       && fprintf(ofp, "# sequence inclusion threshold:    score >= %g\n",    esl_opt_GetReal   (go, "--incT"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomE")    && fprintf(ofp, "# domain inclusion threshold:      E-value <= %g\n",  esl_opt_GetReal   (go, "--incdomE"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomT")    && fprintf(ofp, "# domain inclusion threshold:      score >= %g\n",    esl_opt_GetReal   (go, "--incdomT"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//if (esl_opt_IsUsed(go, "--cut_ga")     && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+//if (esl_opt_IsUsed(go, "--cut_nc")     && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+//if (esl_opt_IsUsed(go, "--cut_tc")     && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--max")        && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F1")         && fprintf(ofp, "# MSV filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F1"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F2")         && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F2"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F3")         && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F3"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nobias")     && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--fast")       && fprintf(ofp, "# model architecture construction: fast/heuristic\n")                                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--hand")       && fprintf(ofp, "# model architecture construction: hand-specified by RF annotation\n")                      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--symfrac")    && fprintf(ofp, "# sym frac for model structure:    %.3f\n",           esl_opt_GetReal(go, "--symfrac"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--fragthresh") && fprintf(ofp, "# define fragments if <= x*alen:   %.3f\n",           esl_opt_GetReal(go, "--fragthresh"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wpb")        && fprintf(ofp, "# relative weighting scheme:       Henikoff PB\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wgsc")       && fprintf(ofp, "# relative weighting scheme:       G/S/C\n")                                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wblosum")    && fprintf(ofp, "# relative weighting scheme:       BLOSUM filter\n")                                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wnone")      && fprintf(ofp, "# relative weighting scheme:       none\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--wid")        && fprintf(ofp, "# frac id cutoff for BLOSUM wgts:  %f\n",             esl_opt_GetReal(go, "--wid"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eent")       && fprintf(ofp, "# effective seq number scheme:     entropy weighting\n")                                    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eclust")     && fprintf(ofp, "# effective seq number scheme:     single linkage clusters\n")                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--enone")      && fprintf(ofp, "# effective seq number scheme:     none\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eset")       && fprintf(ofp, "# effective seq number:            set to %f\n",      esl_opt_GetReal(go, "--eset"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--ere")        && fprintf(ofp, "# minimum rel entropy target:      %f bits\n",        esl_opt_GetReal(go, "--ere"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--esigma")     && fprintf(ofp, "# entropy target sigma parameter:  %f bits\n",        esl_opt_GetReal(go, "--esigma"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--eid")        && fprintf(ofp, "# frac id cutoff for --eclust:     %f\n",             esl_opt_GetReal(go, "--eid"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pnone")      && fprintf(ofp, "# prior scheme:                    none\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--plaplace")   && fprintf(ofp, "# prior scheme:                    Laplace +1\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EmL")        && fprintf(ofp, "# seq length, MSV Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EmL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EmN")        && fprintf(ofp, "# seq number, MSV Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EmN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EvL")        && fprintf(ofp, "# seq length, Vit Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EvL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EvN")        && fprintf(ofp, "# seq number, Vit Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EvN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EfL")        && fprintf(ofp, "# seq length, Fwd exp tau fit:     %d\n",             esl_opt_GetInteger(go, "--EfL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EfN")        && fprintf(ofp, "# seq number, Fwd exp tau fit:     %d\n",             esl_opt_GetInteger(go, "--EfN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--Eft")        && fprintf(ofp, "# tail mass for Fwd exp tau fit:   %f\n",             esl_opt_GetReal   (go, "--Eft"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nonull2")    && fprintf(ofp, "# null2 bias corrections:          off\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-Z")           && fprintf(ofp, "# sequence search space set to:    %.0f\n",           esl_opt_GetReal(go, "-Z"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domZ")       && fprintf(ofp, "# domain search space set to:      %.0f\n",           esl_opt_GetReal(go, "--domZ"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))
+    {
+      if (esl_opt_GetInteger(go, "--seed") == 0  && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      else if                                      (fprintf(ofp, "# random number seed set to:       %d\n",       esl_opt_GetInteger(go, "--seed"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    }
+  if (esl_opt_IsUsed(go, "--qformat")    && fprintf(ofp, "# query <seqfile> format asserted: %s\n",             esl_opt_GetString(go, "--qformat"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tformat")    && fprintf(ofp, "# target <seqdb> format asserted:  %s\n",             esl_opt_GetString(go, "--tformat"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#ifdef HMMER_THREADS
+  if (esl_opt_IsUsed(go, "--cpu")        && fprintf(ofp, "# number of worker threads:        %d\n",             esl_opt_GetInteger(go, "--cpu"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+#ifdef HAVE_MPI
+  if (esl_opt_IsUsed(go, "--mpi")        && fprintf(ofp, "# MPI:                             on\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif 
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go      = NULL;	/* command line processing                 */
+  struct cfg_s     cfg;                 /* configuration data                      */
+  int              status  = eslOK;
+
+  /* Set processor specific flags */
+  impl_Init();
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet) 
+   */
+  cfg.qfile      = NULL;
+  cfg.dbfile     = NULL;
+  cfg.do_mpi     = FALSE;	           /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;		           /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;		           /* this gets reset below, if we init MPI */
+
+  /* Initializations */
+  p7_FLogsumInit();		/* we're going to use table-driven Logsum() approximations at times */
+  process_commandline(argc, argv, &go, &cfg.qfile, &cfg.dbfile);    
+
+  /* Figure out who we are, and send control there: 
+   * we might be an MPI master, an MPI worker, or a serial program.
+   */
+#ifdef HAVE_MPI
+  /* pause the execution of the programs execution until the user has a
+   * chance to attach with a debugger and send a signal to resume execution
+   * i.e. (gdb) signal SIGCONT
+   */
+  if (esl_opt_GetBoolean(go, "--stall")) pause();
+
+  if (esl_opt_GetBoolean(go, "--mpi")) 
+    {
+      cfg.do_mpi     = TRUE;
+      MPI_Init(&argc, &argv);
+      MPI_Comm_rank(MPI_COMM_WORLD, &(cfg.my_rank));
+      MPI_Comm_size(MPI_COMM_WORLD, &(cfg.nproc));
+
+      if (cfg.my_rank > 0)  status = mpi_worker(go, &cfg);
+      else 		    status = mpi_master(go, &cfg);
+
+      MPI_Finalize();
+    }
+  else
+#endif /*HAVE_MPI*/
+    {
+      status = serial_master(go, &cfg);
+    }
+
+  esl_getopts_Destroy(go);
+
+  return status;
+}
+
+/* serial_master()
+ * The serial version of hmmsearch.
+ * For each query HMM in <hmmfile> search the database for hits.
+ * 
+ * A master can only return if it's successful. All errors are handled immediately and fatally with p7_Fail().
+ */
+static int
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;             /* output file for results (default stdout)        */
+  FILE            *afp      = NULL;               /* alignment output file (-A option)               */
+  FILE            *tblfp    = NULL;		  /* output stream for tabular per-seq (--tblout)    */
+  FILE            *domtblfp = NULL;		  /* output stream for tabular per-seq (--domtblout) */
+  int              qformat  = eslSQFILE_UNKNOWN;  /* format of qfile                                 */
+  int              dbformat = eslSQFILE_UNKNOWN;  /* format of dbfile                                */
+  ESL_SQFILE      *qfp      = NULL;		  /* open qfile                                      */
+  ESL_SQFILE      *dbfp     = NULL;               /* open dbfile                                     */
+  ESL_ALPHABET    *abc      = NULL;               /* sequence alphabet                               */
+  P7_BG           *bg       = NULL;		  /* null model                                      */
+  P7_BUILDER      *bld      = NULL;               /* HMM construction configuration                  */
+  ESL_SQ          *qsq      = NULL;               /* query sequence                                  */
+  ESL_KEYHASH     *kh       = NULL;		  /* hash of previous top hits' ranks                */
+  ESL_STOPWATCH   *w        = NULL;               /* for timing                                      */
+  int              nquery   = 0;
+  int              textw;
+  int              iteration;
+  int              maxiterations;
+  int              nnew_targets;
+  int              prv_msa_nseq;
+  int              status   = eslOK;
+  int              qstatus  = eslOK;
+  int              sstatus  = eslOK;
+
+  int              i;
+  int              ncpus    = 0;
+
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  ESL_SQ_BLOCK    *block    = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+
+  /* Initializations */
+  abc           = esl_alphabet_Create(eslAMINO);
+  w             = esl_stopwatch_Create();
+  kh            = esl_keyhash_Create();
+  maxiterations = esl_opt_GetInteger(go, "-N");
+  textw         = (esl_opt_GetBoolean(go, "--notextw") ? 0 : esl_opt_GetInteger(go, "--textw"));
+
+  esl_stopwatch_Start(w);
+
+  /* If caller declared input formats, decode them */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    qformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (qformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  /* Initialize a null model.
+   * The single-sequence P7_BUILDER needs to see this, to construct its probabilities.
+   */
+  bg = p7_bg_Create(abc);
+
+  /* Initialize builder configuration 
+   * Default matrix is stored in the --mx option, so it's always IsOn(). 
+   * Check --mxfile first; then go to the --mx option and the default. 
+   */
+  bld = p7_builder_Create(go, abc);
+  if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg);
+  else                              status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg); 
+  if (status != eslOK) p7_Fail("Failed to set single query seq score system:\n%s\n", bld->errbuf);
+
+  /* Open results output files */
+  if (esl_opt_IsOn(go, "-o")          && (ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)  
+    p7_Fail("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o"));
+  if (esl_opt_IsOn(go, "-A")          &&  (afp      = fopen(esl_opt_GetString(go, "-A"),          "w")) == NULL)  
+    p7_Fail("Failed to open alignment output file %s for writing\n",       esl_opt_GetString(go, "-A"));
+  if (esl_opt_IsOn(go, "--tblout")    && (tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  
+    p7_Fail("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblout"));
+  if (esl_opt_IsOn(go, "--domtblout") && (domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)  
+    p7_Fail("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblout"));
+
+  /* Open the target sequence database for sequential access. */
+  status =  esl_sqfile_OpenDigital(abc, cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+  else if (status == eslEFORMAT)   p7_Fail("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+  
+  if (! esl_sqfile_IsRewindable(dbfp)) 
+    p7_Fail("Target sequence file %s isn't rewindable; jackhmmer requires that it is", cfg->dbfile);
+
+  /* Open the query sequence file  */
+  status = esl_sqfile_OpenDigital(abc, cfg->qfile, qformat, NULL, &qfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",      cfg->qfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",        cfg->qfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail ("Unexpected error %d opening sequence file %s\n", status, cfg->qfile);
+  qsq = esl_sq_CreateDigital(abc);
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                           esl_threads_CPUCount(&ncpus);
+
+  if (ncpus > 0)
+    {
+      threadObj = esl_threads_Create(&pipeline_thread);
+      queue = esl_workqueue_Create(ncpus * 2);
+    }
+#endif
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  /* Ready to begin */
+  output_header(ofp, go, cfg->qfile, cfg->dbfile);
+  
+  for (i = 0; i < infocnt; ++i)
+    {
+      info[i].pli   = NULL;
+      info[i].th    = NULL;
+      info[i].om    = NULL;
+      info[i].bg    = p7_bg_Clone(bg);
+#ifdef HMMER_THREADS
+      info[i].queue = queue;
+#endif
+    }
+
+#ifdef HMMER_THREADS
+  for (i = 0; i < ncpus * 2; ++i)
+    {
+      block = esl_sq_CreateDigitalBlock(BLOCK_SIZE, abc);
+      if (block == NULL) 
+	{
+	  p7_Fail("Failed to allocate sequence block");
+	}
+
+      status = esl_workqueue_Init(queue, block);
+      if (status != eslOK) 
+	{
+	  p7_Fail("Failed to add block to work queue");
+	}
+    }
+#endif
+
+  /* Outer loop over sequence queries, if more than one */
+  while ((qstatus = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      P7_HMM          *hmm     = NULL;	     /* HMM - only needed if checkpointed        */
+      P7_HMM         **ret_hmm = NULL;	     /* HMM - only needed if checkpointed        */
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+      P7_TRACE        *qtr     = NULL;       /* faux trace for query sequence            */
+      ESL_MSA         *msa     = NULL;       /* multiple alignment of included hits      */
+      
+      if (esl_opt_IsOn(go, "--chkhmm")) ret_hmm = &hmm;
+
+      nquery++;
+      if (qsq->n == 0) continue; /* skip zero length queries as if they aren't even present. */
+
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != '\0' && fprintf(ofp, "Accession:   %s\n", qsq->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+      if (qsq->desc[0] != '\0' && fprintf(ofp, "Description: %s\n", qsq->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+      if (fprintf(ofp, "\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      for (iteration = 1; iteration <= maxiterations; iteration++)
+	{       /* We enter each iteration with an optimized profile. */
+	  esl_stopwatch_Start(w);
+
+	  if (om        != NULL) p7_oprofile_Destroy(om);
+	  if (info->pli != NULL) p7_pipeline_Destroy(info->pli);
+	  if (info->th  != NULL) p7_tophits_Destroy(info->th);
+	  if (info->om  != NULL) p7_oprofile_Destroy(info->om);
+
+ 	  /* Create the search model: from query alone (round 1) or from MSA (round 2+) */
+	  if (msa == NULL)	/* round 1 */
+	    {
+	      p7_SingleBuilder(bld, qsq, info[0].bg, ret_hmm, &qtr, NULL, &om); /* bypass HMM - only need model */
+	      prv_msa_nseq = 1;
+	    }
+	  else
+	    {
+	      /* Throw away old model. Build new one. */
+	      status = p7_Builder(bld, msa, info[0].bg, ret_hmm, NULL, NULL, &om, NULL);
+	      if      (status == eslENORESULT) p7_Fail("Failed to construct new model from iteration %d results:\n%s", iteration, bld->errbuf);
+	      else if (status == eslEFORMAT)   p7_Fail("Failed to construct new model from iteration %d results:\n%s", iteration, bld->errbuf);
+	      else if (status != eslOK)        p7_Fail("Unexpected error constructing new model at iteration %d:",     iteration);
+
+	      if (fprintf(ofp, "@@\n")                                               < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+	      if (fprintf(ofp, "@@ Round:                  %d\n", iteration)         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+		  if (fprintf(ofp, "@@ Included in MSA:        %d subsequences (query + %d subseqs from %d targets)\n",
+		      msa->nseq, msa->nseq-1, kh->nkeys)                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@ Model size:             %d positions\n", om->M)   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@\n\n")                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+	      prv_msa_nseq = msa->nseq;
+	      esl_msa_Destroy(msa);
+	    }
+
+	  /* HMM checkpoint output */
+	  if (esl_opt_IsOn(go, "--chkhmm")) {
+	    checkpoint_hmm(nquery, hmm, esl_opt_GetString(go, "--chkhmm"), iteration);
+	    p7_hmm_Destroy(hmm);
+	    hmm = NULL;
+	  }
+
+	  /* Create new processing pipeline and top hits list; destroy old. (TODO: reuse rather than recreate) */
+	  for (i = 0; i < infocnt; ++i)
+	    {
+	      info[i].th  = p7_tophits_Create();
+	      info[i].om  = p7_oprofile_Clone(om);
+	      info[i].pli = p7_pipeline_Create(go, om->M, 400, FALSE, p7_SEARCH_SEQS); /* 400 is a dummy length for now */
+	      p7_pli_NewModel(info[i].pli, info[i].om, info[i].bg);
+
+#ifdef HMMER_THREADS
+	      if (ncpus > 0) esl_threads_AddThread(threadObj, &info[i]);
+#endif
+	    }
+
+#ifdef HMMER_THREADS
+	  if (ncpus > 0) sstatus = thread_loop(threadObj, queue, dbfp);
+	  else           sstatus = serial_loop(info, dbfp);
+#else
+	  sstatus = serial_loop(info, dbfp);
+#endif
+	  switch(sstatus)
+	    {
+	    case eslEFORMAT:
+	      p7_Fail("Parse failed (sequence file %s):\n%s\n",
+			dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+	      break;
+	    case eslEOF:
+	      /* do nothing */
+	      break;
+	    default:
+	      p7_Fail("Unexpected error %d reading sequence file %s",
+			sstatus, dbfp->filename);
+	    }
+
+	  /* merge the results of the search results */
+	  for (i = 1; i < infocnt; ++i)
+	    {
+	      p7_tophits_Merge(info[0].th, info[i].th);
+	      p7_pipeline_Merge(info[0].pli, info[i].pli);
+
+	      p7_pipeline_Destroy(info[i].pli);
+	      p7_tophits_Destroy(info[i].th);
+	      p7_oprofile_Destroy(info[i].om);
+	    }
+
+	  /* Print the results. */
+	  p7_tophits_SortBySortkey(info->th);
+	  p7_tophits_Threshold(info->th, info->pli);
+	  p7_tophits_CompareRanking(info->th, kh, &nnew_targets);
+	  p7_tophits_Targets(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  p7_tophits_Domains(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+	  /* Create alignment of the top hits */
+	  /* <&qsq, &qtr, 1> included in p7_tophits_Alignment args here => initial query is added to the msa at each round. */
+	  p7_tophits_Alignment(info->th, abc, &qsq, &qtr, 1, p7_ALL_CONSENSUS_COLS, &msa);
+	  esl_msa_Digitize(abc,msa,NULL);
+	  esl_msa_FormatName(msa, "%s-i%d", qsq->name, iteration);
+
+	  /* Optional checkpointing */
+	  if (esl_opt_IsOn(go, "--chkali")) checkpoint_msa(nquery, msa, esl_opt_GetString(go, "--chkali"), iteration);
+
+	  esl_stopwatch_Stop(w);
+	  p7_pli_Statistics(ofp, info->pli, w);
+
+
+	  /* Convergence test */
+	  if (fprintf(ofp, "\n")                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  if (fprintf(ofp, "@@ New targets included:   %d\n", nnew_targets)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  if (fprintf(ofp, "@@ New alignment includes: %d subseqs (was %d), including original query\n",
+		  msa->nseq, prv_msa_nseq)                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  if (nnew_targets == 0 && msa->nseq <= prv_msa_nseq)
+	    {
+	      if (fprintf(ofp, "@@\n")                                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@ CONVERGED (in %d rounds). \n", iteration) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@\n\n")                                     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      break;
+	    }
+	  else if (iteration < maxiterations)
+	    { if (fprintf(ofp, "@@ Continuing to next round.\n\n")           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+	  esl_sqfile_Position(dbfp, 0);
+	} /* end iteration loop */
+
+      /* Because we destroy/create the hitlist, om, pipeline, and msa above, rather than create/destroy,
+       * the results of the last iteration have carried through to us now, and we can output
+       * whatever final results we care to.
+       */
+      if (tblfp)    p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (domtblfp) p7_tophits_TabularDomains(domtblfp, qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (afp) 
+	{
+	  if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+	  else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+
+	  if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	}
+      if (fprintf(ofp, "//\n")  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      p7_pipeline_Destroy(info->pli);
+      p7_tophits_Destroy(info->th);
+      p7_oprofile_Destroy(info->om);
+
+      info->pli = NULL;
+      info->th  = NULL;
+      info->om  = NULL;
+
+      esl_msa_Destroy(msa);
+      p7_oprofile_Destroy(om);
+      p7_trace_Destroy(qtr);
+      esl_sq_Reuse(qsq);
+      esl_keyhash_Reuse(kh);
+      esl_sqfile_Position(dbfp, 0);
+    }
+  if      (qstatus == eslEFORMAT) p7_Fail("Parse failed (sequence file %s):\n%s\n",
+					    qfp->filename, esl_sqfile_GetErrorBuf(qfp));
+  else if (qstatus != eslEOF)     p7_Fail("Unexpected error %d reading sequence file %s",
+					    qstatus, qfp->filename);
+
+  /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "jackhmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp, "jackhmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (ofp &&    fprintf(ofp, "[ok]\n")  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  /* Cleanup - prepare for successful exit
+   */
+  for (i = 0; i < infocnt; ++i)
+    p7_bg_Destroy(info[i].bg);
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)
+    {
+      esl_workqueue_Reset(queue);
+      while (esl_workqueue_Remove(queue, (void **) &block) == eslOK)
+	esl_sq_DestroyBlock(block);
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+    }
+#endif
+
+  free(info);
+
+  esl_keyhash_Destroy(kh);
+  esl_sqfile_Close(qfp);
+  esl_sqfile_Close(dbfp);
+  esl_sq_Destroy(qsq);  
+  esl_stopwatch_Destroy(w);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+
+  if (ofp      != stdout) fclose(ofp);
+  if (afp      != NULL)   fclose(afp);
+  if (tblfp    != NULL)   fclose(tblfp);
+  if (domtblfp != NULL)   fclose(domtblfp);
+
+  return eslOK;
+
+ ERROR:
+  return eslFAIL;
+}
+
+#ifdef HAVE_MPI
+
+/* Define common tags used by the MPI master/slave processes */
+#define HMMER_ERROR_TAG          1
+#define HMMER_HMM_TAG            2
+#define HMMER_SEQUENCE_TAG       3
+#define HMMER_BLOCK_TAG          4
+#define HMMER_PIPELINE_TAG       5
+#define HMMER_TOPHITS_TAG        6
+#define HMMER_HIT_TAG            7
+#define HMMER_TERMINATING_TAG    8
+#define HMMER_READY_TAG          9
+#define HMMER_SETUP_READY_TAG   10
+#define HMMER_OPROFILE_TAG      11
+#define HMMER_CONTINUE_TAG      12
+
+char *HMM_TAG_STR[] = {
+  "",
+  "HMMER_ERROR_TAG",
+  "HMMER_HMM_TAG",
+  "HMMER_SEQUENCE_TAG",
+  "HMMER_BLOCK_TAG",
+  "HMMER_PIPELINE_TAG",
+  "HMMER_TOPHITS_TAG",
+  "HMMER_HIT_TAG",
+  "HMMER_TERMINATING_TAG",
+  "HMMER_READY_TAG",
+  "HMMER_SETUP_READY_TAG",
+  "HMMER_OPROFILE_TAG",
+  "HMMER_CONTINUE_TAG",
+};
+
+/* mpi_failure()
+ * Generate an error message.  If the clients rank is not 0, a
+ * message is created with the error message and sent to the
+ * master process for handling.
+ */
+static void
+mpi_failure(char *format, ...)
+{
+  va_list  argp;
+  int      status = eslFAIL;
+  int      len;
+  int      rank;
+  char     str[512];
+
+  MPI_Comm_rank(MPI_COMM_WORLD, &rank);
+
+  /* format the error mesg */
+  va_start(argp, format);
+  len = vsnprintf(str, sizeof(str), format, argp);
+  va_end(argp);
+
+  /* make sure the error string is terminated */
+  str[sizeof(str)-1] = '\0';
+
+  /* if the caller is the master, print the results and abort */
+  if (rank == 0)
+    {
+      if (fprintf(stderr, "\nError: ") < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "%s", str)   < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "\n")        < 0) exit(eslEWRITE);
+      fflush(stderr);
+
+      MPI_Abort(MPI_COMM_WORLD, status);
+      exit(1);
+    }
+  else
+    {
+      MPI_Send(str, len, MPI_CHAR, 0, HMMER_ERROR_TAG, MPI_COMM_WORLD);
+      pause();
+    }
+}
+
+#define MAX_BLOCK_SIZE (512*1024)
+
+typedef struct {
+  uint64_t  offset;
+  uint64_t  length;
+  uint64_t  count;
+} SEQ_BLOCK;
+
+typedef struct {
+  int        complete;
+  int        size;
+  int        current;
+  int        last;
+  SEQ_BLOCK *blocks;
+} BLOCK_LIST;
+
+/* this routine parses the database keeping track of the blocks
+ * offset within the file, number of sequences and the length
+ * of the block.  These blocks are passed as work units to the
+ * MPI workers.  If multiple hmm's are in the query file, the
+ * blocks are reused without parsing the database a second time.
+ */
+int next_block(ESL_SQFILE *sqfp, ESL_SQ *sq, BLOCK_LIST *list, SEQ_BLOCK *block)
+{
+  int      status   = eslOK;
+
+  /* if the list has been calculated, use it instead of parsing the database */
+  if (list->complete)
+    {
+      if (list->current == list->last)
+	{
+	  block->offset = 0;
+	  block->length = 0;
+	  block->count  = 0;
+
+	  status = eslEOF;
+	}
+      else
+	{
+	  int inx = list->current++;
+
+	  block->offset = list->blocks[inx].offset;
+	  block->length = list->blocks[inx].length;
+	  block->count  = list->blocks[inx].count;
+
+	  status = eslOK;
+	}
+
+      return status;
+    }
+
+  block->offset = 0;
+  block->length = 0;
+  block->count = 0;
+
+  esl_sq_Reuse(sq);
+  while (block->length < MAX_BLOCK_SIZE && (status = esl_sqio_ReadInfo(sqfp, sq)) == eslOK)
+    {
+      if (block->count == 0) block->offset = sq->roff;
+      block->length = sq->eoff - block->offset + 1;
+      block->count++;
+      esl_sq_Reuse(sq);
+    }
+
+  if (status == eslEOF && block->count > 0) status = eslOK;
+  if (status == eslEOF)
+    {
+      list->complete = 1;
+      list->current  = list->last;
+    }
+
+  /* add the block to the list of known blocks */
+  if (status == eslOK)
+    {
+      int inx;
+
+      if (list->last >= list->size)
+	{
+	  void *tmp;
+	  list->size += 500;
+	  ESL_RALLOC(list->blocks, tmp, sizeof(SEQ_BLOCK) * list->size);
+	}
+
+      inx = list->last++;
+      list->blocks[inx].offset = block->offset;
+      list->blocks[inx].length = block->length;
+      list->blocks[inx].count  = block->count;
+    }
+
+  return status;
+
+ ERROR:
+  return eslEMEM;
+}
+
+/* mpi_master()
+ * The MPI version of hmmbuild.
+ * Follows standard pattern for a master/worker load-balanced MPI program (J1/78-79).
+ * 
+ * A master can only return if it's successful. 
+ * Errors in an MPI master come in two classes: recoverable and nonrecoverable.
+ * 
+ * Recoverable errors include all worker-side errors, and any
+ * master-side error that do not affect MPI communication. Error
+ * messages from recoverable messages are delayed until we've cleanly
+ * shut down the workers.
+ * 
+ * Unrecoverable errors are master-side errors that may affect MPI
+ * communication, meaning we cannot count on being able to reach the
+ * workers and shut them down. Unrecoverable errors result in immediate
+ * p7_Fail()'s, which will cause MPI to shut down the worker processes
+ * uncleanly.
+ */
+static int
+mpi_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;             /* output file for results (default stdout)        */
+  FILE            *afp      = NULL;               /* alignment output file (-A option)               */
+  FILE            *tblfp    = NULL;		  /* output stream for tabular per-seq (--tblout)    */
+  FILE            *domtblfp = NULL;		  /* output stream for tabular per-seq (--domtblout) */
+  int              qformat  = eslSQFILE_UNKNOWN;  /* format of qfile                                 */
+  int              dbformat = eslSQFILE_UNKNOWN;  /* format of dbfile                                */
+  ESL_SQFILE      *qfp      = NULL;		  /* open qfile                                      */
+  ESL_SQFILE      *dbfp     = NULL;               /* open dbfile                                     */
+  ESL_ALPHABET    *abc      = NULL;               /* sequence alphabet                               */
+  P7_BG           *bg       = NULL;               /* null model                                      */
+  P7_BUILDER      *bld      = NULL;               /* HMM construction configuration                  */
+  ESL_SQ          *qsq      = NULL;               /* query sequence                                  */
+  ESL_SQ          *dbsq     = NULL;               /* target sequence                                 */
+  ESL_KEYHASH     *kh       = NULL;		  /* hash of previous top hits' ranks                */
+  ESL_STOPWATCH   *w        = NULL;               /* for timing                                      */
+  int              nquery   = 0;
+  int              textw;
+  int              iteration;
+  int              maxiterations;
+  int              nnew_targets;
+  int              prv_msa_nseq;
+  int              status   = eslOK;
+  int              qstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              dest;
+  int              tag;
+
+  char            *mpi_buf  = NULL;               /* buffer used to pack/unpack structures            */
+  int              mpi_size = 0;                  /* size of the allocated buffer                     */
+  BLOCK_LIST      *list     = NULL;
+  SEQ_BLOCK        block;
+
+  int              i;
+  int              size;
+  int              done;
+  MPI_Status       mpistatus;
+
+  /* Initializations */
+  abc           = esl_alphabet_Create(eslAMINO);
+  w             = esl_stopwatch_Create();
+  kh            = esl_keyhash_Create();
+  maxiterations = esl_opt_GetInteger(go, "-N");
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+  esl_stopwatch_Start(w);
+
+  /* If caller declared input formats, decode them */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    qformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (qformat == eslSQFILE_UNKNOWN) mpi_failure("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) mpi_failure("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  bg    = p7_bg_Create(abc);
+
+  /* Initialize builder configuration */
+  bld = p7_builder_Create(go, abc);
+  /* Default is stored in the --mx option, so it's always IsOn(). Check --mxfile first; then go to the --mx option and the default. */
+  if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg);
+  else                              status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg); 
+  if (status != eslOK) mpi_failure("Failed to set single query seq score system:\n%s\n", bld->errbuf);
+
+  /* Open results output files */
+  if (esl_opt_IsOn(go, "-o")          && (ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)  
+    mpi_failure("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o"));
+  if (esl_opt_IsOn(go, "-A")          &&  (afp      = fopen(esl_opt_GetString(go, "-A"),          "w")) == NULL)  
+    mpi_failure("Failed to open alignment output file %s for writing\n",       esl_opt_GetString(go, "-A"));
+  if (esl_opt_IsOn(go, "--tblout")    && (tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  
+    mpi_failure("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblfp"));
+  if (esl_opt_IsOn(go, "--domtblout") && (domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)  
+    mpi_failure("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblfp"));
+
+  /* Open the target sequence database for sequential access. */
+  status =  esl_sqfile_OpenDigital(abc, cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+  else if (status == eslEFORMAT)   mpi_failure("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+  dbsq = esl_sq_CreateDigital(abc);
+  
+  if (! esl_sqfile_IsRewindable(dbfp)) 
+    mpi_failure("Target sequence file %s isn't rewindable; jackhmmer requires that it is", cfg->dbfile);
+
+  /* Open the query sequence file  */
+  status = esl_sqfile_OpenDigital(abc, cfg->qfile, qformat, NULL, &qfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",      cfg->qfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",        cfg->qfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure ("Unexpected error %d opening sequence file %s\n", status, cfg->qfile);
+  qsq = esl_sq_CreateDigital(abc);
+
+  ESL_ALLOC(list, sizeof(SEQ_BLOCK));
+  list->complete = 0;
+  list->size     = 0;
+  list->current  = 0;
+  list->last     = 0;
+  list->blocks   = NULL;
+
+  /* Ready to begin */
+  output_header(ofp, go, cfg->qfile, cfg->dbfile);
+
+  /* Outer loop over sequence queries, if more than one */
+  while ((qstatus = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      P7_PIPELINE     *pli     = NULL;	     /* accelerated HMM/seq comparison pipeline  */
+      P7_TOPHITS      *th      = NULL;       /* top-scoring sequence hits                */
+      P7_HMM          *hmm     = NULL;	     /* HMM - only needed if checkpointed        */
+      P7_HMM         **ret_hmm = NULL;	     /* HMM - only needed if checkpointed        */
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+      P7_TRACE        *qtr     = NULL;       /* faux trace for query sequence            */
+      ESL_MSA         *msa     = NULL;       /* multiple alignment of included hits      */
+      
+      if (esl_opt_IsOn(go, "--chkhmm")) ret_hmm = &hmm;
+
+      nquery++;
+      if (qsq->n == 0) continue; /* skip zero length queries as if they aren't even present. */
+
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != '\0' && fprintf(ofp, "Accession:   %s\n", qsq->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->desc[0] != '\0' && fprintf(ofp, "Description: %s\n", qsq->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+      if (fprintf(ofp, "\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      for (iteration = 1; iteration <= maxiterations; iteration++)
+	{       /* We enter each iteration with an optimized profile. */
+	  esl_stopwatch_Start(w);
+
+	  list->current = 0;
+
+	  if (pli != NULL) p7_pipeline_Destroy(pli);
+	  if (th  != NULL) p7_tophits_Destroy(th);
+	  if (om  != NULL) p7_oprofile_Destroy(om);
+
+ 	  /* Create the search model: from query alone (round 1) or from MSA (round 2+) */
+	  if (msa == NULL)	/* round 1 */
+	    {
+	      p7_SingleBuilder(bld, qsq, bg, ret_hmm, &qtr, NULL, &om); /* bypass HMM - only need model */
+
+	      prv_msa_nseq = 1;
+	    }
+	  else
+	    {
+	      /* Throw away old model. Build new one. */
+	      status = p7_Builder(bld, msa, bg, ret_hmm, NULL, NULL, &om, NULL);
+	      if      (status == eslENORESULT) mpi_failure("Failed to construct new model from iteration %d results:\n%s", iteration, bld->errbuf);
+	      else if (status == eslEFORMAT)   mpi_failure("Failed to construct new model from iteration %d results:\n%s", iteration, bld->errbuf);
+	      else if (status != eslOK)        mpi_failure("Unexpected error constructing new model at iteration %d:",     iteration);
+
+	      if (fprintf(ofp, "@@\n")                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@ Round:                  %d\n", iteration)       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@ Included in MSA:        %d subsequences (query + %d subseqs from %d targets)\n",
+			  msa->nseq, msa->nseq-1, kh->nkeys)                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@ Model size:             %d positions\n", om->M) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@\n\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+	      prv_msa_nseq = msa->nseq;
+	      esl_msa_Destroy(msa);
+	    }
+
+	  /* HMM checkpoint output */
+	  if (esl_opt_IsOn(go, "--chkhmm")) {
+	    checkpoint_hmm(nquery, hmm, esl_opt_GetString(go, "--chkhmm"), iteration);
+	    p7_hmm_Destroy(hmm);
+	    hmm = NULL;
+	  }
+
+	  /* Create new processing pipeline and top hits list; destroy old. (TODO: reuse rather than recreate) */
+	  th  = p7_tophits_Create();
+	  pli = p7_pipeline_Create(go, om->M, 400, FALSE, p7_SEARCH_SEQS); /* 400 is a dummy length for now */
+	  p7_pli_NewModel(pli, om, bg);
+
+	  /* Send to all the workers the optimized model to search with */
+	  done = 1;
+	  while (done < cfg->nproc)
+	    {
+	      P7_PIPELINE     *mpi_pli   = NULL;
+	      P7_TOPHITS      *mpi_th    = NULL;
+
+	      if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0)
+		mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+	      tag  = mpistatus.MPI_TAG;
+	      dest = mpistatus.MPI_SOURCE;
+
+	      if (tag == HMMER_TOPHITS_TAG)
+		{
+		  status = p7_tophits_MPIRecv(dest, HMMER_TOPHITS_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, &mpi_th);
+		  if (status != eslOK) mpi_failure("Unexpected error %d receiving tophits from %d", status, dest);
+		  p7_tophits_Merge(th, mpi_th);
+		  p7_tophits_Destroy(mpi_th);
+		}
+	      else if (tag == HMMER_PIPELINE_TAG)
+		{
+		  status = p7_pipeline_MPIRecv(dest, HMMER_PIPELINE_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, go, &mpi_pli);
+		  if (status != eslOK) mpi_failure("Unexpected error %d receiving pipeline from %d", status, dest);
+		  p7_pipeline_Merge(pli, mpi_pli);
+		  p7_pipeline_Destroy(mpi_pli);
+
+		  /* after the pipeline message, the worker is done and waiting */
+		  ++done;
+		}
+	      else
+		{
+		  MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+		  if (mpi_buf == NULL || size > mpi_size) {
+		    void *tmp;
+		    ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+		    mpi_size = size;
+		  }
+
+		  MPI_Recv(mpi_buf, size, MPI_PACKED, dest, tag, MPI_COMM_WORLD, &mpistatus);
+
+		  switch(tag) {
+		  case HMMER_ERROR_TAG:
+		    mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+		    break;
+		  case HMMER_SETUP_READY_TAG:
+		    status = p7_oprofile_MPISend(om, dest, HMMER_OPROFILE_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size);
+		    if (status != eslOK) mpi_failure("Failed to send optimized model to %d\n", dest);
+		    break;
+		  case HMMER_READY_TAG:
+		    sstatus = next_block(dbfp, dbsq, list, &block);
+		    if (sstatus == eslOK || sstatus == eslEOF)
+		      {
+			MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+		      }
+		    else if (sstatus == eslEFORMAT)
+		      {
+			mpi_failure("Parse failed (sequence file %s):\n%s\n",
+				    dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+		      }
+		    else
+		      {
+			mpi_failure("Unexpected error %d reading sequence file %s", sstatus, dbfp->filename);
+		      }
+		    break;
+		  default:
+		    mpi_failure("Unexpected tag %d from %d\n", tag, dest);
+		    break;
+		  }
+		}
+	    }
+
+	  /* Print the results. */
+	  p7_tophits_SortBySortkey(th);
+	  p7_tophits_Threshold(th, pli);
+	  p7_tophits_CompareRanking(th, kh, &nnew_targets);
+	  p7_tophits_Targets(ofp, th, pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  p7_tophits_Domains(ofp, th, pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+	  /* Create alignment of the top hits */
+	  p7_tophits_Alignment(th, abc, &qsq, &qtr, 1, p7_ALL_CONSENSUS_COLS, &msa);
+	  esl_msa_Digitize(abc,msa,NULL);
+	  esl_msa_FormatName(msa, "%s-i%d", qsq->name, iteration);
+
+	  /* Optional checkpointing */
+	  if (esl_opt_IsOn(go, "--chkali")) checkpoint_msa(nquery, msa, esl_opt_GetString(go, "--chkali"), iteration);
+
+	  esl_stopwatch_Stop(w);
+	  p7_pli_Statistics(ofp, pli, w);
+
+	  /* Convergence test */
+	  if (fprintf(ofp, "\n")                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  if (fprintf(ofp, "@@ New targets included:   %d\n", nnew_targets)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  if (fprintf(ofp, "@@ New alignment includes: %d subseqs (was %d), including original query\n",
+		      msa->nseq, prv_msa_nseq)                               < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  if (nnew_targets == 0 && msa->nseq <= prv_msa_nseq)
+	    {
+	      if (fprintf(ofp, "@@\n")                                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@ CONVERGED (in %d rounds). \n", iteration) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      if (fprintf(ofp, "@@\n\n")                                     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	      break;
+	    }
+	  else if (iteration < maxiterations)
+	    {
+	      if (fprintf(ofp, "@@ Continuing to next round.\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+	      /* send all the workers a CONTINUE signal */
+	      for (dest = 1; dest < cfg->nproc; ++dest)
+		{
+		  status = eslOK;
+		  MPI_Send(&status, 1, MPI_INT, dest, HMMER_CONTINUE_TAG, MPI_COMM_WORLD);
+		}
+	    }
+	} /* end iteration loop */
+
+      /* send all the workers a CONTINUE signal */
+      for (dest = 1; dest < cfg->nproc; ++dest)
+	{
+	  status = eslEOD;
+	  MPI_Send(&status, 1, MPI_INT, dest, HMMER_CONTINUE_TAG, MPI_COMM_WORLD);
+	}
+
+      /* Because we destroy/create the hitlist, om, pipeline, and msa above, rather than create/destroy,
+       * the results of the last iteration have carried through to us now, and we can output
+       * whatever final results we care to.
+       */
+      if (tblfp)    p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, th, pli, (nquery == 1));
+      if (domtblfp) p7_tophits_TabularDomains(domtblfp, qsq->name, qsq->acc, th, pli, (nquery == 1));
+      if (afp) 
+	{
+	  if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+	  else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+
+	  if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	}
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      p7_pipeline_Destroy(pli);
+      p7_tophits_Destroy(th);
+      p7_oprofile_Destroy(om);
+
+      esl_msa_Destroy(msa);
+      p7_trace_Destroy(qtr);
+      esl_sq_Reuse(qsq);
+      esl_keyhash_Reuse(kh);
+      esl_sqfile_Position(dbfp, 0);
+    }
+  if      (qstatus == eslEFORMAT) mpi_failure("Parse failed (sequence file %s):\n%s\n",
+					    qfp->filename, esl_sqfile_GetErrorBuf(qfp));
+  else if (qstatus != eslEOF)     mpi_failure("Unexpected error %d reading sequence file %s",
+					    qstatus, qfp->filename);
+
+  /* monitor all the workers to make sure they have ended */
+  for (i = 1; i < cfg->nproc; ++i)
+    {
+      if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+      MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+      if (mpi_buf == NULL || size > mpi_size) {
+	void *tmp;
+	ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	mpi_size = size;
+      }
+
+      dest = mpistatus.MPI_SOURCE;
+      MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+      if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+      if (mpistatus.MPI_TAG != HMMER_TERMINATING_TAG)
+	mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+    }
+
+
+  /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "jackhmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp, "jackhmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (ofp &&    fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  /* Cleanup - prepare for successful exit  */
+  free(list);
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_bg_Destroy(bg);
+  esl_keyhash_Destroy(kh);
+  esl_sqfile_Close(qfp);
+  esl_sqfile_Close(dbfp);
+  esl_sq_Destroy(dbsq);
+  esl_sq_Destroy(qsq);  
+  esl_stopwatch_Destroy(w);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+
+  if (ofp      != stdout) fclose(ofp);
+  if (afp      != NULL)   fclose(afp);
+  if (tblfp    != NULL)   fclose(tblfp);
+  if (domtblfp != NULL)   fclose(domtblfp);
+
+  return eslOK;
+
+ ERROR:
+  return eslFAIL;
+}
+
+
+static int
+mpi_worker(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int              qformat  = eslSQFILE_UNKNOWN;  /* format of qfile                                 */
+  int              dbformat = eslSQFILE_UNKNOWN;  /* format of dbfile                                */
+  ESL_SQFILE      *qfp      = NULL;		  /* open qfile                                      */
+  ESL_SQFILE      *dbfp     = NULL;               /* open dbfile                                     */
+  ESL_ALPHABET    *abc      = NULL;               /* sequence alphabet                               */
+  P7_BG           *bg       = NULL;               /* null model                                      */
+  P7_BUILDER      *bld      = NULL;               /* HMM construction configuration                  */
+  ESL_SQ          *qsq      = NULL;               /* query sequence                                  */
+  ESL_SQ          *dbsq     = NULL;               /* target sequence                                 */
+  ESL_KEYHASH     *kh       = NULL;		  /* hash of previous top hits' ranks                */
+  ESL_STOPWATCH   *w        = NULL;               /* for timing                                      */
+  int              iteration;
+  int              maxiterations;
+  int              status   = eslOK;
+  int              qstatus  = eslOK;
+  int              sstatus  = eslOK;
+
+  char            *mpi_buf  = NULL;               /* buffer used to pack/unpack structures            */
+  int              mpi_size = 0;                  /* size of the allocated buffer                     */
+
+  MPI_Status       mpistatus;
+
+  /* Initializations */
+  abc           = esl_alphabet_Create(eslAMINO);
+  w             = esl_stopwatch_Create();
+  kh            = esl_keyhash_Create();
+  maxiterations = esl_opt_GetInteger(go, "-N");
+
+  esl_stopwatch_Start(w);
+
+  /* If caller declared input formats, decode them */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    qformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (qformat == eslSQFILE_UNKNOWN) mpi_failure("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) mpi_failure("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  bg = p7_bg_Create(abc);
+
+  /* Initialize builder configuration */
+  bld = p7_builder_Create(go, abc);
+  if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg);
+  else                              status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg); 
+  if (status != eslOK) mpi_failure("Failed to set single query seq score system:\n%s\n", bld->errbuf);
+
+  /* Open the target sequence database for sequential access. */
+  status =  esl_sqfile_OpenDigital(abc, cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+  else if (status == eslEFORMAT)   mpi_failure("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+  dbsq = esl_sq_CreateDigital(abc);
+  
+  if (! esl_sqfile_IsRewindable(dbfp)) 
+    mpi_failure("Target sequence file %s isn't rewindable; jackhmmer requires that it is", cfg->dbfile);
+
+  /* Open the query sequence file  */
+  status = esl_sqfile_OpenDigital(abc, cfg->qfile, qformat, NULL, &qfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",      cfg->qfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",        cfg->qfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure ("Unexpected error %d opening sequence file %s\n", status, cfg->qfile);
+  qsq = esl_sq_CreateDigital(abc);
+
+  /* Outer loop over sequence queries, if more than one */
+  while ((qstatus = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      P7_PIPELINE     *pli     = NULL;	     /* accelerated HMM/seq comparison pipeline  */
+      P7_TOPHITS      *th      = NULL;       /* top-scoring sequence hits                */
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+      P7_TRACE        *qtr     = NULL;       /* faux trace for query sequence            */
+      
+      SEQ_BLOCK        block;
+
+      if (qsq->n == 0) continue; /* skip zero length queries as if they aren't even present. */
+
+      iteration = 1;
+      while (iteration > 0) 
+	{       /* We enter each iteration with an optimized profile. */
+	  esl_stopwatch_Start(w);
+
+	  status = 0;
+	  MPI_Send(&status, 1, MPI_INT, 0, HMMER_SETUP_READY_TAG, MPI_COMM_WORLD);
+
+ 	  /* Receive the search model from the master */
+	  status = p7_oprofile_MPIRecv(0, HMMER_OPROFILE_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, &abc, &om);
+
+	  /* check the status of the oprofile */
+	  if (status != eslOK)  mpi_failure("Error %d receiving optimized model on iteration %d\n", status, iteration);
+	  if (iteration > maxiterations) mpi_failure("Iteration %d exceeds max iterations of %d\n", iteration, maxiterations);
+
+	  status = 0;
+	  MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+	  /* Create new processing pipeline and top hits list; destroy old. (TODO: reuse rather than recreate) */
+	  th  = p7_tophits_Create();
+	  pli = p7_pipeline_Create(go, om->M, 400, FALSE, p7_SEARCH_SEQS); /* 400 is a dummy length for now */
+	  p7_pli_NewModel(pli, om, bg);
+
+	  /* receive a sequence block from the master */
+	  MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+	  while (block.count > 0)
+	    {
+	      uint64_t length = 0;
+	      uint64_t count  = block.count;
+
+	      status = esl_sqfile_Position(dbfp, block.offset);
+	      if (status != eslOK) mpi_failure("Cannot position sequence database to %ld\n", block.offset);
+
+	      while (count > 0 && (sstatus = esl_sqio_Read(dbfp, dbsq)) == eslOK)
+		{
+		  length = dbsq->eoff - block.offset + 1;
+
+		  p7_pli_NewSeq(pli, dbsq);
+		  p7_bg_SetLength(bg, dbsq->n);
+		  p7_oprofile_ReconfigLength(om, dbsq->n);
+      
+		  p7_Pipeline(pli, om, bg, dbsq, th);
+
+		  esl_sq_Reuse(dbsq);
+		  p7_pipeline_Reuse(pli);
+
+		  --count;
+		}
+
+	      /* lets do a little bit of sanity checking here to make sure the blocks are the same */
+	      if (count > 0)              mpi_failure("Block count mismatch - expected %ld found %ld at offset %ld\n",  block.count,  block.count - count, block.offset);
+	      if (block.length != length) mpi_failure("Block length mismatch - expected %ld found %ld at offset %ld\n", block.length, length,              block.offset);
+
+	      /* inform the master we need another block of sequences */
+	      status = 0;
+	      MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+	      /* wait for the next block of sequences */
+	      MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+	    }
+
+	  esl_stopwatch_Stop(w);
+
+	  /* Send the top hits back to the master. */
+	  p7_tophits_MPISend(th, 0, HMMER_TOPHITS_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+	  p7_pipeline_MPISend(pli, 0, HMMER_PIPELINE_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+
+	  if (om  != NULL) p7_oprofile_Destroy(om);
+	  if (pli != NULL) p7_pipeline_Destroy(pli);
+	  if (th  != NULL) p7_tophits_Destroy(th);
+
+	  /* wait until the master lets us continue */
+	  MPI_Recv(&status, 1, MPI_INT, 0, HMMER_CONTINUE_TAG, MPI_COMM_WORLD, &mpistatus);
+	  iteration = (status == eslOK) ? iteration+1 : 0;
+	} /* end iteration loop */
+
+      p7_trace_Destroy(qtr);
+      esl_sq_Reuse(qsq);
+      esl_keyhash_Reuse(kh);
+      esl_sqfile_Position(dbfp, 0);
+    }
+  if      (qstatus == eslEFORMAT) mpi_failure("Parse failed (sequence file %s):\n%s\n",
+					      qfp->filename, esl_sqfile_GetErrorBuf(qfp));
+  else if (qstatus != eslEOF)     mpi_failure("Unexpected error %d reading sequence file %s",
+					    qstatus, qfp->filename);
+
+  status = 0;
+  MPI_Send(&status, 1, MPI_INT, 0, HMMER_TERMINATING_TAG, MPI_COMM_WORLD);
+
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_bg_Destroy(bg);
+  esl_keyhash_Destroy(kh);
+  esl_sqfile_Close(qfp);
+  esl_sqfile_Close(dbfp);
+  esl_sq_Destroy(dbsq);
+  esl_sq_Destroy(qsq);  
+  esl_stopwatch_Destroy(w);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*HAVE_MPI*/
+
+
+/* checkpoint_hmm()
+ *
+ * Purpose:   Save <hmm> to a file <basename>-<iteration>.hmm.
+ *            If <nquery == 1>, start a new checkpoint file;
+ *            for <nquery > 1>, append to existing one.
+ */
+static void
+checkpoint_hmm(int nquery, P7_HMM *hmm, char *basename, int iteration)
+{
+  FILE *fp         = NULL;
+  char *filename   = NULL;
+
+  esl_sprintf(&filename, "%s-%d.hmm", basename, iteration);
+  if (nquery == 1) { if ((fp = fopen(filename, "w")) == NULL) p7_Fail("Failed to open HMM checkpoint file %s for writing\n", filename); }
+  else             { if ((fp = fopen(filename, "a")) == NULL) p7_Fail("Failed to open HMM checkpoint file %s for append\n",  filename); }
+  p7_hmmfile_WriteASCII(fp, -1, hmm);
+  
+  fclose(fp);
+  free(filename);
+  return;
+}
+
+
+/* checkpoint_msa()
+ *
+ * Purpose:   Save <msa> to a file <basename>-<iteration>.sto.
+ *            If <nquery == 1>, start a new checkpoint file;
+ *            for <nquery > 1>, append to existing one.
+ */
+static void
+checkpoint_msa(int nquery, ESL_MSA *msa, char *basename, int iteration)
+{
+  FILE *fp         = NULL;
+  char *filename   = NULL;
+
+  esl_sprintf(&filename, "%s-%d.sto", basename, iteration);
+  if (nquery == 1) { if ((fp = fopen(filename, "w")) == NULL) p7_Fail("Failed to open MSA checkpoint file %s for writing\n", filename); }
+  else             { if ((fp = fopen(filename, "a")) == NULL) p7_Fail("Failed to open MSA checkpoint file %s for append\n",  filename); }
+  eslx_msafile_Write(fp, msa, eslMSAFILE_PFAM);
+  
+  fclose(fp);
+  free(filename);
+  return;
+
+}
+
+static int
+serial_loop(WORKER_INFO *info, ESL_SQFILE *dbfp)
+{
+  int      sstatus;
+  ESL_SQ   *dbsq     = NULL;   /* one target sequence (digital)  */
+
+  dbsq = esl_sq_CreateDigital(info->om->abc);
+
+  /* Main loop: */
+  while ((sstatus = esl_sqio_Read(dbfp, dbsq)) == eslOK)
+    {
+      p7_pli_NewSeq(info->pli, dbsq);
+      p7_bg_SetLength(info->bg, dbsq->n);
+      p7_oprofile_ReconfigLength(info->om, dbsq->n);
+      
+      p7_Pipeline(info->pli, info->om, info->bg, dbsq, info->th);
+
+      esl_sq_Reuse(dbsq);
+      p7_pipeline_Reuse(info->pli);
+    }
+
+  esl_sq_Destroy(dbsq);
+
+  return sstatus;
+}
+
+#ifdef HMMER_THREADS
+static int
+thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp)
+{
+  int  status  = eslOK;
+  int  sstatus = eslOK;
+  int  eofCount = 0;
+  ESL_SQ_BLOCK *block;
+  void         *newBlock;
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newBlock);
+  if (status != eslOK) p7_Fail("Work queue reader failed");
+      
+  /* Main loop: */
+  while (sstatus == eslOK)
+    {
+      block = (ESL_SQ_BLOCK *) newBlock;
+      sstatus = esl_sqio_ReadBlock(dbfp, block, -1, -1, FALSE);
+      if (sstatus == eslEOF)
+	{
+	  if (eofCount < esl_threads_GetWorkerCount(obj)) sstatus = eslOK;
+	  ++eofCount;
+	}
+
+      if (sstatus == eslOK)
+	{
+	  status = esl_workqueue_ReaderUpdate(queue, block, &newBlock);
+	  if (status != eslOK) p7_Fail("Work queue reader failed");
+	}
+    }
+
+  status = esl_workqueue_ReaderUpdate(queue, block, NULL);
+  if (status != eslOK) p7_Fail("Work queue reader failed");
+
+  if (sstatus == eslEOF)
+    {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+    }
+
+  return sstatus;
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int i;
+  int status;
+  int workeridx;
+  WORKER_INFO   *info;
+  ESL_THREADS   *obj;
+
+  ESL_SQ_BLOCK  *block = NULL;
+  void          *newBlock;
+
+  impl_Init();
+
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
+  if (status != eslOK) p7_Fail("Work queue worker failed");
+
+  /* loop until all blocks have been processed */
+  block = (ESL_SQ_BLOCK *) newBlock;
+  while (block->count > 0)
+    {
+      /* Main loop: */
+      for (i = 0; i < block->count; ++i)
+	{
+	  ESL_SQ *dbsq = block->list + i;
+
+	  p7_pli_NewSeq(info->pli, dbsq);
+	  p7_bg_SetLength(info->bg, dbsq->n);
+	  p7_oprofile_ReconfigLength(info->om, dbsq->n);
+
+	  p7_Pipeline(info->pli, info->om, info->bg, dbsq, info->th);
+
+	  esl_sq_Reuse(dbsq);
+	  p7_pipeline_Reuse(info->pli);
+	}
+
+      status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
+      if (status != eslOK) p7_Fail("Work queue worker failed");
+
+      block = (ESL_SQ_BLOCK *) newBlock;
+    }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
+  if (status != eslOK) p7_Fail("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+#endif   /* HMMER_THREADS */
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/jackhmmer.c $
+ * SVN $Id: jackhmmer.c 4583 2013-12-30 18:56:25Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/logsum.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/logsum.c
new file mode 100755
index 0000000..76a4bcb
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/logsum.c
@@ -0,0 +1,428 @@
+/* p7_FLogsum() function used in the Forward() algorithm.
+ * 
+ * Contents:
+ *    1. Floating point log sum.
+ *    2. Benchmark driver.
+ *    3. Unit tests.
+ *    4. Test driver.
+ *    5. Example.
+ *    6. Copyright and license information.
+ *
+ * Exegesis:
+ * 
+ * Internally, HMMER3 profile scores are in nats: floating point
+ * log-odds probabilities, with the log odds taken relative to
+ * background residue frequencies, and the log to the base e.
+ * 
+ * The Forward algorithm needs to calculate sums of probabilities.
+ * Given two log probabilities A and B, where s1 = \log
+ * \frac{a}{f}, and s2 = \log \frac{b}{g}, we need to
+ * calculate C = \log \frac{a + b}{h}.
+ * 
+ * The Forward algorithm guarantees that the null model denominator
+ * terms f = g = h, because it is always concerned with summing terms
+ * that describe different parses of the same target sequence prefix,
+ * and the product of the background frequencies for the same sequence
+ * prefix is a constant.
+ * 
+ * The naive solution is C = log(e^{A} + e^{B}), but this requires
+ * expensive calls to log() and exp().
+ * 
+ * A better solution is C = A + log(1 + e^{-(A-B)}), for A >= B.  For
+ * sufficiently small B << A, e^-{A-B} becomes less than the
+ * machine's FLT_EPSILON, and C ~= A. (This is at about (A-B) >
+ * -15.9, for the typical FLT_EPSILON of 1.2e-7.)
+ * 
+ * With some loss of accuracy [1], we can precalculate log(1 +
+ * e^{-(A-B)}) for a discretized range of differences (A-B), and
+ * compute C = A + table_lookup(A-B). This is what HMMER's
+ * p7_FLogsum() function does.
+ *
+ * This only applies to the generic (serial) implementation.
+ * See footnote [2] for discussion of why we remain unable to 
+ * implement an efficient log-space SIMD vector implementation of
+ * Forward.
+ */
+#include "p7_config.h"
+#include <math.h>
+#include "hmmer.h"
+
+
+/* p7_LOGSUM_SCALE defines the precision of the calculation; the
+ * default of 1000.0 means rounding differences to the nearest 0.001
+ * nat. p7_LOGSUM_TBL defines the size of the lookup table; the
+ * default of 16000 means entries are calculated for differences of 0
+ * to 16.000 nats (when p7_LOGSUM_SCALE is 1000.0).  e^{-p7_LOGSUM_TBL /
+ * p7_LOGSUM_SCALE} should be on the order of the machine FLT_EPSILON,
+ * typically 1.2e-7.
+ */
+#define p7_LOGSUM_SCALE 1000.f
+#define p7_LOGSUM_TBL   16000
+
+static float flogsum_lookup[p7_LOGSUM_TBL]; /* p7_LOGSUM_TBL=16000: (A-B) = 0..16 nats, steps of 0.001 */
+
+/*****************************************************************
+ *# 1. floating point log sum
+ *****************************************************************/
+
+/* Function:  p7_FLogsumInit()
+ * Synopsis:  Initialize the p7_Logsum() function.
+ *
+ * Purpose:   Initialize the lookup table for <p7_FLogsum()>. 
+ *            This function must be called once before any
+ *            call to <p7_FLogsum()>.
+ *            
+ *            The precision of the lookup table is determined
+ *            by the compile-time <p7_LOGSUM_TBL> constant.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_FLogsumInit(void)
+{
+  static int firsttime = TRUE;
+  if (!firsttime) return eslOK;
+  firsttime = FALSE;
+
+  int i;
+  for (i = 0; i < p7_LOGSUM_TBL; i++) 
+    flogsum_lookup[i] = log(1. + exp((double) -i / p7_LOGSUM_SCALE));
+  return eslOK;
+}
+
+/* Function:  p7_FLogsum()
+ * Synopsis:  Approximate $\log(e^a + e^b)$.
+ *
+ * Purpose:   Returns a fast table-driven approximation to
+ *            $\log(e^a + e^b)$.
+ *            
+ *            Either <a> or <b> (or both) may be $-\infty$,
+ *            but neither may be $+\infty$ or <NaN>.
+ *
+ * Note:      This function is a critical optimization target, because
+ *            it's in the inner loop of generic Forward() algorithms.
+ */
+float
+p7_FLogsum(float a, float b)
+{
+  const float max = ESL_MAX(a, b);
+  const float min = ESL_MIN(a, b);
+
+  //return (min == -eslINFINITY || (max-min) >= 15.7f) ? max : max + log(1.0 + exp(min-max));  /* SRE: While debugging SSE impl. Remember to remove! */
+  return (min == -eslINFINITY || (max-min) >= 15.7f) ? max : max + flogsum_lookup[(int)((max-min)*p7_LOGSUM_SCALE)];
+} 
+
+/* Function:  p7_FLogsumError()
+ * Synopsis:  Compute absolute error in probability from Logsum.
+ *
+ * Purpose:   Compute the absolute error in probability space
+ *            resulting from <p7_FLogsum()>'s table lookup 
+ *            approximation: approximation result - exact result.
+ *                                                  
+ *            This is of course computable analytically for
+ *            any <a,b> given <p7_LOGSUM_TBL>; but the function
+ *            is useful for some routines that want to determine
+ *            if <p7_FLogsum()> has been compiled in its
+ *            exact slow mode for debugging purposes. Testing
+ *            <p7_FLogsumError(-0.4, -0.5) > 0.0001>
+ *            for example, suffices to detect that the function
+ *            is compiled in its fast approximation mode given
+ *            the defaults. 
+ */
+float
+p7_FLogsumError(float a, float b)
+{
+  float approx = p7_FLogsum(a,b);
+  float exact  = log(exp(a) + exp(b));
+  return (exp(approx) - exp(exact));
+}
+
+
+/*****************************************************************
+ * 2. Benchmark driver.
+ *****************************************************************/
+#ifdef p7LOGSUM_BENCHMARK
+/* gcc -o logsum_benchmark -g -O2 -I. -L. -I../easel -L../easel -Dp7LOGSUM_BENCHMARK logsum.c -leasel -lm
+ * ./logsum_benchmark
+ */
+
+/* A table-driven FLogsum() is about 20x faster than a direct
+ * C = A + log(1+e^{-(A-B)}) implementation, "naive2()":
+ *             time/call   clocks/call
+ *  naive1:     110 nsec      250          SRE:J8/71 10 Aug 2011
+ *  naive2:      87 nsec      200          MacOS/X desktop, default build (gcc -O3), 2.26 GHz Xeon
+ *  FLogsum():    4 nsec        9 
+ *
+ * Times in units of nanoseconds/iteration: cpu time * 10
+ * based on default 1e8 iterations (-N 100000000).
+ * Clocks based on 2.26GHz = 2.26 clocks/nsec
+ */
+#include "p7_config.h"
+
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",    0 },
+  { "-n",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "naive time: A + log(1+exp(-(A-B)))",      0 },
+  { "-r",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "really naive time: log(exp(A)+exp(B))",   0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",           0 },
+  { "-v",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "be verbose: show individual results",     0 },
+  { "-N",        eslARG_INT,"100000000",NULL,"n>0", NULL,  NULL, NULL, "number of trials",                        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "benchmark driver for logsum functions()";
+
+static float 
+naive1(float s1, float s2)
+{
+  return log(exp(s1) + exp(s2));
+}
+
+static float 
+naive2(float s1, float s2)
+{
+  if (s1 > s2) return s1 + log(1 + exp(s2-s1));
+  else         return s2 + log(1 + exp(s1-s2));
+}
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+  float          *A, *B, *C;
+
+  p7_FLogsumInit();
+
+  /* Create the problem: sample N values A,B on interval -1000,1000: about the range of H3 scores */
+  A = malloc(sizeof(float) * N);
+  B = malloc(sizeof(float) * N);
+  C = malloc(sizeof(float) * N);
+  for (i = 0; i < N; i++)
+    {
+      A[i] = esl_random(r) * 2000. - 1000.;
+      B[i] = esl_random(r) * 2000. - 1000.;
+    }
+  
+  /* Run */
+  esl_stopwatch_Start(w);
+
+  if (esl_opt_GetBoolean(go, "-n"))
+    {
+      for (i = 0; i < N; i++)
+	C[i] = naive2(A[i], B[i]);
+    }
+  else if (esl_opt_GetBoolean(go, "-r"))
+    {
+      for (i = 0; i < N; i++)
+	C[i] = naive1(A[i], B[i]);
+    }
+  else
+    {
+      for (i = 0; i < N; i++)
+	C[i] = p7_FLogsum(A[i], B[i]);       
+    }
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7LOGSUM_BENCHMARK*/
+/*-------------------- end, benchmark ---------------------------*/
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7LOGSUM_TESTDRIVE
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+static void
+utest_FLogsumError(ESL_GETOPTS *go, ESL_RANDOMNESS *r)
+{
+  int     N          = esl_opt_GetInteger(go, "-N");
+  float   maxval     = esl_opt_GetReal(go, "-S");
+  int     be_verbose = esl_opt_GetBoolean(go, "-v");
+  float   maxerr = 0.0;
+  float   avgerr = 0.0;
+  int     i;
+  float   a,b,result,exact,err;
+
+  for (i = 0; i < N; i++)
+    {
+      a = (esl_random(r) - 0.5) * maxval * 2.; /* uniform draws on -maxval..maxval */
+      b = (esl_random(r) - 0.5) * maxval * 2.; 
+
+      exact  = log(exp(a) + exp(b));
+      result = p7_FLogsum(a,b);
+      err    = fabs(exact-result) / maxval;
+
+      avgerr += err;
+      maxerr = ESL_MAX(maxerr, err);
+
+      if (be_verbose)
+	printf("%8.4f %8.4f %8.4f %8.4f %8.4f\n", a, b, exact, result, err);
+    }
+  avgerr /= (float) N;
+
+  if (be_verbose) {
+    printf("average error = %f\n", avgerr);
+    printf("max error     = %f\n", maxerr);
+  }
+
+  if (maxerr > 0.0001) esl_fatal("maximum error of %f is too high: logsum unit test fails", maxerr);
+  if (avgerr > 0.0001) esl_fatal("average error of %f is too high: logsum unit test fails", avgerr);
+}
+
+static void
+utest_FLogsumSpecials(void)
+{
+  char *msg = "logsum specials unit test failed";
+
+  if (p7_FLogsum(0.0,          -eslINFINITY) !=          0.0) esl_fatal(msg);
+  if (p7_FLogsum(-eslINFINITY,          0.0) !=          0.0) esl_fatal(msg);
+  if (p7_FLogsum(-eslINFINITY, -eslINFINITY) != -eslINFINITY) esl_fatal(msg);
+}
+#endif /*p7LOGSUM_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+/*****************************************************************
+ * 4. Test driver.
+ *****************************************************************/
+#ifdef p7LOGSUM_TESTDRIVE
+/*
+  gcc -o logsum_utest -msse2 -g -Wall -I. -L. -I../easel -L../easel -Dp7LOGSUM_TESTDRIVE logsum.c -leasel -lm
+  ./logsum_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",               0},
+  {"-N",  eslARG_INT,    "1000", NULL, "n>0",NULL, NULL, NULL, "number of samples",                 0},
+  {"-S",  eslARG_REAL,   "20.0", NULL, "x>0",NULL, NULL, NULL, "maximum operand value",             0},
+  {"-s",  eslARG_INT,      "42", NULL,"n>=0",NULL, NULL, NULL, "random number seed",                0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose output",               0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for logsum.c";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go     = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r      = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+
+  p7_FLogsumInit();
+
+  utest_FLogsumError(go, r);
+  utest_FLogsumSpecials();
+
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7LOGSUM_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+/*****************************************************************
+ * 5. Example.
+ *****************************************************************/
+#ifdef p7LOGSUM_EXAMPLE
+/* gcc -o example -g -O2 -I. -L. -I../easel -L../easel -Dp7LOGSUM_EXAMPLE logsum.c -leasel -lm
+ * ./example -0.5 -0.5
+ */
+#include "p7_config.h"
+#include "easel.h"
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  float a = atof(argv[1]);
+  float b = atof(argv[2]);
+  float result;
+
+  p7_FLogsumInit();
+  result = p7_FLogsum(a, b);
+  printf("p7_FLogsum(%f,%f) = %f\n", a, b, result);
+
+  result = log(exp(a) + exp(b));
+  printf("log(e^%f + e^%f) = %f\n", a, b, result);
+
+  printf("Absolute error in probability: %f\n", p7_FLogsumError(a,b));
+  return eslOK;
+}
+#endif /*p7LOGSUM_EXAMPLE*/
+/*--------------------- end, example ----------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/logsum.c $
+ * SVN $Id: logsum.c 3474 2011-01-17 13:25:32Z eddys $
+ *****************************************************************/
+
+/* Footnotes.
+ * 
+ * [1] The maximum relative error is on the order of 1/SCALE, or 0.001.
+ *     [xref SRE:J8/71].
+ *     
+ * [2] SIMD vectorization of a log-space Forward remains vexing.
+ *     Sparse-rescaled probability-space Forward vector
+ *     implemementation only works for local; glocal or global may
+ *     underflow long delete paths. Would be desirable to use a
+ *     log-space implementation if we could make it fast. Problem is
+ *     implementing the p7_FLogsum() lookup table in SIMD; lookup
+ *     tables of this size in current SSE, Altivec appear to be
+ *     infeasible. I considered the possibility of using a functional
+ *     fit to f(x) = log(1+e^{-x}) for x >=0, for example with a
+ *     Chebyshev polynomial, because a numerical f(x) would vectorize.
+ *     Decided that this computation would necessarily be expensive on
+ *     the order of log(x) or exp(x), so replacing log(1+exp(-x)) with
+ *     f(x) doesn't look like compelling -- might as well compute
+ *     log(1+exp(-x)) directly! The table-driven approach is about 20x
+ *     faster (about 9 clocks, compared to about 200 for the direct
+ *     log,exp calculation), and even if we could get an f(x)
+ *     calculation to be as efficient as log(x) -- say 100 clocks --
+ *     the 4x SIMD vectorization does not compensate for the 10x hit
+ *     in speed. [xref SRE:J8/71]
+ */
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/makehmmerdb.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/makehmmerdb.c
new file mode 100755
index 0000000..cda2515
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/makehmmerdb.c
@@ -0,0 +1,882 @@
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_mem.h"
+
+#include <string.h>
+
+#include "hmmer.h"
+#include "divsufsort.h"
+
+
+#define FM_BLOCK_COUNT 100000 //max number of SQ objects in a block
+#define FM_BLOCK_OVERLAP 20000 //20 Kbases of overlap, at most, between adjascent FM-index blocks
+//#define ALPHOPTS "--amino,--dna,--rna"                         /* Exclusive options for alphabet choice */
+
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles   reqs   incomp              help                                                      docgroup*/
+  { "-h",           eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  NULL,       "show brief help on version and usage",                      1 },
+
+  /* Selecting the alphabet rather than autoguessing it */
+  //TODO: when I make the FM method work for amino acids, re-enable this selection
+//  { "--amino",   eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL,       "input is protein sequence",                                 2 },
+//  { "--dna",     eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL,       "input is DNA sequence",                                     2 },
+//  { "--rna",     eslARG_NONE,   FALSE, NULL, NULL,   ALPHOPTS,    NULL,     NULL,       "input is RNA sequence",                                     2 },
+
+  /* Other options */
+  { "--informat",   eslARG_STRING,     FALSE, NULL, NULL,    NULL,  NULL,  NULL,        "specify that input file is in format <s>",                  3 },
+  { "--bin_length", eslARG_INT,        "256", NULL, NULL,    NULL,  NULL,  NULL,        "bin length (power of 2;  32<=b<=4096)",                     3 },
+  { "--sa_freq",    eslARG_INT,        "8",   NULL, NULL,    NULL,  NULL,  NULL,        "suffix array sample rate (power of 2)",                     3 },
+  { "--block_size", eslARG_INT,        "50",  NULL, NULL,    NULL,  NULL,  NULL,        "input sequence broken into chunks this size (Mbases)",      3 },
+
+  /* hidden*/
+  { "--fwd_only",   eslARG_NONE,       FALSE, NULL, NULL,    NULL,  NULL,  NULL,        "build FM-index only for forward search (not for HMMER)",    9 },
+
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[options] <seqfile> <binaryfile>";
+static char banner[] = "build a HMMER binary-formatted database from an input sequence file";
+
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_seqfile, char **ret_fmfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n", go->errbuf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n", go->errbuf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+
+      if (puts("\nBasic options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 120=textwidth*/
+
+//      if (puts("\nOptions for selecting alphabet rather than guessing it:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+//      esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+
+      if (puts("\nSpecial options:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); /* 2= group; 2 = indentation; 120=textwidth*/
+
+      exit(0);
+  }
+
+  if (esl_opt_ArgNumber(go)                  != 2)     { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_seqfile = esl_opt_GetArg(go, 1)) == NULL)  { if (puts("Failed to get <seqfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_fmfile  = esl_opt_GetArg(go, 2)) == NULL)  { if (puts("Failed to get <fmfile> argument on command line")  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (esl_strcmp(*ret_seqfile, "-") == 0 && esl_strcmp(*ret_fmfile, "-") == 0) 
+    { if (puts("Either <seqfile> or <fmfile> may be '-' (to read from stdin), but not both.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  puts("\nwhere basic options are:");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
+  esl_getopts_Destroy(go);
+  exit(1);
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+/* Function:  output_header()
+ * Synopsis:  Print details of FM-index construction
+ */
+static int
+output_header(FILE *ofp, const ESL_GETOPTS *go, char *seqfile, char *fmfile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+
+  if (                                      fprintf(ofp, "# input sequence file:                     %s\n", seqfile)                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# output binary-formatted HMMER database:  %s\n", fmfile)                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# bin_length:                              %d\n", esl_opt_GetInteger(go, "--bin_length")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# suffix array sample rate:                %d\n", esl_opt_GetInteger(go, "--sa_freq"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//  if (esl_opt_IsUsed(go, "--amino")      && fprintf(ofp, "# input is asserted to be:                 protein\n")                                        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//  if (esl_opt_IsUsed(go, "--dna")        && fprintf(ofp, "# input is asserted to be:                 DNA\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//  if (esl_opt_IsUsed(go, "--rna")        && fprintf(ofp, "# input is asserted to be:                 RNA\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+/* Function:  allocateSeqdata()
+ * Synopsis:  ensure that space is allocated for the seqdata object
+ *            in the FM-index metadata.
+ */
+int
+allocateSeqdata (FM_METADATA *meta, ESL_SQ *sq, int numseqs, int *allocedseqs) {
+  int length;
+  int status = eslOK;
+
+
+  if (numseqs == *allocedseqs) { // either first allocation, or increase in size
+    *allocedseqs *= 4; // we've bumped up against allocation limit, double allocation.
+    ESL_REALLOC (meta->seq_data, *allocedseqs * sizeof(FM_SEQDATA));
+    if (meta->seq_data == NULL )
+      esl_fatal("unable to allocate memory to store FM meta data\n");
+  }
+
+  //allocate space for the name, source, acc, and desc of the sequence source for the block
+  length = strlen(sq->name);
+  meta->seq_data[numseqs].name_length = length;
+  ESL_ALLOC (meta->seq_data[numseqs].name, (1+length) * sizeof(char));
+
+  length = strlen(sq->acc);
+  meta->seq_data[numseqs].acc_length = length;
+  ESL_ALLOC (meta->seq_data[numseqs].acc, (1+length) * sizeof(char));
+
+  length = strlen(sq->source);
+  meta->seq_data[numseqs].source_length = length;
+  ESL_ALLOC (meta->seq_data[numseqs].source, (1+length) * sizeof(char));
+
+  length = strlen(sq->desc);
+  meta->seq_data[numseqs].desc_length = length;
+  ESL_ALLOC (meta->seq_data[numseqs].desc, (1+length) * sizeof(char));
+
+
+  if (meta->seq_data[numseqs].name == NULL || meta->seq_data[numseqs].acc == NULL || meta->seq_data[numseqs].source == NULL || meta->seq_data[numseqs].desc == NULL)
+    esl_fatal("unable to allocate memory to store FM meta data\n");
+
+  return eslOK;
+
+ERROR:
+  return status;
+}
+
+
+/* Function:  buildAndWriteFMIndex()
+ * Synopsis:  Take text as input, along with several pre-allocated variables,
+ *            and produce BWT and corresponding FM-index, then write it all
+ *            to the output file.
+ *
+ *            if SAsamp == NULL, don't store/write T or SAsamp
+ */
+int buildAndWriteFMIndex (FM_METADATA *meta, uint32_t seq_offset, uint32_t ambig_offset,
+                        uint32_t seq_cnt, uint32_t ambig_cnt, uint32_t overlap,
+                        uint8_t *T, uint8_t *BWT,
+                        int *SA, uint32_t *SAsamp,
+                        uint32_t *occCnts_sb, uint32_t *cnts_sb,
+                        uint16_t *occCnts_b, uint16_t *cnts_b,
+                        uint64_t N, FILE *fp
+    ) {
+
+
+  int status;
+  uint64_t i,j,c,joffset;
+  int chars_per_byte = 8/meta->charBits;
+  uint32_t compressed_bytes =   ((chars_per_byte-1+N)/chars_per_byte);
+  uint32_t term_loc;
+
+  int num_freq_cnts_b  = 1+ceil((double)N/(meta->freq_cnt_b));
+  int num_freq_cnts_sb = 1+ceil((double)N/meta->freq_cnt_sb);
+  int num_SA_samples   = 1+floor((double)N/meta->freq_SA);
+
+
+  uint8_t *Tcompressed = NULL;
+  if (SAsamp != NULL) {
+    ESL_ALLOC (Tcompressed, compressed_bytes * sizeof(uint8_t));
+
+    // Reverse the text T, so the BWT will be on reversed T.  Only used for the 1st pass
+    fm_reverseString ((char*)T, N-1);
+  }
+
+  // Construct the Suffix Array on text T
+  status = divsufsort(T, SA, N);
+  if ( status < 0 )
+    esl_fatal("buildAndWriteFMIndex: Error building BWT.\n");
+
+  // Construct the BWT, SA landmarks, and FM-index
+  for (c=0; c<meta->alph_size; c++) {
+    cnts_sb[c] = 0;
+    cnts_b[c] = 0;
+    FM_OCC_CNT(sb, 0, c ) = 0;
+    FM_OCC_CNT(b, 0, c ) = 0;
+  }
+
+
+  for(j=0; j < N-1; ++j) {
+    T[j]--;  //move values down so 'a'=0...'t'=3; store 'a' in place of '$'
+  }
+  T[N-1]=0;
+
+  BWT[0] =  SA[0]==0 ? 0 /* '$' */ : T[ SA[0]-1] ;
+
+  cnts_sb[BWT[0]]++;
+  cnts_b[BWT[0]]++;
+
+  //Scan through SA to build the BWT and FM index structures
+  for(j=1; j < N; ++j) {
+    if (SA[j]==0) { //'$'
+      term_loc = j;
+      BWT[j] =  0; //store 'a' in place of '$'
+    } else {
+      BWT[j] =  T[ SA[j]-1] ;
+    }
+
+
+    //sample the SA
+    if (SAsamp != NULL) {
+      if ( !(j % meta->freq_SA) )
+        SAsamp[ j/meta->freq_SA ] = ( SA[j] == N - 1 ? -1 : SA[j] ) ; // handle the wrap-around '$'
+    }
+
+    cnts_sb[BWT[j]]++;
+    cnts_b[BWT[j]]++;
+
+    joffset = j+1;
+    if ( !(  joffset % meta->freq_cnt_b) ) {  // (j+1)%freq_cnt_b==0  , i.e. every freq_cnt_bth position, noting that it's a zero-based count
+
+      for (c=0; c<meta->alph_size; c++)
+        FM_OCC_CNT(b, (joffset/meta->freq_cnt_b), c ) = cnts_b[c];
+
+      if ( !(joffset % meta->freq_cnt_sb) ) {  // j%freq_cnt_sb==0
+        for (c=0; c<meta->alph_size; c++) {
+          FM_OCC_CNT(sb, (joffset/meta->freq_cnt_sb), c ) = cnts_sb[c];
+          cnts_b[c] = 0;
+        }
+      }
+    }
+  }
+
+  //wrap up the counting;
+  for (c=0; c<meta->alph_size; c++) {
+    FM_OCC_CNT(b, num_freq_cnts_b-1, c ) = cnts_b[c];
+    FM_OCC_CNT(sb, num_freq_cnts_sb-1, c ) = cnts_sb[c];
+  }
+
+
+
+  // Convert BWT and T to packed versions if appropriate.
+  if (meta->alph_type == fm_DNA) {
+     //4 chars per byte.  Counting will be done based on quadruples 0..3; 4..7; 8..11; etc.
+      for(i=0; i < N-3; i+=4)
+        BWT[i/4]           = BWT[i]<<6 | BWT[i+1]<<4 | BWT[i+2]<<2 | BWT[i+3];
+      if (i <= N-1)
+        BWT[i/4]           =  BWT[i]<<6;
+      if (i+1 <= N-1)
+        BWT[i/4]           |=  BWT[i+1]<<4;
+      if (i+2 <= N-1)
+        BWT[i/4]           |=  BWT[i+2]<<2;
+/*
+  } else if (meta->alph_type == fm_DNA_full ) {
+    //2 chars per byte.  Counting will be done based on quadruples 0..3; 4..7; 8..11; etc.
+      for(i=0; i < N-1; i+=2)
+        BWT[i/2]           = BWT[i]<<4 | BWT[i+1];
+      if (i==N-1)
+        BWT[i/2]           =  BWT[i]<<4 ;
+*/
+  }
+
+
+
+  //If this is the 1st (reversed text) BWT, de-reverse it, then compress it
+  if (SAsamp != NULL) {
+    fm_reverseString ((char*)T, N-1);
+    // Convert BWT and T to packed versions if appropriate.
+    if (meta->alph_type == fm_DNA ) {
+       //4 chars per byte.  Counting will be done based on quadruples 0..3; 4..7; 8..11; etc.
+      for(i=0; i < N-3; i+=4)
+        Tcompressed[i/4] =  T[i]<<6 |   T[i+1]<<4 |   T[i+2]<<2 | T[i+3];
+
+      if (i <= N-1)
+        Tcompressed[i/4] =   T[i]<<6;
+      if (i+1 <= N-1)
+        Tcompressed[i/4] |=   T[i+1]<<4;
+      if (i+2 <= N-1)
+        Tcompressed[i/4] |=   T[i+2]<<2;
+/*
+    } else if (meta->alph_type == fm_DNA_full) {
+      //2 chars per byte.  Counting will be done based on quadruples 0..3; 4..7; 8..11; etc.
+      for(i=0; i < N-1; i+=2)
+        Tcompressed[i/2] =   T[i]<<4 |   T[i+1];
+      if (i==N-1)
+        Tcompressed[i/2] =    T[i]<<4 ;
+*/
+    } else {
+      for(i=0; i < N-1; i++)
+        Tcompressed[i] =    T[i];
+    }
+  }
+
+
+  for(j=0; j < N-1; ++j) {
+      T[j]++;  //move values back up, in case the reverse FM needs to be built
+  }
+  T[N-1] = 0;
+
+
+  // Write the FM-index meta data
+  if(fwrite(&N, sizeof(uint64_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing block_length in FM index.\n");
+  if(fwrite(&term_loc, sizeof(uint32_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing terminal location in FM index.\n");
+  if(fwrite(&seq_offset, sizeof(uint32_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing seq_offset in FM index.\n");
+  if(fwrite(&ambig_offset, sizeof(uint32_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing ambig_offset in FM index.\n");
+  if(fwrite(&overlap, sizeof(uint32_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing overlap in FM index.\n");
+  if(fwrite(&seq_cnt, sizeof(uint32_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing seq_cnt in FM index.\n");
+  if(fwrite(&ambig_cnt, sizeof(uint32_t), 1, fp) !=  1)
+    esl_fatal( "buildAndWriteFMIndex: Error writing ambig_cnt in FM index.\n");
+
+  // don't write Tcompressed or SAsamp if SAsamp == NULL
+  if(Tcompressed != NULL && fwrite(Tcompressed, sizeof(uint8_t), compressed_bytes, fp) != compressed_bytes)
+    esl_fatal( "buildAndWriteFMIndex: Error writing T in FM index.\n");
+  if(fwrite(BWT, sizeof(uint8_t), compressed_bytes, fp) != compressed_bytes)
+    esl_fatal( "buildAndWriteFMIndex: Error writing BWT in FM index.\n");
+  if(SAsamp != NULL && fwrite(SAsamp, sizeof(uint32_t), (size_t)num_SA_samples, fp) != (size_t)num_SA_samples)
+    esl_fatal( "buildAndWriteFMIndex: Error writing SA in FM index.\n");
+  if(fwrite(occCnts_b, sizeof(uint16_t)*(meta->alph_size), (size_t)num_freq_cnts_b, fp) != (size_t)num_freq_cnts_b)
+    esl_fatal( "buildAndWriteFMIndex: Error writing occCnts_b in FM index.\n");
+  if(fwrite(occCnts_sb, sizeof(uint32_t)*(meta->alph_size), (size_t)num_freq_cnts_sb, fp) != (size_t)num_freq_cnts_sb)
+    esl_fatal( "buildAndWriteFMIndex: Error writing occCnts_sb in FM index.\n");
+
+
+  if (Tcompressed)         free(Tcompressed);
+
+  return eslOK;
+
+ERROR:
+  /* Deallocate memory. */
+  if (Tcompressed)         free(Tcompressed);
+  return eslFAIL;
+
+}
+
+
+
+/* Function:  main()
+ * Synopsis:  break input sequence set into chunks, for each one building the
+ *            Burrows-Wheeler transform and corresponding FM-index. Maintain requisite
+ *            meta data.
+ * Notes:     Currently depends on the divsufsort-lite code of Yuta Mori, though this
+ *            could easily be replaced.
+ */
+int
+main(int argc, char **argv) 
+{
+  char tmp_filename[16] = "fmtmpXXXXXX";
+  FILE *fptmp          = NULL;
+  FILE *fp             = NULL;
+  uint8_t *T           = NULL;
+  uint8_t *BWT         = NULL;
+  int *SA              = NULL; //what I write will be 32-bit ints, but I need to keep this as int so it'll work with libdivsufsort
+  uint32_t *SAsamp     = NULL;
+  uint32_t *occCnts_sb = NULL; // same indexing as above
+  uint32_t *cnts_sb    = NULL;
+  uint16_t *occCnts_b  = NULL; // this is logically a 2D array, but will be indexed as occ_cnts[alph_size*index + char]  (instead of occ_cnts[index][char])
+  uint16_t *cnts_b     = NULL;
+  FM_METADATA *meta    = NULL;
+
+  clock_t t1, t2;
+  struct tms ts1, ts2;
+
+  long i,j,c;
+  int status = eslOK;
+
+  int chars_per_byte;
+  int num_freq_cnts_sb ;
+  int num_freq_cnts_b ;
+  int num_SA_samples ;
+
+  int             infmt     = eslSQFILE_UNKNOWN;
+  int             alphatype = eslUNKNOWN;
+  ESL_ALPHABET   *abc       = NULL;
+  ESL_SQ         *sq        = NULL;
+  ESL_SQFILE     *sqfp      = NULL;
+
+  ESL_SQ       *tmpsq = NULL;
+  ESL_SQ_BLOCK *block = NULL;
+
+  char *fname_in = NULL;
+  char *fname_out= NULL;
+  int block_size = 50000000;
+  int sq_cnt = 0;
+  int use_tmpsq = 0;
+  uint64_t block_length;
+  uint64_t total_char_count = 0;
+
+  int max_block_size;
+
+  int numblocks = 0;
+  uint32_t numseqs = 0;
+
+
+  int allocedseqs = 1000;
+  uint32_t seq_offset = 0;
+  uint32_t ambig_offset = 0;
+  uint32_t overlap = 0;
+  uint32_t seq_cnt;
+  uint32_t ambig_cnt;
+
+  uint32_t prev_numseqs = 0;
+
+  int compressed_bytes;
+  uint32_t term_loc;
+
+  ESL_GETOPTS     *go  = NULL;    /* command line processing                 */
+
+  int            in_ambig_run = 0;
+  FM_AMBIGLIST   ambig_list;
+
+  ESL_RANDOMNESS *r   = esl_randomness_CreateFast(42);
+
+
+#if !defined (p7_IMPL_SSE)
+    p7_Fail("The hmmerfm sequence database file format is valid only on systems supporting SSE vector instructions\n");
+#endif
+
+  ESL_ALLOC (meta, sizeof(FM_METADATA));
+  if (meta == NULL)
+    esl_fatal("unable to allocate memory to store FM meta data\n");
+  meta->alph = NULL;
+
+
+  ESL_ALLOC (meta->ambig_list, sizeof(FM_AMBIGLIST));
+  if (meta->ambig_list == NULL)
+      esl_fatal("unable to allocate memory to store FM ambiguity data\n");
+  fm_initAmbiguityList(meta->ambig_list);
+
+
+  meta->alph_type   = fm_DNA;
+  meta->freq_SA     = 8;
+  meta->freq_cnt_b  = 256;
+  meta->freq_cnt_sb = pow(2,16); //65536 - that's the # values in a short
+  meta->seq_count = 0;
+  ESL_ALLOC (meta->seq_data, allocedseqs * sizeof(FM_SEQDATA));
+  if (meta->seq_data == NULL )
+    esl_fatal("unable to allocate memory to store FM sequence data\n");
+
+
+  process_commandline(argc, argv, &go, &fname_in, &fname_out);
+
+  if (esl_opt_IsOn(go, "--bin_length")) meta->freq_cnt_b = esl_opt_GetInteger(go, "--bin_length");
+  if ( meta->freq_cnt_b < 32 || meta->freq_cnt_b >4096 ||  (meta->freq_cnt_b & (meta->freq_cnt_b - 1))  ) // test power of 2
+    esl_fatal("bin_length must be a power of 2, at least 128, and at most 4096\n");
+
+  if (esl_opt_IsOn(go, "--sa_freq")) meta->freq_SA = esl_opt_GetInteger(go, "--sa_freq");
+  if ( (meta->freq_SA & (meta->freq_SA - 1))  )  // test power of 2
+    esl_fatal ("SA_freq must be a power of 2\n");
+
+
+  if (esl_opt_IsOn(go, "--block_size")) block_size = 1000000 * esl_opt_GetInteger(go, "--block_size");
+  if ( block_size <=0  )
+    esl_fatal ("block_size must be a positive number\n");
+
+  //start timer
+  t1 = times(&ts1);
+
+  output_header(stdout, go, fname_in, fname_out);
+
+  if (esl_opt_GetString(go, "--informat") != NULL) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) esl_fatal("%s is not a valid input sequence file format for --informat");
+  }
+
+  status = esl_sqfile_Open(fname_in, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file %s", fname_in);
+  else if (status == eslEFORMAT)   esl_fatal("Format of seqfile %s unrecognized.", fname_in);
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  meta->fwd_only = 0;
+
+/* TODO: when I make the FM method work for amino acids, re-enable this selection
+  if ( esl_opt_IsUsed(go, "--amino")  ) {
+    meta->alph_type = fm_AMINO;
+    alphatype = eslAMINO;
+    meta->fwd_only = 1;
+  } else if (esl_opt_IsUsed(go, "--dna") || esl_opt_IsUsed(go, "--rna") ){
+  */
+    //meta->alph = "dna"; //esl_opt_IsUsed(go, "--dna") ? "dna" || "rna";
+    meta->alph_type = fm_DNA;
+    alphatype = eslDNA;
+/*
+  } else {
+    esl_sqfile_GuessAlphabet(sqfp, &alphaguess);
+
+    if (alphaguess == eslDNA || alphaguess == eslRNA) {
+      meta->alph_type = fm_DNA;
+      alphatype = eslDNA;
+    } else if (alphaguess == eslAMINO) {
+      meta->alph_type = fm_AMINO;
+      alphatype = eslAMINO;
+      meta->fwd_only = 1;
+    } else {
+      esl_fatal("Unable to guess alphabet. Try '--dna' or '--amino'\n%s", ""); //'dna_full'
+    }
+  }
+*/
+
+  if (esl_opt_IsOn(go, "--fwd_only") )
+    meta->fwd_only = 1;
+
+  //getInverseAlphabet
+  fm_alphabetCreate(meta, &(meta->charBits));
+  chars_per_byte = 8/meta->charBits;
+
+    //shift inv_alph up one, to make space for '$' at 0
+  for (i=0; i<256; i++)
+    if ( meta->inv_alph[i] >= 0)
+      meta->inv_alph[i]++;
+
+
+  abc     = esl_alphabet_Create(alphatype);
+  sq      = esl_sq_CreateDigital(abc);
+  tmpsq   =  esl_sq_CreateDigital(abc);
+
+  esl_sqfile_SetDigital(sqfp, abc);
+  block = esl_sq_CreateDigitalBlock(FM_BLOCK_COUNT, abc);
+  block->complete = FALSE;
+//  max_block_size = FM_BLOCK_OVERLAP+block_size+1  + block_size*.2; // +1 for the '$'
+  max_block_size = FM_BLOCK_OVERLAP+block_size+1  + block_size; // temporary hack to avoid memory over-runs (see end of 1101_fmindex_benchmarking/00NOTES)
+
+  if (alphatype == fm_DNA)
+    fm_initAmbiguityList(&ambig_list);
+
+
+  /* Allocate BWT, Text, SA, and FM-index data structures, allowing storage of maximally large sequence*/
+  ESL_ALLOC (T, max_block_size * sizeof(uint8_t));
+  ESL_ALLOC (BWT, max_block_size * sizeof(uint8_t));
+  ESL_ALLOC (SA, max_block_size * sizeof(int));
+  ESL_ALLOC (SAsamp,     (1+floor((double)max_block_size/meta->freq_SA) ) * sizeof(uint32_t));
+
+  ESL_ALLOC (occCnts_sb, (1+ceil((double)max_block_size/meta->freq_cnt_sb)) *  meta->alph_size * sizeof(uint32_t)); // every freq_cnt_sb positions, store an array of ints
+  ESL_ALLOC (cnts_sb,    meta->alph_size * sizeof(uint32_t));
+  ESL_ALLOC (occCnts_b,  ( 1+ceil((double)max_block_size/meta->freq_cnt_b)) *  meta->alph_size * sizeof(uint16_t)); // every freq_cnt_b positions, store an array of 8-byte ints
+  ESL_ALLOC (cnts_b,     meta->alph_size * sizeof(uint16_t));
+
+  if((T == NULL)  || (BWT == NULL)  || (SA==NULL) || (SAsamp==NULL) || (BWT==NULL) || (cnts_b==NULL) || (occCnts_b==NULL) || (cnts_sb==NULL) || (occCnts_sb==NULL) ) {
+    esl_fatal( "%s: Cannot allocate memory.\n", argv[0]);
+  }
+
+
+  // Open a temporary file, to which FM-index data will be written
+  if (esl_tmpfile(tmp_filename, &fptmp) != eslOK) esl_fatal("unable to open fm-index tmpfile");
+
+
+  /* Main loop: */
+  while (status == eslOK ) {
+
+    //reset block as an empty vessel
+    for (i=0; i<block->count; i++)
+        esl_sq_Reuse(block->list + i);
+
+    if (use_tmpsq) {
+        esl_sq_Copy(tmpsq , block->list);
+        block->complete = FALSE;  //this lets ReadBlock know that it needs to append to a small bit of previously-read seqeunce
+        block->list->C = FM_BLOCK_OVERLAP; // overload the ->C value, which ReadBlock uses to determine how much
+                                               // overlap should be retained in the ReadWindow step
+    } else {
+        block->complete = TRUE;
+    }
+
+    status = esl_sqio_ReadBlock(sqfp, block, block_size, -1, alphatype != eslAMINO);
+    if (status == eslEOF) continue;
+    if (status != eslOK)  esl_fatal("Parse failed (sequence file %s):\n%s\n",
+                                                  sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+
+    seq_offset = numseqs;
+    ambig_offset = meta->ambig_list->count;
+
+    if (block->complete || block->count == 0) {
+        use_tmpsq = FALSE;
+    } else {
+        /* The final sequence on the block was a probably-incomplete window of the active sequence.
+         * Grab a copy of the end for use in the next pass, to ensure we don't miss hits crossing
+         * the boundary between two blocks.
+         */
+        esl_sq_Copy(block->list + (block->count - 1) , tmpsq);
+        use_tmpsq = TRUE;
+    }
+
+    block->first_seqidx = sq_cnt;
+    sq_cnt += block->count - (use_tmpsq ? 1 : 0);// if there's an incomplete sequence read into the block wait to count it until it's complete.
+
+
+    /* Read dseqs from block into text element T.
+    *  Convert the dsq from esl-alphabet to fm-alphabet (1..k for alphabet of size k).
+    *  (a) collapsing upper/lower case for appropriate sorting.
+    *  (b) reserving 0 for '$', which must be lexicographically smallest
+    *      (these will later be shifted to 0-based alphabet, once SA has been built)
+    *
+    */
+    block_length = 0;
+    for (i=0; i<block->count; i++) {
+
+      //start a new block, with space for the name
+      allocateSeqdata(meta, block->list+i, numseqs, &allocedseqs);
+
+      //meta data
+      meta->seq_data[numseqs].target_id       = block->first_seqidx + i ;
+      meta->seq_data[numseqs].target_start    = block->list[i].start;
+      meta->seq_data[numseqs].fm_start        = block_length;
+
+      if (block->list[i].name == NULL) meta->seq_data[numseqs].name[0] = '\0';
+          else  strcpy(meta->seq_data[numseqs].name, block->list[i].name );
+      if (block->list[i].acc == NULL) meta->seq_data[numseqs].acc[0] = '\0';
+          else  strcpy(meta->seq_data[numseqs].acc, block->list[i].acc );
+      if (block->list[i].source == NULL) meta->seq_data[numseqs].source[0] = '\0';
+          else  strcpy(meta->seq_data[numseqs].source, block->list[i].source );
+      if (block->list[i].desc == NULL) meta->seq_data[numseqs].desc[0] = '\0';
+          else  strcpy(meta->seq_data[numseqs].desc, block->list[i].desc );
+
+      for (j=1; j<=block->list[i].n; j++) {
+        c = abc->sym[block->list[i].dsq[j]];
+        if ( meta->alph_type == fm_DNA) {
+          if (meta->inv_alph[c] == -1) {
+            // replace ambiguity characters by random choice of A,C,G, and T.
+            c = meta->alph[(int)(esl_random(r)*4)];
+
+            if (!in_ambig_run) {
+              fm_addAmbiguityRange(meta->ambig_list, block_length, block_length);
+              in_ambig_run=1;
+            } else {
+              meta->ambig_list->ranges[meta->ambig_list->count - 1].upper = block_length;
+            }
+          } else {
+            in_ambig_run=0;
+          }
+        } else if (meta->inv_alph[c] == -1) {
+          esl_fatal("requested alphabet doesn't match input text\n");
+        }
+
+        T[block_length] = meta->inv_alph[c];
+
+        block_length++;
+        if (j>block->list[i].C) total_char_count++; // add to total count, only if it's not redundant with earlier read
+        meta->seq_data[numseqs].length++;
+      }
+      numseqs++;
+      in_ambig_run = 0;
+    }
+
+    T[block_length] = 0; // last character 0 is effectively '$' for suffix array
+    block_length++;
+
+    seq_cnt = numseqs-seq_offset;
+    ambig_cnt = meta->ambig_list->count - ambig_offset;
+
+
+    //build and write FM-index for T.  This will be a BWT on the reverse of the sequence, required for reverse-traversal of the BWT
+    buildAndWriteFMIndex(meta, seq_offset, ambig_offset, seq_cnt, ambig_cnt, (uint32_t)block->list[0].C, T, BWT, SA, SAsamp,
+        occCnts_sb, cnts_sb, occCnts_b, cnts_b, block_length, fptmp);
+
+
+    if ( ! meta->fwd_only ) {
+      //build and write FM-index for un-reversed T  (used to find reverse hits using forward traversal of the BWT
+      buildAndWriteFMIndex(meta, seq_offset, ambig_offset, seq_cnt, ambig_cnt, 0, T, BWT, SA, NULL,
+          occCnts_sb, cnts_sb, occCnts_b, cnts_b, block_length, fptmp);
+    }
+
+    prev_numseqs = numseqs;
+
+    numblocks++;
+  }
+
+
+  esl_sqfile_Close(sqfp);
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq);
+  esl_sq_Destroy(tmpsq);
+  esl_sq_DestroyBlock(block);
+
+  esl_randomness_Destroy(r);
+
+  meta->seq_count = numseqs;
+  meta->block_count = numblocks;
+
+    /* Finished writing the FM-index data to a temporary file. Now write
+     * metadata to fname_out, than append FM-index data from temp file
+     */
+  if((fp = fopen(fname_out, "wb")) == NULL)
+    esl_fatal( "%s: Cannot open file `%s': ", argv[0], fname_out);
+
+
+    //write out meta data
+  if( fwrite(&(meta->fwd_only),     sizeof(meta->fwd_only),     1, fp) != 1 ||
+      fwrite(&(meta->alph_type),    sizeof(meta->alph_type),    1, fp) != 1 ||
+      fwrite(&(meta->alph_size),    sizeof(meta->alph_size),    1, fp) != 1 ||
+      fwrite(&(meta->charBits),     sizeof(meta->charBits),     1, fp) != 1 ||
+      fwrite(&(meta->freq_SA),      sizeof(meta->freq_SA),      1, fp) != 1 ||
+      fwrite(&(meta->freq_cnt_sb),  sizeof(meta->freq_cnt_sb),  1, fp) != 1 ||
+      fwrite(&(meta->freq_cnt_b),   sizeof(meta->freq_cnt_b),   1, fp) != 1 ||
+      fwrite(&(meta->block_count),  sizeof(meta->block_count),  1, fp) != 1 ||
+      fwrite(&(meta->seq_count),    sizeof(meta->seq_count),    1, fp) != 1 ||
+      fwrite(&(meta->ambig_list->count),  sizeof(meta->ambig_list->count),    1, fp) != 1 ||
+      fwrite(&total_char_count,     sizeof(total_char_count),   1, fp) != 1
+  )
+    esl_fatal( "%s: Error writing meta data for FM index.\n", argv[0]);
+
+
+  for (i=0; i<meta->seq_count; i++) {
+    if( fwrite(&(meta->seq_data[i].target_id),    sizeof(meta->seq_data[i].target_id),          1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].target_start), sizeof(meta->seq_data[i].target_start),       1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].fm_start),     sizeof(meta->seq_data[i].fm_start),  1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].length),       sizeof(meta->seq_data[i].length), 1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].name_length),  sizeof(meta->seq_data[i].name_length), 1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].acc_length),   sizeof(meta->seq_data[i].acc_length), 1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].source_length),sizeof(meta->seq_data[i].source_length), 1, fp) != 1 ||
+        fwrite(&(meta->seq_data[i].desc_length),  sizeof(meta->seq_data[i].desc_length), 1, fp) != 1 ||
+        fwrite(meta->seq_data[i].name,            sizeof(char),    meta->seq_data[i].name_length+1  , fp) !=  meta->seq_data[i].name_length+1 ||
+        fwrite(meta->seq_data[i].acc,             sizeof(char),    meta->seq_data[i].acc_length+1   , fp) !=  meta->seq_data[i].acc_length+1 ||
+        fwrite(meta->seq_data[i].source,          sizeof(char),    meta->seq_data[i].source_length+1, fp) !=  meta->seq_data[i].source_length+1 ||
+        fwrite(meta->seq_data[i].desc,            sizeof(char),    meta->seq_data[i].desc_length+1  , fp) !=  meta->seq_data[i].desc_length+1
+    )
+      esl_fatal( "%s: Error writing meta data for FM index.\n", argv[0]);
+  }
+
+
+  for (i=0; i<meta->ambig_list->count; i++) {
+    if( fwrite(&(meta->ambig_list->ranges[i].lower), sizeof(meta->ambig_list->ranges[i].lower),       1, fp) != 1 ||
+        fwrite(&(meta->ambig_list->ranges[i].upper), sizeof(meta->ambig_list->ranges[i].upper),       1, fp) != 1
+    )
+      esl_fatal( "%s: Error writing ambiguity data for FM index.\n", argv[0]);
+  }
+
+
+  /* now append the FM-index data in fptmp to the desired output file, fp */
+  rewind(fptmp);
+  for (i=0; i<numblocks; i++) {
+
+    for(j=0; j< (meta->fwd_only?1:2); j++ ) { //do this once or twice, once for forward-T index, and possibly once for reversed
+    //first, read
+    if(fread(&block_length, sizeof(block_length), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading block_length in FM index.\n", argv[0]);
+    if(fread(&term_loc, sizeof(term_loc), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading terminal location in FM index.\n", argv[0]);
+    if(fread(&seq_offset, sizeof(seq_offset), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading seq_offset in FM index.\n", argv[0]);
+    if(fread(&ambig_offset, sizeof(ambig_offset ), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading ambig_offset in FM index.\n", argv[0]);
+    if(fread(&overlap, sizeof(overlap), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading overlap in FM index.\n", argv[0]);
+    if(fread(&seq_cnt, sizeof(seq_cnt), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading seq_cnt in FM index.\n", argv[0]);
+    if(fread(&ambig_cnt, sizeof(ambig_cnt), 1, fptmp) !=  1)
+      esl_fatal( "%s: Error reading ambig_cnt in FM index.\n", argv[0]);
+
+
+    compressed_bytes =   ((chars_per_byte-1+block_length)/chars_per_byte);
+    num_freq_cnts_b  = 1+ceil((double)block_length/meta->freq_cnt_b);
+    num_freq_cnts_sb = 1+ceil((double)block_length/meta->freq_cnt_sb);
+    num_SA_samples   = 1+floor((double)block_length/meta->freq_SA);
+
+
+    //j==0 test cause T and SA to be written only for forward sequence
+    if(j==0 && fread(T, sizeof(uint8_t), compressed_bytes, fptmp) != compressed_bytes)
+      esl_fatal( "%s: Error reading T in FM index.\n", argv[0]);
+    if(fread(BWT, sizeof(uint8_t), compressed_bytes, fptmp) != compressed_bytes)
+      esl_fatal( "%s: Error reading BWT in FM index.\n", argv[0]);
+    if(j==0 && fread(SAsamp, sizeof(uint32_t), (size_t)num_SA_samples, fptmp) != (size_t)num_SA_samples)
+      esl_fatal( "%s: Error reading SA in FM index.\n", argv[0]);
+    if(fread(occCnts_b, sizeof(uint16_t)*(meta->alph_size), (size_t)num_freq_cnts_b, fptmp) != (size_t)num_freq_cnts_b)
+      esl_fatal( "%s: Error reading occCnts_b in FM index.\n", argv[0]);
+    if(fread(occCnts_sb, sizeof(uint32_t)*(meta->alph_size), (size_t)num_freq_cnts_sb, fptmp) != (size_t)num_freq_cnts_sb)
+      esl_fatal( "%s: Error reading occCnts_sb in FM index.\n", argv[0]);
+
+
+
+    //then, write
+    if(fwrite(&block_length, sizeof(block_length), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing block_length in FM index.\n", argv[0]);
+    if(fwrite(&term_loc, sizeof(term_loc), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing terminal location in FM index.\n", argv[0]);
+    if(fwrite(&seq_offset, sizeof(seq_offset), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing seq_offset in FM index.\n", argv[0]);
+    if(fwrite(&ambig_offset, sizeof(ambig_offset), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing ambig_offset in FM index.\n", argv[0]);
+    if(fwrite(&overlap, sizeof(overlap), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing overlap in FM index.\n", argv[0]);
+    if(fwrite(&seq_cnt, sizeof(seq_cnt), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing seq_cnt in FM index.\n", argv[0]);
+    if(fwrite(&ambig_cnt, sizeof(ambig_cnt), 1, fp) !=  1)
+      esl_fatal( "%s: Error writing ambig_cnt in FM index.\n", argv[0]);
+
+
+    if(j==0 && fwrite(T, sizeof(uint8_t), compressed_bytes, fp) != compressed_bytes)
+      esl_fatal( "%s: Error writing T in FM index.\n", argv[0]);
+    if(fwrite(BWT, sizeof(uint8_t), compressed_bytes, fp) != compressed_bytes)
+      esl_fatal( "%s: Error writing BWT in FM index.\n", argv[0]);
+    if(j==0 && fwrite(SAsamp, sizeof(uint32_t), (size_t)num_SA_samples, fp) != (size_t)num_SA_samples)
+      esl_fatal( "%s: Error writing SA in FM index.\n", argv[0]);
+    if(fwrite(occCnts_b, sizeof(uint16_t)*(meta->alph_size), (size_t)num_freq_cnts_b, fp) != (size_t)num_freq_cnts_b)
+      esl_fatal( "%s: Error writing occCnts_b in FM index.\n", argv[0]);
+    if(fwrite(occCnts_sb, sizeof(uint32_t)*(meta->alph_size), (size_t)num_freq_cnts_sb, fp) != (size_t)num_freq_cnts_sb)
+      esl_fatal( "%s: Error writing occCnts_sb in FM index.\n", argv[0]);
+
+    }
+  }
+
+  fclose(fp);
+  fclose(fptmp);
+  free(T);
+  free(BWT);
+  free(SA);
+  free(SAsamp);
+  free(occCnts_b);
+  free(cnts_b);
+  free(occCnts_sb);
+  free(cnts_sb);
+
+  fm_metaDestroy(meta);
+
+  esl_getopts_Destroy(go);
+
+
+  // compute and print the elapsed time in millisec
+  t2 = times(&ts2);
+  {
+    double clk_ticks = sysconf(_SC_CLK_TCK);
+    double elapsedTime = (t2-t1)/clk_ticks;
+
+    fprintf (stderr, "run time:  %.2f seconds\n", elapsedTime);
+  }
+
+
+  return (eslOK);
+
+
+ERROR:
+  /* Deallocate memory. */
+  if (fp)         fclose(fp);
+  if (T)          free(T);
+  if (BWT)        free(BWT);
+  if (SA)         free(SA);
+  if (SAsamp)     free(SAsamp);
+  if (occCnts_b)  free(occCnts_b);
+  if (cnts_b)     free(cnts_b);
+  if (occCnts_sb) free(occCnts_sb);
+  if (cnts_sb)    free(cnts_sb);
+  if (ambig_list.ranges) free(ambig_list.ranges);
+
+  fm_metaDestroy(meta);
+  esl_getopts_Destroy(go);
+
+
+  esl_sqfile_Close(sqfp);
+  esl_alphabet_Destroy(abc);
+  esl_sq_Destroy(sq);
+  if (tmpsq) esl_sq_Destroy(tmpsq);
+  if (block) esl_sq_DestroyBlock(block);
+
+  fprintf (stderr, "failure during memory allocation\n");
+
+  exit(status);
+
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/modelconfig.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/modelconfig.c
new file mode 100755
index 0000000..2b2e576
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/modelconfig.c
@@ -0,0 +1,1131 @@
+/* Model configuration: 
+ * Converting a core model to a fully configured Plan7 search profile.
+ * 
+ * Contents:
+ *     1. Routines in the exposed API.
+ *     2. Unit tests.
+ *     3. Test driver.
+ *     4. Statistics collection driver.
+ *     5. Copyright and license
+ * 
+ * Revised May 2005: xref STL9/77-81.       (Uniform fragment distribution)
+ * Again, Sept 2005: xref STL10/24-26.      (Inherent target length dependency)
+ * Again, Jan 2007:  xref STL11/125,136-137 (HMMER3)
+ * Again, Jul 2007:  xref J1/103            (floating point ops)
+ */
+#include "p7_config.h"
+
+#include <math.h>
+#include <float.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. Routines in the exposed API.
+ *****************************************************************/
+ 
+/* Function:  p7_ProfileConfig()
+ * Synopsis:  Configure a search profile.
+ *
+ * Purpose:   Given a model <hmm> with core probabilities, the null1
+ *            model <bg>, a desired search <mode> (one of <p7_LOCAL>,
+ *            <p7_GLOCAL>, <p7_UNILOCAL>, or <p7_UNIGLOCAL>), and an
+ *            expected target sequence length <L>; configure the
+ *            search model in <gm> with lod scores relative to the
+ *            background frequencies in <bg>.
+ *            
+ * Returns:   <eslOK> on success; the profile <gm> now contains 
+ *            scores and is ready for searching target sequences.
+ *            
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_ProfileConfig(const P7_HMM *hmm, const P7_BG *bg, P7_PROFILE *gm, int L, int mode)
+{
+  int   k, x, z;	/* counters over states, residues, annotation */
+  int   status;
+  float *occ = NULL;
+  float *tp, *rp;
+  float  sc[p7_MAXCODE];
+  float  Z;
+ 
+  /* Contract checks */
+  if (gm->abc->type != hmm->abc->type) ESL_XEXCEPTION(eslEINVAL, "HMM and profile alphabet don't match");
+  if (hmm->M > gm->allocM)             ESL_XEXCEPTION(eslEINVAL, "profile too small to hold HMM");
+  if (! (hmm->flags & p7H_CONS))       ESL_XEXCEPTION(eslEINVAL, "HMM must have a consensus to transfer to the profile");
+
+  /* Copy some pointer references and other info across from HMM  */
+  gm->M                = hmm->M;
+  gm->max_length       = hmm->max_length;
+  gm->mode             = mode;
+  gm->roff             = -1;
+  gm->eoff             = -1;
+  gm->offs[p7_MOFFSET] = -1;
+  gm->offs[p7_FOFFSET] = -1;
+  gm->offs[p7_POFFSET] = -1;
+  if (gm->name != NULL) free(gm->name);
+  if (gm->acc  != NULL) free(gm->acc);
+  if (gm->desc != NULL) free(gm->desc);
+  if ((status = esl_strdup(hmm->name,   -1, &(gm->name))) != eslOK) goto ERROR;
+  if ((status = esl_strdup(hmm->acc,    -1, &(gm->acc)))  != eslOK) goto ERROR;
+  if ((status = esl_strdup(hmm->desc,   -1, &(gm->desc))) != eslOK) goto ERROR;
+  if (hmm->flags & p7H_RF)    strcpy(gm->rf,        hmm->rf);
+  if (hmm->flags & p7H_MMASK) strcpy(gm->mm,        hmm->mm);
+  if (hmm->flags & p7H_CONS)  strcpy(gm->consensus, hmm->consensus); /* must be present, actually, so the flag test is just for symmetry w/ other optional HMM fields */
+  if (hmm->flags & p7H_CS)    strcpy(gm->cs,        hmm->cs);
+  for (z = 0; z < p7_NEVPARAM; z++) gm->evparam[z] = hmm->evparam[z];
+  for (z = 0; z < p7_NCUTOFFS; z++) gm->cutoff[z]  = hmm->cutoff[z];
+  for (z = 0; z < p7_MAXABET;  z++) gm->compo[z]   = hmm->compo[z];
+
+  /* Entry scores. */
+  if (p7_profile_IsLocal(gm))
+    {
+      /* Local mode entry:  occ[k] /( \sum_i occ[i] * (M-i+1))
+       * (Reduces to uniform 2/(M(M+1)) for occupancies of 1.0)  */
+      Z = 0.;
+      ESL_ALLOC(occ, sizeof(float) * (hmm->M+1));
+
+      if ((status = p7_hmm_CalculateOccupancy(hmm, occ, NULL)) != eslOK) goto ERROR;
+      for (k = 1; k <= hmm->M; k++) 
+	Z += occ[k] * (float) (hmm->M-k+1);
+      for (k = 1; k <= hmm->M; k++) 
+	p7P_TSC(gm, k-1, p7P_BM) = log(occ[k] / Z); /* note off-by-one: entry at Mk stored as [k-1][BM] */
+
+      free(occ);
+    }
+  else	/* glocal modes: left wing retraction; must be in log space for precision */
+    {
+      Z = log(hmm->t[0][p7H_MD]);
+      p7P_TSC(gm, 0, p7P_BM) = log(1.0 - hmm->t[0][p7H_MD]);
+      for (k = 1; k < hmm->M; k++) 
+	{
+	   p7P_TSC(gm, k, p7P_BM) = Z + log(hmm->t[k][p7H_DM]);
+	   Z += log(hmm->t[k][p7H_DD]);
+	}
+    }
+
+  /* E state loop/move probabilities: nonzero for MOVE allows loops/multihits
+   * N,C,J transitions are set later by length config 
+   */
+  if (p7_profile_IsMultihit(gm)) {
+    gm->xsc[p7P_E][p7P_MOVE] = -eslCONST_LOG2;   
+    gm->xsc[p7P_E][p7P_LOOP] = -eslCONST_LOG2;   
+    gm->nj                   = 1.0f;
+  } else {
+    gm->xsc[p7P_E][p7P_MOVE] = 0.0f;   
+    gm->xsc[p7P_E][p7P_LOOP] = -eslINFINITY;  
+    gm->nj                   = 0.0f;
+  }
+
+  /* Transition scores. */
+  for (k = 1; k < gm->M; k++) {
+    tp = gm->tsc + k * p7P_NTRANS;
+    tp[p7P_MM] = log(hmm->t[k][p7H_MM]);
+    tp[p7P_MI] = log(hmm->t[k][p7H_MI]);
+    tp[p7P_MD] = log(hmm->t[k][p7H_MD]);
+    tp[p7P_IM] = log(hmm->t[k][p7H_IM]);
+    tp[p7P_II] = log(hmm->t[k][p7H_II]);
+    tp[p7P_DM] = log(hmm->t[k][p7H_DM]);
+    tp[p7P_DD] = log(hmm->t[k][p7H_DD]);
+  }
+  
+  /* Match emission scores. */
+  sc[hmm->abc->K]     = -eslINFINITY; /* gap character */
+  sc[hmm->abc->Kp-2]  = -eslINFINITY; /* nonresidue character */
+  sc[hmm->abc->Kp-1]  = -eslINFINITY; /* missing data character */
+  for (k = 1; k <= hmm->M; k++) {
+    for (x = 0; x < hmm->abc->K; x++)
+     sc[x] = log((double)hmm->mat[k][x] / bg->f[x]);
+
+    esl_abc_FExpectScVec(hmm->abc, sc, bg->f); 
+
+    for (x = 0; x < hmm->abc->Kp; x++) {
+      rp = gm->rsc[x] + k * p7P_NR;
+      rp[p7P_MSC] = sc[x];
+    }
+  }
+
+  /* Insert emission scores */
+  /* SRE, Fri Dec 5 08:41:08 2008: We currently hardwire insert scores
+   * to 0, i.e. corresponding to the insertion emission probabilities
+   * being equal to the background probabilities. Benchmarking shows
+   * that setting inserts to informative emission distributions causes
+   * more problems than it's worth: polar biased composition hits
+   * driven by stretches of "insertion" occur, and are difficult to
+   * correct for.
+   */
+  for (x = 0; x < gm->abc->Kp; x++)
+    {
+      for (k = 1; k < hmm->M; k++) p7P_ISC(gm, k, x) = 0.0f;
+      p7P_ISC(gm, hmm->M, x) = -eslINFINITY;   /* init I_M to impossible.   */
+    }
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->K)    = -eslINFINITY; /* gap symbol */
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->Kp-2) = -eslINFINITY; /* nonresidue symbol */
+  for (k = 1; k <= hmm->M; k++) p7P_ISC(gm, k, gm->abc->Kp-1) = -eslINFINITY; /* missing data symbol */
+
+
+#if 0
+  /* original (informative) insert setting: relies on sc[K, Kp-1] initialization to -inf above */
+  for (k = 1; k < hmm->M; k++) {
+    for (x = 0; x < hmm->abc->K; x++) 
+      sc[x] = log(hmm->ins[k][x] / bg->f[x]); 
+    esl_abc_FExpectScVec(hmm->abc, sc, bg->f); 
+    for (x = 0; x < hmm->abc->Kp; x++) {
+      rp = gm->rsc[x] + k*p7P_NR;
+      rp[p7P_ISC] = sc[x];
+    }
+  }    
+  for (x = 0; x < hmm->abc->Kp; x++)
+    p7P_ISC(gm, hmm->M, x) = -eslINFINITY;   /* init I_M to impossible.   */
+#endif
+
+  /* Remaining specials, [NCJ][MOVE | LOOP] are set by ReconfigLength()
+   */
+  gm->L = 0;			/* force ReconfigLength to reconfig */
+  if ((status = p7_ReconfigLength(gm, L)) != eslOK) goto ERROR;
+  return eslOK;
+
+ ERROR:
+  if (occ != NULL) free(occ);
+  return status;
+}
+
+
+/* Function:  p7_ReconfigLength()
+ * Synopsis:  Set the target sequence length of a model.
+ *
+ * Purpose:   Given a model already configured for scoring, in some
+ *            particular algorithm mode; reset the expected length
+ *            distribution of the profile for a new mean of <L>.
+ *
+ *            This doesn't affect the length distribution of the null
+ *            model. That must also be reset, using <p7_bg_SetLength()>.
+ *            
+ *            We want this routine to run as fast as possible, because
+ *            the caller needs to dynamically reconfigure the model
+ *            for the length of each target sequence in a database
+ *            search. The profile has precalculated <gm->nj>, 
+ *            the number of times the J state is expected to be used,
+ *            based on the E state loop transition in the current
+ *            configuration.
+ *
+ * Returns:   <eslOK> on success; xsc[NCJ] scores are set here. These
+ *            control the target length dependence of the model.
+ */
+int
+p7_ReconfigLength(P7_PROFILE *gm, int L)
+{
+  float ploop, pmove;
+  
+  /* Configure N,J,C transitions so they bear L/(2+nj) of the total
+   * unannotated sequence length L. 
+   */
+  pmove = (2.0f + gm->nj) / ((float) L + 2.0f + gm->nj); /* 2/(L+2) for sw; 3/(L+3) for fs */
+  ploop = 1.0f - pmove;
+  gm->xsc[p7P_N][p7P_LOOP] =  gm->xsc[p7P_C][p7P_LOOP] = gm->xsc[p7P_J][p7P_LOOP] = log(ploop);
+  gm->xsc[p7P_N][p7P_MOVE] =  gm->xsc[p7P_C][p7P_MOVE] = gm->xsc[p7P_J][p7P_MOVE] = log(pmove);
+  gm->L = L;
+  return eslOK;
+}
+
+/* Function:  p7_ReconfigMultihit()
+ * Synopsis:  Quickly reconfig model into multihit mode for target length <L>.
+ *
+ * Purpose:   Given a profile <gm> that's already been configured once,
+ *            quickly reconfigure it into a multihit mode for target 
+ *            length <L>. 
+ *            
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit <L=0> mode to
+ *            process individual domains.
+ *            
+ * Note:      You can't just flip uni/multi mode alone, because that
+ *            parameterization also affects target length
+ *            modeling. You need to make sure uni vs. multi choice is
+ *            made before the length model is set, and you need to
+ *            make sure the length model is recalculated if you change
+ *            the uni/multi mode. Hence, these functions call
+ *            <p7_ReconfigLength()>.
+ */
+int
+p7_ReconfigMultihit(P7_PROFILE *gm, int L)
+{
+  gm->xsc[p7P_E][p7P_MOVE] = -eslCONST_LOG2;   
+  gm->xsc[p7P_E][p7P_LOOP] = -eslCONST_LOG2;   
+  gm->nj                   = 1.0f;
+  return p7_ReconfigLength(gm, L);
+}
+
+/* Function:  p7_ReconfigUnihit()
+ * Synopsis:  Quickly reconfig model into unihit mode for target length <L>.
+ *
+ * Purpose:   Given a profile <gm> that's already been configured once,
+ *            quickly reconfigure it into a unihit mode for target 
+ *            length <L>. 
+ *            
+ *            This gets called in domain definition, when we need to
+ *            flip the model in and out of unihit <L=0> mode to
+ *            process individual domains.
+ */
+int
+p7_ReconfigUnihit(P7_PROFILE *gm, int L)
+{
+  gm->xsc[p7P_E][p7P_MOVE] = 0.0f;   
+  gm->xsc[p7P_E][p7P_LOOP] = -eslINFINITY;  
+  gm->nj                   = 0.0f;
+  return p7_ReconfigLength(gm, L);
+}
+
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+#ifdef p7MODELCONFIG_TESTDRIVE
+
+/* The Config test simply makes sure a random profile passes
+ * a Validate() check.
+ */
+static void
+utest_Config(P7_HMM *hmm, P7_BG *bg)
+{
+  char       *msg = "modelconfig.c::p7_ProfileConfig() unit test failed";
+  P7_PROFILE *gm  = NULL;
+
+  if ((gm = p7_profile_Create(hmm->M, hmm->abc))    == NULL)   esl_fatal(msg);
+  if (p7_ProfileConfig(hmm, bg, gm, 350, p7_LOCAL)  != eslOK)  esl_fatal(msg);
+  if (p7_profile_Validate(gm, NULL, 0.0001)         != eslOK)  esl_fatal(msg);
+
+  p7_profile_Destroy(gm);
+  return;
+}
+
+/* Note that calculate_occupancy has moved to p7_hmm.c, but
+ * unit tests over there aren't hooked up yet; so leave a copy of the unit test 
+ * here for now.
+ */
+static void
+utest_occupancy(P7_HMM *hmm)
+{
+  char  *msg = "modelconfig.c::calculate_occupancy() unit test failed";
+  float *occ;
+  float  x;
+
+  occ = malloc(sizeof(float) * (hmm->M+1));
+  p7_hmm_CalculateOccupancy(hmm, occ, NULL);
+  x = esl_vec_FSum(occ+1, hmm->M) / (float) hmm->M;
+  if (esl_FCompare(x, 0.6, 0.1) != eslOK)           esl_fatal(msg);
+  free(occ);
+  return;
+}
+#endif /*p7MODELCONFIG_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+#ifdef p7MODELCONFIG_TESTDRIVE
+
+/* gcc -g -Wall -Dp7MODELCONFIG_TESTDRIVE -I. -I../easel -L. -L../easel -o modelconfig_utest modelconfig.c -lhmmer -leasel -lm
+ * ./modelconfig_utest
+ */
+#include "easel.h"
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+
+int
+main(int argc, char **argv)
+{  
+  ESL_ALPHABET   *abc    = NULL;
+  ESL_RANDOMNESS *r      = NULL;
+  P7_HMM         *hmm    = NULL;
+  P7_BG          *bg     = NULL;
+  int             M      = 10000;
+  
+  if ((abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create amino alphabet");
+  if ((r   = esl_randomness_CreateFast(0))  == NULL)  esl_fatal("failed to create randomness");
+  if (p7_hmm_Sample(r, M, abc, &hmm)        != eslOK) esl_fatal("failed to sample random HMM");
+  if ((bg = p7_bg_Create(abc))              == NULL)  esl_fatal("failed to created null model");
+
+  utest_Config(hmm, bg);
+  utest_occupancy(hmm);
+
+  p7_hmm_Destroy(hmm);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  return eslOK;
+}
+#endif /*p7MODELCONFIG_TESTDRIVE*/
+
+
+
+/*****************************************************************
+ * 4. Statistics collection driver.
+ *****************************************************************/
+#ifdef p7MODELCONFIG_STATS
+/* gcc -g -Wall -Dp7MODELCONFIG_STATS -I. -I../easel -L. -L../easel -o statprog modelconfig.c -lhmmer -leasel -lm
+ * ./statprog
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "show brief help on version and usage",       0 },
+  { "-i",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "sample by two-step ideal rule, not from profile", 0},
+  { "-m",        eslARG_INFILE,  NULL, NULL, NULL,      NULL,      NULL, "-u,-M", "input HMM from file <f> instead of sampling",0 },
+  { "-n",        eslARG_INT, "100000", NULL, "n>0",     NULL,      NULL,    NULL, "number of seqs to sample",                   0 },
+  { "-s",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL, "-m,-u", "make sampled HMM uniform transitions, as S/W", 0},
+  { "-u",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL, "-m,-s", "make sampled HMM ungapped",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL,"n>=0",     NULL,      NULL,    NULL, "set expected length from profile to <n>",    0 },
+  { "-M",        eslARG_INT,     "50", NULL, "n>0",     NULL,      NULL,    "-m", "set sampled model length to <n>",            0 },
+  { "-2",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "emulate HMMER2 configuration",               0 },
+  { "--ips",     eslARG_OUTFILE, NULL, NULL, NULL,      NULL,      NULL,    NULL, "output PostScript mx of i endpoints to <f>", 0 },
+  { "--kps",     eslARG_OUTFILE, NULL, NULL, NULL,      NULL,      NULL,    NULL, "output PostScript mx of k endpoints to <f>", 0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[] = "./statprog [options]";
+
+static int ideal_local_endpoints(ESL_RANDOMNESS *r, P7_HMM *hmm, ESL_SQ *sq, P7_TRACE *tr, int Lbins,
+				 int *ret_i1, int *ret_i2, int *ret_k1, int *ret_k2);
+static int profile_local_endpoints(ESL_RANDOMNESS *r, P7_HMM *core, P7_PROFILE *gm, ESL_SQ *sq, P7_TRACE *tr, int Lbins,
+				   int *ret_i1, int *ret_i2, int *ret_k1, int *ret_k2);
+
+int
+main(int argc, char **argv)
+{
+  ESL_ALPHABET    *abc     = NULL;     /* sequence alphabet                       */
+  ESL_GETOPTS     *go      = NULL;     /* command line processing                 */
+  ESL_RANDOMNESS  *r       = NULL;     /* source of randomness                    */
+  P7_HMM          *hmm     = NULL;     /* sampled HMM to emit from                */
+  P7_HMM          *core    = NULL;     /* safe copy of the HMM, before config     */
+  P7_BG           *bg      = NULL;     /* null model                              */
+  ESL_SQ          *sq      = NULL;     /* sampled sequence                        */
+  P7_TRACE        *tr      = NULL;     /* sampled trace                           */
+  P7_PROFILE      *gm      = NULL;     /* profile                                 */
+  int              i,j;
+  int              i1,i2;
+  int              k1,k2;
+  int              iseq;
+  FILE            *fp      = NULL;
+  double           expected;
+
+  int              do_ilocal;
+  char            *hmmfile = NULL;
+  int              nseq;
+  int              do_swlike;
+  int              do_ungapped;
+  int              L;
+  int              M;
+  int              do_h2;
+  char            *ipsfile = NULL;
+  char            *kpsfile = NULL;
+  ESL_DMATRIX     *imx     = NULL;
+  ESL_DMATRIX     *kmx     = NULL;
+  ESL_DMATRIX     *iref    = NULL; /* reference matrix: expected i distribution under ideality */
+  int              Lbins;
+  int              status;
+  char             errbuf[eslERRBUFSIZE];
+  
+  /*****************************************************************
+   * Parse the command line
+   *****************************************************************/
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal("Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal("Failed to parse command line: %s\n", go->errbuf);
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) {
+    puts(usage);
+    puts("\n  where options are:\n");
+    esl_opt_DisplayHelp(stdout, go, 0, 2, 80); /* 0=all docgroups; 2 = indentation; 80=textwidth*/
+    return eslOK;
+  }
+  do_ilocal   = esl_opt_GetBoolean(go, "-i");
+  hmmfile     = esl_opt_GetString (go, "-m");
+  nseq        = esl_opt_GetInteger(go, "-n");
+  do_swlike   = esl_opt_GetBoolean(go, "-s");
+  do_ungapped = esl_opt_GetBoolean(go, "-u");
+  L           = esl_opt_GetInteger(go, "-L");
+  M           = esl_opt_GetInteger(go, "-M");
+  do_h2       = esl_opt_GetBoolean(go, "-2");
+  ipsfile     = esl_opt_GetString (go, "--ips");
+  kpsfile     = esl_opt_GetString (go, "--kps");
+
+  if (esl_opt_ArgNumber(go) != 0) {
+    puts("Incorrect number of command line arguments.");
+    printf("Usage: %s [options]\n", argv[0]);
+    return eslFAIL;
+  }
+
+  r = esl_randomness_CreateFast(0);
+
+  if (hmmfile != NULL)
+    {	/* Read the HMM (and get alphabet from it) */
+      P7_HMMFILE      *hfp     = NULL;
+
+      status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+      if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+      else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+      else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+    
+      if ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) != eslOK) {
+	if      (status == eslEOD)       esl_fatal("read failed, HMM file %s may be truncated?", hmmfile);
+	else if (status == eslEFORMAT)   esl_fatal("bad file format in HMM file %s", hmmfile);
+	else if (status == eslEINCOMPAT) esl_fatal("HMM file %s contains different alphabets", hmmfile);
+	else                             esl_fatal("Unexpected error in reading HMMs");
+      }
+      M = hmm->M;
+      p7_hmmfile_Close(hfp);
+    }
+  else
+    {			/* Or sample the HMM (create alphabet first) */
+      abc = esl_alphabet_Create(eslAMINO);    
+      if      (do_ungapped) p7_hmm_SampleUngapped(r, M, abc, &hmm);
+      else if (do_swlike)   p7_hmm_SampleUniform (r, M, abc, 0.05, 0.5, 0.05, 0.2, &hmm); /* tmi, tii, tmd, tdd */
+      else                  p7_hmm_Sample        (r, M, abc, &hmm);
+    }
+
+  Lbins = M;
+  imx  = esl_dmatrix_Create(Lbins, Lbins);
+  iref = esl_dmatrix_Create(Lbins, Lbins);
+  kmx  = esl_dmatrix_Create(M, M);
+  esl_dmatrix_SetZero(imx);
+  esl_dmatrix_SetZero(iref);
+  esl_dmatrix_SetZero(kmx);
+  tr    = p7_trace_Create();
+  sq    = esl_sq_CreateDigital(abc);
+  bg    = p7_bg_Create(abc);
+  core  = p7_hmm_Clone(hmm);
+
+  if (do_h2) {
+    gm = p7_profile_Create(hmm->M, abc);
+    p7_H2_ProfileConfig(hmm, bg, gm, p7_UNILOCAL);
+  } else {
+    gm = p7_profile_Create(hmm->M, abc);
+    p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL);
+    if (p7_hmm_Validate    (hmm, NULL, 0.0001) != eslOK) esl_fatal("whoops, HMM is bad!");
+    if (p7_profile_Validate(gm,  NULL, 0.0001) != eslOK) esl_fatal("whoops, profile is bad!");
+  }
+
+  /* Sample endpoints.
+   * Also sample an ideal reference distribution for i endpoints.  i
+   * endpoints are prone to discretization artifacts, when emitted
+   * sequences have varying lengths. Taking log odds w.r.t. an ideal
+   * reference that is subject to the same discretization artifacts 
+   * cancels out the effect.
+   */
+  for (iseq = 0; iseq < nseq; iseq++)
+    {				
+      if (do_ilocal) ideal_local_endpoints  (r, core,     sq, tr, Lbins, &i1, &i2, &k1, &k2);
+      else           profile_local_endpoints(r, core, gm, sq, tr, Lbins, &i1, &i2, &k1, &k2);
+
+      imx->mx[i1-1][i2-1] += 1.;
+      kmx->mx[k1-1][k2-1] += 1.; 
+
+      /* reference distribution for i */
+      ideal_local_endpoints  (r, core, sq, tr, Lbins, &i1, &i2, &k1, &k2);
+      iref->mx[i1-1][i2-1] += 1.;
+    }
+
+
+  /* Adjust both mx's to log_2(obs/exp) ratio */
+  printf("Before normalization/log-odds:\n");
+  printf("   i matrix values range from %f to %f\n", dmx_upper_min(imx), dmx_upper_max(imx));
+  printf("   k matrix values range from %f to %f\n", dmx_upper_min(kmx), dmx_upper_max(kmx));
+  printf("iref matrix values range from %f to %f\n", dmx_upper_min(iref), dmx_upper_max(iref));
+
+  expected = (double) nseq * 2. / (double) (M*(M+1));
+  for (i = 0; i < kmx->m; i++)
+    for (j = i; j < kmx->n; j++)
+      kmx->mx[i][j] = log(kmx->mx[i][j] / expected) / log(2.0);
+
+  for (i = 0; i < imx->m; i++)
+    for (j = i; j < imx->m; j++)
+      if (iref->mx[i][j] == 0. && imx->mx[i][j] == 0.) 
+	imx->mx[i][j] = 0.;
+      else if (iref->mx[i][j] == 0.)
+	imx->mx[i][j] = eslINFINITY;
+      else if (imx->mx[i][j] == 0.)
+	imx->mx[i][j] = -eslINFINITY;
+      else
+	imx->mx[i][j] = log(imx->mx[i][j] / iref->mx[i][j]) / log(2.0);
+  
+  /* Print ps files */
+  if (kpsfile != NULL) {
+    if ((fp = fopen(kpsfile, "w")) == NULL) esl_fatal("Failed to open output postscript file %s", kpsfile);
+    dmx_Visualize(fp, kmx, -4., 5.);
+    fclose(fp);
+  }
+  if (ipsfile != NULL) {
+    if ((fp = fopen(ipsfile, "w")) == NULL) esl_fatal("Failed to open output postscript file %s", ipsfile);
+    dmx_Visualize(fp, imx, -4., 5.); 
+    /* dmx_Visualize(fp, imx, dmx_upper_min(imx), dmx_upper_max(imx)); */
+    fclose(fp);
+  }
+
+  printf("After normalization/log-odds:\n");
+  printf("i matrix values range from %f to %f\n", dmx_upper_min(imx), dmx_upper_max(imx));
+  printf("k matrix values range from %f to %f\n", dmx_upper_min(kmx), dmx_upper_max(kmx));
+
+  
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(core);
+  p7_hmm_Destroy(hmm);
+  p7_trace_Destroy(tr);
+  esl_sq_Destroy(sq);
+  esl_dmatrix_Destroy(imx);
+  esl_dmatrix_Destroy(kmx);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+
+/* ideal_local_endpoints()
+ *
+ * Purpose:  Implementation of the "two-step" fragment sampling
+ *           algorithm, sampling a uniform local fragment w.r.t.
+ *           sequence coords, by first sampling a complete
+ *           sequence of length L from <hmm>; then choosing
+ *           a random fragment <i1..i2> uniformly from all
+ *           possible $\frac{L(L+1)/2}$ fragments;  then finding
+ *           local alignment coordinates wrt model and sequence,
+ *           using convention that local alignment starts/stops
+ *           with match states. (Thus, if the initially selected
+ *           i1 or i2 were generated by insert states, bounds
+ *           are moved to reach first/last match state.)
+ *           
+ *           The caller also provides an allocated sequence <sq> and
+ *           traceback <tr>, as storage to be provided to
+ *           <p7_CoreEmit()>. They contain the generated global
+ *           sequence and trace upon return (not a local trace, note).
+ *           
+ *           i endpoints are normalized/discretized to 1..<Lbins>, so
+ *           we can collate i statistics from sampled sequences of
+ *           varying L. Note this causes discretization artifacts,
+ *           leading to underrepresentation of j=M and
+ *           overrepresentation of i=1.
+ *           
+ *           This routine is only intended for collecting endpoint
+ *           statistics (i1,i2,k1,k2); it does not generate a local
+ *           alignment trace. (xref milestone 2, STL11/115).
+ *           
+ * Returns:  <eslOK> on success; returns normalized/binned sequence
+ *           coords in <*ret_i1> and <*ret_i2> in range <1..Lbins> and
+ *           the model entry/exit coords in <*ret_k1> and <*ret_k2> in
+ *           range <1..M>. By internal def'n of local alignment endpoints,
+ *           M_k1 emits residue x_i1, M_k2 emits residue x_i2.
+ *           
+ * Xref:     STL11/142-143 
+ */
+static int
+ideal_local_endpoints(ESL_RANDOMNESS *r, P7_HMM *hmm, ESL_SQ *sq, P7_TRACE *tr, int Lbins,
+		      int *ret_i1, int *ret_i2, int *ret_k1, int *ret_k2)
+{
+  int status;
+  int tpos;
+  int i1, i2, k1,k2, t1,t2;
+  int all_insert;
+  int failsafe = 0;		/* a failsafe timer for rejection sampling */
+
+  do {
+    if (failsafe++ == 1000) ESL_XEXCEPTION(eslENOHALT, "failed to obtain local alignment that wasn't all inserts");
+
+    if ((status = p7_CoreEmit(r, hmm, sq, tr)) != eslOK) goto ERROR;
+
+    /* a simple way to sample uniformly from upper triangle is by rejection 
+     * this do/while cannot infinite loop, doesn't need failsafe 
+     */
+    do {
+      i1 = 1 + esl_rnd_Roll(r, sq->n);
+      i2 = 1 + esl_rnd_Roll(r, sq->n);
+    } while (i1 > i2);
+
+    /* Get initial k1,k2 coords: this step must work in a core model, 
+     * i1/i2 were generated by an M or I. Also record t1,t2 endpoints
+     * on core's trace.
+     */
+    for (tpos = 0; tpos < tr->N; tpos++)
+      if (tr->i[tpos] == i1) { t1 = tpos; k1 = tr->k[tpos]; break; }
+    for (tpos = tr->N-1; tpos >= 0; tpos--)
+      if (tr->i[tpos] == i2) { t2 = tpos; k2 = tr->k[tpos]; break; }
+
+    /* Enforce the definition of local alignment endpoints being
+     * match-delimited - roll up any leading/trailing I states. 
+     * Watch out for pathological case of a local fragment that
+     * includes no M state at all.
+     */
+    all_insert = FALSE;
+    for (; t1 <= t2; t1++) if (tr->st[t1] == p7T_M) break;
+    for (; t2 >= t1; t2--) if (tr->st[t2] == p7T_M) break;
+    if (t2 < t1) all_insert = TRUE; /* sufficient to check both. */
+    i1 = tr->i[t1];  i2 = tr->i[t2];
+    k1 = tr->k[t1];  k2 = tr->k[t2];
+  } while (all_insert);
+
+  /* Normalize sequence coords.
+   * They're 1..L now; make them 1..Lbins
+   */
+  *ret_i1 = ((i1-1) * Lbins / sq->n) + 1;
+  *ret_i2 = ((i2-1) * Lbins / sq->n) + 1;
+  *ret_k1 = k1;
+  *ret_k2 = k2;
+  return eslOK;
+
+ ERROR:
+  *ret_i1 = 0.;
+  *ret_i2 = 0.;
+  *ret_k1 = 0;
+  *ret_k2 = 0;
+  return status;
+}
+
+/* profile_local_endpoints()
+ *
+ * Purpose:   Wrapper around <p7_ProfileEmit()>, sampling a local
+ *            alignment fragment from the profile's probabilistic model
+ *            (which may be the implicit model of HMMER3, or the
+ *            Plan7 model of HMMER2), and reporting coordinates
+ *            of the fragment w.r.t. both model and sequence.
+ *            
+ *            To simplify the implementation, the profile must be in
+ *            <p7_UNILOCAL> mode, not <p7_LOCAL> mode, so we know we
+ *            only have to deal with a single hit per sampled
+ *            sequence. 
+ *            
+ *            We want <i1..i2> to be relative to the sequence coords
+ *            of a complete (global) sampled sequence that we could
+ *            have sampled this local alignment from; but the <i1..i2>
+ *            we initially get are relative to our profile-sampled
+ *            trace, so they are offset both by N-generated residues
+ *            that occur in the profile and by residues that the
+ *            profile's local entry skipped. To translate from
+ *            profile/sequence coords to core model/sequence coords,
+ *            we use rejection sampling: sample traces from the core
+ *            model until we find one that uses the same statetypes
+ *            at *initial* entry/exit points <k1>,<k2>, then use
+ *            that sample's sequence to determine offsets and correct
+ *            <i1..i2> reference frame.
+ *            
+ *            Local alignment endpoints are defined to be
+ *            match-delimited. However, an H3 model allows exit on
+ *            either a D or M state. Thus, the initially sampled end
+ *            point k2 may need to be rolled back to last M state, to
+ *            satisfy local alignment endpoint definition. Entries are
+ *            not a problem; both H2 and H3 profiles can only enter on
+ *            a M state. (This rollback has to occur after we've
+ *            matched a core trace to the profile trace to determine
+ *            i offsets.)
+ *            
+ *            Then, sampling from both the core model and the profile
+ *            in the same routine introduces a complication:
+ *            conceivably, profile configuration alters the transition
+ *            probabilities in the core model (by adding <M->E>
+ *            transitions and renormalizing the M transition
+ *            distributions, for example; H2 configuration does this,
+ *            though H3 does not). So you can't <CoreSample()> the
+ *            <gm->hmm> safely. To avoid such things, the caller
+ *            provides a clean copy of the core model in <core>.
+ *            
+ *           i endpoints are normalized/discretized to 1..<Lbins>, so
+ *           we can collate i statistics from sampled sequences of
+ *           varying L. Note this causes discretization artifacts,
+ *           leading to underrepresentation of j=M and
+ *           overrepresentation of i=1.
+ *           
+ * Returns:  <eslOK> on success; returns normalized sequence coords in
+ *           <*ret_i1> and <*ret_i2>, and the model entry/exit coords
+ *           in <*ret_k1> and <*ret_k2>. 
+ *           
+ * Xref:     STL11/142-143 
+ */
+static int
+profile_local_endpoints(ESL_RANDOMNESS *r, P7_HMM *core, P7_PROFILE *gm, ESL_SQ *sq, P7_TRACE *tr, int Lbins,
+			int *ret_i1, int *ret_i2, int *ret_k1, int *ret_k2)
+{
+  int status;
+  int i1,i2;
+  int k1,k2;
+  int t1,t2;			/* entry/exit positions in local trace, tr */
+  int tg1, tg2;			/* entry/exit positions in global trace, tr2 */
+  int tpos;
+  int nterm, cterm;		/* offsets at N, C terminus. */
+  int L;			/* inferred length from 3-part patching */
+  ESL_SQ *sq2   = NULL;
+  P7_TRACE *tr2 = NULL;
+  int failsafe  = 0;
+  
+  if (gm->mode != p7_UNILOCAL) ESL_XEXCEPTION(eslEINVAL, "profile must be unilocal");
+  if ((sq2 = esl_sq_CreateDigital(gm->abc))  == NULL)   { status = eslEMEM; goto ERROR; }
+  if ((tr  = p7_trace_Create())              == NULL)   { status = eslEMEM; goto ERROR; }
+
+  /* sample local alignment from the implicit model */
+  if (gm->h2_mode) {
+    if ((status = p7_H2_ProfileEmit(r, gm, sq, tr)) != eslOK) goto ERROR;
+  } else {
+    if ((status = p7_ProfileEmit(r, gm, sq, tr)) != eslOK) goto ERROR;
+  }
+    
+  /* Get initial trace coords */
+  for (tpos = 0;       tpos < tr->N; tpos++)  if (tr->st[tpos] == p7T_B) { t1 = tpos+1; break; }
+  for (tpos = tr->N-1; tpos >= 0;    tpos--)  if (tr->st[tpos] == p7T_E) { t2 = tpos-1; break; }
+  
+  /* Match a core trace to this local trace by rejection sampling;
+   * this is to let us calculate sequence offsets; see comments above in preamble
+   */
+  do {
+    if (failsafe++ == 100000) ESL_XEXCEPTION(eslENOHALT, "failed to match core,local traces in %d tries\n", failsafe);
+
+    if ((status = p7_CoreEmit(r, core, sq2, tr2)) != eslOK) goto ERROR;
+    for (tpos = 0; tpos < tr2->N; tpos++)
+      if (tr2->k[tpos] == tr->k[t1]) { tg1 = tpos; break; }
+    for (tpos = tr2->N-1; tpos >= 0; tpos--)
+      if (tr2->k[tpos] == tr->k[t2]) { tg2 = tpos; break; }
+  }  while (tr2->st[tg1] != tr->st[t1] && tr2->st[tg2] != tr->st[t2]);
+
+  /* tg1..tg2 in core trace is now matched to t1..t2 in the profile trace.
+   * Calculate # of residues preceding tg1 and following tg2 in the core trace.
+   * A core trace can only generate residues from M or I states.
+   */
+  for (nterm = 0, tpos = 0; tpos < tg1; tpos++) 
+    if (tr2->st[tpos] == p7T_M || tr2->st[tpos] == p7T_I) nterm++;
+  for (cterm = 0, tpos = tr2->N-1; tpos > tg2; tpos--)
+    if (tr2->st[tpos] == p7T_M || tr2->st[tpos] == p7T_I) cterm++;
+
+  /* rectify the t2 endpoint, rolling back any trailing D path 
+   */
+  for (; t2 >= 0; t2--) if (tr->st[t2] == p7T_M) break;
+  if (t2 < t1) ESL_XEXCEPTION(eslEINCONCEIVABLE, "this only happens on an all-D path through profile");  
+  
+  /* determine initial endpoint coords from t1 and t2 */
+  i1 = tr->i[t1];  i2 = tr->i[t2];
+  k1 = tr->k[t1];  k2 = tr->k[t2];
+
+  /* offset the i coords. */
+  L  = (i2-i1+1) + nterm + cterm;
+  i2 = (i2-i1+1) + nterm;
+  i1 = nterm+1;
+
+  /* normalize the i coords into range 1..Lbins, instead of 1..L */
+  i1 = ((i1-1) * Lbins / L) + 1;
+  i2 = ((i2-1) * Lbins / L) + 1;
+
+  *ret_i1 = i1;
+  *ret_i2 = i2;
+  *ret_k1 = k1;
+  *ret_k2 = k2;
+  p7_trace_Destroy(tr2);
+  esl_sq_Destroy(sq2);
+  return eslOK;
+
+ ERROR:
+  if (sq2 != NULL)  esl_sq_Destroy(sq2);
+  if (tr2 != NULL)  p7_trace_Destroy(tr2);
+  *ret_i1 = 0.;
+  *ret_i2 = 0.;
+  *ret_k1 = 0;
+  *ret_k2 = 0;
+  return status;
+}
+
+
+
+#endif /*p7MODELCONFIG_STATS*/
+
+
+/* All the commentary below here is archaic and obsolete.
+ * It is only a shadow of the current truth, and may mislead.
+ * It is of archaeological interest only; needs to be whipped back
+ * into shape in real documentation.
+ */
+
+/*----------------------------------------------------------------------
+ * Preamble.
+ * 
+ * There are four search modes:
+ *                  single-hit              multi-hit
+ *              --------------------  ------------------------
+ *     local  |   sw (p7_UNILOCAL)          fs (p7_LOCAL)
+ *    glocal  |    s (p7_UNIGLOCAL)         ls (p7_GLOCAL)
+ *
+ * Additionally, each search mode is configured for a particular
+ * target length. Thus "LS/400" means a model configured for glocal,
+ * multihit alignment of a target sequence of length 400.
+ *
+ *-----------------------------------------------------------------------
+ * Exegesis. 
+ * 
+ * When you enter this module, you've got an HMM (P7_HMM) in "core"
+ * probability form: t[], mat[], ins[] are all valid, normalized
+ * probabilities. The routines here are used to create the "profile"
+ * form (P7_PROFILE) of the model: tsc[], msc[], isc[], bsc[], esc[],
+ * and xsc[] fields as integer log-odds scores.
+ * 
+ * Also in the process, xt[] are set to their algorithm-dependent
+ * probabilities, though these probabilities are only for reference.
+ * 
+ * The configuration process breaks down into distinct conceptual steps:
+ * 
+ * 1. Algorithm configuration.
+ *    An "algorithm mode" is chosen. This determines whether
+ *    alignments will allow local entry/exit in the model, and sets
+ *    the probabilities in xt[XTE], which determine
+ *    multi-hit/single-hit behavior.  The "nj" value of the HMM is
+ *    also set here (the expected # of times the J state will be used;
+ *    0 for single-hit mode and 1 for the default parameterization of
+ *    multihit modes).
+ *    
+ * 2. Wing retraction.
+ *    In a profile, the D_1 and D_M states of the core model are
+ *    removed. The probability of the paths B->D1...->Mk ("BMk") that
+ *    enter D1 and use all D's before reaching M_k is treated instead
+ *    as an additional dollop of B->Mk entry probability, and the
+ *    probability of paths Mk->Dk+1...D_M->E ("MkE") is treated
+ *    instead as an additional dollop of Mk->E exit probability.  The
+ *    MkE path probability is subtracted from the Mk->Dk+1 transition.
+ *    
+ *    In local algorithm modes, these extra dollops are ignored, and
+ *    the model is renormalized appropriately. That is, the algorithm
+ *    overrides all B->DDDD->M and/or M->DDDD->E path probabilities
+ *    with its own internal entry/exit probabilities.
+ *    
+ *    If the algorithm mode is "global" at either entry or exit, then
+ *    the internal entries are set to BMk and internal exits are set
+ *    to MkE, and the model is renormalized appropriately.  That is,
+ *    the algorithm treats B->DDDD->M and/or M->DDDD->E path
+ *    probabilities as internal entries/exits, instead of allowing
+ *    dynamic programming algorithms to use the D_1 or D_M states.
+ *    
+ *    These two alternatives are represented differently in traces,
+ *    where an X state is used to signal 'missing data' in a local
+ *    alignment. Thus B->X->Mk indicates local entry, whereas B->Mk in
+ *    a trace indicates a wing-retracted B->DDD->Mk entry with respect
+ *    to the core HMM; similarly Mk->X->E indicates local exit, and
+ *    Mk->E indicates a Mk->DDDD->E path in the core HMM.
+ *    
+ *    Wing retraction is a compulsive detail with two purposes. First,
+ *    it removes a mute cycle from the model, B->D1 ...D_M->E, which
+ *    cannot be correctly and efficiently dealt with by DP
+ *    recursions. (A DP algorithm could just *ignore* that path
+ *    though, and ignore the negligible amount of probability in it.)
+ *    Second, wing retraction reconciles the algorithm-dependent
+ *    entry/exit probabilities with the core model. For algorithms
+ *    that impose local internal entry/exit, we don't want there to be
+ *    any additional probability coming from "internal" B->DDD->M and
+ *    M->DDD->E paths, so wing retraction takes it away.
+ *  
+ *  3. Local alignment D-path leveling.
+ *    For fully local alignments, we want every fragment ij (starting
+ *    at match i, ending from match j) to be equiprobable. There are
+ *    M(M+1)/2 possible such fragments, so the probability of each
+ *    one is 2/M(M+1). 
+ *    
+ *    Notionally, we imagine a "model" consisting of the M(M+1)/2
+ *    possible fragments, with entry probability of 2/M(M+1) for each.
+ *    
+ *    Operationally, we achieve this by a trick inspired by a
+ *    suggestion from Bill Bruno. Bill suggested that for a model with
+ *    no delete states, if we set begin[k] = 1/(M-k+1) and end[k] =
+ *    (M-k+1) / [M(M+1)/2], all fragments are equiprobable: the prob
+ *    of any given fragment is
+ *         b_i * e_j * \prod_{k=i}^{j-1} (1-e_k);
+ *    that is, the fragment also includes (j-i) penalizing terms for
+ *    *not* ending at i..j-1. Remarkably, this gives the result we
+ *    want: this product is always 2/M(M+1), for any ij.
+ *    
+ *    However, D->D transitions throw a wrench into this trick,
+ *    though. A local alignment that goes M_i->D...D->M_j, for
+ *    example, only gets hit with one not-end penalty (for the
+ *    M_i->D). This means that paths including deletions will be
+ *    artifactually favored.
+ *    
+ *    A solution is to subtract log(1-e_k) from the deletion
+ *    transition scores as well as the match transition scores.  Thus
+ *    one log(1-e_k) penalty is always exacted upon transitioning from
+ *    any node k->k+1. This is *not* part of the probabilistic model:
+ *    it is a score accounting trick that forces the DP algorithms to
+ *    associate a log(1-e_k) penalty for each node k->k+1 transition,
+ *    which makes the DP calculations give the result desired for our
+ *    *notional* probabilistic model with a single 2/M(M+1) transition
+ *    for each possible fragment. (A similar accounting trick is the
+ *    use of log-odds scoring, where we associate null model
+ *    transitions and emissions with appropriate terms in the HMM, to
+ *    assure that the final score of any path accounts for all the
+ *    desired probability terms in an overall log-odds score). The
+ *    overall score of any fragment can be rearranged such that there
+ *    is one term consisting of a product of all these penalties * b_i
+ *    * e_j = 2/M(M+1), and another term consisting of the actual
+ *    model transition path score between i,j.
+ *    
+ * 4. Target length dependence. 
+ *    Given a particular target sequence of length L, we want our HMM score
+ *    to be as independent as possible of L. Otherwise, long sequences will
+ *    give higher scores, even if they are nonhomologous. 
+ *    
+ *    The traditional solution to this is Karlin/Altschul statistics,
+ *    which tells us that E(s=x) = KMNe^-{\lambda x}, so we expect to
+ *    have to make a -1 bit score correction for every 2x increase in
+ *    target sequence length (ignoring edge correction effects). K/A
+ *    statistics have been proven for local Viterbi single-hit
+ *    ungapped alignments. There is abundant literature showing they
+ *    hold empirically for local Viterbi single-hit gapped
+ *    alignments. In my hands the length dependence (though not the
+ *    form of the distribution) holds for any single-hit alignment
+ *    (local or glocal, Viterbi or forward) but it does not
+ *    hold for multihit alignment modes.
+ *    
+ *    HMMER's solution is to build the length dependence right into
+ *    the probabilistic model, so that we have a full probabilistic
+ *    model of the target sequence. We match the expected lengths of
+ *    the model M and the null model R by setting the p1, N, C, and J
+ *    transitions appropriately. R has to emit the whole sequence, so
+ *    it has a self-transition of L/(L+1). N, C, and J have to emit
+ *    (L-(k+1)x) residues of the sequence, where x is the expected
+ *    length of an alignment to the core model, and k is the expected
+ *    number of times that we cycle through the J state. k=0 in sw
+ *    mode, and k=1 in fs/ls mode w/ the standard [XTE][LOOP]
+ *    probability of 0.5.
+ *
+ * 5. Conversion of probabilities to integer log-odds scores.
+ *    This step incorporates the contribution of the null model,
+ *    and converts floating-point probs to the scaled integer log-odds
+ *    score values that are used by the DP alignment routines. 
+ *
+ * Step 1 is done by the main p7_ProfileConfig() function, which takes
+ * a choice of algorithm mode as an argument.
+ *
+ * Step 2 is done by the *wing_retraction*() functions, which also
+ *  go ahead and convert the affected transitions to log-odds scores;
+ *  left wing retraction sets bsc[], right wing retraction sets
+ *  esc[] and tsc[TM*].
+ *  
+ * Step 3 is carried out by one of two delete path accounting routines,
+ *  which go ahead and set tsc[TD*].
+ *  
+ * Step 4 is carried out by the p7_ReconfigLength() routine.
+ * 
+ * Step 5 is carried out for all remaining scores by logoddsify_the_rest().   
+ * 
+ * Note that the profile never exists in a configured probability
+ * form. The probability model for the search profile is implicit, not
+ * explicit, because of the handling of local entry/exit transitions.
+ * You can see this in more detail in emit.c:p7_ProfileEmit()
+ * function, which samples sequences from the profile's probabilistic
+ * model.
+ *
+ * So, overall, to find where the various scores and probs are set:
+ *   bsc      :  wing retraction          (section 2)
+ *   esc      :  wing retraction          (section 2)
+ *   tsc[TM*] :  wing retraction          (section 2)
+ *   tsc[TI*] :  logoddsify_the_rest()    (section 4)
+ *   tsc[TD*] :  dpath leveling           (section 3)
+ *   p1       :  target_ldependence()     (section 4)  
+ *   xt[NCJ]  :  target_ldependence()     (section 4)  
+ *   xsc (all):  logoddsify_the_rest()    (section 4)
+ *   msc      :  logoddsify_the_rest()    (section 5)
+ *   isc      :  logoddsify_the_rest()    (section 5)
+ */
+
+
+/*****************************************************************
+ * 2. The four config_*() functions for specific algorithm modes.
+ *****************************************************************/
+
+/*****************************************************************
+ * Exegesis.
+ *
+ * The following functions are the Plan7 equivalent of choosing
+ * different alignment styles (fully local, fully global,
+ * global/local, multihit, etc.)
+ * 
+ * When you come into a configuration routine, the following
+ * probabilities are valid in the model:
+ *    1. t[1..M-1][0..6]: all the state transitions.
+ *       (Node M is special: it has only a match and a delete state,
+ *       no insert state, and M_M->E = 1.0 and D_M->E = 1.0 by def'n.)
+ *    2. mat[1..M][]:  all the match emissions.
+ *    3. ins[1..M-1][]: all the insert emissions. Note that there is
+ *       no insert state in node M.
+ *    4. tbd1: the B->D1 probability. The B->M1 probability is 1-tbd1.
+ * These are the "data-dependent" probabilities in the model.
+ * 
+ * The configuration routine gets to set the "algorithm-dependent"
+ * probabilities:
+ *    1. xt[XTN][MOVE,LOOP] dist controls unaligned N-terminal seq.
+ *       The higher xt[XTN][LOOP] is, the more unaligned seq we allow.
+ *       Similarly, xt[XTC][MOVE,LOOP] dist controls unaligned C-terminal 
+ *       seq, and xt[XTJ][MOVE,LOOP] dist controls length of unaligned sequence
+ *       between multiple copies of a domain. Normally, if these are nonzero,
+ *       they are all set to be equal to hmm->p1, the loop probability
+ *       for the null hypothesis (see below).
+ *    2. xt[XTE][MOVE,LOOP] distribution controls multihits. 
+ *       Setting xt[XTE][LOOP] to 0.0 forces one hit per model.
+ *    3. begin[1..M] controls entry probabilities. An algorithm 
+ *       mode either imposes internal begin probabilities, or leaves begin[1] 
+ *       as 1.0 and begin[k] = 0.0 for k>1.
+ *    4. end[1..M] controls exit probabilities. An algorithm mode either
+ *       imposes internal exit probabilities, or leaves end[M] = 1.0
+ *       and end[k] = 0.0 for k<M.
+ *    
+ * The configuration routine then calls routines as appropriate to set
+ * up all the model's scores, given these configured probabilities. When
+ * the config routine returns, all scores are ready for alignment:
+ * bsc, esc, tsc, msc, isc, and xsc.
+ * 
+ *****************************************************************
+ *
+ * SRE: REVISIT THE ISSUE BELOW. THE CONDITIONS ARE NO LONGER MET!
+ *
+ * There is (at least) one more issue worth noting.
+ * If you want per-domain scores to sum up to per-sequence scores, which is
+ * generally desirable if you don't want "bug" reports from vigilant users,
+ * then one of the following two sets of conditions must be met:
+ *   
+ *   1) t(E->J) = 0    
+ *      e.g. no multidomain hits
+ *      
+ *   2) t(N->N) = t(C->C) = t(J->J) = hmm->p1 
+ *      e.g. unmatching sequence scores zero, and 
+ *      N->B first-model score is equal to J->B another-model score.
+ *      
+ * These constraints are obeyed in the default Config() functions below,
+ * but in the future (say, when HMM editing may be allowed) we'll have
+ * to remember this. Non-equality of the summed domain scores and
+ * the total sequence score is a really easy "red flag" for people to
+ * notice and report as a bug, even if it may make probabilistic
+ * sense not to meet either constraint for certain modeling problems.
+ *****************************************************************
+ */
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/modelstats.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/modelstats.c
new file mode 100755
index 0000000..702e1ce
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/modelstats.c
@@ -0,0 +1,267 @@
+/* Miscellaneous summary statistics calculated for HMMs and profiles.
+ * 
+ * SRE, Fri May  4 11:43:20 2007 [Janelia]
+ * SVN $Id: modelstats.c 4385 2013-02-05 14:42:40Z wheelert $
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+
+/* Function:  p7_MeanMatchInfo()
+ * Incept:    SRE, Fri May  4 11:43:56 2007 [Janelia]
+ *
+ * Purpose:   Calculate the mean information content per match state
+ *            emission distribution, in bits:
+ *            
+ *            \[
+ *              \frac{1}{M} \sum_{k=1}^{M}
+ *                \left[ 
+ *                     \sum_x p_k(x) \log_2 p_k(x) 
+ *                   - \sum_x f(x) \log_2 f(x)
+ *                \right] 
+ *            \]
+ *            
+ *            where $p_k(x)$ is emission probability for symbol $x$
+ *            from match state $k$, and $f(x)$ is the null model's
+ *            background emission probability for $x$.
+ */
+double
+p7_MeanMatchInfo(const P7_HMM *hmm, const P7_BG *bg)
+{
+  return esl_vec_FEntropy(bg->f, hmm->abc->K) - p7_MeanMatchEntropy(hmm);
+}
+
+/* Function:  p7_MeanMatchEntropy()
+ * Incept:    SRE, Fri May  4 13:37:15 2007 [Janelia]
+ *
+ * Purpose:   Calculate the mean entropy per match state emission
+ *            distribution, in bits:
+ *            
+ *            \[
+ *              - \frac{1}{M} \sum_{k=1}^{M} \sum_x p_k(x) \log_2 p_k(x)
+ *            \]
+ *       
+ *            where $p_k(x)$ is emission probability for symbol $x$
+ *            from match state $k$.
+ */
+double
+p7_MeanMatchEntropy(const P7_HMM *hmm)
+{
+  int    k;
+  double H = 0.;
+
+  for (k = 1; k <= hmm->M; k++)
+    H += esl_vec_FEntropy(hmm->mat[k], hmm->abc->K);
+  H /= (double) hmm->M;
+  return H;
+}
+
+
+/* Function:  p7_MeanMatchRelativeEntropy()
+ * Incept:    SRE, Fri May 11 09:25:01 2007 [Janelia]
+ *
+ * Purpose:   Calculate the mean relative entropy per match state emission
+ *            distribution, in bits:
+ *            
+ *            \[
+ *              \frac{1}{M} \sum_{k=1}^{M} \sum_x p_k(x) \log_2 \frac{p_k(x)}{f(x)}
+ *            \]
+ *       
+ *            where $p_k(x)$ is emission probability for symbol $x$
+ *            from match state $k$, and $f(x)$ is the null model's 
+ *            background emission probability for $x$. 
+ */
+double
+p7_MeanMatchRelativeEntropy(const P7_HMM *hmm, const P7_BG *bg)
+{
+  int    k;
+  double KL = 0.;
+
+#if 0
+  p7_bg_Dump(stdout, hmm->bg);
+  for (k = 1; k <= hmm->M; k++)
+    printf("Match %d : %.2f %.2f\n", k, 
+	   esl_vec_FRelEntropy(hmm->mat[k], hmm->bg->f, hmm->abc->K),
+	   esl_vec_FEntropy(bg->f, hmm->abc->K) - esl_vec_FEntropy(hmm->mat[k], hmm->abc->K));
+#endif
+
+  for (k = 1; k <= hmm->M; k++)
+    KL += esl_vec_FRelEntropy(hmm->mat[k], bg->f, hmm->abc->K);
+  KL /= (double) hmm->M;
+  return KL;
+}
+
+
+
+double
+p7_MeanForwardScore(const P7_HMM *hmm, const P7_BG *bg)
+{
+  int             L   = 350;
+  int             N   = 100;
+  P7_PROFILE     *gm  = p7_profile_Create(hmm->M, hmm->abc);
+  P7_GMX         *gx  = p7_gmx_Create(gm->M, L);
+  ESL_SQ         *sq  = esl_sq_CreateDigital(hmm->abc);
+  ESL_RANDOMNESS *r   = esl_randomness_CreateFast(0);
+  float           fsc;
+  float           nullsc;
+  double          bitscore;
+  double          sum = 0.;
+  int             i;
+
+  if (p7_ProfileConfig (hmm, bg, gm, L, p7_LOCAL)        != eslOK) p7_Die("failed to configure profile");
+  for (i = 0; i < N; i++)
+    {
+      if (p7_ReconfigLength(gm, L)                        != eslOK) p7_Die("failed to reconfig profile length");
+      if (p7_ProfileEmit(r, hmm, gm, bg, sq, NULL)        != eslOK) p7_Die("failed to emit sequence");
+      if (p7_ReconfigLength(gm, sq->n)                    != eslOK) p7_Die("failed to reconfig profile length");
+      if (p7_gmx_GrowTo(gx, gm->M, sq->n)                 != eslOK) p7_Die("failed to grow the matrix");
+      if (p7_GForward(sq->dsq, sq->n, gm, gx, &fsc)       != eslOK) p7_Die("failed to run Forward");
+      if (p7_bg_NullOne(bg, sq->dsq, sq->n, &nullsc)      != eslOK) p7_Die("failed to run bg_NullOne()");
+      bitscore = (fsc - nullsc) / eslCONST_LOG2;
+
+      sum += bitscore;
+    }
+  
+  esl_randomness_Destroy(r);
+  esl_sq_Destroy(sq);
+  p7_gmx_Destroy(gx);
+  p7_profile_Destroy(gm);
+  return (sum / (double) N);
+}
+
+
+/* Function:  p7_MeanPositionRelativeEntropy()
+ * Synopsis:  Calculate the mean score per match position, including gap cost.
+ * Incept:    SRE, Thu Sep  6 10:26:14 2007 [Janelia]
+ *
+ * Purpose:   Calculate the mean score (relative entropy) in bits per 
+ *            match (consensus) position in model <hmm>, given background
+ *            model <bg>.
+ *            
+ *            More specifically: the mean bitscore is weighted by
+ *            match state occupancy (match states that aren't used
+ *            much are downweighted), and the log transitions into
+ *            that match state from the previous M, D, or I are
+ *            counted against it, weighted by their probability.
+ *            
+ *            This isn't a complete accounting of the average score
+ *            per model position nor per aligned residue; most
+ *            notably, it doesn't include the contribution of
+ *            entry/exit probabilities. So don't expect to approximate
+ *            average scores by multiplying <*ret_entropy> by <M>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_entropy> is the result.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and <*ret_entropy> is 0.
+ */
+int
+p7_MeanPositionRelativeEntropy(const P7_HMM *hmm, const P7_BG *bg, double *ret_entropy)
+{
+  int     status;
+  float  *mocc = NULL;
+  int     k;
+  double  mre, tre;
+  double  xm, xi, xd;
+  
+  ESL_ALLOC(mocc, sizeof(float) * (hmm->M+1));
+  if ((status = p7_hmm_CalculateOccupancy(hmm, mocc, NULL)) != eslOK) goto ERROR;
+  
+  /* mre = the weighted relative entropy per match emission */
+  for (mre = 0., k = 1; k <= hmm->M; k++)
+    mre += mocc[k] * esl_vec_FRelEntropy(hmm->mat[k], bg->f, hmm->abc->K);
+  mre /= esl_vec_FSum(mocc+1, hmm->M);
+
+  /* The weighted relative entropy per match entry transition, 2..M 
+   */
+  for (tre = 0., k = 2; k <= hmm->M; k++)
+    {
+      xm = mocc[k-1]*hmm->t[k-1][p7H_MM] * log(hmm->t[k-1][p7H_MM] / bg->p1);
+      xi = mocc[k-1]*hmm->t[k-1][p7H_MI] * (log(hmm->t[k-1][p7H_MM] / bg->p1) + log(hmm->t[k-1][p7H_IM] / bg->p1));
+      xd = (1.-mocc[k-1])*hmm->t[k-1][p7H_DM] * log(hmm->t[k-1][p7H_DM] / bg->p1);
+      tre += (xm+xi+xd) / eslCONST_LOG2;
+    }
+  tre /= esl_vec_FSum(mocc+2, hmm->M-1);
+
+  free(mocc);
+  *ret_entropy = mre+tre;
+  return eslOK;
+
+ ERROR:
+  if (mocc != NULL) free(mocc);
+  *ret_entropy = 0.;
+  return status;
+}
+
+
+/* Function:  p7_hmm_CompositionKLDist()
+ * Synopsis:  A statistic of model's composition bias.
+ * Incept:    SRE, Mon Jul  2 08:40:12 2007 [Janelia]
+ *
+ * Purpose:   Calculates the K-L distance between the average match
+ *            state residue composition in model <hmm> and a
+ *            background frequency distribution in <bg>, and
+ *            return it in <ret_KL>. 
+ *            
+ *            Optionally return the average match state residue
+ *            composition in <opt_avp>. This vector, of length
+ *            <hmm->abc->K> is allocated here and becomes the caller's
+ *            responsibility if <opt_avp> is non-<NULL>. 
+ *            
+ *            The average match composition is an occupancy-weighted
+ *            average (see <p7_hmm_CalculateOccupancy()>.
+ *            
+ *            The `K-L distance' <*ret_KL> is the symmetricized
+ *            Kullback-Leibler distance in bits (log base 2).
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_hmm_CompositionKLDist(P7_HMM *hmm, P7_BG *bg, float *ret_KL, float **opt_avp)
+{
+  int    K   = hmm->abc->K;
+  float *occ = NULL;
+  float *p   = NULL;
+  int    status;
+  int    k;
+
+  ESL_ALLOC(occ, sizeof(float) * (hmm->M+1));
+  ESL_ALLOC(p,   sizeof(float) * K);
+  p7_hmm_CalculateOccupancy(hmm, occ, NULL);
+
+  esl_vec_FSet(p, K, 0.);
+  for (k = 1; k <= hmm->M; k++)
+    esl_vec_FAddScaled(p, hmm->mat[k], occ[k], K);
+  esl_vec_FNorm(p, K);
+
+  *ret_KL = (esl_vec_FRelEntropy(p, bg->f, K) + esl_vec_FRelEntropy(bg->f, p, K)) / (2.0 * eslCONST_LOG2);
+  if (opt_avp != NULL) *opt_avp = p;  else free(p); 
+  free(occ);
+  return eslOK;
+  
+ ERROR:
+  if (occ != NULL) free(occ);
+  if (p   != NULL) free(p);
+  *ret_KL = 0.0;
+  if (opt_avp != NULL) *opt_avp = NULL;
+  return status;
+}
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/mpisupport.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/mpisupport.c
new file mode 100755
index 0000000..69b647d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/mpisupport.c
@@ -0,0 +1,1765 @@
+/* Optional support for MPI parallelization.
+ * 
+ * Contents:
+ *    1. Communicating P7_HMM, a core model.
+ *    2. Communicating P7_PROFILE, a score profile.
+ *    3. Communicating P7_PIPELINE, pipeline stats.
+ *    4. Communicating P7_TOPHITS, list of high scoring alignments.
+ *    5. Benchmark driver.
+ *    6. Unit tests.
+ *    7. Test driver.
+ *    8. Copyright and license information.
+ */
+#include "p7_config.h"		
+
+#ifdef HAVE_MPI
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#include "mpi.h"
+
+#include "easel.h"
+#include "esl_mpi.h"
+#include "esl_getopts.h"
+
+#include "hmmer.h"
+
+static int p7_hit_MPISend(P7_HIT *hit, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+static int p7_hit_MPIPackSize(P7_HIT *hit, MPI_Comm comm, int *ret_n);
+static int p7_hit_MPIPack(P7_HIT *hit, char *buf, int n, int *pos, MPI_Comm comm);
+static int p7_hit_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, P7_HIT *hit);
+static int p7_hit_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_HIT *hit);
+
+static int p7_dcl_MPISend(P7_DOMAIN *dcl, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc);
+static int p7_dcl_MPIPackSize(P7_DOMAIN *dcl, MPI_Comm comm, int *ret_n);
+static int p7_dcl_MPIPack(P7_DOMAIN *dcl, char *buf, int n, int *pos, MPI_Comm comm);
+static int p7_dcl_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, P7_DOMAIN *dcl);
+static int p7_dcl_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_DOMAIN *dcl);
+
+/*****************************************************************
+ * 1. Communicating P7_HMM, a core model.
+ *****************************************************************/
+
+/* Function:  p7_hmm_MPISend()
+ * Synopsis:  Send an HMM as an MPI work unit.
+ *
+ * Purpose:   Sends an HMM <hmm> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            Work units are prefixed by a status code. If <hmm> is
+ *            <non-NULL>, the work unit is an <eslOK> code followed by
+ *            the packed HMM. If <hmm> is NULL, the work unit is an
+ *            <eslEOD> code, which <p7_hmm_MPIRecv()> knows how to
+ *            interpret; this is typically used for an end-of-data
+ *            signal to cleanly shut down worker processes.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <hmm> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ * 
+ * Note:      Compare to p7_hmmfile_WriteBinary(). The two operations (sending
+ *            an HMM via MPI, or saving it as a binary file to disk) are
+ *            similar.
+ */
+int
+p7_hmm_MPISend(P7_HMM *hmm, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   code;
+  int   sz, n, pos;
+
+  /* Figure out size */
+  if (MPI_Pack_size(1, MPI_INT, comm, &n) != 0) ESL_XEXCEPTION(eslESYS, "mpi pack size failed");
+  if (hmm != NULL) {
+    if ((status = p7_hmm_MPIPackSize(hmm, comm, &sz)) != eslOK) return status;
+    n += sz;
+  }
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Pack the status code and HMM into the buffer */
+  pos  = 0;
+  code = (hmm == NULL) ? eslEOD : eslOK;
+  if (MPI_Pack(&code, 1, MPI_INT, *buf, n, &pos, comm) != 0) ESL_EXCEPTION(eslESYS, "mpi pack failed");
+  if (hmm != NULL) {
+    if ((status = p7_hmm_MPIPack(hmm, *buf, n, &pos, comm)) != eslOK) return status;
+  }
+
+  /* Send the packed HMM to the destination. */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0)  ESL_EXCEPTION(eslESYS, "mpi send failed");
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_hmm_MPIPackSize()
+ * Synopsis:  Calculates size needed to pack an HMM.
+ *
+ * Purpose:   Calculate an upper bound on the number of bytes
+ *            that <p7_hmm_MPIPack()> will need to pack an HMM
+ *            <hmm> in a packed MPI message for MPI communicator
+ *            <comm>; return that number of bytes in <*ret_n>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the answer.
+ *
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is 0.
+ */
+int
+p7_hmm_MPIPackSize(P7_HMM *hmm, MPI_Comm comm, int *ret_n)
+{
+  int   status;
+  int   n = 0;
+  int   K = hmm->abc->K;
+  int   M = hmm->M;
+  int   sz;
+
+  if (MPI_Pack_size(1,         MPI_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += 6*sz; /* M,flags,nseq,eff_nseq,checksum,alphatype */ 
+  if (MPI_Pack_size(1,       MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += 6*sz; /* ga,tc,nc cutoffs */
+  if (MPI_Pack_size(7*(M+1), MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n +=   sz; /* t */
+  if (MPI_Pack_size(K*(M+1), MPI_FLOAT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");   n += 2*sz; /* mat,ins */
+
+  if ((status = esl_mpi_PackOptSize(hmm->name, -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;  n += sz;
+  if ((status = esl_mpi_PackOptSize(hmm->acc,  -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;  n += sz; 
+  if ((status = esl_mpi_PackOptSize(hmm->desc, -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;  n += sz; 
+
+  if (hmm->flags & p7H_RF)    { if (MPI_Pack_size(M+2, MPI_CHAR,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");        n+= sz; }
+  if (hmm->flags & p7H_MMASK) { if (MPI_Pack_size(M+2, MPI_CHAR,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");        n+= sz; }
+  if (hmm->flags & p7H_CONS)  { if (MPI_Pack_size(M+2, MPI_CHAR,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");        n+= sz; }
+  if (hmm->flags & p7H_CS)    { if (MPI_Pack_size(M+2, MPI_CHAR,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");        n+= sz; }
+  if (hmm->flags & p7H_CA)    { if (MPI_Pack_size(M+2, MPI_CHAR,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");        n+= sz; }
+  if ((status = esl_mpi_PackOptSize(hmm->comlog,      -1,  MPI_CHAR,  comm, &sz)) != eslOK) goto ERROR;                               n+= sz;
+  if ((status = esl_mpi_PackOptSize(hmm->ctime,       -1,  MPI_CHAR,  comm, &sz)) != eslOK) goto ERROR;                               n+= sz;
+  if (hmm->flags & p7H_MAP)  { if (MPI_Pack_size(M+1,  MPI_INT,  comm, &sz)       != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n+= sz; }
+  if (MPI_Pack_size(p7_NEVPARAM, MPI_FLOAT, comm, &sz)                            != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n+= sz;
+  if (MPI_Pack_size(p7_NCUTOFFS, MPI_FLOAT, comm, &sz)                            != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n+= sz;
+  if (MPI_Pack_size(p7_MAXABET,  MPI_FLOAT, comm, &sz)                            != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n+= sz;
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+
+}
+
+/* Function:  p7_hmm_MPIPack()
+ * Synopsis:  Packs an HMM into MPI buffer.
+ *
+ * Purpose:   Packs HMM <hmm> into an MPI packed message buffer <buf>
+ *            of length <n> bytes, starting at byte position <*position>,
+ *            for MPI communicator <comm>.
+ *            
+ *            The caller must know that <buf>'s allocation of <n>
+ *            bytes is large enough to append the packed HMM at
+ *            position <*pos>. This typically requires a call to
+ *            <p7_hmm_MPIPackSize()> first, and reallocation if
+ *            needed.
+ *            
+ * Returns:   <eslOK> on success; <buf> now contains the
+ *            packed <hmm>, and <*position> is set to the byte
+ *            immediately following the last byte of the HMM
+ *            in <buf>. 
+ *
+ * Throws:    <eslESYS> if an MPI call fails; or <eslEMEM> if the
+ *            buffer's length <n> was overflowed in trying to pack
+ *            <msa> into <buf>. In either case, the state of
+ *            <buf> and <*position> is undefined, and both should
+ *            be considered to be corrupted.
+ */
+int
+p7_hmm_MPIPack(P7_HMM *hmm, char *buf, int n, int *pos, MPI_Comm comm)
+{
+  int   status;
+  int   K   = hmm->abc->K;
+  int   M   = hmm->M;
+
+  if (MPI_Pack(                            &M,                 1,      MPI_INT,   buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(                            &(hmm->flags),      1,      MPI_INT,   buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(                   (void *) &(hmm->abc->type),  1,      MPI_INT,   buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(                             hmm->t[0],       7*(M+1),  MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(                             hmm->mat[0],     K*(M+1),  MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(                             hmm->ins[0],     K*(M+1),  MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+
+  if ((status = esl_mpi_PackOpt(            hmm->name,        -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status;
+  if ((status = esl_mpi_PackOpt(            hmm->acc,         -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status; 
+  if ((status = esl_mpi_PackOpt(            hmm->desc,        -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status; 
+  if (hmm->flags & p7H_RF)    { if (MPI_Pack(hmm->rf,         M+2,      MPI_CHAR,  buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); }
+  if (hmm->flags & p7H_MMASK) { if (MPI_Pack(hmm->mm,         M+2,      MPI_CHAR,  buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); }
+  if (hmm->flags & p7H_CONS)  { if (MPI_Pack(hmm->consensus,  M+2,      MPI_CHAR,  buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); }
+  if (hmm->flags & p7H_CS)    { if (MPI_Pack(hmm->cs,         M+2,      MPI_CHAR,  buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); }
+  if (hmm->flags & p7H_CA)    { if (MPI_Pack(hmm->ca,         M+2,      MPI_CHAR,  buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); }
+  if ((status = esl_mpi_PackOpt(            hmm->comlog,      -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status;
+  if (MPI_Pack(                             &(hmm->nseq),      1,      MPI_INT,   buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(                             &(hmm->eff_nseq),  1,      MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed");
+  if ((status = esl_mpi_PackOpt(            hmm->ctime,       -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status;
+  if (hmm->flags & p7H_MAP)  { if (MPI_Pack(hmm->map,        M+1,      MPI_INT,   buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); }
+  if (MPI_Pack(                             &(hmm->checksum),  1,      MPI_INT,   buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(                             hmm->evparam, p7_NEVPARAM, MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(                             hmm->cutoff,  p7_NCUTOFFS, MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(                             hmm->compo,   p7_MAXABET,  MPI_FLOAT, buf, n, pos, comm)  != 0)     ESL_EXCEPTION(eslESYS, "pack failed"); 
+
+  if (*pos > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+}
+
+
+/* Function:  p7_hmm_MPIUnpack()
+ * Synopsis:  Unpacks an HMM from an MPI buffer.
+ *
+ * Purpose:   Unpack a newly allocated HMM from MPI packed buffer
+ *            <buf>, starting from position <*pos>, where the total length
+ *            of the buffer in bytes is <n>. 
+ *            
+ *            Caller may or may not already know what alphabet the HMM
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the HMM is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*abc> is that alphabet, and the new
+ *            HMM's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first HMM
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*pos> is updated to the position of
+ *            the next element in <buf> to unpack (if any). <*ret_hmm>
+ *            contains a newly allocated HMM, which the caller is
+ *            responsible for free'ing.  If <*abc> was passed as
+ *            <NULL>, it now points to an <ESL_ALPHABET> object that
+ *            was allocated here; caller is responsible for free'ing
+ *            this.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM is in a different
+ *            alphabet than <*abc> said to expect. In this case,
+ *            <*abc> is unchanged, <*buf> and <*nalloc> may have been
+ *            changed, and <*ret_hmm> is <NULL>.
+ *            
+ * Throws:    <eslESYS> on an MPI call failure. <eslEMEM> on allocation failure.
+ *            In either case, <*ret_hmm> is <NULL>, and the state of <buf>
+ *            and <*pos> is undefined and should be considered to be corrupted.
+ */
+int
+p7_hmm_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, ESL_ALPHABET **abc, P7_HMM **ret_hmm)
+{
+  int     status;
+  P7_HMM *hmm = NULL;
+  int M, K, atype;
+
+  if ((hmm = p7_hmm_CreateShell()) == NULL) { status = eslEMEM; goto ERROR;    }
+  if (MPI_Unpack(buf, n, pos, &(hmm->M),      1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &(hmm->flags),  1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &atype,         1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  /* Set or verify the alphabet */
+  if (*abc == NULL)	{	/* still unknown: set it, pass control of it back to caller */
+    if ((*abc = esl_alphabet_Create(atype)) == NULL)       { status = eslEMEM;      goto ERROR; }
+  } else {			/* already known: check it */
+    if ((*abc)->type != atype)                             { status = eslEINCOMPAT; goto ERROR; }
+  }
+
+  /* For convenience below. */
+  K = (*abc)->K;
+  M = hmm->M;
+
+  /* Finish the allocation of the HMM */
+  if ((status = p7_hmm_CreateBody(hmm, M, *abc)) != eslOK)    goto ERROR;
+
+  /* Unpack the rest of the HMM */
+  if (MPI_Unpack(                              buf, n, pos,              hmm->t[0],     7*(M+1), MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(                              buf, n, pos,            hmm->mat[0],     K*(M+1), MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(                              buf, n, pos,            hmm->ins[0],     K*(M+1), MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if ((status = esl_mpi_UnpackOpt(             buf, n, pos,   (void**)&(hmm->name),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if ((status = esl_mpi_UnpackOpt(             buf, n, pos,    (void**)&(hmm->acc),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if ((status = esl_mpi_UnpackOpt(             buf, n, pos,   (void**)&(hmm->desc),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if (hmm->flags & p7H_RF)    { if (MPI_Unpack(buf, n, pos,         hmm->rf,                M+2, MPI_CHAR,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); }
+  if (hmm->flags & p7H_MMASK) { if (MPI_Unpack(buf, n, pos,         hmm->mm,                M+2, MPI_CHAR,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); }
+  if (hmm->flags & p7H_CONS)  { if (MPI_Unpack(buf, n, pos,         hmm->consensus,         M+2, MPI_CHAR,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); }
+  if (hmm->flags & p7H_CS)    { if (MPI_Unpack(buf, n, pos,         hmm->cs,                M+2, MPI_CHAR,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); }
+  if (hmm->flags & p7H_CA)    { if (MPI_Unpack(buf, n, pos,         hmm->ca,                M+2, MPI_CHAR,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); }
+  if ((status = esl_mpi_UnpackOpt(             buf, n, pos, (void**)&(hmm->comlog),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if (MPI_Unpack(                              buf, n, pos,           &(hmm->nseq),           1, MPI_INT,   comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(                              buf, n, pos,       &(hmm->eff_nseq),           1, MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if ((status = esl_mpi_UnpackOpt(             buf, n, pos,  (void**)&(hmm->ctime),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if (hmm->flags & p7H_MAP)   { if (MPI_Unpack(buf, n, pos,               hmm->map,         M+1, MPI_INT,   comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); }
+  if (MPI_Unpack(                              buf, n, pos,       &(hmm->checksum),           1, MPI_INT,   comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(                              buf, n, pos,           hmm->evparam, p7_NEVPARAM, MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(                              buf, n, pos,            hmm->cutoff, p7_NCUTOFFS, MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(                              buf, n, pos,             hmm->compo,  p7_MAXABET, MPI_FLOAT, comm)  != 0)     ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+
+  *ret_hmm = hmm;
+  return eslOK;
+
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  return status;
+}
+
+
+
+
+/* Function:  p7_hmm_MPIRecv()
+ * Synopsis:  Receives an HMM as a work unit from an MPI sender.
+ *
+ * Purpose:   Receive a work unit that consists of a single HMM
+ *            sent by MPI <source> (<0..nproc-1>, or
+ *            <MPI_ANY_SOURCE>) tagged as <tag> for MPI communicator <comm>.
+ *            
+ *            Work units are prefixed by a status code. If the unit's
+ *            code is <eslOK> and no errors are encountered, this
+ *            routine will return <eslOK> and a non-<NULL> <*ret_hmm>.
+ *            If the unit's code is <eslEOD> (a shutdown signal), 
+ *            this routine returns <eslEOD> and <*ret_hmm> is <NULL>.
+ *   
+ *            Caller provides a working buffer <*buf> of size
+ *            <*nalloc> characters. These are passed by reference, so
+ *            that <*buf> can be reallocated and <*nalloc> increased
+ *            if necessary. As a special case, if <*buf> is <NULL> and
+ *            <*nalloc> is 0, the buffer will be allocated
+ *            appropriately, but the caller is still responsible for
+ *            free'ing it.
+ *            
+ *            Caller may or may not already know what alphabet the HMM
+ *            is expected to be in.  A reference to the current
+ *            alphabet is passed in <abc>. If the alphabet is unknown,
+ *            pass <*abc = NULL>, and when the HMM is received, an
+ *            appropriate new alphabet object is allocated and passed
+ *            back to the caller via <*abc>.  If the alphabet is
+ *            already known, <*ret_abc> is that alphabet, and the new
+ *            HMM's alphabet type is verified to agree with it. This
+ *            mechanism allows an application to let the first HMM
+ *            determine the alphabet type for the application, while
+ *            still keeping the alphabet under the application's scope
+ *            of control.
+ *
+ * Returns:   <eslOK> on success. <*ret_hmm> contains the received HMM;
+ *            it is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.  If
+ *            <*abc> was passed as <NULL>, it now points to an
+ *            <ESL_ALPHABET> object that was allocated here; caller is
+ *            responsible for free'ing this.
+ *            
+ *            Returns <eslEOD> if an end-of-data signal was received.
+ *            In this case, <*buf>, <*nalloc>, and <*abc> are left unchanged,
+ *            and <*ret_hmm> is <NULL>.
+ *            
+ *            Returns <eslEINCOMPAT> if the HMM is in a different alphabet
+ *            than <*abc> said to expect. In this case, <*abc> is unchanged,
+ *            <*buf> and <*nalloc> may have been changed, and <*ret_hmm> is
+ *            <NULL>.
+ *            
+ * Throws:    <eslEMEM> on allocation error, in which case <*ret_hmm> is 
+ *            <NULL>.           
+ */
+int
+p7_hmm_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_ALPHABET **abc, P7_HMM **ret_hmm)
+{
+  int         status;
+  int         code;
+  P7_HMM     *hmm     = NULL;
+  int         n;
+  int         pos;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough. */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Receive the packed work unit */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it, looking at the status code prefix for EOD/EOK  */
+  pos = 0;
+  if (MPI_Unpack(*buf, n, &pos, &code, 1, MPI_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (code == eslEOD)  { *ret_hmm = NULL;  return eslEOD; }
+
+  return p7_hmm_MPIUnpack(*buf, *nalloc, &pos, comm, abc, ret_hmm);
+
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  return status;
+}
+
+/*----------------- end, P7_HMM communication -------------------*/
+
+
+/*****************************************************************
+ * 2. Communicating P7_PROFILE, a score profile.
+ *****************************************************************/
+
+/* Function:  p7_profile_MPISend()
+ * Synopsis:  Send a profile as an MPI message.
+ *
+ * Purpose:   Sends profile <gm> to MPI process <dest> (where
+ *            <dest> ranges from 0..<nproc-1>), with MPI tag <tag> 
+ *            for MPI communicator <comm>.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <gm> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ *            If <gm> is NULL, an end-of-data signal is sent, which
+ *            <p7_profile_MPIRecv()> knows how to interpret.
+ *            
+ * Returns:   <eslOK> on success.
+ * 
+ * Note:      This was tested against a version that simply issues a series
+ *            of MPI_Send()'s, rather than Pack()'ing into a buffer
+ *            and issuing one MPI_Send(). The packed version seems to
+ *            be significantly faster, although benchmarking MPI
+ *            programs is difficult, and variance on the results is high.
+ *            
+ *            To optimize communication still further, one might try
+ *            to avoid many or all of the MPI_Pack()'s. It might be
+ *            feasible to change the allocation of a profile such that
+ *            it is allocated in one contiguous chunk of memory. And
+ *            once one embarks on that, the memory layout of the
+ *            profile should also be optimized with respect to cache
+ *            performance during DP alignment.
+ *            
+ *            rf, cs annotation is optional, but for simplicity, we always 
+ *            transmit the two allocated strings, even if they were empty.
+ *            
+ *            A "typical" protein profile (M=200,Kp=28) requires:
+ *                 8*200 floats for transitions =  1600 bytes
+ *                28*201*2 floats for emissions = 11256 bytes
+ *                 8 floats for specials        =    32 bytes
+ *                 2 ints for M,mode            =     8 bytes
+ *                 1 float for nj               =     4 bytes
+ *              ~100 chars of name, acc, desc   =   100 bytes
+ *                 3*202 chars for annotation   =   606 bytes 
+ *                 3 floats for ev params       =    12 bytes
+ *                 6 floats for Pfam cutoffs    =    24 bytes
+ *                                                -----------
+ *                                                  14Kb
+ */
+int
+p7_profile_MPISend(P7_PROFILE *gm, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   sz, n, position;
+  int   Kp;	/* alphabet size including degeneracies */
+  int   M;      /* model size in nodes */
+
+
+
+  /* First, figure out the size of the profile */
+  if (gm == NULL) { 
+    if (MPI_Pack_size(1, MPI_INT, comm, &n) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");
+    Kp = M = 0;
+  } else {
+    /* This will look wasteful, but the MPI spec doesn't guarantee that 
+     * MPI_Pack_size(x, ...) + MPI_Pack_size(x, ... ) == MPI_Pack_size(2x, ...).
+     * Indeed there are some hints in the spec that that's *not* true.
+     * So we assume we must match our Pack_size calls exactly to our Pack calls.
+     */
+    Kp = gm->abc->Kp;
+    M  = gm->M;
+    n = 0;
+    if (MPI_Pack_size(                           1, MPI_INT,   comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz*3;               /* M,mode,L        */
+    if (MPI_Pack_size(              p7P_NTRANS * M, MPI_FLOAT, comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;                 /* tsc             */
+    if (MPI_Pack_size(         (M+1) * Kp * p7P_NR, MPI_FLOAT, comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;                 /* rsc[0]          */
+    if (MPI_Pack_size(                 p7P_NXTRANS, MPI_FLOAT, comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz*p7P_NXSTATES;    /* xsc[0..3]       */
+    if (MPI_Pack_size(                           1, MPI_FLOAT, comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;                 /* nj              */
+    if ((status = esl_mpi_PackOptSize(gm->name, -1, MPI_CHAR,  comm, &sz))!= eslOK) goto ERROR;                                    n += sz;                 /* name (string)   */
+    if ((status = esl_mpi_PackOptSize(gm->acc,  -1, MPI_CHAR,  comm, &sz))!= eslOK) goto ERROR;                                    n += sz;                 /* acc (string)    */
+    if ((status = esl_mpi_PackOptSize(gm->desc, -1, MPI_CHAR,  comm, &sz))!= eslOK) goto ERROR;                                    n += sz;                 /* desc (string)   */
+    if (MPI_Pack_size(                       (M+2), MPI_CHAR,  comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz*4;               /* rf,cs,mm,consensus */
+    if (MPI_Pack_size(                 p7_NEVPARAM, MPI_FLOAT, comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;                 /* evparam         */
+    if (MPI_Pack_size(                 p7_NCUTOFFS, MPI_FLOAT, comm, &sz) != 0)     ESL_XEXCEPTION(eslESYS, "pack size failed");   n += sz;                 /* Pfam cutoffs    */
+  }
+  
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* Pack the profile into the buffer */
+  position = 0;
+  if (gm == NULL) 
+    {
+      int   eod_code = -1;
+      if (MPI_Pack(&eod_code,                   1, MPI_INT,   *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed");
+    } 
+  else 
+    {    
+      if (MPI_Pack(&M,                          1, MPI_INT,   *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(&(gm->mode),                 1, MPI_INT,   *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(&(gm->L),                    1, MPI_INT,   *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->tsc,         p7P_NTRANS *M, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->rsc[0], (M+1)* Kp * p7P_NR, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->xsc[0],        p7P_NXTRANS, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->xsc[1],        p7P_NXTRANS, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->xsc[2],        p7P_NXTRANS, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->xsc[3],        p7P_NXTRANS, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(&(gm->nj),                   1, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if ((status = esl_mpi_PackOpt(gm->name, -1,  MPI_CHAR,  *buf, n, &position,  comm)) != eslOK) goto ERROR;
+      if ((status = esl_mpi_PackOpt(gm->acc,  -1,  MPI_CHAR,  *buf, n, &position,  comm)) != eslOK) goto ERROR; 
+      if ((status = esl_mpi_PackOpt(gm->desc, -1,  MPI_CHAR,  *buf, n, &position,  comm)) != eslOK) goto ERROR;
+      if (MPI_Pack(gm->rf,                    M+2, MPI_CHAR,  *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->mm,                    M+2, MPI_CHAR,  *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed");
+      if (MPI_Pack(gm->cs,                    M+2, MPI_CHAR,  *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->consensus,             M+2, MPI_CHAR,  *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->evparam,       p7_NEVPARAM, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->cutoff,        p7_NCUTOFFS, MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+      if (MPI_Pack(gm->compo,         p7_MAXABET,  MPI_FLOAT, *buf, n, &position,  comm)  != 0)     ESL_XEXCEPTION(eslESYS, "pack failed"); 
+    }
+
+  /* Send the packed profile to destination  */
+  MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm);
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_profile_MPIRecv()
+ * Synopsis:  Receive a profile as an MPI message.
+ *
+ * Purpose:   Receive a profile from <source> (where <source> is usually
+ *            process 0, the master) with tag <tag> from communicator <comm>,
+ *            and return it in <*ret_gm>. 
+ *            
+ *            Caller must also provide the alphabet <abc> and the
+ *            background model <bg> for this profile. (Of course, that means
+ *            the caller already knows them, by an appropriate
+ *            initialization.)
+ *            
+ *            To minimize alloc/free cycles in this routine, caller
+ *            passes a pointer to a buffer <*buf> of size <*nalloc>
+ *            characters. These are passed by reference because if
+ *            necessary, <buf> will be reallocated and <nalloc>
+ *            increased to the new size. As a special case, if <buf>
+ *            is <NULL> and <nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *
+ *            If the packed profile is an end-of-data signal, return
+ *            <eslEOD>, and <*ret_gm> is <NULL>.
+ *            
+ * Returns:   <eslOK> on success. <*ret_gm> contains the new profile; it
+ *            is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.
+ *            
+ */
+int
+p7_profile_MPIRecv(int source, int tag, MPI_Comm comm, const ESL_ALPHABET *abc, const P7_BG *bg, char **buf, int *nalloc,  P7_PROFILE **ret_gm)
+{
+  int         status;
+  P7_PROFILE *gm    = NULL;
+  int         n;
+  int         position;
+  MPI_Status  mpistatus;
+  int         M;
+
+  /* Probe first, because we need to know if our buffer is big enough.
+   */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n); 
+    *nalloc = n; 
+  }
+
+  /* Receive the packed profile */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it - watching out for the EOD signal of M = -1. */
+  position = 0;
+  if (MPI_Unpack(*buf, n, &position, &M,                            1, MPI_INT,   comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (M == -1) { *ret_gm = NULL; return eslEOD; }
+
+  if ((gm = p7_profile_Create(M, abc)) == NULL) { status = eslEMEM; goto ERROR; }
+  if (MPI_Unpack(*buf, n, &position, &(gm->mode),                   1, MPI_INT,   comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, &(gm->L),                      1, MPI_INT,   comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->tsc,            p7P_NTRANS*M, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->rsc[0], p7P_NR*(M+1)*abc->Kp, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->xsc[0],          p7P_NXTRANS, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");  
+  if (MPI_Unpack(*buf, n, &position, gm->xsc[1],          p7P_NXTRANS, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");  
+  if (MPI_Unpack(*buf, n, &position, gm->xsc[2],          p7P_NXTRANS, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");  
+  if (MPI_Unpack(*buf, n, &position, gm->xsc[3],          p7P_NXTRANS, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");  
+  if (MPI_Unpack(*buf, n, &position, &(gm->nj),                     1, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");  
+
+  if ((status = esl_mpi_UnpackOpt(  *buf, n, &position,  (void**)&(gm->name),  NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if ((status = esl_mpi_UnpackOpt(  *buf, n, &position,  (void**)&(gm->acc),   NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if ((status = esl_mpi_UnpackOpt(  *buf, n, &position,  (void**)&(gm->desc),  NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+
+  if (MPI_Unpack(*buf, n, &position, gm->rf,                      M+2, MPI_CHAR,  comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->mm,                      M+2, MPI_CHAR,  comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->cs,                      M+2, MPI_CHAR,  comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->consensus,               M+2, MPI_CHAR,  comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->evparam,         p7_NEVPARAM, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->cutoff,          p7_NCUTOFFS, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &position, gm->compo,           p7_NCUTOFFS, MPI_FLOAT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  
+  gm->abc = abc;
+  gm->M   = M;
+  *ret_gm = gm;
+  return eslOK;
+
+ ERROR:
+  if (gm  != NULL) p7_profile_Destroy(gm);
+  *ret_gm = NULL;
+  return status;
+}
+
+/*--------------- end, P7_PROFILE communication -----------------*/
+
+
+/*****************************************************************
+ * 3. Communicating P7_PIPELINE
+ *****************************************************************/
+
+/* Function:  p7_pipeline_MPISend()
+ * Synopsis:  Send pipeline data as an MPI message.
+ *
+ * Purpose:   Sends pipeline statistics <pli> to MPI process <dest>
+ *            (where <dest> ranges from 0..<nproc-1>), with MPI tag
+ *            <tag> for MPI communicator <comm>.
+ *            
+ *            In order to minimize alloc/free cycles in this routine,
+ *            caller passes a pointer to a working buffer <*buf> of
+ *            size <*nalloc> characters. If necessary (i.e. if <pli> is
+ *            too big to fit), <*buf> will be reallocated and <*nalloc>
+ *            increased to the new size. As a special case, if <*buf>
+ *            is <NULL> and <*nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *            
+ *            If <pli> is NULL, the pipeline statistics are initialized
+ *            to zeros.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_pipeline_MPISend(P7_PIPELINE *pli, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   sz, n, pos;
+
+  P7_PIPELINE bogus;
+
+  /* This will look wasteful, but the MPI spec doesn't guarantee that 
+   * MPI_Pack_size(x, ...) + MPI_Pack_size(x, ... ) == MPI_Pack_size(2x, ...).
+   * Indeed there are some hints in the spec that that's *not* true.
+   * So we assume we must match our Pack_size calls exactly to our Pack calls.
+   */
+  n = 0;
+  if (MPI_Pack_size(1, MPI_LONG_INT,      comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_INT,      comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  if (MPI_Pack_size(1, MPI_DOUBLE,        comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");  n += sz;
+  
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  /* if no pipeline was defined, return zeros for the stats */
+  if (pli == NULL) 
+    {
+      bogus.mode        = p7_SEARCH_SEQS;     /* that's 0. (some compilers complain if you set 0 directly. */
+      bogus.Z_setby     = p7_ZSETBY_NTARGETS; /* ditto. */
+      bogus.nmodels     = 0;
+      bogus.nseqs       = 0;
+      bogus.nres        = 0;
+      bogus.nnodes      = 0;
+      bogus.n_past_msv  = 0;
+      bogus.n_past_bias = 0;
+      bogus.n_past_vit  = 0;
+      bogus.n_past_fwd  = 0;
+      bogus.Z           = 0.0;
+      pli = &bogus;
+   } 
+
+  /* Pack the pipeline into the buffer */
+  pos = 0;
+  if (MPI_Pack(&pli->mode,        1, MPI_LONG_INT,      *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->Z_setby,     1, MPI_LONG_INT,      *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->nmodels,     1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->nseqs,       1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->nres,        1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->nnodes,      1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->n_past_msv,  1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->n_past_bias, 1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->n_past_vit,  1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->n_past_fwd,  1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&pli->Z,           1, MPI_DOUBLE,        *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+
+  /* Send the packed pipeline to destination  */
+  MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm);
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_pipeline_MPIRecv()
+ * Synopsis:  Receive pipeline data as an MPI message.
+ *
+ * Purpose:   Receive a pipeline from <source> (where <source> is usually
+ *            process 0, the master) with tag <tag> from communicator <comm>,
+ *            and return it in <*ret_pli>. 
+ *            
+ *            To minimize alloc/free cycles in this routine, caller
+ *            passes a pointer to a buffer <*buf> of size <*nalloc>
+ *            characters. These are passed by reference because if
+ *            necessary, <buf> will be reallocated and <nalloc>
+ *            increased to the new size. As a special case, if <buf>
+ *            is <NULL> and <nalloc> is 0, the buffer will be
+ *            allocated appropriately, but the caller is still
+ *            responsible for free'ing it.
+ *
+ * Returns:   <eslOK> on success. <*ret_pli> contains the new pipeline;
+ *            it is allocated here, and the caller is responsible for
+ *            free'ing it.  <*buf> may have been reallocated to a
+ *            larger size, and <*nalloc> may have been increased.
+ *            
+ */
+int
+p7_pipeline_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, ESL_GETOPTS *go, P7_PIPELINE **ret_pli)
+{
+  int          status;
+  P7_PIPELINE *pli    = NULL;
+  int          n;
+  int          pos;
+  MPI_Status   mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough.
+   */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n); 
+    *nalloc = n; 
+  }
+
+  /* Receive the packed pipeline */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it - watching out for the EOD signal of M = -1. */
+  pos = 0;
+  if ((pli = p7_pipeline_Create(go, 0, 0, FALSE, p7_SEARCH_SEQS)) == NULL) { status = eslEMEM; goto ERROR; } /* mode will be immediately overwritten */
+  if (MPI_Unpack(*buf, n, &pos, &(pli->mode),        1, MPI_LONG_INT,      comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->Z_setby),     1, MPI_LONG_INT,      comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->nmodels),     1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->nseqs),       1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->nres),        1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->nnodes),      1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->n_past_msv),  1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->n_past_bias), 1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->n_past_vit),  1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->n_past_fwd),  1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+  if (MPI_Unpack(*buf, n, &pos, &(pli->Z),           1, MPI_DOUBLE,        comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed"); 
+
+  *ret_pli = pli;
+  return eslOK;
+
+ ERROR:
+  if (pli != NULL) p7_pipeline_Destroy(pli);
+  *ret_pli = NULL;
+  return status;
+}
+
+/*--------------- end, P7_PIPELINE communication -----------------*/
+
+
+/*****************************************************************
+ * 4. Communicating P7_TOPHITS
+ *****************************************************************/
+
+/* Function:  p7_tophits_MPISend()
+ * Synopsis:  Send the TOPHITS as an MPI work unit.
+ *
+ * Purpose:   Sends the TOPHITS <th> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            After the TOPHITS <th> information has been sent, send
+ *            the each hit as an indepentant message.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ */
+int
+p7_tophits_MPISend(P7_TOPHITS *th, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   sz, n, pos;
+  int   i, j, inx;
+
+  P7_DOMAIN *dcl = NULL;
+  P7_HIT    *hit = NULL;
+
+  n  = 0;
+  sz = 0;
+
+  /* calculate the buffer size needed to hold the largest hit */
+  hit = th->unsrt;
+  for (i = 0; i < th->N; ++i) {
+    for (j = 0; j < th->unsrt[i].ndom; ++j) {
+      if (sz <= hit->dcl[j].ad->memsize) {
+	sz = hit->dcl[j].ad->memsize;
+	dcl = &hit->dcl[j];
+      }
+    }
+    ++hit;
+  }
+
+  if (th->N > 0) {
+    if ((status = p7_hit_MPIPackSize(th->unsrt, comm, &n)) != eslOK) goto ERROR;
+    if (dcl != NULL) {
+      if ((status = p7_dcl_MPIPackSize(dcl, comm, &sz))    != eslOK) goto ERROR;
+      n = (n > sz) ? n : sz;
+    }
+  }
+
+  if (MPI_Pack_size(3, MPI_LONG_LONG_INT, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed");
+  n = (n > sz) ? n : sz;
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n);
+    *nalloc = n; 
+  }
+
+  pos = 0;
+  if (MPI_Pack(&th->N,         1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&th->nreported, 1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&th->nincluded, 1, MPI_LONG_LONG_INT, *buf, n, &pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+
+  /* Send the packed tophits information */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi send failed");
+  if (th->N == 0) return eslOK;
+
+  /* loop through the hit list sending to dest */
+  hit = th->unsrt;
+  for (inx = 0; inx < th->N; ++inx) {
+    if ((status = p7_hit_MPISend(hit, dest, tag, comm, buf, nalloc)) != eslOK) goto ERROR;
+    ++hit;
+  }
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_tophits_MPIRecv()
+ * Synopsis:  Receives an TOPHITS as a work unit from an MPI sender.
+ *
+ * Purpose:   Sends the TOPHITS <th> as a work unit to MPI process
+ *            <dest> (where <dest> ranges from 0..<nproc-1>), tagged
+ *            with MPI tag <tag>, for MPI communicator <comm>, as 
+ *            the sole workunit or result. 
+ *            
+ *            After the TOPHITS <th> information has been sent, send
+ *            the each hit as an indepentant message.
+ *            
+ * Returns:   <eslOK> on success; <*buf> may have been reallocated and
+ *            <*nalloc> may have been increased.
+ * 
+ * Throws:    <eslESYS> if an MPI call fails; <eslEMEM> if a malloc/realloc
+ *            fails. In either case, <*buf> and <*nalloc> remain valid and useful
+ *            memory (though the contents of <*buf> are undefined). 
+ */
+int
+p7_tophits_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_TOPHITS **ret_th)
+{
+  int         n;
+  int         status;
+  int         pos;
+  P7_TOPHITS *th    = NULL;
+  P7_HIT     *hit   = NULL;
+  MPI_Status  mpistatus;
+
+  uint64_t    nhits;
+  uint64_t    inx;
+
+  /* Probe first, because we need to know if our buffer is big enough.
+   */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* make sure we are getting the tag we expect and from whom we expect if from */
+  if (tag    != MPI_ANY_TAG    && mpistatus.MPI_TAG    != tag) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+  if (source != MPI_ANY_SOURCE && mpistatus.MPI_SOURCE != source) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+
+  /* set the source and tag */
+  tag = mpistatus.MPI_TAG;
+  source = mpistatus.MPI_SOURCE;
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n); 
+    *nalloc = n; 
+  }
+
+  /* Receive the packed top hits */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it - watching out for the EOD signal of M = -1. */
+  pos = 0;
+  if ((th = p7_tophits_Create()) == NULL) { status = eslEMEM; goto ERROR; }
+  if (MPI_Unpack(*buf, n, &pos, &nhits,         1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &pos, &th->nreported, 1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+  if (MPI_Unpack(*buf, n, &pos, &th->nincluded, 1, MPI_LONG_LONG_INT, comm) != 0) ESL_XEXCEPTION(eslESYS, "unpack failed");
+
+  /* loop through all of the hits sent */
+  for (inx = 0; inx < nhits; ++inx) {
+      if ((status = p7_tophits_CreateNextHit(th, &hit))                  != eslOK) goto ERROR;
+      if ((status = p7_hit_MPIRecv(source, tag, comm, buf, nalloc, hit)) != eslOK) goto ERROR;
+    }
+  *ret_th = th;
+  return eslOK;
+
+ ERROR:
+  if (th  != NULL) p7_tophits_Destroy(th);
+  *ret_th = NULL;
+  return status;
+}
+
+
+/* Function:  p7_hit_MPISend()
+ */
+int
+p7_hit_MPISend(P7_HIT *hit, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   inx;
+  int   status;
+  int   pos;
+  int   n = *nalloc;
+
+  /* Pack the HIT into the buffer */
+  pos  = 0;
+  if ((status = p7_hit_MPIPack(hit, *buf, n, &pos, comm)) != eslOK) goto ERROR;
+
+  /* Send the packed HIT to the destination. */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0)  ESL_EXCEPTION(eslESYS, "mpi send failed");
+
+  /* loop through all of the domains */
+  for (inx = 0; inx < hit->ndom; ++inx) {
+    if ((status = p7_dcl_MPISend(hit->dcl + inx, dest, tag, comm, buf, nalloc)) != eslOK) goto ERROR;
+  }
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_hit_MPIRecv()
+ */
+int
+p7_hit_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_HIT *hit)
+{
+  int         n;
+  int         status;
+  int         pos;
+  int         inx;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough.
+   */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* make sure we are getting the tag we expect and from whom we expect if from */
+  if (tag    != MPI_ANY_TAG    && mpistatus.MPI_TAG    != tag) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+  if (source != MPI_ANY_SOURCE && mpistatus.MPI_SOURCE != source) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+
+  /* set the source and tag */
+  tag = mpistatus.MPI_TAG;
+  source = mpistatus.MPI_SOURCE;
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n); 
+    *nalloc = n; 
+  }
+
+  /* Receive the packed top hits */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it - watching out for the EOD signal of M = -1. */
+  pos = 0;
+  if ((status = p7_hit_MPIUnpack(*buf, n, &pos, comm, hit)) != eslOK) goto ERROR;
+  ESL_ALLOC(hit->dcl, sizeof(P7_DOMAIN) * hit->ndom);
+
+  /* loop through all of the hits sent */
+  for (inx = 0; inx < hit->ndom; ++inx) {
+     if ((status = p7_dcl_MPIRecv(source, tag, comm, buf, nalloc, hit->dcl + inx)) != eslOK) goto ERROR;
+  }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_hit_MPIPackSize()
+ * Synopsis:  Calculates size needed to pack a HIT.
+ *
+ * Purpose:   Calculate an upper bound on the number of bytes
+ *            that <p7_hit_MPIPack()> will need to pack an P7_HIT
+ *            <hit> in a packed MPI message for MPI communicator
+ *            <comm>; return that number of bytes in <*ret_n>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_n> contains the answer.
+ *
+ * Throws:    <eslESYS> if an MPI call fails, and <*ret_n> is 0.
+ */
+int
+p7_hit_MPIPackSize(P7_HIT *hit, MPI_Comm comm, int *ret_n)
+{
+  int   status;
+  int   n = 0;
+  int   sz;
+
+  /* P7_HIT data */
+  if (MPI_Pack_size(1,            MPI_DOUBLE, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* sortkey                 */
+  if (MPI_Pack_size(3,            MPI_FLOAT,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* scores                  */
+  if (MPI_Pack_size(3,            MPI_DOUBLE, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* lnP                     */
+  if (MPI_Pack_size(1,            MPI_FLOAT,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* expected                */
+  if (MPI_Pack_size(5,            MPI_INT,    comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* region, envelopes, ndom */
+  if (MPI_Pack_size(4,            MPI_INT,    comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* report info             */
+
+  if ((status = esl_mpi_PackOptSize(hit->name, -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;  n += sz;
+  if ((status = esl_mpi_PackOptSize(hit->acc,  -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;  n += sz; 
+  if ((status = esl_mpi_PackOptSize(hit->desc, -1, MPI_CHAR, comm, &sz)) != eslOK) goto ERROR;  n += sz; 
+
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+
+}
+
+/* Function:  p7_hit_MPIPack()
+ * Synopsis:  Packs the HIT into MPI buffer.
+ *
+ * Purpose:   Packs HIT <hit> into an MPI packed message buffer <buf>
+ *            of length <n> bytes, starting at byte position <*position>,
+ *            for MPI communicator <comm>.
+ *            
+ *            The caller must know that <buf>'s allocation of <n>
+ *            bytes is large enough to append the packed HIT at
+ *            position <*pos>. This typically requires a call to
+ *            <p7_hit_MPIPackSize()> first, and reallocation if
+ *            needed.
+ *            
+ * Returns:   <eslOK> on success; <buf> now contains the
+ *            packed <hit>, and <*position> is set to the byte
+ *            immediately following the last byte of the HIT
+ *            in <buf>. 
+ *
+ * Throws:    <eslESYS> if an MPI call fails; or <eslEMEM> if the
+ *            buffer's length <n> was overflowed in trying to pack
+ *            <msa> into <buf>. In either case, the state of
+ *            <buf> and <*position> is undefined, and both should
+ *            be considered to be corrupted.
+ */
+int
+p7_hit_MPIPack(P7_HIT *hit, char *buf, int n, int *pos, MPI_Comm comm)
+{
+  int             status;
+
+  if (MPI_Pack(&hit->sortkey,        1, MPI_DOUBLE,   buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->score,          1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->pre_score,      1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->sum_score,      1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->lnP,            1, MPI_DOUBLE,   buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->pre_lnP,        1, MPI_DOUBLE,   buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->sum_lnP,        1, MPI_DOUBLE,   buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->nexpected,      1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+  if (MPI_Pack(&hit->nregions,       1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->nclustered,     1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->noverlaps,      1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->nenvelopes,     1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->ndom,           1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->flags,          1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->nreported,      1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->nincluded,      1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&hit->best_domain,    1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+
+  if ((status = esl_mpi_PackOpt(hit->name,        -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status;
+  if ((status = esl_mpi_PackOpt(hit->acc,         -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status; 
+  if ((status = esl_mpi_PackOpt(hit->desc,        -1,      MPI_CHAR,  buf, n, pos, comm)) != eslOK) return status; 
+
+  if (*pos > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_hit_MPIUnpack()
+ * Synopsis:  Unpacks an HIT from an MPI buffer.
+ *
+ * Purpose:   Unpack a newly allocated HIT from MPI packed buffer
+ *            <buf>, starting from position <*pos>, where the total length
+ *            of the buffer in bytes is <n>. 
+ *            
+ * Returns:   <eslOK> on success. <*pos> is updated to the position of
+ *            the next element in <buf> to unpack (if any). <*ret_hit>
+ *            contains a newly allocated HIT, which the caller is
+ *            responsible for free'ing.
+ *            
+ * Throws:    <eslESYS> on an MPI call failure. <eslEMEM> on allocation failure.
+ *            In either case, <*ret_hit> is <NULL>, and the state of <buf>
+ *            and <*pos> is undefined and should be considered to be corrupted.
+ */
+int
+p7_hit_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, P7_HIT *hit)
+{
+  int  status;
+
+  if (MPI_Unpack(buf, n, pos, &hit->sortkey,     1, MPI_DOUBLE, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->score,       1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->pre_score,   1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->sum_score,   1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->lnP,         1, MPI_DOUBLE, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->pre_lnP,     1, MPI_DOUBLE, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->sum_lnP,     1, MPI_DOUBLE, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->nexpected,   1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+  if (MPI_Unpack(buf, n, pos, &hit->nregions,    1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->nclustered,  1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->noverlaps,   1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->nenvelopes,  1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->ndom,        1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->flags,       1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->nreported,   1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->nincluded,   1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hit->best_domain, 1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  if ((status = esl_mpi_UnpackOpt(buf, n, pos,   (void**)&(hit->name),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if ((status = esl_mpi_UnpackOpt(buf, n, pos,   (void**)&(hit->acc),         NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+  if ((status = esl_mpi_UnpackOpt(buf, n, pos,   (void**)&(hit->desc),        NULL, MPI_CHAR,  comm)) != eslOK) goto ERROR;
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_dcl_MPISend()
+ */
+int
+p7_dcl_MPISend(P7_DOMAIN *dcl, int dest, int tag, MPI_Comm comm, char **buf, int *nalloc)
+{
+  int   status;
+  int   pos;
+  int   n = *nalloc;
+
+  /* Pack the DOMAIN into the buffer */
+  pos  = 0;
+  if ((status = p7_dcl_MPIPack(dcl, *buf, n, &pos, comm)) != eslOK) goto ERROR;
+
+  /* Send the packed HIT to the destination. */
+  if (MPI_Send(*buf, n, MPI_PACKED, dest, tag, comm) != 0)  ESL_EXCEPTION(eslESYS, "mpi send failed");
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_dcl_MPIPackSize()
+ */
+int
+p7_dcl_MPIPackSize(P7_DOMAIN *dcl, MPI_Comm comm, int *ret_n)
+{
+  int   status;
+  int   n = 0;
+  int   sz;
+
+  P7_ALIDISPLAY *ad = dcl->ad;
+
+  /* P7_DOMAIN data */
+  if (MPI_Pack_size(4,            MPI_INT,    comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* alignment info          */
+  if (MPI_Pack_size(5,            MPI_FLOAT,  comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* score info              */
+  if (MPI_Pack_size(1,            MPI_DOUBLE, comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* lnP                     */
+  if (MPI_Pack_size(2,            MPI_INT,    comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* thresholds              */
+
+
+  /* P7_ALIDISPLAY data */
+  if (MPI_Pack_size(17,          MPI_INT,     comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* offset info             */
+  if (MPI_Pack_size(3,           MPI_LONG,    comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* sequence info           */
+  if (MPI_Pack_size(1,           MPI_INT,     comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* string pool size        */
+  if (MPI_Pack_size(ad->memsize, MPI_CHAR,    comm, &sz) != 0) ESL_XEXCEPTION(eslESYS, "pack size failed"); n += sz;  /* string pool             */
+
+  *ret_n = n;
+  return eslOK;
+
+ ERROR:
+  *ret_n = 0;
+  return status;
+
+}
+
+/* Function:  p7_dcl_MPIPack()
+ */
+int
+p7_dcl_MPIPack(P7_DOMAIN *dcl, char *buf, int n, int *pos, MPI_Comm comm)
+{
+  int             status;
+  int             offset;
+
+  P7_ALIDISPLAY  *ad       = dcl->ad;
+
+  if (MPI_Pack(&dcl->ienv,           1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->jenv,           1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->iali,           1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->jali,           1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->envsc,          1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->domcorrection,  1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->dombias,        1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->oasc,           1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->bitscore,       1, MPI_FLOAT,    buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->lnP,            1, MPI_DOUBLE,   buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->is_reported,    1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&dcl->is_included,    1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+
+  offset = (ad->rfline  == NULL)  ? -1 : ad->rfline - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->mmline  == NULL)  ? -1 : ad->mmline - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->csline  == NULL)  ? -1 : ad->csline - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->model   == NULL)  ? -1 : ad->model - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->mline   == NULL)  ? -1 : ad->mline - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->aseq    == NULL)     ? -1 : ad->aseq - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->ppline  == NULL)  ? -1 : ad->ppline - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->N,               1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->hmmname == NULL)  ? -1 : ad->hmmname - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->hmmacc  == NULL)  ? -1 : ad->hmmacc - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->hmmdesc == NULL)  ? -1 : ad->hmmdesc - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->hmmfrom,         1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->hmmto,           1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->M,               1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->sqname  == NULL)  ? -1 : ad->sqname - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->sqacc   == NULL)  ? -1 : ad->sqacc - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  offset = (ad->sqdesc  == NULL)  ? -1 : ad->sqdesc - ad->mem;
+  if (MPI_Pack(&offset,              1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->sqfrom,          1, MPI_LONG,     buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->sqto,            1, MPI_LONG,     buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->L,               1, MPI_LONG,     buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack(&ad->memsize,         1, MPI_INT,      buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed");
+  if (MPI_Pack( ad->mem,   ad->memsize, MPI_CHAR,     buf, n, pos, comm) != 0) ESL_XEXCEPTION(eslESYS, "pack failed"); 
+
+  if (*pos > n) ESL_EXCEPTION(eslEMEM, "buffer overflow");
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_dcl_MPIUnpack()
+ */
+int
+p7_dcl_MPIUnpack(char *buf, int n, int *pos, MPI_Comm comm, P7_DOMAIN *dcl)
+{
+  int  status;
+  int  rfline, mmline, csline, model, mline, aseq, ppline;
+  int  hmmname, hmmacc, hmmdesc;
+  int  sqname, sqacc, sqdesc;
+
+  P7_ALIDISPLAY *ad; 
+
+  ESL_ALLOC(ad, sizeof(P7_ALIDISPLAY));
+
+  if (MPI_Unpack(buf, n, pos, &dcl->ienv,          1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->jenv,          1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->iali,          1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->jali,          1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->envsc,         1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->domcorrection, 1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->dombias,       1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->oasc,          1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->bitscore,      1, MPI_FLOAT,  comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->lnP,           1, MPI_DOUBLE, comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->is_reported,   1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &dcl->is_included,   1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &rfline,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &mmline,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &csline,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &model,              1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &mline,              1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &aseq,               1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ppline,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->N,              1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hmmname,            1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hmmacc,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &hmmdesc,            1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->hmmfrom,        1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->hmmto,          1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->M,              1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &sqname,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &sqacc,              1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &sqdesc,             1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->sqfrom,         1, MPI_LONG,   comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->sqto,           1, MPI_LONG,   comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->L,              1, MPI_LONG,   comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+  if (MPI_Unpack(buf, n, pos, &ad->memsize,        1, MPI_INT,    comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed");
+
+  dcl->scores_per_pos = NULL;  /*this field is used for nhmmer, which currently doesn't have MPI support */
+
+  /* allocate the string pools for the alignments */
+  ESL_ALLOC(ad->mem, ad->memsize);
+  if (MPI_Unpack(buf, n, pos,  ad->mem,  ad->memsize, MPI_CHAR,   comm) != 0) ESL_XEXCEPTION(eslESYS, "mpi unpack failed"); 
+
+  ad->rfline  = (rfline == -1)  ? NULL : ad->mem + rfline;
+  ad->mmline  = (mmline == -1)  ? NULL : ad->mem + mmline;
+  ad->csline  = (csline == -1)  ? NULL : ad->mem + csline;
+  ad->model   = (model == -1)   ? NULL : ad->mem + model;
+  ad->mline   = (mline == -1)   ? NULL : ad->mem + mline;
+  ad->aseq    = (aseq == -1)    ? NULL : ad->mem + aseq;
+  ad->ppline  = (ppline == -1)  ? NULL : ad->mem + ppline;
+
+  ad->hmmname = (hmmname == -1) ? NULL : ad->mem + hmmname;
+  ad->hmmacc  = (hmmacc == -1)  ? NULL : ad->mem + hmmacc;
+  ad->hmmdesc = (hmmdesc == -1) ? NULL : ad->mem + hmmdesc;
+
+  ad->sqname  = (sqname == -1)  ? NULL : ad->mem + sqname;
+  ad->sqacc   = (sqacc == -1)   ? NULL : ad->mem + sqacc;
+  ad->sqdesc  = (sqdesc == -1)  ? NULL : ad->mem + sqdesc;
+
+  dcl->ad = ad;
+
+  return eslOK;
+
+ ERROR:
+  if (ad  != NULL) {
+    if (ad->mem != NULL) free(ad->mem);
+    free(ad);
+  }
+  return status;
+}
+
+/* Function:  p7_dcl_MPIRecv()
+ */
+int
+p7_dcl_MPIRecv(int source, int tag, MPI_Comm comm, char **buf, int *nalloc, P7_DOMAIN *dcl)
+{
+  int         status;
+  int         n;
+  int         pos;
+  MPI_Status  mpistatus;
+
+  /* Probe first, because we need to know if our buffer is big enough.
+   */
+  MPI_Probe(source, tag, comm, &mpistatus);
+  MPI_Get_count(&mpistatus, MPI_PACKED, &n);
+
+  /* make sure we are getting the tag we expect and from whom we expect if from */
+  if (tag    != MPI_ANY_TAG    && mpistatus.MPI_TAG    != tag) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+  if (source != MPI_ANY_SOURCE && mpistatus.MPI_SOURCE != source) {
+    status = eslFAIL;
+    goto ERROR;
+  }
+
+  /* set the source and tag */
+  tag = mpistatus.MPI_TAG;
+  source = mpistatus.MPI_SOURCE;
+
+  /* Make sure the buffer is allocated appropriately */
+  if (*buf == NULL || n > *nalloc) {
+    void *tmp;
+    ESL_RALLOC(*buf, tmp, sizeof(char) * n); 
+    *nalloc = n; 
+  }
+
+  /* Receive the packed dcl */
+  MPI_Recv(*buf, n, MPI_PACKED, source, tag, comm, &mpistatus);
+
+  /* Unpack it, looking at the status code prefix for EOD/EOK  */
+  pos = 0;
+  return p7_dcl_MPIUnpack(*buf, *nalloc, &pos, comm, dcl);
+
+ ERROR:
+  return status;
+}
+
+/*----------------- end, P7_TOPHITS communication -------------------*/
+
+
+/*****************************************************************
+ * 5. Benchmark driver.
+ *****************************************************************/
+
+#ifdef p7MPISUPPORT_BENCHMARK
+/* 
+  mpicc -g -Wall -L. -I. -L ../easel -I ../easel -D p7MPISUPPORT_BENCHMARK -o benchmark-mpi mpisupport.c -lhmmer -leasel -lm
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi  ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+  qsub -N benchmark-mpi -j y -R y -b y -cwd -V -pe lam-mpi-tight 2 'mpirun C ./benchmark-mpi -b ~/notebook/1227-msp-statistics/Pfam.hmm > bench.out'
+ */
+#include "p7_config.h"
+
+#include <string.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-b",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "baseline timing: don't send any HMMs",             0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "arrest after start: for debugging MPI under gdb",  0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for MPI communication";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_ALPHABET   *abc     = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg      = p7_bg_Create(abc);
+  int             my_rank;
+  int             nproc;
+  char           *buf    = NULL;
+  int             nbuf   = 0;
+  int             subtotalM = 0;
+  int             allM   = 0;
+  int             stalling = esl_opt_GetBoolean(go, "--stall");
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  while (stalling); 
+
+  /* Master MPI process: */
+  if (my_rank == 0) 
+    {
+      ESL_STOPWATCH *w        = esl_stopwatch_Create();
+      P7_HMMFILE    *hfp      = NULL;
+      P7_PROFILE     *gm      = NULL;
+      P7_HMM         *hmm     = NULL;
+
+
+      /* Read HMMs from a file. */
+      if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+
+      esl_stopwatch_Start(w);
+      while (p7_hmmfile_Read(hfp, &abc, &hmm)     == eslOK) 
+	{
+	  gm = p7_profile_Create(hmm->M, abc);	  
+	  p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+	  if (!esl_opt_GetBoolean(go, "-b"))
+	    p7_profile_MPISend(gm, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* 1 = dest; 0 = tag */
+
+	  p7_hmm_Destroy(hmm);
+	  p7_profile_Destroy(gm);
+	}
+      p7_profile_MPISend(NULL, 1, 0, MPI_COMM_WORLD, &buf, &nbuf); /* send the "no more HMMs" sign */
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+
+      printf("total: %d\n", allM);
+      esl_stopwatch_Stop(w);
+      esl_stopwatch_Display(stdout, w, "CPU Time: ");
+      esl_stopwatch_Destroy(w);
+    }
+  /* Worker MPI process: */
+  else 
+    {
+      P7_PROFILE     *gm_recd = NULL;      
+
+      while (p7_profile_MPIRecv(0, 0, MPI_COMM_WORLD, abc, bg, &buf, &nbuf, &gm_recd) == eslOK) 
+	{
+	  subtotalM += gm_recd->M;
+	  p7_profile_Destroy(gm_recd);  
+	}
+      MPI_Reduce(&subtotalM, &allM, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD);
+    }
+
+  free(buf);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  MPI_Finalize();
+  exit(0);
+}
+
+#endif /*p7MPISUPPORT_BENCHMARK*/
+/*---------------------- end, benchmark -------------------------*/
+
+
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef p7MPISUPPORT_TESTDRIVE
+
+static void
+utest_HMMSendRecv(int my_rank, int nproc)
+{
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(42);
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm  = NULL;
+  P7_HMM         *xhmm = NULL;
+  int             M    = 200;
+  char           *wbuf = NULL;
+  int             wn   = 0;
+  int             i;
+  char            errmsg[eslERRBUFSIZE];
+
+  p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled HMMs are identical */
+
+  if (my_rank == 0) 
+    {
+      for (i = 1; i < nproc; i++)
+	{
+	  ESL_DPRINTF1(("Master: receiving test HMM\n"));
+	  p7_hmm_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, &wbuf, &wn, &abc, &xhmm);
+	  ESL_DPRINTF1(("Master: test HMM received\n"));
+
+	  if (p7_hmm_Validate(xhmm, errmsg, 0.001) != eslOK) p7_Die("hmm validation failed: %s", errmsg);
+	  if (p7_hmm_Compare(hmm, xhmm, 0.001)     != eslOK) p7_Die("Received HMM not identical to what was sent");
+
+	  p7_hmm_Destroy(xhmm);
+	}
+    }
+  else 
+    {
+      ESL_DPRINTF1(("Worker %d: sending test HMM\n", my_rank));
+      p7_hmm_MPISend(hmm, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
+      ESL_DPRINTF1(("Worker %d: test HMM sent\n", my_rank));
+    }
+
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  free(wbuf);
+  return;
+}
+
+static void
+utest_ProfileSendRecv(int my_rank, int nproc)
+{
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(42);
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_PROFILE     *gm2  = NULL;
+  int             M    = 200;
+  int             L    = 400;
+  char           *wbuf = NULL;
+  int             wn   = 0;
+  int             i;
+  char            errbuf[eslERRBUFSIZE];
+
+  p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled profiles are identical */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  p7_bg_SetLength  (bg, L);
+
+  if (my_rank == 0)
+    {
+      for (i = 1; i < nproc; i++)
+	{
+	  ESL_DPRINTF1(("Master: receiving test profile\n"));
+	  p7_profile_MPIRecv(MPI_ANY_SOURCE, 0, MPI_COMM_WORLD, abc, bg, &wbuf, &wn, &gm2);
+	  ESL_DPRINTF1(("Master: test profile received\n"));
+
+	  if (p7_profile_Validate(gm2, errbuf, 0.001) != eslOK) p7_Die("profile validation failed: %s", errbuf);
+	  if (p7_profile_Compare(gm, gm2, 0.001) != eslOK) p7_Die("Received profile not identical to what was sent");
+
+	  p7_profile_Destroy(gm2);
+	}
+    }
+  else 
+    {
+      ESL_DPRINTF1(("Worker %d: sending test profile\n", my_rank));
+      p7_profile_MPISend(gm, 0, 0, MPI_COMM_WORLD, &wbuf, &wn);
+      ESL_DPRINTF1(("Worker %d: test profile sent\n", my_rank));
+    }
+
+  free(wbuf);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  return;
+}
+
+
+
+#endif /*p7MPISUPPORT_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+
+/*****************************************************************
+ * 7. Test driver.
+ *****************************************************************/
+#ifdef p7MPISUPPORT_TESTDRIVE
+
+/* mpicc -o mpisupport_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7MPISUPPORT_TESTDRIVE mpisupport.c -lhmmer -leasel -lm
+ * In an MPI environment: (qlogin -pe lam-mpi-tight 2; setenv JOB_ID <jobid>; setenv TMPDIR /tmp/<jobid>....
+ *    mpirun C ./mpisupport_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  { "--stall",   eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "arrest after start: for debugging MPI under gdb",   0 },  
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for mpisupport.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  int          stalling = FALSE;
+  int          my_rank;
+  int          nproc;
+
+  /* For debugging: stall until GDB can be attached */
+  if (esl_opt_GetBoolean(go, "--stall")) stalling = TRUE;
+  while (stalling);
+
+  MPI_Init(&argc, &argv);
+  MPI_Comm_rank(MPI_COMM_WORLD, &my_rank);
+  MPI_Comm_size(MPI_COMM_WORLD, &nproc);
+
+  utest_HMMSendRecv(my_rank, nproc);
+  utest_ProfileSendRecv(my_rank, nproc);
+
+  MPI_Finalize();
+  return 0;
+}
+
+#endif /*p7MPISUPPORT_TESTDRIVE*/
+/*---------------------- end, test driver -----------------------*/
+
+
+#else /*!HAVE_MPI*/
+
+/* If we don't have MPI compiled in, provide some nothingness to:
+ *   a. prevent Mac OS/X ranlib from bitching about .o file that "has no symbols" 
+ *   b. prevent compiler from bitching about "empty compilation unit"
+ *   c. automatically pass the automated tests.
+ */
+void p7_mpisupport_DoAbsolutelyNothing(void) { return; }
+#if defined p7MPISUPPORT_TESTDRIVE || p7MPISUPPORT_EXAMPLE || p7MPISUPPORT_BENCHMARK
+int main(void) { return 0; }
+#endif
+#endif /*HAVE_MPI*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: mpisupport.c 4452 2013-05-05 01:44:04Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/mpisupport.c $
+ *****************************************************************/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/nhmmer.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/nhmmer.c
new file mode 100755
index 0000000..0b5cd0f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/nhmmer.c
@@ -0,0 +1,1708 @@
+/* nhmmer: search profile HMM(s) against a nucleotide sequence database.
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_scorematrix.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+
+/* set the max residue count to 1/4 meg when reading a block */
+#ifdef P7_IMPL_DUMMY_INCLUDED
+#include "esl_vectorops.h"
+#define NHMMER_MAX_RESIDUE_COUNT (1024 * 100)
+#else
+#define NHMMER_MAX_RESIDUE_COUNT (1024 * 256)  /* 1/4 Mb */
+#endif
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif /*HMMER_THREADS*/
+  P7_BG            *bg;          /* null model                              */
+  P7_PIPELINE      *pli;         /* work pipeline                           */
+  P7_TOPHITS       *th;          /* top hit results                         */
+  P7_OPROFILE      *om;          /* optimized query profile                 */
+  FM_CFG           *fm_cfg;      /* global data for FM-index for fast SSV */
+  P7_SCOREDATA     *scoredata;   /* hmm-specific data used by nhmmer */
+} WORKER_INFO;
+
+typedef struct {
+  FM_DATA  *fmf;
+  FM_DATA  *fmb;
+  int      active;  //TRUE is worker is supposed to work on the contents, FALSE otherwise
+} FM_THREAD_INFO;
+
+
+typedef struct {
+  int    id;         /* internal sequence ID  */
+  int    length;     /* length of sequence */
+} ID_LENGTH;
+
+typedef struct {
+  ID_LENGTH  *id_lengths;
+  int        count;
+  int        size;
+} ID_LENGTH_LIST;
+
+
+static ID_LENGTH_LIST* init_id_length( int size );
+static void            destroy_id_length( ID_LENGTH_LIST *list );
+static int             add_id_length(ID_LENGTH_LIST *list, int id, int L);
+static int             assign_Lengths(P7_TOPHITS *th, ID_LENGTH_LIST *id_length_list);
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+
+#define CPUOPTS     NULL
+#define MPIOPTS     NULL
+
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles   reqs   incomp              help                                                      docgroup*/
+  { "-h",           eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  NULL,             "show brief help on version and usage",                         1 },
+  /* Control of output */
+  { "-o",           eslARG_OUTFILE,      NULL, NULL, NULL,    NULL,  NULL,  NULL,              "direct output to file <f>, not stdout",                        2 },
+  { "-A",           eslARG_OUTFILE,      NULL, NULL, NULL,    NULL,  NULL,  NULL,              "save multiple alignment of all hits to file <f>",              2 },
+  { "--tblout",     eslARG_OUTFILE,      NULL, NULL, NULL,    NULL,  NULL,  NULL,              "save parseable table of hits to file <f>",                     2 },
+  { "--dfamtblout", eslARG_OUTFILE,      NULL, NULL, NULL,    NULL,  NULL,  NULL,              "save table of hits to file, in Dfam format <f>",               2 },
+  { "--aliscoresout", eslARG_OUTFILE,    NULL, NULL, NULL,    NULL,  NULL,  NULL,              "save scores for each position in each alignment to <f>",       2 },
+  { "--hmmout",     eslARG_OUTFILE,      NULL, NULL, NULL,    NULL,  NULL,  NULL,              "if input is alignment(s), write produced hmms to file <f>",    2 },
+  { "--acc",        eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "prefer accessions over names in output",                       2 },
+  { "--noali",      eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "don't output alignments, so output is smaller",                2 },
+  { "--notextw",    eslARG_NONE,         NULL, NULL, NULL,    NULL,  NULL, "--textw",        "unlimit ASCII text output line width",                         2 },
+  { "--textw",      eslARG_INT,         "120", NULL, "n>=120",NULL,  NULL, "--notextw",      "set max width of ASCII text output lines",                     2 },
+  /* Control of scoring system */
+  { "--singlemx",   eslARG_NONE,        FALSE,   NULL, NULL,    NULL,  NULL,   "",           "use substitution score matrix w/ single-sequence MSA-format inputs",  3 },
+  { "--popen",      eslARG_REAL,       "0.03125",NULL,"0<=x<0.5",NULL, NULL, NULL,           "gap open probability",                                         3 },
+  { "--pextend",    eslARG_REAL,       "0.75", NULL,  "0<=x<1",  NULL, NULL, NULL,           "gap extend probability",                                       3 },
+  { "--mx",         eslARG_STRING,     "DNA1", NULL, NULL,      NULL,  NULL, "--mxfile",     "substitution score matrix choice (of some built-in matrices)", 3 },
+  { "--mxfile",     eslARG_INFILE,       NULL, NULL, NULL,      NULL,  NULL,  "--mx",        "read substitution score matrix from file <f>",                 3 },
+  /* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,       "10.0", NULL, "x>0",   NULL,  NULL,  REPOPTS,         "report sequences <= this E-value threshold in output",         4 },
+  { "-T",           eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  REPOPTS,         "report sequences >= this score threshold in output",           4 },
+  /* Control of inclusion (significance) thresholds */
+  { "--incE",       eslARG_REAL,       "0.01", NULL, "x>0",   NULL,  NULL,  INCOPTS,         "consider sequences <= this E-value threshold as significant",  5 },
+  { "--incT",       eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  INCOPTS,         "consider sequences >= this score threshold as significant",    5 },
+  /* Model-specific thresholding for both reporting and inclusion */
+  { "--cut_ga",     eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's GA gathering cutoffs to set all thresholding",   6 },
+  { "--cut_nc",     eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's NC noise cutoffs to set all thresholding",       6 },
+  { "--cut_tc",     eslARG_NONE,        FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's TC trusted cutoffs to set all thresholding",     6 },
+  /* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,        FALSE,      NULL, NULL,    NULL,  NULL, "--F1,--F2,--F3", "Turn all heuristic filters off (less speed, more power)",      7 },
+  { "--F1",         eslARG_REAL, /*set below*/NULL, NULL, NULL,    NULL,  NULL, "--max",          "Stage 1 (SSV) threshold: promote hits w/ P <= F1",             7 },
+  { "--F2",         eslARG_REAL,       "3e-3",      NULL, NULL,    NULL,  NULL, "--max",          "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             7 },
+  { "--F3",         eslARG_REAL,       "3e-5",      NULL, NULL,    NULL,  NULL, "--max",          "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             7 },
+  { "--nobias",     eslARG_NONE,         NULL,      NULL, NULL,    NULL,  NULL, "--max",          "turn off composition bias filter",                             7 },
+
+  /* Selecting the alphabet rather than autoguessing it */
+  { "--dna",        eslARG_NONE,        FALSE, NULL, NULL,   "--rna", NULL,   NULL,          "input alignment is DNA sequence data",                         8 },
+  { "--rna",        eslARG_NONE,        FALSE, NULL, NULL,   "--dna",  NULL,  NULL,          "input alignment is RNA sequence data",                         8 },
+
+#if defined (p7_IMPL_SSE)
+  /* Control of FM pruning/extension */
+  { "--seed_max_depth",    eslARG_INT,          "15", NULL, NULL,    NULL,  NULL, NULL,          "seed length at which bit threshold must be met",             9 },
+  { "--seed_sc_thresh",    eslARG_REAL,         "15", NULL, NULL,    NULL,  NULL, NULL,          "Default req. score for FM seed (bits)",                      9 },
+  { "--seed_sc_density",   eslARG_REAL,        "0.8", NULL, NULL,    NULL,  NULL, NULL,          "seed must maintain this bit density from one of two ends",   9 },
+  { "--seed_drop_max_len", eslARG_INT,           "4", NULL, NULL,    NULL,  NULL, NULL,          "maximum run length with score under (max - [fm_drop_lim])",  9 },
+  { "--seed_drop_lim",     eslARG_REAL,        "0.3", NULL, NULL,    NULL,  NULL, NULL,          "in seed, max drop in a run of length [fm_drop_max_len]",     9 },
+  { "--seed_req_pos",      eslARG_INT,           "5", NULL, NULL,    NULL,  NULL, NULL,          "minimum number consecutive positive scores in seed" ,        9 },
+  { "--seed_consens_match", eslARG_INT,         "11", NULL, NULL,    NULL,  NULL, NULL,          "<n> consecutive matches to consensus will override score threshold" , 9 },
+  { "--seed_ssv_length",   eslARG_INT,          "70", NULL, NULL,    NULL,  NULL, NULL,          "length of window around FM seed to get full SSV diagonal",   9 },
+#endif
+
+/* Other options */
+  { "--tformat",    eslARG_STRING,       NULL, NULL, NULL,    NULL,  NULL,           NULL,     "assert target <seqdb> is in format <s>",                        12 },
+  { "--qformat",    eslARG_STRING,       NULL, NULL, NULL,    NULL,  NULL,           NULL,     "assert query <seqfile> is in format <s>",                       12 },
+  { "--nonull2",    eslARG_NONE,         NULL, NULL, NULL,    NULL,  NULL,           NULL,     "turn off biased composition score corrections",                 12 },
+  { "-Z",           eslARG_REAL,        FALSE, NULL, "x>0",   NULL,  NULL,           NULL,     "set database size (Megabases) to <x> for E-value calculations", 12 },
+  { "--seed",       eslARG_INT,          "42", NULL, "n>=0",  NULL,  NULL,           NULL,     "set RNG seed to <n> (if 0: one-time arbitrary seed)",           12 },
+  { "--w_beta",     eslARG_REAL,         NULL, NULL, NULL,    NULL,  NULL,           NULL,     "tail mass at which window length is determined",                12 },
+  { "--w_length",   eslARG_INT,          NULL, NULL, NULL,    NULL,  NULL,           NULL,     "window length - essentially max expected hit length" ,          12 },
+  { "--block_length", eslARG_INT,        NULL, NULL, "n>=50000", NULL, NULL,         NULL,     "length of blocks read from target database (threaded) ",        12 },
+  { "--toponly",     eslARG_NONE,         NULL, NULL, NULL,    NULL,  NULL,   "--bottomonly",  "only search the top strand",                                    12 },
+  { "--bottomonly",  eslARG_NONE,         NULL, NULL, NULL,    NULL,  NULL,      "--toponly",  "only search the bottom strand",                                 12 },
+
+
+  /* Restrict search to subset of database - hidden because these flags are
+   *   (a) currently for internal use
+   *   (b) probably going to change
+   */
+  { "--restrictdb_stkey", eslARG_STRING, "0",  NULL, NULL,    NULL,  NULL,           NULL,   "Search starts at the sequence with name <s>",                    99 },
+  { "--restrictdb_n",eslARG_INT,        "-1",  NULL, NULL,    NULL,  NULL,           NULL,   "Search <j> target sequences (starting at --restrictdb_stkey)",   99 },
+  { "--ssifile",    eslARG_STRING,       NULL, NULL, NULL,    NULL,  NULL,           NULL,   "restrictdb_x values require ssi file. Override default to <s>",  99 },
+
+
+  /* stage-specific window length used for bias composition estimate,
+   * hidden because they are confusing/expert options. May drag them out
+   * into the daylight eventually
+   */
+  { "--B1",         eslARG_INT,         "110", NULL, NULL,    NULL,  NULL, "--max,--nobias", "window length for biased-composition modifier (SSV)",          99 },
+  { "--B2",         eslARG_INT,         "240", NULL, NULL,    NULL,  NULL, "--max,--nobias", "window length for biased-composition modifier (Vit)",          99 },
+  { "--B3",         eslARG_INT,        "1000", NULL, NULL,    NULL,  NULL, "--max,--nobias", "window length for biased-composition modifier (Fwd)",          99 },
+
+  /* expert-only option (for now), hidden from view, for altering bg probs. May not keep. */
+  { "--bgfile",     eslARG_INFILE,       NULL, NULL, NULL,    NULL,  NULL,   NULL,           "override default background probs with values in file <f>",    99 },
+
+
+/* Not used, but retained because esl option-handling code errors if it isn't kept here.  Placed in group 99 so it doesn't print to help*/
+  { "--domZ",       eslARG_REAL,        FALSE, NULL, "x>0",   NULL,  NULL,  NULL,            "Not used",   99 },
+  { "--domE",       eslARG_REAL,       "10.0", NULL, "x>0",   NULL,  NULL,  DOMREPOPTS,      "Not used",   99 },
+  { "--domT",       eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  DOMREPOPTS,      "Not used",   99 },
+  { "--incdomE",    eslARG_REAL,       "0.01", NULL, "x>0",   NULL,  NULL,  INCDOMOPTS,      "Not used",    99 },
+  { "--incdomT",    eslARG_REAL,        FALSE, NULL, NULL,    NULL,  NULL,  INCDOMOPTS,      "Not used",      99 },
+/* will eventually bring these back, but store in group 99 for now, so they don't print to help*/
+
+
+
+#ifdef HMMER_THREADS 
+  { "--cpu",        eslARG_INT, NULL,"HMMER_NCPU","n>=0",NULL,  NULL,  CPUOPTS,         "number of parallel CPU workers to use for multithreads",      12 },
+#endif
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  char            *dbfile;            /* target sequence database file                   */
+  char            *queryfile;           /* query HMM file                                  */
+  int              qfmt;
+
+  int              do_mpi;            /* TRUE if we're doing MPI parallelization         */
+  int              nproc;             /* how many MPI processes, total                   */
+  int              my_rank;           /* who am I, in 0..nproc-1                         */
+
+  char             *firstseq_key;     /* name of the first sequence in the restricted db range */
+  int              n_targetseq;       /* number of sequences in the restricted range */
+};
+
+static char usage[]  = "[options] <query hmmfile|alignfile> <target seqfile>";
+static char banner[] = "search a DNA model or alignment against a DNA database";
+//static char usage[]  = "[options] <hmmfile> <seqdb>";
+//static char banner[] = "search a DNA model against a DNA database";
+
+
+static int  serial_master  (ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  serial_loop    (WORKER_INFO *info, ID_LENGTH_LIST *id_length_list, ESL_SQFILE *dbfp, char *firstseq_key, int n_targetseqs /*, ESL_STOPWATCH *ssv_watch_master, ESL_STOPWATCH *postssv_watch_master, ESL_STOPWATCH *watch_slave*/);
+#if defined (p7_IMPL_SSE)
+  static int  serial_loop_FM (WORKER_INFO *info, ESL_SQFILE *dbfp /*, ESL_STOPWATCH *ssv_watch_master, ESL_STOPWATCH *postssv_watch_master, ESL_STOPWATCH *watch_slave*/);
+#endif
+#ifdef HMMER_THREADS
+#define BLOCK_SIZE 1000
+
+static int  thread_loop(WORKER_INFO *info, ID_LENGTH_LIST *id_length_list, ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp, char *firstseq_key, int n_targetseqs);
+static void pipeline_thread(void *arg);
+#if defined (p7_IMPL_SSE)
+static int  thread_loop_FM(WORKER_INFO *info, ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp);
+static void pipeline_thread_FM(void *arg);
+#endif
+
+#endif /*HMMER_THREADS*/
+
+
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_queryfile, char **ret_seqfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n", go->errbuf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n", go->errbuf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+ 
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      if (puts("\nBasic options:")                                           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 100); /* 1= group; 2 = indentation; 120=textwidth*/
+
+      if (puts("\nOptions directing output:")                                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 100);
+
+      if (puts("\nOptions controlling scoring system:")                      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 100);
+
+      if (puts("\nOptions controlling reporting thresholds:")                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 100);
+
+      if (puts("\nOptions controlling inclusion (significance) thresholds:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 100);
+
+      if (puts("\nOptions controlling model-specific thresholding:")         < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80);
+
+      if (puts("\nOptions controlling acceleration heuristics:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 100);
+
+      if (puts("\nOptions for selecting query alphabet rather than guessing it:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 8, 2, 80);
+
+//      if (puts("\nOptions for restricting search to a range of target database sequences:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+//      esl_opt_DisplayHelp(stdout, go, 8, 2, 100);
+
+      if (puts("\nOptions controlling seed search heuristic:")               < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 9, 2, 100);
+
+      if (puts("\nOther expert options:")                                    < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 100);
+      exit(0);
+
+  }
+
+  if (esl_opt_ArgNumber(go)                  != 2)     { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_queryfile = esl_opt_GetArg(go, 1)) == NULL)  { if (puts("Failed to get <queryfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_seqfile   = esl_opt_GetArg(go, 2)) == NULL)  { if (puts("Failed to get <seqdb> argument on command line")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (strcmp(*ret_queryfile, "-") == 0 && strcmp(*ret_seqfile, "-") == 0)
+    { if (puts("Either <query hmmfile|alignfile> or <seqdb> may be '-' (to read from stdin), but not both.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  if (puts("\nwhere basic options are:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  if (printf("\nTo see more help on available options, do %s -h\n\n", argv[0]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+static int
+output_header(FILE *ofp, const ESL_GETOPTS *go, char *queryfile, char *seqfile, int ncpus)
+{
+  p7_banner(ofp, go->argv[0], banner);
+  
+  if (fprintf(ofp, "# query file:                      %s\n", queryfile)                                                                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# target sequence database:        %s\n", seqfile)                                                                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")              && fprintf(ofp, "# output directed to file:         %s\n",            esl_opt_GetString(go, "-o"))             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-A")              && fprintf(ofp, "# MSA of all hits saved to file:   %s\n",            esl_opt_GetString(go, "-A"))             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tblout")        && fprintf(ofp, "# hits tabular output:             %s\n",            esl_opt_GetString(go, "--tblout"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--dfamtblout")    && fprintf(ofp, "# hits output in Dfam format:      %s\n",            esl_opt_GetString(go, "--dfamtblout"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--aliscoresout")  && fprintf(ofp, "# alignment scores output:         %s\n",            esl_opt_GetString(go, "--aliscoresout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--hmmout")        && fprintf(ofp, "# hmm output:                      %s\n",            esl_opt_GetString(go, "--hmmout"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--acc")        && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--noali")      && fprintf(ofp, "# show alignments in output:       no\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--notextw")    && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--textw")      && fprintf(ofp, "# max ASCII text line length:      %d\n",             esl_opt_GetInteger(go, "--textw"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--singlemx")   && fprintf(ofp, "# Use score matrix for 1-seq MSAs:  on\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--popen")      && fprintf(ofp, "# gap open probability:            %f\n",             esl_opt_GetReal   (go, "--popen"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pextend")    && fprintf(ofp, "# gap extend probability:          %f\n",             esl_opt_GetReal   (go, "--pextend"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mx")         && fprintf(ofp, "# subst score matrix (built-in):   %s\n",             esl_opt_GetString (go, "--mx"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mxfile")     && fprintf(ofp, "# subst score matrix (file):       %s\n",             esl_opt_GetString (go, "--mxfile"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-E")           && fprintf(ofp, "# sequence reporting threshold:    E-value <= %g\n",  esl_opt_GetReal   (go, "-E"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-T")           && fprintf(ofp, "# sequence reporting threshold:    score >= %g\n",    esl_opt_GetReal   (go, "-T"))         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incE")       && fprintf(ofp, "# sequence inclusion threshold:    E-value <= %g\n",  esl_opt_GetReal   (go, "--incE"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incT")       && fprintf(ofp, "# sequence inclusion threshold:    score >= %g\n",    esl_opt_GetReal   (go, "--incT"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_ga")     && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_nc")     && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_tc")     && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--max")        && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F1")         && fprintf(ofp, "# SSV filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F1"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F2")         && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F2"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F3")         && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F3"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nobias")     && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--B1")         && fprintf(ofp, "# biased comp SSV window len:      %d\n",             esl_opt_GetInteger(go, "--B1"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--B2")         && fprintf(ofp, "# biased comp Viterbi window len:  %d\n",             esl_opt_GetInteger(go, "--B2"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--B3")         && fprintf(ofp, "# biased comp Forward window len:  %d\n",             esl_opt_GetInteger(go, "--B3"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--bgfile")     && fprintf(ofp, "# file with custom bg probs:       %s\n",             esl_opt_GetString(go, "--bgfile"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--dna")        && fprintf(ofp, "# input query is asserted as:      DNA\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--rna")        && fprintf(ofp, "# input query is asserted as:      RNA\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+#if defined (p7_IMPL_SSE)
+  if (esl_opt_IsUsed(go, "--seed_max_depth")    && fprintf(ofp, "# FM Seed length:                  %d\n",             esl_opt_GetInteger(go, "--seed_max_depth"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_sc_thresh")    && fprintf(ofp, "# FM score threshhold (bits):      %g\n",             esl_opt_GetReal(go, "--seed_sc_thresh"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_sc_density")   && fprintf(ofp, "# FM score density (bits/pos):     %g\n",             esl_opt_GetReal(go, "--seed_sc_density"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_drop_max_len") && fprintf(ofp, "# FM max neg-growth length:        %d\n",             esl_opt_GetInteger(go, "--seed_drop_max_len")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_drop_lim")     && fprintf(ofp, "# FM max run drop:                 %g\n",             esl_opt_GetReal(go, "--seed_drop_lim"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_req_pos")      && fprintf(ofp, "# FM req positive run length:      %d\n",             esl_opt_GetInteger(go, "--seed_req_pos"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_consens_match") && fprintf(ofp, "# FM consec consensus match req:   %d\n",             esl_opt_GetInteger(go, "--seed_consens_match"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed_ssv_length")   && fprintf(ofp, "# FM len used for Vit window:      %d\n",             esl_opt_GetInteger(go, "--seed_ssv_length"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") && fprintf(ofp, "# Restrict db to start at seq key: %s\n",            esl_opt_GetString(go, "--restrictdb_stkey"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--restrictdb_n")     && fprintf(ofp, "# Restrict db to # target seqs:    %d\n",            esl_opt_GetInteger(go, "--restrictdb_n")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--ssifile")          && fprintf(ofp, "# Override ssi file to:            %s\n",            esl_opt_GetString(go, "--ssifile"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+  if (esl_opt_IsUsed(go, "--nonull2")    && fprintf(ofp, "# null2 bias corrections:          off\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--toponly")    && fprintf(ofp, "# search only top strand:          on\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--bottomonly") && fprintf(ofp, "# search only bottom strand:       on\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-Z")           && fprintf(ofp, "# database size is set to:         %.1f Mb\n",        esl_opt_GetReal(go, "-Z"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed") == 0 && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if                              (  fprintf(ofp, "# random number seed set to:       %d\n",             esl_opt_GetInteger(go, "--seed"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--qformat")    && fprintf(ofp, "# query <seqfile> format asserted: %s\n",             esl_opt_GetString(go, "--qformat"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tformat")    && fprintf(ofp, "# targ <seqfile> format asserted:  %s\n",             esl_opt_GetString(go, "--tformat"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--w_beta")     && fprintf(ofp, "# window length beta value:        %g\n",             esl_opt_GetReal(go, "--w_beta"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--w_length")   && fprintf(ofp, "# window length :                  %d\n",             esl_opt_GetInteger(go, "--w_length")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--block_length")&&fprintf(ofp, "# block length :                   %d\n",             esl_opt_GetInteger(go, "--block_length")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#ifdef HMMER_THREADS
+  //if (esl_opt_IsUsed(go, "--cpu")        && fprintf(ofp, "# number of worker threads:        %d\n",             esl_opt_GetInteger(go, "--cpu"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# number of worker threads:        %d\n",             ncpus)      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go       = NULL;  
+  struct cfg_s     cfg;         
+  int              status   = eslOK;
+
+  impl_Init();             /* processor specific initialization */
+  p7_FLogsumInit();        /* we're going to use table-driven Logsum() approximations at times */
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet)
+   */
+  cfg.queryfile  = NULL;
+  cfg.dbfile     = NULL;
+  cfg.qfmt       = eslMSAFILE_UNKNOWN;
+  cfg.do_mpi     = FALSE;               /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;                   /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;                   /* this gets reset below, if we init MPI */
+
+  cfg.firstseq_key = NULL;
+  cfg.n_targetseq  = -1;
+
+  process_commandline(argc, argv, &go, &cfg.queryfile, &cfg.dbfile);
+
+  if (esl_opt_IsOn(go, "--qformat")) {
+    if (strcasecmp("fasta", esl_opt_GetString(go, "--qformat")) == 0)
+      cfg.qfmt = eslSQFILE_FASTA;
+    else
+      cfg.qfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+
+    if (cfg.qfmt == eslMSAFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+
+
+#ifndef eslAUGMENT_SSI
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")  || esl_opt_IsUsed(go, "--ssifile")  )
+    p7_Fail("Unable to use range-control options unless an SSI index file is available. See 'esl_sfetch --index'\n");
+#else
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") )
+    if ((cfg.firstseq_key = esl_opt_GetString(go, "--restrictdb_stkey")) == NULL)  p7_Fail("Failure capturing --restrictdb_stkey\n");
+
+  if (esl_opt_IsUsed(go, "--restrictdb_n") )
+    cfg.n_targetseq = esl_opt_GetInteger(go, "--restrictdb_n");
+
+  if ( cfg.n_targetseq != -1 && cfg.n_targetseq < 1 )
+    p7_Fail("--restrictdb_n must be >= 1\n");
+
+#endif
+
+
+  status = serial_master(go, &cfg);
+
+  esl_getopts_Destroy(go);
+  return status;
+}
+
+
+
+/* serial_master()
+ * The serial version of hmmsearch.
+ * For each query HMM in <queryfile> search the database for hits.
+ * 
+ * A master can only return if it's successful. All errors are handled
+ * immediately and fatally with p7_Fail().
+ */
+static int
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp          = stdout;          /* results output file (-o)                        */
+  FILE            *afp          = NULL;            /* alignment output file (-A)                      */
+  FILE            *tblfp        = NULL;            /* output stream for tabular  (--tblout)    */
+  FILE            *dfamtblfp    = NULL;            /* output stream for tabular Dfam format (--dfamtblout)    */
+  FILE            *aliscoresfp  = NULL;            /* output stream for alignment scores (--aliscoresout)    */
+
+  /*Some fraction of these will be used, depending on what sort of input is used for the query*/
+  P7_HMMFILE      *hfp        = NULL;              /* open input HMM file                             */
+  P7_HMM          *hmm        = NULL;              /* one HMM query                                   */
+  ESLX_MSAFILE    *qfp_msa    = NULL;              /* open query alifile */
+  ESL_SQFILE      *qfp_sq     = NULL;          /* open query seqfile                                       */
+  ESL_SQ          *qsq        = NULL;          /* query sequence                                   */
+  FILE            *hmmoutfp   = NULL;              /* output stream for hmms (--hmmout),  only if input is an alignment file    */
+  char            *hmmfile    = NULL;              /* file to write HMM to                    */
+
+  int              dbformat  =  eslSQFILE_UNKNOWN;  /* format of dbfile                                 */
+  ESL_SQFILE      *dbfp      = NULL;              /* open input sequence file                        */
+
+  P7_BG           *bg_manual  = NULL;
+
+  ESL_ALPHABET    *abc       = NULL;              /* digital alphabet                                */
+  ESL_STOPWATCH   *w;
+  P7_SCOREDATA    *scoredata = NULL;
+
+  int              textw     = 0;
+  int              nquery    = 0;
+  int              status    = eslOK;
+  int              qhstatus  = eslOK;
+  int              sstatus   = eslOK;
+  int              i;
+  double           resCnt    = 0;
+  /* used to keep track of the lengths of the sequences that are processed */
+  ID_LENGTH_LIST  *id_length_list = NULL;
+
+  /* these variables are only used if db type is FM-index*/
+  FM_CFG      *fm_cfg       = NULL;
+  FM_METADATA *fm_meta      = NULL;
+  fpos_t       fm_basepos;
+  /* end FM-index-specific variables */
+
+
+  int              ncpus    = 0;
+
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  ESL_SQ_BLOCK    *block    = NULL;
+  FM_THREAD_INFO  *fminfo   = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+  char   errbuf[eslERRBUFSIZE];
+  double window_beta = -1.0 ;
+  int window_length  = -1;
+
+  P7_BUILDER       *builder     = NULL;
+  ESL_MSA          *msa         = NULL;
+  int               msas_named  = 0;
+  int               force_single = ( esl_opt_IsOn(go, "--singlemx") ? TRUE : FALSE );
+
+
+//  ESL_STOPWATCH *ssv_watch_master = esl_stopwatch_Create();
+//  ESL_STOPWATCH *ssv_watch_master_tot = esl_stopwatch_Create();
+
+//  ESL_STOPWATCH *postssv_watch_master = esl_stopwatch_Create();
+//  ESL_STOPWATCH *postssv_watch_master_tot = esl_stopwatch_Create();
+
+//  ESL_STOPWATCH *watch_slave  = esl_stopwatch_Create();
+
+  if (esl_opt_IsUsed(go, "--w_beta")) { if (  ( window_beta   = esl_opt_GetReal(go, "--w_beta") )  < 0 || window_beta > 1  ) esl_fatal("Invalid window-length beta value\n"); }
+  if (esl_opt_IsUsed(go, "--w_length")) { if (( window_length = esl_opt_GetInteger(go, "--w_length")) < 4  ) esl_fatal("Invalid window length value\n"); }
+
+  w = esl_stopwatch_Create();
+
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+
+
+  /* If caller declared target format, decode it */
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  if (dbformat == eslSQFILE_FMINDEX) {
+
+#if !defined (p7_IMPL_SSE)
+    p7_Fail("%s is a valid sequence database file format only on systems supporting SSE vector instructions\n", esl_opt_GetString(go, "--tformat"));
+#endif
+
+    //For now, this is a separate path from the typical esl_sqfile_Open() function call
+    //TODO: create esl_sqio_fmindex.c, analogous to esl_sqio_ascii.c,
+
+    if (esl_opt_IsOn(go, "--max")) {
+      p7_Fail("--max flag is incompatible with the FMINDEX target type\n");
+    }
+
+    fm_configAlloc(&fm_cfg);
+    fm_meta = fm_cfg->meta;
+
+    if((fm_meta->fp = fopen(cfg->dbfile, "rb")) == NULL)
+      p7_Fail("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+
+    if ( (status = fm_readFMmeta(fm_meta)) != eslOK)
+      p7_Fail("Failed to read FM meta data from target sequence database %s\n",      cfg->dbfile);
+
+    if ( (status = fm_configInit(fm_cfg, go)) != eslOK)
+      p7_Fail("Failed to initialize FM configuration for target sequence database %s\n",      cfg->dbfile);
+
+    if ( (status = fm_alphabetCreate(fm_meta, NULL)) != eslOK)
+      p7_Fail("Failed to create FM alphabet for target sequence database %s\n",      cfg->dbfile);
+
+    fgetpos( fm_meta->fp, &fm_basepos);
+
+  } else {
+    /* Open the target sequence database */
+    status = esl_sqfile_Open(cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+    if      (status == eslENOTFOUND) p7_Fail("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+    else if (status == eslEFORMAT)   p7_Fail("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+    else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+    else if (status != eslOK)        p7_Fail("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+
+    if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")) {
+      if (esl_opt_IsUsed(go, "--ssifile"))
+        esl_sqfile_OpenSSI(dbfp, esl_opt_GetString(go, "--ssifile"));
+      else
+        esl_sqfile_OpenSSI(dbfp, NULL);
+    }
+    if (dbfp->format > 100) // breaking the law!  That range is reserved for msa, for aligned formats
+      p7_Fail("%s contains a multiple sequence alignment; expect unaligned sequences, like FASTA\n",   cfg->dbfile);
+
+    if ( esl_opt_IsOn(go, "--dna") )
+      abc     = esl_alphabet_Create(eslDNA);
+    else if ( esl_opt_IsOn(go, "--rna") )
+      abc     = esl_alphabet_Create(eslRNA);
+
+  }
+
+  /* We're about to see if this is an HMM file. If we already know it isn't, based on --qformat, just skip the test*/
+  if ( esl_opt_IsOn(go, "--qformat") )
+    status = eslENORESULT; // so it'll fail into the section that opens an alignment
+  else
+    status = p7_hmmfile_OpenE(cfg->queryfile, NULL, &hfp, errbuf);
+
+  if      (status == eslENOTFOUND) {
+    // File just doesn't exist
+    p7_Fail("File existence/permissions problem in trying to open query file %s.\n%s\n", cfg->queryfile, errbuf);
+  } else if (status == eslOK) {
+    //Successfully read HMM file
+    qhstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+    if (qhstatus != eslOK) p7_Fail("reading hmm from file %s (%d)\n", cfg->queryfile, qhstatus);
+  } else {
+    //It's not an HMM. Maybe an alignment file, or a fasta file
+    if (strcmp(cfg->queryfile, "-") == 0 && ! esl_opt_IsOn(go, "--qformat")) {
+      p7_Fail("Must specify --qformat to read <alignfile> from stdin ('-')");
+    }
+
+    /* We're about to test if it's recognized as an MSA. If we know it shouldn't be,
+     * because of --qformat=fasta, skip the attempt
+     */
+    if (cfg->qfmt == eslSQFILE_FASTA ) {
+      status = eslENORESULT;
+    } else {
+      //Haven't already decided that it's a fasta file; try MSA first
+      status = eslx_msafile_Open(&abc, cfg->queryfile, NULL, cfg->qfmt, NULL, &qfp_msa);
+    }
+
+    if      (status == eslENOTFOUND) {
+      p7_Fail("File existence/permissions problem in trying to open query file %s.\n%s\n", cfg->queryfile, errbuf);
+    } else if (status != eslOK) {
+      // Either we've been told it's expected to be in fasta format, or we just learned
+      //that it's not an MSA, so we should precede assuming it's fasta.
+      cfg->qfmt = eslSQFILE_FASTA;
+      if (abc != NULL) {
+        status = esl_sqfile_OpenDigital(abc, cfg->queryfile, eslSQFILE_FASTA, NULL, &qfp_sq);
+        if (status != eslOK)         p7_Fail ("Unexpected error %d opening query file %s\n", status, cfg->queryfile);
+      } else {
+        int               q_type      = eslUNKNOWN;
+        status = esl_sqfile_Open(cfg->queryfile, eslSQFILE_FASTA, NULL, &qfp_sq);
+        if (status != eslOK)         p7_Fail ("Unexpected error %d opening query file %s\n", status, cfg->queryfile);
+        esl_sqfile_GuessAlphabet(qfp_sq, &q_type);
+        if (q_type == eslUNKNOWN)    p7_Fail ("Unable to guess alphabet for query file %s\n", cfg->queryfile);
+        abc     = esl_alphabet_Create(q_type);
+        esl_sqfile_SetDigital(qfp_sq, abc );
+      }
+    }
+
+    qsq  = esl_sq_CreateDigital(abc); // only need this in the case of a single sequence ... but that could come from an MSA
+
+    if (dbformat == eslSQFILE_FMINDEX) {
+      if ( (abc->type == eslDNA || abc->type == eslRNA) && !(fm_meta->alph_type == fm_DNA /*|| fm_meta->alph_type == fm_DNA_full*/) )
+        p7_Fail("incompatible alphabets - the HMM is a nucleotide alphabet, but the database isn't");
+      if ( (abc->type == eslAMINO ) && !(fm_meta->alph_type == fm_AMINO ) )
+        p7_Fail("incompatible alphabets - the HMM is an amino alphabet, but the database isn't");
+    }
+
+    builder = p7_builder_Create(NULL, abc);
+    if (builder == NULL)  p7_Fail("p7_builder_Create failed");
+
+
+    // special arguments for hmmbuild
+    builder->w_len      = (go != NULL && esl_opt_IsOn (go, "--w_length")) ?  esl_opt_GetInteger(go, "--w_length"): -1;
+    builder->w_beta     = (go != NULL && esl_opt_IsOn (go, "--w_beta"))   ?  esl_opt_GetReal   (go, "--w_beta")    : p7_DEFAULT_WINDOW_BETA;
+    if ( builder->w_beta < 0 || builder->w_beta > 1  ) esl_fatal("Invalid window-length beta value\n");
+
+
+    if (qfp_sq != NULL) {
+      // read first sequence
+      qhstatus = esl_sqio_Read(qfp_sq, qsq);
+      if (qhstatus != eslOK) p7_Fail("reading sequence from file %s (%d)\n", cfg->queryfile, qhstatus);
+
+    } else {
+      // read first sequence alignment
+      qhstatus = eslx_msafile_Read(qfp_msa, &msa);
+      if (qhstatus != eslOK) p7_Fail("reading alignment from file %s (%d)\n", cfg->queryfile, qhstatus);
+    }
+
+  }
+
+  /* Open the results output files */
+  if (esl_opt_IsOn(go, "-o"))              { if ((ofp      = fopen(esl_opt_GetString(go, "-o"), "w")) == NULL) p7_Fail("Failed to open output file %s for writing\n",    esl_opt_GetString(go, "-o")); }
+  if (esl_opt_IsOn(go, "-A"))              { if ((afp      = fopen(esl_opt_GetString(go, "-A"), "w")) == NULL) p7_Fail("Failed to open alignment file %s for writing\n", esl_opt_GetString(go, "-A")); }
+  if (esl_opt_IsOn(go, "--tblout"))        { if ((tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  esl_fatal("Failed to open tabular output file %s for writing\n", esl_opt_GetString(go, "--tblout")); }
+  if (esl_opt_IsOn(go, "--dfamtblout"))    { if ((dfamtblfp    = fopen(esl_opt_GetString(go, "--dfamtblout"),"w"))   == NULL)  esl_fatal("Failed to open tabular dfam output file %s for writing\n", esl_opt_GetString(go, "--dfamtblout")); }
+  if (esl_opt_IsOn(go, "--aliscoresout"))  { if ((aliscoresfp  = fopen(esl_opt_GetString(go, "--aliscoresout"),"w")) == NULL)  esl_fatal("Failed to open alignment scores output file %s for writing\n", esl_opt_GetString(go, "--aliscoresout")); }
+
+  if (qfp_msa != NULL || qfp_sq != NULL) {
+    if (esl_opt_IsOn(go, "--hmmout")) {
+      hmmfile = esl_opt_GetString(go, "--hmmout");
+      if ((hmmoutfp        = fopen(hmmfile,"w")) == NULL)        esl_fatal("Failed to open hmm output file %s for writing\n", hmmfile);
+    }
+  }
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                                   esl_threads_CPUCount(&ncpus);
+
+
+  if (ncpus > 0) {
+#if defined (p7_IMPL_SSE)
+      if (dbformat == eslSQFILE_FMINDEX)
+        threadObj = esl_threads_Create(&pipeline_thread_FM);
+      else
+#endif
+        threadObj = esl_threads_Create(&pipeline_thread);
+
+      queue = esl_workqueue_Create(ncpus * 2);
+  }
+#endif
+
+  if (esl_opt_IsOn(go, "--bgfile")) {
+    bg_manual = p7_bg_Create(abc);
+    status = p7_bg_Read(esl_opt_GetString(go, "--bgfile"), bg_manual, errbuf);
+    if (status != eslOK) p7_Fail("Trouble reading bgfile: %s\n", errbuf);
+  }
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  if (! (abc->type == eslRNA || abc->type == eslDNA))
+    p7_Fail("Invalid alphabet type in hmm for nhmmer. Expect DNA or RNA\n");
+
+  if (qhstatus == eslOK) {
+      /* One-time initializations after alphabet <abc> becomes known */
+      output_header(ofp, go, cfg->queryfile, cfg->dbfile, ncpus);
+
+      if (dbformat != eslSQFILE_FMINDEX)
+        dbfp->abc = abc;
+
+      for (i = 0; i < infocnt; ++i)    {
+          info[i].pli    = NULL;
+          info[i].th     = NULL;
+          info[i].om     = NULL;
+          if (bg_manual != NULL)
+            info[i].bg = p7_bg_Clone(bg_manual);
+          else
+            info[i].bg = p7_bg_Create(abc);
+
+#ifdef HMMER_THREADS
+          info[i].queue = queue;
+#endif
+      }
+
+#ifdef HMMER_THREADS
+      for (i = 0; i < ncpus * 2; ++i) {
+#if defined (p7_IMPL_SSE)
+        if (dbformat == eslSQFILE_FMINDEX) {
+          ESL_ALLOC(fminfo, sizeof(FM_THREAD_INFO));
+          if (fminfo == NULL)           esl_fatal("Failed to allocate FM thread info");
+
+          ESL_ALLOC(fminfo->fmf, sizeof(FM_DATA));
+          ESL_ALLOC(fminfo->fmb, sizeof(FM_DATA));
+          if (fminfo->fmf == NULL || fminfo->fmb == NULL)           esl_fatal("Failed to allocate FM thread info");
+          fminfo->active = FALSE;
+
+          status = esl_workqueue_Init(queue, fminfo);
+          if (status != eslOK)          esl_fatal("Failed to add FM info to work queue");
+
+        }
+        else
+#endif
+        {
+
+          block = esl_sq_CreateDigitalBlock(BLOCK_SIZE, abc);
+          if (block == NULL)           esl_fatal("Failed to allocate sequence block");
+
+          status = esl_workqueue_Init(queue, block);
+          if (status != eslOK)          esl_fatal("Failed to add block to work queue");
+        }
+      }
+#endif
+  }
+
+  if (qfp_sq != NULL || (qfp_msa != NULL && force_single )) {
+    /* We'll use this scoring matrix whenever we have a single sequence (even in MSA format)
+     * Default is stored in the --mx option, so it's always IsOn(). Check --mxfile first; then go to the --mx option and the default.
+     */
+    if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (builder, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), info->bg);
+    else                              status = p7_builder_LoadScoreSystem(builder, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), info->bg);
+    if (status != eslOK) p7_Fail("Failed to set single query seq score system:\n%s\n", builder->errbuf);
+  }
+
+
+  /* Outer loop: over each query HMM or alignment in <queryfile>. */
+  while (qhstatus == eslOK) {
+      P7_PROFILE      *gm      = NULL;
+      P7_OPROFILE     *om      = NULL;       /* optimized query profile                  */
+
+      if ( qfp_msa != NULL ) {
+        //deal with recently read MSA
+        //if name isn't assigned, give it one (can only do this if there's a single unnamed alignment, so pick it's filename)
+        if (msa->name == NULL) {
+          char *name = NULL;
+          if (msas_named>0) p7_Fail("I need name annotation on each alignment in a multi MSA file; failed on #%d", nquery+1);
+
+          if (cfg->queryfile != NULL) {
+            if ((status = esl_FileTail(cfg->queryfile, TRUE, &name)) != eslOK) return status; /* TRUE=nosuffix */
+          } else {
+            name = "Query";
+          }
+
+          if ((status = esl_msa_SetName(msa, name, -1)) != eslOK) p7_Fail("Error assigning name to alignment");
+          msas_named++;
+
+          free(name);
+        }
+
+        //Turn sequence alignment into an HMM
+        if (msa->nseq == 1 && force_single) {
+          if (qsq!=NULL) esl_sq_Destroy(qsq);
+          qsq = esl_sq_CreateDigitalFrom(msa->abc, (msa->sqname?msa->sqname[0]:"Query"), msa->ax[0], msa->alen, (msa->sqdesc?msa->sqdesc[0]:NULL), (msa->sqacc?msa->sqacc[0]:NULL), NULL);
+          esl_abc_XDealign(qsq->abc, qsq->dsq,  qsq->dsq, &(qsq->n));
+          if ((qhstatus = p7_SingleBuilder(builder, qsq, info->bg, &hmm, NULL, NULL, NULL)) != eslOK) p7_Fail("build failed: %s", builder->errbuf);
+        } else {
+          if ((qhstatus = p7_Builder(builder, msa, info->bg, &hmm, NULL, NULL, NULL, NULL)) != eslOK) p7_Fail("build failed: %s", builder->errbuf);
+        }
+
+      } else if ( qfp_sq != NULL) {//  FASTA format, so they all have names
+        //Turn sequence into an HMM
+        if ((qhstatus = p7_SingleBuilder(builder, qsq, info->bg, &hmm, NULL, NULL, NULL)) != eslOK) p7_Fail("build failed: %s", builder->errbuf);
+      }
+
+
+      // Assign HMM max_length
+      if      (window_length > 0)     hmm->max_length = window_length;
+      else if (window_beta   > 0)     p7_Builder_MaxLength(hmm, window_beta);
+      else if (hmm->max_length == -1 ) p7_Builder_MaxLength(hmm, p7_DEFAULT_WINDOW_BETA);
+
+
+      if (hmmoutfp != NULL) { //
+        if ((status = p7_hmmfile_WriteASCII(hmmoutfp, -1, hmm)) != eslOK) ESL_FAIL(status, errbuf, "HMM save failed");
+        fclose(hmmoutfp);
+      }
+
+      nquery++;
+      resCnt = 0;
+      esl_stopwatch_Start(w);
+
+      /* seqfile may need to be rewound (multiquery mode) */
+      if (nquery > 1) {
+#if defined (p7_IMPL_SSE)
+        if (dbformat == eslSQFILE_FMINDEX) { //rewind
+          if (fsetpos(fm_meta->fp, &fm_basepos) != 0)  ESL_EXCEPTION(eslESYS, "rewind via fsetpos() failed");
+        }
+        else
+#endif
+        {
+          if (! esl_sqfile_IsRewindable(dbfp))
+            esl_fatal("Target sequence file %s isn't rewindable; can't search it with multiple queries", cfg->dbfile);
+
+          if (! esl_opt_IsUsed(go, "--restrictdb_stkey") )
+            esl_sqfile_Position(dbfp, 0); //only re-set current position to 0 if we're not planning to set it in a moment
+        }
+      }
+
+      if (dbformat != eslSQFILE_FMINDEX) {
+        if ( cfg->firstseq_key != NULL ) { //it's tempting to want to do this once and capture the offset position for future passes, but ncbi files make this non-trivial, so this keeps it general
+          sstatus = esl_sqfile_PositionByKey(dbfp, cfg->firstseq_key);
+          if (sstatus != eslOK)
+            p7_Fail("Failure setting restrictdb_stkey to %d\n", cfg->firstseq_key);
+        }
+      }
+
+      if (fprintf(ofp, "Query:       %s  [M=%d]\n", hmm->name, hmm->M) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (hmm->acc  && fprintf(ofp, "Accession:   %s\n", hmm->acc)     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (hmm->desc && fprintf(ofp, "Description: %s\n", hmm->desc)    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+
+      /* Convert to an optimized model */
+      gm = p7_profile_Create (hmm->M, abc);
+      om = p7_oprofile_Create(hmm->M, abc);
+      p7_ProfileConfig(hmm, info->bg, gm, 100, p7_LOCAL); /* 100 is a dummy length for now; and MSVFilter requires local mode */
+      p7_oprofile_Convert(gm, om);                  /* <om> is now p7_LOCAL, multihit */
+
+#if defined (p7_IMPL_SSE)
+      if (dbformat == eslSQFILE_FMINDEX) {
+        //capture a measure of score density multiplied by something I conjecture to be related to
+        //the expected longest common subsequence (sqrt(M)).  If less than a default target
+        //(7 bits of expected LCS), then the requested score threshold will be shifted down
+        // according to this ratio.
+        // Xref: ~wheelert/notebook/2014/03-04-FM-time-v-len/00NOTES -- Thu Mar  6 14:40:48 EST 2014
+        float best_sc_avg = 0;
+        int j;
+        for (i = 1; i <= om->M; i++) {
+          float max_score = 0;
+          for (j=0; j<hmm->abc->K; j++) {
+            if ( esl_abc_XIsResidue(om->abc,j) &&  gm->rsc[j][(i) * p7P_NR     + p7P_MSC]   > max_score)   max_score   = gm->rsc[j][(i) * p7P_NR     + p7P_MSC];
+          }
+          best_sc_avg += max_score;
+        }
+        best_sc_avg /= sqrt((double) hmm->M);   //that's dividing by M to get score density, then multiplying by sqrt(M) as a proxy for expected LCS
+        best_sc_avg = ESL_MAX(5.0,best_sc_avg); // don't let it get too low, or run time will dramatically suffer
+
+        fm_cfg->sc_thresh_ratio = ESL_MIN(best_sc_avg/7.0, 1.0);
+        scoredata = p7_hmm_ScoreDataCreate(om, gm);
+      }
+      else
+#endif
+        scoredata = p7_hmm_ScoreDataCreate(om, NULL);
+
+      for (i = 0; i < infocnt; ++i) {
+          /* Create processing pipeline and hit list */
+          info[i].th  = p7_tophits_Create();
+          info[i].om = p7_oprofile_Copy(om);
+          info[i].pli = p7_pipeline_Create(go, om->M, 100, TRUE, p7_SEARCH_SEQS); /* L_hint = 100 is just a dummy for now */
+
+          //set method specific --F1, if it wasn't set at command line
+          if (!esl_opt_IsOn(go, "--F1") ) {
+#if defined (p7_IMPL_SSE)
+            if (dbformat == eslSQFILE_FMINDEX)
+              info[i].pli->F1 = 0.03;
+            else
+#endif
+              info[i].pli->F1 = 0.02;
+          }
+
+#if defined (p7_IMPL_SSE)
+          info[i].fm_cfg = fm_cfg;
+#endif
+          p7_pli_NewModel(info[i].pli, info[i].om, info[i].bg);
+
+          info[i].pli->do_alignment_score_calc = esl_opt_IsOn(go, "--aliscoresout") ;
+
+          if (  esl_opt_IsUsed(go, "--toponly") )
+            info[i].pli->strands = p7_STRAND_TOPONLY;
+          else if (  esl_opt_IsUsed(go, "--bottomonly") )
+            info[i].pli->strands = p7_STRAND_BOTTOMONLY;
+          else
+            info[i].pli->strands = p7_STRAND_BOTH;
+
+
+          if (dbformat != eslSQFILE_FMINDEX) {
+            if (  esl_opt_IsUsed(go, "--block_length") )
+              info[i].pli->block_length = esl_opt_GetInteger(go, "--block_length");
+            else
+              info[i].pli->block_length = NHMMER_MAX_RESIDUE_COUNT;
+          }
+
+          info[i].scoredata = p7_hmm_ScoreDataClone(scoredata, om->abc->Kp);
+
+#ifdef HMMER_THREADS
+          if (ncpus > 0)
+            esl_threads_AddThread(threadObj, &info[i]);
+#endif
+      }
+
+      /* establish the id_lengths data structutre */
+      id_length_list = init_id_length(1000);
+
+#ifdef HMMER_THREADS
+  #if defined (p7_IMPL_SSE)
+      if (dbformat == eslSQFILE_FMINDEX) {
+        for(i=0; i<fm_cfg->meta->seq_count; i++)
+          add_id_length(id_length_list, fm_cfg->meta->seq_data[i].target_id, fm_cfg->meta->seq_data[i].target_start + fm_cfg->meta->seq_data[i].length - 1);
+
+        if (ncpus > 0)  sstatus = thread_loop_FM (info, threadObj, queue, dbfp);
+        else            sstatus = serial_loop_FM (info, dbfp/*, ssv_watch_master, postssv_watch_master, watch_slave*/);
+      }
+      else
+  #endif //defined (p7_IMPL_SSE)
+      {
+        if (ncpus > 0)  sstatus = thread_loop    (info, id_length_list, threadObj, queue, dbfp, cfg->firstseq_key, cfg->n_targetseq);
+        else            sstatus = serial_loop    (info, id_length_list, dbfp, cfg->firstseq_key, cfg->n_targetseq/*, ssv_watch_master, postssv_watch_master, watch_slave*/);
+      }
+#else //HMMER_THREADS
+  #if defined (p7_IMPL_SSE)
+      if (dbformat == eslSQFILE_FMINDEX)
+        sstatus = serial_loop_FM (info, dbfp);
+      else
+  #endif // defined (p7_IMPL_SSE)
+        sstatus = serial_loop    (info, id_length_list, dbfp, cfg->firstseq_key, cfg->n_targetseq/*, ssv_watch_master, postssv_watch_master, watch_slave*/);
+#endif //HMMER_THREADS
+
+
+      switch(sstatus) {
+        case eslEFORMAT:
+          esl_fatal("Parse failed (sequence file %s):\n%s\n",
+                    dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+          break;
+        case eslEOF:
+        case eslOK:
+          /* do nothing */
+          break;
+        default:
+          esl_fatal("Unexpected error %d reading sequence file %s", sstatus, dbfp->filename);
+      }
+
+      //need to re-compute e-values before merging (when list will be sorted)
+      if (esl_opt_IsUsed(go, "-Z")) {
+    	  resCnt = 1000000*esl_opt_GetReal(go, "-Z");
+
+    	  if ( info[0].pli->strands == p7_STRAND_BOTH)
+    	    resCnt *= 2;
+
+      } else {
+#if defined (p7_IMPL_SSE)
+        if (dbformat == eslSQFILE_FMINDEX) {
+          resCnt = 2 * fm_meta->char_count;
+        }
+        else
+#endif
+        {
+          for (i = 0; i < infocnt; ++i)
+            resCnt += info[i].pli->nres;
+        }
+      }
+
+      for (i = 0; i < infocnt; ++i)
+          p7_tophits_ComputeNhmmerEvalues(info[i].th, resCnt, info[i].om->max_length);
+
+      /* merge the results of the search results */
+      for (i = 1; i < infocnt; ++i) {
+          p7_tophits_Merge(info[0].th, info[i].th);
+          p7_pipeline_Merge(info[0].pli, info[i].pli);
+
+          p7_pipeline_Destroy(info[i].pli);
+          p7_tophits_Destroy(info[i].th);
+          p7_oprofile_Destroy(info[i].om);
+      }
+
+#if defined (p7_IMPL_SSE)
+      if (dbformat == eslSQFILE_FMINDEX) {
+        info[0].pli->nseqs = fm_meta->seq_data[fm_meta->seq_count-1].target_id + 1;
+        info[0].pli->nres  = resCnt;
+      }
+#endif
+
+      /* Print the results.  */
+      p7_tophits_SortBySeqidxAndAlipos(info->th);
+      assign_Lengths(info->th, id_length_list);
+      p7_tophits_RemoveDuplicates(info->th, info->pli->use_bit_cutoffs);
+
+      p7_tophits_SortBySortkey(info->th);
+      p7_tophits_Threshold(info->th, info->pli);
+
+
+      //tally up total number of hits and target coverage
+      info->pli->n_output = info->pli->pos_output = 0;
+      for (i = 0; i < info->th->N; i++) {
+          if ( (info->th->hit[i]->flags & p7_IS_REPORTED) || info->th->hit[i]->flags & p7_IS_INCLUDED) {
+              info->pli->n_output++;
+              info->pli->pos_output += abs(info->th->hit[i]->dcl[0].jali - info->th->hit[i]->dcl[0].iali) + 1;
+          }
+      }
+
+      p7_tophits_Targets(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    hmm->name, hmm->acc, info->th, info->pli, (nquery == 1));
+      if (dfamtblfp) p7_tophits_TabularXfam(dfamtblfp,   hmm->name, hmm->acc, info->th, info->pli);
+      if (aliscoresfp) p7_tophits_AliScores(aliscoresfp, hmm->name, info->th );
+
+      esl_stopwatch_Stop(w);
+
+      p7_pli_Statistics(ofp, info->pli, w);
+
+//      esl_stopwatch_Display(stdout, ssv_watch_master,     "# SSV time: ");
+//      esl_stopwatch_Display(stdout, postssv_watch_master, "# POSTSSV time: ");
+
+//      esl_stopwatch_Include(ssv_watch_master_tot, ssv_watch_master);
+//      esl_stopwatch_Include(postssv_watch_master_tot, postssv_watch_master);
+
+      //reset the per-query master stopwatches
+//      esl_stopwatch_Start(ssv_watch_master);      esl_stopwatch_Stop(ssv_watch_master);
+//      esl_stopwatch_Start(postssv_watch_master);  esl_stopwatch_Stop(postssv_watch_master);
+
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      /* Output the results in an MSA (-A option) */
+      if (afp) {
+          ESL_MSA *msa = NULL;
+
+          if (p7_tophits_Alignment(info->th, abc, NULL, NULL, 0, p7_DEFAULT, &msa) == eslOK) {
+            if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+            else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+
+            if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+          }  else {
+	    if (fprintf(ofp, "# No hits satisfy inclusion thresholds; no alignment saved\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+          }
+          esl_msa_Destroy(msa);
+      }
+
+      for (i = 0; i < infocnt; ++i)
+        p7_hmm_ScoreDataDestroy(info[i].scoredata);
+
+      p7_hmm_ScoreDataDestroy(scoredata);
+      p7_pipeline_Destroy(info->pli);
+      p7_tophits_Destroy(info->th);
+      p7_oprofile_Destroy(info->om);
+      p7_oprofile_Destroy(om);
+      p7_profile_Destroy(gm);
+      p7_hmm_Destroy(hmm);
+      destroy_id_length(id_length_list);
+      if (qsq != NULL) esl_sq_Reuse(qsq);
+
+      if (hfp != NULL) {
+        qhstatus = p7_hmmfile_Read(hfp, &abc, &hmm);
+      } else if (qfp_msa != NULL){
+        esl_msa_Destroy(msa);
+        qhstatus = eslx_msafile_Read(qfp_msa, &msa);
+      } else { // qfp_sq
+        qhstatus = esl_sqio_Read(qfp_sq, qsq);
+      }
+
+  } /* end outer loop over queries */
+
+  if (hfp != NULL) {
+    switch(qhstatus) {
+      case eslEOD:        p7_Fail("read failed, HMM file %s may be truncated?", cfg->queryfile);      break;
+      case eslEFORMAT:    p7_Fail("bad file format in HMM file %s",             cfg->queryfile);      break;
+      case eslEINCOMPAT:  p7_Fail("HMM file %s contains different alphabets",   cfg->queryfile);      break;
+      case eslEOF:        /* do nothing; EOF is what we expect here */                              break;
+      default:            p7_Fail("Unexpected error (%d) in reading HMMs from %s", qhstatus, cfg->queryfile);
+    }
+  } else if (qfp_msa != NULL){
+    if (qhstatus != eslEOF ) eslx_msafile_ReadFailure(qfp_msa, status);
+  } else { // qfp_sq
+    if      (qhstatus == eslEFORMAT) p7_Fail("Parse failed (sequence file %s):\n%s\n",
+                qfp_sq->filename, esl_sqfile_GetErrorBuf(qfp_sq));
+    else if (qhstatus != eslEOF)     p7_Fail("Unexpected error %d reading sequence file %s",
+                qhstatus, qfp_sq->filename);
+  }
+
+
+
+//  esl_stopwatch_Display(stdout, ssv_watch_master_tot, "# Total SSV time: ");
+//  esl_stopwatch_Display(stdout, postssv_watch_master_tot, "# Total POSTSSV time: ");
+
+
+ /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "nhmmer", p7_SEARCH_SEQS, cfg->queryfile, cfg->dbfile, go);
+  if (ofp)      { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for successful exit
+   */
+  for (i = 0; i < infocnt; ++i)
+    p7_bg_Destroy(info[i].bg);
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0) {
+      esl_workqueue_Reset(queue);
+#if defined (p7_IMPL_SSE)
+      if (dbformat == eslSQFILE_FMINDEX) {
+        while (esl_workqueue_Remove(queue, (void **) &fminfo) == eslOK) {
+          if (fminfo) {
+            if (fminfo->fmf) free(fminfo->fmf);
+            if (fminfo->fmb) free(fminfo->fmb);
+            free(fminfo);
+          }
+        }
+      }
+      else
+#endif
+      {
+        while (esl_workqueue_Remove(queue, (void **) &block) == eslOK) {
+          esl_sq_DestroyBlock(block);
+        }
+      }
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+  }
+#endif
+
+  free(info);
+
+
+
+  if (hfp != NULL)     p7_hmmfile_Close(hfp);
+  if (qfp_msa != NULL) eslx_msafile_Close(qfp_msa);
+  if (qfp_sq != NULL)  esl_sqfile_Close(qfp_sq);
+
+  if (builder != NULL) p7_builder_Destroy(builder);
+  if (qsq != NULL)     esl_sq_Destroy(qsq);
+
+  esl_sqfile_Close(dbfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+
+#if defined (p7_IMPL_SSE)
+  if (dbformat == eslSQFILE_FMINDEX) {
+    fclose(fm_meta->fp);
+    fm_configDestroy(fm_cfg); // will cascade to destroy meta and alphabet, too
+  }
+#endif
+
+
+  if (ofp != stdout) fclose(ofp);
+  if (afp)           fclose(afp);
+  if (tblfp)         fclose(tblfp);
+  if (dfamtblfp)     fclose(dfamtblfp);
+  if (aliscoresfp)   fclose(aliscoresfp);
+
+  return eslOK;
+
+ ERROR:
+   if (hfp != NULL)     p7_hmmfile_Close(hfp);
+   if (qfp_msa != NULL) eslx_msafile_Close(qfp_msa);
+   if (qfp_sq != NULL)  esl_sqfile_Close(qfp_sq);
+
+   if (builder != NULL) p7_builder_Destroy(builder);
+   if (qsq != NULL)     esl_sq_Destroy(qsq);
+
+   if (ofp != stdout) fclose(ofp);
+   if (afp)           fclose(afp);
+   if (tblfp)         fclose(tblfp);
+   if (dfamtblfp)     fclose(dfamtblfp);
+   if (aliscoresfp)   fclose(aliscoresfp);
+
+#if defined (p7_IMPL_SSE)
+   if (dbformat == eslSQFILE_FMINDEX) {
+     fm_configDestroy(fm_cfg);
+   }
+#endif
+
+   if (hmmfile != NULL) free (hmmfile);
+
+   return eslFAIL;
+}
+
+//TODO: MPI code needs to be added here
+static int
+serial_loop(WORKER_INFO *info, ID_LENGTH_LIST *id_length_list, ESL_SQFILE *dbfp, char *firstseq_key, int n_targetseqs/*, ESL_STOPWATCH *ssv_watch_master, ESL_STOPWATCH *postssv_watch_master, ESL_STOPWATCH *watch_slave*/)
+{
+
+  int      wstatus = eslOK;
+  int prev_hit_cnt;
+  int seq_id = 0;
+  ESL_SQ   *dbsq   =  esl_sq_CreateDigital(info->om->abc);
+#ifdef eslAUGMENT_ALPHABET
+  ESL_SQ   *dbsq_revcmp;
+
+
+  if (dbsq->abc->complement != NULL)
+    dbsq_revcmp =  esl_sq_CreateDigital(info->om->abc);
+#endif /*eslAUGMENT_ALPHABET*/
+
+  wstatus = esl_sqio_ReadWindow(dbfp, 0, info->pli->block_length, dbsq);
+
+
+  while (wstatus == eslOK && (n_targetseqs==-1 || seq_id < n_targetseqs) ) {
+      dbsq->idx = seq_id;
+
+      p7_pli_NewSeq(info->pli, dbsq);
+
+      if (info->pli->strands != p7_STRAND_BOTTOMONLY) {
+
+        info->pli->nres -= dbsq->C; // to account for overlapping region of windows
+        prev_hit_cnt = info->th->N;
+        p7_Pipeline_LongTarget(info->pli, info->om, info->scoredata, info->bg, info->th, info->pli->nseqs, dbsq, p7_NOCOMPLEMENT, NULL, NULL, NULL/*, ssv_watch_master, postssv_watch_master, watch_slave*/);
+        p7_pipeline_Reuse(info->pli); // prepare for next search
+
+      } else {
+        info->pli->nres -= dbsq->n;
+      }
+#ifdef eslAUGMENT_ALPHABET
+      //reverse complement
+      if (info->pli->strands != p7_STRAND_TOPONLY && dbsq->abc->complement != NULL )
+      {
+          prev_hit_cnt = info->th->N;
+          esl_sq_Copy(dbsq,dbsq_revcmp);
+          esl_sq_ReverseComplement(dbsq_revcmp);
+          p7_Pipeline_LongTarget(info->pli, info->om, info->scoredata, info->bg, info->th, info->pli->nseqs, dbsq_revcmp, p7_COMPLEMENT, NULL, NULL, NULL/*, ssv_watch_master, postssv_watch_master, watch_slave*/);
+          p7_pipeline_Reuse(info->pli); // prepare for next search
+
+          info->pli->nres += dbsq_revcmp->W;
+
+      }
+#endif /*eslAUGMENT_ALPHABET*/
+
+      wstatus = esl_sqio_ReadWindow(dbfp, info->om->max_length, info->pli->block_length, dbsq);
+      if (wstatus == eslEOD) { // no more left of this sequence ... move along to the next sequence.
+          add_id_length(id_length_list, dbsq->idx, dbsq->L);
+
+          info->pli->nseqs++;
+          esl_sq_Reuse(dbsq);
+          wstatus = esl_sqio_ReadWindow(dbfp, 0, info->pli->block_length, dbsq);
+
+          seq_id++;
+
+      }
+    }
+
+
+  if (dbsq) esl_sq_Destroy(dbsq);
+  if (dbsq_revcmp) esl_sq_Destroy(dbsq_revcmp);
+
+  return wstatus;
+
+}
+
+
+#if defined (p7_IMPL_SSE)
+static int
+serial_loop_FM(WORKER_INFO *info, ESL_SQFILE *dbfp /*, ESL_STOPWATCH *ssv_watch_master, ESL_STOPWATCH *postssv_watch_master, ESL_STOPWATCH *watch_slave*/)
+{
+
+  int      wstatus = eslOK;
+  int i;
+
+  FM_DATA  fmf;
+  FM_DATA  fmb;
+
+  FM_METADATA *meta = info->fm_cfg->meta;
+
+
+  for ( i=0; i<info->fm_cfg->meta->block_count; i++ ) {
+
+    wstatus = fm_FM_read( &fmf, meta, TRUE );
+    if (wstatus != eslOK) return wstatus;
+    wstatus = fm_FM_read( &fmb, meta, FALSE );
+    if (wstatus != eslOK) return wstatus;
+
+    fmb.SA = fmf.SA;
+    fmb.T  = fmf.T;
+
+    wstatus = p7_Pipeline_LongTarget(info->pli, info->om, info->scoredata, info->bg,
+        info->th, -1, NULL, -1,  &fmf, &fmb, info->fm_cfg/*, ssv_watch_master, postssv_watch_master, watch_slave*/);
+    if (wstatus != eslOK) return wstatus;
+
+    fm_FM_destroy(&fmf, 1);
+    fm_FM_destroy(&fmb, 0);
+  }
+
+  return wstatus;
+
+}
+#endif //#if defined (p7_IMPL_SSE)
+
+#ifdef HMMER_THREADS
+static int
+thread_loop(WORKER_INFO *info, ID_LENGTH_LIST *id_length_list, ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp, char *firstseq_key, int n_targetseqs)
+{
+
+  int          i;
+  int          status  = eslOK;
+  int          sstatus = eslOK;
+  int          eofCount = 0;
+  ESL_SQ_BLOCK *block;
+  void         *newBlock;
+  int          seqid = -1;
+
+  ESL_SQ      *tmpsq = esl_sq_CreateDigital(info->om->abc);
+  int          abort = FALSE; // in the case n_targetseqs != -1, a block may get abbreviated
+
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+  ((ESL_SQ_BLOCK *)newBlock)->complete = TRUE;
+
+  /* Main loop: */
+  while (sstatus == eslOK  ) {
+      block = (ESL_SQ_BLOCK *) newBlock;
+
+      if (abort) {
+        block->count = 0;
+        sstatus = eslEOF;
+      } else {
+        sstatus = esl_sqio_ReadBlock(dbfp, block, info->pli->block_length, n_targetseqs, TRUE);
+      }
+
+      block->first_seqidx = info->pli->nseqs;
+      seqid = block->first_seqidx;
+      for (i=0; i<block->count; i++) {
+        block->list[i].idx = seqid;
+        add_id_length(id_length_list, seqid, block->list[i].L);
+        seqid++;
+
+        if (   seqid == n_targetseqs // hit the sequence target
+            && ( i<block->count-1 ||  block->complete ) // and either it's not the last sequence (so it's complete), or its complete
+        ) {
+          abort = TRUE;
+          block->count = i+1;
+          break;
+        }
+      }
+      info->pli->nseqs += block->count  - ((abort || block->complete) ? 0 : 1);// if there's an incomplete sequence read into the block wait to count it until it's complete.
+
+
+      if (sstatus == eslEOF) {
+          if (eofCount < esl_threads_GetWorkerCount(obj)) sstatus = eslOK;
+          ++eofCount;
+      } else if (!block->complete ) {
+          // The final sequence on the block was an incomplete window of the active sequence,
+          // so our next read will need a copy of it to correctly deal with overlapping
+          // regions. We capture a copy of the sequence here before sending it off to the
+          // pipeline to avoid odd race conditions that can occur otherwise.
+          // Copying the entire sequence isn't really necessary, and is a bit heavy-
+          // handed. Could accelerate if this proves to have any notable impact on speed.
+          esl_sq_Copy(block->list + (block->count - 1) , tmpsq);
+      }
+
+
+      if (sstatus == eslOK) {
+
+          status = esl_workqueue_ReaderUpdate(queue, block, &newBlock);
+          if (status != eslOK) esl_fatal("Work queue reader failed");
+
+          //newBlock needs all this information so the next ReadBlock call will know what to do
+          ((ESL_SQ_BLOCK *)newBlock)->complete = block->complete;
+          if (!block->complete) {
+              // Push the captured copy of the previously-read sequence into the new block,
+              // in preparation for ReadWindow  (double copy ... slower than necessary)
+              esl_sq_Copy(tmpsq, ((ESL_SQ_BLOCK *)newBlock)->list);
+
+              if (  ((ESL_SQ_BLOCK *)newBlock)->list->n < info->om->max_length ) {
+                //no reason to search the final partial sequence on the block, as the next block will search this whole chunk
+                ((ESL_SQ_BLOCK *)newBlock)->list->C = ((ESL_SQ_BLOCK *)newBlock)->list->n;
+                (((ESL_SQ_BLOCK *)newBlock)->count)--;
+              } else {
+                ((ESL_SQ_BLOCK *)newBlock)->list->C = info->om->max_length;
+              }
+
+          }
+      }
+  }
+
+
+  status = esl_workqueue_ReaderUpdate(queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+
+  if (sstatus == eslEOF) {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+    }
+
+  esl_sq_Destroy(tmpsq);
+
+  return sstatus;
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int prev_hit_cnt;
+  int i;
+  int status;
+  int workeridx;
+  WORKER_INFO   *info;
+  ESL_THREADS   *obj;
+  ESL_SQ_BLOCK  *block = NULL;
+  void          *newBlock;
+  
+  impl_Init();
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+
+  /* loop until all blocks have been processed */
+  block = (ESL_SQ_BLOCK *) newBlock;
+
+  while (block->count > 0)
+  {
+      /* Main loop: */
+      for (i = 0; i < block->count; ++i)
+    {
+      ESL_SQ *dbsq = block->list + i;
+
+      p7_pli_NewSeq(info->pli, dbsq);
+
+      if (info->pli->strands != p7_STRAND_BOTTOMONLY) {
+        info->pli->nres -= dbsq->C; // to account for overlapping region of windows
+
+        prev_hit_cnt = info->th->N;
+        p7_Pipeline_LongTarget(info->pli, info->om, info->scoredata, info->bg, info->th, block->first_seqidx + i, dbsq, p7_NOCOMPLEMENT, NULL, NULL, NULL/*, NULL, NULL, NULL*/);
+        p7_pipeline_Reuse(info->pli); // prepare for next search
+
+      } else {
+        info->pli->nres -= dbsq->n;
+      }
+
+#ifdef eslAUGMENT_ALPHABET
+      //reverse complement
+      if (info->pli->strands != p7_STRAND_TOPONLY && dbsq->abc->complement != NULL)
+      {
+          prev_hit_cnt = info->th->N;
+          esl_sq_ReverseComplement(dbsq);
+          p7_Pipeline_LongTarget(info->pli, info->om, info->scoredata, info->bg, info->th, block->first_seqidx + i, dbsq, p7_COMPLEMENT, NULL, NULL, NULL/*, NULL, NULL, NULL*/);
+          p7_pipeline_Reuse(info->pli); // prepare for next search
+
+          info->pli->nres += dbsq->W;
+      }
+
+#endif /*eslAUGMENT_ALPHABET*/
+
+    }
+
+      status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
+      if (status != eslOK) esl_fatal("Work queue worker failed");
+
+      block = (ESL_SQ_BLOCK *) newBlock;
+
+  }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+
+
+#if defined (p7_IMPL_SSE)
+static int
+thread_loop_FM(WORKER_INFO *info, ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp)
+{
+
+  int      status  = eslOK;
+  int i;
+
+  FM_METADATA *meta = info->fm_cfg->meta;
+  FM_THREAD_INFO *fminfo    = NULL;
+  void           *newFMinfo = NULL;
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newFMinfo);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+  fminfo = (FM_THREAD_INFO *) newFMinfo;
+
+  /* Main loop: */
+  for ( i=0; i<info->fm_cfg->meta->block_count; i++ ) {
+
+    status = fm_FM_read( fminfo->fmf, meta, TRUE );
+    if (status != eslOK) return status;
+    status = fm_FM_read( fminfo->fmb, meta, FALSE );
+    if (status != eslOK) return status;
+
+    fminfo->fmb->SA = fminfo->fmf->SA;
+    fminfo->fmb->T  = fminfo->fmf->T;
+    fminfo->active  = TRUE;
+
+    status = esl_workqueue_ReaderUpdate(queue, fminfo, &newFMinfo);
+    if (status != eslOK) esl_fatal("Work queue reader failed");
+    fminfo = (FM_THREAD_INFO *) newFMinfo;
+
+  }
+
+  /* this part is here to feed the worker threads with new fminfo objects to swap from
+   *  the queue while they are confirming completion of earlier fminfo objects (by
+   *  returning them). They are labelled inactive, so the worker doesn't bother
+   *  computing on them.
+   */
+  for (i=0; i<esl_threads_GetWorkerCount(obj)-1; i++) {
+    fminfo->active = FALSE;
+    esl_workqueue_ReaderUpdate(queue, fminfo, &newFMinfo);
+    if (status != eslOK) esl_fatal("Work queue reader failed");
+    fminfo = (FM_THREAD_INFO *) newFMinfo;
+  }
+  fminfo->active = FALSE;
+  esl_workqueue_ReaderUpdate(queue, fminfo, NULL);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+
+  esl_threads_WaitForFinish(obj);
+  esl_workqueue_Complete(queue);
+
+  return status;
+}
+
+
+static void
+pipeline_thread_FM(void *arg)
+{
+  int status;
+  int workeridx;
+  WORKER_INFO    *info;
+  ESL_THREADS    *obj;
+  FM_METADATA    *meta =      NULL;
+  FM_THREAD_INFO *fminfo    = NULL;
+  void           *newFMinfo = NULL;
+
+
+  impl_Init();
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+  meta = info->fm_cfg->meta;
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newFMinfo);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  /* loop until all blocks have been processed */
+  fminfo = (FM_THREAD_INFO *) newFMinfo;
+
+  while (fminfo->active)
+  {
+      status = p7_Pipeline_LongTarget(info->pli, info->om, info->scoredata, info->bg,
+          info->th, -1, NULL, -1,  fminfo->fmf, fminfo->fmb, info->fm_cfg/*, NULL, NULL, NULL */);
+      if (status != eslOK) esl_fatal ("Work queue worker failed");
+
+      fm_FM_destroy(fminfo->fmf, 1);
+      fm_FM_destroy(fminfo->fmb, 0);
+
+      status = esl_workqueue_WorkerUpdate(info->queue, fminfo, &newFMinfo);
+      if (status != eslOK) esl_fatal("Work queue worker failed");
+      fminfo = (FM_THREAD_INFO *) newFMinfo;
+
+  }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, fminfo, NULL);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+#endif //#if defined (p7_IMPL_SSE)
+
+
+#endif   /* HMMER_THREADS */
+
+
+
+/* helper functions for tracking id_lengths */
+
+static ID_LENGTH_LIST *
+init_id_length( int size )
+{
+  int status;
+  ID_LENGTH_LIST *list;
+
+  ESL_ALLOC (list, sizeof(ID_LENGTH_LIST));
+  list->count = 0;
+  list->size  = size;
+  list->id_lengths = NULL;
+
+  ESL_ALLOC (list->id_lengths, size * sizeof(ID_LENGTH));
+
+  return list;
+
+ERROR:
+  return NULL;
+}
+
+static void
+destroy_id_length( ID_LENGTH_LIST *list )
+{
+
+  if (list != NULL) {
+    if (list->id_lengths != NULL) free (list->id_lengths);
+    free (list);
+  }
+
+}
+
+
+static int
+add_id_length(ID_LENGTH_LIST *list, int id, int L)
+{
+   int status;
+
+   if (list->count > 0 && list->id_lengths[list->count-1].id == id) {
+     // the last time this gets updated, it'll have the sequence's actual length
+     list->id_lengths[list->count-1].length = L;
+   } else {
+
+     if (list->count == list->size) {
+       list->size *= 10;
+       ESL_REALLOC(list->id_lengths, list->size * sizeof(ID_LENGTH));
+     }
+
+     list->id_lengths[list->count].id     = id;
+     list->id_lengths[list->count].length = L;
+
+     list->count++;
+   }
+   return eslOK;
+
+ERROR:
+   return status;
+}
+ 
+static int
+assign_Lengths(P7_TOPHITS *th, ID_LENGTH_LIST *id_length_list) {
+
+  int i;
+  int j = 0;
+  for (i=0; i<th->N; i++) {
+    while (th->hit[i]->seqidx != id_length_list->id_lengths[j].id) { j++;   }
+    th->hit[i]->dcl[0].ad->L = id_length_list->id_lengths[j].length;
+  }
+
+  return eslOK;
+}
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/nhmmer.c $
+ * SVN $Id: nhmmer.c 4771 2015-02-25 06:53:51Z wheelert $
+ *****************************************************************/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/nhmmscan.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/nhmmscan.c
new file mode 100755
index 0000000..d99a09f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/nhmmscan.c
@@ -0,0 +1,920 @@
+/* nhmmscan: search sequence(s) against a profile HMM database, using nhmmer pipeline
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+#include "esl_vectorops.h"
+
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif /*HMMER_THREADS*/
+  ESL_SQ           *qsq;
+  P7_BG            *bg;	         /* null/background model                              */
+  P7_BG            *bg_default;  /* The default null/bg model. This should only be set (non-NULL) if bg has been overriden by --bgfile */
+  P7_PIPELINE      *pli;         /* work pipeline                           */
+  P7_TOPHITS       *th;          /* top hit results                         */
+  float            *scores;
+  float            *fwd_emissions; /* to hold residue emission probabilities in serial order (gathered from the optimized striped <om> with p7_oprofile_GetFwdEmissionArray() ). */
+} WORKER_INFO;
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+
+#define CPUOPTS     NULL
+#define MPIOPTS     NULL
+
+//#define DAEMONOPTS  "-o,--tblout,--domtblout"
+
+static ESL_OPTIONS options[] = {
+  /* name           type          default  env  range toggles  reqs   incomp                         help                                           docgroup*/
+  { "-h",           eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "show brief help on version and usage",                          1 },
+  /* Control of output */
+  { "-o",           eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "direct output to file <f>, not stdout",                         2 },
+  { "--tblout",     eslARG_OUTFILE, NULL, NULL, NULL,    NULL,  NULL,  NULL,            "save parseable table of per-sequence hits to file <f>",         2 },
+  { "--dfamtblout", eslARG_OUTFILE,      NULL, NULL, NULL,    NULL,  NULL,  NULL,              "save table of hits to file, in Dfam format <f>",               2 },
+  { "--aliscoresout", eslARG_OUTFILE,   NULL, NULL, NULL,    NULL,  NULL,  NULL,               "save of scores for each position in each alignment to <f>",    2 },
+  { "--acc",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "prefer accessions over names in output",                        2 },
+  { "--noali",      eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  NULL,            "don't output alignments, so output is smaller",                 2 },
+  { "--notextw",    eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL, "--textw",        "unlimit ASCII text output line width",                          2 },
+  { "--textw",      eslARG_INT,    "120", NULL, "n>=120",NULL,  NULL, "--notextw",      "set max width of ASCII text output lines",                      2 },
+
+  /* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,  "10.0", NULL, "x>0",   NULL,  NULL,  REPOPTS,         "report models <= this E-value threshold in output",             4 },
+  { "-T",           eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  REPOPTS,         "report models >= this score threshold in output",               4 },
+  /* Control of inclusion (significance) thresholds: */
+  { "--incE",       eslARG_REAL,  "0.01", NULL, "x>0",   NULL,  NULL,  INCOPTS,         "consider models <= this E-value threshold as significant",      5 },
+  { "--incT",       eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  INCOPTS,         "consider models >= this score threshold as significant",        5 },
+  /* Model-specific thresholding for both reporting and inclusion */
+  { "--cut_ga",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's GA gathering cutoffs to set all thresholding",    6 },
+  { "--cut_nc",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's NC noise cutoffs to set all thresholding",        6 },
+  { "--cut_tc",     eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL,  THRESHOPTS,      "use profile's TC trusted cutoffs to set all thresholding",      6 },
+  /* Control of acceleration pipeline */
+  { "--max",        eslARG_NONE,   FALSE, NULL, NULL,    NULL,  NULL, "--F1,--F2,--F3", "Turn all heuristic filters off (less speed, more power)",       7 },
+  { "--F1",         eslARG_REAL,  "0.02", NULL, NULL,    NULL,  NULL, "--max",          "MSV threshold: promote hits w/ P <= F1",                        7 },
+  { "--F2",         eslARG_REAL,  "3e-3", NULL, NULL,    NULL,  NULL, "--max",          "Vit threshold: promote hits w/ P <= F2",                        7 },
+  { "--F3",         eslARG_REAL,  "3e-5", NULL, NULL,    NULL,  NULL, "--max",          "Fwd threshold: promote hits w/ P <= F3",                        7 },
+  { "--nobias",     eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL, "--max",          "turn off composition bias filter",                              7 },
+
+  /* Other options */
+  { "--qformat",    eslARG_STRING,  NULL, NULL, NULL,    NULL,  NULL,  NULL,             "assert input <seqfile> is in format <s>",                      12 },
+  { "--nonull2",    eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  NULL,             "turn off biased composition score corrections",                12 },
+  { "-Z",           eslARG_REAL,   FALSE, NULL, "x>0",   NULL,  NULL,  NULL,             "set # of comparisons done, for E-value calculation",           12 },
+  { "--seed",       eslARG_INT,    "42",  NULL, "n>=0",  NULL,  NULL,  NULL,             "set RNG seed to <n> (if 0: one-time arbitrary seed)",          12 },
+  { "--w_beta",     eslARG_REAL,    NULL, NULL, NULL,    NULL,  NULL,           NULL,    "tail mass at which window length is determined",               12 },
+  { "--w_length",   eslARG_INT,     NULL, NULL, NULL,    NULL,  NULL,           NULL,    "window length - essentially max expected hit length ",                                                12 },
+  { "--toponly",     eslARG_NONE,   NULL, NULL, NULL,    NULL,  NULL,   "--bottomonly",  "only search the top strand",                                   12 },
+  { "--bottomonly",  eslARG_NONE,   NULL, NULL, NULL,    NULL,  NULL,      "--toponly",  "only search the bottom strand",                                12 },
+
+
+  /* stage-specific window length used for bias composition estimate,
+   * hidden because they are confusing/expert options. May drag them out
+   * into the daylight eventually
+   */
+  { "--B1",         eslARG_INT,         "110", NULL, NULL,    NULL,  NULL, "--max,--nobias", "window length for biased-composition modifier (MSV)",          99 },
+  { "--B2",         eslARG_INT,         "240", NULL, NULL,    NULL,  NULL, "--max,--nobias", "window length for biased-composition modifier (Vit)",          99 },
+  { "--B3",         eslARG_INT,        "1000", NULL, NULL,    NULL,  NULL, "--max,--nobias", "window length for biased-composition modifier (Fwd)",          99 },
+
+  /* expert-only option (for now), hidden from view, for altering bg probs.  May not keep. */
+  { "--bgfile",     eslARG_INFILE,       NULL, NULL, NULL,    NULL,  NULL,   NULL,           "override default background probs with values in file <f>",    99 },
+
+
+  /* Not used, but retained because esl option-handling code errors if it isn't kept here.  Placed in group 99 so it doesn't print to help*/
+  { "--domE",       eslARG_REAL,  "10.0", NULL, "x>0",   NULL,  NULL,  DOMREPOPTS,      "report domains <= this E-value threshold in output",            99 },
+  { "--domT",       eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  DOMREPOPTS,      "report domains >= this score cutoff in output",                 99 },
+  { "--incdomE",    eslARG_REAL,  "0.01", NULL, "x>0",   NULL,  NULL,  INCDOMOPTS,      "consider domains <= this E-value threshold as significant",     99 },
+  { "--incdomT",    eslARG_REAL,   FALSE, NULL, NULL,    NULL,  NULL,  INCDOMOPTS,      "consider domains >= this score threshold as significant",       99 },
+  { "--domZ",       eslARG_REAL,   FALSE, NULL, "x>0",   NULL,  NULL,  NULL,           "set # of significant seqs, for domain E-value calculation",      99 },
+
+//  { "--daemon",     eslARG_NONE,    NULL, NULL, NULL,    NULL,  NULL,  DAEMONOPTS,      "run program as a daemon",                                      12 },
+
+
+  #ifdef HMMER_THREADS
+  { "--cpu",        eslARG_INT, NULL,"HMMER_NCPU","n>=0",NULL,  NULL,  CPUOPTS,         "number of parallel CPU workers to use for multithreads",       12 },
+#endif
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  char            *seqfile;           /* query sequence file                             */
+  char            *hmmfile;           /* database HMM file                               */
+
+  int              do_mpi;            /* TRUE if we're doing MPI parallelization         */
+  int              nproc;             /* how many MPI processes, total                   */
+  int              my_rank;           /* who am I, in 0..nproc-1                         */
+};
+
+static char usage[]  = "[-options] <hmmdb> <seqfile>";
+static char banner[] = "search DNA sequence(s) against a DNA profile database";
+
+static int  serial_master(ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  serial_loop  (WORKER_INFO *info, P7_HMMFILE *hfp);
+#ifdef HMMER_THREADS
+#define BLOCK_SIZE 1
+static int  thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, P7_HMMFILE *hfp);
+static void pipeline_thread(void *arg);
+#endif /*HMMER_THREADS*/
+
+
+/* process_commandline()
+ * 
+ * Processes the commandline, filling in fields in <cfg> and creating and returning
+ * an <ESL_GETOPTS> options structure. The help page (hmmsearch -h) is formatted
+ * here.
+ */
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_hmmfile, char **ret_seqfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+ 
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      if (puts("\nBasic options:")                                           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+
+      if (puts("\nOptions controlling output:")                              < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+
+      if (puts("\nOptions controlling reporting thresholds:")                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+
+      if (puts("\nOptions controlling inclusion (significance) thresholds:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+
+      if (puts("\nOptions for model-specific thresholding:")                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 6, 2, 80); 
+
+      if (puts("\nOptions controlling acceleration heuristics:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80); 
+
+      if (puts("\nOther expert options:")                                    < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 80); 
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                 != 2)      { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_hmmfile = esl_opt_GetArg(go, 1)) == NULL)  { if (puts("Failed to get <hmmdb> argument on command line")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_seqfile = esl_opt_GetArg(go, 2)) == NULL)  { if (puts("Failed to get <seqfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (strcmp(*ret_hmmfile, "-") == 0) 
+    { if (puts("nhmmscan cannot read <hmm database> from stdin stream, because it must have hmmpress'ed auxfiles") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");   goto FAILURE;  }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  if (puts("\nwhere most common options are:")                                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 80=textwidth*/
+  if (printf("\nTo see more help on available options, do %s -h\n\n", argv[0]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+
+static int
+output_header(FILE *ofp, ESL_GETOPTS *go, char *hmmfile, char *seqfile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+  
+  if (fprintf(ofp, "# query sequence file:             %s\n", seqfile)                                                                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# target HMM database:             %s\n", hmmfile)                                                                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")          && fprintf(ofp, "# output directed to file:         %s\n",            esl_opt_GetString(go, "-o"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tblout")    && fprintf(ofp, "# per-seq hits tabular output:     %s\n",            esl_opt_GetString(go, "--tblout"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--dfamtblout")    && fprintf(ofp, "# hits output in Dfam format:      %s\n",            esl_opt_GetString(go, "--dfamtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--aliscoresout")  && fprintf(ofp, "# alignment scores output:         %s\n",            esl_opt_GetString(go, "--aliscoresout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--acc")       && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--noali")     && fprintf(ofp, "# show alignments in output:       no\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--notextw")   && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--textw")     && fprintf(ofp, "# max ASCII text line length:      %d\n",            esl_opt_GetInteger(go, "--textw"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "-E")          && fprintf(ofp, "# profile reporting threshold:     E-value <= %g\n", esl_opt_GetReal(go, "-E"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-T")          && fprintf(ofp, "# profile reporting threshold:     score >= %g\n",   esl_opt_GetReal(go, "-T"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incE")      && fprintf(ofp, "# profile inclusion threshold:     E-value <= %g\n", esl_opt_GetReal(go, "--incE"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incT")      && fprintf(ofp, "# profile inclusion threshold:     score >= %g\n",   esl_opt_GetReal(go, "--incT"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_ga")    && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_nc")    && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--cut_tc")    && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--max")       && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F1")        && fprintf(ofp, "# MSV filter P threshold:       <= %g\n",            esl_opt_GetReal(go, "--F1"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F2")        && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",            esl_opt_GetReal(go, "--F2"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F3")        && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",            esl_opt_GetReal(go, "--F3"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nobias")    && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--B1")         && fprintf(ofp, "# biased comp MSV window len:      %d\n",             esl_opt_GetInteger(go, "--B1"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--B2")         && fprintf(ofp, "# biased comp Viterbi window len:  %d\n",             esl_opt_GetInteger(go, "--B2"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--B3")         && fprintf(ofp, "# biased comp Forward window len:  %d\n",             esl_opt_GetInteger(go, "--B3"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--bgfile")     && fprintf(ofp, "# file with custom bg probs:       %s\n",             esl_opt_GetString(go, "--bgfile"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--nonull2")   && fprintf(ofp, "# null2 bias corrections:          off\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--toponly")    && fprintf(ofp, "# search only top strand:          on\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--bottomonly") && fprintf(ofp, "# search only bottom strand:       on\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "-Z")          && fprintf(ofp, "# sequence search space set to:    %.0f\n",          esl_opt_GetReal(go, "-Z"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed")==0 && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if (                                  fprintf(ofp, "# random number seed set to:       %d\n",        esl_opt_GetInteger(go, "--seed"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--qformat")   && fprintf(ofp, "# input seqfile format asserted:   %s\n",            esl_opt_GetString(go, "--qformat"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--w_beta")     && fprintf(ofp, "# window length beta value:        %g\n",             esl_opt_GetReal(go, "--w_beta"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--w_length")   && fprintf(ofp, "# window length :                  %d\n",             esl_opt_GetInteger(go, "--w_length")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//  if (esl_opt_IsUsed(go, "--daemon")    && fprintf(ofp, "run as a daemon process\n")                                                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#ifdef HMMER_THREADS
+  if (esl_opt_IsUsed(go, "--cpu")       && fprintf(ofp, "# number of worker threads:        %d\n",            esl_opt_GetInteger(go, "--cpu"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+#endif
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS     *go  = NULL;	
+  struct cfg_s     cfg;         
+  int              status   = eslOK;
+
+  impl_Init();			/* processor-specific initialization */
+  p7_FLogsumInit();		/* we're going to use table-driven Logsum() approximations at times */
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet) */
+  cfg.hmmfile    = NULL;
+  cfg.seqfile    = NULL;
+  cfg.do_mpi     = FALSE;	           /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;		           /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;		           /* this gets reset below, if we init MPI */
+
+  process_commandline(argc, argv, &go, &cfg.hmmfile, &cfg.seqfile);    
+
+  status = serial_master(go, &cfg);
+
+  esl_getopts_Destroy(go);
+  return status;
+}
+
+
+/* serial_master()
+ * The serial version of hmmsearch.
+ * For each query HMM in <hmmdb> search the database for hits.
+ * 
+ * A master can only return if it's successful. All errors are handled
+ * immediately and fatally with p7_Fail().
+ */
+static int
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;	         /* output file for results (default stdout)        */
+  FILE            *tblfp    = NULL;		 /* output stream for tabular per-seq (--tblout)    */
+  FILE            *dfamtblfp    = NULL;            /* output stream for tabular Dfam format (--dfamtblout)    */
+  FILE            *aliscoresfp  = NULL;            /* output stream for alignment scores (--aliscoresout)    */
+
+  P7_BG           *bg_manual  = NULL;
+
+  int              seqfmt   = eslSQFILE_UNKNOWN; /* format of seqfile                               */
+  ESL_SQFILE      *sqfp     = NULL;              /* open seqfile                                    */
+  P7_HMMFILE      *hfp      = NULL;		 /* open HMM database file                          */
+  ESL_ALPHABET    *abc      = NULL;              /* sequence alphabet                               */
+  P7_OPROFILE     *om       = NULL;		 /* target profile                                  */
+  ESL_STOPWATCH   *w        = NULL;              /* timing                                          */
+  ESL_SQ          *qsq      = NULL;		 /* query sequence                                  */
+  int              nquery   = 0;
+  int              textw;
+  int              status   = eslOK;
+  int              hstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              i;
+
+  int              ncpus    = 0;
+
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  P7_OM_BLOCK     *block    = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+  char             errbuf[eslERRBUFSIZE];
+
+  double window_beta = -1.0 ;
+  int window_length  = -1;
+  if (esl_opt_IsUsed(go, "--w_beta")) { if (  ( window_beta   = esl_opt_GetReal(go, "--w_beta") )  < 0 || window_beta > 1  ) esl_fatal("Invalid window-length beta value\n"); }
+  if (esl_opt_IsUsed(go, "--w_length")) { if (( window_length = esl_opt_GetInteger(go, "--w_length")) < 4  ) esl_fatal("Invalid window length value\n"); }
+
+
+  w = esl_stopwatch_Create();
+
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+
+  /* If caller declared an input format, decode it */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    seqfmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (seqfmt == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+
+  /* validate options if running as a daemon */
+//  if (esl_opt_IsOn(go, "--daemon")) {
+    /* running as a daemon, the input format must be type daemon */
+//    if (seqfmt != eslSQFILE_UNKNOWN && seqfmt != eslSQFILE_DAEMON)
+//      esl_fatal("Input format %s not supported.  Must be daemon\n", esl_opt_GetString(go, "--qformat"));
+//    seqfmt = eslSQFILE_DAEMON;
+
+//    if (strcmp(cfg->seqfile, "-") != 0) esl_fatal("Query sequence file must be '-'\n");
+//  }
+
+  /* Open the target profile database to get the sequence alphabet */
+  status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", cfg->hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem, trying to open HMM file %s.\n%s\n",                  cfg->hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, cfg->hmmfile, errbuf);  
+  if (! hfp->is_pressed)           p7_Fail("Failed to open binary auxfiles for %s: use hmmpress first\n",             hfp->fname);
+
+  hstatus = p7_oprofile_ReadMSV(hfp, &abc, &om);
+  if      (hstatus == eslEFORMAT)   p7_Fail("bad format, binary auxfiles, %s:\n%s",     cfg->hmmfile, hfp->errbuf);
+  else if (hstatus == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets", cfg->hmmfile);
+  else if (hstatus != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s", cfg->hmmfile); 
+
+  p7_oprofile_Destroy(om);
+  p7_hmmfile_Close(hfp);
+
+  /* Open the query sequence database */
+  status = esl_sqfile_OpenDigital(abc, cfg->seqfile, seqfmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",      cfg->seqfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",        cfg->seqfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening sequence file %s\n", status, cfg->seqfile);
+  if (sqfp->format > 100) // breaking the law!  That range is reserved for msa, for aligned formats
+    p7_Fail("%s contains a multiple sequence alignment; expect unaligned sequences, like FASTA\n",   cfg->seqfile);
+  qsq = esl_sq_CreateDigital(abc);
+
+
+  /* Open the results output files */
+  if (esl_opt_IsOn(go, "-o"))          { if ((ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)  esl_fatal("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o")); }
+  if (esl_opt_IsOn(go, "--tblout"))    { if ((tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  esl_fatal("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblfp")); }
+  if (esl_opt_IsOn(go, "--dfamtblout"))    { if ((dfamtblfp    = fopen(esl_opt_GetString(go, "--dfamtblout"),"w"))    == NULL)  esl_fatal("Failed to open tabular dfam output file %s for writing\n", esl_opt_GetString(go, "--dfamtblout")); }
+  if (esl_opt_IsOn(go, "--aliscoresout"))  { if ((aliscoresfp  = fopen(esl_opt_GetString(go, "--aliscoresout"),"w")) == NULL)  esl_fatal("Failed to open alignment scores output file %s for writing\n", esl_opt_GetString(go, "--aliscoresout")); }
+ 
+  output_header(ofp, go, cfg->hmmfile, cfg->seqfile);
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                           esl_threads_CPUCount(&ncpus);
+
+  if (ncpus > 0)
+    {
+      threadObj = esl_threads_Create(&pipeline_thread);
+      queue = esl_workqueue_Create(ncpus * 2);
+    }
+#endif
+
+  if (esl_opt_IsOn(go, "--bgfile")) {
+    bg_manual = p7_bg_Create(abc);
+    status = p7_bg_Read(esl_opt_GetString(go, "--bgfile"), bg_manual, errbuf);
+    if (status != eslOK) p7_Fail("Trouble reading bgfile: %s\n", errbuf);
+  }
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  for (i = 0; i < infocnt; ++i)
+  {
+    if (bg_manual != NULL) {
+      info[i].bg         = p7_bg_Clone(bg_manual);
+      info[i].bg_default = p7_bg_Create(abc);
+    } else {
+      info[i].bg         = p7_bg_Create(abc);
+      info[i].bg_default = NULL;
+    }
+#ifdef HMMER_THREADS
+      info[i].queue = queue;
+#endif
+    ESL_ALLOC(info[i].scores, sizeof(float) * abc->Kp * 16); //allocation of space to store scores that will be used in p7_oprofile_Update(Fwd|Vit|MSV)EmissionScores
+  }
+
+#ifdef HMMER_THREADS
+  for (i = 0; i < ncpus * 2; ++i)
+    {
+      block = p7_oprofile_CreateBlock(BLOCK_SIZE);
+      if (block == NULL)    esl_fatal("Failed to allocate sequence block");
+
+      status = esl_workqueue_Init(queue, block);
+      if (status != eslOK)  esl_fatal("Failed to add block to work queue");
+    }
+#endif
+
+  /* Outside loop: over each query sequence in <seqfile>. */
+  while ((sstatus = esl_sqio_Read(sqfp, qsq)) == eslOK)
+  {
+      if (sstatus == eslEMEM)                 p7_Fail("Memory allocation error reading sequence file\n", status);
+      if (sstatus == eslEINCONCEIVABLE)       p7_Fail("Unexpected error %d reading sequence file\n", status);
+     // if (qsq->L > NHMMER_MAX_RESIDUE_COUNT)  p7_Fail("Input sequence %s in file %s exceeds maximum length of %d bases.\n",  qsq->name, cfg->seqfile, NHMMER_MAX_RESIDUE_COUNT);
+
+      nquery++;
+      esl_stopwatch_Start(w);	                          
+
+      /* Open the target profile database */
+      status = p7_hmmfile_OpenE(cfg->hmmfile, p7_HMMDBENV, &hfp, NULL);
+      if (status != eslOK)        p7_Fail("Unexpected error %d in opening hmm file %s.\n",           status, cfg->hmmfile);  
+  
+#ifdef HMMER_THREADS
+      /* if we are threaded, create a lock to prevent multiple readers */
+      if (ncpus > 0)
+      {
+        status = p7_hmmfile_CreateLock(hfp);
+        if (status != eslOK) p7_Fail("Unexpected error %d creating lock\n", status);
+      }
+#endif
+
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != 0 && fprintf(ofp, "Accession:   %s\n", qsq->acc)     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->desc[0] != 0 && fprintf(ofp, "Description: %s\n", qsq->desc)    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      for (i = 0; i < infocnt; ++i)
+      {
+        /* Create processing pipeline and hit list */
+        info[i].th  = p7_tophits_Create();
+        info[i].pli = p7_pipeline_Create(go, 100, 100, TRUE, p7_SCAN_MODELS); /* M_hint = 100, L_hint = 100 are just dummies for now */
+        info[i].pli->hfp = hfp;  /* for two-stage input, pipeline needs <hfp> */
+
+        p7_pli_NewSeq(info[i].pli, qsq);
+        info[i].qsq = qsq;
+
+        if (  esl_opt_IsUsed(go, "--toponly") )
+          info[i].pli->strands = p7_STRAND_TOPONLY;
+        else if (  esl_opt_IsUsed(go, "--bottomonly") )
+          info[i].pli->strands = p7_STRAND_BOTTOMONLY;
+        else
+          info[i].pli->strands = p7_STRAND_BOTH;
+
+        info[i].fwd_emissions = NULL;
+
+        #ifdef HMMER_THREADS
+          if (ncpus > 0) esl_threads_AddThread(threadObj, &info[i]);
+        #endif
+      }
+
+#ifdef HMMER_THREADS
+      if (ncpus > 0)  hstatus = thread_loop(threadObj, queue, hfp);
+      else	      hstatus = serial_loop(info, hfp);
+#else
+      hstatus = serial_loop(info, hfp);
+#endif
+      switch(hstatus)
+      {
+        case eslEFORMAT:   p7_Fail("bad file format in HMM file %s",             cfg->hmmfile);	  break;
+        case eslEINCOMPAT: p7_Fail("HMM file %s contains different alphabets",   cfg->hmmfile);	  break;
+        case eslEOF:
+        case eslOK:   /* do nothing */
+          break;
+        default: 	   p7_Fail("Unexpected error in reading HMMs from %s",   cfg->hmmfile);
+      }
+
+
+
+      /* merge the results of the search results */
+      for (i = 1; i < infocnt; ++i)
+      {
+        p7_tophits_Merge(info[0].th, info[i].th);
+        p7_pipeline_Merge(info[0].pli, info[i].pli);
+
+        p7_pipeline_Destroy(info[i].pli);
+        p7_tophits_Destroy(info[i].th);
+      }
+
+
+      /* modify e-value to account for number of models */
+      for (i = 0; i < info->th->N ; i++)
+      {
+        info->th->unsrt[i].lnP         += log((float)info->pli->nmodels);
+        info->th->unsrt[i].dcl[0].lnP   = info->th->unsrt[i].lnP;
+        info->th->unsrt[i].sortkey      = -1.0 * info->th->unsrt[i].lnP;
+      }
+
+
+      /* it's possible to have duplicates based on how viterbi ranges can overlap */
+      p7_tophits_SortByModelnameAndAlipos(info->th);
+      p7_tophits_RemoveDuplicates(info->th, info->pli->use_bit_cutoffs);
+
+      /* Print results */
+      p7_tophits_SortBySortkey(info->th);
+      p7_tophits_Threshold(info->th, info->pli);
+
+      //tally up total number of hits and target coverage
+      info->pli->n_output = info->pli->pos_output = 0;
+      for (i = 0; i < info->th->N; i++) {
+          if ( (info->th->hit[i]->flags & p7_IS_REPORTED) || info->th->hit[i]->flags & p7_IS_INCLUDED) {
+              info->pli->n_output++;
+              info->pli->pos_output += abs(info->th->hit[i]->dcl[0].jali - info->th->hit[i]->dcl[0].iali) + 1;
+          }
+      }
+
+
+
+
+      p7_tophits_Targets(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (dfamtblfp) p7_tophits_TabularXfam(dfamtblfp,   qsq->name, NULL, info->th, info->pli);
+      if (aliscoresfp) p7_tophits_AliScores(aliscoresfp, qsq->name, info->th );
+
+
+      esl_stopwatch_Stop(w);
+      info->pli->nseqs = 1;
+      p7_pli_Statistics(ofp, info->pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      fflush(ofp);
+
+      p7_hmmfile_Close(hfp);
+      p7_pipeline_Destroy(info->pli);
+      p7_tophits_Destroy(info->th);
+      esl_sq_Reuse(qsq);
+  }
+
+
+
+  if      (sstatus == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+					    sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (sstatus != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    sstatus, sqfp->filename);
+
+  /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "hmmscan", p7_SCAN_MODELS, cfg->seqfile, cfg->hmmfile, go);
+  if (ofp)      { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for successful exit
+   */
+  for (i = 0; i < infocnt; ++i) {
+    p7_bg_Destroy(info[i].bg);
+    p7_bg_Destroy(info[i].bg_default);
+    if (info[i].scores != NULL) free(info[i].scores);
+  }
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)
+    {
+      esl_workqueue_Reset(queue);
+      while (esl_workqueue_Remove(queue, (void **) &block) == eslOK)
+        p7_oprofile_DestroyBlock(block);
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+    }
+#endif
+
+  ERROR:
+
+  p7_bg_Destroy(bg_manual);
+
+  if (info!=NULL) free(info);
+
+  if (qsq!=NULL)  esl_sq_Destroy(qsq);
+  if (w!=NULL)    esl_stopwatch_Destroy(w);
+  if (abc!=NULL)  esl_alphabet_Destroy(abc);
+  if (sqfp!=NULL) esl_sqfile_Close(sqfp);
+
+  if (ofp != stdout) fclose(ofp);
+  if (tblfp)         fclose(tblfp);
+  if (dfamtblfp)     fclose(dfamtblfp);
+  if (aliscoresfp)   fclose(aliscoresfp);
+
+  return status;
+}
+
+
+static int
+serial_loop(WORKER_INFO *info, P7_HMMFILE *hfp)
+{
+  int            status;
+  int i;
+  int seq_len = 0;
+  int prev_hit_cnt = 0;
+  P7_OPROFILE   *om        = NULL;
+  P7_SCOREDATA  *scoredata = NULL;   /* hmm-specific data used by nhmmer */
+  ESL_ALPHABET  *abc = NULL;
+
+#ifdef eslAUGMENT_ALPHABET
+  ESL_SQ        *sq_revcmp = NULL;
+  if (info->pli->strands != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL ) {
+    sq_revcmp =  esl_sq_CreateDigital(info->qsq->abc);
+    esl_sq_Copy(info->qsq,sq_revcmp);
+    esl_sq_ReverseComplement(sq_revcmp);
+
+    info->pli->nres += info->qsq->n;
+  }
+#endif /*eslAUGMENT_ALPHABET*/
+
+
+  /* Main loop: */
+  while ((status = p7_oprofile_ReadMSV(hfp, &abc, &om)) == eslOK)
+  {
+      seq_len = 0;
+
+      p7_pli_NewModel(info->pli, om, info->bg);
+      p7_bg_SetLength(info->bg, info->qsq->n);
+      p7_oprofile_ReconfigLength(om, info->qsq->n);
+
+      if (info->bg_default != NULL) {
+        /*bg was overridden by --bgfile; we need to fix all the scores
+         *-First, compute emissions based on bg_default
+         *-Then use those emissions to compute new scores for fwd, vit and msv, based on bg
+         *We need to ReadRest now, so we correctly compute fwd_emissions
+         */
+        p7_oprofile_ReadRest(info->pli->hfp, om);
+        if ((status = p7_pli_NewModelThresholds(info->pli, om)) != eslOK)  return status;
+        ESL_REALLOC(info->fwd_emissions, sizeof(float) *  abc->Kp * (om->M+1));
+        p7_oprofile_GetFwdEmissionArray(om, info->bg_default, info->fwd_emissions);
+        p7_oprofile_UpdateFwdEmissionScores(om, info->bg, info->fwd_emissions, info->scores);
+        p7_oprofile_UpdateVitEmissionScores(om, info->bg, info->fwd_emissions, info->scores);
+        p7_oprofile_UpdateMSVEmissionScores(om, info->bg, info->fwd_emissions, info->scores);
+      }
+
+      scoredata = p7_hmm_ScoreDataCreate(om, FALSE);
+
+#ifdef eslAUGMENT_ALPHABET
+      //reverse complement
+      if (info->pli->strands != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL )
+      {
+        p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, info->th, 0, sq_revcmp, p7_COMPLEMENT, NULL, NULL, NULL/*, NULL, NULL, NULL*/);
+        p7_pipeline_Reuse(info->pli); // prepare for next search
+        seq_len = info->qsq->n;
+      }
+#endif
+
+
+      if (info->pli->strands != p7_STRAND_BOTTOMONLY) {
+        p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, info->th, 0, info->qsq, p7_NOCOMPLEMENT, NULL, NULL, NULL/*, NULL, NULL, NULL*/);
+        p7_pipeline_Reuse(info->pli);
+        seq_len += info->qsq->n;
+      }
+
+      for (i = prev_hit_cnt; i < info->th->N ; i++)
+      {
+        info->th->unsrt[i].lnP         += log((float)seq_len / (float)om->max_length);
+        info->th->unsrt[i].dcl[0].lnP   = info->th->unsrt[i].lnP;
+        info->th->unsrt[i].sortkey      = -1.0 * info->th->unsrt[i].lnP;
+        info->th->unsrt[i].dcl[0].ad->L =  om->M;
+      }
+
+      prev_hit_cnt = info->th->N;
+
+      p7_oprofile_Destroy(om);
+      p7_hmm_ScoreDataDestroy(scoredata);
+
+
+
+
+  }
+
+  esl_alphabet_Destroy(abc);
+#ifdef eslAUGMENT_ALPHABET
+  esl_sq_Destroy(sq_revcmp);
+#endif
+
+  if (info->fwd_emissions != NULL) free(info->fwd_emissions);
+
+
+ERROR:
+
+  return status;
+}
+
+#ifdef HMMER_THREADS
+static int
+thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, P7_HMMFILE *hfp)
+{
+  int  status   = eslOK;
+  int  sstatus  = eslOK;
+  int  eofCount = 0;
+  P7_OM_BLOCK   *block;
+  ESL_ALPHABET  *abc = NULL;
+  void          *newBlock;
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+      
+  /* Main loop: */
+  while (sstatus == eslOK)
+  {
+      block = (P7_OM_BLOCK *) newBlock;
+      sstatus = p7_oprofile_ReadBlockMSV(hfp, &abc, block);
+
+      if (sstatus == eslEOF)
+      {
+        if (eofCount < esl_threads_GetWorkerCount(obj)) sstatus = eslOK;
+        ++eofCount;
+      }
+	  
+      if (sstatus == eslOK)
+      {
+        status = esl_workqueue_ReaderUpdate(queue, block, &newBlock);
+        if (status != eslOK) esl_fatal("Work queue reader failed");
+      }
+  }
+
+  status = esl_workqueue_ReaderUpdate(queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue reader failed");
+
+  if (sstatus == eslEOF)
+  {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+  }
+  
+  esl_alphabet_Destroy(abc);
+  return sstatus;
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int i, j;
+  int status;
+  int workeridx;
+  WORKER_INFO   *info;
+  ESL_THREADS   *obj;
+  P7_OM_BLOCK   *block;
+  void          *newBlock;
+  P7_OPROFILE   *om        = NULL;
+  P7_SCOREDATA  *scoredata = NULL;   /* hmm-specific data used by nhmmer */
+
+  int seq_len = 0;
+  int prev_hit_cnt = 0;
+
+#ifdef eslAUGMENT_ALPHABET
+  ESL_SQ        *sq_revcmp = NULL;
+#endif /*eslAUGMENT_ALPHABET*/
+  
+
+  impl_Init();
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+#ifdef eslAUGMENT_ALPHABET
+  //reverse complement
+  if (info->pli->strands != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL ) {
+    sq_revcmp =  esl_sq_CreateDigital(info->qsq->abc);
+    esl_sq_Copy(info->qsq,sq_revcmp);
+    esl_sq_ReverseComplement(sq_revcmp);
+    info->pli->nres += info->qsq->n;
+  }
+#endif /*eslAUGMENT_ALPHABET*/
+
+
+  /* loop until all blocks have been processed */
+  block = (P7_OM_BLOCK *) newBlock;
+  while (block->count > 0)
+  {
+      /* Main loop: */
+      for (i = 0; i < block->count; ++i)
+      {
+        om = block->list[i];
+        seq_len = 0;
+
+        p7_pli_NewModel(info->pli, om, info->bg);
+        p7_bg_SetLength(info->bg, info->qsq->n);
+        p7_oprofile_ReconfigLength(om, info->qsq->n);
+
+        if (info->bg_default != NULL) {
+          /*bg was overridden by --bgfile; we need to fix all the scores
+           *-First, compute emissions based on bg_default
+           *-Then use those emissions to compute new scores for fwd, vit and msv, based on bg
+           *We need to ReadRest now, so we correctly compute fwd_emissions
+           */
+          p7_oprofile_ReadRest(info->pli->hfp, om);
+          if ((status = p7_pli_NewModelThresholds(info->pli, om)) != eslOK)  esl_fatal("Error setting thresholds in worker thread");
+          ESL_REALLOC(info->fwd_emissions, sizeof(float) *  info->qsq->abc->Kp * (om->M+1));
+          p7_oprofile_GetFwdEmissionArray(om, info->bg_default, info->fwd_emissions);
+          p7_oprofile_UpdateFwdEmissionScores(om, info->bg, info->fwd_emissions, info->scores);
+          p7_oprofile_UpdateVitEmissionScores(om, info->bg, info->fwd_emissions, info->scores);
+          p7_oprofile_UpdateMSVEmissionScores(om, info->bg, info->fwd_emissions, info->scores);
+        }
+
+        scoredata = p7_hmm_ScoreDataCreate(om, FALSE);
+
+
+#ifdef eslAUGMENT_ALPHABET
+        //reverse complement
+        if (info->pli->strands != p7_STRAND_TOPONLY && info->qsq->abc->complement != NULL )
+        {
+          p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, info->th, 0, sq_revcmp, p7_COMPLEMENT, NULL, NULL, NULL/*, NULL, NULL, NULL*/);
+          p7_pipeline_Reuse(info->pli); // prepare for next search
+          seq_len = info->qsq->n;
+        }
+#endif
+        if (info->pli->strands != p7_STRAND_BOTTOMONLY) {
+          p7_Pipeline_LongTarget(info->pli, om, scoredata, info->bg, info->th, 0, info->qsq, p7_NOCOMPLEMENT, NULL, NULL, NULL/*, NULL, NULL, NULL*/);
+          p7_pipeline_Reuse(info->pli);
+          seq_len += info->qsq->n;
+        }
+
+        for (j = prev_hit_cnt; j < info->th->N ; j++)
+        {
+          info->th->unsrt[j].lnP         += log((float)seq_len / (float)om->max_length);
+          info->th->unsrt[j].dcl[0].lnP   = info->th->unsrt[j].lnP;
+          info->th->unsrt[j].sortkey      = -1.0 * info->th->unsrt[j].lnP;
+          info->th->unsrt[j].dcl[0].ad->L = om->M;
+        }
+
+        prev_hit_cnt = info->th->N;
+        p7_hmm_ScoreDataDestroy(scoredata);
+        p7_oprofile_Destroy(om);
+        block->list[i] = NULL;
+      }
+
+
+      status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
+      if (status != eslOK) esl_fatal("Work queue worker failed");
+
+      block = (P7_OM_BLOCK *) newBlock;
+  }
+
+#ifdef eslAUGMENT_ALPHABET
+  esl_sq_Destroy(sq_revcmp);
+#endif
+
+  if (info->fwd_emissions != NULL) free(info->fwd_emissions);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
+  if (status != eslOK) esl_fatal("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+
+
+ERROR:
+
+  esl_fatal("Error allocating memory in work queue");
+  return;
+
+
+}
+#endif   /* HMMER_THREADS */
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: hmmscan.c 3976 2012-04-03 12:09:10Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/trunk/src/nhmmscan.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_alidisplay.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_alidisplay.c
new file mode 100755
index 0000000..f12c112
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_alidisplay.c
@@ -0,0 +1,1358 @@
+/* Formatting, transmitting, and printing single alignments to a
+ * profile.
+ * 
+ * Contents:
+ *   1. The P7_ALIDISPLAY object.
+ *   2. The P7_ALIDISPLAY API.
+ *   3. Debugging/dev code.
+ *   4. Benchmark driver.
+ *   5. Unit tests.
+ *   6. Test driver.
+ *   7. Example.
+ *   8. Copyright and license.
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <ctype.h>
+
+#include "easel.h"
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. The P7_ALIDISPLAY object
+ *****************************************************************/
+
+
+/* Function:  p7_alidisplay_Create()
+ * Synopsis:  Create an alignment display, from trace and oprofile.
+ *
+ * Purpose:   Creates and returns an alignment display for domain number
+ *            <which> in traceback <tr>, where the traceback
+ *            corresponds to an alignment of optimized profile <om> to digital sequence
+ *            <dsq>, and the unique name of that target
+ *            sequence <dsq> is <sqname>. The <which> index starts at 0.
+ *            
+ *            It will be a little faster if the trace is indexed with
+ *            <p7_trace_Index()> first. The number of domains is then
+ *            in <tr->ndom>. If the caller wants to create alidisplays
+ *            for all of these, it would loop <which> from
+ *            <0..tr->ndom-1>.
+ *           
+ *            However, even without an index, the routine will work fine.
+ *
+ * Args:      tr       - traceback
+ *            which    - domain number, 0..tr->ndom-1
+ *            om       - optimized profile (query)
+ *            sq       - digital sequence (target)
+ *            ddef_app - optional posterior prob alignment line; only nhmmer sends a not-NULL value
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <NULL> on allocation failure, or if something's internally corrupt 
+ *            in the data.
+ */
+P7_ALIDISPLAY *
+p7_alidisplay_Create(const P7_TRACE *tr, int which, const P7_OPROFILE *om, const ESL_SQ *sq)
+{
+  P7_ALIDISPLAY *ad       = NULL;
+  char          *Alphabet = om->abc->sym;
+  int            n, pos, z;
+  int            z1,z2;
+  int            k,x,i,s;
+  int            hmm_namelen, hmm_acclen, hmm_desclen;
+  int            sq_namelen,  sq_acclen,  sq_desclen;
+  int            status;
+  
+  /* First figure out which piece of the trace (from first match to last match) 
+   * we're going to represent, and how big it is.
+   */
+  if (tr->ndom > 0) {		/* if we have an index, this is a little faster: */
+    for (z1 = tr->tfrom[which]; z1 < tr->N; z1++) if (tr->st[z1] == p7T_M) break;  /* find next M state      */
+    if (z1 == tr->N) return NULL;                                                  /* no M? corrupt trace    */
+    for (z2 = tr->tto[which];   z2 >= 0 ;   z2--) if (tr->st[z2] == p7T_M) break;  /* find prev M state      */
+    if (z2 == -1) return NULL;                                                     /* no M? corrupt trace    */
+  } else {			/* without an index, we can still do it fine:    */
+    for (z1 = 0; which >= 0 && z1 < tr->N; z1++) if (tr->st[z1] == p7T_B) which--; /* find the right B state */
+    if (z1 == tr->N) return NULL;                                                  /* no such domain <which> */
+    for (; z1 < tr->N; z1++) if (tr->st[z1] == p7T_M) break;                       /* find next M state      */
+    if (z1 == tr->N) return NULL;                                                  /* no M? corrupt trace    */
+    for (z2 = z1; z2 < tr->N; z2++) if (tr->st[z2] == p7T_E) break;                /* find the next E state  */
+    for (; z2 >= 0;    z2--) if (tr->st[z2] == p7T_M) break;                       /* find prev M state      */
+    if (z2 == -1) return NULL;                                                     /* no M? corrupt trace    */
+  }
+
+  /* Now we know that z1..z2 in the trace will be represented in the
+   * alidisplay; that's z2-z1+1 positions. We need a \0 trailer on all
+   * our display lines, so allocate z2-z1+2. We know each position is
+   * M, D, or I, so there's a 1:1 correspondence of trace positions
+   * with alignment display positions.  We also know the display
+   * starts and ends with M states.
+   * 
+   * So now let's allocate. The alidisplay is packed into a single
+   * memory space, so this appears to be intricate, but it's just
+   * bookkeeping.  
+   */
+  n = (z2-z1+2) * 3;                     /* model, mline, aseq mandatory         */
+  if (om->rf[0]  != 0)    n += z2-z1+2;  /* optional reference line              */
+  if (om->mm[0]  != 0)    n += z2-z1+2;  /* optional reference line              */
+  if (om->cs[0]  != 0)    n += z2-z1+2;  /* optional structure line              */
+  if (tr->pp     != NULL) n += z2-z1+2;  /* optional posterior prob line         */
+  hmm_namelen = strlen(om->name);                           n += hmm_namelen + 1;
+  hmm_acclen  = (om->acc  != NULL ? strlen(om->acc)  : 0);  n += hmm_acclen  + 1;
+  hmm_desclen = (om->desc != NULL ? strlen(om->desc) : 0);  n += hmm_desclen + 1;
+  sq_namelen  = strlen(sq->name);                           n += sq_namelen  + 1;
+  sq_acclen   = strlen(sq->acc);                            n += sq_acclen   + 1; /* sq->acc is "\0" when unset */
+  sq_desclen  = strlen(sq->desc);                           n += sq_desclen  + 1; /* same for desc              */
+  
+  ESL_ALLOC(ad, sizeof(P7_ALIDISPLAY));
+  ad->mem = NULL;
+
+  pos = 0; 
+  ad->memsize = sizeof(char) * n;
+  ESL_ALLOC(ad->mem, ad->memsize);
+  if (om->rf[0]  != 0) { ad->rfline = ad->mem + pos; pos += z2-z1+2; } else { ad->rfline = NULL; }
+  //if (om->mm[0]  != 0) { ad->mmline = ad->mem + pos; pos += z2-z1+2; } else { ad->mmline = NULL; }
+  ad->mmline = NULL;
+  if (om->cs[0]  != 0) { ad->csline = ad->mem + pos; pos += z2-z1+2; } else { ad->csline = NULL; }
+  ad->model   = ad->mem + pos;  pos += z2-z1+2;
+  ad->mline   = ad->mem + pos;  pos += z2-z1+2;
+  ad->aseq    = ad->mem + pos;  pos += z2-z1+2;
+  if (tr->pp != NULL)  { ad->ppline = ad->mem + pos;  pos += z2-z1+2;} else { ad->ppline = NULL; }
+  ad->hmmname = ad->mem + pos;  pos += hmm_namelen +1;
+  ad->hmmacc  = ad->mem + pos;  pos += hmm_acclen +1;
+  ad->hmmdesc = ad->mem + pos;  pos += hmm_desclen +1;
+  ad->sqname  = ad->mem + pos;  pos += sq_namelen +1;
+  ad->sqacc   = ad->mem + pos;  pos += sq_acclen +1;
+  ad->sqdesc  = ad->mem + pos;  pos += sq_desclen +1;
+
+  strcpy(ad->hmmname, om->name);
+  if (om->acc  != NULL) strcpy(ad->hmmacc,  om->acc);  else ad->hmmacc[0]  = 0;
+  if (om->desc != NULL) strcpy(ad->hmmdesc, om->desc); else ad->hmmdesc[0] = 0;
+  strcpy(ad->sqname,  sq->name);
+  strcpy(ad->sqacc,   sq->acc);
+  strcpy(ad->sqdesc,  sq->desc);
+
+  /* Determine hit coords */
+  ad->hmmfrom = tr->k[z1];
+  ad->hmmto   = tr->k[z2];
+  ad->M       = om->M;
+  ad->sqfrom  = tr->i[z1];
+  ad->sqto    = tr->i[z2];
+  ad->L       = sq->n;
+
+  /* optional rf line */
+  if (ad->rfline != NULL) {
+    for (z = z1; z <= z2; z++) ad->rfline[z-z1] = ((tr->st[z] == p7T_I) ? '.' : om->rf[tr->k[z]]);
+    ad->rfline[z-z1] = '\0';
+  }
+
+  /* optional mm line */
+  if (ad->mmline != NULL) {
+    for (z = z1; z <= z2; z++) ad->mmline[z-z1] = ((tr->st[z] == p7T_I) ? '.' : om->mm[tr->k[z]]);
+    ad->mmline[z-z1] = '\0';
+  }
+
+  /* optional cs line */
+  if (ad->csline != NULL) {
+    for (z = z1; z <= z2; z++) ad->csline[z-z1] = ((tr->st[z] == p7T_I) ? '.' : om->cs[tr->k[z]]);
+    ad->csline[z-z1] = '\0';
+  }
+
+  /* optional pp line */
+  if (ad->ppline != NULL) {
+    for (z = z1; z <= z2; z++) ad->ppline[z-z1] = ( (tr->st[z] == p7T_D) ? '.' : p7_alidisplay_EncodePostProb(tr->pp[z]));
+    ad->ppline[z-z1] = '\0';
+  }
+
+
+  /* mandatory three alignment display lines: model, mline, aseq */
+  for (z = z1; z <= z2; z++) 
+    {
+      k = tr->k[z];
+      i = tr->i[z];
+      x = sq->dsq[i];
+      s = tr->st[z];
+
+      switch (s) {
+      case p7T_M:
+        ad->model[z-z1] = om->consensus[k];
+        if      (x == esl_abc_DigitizeSymbol(om->abc, om->consensus[k])) ad->mline[z-z1] = ad->model[z-z1];
+        else if (p7_oprofile_FGetEmission(om, k, x) > 1.0)               ad->mline[z-z1] = '+'; /* >1 not >0; om has odds ratios, not scores */
+        else                                                             ad->mline[z-z1] = ' ';
+        ad->aseq  [z-z1] = toupper(Alphabet[x]);
+        break;
+	
+      case p7T_I:
+        ad->model [z-z1] = '.';
+        ad->mline [z-z1] = ' ';
+        ad->aseq  [z-z1] = tolower(Alphabet[x]);
+        break;
+	
+      case p7T_D:
+        ad->model [z-z1] = om->consensus[k];
+        ad->mline [z-z1] = ' ';
+        ad->aseq  [z-z1] = '-';
+        break;
+
+      default: ESL_XEXCEPTION(eslEINVAL, "invalid state in trace: not M,D,I");
+      }
+    }
+  ad->model [z2-z1+1] = '\0';
+  ad->mline [z2-z1+1] = '\0';
+  ad->aseq  [z2-z1+1] = '\0';
+  ad->N = z2-z1+1;
+
+  return ad;
+
+ ERROR:
+  p7_alidisplay_Destroy(ad);
+  return NULL;
+}
+
+
+/* Function:  p7_alidisplay_Clone()
+ * Synopsis:  Make a duplicate of an ALIDISPLAY.
+ *
+ * Purpose:   Create a duplicate of alignment display <ad>.
+ *            Return a pointer to the duplicate. Caller
+ *            is responsible for freeing the new object.
+ *
+ * Returns:   pointer to new <P7_ALIDISPLAY>
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_ALIDISPLAY *
+p7_alidisplay_Clone(const P7_ALIDISPLAY *ad)
+{
+  P7_ALIDISPLAY *ad2 = NULL;
+  int status;
+
+  ESL_ALLOC(ad2, sizeof(P7_ALIDISPLAY));
+  ad2->rfline  = ad2->mmline = ad2->csline = ad2->model   = ad2->mline  = ad2->aseq = ad2->ppline = NULL;
+  ad2->hmmname = ad2->hmmacc = ad2->hmmdesc = NULL;
+  ad2->sqname  = ad2->sqacc  = ad2->sqdesc  = NULL;
+  ad2->mem     = NULL;
+  ad2->memsize = 0;
+
+  if (ad->memsize) 		/* serialized */
+    {
+      ESL_ALLOC(ad2->mem, sizeof(char) * ad->memsize);
+      ad2->memsize = ad->memsize;
+      memcpy(ad2->mem, ad->mem, ad->memsize);
+
+      ad2->rfline = (ad->rfline ? ad2->mem + (ad->rfline - ad->mem) : NULL );
+      ad2->mmline = (ad->mmline ? ad2->mem + (ad->mmline - ad->mem) : NULL );
+      ad2->csline = (ad->csline ? ad2->mem + (ad->csline - ad->mem) : NULL );
+      ad2->model  = ad2->mem + (ad->model  - ad->mem);
+      ad2->mline  = ad2->mem + (ad->mline  - ad->mem);
+      ad2->aseq   = ad2->mem + (ad->aseq   - ad->mem);
+      ad2->ppline = (ad->ppline ? ad2->mem + (ad->ppline - ad->mem) : NULL );
+      ad2->N      = ad->N;
+
+      ad2->hmmname = ad2->mem + (ad->hmmname - ad->mem);
+      ad2->hmmacc  = ad2->mem + (ad->hmmacc  - ad->mem);
+      ad2->hmmdesc = ad2->mem + (ad->hmmdesc - ad->mem);
+      ad2->hmmfrom = ad->hmmfrom;
+      ad2->hmmto   = ad->hmmto;
+      ad2->M       = ad->M;
+
+      ad2->sqname  = ad2->mem + (ad->sqname - ad->mem);
+      ad2->sqacc   = ad2->mem + (ad->sqacc  - ad->mem);
+      ad2->sqdesc  = ad2->mem + (ad->sqdesc - ad->mem);
+      ad2->sqfrom  = ad->sqfrom;
+      ad2->sqto    = ad->sqto;
+      ad2->L       = ad->L;
+    }
+  else				/* deserialized */
+    {
+      if ( esl_strdup(ad->rfline, -1, &(ad2->rfline)) != eslOK) goto ERROR;
+      if ( esl_strdup(ad->mmline, -1, &(ad2->mmline)) != eslOK) goto ERROR;
+      if ( esl_strdup(ad->csline, -1, &(ad2->csline)) != eslOK) goto ERROR;
+      if ( esl_strdup(ad->model,  -1, &(ad2->model))  != eslOK) goto ERROR;
+      if ( esl_strdup(ad->mline,  -1, &(ad2->mline))  != eslOK) goto ERROR;
+      if ( esl_strdup(ad->aseq,   -1, &(ad2->aseq))   != eslOK) goto ERROR;
+      if ( esl_strdup(ad->ppline, -1, &(ad2->ppline)) != eslOK) goto ERROR;
+      ad2->N = ad->N;
+
+      if ( esl_strdup(ad->hmmname, -1, &(ad2->hmmname)) != eslOK) goto ERROR;
+      if ( esl_strdup(ad->hmmacc,  -1, &(ad2->hmmacc))  != eslOK) goto ERROR;
+      if ( esl_strdup(ad->hmmdesc, -1, &(ad2->hmmdesc)) != eslOK) goto ERROR;
+      ad2->hmmfrom = ad->hmmfrom;
+      ad2->hmmto   = ad->hmmto;
+      ad2->M       = ad->M;
+
+      if ( esl_strdup(ad->sqname,  -1, &(ad2->sqname)) != eslOK) goto ERROR;
+      if ( esl_strdup(ad->sqacc,   -1, &(ad2->sqacc))  != eslOK) goto ERROR;
+      if ( esl_strdup(ad->sqdesc,  -1, &(ad2->sqdesc)) != eslOK) goto ERROR;
+      ad2->sqfrom  = ad->sqfrom;
+      ad2->sqto    = ad->sqto;
+      ad2->L       = ad->L;      
+    }
+
+  return ad2;
+
+ ERROR:
+  if (ad2) p7_alidisplay_Destroy(ad2);
+  return NULL;
+}
+
+
+/* Function:  p7_alidisplay_Sizeof()
+ * Synopsis:  Returns the total size of a P7_ALIDISPLAY, in bytes.
+ *
+ * Purpose:   Return the total size of <P7_ALIDISPLAY> <ad>, in bytes.
+ *
+ *            Note that <ad->memsize = p7_alidisplay_Sizeof(ad) - sizeof(P7_ALIDISPLAY)>,
+ *            for a serialized object, because <ad->memsize> only refers to the sum
+ *            of the variable-length allocated fields.
+ *
+ * Args:      ad - P7_ALIDISPLAY to get the size of
+ *
+ * Returns:   size of <ad> in bytes
+ */
+size_t
+p7_alidisplay_Sizeof(const P7_ALIDISPLAY *ad)
+{
+  size_t n = sizeof(P7_ALIDISPLAY);
+
+  if (ad->rfline) n += ad->N+1; /* +1 for \0 */
+  if (ad->mmline) n += ad->N+1;
+  if (ad->csline) n += ad->N+1; 
+  if (ad->ppline) n += ad->N+1; 
+  n += 3 * (ad->N+1);	          /* model, mline, aseq */
+  n += 1 + strlen(ad->hmmname);	  
+  n += 1 + strlen(ad->hmmacc);	  /* optional acc, desc fields: when not present, just "" ("\0") */
+  n += 1 + strlen(ad->hmmdesc);
+  n += 1 + strlen(ad->sqname);
+  n += 1 + strlen(ad->sqacc);  
+  n += 1 + strlen(ad->sqdesc); 
+ 
+  return n;
+}
+
+/* Function:  p7_alidisplay_Serialize()
+ * Synopsis:  Serialize a P7_ALIDISPLAY, using internal memory.
+ *
+ * Purpose:   Serialize the <P7_ALIDISPLAY> <ad>, internally converting
+ *            all its variable-length allocations to a single
+ *            contiguous memory allocation. Serialization aids
+ *            interprocess communication.
+ *            
+ *            If <ad> is already serialized, do nothing.
+ *
+ * Args:      ad  - alidisplay to serialize
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and <ad> is restored to
+ *            its original (deserialized) state.
+ */
+int
+p7_alidisplay_Serialize(P7_ALIDISPLAY *ad)
+{
+  int pos;
+  int n;
+  int status;
+
+  if (ad->mem) return eslOK;	/* already serialized, so no-op */
+  ad->memsize = p7_alidisplay_Sizeof(ad) - sizeof(P7_ALIDISPLAY);
+  ESL_ALLOC(ad->mem, ad->memsize);
+
+  /* allow no exceptions past this point, because API guarantees restore of original state upon error */
+
+  pos = 0;
+  if (ad->rfline) { memcpy(ad->mem+pos, ad->rfline, ad->N+1); free(ad->rfline); ad->rfline = ad->mem+pos;  pos += ad->N+1; }
+  if (ad->mmline) { memcpy(ad->mem+pos, ad->mmline, ad->N+1); free(ad->mmline); ad->mmline = ad->mem+pos;  pos += ad->N+1; }
+  if (ad->csline) { memcpy(ad->mem+pos, ad->csline, ad->N+1); free(ad->csline); ad->csline = ad->mem+pos;  pos += ad->N+1; }
+  memcpy(ad->mem+pos, ad->model,  ad->N+1); free(ad->model); ad->model = ad->mem+pos; pos += ad->N+1; 
+  memcpy(ad->mem+pos, ad->mline,  ad->N+1); free(ad->mline); ad->mline = ad->mem+pos; pos += ad->N+1; 
+  memcpy(ad->mem+pos, ad->aseq,   ad->N+1); free(ad->aseq);  ad->aseq  = ad->mem+pos; pos += ad->N+1; 
+  if (ad->ppline) { memcpy(ad->mem+pos, ad->ppline, ad->N+1); free(ad->ppline); ad->ppline = ad->mem+pos;  pos += ad->N+1; }
+  n = 1 + strlen(ad->hmmname);  memcpy(ad->mem + pos, ad->hmmname, n); free(ad->hmmname); ad->hmmname = ad->mem+pos; pos += n;
+  n = 1 + strlen(ad->hmmacc);   memcpy(ad->mem + pos, ad->hmmacc,  n); free(ad->hmmacc);  ad->hmmacc  = ad->mem+pos; pos += n;
+  n = 1 + strlen(ad->hmmdesc);  memcpy(ad->mem + pos, ad->hmmdesc, n); free(ad->hmmdesc); ad->hmmdesc = ad->mem+pos; pos += n;
+  n = 1 + strlen(ad->sqname);   memcpy(ad->mem + pos, ad->sqname,  n); free(ad->sqname);  ad->sqname  = ad->mem+pos; pos += n;
+  n = 1 + strlen(ad->sqacc);    memcpy(ad->mem + pos, ad->sqacc,   n); free(ad->sqacc);   ad->sqacc   = ad->mem+pos; pos += n;
+  n = 1 + strlen(ad->sqdesc);   memcpy(ad->mem + pos, ad->sqdesc,  n); free(ad->sqdesc);  ad->sqdesc  = ad->mem+pos; pos += n;
+  
+  return eslOK;
+
+ ERROR:
+  if (ad->mem) free(ad->mem); ad->mem = NULL;
+  return status;
+}
+
+/* Function:  p7_alidisplay_Deserialize()
+ * Synopsis:  Deserialize a P7_ALIDISPLAY, using internal memory.
+ *
+ * Purpose:   Deserialize the <P7_ALIDISPLAY> <ad>, converting its internal
+ *            allocations from a single contiguous memory chunk to individual
+ *            variable-length allocations. Deserialization facilitates 
+ *            reallocation/editing of individual elements of the display.
+ *            
+ *            If <ad> is already deserialized, do nothing.
+ *
+ * Args:      ad - alidisplay to serialize
+ *
+ * Returns:   <eslOK> on success
+ *
+ * Throws:    <eslEMEM> on allocation failure, and <ad> is restored to
+ *            its original (serialized) state.
+ */
+int
+p7_alidisplay_Deserialize(P7_ALIDISPLAY *ad)
+{
+  int pos;
+  int n;
+  int status;
+
+  if (ad->mem == NULL) return eslOK; /* already deserialized, so no-op */
+
+  pos = 0;
+  if (ad->rfline) { ESL_ALLOC(ad->rfline, sizeof(char) * ad->N+1); memcpy(ad->rfline, ad->mem+pos, ad->N+1); pos += ad->N+1; }
+  if (ad->mmline) { ESL_ALLOC(ad->mmline, sizeof(char) * ad->N+1); memcpy(ad->mmline, ad->mem+pos, ad->N+1); pos += ad->N+1; }
+  if (ad->csline) { ESL_ALLOC(ad->csline, sizeof(char) * ad->N+1); memcpy(ad->csline, ad->mem+pos, ad->N+1); pos += ad->N+1; }
+  ESL_ALLOC(ad->model, sizeof(char) * ad->N+1); memcpy(ad->model, ad->mem+pos, ad->N+1); pos += ad->N+1; 
+  ESL_ALLOC(ad->mline, sizeof(char) * ad->N+1); memcpy(ad->mline, ad->mem+pos, ad->N+1); pos += ad->N+1; 
+  ESL_ALLOC(ad->aseq,  sizeof(char) * ad->N+1); memcpy(ad->aseq,  ad->mem+pos, ad->N+1); pos += ad->N+1; 
+  if (ad->ppline) { ESL_ALLOC(ad->ppline, sizeof(char) * ad->N+1); memcpy(ad->ppline, ad->mem+pos, ad->N+1); pos += ad->N+1; }
+  n = 1 + strlen(ad->mem+pos);  ESL_ALLOC(ad->hmmname,  sizeof(char) * n); memcpy(ad->hmmname,  ad->mem+pos, n); pos += n;
+  n = 1 + strlen(ad->mem+pos);  ESL_ALLOC(ad->hmmacc,   sizeof(char) * n); memcpy(ad->hmmacc,   ad->mem+pos, n); pos += n;
+  n = 1 + strlen(ad->mem+pos);  ESL_ALLOC(ad->hmmdesc,  sizeof(char) * n); memcpy(ad->hmmdesc,  ad->mem+pos, n); pos += n;
+  n = 1 + strlen(ad->mem+pos);  ESL_ALLOC(ad->sqname,   sizeof(char) * n); memcpy(ad->sqname,   ad->mem+pos, n); pos += n;
+  n = 1 + strlen(ad->mem+pos);  ESL_ALLOC(ad->sqacc,    sizeof(char) * n); memcpy(ad->sqacc,    ad->mem+pos, n); pos += n;
+  n = 1 + strlen(ad->mem+pos);  ESL_ALLOC(ad->sqdesc,   sizeof(char) * n); memcpy(ad->sqdesc,   ad->mem+pos, n); pos += n;
+
+  free(ad->mem);
+  ad->mem     = NULL;
+  ad->memsize = 0;
+  return eslOK;
+  
+ ERROR:
+  /* restore serialized state, if an alloc fails. tedious, if not nontrivial. */
+  /* the pointers are non-NULL whether we just allocated them or if they're pointing into mem, so we have to check against mem+pos */
+  pos = 0;
+  if (ad->rfline) { if (ad->rfline != ad->mem+pos) { free(ad->rfline); ad->rfline = ad->mem+pos; }  pos += ad->N+1; }
+  if (ad->mmline) { if (ad->mmline != ad->mem+pos) { free(ad->mmline); ad->mmline = ad->mem+pos; }  pos += ad->N+1; }
+  if (ad->csline) { if (ad->csline != ad->mem+pos) { free(ad->csline); ad->csline = ad->mem+pos; }  pos += ad->N+1; }
+  if (ad->model != ad->mem+pos) { free(ad->model); ad->model = ad->mem+pos; }  pos += ad->N+1; 
+  if (ad->mline != ad->mem+pos) { free(ad->mline); ad->mline = ad->mem+pos; }  pos += ad->N+1; 
+  if (ad->aseq  != ad->mem+pos) { free(ad->aseq);  ad->aseq  = ad->mem+pos; }  pos += ad->N+1; 
+  if (ad->ppline) { if (ad->ppline != ad->mem+pos) { free(ad->ppline); ad->ppline = ad->mem+pos; }  pos += ad->N+1; }
+
+  n = 1 + strlen(ad->hmmname);  if (ad->hmmname != ad->mem+pos) { free(ad->hmmname); ad->hmmname = ad->mem+pos; }  pos += n;
+  n = 1 + strlen(ad->hmmacc);   if (ad->hmmacc  != ad->mem+pos) { free(ad->hmmacc);  ad->hmmacc  = ad->mem+pos; }  pos += n;
+  n = 1 + strlen(ad->hmmname);  if (ad->hmmdesc != ad->mem+pos) { free(ad->hmmdesc); ad->hmmdesc = ad->mem+pos; }  pos += n;
+  n = 1 + strlen(ad->sqname);   if (ad->sqname  != ad->mem+pos) { free(ad->sqname);  ad->sqname = ad->mem+pos;  }  pos += n;
+  n = 1 + strlen(ad->sqacc);    if (ad->sqacc   != ad->mem+pos) { free(ad->sqacc);   ad->sqacc  = ad->mem+pos;  }  pos += n;
+  n = 1 + strlen(ad->sqname);   if (ad->sqdesc  != ad->mem+pos) { free(ad->sqdesc);  ad->sqdesc = ad->mem+pos;  }  pos += n;
+  return status;
+}
+
+
+/* Function:  p7_alidisplay_Destroy()
+ * Synopsis:  Frees a <P7_ALIDISPLAY>
+ */
+void
+p7_alidisplay_Destroy(P7_ALIDISPLAY *ad)
+{
+  if (ad == NULL) return;
+  if (ad->mem)
+    {	/* serialized form */
+      free(ad->mem);
+    }
+  else
+    {	/* deserialized form */
+      if (ad->rfline)  free(ad->rfline);
+      if (ad->mmline)  free(ad->mmline);
+      if (ad->csline)  free(ad->csline);
+      if (ad->model)   free(ad->model);
+      if (ad->mline)   free(ad->mline);
+      if (ad->aseq)    free(ad->aseq);
+      if (ad->ppline)  free(ad->ppline);
+      if (ad->hmmname) free(ad->hmmname);
+      if (ad->hmmacc)  free(ad->hmmacc);
+      if (ad->hmmdesc) free(ad->hmmdesc);
+      if (ad->sqname)  free(ad->sqname);
+      if (ad->sqacc)   free(ad->sqacc);
+      if (ad->sqdesc)  free(ad->sqdesc);
+    }
+  free(ad);
+}
+/*---------------- end, alidisplay object -----------------------*/
+
+
+
+/*****************************************************************
+ * 2. The P7_ALIDISPLAY API
+ *****************************************************************/
+
+static int
+integer_textwidth(long n)
+{
+  int w = (n < 0)? 1 : 0;
+  while (n != 0) { n /= 10; w++; }
+  return w;
+}
+
+
+/* Function:  p7_alidisplay_EncodePostProb()
+ * Synopsis:  Convert a posterior probability to a char code.
+ *
+ * Purpose:   Convert the posterior probability <p> to
+ *            a character code suitable for Stockholm format
+ *            <#=GC PP_cons> and <#=GR seqname PP> annotation
+ *            lines. HMMER uses the same codes in alignment
+ *            output.
+ *            
+ *            Characters <0-9*> are used; $0.0 \leq p < 0.05$
+ *            is coded as 0, $0.05 \leq p < 0.15$ is coded as
+ *            1, ... and so on ..., $0.85 \leq p < 0.95$ is
+ *            coded as 9, and $0.95 \leq p \leq 1.0$ is coded
+ *            as '*'.
+ *
+ * Returns:   the encoded character.
+ */
+char
+p7_alidisplay_EncodePostProb(float p)
+{
+  return (p + 0.05 >= 1.0) ? '*' :  (char) ((p + 0.05) * 10.0) + '0';
+}
+
+/* Function:  p7_alidisplay_DecodePostProb()
+ * Synopsis:  Convert a char code post prob to an approx float.
+ *
+ * Purpose:   Convert posterior probability code <pc>, which
+ *            is [0-9*], to an approximate floating point probability.
+ *            
+ *            The result is crude, because <pc> has already discretized
+ *            with loss of precision. We require that 
+ *            <p7_alidisplay_EncodePostProb(p7_alidisplay_DecodePostProb(pc)) == pc>,
+ *            and that <pc=='0'> decodes to a nonzero probability just to
+ *            avoid any possible absorbing-zero artifacts.
+ *
+ * Returns:   the decoded real-valued approximate probability.
+ */
+float
+p7_alidisplay_DecodePostProb(char pc)
+{
+  if      (pc == '0') return 0.01;
+  else if (pc == '*') return 1.0;
+  else if (pc == '.') return 0.0;
+  else                return ((float) (pc - '0') / 10.);
+}
+
+
+
+/* Function:  p7_alidisplay_Print()
+ * Synopsis:  Human readable output of <P7_ALIDISPLAY>
+ *
+ * Purpose:   Prints alignment <ad> to stream <fp>.
+ *            
+ *            Put at least <min_aliwidth> alignment characters per
+ *            line; try to make lines no longer than <linewidth>
+ *            characters, including name, coords, and spacing.  The
+ *            width of lines may exceed <linewidth>, if that's what it
+ *            takes to put a name, coords, and <min_aliwidth>
+ *            characters of alignment on a line.
+ *            
+ *            As a special case, if <linewidth> is negative or 0, then
+ *            alignments are formatted in a single block of unlimited
+ *            line length.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on write error, such as filling the disk.
+ */
+int
+p7_alidisplay_Print(FILE *fp, P7_ALIDISPLAY *ad, int min_aliwidth, int linewidth, int show_accessions)
+{
+  char *buf          = NULL;
+  char *show_hmmname = NULL;
+  char *show_seqname = NULL;
+  int   namewidth, coordwidth, aliwidth;
+  int   pos;
+  int   status;
+  int   ni, nk;
+  int   z;
+  long  i1,i2;
+  int   k1,k2;
+
+  /* implement the --acc option for preferring accessions over names in output  */
+  show_hmmname = (show_accessions && ad->hmmacc[0] != '\0') ? ad->hmmacc : ad->hmmname;
+  show_seqname = (show_accessions && ad->sqacc[0]  != '\0') ? ad->sqacc  : ad->sqname;
+      
+  /* dynamically size the output lines */
+  namewidth  = ESL_MAX(strlen(show_hmmname), strlen(show_seqname));
+  coordwidth = ESL_MAX(ESL_MAX(integer_textwidth(ad->hmmfrom),
+                              integer_textwidth(ad->hmmto)),
+                      ESL_MAX(integer_textwidth(ad->sqfrom),
+                              integer_textwidth(ad->sqto)));
+
+  aliwidth   = (linewidth > 0) ? linewidth - namewidth - 2*coordwidth - 5 : ad->N;
+  if (aliwidth < ad->N && aliwidth < min_aliwidth) aliwidth = min_aliwidth; /* at least, regardless of some silly linewidth setting */
+  ESL_ALLOC(buf, sizeof(char) * (aliwidth+1));
+  buf[aliwidth] = 0;
+
+  /* Break the alignment into multiple blocks of width aliwidth for printing */
+  i1 = ad->sqfrom;
+  k1 = ad->hmmfrom;
+  for (pos = 0; pos < ad->N; pos += aliwidth)
+    {
+      if (pos > 0) { if (fprintf(fp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed"); } /* blank line betweeen blocks */
+
+      ni = nk = 0; 
+      for (z = pos; z < pos + aliwidth && z < ad->N; z++) {
+        if (ad->model[z] != '.') nk++; /* k advances except on insert states */
+        if (ad->aseq[z]  != '-') ni++; /* i advances except on delete states */
+      }
+
+      k2 = k1+nk-1;
+      if (ad->sqfrom < ad->sqto) i2 = i1+ni-1;
+      else                       i2 = i1-ni+1; // revcomp hit for DNA
+
+      if (ad->csline != NULL) { strncpy(buf, ad->csline+pos, aliwidth); if (fprintf(fp, "  %*s %s CS\n", namewidth+coordwidth+1, "", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed"); } 
+      if (ad->rfline != NULL) { strncpy(buf, ad->rfline+pos, aliwidth); if (fprintf(fp, "  %*s %s RF\n", namewidth+coordwidth+1, "", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed"); } 
+      if (ad->mmline != NULL) { strncpy(buf, ad->mmline+pos, aliwidth); if (fprintf(fp, "  %*s %s MM\n", namewidth+coordwidth+1, "", buf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed"); }
+
+      strncpy(buf, ad->model+pos, aliwidth); if (fprintf(fp, "  %*s %*d %s %-*d\n", namewidth,  show_hmmname, coordwidth, k1, buf, coordwidth, k2) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed"); 
+      strncpy(buf, ad->mline+pos, aliwidth); if (fprintf(fp, "  %*s %s\n", namewidth+coordwidth+1, " ", buf)                                       < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed"); 
+
+      if (ni > 0) { strncpy(buf, ad->aseq+pos, aliwidth); if (fprintf(fp, "  %*s %*ld %s %-*ld\n", namewidth, show_seqname, coordwidth, i1,  buf, coordwidth, i2)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed");  }
+      else        { strncpy(buf, ad->aseq+pos, aliwidth); if (fprintf(fp, "  %*s %*s %s %*s\n",    namewidth, show_seqname, coordwidth, "-", buf, coordwidth, "-") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed");  }
+
+      if (ad->ppline != NULL)  { strncpy(buf, ad->ppline+pos, aliwidth);  if (fprintf(fp, "  %*s %s PP\n", namewidth+coordwidth+1, "", buf)  < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "alignment display write failed");  }
+
+      k1 += nk;
+      if   (ad->sqfrom < ad->sqto)  i1 += ni;
+      else                          i1 -= ni;  // revcomp hit for DNA
+    }
+  fflush(fp);
+  free(buf);
+  return eslOK;
+
+ ERROR:
+  if (buf) free(buf);
+  return status;
+}  
+
+
+/* Function:  p7_alidisplay_Backconvert()
+ * Synopsis:  Convert an alidisplay to a faux trace and subsequence.
+ *
+ * Purpose:   Convert alignment display object <ad> to a faux subsequence
+ *            and faux subsequence trace, returning them in <ret_sq> and
+ *            <ret_tr>. 
+ *            
+ *            The subsequence <*ret_sq> is digital; ascii residues in
+ *            <ad> are digitized using digital alphabet <abc>.
+ *            
+ *            The subsequence and trace are suitable for passing as
+ *            array elements to <p7_tracealign_Seqs>. This is the
+ *            main purpose of backconversion. Results of a profile
+ *            search are stored in a hit list as a processed
+ *            <P7_ALIDISPLAY>, not as a <P7_TRACE> and <ESL_SQ>, to
+ *            reduce space and to reduce communication overhead in
+ *            parallelized search implementations. After reduction
+ *            to a final hit list, a master may want to construct a
+ *            multiple alignment of all the significant hits. 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failures. <eslECORRUPT> on unexpected internal
+ *            data corruption. On any exception, <*ret_sq> and <*ret_tr> are
+ *            <NULL>.
+ *
+ * Xref:      SRE:J4/29.
+ */
+int
+p7_alidisplay_Backconvert(const P7_ALIDISPLAY *ad, const ESL_ALPHABET *abc, ESL_SQ **ret_sq, P7_TRACE **ret_tr)
+{
+  ESL_SQ   *sq   = NULL;	/* RETURN: faux subsequence          */
+  P7_TRACE *tr   = NULL;	/* RETURN: faux trace                */
+  int       subL = 0;		/* subsequence length in the <ad>    */
+  int       a, i, k;        	/* coords for <ad>, <sq->dsq>, model */
+  char      cur_st, nxt_st;	/* state type: MDI                   */
+  int       status;
+  
+  /* Make a first pass over <ad> just to calculate subseq length */
+  for (a = 0; a < ad->N; a++)
+    if (! esl_abc_CIsGap(abc, ad->aseq[a])) subL++;
+
+  /* Allocations */
+  if ((sq = esl_sq_CreateDigital(abc)) == NULL)   { status = eslEMEM; goto ERROR; }
+  if ((status = esl_sq_GrowTo(sq, subL)) != eslOK) goto ERROR;
+
+  if ((tr = (ad->ppline == NULL) ?  p7_trace_Create() : p7_trace_CreateWithPP()) == NULL) { status = eslEMEM; goto ERROR; }
+  if ((status = p7_trace_GrowTo(tr, subL+6)) != eslOK) goto ERROR;   /* +6 is for SNB/ECT */
+  
+  /* Construction of dsq, trace */
+  sq->dsq[0] = eslDSQ_SENTINEL;
+  if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, p7T_S, 0, 0) : p7_trace_AppendWithPP(tr, p7T_S, 0, 0, 0.0))) != eslOK) goto ERROR;
+  if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, p7T_N, 0, 0) : p7_trace_AppendWithPP(tr, p7T_N, 0, 0, 0.0))) != eslOK) goto ERROR;
+  if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, p7T_B, 0, 0) : p7_trace_AppendWithPP(tr, p7T_B, 0, 0, 0.0))) != eslOK) goto ERROR;
+  k = ad->hmmfrom;
+  i = 1; 
+  for (a = 0; a < ad->N; a++)
+    {
+      if (esl_abc_CIsResidue(abc, ad->model[a]))   { cur_st = (esl_abc_CIsResidue(abc, ad->aseq[a])   ? p7T_M : p7T_D); } else cur_st = p7T_I;
+      if (esl_abc_CIsResidue(abc, ad->model[a+1])) { nxt_st = (esl_abc_CIsResidue(abc, ad->aseq[a+1]) ? p7T_M : p7T_D); } else nxt_st = p7T_I; /* ad->N pos is \0, nxt_st becomes p7T_I on last step, that's fine. */
+
+      if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, cur_st, k, i) : p7_trace_AppendWithPP(tr, cur_st, k, i, p7_alidisplay_DecodePostProb(ad->ppline[a])))) != eslOK) goto ERROR;
+
+      switch (cur_st) {
+      case p7T_M: sq->dsq[i] = esl_abc_DigitizeSymbol(abc, ad->aseq[a]); i++; break;
+      case p7T_I: sq->dsq[i] = esl_abc_DigitizeSymbol(abc, ad->aseq[a]); i++; break;
+      case p7T_D:                                                             break;
+      }
+
+      switch (nxt_st) {
+      case p7T_M:  k++; break;
+      case p7T_I:       break;
+      case p7T_D:  k++; break;
+      case p7T_E:       break;
+      }
+
+    }
+  if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, p7T_E, 0, 0) : p7_trace_AppendWithPP(tr, p7T_E, 0, 0, 0.0))) != eslOK) goto ERROR;
+  if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, p7T_C, 0, 0) : p7_trace_AppendWithPP(tr, p7T_C, 0, 0, 0.0))) != eslOK) goto ERROR;
+  if ((status = ((ad->ppline == NULL) ? p7_trace_Append(tr, p7T_T, 0, 0) : p7_trace_AppendWithPP(tr, p7T_T, 0, 0, 0.0))) != eslOK) goto ERROR;
+  sq->dsq[i] = eslDSQ_SENTINEL;
+
+  /* some sanity checks */
+  if (tr->N != ad->N + 6)  ESL_XEXCEPTION(eslECORRUPT, "backconverted trace ended up with unexpected size (%s/%s)",         ad->sqname, ad->hmmname);
+  if (k     != ad->hmmto)  ESL_XEXCEPTION(eslECORRUPT, "backconverted trace didn't end at expected place on model (%s/%s)", ad->sqname, ad->hmmname);
+  if (i     != subL+1)     ESL_XEXCEPTION(eslECORRUPT, "backconverted subseq didn't end at expected length (%s/%s)",        ad->sqname, ad->hmmname);
+
+  /* Set up <sq> annotation as a subseq of a source sequence */
+  if ((status = esl_sq_FormatName(sq, "%s/%ld-%ld", ad->sqname, ad->sqfrom, ad->sqto))                      != eslOK) goto ERROR;
+  if ((status = esl_sq_FormatDesc(sq, "[subseq from] %s", ad->sqdesc[0] != '\0' ? ad->sqdesc : ad->sqname)) != eslOK) goto ERROR;
+  if ((status = esl_sq_SetSource (sq, ad->sqname))                                                          != eslOK) goto ERROR;
+  if (ad->sqacc[0]  != '\0') { if ((status = esl_sq_SetAccession  (sq, ad->sqacc)) != eslOK) goto ERROR; }
+  sq->n     = subL;
+  sq->start = ad->sqfrom;
+  sq->end   = ad->sqto;
+  sq->C     = 0;
+  sq->W     = subL;
+  sq->L     = ad->L;
+  
+  tr->M     = ad->M;
+  tr->L     = ad->L;
+
+  *ret_sq = sq;
+  *ret_tr = tr;
+  return eslOK;
+
+ ERROR:
+  if (sq != NULL) esl_sq_Destroy(sq);
+  if (tr != NULL) p7_trace_Destroy(tr);
+  *ret_sq = NULL;
+  *ret_tr = NULL;
+  return status;
+}
+/*------------------- end, alidisplay API -----------------------*/
+
+
+/*****************************************************************
+ * 3. Debugging/dev code
+ *****************************************************************/
+
+/* Function:  p7_alidisplay_Dump()
+ * Synopsis:  Print contents of P7_ALIDISPLAY for inspection.
+ *
+ * Purpose:   Print contents of the <P7_ALIDISPLAY> <ad> to
+ *            stream <fp> for inspection. Includes all elements
+ *            of the structure, whether the object is allocated
+ *            in serialized or deserialized form, and the total
+ *            size of the object in bytes.
+ *
+ * Returns:   <eslOK>
+ */
+int
+p7_alidisplay_Dump(FILE *fp, const P7_ALIDISPLAY *ad)
+{
+  fprintf(fp, "P7_ALIDISPLAY dump\n");
+  fprintf(fp, "------------------\n");
+
+  fprintf(fp, "rfline  = %s\n", ad->rfline ? ad->rfline : "[none]");
+  fprintf(fp, "mmline  = %s\n", ad->mmline ? ad->mmline : "[none]");
+  fprintf(fp, "csline  = %s\n", ad->csline ? ad->csline : "[none]");
+  fprintf(fp, "model   = %s\n", ad->model);
+  fprintf(fp, "mline   = %s\n", ad->mline);
+  fprintf(fp, "aseq    = %s\n", ad->aseq);
+  fprintf(fp, "N       = %d\n", ad->N);
+  fprintf(fp, "\n");
+
+  fprintf(fp, "hmmname = %s\n", ad->hmmname);
+  fprintf(fp, "hmmacc  = %s\n", ad->hmmacc[0]  == '\0' ? "[none]" : ad->hmmacc);
+  fprintf(fp, "hmmdesc = %s\n", ad->hmmdesc[0] == '\0' ? "[none]" : ad->hmmdesc);
+  fprintf(fp, "hmmfrom = %d\n", ad->hmmfrom);
+  fprintf(fp, "hmmto   = %d\n", ad->hmmto);
+  fprintf(fp, "M       = %d\n", ad->M);
+  fprintf(fp, "\n");
+
+  fprintf(fp, "sqname  = %s\n",  ad->sqname);
+  fprintf(fp, "sqacc   = %s\n",  ad->sqacc[0]  == '\0' ? "[none]" : ad->sqacc);
+  fprintf(fp, "sqdesc  = %s\n",  ad->sqdesc[0] == '\0' ? "[none]" : ad->sqdesc);
+  fprintf(fp, "sqfrom  = %ld\n", ad->sqfrom);
+  fprintf(fp, "sqto    = %ld\n", ad->sqto);
+  fprintf(fp, "L       = %ld\n", ad->L);
+  fprintf(fp, "\n");
+
+  fprintf(fp, "size    = %d bytes\n",  (int) p7_alidisplay_Sizeof(ad));
+  fprintf(fp, "%s\n", ad->mem ? "serialized" : "not serialized");
+  return eslOK;
+}
+
+/* Function:  p7_alidisplay_Compare()
+ * Synopsis:  Compare two <P7_ALIDISPLAY> objects for equality
+ *
+ * Purpose:   Compare alignment displays <ad1> and <ad2> for 
+ *            equality. Return <eslOK> if they have identical 
+ *            contents; <eslFAIL> if not.
+ *            
+ *            Only contents matter, not serialization status;
+ *            a serialized and deserialized version of the same
+ *            alidisplay will compare identical.
+ */
+int
+p7_alidisplay_Compare(const P7_ALIDISPLAY *ad1, const P7_ALIDISPLAY *ad2)
+{
+  if (ad1->mem && ad2->mem)	/* both objects serialized */
+    {
+      if (ad1->memsize != ad2->memsize)                  return eslFAIL;
+      if (memcmp(ad1->mem, ad2->mem, ad1->memsize) != 0) return eslFAIL;
+    }
+  
+  if (esl_strcmp(ad1->rfline,  ad2->rfline)  != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->mmline,  ad2->mmline)  != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->csline,  ad2->csline)  != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->model,   ad2->model)   != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->mline,   ad2->mline)   != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->aseq,    ad2->aseq)    != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->ppline,  ad2->ppline)  != eslOK) return eslFAIL;
+  if (ad1->N != ad2->N)                                return eslFAIL;
+
+  if (esl_strcmp(ad1->hmmname, ad2->hmmname) != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->hmmacc,  ad2->hmmacc)  != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->hmmdesc, ad2->hmmdesc) != eslOK) return eslFAIL;
+  if (ad1->hmmfrom != ad2->hmmfrom)                    return eslFAIL;
+  if (ad1->hmmto   != ad2->hmmto)                      return eslFAIL;
+  if (ad1->M       != ad2->M)                          return eslFAIL;
+
+  if (esl_strcmp(ad1->sqname,  ad2->sqname)  != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->sqacc,   ad2->sqacc)   != eslOK) return eslFAIL;
+  if (esl_strcmp(ad1->sqdesc,  ad2->sqdesc)  != eslOK) return eslFAIL;
+  if (ad1->sqfrom != ad2->sqfrom)                      return eslFAIL;
+  if (ad1->sqto   != ad2->sqto)                        return eslFAIL;
+  if (ad1->M      != ad2->M)                           return eslFAIL;
+  
+  return eslOK;
+}
+
+
+/*-------------- end, debugging/dev code ------------------------*/
+
+
+
+/*****************************************************************
+ * 4. Benchmark driver.
+ *****************************************************************/
+#ifdef p7ALIDISPLAY_BENCHMARK
+/*
+   gcc -o benchmark-alidisplay -std=gnu99 -g -Wall -O2 -I. -L. -I../easel -L../easel -Dp7ALIDISPLAY_BENCHMARK p7_alidisplay.c -lhmmer -leasel -lm 
+
+   ./benchmark-alidisplay <hmmfile>     runs benchmark
+   ./benchmark-alidisplay -b <hmmfile>  gets baseline time to subtract: just random trace generation
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-b",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "baseline timing",                                  0 },
+  { "-p",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "include fake PP line, just to see how it looks",   0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of traces to generate",                     0 },
+   {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for P7_ALIDISPLAY";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_TRACE       *tr      = NULL;
+  ESL_SQ         *sq      = NULL;
+  P7_ALIDISPLAY  *ad      = NULL;
+  int             i,z;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+  
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, 0);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 0, p7_UNIGLOCAL); /* that sets N,C,J to generate nothing */
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  if (esl_opt_GetBoolean(go, "-p")) tr = p7_trace_CreateWithPP();
+  else                              tr = p7_trace_Create();
+
+  sq = esl_sq_CreateDigital(abc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    {
+      p7_ProfileEmit(r, hmm, gm, bg, sq, tr);
+      esl_sq_SetName(sq, "random");
+
+      if (! esl_opt_GetBoolean(go, "-b")) 
+	{
+	  if (esl_opt_GetBoolean(go, "-p")) 
+	    for (z = 0; z < tr->N; z++)
+	      if (tr->i[z] > 0) tr->pp[z] = esl_random(r);
+
+	  ad = p7_alidisplay_Create(tr, 0, om, sq, NULL);
+	  p7_alidisplay_Print(stdout, ad, 40, 80, FALSE);
+	  p7_alidisplay_Destroy(ad);
+	}
+      p7_trace_Reuse(tr);
+      esl_sq_Reuse(sq);
+    }
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  esl_sq_Destroy(sq);
+  p7_trace_Destroy(tr);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7ALIDISPLAY_BENCHMARK*/
+/*--------------------- end, benchmark driver -------------------*/
+
+/****************************************************************
+ * 5. Unit tests.
+ ****************************************************************/
+#ifdef p7ALIDISPLAY_TESTDRIVE
+
+/* create_faux_alidisplay()
+ * 
+ * Create a fake P7_ALIDISPLAY of length <N> for testing purposes,
+ * randomizing it to try to exercise many possible combos of
+ * optional annotation, etc. Return it in <ret_ad>; caller frees.
+ */
+static int
+create_faux_alidisplay(ESL_RANDOMNESS *rng, int N, P7_ALIDISPLAY **ret_ad)
+{
+  P7_ALIDISPLAY *ad            = NULL;
+  char          *guidestring   = NULL;	/* string [0..N-1] composed of MDI */
+  int            nM            = 0;
+  int            nD            = 0;
+  int            nI            = 0;
+  enum p7t_statetype_e last_st;
+  int            pos;
+  int            status;
+
+  ESL_ALLOC(guidestring, sizeof(char) * (N+1));
+
+  guidestring[0] = 'M'; nM++; last_st = p7T_M; /* local alignments must start with M */
+  for (pos = 1; pos < N-1; pos++)
+    {
+      switch (last_st) 
+	{
+	case p7T_M:
+	  switch (esl_rnd_Roll(rng, 3)) 
+	    {
+	    case 0: guidestring[pos] = 'M'; nM++; last_st = p7T_M; break;
+	    case 1: guidestring[pos] = 'D'; nD++; last_st = p7T_D; break;
+	    case 2: guidestring[pos] = 'I'; nI++; last_st = p7T_I; break;
+	    }
+	  break;
+
+	case p7T_I: 
+	  switch (esl_rnd_Roll(rng, 2))
+	    {
+	    case 0: guidestring[pos] = 'M'; nM++; last_st = p7T_M; break;
+	    case 1: guidestring[pos] = 'I'; nI++; last_st = p7T_I; break;
+	    }
+	  break;
+
+	case p7T_D: 
+	  switch (esl_rnd_Roll(rng, 2)) 
+	    {
+	    case 0: guidestring[pos] = 'M'; nM++; last_st = p7T_M; break;
+	    case 1: guidestring[pos] = 'D'; nD++; last_st = p7T_D; break;
+	    }
+	  break;
+	  
+	default:
+	  break;
+	}
+    }
+  /* local alignments can end on M or D. (optimal local alignments can only end on M) */
+  switch (last_st) {
+  case p7T_I:
+    guidestring[N-1] = 'M';  nM++;  break;
+  default:   
+    switch (esl_rnd_Roll(rng, 2)) {
+    case 0: guidestring[N-1] = 'M'; nM++; break;
+    case 1: guidestring[N-1] = 'D'; nD++; break;
+    }
+    break;
+  }
+  guidestring[N] = '\0';
+
+  ESL_ALLOC(ad, sizeof(P7_ALIDISPLAY));
+  ad->rfline  = ad->mmline = ad->csline = ad->model   = ad->mline  = ad->aseq = ad->ppline = NULL;
+  ad->hmmname = ad->hmmacc = ad->hmmdesc = NULL;
+  ad->sqname  = ad->sqacc  = ad->sqdesc  = NULL;
+  ad->mem     = NULL;
+  ad->memsize = 0;
+
+  /* Optional lines are added w/ 50% chance */
+  if (esl_rnd_Roll(rng, 2) == 0)  ESL_ALLOC(ad->rfline, sizeof(char) * (N+1));
+  if (esl_rnd_Roll(rng, 2) == 0)  ESL_ALLOC(ad->mmline, sizeof(char) * (N+1));
+  if (esl_rnd_Roll(rng, 2) == 0)  ESL_ALLOC(ad->csline, sizeof(char) * (N+1));
+  if (esl_rnd_Roll(rng, 2) == 0)  ESL_ALLOC(ad->ppline, sizeof(char) * (N+1));
+  ESL_ALLOC(ad->model, sizeof(char) * (N+1));
+  ESL_ALLOC(ad->mline, sizeof(char) * (N+1));
+  ESL_ALLOC(ad->aseq,  sizeof(char) * (N+1));
+  ad->N = N;
+
+  esl_strdup("my_hmm", -1, &(ad->hmmname));
+  if (esl_rnd_Roll(rng, 2) == 0) esl_strdup("PF000007",          -1, &(ad->hmmacc));  else esl_strdup("", -1, &(ad->hmmacc));
+  if (esl_rnd_Roll(rng, 2) == 0) esl_strdup("(hmm description)", -1, &(ad->hmmdesc)); else esl_strdup("", -1, &(ad->hmmdesc));
+
+  esl_strdup("my_seq", -1, &(ad->sqname));
+  if (esl_rnd_Roll(rng, 2) == 0) esl_strdup("ABC000001.42",           -1, &(ad->sqacc));  else esl_strdup("", -1, &(ad->sqacc));
+  if (esl_rnd_Roll(rng, 2) == 0) esl_strdup("(sequence description)", -1, &(ad->sqdesc)); else esl_strdup("", -1, &(ad->sqdesc));
+
+  /* model, seq coords must look valid. */
+  ad->hmmfrom = 100;
+  ad->hmmto   = ad->hmmfrom + nM + nD - 1;
+  ad->M       = ad->hmmto + esl_rnd_Roll(rng, 2);
+
+  ad->sqfrom  = 1000;
+  ad->sqto    = ad->sqfrom + nM + nI - 1;
+  ad->L       = ad->sqto + esl_rnd_Roll(rng, 2);
+
+  /* rfline is free-char "reference annotation" on consensus; H3 puts '.' for inserts. */
+  if (ad->rfline) {
+    for (pos = 0; pos < N; pos++)
+      ad->rfline[pos] = (guidestring[pos] == 'I' ? '.' : 'x');
+    ad->rfline[pos] = '\0';
+  }
+
+  /* mmline indicates which columns should be masked (assigned background distribution), '.' indicates no mask; H3 puts '.' for inserts. */
+  if (ad->mmline) {
+    for (pos = 0; pos < N; pos++)
+      ad->mmline[pos] = (guidestring[pos] == 'I' ? '.' : '.');
+    ad->mmline[pos] = '\0';
+  }
+
+  /* csline is optional. It has free-char "consensus structure annotation" on consensus positions. H3 puts '.' on inserts. */
+  if (ad->csline) {
+    for (pos = 0; pos < N; pos++)
+      ad->csline[pos] = (guidestring[pos] == 'I' ? '.' : 'X');
+    ad->csline[pos] = '\0';
+  }
+  
+  /* the mandatory three-line alignment display:
+   *
+   *   guidestring:    MMMDI
+   *   model:          XXXX.
+   *   mline:          A+   
+   *   aseq:           AAA-a
+   */
+  for (pos = 0; pos < N; pos++)
+    {
+      switch (guidestring[pos]) {
+      case 'M':
+	ad->model[pos] = 'X';
+	switch (esl_rnd_Roll(rng, 3)) {
+	case 0: ad->mline[pos] = 'A';
+	case 1: ad->mline[pos] = '+';
+	case 2: ad->mline[pos] = ' ';
+	}
+	ad->aseq[pos]  = 'A';
+	break;
+
+      case 'D':
+	ad->model[pos] = 'X';
+	ad->mline[pos] = ' ';
+	ad->aseq[pos]  = '-';
+	break;
+
+      case 'I':
+	ad->model[pos] = '.';
+	ad->mline[pos] = ' ';
+	ad->aseq[pos]  = 'a';
+	break;
+      }
+    }
+  ad->model[pos] = '\0';
+  ad->mline[pos] = '\0';
+  ad->aseq[pos]  = '\0';
+
+  /* ppline is optional */
+  if (ad->ppline) {
+    for (pos = 0; pos < N; pos++)
+      ad->ppline[pos] = (guidestring[pos] == 'D' ? '.' : p7_alidisplay_EncodePostProb(esl_random(rng)));
+    ad->ppline[pos] = '\0';
+  }
+
+  free(guidestring);
+  *ret_ad = ad; 
+  return eslOK;
+
+ ERROR:
+  if (guidestring) free(guidestring);
+  if (ad)          p7_alidisplay_Destroy(ad);
+  *ret_ad = NULL;
+  return status;
+}
+
+static void
+utest_Serialize(ESL_RANDOMNESS *rng, int ntrials, int N)
+{
+  char          msg[] = "utest_Serialize failed";
+  P7_ALIDISPLAY *ad   = NULL;
+  P7_ALIDISPLAY *ad2  = NULL;
+  int trial;
+
+  for (trial = 0; trial < ntrials; trial++)
+    {
+      if ( create_faux_alidisplay(rng, N, &ad)   != eslOK) esl_fatal(msg);
+      if ( (ad2 = p7_alidisplay_Clone(ad))       == NULL)  esl_fatal(msg);
+      if ( p7_alidisplay_Compare(ad, ad2)        != eslOK) esl_fatal(msg);
+
+      if ( p7_alidisplay_Serialize(ad)           != eslOK) esl_fatal(msg);
+      if ( p7_alidisplay_Compare(ad, ad2)        != eslOK) esl_fatal(msg);
+
+      if ( p7_alidisplay_Deserialize(ad)         != eslOK) esl_fatal(msg);
+      if ( p7_alidisplay_Compare(ad, ad2)        != eslOK) esl_fatal(msg);
+
+      p7_alidisplay_Destroy(ad);
+      p7_alidisplay_Destroy(ad2);
+    }
+  return;
+}
+
+static void
+utest_Backconvert(int be_verbose, ESL_RANDOMNESS *rng, ESL_ALPHABET *abc, int ntrials, int N)
+{
+  char          msg[] = "utest_Backconvert failed";
+  P7_ALIDISPLAY *ad   = NULL;
+  ESL_SQ        *sq   = NULL;
+  P7_TRACE      *tr   = NULL;
+  int            trial;
+
+  for (trial = 0; trial < ntrials; trial++)
+    {
+      if ( create_faux_alidisplay(rng, N, &ad)                   != eslOK) esl_fatal(msg);
+      if ( p7_alidisplay_Serialize(ad)                           != eslOK) esl_fatal(msg);
+      if (be_verbose && p7_alidisplay_Dump(stdout, ad)           != eslOK) esl_fatal(msg);
+      if ( p7_alidisplay_Backconvert(ad, abc, &sq, &tr)          != eslOK) esl_fatal(msg);
+      if (be_verbose && p7_trace_Dump(stdout, tr, NULL, sq->dsq) != eslOK) esl_fatal(msg);
+      if ( p7_trace_Validate(tr, abc, sq->dsq, NULL)             != eslOK) esl_fatal(msg);
+
+      p7_alidisplay_Destroy(ad);
+      esl_sq_Destroy(sq);
+      p7_trace_Destroy(tr);
+    }
+  return;
+}
+#endif /*p7ALIDISPLAY_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+/*****************************************************************
+ * 6. Test driver.
+ *****************************************************************/
+#ifdef p7ALIDISPLAY_TESTDRIVE
+
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  {"-N",  eslARG_INT,      "10", NULL, NULL, NULL, NULL, NULL, "number of random-sampled alidisplays to test",   0},
+  {"-L",  eslARG_INT,      "20", NULL, NULL, NULL, NULL, NULL, "length of random-sampled alidisplays to test",   0},
+  {"-s",  eslARG_INT,       "0", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",                  0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose commentary/output",                 0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for p7_alidisplay.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go         = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng        = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc        = esl_alphabet_Create(eslAMINO);
+  int             N          = esl_opt_GetInteger(go, "-N");
+  int             L          = esl_opt_GetInteger(go, "-L");
+  int             be_verbose = esl_opt_GetBoolean(go, "-v");
+
+  utest_Serialize  (            rng,      N, L);
+  utest_Backconvert(be_verbose, rng, abc, N, L);
+
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7ALIDISPLAY_TESTDRIVE*/
+/*------------------- end, test driver --------------------------*/
+
+
+/*****************************************************************
+ * 7. Example.
+ *****************************************************************/
+/* 
+   gcc -o p7_alidisplay_example -std=gnu99 -g -Wall -I. -L. -I../easel -L../easel -Dp7ALIDISPLAY_EXAMPLE p7_alidisplay.c -lhmmer -leasel -lm 
+*/
+#ifdef p7ALIDISPLAY_EXAMPLE
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type         default   env  range   toggles   reqs   incomp                             help                                                  docgroup*/
+  { "-h",           eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  NULL,                          "show brief help on version and usage",                         0 },
+ {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example driver for P7_ALIDISPLAY";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_TRACE       *tr1     = NULL;
+  P7_TRACE       *tr2     = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQ         *sq2     = NULL;
+  P7_ALIDISPLAY  *ad      = NULL;
+  P7_PIPELINE    *pli     = NULL;
+  P7_TOPHITS     *hitlist = NULL;
+
+  p7_FLogsumInit();
+
+  /* Read a single HMM from a file */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  /* Read a single sequence from a file */
+  if (esl_sqfile_Open(seqfile, eslSQFILE_UNKNOWN, NULL, &sqfp) != eslOK) p7_Fail("Failed to open sequence file %s", seqfile);
+  sq = esl_sq_CreateDigital(abc);
+  if (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, 0);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 0, p7_UNILOCAL); 
+  om = p7_oprofile_Create(gm->M, abc);
+  p7_oprofile_Convert(gm, om);
+
+  /* Create a pipeline and a top hits list */
+  pli     = p7_pipeline_Create(NULL/*=default*/, hmm->M, 400, FALSE, p7_SEARCH_SEQS);
+  hitlist = p7_tophits_Create();
+
+  /* Run the pipeline */
+  p7_pli_NewSeq(pli, sq);
+  p7_bg_SetLength(bg, sq->n);
+  p7_oprofile_ReconfigLength(om, sq->n);
+  p7_Pipeline(pli, om, bg, sq, hitlist);
+
+  if (hitlist->N == 0) { p7_Fail("target sequence doesn't hit"); }
+
+  if (p7_alidisplay_Backconvert(hitlist->hit[0]->dcl[0].ad, abc, &sq2, &tr2) != eslOK) p7_Fail("backconvert failed");
+  
+  p7_trace_Dump(stdout, tr2, gm, sq2->dsq);
+
+  p7_tophits_Destroy(hitlist);
+  p7_alidisplay_Destroy(ad);
+  esl_sq_Destroy(sq);
+  esl_sq_Destroy(sq2);
+  p7_trace_Destroy(tr2);
+  p7_trace_Destroy(tr1);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7ALIDISPLAY_EXAMPLE*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_bg.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_bg.c
new file mode 100755
index 0000000..7709271
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_bg.c
@@ -0,0 +1,768 @@
+/* P7_BG: the null (background) model
+ * 
+ * Contents:
+ *     1. P7_BG object: allocation, initialization, destruction.
+ *     2. Reading/writing residue backgrounds from files.
+ *     3. Standard iid null model ("null1").
+ *     4. Filter null model. 
+ *     5. Benchmark driver.
+ *     6. Unit tests.
+ *     7. Test driver.
+ *     8. Examples.
+ *     9. Copyright and license.
+ */
+
+#include "p7_config.h"		/* must be included first */
+
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_hmm.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. The P7_BG object: allocation, initialization, destruction.
+ *****************************************************************/
+
+/* Function:  p7_bg_Create()
+ * Synopsis:  Create a <P7_BG> null model object.
+ *
+ * Purpose:   Allocate a <P7_BG> object for digital alphabet <abc>,
+ *            initializes it to appropriate default values, and
+ *            returns a pointer to it.
+ *            
+ *            For protein models, default iid background frequencies
+ *            are set (by <p7_AminoFrequencies()>) to average
+ *            Swiss-Prot residue composition. For DNA, RNA and other
+ *            alphabets, default frequencies are set to a uniform
+ *            distribution.
+ *            
+ *            The model composition <bg->mcomp[]> is not initialized
+ *            here; neither is the filter null model <bg->fhmm>.  To
+ *            use the filter null model, caller will want to
+ *            initialize these fields by calling
+ *            <p7_bg_SetFilter()>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ *
+ * Xref:      STL11/125.
+ */
+P7_BG *
+p7_bg_Create(const ESL_ALPHABET *abc)
+{
+  P7_BG *bg = NULL;
+  int    status;
+
+  ESL_ALLOC(bg, sizeof(P7_BG));
+  bg->f     = NULL;
+  bg->fhmm  = NULL;
+
+  ESL_ALLOC(bg->f,     sizeof(float) * abc->K);
+  if ((bg->fhmm = esl_hmm_Create(abc, 2)) == NULL) goto ERROR;
+
+  if       (abc->type == eslAMINO)
+    {
+      if (p7_AminoFrequencies(bg->f) != eslOK) goto ERROR;
+    }
+  else
+    esl_vec_FSet(bg->f, abc->K, 1. / (float) abc->K);
+
+  bg->p1    = 350./351.;
+  bg->omega = 1./256.;
+  bg->abc   = abc;
+  return bg;
+
+ ERROR:
+  p7_bg_Destroy(bg);
+  return NULL;
+}
+
+
+/* Function:  p7_bg_CreateUniform()
+ * Synopsis:  Creates background model with uniform freqs.
+ *
+ * Purpose:   Creates a background model for alphabet <abc>
+ *            with uniform residue frequencies.
+ */
+P7_BG *
+p7_bg_CreateUniform(const ESL_ALPHABET *abc)
+{
+  P7_BG *bg = NULL;
+  int    status;
+
+  ESL_ALLOC(bg, sizeof(P7_BG));
+  bg->f     = NULL;
+  bg->fhmm  = NULL;
+
+  ESL_ALLOC(bg->f,     sizeof(float) * abc->K);
+  if ((bg->fhmm = esl_hmm_Create(abc, 2)) == NULL) goto ERROR;
+
+  esl_vec_FSet(bg->f, abc->K, 1. / (float) abc->K);
+  bg->p1    = 350./351.;
+  bg->omega = 1./256.;
+  bg->abc = (ESL_ALPHABET *) abc; /* safe: we're just keeping a reference */
+  return bg;
+
+ ERROR:
+  p7_bg_Destroy(bg);
+  return NULL;
+}
+
+
+/* Function:  p7_bg_Clone()
+ * Synopsis:  Create a duplicate of an existing <P7_BG> object.
+ *
+ * Purpose:   Creates a duplicate of the existing <P7_BG> object <bg>.
+ *
+ * Returns:   ptr to the duplicate <P7_BG> object.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_BG *
+p7_bg_Clone(const P7_BG *bg)
+{
+  P7_BG *dup = NULL;
+  int    status;
+
+  ESL_ALLOC(dup, sizeof(P7_BG));
+  dup->f    = NULL;
+  dup->fhmm = NULL;
+  dup->abc  = bg->abc;		/* by reference only */
+
+  ESL_ALLOC(dup->f, sizeof(float) * bg->abc->K);
+  memcpy(dup->f, bg->f, sizeof(float) * bg->abc->K);
+  if ((dup->fhmm = esl_hmm_Clone(bg->fhmm)) == NULL) goto ERROR;
+  
+  dup->p1    = bg->p1;
+  dup->omega = bg->omega;
+  return dup;
+
+ ERROR:
+  p7_bg_Destroy(dup);
+  return NULL;
+}
+
+
+/* Function:  p7_bg_Dump()
+ * Synopsis:  Outputs <P7_BG> object as text, for diagnostics.
+ *
+ * Purpose:   Given a null model <bg>, dump it as text to stream <fp>.
+ */
+int
+p7_bg_Dump(FILE *ofp, const P7_BG *bg)
+{
+  esl_vec_FDump(ofp, bg->f, bg->abc->K, bg->abc->sym);
+  return eslOK;
+}
+
+
+
+/* Function:  p7_bg_Destroy()
+ *
+ * Purpose:   Frees a <P7_BG> object.
+ *
+ * Returns:   (void)
+ *
+ * Xref:      SRE:STL11/125.
+ */
+void
+p7_bg_Destroy(P7_BG *bg)
+{
+  if (bg != NULL) {
+    if (bg->f     != NULL) free(bg->f);
+    if (bg->fhmm  != NULL) esl_hmm_Destroy(bg->fhmm);
+    free(bg);
+  }
+  return;
+}
+
+
+/* Function:  p7_bg_SetLength()
+ * Synopsis:  Set the null model length distribution.
+ *
+ * Purpose:   Sets the geometric null model length 
+ *            distribution in <bg> to a mean of <L> residues.
+ */
+int
+p7_bg_SetLength(P7_BG *bg, int L)
+{
+  bg->p1 = (float) L / (float) (L+1);
+  
+  bg->fhmm->t[0][0] = bg->p1;
+  bg->fhmm->t[0][1] = 1.0f - bg->p1;
+
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * 2. Reading/writing residue backgrounds from files
+ *****************************************************************/
+
+/* Function:  p7_bg_Read()
+ * Synopsis:  Read background frequencies from a file.
+ *
+ * Purpose:   Read new background frequencies from file <bgfile>,
+ *            overwriting the frequencies previously in the 
+ *            <P7_BG> object <bg>.
+ *            
+ *            Note that <bg> is already created by the caller, not
+ *            created here. Also note that <p7_bg_Read()> only reads
+ *            residue background frequencies used for the "null
+ *            model", whereas a <P7_BG> object contains additional
+ *            information for the bias filter and for the biased
+ *            composition correction.
+ *            
+ * Args:      bgfile  - file to read.
+ *            bg      - existing <P7_BG> object provided by the caller.
+ *            errbuf  - OPTIONAL: space for an error message, upon parse errors; or NULL.
+ *
+ * Returns:   <eslOK> on success, and background frequencies in <bg>
+ *            are overwritten.
+ * 
+ *            <eslENOTFOUND> if <bgfile> can't be opened for reading.
+ *            <eslEFORMAT> if parsing of <bgfile> fails for some
+ *            reason.  In both cases, <errbuf> contains a
+ *            user-directed error message upon return, including (if
+ *            relevant) the file name <bgfile> and the line number on
+ *            which an error was detected. <bg> is unmodified.
+ *
+ * Throws:    <eslEMEM> on allocation failure; <bg> is unmodified,
+ *            and <errbuf> is empty.
+ */
+int
+p7_bg_Read(char *bgfile, P7_BG *bg, char *errbuf)
+{
+  ESL_FILEPARSER *efp   = NULL;
+  float          *fq    = NULL;
+  int             n     = 0;
+  char           *tok;
+  int             toklen;
+  int             alphatype;
+  ESL_DSQ         x;
+  int             status;
+
+  if (errbuf) errbuf[0] = '\0';
+
+  status =  esl_fileparser_Open(bgfile, NULL, &efp);
+  if      (status == eslENOTFOUND) ESL_XFAIL(eslENOTFOUND, errbuf, "couldn't open bg file  %s for reading", bgfile);
+  else if (status != eslOK)        goto ERROR;
+
+  esl_fileparser_SetCommentChar(efp, '#');
+
+  /* First token is alphabet type: amino | DNA | RNA */
+  status = esl_fileparser_GetToken(efp, &tok, &toklen);
+  if      (status == eslEOF) ESL_XFAIL(eslEFORMAT, errbuf, "premature end of file [line %d of bgfile %s]", efp->linenumber, bgfile);
+  else if (status != eslOK)  goto ERROR;
+
+  alphatype = esl_abc_EncodeType(tok);
+  if      (alphatype == eslUNKNOWN)    ESL_XFAIL(eslEFORMAT, errbuf, "expected alphabet type but saw \"%s\" [line %d of bgfile %s]", tok, efp->linenumber, bgfile);
+  else if (alphatype != bg->abc->type) ESL_XFAIL(eslEFORMAT, errbuf, "bg file's alphabet is %s; expected %s [line %d, %s]", tok, esl_abc_DecodeType(bg->abc->type), efp->linenumber, bgfile);
+  
+  ESL_ALLOC(fq, sizeof(float) * bg->abc->K);
+  esl_vec_FSet(fq, bg->abc->K, -1.0);
+
+  while ((status = esl_fileparser_NextLine(efp)) == eslOK)
+    {
+      status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen);
+      if      (status == eslEOL) ESL_XFAIL(eslEFORMAT, errbuf, "premature end of file [line %d of bgfile %s", efp->linenumber, bgfile);
+      else if (status != eslOK)  goto ERROR;
+
+      if      (toklen != 1 ||   ! esl_abc_CIsCanonical(bg->abc, *tok))
+	ESL_XFAIL(eslEFORMAT, errbuf, "expected to parse a residue letter; saw %s [line %d of bgfile %s]", tok, efp->linenumber, bgfile);
+
+      x = esl_abc_DigitizeSymbol(bg->abc, *tok);
+      if (fq[x] != -1.0)         ESL_XFAIL(eslEFORMAT, errbuf, "already parsed probability of %c [line %d of bgfile %s]", bg->abc->sym[x], efp->linenumber, bgfile);
+      n++;
+
+      status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen);
+      if      (status == eslEOL) ESL_XFAIL(eslEFORMAT, errbuf, "premature end of file, expected a probability [line %d of bgfile %s]", efp->linenumber, bgfile);
+      else if (status != eslOK)  goto ERROR;
+      if (! esl_str_IsReal(tok)) ESL_XFAIL(eslEFORMAT, errbuf, "expected a probability, saw %s [line %d of bgfile %s]", tok, efp->linenumber, bgfile);
+
+      fq[x] = atof(tok);
+
+      status = esl_fileparser_GetTokenOnLine(efp, &tok, &toklen);
+      if      (status == eslOK)  ESL_XFAIL(eslEFORMAT, errbuf, "extra unexpected data found [line %d of bgfile %s]", efp->linenumber, bgfile);
+      else if (status != eslEOL) goto ERROR;
+    }
+  if (status != eslEOF) goto ERROR;
+
+  if ( n != bg->abc->K) 
+    ESL_XFAIL(eslEFORMAT, errbuf, "expected %d residue frequencies, but found %d in bgfile %s", bg->abc->K, n, bgfile);
+  if ( esl_FCompare(esl_vec_FSum(fq, bg->abc->K), 1.0, 0.001) != eslOK) 
+    ESL_XFAIL(eslEFORMAT, errbuf, "residue frequencies do not sum to 1.0 in bgfile %s", bgfile);
+  
+  /* all checking complete. no more error cases. overwrite bg with the new frequencies */
+  esl_vec_FNorm(fq, bg->abc->K);
+  esl_vec_FCopy(fq, bg->abc->K, bg->f);
+
+  free(fq);
+  esl_fileparser_Close(efp);
+  return eslOK;
+
+ ERROR:
+  if (fq)  free(fq);
+  if (efp) esl_fileparser_Close(efp);
+  return status;
+}
+
+
+/* Function:  p7_bg_Write()
+ * Synopsis:  Write a <P7_BG> object to a stream in its save file format.
+ *
+ * Purpose:   Write the residue frequencies of <P7_BG> object <bg> to
+ *            stream <fp> in save file format. Only the residue
+ *            frequencies are written (there are other parts of a
+ *            <P7_BG> object, having to do with the bias filter and
+ *            biased composition score correction.)
+ *            
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEWRITE> on any write error, such as filling the disk.
+ */
+int
+p7_bg_Write(FILE *fp, P7_BG *bg)
+{
+  int x;
+  if (fprintf(fp, "%s\n", esl_abc_DecodeType(bg->abc->type)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "bg model write failed");
+  for (x = 0; x < bg->abc->K; x++)
+    { if (fprintf(fp, "%c  %.5f\n", bg->abc->sym[x], bg->f[x]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "bg model write failed"); }
+  return eslOK;
+}
+/*---------------- end, i/o of P7_BG object ---------------------*/
+
+
+/*****************************************************************
+ * 3. Standard iid null model ("null1")
+ *****************************************************************/
+
+/* Function:  p7_bg_NullOne()
+ *
+ * Purpose:   Calculate the null1 lod score, for sequence <dsq>
+ *            of length <L> "aligned" to the base null model <bg>. 
+ * 
+ * Note:      Because the residue composition in null1 <bg> is the
+ *            same as the background used to calculate residue
+ *            scores in profiles and null models, all we have to
+ *            do here is score null model transitions.
+ *
+ *            Can accept a NULL for *dsq, in which case the returned
+ *            value will be (float) L * log(bg->p1) + log(1.-bg->p1);
+ */
+int
+p7_bg_NullOne(const P7_BG *bg, const ESL_DSQ *dsq, int L, float *ret_sc)
+{
+  *ret_sc = (float) L * log(bg->p1) + log(1.-bg->p1);
+  return eslOK;
+}
+
+
+
+
+
+/*****************************************************************
+ * 4. Filter null model
+ *****************************************************************/
+
+/* Function:  p7_bg_SetFilter()
+ * Synopsis:  Configure filter HMM with new model composition.
+ *
+ * Purpose:   The "filter HMM" is an experimental filter in the
+ *            acceleration pipeline for avoiding biased composition
+ *            sequences. It has no effect on final scoring, if a
+ *            sequence passes all steps of the pipeline; it is only
+ *            used to eliminate biased sequences from further
+ *            consideration early in the pipeline, before the big guns
+ *            of domain postprocessing are applied.
+ *            
+ *            At least at present, it doesn't actually work as well as
+ *            one would hope.  This will be an area of future work.
+ *            What we really want to do is make a better null model of
+ *            real protein sequences (and their biases), and incorporate
+ *            that model into the flanks (NCJ states) of the profile.
+ *            
+ *            <compo> is the average model residue composition, from
+ *            either the HMM or the copy in a profile or optimized
+ *            profile. <M> is the length of the model in nodes.
+ *            
+ *            The expected length of the filter HMM's generated
+ *            sequence is set to a default (about 400). You need a
+ *            subsequent call to <p7_bg_SetLength()> to set it to the
+ *            target sequence length. In hmmscan, this requires a 
+ *            call after every new model is read and <p7_pli_NewModel()> 
+ *            is called, because <NewModel()> is calling <p7_bg_SetFilter()>
+ *            to copy the new model's composition <compo>. [Failure to
+ *            do this properly was bug #h85, 14 Dec 2010.]
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      SRE:J4/25: generalized to use composition vector, not
+ *                       specifically an HMM. 
+ *                   
+ * Note:      This looks like a two-state HMM, but if you start thinking
+ *            about its length distribution ("oh my god, L0 assumes a
+ *            fixed L=400 expectation, it's all wrong, it's not
+ *            conditional on the target sequence length and length
+ *            modeling's messed up!"), don't panic. It's set up as a
+ *            conditional-on-L model that generates accordint to P(x |
+ *            model, L) P(L); the P(L) term is added in
+ *            p7_bg_FilterScore() below.
+ *            
+ *            Additionally, and not to confuse you further, but the
+ *            t[0][0] transition is dependent on L.  The initial
+ *            setting here is just a dummy. When p7_bg_SetLength()
+ *            sets p1 for the null1 model length distribution, it sets
+ *            t[0][0] to the same thing. This is controlling the
+ *            relative expected balance of background sequence to
+ *            biased sequence, not the overall length distribution.
+ *            
+ *            All of this is ad hoc, and little of it has been
+ *            optimized against data.
+ */
+int
+p7_bg_SetFilter(P7_BG *bg, int M, const float *compo)
+{
+  float L0 = 400.0;		/* mean length in state 0 of filter HMM (normal background) */
+  float L1 = (float) M / 8.0; 	/* mean length in state 1 of filter HMM (biased segment) */
+
+  /* State 0 is the normal iid model. */
+  bg->fhmm->t[0][0] =   L0 / (L0+1.0f);
+  bg->fhmm->t[0][1] = 1.0f / (L0+1.0f);
+  bg->fhmm->t[0][2] = 1.0f;          	/* 1.0 transition to E means we'll set length distribution externally. */
+  esl_vec_FCopy(bg->f, bg->abc->K, bg->fhmm->e[0]);
+
+  /* State 1 is the potentially biased model composition. */
+  bg->fhmm->t[1][0] = 1.0f / (L1+1.0f);
+  bg->fhmm->t[1][1] =   L1 / (L1+1.0f);
+  bg->fhmm->t[1][2] = 1.0f;         	/* 1.0 transition to E means we'll set length distribution externally. */
+  esl_vec_FCopy(compo, bg->abc->K, bg->fhmm->e[1]);
+
+  bg->fhmm->pi[0] = 0.999;
+  bg->fhmm->pi[1] = 0.001;
+
+  esl_hmm_Configure(bg->fhmm, bg->f);
+  return eslOK;
+}
+
+
+/* Function:  p7_bg_FilterScore()
+ * Synopsis:  Calculates the filter null model score.
+ *
+ * Purpose:   Calculates the filter null model <bg> score for sequence
+ *            <dsq> of length <L>, and return it in 
+ *            <*ret_sc>.
+ *            
+ *            The score is calculated as an HMM Forward score using
+ *            the two-state filter null model. It is a log-odds ratio,
+ *            relative to the iid background frequencies, in nats:
+ *            same as main model Forward scores.
+ *
+ *            The filter null model has no length distribution of its
+ *            own; the same geometric length distribution (controlled
+ *            by <bg->p1>) that the null1 model uses is imposed.
+ */
+int
+p7_bg_FilterScore(P7_BG *bg, const ESL_DSQ *dsq, int L, float *ret_sc)
+{
+  ESL_HMX *hmx = esl_hmx_Create(L, bg->fhmm->M); /* optimization target: this can be a 2-row matrix, and it can be stored in <bg>. */
+  float nullsc;		                  	 /* (or it could be passed in as an arg, but for sure it shouldn't be alloc'ed here */
+  
+  esl_hmm_Forward(dsq, L, bg->fhmm, hmx, &nullsc);
+
+  /* impose the length distribution */
+  *ret_sc = nullsc + (float) L * logf(bg->p1) + logf(1.-bg->p1);
+  esl_hmx_Destroy(hmx);
+  return eslOK;
+}
+
+
+
+
+/*****************************************************************
+ * 5. Benchmark driver
+ *****************************************************************/
+#ifdef p7BG_BENCHMARK
+/*
+   gcc -O2 -Wall -msse2 -std=gnu99 -o p7_bg_benchmark -I. -L. -I../easel -L../easel -Dp7BG_BENCHMARK p7_bg.c -lhmmer -leasel -lm
+   ./p7_bg_benchmark <hmmfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "show brief help on version and usage",      0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0",     NULL,      NULL,    NULL, "length of random target seqs",              0 },
+  { "-N",        eslARG_INT,    "100", NULL, "n>0",     NULL,      NULL,    NULL, "number of random target seqs",              0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark timing for calculating null model scores";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             i;
+ 
+  /* Read one HMM from <hmmfile> */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  bg = p7_bg_Create(abc);
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++)
+    p7_bg_SetFilterByHMM(bg, hmm);
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7BG_BENCHMARK*/
+
+
+/*****************************************************************
+ * 6. Unit tests
+ *****************************************************************/
+#ifdef p7BG_TESTDRIVE
+#include "esl_dirichlet.h"
+#include "esl_random.h"
+
+static void
+utest_ReadWrite(ESL_RANDOMNESS *rng)
+{
+  char          msg[]       = "bg Read/Write unit test failed";
+  char          tmpfile[32] = "esltmpXXXXXX";
+  FILE         *fp          = NULL;
+  ESL_ALPHABET *abc         = NULL;   /* random alphabet choice eslRNA..eslDICE */
+  float        *fq          = NULL;
+  P7_BG        *bg          = NULL; 
+
+  if ((abc = esl_alphabet_Create(esl_rnd_Roll(rng, 5) + 1)) == NULL)  esl_fatal(msg);
+  if (( bg = p7_bg_Create(abc))                             == NULL)  esl_fatal(msg);
+  if (( fq = malloc(sizeof(float) * abc->K))                == NULL)  esl_fatal(msg);                 
+  do {
+    if (esl_dirichlet_FSampleUniform(rng, abc->K, fq)      != eslOK) esl_fatal(msg);
+  } while (esl_vec_FMin(fq, abc->K) < 0.001); /* small p's will get rounded off and fail FCompare() */
+  esl_vec_FCopy(fq, abc->K, bg->f);
+
+  if (esl_tmpfile_named(tmpfile, &fp) != eslOK) esl_fatal(msg);
+  if ( p7_bg_Write(fp, bg)            != eslOK) esl_fatal(msg);
+  fclose(fp);
+
+  esl_vec_FSet(bg->f, bg->abc->K, 0.0);
+  if ( p7_bg_Read(tmpfile, bg, NULL)                 != eslOK) esl_fatal(msg);
+  if ( esl_vec_FCompare(fq, bg->f, bg->abc->K, 0.01) != eslOK) esl_fatal(msg);
+
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  free(fq);
+  remove(tmpfile);
+}
+#endif /*p7BG_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 7. Test driver
+ *****************************************************************/
+
+#ifdef p7BG_TESTDRIVE
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  {"-s",  eslARG_INT,       "0", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",                  0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose commentary/output",                 0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for p7_bg";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng         = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  int             be_verbose  = esl_opt_GetBoolean(go, "-v");
+
+  if (be_verbose) printf("p7_bg unit test: rng seed %" PRIu32 "\n", esl_randomness_GetSeed(rng));
+
+  utest_ReadWrite(rng);
+
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* p7BG_TESTDRIVE */
+
+
+/*****************************************************************
+ * 8. Examples
+ *****************************************************************/
+#ifdef p7BG_EXAMPLE
+/*
+   gcc -O2 -Wall -msse2 -std=gnu99 -o p7_bg_example -I. -L. -I../easel -L../easel -Dp7BG_EXAMPLE p7_bg.c -lhmmer -leasel -lm
+   ./p7_bg_example <hmmfile> <seqfile>
+ */ 
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range     toggles      reqs   incomp  help   docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,      NULL,    NULL, "show brief help on version and usage",      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of calculating null model scores";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  int             format  = eslSQFILE_UNKNOWN;
+  ESL_SQ         *sq      = NULL;
+  float           nullsc, filtersc, H;
+  int             status;
+ 
+  /* Read one HMM from <hmmfile> */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  /* Open <seqfile> for reading */
+  status = esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file.");
+  else if (status == eslEFORMAT)   esl_fatal("Format unrecognized.");
+  else if (status != eslOK)        esl_fatal("Open failed, code %d.", status);
+
+  sq = esl_sq_CreateDigital(abc);
+  bg = p7_bg_Create(abc);
+
+  p7_bg_SetFilter(bg, hmm->M, hmm->compo);
+
+  H = esl_vec_FEntropy(bg->f, bg->abc->K);
+  printf("bg iid H = %.4f\n", H);
+
+  H = esl_vec_FEntropy(hmm->compo, bg->abc->K);
+  printf("modelcomp H = %.4f\n", H);
+
+  while ((status = esl_sqio_Read(sqfp, sq)) == eslOK)
+    {
+      p7_bg_SetLength(bg, sq->n);
+
+      p7_bg_NullOne    (bg, sq->dsq, sq->n, &nullsc);
+      p7_bg_FilterScore(bg, sq->dsq, sq->n, &filtersc);
+
+      printf("%-20s %5d %8.5f %8.5f %8.5f\n", sq->name, (int) sq->n, nullsc, filtersc, filtersc-nullsc);
+
+      esl_sq_Reuse(sq);
+    }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s)\n%s\n",
+					   sqfp->filename, sqfp->get_error(sqfp));     
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					   status, sqfp->filename);
+
+  esl_sqfile_Close(sqfp);
+  esl_sq_Destroy(sq);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7BG_EXAMPLE*/
+
+#ifdef p7BG_EXAMPLE2
+#include <stdio.h>
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "hmmer.h"
+
+int 
+main(int argc, char **argv)
+{
+  char         *bgfile     = argv[1];
+  char         *alphabet   = argv[2];
+  ESL_ALPHABET *abc        = esl_alphabet_Create(esl_abc_EncodeType(alphabet));
+  P7_BG        *bg         = p7_bg_Create(abc);
+  char          errbuf[eslERRBUFSIZE];
+  int           status;
+
+  status = p7_bg_Read(bgfile, bg, errbuf);
+  if      (status == eslENOTFOUND) esl_fatal("open failed: %s", errbuf);
+  else if (status == eslEFORMAT)   esl_fatal("parse failed: %s", errbuf);
+  else if (status != eslOK)        esl_fatal("failed to read bg file %s (error %d)\n", bgfile, status);
+  
+  p7_bg_Write(stdout, bg);
+  return 0;
+}
+#endif /*p7BG_EXAMPLE2*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id: p7_bg.c 3751 2011-11-17 22:46:50Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_bg.c $
+ *****************************************************************/
+
+
+  
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_builder.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_builder.c
new file mode 100755
index 0000000..5f86edf
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_builder.c
@@ -0,0 +1,1025 @@
+/* Standardized pipeline for construction of new HMMs.
+ * 
+ * Contents:
+ *    1. P7_BUILDER: allocation, initialization, destruction
+ *    2. Standardized model construction API.
+ *    3. Internal functions.
+ *    4. Copyright and license information
+ */   
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msacluster.h"
+#include "esl_msaweight.h"
+#include "esl_random.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. P7_BUILDER: allocation, initialization, destruction
+ *****************************************************************/
+
+/* Function:  p7_builder_Create()
+ * Synopsis:  Create a default HMM construction configuration.
+ *
+ * Purpose:   Create a construction configuration for building
+ *            HMMs in alphabet <abc>, and return a pointer to it.
+ *            
+ *            An application configuration <go> may optionally be
+ *            provided. If <go> is <NULL>, default parameters are
+ *            used. If <go> is non-<NULL>, it must include appropriate
+ *            settings for all of the following ``standard build options'':
+ *            
+ *            Model construction:   --fast --hand --symfrac --fragthresh
+ *            Relative weighting:   --wgsc --wblosum --wpb --wgiven --wid
+ *            Effective seq #:      --eent --eclust --enone --eset --ere --esigma --eid
+ *            Prior scheme:         --pnone --plaplace
+ *            E-val calibration:    --EmL --EmN --EvL --EvN --EfL --EfN --Eft
+ *            run-to-run variation: --seed
+ *            
+ *            See <hmmbuild.c> or other big users of the build
+ *            pipeline for an example of appropriate <ESL_GETOPTS>
+ *            initializations of these 24 options.
+ */
+P7_BUILDER *
+p7_builder_Create(const ESL_GETOPTS *go, const ESL_ALPHABET *abc)
+{
+  P7_BUILDER *bld = NULL;
+  int         seed;
+  int         status;
+
+
+  ESL_ALLOC(bld, sizeof(P7_BUILDER));
+  bld->prior        = NULL;
+  bld->r            = NULL;
+  bld->S            = NULL;
+  bld->Q            = NULL;
+  bld->eset         = -1.0;	/* -1.0 = unset; must be set if effn_strategy is p7_EFFN_SET */
+  bld->re_target    = -1.0;
+
+  if (go == NULL) 
+    {
+      bld->arch_strategy = p7_ARCH_FAST;
+      bld->wgt_strategy  = p7_WGT_PB;
+      bld->effn_strategy = p7_EFFN_ENTROPY;
+      seed               = 42;
+    }
+  else 
+    {
+      if      (esl_opt_GetBoolean(go, "--fast"))    bld->arch_strategy = p7_ARCH_FAST;
+      else if (esl_opt_GetBoolean(go, "--hand"))    bld->arch_strategy = p7_ARCH_HAND;
+
+      if      (esl_opt_GetBoolean(go, "--wpb"))     bld->wgt_strategy = p7_WGT_PB;
+      else if (esl_opt_GetBoolean(go, "--wgsc"))    bld->wgt_strategy = p7_WGT_GSC;
+      else if (esl_opt_GetBoolean(go, "--wblosum")) bld->wgt_strategy = p7_WGT_BLOSUM;
+      else if (esl_opt_GetBoolean(go, "--wnone"))   bld->wgt_strategy = p7_WGT_NONE;
+      else if (esl_opt_GetBoolean(go, "--wgiven"))  bld->wgt_strategy = p7_WGT_GIVEN;
+
+      if      (esl_opt_GetBoolean(go, "--eent"))    bld->effn_strategy = p7_EFFN_ENTROPY;
+      else if (esl_opt_GetBoolean(go, "--eclust"))  bld->effn_strategy = p7_EFFN_CLUST;
+      else if (esl_opt_GetBoolean(go, "--enone"))   bld->effn_strategy = p7_EFFN_NONE;
+      else if (esl_opt_IsOn      (go, "--eset"))  { bld->effn_strategy = p7_EFFN_SET;      bld->eset = esl_opt_GetReal(go, "--eset"); }
+
+      seed = esl_opt_GetInteger(go, "--seed");
+    }
+
+  bld->max_insert_len = 0;
+
+  /* The default RE target is alphabet dependent. */
+  if (go != NULL &&  esl_opt_IsOn (go, "--ere")) 
+    bld->re_target = esl_opt_GetReal(go, "--ere");
+  else {
+    switch (abc->type) {
+    case eslAMINO:  bld->re_target = p7_ETARGET_AMINO; break;
+    case eslDNA:    bld->re_target = p7_ETARGET_DNA;   break;
+    case eslRNA:    bld->re_target = p7_ETARGET_DNA;   break;
+    default:        bld->re_target = p7_ETARGET_OTHER; break;
+    }
+  }
+
+  bld->symfrac    = (go != NULL) ?  esl_opt_GetReal   (go, "--symfrac")    : 0.5; 
+  bld->fragthresh = (go != NULL) ?  esl_opt_GetReal   (go, "--fragthresh") : 0.5; 
+  bld->wid        = (go != NULL) ?  esl_opt_GetReal   (go, "--wid")        : 0.62;
+  bld->esigma     = (go != NULL) ?  esl_opt_GetReal   (go, "--esigma")     : 45.0;
+  bld->eid        = (go != NULL) ?  esl_opt_GetReal   (go, "--eid")        : 0.62;
+  bld->EmL        = (go != NULL) ?  esl_opt_GetInteger(go, "--EmL")        : 200;
+  bld->EmN        = (go != NULL) ?  esl_opt_GetInteger(go, "--EmN")        : 200;
+  bld->EvL        = (go != NULL) ?  esl_opt_GetInteger(go, "--EvL")        : 200;
+  bld->EvN        = (go != NULL) ?  esl_opt_GetInteger(go, "--EvN")        : 200;
+  bld->EfL        = (go != NULL) ?  esl_opt_GetInteger(go, "--EfL")        : 100;
+  bld->EfN        = (go != NULL) ?  esl_opt_GetInteger(go, "--EfN")        : 200;
+  bld->Eft        = (go != NULL) ?  esl_opt_GetReal   (go, "--Eft")        : 0.04;
+
+  /* Normally we reinitialize the RNG to original seed before calibrating each model.
+   * This eliminates run-to-run variation.
+   * As a special case, seed==0 means choose an arbitrary seed and shut off the
+   * reinitialization; this allows run-to-run variation.
+   */
+
+  bld->r            = esl_randomness_CreateFast(seed);
+  bld->do_reseeding = (seed == 0) ? FALSE : TRUE;
+
+  if      (go && esl_opt_GetBoolean(go, "--pnone") )     bld->prior = NULL;
+  else if (go && esl_opt_GetBoolean(go, "--plaplace") )  bld->prior = p7_prior_CreateLaplace(abc);
+  else
+    {
+      switch (abc->type) {
+      case eslAMINO: bld->prior = p7_prior_CreateAmino();      break;
+      case eslDNA:   bld->prior = p7_prior_CreateNucleic();    break;
+      case eslRNA:   bld->prior = p7_prior_CreateNucleic();    break;
+      default:       bld->prior = p7_prior_CreateLaplace(abc); break;
+      }
+      if (bld->prior == NULL) goto ERROR;
+    }
+
+  bld->abc       = abc;
+  bld->errbuf[0] = '\0';
+
+  bld->popen   = -1;
+  bld->pextend = -1;
+
+  return bld;
+  
+ ERROR:
+  p7_builder_Destroy(bld);
+  return NULL;
+}
+
+
+/* Function:  p7_builder_LoadScoreSystem()
+ * Synopsis:  Load a standard score system for single sequence queries.
+ *
+ * Purpose:   Initialize the builder <bld> to be able to parameterize
+ *            single sequence queries, using the standard (built-in) score
+ *            matrix named <mx>.
+ *            
+ *            Available score matrices <mx> include PAM30, 70, 120, and 240;
+ *            and BLOSUM45, 50, 62, 80, and 90. See <esl_scorematrix.c>.
+ *
+ *            Set the gap-open and gap-extend probabilities to
+ *            <popen>, <pextend>, respectively.
+ *            
+ *            Use background residue frequencies in the null model
+ *            <bg> to convert substitution matrix scores to
+ *            conditional probability parameters.
+ *
+ * Args:      bld      - <P7_BUILDER> to initialize
+ *            matrix   - score matrix file to use
+ *            popen    - gap open probability
+ *            pextend  - gap extend probability
+ *            bg       - null model, containing background frequencies           
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            <eslENOTFOUND> if <mxfile> can't be found or opened, even
+ *            in any of the directories specified by the <env> variable.   
+ *            
+ *            <eslEINVAL> if the score matrix can't be converted into
+ *            conditional probabilities; for example, if it has no valid
+ *            solution for <lambda>.
+ * 
+ *            On either error, <bld->errbuf> contains a useful error message
+ *            for the user.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_builder_LoadScoreSystem(P7_BUILDER *bld, const char *matrix, double popen, double pextend, P7_BG *bg)
+{
+  double  *f = NULL;
+  double   slambda;
+  int      status;
+
+  bld->errbuf[0] = '\0';
+
+  /* If a score system is already set, delete it. */
+  if (bld->S != NULL) esl_scorematrix_Destroy(bld->S);
+  if (bld->Q != NULL) esl_dmatrix_Destroy(bld->Q);
+
+  /* Get the scoring matrix */
+  if ((bld->S  = esl_scorematrix_Create(bld->abc)) == NULL) { status = eslEMEM; goto ERROR; }
+  status =  esl_scorematrix_Set(matrix, bld->S);
+  if      (status == eslENOTFOUND) ESL_XFAIL(status, bld->errbuf, "no matrix named %s is available as a built-in", matrix);
+  else if (status != eslOK)        ESL_XFAIL(status, bld->errbuf, "failed to set score matrix %s as a built-in",   matrix);
+
+  /* A wasteful conversion of the HMMER single-precision background probs to Easel double-prec */
+  ESL_ALLOC(f, sizeof(double) * bg->abc->K);
+  esl_vec_F2D(bg->f, bg->abc->K, f);
+
+  /* Backcalculate joint probability matrix Q, given scores S and background freqs bg->f.  */
+  /* Failures shouldn't happen here: these are standard matrices.  */
+  status = esl_scorematrix_ProbifyGivenBG(bld->S, f, f, &slambda, &(bld->Q));
+  if      (status == eslEINVAL)  ESL_XFAIL(eslEINVAL, bld->errbuf, "built-in score matrix %s has no valid solution for lambda", matrix);
+  else if (status == eslENOHALT) ESL_XFAIL(eslEINVAL, bld->errbuf, "failed to solve score matrix %s for lambda", matrix);
+  else if (status != eslOK)      ESL_XFAIL(eslEINVAL, bld->errbuf, "unexpected error in solving score matrix %s for probability parameters", matrix);
+
+  /* Convert joint probabilities P(ab) to conditionals P(b|a) */
+  esl_scorematrix_JointToConditionalOnQuery(bld->abc, bld->Q);
+
+  bld->popen   = popen;
+  bld->pextend = pextend;
+  free(f);
+  return eslOK;
+
+ ERROR:
+  if (f) free(f);
+  return status;
+}
+
+
+/* Function:  p7_builder_SetScoreSystem()
+ * Synopsis:  Initialize score system for single sequence queries.
+ *
+ * Purpose:   Initialize the builder <bld> to be able to parameterize
+ *            single sequence queries, using a substitution matrix
+ *            from a file.
+ *            
+ *            Read a standard substitution score matrix from file
+ *            <mxfile>. If <mxfile> is <NULL>, default to BLOSUM62
+ *            scores. If <mxfile> is "-", read score matrix from
+ *            <stdin> stream. If <env> is non-<NULL> and <mxfile> is
+ *            not found in the current working directory, look for
+ *            <mxfile> in colon-delimited directory list contained in
+ *            environment variable <env>.
+ *            
+ *            Set the gap-open and gap-extend probabilities to
+ *            <popen>, <pextend>, respectively.
+ *            
+ *            Use background residue frequencies in the null model
+ *            <bg> to convert substitution matrix scores to
+ *            conditional probability parameters.
+ *
+ * Args:      bld      - <P7_BUILDER> to initialize
+ *            mxfile   - score matrix file to use, or NULL for BLOSUM62 default
+ *            env      - env variable containing directory list where <mxfile> may reside
+ *            popen    - gap open probability
+ *            pextend  - gap extend probability
+ *            bg       - null model, containing background frequencies
+ *
+ * Returns:   <eslOK> on success.
+ *            
+ *            <eslENOTFOUND> if <mxfile> can't be found or opened, even
+ *            in any of the directories specified by the <env> variable.   
+ *            
+ *            <eslEINVAL> if the score matrix can't be converted into
+ *            conditional probabilities; for example, if it has no valid
+ *            solution for <lambda>.
+ * 
+ *            On either error, <bld->errbuf> contains a useful error message
+ *            for the user.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_builder_SetScoreSystem(P7_BUILDER *bld, const char *mxfile, const char *env, double popen, double pextend, P7_BG *bg)
+{
+  ESL_FILEPARSER  *efp = NULL;
+  double          *f   = NULL;
+  double           slambda;
+  int              status;
+
+  bld->errbuf[0] = '\0';
+
+  /* If a score system is already set, delete it. */
+  if (bld->S != NULL) esl_scorematrix_Destroy(bld->S);
+  if (bld->Q != NULL) esl_dmatrix_Destroy(bld->Q);
+
+  /* Get the scoring matrix */
+  if ((bld->S  = esl_scorematrix_Create(bld->abc)) == NULL) { status = eslEMEM; goto ERROR; }
+  if (mxfile == NULL) 
+    {
+      if (bld->abc->type == eslAMINO) {
+        if ((status = esl_scorematrix_Set("BLOSUM62", bld->S)) != eslOK) goto ERROR;
+      } else {
+        if ((status = esl_scorematrix_Set("DNA1", bld->S)) != eslOK) goto ERROR;
+      }
+    } 
+  else 
+    {
+      if ((status = esl_fileparser_Open(mxfile, env, &efp))         != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to find or open matrix file %s", mxfile);
+      if ((status = esl_scorematrix_Read(efp, bld->abc, &(bld->S))) != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to read matrix from %s:\n%s",    mxfile, efp->errbuf);
+      esl_fileparser_Close(efp); 
+      efp = NULL;
+    }
+
+  /* A wasteful conversion of the HMMER single-precision background probs to Easel double-prec */
+  ESL_ALLOC(f, sizeof(double) * bg->abc->K);
+  esl_vec_F2D(bg->f, bg->abc->K, f);
+
+  /* Backcalculate joint probability matrix Q, given scores S and background freqs bg->f.  */
+  status = esl_scorematrix_ProbifyGivenBG(bld->S, f, f, &slambda, &(bld->Q));
+  if      (status == eslEINVAL)  ESL_XFAIL(eslEINVAL, bld->errbuf, "input score matrix %s has no valid solution for lambda", mxfile);
+  else if (status == eslENOHALT) ESL_XFAIL(eslEINVAL, bld->errbuf, "failed to solve input score matrix %s for lambda: are you sure it's valid?", mxfile);
+  else if (status != eslOK)      ESL_XFAIL(eslEINVAL, bld->errbuf, "unexpected error in solving input score matrix %s for probability parameters", mxfile);
+
+  /* Convert joint probabilities P(ab) to conditionals P(b|a) */
+  esl_scorematrix_JointToConditionalOnQuery(bld->abc, bld->Q);
+
+  bld->popen   = popen;
+  bld->pextend = pextend;
+  free(f);
+  return eslOK;
+
+ ERROR:
+  if (efp) esl_fileparser_Close(efp);
+  if (f)   free(f);
+  return status;
+}
+
+
+
+
+/* Function:  p7_builder_Destroy()
+ * Synopsis:  Free a <P7_BUILDER>
+ *
+ * Purpose:   Frees a <P7_BUILDER> object.
+ */
+void
+p7_builder_Destroy(P7_BUILDER *bld)
+{
+  if (bld == NULL) return;
+
+  if (bld->prior   != NULL) p7_prior_Destroy(bld->prior);
+  if (bld->r       != NULL) esl_randomness_Destroy(bld->r);
+  if (bld->Q       != NULL) esl_dmatrix_Destroy(bld->Q);
+  if (bld->S       != NULL) esl_scorematrix_Destroy(bld->S);
+
+  free(bld);
+  return;
+}
+/*------------------- end, P7_BUILDER ---------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Standardized model construction API.
+ *****************************************************************/
+
+static int    validate_msa         (P7_BUILDER *bld, ESL_MSA *msa);
+static int    relative_weights     (P7_BUILDER *bld, ESL_MSA *msa);
+static int    build_model          (P7_BUILDER *bld, ESL_MSA *msa, P7_HMM **ret_hmm, P7_TRACE ***opt_tr);
+static int    effective_seqnumber  (P7_BUILDER *bld, const ESL_MSA *msa, P7_HMM *hmm, const P7_BG *bg);
+static int    parameterize         (P7_BUILDER *bld, P7_HMM *hmm);
+static int    annotate             (P7_BUILDER *bld, const ESL_MSA *msa, P7_HMM *hmm);
+static int    calibrate            (P7_BUILDER *bld, P7_HMM *hmm, P7_BG *bg, P7_PROFILE **opt_gm, P7_OPROFILE **opt_om);
+static int    make_post_msa        (P7_BUILDER *bld, const ESL_MSA *premsa, const P7_HMM *hmm, P7_TRACE **tr, ESL_MSA **opt_postmsa);
+
+/* Function:  p7_Builder()
+ * Synopsis:  Build a new HMM from an MSA.
+ *
+ * Purpose:   Take the multiple sequence alignment <msa> and a build configuration <bld>,
+ *            and build a new HMM. 
+ * 
+ *            Effective sequence number determination and calibration steps require
+ *            additionally providing a null model <bg>.
+ *
+ * Args:      bld         - build configuration
+ *            msa         - multiple sequence alignment
+ *            bg          - null model
+ *            opt_hmm     - optRETURN: new HMM
+ *            opt_trarr   - optRETURN: array of faux tracebacks, <0..nseq-1>
+ *            opt_gm      - optRETURN: profile corresponding to <hmm>
+ *            opt_om      - optRETURN: optimized profile corresponding to <gm>
+ *            opt_postmsa - optRETURN: RF-annotated, possibly modified MSA 
+ *
+ * Returns:   <eslOK> on success. The new HMM is optionally returned in
+ *            <*opt_hmm>, along with optional returns of an array of faux tracebacks
+ *            for each sequence in <*opt_trarr>, the annotated MSA used to construct
+ *            the model in <*opt_postmsa>, a configured search profile in 
+ *            <*opt_gm>, and an optimized search profile in <*opt_om>. These are
+ *            all optional returns because the caller may, for example, be interested
+ *            only in an optimized profile, or may only be interested in the HMM.
+ *            
+ *            Returns <eslENORESULT> if no consensus columns were annotated.
+ *            Returns <eslEFORMAT> on MSA format problems, such as a missing RF annotation
+ *            line in hand architecture construction. On any returned error,
+ *            <bld->errbuf> contains an informative error message.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> if relative weights couldn't be calculated from <msa>.
+ *
+ * Xref:      J4/30.
+ */
+int
+p7_Builder(P7_BUILDER *bld, ESL_MSA *msa, P7_BG *bg,
+	   P7_HMM **opt_hmm, P7_TRACE ***opt_trarr, P7_PROFILE **opt_gm, P7_OPROFILE **opt_om,
+	   ESL_MSA **opt_postmsa)
+{
+  int i,j;
+  uint32_t    checksum = 0;	/* checksum calculated for the input MSA. hmmalign --mapali verifies against this. */
+  P7_HMM     *hmm      = NULL;
+  P7_TRACE  **tr       = NULL;
+  P7_TRACE ***tr_ptr   = (opt_trarr != NULL || opt_postmsa != NULL) ? &tr : NULL;
+  int         status;
+  if ((status =  validate_msa         (bld, msa))                       != eslOK) goto ERROR;
+  if ((status =  esl_msa_Checksum     (msa, &checksum))                 != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to calculate checksum"); 
+  if ((status =  relative_weights     (bld, msa))                       != eslOK) goto ERROR;
+  if ((status =  esl_msa_MarkFragments(msa, bld->fragthresh))           != eslOK) goto ERROR;
+  if ((status =  build_model          (bld, msa, &hmm, tr_ptr))         != eslOK) goto ERROR;
+
+  //Ensures that the weighted-average I->I count <=  bld->max_insert_len
+  //(MI currently contains the number of observed insert-starts)
+  if (bld->max_insert_len>0)
+    for (i=1; i<hmm->M; i++ )
+      hmm->t[i][p7H_II] = ESL_MIN(hmm->t[i][p7H_II], bld->max_insert_len*hmm->t[i][p7H_MI]);
+
+  if ((status =  effective_seqnumber  (bld, msa, hmm, bg))              != eslOK) goto ERROR;
+  if ((status =  parameterize         (bld, hmm))                       != eslOK) goto ERROR;
+  if ((status =  annotate             (bld, msa, hmm))                  != eslOK) goto ERROR;
+  if ((status =  calibrate            (bld, hmm, bg, opt_gm, opt_om))   != eslOK) goto ERROR;
+  if ((status =  make_post_msa        (bld, msa, hmm, tr, opt_postmsa)) != eslOK) goto ERROR;
+
+  //force masked positions to background  (it'll be close already, so no relevant impact on weighting)
+  if (hmm->mm != NULL)
+    for (i=1; i<hmm->M; i++ )
+      if (hmm->mm[i] == 'm')
+        for (j=0; j<hmm->abc->K; j++)
+          hmm->mat[i][j] = bg->f[j];
+
+  if ( bld->abc->type == eslDNA ||  bld->abc->type == eslRNA ) {
+	  if (bld->w_len > 0)           hmm->max_length = bld->w_len;
+	  else if (bld->w_beta == 0.0)  hmm->max_length = hmm->M *4;
+	  else if ( (status =  p7_Builder_MaxLength(hmm, bld->w_beta)) != eslOK) goto ERROR;
+  }
+
+  hmm->checksum = checksum;
+  hmm->flags   |= p7H_CHKSUM;
+
+  if (opt_hmm   != NULL) *opt_hmm   = hmm; else p7_hmm_Destroy(hmm);
+  if (opt_trarr != NULL) *opt_trarr = tr;  else p7_trace_DestroyArray(tr, msa->nseq);
+  return eslOK;
+
+ ERROR:
+  p7_hmm_Destroy(hmm);
+  p7_trace_DestroyArray(tr, msa->nseq);
+  if (opt_gm    != NULL) p7_profile_Destroy(*opt_gm);
+  if (opt_om    != NULL) p7_oprofile_Destroy(*opt_om);
+  return status;
+}
+
+
+/* Function:  p7_SingleBuilder()
+ * Synopsis:  Build a new HMM from a single sequence.
+ *
+ * Purpose:   Take the sequence <sq> and a build configuration <bld>, and
+ *            build a new HMM.
+ *            
+ *            The single sequence scoring system in the <bld>
+ *            configuration must have been previously initialized by
+ *            <p7_builder_SetScoreSystem()>.
+ *            
+ * Args:      bld       - build configuration
+ *            sq        - query sequence
+ *            bg        - null model (needed to paramaterize insert emission probs)
+ *            opt_hmm   - optRETURN: new HMM
+ *            opt_gm    - optRETURN: profile corresponding to <hmm>
+ *            opt_om    - optRETURN: optimized profile corresponding to <gm>
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> if <bld> isn't properly configured somehow.
+ */
+int
+p7_SingleBuilder(P7_BUILDER *bld, ESL_SQ *sq, P7_BG *bg, P7_HMM **opt_hmm,
+		 P7_TRACE **opt_tr, P7_PROFILE **opt_gm, P7_OPROFILE **opt_om)
+{
+  P7_HMM   *hmm = NULL;
+  P7_TRACE *tr  = NULL;
+  int       k;
+  int       status;
+  
+  bld->errbuf[0] = '\0';
+  if (! bld->Q) ESL_XEXCEPTION(eslEINVAL, "score system not initialized");
+
+  if ((status = p7_Seqmodel(bld->abc, sq->dsq, sq->n, sq->name, bld->Q, bg->f, bld->popen, bld->pextend, &hmm)) != eslOK) goto ERROR;
+  if ((status = p7_hmm_SetComposition(hmm))                                                                     != eslOK) goto ERROR;
+  if ((status = p7_hmm_SetConsensus(hmm, sq))                                                                   != eslOK) goto ERROR; 
+  if ((status = calibrate(bld, hmm, bg, opt_gm, opt_om))                                                        != eslOK) goto ERROR;
+
+  if ( bld->abc->type == eslDNA ||  bld->abc->type == eslRNA ) {
+    if (bld->w_len > 0)           hmm->max_length = bld->w_len;
+    else if (bld->w_beta == 0.0)  hmm->max_length = hmm->M *4;
+    else if ( (status =  p7_Builder_MaxLength(hmm, bld->w_beta)) != eslOK) goto ERROR;
+  }
+
+
+  /* build a faux trace: relative to core model (B->M_1..M_L->E) */
+  if (opt_tr != NULL) 
+    {
+      if ((tr = p7_trace_Create())                      == NULL)  goto ERROR;
+      if ((status = p7_trace_Append(tr, p7T_B, 0, 0))   != eslOK) goto ERROR; 
+      for (k = 1; k <= sq->n; k++)
+        if ((status = p7_trace_Append(tr, p7T_M, k, k)) != eslOK) goto ERROR;
+      if ((status = p7_trace_Append(tr, p7T_E, 0, 0))   != eslOK) goto ERROR; 
+      tr->M = sq->n;
+      tr->L = sq->n;
+    }
+
+  /* note that <opt_gm> and <opt_om> were already set by calibrate() call above. */
+  if (opt_hmm   != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  if (opt_tr    != NULL) *opt_tr  = tr;
+  return eslOK;
+
+ ERROR:
+  p7_hmm_Destroy(hmm);
+  if (tr        != NULL) p7_trace_Destroy(tr);
+  if (opt_gm    != NULL) p7_profile_Destroy(*opt_gm);
+  if (opt_om    != NULL) p7_oprofile_Destroy(*opt_om);
+  return status;
+}
+
+
+/* Function:  p7_Builder_MaxLength()
+ *
+ * Purpose:  Compute the maximum likely length of an emitted sequence
+ *
+ * Synopsis:   Computes a fairly tight upper bound on domain length, by computing the
+ * probability of the model emitting sequences of all lengths up to some
+ * threshold, based on a dynamic-programming approach.  See TJW 01/14/2010 notes (p1)
+ *
+ * The idea is to find the length such that all but e.g. 1e-7 sequences emitted
+ * by the model are at most that long. The method conceptually fills in a table of
+ * length at most length_bound (usually 20 * model_length, up to at most 100,000),
+ * though in practice, only two columns are used to store values;
+ *
+ * Letting i correspond to the ith state of the model,
+ *         j to a length j of emitted sequence, and
+ *    T[i][P7H_*M]  := transition prob from *_i to M_{i+1}
+ *    T[i][P7H_*I]  := transition prob from *_i to I_i
+ *    T[i][P7H_*D]  := transition prob from *_i to D_{i+1}
+ *
+ *
+ * in general,
+ * M(i,j) = T[i-1][P7H_MM] * M(i-1,j-1) + T[i-1][P7H_DM] * D(i-1,j-1) + T[i-1][P7H_IM] * I(i-1,j-1);
+ * I(i,j) = T[i][P7H_MI] * M(i,j-1) + T[i][P7H_II] * I(i,j-1);
+ * D(i,j) = T[i-1][P7H_MD] * M(i-1,j) + T[i-1][P7H_DD] * D(i-1,j);
+ *
+ * The process of filling in the dp table is done for only the full core model.
+ * We want to minimize memory consumption, so this is handled column-by-column,
+ * storing only 2 columns at a time.
+ *
+ * Initial values must be set.
+ * This is simple:
+ *   M(1,1) = 1;
+ *   I(1,1) = 0;
+ *   D(1,1) = 0;
+ *   D(2,1) = md;
+ * Fill in the remainder of rows
+ *   M(r,1) = I(r,1) = 0;
+ *   D(r,1) = dd * D(r-1,1)
+ *
+ *
+ * Then the next column:
+ *   M(1,2) = D(1,2) = 0;
+ *   I(1,2) = mi * M(1,1);
+ *   I(2,2) = D(2,2) = 0;
+ *   M(2,2) = mm * M(1,1);
+ *   D(3,2) = md * M(2,2);
+ * Fill in the remainder of rows r:
+ *   M(r,2) = dm * M(r-1,1);
+ *   D(r,2) = dd * D(r-1,2);
+ *   I(r,2) = 0;
+ *
+ *
+ *
+ * Then for each column c after that,
+ *   M(1,c) = D(1,c) = 0;
+ *   I(1,c) =  ii * I(1,c-1)
+ * Fill in the remainder of rows r based on the default formulas above
+ * Then:
+ *   M(i,j) = T[i-1][P7H_MM] * M(i-1,j-1) + T[i-1][P7H_DM] * D(i-1,j-1) + T[i-1][P7H_IM] * I(i-1,j-1);
+ *   D(i,j) = T[i-1][P7H_MD] * M(i-1,j) + T[i-1][P7H_DD] * D(i-1,j);
+ *   I(i,j) = T[i][P7H_MI] * M(i,j-1) + T[i][P7H_II] * I(i,j-1);
+ *
+ *
+ * We aim to find the length W s.t. nearly all (e.g. all but 1e-7) of the sequences
+ * emitted by the model are at most W long. Ideally, we could track the probability
+ * of emitting each length from 0 up, and accumulate those probabilities until the
+ * threshold is met. The probability of seeing a sequence of a given length emitted
+ * by the full model is simply the sum of the D[m] and M[m] values (for a model of
+ * length m). (I[m] is a false value - see below)
+ *
+ * I say "ideally", because numeric instability can lead the sum of all lengths - up
+ * to infinity - to be <0.99999 or >1.0 ... so instead we keep track of two things for
+ * each length L:
+ * (1) the sum of D[m] and M[m] prob masses for all lengths up to L  (call this X), and
+ * (2) the amount of the probability mass that belongs to all L-length-emitting states
+ * except the final M/D states.  That's the mass that will end up being spread across
+ * all lengths >L (call this Y).
+ *
+ * If not for numeric instability, X+Y=1, and we'd want to stop when Y <= 1e-7.  Because
+ * X+Y might not == 1, instead stop when Y/(X+Y) <= 1e-7.
+ *
+ * A note for computing X: the final position in the model does not actually include an
+ * I-state, so all of the final M state's probability mass should go to the E state.
+ * The value in I[m][] will suggest that some of that probability has gone to that state,
+ * but this will be ignored when tallying X = M[m]+D[m].
+ *
+ * A note on the calculation of Y: it's not quite as simple as adding up all pre-m
+ * states. For a given length j, the only way a D[i]-state can emit a sequence of length
+ * j is if an M[k] state emitted that sequence, with k<i.  If k<i-1, then other D states
+ * were also involved. The simplest way to account for this is to bleed the part of the
+ * M[i] or D[i] state that gets pushed forward into the next D state. That amount will
+ * end up being accounted for by either that later D state or (for the small part that
+ * bleeds all the way to the mth D state, it'll be added into X via D[m].  In other words:
+ * (1) each M[i] should contribute (1-t_md)M[i] to Y.
+ * (2) each D[i] should contribute (1-t_dd)D[i] to Y.
+ *
+ * If the probability threshold isn't met before reaching length_bound, then MAXL is
+ * simply set to length_bound (usually 20 * model_length).
+ *
+ *
+ * Args:      hmm         - p7_HMM (required for the transition probabilities)
+ *
+ * Returns:   <eslOK> on success. The max length is set in hmm->max_length.
+
+ */
+int
+p7_Builder_MaxLength (P7_HMM *hmm, double emit_thresh)
+{
+  int      col_ptr, prev_col_ptr; // which true column in above 2d-arrays is active
+  int      col;                   // which conceptual column in above 2d-arrays is active (up to table_len)
+  double   p_sum;                 // sum of probabilities for lengths <=L;  X from above
+  double   surv;                  // surviving probability mass at length L; Y from above
+  int      k;                     // active state in model
+  int      i;
+  double **I            = NULL;
+  double **M            = NULL;
+  double **D            = NULL;
+  int      model_len    = hmm->M; // model length
+  int      length_bound = ESL_MAX(model_len, ESL_MIN(20*model_len, 100000)); // cap on # iterations (aka max model length)
+  int      status;
+  
+  if (model_len==1) {
+    hmm->max_length = 1;
+    return eslOK;
+  }
+
+  hmm->max_length = length_bound;  //default, if it never reaches the target surviving density
+
+
+  //    double I[model_len+1][2], M[model_len+1][2], D[model_len+1][2]; //2 columns for each way of ending a subpath
+  ESL_ALLOC(I, (model_len+1) * sizeof(double*)); 
+  ESL_ALLOC(M, (model_len+1) * sizeof(double*)); 
+  ESL_ALLOC(D, (model_len+1) * sizeof(double*)); 
+  for (i = 0; i <= model_len; i++) {
+    I[i] = M[i] = D[i] = NULL; 
+  }
+  for (i=0; i <= model_len; i++) {
+    ESL_ALLOC(I[i], 2 * sizeof(double));
+    ESL_ALLOC(M[i], 2 * sizeof(double));
+    ESL_ALLOC(D[i], 2 * sizeof(double));
+  }
+
+  /*  Compute max length and max prefix lengths*/
+  // special case for filling in 1st column of DP table,  col=1;
+  M[1][0] = 1.0;// 1st match state must emit a character
+  I[1][0] = D[1][0] = M[2][0] = I[2][0] = 0;
+  D[2][0] = hmm->t[1][p7H_MD];  // The 2nd delete state is reached, having emitted only 1 character
+  for (k=3; k<=model_len; k++){
+    M[k][0] = I[k][0] = 0;
+    D[k][0] = hmm->t[k-1][p7H_DD] * D[k-1][0];  // only way to get to the 3rd or greater state with only 1 character
+  }
+
+  //special case for 2nd column
+  M[1][1] = D[1][1] = D[2][1] = I[2][1] = 0;  //No way any of these states can be responsible for the second emitted character.
+  I[1][1] = hmm->t[1][p7H_MI] * M[1][0];  //1st insert state can emit char #2.
+  M[2][1] = hmm->t[1][p7H_MM] * M[1][0] ; //2nd match state can emit char #2.
+  for (k=3; k<=model_len; k++){
+    M[k][1] = hmm->t[k-1][p7H_DM] * D[k-1][0] ; //kth match state would have to follow the k-1th delete state, having emitted only 1 char so far
+    I[k][1] = 0;
+    D[k][1] = hmm->t[k-1][p7H_MD] * M[k-1][1]  +  hmm->t[k-1][p7H_DD] * D[k-1][1]; //in general only by extending a delete.  For k=3, this could be a transition from M=2, with 2 chars.
+  }
+
+  p_sum = M[model_len][0] + M[model_len][1] + D[model_len][0] + D[model_len][1];
+
+  //general case for all remaining columns
+  col_ptr = 0;
+  for (col=3; col<=length_bound; col++) {
+    prev_col_ptr = 1-col_ptr;
+    surv = 0.0;
+    M[1][col_ptr] = D[1][col_ptr] = 0; //M[i][prev_col_ptr] is zero :  no way the first M state could have emitted >=2 chars
+    I[1][col_ptr] =  hmm->t[1][p7H_II] * I[1][prev_col_ptr];  // 1st insert state can emit chars indefinitely
+    surv += I[1][col_ptr];
+
+    for (k=2; k<=model_len; k++){
+      M[k][col_ptr] = hmm->t[k-1][p7H_MM] * M[k-1][prev_col_ptr]  +  hmm->t[k-1][p7H_DM] * D[k-1][prev_col_ptr]  +  hmm->t[k-1][p7H_IM] * I[k-1][prev_col_ptr];
+      I[k][col_ptr] = hmm->t[k][p7H_MI] * M[k][prev_col_ptr]    +  hmm->t[k][p7H_II] * I[k][prev_col_ptr];
+      D[k][col_ptr] = hmm->t[k-1][p7H_MD] * M[k-1][col_ptr]  +  hmm->t[k-1][p7H_DD] * D[k-1][col_ptr];
+
+      if (k<=model_len) {
+        surv +=  I[k][col_ptr] +
+     	           M[k][col_ptr] * ( 1 - hmm->t[k][p7H_MD] ) +  //this much of M[k]'s mass will bleed into D[k+1], and thus be added to surv then
+                 D[k][col_ptr] * ( 1 - hmm->t[k][p7H_DD] )  ; //this much of D[k]'s mass will bleed into D[k+1], and thus be added to surv then
+      }
+    }
+    surv +=    M[model_len][col_ptr] * ( hmm->t[model_len][p7H_MD] )   //the final state doesn't pass on to the next D state
+             + D[model_len][col_ptr] * ( hmm->t[model_len][p7H_DD] )  // the final state doesn't pass on to the next D state
+             - I[model_len][col_ptr] ;  // no I state for final position
+
+    p_sum += M[model_len][col_ptr] + D[model_len][col_ptr];
+    surv /= surv + p_sum;
+
+    if (surv < emit_thresh) {
+      hmm->max_length = col;
+      break;
+    }
+
+    col_ptr = 1-col_ptr; // alternating between 0 and 1
+  }
+
+  for (i=0; i<model_len+1; i++) {
+    free(I[i]);
+    free(M[i]);
+    free(D[i]);
+  }
+  free(I);
+  free(M);
+  free(D);
+
+  if (hmm->max_length > length_bound) return eslERANGE;
+  return eslOK;
+  
+ ERROR:
+  if (I) { for (i = 0; i <= model_len; i++) { if (I[i]) free(I[i]); }  free(I);  }
+  if (D) { for (i = 0; i <= model_len; i++) { if (D[i]) free(D[i]); }  free(D);  }
+  if (M) { for (i = 0; i <= model_len; i++) { if (M[i]) free(M[i]); }  free(M);  }
+  return status;
+}
+
+/*------------- end, model construction API ---------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Internal functions
+ *****************************************************************/
+
+
+/* validate_msa:
+ * SRE, Thu Dec  3 16:10:31 2009 [J5/119; bug #h70 fix]
+ * 
+ * HMMER uses a convention for missing data characters: they
+ * indicate that a sequence is a fragment.  (See
+ * esl_msa_MarkFragments()).
+ *
+ * Because of the way these fragments will be handled in tracebacks,
+ * we reject any alignment that uses missing data characters in any
+ * other way.
+ * 
+ * This validation step costs negligible time.
+ */
+static int
+validate_msa(P7_BUILDER *bld, ESL_MSA *msa)
+{
+  int     idx;
+  int64_t apos;
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      apos = 1;
+      while (  esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]) && apos <= msa->alen) apos++;
+      while (! esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]) && apos <= msa->alen) apos++;
+      while (  esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]) && apos <= msa->alen) apos++;
+      if (apos != msa->alen+1) ESL_FAIL(eslEINVAL, bld->errbuf, "msa %s; sequence %s\nhas missing data chars (~) other than at fragment edges", msa->name, msa->sqname[idx]);
+    }
+  
+  return eslOK;
+}
+
+
+/* set_relative_weights():
+ * Set msa->wgt vector, using user's choice of relative weighting algorithm.
+ */
+static int
+relative_weights(P7_BUILDER *bld, ESL_MSA *msa)
+{
+  int status = eslOK;
+
+  if      (bld->wgt_strategy == p7_WGT_NONE)                    { esl_vec_DSet(msa->wgt, msa->nseq, 1.); }
+  else if (bld->wgt_strategy == p7_WGT_GIVEN)                   ;
+  else if (bld->wgt_strategy == p7_WGT_PB)                      status = esl_msaweight_PB(msa); 
+  else if (bld->wgt_strategy == p7_WGT_GSC)                     status = esl_msaweight_GSC(msa); 
+  else if (bld->wgt_strategy == p7_WGT_BLOSUM)                  status = esl_msaweight_BLOSUM(msa, bld->wid); 
+  else ESL_EXCEPTION(eslEINCONCEIVABLE, "no such weighting strategy");
+
+  if (status != eslOK) ESL_FAIL(status, bld->errbuf, "failed to set relative weights in alignment");
+  return eslOK;
+}
+
+
+/* build_model():
+ * Given <msa>, choose HMM architecture, collect counts;
+ * upon return, <*ret_hmm> is newly allocated and contains
+ * relative-weighted observed counts.
+ * Optionally, caller can request an array of inferred traces for
+ * the <msa> too.
+ */
+static int
+build_model(P7_BUILDER *bld, ESL_MSA *msa, P7_HMM **ret_hmm, P7_TRACE ***opt_tr)
+{
+  int status;
+
+  if      (bld->arch_strategy == p7_ARCH_FAST)
+    {
+      status = p7_Fastmodelmaker( msa, bld->symfrac, bld, ret_hmm, opt_tr);
+      if      (status == eslENORESULT) ESL_XFAIL(status, bld->errbuf, "Alignment %s has no consensus columns w/ > %d%% residues - can't build a model.\n", msa->name != NULL ? msa->name : "", (int) (100 * bld->symfrac));
+      else if (status == eslEMEM)      ESL_XFAIL(status, bld->errbuf, "Memory allocation failure in model construction.\n");
+      else if (status != eslOK)        ESL_XFAIL(status, bld->errbuf, "internal error in model construction.\n");      
+    }
+  else if (bld->arch_strategy == p7_ARCH_HAND)
+    {
+      status = p7_Handmodelmaker( msa, bld, ret_hmm, opt_tr);
+      if      (status == eslENORESULT) ESL_XFAIL(status, bld->errbuf, "Alignment %s has no annotated consensus columns - can't build a model.\n", msa->name != NULL ? msa->name : "");
+      else if (status == eslEFORMAT)   ESL_XFAIL(status, bld->errbuf, "Alignment %s has no reference annotation line\n", msa->name != NULL ? msa->name : "");            
+      else if (status == eslEMEM)      ESL_XFAIL(status, bld->errbuf, "Memory allocation failure in model construction.\n");
+      else if (status != eslOK)        ESL_XFAIL(status, bld->errbuf, "internal error in model construction.\n");
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+
+/* set_effective_seqnumber()
+ *
+ * <hmm> comes in with weighted observed counts. It goes out with
+ * those observed counts rescaled to sum to the "effective sequence
+ * number". 
+ *
+ * <msa> is needed because we may need to see the sequences in order 
+ * to determine effective seq #. (for --eclust)
+ *
+ * <prior> is needed because we may need to parameterize test models
+ * looking for the right relative entropy. (for --eent, the default)
+ */
+static int
+effective_seqnumber(P7_BUILDER *bld, const ESL_MSA *msa, P7_HMM *hmm, const P7_BG *bg)
+{
+  int    status;
+
+  if      (bld->effn_strategy == p7_EFFN_NONE)    hmm->eff_nseq = msa->nseq;
+  else if (bld->effn_strategy == p7_EFFN_SET)     hmm->eff_nseq = bld->eset;
+  else if (bld->effn_strategy == p7_EFFN_CLUST)
+    {
+      int nclust;
+
+      status = esl_msacluster_SingleLinkage(msa, bld->eid, NULL, NULL, &nclust);
+      if      (status == eslEMEM) ESL_XFAIL(status, bld->errbuf, "memory allocation failed");
+      else if (status != eslOK)   ESL_XFAIL(status, bld->errbuf, "single linkage clustering algorithm (at %d%% id) failed", (int)(100 * bld->eid));
+
+      hmm->eff_nseq = (double) nclust;
+    }
+
+  else if (bld->effn_strategy == p7_EFFN_ENTROPY)
+    {
+      double etarget; 
+      double eff_nseq;
+
+      etarget = (bld->esigma - eslCONST_LOG2R * log( 2.0 / ((double) hmm->M * (double) (hmm->M+1)))) / (double) hmm->M; /* xref J5/36. */
+      etarget = ESL_MAX(bld->re_target, etarget);
+
+      status = p7_EntropyWeight(hmm, bg, bld->prior, etarget, &eff_nseq);
+      if      (status == eslEMEM) ESL_XFAIL(status, bld->errbuf, "memory allocation failed");
+      else if (status != eslOK)   ESL_XFAIL(status, bld->errbuf, "internal failure in entropy weighting algorithm");
+      hmm->eff_nseq = eff_nseq;
+    }
+    
+  p7_hmm_Scale(hmm, hmm->eff_nseq / (double) hmm->nseq);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* parameterize()
+ * Converts counts to probability parameters.
+ */
+static int
+parameterize(P7_BUILDER *bld, P7_HMM *hmm)
+{
+  int status;
+
+  if ((status = p7_ParameterEstimation(hmm, bld->prior)) != eslOK) ESL_XFAIL(status, bld->errbuf, "parameter estimation failed");
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+
+/* annotate()
+ * Transfer annotation information from MSA to new HMM.
+ * Also sets model-specific residue composition (hmm->compo).
+ */
+static int
+annotate(P7_BUILDER *bld, const ESL_MSA *msa, P7_HMM *hmm)
+{
+  int status;
+
+  /* Name. */
+  if (msa->name) p7_hmm_SetName(hmm, msa->name);  
+  else ESL_XFAIL(eslEINVAL, bld->errbuf, "Unable to name the HMM.");
+
+  if ((status = p7_hmm_SetAccession  (hmm, msa->acc))           != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to record MSA accession");
+  if ((status = p7_hmm_SetDescription(hmm, msa->desc))          != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to record MSA description");
+  //  if ((status = p7_hmm_AppendComlog(hmm, go->argc, go->argv))   != eslOK) ESL_XFAIL(status, errbuf, "Failed to record command log");
+  if ((status = p7_hmm_SetCtime(hmm))                           != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to record timestamp");
+  if ((status = p7_hmm_SetComposition(hmm))                     != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to determine model composition");
+  if ((status = p7_hmm_SetConsensus(hmm, NULL))                 != eslOK) ESL_XFAIL(status, bld->errbuf, "Failed to set consensus line");
+
+  if (msa->cutset[eslMSA_GA1] && msa->cutset[eslMSA_GA2]) { hmm->cutoff[p7_GA1] = msa->cutoff[eslMSA_GA1]; hmm->cutoff[p7_GA2] = msa->cutoff[eslMSA_GA2]; hmm->flags |= p7H_GA; }
+  if (msa->cutset[eslMSA_TC1] && msa->cutset[eslMSA_TC2]) { hmm->cutoff[p7_TC1] = msa->cutoff[eslMSA_TC1]; hmm->cutoff[p7_TC2] = msa->cutoff[eslMSA_TC2]; hmm->flags |= p7H_TC; }
+  if (msa->cutset[eslMSA_NC1] && msa->cutset[eslMSA_NC2]) { hmm->cutoff[p7_NC1] = msa->cutoff[eslMSA_NC1]; hmm->cutoff[p7_NC2] = msa->cutoff[eslMSA_NC2]; hmm->flags |= p7H_NC; }
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* calibrate()
+ * 
+ * Sets the E value parameters of the model with two short simulations.
+ * A profile and an oprofile are created here. If caller wants to keep either
+ * of them, it can pass non-<NULL> <opt_gm>, <opt_om> pointers.
+ */
+static int
+calibrate(P7_BUILDER *bld, P7_HMM *hmm, P7_BG *bg, P7_PROFILE **opt_gm, P7_OPROFILE **opt_om)
+{
+  int status;
+
+  if (opt_gm != NULL) *opt_gm = NULL;
+  if (opt_om != NULL) *opt_om = NULL;
+
+  if ((status = p7_Calibrate(hmm, bld, &(bld->r), &bg, opt_gm, opt_om)) != eslOK) goto ERROR;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* make_post_msa()
+ * 
+ * Optionally, we can return the alignment we actually built the model
+ * from (including RF annotation on assigned consensus columns, and any
+ * trace doctoring to enforce Plan7 consistency). 
+ */
+static int
+make_post_msa(P7_BUILDER *bld, const ESL_MSA *premsa, const P7_HMM *hmm, P7_TRACE **tr, ESL_MSA **opt_postmsa)
+{
+  ESL_MSA  *postmsa  = NULL;
+  int       optflags = p7_DEFAULT;
+  int       status;
+
+  if (opt_postmsa == NULL) return eslOK;
+
+  /* someday we might want to transfer more info from HMM to postmsa */
+  if ((status = p7_tracealign_MSA(premsa, tr, hmm->M, optflags, &postmsa)) != eslOK) goto ERROR;
+  
+  *opt_postmsa = postmsa;
+  return eslOK;
+  
+ ERROR:
+  if (postmsa != NULL) esl_msa_Destroy(postmsa);
+  return status;
+}
+
+
+
+
+/*---------------- end, internal functions ----------------------*/
+
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: p7_builder.c 4658 2014-05-02 22:05:51Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_builder.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_config.h.in b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_config.h.in
new file mode 100755
index 0000000..868c16d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_config.h.in
@@ -0,0 +1,144 @@
+/* @configure_input@
+ * p7config.h.in -> p7config.h
+ * 
+ * p7config.h is generated from p7config.h.in by the ./configure script.
+ * DO NOT EDIT p7config.h; only edit p7config.h.in.
+ *
+ * Configuration of HMMER, including both system-dependent configuration
+ * (done by ./configure) and hardcoded configuration that someone might
+ * want to alter someday.
+ *
+ * Because this header may configure the behavior of system headers
+ * (for example, LFS support), it must be included before any other
+ * header file.
+ * 
+ * SRE, Mon Jan  1 16:07:28 2007 [Casa de Gatos] [Nirvana, Nevermind]
+ * SVN $Id: p7_config.h.in 4483 2013-06-12 20:20:21Z wheelert $
+ */
+#ifndef P7_CONFIGH_INCLUDED
+#define P7_CONFIGH_INCLUDED
+
+/*****************************************************************
+ * 1. Compile-time constants that control HMMER's computational 
+ *    behavior (memory and processor use), and output formatting.
+ *    It can be edited and configured manually before compilation.
+ *****************************************************************/
+
+/* p7_RAMLIMIT controls the switch from fast full DP to slow
+ * linear-memory divide and conquer. Default devotes 32 MB/thread.
+ */
+#ifndef p7_RAMLIMIT
+#define p7_RAMLIMIT   32
+#endif
+
+/* p7_ALILENGTH controls length of displayed alignment lines.
+ */
+#ifndef p7_ALILENGTH
+#define p7_ALILENGTH       50
+#endif
+
+/*****************************************************************
+ * 2. Compile-time constants that control empirically tuned HMMER
+ *    default parameters. You can edit it, but you ought not to, 
+ *    unless you're trying to improve on our empirical data.
+ *****************************************************************/
+
+/* Relative entropy target defaults:
+ * For proteins, hmmbuild's effective sequence number calculation
+ * aims to achieve a certain relative entropy per match emission.
+ * (= average score per match emission).
+ * These are empirically tuned constants,
+ */
+#define p7_ETARGET_AMINO  0.59 /* bits,  from the work of Steve Johnson. */
+#define p7_ETARGET_DNA    0.45 /* bits,  from the work of Travis Wheeler. */
+#define p7_ETARGET_OTHER  1.0  /* bits */ /* if you define your own alphabet, set this */
+
+
+#define p7_SEQDBENV          "BLASTDB"
+#define p7_HMMDBENV          "PFAMDB"
+
+/*****************************************************************
+ * 3. The next section probably shouldn't be edited at all, unless
+ *    you really know what you're doing. It controls some fundamental
+ *    parameters in HMMER that occasionally get reconfigured in
+ *    experimental versions, or for variants of HMMER that work on
+ *    non-biological alphabets.
+ *****************************************************************/
+
+/* The symbol alphabet is handled by ESL_ALPHABET objects, which
+ * dynamically allocate; but sometimes HMMER uses statically-allocated
+ * space, and it's useful to know a reasonable maximum for
+ * symbol alphabet size.
+ */
+#define p7_MAXABET    20      /* maximum size of alphabet (4 or 20)              */
+#define p7_MAXCODE    29      /* maximum degenerate alphabet size (18 or 29)     */
+
+/* p7_MAX_SC_TXTLEN has to be large enough to represent a score as a
+ * string, including \0 and a sign.
+ */
+#define p7_MAX_SC_TXTLEN   11	      
+
+/* Other stuff.
+ */
+#define p7_MAXDCHLET  20      /* maximum # Dirichlet components in mixture prior */
+
+
+/*****************************************************************
+ * 4. The final section isn't meant to be human editable at all.
+ *    It is configured automatically by the ./configure script. 
+ *****************************************************************/
+
+/* Version info - set once for whole package in configure.ac
+ */
+#undef HMMER_VERSION
+#undef HMMER_DATE
+#undef HMMER_COPYRIGHT
+#undef HMMER_LICENSE
+#undef HMMER_URL
+
+/* Large file support (must precede any header file inclusion.)
+ */
+#undef _FILE_OFFSET_BITS
+#undef _LARGE_FILES
+#undef _LARGEFILE_SOURCE
+
+/* Choice of optimized implementation (one and only one must be set)
+ */
+#undef p7_IMPL_SSE
+#undef p7_IMPL_VMX
+#undef p7_IMPL_DUMMY
+
+
+/* System headers
+ */
+#undef HAVE_NETINET_IN_H        /* On FreeBSD, you need netinet/in.h for struct sockaddr_in */
+#undef HAVE_SYS_PARAM_H         /* On OpenBSD, sys/sysctl.h needs sys/param.h */
+#undef HAVE_SYS_SYSCTL_H
+
+/* Optional parallel implementations
+ */
+#undef HAVE_SSE2
+#undef HAVE_MPI
+#undef HMMER_PVM
+#undef HMMER_THREADS
+#undef HAVE_PTHREAD_ATTR_SETSCOPE
+#undef HAVE_PTHREAD_SETCONCURRENCY
+
+/* Optional processor specific support
+ */
+#undef HAVE_FLUSH_ZERO_MODE
+
+/* Debugging hooks
+ */
+#undef p7_DEBUGGING
+
+#endif /*P7_CONFIGH_INCLUDED*/
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_domaindef.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_domaindef.c
new file mode 100755
index 0000000..a1f04ce
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_domaindef.c
@@ -0,0 +1,1259 @@
+/* Definition of multidomain structure of a target sequence, and
+ * rescoring as a sum of individual domains, with null2 correction.
+ * 
+ * Contents:
+ *    1. The P7_DOMAINDEF object: allocation, reuse, destruction
+ *    2. Routines inferring domain structure of a target sequence
+ *    3. Internal routines 
+ *    
+ * Exegesis:
+ * 
+ * The key function here is <p7_domaindef_ByPosteriorHeuristics()>.
+ * Everything else is support structure. 
+ * 
+ * When you call <p7_domaindef_ByPosteriorHeuristics()>, you have a
+ * per-sequence hit that's judged significant, and you've calculated
+ * Forward/Backward score matrices for the complete sequence.  Thus,
+ * the input data are the model <gm>, the sequence <sq>, and filled-in
+ * forward and backward matrices <fwd>, <bck>.
+ * 
+ * The function then chews over this data, using posterior
+ * probabilities and heuristics to define, score, and obtain
+ * display-ready alignments for individual domains. When it's done,
+ * your <fwd> and <bck> matrices have been effectively destroyed (they
+ * get reused for individual domain alignment calculations), and
+ * <ddef> contains all the per-domain results you need. It returns to
+ * you the number of domains it's defined (in <ret_ndom>), and the
+ * total per-sequence score derived by a sum of individual domain
+ * scores (in <ret_sc>).
+ * 
+ * The <P7_DOMAINDEF> structure is a reusable container that manages
+ * all the necessary working memory and heuristic thresholds.
+ *   
+ * SRE, Thu Jan 24 09:28:01 2008 [Janelia]
+ * SVN $Id: p7_domaindef.c 4694 2014-07-01 02:35:31Z wheelert $
+ */
+#include "p7_config.h"
+
+#include <math.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_random.h"
+#include "esl_sq.h"
+#include "esl_vectorops.h"
+#include "esl_sse.h"
+
+#include "hmmer.h"
+
+static int is_multidomain_region  (P7_DOMAINDEF *ddef, int i, int j);
+static int region_trace_ensemble  (P7_DOMAINDEF *ddef, const P7_OPROFILE *om, const ESL_DSQ *dsq, int ireg, int jreg, const P7_OMX *fwd, P7_OMX *wrk, int *ret_nc);
+static int rescore_isolated_domain(P7_DOMAINDEF *ddef, P7_OPROFILE *om, const ESL_SQ *sq, P7_OMX *ox1, P7_OMX *ox2,
+				   int i, int j, int null2_is_done, P7_BG *bg, int long_target, P7_BG *bg_tmp, float *scores_arr, float *fwd_emissions_arr);
+
+
+/*****************************************************************
+ * 1. The P7_DOMAINDEF object: allocation, reuse, destruction
+ *****************************************************************/
+
+/* Function:  p7_domaindef_Create()
+ * Synopsis:  Creates a new <P7_DOMAINDEF> object.
+ * Incept:    SRE, Fri Jan 25 13:21:31 2008 [Janelia]
+ *
+ * Purpose:   Creates a new <P7_DOMAINDEF> object, with <r> registered
+ *            as its random number generator, using default settings
+ *            for all thresholds.
+ *
+ * Returns:   a pointer to the new <P7_DOMAINDEF> object.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_DOMAINDEF *
+p7_domaindef_Create(ESL_RANDOMNESS *r)
+{
+  P7_DOMAINDEF *ddef   = NULL;
+  int           Lalloc = 512;	/* this initial alloc doesn't matter much; space is realloced as needed */
+  int           nalloc = 32;
+  int           status;
+
+  /* level 1 alloc */
+  ESL_ALLOC(ddef, sizeof(P7_DOMAINDEF));
+  ddef->mocc = ddef->btot = ddef->etot = NULL;
+  ddef->n2sc = NULL;
+  ddef->sp   = NULL;
+  ddef->tr   = NULL;
+  ddef->dcl  = NULL;
+
+  /* level 2 alloc: posterior prob arrays */
+  ESL_ALLOC(ddef->mocc, sizeof(float) * (Lalloc+1));
+  ESL_ALLOC(ddef->btot, sizeof(float) * (Lalloc+1));
+  ESL_ALLOC(ddef->etot, sizeof(float) * (Lalloc+1));
+  ESL_ALLOC(ddef->n2sc, sizeof(float) * (Lalloc+1));
+  ddef->mocc[0] = ddef->etot[0] = ddef->btot[0] = 0.;
+  ddef->n2sc[0] = 0.;
+  ddef->Lalloc  = Lalloc;
+  ddef->L       = 0;
+
+  /* level 2 alloc: results storage */
+  ESL_ALLOC(ddef->dcl, sizeof(P7_DOMAIN) * nalloc);
+  ddef->nalloc = nalloc;
+  ddef->ndom   = 0;
+
+  ddef->nexpected  = 0.0;
+  ddef->nregions   = 0;
+  ddef->nclustered = 0;
+  ddef->noverlaps  = 0;
+  ddef->nenvelopes = 0;
+
+  /* default thresholds */
+  ddef->rt1           = 0.25;
+  ddef->rt2           = 0.10;
+  ddef->rt3           = 0.20;
+  ddef->nsamples      = 200;
+  ddef->min_overlap   = 0.8;
+  ddef->of_smaller    = TRUE;
+  ddef->max_diagdiff  = 4;
+  ddef->min_posterior = 0.25;
+  ddef->min_endpointp = 0.02;
+
+  /* allocate reusable, growable objects that domain def reuses for each seq */
+  ddef->sp  = p7_spensemble_Create(1024, 64, 32); /* init allocs = # sampled pairs; max endpoint range; # of domains */
+  ddef->tr  = p7_trace_CreateWithPP();
+  ddef->gtr = p7_trace_Create();
+
+  /* keep a copy of ptr to the RNG */
+  ddef->r            = r;  
+  ddef->do_reseeding = TRUE;
+  return ddef;
+  
+ ERROR:
+  p7_domaindef_Destroy(ddef);
+  return NULL;
+}
+
+
+/* p7_domaindef_GrowTo()
+ * Synopsis:  Reallocates a <P7_DOMAINDEF> for new seq length <L>
+ * Incept:    SRE, Fri Jan 25 13:27:24 2008 [Janelia]
+ *
+ * Purpose:   Reallocates a <P7_DOMAINDEF> object <ddef> so that
+ *            it can hold a sequence of up to <L> residues. 
+ *
+ *            (This might be a no-op, if <ddef> is already large
+ *            enough.)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure. In this case, the
+ *            data in <ddef> are unaffected.
+ */
+int
+p7_domaindef_GrowTo(P7_DOMAINDEF *ddef, int L)
+{
+  void *p;
+  int   status;
+
+  if (L <= ddef->Lalloc) return eslOK;
+
+  ESL_RALLOC(ddef->mocc, p, sizeof(float) * (L+1));
+  ESL_RALLOC(ddef->btot, p, sizeof(float) * (L+1));
+  ESL_RALLOC(ddef->etot, p, sizeof(float) * (L+1));
+  ESL_RALLOC(ddef->n2sc, p, sizeof(float) * (L+1));
+  ddef->Lalloc = L;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_domaindef_Reuse()
+ * Synopsis:  Prepare to reuse a <P7_DOMAINDEF> on a new sequence.
+ * Incept:    SRE, Fri Jan 25 13:48:36 2008 [Janelia]
+ *
+ * Purpose:   Prepare a <P7_DOMAINDEF> object <ddef> to be reused on
+ *            a new sequence, reusing as much memory as possible.
+ *            
+ * Note:      Because of the way we handle alidisplays, handing them off to
+ *            the caller, we don't reuse their memory; any unused
+ *            alidisplays are destroyed. It's not really possible to
+ *            reuse alidisplay memory. We need alidisplays to persist
+ *            until all sequences have been processed and we're
+ *            writing our final output to the user.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_domaindef_Reuse(P7_DOMAINDEF *ddef)
+{
+  int status;
+  int d;
+
+  /* If ddef->dcl is NULL, we turned the domain list over to a P7_HIT
+   * for permanent storage, and we need to allocate a new one;
+   * else, reuse the one we've got.
+   */
+  if (ddef->dcl == NULL) 
+    ESL_ALLOC(ddef->dcl, sizeof(P7_DOMAIN) * ddef->nalloc);
+  else
+    {
+      for (d = 0; d < ddef->ndom; d++) {
+	p7_alidisplay_Destroy(ddef->dcl[d].ad); ddef->dcl[d].ad             = NULL;
+	free(ddef->dcl[d].scores_per_pos);      ddef->dcl[d].scores_per_pos = NULL;
+      }
+      
+    }
+  ddef->ndom = 0;
+  ddef->L    = 0;
+
+  ddef->nexpected  = 0.0;
+  ddef->nregions   = 0;
+  ddef->nclustered = 0;
+  ddef->noverlaps  = 0;
+  ddef->nenvelopes = 0;
+
+  p7_spensemble_Reuse(ddef->sp);
+  p7_trace_Reuse(ddef->tr);	/* probable overkill; should already have been called */
+  p7_trace_Reuse(ddef->gtr);	/* likewise */
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_domaindef_DumpPosteriors()
+ * Synopsis:  Output posteriors that define domain structure to a stream.
+ * Incept:    SRE, Fri Feb 29 08:32:14 2008 [Janelia]
+ *
+ * Purpose:   Output the vectors from <ddef> that are used to
+ *            define domain structure to a stream <ofp>, in xmgrace format.
+ *            
+ *            There are four vectors. The first set is
+ *            <mocc[1..i..L]>, the probability that residue <i> is
+ *            emitted by the core model (is in a domain). The second
+ *            set is <btot[1..i..L]>, the cumulative expected number
+ *            of times that a domain uses a B state (starts) at or
+ *            before position <i>. The third set is <etot[1..i..L]>,
+ *            the cumulative expected number of times that a domain
+ *            uses an E state (ends) at or before position <i>. The
+ *            fourth set is <n2sc[1..i..L]>, the score of residue i
+ *            under the ad hoc null2 model; this is a measure of local
+ *            biased composition.
+ *            
+ *            These three fields will only be available after a call
+ *            to domain definition by
+ *            <p7_domaindef_ByPosteriorHeuristics()>.
+ *
+ * Returns:   <eslOK> on success
+ *            
+ * Xref:      J2/126
+ */
+int
+p7_domaindef_DumpPosteriors(FILE *ofp, P7_DOMAINDEF *ddef)
+{
+  int i;
+
+  for (i = 1; i <= ddef->L; i++)
+    fprintf(ofp, "%d %f\n", i, ddef->mocc[i]);
+  fprintf(ofp, "&\n");
+
+  for (i = 1; i <= ddef->L; i++)
+    fprintf(ofp, "%d %f\n", i, ddef->btot[i]);
+  fprintf(ofp, "&\n");
+
+  for (i = 1; i <= ddef->L; i++)
+    fprintf(ofp, "%d %f\n", i, ddef->etot[i]);
+  fprintf(ofp, "&\n");
+
+  for (i = 1; i <= ddef->L; i++)
+    fprintf(ofp, "%d %f\n", i, ddef->n2sc[i]);
+  fprintf(ofp, "&\n");
+
+  return eslOK;
+}
+
+
+
+/* Function:  p7_domaindef_Destroy()
+ * Synopsis:  Destroys a <P7_DOMAINDEF>.
+ * Incept:    SRE, Fri Jan 25 13:52:46 2008 [Janelia]
+ *
+ * Purpose:   Destroys a <P7_DOMAINDEF>.
+ */
+void
+p7_domaindef_Destroy(P7_DOMAINDEF *ddef)
+{
+  int d;
+  if (ddef == NULL) return;
+
+  if (ddef->mocc != NULL) free(ddef->mocc);
+  if (ddef->btot != NULL) free(ddef->btot);
+  if (ddef->etot != NULL) free(ddef->etot);
+  if (ddef->n2sc != NULL) free(ddef->n2sc);
+
+  if (ddef->dcl  != NULL) {
+    for (d = 0; d < ddef->ndom; d++) {
+      if (ddef->dcl[d].scores_per_pos) free(ddef->dcl[d].scores_per_pos);
+      p7_alidisplay_Destroy(ddef->dcl[d].ad);
+    }
+    free(ddef->dcl);
+  }
+
+  p7_spensemble_Destroy(ddef->sp);
+  p7_trace_Destroy(ddef->tr);
+  p7_trace_Destroy(ddef->gtr);
+  free(ddef);
+  return;
+}
+
+/*****************************************************************
+ * 2. Routines inferring domain structure of a target sequence
+ *****************************************************************/
+
+#if 0
+/* Function:  p7_domaindef_ByViterbi()
+ * Synopsis:  Define domains in a sequence by maximum likelihood.
+ * Incept:    SRE, Fri Jan 25 15:10:21 2008 [Janelia]
+ *
+ * Purpose:   Use a Viterbi (maximum likelihood) parse to determine
+ *            the domain structure of sequence <sq> aligned to 
+ *            model <gm>. Caller provides a filled Viterbi matrix
+ *            in <gx1>, and a second matrix of at least the same
+ *            size for scratch space in <gx2>.
+ *            
+ *            Upon return, <ddef> contains definitions of all the
+ *            domains, bounds defined by Viterbi parse, individually
+ *            scored by null2-corrected Forward, and aligned by
+ *            optimal posterior accuracy.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_domaindef_ByViterbi(P7_PROFILE *gm, const ESL_SQ *sq, P7_GMX *gx1, P7_GMX *gx2, P7_DOMAINDEF *ddef) 
+{
+  int            d;
+  int            saveL     = gm->L;    /* need to be able to restore original <gm> config */
+  int            save_mode = gm->mode;
+
+  p7_domaindef_GrowTo(ddef, sq->n);
+  p7_GTrace  (sq->dsq, sq->n, gm, gx1, ddef->gtr);
+  p7_trace_Index(ddef->gtr);
+  
+  p7_ReconfigUnihit(gm, 0);	  /* process each domain in unihit L=0 mode */
+
+  for (d = 0; d < ddef->gtr->ndom; d++)
+    rescore_isolated_domain(ddef, gm, sq, gx1, gx2, ddef->gtr->sqfrom[d], ddef->gtr->sqto[d], FALSE, NULL, FALSE, NULL, NULL, NULL);
+
+  /* Restore original model configuration, including length */
+  if (p7_IsMulti(save_mode))  p7_ReconfigMultihit(gm, saveL); 
+  else                        p7_ReconfigUnihit(  gm, saveL); 
+  return eslOK;
+}
+#endif
+
+
+/* Function:  p7_domaindef_ByPosteriorHeuristics()
+ * Synopsis:  Define domains in a sequence using posterior probs.
+ * Incept:    SRE, Sat Feb 23 08:17:44 2008 [Janelia]
+ *
+ * Purpose:   Given a sequence <sq> and model <om> for which we have
+ *            already calculated a Forward and Backward parsing
+ *            matrices <oxf> and <oxb>; use posterior probability
+ *            heuristics to determine an annotated domain structure;
+ *            and for each domain found, score it (with null2
+ *            calculations) and obtain an optimal accuracy alignment,
+ *            using <fwd> and <bck> matrices as workspace for the
+ *            necessary full-matrix DP calculations. Caller provides a
+ *            new or reused <ddef> object to hold these results.
+ *             A <bg> is provided for (possible) use
+ *            in null3 score correction (used in nhmmer), and a boolean
+ *            <long_target> argument is provided to allow nhmmer-
+ *            specific modifications to the behavior of this function
+ *            (TRUE -> from nhmmer).
+ *            
+ *            Upon return, <ddef> contains the definitions of all the
+ *            domains: their bounds, their null-corrected Forward
+ *            scores, and their optimal posterior accuracy alignments.
+ *            
+ * Returns:   <eslOK> on success.           
+ *            
+ *            <eslERANGE> on numeric overflow in posterior
+ *            decoding. This should not be possible for multihit
+ *            models.
+ */
+int
+p7_domaindef_ByPosteriorHeuristics(const ESL_SQ *sq, P7_OPROFILE *om, 
+				   P7_OMX *oxf, P7_OMX *oxb, P7_OMX *fwd, P7_OMX *bck, 
+				   P7_DOMAINDEF *ddef, P7_BG *bg, int long_target,
+				   P7_BG *bg_tmp, float *scores_arr, float *fwd_emissions_arr
+)
+{
+  int i, j;
+  int triggered;
+  int d;
+  int i2,j2;
+  int last_j2;
+  int nc;
+  int saveL     = om->L;	/* Save the length config of <om>; will restore upon return */
+  int save_mode = om->mode;	/* Likewise for the mode. */
+  int status;
+
+  if ((status = p7_domaindef_GrowTo(ddef, sq->n))      != eslOK) return status;  /* ddef's btot,etot,mocc now ready for seq of length n */
+  if ((status = p7_DomainDecoding(om, oxf, oxb, ddef)) != eslOK) return status;  /* ddef->{btot,etot,mocc} now made.                    */
+
+  esl_vec_FSet(ddef->n2sc, sq->n+1, 0.0);          /* ddef->n2sc null2 scores are initialized                        */
+  ddef->nexpected = ddef->btot[sq->n];             /* posterior expectation for # of domains (same as etot[sq->n])   */
+
+  p7_oprofile_ReconfigUnihit(om, saveL);	   /* process each domain in unihit mode, regardless of om->mode     */
+  i     = -1;
+  triggered = FALSE;
+
+  for (j = 1; j <= sq->n; j++)
+  {
+
+    if (! triggered)
+    {			/* xref J2/101 for what the logic below is: */
+      if       (ddef->mocc[j] - (ddef->btot[j] - ddef->btot[j-1]) <  ddef->rt2) i = j;
+      else if  (i == -1)                                                        i = j;
+      if       (ddef->mocc[j]                                     >= ddef->rt1) triggered = TRUE;
+    }
+    else if (ddef->mocc[j] - (ddef->etot[j] - ddef->etot[j-1])  <  ddef->rt2)
+    {
+        /* We have a region i..j to evaluate. */
+        p7_omx_GrowTo(fwd, om->M, j-i+1, j-i+1);
+        p7_omx_GrowTo(bck, om->M, j-i+1, j-i+1);
+        ddef->nregions++;
+        if (is_multidomain_region(ddef, i, j))
+        {
+            /* This region appears to contain more than one domain, so we have to
+             * resolve it by cluster analysis of posterior trace samples, to define
+             * one or more domain envelopes.
+             */
+            ddef->nclustered++;
+
+            /* Resolve the region into domains by stochastic trace
+             * clustering; assign position-specific null2 model by
+             * stochastic trace clustering; there is redundancy
+             * here; we will consolidate later if null2 strategy
+             * works
+             */
+            p7_oprofile_ReconfigMultihit(om, saveL);
+            p7_Forward(sq->dsq+i-1, j-i+1, om, fwd, NULL);
+
+            region_trace_ensemble(ddef, om, sq->dsq, i, j, fwd, bck, &nc);
+            p7_oprofile_ReconfigUnihit(om, saveL);
+            /* ddef->n2sc is now set on i..j by the traceback-dependent method */
+
+            last_j2 = 0;
+            for (d = 0; d < nc; d++) {
+                  p7_spensemble_GetClusterCoords(ddef->sp, d, &i2, &j2, NULL, NULL, NULL);
+                  if (i2 <= last_j2) ddef->noverlaps++;
+
+                  /* Note that k..m coords on model are available, but
+                     * we're currently ignoring them.  This leads to a
+                     * rare clustering bug that we eventually need to fix
+                     * properly [xref J3/32]: two different regions in one
+                     * profile HMM might have hit same seq domain, and
+                     * when we now go to calculate an OA trace, nothing
+                     * constrains us to find the two different alignments
+                     * to the HMM; in fact, because OA is optimal, we'll
+                     * find one and the *same* alignment, leading to an
+                     * apparent duplicate alignment in the output.
+                     *
+                     * Registered as #h74, Dec 2009, after EBI finds and
+                     * reports it.  #h74 is worked around in p7_tophits.c
+                     * by hiding all but one envelope with an identical
+                     * alignment, in the rare event that this
+                     * happens. [xref J5/130].
+                  */
+                  ddef->nenvelopes++;
+
+                  /*the !long_target argument will cause the function to recompute null2
+                   * scores if this is part of a long_target (nhmmer) pipeline */
+                  if (rescore_isolated_domain(ddef, om, sq, fwd, bck, i2, j2, TRUE, bg, long_target, bg_tmp, scores_arr, fwd_emissions_arr) == eslOK)
+                       last_j2 = j2;
+            }
+            p7_spensemble_Reuse(ddef->sp);
+            p7_trace_Reuse(ddef->tr);
+        }
+        else
+        {
+            /* The region looks simple, single domain; convert the region to an envelope. */
+            ddef->nenvelopes++;
+            rescore_isolated_domain(ddef, om, sq, fwd, bck, i, j, FALSE, bg, long_target, bg_tmp, scores_arr, fwd_emissions_arr);
+        }
+        i     = -1;
+        triggered = FALSE;
+    }
+  }
+
+
+  /* Restore model to uni/multihit mode, and to its original length model */
+  if (p7_IsMulti(save_mode)) p7_oprofile_ReconfigMultihit(om, saveL); 
+  else                       p7_oprofile_ReconfigUnihit  (om, saveL); 
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * 3. Internal routines 
+ *****************************************************************/
+
+
+/* is_multidomain_region()
+ * SRE, Fri Feb  8 11:35:04 2008 [Janelia]
+ *
+ * This defines the trigger for when we need to hand a "region" off to
+ * a deeper analysis (using stochastic tracebacks and clustering)
+ * because there's reason to suspect it may encompass two or more
+ * domains. 
+ * 
+ * The criterion is to find the split point z at which the expected
+ * number of E occurrences preceding B occurrences is maximized, and
+ * if that number is greater than the heuristic threshold <ddef->rt3>,
+ * then return TRUE. In other words, we're checking to see if there's
+ * any point in the region at which it looks like an E was followed by
+ * a B, as expected for a multidomain interpretation of the region.
+ * 
+ * More precisely: return TRUE if  \max_z [ \min (B(z), E(z)) ]  >= rt3
+ * where
+ *   E(z) = expected number of E states occurring in region before z is emitted
+ *        = \sum_{y=i}^{z} eocc[i]  =  etot[z] - etot[i-1]
+ *   B(z) = expected number of B states occurring in region after z is emitted
+ *        = \sum_{y=z}^{j} bocc[i]  =  btot[j] - btot[z-1]               
+ *        
+ *        
+ * Because this relies on the <ddef->etot> and <ddef->btot> arrays,
+ * <calculate_domain_posteriors()> needs to have been called first.
+ *
+ * Xref:    J2/101.  
+ */
+static int
+is_multidomain_region(P7_DOMAINDEF *ddef, int i, int j)
+{
+  int   z;
+  float max;
+  float expected_n;
+
+  max = -1.0;
+  for (z = i; z <= j; z++)
+    {
+      expected_n = ESL_MIN( (ddef->etot[z] - ddef->etot[i-1]), (ddef->btot[j] - ddef->btot[z-1]));
+      max        = ESL_MAX(max, expected_n);
+    }
+
+  return ( (max >= ddef->rt3) ? TRUE : FALSE);
+}
+
+
+/* region_trace_ensemble()
+ * SRE, Fri Feb  8 11:49:44 2008 [Janelia]
+ *
+ * Here, we've decided that region <ireg>..<jreg> in sequence <dsq> might be
+ * composed of more than one domain, and we're going to use clustering
+ * of a posterior ensemble of stochastic tracebacks to sort it out.
+ * 
+ * Caller provides a filled Forward matrix in <fwd> for the sequence
+ * region <dsq+ireg-1>, length <jreg-ireg+1>, for the model <om>
+ * configured in multihit mode with its target length distribution
+ * set to the total length of <dsq>: i.e., the same model
+ * configuration used to score the complete sequence (if it weren't
+ * multihit, we wouldn't be worried about multiple domains).
+ * 
+ * Caller also provides a DP matrix in <wrk> containing at least one
+ * row, for use as temporary workspace. (This will typically be the
+ * caller's Backwards matrix, which we haven't yet used at this point
+ * in the processing pipeline.)
+ * 
+ * Caller provides <ddef>, which defines heuristic parameters that
+ * control the clustering, and provides working space for the
+ * calculation and the answers. The <ddef->sp> object must have been
+ * reused (i.e., it needs to be fresh; we're going to use it here);
+ * the caller needs to Reuse() it specifically, because it can't just
+ * Reuse() the whole <ddef>, when it's in the process of analyzing
+ * regions.
+ * 
+ * Upon return, <*ret_nc> contains the number of clusters that were
+ * defined.
+ * 
+ * The caller can retrieve info on each cluster by calling
+ * <p7_spensemble_GetClusterCoords(ddef->sp...)> on the
+ * <P7_SPENSEMBLE> object in <ddef>.
+ * 
+ * Other information on what's happened in working memory:
+ * 
+ * <ddef->n2sc[ireg..jreg]> now contains log f'(x_i) / f(x_i) null2 scores
+ *    for each residue.
+ *
+ * <ddef->sp> gets filled in, and upon return, it's holding the answers 
+ *    (the cluster definitions). When the caller is done retrieving those
+ *    answers, it needs to <esl_spensemble_Reuse()> it before calling
+ *    <region_trace_ensemble()> again.
+ *    
+ * <ddef->tr> is used as working memory for sampled traces.
+ *    
+ * <wrk> has had its zero row clobbered as working space for a null2 calculation.
+ */
+static int
+region_trace_ensemble(P7_DOMAINDEF *ddef, const P7_OPROFILE *om, const ESL_DSQ *dsq, int ireg, int jreg, 
+		      const P7_OMX *fwd, P7_OMX *wrk, int *ret_nc)
+{
+  int    Lr  = jreg-ireg+1;
+  int    t, d, d2;
+  int    nov, n;
+  int    nc;
+  int    pos;
+  float  null2[p7_MAXCODE];
+
+  esl_vec_FSet(ddef->n2sc+ireg, Lr, 0.0); /* zero the null2 scores in region */
+
+  /* By default, we make results reproducible by forcing a reset of
+   * the RNG to its originally seeded state.
+   */
+  if (ddef->do_reseeding) 
+    esl_randomness_Init(ddef->r, esl_randomness_GetSeed(ddef->r));
+
+  /* Collect an ensemble of sampled traces; calculate null2 odds ratios from these */
+  for (t = 0; t < ddef->nsamples; t++)
+    {
+      p7_StochasticTrace(ddef->r, dsq+ireg-1, Lr, om, fwd, ddef->tr);
+      p7_trace_Index(ddef->tr);
+
+      pos = 1;
+      for (d = 0; d < ddef->tr->ndom; d++)
+	{
+	  p7_spensemble_Add(ddef->sp, t, ddef->tr->sqfrom[d]+ireg-1, ddef->tr->sqto[d]+ireg-1, ddef->tr->hmmfrom[d], ddef->tr->hmmto[d]);
+
+	  p7_Null2_ByTrace(om, ddef->tr, ddef->tr->tfrom[d], ddef->tr->tto[d], wrk, null2);
+	  
+	  /* residues outside domains get bumped +1: because f'(x) = f(x), so f'(x)/f(x) = 1 in these segments */
+	  for (; pos <= ddef->tr->sqfrom[d]; pos++) ddef->n2sc[ireg+pos-1] += 1.0;
+
+	  /* Residues inside domains get bumped by their null2 ratio */
+	  for (; pos <= ddef->tr->sqto[d];   pos++) ddef->n2sc[ireg+pos-1] += null2[dsq[ireg+pos-1]];
+	}
+      /* the remaining residues in the region outside any domains get +1 */
+      for (; pos <= Lr; pos++)  ddef->n2sc[ireg+pos-1] += 1.0;
+
+      p7_trace_Reuse(ddef->tr);        
+    }
+
+  /* Convert the accumulated n2sc[] ratios in this region to log odds null2 scores on each residue. */
+  for (pos = ireg; pos <= jreg; pos++)
+    ddef->n2sc[pos] = logf(ddef->n2sc[pos] / (float) ddef->nsamples);
+
+  /* Cluster the ensemble of traces to break region into envelopes. */
+  p7_spensemble_Cluster(ddef->sp, ddef->min_overlap, ddef->of_smaller, ddef->max_diagdiff, ddef->min_posterior, ddef->min_endpointp, &nc);
+
+  /* A little hacky now. Remove "dominated" domains relative to seq coords. */
+  for (d = 0; d < nc; d++) 
+    ddef->sp->assignment[d] = 0; /* overload <assignment> to flag that a domain is dominated */
+
+  /* who dominates who? (by post prob) */
+  for (d = 0; d < nc; d++)
+    {
+      for (d2 = d+1; d2 < nc; d2++)
+	{
+	  nov = ESL_MIN(ddef->sp->sigc[d].j, ddef->sp->sigc[d2].j) - ESL_MAX(ddef->sp->sigc[d].i, ddef->sp->sigc[d2].i) + 1;
+	  if (nov == 0) break;
+	  n   = ESL_MIN(ddef->sp->sigc[d].j - ddef->sp->sigc[d].i + 1,  ddef->sp->sigc[d2].j - ddef->sp->sigc[d2].i + 1);
+	  if ((float) nov / (float) n >= 0.8) /* overlap */
+	    {
+	      if (ddef->sp->sigc[d].prob > ddef->sp->sigc[d2].prob) ddef->sp->assignment[d2] = 1;
+	      else                                                  ddef->sp->assignment[d]  = 1;
+	    }
+	}
+    }
+      
+  /* shrink the sigc list, removing dominated domains */
+  d = 0;
+  for (d2 = 0; d2 < nc; d2++)
+    {
+      if (ddef->sp->assignment[d2]) continue; /* skip domain d2, it's dominated. */
+      if (d != d2) memcpy(ddef->sp->sigc + d, ddef->sp->sigc + d2, sizeof(struct p7_spcoord_s));
+      d++;
+    }
+  ddef->sp->nc = d;
+  *ret_nc = d;
+  return eslOK;
+}
+
+
+
+
+/* Function:  reparameterize_model()
+ *
+ * Synopsis:  Establish new background priors based on a sequence window,
+ *            and change match state emission log-odds scores accordingly.
+ *
+ * Purpose:    Compute new background priors based on a sequence window,
+ *             and set match search model's match state emission log-odds
+ *             scores accordingly. Used narrowly within the post-fwd
+ *             portion of the longtarget pipeline
+ *
+ *             If sq != NULL: Given a sequence <sq> and <start> and length
+ *             <L>, compute the residue frequency, and modify <bg> in place
+ *             to store a mixture of that frequency with the default (passed
+ *             in <bg>). Then update the match emission scores in place in
+ *             <om> to account for new <bg> values. Prior bg values are
+ *             stored for return in <bgf_arr>. This is called by
+ *             rescore_isolated_domain(), which is required to call it again
+ *             once complete to return <bg> and <om> to original state.
+ *
+ *
+ *             If sq == NULL: return <bg> and <om> to original state.
+ *
+ *             Only used in the longtarget (nhmmer) case. In-place
+ *             modification is done to avoid rampant memory allocation.
+ *             Doing this requires that (a) each thread has its own
+ *             independent copy of <bg> and <om>, and (b) those are
+ *             returned to their original state before being used
+ *             outside the function using the modified structures.
+ *
+ *             The pre-allocated array <sc_tmp> must be passed, for use
+ *             in p7_oprofile_UpdateFwdEmissionScores().
+ *
+ */
+static int
+reparameterize_model (P7_BG *bg, P7_OPROFILE *om, const ESL_SQ *sq, int start, int L, float *fwd_emissions, float *bgf_arr, float *sc_arr) {
+  int     K   = om->abc->K;
+  int i;
+  float tmp;
+  int status;
+
+  /* Fraction of new bg frequencies that comes from a prior determined by the sequence block.
+   * This is 25% for long sequences, more for shorter sequences (e.g. 50% for sequences of length 50)
+   */
+  float   bg_smooth = 1.; // will be modified immediately below, if it's used
+
+  if (sq != NULL) {
+    /* compute new bg->f, capturing original values into a preallocated array */
+    bg_smooth = 25.0 / (ESL_MIN(100,ESL_MAX(50,sq->n)));
+
+    esl_vec_FSet (bgf_arr, om->abc->K, 0);
+    status = esl_sq_CountResidues(sq, start, L, bgf_arr);
+    if (status != eslOK) p7_Fail("Invalid sequence range in reparameterize_model()\n");
+    esl_vec_FNorm(bgf_arr, om->abc->K);
+
+    for (i=0; i<K; i++) {
+       tmp = bg->f[i];
+       bg->f[i] = (bg_smooth*bg->f[i]) + ( (1.0-bg_smooth) * bgf_arr[i])  ;
+       bgf_arr[i] = tmp;
+    }
+  } else {
+    /* revert bg->f to the passed in orig_bgf   */
+    esl_vec_FCopy(bgf_arr, K, bg->f);
+  }
+
+  p7_oprofile_UpdateFwdEmissionScores(om, bg, fwd_emissions, sc_arr);
+
+  return eslOK;
+}
+
+
+/* rescore_isolated_domain()
+ * SRE, Fri Feb  8 09:18:33 2008 [Janelia]
+ *
+ * We have isolated a single domain's envelope from <i>..<j> in
+ * sequence <sq>, and now we want to score it in isolation and obtain
+ * an alignment display for it.
+ * 
+ * (Later, we can add up all the individual domain scores from this
+ * seq into a new per-seq score, to compare to the original per-seq
+ * score).
+ *  
+ * The caller provides model <om> configured in unilocal mode; by
+ * using unilocal (as opposed to multilocal), we're going to force the
+ * identification of a single domain in this envelope now.
+ * 
+ * The alignment is an optimal accuracy alignment (sensu IH Holmes),
+ * also obtained in unilocal mode.
+ * 
+ * The caller provides DP matrices <ox1> and <ox2> with sufficient
+ * space to hold Forward and Backward calculations for this domain
+ * against the model. (The caller will typically already have matrices
+ * sufficient for the complete sequence lying around, and can just use
+ * those.) The caller also provides a <P7_DOMAINDEF> object (ddef)
+ * which is (efficiently, we trust) managing any necessary temporary
+ * working space and heuristic thresholds.
+ *
+ * If <long_target> is TRUE, the calling function  optionally
+ * passes in three allocated arrays (bgf_arr, scores_arr,
+ * fwd_emissions_arr) used for temporary storage in
+ * reparameterize_model(), and a previously computed array block_bg
+ * of residue frequencies for the long_target block from which this
+ * envelope came (if scores_arr is NULL, reparameterization is not
+ * done, and the domcorrection, used to determine null2, is not
+ * computed).
+ * 
+ * Returns <eslOK> if a domain was successfully identified, scored,
+ * and aligned in the envelope; if so, the per-domain information is
+ * registered in <ddef>, in <ddef->dcl>.
+ * 
+ * And here's what's happened to our working memory:
+ * 
+ * <ddef>: <ddef->tr> has been used, and possibly reallocated, for
+ *         the OA trace of the domain. Before exit, we called
+ *         <Reuse()> on it.
+ *
+ * 
+ * <ox1> : happens to be holding OA score matrix for the domain
+ *         upon return, but that's not part of the spec; officially
+ *         its contents are "undefined".
+ *
+ * <ox2> : happens to be holding a posterior probability matrix
+ *         for the domain upon return, but we're not making that
+ *         part of the spec, so caller shouldn't rely on this;
+ *         spec just makes its contents "undefined".
+ */
+static int
+rescore_isolated_domain(P7_DOMAINDEF *ddef, P7_OPROFILE *om, const ESL_SQ *sq,
+			P7_OMX *ox1, P7_OMX *ox2, int i, int j, int null2_is_done, P7_BG *bg, int long_target,
+			P7_BG *bg_tmp, float *scores_arr, float *fwd_emissions_arr)
+{
+  P7_DOMAIN     *dom           = NULL;
+  int            Ld            = j-i+1;
+  float          domcorrection = 0.0;
+  float          envsc, oasc;
+  int            z;
+  int            pos;
+  float          null2[p7_MAXCODE];
+  int            status;
+  int            max_env_extra = 20;
+  int            orig_L;
+
+
+  if (long_target) {
+    //temporarily change model length to env_len. The nhmmer pipeline will tack
+    //on the appropriate cost to account for the longer actual window
+    orig_L = om->L;
+    p7_oprofile_ReconfigRestLength(om, j-i+1);
+  }
+
+  if (long_target && scores_arr!=NULL) {
+    // Modify bg and om in-place to avoid having to clone (allocate) a massive
+    // number of times when there are many hits
+    reparameterize_model (bg, om, sq, i, j-i+1, fwd_emissions_arr, bg_tmp->f, scores_arr);
+  }
+
+  p7_Forward (sq->dsq + i-1, Ld, om,      ox1, &envsc);
+  p7_Backward(sq->dsq + i-1, Ld, om, ox1, ox2, NULL);
+
+  status = p7_Decoding(om, ox1, ox2, ox2);      /* <ox2> is now overwritten with post probabilities     */
+  if (status == eslERANGE) return eslFAIL;      /* rare: numeric overflow; domain is assumed to be repetitive garbage [J3/119-212] */
+
+  /* Find an optimal accuracy alignment */
+  p7_OptimalAccuracy(om, ox2, ox1, &oasc);      /* <ox1> is now overwritten with OA scores              */
+  p7_OATrace        (om, ox2, ox1, ddef->tr);   /* <tr>'s seq coords are offset by i-1, rel to orig dsq */
+
+  /* hack the trace's sq coords to be correct w.r.t. original dsq */
+  for (z = 0; z < ddef->tr->N; z++)
+    if (ddef->tr->i[z] > 0) ddef->tr->i[z] += i-1;
+
+  /* get ptr to next empty domain structure in domaindef's results */
+  if (ddef->ndom == ddef->nalloc) {
+    ESL_REALLOC(ddef->dcl, sizeof(P7_DOMAIN) * (ddef->nalloc*2));
+    ddef->nalloc *= 2;
+  }
+  dom = &(ddef->dcl[ddef->ndom]);
+  dom->ad             = p7_alidisplay_Create(ddef->tr, 0, om, sq);
+  dom->scores_per_pos = NULL;
+
+
+  /* For long target DNA, it's common to see a huge envelope (>1Kb longer than alignment), usually
+   * involving simple repeat part of model that attracted similar segments of the repeatedly, to
+   * acquire a large total score. Now that we have alignment boundaries, re-run Fwd/Bkwd to trim away
+   * such a long envelope and estimate the true score of the hit region
+   */
+  if (long_target) {
+
+    if (     i < dom->ad->sqfrom-max_env_extra   //trim the left side of the envelope
+        ||   j > dom->ad->sqto+max_env_extra     //trim the right side of the envelope
+        ) {
+
+      //trim in the envelope, and do it again
+      i = ESL_MAX(i,dom->ad->sqfrom-max_env_extra);
+      j = ESL_MIN(j,dom->ad->sqto+max_env_extra);
+      Ld = j - i + 1;
+
+      //temporarily change model length to env_len. The nhmmer pipeline will tack
+      //on the appropriate cost to account for the longer actual window
+      p7_oprofile_ReconfigRestLength(om, j-i+1);
+
+      if (scores_arr!=NULL) {
+        //revert bg and om back to original, then forward to new values
+        reparameterize_model (bg, om, NULL, 0, 0, fwd_emissions_arr, bg_tmp->f, scores_arr);
+        reparameterize_model (bg, om, sq, i, Ld, fwd_emissions_arr, bg_tmp->f, scores_arr);
+      }
+
+      p7_Forward (sq->dsq + i-1, Ld, om,      ox1, &envsc);
+      p7_Backward(sq->dsq + i-1, Ld, om, ox1, ox2, NULL);
+
+      status = p7_Decoding(om, ox1, ox2, ox2);      /* <ox2> is now overwritten with post probabilities     */
+      if (status == eslERANGE) return eslFAIL;      /* rare: numeric overflow; domain is assumed to be repetitive garbage [J3/119-212] */
+
+      /* Find an optimal accuracy alignment */
+      p7_OptimalAccuracy(om, ox2, ox1, &oasc);      /* <ox1> is now overwritten with OA scores              */
+      p7_trace_Reuse(ddef->tr);
+      p7_OATrace        (om, ox2, ox1, ddef->tr);   /* <tr>'s seq coords are offset by i-1, rel to orig dsq */
+
+      /* re-hack the trace's sq coords to be correct w.r.t. original dsq */
+       for (z = 0; z < ddef->tr->N; z++)
+         if (ddef->tr->i[z] > 0) ddef->tr->i[z] += i-1;
+
+       /* store the results in it, first destroying the old alidisplay object */
+       p7_alidisplay_Destroy(dom->ad);
+       dom->ad            = p7_alidisplay_Create(ddef->tr, 0, om, sq);
+    }
+
+    /* Estimate bias correction, by computing what the score would've been without
+     * reparameterization
+     */
+    domcorrection = envsc;
+    if (scores_arr!=NULL) { //revert bg and om back to original,
+                            //and while I'm at it, capture what the default parameterized score would have been, for "null2"
+      reparameterize_model (bg, om, NULL, 0, 0, fwd_emissions_arr, bg_tmp->f, scores_arr);
+      p7_Forward (sq->dsq + i-1, Ld, om,      ox1, &domcorrection);
+    }
+
+    p7_oprofile_ReconfigRestLength(om, orig_L);
+
+    if (domcorrection < envsc)  //negative bias correction shouldn't happen. Stick with the original score.
+      envsc = domcorrection;
+
+    dom->domcorrection = domcorrection - envsc;
+
+  }  else {
+
+    /* Compute bias correction (for non-longtarget case)
+     *
+     * Is null2 set already for this i..j? (It is, if we're in a domain that
+     * was defined by stochastic traceback clustering in a multidomain region;
+     * it isn't yet, if we're in a simple one-domain region). If it isn't,
+     * do it now, by the expectation (posterior decoding) method.
+     */
+      if (!null2_is_done) {
+        p7_Null2_ByExpectation(om, ox2, null2);
+        for (pos = i; pos <= j; pos++)
+          ddef->n2sc[pos]  = logf(null2[sq->dsq[pos]]);
+      }
+      for (pos = i; pos <= j; pos++)
+        domcorrection   += ddef->n2sc[pos];         /* domcorrection is in units of NATS */
+
+      dom->domcorrection = domcorrection; /* in units of NATS */
+
+  }
+
+
+  dom->iali          = dom->ad->sqfrom;
+  dom->jali          = dom->ad->sqto;
+  dom->ienv          = i;
+  dom->jenv          = j;
+  dom->envsc         = envsc;         /* in units of NATS */
+  dom->oasc          = oasc;        /* in units of expected # of correctly aligned residues */
+  dom->dombias       = 0.0; /* gets set later, using bg->omega and dombias */
+  dom->bitscore      = 0.0; /* gets set later by caller, using envsc, null score, and dombias */
+  dom->lnP           = 0.0; /* gets set later by caller, using bitscore */
+  dom->is_reported   = FALSE; /* gets set later by caller */
+  dom->is_included   = FALSE; /* gets set later by caller */
+
+
+  ddef->ndom++;
+
+  p7_trace_Reuse(ddef->tr);
+  return eslOK;
+
+ ERROR:
+  p7_trace_Reuse(ddef->tr);
+  return status;
+}
+  
+    
+/*****************************************************************
+ * Example driver.
+ *****************************************************************/
+
+#ifdef p7DOMAINDEF_EXAMPLE
+
+/* gcc -o domaindef_example -g -Wall -I../easel -L../easel -I. -L. -Dp7DOMAINDEF_EXAMPLE p7_domaindef.c -lhmmer -leasel -lm
+ * ./domaindef_example <hmmfile> <seqfile>
+ */
+
+
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-V",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "find domains by Viterbi parsing",                  0 },
+  { "--occp",    eslARG_OUTFILE, NULL, NULL, NULL,  NULL,  NULL, NULL, "output posterior occupancies for xmgrace to <f>",  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of domain definition by posterior sampling";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(42);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  int             format  = eslSQFILE_UNKNOWN;
+  ESL_SQFILE     *sqfp    = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_ALPHABET   *abc     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *oxf     = NULL; /* parsing matrix, passed to PosteriorHeuristics */
+  P7_OMX         *oxb     = NULL;
+  P7_OMX         *fwd     = NULL; /* full LxL matrix workspace passed to PosteriorHeuristics */
+  P7_OMX         *bck     = NULL;
+  P7_DOMAINDEF   *ddef    = NULL;
+  char           *ofile   = NULL;
+  FILE           *ofp     = NULL;
+  float           overall_sc, sc;
+  int             d;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+
+  /* Configure a profile from the HMM */
+  p7_FLogsumInit();
+
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  om = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, sq->n);
+
+  /* allocate the domain definition object */
+  ddef = p7_domaindef_Create(r);
+
+  /* allocate DP matrices for forward and backward */
+  fwd = p7_omx_Create(gm->M, sq->n, sq->n);
+  bck = p7_omx_Create(gm->M, sq->n, sq->n);
+
+  oxf = p7_omx_Create(om->M, 0, sq->n);
+  oxb = p7_omx_Create(om->M, 0, sq->n);
+
+  /* define domain structure */
+
+
+  p7_Forward (sq->dsq, sq->n, om,      fwd, &overall_sc); 
+  p7_Backward(sq->dsq, sq->n, om, fwd, bck, &sc);       
+  p7_domaindef_ByPosteriorHeuristics(sq, om, oxf, oxb, fwd, bck, ddef, NULL, FALSE, NULL, NULL, NULL);
+
+
+  printf("Overall raw likelihood score: %.2f nats\n", overall_sc);
+
+  /* retrieve and display results */
+  for (d = 0; d < ddef->ndom; d++)
+    {
+      printf("domain %-4d : %4d %4d  %6.2f  %6.2f\n", d+1, 
+	     ddef->dcl[d].ienv,
+	     ddef->dcl[d].jenv,
+	     ddef->dcl[d].envsc,
+	     ddef->dcl[d].domcorrection);
+
+      p7_alidisplay_Print(stdout, ddef->dcl[d].ad, 50, 120, FALSE);
+    }
+
+  if ((ofile = esl_opt_GetString(go, "--occp")) != NULL) 
+    {
+      if ((ofp = fopen(ofile, "w")) == NULL) p7_Fail("Failed to open output file %s\n", ofile);
+      p7_domaindef_DumpPosteriors(ofp, ddef);
+      fclose(ofp);
+    }
+
+  p7_domaindef_Destroy(ddef);
+  p7_omx_Destroy(oxf);
+  p7_omx_Destroy(oxb);
+  p7_omx_Destroy(fwd);
+  p7_omx_Destroy(bck);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_sq_Destroy(sq);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7DOMAINDEF_EXAMPLE*/
+
+
+#ifdef p7DOMAINDEF_EXAMPLE2
+/* gcc -o domaindef_example2 -g -Wall -I../easel -L../easel -I. -L. -Dp7DOMAINDEF_EXAMPLE2 p7_domaindef.c -lhmmer -leasel -lm
+ * ./domaindef_example2 <hmmfile> 
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+#include "esl_stopwatch.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-N",        eslARG_INT,   "1000", NULL, NULL,  NULL,  NULL, NULL, "number of sampled sequences",                      0 },
+  { "-L",        eslARG_INT,    "400", NULL, NULL,  NULL,  NULL, NULL, "length config for the profile",                    0 },
+  { "-V",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "find domains by Viterbi parsing",                  0 },
+  { "-b",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "baseline timing - no domain processing",           0 },
+  { "-v",        eslARG_NONE,    NULL, NULL, NULL,  NULL,  NULL, NULL, "be more verbose (show per sequence results)",      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "example of domain definition by posterior sampling";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(42);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_ALPHABET   *abc     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_TRACE       *tr      = NULL;
+  P7_GMX         *fwd     = NULL;
+  P7_GMX         *bck     = NULL;
+  P7_OMX         *gxf     = NULL; /* parsing matrix, passed to PosteriorHeuristics */
+  P7_OMX         *gxb     = NULL;
+
+  P7_DOMAINDEF   *ddef    = NULL;
+  int   N           = esl_opt_GetInteger(go, "-N");
+  int   L0          = esl_opt_GetInteger(go, "-L");
+  int   do_vit      = esl_opt_GetBoolean(go, "-V");
+  int   do_baseline = esl_opt_GetBoolean(go, "-b");
+  int   be_verbose  = esl_opt_GetBoolean(go, "-v");
+  float           overall_sc, sc;
+  int             idx;
+  int             tot_true, tot_found;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L0);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L0, p7_LOCAL);
+
+  /* Other initial allocations */
+  sq   = esl_sq_CreateDigital(abc);
+  ddef = p7_domaindef_Create(r);
+  fwd  = p7_gmx_Create(gm->M, L0);
+  bck  = p7_gmx_Create(gm->M, L0);
+  gxf  = p7_gmx_Create(gm->M, L0);
+  gxb  = p7_gmx_Create(gm->M, L0);
+  tr   = p7_trace_Create();
+  p7_FLogsumInit();
+
+  tot_true = tot_found = 0;
+  esl_stopwatch_Start(w);
+  for (idx = 0; idx < N; idx++)
+    {
+      p7_ReconfigLength(gm, L0);
+      p7_bg_SetLength(bg, L0);
+      p7_ProfileEmit(r, hmm, gm, bg, sq, tr); /* sample a sequence from the profile */
+      p7_trace_Index(tr);                      /* tr->ndom is the "true" domain number emitted */
+      tot_true += tr->ndom;
+
+      p7_ReconfigLength(gm, sq->n);
+      p7_bg_SetLength(bg, sq->n);
+      p7_gmx_GrowTo(fwd, gm->M, sq->n);
+      p7_gmx_GrowTo(bck, gm->M, sq->n);
+
+      if (do_vit) 
+	{
+	  p7_GViterbi (sq->dsq, sq->n, gm, fwd, &overall_sc); 
+	  if (! do_baseline)
+	    p7_domaindef_ByViterbi(gm, sq, fwd, bck, ddef);
+	}
+      else
+	{
+	  p7_GForward (sq->dsq, sq->n, gm, fwd, &overall_sc); 
+	  if (! do_baseline) {
+	    p7_GBackward(sq->dsq, sq->n, gm, bck, &sc);       
+	    p7_domaindef_ByPosteriorHeuristics(sq, gm, fwd, bck, gxf, gxb, ddef, NULL, FALSE, NULL, NULL, NULL);
+	    //Is this even being compiled by any tests? Looks like there's a fair amount of bit rot here
+	  }
+	}
+
+      tot_found += ddef->ndom;
+      if (be_verbose) 
+	printf("true: %d   found: %d\n", tr->ndom, ddef->ndom);
+
+      p7_trace_Reuse(tr);
+      p7_domaindef_Reuse(ddef);
+    }
+  esl_stopwatch_Stop(w);
+
+  printf("Total domains: %d\n", tot_true);
+  printf("Total found:   %d\n", tot_found);
+  printf("Accuracy:      %.2f%%\n", 100. * (double) tot_found / (double) tot_true);
+  esl_stopwatch_Display(stdout, w, "CPU time:   ");
+
+  p7_domaindef_Destroy(ddef);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_profile_Destroy(gm);
+  p7_trace_Destroy(tr);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_sq_Destroy(sq);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7DOMAINDEF_EXAMPLE2*/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gbands.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gbands.c
new file mode 100755
index 0000000..3cf25df
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gbands.c
@@ -0,0 +1,230 @@
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "p7_gbands.h"
+
+P7_GBANDS *
+p7_gbands_Create(void)
+{
+  P7_GBANDS *bnd           = NULL;
+  int        init_segalloc = 4;
+  int        init_rowalloc = 64;
+  int        status;
+
+  ESL_ALLOC(bnd, sizeof(P7_GBANDS));
+  bnd->nseg  = 0;
+  bnd->nrow  = 0;
+  bnd->L     = 0;
+  bnd->M     = 0;
+  bnd->ncell = 0;
+  bnd->imem  = NULL;
+  bnd->kmem  = NULL;
+
+
+  ESL_ALLOC(bnd->imem, sizeof(int) * init_segalloc * 2); /* *2: for ia, ib pairs */
+  ESL_ALLOC(bnd->kmem, sizeof(int) * init_rowalloc * p7_GBANDS_NK);
+  bnd->segalloc = init_segalloc;
+  bnd->rowalloc = init_rowalloc;
+
+  return bnd;
+  
+ ERROR:
+  p7_gbands_Destroy(bnd);
+  return NULL;
+}
+
+int
+p7_gbands_Reuse(P7_GBANDS *bnd)
+{
+  bnd->nseg  = 0;
+  bnd->nrow  = 0;
+  bnd->L     = 0;
+  bnd->M     = 0;
+  bnd->ncell = 0;
+  return eslOK;
+}
+
+/* Function:  
+ * Synopsis:  
+ *
+ * Purpose:   
+ *            <p7_gbands_Append()> calls must be made in ascending <i> order,
+ *            from <i == 1..L>.
+ * Args:      
+ *
+ * Returns:   
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      
+ */
+int
+p7_gbands_Append(P7_GBANDS *bnd, int i, int ka, int kb)
+{
+  int status;
+
+  if (bnd->nseg == 0 || 
+      i > 1 + bnd->imem[(bnd->nseg-1)*2 +1]) /* i > ib[cur_g] + 1; need to start a  new segment */
+    {
+      if (bnd->nseg == bnd->segalloc && (status = p7_gbands_GrowSegs(bnd)) != eslOK) goto ERROR;
+      bnd->imem[bnd->nseg*2]   = i; /* ia */
+      bnd->imem[bnd->nseg*2+1] = i; /* ib */
+      bnd->nseg++;
+    }
+  else	/* else, append i onto previous segment by incrementing ib */
+    bnd->imem[(bnd->nseg-1)*2+1] += 1; /* equiv to setting = i */
+
+  if (bnd->nrow == bnd->rowalloc && (status = p7_gbands_GrowRows(bnd)) != eslOK) goto ERROR;
+  bnd->kmem[bnd->nrow*p7_GBANDS_NK]   = ka;
+  bnd->kmem[bnd->nrow*p7_GBANDS_NK+1] = kb;
+  bnd->nrow  += 1;
+  bnd->ncell += kb-ka+1;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* 
+ * Build the band structure backwards. Caller will need to
+ * call <p7_gbands_Reverse()> when done.
+ */
+int
+p7_gbands_Prepend(P7_GBANDS *bnd, int i, int ka, int kb)
+{
+  int status;
+
+  if (! bnd->nseg ||
+      i < bnd->imem[(bnd->nseg-1)*2+1] - 1) /* i < ia[cur_g]-1; start a new segment */
+    {
+      if (bnd->nseg == bnd->segalloc && (status = p7_gbands_GrowSegs(bnd)) != eslOK) return status;
+      bnd->imem[bnd->nseg*2]   = i; /* ib */
+      bnd->imem[bnd->nseg*2+1] = i; /* ia */
+      bnd->nseg++;
+    }
+  else				       /* else, prepend i to prev segment by decrementing its ia */
+    bnd->imem[(bnd->nseg-1)*2+1] -= 1; /* equiv to setting ia[g] = i */
+
+  if (bnd->nrow == bnd->rowalloc && (status = p7_gbands_GrowRows(bnd)) != eslOK) return status;
+  bnd->kmem[bnd->nrow*p7_GBANDS_NK]   = kb;
+  bnd->kmem[bnd->nrow*p7_GBANDS_NK+1] = ka;
+  bnd->nrow  += 1;
+  bnd->ncell += kb-ka+1;
+  return eslOK;
+}
+
+/* Function:  p7_gbands_Reverse()
+ * Synopsis:  Reverse the band structure arrays, after a backwards DP pass.
+ *
+ * Purpose:   Our checkpointed DP posterior decoding algorithms that make a
+ *            band structure work backwards in rows from L..1, and so they
+ *            construct a <P7_GBANDS> structure that has its data elements
+ *            in reversed order. Before we can use that structure, we have 
+ *            to reverse these arrays. 
+ *
+ * Args:      bnd -  band list to reverse. 
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gbands_Reverse(P7_GBANDS *bnd)
+{
+  esl_vec_IReverse(bnd->imem, bnd->imem, 2*bnd->nseg);
+  esl_vec_IReverse(bnd->kmem, bnd->kmem, 2*bnd->nrow);
+  return eslOK;
+}
+
+
+int
+p7_gbands_GrowSegs(P7_GBANDS *bnd)
+{
+  int new_segalloc = bnd->segalloc * 2; /* grow by doubling */
+  int status;
+
+  ESL_REALLOC(bnd->imem, sizeof(int) * new_segalloc * 2);
+  bnd->segalloc = new_segalloc;
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+int
+p7_gbands_GrowRows(P7_GBANDS *bnd)
+{
+  int new_rowalloc = bnd->rowalloc * 2;
+  int status;
+
+  ESL_REALLOC(bnd->kmem, sizeof(int) * new_rowalloc * p7_GBANDS_NK);
+  bnd->rowalloc = new_rowalloc;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+void
+p7_gbands_Destroy(P7_GBANDS *bnd)
+{
+  if (bnd) {
+    if (bnd->imem) free(bnd->imem);
+    if (bnd->kmem) free(bnd->kmem);
+    free(bnd);
+  }
+}
+
+
+
+/* Function:  
+ * Synopsis:  
+ *
+ * Purpose:   
+ *           Also serves to demonstrate standard iteration method,
+ *           over segments and rows.
+ * Args:      
+ *
+ * Returns:   
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      
+ */
+int
+p7_gbands_Dump(FILE *ofp, P7_GBANDS *bnd)
+{
+  int  g, i;
+  int *bnd_ip = bnd->imem;
+  int *bnd_kp = bnd->kmem;
+  int  ia, ib;
+  int  ka, kb;
+
+  i = 0;
+  for (g = 0; g < bnd->nseg; g++)
+    {
+      ia = *bnd_ip; bnd_ip++;
+      ib = *bnd_ip; bnd_ip++;
+      if (ia > i+1) fprintf(ofp, "...\n");
+      
+      for (i = ia; i <= ib; i++)
+	{
+	  ka = *bnd_kp; bnd_kp++;
+	  kb = *bnd_kp; bnd_kp++;
+
+	  fprintf(ofp, "%6d %6d %6d\n", i, ka, kb);
+	}
+    }
+  if (i <= bnd->L) fprintf(ofp, "...\n");
+
+  printf("%" PRId64 " cells banded, %" PRId64 " total; fraction = %f\n",
+	 bnd->ncell, 
+	 (int64_t) bnd->L * (int64_t) bnd->M, 
+	 (double) bnd->ncell / ((double) bnd->L * (double) bnd->M));
+
+  return eslOK;
+}
+
+    
+  
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gbands.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gbands.h
new file mode 100755
index 0000000..ee2fc93
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gbands.h
@@ -0,0 +1,30 @@
+#ifndef P7_GBANDS_INCLUDED
+#define P7_GBANDS_INCLUDED
+
+typedef struct {
+  int     nseg;
+  int     nrow;
+  int     L;
+  int     M;
+  int64_t ncell;
+
+  int *imem;
+  int *kmem;
+  
+  int  segalloc;
+  int  rowalloc;
+} P7_GBANDS;
+
+#define p7_GBANDS_NK 2		/* for IK banding. Or 6, for IKS banding */
+
+extern P7_GBANDS *p7_gbands_Create  (void);
+extern int        p7_gbands_Reuse   (P7_GBANDS *bnd);
+extern int        p7_gbands_Append  (P7_GBANDS *bnd, int i, int ka, int kb);
+extern int        p7_gbands_Prepend (P7_GBANDS *bnd, int i, int ka, int kb);
+extern int        p7_gbands_Reverse (P7_GBANDS *bnd);
+extern int        p7_gbands_GrowSegs(P7_GBANDS *bnd);
+extern int        p7_gbands_GrowRows(P7_GBANDS *bnd);
+extern void       p7_gbands_Destroy (P7_GBANDS *bnd);
+extern int        p7_gbands_Dump(FILE *ofp, P7_GBANDS *bnd);
+
+#endif /*P7_GBANDS_INCLUDED*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmx.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmx.c
new file mode 100755
index 0000000..fd2a323
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmx.c
@@ -0,0 +1,504 @@
+/* P7_GMX implementation: a generic dynamic programming matrix
+ *
+ * Contents:
+ *   1. The <P7_GMX> object
+ *   2. Debugging aids
+ *   3. Unit tests
+ *   4. Test driver
+ *   5. Copyright and license information
+ */
+
+#include "p7_config.h"
+#include "hmmer.h"
+
+/*****************************************************************
+ *= 1. The <P7_GMX> object.
+ *****************************************************************/
+
+/* Function:  p7_gmx_Create()
+ * Synopsis:  Allocate a new <P7_GMX>.
+ *
+ * Purpose:   Allocate a reusable, resizeable <P7_GMX> for models up to
+ *            size <allocM> and sequences up to length <allocL>.
+ *            
+ *            We've set this up so it should be easy to allocate
+ *            aligned memory, though we're not doing this yet.
+ *
+ * Returns:   a pointer to the new <P7_GMX>.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_GMX *
+p7_gmx_Create(int allocM, int allocL)
+{
+  int     status;
+  P7_GMX *gx = NULL;
+  int     i;
+
+  /* level 1: the structure itself */
+  ESL_ALLOC(gx, sizeof(P7_GMX));
+  gx->dp     = NULL;
+  gx->xmx    = NULL;
+  gx->dp_mem = NULL;
+
+  /* level 2: row pointers, 0.1..L; and dp cell memory  */
+  ESL_ALLOC(gx->dp,      sizeof(float *) * (allocL+1));
+  ESL_ALLOC(gx->xmx,     sizeof(float)   * (allocL+1) * p7G_NXCELLS);
+  ESL_ALLOC(gx->dp_mem,  sizeof(float)   * (allocL+1) * (allocM+1) * p7G_NSCELLS);
+
+  /* Set the row pointers. */
+  for (i = 0; i <= allocL; i++) 
+    gx->dp[i] = gx->dp_mem + i * (allocM+1) * p7G_NSCELLS;
+
+  /* Initialize memory that's allocated but unused, only to keep
+   * valgrind and friends happy.
+   */
+  for (i = 0; i <= allocL; i++) 
+    {
+      gx->dp[i][0      * p7G_NSCELLS + p7G_M] = -eslINFINITY; /* M_0 */
+      gx->dp[i][0      * p7G_NSCELLS + p7G_I] = -eslINFINITY; /* I_0 */      
+      gx->dp[i][0      * p7G_NSCELLS + p7G_D] = -eslINFINITY; /* D_0 */
+      gx->dp[i][1      * p7G_NSCELLS + p7G_D] = -eslINFINITY; /* D_1 */
+      gx->dp[i][allocM * p7G_NSCELLS + p7G_I] = -eslINFINITY; /* I_M */
+    }
+
+  gx->M      = 0;
+  gx->L      = 0;
+  gx->allocW = allocM+1;
+  gx->allocR = allocL+1;
+  gx->validR = allocL+1;
+  gx->ncells = (uint64_t) (allocM+1)* (uint64_t) (allocL+1);
+  return gx;
+
+ ERROR:
+  if (gx != NULL) p7_gmx_Destroy(gx);
+  return NULL;
+}
+
+/* Function:  p7_gmx_GrowTo()
+ * Synopsis:  Assure that DP matrix is big enough.
+ *
+ * Purpose:   Assures that a DP matrix <gx> is allocated
+ *            for a model of size up to <M> and a sequence of
+ *            length up to <L>; reallocates if necessary.
+ *            
+ *            This function does not respect the configured
+ *            <RAMLIMIT>; it will allocate what it's told to
+ *            allocate. 
+ *
+ * Returns:   <eslOK> on success, and <gx> may be reallocated upon
+ *            return; any data that may have been in <gx> must be 
+ *            assumed to be invalidated.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and any data that may
+ *            have been in <gx> must be assumed to be invalidated.
+ */
+int
+p7_gmx_GrowTo(P7_GMX *gx, int M, int L)
+{
+  int      status;
+  void    *p;
+  int      i;
+  uint64_t ncells;
+  int      do_reset = FALSE;
+
+  if (M < gx->allocW && L < gx->validR) return eslOK;
+  
+  /* must we realloc the 2D matrices? (or can we get away with just
+   * jiggering the row pointers, if we are growing in one dimension
+   * while shrinking in another?)
+   */
+  ncells = (uint64_t) (M+1) * (uint64_t) (L+1);
+  if (ncells > gx->ncells) 
+    {
+      ESL_RALLOC(gx->dp_mem, p, sizeof(float) * ncells * p7G_NSCELLS);
+      gx->ncells = ncells;
+      do_reset   = TRUE;
+    }
+
+  /* must we reallocate the row pointers? */
+  if (L >= gx->allocR)
+    {
+      ESL_RALLOC(gx->xmx, p, sizeof(float)   * (L+1) * p7G_NXCELLS);
+      ESL_RALLOC(gx->dp,  p, sizeof(float *) * (L+1));
+      gx->allocR = L+1;		/* allocW will also get set, in the do_reset block */
+      do_reset   = TRUE;
+    }
+
+  /* must we widen the rows? */
+  if (M >= gx->allocW) do_reset = TRUE;
+
+  /* must we set some more valid row pointers? */
+  if (L >= gx->validR) do_reset = TRUE;
+
+  /* resize the rows and reset all the valid row pointers.*/
+  if (do_reset)
+    {
+      gx->allocW = M+1;
+      gx->validR = ESL_MIN(gx->ncells / gx->allocW, gx->allocR);
+      for (i = 0; i < gx->validR; i++) 
+	gx->dp[i] = gx->dp_mem + i * (gx->allocW) * p7G_NSCELLS;
+    }
+
+  gx->M      = 0;
+  gx->L      = 0;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_gmx_Sizeof()
+ * Synopsis:  Returns the allocation size of DP matrix, in bytes.
+ */
+size_t 
+p7_gmx_Sizeof(P7_GMX *gx)
+{
+  size_t n = 0;
+  
+  n += sizeof(P7_GMX);
+  n += gx->ncells * p7G_NSCELLS * sizeof(float); /* main dp cells: gx->dp_mem */
+  n += gx->allocR * sizeof(float *);		 /* row ptrs:      gx->dp[]   */
+  n += gx->allocR * p7G_NXCELLS * sizeof(float); /* specials:      gx->xmx    */
+  return n;
+}
+
+
+
+/* Function:  p7_gmx_Reuse()
+ * Synopsis:  Recycle a generic DP matrix.
+ *
+ * Purpose:   Recycles <gx> for reuse.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gmx_Reuse(P7_GMX *gx)
+{
+  /* not much to do here. The memory rearrangement for a new seq is all in GrowTo(). */
+  gx->M = 0;
+  gx->L = 0;
+  return eslOK;
+}
+
+
+/* Function:  p7_gmx_Destroy()
+ * Synopsis:  Frees a DP matrix.
+ *
+ * Purpose:   Frees a <P7_GMX>.
+ *
+ * Returns:   (void)
+ */
+void
+p7_gmx_Destroy(P7_GMX *gx)
+{
+  if (gx == NULL) return;
+
+  if (gx->dp      != NULL)  free(gx->dp);
+  if (gx->xmx     != NULL)  free(gx->xmx);
+  if (gx->dp_mem  != NULL)  free(gx->dp_mem);
+  free(gx);
+  return;
+}
+
+/*****************************************************************
+ * 2. Debugging aids
+ *****************************************************************/
+
+/* Function:  p7_gmx_Compare()
+ * Synopsis:  Compare two DP matrices for equality within given tolerance.
+ *
+ * Purpose:   Compare all the values in DP matrices <gx1> and <gx2> using
+ *            <esl_FCompare()> and relative epsilon <tolerance>. If any
+ *            value pairs differ by more than the acceptable <tolerance>
+ *            return <eslFAIL>.  If all value pairs are identical within
+ *            tolerance, return <eslOK>. 
+ */
+int
+p7_gmx_Compare(P7_GMX *gx1, P7_GMX *gx2, float tolerance)
+{
+  int i,k,x;
+  if (gx1->M != gx2->M) return eslFAIL;
+  if (gx1->L != gx2->L) return eslFAIL;
+  
+  for (i = 0; i <= gx1->L; i++)
+  {
+      for (k = 1; k <= gx1->M; k++) /* k=0 is a boundary; doesn't need to be checked */
+      {
+		  if (esl_FCompare(gx1->dp[i][k * p7G_NSCELLS + p7G_M],  gx2->dp[i][k * p7G_NSCELLS + p7G_M], tolerance) != eslOK) return eslFAIL;
+		  if (esl_FCompare(gx1->dp[i][k * p7G_NSCELLS + p7G_I],  gx2->dp[i][k * p7G_NSCELLS + p7G_I], tolerance) != eslOK) return eslFAIL;
+		  if (esl_FCompare(gx1->dp[i][k * p7G_NSCELLS + p7G_D],  gx2->dp[i][k * p7G_NSCELLS + p7G_D], tolerance) != eslOK) return eslFAIL;
+      }
+      for (x = 0; x < p7G_NXCELLS; x++)
+	if (esl_FCompare(gx1->xmx[i * p7G_NXCELLS + x], gx2->xmx[i * p7G_NXCELLS + x], tolerance) != eslOK) return eslFAIL;
+  }
+  return eslOK;	
+}
+
+
+
+/* Function:  p7_gmx_Dump()
+ * Synopsis:  Dump a DP matrix to a stream, for diagnostics.
+ *
+ * Purpose:   Dump matrix <gx> to stream <fp> for diagnostics.
+ *
+ *            <flags> control some optional output behaviors, as follows:
+ *              | <p7_HIDE_SPECIALS> | don't show scores for <ENJBC> states  |
+ *              | <p7_SHOW_LOG>      | <gx> is in probs; show as log probs   |
+ */
+int
+p7_gmx_Dump(FILE *ofp, P7_GMX *gx, int flags)
+{
+  return p7_gmx_DumpWindow(ofp, gx, 0, gx->L, 0, gx->M, flags);
+}
+
+
+/* Function:  p7_gmx_DumpWindow()
+ * Synopsis:  Dump a window of a DP matrix to a stream for diagnostics.
+ *
+ * Purpose:   Dump a window of matrix <gx> to stream <fp> for diagnostics,
+ *            from row <istart> to <iend>, from column <kstart> to <kend>.
+ *            
+ *            Asking for <0..L,0..M> with <flags=p7_SHOW_SPECIALS> is the
+ *            same as <p7_gmx_Dump()>.
+ *            
+ *            <flags> control some optional output behaviors, as follows:
+ *              | <p7_HIDE_SPECIALS> | don't show scores for <ENJBC> states  |
+ *              | <p7_SHOW_LOG>      | <gx> is in probs; show as log probs   |
+ *  
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gmx_DumpWindow(FILE *ofp, P7_GMX *gx, int istart, int iend, int kstart, int kend, int flags)
+{
+  int   width     = 9;
+  int   precision = 4;
+  int   i, k, x;
+  float val;
+
+  /* Header */
+  fprintf(ofp, "     ");
+  for (k = kstart; k <= kend;  k++) fprintf(ofp, "%*d ", width, k);
+  if (! (flags & p7_HIDE_SPECIALS)) fprintf(ofp, "%*s %*s %*s %*s %*s\n", width, "E", width, "N", width, "J", width, "B", width, "C");
+  fprintf(ofp, "      ");
+  for (k = kstart; k <= kend; k++)  fprintf(ofp, "%*.*s ", width, width, "----------");
+  if (! (flags & p7_HIDE_SPECIALS)) 
+    for (x = 0; x < 5; x++) fprintf(ofp, "%*.*s ", width, width, "----------");
+  fprintf(ofp, "\n");
+  
+  /* DP matrix data */
+  for (i = istart; i <= iend; i++)
+  {
+      fprintf(ofp, "%3d M ", i);
+      for (k = kstart; k <= kend;        k++)  
+	{
+	  val = gx->dp[i][k * p7G_NSCELLS + p7G_M];
+	  if (flags & p7_SHOW_LOG) val = log(val);
+	  fprintf(ofp, "%*.*f ", width, precision, val);
+	}
+      if (! (flags & p7_HIDE_SPECIALS))
+	{
+    	  for (x = 0;  x <  p7G_NXCELLS; x++) 
+	    {
+	      val = gx->xmx[  i * p7G_NXCELLS + x];
+	      if (flags & p7_SHOW_LOG) val = log(val);
+	      fprintf(ofp, "%*.*f ", width, precision, val);
+	    }
+	}
+      fprintf(ofp, "\n");
+
+      fprintf(ofp, "%3d I ", i);
+      for (k = kstart; k <= kend;        k++) 
+	{
+	  val = gx->dp[i][k * p7G_NSCELLS + p7G_I];
+	  if (flags & p7_SHOW_LOG) val = log(val);
+	  fprintf(ofp, "%*.*f ", width, precision, val);
+	}
+      fprintf(ofp, "\n");
+
+      fprintf(ofp, "%3d D ", i);
+      for (k = kstart; k <= kend;        k++) 
+	{
+	  val =  gx->dp[i][k * p7G_NSCELLS + p7G_D];
+	  if (flags & p7_SHOW_LOG) val = log(val);
+	  fprintf(ofp, "%*.*f ", width, precision, val);
+	}
+      fprintf(ofp, "\n\n");
+  }
+  return eslOK;
+}
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7GMX_TESTDRIVE
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+static void
+gmx_testpattern(P7_GMX *gx, int M, int L)
+{
+  int i,k,s,n, n2;
+
+  /* Write a test pattern, via the dp[i] pointers */
+  n = 0;
+  for (i = 0; i <= L; i++)
+    for (k = 0; k <= M; k++)
+      for (s = 0; s < p7G_NSCELLS; s++)
+	gx->dp[i][k*p7G_NSCELLS+s] = n++;
+
+  /* Read it back, via the dp[i] pointers */
+  n = 0;
+  for (i = 0; i <= L; i++)
+    for (k = 0; k <= M; k++)
+      for (s = 0; s < p7G_NSCELLS; s++)
+		{
+		  if (gx->dp[i][k*p7G_NSCELLS+s] != n) esl_fatal("gmx unit test failed: test pattern corrupted");
+		  n++;
+		}
+  
+  /* Reading it back via the dp_mem vector itself ought to be the same */
+  if (gx->allocR == gx->validR && gx->ncells == gx->validR*gx->allocW)
+  {
+      n2 = 0;
+      for (i = 0; i < gx->ncells; i++)
+		for (s = 0; s < p7G_NSCELLS; s++)
+		  {
+			if (gx->dp_mem[i*p7G_NSCELLS+s] != n2) esl_fatal("gmx unit test failed: test pattern corrupted (2nd test)");
+			n2++;
+		  }
+      /* and the number of cells ought to match too */
+      if (n != n2) esl_fatal("gmx unit test failed: unexpected # of cells");
+  }
+}
+
+
+static void
+utest_GrowTo(void)
+{
+  int     M, L;
+  P7_GMX *gx = NULL;
+
+  M = 20;  L = 20;  gx= p7_gmx_Create(M, L);  gmx_testpattern(gx, M, L);
+  M = 40;  L = 20;  p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);  /* grow in M, not L */
+  M = 40;  L = 40;  p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);  /* grow in L, not M */
+  M = 80;  L = 10;  p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);  /* grow in M, but with enough ncells */
+  M = 10;  L = 80;  p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);  /* grow in L, but with enough ncells */
+  M = 100; L = 100; p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);  /* grow in both L and M */
+
+ /* The next two calls are carefully constructed to exercise bug #h79. 
+  * GrowTo() must shrink allocW, if M shrinks and L grows enough to force increase in allocR, with sufficient ncells.
+  */
+  M = 179; L = 55;  p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);
+  M = 87;  L = 57;  p7_gmx_GrowTo(gx, M, L);  gmx_testpattern(gx, M, L);
+
+  p7_gmx_Destroy(gx);
+}
+
+static void
+utest_Compare(ESL_RANDOMNESS *r, P7_PROFILE *gm, P7_BG *bg, int L, float tolerance)
+{
+  char         *msg = "gmx_Compare unit test failure";
+  ESL_DSQ      *dsq = malloc(sizeof(ESL_DSQ) *(L+2));
+  P7_GMX       *gx1 = p7_gmx_Create(gm->M, L);
+  P7_GMX       *gx2 = p7_gmx_Create(5, 4);
+  float         fsc;
+
+  if (!r || !gm || !dsq || !gx1 || !gx2 )                   esl_fatal(msg);
+  if (esl_rsq_xfIID(r, bg->f, gm->abc->K, L, dsq) != eslOK) esl_fatal(msg);
+  if (p7_gmx_GrowTo(gx2, gm->M, L)                != eslOK) esl_fatal(msg);
+  if (p7_GForward(dsq, L, gm, gx1, &fsc)          != eslOK) esl_fatal(msg);
+  if (p7_GForward(dsq, L, gm, gx2, &fsc)          != eslOK) esl_fatal(msg);
+  if (p7_gmx_Compare(gx1, gx2, tolerance)         != eslOK) esl_fatal(msg);   
+  
+  p7_gmx_Destroy(gx1);
+  p7_gmx_Destroy(gx2);
+  free(dsq);
+}
+
+#endif /*p7GMX_TESTDRIVE*/
+/*------------------- end, unit tests ---------------------------*/
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7GMX_TESTDRIVE
+/*
+  gcc -o p7_gmx_utest -msse2 -g -Wall -I. -L. -I../easel -L../easel -Dp7GMX_TESTDRIVE p7_gmx.c -lhmmer -leasel -lm
+  ./p7_gmx_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  { "-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                  0},
+  { "-s",  eslARG_INT,     "42",  NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",        0 },
+  { "-t",  eslARG_REAL,  "1e-5",  NULL, NULL, NULL, NULL, NULL, "floating point comparison tolerance",  0 },
+  { "-L",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled sequences",          0 },
+  { "-M",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled test profile",       0 },
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for p7_gmx.c";
+
+int 
+main(int argc, char **argv)
+{
+  char           *msg  = "p7_gmx unit test driver failed";
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+  float           tol  = esl_opt_GetReal   (go, "-t");
+
+  p7_FLogsumInit();
+
+  if (p7_hmm_Sample(r, M, abc, &hmm)                != eslOK) esl_fatal(msg);
+  if ((gm = p7_profile_Create(hmm->M, abc))         == NULL)  esl_fatal(msg);
+  if (p7_bg_SetLength(bg, L)                        != eslOK) esl_fatal(msg);
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_UNILOCAL) != eslOK) esl_fatal(msg);
+
+  utest_GrowTo();
+  utest_Compare(r, gm, bg, L, tol);
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_profile_Destroy(gm);
+  return eslOK;
+}
+#endif /*p7GMX_TESTDRIVE*/
+/*------------------ end, test driver ---------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_gmx.c $
+ * SVN $Id: p7_gmx.c 3734 2011-11-02 12:45:37Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxb.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxb.c
new file mode 100755
index 0000000..b8db1f4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxb.c
@@ -0,0 +1,151 @@
+#include "p7_config.h"
+#include "easel.h"
+
+#include "hmmer.h"
+#include "p7_gbands.h"
+#include "p7_gmxb.h"
+
+P7_GMXB *
+p7_gmxb_Create(P7_GBANDS *bnd)
+{
+  P7_GMXB *gxb = NULL;
+  int      status;
+
+  ESL_ALLOC(gxb, sizeof(P7_GMXB));
+  gxb->dp     = NULL;
+  gxb->xmx    = NULL;
+  gxb->bnd    = bnd;
+  gxb->dalloc = 0;
+  gxb->xalloc = 0;
+
+  ESL_ALLOC(gxb->dp,  sizeof(float) * bnd->ncell * p7G_NSCELLS); /* i.e. *3, for MID (0..2)   */
+  ESL_ALLOC(gxb->xmx, sizeof(float) * bnd->nrow  * p7G_NXCELLS); /* i.e. *5, for ENJBC (0..4) */
+  gxb->dalloc = bnd->ncell;
+  gxb->xalloc = bnd->nrow;
+  return gxb;
+
+ ERROR:
+  p7_gmxb_Destroy(gxb);
+  return NULL;
+}
+
+int
+p7_gmxb_Reinit(P7_GMXB *gxb, P7_GBANDS *bnd)
+{
+  int status;
+
+  if (bnd->ncell > gxb->dalloc) {
+    ESL_REALLOC(gxb->dp,  sizeof(float) * bnd->ncell * p7G_NSCELLS); 
+    gxb->dalloc = bnd->ncell;
+  }
+
+  if (bnd->nrow  > gxb->xalloc) {
+    ESL_REALLOC(gxb->xmx, sizeof(float) * bnd->nrow  * p7G_NXCELLS); 
+    gxb->xalloc = bnd->nrow;
+  }
+
+  gxb->bnd = bnd;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+  
+int
+p7_gmxb_Reuse(P7_GMXB *gxb)
+{
+  gxb->bnd = NULL;
+  return eslOK;
+}
+
+
+void
+p7_gmxb_Destroy(P7_GMXB *gxb)
+{
+  if (gxb)
+    {
+      if (gxb->dp)  free(gxb->dp);
+      if (gxb->xmx) free(gxb->xmx);
+      /* gxb->bnd is a reference ptr copy; memory remains caller's responsibility */
+      free(gxb);
+    }
+}
+
+static void
+print_val(FILE *ofp, float val, int width, int precision, int flags)
+{
+  if (flags & p7_SHOW_LOG) val = log(val);
+  fprintf(ofp, "%*.*f ", width, precision, val);
+}
+
+int
+p7_gmxb_Dump(FILE *ofp, P7_GMXB *gxb, int flags)
+{
+  int    g, i, k, x;
+  int   *bnd_ip = gxb->bnd->imem;
+  int   *bnd_kp = gxb->bnd->kmem;
+  float *dp     = gxb->dp;
+  float *xp     = gxb->xmx;
+  int    M      = gxb->bnd->M;
+  int    ia, ib;
+  int    ka, kb;
+  int    width     = 9;
+  int    precision = 4;
+
+
+  /* Header */
+  fprintf(ofp, "     ");
+  for (k = 0; k <= M;  k++)         fprintf(ofp, "%*d ", width, k);
+  if (! (flags & p7_HIDE_SPECIALS)) fprintf(ofp, "%*s %*s %*s %*s %*s\n", width, "E", width, "N", width, "J", width, "B", width, "C");
+
+  fprintf(ofp, "      ");
+  for (k = 0; k <= M; k++)          fprintf(ofp, "%*.*s ", width, width, "----------");
+  if (! (flags & p7_HIDE_SPECIALS)) fprintf(ofp, "%*.*s ", width, width, "----------");
+  fprintf(ofp, "\n");
+
+  i = 0;
+  for (g = 0; g < gxb->bnd->nseg; g++)
+    {
+      ia = *bnd_ip; bnd_ip++;
+      ib = *bnd_ip; bnd_ip++;
+
+      if (ia > i+1) fprintf(ofp, "...\n\n");
+
+      for (i = ia; i <= ib; i++)
+	{
+	  ka = *bnd_kp; bnd_kp++;
+	  kb = *bnd_kp; bnd_kp++;
+
+	  /* match cells */
+	  fprintf(ofp, "%3d M ", i);
+	  for (k = 0; k <  ka; k++) fprintf  (ofp, "%*s ", width, ".....");
+	  for (     ; k <= kb; k++) print_val(ofp, dp[(k-ka)*p7G_NSCELLS + p7G_M],  width, precision, flags);
+	  for (     ; k <= M;  k++) fprintf  (ofp, "%*s ", width, ".....");
+
+	  /* ENJBC specials */
+	  if (! (flags & p7_HIDE_SPECIALS)) {
+	    for (x = 0; x < p7G_NXCELLS; x++)   print_val(ofp, xp[x], width, precision, flags);
+	  }
+	  fprintf(ofp, "\n");
+
+	  /* insert cells */
+	  fprintf(ofp, "%3d I ", i);
+	  for (k = 0; k <  ka; k++) fprintf  (ofp, "%*s ", width, ".....");
+	  for (     ; k <= kb; k++) print_val(ofp, dp[(k-ka)*p7G_NSCELLS + p7G_I], width, precision, flags);
+	  for (     ; k <= M;  k++) fprintf  (ofp, "%*s ", width, ".....");
+	  fprintf(ofp, "\n");
+	  
+	  /* delete cells */
+	  fprintf(ofp, "%3d D ", i);
+	  for (k = 0; k < ka;  k++) fprintf(ofp, "%*s ", width, ".....");
+	  for (     ; k <= kb; k++) print_val(ofp, dp[(k-ka)*p7G_NSCELLS + p7G_D], width, precision, flags);
+	  for (     ; k <= M;  k++) fprintf(ofp, "%*s ", width, ".....");
+	  fprintf(ofp, "\n\n");
+
+	  dp += p7G_NSCELLS * (kb-ka+1);	/* skip ahead to next dp sparse "row" */
+	  xp += p7G_NXCELLS;
+	}
+    }
+  if (i <= gxb->bnd->L) fprintf(ofp, "...\n");
+  return eslOK;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxb.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxb.h
new file mode 100755
index 0000000..3965321
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxb.h
@@ -0,0 +1,26 @@
+#ifndef P7_GMXB_INCLUDED
+#define P7_GMXB_INCLUDED
+
+#include "p7_gbands.h"
+
+
+
+
+typedef struct {
+  float     *dp;
+  float     *xmx;
+  P7_GBANDS *bnd;   /* a reference copy; caller remains responsible for free'ing banding */
+
+  int64_t    dalloc;
+  int        xalloc;
+} P7_GMXB;
+
+extern P7_GMXB *p7_gmxb_Create(P7_GBANDS *bnd);
+extern int      p7_gmxb_Reinit(P7_GMXB *gxb, P7_GBANDS *bnd);
+extern int      p7_gmxb_Reuse(P7_GMXB *gxb);
+extern void     p7_gmxb_Destroy(P7_GMXB *gxb);
+extern int      p7_gmxb_Dump(FILE *ofp, P7_GMXB *gxb, int flags);
+
+extern int p7_GForwardBanded(const ESL_DSQ *dsq, int L, const P7_PROFILE *gm, P7_GMXB *gxb, float *opt_sc);
+
+#endif /*P7_GMXB_INCLUDED*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxchk.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxchk.c
new file mode 100755
index 0000000..95cc72d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxchk.c
@@ -0,0 +1,855 @@
+/* P7_GMXCHK implementation
+ *
+ * Checkpointed forward/backward dynamic programming matrix.
+ * Derived from P7_GMX structure; see p7_gmx.[ch]
+ * 
+ * Contents:
+ *   1. The <P7_GMXCHK> object.
+ *   2. Debugging and testing tools.
+ *   3. Internal (static) routines.
+ *   4. Unit tests.
+ *   5. Test driver.
+ *   6. References.
+ *   7. Copyright and license information.
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <math.h>
+
+#include "hmmer.h"
+#include "p7_gmxchk.h"
+
+
+static int    set_row_layout  (P7_GMXCHK *gxc, int allocL, int maxR);
+static void   set_full        (P7_GMXCHK *gxc, int L);
+static void   set_checkpointed(P7_GMXCHK *gxc, int L, int R);
+static void   set_redlined    (P7_GMXCHK *gxc, int L, double minR);
+
+static double minimum_rows     (int L);
+static double checkpointed_rows(int L, int R);
+
+
+/*****************************************************************
+ *= 1. The <P7_GMXCHK> object
+ *****************************************************************/
+
+/* Function:  p7_gmxchk_Create()
+ * Synopsis:  Allocate a new <P7_GMXCHK> matrix.
+ *
+ * Purpose:   Allocate a new <P7_GMXCHK> matrix sufficient to
+ *            hold the checkpointed forward and two-row backwards
+ *            DP matrices for a comparison of a query model of
+ *            length <M> and a target sequence of length <L>.
+ *            
+ *            Try to keep allocation within <ramlimit> bytes in
+ *            memory.  <ramlimit=ESL_MBYTES(128)>, for example, means
+ *            a recommended RAM limit of 128 MiB. The allocation can
+ *            exceed this, if the <MxL> comparison requires it (if so,
+ *            the matrix is fully checkpointed, minimizing the
+ *            allocation); but any subsequent <p7_gmxchk_GrowTo()>
+ *            call attempting to reuse the matrix will try to
+ *            reallocate it back downwards to the <ramlimit>.
+ *            
+ *            Your choice for <ramlimit> should take into account how
+ *            many parallel threads there are, each with its own
+ *            <P7_GMXCHK> matrix allocation.
+ *            
+ *            By design spec, <M> and <L> are $\leq$ 100000. 
+ *
+ * Args:      M         - query profile size in consensus positions (<=100000)
+ *            L         - target sequence length in residues (<=100000)
+ *            ramlimit  - recommended memory limit in bytes
+ *
+ * Returns:   ptr to new <P7_GMXCHK> object on success.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_GMXCHK *
+p7_gmxchk_Create(int M, int L, int64_t ramlimit)
+{
+  P7_GMXCHK *gxc = NULL;
+  int        maxR;
+  int        r;
+  int        status;
+
+  /* Validity of integer variable ranges may depend on design spec:                         */
+  ESL_DASSERT1( (M        <= 100000) );       /* design spec says, model length M <= 100000 */
+  ESL_DASSERT1( (L        <= 100000) );       /*           ... and,  seq length L <= 100000 */
+
+  /* Level 1 allocation: the structure itself */
+  ESL_ALLOC(gxc, sizeof(P7_GMXCHK));
+  gxc->dp      = NULL;
+  gxc->dp_mem  = NULL;
+
+  /* Set allocR, R{abc}, L{abc} fields: row layout, full vs. checkpointed */
+  gxc->R0          = 3;	                                  /* fwd[0]; bck[prv,cur] */
+  gxc->allocW      = (M+1) * p7G_NSCELLS + p7GC_NXCELLS;  /* M+1 because we're [0..M] in DP columns in generic mx. */
+  gxc->ncell_limit = ramlimit / sizeof(float);
+  maxR             = (int) (gxc->ncell_limit / (int64_t) gxc->allocW); 
+  set_row_layout(gxc, L, maxR);
+  gxc->allocR      = gxc->R0 + gxc->Ra + gxc->Rb + gxc->Rc;
+  gxc->validR      = gxc->allocR;
+
+  /* Level 2 allocations: row pointers and dp cell memory */
+  gxc->ncells = gxc->allocR * gxc->allocW;
+  ESL_ALLOC( gxc->dp_mem, sizeof(float)   * gxc->ncells);
+  ESL_ALLOC( gxc->dp,     sizeof(float *) * gxc->allocR);
+  for (r = 0; r < gxc->allocR; r++) 
+    gxc->dp[r] = gxc->dp_mem + (r * gxc->allocW);
+
+#ifdef p7_DEBUGGING
+  gxc->do_debugging  = FALSE;
+  gxc->dfp           = NULL;
+  gxc->dbg_width     = 9;
+  gxc->dbg_precision = 4;
+  gxc->dbg_flags     = p7_DEFAULT;
+#endif
+
+  gxc->M      = 0;
+  gxc->L      = 0;
+  gxc->R      = 0;
+  return gxc;
+
+ ERROR:
+  if (gxc) p7_gmxchk_Destroy(gxc);
+  return NULL;
+}
+
+/* Function:  p7_gmxchk_GrowTo()
+ * Synopsis:  Resize checkpointed matrix structure for new comparison.
+ *
+ * Purpose:   Given an existing checkpointed matrix structure <gxc>,
+ *            and the dimensions <M> and <L> of a new comparison,
+ *            reallocate and reinitialize <gxc>.
+ *
+ *            Essentially the same as free'ing the previous matrix
+ *            and creating a new one -- but trying to minimize 
+ *            expensive memory allocation/reallocation calls.
+ *            
+ *            If <gxc> is redlined (over its recommended allocation)
+ *            and the new problem size <M,L> can fit in the recommended
+ *            allocation, <gxc> is reallocated to the smaller size.
+ *            
+ * Args:      gxc   - existing checkpointed matrix
+ *            M     - new query profile length
+ *            L     - new target sequence length         
+ * 
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> if an allocation fails. The state of <gxc> is
+ *            now undefined, and the caller should not use it. 
+ */
+int
+p7_gmxchk_GrowTo(P7_GMXCHK *gxc, int M, int L)
+{
+  int W             = (M+1)*p7G_NSCELLS + p7GC_NXCELLS;      /* actual row width in cells; <= allocW */
+  int minR_chk      = (int) ceil(minimum_rows(L)) + gxc->R0; /* minimum number of DP rows needed  */
+  int reset_dp_ptrs = FALSE;
+  int maxR;
+  int r;
+  int status;
+
+  /* Are the current allocations satisfactory ? */
+  if (W <= gxc->allocW && gxc->ncells <= gxc->ncell_limit)
+    {
+      if      (L + gxc->R0 <= gxc->validR) { set_full        (gxc, L);              return eslOK; }
+      else if (minR_chk   <=  gxc->validR) { set_checkpointed(gxc, L, gxc->validR); return eslOK; }
+    }
+
+  /* Do individual matrix rows need to expand? */
+  if ( W > gxc->allocW) 
+    {
+      gxc->allocW   = W;
+      gxc->validR   = (int) (gxc->ncells / (int64_t) gxc->allocW); /* validR must be <= allocR */
+      reset_dp_ptrs = TRUE;
+    }
+
+  /* Does matrix dp_mem need reallocation, either up or down? */
+  maxR  = (int) (gxc->ncell_limit / (int64_t) gxc->allocW);     /* max rows if we use up to the recommended allocation size.      */
+  if ( (gxc->ncells > gxc->ncell_limit && minR_chk <= maxR) ||  /* we were redlined, and recommended alloc will work: so downsize */
+       minR_chk > gxc->validR)				        /* not enough memory for needed rows: so upsize                   */
+    {
+      set_row_layout(gxc, L, maxR); 
+      gxc->validR = gxc->R0 + gxc->Ra + gxc->Rb + gxc->Rc; /* this may be > allocR now; we'll reallocate dp[] next, if so     */
+      gxc->ncells = gxc->validR * gxc->allocW;
+      ESL_REALLOC(gxc->dp_mem, sizeof(float) * gxc->ncells);
+      reset_dp_ptrs = TRUE;
+    }
+  else  /* current validR will suffice, either full or checkpointed; we still need to calculate a layout */
+    {
+      if   (L+gxc->R0 <= gxc->validR) set_full(gxc, L); 
+      else                            set_checkpointed(gxc, L, gxc->validR);
+    }
+
+  /* Does the array of row ptrs need reallocation? */
+  if (gxc->validR > gxc->allocR)
+    {
+      ESL_REALLOC(gxc->dp, sizeof(float *) * gxc->validR);
+      gxc->allocR = gxc->validR;
+      reset_dp_ptrs = TRUE;
+    }
+
+  /* Do the row ptrs need to be reset? */
+  if (reset_dp_ptrs)
+    for (r = 0; r < gxc->validR; r++)
+      gxc->dp[r] = gxc->dp_mem + (r * gxc->allocW);
+
+  gxc->M = 0;
+  gxc->L = 0;
+  gxc->R = 0;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_gmxchk_Sizeof()
+ * Synopsis:  Returns the size of a checkpointed generic DP matrix, in bytes.
+ */
+size_t
+p7_gmxchk_Sizeof(const P7_GMXCHK *gxc)
+{
+  size_t n = 0;
+
+  n += sizeof(P7_GMXCHK);
+  n += gxc->ncells  * sizeof(float);      /* main DP cells  */
+  n += gxc->allocR  * sizeof(float *);	  /* row ptrs       */
+  return n;
+}
+
+/* Function:  p7_gmxchk_Reuse()
+ * Synopsis:  Recycle a checkpointed generic DP matrix.
+ *
+ * Purpose:   Resets the checkpointed generic DP matrix <gxc> for reuse,
+ *            minimizing free/malloc wastefulness. All information
+ *            specific to the DP problem we just computed is
+ *            reinitialized. All allocations (and information about
+ *            those allocations) are preserved.
+ *            
+ *            Caller will still need to call <p7_gmxchk_GrowTo()>
+ *            before each new DP, to be sure that the allocations are
+ *            sufficient, and checkpointed rows are laid out.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gmxchk_Reuse(P7_GMXCHK *gxc)
+{
+  gxc->M = 0;
+  gxc->L = 0;
+  gxc->R = 0;
+  /* the following aren't strictly necessary, in correct code, because
+   * GrowTo() will reset them 
+   */
+  gxc->R0 = 3;
+  gxc->Ra = 0;
+  gxc->Rb = 0;
+  gxc->Rc = 0;
+  gxc->La = 0;
+  gxc->Lb = 0;
+  gxc->Lc = 0;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_gmxchk_Destroy()
+ * Synopsis:  Frees a checkpointed generic DP matrix.
+ *
+ * Purpose:   Free the checkpointed generic DP matrix <gxc>.
+ *            <gxc> may be <NULL> or incompletely allocated.
+ */
+void
+p7_gmxchk_Destroy(P7_GMXCHK *gxc)
+{
+  if (gxc)
+    {
+      if (gxc->dp_mem) free(gxc->dp_mem);
+      if (gxc->dp)     free(gxc->dp);
+      free(gxc);
+    }
+}
+/*-------------- end, P7_GMXCHK object --------------------------*/
+
+
+
+
+/*****************************************************************
+ *= 2. Debugging and testing tools
+ *****************************************************************/
+#if p7_DEBUGGING
+
+/* Function:  p7_gmxchk_Dump()
+ * Synopsis:  Dump a checkpointed DP matrix to a stream.
+ *
+ * Purpose:   Dump checkpointed DP Forward matrix <gxc> to stream <fp>
+ *            for diagnostics.
+ *
+ *            Caller first calls <p7_GForwardCheckpointed()> to create
+ *            the checkpointed matrix <gxc>; then <p7_gmxchk_Dump()> 
+ *            to dump all or part of it.
+ *            
+ *            <flags> control some optional output behavior, as follows:
+ *            | <p7_HIDE_SPECIALS> | don't show scores for <ENJBC> states |
+ *            | <p7_SHOW_LOG>      | <gxc> is in probs; show as log probs |
+ *            Or, passing <p7_DEFAULT> means no flags.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gmxchk_Dump(FILE *ofp, P7_GMXCHK *gxc, int flags)
+{
+  int   kstart    = 0;		/* kstart,kend: make it easy to convert to a DumpWindow() sometime */
+  int   kend      = gxc->M;
+  int   i, r, b, w;
+  int   status;
+  
+  p7_gmxchk_DumpHeader(ofp, gxc, kstart, kend, flags);
+
+  for (i = 0, r = gxc->R0-1; i <= gxc->La; i++, r++)
+    if ((status = p7_gmxchk_DumpRow(ofp, gxc, gxc->dp[r], i, kstart, kend, flags)) != eslOK) return status;
+
+  for (b = gxc->Rb + gxc->Rc, w = gxc->Lb; i <= gxc->L; i++)
+    {
+      if (!(--w)) { 
+	w = b--;
+	if ((status = p7_gmxchk_DumpRow(ofp, gxc, gxc->dp[r], i, kstart, kend, flags)) != eslOK) return status;
+	r++;
+      }
+    }
+  return eslOK;
+}
+
+/* Function:  p7_gmxchk_SetDumpMode()
+ * Synopsis:  Set matrix to be dumped one row at a time in Backwards pass.
+ *
+ * Purpose:   Set matrix <gxc> so that Backwards pass will dump it one
+ *            row at a time, in reverse order. (The Backwards pass only
+ *            keeps two rows of the Backward matrix in memory at any 
+ *            time, so you can't calculate first then dump the whole thing,
+ *            as you can with the Forward matrix.)
+ *
+ *            Caller first calls <p7_gmxchk_SetDumpMode()>, then calls the
+ *            <p7_GBackwardCheckpointed()> calculation. <p7_BackwardCheckpointed()> 
+ *            will then dump the header and each row to <ofp>.
+ *
+ *            If <ofp> is <NULL>, dumping is turned off.
+ *
+ *            <flags> control some optional output behavior, as follows:
+ *            | <p7_HIDE_SPECIALS> | don't show scores for <ENJBC> states |
+ *            | <p7_SHOW_LOG>      | <gxc> is in probs; show as log probs |
+ *            Or, passing <p7_DEFAULT> means no flags.
+ *            If <ofp> is <NULL>, <flags> has no effect.
+ *
+ * Args:      gxc   - checkpointed dp matrix we want to be dumping
+ *            ofp   - open stream for diagnostics, to set;
+ *                    or <NULL>, to unset dumping.
+ *            flags - see above.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gmxchk_SetDumpMode(P7_GMXCHK *gxc, FILE *ofp, int flags)
+{
+  if (ofp) {
+    gxc->do_debugging = TRUE;
+    gxc->dfp          = ofp;
+    gxc->dbg_flags    = flags;
+  } else {
+    gxc->do_debugging = FALSE;
+    gxc->dfp          = NULL;
+    gxc->dbg_flags    = 0;
+  }
+  return eslOK;
+}
+
+
+/* Function:  p7_gmxchk_DumpHeader()
+ * Synopsis:  Dump the header for a dumped checkpointed DP mx to stream.
+ *
+ * Purpose:   Write the header (matrix column labels) for checkpointed
+ *            DP matrix <gxc> to stream <fp> for diagnostics.
+ *
+ *            This either gets called by <p7_gmxchk_Dump()> for a Forward
+ *            matrix, or by <p7_GBackwardCheckpointed()> when debugging
+ *            and about to start dumping a backwards matrix one row at a 
+ *            time.
+ *
+ *            <flags> control some optional output behavior, as follows:
+ *            | <p7_HIDE_SPECIALS> | don't show scores for <ENJBC> states |
+ *            | <p7_SHOW_LOG>      | <gxc> is in probs; show as log probs |
+ *
+ * Args:      ofp     - stream we're dumping diagnostics to (typically stdout)
+ *            gxc     - checkpointed matrix we're dumping
+ *            kstart  - start on profile columns 0..M (typically 0)
+ *            kend    - end on profile columns 0..M (typically M)
+ *            flags   - see above (typically <p7_DEFAULT>)
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_gmxchk_DumpHeader(FILE *ofp, P7_GMXCHK *gxc,  int kstart, int kend, int flags)
+{
+  int width = gxc->dbg_width;
+  int k,x;
+
+  fprintf(ofp, "     ");
+  for (k = kstart; k <= kend;  k++) fprintf(ofp, "%*d ", width, k);
+  if (! (flags & p7_HIDE_SPECIALS)) fprintf(ofp, "%*s %*s %*s %*s %*s %*s %*s\n", width, "E", width, "N", width, "JJ", width, "J", width, "B", width, "CC", width, "C");
+  fprintf(ofp, "      ");
+  for (k = kstart; k <= kend; k++)  fprintf(ofp, "%*.*s ", width, width, "----------");
+  if (! (flags & p7_HIDE_SPECIALS)) 
+    for (x = 0; x < 5; x++) fprintf(ofp, "%*.*s ", width, width, "----------");
+  fprintf(ofp, "\n");
+  return eslOK;
+}
+
+
+/* Function:  p7_gmxchk_DumpRow()
+ * Synopsis:  Dump one row of a checkpointed DP matrix for diagnostics.
+ *
+ * Purpose:   Dump the row that <dpc> points to, from checkpointed
+ *            matrix <gxc>, to stream <ofp> for debugging/diagnostics.
+ *            Label the row by position <i> (typically 0..L+1) in
+ *            the target. 
+ *
+ *            The meaning of <flags> is the same as in <p7_gmxchk_Dump()>.
+ *
+ * Args:     ofp    - stream to dump output to
+ *           gxc    - checkpointed DP matrix
+ *           dpc    - ptr to DP matrix row: gxc->dp[r] or gxc->dp[0|1]
+ *           i      - position on target sequence (0,1..L,L+1)
+ *           kstart - start of dump window on query profile coords: 1..gxc->M
+ *           kend   - end of dump window on query profile coords:  1..gxc->M
+ *           flags  - option flags passed in from <p7_gmxchk_Dump()>
+ *
+ * Returns:  <eslOK> on success. 
+ */
+int
+p7_gmxchk_DumpRow(FILE *ofp, P7_GMXCHK *gxc, float *dpc, int i, int kstart, int kend, int flags)
+{
+  int   width     = gxc->dbg_width;
+  int   precision = gxc->dbg_precision;
+  float val;
+  int   k, x;
+  int   xoffset   = (gxc->M+1)*p7G_NSCELLS; /* [ENJBC] cells start at this offset on each row. */
+  
+  fprintf(ofp, "%3d M ", i);
+  for (k = kstart; k <= kend;        k++)  
+    {
+      val = dpc[k * p7G_NSCELLS + p7G_M];
+      if (flags & p7_SHOW_LOG) val = log(val);
+      fprintf(ofp, "%*.*f ", width, precision, val);
+    }
+
+  if (! (flags & p7_HIDE_SPECIALS))
+    {
+      for (x = 0; x < p7GC_NXCELLS; x++) 
+	{
+	  val = dpc[xoffset + x];
+	  if (flags & p7_SHOW_LOG) val = log(val);
+	  fprintf(ofp, "%*.*f ", width, precision, val);
+	}
+    }
+  fprintf(ofp, "\n");
+
+  fprintf(ofp, "%3d I ", i);
+  for (k = kstart; k <= kend; k++) 
+    {
+      val = dpc[k * p7G_NSCELLS + p7G_I];
+      if (flags & p7_SHOW_LOG) val = log(val);
+      fprintf(ofp, "%*.*f ", width, precision, val);
+    }
+  fprintf(ofp, "\n");
+  
+  fprintf(ofp, "%3d D ", i);
+  for (k = kstart; k <= kend; k++) 
+    {
+      val =  dpc[k * p7G_NSCELLS + p7G_D];
+      if (flags & p7_SHOW_LOG) val = log(val);
+      fprintf(ofp, "%*.*f ", width, precision, val);
+    }
+  fprintf(ofp, "\n\n");		
+  return eslOK;
+}
+#endif /* p7_DEBUGGING */
+/*------------- end, debugging and testing tools ----------------*/
+
+
+
+/*****************************************************************
+ * 3. Internal routines
+ *****************************************************************/
+
+/* set_row_layout()
+ *
+ * Determines the size of the a,b,c regions ("all", "between",
+ * "checkpointed") of rows in the DP matrix. 
+ *
+ * Caller has already set <gxc->allocW> and <gxc->R0>. <gxc->allocW>,
+ * the row width, is something $\geq$ <allocM>+1.  <gxc->R0> is the number
+ * of extra rows needed: here 3, (two bck[cur,prv], one boundary
+ * fwd[0]).
+ * 
+ * Upon return, we've set the R{0abc} and L{abc} fields in the <gxc>
+ * structure.
+ * 
+ * Design spec says <allocM> <= 100000, <allocL> <= 100000.
+ * 
+ * <maxR> is the maximum number of rows the caller wants to use. 
+ * We will exceed this for one comparison if absolutely necessary, but
+ * the next <_Reuse()> call will bring the allocation
+ * back down.
+ * 
+ * So there's three possibilities:
+ *  1. A full matrix fits into our recommended max memory use.
+ *  2. A checkpointed matrix fits into our recommended memory.
+ *     Make as much of the matrix uncheckpointed as we can,
+ *     using every row in maxR.
+ *  3. We can't satisfy the recommended max memory, even fully
+ *     checkpointed. Make a fully checkpointed matrix, in which
+ *     R0+Ra+Rb+Rc will exceed maxR, and caller will have to 
+ *     allocate ("redlined").
+ */
+static int
+set_row_layout(P7_GMXCHK *gxc, int allocL, int maxR)
+{
+  double Rbc      = minimum_rows(allocL);               
+  int    minR_chk = gxc->R0 + (int) ceil(Rbc);	          /* min # rows we need for checkpointing          */
+  int    minR_all = gxc->R0 + allocL;		          /* min # rows we need for full matrix            */
+
+  if      (minR_all <= maxR) set_full        (gxc, allocL);
+  else if (minR_chk <= maxR) set_checkpointed(gxc, allocL, maxR);
+  else                       set_redlined    (gxc, allocL, Rbc);
+
+  return eslOK;
+}
+
+/* A "full" matrix is easy: Ra = La = L, using Ra+R0 <= maxR rows total.
+ */
+static void
+set_full(P7_GMXCHK *gxc, int L)
+{
+  gxc->Ra     = L;
+  gxc->Rb     = 0;
+  gxc->Rc     = 0;
+  gxc->La     = L;
+  gxc->Lb     = 0;
+  gxc->Lc     = 0;
+}
+
+/* If we can fit a checkpointed matrix into maxR rows, 
+ * then the trick is to use all maxR rows, and make the
+ * "a" region (all rows kept) as large as possible, to
+ * minimize computation. This means solving a little
+ * quadratic equation for Rb+Rc given L and maxR: see
+ * <checkpointed_rows()> for that solution.
+ */
+static void
+set_checkpointed(P7_GMXCHK *gxc, int L, int R)
+{
+  double Rbc = checkpointed_rows(L, R-gxc->R0);
+  double Rc  = floor(Rbc);
+
+  gxc->Rc     = (int) Rc;
+  gxc->Rb     = (Rbc > Rc ? 1 : 0);
+  gxc->Ra     = R - gxc->Rb - gxc->Rc - gxc->R0;
+  gxc->Lc     = ((gxc->Rc + 2) * (gxc->Rc + 1)) / 2 - 1;
+  gxc->La     = gxc->Ra;
+  gxc->Lb     = L - gxc->La - gxc->Lc;
+}   
+
+
+/* If we can't fit in maxR rows, then we checkpoint
+ * the entire matrix; R0+Ra+Rb+Rc > maxR.
+ */
+static void
+set_redlined(P7_GMXCHK *gxc, int L, double minR)
+{
+  double Rc = floor(minR);
+
+  gxc->Rc     = (int) Rc;
+  gxc->Rb     = (minR > Rc ? 1 : 0);
+  gxc->Ra     = 0;
+  gxc->Lc     = ((gxc->Rc + 2) * (gxc->Rc + 1)) / 2 - 1;
+  gxc->La     = 0;
+  gxc->Lb     = L - gxc->La - gxc->Lc;
+}
+
+/* minimum_rows()
+ * 
+ * Calculate the minimum number of rows needed to checkpoint a
+ * forward matrix for a sequence of length L, exclusive of 
+ * other constant row overhead (R0: two backwards rows, fwd[0]
+ * initial row).
+ * 
+ * This value is a double; if it has a fraction, a partial checkpoint
+ * block ("b" region) is needed, as in this typical code:
+ *    Rbc  = minimum_rows(L);
+ *    Rc   = floor(Rbc);
+ *    Rb   = (Rbc > Rc ? 1 : 0);
+ *    minR = (int) ceil(Rbc);    // or, Rc+Rb
+ */
+static double 
+minimum_rows(int L)
+{
+  return (sqrt(9. + 8. * (double) L) - 3.) / 2.;
+}
+
+/* checkpointed_rows()
+ * 
+ * Given L and maxR, solve for the number of checkpointed
+ * rows (Rb+Rc) we need. The value is a double; if it has
+ * a fractional part, then a partial checkpoint block is
+ * needed, Rb==1.
+ * 
+ * This equation is obtained by solving 
+ *     L = Ra + (Rbc +2)(Rbc+1)/2 - 1
+ * for Rbc (i.e. Rb+Rc) using the quadratic equation,
+ * after substitution Ra = (maxR - Rbc - R0) to get
+ * Rbc in terms of L,maxR.
+ */
+static double
+checkpointed_rows(int L, int R)
+{
+  return (sqrt(1. + 8. * (double) (L - R)) - 1.) / 2.;
+}
+/*----------------- end, internals ------------------------------*/
+
+
+
+/*****************************************************************
+ * 4. Unit tests.
+ *****************************************************************/
+#ifdef p7GMXCHK_TESTDRIVE
+
+/* Use the "idiomatic" traversal patterns for Forward and Backward to
+ * write a test pattern into a DP matrix on the Forward pass, then
+ * read it back in the Backwards pass. The test pattern numbers each
+ * cell 0..ntot-1, for <ntot> total cells used in the DP matrix.
+ * 
+ * This test pattern can catch a variety of bad layout issues in
+ * p7_gmxchk_GrowTo() and p7_gmxchk_Create(), and also serves as 
+ * a partial example of the "idiomatic traversal patterns" for
+ * a checkpointed data structure.
+ */
+static void
+utest_testpattern(P7_GMXCHK *gxc, int M, int L)
+{
+  char   msg[] = "testpattern failed";
+  int    n;
+  int    ntot;
+  int    b, w, i, k, s, r;
+  float *dpc;
+
+  if (L != gxc->La + gxc->Lb + gxc->Lc) esl_fatal(msg);
+  
+  /* The test pattern will count cells in the checkpointed matrix,
+   * including bck rows 0,1 and row 0/col 0 boundary conditions
+   */
+  ntot = (gxc->R0+gxc->Ra+gxc->Rb+gxc->Rc) * ( (M+1)*p7G_NSCELLS + p7GC_NXCELLS);
+  n    = 0;
+
+  /* Write a test pattern, via idiomatic forward traversal */
+  /* The Backwards and initialization rows 0..2 */
+  for (r = 0; r < gxc->R0; r++)
+    {
+      dpc = gxc->dp[r]; 
+      for (k = 0; k <= M; k++) 
+	for (s = 0; s < p7G_NSCELLS; s++)  { *dpc = n++; dpc++; }
+      for (s = 0; s < p7GC_NXCELLS; s++)    { *dpc = n++; dpc++; }
+    }
+
+  /* Phase one: "a" region; uncheckpointed rows of the matrix */
+  for (i = 1, gxc->R = 0; i <= gxc->La; i++)
+    {
+      dpc = gxc->dp[gxc->R0+gxc->R]; gxc->R++;
+      for (k = 0; k <= M; k++)
+	for (s = 0; s < p7G_NSCELLS; s++) { *dpc = n++; dpc++;  }
+      for (s = 0; s < p7GC_NXCELLS; s++)   { *dpc = n++; dpc++;  }
+    }
+  if (gxc->R != gxc->Ra)   esl_fatal(msg);
+
+  /* Phase two: "b" and "c" regions: partially and fully checkpointed */
+  for (b = gxc->Rb + gxc->Rc, w = (gxc->Rb ? gxc->Lb : gxc->Rc+1); i <= L; i++)
+    {
+      if (! (--w))
+	{
+	  dpc = gxc->dp[gxc->R0+gxc->R]; gxc->R++;
+	  w   = b--;
+
+	  /* A checkpointed row: write test pattern */
+	  for (k = 0; k <= M; k++)
+	    for (s = 0; s < p7G_NSCELLS; s++) { *dpc = n++; dpc++; }
+	  for (s = 0; s < p7GC_NXCELLS; s++)   { *dpc = n++; dpc++; }
+	}
+    }
+  if (i      != L+1)                     esl_fatal(msg);
+  if (gxc->R != gxc->Ra+gxc->Rb+gxc->Rc) esl_fatal(msg);
+  if (n      != ntot)                    esl_fatal(msg);
+
+  /* Now read the test pattern back, using idiomatic Backward traversal */
+  n = ntot;
+  for (i = L, b = 1; b <= gxc->Rb + gxc->Rc; b++)
+    {
+      w = (b <= gxc->Rc ? b+1 : gxc->Lb);
+      
+      /* The current row ends a block and is checkpointed: 
+       *  read backwards in both xmx and the checkpointed row
+       */
+      gxc->R--;
+      dpc = gxc->dp[gxc->R0+gxc->R] + (M+1)*p7G_NSCELLS + p7GC_NXCELLS - 1; /* dpc now on last cell in row */
+      for (s = p7GC_NXCELLS-1; s >= 0; s--)   { if (*dpc != --n) esl_fatal(msg); dpc--; }
+      for (k = M; k >= 0; k--)
+	for (s = p7G_NSCELLS-1; s >= 0; s--) { if (*dpc != --n) esl_fatal(msg); dpc--; }
+      
+      /* in most backwards traversals, now we'd compute
+       * Forwards rows from i2=i-w+1..i-1... 
+       */
+
+      /* and then we'd compute a Backwards pass from rows
+       * i-1 up to i-w+1.
+       */
+
+      i -= w;	/* a checkpointed block of width <w> is done. */
+    }
+  if (i != gxc->La) esl_fatal(msg);
+  
+  /* The "a" region of the backwards traversal: every row is saved. */
+  for ( ; i >= 1; i--)
+    {
+      gxc->R--;			
+      dpc = gxc->dp[gxc->R0+gxc->R] + (M+1)*p7G_NSCELLS + p7GC_NXCELLS - 1; /* dpc now on last cell in row */
+      for (s = p7GC_NXCELLS-1; s >= 0; s--)   { if (*dpc != --n) esl_fatal(msg); dpc--; }
+      for (k = M; k >= 0; k--)
+	for (s = p7G_NSCELLS-1; s >= 0; s--) { if (*dpc != --n) esl_fatal(msg); dpc--; }
+    }
+  
+  /* The R0 rows, boundary condition. */
+  for (r = gxc->R0-1; r >= 0; r--)
+    {
+      dpc = gxc->dp[r] + (M+1)*p7G_NSCELLS + p7GC_NXCELLS - 1; /* dpc now on last cell in row */
+      for (s = p7GC_NXCELLS-1; s >= 0; s--)   { if (*dpc != --n) esl_fatal(msg); dpc--; }
+      for (k = M; k >= 0; k--)
+	for (s = p7G_NSCELLS-1; s >= 0; s--) { if (*dpc != --n) esl_fatal(msg); dpc--; }
+    }
+}
+
+/* utest_GrowTo()
+ * 
+ * Exercises a variety of matrix expansion/contraction,
+ * writing the test pattern each time.
+ */
+static void
+utest_GrowTo(void)
+{
+  int M, L;
+  P7_GMXCHK *gxc = NULL;
+
+  M = 20;  L = 20;  gxc = p7_gmxchk_Create(M, L, 0); utest_testpattern(gxc, M, L);
+  M = 40;  L = 20;  p7_gmxchk_GrowTo(gxc, M, L);     utest_testpattern(gxc, M, L);
+  M = 40;  L = 40;  p7_gmxchk_GrowTo(gxc, M, L);     utest_testpattern(gxc, M, L);
+  M = 80;  L = 10;  p7_gmxchk_GrowTo(gxc, M, L);     utest_testpattern(gxc, M, L);
+  M = 10;  L = 80;  p7_gmxchk_GrowTo(gxc, M, L);     utest_testpattern(gxc, M, L);
+  M = 100; L = 100; p7_gmxchk_GrowTo(gxc, M, L);     utest_testpattern(gxc, M, L);
+  p7_gmxchk_Destroy(gxc);
+
+  M = 20;  L = 20;  gxc = p7_gmxchk_Create(M, L, ESL_MBYTES(32)); utest_testpattern(gxc, M, L);
+  M = 40;  L = 20;  p7_gmxchk_GrowTo(gxc, M, L);      utest_testpattern(gxc, M, L);
+  M = 40;  L = 40;  p7_gmxchk_GrowTo(gxc, M, L);      utest_testpattern(gxc, M, L);
+  M = 80;  L = 10;  p7_gmxchk_GrowTo(gxc, M, L);      utest_testpattern(gxc, M, L);
+  M = 10;  L = 80;  p7_gmxchk_GrowTo(gxc, M, L);      utest_testpattern(gxc, M, L);
+  M = 100; L = 100; p7_gmxchk_GrowTo(gxc, M, L);      utest_testpattern(gxc, M, L);
+  p7_gmxchk_Destroy(gxc);
+}
+
+#endif /*p7GMXCHK_TESTDRIVE*/
+/*---------------------- end, unit tests ------------------------*/
+
+/*****************************************************************
+ * 5. Test driver.
+ *****************************************************************/
+#ifdef p7GMXCHK_TESTDRIVE
+/*
+  gcc -o p7_gmxchk_utest -msse2 -g -Wall -I. -L. -I../easel -L../easel -Dp7GMXCHK_TESTDRIVE p7_gmxchk.c -lhmmer -leasel -lm
+  ./p7_gmxchk_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <math.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+
+#include "hmmer.h"
+#include "p7_gmxchk.h"
+
+static ESL_OPTIONS options[] = {
+  /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  { "-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                  0},
+  { "-s",  eslARG_INT,     "42",  NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",        0 },
+  { "-L",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled sequences",          0 },
+  { "-M",  eslARG_INT,     "40",  NULL, NULL, NULL, NULL, NULL, "length of sampled test profile",       0 },
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for p7_gmxchk.c";
+
+int 
+main(int argc, char **argv)
+{
+  char           *msg  = "p7_gmxchk unit test driver failed";
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_BG          *bg   = p7_bg_Create(abc);
+  P7_HMM         *hmm  = NULL;
+  P7_PROFILE     *gm   = NULL;
+  int             M    = esl_opt_GetInteger(go, "-M");
+  int             L    = esl_opt_GetInteger(go, "-L");
+
+  p7_FLogsumInit();
+
+  if (p7_hmm_Sample(r, M, abc, &hmm)             != eslOK) esl_fatal(msg);
+  if ((gm = p7_profile_Create(hmm->M, abc))      == NULL)  esl_fatal(msg);
+  if (p7_bg_SetLength(bg, L)                     != eslOK) esl_fatal(msg);
+  if (p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL) != eslOK) esl_fatal(msg);
+
+  utest_GrowTo();
+
+  esl_getopts_Destroy(go);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_profile_Destroy(gm);
+  return eslOK;
+}
+#endif /*p7GMXCHK_TESTDRIVE*/
+/*---------------------- end, test driver  ----------------------*/
+
+/* 
+ * References:
+ *   SRE J8/109-112, Oct 2011: implementation plan.
+ */
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id$
+ * SVN $URL$
+ *****************************************************************/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxchk.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxchk.h
new file mode 100755
index 0000000..ca56651
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_gmxchk.h
@@ -0,0 +1,197 @@
+/* P7_GMXCHK implementation
+ *
+ * Checkpointed forward/backward dynamic programming matrix.
+ *
+ * Contents:
+ *   1. Exegesis: layout of rows in a checkpointed matrix.
+ *   2. Exegesis: layout of cells in a single DP row.
+ *   3. The P7_GMXCHK data structure.
+ *   4. Declarations for the p7_gmxchk API
+ *   5. References. 
+ *   6. Copyright and license.
+ */
+#ifndef P7_GMXCHK_INCLUDED
+#define P7_GMXCHK_INCLUDED
+
+#include "p7_config.h"
+
+/*****************************************************************
+ * 1. Exegesis: layout of rows in a checkpointed matrix.
+ *****************************************************************/
+
+/* 
+ * One P7_GMXCHK data structure is used for both Forward and Backward
+ * computations on a target sequence. The Forward calculation is
+ * checkpointed. The Backward calculation is linear memory in two
+ * rows. The end result is a Forward score and a posterior-decoded set
+ * of DP bands.
+ *
+ * In the diagram below, showing the row layout for the main matrix (MDI states):
+ *   O = a checkpointed row; 
+ *   x = row that isn't checkpointed;
+ *   * = boundary row 0, plus row(s) used for Backwards
+ * 
+ *   i = index of residues in a target sequence of length L
+ *   r = index of rows in the DP matrix, R0+R in total
+ *
+ *               |------------------------- L -------------------------------|   
+ *               |-----La----| |-Lb-| |-------------- Lc --------------------|
+ * i =  .  .  0  1  2  3  4  5  6  7  8  9 10 11 12 13 14 15 16 17 18 19 20 21
+ *      *  *  *  O  O  O  O  O  x  O  x  x  x  x  O  x  x  x  O  x  x  O  x  O
+ * r =  0  1  2  3  4  5  6  7  .  8  .  .  .  .  9  .  .  . 10  .  . 11  . 12
+ *      |--R0-|  |-----Ra----| |-Rb-| |-------------- Rc --------------------|
+ *               |------------------------- R -------------------------------|   
+ *   
+ * There are four regions in the rows:
+ *    region 0 (R0)                : boundary row 0, and Backwards' two rows
+ *    region a ("all"; Ra)         : all rows are kept (no checkpointing)
+ *    region b ("between"; Rb)     : partially checkpointed
+ *    region c ("checkpointed; Rc) : fully checkpointed
+ *   
+ * In region a, La = Rb
+ * In region b, Rb = 0|1, Lb = 0..Rc+1
+ *              more specificially: (Rb=0 && Lb=0) || (Rb=1 && 1 <= Lb <= Rc+1)
+ * In region c, Lc = {{Rc+2} \choose {2}}-1 = (Rc+2)(Rc+1)/2 - 1
+ * 
+ * In this example:
+ *    R0 = 3
+ *    Ra = 5  La = 5
+ *    Rb = 1  La = 2
+ *    Rc = 4  Lc = 14
+ *                                                             
+ * In checkpointed regions, we refer to "blocks", often indexed
+ * <b>.  There are Rb+Rc blocks, and each block ends in a checkpointed
+ * row. The "width" of each block, often called <w>, decrements from
+ * Rc+1 down to 2 in the fully checkpointed region.
+ *
+ * The reason to mix checkpointing and non-checkpointing is that we
+ * use as many rows as we can, given a set memory ceiling, to minimize
+ * computation time.
+ * 
+ * The special states (ENJBC) are kept in xmx for all rows 1..L, just
+ * as in a normal (uncheckpointed) P7_GMX.
+ */
+
+
+
+/*****************************************************************
+ * 2. Exegesis: layout of rows in a checkpointed matrix.
+ *****************************************************************/
+
+/* Layout of memory in a single DP row:
+ * 
+ *  dpc:   [M  I  D] [M  I  D] [M  I  D]  ...  [M  I  D]  [E  N  JJ  J  B  CC  C]
+ *    k:   |-- 0 --| |-- 1 --| |-- 2 --|  ...  |-- M --|  
+ *         |------------- (M+1)*p7G_NSCELLS -----------|  |---- p7GC_NXCELLS ---|
+ *
+ *  Row dp[r] = gxc->dp_mem+(r*allocW) = dpc
+ *  Main state s={MID} at node k={0..M}: dpc[k*p7G_NSCELLS+s]   
+ *  Special state s={ENJBC,CC,JJ}:       dpc[(M+1)*p7G_NSCELLS+s]
+ *  
+ *  We need to store "JJ" and "CC" states -- the partial path
+ *  probabilities from C(i-1)->C and J(i-1)->J -- because the
+ *  checkpointed implementation does not necessarily have access to
+ *  values on row i-1 when it does posterior decoding. <p7G_NXCELLS>
+ *  from <P7_GMX> is replaced by <p7GC_NXCELLS> in <P7_GMXCHK>, and
+ *  <enum p7g_xcells_e> from 0..4 {ENJBC} with <p7gc_xcells_e> from
+ *  0..6 {E,N,JJ,J,B,CC,C}.
+ */
+
+
+/*****************************************************************
+ * 3. The P7_GMXCHK data structure.
+ *****************************************************************/
+
+/* p7GC_NXCELLS and p7gc_xcells_e
+ * 
+ * For main states we share p7G_NSCELLS and p7G_{MID} with P7_GMX.
+ * For special states, we replace <enum p7g_xcells_e> with an array
+ * that inserts CC and JJ cells, which the checkpointed implementation
+ * needs. (See note 2 above.) Note that the order of the p7GC_{X}
+ * special states is not the same as p7G_{X}, so they should not be
+ * mixed.
+ */
+enum p7gc_xcells_e {
+  p7GC_E  = 0,
+  p7GC_N  = 1,
+  p7GC_JJ = 2,
+  p7GC_J  = 3,
+  p7GC_B  = 4,
+  p7GC_CC = 5,
+  p7GC_C  = 6
+};
+#define p7GC_NXCELLS 7
+
+
+typedef struct p7_gmxchk_s {
+  int      M;	        /* actual query model dimension of current comparison                 */
+  int      L;	        /* actual target sequence dimension of current comparison             */
+  int      R;	        /* actual # rows in current fwd matrix (<= Ra+Rb+Rc), excluding R0    */
+  
+  /* Checkpointed layout, mapping rows 1..R to residues 1..L:                                 */
+  int      R0;	        /* # of extra rows: one for fwd[0] boundary, two for bck[prv,cur]     */
+  int      Ra;	        /* # of rows used in "all" region (uncheckpointed)                    */
+  int      Rb;	        /* # of rows in "between" region (one incomplete checkpoint segment)  */
+  int      Rc;	        /* # of rows in "checkpointed" region                                 */
+  int      La;	        /* residues 1..La are in "all" region                                 */
+  int      Lb;      	/* residues La+1..La+Lb are in "between" region                       */
+  int      Lc;	        /* residues La+Lb+1..La+Lb+Lc=L are in "checkpointed" region          */
+
+  float   *dp_mem;	/* raw memory allocation, that dp[] rows point into                         */
+  int      allocW;	/* allocated width/row, in cells ((M+1)*p7G_NSCELLS+p7G_NXCELLS) <= allocW) */
+  int64_t  ncells;	/* total # of alloc'ed cells: ncells >= (validR)(allocW)                    */
+  int64_t  ncell_limit;	/* recommended RAM limit on dp_mem; can temporarily exceed it               */
+
+  float  **dp;		/* DP row pointers, dp[0..R0-1,R0..R0+R-1]. See note above for layout.      */
+  int      allocR;	/* allocated size of dp[]. R+R0 <= R0+Ra+Rb+Rc <= validR <= allocR          */
+  int      validR;	/* # of rows pointing at DP memory; may be < allocR after a GrowTo() call   */ 
+
+  /* Info for debugging mode (conditionally compiled)                              */
+#ifdef p7_DEBUGGING 
+  int      do_debugging;	/* TRUE if we're in debugging mode                 */
+  FILE    *dfp;			/* output stream for debugging diagnostics         */
+  int      dbg_width;		/* cell values in diagnostic output are fprintf'ed */
+  int      dbg_precision;       /*     dfp, "%*.*f", dbg_width, dbg_precision, val */ 
+  int      dbg_flags;		/* p7_DEFAULT | p7_HIDE_SPECIALS | p7_SHOW_LOG     */
+#endif
+} P7_GMXCHK;
+
+#define MMR(p, k) ((p)[(k)* p7G_NSCELLS + p7G_M])
+#define IMR(p, k) ((p)[(k)* p7G_NSCELLS + p7G_I])
+#define DMR(p, k) ((p)[(k)* p7G_NSCELLS + p7G_D])
+#define XMR(p, s) ((p)[(M+1)* p7G_NSCELLS + s])
+
+/*****************************************************************
+ * 4. Declarations of the p7_gmxchk API
+ *****************************************************************/
+
+extern P7_GMXCHK *p7_gmxchk_Create (int M, int L, int64_t ramlimit);
+extern int        p7_gmxchk_GrowTo (P7_GMXCHK *gxc, int M, int L);
+extern size_t     p7_gmxchk_Sizeof (const P7_GMXCHK *gxc);
+extern int        p7_gmxchk_Reuse  (P7_GMXCHK *gxc);
+extern void       p7_gmxchk_Destroy(P7_GMXCHK *gxc);
+
+extern int        p7_gmxchk_Dump(FILE *ofp, P7_GMXCHK *gxc, int flags);
+extern int        p7_gmxchk_SetDumpMode(P7_GMXCHK *gxc, FILE *ofp, int flags);
+extern int        p7_gmxchk_DumpHeader(FILE *ofp, P7_GMXCHK *gxc,  int kstart, int kend, int flags);
+extern int        p7_gmxchk_DumpRow(FILE *ofp, P7_GMXCHK *gxc, float *dpc, int i, int kstart, int kend, int flags);
+
+/* 
+ * References:
+ *    SRE:J8/109-112, Oct 2011: Implementation plan
+ */
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id$
+ * SVN $URL$
+ *****************************************************************/
+
+#endif /*P7_GMXCHK_INCLUDED*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmm.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmm.c
new file mode 100755
index 0000000..e264b5c
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmm.c
@@ -0,0 +1,1441 @@
+/* The Plan7 core HMM data structure.
+ * 
+ * Contents:
+ *   1. The P7_HMM object: allocation, initialization, destruction.
+ *   2. Convenience routines for setting fields in an HMM.
+ *   3. Renormalization and rescaling counts in core HMMs.
+ *   4. Debugging and development code.
+ *   5. Other routines in the API.
+ *   6. Unit tests.
+ *   7. Test driver. 
+ *   8. Copyright and license.
+ * 
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_vectorops.h"
+#include "esl_random.h"
+#include "esl_dirichlet.h"
+
+#include "hmmer.h"
+
+
+
+
+/*****************************************************************
+ *# 1. The P7_HMM object: allocation, initialization, destruction.
+ *****************************************************************/
+
+/* Function:  p7_hmm_Create()
+ * Synopsis:  Allocate a new <P7_HMM>.
+ *
+ * Purpose:   Allocate a <P7_HMM> of <M> nodes, for symbol
+ *            alphabet <abc>, and return a pointer to it.
+ *            
+ *            The HMM only keeps a copy of the <abc> alphabet
+ *            pointer. The caller is responsible for providing the
+ *            alphabet, keeping it around while the HMM is in use,
+ *            and (eventually) free'ing the alphabet when it's
+ *            not needed any more. (Basically, just a step removed
+ *            from keeping the alphabet as a global.)
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_HMM *
+p7_hmm_Create(int M, const ESL_ALPHABET *abc) 
+{
+  P7_HMM *hmm = NULL;
+
+  if ((hmm = p7_hmm_CreateShell()) == NULL) return NULL;
+  p7_hmm_CreateBody(hmm, M, abc);
+  return hmm;
+}  
+
+
+/* Function:  p7_hmm_CreateShell()
+ * Synopsis:  Allocate the ``shell'' of a <P7_HMM>.
+ *
+ * Purpose:   Allocate the shell of a <P7_HMM>: everything that
+ *            doesn't depend on knowing the number of nodes M. 
+ *            
+ *            HMM input (<hmmio.c>) uses two-step shell/body
+ *            allocation because it has to read for a ways from the
+ *            HMM file before it reads the model size M or the
+ *            alphabet type.
+ *
+ * Returns:   a pointer to the new <P7_HMM> on success.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_HMM *
+p7_hmm_CreateShell(void) 
+{
+  P7_HMM *hmm = NULL;
+  int     z;
+  int     status;
+
+  ESL_ALLOC(hmm, sizeof(P7_HMM));
+  hmm->M          = 0;
+  hmm->t          = NULL;
+  hmm->mat        = NULL;
+  hmm->ins        = NULL;
+
+  hmm->name       = NULL;
+  hmm->acc        = NULL;
+  hmm->desc       = NULL;
+  hmm->rf         = NULL;
+  hmm->mm         = NULL;
+  hmm->consensus  = NULL;
+  hmm->cs         = NULL;
+  hmm->ca         = NULL;
+  hmm->comlog     = NULL; 
+  hmm->nseq       = -1;
+  hmm->eff_nseq   = -1.0;
+  hmm->max_length = -1;
+  hmm->ctime      = NULL;
+  hmm->map        = NULL;
+  hmm->checksum   = 0;
+
+  for (z = 0; z < p7_NCUTOFFS; z++) hmm->cutoff[z]  = p7_CUTOFF_UNSET;
+  for (z = 0; z < p7_NEVPARAM; z++) hmm->evparam[z] = p7_EVPARAM_UNSET;
+  for (z = 0; z < p7_MAXABET;  z++) hmm->compo[z]   = p7_COMPO_UNSET;
+
+  hmm->offset   = 0;
+  hmm->flags    = 0;
+  hmm->abc      = NULL;
+  return hmm;
+
+ ERROR:
+  return NULL;
+}  
+
+/* Function:  p7_hmm_CreateBody()
+ * Synopsis:  Allocate the ``body'' of a <P7_HMM>.
+ *
+ * Purpose:   Given an allocated shell <hmm>, and a now-known number
+ *            of nodes <M> and alphabet <abc>, allocate
+ *            the remainder of it for that many nodes.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; in this case, the HMM
+ *            is likely corrupted, and the caller should destroy it.
+ */
+int
+p7_hmm_CreateBody(P7_HMM *hmm, int M, const ESL_ALPHABET *abc) 
+{
+  int k;
+  int status;
+
+  hmm->abc = abc;
+  hmm->M   = M;
+
+  /* level 1 */
+  ESL_ALLOC(hmm->t,    (M+1) * sizeof(float *));
+  ESL_ALLOC(hmm->mat,  (M+1) * sizeof(float *));
+  ESL_ALLOC(hmm->ins,  (M+1) * sizeof(float *));
+  hmm->t[0]   = NULL;
+  hmm->mat[0] = NULL;
+  hmm->ins[0] = NULL;
+
+  /* level 2 */
+  ESL_ALLOC(hmm->t[0],   (p7H_NTRANSITIONS*(M+1)) * sizeof(float));
+  ESL_ALLOC(hmm->mat[0], (abc->K*(M+1))           * sizeof(float));
+  ESL_ALLOC(hmm->ins[0], (abc->K*(M+1))           * sizeof(float));
+  for (k = 1; k <= M; k++) {
+    hmm->mat[k] = hmm->mat[0] + k * hmm->abc->K;
+    hmm->ins[k] = hmm->ins[0] + k * hmm->abc->K;
+    hmm->t[k]   = hmm->t[0]   + k * p7H_NTRANSITIONS;
+  }
+
+  /* Enforce conventions on unused but allocated distributions, so
+   * Compare() tests succeed unless memory was corrupted.
+   */
+  if ((status = p7_hmm_Zero(hmm)) != eslOK) goto ERROR;
+  hmm->mat[0][0]    = 1.0;
+  hmm->t[0][p7H_DM] = 1.0; 
+
+  /* Optional allocation, status flag dependent */
+  if (hmm->flags & p7H_RF)    ESL_ALLOC(hmm->rf,         (M+2) * sizeof(char));
+  if (hmm->flags & p7H_MMASK) ESL_ALLOC(hmm->mm,         (M+2) * sizeof(char));
+  if (hmm->flags & p7H_CONS)  ESL_ALLOC(hmm->consensus,  (M+2) * sizeof(char));
+  if (hmm->flags & p7H_CS)    ESL_ALLOC(hmm->cs,         (M+2) * sizeof(char));
+  if (hmm->flags & p7H_CA)    ESL_ALLOC(hmm->ca,         (M+2) * sizeof(char));
+  if (hmm->flags & p7H_MAP)   ESL_ALLOC(hmm->map,        (M+1) * sizeof(int));
+  
+  return eslOK;
+
+ ERROR:
+  return status;
+}  
+
+
+/* Function:  p7_hmm_Destroy()
+ * Synopsis:  Free a <P7_HMM>.
+ *
+ * Purpose:   Frees both the shell and body of an <hmm>.
+ *            Works even if the <hmm> is damaged (incompletely allocated)
+ *            or even <NULL>.
+ *
+ * Note:      Remember, leave reference pointers like abc, gm, and
+ *            bg alone. These are under the application's control not ours.
+ *
+ * Returns:   (void).
+ */
+void
+p7_hmm_Destroy(P7_HMM *hmm)
+{
+  if (hmm == NULL) return;
+
+  if (hmm->mat) {  if (hmm->mat[0]) free(hmm->mat[0]); free(hmm->mat); }
+  if (hmm->ins) {  if (hmm->ins[0]) free(hmm->ins[0]); free(hmm->ins); }
+  if (hmm->t)   {  if (hmm->t[0])   free(hmm->t[0]);   free(hmm->t);   }
+
+  if (hmm->name)      free(hmm->name);
+  if (hmm->acc)       free(hmm->acc);
+  if (hmm->desc)      free(hmm->desc);
+  if (hmm->rf)        free(hmm->rf);
+  if (hmm->mm)        free(hmm->mm);
+  if (hmm->consensus) free(hmm->consensus);
+  if (hmm->cs)        free(hmm->cs);
+  if (hmm->ca)        free(hmm->ca);
+  if (hmm->comlog)    free(hmm->comlog);
+  if (hmm->ctime)     free(hmm->ctime);
+  if (hmm->map)       free(hmm->map);
+
+  free(hmm);
+  return;
+}
+
+/* Function:  p7_hmm_CopyParameters()
+ * Synopsis:  Copy parameters from one HMM to another.
+ *
+ * Purpose:   Copy parameters of <src> to <dest>. The HMM <dest> must
+ *            be allocated by the caller for the same 
+ *            alphabet and M as <src>. 
+ *            
+ *            Both core and search model parameters are copied.
+ *
+ *            No annotation is copied.  This is because several
+ *            annotation fields are variable-length strings that
+ *            require individual allocations.  The
+ *            <p7_hmm_CopyParameters()> function is for cases where we
+ *            have to repeatedly reset the parameters of a model - for
+ *            example, in entropy weighting.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_hmm_CopyParameters(const P7_HMM *src, P7_HMM *dest)
+{
+  int k;
+  for (k = 0; k <= src->M; k++) {
+    esl_vec_FCopy(src->t[k],   p7H_NTRANSITIONS, dest->t[k]);
+    esl_vec_FCopy(src->mat[k], src->abc->K,      dest->mat[k]);
+    esl_vec_FCopy(src->ins[k], src->abc->K,      dest->ins[k]);
+  }
+  return eslOK;
+}
+
+/* Function:  p7_hmm_Clone()
+ * Synopsis:  Make an exact duplicate of an HMM.
+ *
+ * Purpose:   Duplicates an hmm.
+ * 
+ *            Note: does not duplicate the objects the HMM refers to,
+ *            if any (profile, null model, or alphabet); only copies
+ *            the reference pointers.
+ * 
+ * Returns:   a pointer to the duplicate.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_HMM *
+p7_hmm_Clone(const P7_HMM *hmm)
+{
+  int     status;
+  P7_HMM *new = NULL;
+  int     z;
+
+  if ((new = p7_hmm_Create(hmm->M, hmm->abc)) == NULL) goto ERROR;
+  p7_hmm_CopyParameters(hmm, new);
+  
+  if ((status = esl_strdup(hmm->name,   -1, &(new->name)))   != eslOK) goto ERROR;
+  if ((status = esl_strdup(hmm->acc,    -1, &(new->acc)))    != eslOK) goto ERROR;
+  if ((status = esl_strdup(hmm->desc,   -1, &(new->desc)))   != eslOK) goto ERROR;
+
+  if ((hmm->flags & p7H_RF)    && (status = esl_strdup(hmm->rf,        -1, &(new->rf)))        != eslOK) goto ERROR;
+  if ((hmm->flags & p7H_MMASK) && (status = esl_strdup(hmm->mm,        -1, &(new->mm)))        != eslOK) goto ERROR;
+  if ((hmm->flags & p7H_CONS)  && (status = esl_strdup(hmm->consensus, -1, &(new->consensus))) != eslOK) goto ERROR;
+  if ((hmm->flags & p7H_CS)    && (status = esl_strdup(hmm->cs,        -1, &(new->cs)))        != eslOK) goto ERROR;
+  if ((hmm->flags & p7H_CA)    && (status = esl_strdup(hmm->ca,        -1, &(new->ca)))        != eslOK) goto ERROR;
+  if ((hmm->comlog != NULL)    && (status = esl_strdup(hmm->comlog,    -1, &(new->comlog)))    != eslOK) goto ERROR;
+  if ((hmm->ctime  != NULL)    && (status = esl_strdup(hmm->ctime,     -1, &(new->ctime)))     != eslOK) goto ERROR;
+  if (hmm->flags & p7H_MAP) {
+    ESL_ALLOC(new->map, sizeof(int) * (hmm->M+1));
+    esl_vec_ICopy(hmm->map, hmm->M+1, new->map);
+  }
+  new->nseq       = hmm->nseq;
+  new->eff_nseq   = hmm->eff_nseq;
+  new->max_length = hmm->max_length;
+  new->checksum   = hmm->checksum;
+
+  for (z = 0; z < p7_NEVPARAM; z++) new->evparam[z] = hmm->evparam[z];
+  for (z = 0; z < p7_NCUTOFFS; z++) new->cutoff[z]  = hmm->cutoff[z];
+  for (z = 0; z < p7_MAXABET;  z++) new->compo[z]   = hmm->compo[z];
+
+  new->offset   = hmm->offset;
+  new->flags    = hmm->flags;
+  new->abc      = hmm->abc;
+  return new;
+
+ ERROR:
+  if (new != NULL) p7_hmm_Destroy(new);
+  return NULL;
+}
+
+
+/* Function:  p7_hmm_Zero()
+ * Synopsis:  Set all parameters to zero (including model composition).
+ *
+ * Purpose:   Zeroes all counts/probabilities fields in core model,
+ *            including emissions, transitions, and model
+ *            composition.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_hmm_Zero(P7_HMM *hmm)
+{
+  int k;
+
+  for (k = 0; k <= hmm->M; k++) {
+    esl_vec_FSet(hmm->t[k],   p7H_NTRANSITIONS, 0.);  
+    esl_vec_FSet(hmm->mat[k], hmm->abc->K, 0.);  
+    esl_vec_FSet(hmm->ins[k], hmm->abc->K, 0.);  
+  }
+  esl_vec_FSet(hmm->compo, p7_MAXABET, 0.);
+  return eslOK;
+}
+
+
+
+/* Function:  p7_hmm_EncodeStatetype()
+ * Synopsis:  Convert a state type string to internal code.
+ *
+ * Purpose:   Converts state type string <typestring> case insensitively to
+ *            an internal code, and returns the code. For example,
+ *            <p7_hmm_DecodeStatetype("M")> returns <p7T_M>.
+ *            
+ *            If the string isn't recognized, returns <p7T_BOGUS>.
+ */
+char
+p7_hmm_EncodeStatetype(char *typestring)
+{
+  if      (strcasecmp(typestring, "M") == 0) return p7T_M;
+  else if (strcasecmp(typestring, "D") == 0) return p7T_D;
+  else if (strcasecmp(typestring, "I") == 0) return p7T_I;
+  else if (strcasecmp(typestring, "S") == 0) return p7T_S;
+  else if (strcasecmp(typestring, "N") == 0) return p7T_N;
+  else if (strcasecmp(typestring, "B") == 0) return p7T_B;
+  else if (strcasecmp(typestring, "E") == 0) return p7T_E;
+  else if (strcasecmp(typestring, "C") == 0) return p7T_C;
+  else if (strcasecmp(typestring, "T") == 0) return p7T_T;
+  else if (strcasecmp(typestring, "J") == 0) return p7T_J;
+  else if (strcasecmp(typestring, "X") == 0) return p7T_X;
+  else return p7T_BOGUS;
+}
+
+/* Function:  p7_hmm_DecodeStatetype()
+ * Synopsis:  Convert an internal state type code to a string.
+ *
+ * Purpose:   Returns the state type in text, as a string of length 1 
+ *            (2 if you count <NUL>). For example, <p7_DecodeStatetype(p7T_S)>
+ *            returns "S".
+ *            
+ * Throws:    an internal <eslEINVAL> exception if the code doesn't 
+ *            exist, and returns <NULL>.           
+ */
+char *
+p7_hmm_DecodeStatetype(char st)
+{
+  switch (st) {
+  case p7T_M: return "M";
+  case p7T_D: return "D";
+  case p7T_I: return "I";
+  case p7T_S: return "S";
+  case p7T_N: return "N";
+  case p7T_B: return "B";
+  case p7T_E: return "E";
+  case p7T_C: return "C";
+  case p7T_T: return "T";
+  case p7T_J: return "J";
+  case p7T_X: return "X";
+  default:    break;
+  }
+  esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "no such statetype code %d", st);
+  return NULL;
+}
+
+
+
+
+/*****************************************************************
+ * 2. Convenience routines for setting fields in an HMM.
+ *****************************************************************/ 
+
+/* Function: p7_hmm_SetName()
+ * Synopsis: Set or change the name of an HMM.
+ * 
+ * Purpose:  Set or change the name of a Plan7 HMM to <name>.
+ *           Any trailing whitespace (including newline) is chopped off.     
+ *      
+ * Returns:  <eslOK> on success.
+ *
+ * Throws:   <eslEMEM> on allocation error, and original name (if any) 
+ *           remains.
+ */
+int
+p7_hmm_SetName(P7_HMM *hmm, char *name)
+{
+  int   status;
+  void *tmp;
+  int   n;
+
+  if (name == NULL) {
+    if (hmm->name != NULL) free(hmm->name); 
+    hmm->name = NULL;
+  } else {
+    n = strlen(name);
+    ESL_RALLOC(hmm->name, tmp, sizeof(char)*(n+1));
+    strcpy(hmm->name, name);
+    if ((status = esl_strchop(hmm->name, n)) != eslOK) goto ERROR;
+  }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function: p7_hmm_SetAccession()
+ * Synopsis: Set or change the accession of an HMM.
+ * 
+ * Purpose:  Set or change the accession number of a Plan7 HMM to <acc>,
+ *           and raise the <P7_ACC> flag. Trailing whitespace (including newline) 
+ *           is chopped.  
+ *           
+ *           If <acc> is <NULL>, unset the HMM's accession (if any) and drop 
+ *           the <P7_ACC> flag.
+ *
+ * Returns:  <eslOK> on success.
+ *
+ * Throws:   <eslEMEM> on allocation error, and original name (if any) 
+ *           remains.
+ */
+int
+p7_hmm_SetAccession(P7_HMM *hmm, char *acc)
+{
+  int   status;
+  void *tmp;
+  int   n;
+
+  if (acc == NULL) {
+    if (hmm->acc != NULL) free(hmm->acc); 
+    hmm->acc = NULL;
+    hmm->flags &= ~p7H_ACC;	/* legacy */
+  } else {
+    n = strlen(acc);
+    ESL_RALLOC(hmm->acc, tmp, sizeof(char)*(n+1));
+    strcpy(hmm->acc, acc);
+    if ((status = esl_strchop(hmm->acc, n)) != eslOK) goto ERROR;
+    hmm->flags |= p7H_ACC;	/* legacy */
+  }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function: p7_hmm_SetDescription()
+ * Synopsis: Set or change the description line of an HMM.
+ * 
+ * Purpose:  Set or change the description line of a Plan7 HMM. 
+ *           Trailing whitespace (including newline) is chopped.
+ */
+int
+p7_hmm_SetDescription(P7_HMM *hmm, char *desc)
+{
+  int   status;
+  void *tmp;
+  int   n;
+
+  if (desc == NULL) 
+    {
+      if (hmm->desc != NULL) free(hmm->desc); 
+      hmm->desc   = NULL;
+      hmm->flags &= ~p7H_DESC;	/* legacy */
+    }
+  else
+    {
+      n = strlen(desc);
+      ESL_RALLOC(hmm->desc, tmp, sizeof(char)*(n+1));
+      strcpy(hmm->desc, desc);
+      if ((status = esl_strchop(hmm->desc, n)) != eslOK) goto ERROR;
+      hmm->flags |= p7H_DESC;	/* legacy */
+    }
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function: p7_hmm_AppendComlog()
+ * Synopsis: Concatenate and append command line to the command line log.
+ * 
+ * Purpose:  Concatenate command line options and append as a new line in the
+ *           command line log. Command line log is multiline, with each line
+ *           ending in newline char, except for last line.
+ *           
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEMEM> on allocation failure.          
+ */
+int
+p7_hmm_AppendComlog(P7_HMM *hmm, int argc, char **argv)
+{
+  int   status;
+  void *tmp;
+  int   n;
+  int   i;
+
+  /* figure out length of added command line, and (re)allocate comlog */
+  n = argc-1;	/* account for 1 space per arg, except last one */
+  for (i = 0; i < argc; i++)
+    n += strlen(argv[i]);
+
+  if (hmm->comlog != NULL) {
+    n += strlen(hmm->comlog) + 1; /* +1 for the \n we're going to add to the old comlog */
+    ESL_RALLOC(hmm->comlog, tmp, sizeof(char)* (n+1));
+    strcat(hmm->comlog, "\n");
+  } else {
+    ESL_ALLOC(hmm->comlog, sizeof(char)* (n+1));
+    *(hmm->comlog) = '\0'; /* need this to make strcat work */
+  }
+
+  for (i = 0; i < argc-1; i++)
+    {
+      strcat(hmm->comlog, argv[i]);
+      strcat(hmm->comlog, " ");
+    }
+  strcat(hmm->comlog, argv[argc-1]);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function: p7_hmm_SetCtime()
+ * Synopsis: Timestamp an HMM.
+ * 
+ * Purpose:  Set the <ctime> field in a new HMM to the current time.
+ * 
+ * Returns:  <eslOK> on success.
+ * 
+ * Throws:   <eslEMEM> on allocation failure. 
+ *           <eslESYS> if system calls fail to obtain (or format) the time.
+ *           
+ * Notes:    This function calls <ctime_r()>, supposedly a part of the
+ *           ISO/IEC 9945-1:1996 (POSIX.1) standard, but not ANSI
+ *           C99, so we have potential portability problems here.
+ *
+ *           A known one: <ctime_r()> is by default a three-argument
+ *           call on Solaris 10 systems. Our autoconf script sets
+ *           -D_POSIX_PTHREAD_SEMANTICS on Solaris systems to fix this
+ *           issue, requesting Solaris to use a compliant version of 
+ *           ctime_r().
+ *
+ *           We might want to use strftime() instead; that's what 
+ *           POSIX 2008 recommends; but we'd still need localtime_r() or
+ *           its equivalent, and that has its own portability issues.
+ *           
+ *           Note to porters: it really doesn't matter what this
+ *           timestamp is. HMMER doesn't look at it, it's for human
+ *           notetaking. If you have to, set it to an empty string.
+ *
+ * TODO:     Oi. Time is complicated. Easel should give us an
+ *           easy and portable call to generate time stamps like this;
+ *           an esl_time module, perhaps?
+ */
+int
+p7_hmm_SetCtime(P7_HMM *hmm)
+{
+  char    *s = NULL;
+  time_t   date;
+  int      status;
+
+  ESL_ALLOC(s, 32);
+  if ((date = time(NULL)) == -1)               { status = eslESYS; goto ERROR; }
+  if (ctime_r(&date, s) == NULL)               { status = eslESYS; goto ERROR; }
+  if ((status = esl_strchop(s, -1)) != eslOK)  {                   goto ERROR; }
+  
+  if (hmm->ctime != NULL) free(hmm->ctime);
+  hmm->ctime = s;
+  return eslOK;
+
+ ERROR:
+  if (s) free(s);
+  return status;
+}
+
+
+
+/* Function:  p7_hmm_SetComposition()
+ * Synopsis:  Calculate and set model composition, <hmm->compo[]>
+ *
+ * Purpose:   Calculates the mean residue composition emitted by
+ *            model <hmm>, and set <hmm->compo[]> to it.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure, in which case 
+ *            values in <hmm->compo[]> are unchanged.
+ *            
+ * Note:      In principle, you should be able to normalize
+ *            hmm->compo[] by dividing thru by the sum of
+ *            mocc[] and iocc[] vectors, and that's what the
+ *            3.0 release version did. This allowed p7_hmm_Validate()
+ *            to check compo[] for summation to 1.0, as a smoke
+ *            check for bugs here. The problem with that 
+ *            is numerical roundoff error accumulation, when
+ *            hmm->M is large [bug #h84]. To fix #h84, we
+ *            simply renormalize compo[], rather than the fancier
+ *            previous version. This avoids error accumulation,
+ *            but it also guarantees that compo[] will trivially
+ *            pass the hmm_Validation() step; it's not really
+ *            validating the SetComposition() calculation at all.                                 
+ *            (For description of #h84, error analysis, and the fix,
+ *            xref J7/7; SRE, Tue Nov  2 14:32:29 2010)
+ */
+int
+p7_hmm_SetComposition(P7_HMM *hmm)
+{
+  float *mocc = NULL;
+  float *iocc = NULL;
+  int    k;
+  int    status;
+
+  ESL_ALLOC(mocc, sizeof(float) * (hmm->M+1));
+  ESL_ALLOC(iocc, sizeof(float) * (hmm->M+1));
+
+  p7_hmm_CalculateOccupancy(hmm, mocc, iocc);
+  esl_vec_FSet(hmm->compo, hmm->abc->K, 0.0);
+  esl_vec_FAddScaled(hmm->compo, hmm->ins[0], iocc[0], hmm->abc->K);
+  for (k = 1; k <= hmm->M; k++)
+    {
+      esl_vec_FAddScaled(hmm->compo, hmm->mat[k], mocc[k], hmm->abc->K);
+      esl_vec_FAddScaled(hmm->compo, hmm->ins[k], iocc[k], hmm->abc->K);
+    }
+
+  esl_vec_FNorm(hmm->compo, hmm->abc->K);
+  hmm->flags  |= p7H_COMPO;
+
+  free(mocc);
+  free(iocc);
+  return eslOK;
+
+ ERROR:
+  if (mocc != NULL) free(mocc);
+  if (iocc != NULL) free(iocc);
+  return status;
+}
+  
+
+/* Function:  p7_hmm_SetConsensus()
+ * Synopsis:  Set the consensus residue line of the HMM.
+ *
+ * Purpose:   Sets the consensus annotation line of the model <hmm>.
+ *            
+ *            Behavior differs, depending on whether this is a
+ *            single-sequence model (i.e. phmmer) or a standard
+ *            model of a multiple sequence alignment. If <sq> is
+ *            non-<NULL> this is a single-sequence model and <sq> is
+ *            the digital sequence it was built from. If <sq> is <NULL>
+ *            this is a standard multiple-sequence model.
+ *            
+ *            In a standard model, the most likely (highest emission
+ *            probability) residue is the consensus at each position.
+ *            In a single-sequence model, the consensus is the
+ *            sequence itself.
+ *            
+ *            In both cases, if the emission probability is $\geq$
+ *            certain threshold, the residue is upper cased. The
+ *            threshold is arbitrarily set to 0.9 for nucleic acid
+ *            alphabets (<eslDNA>, <eslRNA>) and 0.5 for amino acid
+ *            alphabets (<eslAMINO>) and all other alphabets.
+ *            
+ *            The special handling of single-sequence models avoids
+ *            a counterintuitive case where the most likely residue is
+ *            not the original residue. For example, under the
+ *            BLOSUM62 matrix, given an observed M, the most likely
+ *            aligned residue is an L, not an M. (Because L is so much
+ *            more likely a priori than M.)
+ *
+ * Args:      hmm    - model with valid probability parameters mat[1..M][x]
+ *            sq     - NULL if a standard model;
+ *                     or the query sequence for a single-sequence model.
+ *           
+ * Returns:   <eslOK> on success. The <p7H_CONS> flag on the <hmm> is raised
+ *            if it wasn't already. The <hmm->consensus> line is set.
+ *
+ * Throws:    <eslEMEM> on allocation error. The <p7H_CONS> is dropped, even
+ *            if it was up to begin with, and the <hmm->consensus> is <NULL>,
+ *            even if we had one to begin with.
+ *
+ * Xref:      SRE:J8/26.
+ */
+int
+p7_hmm_SetConsensus(P7_HMM *hmm, ESL_SQ *sq)
+{
+  int   k, x;
+  float mthresh;
+  int   status;
+  
+  /* allocation, if needed */
+  if (! hmm->consensus) ESL_ALLOC(hmm->consensus, sizeof(char) * (hmm->M+2));
+
+  /* set our arbitrary threshold for upper/lower casing */
+  if      (hmm->abc->type == eslAMINO) mthresh = 0.5;
+  else if (hmm->abc->type == eslDNA)   mthresh = 0.9;
+  else if (hmm->abc->type == eslRNA)   mthresh = 0.9;
+  else                                 mthresh = 0.5;
+
+  hmm->consensus[0] = ' ';
+  for (k = 1; k <= hmm->M; k++) 
+    {
+      x = (sq ?  sq->dsq[k] : esl_vec_FArgMax(hmm->mat[k], hmm->abc->K));
+      hmm->consensus[k] = ((hmm->mat[k][x] >= mthresh) ? toupper(hmm->abc->sym[x]) : tolower(hmm->abc->sym[x]));
+    }
+  hmm->consensus[hmm->M+1] = '\0';
+  hmm->flags  |= p7H_CONS;	
+  return eslOK;
+
+ ERROR:
+  if (hmm->consensus) free(hmm->consensus);
+  hmm->consensus = NULL;
+  hmm->flags    &= (~p7H_CONS);	
+  return status;
+}
+/*---------------- end, internal-setting routines ---------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Renormalization and rescaling counts in core HMMs.
+ *****************************************************************/ 
+
+/* Function:  p7_hmm_Scale()
+ * Synopsis:  In a model containing counts, rescale counts by a factor.
+ *
+ * Purpose:   Given a counts-based model <hmm>, scale core
+ *            by a multiplicative factor of <scale>, where <scale> is
+ *            often <eff_nseq/nseq> for absolute sequence weighting.
+ *            Only affects core probability model emissions and 
+ *            transitions (<t>, <ins>, and <mat>).
+ *
+ * Args:      hmm        - counts based HMM.
+ *            scale      - scaling factor (e.g. eff_nseq/nseq); 1.0=no scaling.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_hmm_Scale(P7_HMM *hmm, double scale)
+{
+  int k;
+
+  for (k = 0; k <= hmm->M; k++) {
+    esl_vec_FScale(hmm->t[k],   p7H_NTRANSITIONS, scale);  
+    esl_vec_FScale(hmm->mat[k], hmm->abc->K,      scale);  
+    esl_vec_FScale(hmm->ins[k], hmm->abc->K,      scale);  
+  }
+  return eslOK;
+}
+
+/* Function: p7_hmm_Renormalize()
+ * Synopsis: Renormalize all parameter vectors (emissions/transitions).
+ * 
+ * Purpose:  Take a core HMM in counts form, and renormalize
+ *           all probability vectors in the core probability model. Enforces
+ *           Plan7 restrictions on nonexistent transitions.
+ *
+ *           Leaves other flags (stats and profile) alone, so caller
+ *           needs to be wary. Renormalizing a probability model that
+ *           has stats and profile scores wouldn't usually invalidate
+ *           those data; and if we're renormalizing a counts model, we
+ *           shouldn't have stats or profile scores yet anyway.
+ *           
+ * Args:     hmm - the model to renormalize.
+ *                 
+ * Return:   <eslOK> on success.
+ */                          
+int
+p7_hmm_Renormalize(P7_HMM *hmm)
+{
+  int   k;			/* counter for model position */
+
+  for (k = 0; k <= hmm->M; k++) {
+    esl_vec_FNorm(hmm->mat[k], hmm->abc->K);
+    esl_vec_FNorm(hmm->ins[k], hmm->abc->K);
+    esl_vec_FNorm(P7H_TMAT(hmm, k), p7H_NTMAT);	/* TMX */
+    esl_vec_FNorm(P7H_TDEL(hmm, k), p7H_NTDEL);	/* TIX */
+    esl_vec_FNorm(P7H_TINS(hmm, k), p7H_NTINS);	/* TDX */
+  }
+  /* If t[M][TD*] distribution was all zeros, we just made TDD nonzero. Oops.
+   * Re-enforce t's on that final delete state. */
+  hmm->t[hmm->M][p7H_DM] = 1.0;
+  hmm->t[hmm->M][p7H_DD] = 0.0;
+
+  /* Rare: if t[M][TM*] distribution was all zeros (all final transitions
+   * were D_M -> E) then we just made nonexistent M_M->D_M+1 transition nonzero.
+   * Fix that too.
+   */
+  if (hmm->t[hmm->M][p7H_MD] > 0.) {
+    hmm->t[hmm->M][p7H_MD] = 0.;
+    hmm->t[hmm->M][p7H_MM] = 0.5;
+    hmm->t[hmm->M][p7H_MI] = 0.5;
+  }
+
+  return eslOK;
+}
+  
+/*****************************************************************
+ * 4. Debugging and development code
+ *****************************************************************/
+
+/* Function:  p7_hmm_Dump()
+ * Synopsis:  Dump HMM data structure to a stream.
+ *
+ * Purpose:   Debugging: dump the probabilities (or counts) from a core HMM.
+ * 
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_hmm_Dump(FILE *fp, P7_HMM *hmm)
+{
+  int k;			/* counter for nodes */
+  int x;			/* counter for symbols */
+  int ts;			/* counter for state transitions */
+  
+  for (k = 0; k <= hmm->M; k++)
+    {				/* Line 1: k, match emissions */
+      fprintf(fp, " %5d ", k);
+      for (x = 0; x < hmm->abc->K; x++) 
+        fprintf(fp, "%9.4f ", hmm->mat[k][x]);
+      fputs("\n", fp);
+				/* Line 2: insert emissions */
+      fprintf(fp, "       ");
+      for (x = 0; x < hmm->abc->K; x++) 
+	fprintf(fp, "%9.4f ", hmm->ins[k][x]);
+      fputs("\n", fp);
+				/* Line 3: transition probs */
+      fprintf(fp, "       ");
+      for (ts = 0; ts < 7; ts++)
+	fprintf(fp, "%9.4f ", hmm->t[k][ts]); 
+      fputs("\n", fp);
+    }
+  fputs("//\n", fp);
+  return eslOK;
+}
+
+/* Function:  p7_hmm_Sample()
+ * Synopsis:  Sample an HMM at random.
+ *
+ * Purpose:   Creates a random HMM of length <M> nodes,
+ *            for alphabet <abc>, obtaining randomness from
+ *            <r>.
+ * 
+ *            Probably only useful for debugging.
+ *            
+ * Note:      Compare p7_hmm_Renormalize(), which has a similar
+ *            structure, except it normalizes instead of
+ *            sampling each probability vector.           
+ *
+ * Returns:   <eslOK> on success, and the new hmm is returned
+ *            through <ret_hmm); caller is responsible for 
+ *            freeing this object with <p7_hmm_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_hmm_Sample(ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm)
+{
+  P7_HMM *hmm    = NULL;
+  char   *logmsg = "[random HMM created by sampling]";
+  int     k;
+  int     status;
+
+  hmm = p7_hmm_Create(M, abc);
+  if (hmm == NULL) { status = eslEMEM; goto ERROR; }
+  
+  for (k = 0; k <= M; k++)
+    {
+      if (k > 0) esl_dirichlet_FSampleUniform(r, abc->K, hmm->mat[k]);
+      esl_dirichlet_FSampleUniform(r, abc->K, hmm->ins[k]);
+      esl_dirichlet_FSampleUniform(r, 3,      hmm->t[k]);
+      esl_dirichlet_FSampleUniform(r, 2,      hmm->t[k]+3);
+      if (k > 0) esl_dirichlet_FSampleUniform(r, 2,      hmm->t[k]+5);
+    }
+  /* Node M is special: no transitions to D, transitions to M
+   * are interpreted as transitions to E. Overwrite a little of
+   * what we did in node M.
+   */
+  esl_dirichlet_FSampleUniform(r, 2, hmm->t[M]);    /* TMM,TMI only */
+  hmm->t[M][p7H_MD] = 0.;	
+  hmm->t[M][p7H_DM] = 1.0;
+  hmm->t[M][p7H_DD] = 0.0;
+  
+  /* Add mandatory annotation, and some relevant optional annotation  */
+  p7_hmm_SetName(hmm, "sampled-hmm");
+  p7_hmm_AppendComlog(hmm, 1, &logmsg);
+  p7_hmm_SetCtime(hmm);
+  p7_hmm_SetConsensus(hmm, NULL);
+  
+  *ret_hmm = hmm;
+  return eslOK;
+  
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  *ret_hmm = NULL;
+  return status;
+
+}
+
+/* Function:  p7_hmm_SampleUngapped()
+ * Synopsis:  Sample a random HMM with no nonzero indel transitions.
+ *
+ * Purpose:   Same as <p7_hmm_Sample()>, except all 
+ *            M $\rightarrow$ M transitions are 1.0:
+ *            an ungapped model. Useful for testing 
+ *            as a limit case.
+ *            
+ * Returns:   <eslOK> on success, and the new hmm is returned
+ *            through <ret_hmm); caller is responsible for 
+ *            freeing this object with <p7_hmm_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      STL11/140
+ */
+int
+p7_hmm_SampleUngapped(ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm)
+{
+  P7_HMM *hmm    = NULL;
+  int     k;
+  int     status;
+
+  if ((status = p7_hmm_Sample(r, M, abc, &hmm)) != eslOK) goto ERROR;
+  for (k = 0; k <= M; k++) {
+    hmm->t[k][p7H_MM] = 1.0;
+    hmm->t[k][p7H_MD] = 0.0;
+    hmm->t[k][p7H_MI] = 0.0;
+  }
+  *ret_hmm = hmm;
+  return eslOK;
+
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  *ret_hmm = NULL;
+  return status;
+}
+
+/* Function:  esl_hmm_SampleEnumerable()
+ * Synopsis:  Sample an random HMM with no nonzero insertion transitions.
+ *
+ * Purpose:   Sample a random HMM with random emission and 
+ *            transition probabilities with the exception that
+ *            all transitions to insert are zero. This makes
+ *            it possible to create a model with a finite,
+ *            easily enumerable sequence space (all seqs of
+ *            length $\leq M).
+ *            
+ *            To achieve this in the profile as well as the core HMM,
+ *            the caller must configure a unihit mode
+ *            (<p7_ProfileConfig(hmm, bg, gm, p7_UNILOCAL)> or
+ *            <p7_UNIGLOCAL>), and a target length of zero
+ *            (<p7_ReconfigLength(gm, 0)>).
+ *            
+ *            Useful for debugging and validating Forward/Viterbi
+ *            algorithms.
+ *            
+ * Returns:   <eslOK> on success. The newly allocated hmm is returned through
+ *            <ret_hmm>. The caller is responsible for freeing this object
+ *            with <p7_hmm_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_hmm_SampleEnumerable(ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, P7_HMM **ret_hmm)
+{
+  P7_HMM *hmm    = NULL;
+  char   *logmsg = "[random enumerable HMM created by sampling]";
+  int     k;
+  float   tmp[2];
+  int     status;
+  
+  hmm = p7_hmm_Create(M, abc);
+  if (hmm == NULL) { status = eslEMEM; goto ERROR; }
+
+  for (k = 0; k <= M; k++)
+    {
+      if (k > 0) esl_dirichlet_FSampleUniform(r, abc->K, hmm->mat[k]); /* match emission probs  */
+      esl_dirichlet_FSampleUniform(r, abc->K, hmm->ins[k]);            /* insert emission probs */
+      esl_dirichlet_FSampleUniform(r, 2,      tmp);       
+      hmm->t[k][p7H_MM] = tmp[0];
+      hmm->t[k][p7H_MI] = 0.;
+      hmm->t[k][p7H_MD] = tmp[1];
+      hmm->t[k][p7H_IM] = 1.;                                          /* I transitions irrelevant since I's are unreached. */
+      hmm->t[k][p7H_II] = 0.;
+      if (k > 0) esl_dirichlet_FSampleUniform(r, 2,      hmm->t[k]+5); /* delete transitions to M,D */
+    }
+
+  /* Node M is special: no transitions to D, transitions to M
+   * are interpreted as transitions to E. Overwrite a little of
+   * what we did in node M.
+   */
+  hmm->t[M][p7H_MM] = 1.;
+  hmm->t[M][p7H_MD] = 0.;	
+  hmm->t[M][p7H_DM] = 1.;
+  hmm->t[M][p7H_DD] = 0.;
+  
+  /* Add mandatory annotation
+   */
+  p7_hmm_SetName(hmm, "sampled-hmm");
+  p7_hmm_AppendComlog(hmm, 1, &logmsg);
+  p7_hmm_SetCtime(hmm);
+  p7_hmm_SetConsensus(hmm, NULL);
+
+  /* SRE DEBUGGING */
+  p7_hmm_Validate(hmm, NULL, 0.0001);
+
+  *ret_hmm = hmm;
+  return eslOK;
+  
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  *ret_hmm = NULL;
+  return status;
+}
+
+/* Function:  p7_hmm_SampleUniform()
+ * Synopsis:  Sample a model that uses fixed (given) transition probs.
+ *
+ * Purpose:   Sample a model that uses uniform transition probabilities,
+ *            determined by <tmi>, <tii>, <tmd>, and <tdd>,
+ *            the probabilistic equivalent of gap-open/gap-extend for
+ *            inserts, deletes.
+ *            
+ *            Useful for testing expected behavior on single-sequence
+ *            models, where transitions are position-independent.
+ *
+ * Returns:   <eslOK> on success, and the new hmm is returned
+ *            through <ret_hmm); caller is responsible for 
+ *            freeing this object with <p7_hmm_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      J1/5.
+ */
+int
+p7_hmm_SampleUniform(ESL_RANDOMNESS *r, int M, const ESL_ALPHABET *abc, 
+		     float tmi, float tii, float tmd, float tdd,
+		     P7_HMM **ret_hmm)
+{
+  int     status;
+  P7_HMM *hmm    = NULL;
+  char   *logmsg = "[HMM with uniform transitions, random emissions]";
+  int     k;
+
+  hmm = p7_hmm_Create(M, abc);
+  if (hmm == NULL) { status = eslEMEM; goto ERROR; }
+  
+  for (k = 0; k <= M; k++)
+    {
+      if (k > 0) esl_dirichlet_FSampleUniform(r, abc->K, hmm->mat[k]);
+      esl_dirichlet_FSampleUniform(r, abc->K, hmm->ins[k]);
+      hmm->t[k][p7H_MM] = 1.0 - tmi - tmd;
+      hmm->t[k][p7H_MI] = tmi;
+      hmm->t[k][p7H_MD] = tmd;
+      hmm->t[k][p7H_IM] = 1.0 - tii;
+      hmm->t[k][p7H_II] = tii;
+      hmm->t[k][p7H_DM] = 1.0 - tdd;
+      hmm->t[k][p7H_DD] = tdd;
+    }
+
+  /* Deal w/ special stuff at node 0, M, overwriting some of what we
+   * just did. 
+   */
+  hmm->t[M][p7H_MM] = 1.0 - tmi;
+  hmm->t[M][p7H_MD] = 0.;
+  hmm->t[M][p7H_DM] = 1.0;
+  hmm->t[M][p7H_DD] = 0.;
+  
+  /* Add mandatory annotation
+   */
+  p7_hmm_SetName(hmm, "sampled-hmm");
+  p7_hmm_AppendComlog(hmm, 1, &logmsg);
+  p7_hmm_SetCtime(hmm);
+  p7_hmm_SetConsensus(hmm, NULL);
+
+  *ret_hmm = hmm;
+  return eslOK;
+  
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  *ret_hmm = NULL;
+  return status;
+}
+
+
+
+/* Function:  p7_hmm_Compare()
+ * Synopsis:  Compare two HMMs for equality.
+ *
+ * Purpose:   Compare two HMMs <h1> and <h2> to each other;
+ *            return <eslOK> if they're identical, and <eslFAIL>
+ *            if they differ. Floating-point probabilities are 
+ *            compared for equality within a fractional tolerance
+ *            <tol>. 
+ */
+int
+p7_hmm_Compare(P7_HMM *h1, P7_HMM *h2, float tol)
+{
+  int k, z;
+  
+  if (h1->abc->type != h2->abc->type) return eslFAIL;
+  if (h1->M         != h2->M)         return eslFAIL;
+  if (h1->flags     != h2->flags)     return eslFAIL;
+  
+  for (k = 0; k <= h1->M; k++)	/* (it's safe to include 0 here.) */
+    {
+      if (esl_vec_FCompare(h1->mat[k], h2->mat[k], h1->abc->K, tol) != eslOK) return eslFAIL;
+      if (esl_vec_FCompare(h1->ins[k], h2->ins[k], h1->abc->K, tol) != eslOK) return eslFAIL;
+      if (esl_vec_FCompare(h1->t[k],   h2->t[k],   7,          tol) != eslOK) return eslFAIL;
+    }
+
+  if (strcmp(h1->name,   h2->name)   != 0) return eslFAIL;
+  if (esl_strcmp(h1->comlog, h2->comlog) != 0) return eslFAIL;
+  if (strcmp(h1->ctime,  h2->ctime)  != 0) return eslFAIL;
+
+  if (h1->nseq     != h2->nseq)                                      return eslFAIL;
+  if (esl_FCompare(h1->eff_nseq, h2->eff_nseq, tol) != eslOK)        return eslFAIL;
+  if (h1->checksum != h2->checksum)        return eslFAIL;
+
+  if (esl_strcmp(h1->acc,  h2->acc)  != 0) return eslFAIL;
+  if (esl_strcmp(h1->desc, h2->desc) != 0) return eslFAIL;
+
+  if ((h1->flags & p7H_RF)    && esl_strcmp(h1->rf,        h2->rf)           != 0) return eslFAIL;
+  if ((h1->flags & p7H_MMASK) && esl_strcmp(h1->mm,        h2->mm)           != 0) return eslFAIL;
+  if ((h1->flags & p7H_CONS)  && esl_strcmp(h1->consensus, h2->consensus)    != 0) return eslFAIL;
+  if ((h1->flags & p7H_CS)    && esl_strcmp(h1->cs,        h2->cs)           != 0) return eslFAIL;
+  if ((h1->flags & p7H_CA)    && esl_strcmp(h1->ca,        h2->ca)           != 0) return eslFAIL;
+  if ((h1->flags & p7H_MAP)   && esl_vec_ICompare(h1->map, h2->map, h1->M+1) != 0) return eslFAIL;
+
+  if (h1->flags & p7H_GA) {
+    if (esl_FCompare(h1->cutoff[p7_GA1], h2->cutoff[p7_GA1], tol) != eslOK) return eslFAIL;
+    if (esl_FCompare(h1->cutoff[p7_GA2], h2->cutoff[p7_GA2], tol) != eslOK) return eslFAIL;
+  }
+  if (h1->flags & p7H_TC) {
+    if (esl_FCompare(h1->cutoff[p7_TC1], h2->cutoff[p7_TC1], tol) != eslOK) return eslFAIL;
+    if (esl_FCompare(h1->cutoff[p7_TC2], h2->cutoff[p7_TC2], tol) != eslOK) return eslFAIL;
+  }
+  if (h1->flags & p7H_NC) {
+    if (esl_FCompare(h1->cutoff[p7_NC1], h2->cutoff[p7_NC1], tol) != eslOK) return eslFAIL;
+    if (esl_FCompare(h1->cutoff[p7_NC2], h2->cutoff[p7_NC2], tol) != eslOK) return eslFAIL;
+  }
+
+  if (h1->flags & p7H_STATS) {
+    for (z = 0; z < p7_NEVPARAM; z++)
+      if (esl_FCompare(h1->evparam[z], h2->evparam[z], tol) != eslOK) return eslFAIL;
+  }
+
+  return eslOK;
+}
+
+/* Function:  p7_hmm_Validate()
+ * Synopsis:  Validate a <P7_HMM> data structuure.
+ *
+ * Purpose:   Validates the internals of the HMM structure <hmm>.
+ * 
+ *            Probability vectors are validated to sum up to
+ *            within a fractional tolerance <tol> of 1.0.
+ *
+ *            Probably only useful for debugging and development,
+ *            not production code.
+ *
+ * Returns:   <eslOK> if <hmm> internals look fine.
+ *            Returns <eslFAIL> if something is wrong.
+ */
+int
+p7_hmm_Validate(P7_HMM *hmm, char *errbuf, float tol)
+{
+  int status;
+  int k;
+
+  if (hmm            == NULL)       ESL_XFAIL(eslFAIL, errbuf, "HMM is a null pointer");
+  if (hmm->M         <  1)          ESL_XFAIL(eslFAIL, errbuf, "HMM has M < 1");
+  if (hmm->abc       == NULL)       ESL_XFAIL(eslFAIL, errbuf, "HMM has no alphabet reference");
+  if (hmm->abc->type == eslUNKNOWN) ESL_XFAIL(eslFAIL, errbuf, "HMM's alphabet is set to unknown");
+  
+  for (k = 0; k <= hmm->M; k++)
+    {
+      if (esl_vec_FValidate(hmm->mat[k], hmm->abc->K, tol, NULL) != eslOK) ESL_XFAIL(eslFAIL, errbuf, "mat[%d] fails pvector validation", k);
+      if (esl_vec_FValidate(hmm->ins[k], hmm->abc->K, tol, NULL) != eslOK) ESL_XFAIL(eslFAIL, errbuf, "ins[%d] fails pvector validation", k);
+      if (esl_vec_FValidate(hmm->t[k],   3,           tol, NULL) != eslOK) ESL_XFAIL(eslFAIL, errbuf, "t_M[%d] fails pvector validation", k);
+      if (esl_vec_FValidate(hmm->t[k]+3, 2,           tol, NULL) != eslOK) ESL_XFAIL(eslFAIL, errbuf, "t_I[%d] fails pvector validation", k);
+      if (esl_vec_FValidate(hmm->t[k]+5, 2,           tol, NULL) != eslOK) ESL_XFAIL(eslFAIL, errbuf, "t_D[%d] fails pvector validation", k);
+    }
+  if (hmm->t[hmm->M][p7H_MD] != 0.0)                       ESL_XFAIL(eslFAIL, errbuf, "TMD should be 0 for last node");
+  if (hmm->t[hmm->M][p7H_DM] != 1.0)                       ESL_XFAIL(eslFAIL, errbuf, "TDM should be 1 for last node");
+  if (hmm->t[hmm->M][p7H_DD] != 0.0)                       ESL_XFAIL(eslFAIL, errbuf, "TDD should be 0 for last node");
+
+  if (hmm->name == NULL)                                   ESL_XFAIL(eslFAIL, errbuf, "name is NULL: this field is mandatory");
+  /* comlog is either NULL or a free text string: hard to validate */
+  /* ctime, ditto */
+  if ( (hmm->nseq     != -1)     && hmm->nseq     <= 0)    ESL_XFAIL(eslFAIL, errbuf, "invalid nseq");
+  if ( (hmm->eff_nseq != -1.0f)  && hmm->eff_nseq <= 0.0f) ESL_XFAIL(eslFAIL, errbuf, "invalid eff_nseq");
+  if (!(hmm->flags & p7H_CHKSUM) && hmm->checksum != 0 )   ESL_XFAIL(eslFAIL, errbuf, "p7H_CHKSUM flag down, but nonzero checksum present"); 
+
+  if (hmm->flags & p7H_RF)   { if (hmm->rf == NULL        || strlen(hmm->rf)        != hmm->M+1) ESL_XFAIL(eslFAIL, errbuf, "p7H_RF flag up, but rf string is invalid");            }
+  else if (hmm->rf)          {                                                                   ESL_XFAIL(eslFAIL, errbuf, "p7H_RF flag down, but rf string is present");          }
+
+  if (hmm->flags & p7H_MMASK) { if (hmm->mm == NULL        || strlen(hmm->mm)        != hmm->M+1) ESL_XFAIL(eslFAIL, errbuf, "p7H_MMASK flag up, but mm string is invalid");            }
+  else if (hmm->mm)           {                                                                   ESL_XFAIL(eslFAIL, errbuf, "p7H_MMASK flag down, but mm string is present");          }
+
+  if (hmm->flags & p7H_CONS) { if (hmm->consensus == NULL || strlen(hmm->consensus) != hmm->M+1) ESL_XFAIL(eslFAIL, errbuf, "p7H_CONS flag up, but consensus string is invalid");   } 
+  else if (hmm->consensus)   {                                                                   ESL_XFAIL(eslFAIL, errbuf, "p7H_CONS flag down, but consensus string is present"); }
+
+  if (hmm->flags & p7H_CS)   { if (hmm->cs == NULL        || strlen(hmm->cs)        != hmm->M+1) ESL_XFAIL(eslFAIL, errbuf, "p7H_CS flag up, but cs string is invalid");   }
+  else if (hmm->cs)          {                                                                   ESL_XFAIL(eslFAIL, errbuf, "p7H_CS flag down, but cs string is present"); }
+
+  if (hmm->flags & p7H_CA)   { if (hmm->ca == NULL        || strlen(hmm->ca)        != hmm->M+1) ESL_XFAIL(eslFAIL, errbuf, "p7H_CA flag up, but ca string is invalid");   }
+  else if (hmm->ca)          {                                                                   ESL_XFAIL(eslFAIL, errbuf, "p7H_CA flag down, but ca string is present"); }
+
+  if (  (hmm->flags & p7H_MAP) && hmm->map == NULL)  ESL_XFAIL(eslFAIL, errbuf, "p7H_MAP flag up, but map string is null");
+  if (! (hmm->flags & p7H_MAP) && hmm->map != NULL)  ESL_XFAIL(eslFAIL, errbuf, "p7H_MAP flag down, but map string is present");
+
+  if (hmm->flags & p7H_STATS) {
+    if (hmm->evparam[p7_MLAMBDA] <= 0.) ESL_XFAIL(eslFAIL, errbuf, "lambda parameter can't be negative");
+    if (hmm->evparam[p7_VLAMBDA] <= 0.) ESL_XFAIL(eslFAIL, errbuf, "lambda parameter can't be negative");
+    if (hmm->evparam[p7_FLAMBDA] <= 0.) ESL_XFAIL(eslFAIL, errbuf, "lambda parameter can't be negative");
+  }
+  if (hmm->flags & p7H_COMPO && esl_vec_FValidate(hmm->compo, hmm->abc->K, tol, NULL) != eslOK)
+    ESL_XFAIL(eslFAIL, errbuf, "composition fails pvector validation");
+
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+/*------------- end of debugging/development code ----------------*/
+
+
+
+
+/*****************************************************************
+ * 5. Other routines in the API.
+ *****************************************************************/
+
+/* Function:  p7_hmm_CalculateOccupancy()
+ * Synopsis:  Calculate match occupancy and insert expected use count vectors.
+ *
+ * Purpose:   Calculate a vector <mocc[1..M]> containing probability
+ *            that each match state is used in a sampled path through
+ *            the model. Caller provides allocated space (<M+1> floats)
+ *            for <mocc>.
+ *            
+ *            Caller may optionally provide an array <iocc[0..M]> as
+ *            well, which (if provided) will be set to contain the
+ *            expected number of times that a sampled path would contain
+ *            each insert state.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_hmm_CalculateOccupancy(const P7_HMM *hmm, float *mocc, float *iocc)
+{
+  int k;
+
+  mocc[0] = 0.;			                     /* no M_0 state */
+  mocc[1] = hmm->t[0][p7H_MI] + hmm->t[0][p7H_MM];   /* initialize w/ 1 - B->D_1 */
+  for (k = 2; k <= hmm->M; k++)
+    mocc[k] = mocc[k-1] * (hmm->t[k-1][p7H_MM] + hmm->t[k-1][p7H_MI]) +
+      (1.0-mocc[k-1]) * hmm->t[k-1][p7H_DM];  
+
+  if (iocc != NULL) {
+    iocc[0] = hmm->t[0][p7H_MI] / hmm->t[0][p7H_IM];
+    for (k = 1; k <= hmm->M; k++)
+      iocc[k] = mocc[k] * hmm->t[k][p7H_MI] / hmm->t[k][p7H_IM];
+  }
+
+  return eslOK;
+}
+
+
+
+/*---------------- end of the rest of the API -------------------*/
+
+
+
+
+/*****************************************************************
+ * 6. Unit tests.
+ *****************************************************************/
+#ifdef p7HMM_TESTDRIVE
+
+/* The occupancy unit test is based on the principle that
+ * the stationary match occupancy probability in a random HMM 
+ * converges to 0.6, for long enough M (STL11/138)
+ */
+static void
+utest_occupancy(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc)
+{
+  char    *msg = "p7_hmm.c:: occupancy unit test failed";
+  P7_HMM  *hmm = NULL;
+  int        M = 200;
+  float   *occ = malloc(sizeof(float) * (M+1));
+  float      x;
+
+  if (p7_hmm_Sample(r, M, abc, &hmm)            != eslOK) esl_fatal(msg);
+  if (p7_hmm_CalculateOccupancy(hmm, occ, NULL) != eslOK) esl_fatal(msg);
+  x = esl_vec_FSum(occ+1, hmm->M) / (float) hmm->M;
+
+  if (esl_opt_GetBoolean(go, "-v") == TRUE)
+    {
+      printf("occupancy unit test:\n");
+      printf("expected 0.6; got %.3f\n\n", x);
+    }
+
+  if (esl_FCompare(x, 0.6, 0.1)                 != eslOK) esl_fatal(msg);
+
+  free(occ);
+  p7_hmm_Destroy(hmm);
+  return;
+}
+
+/* The composition unit test validates the SetComposition()
+ * calculation against the composition of a large number of sampled
+ * core HMM traces. This also exercises the correctness of
+ * p7_hmm_Sample() and p7_hmm_SetOccupancy(). 
+ * 
+ * SRE, Fri Dec  4 13:04:52 2009 [#h71; J5/120]
+ */
+static void
+utest_composition(ESL_GETOPTS *go, ESL_RANDOMNESS *r, ESL_ALPHABET *abc)
+{
+  char           *msg  = "p7_hmm.c:: composition unit test failed";
+  P7_HMM         *hmm  = NULL;
+  ESL_SQ         *sq   = esl_sq_CreateDigital(abc);
+  int             M    = 3;
+  int             N    = 100000;
+  float          *fq   = malloc(sizeof(float) * abc->K);
+  int             i,pos;
+
+  if (p7_hmm_Sample(r, M, abc, &hmm) != eslOK)  esl_fatal(msg);
+  if (p7_hmm_SetComposition(hmm)     != eslOK)  esl_fatal(msg);
+
+  esl_vec_FSet(fq, abc->K, 0.0);
+  for (i = 0; i < N; i++)
+    {
+      p7_CoreEmit(r, hmm, sq, NULL);
+
+      for (pos = 1; pos <= sq->n; pos++)
+	fq[sq->dsq[pos]] += 1.0;
+
+      esl_sq_Reuse(sq);
+    }  
+  esl_vec_FNorm(fq, abc->K);
+
+  if (esl_opt_GetBoolean(go, "-v") == TRUE)
+    {
+      printf("composition unit test:\n");
+      printf("  %6s %6s\n", "calced", "sample");
+      printf("  %6s %6s\n", "------", "------");
+      for (i = 0; i < abc->K; i++)
+	printf("%c %6.3f %6.3f\n", abc->sym[i], hmm->compo[i], fq[i]);
+      printf("\n");
+    }
+
+  if (esl_vec_FCompare(fq, hmm->compo, abc->K, 0.03) != eslOK) esl_fatal(msg); 
+
+  free(fq);
+  esl_sq_Destroy(sq);
+  p7_hmm_Destroy(hmm);
+  return;
+}
+
+#endif /*p7HMM_TESTDRIVE*/
+/*---------------------- end of unit tests -----------------------*/
+
+
+/*****************************************************************
+ * 7. Test driver.
+ *****************************************************************/
+
+#ifdef p7HMM_TESTDRIVE
+
+#include "p7_config.h"
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "be verbose",                                     0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for p7_hmm.c core model routines";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r    = esl_randomness_Create(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+
+  utest_occupancy  (go, r, abc);
+  utest_composition(go, r, abc);
+
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  exit(0); /* success */
+}
+
+#endif /*p7HMM_TESTDRIVE*/
+/*-------------------- end of test driver ---------------------*/
+
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: p7_hmm.c 4396 2013-02-12 00:33:45Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_hmm.c $
+ ************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmcache.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmcache.c
new file mode 100755
index 0000000..5271a17
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmcache.c
@@ -0,0 +1,238 @@
+/* A cached profile database. Used by the hmmpgmd daemon.
+ * 
+ * Contents:
+ *   x. P7_HMMCACHE : a daemon's cached profile database.
+ *   x. Benchmark driver.
+ *   x. Unit tests.
+ *   x. License and copyright information
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+
+#include "hmmer.h"
+#include "p7_hmmcache.h"
+
+/*****************************************************************
+ * 1. P7_HMMCACHE: a daemon's cached profile database
+ *****************************************************************/ 
+
+/* Function:  p7_hmmcache_Open()
+ * Synopsis:  Cache a profile database.
+ *
+ * Purpose:   Open <hmmfile> and read all of its contents, creating
+ *            a cached profile database in memory. Return a ptr to the 
+ *            cached profile database in <*ret_cache>. 
+ *            
+ *            Caller may optionally provide an <errbuf> ptr to
+ *            at least <eslERRBUFSIZE> bytes, to capture an 
+ *            informative error message on failure. 
+ *            
+ * Args:      hmmfile   - (base) name of profile file to open
+ *            ret_cache - RETURN: cached profile database
+ *            errbuf    - optRETURN: error message for a failure
+ *
+ * Returns:   <eslOK> on success. <*ret_cache> points to the
+ *            cached db. <errbuf> is unchanged.
+ *            
+ *            Failure codes:
+ *            <eslENOTFOUND> : <hmmfile> couldn't be opened for reading
+ *            <eslEFORMAT>   : <hmmfile> isn't in recognized HMMER file format
+ *            <eslEINCOMPAT> : profiles in <hmmfile> have different alphabets
+ *
+ *            On any failure, <*ret_cache> is <NULL> and <errbuf> contains
+ *            an informative error message for the user.
+ *
+ * Throws:    <eslEMEM> : memory allocation error.
+ */
+int
+p7_hmmcache_Open(char *hmmfile, P7_HMMCACHE **ret_cache, char *errbuf)
+{
+  P7_HMMCACHE *cache    = NULL;
+  P7_HMMFILE  *hfp      = NULL;        /* open HMM database file    */
+  P7_OPROFILE *om       = NULL;        /* target profile            */
+  int          status;
+  
+  ESL_ALLOC(cache, sizeof(P7_HMMCACHE));
+  cache->name      = NULL;
+  cache->abc       = NULL;
+  cache->list      = NULL;
+  cache->lalloc    = 4096;	/* allocation chunk size for <list> of ptrs  */
+  cache->n         = 0;
+
+  if ( ( status = esl_strdup(hmmfile, -1, &cache->name) != eslOK)) goto ERROR; 
+  ESL_ALLOC(cache->list, sizeof(P7_OPROFILE *) * cache->lalloc);
+
+  if ( (status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf)) != eslOK) goto ERROR;  // eslENOTFOUND | eslEFORMAT 
+
+  while ((status = p7_oprofile_ReadMSV(hfp, &(cache->abc), &om)) == eslOK) /* eslEFORMAT | eslEINCOMPAT */
+    {
+      if (( status = p7_oprofile_ReadRest(hfp, om)) != eslOK) break; /* eslEFORMAT */
+
+      if (cache->n >= cache->lalloc) {
+	ESL_REALLOC(cache->list, sizeof(char *) * cache->lalloc * 2);
+	cache->lalloc *= 2;
+      }
+      
+      cache->list[cache->n++] = om;
+      om = NULL;
+    }
+  if (status != eslEOF)  { strncpy(errbuf, hfp->errbuf, eslERRBUFSIZE); goto ERROR; }
+
+  //printf("\nfinal:: %d  memory %" PRId64 "\n", inx, total_mem);
+  p7_hmmfile_Close(hfp);
+  *ret_cache = cache;
+  return eslOK;
+
+ ERROR:
+  if (cache) p7_hmmcache_Close(cache);
+  if (om)    p7_oprofile_Destroy(om);
+  if (hfp)   p7_hmmfile_Close(hfp);
+  return status;
+}
+
+
+/* Function:  p7_hmmcache_Sizeof()
+ * Synopsis:  Returns total size of a profile cache, in bytes.
+ */
+size_t
+p7_hmmcache_Sizeof(P7_HMMCACHE *cache)
+{
+  size_t n = sizeof(P7_HMMCACHE);
+  int    i;
+
+  n += sizeof(char) * (strlen(cache->name) + 1);
+  n += esl_alphabet_Sizeof(cache->abc);
+  n += sizeof(P7_OPROFILE *) * cache->lalloc;     /* cache->list */
+
+  for (i = 0; i < cache->n; i++)
+    n += p7_oprofile_Sizeof(cache->list[i]);
+
+  return n;
+}
+  
+
+/* Function:  p7_hmmcache_SetNumericNames()
+ * Synopsis:  Rename each profile in cache with a numeric name.
+ *
+ * Purpose:   Rename every profile in profile cache <cache> 
+ *            with a numeric code, starting from "000000001".
+ *
+ *            The code is nine digits long, left padded with
+ *            0's.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_hmmcache_SetNumericNames(P7_HMMCACHE *cache)
+{
+  int          namelen = 9;	/* 9 digit numeric code: 000000001, 000000002... */
+  P7_OPROFILE *om;
+  int          i;
+  int          status;
+
+  for (i = 0; i < cache->n; i++)
+    {
+      om = cache->list[i];
+      if (om->name) free(om->name);
+      if (( status = esl_sprintf(&(om->name), "%0*d", namelen, i+1)) != eslOK) return status;
+    }
+  return eslOK;
+}
+
+
+/* Function:  p7_hmmcache_Close()
+ * Synopsis:  Free a profile cache.
+ */
+void
+p7_hmmcache_Close(P7_HMMCACHE *cache)
+{
+  int i;
+
+  if (! cache) return;
+  if (cache->name) free(cache->name);
+  if (cache->abc)  esl_alphabet_Destroy(cache->abc);
+  if (cache->list) 
+    {
+      for (i = 0; i < cache->n; i++)
+	p7_oprofile_Destroy(cache->list[i]);
+      free(cache->list);
+    }
+  free(cache);
+}
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7HMMCACHE_BENCHMARK
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+#include "p7_hmmcache.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",      0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM file>";
+static char banner[] = "benchmark driver for profile database cache";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w       = esl_stopwatch_Create();
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMCACHE   *hcache  = NULL;
+  char           errbuf[eslERRBUFSIZE];
+  size_t         tot_mem;
+  int            status;
+
+  esl_stopwatch_Start(w);
+
+  status = p7_hmmcache_Open(hmmfile, &hcache, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to read %s\n  %s\n",           hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("Failed to parse %s\n  %s\n",          hmmfile, errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("Mixed profile types in %s\n  %s\n",   hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Failed to cache %s: error code %d\n", hmmfile, status);
+
+  p7_hmmcache_SetNumericNames(hcache);
+  tot_mem = p7_hmmcache_Sizeof(hcache);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("tot memory = %" PRIu64 "\n", (uint64_t) tot_mem);
+  
+  p7_hmmcache_Close(hcache);
+  esl_getopts_Destroy(go);
+  esl_stopwatch_Destroy(w);
+  return 0;
+}
+#endif /*p7HMMCACHE_BENCHMARK*/
+/*--------------- end, benchmark driver -------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id: p7_hmmcache.c 3754 2011-11-21 14:25:31Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_hmmcache.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmcache.h b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmcache.h
new file mode 100755
index 0000000..e86a126
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmcache.h
@@ -0,0 +1,36 @@
+/* A cached profile database. Used by the hmmpgmd daemon.
+ */
+#ifndef P7_HMMCACHE_INCLUDED
+#define P7_HMMCACHE_INCLUDED
+
+#include "esl_alphabet.h"
+#include "hmmer.h"
+
+typedef struct {
+  char               *name;        /* name of the hmm database              */
+  ESL_ALPHABET       *abc;         /* alphabet for database                 */
+
+  P7_OPROFILE       **list;        /* list of profiles [0 .. n-1]           */
+  uint32_t            lalloc;	   /* allocated length of <list>            */
+  uint32_t            n;           /* number of entries in <list>           */
+} P7_HMMCACHE;
+
+extern int    p7_hmmcache_Open (char *hmmfile, P7_HMMCACHE **ret_cache, char *errbuf);
+extern size_t p7_hmmcache_Sizeof         (P7_HMMCACHE *cache);
+extern int    p7_hmmcache_SetNumericNames(P7_HMMCACHE *cache);
+extern void   p7_hmmcache_Close          (P7_HMMCACHE *cache);
+
+#endif /*P7_HMMCACHE_INCLUDED*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $Id: p7_hmmcache.h 3754 2011-11-21 14:25:31Z eddys $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_hmmcache.h $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmfile.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmfile.c
new file mode 100755
index 0000000..f33df35
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmfile.c
@@ -0,0 +1,2586 @@
+/* Input/output of HMMs.
+ * 
+ * Contents:
+ *     1. The P7_HMMFILE object for reading HMMs
+ *     2. Writing HMMER3 HMM files.
+ *     3. API for reading HMM files in various formats.
+ *     4. Private, specific profile HMM file format parsers.
+ *     5. Other private functions involved in i/o.
+ *     6. Benchmark driver.
+ *     7. Unit tests.
+ *     8. Test driver.
+ *     9. Example.
+ *    10. Copyright and license.
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+
+#ifdef HMMER_THREADS
+#include <pthread.h>
+#endif
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_ssi.h"     /* this gives us esl_byteswap */
+#include "esl_vectorops.h"   /* gives us esl_vec_FCopy()   */
+
+#include "hmmer.h"
+
+/* Magic numbers identifying binary formats.
+ * Do not change the old magics! Necessary for backwards compatibility.
+ */
+#if 0 /* temporarily remove all the magic; write backwards compat stuff later */
+static uint32_t  v10magic = 0xe8ededb1; /* v1.0 binary: "hmm1" + 0x80808080 */
+static uint32_t  v10swap  = 0xb1edede8; /* byteswapped v1.0                 */
+static uint32_t  v11magic = 0xe8ededb2; /* v1.1 binary: "hmm2" + 0x80808080 */
+static uint32_t  v11swap  = 0xb2edede8; /* byteswapped v1.1                 */
+static uint32_t  v17magic = 0xe8ededb3; /* v1.7 binary: "hmm3" + 0x80808080 */
+static uint32_t  v17swap  = 0xb3edede8; /* byteswapped v1.7                 */
+static uint32_t  v19magic = 0xe8ededb4; /* V1.9 binary: "hmm4" + 0x80808080 */
+static uint32_t  v19swap  = 0xb4edede8; /* V1.9 binary, byteswapped         */ 
+static uint32_t  v20magic = 0xe8ededb5; /* V2.0 binary: "hmm5" + 0x80808080 */
+static uint32_t  v20swap  = 0xb5edede8; /* V2.0 binary, byteswapped         */
+#endif
+
+static uint32_t  v3a_magic = 0xe8ededb6; /* 3/a binary: "hmm6" + 0x80808080 */
+static uint32_t  v3b_magic = 0xe8ededb7; /* 3/b binary: "hmm7" + 0x80808080 */
+static uint32_t  v3c_magic = 0xe8ededb8; /* 3/c binary: "hmm8" + 0x80808080 */
+static uint32_t  v3d_magic = 0xe8ededb9; /* 3/d binary: "hmm9" + 0x80808080 */
+static uint32_t  v3e_magic = 0xe8ededb0; /* 3/e binary: "hmm0" + 0x80808080 */
+static uint32_t  v3f_magic = 0xe8ededba; /* 3/f binary: "hmma" + 0x80808080 */
+
+
+static int read_asc30hmm(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc, P7_HMM **opt_hmm);
+static int read_bin30hmm(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc, P7_HMM **opt_hmm);
+static int read_asc20hmm(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc, P7_HMM **opt_hmm);
+
+static int   write_bin_string(FILE *fp, char *s);
+static int   read_bin_string (FILE *fp, char **ret_s);
+static float h2ascii2prob(char *s, float null);
+
+
+/*****************************************************************
+ * 1. The P7_HMMFILE object for reading HMMs.
+ *****************************************************************/
+
+/* Historical note:
+ * p7_hmmfile_Open() is deprecated;
+ * p7_hmmfile_OpenE() is the newer replacement, which includes
+ * better error reporting through a <errbuf>.
+ */
+
+static int open_engine(char *filename, char *env, P7_HMMFILE **ret_hfp, int do_ascii_only, char *errbuf);
+
+
+/* Function:  p7_hmmfile_OpenE()
+ * Synopsis:  Open an HMM file <filename>. 
+ *
+ * Purpose:   Open an HMM file <filename>, and prepare to read the first
+ *            HMM from it.
+ *            
+ *            We look for <filename> relative to the current working
+ *            directory. Additionally, if we don't find it in the cwd
+ *            and <env> is non-NULL, we will look for <filename>
+ *            relative to one or more directories in a colon-delimited
+ *            list obtained from the environment variable <env>. For
+ *            example, if we had <setenv HMMERDB
+ *            /misc/db/Pfam:/misc/db/Rfam> in the environment, a
+ *            profile HMM application might pass "HMMERDB" as <env>.
+ *            
+ *            As a special case, if <filename> is "-", then HMMs will
+ *            be read from <stdin>. In this case, <env> has no effect.
+ *            
+ *            As another special case, if <filename> ends in a <.gz>
+ *            suffix, the file is assumed to be compressed by GNU
+ *            <gzip>, and it is opened for reading from a pipe with
+ *            <gunzip -dc>. This feature is only available on
+ *            POSIX-compliant systems that have a <popen()> call, and
+ *            <HAVE_POPEN> is defined by the configure script at
+ *            compile time. 
+ *            
+ * Args:      filename - HMM file to open; or "-" for <stdin>
+ *            env      - list of paths to look for <hmmfile> in, in 
+ *                       addition to current working dir; or <NULL>
+ *            ret_hfp  - RETURN: opened <P7_HMMFILE>.
+ *            errbuf   - error message buffer: <NULL>, or a ptr
+ *                       to <eslERRBUFSIZE> chars of allocated space.
+ *
+ * Returns:   <eslOK> on success, and the open <ESL_HMMFILE> is returned
+ *            in <*ret_hfp>.
+ *            
+ *            <eslENOTFOUND> if <filename> can't be opened for
+ *            reading, even after the list of directories in <env> (if
+ *            any) is checked.
+ *            
+ *            <eslEFORMAT> if <filename> is not in a recognized HMMER
+ *            HMM file format.
+ *            
+ *            On either type of error, if a non-NULL <errbuf> was provided,
+ *            a useful user error message is left in it.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_hmmfile_OpenE(char *filename, char *env, P7_HMMFILE **ret_hfp, char *errbuf)
+{
+  return open_engine(filename, env, ret_hfp, FALSE, errbuf);
+}
+
+
+/* Function:  p7_hmmfile_Open()
+ * Synopsis:  Open an HMM file. (Deprecated version with less error handling)
+ *
+ * Purpose:   Same as <p7_hmmfile_OpenE()>, above, but without the <errbuf>.
+ *            This older version is now deprecated. Use <p7_hmmfile_OpenE()>.
+ *            
+ *            When we have squashed out all usage of legacy <p7_hmmfile_Open()>,
+ *            <OpenE()> will become <Open()>.
+ */
+int
+p7_hmmfile_Open(char *filename, char *env, P7_HMMFILE **ret_hfp)
+{
+  return open_engine(filename, env, ret_hfp, FALSE, NULL);
+}
+
+/* Function:  p7_hmmfile_OpenENoDB()
+ * Synopsis:  Open only an HMM flatfile, even if pressed db exists.
+ *
+ * Purpose:   Same as <p7_hmmfile_OpenE()> except that if a pressed
+ *            database exists for <filename>, it is ignored. Only
+ *            <filename> itself is opened.
+ *            
+ *            hmmpress needs this call. Otherwise, it opens a press'ed
+ *            database that it may be about to overwrite.
+ */
+int
+p7_hmmfile_OpenENoDB(char *filename, char *env, P7_HMMFILE **ret_hfp, char *errbuf)
+{
+  return open_engine(filename, env, ret_hfp, TRUE, errbuf);
+}
+
+
+
+/* Function:  p7_hmmfile_OpenNoDB()
+ * Synopsis:  Open only an HMM flatfile, even if pressed db exists. (Deprecated)
+ *
+ * Purpose:   Same as <p7_hmmfile_OpenENoDB()>, 
+ *            database exists for <filename>, it is ignored. Only
+ *            <filename> itself is opened.
+ *            
+ *            hmmpress needs this call. Otherwise, it opens a press'ed
+ *            database that it may be about to overwrite.
+ */
+int
+p7_hmmfile_OpenNoDB(char *filename, char *env, P7_HMMFILE **ret_hfp)
+{
+  return open_engine(filename, env, ret_hfp, TRUE, NULL);
+}
+
+
+/* Function:  p7_hmmfile_OpenBuffer()
+ *
+ * Purpose:   Perparse a buffer containing an ascii HMM for parsing.
+ *            
+ *            As another special case, if <filename> ends in a <.gz>
+ *            suffix, the file is assumed to be compressed by GNU
+ *            <gzip>, and it is opened for reading from a pipe with
+ *            <gunzip -dc>. This feature is only available on
+ *            POSIX-compliant systems that have a <popen()> call, and
+ *            <HAVE_POPEN> is defined by the configure script at
+ *            compile time. 
+ *            
+ * Args:      filename - HMM file to open; or "-" for <stdin>
+ *            env      - list of paths to look for <hmmfile> in, in 
+ *                       addition to current working dir; or <NULL>
+ *            ret_hfp  - RETURN: opened <P7_HMMFILE>.
+ *
+ * Returns:   <eslOK> on success, and the open <ESL_HMMFILE> is returned
+ *            in <*ret_hfp>.
+ *            
+ *            <eslENOTFOUND> if <filename> can't be opened for
+ *            reading, even after the list of directories in <env> (if
+ *            any) is checked.
+ *            
+ *            <eslEFORMAT> if <filename> is not in a recognized HMMER
+ *            HMM file format.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_hmmfile_OpenBuffer(char *buffer, int size, P7_HMMFILE **ret_hfp)
+{
+  P7_HMMFILE *hfp     = NULL;
+  int         status;
+  char       *tok;
+  int         toklen;
+
+  ESL_ALLOC(hfp, sizeof(P7_HMMFILE));
+  hfp->f            = NULL;
+  hfp->fname        = NULL;
+  hfp->do_gzip      = FALSE;
+  hfp->do_stdin     = FALSE;
+  hfp->newly_opened = TRUE;  /* well, it will be, real soon now */
+  hfp->is_pressed   = FALSE;
+#ifdef HMMER_THREADS
+  hfp->syncRead     = FALSE;
+#endif
+  hfp->parser       = NULL;
+  hfp->efp          = NULL;
+  hfp->ffp          = NULL;
+  hfp->pfp          = NULL;
+  hfp->ssi          = NULL;
+  hfp->errbuf[0]    = '\0';
+
+  if ((hfp->efp = esl_fileparser_CreateMapped(buffer, size))         == NULL)   { status = eslEMEM; goto ERROR; }
+  if ((status = esl_fileparser_SetCommentChar(hfp->efp, '#'))        != eslOK)  goto ERROR;
+  if ((status = esl_fileparser_GetToken(hfp->efp, &tok, &toklen))    != eslOK)  goto ERROR;
+
+  if      (strcmp("HMMER3/f", tok) == 0) { hfp->format = p7_HMMFILE_3f; hfp->parser = read_asc30hmm; }
+  else if (strcmp("HMMER3/e", tok) == 0) { hfp->format = p7_HMMFILE_3e; hfp->parser = read_asc30hmm; }
+  else if (strcmp("HMMER3/d", tok) == 0) { hfp->format = p7_HMMFILE_3d; hfp->parser = read_asc30hmm; }
+  else if (strcmp("HMMER3/c", tok) == 0) { hfp->format = p7_HMMFILE_3c; hfp->parser = read_asc30hmm; }
+  else if (strcmp("HMMER3/b", tok) == 0) { hfp->format = p7_HMMFILE_3b; hfp->parser = read_asc30hmm; }
+  else if (strcmp("HMMER3/a", tok) == 0) { hfp->format = p7_HMMFILE_3a; hfp->parser = read_asc30hmm; }
+  else if (strcmp("HMMER2.0", tok) == 0) { hfp->format = p7_HMMFILE_20; hfp->parser = read_asc20hmm; }
+
+  if (hfp->parser == NULL) { status = eslEFORMAT; goto ERROR; }
+
+  *ret_hfp = hfp;
+  return eslOK;
+
+ ERROR:
+  if (hfp     != NULL) p7_hmmfile_Close(hfp);
+  *ret_hfp = NULL;
+  if      (status == eslEMEM)       return status;
+  else if (status == eslENOTFOUND)  return status;
+  else                              return eslEFORMAT;
+}
+
+
+/* open_engine()
+ *
+ * Implements all of the file opening functions:
+ * <p7_hmmfile_Open()>, <p7_hmmfile_OpenE()>, <p7_hmmfile_OpenNoDB()>, 
+ * and <p7_OpenENoDB()>.
+ * See their comments above.
+ * 
+ * Only returns three types of errors: 
+ *    eslENOTFOUND - file (the HMM file) or program (gzip, for .gz files) not found
+ *    eslEFORMAT   - bad HMM file format (or format of associated file)           
+ *    eslEMEM      - allocation failure somewhere
+ * <errbuf>, if non-NULL, will contain a useful error message.             
+ *              
+ */
+static int 
+open_engine(char *filename, char *env, P7_HMMFILE **ret_hfp, int do_ascii_only, char *errbuf)
+{
+  P7_HMMFILE *hfp      = NULL;
+  char       *envfile  = NULL;  /* full path to filename after using environment  */
+  char       *dbfile   = NULL;  /* constructed name of an index or binary db file */
+  char       *cmd      = NULL;  /* constructed gzip -dc pipe command              */
+  int         status;
+  int         n       = strlen(filename);
+  union { char c[4]; uint32_t n; } magic;
+  char       *tok;
+  int         toklen;
+
+  ESL_ALLOC(hfp, sizeof(P7_HMMFILE));
+  hfp->f            = NULL;
+  hfp->fname        = NULL;
+  hfp->do_gzip      = FALSE;
+  hfp->do_stdin     = FALSE;
+  hfp->newly_opened = TRUE;  /* well, it will be, real soon now */
+  hfp->is_pressed   = FALSE;
+#ifdef HMMER_THREADS
+  hfp->syncRead     = FALSE;
+#endif
+  hfp->parser       = NULL;
+  hfp->efp          = NULL;
+  hfp->ffp          = NULL;
+  hfp->pfp          = NULL;
+  hfp->ssi          = NULL;
+  hfp->errbuf[0]    = '\0';
+
+  /* 1. There's two special reading modes that have limited indexing
+   *    and optimization capability: reading from standard input, and 
+   *    reading a gzip'ped file. Once we've set one of these up and set
+   *    either the <do_stdin> or <do_gzip> flag, we won't try to open
+   *    any associated indexes or binary database files.
+   */
+  if (strcmp(filename, "-") == 0) /* "-" means read from stdin */
+    {
+      hfp->f        = stdin;
+      hfp->do_stdin = TRUE;
+      if ((status = esl_strdup("[STDIN]", -1, &(hfp->fname))) != eslOK)   ESL_XFAIL(status, errbuf, "esl_strdup failed; shouldn't happen");
+    }
+#ifdef HAVE_POPEN
+  else if (n > 3 && strcmp(filename+n-3, ".gz") == 0) /* a <*.gz> filename means read via gunzip pipe */
+  {
+    if (! esl_FileExists(filename))                                    ESL_XFAIL(eslENOTFOUND, errbuf, ".gz file %s not found or not readable", filename);
+    if ((status = esl_sprintf(&cmd, "gzip -dc %s", filename)) != eslOK) ESL_XFAIL(status,       errbuf, "when setting up .gz pipe: esl_sprintf() failed");
+    if ((hfp->f = popen(cmd, "r")) == NULL)                             ESL_XFAIL(eslENOTFOUND, errbuf, "gzip -dc %s failed; gzip not installed or not in PATH?", filename);
+    if ((status = esl_strdup(filename, n, &(hfp->fname))) != eslOK)     ESL_XFAIL(status,       errbuf, "esl_strdup() failed, shouldn't happen");
+    hfp->do_gzip  = TRUE;
+    free(cmd); cmd = NULL;
+  }
+#endif /*HAVE_POPEN: gzip mode */
+  
+  
+  /* 2. If <hfp->f> is still NULL, then we're in the usual situation
+   *    of looking for a file on disk. It may either be in the cwd, or
+   *    in one of the directories listed in the <env> string. Find it,
+   *    open it to <hfp->f>, and set <hfp->filename>. The
+   *    <hfp->filename> string will be used later to construct the
+   *    names of expected index and binary database files.
+   */
+  if (hfp->f == NULL) {
+    if ((hfp->f = fopen(filename, "r")) != NULL) {
+      if ((status = esl_strdup(filename, n, &(hfp->fname)))    != eslOK) ESL_XFAIL(status, errbuf, "esl_strdup() failed, shouldn't happen");
+    } else if (esl_FileEnvOpen(filename, env, &(hfp->f), &envfile) == eslOK) {
+      n = strlen(envfile);
+      if ((status = esl_strdup(envfile, n, &(hfp->fname)))     != eslOK) ESL_XFAIL(status, errbuf, "esl_strdup() failed, shouldn't happen");
+      free(envfile); envfile = NULL;
+    } else
+    { /* temporarily copy filename over to hfp->fname, even though we haven't opened anything: we'll next try to open <filename>.h3m  */
+      if ((status = esl_strdup(filename, n, &(hfp->fname)))    != eslOK) ESL_XFAIL(status, errbuf, "esl_strdup() failed, shouldn't happen");
+    }
+  }
+  /* <hfp->f> may *still* be NULL, if <filename> is a press'ed database and ASCII file is deleted */
+
+
+  /* 3. Look for the binary model file component of a press'ed HMM database.
+   * 
+   *    If <hfp->f> is still NULL, this is our last chance to find it. 
+   *    (The ASCII base file may have been deleted to save space, leaving
+   *    binary press'ed files.)
+   *    
+   * If we've been asked to open only an ASCII file -- because we're being
+   * called by hmmpress, for example! -- then don't do this.   
+   */
+  if (! do_ascii_only && ! hfp->do_stdin && ! hfp->do_gzip) {
+    FILE *tmpfp;
+    /* if we opened an ASCII file in the HMMERDB directory, hfp->fname contains fully qualified name of file including the path */
+    if ((status = esl_sprintf(&dbfile, "%s.h3m", hfp->fname) != eslOK)) ESL_XFAIL(status, errbuf, "esl_sprintf() failed; shouldn't happen");
+
+    if ((tmpfp = fopen(dbfile, "rb")) != NULL)
+    {
+      if (hfp->f != NULL) fclose(hfp->f); /* preferentially read the .h3m file, not the original */
+      hfp->f = tmpfp;
+      hfp->is_pressed = TRUE;
+      free(hfp->fname);
+      if ((status = esl_strdup(dbfile, -1, &(hfp->fname)))    != eslOK) ESL_XFAIL(status, errbuf, "esl_strdup() failed, shouldn't happen");
+    }
+    else if (hfp->f == NULL && esl_FileEnvOpen(dbfile, env, &(hfp->f), &envfile) == eslOK)
+    { /* found a binary-only press'ed db in one of the env directories. */
+      free(hfp->fname);
+      if ((status = esl_strdup(envfile, -1, &(hfp->fname)))    != eslOK) ESL_XFAIL(status, errbuf, "esl_strdup() failed; shouldn't happen");
+      hfp->is_pressed = TRUE;
+    }
+    free(dbfile); dbfile = NULL;
+  }
+
+  /* 4. <hfp->f> must now point to a valid model input stream: if not, we fail. 
+   */
+  if (hfp->f == NULL)  
+  {
+    if (env) ESL_XFAIL(eslENOTFOUND, errbuf, "HMM file %s not found (nor an .h3m binary of it); also looked in %s", filename, env);
+    else     ESL_XFAIL(eslENOTFOUND, errbuf, "HMM file %s not found (nor an .h3m binary of it)",                    filename);
+  }
+
+
+  /* 5. If we found and opened a binary model file .h3m, open the rest of 
+   *     the press'd model files. (this can't be true if do_ascii_only is set)
+   */
+  if (hfp->is_pressed) 
+  {
+  /* here we rely on the fact that the suffixes are .h3{mfpi}, to construct other names from .h3m file name !! */
+    n = strlen(hfp->fname);   /* so, n = '\0', n-1 = 'm'  */
+    esl_strdup(hfp->fname, n, &dbfile);
+
+    dbfile[n-1] = 'f';  /* the MSV filter part of the optimized profiles */
+    if ((hfp->ffp = fopen(dbfile, "rb")) == NULL) ESL_XFAIL(eslENOTFOUND, errbuf, "Opened %s, a pressed HMM file; but no .h3f file found", hfp->fname);
+
+    dbfile[n-1] = 'p';  /* the remainder of the optimized profiles */
+    if ((hfp->pfp = fopen(dbfile, "rb")) == NULL) ESL_XFAIL(eslENOTFOUND, errbuf, "Opened %s, a pressed HMM file; but no .h3p file found", hfp->fname);
+
+    dbfile[n-1] = 'i';  /* the SSI index for the .h3m file */
+    status = esl_ssi_Open(dbfile, &(hfp->ssi));
+    if      (status == eslENOTFOUND) ESL_XFAIL(eslENOTFOUND, errbuf, "Opened %s, a pressed HMM file; but no .h3i file found", hfp->fname);
+    else if (status == eslEFORMAT)   ESL_XFAIL(eslEFORMAT,   errbuf, "Opened %s, a pressed HMM file; but format of its .h3i file unrecognized", hfp->fname);
+    else if (status == eslERANGE)    ESL_XFAIL(eslEFORMAT,   errbuf, "Opened %s, a pressed HMM file; but its .h3i file is 64-bit and your system is 32-bit", hfp->fname);
+    else if (status != eslOK)        ESL_XFAIL(eslEFORMAT,   errbuf, "Opened %s, a pressed HMM file; but failed to open its .h3i file", hfp->fname);
+
+    free(dbfile); dbfile = NULL;
+  }
+  else
+  {
+    if ((status = esl_sprintf(&dbfile, "%s.ssi", hfp->fname)) != eslOK) ESL_XFAIL(status, errbuf, "esl_sprintf() failed");
+
+    status = esl_ssi_Open(dbfile, &(hfp->ssi)); /* not finding an SSI file is ok. we open it if we find it. */
+    if      (status == eslEFORMAT)   ESL_XFAIL(status, errbuf, "a %s.ssi file exists (an SSI index), but its SSI format is not recognized",     hfp->fname);
+    else if (status == eslERANGE)    ESL_XFAIL(status, errbuf, "a %s.ssi file exists (an SSI index), but is 64-bit, and your system is 32-bit", hfp->fname);
+    else if (status != eslOK && status != eslENOTFOUND) ESL_XFAIL(status, errbuf, "esl_ssi_Open() failed");
+    free(dbfile); dbfile = NULL;
+  }
+
+
+  /* 6. Check for binary file format. A pressed db is automatically binary: verify. */
+  if (! fread((char *) &(magic.n), sizeof(uint32_t), 1, hfp->f))  ESL_XFAIL(eslEFORMAT, errbuf, "File exists, but appears to be empty?");
+  if      (magic.n == v3a_magic) { hfp->format = p7_HMMFILE_3a; hfp->parser = read_bin30hmm; }
+  else if (magic.n == v3b_magic) { hfp->format = p7_HMMFILE_3b; hfp->parser = read_bin30hmm; }
+  else if (magic.n == v3c_magic) { hfp->format = p7_HMMFILE_3c; hfp->parser = read_bin30hmm; }
+  else if (magic.n == v3d_magic) { hfp->format = p7_HMMFILE_3d; hfp->parser = read_bin30hmm; }
+  else if (magic.n == v3e_magic) { hfp->format = p7_HMMFILE_3e; hfp->parser = read_bin30hmm; }
+  else if (magic.n == v3f_magic) { hfp->format = p7_HMMFILE_3f; hfp->parser = read_bin30hmm; }
+  else if (hfp->is_pressed) ESL_XFAIL(eslEFORMAT, errbuf, "Binary format tag in %s unrecognized\nCurrent H3 format is HMMER3/f. Previous H2/H3 formats also supported.", hfp->fname);
+
+  /* 7. Checks for ASCII file format */
+  if (hfp->parser == NULL)
+  {
+    /* Does the magic appear to be binary, yet we didn't recognize it? */
+    if (magic.n & 0x80000000) ESL_XFAIL(eslEFORMAT, errbuf, "Format tag appears binary, but unrecognized\nCurrent H3 format is HMMER3/f. Previous H2/H3 formats also supported.");
+
+    if ((hfp->efp = esl_fileparser_Create(hfp->f))                     == NULL)   ESL_XFAIL(eslEMEM, errbuf, "internal error in esl_fileparser_Create()");
+    if ((status = esl_fileparser_SetCommentChar(hfp->efp, '#'))        != eslOK)  ESL_XFAIL(status,  errbuf, "internal error in esl_fileparser_SetCommentChar()");
+    if ((status = esl_fileparser_NextLinePeeked(hfp->efp, magic.c, 4)) != eslOK)  ESL_XFAIL(status,  errbuf, "internal error in esl_fileparser_NextLinePeeked()");
+    if ((status = esl_fileparser_GetToken(hfp->efp, &tok, &toklen))    != eslOK)  ESL_XFAIL(status,  errbuf, "internal error in esl_fileparser_GetToken()");
+
+    if      (strcmp("HMMER3/f", tok) == 0) { hfp->format = p7_HMMFILE_3f; hfp->parser = read_asc30hmm; }
+    else if (strcmp("HMMER3/e", tok) == 0) { hfp->format = p7_HMMFILE_3e; hfp->parser = read_asc30hmm; }
+    else if (strcmp("HMMER3/d", tok) == 0) { hfp->format = p7_HMMFILE_3d; hfp->parser = read_asc30hmm; }
+    else if (strcmp("HMMER3/c", tok) == 0) { hfp->format = p7_HMMFILE_3c; hfp->parser = read_asc30hmm; }
+    else if (strcmp("HMMER3/b", tok) == 0) { hfp->format = p7_HMMFILE_3b; hfp->parser = read_asc30hmm; }
+    else if (strcmp("HMMER3/a", tok) == 0) { hfp->format = p7_HMMFILE_3a; hfp->parser = read_asc30hmm; }
+    else if (strcmp("HMMER2.0", tok) == 0) { hfp->format = p7_HMMFILE_20; hfp->parser = read_asc20hmm; }
+    else ESL_XFAIL(eslEFORMAT, errbuf, "Format tag is '%s': unrecognized.\nCurrent H3 format is 'HMMER3/f'. Previous H2/H3 formats also supported.", tok);
+  }
+
+  *ret_hfp = hfp;
+  return eslOK;
+
+ ERROR:
+  if (cmd     != NULL) free(cmd);
+  if (dbfile  != NULL) free(dbfile);
+  if (envfile != NULL) free(envfile);
+  if (hfp     != NULL) p7_hmmfile_Close(hfp);
+  *ret_hfp = NULL;
+  if      (status == eslEMEM)       return status;
+  else if (status == eslENOTFOUND)  return status;
+  else                              return eslEFORMAT;
+}
+
+/* Function:  p7_hmmfile_Close()
+ *
+ * Purpose:   Closes an open HMM file <hfp>.
+ *
+ * Returns:   (void)
+ */
+void
+p7_hmmfile_Close(P7_HMMFILE *hfp)
+{
+  if (hfp == NULL) return;
+
+#ifdef HAVE_POPEN /* gzip functionality */
+  if (hfp->do_gzip && hfp->f != NULL)    pclose(hfp->f);
+#endif
+  if (!hfp->do_gzip && !hfp->do_stdin && hfp->f != NULL) fclose(hfp->f);
+  if (hfp->ffp   != NULL) fclose(hfp->ffp);
+  if (hfp->pfp   != NULL) fclose(hfp->pfp);
+  if (hfp->fname != NULL) free(hfp->fname);
+  if (hfp->efp   != NULL) esl_fileparser_Destroy(hfp->efp);
+  if (hfp->ssi   != NULL) esl_ssi_Close(hfp->ssi);
+#ifdef HMMER_THREADS
+  if (hfp->syncRead)      pthread_mutex_destroy (&hfp->readMutex);
+#endif
+  free(hfp);
+}
+
+#ifdef HMMER_THREADS
+/* Function:  p7_hmmfile_CreateLock()
+ *
+ * Purpose:   Create a lock to synchronize readers
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_hmmfile_CreateLock(P7_HMMFILE *hfp)
+{
+  int status;
+
+  if (hfp == NULL) return eslEINVAL;
+
+  /* make sure the lock is not created twice */
+  if (!hfp->syncRead)
+  {
+    hfp->syncRead = TRUE;
+    status = pthread_mutex_init(&hfp->readMutex, NULL);
+    if (status != 0) goto ERROR;
+  }
+
+  return eslOK;
+
+ ERROR:
+  hfp->syncRead = FALSE;
+  return eslFAIL;
+}
+#endif
+/*----------------- end, P7_HMMFILE object ----------------------*/
+
+
+
+/*****************************************************************
+ * 2. Writing HMMER3 HMM files.
+ *****************************************************************/
+static int multiline(FILE *fp, const char *pfx, char *s);
+static int multilineString(char **str, const char *pfx, char *s, int *offset);
+static int printprob(FILE *fp, int fieldwidth, float p);
+static int probToString(char **str , int fieldwidth, float p, int offset);
+
+/* Function:  p7_hmmfile_WriteASCII()
+ * Synopsis:  Write a HMMER3 ASCII save file.
+ *
+ * Purpose:   Write a profile HMM <hmm> in an ASCII save file format to
+ *            an open stream <fp>.
+ *
+ *            Legacy file formats in the 3.x release series are
+ *            supported by specifying the <format> code. Pass <-1> to
+ *            use the default current standard format; pass a valid
+ *            code such as <p7_HMMFILE_3a> to select a specific
+ *            format.
+ *
+ * Args:      fp     - open stream for writing
+ *            format - -1 for default format, or a 3.x format code like <p7_HMMFILE_3a>
+ *            hmm    - HMM to save
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <format> isn't a valid 3.0 format code.
+ *            <eslEWRITE> on write error.
+ */
+int
+p7_hmmfile_WriteASCII(FILE *fp, int format, P7_HMM *hmm)
+{
+  int k, x;
+  int status;
+  
+
+  if (format == -1) format = p7_HMMFILE_3f;
+
+  if      (format == p7_HMMFILE_3f)  { if (fprintf(fp, "HMMER3/f [%s | %s]\n",                             HMMER_VERSION, HMMER_DATE) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");}
+  else if (format == p7_HMMFILE_3e)  { if (fprintf(fp, "HMMER3/e [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else if (format == p7_HMMFILE_3d)  { if (fprintf(fp, "HMMER3/d [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else if (format == p7_HMMFILE_3c)  { if (fprintf(fp, "HMMER3/c [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else if (format == p7_HMMFILE_3b)  { if (fprintf(fp, "HMMER3/b [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else if (format == p7_HMMFILE_3a)  { if (fprintf(fp, "HMMER3/a [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else ESL_EXCEPTION(eslEINVAL, "invalid HMM file format code");
+  
+  if (fprintf(fp, "NAME  %s\n", hmm->name)                                                          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (hmm->acc  && fprintf(fp, "ACC   %s\n", hmm->acc)                                              < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (hmm->desc && fprintf(fp, "DESC  %s\n", hmm->desc)                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fprintf(fp, "LENG  %d\n", hmm->M)                                                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (format >= p7_HMMFILE_3c && hmm->max_length > 0 && fprintf(fp, "MAXL  %d\n", hmm->max_length)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fprintf(fp, "ALPH  %s\n", esl_abc_DecodeType(hmm->abc->type))                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fprintf(fp, "RF    %s\n", (hmm->flags & p7H_RF)    ? "yes" : "no")                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (format >= p7_HMMFILE_3f && fprintf(fp, "MM    %s\n", (hmm->flags & p7H_MMASK) ? "yes" : "no") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (format >= p7_HMMFILE_3e && fprintf(fp, "CONS  %s\n", (hmm->flags & p7H_CONS)  ? "yes" : "no") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fprintf(fp, "CS    %s\n", (hmm->flags & p7H_CS)    ? "yes" : "no")                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fprintf(fp, "MAP   %s\n", (hmm->flags & p7H_MAP)   ? "yes" : "no")                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (hmm->ctime    != NULL)   { if (           fprintf  (fp, "DATE  %s\n", hmm->ctime)        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  if (hmm->comlog   != NULL)   { if ( (status = multiline(fp, "COM  ",      hmm->comlog)) != eslOK) return status; }
+  if (hmm->nseq     >= 0)      { if (           fprintf  (fp, "NSEQ  %d\n", hmm->nseq)         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  if (hmm->eff_nseq >= 0)      { if (           fprintf  (fp, "EFFN  %f\n", hmm->eff_nseq)     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  if (hmm->flags & p7H_CHKSUM) { if (           fprintf  (fp, "CKSUM %u\n", hmm->checksum)     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); } /* unsigned 32-bit */
+
+  if (hmm->abc->type == eslRNA || hmm->abc->type == eslDNA ) {
+    if ((hmm->flags & p7H_GA)  && fprintf(fp, "GA    %.2f\n", hmm->cutoff[p7_GA1]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    if ((hmm->flags & p7H_TC)  && fprintf(fp, "TC    %.2f\n", hmm->cutoff[p7_TC1]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    if ((hmm->flags & p7H_NC)  && fprintf(fp, "NC    %.2f\n", hmm->cutoff[p7_NC1]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  } else {
+    if ((hmm->flags & p7H_GA)  && fprintf(fp, "GA    %.2f %.2f\n", hmm->cutoff[p7_GA1], hmm->cutoff[p7_GA2]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    if ((hmm->flags & p7H_TC)  && fprintf(fp, "TC    %.2f %.2f\n", hmm->cutoff[p7_TC1], hmm->cutoff[p7_TC2]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    if ((hmm->flags & p7H_NC)  && fprintf(fp, "NC    %.2f %.2f\n", hmm->cutoff[p7_NC1], hmm->cutoff[p7_NC2]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  }
+  if (hmm->flags & p7H_STATS) {
+    if (format == p7_HMMFILE_3a)  {        /* reverse compatibility */
+      if (fprintf(fp, "STATS LOCAL     VLAMBDA %f\n", hmm->evparam[p7_MLAMBDA]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+      if (fprintf(fp, "STATS LOCAL         VMU %f\n", hmm->evparam[p7_MMU])     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+      if (fprintf(fp, "STATS LOCAL        FTAU %f\n", hmm->evparam[p7_FTAU])    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    } else {        /* default stats lines */
+      if (fprintf(fp, "STATS LOCAL MSV      %8.4f %8.5f\n", hmm->evparam[p7_MMU],  hmm->evparam[p7_MLAMBDA]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+      if (fprintf(fp, "STATS LOCAL VITERBI  %8.4f %8.5f\n", hmm->evparam[p7_VMU],  hmm->evparam[p7_VLAMBDA]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+      if (fprintf(fp, "STATS LOCAL FORWARD  %8.4f %8.5f\n", hmm->evparam[p7_FTAU], hmm->evparam[p7_FLAMBDA]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    }
+  }
+
+  if (fprintf(fp, "HMM     ")                                         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  for (x = 0; x < hmm->abc->K; x++) 
+    { if (fprintf(fp, "     %c   ", hmm->abc->sym[x])                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  if (fputc('\n', fp)                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fprintf(fp, "        %8s %8s %8s %8s %8s %8s %8s\n",
+        "m->m", "m->i", "m->d", "i->m", "i->i", "d->m", "d->d") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (hmm->flags & p7H_COMPO) {
+    if (fprintf(fp, "  COMPO ") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    for (x = 0; x < hmm->abc->K; x++) 
+      { if ( (status = printprob(fp, 8, hmm->compo[x])) != eslOK) return status; }
+    if (fputc('\n', fp)         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  }
+
+  /* node 0 is special: insert emissions, and B-> transitions */
+  if (fputs("        ", fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  for (x = 0; x < hmm->abc->K;      x++) 
+    { if ( (status = printprob(fp, 8, hmm->ins[0][x])) != eslOK) return status; }  
+  if (fputc('\n', fp)       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+
+  if (fputs("        ", fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  for (x = 0; x < p7H_NTRANSITIONS; x++) 
+    { if ( (status = printprob(fp, 8, hmm->t[0][x])) != eslOK) return status; }    
+  if (fputc('\n', fp)       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  for (k = 1; k <= hmm->M; k++) {
+    /* Line 1: k; match emissions; optional map, RF, MM, CS */
+    if (fprintf(fp, " %6d ",  k) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    for (x = 0; x < hmm->abc->K; x++)
+    { if ( (status = printprob(fp, 8, hmm->mat[k][x])) != eslOK) return status; }
+
+    if (hmm->flags & p7H_MAP) { if (fprintf(fp, " %6d", hmm->map[k]) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+    else                      { if (fprintf(fp, " %6s", "-")         < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+
+    if (format >= p7_HMMFILE_3e) {
+      x = hmm->consensus[k];
+      if (format >= p7_HMMFILE_3f && (hmm->flags & p7H_MMASK) && hmm->mm[k] == 'm' )
+        x = tolower(hmm->abc->sym[hmm->abc->Kp-3]);
+      if (fprintf(fp, " %c",   (hmm->flags & p7H_CONS) ? x : '-') < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    }
+
+
+    if (hmm->rf && hmm->rf[k] == ' ') ESL_EXCEPTION_SYS(eslEWRITE, "input alignment contains an RF line with spaces");
+    if (fprintf(fp, " %c",   (hmm->flags & p7H_RF)    ? hmm->rf[k]        : '-') < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    if (format >= p7_HMMFILE_3f) { if (fprintf(fp, " %c",   (hmm->flags & p7H_MMASK) ? hmm->mm[k]       : '-') < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+    if (fprintf(fp, " %c\n", (hmm->flags & p7H_CS)    ? hmm->cs[k]        : '-') < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+
+    /* Line 2:   insert emissions */
+    if (fputs("        ", fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    for (x = 0; x < hmm->abc->K; x++)
+    { if ( (status = printprob(fp, 8, hmm->ins[k][x])) != eslOK) return status; }
+    /* Line 3:   transitions */
+    if (fputs("\n        ", fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+    for (x = 0; x < p7H_NTRANSITIONS; x++)
+    { if ( (status = printprob(fp, 8, hmm->t[k][x])) != eslOK) return status; }
+    if (fputc('\n', fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  }
+  if (fputs("//\n", fp) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  return eslOK;
+}
+
+
+/* Function:  p7_hmmfile_WriteToString()
+ * Synopsis:  Write a HMMER3 HMM to char.
+ *
+ * Purpose:   Write a profile HMM <hmm> in to string <ascii_hmm> in ASCII
+ *            format.
+ *
+ *            Should produce same output as p7_hmmfile_WriteASCII
+ *
+ *            Legacy file formats in the 3.x release series are
+ *            supported by specifying the <format> code. Pass <-1> to
+ *            use the default current standard format; pass a valid
+ *            code such as <p7_HMMFILE_3a> to select a specific
+ *            format.
+ *
+ *            Calling function is responsible for freeing the returned string.
+ *
+ * Args:      ascii_hmm - char pointer where the string will be allocated and set
+ *            format    - -1 for default format, or a 3.x format code like <p7_HMMFILE_3a>
+ *            hmm       - HMM to save
+ *
+ * Returns:   <eslOK> on success or <eslEWRITE> on error.
+ */
+int
+p7_hmmfile_WriteToString(char **ascii_hmm, int format, P7_HMM *hmm)
+{
+  int k, x;
+  int status;
+
+  int offset;
+  int coffset = 0;
+  /* These 3 chars and int are used in the size determiantion */
+  int size;
+  int n = 0;
+  char buff[100];
+  char *end   = NULL;
+  char *sptr;
+
+  char *ret_hmm;
+
+  if (format == -1) format = p7_HMMFILE_3f;
+
+  /* In this block of code, interogate the HMM to work out the amount of memory needed to write it out as an ASCII string */
+  /* The number in each row is the number of fixed chars, inlcuding the '\n' */
+
+  /* The header block containing the tag/value pairs */
+  size =  50 + strlen(HMMER_VERSION) +  strlen(HMMER_DATE);                                                 /* HMMER version text */
+  size += 7 + strlen(hmm->name);                                                                            /* NAME line */
+  size += (hmm->acc ?  ( 7 + strlen(hmm->acc)) : 0);                                                        /* ACC line, if present */
+  size += (hmm->desc ?  ( 7 + strlen(hmm->desc)) : 0);                                                      /* DESC line, if present */
+  size += 7 + sprintf(buff, "%d", hmm->M);                                                                  /*LENG tag, we determine size of field later */
+  size += ((format >= p7_HMMFILE_3c && hmm->max_length) ?  7  + sprintf(buff, "%d", hmm->max_length) : 0);  /*MAXL line, later formats only, optional */
+  size += 7 + strlen( esl_abc_DecodeType(hmm->abc->type));                                                  /*ALPH tag */
+  size += 10;                                                                                               /*RF tag, yes/no */
+  size += (format >= p7_HMMFILE_3f ?  10  : 0 );                                                            /*MM line, only later formats*/
+  size += (format >= p7_HMMFILE_3e ?  10  : 0 );                                                            /*CONS line, only later formats*/
+  size += 10;                                                                                               /*Consensus secondary structure lines */
+  size += 10;                                                                                               /*MAP line*/
+  size += (hmm->ctime != NULL ? (7 + strlen(hmm->ctime)) : 0);                                              /*DATE line*/
+
+  /* Complicated as it can cover multiple lines */
+  if(hmm->comlog != NULL){
+    /* Determine the number of COM lines by counting the number of '\n' */
+    sptr = hmm->comlog;
+    do {
+      n++; /* last line should not have \n, so count before to get count */
+      end = strchr(sptr, '\n');
+      sptr += (end - sptr) +1;
+    } while (end != NULL  && *sptr != '\0');
+    size += ((sprintf(buff, "%d", n) + 8) * n); /*length of all the COM tags*/
+    size += strlen(hmm->comlog);
+  }
+
+  size += (hmm->nseq  >= 0 ? 7  + sprintf(buff, "%d", hmm->nseq) : 0);                                      /* NSEQ line */
+  size += (hmm->eff_nseq  >= 0 ? 7  + sprintf(buff, "%f", hmm->eff_nseq) : 0);                              /* EFFN line */
+  size += (hmm->flags & p7H_CHKSUM ? 7 + sprintf(buff, "%u", hmm->checksum) : 0);                           /*CKSUM line */
+
+  /* Thresholds section */
+  size += ((hmm->flags & p7H_GA) ? 8 + sprintf(buff, "%.2f", hmm->cutoff[p7_GA1])+sprintf(buff, "%.2f", hmm->cutoff[p7_GA2]) : 0);
+  size += ((hmm->flags & p7H_TC) ? 8 + sprintf(buff, "%.2f", hmm->cutoff[p7_TC1])+sprintf(buff, "%.2f", hmm->cutoff[p7_TC2]) : 0);
+  size += ((hmm->flags & p7H_NC) ? 8 + sprintf(buff, "%.2f", hmm->cutoff[p7_NC1])+sprintf(buff, "%.2f", hmm->cutoff[p7_NC2]) : 0);
+
+  /* E-value stats */
+  size += ((hmm->flags & p7H_STATS) ?
+             ((format == p7_HMMFILE_3a) ? ( 75 + sprintf(buff, "%f", hmm->evparam[p7_MLAMBDA]) +
+                                                 sprintf(buff, "%f", hmm->evparam[p7_MMU])     +
+                                                 sprintf(buff, "%f", hmm->evparam[p7_FTAU])) :
+                                          ( 75 + sprintf(buff, "%8.4f", hmm->evparam[p7_MMU])  + sprintf(buff, "%8.5f", hmm->evparam[p7_MLAMBDA]) +
+                                                 sprintf(buff, "%8.4f", hmm->evparam[p7_VMU])  + sprintf(buff, "%8.5f", hmm->evparam[p7_VLAMBDA]) +
+                                                 sprintf(buff, "%8.4f", hmm->evparam[p7_FTAU]) + sprintf(buff, "%8.5f", hmm->evparam[p7_FLAMBDA])))
+             : 0); /* No STATS */
+
+  /* Now on to the body of the HMM */
+  size += 9  + (hmm->abc->K * 9);                                   /* Alphabet labels */
+  size += 71;                                                       /* Transitions line labels */
+  size += ((hmm->flags & p7H_COMPO) ? 9 + (hmm->abc->K * 9) :  0);  /* Composition line */
+  /* node 0 */
+  size += 9 + (hmm->abc->K * 9);                                    /* Insert emissions */
+  size += 9 + ( p7H_NTRANSITIONS * 9);                              /* Transitions */
+
+  /* Matrix of probabilities */
+  size += (hmm->M * ( 9 + (hmm->abc->K * 9 ) + 7 + 8 ));        /* Line 1: k; match emissions; map (although optional just going to add it, RF, CS, MM) */
+  size += (hmm->M * ( 9 + (hmm->abc->K * 9 ))) ;                    /* Line 2:   insert emissions */
+  size += (hmm->M * ( 9 + (p7H_NTRANSITIONS * 9) ));                /* Line 3:   transitions */
+  size += 3;                                                        /* Final terminating line */
+
+  /* Now allocate the memory for the HMM string */
+  ret_hmm = malloc(sizeof(char) * (size));
+
+  /* Now added the HMM text to the string, remembering to offset the position */
+  /* If anything fails, return an eslEWRITE error */
+
+  /* Header block */
+  if      (format == p7_HMMFILE_3f)  { if ((offset = sprintf(ret_hmm, "HMMER3/f [%s | %s]\n",  HMMER_VERSION, HMMER_DATE))                              < 0) return eslEWRITE; }
+  else if (format == p7_HMMFILE_3e)  { if ((offset = sprintf(ret_hmm, "HMMER3/e [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE))   < 0) return eslEWRITE; }
+  else if (format == p7_HMMFILE_3d)  { if ((offset = sprintf(ret_hmm, "HMMER3/d [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE))   < 0) return eslEWRITE; }
+  else if (format == p7_HMMFILE_3c)  { if ((offset = sprintf(ret_hmm, "HMMER3/c [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE))    < 0) return eslEWRITE; }
+  else if (format == p7_HMMFILE_3b)  { if ((offset = sprintf(ret_hmm, "HMMER3/b [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE))    < 0) return eslEWRITE; }
+  else if (format == p7_HMMFILE_3a)  { if ((offset = sprintf(ret_hmm, "HMMER3/a [%s | %s; reverse compatibility mode]\n", HMMER_VERSION, HMMER_DATE))    < 0) return eslEWRITE; }
+  else return eslEINVAL;
+  coffset = offset;
+
+  if ((offset = sprintf(ret_hmm + coffset, "NAME  %s\n", hmm->name))                              < 0) return eslEWRITE;
+  coffset += offset;
+
+  if (hmm->acc){
+    if((offset = sprintf(ret_hmm + coffset, "ACC   %s\n", hmm->acc))                              < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if (hmm->desc){
+    if ((offset = sprintf(ret_hmm + coffset, "DESC  %s\n", hmm->desc))                            < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if ((offset = sprintf(ret_hmm + coffset, "LENG  %d\n", hmm->M))                                 < 0) return eslEWRITE;
+  coffset += offset;
+
+  if (format >= p7_HMMFILE_3c && hmm->max_length > 0){
+    if((offset = sprintf(ret_hmm + coffset, "MAXL  %d\n", hmm->max_length))                       < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if ((offset = sprintf(ret_hmm + coffset, "ALPH  %s\n", esl_abc_DecodeType(hmm->abc->type)))     < 0) return eslEWRITE;
+  coffset += offset;
+
+  if ((offset = sprintf(ret_hmm+coffset, "RF    %s\n", (hmm->flags & p7H_RF)    ? "yes" : "no"))  < 0) return eslEWRITE;
+  coffset += offset;
+
+  if ((format >= p7_HMMFILE_3f)){
+    if ((offset = sprintf(ret_hmm+coffset, "MM    %s\n", (hmm->flags & p7H_MMASK) ? "yes" : "no"))  < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if ((format >= p7_HMMFILE_3e)){
+    if((offset = sprintf(ret_hmm+coffset, "CONS  %s\n", (hmm->flags & p7H_CONS)  ? "yes" : "no")) < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if ((offset = sprintf(ret_hmm+coffset, "CS    %s\n", (hmm->flags & p7H_CS)    ? "yes" : "no"))  < 0) return eslEWRITE;
+  coffset += offset;
+
+  if ((offset = sprintf(ret_hmm+coffset, "MAP   %s\n", (hmm->flags & p7H_MAP)   ? "yes" : "no"))  < 0) return eslEWRITE;
+  coffset += offset;
+
+  if (hmm->ctime    != NULL){
+      if((offset = sprintf(ret_hmm + coffset, "DATE  %s\n", hmm->ctime))                          < 0) return eslEWRITE;
+      coffset += offset;
+  }
+
+  if (hmm->comlog   != NULL)   {
+    if ( (status = multilineString(&ret_hmm, "COM  ", hmm->comlog, &coffset)) != eslOK) return status; }
+
+
+  if (hmm->nseq   >= 0){
+    if((offset = sprintf(ret_hmm + coffset, "NSEQ  %d\n", hmm->nseq))                            < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if (hmm->eff_nseq   >= 0){
+    if((offset = sprintf(ret_hmm + coffset, "EFFN  %f\n", hmm->eff_nseq))                        < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if (hmm->flags & p7H_CHKSUM) {
+    if ((offset = sprintf  (ret_hmm + coffset, "CKSUM %u\n", hmm->checksum))                     < 0) return eslEWRITE;
+    coffset += offset;
+  } /* unsigned 32-bit */
+
+
+  /* Thresholds */
+  if ((hmm->flags & p7H_GA)){
+    if(( offset = sprintf(ret_hmm + coffset , "GA    %.2f %.2f\n", hmm->cutoff[p7_GA1], hmm->cutoff[p7_GA2])) < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if ((hmm->flags & p7H_TC)){
+     if(( offset = sprintf(ret_hmm + coffset , "TC    %.2f %.2f\n", hmm->cutoff[p7_TC1], hmm->cutoff[p7_TC2])) < 0) return eslEWRITE;
+     coffset += offset;
+  }
+
+  if ((hmm->flags & p7H_NC)){
+     if(( offset = sprintf(ret_hmm + coffset , "NC    %.2f %.2f\n", hmm->cutoff[p7_NC1], hmm->cutoff[p7_NC2])) < 0) return eslEWRITE;
+     coffset += offset;
+  }
+
+
+  /* E-value stats */
+  if (hmm->flags & p7H_STATS) {
+    if (format == p7_HMMFILE_3a){
+      if ((offset =sprintf(ret_hmm + coffset, "STATS LOCAL     VLAMBDA %f\n", hmm->evparam[p7_MLAMBDA]))                               < 0) return eslEWRITE;
+      coffset += offset;
+      if ((offset =sprintf(ret_hmm + coffset, "STATS LOCAL         VMU %f\n", hmm->evparam[p7_MMU]))                                   < 0) return eslEWRITE;
+      coffset += offset;
+      if ((offset =sprintf(ret_hmm + coffset, "STATS LOCAL        FTAU %f\n", hmm->evparam[p7_FTAU]))                                  < 0) return eslEWRITE;
+      coffset += offset;
+    }else{
+      if ((offset =sprintf(ret_hmm + coffset, "STATS LOCAL MSV      %8.4f %8.5f\n", hmm->evparam[p7_MMU],  hmm->evparam[p7_MLAMBDA]))  < 0) return eslEWRITE;
+      coffset += offset;
+      if ((offset = sprintf(ret_hmm + coffset, "STATS LOCAL VITERBI  %8.4f %8.5f\n", hmm->evparam[p7_VMU],  hmm->evparam[p7_VLAMBDA])) < 0) return eslEWRITE;
+      coffset += offset;
+      if ((offset = sprintf(ret_hmm + coffset, "STATS LOCAL FORWARD  %8.4f %8.5f\n", hmm->evparam[p7_FTAU], hmm->evparam[p7_FLAMBDA])) < 0) return eslEWRITE;
+      coffset += offset;
+    }
+  }
+
+
+
+  /* HMM body */
+  if ((offset = sprintf(ret_hmm + coffset, "HMM     "))                         < 0) return eslEWRITE;
+  coffset += offset;
+
+  for (x = 0; x < hmm->abc->K; x++){
+    if ((offset = sprintf(ret_hmm + coffset, "     %c   ", hmm->abc->sym[x]))   < 0) return eslEWRITE;
+    coffset += offset;
+  }
+  if((offset = sprintf(ret_hmm + coffset, "\n"))                                < 0) return eslEWRITE;
+  coffset += offset;
+
+  if ((offset = sprintf(ret_hmm + coffset, "        %8s %8s %8s %8s %8s %8s %8s\n",
+         "m->m", "m->i", "m->d", "i->m", "i->i", "d->m", "d->d"))               < 0) return eslEWRITE;
+  coffset += offset;
+
+  if (hmm->flags & p7H_COMPO) {
+    if ((offset = sprintf(ret_hmm + coffset, "  COMPO ")) < 0) return eslEWRITE;
+      coffset += offset;
+      for (x = 0; x < hmm->abc->K; x++){
+        if ( (status = probToString(&ret_hmm, 8, hmm->compo[x], coffset)) != eslOK) return status;
+        coffset += 9;
+      }
+   if((offset = sprintf(ret_hmm + coffset, "\n"))                               < 0) return eslEWRITE;
+   coffset += offset;
+  }
+
+  /* node 0 is special: insert emissions, and B-> transitions */
+  if ((offset = sprintf(ret_hmm + coffset, "        "))                         < 0) return eslEWRITE;
+  coffset += offset;
+  for (x = 0; x < hmm->abc->K; x++){
+    if ( (status = probToString(&ret_hmm, 8, hmm->ins[0][x], coffset)) != eslOK) return status;
+    coffset += 9;
+  }
+
+  if((offset = sprintf(ret_hmm + coffset, "\n"))                                < 0) return eslEWRITE;
+  coffset += offset;
+
+  if ((offset = sprintf(ret_hmm + coffset, "        "))                         < 0) return eslEWRITE;
+  coffset += offset;
+  for (x = 0; x <  p7H_NTRANSITIONS; x++){
+    if ( (status = probToString(&ret_hmm, 8, hmm->t[0][x], coffset)) != eslOK)  return status;
+    coffset += 9;
+  }
+
+  if((offset = sprintf(ret_hmm + coffset, "\n"))                                < 0) return eslEWRITE;
+  coffset += offset;
+
+
+  for (k = 1; k <= hmm->M; k++) {
+    /* Line 1: k; match emissions; optional map, RF, CS */
+    if ((offset = sprintf(ret_hmm + coffset, " %6d ",  k))                    < 0) return eslEWRITE;
+    coffset += offset;
+
+    for (x = 0; x < hmm->abc->K; x++){
+      if ( (status = probToString(&ret_hmm, 8, hmm->mat[k][x], coffset)) != eslOK) return status;
+      coffset += 9;
+    }
+
+    if (hmm->flags & p7H_MAP) {
+      if ((offset = sprintf(ret_hmm + coffset, " %6d", hmm->map[k]))          < 0) return eslEWRITE;
+      coffset += offset;
+    } else {
+      if ((offset = sprintf(ret_hmm + coffset, " %6s", "-"))         < 0) return eslEWRITE;
+      coffset += offset;
+    }
+
+    if (format >= p7_HMMFILE_3e) {
+      if ((offset = sprintf(ret_hmm + coffset, " %c",  (hmm->flags & p7H_CONS)  ? hmm->consensus[k] : '-')) < 0) return eslEWRITE;
+      coffset += offset;
+    }
+
+    if ((offset = sprintf(ret_hmm + coffset, " %c",    (hmm->flags & p7H_RF)    ? hmm->rf[k]        : '-')) < 0) return eslEWRITE;
+    coffset += offset;
+
+    if (format >= p7_HMMFILE_3f) {
+      if ((offset = sprintf(ret_hmm + coffset, " %c",  (hmm->flags & p7H_MMASK) ? hmm->mm[k]        : '-')) < 0) return eslEWRITE;
+      coffset += offset;
+    }
+
+    if ((offset = sprintf(ret_hmm + coffset, " %c\n",  (hmm->flags & p7H_CS)    ? hmm->cs[k]        : '-')) < 0) return eslEWRITE;
+    coffset += offset;
+
+    /* Line 2:   insert emissions */
+    if ((offset = sprintf(ret_hmm + coffset, "        ")) < 0) return eslEWRITE;
+    coffset += offset;
+
+    for (x = 0; x < hmm->abc->K; x++){
+      if( (status = probToString(&ret_hmm, 8, hmm->ins[k][x], coffset)) != eslOK) return status;
+      coffset += 9; /*Fieldwidth + 1 for space*/
+    }
+
+    /* Line 3:   transitions */
+    if ((offset = sprintf(ret_hmm + coffset, "\n        ")) < 0) return eslEWRITE;
+    coffset += offset;
+
+    for (x = 0; x < p7H_NTRANSITIONS; x++){
+      if ( (status = probToString(&ret_hmm, 8, hmm->t[k][x], coffset)) != eslOK) return status;
+      coffset += 9;/*Fieldwidth + 1 for space*/
+    }
+    if ((offset = sprintf(ret_hmm + coffset, "\n")) < 0) return eslEWRITE;
+    coffset += offset;
+  }
+
+  if (sprintf(ret_hmm + coffset, "//\n") < 0) return eslEWRITE;
+  *ascii_hmm = ret_hmm;
+
+  return eslOK;
+}
+
+/* Function:  p7_hmmfile_WriteBinary()
+ * 
+ * Purpose:   Writes an HMM to a file in HMMER3 binary format.
+ *
+ *            Legacy binary file formats in the 3.x release series are
+ *            supported by specifying the <format> code. Pass <-1> to
+ *            use the default current standard format; pass a valid
+ *            code such as <p7_HMMFILE_3a> to select a specific
+ *            binary format.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if <format> isn't a valid 3.0 format code.
+ *            <eslEWRITE> on write error.
+ */
+int
+p7_hmmfile_WriteBinary(FILE *fp, int format, P7_HMM *hmm)
+{
+  int k;
+  int status;
+
+  if (format == -1) format = p7_HMMFILE_3f;
+
+  /* Legacy: p7H_{ACC, DESC} flags used to be used to indicate
+   * whether optional acc, desc were present. Now we just use
+   * the <NULL> convention. The reason to use the flags was for
+   * saving binary files - we thought we needed to know whether
+   * the acc, desc were present in the binary file before trying
+   * to read them, and having <flags> as one of the first 
+   * data fields in the file solved that problem. It's not
+   * necessary - the {read,write}_bin_string() convention is fine.                      
+   * But write_bin_string() writes a 0 for length for a NULL string,
+   * whereas we weren't writing anything with the previous
+   * flag convention - so to maintain consistency with previous
+   * HMMER binary save files, we use the HMM flags fields here
+   * and in binary file reads. [xref J5/114]
+   * 
+   * If binary format is ever revised substantially - revisit this
+   * issue too - and remove the flags.
+   */
+  if (hmm->desc == NULL) hmm->flags &= ~p7H_DESC;  else hmm->flags |= p7H_DESC;
+  if (hmm->acc  == NULL) hmm->flags &= ~p7H_ACC;   else hmm->flags |= p7H_ACC;
+
+  /* ye olde magic number */
+  if      (format == p7_HMMFILE_3f) { if (fwrite((char *) &(v3f_magic), sizeof(uint32_t), 1, fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); }
+  else if (format == p7_HMMFILE_3e) { if (fwrite((char *) &(v3e_magic), sizeof(uint32_t), 1, fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); }
+  else if (format == p7_HMMFILE_3d) { if (fwrite((char *) &(v3d_magic), sizeof(uint32_t), 1, fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); }
+  else if (format == p7_HMMFILE_3c) { if (fwrite((char *) &(v3c_magic), sizeof(uint32_t), 1, fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); }
+  else if (format == p7_HMMFILE_3b) { if (fwrite((char *) &(v3b_magic), sizeof(uint32_t), 1, fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); }
+  else if (format == p7_HMMFILE_3a) { if (fwrite((char *) &(v3a_magic), sizeof(uint32_t), 1, fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); }
+  else ESL_EXCEPTION(eslEINVAL, "invalid HMM file format code");
+
+  /* info necessary for sizes of things
+   */
+  if (fwrite((char *) &(hmm->flags),      sizeof(int),  1,   fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); 
+  if (fwrite((char *) &(hmm->M),          sizeof(int),  1,   fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); 
+  if (fwrite((char *) &(hmm->abc->type),  sizeof(int),  1,   fp) != 1) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+
+  /* The core model probabilities
+   */
+  for (k = 1; k <= hmm->M; k++)  /* match emissions (0) 1..M */
+    if (fwrite((char *) hmm->mat[k], sizeof(float), hmm->abc->K, fp) != hmm->abc->K) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  for (k = 0; k <= hmm->M; k++)  /* insert emissions 0..M */
+    if (fwrite((char *) hmm->ins[k], sizeof(float), hmm->abc->K, fp) != hmm->abc->K) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  for (k = 0; k <= hmm->M; k++)  /* note: start from 0, to include B state */
+    if (fwrite((char *) hmm->t[k], sizeof(float), 7, fp)             != 7)           ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+
+  /* annotation section
+   */
+  if (                           (status = write_bin_string(fp, hmm->name))                   != eslOK)     return status;                  
+  if ((hmm->flags & p7H_ACC)  && (status = write_bin_string(fp, hmm->acc))                    != eslOK)     return status;
+  if ((hmm->flags & p7H_DESC) && (status = write_bin_string(fp, hmm->desc))                   != eslOK)     return status;
+  if ((hmm->flags & p7H_RF)   && (fwrite((char *) hmm->rf,        sizeof(char), hmm->M+2, fp) != hmm->M+2)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); /* +2: 1..M and trailing \0 */
+  if ((hmm->flags & p7H_MMASK)&& (fwrite((char *) hmm->mm,        sizeof(char), hmm->M+2, fp) != hmm->M+2)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); /* +2: 1..M and trailing \0 */
+  if ((hmm->flags & p7H_CONS) && (fwrite((char *) hmm->consensus, sizeof(char), hmm->M+2, fp) != hmm->M+2)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed"); /* don't need to test for >=3e format; p7H_CONS flag suffices (didn't exist pre-3e) */
+  if ((hmm->flags & p7H_CS)   && (fwrite((char *) hmm->cs,        sizeof(char), hmm->M+2, fp) != hmm->M+2)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if ((hmm->flags & p7H_CA)   && (fwrite((char *) hmm->ca,        sizeof(char), hmm->M+2, fp) != hmm->M+2)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if ( (status = write_bin_string(fp, hmm->comlog))                                           != eslOK)     return status;                                          
+  if (                            fwrite((char *) &(hmm->nseq),       sizeof(int),    1,  fp) != 1)         ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if (                            fwrite((char *) &(hmm->eff_nseq),   sizeof(float),  1,  fp) != 1)         ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if (format >= p7_HMMFILE_3c &&  fwrite((char *) &(hmm->max_length), sizeof(int),    1,  fp) != 1)         ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if ( (status = write_bin_string(fp, hmm->ctime))                                            != eslOK)     return status;
+  if ((hmm->flags & p7H_MAP)  && (fwrite((char *) hmm->map,       sizeof(int),  hmm->M+1, fp) != hmm->M+1)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if (                            fwrite((char *)&(hmm->checksum),sizeof(uint32_t),   1,  fp) != 1)         ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+
+  /* E-value parameters and Pfam cutoffs */
+  if (format == p7_HMMFILE_3a)
+  {  /* reverse compatibility; 3/a format stored LAMBDA, MU, TAU */
+    float oldparam[3];
+    oldparam[0] = hmm->evparam[p7_MLAMBDA];
+    oldparam[1] = hmm->evparam[p7_MMU];
+    oldparam[2] = hmm->evparam[p7_FTAU];
+    if (fwrite((char *) oldparam, sizeof(float), 3, fp) != 3) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  }
+  else
+  {        /* default stats values */
+    if (fwrite((char *) hmm->evparam, sizeof(float), p7_NEVPARAM, fp) != p7_NEVPARAM) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  }
+  if (fwrite((char *) hmm->cutoff,  sizeof(float), p7_NCUTOFFS, fp) != p7_NCUTOFFS) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  if ((hmm->flags & p7H_COMPO) && (fwrite((char *) hmm->compo, sizeof(float), hmm->abc->K, fp) != hmm->abc->K)) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+  
+  return eslOK;
+}
+/*----------------- end, save file output  ----------------------*/
+
+
+
+/*****************************************************************
+ * 3. API for reading profile HMM files in various formats.
+ *****************************************************************/
+
+/* Function:  p7_hmmfile_Read()
+ *
+ * Purpose:   Read the next HMM from open save file <hfp>, and
+ *            optionally return this newly allocated HMM in <opt_hmm>.
+ *            (The optional return is so that an application is
+ *            only interested in whether the file contains a valid
+ *            HMM or not -- for example, to verify that a file contains
+ *            only a single HMM instead of a database of them.)
+ *            
+ *            Caller may or may not already know what alphabet the HMM
+ *            is expected to be in.  A reference to the pointer to the
+ *            current alphabet is passed in <*ret_abc>. If the alphabet
+ *            is unknown, pass <*ret_abc = NULL>, and when the
+ *            new HMM is read, an appropriate new alphabet object is
+ *            allocated and passed back to the caller in <*ret_abc>.
+ *            If the alphabet is already known, <ret_abc> points to
+ *            that object ptr, and the new HMM's alphabet type is
+ *            verified to agree with it. This mechanism allows an
+ *            application to let the first HMM determine the alphabet
+ *            type for the application, while still keeping the
+ *            alphabet under the application's scope of control.
+ *            
+ * Returns:   <eslOK> on success, and the newly allocated HMM is
+ *            optionally returned via <opt_hmm>. Additionally, if
+ *            <ret_abc> pointed to <NULL>, it now points to a newly
+ *            allocated alphabet.
+ *
+ *            Returns <eslEOF> if no HMMs remain in the file; this may
+ *            indicate success or failure, depending on what the
+ *            caller is expecting.
+ *            
+ *            Returns <eslEFORMAT> on any format problems, including
+ *            premature end of data or bad magic at the start of a
+ *            binary file. An informative error message is left in
+ *            <hfp->errbuf>; the filename (fully qualified, if opened
+ *            in a directory specified by an <env> list) is in
+ *            <hfp->fname>; and if <hfp->efp> is non-<NULL>, the HMM
+ *            file is in an ASCII text format, and the caller may also
+ *            obtain the line number at which the format error was
+ *            detected, in <hfp->efp->linenumber>, and use it to
+ *            format informative output for a user.
+ *            
+ *            Returns <eslEINCOMPAT> if the caller passed a known
+ *            alphabet (a non-<NULL> <*ret_abc>), but the alphabet
+ *            of the HMM doesn't match this expectation.
+ *            
+ *            Upon any return that is not <eslOK>, <*opt_hmm> is
+ *            <NULL> and <*ret_abc> is left unchanged from what caller
+ *            passed it as.
+ *
+ * Throws:    <eslEMEM> upon an allocation error.
+ *            <eslESYS> on failure of other system calls, such
+ *            as file positioning functions (<fseeko()> or <ftello()>.
+ */
+int
+p7_hmmfile_Read(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc,  P7_HMM **opt_hmm)
+{
+  /* A call to SSI to remember file position may eventually go here.  */
+  return (*hfp->parser)(hfp, ret_abc, opt_hmm);
+}
+
+
+
+/* Function:  p7_hmmfile_PositionByKey()
+ * Synopsis:  Use SSI to reposition file to start of named HMM.
+ *
+ * Purpose:   Reposition <hfp> so tha next HMM we read will be the
+ *            one named (or accessioned) <key>.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            Returns <eslENOTFOUND> if <key> isn't found in the index for
+ *            <hfp>.
+ *            
+ *            Returns <eslEFORMAT> is something goes wrong trying to
+ *            read the index, indicating a file format problem in the
+ *            SSI file.
+ *            
+ *            In the event of either error, the state of <hfp> is left
+ *            unchanged.
+ *
+ * Throws:    <eslEMEM> on allocation failure, or <eslESYS> on system i/o
+ *            call failure, or <eslEINVAL> if <hfp> doesn't have an SSI 
+ *            index or is not a seekable stream. 
+ */
+int
+p7_hmmfile_PositionByKey(P7_HMMFILE *hfp, const char *key)
+{
+  uint16_t fh;
+  off_t    offset;
+  int      status;
+
+  if (hfp->ssi == NULL) ESL_EXCEPTION(eslEINVAL, "Need an open SSI index to call p7_hmmfile_PositionByKey()");
+  if ((status = esl_ssi_FindName(hfp->ssi, key, &fh, &offset, NULL, NULL)) != eslOK) return status;
+  if (fseeko(hfp->f, offset, SEEK_SET) != 0)    ESL_EXCEPTION(eslESYS, "fseek failed");
+
+  hfp->newly_opened = FALSE;  /* because we're poised on the magic number, and must read it */
+  return eslOK;
+}
+
+
+/* Function:  p7_hmmfile_Position()
+ * Synopsis:  Reposition file to start of named HMM.
+ *
+ * Purpose:   Reposition <hfp> so tha start of the requested HMM.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            In the event of either error, the state of <hfp> is left
+ *            unchanged.
+ *
+ * Throws:    <eslESYS> on system i/o call failure, or <eslEINVAL> if
+ *            <hfp> is not a seekable stream. 
+ */
+int
+p7_hmmfile_Position(P7_HMMFILE *hfp, const off_t offset)
+{
+  if (fseeko(hfp->f, offset, SEEK_SET) != 0)    ESL_EXCEPTION(eslESYS, "fseek failed");
+
+  hfp->newly_opened = FALSE;  /* because we're poised on the magic number, and must read it */
+  return eslOK;
+}
+/*------------------- end, input API ----------------------------*/
+
+
+
+/*****************************************************************
+ * 4.  Private, specific profile HMM file format parsers.
+ *****************************************************************/
+
+/* Parsing save files from HMMER 3.x
+ * All parsers follow the same API.
+ * 
+ * Returns <eslOK> on success, and if <opt_hmm> is non-NULL,
+ * <*opt_hmm> points at a newly allocated HMM.
+ *
+ * Additionally, if <*ret_abc> was NULL, then a new alphabet is
+ * allocated according to the alphabet type of this HMM, and returned
+ * thru <ret_abc>.  This allocation mechanism allows a main()
+ * application that doesn't yet know its alphabet to determine the
+ * alphabet when the first HMM is read, while also allowing an
+ * application to allocate its own alphabet and assure that the
+ * input HMMs are appropriate for that alphabet.
+ *             
+ * Returns <eslEOF> when no HMM remains in the file, indicating a
+ * normal end-of-file.
+ *
+ * Two types of "normal error" may happen, which the caller must check
+ * for. Returns <eslEFORMAT> on any save file format error, including
+ * bad magic (i.e. this is not a HMMER file at all). Returns
+ * <eslEINCOMPAT> if the expected alphabet (a non-<NULL> alphabet
+ * specified by <*ret_abc>) does not match the alphabet type of the
+ * HMM.
+ * 
+ * When these normal errors occur, the caller can construct its error
+ * message from:
+ *    <hfp->errbuf>:    contains an informative error message
+ *    <hfp->fname>:     name of the HMM file (or '-' if STDIN)
+ * and if <hfp->efp> is non-<NULL>, the HMM file is in ASCII text, 
+ * and the caller may also use:
+ *    <hfp->efp->linenumber>: line on which the parse error occurred.
+ *         
+ * Throws:     <eslEMEM> on allocation error.
+ *             <eslESYS> if a system i/o call fails.
+ *             In cases of error (including both thrown error and normal error), <*ret_abc>
+ *             is left in its original state as passed by the caller, and <*ret_hmm> is
+ *             returned <NULL>.
+ */
+static int
+read_asc30hmm(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc, P7_HMM **opt_hmm)
+{
+  ESL_ALPHABET *abc  = NULL;
+  P7_HMM       *hmm  = NULL;
+  char         *tag  = NULL;
+  char         *tok1 = NULL;
+  char         *tok2 = NULL;
+  char         *tok3 = NULL;
+  char         *tok4 = NULL;
+  int           alphatype;
+  int           k,x;
+  off_t         offset = 0;
+  int           status;
+  uint32_t      statstracker = 0;
+
+  hfp->errbuf[0] = '\0';
+
+  if (hfp->newly_opened)
+    {
+      offset            = 0;
+      hfp->newly_opened = FALSE;
+    }
+  else
+    {
+      /* Record where this HMM starts on disk */
+      if ((! hfp->do_stdin) && (! hfp->do_gzip) && (offset = ftello(hfp->f)) < 0)   ESL_XEXCEPTION(eslESYS, "ftello() failed");
+
+      /* First line of file: "HMMER3/f". Allocate shell for HMM annotation information (we don't know K,M yet) */
+      if ((status = esl_fileparser_NextLine(hfp->efp))                   != eslOK)  goto ERROR;  /* EOF here is normal; could also be a thrown EMEM */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tag, NULL)) != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "unexpected absence of tokens on data line");
+
+      if      (hfp->format == p7_HMMFILE_3f) { if (strcmp(tag, "HMMER3/f") != 0)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/f tag: bad format or not a HMMER save file?"); }
+      else if (hfp->format == p7_HMMFILE_3e) { if (strcmp(tag, "HMMER3/e") != 0)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/e tag: bad format or not a HMMER save file?"); }
+      else if (hfp->format == p7_HMMFILE_3d) { if (strcmp(tag, "HMMER3/d") != 0)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/d tag: bad format or not a HMMER save file?"); }
+      else if (hfp->format == p7_HMMFILE_3c) { if (strcmp(tag, "HMMER3/c") != 0)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/c tag: bad format or not a HMMER save file?"); }
+      else if (hfp->format == p7_HMMFILE_3b) { if (strcmp(tag, "HMMER3/b") != 0)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/b tag: bad format or not a HMMER save file?"); }
+      else if (hfp->format == p7_HMMFILE_3a) { if (strcmp(tag, "HMMER3/a") != 0)     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/a tag: bad format or not a HMMER save file?"); }
+      else                                                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No such HMM file format code: this shouldn't happen");
+    }
+
+  if ((hmm = p7_hmm_CreateShell())                                   == NULL)   ESL_XFAIL(eslEMEM,    hfp->errbuf, "allocation failure, HMM shell");
+  hmm->offset = offset;
+
+  /* Header section */
+  while ((status = esl_fileparser_NextLine(hfp->efp)) == eslOK)
+    {
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tag, NULL))     != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "Premature end of line");
+
+      if (strcmp(tag, "NAME") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No name found on NAME line");
+  p7_hmm_SetName(hmm, tok1);
+      } 
+
+      else if (strcmp(tag, "ACC") == 0)  {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No accession found on ACC line");
+  p7_hmm_SetAccession(hmm, tok1);
+      }  
+
+      else if (strcmp(tag, "DESC") == 0) {
+  if ((status = esl_fileparser_GetRemainingLine(hfp->efp, &tok1))      != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No description found on DESC line");
+  p7_hmm_SetDescription(hmm, tok1);
+      } 
+
+      else if (strcmp(tag, "LENG") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No model length found on LENG line");
+  if ((hmm->M = atoi(tok1))                                            == 0)     ESL_XFAIL(status,    hfp->errbuf, "Invalid model length %s on LENG line", tok1);
+      }  
+
+      else if (hfp->format >= p7_HMMFILE_3c && strcmp(tag, "MAXL") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No max length found on MAXL line");
+  if ((hmm->max_length = atoi(tok1))                                   == 0)     ESL_XFAIL(status,    hfp->errbuf, "Invalid max length %s on MAXL line", tok1);
+      }
+
+      else if (strcmp(tag, "ALPH") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No alphabet type found on ALPH");
+  if ((alphatype = esl_abc_EncodeType(tok1))                        == eslUNKNOWN) ESL_XFAIL(status,    hfp->errbuf, "Unrecognized alphabet type %s", tok1);
+  if (*ret_abc == NULL) {
+    if ((abc = esl_alphabet_Create(alphatype))                        == NULL)    ESL_XFAIL(eslEMEM,   hfp->errbuf, "Failed to create alphabet");
+  } else {
+    if ((*ret_abc)->type != alphatype)                                           ESL_XFAIL(eslEINCOMPAT,hfp->errbuf,"Alphabet type mismatch: was %s, but current HMM says %s", esl_abc_DecodeType( (*ret_abc)->type), tok1);
+    abc = *ret_abc;
+  }
+      } 
+
+      else if (strcmp(tag, "RF") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,    hfp->errbuf, "No yes/no found for RF line");
+  if      (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_RF;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "RF header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "MM") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,    hfp->errbuf, "No yes/no found for MM line");
+  if      (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_MMASK;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "MM header line must say yes/no, not %s", tok1);
+      }
+
+
+      else if (strcmp(tag, "CONS") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No yes/no found for CONS line");
+  if (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_CONS;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "CONS header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "CS") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No yes/no found for CS line");
+  if (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_CS;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "CS header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "MAP") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No yes/no found for MAP line");
+  if      (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_MAP;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "MAP header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "DATE") == 0) {
+  if ((status = esl_fileparser_GetRemainingLine(hfp->efp, &tok1))       != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No date found on DATE line");
+  if (esl_strdup(tok1, -1, &(hmm->ctime))                               != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "strdup() failed to set date");
+      }
+
+      else if (strcmp(tag, "COM") == 0) {
+  /* just skip the first token; it's something like [1], numbering the command lines */
+  if ((status = esl_fileparser_GetTokenOnLine  (hfp->efp, &tok1, NULL)) != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No command number on COM line");
+  if ((status = esl_fileparser_GetRemainingLine(hfp->efp, &tok1))       != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No command on COM line");
+  if (hmm->comlog == NULL) {
+    if (esl_strdup(tok1, -1, &(hmm->comlog))                            != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "esl_strdup() failed");
+  } else {
+    if (esl_strcat(&(hmm->comlog), -1, "\n", -1)                        != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "esl_strcat() failed");
+    if (esl_strcat(&(hmm->comlog), -1, tok1,  -1)                       != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "esl_strcat() failed");
+  }
+      }
+      
+      else if (strcmp(tag, "NSEQ") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Nothing follows NSEQ tag");
+  if ((hmm->nseq = atoi(tok1)) == 0)                                               ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Invalid nseq on NSEQ line: should be integer, not %s", tok1);
+      }
+
+      else if (strcmp(tag, "EFFN") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Nothing follows EFFN tag");
+  if ((hmm->eff_nseq = atof(tok1)) <= 0.0f)                                        ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Invalid eff_nseq on EFFN line: should be a real number, not %s", tok1);
+      }
+
+      else if (strcmp(tag, "CKSUM") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Nothing follows CKSUM tag");
+  hmm->checksum = atoll(tok1); /* if atoi(), then you may truncate uint32_t checksums > 2^31-1 */
+  hmm->flags |= p7H_CHKSUM;
+      }
+
+      else if (strcmp(tag, "STATS") == 0) {
+  if (hfp->format >= p7_HMMFILE_3b)
+    {
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* LOCAL */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* MSV | VITERBI | FORWARD */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok3, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* mu | tau */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok4, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* lambda */
+      if (strcasecmp(tok1, "LOCAL") == 0)
+        {
+    if      (strcasecmp(tok2, "MSV")     == 0)  { hmm->evparam[p7_MMU]  = atof(tok3); hmm->evparam[p7_MLAMBDA] = atof(tok4); statstracker |= 0x1; }
+    else if (strcasecmp(tok2, "VITERBI") == 0)  { hmm->evparam[p7_VMU]  = atof(tok3); hmm->evparam[p7_VLAMBDA] = atof(tok4); statstracker |= 0x2; }
+    else if (strcasecmp(tok2, "FORWARD") == 0)  { hmm->evparam[p7_FTAU] = atof(tok3); hmm->evparam[p7_FLAMBDA] = atof(tok4); statstracker |= 0x4; }
+    else ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Failed to parse STATS, %s unrecognized as field 3", tok2);
+        } else ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Failed to parse STATS, %s unrecognized as field 2", tok1);
+    }
+  else if (hfp->format == p7_HMMFILE_3a) /* reverse compatibility with 30a */
+    {
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* LOCAL */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* VLAMBDA | VMU | FTAU */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok3, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on STATS line"); /* value */
+      if (strcasecmp(tok1, "LOCAL") == 0)
+        {
+    if      (strcasecmp(tok2, "VLAMBDA") == 0)  { hmm->evparam[p7_MLAMBDA] = hmm->evparam[p7_VLAMBDA] = hmm->evparam[p7_FLAMBDA] = atof(tok3);  statstracker |= 0x1; }
+    else if (strcasecmp(tok2, "VMU")     == 0)  {                            hmm->evparam[p7_MMU]     = hmm->evparam[p7_VMU]     = atof(tok3);  statstracker |= 0x2; }
+    else if (strcasecmp(tok2, "FTAU")    == 0)  {                                                       hmm->evparam[p7_FTAU]    = atof(tok3);  statstracker |= 0x4; }
+    else ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Failed to parse STATS, %s unrecognized as field 3", tok2);
+        } else ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Failed to parse STATS, %s unrecognized as field 2", tok1);
+    }
+      }
+
+      else if (strcmp(tag, "GA") == 0) {
+        if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on GA line");
+        hmm->cutoff[p7_GA1] = atof(tok1);
+        if ( (abc->type == eslDNA || abc->type == eslRNA) ) { //if DNA, there's no need for a 2nd value (domain GA)
+          hmm->cutoff[p7_GA2] = hmm->cutoff[p7_GA1];
+        } else {
+          if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on GA line");
+          hmm->cutoff[p7_GA2] = atof(tok2);
+        }
+        hmm->flags         |= p7H_GA;
+      }
+
+      else if (strcmp(tag, "TC") == 0) {
+        if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on TC line");
+        hmm->cutoff[p7_TC1] = atof(tok1);
+        if ( (abc->type == eslDNA || abc->type == eslRNA) ) { //if DNA, there's no need for a 2nd value (domain GA)
+          hmm->cutoff[p7_TC2] = hmm->cutoff[p7_TC1];
+        } else {
+          if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on TC line");
+          hmm->cutoff[p7_TC2] = atof(tok2);
+        }
+        hmm->flags         |= p7H_TC;
+      }
+
+      else if (strcmp(tag, "NC") == 0) {
+        if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on NC line");
+        hmm->cutoff[p7_NC1] = atof(tok1);
+        if ( (abc->type == eslDNA || abc->type == eslRNA) ) { //if DNA, there's no need for a 2nd value (domain GA)
+          hmm->cutoff[p7_NC2] = hmm->cutoff[p7_NC1];
+        } else {
+          if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on NC line");
+          hmm->cutoff[p7_NC2] = atof(tok2);
+        }
+        hmm->flags         |= p7H_NC;
+      }
+
+      else if (strcmp(tag, "HMM") == 0) 
+  break;
+    } /* end, loop over possible header tags */
+
+  if (status != eslOK) goto ERROR;
+
+  /* If we saw one STATS line, we need all 3. (True for both 3/a and 3/b formats) */
+  if      (statstracker == 0x7) hmm->flags |= p7H_STATS;
+  else if (statstracker != 0x0) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Missing one or more STATS parameter lines");
+
+  
+  /* Skip main model header lines; allocate body of HMM now that K,M are known */
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  if ((status = p7_hmm_CreateBody(hmm, hmm->M, abc))                          != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Failed to allocate body of the new HMM");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))         != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+
+  /* Optional model composition (filter null model) may immediately follow headers */
+  if (strcmp(tok1, "COMPO") == 0) {
+    for (x = 0; x < abc->K; x++)  {
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on COMPO line");
+      hmm->compo[x] = (*tok1 == '*' ? 0.0 : expf(-1.0 * atof(tok1)));
+    }
+    hmm->flags |= p7H_COMPO;
+    if ((status = esl_fileparser_NextLine(hfp->efp))                          != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data after COMPO line");  
+    if ((esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))                != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data after COMPO line");  
+  }
+
+  /* First two lines are node 0: insert emissions, then transitions from node 0 (begin) */
+
+  hmm->ins[0][0] = (*tok1 == '*' ? 0.0 : expf(-1.0 *atof(tok1)));
+  for (x = 1; x < abc->K; x++) {
+    if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))       != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on insert line, node 0: expected %d, got %d\n", abc->K, x);
+    hmm->ins[0][x] = (*tok1 == '*' ? 0.0 : expf(-1.0 *atof(tok1)));
+  }
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model: no node 0 transition line");
+  for (x = 0; x < p7H_NTRANSITIONS; x++) {
+    if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))       != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on begin (0) transition line");
+    hmm->t[0][x] = (*tok1 == '*' ? 0.0 : expf(-1.0 *atof(tok1)));
+  }
+
+  /* The main model section. */
+  for (k = 1; k <= hmm->M; k++)
+    {
+
+      if ((status = esl_fileparser_NextLine(hfp->efp))                        != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model section, at node %d (expected %d)", k, hmm->M);
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model section, at node %d (expected %d)", k, hmm->M);
+      if (atoi(tok1) != k)                                                               ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Expected match line to start with %d (of %d); saw %s", k, hmm->M, tok1);
+      
+      for (x = 0; x < abc->K; x++) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few probability fields on match line, node %d: expected %d, got %d\n", k, abc->K, x);
+    hmm->mat[k][x] = (*tok1 == '*' ? 0.0 : expf(-1.0 *atof(tok1)));
+      }
+      
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing MAP field on match line for node %d: should at least be -", k);
+      if (hmm->flags & p7H_MAP) hmm->map[k] = atoi(tok1);
+
+      if (hfp->format >= p7_HMMFILE_3e) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing CONS field on match line for node %d: should at least be -", k);
+  if (hmm->flags & p7H_CONS) hmm->consensus[k] = *tok1;
+      }
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing RF field on match line for node %d: should at least be -",  k);
+      if (hmm->flags & p7H_RF) hmm->rf[k]   = *tok1;
+
+      if (hfp->format >= p7_HMMFILE_3f) {
+        if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing MM field on match line for node %d: should at least be -", k);
+        if (hmm->flags & p7H_MMASK) hmm->mm[k] = *tok1;
+      }
+
+
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing CS field on match line for node %d: should at least be -",  k);
+      if (hmm->flags & p7H_CS) hmm->cs[k]   = *tok1;
+
+      
+      if ((status = esl_fileparser_NextLine(hfp->efp))                        != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model: no insert emission line, node %d", k);
+      for (x = 0; x < abc->K; x++) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few probability fields on insert line, node %d: expected %d, got %d\n", k, abc->K, x);
+  hmm->ins[k][x] = (*tok1 == '*' ? 0.0 : expf(-1.0 *atof(tok1)));
+      }
+      if ((status = esl_fileparser_NextLine(hfp->efp))                        != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model: no transition line, node %d", k);
+      for (x = 0; x < p7H_NTRANSITIONS; x++) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few probability fields on transition line, node %d: expected %d, got %d\n", k, abc->K, x);
+  hmm->t[k][x] = (*tok1 == '*' ? 0.0 : expf(-1.0 *atof(tok1)));
+      }
+    }
+
+  /* The closing // */
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data: missing //?");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))         != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data: missing //?");
+  if (strcmp(tok1, "//")                                                      != 0)      ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Expected closing //; found %s instead", tok1);
+
+  /* legacy issues */
+  if (hfp->format < p7_HMMFILE_3e && (status = p7_hmm_SetConsensus(hmm, NULL)) != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Failed to set consensus on legacy HMM format");
+
+  /* Finish up. */
+  if (hmm->flags & p7H_RF)   { hmm->rf[0]        = ' '; hmm->rf[hmm->M+1]        = '\0'; }
+  if (hmm->flags & p7H_MMASK){ hmm->mm[0]        = ' '; hmm->mm[hmm->M+1]        = '\0'; }
+  if (hmm->flags & p7H_CONS) { hmm->consensus[0] = ' '; hmm->consensus[hmm->M+1] = '\0'; }
+  if (hmm->flags & p7H_CS)   { hmm->cs[0]        = ' '; hmm->cs[hmm->M+1]        = '\0'; }
+  if (hmm->flags & p7H_MAP)  { hmm->map[0]       = 0; }
+  if (hmm->name == NULL)    ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No NAME found for HMM");
+  if (hmm->M    <= 0)       ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No LENG found for HMM (or LENG <= 0)");
+  if (abc       == NULL)    ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No ALPH found for HMM");
+
+  if (*ret_abc == NULL) *ret_abc = abc;
+  if ( opt_hmm != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  return eslOK;
+
+ ERROR:
+  if (*ret_abc == NULL && abc != NULL) esl_alphabet_Destroy(abc);
+  if (hmm     != NULL) p7_hmm_Destroy(hmm);
+  if (opt_hmm != NULL) *opt_hmm = NULL;
+  if      (status == eslEMEM || status == eslESYS) return status; 
+  else if (status == eslEOF)                       return status;
+  else if (status == eslEINCOMPAT)                 return status;
+  else                                             return eslEFORMAT;  /* anything else is a format error: includes premature EOF, EOL, EOD  */
+}
+
+
+static int
+read_bin30hmm(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc, P7_HMM **opt_hmm)
+{
+  ESL_ALPHABET *abc = NULL;
+  P7_HMM       *hmm = NULL;
+  uint32_t      magic;
+  int           alphabet_type;
+  int           k;
+  off_t         offset = 0;
+  int           status;
+
+  hfp->errbuf[0] = '\0';
+  if (feof(hfp->f))                                             { status = eslEOF;       goto ERROR; }
+
+  if (hfp->newly_opened) 
+    {
+      offset = 0;
+      hfp->newly_opened = FALSE;
+    }
+  else
+    {  /* Check magic. */
+      if ((!hfp->do_stdin) && (! hfp->do_gzip)) {
+  if ((offset = ftello(hfp->f)) < 0)                          ESL_XEXCEPTION(eslESYS, "ftello() failed");
+      }
+      if (! fread((char *) &magic, sizeof(uint32_t), 1, hfp->f))    { status = eslEOF;       goto ERROR; }
+
+      if      (hfp->format == p7_HMMFILE_3f) { if (magic != v3f_magic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic number at start of HMM");  }
+      else if (hfp->format == p7_HMMFILE_3e) { if (magic != v3e_magic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic number at start of HMM");  }
+      else if (hfp->format == p7_HMMFILE_3d) { if (magic != v3d_magic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic number at start of HMM");  }
+      else if (hfp->format == p7_HMMFILE_3c) { if (magic != v3c_magic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic number at start of HMM");  }
+      else if (hfp->format == p7_HMMFILE_3b) { if (magic != v3b_magic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic number at start of HMM");  }
+      else if (hfp->format == p7_HMMFILE_3a) { if (magic != v3a_magic)  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "bad magic number at start of HMM");  }
+      else                                                              ESL_XFAIL(eslEFORMAT, hfp->errbuf, "no such HMM file format code");      
+    }
+
+  /* Allocate shell of the new HMM. 
+   * Two-step allocation lets us read/set the flags first; 
+   * then the later CreateBody() call will allocate optional internal fields we need. 
+   */
+  if ((hmm = p7_hmm_CreateShell()) == NULL)                     ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed, HMM shell");
+  hmm->offset = offset;
+
+  /* Get sizes of things */
+  /* xref J5/114 for a legacy use of <flags> for optional acc, desc annotation */
+  if (! fread((char *) &(hmm->flags),  sizeof(int), 1, hfp->f)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read flags");
+  if (! fread((char *) &(hmm->M),      sizeof(int), 1, hfp->f)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model size M");
+  if (! fread((char *) &alphabet_type, sizeof(int), 1, hfp->f)) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read alphabet_type");
+  
+  /* Set or verify alphabet. */
+  if (*ret_abc == NULL)  {  /* still unknown: set it, pass control of it back to caller */
+    if ((abc = esl_alphabet_Create(alphabet_type)) == NULL)     ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed, alphabet");
+  } else {      /* already known: check it */
+    abc = *ret_abc;
+    if (abc->type != alphabet_type)                             ESL_XFAIL(eslEINCOMPAT, hfp->errbuf, "Alphabet type mismatch: was %s, but current HMM says %s", esl_abc_DecodeType( abc->type), esl_abc_DecodeType(alphabet_type));
+  }
+
+  /* Finish the allocation of the HMM
+   */
+  if ((status = p7_hmm_CreateBody(hmm, hmm->M, abc)) != eslOK)  ESL_XFAIL(eslEMEM, hfp->errbuf, "allocation failed, HMM body");
+  
+  /* Core model probabilities. */
+  for (k = 1; k <= hmm->M; k++)
+    if (! fread((char *) hmm->mat[k], sizeof(float), hmm->abc->K,      hfp->f))  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read mat[%d]", k);
+  for (k = 0; k <= hmm->M; k++)
+    if (! fread((char *) hmm->ins[k], sizeof(float), hmm->abc->K,      hfp->f))  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ins[%d]", k);
+  for (k = 0; k <= hmm->M; k++)
+    if (! fread((char *) hmm->t[k],   sizeof(float), p7H_NTRANSITIONS, hfp->f))  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read t[%d]", k);
+  
+  /* Annotations. */
+  if (read_bin_string(hfp->f, &(hmm->name)) != eslOK)                                                ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read name");
+  if ((hmm->flags & p7H_ACC)  && read_bin_string(hfp->f, &(hmm->acc))  != eslOK)                     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read acc");
+  if ((hmm->flags & p7H_DESC) && read_bin_string(hfp->f, &(hmm->desc)) != eslOK)                     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read desc");
+  if ((hmm->flags & p7H_RF)   && ! fread((char *) hmm->rf,        sizeof(char), hmm->M+2, hfp->f))   ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read rf");   /* +2: 1..M and trailing \0 */
+  if ((hmm->flags & p7H_MMASK)&& ! fread((char *) hmm->mm,        sizeof(char), hmm->M+2, hfp->f))   ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read mm");   /* +2: 1..M and trailing \0 */
+  if ((hmm->flags & p7H_CONS) && ! fread((char *) hmm->consensus, sizeof(char), hmm->M+2, hfp->f))   ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read consensus"); /* don't need to test for >=3e format, because the flag is sufficient (didn't exist pre-3e) */
+  if ((hmm->flags & p7H_CS)   && ! fread((char *) hmm->cs,        sizeof(char), hmm->M+2, hfp->f))   ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read cs");
+  if ((hmm->flags & p7H_CA)   && ! fread((char *) hmm->ca,        sizeof(char), hmm->M+2, hfp->f))   ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ca");
+  if (read_bin_string(hfp->f, &(hmm->comlog)) != eslOK)                                              ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read comlog");
+  if (! fread((char *) &(hmm->nseq),       sizeof(int),   1, hfp->f))                                ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read nseq");
+  if (! fread((char *) &(hmm->eff_nseq),   sizeof(float), 1, hfp->f))                                ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read eff_nseq");
+  if (hfp->format >= p7_HMMFILE_3c) {
+    if (! fread((char *) &(hmm->max_length), sizeof(int),   1, hfp->f))                         ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read max_length");
+  }
+  if (read_bin_string(hfp->f, &(hmm->ctime))  != eslOK)                                       ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read ctime");
+  if ((hmm->flags & p7H_MAP)  && ! fread((char *) hmm->map, sizeof(int), hmm->M+1, hfp->f))   ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read map");
+  if (! fread((char *) &(hmm->checksum), sizeof(uint32_t),1,hfp->f))                          ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read checksum");
+
+  /* E-value parameters and Pfam cutoffs */
+  if (hfp->format >= p7_HMMFILE_3b) {
+    if (! fread((char *) hmm->evparam, sizeof(float), p7_NEVPARAM, hfp->f))                            ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read statistical params");
+  } else if (hfp->format == p7_HMMFILE_3a) {
+    /* a backward compatibility mode. 3/a files stored 3 floats: LAMBDA, MU, TAU. Read 3 #'s and carefully copy/rearrange them into new 6 format */
+    if (! fread((char *) hmm->evparam, sizeof(float), 3,           hfp->f))                            ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read statistical params");
+    hmm->evparam[p7_FLAMBDA] = hmm->evparam[0];
+    hmm->evparam[p7_FTAU]    = hmm->evparam[2];
+    hmm->evparam[p7_VLAMBDA] = hmm->evparam[0];
+    hmm->evparam[p7_VMU]     = hmm->evparam[1];
+    hmm->evparam[p7_MLAMBDA] = hmm->evparam[p7_VLAMBDA];
+    hmm->evparam[p7_MMU]     = hmm->evparam[p7_VMU];
+  }
+  if (! fread((char *) hmm->cutoff,  sizeof(float), p7_NCUTOFFS, hfp->f))                            ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read Pfam score cutoffs");
+  if ((hmm->flags & p7H_COMPO) && ! fread((char *) hmm->compo, sizeof(float), hmm->abc->K, hfp->f))  ESL_XFAIL(eslEFORMAT, hfp->errbuf, "failed to read model composition");
+
+  /* other legacy issues */
+  if (hfp->format < p7_HMMFILE_3e && (status = p7_hmm_SetConsensus(hmm, NULL)) != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Failed to set consensus on legacy HMM format");
+
+  if (*ret_abc == NULL) *ret_abc = abc;  /* pass our new alphabet back to caller, if caller didn't know it already */
+  if ( opt_hmm != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  return eslOK;
+  
+ ERROR:
+  if (*ret_abc == NULL && abc != NULL) esl_alphabet_Destroy(abc); /* the test is for an alphabet created here, not passed */
+  if (hmm     != NULL) p7_hmm_Destroy(hmm);
+  if (opt_hmm != NULL) *opt_hmm = NULL;
+  return status;
+}
+
+/* read_asc20hmm()
+ * Read a HMMER2.0 ASCII format HMM file, for backward compatibility
+ * SRE, Thu Dec 25 09:13:36 2008 [Magallon]
+ */
+static int
+read_asc20hmm(P7_HMMFILE *hfp, ESL_ALPHABET **ret_abc, P7_HMM **opt_hmm)
+{
+  ESL_ALPHABET *abc  = NULL;
+  P7_HMM       *hmm  = NULL;
+  P7_BG        *bg   = NULL;
+  char         *tag  = NULL;
+  char         *tok1 = NULL;
+  char         *tok2 = NULL;
+  char         *tok3 = NULL;
+  float         null[p7_MAXABET];
+  int           alphatype;
+  int           k,x;
+  off_t         offset = 0;
+  int           status;
+ 
+  hfp->errbuf[0] = '\0';
+
+  if (hfp->newly_opened)
+    {
+      offset            = 0;
+      hfp->newly_opened = FALSE;
+    }
+  else
+    {
+      /* Record where this HMM starts on disk */
+      if ((! hfp->do_stdin) && (! hfp->do_gzip) && (offset = ftello(hfp->f)) < 0)   ESL_XEXCEPTION(eslESYS, "ftello() failed");
+
+      /* First line of file: "HMMER2.0". Allocate shell for HMM annotation information (we don't know K,M yet) */
+      if ((status = esl_fileparser_NextLine(hfp->efp))                   != eslOK)  goto ERROR;  /* EOF here is normal; could also be a thrown EMEM */
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tag, NULL)) != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "unexpected absence of tokens on data line");
+      if (strcmp(tag, "HMMER2.0")                                        != 0)      ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Didn't find HMMER3/a tag: not a HMMER save file?");
+    }
+
+  if ((hmm = p7_hmm_CreateShell())                                       == NULL)   ESL_XFAIL(eslEMEM,    hfp->errbuf, "allocation failure, HMM shell");
+  hmm->offset = offset;
+
+  /* Header */
+  /* H2 save files have no EFFN; 
+   * COM lines don't have number tags like [1];
+   * they have CKSUM but we ignore it because it uses different algorithm;
+   * have EVD line, we ignore it, H3 stats are different;
+   * XT, NULT lines are ignored; algorithm-dependent config is all internal in H3
+   */
+  while ((status = esl_fileparser_NextLine(hfp->efp)) == eslOK)
+    {
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tag, NULL))     != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "Premature end of line");
+
+      if (strcmp(tag, "NAME") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No name found on NAME line");
+  p7_hmm_SetName(hmm, tok1);
+      } 
+
+      else if (strcmp(tag, "ACC") == 0)  {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No accession found on ACC line");
+  p7_hmm_SetAccession(hmm, tok1);
+      }  
+
+      else if (strcmp(tag, "DESC") == 0) {
+        /* #h106. Allow "DESC" bare, with nothing following. Looks like some SMART models circa 1998 are like this. */
+        if ((status = esl_fileparser_GetRemainingLine(hfp->efp, &tok1)) == eslOK) p7_hmm_SetDescription(hmm, tok1);
+      } 
+
+      else if (strcmp(tag, "LENG") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No model length found on LENG line");
+  if ((hmm->M = atoi(tok1))                                            == 0)     ESL_XFAIL(status,    hfp->errbuf, "Invalid model length %s on LENG line", tok1);
+      }  
+
+      else if (strcmp(tag, "ALPH") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))  != eslOK)   ESL_XFAIL(status,    hfp->errbuf, "No alphabet type found on ALPH");
+  /* Bug #h80: H2 tags DNA/RNA files as "Nucleic"; modern Easel/H3
+   * expects tag "DNA" or "RNA", so you can't pass tok1 to esl_abc_EncodeType().
+   */
+  if      (strcasecmp(tok1, "nucleic") == 0) alphatype = eslDNA;
+  else if (strcasecmp(tok1, "amino")   == 0) alphatype = eslAMINO;
+  else    ESL_XFAIL(status,    hfp->errbuf, "Unrecognized alphabet type %s", tok1);
+
+  if (*ret_abc == NULL) {
+    if ((abc = esl_alphabet_Create(alphatype))                        == NULL)    ESL_XFAIL(eslEMEM,   hfp->errbuf, "Failed to create alphabet");
+  } else {
+    if ((*ret_abc)->type != alphatype)                                           ESL_XFAIL(eslEINCOMPAT,hfp->errbuf,"Alphabet type mismatch: was %s, but current HMM says %s", esl_abc_DecodeType( (*ret_abc)->type), tok1);
+    abc = *ret_abc;
+  }
+      } 
+
+      else if (strcmp(tag, "RF") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,    hfp->errbuf, "No yes/no found for RF line");
+  if      (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_RF;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "RF header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "CS") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No yes/no found for CS line");
+  if (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_CS;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "CS header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "MAP") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No yes/no found for MAP line");
+  if      (strcasecmp(tok1, "yes") == 0)
+    hmm->flags |= p7H_MAP;
+  else if (strcasecmp(tok1, "no")  != 0)                                           ESL_XFAIL(eslEFORMAT, hfp->errbuf, "MAP header line must say yes/no, not %s", tok1);
+      } 
+
+      else if (strcmp(tag, "DATE") == 0) {
+  if ((status = esl_fileparser_GetRemainingLine(hfp->efp, &tok1))       != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No date found on DATE line");
+  if (esl_strdup(tok1, -1, &(hmm->ctime))                               != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "strdup() failed to set date");
+      }
+
+      else if (strcmp(tag, "COM") == 0) {
+  /* in an H2 save file, there's no [1] number tags. The H3 format parser skips these */
+  if ((status = esl_fileparser_GetRemainingLine(hfp->efp, &tok1))       != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "No command on COM line");
+  if (hmm->comlog == NULL) {
+    if (esl_strdup(tok1, -1, &(hmm->comlog))                            != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "esl_strdup() failed");
+  } else {
+    if (esl_strcat(&(hmm->comlog), -1, "\n", -1)                        != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "esl_strcat() failed");
+    if (esl_strcat(&(hmm->comlog), -1, tok1,  -1)                       != eslOK)  ESL_XFAIL(eslEMEM,    hfp->errbuf, "esl_strcat() failed");
+  }
+      }
+      
+      else if (strcmp(tag, "NSEQ") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Nothing follows NSEQ tag");
+  if ((hmm->nseq = atoi(tok1)) == 0 && strcmp(tok1, "0") != 0)                     ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Invalid nseq on NSEQ line: should be integer, not %s", tok1);
+      }
+
+      else if (strcmp(tag, "GA") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on GA line");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on GA line");
+  hmm->cutoff[p7_GA1] = atof(tok1);
+  hmm->cutoff[p7_GA2] = atof(tok2);
+  hmm->flags         |= p7H_GA;
+      }
+
+      else if (strcmp(tag, "TC") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on TC line");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on TC line");
+    hmm->cutoff[p7_TC1] = atof(tok1);
+    hmm->cutoff[p7_TC2] = atof(tok2);
+    hmm->flags         |= p7H_TC;
+      }
+
+      else if (strcmp(tag, "NC") == 0) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on NC line");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on NC line");
+    hmm->cutoff[p7_NC1] = atof(tok1);
+    hmm->cutoff[p7_NC2] = atof(tok2);
+    hmm->flags         |= p7H_NC;
+      }
+
+      else if (strcmp(tag, "NULE") == 0) {
+  if (abc->type == eslUNKNOWN) ESL_XFAIL(eslEFORMAT, hfp->errbuf, "ALPH must precede NULE in HMMER2 save files");
+  for (x = 0; x < abc->K; x++) {
+    if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few fields on NULE line");
+    null[x] = h2ascii2prob(tok1, 1./(float)abc->K);
+  }
+      }
+
+      else if (strcmp(tag, "HMM") == 0) 
+  break;
+    } /* end, loop over possible header tags */
+  if (status != eslOK) goto ERROR;
+
+
+  /* Skip main model header lines; allocate body of HMM now that K,M are known */
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  if ((status = p7_hmm_CreateBody(hmm, hmm->M, abc))                          != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Failed to allocate body of the new HMM");
+  if ((    bg = p7_bg_Create(abc))                                            == NULL)   ESL_XFAIL(eslEMEM,    hfp->errbuf, "failed to create background model");
+
+  /* H2's tbd1 line ==> translated to H3's node 0 */
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))         != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok2, NULL))         != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok3, NULL))         != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data before main model section");
+  hmm->t[0][p7H_MM] = h2ascii2prob(tok1, 1.0);  /* B->M1 */
+  hmm->t[0][p7H_MI] = 0.0;                  /* B->I0 */
+  hmm->t[0][p7H_MD] = h2ascii2prob(tok3, 1.0);    /* B->D1 */
+  hmm->t[0][p7H_IM] = 1.0;
+  hmm->t[0][p7H_II] = 0.0;
+  hmm->t[0][p7H_DM] = 1.0;
+  hmm->t[0][p7H_DD] = 0.0;
+  for (x = 0; x < abc->K; x++) hmm->ins[0][x] = bg->f[x];
+
+  /* The main model section. */
+  for (k = 1; k <= hmm->M; k++)
+    {
+      if ((status = esl_fileparser_NextLine(hfp->efp))                        != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model section, at node %d (expected %d)", k, hmm->M);
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model section, at node %d (expected %d)", k, hmm->M);
+      if (atoi(tok1) != k)                                                               ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Expected match line to start with %d (of %d); saw %s", k, hmm->M, tok1);
+      
+      /* Line 1: match emissions; optional map info */
+      for (x = 0; x < abc->K; x++) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few probability fields on match line, node %d: expected %d, got %d\n", k, abc->K, x);
+  hmm->mat[k][x] = h2ascii2prob(tok1, null[x]);
+      }
+      if (hmm->flags & p7H_MAP) {
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing MAP field on match line for node %d: should at least be -", k);
+  hmm->map[k] = atoi(tok1);
+      }
+
+      /* Line 2: optional RF; then we ignore insert emissions */
+      if ((status = esl_fileparser_NextLine(hfp->efp))                        != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model: no insert emission line, node %d", k);
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing RF field on match line for node %d: should at least be -",  k);
+      if (hmm->flags & p7H_RF)     hmm->rf[k]     = *tok1;
+      for (x = 0; x < abc->K; x++) hmm->ins[k][x] = bg->f[x];
+
+      /* Line 3: optional CS, then transitions (ignoring last 2, which are entry/exit */
+      if ((status = esl_fileparser_NextLine(hfp->efp))                        != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data in main model: no transition line, node %d", k);
+      if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))     != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Missing CS field on match line for node %d: should at least be -",  k);
+      if (hmm->flags & p7H_CS) hmm->cs[k]   = *tok1;
+      if (k < hmm->M) {    /* ignore last insert transition line; H3/H2 not compatible there */
+  for (x = 0; x < p7H_NTRANSITIONS; x++) {
+    if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))   != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Too few probability fields on transition line, node %d: expected %d, got %d\n", k, abc->K, x);
+    hmm->t[k][x] = h2ascii2prob(tok1, 1.0);
+  }
+      }
+    }
+
+  /* node M transitions: H2 doesn't have an I_M state */
+  hmm->t[hmm->M][p7H_MM] = 1.0;
+  hmm->t[hmm->M][p7H_MI] = 0.0;
+  hmm->t[hmm->M][p7H_MD] = 0.0;
+  hmm->t[hmm->M][p7H_IM] = 1.0;
+  hmm->t[hmm->M][p7H_II] = 0.0;
+  hmm->t[hmm->M][p7H_DM] = 1.0;
+  hmm->t[hmm->M][p7H_DD] = 0.0;
+
+  /* The closing // */
+  if ((status = esl_fileparser_NextLine(hfp->efp))                            != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data: missing //?");
+  if ((status = esl_fileparser_GetTokenOnLine(hfp->efp, &tok1, NULL))         != eslOK)  ESL_XFAIL(status,     hfp->errbuf, "Premature end of data: missing //?");
+  if (strcmp(tok1, "//")                                                      != 0)      ESL_XFAIL(eslEFORMAT, hfp->errbuf, "Expected closing //; found %s instead", tok1);
+
+  /* Tidy up. */
+  if (hmm->flags & p7H_RF)  { hmm->rf[0] = ' '; hmm->rf[hmm->M+1] = '\0'; }
+  if (hmm->flags & p7H_CS)  { hmm->cs[0] = ' '; hmm->cs[hmm->M+1] = '\0'; }
+  if (hmm->name == NULL)    ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No NAME found for HMM");
+  if (hmm->M    <= 0)       ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No LENG found for HMM (or LENG <= 0)");
+  if (abc       == NULL)    ESL_XFAIL(eslEFORMAT, hfp->errbuf, "No ALPH found for HMM");
+
+  /* Part of #h106 fix: */
+  if ((status = p7_hmm_Renormalize(hmm)) != eslOK) return status;
+
+  /* legacy issues */
+  if (( status = p7_hmm_SetConsensus(hmm, NULL)) != eslOK) ESL_XFAIL(status, hfp->errbuf, "Failed to create consensus line");
+
+  /* Calibrate the model:         cfg   rng   bg    gm    om */
+  if ((status = p7_Calibrate(hmm, NULL, NULL, &bg, NULL, NULL)) != eslOK) ESL_XFAIL(status, hfp->errbuf, "Failed to calibrate HMMER2 model after input conversion");
+
+  if (*ret_abc == NULL) *ret_abc = abc;
+  if ( opt_hmm != NULL) *opt_hmm = hmm; else p7_hmm_Destroy(hmm);
+  p7_bg_Destroy(bg);
+  return eslOK;
+
+ ERROR:
+  if (*ret_abc == NULL && abc != NULL) esl_alphabet_Destroy(abc);
+  if (hmm     != NULL) p7_hmm_Destroy(hmm);
+  if (bg      != NULL) p7_bg_Destroy(bg);
+  if (opt_hmm != NULL) *opt_hmm = NULL;
+  if      (status == eslEMEM || status == eslESYS) return status; 
+  else if (status == eslEOF)                       return status;
+  else if (status == eslEINCOMPAT)                 return status;
+  else                                             return eslEFORMAT;  /* anything else is a format error: includes premature EOF, EOL, EOD  */
+}
+/*--------------- end, private format parsers -------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 5. Other private functions involved in i/o
+ *****************************************************************/
+
+
+/* multiline()
+ * 
+ * Used to print the command log to ASCII save files.
+ *
+ * Given a record (like the comlog) that contains 
+ * multiple lines, print it as multiple lines with
+ * a given prefix. e.g.:
+ *           
+ * given:   "COM   ", "foo\nbar\nbaz"
+ * print:   COM   1 foo
+ *          COM   2 bar
+ *          COM   3 baz
+ *
+ * If <s> is NULL, no-op. Otherwise <s> must be a <NUL>-terminated
+ * string.  It does not matter if it ends in <\n> or not. <pfx>
+ * must be a valid <NUL>-terminated string; it may be empty.
+ *           
+ * Args:     fp:   FILE to print to
+ *           pfx:  prefix for each line
+ *           s:    line to break up and print; tolerates a NULL
+ *
+ * Returns: <eslOK> on success.
+ *
+ * Throws:  <eslEWRITE> on write error.
+ */
+static int
+multiline(FILE *fp, const char *pfx, char *s)
+{
+  char *sptr  = s;
+  char *end   = NULL;
+  int   n     = 0;
+  int   nline = 1;
+
+  do {
+    end = strchr(sptr, '\n');
+
+    if (end != NULL)                  /* if there's no \n left, end == NULL */
+      {
+  n = end - sptr;                       /* n chars exclusive of \n */
+  if (fprintf(fp, "%s [%d] ", pfx, nline++) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");
+  if (fwrite(sptr, sizeof(char), n, fp)    != n) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");  /* using fwrite lets us write fixed # of chars   */
+  if (fprintf(fp, "\n")                     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed");  /* while writing \n w/ printf allows newline conversion */
+  sptr += n + 1;                       /* +1 to get past \n */
+      } 
+    else 
+      {
+  if (fprintf(fp, "%s [%d] %s\n", pfx, nline++, sptr) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); /* last line */
+      }
+  } while (end != NULL  && *sptr != '\0');   /* *sptr == 0 if <s> terminates with a \n */
+  return eslOK;
+}
+
+/* multilineString()
+ *
+ * Used to print the command log to a string.
+ *
+ * Given a record (like the comlog) that contains
+ * multiple lines, print it as multiple lines with
+ * a given prefix. e.g.:
+ *
+ * given:   "COM   ", "foo\nbar\nbaz"
+ * print:   COM   1 foo
+ *          COM   2 bar
+ *          COM   3 baz
+ *
+ * If <s> is NULL, no-op. Otherwise <s> must be a <NUL>-terminated
+ * string.  It does not matter if it ends in <\n> or not. <pfx>
+ * must be a valid <NUL>-terminated string; it may be empty.
+ *
+ * Args:     ret_char: char pointer pointer
+ *           pfx:  prefix for each line
+ *           s:    line to break up and print; tolerates a NULL
+ *           coffset: the current write position in the string (pointer so we can add to it).
+ *
+ * Returns: <eslOK> on success or <eslEWRITE> on error.
+ *
+ */
+static int
+multilineString(char **ret_str, const char *pfx, char *s, int *coffset){
+  char *sptr  = s;
+  char *end   = NULL;
+  int   n     = 0;
+  int   nline = 1;
+  int   offset;
+
+  do {
+    end = strchr(sptr, '\n');
+    if (end != NULL) {                  /* if there's no \n left, end == NULL */
+      n = end - sptr;                       /* n chars exclusive of \n */
+      if ((offset = sprintf(*ret_str + *coffset, "%s [%d] ", pfx, nline++)) < 0) return eslEWRITE;
+      *coffset += offset;
+
+      strncpy(*ret_str + *coffset, sptr, sizeof(char) * n); /* using strncpy lets us write fixed # of chars   */
+      *coffset +=n;
+      if ((offset = sprintf(*ret_str + *coffset, "\n"))        < 0)              return eslEWRITE;
+      sptr += n + 1;                       /* +1 to get past \n */
+    } else {
+      if ((offset = sprintf(*ret_str + *coffset, "%s [%d] %s\n", pfx, nline++, sptr)) < 0) return eslEWRITE;
+      *coffset += offset;
+    }
+  } while (end != NULL  && *sptr != '\0');   /* *sptr == 0 if <s> terminates with a \n */
+  return eslOK;
+}
+
+
+
+static int
+printprob(FILE *fp, int fieldwidth, float p)
+{
+  if      (p == 0.0) { if (fprintf(fp, " %*s",   fieldwidth, "*")      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else if (p == 1.0) { if (fprintf(fp, " %*.5f", fieldwidth, 0.0)      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  else               { if (fprintf(fp, " %*.5f", fieldwidth, -logf(p)) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "hmm write failed"); }
+  return eslOK;
+}
+
+/* probToString
+ *
+ * Used to print probabilities floats in a fixed field to a char. Based on printprob.
+ *
+ *
+ * given :   4.115212345633
+ * append:   " 4.11521"
+ *
+ *
+ * If p is 0.0 or 1.0, append * or 0.00000
+ *
+ * Args:     str:         (pointer to pointer)
+ *           fieldwidth:  The size of the number to be printed. Note, a space is
+ *                        prepended
+ *           p:           float
+ *           offset:      currnet position in the strng
+ *
+ * Returns: <eslOK> on success or <eslEWRITE> on error.
+ */
+
+static int
+probToString(char **str , int fieldwidth, float p, int offset)
+{
+  if      (p == 0.0) { if (sprintf(*str+offset, " %*s",   fieldwidth, "*")      < 0) return( eslEWRITE ); }
+  else if (p == 1.0) { if (sprintf(*str+offset, " %*.5f", fieldwidth, 0.0)      < 0) return( eslEWRITE ); }
+  else               { if (sprintf(*str+offset, " %*.5f", fieldwidth, -logf(p)) < 0) return( eslEWRITE ); }
+  return eslOK;
+}
+
+/* Function: write_bin_string()
+ * 
+ * Purpose:  Write a string in binary save format: an integer
+ *           for the string length (including \0), followed by
+ *           the string.
+ *           
+ * Return:   <eslOK> on success;
+ * 
+ * Throw:    <eslEWRITE> on write error, such as a filled disk.
+ */
+static int
+write_bin_string(FILE *fp, char *s)
+{
+  int len;
+  if (s != NULL) 
+    {
+      len = strlen(s) + 1;
+      if (fwrite((char *) &len, sizeof(int),  1,   fp) != 1)   ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+      if (fwrite((char *) s,    sizeof(char), len, fp) != len) ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+    }
+  else
+    {
+      len = 0;
+      if (fwrite((char *) &len, sizeof(int), 1, fp) != 1)      ESL_EXCEPTION_SYS(eslEWRITE, "hmm binary write failed");
+    }
+  return eslOK;
+}
+
+/* Function: read_bin_string()
+ * 
+ * Purpose:  Read in a string from a binary file, where
+ *           the first integer is the length (including '\0').
+ *           If the length is 0, <*ret_s> is set to <NULL>.
+ *
+ *           This is a reasonable convention for storing/ reading
+ *           strings in binary files. Note that because the length is
+ *           inclusive of '\0', there's a difference between a NULL
+ *           string and an empty string.
+ *           
+ * Args:     fp       - FILE to read from
+ *           ret_s    - string to read into
+ *                             
+ * Return:   <eslOK> on success. ret_s is malloc'ed here.
+ *           <eslEOD> if a read fails - likely because no more
+ *             data in file.
+ * 
+ * Throws    <eslEMEM> on allocation error.
+ */                            
+static int
+read_bin_string(FILE *fp, char **ret_s)
+{
+  int   status;
+  char *s = NULL;
+  int   len;
+
+  if (! fread((char *) &len, sizeof(int), 1, fp)) { status = eslEOD; goto ERROR; }
+  if (len > 0) {
+    ESL_ALLOC(s,  (sizeof(char) * len));
+    if (! fread((char *) s, sizeof(char), len, fp)) { status = eslEOD; goto ERROR; }
+  }
+  *ret_s = s;
+  return eslOK;
+
+ ERROR:
+  if (s != NULL) free(s);
+  *ret_s = NULL;
+  return status;
+}
+
+static float
+h2ascii2prob(char *s, float null)
+{
+  return ((*s == '*') ? 0. : null * exp( atoi(s) * 0.00069314718));
+}
+/*---------------- end, private utilities -----------------------*/
+
+
+
+/*****************************************************************
+ * 6. Benchmark driver.
+ *****************************************************************/
+#ifdef p7HMMFILE_BENCHMARK
+/*
+  icc  -O3 -static -o p7_hmmfile_benchmark -I. -L. -I../easel -L../easel -Dp7HMMFILE_BENCHMARK p7_hmmfile.c -lhmmer -leasel -lm 
+  ./p7_hmmfile_benchmark Pfam.hmm
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                  docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",  0 },
+  { "-a",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "include time of profile configuration", 0 }, 
+  { "-v",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "verbose: print model info as they're read", 0 }, 
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <HMM file>";
+static char banner[] = "benchmark driver for HMM input";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS   *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  ESL_STOPWATCH *w       = esl_stopwatch_Create();
+  ESL_ALPHABET  *abc     = NULL;
+  char          *hmmfile = esl_opt_GetArg(go, 1);
+  P7_HMMFILE    *hfp     = NULL;
+  P7_HMM        *hmm     = NULL;
+  P7_BG         *bg      = NULL;
+  P7_PROFILE    *gm      = NULL;
+  P7_OPROFILE   *om      = NULL;
+  int            nmodel  = 0;
+  uint64_t       totM    = 0;
+  int            status;
+  char           errbuf[eslERRBUFSIZE];
+
+  esl_stopwatch_Start(w);
+
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  while ((status = p7_hmmfile_Read(hfp, &abc, &hmm)) == eslOK)
+    {
+      if (nmodel == 0) {   /* first time initialization, now that alphabet known */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, 400);
+      }
+
+      if (esl_opt_GetBoolean(go, "-v")) printf("%s\n", hmm->name);
+      nmodel++;
+      totM += hmm->M;
+
+      if (esl_opt_GetBoolean(go, "-a") == TRUE) 
+  {
+    gm = p7_profile_Create(hmm->M, abc);
+    p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+    om = p7_oprofile_Create(gm->M, abc);
+    p7_oprofile_Convert(gm, om);
+    p7_oprofile_ReconfigLength(om, 400);
+
+    p7_profile_Destroy(gm);
+    p7_oprofile_Destroy(om);
+  }
+
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT)   p7_Fail("bad file format in HMM file %s",             hmmfile);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM file %s contains different alphabets",   hmmfile);
+  else if (status != eslEOF)       p7_Fail("Unexpected error in reading HMMs from %s",   hmmfile);
+
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# number of models: %d\n", nmodel);
+  printf("# total M:          %" PRId64 "\n", totM);
+  
+  p7_bg_Destroy(bg);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7HMMFILE_BENCHMARK*/
+/*---------------- end, benchmark driver ------------------------*/
+
+
+/*****************************************************************
+ * 7. Unit tests.
+ *****************************************************************/
+#ifdef p7HMMFILE_TESTDRIVE
+
+/* utest_io_30: tests read/write for 3.0 save files.
+ *              Caller provides a named tmpfile that we can
+ *              open, write to, close, reopen, then read from.
+ *              <format> can be -1 or any specified 3.x save
+ *              file format.
+ *              Caller also provides a test HMM, which might
+ *              be a nasty random-sampled HMM.
+ */
+static int
+utest_io_30(char *tmpfile, int format, P7_HMM *hmm)
+{
+  FILE         *fp     = NULL;
+  P7_HMMFILE   *hfp    = NULL;
+  P7_HMM       *new    = NULL;
+  ESL_ALPHABET *newabc = NULL;
+  char          msg[] = "3.0 file i/o unit test failed";
+  
+  /* Write the HMM to disk as ASCII */
+  if ((fp = fopen(tmpfile, "w"))              == NULL)  esl_fatal(msg);
+  if (p7_hmmfile_WriteASCII(fp, format, hmm)  != eslOK) esl_fatal(msg);
+  fclose(fp);
+  
+  /* Read it back */
+  if (p7_hmmfile_OpenE(tmpfile, NULL, &hfp, NULL) != eslOK)  esl_fatal(msg);
+  if (p7_hmmfile_Read(hfp, &newabc, &new)         != eslOK)  esl_fatal(msg);
+  
+  /* It should have determined the right file format */
+  if (format == -1) { if (hfp->format != p7_HMMFILE_3f) esl_fatal(msg); }
+  else              { if (hfp->format != format)        esl_fatal(msg); } 
+
+  /* It should be identical to what we started with, modulo some legacy format issues */
+  if (format < p7_HMMFILE_3e) { strcpy(new->consensus, hmm->consensus); }
+  if (p7_hmm_Compare(hmm, new, 0.0001)     != eslOK) esl_fatal(msg);
+  p7_hmm_Destroy(new);
+
+  /* Trying to read one more HMM should give us a normal EOF */
+  if (p7_hmmfile_Read(hfp, &newabc, &new)         != eslEOF) esl_fatal(msg);
+  p7_hmmfile_Close(hfp);
+
+  /* Do it all again, but with binary format */
+  if ((fp = fopen(tmpfile, "w"))                  == NULL)   esl_fatal(msg);
+  if (p7_hmmfile_WriteBinary(fp, format, hmm)     != eslOK)  esl_fatal(msg);
+  fclose(fp);
+  if (p7_hmmfile_OpenE(tmpfile, NULL, &hfp, NULL) != eslOK)  esl_fatal(msg);
+  if (p7_hmmfile_Read(hfp, &newabc, &new)         != eslOK)  esl_fatal(msg);
+  if (format < p7_HMMFILE_3e) { strcpy(new->consensus, hmm->consensus); }
+  if (p7_hmm_Compare(hmm, new, 0.0001)            != eslOK)  esl_fatal(msg);
+
+  if (format == -1) { if (hfp->format != p7_HMMFILE_3f)      esl_fatal(msg); }
+  else              { if (hfp->format != format)             esl_fatal(msg); } 
+
+  p7_hmm_Destroy(new);
+  p7_hmmfile_Close(hfp);
+
+  esl_alphabet_Destroy(newabc);
+  return eslOK;
+}
+
+
+/* Test current (3/e) file formats */
+static int
+utest_io_current(char *tmpfile, P7_HMM *hmm)
+{
+  /* Try to break the 32-bit unsigned checksum, setting high order bit */
+  hmm->checksum = 0xffeeddcc;
+  hmm->flags |= p7H_CHKSUM;
+
+  utest_io_30(tmpfile, -1, hmm);
+  return eslOK;
+}
+
+
+/* Test compatibility mode for 3/a file formats */
+static int
+utest_io_3a(char *tmpfile, P7_HMM *hmm)
+{
+  float oldparam[p7_NEVPARAM];
+
+  /* Try to break the 32-bit unsigned checksum, setting high order bit */
+  hmm->checksum = 0xffeeddcc;
+  hmm->flags |= p7H_CHKSUM;
+
+  /* Make a copy of the old statistics. 
+   * Rearrange stats params to satisfy 3/a's constraints: vmu=mmu, mlambda=vlambda=flambda 
+   */
+  esl_vec_FCopy(hmm->evparam, p7_NEVPARAM, oldparam);
+  hmm->evparam[p7_VMU]     = hmm->evparam[p7_MMU];
+  hmm->evparam[p7_VLAMBDA] = hmm->evparam[p7_MLAMBDA];
+  hmm->evparam[p7_FLAMBDA] = hmm->evparam[p7_MLAMBDA];
+
+  utest_io_30(tmpfile, p7_HMMFILE_3a, hmm);
+  
+  /* Restore the original statistics */
+  esl_vec_FCopy(oldparam, p7_NEVPARAM, hmm->evparam);
+  return eslOK;
+}
+
+#endif /*p7HMMFILE_TESTDRIVE*/
+/*-------------------- end, unit tests --------------------------*/
+
+
+
+
+/*****************************************************************
+ * 8. Test driver.
+ *****************************************************************/
+
+#ifdef p7HMMFILE_TESTDRIVE
+/* gcc -g -Wall -Dp7HMMFILE_TESTDRIVE -I. -I../easel -L. -L../easel -o p7_hmmfile_test p7_hmmfile.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  ESL_RANDOMNESS *r    = NULL;
+  ESL_ALPHABET *aa_abc = NULL,
+               *nt_abc = NULL;
+  P7_HMM       *hmm    = NULL;
+  FILE         *fp     = NULL;
+  char tmpfile[32]     = "tmp-hmmerXXXXXX";
+  int           M      = 20;
+  
+  if ((aa_abc = esl_alphabet_Create(eslAMINO)) == NULL)  esl_fatal("failed to create amino alphabet");
+  if ((nt_abc = esl_alphabet_Create(eslDNA))   == NULL)  esl_fatal("failed to create DNA alphabet");
+  if ((r      = esl_randomness_CreateFast(0))  == NULL)  esl_fatal("failed to create randomness");
+  if ((esl_tmpfile_named(tmpfile, &fp))        != eslOK) esl_fatal("failed to create tmp file");
+  fclose(fp);
+
+  /* Protein HMMs */
+  p7_hmm_Sample(r, M, aa_abc, &hmm);
+  utest_io_current(tmpfile, hmm);
+  utest_io_3a     (tmpfile, hmm);
+  p7_hmm_Destroy(hmm);
+
+  /* Nucleic acid HMMs */
+  p7_hmm_Sample(r, M, nt_abc, &hmm);
+  utest_io_current(tmpfile, hmm);
+  utest_io_3a     (tmpfile, hmm);
+  p7_hmm_Destroy(hmm);
+
+  esl_alphabet_Destroy(aa_abc);
+  esl_alphabet_Destroy(nt_abc);
+  esl_randomness_Destroy(r);
+  remove(tmpfile);
+  exit(0);
+}
+#endif /*p7HMMFILE_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+/*****************************************************************
+ * 9. Example.
+ *****************************************************************/
+/* On using the example to test error messages from p7_hmmfile_OpenE():
+ *    Message
+ *  --------------
+ *  .gz file missing/not readable     \rm test.hmm.gz; touch test.hmm.gz; src/p7_hmmfile_example test.hmm.gz
+ *  gzip -dc doesn't exist            \cp testsuite/20aa.hmm test.hmm; gzip test.hmm; sudo mv /usr/bin/gzip /usr/bin/gzip.old; src/p7_hmmfile_example test.hmm.gz
+ *  hmm file not found                \rm test.hmm; src/p7_hmmfile_example test.hmm
+ *  bad SSI file format               \cp testsuite/20aa.hmm test.hmm; \rm test.hmm.ssi; touch test.hmm.ssi; src/p7_hmmfile_example test.hmm
+ *  64-bit SSI on 32-bit sys
+ *  empty file                        \rm test.hmm; touch test.hmm
+ *  unrecognized format (binary)      cat testsuite/20aa.hmm > test.hmm; src/hmmpress test.hmm; \rm test.hmm; [edit test.hmm.h3m, delete first byte]
+ *  unrecognized format (ascii)       cat testsuite/20aa.hmm | sed -e 's/^HMMER3\/b/HMMER3\/x/' > test.hmm
+ *  
+ */
+
+#ifdef p7HMMFILE_EXAMPLE
+/* gcc -g -Wall -Dp7HMMFILE_EXAMPLE -I. -I../easel -L. -L../easel -o p7_hmmfile_example p7_hmmfile.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+
+#include "hmmer.h"
+
+int
+main(int argc, char **argv)
+{
+  char         *hmmfile = argv[1];
+  P7_HMMFILE   *hfp     = NULL;
+  P7_HMM       *hmm     = NULL;
+  ESL_ALPHABET *abc     = NULL;
+  char          errbuf[eslERRBUFSIZE];
+  int           status;
+  
+  /* An example of reading a single HMM from a file, and checking that it is the only one. */
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",               status, hmmfile, errbuf);  
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  status = p7_hmmfile_Read(hfp, &abc, NULL);
+  if (status != eslEOF)            p7_Fail("HMM file %s does not contain just one HMM\n", hfp->fname);
+
+  p7_hmmfile_Close(hfp);
+
+  p7_hmmfile_WriteASCII(stdout, -1, hmm);
+
+  esl_alphabet_Destroy(abc);
+  p7_hmm_Destroy(hmm);
+  return 0;
+}
+#endif /*p7HMMFILE_EXAMPLE*/
+/*----------------------- end, example --------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: p7_hmmfile.c 4765 2015-02-22 05:28:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_hmmfile.c $
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmwindow.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmwindow.c
new file mode 100755
index 0000000..7b5d0a6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_hmmwindow.c
@@ -0,0 +1,109 @@
+/* The Plan7 MSVDATA data structure, which holds a compact representation
+ * of substitution scores and maximal extensions, used by nhmmer.
+ *
+ * Contents:
+ *   1. The P7_MSVDATA object: allocation, initialization, destruction.
+ *   2. Unit tests.
+ *   3. Test driver.
+ *   4. Copyright and license.
+ *
+ */
+#include "p7_config.h"
+#include "hmmer.h"
+
+
+/*********************************************************************
+ *# 1. The P7_MSVDATA object: allocation, initialization, destruction.
+ *********************************************************************/
+
+
+/* Function:  p7_hmmwindow_init()
+ *
+ * Synopsis:  initialize the object used to store a list of sequence windows
+ *
+ * Returns:   eslEMEM in event of allocation failure, otherwise eslOK
+ */
+int
+p7_hmmwindow_init (P7_HMM_WINDOWLIST *list) {
+  int status;
+  list->size = 10000;
+  list->count = 0;
+  ESL_ALLOC(list->windows, list->size * sizeof(P7_HMM_WINDOW));
+
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+
+}
+
+/* Function:  p7_hmmwindow_new()
+ *
+ * Synopsis:  Return a pointer to the next window element on the list
+ *
+ * Purpose:   Accepts <id>, <pos>, <fm_pos>, <k>, <length>, <score>,
+ *            and <complementarity>, assigns those to the next window
+ *            element, then returns it, increasing the size of the
+ *            list, if necessary.
+ *
+ * Returns:   NULL in event of allocation failure, otherwise pointer to
+ *            the next seed diagonal
+ */
+
+P7_HMM_WINDOW *
+p7_hmmwindow_new (P7_HMM_WINDOWLIST *list, uint32_t id, uint32_t pos, uint32_t fm_pos, uint16_t k, uint32_t length, float score, uint8_t complementarity, uint32_t target_len) {
+  int status;
+  P7_HMM_WINDOW *window;
+
+  if (list->count == list->size) {
+    list->size *= 4;
+    ESL_REALLOC(list->windows, list->size * sizeof(P7_HMM_WINDOW));
+  }
+  window = list->windows + list->count;
+
+  window->id               = id;
+  window->n                = pos;
+  window->fm_n             = fm_pos;
+  window->k                = k;
+  window->length           = length;
+  window->score            = score;
+  window->complementarity  = complementarity;
+  window->target_len       = target_len;
+
+  list->count++;
+
+  return window;
+
+ERROR:
+  return NULL;
+}
+
+
+
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+
+
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: p7_hmmwindow.c 3784 2011-12-07 21:51:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/trunk/src/p7_hmmwindow.c $
+ ************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_null3.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_null3.c
new file mode 100755
index 0000000..4bf30aa
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_null3.c
@@ -0,0 +1,362 @@
+/* "null3" model: biased composition correction
+ * 
+ * Contents:
+ *   1. Null3 estimation algorithms.
+ *   2. Benchmark driver.
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Example.
+ *   6. Copyright and license information.
+ *
+ * See p7_domaindef.c -- null3 correction of per-seq and per-domain
+ * scores is embedded within p7_domaindef's logic; we split it out
+ * to a separate file because it's so important.
+ * 
+ * Approach is based heavily on the null3 approach used in Infernal,
+ * and described in its user guide, specifically based on
+ * ScoreCorrectionNull3CompUnknown()
+ *
+ * SVN $Id: null3.c 3474 2011-02-17 13:25:32Z wheelert $
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. Null3 estimation algorithms.
+ *****************************************************************/
+
+
+/* Function: p7_null3_score()
+ *
+ * Purpose:  Calculate a correction (in log_2 odds) to be applied
+ *           to a sequence, using a null model based on the
+ *           composition of the target sequence.
+ *           The null model is constructed /post hoc/ as the
+ *           distribution of the target sequence; if the target
+ *           sequence is 40% A, 5% C, 5% G, 40% T, then the null
+ *           model is (0.4, 0.05, 0.05, 0.4). This function is
+ *           based heavily on Infernal's ScoreCorrectionNull3(),
+ *           with two important changes:
+ *            - it leaves the log2 conversion from NATS to BITS
+ *              for the calling function.
+ *            - it doesn't include the omega score modifier
+ *              (based on prior probability of using the null3
+ *              model), again leaving this to the calling function.
+ *
+ * Args:     abc   - alphabet for hit (only used to get alphabet size)
+ *           dsq   - the sequence the hit resides in
+ *           tr   - trace of the alignment, used to find the match states
+ *                  (non-match chars are ignored in computing freq, not used if NULL)
+ *           start - start position of hit in dsq
+ *           stop  - end  position of hit in dsq
+ *           bg    - background, used for the default null model's emission freq
+ *           ret_sc - RETURN: the correction to the score (in NATS);
+ *                   caller subtracts this from hit score to get
+ *                   corrected score.
+ * Return:   void, ret_sc: the log-odds score correction (in NATS).
+ */
+void
+p7_null3_score(const ESL_ALPHABET *abc, const ESL_DSQ *dsq, P7_TRACE *tr, int start, int stop, P7_BG *bg, float *ret_sc)
+{
+  float score = 0.;
+  int status;
+  int i;
+  float *freq;
+  int dir;
+  int tr_pos;
+
+  ESL_ALLOC(freq, sizeof(float) * abc->K);
+  esl_vec_FSet(freq, abc->K, 0.0);
+
+  /* contract check */
+  if(abc == NULL) esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "p7_null3_score() alphabet is NULL.%s\n", "");
+  if(dsq == NULL) esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "p7_null3_score() dsq alphabet is NULL.%s\n", "");
+  if(abc->type != eslRNA && abc->type != eslDNA) esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "p7_null3_score() expects alphabet of RNA or DNA.%s\n", "");
+
+  dir = start < stop ? 1 : -1;
+
+  if (tr != NULL) {
+    /* skip the parts of the trace that precede the first match state */
+    tr_pos = 2;
+    i = start;
+    while (tr->st[tr_pos] != p7T_M) {
+      if (tr->st[tr_pos] == p7T_N)
+        i += dir;
+      tr_pos++;
+    }
+
+    /* tally frequencies from characters hitting match state*/
+    while (tr->st[tr_pos] != p7T_E) {
+      if (tr->st[tr_pos] == p7T_M) {
+        if(esl_abc_XIsGap(abc, dsq[i])) esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "in p7_null3_score(), res %d is a gap!%s\n", "");
+        esl_abc_FCount(abc, freq, dsq[i], 1.);
+      }
+      if (tr->st[tr_pos] != p7T_D )
+        i += dir;
+      tr_pos++;
+    }
+  } else {
+    /* tally frequencies from the full envelope */
+    for (i=ESL_MIN(start,stop); i <= ESL_MAX(start,stop); i++)
+    {
+      if(esl_abc_XIsGap(abc, dsq[i])) esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "in p7_null3_score(), res %d is a gap!%s\n", "");
+      esl_abc_FCount(abc, freq, dsq[i], 1.);
+    }
+  }
+
+  esl_vec_FNorm(freq, abc->K);
+
+
+  /* now compute score modifier (nats) - note: even with tr!=NULL, this includes the unmatched characters*/
+  for (i = 0; i < abc->K; i++)
+    score += freq[i]==0 ? 0.0 : esl_logf( freq[i]/bg->f[i] ) * freq[i] * ( (stop-start)*dir +1) ;
+
+  /* Return the correction to the bit score. */
+  score = p7_FLogsum(0., score);
+  *ret_sc = score;
+
+  return;
+
+ ERROR:
+  esl_exception(eslEINVAL, FALSE, __FILE__, __LINE__, "p7_null3_score() memory allocation error.%s\n", "");
+  return; /* never reached */
+
+}
+
+
+
+/*****************************************************************
+ * 2. Benchmark driver
+ *****************************************************************/
+#ifdef p7_NULL3_BENCHMARK
+/*
+   icc -O3 -static -o generic_null2_benchmark -I. -L. -I../easel -L../easel -Dp7GENERIC_NULL2_BENCHMARK generic_null2.c -lhmmer -leasel -lm
+   ./benchmark-generic-null2 <hmmfile>
+                   RRM_1 (M=72)       Caudal_act (M=136)      SMC_N (M=1151)
+                 -----------------    ------------------     -------------------
+   21 Aug 2008    7.77u (185 Mc/s)     14.13u (192 Mc/s)     139.03u (165.6 Mc/s)
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_randomseq.h"
+#include "esl_stopwatch.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                  0 },
+  { "-L",        eslARG_INT,    "400", NULL, "n>0", NULL,  NULL, NULL, "length of random target seqs",                   0 },
+  { "-N",        eslARG_INT,  "50000", NULL, "n>0", NULL,  NULL, NULL, "number of random target seqs",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile>";
+static char banner[] = "benchmark driver for posterior residue null2, generic version";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 1, argc, argv, banner, usage);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_GMX         *gx1     = NULL;
+  P7_GMX         *gx2     = NULL;
+  int             L       = esl_opt_GetInteger(go, "-L");
+  int             N       = esl_opt_GetInteger(go, "-N");
+  ESL_DSQ        *dsq     = malloc(sizeof(ESL_DSQ) * (L+2));
+  float           null2[p7_MAXCODE];
+  int             i;
+  float           fsc, bsc;
+  double          Mcs;
+
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+
+  bg = p7_bg_Create(abc);                 p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);    p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+  gx1 = p7_gmx_Create(gm->M, L);  
+  gx2 = p7_gmx_Create(gm->M, L);
+
+  esl_rsq_xfIID(r, bg->f, abc->K, L, dsq);
+  p7_GForward (dsq, L, gm, gx1, &fsc);
+  p7_GBackward(dsq, L, gm, gx2, &bsc);
+  p7_GDecoding(gm, gx1, gx2, gx2);   
+
+  esl_stopwatch_Start(w);
+  for (i = 0; i < N; i++) 
+    p7_GNull2_ByExpectation(gm, gx2, null2);   
+  esl_stopwatch_Stop(w);
+
+  Mcs  = (double) N * (double) L * (double) gm->M * 1e-6 / w->user;
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+  printf("# M    = %d\n", gm->M);
+  printf("# %.1f Mc/s\n", Mcs);
+
+  free(dsq);
+  p7_gmx_Destroy(gx1);
+  p7_gmx_Destroy(gx2);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_hmmfile_Close(hfp);
+  esl_alphabet_Destroy(abc);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7_NULL3_BENCHMARK*/
+/*------------------ end, benchmark driver ----------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Unit tests
+ *****************************************************************/
+#ifdef p7_NULL3_TESTDRIVE
+
+static void
+utest_correct_normalization(ESL_RANDOMNESS *r, P7_PROFILE *gm, P7_BG *bg, ESL_DSQ *dsq, int L, P7_GMX *fwd, P7_GMX *bck)
+{
+  char *msg = "normalization unit test failed";
+  float null2[p7_MAXABET];
+  float sum;
+  int   x;
+
+  esl_rsq_xfIID(r, bg->f, gm->abc->K, L, dsq); /* sample a random digital seq of length L */
+
+  p7_GForward (dsq, L, gm, fwd, NULL); 
+  p7_GBackward(dsq, L, gm, bck, NULL);       
+  p7_PosteriorNull2(L, gm, fwd, bck, bck); /* <bck> now contains posterior probs */
+  p7_Null2Corrections(gm, dsq, L, 0, bck, fwd, null2, NULL, NULL);	/* use <fwd> as workspace */
+
+  /* Convert null2 from lod score to frequencies f_d  */
+  for (x = 0; x < gm->abc->K; x++)
+    null2[x] = exp(null2[x]) * bg->f[x];
+
+  sum = esl_vec_FSum(null2, gm->abc->K);
+  if (sum < 0.99 || sum > 1.01) esl_fatal(msg);
+}  
+
+
+#endif /*p7_NULL3_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Test driver
+ *****************************************************************/
+#ifdef p7_NULL3_TESTDRIVE
+/* gcc -o null2_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7NULL2_TESTDRIVE null2.c -lhmmer -leasel -lm
+ * ./null2_utest
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-L",        eslARG_INT,    "200", NULL, NULL,  NULL,  NULL, NULL, "length of sampled sequences",                      0 },
+  { "-M",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "length of sampled HMM",                            0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for the null2 correction calculation";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r           = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc         = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm         = NULL;
+  P7_BG          *bg          = NULL;
+  P7_PROFILE     *gm          = NULL;
+  P7_GMX         *fwd         = NULL;
+  P7_GMX         *bck         = NULL;
+  ESL_DSQ        *dsq         = NULL;
+  int             M           = esl_opt_GetInteger(go, "-M");
+  int             L           = esl_opt_GetInteger(go, "-L");
+
+  /* Sample a random HMM */
+  p7_hmm_Sample(r, M, abc, &hmm);
+
+  /* Configure a profile from the sampled HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, L);
+  gm = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, L, p7_LOCAL);
+
+  /* Other initial allocations */
+  dsq  = malloc(sizeof(ESL_DSQ) * (L+2));
+  fwd  = p7_gmx_Create(gm->M, L);
+  bck  = p7_gmx_Create(gm->M, L);
+  p7_FLogsumInit();
+
+  utest_correct_normalization(r, gm, bg, dsq, L, fwd, bck);
+
+  free(dsq);
+  p7_gmx_Destroy(fwd);
+  p7_gmx_Destroy(bck);
+  p7_profile_Destroy(gm);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7_NULL3_TESTDRIVE*/
+/*-------------------- end, test driver -------------------------*/
+
+
+
+/*****************************************************************
+ * 5. Example
+ *****************************************************************/
+#ifdef p7_NULL3_EXAMPLE
+
+#endif /*p7_NULL3_EXAMPLE*/
+/*------------------------ example ------------------------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_pipeline.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_pipeline.c
new file mode 100755
index 0000000..70c4c11
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_pipeline.c
@@ -0,0 +1,2088 @@
+/* H3's accelerated seq/profile comparison pipeline
+ *  
+ * Contents:
+ *   1. P7_PIPELINE: allocation, initialization, destruction
+ *   2. Pipeline API
+ *   3. Example 1: search mode (in a sequence db)
+ *   4. Example 2: scan mode (in an HMM db)
+ *   5. Copyright and license information
+ * 
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h> 
+
+#include "easel.h"
+#include "esl_exponential.h"
+#include "esl_getopts.h"
+#include "esl_gumbel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+/* Struct used to pass a collection of useful temporary objects around
+ * within the LongTarget functions
+ *  */
+typedef struct {
+  ESL_SQ           *tmpseq; // - a new or reused digital sequence object used for p7_alidisplay_Create() call
+  P7_BG            *bg;
+  P7_OPROFILE      *om;
+  float            *scores;
+  float            *fwd_emissions_arr;
+} P7_PIPELINE_LONGTARGET_OBJS;
+
+
+/*****************************************************************
+ * 1. The P7_PIPELINE object: allocation, initialization, destruction.
+ *****************************************************************/
+
+/* Function:  p7_pipeline_Create()
+ * Synopsis:  Create a new accelerated comparison pipeline.
+ *
+ * Purpose:   Given an application configuration structure <go>
+ *            containing certain standardized options (described
+ *            below), some initial guesses at the model size <M_hint>
+ *            and sequence length <L_hint> that will be processed,
+ *            and a <mode> that can be either <p7_SCAN_MODELS> or
+ *            <p7_SEARCH_SEQS> depending on whether we're searching one sequence
+ *            against a model database (hmmscan mode) or one model
+ *            against a sequence database (hmmsearch mode); create new
+ *            pipeline object.
+ *
+ *            In search mode, we would generally know the length of
+ *            our query profile exactly, and would pass <om->M> as <M_hint>;
+ *            in scan mode, we generally know the length of our query
+ *            sequence exactly, and would pass <sq->n> as <L_hint>.
+ *            Targets will come in various sizes as we read them,
+ *            and the pipeline will resize any necessary objects as
+ *            needed, so the other (unknown) length is only an
+ *            initial allocation.
+ *            
+ *            The configuration <go> must include settings for the 
+ *            following options:
+ *            
+ *            || option      ||            description                    || usually  ||
+ *            | --noali      |  don't output alignments (smaller output)   |   FALSE   |
+ *            | -E           |  report hits <= this E-value threshold      |    10.0   |
+ *            | -T           |  report hits >= this bit score threshold    |    NULL   |
+ *            | -Z           |  set initial hit search space size          |    NULL   |
+ *            | --domZ       |  set domain search space size               |    NULL   |
+ *            | --domE       |  report domains <= this E-value threshold   |    10.0   |
+ *            | --domT       |  report domains <= this bit score threshold |    NULL   |
+ *            | --incE       |  include hits <= this E-value threshold     |    0.01   |
+ *            | --incT       |  include hits >= this bit score threshold   |    NULL   |
+ *            | --incdomE    |  include domains <= this E-value threshold  |    0.01   |
+ *            | --incdomT    |  include domains <= this score threshold    |    NULL   |
+ *            | --cut_ga     |  model-specific thresholding using GA       |   FALSE   |
+ *            | --cut_nc     |  model-specific thresholding using NC       |   FALSE   |
+ *            | --cut_tc     |  model-specific thresholding using TC       |   FALSE   |
+ *            | --max        |  turn all heuristic filters off             |   FALSE   |
+ *            | --F1         |  Stage 1 (MSV) thresh: promote hits P <= F1 |    0.02   |
+ *            | --F2         |  Stage 2 (Vit) thresh: promote hits P <= F2 |    1e-3   |
+ *            | --F3         |  Stage 2 (Fwd) thresh: promote hits P <= F3 |    1e-5   |
+ *            | --nobias     |  turn OFF composition bias filter HMM       |   FALSE   |
+ *            | --nonull2    |  turn OFF biased comp score correction      |   FALSE   |
+ *            | --seed       |  RNG seed (0=use arbitrary seed)            |      42   |
+ *            | --acc        |  prefer accessions over names in output     |   FALSE   |
+ *
+ *            As a special case, if <go> is <NULL>, defaults are set as above.
+ *            This shortcut is used in simplifying test programs and the like.
+ *            
+ * Returns:   ptr to new <P7_PIPELINE> object on success. Caller frees this
+ *            with <p7_pipeline_Destroy()>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_PIPELINE *
+p7_pipeline_Create(ESL_GETOPTS *go, int M_hint, int L_hint, int long_targets, enum p7_pipemodes_e mode)
+{
+  P7_PIPELINE *pli  = NULL;
+  int          seed = (go ? esl_opt_GetInteger(go, "--seed") : 42);
+  int          status;
+
+  ESL_ALLOC(pli, sizeof(P7_PIPELINE));
+
+  pli->do_alignment_score_calc = 0;
+  pli->long_targets = long_targets;
+
+  if ((pli->fwd = p7_omx_Create(M_hint, L_hint, L_hint)) == NULL) goto ERROR;
+  if ((pli->bck = p7_omx_Create(M_hint, L_hint, L_hint)) == NULL) goto ERROR;
+  if ((pli->oxf = p7_omx_Create(M_hint, 0,      L_hint)) == NULL) goto ERROR;
+  if ((pli->oxb = p7_omx_Create(M_hint, 0,      L_hint)) == NULL) goto ERROR;     
+
+  /* Normally, we reinitialize the RNG to the original seed every time we're
+   * about to collect a stochastic trace ensemble. This eliminates run-to-run
+   * variability. As a special case, if seed==0, we choose an arbitrary one-time 
+   * seed: time() sets the seed, and we turn off the reinitialization.
+   */
+  pli->r                  =  esl_randomness_CreateFast(seed);
+  pli->do_reseeding       = (seed == 0) ? FALSE : TRUE;
+  pli->ddef               = p7_domaindef_Create(pli->r);
+  pli->ddef->do_reseeding = pli->do_reseeding;
+
+  /* Configure reporting thresholds */
+  pli->by_E            = TRUE;
+  pli->E               = (go ? esl_opt_GetReal(go, "-E") : 10.0);
+  pli->T               = 0.0;
+  pli->dom_by_E        = TRUE;
+  pli->domE            = (go ? esl_opt_GetReal(go, "--domE") : 10.0);
+  pli->domT            = 0.0;
+  pli->use_bit_cutoffs = FALSE;
+  if (go && esl_opt_IsOn(go, "-T")) 
+    {
+      pli->T    = esl_opt_GetReal(go, "-T");  
+      pli->by_E = FALSE;
+    }
+  if (go && esl_opt_IsOn(go, "--domT")) 
+    {
+      pli->domT     = esl_opt_GetReal(go, "--domT"); 
+      pli->dom_by_E = FALSE;
+    }
+
+
+  /* Configure inclusion thresholds */
+  pli->inc_by_E           = TRUE;
+  pli->incE               = (go ? esl_opt_GetReal(go, "--incE") : 0.01);
+  pli->incT               = 0.0;
+  pli->incdom_by_E        = TRUE;
+  pli->incdomE            = (go ? esl_opt_GetReal(go, "--incdomE") : 0.01);
+  pli->incdomT            = 0.0;
+  if (go && esl_opt_IsOn(go, "--incT")) 
+    {
+      pli->incT     = esl_opt_GetReal(go, "--incT"); 
+      pli->inc_by_E = FALSE;
+    } 
+  if (go && esl_opt_IsOn(go, "--incdomT")) 
+    {
+      pli->incdomT     = esl_opt_GetReal(go, "--incdomT"); 
+      pli->incdom_by_E = FALSE;
+    }
+
+
+  /* Configure for one of the model-specific thresholding options */
+  if (go && esl_opt_GetBoolean(go, "--cut_ga"))
+    {
+      pli->T        = pli->domT        = 0.0;
+      pli->by_E     = pli->dom_by_E    = FALSE;
+      pli->incT     = pli->incdomT     = 0.0;
+      pli->inc_by_E = pli->incdom_by_E = FALSE;
+      pli->use_bit_cutoffs = p7H_GA;
+    }
+  if (go && esl_opt_GetBoolean(go, "--cut_nc"))
+    {
+      pli->T        = pli->domT        = 0.0;
+      pli->by_E     = pli->dom_by_E    = FALSE;
+      pli->incT     = pli->incdomT     = 0.0;
+      pli->inc_by_E = pli->incdom_by_E = FALSE;
+      pli->use_bit_cutoffs = p7H_NC;
+    }
+  if (go && esl_opt_GetBoolean(go, "--cut_tc"))
+    {
+      pli->T        = pli->domT        = 0.0;
+      pli->by_E     = pli->dom_by_E    = FALSE;
+      pli->incT     = pli->incdomT     = 0.0;
+      pli->inc_by_E = pli->incdom_by_E = FALSE;
+      pli->use_bit_cutoffs = p7H_TC;
+    }
+
+
+  /* Configure search space sizes for E value calculations  */
+  pli->Z       = pli->domZ       = 0.0;
+  pli->Z_setby = pli->domZ_setby = p7_ZSETBY_NTARGETS;
+  if (go && esl_opt_IsOn(go, "-Z")) 
+    {
+      pli->Z_setby = p7_ZSETBY_OPTION;
+      pli->Z       = esl_opt_GetReal(go, "-Z");
+    }
+  if (go && esl_opt_IsOn(go, "--domZ")) 
+    {
+      pli->domZ_setby = p7_ZSETBY_OPTION;
+      pli->domZ       = esl_opt_GetReal(go, "--domZ");
+    }
+
+
+  /* Configure acceleration pipeline thresholds */
+  pli->do_max        = FALSE;
+  pli->do_biasfilter = TRUE;
+  pli->do_null2      = TRUE;
+  pli->F1     = ((go && esl_opt_IsOn(go, "--F1")) ? ESL_MIN(1.0, esl_opt_GetReal(go, "--F1")) : 0.02);
+  pli->F2     = (go ? ESL_MIN(1.0, esl_opt_GetReal(go, "--F2")) : 1e-3);
+  pli->F3     = (go ? ESL_MIN(1.0, esl_opt_GetReal(go, "--F3")) : 1e-5);
+  if (long_targets) {
+	  pli->B1     = (go ? esl_opt_GetInteger(go, "--B1") : 100);
+	  pli->B2     = (go ? esl_opt_GetInteger(go, "--B2") : 240);
+	  pli->B3     = (go ? esl_opt_GetInteger(go, "--B3") : 1000);
+  } else {
+	  pli->B1 = pli->B2 = pli->B3 = -1;
+  }
+
+
+  if (go && esl_opt_GetBoolean(go, "--max")) 
+    {
+      pli->do_max        = TRUE;
+      pli->do_biasfilter = FALSE;
+
+      pli->F2 = pli->F3 = 1.0;
+      pli->F1 = (pli->long_targets ? 0.3 : 1.0); // need to set some threshold for F1 even on long targets. Should this be tighter?
+    }
+  if (go && esl_opt_GetBoolean(go, "--nonull2")) pli->do_null2      = FALSE;
+  if (go && esl_opt_GetBoolean(go, "--nobias"))  pli->do_biasfilter = FALSE;
+  
+
+  /* Accounting as we collect results */
+  pli->nmodels         = 0;
+  pli->nseqs           = 0;
+  pli->nres            = 0;
+  pli->nnodes          = 0;
+  pli->n_past_msv      = 0;
+  pli->n_past_bias     = 0;
+  pli->n_past_vit      = 0;
+  pli->n_past_fwd      = 0;
+  pli->pos_past_msv    = 0;
+  pli->pos_past_bias   = 0;
+  pli->pos_past_vit    = 0;
+  pli->pos_past_fwd    = 0;
+  pli->mode            = mode;
+  pli->show_accessions = (go && esl_opt_GetBoolean(go, "--acc")   ? TRUE  : FALSE);
+  pli->show_alignments = (go && esl_opt_GetBoolean(go, "--noali") ? FALSE : TRUE);
+  pli->hfp             = NULL;
+  pli->errbuf[0]       = '\0';
+
+  return pli;
+
+ ERROR:
+  p7_pipeline_Destroy(pli);
+  return NULL;
+}
+
+
+/* Function:  p7_pipeline_Reuse()
+ * Synopsis:  Reuse a pipeline for next target.
+ *
+ * Purpose:   Reuse <pli> for next target sequence (search mode)
+ *            or model (scan mode). 
+ *            
+ *            May eventually need to distinguish from reusing pipeline
+ *            for next query, but we're not really focused on multiquery
+ *            use of hmmscan/hmmsearch/phmmer for the moment.
+ */
+int
+p7_pipeline_Reuse(P7_PIPELINE *pli)
+{
+  p7_omx_Reuse(pli->oxf);
+  p7_omx_Reuse(pli->oxb);
+  p7_omx_Reuse(pli->fwd);
+  p7_omx_Reuse(pli->bck);
+  p7_domaindef_Reuse(pli->ddef);
+  return eslOK;
+}
+
+
+
+/* Function:  p7_pipeline_Destroy()
+ * Synopsis:  Free a <P7_PIPELINE> object.
+ *
+ * Purpose:   Free a <P7_PIPELINE> object.
+ */
+void
+p7_pipeline_Destroy(P7_PIPELINE *pli)
+{
+  if (pli == NULL) return;
+  
+  p7_omx_Destroy(pli->oxf);
+  p7_omx_Destroy(pli->oxb);
+  p7_omx_Destroy(pli->fwd);
+  p7_omx_Destroy(pli->bck);
+  esl_randomness_Destroy(pli->r);
+  p7_domaindef_Destroy(pli->ddef);
+  free(pli);
+}
+/*---------------- end, P7_PIPELINE object ----------------------*/
+
+
+/*****************************************************************
+ * 2. The pipeline API.
+ *****************************************************************/
+
+/* Function:  p7_pli_ExtendAndMergeWindows
+ * Synopsis:  Turns a list of ssv diagonals into windows, and merges
+ *            overlapping windows.
+ *
+ * Purpose:   Accepts a <windowlist> of SSV diagonals, extends those
+ *            to windows based on a combination of the max_length
+ *            value from <om> and the prefix and suffix lengths stored
+ *            in <data>, then merges (in place) windows that overlap
+ *            by more than <pct_overlap> percent, ensuring that windows
+ *            stay within the bounds of 1..<L>.
+ *
+ * Returns:   <eslOK>
+ */
+int
+p7_pli_ExtendAndMergeWindows (P7_OPROFILE *om, const P7_SCOREDATA *data, P7_HMM_WINDOWLIST *windowlist, float pct_overlap) {
+
+  int i;
+  P7_HMM_WINDOW        *prev_window = NULL;
+  P7_HMM_WINDOW        *curr_window = NULL;
+  int64_t              window_start;
+  int64_t              window_end;
+  int32_t              window_len;
+  int64_t              tmp;
+  int                  new_hit_cnt = 0;
+
+  if (windowlist->count == 0)
+    return eslOK;
+
+  /* extend windows */
+  for (i=0; i<windowlist->count; i++) {
+
+    curr_window = windowlist->windows+i;
+
+    if ( curr_window->complementarity == p7_COMPLEMENT) {
+      //flip for complement (then flip back), so the min and max bounds allow for appropriate overlap into neighboring segments in a multi-segment FM sequence
+      curr_window->n = curr_window->target_len - curr_window->n +  1;
+
+      window_start   = ESL_MAX( 1                      ,  curr_window->n - curr_window->length - (om->max_length * (0.1 + data->suffix_lengths[curr_window->k] ) ) ) ;
+      window_end     = ESL_MIN( curr_window->target_len,  curr_window->n                       + (om->max_length * (0.1 + data->prefix_lengths[curr_window->k - curr_window->length + 1]  )) )   ;
+      tmp            = window_end;
+      window_end     = curr_window->target_len - window_start; // +  1;
+      window_start   = curr_window->target_len - tmp ; //+  1;
+
+      curr_window->n = curr_window->target_len - curr_window->n +  1;
+
+    } else {
+
+      // the 0.1 multiplier provides for a small buffer in excess of the predefined prefix/suffix lengths - one proportional to max_length
+      window_start = ESL_MAX( 1                      ,  curr_window->n -                       (om->max_length * (0.1 + data->prefix_lengths[curr_window->k - curr_window->length + 1]  )) ) ;
+      window_end   = ESL_MIN( curr_window->target_len,  curr_window->n + curr_window->length + (om->max_length * (0.1 + data->suffix_lengths[curr_window->k] ) ) )   ;
+    }
+
+    curr_window->length = window_end - window_start + 1;
+
+    curr_window->fm_n -= (curr_window->n - window_start);
+    curr_window->n = window_start;
+  }
+
+
+  /* merge overlapping windows, compressing list in place. */
+  for (i=1; i<windowlist->count; i++) {
+    prev_window = windowlist->windows+new_hit_cnt;
+    curr_window = windowlist->windows+i;
+
+    window_start = ESL_MAX(prev_window->n, curr_window->n);
+    window_end   = ESL_MIN(prev_window->n+prev_window->length-1, curr_window->n+curr_window->length-1);
+    window_len   = window_end - window_start + 1;
+
+    if (  prev_window->complementarity == curr_window->complementarity &&
+          prev_window->id == curr_window->id &&
+          (float)(window_len)/ESL_MIN(prev_window->length, curr_window->length) > pct_overlap // &&
+          //curr_window->n + curr_window->length >=  prev_window->n + prev_window->length
+          )
+    {
+      //merge windows
+      window_start        = ESL_MIN(prev_window->n, curr_window->n);
+      window_end          = ESL_MAX(prev_window->n+prev_window->length-1, curr_window->n+curr_window->length-1);
+      prev_window->fm_n  -= (prev_window->n - window_start);
+      prev_window->n      = window_start;
+      prev_window->length = window_end - window_start + 1;
+    } else {
+      new_hit_cnt++;
+      windowlist->windows[new_hit_cnt] = windowlist->windows[i];
+    }
+  }
+  windowlist->count = new_hit_cnt+1;
+
+  return eslOK;
+}
+
+/* Function:  p7_pli_TargetReportable
+ * Synopsis:  Returns TRUE if target score meets reporting threshold.
+ *
+ * Purpose:   Returns <TRUE> if the bit score <score> and/or 
+ *            log P-value <lnP> meet per-target reporting thresholds 
+ *            for the processing pipeline.
+ */
+int
+p7_pli_TargetReportable(P7_PIPELINE *pli, float score, double lnP)
+{
+  if      (  pli->by_E )
+    {
+      if ( !pli->long_targets  && exp(lnP) * pli->Z <= pli->E) return TRUE;
+      if (  pli->long_targets  && exp(lnP) <= pli->E)          return TRUE; // database size is already built into the Pval if pli->targetlength == p7_TARGET_LONG
+    }
+  else if (! pli->by_E   && score         >= pli->T) return TRUE;
+
+  return FALSE;
+}
+
+/* Function:  p7_pli_DomainReportable
+ * Synopsis:  Returns TRUE if domain score meets reporting threshold. 
+ *
+ * Purpose:   Returns <TRUE> if the bit score <score> and/or 
+ *            log P-value <lnP> meet per-domain reporting thresholds 
+ *            for the processing pipeline.
+ */
+int
+p7_pli_DomainReportable(P7_PIPELINE *pli, float dom_score, double lnP)
+{
+  if      (  pli->dom_by_E )
+    {
+      if ( !pli->long_targets  &&  exp(lnP) * pli->domZ <= pli->domE) return TRUE;
+      if (  pli->long_targets  &&  exp(lnP) <= pli->domE) return TRUE;
+    }
+  else if (! pli->dom_by_E   && dom_score        >= pli->domT) return TRUE;
+  return FALSE;
+}
+
+/* Function:  p7_pli_TargetIncludable()
+ * Synopsis:  Returns TRUE if target score meets inclusion threshold.
+ */
+int
+p7_pli_TargetIncludable(P7_PIPELINE *pli, float score, double lnP)
+{
+  if      (  pli->inc_by_E )
+    {
+      if ( !pli->long_targets && exp(lnP) * pli->Z <= pli->incE) return TRUE;
+      if (  pli->long_targets && exp(lnP) <= pli->incE) return TRUE;
+    }
+
+  else if (! pli->inc_by_E   && score         >= pli->incT) return TRUE;
+
+  return FALSE;
+}
+
+/* Function:  p7_pli_DomainIncludable()
+ * Synopsis:  Returns TRUE if domain score meets inclusion threshold.
+ */
+int
+p7_pli_DomainIncludable(P7_PIPELINE *pli, float dom_score, double lnP)
+{
+  if      (  pli->incdom_by_E   && exp(lnP) * pli->domZ <= pli->incdomE) return TRUE;
+  else if (! pli->incdom_by_E   && dom_score        >= pli->incdomT) return TRUE;
+  else return FALSE;
+}
+
+
+
+
+/* Function:  p7_pli_NewModel()
+ * Synopsis:  Prepare pipeline for a new model (target or query)
+ *
+ * Purpose:   Caller has a new model <om>. Prepare the pipeline <pli>
+ *            to receive this model as either a query or a target.
+ *
+ *            If the "experimental" bias filter HMM is in use, this
+ *            call resets it to use the new model's composition. This
+ *            overwrites the bias filter HMM's expected length! You
+ *            need to call <p7_bg_SetLength()> after a <NewModel()> call.
+ *            (Failure to do this is bug #h85, 14 Dec 10.)
+ *
+ *            The pipeline may alter the null model <bg> in a model-specific
+ *            way (if we're using a composition bias filter HMM in the
+ *            pipeline).
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslEINVAL> if pipeline expects to be able to use a
+ *            model's bit score thresholds, but this model does not
+ *            have the appropriate ones set.
+ */
+int
+p7_pli_NewModel(P7_PIPELINE *pli, const P7_OPROFILE *om, P7_BG *bg)
+{
+  int status = eslOK;
+
+  pli->nmodels++;
+  pli->nnodes += om->M;
+  if (pli->Z_setby == p7_ZSETBY_NTARGETS && pli->mode == p7_SCAN_MODELS) pli->Z = pli->nmodels;
+
+  if (pli->do_biasfilter) p7_bg_SetFilter(bg, om->M, om->compo);
+
+  if (pli->mode == p7_SEARCH_SEQS) 
+    status = p7_pli_NewModelThresholds(pli, om);
+
+  pli->W = om->max_length;
+
+  return status;
+}
+
+/* Function:  p7_pli_NewModelThresholds()
+ * Synopsis:  Set reporting and inclusion bit score thresholds on a new model.
+ *
+ * Purpose:   Set the bit score thresholds on a new model, if we're 
+ *            using Pfam GA, TC, or NC cutoffs for reporting or
+ *            inclusion.
+ *            
+ *            In a "search" pipeline, this only needs to be done once
+ *            per query model, so <p7_pli_NewModelThresholds()> gets 
+ *            called by <p7_pli_NewModel()>.
+ *            
+ *            In a "scan" pipeline, this needs to be called for each
+ *            model, and it needs to be called after
+ *            <p7_oprofile_ReadRest()>, because that's when the bit
+ *            score thresholds get read.
+ *
+ * Returns:   <eslOK> on success. 
+ *            
+ *            <eslEINVAL> if pipeline expects to be able to use a
+ *            model's bit score thresholds, but this model does not
+ *            have the appropriate ones set.
+ *
+ * Xref:      Written to fix bug #h60.
+ */
+int
+p7_pli_NewModelThresholds(P7_PIPELINE *pli, const P7_OPROFILE *om)
+{
+
+  if (pli->use_bit_cutoffs)
+    {
+      if (pli->use_bit_cutoffs == p7H_GA)
+    {
+      if (om->cutoff[p7_GA1] == p7_CUTOFF_UNSET) ESL_FAIL(eslEINVAL, pli->errbuf, "GA bit thresholds unavailable on model %s\n", om->name);
+      pli->T    = pli->incT    = om->cutoff[p7_GA1];
+      pli->domT = pli->incdomT = om->cutoff[p7_GA2];
+    }
+      else if  (pli->use_bit_cutoffs == p7H_TC)
+    {
+      if (om->cutoff[p7_TC1] == p7_CUTOFF_UNSET) ESL_FAIL(eslEINVAL, pli->errbuf, "TC bit thresholds unavailable on model %s\n", om->name);
+      pli->T    = pli->incT    = om->cutoff[p7_TC1];
+      pli->domT = pli->incdomT = om->cutoff[p7_TC2];
+    }
+      else if (pli->use_bit_cutoffs == p7H_NC)
+    {
+      if (om->cutoff[p7_NC1] == p7_CUTOFF_UNSET) ESL_FAIL(eslEINVAL, pli->errbuf, "NC bit thresholds unavailable on model %s\n", om->name);
+      pli->T    = pli->incT    = om->cutoff[p7_NC1];
+      pli->domT = pli->incdomT = om->cutoff[p7_NC2];
+    }
+    }
+
+  return eslOK;
+}
+
+
+/* Function:  p7_pli_NewSeq()
+ * Synopsis:  Prepare pipeline for a new sequence (target or query)
+ *
+ * Purpose:   Caller has a new sequence <sq>. Prepare the pipeline <pli>
+ *            to receive this model as either a query or a target.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_pli_NewSeq(P7_PIPELINE *pli, const ESL_SQ *sq)
+{
+  if (!pli->long_targets) pli->nseqs++; // if long_targets, sequence counting happens in the serial loop, which can track multiple windows for a single long sequence
+  pli->nres += sq->n;
+  if (pli->Z_setby == p7_ZSETBY_NTARGETS && pli->mode == p7_SEARCH_SEQS) pli->Z = pli->nseqs;
+  return eslOK;
+}
+
+/* Function:  p7_pipeline_Merge()
+ * Synopsis:  Merge the pipeline statistics
+ *
+ * Purpose:   Caller has a new model <om>. Prepare the pipeline <pli>
+ *            to receive this model as either a query or a target.
+ *
+ *            The pipeline may alter the null model <bg> in a model-specific
+ *            way (if we're using a composition bias filter HMM in the
+ *            pipeline).
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ *            <eslEINVAL> if pipeline expects to be able to use a
+ *            model's bit score thresholds, but this model does not
+ *            have the appropriate ones set.
+ */
+int
+p7_pipeline_Merge(P7_PIPELINE *p1, P7_PIPELINE *p2)
+{
+  /* if we are searching a sequence database, we need to keep track of the
+   * number of sequences and residues processed.
+   */
+  if (p1->mode == p7_SEARCH_SEQS)
+    {
+      p1->nseqs   += p2->nseqs;
+      p1->nres    += p2->nres;
+    }
+  else
+    {
+      p1->nmodels += p2->nmodels;
+      p1->nnodes  += p2->nnodes;
+    }
+
+  p1->n_past_msv  += p2->n_past_msv;
+  p1->n_past_bias += p2->n_past_bias;
+  p1->n_past_vit  += p2->n_past_vit;
+  p1->n_past_fwd  += p2->n_past_fwd;
+  p1->n_output    += p2->n_output;
+
+  p1->pos_past_msv  += p2->pos_past_msv;
+  p1->pos_past_bias += p2->pos_past_bias;
+  p1->pos_past_vit  += p2->pos_past_vit;
+  p1->pos_past_fwd  += p2->pos_past_fwd;
+  p1->pos_output    += p2->pos_output;
+
+  if (p1->Z_setby == p7_ZSETBY_NTARGETS)
+    {
+      p1->Z += (p1->mode == p7_SCAN_MODELS) ? p2->nmodels : p2->nseqs;
+    }
+  else
+    {
+      p1->Z = p2->Z;
+    }
+
+  return eslOK;
+}
+
+/* Function:  p7_Pipeline()
+ * Synopsis:  HMMER3's accelerated seq/profile comparison pipeline.
+ *
+ * Purpose:   Run H3's accelerated pipeline to compare profile <om>
+ *            against sequence <sq>. If a significant hit is found,
+ *            information about it is added to the <hitlist>. The pipeline 
+ *            accumulates beancounting information about how many comparisons
+ *            flow through the pipeline while it's active.
+ *            
+ * Returns:   <eslOK> on success. If a significant hit is obtained,
+ *            its information is added to the growing <hitlist>. 
+ *            
+ *            <eslEINVAL> if (in a scan pipeline) we're supposed to
+ *            set GA/TC/NC bit score thresholds but the model doesn't
+ *            have any.
+ *            
+ *            <eslERANGE> on numerical overflow errors in the
+ *            optimized vector implementations; particularly in
+ *            posterior decoding. I don't believe this is possible for
+ *            multihit local models, but I'm set up to catch it
+ *            anyway. We may emit a warning to the user, but cleanly
+ *            skip the problematic sequence and continue.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ * Xref:      J4/25.
+ */
+int
+p7_Pipeline(P7_PIPELINE *pli, P7_OPROFILE *om, P7_BG *bg, const ESL_SQ *sq, P7_TOPHITS *hitlist)
+{
+  P7_HIT          *hit     = NULL;     /* ptr to the current hit output data      */
+  float            usc, vfsc, fwdsc;   /* filter scores                           */
+  float            filtersc;           /* HMM null filter score                   */
+  float            nullsc;             /* null model score                        */
+  float            seqbias;  
+  float            seq_score;          /* the corrected per-seq bit score */
+  float            sum_score;           /* the corrected reconstruction score for the seq */
+  float            pre_score, pre2_score; /* uncorrected bit scores for seq */
+  double           P;                /* P-value of a hit */
+  double           lnP;              /* log P-value of a hit */
+  int              Ld;               /* # of residues in envelopes */
+  int              d;
+  int              status;
+  
+  if (sq->n == 0) return eslOK;    /* silently skip length 0 seqs; they'd cause us all sorts of weird problems */
+
+  p7_omx_GrowTo(pli->oxf, om->M, 0, sq->n);    /* expand the one-row omx if needed */
+
+  /* Base null model score (we could calculate this in NewSeq(), for a scan pipeline) */
+  p7_bg_NullOne  (bg, sq->dsq, sq->n, &nullsc);
+
+  /* First level filter: the MSV filter, multihit with <om> */
+  p7_MSVFilter(sq->dsq, sq->n, om, pli->oxf, &usc);
+  seq_score = (usc - nullsc) / eslCONST_LOG2;
+  P = esl_gumbel_surv(seq_score,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+  if (P > pli->F1) return eslOK;
+  pli->n_past_msv++;
+
+  /* biased composition HMM filtering */
+  if (pli->do_biasfilter)
+    {
+      p7_bg_FilterScore(bg, sq->dsq, sq->n, &filtersc);
+      seq_score = (usc - filtersc) / eslCONST_LOG2;
+      P = esl_gumbel_surv(seq_score,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+      if (P > pli->F1) return eslOK;
+    }
+  else filtersc = nullsc;
+  pli->n_past_bias++;
+
+  /* In scan mode, if it passes the MSV filter, read the rest of the profile */
+  if (pli->mode == p7_SCAN_MODELS)
+    {
+      if (pli->hfp) p7_oprofile_ReadRest(pli->hfp, om);
+      p7_oprofile_ReconfigRestLength(om, sq->n);
+      if ((status = p7_pli_NewModelThresholds(pli, om)) != eslOK) return status; /* pli->errbuf has err msg set */
+    }
+
+  /* Second level filter: ViterbiFilter(), multihit with <om> */
+  if (P > pli->F2)
+    {
+      p7_ViterbiFilter(sq->dsq, sq->n, om, pli->oxf, &vfsc);  
+      seq_score = (vfsc-filtersc) / eslCONST_LOG2;
+      P  = esl_gumbel_surv(seq_score,  om->evparam[p7_VMU],  om->evparam[p7_VLAMBDA]);
+      if (P > pli->F2) return eslOK;
+    }
+  pli->n_past_vit++;
+
+
+  /* Parse it with Forward and obtain its real Forward score. */
+  p7_ForwardParser(sq->dsq, sq->n, om, pli->oxf, &fwdsc);
+  seq_score = (fwdsc-filtersc) / eslCONST_LOG2;
+  P = esl_exp_surv(seq_score,  om->evparam[p7_FTAU],  om->evparam[p7_FLAMBDA]);
+  if (P > pli->F3) return eslOK;
+  pli->n_past_fwd++;
+
+  /* ok, it's for real. Now a Backwards parser pass, and hand it to domain definition workflow */
+  p7_omx_GrowTo(pli->oxb, om->M, 0, sq->n);
+  p7_BackwardParser(sq->dsq, sq->n, om, pli->oxf, pli->oxb, NULL);
+
+  status = p7_domaindef_ByPosteriorHeuristics(sq, om, pli->oxf, pli->oxb, pli->fwd, pli->bck, pli->ddef, bg, FALSE, NULL, NULL, NULL);
+  if (status != eslOK) ESL_FAIL(status, pli->errbuf, "domain definition workflow failure"); /* eslERANGE can happen */
+  if (pli->ddef->nregions   == 0) return eslOK; /* score passed threshold but there's no discrete domains here       */
+  if (pli->ddef->nenvelopes == 0) return eslOK; /* rarer: region was found, stochastic clustered, no envelopes found */
+
+
+  /* Calculate the null2-corrected per-seq score */
+  if (pli->do_null2)
+    {
+      seqbias = esl_vec_FSum(pli->ddef->n2sc, sq->n+1);
+      seqbias = p7_FLogsum(0.0, log(bg->omega) + seqbias);
+    }
+  else seqbias = 0.0;
+  pre_score =  (fwdsc - nullsc) / eslCONST_LOG2; 
+  seq_score =  (fwdsc - (nullsc + seqbias)) / eslCONST_LOG2;
+
+  
+  /* Calculate the "reconstruction score": estimated
+   * per-sequence score as sum of individual domains,
+   * discounting domains that aren't significant after they're
+   * null-corrected.
+   */
+  sum_score = 0.0f;
+  seqbias   = 0.0f;
+  Ld        = 0;
+  if (pli->do_null2) 
+    {
+      for (d = 0; d < pli->ddef->ndom; d++) 
+	{
+	  if (pli->ddef->dcl[d].envsc - pli->ddef->dcl[d].domcorrection > 0.0)
+	    {
+	      sum_score += pli->ddef->dcl[d].envsc;         /* NATS */
+	      Ld        += pli->ddef->dcl[d].jenv  - pli->ddef->dcl[d].ienv + 1;
+	      seqbias   += pli->ddef->dcl[d].domcorrection; /* NATS */
+	    }
+	}
+      seqbias = p7_FLogsum(0.0, log(bg->omega) + seqbias);  /* NATS */
+    }
+  else 
+    {
+      for (d = 0; d < pli->ddef->ndom; d++) 
+	{
+	  if (pli->ddef->dcl[d].envsc > 0.0)
+	    {
+	      sum_score += pli->ddef->dcl[d].envsc;      /* NATS */
+	      Ld        += pli->ddef->dcl[d].jenv  - pli->ddef->dcl[d].ienv + 1;
+	    }
+	}
+      seqbias = 0.0;
+    }    
+  sum_score += (sq->n-Ld) * log((float) sq->n / (float) (sq->n+3)); /* NATS */
+  pre2_score = (sum_score - nullsc) / eslCONST_LOG2;                /* BITS */
+  sum_score  = (sum_score - (nullsc + seqbias)) / eslCONST_LOG2;    /* BITS */
+
+  /* A special case: let sum_score override the seq_score when it's better, and it includes at least 1 domain */
+  if (Ld > 0 && sum_score > seq_score)
+    {
+      seq_score = sum_score;
+      pre_score = pre2_score;
+    }
+
+  /* Apply thresholding and determine whether to put this
+   * target into the hit list. E-value thresholding may
+   * only be a lower bound for now, so this list may be longer
+   * than eventually reported.
+   */
+  lnP =  esl_exp_logsurv (seq_score,  om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
+  if (p7_pli_TargetReportable(pli, seq_score, lnP))
+    {
+      p7_tophits_CreateNextHit(hitlist, &hit);
+      if (pli->mode == p7_SEARCH_SEQS) {
+        if (                       (status  = esl_strdup(sq->name, -1, &(hit->name)))  != eslOK) ESL_EXCEPTION(eslEMEM, "allocation failure");
+        if (sq->acc[0]  != '\0' && (status  = esl_strdup(sq->acc,  -1, &(hit->acc)))   != eslOK) ESL_EXCEPTION(eslEMEM, "allocation failure");
+        if (sq->desc[0] != '\0' && (status  = esl_strdup(sq->desc, -1, &(hit->desc)))  != eslOK) ESL_EXCEPTION(eslEMEM, "allocation failure");
+      } else {
+        if ((status  = esl_strdup(om->name, -1, &(hit->name)))  != eslOK) esl_fatal("allocation failure");
+        if ((status  = esl_strdup(om->acc,  -1, &(hit->acc)))   != eslOK) esl_fatal("allocation failure");
+        if ((status  = esl_strdup(om->desc, -1, &(hit->desc)))  != eslOK) esl_fatal("allocation failure");
+      } 
+      hit->ndom       = pli->ddef->ndom;
+      hit->nexpected  = pli->ddef->nexpected;
+      hit->nregions   = pli->ddef->nregions;
+      hit->nclustered = pli->ddef->nclustered;
+      hit->noverlaps  = pli->ddef->noverlaps;
+      hit->nenvelopes = pli->ddef->nenvelopes;
+
+      hit->pre_score  = pre_score; /* BITS */
+      hit->pre_lnP    = esl_exp_logsurv (hit->pre_score,  om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
+
+      hit->score      = seq_score; /* BITS */
+      hit->lnP        = lnP;
+      hit->sortkey    = pli->inc_by_E ? -lnP : seq_score; /* per-seq output sorts on bit score if inclusion is by score  */
+
+      hit->sum_score  = sum_score; /* BITS */
+      hit->sum_lnP    = esl_exp_logsurv (hit->sum_score,  om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
+
+      /* Transfer all domain coordinates (unthresholded for
+       * now) with their alignment displays to the hit list,
+       * associated with the sequence. Domain reporting will
+       * be thresholded after complete hit list is collected,
+       * because we probably need to know # of significant
+       * hits found to set domZ, and thence threshold and
+       * count reported domains.
+       */
+      hit->dcl         = pli->ddef->dcl;
+      pli->ddef->dcl   = NULL;
+      hit->best_domain = 0;
+      for (d = 0; d < hit->ndom; d++)
+      {
+        Ld = hit->dcl[d].jenv - hit->dcl[d].ienv + 1;
+        hit->dcl[d].bitscore = hit->dcl[d].envsc + (sq->n-Ld) * log((float) sq->n / (float) (sq->n+3)); /* NATS, for the moment... */
+        hit->dcl[d].dombias  = (pli->do_null2 ? p7_FLogsum(0.0, log(bg->omega) + hit->dcl[d].domcorrection) : 0.0); /* NATS, and will stay so */
+        hit->dcl[d].bitscore = (hit->dcl[d].bitscore - (nullsc + hit->dcl[d].dombias)) / eslCONST_LOG2; /* now BITS, as it should be */
+        hit->dcl[d].lnP      = esl_exp_logsurv (hit->dcl[d].bitscore,  om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
+
+        if (hit->dcl[d].bitscore > hit->dcl[hit->best_domain].bitscore) hit->best_domain = d;
+      }
+
+      /* If we're using model-specific bit score thresholds (GA | TC |
+       * NC) and we're in an hmmscan pipeline (mode = p7_SCAN_MODELS),
+       * then we *must* apply those reporting or inclusion thresholds
+       * now, because this model is about to go away; we won't have
+       * its thresholds after all targets have been processed.
+       * 
+       * If we're using E-value thresholds and we don't know the
+       * search space size (Z_setby or domZ_setby =
+       * p7_ZSETBY_NTARGETS), we *cannot* apply those thresholds now,
+       * and we *must* wait until all targets have been processed
+       * (see p7_tophits_Threshold()).
+       * 
+       * For any other thresholding, it doesn't matter whether we do
+       * it here (model-specifically) or at the end (in
+       * p7_tophits_Threshold()). 
+       * 
+       * What we actually do, then, is to set the flags if we're using
+       * model-specific score thresholds (regardless of whether we're
+       * in a scan or a search pipeline); otherwise we leave it to 
+       * p7_tophits_Threshold(). p7_tophits_Threshold() is always
+       * responsible for *counting* the reported, included sequences.
+       * 
+       * [xref J5/92]
+       */
+      if (pli->use_bit_cutoffs)
+      {
+        if (p7_pli_TargetReportable(pli, hit->score, hit->lnP))
+        {
+          hit->flags |= p7_IS_REPORTED;
+          if (p7_pli_TargetIncludable(pli, hit->score, hit->lnP))
+            hit->flags |= p7_IS_INCLUDED;
+        }
+
+        for (d = 0; d < hit->ndom; d++)
+        {
+          if (p7_pli_DomainReportable(pli, hit->dcl[d].bitscore, hit->dcl[d].lnP))
+          {
+            hit->dcl[d].is_reported = TRUE;
+            if (p7_pli_DomainIncludable(pli, hit->dcl[d].bitscore, hit->dcl[d].lnP))
+              hit->dcl[d].is_included = TRUE;
+          }
+        }
+      }
+    }
+
+  return eslOK;
+}
+
+
+
+/* Function:  p7_pli_computeAliScores()
+ * Synopsis:  Compute per-position scores for the alignment for a domain
+ *
+ * Purpose:   Compute per-position (Viterbi) scores for the alignment for a domain,
+ *            for the purpose of optionally printing these scores out in association
+ *            with each alignment. Such scores can, for example, be used to detangle
+ *            overlapping alignments (from different models)
+ *
+ * Args:      dom             - domain with the alignment for which we wish to compute scores
+ *            seq             - sequence in which domain resides
+ *            data            - contains model's emission and transition values in unstriped form
+ *            K               - alphabet size
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+static int
+p7_pli_computeAliScores(P7_DOMAIN *dom, ESL_DSQ *seq, const P7_SCOREDATA *data, int K)
+{
+  int status;
+  int i, j, k;
+  float sc;
+
+  //Compute score contribution of each position in the alignment to the overall Viterbi score
+  ESL_ALLOC( dom->scores_per_pos, sizeof(float) * dom->ad->N );
+  for (i=0; i<dom->ad->N; i++)  dom->scores_per_pos[i] = 0.0;
+
+  i = dom->iali - 1;        //sequence position
+  j = dom->ad->hmmfrom - 1; //model position
+  k = 0;
+  while ( k<dom->ad->N) {
+    if (dom->ad->model[k] != '.' && dom->ad->aseq[k] != '-') { //match
+      i++;  j++;
+      // Including the MM cost is a hack. The cost of getting to/from this match
+      // state does matter, but an IM or DM transition would improperly deflate
+      // the score of this column, so just give MM. That amount is offset out of
+      // the score shown for preceding indels
+      dom->scores_per_pos[k] = data->fwd_scores[K * j + seq[i]]
+                             +  (j==1 ? 0 : log(data->fwd_transitions[p7O_MM][j]) );
+      k++;
+    } else if (dom->ad->model[k] == '.' ) { // insert
+      //spin through the insert, accumulating cost;  only assign to final column in gap
+      dom->scores_per_pos[k] = -eslINFINITY;
+
+      sc = log(data->fwd_transitions[p7O_MI][j]);
+      i++; k++;
+      while (k<dom->ad->N && dom->ad->model[k] == '.') { //extend insert
+        dom->scores_per_pos[k] = -eslINFINITY;
+        sc += log(data->fwd_transitions[p7O_II][j]);
+        i++; k++;
+      }
+      sc += log(data->fwd_transitions[p7O_IM][j+1]) - log(data->fwd_transitions[p7O_MM][j+1]);
+      dom->scores_per_pos[k-1] = sc;
+
+    } else if (dom->ad->aseq[k] == '-' ) { // delete
+      dom->scores_per_pos[k] = -eslINFINITY;
+      sc = log(data->fwd_transitions[p7O_MD][j]);
+      j++; k++;
+      while (k<dom->ad->N && dom->ad->aseq[k] == '-')  { //extend delete
+        dom->scores_per_pos[k] = -eslINFINITY;
+        sc += log(data->fwd_transitions[p7O_DD][j]);
+        j++; k++;
+      }
+      sc += log(data->fwd_transitions[p7O_DM][j+1]) - log(data->fwd_transitions[p7O_MM][j+1]);
+      dom->scores_per_pos[k-1] = sc;
+    }
+  }
+
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+
+}
+
+
+/* Function:  p7_pli_postViterbi_LongTarget()
+ * Synopsis:  the part of the LongTarget P7 search Pipeline downstream
+ *            of the Viterbi filter
+ *
+ * Purpose:   This is called by postMSV_LongTarget(), and runs the
+ *            post-Viterbi part of HMMER's accelerated pipeline to
+ *            compare profile <om> against sequence <sq>. If a
+ *            significant hit is found, information about it is
+ *            added to the <hitlist>.
+ *            The pipeline accumulates beancounting information
+ *            about how many comparisons (and residues) flow through
+ *            the pipeline while it's active.
+ *
+ * Args:      pli             - the main pipeline object
+ *            om              - optimized profile (query)
+ *            bg              - background model
+ *            hitlist         - pointer to hit storage bin
+ *            data            - for computing windows based on maximum prefix/suffix extensions
+ *            seqidx          - the id # of the sequence from which the current window was extracted
+ *            window_start    - the starting position of the extracted window (offset from the first
+ *                              position of the block of a possibly longer sequence)
+ *            window_len      - the length of the extracted window
+ *            subseq          - digital sequence of the extracted window
+ *            seq_start       - first position of the sequence block passed in to the calling pipeline function
+ *            seq_name        - name of the sequence the window comes from
+ *            seq_source      - source of the sequence the window comes from
+ *            seq_acc         - acc of the sequence the window comes from
+ *            seq_desc        - desc of the sequence the window comes from
+ *            seq_len         - length of the sequence the window comes from (Available from FM; otherwise 0 and to be ignored)
+ *            complementarity - boolean; is the passed window sourced from a complementary sequence block
+ *            overlap         - number of residues in this sequence window that overlap a preceding window.
+ *            pli_tmp         - a collection of objects used in the long target pipeline that should be
+ *                              (and are) only allocated once per pipeline to minimize alloc overhead.
+
+ * Returns:   <eslOK> on success. If a significant hit is obtained,
+ *            its information is added to the growing <hitlist>.
+ *
+ *            <eslERANGE> on numerical overflow errors in the
+ *            optimized vector implementations; particularly in
+ *            posterior decoding. I don't believe this is possible for
+ *            multihit local models, but I'm set up to catch it
+ *            anyway. We may emit a warning to the user, but cleanly
+ *            skip the problematic sequence and continue.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ */
+static int
+p7_pli_postViterbi_LongTarget(P7_PIPELINE *pli, P7_OPROFILE *om, P7_BG *bg, P7_TOPHITS *hitlist, const P7_SCOREDATA *data,
+    int64_t seqidx, int window_start, int window_len, ESL_DSQ *subseq,
+    int seq_start, char *seq_name, char *seq_source, char* seq_acc, char* seq_desc, int seq_len,
+    int complementarity, int *overlap, P7_PIPELINE_LONGTARGET_OBJS *pli_tmp
+)
+{
+  P7_DOMAIN        *dom     = NULL;     /* convenience variable, ptr to current domain */
+  P7_HIT           *hit     = NULL;     /* ptr to the current hit output data      */
+  float            fwdsc;   /* filter scores                           */
+  float            nullsc;
+  float            filtersc;           /* HMM null filter score                   */
+  float            bias_filtersc;           /* HMM null filter score                   */
+  float            seq_score;          /* the corrected per-seq bit score */
+  double           P;               /* P-value of a hit */
+  int              d;
+  int              status;
+//  int              nres;
+  ESL_DSQ          *dsq_holder;
+
+  int env_len;
+  int ali_len;
+  float bitscore;
+  float dom_bias;
+  float dom_score;
+  double dom_lnP;
+
+  int F3_L = ESL_MIN( window_len,  pli->B3);
+
+  p7_bg_SetLength(bg, window_len);
+  p7_bg_NullOne  (bg, subseq, window_len, &nullsc);
+  if (pli->do_biasfilter)
+  {
+    p7_bg_FilterScore(bg, subseq, window_len, &bias_filtersc);
+    bias_filtersc -= nullsc;  //remove nullsc, so bias scaling can be done, then add it back on later
+  } else {
+    bias_filtersc = 0;
+  }
+
+  p7_oprofile_ReconfigRestLength(om, window_len);
+
+  /* Parse with Forward and obtain its real Forward score. */
+  p7_ForwardParser(subseq, window_len, om, pli->oxf, &fwdsc);
+  filtersc =  nullsc + (bias_filtersc * ( F3_L>window_len ? 1.0 : (float)F3_L/window_len) );
+  seq_score = (fwdsc - filtersc) / eslCONST_LOG2;
+  P = esl_exp_surv(seq_score,  om->evparam[p7_FTAU],  om->evparam[p7_FLAMBDA]);
+  if (P > pli->F3 ) return eslOK;
+
+  pli->pos_past_fwd += window_len - *overlap;
+
+  *overlap = -1; // overload variable to tell calling function that this window passed fwd
+
+  /*now that almost everything has been filtered away, set up seq object for domaindef function*/
+  if ((status = esl_sq_SetName     (pli_tmp->tmpseq, seq_name))   != eslOK) goto ERROR;
+  if ((status = esl_sq_SetSource   (pli_tmp->tmpseq, seq_source)) != eslOK) goto ERROR;
+  if ((status = esl_sq_SetAccession(pli_tmp->tmpseq, seq_acc))    != eslOK) goto ERROR;
+  if ((status = esl_sq_SetDesc     (pli_tmp->tmpseq, seq_desc))   != eslOK) goto ERROR;
+  pli_tmp->tmpseq->L = seq_len;
+  pli_tmp->tmpseq->n = window_len;
+  dsq_holder = pli_tmp->tmpseq->dsq; // will point back to the original at the end
+  pli_tmp->tmpseq->dsq = subseq;
+
+  /* Now a Backwards parser pass, and hand it to domain definition workflow
+   * In this case "domains" will end up being translated as independent "hits" */
+  p7_omx_GrowTo(pli->oxb, om->M, 0, window_len);
+  p7_BackwardParser(subseq, window_len, om, pli->oxf, pli->oxb, NULL);
+
+  //if we're asked to not do null correction, pass a NULL instead of a temp scores variable - domaindef knows what to do
+  status = p7_domaindef_ByPosteriorHeuristics(pli_tmp->tmpseq, om, pli->oxf, pli->oxb, pli->fwd, pli->bck, pli->ddef, bg, TRUE,
+                                              pli_tmp->bg, (pli->do_null2?pli_tmp->scores:NULL), pli_tmp->fwd_emissions_arr);
+
+  pli_tmp->tmpseq->dsq = dsq_holder;
+  if (status != eslOK) ESL_FAIL(status, pli->errbuf, "domain definition workflow failure"); /* eslERANGE can happen */
+  if (pli->ddef->nregions   == 0)  return eslOK; /* score passed threshold but there's no discrete domains here       */
+  if (pli->ddef->nenvelopes == 0)  return eslOK; /* rarer: region was found, stochastic clustered, no envelopes found */
+
+
+  /* Put these hits ("domains") into the hit list.
+   *
+   * Modified original pipeline to create a single hit for each
+   * domain, so the remainder of the typical-case hit-merging
+   * process can remain mostly intact.
+   *
+   * Some of them may not pass eventual E-value thresholds. In
+   * protein context, these would be reported as supplementary
+   * data (domains contributing to a full-sequence score), but
+   * in nhmmer context, they'll just get thrown away later, so
+   * drop them now, if possible.
+   */
+  for (d = 0; d < pli->ddef->ndom; d++)
+  {
+
+      dom = pli->ddef->dcl + d;
+
+      //adjust the score of a hit to account for the full length model - the characters outside the envelope but in the window
+      env_len = dom->jenv - dom->ienv + 1;
+      ali_len = dom->jali - dom->iali + 1;
+      bitscore = dom->envsc ;
+
+
+      if (ali_len < 8) {
+        p7_alidisplay_Destroy(dom->ad);
+        continue; // anything less than this is a funny byproduct of the Forward score passing a very low threshold, but no reliable alignment existing that supports it
+      }
+
+     /* note: this bitscore was computed under a model with length of
+      * env_len (jenv-ienv+1). Here, the score is modified (reduced) by
+      * treating the hit as though it came from a window of length
+      * om->max_length. To do this:
+      */
+
+      // (1) the entrance/exit costs are shifted from env_len to max_length:
+      bitscore -= 2 * log(2. / (env_len+2)) ;
+      bitscore += 2 * log(2. / (om->max_length+2)) ;
+
+      // (2) the extension cost for going from ali bounds to env bounds is removed,
+      // and replaced with the cost of going from ali bounds to max length (or env
+      // bounds in the extremely rare case that the env_len is actually larger than om->max_length).
+      bitscore -=  (env_len-ali_len)                            * log((float)env_len / (env_len+2));
+      bitscore +=  (ESL_MAX(om->max_length, env_len) - ali_len) * log((float)om->max_length / (float) (om->max_length+2));
+
+      /* Compute scores used to decide if we should keep this "domain" as a hit.
+       * Note that the bias correction was captured in dom->domcorrection during
+       * the p7_domaindef_ByPosteriorHeuristics() call.
+       */
+      dom_bias   = dom->domcorrection;
+      p7_bg_SetLength(bg, ESL_MAX(om->max_length, env_len));
+      p7_bg_NullOne  (bg, subseq, ESL_MAX(om->max_length, env_len), &nullsc);
+      dom_score  = (bitscore - (nullsc))  / eslCONST_LOG2;
+      dom_lnP   = esl_exp_logsurv(dom_score, om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
+
+      if (pli->do_alignment_score_calc)
+        p7_pli_computeAliScores(dom, subseq, data, om->abc->Kp);
+
+      p7_tophits_CreateNextHit(hitlist, &hit);
+
+      hit->ndom        = 1;
+      hit->best_domain = 0;
+
+      hit->window_length = om->max_length;
+      hit->seqidx = seqidx;
+      hit->subseq_start = seq_start;
+
+      ESL_ALLOC(hit->dcl, sizeof(P7_DOMAIN) );
+      hit->dcl[0] = pli->ddef->dcl[d];
+
+      hit->dcl[0].ad->L = seq_len;
+
+
+      // compute the real positions within the sequence handed to the pipeline
+      if (complementarity == p7_NOCOMPLEMENT) {
+        hit->dcl[0].ienv       += seq_start + window_start - 2;
+        hit->dcl[0].jenv       += seq_start + window_start - 2;
+        hit->dcl[0].iali       += seq_start + window_start - 2;
+        hit->dcl[0].jali       += seq_start + window_start - 2;
+        hit->dcl[0].ad->sqfrom += seq_start + window_start - 2;
+        hit->dcl[0].ad->sqto   += seq_start + window_start - 2;
+      } else {
+        hit->dcl[0].ienv       = seq_start - (window_start + hit->dcl[0].ienv) + 2;
+        hit->dcl[0].jenv       = seq_start - (window_start + hit->dcl[0].jenv) + 2;
+        hit->dcl[0].iali       = seq_start - (window_start + hit->dcl[0].iali) + 2;
+        hit->dcl[0].jali       = seq_start - (window_start + hit->dcl[0].jali) + 2;
+        hit->dcl[0].ad->sqfrom = seq_start - (window_start + hit->dcl[0].ad->sqfrom) + 2;
+        hit->dcl[0].ad->sqto   = seq_start - (window_start + hit->dcl[0].ad->sqto) + 2;
+      }
+      hit->pre_score = bitscore  / eslCONST_LOG2;
+      hit->pre_lnP   = esl_exp_logsurv (hit->pre_score,  om->evparam[p7_FTAU], om->evparam[p7_FLAMBDA]);
+
+      hit->dcl[0].dombias  = dom_bias;
+      hit->sum_score  = hit->score  = hit->dcl[0].bitscore = dom_score;
+      hit->sum_lnP    = hit->lnP    = hit->dcl[0].lnP  = dom_lnP;
+
+
+      if (pli->mode == p7_SEARCH_SEQS)
+      {
+        if (                       (status  = esl_strdup(seq_name, -1, &(hit->name)))  != eslOK) ESL_EXCEPTION(eslEMEM, "allocation failure");
+        if (seq_acc[0]  != '\0' && (status  = esl_strdup(seq_acc,  -1, &(hit->acc)))   != eslOK) ESL_EXCEPTION(eslEMEM, "allocation failure");
+        if (seq_desc[0] != '\0' && (status  = esl_strdup(seq_desc, -1, &(hit->desc)))  != eslOK) ESL_EXCEPTION(eslEMEM, "allocation failure");
+      } else {
+        if ((status  = esl_strdup(om->name, -1, &(hit->name)))  != eslOK) esl_fatal("allocation failure");
+        if ((status  = esl_strdup(om->acc,  -1, &(hit->acc)))   != eslOK) esl_fatal("allocation failure");
+        if ((status  = esl_strdup(om->desc, -1, &(hit->desc)))  != eslOK) esl_fatal("allocation failure");
+      }
+
+
+      /* If using model-specific thresholds, filter now.  See notes in front
+       * of the analogous piece of code in p7_Pipeline() for further explanation
+       * of timing.
+       */
+      if (pli->use_bit_cutoffs)
+      {
+        if (p7_pli_TargetReportable(pli, hit->score, hit->lnP))
+        {
+          hit->flags |= p7_IS_REPORTED;
+          if (p7_pli_TargetIncludable(pli, hit->score, hit->lnP))
+            hit->flags |= p7_IS_INCLUDED;
+        }
+
+        if (p7_pli_DomainReportable(pli, hit->dcl[0].bitscore, hit->dcl[0].lnP))
+        {
+          hit->dcl[0].is_reported = TRUE;
+          if (p7_pli_DomainIncludable(pli, hit->dcl[0].bitscore, hit->dcl[0].lnP))
+            hit->dcl[0].is_included = TRUE;
+        }
+
+      }
+
+  }
+
+  return eslOK;
+
+ERROR:
+  ESL_EXCEPTION(eslEMEM, "Error in LongTarget pipeline\n");
+
+}
+
+
+/* Function:  p7_pli_postSSV_LongTarget()
+ * Synopsis:  the part of the LongTarget P7 search Pipeline downstream
+ *            of the SSV filter
+ *
+ * Purpose:   This is called by either the standard (SIMD-SSV) long-target
+ *            pipeline (p7_Pipeline_LongTarget) or the FM-index long-target
+ *            pipeline (p7_Pipeline_FM), and runs the post-MSV part of H3's
+ *            accelerated pipeline to compare profile <om> against sequence
+ *            <sq>. If a significant hit is found (within the function
+ *            p7_pipeline_postViterbi_LongTarget(), called in this function),
+ *            information about it is added to the <hitlist>. The pipeline
+ *            accumulates beancounting information about how many comparisons
+ *            and residues flow through the pipeline while it's active.
+ *
+ * Args:      pli             - the main pipeline object
+ *            om              - optimized profile (query)
+ *            bg              - background model
+ *            hitlist         - pointer to hit storage bin
+ *            data            - for computing windows based on maximum prefix/suffix extensions
+ *            seqidx          - the id # of the sequence from which the current window was extracted
+ *            window_start    - the starting position of the extracted window (offset from the first
+ *                              position of the block of a possibly longer sequence)
+ *            window_len      - the length of the extracted window
+ *            subseq          - digital sequence of the extracted window
+ *            seq_start       - first position of the sequence block passed in to the calling pipeline function
+ *            seq_name        - name of the sequence the window comes from
+ *            seq_source      - source of the sequence the window comes from
+ *            seq_acc         - acc of the sequence the window comes from
+ *            seq_desc        - desc of the sequence the window comes from
+ *            seq_len         - length of the sequence the window comes from (only FM will have it; otherwise, 0 and ignored)
+ *            nullsc          - score of the passed window vs the bg model
+ *            usc             - msv score of the passed window
+ *            complementarity - boolean; is the passed window sourced from a complementary sequence block
+ *            vit_windowlist  - initialized window list, in which viterbi-passing hits are captured
+ *            pli_tmp         - a collection of objects used in the long target pipeline that should be
+ *                              (and are) only allocated once per pipeline to minimize alloc overhead.
+ *
+ * Returns:   <eslOK> on success. If a significant hit is obtained,
+ *            its information is added to the growing <hitlist>.
+ *
+ *            <eslERANGE> on numerical overflow errors in the
+ *            optimized vector implementations; particularly in
+ *            posterior decoding. I don't believe this is possible for
+ *            multihit local models, but I'm set up to catch it
+ *            anyway. We may emit a warning to the user, but cleanly
+ *            skip the problematic sequence and continue.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *
+ */
+static int
+p7_pli_postSSV_LongTarget(P7_PIPELINE *pli, P7_OPROFILE *om, P7_BG *bg, P7_TOPHITS *hitlist, const P7_SCOREDATA *data,
+    int64_t seqidx, uint64_t window_start, int window_len, ESL_DSQ *subseq,
+    uint64_t seq_start, char *seq_name, char *seq_source, char* seq_acc, char* seq_desc, int seq_len,
+    float nullsc, float usc, int complementarity, P7_HMM_WINDOWLIST *vit_windowlist,
+    P7_PIPELINE_LONGTARGET_OBJS *pli_tmp
+)
+{
+  float            filtersc;           /* HMM null filter score                   */
+  float            bias_filtersc;      /* HMM null filter score                   */
+  float            seq_score;          /* the corrected per-seq bit score */
+  double           P;                  /* P-value of a hit */
+  int i;
+  int overlap;
+  uint64_t new_n;
+  uint32_t new_len;
+
+  int   loc_window_len;  //used to re-parameterize to shorter target windows
+
+  int max_window_len      = 80000;
+  int overlap_len         = ESL_MIN(40000, om->max_length); // Won't allow more than 40K overlap - that's an absurdly long MAXL.
+
+  int F1_L = ESL_MIN( window_len,  pli->B1);
+  int F2_L = ESL_MIN( window_len,  pli->B2);
+
+  //initial bias filter, based on the input window_len
+  if (pli->do_biasfilter) {
+      p7_bg_SetLength(bg, window_len);
+      p7_bg_FilterScore(bg, subseq, window_len, &bias_filtersc);
+      bias_filtersc -= nullsc; // doing this because I'll be modifying the bias part of filtersc based on length, then adding nullsc back in.
+      filtersc =  nullsc + (bias_filtersc * (float)(( F1_L>window_len ? 1.0 : (float)F1_L/window_len)));
+      seq_score = (usc - filtersc) / eslCONST_LOG2;
+      P = esl_gumbel_surv(seq_score,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+      if (P > pli->F1) return eslOK;
+  } else {
+    bias_filtersc = 0; // mullsc will be added in later
+  }
+  pli->pos_past_bias += window_len;
+
+  //establish a possibly shorter target window parameterization
+  loc_window_len = ESL_MIN(window_len,om->max_length);
+
+  //compute the new nullsc based on possibly shorter window
+  p7_bg_SetLength(bg, loc_window_len);
+  p7_bg_NullOne  (bg, subseq, loc_window_len, &nullsc);
+
+  // bias_filtersc has already been reduced by nullsc based on window_len
+  // We compute a --B2-scaled bias, then tack on the nullsc based on the new,
+  // possibly shorter length model
+  filtersc =  nullsc + (bias_filtersc * ( F2_L>window_len ? 1.0 : (float)F2_L/window_len) );
+
+  //Then configure the model length based on the possibly shorter window length
+  p7_oprofile_ReconfigRestLength(om, loc_window_len);
+
+  /* Second level filter: ViterbiFilter(), multihit with <om> */
+  p7_omx_GrowTo(pli->oxf, om->M, 0, window_len);
+
+  //use window_len instead of loc_window_len, because length parameterization is done, just need to loop over subseq
+  p7_ViterbiFilter_longtarget(subseq, window_len, om, pli->oxf, filtersc, pli->F2, vit_windowlist);
+
+  p7_pli_ExtendAndMergeWindows (om, data, vit_windowlist, 0.5);
+
+  // if a window is still too long (>80Kb), need to split it up to
+  // ensure numeric stability in Fwd.
+  for (i=0; i<vit_windowlist->count; i++) {
+
+      if (vit_windowlist->windows[i].length > max_window_len) {
+         //modify the current window to restrict length to 40K, then add
+         //new windows with max length 40K, and MAXL overlap w/ preceding window
+         new_n   = vit_windowlist->windows[i].n ;
+         new_len = vit_windowlist->windows[i].length ;
+         vit_windowlist->windows[i].length = max_window_len;
+
+         do {
+           int shift = max_window_len - overlap_len;
+           new_n   +=  shift;
+           new_len -=  shift;
+           p7_hmmwindow_new(vit_windowlist, 0, new_n, 0, 0, ESL_MIN(max_window_len,new_len), 0.0, p7_NOCOMPLEMENT, new_len );
+         } while (new_len > max_window_len);
+      }
+  }
+
+  overlap = 0;
+  for (i=0; i<vit_windowlist->count; i++) {
+    pli->pos_past_vit += vit_windowlist->windows[i].length;
+    //remove overlap with preceding window
+    if (i>0)
+      pli->pos_past_vit -= ESL_MAX(0,  vit_windowlist->windows[i-1].n + vit_windowlist->windows[i-1].length - vit_windowlist->windows[i].n );
+
+    p7_pli_postViterbi_LongTarget(pli, om, bg, hitlist, data, seqidx,
+        window_start+vit_windowlist->windows[i].n-1, vit_windowlist->windows[i].length,
+        subseq + vit_windowlist->windows[i].n - 1,
+        seq_start, seq_name, seq_source, seq_acc, seq_desc, seq_len, complementarity, &overlap,
+        pli_tmp
+    );
+    if (overlap == -1 && i<vit_windowlist->count-1) {
+      overlap = ESL_MAX(0,  vit_windowlist->windows[i].n + vit_windowlist->windows[i].length - vit_windowlist->windows[i+1].n );
+    } else {
+      //that window didn't pass Fwd
+      overlap = 0;
+    }
+
+    pli->ddef->ndom = 0;
+
+  }
+
+  return eslOK;
+
+}
+
+
+
+
+/* Function:  p7_Pipeline_LongTarget()
+ * Synopsis:  Accelerated seq/profile comparison pipeline for long target sequences.
+ *
+ * Purpose:   Run HMMER's accelerated pipeline to compare profile <om>
+ *            against sequence <sq>. If a significant hit is found,
+ *            information about it is added to the <hitlist>. This is
+ *            a variant of p7_Pipeline that runs one of two
+ *            alternative SSV filters
+ *              (1) the scanning SSV filter (p7_SSVFilter_longtarget) that scans
+ *              a long sequence and finds high-scoring regions (windows), or
+ *              (2) the FM-index-based SSV filter that finds modest-scoring
+ *              diagonals using the FM-index, and extends them to maximum-
+ *              scoring diagonals subjected to the SSV filter thresholds
+ *
+ *            Windows passing the appropriate SSV filter are then passed
+ *            to the remainder of the pipeline. The pipeline accumulates
+ *            bean counting information about how many comparisons and
+ *            residues flow through the pipeline while it's active.
+ *
+ * Returns:   <eslOK> on success. If a significant hit is obtained,
+ *            its information is added to the growing <hitlist>.
+ *
+ *            <eslEINVAL> if (in a scan pipeline) we're supposed to
+ *            set GA/TC/NC bit score thresholds but the model doesn't
+ *            have any.
+ *
+ *            <eslERANGE> on numerical overflow errors in the
+ *            optimized vector implementations; particularly in
+ *            posterior decoding. We don't believe this is possible for
+ *            multihit local models, but we're set up to catch it
+ *            anyway. We may emit a warning to the user, but cleanly
+ *            skip the problematic sequence and continue.
+ *
+ * Args:      pli             - the main pipeline object
+ *            om              - optimized profile (query)
+ *            data            - for computing diagonals, and picking window edges based
+ *                              on maximum prefix/suffix extensions
+ *            bg              - background model
+ *            hitlist         - pointer to hit storage bin (already allocated)
+ *
+ *            :: the next three values are assigned if a standard sequence database is being used. If FM database is used, they are ignored
+ *            seqidx          - the id # of the sequence from which the current window was extracted
+ *            sq              - digital sequence of the window
+ *            complementarity - is <sq> from the top strand (p7_NOCOMPLEMENT), or bottom strand (P7_COMPLEMENT)
+ *
+ *            :: the next three are assigned if an FM database is being used. If standard sequence is used, they are set to NULL.
+ *            fmf             - the FM_DATA for forward-strand search
+ *            fmb             - the FM_DATA for reverse-strand (complement) search
+ *            fm_cfg          - general FM configuration
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ */
+int
+p7_Pipeline_LongTarget(P7_PIPELINE *pli, P7_OPROFILE *om, P7_SCOREDATA *data,
+                        P7_BG *bg, P7_TOPHITS *hitlist,
+                        int64_t seqidx, const ESL_SQ *sq, int complementarity,
+                        const FM_DATA *fmf, const FM_DATA *fmb, FM_CFG *fm_cfg
+                        /*, ESL_STOPWATCH *ssv_watch_master
+                        , ESL_STOPWATCH *postssv_watch_master
+                        , ESL_STOPWATCH *watch_slave
+*/
+                        )
+{
+  int              i;
+  int              status;
+  float            nullsc;   /* null model score                        */
+  float            usc;      /* msv score  */
+  float            P;
+  float            bias_filtersc;
+
+  ESL_DSQ          *subseq;
+  uint64_t         seq_start;
+
+
+  P7_HMM_WINDOWLIST msv_windowlist;
+  P7_HMM_WINDOWLIST vit_windowlist;
+  P7_HMM_WINDOW    *window;
+  FM_SEQDATA        seq_data;
+
+  P7_PIPELINE_LONGTARGET_OBJS *pli_tmp;
+
+  if ((sq && (sq->n == 0)) || (fmf && (fmf->N == 0))) return eslOK;    /* silently skip length 0 seqs; they'd cause us all sorts of weird problems */
+
+
+  ESL_ALLOC(pli_tmp, sizeof(P7_PIPELINE_LONGTARGET_OBJS));
+  pli_tmp->bg = p7_bg_Clone(bg);
+  pli_tmp->om = p7_oprofile_Create(om->M, om->abc);
+  ESL_ALLOC(pli_tmp->scores, sizeof(float) * om->abc->Kp * 4); //allocation of space to store scores that will be used in p7_oprofile_Update(Fwd|Vit|MSV)EmissionScores
+  ESL_ALLOC(pli_tmp->fwd_emissions_arr, sizeof(float) *  om->abc->Kp * (om->M+1));
+
+  msv_windowlist.windows = NULL;
+  vit_windowlist.windows = NULL;
+  p7_hmmwindow_init(&msv_windowlist);
+
+  p7_omx_GrowTo(pli->oxf, om->M, 0, om->max_length);    /* expand the one-row omx if needed */
+
+  /* Set false target length. This is a conservative estimate of the length of window that'll
+   * soon be passed on to later phases of the pipeline;  used to recover some bits of the score
+   * that we would miss if we left length parameters set to the full target length */
+  p7_oprofile_ReconfigMSVLength(om, om->max_length);
+
+
+  /* First level filter: the SSV filter, with <om>.
+   * This variant of SSV will scan a long sequence and find
+   * short high-scoring regions.
+   */
+//  if (watch_slave) {
+ //   esl_stopwatch_Start(watch_slave);
+ // }
+
+
+  if (fmf) // using an FM-index
+    p7_SSVFM_longlarget(om, 2.0, bg, pli->F1, fmf, fmb, fm_cfg, data, pli->strands, &msv_windowlist );
+  else // compare directly to sequence
+    p7_SSVFilter_longtarget(sq->dsq, sq->n, om, pli->oxf, data, bg, pli->F1, &msv_windowlist);
+/*  if (watch_slave) {
+    esl_stopwatch_Stop(watch_slave);
+    esl_stopwatch_Include(ssv_watch_master, watch_slave);
+    esl_stopwatch_Start(watch_slave);
+  }
+*/
+
+  /* convert hits to windows, merging neighboring windows
+   */
+  if ( msv_windowlist.count > 0 ) {
+
+    /* In scan mode, if it passes the MSV filter, read the rest of the profile
+     * Not necessary for dummy mode, where the ->base_w variable checks cause compilation failure*/
+#ifndef P7_IMPL_DUMMY_INCLUDED
+    if (!fmf && pli->hfp)
+    {
+      if (om->base_w == 0 &&  om->scale_w == 0) { // we haven't already read this hmm (if we're on the second strand, we would've)
+        p7_oprofile_ReadRest(pli->hfp, om);
+        if ((status = p7_pli_NewModelThresholds(pli, om)) != eslOK) goto ERROR;
+      }
+    }
+#endif
+
+    p7_oprofile_GetFwdEmissionArray(om, bg, pli_tmp->fwd_emissions_arr);
+
+    if (data->prefix_lengths == NULL)  //otherwise, already filled in
+      p7_hmm_ScoreDataComputeRest(om, data);
+
+    p7_pli_ExtendAndMergeWindows (om, data, &msv_windowlist, 0);
+
+    /*  If using FM, it's possible for a seed we just created to span more than one segment
+     *  in the target. Check for this, and resolve it, by trimming an over-extended
+     *  segment, and tacking it on as a new window (to be dealt with in a later pass)
+     */
+    if (fmf) {
+      for (i=0; i<msv_windowlist.count; i++) {
+        int again = TRUE;
+        window = msv_windowlist.windows + i;
+
+        while (again) {
+          uint32_t seg_id;
+          uint64_t seg_pos;
+          again = FALSE;
+
+          status = fm_getOriginalPosition (fmf, fm_cfg->meta, 0, window->length, window->complementarity, window->fm_n, &seg_id, &seg_pos);
+
+          if (status == eslERANGE) {
+            int overext;
+            int use_length;
+            int is_compl = (window->complementarity == p7_COMPLEMENT);
+
+            overext = (seg_pos + window->length) - (fm_cfg->meta->seq_data[ seg_id ].target_start + fm_cfg->meta->seq_data[ seg_id ].length - 1) ;
+
+            use_length = window->length - overext + 1;
+
+            if (use_length >= 8 && window->length >= 8) { // if both halves are kinda long, split the first half off as a new window
+              p7_hmmwindow_new(&msv_windowlist, seg_id + (is_compl?-1:1), window->n, window->fm_n, window->k+use_length-1, use_length, window->score, window->complementarity, fm_cfg->meta->seq_data[seg_id].length);
+              window = msv_windowlist.windows + i; // it may have moved due a a realloc
+              window->k      +=  use_length;
+              window->length  =  overext;
+              again         = TRUE;
+            } else if (window->length >= 8) { //if just the right half is long enough, shift numbers over
+              window->k      +=  use_length;
+              window->length  =  overext;
+            } else { //just limit the length of the left half
+              window->length  =  use_length;
+            }
+
+          }
+        }
+      }
+    }
+
+  /* Pass each remaining window on to the remaining pipeline */
+    p7_hmmwindow_init(&vit_windowlist);
+    pli_tmp->tmpseq = esl_sq_CreateDigital(om->abc);
+    if (!fmf )
+      free (pli_tmp->tmpseq->dsq);  //this ESL_SQ object is just a container that'll point to a series of other DSQs, so free the one we just created inside the larger SQ object
+
+
+    for (i=0; i<msv_windowlist.count; i++){
+      window =  msv_windowlist.windows + i ;
+
+      if (fmf) {
+        fm_convertRange2DSQ( fmf, fm_cfg->meta, window->fm_n, window->length, window->complementarity, pli_tmp->tmpseq, TRUE );
+        subseq = pli_tmp->tmpseq->dsq;
+      } else {
+        subseq = sq->dsq + window->n - 1;
+      }
+
+      p7_bg_SetLength(bg, window->length);
+      p7_bg_NullOne  (bg, subseq, window->length, &nullsc);
+
+      p7_bg_FilterScore(bg, subseq, window->length, &bias_filtersc);
+      // Compute standard MSV to ensure that bias doesn't overcome SSV score when MSV
+      // would have survived it
+      p7_oprofile_ReconfigMSVLength(om, window->length);
+      p7_MSVFilter(subseq, window->length, om, pli->oxf, &usc);
+      P = esl_gumbel_surv( (usc-nullsc)/eslCONST_LOG2,  om->evparam[p7_MMU],  om->evparam[p7_MLAMBDA]);
+
+      if (P > pli->F1 ) continue;
+      pli->pos_past_msv += window->length;
+
+      if (fmf) {
+        seq_data = fm_cfg->meta->seq_data[window->id];
+        seq_start =  seq_data.target_start;
+        if (window->complementarity == p7_COMPLEMENT)
+          seq_start += seq_data.length - 2;
+      }
+
+      status = p7_pli_postSSV_LongTarget(pli, om, bg, hitlist, data,
+            (fmf != NULL ? seq_data.target_id     : seqidx),
+            window->n, window->length, subseq,
+            (fmf != NULL ? seq_start       : sq->start),
+            (fmf != NULL ? seq_data.name   : sq->name),
+            (fmf != NULL ? seq_data.source : sq->source),
+            (fmf != NULL ? seq_data.acc    : sq->acc),
+            (fmf != NULL ? seq_data.desc   : sq->desc),
+            (fmf != NULL ? seq_data.length : -1),
+            nullsc,
+            usc,
+            (fmf != NULL ? window->complementarity : complementarity),
+            &vit_windowlist,
+            pli_tmp
+        );
+        if (status != eslOK) goto ERROR;
+
+    }
+
+    if (fmf)  free (pli_tmp->tmpseq->dsq);
+
+    pli_tmp->tmpseq->dsq = NULL;  //it's a pointer to a dsq object belonging to another sequence
+
+    esl_sq_Destroy(pli_tmp->tmpseq);
+    free (vit_windowlist.windows);
+  }
+
+/*
+  if (watch_slave) {
+    esl_stopwatch_Stop(watch_slave);
+    esl_stopwatch_Include(postssv_watch_master, watch_slave);
+  }
+*/
+  if (msv_windowlist.windows != NULL) free (msv_windowlist.windows);
+
+  if (pli_tmp != NULL) {
+    if (pli_tmp->bg != NULL)     p7_bg_Destroy(pli_tmp->bg);
+    if (pli_tmp->om != NULL)     p7_oprofile_Destroy(pli_tmp->om);
+    if (pli_tmp->scores != NULL)        free (pli_tmp->scores);
+    if (pli_tmp->fwd_emissions_arr != NULL) free (pli_tmp->fwd_emissions_arr);
+    free(pli_tmp);
+  }
+
+  return eslOK;
+
+ERROR:
+  if (msv_windowlist.windows != NULL) free (msv_windowlist.windows);
+  if (vit_windowlist.windows != NULL) free (vit_windowlist.windows);
+
+  if (pli_tmp != NULL) {
+    if (pli_tmp->tmpseq != NULL) esl_sq_Destroy(pli_tmp->tmpseq);
+    if (pli_tmp->bg != NULL)     p7_bg_Destroy(pli_tmp->bg);
+    if (pli_tmp->om != NULL)     p7_oprofile_Destroy(pli_tmp->om);
+    if (pli_tmp->scores != NULL)        free (pli_tmp->scores);
+    if (pli_tmp->fwd_emissions_arr != NULL) free (pli_tmp->fwd_emissions_arr);
+    free(pli_tmp);
+  }
+
+  return status;
+
+}
+
+
+/* Function:  p7_pli_Statistics()
+ * Synopsis:  Final statistics output from a processing pipeline.
+ *
+ * Purpose:   Print a standardized report of the internal statistics of
+ *            a finished processing pipeline <pli> to stream <ofp>.
+ *            
+ *            If stopped, non-<NULL> stopwatch <w> is provided for a
+ *            stopwatch that was timing the pipeline, then the report
+ *            includes timing information.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_pli_Statistics(FILE *ofp, P7_PIPELINE *pli, ESL_STOPWATCH *w)
+{
+  double ntargets; 
+
+  fprintf(ofp, "Internal pipeline statistics summary:\n");
+  fprintf(ofp, "-------------------------------------\n");
+  if (pli->mode == p7_SEARCH_SEQS) {
+    fprintf(ofp, "Query model(s):                %15" PRId64 "  (%" PRId64 " nodes)\n",     pli->nmodels, pli->nnodes);
+    fprintf(ofp, "Target sequences:              %15" PRId64 "  (%" PRId64 " residues searched)\n",  pli->nseqs,   pli->nres);
+    ntargets = pli->nseqs;
+  } else {
+    fprintf(ofp,   "Query sequence(s):           %15" PRId64 "  (%" PRId64 " residues searched)\n",  pli->nseqs,   pli->nres);
+    fprintf(ofp,   "Target model(s):             %15" PRId64 "  (%" PRId64 " nodes)\n",     pli->nmodels, pli->nnodes);
+    ntargets = pli->nmodels;
+  }
+
+  if (pli->long_targets) {
+      fprintf(ofp, "Residues passing SSV filter:   %15" PRId64 "  (%.3g); expected (%.3g)\n",
+      //fprintf(ofp, "Windows passing MSV filter:   %15" PRId64 "  (%.4g); expected (%.4g)\n",
+          //pli->n_past_msv,
+          pli->pos_past_msv,
+          (double)pli->pos_past_msv / (pli->nres*pli->nmodels) ,
+          pli->F1);
+
+      fprintf(ofp, "Residues passing bias filter:  %15" PRId64 "  (%.3g); expected (%.3g)\n",
+      //fprintf(ofp, "Windows passing bias filter:  %15" PRId64 "  (%.4g); expected (%.4g)\n",
+          //pli->n_past_bias,
+          pli->pos_past_bias,
+          (double)pli->pos_past_bias / (pli->nres*pli->nmodels) ,
+          pli->F1);
+
+      fprintf(ofp, "Residues passing Vit filter:   %15" PRId64 "  (%.3g); expected (%.3g)\n",
+      //fprintf(ofp, "Windows passing Vit filter:   %15" PRId64 "  (%.4g); expected (%.4g)\n",
+          //pli->n_past_vit,
+          pli->pos_past_vit,
+          (double)pli->pos_past_vit / (pli->nres*pli->nmodels) ,
+          pli->F2);
+
+      fprintf(ofp, "Residues passing Fwd filter:   %15" PRId64 "  (%.3g); expected (%.3g)\n",
+      //fprintf(ofp, "Windows passing Fwd filter:   %15" PRId64 "  (%.4g); expected (%.4g)\n",
+          //pli->n_past_fwd,
+          pli->pos_past_fwd,
+          (double)pli->pos_past_fwd / (pli->nres*pli->nmodels) ,
+          pli->F3);
+
+      fprintf(ofp, "Total number of hits:          %15d  (%.3g)\n",
+          (int)pli->n_output,
+          (double)pli->pos_output / (pli->nres*pli->nmodels) );
+
+  } else { // typical case output
+
+      fprintf(ofp, "Passed MSV filter:           %15" PRId64 "  (%.6g); expected %.1f (%.6g)\n",
+          pli->n_past_msv,
+          (double) pli->n_past_msv / ntargets,
+          pli->F1 * ntargets,
+          pli->F1);
+
+      fprintf(ofp, "Passed bias filter:          %15" PRId64 "  (%.6g); expected %.1f (%.6g)\n",
+          pli->n_past_bias,
+          (double) pli->n_past_bias / ntargets,
+          pli->F1 * ntargets,
+          pli->F1);
+
+      fprintf(ofp, "Passed Vit filter:           %15" PRId64 "  (%.6g); expected %.1f (%.6g)\n",
+          pli->n_past_vit,
+          (double) pli->n_past_vit / ntargets,
+          pli->F2 * ntargets,
+          pli->F2);
+
+      fprintf(ofp, "Passed Fwd filter:           %15" PRId64 "  (%.6g); expected %.1f (%.6g)\n",
+          pli->n_past_fwd,
+          (double) pli->n_past_fwd / ntargets,
+          pli->F3 * ntargets,
+          pli->F3);
+
+      fprintf(ofp, "Initial search space (Z):    %15.0f  %s\n", pli->Z,    pli->Z_setby    == p7_ZSETBY_OPTION ? "[as set by --Z on cmdline]"    : "[actual number of targets]");
+      fprintf(ofp, "Domain search space  (domZ): %15.0f  %s\n", pli->domZ, pli->domZ_setby == p7_ZSETBY_OPTION ? "[as set by --domZ on cmdline]" : "[number of targets reported over threshold]");
+  }
+
+  if (w != NULL) {
+    esl_stopwatch_Display(ofp, w, "# CPU time: ");
+    fprintf(ofp, "# Mc/sec: %.2f\n", 
+        (double) pli->nres * (double) pli->nnodes / (w->elapsed * 1.0e6));
+  }
+
+  return eslOK;
+}
+/*------------------- end, pipeline API -------------------------*/
+
+
+/*****************************************************************
+ * 3. Example 1: "search mode" in a sequence db
+ *****************************************************************/
+
+#ifdef p7PIPELINE_EXAMPLE
+/* gcc -o pipeline_example -g -Wall -I../easel -L../easel -I. -L. -Dp7PIPELINE_EXAMPLE p7_pipeline.c -lhmmer -leasel -lm
+ * ./pipeline_example <hmmfile> <sqfile>
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type         default   env  range   toggles   reqs   incomp                             help                                                  docgroup*/
+  { "-h",           eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  NULL,                          "show brief help on version and usage",                         0 },
+  { "-E",           eslARG_REAL,  "10.0", NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "E-value cutoff for reporting significant sequence hits",       0 },
+  { "-T",           eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "bit score cutoff for reporting significant sequence hits",     0 },
+  { "-Z",           eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  NULL,                          "set # of comparisons done, for E-value calculation",           0 },
+  { "--domE",       eslARG_REAL,"1000.0", NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "E-value cutoff for reporting individual domains",              0 },
+  { "--domT",       eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "bit score cutoff for reporting individual domains",            0 },
+  { "--domZ",       eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  NULL,                          "set # of significant seqs, for domain E-value calculation",    0 },
+  { "--cut_ga",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  "--seqE,--seqT,--domE,--domT", "use GA gathering threshold bit score cutoffs in <hmmfile>",    0 },
+  { "--cut_nc",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  "--seqE,--seqT,--domE,--domT", "use NC noise threshold bit score cutoffs in <hmmfile>",        0 },
+  { "--cut_tc",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  "--seqE,--seqT,--domE,--domT", "use TC trusted threshold bit score cutoffs in <hmmfile>",      0 },
+  { "--max",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, "--F1,--F2,--F3",               "Turn all heuristic filters off (less speed, more power)",      0 },
+  { "--F1",         eslARG_REAL,  "0.02", NULL, NULL,      NULL,  NULL, "--max",                        "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             0 },
+  { "--F2",         eslARG_REAL,  "1e-3", NULL, NULL,      NULL,  NULL, "--max",                        "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             0 },
+  { "--F3",         eslARG_REAL,  "1e-5", NULL, NULL,      NULL,  NULL, "--max",                        "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             0 },
+  { "--nobias",     eslARG_NONE,   NULL,  NULL, NULL,      NULL,  NULL, "--max",                        "turn off composition bias filter",                             0 },
+  { "--nonull2",    eslARG_NONE,   NULL,  NULL, NULL,      NULL,  NULL,  NULL,                          "turn off biased composition score corrections",                0 },
+  { "--seed",       eslARG_INT,    "42",  NULL, "n>=0",    NULL,  NULL,  NULL,                          "set RNG seed to <n> (if 0: one-time arbitrary seed)",          0 },
+  { "--acc",        eslARG_NONE,  FALSE,  NULL, NULL,      NULL,  NULL,  NULL,                          "output target accessions instead of names if possible",        0 },
+ {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqdb>";
+static char banner[] = "example of using acceleration pipeline in search mode (seq targets)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char         *hmmfile = esl_opt_GetArg(go, 1);
+  char         *seqfile = esl_opt_GetArg(go, 2);
+  int           format  = eslSQFILE_FASTA;
+  P7_HMMFILE   *hfp     = NULL;
+  ESL_ALPHABET *abc     = NULL;
+  P7_BG        *bg      = NULL;
+  P7_HMM       *hmm     = NULL;
+  P7_PROFILE   *gm      = NULL;
+  P7_OPROFILE  *om      = NULL;
+  ESL_SQFILE   *sqfp    = NULL;
+  ESL_SQ       *sq      = NULL;
+  P7_PIPELINE  *pli     = NULL;
+  P7_TOPHITS   *hitlist = NULL;
+  int           h,d,namew;
+
+  /* Don't forget this. Null2 corrections need FLogsum() */
+  p7_FLogsumInit();
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+
+  /* Open a sequence file */
+  if (esl_sqfile_OpenDigital(abc, seqfile, format, NULL, &sqfp) != eslOK) p7_Fail("Failed to open sequence file %s\n", seqfile);
+  sq = esl_sq_CreateDigital(abc);
+
+  /* Create a pipeline and a top hits list */
+  pli     = p7_pipeline_Create(go, hmm->M, 400, FALSE, p7_SEARCH_SEQS);
+  hitlist = p7_tophits_Create();
+
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  gm = p7_profile_Create(hmm->M, abc);
+  om = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, 400, p7_LOCAL);
+  p7_oprofile_Convert(gm, om);     /* <om> is now p7_LOCAL, multihit */
+  p7_pli_NewModel(pli, om, bg);
+
+  /* Run each target sequence through the pipeline */
+  while (esl_sqio_Read(sqfp, sq) == eslOK)
+    { 
+      p7_pli_NewSeq(pli, sq);
+      p7_bg_SetLength(bg, sq->n);
+      p7_oprofile_ReconfigLength(om, sq->n);
+  
+      p7_Pipeline(pli, om, bg, sq, hitlist);
+
+      esl_sq_Reuse(sq);
+      p7_pipeline_Reuse(pli);
+    }
+
+  /* Print the results. 
+   * This example is a stripped version of hmmsearch's tabular output.
+   */
+  p7_tophits_SortBySortkey(hitlist);
+  namew = ESL_MAX(8, p7_tophits_GetMaxNameLength(hitlist));
+  for (h = 0; h < hitlist->N; h++)
+    {
+      d    = hitlist->hit[h]->best_domain;
+
+      printf("%10.2g %7.1f %6.1f  %7.1f %6.1f %10.2g  %6.1f %5d  %-*s %s\n",
+	     exp(hitlist->hit[h]->lnP) * (double) pli->Z,
+	     hitlist->hit[h]->score,
+	     hitlist->hit[h]->pre_score - hitlist->hit[h]->score, /* bias correction */
+	     hitlist->hit[h]->dcl[d].bitscore,
+	     eslCONST_LOG2R * p7_FLogsum(0.0, log(bg->omega) + hitlist->hit[h]->dcl[d].domcorrection), /* print in units of bits */
+	     exp(hitlist->hit[h]->dcl[d].lnP) * (double) pli->Z,
+	     hitlist->hit[h]->nexpected,
+	     hitlist->hit[h]->nreported,
+	     namew,
+	     hitlist->hit[h]->name,
+	     hitlist->hit[h]->desc);
+    }
+
+  /* Done. */
+  p7_tophits_Destroy(hitlist);
+  p7_pipeline_Destroy(pli);
+  esl_sq_Destroy(sq);
+  esl_sqfile_Close(sqfp);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7PIPELINE_EXAMPLE*/
+/*----------- end, search mode (seq db) example -----------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Example 2: "scan mode" in an HMM db
+ *****************************************************************/
+#ifdef p7PIPELINE_EXAMPLE2
+/* gcc -o pipeline_example2 -g -Wall -I../easel -L../easel -I. -L. -Dp7PIPELINE_EXAMPLE2 p7_pipeline.c -lhmmer -leasel -lm
+ * ./pipeline_example2 <hmmdb> <sqfile>
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_sqio.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type         default   env  range   toggles   reqs   incomp                             help                                                  docgroup*/
+  { "-h",           eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  NULL,                          "show brief help on version and usage",                         0 },
+  { "-E",           eslARG_REAL,  "10.0", NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "E-value cutoff for reporting significant sequence hits",       0 },
+  { "-T",           eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "bit score cutoff for reporting significant sequence hits",     0 },
+  { "-Z",           eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  NULL,                          "set # of comparisons done, for E-value calculation",           0 },
+  { "--domE",       eslARG_REAL,"1000.0", NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "E-value cutoff for reporting individual domains",              0 },
+  { "--domT",       eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  "--cut_ga,--cut_nc,--cut_tc",  "bit score cutoff for reporting individual domains",            0 },
+  { "--domZ",       eslARG_REAL,   FALSE, NULL, "x>0",     NULL,  NULL,  NULL,                          "set # of significant seqs, for domain E-value calculation",    0 },
+  { "--cut_ga",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  "--seqE,--seqT,--domE,--domT", "use GA gathering threshold bit score cutoffs in <hmmfile>",    0 },
+  { "--cut_nc",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  "--seqE,--seqT,--domE,--domT", "use NC noise threshold bit score cutoffs in <hmmfile>",        0 },
+  { "--cut_tc",     eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  "--seqE,--seqT,--domE,--domT", "use TC trusted threshold bit score cutoffs in <hmmfile>",      0 },
+  { "--max",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, "--F1,--F2,--F3",               "Turn all heuristic filters off (less speed, more power)",      0 },
+  { "--F1",         eslARG_REAL,  "0.02", NULL, NULL,      NULL,  NULL, "--max",                        "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             0 },
+  { "--F2",         eslARG_REAL,  "1e-3", NULL, NULL,      NULL,  NULL, "--max",                        "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             0 },
+  { "--F3",         eslARG_REAL,  "1e-5", NULL, NULL,      NULL,  NULL, "--max",                        "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             0 },
+  { "--nobias",     eslARG_NONE,   NULL,  NULL, NULL,      NULL,  NULL, "--max",                        "turn off composition bias filter",                             0 },
+  { "--nonull2",    eslARG_NONE,   NULL,  NULL, NULL,      NULL,  NULL,  NULL,                          "turn off biased composition score corrections",                0 },
+  { "--seed",       eslARG_INT,    "42",  NULL, "n>=0",    NULL,  NULL,  NULL,                          "set RNG seed to <n> (if 0: one-time arbitrary seed)",          0 },
+  { "--acc",        eslARG_NONE,  FALSE,  NULL, NULL,      NULL,  NULL,  NULL,                          "output target accessions instead of names if possible",        0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example of using acceleration pipeline in scan mode (HMM targets)";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS  *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  char         *hmmfile = esl_opt_GetArg(go, 1);
+  char         *seqfile = esl_opt_GetArg(go, 2);
+  int           format  = eslSQFILE_FASTA;
+  P7_HMMFILE   *hfp     = NULL;
+  ESL_ALPHABET *abc     = NULL;
+  P7_BG        *bg      = NULL;
+  P7_OPROFILE  *om      = NULL;
+  ESL_SQFILE   *sqfp    = NULL;
+  ESL_SQ       *sq      = NULL;
+  P7_PIPELINE  *pli     = NULL;
+  P7_TOPHITS   *hitlist = p7_tophits_Create();
+  int           h,d,namew;
+
+  /* Don't forget this. Null2 corrections need FLogsum() */
+  p7_FLogsumInit();
+
+  /* Open a sequence file, read one seq from it.
+   * Convert to digital later, after 1st HMM is input and abc becomes known 
+   */
+  sq = esl_sq_Create();
+  if (esl_sqfile_Open(seqfile, format, NULL, &sqfp) != eslOK) p7_Fail("Failed to open sequence file %s\n", seqfile);
+  if (esl_sqio_Read(sqfp, sq)                       != eslOK) p7_Fail("Failed to read sequence from %s\n", seqfile);
+  esl_sqfile_Close(sqfp);
+
+  /* Open the HMM db */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+
+  /* Create a pipeline for the query sequence in scan mode */
+  pli      = p7_pipeline_Create(go, 100, sq->n, FALSE, p7_SCAN_MODELS);
+  p7_pli_NewSeq(pli, sq);
+   
+  /* Some additional config of the pipeline specific to scan mode */
+  pli->hfp = hfp;
+  if (! pli->Z_is_fixed && hfp->is_pressed) { pli->Z_is_fixed = TRUE; pli->Z = hfp->ssi->nprimary; }
+
+  /* Read (partial) of each HMM in file */
+  while (p7_oprofile_ReadMSV(hfp, &abc, &om) == eslOK) 
+    {
+      /* One time only initialization after abc becomes known */
+      if (bg == NULL) 
+    {
+      bg = p7_bg_Create(abc);
+      if (esl_sq_Digitize(abc, sq) != eslOK) p7_Die("alphabet mismatch");
+    }
+      p7_pli_NewModel(pli, om, bg);
+      p7_bg_SetLength(bg, sq->n); /* SetLength() call MUST follow NewModel() call, because NewModel() resets the filter HMM, including its default expected length; see bug #h85 */
+      p7_oprofile_ReconfigLength(om, sq->n);
+
+      p7_Pipeline(pli, om, bg, sq, hitlist);
+      
+      p7_oprofile_Destroy(om);
+      p7_pipeline_Reuse(pli);
+    } 
+
+  /* Print the results. 
+   * This example is a stripped version of hmmsearch's tabular output.
+   */
+  p7_tophits_SortBySortkey(hitlist);
+  namew = ESL_MAX(8, p7_tophits_GetMaxNameLength(hitlist));
+  for (h = 0; h < hitlist->N; h++)
+    {
+      d    = hitlist->hit[h]->best_domain;
+
+      printf("%10.2g %7.1f %6.1f  %7.1f %6.1f %10.2g  %6.1f %5d  %-*s %s\n",
+	     exp(hitlist->hit[h]->lnP) * (double) pli->Z,
+	     hitlist->hit[h]->score,
+	     hitlist->hit[h]->pre_score - hitlist->hit[h]->score, /* bias correction */
+	     hitlist->hit[h]->dcl[d].bitscore,
+	     eslCONST_LOG2R * p7_FLogsum(0.0, log(bg->omega) + hitlist->hit[h]->dcl[d].domcorrection), /* print in units of BITS */
+	     exp(hitlist->hit[h]->dcl[d].lnP) * (double) pli->Z,
+	     hitlist->hit[h]->nexpected,
+	     hitlist->hit[h]->nreported,
+	     namew,
+	     hitlist->hit[h]->name,
+	     hitlist->hit[h]->desc);
+    }
+
+  /* Done. */
+  p7_tophits_Destroy(hitlist);
+  p7_pipeline_Destroy(pli);
+  esl_sq_Destroy(sq);
+  p7_hmmfile_Close(hfp);
+  p7_bg_Destroy(bg);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7PIPELINE_EXAMPLE2*/
+/*--------------- end, scan mode (HMM db) example ---------------*/
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_pipeline.c $
+ * SVN $Id: p7_pipeline.c 4771 2015-02-25 06:53:51Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_prior.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_prior.c
new file mode 100755
index 0000000..4eb161a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_prior.c
@@ -0,0 +1,408 @@
+/* Mixture Dirichlet priors for profile HMMs.
+ * 
+ * 
+ * SRE, Sat Mar 24 09:12:44 2007 [Janelia]
+ * SVN $Id: p7_prior.c 4102 2012-06-24 02:06:57Z wheelert $
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/* Function:  p7_prior_CreateAmino()
+ * Incept:    SRE, Sat Mar 24 09:35:36 2007 [Janelia]
+ *
+ * Purpose:   Creates the default mixture Dirichlet prior for protein
+ *            sequences.
+ *
+ *            The transition priors (match, insert, delete) are all
+ *            single Dirichlets, originally trained by Graeme
+ *            Mitchison in the mid-1990's. Notes have been lost, but
+ *            we believe they were trained on an early version of
+ *            Pfam. 
+ *            
+ *            The match emission prior is a nine-component mixture
+ *            from Kimmen Sjolander, who trained it on the Blocks9
+ *            database \citep{Sjolander96}.
+ *            
+ *            The insert emission prior is a single Dirichlet with
+ *            high $|\alpha|$, such that insert emission probabilities
+ *            are essentially fixed by the prior, regardless of
+ *            observed count data. The slightly polar parameterization
+ *            was obtained by training on Pfam 1.0.
+ *
+ * Returns:   a pointer to the new <P7_PRIOR> structure.
+ */
+P7_PRIOR *
+p7_prior_CreateAmino(void)
+{
+  int status;
+  P7_PRIOR *pri = NULL;
+  int q;
+				/* default match mixture coefficients: [Sjolander96] */
+  static double defmq[9] = {
+    0.178091, 0.056591, 0.0960191, 0.0781233, 0.0834977, 
+    0.0904123, 0.114468, 0.0682132, 0.234585 };
+
+				/* default match mixture Dirichlet components [Sjolander96] */
+  static double defm[9][20] = {
+    { 0.270671, 0.039848, 0.017576, 0.016415, 0.014268, 
+      0.131916, 0.012391, 0.022599, 0.020358, 0.030727, 
+      0.015315, 0.048298, 0.053803, 0.020662, 0.023612,
+      0.216147, 0.147226, 0.065438, 0.003758, 0.009621 },
+    { 0.021465, 0.010300, 0.011741, 0.010883, 0.385651, 
+      0.016416, 0.076196, 0.035329, 0.013921, 0.093517, 
+      0.022034, 0.028593, 0.013086, 0.023011, 0.018866, 
+      0.029156, 0.018153, 0.036100, 0.071770, 0.419641 },
+    { 0.561459, 0.045448, 0.438366, 0.764167, 0.087364,
+      0.259114, 0.214940, 0.145928, 0.762204, 0.247320,
+      0.118662, 0.441564, 0.174822, 0.530840, 0.465529, 
+      0.583402, 0.445586, 0.227050, 0.029510, 0.121090 },
+    { 0.070143, 0.011140, 0.019479, 0.094657, 0.013162, 
+      0.048038, 0.077000, 0.032939, 0.576639, 0.072293, 
+      0.028240, 0.080372, 0.037661, 0.185037, 0.506783, 
+      0.073732, 0.071587, 0.042532, 0.011254, 0.028723 },
+    { 0.041103, 0.014794, 0.005610, 0.010216, 0.153602, 
+      0.007797, 0.007175, 0.299635, 0.010849, 0.999446, 
+      0.210189, 0.006127, 0.013021, 0.019798, 0.014509, 
+      0.012049, 0.035799, 0.180085, 0.012744, 0.026466 },
+    { 0.115607, 0.037381, 0.012414, 0.018179, 0.051778, 
+      0.017255, 0.004911, 0.796882, 0.017074, 0.285858, 
+      0.075811, 0.014548, 0.015092, 0.011382, 0.012696, 
+      0.027535, 0.088333, 0.944340, 0.004373, 0.016741 },
+    { 0.093461, 0.004737, 0.387252, 0.347841, 0.010822, 
+      0.105877, 0.049776, 0.014963, 0.094276, 0.027761, 
+      0.010040, 0.187869, 0.050018, 0.110039, 0.038668, 
+      0.119471, 0.065802, 0.025430, 0.003215, 0.018742 },
+    { 0.452171, 0.114613, 0.062460, 0.115702, 0.284246,
+      0.140204, 0.100358, 0.550230, 0.143995, 0.700649, 
+      0.276580, 0.118569, 0.097470, 0.126673, 0.143634, 
+      0.278983, 0.358482, 0.661750, 0.061533, 0.199373 },
+    { 0.005193, 0.004039, 0.006722, 0.006121, 0.003468, 
+      0.016931, 0.003647, 0.002184, 0.005019, 0.005990, 
+      0.001473, 0.004158, 0.009055, 0.003630, 0.006583, 
+      0.003172, 0.003690, 0.002967, 0.002772, 0.002686 },
+  };
+
+  ESL_ALLOC(pri, sizeof(P7_PRIOR));
+  pri->tm = pri->ti = pri->td = pri->em = pri->ei = NULL;
+
+  pri->tm = esl_mixdchlet_Create(1, 3);	 /* single component; 3 params */
+  pri->ti = esl_mixdchlet_Create(1, 2);	 /* single component; 2 params */
+  pri->td = esl_mixdchlet_Create(1, 2);	 /* single component; 2 params */
+  pri->em = esl_mixdchlet_Create(9, 20); /* 9 component; 20 params */
+  pri->ei = esl_mixdchlet_Create(1, 20); /* single component; 20 params */
+
+
+  if (pri->tm == NULL || pri->ti == NULL || pri->td == NULL || pri->em == NULL || pri->ei == NULL) goto ERROR;
+
+  /* Transition priors: originally from Graeme Mitchison. Notes are lost, but we believe
+   * they were trained on an early version of Pfam. 
+   */
+  pri->tm->pq[0]       = 1.0;
+  pri->tm->alpha[0][0] = 0.7939; /* TMM */
+  pri->tm->alpha[0][1] = 0.0278; /* TMI */ /* Markus suggests ~10x MD, ~0.036; test! */
+  pri->tm->alpha[0][2] = 0.0135; /* TMD */ /* Markus suggests 0.1x MI, ~0.004; test! */
+
+  pri->ti->pq[0]       = 1.0;
+  pri->ti->alpha[0][0] = 0.1551; /* TIM */
+  pri->ti->alpha[0][1] = 0.1331; /* TII */
+
+  pri->td->pq[0]       = 1.0;
+  pri->td->alpha[0][0] = 0.9002; /* TDM */
+  pri->td->alpha[0][1] = 0.5630; /* TDD */
+
+  /* Match emission priors are from Kimmen Sjolander, trained
+   * on the Blocks9 database. [Sjolander96]
+   */  
+  for (q = 0; q < 9; q++)
+    {
+      pri->em->pq[q] = defmq[q];
+      esl_vec_DCopy(defm[q], 20, pri->em->alpha[q]);
+    }
+
+  /* Insert emission priors were trained on Pfam 1.0, 10 Nov 1996;
+   *  see  ~/projects/plan7/InsertStatistics.
+   * Inserts are slightly biased towards polar residues and away from
+   * hydrophobic residues.
+   */
+  pri->ei->pq[0] = 1.0;
+  pri->ei->alpha[0][0]  = 681.;         /* A */
+  pri->ei->alpha[0][1]  = 120.;         /* C */
+  pri->ei->alpha[0][2]  = 623.;         /* D */
+  pri->ei->alpha[0][3]  = 651.;         /* E */
+  pri->ei->alpha[0][4]  = 313.;         /* F */
+  pri->ei->alpha[0][5]  = 902.;         /* G */
+  pri->ei->alpha[0][6]  = 241.;         /* H */
+  pri->ei->alpha[0][7]  = 371.;         /* I */
+  pri->ei->alpha[0][8]  = 687.;         /* K */
+  pri->ei->alpha[0][9]  = 676.;         /* L */
+  pri->ei->alpha[0][10] = 143.;         /* M */
+  pri->ei->alpha[0][11] = 548.;         /* N */
+  pri->ei->alpha[0][12] = 647.;         /* P */
+  pri->ei->alpha[0][13] = 415.;         /* Q */
+  pri->ei->alpha[0][14] = 551.;         /* R */
+  pri->ei->alpha[0][15] = 926.;         /* S */
+  pri->ei->alpha[0][16] = 623.;         /* T */
+  pri->ei->alpha[0][17] = 505.;         /* V */
+  pri->ei->alpha[0][18] = 102.;         /* W */
+  pri->ei->alpha[0][19] = 269.;         /* Y */
+
+  return pri;
+
+ ERROR:
+  if (pri != NULL) p7_prior_Destroy(pri);
+  return NULL;
+}
+
+/* Function:  p7_prior_CreateNucleic()
+ *
+ * Purpose:   Creates the default mixture Dirichlet prior for nucleotide
+ *            sequences.
+ *
+ *            The transition priors (match, insert, delete) are all
+ *            single Dirichlets, trained on a portion of the rmark dataset
+ *
+ *            The match emission prior is an eight-component mixture
+ *            trained against a portion of the rmark dataset
+ *
+ *            The insert emission prior is a single Dirichlet with
+ *            high $|\alpha|$, such that insert emission probabilities
+ *            are essentially fixed by the prior, regardless of
+ *            observed count data.
+ *
+ * Returns:   a pointer to the new <P7_PRIOR> structure.
+ */
+P7_PRIOR *
+p7_prior_CreateNucleic(void)
+{
+  int status;
+  P7_PRIOR *pri = NULL;
+  int q;
+
+  /* Plus-1 Laplace prior
+  int num_comp = 1;
+  static double defmq[2] =  { 1.0  };
+  static double defm[1][4] = {
+         { 1.0, 1.0, 1.0, 1.0} //
+  };
+*/
+
+  /* Match emission priors are trained on Rmark3 database
+   * Xref: ~wheelert/notebook/2011/0325_nhmmer_new_parameters
+   */
+   int num_comp = 4;
+   static double defmq[4] = { 0.24, 0.26, 0.08, 0.42  };
+   static double defm[4][4] = {
+         { 0.16,  0.45,  0.12,   0.39},
+         { 0.09,  0.03,  0.09,   0.04},
+         { 1.29,  0.40,  6.58,   0.51},
+         { 1.74,  1.49,  1.57,   1.95}
+	};
+
+
+
+  ESL_ALLOC(pri, sizeof(P7_PRIOR));
+  pri->tm = pri->ti = pri->td = pri->em = pri->ei = NULL;
+
+
+  pri->tm = esl_mixdchlet_Create(1, 3);  // match transitions; single component; 3 params
+  pri->ti = esl_mixdchlet_Create(1, 2);  // insert transitions; single component; 2 params
+  pri->td = esl_mixdchlet_Create(1, 2);  // delete transitions; single component; 2 params
+  pri->em = esl_mixdchlet_Create(num_comp, 4); // match emissions; X component; 4 params
+  pri->ei = esl_mixdchlet_Create(1, 4); // insert emissions; single component; 4 params
+
+
+  if (pri->tm == NULL || pri->ti == NULL || pri->td == NULL || pri->em == NULL || pri->ei == NULL) goto ERROR;
+
+  /* Transition priors: roughly, learned from rmark benchmark - hand-beautified (trimming overspecified significant digits)
+   */
+  pri->tm->pq[0]       = 1.0;
+  pri->tm->alpha[0][0] = 2.0; // TMM
+  pri->tm->alpha[0][1] = 0.1; // TMI
+  pri->tm->alpha[0][2] = 0.1; // TMD
+
+
+  pri->ti->pq[0]       = 1.0;
+  pri->ti->alpha[0][0] = 0.06; // TIM
+  pri->ti->alpha[0][1] = 0.2; // TII
+
+  pri->td->pq[0]       = 1.0;
+  pri->td->alpha[0][0] = 0.1; // TDM
+  pri->td->alpha[0][1] = 0.2; // TDD
+
+
+
+  /* Match emission priors  */
+  for (q = 0; q < num_comp; q++)
+    {
+      pri->em->pq[q] = defmq[q];
+      esl_vec_DCopy(defm[q], 4, pri->em->alpha[q]);
+    }
+
+
+  /* Insert emission priors. Should that alphas be lower? higher?
+   */
+  pri->ei->pq[0] = 1.0;
+  esl_vec_DSet(pri->ei->alpha[0], 4, 1.0);
+
+  return pri;
+
+ ERROR:
+  if (pri != NULL) p7_prior_Destroy(pri);
+  return NULL;
+}
+
+
+
+/* Function:  p7_prior_CreateLaplace()
+ * Synopsis:  Creates Laplace plus-one prior.
+ * Incept:    SRE, Sat Jun 30 09:48:13 2007 [Janelia]
+ *
+ * Purpose:   Create a Laplace plus-one prior for alphabet <abc>.
+ */
+P7_PRIOR *
+p7_prior_CreateLaplace(const ESL_ALPHABET *abc)
+{
+  P7_PRIOR *pri = NULL;
+  int        status;
+
+  ESL_ALLOC(pri, sizeof(P7_PRIOR));
+  pri->tm = pri->ti = pri->td = pri->em = pri->ei = NULL;
+
+  pri->tm = esl_mixdchlet_Create(1, 3);	     /* single component; 3 params */
+  pri->ti = esl_mixdchlet_Create(1, 2);	     /* single component; 2 params */
+  pri->td = esl_mixdchlet_Create(1, 2);	     /* single component; 2 params */
+  pri->em = esl_mixdchlet_Create(1, abc->K); /* single component; K params */
+  pri->ei = esl_mixdchlet_Create(1, abc->K); /* single component; K params */
+
+  if (pri->tm == NULL || pri->ti == NULL || pri->td == NULL || pri->em == NULL || pri->ei == NULL) goto ERROR;
+
+  pri->tm->pq[0] = 1.0;   esl_vec_DSet(pri->tm->alpha[0], 3,      1.0);  /* match transitions  */
+  pri->ti->pq[0] = 1.0;   esl_vec_DSet(pri->ti->alpha[0], 2,      1.0);  /* insert transitions */
+  pri->td->pq[0] = 1.0;   esl_vec_DSet(pri->td->alpha[0], 2,      1.0);  /* delete transitions */
+  pri->em->pq[0] = 1.0;   esl_vec_DSet(pri->em->alpha[0], abc->K, 1.0);  /* match emissions    */
+  pri->ei->pq[0] = 1.0;   esl_vec_DSet(pri->ei->alpha[0], abc->K, 1.0);  /* insert emissions   */
+  return pri;
+
+ ERROR:
+  p7_prior_Destroy(pri);
+  return NULL;
+}
+
+
+/* Function:  p7_prior_Destroy()
+ * Incept:    SRE, Sat Mar 24 09:55:09 2007 [Janelia]
+ *
+ * Purpose:   Frees a mixture Dirichlet prior.
+ */
+void
+p7_prior_Destroy(P7_PRIOR *pri)
+{
+  if (pri == NULL) return;
+  if (pri->tm != NULL) esl_mixdchlet_Destroy(pri->tm);
+  if (pri->ti != NULL) esl_mixdchlet_Destroy(pri->ti);
+  if (pri->td != NULL) esl_mixdchlet_Destroy(pri->td);
+  if (pri->em != NULL) esl_mixdchlet_Destroy(pri->em);
+  if (pri->ei != NULL) esl_mixdchlet_Destroy(pri->ei);
+  free(pri);
+}
+
+
+
+/* Function:  p7_ParameterEstimation()
+ * Incept:    SRE, Sat Mar 24 10:15:37 2007 [Janelia]
+ *
+ * Purpose:   Given an <hmm> containing weighted counts, and
+ *            a mixture Dirichlet prior <pri>: calculate mean
+ *            posterior parameter estimates for all model parameters,
+ *            converting the HMM to a parameterized probabilistic
+ *            model.
+ *            
+ *            If <pri> is <NULL>, then model parameters are calculated
+ *            as frequencies, by normalization of <hmm>.
+ *            
+ * Args:      hmm - profile structure, containing counts.
+ *            pri - mixture Dirichlet prior structure, or <NULL>.
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_ParameterEstimation(P7_HMM *hmm, const P7_PRIOR *pri)
+{
+  int   k;
+  double c[p7_MAXABET];
+  double p[p7_MAXABET];
+  double mix[p7_MAXDCHLET];
+  
+  /* Special case of pri=NULL: convert to frequencies.*/  
+  if (pri==NULL) return p7_hmm_Renormalize(hmm);
+
+  /* Match transitions 0,1..M: 0 is the B state
+   * TMD at node M is 0.
+   */
+  for (k = 0; k <= hmm->M; k++) {
+    esl_vec_F2D(hmm->t[k], 3, c);
+    esl_mixdchlet_MPParameters(c, 3, pri->tm, mix, p);
+    esl_vec_D2F(p, 3, hmm->t[k]);
+  }
+  hmm->t[hmm->M][p7H_MD] = 0.0;
+  esl_vec_FNorm(hmm->t[hmm->M], 3);
+
+  /* Insert transitions, 0..M
+   */
+  for (k = 0; k <= hmm->M; k++) {
+    esl_vec_F2D(hmm->t[k]+3, 2, c);
+    esl_mixdchlet_MPParameters(c, 2, pri->ti, mix, p);
+    esl_vec_D2F(p, 2, hmm->t[k]+3);
+  }
+
+  /* Delete transitions, 1..M-1
+   * For k=0, which is unused; convention sets TMM=1.0, TMD=0.0
+   * For k=M, TMM = 1.0 (to the E state) and TMD=0.0 (no next D; must go to E).
+   */
+  for (k = 1; k < hmm->M; k++) {
+    esl_vec_F2D(hmm->t[k]+5, 2, c);
+    esl_mixdchlet_MPParameters(c, 2, pri->td, mix, p);
+    esl_vec_D2F(p, 2, hmm->t[k]+5);
+  }
+  hmm->t[0][p7H_DM] = hmm->t[hmm->M][p7H_DM] = 1.0;
+  hmm->t[0][p7H_DD] = hmm->t[hmm->M][p7H_DD] = 0.0;
+
+  /* Match emissions, 1..M
+   * Convention sets mat[0] to a valid pvector: first elem 1, the rest 0.
+   */
+  for (k = 1; k <= hmm->M; k++) {
+    esl_vec_F2D(hmm->mat[k], hmm->abc->K, c);
+    esl_mixdchlet_MPParameters(c, hmm->abc->K, pri->em, mix, p);
+    esl_vec_D2F(p, hmm->abc->K, hmm->mat[k]);
+  }
+  esl_vec_FSet(hmm->mat[0], hmm->abc->K, 0.);
+  hmm->mat[0][0] = 1.0;
+
+  /* Insert emissions 0..M
+   */
+  for (k = 0; k <= hmm->M; k++) {
+    esl_vec_F2D(hmm->ins[k], hmm->abc->K, c);
+    esl_mixdchlet_MPParameters(c, hmm->abc->K, pri->ei, mix, p);
+    esl_vec_D2F(p, hmm->abc->K, hmm->ins[k]);
+  }
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_profile.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_profile.c
new file mode 100755
index 0000000..3dc3163
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_profile.c
@@ -0,0 +1,654 @@
+/* Routines for the P7_PROFILE structure - Plan 7's search profile
+ *                                         
+ *    1. The P7_PROFILE object: allocation, initialization, destruction.
+ *    2. Access methods.
+ *    3. Debugging and development code.
+ *    4. Unit tests.
+ *    5. Test driver.
+ *
+ * See also: 
+ *   modelconfig.c : routines that configure a profile given an HMM
+ */
+
+#include "p7_config.h"
+
+#include <string.h>
+#ifdef HAVE_MPI
+#include <mpi.h>
+#endif
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. The P7_PROFILE object: allocation, initialization, destruction.
+ *****************************************************************/
+
+/* Function:  p7_profile_Create()
+ * Synopsis:  Allocates a profile.
+ *
+ * Purpose:   Allocates for a profile of up to <M> nodes, for digital
+ *            alphabet <abc>.
+ *            
+ *            Because this function might be in the critical path (in
+ *            hmmscan, for example), we leave much of the model
+ *            unintialized, including scores and length model
+ *            probabilities. The <p7_ProfileConfig()> call is what
+ *            sets these. 
+ *            
+ *            The alignment mode is set to <p7_NO_MODE>.  The
+ *            reference pointer <gm->abc> is set to <abc>.
+ *
+ * Returns:   a pointer to the new profile.
+ *
+ * Throws:    <NULL> on allocation error.
+ *
+ * Xref:      STL11/125.
+ */
+P7_PROFILE *
+p7_profile_Create(int allocM, const ESL_ALPHABET *abc)
+{
+  P7_PROFILE *gm = NULL;
+  int         x;
+  int         status;
+
+  /* level 0 */
+  ESL_ALLOC(gm, sizeof(P7_PROFILE));
+  gm->tsc       = NULL;
+  gm->rsc       = NULL;
+  gm->rf        = NULL;
+  gm->mm        = NULL;
+  gm->cs        = NULL;
+  gm->consensus = NULL;
+
+  /* level 1 */
+  ESL_ALLOC(gm->tsc,       sizeof(float)   * allocM * p7P_NTRANS); 
+  ESL_ALLOC(gm->rsc,       sizeof(float *) * abc->Kp);
+  ESL_ALLOC(gm->rf,        sizeof(char)    * (allocM+2)); /* yes, +2: each is (0)1..M, +trailing \0  */
+  ESL_ALLOC(gm->mm,        sizeof(char)    * (allocM+2));
+  ESL_ALLOC(gm->cs,        sizeof(char)    * (allocM+2));
+  ESL_ALLOC(gm->consensus, sizeof(char)    * (allocM+2));
+  gm->rsc[0] = NULL;
+  
+  /* level 2 */
+  ESL_ALLOC(gm->rsc[0], sizeof(float) * abc->Kp * (allocM+1) * p7P_NR);
+  for (x = 1; x < abc->Kp; x++) 
+    gm->rsc[x] = gm->rsc[0] + x * (allocM+1) * p7P_NR;
+
+  /* Initialize some edge pieces of memory that are never used,
+   * and are only present for indexing convenience.
+   */
+  esl_vec_FSet(gm->tsc, p7P_NTRANS, -eslINFINITY);     /* node 0 nonexistent, has no transitions  */
+  if (allocM > 1) {
+    p7P_TSC(gm, 1, p7P_DM) = -eslINFINITY;             /* delete state D_1 is wing-retracted      */
+    p7P_TSC(gm, 1, p7P_DD) = -eslINFINITY;
+  }
+  for (x = 0; x < abc->Kp; x++) {        
+    p7P_MSC(gm, 0,      x) = -eslINFINITY;             /* no emissions from nonexistent M_0... */
+    p7P_ISC(gm, 0,      x) = -eslINFINITY;             /* or I_0... */
+    /* I_M is initialized in profile config, when we know actual M, not just allocated max M   */
+  }
+  x = esl_abc_XGetGap(abc);	                       /* no emission can emit/score gap characters */
+  esl_vec_FSet(gm->rsc[x], (allocM+1)*p7P_NR, -eslINFINITY);
+  x = esl_abc_XGetMissing(abc);	                      /* no emission can emit/score missing data characters */
+  esl_vec_FSet(gm->rsc[x], (allocM+1)*p7P_NR, -eslINFINITY);
+
+  /* Set remaining info  */
+  gm->mode             = p7_NO_MODE;
+  gm->L                = 0;
+  gm->allocM           = allocM;
+  gm->M                = 0;
+  gm->max_length       = -1;
+  gm->nj               = 0.0f;
+
+  gm->roff             = -1;
+  gm->eoff             = -1;
+  gm->offs[p7_MOFFSET] = -1;
+  gm->offs[p7_FOFFSET] = -1;
+  gm->offs[p7_POFFSET] = -1;
+
+  gm->name             = NULL;
+  gm->acc              = NULL;
+  gm->desc             = NULL;
+  gm->rf[0]            = 0;     /* RF line is optional annotation; this flags that it's not set yet */
+  gm->mm[0]            = 0;     /* likewise for MM annotation line */
+  gm->cs[0]            = 0;     /* likewise for CS annotation line */
+  gm->consensus[0]     = 0;
+  
+  for (x = 0; x < p7_NEVPARAM; x++) gm->evparam[x] = p7_EVPARAM_UNSET;
+  for (x = 0; x < p7_NCUTOFFS; x++) gm->cutoff[x]  = p7_CUTOFF_UNSET;
+  for (x = 0; x < p7_MAXABET;  x++) gm->compo[x]   = p7_COMPO_UNSET;
+
+  gm->abc         = abc;
+  return gm;
+
+ ERROR:
+  p7_profile_Destroy(gm);
+  return NULL;
+}
+
+
+/* Function:  p7_profile_Copy()
+ * Synopsis:  Copy a profile.
+ *
+ * Purpose:   Copies profile <src> to profile <dst>, where <dst>
+ *            has already been allocated to be of sufficient size.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEMEM> on allocation error; <eslEINVAL> if <dst> is too small 
+ *            to fit <src>.
+ */
+int
+p7_profile_Copy(const P7_PROFILE *src, P7_PROFILE *dst)
+{
+  int x,z;
+  int status;
+
+  if (src->M > dst->allocM) ESL_EXCEPTION(eslEINVAL, "destination profile is too small to hold a copy of source profile");
+
+  esl_vec_FCopy(src->tsc, src->M*p7P_NTRANS, dst->tsc);
+  for (x = 0; x < src->abc->Kp;   x++) esl_vec_FCopy(src->rsc[x], (src->M+1)*p7P_NR, dst->rsc[x]);
+  for (x = 0; x < p7P_NXSTATES;   x++) esl_vec_FCopy(src->xsc[x], p7P_NXTRANS,       dst->xsc[x]);
+
+  dst->mode        = src->mode;
+  dst->L           = src->L;
+  dst->allocM      = src->allocM;
+  dst->M           = src->M;
+  dst->max_length  = src->max_length;
+  dst->nj          = src->nj;
+
+  dst->roff        = src->roff;
+  dst->eoff        = src->eoff;
+  for (x = 0; x < p7_NOFFSETS; ++x) dst->offs[x] = src->offs[x];
+
+  if (dst->name != NULL) free(dst->name);
+  if (dst->acc  != NULL) free(dst->acc);
+  if (dst->desc != NULL) free(dst->desc);
+
+  if ((status = esl_strdup(src->name,      -1, &(dst->name)))      != eslOK) return status;
+  if ((status = esl_strdup(src->acc,       -1, &(dst->acc)))       != eslOK) return status;
+  if ((status = esl_strdup(src->desc,      -1, &(dst->desc)))      != eslOK) return status;
+
+  strcpy(dst->rf,        src->rf);         /* RF is optional: if it's not set, *rf=0, and strcpy still works fine */
+  strcpy(dst->mm,        src->mm);         /* MM is also optional annotation */
+  strcpy(dst->cs,        src->cs);         /* CS is also optional annotation */
+  strcpy(dst->consensus, src->consensus);  /* consensus though is always present on a valid profile */
+
+  for (z = 0; z < p7_NEVPARAM; z++) dst->evparam[z] = src->evparam[z];
+  for (z = 0; z < p7_NCUTOFFS; z++) dst->cutoff[z]  = src->cutoff[z];
+  for (z = 0; z < p7_MAXABET;  z++) dst->compo[z]   = src->compo[z];
+  return eslOK;
+}
+
+
+/* Function:  p7_profile_Clone()
+ * Synopsis:  Duplicates a profile.
+ *
+ * Purpose:   Duplicate profile <gm>; return a pointer
+ *            to the newly allocated copy.
+ */
+P7_PROFILE *
+p7_profile_Clone(const P7_PROFILE *gm)
+{
+  P7_PROFILE *g2 = NULL;
+  int         status;
+
+  if ((g2 = p7_profile_Create(gm->allocM, gm->abc)) == NULL) return NULL;
+  if ((status = p7_profile_Copy(gm, g2)) != eslOK) goto ERROR;
+  return g2;
+  
+ ERROR:
+  p7_profile_Destroy(g2);
+  return NULL;
+}
+
+
+
+/* Function:  p7_profile_SetNullEmissions()
+ * Synopsis:  Set all emission scores to zero (experimental).
+ *
+ * Purpose:   Set all emission scores in profile <gm> to zero.
+ *            This makes the profile a null model, with all the same
+ *            length distributions as the original model, but
+ *            the emission probabilities of the background.
+ *            
+ *            Written to test the idea that score statistics will be
+ *            even better behaved when using a null model with the
+ *            same length distribution as the search model.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_profile_SetNullEmissions(P7_PROFILE *gm)
+{
+  int x;
+  for (x = 0; x <= gm->abc->K; x++)                esl_vec_FSet(gm->rsc[x], (gm->M+1)*p7P_NR, 0.0);   /* canonicals    */
+  for (x = gm->abc->K+1; x <= gm->abc->Kp-3; x++)  esl_vec_FSet(gm->rsc[x], (gm->M+1)*p7P_NR, 0.0);   /* noncanonicals */
+  return eslOK;
+}
+
+
+/* Function:  p7_profile_Reuse()
+ * Synopsis:  Prepare profile to be re-used for a new HMM.
+ *
+ * Purpose:   Prepare profile <gm>'s memory to be re-used
+ *            for a new HMM.
+ */
+int
+p7_profile_Reuse(P7_PROFILE *gm)
+{
+  /* name, acc, desc annotation is dynamically allocated for each HMM */
+  if (gm->name != NULL) { free(gm->name); gm->name = NULL; }
+  if (gm->acc  != NULL) { free(gm->acc);  gm->acc  = NULL; }
+  if (gm->desc != NULL) { free(gm->desc); gm->desc = NULL; }
+
+  /* set annotations to empty strings */
+  gm->rf[0]        = 0;
+  gm->mm[0]        = 0;
+  gm->cs[0]        = 0;
+  gm->consensus[0] = 0;
+      
+  /* reset some other things, but leave the rest alone. */
+  gm->mode = p7_NO_MODE;
+  gm->L    = 0;
+  gm->M    = 0;
+  gm->nj   = 0.0f;
+
+  gm->roff             = -1;
+  gm->eoff             = -1;
+  gm->offs[p7_MOFFSET] = -1;
+  gm->offs[p7_FOFFSET] = -1;
+  gm->offs[p7_POFFSET] = -1;
+
+  return eslOK;
+}
+
+
+/* Function:  p7_profile_Sizeof()
+ * Synopsis:  Return the allocated size of a P7_PROFILE.
+ *
+ * Purpose:   Return the allocated size of a <P7_PROFILE>, in bytes.
+ */
+size_t
+p7_profile_Sizeof(P7_PROFILE *gm)
+{
+  size_t n = 0;
+
+  /* these mirror malloc()'s in p7_profile_Create(); maintain one:one correspondence for maintainability */
+  n += sizeof(P7_PROFILE);
+  n += sizeof(float)   * gm->allocM * p7P_NTRANS;             /* gm->tsc       */
+  n += sizeof(float *) * gm->abc->Kp;	                      /* gm->rsc       */
+  n += sizeof(char)    * (gm->allocM+2);	              /* gm->rf        */
+  n += sizeof(char)    * (gm->allocM+2);                /* gm->mm        */
+  n += sizeof(char)    * (gm->allocM+2);	              /* gm->cs        */
+  n += sizeof(char)    * (gm->allocM+2);	              /* gm->consensus */
+
+  n += sizeof(float) * gm->abc->Kp * (gm->allocM+1) * p7P_NR; /* gm->rsc[0]    */
+
+  return n;
+}
+
+
+/* Function:  p7_profile_Destroy()
+ * Synopsis:  Frees a profile.
+ *
+ * Purpose:   Frees a profile <gm>.
+ *
+ * Returns:   (void).
+ *
+ * Xref:      STL11/125.
+ */
+void
+p7_profile_Destroy(P7_PROFILE *gm)
+{
+  if (gm != NULL) {
+    if (gm->rsc   != NULL && gm->rsc[0] != NULL) free(gm->rsc[0]);
+    if (gm->tsc       != NULL) free(gm->tsc);
+    if (gm->rsc       != NULL) free(gm->rsc);
+    if (gm->name      != NULL) free(gm->name);
+    if (gm->acc       != NULL) free(gm->acc);
+    if (gm->desc      != NULL) free(gm->desc);
+    if (gm->rf        != NULL) free(gm->rf);
+    if (gm->mm        != NULL) free(gm->mm);
+    if (gm->cs        != NULL) free(gm->cs);
+    if (gm->consensus != NULL) free(gm->consensus);
+    free(gm);
+  }
+  return;
+}
+
+
+/*****************************************************************
+ * 2. Access methods.
+ *****************************************************************/
+
+/* Function:  p7_profile_IsLocal()
+ * Synopsis:  Return TRUE if profile is in a local alignment mode.
+ *
+ * Purpose:   Return <TRUE> if profile is in a local alignment mode.
+ */
+int
+p7_profile_IsLocal(const P7_PROFILE *gm)
+{
+  if (gm->mode == p7_UNILOCAL || gm->mode == p7_LOCAL) return TRUE;
+  return FALSE;
+}
+
+/* Function:  p7_profile_IsMultihit()
+ * Synopsis:  Return TRUE if profile is in a multihit alignment mode.
+ *
+ * Purpose:   Return <TRUE> if profile is in a multihit alignment mode.
+ */
+int
+p7_profile_IsMultihit(const P7_PROFILE *gm)
+{
+  if (gm->mode == p7_LOCAL || gm->mode == p7_GLOCAL) return TRUE;
+  return FALSE;
+}
+
+
+
+
+/* Function:  p7_profile_GetT()
+ *
+ * Purpose:   Convenience function that looks up a transition score in
+ *            profile <gm> for a transition from state type <st1> in
+ *            node <k1> to state type <st2> in node <k2>. For unique
+ *            state types that aren't in nodes (<p7T_S>, for example), the
+ *            <k> value is ignored, though it would be customarily passed as 0.
+ *            Return the transition score in <ret_tsc>.
+ *            
+ *            This function would almost always be called on profile
+ *            traces, of course, but it's possible to call it
+ *            on core traces (for example, if you were to try to 
+ *            trace_Dump() during HMM construction, and you wanted
+ *            to see detailed profile scores for that trace). Core traces
+ *            can contain <p7T_X> "states" used solely to signal
+ *            a sequence fragment, treated as missing data. Transitions
+ *            involving <p7T_X> states are assigned zero score here.
+ *            Other transitions that occur only in core traces
+ *            (B->I0, B->D1, I_M->E) also silently get a zero score.
+ *            This is safe, because we would only ever use this number
+ *            for display, not as a log probability somewhere.
+ *
+ * Returns:   <eslOK> on success, and <*ret_tsc> contains the requested
+ *            transition score.            
+ * 
+ * Throws:    <eslEINVAL> if a nonexistent transition is requested. Now
+ *            <*ret_tsc> is set to $-\infty$.
+ *            
+ */
+int
+p7_profile_GetT(const P7_PROFILE *gm, char st1, int k1, char st2, int k2, float *ret_tsc)
+{
+  float tsc = 0.0f;
+  int   status;
+
+  /* Detect transitions that can only come from core traces;
+   * return 0.0 as a special case (this is only done for displaying
+   * "scores" in trace dumps, during debugging.)
+   */
+  if (st1 == p7T_X || st2 == p7T_X) return eslOK;
+  if (st1 == p7T_B && st2 == p7T_I) return eslOK;
+  if (st1 == p7T_B && st2 == p7T_D) return eslOK;
+  if (st1 == p7T_I && st1 == p7T_E) return eslOK;
+
+  /* Now we're sure this is a profile trace, as it should usually be. */
+  switch (st1) {
+  case p7T_S:  break;
+  case p7T_T:  break;
+  case p7T_N:
+    switch (st2) {
+    case p7T_B: tsc =  gm->xsc[p7P_N][p7P_MOVE]; break;
+    case p7T_N: tsc =  gm->xsc[p7P_N][p7P_LOOP]; break;
+    default:    ESL_XEXCEPTION(eslEINVAL, "bad transition %s->%s", p7_hmm_DecodeStatetype(st1), p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_B:
+    switch (st2) {
+    case p7T_M: tsc = p7P_TSC(gm, k2-1, p7P_BM); break; /* remember, B->Mk is stored in [k-1][p7P_BM] */
+    default:    ESL_XEXCEPTION(eslEINVAL, "bad transition %s->%s", p7_hmm_DecodeStatetype(st1), p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_M:
+    switch (st2) {
+    case p7T_M: tsc = p7P_TSC(gm, k1, p7P_MM); break;
+    case p7T_I: tsc = p7P_TSC(gm, k1, p7P_MI); break;
+    case p7T_D: tsc = p7P_TSC(gm, k1, p7P_MD); break;
+    case p7T_E: 
+      if (k1 != gm->M && ! p7_profile_IsLocal(gm)) ESL_EXCEPTION(eslEINVAL, "local end transition (M%d of %d) in non-local model", k1, gm->M);
+      tsc = 0.0f;		/* by def'n in H3 local alignment */
+      break;
+    default:    ESL_XEXCEPTION(eslEINVAL, "bad transition %s_%d->%s", p7_hmm_DecodeStatetype(st1), k1, p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_D:
+    switch (st2) {
+    case p7T_M: tsc = p7P_TSC(gm, k1, p7P_DM); break;
+    case p7T_D: tsc = p7P_TSC(gm, k1, p7P_DD); break;
+    case p7T_E: 
+      if (k1 != gm->M && ! p7_profile_IsLocal(gm)) ESL_EXCEPTION(eslEINVAL, "local end transition (D%d of %d) in non-local model", k1, gm->M);
+      tsc = 0.0f;		/* by def'n in H3 local alignment */
+      break;
+    default:    ESL_XEXCEPTION(eslEINVAL, "bad transition %s_%d->%s", p7_hmm_DecodeStatetype(st1), k1, p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_I:
+    switch (st2) {
+    case p7T_M: tsc = p7P_TSC(gm, k1, p7P_IM); break;
+    case p7T_I: tsc = p7P_TSC(gm, k1, p7P_II); break;
+    default:    ESL_XEXCEPTION(eslEINVAL, "bad transition %s_%d->%s", p7_hmm_DecodeStatetype(st1), k1, p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_E:
+    switch (st2) {
+    case p7T_C: tsc = gm->xsc[p7P_E][p7P_MOVE]; break;
+    case p7T_J: tsc = gm->xsc[p7P_E][p7P_LOOP]; break;
+    default:     ESL_XEXCEPTION(eslEINVAL, "bad transition %s->%s", p7_hmm_DecodeStatetype(st1), p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_J:
+    switch (st2) {
+    case p7T_B: tsc = gm->xsc[p7P_J][p7P_MOVE]; break;
+    case p7T_J: tsc = gm->xsc[p7P_J][p7P_LOOP]; break;
+    default:     ESL_XEXCEPTION(eslEINVAL, "bad transition %s->%s", p7_hmm_DecodeStatetype(st1), p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  case p7T_C:
+    switch (st2) {
+    case p7T_T:  tsc = gm->xsc[p7P_C][p7P_MOVE]; break;
+    case p7T_C:  tsc = gm->xsc[p7P_C][p7P_LOOP]; break;
+    default:     ESL_XEXCEPTION(eslEINVAL, "bad transition %s->%s", p7_hmm_DecodeStatetype(st1), p7_hmm_DecodeStatetype(st2));
+    }
+    break;
+
+  default: ESL_XEXCEPTION(eslEINVAL, "bad state type %d in traceback", st1);
+  }
+
+  *ret_tsc = tsc;
+  return eslOK;
+
+ ERROR:
+  *ret_tsc = -eslINFINITY;
+  return status;
+}
+
+
+/*****************************************************************
+ * 3. Debugging and development code.
+ *****************************************************************/
+
+/* Function:  p7_profile_Validate()
+ *
+ * Purpose:   Validates the internals of the generic profile structure
+ *            <gm>.
+ *            
+ *            TODO: currently this function is incomplete, and only
+ *            validates the entry distribution.
+ *            
+ * Returns:   <eslOK> if <gm> internals look fine. Returns <eslFAIL>
+ *            if something is wrong, and leaves an error message in
+ *            <errbuf> if caller passed it non-<NULL>.
+ */
+int
+p7_profile_Validate(const P7_PROFILE *gm, char *errbuf, float tol)
+{
+  int     status;
+  int     k;
+  double *pstart = NULL;
+
+  ESL_ALLOC(pstart, sizeof(double) * (gm->M+1));
+  pstart[0] = 0.0;
+
+  /* Validate the entry distribution.
+   * In a glocal model, this is an explicit probability distribution,
+   * corresponding to left wing retraction.
+   * In a local model, this is an implicit probability distribution,
+   * corresponding to the implicit local alignment model, and we have
+   * to calculate the M(M+1)/2 fragment probabilities accordingly.
+   */
+  if (p7_profile_IsLocal(gm))
+    {				/* the code block below is also in emit.c:sample_endpoints */
+      for (k = 1; k <= gm->M; k++)
+	pstart[k] = exp(p7P_TSC(gm, k-1, p7P_BM)) * (gm->M - k + 1); /* multiply p_ij by the number of exits j */
+    }
+  else
+    {
+      for (k = 1; k <= gm->M; k++)
+	pstart[k] = exp(p7P_TSC(gm, k-1, p7P_BM));
+    }
+
+  if (esl_vec_DValidate(pstart, gm->M+1, tol, NULL) != eslOK) ESL_XFAIL(eslFAIL, errbuf, "profile entry distribution is not normalized properly");
+  free(pstart);
+  return eslOK;
+
+ ERROR:
+  if (pstart != NULL) free(pstart);
+  return eslFAIL;
+}
+
+/* Function:  p7_profile_Compare()
+ * Synopsis:  Compare two profiles for equality.
+ *
+ * Purpose:   Compare two profiles <gm1> and <gm2> to each other.
+ *            Return <eslOK> if they're identical, and <eslFAIL> if
+ *            they differ. Floating-point probabilities are 
+ *            compared for equality within a fractional tolerance
+ *            <tol>.  Only compares the scores, not any annotation
+ *            on the profiles.
+ */
+int
+p7_profile_Compare(P7_PROFILE *gm1, P7_PROFILE *gm2, float tol)
+{
+  int x;
+
+  if (gm1->mode != gm2->mode) return eslFAIL;
+  if (gm1->M    != gm2->M)    return eslFAIL;
+
+  if (esl_vec_FCompare(gm1->tsc, gm2->tsc, gm1->M*p7P_NTRANS, tol)         != eslOK) return eslFAIL;
+  for (x = 0; x < gm1->abc->Kp; x++) 
+    if (esl_vec_FCompare(gm1->rsc[x], gm2->rsc[x], (gm1->M+1)*p7P_NR, tol) != eslOK) return eslFAIL;
+
+  for (x = 0; x < p7P_NXSTATES; x++)
+    if (esl_vec_FCompare(gm1->xsc[x], gm2->xsc[x], p7P_NXTRANS, tol)       != eslOK) return eslFAIL;
+
+  return eslOK;
+}
+
+
+
+/*****************************************************************
+ * 4. Unit tests
+ *****************************************************************/
+#ifdef p7PROFILE_TESTDRIVE
+#include "esl_alphabet.h"
+#include "esl_random.h"
+
+static void
+utest_Compare(void)
+{
+  ESL_RANDOMNESS *r    = esl_randomness_CreateFast(42);
+  ESL_ALPHABET   *abc  = esl_alphabet_Create(eslAMINO);
+  P7_HMM         *hmm  = NULL;
+  P7_BG          *bg   = NULL;
+  P7_PROFILE     *gm   = NULL;
+  P7_PROFILE     *gm2  = NULL;
+  int             M    = 200;
+  int             L    = 400;
+
+  p7_hmm_Sample(r, M, abc, &hmm); /* master and worker's sampled profiles are identical */
+  bg  = p7_bg_Create(abc);
+  gm  = p7_profile_Create(hmm->M, abc);
+  gm2 = p7_profile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm,  400, p7_LOCAL);
+  p7_ProfileConfig(hmm, bg, gm2, 400, p7_LOCAL);
+  p7_ReconfigLength(gm,  L);
+  p7_ReconfigLength(gm2, L);
+
+  if (p7_profile_Compare(gm, gm2, 0.001) != eslOK) p7_Die("identical profile comparison failed");
+  
+  p7_profile_Destroy(gm);
+  p7_profile_Destroy(gm2);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  return;
+}
+
+
+#endif /*p7PROFILE_TESTDRIVE*/
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+#ifdef p7PROFILE_TESTDRIVE
+
+/* gcc -o profile_utest -g -Wall -I../easel -L../easel -I. -L. -Dp7PROFILE_TESTDRIVE p7_profile.c -lhmmer -leasel -lm
+ * ./profile_utest
+ */
+#include "esl_getopts.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL, NULL, NULL, NULL, "show brief help on version and usage",              0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for p7_profile.c";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS *go = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+
+  utest_Compare();
+
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7PROFILE_TESTDRIVE*/
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_profile.c $
+ * SVN $Id: p7_profile.c 3960 2012-03-22 21:42:50Z wheelert $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_scoredata.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_scoredata.c
new file mode 100755
index 0000000..78d27a3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_scoredata.c
@@ -0,0 +1,465 @@
+/* The Plan7 SCOREDATA data structure, which holds a compact representation
+ * of substitution scores and maximal extensions, used by nhmmer.
+ *
+ * Contents:
+ *   1. The P7_SCOREDATA object: allocation, initialization, destruction.
+ *   2. Unit tests.
+ *   3. Test driver.
+ *   4. Copyright and license.
+ *
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+#include <string.h>
+#include <time.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_vectorops.h"
+#include "esl_random.h"
+#include "esl_dirichlet.h"
+
+#include "hmmer.h"
+
+
+/*********************************************************************
+ *# 1. The P7_SCOREDATA object: allocation, initialization, destruction.
+ *********************************************************************/
+
+/* Function:  scoredata_GetSSVScoreArrays()
+ * Synopsis:  Get compact representation of substitution scores and maximal extensions
+ *
+ * Purpose:   Extract 8-bit (MSV-style) substitution scores from optimized
+ *            matrix. These scores will be used in both standard MSV diagonal
+ *            recovery and FM-MSV diagonal scoring.
+ *
+ *            Optionally, for each position in the model, capture the maximum
+ *            possible score that can be added to a diagonal's score (in both
+ *            directions) by extending lengths 1..10. These extension scores
+ *            are used in FM-MSV's pruning step.
+ *
+ *            Once a hit passes the SSV filter, and the prefix/suffix
+ *            values of P7_SCOREDATA are required (to establish windows
+ *            around SSV diagonals), p7_hmm_ScoreDataComputeRest()
+ *            must be called.
+ *
+ *
+ * Args:      om         - P7_OPROFILE containing scores used to produce SCOREDATA contents
+ *            data       - where scores and will be stored
+ *            do_opt_ext - boolean, TRUE if optimal-extension scores are required (for FM-MSV)
+ *            scale      - used to produce 8-bit extracted scores
+ *            bias       - used to produce 8-bit extracted scores
+ *
+ * Returns:   data->scores and possibly ->opt_ext_(fwd|rev) are filled in;
+ *            return eslEMEM on allocation failure, eslOK otherwise.
+ */
+static int
+scoredata_GetSSVScoreArrays(P7_OPROFILE *om, P7_PROFILE *gm, P7_SCOREDATA *data ) {
+  int i, j, status;
+
+  //gather values from gm->rsc into a succinct 2D array
+  float   *max_scores;
+  float sc_fwd, sc_rev;
+  int K = om->abc->Kp;
+  data->M = om->M;
+
+  if (!gm) { // get values for the standard pipeline
+    data->type = p7_sd_std;
+    ESL_ALLOC(data->ssv_scores, (om->M + 1) * K * sizeof(uint8_t));
+    p7_oprofile_GetSSVEmissionScoreArray(om, data->ssv_scores);
+
+  } else {// need float, unscaled scores, and other stuff used in the FMindex-based SSV pipeline,
+    data->type = p7_sd_fm;
+    ESL_ALLOC(data->ssv_scores_f, (om->M + 1) * K * sizeof(float));
+    ESL_ALLOC(max_scores, (om->M + 1) * sizeof(float));
+
+    for (i = 1; i <= om->M; i++) {
+      max_scores[i] = 0;
+      for (j=0; j<K; j++) {
+        if (esl_abc_XIsResidue(om->abc,j)) {
+          data->ssv_scores_f[i*K + j] = gm->rsc[j][(i) * p7P_NR     + p7P_MSC];
+          if (data->ssv_scores_f[i*K + j]   > max_scores[i])   max_scores[i]   = data->ssv_scores_f[i*K + j];
+        }
+      }
+    }
+
+    //for each position in the query, what's the highest possible score achieved by extending X positions, for X=1..10
+    ESL_ALLOC(data->opt_ext_fwd, (om->M + 1) * sizeof(float*));
+    ESL_ALLOC(data->opt_ext_rev, (om->M + 1) * sizeof(float*));
+
+    for (i=1; i<om->M; i++) {
+      ESL_ALLOC(data->opt_ext_fwd[i], 10 * sizeof(float));
+      ESL_ALLOC(data->opt_ext_rev[i], 10 * sizeof(float));
+    }
+    for (i=1; i<om->M; i++) {
+      sc_fwd = 0;
+      sc_rev = 0;
+      for (j=0; j<10 && i+j+1<=om->M; j++) {
+        sc_fwd += max_scores[i+j+1];
+        data->opt_ext_fwd[i][j] = sc_fwd;
+
+        sc_rev += max_scores[om->M-i-j];
+        data->opt_ext_rev[om->M-i][j] = sc_rev;
+
+      }
+      for ( ; j<10; j++) { //fill in empty values
+        data->opt_ext_fwd[i][j]       = data->opt_ext_fwd[i][j-1];
+        data->opt_ext_rev[om->M-i][j] = data->opt_ext_rev[om->M-i][j-1];
+      }
+    }
+    free(max_scores);
+  }
+  return eslOK;
+
+ERROR:
+  return eslEMEM;
+}
+
+
+/* Function:  p7_hmm_ScoreDataDestroy()
+ *
+ * Synopsis:  Destroy a <P7_SCOREDATA> object.
+ */
+void
+p7_hmm_ScoreDataDestroy(P7_SCOREDATA *data )
+{
+  int i;
+
+  if (data != NULL) {
+
+    if (data->ssv_scores != NULL)     free( data->ssv_scores);
+    if (data->prefix_lengths != NULL) free( data->prefix_lengths);
+    if (data->suffix_lengths != NULL) free( data->suffix_lengths);
+    if (data->fwd_scores != NULL)     free( data->fwd_scores);
+
+    if (data->fwd_transitions != NULL) {
+      for (i=0; i<p7O_NTRANS; i++)
+        free(data->fwd_transitions[i]);
+      free(data->fwd_transitions);
+    }
+    if (data->opt_ext_fwd != NULL) {
+      for (i=1; i<data->M; i++)
+        free(data->opt_ext_fwd[i]);
+      free(data->opt_ext_fwd);
+    }
+    if (data->opt_ext_rev != NULL) {
+      for (i=1; i<data->M; i++)
+        free(data->opt_ext_rev[i]);
+      free( data->opt_ext_rev);
+    }
+
+    free(data);
+  }
+
+}
+
+/* Function:  p7_hmm_ScoreDataCreate()
+ * Synopsis:  Create a <P7_SCOREDATA> model object, based on MSV-filter
+ *            part of profile
+ *
+ * Purpose:   Allocate a <P7_SCOREDATA> object, then populate
+ *            it with data based on the given optimized matrix.
+ *
+ *            Once a hit passes the MSV filter, and the prefix/suffix
+ *            values of P7_SCOREDATA are required, p7_hmm_ScoreDataComputeRest()
+ *            must be called.
+ *
+ * Args:      om         - P7_OPROFILE containing scores used to produce SCOREDATA contents
+ *            do_opt_ext - boolean, TRUE if optimal-extension scores are required (for FM-MSV)
+ *
+ * Returns:   a pointer to the new <P7_SCOREDATA> object.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_SCOREDATA *
+p7_hmm_ScoreDataCreate(P7_OPROFILE *om, P7_PROFILE *gm )
+{
+  P7_SCOREDATA *data = NULL;
+  int    status;
+
+  ESL_ALLOC(data, sizeof(P7_SCOREDATA));
+
+  data->ssv_scores      = NULL;
+  data->ssv_scores_f    = NULL;
+  data->opt_ext_fwd     = NULL;
+  data->opt_ext_rev     = NULL;
+  data->prefix_lengths  = NULL;
+  data->suffix_lengths  = NULL;
+  data->fwd_scores      = NULL;
+  data->fwd_transitions = NULL;
+
+  scoredata_GetSSVScoreArrays(om, gm, data);
+
+  return data;
+
+ERROR:
+ p7_hmm_ScoreDataDestroy(data);
+ return NULL;
+}
+
+
+/* Function:  p7_hmm_ScoreDataClone()
+ * Synopsis:  Clone a <P7_SCOREDATA> model object
+ *
+ * Purpose:   Allocate a <P7_SCOREDATA> object used in both FM-MSV and
+ *            MSV_LongTarget diagonal recovery/extension, then
+ *            copy data into it from another populated instance
+ *
+ *            Once a hit passes the MSV filter, and the prefix/suffix
+ *            values of P7_SCOREDATA are required, p7_hmm_ScoreDataComputeRest()
+ *            must be called.
+ *
+ * Args:      src        - P7_SCOREDATA upon which clone will be based
+ *            Kp         - alphabet size, including degeneracy codes, gaps
+ *
+ * Returns:   a pointer to the new <P7_SCOREDATA> object.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_SCOREDATA *
+p7_hmm_ScoreDataClone(P7_SCOREDATA *src, int Kp) {
+  P7_SCOREDATA *new;
+  int status;
+  int i;
+
+  if (src == NULL)
+    return NULL;
+
+  ESL_ALLOC(new, sizeof(P7_SCOREDATA));
+  new->M               = src->M;
+  new->type            = src->type;
+  new->ssv_scores      = NULL;
+  new->opt_ext_fwd     = NULL;
+  new->opt_ext_rev     = NULL;
+  new->prefix_lengths  = NULL;
+  new->suffix_lengths  = NULL;
+  new->fwd_scores      = NULL;
+  new->fwd_transitions = NULL;
+
+  if (new->type == p7_sd_std) {
+    ESL_ALLOC(new->ssv_scores, (src->M + 1) * Kp * sizeof(uint8_t));
+    memcpy(new->ssv_scores, src->ssv_scores, (src->M + 1) * Kp * sizeof(uint8_t)  );
+  } else {
+    ESL_ALLOC(new->ssv_scores_f, (src->M + 1) * Kp * sizeof(float));
+    memcpy(new->ssv_scores_f, src->ssv_scores_f, (src->M + 1) * Kp * sizeof(float)  );
+  }
+
+
+  if (src->prefix_lengths != NULL) {
+     ESL_ALLOC(new->prefix_lengths, (src->M+1) * sizeof(float));
+     memcpy(new->prefix_lengths, src->prefix_lengths, (src->M+1) * sizeof(float));
+  }
+  if (src->suffix_lengths != NULL) {
+     ESL_ALLOC(new->suffix_lengths, (src->M+1) * sizeof(float));
+     memcpy(new->suffix_lengths, src->suffix_lengths, (src->M+1) * sizeof(float));
+  }
+  if (src->fwd_scores != NULL) {
+     ESL_ALLOC(new->fwd_scores, (src->M+1) * sizeof(float));
+     memcpy(new->fwd_scores, src->fwd_scores, (src->M+1) * sizeof(float));
+  }
+
+
+  if (src->opt_ext_fwd != NULL) {
+     ESL_ALLOC(new->opt_ext_fwd, (src->M + 1) * sizeof(float*));
+     for (i=1; i<src->M; i++) {
+       ESL_ALLOC(new->opt_ext_fwd[i], 10 * sizeof(float));
+       memcpy(new->opt_ext_fwd[i], src->opt_ext_fwd[i], 10 * sizeof(float));
+     }
+  }
+  if (src->opt_ext_rev != NULL) {
+     ESL_ALLOC(new->opt_ext_rev, (src->M + 1) * sizeof(float*));
+     for (i=1; i<src->M; i++) {
+       ESL_ALLOC(new->opt_ext_rev[i], 10 * sizeof(float));
+       memcpy(new->opt_ext_rev[i], src->opt_ext_rev[i], 10 * sizeof(float));
+     }
+  }
+  if (src->fwd_transitions != NULL) {
+     ESL_ALLOC(new->fwd_transitions, p7O_NTRANS * sizeof(float*));
+     for (i=0; i<p7O_NTRANS; i++) {
+       ESL_ALLOC(new->fwd_transitions[i], (src->M+1)* sizeof(float));
+       memcpy(new->fwd_transitions[i], src->fwd_transitions[i], (src->M+1) * sizeof(float));
+     }
+  }
+
+  return new;
+
+ERROR:
+  return NULL;
+}
+
+/* Function:  p7_hmm_ScoreDataComputeRest()
+ * Synopsis:  Using position-specific insert rates, compute MAXL-based prefix and suffix lengths
+ *
+ * Purpose:   Using position-specific insert rates, compute MAXL-based prefix
+ *            and suffix lengths for each position in the model, used when
+ *            establishing windows around SSV diagonals. This fleshes out
+ *            the <P7_SCOREDATA> model object that was created by
+ *            p7_hmmScoreDataCreate().
+ *
+ *            This approach of computing the prefix/suffix length, used
+ *            in establishing windows around a seed diagonal, is fast
+ *            because it uses a simple closed-form computation of the
+ *            length L_i for each position i at which all but
+ *            (1-p7_DEFAULT_WINDOW_BETA) of position i's match- and
+ *            insert-state emissions are length L_i or shorter.
+ *
+ * Args:      om         - P7_OPROFILE containing emission/transition probabilities used to for calculations
+ *            data       - P7_SCOREDATA into which the computed values are placed
+ *
+ * Returns:   eslEMEM on failure, else eslOK
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+int
+p7_hmm_ScoreDataComputeRest(P7_OPROFILE *om, P7_SCOREDATA *data )
+{
+  int    status;
+  int i;
+  float sum;
+  float *t_mis;
+  float *t_iis;
+
+  ESL_ALLOC(data->fwd_scores, sizeof(float) *  om->abc->Kp * (om->M+1));
+  p7_oprofile_GetFwdEmissionScoreArray(om, data->fwd_scores);
+
+  //2D array, holding all the transition scores/costs
+  ESL_ALLOC(data->fwd_transitions, sizeof(float*) * p7O_NTRANS);
+
+  for (i=0; i<p7O_NTRANS; i++) {
+    ESL_ALLOC(data->fwd_transitions[i], sizeof(float) * (om->M+1));
+    p7_oprofile_GetFwdTransitionArray(om, i, data->fwd_transitions[i] );
+  }
+  t_mis = data->fwd_transitions[p7O_MI];
+  t_iis = data->fwd_transitions[p7O_II];
+
+  ESL_ALLOC(data->prefix_lengths, (om->M+1) * sizeof(float));
+  ESL_ALLOC(data->suffix_lengths, (om->M+1) * sizeof(float));
+
+
+  sum = 0;
+  for (i=1; i < om->M; i++) {
+    data->prefix_lengths[i] = 2 + (int)(log(p7_DEFAULT_WINDOW_BETA / t_mis[i] )/log(t_iis[i]));
+    sum += data->prefix_lengths[i];
+  }
+  data->prefix_lengths[0] = data->prefix_lengths[om->M] = 0;
+
+
+  for (i=1; i < om->M; i++)
+    data->prefix_lengths[i] /=  sum;
+
+  data->suffix_lengths[om->M] = data->prefix_lengths[om->M-1];
+  for (i=om->M - 1; i >= 1; i--)
+    data->suffix_lengths[i] = data->suffix_lengths[i+1] + data->prefix_lengths[i-1];
+  for (i=2; i < om->M; i++)
+    data->prefix_lengths[i] += data->prefix_lengths[i-1];
+
+  return eslOK;
+
+  ERROR:
+   p7_hmm_ScoreDataDestroy(data);
+   return eslEMEM;
+}
+
+
+/*****************************************************************
+ * 2. Unit tests
+ *****************************************************************/
+#ifdef p7SCOREDATA_TESTDRIVE
+
+static void
+utest_createScoreData(ESL_GETOPTS *go, ESL_RANDOMNESS *r )
+{
+  char          msg[]       = "create MSVData unit test failed";
+  P7_HMM        *hmm        = NULL;
+  ESL_ALPHABET  *abc        = NULL;
+  P7_PROFILE    *gm         = NULL;
+  P7_OPROFILE   *om         = NULL;
+  P7_SCOREDATA  *scoredata    = NULL;
+
+  uint8_t scale = 3.0 / eslCONST_LOG2;                    /* scores in units of third-bits */
+  uint8_t bias;
+  int x;
+  float max = 0.0;
+
+  if ( (abc = esl_alphabet_Create(eslDNA)) == NULL)  esl_fatal(msg);
+
+  if (  p7_hmm_Sample(r, 100, abc, &hmm)        != eslOK) esl_fatal(msg);
+  if (  (gm = p7_profile_Create (hmm->M, abc))  == NULL ) esl_fatal(msg);
+  if (  (om = p7_oprofile_Create(hmm->M, abc))  == NULL ) esl_fatal(msg);
+
+  for (x = 0; x < gm->abc->K; x++)  max = ESL_MAX(max, esl_vec_FMax(gm->rsc[x], (gm->M+1)*2));
+  //based on unbiased_byteify
+  max  = -1.0f * roundf(scale * max);
+  bias   = (max > 255.) ? 255 : (uint8_t) max;
+
+
+  if (  (scoredata = p7_hmm_ScoreDataCreate(om, FALSE))  == NULL ) esl_fatal(msg);
+
+  p7_hmm_ScoreDataDestroy(scoredata);
+  p7_oprofile_Destroy(om);
+  p7_profile_Destroy(gm);
+  p7_hmm_Destroy(hmm);
+  esl_alphabet_Destroy(abc);
+
+}
+#endif /*p7BG_TESTDRIVE*/
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+
+#ifdef p7SCOREDATA_TESTDRIVE
+#include "esl_config.h"
+
+#include <stdio.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+   /* name  type         default  env   range togs  reqs  incomp  help                docgrp */
+  {"-h",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show help and usage",                            0},
+  {"-s",  eslARG_INT,       "0", NULL, NULL, NULL, NULL, NULL, "set random number seed to <n>",                  0},
+  {"-v",  eslARG_NONE,    FALSE, NULL, NULL, NULL, NULL, NULL, "show verbose commentary/output",                 0},
+  { 0,0,0,0,0,0,0,0,0,0},
+};
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for p7_bg";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go          = esl_getopts_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *rng         = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  int             be_verbose  = esl_opt_GetBoolean(go, "-v");
+
+  if (be_verbose) printf("p7_scoredata unit test: rng seed %" PRIu32 "\n", esl_randomness_GetSeed(rng));
+
+  utest_createScoreData(go, rng);
+
+  esl_randomness_Destroy(rng);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /* p7BG_TESTDRIVE */
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: p7_scoredata.c 3784 2011-12-07 21:51:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/trunk/src/p7_scoredata.c $
+ ************************************************************/
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_spensemble.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_spensemble.c
new file mode 100755
index 0000000..a2dcc9b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_spensemble.c
@@ -0,0 +1,590 @@
+/* Defining domain number and coordinates in a significant hit by
+ * posterior sampling and clustering.
+ * 
+ * SRE, Wed Jan  9 07:26:34 2008 [Janelia]
+ * SVN $Id: p7_spensemble.c 3474 2011-01-17 13:25:32Z eddys $
+ */
+#include "p7_config.h"
+#include "easel.h"
+#include "esl_cluster.h"
+#include "esl_vectorops.h"
+#include "hmmer.h"
+
+/* Function:  p7_spensemble_Create()
+ * Synopsis:  Allocates a <P7_SPENSEMBLE>
+ * Incept:    SRE, Wed Jan  9 10:00:14 2008 [Janelia]
+ *
+ * Purpose:   Create a new <P7_SPENSEMBL> with specified initial
+ *            allocation sizes: <init_n> for the number of sampled
+ *            segment pairs, <init_epc> for the range over
+ *            which one of a domain's (i,j,k,m) sampled endpoints
+ *            falls, and <init_sigc> for the number of significant
+ *            clusters (domains) that will be defined.
+ *            
+ *            The values of these initial allocations are only
+ *            relevant to tuning memory performance, because the
+ *            object is reallocated/grown as needed. You can make
+ *            guesses, and the better your guess, the fewer
+ *            reallocations will be needed; but everything will work
+ *            fine regardless of what these initial allocations are.
+ *            
+ *            A <P7_SPENSEMBLE> is designed to be reused for many
+ *            target sequences and/or models, to minimize alloc/free
+ *            calls.
+ *            
+ * Args:      init_n     - initial allocation for # of sampled segment pairs
+ *            init_epc   - initial allocation for maximum endpoint range
+ *            init_sigc  - initial allocation for # of significant clusters, domains
+ *
+ * Returns:   a pointer to the new <P7_SPENSEMBLE>.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_SPENSEMBLE *
+p7_spensemble_Create(int init_n, int init_epc, int init_sigc)
+{
+  P7_SPENSEMBLE *sp = NULL;
+  int            status;
+
+  ESL_ALLOC(sp, sizeof(P7_SPENSEMBLE));
+  sp->sp            = NULL;
+  sp->workspace     = NULL;
+  sp->assignment    = NULL;
+  sp->epc           = NULL;
+  sp->sigc          = NULL;
+
+  sp->nalloc        = init_n;
+  sp->epc_alloc     = init_epc;
+  sp->nsigc_alloc   = init_sigc;
+
+  ESL_ALLOC(sp->sp,         sizeof(struct p7_spcoord_s) * sp->nalloc);
+  ESL_ALLOC(sp->workspace,  sizeof(int)                 * sp->nalloc * 2); /* workspace is 2n */
+  ESL_ALLOC(sp->assignment, sizeof(int)                 * sp->nalloc);
+  ESL_ALLOC(sp->epc,        sizeof(int)                 * sp->epc_alloc);
+  ESL_ALLOC(sp->sigc,       sizeof(struct p7_spcoord_s) * sp->nsigc_alloc);
+  sp->nsamples  = 0;
+  sp->n         = 0;
+  sp->nc        = 0;
+  sp->nsigc     = 0;
+  return sp;
+
+ ERROR:
+  p7_spensemble_Destroy(sp);
+  return NULL;
+}
+
+/* Function:  p7_spensemble_Reuse()
+ * Synopsis:  Reinitializes a <P7_SPENSEMBLE>.
+ * Incept:    SRE, Wed Jan  9 10:26:36 2008 [Janelia]
+ *
+ * Purpose:   Reinitialize <sp> so it can be used again to collect
+ *            and process a new segment pair ensemble, without
+ *            having to free and reallocate.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int 
+p7_spensemble_Reuse(P7_SPENSEMBLE *sp)
+{
+  sp->nsamples = 0;
+  sp->n        = 0;
+  sp->nc       = 0;
+  sp->nsigc    = 0;
+  return eslOK;
+}
+
+/* Function:  p7_spsensemble_Add()
+ * Synopsis:  Add a new segment pair to a growing ensemble.
+ * Incept:    SRE, Wed Jan  9 10:28:04 2008 [Janelia]
+ *
+ * Purpose:   Adds a new segment pair to a growing ensemble <sp>.
+ *            The segment pair is defined by start/end positions
+ *            <i>,<j> on a target sequence (1..L), and start/end
+ *            positions <k>,<m> on a query model (1..M). 
+ *            
+ *            You also provide the index <sampleidx> of which sampled
+ *            traceback this segment pair came from; each traceback
+ *            contains one or more segment pairs. These <sampleidx>
+ *            indices start at 0 and they must arrive sequentially:
+ *            that is, the caller must <Add()> all the segment pairs
+ *            from traceback sample 0, then <Add()> all the segment
+ *            pairs from traceback sample 1, and so on.
+ *            
+ *            The reason to enforce sequential addition has to do with
+ *            the internals of the ensemble clustering algorithm;
+ *            specifically with how it calculates the posterior
+ *            probability of a cluster in the ensemble. You can't
+ *            calculate the posterior probability of a cluster simply
+ *            by dividing the number of segment pairs in a cluster by
+ *            the total number of traces, because you can get
+ *            "probabilities" of greater than one: sometimes more than
+ *            one pair from the same trace get clustered together
+ *            (because one domain got split into two or more segment
+ *            pairs). Rather, what it does is to count the total
+ *            number of traces that have one or more segments in the
+ *            cluster, divided by the total number of traces. An
+ *            efficient way to implement this is, when counting
+ *            segments that belong to a cluster, only increment the
+ *            numerator if the segment has a different traceback index
+ *            than the last segment we counted in this cluster. (We'd
+ *            rather not have to keep track of a table of all the
+ *            traceback indices we've seen so far.)
+ *
+ * Args:      sp        - ensemble to add this segment pair to
+ *            sampleidx - index of traceback that this seg pair came from (0..nsamples-1)
+ *            i,j       - start,end position on target sequence (1..L)
+ *            k,m       - start,end position on query model (1..M)
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEINVAL> if the <sampleidx> is out of order.
+ *            <eslEMEM> if a reallocation fails.
+ */
+int
+p7_spensemble_Add(P7_SPENSEMBLE *sp, int sampleidx, int i, int j, int k, int m)
+{
+  int status;
+
+  if      (sampleidx > sp->nsamples)  ESL_EXCEPTION(eslEINVAL, "seg pair's <sampleidx> is out of order");
+  else if (sampleidx == sp->nsamples) sp->nsamples++;
+
+  if (sp->n >= sp->nalloc) {
+    void *p;
+    ESL_RALLOC(sp->sp,         p, sizeof(struct p7_spcoord_s)  * sp->nalloc * 2);
+    ESL_RALLOC(sp->workspace,  p, sizeof(int)                  * sp->nalloc * 4); /* remember, workspace is 2n */
+    ESL_RALLOC(sp->assignment, p, sizeof(int)                  * sp->nalloc * 2);
+    sp->nalloc *= 2;
+  }
+
+  sp->sp[sp->n].idx = sampleidx;
+  sp->sp[sp->n].i   = i;
+  sp->sp[sp->n].j   = j;
+  sp->sp[sp->n].k   = k;
+  sp->sp[sp->n].m   = m;
+  sp->n++;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* struct p7_linkparam_s:
+ * used just within this .c, as part of setting up the clustering problem in
+ * the form that Easel's general SLC algorithm will take it. 
+ */
+struct p7_linkparam_s {
+  float min_overlap;	/* 0.8 means >= 80% overlap of (smaller/larger) segment is required, both in seq and hmm               */
+  int   of_smaller;	/* TRUE means overlap fraction is w.r.t. smaller segment; FALSE means w.r.t. larger segment            */
+  int   max_diagdiff;	/* 4 means either start or endpoints of two segments must be within <= 4 diagonals of each other       */
+  float min_posterior;	/* 0.25 means a cluster must occur w/ >= 25% posterior probability in the sample to be "significant"   */
+  float min_endpointp;	/* 0.02 means choose widest endpoint with post. prob. of at least 2%                                   */
+};
+
+
+/* link_spsamples():
+ * 
+ * Defines the rule used for single linkage clustering of sampled
+ * domain coordinates. (API is dictated by Easel's general single
+ * linkage clustering routine.)
+ */
+static int
+link_spsamples(const void *v1, const void *v2, const void *prm, int *ret_link)
+{
+  struct p7_spcoord_s   *h1    = (struct p7_spcoord_s *)   v1;
+  struct p7_spcoord_s   *h2    = (struct p7_spcoord_s *)   v2;
+  struct p7_linkparam_s *param = (struct p7_linkparam_s *) prm;
+  int  nov, n;
+  int  d1, d2;
+  
+  /* seq overlap test */
+  nov = ESL_MIN(h1->j, h2->j) - ESL_MAX(h1->i, h2->i) + 1;      /* overlap  */
+  n = (param->of_smaller ? ESL_MIN(h1->j - h1->i + 1,  h2->j - h2->i + 1) :     /* min length of the two hits */
+                           ESL_MAX(h1->j - h1->i + 1,  h2->j - h2->i + 1));      /* max length of the two hits */
+  if ((float) nov / (float) n  < param->min_overlap) { *ret_link = FALSE; return eslOK; }  
+
+  /* hmm overlap test */
+  nov = ESL_MIN(h1->m, h2->m) - ESL_MAX(h1->k, h2->k);
+  n   = (param->of_smaller ? ESL_MIN(h1->m - h1->k + 1,  h2->m - h2->k + 1) :
+                             ESL_MAX(h1->m - h1->k + 1,  h2->m - h2->k + 1));
+  if ((float) nov / (float)  n < param->min_overlap) { *ret_link = FALSE; return eslOK; }
+
+  /* nearby diagonal test */
+  d1 = (h1->i - h1->k); d2 = (h2->i - h2->k);  if (abs(d1-d2) <= param->max_diagdiff) { *ret_link = TRUE; return eslOK; }	
+  d1 = (h1->j - h1->m); d2 = (h2->j - h2->m);  if (abs(d1-d2) <= param->max_diagdiff) { *ret_link = TRUE; return eslOK; }	
+
+  *ret_link = FALSE;
+  return eslOK;
+}
+
+/* cluster_orderer()
+ * is the routine that gets passed to qsort() to sort
+ * the significant clusters by order of occurrence on
+ * the target sequence
+ */
+static int
+cluster_orderer(const void *v1, const void *v2)
+{
+  struct p7_spcoord_s   *h1    = (struct p7_spcoord_s *)   v1;
+  struct p7_spcoord_s   *h2    = (struct p7_spcoord_s *)   v2;
+
+  if      (h1->i < h2->i) return -1;
+  else if (h1->i > h2->i) return 1;
+  else                    return 0;
+}
+
+/* Function:  p7_spensemble_Cluster()
+ * Synopsis:  Cluster a seg pair ensemble and define domains.
+ * Incept:    SRE, Wed Jan  9 11:04:07 2008 [Janelia]
+ *
+ * Purpose:   Given a collected segment pair ensemble <sp>, cluster it; 
+ *            identify significant clusters with high posterior probability;
+ *            and define consensus endpoints for each significant cluster.
+ *            
+ *            Clustering is single-linkage. The linkage rule is
+ *            controlled by the <min_overlap>, <of_smaller>, and
+ *            <max_diagdiff> parameters. To be linked, two segments
+ *            must overlap by a fraction $\geq$ <min_overlap>,
+ *            relative to either the smaller or larger of the two
+ *            segments (<of_smaller = TRUE> or <FALSE>), in both their
+ *            sequence and model coords, and either the start or end of both
+ *            segments must lie within $\leq$ <max_diagdiff> diagonals
+ *            of each other.
+ *            
+ *            The threshold for cluster "significance" is controlled
+ *            by the <min_posterior> parameter. Clusters with
+ *            posterior probability $\geq$ this threshold are called
+ *            significant.
+ *            
+ *            Consensus endpoint definition within a cluster is
+ *            controlled by the <min_endpointp> parameter. The widest
+ *            endpoint that has a posterior probability of $\geq
+ *            min_endpointp> is chosen; this is done independently for
+ *            each coordinate (i,j,k,m).
+ *            
+ *            A reasonable (and tested) parameterization is
+ *            <min_overlap = 0.8>, <of_smaller = TRUE>, <max_diagdiff
+ *            = 4>, <min_posterior = 0.25>, <min_endpointp = 0.02>.
+ *            
+ * Args:      sp            - segment pair ensemble to cluster
+ *            min_overlap   - linkage requires fractional overlap >= this, in both seq and hmm segments
+ *            of_smaller    - overlap fraction denominators uses either the smaller (if TRUE) or larger (if FALSE) segment
+ *            max_diagdiff  - linkage requires that start, end points of both seg pairs are <= this
+ *            min_posterior - clusters with posterior prob >= this are defined as significant
+ *            min_endpointp - widest endpoint with post prob >= this is defined as consensus endpoint coord
+ *            
+ * Returns:   the number of significant clusters in <*ret_nclusters>.
+ *            The caller can then obtain consensus endpoints for each cluster
+ *            by making a series of <p7_spensemble_GetClusterCoords()> calls.
+ *
+ */
+int
+p7_spensemble_Cluster(P7_SPENSEMBLE *sp, 
+		      float min_overlap, int of_smaller, int max_diagdiff, float min_posterior, float min_endpointp,
+		      int *ret_nclusters)
+{
+  struct p7_linkparam_s param;
+  int status;
+  int c;
+  int h;
+  int idx_of_last;
+  int *ninc = NULL;
+  int cwindow_width;
+  int epc_threshold;
+  int imin, jmin, kmin, mmin;
+  int imax, jmax, kmax, mmax;
+  int best_i, best_j, best_k, best_m;
+
+  /* set up a single linkage clustering problem for Easel's general routine */
+  param.min_overlap   = min_overlap;
+  param.of_smaller    = of_smaller;
+  param.max_diagdiff  = max_diagdiff;
+  param.min_posterior = min_posterior;
+  param.min_endpointp = min_endpointp;
+  if ((status = esl_cluster_SingleLinkage(sp->sp, sp->n, sizeof(struct p7_spcoord_s), link_spsamples, (void *) &param,
+					  sp->workspace, sp->assignment, &(sp->nc))) != eslOK) goto ERROR;
+
+  ESL_ALLOC(ninc, sizeof(int) * sp->nc);
+
+  /* Look at each cluster in turn; most will be too small to worry about. */
+  for (c = 0; c < sp->nc; c++)
+    {
+      /* Calculate posterior probability of each cluster. 
+       * The extra wrinkle here is that this probability is w.r.t the number of sampled traces;
+       * but the clusters might contain more than one seg pair from a given trace.
+       * That's what the idx_of_last logic is doing, avoiding double-counting.
+       */
+      idx_of_last = -1;
+      for (ninc[c] = 0, h = 0; h < sp->n; h++) {
+	if (sp->assignment[h] == c) {
+	  if (sp->sp[h].idx != idx_of_last) ninc[c]++;
+	  idx_of_last = sp->sp[h].idx;
+	}
+      }
+      /* Reject low probability clusters: */
+      if ((float) ninc[c] / (float) sp->nsamples < min_posterior) continue;
+
+      /* Find the maximum extent of all seg pairs in this cluster in i,j k,m */
+      for (imin = 0, h = 0; h < sp->n; h++) 
+	if (sp->assignment[h] == c) 
+	  {
+	    if (imin == 0) {
+	      imin = imax = sp->sp[h].i;
+	      jmin = jmax = sp->sp[h].j;
+	      kmin = kmax = sp->sp[h].k;
+	      mmin = mmax = sp->sp[h].m;
+	    } else {
+	      imin = ESL_MIN(imin, sp->sp[h].i);  imax = ESL_MAX(imax, sp->sp[h].i);
+	      jmin = ESL_MIN(jmin, sp->sp[h].j);  jmax = ESL_MAX(jmax, sp->sp[h].j);
+	      kmin = ESL_MIN(kmin, sp->sp[h].k);  kmax = ESL_MAX(kmax, sp->sp[h].k);
+	      mmin = ESL_MIN(mmin, sp->sp[h].m);  mmax = ESL_MAX(mmax, sp->sp[h].m);
+	    }
+	  }
+      
+      /* Set up a window in which we can examine the end point distributions for i,j,k,m in turn, independently */
+      cwindow_width = ESL_MAX(ESL_MAX(imax-imin+1, jmax-jmin+1),
+			      ESL_MAX(kmax-kmin+1, mmax-mmin+1));
+      if (cwindow_width > sp->epc_alloc) {
+	void *p;
+	ESL_RALLOC(sp->epc, p, sizeof(int) * cwindow_width);
+	sp->epc_alloc = cwindow_width;
+      }
+	      
+      epc_threshold = (int) ceilf((float) ninc[c] * min_endpointp); /* round up.  freq of >= epc_threshold means we're >= min_p */
+
+      /* Identify the leftmost i that has enough endpoints. */
+      esl_vec_ISet(sp->epc, imax-imin+1, 0);
+      for (h = 0; h < sp->n; h++) if (sp->assignment[h] == c) sp->epc[sp->sp[h].i-imin]++;
+      for (best_i = imin; best_i <= imax; best_i++) if (sp->epc[best_i-imin] >= epc_threshold) break;
+      if (best_i > imax) best_i = imin + esl_vec_IArgMax(sp->epc, imax-imin+1);
+
+      /* Identify the leftmost k that has enough endpoints */
+      esl_vec_ISet(sp->epc, kmax-kmin+1, 0);
+      for (h = 0; h < sp->n; h++) if (sp->assignment[h] == c) sp->epc[sp->sp[h].k-kmin]++;
+      for (best_k = kmin; best_k <= kmax; best_k++) if (sp->epc[best_k-kmin] >= epc_threshold) break;
+      if (best_k > kmax) best_k = kmin + esl_vec_IArgMax(sp->epc, kmax-kmin+1);
+
+      /* Identify the rightmost j that has enough endpoints. */
+      esl_vec_ISet(sp->epc, jmax-jmin+1, 0);
+      for (h = 0; h < sp->n; h++) if (sp->assignment[h] == c) sp->epc[sp->sp[h].j-jmin]++;
+      for (best_j = jmax; best_j >= jmin; best_j--) if (sp->epc[best_j-jmin] >= epc_threshold) break;
+      if (best_j < jmin) best_j = jmin + esl_vec_IArgMax(sp->epc, jmax-jmin+1);
+
+      /* Identify the rightmost m that has enough endpoints. */
+      esl_vec_ISet(sp->epc, mmax-mmin+1, 0);
+      for (h = 0; h < sp->n; h++) if (sp->assignment[h] == c) sp->epc[sp->sp[h].m-mmin]++;
+      for (best_m = mmax; best_m >= mmin; best_m--) if (sp->epc[best_m-mmin] >= epc_threshold) break;
+      if (best_m < mmin) best_m = mmin + esl_vec_IArgMax(sp->epc, mmax-mmin+1);
+      
+      /* If there's no well-defined domain (say, a long stretch of biased composition),
+	 the coords above might come out inconsistent; in this case, just reject the domain.
+       */
+      if (best_i > best_j || best_k > best_m) continue;
+
+      if (sp->nsigc >= sp->nsigc_alloc) {
+	void *p;
+	ESL_RALLOC(sp->sigc, p, sizeof(struct p7_spcoord_s) * sp->nsigc_alloc * 2);
+	sp->nsigc_alloc *= 2;
+      }
+      
+      sp->sigc[sp->nsigc].i    = best_i;
+      sp->sigc[sp->nsigc].j    = best_j;
+      sp->sigc[sp->nsigc].k    = best_k;
+      sp->sigc[sp->nsigc].m    = best_m;
+      sp->sigc[sp->nsigc].idx  = c;
+      sp->sigc[sp->nsigc].prob = (float) ninc[c] / (float) sp->nsamples;
+      sp->nsigc++;
+    }
+
+  /* Now we need to make sure those domains are ordered by start point,
+   * because later we're going to calculate overlaps by i_cur - j_prv
+   */
+  qsort((void *) sp->sigc, sp->nsigc, sizeof(struct p7_spcoord_s), cluster_orderer);
+
+  free(ninc);
+  *ret_nclusters = sp->nsigc;
+  return eslOK;
+
+ ERROR:
+  if (ninc != NULL) free(ninc);
+  *ret_nclusters = 0;
+  return status;
+}
+
+/* Function:  p7_spensemble_GetClusterCoords()
+ * Synopsis:  Retrieve consensus coords of one significant segment pair cluster.
+ * Incept:    SRE, Wed Jan  9 11:39:27 2008 [Janelia]
+ *
+ * Purpose:   Retrieve the consensus coords of significant segment pair cluster <which>
+ *            from the ensemble <sp>, which has already been clustered with
+ *            <p7_spensemble_Cluster()>.
+ *
+ * Returns:   <eslOK> on success, and the consensus coords are in <*opt_i>, <*opt_j>,
+ *            <*opt_k>, and <*opt_m>; the (sampled) posterior probability of the 
+ *            cluster is in <*opt_p>. All of these returned values are optional;
+ *            the caller can pass a <NULL> for any value it's not interested in
+ *            retrieving.
+ */
+int
+p7_spensemble_GetClusterCoords(P7_SPENSEMBLE *sp, int which, int *opt_i, int *opt_j, int *opt_k, int *opt_m, float *opt_p)
+{
+  if (opt_i != NULL) *opt_i = sp->sigc[which].i;
+  if (opt_j != NULL) *opt_j = sp->sigc[which].j;
+  if (opt_k != NULL) *opt_k = sp->sigc[which].k;
+  if (opt_m != NULL) *opt_m = sp->sigc[which].m;
+  if (opt_p != NULL) *opt_p = sp->sigc[which].prob;
+  return eslOK;
+}
+
+
+/* Function:  p7_spensemble_Destroy()
+ * Synopsis:  Deallocate a <P7_SPENSEMBLE>
+ * Incept:    SRE, Wed Jan  9 11:42:01 2008 [Janelia]
+ *
+ * Purpose:   Destroys a <P7_SPENSEMBLE>.
+ */
+void
+p7_spensemble_Destroy(P7_SPENSEMBLE *sp)
+{
+  if (sp == NULL) return;
+  if (sp->sp         != NULL) free(sp->sp);
+  if (sp->workspace  != NULL) free(sp->workspace);
+  if (sp->assignment != NULL) free(sp->assignment);
+  if (sp->epc        != NULL) free(sp->epc);
+  if (sp->sigc       != NULL) free(sp->sigc);
+  free(sp);
+}  
+
+
+
+/*****************************************************************
+ * Benchmark and example.
+ *****************************************************************/
+
+#ifdef p7SPENSEMBLE_EXAMPLE
+/* 
+   gcc -g -I. -L. -I ../easel -L ../easel -Dp7SPENSEMBLE_EXAMPLE -o example p7_spensemble.c -lhmmer -leasel -lm
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_cluster.h"
+#include "esl_vectorops.h"
+#include "esl_stopwatch.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-N",        eslARG_INT,   "1000", NULL, NULL,  NULL,  NULL, NULL, "number of trace samples to take",                  0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "example, test, benchmark of defining domains by posterior sampling";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go      = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w       = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r       = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *seqfile = esl_opt_GetArg(go, 2);
+  int             format  = eslSQFILE_FASTA;
+  ESL_ALPHABET   *abc     = NULL;
+  P7_HMMFILE     *hfp     = NULL;
+  P7_HMM         *hmm     = NULL;
+  P7_BG          *bg      = NULL;
+  P7_PROFILE     *gm      = NULL;
+  P7_OPROFILE    *om      = NULL;
+  P7_OMX         *fwd     = NULL;
+  ESL_SQ         *sq      = NULL;
+  ESL_SQFILE     *sqfp    = NULL;
+  P7_TRACE       *tr      = NULL;
+  P7_SPENSEMBLE  *sp      = NULL;
+  int             N       = esl_opt_GetInteger(go, "-N");
+  int             t,d,nc;
+  int             i,j,k,m;
+  float           sc;
+  float           prob;
+  int             status;
+
+  /* Read in one HMM */
+  if (p7_hmmfile_OpenE(hmmfile, NULL, &hfp, NULL) != eslOK) p7_Fail("Failed to open HMM file %s", hmmfile);
+  if (p7_hmmfile_Read(hfp, &abc, &hmm)            != eslOK) p7_Fail("Failed to read HMM");
+  p7_hmmfile_Close(hfp);
+  
+  /* Read in one sequence */
+  sq     = esl_sq_CreateDigital(abc);
+  status = esl_sqfile_Open(seqfile, format, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("No such file.");
+  else if (status == eslEFORMAT)   p7_Fail("Format unrecognized.");
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        p7_Fail("Open failed, code %d.", status);
+  if  (esl_sqio_Read(sqfp, sq) != eslOK) p7_Fail("Failed to read sequence");
+  esl_sqfile_Close(sqfp);
+
+  /* Configure a profile from the HMM */
+  bg = p7_bg_Create(abc);
+  p7_bg_SetLength(bg, sq->n);
+  gm = p7_profile_Create(hmm->M, abc);
+  om = p7_oprofile_Create(hmm->M, abc);
+  p7_ProfileConfig(hmm, bg, gm, sq->n, p7_LOCAL);
+  p7_oprofile_Convert(gm, om);
+  p7_oprofile_ReconfigLength(om, sq->n);
+
+  /* Allocate DP matrix for Forward, and run a Forward calculation in it */
+  fwd = p7_omx_Create(gm->M, sq->n, sq->n);
+  p7_Forward (sq->dsq, sq->n, om, fwd, &sc);
+
+  /* Allocate a trace container, and an spensemble */
+  tr = p7_trace_Create();
+  sp = p7_spensemble_Create(1024, 64, 32);
+
+  /* Start the stopwatch. Now we're in domain processing steps. */
+  esl_stopwatch_Start(w);
+
+  /* Collect N traces, add their domain coords to the ensemble, and cluster */
+  for (t = 0; t < N; t++) {
+    p7_StochasticTrace(r, sq->dsq, sq->n, om, fwd, tr);
+    p7_trace_Index(tr);
+
+    for (d = 0; d < tr->ndom; d++)
+      p7_spensemble_Add(sp, t, tr->sqfrom[d], tr->sqto[d], tr->hmmfrom[d], tr->hmmto[d]);
+    p7_trace_Reuse(tr);
+  }
+  p7_spensemble_Cluster(sp, 0.8, TRUE, 4, 0.25, 0.02, &nc);
+  for (d = 0; d < nc; d++) {
+    p7_spensemble_GetClusterCoords(sp, d, &i, &j, &k, &m, &prob);
+    printf("domain %-4d :  %6d %6d   %6d %6d   p=%.4f\n", d, i, j, k, m, prob);
+  }
+
+  /* Done. */
+  esl_stopwatch_Stop(w);
+  esl_stopwatch_Display(stdout, w, "# CPU time: ");
+
+  p7_spensemble_Destroy(sp);
+  p7_trace_Destroy(tr);
+  esl_sq_Destroy(sq);
+  p7_omx_Destroy(fwd);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7SPENSEMBLE_EXAMPLE*/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_tophits.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_tophits.c
new file mode 100755
index 0000000..2744217
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_tophits.c
@@ -0,0 +1,2178 @@
+/* P7_TOPHITS: implementation of ranked list of top-scoring hits
+ * 
+ * Contents:
+ *    1. The P7_TOPHITS object.
+ *    2. Standard (human-readable) output of pipeline results.
+ *    3. Tabular (parsable) output of pipeline results.
+ *    4. Benchmark driver.
+ *    5. Test driver.
+ *    6. Copyright and license information.
+ */
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <string.h>
+#include <limits.h>
+
+#include "easel.h"
+#include "hmmer.h"
+
+/*****************************************************************
+ *= 1. The P7_TOPHITS object
+ *****************************************************************/
+
+/* Function:  p7_tophits_Create()
+ * Synopsis:  Allocate a hit list.
+ *
+ * Purpose:   Allocates a new <P7_TOPHITS> hit list and return a pointer
+ *            to it.
+ *
+ * Throws:    <NULL> on allocation failure.
+ */
+P7_TOPHITS *
+p7_tophits_Create(void)
+{
+  P7_TOPHITS *h = NULL;
+  int         default_nalloc = 256;
+  int         status;
+
+  ESL_ALLOC(h, sizeof(P7_TOPHITS));
+  h->hit    = NULL;
+  h->unsrt  = NULL;
+
+  ESL_ALLOC(h->hit,   sizeof(P7_HIT *) * default_nalloc);
+  ESL_ALLOC(h->unsrt, sizeof(P7_HIT)   * default_nalloc);
+  h->Nalloc    = default_nalloc;
+  h->N         = 0;
+  h->nreported = 0;
+  h->nincluded = 0;
+  h->is_sorted_by_sortkey = TRUE; /* but only because there's 0 hits */
+  h->is_sorted_by_seqidx  = FALSE;
+  h->hit[0]    = h->unsrt;        /* if you're going to call it "sorted" when it contains just one hit, you need this */
+  return h;
+
+ ERROR:
+  p7_tophits_Destroy(h);
+  return NULL;
+}
+
+
+/* Function:  p7_tophits_Grow()
+ * Synopsis:  Reallocates a larger hit list, if needed.
+ *
+ * Purpose:   If list <h> cannot hold another hit, doubles
+ *            the internal allocation.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; in this case,
+ *            the data in <h> are unchanged.
+ */
+int
+p7_tophits_Grow(P7_TOPHITS *h)
+{
+  void   *p;
+  P7_HIT *ori    = h->unsrt;
+  int     Nalloc = h->Nalloc * 2;    /* grow by doubling */
+  int     i;
+  int     status;
+
+  if (h->N < h->Nalloc) return eslOK; /* we have enough room for another hit */
+
+  ESL_RALLOC(h->hit,   p, sizeof(P7_HIT *) * Nalloc);
+  ESL_RALLOC(h->unsrt, p, sizeof(P7_HIT)   * Nalloc);
+
+  /* If we grow a sorted list, we have to translate the pointers
+   * in h->hit, because h->unsrt might have just moved in memory. 
+   */
+  if (h->is_sorted_by_seqidx || h->is_sorted_by_sortkey)
+  {
+      for (i = 0; i < h->N; i++)
+        h->hit[i] = h->unsrt + (h->hit[i] - ori);
+  }
+
+  h->Nalloc = Nalloc;
+  return eslOK;
+
+ ERROR:
+  return eslEMEM;
+}
+
+
+/* Function:  p7_tophits_CreateNextHit()
+ * Synopsis:  Get pointer to new structure for recording a hit.
+ *
+ * Purpose:   Ask the top hits object <h> to do any necessary
+ *            internal allocation and bookkeeping to add a new,
+ *            empty hit to its list; return a pointer to 
+ *            this new <P7_HIT> structure for data to be filled
+ *            in by the caller.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ */
+int
+p7_tophits_CreateNextHit(P7_TOPHITS *h, P7_HIT **ret_hit)
+{
+  P7_HIT *hit = NULL;
+  int     status;
+
+  if ((status = p7_tophits_Grow(h)) != eslOK) goto ERROR;
+  
+  hit = &(h->unsrt[h->N]);
+  h->N++;
+  if (h->N >= 2) 
+  {
+      h->is_sorted_by_seqidx = FALSE;
+      h->is_sorted_by_sortkey = FALSE;
+  }
+
+  hit->name         = NULL;
+  hit->acc          = NULL;
+  hit->desc         = NULL;
+  hit->sortkey      = 0.0;
+
+  hit->score        = 0.0;
+  hit->pre_score    = 0.0;
+  hit->sum_score    = 0.0;
+
+  hit->lnP          = 0.0;
+  hit->pre_lnP      = 0.0;
+  hit->sum_lnP      = 0.0;
+
+  hit->ndom         = 0;
+  hit->nexpected    = 0.0;
+  hit->nregions     = 0;
+  hit->nclustered   = 0;
+  hit->noverlaps    = 0;
+  hit->nenvelopes   = 0;
+
+  hit->flags        = p7_HITFLAGS_DEFAULT;
+  hit->nreported    = 0;
+  hit->nincluded    = 0;
+  hit->best_domain  = -1;
+  hit->dcl          = NULL;
+  hit->offset       = 0;
+
+  *ret_hit = hit;
+  return eslOK;
+
+ ERROR:
+  *ret_hit = NULL;
+  return status;
+}
+
+
+
+/* Function:  p7_tophits_Add()
+ * Synopsis:  Add a hit to the top hits list.
+ *
+ * Purpose:   Adds a hit to the top hits list <h>. 
+ * 
+ *            <name>, <acc>, and <desc> are copied, so caller may free
+ *            them if it likes.
+ *            
+ *            Only the pointer <ali> is kept. Caller turns over memory
+ *            management of <ali> to the top hits object; <ali> will
+ *            be free'd when the top hits structure is free'd.
+ *
+ * Args:      h        - active top hit list
+ *            name     - name of target  
+ *            acc      - accession of target (may be NULL)
+ *            desc     - description of target (may be NULL) 
+ *            sortkey  - value to sort by: bigger is better
+ *            score    - score of this hit
+ *            lnP      - log P-value of this hit 
+ *            mothersc - score of parent whole sequence 
+ *            mother_lnP - log P-value of parent whole sequence
+ *            sqfrom   - 1..L pos in target seq  of start
+ *            sqto     - 1..L pos; sqfrom > sqto if rev comp
+ *            sqlen    - length of sequence, L
+ *            hmmfrom  - 0..M+1 pos in HMM of start
+ *            hmmto    - 0..M+1 pos in HMM of end
+ *            hmmlen   - length of HMM, M
+ *            domidx   - number of this domain 
+ *            ndom     - total # of domains in sequence
+ *            ali      - optional printable alignment info
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> if reallocation failed.
+ * 
+ * Note:      Is this actually used anywhere? (SRE, 10 Dec 08) 
+ *            I think it's not up to date.
+ *            
+ *            That's right. This function is obsolete.
+ *            But it is used in benchmark and test code, so you can't
+ *            delete it yet; benchmarks and test code should be
+ *            revised (SRE, 26 Oct 09)
+ */
+int
+p7_tophits_Add(P7_TOPHITS *h,
+         char *name, char *acc, char *desc,
+         double sortkey,
+         float score,    double lnP,
+         float mothersc, double mother_lnP,
+         int sqfrom, int sqto, int sqlen,
+         int hmmfrom, int hmmto, int hmmlen,
+         int domidx, int ndom,
+         P7_ALIDISPLAY *ali)
+{
+  int status;
+
+  if ((status = p7_tophits_Grow(h))                           != eslOK) return status;
+  if ((status = esl_strdup(name, -1, &(h->unsrt[h->N].name))) != eslOK) return status;
+  if ((status = esl_strdup(acc,  -1, &(h->unsrt[h->N].acc)))  != eslOK) return status;
+  if ((status = esl_strdup(desc, -1, &(h->unsrt[h->N].desc))) != eslOK) return status;
+  h->unsrt[h->N].sortkey    = sortkey;
+  h->unsrt[h->N].score      = score;
+  h->unsrt[h->N].pre_score  = 0.0;
+  h->unsrt[h->N].sum_score  = 0.0;
+  h->unsrt[h->N].lnP        = lnP;
+  h->unsrt[h->N].pre_lnP    = 0.0;
+  h->unsrt[h->N].sum_lnP    = 0.0;
+  h->unsrt[h->N].nexpected  = 0;
+  h->unsrt[h->N].nregions   = 0;
+  h->unsrt[h->N].nclustered = 0;
+  h->unsrt[h->N].noverlaps  = 0;
+  h->unsrt[h->N].nenvelopes = 0;
+  h->unsrt[h->N].ndom       = ndom;
+  h->unsrt[h->N].flags      = 0;
+  h->unsrt[h->N].nreported  = 0;
+  h->unsrt[h->N].nincluded  = 0;
+  h->unsrt[h->N].best_domain= 0;
+  h->unsrt[h->N].dcl        = NULL;
+  h->N++;
+
+  if (h->N >= 2) {
+    h->is_sorted_by_seqidx = FALSE;
+    h->is_sorted_by_sortkey = FALSE;
+  }
+  return eslOK;
+}
+
+/* hit_sorter(): qsort's pawn, below */
+static int
+hit_sorter_by_sortkey(const void *vh1, const void *vh2)
+{
+  P7_HIT *h1 = *((P7_HIT **) vh1);  /* don't ask. don't change. Don't Panic. */
+  P7_HIT *h2 = *((P7_HIT **) vh2);
+  int     c;
+
+  if      (h1->sortkey < h2->sortkey) return  1;
+  else if (h1->sortkey > h2->sortkey) return -1;
+  else {
+    if ( (c = strcmp(h1->name, h2->name)) != 0) return c;
+
+    /* if on different strand, the positive strand goes first, else use position */
+    int dir1 = (h1->dcl[0].iali < h1->dcl[0].jali ? 1 : -1);
+    int dir2 = (h2->dcl[0].iali < h2->dcl[0].jali ? 1 : -1);
+    if (dir1 != dir2) return dir2; // so if dir1 is pos (1), and dir2 is neg (-1), this will return -1, placing h1 before h2;  otherwise, vice versa
+    else              return (h1->dcl[0].iali > h2->dcl[0].iali ? 1 : -1 );
+
+  }
+}
+
+static int
+hit_sorter_by_seqidx_aliposition(const void *vh1, const void *vh2)
+{
+  P7_HIT *h1 = *((P7_HIT **) vh1);  /* don't ask. don't change. Don't Panic. */
+  P7_HIT *h2 = *((P7_HIT **) vh2);
+
+  if      (h1->seqidx > h2->seqidx) return  1; /* first key, seq_idx (unique id for sequences), low to high */
+  else if (h1->seqidx < h2->seqidx) return -1;
+  // if on different strand, the positive strand goes first, else use position
+  int dir1 = (h1->dcl[0].iali < h1->dcl[0].jali ? 1 : -1);
+  int dir2 = (h2->dcl[0].iali < h2->dcl[0].jali ? 1 : -1);
+
+  if (dir1 != dir2) return dir2; // so if dir1 is pos (1), and dir2 is neg (-1), this will return -1, placing h1 before h2;  otherwise, vice versa
+
+  if ( h1->dcl[0].iali == h2->dcl[0].iali)    return  (h1->dcl[0].jali < h2->dcl[0].jali ? 1 : -1 );
+  else                                        return  (h1->dcl[0].iali > h2->dcl[0].iali ? 1 : -1 );
+}
+
+static int
+hit_sorter_by_modelname_aliposition(const void *vh1, const void *vh2)
+{
+  P7_HIT *h1 = *((P7_HIT **) vh1);  /* don't ask. don't change. Don't Panic. */
+  P7_HIT *h2 = *((P7_HIT **) vh2);
+
+  int res = esl_strcmp( h1->name, h2->name);
+
+  if  ( res != 0 ) return  res; /* first key, seq_idx (unique id for sequences), low to high */
+
+  // if on different strand, the positive strand goes first, else use position
+  int dir1 = (h1->dcl[0].iali < h1->dcl[0].jali ? 1 : -1);
+  int dir2 = (h2->dcl[0].iali < h2->dcl[0].jali ? 1 : -1);
+
+  if (dir1 != dir2) return dir2; // so if dir1 is pos (1), and dir2 is neg (-1), this will return -1, placing h1 before h2;  otherwise, vice versa
+
+  if ( h1->dcl[0].iali == h2->dcl[0].iali)    return  (h1->dcl[0].jali < h2->dcl[0].jali ? 1 : -1 );
+  else                                        return  (h1->dcl[0].iali > h2->dcl[0].iali ? 1 : -1 );
+}
+
+
+/* Function:  p7_tophits_SortBySortkey()
+ * Synopsis:  Sorts a hit list.
+ *
+ * Purpose:   Sorts a top hit list. After this call,
+ *            <h->hit[i]> points to the i'th ranked 
+ *            <P7_HIT> for all <h->N> hits.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_tophits_SortBySortkey(P7_TOPHITS *h)
+{
+  int i;
+
+  if (h->is_sorted_by_sortkey)  return eslOK;
+  for (i = 0; i < h->N; i++) h->hit[i] = h->unsrt + i;
+  if (h->N > 1)  qsort(h->hit, h->N, sizeof(P7_HIT *), hit_sorter_by_sortkey);
+  h->is_sorted_by_seqidx  = FALSE;
+  h->is_sorted_by_sortkey = TRUE;
+  return eslOK;
+}
+
+
+/* Function:  p7_tophits_SortBySeqidxAndAlipos()
+ * Synopsis:  Sorts a hit list by sequence index and position in that
+ *            sequence at which the hit's first domain begins (used in nhmmer)
+ *
+ * Purpose:   Sorts a top hit list. After this call,
+ *            <h->hit[i]> points to the i'th ranked
+ *            <P7_HIT> for all <h->N> hits.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_tophits_SortBySeqidxAndAlipos(P7_TOPHITS *h)
+{
+  int i;
+
+  if (h->is_sorted_by_seqidx)  return eslOK;
+  for (i = 0; i < h->N; i++) h->hit[i] = h->unsrt + i;
+  if (h->N > 1)  qsort(h->hit, h->N, sizeof(P7_HIT *), hit_sorter_by_seqidx_aliposition);
+  h->is_sorted_by_sortkey = FALSE;
+  h->is_sorted_by_seqidx  = TRUE;
+  return eslOK;
+}
+
+/* Function:  p7_tophits_SortByModelnameAndAlipos()
+ * Synopsis:  Sorts a hit list by model name and position in the query sequence
+ *            sequence at which the hit's first domain begins (used in nhmmscan)
+ *
+ * Purpose:   Sorts a top hit list. After this call,
+ *            <h->hit[i]> points to the i'th ranked
+ *            <P7_HIT> for all <h->N> hits.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_tophits_SortByModelnameAndAlipos(P7_TOPHITS *h)
+{
+  int i;
+
+  if (h->is_sorted_by_seqidx)  return eslOK;
+  for (i = 0; i < h->N; i++) h->hit[i] = h->unsrt + i;
+  if (h->N > 1)  qsort(h->hit, h->N, sizeof(P7_HIT *), hit_sorter_by_modelname_aliposition);
+  h->is_sorted_by_sortkey = FALSE;
+  h->is_sorted_by_seqidx  = TRUE;
+  return eslOK;
+}
+
+
+/* Function:  p7_tophits_Merge()
+ * Synopsis:  Merge two top hits lists.
+ *
+ * Purpose:   Merge <h2> into <h1>. Upon return, <h1>
+ *            contains the sorted, merged list. <h2>
+ *            is effectively destroyed; caller should
+ *            not access it further, and may as well free
+ *            it immediately.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure, and
+ *            both <h1> and <h2> remain valid.
+ */
+int
+p7_tophits_Merge(P7_TOPHITS *h1, P7_TOPHITS *h2)
+{
+  void    *p;
+  P7_HIT **new_hit = NULL;
+  P7_HIT  *ori1    = h1->unsrt;    /* original base of h1's data */
+  P7_HIT  *new2;
+  int      i,j,k;
+  int      Nalloc = h1->Nalloc + h2->Nalloc;
+  int      status;
+
+  /* Make sure the two lists are sorted */
+  if ((status = p7_tophits_SortBySortkey(h1)) != eslOK) goto ERROR;
+  if ((status = p7_tophits_SortBySortkey(h2)) != eslOK) goto ERROR;
+
+  /* Attempt our allocations, so we fail early if we fail. 
+   * Reallocating h1->unsrt screws up h1->hit, so fix it.
+   */
+  ESL_RALLOC(h1->unsrt, p, sizeof(P7_HIT) * Nalloc);
+  ESL_ALLOC (new_hit, sizeof(P7_HIT *)    * Nalloc);
+  for (i = 0; i < h1->N; i++)
+    h1->hit[i] = h1->unsrt + (h1->hit[i] - ori1);
+
+  /* Append h2's unsorted data array to h1. h2's data begin at <new2> */
+  new2 = h1->unsrt + h1->N;
+  memcpy(new2, h2->unsrt, sizeof(P7_HIT) * h2->N);
+
+  /* Merge the sorted hit lists */
+  for (i=0,j=0,k=0; i < h1->N && j < h2->N ; k++)
+    new_hit[k] = (hit_sorter_by_sortkey(&h1->hit[i], &h2->hit[j]) > 0) ? new2 + (h2->hit[j++] - h2->unsrt) : h1->hit[i++];
+  while (i < h1->N) new_hit[k++] = h1->hit[i++];
+  while (j < h2->N) new_hit[k++] = new2 + (h2->hit[j++] - h2->unsrt);
+
+  /* h2 now turns over management of name, acc, desc memory to h1;
+   * nullify its pointers, to prevent double free.  */
+  for (i = 0; i < h2->N; i++)
+  {
+      h2->unsrt[i].name = NULL;
+      h2->unsrt[i].acc  = NULL;
+      h2->unsrt[i].desc = NULL;
+      h2->unsrt[i].dcl  = NULL;
+  }
+
+  /* Construct the new grown h1 */
+  free(h1->hit);
+  h1->hit    = new_hit;
+  h1->Nalloc = Nalloc;
+  h1->N     += h2->N;
+  /* and is_sorted is TRUE, as a side effect of p7_tophits_Sort() above. */
+  return eslOK;
+  
+ ERROR:
+  if (new_hit != NULL) free(new_hit);
+  return status;
+}
+
+/* Function:  p7_tophits_GetMaxPositionLength()
+ * Synopsis:  Returns maximum position length in hit list (targets).
+ *
+ * Purpose:   Returns the length of the longest hit location (start/end)
+ *               of all the registered hits, in chars. This is useful when
+ *               deciding how to format output.
+ *
+ *            The maximum is taken over all registered hits. This
+ *            opens a possible side effect: caller might print only
+ *            the top hits, and the max name length in these top hits
+ *            may be different than the max length over all the hits.
+ *
+ *            Used specifically for nhmmer output, so expects only one
+ *            domain per hit
+ *
+ *            If there are no hits in <h>, or none of the
+ *            hits have names, returns 0.
+ */
+int
+p7_tophits_GetMaxPositionLength(P7_TOPHITS *h)
+{
+  int i, max, n;
+  char buffer [11];
+
+  for (max = 0, i = 0; i < h->N; i++) {
+    if (h->unsrt[i].dcl[0].iali > 0) {
+      n = sprintf (buffer, "%d", h->unsrt[i].dcl[0].iali);
+      max = ESL_MAX(n, max);
+      n = sprintf (buffer, "%d", h->unsrt[i].dcl[0].jali);
+      max = ESL_MAX(n, max);
+    }
+  }
+  return max;
+}
+
+/* Function:  p7_tophits_GetMaxNameLength()
+ * Synopsis:  Returns maximum name length in hit list (targets).
+ *
+ * Purpose:   Returns the maximum name length of all the registered
+ *            hits, in chars. This is useful when deciding how to
+ *            format output.
+ *            
+ *            The maximum is taken over all registered hits. This
+ *            opens a possible side effect: caller might print only
+ *            the top hits, and the max name length in these top hits
+ *            may be different than the max length over all the hits.
+ *            
+ *            If there are no hits in <h>, or none of the
+ *            hits have names, returns 0.
+ */
+int
+p7_tophits_GetMaxNameLength(P7_TOPHITS *h)
+{
+  int i, max, n;
+  for (max = 0, i = 0; i < h->N; i++)
+    if (h->unsrt[i].name != NULL) {
+      n   = strlen(h->unsrt[i].name);
+      max = ESL_MAX(n, max);
+    }
+  return max;
+}
+
+/* Function:  p7_tophits_GetMaxAccessionLength()
+ * Synopsis:  Returns maximum accession length in hit list (targets).
+ *
+ * Purpose:   Same as <p7_tophits_GetMaxNameLength()>, but for
+ *            accessions. If there are no hits in <h>, or none
+ *            of the hits have accessions, returns 0.
+ */
+int
+p7_tophits_GetMaxAccessionLength(P7_TOPHITS *h)
+{
+  int i, max, n;
+  for (max = 0, i = 0; i < h->N; i++)
+    if (h->unsrt[i].acc != NULL) {
+      n   = strlen(h->unsrt[i].acc);
+      max = ESL_MAX(n, max);
+    }
+  return max;
+}
+
+/* Function:  p7_tophits_GetMaxShownLength()
+ * Synopsis:  Returns max shown name/accession length in hit list.
+ *
+ * Purpose:   Same as <p7_tophits_GetMaxNameLength()>, but 
+ *            for the case when --acc is on, where
+ *            we show accession if one is available, and 
+ *            fall back to showing the name if it is not.
+ *            Returns the max length of whatever is being
+ *            shown as the reported "name".
+ */
+int
+p7_tophits_GetMaxShownLength(P7_TOPHITS *h)
+{
+  int i, max, n;
+  for (max = 0, i = 0; i < h->N; i++)
+  {
+    if (h->unsrt[i].acc != NULL && h->unsrt[i].acc[0] != '\0')
+    {
+      n   = strlen(h->unsrt[i].acc);
+      max = ESL_MAX(n, max);
+    }
+    else if (h->unsrt[i].name != NULL)
+    {
+      n   = strlen(h->unsrt[i].name);
+      max = ESL_MAX(n, max);
+    }
+  }
+  return max;
+}
+
+
+/* Function:  p7_tophits_Reuse()
+ * Synopsis:  Reuse a hit list, freeing internals.
+ *
+ * Purpose:   Reuse the tophits list <h>; save as 
+ *            many malloc/free cycles as possible,
+ *            as opposed to <Destroy()>'ing it and
+ *            <Create>'ing a new one.
+ */
+int
+p7_tophits_Reuse(P7_TOPHITS *h)
+{
+  int i, j;
+
+  if (h == NULL) return eslOK;
+  if (h->unsrt != NULL) 
+  {
+    for (i = 0; i < h->N; i++)
+    {
+      if (h->unsrt[i].name != NULL) free(h->unsrt[i].name);
+      if (h->unsrt[i].acc  != NULL) free(h->unsrt[i].acc);
+      if (h->unsrt[i].desc != NULL) free(h->unsrt[i].desc);
+      if (h->unsrt[i].dcl  != NULL) {
+        for (j = 0; j < h->unsrt[i].ndom; j++)
+          if (h->unsrt[i].dcl[j].ad != NULL) p7_alidisplay_Destroy(h->unsrt[i].dcl[j].ad);
+        free(h->unsrt[i].dcl);
+      }
+    }
+  }
+  h->N         = 0;
+  h->is_sorted_by_seqidx = FALSE;
+  h->is_sorted_by_sortkey = TRUE;  /* because there are 0 hits */
+  h->hit[0]    = h->unsrt;
+  return eslOK;
+}
+
+/* Function:  p7_tophits_Destroy()
+ * Synopsis:  Frees a hit list.
+ */
+void
+p7_tophits_Destroy(P7_TOPHITS *h)
+{
+  int i,j;
+  if (h == NULL) return;
+  if (h->hit   != NULL) free(h->hit);
+  if (h->unsrt != NULL) 
+  {
+    for (i = 0; i < h->N; i++)
+    {
+      if (h->unsrt[i].name != NULL) free(h->unsrt[i].name);
+      if (h->unsrt[i].acc  != NULL) free(h->unsrt[i].acc);
+      if (h->unsrt[i].desc != NULL) free(h->unsrt[i].desc);
+      if (h->unsrt[i].dcl  != NULL) {
+        for (j = 0; j < h->unsrt[i].ndom; j++) {
+          if (h->unsrt[i].dcl[j].ad             != NULL) p7_alidisplay_Destroy(h->unsrt[i].dcl[j].ad);
+	  if (h->unsrt[i].dcl[j].scores_per_pos != NULL) free (h->unsrt[i].dcl->scores_per_pos);
+	}
+        free(h->unsrt[i].dcl);
+      }
+    }
+    free(h->unsrt);
+  }
+  free(h);
+  return;
+}
+/*---------------- end, P7_TOPHITS object -----------------------*/
+
+
+
+
+
+
+/*****************************************************************
+ * 2. Standard (human-readable) output of pipeline results
+ *****************************************************************/
+
+/* workaround_bug_h74(): 
+ * Different envelopes, identical alignment
+ * 
+ * Bug #h74, though extremely rare, arises from a limitation in H3's
+ * implementation of Forward/Backward, as follows:
+ * 
+ *  1. A multidomain region is analyzed by stochastic clustering
+ *  2. Overlapping envelopes are found (w.r.t sequence coords), though
+ *     trace clusters are distinct if HMM endpoints are also considered.
+ *  3. We have no facility for limiting Forward/Backward to a specified
+ *     range of profile coordinates, so each envelope is passed to
+ *     rescore_isolated_domain() and analyzed independently.
+ *  4. Optimal accuracy alignment may identify exactly the same alignment
+ *     in the overlap region shared by the two envelopes.
+ *     
+ * The disturbing result is two different envelopes that have
+ * identical alignments and alignment endpoints.
+ * 
+ * The correct fix is to define envelopes not only by sequence
+ * endpoints but also by profile endpoints, passing them to
+ * rescore_isolated_domain(), and limiting F/B calculations to this
+ * pieces of the DP lattice. This requires a fair amount of work,
+ * adding to the optimized API.
+ * 
+ * The workaround is to detect when there are duplicate alignments,
+ * and only display one. We show the one with the best bit score.
+ * 
+ * If we ever implement envelope-limited versions of F/B, revisit this
+ * fix.
+ *
+ * SRE, Tue Dec 22 16:27:04 2009
+ * xref J5/130; notebook/2009/1222-hmmer-bug-h74
+ */
+static int
+workaround_bug_h74(P7_TOPHITS *th)
+{
+  int h;
+  int d1, d2;
+  int dremoved;
+
+  for (h = 0; h < th->N; h++)  
+    if (th->hit[h]->noverlaps)
+    {
+        for (d1 = 0; d1 < th->hit[h]->ndom; d1++)
+          for (d2 = d1+1; d2 < th->hit[h]->ndom; d2++)
+            if (th->hit[h]->dcl[d1].iali == th->hit[h]->dcl[d2].iali &&
+                th->hit[h]->dcl[d1].jali == th->hit[h]->dcl[d2].jali)
+            {
+                dremoved = (th->hit[h]->dcl[d1].bitscore >= th->hit[h]->dcl[d2].bitscore) ? d2 : d1;
+                if (th->hit[h]->dcl[dremoved].is_reported) { th->hit[h]->dcl[dremoved].is_reported = FALSE; th->hit[h]->nreported--; }
+                if (th->hit[h]->dcl[dremoved].is_included) { th->hit[h]->dcl[dremoved].is_included = FALSE; th->hit[h]->nincluded--; }
+            }
+    }
+  return eslOK;
+}
+
+
+
+/* Function:  p7_tophits_ComputeNhmmerEvalues()
+ * Synopsis:  Compute e-values based on pvalues and window sizes.
+ *
+ * Purpose:   After nhmmer pipeline has completed, the th object contains
+ *               hits where the p-values haven't yet been converted to
+ *               e-values. That modification depends on an established
+ *               number of sequences. In nhmmer, this is computed as N/W,
+ *               for a database of N residues, where W is some standardized
+ *               window length (nhmmer passes om->max_length). E-values are
+ *               set here based on that formula. We also set the sortkey so
+ *               the output will be sorted correctly.
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_tophits_ComputeNhmmerEvalues(P7_TOPHITS *th, double N, int W)
+{
+  int i;    /* counters over hits */
+
+  for (i = 0; i < th->N ; i++)
+  {
+    th->unsrt[i].lnP        += log((float)N / (float)W);
+    th->unsrt[i].dcl[0].lnP  = th->unsrt[i].lnP;
+    th->unsrt[i].sortkey     = -1.0 * th->unsrt[i].lnP;
+  }
+  return eslOK;
+}
+
+
+/* Function:  p7_tophits_RemoveDuplicates()
+ * Synopsis:  Remove overlapping hits.
+ *
+ * Purpose:   After nhmmer pipeline has completed, the TopHits object may
+ *               contain duplicates if the target was broken into overlapping
+ *               windows. Scan through, and remove duplicates.  Since the
+ *               duplicates may be incomplete (one sequence is a partial
+ *               hit because it's window didn't cover the full length of
+ *               the hit), keep the one with better p-value
+ *
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_tophits_RemoveDuplicates(P7_TOPHITS *th, int using_bit_cutoffs)
+{
+  int     i;    /* counter over hits */
+  int     j;    /* previous un-duplicated hit */
+  int     s_i, s_j, e_i, e_j, dir_i, dir_j, len_i, len_j;
+  int     intersect_alistart, intersect_aliend, intersect_alilen;
+  int     intersect_hmmstart, intersect_hmmend, intersect_hmmlen;
+  //int64_t sub_i, sub_j;
+  int     tmp;
+  double  p_i, p_j;
+  int remove;
+
+  if (th->N<2) return eslOK;
+
+  j=0;
+  for (i = 1; i < th->N; i++)
+  {
+
+      //sub_j = th->hit[j]->subseq_start;
+      p_j = th->hit[j]->lnP;
+      s_j = th->hit[j]->dcl[0].iali;
+      e_j = th->hit[j]->dcl[0].jali;
+      dir_j = (s_j < e_j ? 1 : -1);
+      if (dir_j == -1) {
+        tmp = s_j;
+        s_j = e_j;
+        e_j = tmp;
+      }
+      len_j = e_j - s_j + 1 ;
+
+
+      //sub_i = th->hit[i]->subseq_start;
+      p_i = th->hit[i]->lnP;
+      s_i = th->hit[i]->dcl[0].iali;
+      e_i = th->hit[i]->dcl[0].jali;
+      dir_i = (s_i < e_i ? 1 : -1);
+      if (dir_i == -1) {
+        tmp = s_i;
+        s_i = e_i;
+        e_i = tmp;
+      }
+      len_i = e_i - s_i + 1 ;
+
+
+      // these will only matter if seqidx and strand are the same
+      intersect_alistart  = s_i>s_j ? s_i : s_j;
+      intersect_aliend    = e_i<e_j ? e_i : e_j;
+      intersect_alilen    = intersect_aliend - intersect_alistart + 1;
+
+      intersect_hmmstart = (th->hit[i]->dcl[0].ad->hmmfrom > th->hit[j]->dcl[0].ad->hmmfrom) ? th->hit[i]->dcl[0].ad->hmmfrom : th->hit[j]->dcl[0].ad->hmmfrom;
+      intersect_hmmend   = (th->hit[i]->dcl[0].ad->hmmto   < th->hit[j]->dcl[0].ad->hmmto)   ? th->hit[i]->dcl[0].ad->hmmto : th->hit[j]->dcl[0].ad->hmmto;
+      intersect_hmmlen = intersect_hmmend - intersect_hmmstart + 1;
+
+      if ( esl_strcmp(th->hit[i]->name, th->hit[i-1]->name) == 0  && //same model
+          th->hit[i]->seqidx ==  th->hit[i-1]->seqidx  && //same source sequence
+           dir_i == dir_j && // only bother removing if the overlapping hits are on the same strand
+           intersect_hmmlen > 0 && //only if they're both hitting similar parts of the model
+           (
+               ( s_i >= s_j-3 && s_i <= s_j+3) ||  // at least one side is essentially flush
+               ( e_i >= e_j-3 && e_i <= e_j+3) ||
+               ( intersect_alilen >= len_i * 0.95) || // or one of the hits covers >90% of the other
+               ( intersect_alilen >= len_j * 0.95)
+           )
+      )
+      {
+        /* Force one to go unreported.  I prefer to keep the one with the
+         * better e-value.  This addresses two issues
+         * (1) longer hits sometimes encounter higher bias corrections,
+         *     leading to lower scores; seems better to focus on the
+         *     high-scoring heart of the alignment, if we have a
+         *     choice
+         * (2) it is possible that a lower-scoring longer hit (see #1)
+         *     that is close to threshold will pass the pipeline in
+         *     one condition and not the other (e.g. --toponly, or
+         *     single vs multi threaded), and if longer hits obscure
+         *     shorter higher-scoring ones, a shorter "hit" might be
+         *     lost by being obscured by a longer one that is subsequently
+         *     removed due to insufficient score.
+         * see late notes in ~wheelert/notebook/2012/0518-dfam-scripts/00NOTES
+        */
+        //remove = 0; // 1 := keep i,  0 := keep i-1
+        remove = p_i < p_j ? j : i;
+
+        th->hit[remove]->flags |= p7_IS_DUPLICATE;
+        if (using_bit_cutoffs) {
+          //report/include flags were already included, need to remove them here
+          th->hit[remove]->flags &= ~p7_IS_REPORTED;
+          th->hit[remove]->flags &= ~p7_IS_INCLUDED;
+        }
+
+        j = remove == j ? i : j;
+      } else {
+        j = i;
+      }
+  }
+  return eslOK;
+}
+
+
+
+/* Function:  p7_tophits_Threshold()
+ * Synopsis:  Apply score and E-value thresholds to a hitlist before output.
+ *
+ * Purpose:   After a pipeline has completed, go through it and mark all
+ *            the targets and domains that are "significant" (satisfying
+ *            the reporting thresholds set for the pipeline). 
+ *            
+ *            Also sets the final total number of reported and
+ *            included targets, the number of reported and included
+ *            targets in each target, and the size of the search space
+ *            for per-domain conditional E-value calculations,
+ *            <pli->domZ>. By default, <pli->domZ> is the number of
+ *            significant targets reported.
+ *
+ *            If model-specific thresholds were used in the pipeline,
+ *            we cannot apply those thresholds now. They were already
+ *            applied in the pipeline. In this case all we're
+ *            responsible for here is counting them (setting
+ *            nreported, nincluded counters).
+ *            
+ * Returns:   <eslOK> on success.
+ */
+int
+p7_tophits_Threshold(P7_TOPHITS *th, P7_PIPELINE *pli)
+{
+  int h, d;    /* counters over sequence hits, domains in sequences */
+  
+  /* Flag reported, included targets (if we're using general thresholds) */
+  if (! pli->use_bit_cutoffs) 
+  {
+    for (h = 0; h < th->N; h++)
+    {
+
+      if ( !(th->hit[h]->flags & p7_IS_DUPLICATE) &&
+          p7_pli_TargetReportable(pli, th->hit[h]->score, th->hit[h]->lnP))
+      {
+          th->hit[h]->flags |= p7_IS_REPORTED;
+          if (p7_pli_TargetIncludable(pli, th->hit[h]->score, th->hit[h]->lnP))
+              th->hit[h]->flags |= p7_IS_INCLUDED;
+
+          if (pli->long_targets) { // no domains in dna search, so:
+            th->hit[h]->dcl[0].is_reported = th->hit[h]->flags & p7_IS_REPORTED;
+            th->hit[h]->dcl[0].is_included = th->hit[h]->flags & p7_IS_INCLUDED;
+          }
+      }
+    }
+  }
+
+  /* Count reported, included targets */
+  th->nreported = 0;
+  th->nincluded = 0;
+  for (h = 0; h < th->N; h++)
+  {
+      if (th->hit[h]->flags & p7_IS_REPORTED)  th->nreported++;
+      if (th->hit[h]->flags & p7_IS_INCLUDED)  th->nincluded++;
+  }
+  
+  /* Now we can determined domZ, the effective search space in which additional domains are found */
+  if (pli->domZ_setby == p7_ZSETBY_NTARGETS) pli->domZ = (double) th->nreported;
+
+
+  /* Second pass is over domains, flagging reportable/includable ones. 
+   * Depends on knowing the domZ we just set.
+   * Note how this enforces a hierarchical logic of 
+   * (sequence|domain) must be reported to be included, and
+   * domain can only be (reported|included) if whole sequence is too.
+   */
+  if (! pli->use_bit_cutoffs && !pli->long_targets)
+  {
+    for (h = 0; h < th->N; h++)
+    {
+      if (th->hit[h]->flags & p7_IS_REPORTED)
+      {
+        for (d = 0; d < th->hit[h]->ndom; d++)
+        {
+          if (p7_pli_DomainReportable(pli, th->hit[h]->dcl[d].bitscore, th->hit[h]->dcl[d].lnP))
+            th->hit[h]->dcl[d].is_reported = TRUE;
+          if ((th->hit[h]->flags & p7_IS_INCLUDED) &&
+              p7_pli_DomainIncludable(pli, th->hit[h]->dcl[d].bitscore, th->hit[h]->dcl[d].lnP))
+            th->hit[h]->dcl[d].is_included = TRUE;
+        }
+      }
+    }
+  }
+
+  /* Count the reported, included domains */
+  for (h = 0; h < th->N; h++)  
+    for (d = 0; d < th->hit[h]->ndom; d++)
+    {
+        if (th->hit[h]->dcl[d].is_reported) th->hit[h]->nreported++;
+        if (th->hit[h]->dcl[d].is_included) th->hit[h]->nincluded++;
+    }
+
+  workaround_bug_h74(th);  /* blech. This function is defined above; see commentary and crossreferences there. */
+
+  return eslOK;
+}
+
+
+
+
+
+/* Function:  p7_tophits_CompareRanking()
+ * Synopsis:  Compare current top hits to previous top hits ranking.
+ *
+ * Purpose:   Using a keyhash <kh> of the previous top hits and the
+ *            their ranks, look at the current top hits list <th>
+ *            and flag new hits that are included for the first time
+ *            (by setting <p7_IS_NEW> flag) and hits that were 
+ *            included previously, but are now below the inclusion
+ *            threshold in the list (<by setting <p7_IS_DROPPED>
+ *            flag). 
+ *
+ *            The <th> must already have been processed by
+ *            <p7_tophits_Threshold()>. We assume the <is_included>,
+ *            <is_reported> flags are set on the appropriate hits.
+ * 
+ *            Upon return, the keyhash <kh> is updated to hash the
+ *            current top hits list and their ranks. 
+ *            
+ *            Optionally, <*opt_nnew> is set to the number of 
+ *            newly included hits. jackhmmer uses this as part of
+ *            its convergence criteria, for example.
+ *            
+ *            These flags affect output of top target hits from
+ *            <p7_tophits_Targets()>. 
+ *            
+ *            It only makes sense to call this function in context of
+ *            an iterative search.
+ *            
+ *            The <p7_IS_NEW> flag is comprehensive: all new hits
+ *            are flagged (and counted in <*opt_nnew>). The <p7_WAS_DROPPED> 
+ *            flag is not comprehensive: only those hits that still 
+ *            appear in the current top hits list are flagged. If a 
+ *            hit dropped entirely off the list, it isn't counted
+ *            as "dropped". (This could be done, but we would want
+ *            to have two keyhashes, one old and one new, to do the
+ *            necessary comparisons efficiently.)
+ *            
+ *            If the target names in <th> are not unique, results may
+ *            be strange.
+ *
+ * Args:      th         - current top hits list
+ *            kh         - hash of top hits' ranks (in: previous tophits; out: <th>'s tophits)
+ *            opt_nnew   - optRETURN: number of new hits above inclusion threshold
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> if <kh> needed to be reallocated but this failed.
+ */
+int
+p7_tophits_CompareRanking(P7_TOPHITS *th, ESL_KEYHASH *kh, int *opt_nnew)
+{
+  int nnew = 0;
+  int oldrank;
+  int h;
+  int status;
+
+  /* Flag the hits in the list with whether they're new in the included top hits,
+   * and whether they've dropped off the included list.
+   */
+  for (h = 0; h < th->N; h++)
+  {
+    esl_keyhash_Lookup(kh, th->hit[h]->name, -1, &oldrank);
+      
+    if (th->hit[h]->flags & p7_IS_INCLUDED) 
+    {
+      if (oldrank == -1) { th->hit[h]->flags |= p7_IS_NEW; nnew++; }
+    }
+    else 
+    {
+      if (oldrank >=  0) th->hit[h]->flags |= p7_IS_DROPPED;
+    }
+  }
+
+  /* Replace the old rank list with the new one */
+  esl_keyhash_Reuse(kh);
+  for (h = 0; h < th->N; h++)
+  {
+    if (th->hit[h]->flags & p7_IS_INCLUDED)
+    {
+      /* What happens when the same sequence name appears twice? It gets stored with higher rank */
+      status = esl_keyhash_Store(kh, th->hit[h]->name, -1, NULL);
+      if (status != eslOK && status != eslEDUP) goto ERROR;
+    }
+  }
+  
+  if (opt_nnew != NULL) *opt_nnew = nnew;
+  return eslOK;
+
+ ERROR:
+  if (opt_nnew != NULL) *opt_nnew = 0;
+  return status;
+}
+
+
+/* Function:  p7_tophits_Targets()
+ * Synopsis:  Format and write a top target hits list to an output stream.
+ *
+ * Purpose:   Output a list of the reportable top target hits in <th> 
+ *            in human-readable ASCII text format to stream <ofp>, using
+ *            final pipeline accounting stored in <pli>. 
+ * 
+ *            The tophits list <th> should already be sorted (see
+ *            <p7_tophits_Sort()> and thresholded (see
+ *            <p7_tophits_Threshold>).
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> on write failure.
+ */
+int
+p7_tophits_Targets(FILE *ofp, P7_TOPHITS *th, P7_PIPELINE *pli, int textw)
+{
+  char   newness;
+  int    h;
+  int    d;
+  int    namew;
+  int    posw;
+  int    descw;
+  char  *showname;
+
+  int    have_printed_incthresh = FALSE;
+
+  /* when --acc is on, we'll show accession if available, and fall back to name */
+  if (pli->show_accessions) namew = ESL_MAX(8, p7_tophits_GetMaxShownLength(th));
+  else                      namew = ESL_MAX(8, p7_tophits_GetMaxNameLength(th));
+
+
+  if (pli->long_targets) 
+  {
+      posw = ESL_MAX(6, p7_tophits_GetMaxPositionLength(th));
+
+      if (textw >  0)           descw = ESL_MAX(32, textw - namew - 2*posw - 32); /* 32 chars excluding desc and two posw's is from the format: 2 + 9+2 +6+2 +5+2 +<name>+1 +<startpos>+1 +<endpos>+1 +1 */
+      else                      descw = 0;                               /* unlimited desc length is handled separately */
+
+      if (fprintf(ofp, "Scores for complete hit%s:\n",     pli->mode == p7_SEARCH_SEQS ? "s" : "") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+      if (fprintf(ofp, "  %9s %6s %5s  %-*s %*s %*s  %s\n",
+      "E-value", " score", " bias", namew, (pli->mode == p7_SEARCH_SEQS ? "Sequence":"Model"), posw, "start", posw, "end", "Description") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+      if (fprintf(ofp, "  %9s %6s %5s  %-*s %*s %*s  %s\n",
+      "-------", "------", "-----", namew, "--------", posw, "-----", posw, "-----", "-----------") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+  }
+  else 
+  {
+
+      if (textw >  0)           descw = ESL_MAX(32, textw - namew - 61); /* 61 chars excluding desc is from the format: 2 + 22+2 +22+2 +8+2 +<name>+1 */
+      else                      descw = 0;                               /* unlimited desc length is handled separately */
+
+
+      /* The minimum width of the target table is 111 char: 47 from fields, 8 from min name, 32 from min desc, 13 spaces */
+      if (fprintf(ofp, "Scores for complete sequence%s (score includes all domains):\n", pli->mode == p7_SEARCH_SEQS ? "s" : "") < 0) 
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+      if (fprintf(ofp, "  %22s  %22s  %8s\n",                              " --- full sequence ---",        " --- best 1 domain ---",   "-#dom-") < 0) 
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+      if (fprintf(ofp, "  %9s %6s %5s  %9s %6s %5s  %5s %2s  %-*s %s\n", 
+      "E-value", " score", " bias", "E-value", " score", " bias", "  exp",  "N", namew, (pli->mode == p7_SEARCH_SEQS ? "Sequence":"Model"), "Description") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+      if (fprintf(ofp, "  %9s %6s %5s  %9s %6s %5s  %5s %2s  %-*s %s\n", 
+      "-------", "------", "-----", "-------", "------", "-----", " ----", "--", namew, "--------", "-----------") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+  }
+
+  for (h = 0; h < th->N; h++)
+    if (th->hit[h]->flags & p7_IS_REPORTED)
+    {
+        d    = th->hit[h]->best_domain;
+
+        if (! (th->hit[h]->flags & p7_IS_INCLUDED) && ! have_printed_incthresh) 
+        {
+          if (fprintf(ofp, "  ------ inclusion threshold ------\n") < 0)
+            ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+          have_printed_incthresh = TRUE;
+        }
+
+        if (pli->show_accessions)
+        {   /* the --acc option: report accessions rather than names if possible */
+            if (th->hit[h]->acc != NULL && th->hit[h]->acc[0] != '\0') showname = th->hit[h]->acc;
+            else                                                       showname = th->hit[h]->name;
+        }
+        else
+          showname = th->hit[h]->name;
+
+        if      (th->hit[h]->flags & p7_IS_NEW)     newness = '+';
+        else if (th->hit[h]->flags & p7_IS_DROPPED) newness = '-';
+        else                                        newness = ' ';
+
+        if (pli->long_targets) 
+        {
+          if (fprintf(ofp, "%c %9.2g %6.1f %5.1f  %-*s %*d %*d ",
+          newness,
+          exp(th->hit[h]->lnP), // * pli->Z,
+          th->hit[h]->score,
+          eslCONST_LOG2R * th->hit[h]->dcl[d].dombias, // an nhmmer hit is really a domain, so this is the hit's bias correction
+          namew, showname,
+          posw, th->hit[h]->dcl[d].iali,
+          posw, th->hit[h]->dcl[d].jali) < 0)
+            ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+        }
+        else
+        {
+          if (fprintf(ofp, "%c %9.2g %6.1f %5.1f  %9.2g %6.1f %5.1f  %5.1f %2d  %-*s ",
+          newness,
+          exp(th->hit[h]->lnP) * pli->Z,
+          th->hit[h]->score,
+          th->hit[h]->pre_score - th->hit[h]->score, /* bias correction */
+          exp(th->hit[h]->dcl[d].lnP) * pli->Z,
+          th->hit[h]->dcl[d].bitscore,
+          eslCONST_LOG2R * th->hit[h]->dcl[d].dombias, /* convert NATS to BITS at last moment */
+          th->hit[h]->nexpected,
+          th->hit[h]->nreported,
+          namew, showname) < 0)
+            ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+        }
+
+        if (textw > 0) 
+        {
+          if (fprintf(ofp, " %-.*s\n", descw, th->hit[h]->desc == NULL ? "" : th->hit[h]->desc) < 0)
+            ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+        }
+        else 
+        {
+          if (fprintf(ofp, " %s\n",           th->hit[h]->desc == NULL ? "" : th->hit[h]->desc) < 0)
+            ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+        }
+        /* do NOT use *s with unlimited (INT_MAX) line length. Some systems
+         * have an fprintf() bug here (we found one on an Opteron/SUSE Linux
+         * system (#h66)
+         */
+    }
+
+    if (th->nreported == 0)
+    { 
+      if (fprintf(ofp, "\n   [No hits detected that satisfy reporting thresholds]\n") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "per-sequence hit list: write failed");
+    }
+  return eslOK;
+}
+
+
+/* Function:  p7_tophits_Domains()
+ * Synopsis:  Standard output format for top domain hits and alignments.
+ *
+ * Purpose:   For each reportable target sequence, output a tabular summary
+ *            of reportable domains found in it, followed by alignments of
+ *            each domain.
+ * 
+ *            Similar to <p7_tophits_Targets()>; see additional notes there.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> if a write to <ofp> fails; for example, if
+ *            the disk fills up.
+ */
+int
+p7_tophits_Domains(FILE *ofp, P7_TOPHITS *th, P7_PIPELINE *pli, int textw)
+{
+  int   h, d;
+  int   nd;
+  int   namew, descw;
+  char *showname;
+  int   status;
+
+  if (pli->long_targets) 
+  {
+      if (fprintf(ofp, "Annotation for each hit %s:\n",
+      pli->show_alignments ? " (and alignments)" : "") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+  }
+  else 
+  {
+      if (fprintf(ofp, "Domain annotation for each %s%s:\n",
+      pli->mode == p7_SEARCH_SEQS ? "sequence" : "model",
+      pli->show_alignments ? " (and alignments)" : "") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+  }
+
+  for (h = 0; h < th->N; h++)
+    if (th->hit[h]->flags & p7_IS_REPORTED)
+    {
+      if (pli->show_accessions && th->hit[h]->acc != NULL && th->hit[h]->acc[0] != '\0')
+      {
+        showname = th->hit[h]->acc;
+        namew    = strlen(th->hit[h]->acc);
+      }
+      else
+      {
+        showname = th->hit[h]->name;
+        namew = strlen(th->hit[h]->name);
+      }
+
+      if (textw > 0)
+      {
+        descw = ESL_MAX(32, textw - namew - 5);
+        if (fprintf(ofp, ">> %s  %-.*s\n", showname, descw, (th->hit[h]->desc == NULL ? "" : th->hit[h]->desc)) < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+      }
+      else
+      {
+        if (fprintf(ofp, ">> %s  %s\n",    showname,        (th->hit[h]->desc == NULL ? "" : th->hit[h]->desc)) < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+      }
+
+      if (th->hit[h]->nreported == 0)
+      {
+        if (fprintf(ofp,"   [No individual domains that satisfy reporting thresholds (although complete target did)]\n\n") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+        continue;
+      }
+
+
+      if (pli->long_targets) {
+        /* The dna hit table is 119 char wide:
+    score  bias    Evalue hmmfrom  hmm to     alifrom    ali to      envfrom    env to       hqfrom     hq to   sq len      acc
+   ------ ----- --------- ------- -------    --------- ---------    --------- ---------    --------- --------- ---------    ----
+ !   82.7 104.4   4.9e-22     782     998 .. 241981174 241980968 .. 241981174 241980966 .. 241981174 241980968 234234233   0.78
+        */
+        if (fprintf(ofp, "   %6s %5s %9s %9s %9s %2s %9s %9s %2s %9s %9s    %9s %2s %4s\n",  "score",  "bias",  "  Evalue", "hmmfrom",  "hmm to", "  ", " alifrom ",  " ali to ", "  ",  " envfrom ",  " env to ",  (pli->mode == p7_SEARCH_SEQS ? "  sq len " : " mod len "), "  ",  "acc")  < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+        if (fprintf(ofp, "   %6s %5s %9s %9s %9s %2s %9s %9s %2s %9s %9s    %9s %2s %4s\n",  "------", "-----", "---------", "-------", "-------", "  ", "---------", "---------", "  ", "---------", "---------",  "---------", "  ", "----") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+      } else {
+
+        /* The domain table is 101 char wide:
+     #     score  bias    Evalue hmmfrom   hmmto    alifrom  ali to    envfrom  env to     acc
+     ---   ------ ----- --------- ------- -------    ------- -------    ------- -------    ----
+     1 ?  123.4  23.1    6.8e-9       3    1230 ..       1     492 []       2     490 .] 0.90
+     123 ! 1234.5 123.4 123456789 1234567 1234567 .. 1234567 1234567 [] 1234567 1234568 .] 0.12
+        */
+
+        if (fprintf(ofp, " %3s   %6s %5s %9s %9s %7s %7s %2s %7s %7s %2s %7s %7s %2s %4s\n",    "#",  "score",  "bias",  "c-Evalue",  "i-Evalue", "hmmfrom",  "hmm to", "  ", "alifrom",  "ali to", "  ", "envfrom",  "env to", "  ",  "acc")  < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+        if (fprintf(ofp, " %3s   %6s %5s %9s %9s %7s %7s %2s %7s %7s %2s %7s %7s %2s %4s\n",  "---", "------", "-----", "---------", "---------", "-------", "-------", "  ", "-------", "-------", "  ", "-------", "-------", "  ", "----")  < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+      }
+
+      nd = 0;
+      for (d = 0; d < th->hit[h]->ndom; d++)
+          if (th->hit[h]->dcl[d].is_reported)
+          {
+            nd++;
+            if (pli->long_targets)
+            {
+
+               if (fprintf(ofp, " %c %6.1f %5.1f %9.2g %9d %9d %c%c %9ld %9ld %c%c %9d %9d %c%c %9ld    %4.2f\n",
+                    //nd,
+                    th->hit[h]->dcl[d].is_included ? '!' : '?',
+                    th->hit[h]->dcl[d].bitscore,
+                    th->hit[h]->dcl[d].dombias * eslCONST_LOG2R, /* convert NATS to BITS at last moment */
+                    exp(th->hit[h]->dcl[d].lnP),
+                    th->hit[h]->dcl[d].ad->hmmfrom,
+                    th->hit[h]->dcl[d].ad->hmmto,
+                    (th->hit[h]->dcl[d].ad->hmmfrom == 1) ? '[' : '.',
+                    (th->hit[h]->dcl[d].ad->hmmto   == th->hit[h]->dcl[d].ad->M) ? ']' : '.',
+                    th->hit[h]->dcl[d].ad->sqfrom,
+                    th->hit[h]->dcl[d].ad->sqto,
+                    (th->hit[h]->dcl[d].ad->sqfrom == 1) ? '[' : '.',
+                    (th->hit[h]->dcl[d].ad->sqto   == th->hit[h]->dcl[d].ad->L) ? ']' : '.',
+                    th->hit[h]->dcl[d].ienv,
+                    th->hit[h]->dcl[d].jenv,
+                    (th->hit[h]->dcl[d].ienv == 1) ? '[' : '.',
+                    (th->hit[h]->dcl[d].jenv == th->hit[h]->dcl[d].ad->L) ? ']' : '.',
+                    th->hit[h]->dcl[d].ad->L,
+                    (th->hit[h]->dcl[d].oasc / (1.0 + fabs((float) (th->hit[h]->dcl[d].jenv - th->hit[h]->dcl[d].ienv))))) < 0)
+                         ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+
+            }
+            else
+            {
+              if (fprintf(ofp, " %3d %c %6.1f %5.1f %9.2g %9.2g %7d %7d %c%c %7ld %7ld %c%c %7d %7d %c%c %4.2f\n",
+                    nd,
+                    th->hit[h]->dcl[d].is_included ? '!' : '?',
+                    th->hit[h]->dcl[d].bitscore,
+                    th->hit[h]->dcl[d].dombias * eslCONST_LOG2R, /* convert NATS to BITS at last moment */
+                    exp(th->hit[h]->dcl[d].lnP) * pli->domZ,
+                    exp(th->hit[h]->dcl[d].lnP) * pli->Z,
+                    th->hit[h]->dcl[d].ad->hmmfrom,
+                    th->hit[h]->dcl[d].ad->hmmto,
+                    (th->hit[h]->dcl[d].ad->hmmfrom == 1) ? '[' : '.',
+                    (th->hit[h]->dcl[d].ad->hmmto   == th->hit[h]->dcl[d].ad->M) ? ']' : '.',
+                    th->hit[h]->dcl[d].ad->sqfrom,
+                    th->hit[h]->dcl[d].ad->sqto,
+                    (th->hit[h]->dcl[d].ad->sqfrom == 1) ? '[' : '.',
+                    (th->hit[h]->dcl[d].ad->sqto   == th->hit[h]->dcl[d].ad->L) ? ']' : '.',
+                    th->hit[h]->dcl[d].ienv,
+                    th->hit[h]->dcl[d].jenv,
+                    (th->hit[h]->dcl[d].ienv == 1) ? '[' : '.',
+                    (th->hit[h]->dcl[d].jenv == th->hit[h]->dcl[d].ad->L) ? ']' : '.',
+                    (th->hit[h]->dcl[d].oasc / (1.0 + fabs((float) (th->hit[h]->dcl[d].jenv - th->hit[h]->dcl[d].ienv))))) < 0)
+                        ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+            }
+          }
+
+          if (pli->show_alignments)
+          {
+            if (pli->long_targets)
+            {
+              if (fprintf(ofp, "\n  Alignment:\n") < 0)
+                ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+            }
+            else
+            {
+              if (fprintf(ofp, "\n  Alignments for each domain:\n") < 0)
+                ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+              nd = 0;
+            }
+
+            for (d = 0; d < th->hit[h]->ndom; d++)
+              if (th->hit[h]->dcl[d].is_reported)
+              {
+                nd++;
+                if (!pli->long_targets)
+                {
+                  if (fprintf(ofp, "  == domain %d", nd ) < 0)
+                    ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+                }
+                if (fprintf(ofp, "  score: %.1f bits", th->hit[h]->dcl[d].bitscore) < 0)
+                  ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+                if (!pli->long_targets)
+                {
+                  if (fprintf(ofp, ";  conditional E-value: %.2g\n",  exp(th->hit[h]->dcl[d].lnP) * pli->domZ) < 0)
+                    ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+                }
+                else
+                {
+                  if (fprintf(ofp, "\n") < 0)
+                    ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+                }
+
+                if ((status = p7_alidisplay_Print(ofp, th->hit[h]->dcl[d].ad, 40, textw, pli->show_accessions)) != eslOK) return status;
+
+                if (fprintf(ofp, "\n") < 0)
+                  ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+              }
+          }
+          else
+          { 
+            if (fprintf(ofp, "\n") < 0)
+              ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+          }
+    }
+
+    if (th->nreported == 0)
+    {
+      if (fprintf(ofp, "\n   [No targets detected that satisfy reporting thresholds]\n") < 0) 
+        ESL_EXCEPTION_SYS(eslEWRITE, "domain hit list: write failed");
+    }
+    return eslOK;
+}
+
+
+/* Function:  p7_tophits_Alignment()
+ * Synopsis:  Create a multiple alignment of all the included domains.
+ *
+ * Purpose:   Create a multiple alignment of all domains marked
+ *            "includable" in the top hits list <th>, and return it in
+ *            <*ret_msa>.
+ *            
+ *            Use of <optflags> is identical to <optflags> in <p7_tracealign_Seqs()>.
+ *            Possible flags include <p7_DIGITIZE>, <p7_ALL_CONSENSUS_COLS>,
+ *            and <p7_TRIM>; they may be OR'ed together. Otherwise, pass
+ *            <p7_DEFAULT> to set no flags.
+ *
+ *            Caller may optionally provide <inc_sqarr>, <inc_trarr>, and
+ *            <inc_n> to include additional sequences in the alignment
+ *            (the jackhmmer query, for example). Otherwise, pass <NULL, NULL, 0>.
+ *
+ * Returns:   <eslOK> on success, and <*ret_msa> points to a new MSA that
+ *            the caller is responsible for freeing.
+ *
+ *            Returns <eslFAIL> if there are no reported domains that
+ *            satisfy reporting thresholds, in which case <*ret_msa>
+ *            is <NULL>.
+ *
+ * Throws:    <eslEMEM> on allocation failure; <eslECORRUPT> on 
+ *            unexpected internal data corruption.
+ *
+ * Xref:      J4/29: incept.
+ *            J4/76: added inc_sqarr, inc_trarr, inc_n, optflags 
+ */
+int
+p7_tophits_Alignment(const P7_TOPHITS *th, const ESL_ALPHABET *abc, 
+         ESL_SQ **inc_sqarr, P7_TRACE **inc_trarr, int inc_n,
+         int optflags, ESL_MSA **ret_msa)
+{
+  ESL_SQ   **sqarr = NULL;
+  P7_TRACE **trarr = NULL;
+  ESL_MSA   *msa   = NULL;
+  int        ndom  = 0;
+  int        h, d, y;
+  int        M;
+  int        status;
+
+  /* How many domains will be included in the new alignment? 
+   * We also set model size M here; every alignment has a copy.
+   */
+  for (h = 0; h < th->N; h++)
+    if (th->hit[h]->flags & p7_IS_INCLUDED)
+    {
+        for (d = 0; d < th->hit[h]->ndom; d++)
+          if (th->hit[h]->dcl[d].is_included)
+            ndom++;
+    }
+
+  if (inc_n+ndom == 0) { status = eslFAIL; goto ERROR; }
+
+  if (inc_n)     M = inc_trarr[0]->M;          
+  else           M = th->hit[0]->dcl[0].ad->M;
+  
+  /* Allocation */
+  ESL_ALLOC(sqarr, sizeof(ESL_SQ *)   * (ndom + inc_n));
+  ESL_ALLOC(trarr, sizeof(P7_TRACE *) * (ndom + inc_n));
+  /* Inclusion of preexisting seqs, traces: make copy of pointers */
+  for (y = 0; y < inc_n;        y++) { sqarr[y] = inc_sqarr[y];  trarr[y] = inc_trarr[y]; }
+  for (;      y < (ndom+inc_n); y++) { sqarr[y] = NULL;          trarr[y] = NULL; }
+
+  /* Make faux sequences, traces from hit list */
+  y = inc_n;
+  for (h = 0; h < th->N; h++)
+    if (th->hit[h]->flags & p7_IS_INCLUDED)
+    {
+        for (d = 0; d < th->hit[h]->ndom; d++)
+          if (th->hit[h]->dcl[d].is_included)
+          {
+              if ((status = p7_alidisplay_Backconvert(th->hit[h]->dcl[d].ad, abc, &(sqarr[y]), &(trarr[y]))) != eslOK) goto ERROR;
+              y++;
+          }
+    }
+  
+  /* Make the multiple alignment */
+  if ((status = p7_tracealign_Seqs(sqarr, trarr, inc_n+ndom, M, optflags, NULL, &msa)) != eslOK) goto ERROR;
+
+  /* Clean up */
+  for (y = inc_n; y < ndom+inc_n; y++) esl_sq_Destroy(sqarr[y]);
+  for (y = inc_n; y < ndom+inc_n; y++) p7_trace_Destroy(trarr[y]);
+  free(sqarr);
+  free(trarr);
+  *ret_msa = msa;
+  return eslOK;
+  
+ ERROR:
+  if (sqarr != NULL) { for (y = inc_n; y < ndom+inc_n; y++) if (sqarr[y] != NULL) esl_sq_Destroy(sqarr[y]);   free(sqarr); }
+  if (trarr != NULL) { for (y = inc_n; y < ndom+inc_n; y++) if (trarr[y] != NULL) p7_trace_Destroy(trarr[y]); free(trarr); }
+  if (msa   != NULL) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+/*---------------- end, standard output format ------------------*/
+
+
+
+
+
+/*****************************************************************
+ * 3. Tabular (parsable) output of pipeline results.
+ *****************************************************************/
+
+/* Function:  p7_tophits_TabularTargets()
+ * Synopsis:  Output parsable table of per-sequence hits.
+ *
+ * Purpose:   Output a parseable table of reportable per-sequence hits
+ *            in sorted tophits list <th> in an easily parsed ASCII
+ *            tabular form to stream <ofp>, using final pipeline
+ *            accounting stored in <pli>.
+ *            
+ *            Designed to be concatenated for multiple queries and
+ *            multiple top hits list.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> if a write to <ofp> fails; for example, if
+ *            the disk fills up.
+ */
+int
+p7_tophits_TabularTargets(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli, int show_header)
+{
+  int qnamew = ESL_MAX(20, strlen(qname));
+  int tnamew = ESL_MAX(20, p7_tophits_GetMaxNameLength(th));
+  int qaccw  = ((qacc != NULL) ? ESL_MAX(10, strlen(qacc)) : 10);
+  int taccw  = ESL_MAX(10, p7_tophits_GetMaxAccessionLength(th));
+  int posw   = (pli->long_targets ? ESL_MAX(7, p7_tophits_GetMaxPositionLength(th)) : 0);
+  int h,d;
+
+  if (show_header)
+  {
+      if (pli->long_targets) 
+      {
+        if (fprintf(ofp, "#%-*s %-*s %-*s %-*s %s %s %*s %*s %*s %*s %*s %6s %9s %6s %5s  %s\n",
+          tnamew-1, " target name",        taccw, "accession",  qnamew, "query name",           qaccw, "accession", "hmmfrom", "hmm to", posw, "alifrom", posw, "ali to", posw, "envfrom", posw, "env to", posw, ( pli->mode == p7_SCAN_MODELS ? "modlen" : "sq len" ), "strand", "  E-value", " score", " bias", "description of target") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-sequence hit list: write failed");
+        if (fprintf(ofp, "#%*s %*s %*s %*s %s %s %*s %*s %*s %*s %*s %6s %9s %6s %5s %s\n",
+          tnamew-1, "-------------------", taccw, "----------", qnamew, "--------------------", qaccw, "----------", "-------", "-------", posw, "-------", posw, "-------",  posw, "-------", posw, "-------", posw, "-------", "------", "---------", "------", "-----", "---------------------") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-per-sequence hit list: write failed");
+      }
+      else
+      {
+        if (fprintf(ofp, "#%*s %22s %22s %33s\n", tnamew+qnamew+taccw+qaccw+2, "", "--- full sequence ----", "--- best 1 domain ----", "--- domain number estimation ----") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-sequence hit list: write failed");
+        if (fprintf(ofp, "#%-*s %-*s %-*s %-*s %9s %6s %5s %9s %6s %5s %5s %3s %3s %3s %3s %3s %3s %3s %s\n",
+          tnamew-1, " target name",        taccw, "accession",  qnamew, "query name",           qaccw, "accession",  "  E-value", " score", " bias", "  E-value", " score", " bias", "exp", "reg", "clu", " ov", "env", "dom", "rep", "inc", "description of target") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-sequence hit list: write failed");
+        if (fprintf(ofp, "#%*s %*s %*s %*s %9s %6s %5s %9s %6s %5s %5s %3s %3s %3s %3s %3s %3s %3s %s\n",
+          tnamew-1, "-------------------", taccw, "----------", qnamew, "--------------------", qaccw, "----------", "---------", "------", "-----", "---------", "------", "-----", "---", "---", "---", "---", "---", "---", "---", "---", "---------------------") < 0)
+          ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-sequence hit list: write failed");
+      }
+  }
+
+  for (h = 0; h < th->N; h++)
+    if (th->hit[h]->flags & p7_IS_REPORTED)    
+    {
+        d    = th->hit[h]->best_domain;
+        if (pli->long_targets) 
+        {
+            if (fprintf(ofp, "%-*s %-*s %-*s %-*s %7d %7d %*d %*d %*d %*d %*ld %6s %9.2g %6.1f %5.1f  %s\n",
+                tnamew, th->hit[h]->name,
+                taccw,  th->hit[h]->acc ? th->hit[h]->acc : "-",
+                qnamew, qname,
+                qaccw,  ( (qacc != NULL && qacc[0] != '\0') ? qacc : "-"),
+                th->hit[h]->dcl[d].ad->hmmfrom,
+                th->hit[h]->dcl[d].ad->hmmto,
+                posw, th->hit[h]->dcl[d].iali,
+                posw, th->hit[h]->dcl[d].jali,
+                posw, th->hit[h]->dcl[d].ienv,
+                posw, th->hit[h]->dcl[d].jenv,
+                posw, th->hit[h]->dcl[0].ad->L,
+                (th->hit[h]->dcl[d].iali < th->hit[h]->dcl[d].jali ? "   +  "  :  "   -  "),
+                exp(th->hit[h]->lnP),
+                th->hit[h]->score,
+                th->hit[h]->dcl[d].dombias * eslCONST_LOG2R, /* convert NATS to BITS at last moment */
+                th->hit[h]->desc == NULL ? "-" :  th->hit[h]->desc ) < 0)
+                  ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-sequence hit list: write failed");
+        }
+        else
+        {
+                if (fprintf(ofp, "%-*s %-*s %-*s %-*s %9.2g %6.1f %5.1f %9.2g %6.1f %5.1f %5.1f %3d %3d %3d %3d %3d %3d %3d %s\n",
+                tnamew, th->hit[h]->name,
+                taccw,  th->hit[h]->acc ? th->hit[h]->acc : "-",
+                qnamew, qname,
+                qaccw,  ( (qacc != NULL && qacc[0] != '\0') ? qacc : "-"),
+                exp(th->hit[h]->lnP) * pli->Z,
+                th->hit[h]->score,
+                th->hit[h]->pre_score - th->hit[h]->score, /* bias correction */
+                exp(th->hit[h]->dcl[d].lnP) * pli->Z,
+                th->hit[h]->dcl[d].bitscore,
+                th->hit[h]->dcl[d].dombias * eslCONST_LOG2R, /* convert NATS to BITS at last moment */
+                th->hit[h]->nexpected,
+                th->hit[h]->nregions,
+                th->hit[h]->nclustered,
+                th->hit[h]->noverlaps,
+                th->hit[h]->nenvelopes,
+                th->hit[h]->ndom,
+                th->hit[h]->nreported,
+                th->hit[h]->nincluded,
+                (th->hit[h]->desc == NULL ? "-" : th->hit[h]->desc)) < 0)
+                  ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-sequence hit list: write failed");
+        }
+    }
+  return eslOK;
+}
+
+
+/* Function:  p7_tophits_TabularDomains()
+ * Synopsis:  Output parseable table of per-domain hits
+ *
+ * Purpose:   Output a parseable table of reportable per-domain hits
+ *            in sorted tophits list <th> in an easily parsed ASCII
+ *            tabular form to stream <ofp>, using final pipeline
+ *            accounting stored in <pli>.
+ *            
+ *            Designed to be concatenated for multiple queries and
+ *            multiple top hits list.
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEWRITE> if a write to <ofp> fails; for example, if
+ *            the disk fills up.
+ */
+int
+p7_tophits_TabularDomains(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli, int show_header)
+{
+
+  int qnamew = ESL_MAX(20, strlen(qname));
+  int tnamew = ESL_MAX(20, p7_tophits_GetMaxNameLength(th));
+  int qaccw  = (qacc ? ESL_MAX(10, strlen(qacc)) : 10);
+  int taccw  = ESL_MAX(10, p7_tophits_GetMaxAccessionLength(th));
+  int tlen, qlen;
+  int h,d,nd;
+
+  if (show_header)
+    {
+      if (fprintf(ofp, "#%*s %22s %40s %11s %11s %11s\n", tnamew+qnamew-1+15+taccw+qaccw, "",                                   "--- full sequence ---",        "-------------- this domain -------------",                "hmm coord",      "ali coord",     "env coord") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-domain hit list: write failed");
+      if (fprintf(ofp, "#%-*s %-*s %5s %-*s %-*s %5s %9s %6s %5s %3s %3s %9s %9s %6s %5s %5s %5s %5s %5s %5s %5s %4s %s\n",
+      tnamew-1, " target name",        taccw, "accession",  "tlen",  qnamew, "query name",           qaccw, "accession",  "qlen",  "E-value",   "score",  "bias",  "#",   "of",  "c-Evalue",  "i-Evalue",  "score",  "bias",  "from",  "to",    "from",  "to",   "from",   "to",    "acc",  "description of target") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-domain hit list: write failed");
+      if (fprintf(ofp, "#%*s %*s %5s %*s %*s %5s %9s %6s %5s %3s %3s %9s %9s %6s %5s %5s %5s %5s %5s %5s %5s %4s %s\n", 
+      tnamew-1, "-------------------", taccw, "----------", "-----", qnamew, "--------------------", qaccw, "----------", "-----", "---------", "------", "-----", "---", "---", "---------", "---------", "------", "-----", "-----", "-----", "-----", "-----", "-----", "-----", "----", "---------------------") < 0)
+        ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-domain hit list: write failed");
+    }
+
+  for (h = 0; h < th->N; h++)
+    if (th->hit[h]->flags & p7_IS_REPORTED)
+    {
+        nd = 0;
+        for (d = 0; d < th->hit[h]->ndom; d++)
+          if (th->hit[h]->dcl[d].is_reported)
+          {
+              nd++;
+
+              /* in hmmsearch, targets are seqs and queries are HMMs;
+               * in hmmscan, the reverse.  but in the ALIDISPLAY
+               * structure, lengths L and M are for seq and HMMs, not
+               * for query and target, so sort it out.
+               */
+              if (pli->mode == p7_SEARCH_SEQS) { qlen = th->hit[h]->dcl[d].ad->M; tlen = th->hit[h]->dcl[d].ad->L;  }
+              else                             { qlen = th->hit[h]->dcl[d].ad->L; tlen = th->hit[h]->dcl[d].ad->M;  }
+
+              if (fprintf(ofp, "%-*s %-*s %5d %-*s %-*s %5d %9.2g %6.1f %5.1f %3d %3d %9.2g %9.2g %6.1f %5.1f %5d %5d %5ld %5ld %5d %5d %4.2f %s\n",
+                tnamew, th->hit[h]->name,
+                taccw,  th->hit[h]->acc ? th->hit[h]->acc : "-",
+                tlen,
+                qnamew, qname,
+                qaccw,  ( (qacc != NULL && qacc[0] != '\0') ? qacc : "-"),
+                qlen,
+                exp(th->hit[h]->lnP) * pli->Z,
+                th->hit[h]->score,
+                th->hit[h]->pre_score - th->hit[h]->score, /* bias correction */
+                nd,
+                th->hit[h]->nreported,
+                exp(th->hit[h]->dcl[d].lnP) * pli->domZ,
+                exp(th->hit[h]->dcl[d].lnP) * pli->Z,
+                th->hit[h]->dcl[d].bitscore,
+                th->hit[h]->dcl[d].dombias * eslCONST_LOG2R, /* NATS to BITS at last moment */
+                th->hit[h]->dcl[d].ad->hmmfrom,
+                th->hit[h]->dcl[d].ad->hmmto,
+                th->hit[h]->dcl[d].ad->sqfrom,
+                th->hit[h]->dcl[d].ad->sqto,
+                th->hit[h]->dcl[d].ienv,
+                th->hit[h]->dcl[d].jenv,
+                (th->hit[h]->dcl[d].oasc / (1.0 + fabs((float) (th->hit[h]->dcl[d].jenv - th->hit[h]->dcl[d].ienv)))),
+                (th->hit[h]->desc ?  th->hit[h]->desc : "-")) < 0)
+                  ESL_EXCEPTION_SYS(eslEWRITE, "tabular per-domain hit list: write failed");
+          }
+      }
+  return eslOK;
+}
+
+
+/* Function:  p7_tophits_TabularXfam()
+ * Synopsis:  Output parsable table(s) of hits, in format desired by Xfam.
+ *
+ * Purpose:   Output a parseable table of reportable hits in sorted
+ *            tophits list <th> in an easily parsed ASCII tabular
+ *            form to stream <ofp>, using final pipeline accounting
+ *            stored in <pli>.
+ *
+ *            For long-target nucleotide queries, this will print the
+ *            same hits as p7_tophits_TabularTargets(), but with the
+ *            smaller number of (reordered) fields required by Dfam
+ *            scripts.
+ *
+ *            For protein queries, this will print two tables:
+ *            (a) per-sequence hits as presented by
+ *                p7_tophits_TabularTargets(), but formatted for
+ *                Pfam scripts;
+ *            (b) per-domain hits, similar to those presented by
+ *                p7_tophits_TabularDomains(), but sorted by
+ *                score/e-value, and formated for Pfam scripts.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslEWRITE> if a write to <ofp> fails; for example, if
+ *            the disk fills up.
+ */
+int
+p7_tophits_TabularXfam(FILE *ofp, char *qname, char *qacc, P7_TOPHITS *th, P7_PIPELINE *pli)
+{
+  P7_TOPHITS *domHitlist = NULL;
+  P7_HIT     *domhit     = NULL;
+  int         tnamew     = ESL_MAX(20, p7_tophits_GetMaxNameLength(th));
+  int         taccw      = ESL_MAX(20, p7_tophits_GetMaxAccessionLength(th));
+  int         qnamew     = ESL_MAX(20, strlen(qname));
+  int         ndom       = 0;
+  int         posw       = (pli->long_targets ? ESL_MAX(7, p7_tophits_GetMaxPositionLength(th)) : 0);
+  int         h,d;
+  int         status;
+
+
+  if (pli->long_targets) 
+  {
+    if (fprintf(ofp, "# hit scores\n# ----------\n#\n") < 0)
+      ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+    if (fprintf(ofp, "# %-*s %-*s %-*s %6s %9s %5s  %s  %s %6s %*s %*s %*s %*s %*s   %s\n",
+    tnamew-1, "target name", taccw, "acc", qnamew, "query name", "bits", "  e-value", " bias", "hmm-st", "hmm-en", "strand", posw, "ali-st", posw, "ali-en", posw, "env-st", posw, "env-en", posw, ( pli->mode == p7_SCAN_MODELS ? "modlen" : "sq-len" ), "description of target") < 0)
+      ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+    if (fprintf(ofp, "# %-*s %-*s %-*s %6s %9s %5s %s %s %6s %*s %*s %*s %*s %*s   %s\n",
+    tnamew-1, "-------------------", taccw, "-------------------", qnamew, "-------------------",  "------",  "---------", "-----", "-------", "-------", "------", posw, "-------", posw, "-------",  posw, "-------", posw, "-------", posw, "-------", "---------------------") < 0)
+      ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+
+    for (h = 0; h < th->N; h++)
+      if (th->hit[h]->flags & p7_IS_REPORTED)
+      {
+          //d    = th->hit[h]->best_domain;
+          if (fprintf(ofp, "%-*s  %-*s %-*s %6.1f %9.2g %5.1f %7d %7d %s %*d %*d %*d %*d %*ld   %s\n",
+          tnamew, th->hit[h]->name,
+          taccw, ( pli->mode == p7_SCAN_MODELS ? th->hit[h]->acc : qacc ),
+          qnamew, qname,
+          th->hit[h]->score,
+          exp(th->hit[h]->lnP),
+          th->hit[h]->dcl[0].dombias * eslCONST_LOG2R, /* convert nats to bits at last moment */
+          th->hit[h]->dcl[0].ad->hmmfrom,
+          th->hit[h]->dcl[0].ad->hmmto,
+          (th->hit[h]->dcl[0].iali < th->hit[h]->dcl[0].jali ? "   +  "  :  "   -  "),
+          posw, th->hit[h]->dcl[0].iali,
+          posw, th->hit[h]->dcl[0].jali,
+          posw, th->hit[h]->dcl[0].ienv,
+          posw, th->hit[h]->dcl[0].jenv,
+          posw, th->hit[h]->dcl[0].ad->L,
+          th->hit[h]->desc == NULL ?  "-" : th->hit[h]->desc) < 0)
+            ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+      }
+  }
+  else 
+  {
+      if (fprintf(ofp, "# Sequence scores\n# ---------------\n#\n") < 0)
+        ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+      if (fprintf(ofp, "# %-*s %6s %9s %3s %5s %5s    %s\n",
+      tnamew-1, "name",  " bits", "  E-value", "n",  "exp", " bias", "description") < 0)
+        ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+      if (fprintf(ofp, "# %*s %6s %9s %3s %5s %5s    %s\n",
+      tnamew-1, "-------------------",  "------", "---------","---", "-----",  "-----", "---------------------") < 0)
+        ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+
+      for (h = 0; h < th->N; h++) 
+      {
+        if (th->hit[h]->flags & p7_IS_REPORTED)
+        {
+          if (fprintf(ofp, "%-*s  %6.1f %9.2g %3d %5.1f %5.1f    %s\n",
+          tnamew, th->hit[h]->name,
+          th->hit[h]->score,
+          exp(th->hit[h]->lnP) * pli->Z,
+          th->hit[h]->ndom,
+          th->hit[h]->nexpected,
+          th->hit[h]->pre_score - th->hit[h]->score, /* bias correction */
+          (th->hit[h]->desc == NULL ? "-" : th->hit[h]->desc)) < 0)
+            ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+
+          for (d = 0; d < th->hit[h]->ndom; d++)
+            if (th->hit[h]->dcl[d].is_reported)
+              ndom ++;
+        }
+      }
+      if (fprintf(ofp, "\n") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+
+      /* Need to sort the domains.  One way to do this is to re-use the hit sorting machinery,
+       * so we create one "hit" for each domain, then hand it off to the sorter
+       */
+      if ((domHitlist  = p7_tophits_Create()) == NULL) return eslEMEM;
+      for (h = 0; h < th->N; h++)
+      {
+        if (th->hit[h]->flags & p7_IS_REPORTED)
+        {
+          int ndomReported = 0;
+          for (d = 0; d < th->hit[h]->ndom; d++)
+          {
+            if (th->hit[h]->dcl[d].is_reported)
+            {
+              p7_tophits_CreateNextHit(domHitlist, &domhit);
+              ndomReported++;
+              ESL_ALLOC(domhit->dcl, sizeof(P7_DOMAIN) );
+
+              domhit->ndom       = ndomReported;  // re-using this variable to track the ordinal value of the domain in the original hit list that generated this pseudo-hit
+              domhit->name       = th->hit[h]->name;
+              domhit->desc       = th->hit[h]->desc;
+              domhit->dcl[0]     = th->hit[h]->dcl[d];
+              domhit->sortkey    = pli->inc_by_E ? -1.0 * th->hit[h]->dcl[d].lnP : th->hit[h]->dcl[d].bitscore;
+            }
+          }
+        }
+      }
+      p7_tophits_SortBySortkey(domHitlist);
+
+      // Now with this list of sorted "hits" (really domains)
+      if (fprintf(ofp, "# Domain scores\n# -------------\n#\n") < 0)
+        ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+      if (fprintf(ofp, "# %-*s %6s %9s %5s %5s %6s %6s %6s %6s %6s %6s     %s\n",
+      tnamew-1, " name",  "bits", "E-value", "hit", "bias",      "env-st",  "env-en",  "ali-st",  "ali-en",  "hmm-st",  "hmm-en",   "description") < 0)
+        ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+      if (fprintf(ofp, "# %*s %6s %9s %5s %5s %6s %6s %6s %6s %6s %6s      %s\n",
+      tnamew-1, "-------------------",  "------", "---------", "-----", "-----", "------", "------", "------", "------", "------", "------", "---------------------") < 0)
+        ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+
+      for (h = 0; h < domHitlist->N; h++)
+      {
+        domhit = domHitlist->hit[h];
+
+        if (fprintf(ofp, "%-*s  %6.1f %9.2g %5d %5.1f %6d %6d %6ld %6ld %6d %6d     %s\n",
+              tnamew, domHitlist->hit[h]->name,
+              domhit->dcl[0].bitscore,
+              exp(domhit->dcl[0].lnP) * pli->Z, //i-Evalue
+              domhit->ndom,
+              domhit->dcl[0].dombias * eslCONST_LOG2R, // NATS to BITS at last moment
+              domhit->dcl[0].ienv,
+              domhit->dcl[0].jenv,
+              domhit->dcl[0].ad->sqfrom,
+              domhit->dcl[0].ad->sqto,
+              domhit->dcl[0].ad->hmmfrom,
+              domhit->dcl[0].ad->hmmto,
+              (domhit->desc ?  domhit->desc : "-")) < 0)
+                ESL_XEXCEPTION_SYS(eslEWRITE, "xfam tabular output: write failed");
+      }
+      free (domHitlist->unsrt);
+      free (domHitlist->hit);
+      free (domHitlist);
+  }
+  return eslOK;
+
+ ERROR:
+  if (domHitlist) 
+  {
+      free (domHitlist->unsrt);
+      free (domHitlist->hit);
+      free (domHitlist);
+  }
+  return status;
+}
+
+
+/* Function:  p7_tophits_AliScores()
+ * Synopsis:  Output per-position scores for each position of each query/hit pair
+ *
+ * Purpose:   This depends on per-alignment-position scores having been
+ *            previously computed, as in p7_pipeline_computeAliScores()
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    none
+ */
+int
+p7_tophits_AliScores(FILE *ofp, char *qname, P7_TOPHITS *th )
+{
+  P7_HIT *hit;
+  int h, i;
+  float *scores;
+
+  for (h = 0; h < th->N; h++) {
+    hit = th->hit[h];
+    if (hit->flags & p7_IS_REPORTED)
+    {
+      fprintf (ofp, "%s %s %d %d :", qname, hit->name, hit->dcl[0].iali, hit->dcl[0].jali);
+
+      scores = hit->dcl[0].scores_per_pos;
+      for (i=0; i<hit->dcl[0].ad->N; i++) {
+        if (scores[i] == -eslINFINITY)
+          fprintf (ofp, " >");
+        else
+          fprintf (ofp, " %.3f", scores[i]);
+
+      }
+      fprintf (ofp, "\n");
+    }
+
+  }
+  return eslOK;
+
+}
+
+
+
+
+/* Function:  p7_tophits_TabularTail()
+ * Synopsis:  Print a trailer on a tabular output file.
+ *
+ * Purpose:   Print some metadata as a trailer on a tabular output file:
+ *            date/time, the program, HMMER3 version info, the pipeline mode (SCAN or SEARCH), 
+ *            the query and target filenames, a spoof commandline
+ *            recording the entire program configuration, and
+ *            a "fini!" that's useful for detecting successful
+ *            output completion.
+ *
+ * Args:      ofp       - open tabular output file (either --tblout or --domtblout)
+ *            progname  - "hmmscan", for example
+ *            pipemode  - p7_SEARCH_SEQS | p7_SCAN_MODELS
+ *            qfile     - name of query file, or '-' for stdin, or '[none]' if NULL
+ *            tfile     - name of target file, or '-' for stdin, or '[none]' if NULL
+ *            go        - program configuration; used to generate spoofed command line
+ *
+ * Returns:   <eslOK>.
+ *
+ * Throws:    <eslEMEM> on allocation failure.
+ *            <eslESYS> if time() or ctime_r() system calls fail.
+ *            <eslEWRITE> on write failure.
+ *                        
+ * Xref:      SRE:J7/54
+ */
+int
+p7_tophits_TabularTail(FILE *ofp, const char *progname, enum p7_pipemodes_e pipemode, const char *qfile, const char *tfile, const ESL_GETOPTS *go)
+{
+   time_t date           = time(NULL);
+   char  *spoof_cmd      = NULL;
+   char  *cwd            = NULL;
+   char   timestamp[32];
+   char   modestamp[16];
+   int    status;
+
+
+  if ((status = esl_opt_SpoofCmdline(go, &spoof_cmd)) != eslOK) goto ERROR;
+  if (date == -1)                                               ESL_XEXCEPTION(eslESYS, "time() failed");
+  if ((ctime_r(&date, timestamp)) == NULL)                      ESL_XEXCEPTION(eslESYS, "ctime_r() failed");
+  switch (pipemode) {
+    case p7_SEARCH_SEQS: strcpy(modestamp, "SEARCH"); break;
+    case p7_SCAN_MODELS: strcpy(modestamp, "SCAN");   break;
+    default:             ESL_EXCEPTION(eslEINCONCEIVABLE, "wait, what? no such pipemode");
+  }
+  esl_getcwd(&cwd);
+
+  if (fprintf(ofp, "#\n") < 0)                                                                    ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Program:         %s\n",      (progname == NULL) ? "[none]" : progname) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Version:         %s (%s)\n", HMMER_VERSION, HMMER_DATE) < 0)                ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Pipeline mode:   %s\n",      modestamp) < 0)                                ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Query file:      %s\n",      (qfile    == NULL) ? "[none]" : qfile) < 0)    ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Target file:     %s\n",      (tfile    == NULL) ? "[none]" : tfile) < 0)    ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Option settings: %s\n",      spoof_cmd) < 0)                                ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Current dir:     %s\n",      (cwd      == NULL) ? "[unknown]" : cwd) < 0)   ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# Date:            %s",        timestamp) < 0) /* timestamp ends in \n */     ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+  if (fprintf(ofp, "# [ok]\n") < 0)                                                               ESL_XEXCEPTION_SYS(eslEWRITE, "tabular output tail, write failed");
+
+  free(spoof_cmd);
+  if (cwd) free(cwd);
+  return eslOK;
+
+ ERROR:
+  if (spoof_cmd) free(spoof_cmd);
+  if (cwd)       free(cwd);
+  return status;
+}
+/*------------------- end, tabular output -----------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Benchmark driver
+ *****************************************************************/
+#ifdef p7TOPHITS_BENCHMARK
+/* 
+  gcc -o benchmark-tophits -std=gnu99 -g -O2 -I. -L. -I../easel -L../easel -Dp7TOPHITS_BENCHMARK p7_tophits.c -lhmmer -leasel -lm 
+  ./benchmark-tophits
+
+  As of 28 Dec 07, shows 0.20u for 10 lists of 10,000 hits each (at least ~100x normal expectation),
+  so we expect top hits list time to be negligible for typical hmmsearch/hmmscan runs.
+  
+  If needed, we do have opportunity for optimization, however - especially in memory handling.
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-M",        eslARG_INT,     "10", NULL, NULL,  NULL,  NULL, NULL, "number of top hits lists to simulate and merge",   0 },
+  { "-N",        eslARG_INT,  "10000", NULL, NULL,  NULL,  NULL, NULL, "number of top hits to simulate",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "benchmark driver for P7_TOPHITS";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_STOPWATCH  *w        = esl_stopwatch_Create();
+  ESL_RANDOMNESS *r        = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  int             N        = esl_opt_GetInteger(go, "-N");
+  int             M        = esl_opt_GetInteger(go, "-M");
+  P7_TOPHITS    **h        = NULL;
+  double         *sortkeys = NULL;
+  char            name[]   = "not_unique_name";
+  char            acc[]    = "not_unique_acc";
+  char            desc[]   = "Test description for the purposes of making the benchmark allocate space";
+  int             i,j;
+  int             status;
+
+  /* prep work: generate our sort keys before starting to time anything    */
+  ESL_ALLOC(h,        sizeof(P7_TOPHITS *) * M); /* allocate pointers for M lists */
+  ESL_ALLOC(sortkeys, sizeof(double) * N * M);   
+  for (i = 0; i < N*M; i++) sortkeys[i] = esl_random(r);
+
+  esl_stopwatch_Start(w);
+
+  /* generate M "random" lists and sort them */
+  for (j = 0; j < M; j++)
+  {
+      h[j] = p7_tophits_Create();
+      for (i = 0; i < N; i++)
+        p7_tophits_Add(h[j], name, acc, desc, sortkeys[j*N + i],
+            (float) sortkeys[j*N+i], sortkeys[j*N+i],
+            (float) sortkeys[j*N+i], sortkeys[j*N+i],
+            i, i, N,
+            i, i, N,
+            i, N, NULL);
+      p7_tophits_SortBySortkey(h[j]);
+  }
+  /* then merge them into one big list in h[0] */
+  for (j = 1; j < M; j++)
+  {
+      p7_tophits_Merge(h[0], h[j]);
+      p7_tophits_Destroy(h[j]);
+  }
+
+  esl_stopwatch_Stop(w);
+
+  p7_tophits_Destroy(h[0]);
+  status = eslOK;
+ ERROR:
+  esl_getopts_Destroy(go);
+  esl_stopwatch_Destroy(w);
+  esl_randomness_Destroy(r);
+  if (sortkeys != NULL) free(sortkeys);
+  if (h != NULL) free(h);
+  return status;
+}
+#endif /*p7TOPHITS_BENCHMARK*/
+
+
+/*****************************************************************
+ * 5. Test driver
+ *****************************************************************/
+
+#ifdef p7TOPHITS_TESTDRIVE
+/*
+  gcc -o tophits_utest -std=gnu99 -g -O2 -I. -L. -I../easel -L../easel -Dp7TOPHITS_TESTDRIVE p7_tophits.c -lhmmer -leasel -lm 
+  ./tophits_test
+*/
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_stopwatch.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  { "-N",        eslARG_INT,    "100", NULL, NULL,  NULL,  NULL, NULL, "number of top hits to simulate",                   0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for P7_TOPHITS";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go       = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r        = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  int             N        = esl_opt_GetInteger(go, "-N");
+  P7_TOPHITS     *h1       = NULL;
+  P7_TOPHITS     *h2       = NULL;
+  P7_TOPHITS     *h3       = NULL;
+  char            name[]   = "not_unique_name";
+  char            acc[]    = "not_unique_acc";
+  char            desc[]   = "Test description for the purposes of making the test driver allocate space";
+  double          key;
+  int             i;
+
+  h1 = p7_tophits_Create();
+  h2 = p7_tophits_Create();
+  h3 = p7_tophits_Create();
+  
+  for (i = 0; i < N; i++) 
+  {
+      key = esl_random(r);
+      p7_tophits_Add(h1, name, acc, desc, key, (float) key, key, (float) key, key, i, i, N, i, i, N, 1, 1, NULL);
+      key = 10.0 * esl_random(r);
+      p7_tophits_Add(h2, name, acc, desc, key, (float) key, key, (float) key, key, i, i, N, i, i, N, 2, 2, NULL);
+      key = 0.1 * esl_random(r);
+      p7_tophits_Add(h3, name, acc, desc, key, (float) key, key, (float) key, key, i, i, N, i, i, N, 3, 3, NULL);
+  }
+  p7_tophits_Add(h1, "last",  NULL, NULL, -1.0, (float) key, key, (float) key, key, i, i, N, i, i, N, 1, 1, NULL);
+  p7_tophits_Add(h1, "first", NULL, NULL, 20.0, (float) key, key, (float) key, key, i, i, N, i, i, N, 1, 1, NULL);
+
+  p7_tophits_SortBySortkey(h1);
+  if (strcmp(h1->hit[0]->name,   "first") != 0) esl_fatal("sort failed (top is %s = %f)", h1->hit[0]->name,   h1->hit[0]->sortkey);
+  if (strcmp(h1->hit[N+1]->name, "last")  != 0) esl_fatal("sort failed (last is %s = %f)", h1->hit[N+1]->name, h1->hit[N+1]->sortkey);
+
+  p7_tophits_Merge(h1, h2);
+  if (strcmp(h1->hit[0]->name,     "first") != 0) esl_fatal("after merge 1, sort failed (top is %s = %f)", h1->hit[0]->name,     h1->hit[0]->sortkey);
+  if (strcmp(h1->hit[2*N+1]->name, "last")  != 0) esl_fatal("after merge 1, sort failed (last is %s = %f)", h1->hit[2*N+1]->name, h1->hit[2*N+1]->sortkey);
+
+  p7_tophits_Merge(h3, h1);
+  if (strcmp(h3->hit[0]->name,     "first") != 0) esl_fatal("after merge 2, sort failed (top is %s = %f)", h3->hit[0]->name,     h3->hit[0]->sortkey);
+  if (strcmp(h3->hit[3*N+1]->name, "last")  != 0) esl_fatal("after merge 2, sort failed (last is %s = %f)", h3->hit[3*N+1]->name,     h3->hit[3*N+1]->sortkey);
+  
+  if (p7_tophits_GetMaxNameLength(h3) != strlen(name)) esl_fatal("GetMaxNameLength() failed");
+
+  p7_tophits_Destroy(h1);
+  p7_tophits_Destroy(h2);
+  p7_tophits_Destroy(h3);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7TOPHITS_TESTDRIVE*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: p7_tophits.c 4520 2013-08-09 02:12:54Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_tophits.c $
+ *****************************************************************/
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_trace.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_trace.c
new file mode 100755
index 0000000..8df2fba
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/p7_trace.c
@@ -0,0 +1,1649 @@
+/* P7_TRACE, the traceback structure.
+ *
+ * Contents:
+ *   1. The P7_TRACE structure
+ *   2. Access routines
+ *   3. Debugging tools
+ *   4. Creating traces by DP traceback
+ *   5. Creating faux traces from existing MSAs
+ *   6. Counting traces into new HMMs
+ *   7. Unit tests
+ *   8. Test driver
+ *   9. Copyright and license information
+ * 
+ * Stylistic note: elements in a trace path are usually indexed by z.
+ */
+
+#include "p7_config.h"
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "easel.h"
+#include "hmmer.h"
+
+
+/*****************************************************************
+ * 1. The P7_TRACE structure.
+ *****************************************************************/
+
+static P7_TRACE *trace_create_engine(int initial_nalloc, int initial_ndomalloc, int with_posteriors);
+
+/* Function:  p7_trace_Create()
+ * Synopsis:  Allocates a (growable, reusable) traceback.
+ *
+ * Purpose:   Allocates a traceback. 
+ *  
+ *            Tracebacks are growable. A reasonable initial internal
+ *            allocation is made here, and routines that generate
+ *            tracebacks will dynamically grow the trace as needed.
+ *            
+ *            Tracebacks are reusable. Usually a routine only
+ *            allocates one, and reuses its memory over and over as
+ *            new target sequences are aligned.
+ *
+ * Returns:   a pointer to the new <P7_TRACE> structure on success.
+ *
+ * Throws:    <NULL> on allocation error.
+ */
+P7_TRACE *
+p7_trace_Create(void)
+{
+  int       initial_nalloc    = 256;
+  int       initial_ndomalloc = 16;
+  int       with_posteriors   = FALSE;
+  return trace_create_engine(initial_nalloc, initial_ndomalloc, with_posteriors);
+}
+
+/* Function:  p7_trace_CreateWithPP()
+ * Synopsis:  Allocates a traceback that includes posterior probs.
+ * Incept:    SRE, Tue Aug 19 13:08:12 2008 [Janelia]
+ *
+ * Purpose:   Allocates a traceback that includes <tr->pp[z]> fields
+ *            for posterior probabilities of emitted residues; 
+ *            otherwise identical to <p7_trace_Create()>.
+ */
+P7_TRACE *
+p7_trace_CreateWithPP(void)
+{
+  int       initial_nalloc    = 256;
+  int       initial_ndomalloc = 16;
+  int       with_posteriors   = TRUE;
+  return trace_create_engine(initial_nalloc, initial_ndomalloc, with_posteriors);
+}
+
+static P7_TRACE *
+trace_create_engine(int initial_nalloc, int initial_ndomalloc, int with_posteriors)
+{
+  P7_TRACE *tr      = NULL;
+  int       status;
+
+  ESL_ALLOC(tr, sizeof(P7_TRACE));
+  tr->st = NULL;
+  tr->k  = NULL;
+  tr->i  = NULL;
+  tr->pp = NULL;
+  tr->M  = 0;
+  tr->L  = 0;
+  tr->tfrom   = tr->tto   = NULL;
+  tr->sqfrom  = tr->sqto  = NULL;
+  tr->hmmfrom = tr->hmmto = NULL;
+
+  /* The trace data itself */
+  ESL_ALLOC(tr->st, sizeof(char) * initial_nalloc);
+  ESL_ALLOC(tr->k,  sizeof(int)  * initial_nalloc);
+  ESL_ALLOC(tr->i,  sizeof(int)  * initial_nalloc);
+  if (with_posteriors)
+    ESL_ALLOC(tr->pp, sizeof(float) * initial_nalloc);
+  tr->N      = 0;
+  tr->nalloc = initial_nalloc;
+
+  /* The trace's index: table of domain start/stop coords */
+  ESL_ALLOC(tr->tfrom,   sizeof(int) * initial_ndomalloc);
+  ESL_ALLOC(tr->tto,     sizeof(int) * initial_ndomalloc);
+  ESL_ALLOC(tr->sqfrom,  sizeof(int) * initial_ndomalloc);
+  ESL_ALLOC(tr->sqto,    sizeof(int) * initial_ndomalloc);
+  ESL_ALLOC(tr->hmmfrom, sizeof(int) * initial_ndomalloc);
+  ESL_ALLOC(tr->hmmto,   sizeof(int) * initial_ndomalloc);
+  tr->ndom      = 0;
+  tr->ndomalloc = initial_ndomalloc;
+  return tr;
+
+ ERROR:
+  if (tr != NULL) p7_trace_Destroy(tr);
+  return NULL;
+}
+
+
+/* Function:  p7_trace_Reuse()
+ * Synopsis:  Prepare a trace for reuse.
+ * Incept:    SRE, Tue Jan  9 13:02:34 2007 [Janelia]
+ *
+ * Purpose:   Reinitializes an existing trace object, reusing its
+ *            memory.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      STL11/124
+ */
+int
+p7_trace_Reuse(P7_TRACE *tr)
+{
+  tr->N    = 0;
+  tr->M    = 0;
+  tr->L    = 0;
+  tr->ndom = 0;
+  return eslOK;
+}
+
+/* Function:  p7_trace_Grow()
+ * Synopsis:  Grow the allocation for trace data.
+ *
+ * Purpose:   If <tr> can't fit another state, double its allocation for
+ *            traceback data.
+ *            
+ *            This doesn't reallocate the domain index; see
+ *            <p7_trace_GrowIndex()> or <p7_trace_GrowIndexTo()> for
+ *            that.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; in this case, the data in
+ *            <tr> are unaffected.
+ */
+int
+p7_trace_Grow(P7_TRACE *tr)
+{
+  void *tmp;
+  int   status;
+  
+  if (tr->N < tr->nalloc) return eslOK;
+
+  ESL_RALLOC(tr->st, tmp, sizeof(char) *2*tr->nalloc);
+  ESL_RALLOC(tr->k,  tmp, sizeof(int)  *2*tr->nalloc);
+  ESL_RALLOC(tr->i,  tmp, sizeof(int)  *2*tr->nalloc);
+  if (tr->pp != NULL) ESL_RALLOC(tr->pp,  tmp, sizeof(float) *2*tr->nalloc);
+  tr->nalloc *= 2;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_trace_GrowIndex()
+ * Synopsis:  Grows the allocation of the trace's domain index.
+ * Incept:    SRE, Fri Jan  4 10:40:02 2008 [Janelia]
+ *
+ * Purpose:   If <tr> can't fit another domain in its index,
+ *            double the allocation of the index in <tr>.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; in this case, the 
+ *            data in <tr> are unaffected.
+ */
+int
+p7_trace_GrowIndex(P7_TRACE *tr)
+{
+  void *p;
+  int   status;
+
+  if (tr->ndom < tr->ndomalloc) return eslOK;
+
+  ESL_RALLOC(tr->tfrom,   p, sizeof(int)*2*tr->ndomalloc);
+  ESL_RALLOC(tr->tto,     p, sizeof(int)*2*tr->ndomalloc);
+  ESL_RALLOC(tr->sqfrom,  p, sizeof(int)*2*tr->ndomalloc);
+  ESL_RALLOC(tr->sqto,    p, sizeof(int)*2*tr->ndomalloc);
+  ESL_RALLOC(tr->hmmfrom, p, sizeof(int)*2*tr->ndomalloc);
+  ESL_RALLOC(tr->hmmto,   p, sizeof(int)*2*tr->ndomalloc);
+  tr->ndomalloc *= 2;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_trace_GrowTo()
+ * Synopsis:  Reallocates trace to a given minimum size.
+ *
+ * Purpose:   Reallocates a trace structure <tr> to hold a trace
+ *            of at least length <N> states.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure; the data in <tr>
+ *            are unaffected by failure.
+ */
+int
+p7_trace_GrowTo(P7_TRACE *tr, int N)
+{
+  int status;
+  void *tmp;
+
+  if (N < tr->nalloc) return eslOK; /* no-op */
+  
+  ESL_RALLOC(tr->st, tmp, sizeof(char) *N);
+  ESL_RALLOC(tr->k,  tmp, sizeof(int)  *N);
+  ESL_RALLOC(tr->i,  tmp, sizeof(int)  *N);
+  if (tr->pp != NULL) ESL_RALLOC(tr->pp,  tmp, sizeof(float) *N);
+  tr->nalloc = N;
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_trace_GrowIndexTo()
+ * Synopsis:  Reallocates domain index for a given minimum number.
+ * Incept:    SRE, Fri Jan  4 10:47:43 2008 [Janelia]
+ *
+ * Purpose:   Reallocates the domain index in <tr> to index
+ *            at least <ndom> domains.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation failure, in which case
+ *            the data in <tr> are unaffected.
+ */
+int
+p7_trace_GrowIndexTo(P7_TRACE *tr, int ndom)
+{
+  void *p;
+  int   status;
+
+  if (ndom < tr->ndomalloc) return eslOK;
+
+  ESL_RALLOC(tr->tfrom,   p, sizeof(int)*ndom);
+  ESL_RALLOC(tr->tto,     p, sizeof(int)*ndom);
+  ESL_RALLOC(tr->sqfrom,  p, sizeof(int)*ndom);
+  ESL_RALLOC(tr->sqto,    p, sizeof(int)*ndom);
+  ESL_RALLOC(tr->hmmfrom, p, sizeof(int)*ndom);
+  ESL_RALLOC(tr->hmmto,   p, sizeof(int)*ndom);
+  tr->ndomalloc = ndom;
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+
+
+/* Function:  p7_trace_Destroy()
+ * Synopsis:  Frees a trace.
+ *
+ * Purpose:   Frees a trace structure <tr>.
+ *
+ * Returns:   (void)
+ */
+void 
+p7_trace_Destroy(P7_TRACE *tr)
+{
+  if (tr == NULL) return;
+  if (tr->st      != NULL) free(tr->st);
+  if (tr->k       != NULL) free(tr->k);
+  if (tr->i       != NULL) free(tr->i);
+  if (tr->pp      != NULL) free(tr->pp);
+  if (tr->tfrom   != NULL) free(tr->tfrom);
+  if (tr->tto     != NULL) free(tr->tto);
+  if (tr->sqfrom  != NULL) free(tr->sqfrom);
+  if (tr->sqto    != NULL) free(tr->sqto);
+  if (tr->hmmfrom != NULL) free(tr->hmmfrom);
+  if (tr->hmmto   != NULL) free(tr->hmmto);
+  free(tr);
+  return;
+}
+
+/* Function:  p7_trace_DestroyArray()
+ *
+ * Purpose:   Frees an array of <N> trace structures, <tr[0..N-1]>.
+ *
+ * Returns:   (void)
+ */
+void 
+p7_trace_DestroyArray(P7_TRACE **tr, int N)
+{
+  int idx;
+
+  if (tr == NULL) return;
+  for (idx = 0; idx < N; idx++)
+    {
+      if (tr[idx] == NULL) continue;
+      p7_trace_Destroy(tr[idx]);
+    }
+  free(tr);
+  return;
+}
+
+/*---------------------- end, P7_TRACE --------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Access routines
+ *****************************************************************/
+
+/* Function:  p7_trace_GetDomainCount()
+ * Incept:    SRE, Tue Feb 27 13:11:43 2007 [Janelia]
+ *
+ * Purpose:   Determine the number of hits in the trace <tr> -- that is,
+ *            the number of times the trace traverses the model from
+ *            B...E.  Return that number in <ret_ndom>.
+ *            
+ *            Done simply by counting the number of B states used in
+ *            the trace.
+ *            
+ *            Only sensible on profile traces. Core traces have 1
+ *            domain by definition.
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    (no abnormal error conditions)
+ */
+int
+p7_trace_GetDomainCount(const P7_TRACE *tr, int *ret_ndom)
+{
+  int z;
+  int ndom = 0;
+
+  if (tr->ndom > 0) 
+    ndom = tr->ndom; /* if we already indexed the domains, we know the answer */
+  else {
+    for (z = 0; z < tr->N; z++)
+      if (tr->st[z] == p7T_B) ndom++;
+  }
+  *ret_ndom = ndom;
+  return eslOK;
+}
+
+/* Function:  p7_trace_GetStateUseCounts()
+ * Incept:    SRE, Sun May 27 10:30:13 2007 [Janelia]
+ *
+ * Purpose:   Accumulate counts of each different state type in trace <tr>. 
+ *
+ *            <counts[]> is allocated for at least <p7T_NSTATETYPES>
+ *            integers, indexed by statetype. Upon return,
+ *            <counts[p7T_M]> contains the number of match states
+ *            in the trace, for example.
+ */
+int
+p7_trace_GetStateUseCounts(const P7_TRACE *tr, int *counts)
+{
+  int x,z;
+
+  for (x = 0; x < p7T_NSTATETYPES; x++) counts[x] = 0;
+
+  for (z = 0; z < tr->N; z++) {
+    x = tr->st[z];
+    if (x < 0 || x >= p7T_NSTATETYPES) ESL_EXCEPTION(eslEINVAL, "bad state type");
+    counts[x]++;
+  }
+  return eslOK;
+}
+
+/* Function:  p7_trace_GetDomainCoords()
+ * Incept:    SRE, Tue Feb 27 13:08:32 2007 [Janelia]
+ *
+ * Purpose:   Retrieve the bounds of domain alignment number <which> in
+ *            traceback <tr>. <which> starts from 0. The total number
+ *            of domains in a trace can be obtained from
+ *            <p7_trace_GetDomainCount()>, or caller can just loop
+ *            an increasing <which> count until <eslEOD> is returned.
+ *            
+ *            Start/end in the sequence are returned in <ret_i1>,
+ *            <ret_i2>. Start/end in the model are returned in <ret_k1>, 
+ *            <ret_k2>.
+ *
+ *            It only makes sense to call this function on profile
+ *            traces.
+ *            
+ *            By local alignment bounds convention, the domain
+ *            alignment is defined as bounded by match states, so <k1>
+ *            and <k2> are the coords of the first and last match
+ *            state (in range 1..M), and <i1> and <i2> are the coords
+ *            of the residues aligned to those match states. Profiles
+ *            do allow a Mk->DDD->E trailer; nonetheless, if such a
+ *            trailer occurs, the k2 coord still refers to the last
+ *            match state's coordinate. Note that such trailers would
+ *            only occur in generated or sampled paths, not Viterbi
+ *            paths; in Viterbi alignments with exit probabilities of
+ *            1.0, the direct Mk->E path will always have higher
+ *            probability than a Mk->DDD->E path.
+ *
+ * Returns:   <eslOK> on success, and the coords are returned.
+ *            <eslEOD> if the trace doesn't contain a <which>'th
+ *            domain, and the coords are all returned as 0.
+ *            
+ * Throws:    <eslEINVAL> if you stupidly pass a <which> less than 0;
+ *            <eslECORRUPT> if something is grievously wrong with <tr>.           
+ */
+int
+p7_trace_GetDomainCoords(const P7_TRACE *tr, int which,
+			 int *ret_i1, int *ret_i2, int *ret_k1, int *ret_k2)
+{
+  int status;
+  int z;
+
+  if (which < 0) ESL_XEXCEPTION(eslEINVAL, "bad which < 0");
+
+  if (tr->ndom) 		/* do we have an index? then this'll be easy */
+    {
+      if (which >= tr->ndom) { status = eslEOD; goto ERROR; }
+      *ret_i1 = tr->sqfrom[which];
+      *ret_i2 = tr->sqto[which];
+      *ret_k1 = tr->hmmfrom[which];
+      *ret_k2 = tr->hmmto[which];
+      return eslOK;
+    }
+
+  /* else, the hard way.
+   * skip z to one state past the which'th B state. 
+   */
+  for (z = 0; which >= 0 && z < tr->N; z++)
+    if (tr->st[z] == p7T_B) which--;
+  if (z == tr->N) { status = eslEOD; goto ERROR; }
+  
+  /* skip to the first M state and record i1,k1: 
+   * in a profile trace, this must be the next state.
+   */
+  if (tr->st[z] != p7T_M) ESL_XEXCEPTION(eslECORRUPT, "not a profile trace?");
+  *ret_i1 = tr->i[z];
+  *ret_k1 = tr->k[z];
+
+  /* skip to the end E, then look back at the last M, record i2,k2.
+   */
+  for (; z < tr->N; z++)
+    if (tr->st[z] == p7T_E) break;
+  if (z == tr->N)         ESL_EXCEPTION(eslECORRUPT, "invalid trace: no E for a B");
+  do { z--; } while (tr->st[z] == p7T_D); /* roll back over any D trailer */
+  if (tr->st[z] != p7T_M) ESL_EXCEPTION(eslECORRUPT, "invalid trace: no M");
+  *ret_i2 = tr->i[z];
+  *ret_k2 = tr->k[z];
+  return eslOK;
+
+ ERROR:
+  *ret_i1 = 0;
+  *ret_i2 = 0;
+  *ret_k1 = 0;
+  *ret_k2 = 0;
+  return status;
+}
+/*---------------- end, access routines -------------------------*/
+
+
+
+
+/*****************************************************************
+ * 3. Debugging tools.
+ *****************************************************************/
+
+/* Function:  p7_trace_Validate()
+ * Incept:    SRE, Fri Jan  5 09:17:24 2007 [Janelia]
+ *
+ * Purpose:   Validate the internal data in a trace structure <tr>
+ *            representing an alignment of an HMM to a 
+ *            digital sequence <sq>. The digital sequence may be either
+ *            unaligned (usually) or aligned (in the case of "fake"
+ *            tracebacks generated from an MSA during a
+ *            model construction process). 
+ *            
+ *            We don't pass the HMM that the trace is associated with,
+ *            because we might have constructed the trace during
+ *            HMM construction when we don't have an HMM yet; but 
+ *            we always have a digital sequence.
+ *
+ *            Intended for debugging, development, and testing
+ *            purposes.
+ *            
+ * Args:      tr     - trace to validate
+ *            abc    - alphabet corresponding to sequence <sq>
+ *            sq     - digital sequence that <tr> is explaining
+ *            errbuf - NULL, or an error message buffer allocated
+ *                     for at least eslERRBUFSIZE chars.           
+ *
+ * Returns:   <eslOK> if trace appears fine.
+ *            Returns <eslFAIL> if a problem is detected; if <errbuf> is
+ *            provided (non-<NULL>), an informative message is formatted
+ *            there to indicate the reason for the failure.
+ */
+int
+p7_trace_Validate(const P7_TRACE *tr, const ESL_ALPHABET *abc, const ESL_DSQ *dsq, char *errbuf)
+{
+  int  z;			/* position in trace    */
+  int  i;			/* position in sequence */
+  int  k;			/* position in model */
+  char prv;			/* type of the previous state */
+  int  is_core;			/* TRUE if trace is a core trace, not profile */
+
+  /* minimum trace length is a core's B->Mk->E. If we don't have at least that,
+   * we're definitely in trouble
+   */
+  if (tr->N < 3)          ESL_FAIL(eslFAIL, errbuf, "trace is too short");
+  if (tr->N > tr->nalloc) ESL_FAIL(eslFAIL, errbuf, "N of %d isn't sensible", tr->N);
+
+  /* Determine if this is a core trace or a profile trace, so we can
+   * construct validation tests appropriately.
+   */
+  if      (tr->st[0] == p7T_B) is_core = TRUE;
+  else if (tr->st[0] == p7T_S) is_core = FALSE;
+  else    ESL_FAIL(eslFAIL, errbuf, "first state neither S nor B");
+
+  /* Verify "sentinels", the final states of the trace
+   * (before we start looking backwards and forwards from each state in 
+   * our main validation loop)
+   */
+  if (is_core  && tr->st[tr->N-1] != p7T_E) ESL_FAIL(eslFAIL, errbuf, "last state not E");
+  if (!is_core && tr->st[tr->N-1] != p7T_T) ESL_FAIL(eslFAIL, errbuf, "last state not T");
+  if (tr->k[0]        != 0)                 ESL_FAIL(eslFAIL, errbuf, "first state shouldn't have k set");
+  if (tr->i[0]        != 0)                 ESL_FAIL(eslFAIL, errbuf, "first state shouldn't have i set");
+  if (tr->k[tr->N-1]  != 0)                 ESL_FAIL(eslFAIL, errbuf, "last state shouldn't have k set");
+  if (tr->i[tr->N-1]  != 0)                 ESL_FAIL(eslFAIL, errbuf, "last state shouldn't have i set");
+
+  if (tr->pp != NULL && tr->pp[0]       != 0.0) ESL_FAIL(eslFAIL, errbuf, "first state doesn't emit; but post prob isn't 0");
+  if (tr->pp != NULL && tr->pp[tr->N-1] != 0.0) ESL_FAIL(eslFAIL, errbuf, "last state doesn't emit; but post prob isn't 0");
+
+  /* Main validation loop. */
+  k = 0; 
+  i = 1;
+  for (z = 1; z < tr->N-1; z++)
+    {
+      for (; dsq[i] != eslDSQ_SENTINEL; i++) /* find next non-gap residue in dsq */
+	if (esl_abc_XIsResidue(abc, dsq[i]) || esl_abc_XIsNonresidue(abc, dsq[i])) break; /* '*' included as emitted "residue"  */
+
+      /* watch out for missing data states X: can only be one.
+       * prv state might have to skip over one (but not more) missing data states
+       */
+      prv = (tr->st[z-1] == p7T_X)? tr->st[z-2] : tr->st[z-1];
+
+      switch (tr->st[z]) {
+      case p7T_S:
+	ESL_FAIL(eslFAIL, errbuf, "S must be first state");
+	break;
+	
+      case p7T_X:
+	if (! is_core)       ESL_FAIL(eslFAIL, errbuf, "X state (missing data) only appears in core traces");
+	if (prv != p7T_B && tr->st[z+1] != p7T_E)	/* only B->X and X->E are possible */
+	  ESL_FAIL(eslFAIL, errbuf, "bad transition involving missing data (X state) not at start/end");
+	break;
+
+      case p7T_N:
+	if (is_core)       ESL_FAIL(eslFAIL, errbuf, "core trace can't contain N");
+	if (tr->k[z] != 0) ESL_FAIL(eslFAIL, errbuf, "no N should have k set");
+	if (prv == p7T_S) { /* 1st N doesn't emit */
+	  if (tr->i[z] != 0)                      ESL_FAIL(eslFAIL, errbuf, "first N shouldn't have i set");
+	  if (tr->pp != NULL && tr->pp[z] != 0.0) ESL_FAIL(eslFAIL, errbuf, "first N can't have nonzero post prob");
+	} else if (prv == p7T_N) { /* subsequent N's do */
+	  if (tr->i[z] != i) ESL_FAIL(eslFAIL, errbuf, "expected i doesn't match trace's i");
+	  i++;
+	} else ESL_FAIL(eslFAIL, errbuf, "bad transition to N; expected {S,N}->N");
+	break;
+
+      case p7T_B:
+	if (tr->k[z] != 0)                      ESL_FAIL(eslFAIL, errbuf, "B shouldn't have k set");
+	if (tr->i[z] != 0)                      ESL_FAIL(eslFAIL, errbuf, "B shouldn't have i set");
+	if (tr->pp != NULL && tr->pp[z] != 0.0) ESL_FAIL(eslFAIL, errbuf, "B can't have nonzero post prob");
+	if (prv != p7T_N && prv != p7T_J) 
+	  ESL_FAIL(eslFAIL, errbuf, "bad transition to B; expected {N,J}->B");
+	break;
+
+      case p7T_M:
+	if (prv == p7T_B) k = tr->k[z]; else k++; /* on a B->Mk entry, trust k; else verify */
+
+	if (tr->k[z] != k) ESL_FAIL(eslFAIL, errbuf, "expected k doesn't match trace's k");
+	if (tr->i[z] != i) ESL_FAIL(eslFAIL, errbuf, "expected i doesn't match trace's i");
+	if (prv != p7T_B && prv != p7T_M && prv != p7T_D && prv != p7T_I)
+	  ESL_FAIL(eslFAIL, errbuf, "bad transition to M; expected {B,M,D,I}->M");
+	i++;
+	break;
+
+      case p7T_D:
+	k++;
+	if (tr->st[z-1] == p7T_X)  k = tr->k[z]; /* with fragments, a X->Ik case is possible */
+	if (tr->k[z] != k)                      ESL_FAIL(eslFAIL, errbuf, "expected k doesn't match trace's k");
+	if (tr->i[z] != 0)                      ESL_FAIL(eslFAIL, errbuf, "D shouldn't have i set");
+	if (tr->pp != NULL && tr->pp[z] != 0.0) ESL_FAIL(eslFAIL, errbuf, "D can't have nonzero post prob");
+	if (is_core) {
+	  if (prv != p7T_M && prv != p7T_D && prv != p7T_B)
+	    ESL_FAIL(eslFAIL, errbuf, "bad transition to D; expected {B,M,D}->D");
+	} else {
+	  if (prv != p7T_M && prv != p7T_D)
+	    ESL_FAIL(eslFAIL, errbuf, "bad transition to D; expected {M,D}->D");
+	}
+	break;
+	
+      case p7T_I:
+	if (tr->st[z-1] == p7T_X)  k = tr->k[z]; /* with fragments, a X->Ik case is possible */
+	if (tr->k[z] != k) ESL_FAIL(eslFAIL, errbuf, "expected k doesn't match trace's k");
+	if (tr->i[z] != i) ESL_FAIL(eslFAIL, errbuf, "expected i doesn't match trace's i");
+	if (is_core) {
+	  if (prv != p7T_B && prv != p7T_M && prv != p7T_I)
+	    ESL_FAIL(eslFAIL, errbuf, "bad transition to I; expected {B,M,I}->I");
+	} else {
+	  if (prv != p7T_M && prv != p7T_I)
+	    ESL_FAIL(eslFAIL, errbuf, "bad transition to I; expected {M,I}->I");
+	}
+	i++;
+	break;
+
+      case p7T_E:
+	if (tr->k[z] != 0) ESL_FAIL(eslFAIL, errbuf, "E shouldn't have k set");
+	if (tr->i[z] != 0) ESL_FAIL(eslFAIL, errbuf, "E shouldn't have i set");
+	if (tr->pp != NULL && tr->pp[z] != 0.0) ESL_FAIL(eslFAIL, errbuf, "E can't have nonzero post prob");
+	if (is_core) {
+	  if (prv != p7T_M && prv != p7T_D && prv != p7T_I)
+	    ESL_FAIL(eslFAIL, errbuf, "bad transition to E; expected {M,D,I}->E");
+	} else {
+	  if (prv != p7T_M && prv != p7T_D)
+	    ESL_FAIL(eslFAIL, errbuf, "bad transition to E; expected {M,D}->E");
+	}
+	break;
+	
+      case p7T_J:
+	if (tr->k[z] != 0) ESL_FAIL(eslFAIL, errbuf, "no J should have k set");
+	if (prv == p7T_E) { /* 1st J doesn't emit */
+	  if (tr->i[z] != 0)                      ESL_FAIL(eslFAIL, errbuf, "first J shouldn't have i set");
+	  if (tr->pp != NULL && tr->pp[z] != 0.0) ESL_FAIL(eslFAIL, errbuf, "first J can't have nonzero post prob");
+	} else if (prv == p7T_J) { /* subsequent J's do */
+	  if (tr->i[z] != i) ESL_FAIL(eslFAIL, errbuf, "expected i doesn't match trace's i");
+	  i++;
+	} else ESL_FAIL(eslFAIL, errbuf, "bad transition to J; expected {E,J}->J");
+	break;
+
+      case p7T_C:
+	if (is_core)       ESL_FAIL(eslFAIL, errbuf, "core trace can't contain C");
+	if (tr->k[z] != 0) ESL_FAIL(eslFAIL, errbuf, "no C should have k set");
+	if (prv == p7T_E) { /* 1st C doesn't emit */
+	  if (tr->i[z] != 0)                      ESL_FAIL(eslFAIL, errbuf, "first C shouldn't have i set");
+	  if (tr->pp != NULL && tr->pp[z] != 0.0) ESL_FAIL(eslFAIL, errbuf, "first C can't have nonzero post prob");
+	} else if (prv == p7T_C) { /* subsequent C's do */
+	  if (tr->i[z] != i) ESL_FAIL(eslFAIL, errbuf, "expected i doesn't match trace's i");
+	  i++;
+	} else ESL_FAIL(eslFAIL, errbuf, "bad transition to C; expected {E,C}->C");
+	break;
+	
+      case p7T_T:
+	ESL_FAIL(eslFAIL, errbuf, "T must be last state");
+	break;	
+      }
+    }
+
+  /* Trace should have accounted for all residues in the dsq */
+  for (; dsq[i] != eslDSQ_SENTINEL; i++) 
+    if (esl_abc_XIsResidue(abc, dsq[i])) 
+      ESL_FAIL(eslFAIL, errbuf, "trace didn't account for all residues in the sq");
+
+  /* No k larger than M; no i-1 larger than L (i is sitting on dsq[n+1] sentinel right now) */
+  if (k   > tr->M) ESL_FAIL(eslFAIL, errbuf, "M=%d, but k went to %d\n", tr->M, k);
+  if (i-1 > tr->L) ESL_FAIL(eslFAIL, errbuf, "L=%d, but i went to %d\n", tr->L, i);
+
+  return eslOK;
+}
+
+
+/* Function:  p7_trace_Dump()
+ * Incept:    SRE, Fri Jan  5 09:26:04 2007 [Janelia]
+ *
+ * Purpose:   Dumps internals of a traceback structure <tr> to <fp>.
+ *            If <gm> is non-NULL, also prints transition/emission scores.
+ *            If <dsq> is non-NULL, also prints residues (using alphabet
+ *            in the <gm>).
+ *            
+ * Args:      fp   - stream to dump to (often stdout)
+ *            tr   - trace to dump
+ *            gm   - NULL, or score profile corresponding to trace
+ *            dsq  - NULL, or digitized seq corresponding to trace        
+ *
+ * Returns:   <eslOK> on success.
+ * 
+ * Throws:    <eslEINVAL> if trace contains something corrupt or invalid;
+ *            in this case, dump will be aborted, possibly after partial
+ *            output.
+ */
+int
+p7_trace_Dump(FILE *fp, const P7_TRACE *tr, const P7_PROFILE *gm, const ESL_DSQ *dsq) /* replace void w/ P7_PROFILE */
+{
+  int z;		/* counter for trace position */
+  if (tr == NULL) { fprintf(fp, " [ trace is NULL ]\n"); return eslOK; }
+
+  if (gm == NULL) 
+    {		/* Yes, this does get used: during model construction. */ 
+      fprintf(fp, "st   k      i   - traceback len %d\n", tr->N);
+      fprintf(fp, "--  ----   ----\n");
+      for (z = 0; z < tr->N; z++) {
+	fprintf(fp, "%1s  %4d %6d\n", 
+		p7_hmm_DecodeStatetype(tr->st[z]),
+		tr->k[z],
+		tr->i[z]);
+      } 
+    } 
+  else 
+    {
+      int   status;
+      float accuracy = 0.0f;
+      float sc       = 0.0f;
+      float tsc;
+      int   xi;
+
+
+      fprintf(fp, "st   k     i      transit emission postprob - traceback len %d\n", tr->N);
+      fprintf(fp, "--  ---- ------  -------- -------- --------\n");
+      for (z = 0; z < tr->N; z++) 
+	{
+	  if (z < tr->N-1) 
+	    {
+	      status = p7_profile_GetT(gm, tr->st[z], tr->k[z], tr->st[z+1], tr->k[z+1], &tsc);
+	      if (status != eslOK) return status;
+	    }
+	  else tsc = 0.0f;
+
+	  fprintf(fp, "%1s  %4d %6d  %8.4f", p7_hmm_DecodeStatetype(tr->st[z]),  tr->k[z], tr->i[z], tsc);
+	  sc += tsc;
+	  
+	  if (dsq != NULL) {
+	    xi = dsq[tr->i[z]];
+
+	    if (tr->st[z] == p7T_M) {
+	      fprintf(fp, " %8.4f", p7P_MSC(gm, tr->k[z], xi));
+	      sc += p7P_MSC(gm, tr->k[z], xi);
+	      if (tr->pp != NULL) {
+		fprintf(fp, " %8.4f", tr->pp[z]);
+		accuracy += tr->pp[z];
+	      }
+	      fprintf(fp, " %c", gm->abc->sym[xi]);
+	    } 
+	    else if (tr->st[z] == p7T_I) {
+	      fprintf(fp, " %8.4f", p7P_ISC(gm, tr->k[z], xi));
+	      sc += p7P_ISC(gm, tr->k[z], xi);
+	      if (tr->pp != NULL) {
+		fprintf(fp, " %8.4f", tr->pp[z]);
+		accuracy += tr->pp[z];
+	      }
+	      fprintf(fp, " %c", (char) tolower((int) gm->abc->sym[xi]));
+	    }
+	    else if ((tr->st[z] == p7T_N && tr->st[z-1] == p7T_N) ||
+		     (tr->st[z] == p7T_C && tr->st[z-1] == p7T_C) ||
+		     (tr->st[z] == p7T_J && tr->st[z-1] == p7T_J))  {
+	      fprintf(fp, " %8d", 0);
+	      if (tr->pp != NULL) {
+		fprintf(fp, " %8.4f", tr->pp[z]);
+		accuracy += tr->pp[z];
+	      }
+	      fprintf(fp, " %c", (char) tolower((int) gm->abc->sym[xi]));
+	    }
+	  } 
+	  else fprintf(fp, " %8s %8s %c", "-", "-", '-');
+	  fputs("\n", fp);
+	}
+      fprintf(fp, "                -------- -------- --------\n");
+      fprintf(fp, "                  total: %8.4f %8.4f\n\n", sc, accuracy);
+    }
+
+
+  return eslOK;
+}
+
+
+/* Function:  p7_trace_Compare()
+ * Synopsis:  Compare two traces for identity
+ * Incept:    SRE, Wed Aug 20 09:05:24 2008 [Janelia]
+ *
+ * Purpose:   Compare two tracebacks; return <eslOK> if they
+ *            are identical, <eslFAIL> if not.
+ *            
+ *            If posterior probability annotation is present in 
+ *            both traces, they are compared using <esl_FCompare()>
+ *            and a relative tolerance of <pptol>.
+ *            
+ *            If domain indices are present in both traces,
+ *            the two indexes are compared.
+ */
+int
+p7_trace_Compare(P7_TRACE *tr1, P7_TRACE *tr2, float pptol)
+{
+  int z,d;
+  
+  if (tr1->N != tr2->N) esl_fatal("FAIL");
+  if (tr1->M != tr2->M) esl_fatal("FAIL");
+  if (tr1->L != tr2->L) esl_fatal("FAIL");
+  
+  /* Main data in the trace */
+  for (z = 0; z < tr1->N; z++)
+    {
+      if (tr1->st[z] != tr2->st[z]) esl_fatal("FAIL");
+      if (tr1->k[z]  != tr2->k[z])  esl_fatal("FAIL");
+      if (tr1->i[z]  != tr2->i[z])  esl_fatal("FAIL");
+    }
+
+  /* Optional posterior probability annotation */
+  if (tr1->pp != NULL && tr2->pp != NULL)
+    {
+      for (z = 0; z < tr1->N; z++)
+	if (tr1->i[z] != 0) 	/* an emission: has a nonzero posterior prob*/
+	  {
+	    if (esl_FCompare(tr1->pp[z], tr2->pp[z], pptol) != eslOK) esl_fatal("FAIL");
+	  }
+	else
+	  {
+	    if (tr1->pp[z] != tr2->pp[z]) esl_fatal("FAIL"); /* both 0.0 */
+	  }
+    }
+
+  /* Optional domain index */
+  if (tr1->ndom > 0 && tr2->ndom > 0)
+    {
+      if (tr1->ndom != tr2->ndom) esl_fatal("FAIL");
+
+      for (d = 0; d < tr1->ndom; d++)
+	{
+	  if (tr1->tfrom[d]   != tr2->tfrom[d])    esl_fatal("FAIL");
+	  if (tr1->tto[d]     != tr2->tto[d])      esl_fatal("FAIL");
+	  if (tr1->sqfrom[d]  != tr2->sqfrom[d])   esl_fatal("FAIL");
+	  if (tr1->sqto[d]    != tr2->sqto[d])     esl_fatal("FAIL");
+	  if (tr1->hmmfrom[d] != tr2->hmmfrom[d])  esl_fatal("FAIL");
+	  if (tr1->hmmto[d]   != tr2->hmmto[d])    esl_fatal("FAIL");
+	}
+    }
+  return eslOK;
+}
+
+
+
+
+/* Function:  p7_trace_Score()
+ * Incept:    SRE, Tue Mar  6 14:40:34 2007 [Janelia]
+ *
+ * Purpose:   Score path <tr> for digital target sequence <dsq> 
+ *            using profile <gm>. Return the lod score in
+ *            <ret_sc>.
+ *
+ * Args:      tr     - traceback path to score
+ *            dsq    - digitized sequence
+ *            gm     - score profile
+ *            ret_sc - RETURN: lod score of trace <tr>
+ *
+ * Returns:   <eslOK> on success, and <*ret_sc> contains the
+ *            lod score for the trace.
+ *
+ * Throws:    <eslEINVAL> if something's wrong with the trace.
+ *            Now <*ret_sc> is returned as $-\infty$.
+ */
+int 
+p7_trace_Score(P7_TRACE *tr, ESL_DSQ *dsq, P7_PROFILE *gm, float *ret_sc)
+{
+  float  sc;		/* total lod score   */
+  float tsc;		/* a transition score */
+  int    z;             /* position in tr */
+  int    xi;		/* digitized symbol in dsq */
+  int  status;
+
+  sc = 0.0f;
+  for (z = 0; z < tr->N-1; z++) {
+    xi = dsq[tr->i[z]];
+
+    if      (tr->st[z] == p7T_M) sc += p7P_MSC(gm, tr->k[z], xi);
+    else if (tr->st[z] == p7T_I) sc += p7P_ISC(gm, tr->k[z], xi);
+
+    if ((status = p7_profile_GetT(gm, tr->st[z], tr->k[z], 
+				  tr->st[z+1], tr->k[z+1], &tsc)) != eslOK) goto ERROR;
+    sc += tsc;
+  }
+
+  *ret_sc = sc;
+  return eslOK;
+
+ ERROR:
+  *ret_sc = -eslINFINITY;
+  return status;
+}
+
+/* Function:  p7_trace_SetPP()
+ * Synopsis:  Set posterior probs of an arbitrary trace.
+ * Incept:    SRE, Tue Aug 19 14:16:10 2008 [Janelia]
+ *
+ * Purpose:   Set the posterior probability fields of an arbitrary
+ *            trace <tr>, by accessing posterior residue probabilities
+ *            in decoding matrix <pp>.
+ *            
+ *            In general, <pp> was created by <p7_GDecoding()> 
+ *            or converted from the optimized matrix created by
+ *            <p7_Decoding()>.
+ *            
+ *            This is classed as a debugging function for the moment,
+ *            because in general traces with posterior probabilities are
+ *            created directly using optimal accuracy DP routines.
+ *            This function allows us to add PP annotation to any
+ *            trace.
+ * 
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *            <eslEINVAL> on internal corruptions.
+ */
+int
+p7_trace_SetPP(P7_TRACE *tr, const P7_GMX *pp)
+{
+  float **dp  = pp->dp;		/* so {MDI}MX() macros work */
+  float  *xmx = pp->xmx;	/* so XMX() macro works     */
+  int z;
+  int status;
+
+  if (tr->pp == NULL) ESL_ALLOC(tr->pp, sizeof(float) * tr->nalloc);
+
+  for (z = 0; z < tr->N; z++)
+    {
+      if (tr->i[z] > 0)		/* an emitting state? */
+	{
+	  switch (tr->st[z]) {
+	  case p7T_M:  tr->pp[z] = MMX(tr->i[z], tr->k[z]); break;
+	  case p7T_I:  tr->pp[z] = IMX(tr->i[z], tr->k[z]); break;
+	  case p7T_N:  tr->pp[z] = XMX(tr->i[z], p7G_N);    break;
+	  case p7T_C:  tr->pp[z] = XMX(tr->i[z], p7G_C);    break;
+	  case p7T_J:  tr->pp[z] = XMX(tr->i[z], p7G_J);    break;
+	  default:     ESL_EXCEPTION(eslEINVAL, "no such emitting state");
+	  }
+	}
+      else
+	tr->pp[z] = 0.0;
+    }
+  return eslOK;
+       
+ ERROR:
+  return status;
+}
+
+/* Function:  p7_trace_GetExpectedAccuracy()
+ * Synopsis:  Returns the sum of the posterior residue decoding probs.
+ * Incept:    SRE, Tue Aug 19 15:29:18 2008 [Janelia]
+ */
+float
+p7_trace_GetExpectedAccuracy(const P7_TRACE *tr)
+{
+  float accuracy = 0.0;
+  int   z;
+
+  for (z = 0; z < tr->N; z++)
+    accuracy += tr->pp[z];
+  return accuracy;
+}
+
+/*------------------ end, debugging tools -----------------------*/
+
+
+
+
+/*****************************************************************
+ * 4. Creating traces by DP traceback
+ *****************************************************************/
+
+/* Function:  p7_trace_Append()
+ * Synopsis:  Add an element (state/residue) to a growing trace.
+ *
+ * Purpose:   Adds an element to a trace <tr> that is growing
+ *            left-to-right. The element is defined by a state type
+ *            <st> (such as <p7T_M>); a node index <k> (1..M for
+ *            M,D,I main states; else 0); and a dsq position <i> (1..L
+ *            for emitters, else 0).
+ *            
+ *            For CNJ states, which emit on transition, by convention
+ *            we associate the emission with the downstream state; therefore
+ *            the first state in any run of CNJ states has i=0. 
+ *            
+ *            Reallocates the trace (by doubling) if necessary.
+ *            
+ *            Caller can grow a trace right-to-left too, if it
+ *            plans to call <p7_trace_Reverse()>. 
+ *
+ * Returns:   <eslOK> on success.
+ *
+ * Throws:    <eslEMEM> on reallocation failure. The element is successfully
+ *            added, but no more elements can be added before this trace is
+ *            destroyed.
+ *            
+ *            <eslEINVAL> if you try to add an element to a trace whose
+ *            reallocation has already failed.
+ */
+int
+p7_trace_Append(P7_TRACE *tr, char st, int k, int i)
+{
+  int status;
+
+  if ((status = p7_trace_Grow(tr)) != eslOK) return status;
+
+  switch (st) {
+    /* Emit-on-transition states: */
+  case p7T_N: 
+  case p7T_C: 
+  case p7T_J: 
+    tr->i[tr->N] = ( (tr->st[tr->N-1] == st) ? i : 0);
+    tr->k[tr->N] = 0;
+    break;
+    /* Nonemitting states, outside main model: */
+  case p7T_X:
+  case p7T_S:
+  case p7T_B:
+  case p7T_E:
+  case p7T_T: tr->i[tr->N] = 0; tr->k[tr->N] = 0; break;
+    /* Nonemitting, but in main model (k valid) */
+  case p7T_D: tr->i[tr->N] = 0; tr->k[tr->N] = k; break;
+    /* Emitting states, with valid k position in model: */
+  case p7T_M: 
+  case p7T_I: tr->i[tr->N] = i; tr->k[tr->N] = k; break;
+  default:    ESL_EXCEPTION(eslEINVAL, "no such state; can't append");
+  }
+
+  tr->st[tr->N] = st;
+  tr->N++;
+  return eslOK;
+}
+
+/* Function:  p7_trace_AppendWithPP()
+ * Synopsis:  Add element to growing trace, with posterior probability.
+ *
+ * Purpose:   Same as <p7_trace_Append()>, but also records a posterior
+ *            probability estimate for emitted residues. <pp> is assumed to be
+ *            zero for nonemitting states even if a nonzero argument is
+ *            mistakenly passed. 
+ */
+int
+p7_trace_AppendWithPP(P7_TRACE *tr, char st, int k, int i, float pp)
+{
+  int status;
+
+  if ((status = p7_trace_Grow(tr)) != eslOK) return status;
+
+  switch (st) {
+    /* Emit-on-transition states: */
+  case p7T_N: 
+  case p7T_C: 
+  case p7T_J:
+    if (tr->st[tr->N-1] == st) 
+      {
+	tr->i[tr->N]  = i; 
+	tr->pp[tr->N] = pp;
+      }
+    else
+      {
+	tr->i[tr->N]  = 0; 
+	tr->pp[tr->N] = 0.0;
+      }
+    tr->k[tr->N] = 0; 
+    break;
+    /* Nonemitting states, outside main model: */
+  case p7T_X:
+  case p7T_S:
+  case p7T_B:
+  case p7T_E:
+  case p7T_T: tr->i[tr->N] = 0; tr->pp[tr->N] = 0.0; tr->k[tr->N] = 0; break;
+    /* Nonemitting, but in main model (k valid) */
+  case p7T_D: tr->i[tr->N] = 0; tr->pp[tr->N] = 0.0; tr->k[tr->N] = k; break;
+    /* Emitting states, with valid k position in model: */
+  case p7T_M: 
+  case p7T_I: tr->i[tr->N] = i; tr->pp[tr->N] = pp;  tr->k[tr->N] = k; break;
+  default:    ESL_EXCEPTION(eslEINVAL, "no such state; can't append");
+  }
+
+  tr->st[tr->N] = st;
+  tr->N++;
+  return eslOK;
+}
+
+/* Function: p7_trace_Reverse()
+ * Synopsis: Reverse the arrays in a traceback structure.
+ * 
+ * Purpose:  Reverse the arrays in a traceback structure.  Tracebacks
+ *           from DP algorithms are collected backwards, and they call this
+ *           function when they're done.
+ *           
+ *           At least for now, this invalidates any domain index
+ *           table, if it exists. The expectd order of invocation is
+ *           to create the traceback backwards, <Reverse()> it, then
+ *           <IndexDomains()> it.
+ *           
+ * Args:     tr - the traceback to reverse. tr->N must be set.
+ *                
+ * Return:   <eslOK> on success; <tr> is modified.
+ */                
+int
+p7_trace_Reverse(P7_TRACE *tr)
+{
+  int    z;
+  int    tmp;
+  float  tmpf;
+
+  /* For emit-on-transition states N,C,J, traces always obey the
+   * C-,Cx,Cx,Cx convention even when they were constructed backwards;
+   * so we make them Cx,Cx,Cx,C- by pulling residues backwards by one,
+   * just before reversing them. (Other ways of doing this would be
+   * fine too.
+   */
+  for (z = 0; z < tr->N; z++)
+    {
+      if ( (tr->st[z] == p7T_N && tr->st[z+1] == p7T_N) ||
+	   (tr->st[z] == p7T_C && tr->st[z+1] == p7T_C) ||
+	   (tr->st[z] == p7T_J && tr->st[z+1] == p7T_J))
+	{
+	  if (tr->i[z] == 0 && tr->i[z+1] > 0) 
+	    { 
+	      tr->i[z]   = tr->i[z+1]; 
+	      tr->i[z+1] = 0; 
+	      if (tr->pp != NULL) {
+		tr->pp[z]   = tr->pp[z+1];
+		tr->pp[z+1] = 0.0;
+	      }
+	    }
+	}
+    }
+
+  /* Reverse the trace in place. */
+  for (z = 0; z < tr->N/2; z++)
+    {
+      tmp = tr->st[tr->N-z-1];  tr->st[tr->N-z-1] = tr->st[z];   tr->st[z] = tmp;
+      tmp = tr->k[tr->N-z-1];   tr->k[tr->N-z-1]  = tr->k[z];    tr->k[z]  = tmp;
+      tmp = tr->i[tr->N-z-1];   tr->i[tr->N-z-1]  = tr->i[z];    tr->i[z]  = tmp;
+      if (tr->pp != NULL) {
+	tmpf = tr->pp[tr->N-z-1];   tr->pp[tr->N-z-1]  = tr->pp[z];    tr->pp[z]  = tmpf;
+      }
+    }
+  /* don't worry about the middle residue in odd-length N, since we're in-place  */
+  return eslOK;
+}
+
+
+/* Function:  p7_trace_Index()
+ * Synopsis:  Internally index the domains in a trace.
+ * Incept:    SRE, Fri Jan  4 11:12:24 2008 [Janelia]
+ *
+ * Purpose:   Create an internal index of the domains in <tr>.
+ *            This makes calls to <GetDomainCount()> and 
+ *            <GetDomainCoords()> more efficient, and it is
+ *            a necessary prerequisite for creating alignments
+ *            of any individual domains in a multidomain trace with
+ *            <p7_alidisplay_Create()>.
+ *
+ * Returns:   <eslOK> on success. 
+ *
+ * Throws:    <eslEMEM> on allocation failure, in which case the
+ *            data in the trace is still fine, but the domain index
+ *            table isn't constructed.
+ */
+int
+p7_trace_Index(P7_TRACE *tr)
+{
+  int z;
+  int status;
+
+  tr->ndom = 0;
+  for (z = 0; z < tr->N; z++)
+    {
+      switch (tr->st[z]) {
+      case p7T_B:
+	if ((status = p7_trace_GrowIndex(tr)) != eslOK) goto ERROR;
+	tr->tfrom[tr->ndom]   = z;
+	tr->sqfrom[tr->ndom]  = 0;
+	tr->hmmfrom[tr->ndom] = 0;
+	break;
+
+      case p7T_M:
+	if (tr->sqfrom[tr->ndom]  == 0) tr->sqfrom[tr->ndom]  = tr->i[z];
+	if (tr->hmmfrom[tr->ndom] == 0) tr->hmmfrom[tr->ndom] = tr->k[z];
+	tr->sqto[tr->ndom]  = tr->i[z];
+	tr->hmmto[tr->ndom] = tr->k[z];
+	break;
+
+      case p7T_E:
+	tr->tto[tr->ndom]   = z;
+	tr->ndom++;
+	break;
+      }
+    }
+  return eslOK;
+  
+ ERROR:
+  return status;
+}
+/*----------- end, creating traces by DP traceback ---------------*/
+
+
+/*****************************************************************
+ * 5. Creating faux traces from MSAs
+ *****************************************************************/
+
+/* Function:  p7_trace_FauxFromMSA()
+ * Synopsis:  Create array of faux tracebacks from an existing MSA.
+ * Incept:    SRE, Thu May 21 08:07:25 2009 [Janelia]
+ *
+ * Purpose:   Given an existing <msa> and an array <matassign> that
+ *            flags the alignment columns that are assigned to consensus
+ *            match states (matassign[1..alen] = 1|0); create an array
+ *            of faux traces <tr[0..msa->nseq-1]>. <optflags> controls 
+ *            optional behavior; it can be <p7_DEFAULT> or <p7_MSA_COORDS>,
+ *            as explained below.
+ *            
+ *            The traces are core traces: they start/end with B/E,
+ *            they may use I_0,I_M, and D_1 states. Any flanking
+ *            insertions (outside the first/last consensus column) are
+ *            assigned to I_0 and I_M.
+ *            
+ *            If the input alignment contains sequence fragments,
+ *            caller should first convert leading/trailing gaps to
+ *            missing data symbols. This hack causes entry/exit
+ *            transitions to be encoded in the trace as B->X->{MDI}k
+ *            and {MDI}k->X->E, rather than B->DDDD->Mk, Mk->DDDDD->E
+ *            paths involving terminal deletions, and all functions
+ *            that use traces, such as <p7_trace_Count()>, (should)
+ *            ignore transitions involving <p7T_X> states.
+ *            
+ *            By default (<optflags = p7_DEFAULT>), the <i> coordinate
+ *            in the faux tracebacks is <1..L>, relative to the
+ *            unaligned raw sequences in <msa>, the way most H3 traces
+ *            are supposed to be. In some cases (such as model
+ *            construction from an MSA) it is convenient to reference
+ *            residues in the MSA cooordinate system directly; setting
+ *            <optflags = p7_MSA_COORDS> makes the traces come out
+ *            with <i=1..alen> coords for residues.
+ *            
+ *            Important: an MSA may imply DI and ID transitions that
+ *            are illegal in a core model. If the only purpose of the
+ *            traces is to go straight back into alignment
+ *            construction through a <p7_tracealign_*> function, this
+ *            is ok, because the <p7_tracealign_*> routines can handle
+ *            DI and ID transitions (enabling reconstruction of almost
+ *            exactly the same input alignment, modulo unaligned
+ *            insertions). This is what happens for <hmmalign
+ *            --mapali>, for example. However, if the caller wants to
+ *            use the traces for anything else, these illegal DI and
+ *            ID transitions have to be removed first, and the caller
+ *            should use <p7_trace_Doctor()> to do it.
+ *
+ * Args:      msa       - digital alignment
+ *            matassign - flag for each alignment column, whether
+ *                        it is consensus or not. matassign[1..alen] = 1|0; 
+ *                        matassign[0] = 0
+ *            optflags  - p7_DEFAULT | p7_MSA_COORDS 
+ *            tr        - RETURN: caller provides 0..nseq-1 pointer 
+ *                        array for holding returned traces.
+ *
+ * Returns:   <eslOK> on success, and tr[0..nseq-1] now point to newly
+ *            created traces; caller is responsible for freeing these.
+ *
+ * Throws:    <eslEMEM> on allocation error.
+ *
+ * Xref:      J5/17: build.c::fake_tracebacks() becomes p7_trace_FauxFromMSA();
+ *                   ability to handle MSA or raw coords added.
+ */
+int
+p7_trace_FauxFromMSA(ESL_MSA *msa, int *matassign, int optflags, P7_TRACE **tr)
+{		      
+  int  idx;			/* counter over seqs in MSA */
+  int  k;                       /* position in HMM                 */
+  int  apos;                    /* position in alignment columns 1..alen */
+  int  rpos;			/* position in unaligned sequence residues 1..L */
+  int  showpos;			/* coord to actually record: apos or rpos */
+  int  status = eslOK;
+ 
+  for (idx = 0; idx < msa->nseq; idx++) tr[idx] = NULL;
+ 
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      if ((tr[idx] = p7_trace_Create())                      == NULL) goto ERROR; 
+      if ((status  = p7_trace_Append(tr[idx], p7T_B, 0, 0)) != eslOK) goto ERROR;
+
+      for (k = 0, rpos = 1, apos = 1; apos <= msa->alen; apos++)
+	{
+	  showpos = (optflags & p7_MSA_COORDS) ? apos : rpos;
+
+	  if (matassign[apos]) 
+	    {			/* match or delete */
+	      k++;
+	      if (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos])) 
+		status = p7_trace_Append(tr[idx], p7T_M, k, showpos);
+	      else if (esl_abc_XIsGap    (msa->abc, msa->ax[idx][apos])) 
+		status = p7_trace_Append(tr[idx], p7T_D, k, 0);          
+	      else if (esl_abc_XIsNonresidue(msa->abc, msa->ax[idx][apos]))
+		status = p7_trace_Append(tr[idx], p7T_M, k, showpos); /* treat * as a residue! */
+	      else if (esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]))
+		{
+		  if (tr[idx]->st[tr[idx]->N-1] != p7T_X)
+		    status = p7_trace_Append(tr[idx], p7T_X, k, 0); /* allow only one X in a row */
+		}
+	      else ESL_XEXCEPTION(eslEINCONCEIVABLE, "can't happen");
+	    }
+	  else
+	    { 			/* insert or nothing */
+	      if (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos]))
+		status = p7_trace_Append(tr[idx], p7T_I, k, showpos);
+	      else if (esl_abc_XIsNonresidue(msa->abc, msa->ax[idx][apos]))
+		status = p7_trace_Append(tr[idx], p7T_I, k, showpos); /* treat * as a residue! */
+	      else if (esl_abc_XIsMissing(msa->abc, msa->ax[idx][apos]))
+		{ 
+		  if (tr[idx]->st[tr[idx]->N-1] != p7T_X)
+		    status = p7_trace_Append(tr[idx], p7T_X, k, 0);
+		}
+	      else if (! esl_abc_XIsGap(msa->abc, msa->ax[idx][apos]))
+		ESL_XEXCEPTION(eslEINCONCEIVABLE, "can't happen");
+	    }
+
+	  if (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos])) rpos++; 
+	  if (status != eslOK) goto ERROR;
+	}
+      if ((status = p7_trace_Append(tr[idx], p7T_E, 0, 0)) != eslOK) goto ERROR;
+      /* k == M by construction; set tr->L = msa->alen since coords are w.r.t. ax */
+      tr[idx]->M = k;
+      tr[idx]->L = msa->alen;
+    }
+  return eslOK;
+
+
+ ERROR:
+  for (idx = 0; idx < msa->nseq; idx++) { p7_trace_Destroy(tr[idx]); tr[idx] = NULL; }
+  return status; 
+}
+
+
+
+/* Function: p7_trace_Doctor()
+ * Incept:   SRE, Thu May 21 08:45:46 2009 [Janelia]
+ * 
+ * Purpose:  Plan 7 disallows D->I and I->D "chatter" transitions.
+ *           However, these transitions will be implied by many
+ *           alignments. trace_doctor() arbitrarily collapses I->D or
+ *           D->I into a single M position in the trace.
+ *           
+ *           trace_doctor does not examine any scores when it does
+ *           this. In ambiguous situations (D->I->D) the symbol
+ *           will be pulled arbitrarily to the left, regardless
+ *           of whether that's the best column to put it in or not.
+ *           
+ * Args:     tr      - trace to doctor
+ *           opt_ndi - optRETURN: number of DI transitions doctored
+ *           opt_nid - optRETURN: number of ID transitions doctored
+ * 
+ * Return:   <eslOK> on success, and the trace <tr> is modified.
+ */               
+int
+p7_trace_Doctor(P7_TRACE *tr, int *opt_ndi, int *opt_nid)
+{
+  int opos;			/* position in old trace                 */
+  int npos;			/* position in new trace (<= opos)       */
+  int ndi, nid;			/* number of DI, ID transitions doctored */
+
+  /* overwrite the trace from left to right */
+  ndi  = nid  = 0;
+  opos = npos = 0;
+  while (opos < tr->N) {
+      /* fix implied D->I transitions; D transforms to M, I pulled in */
+    if (tr->st[opos] == p7T_D && tr->st[opos+1] == p7T_I) {
+      tr->st[npos] = p7T_M;
+      tr->k[npos]  = tr->k[opos];     /* D transforms to M      */
+      tr->i[npos]  = tr->i[opos+1];   /* insert char moves back */
+      opos += 2;
+      npos += 1;
+      ndi++;
+    } /* fix implied I->D transitions; D transforms to M, I is pushed in */
+    else if (tr->st[opos]== p7T_I && tr->st[opos+1]== p7T_D) {
+      tr->st[npos] = p7T_M;
+      tr->k[npos]  = tr->k[opos+1];    /* D transforms to M    */
+      tr->i[npos]  = tr->i[opos];      /* insert char moves up */
+      opos += 2;
+      npos += 1;
+      nid++; 
+    } /* everything else is just copied */
+    else {
+      tr->st[npos] = tr->st[opos];
+      tr->k[npos]  = tr->k[opos];
+      tr->i[npos]  = tr->i[opos];
+      opos++;
+      npos++;
+    }
+  }
+  tr->N = npos;
+
+  if (opt_ndi != NULL) *opt_ndi = ndi;
+  if (opt_nid != NULL) *opt_nid = nid;
+  return eslOK;
+}
+/*-------------- end, faux traces from MSAs ---------------------*/
+
+
+/*****************************************************************
+ * 6. Counting traces into new HMMs.
+ *****************************************************************/
+
+/* Function: p7_trace_Count()
+ * 
+ * Purpose:  Count a traceback into a count-based core HMM structure.
+ *           (Usually as part of a model parameter re-estimation.)
+ *           
+ *           The traceback may either be a core traceback (as in model
+ *           construction) or a profile traceback (as in model
+ *           reestimation).
+ *           
+ *           If it is a profile traceback, we have to be careful how
+ *           we translate an internal entry path from a score profile
+ *           back to the core model. Sometimes a B->M_k transition is
+ *           an internal entry from local alignment, and sometimes it
+ *           is a wing-folded B->D_1..DDM_k alignment to the core
+ *           model.
+ *           
+ *           This is one of the purposes of the special p7T_X
+ *           'missing data' state in tracebacks. Local alignment entry
+ *           is indicated by a B->X->{MDI}_k 'missing data' path, and
+ *           direct B->M_k or M_k->E transitions in a traceback are
+ *           interpreted as wing retraction in a glocal model.
+ * 
+ *           The <p7T_X> state is also used in core traces in model
+ *           construction literally to mean missing data, in the
+ *           treatment of sequence fragments.
+ *
+ * Args:     hmm   - counts-based HMM to count <tr> into
+ *           tr    - alignment of seq to HMM
+ *           dsq   - digitized sequence that traceback aligns to the HMM (1..L)
+ *                   (or can be an ax, aligned digital seq)
+ *           wt    - weight on this sequence
+ *           
+ * Return:   <eslOK> on success.
+ *           Weighted count events are accumulated in hmm's mat[][], ins[][],
+ *           t[][] fields: the core probability model.
+ *           
+ * Throws:   <eslEINVAL> if something's corrupt in the trace; effect on hmm
+ *           counts is undefined, because it may abort at any point in the trace.
+ */
+int
+p7_trace_Count(P7_HMM *hmm, ESL_DSQ *dsq, float wt, P7_TRACE *tr)
+{
+  int z;                        /* position in tr         */
+  int i;			/* symbol position in seq */
+  int st,st2;     		/* state type (cur, nxt)  */
+  int k,k2,ktmp;		/* node index (cur, nxt)  */
+  
+  for (z = 0; z < tr->N-1; z++) 
+    {
+      if (tr->st[z] == p7T_X) continue; /* skip missing data */
+
+      /* pull some info into tmp vars for notational clarity later. */
+      st  = tr->st[z]; 
+      st2 = tr->st[z+1];
+      k   = tr->k[z]; 
+      k2  = tr->k[z+1];
+      i   = tr->i[z];
+
+      /* Emission counts. */
+      if      (st == p7T_M) esl_abc_FCount(hmm->abc, hmm->mat[k], dsq[i], wt);
+      else if (st == p7T_I) esl_abc_FCount(hmm->abc, hmm->ins[k], dsq[i], wt);
+
+      /* Transition counts */
+      if (st2 == p7T_X) continue; /* ignore transition to missing data */
+
+      if (st == p7T_B) {
+	if (st2 == p7T_M && k2 > 1)   /* wing-retracted B->DD->Mk path */
+	  {
+	    hmm->t[0][p7H_MD] += wt;                
+	    for (ktmp = 1; ktmp < k2-1; ktmp++) 
+	      hmm->t[ktmp][p7H_DD] += wt;
+	    hmm->t[ktmp][p7H_DM] += wt;
+	  }
+	else  {
+	  switch (st2) {
+	  case p7T_M: hmm->t[0][p7H_MM] += wt; break;
+	  case p7T_I: hmm->t[0][p7H_MI] += wt; break;
+	  case p7T_D: hmm->t[0][p7H_MD] += wt; break;
+	  default:     ESL_EXCEPTION(eslEINVAL, "bad transition in trace");
+	  }
+	}
+      }
+      else if (st == p7T_M) {
+     	switch (st2) {
+	case p7T_M: hmm->t[k][p7H_MM] += wt; break;
+	case p7T_I: hmm->t[k][p7H_MI] += wt; break;
+	case p7T_D: hmm->t[k][p7H_MD] += wt; break;
+	case p7T_E: hmm->t[k][p7H_MM] += wt; break; /* k==M. A local alignment would've been Mk->X->E. */
+	default:     ESL_EXCEPTION(eslEINVAL, "bad transition in trace");
+	}
+      }
+      else if (st == p7T_I) {
+	switch (st2) {
+	case p7T_M: hmm->t[k][p7H_IM] += wt; break;
+	case p7T_I: hmm->t[k][p7H_II] += wt; break;
+	case p7T_E: hmm->t[k][p7H_IM] += wt; break; /* k==M. */
+	default:     ESL_EXCEPTION(eslEINVAL, "bad transition in trace");
+	}
+      }
+      else if (st == p7T_D) {
+	switch (st2) {
+	case p7T_M: hmm->t[k][p7H_DM] += wt; break;
+	case p7T_D: hmm->t[k][p7H_DD] += wt; break;
+	case p7T_E: hmm->t[k][p7H_DM] += wt; break; /* k==M. A local alignment would've been Dk->X->E. */
+	default:     ESL_EXCEPTION(eslEINVAL, "bad transition in trace");
+	}
+      }
+    } /* end loop over trace position */
+  return eslOK;
+}
+/*--------------------- end, trace counting ---------------------*/
+
+
+/*****************************************************************
+ * 7. Unit tests
+ *****************************************************************/			 
+#ifdef p7TRACE_TESTDRIVE
+
+/* convert an MSA to traces; then traces back to MSA; 
+ * starting and ending MSA should be the same, provided
+ * the msa doesn't have any ambiguously aligned insertions.
+ */
+static void
+utest_faux(ESL_MSA *msa, int *matassign, int M)
+{
+  char      *msg  = "p7_trace.c:: FauxFromMSA unit test failed";
+  ESL_MSA   *msa2 = NULL;
+  ESL_SQ   **sq   = malloc(sizeof(ESL_SQ)   * msa->nseq);
+  P7_TRACE **tr   = malloc(sizeof(P7_TRACE) * msa->nseq);
+  int        i;
+  int        optflags = p7_DIGITIZE;
+
+  for (i = 0; i < msa->nseq; i++)
+    if (esl_sq_FetchFromMSA(msa, i, &(sq[i]))                   != eslOK) esl_fatal(msg);
+
+  if (p7_trace_FauxFromMSA(msa, matassign, p7_MSA_COORDS, tr)   != eslOK) esl_fatal(msg);
+  if (p7_tracealign_MSA(msa, tr, M, optflags, &msa2)            != eslOK) esl_fatal(msg);
+  if (esl_msa_Compare(msa, msa2)                                != eslOK) esl_fatal(msg);
+  esl_msa_Destroy(msa2);
+  for (i = 0; i < msa->nseq; i++) p7_trace_Destroy(tr[i]);
+
+  if (p7_trace_FauxFromMSA(msa, matassign, p7_DEFAULT, tr)            != eslOK) esl_fatal(msg);
+  if (p7_tracealign_Seqs(sq, tr, msa->nseq, M, optflags, NULL, &msa2) != eslOK) esl_fatal(msg);
+  if (esl_msa_Compare(msa, msa2)                                      != eslOK) esl_fatal(msg);
+
+  esl_msa_Destroy(msa2);
+  for (i = 0; i < msa->nseq; i++) p7_trace_Destroy(tr[i]);
+  for (i = 0; i < msa->nseq; i++) esl_sq_Destroy(sq[i]);
+  free(tr);
+  free(sq);
+  return;
+}
+
+#endif /*p7TRACE_TESTDRIVE*/
+/*--------------------- end, unit tests -------------------------*/
+
+/*****************************************************************
+ * 8. Test driver
+ *****************************************************************/			 
+#ifdef p7TRACE_TESTDRIVE
+/*
+  gcc -o p7_trace_utest -msse2 -std=gnu99 -g -O2 -I. -L. -I../easel -L../easel -Dp7TRACE_TESTDRIVE p7_trace.c -lhmmer -leasel -lm 
+  ./p7_trace_utest
+*/
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_random.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",             0 },
+  { "-s",        eslARG_INT,     "42", NULL, NULL,  NULL,  NULL, NULL, "set random number seed to <n>",                    0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options]";
+static char banner[] = "test driver for P7_TRACE";
+
+int
+main(int argc, char **argv)
+{
+  char           *msg       = "p7_trace_utest failed";
+  ESL_GETOPTS    *go        = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+  ESL_RANDOMNESS *r         = esl_randomness_CreateFast(esl_opt_GetInteger(go, "-s"));
+  ESL_ALPHABET   *abc       = esl_alphabet_Create(eslAMINO);
+  ESL_MSA        *msa       = NULL;
+  int             alen      = 6;
+  int             M         = 4;
+  int            *matassign = malloc(sizeof(int) * (alen+1)); /* 1..alen */
+
+  /* Create a test MSA/matassign/M triplet */
+  /* missing data ~ doesn't work here yet; tracealign_* doesn't propagate p7T_X in any way  */
+  if ((msa = esl_msa_CreateFromString("# STOCKHOLM 1.0\n#=GC RF .xxxx.\nseq1    AAAAAA\nseq2    -AAA--\nseq3    AA--AA\n//\n", eslMSAFILE_STOCKHOLM)) == NULL) esl_fatal(msg);
+  if (esl_msa_Digitize(abc, msa,NULL) != eslOK) esl_fatal(msg);
+
+  matassign[0] = 0;
+  matassign[1] = 0;
+  matassign[2] = 1;
+  matassign[3] = 1;
+  matassign[4] = 1;
+  matassign[5] = 1;
+  matassign[6] = 0;
+  
+  utest_faux(msa, matassign, M);
+
+  free(matassign);
+  esl_msa_Destroy(msa);
+  esl_alphabet_Destroy(abc);
+  esl_randomness_Destroy(r);
+  esl_getopts_Destroy(go);
+  return eslOK;
+}
+#endif /*p7TRACE_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+/************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ * 
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/p7_trace.c $
+ * SVN $Id: p7_trace.c 3474 2011-01-17 13:25:32Z eddys $
+ ************************************************************/
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/phmmer.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/phmmer.c
new file mode 100755
index 0000000..46c3a22
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/phmmer.c
@@ -0,0 +1,1561 @@
+/* phmmer: search a protein sequence against a protein database
+ */
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_dmatrix.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_scorematrix.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_stopwatch.h"
+
+#ifdef HAVE_MPI
+#include "mpi.h"
+#include "esl_mpi.h"
+#endif /*HAVE_MPI*/
+
+#ifdef HMMER_THREADS
+#include <unistd.h>
+#include "esl_threads.h"
+#include "esl_workqueue.h"
+#endif /*HMMER_THREADS*/
+
+#include "hmmer.h"
+
+typedef struct {
+#ifdef HMMER_THREADS
+  ESL_WORK_QUEUE   *queue;
+#endif /*HMMER_THREADS*/
+  P7_BG            *bg;
+  P7_PIPELINE      *pli;
+  P7_TOPHITS       *th;
+  P7_OPROFILE      *om;
+} WORKER_INFO;
+
+#define REPOPTS     "-E,-T,--cut_ga,--cut_nc,--cut_tc"
+#define DOMREPOPTS  "--domE,--domT,--cut_ga,--cut_nc,--cut_tc"
+#define INCOPTS     "--incE,--incT,--cut_ga,--cut_nc,--cut_tc"
+#define INCDOMOPTS  "--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+#define THRESHOPTS  "-E,-T,--domE,--domT,--incE,--incT,--incdomE,--incdomT,--cut_ga,--cut_nc,--cut_tc"
+
+#if defined (HMMER_THREADS) && defined (HAVE_MPI)
+#define CPUOPTS     "--mpi"
+#define MPIOPTS     "--cpu"
+#else
+#define CPUOPTS     NULL
+#define MPIOPTS     NULL
+#endif
+
+#ifdef HAVE_MPI
+#define DAEMONOPTS  "-o,-A,--tblout,--domtblout,--pfamtblout,--mpi,--stall"
+#else
+#define DAEMONOPTS  "-o,-A,--tblout,--domtblout,--pfamtblout"
+#endif
+
+static ESL_OPTIONS options[] = {
+  /* name           type              default   env  range   toggles   reqs   incomp                             help                                       docgroup*/
+  { "-h",           eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL,  NULL,              "show brief help on version and usage",                         1 },
+/* Control of output */
+  { "-o",           eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "direct output to file <f>, not stdout",                        2 },
+  { "-A",           eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "save multiple alignment of hits to file <f>",                  2 },
+  { "--tblout",     eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "save parseable table of per-sequence hits to file <f>",        2 },
+  { "--domtblout",  eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "save parseable table of per-domain hits to file <f>",          2 },
+  { "--pfamtblout", eslARG_OUTFILE,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "save table of hits and domains to file, in Pfam format <f>",   2 },
+  { "--acc",        eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL,  NULL,              "prefer accessions over names in output",                       2 },
+  { "--noali",      eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL,  NULL,              "don't output alignments, so output is smaller",                2 },
+  { "--notextw",    eslARG_NONE,         NULL, NULL, NULL,      NULL,  NULL, "--textw",          "unlimit ASCII text output line width",                         2 },
+  { "--textw",      eslARG_INT,         "120", NULL, "n>=120",  NULL,  NULL, "--notextw",        "set max width of ASCII text output lines",                     2 },
+/* Control of scoring system */
+  { "--popen",      eslARG_REAL,       "0.02", NULL, "0<=x<0.5",NULL,  NULL,  NULL,              "gap open probability",                                         3 },
+  { "--pextend",    eslARG_REAL,        "0.4", NULL, "0<=x<1",  NULL,  NULL,  NULL,              "gap extend probability",                                       3 },
+  { "--mx",         eslARG_STRING, "BLOSUM62", NULL, NULL,      NULL,  NULL,  "--mxfile",        "substitution score matrix choice (of some built-in matrices)", 3 },
+  { "--mxfile",     eslARG_INFILE,       NULL, NULL, NULL,      NULL,  NULL,  "--mx",            "read substitution score matrix from file <f>",                 3 },
+/* Control of reporting thresholds */
+  { "-E",           eslARG_REAL,       "10.0", NULL, "x>0",     NULL,  NULL,  REPOPTS,           "report sequences <= this E-value threshold in output",         4 },
+  { "-T",           eslARG_REAL,        FALSE, NULL,  NULL,     NULL,  NULL,  REPOPTS,           "report sequences >= this score threshold in output",           4 },
+  { "--domE",       eslARG_REAL,       "10.0", NULL, "x>0",     NULL,  NULL,  DOMREPOPTS,        "report domains <= this E-value threshold in output",           4 },
+  { "--domT",       eslARG_REAL,        FALSE, NULL,  NULL,     NULL,  NULL,  DOMREPOPTS,        "report domains >= this score cutoff in output",                4 },
+/* Control of inclusion thresholds */
+  { "--incE",       eslARG_REAL,       "0.01", NULL, "x>0",     NULL,  NULL,  INCOPTS,           "consider sequences <= this E-value threshold as significant",  5 },
+  { "--incT",       eslARG_REAL,        FALSE, NULL,  NULL,     NULL,  NULL,  INCOPTS,           "consider sequences >= this score threshold as significant",    5 },
+  { "--incdomE",    eslARG_REAL,       "0.01", NULL, "x>0",     NULL,  NULL,  INCDOMOPTS,        "consider domains <= this E-value threshold as significant",    5 },
+  { "--incdomT",    eslARG_REAL,        FALSE, NULL,  NULL,     NULL,  NULL,  INCDOMOPTS,        "consider domains >= this score threshold as significant",      5 },
+/* Model-specific thresholding for both reporting and inclusion (unused in phmmer)*/
+  { "--cut_ga",     eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL,  THRESHOPTS,        "use profile's GA gathering cutoffs to set all thresholding",  99 },
+  { "--cut_nc",     eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL,  THRESHOPTS,        "use profile's NC noise cutoffs to set all thresholding",      99 },
+  { "--cut_tc",     eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL,  THRESHOPTS,        "use profile's TC trusted cutoffs to set all thresholding",    99 },
+/* Control of filter pipeline */
+  { "--max",        eslARG_NONE,        FALSE, NULL, NULL,      NULL,  NULL, "--F1,--F2,--F3",   "Turn all heuristic filters off (less speed, more power)",      7 },
+  { "--F1",         eslARG_REAL,       "0.02", NULL, NULL,      NULL,  NULL, "--max",            "Stage 1 (MSV) threshold: promote hits w/ P <= F1",             7 },
+  { "--F2",         eslARG_REAL,       "1e-3", NULL, NULL,      NULL,  NULL, "--max",            "Stage 2 (Vit) threshold: promote hits w/ P <= F2",             7 },
+  { "--F3",         eslARG_REAL,       "1e-5", NULL, NULL,      NULL,  NULL, "--max",            "Stage 3 (Fwd) threshold: promote hits w/ P <= F3",             7 },
+  { "--nobias",     eslARG_NONE,        NULL,  NULL, NULL,      NULL,  NULL, "--max",            "turn off composition bias filter",                             7 },
+/* Control of E-value calibration */
+  { "--EmL",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,              "length of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EmN",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,              "number of sequences for MSV Gumbel mu fit",                   11 },   
+  { "--EvL",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,              "length of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EvN",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,              "number of sequences for Viterbi Gumbel mu fit",               11 },   
+  { "--EfL",        eslARG_INT,         "100", NULL,"n>0",      NULL,  NULL,  NULL,              "length of sequences for Forward exp tail tau fit",            11 },   
+  { "--EfN",        eslARG_INT,         "200", NULL,"n>0",      NULL,  NULL,  NULL,              "number of sequences for Forward exp tail tau fit",            11 },   
+  { "--Eft",        eslARG_REAL,       "0.04", NULL,"0<x<1",    NULL,  NULL,  NULL,              "tail mass for Forward exponential tail tau fit",              11 },   
+/* other options */
+  { "--nonull2",    eslARG_NONE,        NULL,  NULL, NULL,      NULL,  NULL,  NULL,              "turn off biased composition score corrections",               12 },
+  { "-Z",           eslARG_REAL,       FALSE, NULL, "x>0",     NULL,  NULL,  NULL,              "set # of comparisons done, for E-value calculation",          12 },
+  { "--domZ",       eslARG_REAL,       FALSE, NULL, "x>0",     NULL,  NULL,  NULL,              "set # of significant seqs, for domain E-value calculation",   12 },
+  { "--seed",       eslARG_INT,         "42",  NULL, "n>=0",    NULL,  NULL,  NULL,              "set RNG seed to <n> (if 0: one-time arbitrary seed)",         12 },
+  { "--qformat",    eslARG_STRING,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "assert query <seqfile> is in format <s>: no autodetection",   12 },
+  { "--tformat",    eslARG_STRING,      NULL, NULL, NULL,      NULL,  NULL,  NULL,              "assert target <seqdb> is in format <s>>: no autodetection",   12 },
+  { "--daemon",     eslARG_NONE,        NULL, NULL, NULL,      NULL,  NULL,  DAEMONOPTS,        "run program as a daemon",                                     12 },
+
+#ifdef HMMER_THREADS
+  { "--cpu",        eslARG_INT,  NULL,"HMMER_NCPU", "n>=0",NULL,  NULL,  CPUOPTS,           "number of parallel CPU workers to use for multithreads",      12 },
+#endif
+#ifdef HAVE_MPI
+  { "--stall",      eslARG_NONE,   FALSE, NULL, NULL,      NULL,"--mpi", NULL,              "arrest after start: for debugging MPI under gdb",             12 },  
+  { "--mpi",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL,  MPIOPTS,           "run as an MPI parallel program",                              12 },
+#endif
+
+  /* Restrict search to subset of database - hidden because these flags are
+   *   (a) currently for internal use
+   *   (b) probably going to change
+   * Doesn't work with MPI
+   */
+  { "--restrictdb_stkey", eslARG_STRING, "0",  NULL, NULL,    NULL,  NULL,  NULL,       "Search starts at the sequence with name <s> (not with MPI)",     99 },
+  { "--restrictdb_n",eslARG_INT,        "-1",  NULL, NULL,    NULL,  NULL,  NULL,       "Search <j> target sequences (starting at --restrictdb_stkey)",   99 },
+  { "--ssifile",    eslARG_STRING,       NULL, NULL, NULL,    NULL,  NULL,  NULL,       "restrictdb_x values require ssi file. Override default to <s>",  99 },
+
+ {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options] <seqfile> <seqdb>";
+static char banner[] = "search a protein sequence against a protein database";
+
+/* struct cfg_s : "Global" application configuration shared by all threads/processes
+ * 
+ * This structure is passed to routines within main.c, as a means of semi-encapsulation
+ * of shared data amongst different parallel processes (threads or MPI processes).
+ */
+struct cfg_s {
+  char            *qfile;             /* query sequence file                             */
+  char            *dbfile;            /* database file                               */
+
+  int              do_mpi;            /* TRUE if we're doing MPI parallelization         */
+  int              nproc;             /* how many MPI processes, total                   */
+  int              my_rank;           /* who am I, in 0..nproc-1                         */
+
+  char             *firstseq_key;     /* name of the first sequence in the restricted db range */
+  int              n_targetseq;       /* number of sequences in the restricted range */
+};
+
+static int  serial_master(ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  serial_loop  (WORKER_INFO *info, ESL_SQFILE *dbfp, int n_targetseqs);
+#ifdef HMMER_THREADS
+#define BLOCK_SIZE 1000
+
+static int  thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp, int n_targetseqs);
+static void pipeline_thread(void *arg);
+#endif /*HMMER_THREADS*/
+
+#ifdef HAVE_MPI
+static int  mpi_master   (ESL_GETOPTS *go, struct cfg_s *cfg);
+static int  mpi_worker   (ESL_GETOPTS *go, struct cfg_s *cfg);
+#endif /*HAVE_MPI*/
+
+/* process_commandline()
+ * Take argc, argv, and options; parse the command line;
+ * display help/usage info.
+ */
+static int
+process_commandline(int argc, char **argv, ESL_GETOPTS **ret_go, char **ret_qfile, char **ret_dbfile)
+{
+  ESL_GETOPTS *go = esl_getopts_Create(options);
+  int          status;
+
+  if (esl_opt_ProcessEnvironment(go)         != eslOK)  { if (printf("Failed to process environment: %s\n", go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if (esl_opt_VerifyConfig(go)               != eslOK)  { if (printf("Failed to parse command line: %s\n",  go->errbuf) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* help format: */
+  if (esl_opt_GetBoolean(go, "-h") == TRUE) 
+    {
+      p7_banner(stdout, argv[0], banner);
+      esl_usage(stdout, argv[0], usage);
+      if (puts("\nBasic options:")                                           < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 1, 2, 80); /* 1= group; 2 = indentation; 120=textwidth*/
+
+      if (puts("\nOptions directing output:")                                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 2, 2, 80); 
+
+      if (puts("\nOptions controlling scoring system:")                      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 3, 2, 80); 
+
+      if (puts("\nOptions controlling reporting thresholds:")                < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 4, 2, 80); 
+
+      if (puts("\nOptions controlling inclusion (significance) thresholds:") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 5, 2, 80); 
+
+      if (puts("\nOptions controlling acceleration heuristics:")             < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 7, 2, 80); 
+
+      if (puts("\nOptions controlling E value calibration:")                 < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 11, 2, 80); 
+
+      if (puts("\nOther expert options:")                                    < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+      esl_opt_DisplayHelp(stdout, go, 12, 2, 80); 
+      exit(0);
+    }
+
+  if (esl_opt_ArgNumber(go)                 != 2)    { if (puts("Incorrect number of command line arguments.")      < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_qfile  = esl_opt_GetArg(go, 1)) == NULL) { if (puts("Failed to get <seqfile> argument on command line") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+  if ((*ret_dbfile = esl_opt_GetArg(go, 2)) == NULL) { if (puts("Failed to get <seqdb> argument on command line")   < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed"); goto FAILURE; }
+
+  /* Validate any attempted use of stdin streams */
+  if (strcmp(*ret_qfile, "-") == 0 && strcmp(*ret_dbfile, "-") == 0) 
+    { if (puts("Either <seqfile> or <seqdb> may be '-' (to read from stdin), but not both.") < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");  goto FAILURE; }
+
+  *ret_go = go;
+  return eslOK;
+  
+ FAILURE:  /* all errors handled here are user errors, so be polite.  */
+  esl_usage(stdout, argv[0], usage);
+  if (puts("\nwhere basic options are:")                                       < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_opt_DisplayHelp(stdout, go, 1, 2, 120); /* 1= group; 2 = indentation; 120=textwidth*/
+  if (printf("\nTo see more help on available options, do %s -h\n\n", argv[0]) < 0) ESL_XEXCEPTION_SYS(eslEWRITE, "write failed");
+  esl_getopts_Destroy(go);
+  exit(1);  
+
+ ERROR:
+  if (go) esl_getopts_Destroy(go);
+  exit(status);
+}
+
+
+static int
+output_header(FILE *ofp, ESL_GETOPTS *go, char *qfile, char *dbfile)
+{
+  p7_banner(ofp, go->argv[0], banner);
+  
+  if (fprintf(ofp, "# query sequence file:             %s\n", qfile)                                                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (fprintf(ofp, "# target sequence database:        %s\n", dbfile)                                                                                < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-o")          && fprintf(ofp, "# output directed to file:         %s\n",             esl_opt_GetString(go, "-o"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-A")          && fprintf(ofp, "# MSA of hits saved to file:       %s\n",             esl_opt_GetString(go, "-A"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tblout")    && fprintf(ofp, "# per-seq hits tabular output:     %s\n",             esl_opt_GetString(go, "--tblout"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domtblout") && fprintf(ofp, "# per-dom hits tabular output:     %s\n",             esl_opt_GetString(go, "--domtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pfamtblout")&& fprintf(ofp, "# pfam-style tabular hit output:   %s\n",             esl_opt_GetString(go, "--pfamtblout")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--acc")       && fprintf(ofp, "# prefer accessions over names:    yes\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--noali")     && fprintf(ofp, "# show alignments in output:       no\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--notextw")   && fprintf(ofp, "# max ASCII text line length:      unlimited\n")                                            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--textw")     && fprintf(ofp, "# max ASCII text line length:      %d\n",             esl_opt_GetInteger(go, "--textw"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+  if (esl_opt_IsUsed(go, "--popen")     && fprintf(ofp, "# gap open probability:            %f\n",             esl_opt_GetReal  (go, "--popen"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--pextend")   && fprintf(ofp, "# gap extend probability:          %f\n",             esl_opt_GetReal  (go, "--pextend"))   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mx")        && fprintf(ofp, "# subst score matrix (built-in):   %s\n",             esl_opt_GetString(go, "--mx"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--mxfile")    && fprintf(ofp, "# subst score matrix (file):       %s\n",             esl_opt_GetString(go, "--mxfile"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-E")          && fprintf(ofp, "# sequence reporting threshold:    E-value <= %g\n",  esl_opt_GetReal(go, "-E"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-T")          && fprintf(ofp, "# sequence reporting threshold:    score >= %g\n",    esl_opt_GetReal(go, "-T"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domE")      && fprintf(ofp, "# domain reporting threshold:      E-value <= %g\n",  esl_opt_GetReal(go, "--domE"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domT")      && fprintf(ofp, "# domain reporting threshold:      score >= %g\n",    esl_opt_GetReal(go, "--domT"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incE")      && fprintf(ofp, "# sequence inclusion threshold:    E-value <= %g\n",  esl_opt_GetReal(go, "--incE"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incT")      && fprintf(ofp, "# sequence inclusion threshold:    score >= %g\n",    esl_opt_GetReal(go, "--incT"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomE")   && fprintf(ofp, "# domain inclusion threshold:      E-value <= %g\n",  esl_opt_GetReal(go, "--incdomE"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--incdomT")   && fprintf(ofp, "# domain inclusion threshold:      score >= %g\n",    esl_opt_GetReal(go, "--incdomT"))     < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//if (esl_opt_IsUsed(go, "--cut_ga")    && fprintf(ofp, "# model-specific thresholding:     GA cutoffs\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+//if (esl_opt_IsUsed(go, "--cut_nc")    && fprintf(ofp, "# model-specific thresholding:     NC cutoffs\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+//if (esl_opt_IsUsed(go, "--cut_tc")    && fprintf(ofp, "# model-specific thresholding:     TC cutoffs\n")                                           < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); 
+  if (esl_opt_IsUsed(go, "--max")       && fprintf(ofp, "# Max sensitivity mode:            on [all heuristic filters off]\n")                       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F1")        && fprintf(ofp, "# MSV filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F1"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F2")        && fprintf(ofp, "# Vit filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F2"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--F3")        && fprintf(ofp, "# Fwd filter P threshold:       <= %g\n",             esl_opt_GetReal(go, "--F3"))          < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--nobias")    && fprintf(ofp, "# biased composition HMM filter:   off\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") && fprintf(ofp, "# Restrict db to start at seq key: %s\n",            esl_opt_GetString(go, "--restrictdb_stkey"))  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--restrictdb_n")     && fprintf(ofp, "# Restrict db to # target seqs:    %d\n",            esl_opt_GetInteger(go, "--restrictdb_n")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--ssifile")          && fprintf(ofp, "# Override ssi file to:            %s\n",            esl_opt_GetString(go, "--ssifile"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+  if (esl_opt_IsUsed(go, "--nonull2")   && fprintf(ofp, "# null2 bias corrections:          off\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EmL")       && fprintf(ofp, "# seq length, MSV Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EmL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EmN")       && fprintf(ofp, "# seq number, MSV Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EmN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EvL")       && fprintf(ofp, "# seq length, Vit Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EvL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EvN")       && fprintf(ofp, "# seq number, Vit Gumbel mu fit:   %d\n",             esl_opt_GetInteger(go, "--EvN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EfL")       && fprintf(ofp, "# seq length, Fwd exp tau fit:     %d\n",             esl_opt_GetInteger(go, "--EfL"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--EfN")       && fprintf(ofp, "# seq number, Fwd exp tau fit:     %d\n",             esl_opt_GetInteger(go, "--EfN"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--Eft")       && fprintf(ofp, "# tail mass for Fwd exp tau fit:   %f\n",             esl_opt_GetReal   (go, "--Eft"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "-Z")          && fprintf(ofp, "# sequence search space set to:    %.0f\n",           esl_opt_GetReal(go, "-Z"))            < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--domZ")      && fprintf(ofp, "# domain search space set to:      %.0f\n",           esl_opt_GetReal(go, "--domZ"))        < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--seed"))  {
+    if (esl_opt_GetInteger(go, "--seed") == 0 && fprintf(ofp, "# random number seed:              one-time arbitrary\n")                             < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+    else if (                                    fprintf(ofp, "# random number seed set to:       %d\n",      esl_opt_GetInteger(go, "--seed"))      < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  }
+  if (esl_opt_IsUsed(go, "--qformat")   && fprintf(ofp, "# query <seqfile> format asserted: %s\n",            esl_opt_GetString(go, "--qformat"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--tformat")   && fprintf(ofp, "# target <seqdb> format asserted:  %s\n",            esl_opt_GetString(go, "--tformat"))    < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  if (esl_opt_IsUsed(go, "--daemon")    && fprintf(ofp, "run as a daemon process\n")                                                                 < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#ifdef HMMER_THREADS
+  if (esl_opt_IsUsed(go, "--cpu")       && fprintf(ofp, "# number of worker threads:        %d\n",            esl_opt_GetInteger(go, "--cpu"))       < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+#endif
+#ifdef HAVE_MPI
+  if (esl_opt_IsUsed(go, "--mpi")       && fprintf(ofp, "# MPI:                             on\n")                                                   < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+#endif
+  if (fprintf(ofp, "# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -\n\n")                                                  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  return eslOK;
+}
+
+
+int
+main(int argc, char **argv)
+{
+  int              status   = eslOK;
+
+  ESL_GETOPTS     *go  = NULL;	/* command line processing                 */
+  struct cfg_s     cfg;         /* configuration data                      */
+
+  /* Set processor specific flags */
+  impl_Init();
+
+  /* Initialize what we can in the config structure (without knowing the alphabet yet) 
+   */
+  cfg.qfile      = NULL;
+  cfg.dbfile     = NULL;
+
+  cfg.do_mpi     = FALSE;	           /* this gets reset below, if we init MPI */
+  cfg.nproc      = 0;		           /* this gets reset below, if we init MPI */
+  cfg.my_rank    = 0;		           /* this gets reset below, if we init MPI */
+  cfg.firstseq_key = NULL;
+  cfg.n_targetseq  = -1;
+
+  /* Initializations */
+  p7_FLogsumInit();		/* we're going to use table-driven Logsum() approximations at times */
+  process_commandline(argc, argv, &go, &cfg.qfile, &cfg.dbfile);    
+
+
+  /* is the range restricted? */
+#ifndef eslAUGMENT_SSI
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")  || esl_opt_IsUsed(go, "--ssifile")  )
+    p7_Fail("Unable to use range-control options unless an SSI index file is available. See 'esl_sfetch --index'\n");
+#else
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") )
+    if ((cfg.firstseq_key = esl_opt_GetString(go, "--restrictdb_stkey")) == NULL)  p7_Fail("Failure capturing --restrictdb_stkey\n");
+
+  if (esl_opt_IsUsed(go, "--restrictdb_n") )
+    cfg.n_targetseq = esl_opt_GetInteger(go, "--restrictdb_n");
+
+  if ( cfg.n_targetseq != -1 && cfg.n_targetseq < 1 )
+    p7_Fail("--restrictdb_n must be >= 1\n");
+#endif
+
+
+  /* Figure out who we are, and send control there: 
+   * we might be an MPI master, an MPI worker, or a serial program.
+   */
+#ifdef HAVE_MPI
+  /* pause the execution of the programs execution until the user has a
+   * chance to attach with a debugger and send a signal to resume execution
+   * i.e. (gdb) signal SIGCONT
+   */
+  if (esl_opt_GetBoolean(go, "--stall")) pause();
+
+  if (esl_opt_GetBoolean(go, "--mpi")) 
+    {
+      cfg.do_mpi     = TRUE;
+      MPI_Init(&argc, &argv);
+      MPI_Comm_rank(MPI_COMM_WORLD, &(cfg.my_rank));
+      MPI_Comm_size(MPI_COMM_WORLD, &(cfg.nproc));
+
+      if (cfg.my_rank > 0)  status = mpi_worker(go, &cfg);
+      else 		    status = mpi_master(go, &cfg);
+
+      MPI_Finalize();
+    }
+  else
+#endif /*HAVE_MPI*/
+    {
+      status = serial_master(go, &cfg);
+    }
+
+  esl_getopts_Destroy(go);
+
+  return status;
+}
+
+/* serial_master()
+ * For each query sequence in <seqfile> search the database for hits.
+ * 
+ * A master can only return if it's successful. All errors are handled
+ * immediately and fatally with p7_Fail(). Where we use the
+ * ESL_EXCEPTION mechanism and ERROR: block, it's for convenience; we
+ * know we're using a fatal exception handler.
+ */
+static int
+serial_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;             /* output file for results (default stdout)         */
+  FILE            *afp      = NULL;               /* alignment output file (-A option)                */
+  FILE            *tblfp    = NULL;		  /* output stream for tabular per-seq (--tblout)     */
+  FILE            *domtblfp = NULL;		  /* output stream for tabular per-seq (--domtblout)  */
+  FILE            *pfamtblfp= NULL;              /* output stream for pfam tabular output (--pfamtblout)    */
+  int              qformat  = eslSQFILE_UNKNOWN;  /* format of qfile                                  */
+  ESL_SQFILE      *qfp      = NULL;		  /* open qfile                                       */
+  ESL_SQ          *qsq      = NULL;               /* query sequence                                   */
+  int              dbformat = eslSQFILE_UNKNOWN;  /* format of dbfile                                 */
+  ESL_SQFILE      *dbfp     = NULL;               /* open dbfile                                      */
+  ESL_ALPHABET    *abc      = NULL;               /* sequence alphabet                                */
+  P7_BG           *bg       = NULL;		  /* null model (copies made of this into threads)    */
+  P7_BUILDER      *bld      = NULL;               /* HMM construction configuration                   */
+  ESL_STOPWATCH   *w        = NULL;               /* for timing                                       */
+  int              nquery   = 0;
+  int              seed;
+  int              textw;
+  int              status   = eslOK;
+  int              qstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              i;
+  int              ncpus    = 0;
+  int              infocnt  = 0;
+  WORKER_INFO     *info     = NULL;
+#ifdef HMMER_THREADS
+  ESL_SQ_BLOCK    *block    = NULL;
+  ESL_THREADS     *threadObj= NULL;
+  ESL_WORK_QUEUE  *queue    = NULL;
+#endif
+
+  /* Initializations */
+  abc     = esl_alphabet_Create(eslAMINO);
+  w       = esl_stopwatch_Create();
+  textw   = (esl_opt_GetBoolean(go, "--notextw") ? 0 : esl_opt_GetInteger(go, "--textw"));
+  bg      = p7_bg_Create(abc);
+
+  /* If caller declared input formats, decode them */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    qformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (qformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  /* validate options if running as a daemon */
+  if (esl_opt_IsOn(go, "--daemon")) 
+    {
+      /* running as a daemon, the input format must be type daemon */
+      if (qformat != eslSQFILE_UNKNOWN && qformat != eslSQFILE_DAEMON) 
+	p7_Fail("Input format %s not supported.  Must be daemon\n", esl_opt_GetString(go, "--qformat"));
+      qformat = eslSQFILE_DAEMON;
+      
+      if (strcmp(cfg->qfile, "-") != 0) p7_Fail("Query sequence file must be '-', in daemon mode\n");
+    }
+
+  /* Initialize a default builder configuration,
+   * then set only the options we need for single sequence search
+   */
+  bld = p7_builder_Create(NULL, abc);
+  if ((seed = esl_opt_GetInteger(go, "--seed")) > 0)
+    {				/* a little wasteful - we're blowing a couple of usec by reinitializing */
+      esl_randomness_Init(bld->r, seed);
+      bld->do_reseeding = TRUE;
+    }
+  bld->EmL = esl_opt_GetInteger(go, "--EmL");
+  bld->EmN = esl_opt_GetInteger(go, "--EmN");
+  bld->EvL = esl_opt_GetInteger(go, "--EvL");
+  bld->EvN = esl_opt_GetInteger(go, "--EvN");
+  bld->EfL = esl_opt_GetInteger(go, "--EfL");
+  bld->EfN = esl_opt_GetInteger(go, "--EfN");
+  bld->Eft = esl_opt_GetReal   (go, "--Eft");
+
+  /* Default is stored in the --mx option, so it's always IsOn(). Check --mxfile first; then go to the --mx option and the default. */
+  if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg);
+  else                              status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg); 
+  if (status != eslOK) p7_Fail("Failed to set single query seq score system:\n%s\n", bld->errbuf);
+
+  /* Open results output files */
+  if (esl_opt_IsOn(go, "-o"))          { if ((ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)  p7_Fail("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o")); } 
+  if (esl_opt_IsOn(go, "-A"))          { if ((afp      = fopen(esl_opt_GetString(go, "-A"),          "w")) == NULL)  p7_Fail("Failed to open alignment output file %s for writing\n",       esl_opt_GetString(go, "-A")); } 
+  if (esl_opt_IsOn(go, "--tblout"))    { if ((tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)  p7_Fail("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblfp")); }
+  if (esl_opt_IsOn(go, "--domtblout")) { if ((domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)  p7_Fail("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblfp")); }
+  if (esl_opt_IsOn(go, "--pfamtblout")){ if ((pfamtblfp = fopen(esl_opt_GetString(go, "--pfamtblout"), "w")) == NULL)  esl_fatal("Failed to open pfam-style tabular output file %s for writing\n", esl_opt_GetString(go, "--pfamtblout")); }
+
+  /* Open the target sequence database for sequential access. */
+  status =  esl_sqfile_OpenDigital(abc, cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+  else if (status == eslEFORMAT)   p7_Fail("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+
+
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")) {
+    if (esl_opt_IsUsed(go, "--ssifile"))
+      esl_sqfile_OpenSSI(dbfp, esl_opt_GetString(go, "--ssifile"));
+    else
+      esl_sqfile_OpenSSI(dbfp, NULL);
+  }
+
+
+  /* Open the query sequence file  */
+  status = esl_sqfile_OpenDigital(abc, cfg->qfile, qformat, NULL, &qfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",      cfg->qfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",        cfg->qfile);
+  else if (status == eslEINVAL)    p7_Fail("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        p7_Fail ("Unexpected error %d opening sequence file %s\n", status, cfg->qfile);
+  qsq  = esl_sq_CreateDigital(abc);
+
+#ifdef HMMER_THREADS
+  /* initialize thread data */
+  if (esl_opt_IsOn(go, "--cpu")) ncpus = esl_opt_GetInteger(go, "--cpu");
+  else                           esl_threads_CPUCount(&ncpus);
+
+  if (ncpus > 0)
+    {
+      threadObj = esl_threads_Create(&pipeline_thread);
+      queue = esl_workqueue_Create(ncpus * 2);
+    }
+#endif
+
+  infocnt = (ncpus == 0) ? 1 : ncpus;
+  ESL_ALLOC(info, sizeof(*info) * infocnt);
+
+  /* Show header output */
+  output_header(ofp, go, cfg->qfile, cfg->dbfile);
+
+  for (i = 0; i < infocnt; ++i)
+    {
+      info[i].pli   = NULL;
+      info[i].th    = NULL;
+      info[i].om    = NULL;
+      info[i].bg    = p7_bg_Clone(bg);
+#ifdef HMMER_THREADS
+      info[i].queue = queue;
+#endif
+    }
+
+#ifdef HMMER_THREADS
+  for (i = 0; i < ncpus * 2; ++i)
+    {
+      block = esl_sq_CreateDigitalBlock(BLOCK_SIZE, abc);
+      if (block == NULL) 
+	{
+	  p7_Fail("Failed to allocate sequence block");
+	}
+
+      status = esl_workqueue_Init(queue, block);
+      if (status != eslOK) 
+	{
+	  p7_Fail("Failed to add block to work queue");
+	}
+    }
+#endif
+
+  /* Outer loop over sequence queries */
+  while ((qstatus = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      P7_OPROFILE     *om       = NULL;           /* optimized query profile                  */
+
+      nquery++;
+      if (qsq->n == 0) continue; /* skip zero length seqs as if they aren't even present */
+
+      esl_stopwatch_Start(w);
+
+      /* seqfile may need to be rewound (multiquery mode) */
+      if (nquery > 1)
+      {
+        if (! esl_sqfile_IsRewindable(dbfp)) p7_Fail("Target sequence file %s isn't rewindable; can't search it with multiple queries", cfg->dbfile);
+
+        if ( cfg->firstseq_key == NULL )
+          esl_sqfile_Position(dbfp, 0); //only re-set current position to 0 if we're not planning to set it in a moment
+      }
+
+      if ( cfg->firstseq_key != NULL ) { //it's tempting to want to do this once and capture the offset position for future passes, but ncbi files make this non-trivial, so this keeps it general
+        sstatus = esl_sqfile_PositionByKey(dbfp, cfg->firstseq_key);
+        if (sstatus != eslOK)
+          p7_Fail("Failure setting restrictdb_stkey to %d\n", cfg->firstseq_key);
+      }
+
+
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != '\0' && fprintf(ofp, "Accession:   %s\n", qsq->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->desc[0] != '\0' && fprintf(ofp, "Description: %s\n", qsq->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+
+
+      /* Build the model */
+      p7_SingleBuilder(bld, qsq, info[0].bg, NULL, NULL, NULL, &om); /* bypass HMM - only need model */
+
+      for (i = 0; i < infocnt; ++i)
+      {
+        /* Create processing pipeline and hit list */
+        info[i].th  = p7_tophits_Create();
+        info[i].om  = p7_oprofile_Clone(om);
+        info[i].pli = p7_pipeline_Create(go, om->M, 100, FALSE, p7_SEARCH_SEQS); /* L_hint = 100 is just a dummy for now */
+        p7_pli_NewModel(info[i].pli, info[i].om, info[i].bg);
+
+#ifdef HMMER_THREADS
+        if (ncpus > 0) esl_threads_AddThread(threadObj, &info[i]);
+#endif
+      }
+
+#ifdef HMMER_THREADS
+      if (ncpus > 0) sstatus = thread_loop(threadObj, queue, dbfp, cfg->n_targetseq);
+      else           sstatus = serial_loop(info, dbfp, cfg->n_targetseq);
+#else
+      sstatus = serial_loop(info, dbfp, cfg->n_targetseq);
+#endif
+      switch(sstatus)
+      {
+      case eslEFORMAT:
+        p7_Fail("Parse failed (sequence file %s):\n%s\n",
+            dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+        break;
+      case eslEOF:
+        /* do nothing */
+        break;
+      default:
+        p7_Fail("Unexpected error %d reading sequence file %s",
+            sstatus, dbfp->filename);
+      }
+
+
+      /* merge the results of the search results */
+      for (i = 1; i < infocnt; ++i)
+      {
+        p7_tophits_Merge(info[0].th, info[i].th);
+        p7_pipeline_Merge(info[0].pli, info[i].pli);
+
+        p7_pipeline_Destroy(info[i].pli);
+        p7_tophits_Destroy(info[i].th);
+        p7_oprofile_Destroy(info[i].om);
+      }
+
+      /* Print the results.  */
+      p7_tophits_SortBySortkey(info->th);
+      p7_tophits_Threshold(info->th, info->pli);
+      p7_tophits_Targets(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, info->th, info->pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (domtblfp)  p7_tophits_TabularDomains(domtblfp, qsq->name, qsq->acc, info->th, info->pli, (nquery == 1));
+      if (pfamtblfp) p7_tophits_TabularXfam(pfamtblfp, qsq->name, qsq->acc, info->th, info->pli);
+
+      esl_stopwatch_Stop(w);
+      p7_pli_Statistics(ofp, info->pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      fflush(ofp);
+
+      /* Output the results in an MSA (-A option) */
+      if (afp) {
+	ESL_MSA *msa = NULL;
+
+	if ( p7_tophits_Alignment(info->th, abc, NULL, NULL, 0, p7_ALL_CONSENSUS_COLS, &msa) == eslOK) 
+	  {
+	    if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+	    else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+
+	    if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  }
+	else if (fprintf(ofp, "# No hits satisfy inclusion thresholds; no alignment saved\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  
+	esl_msa_Destroy(msa);
+      }
+
+      p7_tophits_Destroy(info->th);
+      p7_pipeline_Destroy(info->pli);
+      p7_oprofile_Destroy(info->om);
+      p7_oprofile_Destroy(om);
+      esl_sq_Reuse(qsq);
+    } /* end outer loop over query sequences */
+  if      (qstatus == eslEFORMAT) p7_Fail("Parse failed (sequence file %s):\n%s\n",
+					    qfp->filename, esl_sqfile_GetErrorBuf(qfp));
+  else if (qstatus != eslEOF)     p7_Fail("Unexpected error %d reading sequence file %s",
+					    qstatus, qfp->filename);
+
+
+  /* Terminate outputs - any last words?
+   */
+  if (tblfp)     p7_tophits_TabularTail(tblfp,    "phmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (domtblfp)  p7_tophits_TabularTail(domtblfp, "phmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (pfamtblfp) p7_tophits_TabularTail(pfamtblfp,"phmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (ofp)    { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for successful exit
+   */
+  for (i = 0; i < infocnt; ++i)
+    p7_bg_Destroy(info[i].bg);
+
+#ifdef HMMER_THREADS
+  if (ncpus > 0)
+    {
+      esl_workqueue_Reset(queue);
+      while (esl_workqueue_Remove(queue, (void **) &block) == eslOK)
+	esl_sq_DestroyBlock(block);
+      esl_workqueue_Destroy(queue);
+      esl_threads_Destroy(threadObj);
+    }
+#endif
+
+  free(info);
+  esl_sqfile_Close(dbfp);
+  esl_sqfile_Close(qfp);
+  esl_stopwatch_Destroy(w);
+  esl_sq_Destroy(qsq);
+  p7_bg_Destroy(bg);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+
+  if (ofp      != stdout) fclose(ofp);
+  if (afp      != NULL)   fclose(afp);
+  if (tblfp    != NULL)   fclose(tblfp);
+  if (domtblfp != NULL)   fclose(domtblfp);
+  if (pfamtblfp)     fclose(pfamtblfp);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+#ifdef HAVE_MPI
+
+/* Define common tags used by the MPI master/slave processes */
+#define HMMER_ERROR_TAG          1
+#define HMMER_HMM_TAG            2
+#define HMMER_SEQUENCE_TAG       3
+#define HMMER_BLOCK_TAG          4
+#define HMMER_PIPELINE_TAG       5
+#define HMMER_TOPHITS_TAG        6
+#define HMMER_HIT_TAG            7
+#define HMMER_TERMINATING_TAG    8
+#define HMMER_READY_TAG          9
+
+/* mpi_failure()
+ * Generate an error message.  If the clients rank is not 0, a
+ * message is created with the error message and sent to the
+ * master process for handling.
+ */
+static void
+mpi_failure(char *format, ...)
+{
+  va_list  argp;
+  int      status = eslFAIL;
+  int      len;
+  int      rank;
+  char     str[512];
+
+  MPI_Comm_rank(MPI_COMM_WORLD, &rank);
+
+  /* format the error mesg */
+  va_start(argp, format);
+  len = vsnprintf(str, sizeof(str), format, argp);
+  va_end(argp);
+
+  /* make sure the error string is terminated */
+  str[sizeof(str)-1] = '\0';
+
+  /* if the caller is the master, print the results and abort */
+  if (rank == 0)
+    {
+      if (fprintf(stderr, "\nError: ") < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "%s", str)   < 0) exit(eslEWRITE);
+      if (fprintf(stderr, "\n")        < 0) exit(eslEWRITE);
+      fflush(stderr);
+
+      MPI_Abort(MPI_COMM_WORLD, status);
+      exit(1);
+    }
+  else
+    {
+      MPI_Send(str, len, MPI_CHAR, 0, HMMER_ERROR_TAG, MPI_COMM_WORLD);
+      pause();
+    }
+}
+
+#define MAX_BLOCK_SIZE (512*1024)
+
+typedef struct {
+  uint64_t  offset;
+  uint64_t  length;
+  uint64_t  count;
+} SEQ_BLOCK;
+
+typedef struct {
+  int        complete;
+  int        size;
+  int        current;
+  int        last;
+  SEQ_BLOCK *blocks;
+} BLOCK_LIST;
+
+/* this routine parses the database keeping track of the blocks
+ * offset within the file, number of sequences and the length
+ * of the block.  These blocks are passed as work units to the
+ * MPI workers.  If multiple hmm's are in the query file, the
+ * blocks are reused without parsing the database a second time.
+ */
+int next_block(ESL_SQFILE *sqfp, ESL_SQ *sq, BLOCK_LIST *list, SEQ_BLOCK *block, int n_targetseqs)
+{
+  int      status   = eslOK;
+
+  /* if the list has been calculated, use it instead of parsing the database */
+  if (list->complete)
+  {
+      if (list->current == list->last)
+      {
+        block->offset = 0;
+        block->length = 0;
+        block->count  = 0;
+
+        status = eslEOF;
+      }
+      else
+      {
+        int inx = list->current++;
+
+        block->offset = list->blocks[inx].offset;
+        block->length = list->blocks[inx].length;
+        block->count  = list->blocks[inx].count;
+
+        status = eslOK;
+      }
+
+      return status;
+  }
+
+  block->offset = 0;
+  block->length = 0;
+  block->count = 0;
+
+  esl_sq_Reuse(sq);
+  if (n_targetseqs == 0) status = eslEOF; //this is to handle the end-case of a restrictdb scenario, where no more targets are required, and we want to mark the list as complete
+  while (block->length < MAX_BLOCK_SIZE && (n_targetseqs < 0 || block->count < n_targetseqs) && (status = esl_sqio_ReadInfo(sqfp, sq)) == eslOK)
+    {
+      if (block->count == 0) block->offset = sq->roff;
+      block->length = sq->eoff - block->offset + 1;
+      block->count++;
+      esl_sq_Reuse(sq);
+    }
+
+  if (block->count > 0)
+    if (status == eslEOF || block->count == n_targetseqs)
+      status = eslOK;
+  if (status == eslEOF) list->complete = 1;
+
+  /* add the block to the list of known blocks */
+  if (status == eslOK)
+    {
+      int inx;
+
+      if (list->last >= list->size)
+	{
+	  void *tmp;
+	  list->size += 500;
+	  ESL_RALLOC(list->blocks, tmp, sizeof(SEQ_BLOCK) * list->size);
+	}
+
+      inx = list->last++;
+      list->blocks[inx].offset = block->offset;
+      list->blocks[inx].length = block->length;
+      list->blocks[inx].count  = block->count;
+    }
+
+  return status;
+
+ ERROR:
+  return eslEMEM;
+}
+
+/* mpi_master()
+ * The MPI version of hmmbuild.
+ * Follows standard pattern for a master/worker load-balanced MPI program (J1/78-79).
+ * 
+ * A master can only return if it's successful. 
+ * Where we use EXCEPTION mechanism and ERROR block, it's for convenience;
+ * we know we're using a fatal exception handler.
+ *
+ * Errors in an MPI master come in two classes: recoverable and nonrecoverable.
+ * 
+ * Recoverable errors include all worker-side errors, and any
+ * master-side error that do not affect MPI communication. Error
+ * messages from recoverable messages are delayed until we've cleanly
+ * shut down the workers.
+ * 
+ * Unrecoverable errors are master-side errors that may affect MPI
+ * communication, meaning we cannot count on being able to reach the
+ * workers and shut them down. Unrecoverable errors result in immediate
+ * p7_Fail()'s, which will cause MPI to shut down the worker processes
+ * uncleanly.
+ */
+static int
+mpi_master(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  FILE            *ofp      = stdout;             /* output file for results (default stdout)         */
+  FILE            *afp      = NULL;               /* alignment output file (-A option)                */
+  FILE            *tblfp    = NULL;		  /* output stream for tabular per-seq (--tblout)     */
+  FILE            *domtblfp = NULL;		  /* output stream for tabular per-seq (--domtblout)  */
+  FILE            *pfamtblfp= NULL;              /* output stream for pfam-style tabular output  (--pfamtblout) */
+  int              qformat  = eslSQFILE_UNKNOWN;  /* format of qfile                                  */
+  P7_BG           *bg       = NULL;	          /* null model                                      */
+  ESL_SQFILE      *qfp      = NULL;		  /* open qfile                                       */
+  ESL_SQ          *qsq      = NULL;               /* query sequence                                   */
+  int              dbformat = eslSQFILE_UNKNOWN;  /* format of dbfile                                 */
+  ESL_SQFILE      *dbfp     = NULL;               /* open dbfile                                      */
+  ESL_SQ          *dbsq     = NULL;               /* target sequence                                  */
+  ESL_ALPHABET    *abc      = NULL;               /* sequence alphabet                                */
+  P7_BUILDER      *bld      = NULL;               /* HMM construction configuration                   */
+  ESL_STOPWATCH   *w        = NULL;               /* for timing                                       */
+  int              nquery   = 0;
+  int              seed;
+  int              textw;
+  int              status   = eslOK;
+  int              qstatus  = eslOK;
+  int              sstatus  = eslOK;
+  int              dest;
+
+  char            *mpi_buf  = NULL;               /* buffer used to pack/unpack structures            */
+  int              mpi_size = 0;                  /* size of the allocated buffer                     */
+  BLOCK_LIST      *list     = NULL;
+  SEQ_BLOCK        block;
+
+  int              i;
+  int              size;
+  MPI_Status       mpistatus;
+
+  int              n_targets;
+
+  /* Initializations */
+  abc     = esl_alphabet_Create(eslAMINO);
+  w       = esl_stopwatch_Create();
+  if (esl_opt_GetBoolean(go, "--notextw")) textw = 0;
+  else                                     textw = esl_opt_GetInteger(go, "--textw");
+  esl_stopwatch_Start(w);
+
+  /* If caller declared input formats, decode them */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    qformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (qformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  bg = p7_bg_Create(abc);
+
+  /* Initialize a default builder configuration,
+   * then set only the options we need for single sequence search
+   */
+  bld = p7_builder_Create(NULL, abc);
+  if ((seed = esl_opt_GetInteger(go, "--seed")) > 0)
+    {				/* a little wasteful - we're blowing a couple of usec by reinitializing */
+      esl_randomness_Init(bld->r, seed);
+      bld->do_reseeding = TRUE;
+    }
+  bld->EmL = esl_opt_GetInteger(go, "--EmL");
+  bld->EmN = esl_opt_GetInteger(go, "--EmN");
+  bld->EvL = esl_opt_GetInteger(go, "--EvL");
+  bld->EvN = esl_opt_GetInteger(go, "--EvN");
+  bld->EfL = esl_opt_GetInteger(go, "--EfL");
+  bld->EfN = esl_opt_GetInteger(go, "--EfN");
+  bld->Eft = esl_opt_GetReal   (go, "--Eft");
+
+  if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg);
+  else                              status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg); 
+  if (status != eslOK) mpi_failure("Failed to set single query seq score system:\n%s\n", bld->errbuf);
+
+  /* Open results output files */
+  if (esl_opt_IsOn(go, "-o")          && (ofp      = fopen(esl_opt_GetString(go, "-o"),          "w")) == NULL)  
+    mpi_failure("Failed to open output file %s for writing\n",                 esl_opt_GetString(go, "-o")); 
+  if (esl_opt_IsOn(go, "-A")          && (afp      = fopen(esl_opt_GetString(go, "-A"),          "w")) == NULL)  
+    mpi_failure("Failed to open alignment output file %s for writing\n",       esl_opt_GetString(go, "-A"));
+  if (esl_opt_IsOn(go, "--tblout")    && (tblfp    = fopen(esl_opt_GetString(go, "--tblout"),    "w")) == NULL)
+    mpi_failure("Failed to open tabular per-seq output file %s for writing\n", esl_opt_GetString(go, "--tblfp"));
+  if (esl_opt_IsOn(go, "--domtblout") && (domtblfp = fopen(esl_opt_GetString(go, "--domtblout"), "w")) == NULL)
+    mpi_failure("Failed to open tabular per-dom output file %s for writing\n", esl_opt_GetString(go, "--domtblfp"));
+  if (esl_opt_IsOn(go, "--pfamtblout") && (pfamtblfp = fopen(esl_opt_GetString(go, "--pfamtblout"), "w")) == NULL)
+    mpi_failure("Failed to open pfam-style tabular output file %s for writing\n", esl_opt_GetString(go, "--pfamtblout"));
+    
+  /* Open the target sequence database for sequential access. */
+  status =  esl_sqfile_OpenDigital(abc, cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+  else if (status == eslEFORMAT)   mpi_failure("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+  dbsq = esl_sq_CreateDigital(abc);
+
+  if (esl_opt_IsUsed(go, "--restrictdb_stkey") || esl_opt_IsUsed(go, "--restrictdb_n")) {
+      if (esl_opt_IsUsed(go, "--ssifile"))
+        esl_sqfile_OpenSSI(dbfp, esl_opt_GetString(go, "--ssifile"));
+      else
+        esl_sqfile_OpenSSI(dbfp, NULL);
+  }
+
+
+
+  /* Open the query sequence file  */
+  status = esl_sqfile_OpenDigital(abc, cfg->qfile, qformat, NULL, &qfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",      cfg->qfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",        cfg->qfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure ("Unexpected error %d opening sequence file %s\n", status, cfg->qfile);
+  qsq  = esl_sq_CreateDigital(abc);
+
+  ESL_ALLOC(list, sizeof(SEQ_BLOCK));
+  list->complete = 0;
+  list->size     = 0;
+  list->current  = 0;
+  list->last     = 0;
+  list->blocks   = NULL;
+
+
+  /* Show header output */
+  output_header(ofp, go, cfg->qfile, cfg->dbfile);
+
+  if ( cfg->firstseq_key != NULL ) { //it's tempting to want to do this once and capture the offset position for future passes, but ncbi files make this non-trivial, so this keeps it general
+    sstatus = esl_sqfile_PositionByKey(dbfp, cfg->firstseq_key);
+    if (sstatus != eslOK)
+      p7_Fail("Failure setting restrictdb_stkey to %d\n", cfg->firstseq_key);
+  }
+
+
+  /* Outer loop over sequence queries */
+  while ((qstatus = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      P7_PIPELINE     *pli      = NULL;		  /* processing pipeline                      */
+      P7_TOPHITS      *th       = NULL;        	  /* top-scoring sequence hits                */
+      P7_OPROFILE     *om       = NULL;           /* optimized query profile                  */
+      int              seq_cnt  = 0;
+
+      nquery++;
+      if (qsq->n == 0) continue; /* skip zero length seqs as if they aren't even present */
+
+      esl_stopwatch_Start(w);
+
+      n_targets = cfg->n_targetseq;
+
+      /* seqfile may need to be rewound (multiquery mode) */
+      if (nquery > 1) list->current = 0;
+
+      if (fprintf(ofp, "Query:       %s  [L=%ld]\n", qsq->name, (long) qsq->n) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->acc[0]  != '\0' && fprintf(ofp, "Accession:   %s\n", qsq->acc)  < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      if (qsq->desc[0] != '\0' && fprintf(ofp, "Description: %s\n", qsq->desc) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");  
+
+      /* Build the model */
+      p7_SingleBuilder(bld, qsq, bg, NULL, NULL, NULL, &om); /* bypass HMM - only need model */
+
+      /* Create processing pipeline and hit list */
+      th  = p7_tophits_Create(); 
+      pli = p7_pipeline_Create(go, om->M, 100, FALSE, p7_SEARCH_SEQS); /* L_hint = 100 is just a dummy for now */
+      p7_pli_NewModel(pli, om, bg);
+
+      /* Main loop: */
+      while ((n_targets==-1 || seq_cnt<=n_targets) && (sstatus = next_block(dbfp, dbsq, list, &block, n_targets-seq_cnt)) == eslOK )
+      {
+        seq_cnt += block.count;
+
+        if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0)
+          mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+        MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+        if (mpi_buf == NULL || size > mpi_size) {
+          void *tmp;
+          ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+          mpi_size = size;
+        }
+
+        dest = mpistatus.MPI_SOURCE;
+        MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+        if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+          mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+        if (mpistatus.MPI_TAG != HMMER_READY_TAG)
+          mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+
+        MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+      }
+
+      if (n_targets!=-1 && seq_cnt==n_targets)
+        sstatus = eslEOF;
+
+      switch(sstatus)
+      {
+      case eslEFORMAT:
+        mpi_failure("Parse failed (sequence file %s):\n%s\n",
+              dbfp->filename, esl_sqfile_GetErrorBuf(dbfp));
+        break;
+      case eslEOF:
+        break;
+      default:
+        mpi_failure("Unexpected error %d reading sequence file %s", sstatus, dbfp->filename);
+      }
+
+      block.offset = 0;
+      block.length = 0;
+      block.count  = 0;
+
+      /* wait for all workers to finish up their work blocks */
+      for (i = 1; i < cfg->nproc; ++i)
+	{
+	  if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	    mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+	  MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+	  if (mpi_buf == NULL || size > mpi_size) {
+	    void *tmp;
+	    ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	    mpi_size = size; 
+	  }
+
+	  dest = mpistatus.MPI_SOURCE;
+	  MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+	  if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	    mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+	  if (mpistatus.MPI_TAG != HMMER_READY_TAG)
+	    mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+	}
+
+      /* merge the results of the search results */
+      for (dest = 1; dest < cfg->nproc; ++dest)
+	{
+	  P7_PIPELINE     *mpi_pli   = NULL;
+	  P7_TOPHITS      *mpi_th    = NULL;
+
+	  /* send an empty block to signal the worker they are done */
+	  MPI_Send(&block, 3, MPI_LONG_LONG_INT, dest, HMMER_BLOCK_TAG, MPI_COMM_WORLD);
+
+	  /* wait for the results */
+	  if ((status = p7_tophits_MPIRecv(dest, HMMER_TOPHITS_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, &mpi_th)) != eslOK)
+	    mpi_failure("Unexpected error %d receiving tophits from %d", status, dest);
+
+	  if ((status = p7_pipeline_MPIRecv(dest, HMMER_PIPELINE_TAG, MPI_COMM_WORLD, &mpi_buf, &mpi_size, go, &mpi_pli)) != eslOK)
+	    mpi_failure("Unexpected error %d receiving pipeline from %d", status, dest);
+
+	  p7_tophits_Merge(th, mpi_th);
+	  p7_pipeline_Merge(pli, mpi_pli);
+
+	  p7_pipeline_Destroy(mpi_pli);
+	  p7_tophits_Destroy(mpi_th);
+	}
+
+      /* Print the results.  */
+      p7_tophits_SortBySortkey(th);
+      p7_tophits_Threshold(th, pli);
+      p7_tophits_Targets(ofp, th, pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+      p7_tophits_Domains(ofp, th, pli, textw); if (fprintf(ofp, "\n\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+  
+      if (tblfp)     p7_tophits_TabularTargets(tblfp,    qsq->name, qsq->acc, th, pli, (nquery == 1));
+      if (domtblfp)  p7_tophits_TabularDomains(domtblfp, qsq->name, qsq->acc, th, pli, (nquery == 1));
+      if (pfamtblfp) p7_tophits_TabularXfam(pfamtblfp,  qsq->name, qsq->acc, th, pli);
+
+      esl_stopwatch_Stop(w);
+      p7_pli_Statistics(ofp, pli, w);
+      if (fprintf(ofp, "//\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+
+      /* Output the results in an MSA (-A option) */
+      if (afp) {
+	ESL_MSA *msa = NULL;
+
+	if ( p7_tophits_Alignment(th, abc, NULL, NULL, 0, p7_ALL_CONSENSUS_COLS, &msa) == eslOK) 
+	  {
+	    if (textw > 0) eslx_msafile_Write(afp, msa, eslMSAFILE_STOCKHOLM);
+	    else           eslx_msafile_Write(afp, msa, eslMSAFILE_PFAM);
+
+	    if (fprintf(ofp, "# Alignment of %d hits satisfying inclusion thresholds saved to: %s\n", msa->nseq, esl_opt_GetString(go, "-A")) < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed");
+	  }
+	else { if (fprintf(ofp, "# No hits satisfy inclusion thresholds; no alignment saved\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }	  
+	esl_msa_Destroy(msa);
+      }
+
+      p7_tophits_Destroy(th);
+      p7_pipeline_Destroy(pli);
+      p7_oprofile_Destroy(om);
+      esl_sq_Reuse(qsq);
+    } /* end outer loop over query sequences */
+  if      (qstatus == eslEFORMAT) mpi_failure("Parse failed (sequence file %s):\n%s\n",
+				 	      qfp->filename, esl_sqfile_GetErrorBuf(qfp));
+  else if (qstatus != eslEOF)     mpi_failure("Unexpected error %d reading sequence file %s",
+					      qstatus, qfp->filename);
+
+  /* monitor all the workers to make sure they have ended */
+  for (i = 1; i < cfg->nproc; ++i)
+    {
+      if (MPI_Probe(MPI_ANY_SOURCE, MPI_ANY_TAG, MPI_COMM_WORLD, &mpistatus) != 0) 
+	mpi_failure("MPI error %d receiving message from %d\n", mpistatus.MPI_SOURCE);
+
+      MPI_Get_count(&mpistatus, MPI_PACKED, &size);
+      if (mpi_buf == NULL || size > mpi_size) {
+	void *tmp;
+	ESL_RALLOC(mpi_buf, tmp, sizeof(char) * size);
+	mpi_size = size; 
+      }
+
+      dest = mpistatus.MPI_SOURCE;
+      MPI_Recv(mpi_buf, size, MPI_PACKED, dest, mpistatus.MPI_TAG, MPI_COMM_WORLD, &mpistatus);
+
+      if (mpistatus.MPI_TAG == HMMER_ERROR_TAG)
+	mpi_failure("MPI client %d raised error:\n%s\n", dest, mpi_buf);
+      if (mpistatus.MPI_TAG != HMMER_TERMINATING_TAG)
+	mpi_failure("Unexpected tag %d from %d\n", mpistatus.MPI_TAG, dest);
+    }
+
+  /* Terminate outputs - any last words?
+   */
+  if (tblfp)    p7_tophits_TabularTail(tblfp,    "phmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (domtblfp) p7_tophits_TabularTail(domtblfp, "phmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (pfamtblfp)p7_tophits_TabularTail(pfamtblfp, "phmmer", p7_SEARCH_SEQS, cfg->qfile, cfg->dbfile, go);
+  if (ofp)      { if (fprintf(ofp, "[ok]\n") < 0) ESL_EXCEPTION_SYS(eslEWRITE, "write failed"); }
+
+  /* Cleanup - prepare for successful exit
+   */
+  free(list);
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_bg_Destroy(bg);
+
+  esl_sqfile_Close(dbfp);
+  esl_sqfile_Close(qfp);
+  esl_stopwatch_Destroy(w);
+  esl_sq_Destroy(dbsq);
+  esl_sq_Destroy(qsq);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+
+  if (ofp      != stdout) fclose(ofp);
+  if (afp      != NULL)   fclose(afp);
+  if (tblfp    != NULL)   fclose(tblfp);
+  if (domtblfp != NULL)   fclose(domtblfp);
+  if (pfamtblfp)     fclose(pfamtblfp);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+
+static int
+mpi_worker(ESL_GETOPTS *go, struct cfg_s *cfg)
+{
+  int              qformat  = eslSQFILE_UNKNOWN;  /* format of qfile                                  */
+  P7_BG           *bg       = NULL;	          /* null model                                      */
+  ESL_SQFILE      *qfp      = NULL;		  /* open qfile                                       */
+  ESL_SQ          *qsq      = NULL;               /* query sequence                                   */
+  int              dbformat = eslSQFILE_UNKNOWN;  /* format of dbfile                                 */
+  ESL_SQFILE      *dbfp     = NULL;               /* open dbfile                                      */
+  ESL_SQ          *dbsq     = NULL;               /* target sequence                                  */
+  ESL_ALPHABET    *abc      = NULL;               /* sequence alphabet                                */
+  P7_BUILDER      *bld      = NULL;               /* HMM construction configuration                   */
+  ESL_STOPWATCH   *w        = NULL;               /* for timing                                       */
+  int              seed;
+  int              status   = eslOK;
+  int              qstatus  = eslOK;
+  int              sstatus  = eslOK;
+
+  char            *mpi_buf  = NULL;               /* buffer used to pack/unpack structures            */
+  int              mpi_size = 0;                  /* size of the allocated buffer                     */
+
+  MPI_Status       mpistatus;
+
+  /* Initializations */
+  abc  = esl_alphabet_Create(eslAMINO);
+  w    = esl_stopwatch_Create();
+  bg   = p7_bg_Create(abc);
+
+  /* If caller declared input formats, decode them */
+  if (esl_opt_IsOn(go, "--qformat")) {
+    qformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--qformat"));
+    if (qformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--qformat"));
+  }
+  if (esl_opt_IsOn(go, "--tformat")) {
+    dbformat = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--tformat"));
+    if (dbformat == eslSQFILE_UNKNOWN) p7_Fail("%s is not a recognized sequence database file format\n", esl_opt_GetString(go, "--tformat"));
+  }
+
+  /* Initialize a default builder configuration,
+   * then set only the options we need for single sequence search
+   */
+  bld = p7_builder_Create(NULL, abc);
+  if ((seed = esl_opt_GetInteger(go, "--seed")) > 0)
+    {				/* a little wasteful - we're blowing a couple of usec by reinitializing */
+      esl_randomness_Init(bld->r, seed);
+      bld->do_reseeding = TRUE;
+    }
+  bld->EmL = esl_opt_GetInteger(go, "--EmL");
+  bld->EmN = esl_opt_GetInteger(go, "--EmN");
+  bld->EvL = esl_opt_GetInteger(go, "--EvL");
+  bld->EvN = esl_opt_GetInteger(go, "--EvN");
+  bld->EfL = esl_opt_GetInteger(go, "--EfL");
+  bld->EfN = esl_opt_GetInteger(go, "--EfN");
+  bld->Eft = esl_opt_GetReal   (go, "--Eft");
+
+  if (esl_opt_IsOn(go, "--mxfile")) status = p7_builder_SetScoreSystem (bld, esl_opt_GetString(go, "--mxfile"), NULL, esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg);
+  else                              status = p7_builder_LoadScoreSystem(bld, esl_opt_GetString(go, "--mx"),           esl_opt_GetReal(go, "--popen"), esl_opt_GetReal(go, "--pextend"), bg); 
+  if (status != eslOK) mpi_failure("Failed to set single query seq score system:\n%s\n", bld->errbuf);
+
+  /* Open the target sequence database for sequential access. */
+  status =  esl_sqfile_OpenDigital(abc, cfg->dbfile, dbformat, p7_SEQDBENV, &dbfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open target sequence database %s for reading\n",      cfg->dbfile);
+  else if (status == eslEFORMAT)   mpi_failure("Target sequence database file %s is empty or misformatted\n",   cfg->dbfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure("Unexpected error %d opening target sequence database file %s\n", status, cfg->dbfile);
+  dbsq = esl_sq_CreateDigital(abc);
+
+  /* Open the query sequence file  */
+  status = esl_sqfile_OpenDigital(abc, cfg->qfile, qformat, NULL, &qfp);
+  if      (status == eslENOTFOUND) mpi_failure("Failed to open sequence file %s for reading\n",      cfg->qfile);
+  else if (status == eslEFORMAT)   mpi_failure("Sequence file %s is empty or misformatted\n",        cfg->qfile);
+  else if (status == eslEINVAL)    mpi_failure("Can't autodetect format of a stdin or .gz seqfile");
+  else if (status != eslOK)        mpi_failure ("Unexpected error %d opening sequence file %s\n", status, cfg->qfile);
+  qsq  = esl_sq_CreateDigital(abc);
+
+
+
+  /* Outer loop over sequence queries */
+  while ((qstatus = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      P7_PIPELINE     *pli      = NULL;		  /* processing pipeline                      */
+      P7_TOPHITS      *th       = NULL;        	  /* top-scoring sequence hits                */
+      P7_OPROFILE     *om       = NULL;           /* optimized query profile                  */
+
+      SEQ_BLOCK        block;
+
+      status = 0;
+      MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+      if (qsq->n == 0) continue; /* skip zero length seqs as if they aren't even present */
+
+      esl_stopwatch_Start(w);
+
+      /* Build the model */
+      p7_SingleBuilder(bld, qsq, bg, NULL, NULL, NULL, &om); /* bypass HMM - only need model */
+
+      /* Create processing pipeline and hit list */
+      th  = p7_tophits_Create(); 
+      pli = p7_pipeline_Create(go, om->M, 100, FALSE, p7_SEARCH_SEQS); /* L_hint = 100 is just a dummy for now */
+      p7_pli_NewModel(pli, om, bg);
+
+      /* receive a sequence block from the master */
+      MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+      while (block.count > 0)
+	{
+	  uint64_t length = 0;
+	  uint64_t count  = block.count;
+
+	  status = esl_sqfile_Position(dbfp, block.offset);
+	  if (status != eslOK) mpi_failure("Cannot position sequence database to %ld\n", block.offset);
+
+	  while (count > 0 && (sstatus = esl_sqio_Read(dbfp, dbsq)) == eslOK)
+	    {
+	      length = dbsq->eoff - block.offset + 1;
+
+	      p7_pli_NewSeq(pli, dbsq);
+	      p7_bg_SetLength(bg, dbsq->n);
+	      p7_oprofile_ReconfigLength(om, dbsq->n);
+      
+	      p7_Pipeline(pli, om, bg, dbsq, th);
+
+	      esl_sq_Reuse(dbsq);
+	      p7_pipeline_Reuse(pli);
+
+	      --count;
+	    }
+
+	  /* lets do a little bit of sanity checking here to make sure the blocks are the same */
+	  if (count > 0)              mpi_failure("Block count mismatch - expected %ld found %ld at offset %ld\n",  block.count,  block.count - count, block.offset);
+	  if (block.length != length) mpi_failure("Block length mismatch - expected %ld found %ld at offset %ld\n", block.length, length,              block.offset);
+
+	  /* inform the master we need another block of sequences */
+	  status = 0;
+	  MPI_Send(&status, 1, MPI_INT, 0, HMMER_READY_TAG, MPI_COMM_WORLD);
+
+	  /* wait for the next block of sequences */
+	  MPI_Recv(&block, 3, MPI_LONG_LONG_INT, 0, HMMER_BLOCK_TAG, MPI_COMM_WORLD, &mpistatus);
+	}
+
+      esl_stopwatch_Stop(w);
+
+      /* Send the top hits back to the master. */
+      p7_tophits_MPISend(th, 0, HMMER_TOPHITS_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+      p7_pipeline_MPISend(pli, 0, HMMER_PIPELINE_TAG, MPI_COMM_WORLD,  &mpi_buf, &mpi_size);
+
+      p7_tophits_Destroy(th);
+      p7_pipeline_Destroy(pli);
+      p7_oprofile_Destroy(om);
+      esl_sq_Reuse(qsq);
+    } /* end outer loop over query sequences */
+  if      (qstatus == eslEFORMAT) mpi_failure("Parse failed (sequence file %s):\n%s\n",
+				 	      qfp->filename, esl_sqfile_GetErrorBuf(qfp));
+  else if (qstatus != eslEOF)     mpi_failure("Unexpected error %d reading sequence file %s",
+					      qstatus, qfp->filename);
+
+  status = 0;
+  MPI_Send(&status, 1, MPI_INT, 0, HMMER_TERMINATING_TAG, MPI_COMM_WORLD);
+
+  if (mpi_buf != NULL) free(mpi_buf);
+
+  p7_bg_Destroy(bg);
+
+  esl_sqfile_Close(dbfp);
+  esl_sqfile_Close(qfp);
+  esl_stopwatch_Destroy(w);
+  esl_sq_Destroy(dbsq);
+  esl_sq_Destroy(qsq);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+  return eslOK;
+}
+#endif /*HAVE_MPI*/
+
+
+static int
+serial_loop(WORKER_INFO *info, ESL_SQFILE *dbfp, int n_targetseqs)
+{
+  int      sstatus   = eslOK;
+  ESL_SQ   *dbsq     = NULL;   /* one target sequence (digital)  */
+  int seq_cnt = 0;
+
+  dbsq = esl_sq_CreateDigital(info->om->abc);
+
+  /* Main loop: */
+  while ((n_targetseqs==-1 || seq_cnt<n_targetseqs) && (sstatus = esl_sqio_Read(dbfp, dbsq)) == eslOK)
+    {
+      p7_pli_NewSeq(info->pli, dbsq);
+      p7_bg_SetLength(info->bg, dbsq->n);
+      p7_oprofile_ReconfigLength(info->om, dbsq->n);
+      
+      p7_Pipeline(info->pli, info->om, info->bg, dbsq, info->th);
+
+      seq_cnt++;
+      esl_sq_Reuse(dbsq);
+      p7_pipeline_Reuse(info->pli);
+    }
+
+  if (n_targetseqs!=-1 && seq_cnt==n_targetseqs)
+    sstatus = eslEOF;
+
+  esl_sq_Destroy(dbsq);
+
+  return sstatus;
+}
+
+#ifdef HMMER_THREADS
+static int
+thread_loop(ESL_THREADS *obj, ESL_WORK_QUEUE *queue, ESL_SQFILE *dbfp, int n_targetseqs)
+{
+  int  status  = eslOK;
+  int  sstatus = eslOK;
+  int  eofCount = 0;
+  ESL_SQ_BLOCK *block;
+  void         *newBlock;
+
+  esl_workqueue_Reset(queue);
+  esl_threads_WaitForStart(obj);
+
+  status = esl_workqueue_ReaderUpdate(queue, NULL, &newBlock);
+  if (status != eslOK) p7_Fail("Work queue reader failed");
+      
+  /* Main loop: */
+  while (sstatus == eslOK)
+    {
+      block = (ESL_SQ_BLOCK *) newBlock;
+
+      if (n_targetseqs == 0)
+      {
+        block->count = 0;
+        sstatus = eslEOF;
+      } else {
+        sstatus = esl_sqio_ReadBlock(dbfp, block, -1, n_targetseqs, FALSE);
+        n_targetseqs -= block->count;
+      }
+
+      if (sstatus == eslEOF)
+      {
+        if (eofCount < esl_threads_GetWorkerCount(obj)) sstatus = eslOK;
+        ++eofCount;
+      }
+	  
+      if (sstatus == eslOK)
+      {
+        status = esl_workqueue_ReaderUpdate(queue, block, &newBlock);
+        if (status != eslOK) p7_Fail("Work queue reader failed");
+      }
+    }
+
+  status = esl_workqueue_ReaderUpdate(queue, block, NULL);
+  if (status != eslOK) p7_Fail("Work queue reader failed");
+
+  if (sstatus == eslEOF)
+    {
+      /* wait for all the threads to complete */
+      esl_threads_WaitForFinish(obj);
+      esl_workqueue_Complete(queue);  
+    }
+
+  return sstatus;
+}
+
+static void 
+pipeline_thread(void *arg)
+{
+  int i;
+  int status;
+  int workeridx;
+  WORKER_INFO   *info;
+  ESL_THREADS   *obj;
+  ESL_SQ_BLOCK  *block = NULL;
+  void          *newBlock;
+  
+  impl_Init();
+
+  obj = (ESL_THREADS *) arg;
+  esl_threads_Started(obj, &workeridx);
+
+  info = (WORKER_INFO *) esl_threads_GetData(obj, workeridx);
+
+  status = esl_workqueue_WorkerUpdate(info->queue, NULL, &newBlock);
+  if (status != eslOK) p7_Fail("Work queue worker failed");
+
+  /* loop until all blocks have been processed */
+  block = (ESL_SQ_BLOCK *) newBlock;
+  while (block->count > 0)
+    {
+      /* Main loop: */
+      for (i = 0; i < block->count; ++i)
+	{
+	  ESL_SQ *dbsq = block->list + i;
+
+	  p7_pli_NewSeq(info->pli, dbsq);
+	  p7_bg_SetLength(info->bg, dbsq->n);
+	  p7_oprofile_ReconfigLength(info->om, dbsq->n);
+	  
+	  p7_Pipeline(info->pli, info->om, info->bg, dbsq, info->th);
+	  
+	  esl_sq_Reuse(dbsq);
+	  p7_pipeline_Reuse(info->pli);
+	}
+
+      status = esl_workqueue_WorkerUpdate(info->queue, block, &newBlock);
+      if (status != eslOK) p7_Fail("Work queue worker failed");
+
+      block = (ESL_SQ_BLOCK *) newBlock;
+    }
+
+  status = esl_workqueue_WorkerUpdate(info->queue, block, NULL);
+  if (status != eslOK) p7_Fail("Work queue worker failed");
+
+  esl_threads_Finished(obj, workeridx);
+  return;
+}
+#endif   /* HMMER_THREADS */
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $Id: phmmer.c 4583 2013-12-30 18:56:25Z wheelert $
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/phmmer.c $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/seqmodel.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/seqmodel.c
new file mode 100755
index 0000000..b4190a8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/seqmodel.c
@@ -0,0 +1,315 @@
+/* Creating profile HMMs from single sequences.
+ * 
+ * Contents:
+ *   1. Routines in the exposed API.
+ *   2. Experiment driver: generating HMMs for hmmsim tests
+ *   3. Unit tests.
+ *   4. Test driver.
+ *   5. Copyright and license.
+ */
+
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+/*****************************************************************
+ * 1. Routines in the exposed API.
+ *****************************************************************/
+
+
+/* Function:  p7_Seqmodel()
+ * Synopsis:  Make a profile HMM from a single sequence.
+ *
+ * Purpose:   Make a profile HMM from a single sequence, for
+ *            probabilistic Smith/Waterman alignment, HMMER3-style.
+ *            
+ *            The query is digital sequence <dsq> of length <M>
+ *            residues in alphabet <abc>, named <name>. 
+ *            
+ *            The scoring system is given by <Q>, <f>, <popen>, and
+ *            <pextend>. <Q> is a $K \times K$ matrix giving
+ *            conditional residue probabilities $P(a \mid b)}$; these
+ *            are typically obtained by reverse engineering a score
+ *            matrix like BLOSUM62. <f> is a vector of $K$ background
+ *            frequencies $p_a$. <popen> and <pextend> are the
+ *            probabilities assigned to gap-open ($t_{MI}$ and
+ *            $t_{MD}$) and gap-extend ($t_{II}$ and $t_{DD}$)
+ *            transitions.
+ *            
+ * Args:      
+ *
+ * Returns:   <eslOK> on success, and a newly allocated HMM is returned
+ *            in <ret_hmm>. 
+ *
+ * Throws:    <eslEMEM> on allocation error, and <*ret_hmm> is <NULL>.
+ */
+int
+p7_Seqmodel(const ESL_ALPHABET *abc, ESL_DSQ *dsq, int M, char *name,
+	    ESL_DMATRIX *Q, float *f, double popen, double pextend,
+	    P7_HMM **ret_hmm)
+{
+  int     status;
+  P7_HMM *hmm    = NULL;
+  char   *logmsg = "[HMM created from a query sequence]";
+  int     k;
+
+  if ((hmm = p7_hmm_Create(M, abc)) == NULL) { status = eslEMEM; goto ERROR; }
+  
+  for (k = 0; k <= M; k++)
+    {
+      /* Use rows of P matrix as source of match emission vectors */
+      if (k > 0) esl_vec_D2F(Q->mx[(int) dsq[k]], abc->K, hmm->mat[k]);
+
+      /* Set inserts to background for now. This will be improved. */
+      esl_vec_FCopy(f, abc->K, hmm->ins[k]);
+
+      hmm->t[k][p7H_MM] = 1.0 - 2 * popen;
+      hmm->t[k][p7H_MI] = popen;
+      hmm->t[k][p7H_MD] = popen;
+      hmm->t[k][p7H_IM] = 1.0 - pextend;
+      hmm->t[k][p7H_II] = pextend;
+      hmm->t[k][p7H_DM] = 1.0 - pextend;
+      hmm->t[k][p7H_DD] = pextend;
+    }
+
+  /* Deal w/ special stuff at node M, overwriting a little of what we
+   * just did. 
+   */
+  hmm->t[M][p7H_MM] = 1.0 - popen;
+  hmm->t[M][p7H_MD] = 0.;
+  hmm->t[M][p7H_DM] = 1.0;
+  hmm->t[M][p7H_DD] = 0.;
+  
+  /* Add mandatory annotation
+   */
+  p7_hmm_SetName(hmm, name);
+  p7_hmm_AppendComlog(hmm, 1, &logmsg);
+  hmm->nseq     = 1;
+  p7_hmm_SetCtime(hmm);
+  hmm->checksum = 0;
+
+  *ret_hmm = hmm;
+  return eslOK;
+  
+ ERROR:
+  if (hmm != NULL) p7_hmm_Destroy(hmm);
+  *ret_hmm = NULL;
+  return status;
+}
+
+
+/*****************************************************************
+ * 2. Experiment driver
+ *****************************************************************/
+
+#ifdef p7EXP_J2_1
+/* Asking if single sequence queries (probabilistic Smith/Waterman)
+ * still follow expected score distributions. This program creates
+ * HMMs from one or more random sequences, and the HMMs can then
+ * be tested in hmmsim.
+ * 
+ * gcc -o seq2hmm -g -Wall -Dp7EXP_J2_1 -L../easel -I ../easel -L. -I. seqmodel.c -lhmmer -leasel -lm 
+ * ./seq2hmm <hmmfile> <seqfile>
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_getopts.h"
+#include "esl_random.h"
+#include "esl_alphabet.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_dmatrix.h"
+#include "esl_scorematrix.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,      NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  { "-m",        eslARG_INFILE,  NULL, NULL, NULL,      NULL,  NULL, NULL, "use substitution score matrix file from <f>",    0 },
+  { "-q",        eslARG_REAL,   "0.1", NULL, "0<=x<0.5",NULL,  NULL, NULL, "gap open probability",                           0 },
+  { "-r",        eslARG_REAL,   "0.4", NULL, "0<=x<1",  NULL,  NULL, NULL, "gap extend probability",                         0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+static char usage[]  = "[-options] <query FASTA file> <target FASTA file>";
+static char banner[] = "collect histograms of probabilistic S/W for E-value calculations";
+
+int 
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go    = p7_CreateDefaultApp(options, 2, argc, argv, banner, usage);
+  ESL_ALPHABET   *abc   = esl_alphabet_Create(eslAMINO);
+  char           *hmmfile = esl_opt_GetArg(go, 1);
+  char           *qfile = esl_opt_GetArg(go, 2);
+  ESL_SQ         *qsq   = esl_sq_CreateDigital(abc);
+  ESL_SQFILE     *qfp   = NULL;
+  FILE           *hmmfp = NULL;
+  ESL_SCOREMATRIX *S    = esl_scorematrix_Create(abc);
+  ESL_DMATRIX     *Q    = NULL;
+  P7_BG           *bg   = p7_bg_Create(abc);		
+  P7_HMM          *hmm  = NULL;
+  double          *fa   = NULL;
+  double          popen   = esl_opt_GetReal  (go, "-q");
+  double          pextend = esl_opt_GetReal  (go, "-r");
+  char            *mxfile = esl_opt_GetString(go, "-m");
+  char            errbuf[eslERRBUFSIZE];
+  double          slambda;
+  int             a,b;
+  int             status;
+
+  /* Reverse engineer a scoring matrix to obtain conditional prob's
+   * that we'll use for the single-seq query HMM. Because score mx is
+   * symmetric, we can set up P[a][b] = P(b | a), so we can use the
+   * matrix rows as HMM match emission vectors. This means dividing
+   * the joint probs through by f_a.
+   */
+  if (mxfile == NULL) {
+    if (esl_scorematrix_Set("BLOSUM62", S) != eslOK) esl_fatal("failed to set BLOSUM62 scores");
+  } else {
+    ESL_FILEPARSER *efp = NULL;
+
+    if ( esl_fileparser_Open(mxfile, NULL,  &efp) != eslOK) esl_fatal("failed to open score file %s",  mxfile);
+    if ( esl_scorematrix_Read(efp, abc, &S)               != eslOK) esl_fatal("failed to read matrix from %s", mxfile);
+    esl_fileparser_Close(efp);
+  }
+
+  /* A wasteful conversion of the HMMER single-precision background probs to Easel double-prec */
+  ESL_ALLOC(fa, sizeof(double) * bg->abc->K);
+  esl_vec_F2D(bg->f, bg->abc->K, fa);
+
+  /* Backcalculate joint probabilities Q, given score matrix S and background frequencies fa */
+  status = esl_scorematrix_ProbifyGivenBG(S, fa, fa, &slambda, &Q); 
+  if      (status == eslEINVAL)  esl_fatal("built-in score matrix %s has no valid solution for lambda", matrix);
+  else if (status == eslENOHALT) esl_fatal("failed to solve score matrix %s for lambda", matrix);
+  else if (status != eslOK)      esl_fatal("unexpected error in solving score matrix %s for probability parameters", matrix);
+
+  esl_scorematrix_JointToConditionalOnQuery(abc, Q);
+
+  /* Open the query sequence file in FASTA format */
+  status = esl_sqfile_Open(qfile, eslSQFILE_FASTA, NULL, &qfp);
+  if      (status == eslENOTFOUND) esl_fatal("No such file %s.", qfile);
+  else if (status == eslEFORMAT)   esl_fatal("Format of %s unrecognized.", qfile);
+  else if (status == eslEINVAL)    esl_fatal("Can't autodetect stdin or .gz.");
+  else if (status != eslOK)        esl_fatal("Open of %s failed, code %d.", qfile, status);
+
+  /* Open the output HMM file */
+  if ((hmmfp = fopen(hmmfile, "w")) == NULL) esl_fatal("Failed to open output HMM file %s", hmmfile);
+
+  /* For each sequence, build a model and save it. 
+   */
+  while ((status = esl_sqio_Read(qfp, qsq)) == eslOK)
+    {
+      p7_Seqmodel(abc, qsq->dsq, qsq->n, qsq->name, Q, bg->f, popen, pextend, &hmm);
+      if ( p7_hmm_Validate(hmm, errbuf, 1e-5)     != eslOK) esl_fatal("HMM validation failed: %s\n", errbuf);
+      if ( p7_hmmfile_WriteASCII(hmmfp, -1, hmm)  != eslOK) esl_fatal("HMM save failed");
+
+      p7_hmm_Destroy(hmm);
+    }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s line %" PRId64 "):\n%s\n",
+					    qfp->filename, qfp->linenumber, qfp->errbuf);     
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s",
+					    status, qfp->filename);
+  
+  esl_dmatrix_Destroy(Q);
+  esl_scorematrix_Destroy(S);
+  free(fa);
+  free(fb);
+  esl_sq_Destroy(qsq);
+  esl_sqfile_Close(qfp);
+  fclose(hmmfp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return 0;
+}
+#endif /*p7EXP_J2_1*/
+
+
+/*****************************************************************
+ * x. Unit tests.
+ *****************************************************************/
+#ifdef p7SEQMODEL_TESTDRIVE
+#include <string.h>
+
+static void 
+utest_normalization(ESL_GETOPTS *go)
+{
+  char         *msg     = "seqmodel normalization utest failed";
+  ESL_ALPHABET *abc     = esl_alphabet_Create(eslAMINO);
+  char         *seq     = "ACDEFGHIKLMNPQRSTVWYBJZOUX";
+  int           L       = strlen(seq);
+  ESL_DSQ      *dsq     = NULL;
+  float         popen   = 0.1;
+  float         pextend = 0.4;
+  P7_BUILDER   *bld     = NULL;
+  P7_BG        *bg      = p7_bg_Create(abc);
+  P7_HMM       *hmm     = NULL;
+  char          errbuf[eslERRBUFSIZE];
+
+  if ( esl_abc_CreateDsq(abc, seq, &dsq)                                                 != eslOK) esl_fatal(msg);
+  if ( (bld = p7_builder_Create(NULL, abc))                                              == NULL)  esl_fatal(msg);
+  if ( p7_builder_LoadScoreSystem(bld, "BLOSUM62", popen, pextend, bg)                   != eslOK) esl_fatal(msg); 
+  if ( p7_Seqmodel(abc, dsq, L, "aatest", bld->Q, bg->f, bld->popen, bld->pextend, &hmm) != eslOK) esl_fatal(msg);
+
+  if (p7_hmm_Validate(hmm, errbuf, 0.0001) != eslOK) esl_fatal("normalization utest failed\n%s\n", errbuf);
+
+  free(dsq);
+  p7_bg_Destroy(bg);
+  p7_hmm_Destroy(hmm);
+  p7_builder_Destroy(bld);
+  esl_alphabet_Destroy(abc);
+}
+
+#endif /*p7SEQMODEL_TESTDRIVE*/
+/*---------------- end, unit tests ------------------------------*/
+
+/*****************************************************************
+ * x. Test driver
+ *****************************************************************/
+#ifdef p7SEQMODEL_TESTDRIVE
+
+#include "p7_config.h"
+#include "easel.h"
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name           type      default  env  range toggles reqs incomp  help                                       docgroup*/
+  { "-h",        eslARG_NONE,   FALSE, NULL, NULL,  NULL,  NULL, NULL, "show brief help on version and usage",           0 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+static char usage[]  = "[-options]";
+static char banner[] = "unit test driver for seqmodel.c: single sequence query construction";
+
+int
+main(int argc, char **argv)
+{
+  ESL_GETOPTS    *go   = p7_CreateDefaultApp(options, 0, argc, argv, banner, usage);
+
+  utest_normalization(go);
+
+  esl_getopts_Destroy(go);
+  exit(0); /* success */
+}
+
+#endif /*p7SEQMODEL_TESTDRIVE*/
+/*---------------- end, test driver -----------------------------*/
+
+
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *
+ * SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/src/seqmodel.c $
+ * SVN $Id: seqmodel.c 3878 2012-02-26 15:04:16Z eddys $
+ *****************************************************************/
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/src/tracealign.c b/Exercise11_files/hmmer-3.1b2-cygwin64/src/tracealign.c
new file mode 100755
index 0000000..0692bfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/src/tracealign.c
@@ -0,0 +1,1318 @@
+/* Construction of multiple alignments from traces.
+ * 
+ * Contents:
+ *   1. API for aligning sequence or MSA traces
+ *   2. Internal functions used by the API
+ *   3. Test driver
+ *   4. Copyright and license.
+ * 
+ * SRE, Tue Oct 21 19:38:19 2008 [Casa de Gatos]
+ * SVN $Id: tracealign.c 4569 2013-12-12 23:24:37Z wheelert $
+ */
+#include "p7_config.h"
+
+#include "easel.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+static int     map_new_msa(P7_TRACE **tr, int nseq, int M, int optflags, int **ret_inscount, int **ret_matuse, int **ret_matmap, int *ret_alen);
+static ESL_DSQ get_dsq_z(ESL_SQ **sq, const ESL_MSA *premsa, P7_TRACE **tr, int idx, int z);
+static int     make_digital_msa(ESL_SQ **sq, const ESL_MSA *premsa, P7_TRACE **tr, int nseq, const int *matuse, const int *matmap, int M, int alen, int optflags, ESL_MSA **ret_msa);
+static int     make_text_msa   (ESL_SQ **sq, const ESL_MSA *premsa, P7_TRACE **tr, int nseq, const int *matuse, const int *matmap, int M, int alen, int optflags, ESL_MSA **ret_msa);
+static int     annotate_rf(ESL_MSA *msa, int M, const int *matuse, const int *matmap);
+static int     annotate_mm(ESL_MSA *msa, P7_HMM *hmm, const int *matuse, const int *matmap);
+static int     annotate_posterior_probability(ESL_MSA *msa, P7_TRACE **tr, const int *matmap, int M, int optflags);
+static int     rejustify_insertions_digital  (                         ESL_MSA *msa, const int *inserts, const int *matmap, const int *matuse, int M);
+static int     rejustify_insertions_text     (const ESL_ALPHABET *abc, ESL_MSA *msa, const int *inserts, const int *matmap, const int *matuse, int M);
+
+
+/*****************************************************************
+ * 1. API for aligning sequence or MSA traces
+ *****************************************************************/
+
+/* Function:  p7_tracealign_Seqs()
+ * Synopsis:  Convert array of traces (for a sequence array) to a new MSA.
+ * Incept:    SRE, Tue Oct 21 19:40:33 2008 [Janelia]
+ *
+ * Purpose:   Convert an array of <nseq> traces <tr[0..nseq-1]>,
+ *            corresponding to an array of digital sequences
+ *            <sq[0..nseq-1]> aligned to a model of
+ *            length <M>, to a new multiple sequence alignment.
+ *            The new alignment structure is allocated here, and returned
+ *            in <*ret_msa>.
+ *            
+ *            As a special case, the traces may contain I->D and D->I
+ *            transitions. This feature is used by <hmmalign --mapali>
+ *            to reconstruct an input alignment without modification
+ *            from trace doctoring.
+ *            
+ *            <optflags> controls some optional behaviors in producing
+ *            the alignment, as follows:
+ *            
+ *            <p7_DIGITIZE>: creates the MSA in digital mode, as
+ *            opposed to a default text mode. 
+ *            
+ *            <p7_ALL_CONSENSUS_COLS>: create a column for every
+ *            consensus column in the model, even if it means having
+ *            all gap characters (deletions) in a column; this
+ *            guarantees that the alignment will have at least <M>
+ *            columns. The default is to only show columns that have
+ *            at least one residue in them.
+ *            
+ *            <p7_TRIM>: trim off any residues that get assigned to
+ *            flanking N,C states (in profile traces) or I_0 and I_M
+ *            (in core traces).
+ *            
+ *            The <optflags> can be combined by logical OR; for
+ *            example, <p7_DIGITIZE | p7_ALL_CONSENSUS_COLS>.
+ *            
+ * Args:      sq       - array of digital sequences, 0..nseq-1
+ *            tr       - array of tracebacks, 0..nseq-1
+ *            nseq     - number of sequences
+ *            M        - length of model sequences were aligned to
+ *            optflags - flags controlling optional behaviours.
+ *            ret_msa  - RETURN: new multiple sequence alignment
+ *
+ * Returns:   <eslOK> on success, and <*ret_msa> points to a new
+ *            <ESL_MSA> object. Caller is responsible for free'ing
+ *            this new MSA with <esl_msa_Destroy()>.
+ *
+ * Throws:    <eslEMEM> on allocation failure; <*ret_msa> is <NULL>.
+ * 
+ * Notes:     * why a text mode, when most of HMMER works in digital
+ *              sequences and alignments? Text mode MSAs are created
+ *              for output, whereas digital mode MSAs are created for
+ *              internal use. Text mode allows HMMER's output 
+ *              conventions to be used for match vs. insert columns:
+ *              lowercase/. for residues/gaps in inserts, uppercase/-
+ *              for residues/gaps in match columns.
+ *
+ *            * why not pass HMM as an argument, so we can transfer
+ *              column annotation? In <p7_tophits_Alignment()>, the
+ *              HMM is unavailable -- because of constraints of what's
+ *              made available to the master process in an MPI
+ *              implementation. (We could make the HMM an optional 
+ *              argument.)
+ */
+int
+p7_tracealign_Seqs(ESL_SQ **sq, P7_TRACE **tr, int nseq, int M, int optflags, P7_HMM *hmm, ESL_MSA **ret_msa)
+{
+  ESL_MSA      *msa        = NULL;	/* RETURN: new MSA */
+  const ESL_ALPHABET *abc  = sq[0]->abc;
+  int          *inscount   = NULL;	/* array of max gaps between aligned columns */
+  int          *matmap     = NULL;      /* matmap[k] = apos of match k matmap[1..M] = [1..alen] */
+  int          *matuse     = NULL;      /* TRUE if an alignment column is associated with match state k [1..M] */
+  int           idx;                    /* counter over sequences */
+  int           alen;		        /* width of alignment */
+  int           status;
+
+  if ((status = map_new_msa(tr, nseq, M, optflags, &inscount, &matuse, &matmap, &alen)) != eslOK) return status;
+
+  if (optflags & p7_DIGITIZE) { if ((status = make_digital_msa(sq, NULL, tr, nseq, matuse, matmap, M, alen, optflags, &msa)) != eslOK) goto ERROR; }
+  else                        { if ((status = make_text_msa   (sq, NULL, tr, nseq, matuse, matmap, M, alen, optflags, &msa)) != eslOK) goto ERROR; }
+
+  if ((status = annotate_rf(msa, M, matuse, matmap))                               != eslOK) goto ERROR;
+  if (hmm)
+    if ((status = annotate_mm(msa, hmm,    matuse, matmap))                          != eslOK) goto ERROR;
+  if ((status = annotate_posterior_probability(msa, tr, matmap, M, optflags)) != eslOK) goto ERROR;
+
+  if (optflags & p7_DIGITIZE) rejustify_insertions_digital(     msa, inscount, matmap, matuse, M);
+  else                        rejustify_insertions_text   (abc, msa, inscount, matmap, matuse, M);
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      esl_msa_SetSeqName(msa, idx, sq[idx]->name, -1);
+      if (sq[idx]->acc[0]  != '\0') esl_msa_SetSeqAccession  (msa, idx, sq[idx]->acc,  -1);
+      if (sq[idx]->desc[0] != '\0') esl_msa_SetSeqDescription(msa, idx, sq[idx]->desc, -1);
+      msa->wgt[idx] = 1.0;
+      if (msa->sqlen != NULL) msa->sqlen[idx] = sq[idx]->n;
+    }
+
+  free(inscount);
+  free(matmap);
+  free(matuse);
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa      != NULL) esl_msa_Destroy(msa);
+  if (inscount != NULL) free(inscount);
+  if (matmap   != NULL) free(matmap);
+  if (matuse   != NULL) free(matuse);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+/* Function:  p7_tracealign_MSA()
+ * Synopsis:  Convert array of traces (for a previous MSA) to a new MSA.
+ * Incept:    SRE, Mon Mar  2 18:18:22 2009 [Casa de Gatos]
+ *
+ * Purpose:   Identical to <p7_tracealign_Seqs()> except that the trace 
+ *            array <tr> accompanies a digital multiple alignment <premsa>, 
+ *            rather than an array of digital sequences. 
+ *            
+ *            This gets used in <p7_Builder()>, where we've
+ *            constructed an array of faux traces directly from an
+ *            input alignment, and we want to reconstruct the 
+ *            MSA that corresponds to what HMMER actually used
+ *            to build its model (after trace doctoring to be
+ *            compatible with Plan 7, and with <#=RF> annotation
+ *            on assigned consensus columns).
+ *
+ * Xref:      J4/102.
+ */
+int
+p7_tracealign_MSA(const ESL_MSA *premsa, P7_TRACE **tr, int M, int optflags, ESL_MSA **ret_postmsa)
+{
+  const ESL_ALPHABET *abc  = premsa->abc;
+  ESL_MSA      *msa        = NULL;	/* RETURN: new MSA */
+  int          *inscount   = NULL;	/* array of max gaps between aligned columns */
+  int          *matmap     = NULL;      /* matmap[k] = apos of match k matmap[1..M] = [1..alen] */
+  int          *matuse     = NULL;      /* TRUE if an alignment column is associated with match state k [1..M] */
+  int           idx;                    /* counter over sequences */
+  int           alen;		        /* width of alignment */
+  int           status;
+
+  if ((status = map_new_msa(tr, premsa->nseq, M, optflags, &inscount, &matuse, &matmap, &alen)) != eslOK) return status;
+ 
+  if (optflags & p7_DIGITIZE) { if ((status = make_digital_msa(NULL, premsa, tr, premsa->nseq, matuse, matmap, M, alen, optflags, &msa)) != eslOK) goto ERROR; }
+  else                        { if ((status = make_text_msa   (NULL, premsa, tr, premsa->nseq, matuse, matmap, M, alen, optflags, &msa)) != eslOK) goto ERROR; }
+
+  if ((status = annotate_rf(msa, M, matuse, matmap))                          != eslOK) goto ERROR;
+  if ((status = annotate_posterior_probability(msa, tr, matmap, M, optflags)) != eslOK) goto ERROR;
+
+  if (optflags & p7_DIGITIZE) rejustify_insertions_digital(     msa, inscount, matmap, matuse, M);
+  else                        rejustify_insertions_text   (abc, msa, inscount, matmap, matuse, M);
+
+
+  /* Transfer information from old MSA to new */
+  esl_msa_SetName     (msa, premsa->name, -1);
+  esl_msa_SetDesc     (msa, premsa->desc, -1);
+  esl_msa_SetAccession(msa, premsa->acc,  -1);
+
+  for (idx = 0; idx < premsa->nseq; idx++)
+    {
+      esl_msa_SetSeqName       (msa, idx, premsa->sqname[idx], -1);
+      if (msa->sqacc)  esl_msa_SetSeqAccession  (msa, idx, premsa->sqacc[idx], -1);
+      if (msa->sqdesc) esl_msa_SetSeqDescription(msa, idx, premsa->sqdesc[idx], -1);
+      msa->wgt[idx] = premsa->wgt[idx];
+    }
+
+  if (premsa->flags & eslMSA_HASWGTS)
+    msa->flags |= eslMSA_HASWGTS;
+
+  free(inscount);
+  free(matmap);
+  free(matuse);
+  *ret_postmsa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa      != NULL) esl_msa_Destroy(msa);
+  if (inscount != NULL) free(inscount);
+  if (matmap   != NULL) free(matmap);
+  if (matuse   != NULL) free(matuse);
+  *ret_postmsa = NULL;
+  return status;
+}
+
+
+
+/* Function: p7_tracealign_computeTraces()
+ *
+ * Synopsis: Compute traces for a collection of sequences relative to
+ *           a given HMM
+ *
+ * Purpose:  Given an <hmm> and a set of sequences <sq> (along with
+ *           an <offset> into the first sequence for which a trace is
+ *           desired), calculate the optimal accuracy alignment trace
+ *           for each of <N> sequences. The calling function provides
+ *           a allocated array of P7_TRACEs (<tr>) into which the
+ *           results are placed.
+ *
+ * Return:   eslOK if no errors
+ */
+int
+p7_tracealign_computeTraces(P7_HMM *hmm, ESL_SQ  **sq, int offset, int N, P7_TRACE  **tr)
+{
+
+  P7_OMX       *oxf     = NULL; /* optimized Forward matrix        */
+  P7_OMX       *oxb     = NULL; /* optimized Backward matrix       */
+  P7_GMX       *gxf     = NULL; /* generic Forward mx for failover */
+  P7_GMX       *gxb     = NULL; /* generic Backward mx for failover*/
+  P7_PROFILE   *gm      = NULL;
+  P7_OPROFILE  *om      = NULL;
+  P7_BG        *bg      = NULL;
+  int tfrom, tto;
+
+  int           idx;
+  float         fwdsc;    /* Forward score                   */
+  float         oasc;   /* optimal accuracy score          */
+  int status;
+
+  bg = p7_bg_Create(hmm->abc);
+  gm = p7_profile_Create (hmm->M, hmm->abc);
+  om = p7_oprofile_Create(hmm->M, hmm->abc);
+
+  p7_ProfileConfig(hmm, bg, gm, sq[offset]->n, p7_UNILOCAL);
+  p7_oprofile_Convert(gm, om);
+
+
+  oxf = p7_omx_Create(hmm->M, sq[offset]->n, sq[offset]->n);
+  oxb = p7_omx_Create(hmm->M, sq[offset]->n, sq[offset]->n);
+
+  /* Collect an OA trace for each sequence that needs to be aligned
+   */
+  for (idx = offset; idx < offset+ N; idx++)
+  {
+    /* special case: a sequence of length 0. HMMER model can't generate 0 length seq. Set tr->N == 0 as a flag. (bug #h100 fix) */
+    if (sq[idx]->n == 0) { tr[idx]->N = 0; continue; }
+
+    p7_omx_GrowTo(oxf, hmm->M, sq[idx]->n, sq[idx]->n);
+    p7_omx_GrowTo(oxb, hmm->M, sq[idx]->n, sq[idx]->n);
+
+    p7_oprofile_ReconfigLength(om, sq[idx]->n);
+
+    p7_Forward (sq[idx]->dsq, sq[idx]->n, om,      oxf, &fwdsc);
+    p7_Backward(sq[idx]->dsq, sq[idx]->n, om, oxf, oxb, NULL);
+
+    status = p7_Decoding(om, oxf, oxb, oxb);      /* <oxb> is now overwritten with post probabilities     */
+
+    if (status == eslOK)
+      {
+        p7_OptimalAccuracy(om, oxb, oxf, &oasc);      /* <oxf> is now overwritten with OA scores              */
+        p7_OATrace        (om, oxb, oxf, tr[idx]);    /* tr[idx] is now an OA traceback for seq #idx          */
+      }
+    else if (status == eslERANGE)
+      {
+        /* Work around the numeric overflow problem in Decoding()
+         * xref J3/119-121 for commentary;
+         * also the note in impl_sse/decoding.c::p7_Decoding().
+         *
+         * In short: p7_Decoding() can overflow in cases where the
+         * model is in unilocal mode (expects to see a single
+         * "domain") but the target contains more than one domain.
+         * In searches, I believe this only happens on repetitive
+         * garbage, because the domain postprocessor is very good
+         * about identifying single domains before doing posterior
+         * decoding. But in hmmalign, we're in unilocal mode
+         * to begin with, and the user can definitely give us a
+         * multidomain protein.
+         *
+         * We need to make this far more robust; but that's probably
+         * an issue to deal with when we really spend some time
+         * looking hard at hmmalign performance. For now (Nov 2009;
+         * in beta tests leading up to 3.0 release) I'm more
+         * concerned with stabilizing the search programs.
+         *
+         * The workaround is to detect the overflow and fail over to
+         * slow generic routines.
+         */
+        if (gxf == NULL) gxf = p7_gmx_Create(hmm->M, sq[idx]->n);
+        else             p7_gmx_GrowTo(gxf,  hmm->M, sq[idx]->n);
+
+        if (gxb == NULL) gxb = p7_gmx_Create(hmm->M, sq[idx]->n);
+        else             p7_gmx_GrowTo(gxb,  hmm->M, sq[idx]->n);
+
+        p7_ReconfigLength(gm, sq[idx]->n);
+
+        p7_GForward (sq[idx]->dsq, sq[idx]->n, gm, gxf, &fwdsc);
+        p7_GBackward(sq[idx]->dsq, sq[idx]->n, gm, gxb, NULL);
+        p7_GDecoding(gm, gxf, gxb, gxb);
+        p7_GOptimalAccuracy(gm, gxb, gxf, &oasc);
+        p7_GOATrace        (gm, gxb, gxf, tr[idx]);
+        p7_gmx_Reuse(gxf);
+        p7_gmx_Reuse(gxb);
+      }
+
+
+    /* the above steps aren't storing the tfrom/tto values in the trace,
+     * which are required for downstream processing in this case, so
+     * hack them here. Note - this treats the whole thing as one domain,
+     * even if there are really multiple domains.
+     */
+    // skip the parts of the trace that precede the first match state
+    tfrom = 2;
+    while (tr[idx]->st[tfrom] != p7T_M)   tfrom++;
+
+    tto = tfrom + 1;
+    //run until the model is exited
+    while (tr[idx]->st[tto] != p7T_E)     tto++;
+
+    tr[idx]->tfrom[0]  = tfrom;
+    tr[idx]->tto[0]    = tto - 1;
+
+
+    p7_omx_Reuse(oxf);
+    p7_omx_Reuse(oxb);
+  }
+
+#if 0
+  for (idx = 0; idx < nseq; idx++)
+    p7_trace_Dump(stdout, tr[idx], gm, sq[idx]->dsq);
+#endif
+
+
+
+  p7_omx_Destroy(oxf);
+  p7_omx_Destroy(oxb);
+  p7_gmx_Destroy(gxf);
+  p7_gmx_Destroy(gxb);
+  p7_bg_Destroy(bg);
+  p7_profile_Destroy(gm);
+  p7_oprofile_Destroy(om);
+
+
+  return eslOK;
+}
+
+
+/* Function: p7_tracealign_getTracesAndStats()
+ *
+ * Synopsis: Compute traces and stats for a collection of sequences
+ *           relative to a given HMM
+ *
+ * Purpose:  Given an <hmm> and a set of sequences <sq>, calculate an
+ *           optimal accuracy MSA (returned in <ret_msa>) along with
+ *           three arrays mapping values onto positions of the input
+ *           sequences. The mapped values are:
+ *             <ret_pp> -     The posterior probability associated with
+ *                            each residue aligned to the core model
+ *             <ret_relent> - The relative entropy of the model position
+ *                            to which each matched residue is aligned
+ *             <ret_scores> - The bit score of residue vs the model for
+ *                            each matched residue
+ *
+ * Return:   eslOK if no errors
+ */
+int
+p7_tracealign_getMSAandStats(P7_HMM *hmm, ESL_SQ  **sq, int N, ESL_MSA **ret_msa, float **ret_pp, float **ret_relent, float **ret_scores )
+{
+
+  P7_TRACE    **tr      = NULL; /* array of tracebacks             */
+  ESL_MSA      *msa     = NULL; /* resulting multiple alignment    */
+  P7_BG        *bg      = NULL;
+  int i;  // seq_id
+  int z;  // trace position
+  int j;  // position in the query seq
+  int k;  // positon in the model
+  int x;  // counter
+  float p; // temporary probability holder
+  int status;
+  int           msaopts = 0;  /* flags to p7_tracealign_Seqs()   */
+
+  msaopts |= p7_ALL_CONSENSUS_COLS; /* default as of 3.1 */
+
+  bg = p7_bg_Create(hmm->abc);
+
+  ESL_ALLOC(tr, sizeof(P7_TRACE *) * N);
+  for (i = 0; i < N; i++)
+    tr[i] = p7_trace_CreateWithPP();
+
+
+  p7_tracealign_computeTraces(hmm, sq, 0, N, tr);
+  p7_tracealign_Seqs(sq, tr, N, hmm->M, msaopts, hmm, &msa);
+  *ret_msa = msa;
+
+  for (i=0; i<N; i++) {
+    for (j=0; j<=sq[i]->n; j++) {
+      ret_pp[i][j]     = 0.0;
+      ret_relent[i][j] = 0.0;
+      ret_scores[i][j] = 0.0;
+    }
+
+    j = tr[i]->tfrom[0] - 2;
+    for (z = tr[i]->tfrom[0]; z <= tr[i]->tto[0]; z++) {
+
+      if (tr[i]->st[z] != p7T_D ) { //M or I
+
+        ret_pp[i][j] = tr[i]->pp[z];
+
+        if (tr[i]->st[z] == p7T_M ) {
+          k = tr[i]->k[z];
+          for (x=0; x<hmm->abc->K; x++) {
+            p       = hmm->mat[k][x];
+            ret_relent[i][j] += p * log(p / bg->f[x]) / log(2);
+          }
+
+          p = hmm->mat[k][sq[i]->dsq[j]];
+          ret_scores[i][j] = log(p / bg->f[sq[i]->dsq[j]]) / log(2);
+
+        }
+        j++;
+      }
+
+    }
+  }
+
+  for (i = 0; i < N; i++) p7_trace_Destroy(tr[i]);
+  free(tr);
+
+  return eslOK;
+
+ERROR:
+  if (tr != NULL) {
+    for (i = 0; i < N; i++) p7_trace_Destroy(tr[i]);
+    free(tr);
+  }
+  return status;
+}
+
+
+/*--------------- end, exposed API ------------------------------*/
+
+
+
+
+/*****************************************************************
+ * 2. Internal functions used by the API
+ *****************************************************************/
+
+/* map_new_msa()
+ *
+ * Construct <inscount[0..M]>, <matuse[1..M]>, and <matmap[1..M]>
+ * arrays for mapping model consensus nodes <1..M> onto columns
+ * <1..alen> of a new MSA.
+ *
+ * Here's the problem. We want to align the match states in columns,
+ * but some sequences have inserted symbols in them; we need some
+ * sort of overall knowledge of where the inserts are and how long
+ * they are in order to create the alignment.
+ *
+ * Here's our trick. inscount[] is a 0..M array; inserts[k] stores
+ * the maximum number of times insert substate k was used. This
+ * is the maximum number of gaps to insert between canonical
+ * column k and k+1.  inserts[0] is the N-term tail; inserts[M] is
+ * the C-term tail.
+ * 
+ * Additionally, matuse[k=1..M] says whether we're going to make an
+ * alignment column for consensus position k. By default this is
+ * <TRUE> only if there is at least one residue in the column. If
+ * the <p7_ALL_CONSENSUS_COLS> option flag is set, though, all
+ * matuse[1..M] are set <TRUE>. (matuse[0] is unused, always <FALSE>.)
+ * 
+ * Then, using these arrays, we construct matmap[] and determine alen.
+ * If match state k is represented as an alignment column,
+ * matmap[1..M] = that position, <1..alen>.
+ * If match state k is not in the alignment (<matuse[k] == FALSE>),
+ * matmap[k] = matmap[k-1] = the last alignment column that a match
+ * state did map to; this is a trick to make some apos coordinate setting
+ * work cleanly.
+ * Because of this trick, you can't just assume because matmap[k] is
+ * nonzero that match state k maps somewhere in the alignment;
+ * you have to check matuse[k] == TRUE, then look at what matmap[k] says.
+ * Remember that N and C emit on transition, hence the check for an
+ * N->N or C->C transition before bumping nins.
+ * <matmap[0]> is unused; by convention, <matmap[0] = 0>.
+ */
+static int
+map_new_msa(P7_TRACE **tr, int nseq, int M, int optflags, int **ret_inscount,
+	    int **ret_matuse, int **ret_matmap, int *ret_alen)
+{
+  int *inscount = NULL;	  /* inscount[k=0..M] == max # of inserts in node k */
+  int *insnum   = NULL;   /* insct[k=0..M] == # of inserts in node k in current trace */
+  int *matuse   = NULL;	  /* matuse[k=1..M] == TRUE|FALSE: does node k map to an alignment column */
+  int *matmap   = NULL;	  /* matmap[k=1..M]: if matuse[k] TRUE, what column 1..alen does node k map to */
+  int  idx;		  /* counter over sequences */
+  int  z;		  /* index into trace positions */
+  int  alen;		  /* length of alignment */
+  int  k;		  /* counter over nodes 1..M */
+  int  status;
+  
+  ESL_ALLOC(inscount, sizeof(int) * (M+1));   
+  ESL_ALLOC(insnum,   sizeof(int) * (M+1));   
+  ESL_ALLOC(matuse,   sizeof(int) * (M+1)); matuse[0] = 0;
+  ESL_ALLOC(matmap,   sizeof(int) * (M+1)); matmap[0] = 0;
+  esl_vec_ISet(inscount, M+1, 0);
+  if (optflags & p7_ALL_CONSENSUS_COLS) esl_vec_ISet(matuse+1, M, TRUE); 
+  else                                  esl_vec_ISet(matuse+1, M, FALSE);
+
+  /* Collect inscount[], matuse[] in a fairly general way 
+   * (either profile or core traces work)
+   */
+  for (idx = 0; idx < nseq; idx++)
+    {
+      esl_vec_ISet(insnum, M+1, 0);
+      for (z = 1; z < tr[idx]->N; z++) 
+	{
+      	  switch (tr[idx]->st[z]) {
+	  case p7T_I:                                insnum[tr[idx]->k[z]]++; break;
+	  case p7T_N: if (tr[idx]->st[z-1] == p7T_N) insnum[0]++;             break;
+	  case p7T_C: if (tr[idx]->st[z-1] == p7T_C) insnum[M]++;             break;
+	  case p7T_M: matuse[tr[idx]->k[z]] = TRUE;                           break;
+	  case p7T_J: p7_Die("J state unsupported");
+	  default:                                                            break;
+	  }
+	}
+      for (k = 0; k <= M; k++) 
+	inscount[k] = ESL_MAX(inscount[k], insnum[k]);
+    }
+
+  /* if we're trimming N and C off, reset inscount[0], inscount[M] to 0. */
+  if (optflags & p7_TRIM) { inscount[0] = inscount[M] = 0; }
+  
+  /* Use inscount, matuse to set the matmap[] */
+  alen      = inscount[0];
+  for (k = 1; k <= M; k++) {
+    if (matuse[k]) { matmap[k] = alen+1; alen += 1+inscount[k]; }
+    else           { matmap[k] = alen;   alen +=   inscount[k]; }
+  }
+
+  free(insnum);
+  *ret_inscount = inscount;
+  *ret_matuse   = matuse;
+  *ret_matmap   = matmap;
+  *ret_alen     = alen;
+  return eslOK;
+
+ ERROR:
+  if (inscount) free(inscount); 
+  if (insnum)   free(insnum);
+  if (matuse)   free(matuse);
+  if (matmap)   free(matmap);
+  *ret_inscount = NULL;
+  *ret_matuse   = NULL;
+  *ret_matmap   = NULL;
+  *ret_alen     = 0;
+  return status;
+}
+
+
+/* get_dsq_z()
+ * this abstracts residue-fetching from either a sq array or a previous MSA;
+ * one and only one of <sq>, <msa> is non-<NULL>;
+ * get the digital residue corresponding to tr[idx]->i[z].
+ */
+static ESL_DSQ
+get_dsq_z(ESL_SQ **sq, const ESL_MSA *premsa, P7_TRACE **tr, int idx, int z)
+{
+  return ( (premsa == NULL) ? sq[idx]->dsq[tr[idx]->i[z]] : premsa->ax[idx][tr[idx]->i[z]]);
+}
+
+/* make_digital_msa()
+ * Create a new digital MSA, given traces <tr> for digital <sq> or for
+ * a digital <premsa>.  (One and only one of <sq>,<premsa> are
+ * non-<NULL>.
+ * The traces may either be profile traces or core traces;
+ * core traces may contain X "states" for fragments.
+ * 
+ *  matmap[k] = apos of match k, in digital coords:  matmap[1..M] = [1..alen]
+ */
+
+static int
+make_digital_msa(ESL_SQ **sq, const ESL_MSA *premsa, P7_TRACE **tr, int nseq, const int *matuse, const int *matmap, int M, int alen, int optflags, ESL_MSA **ret_msa)
+{
+  const ESL_ALPHABET *abc = (sq == NULL) ? premsa->abc : sq[0]->abc;
+  ESL_MSA      *msa = NULL;
+  int           idx;
+  int           apos;
+  int           z;
+  int           status;
+
+  if ((msa = esl_msa_CreateDigital(abc, nseq, alen)) == NULL) { status = eslEMEM; goto ERROR;  }
+  
+  for (idx = 0; idx < nseq; idx++)
+    {
+      msa->ax[idx][0]      = eslDSQ_SENTINEL;
+      for (apos = 1; apos <= alen; apos++) msa->ax[idx][apos] = esl_abc_XGetGap(abc);
+      msa->ax[idx][alen+1] = eslDSQ_SENTINEL;
+
+      apos = 1;
+      for (z = 0; z < tr[idx]->N; z++)
+	{
+	  switch (tr[idx]->st[z]) {
+	  case p7T_M:
+	    msa->ax[idx][matmap[tr[idx]->k[z]]] = get_dsq_z(sq, premsa, tr, idx, z);
+	    apos = matmap[tr[idx]->k[z]] + 1;
+	    break;
+
+	  case p7T_D:
+	    if (matuse[tr[idx]->k[z]]) /* bug h77: if all col is deletes, do nothing; do NOT overwrite a column */
+	      msa->ax[idx][matmap[tr[idx]->k[z]]] = esl_abc_XGetGap(abc); /* overwrites ~ in Dk column on X->Dk */
+	    apos = matmap[tr[idx]->k[z]] + 1;
+	    break;
+
+	  case p7T_I:
+	    if ( !(optflags & p7_TRIM) || (tr[idx]->k[z] != 0 && tr[idx]->k[z] != M)) {
+	      msa->ax[idx][apos] = get_dsq_z(sq, premsa, tr, idx, z);
+	      apos++;
+	    }
+	    break;
+	    
+	  case p7T_N:
+	  case p7T_C:
+	    if (! (optflags & p7_TRIM) && tr[idx]->i[z] > 0) {
+	      msa->ax[idx][apos] = get_dsq_z(sq, premsa, tr, idx, z);
+	      apos++;
+	    }
+	    break;
+	    
+	  case p7T_E:
+	    apos = matmap[M]+1;	/* set position for C-terminal tail */
+	    break;
+	    
+	  case p7T_X: 
+	    /* Mark fragments (B->X and X->E containing core traces): 
+	     * convert flanks from gaps to ~ 
+	     */
+	    if (tr[idx]->st[z-1] == p7T_B)
+	      { /* B->X leader. This is a core trace and a fragment. Convert leading gaps to ~ */
+		/* to set apos for an initial Ik: peek at next state for B->X->Ik; superfluous for ->{DM}k: */
+		for (apos = 1; apos <= matmap[tr[idx]->k[z+1]]; apos++)
+		  msa->ax[idx][apos] = esl_abc_XGetMissing(abc);
+		/* tricky! apos is now exactly where it needs to be for X->Ik. all other cases except B->X->Ik set their own apos */
+	      }
+	    else if (tr[idx]->st[z+1] == p7T_E) 
+	      { /* X->E trailer. This is a core trace and a fragment. Convert trailing gaps to ~ */
+		/* don't need to set apos for trailer. There can't be any more residues in a core trace once we hit X->E */
+		for (; apos <= alen; apos++)
+		  msa->ax[idx][apos] = esl_abc_XGetMissing(abc);
+	      }
+	    else ESL_XEXCEPTION(eslECORRUPT, "make_digital_msa(): X state in unexpected position in trace"); 
+	      
+	    break;
+
+	  default:
+	    break;
+	  }
+	}
+    }
+
+  msa->nseq = nseq;
+  msa->alen = alen;
+  *ret_msa = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+  
+/* make_text_msa()
+ * Create a new text MSA, given traces <tr> for digital <sq> or for a digital <premsa>.
+ * (One and only one of <sq>,<premsa> are non-<NULL>.
+ * 
+ * The reason to make a text-mode MSA rather than let Easel handle printing a digital
+ * MSA is to impose HMMER's standard representation on gap characters and insertions:
+ * at inserts, gaps are '.' and residues are lower-case, whereas at matches, gaps are '-'
+ * and residues are upper case.
+ *
+ * Also see comments in make_digital_msa(), above.
+ */
+static int
+make_text_msa(ESL_SQ **sq, const ESL_MSA *premsa, P7_TRACE **tr, int nseq, const int *matuse, const int *matmap, int M, int alen, int optflags, ESL_MSA **ret_msa)
+{
+  const ESL_ALPHABET *abc = (sq == NULL) ? premsa->abc : sq[0]->abc;
+  ESL_MSA      *msa = NULL;
+  int           idx;
+  int           apos;
+  int           z;
+  int           k;
+  int           status;
+
+  if ((msa = esl_msa_Create(nseq, alen)) == NULL) { status = eslEMEM; goto ERROR; }
+
+  for (idx = 0; idx < nseq; idx++)
+    {
+      for (apos = 0; apos < alen; apos++) msa->aseq[idx][apos] = '.';
+      for (k    = 1; k    <= M;   k++)    if (matuse[k]) msa->aseq[idx][-1+matmap[k]] = '-';
+      msa->aseq[idx][apos] = '\0';
+
+      apos = 0;
+      for (z = 0; z < tr[idx]->N; z++)
+	{
+	  switch (tr[idx]->st[z]) {
+	  case p7T_M:
+	    msa->aseq[idx][-1+matmap[tr[idx]->k[z]]] = toupper(abc->sym[get_dsq_z(sq, premsa, tr, idx, z)]);
+	    apos = matmap[tr[idx]->k[z]]; /* i.e. one past the match column. remember, text mode is 0..alen-1 */
+	    break;
+
+	  case p7T_D:
+	    if (matuse[tr[idx]->k[z]]) /* bug #h77: if all column is deletes, do nothing; do NOT overwrite a column */
+	      msa->aseq[idx][-1+matmap[tr[idx]->k[z]]] = '-';  /* overwrites ~ in Dk column on X->Dk */
+	    apos = matmap[tr[idx]->k[z]];
+	    break;
+
+	  case p7T_I:
+	    if ( !(optflags & p7_TRIM) || (tr[idx]->k[z] != 0 && tr[idx]->k[z] != M)) {
+	      msa->aseq[idx][apos] = tolower(abc->sym[get_dsq_z(sq, premsa, tr, idx, z)]);
+	      apos++;
+	    }
+	    break;
+	    
+	  case p7T_N:
+	  case p7T_C:
+	    if (! (optflags & p7_TRIM) && tr[idx]->i[z] > 0) {
+	      msa->aseq[idx][apos] = tolower(abc->sym[get_dsq_z(sq, premsa, tr, idx, z)]);
+	      apos++;
+	    }
+	    break;
+	    
+	  case p7T_E:
+	    apos = matmap[M];	/* set position for C-terminal tail */
+	    break;
+
+	  case p7T_X:
+	    /* Mark fragments (B->X and X->E containing core traces): 
+	     * convert flanks from gaps to ~ 
+	     */
+	    if (tr[idx]->st[z-1] == p7T_B)
+	      { /* B->X leader. This is a core trace and a fragment. Convert leading gaps to ~ */
+		for (apos = 0; apos < matmap[tr[idx]->k[z+1]]; apos++)
+		  msa->aseq[idx][apos] = '~';
+		/* tricky; apos exactly where it must be for X->Ik; see comments in make_digital_msa() */
+	      }
+	    else if (tr[idx]->st[z+1] == p7T_E) 
+	      { /* X->E trailer. This is a core trace and a fragment. Convert trailing gaps to ~ */
+		for (;  apos < alen; apos++)
+		  msa->aseq[idx][apos] = '~';
+	      }
+	    else ESL_XEXCEPTION(eslECORRUPT, "make_text_msa(): X state in unexpected position in trace"); 
+	 
+	    break;
+
+	  default:
+	    break;
+	  }
+	}
+    }
+  msa->nseq = nseq;
+  msa->alen = alen;
+  *ret_msa  = msa;
+  return eslOK;
+
+ ERROR:
+  if (msa != NULL) esl_msa_Destroy(msa);
+  *ret_msa = NULL;
+  return status;
+}
+
+
+
+/* annotate_rf()
+ * Synopsis: Add RF reference coordinate annotation line to new MSA.
+ * Incept:   SRE, Fri Jan 16 09:30:08 2009 [Janelia]
+ *
+ * Purpose:  Create an RF reference coordinate annotation line that annotates the
+ *           consensus columns: the columns associated with profile match states.
+ * 
+ *           Recall that msa->rf is <NULL> when unset/by default in an MSA;
+ *           msa->rf[0..alen-1] = 'x' | '.' is the simplest convention;
+ *           msa->rf is a NUL-terminated string (msa->rf[alen] = '\0')
+ *
+ * Args:     msa    - alignment to annotate (<msa->rf> is allocated, set)
+ *           M      - profile length
+ *           matuse - matuse[1..M] == TRUE | FALSE : is this match state represented
+ *                    by a column in the alignment.
+ *           matmap - matmap[1..M] == (1..alen): if matuse[k], then what alignment column
+ *                    does state k map to.
+ * 
+ * Returns:  <eslOK> on success; msa->rf is set to an appropriate reference
+ *           coordinate string.
+ *
+ * Throws:   <eslEMEM> on allocation failure.
+ */
+static int
+annotate_rf(ESL_MSA *msa, int M, const int *matuse, const int *matmap)
+{
+  int apos, k;
+  int status;
+
+  ESL_ALLOC(msa->rf, sizeof(char) * (msa->alen+1));
+  for (apos = 0; apos < msa->alen; apos++) 
+    msa->rf[apos] = '.';
+  msa->rf[msa->alen] = '\0';
+  
+  for (k = 1; k <= M; k++)
+    if (matuse[k]) msa->rf[matmap[k]-1] = 'x'; /* watch off by one: rf[0..alen-1]; matmap[] = 1..alen */
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+  
+
+/* annotate_mm()
+ * Synopsis: Add MM reference coordinate annotation line to new MSA.
+ *
+ * Purpose:  Create an MM Model Mask annotation line that annotates the
+ *           consensus columns: the columns associated with profile match states.
+ *
+ *           Recall that msa->mm is <NULL> when unset/by default in an MSA;
+ *           msa->mm[0..alen-1] = 'm' | '.' is the simplest convention;
+ *           msa->mm is a NUL-terminated string (msa->mm[alen] = '\0')
+ *
+ * Args:     msa    - alignment to annotate (<msa->rf> is allocated, set)
+ *           M      - profile length
+ *           matuse - matuse[1..M] == TRUE | FALSE : is this match state represented
+ *                    by a column in the alignment.
+ *           matmap - matmap[1..M] == (1..alen): if matuse[k], then what alignment column
+ *                    does state k map to.
+ *
+ * Returns:  <eslOK> on success; msa->mm is set to an appropriate model mask
+ *           coordinate string.
+ *
+ * Throws:   <eslEMEM> on allocation failure.
+ */
+static int
+annotate_mm(ESL_MSA *msa, P7_HMM * hmm, const int *matuse, const int *matmap)
+{
+  int apos, k;
+  int status;
+
+  if (hmm->mm == NULL) return eslOK;  //nothing to do
+
+  ESL_ALLOC(msa->mm, sizeof(char) * (msa->alen+1));
+  for (apos = 0; apos < msa->alen; apos++)
+    msa->mm[apos] = '.';
+  msa->mm[msa->alen] = '\0';
+
+  for (k = 0; k < hmm->M; k++)
+    if (matuse[k])
+      msa->mm[matmap[k]-1] = hmm->mm[k];
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+/* annotate_posterior_probability()
+ * Synopsis:  Add posterior probability annotation lines to new MSA.
+ */
+static int
+annotate_posterior_probability(ESL_MSA *msa, P7_TRACE **tr, const int *matmap, int M, int optflags)
+{
+  double *totp   = NULL;	/* total posterior probability in column <apos>: [0..alen-1] */
+  int    *matuse = NULL;	/* #seqs with pp annotation in column <apos>: [0..alen-1] */
+  int     idx;    		/* counter over sequences [0..nseq-1] */
+  int     apos;			/* counter for alignment columns: pp's are [0..alen-1] (unlike ax) */
+  int     z;			/* counter over trace positions [0..tr->N-1] */
+  int     status;
+
+  /* Determine if any of the traces have posterior probability annotation. */
+  for (idx = 0; idx < msa->nseq; idx++)
+    if (tr[idx]->pp != NULL) break;
+  if (idx == msa->nseq) return eslOK;
+
+  ESL_ALLOC(matuse, sizeof(double) * (msa->alen)); esl_vec_ISet(matuse, msa->alen, 0);
+  ESL_ALLOC(totp,   sizeof(double) * (msa->alen)); esl_vec_DSet(totp,   msa->alen, 0.0);
+
+  ESL_ALLOC(msa->pp, sizeof(char *) * msa->sqalloc);
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      if (tr[idx]->pp == NULL) { msa->pp[idx] = NULL; continue; }
+
+      ESL_ALLOC(msa->pp[idx], sizeof(char) * (msa->alen+1));
+      for (apos = 0; apos < msa->alen; apos++) msa->pp[idx][apos] = '.';
+      msa->pp[idx][msa->alen] = '\0';
+
+      apos = 0;
+      for (z = 0; z < tr[idx]->N; z++)
+	{
+	  switch (tr[idx]->st[z]) {
+	  case p7T_M: 
+	    msa->pp[idx][matmap[tr[idx]->k[z]]-1] = p7_alidisplay_EncodePostProb(tr[idx]->pp[z]);  
+	    totp  [matmap[tr[idx]->k[z]]-1]+= tr[idx]->pp[z];
+	    matuse[matmap[tr[idx]->k[z]]-1]++;
+	  case p7T_D:
+	    apos = matmap[tr[idx]->k[z]]; 
+	    break;
+
+	  case p7T_I:
+	    if ( !(optflags & p7_TRIM) || (tr[idx]->k[z] != 0 && tr[idx]->k[z] != M)) {
+	      msa->pp[idx][apos] = p7_alidisplay_EncodePostProb(tr[idx]->pp[z]);  
+	      apos++;
+	    }
+	    break;
+
+	  case p7T_N:
+	  case p7T_C:
+	    if (! (optflags & p7_TRIM) && tr[idx]->i[z] > 0) {
+	      msa->pp[idx][apos] = p7_alidisplay_EncodePostProb(tr[idx]->pp[z]);
+	      apos++;
+	    }
+	    break;
+
+	  case p7T_E:
+	    apos = matmap[M];	/* set position for C-terminal tail */
+	    break;
+  
+	  default:
+	    break;
+	  }
+	}
+    }
+  for (; idx < msa->sqalloc; idx++) msa->pp[idx] = NULL; /* for completeness, following easel MSA conventions, but should be a no-op: nseq==sqalloc */
+
+  /* Consensus posterior probability annotation: only on match columns */
+  ESL_ALLOC(msa->pp_cons, sizeof(char) * (msa->alen+1));
+  for (apos = 0; apos < msa->alen; apos++) msa->pp_cons[apos] = '.';
+  msa->pp_cons[msa->alen] = '\0';
+  for (apos = 0; apos < msa->alen; apos++)
+    if (matuse[apos]) msa->pp_cons[apos] = p7_alidisplay_EncodePostProb( totp[apos] / (double) matuse[apos]);
+  
+  free(matuse);
+  free(totp);
+  return eslOK;
+
+ ERROR:
+  if (matuse  != NULL) free(matuse);
+  if (totp    != NULL) free(totp);  
+  if (msa->pp != NULL) esl_Free2D((void **) msa->pp, msa->sqalloc);
+  return status;
+}
+
+
+/* Function:  rejustify_insertions_digital()
+ * Synopsis:  
+ * Incept:    SRE, Thu Oct 23 13:06:12 2008 [Janelia]
+ *
+ * Purpose:   
+ *
+ * Args:      msa -     alignment to rejustify
+ *                      digital mode: ax[0..nseq-1][1..alen] and abc is valid
+ *                      text mode:    aseq[0..nseq-1][0..alen-1]			
+ *            inserts - # of inserted columns following node k, for k=0.1..M
+ *                      inserts[0] is for N state; inserts[M] is for C state
+ *            matmap  - index of column associated with node k [k=0.1..M; matmap[0] = 0]
+ *                      this is an alignment column index 1..alen, same offset as <ax>
+ *                      if applied to text mode aseq or annotation, remember to -1
+ *                      if no residues use match state k, matmap[k] is the
+ *                      index of the last column used before node k's columns
+ *                      start: thus matmap[k]+1 is always the start of 
+ *                      node k's insertion (if any).
+ *            matuse  - TRUE if an alignment column is associated with node k: [k=0.1..M; matuse[0] = 0]. 
+ *                      if matuse[k] == 0, every sequence deleted at node k,
+ *                      and we're collapsing the column rather than showing all
+ *                      gaps.
+ *                      
+ * Note:      The insertion for node k is of length <inserts[k]> columns,
+ *            and in 1..alen coords it runs from
+ *            matmap[k]+1 .. matmap[k+1]-matuse[k+1].
+ *            
+ *
+ * Returns:   
+ *
+ * Throws:    (no abnormal error conditions)
+ *
+ * Xref:      
+ */
+static int
+rejustify_insertions_digital(ESL_MSA *msa, const int *inserts, const int *matmap, const int *matuse, int M)
+{
+  int idx;
+  int k;
+  int apos;
+  int nins;
+  int npos, opos;
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      for (k = 0; k < M; k++)
+	if (inserts[k] > 1) 
+	  {
+	    for (nins = 0, apos = matmap[k]+1; apos <= matmap[k+1]-matuse[k+1]; apos++)
+	      if (esl_abc_XIsResidue(msa->abc, msa->ax[idx][apos])) nins++;
+
+	    if (k == 0) nins = 0;    /* N-terminus is right justified */
+	    else        nins /= 2;   /* split in half; nins now = # of residues left left-justified  */
+	    
+	    opos = npos = matmap[k+1]-matuse[k+1];
+	    while (opos >= matmap[k]+1+nins) {
+	      if (esl_abc_XIsGap(msa->abc, msa->ax[idx][opos])) opos--;
+	      else {
+		msa->ax[idx][npos] = msa->ax[idx][opos];
+		if (msa->pp != NULL && msa->pp[idx] != NULL) msa->pp[idx][npos-1] = msa->pp[idx][opos-1];
+		npos--;
+		opos--;
+	      }		
+	    }
+	    while (npos >= matmap[k]+1+nins) {
+	      msa->ax[idx][npos] = esl_abc_XGetGap(msa->abc);
+	      if (msa->pp != NULL && msa->pp[idx] != NULL) msa->pp[idx][npos-1] = '.';
+	      npos--;
+	    }
+	  }
+    }
+  return eslOK;
+}
+
+static int
+rejustify_insertions_text(const ESL_ALPHABET *abc, ESL_MSA *msa, const int *inserts, const int *matmap, const int *matuse, int M)
+{
+  int idx;
+  int k;
+  int apos;
+  int nins;
+  int npos, opos;
+
+  for (idx = 0; idx < msa->nseq; idx++)
+    {
+      for (k = 0; k < M; k++)
+	if (inserts[k] > 1) 
+	  {
+	    for (nins = 0, apos = matmap[k]; apos < matmap[k+1]-matuse[k+1]; apos++)
+	      if (esl_abc_CIsResidue(abc, msa->aseq[idx][apos])) nins++;
+
+	    if (k == 0) nins = 0;    /* N-terminus is right justified */
+	    else        nins /= 2;   /* split in half; nins now = # of residues left left-justified  */
+	    
+	    opos = npos = -1+matmap[k+1]-matuse[k+1];
+	    while (opos >= matmap[k]+nins) {
+	      if (esl_abc_CIsGap(abc, msa->aseq[idx][opos])) opos--;
+	      else {
+		msa->aseq[idx][npos] = msa->aseq[idx][opos];
+		if (msa->pp != NULL && msa->pp[idx] != NULL) msa->pp[idx][npos] = msa->pp[idx][opos];
+		npos--;
+		opos--;
+	      }		
+	    }
+	    while (npos >= matmap[k]+nins) {
+	      msa->aseq[idx][npos] = '.';
+	      if (msa->pp != NULL && msa->pp[idx] != NULL) msa->pp[idx][npos] = '.';
+	      npos--;
+	    }
+	  }
+    }
+  return eslOK;
+}
+/*---------------- end, internal functions ----------------------*/
+
+
+/*****************************************************************
+ * 3. Test driver
+ *****************************************************************/
+
+#ifdef p7TRACEALIGN_TRACESTATS_TESTDRIVE
+/*
+  gcc -o p7_tracealign_tracestats_test -msse2 -std=gnu99 -g -O2 -I. -L. -I../easel -L../easel -Dp7TRACEALIGN_TRACESTATS_TESTDRIVE tracealign.c -lhmmer -leasel -lm
+  ./p7_tracealign_tracestats_test ../tutorial/SNORD96.hmm ../tutorial/SNORD96.sto
+*/
+
+#include "p7_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include "easel.h"
+#include "esl_alphabet.h"
+#include "esl_getopts.h"
+#include "esl_msa.h"
+#include "esl_msafile.h"
+#include "esl_sq.h"
+#include "esl_sqio.h"
+#include "esl_vectorops.h"
+
+#include "hmmer.h"
+
+static ESL_OPTIONS options[] = {
+  /* name             type        default      env  range   toggles   reqs  incomp               help                                          docgroup*/
+  { "-h",          eslARG_NONE,     FALSE,     NULL, NULL,   NULL,    NULL,  NULL, "show brief help on version and usage",                              1 },
+  { "-o",          eslARG_OUTFILE,   NULL,     NULL, NULL,   NULL,    NULL,  NULL, "output alignment to file <f>, not stdout",                          1 },
+  { "--trim",      eslARG_NONE,     FALSE,     NULL, NULL,   NULL,    NULL,  NULL, "trim terminal tails of nonaligned residues from alignment",         2 },
+  { "--amino",     eslARG_NONE,     FALSE,     NULL, NULL,   NULL,    NULL,  NULL, "assert <seqfile>, <hmmfile> both protein: no autodetection",  2 },
+  { "--dna",       eslARG_NONE,     FALSE,     NULL, NULL,   NULL,    NULL,  NULL, "assert <seqfile>, <hmmfile> both DNA: no autodetection",      2 },
+  { "--rna",       eslARG_NONE,     FALSE,     NULL, NULL,   NULL,    NULL,  NULL, "assert <seqfile>, <hmmfile> both RNA: no autodetection",      2 },
+  { "--informat",  eslARG_STRING,    NULL,     NULL, NULL,   NULL,    NULL,  NULL, "assert <seqfile> is in format <s>: no autodetection",            2 },
+  { "--outformat", eslARG_STRING, "Stockholm", NULL, NULL,   NULL,    NULL,  NULL, "output alignment in format <s>",                                    2 },
+  {  0, 0, 0, 0, 0, 0, 0, 0, 0, 0 },
+};
+
+
+static char usage[]  = "[-options] <hmmfile> <seqfile>";
+static char banner[] = "test driver for P7TRACE_SEQALIGNSTATS";
+
+int
+main(int argc, char **argv)
+{
+
+  ESL_GETOPTS  *go      = NULL;
+  char         *hmmfile = NULL; /* HMM file name                   */
+  char         *seqfile = NULL; /* sequence file name              */
+  int           infmt   = eslSQFILE_UNKNOWN;
+  int           outfmt  = eslMSAFILE_STOCKHOLM;
+  P7_HMMFILE   *hfp     = NULL; /* open HMM file                   */
+  ESL_SQFILE   *sqfp    = NULL; /* open sequence file              */
+  char         *outfile = NULL;   /* output filename               */
+  FILE         *ofp     = stdout; /* output stream                 */
+  ESL_SQ      **sq      = NULL; /* array of sequences              */
+  void         *p       = NULL; /* tmp ptr for reallocation        */
+  int           nseq    = 0;  /* # of sequences in <seqfile>     */
+  int           totseq  = 0;  /* # of seqs in all sources        */
+  ESL_ALPHABET *abc     = NULL; /* alphabet (set from the HMM file)*/
+  P7_HMM       *hmm     = NULL;
+  ESL_MSA      *msa     = NULL; /* resulting multiple alignment    */
+  int           msaopts = 0;  /* flags to p7_tracealign_Seqs()   */
+  int           idx;    /* counter over seqs, traces       */
+  int           status;   /* easel/hmmer return code         */
+  char          errbuf[eslERRBUFSIZE];
+  int j;
+
+  float **pp;
+  float **relent;
+  float **scores;
+
+
+  /* Parse the command line
+   */
+  go = esl_getopts_Create(options);
+  if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK) esl_fatal(argv[0], "Failed to parse command line: %s\n", go->errbuf);
+
+  if (esl_opt_VerifyConfig(go)               != eslOK) esl_fatal(argv[0], "Error in configuration: %s\n",       go->errbuf);
+
+  if (esl_opt_GetBoolean(go, "-h") )  {
+    p7_banner (stdout, argv[0], banner);
+    esl_usage (stdout, argv[0], usage);
+    puts("\nBasic options:");
+    esl_opt_DisplayHelp(stdout, go, 1, 2, 80);
+    puts("\nLess common options:");
+    esl_opt_DisplayHelp(stdout, go, 2, 2, 80);
+  }
+
+
+  if (esl_opt_ArgNumber(go) != 2)                      esl_fatal(argv[0], "Incorrect number of command line arguments.\n");
+
+
+
+  hmmfile = esl_opt_GetArg(go, 1);
+  seqfile = esl_opt_GetArg(go, 2);
+
+  if (strcmp(hmmfile, "-") == 0 && strcmp(seqfile, "-") == 0)
+    esl_fatal(argv[0], "Either <hmmfile> or <seqfile> may be '-' (to read from stdin), but not both.\n");
+
+  msaopts |= p7_ALL_CONSENSUS_COLS; /* default as of 3.1 */
+  if (esl_opt_GetBoolean(go, "--trim"))    msaopts |= p7_TRIM;
+
+  /* If caller declared an input format, decode it
+   */
+  if (esl_opt_IsOn(go, "--informat")) {
+    infmt = esl_sqio_EncodeFormat(esl_opt_GetString(go, "--informat"));
+    if (infmt == eslSQFILE_UNKNOWN) esl_fatal(argv[0], "%s is not a recognized input sequence file format\n", esl_opt_GetString(go, "--informat"));
+  }
+
+  /* Determine output alignment file format */
+  outfmt = eslx_msafile_EncodeFormat(esl_opt_GetString(go, "--outformat"));
+  if (outfmt == eslMSAFILE_UNKNOWN)    esl_fatal(argv[0], "%s is not a recognized output MSA file format\n", esl_opt_GetString(go, "--outformat"));
+
+  /* Open output stream */
+  if ( (outfile = esl_opt_GetString(go, "-o")) != NULL)
+  {
+    if ((ofp = fopen(outfile, "w")) == NULL)
+      esl_fatal(argv[0], "failed to open -o output file %s for writing\n", outfile);
+  }
+
+
+  /* If caller forced an alphabet on us, create the one the caller wants
+   */
+  if      (esl_opt_GetBoolean(go, "--amino")) abc = esl_alphabet_Create(eslAMINO);
+  else if (esl_opt_GetBoolean(go, "--dna"))   abc = esl_alphabet_Create(eslDNA);
+  else if (esl_opt_GetBoolean(go, "--rna"))   abc = esl_alphabet_Create(eslRNA);
+
+  /* Read one HMM, and make sure there's only one.
+   */
+  status = p7_hmmfile_OpenE(hmmfile, NULL, &hfp, errbuf);
+  if      (status == eslENOTFOUND) p7_Fail("File existence/permissions problem in trying to open HMM file %s.\n%s\n", hmmfile, errbuf);
+  else if (status == eslEFORMAT)   p7_Fail("File format problem in trying to open HMM file %s.\n%s\n",                hmmfile, errbuf);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d in opening HMM file %s.\n%s\n",                       status, hmmfile, errbuf);
+
+  status = p7_hmmfile_Read(hfp, &abc, &hmm);
+  if      (status == eslEFORMAT)   p7_Fail("Bad file format in HMM file %s:\n%s\n",          hfp->fname, hfp->errbuf);
+  else if (status == eslEINCOMPAT) p7_Fail("HMM in %s is not in the expected %s alphabet\n", hfp->fname, esl_abc_DecodeType(abc->type));
+  else if (status == eslEOF)       p7_Fail("Empty HMM file %s? No HMM data found.\n",        hfp->fname);
+  else if (status != eslOK)        p7_Fail("Unexpected error in reading HMMs from %s\n",     hfp->fname);
+
+  status = p7_hmmfile_Read(hfp, &abc, NULL);
+  if      (status != eslEOF)       p7_Fail("HMM file %s does not contain just one HMM\n",    hfp->fname);
+  p7_hmmfile_Close(hfp);
+
+
+
+  /* Read digital sequences into an array (possibly concat'ed onto mapped seqs)
+   */
+  status = esl_sqfile_OpenDigital(abc, seqfile, infmt, NULL, &sqfp);
+  if      (status == eslENOTFOUND) p7_Fail("Failed to open sequence file %s for reading\n",          seqfile);
+  else if (status == eslEFORMAT)   p7_Fail("Sequence file %s is empty or misformatted\n",            seqfile);
+  else if (status != eslOK)        p7_Fail("Unexpected error %d opening sequence file %s\n", status, seqfile);
+
+  ESL_RALLOC(sq, p, sizeof(ESL_SQ *) * (totseq + 1));
+  sq[totseq] = esl_sq_CreateDigital(abc);
+  nseq = 0;
+  while ((status = esl_sqio_Read(sqfp, sq[totseq+nseq])) == eslOK)
+  {
+    nseq++;
+    ESL_RALLOC(sq, p, sizeof(ESL_SQ *) * (totseq+nseq+1));
+    sq[totseq+nseq] = esl_sq_CreateDigital(abc);
+  }
+  if      (status == eslEFORMAT) esl_fatal("Parse failed (sequence file %s):\n%s\n",
+             sqfp->filename, esl_sqfile_GetErrorBuf(sqfp));
+  else if (status != eslEOF)     esl_fatal("Unexpected error %d reading sequence file %s", status, sqfp->filename);
+  esl_sqfile_Close(sqfp);
+  totseq += nseq;
+
+
+  /* Remaining initializations, including trace array allocation
+   */
+  ESL_ALLOC(pp,     sizeof(float*) * totseq );
+  ESL_ALLOC(relent, sizeof(float*) * totseq );
+  ESL_ALLOC(scores, sizeof(float*) * totseq );
+  for (idx = 0; idx < totseq; idx++) {
+    ESL_ALLOC(pp[idx],     sizeof(float) * (1+sq[idx]->L));
+    ESL_ALLOC(relent[idx], sizeof(float) * (1+sq[idx]->L));
+    ESL_ALLOC(scores[idx], sizeof(float) * (1+sq[idx]->L));
+  }
+
+  p7_tracealign_getMSAandStats(hmm, sq, totseq, &msa, pp, relent, scores);
+
+  eslx_msafile_Write(ofp, msa, outfmt);
+
+  for (idx = 0; idx < totseq; idx++) {
+    printf("%s\n------------------\n", sq[idx]->name);
+    for (j=1; j<=sq[idx]->L; j++) {
+      printf("%d:  %.3f  %.3f  %.3f\n", j, pp[idx][j], relent[idx][j], scores[idx][j]);
+    }
+    printf("\n\n");
+  }
+
+  for (idx = 0; idx < totseq; idx++) {
+    free(pp[idx]);
+    free(relent[idx]);
+    free(scores[idx]);
+  }
+  free(pp);
+  free(relent);
+  free(scores);
+
+  for (idx = 0; idx <= totseq; idx++) esl_sq_Destroy(sq[idx]);    /* including sq[nseq] because we overallocated */
+  free(sq);
+  esl_msa_Destroy(msa);
+  p7_hmm_Destroy(hmm);
+  if (ofp != stdout) fclose(ofp);
+  esl_alphabet_Destroy(abc);
+  esl_getopts_Destroy(go);
+  return eslOK;
+
+ ERROR:
+  return status;
+}
+
+#endif /*p7TRACE_SEQALIGNSTATS_TESTDRIVE*/
+/*--------------------- end, test driver ------------------------*/
+
+
+/*****************************************************************
+ * HMMER - Biological sequence analysis with profile HMMs
+ * Version 3.1b2; February 2015
+ * Copyright (C) 2015 Howard Hughes Medical Institute.
+ * Other copyrights also apply. See the COPYRIGHT file for a full list.
+ * 
+ * HMMER is distributed under the terms of the GNU General Public License
+ * (GPLv3). See the LICENSE file for details.
+ *****************************************************************/
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa-alitest.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa-alitest.fa
new file mode 100755
index 0000000..5a1cce4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa-alitest.fa
@@ -0,0 +1,9 @@
+>test1
+ACDEFGHIKLMNPQRSTVWY
+>test2
+XXXXACDEFGHIMNXXXPQRSTVWY
+>test3
+ACDEFGHILMNXXXXXPQRSTVWYXXXX
+>test4
+XXXACDEFGHIKLMNPQRSTVWYXXX
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa.hmm
new file mode 100755
index 0000000..6570020
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa.hmm
@@ -0,0 +1,81 @@
+HMMER3/e [3.0 | March 2010]
+NAME  test
+LENG  20
+ALPH  amino
+RF    yes
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:48:44 2011
+NSEQ  10
+EFFN  1.958008
+CKSUM 1166427327
+STATS LOCAL MSV       -6.4582  0.72049
+STATS LOCAL VITERBI   -6.5560  0.72049
+STATS LOCAL FORWARD   -4.5231  0.72049
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.84172  3.09731  2.97803  2.97493  3.01073  2.84267  3.09996  3.01846  2.98506  2.79502  3.24842  3.04612  2.98048  3.09368  2.98307  2.93276  2.99616  2.92882  3.11195  3.05475
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.00000        *
+      1   0.33153  4.75021  4.40686  4.30261  4.98231  3.54503  5.20354  4.24369  4.34423  4.07997  5.06373  4.20507  4.35385  4.61429  4.49324  3.11385  3.44352  3.74593  6.31351  5.23450      1 A x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      2   3.71189  0.19224  5.27202  5.20760  5.14010  4.12431  5.71287  4.50171  5.08337  4.33260  5.49223  5.04038  4.87020  5.39545  5.05595  3.97810  4.23735  4.17127  6.30489  5.40378      2 C x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      3   3.98656  6.04404  0.26832  3.10895  5.56931  3.96335  4.82674  5.37114  4.07756  4.85124  5.89959  3.68418  4.66362  4.10292  4.64977  3.90185  4.35520  4.94494  6.55717  5.39231      3 D x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      4   3.86001  5.93253  3.10541  0.31659  5.41784  3.95765  4.69178  5.05532  3.69726  4.56407  5.57407  3.66171  4.61389  3.93455  4.14135  3.79818  4.19080  4.68124  6.42367  5.24820      4 E x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      5   4.36375  5.55549  5.27903  5.17457  0.30584  4.76688  4.43458  3.87515  5.08513  3.08977  4.51422  4.94403  5.24230  5.06026  5.02103  4.55599  4.68143  3.91024  4.55642  2.86975      5 F x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      6   3.81492  5.45729  4.62640  4.63584  5.65376  0.15643  5.64356  5.49443  4.90777  5.02078  6.04315  4.79423  4.85917  5.17511  5.00568  4.01542  4.34608  4.88236  6.49628  5.79945      6 G x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      7   4.16383  5.73045  4.20345  4.08613  4.12447  4.32074  0.25450  5.00519  3.93134  4.36771  5.51417  4.44331  4.93209  4.47945  4.12138  4.24824  4.51598  4.72299  5.55036  4.06661      7 H x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      8   3.68240  4.96784  5.29686  4.98518  4.00152  4.81181  5.64051  0.45958  4.84010  2.48866  3.87537  5.14536  5.22389  5.14468  4.96429  4.43571  3.98666  2.14122  6.00165  4.77767      8 I x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+      9   3.87084  5.71858  4.09111  3.63874  5.29113  4.19915  4.43565  4.79502  0.34848  4.21693  5.19083  4.00655  4.68950  3.62245  2.89455  3.89670  4.09159  4.48039  6.06846  5.02983      9 K x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     10   4.10569  5.37999  5.37704  5.07323  3.60485  4.91872  5.51913  2.88747  4.85030  0.31403  3.48756  5.29222  5.26246  5.02342  4.88351  4.67433  4.38205  3.10398  5.68414  4.56194     10 L x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     11   3.76493  5.21977  4.97705  4.69089  3.80689  4.48112  5.25686  3.07546  4.41720  2.33582  0.44785  4.86029  4.99353  4.76897  4.52181  4.16012  4.11127  3.15967  5.69858  4.51357     11 M x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     12   3.57809  5.49127  3.44339  3.42863  5.00255  3.88766  4.82499  4.95087  3.84059  4.51120  5.50759  0.33008  4.59318  4.15065  4.17825  3.64673  4.01118  4.48535  6.20351  4.93745     12 N x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     13   4.00253  5.56981  4.68626  4.66041  5.50832  4.21986  5.61548  5.32444  4.79562  4.82725  5.94238  4.87442  0.15853  5.15257  4.90198  4.20399  4.50319  4.86895  6.42107  5.65462     13 P x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     14   3.77909  5.64094  3.69767  3.52834  4.92308  4.07548  4.66650  4.75220  3.31045  4.16367  5.23212  3.97154  4.67568  0.35264  3.55127  3.82527  4.10540  4.44707  6.06412  4.85804     14 Q x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     15   4.06569  5.72976  4.64481  4.06728  5.29142  4.32696  4.65520  4.94688  2.91779  4.32463  5.34979  4.34726  4.83528  3.88050  0.27799  4.14570  4.30787  4.64685  6.09499  5.11767     15 R x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     16   2.86264  4.76384  4.06625  3.97893  4.95217  3.49015  5.02468  4.61317  4.11182  4.28786  5.17873  4.02231  4.29645  4.39854  4.32273  0.36940  3.40501  3.96259  6.26205  5.06201     16 S x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     17   3.02696  4.85500  4.32743  4.18885  4.86868  3.65327  5.11610  4.11498  4.15179  3.94230  4.98023  4.21329  4.42902  4.51115  4.32720  3.24072  0.36422  3.70624  6.21269  5.10005     17 T x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     18   3.46484  4.87137  5.11821  4.85525  4.22953  4.46611  5.57852  2.31070  4.74668  2.81664  4.12561  4.92209  5.02443  5.07640  4.88658  4.06104  3.83103  0.41971  6.11439  4.87843     18 V x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     19   4.79204  5.84985  5.34317  5.26034  3.78333  4.68289  5.07812  4.94477  5.03502  4.18554  5.52583  5.30347  5.26379  5.37294  5.01211  4.99275  5.14054  4.84439  0.17138  3.75795     19 W x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01490  4.60991  5.33226  0.61958  0.77255  0.48576  0.95510
+     20   4.45825  5.64322  5.00210  4.90925  2.69967  4.74776  4.20846  4.39930  4.76077  3.65150  4.99606  4.73576  5.22339  4.86709  4.76972  4.49872  4.75805  4.30746  4.35402  0.28758     20 Y x -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01005  4.60506        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa.sto
new file mode 100755
index 0000000..6b8d712
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/20aa.sto
@@ -0,0 +1,16 @@
+# STOCKHOLM 1.0
+
+#=GF ID test
+
+seq1    ACDEFGHIKLMNPQRSTVWY
+seq2    ACDEFGHIKLMNPQRSTVWY
+seq3    ACDEFGHIKLMNPQRSTVWY
+seq4    ACDEFGHIKLMNPQRSTVWY
+seq5    ACDEFGHIKLMNPQRSTVWY
+seq6    ACDEFGHIKLMNPQRSTVWY
+seq7    ACDEFGHIKLMNPQRSTVWY
+seq8    ACDEFGHIKLMNPQRSTVWY
+seq9    ACDEFGHIKLMNPQRSTVWY
+seq0    ACDEFGHIKLMNPQRSTVWY
+#=GC RF xxxxxxxxxxxxxxxxxxxx
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/3box.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/3box.hmm
new file mode 100755
index 0000000..a75e882
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/3box.hmm
@@ -0,0 +1,82 @@
+HMMER3/e [3.0 | March 2010]
+NAME  3box
+LENG  20
+MAXL  75
+ALPH  DNA
+RF    yes
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:48:52 2011
+NSEQ  22
+EFFN  22.000000
+CKSUM 1874497603
+STATS LOCAL MSV       -6.0876  0.74404
+STATS LOCAL VITERBI   -6.6159  0.74404
+STATS LOCAL FORWARD   -3.2245  0.74404
+HMM          A        C        G        T   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   0.86318  3.69883  1.55071  1.07490
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  0.00000        *
+      1   0.00850  6.21185  5.49634  6.05242      1 A x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      2   0.00850  6.21185  5.49634  6.05242      2 A x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      3   0.06667  5.98733  2.82901  5.83744      3 A x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      4   4.60470  4.40315  1.36132  0.32652      4 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      5   5.04480  6.00326  0.01203  5.79333      5 G x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      6   0.00850  6.21185  5.49634  6.05242      6 A x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      7   0.15440  4.67867  5.06392  2.05995      7 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      8   0.25411  2.28121  4.07408  2.25164      8 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+      9   0.72466  4.17736  4.48789  0.71554      9 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.27938  5.48894  1.42871  1.46634  0.26236  1.09861  0.40547
+     10   1.30652  1.86264  1.97543  0.83178     10 t . .
+          1.38629  1.38629  1.38629  1.38629
+          0.01087  5.22042  5.22042  1.46634  0.26236  0.03391  3.40099
+     11   2.69007  4.95467  0.08750  4.72706     11 G x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     12   5.28311  4.88969  5.40686  0.01723     12 T x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     13   2.63359  3.87615  2.77012  0.16866     13 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     14   5.28311  4.88969  5.40686  0.01723     14 T x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     15   5.04480  6.00326  0.01203  5.79333     15 G x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     16   0.14373  4.70714  5.09208  2.13114     16 a x .
+          2.31701  2.31701  2.31701  0.35056
+          0.17349  1.86339  5.48894  0.54487  0.86731  1.09861  0.40547
+     17   2.56336  3.52803  1.93365  0.28905     19 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     18   5.28311  4.88969  5.40686  0.01723     20 T x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     19   0.00850  6.21185  5.49634  6.05242     21 A x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00830  5.48894  5.48894  1.46634  0.26236  1.09861  0.40547
+     20   2.04431  3.60689  0.47842  1.49776     22 g x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00416  5.48480        *  1.46634  0.26236  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/3box.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/3box.sto
new file mode 100755
index 0000000..a35a664
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/3box.sto
@@ -0,0 +1,29 @@
+# STOCKHOLM 1.0
+
+# 3' box element
+
+Onc120/U1         AAATGAAAA.GTTTGA..TTAG
+Onc121/U2         AAAGGATAAtGTTTGA..TTAT
+Onc123.1/U2       AAATGATAAtGTTTGA..TTAG
+Onc77.1/U2        AAAGGATAAtGTTTGA..TTAG
+Onc124/U3         AAAGGAATTaGTTTGA..TTAG
+Onc125/U4         AAATGAAAT.GTTTGA..TTAG
+Onc127/U5         AAATGAAATtGTTTGA..TTAG
+Onc151/U4atac     AAATGAAAAtGTTTGTttTTAT
+Onc91/ClassII     AAATGAACTaGTTTGA..TTAG
+Onc92/ClassII     AAATGAACTcGTTTGA..TTAT
+Onc94/ClassII     AAATGAAAT.GTTTGA..ATAA
+Onc95/ClassII     AAATGAAATaGTTTGA..GTAG
+Onc96/ClassII     AAATGAAAA.GTTTGAt.TTAG
+Onc155/ClassII    AAATGAAAA.GTTTGA..TTAG
+Onc156/classII    AAATGAAAT.GTATGA..GTAA
+Onc89/HACA        AAGGGAAATtGTTTGA..TTAG
+Onc90/HACA        AAATGAAAAcGTGTGA..TTAG
+Onc145/CD         AAAGGAAATaGTTTGA..TTAG
+Onc146/CD         AAATGAAATgGTTTGA..TTAG
+Onc147/HACA       AAATGAAATgGTTTGA..GTAG
+Onc148/CD         AAATGAAAAaATTTGA..TTAG
+Onc154/HACA       AAAGGAATAtGTTTGA..TTAT
+#=GC RF           xxxxxxxxx.xxxxxx..xxxx
+#=GC SS_cons      ......................
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Caudal_act.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Caudal_act.hmm
new file mode 100755
index 0000000..c6c0ef4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Caudal_act.hmm
@@ -0,0 +1,455 @@
+HMMER3/e [3.0 | March 2010]
+NAME  Caudal_act
+ACC   PF04731.3
+DESC  Caudal like protein activation region
+LENG  143
+ALPH  amino
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:48:44 2011
+NSEQ  9
+EFFN  1.085449
+CKSUM 2955524438
+GA    25.00 25.00
+TC    46.20 46.20
+NC    -6.30 -6.30
+STATS LOCAL MSV      -10.2905  0.71021
+STATS LOCAL VITERBI  -11.2997  0.71021
+STATS LOCAL FORWARD   -3.8038  0.71021
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.34638  4.46569  3.01008  2.81541  3.47790  2.74290  3.57967  3.31341  2.84585  2.81715  3.67702  3.06002  2.70876  3.09758  3.05674  2.35729  2.79291  2.88124  3.92523  3.13497
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.00000        *
+      1   3.15049  4.60091  4.60894  4.10378  3.32333  4.24721  4.74448  2.27072  3.91313  1.79853  1.21807  4.33189  4.61370  4.17024  4.08948  3.62762  3.42750  1.95678  5.27200  4.11588      1 m - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.07878  2.67757  4.95773  0.41429  1.08120  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
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+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    127   2.66867  4.98788  2.53262  2.40097  4.42902  2.84253  3.73721  3.88718  2.55888  3.43393  4.22055  2.06367  3.84486  2.87265  3.05034  2.14024  2.34361  3.47553  5.61997  4.23786    180 n - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    128   2.56464  4.46439  3.37039  2.91990  3.87092  3.37543  3.97090  3.24167  2.87793  2.19344  3.83782  3.29452  1.89418  3.23224  3.23789  2.08995  2.89986  2.94494  5.27784  4.00480    181 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    129   2.97386  2.41379  4.26722  3.81440  2.70468  3.85777  3.93362  2.98974  3.63386  2.66625  3.72399  3.89772  4.33222  3.87888  3.80202  3.25100  3.27297  2.80572  4.33026  1.14344    182 y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    130   2.17110  5.19026  2.61698  1.38473  4.52609  3.39750  3.76165  3.96897  2.57083  3.51459  4.33175  2.90679  3.90654  2.56351  3.03832  2.79195  3.08532  3.58770  5.70164  4.30967    183 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    131   4.00983  5.24101  4.69029  4.49702  3.13586  4.17592  4.42301  4.06898  4.22332  3.39379  4.68243  4.57875  4.72625  4.59071  4.28192  4.20979  4.33211  3.96816  0.39043  3.12160    184 W - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    132   3.15366  4.60950  4.60200  4.10039  3.31992  4.24128  4.74322  2.28449  3.90492  1.79324  1.19666  4.32873  4.61197  4.16644  4.08159  3.62458  3.43284  2.00276  5.27181  4.11361    185 m - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    133   2.73269  4.82628  3.25362  2.77916  4.44930  2.66221  3.84348  3.86901  2.40136  3.42637  4.25834  3.19667  3.95276  3.00466  1.29867  2.44630  3.04194  3.47012  5.57289  4.31462    186 r - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    134   3.25687  5.36240  3.72143  2.98248  4.88010  3.83956  3.71736  4.20066  1.04381  3.59313  4.46865  3.35940  4.18958  2.84637  1.57979  3.23933  3.40058  3.88060  5.59035  4.45948    187 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    135   2.41581  4.39052  3.42867  3.03577  4.29119  3.16421  4.14033  3.69360  3.05164  3.36377  4.19229  3.32013  2.35976  3.37158  3.41712  1.95262  1.47558  3.22934  5.61965  4.37262    188 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    136   2.07518  4.25655  4.02641  3.50633  3.56976  3.10507  4.26483  2.18987  3.42338  2.51818  3.51333  3.74442  4.15935  3.69761  3.68186  3.01634  2.96911  1.36628  5.12456  3.91625    189 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    137   2.32705  4.75741  3.07451  2.59351  4.14104  3.41346  3.77234  3.52067  2.54519  3.14756  3.99071  3.07431  3.28725  1.63022  2.95687  2.70150  2.91540  2.85023  5.41425  4.10255    190 q - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    138   2.10084  4.56969  3.20954  2.68666  3.91171  3.41297  3.80361  3.29462  2.67104  2.95906  3.80737  3.13995  3.31551  2.62224  3.08971  2.04967  2.85507  2.35272  5.25656  3.97304    191 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    139   2.03835  4.36197  3.49335  3.06171  4.25369  3.15942  4.13913  3.65335  3.06433  3.32559  4.15135  3.33312  2.88120  3.37357  3.43303  1.93737  1.50116  3.19439  5.58943  4.34857    192 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    140   2.50172  4.41747  3.39313  2.92420  3.94049  2.06947  3.98198  3.30694  2.90717  2.22723  3.86881  3.28313  3.88254  3.23451  3.28119  1.90816  2.55238  2.97526  5.32069  4.06706    193 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    141   2.61060  4.75923  3.04464  2.59331  4.27538  2.16286  3.79853  3.69527  2.05312  3.29093  4.10328  3.06543  3.86313  2.95769  2.98271  2.43644  2.08798  3.30980  5.50819  4.19198    194 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    142   2.36020  4.33226  3.50842  3.16893  4.44628  1.76760  4.27204  3.87382  3.22416  3.53610  4.34561  3.37788  3.81596  3.51433  3.57282  1.66262  1.78446  3.32257  5.76566  4.53858    195 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02174  4.23538  4.95773  0.61958  0.77255  0.48576  0.95510
+    143   2.76762  5.11805  3.05573  2.49049  4.47101  2.67304  3.63880  3.89920  1.88682  3.39567  4.18368  3.00209  3.90000  2.23267  2.13303  2.74970  2.72242  3.51888  5.52618  4.20047    196 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01468  4.22833        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Caudal_act.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Caudal_act.sto
new file mode 100755
index 0000000..351943f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Caudal_act.sto
@@ -0,0 +1,56 @@
+# STOCKHOLM 1.0
+#=GF ID   Caudal_act
+#=GF AC   PF04731.3
+#=GF DE   Caudal like protein activation region
+#=GF AU   Kerrison ND
+#=GF SE   DOMO:DM04892;
+#=GF GA   25.00 25.00; 15.30 15.30;
+#=GF TC   46.20 46.20; 21.30 21.30;
+#=GF NC   -6.30 -6.30; 13.20 11.50;
+#=GF TP   Family
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF RN   [1]
+#=GF RM   11729123
+#=GF RT   Phosphorylation of the serine 60 residue within the Cdx2
+#=GF RT   activation domain mediates its transactivation capacity. 
+#=GF RA   Rings EH, Boudreau F, Taylor JK, Moffett J, Suh ER, Traber
+#=GF RA   PG; 
+#=GF RL   Gastroenterology 2001;121:1437-1450.
+#=GF DC   The following Pfam-B family may contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB179679;
+#=GF DR   INTERPRO; IPR006820;
+#=GF CC   This family consists of the amino termini of proteins belonging to the
+#=GF CC   caudal-related homeobox protein family.  This region is thought to mediate
+#=GF CC   transcription activation.  The level of activation caused by mouse Cdx2 
+#=GF CC   (Swiss:P43241) is affected by phosphorylation at serine 60 via the
+#=GF CC   mitogen-activated protein kinase pathway [1]. 
+#=GF CC   Caudal family proteins are involved in the transcriptional regulation of
+#=GF CC   multiple genes expressed in the intestinal epithelium, and are important in
+#=GF CC   differentiation and maintenance of the intestinal epithelial lining.
+#=GF CC   Caudal proteins always have a homeobox DNA binding domain (Pfam:PF00046).
+#=GF SQ   9
+#=GS P79788_CHICK/13-172  AC P79788.1
+#=GS CDX2_HUMAN/13-180    AC Q99626.2
+#=GS HMD1_CHICK/1-132     AC P46692.1
+#=GS CDX1_XENLA/13-142    AC Q91622.1
+#=GS Q90262_BRARE/13-147  AC Q90262.1
+#=GS CDX1_MOUSE/13-147    AC P18111.2
+#=GS CDX4_HUMAN/13-171    AC O14627.1
+#=GS CDX4_MOUSE/13-169    AC Q07424.1
+#=GS Q91542_XENLA/16-147  AC Q91542.1
+P79788_CHICK/13-172             MY.PGPVRHSGG.............LNLAAQNFV......GAAQYADYGGYH.........VNLDGA.QSPG....PVWAAPYAAPLRDDW.GAYGQGAPPPAAAAAVHGLNGGSPAAAMAYS.PVDFHHHHHHHPHAHHHVGPETHCSAGGMQTLGAAPAAAAASAAPEPLSPGGQRRGLCEWVRKPAQAPLGSQ
+CDX2_HUMAN/13-180               MY.PSSVRHSGG.............LNLAPQNFV......SPPQYPDYGGYH.VAAAAAAAANLDSA.QSPG....PSWPAAYGAPLREDW.NGYAPGGAAAAANAVAHGLNGGSPAAAMGYSSPADYHPHHHPHHHPHHPAAAPS.CASGLLQTLNPGPPGPAATAAAEQLSPGGQRRNLCEWMRKPAQQSLGSQ
+HMD1_CHICK/1-132                MY.PSPVRHPG..............LNLNPQNYV.....PGPPQYSDFASYHHVPGI.....NNDPHHGQPA....AAWGSPY.TPAKEDW.HSYGT...AAASAATNPGQFGF.........SPPDFNPMQPH.............AGSGLL........PPAISSSVPQLSPNAQRRTPYEWMRRSIPSTSSSG
+CDX1_XENLA/13-142               MY.PNPVRHPG..............LNLNPQNYV.....PAPPQYSDFPSYHHVPGI.....NSDPHHGQPG....GTWSS.Y.TPSREDW.HPYGPGPGASSANPTQIA............FSPSDYNPVQPP..............GSGLL........PPSINSSVPPLSPSAQRADPYEWMRRTGVPTTTTT
+Q90262_BRARE/13-147             MYHQGAVRRSG..............ISLPPQNFV......STPQYSDFTGYHHVP.......NMET.HAQSA....GAWGAPYGAP.REDW.GAYSLGPP....NSISAPMSNSSPGP.VSYCSP.DYNTMHGP..............GSAVL.......PPPPENIPVAQLSPERERRNSYQWMSKTVQSSSTGK
+CDX1_MOUSE/13-147               VY.PGPARPSS..............LGLGPPTYAPPGPAPAPPQYPDFAGYTHV..........EPA.PAPP....PTWAAPFPAP.KDDWAAAYGPGPTA......SAA....SPAP.LAFGPPPDFSPV..P........APPG.PGPGIL........AQSLGAPGAPSSPGAPRRTPYEWMRRSVAAAGGGG
+CDX4_HUMAN/13-171               MY.PGTLMSPGGDGTAGTGGTGGGGSPMPASNFA......AAPAFSHYMGYPHMP.......SMDP.HWPSL....GVWGSPYSPP.REDW.SVY.PGPSSTMGTVPVNDVTS.SPAA...FCS.TDYSNL.GPVGGGTSGSSLPGQAGGSLV.........PTDAGAAKASSPSRSRHSPYAWMRKTVQVTGKTR
+CDX4_MOUSE/13-169               MY.PGTLRSPGGSSTAGVGTSGGSGSPLPASNFT......AAPVYPHYVGYPHM.......SNMDP.HGPSL....GAWSSPYSPP.REDW.STY.PGPPSTMGTVPMNDMT..SPV....FGSP.DYSTL.GPTSGASNGGSLPDAASESLVS.........LDSGTSGATSPSRSRHSPYAWMRKTVQVTGKTR
+Q91542_XENLA/16-147             MY.PLSVRSTS..............NNHTAQNYV......SNQPYFNYVAYHHVP.......PMDDQ.GQPMEFGDSVWITEGGMELL..W.SWT.L.......TQIWHKSSDLSPNQ.FAYNS.SGYSSP.HP.............SGTGILH........SVDLTHAAANSPSALSQNSYEWMGKTVQSTSTGK
+#=GC seq_cons                   MY.PusVRpsG..............lsLssQNaV......usPQYsDasGYHHVs.......NhDst.spPs....usWuuPYusP.REDW.usYusGssus.ussssts.ss.SPs....asSPsDYssh.tP.............sGuGlL........ssstsusssshSPuupR+ssYEWMRKolQsousop
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/LuxC.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/LuxC.hmm
new file mode 100755
index 0000000..a13fd21
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/LuxC.hmm
@@ -0,0 +1,1226 @@
+HMMER3/e [3.0 | March 2010]
+NAME  LuxC
+ACC   PF05893.5
+DESC  Acyl-CoA reductase (LuxC)
+LENG  400
+ALPH  amino
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:48:45 2011
+NSEQ  13
+EFFN  1.996338
+CKSUM 395769323
+GA    -133.50 -133.50
+TC    -133.50 -133.50
+NC    -133.70 -133.70
+STATS LOCAL MSV      -11.2950  0.69925
+STATS LOCAL VITERBI  -12.2676  0.69925
+STATS LOCAL FORWARD   -5.7498  0.69925
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.45565  4.21691  2.92499  2.69931  3.37311  3.00393  3.70259  2.75438  2.70224  2.39267  3.58744  3.10035  3.43431  3.01263  2.95677  2.61570  2.90557  2.59195  4.47073  3.58770
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.00000        *
+      1   2.10283  4.34343  3.85392  2.97731  3.46469  3.77994  4.05556  2.40872  3.20326  1.70836  3.45297  3.19466  4.15531  3.48116  3.12880  3.04363  2.97719  2.14467  4.94472  3.73238      1 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+      2   1.98667  3.56687  3.47131  2.90697  3.71360  3.67730  3.03921  2.84172  2.87200  2.40752  3.65838  2.44740  4.05966  3.19188  2.85211  2.91012  2.96963  2.84423  5.12742  3.03413      2 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+      3   2.20145  5.29461  2.33908  2.25145  4.62977  3.51801  3.74226  4.11443  2.22657  3.59655  4.34317  2.05473  3.28779  2.84617  3.00066  2.39301  3.02621  3.68097  5.73243  4.31722      3 n - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+      4   2.75628  4.22024  4.26048  3.67152  3.30736  3.86688  4.17185  2.28414  3.54383  1.68361  2.66952  3.86373  2.93002  2.97357  3.71015  3.15563  2.98807  2.15215  4.83066  2.87668      4 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+    376   1.98530  4.36352  3.89905  3.34244  3.55685  3.72449  4.12861  2.85503  3.27118  1.96214  3.53992  3.65027  3.02393  3.54592  3.55943  2.36564  2.99586  1.85525  5.03753  3.82633    421 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    377   3.14926  5.15052  3.30933  3.22527  5.02712  0.55234  4.58673  4.63129  3.45831  4.19773  5.08988  3.63456  4.34962  2.71133  3.79060  3.24293  3.58657  4.11708  6.21892  4.97480    422 G - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    378   2.48393  4.72234  3.30381  2.11465  3.90736  3.62681  3.84640  3.29314  2.37181  2.54289  2.47127  3.22692  4.01256  3.05655  2.81062  2.84518  2.97132  2.71904  5.26400  3.14192    423 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    379   2.36230  4.46759  3.76291  3.22118  3.62108  3.76744  4.10152  2.52828  3.15087  2.63435  1.61910  2.27694  4.17730  3.46088  3.47232  3.04753  3.04135  2.65841  5.10835  3.88273    424 m - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    380   2.80920  5.27897  2.44631  2.45000  4.61306  2.83078  2.51966  4.09074  2.54321  3.58883  4.34641  1.92574  3.95310  2.88020  3.04248  2.38735  2.60569  3.66895  5.73791  4.32825    425 n - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    381   2.74378  4.83526  2.37606  2.65519  4.04402  3.59774  3.07125  2.36932  2.63848  2.31101  3.91462  3.15948  3.09011  2.98666  2.59731  2.81043  2.97507  3.15036  5.35699  4.04675    426 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    382   2.35217  4.49053  3.60679  3.04941  2.09442  2.49884  3.02418  3.00177  3.00815  2.70816  3.60180  3.45537  4.10748  3.31105  3.36517  2.51331  2.99157  2.77408  5.01629  2.94013    427 f - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    383   2.75736  5.22031  2.31129  2.18999  4.54790  3.52647  3.71812  4.01953  2.17216  3.51587  4.26717  3.00103  3.92383  2.82223  2.17902  2.72720  2.56894  3.60196  5.66063  2.72919    428 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    384   2.55135  4.79467  3.23645  2.25978  3.99928  3.60297  3.25090  2.80295  2.66832  3.03936  3.88031  3.17933  3.09177  3.00971  3.11063  1.97205  2.97148  2.37265  5.32795  4.02558    429 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.17268  4.62354  1.90532  0.61958  0.77255  0.48576  0.95510
+    385   3.56765  5.24308  4.35683  4.34594  5.40065  0.20879  5.38545  5.18745  4.60372  4.74506  5.75351  4.52427  4.64608  4.88170  4.73516  3.76206  4.09160  4.60048  6.29778  5.53597    430 G - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01719  4.46805  5.19039  0.61958  0.77255  0.73159  0.65613
+    386   2.71961  4.99338  2.99416  1.95886  4.26524  2.31768  3.73146  3.69923  2.51838  3.27626  4.07620  2.54309  3.91281  2.86977  2.98779  2.73135  2.50335  3.35042  3.32606  4.13683    431 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01719  4.46805  5.19039  0.61958  0.77255  0.35798  1.20093
+    387   2.00352  4.82890  3.27521  2.82436  4.38602  3.48667  2.83495  3.82000  2.85126  3.43250  4.24804  3.27429  1.59539  3.19596  3.28234  2.14785  3.05362  3.42767  5.66225  4.34918    432 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    388   3.98630  5.43059  4.56971  4.20295  2.64542  4.55879  0.73692  4.14015  3.80401  3.47908  4.66280  4.28877  4.95788  4.21317  3.96967  4.03875  4.22139  3.98553  2.02586  2.57656    433 h - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    389   4.00844  6.06180  0.26196  3.12835  5.59071  3.98081  4.84717  5.39726  4.10115  4.87468  5.92494  3.70371  4.68163  4.12447  4.67352  3.92342  4.37769  4.97000  6.57431  5.41386    434 D - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    390   1.77331  4.50656  4.07567  3.92743  5.04815  0.71604  4.95900  4.50898  4.07846  4.19526  4.97861  3.86338  4.09574  4.27783  4.31008  2.39614  3.11893  3.76059  6.37942  5.23719    435 g - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    391   2.93767  4.31971  4.69249  4.10687  3.42223  2.91428  4.48847  1.79301  3.95183  2.17707  1.99583  4.21797  4.48057  4.13188  4.05320  3.44744  3.17390  1.54058  5.03612  3.85780    436 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    392   2.76548  4.37407  3.84386  3.27193  2.72293  3.78984  3.03494  2.84969  3.19452  2.24497  3.48308  3.61005  4.16427  3.47423  2.44919  2.79805  2.99693  2.31661  4.89314  2.15119    437 y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    393   1.81880  4.73013  3.33610  2.84209  2.98377  3.55749  3.97066  3.47268  2.85574  3.13355  3.98507  2.23087  2.04173  3.18467  3.27858  2.84358  3.02052  3.16406  5.41195  4.11181    438 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    394   4.02586  5.25035  5.75571  5.20318  3.32407  5.34699  5.60821  2.56332  5.00002  0.46677  2.34485  5.46456  5.36038  4.94188  4.99067  4.76787  4.22987  2.85329  5.59343  4.62204    439 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    395   2.74524  5.18092  2.62547  2.46270  4.49674  3.52552  2.99417  3.06858  2.19886  3.47295  4.23033  3.00539  3.92042  1.88250  2.94703  2.39780  2.69780  3.55596  5.63074  4.23935    440 q - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    396   2.83840  5.28522  2.47077  1.94741  4.59813  3.55448  3.77133  4.07413  2.50420  3.57331  4.34014  3.02922  3.97532  2.88474  1.56300  2.80374  3.07103  3.66616  5.71488  3.23430    441 r - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    397   3.79315  5.03577  5.68942  5.09552  2.00897  5.11384  5.36571  2.07706  4.94731  0.77581  2.40358  5.25679  5.18978  4.83484  4.89673  4.48122  3.99528  2.79019  5.43860  4.43569    442 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    398   2.46593  4.33829  4.16894  3.61759  3.56120  3.80928  4.28888  2.65548  3.52100  2.18100  3.54047  3.84652  4.25673  3.77377  3.75346  2.39794  2.49068  1.30517  5.08121  3.88143    443 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    399   2.81457  5.12654  3.15170  2.58139  3.20336  3.60148  2.95857  3.85345  2.16310  3.39595  4.18750  2.66143  3.98813  2.88564  1.62698  2.81375  2.78843  3.49288  5.57164  4.22839    444 r - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01469  4.62354  5.34589  0.61958  0.77255  0.48576  0.95510
+    400   2.35431  4.31281  4.15714  3.58116  2.63396  3.88571  4.08911  2.76815  3.46417  2.15837  3.42380  3.81065  4.25353  3.69929  2.41381  3.16781  3.04445  2.57404  2.27186  2.56054    445 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00991  4.61876        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/LuxC.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/LuxC.sto
new file mode 100755
index 0000000..cd016cc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/LuxC.sto
@@ -0,0 +1,61 @@
+# STOCKHOLM 1.0
+#=GF ID   LuxC
+#=GF AC   PF05893.5
+#=GF DE   Acyl-CoA reductase (LuxC)
+#=GF AU   Moxon SJ
+#=GF SE   Pfam-B_9766 (release 8.0)
+#=GF GA   -133.50 -133.50; 14.60 14.60;
+#=GF TC   -133.50 -133.50; 20.40 15.50;
+#=GF NC   -133.70 -133.70; 11.20 12.90;
+#=GF TP   Family
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF RN   [1]
+#=GF RM   9128139
+#=GF RT   Cysteine-286 as the site of acylation of the Lux-specific
+#=GF RT   fatty acyl-CoA reductase. 
+#=GF RA   Lee CY, Meighen EA; 
+#=GF RL   Biochim Biophys Acta 1997;1338:215-222.
+#=GF DC   The following Pfam-B families contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB029697;
+#=GF DR   PFAMB; PB044036;
+#=GF DR   PFAMB; PB056333;
+#=GF DR   INTERPRO; IPR008670;
+#=GF CC   This family consists of several bacterial Acyl-CoA reductase (LuxC)
+#=GF CC   proteins. The channelling of fatty acids into the fatty aldehyde substrate
+#=GF CC   for the bacterial bioluminescence reaction is catalysed by a fatty acid
+#=GF CC   reductase multienzyme complex, which channels fatty acids through the
+#=GF CC   thioesterase (LuxD), synthetase (LuxE) and reductase (LuxC) components [1].
+#=GF SQ   13
+#=GS Q9KV99_VIBCH/423-818  AC Q9KV99.1
+#=GS Q2WLE3_CLOBE/35-425   AC Q2WLE3.1
+#=GS Q97GS8_CLOAB/45-446   AC Q97GS8.1
+#=GS Q3WCI9_9ACTO/68-470   AC Q3WCI9.1
+#=GS LUXC_VIBHA/49-443     AC P08639.1
+#=GS Q93CP6_PHOLU/52-446   AC Q93CP6.1
+#=GS Q4A539_9VIBR/49-442   AC Q4A539.1
+#=GS LUXC_VIBFI/51-445     AC P12748.3
+#=GS LUXC2_PHOLE/50-444    AC P29236.1
+#=GS Q3KD56_PSEPF/30-413   AC Q3KD56.1
+#=GS Q7NQ23_CHRVO/30-413   AC Q7NQ23.1
+#=GS Q7MZU4_PHOLL/30-413   AC Q7MZU4.1
+#=GS Q8G6W7_BIFLO/65-480   AC Q8G6W7.1
+Q9KV99_VIBCH/423-818             LANQPLEAILGLINEARKSWSST............PELDPYRHTGLNF.......LADWCEPNRLKNLLDSALNGQRAFLDNFL..PRKDISHSSQKAMPRGIVSHWLSGNVPLLGMFALVQSILSKNANILKVSASESQALPVLLATFKGLSYTTPGGYTIHGDDLLGTLAVVYF.DRHQTKIAEKFS..ANADVRIAWGGREAIESVSGLPKKYNSQDILFGPKLSMMVVGSDALDSDKAIRKLIRRAATDSSVFDQFACASPHTIFVEKGGLITPKEFAEKLASAMDKALVRLPTQVPDIGQANKIRSKIAE....YAFIGE....YW.HDKHLRWTVLFDEG.........IELVEPTYQRVITVKAVDNVFDVVDSVHED.I...QTVGL.AMNGEKRLRFANEIMLKGAMRCPDVGYMTHFDS..PWDGVVALDRMVRW
+Q2WLE3_CLOBE/35-425              IYSYPSEAMIEIINEYSKILCSD............RKFLSYEGVPF.........LVLWLKKDNIKKLLHQDL.KKQEFLDDFI..EIAD..NKFMKAQPRGMVCHFMAGNVPTLPIYYLVQAIICRNVNLCRIPIGSIDIVIELLKPLKDIVINF.RGEKYYGSTLLKSISIINF.SSNDLKLNTEIS..QVADVRVICGGEEAVKTLSVLPKKTTCKDVIFGPKYSFAVFEKSAMESL.KITKTFDNFAKDIISFDQRACSSPQVLFIEKS.TVGINEAAQMLAQALEKSLKRYPKVEINQGAAANIINKRGE....YLISLEK..DII.CSKDLKYTILIDKE.........IILEEPVQHTTIFLKEIEDIFEVCKLITPR....IQTIGIASENNSRIINFANKASLHGVDRLVKVGLMNLYDS..PWDGILFMSEIVKW
+Q97GS8_CLOAB/45-446              VHDIKTEETIDLLDRCAKLWLDDNYSKK..HIETLAQITNQSFELVNYEFKS...MMQMLLRENIQNTIKREL.GEVDILDSWH..KTNY...GYEHRQPRGIIFHNISGNAFVVIPMSISMGLLSKNCNLVKVSKDEPYFAYAFYKSLCELDE...........TVKDRLSVLYF.DSSKTEIYDTIV..KNSDGVIHWGGEYSSRIIGEMCAKYQKHMIMHGAKISFEVVDKCD.....DLNKVSEEIAKDIICWEQKACLSPRVVFLN..DKIDVDEFSHCLSASLRKITEVIPKAYLSEWNSVKTIQDRQYCTLKYGMKNERRFKVY.SSFNADYTVILSDGMPEK.....EDINKCF.YRFIFVCPYSSKSDVVNYVSENLKDYLQTMG....YSGNDEEFIEKMTLLGVSIVTKPGKMSLHEPGTSHDGIHNLKEFTFL
+Q3WCI9_9ACTO/68-470              LLNVPLKEIIDFLVETGERIRDPRNTFMQDCIDRMAGTHVLPRAVLEGQVKG...AAAYLDKRLLETVVEQNF.PDPRALDEWVPKQDFTGRKSYIRAFAPRLI.HVLPGNSPGVAVKSIAQGALVKAVNLFKMSSSDPFTTVAVLRTMADIDPGH.........PIVRSMSAVYW.RGGDNTVEQVLYRPQYFDKIVAWGGGDAINNVIK.YLGPGFQLVSFDPKTSISMVGREAFASEEALDTAAELAAGDVMVLNQEACVASRFVFVEAD.QAEADRFSERL......HARIVEKAAASGDARPLDADLREQIDVLMMLDDEF..GVW.GKTDGHGLVIRSDE.........PVDFHPI.NKTANVVRVNSLDEAMRYVNVA....TQTVGF.YPFARMADYRDR.LASGGAQRIVRLGEAGPSTIGNPHDAMYPLHRFVHW
+LUXC_VIBHA/49-443                LNDLNINNIINFLYTTGQRWKSEEYSRRRAYIRSLITYLGYSPQMAK..LEANWIAMILCSKSALYDIIDTEL.GSTHIQDEWL..PQGE...CYVRAFPKGRTMHLLAGNVPLSGVTSILRGILTRNQCIVRMSASDPFTAHALAMSFIDVDPNH.........PISRSISVLYWPHASDTTLAEELL..SHMDAVVAWGGRDAIDWAVK.HSPSHIDVLKFGPKKSFTVLDHPA.....DLEEAASGVAHDICFYDQNACFSTQNIYFS...GDKYEEFKLKLVEKLNLYQEVLPKSKQSFDDEALFSMTRLE.....CQFSGL..KVI.SEPENNWMIIESEPG........VEYNHPL.SRCVYVHKINKVDDVVQYIEKH.QT..QTISF.YPWESSKKYRDA.FAAKGVERIVESGMNNIFRAGGAHDAMRPLQRLVRF
+Q93CP6_PHOLU/52-446              NNKLRLHNIVNFLYTVGQRWKNEEYSRRRTYIRDLKKYMGYSEAMAK..LEANWISMILCSKGGLYDVVENEL.GSRHIMDEWL..PQDE...SYIKAFPKGKSIHLLAGNVPLSVIMSILRAILTKNQCIIKTSSTDPFTANALALSFIDVDPNH.........PITRSLSVVYWPHQGDTSLAKEIM..QHMDVIVAWGGEDAINWAVE.HAPPYADVIKFGSKKSFCIIDNPV.....DLTSAATGAAHDICFYDQRACFSAQNIYYM...GNQYEEFKLALIEKLNLYAHILPNAKKDFDEKAAYSLVQKE.....SLFAGL..KVE.VDVHQRWMIIESNAG........VEFNQPL.GRCVYLHHVDNIEQVLPYVQKN.KT..QTISI.FPWESAFKYRDA.LALRGAERIVEAGMNNIFRVGGSHDGMRPLQRLVTY
+Q4A539_9VIBR/49-442              VNNLRLNQVVNFLYTVGQRWRSEEYTRRRTYIRDLTNFLGYSNEMAK..LEANWIAMLLCSKSALYDIVQHDL.GSLHIIDEWI..PQGD...CYIKALPKGKSVHLLAGNVPLSGVTSILRAILTKNECIIKTSSTDPFTATALVSSFIDVNADH.........PITRSMSVMYWSHNEDMSLPKKIM..NHADVV.AWGGDEAIKWAVK.HSPHHVDIVKFGPKKSLSIIDDPE.....DITAAATGVAHDICFYDQQACFSTQNIYYI...GNKLNLFIDELEKKLNVYAKILPKGCQNFDEKAAFTLTEKE.....CLFAGY..QVR.KGENQSWIIIQSPLD........AFGNQPL.SRSVYIHQVSSIEDILPFINKN.TT..QTVSI.APWESSFKYRDE.LAKHGAERIVESGMNNIFRVGGAHDGMRPLQYLVNY
+LUXC_VIBFI/51-445                RINLNLNQIVNFLYTVGQRWKSEEYNRRRTYIRELKTYLGYSDEMAR..LEANWIAMLLCSKSALYDIVNYDL.GSIHVLDEWL..PRGD...CYVKAQPKGVSVHLLAGNVPLSGVTSILRAILTKNECIIKTSSSDPFTANALVSSFIDVNADH.........PITKSMSVMYWPHDEDMTLSQRIM..NHADVVIAWGGDEAIKWAVK.YSPPHVDILKFGPKKSLSIIEAPK.....DIEAAAMGVAHDICFYDQQACFSTQDVYYI...GDNLPLFLNELEKQLDRYAKILPKGSNSFDEKAAFTLTEKE.....SLFAGY..EVR.KGDKQAWLIVVSPTN........SFGNQPL.SRSVYVHQVSDIKEIIPFVNKN.RT..QTVSI.YPWEASLKYRDK.LARSGVERIVESGMNNIFRVGGAHDSLSPLQYLVRF
+LUXC2_PHOLE/50-444               ENKLTINQIVNFLYTVGQKWKSETYSRRLTYIRDLIKFLGYSQEMAK..LEANWISMILCSKSALYDIVENDL.SSRHIIDEWI..PQGE...CYVKALPKGKSVHLLAGNVPLSGVTSILRAILTKNECIIKTSSADPFTATALVNSFIDVDAEH.........PITRSISVMYWSHSEDLAIPKQIM..SCADVVIAWGGDDAIKWATE.HAPSHADILKFGPKKSISIVDNPT.....DIKAAAIGVAHDICFYDQQACFSTQDIYYI...GDSIDIFFDELAQQLNKYKDILPKGERNFDEKAAFSLTERE.....CLFAKY..KVQ.KGESQSWLLTQSPAG........SFGNQPL.SRSAYIHQVNDISEVIPFVHKA.VT..QTVAI.APWESSFKYRDI.LAEHGAERIIEAGMNNIFRVGGAHDGMRPLQRLVNY
+Q3KD56_PSEPF/30-413              ARALDTTTVLGAAAIFAERLQDP............DMAMPIEPEQRQA.......LIGFCQPDALRRKLERELGEQPGSLRRLD..YRQS...RFERWSPLGLVVHITPGNAPLLAFCAVIEGLLAGNVNWLRPSSSDQGLTAQLLHGLAQCDATG.........QIAGHIAVV...PASTAQVGQLC...QRANGVSAWGGESALQAIRQ.QLAPGCRWIDWGHRISFIYLTPAA.....ATPEALDAVADEVCRLDQQACSSPQWLLVDSDDESILRAIGNDLAEAFERRSRHWPVLLPSIQEASEITTRTAMARLAQSFSEVD..GQV..WQAPDWRVIWTHDQ........QLAPSPL.FRSLLLKPLPRA.QVSEQLLPW.RNVLQSAGL.MCAEHETAELAQTLIAAGVTRITPVQAIHDGYEGEPHDGVYALQRLSRR
+Q7NQ23_CHRVO/30-413              AAEPDVDAVLSCAERFADALAGA............ERHPLLDEPGRAQ.......LAAFCRREALQAKLERELGERPFSLRRPD..YREP...RFEAWRPLGLVLHVTPSNAALLPFMAALEGLLAGNVNWLRPSSSDQGLSSRLLAELLRHDASG.........RLAARVAVL...PAPSDALPRLM...ADADGVSAWGGDAALSAIRA.RLPAGCRWIDWGHRVSFAYLDPAA.....AADEALDALADDICRFDQQACSSPQALLVDSDDPAAIHEMARRLAAALARRAPLWPALTPDLQEAAEISARMAFHKLDQAFADDQ..GQV..LSGQGWRLAWSMEQ........ELAPSPL.FRTVELRPAPRA.ALARILRPW.RTHLQSCGL.IAPPARLPELSRMLLAAGVSRVAPAGRMHDGYHGEPHDGVYALQRLSRR
+Q7MZU4_PHOLL/30-413              ACPPSVQQVLACAERFVDDLDNV............AVKLALDTAALTA.......LRHFCHRDSLEAKLRHELGEQPFSLRRFD..YTQP...RFETWQPLGLVVHITPANAPLLPFMAVLESLLVGNVNWLRPSSSDHGLNAQILAEFLRHDLSG.........TLAPYISVL...PLPSDQLSELL...ACADAVSAWGSNSALTAIRS.QLRPGCRWIDWGHRISFAYFDPMA.....ASDADYDALADDVCRFDQQACSSPQCLLVDSADENVLREVVSAVAAALARRATIWPALQTDIQEAAEISSQMAFLKLDHTFAELR..GSV..EEGNGWRVAWIQRQ........ELAPSPL.YRTLQVRPAPRA.QLVEILLPW.RPYLQSCAL.IVKEKELPMLSRQLLAAGVSRICQAGVMHDGYEGEPHDGVYALTRLARR
+Q8G6W7_BIFLO/65-480              LAAMSVNDILDIVADAAQLWADPDFELRRQAELLIPAITGYEPDMVRIELKR...YMRQFRRRELLRFLDSEI.GQPSMLDEFR..PNKA..GGYSKYVGPALTYQVFSSNVPGIPVWSMAMTLLVKGAILGKSSFSEPVMPAFFARSIAMVNSD...........LADAIAVVPW.KGGSQQLEDSAI..DAADAVIVYGSSQTTKLIAG.KVAGSKPCLGYGAKVGLAFIGREALRPD.TYADTVHRVAVDIATYDQQSCLAPQTVFVETDGALTPREVAQLLGGELENQQRKYPRSVLSDAENVAIQRARTDAEMRALMGGKA..AVFASGHSTAWSVLYRELDGSGADEDVASLMSPL.NRTVNVVAVPDLLDAARRLTSC.RGWLQSCGV.AVDSTRLFGLADTLAEVGVNRICPLGEMDRAKSGWHHDGGFNLIDLLRA
+#=GC seq_cons                    hsslslppllshlhpsupcWpssp.phh..h...htphhuYspphhp..hct...hhhhCp+suLhcll-p-L.up.chLD-al...pts...sY.+AhP+GlshHlluGNVPLlslhSllculLsKNssllKsSSSDPhhsssLlpohh-lDsst.........slscolSVlYa.cuscspLscplh..spADsVlAWGG--Alchlsp.ptsspschlcFGsKhShull-ssA.....slspAsculAcDIChaDQpAChSsQslalp...ssslcEFspcLuptLs+hscllP+up.shsEpAthotpct-.....shhsth..tVh.pspspsWhllhSptt........thhspPL.pRolhl+tlscl.-llphlpps.ps..QTlul.hshpuphthhsp.LuttGVpRIscsGhhshacsGtsHDGhhsLpRLV+a
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/M1.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/M1.hmm
new file mode 100755
index 0000000..5ee4e25
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/M1.hmm
@@ -0,0 +1,24 @@
+HMMER3/e [3.0 | March 2010]
+NAME  M1
+LENG  1
+ALPH  amino
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:49:23 2011
+NSEQ  2
+EFFN  2.000000
+CKSUM 0
+STATS LOCAL MSV       -4.9046  1.46065
+STATS LOCAL VITERBI   -5.1999  1.46065
+STATS LOCAL FORWARD   -0.0517  1.46065
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   0.35624  4.75100  4.29053  4.19828  4.88306  3.48560  5.11004  4.21322  4.22519  4.00099  5.04236  4.13232  4.23379  4.52899  4.38323  3.09073  3.42594  3.72730  6.17838  5.12044
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01467  4.62483  5.34718  0.61958  0.77255  0.00000        *
+      1   0.32372  4.76536  4.42980  4.32857  5.00499  3.55951  5.22620  4.27004  4.37081  4.10495  5.08789  4.22499  4.36948  4.63911  4.51684  3.12947  3.46009  3.76842  6.33337  5.25783      1 A - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  4.62006        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/M1.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/M1.sto
new file mode 100755
index 0000000..3d89064
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/M1.sto
@@ -0,0 +1,5 @@
+# STOCKHOLM 1.0
+
+seq1   A
+seq2   A
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Makefile.in b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Makefile.in
new file mode 100755
index 0000000..72b6937
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Makefile.in
@@ -0,0 +1,66 @@
+top_srcdir     = @top_srcdir@
+srcdir         = @srcdir@
+VPATH          = @srcdir@ 
+
+SQCLEVEL = 2
+
+ESLDIR = @HMMER_ESLDIR@
+
+ALIS = 	20aa\
+	Caudal_act\
+	LuxC\
+	M1\
+	Patched\
+	RRM_1\
+	SMC_N\
+	XYPPX\
+	ecori\
+	3box\
+	PSE\
+
+# beautification magic stolen from git 
+#
+QUIET_SUBDIR0 = +${MAKE} -C #space separator after -c
+QUIET_SUBDIR1 = 
+ifndef V
+	QUIET_CC      = @echo '    ' CC $@;
+	QUIET_GEN     = @echo '    ' GEN $@;
+	QUIET_AR      = @echo '    ' AR $@;
+	QUIET_SUBDIR0 = +@subdir=
+	QUIET_SUBDIR1 = ; echo '    ' SUBDIR  $$subdir; \
+		        ${MAKE} -C $$subdir
+endif
+
+.PHONY: check hmms clean distclean
+
+check: 
+	@echo 
+	@echo Running HMMER test suite...
+	@echo
+	@${srcdir}/../${ESLDIR}/devkit/sqc ${SQCLEVEL} ${srcdir}/testsuite.sqc .. ${srcdir}/..
+
+hmms:
+	for ali in ${ALIS}; do\
+	   ../src/hmmbuild $$ali.hmm $$ali.sto;\
+	done
+
+clean:
+	-rm -f *.gcno *.gcda *.gcov
+	-rm -f *.o *~ 
+
+distclean: clean
+	-rm -f Makefile
+	-rm -f esltmp[a-z][a-z][0-9][0-9]*
+
+################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $URL: https://svn.janelia.org/eddylab/eddys/src/hmmer/branches/3.1/testsuite/Makefile.in $
+# SVN $Id: Makefile.in 4032 2012-05-09 12:54:46Z eddys $
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PAX8_HUMAN b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PAX8_HUMAN
new file mode 100755
index 0000000..24f4d35
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PAX8_HUMAN
@@ -0,0 +1,9 @@
+>sp|Q06710|PAX8_HUMAN Paired box protein Pax-8 OS=Homo sapiens GN=PAX8 PE=1 SV=2
+MPHNSIRSGHGGLNQLGGAFVNGRPLPEVVRQRIVDLAHQGVRPCDISRQLRVSHGCVSK
+ILGRYYETGSIRPGVIGGSKPKVATPKVVEKIGDYKRQNPTMFAWEIRDRLLAEGVCDND
+TVPSVSSINRIIRTKVQQPFNLPMDSCVATKSLSPGHTLIPSSAVTPPESPQSDSLGSTY
+SINGLLGIAQPGSDKRKMDDSDQDSCRLSIDSQSSSSGPRKHLRTDAFSQHHLEPLECPF
+ERQHYPEAYASPSHTKGEQGLYPLPLLNSTLDDGKATLTPSNTPLGRNLSTHQTYPVVAD
+PHSPFAIKQETPEVSSSSSTPSSLSSSAFLDLQQVGSGVPPFNAFPHAASVYGQFTGQAL
+LSGREMVGPTLPGYPPHIPTSGQGSYASSAIAGMVAGSEYSGNAYGHTPYSSYSEAWRFP
+NSSLLSSPYYYSSTSRPSAPPTTATAFDHL
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PSE.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PSE.hmm
new file mode 100755
index 0000000..77ad1cb
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PSE.hmm
@@ -0,0 +1,73 @@
+HMMER3/e [3.0 | March 2010]
+NAME  PSE
+LENG  17
+MAXL  72
+ALPH  DNA
+RF    yes
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:48:53 2011
+NSEQ  20
+EFFN  20.000000
+CKSUM 2589846231
+STATS LOCAL MSV       -6.1913  0.76142
+STATS LOCAL VITERBI   -6.4257  0.76142
+STATS LOCAL FORWARD   -2.7613  0.76142
+HMM          A        C        G        T   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   0.98363  1.57656  2.60145  1.06364
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  0.00000        *
+      1   4.63594  4.36328  1.87494  0.19334      1 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      2   0.99589  3.61057  0.64655  2.52921      2 g x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      3   0.19493  4.44730  4.81228  1.84982      3 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      4   5.10685  0.02173  5.27971  4.57065      4 C x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      5   5.10685  0.02173  5.27971  4.57065      5 C x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      6   5.10685  0.02173  5.27971  4.57065      6 C x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      7   0.00946  6.09180  5.39984  5.93846      7 A x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      8   5.18007  4.77052  5.30682  0.01925      8 T x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+      9   1.14540  1.77945  2.32761  0.87793      9 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     10   0.14385  5.63736  2.06991  5.46746     10 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     11   0.11263  5.71406  2.30920  5.55227     11 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     12   1.68342  1.78504  3.41886  0.48821     12 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     13   0.39479  4.16193  4.46740  1.20690     13 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     14   1.14371  2.25120  2.34691  0.73308     14 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     15   5.18007  4.77052  5.30682  0.01925     15 T x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     16   1.86864  4.23580  4.72896  0.19557     16 t x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00905  5.40268  5.40268  1.46634  0.26236  1.09861  0.40547
+     17   0.25900  4.32667  4.67013  1.58185     17 a x .
+          1.38629  1.38629  1.38629  1.38629
+          0.00454  5.39816        *  1.46634  0.26236  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PSE.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PSE.sto
new file mode 100755
index 0000000..9952e69
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/PSE.sto
@@ -0,0 +1,27 @@
+# STOCKHOLM 1.0
+
+# Proximal sequence element (PSE)
+
+Onc120/U1         TGACCCATAAATATTTA
+Onc121/U2         TGACCCATTAATATTTA
+Onc123/U2         TGACCCATTAGTATTTA
+Onc77/U2          TGACCCATTAGTATTTA
+Onc124.1/U3       TAACCCATTAATAATTT
+Onc125/U4         TGACCCATTAATATTTA
+Onc127/U5         TGACCCATTAATATTTA
+Onc128/U6         TAACCCATTAATATTTA
+Onc151/U4atac     TAACCCATAGAAACTTA
+Onc114/U6atac     TGACCCATAGAAAATTA
+Onc81/SRP         TAACCCATAAACTTTTA
+Onc149/RNaseP     TGACCCATTAACTATTA
+Onc150/Telomerase TGACCCATAAATATTTA
+Onc91/classII     TGACCCATGAATTATTA
+Onc92/classII     TAACCCATAAATAATTA
+Onc94/classII     TTACCCATAAACAATTA
+Onc95/classII     TGACCCATTAATATTTA
+Onc96/classII     TGACCCATTAAAAGTTA
+Onc155/classII    GATCCCATCAATTTTAT
+Onc156/classII    TAACCCATTAATAATTA
+#=GC RF           xxxxxxxxxxxxxxxxx
+#=GC SS_cons      .................
+//
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Patched.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Patched.hmm
new file mode 100755
index 0000000..f12749a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Patched.hmm
@@ -0,0 +1,2435 @@
+HMMER3/e [3.0 | March 2010]
+NAME  Patched
+ACC   PF02460.9
+DESC  Patched family
+LENG  803
+ALPH  amino
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:48:47 2011
+NSEQ  10
+EFFN  1.713867
+CKSUM 2541645256
+GA    -436.30 -436.30
+TC    -435.20 -435.20
+NC    -436.40 -436.40
+STATS LOCAL MSV      -12.6132  0.69618
+STATS LOCAL VITERBI  -13.0954  0.69618
+STATS LOCAL FORWARD   -6.4827  0.69618
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.54327  4.15694  3.10403  2.79804  3.04067  3.04113  3.75710  2.62553  2.84561  2.34089  3.40343  3.14759  3.44981  3.16839  3.12171  2.63570  2.76303  2.51805  4.45047  3.40873
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.00000        *
+      1   2.72659  4.18869  4.23243  3.64386  2.82429  3.83932  4.14476  2.31204  3.51665  1.67965  2.81973  3.15518  4.20430  2.94373  3.68276  3.12856  2.95838  1.95940  4.80081  3.61325      1 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      2   2.37529  3.49606  2.97843  2.89833  3.04286  3.64665  3.89114  3.01888  2.86347  2.18808  3.60050  3.33490  3.30471  3.17848  2.77963  2.88237  2.21593  2.78181  5.07269  3.82324      2 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      3   2.70698  4.37237  3.69767  3.13170  3.51745  3.70644  3.99422  2.44546  3.07293  2.05864  3.49174  2.97718  4.09445  3.36556  3.39869  1.93425  2.52502  2.32067  4.98329  3.75939      3 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      4   2.70487  4.55818  2.86717  2.83673  3.07621  3.62915  3.87112  3.08711  2.81304  1.99555  3.65714  2.76403  4.01629  3.13391  3.21216  2.14334  2.93825  2.47566  5.12202  3.85905      4 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      5   2.82309  5.26050  1.76835  2.43515  4.58100  2.52584  3.76853  4.04778  1.84716  2.98151  4.33580  2.98505  3.94925  2.88843  3.02799  2.78756  3.06426  3.64294  5.71977  4.31885      5 d - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      6   2.12782  4.37385  3.74605  3.17779  3.51305  3.73035  4.01712  1.83045  3.08756  2.29230  3.48530  3.53931  2.66173  3.39631  2.90343  2.99548  2.96360  2.59250  4.98758  3.76821      6 i - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      7   2.70391  3.50716  3.43107  2.86600  3.69372  3.63835  3.87785  3.06314  2.82099  2.19764  3.63472  3.31102  3.16434  2.67824  2.40713  2.52856  2.93634  2.29774  5.10311  3.84868      7 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      8   2.71674  4.77076  2.82361  2.65484  2.76840  3.57948  3.12090  3.36890  2.29668  2.59807  3.85355  2.74938  3.96743  2.98201  3.08118  2.79406  2.94805  3.08368  5.24499  2.45155      8 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+      9   2.78106  4.19318  4.47133  3.87689  3.26362  3.93355  4.25690  2.20830  3.72223  1.81529  2.74449  3.99826  4.28974  3.90210  3.82987  3.23542  2.03405  1.85442  4.82961  3.01588      9 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     10   2.78470  4.60683  3.51242  2.93437  2.27529  3.70342  3.87261  3.13518  2.18654  2.49972  3.69951  3.36464  4.08013  3.17390  2.12444  2.94637  3.01101  2.89831  5.02737  2.84447     10 r - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     11   2.70708  4.87683  2.76865  2.56673  4.11031  3.54064  3.75182  3.52042  2.55937  2.74420  3.16603  3.08210  3.93337  2.33216  3.01749  2.42702  1.95372  3.20563  5.38875  4.06080     11 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     12   2.40968  5.21896  2.84348  1.84130  4.55704  2.94317  3.77565  4.02156  2.56196  3.54202  4.31808  2.99083  2.03195  2.49051  3.05146  2.77803  3.05270  3.61754  5.70940  4.31247     12 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     13   2.39579  4.96765  2.45321  2.51432  4.23606  3.51647  3.73321  3.66220  2.52180  2.86710  4.04682  2.35055  3.20092  2.87143  2.99339  2.43688  2.94345  2.48585  5.47090  4.12075     13 n - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     14   3.10309  5.62000  1.06125  2.39600  5.03961  2.76449  4.01681  4.56254  3.00160  4.04928  4.86829  2.35752  4.08087  3.17232  3.58717  2.30645  3.40358  4.09914  6.20389  4.71120     14 d - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07604  4.51845  2.77549  0.61958  0.77255  0.48576  0.95510
+     15   1.61279  4.47283  4.57841  4.04542  3.61041  4.21397  4.69912  1.36586  3.92682  2.01710  3.49200  4.26379  4.59384  4.18071  4.13030  3.55656  3.30939  2.03048  5.35318  4.16230     15 i - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01733  4.45973  5.18208  0.61958  0.77255  0.58047  0.82015
+     16   2.75192  5.13272  3.04680  2.48639  4.46102  3.52341  3.69126  3.90669  2.17699  3.42060  4.19473  3.01425  2.55745  2.52511  2.03955  2.40884  2.55799  3.51797  5.57435  4.21506     16 r - -
+          2.68621  4.42228  2.77522  2.73126  3.46357  2.40516  3.72497  3.29357  2.67720  2.69358  4.24693  2.90350  2.73742  3.18149  2.89804  2.37890  2.77499  2.98521  4.58480  3.61506
+          0.15611  1.97390  5.18208  0.25355  1.49630  0.43079  1.04981
+     17   2.41995  4.67794  2.77643  2.72024  3.15645  2.62228  3.82621  3.26471  2.70896  2.92842  3.78328  3.20065  3.97972  3.04134  3.13675  2.05219  2.93984  2.99273  2.91696  3.94198     18 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     18   2.77612  4.31334  4.00806  3.43320  2.34916  3.82553  4.01494  2.77818  2.83805  2.03548  3.42444  3.70331  4.19459  3.57888  2.45490  3.10105  3.00672  2.57920  3.12161  2.44382     19 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     19   2.45934  4.74440  3.22685  2.66558  3.94395  3.57803  3.79195  3.33645  2.29444  2.98494  3.21911  3.15932  3.96536  2.98434  2.67370  2.49683  2.12271  3.05470  5.27674  2.74086     20 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     20   2.93676  5.29735  2.71486  1.35006  4.74805  3.48326  3.94305  4.22123  2.80006  3.75387  4.56048  3.03961  1.86449  3.09053  3.29489  2.43870  3.22688  3.79716  5.92344  4.51551     21 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     21   2.70178  4.75906  2.78835  2.30552  3.16694  3.56801  3.78267  2.86698  2.62837  3.00041  3.84099  3.14126  3.22379  2.96959  2.42163  2.78027  2.93320  2.73834  5.28817  2.78729     22 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     22   2.40503  5.08147  2.66113  2.24487  4.37399  2.36772  3.69743  3.82428  2.45902  2.94721  3.40184  2.99147  3.89447  2.43691  2.94126  2.42427  2.93992  3.44380  5.54810  4.17111     23 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     23   1.97176  4.65296  3.30761  2.76653  3.86701  3.58494  3.12568  3.24866  2.73851  2.92077  3.78081  3.23461  3.99429  2.71235  3.15085  2.28372  2.95109  2.01439  5.23504  3.95759     24 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     24   2.70446  4.49162  2.94100  2.91751  2.52279  3.65628  3.89602  2.67951  2.87887  2.37792  3.59054  3.34945  4.03755  3.19337  2.22349  2.56004  2.93606  2.77084  5.05224  3.16741     25 r - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     25   2.17133  4.88583  3.11608  2.57300  4.15771  3.52461  3.17385  3.57431  2.56829  2.76427  3.99519  2.43217  3.93239  2.91920  3.02662  1.98898  2.55114  3.24648  5.42551  4.09422     26 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     26   2.71243  5.06970  3.01959  1.74203  3.47956  2.99161  3.70047  3.80485  2.21085  2.94067  4.12699  3.00209  3.90029  2.82011  2.57890  2.44333  2.94325  3.43021  5.53641  4.16554     27 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     27   2.70402  5.05378  2.41217  2.46543  4.33795  3.50436  3.03311  3.78298  2.27810  2.76449  4.11111  2.64773  3.89625  2.81975  2.62264  2.70014  2.64666  2.89889  5.52432  3.33423     28 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+     28   2.84388  4.77429  3.31566  1.61618  3.73097  3.67654  3.90072  3.28980  2.78990  2.94222  3.86551  3.30606  4.09241  3.16684  3.17381  2.95699  3.08437  2.63540  2.06185  3.79380     29 e - -
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+    777   3.52000  5.58320  3.99663  3.23490  5.15070  4.05397  3.90432  4.45807  0.68201  3.81973  4.71050  3.58566  4.40429  3.03479  1.93074  3.49876  3.65038  4.14310  5.78260  4.68456   1001 K - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    778   2.57903  2.72578  4.44561  4.10677  4.38269  3.35002  4.81989  3.49521  3.95585  3.41862  4.36384  3.96062  4.11768  4.23090  4.12742  2.82211  0.69739  3.11461  5.85040  4.68672   1002 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    779   2.93028  4.31419  4.65557  4.07898  3.43943  4.13277  4.50845  1.59865  3.93238  2.31697  2.07072  4.20952  4.48198  4.12671  4.05264  2.80207  3.17082  1.55035  5.07144  3.88927   1003 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    780   2.73182  4.12832  4.53834  3.93555  2.34549  3.88592  4.20053  2.28125  3.75423  1.86963  3.22056  3.99362  4.24723  3.91113  3.81659  2.58535  2.96383  1.76385  3.34490  3.53484   1004 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    781   3.97504  5.27025  5.23043  4.91583  3.52610  4.80160  5.38331  2.79776  4.68798  0.35703  3.41971  5.13843  5.15337  4.88800  4.74037  4.52459  4.25279  2.99364  5.58771  4.44723   1005 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    782   2.67963  2.91144  4.43550  3.93361  3.68511  3.64253  4.48666  2.66953  3.80448  2.70227  3.66094  3.96977  4.21911  4.02432  3.96525  2.55005  2.47107  1.07085  5.22267  4.03831   1006 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    783   3.13526  4.45133  4.99677  4.43349  3.57270  4.44559  4.85970  1.65404  4.29613  1.91148  2.71890  4.54935  4.74877  4.47046  4.39560  3.78386  2.76416  1.16848  5.33604  4.16579   1007 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    784   2.40281  4.34100  3.73216  3.16344  3.47743  3.04762  3.99482  2.39156  3.10240  2.28180  3.45892  2.86964  4.09395  3.38644  3.41607  2.64093  2.61169  1.91337  4.94612  3.72681   1008 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    785   3.16808  4.50735  4.97194  4.39070  2.60449  4.40772  4.74624  1.39713  4.23673  1.31927  3.22177  4.50729  4.69187  4.35547  4.30598  3.73657  2.71861  2.26581  5.16107  4.01873   1009 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    786   2.46148  2.64317  4.32457  4.04729  4.71679  0.80645  4.86298  4.14676  3.99835  3.86059  4.67315  3.86053  4.01178  4.22326  4.18995  2.06093  3.00054  3.51309  6.09209  4.95328   1010 g - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    787   2.08298  4.19881  4.23627  3.64889  2.77869  3.84930  4.15599  2.25827  3.52349  1.66974  2.73386  2.98929  4.21397  3.73604  3.69209  3.13892  2.96835  2.40561  4.81345  3.62518   1011 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    788   3.05529  4.40568  4.92660  4.32679  2.62579  4.25072  4.53786  1.94257  4.14289  1.17623  3.13380  4.37782  4.55095  4.23156  4.16547  3.57107  3.28123  2.12272  2.99886  3.76073   1012 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    789   3.98544  5.59475  4.03439  3.89918  3.98413  4.18882  0.31035  4.80527  3.74020  4.18838  5.31854  4.26437  4.79289  4.28753  3.94247  4.06580  4.32980  4.52631  5.41954  3.92617   1013 H - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    790   1.91211  4.52752  3.92595  3.82280  4.98415  0.63578  4.90556  4.41227  4.01378  4.13513  4.96305  3.82652  4.09256  4.23605  4.24306  2.79596  3.14952  3.72735  6.29043  5.16207   1014 G - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    791   3.84943  5.07544  5.65631  5.07877  3.27826  5.21563  5.49245  2.09040  4.93438  0.59051  2.37854  5.32242  5.24110  4.84995  4.92538  4.60230  4.05166  2.64772  5.51833  4.56410   1015 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    792   3.23570  4.54665  5.15380  4.56544  2.00481  4.50480  4.84916  1.59973  4.39930  1.65237  2.43294  4.64414  4.76320  4.47037  4.42116  3.84138  3.46263  1.77247  5.19598  4.08558   1016 i - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    793   3.36019  4.65230  5.24136  4.67103  1.52330  4.65918  4.96947  1.58791  4.52207  1.59215  3.21499  4.77631  4.88974  4.58584  4.55848  4.00645  3.58767  1.94016  5.26788  4.10550   1017 f - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    794   3.67128  4.92003  5.52562  4.94963  3.32566  5.02787  5.35391  1.99576  4.81834  0.72941  2.42768  5.14479  5.13202  4.78332  4.82828  4.39787  3.88441  2.13549  5.48310  4.49005   1018 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    795   3.82761  5.42446  4.50452  4.46194  5.33326  4.07855  5.43868  5.10776  4.58651  4.63167  5.73648  4.68720  0.19352  4.94902  4.71504  4.02418  4.32233  4.66624  6.28610  5.47539   1019 P - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    796   1.94708  4.52351  4.98978  4.47536  3.84964  4.49765  5.09697  1.21062  4.37462  2.50931  3.68709  4.63032  4.85698  4.61649  4.54802  3.86967  3.45782  1.31947  5.66004  4.45406   1020 i - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    797   3.56586  4.83043  5.42753  4.86163  1.85987  4.87395  5.09802  1.37060  4.71362  1.20524  3.12690  4.98373  5.03428  4.70120  4.71746  4.23452  3.78364  2.45801  5.27856  4.10729   1021 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    798   3.68607  4.95366  5.45100  4.89103  2.49300  4.97517  5.18718  2.44609  4.75141  0.64523  3.07676  5.06624  5.10127  4.72077  4.76751  4.34431  3.90091  2.19009  5.32566  4.18584   1022 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    799   2.15257  3.37345  3.87250  3.29692  3.39462  3.74610  4.03172  2.38507  3.21610  2.25664  2.79600  3.61137  4.12271  3.48229  2.92580  2.07529  2.93352  2.53116  4.88021  3.67221   1023 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    800   2.43997  4.29349  3.84355  3.26864  3.41187  3.74632  4.02526  2.47441  2.67985  1.69341  2.73138  3.59490  4.12156  3.46142  3.46762  2.62775  2.60854  2.54133  4.89592  3.68595   1024 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    801   2.75240  2.97594  4.50933  3.91524  1.80961  3.89575  4.22992  2.51182  3.74602  1.82483  3.25504  3.99631  4.26577  3.91485  3.83010  2.75459  2.98991  2.06515  4.77737  3.57880   1025 f - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    802   2.42553  4.77476  2.41057  2.63741  3.99989  3.04533  3.78814  2.76936  2.62844  3.03746  3.87399  3.13645  3.17670  2.96948  3.07465  2.47912  2.63470  2.42558  5.31965  4.01284   1026 d - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01633  4.51845  5.24079  0.61958  0.77255  0.48576  0.95510
+    803   2.47255  5.09466  2.69631  2.44832  4.39714  3.49644  3.69180  3.85132  2.23895  3.38336  4.15169  2.98685  3.04129  2.80590  2.36260  2.39483  2.35439  2.94849  5.55924  4.17890   1027 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01102  4.51314        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Patched.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Patched.sto
new file mode 100755
index 0000000..da48b29
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/Patched.sto
@@ -0,0 +1,62 @@
+# STOCKHOLM 1.0
+#=GF ID   Patched
+#=GF AC   PF02460.9
+#=GF DE   Patched family
+#=GF AU   Bateman A
+#=GF SE   Pfam-B_2400 (release 5.4)
+#=GF GA   -436.30 -436.30; 12.00 12.00;
+#=GF TC   -435.20 -435.20; 13.60 12.20;
+#=GF NC   -436.40 -436.40; 10.70 11.80;
+#=GF TP   Family
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF DC   The following Pfam-B families contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB001629;
+#=GF DR   PFAMB; PB017440;
+#=GF DR   PFAMB; PB019530;
+#=GF DR   PFAMB; PB020178;
+#=GF DR   PFAMB; PB021972;
+#=GF DR   PFAMB; PB024879;
+#=GF DR   PFAMB; PB029400;
+#=GF DR   PFAMB; PB038755;
+#=GF DR   PFAMB; PB050356;
+#=GF DR   PFAMB; PB051598;
+#=GF DR   PFAMB; PB055718;
+#=GF DR   PFAMB; PB080128;
+#=GF DR   PFAMB; PB087060;
+#=GF DR   PFAMB; PB152475;
+#=GF DR   PFAMB; PB170445;
+#=GF DR   PFAMB; PB177902;
+#=GF DR   PFAMB; PB179724;
+#=GF DR   PFAMB; PB182635;
+#=GF DR   INTERPRO; IPR003392;
+#=GF CC   The transmembrane protein Patched Swiss:P18502 is a receptor
+#=GF CC   for the morphogene Sonic Hedgehog. This protein associates with
+#=GF CC   the smoothened protein to transduce hedgehog signals.
+#=GF SQ   10
+#=GS Q09938_CAEEL/52-945  AC Q09938.2
+#=GS P91129_CAEEL/47-858  AC P91129.1
+#=GS Q19945_CAEEL/49-901  AC Q19945.2
+#=GS Q18129_CAEEL/47-926  AC Q18129.1
+#=GS O61894_CAEEL/44-830  AC O61894.1
+#=GS O16307_CAEEL/1-766   AC O16307.1
+#=GS O16530_CAEEL/48-891  AC O16530.2
+#=GS Q21883_CAEEL/44-838  AC Q21883.1
+#=GS O02246_CAEEL/64-939  AC O02246.2
+#=GS O44978_CAEEL/31-791  AC O44978.1
+Q09938_CAEEL/52-945             LTLLDARKLYTPVSAP.SWKEEQVFSELWPVKSYEFLPERTFQWNRY..LYLVVHGRPYENGTYPNILEGSYLNDIAKIEEELVTNVSFPREAALEDNPALMRKRHLNETEIEENRN...ITITFKDVCMNW.YGDCYREKNVI................ELLKRRHELNKRGISVTFPQVNQEGTPIYIAFVIGGVDTYP...............................NDTIKYARAMRLWYFLKFDDEEQEQLAKFWEDTAEKFVRETYADH.PTIQCHIKHSRIVDQGLTRNANRLKPYFNVTIAVLVLFTAFYSVKWYFRMDHSWPLHIDWLRSKPMLALGGVLSSVLAILSGIGLLLWFGMFFAEITLIAPFLVL.SIGVDDMFIAVAAWHNTEMKYP..GRSPKV...MKKRMIEAMSESAVAIFITSFTDVLSFGAGTITDIIAVQGFCAMTAACMFFTFLYQITFFAALMVISAKAQMSGRNSCMPC.......IT.................AGDIYTIEDGSLQP.....NLKKKKSKSRKDAKAEKEKKDEAKNDKNMEIEENAENAEKSSYDSSPDPSQIHIP..VKSRGAMGHFFRDYYVPWLLNWKTKLFMFVTFIIYLGISVYGICVMEQGLDYDKLLLHSDPLVEALK.REIELFHGGDQIEIAIQNCPNITI.AESRDRIELVAQEFENISYSLGG....KGTSFWMREYKK.Y..S...NLTGSYLNDNRE................SW.IVGVYEWSQLFAFYKL.WSQDFVWA...NESDYDTLELKSYRFRIG..VHRLSTPTDLVLITEELRGVADRHPD..LNIVTYQQSRAIADQLNVILSSTITNDTLAMFCMFCVALIFIPNPICALFITFAMVTIDIGVIGFLSLWSVKLDPISMITIIMSIGFSIEFSAHITHGFVSNDSNL....SAFDRCVDAMEKLAWPVVHGSLSTILGVFVLAFIDSYMVLVFFKTISLVLIIGAWHALMLLPILLSMCIP
+P91129_CAEEL/47-858             NPLSDAVYLFTPLGAQ.SKMERMSIHEKWPLTDNNYIPGRAVTQSRE..IQVTALARND.....SNILDPKFANAVYQLDKYIQTRV.......................RVLHNG....HYYSYKNLCLQYKNGGCPSNKHV.................HILSDLHN...HGFNITYPYFRFGSEGGYIGSSLGGVTVMKGEN...........................ETDILASAKAWFMIYHLKFHPEEMSYISGEWELELGRMLTQYPEDP..YISITYFHSQTLADELKRNADTLIPRFIISITLLIVFSTLCSL..SFID...GSFSIDWVLSKPILSILGVVSAGIAILTGVGFLSLMGMPYNDIVGVMPFLVL.AVGVDNMFLMVAAVRRTSRTHT...........VHERMGECLADAAVSILITSSTDVLSFGVGAITTIPAVQIFCVYTGVAIFFAFIYQITFFAACLALAMKHEASGRNSLFLI...EAVSAEK..KTSLSTF...........QRLFNLGSVP..................................................DHSASHDVKQ.PLTS.....RFFGEWYAPVLMHPVVRGIAMVWFVIYLLGASYGCSRIKEGLEPVNLLVEDSYAIPHYRLLEKYFWKYGQQVQIVINNAPDLRN.HTSRDRVHAMVLDFATSKHAIGM....ESVQFWLFEMER.YYQ......KELEVQIID.................SS.FYGLLHHFLASKTNNP.LAEDIYWGP..MPDDDNGTMVKSFRFILG..MKDLVTTMDQTDATMSFREVAARWPE..FNVTTFMPIWMFTDQYIIIIPNTVQNIIIALLVMIVIAVLFIPQPMCSLWVALACASIDFGVIGYMTLWGVNLDAISMITIIMSIGFSVDYSAHIAYGYVVSRED.....TAAGRVKEALSALGWPLSQGAMSTIIAVSVLADIPAYMIVTFFKTVVLSISLGLLHGLVFLPVLLSIFVR
+Q19945_CAEEL/49-901             LRVDDPSYVFTPSDAR.WRREISVFNENWPLDENKFLPGKSFEAKRFVNILIRAKDGGS.......IMRDNVLHEIEILNQWIMNNI.......................SIPTDD..LKFNLTYQDLCLSY.DWVCGANEHIQML...............LRRNDVN...QILDLHFPRGGTKDTPVYLGGIFGDVQFFQ...............................NGTLSDAKLTQLFYFLKQDQKMVEEYSSKFSYALETFLNQVYSSD..VITLSFAHYQSLEDGLDENAKAFVPNFVVSFFVLAMYALVSSF..TLKS..SSATKIDWISSKPWLAAAGMFSTVLSIISAFGFLFILGVRYNVINTIIPFLII.AIGIDDMFLMNACWDQTSKSLS...........VPERMSKTLSHAGVAVTITNVTDVMSFAIGCITDLPGIQFFCIYACVSVAFSYFYQLTFFSGAMAIMGEVEREKRHCLFFYRTFQLVDISKMNEEADSKL...........QQIKSRSASP.APFNYLSSSNSSFSSDSDSF........SSKKTIPAEFAWKEQQSPNSSLSKKSKDREEKDRIV.....HFIGKIYGPFILSNSVRIFSGLIFVVYLAIAMYGCYNFREGLNPGNLVTNDHYIAKYFSDI.KHFWRIGAQLHVAVLNPPNLTI.SENRNELLKVVSAFENTQYTLGR....EGTVFFLLEYLNYL..S...ELNAEVEDTER.................LW..KTKLNSWLKYTGGSTQWASNLKIN.......KTDGSFQAFRFQIA..LKNFVEPNDHKHAAQLLRDIAD.HQP..FNVVVYHEAFPFADQYLIILPATIQNVVISLLCMAVVSFLLVPSLPSGFVIFVSIVSINIGVFGYMTLWGVNLDAVSMISIIMSIGFAVDLSAHIIYAFVTSHG......DTKQRVIGALETLGWPIFQGASSTIAGISILYTVDAYIILVFFKTIWLTMLIGAIHGLFFIPIFLSLFPV
+Q18129_CAEEL/47-926             QTTNDPQYVFSPANAP.WRYERAVLTEHWPLDEEKFWPGKSYDLHGY..VDVIASGRIHPDYGRPNILNIRYLDEVARINDYIIHNL.......................TVPVDINGKHYDIAYTDLCMRY.DWACYLNDHITMLMPKTRWGNFSGPFAELASDIIN...TQVNITYPIGWRGTEPIYFGALVGAPNLVD..............................EEGHFDYASAIRLTYNTR..EGKVDQYGIEWRRKLSMWLTDKENPVSELLEFGVNHNMTLPEGLQDVADTLAPKFVGTCAILFTFSFLVSV..VLRKHRTGQVMPDWVRSKPLVAAAGLMTPIMATVTSFGLILWCGFLYNAIVNVSPFLIL.CIGIDDLFIMCAEWHRTNPQHS...........PEKRIGKTLSEAAVAISITSLTDIATFAMGCYTTLPGVQMFCMYTCVQCFFCYVYQIIFLGPVLAYAAEMEQNGQHVLLIR...KAVDPDK..TESPVKLWLLSGSVNRQDQEARRRNSRKVAPVEKEGEKKSKF......................GEVVEKLEHTLEKHDDDPGHNSEE.TLVS.....KVFREIIGPFILQKSTQVCALLLYLVYISLAIGGCLNIKEGLDPKLLVRESFYLSKFYEIIDETFWREGLQMQVVVNNPPDLFT.PETRKGFDEMMAEFENTQYTMHP....NATMIWLRAYEHHLET......EVHELNIEKPNST............VEW.YTRCRDWLIVAGGRRL.WQMDMVWAN...TTFEETPRITAFRFQLG..LRNYRTPTDHTHSCKLMRSIADKYSM..FNVTTFHEYYPFADQYLELTPSLFQNMISDLCTIFAVSWVMIPELICAVAIVLSIASINVGVLGFMSFWGVNLDSVSIITVIMCIGFSVDLSAHIAYAFSQSYG......NSHARAVAALETLGWPVFLGASSTVLGILLLTLVDSYIVQIFFKTVFLVINFSILHGLIFLPIFLMKVVR
+O61894_CAEEL/44-830             IFSFGILNMRTEDDLR.FLYSPEHSLSREEYQVHKDFSGDSKNNSFV..SITIQTSSED.....KNLLKKDLAQKLIQLNKYVLEKM.......................EIQVDG...KIINFGKEVCSRMKQCELSNTIATIFLDT...........FWSEKLRKD...PRIKIEYPTMKFFDNKFFLPTHFYGVQPGG..............................PLGIESIDMVHFVYQIPAYNEHTSEEMSKIFEQSLTALLENQTTFD.....TSMFSLSILKDEMQKNSTYTMPFISLTILLLLCFTVASCM..TDNW..........VTSKPIEAMIGILVSSMAIVSAGGLLFALGVPFINQVTVMPFIAL.AIGVDDVYVMLGAWQDTRRTLD...........AKKRMGLALEEAGSAITVTSLTSVLSFGIGTYSTTPAIAIFCKFIALAIMFDWFYQLTFFAAVMAMGAKREAAGYHCVFVW..............................KRCDREEIAK....................................................AKNENAIS..PTR.....YFFENIFAPFICRPSVRFCMLNLYVVYIAIAFYGCSQLTPNLTPSQLVVDDSPLVPYLNLAEKKIWAEGLIGRIYVNNAPDFSKNPEMVDRMLQMVNELESTPYSMGP....NSTNFWLNEFN..NYR......QFFFQEDAK....................FYETLKSFLKVSFNSH.WETDLVWDT.PDKSSKGGTKVEKFVFTTA...FKISNWNIRTSLLLTWRNITSSYPE..FDALVFDENNFYSDQMLELQSTILSSLGTAIILLSAICIMFIAESYIVFWVVCTLISMDIGTAGLLSLWGADLDPMTVVNILMSIGQCIDFATHVGIRIYRSEYS.....DPDERIRDAMGAIGWPVVQAGTSTLLAIVVMLMVPSSAVRMFARTSVLVVGTGFFHGLIILPIIVRSFAT
+O16307_CAEEL/1-766              MDNLLRRDYLDGVD...SLAEYLQYNFTVPCS.G..VRGENKLECSF..SDLCSGQCND.........NQKYLNKLRSNNEKNLQ.........................VIPLFN......LIYRNASSRL.....HPN.................................FRLTYPTMHLYNDEYYVGEHFAGVKIDP..............................NTNVISRVKVVVLYFRTDRQTTEVSQVLNNWETSLFDYVENFDHPF...LNMTVNSDAMIAREVRTNGMTCVPFFSFSVAAVVIFIFATNS..REHF.......V..FSHNVVMAILGIAGPLMATGTAFGFLFLFGFPFNSITLVMPFLIIG.VGCDDVFIIIHAMRKTDKSES...........LEDRIAETMEEAGPSITVTSATNCLSFAIGIATPTPAISLFCLYTCVAVAVDFVYQLTFFVAVLVYEEKRLMKLQKVGEEK....KIEAAM..ERRPK.............QVLSIQNSIR...................................................STAGAHPPP..ANP.....NGIVSRYCRFLKDWKTRLCLLLVLCGYWTASYYGCKTMEIKMDTTNLIMNDSPLNHIAWIYERFLWSEGQLVMVFVNNPPDLTK.SENLHEVLELVNRFETLPYSMGK....NSTSIWLRSFL..Y........QSSLYHNNK.................GF.NGLLQEWLEDSEGGGA.RWNDMLRLK..KDENGTILGIDKFMFATACAMGDDANWSTREKLQKQWRGVAHEYEH..FNVTVFQSYSFYIDQLDSIGATTMSTVIWAAITMDLACLLMIPGINSILTSTIAMISINIGVFGLLSMWRVNLDPITMCTTLMSIGFSVDFTAHISYHYYRNPTSW....TTDERLADALKSIGWPMIQAASSTVLCIFPLMFNTSYMVWVFVKTILLVTVLGLLHGIIFLPALLLTSGD
+O16530_CAEEL/48-891             VLSLKIPFTRMQNDIS.DFTPFGARSRVELEKYRKFFNNHGEPKAIY..AFITSKVGDN.......MLGISQLNDTVHVLDTISRDF.......................YLKTSQ....GPKNFEEYCSGFCLLNEPVKHFYSG...............MLISGQHGTDFSHLDLGYPITTVLGTKLYMDPNFFGVKVTTSNNKVESIADG........NTKLFGDHTKQEPNNIREVSLVVLQFRSELGDEVTPEDLRNYEHQILDYIHDEYQSE..HINVYILTDSYITEEIVRAGLTLLPFLVIGFTIMAVFSSIT......FV..............PILAVMACVCPFMACGASLGAMFFIGFRFGSILCVTPFLVL.AIGVDDSYLMANAWQRITCHRRKHARFESVNVELKNRITEMFIETGPSITITTITNALAFGIGATTPAAEIQLFSIGNALAVITDFVFTITFYGALMAVVGRYEIEQELKTQKP.......LPE..SESP..............SETSSTGSMR......................................................SSELDD..CKF.....RRMIANVCKFLTNTWVCSVVLGLLAVYWYICIVGTVNIKSELSPNKLFLAESNIVEIFKQRKSHIIPYYSACWVLVENPGDINN.PNQRAKLEELIESFEALPSANGR....YSTKFWLRDYEDFLKQSEEIDLPMEEEEDEELAIQFTVNGSQVVTPSQPFGQGNELRQFLEWPEFSF.WKGFIQVN.......ESTYQMSKFLVTTAYHGSDLVDWSNRAKLLNEWRSVADQDKFKSLNVTVYEEDAKFLDLIETMSPVAIQSALWTFASMFLVAALFISHPPTLFVATFSILSTSLGVFGIMSWWGADLDPIMMSATVMSIGFSVDIPSHVSYHFYQTAKDTS...DIRRRLQMTIEAVGFPIFEASLSTSLCVMSLFFVDLNMAQIFAKCMLLVVVIGMVHGMLVMPVIFALLDT
+Q21883_CAEEL/44-838             FCSSKICFTKQEDDIKTGYTPVGARSLDEIEVFSDFFASTGDPIAVF..LFITAKDNSS.......MADYNTMKEVVDIMDYVGSN.........................LTHKG......ESFYTLCTDFCQINEPVRQYYNG.............LAMKQQNLSEVG.SRFQLTFPMMQVLGKELDLSPNFFGVKTDE...............................DGNVEYVKIIMLQIRANIPNDWKKEDAAEYERMISQYFHFKYDST..HVTPLAMSLTYTGDEVVRTGLTIFPFIGVGFIIMTTFSIITIY..YSSS.....RLDQWSVHKVSEAILACVCPLLATSSALGTLFWFGFRFGTILCVTPFLIL.AIGVDDAYLQVHACMRLTAEDSSMT........KREKIARMLVEVGPSIAITSMTNLFAFLVGIYTPTPEISLFCAGNAVAILFDFIYQITMYTAILSICENLEMRKN.............AT....K.................RKDSGLSFK.........................................................NEQ....F.....TVMLDSYCDWVANAYTHLLVLFCFIVYIFVSIRGALNINIILSPDKLVIGDSPLLQVNYLRDQFVLPNYTTVNIFVQNPGNLTI.QSNLDYMNSLFDSFESYPECLGK....KFSHYFVRDYESFRESS...LEEMEMMEDEEGDTN.........KTALEPFSKAAMSEFLAWPEFQH.WNGFVKFD........KNGMLSKYWATVSYHGEGLGDFQVRRRMLNRWRATADQFAP..LNVSIFDDYAPFVDTLETILPATISTSVCTLICMMIVCFLFMYNVFTVFVATLAITSICIGVFGFLSMWGIDLDPISMACLIMSIGFSVDFPAHITFHYFREGLHDPQS.TPAKRVARSLAAIGFPLLQCGLSTILFVLCLLFVPTYMGEVFVKTMILVVTLGLIHGLFIVPAFLCAFTA
+O02246_CAEEL/64-939             LAIVKILLTKQANDIT.GYTPYGARAKDEYLEYQKFFSSSGLPIAAY..LYIVAKDEGS.......MSRPDYLDETIQVLNFALNNI.......................TMYDSIS..GKSETFNQFCQSFCQINEPVRQFYNG.............YQILSDGEQN...SRIKIQYPVSDMFGRQFSLQPNFFGVELFDQPDDAAKLLDSADGDPVIELNATKLVDPVSRITNVKSVKMITLQFRAEHKPGWTEAQVKKWEMSLVDIFEKRYNSK..RLKIYAYSQSYVEEEMVRGGIIMIPYLVVGFAIMCLCSCVLVM..IRAL...Y..MHQENGYKIILAIMACLTPLLACATALALMFLCGVRFASILCVIPFLVL.SIGVDSSYLMIHEWQRVTKHMRETPRKKDS...VGHRMSEVMAEVGPAILISCLTNMFADAVGSFTSSPEITLLCTGNMLSMWFAFIYQMTFYAGLMSIVGGYEFGSDEIDKNR...MEINIAE..NRVN.............IARHHRPLTRQ...................................................PSKFHEATQ..PII.....SDSLQKYTHLMTTPLVFVSVCLVYIAYLAFSVYGITQLNINLTAQKLFALDSPLLELDDLRIKYQVPVYSMATVFVNTPGKLEN.PARLKRLNEFVREMESINGTWGEGWGELGTKYFVRDYDVFQQS......FGSEDEDDEDFMDDDKPVTVHSDDKMTY.REDELKYFLKWPEYDF.WQGFVKLRNATNSTDPEAEELDRFFFTTGYHGDNLTIWTQRGEMLRAWRQVVDKYPD..FGASVFHEDGVYLDLIDNMPTDTWQSILGTLVCMAMVCFVFLNNWFTVAIASLSVLSICAGILGFLSWWKVDLDPITMAAMIISIGFSVDIPAHVSYHYYQASIQEGPMSPPSSRLANCLSSVAFPALQAALSTILCVCSLLFVNLYMAEVFVKTMVLCVVLCNLHGLVFLPAILILLDS
+O44978_CAEEL/31-791             VLSSGLVHIRLEPDIRKAFSPDDSDAGYETRVWLEYYGLDIYPERAF..CIFTAKRENS......SILQEGALADIYTVDNRLSAAV.......................GYQDGD......G..RKNCDPLCDLNSPFHLLAN.................LTRRNNG...TTSVFTYPDMPYSGLDIFLGLHLSNADFEP...............................PTERISSKSLVLWYFSRSDTPEGKLAFKDAIDELFQLSKNSSAFE..HVQFTIFSDQVANREMIRGAIEATTLMTIGFFLLLTQVIIVIV..RLSS..........VKMAFYLVATSLLTPMAATVASFGAICWMGFPSFSIQCVTPFLVLG.IGVDDAFILLHRWKHHIAITD...........TPRRLEQVIVDVGPSITITSLTNIIAFGIGFLTPTPQMSLFCLTASLALLLDYIFTYTILAPIVFLCNDPDYKS.......................................IANET.EP........................................................KISR....A.....DTWLSKYSSFVCSVKGRVACIMVLLGMYALTTYGVVTMKTTFEPAKAFPSNSKLVDSLSNI.KPVFNRYFPITVIVNNPPNIEI.KAEYDSFNNMMDRLEHVPGIRGD....NRSLIFLPQYVNFDKT.....MNILSTLVGEK................YRPSYDNLPTWMDAIGNPP.LVKYHMGD.......DNKTIVTAFRLTLL..GKGMSEWAERARAMQHIRTILHEESQ..FNATLFDCDSAILSIILTVGTDLIGSIAVTVVCMAIVCFVFIANFNAVAVITSVIASICYVLVGGLSLWGADLDPVIQVDVLLATGFSVDYTAHVAYNFFRARG......TPQERVYSSLAEMAMPMCEAGLSTFLCMLPLIFVPTYAIVCFAKTVFLVVAIGLLHGLFILPVILALFSK
+#=GC seq_cons                   lssschhahhsssDhp.uhpphsshscp.shs.pcFasucuhststa..lhlsA+spss.......lLc.shLs-lhplscalhssl.......................pl.sss....h.hsacclCpsapphspssppahph................Ltpspps...splslTYPhhphhupplYluspFuGVchhs...............................ssslppsKslhLhapschsscpscphupcaEppLtpalcpphssc..hlphshhosphls-ElpRsuhshhPahslohslLssFohlssh..hhph........p.lppKPlLAlhGlloPlhAslouhGhLFhhGhhFssIlsVhPFLlL.uIGVDDsFlMlsAWc+Tsppps...........sccRhucslsEuGsuIoITSlTslloFulGshTssPuIplFChhsulAlhFsFlYQlTFauAlhulsuchEhpuppshh.h.......hs...pc................pchcspsotp....................................................s.upcspp..hhs.....chhhshYssFltssps+lsslllallYluluhYGssslcpsLsPspLlhsDSsLlchhplh-+alastGptlpVhVNNPPcLsp.spshcclpphlscFEshsaohGc....puTpaWLR-Ycpah.p......php.hcspc.................ta..tspLcpaLchsttsh.Wpsslhhs.....p.csssplspFhFslu..hcslssassRs+hhppaRslADcasp..FNVolFc-sssasDQl.slhssTlpollhsllsMhlVshlFIsshhslhslolullSIslGVhGaLShWGVcLDPIoMlslIMSIGFSVDaoAHIuYpaapuptp.....sspcRltsALpulGWPlhQuuhSTlLslhsLhFVsoYMlhlFsKTllLVlslGhlHGLlhLPllLshhss
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/RRM_1.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/RRM_1.hmm
new file mode 100755
index 0000000..aedae55
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/RRM_1.hmm
@@ -0,0 +1,239 @@
+HMMER3/e [3.0 | March 2010]
+NAME  RRM_1
+ACC   PF00076.13
+DESC  RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain)
+LENG  71
+ALPH  amino
+RF    no
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:48:48 2011
+NSEQ  79
+EFFN  11.278137
+CKSUM 864815979
+GA    17.70 17.70
+TC    17.70 17.70
+NC    17.60 17.60
+STATS LOCAL MSV       -8.6173  0.71871
+STATS LOCAL VITERBI   -9.0843  0.71871
+STATS LOCAL FORWARD   -4.3052  0.71871
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.61685  4.43637  2.91462  2.58031  2.84654  2.78956  3.93130  2.76760  2.59921  2.44782  3.89672  2.96603  3.54165  3.19676  2.97931  2.76903  2.88528  2.56700  5.37618  3.50793
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.00000        *
+      1   3.24727  4.64122  6.58094  6.06531  4.94094  5.97868  6.53853  1.29007  5.95541  0.97189  4.07606  6.14949  6.22428  6.12754  6.03430  5.36803  4.72817  1.44013  6.88179  5.70490      1 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      2   3.58244  4.95748  5.54475  4.92948  1.12813  4.13259  5.08498  2.82214  4.14411  2.52204  3.47533  4.91355  5.11529  4.84605  3.39820  3.67123  3.33367  2.38490  4.01324  1.63143      2 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      3   4.67198  3.77129  6.83703  6.38279  5.23734  6.36035  7.14636  1.34686  6.34726  2.33710  3.22842  6.53185  6.54665  6.58971  6.50188  5.80870  4.92971  0.61559  7.39587  6.18326      3 V - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      4   3.12164  5.97423  3.48562  2.63790  4.45556  1.25648  4.42580  4.15640  2.05745  4.27930  5.01502  3.06495  4.63216  3.26201  2.43130  2.47640  2.47590  4.36460  6.40719  4.27329      4 g - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      5   3.48546  5.93542  2.87900  3.19501  4.13807  1.91626  4.45701  4.72435  3.20494  3.73704  4.98377  0.86607  4.12074  3.32356  3.25788  3.12447  3.71723  4.31267  6.38333  3.90882      5 n - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      6   5.00387  6.21419  6.99923  6.40478  2.79141  6.37725  6.65447  2.32072  6.25516  0.38342  4.18825  6.56077  6.40690  4.12549  6.16038  5.76297  5.20367  2.37584  6.64701  5.69275      6 L - E
+          2.68628  4.42235  2.77530  2.73134  3.46364  2.40486  3.72505  3.29364  2.67702  2.69365  4.24700  2.90327  2.73750  3.18157  2.89811  2.37873  2.77530  2.98529  4.58487  3.61514
+          0.06548  2.77638  6.79937  0.42688  1.05712  0.48576  0.95510
+      7   2.55271  5.95508  2.99163  3.17435  4.17641  3.20973  3.31728  4.76814  3.02033  4.25702  5.00063  2.79206  1.16177  3.53953  3.67070  2.48239  2.09057  4.34074  6.39633  4.99210      9 p - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      8   3.46722  5.93434  3.73340  2.09555  3.16491  4.24790  3.24112  4.73504  2.48825  3.30081  3.97811  2.88369  2.04516  2.91893  2.79081  2.52688  2.73560  3.91734  3.52840  2.50675     10 p - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+      9   2.72985  5.96008  1.62586  1.96760  3.73099  2.71866  4.42961  3.67470  3.16695  3.62005  5.00252  2.42147  3.91329  3.34945  3.44120  2.23426  2.86335  3.81590  6.39683  3.53754     11 d - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     10   2.13712  2.65133  5.54957  4.93397  3.67158  3.70972  5.08587  2.15927  3.90652  2.25341  2.90227  4.91569  5.11582  4.20171  4.72496  4.06357  1.85188  1.80607  5.57864  2.66758     12 v - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     11   3.26396  5.97854  2.42291  2.86757  5.32407  3.65102  4.42690  4.81045  2.76058  3.70276  5.01915  2.51551  3.91243  3.31910  3.09213  2.10229  1.07104  4.36944  6.41090  4.99952     13 t - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     12   3.46446  5.97789  2.40253  1.22013  5.32415  4.23780  3.77950  4.81096  2.35418  3.35184  5.01824  3.04942  3.24443  2.51871  2.93819  2.69969  3.29668  4.36917  3.51790  3.60662     14 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     13   2.55524  5.97829  1.92465  1.50762  5.32471  3.87236  3.50039  4.81163  2.51209  3.81015  4.15950  3.06682  4.63125  2.14284  2.78514  2.49905  3.47359  4.36965  6.41016  4.99840     15 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     14   2.62039  5.97300  1.71983  1.70485  5.31706  3.46739  3.95766  4.17845  2.53672  2.71687  3.72926  3.07661  4.63232  2.46577  3.65375  2.70838  2.92928  3.77221  4.89289  4.99593     16 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     15   5.40202  6.51045  7.43565  6.86696  3.62987  6.98013  7.25298  1.63870  6.78387  0.43164  3.64517  7.18618  6.76188  6.42510  6.62360  6.45417  5.58566  2.52731  6.92965  6.09721     17 L - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     16   2.93773  5.88926  3.46687  2.15360  3.42253  4.25898  3.81718  3.95367  1.64445  2.85732  4.93969  3.26943  4.65151  3.55977  1.78582  2.68154  3.70145  3.10911  4.71412  2.79864     18 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     17   2.57682  5.97804  1.82509  1.77769  5.32437  3.91113  4.42469  4.81123  2.35782  3.37585  3.73069  3.27535  3.51868  2.05991  2.76522  3.00305  2.73549  4.36935  6.40997  4.99826     19 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     18   2.54987  4.95917  5.53013  3.81037  2.39318  4.74961  3.27785  2.06275  4.16124  1.23080  3.36712  4.90694  5.11347  4.83829  4.05787  3.18276  3.12960  2.58209  4.14386  2.70996     20 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     19   3.42618  4.38999  5.99216  5.39217  0.40897  5.22739  5.47421  3.19493  5.18514  2.25390  3.68386  5.37801  5.54049  5.25807  5.17338  4.55010  4.26624  3.50019  5.84494  3.89436     21 F - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     20   2.62154  5.97630  3.71295  2.06054  5.32183  2.24608  4.42520  4.10836  2.08192  4.28177  5.01684  2.85328  4.63168  2.73449  2.43531  1.68067  3.28304  3.49822  6.40870  4.32822     22 s - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     21   2.88814  5.97808  2.60124  2.11624  4.38535  2.64413  3.60801  4.04949  1.74336  4.28392  5.01841  2.75416  2.47020  2.26506  3.30913  2.89136  3.09478  3.92368  6.41000  4.34876     23 k - T
+          2.68626  4.42233  2.77527  2.73083  3.46304  2.40521  3.72502  3.29362  2.67749  2.69363  4.24698  2.90326  2.73747  3.18154  2.89782  2.37895  2.77527  2.98526  4.58485  3.61511
+          0.07202  2.68274  6.79937  0.13041  2.10160  0.48576  0.95510
+     22   2.89551  3.47436  5.43745  4.03687  1.28448  4.09908  3.86386  2.41550  3.82782  2.51049  4.08959  3.84872  5.10187  3.50800  4.68261  3.59632  3.81180  2.58173  4.32924  1.81179     25 f - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     23   2.84264  6.43715  3.91590  2.61078  6.41697  0.42577  5.47973  5.95018  4.52407  5.46437  6.27401  2.95737  2.97097  4.65924  5.08366  3.45246  4.59046  5.33809  7.61043  6.17114     26 G - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     24   2.92612  5.97586  2.45681  2.24379  4.23062  2.61093  3.94039  3.40386  2.22710  3.35377  5.01645  3.29304  2.01700  2.91354  2.86467  2.48169  2.97936  3.27903  6.40838  4.99725     27 p - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     25   3.58253  4.35206  5.53962  3.21276  2.74295  4.75118  5.08442  1.16602  3.90348  2.58026  3.71681  4.91145  4.34055  4.84353  4.72157  3.48801  3.32278  1.33148  5.58012  3.42836     28 i - E
+          2.68588  4.42230  2.77524  2.73128  3.46358  2.40517  3.72499  3.29358  2.67745  2.69359  4.24694  2.90351  2.73708  3.18151  2.89805  2.37891  2.77524  2.98523  4.58481  3.61508
+          0.12632  3.20141  2.55150  0.19437  1.73359  0.48576  0.95510
+     26   3.08612  4.42671  3.75597  1.80989  5.01886  3.85217  4.42588  3.01054  2.00298  2.42513  3.77241  2.95135  4.62084  3.11411  2.83044  2.68708  2.71343  2.20557  6.22179  4.85796     30 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00370  5.99706  6.71941  0.61958  0.77255  0.49679  0.93771
+     27   2.56226  5.95663  2.37630  2.00383  5.30282  2.72174  3.31953  3.77668  2.74773  4.26239  4.99700  2.54643  4.61022  3.26512  2.55023  1.75986  2.92681  3.90056  6.38865  3.66015     31 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00352  6.04563  6.76798  0.61958  0.77255  0.36584  1.18291
+     28   1.96183  2.97401  5.54861  4.93310  2.81071  4.14662  5.08585  1.37040  4.04211  2.24110  4.07608  4.08237  5.11583  4.84816  4.72473  3.09372  3.81478  1.66500  5.57894  3.90048     32 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     29   3.46503  5.96815  2.28843  2.32957  3.90225  4.23998  3.99191  3.74450  1.97454  3.11777  4.17836  2.75145  4.63338  2.59434  2.01992  2.49030  2.83775  3.16137  4.84931  3.92600     33 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     30   3.58324  4.95729  5.55181  4.93613  3.40020  4.75314  4.08478  1.48384  4.71987  1.46911  2.70907  4.91716  4.05755  4.85013  3.87115  3.21617  3.40092  1.51342  5.57925  4.40343     34 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     31   2.96481  3.94700  5.22873  4.02218  3.00508  4.70506  4.10271  2.19493  2.71886  2.50398  2.53168  4.02720  2.22690  4.66735  3.27207  2.62546  3.42877  1.71898  5.61988  3.46062     35 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     32   3.13024  3.81413  3.46318  2.89265  3.60312  3.77942  3.59975  2.82385  2.32845  3.24160  3.92106  2.53554  2.76092  3.33102  2.20352  2.52989  2.51727  2.84518  4.76766  3.25108     36 r - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.18120  6.07703  1.81132  0.61958  0.77255  0.48576  0.95510
+     33   3.35835  5.86824  1.10124  2.54213  5.21225  2.99467  3.92067  4.69802  2.14159  3.17865  4.90946  2.45883  4.52366  3.19954  3.54818  3.32030  2.93104  3.33789  6.30123  4.88999     37 d - E
+          2.68632  4.42303  2.77547  2.73135  3.46431  2.40573  3.72441  3.29400  2.67662  2.69432  4.24614  2.90377  2.73658  3.18101  2.89705  2.37867  2.77463  2.98575  4.58555  3.61537
+          1.30041  0.65592  1.56725  0.40200  1.10558  0.71956  0.66742
+     34   2.52960  5.76580  2.98830  2.03005  3.58330  2.89820  4.22374  3.67349  2.57896  2.98156  4.80717  2.20925  3.19866  2.51406  2.81318  2.55707  3.06983  3.11706  6.20012  4.13698     42 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00470  5.75901  6.48135  0.61958  0.77255  1.18627  0.36436
+     35   3.29875  5.80429  2.89488  2.72698  3.85692  3.03581  2.76786  3.82991  2.49853  3.37053  4.84552  2.69329  3.65789  3.15012  2.84804  2.78270  1.27277  4.19378  6.23827  4.82862     43 t - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00442  5.81999  6.54234  0.61958  0.77255  1.34643  0.30133
+     36   2.76543  5.82258  2.91931  2.65337  5.16790  1.38229  3.48053  3.50653  1.91495  3.54826  4.86318  2.63464  4.47850  3.16355  2.82982  2.80864  3.24182  4.21335  6.25510  4.84401     44 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00433  5.84057  6.56292  0.61958  0.77255  0.84697  0.55986
+     37   2.83864  5.87428  3.20221  2.79612  3.58587  3.54136  3.91313  4.70568  1.91313  3.39634  4.10494  2.73711  3.03301  2.53998  1.87355  2.20994  2.80416  3.84210  6.30684  4.21705     45 r - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00399  5.92291  6.64525  0.61958  0.77255  0.88158  0.53465
+     38   2.56915  4.50931  3.71744  3.16071  3.44401  3.38592  3.10471  3.66911  2.55157  2.98707  4.80530  2.46480  2.76066  3.51533  2.83413  1.39818  2.76693  4.10529  6.21917  4.84850     46 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00383  5.96277  6.68511  0.61958  0.77255  0.58889  0.80956
+     39   2.95707  5.93457  2.91288  3.12073  3.83677  3.50695  3.49117  4.76364  1.51017  3.40692  3.64638  2.67571  3.49747  3.03779  1.74677  2.74493  2.91306  3.88116  6.36795  4.27059     47 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00362  6.02010  6.74245  0.61958  0.77255  0.30637  1.33224
+     40   3.47057  4.16550  3.19921  3.20142  4.14458  0.90579  3.98974  4.06832  2.66963  3.81449  4.93910  2.83321  2.86526  3.28430  2.71359  3.45160  3.70175  3.41190  6.34391  4.95638     48 g - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     41   3.57907  3.45829  5.41566  3.42209  1.35268  4.73403  3.44844  2.75749  3.34017  2.62438  3.23729  4.85369  5.09901  3.92637  3.94172  3.17938  2.88261  2.40348  4.50341  1.95441     49 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     42   0.81057  2.45642  6.11573  5.81891  5.57306  1.16746  6.21305  3.79948  5.65424  4.69232  5.56399  5.34535  5.36861  5.77030  5.67918  3.52578  3.67805  3.36960  7.04209  5.91779     50 a - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     43   3.18429  4.96217  5.51711  4.90381  0.72595  4.74904  5.08067  2.75850  3.87105  2.46003  4.08077  4.90168  5.11298  4.83181  3.95246  3.66912  3.54952  2.70172  5.58294  2.41744     51 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     44   3.65443  3.70928  6.70728  6.23306  5.20263  6.17821  6.88451  1.50788  6.16835  2.53323  3.76285  6.34831  6.40837  6.41580  6.30564  5.60017  4.81909  0.52780  7.22590  5.99591     52 V - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     45   2.66080  5.97748  2.81451  1.44554  5.32356  4.23787  4.01807  4.15955  2.21334  3.89776  5.01787  2.95158  4.63136  2.69382  2.56215  2.85042  2.10520  3.18563  6.40956  4.30765     53 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     46   5.57267  6.63680  6.84357  6.64336  0.45942  6.36849  5.26121  4.79080  6.42415  3.42516  3.51551  6.05379  6.58700  6.12363  6.23741  5.75916  5.77210  3.28893  5.33767  1.48935     54 F - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     47   2.29359  5.97692  2.21144  1.72776  3.86918  3.93402  3.15913  3.96207  2.13843  3.73204  5.01738  3.19248  3.05505  3.03354  3.14648  3.01375  2.45316  3.32043  6.40915  4.99774     55 e - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     48   3.46509  5.97866  1.78483  2.67206  5.32495  4.23817  3.93421  4.81180  2.41174  4.28445  5.01902  2.01096  4.63178  2.79118  3.13701  1.76593  2.14177  3.98781  6.41058  4.18662     56 s - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     49   2.93171  5.96847  3.16257  1.95260  4.16368  3.76970  2.87407  3.33228  2.01038  3.07357  4.38746  3.48687  2.80517  2.66524  2.91498  2.31060  3.29397  2.88282  6.40297  3.58713     57 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     50   2.70744  5.96998  1.97273  1.41715  5.31269  3.75419  3.95991  3.65643  2.92164  3.79375  4.32542  3.48265  3.66288  3.32345  2.31887  2.42509  3.33310  3.05610  4.90689  4.07336     58 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     51   2.42321  4.83887  1.59545  2.25770  3.93296  2.71847  4.06364  3.86281  3.17436  3.59905  4.17214  2.98616  4.16117  2.71046  3.66478  1.93122  3.24279  3.65093  6.38502  4.02700     59 d - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     52   0.75413  4.96585  5.47890  4.86803  3.06805  4.74295  5.07305  3.01496  4.66729  2.53760  2.73552  4.88359  5.10729  4.05995  4.21808  3.06628  3.16054  2.46385  5.58661  3.75310     60 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     53   2.41943  4.46315  2.34190  1.75052  5.32263  3.44834  3.93415  3.14989  2.29917  3.23895  5.01730  2.85560  3.96835  2.52125  2.77815  3.17494  2.40522  3.68782  6.40908  4.99769     61 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     54   2.01435  5.97500  2.67201  2.47753  4.43134  4.23842  3.47746  4.18040  1.46444  3.55851  4.28258  2.91144  4.63189  3.07913  2.40471  2.58706  3.47891  3.54389  6.40775  3.57807     62 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     55   0.56421  2.77447  5.65011  5.05171  3.59393  4.85769  5.24983  2.61078  4.84979  3.07812  4.21082  5.04100  5.23829  4.99007  4.87270  3.42972  3.93373  2.47100  5.75182  4.57373     63 A - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     56   3.13904  4.96487  5.48770  4.87624  3.34029  4.74429  5.07480  1.59771  2.29675  1.34485  3.18271  4.88774  5.10853  3.68701  3.56832  3.77599  3.81340  1.92105  5.58578  3.88576     64 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     57   2.34378  5.97744  2.16474  1.88065  5.32351  3.59707  4.42482  3.72981  2.24150  3.40981  5.01784  2.98571  4.63136  2.17937  2.46952  2.55530  3.37806  3.47443  6.40953  4.03868     65 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.22013  6.07703  1.63328  0.61958  0.77255  0.48576  0.95510
+     58   1.89791  3.77451  3.07768  2.12033  5.18206  3.01379  3.79362  4.66853  2.18995  3.56566  3.99981  2.52963  4.49097  2.62684  2.80758  2.35467  2.72298  3.81015  6.26854  4.85715     66 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00424  5.86114  6.58349  0.61958  0.77255  0.20818  1.67166
+     59   2.65826  3.41181  5.35671  3.60871  3.27424  4.71734  5.04127  3.40819  2.92648  0.97610  2.21257  4.82019  5.08284  3.73496  4.08924  4.02066  3.17514  2.58543  5.59089  3.09458     67 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00346  6.06423  6.78658  0.61958  0.77255  0.42790  1.05519
+     60   3.19622  5.97879  1.92417  3.15709  5.32490  3.54208  3.19949  4.81165  2.78111  4.28451  5.01921  1.22131  3.02903  2.46343  3.16862  2.76591  3.37874  4.37000  6.41082  3.85413     68 n - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     61   3.18164  5.97530  3.51737  2.33168  4.09071  1.01009  3.54648  4.80610  2.45966  4.28051  5.01601  2.57312  4.63221  3.34761  3.05384  2.80210  3.16091  4.36587  6.40806  3.93821     69 g - S
+          2.68601  4.42237  2.77531  2.73135  3.46314  2.40524  3.72506  3.29366  2.67733  2.69366  4.24701  2.90358  2.73727  3.18114  2.89812  2.37898  2.77531  2.98460  4.58489  3.61515
+          0.10597  2.30830  6.79937  0.09526  2.39840  0.48576  0.95510
+     62   2.78993  5.91979  3.29816  2.62657  3.31127  3.61689  3.09984  2.93366  1.73309  3.09615  3.62280  3.72872  4.64428  2.61218  2.44595  2.69765  2.44510  3.60699  6.36713  3.22491     71 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     63   3.47430  4.39729  3.03743  2.07334  3.30767  3.71891  4.46838  2.72530  2.05408  3.05024  3.42600  3.20646  3.61029  2.69778  2.98297  2.91990  2.25158  2.88114  4.87648  3.55272     72 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     64   3.58106  4.96401  4.06659  4.12222  1.98037  4.09342  5.07536  1.72702  3.96438  1.48172  3.69836  4.88953  4.15824  4.81786  3.99696  3.55288  3.23925  1.85806  5.58497  3.10349     73 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     65   2.92679  4.74277  2.44335  2.39472  3.75714  2.08563  3.79085  4.80668  2.33722  3.16775  3.30211  2.14554  3.10112  3.08506  2.72357  2.97370  3.13656  4.36616  6.40808  3.74842     74 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     66   3.47091  5.98416  2.43719  2.92948  5.32998  1.22760  3.69228  4.81673  2.79706  3.48898  5.02481  1.95382  4.63652  2.88420  3.21262  2.33396  3.46707  4.37524  6.41617  5.00432     75 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     67   2.98576  3.70566  3.73291  2.90360  3.56382  4.24768  2.85362  4.73689  1.91423  3.35432  3.97849  2.58720  4.64073  3.10501  1.47405  2.62071  2.76137  4.31666  6.37869  3.63685     76 r - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     68   2.63047  4.34992  3.35255  1.94948  3.87311  4.24608  4.43470  3.83086  2.26926  3.20451  4.98651  2.77072  2.71028  2.97232  2.58087  3.06879  2.22428  2.45285  6.38353  3.91925     77 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     69   3.29598  3.41960  3.76282  4.92170  4.05056  4.03481  5.08352  1.36854  4.70864  1.29896  3.34589  4.90979  4.22465  3.86702  4.72014  3.59453  3.49678  1.96167  3.71166  4.40389     78 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     70   3.31428  5.95814  2.96897  2.31070  4.26780  3.70391  2.91435  4.03312  1.93601  2.76905  3.85430  3.49776  3.65343  3.13432  2.06934  2.59407  2.53727  3.03992  4.77079  3.33416     79 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00342  6.07703  6.79937  0.61958  0.77255  0.48576  0.95510
+     71   3.11204  3.50495  4.16667  4.85613  3.55682  4.74124  5.07069  1.67532  3.97978  2.32591  4.08606  4.87769  3.97655  4.80399  3.58928  3.17132  2.63092  1.06088  5.58816  4.41035     80 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00230  6.07591        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/RRM_1.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/RRM_1.sto
new file mode 100755
index 0000000..f14e42b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/RRM_1.sto
@@ -0,0 +1,322 @@
+# STOCKHOLM 1.0
+#=GF ID   RRM_1
+#=GF AC   PF00076.13
+#=GF DE   RNA recognition motif. (a.k.a. RRM, RBD, or RNP domain)
+#=GF PI   rrm;
+#=GF AU   Eddy SR, Birney E
+#=GF SE   Published_alignment
+#=GF GA   17.70 17.70; 17.80 17.80;
+#=GF TC   17.70 17.70; 17.80 17.80;
+#=GF NC   17.60 17.60; 17.70 17.70;
+#=GF TP   Domain
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   byscore
+#=GF RN   [1]
+#=GF RM   8290338
+#=GF RT   Analysis of the RNA-recognition motif and RS and RGG
+#=GF RT   domains: conservation in metazoan pre-mRNA splicing
+#=GF RT   factors. 
+#=GF RA   Birney E., Kumar S., Krainer A.R. 
+#=GF RL   Nucleic Acid Res 1993;21:5803-5816.
+#=GF DR   PROSITE; PDOC00030;
+#=GF DR   SCOP; 1sxl; sf;
+#=GF DR   MIM; 152700;
+#=GF DR   MIM; 109090;
+#=GF DR   HOMSTRAD; rrm;
+#=GF DC   The following Pfam-B families contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB001386;
+#=GF DR   PFAMB; PB001539;
+#=GF DR   PFAMB; PB002431;
+#=GF DR   PFAMB; PB003624;
+#=GF DR   PFAMB; PB005894;
+#=GF DR   PFAMB; PB013606;
+#=GF DR   PFAMB; PB016829;
+#=GF DR   PFAMB; PB018975;
+#=GF DR   PFAMB; PB019177;
+#=GF DR   PFAMB; PB020714;
+#=GF DR   PFAMB; PB021686;
+#=GF DR   PFAMB; PB021998;
+#=GF DR   PFAMB; PB026500;
+#=GF DR   PFAMB; PB030976;
+#=GF DR   PFAMB; PB034566;
+#=GF DR   PFAMB; PB035948;
+#=GF DR   PFAMB; PB038743;
+#=GF DR   PFAMB; PB040629;
+#=GF DR   PFAMB; PB056790;
+#=GF DR   PFAMB; PB057545;
+#=GF DR   PFAMB; PB058793;
+#=GF DR   PFAMB; PB060078;
+#=GF DR   PFAMB; PB060583;
+#=GF DR   PFAMB; PB063375;
+#=GF DR   PFAMB; PB074535;
+#=GF DR   PFAMB; PB076854;
+#=GF DR   PFAMB; PB080687;
+#=GF DR   PFAMB; PB086034;
+#=GF DR   PFAMB; PB086818;
+#=GF DR   PFAMB; PB092687;
+#=GF DR   PFAMB; PB095757;
+#=GF DR   PFAMB; PB097655;
+#=GF DR   PFAMB; PB106206;
+#=GF DR   PFAMB; PB110433;
+#=GF DR   PFAMB; PB120339;
+#=GF DR   PFAMB; PB121973;
+#=GF DR   PFAMB; PB129966;
+#=GF DR   PFAMB; PB150546;
+#=GF DR   PFAMB; PB153066;
+#=GF DR   PFAMB; PB168984;
+#=GF DR   PFAMB; PB169340;
+#=GF DR   PFAMB; PB170125;
+#=GF DR   PFAMB; PB170679;
+#=GF DR   PFAMB; PB170741;
+#=GF DR   PFAMB; PB170843;
+#=GF DR   PFAMB; PB170925;
+#=GF DR   PFAMB; PB171421;
+#=GF DR   PFAMB; PB171438;
+#=GF DR   PFAMB; PB171726;
+#=GF DR   PFAMB; PB172371;
+#=GF DR   PFAMB; PB172690;
+#=GF DR   PFAMB; PB172737;
+#=GF DR   PFAMB; PB173457;
+#=GF DR   PFAMB; PB173738;
+#=GF DR   PFAMB; PB173755;
+#=GF DR   PFAMB; PB174169;
+#=GF DR   PFAMB; PB174932;
+#=GF DR   PFAMB; PB175170;
+#=GF DR   PFAMB; PB175198;
+#=GF DR   PFAMB; PB175338;
+#=GF DR   PFAMB; PB176185;
+#=GF DR   PFAMB; PB176927;
+#=GF DR   PFAMB; PB177040;
+#=GF DR   PFAMB; PB177301;
+#=GF DR   PFAMB; PB177632;
+#=GF DR   PFAMB; PB178096;
+#=GF DR   PFAMB; PB178198;
+#=GF DR   PFAMB; PB178250;
+#=GF DR   PFAMB; PB178407;
+#=GF DR   PFAMB; PB179951;
+#=GF DR   PFAMB; PB180991;
+#=GF DR   PFAMB; PB182298;
+#=GF DR   PFAMB; PB182360;
+#=GF DR   PFAMB; PB182522;
+#=GF DR   INTERPRO; IPR000504;
+#=GF CC   The RRM motif is probably diagnostic of an RNA binding protein.
+#=GF CC   RRMs are found in a variety of RNA binding proteins, including 
+#=GF CC   various hnRNP proteins, proteins implicated in regulation 
+#=GF CC   of alternative splicing, and protein components
+#=GF CC   of snRNPs. The motif also appears in a few single stranded
+#=GF CC   DNA binding proteins. 
+#=GF CC   The RRM structure consists of four strands
+#=GF CC   and two helices arranged in an alpha/beta sandwich, with 
+#=GF CC   a third helix present during RNA binding in some cases
+#=GF CC   The C-terminal beta strand (4th strand) and final helix are hard 
+#=GF CC   to align and have been omitted in the SEED alignment
+#=GF CC   The LA proteins (Swiss:P05455) have a N terminus rrm which is
+#=GF CC   included in the seed. There is a second region towards the
+#=GF CC   C terminus that has some features of a rrm but does not 
+#=GF CC   appear to have the important structural core of a rrm.
+#=GF CC   The LA proteins (Swiss:P05455) are one of the main autoantigens
+#=GF CC   in Systemic lupus erythematosus (SLE), an autoimmune disease.
+#=GF SQ   79
+#=GS GBP2_YEAST/221-291   AC P25555.1
+#=GS ROC3_NICSY/99-170    AC P19682.1
+#=GS ROC5_NICSY/116-187   AC P19684.1
+#=GS ROC5_NICSY/219-290   AC P19684.1
+#=GS TIA1_HUMAN/108-179   AC P31483.2
+#=GS PUB1_YEAST/164-235   AC P32588.3
+#=GS NAM8_YEAST/165-237   AC Q00539.2
+#=GS RT19_ARATH/33-104    AC P39697.2
+#=GS NSR1_YEAST/170-241   AC P27476.1
+#=GS PES4_YEAST/93-164    AC P39684.2
+#=GS NOP4_YEAST/28-98     AC P37838.1
+#=GS PABP_SCHPO/263-333   AC P31209.2
+#=GS PABP_DROME/92-162    AC P21187.3
+#=GS PABP_DROME/185-256   AC P21187.3
+#=GS CSTF2_HUMAN/18-89    AC P33240.1
+#=GS CSTF2_HUMAN/18-89    DR PDB; 1p1t A; 18-89;
+#=GS RNA15_YEAST/20-91    AC P25299.1
+#=GS SGN1_YEAST/66-136    AC P40561.1
+#=GS IST3_YEAST/33-104    AC P40565.1
+#=GS NSR1_YEAST/269-340   AC P27476.1
+#=GS IF4B_HUMAN/98-168    AC P23588.1
+#=GS IF4B_HUMAN/98-168    DR PDB; 1wi8 A; 98-168;
+#=GS ELAV_DROME/404-475   AC P16914.1
+#=GS NOP3_YEAST/127-190   AC Q01560.1
+#=GS GBP2_YEAST/124-193   AC P25555.1
+#=GS HNRPC_HUMAN/18-82    AC P07910.4
+#=GS HNRPC_HUMAN/18-82    DR PDB; 1wf2 A; 18-82;
+#=GS TRA2_DROME/99-170    AC P19018.1
+#=GS HNRPG_HUMAN/10-81    AC P38159.3
+#=GS SFRS2_CHICK/16-87    AC P30352.1
+#=GS SFRS3_MOUSE/12-78    AC P84104.1
+#=GS SRR55_DROME/6-69     AC P26686.4
+#=GS SFRS1_HUMAN/18-86    AC Q07955.2
+#=GS SFRS1_HUMAN/18-86    DR PDB; 1x4a A; 26-94;
+#=GS NONA_DROME/304-369   AC Q04047.2
+#=GS RU17_DROME/104-175   AC P17133.2
+#=GS PABP_DROME/4-75      AC P21187.3
+#=GS ELAV4_HUMAN/48-119   AC P26378.1
+#=GS ELAV4_HUMAN/48-119   DR PDB; 1fxl A; 41-112;
+#=GS ELAV4_HUMAN/48-119   DR PDB; 1g2e A; 41-112;
+#=GS SXL_DROME/127-198    AC P19339.1
+#=GS SXL_DROME/127-198    DR PDB; 3sxl A; 127-198;
+#=GS SXL_DROME/127-198    DR PDB; 1b7f B; 127-198;
+#=GS SXL_DROME/127-198    DR PDB; 3sxl C; 127-198;
+#=GS SXL_DROME/127-198    DR PDB; 1b7f A; 127-198;
+#=GS SXL_DROME/127-198    DR PDB; 3sxl B; 127-198;
+#=GS SXL_DROME/127-198    DR PDB; 2sxl ; 6-77;
+#=GS ELAV_DROME/250-322   AC P16914.1
+#=GS SXL_DROME/213-285    AC P19339.1
+#=GS SXL_DROME/213-285    DR PDB; 3sxl A; 213-285;
+#=GS SXL_DROME/213-285    DR PDB; 1b7f B; 213-285;
+#=GS SXL_DROME/213-285    DR PDB; 3sxl C; 213-285;
+#=GS SXL_DROME/213-285    DR PDB; 1sxl ; 16-88;
+#=GS SXL_DROME/213-285    DR PDB; 1b7f A; 213-285;
+#=GS SXL_DROME/213-285    DR PDB; 3sxl B; 213-285;
+#=GS TIA1_HUMAN/216-281   AC P31483.2
+#=GS TIA1_HUMAN/9-78      AC P31483.2
+#=GS PUB1_YEAST/77-147    AC P32588.3
+#=GS SQD_DROME/138-208    AC Q08473.3
+#=GS ROA1_BOVIN/106-176   AC P09867.1
+#=GS ROAA_MOUSE/161-231   AC Q99020.1
+#=GS GRP10_BRANA/8-79     AC Q05966.1
+#=GS ROAA_MOUSE/77-147    AC Q99020.1
+#=GS SQD_DROME/58-128     AC Q08473.3
+#=GS RB97D_DROME/34-104   AC Q02926.1
+#=GS U2AF2_SCHPO/312-383  AC P36629.1
+#=GS U2AF2_HUMAN/261-332  AC P26368.4
+#=GS U2AF2_HUMAN/261-332  DR PDB; 2u2f A; 4-75;
+#=GS PUB1_YEAST/343-408   AC P32588.3
+#=GS RNP1_YEAST/37-109    AC P32385.2
+#=GS GBP2_YEAST/351-421   AC P25555.1
+#=GS NONA_DROME/378-448   AC Q04047.2
+#=GS SFPQ_HUMAN/373-443   AC P23246.2
+#=GS MODU_DROME/342-410   AC P13469.2
+#=GS NUCL_CHICK/283-352   AC P15771.1
+#=GS PES4_YEAST/305-374   AC P39684.2
+#=GS YHH5_YEAST/315-384   AC P38760.1
+#=GS YHC4_YEAST/348-415   AC P38741.1
+#=GS MODU_DROME/422-484   AC P13469.2
+#=GS PRP24_YEAST/212-284  AC P49960.1
+#=GS MEI2_SCHPO/197-265   AC P08965.1
+#=GS NOP4_YEAST/292-363   AC P37838.1
+#=GS MODU_DROME/260-326   AC P13469.2
+#=GS HNRPF_HUMAN/113-183  AC P52597.3
+#=GS RU1A_YEAST/229-293   AC P32605.1
+#=GS RU2B_HUMAN/153-220   AC P08579.1
+#=GS SNRPA_HUMAN/210-276  AC P09012.3
+#=GS SNRPA_HUMAN/210-276  DR PDB; 2u1a ; 17-83;
+#=GS WHI3_YEAST/540-614   AC P34761.1
+#=GS CPO_DROME/453-526    AC Q01617.3
+#=GS NOP3_YEAST/202-270   AC Q01560.1
+#=GS SFRS1_HUMAN/123-187  AC Q07955.2
+#=GS PTBP1_HUMAN/186-253  AC P26599.1
+#=GS PTBP1_HUMAN/186-253  DR PDB; 2adb A; 186-253;
+#=GS PTBP1_HUMAN/186-253  DR PDB; 1sjr A; 49-116;
+#=GS RNA12_YEAST/200-267  AC P32843.1
+#=GS SSB1_YEAST/39-114    AC P10080.2
+#=GS MODU_DROME/177-246   AC P13469.2
+#=GS PRP24_YEAST/43-111   AC P49960.1
+#=GS PRP24_YEAST/119-190  AC P49960.1
+#=GS LA_HUMAN/113-182     AC P05455.2
+#=GS LA_HUMAN/113-182     DR PDB; 1zh5 A; 113-182;
+#=GS LA_HUMAN/113-182     DR PDB; 1zh5 B; 113-182;
+#=GS LA_HUMAN/113-182     DR PDB; 1yty A; 113-182;
+#=GS LA_HUMAN/113-182     DR PDB; 1yty B; 113-182;
+#=GS LA_HUMAN/113-182     DR PDB; 1s79 A; 113-182;
+GBP2_YEAST/221-291              VFIINL..PYSMNWQSLKDMFKE.CGHV.LRADVELD....FNGFSRGFGSVIYPTEDEMIRAIDTFNG.MEVEGRVLEV
+ROC3_NICSY/99-170               LFVGNL..PYDIDSEGLAQLFQQ.AGVV.EIAEVIYN...RETDRSRGFGFVTMSTVEEADKAVELYSQ.YDLNGRLLTV
+ROC5_NICSY/116-187              LYVGNL..PFSMTSSQLSEIFAE.AGTV.ANVEIVYD...RVTDRSRGFAFVTMGSVEEAKEAIRLFDG.SQVGGRTVKV
+ROC5_NICSY/219-290              LYVANL..SWALTSQGLRDAFAD.QPGF.MSAKVIYD...RSSGRSRGFGFITFSSAEAMNSALDTMNE.VELEGRPLRL
+TIA1_HUMAN/108-179              VFVGDL..SPQITTEDIKAAFAP.FGRI.SDARVVKD...MATGKSKGYGFVSFFNKWDAENAIQQMGG.QWLGGRQIRT
+PUB1_YEAST/164-235              LFVGDL..NVNVDDETLRNAFKD.FPSY.LSGHVMWD...MQTGSSRGYGFVSFTSQDDAQNAMDSMQG.QDLNGRPLRI
+NAM8_YEAST/165-237              IFVGDL..APNVTESQLFELFINRYAST.SHAKIVHD...QVTGMSKGYGFVKFTNSDEQQLALSEMQG.VFLNGRAIKV
+RT19_ARATH/33-104               LYIGGL..SPGTDEHSLKDAFSS.FNGV.TEARVMTN...KVTGRSRGYGFVNFISEDSANSAISAMNG.QELNGFNISV
+NSR1_YEAST/170-241              IFVGRL..SWSIDDEWLKKEFEH.IGGV.IGARVIYE...RGTDRSRGYGYVDFENKSYAEKAIQEMQG.KEIDGRPINC
+PES4_YEAST/93-164               LFIGDL..HETVTEETLKGIFKK.YPSF.VSAKVCLD...SVTKKSLGHGYLNFEDKEEAEKAMEELNY.TKVNGKEIRI
+NOP4_YEAST/28-98                LFVRSI..PQDVTDEQLADFFSN.FAPI.KHAVVVKD....TNKRSRGFGFVSFAVEDDTKEALAKARK.TKFNGHILRV
+PABP_SCHPO/263-333              VYIKNL..DTEITEQEFSDLFGQ.FGEI.TSLSLVKD....QNDKPRGFGFVNYANHECAQKAVDELND.KEYKGKKLYV
+PABP_DROME/92-162               VFIKNL..DRAIDNKAIYDTFSA.FGNI.LSCKVATD....EKGNSKGYGFVHFETEEAANTSIDKVNG.MLLNGKKVYV
+PABP_DROME/185-256              VYVKNF..TEDFDDEKLKEFFEP.YGKI.TSYKVMSK....EDGKSKGFGFVAFETTEAAEAAVQALNGKDMGEGKSLYV
+CSTF2_HUMAN/18-89               VFVGNI..PYEATEEQLKDIFSE.VGPV.VSFRLVYD...RETGKPKGYGFCEYQDQETALSAMRNLNG.REFSGRALRV
+#=GR CSTF2_HUMAN/18-89    SS    EEE-S-..-TT--HHHHHHHHHT.TS-E.EEEEEEEE...TTTTEEEEEEEEEES-HHHHHHHHHHSSS.EEETTEEEEE
+RNA15_YEAST/20-91               VYLGSI..PYDQTEEQILDLCSN.VGPV.INLKMMFD...PQTGRSKGYAFIEFRDLESSASAVRNLNG.YQLGSRFLKC
+SGN1_YEAST/66-136               IFVGNI..TPDVTPEQIEDHFKD.CGQI.KRITLLYD...RNTGTPKGYGYIEFESPAYREKALQ.LNG.GELKGKKIAV
+IST3_YEAST/33-104               IYIGNL..NRELTEGDILTVFSE.YGVP.VDVILSRD...ENTGESQGFAYLKYEDQRSTILAVDNLNG.FKIGGRALKI
+NSR1_YEAST/269-340              LFLGNL..SFNADRDAIFELFAK.HGEV.VSVRIPTH...PETEQPKGFGYVQFSNMEDAKKALDALQG.EYIDNRPVRL
+IF4B_HUMAN/98-168               AFLGNL..PYDVTEESIKEFFRG.LNIS..AVRLPR..EPSNPERLKGFGYAEFEDLDSLLSALS.LNE.ESLGNRRIRV
+#=GR IF4B_HUMAN/98-168    SS    EEEES-..-TT--HHHHHHHT-S.S-EE..EEE--B..-SS-SSSB-S-EEEEESSHHHHHHHGG.GGS.-EETTEE-EE
+ELAV_DROME/404-475              IFIYNL..APETEEAALWQLFGP.FGAV.QSVKIVKD...PTTNQCKGYGFVSMTNYDEAAMAIRALNG.YTMGNRVLQV
+NOP3_YEAST/127-190              LFVRPF..PLDVQESELNEIFGP.FGPM.KEVKILN...........GFAFVEFEEAESAAKAIEEVHG.KSFANQPLEV
+GBP2_YEAST/124-193              IFVRNL..TFDCTPEDLKELFGT.VGEV.VEADIIT.....SKGHHRGMGTVEFTKNESVQDAISKFDG.ALFMDRKLMV
+HNRPC_HUMAN/18-82               VFIGNL.NTLVVKKSDVEAIFSK.YGKI.VGCSVHK...........GFAFVQYVNERNARAAVAGEDG.RMIAGQVLDI
+#=GR HNRPC_HUMAN/18-82    SS    EEEEEE.-TTT--HHHHHHTTGG.GS-E.EEEEEET...........EEEEEEESSHHHHHHHHHTTSS.-EETTEE-EE
+TRA2_DROME/99-170               IGVFGL..NTNTSQHKVRELFNK.YGPI.ERIQMVID...AQTQRSRGFCFIYFEKLSDARAAKDSCSG.IEVDGRRIRV
+HNRPG_HUMAN/10-81               LFIGGL..NTETNEKALEAVFGK.YGRI.VEVLLMKD...RETNKSRGFAFVTFESPADAKDAARDMNG.KSLDGKAIKV
+SFRS2_CHICK/16-87               LKVDNL..TYRTSPDTLRRVFEK.YGRV.GDVYIPRD...RYTKESRGFAFVRFHDKRDAEDAMDAMDG.AVLDGRELRV
+SFRS3_MOUSE/12-78               VYVGNL..GNNGNKTELERAFGY.YGPL.RSVWVARN........PPGFAFVEFEDPRDAADAVRELDG.RTLCGCRVRV
+SRR55_DROME/6-69                VYVGGL..PYGVRERDLERFFKG.YGRT.RDILIKN...........GYGFVEFEDYRDADDAVYELNG.KELLGERVVV
+SFRS1_HUMAN/18-86               IYVGNL..PPDIRTKDIEDVFYK.YGAI.RDIDLKN......RRGGPPFAFVEFEDPRDAEDAVYGRDG.YDYDGYRLRV
+#=GR SFRS1_HUMAN/18-86    SS    EEES--..TT--HHHHHHHHHTT.S-EE.EEEE--S......SSSS--EEEEES-HHHHHHHHHHHTT-.EETTEE-EEE
+NONA_DROME/304-369              LYVGNL..TNDITDDELREMFKP.YGEI.SEIFSNLD.........KNFTFLKVDYHPNAEKAKRALDG.SMRKGRQLRV
+RU17_DROME/104-175              LFIARI..NYDTSESKLRREFEF.YGPI.KKIVLIHD...QESGKPKGYAFIEYEHERDMHAAYKHADG.KKIDSKRVLV
+PABP_DROME/4-75                 LYVGDL..PQDVNESGLFDKFSS.AGPV.LSIRVCRD...VITRRSLGYAYVNFQQPADAERALDTMNF.DLVRNKPIRI
+ELAV4_HUMAN/48-119              LIVNYL..PQNMTQEEFRSLFGS.IGEI.ESCKLVRD...KITGQSLGYGFVNYIDPKDAEKAINTLNG.LRLQTKTIKV
+#=GR ELAV4_HUMAN/48-119   SS    EEEES-..-TT--HHHHHHHHHT.TS-E.EEEEEEE-...TTT--EEEEEEEEESSHHHHHHHHHHHTT.-EETTEE-EE
+SXL_DROME/127-198               LIVNYL..PQDMTDRELYALFRA.IGPI.NTCRIMRD...YKTGYSFGYAFVDFTSEMDSQRAIKVLNG.ITVRNKRLKV
+#=GR SXL_DROME/127-198    SS    EEEES-..-TT--HHHHHHHHHT.TS-E.EEEEEEEE...SSSTEEECEEEEEESSHHHHHHHHHHHTT.-EETTEE-EE
+ELAV_DROME/250-322              LYVSGL..PKTMTQQELEAIFAP.FGAI.ITSRILQN..AGNDTQTKGVGFIRFDKREEATRAIIALNG.TTPSSCTDPI
+SXL_DROME/213-285               LYVTNL..PRTITDDQLDTIFGK.YGSI.VQKNILRD...KLTGRPRGVAFVRYNKREEAQEAISALNNVIPEGGSQPLS
+#=GR SXL_DROME/213-285    SS    EEEES-..-TTS-HHHHHHHHGC.CS-E.EEEEEEE-...TTT--EEEEEEEEESSHHHHHHHHHHHST-S-TTSSS--E
+TIA1_HUMAN/216-281              VYCGGV..TSGLTEQLMRQTFSP.FGQI.MEIRVFPD.........KGYSFVRFNSHESAAHAIVSVNG.TTIEGHVVKC
+TIA1_HUMAN/9-78                 LYVGNL..SRDVTEALILQLFSQ.IGPC.KNCKMIMD.....TAGNDPYCFVEFHEHRHAAAALAAMNG.RKIMGKEVKV
+PUB1_YEAST/77-147               LYVGNL..DKAITEDILKQYFQV.GGPI.ANIKIMID....KNNKNVNYAFVEYHQSHDANIALQTLNG.KQIENNIVKI
+SQD_DROME/138-208               IFVGGL..TTEISDEEIKTYFGQ.FGNI.VEVEMPFD...KQKSQRKGFCFITFDSEQVVTDLLK.TPK.QKIAGKEVDV
+ROA1_BOVIN/106-176              IFVGGI..KEDTEEHHLRDYFEQ.YGKI.EVIEIMTD...RGSGKKRGFAFVTFDDHDSVDKIVI.QKY.HTVNGHNCEV
+ROAA_MOUSE/161-231              IFVGGL..NPEATEEKIREYFGQ.FGEI.EAIELPID...PKLNKRRGFVFITFKEEDPVKKVLE.KKF.HTVSGSKCEI
+GRP10_BRANA/8-79                CFVGGL..AWATGDAELERTFSQ.FGEV.IDSKIIND...RETGRSRGFGFVTFKDEKSMKDAIDEMNG.KELDGRTITV
+ROAA_MOUSE/77-147               MFVGGL..SWDTSKKDLKDYFTK.FGEV.VDCTIKMD...PNTGRSRGFGFILFKDSSSVEKVLD.QKE.HRLDGRVIDP
+SQD_DROME/58-128                LFVGGL..SWETTEKELRDHFGK.YGEI.ESINVKTD...PQTGRSRGFAFIVFTNTEAIDKVSA.ADE.HIINSKKVDP
+RB97D_DROME/34-104              LFIGGL..APYTTEENLKLFYGQ.WGKV.VDVVVMRD...AATKRSRGFGFITYTKSLMVDRAQE..NRPHIIDGKTVEA
+U2AF2_SCHPO/312-383             IYISNL..PLNLGEDQVVELLKP.FGDL.LSFQLIKN...IADGSSKGFCFCEFKNPSDAEVAISGLDG.KDTYGNKLHA
+U2AF2_HUMAN/261-332             LFIGGL..PNYLNDDQVKELLTS.FGPL.KAFNLVKD...SATGLSKGYAFCEYVDINVTDQAIAGLNG.MQLGDKKLLV
+#=GR U2AF2_HUMAN/261-332  SS    EEEE--..-SS--SHHHHHHHTS.SS-E.EEEEEE--...-SSS----EEEEEESSSHHHHHHHHTSSS.---SSS--EE
+PUB1_YEAST/343-408              AYIGNI..PHFATEADLIPLFQN.FGFI.LDFKHYPE.........KGCCFIKYDTHEQAAVCIVALAN.FPFQGRNLRT
+RNP1_YEAST/37-109               LYVGNL..PKNCRKQDLRDLFEPNYGKI.TINMLKKK...PLKKPLKRFAFIEFQEGVNLKKVKEKMNG.KIFMNEKIVI
+GBP2_YEAST/351-421              IYCSNL..PFSTARSDLFDLFGP.IGKI.NNAELKP....QENGQPTGVAVVEYENLVDADFCIQKLNN.YNYGGCSLQI
+NONA_DROME/378-448              LRVSNL..TPFVSNELLYKSFEI.FGPI.ERASITVD....DRGKHMGEGIVEFAKKSSASACLRMCNE.KCFFLTASLR
+SFPQ_HUMAN/373-443              LSVRNL..SPYVSNELLEEAFSQ.FGPI.ERAVVIVD....DRGRSTGKGIVEFASKPAARKAFERCSE.GVFLLTTTPR
+MODU_DROME/342-410              LVVENVGKHESYSSDALEKIFKK.FGDV.EEIDVVC........SKAVLAFVTFKQSDAATKALAQLDG.KTVNKFEWKL
+NUCL_CHICK/283-352              LFVKNL..TPTKDYEELRTAIKEFFGKK..NLQVSEV....RIGSSKRFGYVDFLSAEDMDKALQ.LNG.KKLMGLEIKL
+PES4_YEAST/305-374              IFIKNL..PTITTRDDILNFFSE.VGPI.KSIYLSN.....ATKVKYLWAFVTYKNSSDSEKAIKRYNN.FYFRGKKLLV
+YHH5_YEAST/315-384              ILVKNL..PSDTTQEEVLDYFST.IGPI.KSVFISEK.....QANTPHKAFVTYKNEEESKKAQKCLNK.TIFKNHTIWV
+YHC4_YEAST/348-415              IFVGQL..DKETTREELNRRFST.HGKI.QDINLIFK.......PTNIFAFIKYETEEAAAAALESENH.AIFLNKTMHV
+MODU_DROME/422-484              ILVTNL..TSDATEADLRKVFND.SGEI.ESIIMLG...........QKAVVKFKDDEGFCKSFL.ANE.SIVNNAPIFI
+PRP24_YEAST/212-284             IMIRNL.STELLDENLLRESFEG.FGSI.EKINIPAG..QKEHSFNNCCAFMVFENKDSAERALQ.MNR.SLLGNREISV
+MEI2_SCHPO/197-265              LFVTNL..PRIVPYATLLELFSK.LGDV.KGIDTSSL.......STDGICIVAFFDIRQAIQAAKSLRSQRFFNDRLLYF
+NOP4_YEAST/292-363              VFVRNV..PYDATEESLAPHFSK.FGSV.KYALPVID...KSTGLAKGTAFVAFKDQYTYNECIKNAPA.AGSTSLLIGD
+MODU_DROME/260-326              VVVGLI..GPNITKDDLKTFFEK.VAPV.EAVTISSN.......RLMPRAFVRLASVDDIPKALK.LHS.TELFSRFITV
+HNRPF_HUMAN/113-183             VRLRGL..PFGCTKEEIVQFFSG.LEIVPNGITLPVD....PEGKITGEAFVQFASQELAEKALG.KHK.ERIGHRYIEV
+RU1A_YEAST/229-293              LLIQNL..PSGTTEQLLSQILGN.EALV..EIRLVSV.........RNLAFVEYETVADATKIKNQLGS.TYKLQNNDVT
+RU2B_HUMAN/153-220              LFLNNL..PEETNEMMLSMLFNQ.FPGF.KEVRLVPG........RHDIAFVEFENDGQAGAARDALQGFKITPSHAMKI
+SNRPA_HUMAN/210-276             LFLTNL..PEETNELMLSMLFNQ.FPGF.KEVRLVPG........RHDIAFVEFDNEVQAGAARDALQG.FKITQNNAMK
+#=GR SNRPA_HUMAN/210-276  SS    EEE---..SS--HHHHHHHHHTS.TTEE.EEE--TTT........SSEEEEEES-HHHHHHHHHHTTT-.-SSSS-----
+WHI3_YEAST/540-614              LYVGNL..PSDATEQELRQLFSG.QEGF.RRLSFRNKNTTSNGHSHGPMCFVEFDDVSFATRALAELYG.RQLPRSTVSS
+CPO_DROME/453-526               LFVSGL..PMDAKPRELYLLFRA.YEGY.EGSLLKV..TSKNGKTASPVGFVTFHTRAGAEAAKQDLQGVRFDPDMPQTI
+NOP3_YEAST/202-270              ITMKNL..PEGCSWQDLKDLARE.NSLE.TTFSSVN......TRDFDGTGALEFPSEEILVEALERLNN.IEFRGSVITV
+SFRS1_HUMAN/123-187             VVVSGL..PPSGSWQDLKDHMRE.AGDV.CYADVYRD..........GTGVVEFVRKEDMTYAVRKLDN.TKFRSHEGET
+PTBP1_HUMAN/186-253             IIVENL..FYPVTLDVLHQIFSK.FGTV...LKIIT.....FTKNNQFQALLQYADPVSAQHAKLSLDG.QNIYNACCTL
+#=GR PTBP1_HUMAN/186-253  SS    EEC-S-..-STTHHHHHHHHHTT.TS-E...EEEEE.....EECTTEEEEEEEES-HHHHHHHHHHHCC.B-SSSTTSEE
+RNA12_YEAST/200-267             IVIKFQ..GPALTEEEIYSLFRR.YGTI...IDIFP.....PTAANNNVAKVRYRSFRGAISAKNCVSG.IEIHNTVLHI
+SSB1_YEAST/39-114               IFIGNV..AHECTEDDLKQLFVEEFGDE.VSVEIPIKEHTDGHIPASKHALVKFPTKIDFDNIKENYDT.KVVKDREIHI
+MODU_DROME/177-246              VFVTNL..PNEYLHKDLVALFAK.FGRL.SALQRFTN......LNGNKSVLIAFDTSTGAEAVLQAKPKALTLGDNVLSV
+PRP24_YEAST/43-111              VLVKNL..PKSYNQNKVYKYFKH.CGPI.IHVDVAD.....SLKKNFRFARIEFARYDGALAAIT.KTH.KVVGQNEIIV
+PRP24_YEAST/119-190             LWMTNF..PPSYTQRNIRDLLQD.INVVALSIRLPSL....RFNTSRRFAYIDVTSKEDARYCVEKLNG.LKIEGYTLVT
+LA_HUMAN/113-182                VYIKGF..PTDATLDDIKEWLED.KGQV.LNIQMRR....TLHKAFKGSIFVVFDSIESAKKFVE.TPG.QKYKETDLLI
+#=GR LA_HUMAN/113-182     SS    EEEE--..-TT--HHHHHHHHCT.SS-E.EEEEEEE....-TTTSEEEEEEEEESSHHHHHHHHH.SSS.-EETTEE-EE
+#=GC SS_cons                    EEEESE..TTTTHHHHHHHHHTT.TSEE.EEEEEEEE..STTTTSEEEEEEEEESSHHHHHHHHHHHSS.EEETTEEEEE
+#=GC seq_cons                   laVssL..s.ssoccpLcphFpp.aGtl.hshplhtc.....ptpscGauFVpFpspcsAppAlpthsu.pplpu+plpl
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/SMC_N.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/SMC_N.hmm
new file mode 100755
index 0000000..74d9578
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/SMC_N.hmm
@@ -0,0 +1,3452 @@
+HMMER3/e [3.0 | March 2010]
+NAME  SMC_N
+ACC   PF02463.10
+DESC  RecF/RecN/SMC N terminal domain
+LENG  1142
+ALPH  amino
+RF    no
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:48:51 2011
+NSEQ  29
+EFFN  5.242798
+CKSUM 309001388
+GA    -95.80 -95.80
+TC    -95.80 -95.80
+NC    -95.90 -95.90
+STATS LOCAL MSV      -13.3034  0.69528
+STATS LOCAL VITERBI  -14.0205  0.69528
+STATS LOCAL FORWARD   -7.2956  0.69528
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.54780  4.71860  2.93510  2.34519  3.50163  3.06575  3.80834  2.89262  2.39698  2.43129  3.78231  2.94979  3.73249  2.83917  2.84223  2.62193  2.88950  2.85024  5.26879  3.75096
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.00000        *
+      1   2.83250  4.63458  4.39722  3.81700  2.23706  4.17778  3.11624  2.54482  2.88759  2.83290  2.82854  4.08984  3.62335  3.96915  3.18806  2.71627  2.57520  2.43690  5.24007  1.96622      1 y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      2   4.34145  5.50046  6.45978  5.97163  4.29369  5.99123  6.60196  1.12282  5.91638  0.89202  4.00146  6.17151  6.05062  5.92968  5.96207  5.44654  4.58011  1.73937  6.58981  5.55975      2 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      3   3.05626  5.53495  3.31774  2.04830  4.86699  3.83494  3.23766  3.64975  1.43928  3.24394  4.57910  2.92241  4.22805  3.12384  2.58014  2.43793  2.77470  3.23084  5.97540  3.77372      3 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      4   3.05884  5.56905  3.30753  2.21949  4.91511  3.18621  3.48765  4.40063  2.02583  3.35263  4.60972  2.61374  4.22517  2.55246  1.69014  2.52227  2.61172  3.96028  6.00047  4.59054      4 r - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      5   4.38094  5.56205  6.43991  5.89923  3.24648  5.89857  6.31813  1.01534  5.79766  0.92199  3.79750  6.07796  5.94062  5.70656  5.76688  5.31677  4.60156  2.14262  6.30841  5.32011      5 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      6   3.09267  4.81128  3.39547  1.64530  3.94780  4.07311  4.32679  2.07380  3.36002  2.41873  3.22454  3.81089  4.45235  3.66143  2.69005  3.31786  2.88965  2.09659  5.39381  3.36326      6 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      7   3.05976  4.89367  5.57577  5.01101  4.09795  4.90247  5.33412  1.24627  4.84811  1.32882  4.00794  3.75062  5.22390  5.01555  4.90568  4.24545  3.82992  1.44403  5.79690  4.61168      7 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      8   3.05462  5.56168  2.65163  1.69123  3.81029  3.82894  4.01615  3.65634  1.96827  3.30709  4.60274  2.97080  4.22238  2.40388  2.75900  2.44891  2.68678  3.95151  5.99526  3.71862      8 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+      9   2.87119  5.92743  2.82909  2.87467  5.26233  1.31652  2.95735  4.75769  2.83289  4.24035  5.01475  1.34899  4.47101  3.44248  3.67577  3.34111  3.65865  4.32203  6.38331  4.94133      9 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     10   4.74241  6.00232  6.16488  6.01457  0.24705  5.50751  4.95978  3.90836  5.83937  3.20110  4.66118  5.55489  5.91127  5.65385  5.71494  5.02438  5.06624  2.97988  5.04228  3.34047     10 F - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     11   4.54807  6.44390  5.45552  4.25033  6.21667  4.95313  4.58533  5.38094  0.38481  4.62366  5.55377  4.46939  5.23723  3.71162  1.73121  4.50722  4.57770  5.10436  6.49338  5.52327     11 K - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     12   3.28645  5.27665  4.27065  4.15666  5.78543  3.94448  5.41400  5.30167  4.45155  4.92840  5.70249  2.01411  4.74748  4.67179  4.77791  0.43876  2.90973  4.52670  7.06444  5.84771     12 S - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     13   4.75186  5.87665  6.11675  5.85256  1.37484  5.61470  4.63431  2.83771  5.63834  2.16733  4.61930  5.35596  5.85418  5.40847  5.49227  4.99182  4.95802  4.10638  4.72649  0.74348     13 y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.18737  5.38739  1.79405  0.61958  0.77255  0.48576  0.95510
+     14   1.44097  5.18831  3.41831  2.85673  3.38728  2.47478  4.03200  3.84632  1.96481  2.99663  4.26638  3.37031  4.22293  3.18438  2.48679  3.04154  3.23492  3.52591  5.69226  4.36529     14 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.34018  5.20819  1.26270  0.61958  0.77255  1.00546  0.45551
+     15   3.10810  5.60870  2.13170  2.58009  4.95902  1.32535  4.03627  4.45236  2.88875  3.94394  4.72338  2.32727  4.17532  2.70942  3.41768  3.04762  2.50405  4.01804  6.09449  4.65280     15 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01136  4.87937  5.60171  0.61958  0.77255  0.15659  1.93139
+     16   2.73319  5.56805  2.54376  2.01629  4.91420  3.22839  3.32068  4.40090  1.66449  3.87376  4.60845  2.94223  4.22169  2.38406  2.50433  3.01672  2.77338  3.25260  6.00004  4.58848     16 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     17   2.54679  5.56454  3.31291  2.55551  4.90825  3.83519  2.86809  4.39146  2.26968  3.86814  4.60603  3.30368  2.75203  2.29826  2.23180  2.76607  1.78182  3.95455  5.99704  4.58946     17 t - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     18   2.44503  4.69846  4.21690  3.18649  3.81748  4.13805  4.41321  1.76251  2.76831  2.43846  3.80807  3.97644  4.51301  3.24489  3.85836  2.91029  2.30815  1.66788  5.29656  4.08453     18 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     19   2.73369  5.02061  2.53275  2.44490  4.19701  3.97882  4.20460  1.86976  3.09833  2.65225  4.11079  3.59568  4.36407  3.42962  3.09535  2.47285  2.41207  2.13609  5.57040  4.29238     19 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     20   3.09922  4.72298  3.31018  2.73451  3.24855  1.80278  4.39223  2.03372  3.51813  1.79164  3.83109  3.93524  4.49823  3.79765  3.29910  3.38061  2.94931  2.50352  5.31758  4.10081     20 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     21   2.82926  5.53204  2.23996  2.22658  3.58607  3.84364  4.03837  4.32871  2.78449  2.95750  4.57888  2.49243  1.51714  3.14240  2.88206  3.04049  3.30131  3.91161  5.97702  4.57747     21 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     22   3.20866  4.59073  5.07654  4.47623  0.90868  3.30827  4.63196  2.44658  4.27785  2.06266  3.67969  4.48730  3.47729  4.41446  4.31105  3.67312  3.44066  2.83051  3.71983  3.84786     22 f - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     23   2.60600  5.53932  2.24002  2.29337  3.87863  3.02104  2.33711  4.35144  2.76083  3.23388  4.58294  3.30519  3.53096  2.84239  3.25173  1.95737  2.61984  3.40467  5.97875  4.57459     23 s - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     24   3.06313  5.57361  2.75422  2.39643  4.91889  3.36080  3.43910  4.40463  1.77029  3.87850  4.61466  3.30061  1.68244  3.11854  2.44954  2.68376  2.91189  3.96446  6.00554  4.59488     24 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07930  5.38739  2.63573  0.61958  0.77255  0.48576  0.95510
+     25   3.02649  4.06632  3.29223  2.73570  4.82338  1.78623  3.26948  4.29655  2.48428  3.30421  4.53953  2.22909  4.19859  2.79830  2.41871  2.04695  3.25726  3.87634  5.93550  4.53692     25 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00733  5.31542  6.03777  0.61958  0.77255  0.35472  1.20856
+     26   3.17422  4.56011  5.04176  4.43397  1.07439  4.33572  3.01205  2.35479  4.23934  2.21018  3.14158  4.46515  4.69408  3.35973  4.27931  3.64410  3.40571  2.20345  5.16456  3.98180     26 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     27   3.12950  5.11741  3.90317  3.38976  4.60502  3.94931  4.49692  3.38772  3.37793  3.65517  4.50017  1.52218  4.47445  3.70846  3.78989  2.16806  1.18888  3.13640  5.95021  4.67345     27 t - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     28   1.44548  3.66866  4.96279  4.35640  2.25784  3.09354  4.60538  2.60983  4.16782  2.70671  3.06737  4.39795  4.64065  4.32198  4.21924  2.43941  3.35270  1.83454  5.13739  3.95846     28 a - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     29   4.22010  5.37554  6.38645  5.94286  4.60439  5.95654  6.78159  0.66980  5.92535  1.82917  4.29552  6.13092  6.08551  6.11891  6.07524  5.43038  4.47599  1.40646  6.89075  5.73228     29 I - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     30   3.23449  4.60060  5.16285  4.56049  3.72318  4.42883  4.77861  1.58756  4.36441  2.27916  3.72648  4.57587  4.78573  4.51154  4.39716  3.09039  2.50324  1.09864  5.28111  3.25314     30 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     31   5.20796  6.62670  6.04924  6.12314  6.92120  0.03698  6.92242  7.02733  6.40854  6.36425  7.48130  6.22780  5.99485  6.64438  6.33051  5.44280  5.74976  6.35489  7.49690  7.11983     31 G - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     32   2.40736  5.32336  3.49942  2.94998  4.59665  3.92271  3.46266  4.01630  2.90618  2.84995  4.41778  3.10739  1.11588  3.28485  2.64390  2.75731  3.34655  3.68233  5.83771  4.50427     32 p - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     33   4.89612  6.56919  4.79176  4.85460  6.28912  5.00704  6.20302  6.53948  5.42171  5.94943  7.03494  0.07421  5.73519  5.65764  5.67029  5.00336  5.37934  5.97312  7.26780  6.27015     33 N - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     34   5.20796  6.62670  6.04924  6.12314  6.92120  0.03698  6.92242  7.02733  6.40854  6.36425  7.48130  6.22780  5.99485  6.64438  6.33051  5.44280  5.74976  6.35489  7.49690  7.11983     34 G - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     35   2.77444  2.78329  5.63607  5.57411  5.88966  3.90267  6.06869  5.35256  5.43120  5.08772  5.84352  4.82438  4.78092  5.52124  5.40871  0.27050  3.77335  4.47342  7.25102  6.22670     35 S - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     36   5.20796  6.62670  6.04924  6.12314  6.92120  0.03698  6.92242  7.02733  6.40854  6.36425  7.48130  6.22780  5.99485  6.64438  6.33051  5.44280  5.74976  6.35489  7.49690  7.11983     36 G - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     37   5.22849  6.75275  5.50249  5.04218  6.54707  5.26153  5.64372  6.22807  0.08679  5.50979  6.54359  5.33878  5.78438  4.87497  4.01208  5.28536  5.44349  5.90106  7.08296  6.28313     37 K - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     38   3.22630  5.14911  5.17431  5.11280  5.90159  3.92957  5.92583  5.40413  5.15108  5.10776  5.87206  4.72405  4.79546  5.31605  5.24305  0.34336  1.90901  4.52674  7.23694  6.16236     38 S - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     39   3.53228  5.56291  3.84745  3.86924  5.85963  4.06427  5.37275  5.57163  4.48002  5.15286  5.98044  0.39509  4.86595  4.64184  4.86787  1.90656  4.05483  4.79960  7.14731  5.81144     39 N - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     40   4.03361  5.28448  6.06643  5.49742  2.34841  5.41006  5.80249  1.33553  5.34690  1.45517  2.96388  5.58336  5.59903  5.36348  5.33844  4.77700  4.26065  1.32395  6.02281  4.95578     40 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     41   3.12976  4.50539  5.08089  4.46705  2.42775  3.20823  4.63346  1.71911  4.25544  1.59400  2.39593  3.62158  4.66256  4.38906  4.26858  3.61078  2.98873  1.99174  5.12996  3.95398     41 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     42   2.56521  6.44354  0.62560  1.84804  5.71717  4.09004  4.62121  5.26432  3.64230  4.73401  5.56921  3.53909  4.70674  3.78026  4.25828  3.68240  4.09317  4.81481  6.88083  3.53498     42 D - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     43   0.34231  5.12480  5.35221  5.32008  5.94565  3.91587  6.02297  5.44294  5.34080  5.15393  5.90404  4.77609  4.79168  5.44402  5.37304  1.77060  3.79872  4.53053  7.28740  6.24917     43 A - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     44   4.33012  5.50718  6.41385  5.89295  4.16631  5.89478  6.39384  0.70042  5.80697  1.43016  2.71642  6.07256  5.96024  5.77381  5.81262  5.32198  4.55970  2.11021  6.41222  5.40488     44 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15337  5.38739  1.98331  0.61958  0.77255  0.48576  0.95510
+     45   2.67336  3.23664  3.54458  2.97790  4.28487  3.89353  4.09688  3.67729  2.42924  1.64166  4.16258  3.47034  4.27975  2.88032  2.06618  2.10654  3.26081  3.39280  5.60320  4.30834     45 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.28272  1.40133
+     46   5.62926  6.41520  6.30359  6.34571  0.44220  5.95839  3.12231  5.15991  6.10066  4.22451  5.64562  5.42527  6.19106  5.63323  5.81866  5.37839  5.80327  5.12602  1.95024  2.23525     46 F - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     47   2.91614  2.70561  5.13336  4.53176  3.70673  4.39164  4.75062  2.83740  4.33488  2.28375  3.71528  4.54493  4.75704  4.48232  4.36871  3.70824  2.79023  0.83220  5.25805  3.00693     47 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+     48   4.91859  6.02291  6.86493  6.28378  1.90964  6.40062  6.45519  3.18890  6.17249  0.41814  2.50235  6.57414  6.15610  5.76249  5.97533  5.86336  5.08414  3.62228  6.16981  5.20723     48 L - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.08708  5.38739  2.54056  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07367  5.30770  2.71700  0.61958  0.77255  0.76203  0.62871
+     83   3.98863  5.25853  5.67670  5.21861  0.65514  5.06208  4.63428  2.73108  5.01914  2.47470  4.05979  5.01625  5.34649  4.98116  4.97294  4.40557  4.21007  2.80141  4.80886  1.98270     98 F - E
+          2.68674  4.42282  2.77509  2.73114  3.46410  2.40546  3.72463  3.29215  2.67746  2.69348  4.24458  2.90364  2.73764  3.18014  2.89816  2.37943  2.77576  2.98408  4.58533  3.61484
+          0.22016  1.63455  5.96426  1.64222  0.21511  0.78544  0.60865
+     84   3.00305  3.92253  1.52117  2.45021  4.85529  3.77303  3.24410  4.34066  2.04415  3.81626  4.55303  2.96509  4.16856  2.69080  3.19254  2.15005  2.89976  3.90159  5.94488  4.53407    107 d - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00768  5.26859  5.99094  0.61958  0.77255  0.86783  0.54449
+     85   3.05624  5.55510  2.54986  1.80667  4.88893  3.79721  4.01008  3.38258  2.30798  3.85536  4.60101  1.37141  4.20819  3.11283  3.25754  3.01671  3.29002  3.94035  5.99127  3.37219    108 n - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00768  5.26859  5.99094  0.61958  0.77255  0.30461  1.33716
+     86   3.05701  5.50288  3.01091  1.68143  4.82171  2.89085  4.03115  3.52384  2.77705  3.38509  4.55060  3.01072  2.65534  3.13663  3.26509  1.72209  2.94992  3.40115  5.95167  3.57777    109 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          0.02949  5.38739  3.70970  0.61958  0.77255  0.48576  0.95510
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+          0.73342  1.52922  1.19393  1.29696  0.31933  0.43417  1.04355
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    112   2.71783  5.15212  3.55645  2.67910  2.63576  3.93335  3.54297  3.75746  2.07356  2.30743  4.23242  3.49932  4.32108  2.89186  2.35507  3.14394  2.90411  3.46612  4.16336  2.21477    147 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    113   3.99274  5.26728  5.97429  5.39033  3.11444  5.29500  5.59205  0.78696  5.22011  1.25311  3.70530  5.45417  5.49722  5.21814  5.19630  4.64707  4.21398  2.65386  5.82131  3.56663    148 i - E
+          2.68632  4.42239  2.77505  2.73083  3.46368  2.40527  3.72508  3.29368  2.67704  2.69369  4.24704  2.90329  2.73753  3.18160  2.89814  2.37901  2.77533  2.98498  4.58320  3.61517
+          0.03611  3.40378  6.10974  1.63078  0.21788  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    115   3.42941  5.99234  2.23059  2.53515  5.32006  0.94865  4.31753  4.82317  2.74743  4.28737  5.05722  2.42400  4.47855  3.43846  2.69886  3.35453  3.67861  4.37742  6.41669  4.96643    158 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    120   3.06602  5.31782  3.43663  2.69023  2.95244  3.88612  4.08582  3.99652  1.71295  2.14288  4.38409  3.05505  4.27649  2.39232  2.75112  2.69554  3.29715  3.12111  5.80945  2.77233    163 k - H
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+          0.11291  2.25808  6.10974  0.16084  1.90668  0.48576  0.95510
+    121   2.19917  5.55694  3.30790  2.75207  4.89834  3.20834  3.06099  4.38151  1.78080  3.86055  3.57657  2.27535  4.22401  2.59002  2.98881  2.18187  2.62503  3.94563  5.99175  4.58333    165 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    131   3.06446  5.43975  2.92525  2.81296  4.73330  1.28495  4.05231  4.18373  2.57426  2.52638  3.77347  2.56888  4.25164  2.86064  2.89218  3.05458  3.29553  3.30189  5.90414  4.52775    175 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    133   3.05781  5.48950  2.16628  2.57619  3.51811  2.69139  4.03494  4.26703  2.55592  2.63723  4.53867  2.49033  4.23684  3.14257  3.27046  2.07756  2.42228  3.86296  5.94165  2.93539    177 s - -
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    134   3.07952  5.02057  3.68189  2.87836  4.19673  3.37397  4.20444  2.10096  2.11629  2.48079  2.90600  3.59636  2.14136  3.42960  2.70225  2.63649  3.31096  2.98288  5.56978  4.29209    178 i - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    135   3.07288  5.58658  2.17182  1.62578  4.93116  3.32728  4.03080  4.41818  2.13124  3.89174  4.62820  2.32675  4.23486  3.12815  3.26454  2.19596  2.71924  3.38934  6.01906  4.60604    179 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    136   1.84239  5.43678  3.38324  2.83500  4.76321  2.25449  2.31603  4.21602  2.83850  3.75352  3.52484  2.01373  3.49316  3.19466  3.31991  2.36749  3.30837  3.82633  5.93336  4.55658    180 a - T
+          2.68643  4.42250  2.77545  2.73149  3.46379  2.40538  3.72520  3.29379  2.67681  2.69380  4.24715  2.90266  2.73617  3.18172  2.89749  2.37912  2.77545  2.98544  4.58502  3.61528
+          0.89188  0.85842  1.79405  0.04806  3.05921  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20819  5.93054  0.61958  0.77255  1.00546  0.45551
+    138   2.72392  4.55296  4.25470  3.67730  1.47761  3.36217  4.35726  3.01529  3.58931  2.75359  3.09740  2.21063  4.44382  3.84221  3.83800  2.65163  3.24035  2.49639  5.15408  2.79722    183 f - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20819  5.93054  0.61958  0.77255  0.82848  0.57396
+    139   4.14394  5.34828  6.19546  5.65087  3.08502  5.62184  6.04803  1.17110  5.53623  0.96979  3.71529  5.79577  5.72605  5.50302  5.52622  5.02196  4.36963  1.81512  6.13478  5.10693    184 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    142   4.98034  6.55205  4.85589  4.78664  6.02009  5.00690  5.85979  6.12704  4.58519  5.42610  6.57594  5.19718  5.65290  0.09401  4.76314  5.06497  5.35658  5.77881  6.98093  5.98433    187 Q - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    143   4.94781  6.41348  5.79788  5.86538  6.70244  0.04754  6.70375  6.76696  6.15600  6.13795  7.23592  5.97163  5.79064  6.39323  6.10672  5.17595  5.49093  6.09400  7.32100  6.89237    188 G - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    144   2.42319  5.50587  1.99976  1.87176  4.85148  3.76152  3.95149  4.33787  1.75955  3.81098  4.54689  3.22849  4.15748  2.77825  2.55786  2.69751  2.92153  3.89690  5.93754  4.52602    189 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    145   4.06264  5.22112  6.23416  5.79914  4.60324  5.80851  6.68468  1.09691  5.78686  2.22777  4.29181  5.97952  5.96606  6.04244  5.96784  5.28216  4.32285  0.76189  6.86469  5.65117    190 v - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.28272  1.40133
+    146   3.06789  5.28499  3.06186  1.42245  2.90916  3.89427  4.09848  3.94701  2.89529  2.63852  4.35473  3.01129  4.28519  3.24516  3.36139  2.61710  2.05694  2.85090  5.78475  4.44559    191 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    147   2.29780  5.56666  2.94766  2.22208  4.91230  3.82831  4.01529  4.39860  2.03975  3.87214  4.60720  2.58376  4.22182  2.06871  2.43005  2.58065  2.42516  3.95761  4.10159  4.58776    192 k - H
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    152   2.51082  5.55698  3.32907  2.77445  4.90676  2.61090  4.03436  4.38629  1.37867  3.86814  4.60975  2.67583  4.23963  3.13360  2.61549  2.22598  2.48545  3.95307  6.00049  4.59762    197 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    154   3.06430  5.32492  3.42984  2.02971  3.74821  3.88281  4.08255  3.40606  1.58741  3.23243  4.39046  3.39883  4.27339  3.21992  3.02737  2.22535  2.48570  2.37881  5.81522  4.46612    199 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    155   2.56535  5.54722  2.69029  1.31739  3.82295  3.37483  4.02051  3.47869  2.49728  3.84902  4.59006  2.94698  4.22578  2.65631  3.25009  2.71670  3.28710  3.93347  5.98479  2.76086    200 e - H
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    156   3.28751  5.45686  3.72431  2.74411  4.73379  4.08299  4.19940  2.74054  2.51325  2.71390  4.52779  3.61044  4.45838  2.99543  0.92983  3.31739  2.94816  3.81182  5.90329  4.61572    201 r - H
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68683  4.42290  2.77447  2.72991  3.46419  2.40458  3.72498  3.29419  2.67773  2.69263  4.24350  2.90374  2.73773  3.18212  2.89866  2.37906  2.77549  2.98539  4.58542  3.61568
+          0.17499  1.84318  6.10974  1.83546  0.17381  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15337  5.38739  1.98331  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    163   1.55095  4.99405  5.78134  5.26171  4.29886  5.19800  5.75529  1.18542  5.14972  2.14220  4.11788  5.35513  5.47766  5.35130  5.25278  4.57787  3.99447  1.39054  6.17017  4.97223    215 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.28272  1.40133
+    164   1.49436  4.59079  4.77930  4.19426  3.71456  4.24434  4.61659  2.10346  4.04777  2.79983  3.73020  4.32318  4.63784  4.24357  4.17681  1.74458  3.38343  2.27755  2.43264  4.04847    216 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    165   4.33477  6.11441  5.17653  5.04653  6.39601  0.18555  5.97366  6.13664  4.62327  5.60011  6.53013  5.21338  5.48943  5.30261  2.52009  4.50324  4.83271  5.47593  7.24123  6.39876    217 G - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    166   2.73989  3.23217  5.01764  4.41537  3.66442  4.32453  4.67074  1.89156  4.22888  2.34002  3.68005  4.45534  4.69252  4.38456  4.28136  2.23743  1.60545  1.80784  5.20058  4.02078    218 t - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    167   2.22072  5.53322  2.95702  2.58008  2.56349  2.79166  3.23788  3.42137  2.33492  2.93667  4.57748  2.61816  4.22764  2.79154  2.68372  2.43883  2.95369  3.91650  5.97416  4.57159    219 a - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    168   3.05742  5.54716  3.31451  1.78554  4.88415  3.83408  2.43838  3.55903  2.11595  3.84861  3.25134  2.92046  4.22722  2.75201  2.14815  2.69725  3.28841  2.93668  5.98435  4.57923    220 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    169   3.35598  4.79697  4.83364  4.27047  1.58488  4.43732  2.98894  3.25448  4.13506  2.03284  3.91636  3.12676  4.79875  3.44738  4.28113  3.73267  3.58652  2.65848  4.99067  1.44358    221 y - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    170   2.79297  5.56666  2.20657  1.60244  4.91154  3.82974  4.01708  4.39723  1.69966  3.87170  4.60747  3.29728  4.22354  2.54789  2.86586  3.01905  2.96766  3.31060  5.99926  3.71072    222 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    171   2.16355  4.03767  2.97801  2.12798  4.83429  3.83887  4.02840  4.30468  2.16907  3.34575  3.64067  3.31552  2.24436  2.84997  2.69247  3.02950  2.55528  2.91825  5.95813  4.56118    223 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    172   3.05594  5.54844  3.00671  1.90554  3.63154  3.37880  4.02001  3.67628  1.80531  3.25831  4.59110  3.30272  3.11096  3.11881  1.72850  2.79372  3.28705  3.93511  5.98547  4.57928    224 r - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    173   3.09827  4.74907  4.09947  3.06304  2.32895  3.41831  4.37221  2.07617  1.68818  2.61995  3.85581  3.89766  4.48507  3.75515  2.83991  3.36259  3.32996  2.66034  5.33950  2.55990    225 k - H
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
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+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
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+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
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+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03940  5.10253  3.42483  0.61958  0.77255  1.19365  0.36113
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00935  5.07248  5.79482  0.61958  0.77255  1.23821  0.34235
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00935  5.07248  5.79482  0.61958  0.77255  1.23821  0.34235
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+          0.21562  5.07248  1.67297  0.61958  0.77255  1.23821  0.34235
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01148  4.86835  5.59069  0.61958  0.77255  0.74951  0.63980
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          0.00941  5.06695  5.78929  0.61958  0.77255  1.24606  0.33917
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+          0.05933  5.06695  2.96992  0.61958  0.77255  1.24606  0.33917
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+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
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+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
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+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
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+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
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+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
+    511   3.31471  4.65255  5.28331  4.68945  2.05986  4.53645  4.84800  1.78679  4.49286  2.03830  3.62111  4.68960  4.86390  4.60553  4.50412  3.86121  3.54728  1.19184  5.26950  2.78852    627 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  0.89054  0.52837
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    514   2.71543  4.75030  3.82703  3.26073  3.89590  3.96054  4.21346  2.87987  3.21645  1.92703  3.85488  3.67912  3.43068  3.52636  1.80011  2.35539  2.18302  2.71131  5.33110  4.09091    630 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    515   3.08300  4.98519  5.70367  5.13310  3.07443  5.03847  5.43887  2.25542  4.97476  0.97857  3.71941  5.19903  5.29268  5.06024  4.99742  4.39046  3.93682  1.20055  5.77284  4.65274    631 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    516   2.02868  4.57270  4.18767  3.61150  3.11285  1.74526  3.28643  2.46035  3.53163  2.37010  3.68397  3.29036  4.42852  3.79375  3.79968  2.71414  3.23606  2.28262  5.17411  3.96691    632 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    517   3.39181  5.98767  1.35998  1.41361  5.30458  3.87895  4.26677  4.82064  3.14518  4.28151  5.05947  2.84318  4.40722  2.03135  3.69635  3.30342  2.68365  4.36752  6.41421  4.93914    633 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    518   3.99222  5.54702  4.83662  4.64895  4.08624  4.74409  5.35462  3.56354  4.50613  0.29100  4.18583  3.22198  5.27644  4.88226  4.65817  4.31197  4.33571  3.62981  5.92394  4.60005    634 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    519   2.43614  2.48616  4.82850  4.22618  2.21918  1.98608  4.50638  1.91932  4.04597  2.61937  3.54818  3.44247  4.53936  4.20753  4.11134  3.47555  3.25623  2.17819  5.05212  3.87197    635 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    520   2.73152  5.47530  2.86113  2.27364  4.81923  3.74160  3.19243  4.30430  1.96738  3.78002  4.51629  3.20953  4.13509  2.09470  2.69259  2.25828  2.46833  2.80816  5.90859  4.49846    636 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    521   3.11381  3.40949  5.04825  4.44408  3.07083  4.30533  4.65322  1.64421  4.24584  2.38178  3.60435  4.45486  2.47760  4.39008  4.27482  3.62022  2.61546  1.34131  5.15389  3.97491    637 v - X
+          2.68639  4.42246  2.77484  2.73144  3.46322  2.40534  3.72516  3.29375  2.67660  2.69351  4.24711  2.90335  2.73761  3.18167  2.89797  2.37880  2.77514  2.98539  4.58498  3.61524
+          0.39661  1.24480  3.23381  0.41726  1.07543  1.00589  0.45527
+    522   2.97862  5.49542  1.74762  1.98342  4.84056  3.73445  3.12294  4.32836  2.22242  3.80029  4.53728  2.18680  3.32726  2.74047  2.77015  2.93771  3.21093  3.88633  5.92646  4.51237    641 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
+    523   2.96670  5.46660  2.28880  1.90324  4.80569  3.73222  3.92682  2.49765  1.93924  3.76917  4.50959  3.20110  2.65023  2.75304  3.15988  2.42608  3.19856  3.85417  5.90209  4.49291    642 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  0.90103  0.52113
+    524   2.73769  5.48645  3.22816  1.94495  4.83337  3.13963  3.93513  4.31687  1.56112  3.79023  4.52779  3.21945  4.14501  2.48170  2.27849  2.44519  2.84533  3.87834  5.91600  4.50920    643 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    525   3.63085  4.97396  5.24194  4.74050  1.79739  4.68191  3.45229  2.81769  4.55586  2.63584  4.08746  4.64137  5.02311  4.62327  4.58462  4.00270  3.11993  3.26522  4.65667  0.81907    644 y - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    526   2.69074  5.47600  2.10851  1.96452  4.82077  3.09731  3.92696  3.65335  2.24182  3.78115  4.51674  2.75310  4.13332  2.48115  2.78778  2.35242  3.19718  3.34841  5.90885  3.55154    645 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    527   2.42949  4.52000  4.39107  3.80866  3.63154  3.20814  4.40583  2.18846  2.81890  2.03963  3.63629  4.05165  4.47695  3.93789  3.91202  3.38634  1.54026  2.14204  5.13587  3.93947    646 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    528   0.35439  3.09577  5.03828  4.69688  5.11998  3.81577  5.37879  4.47058  4.41728  4.22559  5.08302  4.47490  4.60974  4.76223  3.21185  3.28894  3.58587  3.94525  6.51397  5.38036    647 A - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    529   2.85398  4.86427  5.60257  5.05626  4.11712  4.96413  5.44405  1.12924  4.91497  1.57376  3.98649  5.11966  5.26637  5.09497  4.98914  4.32183  2.88790  1.44557  5.88634  4.69592    648 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    530   2.64222  3.63986  3.30367  1.40716  4.59820  3.77573  3.98206  4.04002  2.74991  3.13973  4.37792  3.28334  4.17261  2.78661  3.22734  1.85203  2.52123  3.67109  5.79301  4.42643    649 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    531   2.09182  4.67123  4.03102  3.46324  3.81943  4.01923  4.31213  2.48423  2.34621  2.88974  3.79533  3.82787  4.40836  3.69108  3.71874  2.93080  1.70710  1.78685  5.28673  4.06505    650 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    532   1.35708  3.47891  4.58067  3.99845  3.62629  4.11423  4.48296  2.02811  3.86825  2.71339  3.63748  3.20774  4.50989  4.07661  4.02558  3.00951  2.50033  1.95847  5.14010  3.95166    651 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    533   1.64426  2.68005  4.81988  4.23186  2.56810  2.57279  4.54698  2.91325  4.06023  1.43461  3.60361  4.28917  4.54593  4.22787  4.13922  3.46219  3.28113  2.72367  5.11156  3.92918    652 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    534   2.67395  4.95372  3.61850  3.09110  3.27569  1.07185  4.17536  3.55416  3.08112  3.22468  4.08839  3.55551  2.98049  2.81828  3.49457  3.14498  3.26742  3.28586  5.51878  3.40795    653 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.11365  5.20575  2.28329  0.61958  0.77255  1.01048  0.45262
+    535   2.06324  5.42456  3.17305  2.63438  4.77021  2.37604  3.90429  4.25001  1.87730  3.73485  4.47813  2.04646  3.27948  2.65903  3.13116  2.62882  3.17268  3.81836  5.87047  4.46543    654 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00909  5.10118  5.82353  0.61958  0.77255  0.75167  0.63786
+    536   1.93426  5.48637  3.26179  2.70430  4.83041  3.77534  3.13767  4.30481  2.46189  3.78500  4.53081  2.56097  4.16777  2.70397  1.69877  2.09326  3.23442  3.87724  5.91452  4.51949    655 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    537   2.29897  4.61669  5.08246  4.47640  2.87408  4.41128  4.73269  2.57064  4.29011  0.87061  2.51909  4.53353  4.74459  4.41681  3.37764  3.72285  3.46817  2.78675  5.20905  4.05857    656 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    538   3.00740  5.46065  1.78937  2.69576  2.46054  2.81653  3.97369  4.24869  2.54734  3.75412  4.51029  1.90840  4.17158  2.57392  3.22145  2.97822  3.24047  3.83702  5.90632  3.62720    657 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    539   2.44464  5.36303  2.86293  2.71160  2.87888  3.76288  1.99791  4.11672  2.71177  3.64838  4.41621  2.48769  4.15546  2.80035  2.86026  2.33065  3.20154  3.72869  5.82369  2.69675    658 h - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04368  5.20575  3.28991  0.61958  0.77255  1.01048  0.45262
+    540   3.09519  4.47057  4.98650  4.38214  3.52373  4.27098  2.87595  1.40452  4.18460  1.75933  3.55063  4.40564  4.62623  4.32876  4.22067  3.58292  3.32765  1.61642  5.09002  3.11778    659 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
+    541   2.95738  5.09803  6.03668  5.60225  4.61737  5.52378  6.42913  1.45492  5.56662  3.04484  4.32751  5.73652  5.78141  5.85842  5.75234  4.98027  4.17182  0.54047  6.76058  5.50743    660 V - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  0.90103  0.52113
+    542   2.85000  3.16388  5.33993  4.80054  4.03871  4.56069  5.16749  2.53854  4.64228  2.90754  3.23371  4.81052  4.98439  4.82306  4.71893  3.92772  3.05142  0.58501  5.69336  4.50467    661 V - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    543   3.35111  5.94016  1.24098  1.51056  5.26122  3.01046  4.23393  4.77444  2.44493  4.23494  5.00698  2.85902  4.38188  2.48594  3.63750  3.26770  3.60508  4.32153  6.36544  4.89748    662 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    544   2.70145  5.48069  2.14000  2.67068  4.82216  3.13453  3.94459  4.30494  2.41595  3.78597  4.52642  2.38987  4.14737  3.04382  2.84716  2.45013  1.60586  3.87028  5.91912  4.51015    663 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    545   2.97326  5.26925  2.58251  1.38755  4.53566  3.78385  3.98248  3.05739  2.75925  2.64631  3.52284  2.93913  4.17542  3.11307  3.23395  2.29003  3.20462  3.07757  5.75249  4.39467    664 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    546   2.71363  5.46540  2.10503  1.64363  4.80554  3.14056  3.92957  3.63288  2.46486  3.25782  4.50738  3.21126  4.13535  2.53241  2.83663  2.93102  2.50272  3.85339  5.90103  3.54886    665 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    547   2.43479  3.66841  2.27997  2.33498  4.41586  3.81027  4.03399  3.82774  2.84087  3.43854  4.25405  3.35829  4.20892  3.18803  3.30276  2.74544  1.60227  2.30439  5.68767  4.35623    666 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    548   0.69161  3.23220  4.81619  4.35442  4.36984  2.11330  4.98752  3.63716  4.24662  2.84757  4.35420  4.32982  4.55480  4.46486  4.43091  3.29772  3.44499  2.83211  5.85324  4.67851    667 A - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    549   2.35886  5.38442  3.26128  2.52886  4.69165  3.14557  3.95120  4.15088  2.15725  2.89498  4.43550  3.24504  4.15314  2.16070  2.39504  2.95369  2.16499  2.65531  5.83998  4.45447    668 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    550   2.44036  5.47525  2.88910  2.14124  4.81969  3.74019  3.25863  3.42780  1.69663  3.14045  4.51610  2.79550  4.13366  2.33643  2.83592  2.43935  3.19741  3.86555  5.90826  4.49779    669 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07798  5.20575  2.66598  0.61958  0.77255  0.82204  0.57899
+    551   1.48672  1.94831  4.88880  4.33320  3.77398  2.39194  4.71078  2.02991  4.17632  2.82550  3.77391  4.36487  4.60178  4.35458  4.27352  3.48072  3.35546  2.10232  5.31274  4.13200    670 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00844  5.17525  5.89760  0.61958  0.77255  1.07023  0.41997
+    552   4.00867  5.20066  6.10571  5.60251  4.16412  5.58326  6.16194  0.73873  5.52182  1.78071  2.92978  5.75180  5.73107  5.61189  5.58800  5.00276  4.25116  1.59249  6.32305  5.22921    671 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00844  5.17525  5.89760  0.61958  0.77255  1.07023  0.41997
+    553   2.43203  5.46970  2.40490  2.09451  4.81456  3.13714  3.91767  4.30090  2.25725  3.77490  4.51069  2.19436  4.12323  2.21629  3.14743  2.39225  3.18940  3.10489  5.90228  4.49057    672 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00844  5.17525  5.89760  0.61958  0.77255  0.24140  1.53956
+    554   2.45493  4.51918  4.92751  2.92715  1.71121  4.27096  4.59563  2.21950  4.14033  1.94816  3.63587  4.38069  4.63602  4.30054  3.44151  3.57532  3.35134  2.35443  5.13781  2.18393    673 f - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    555   3.33657  3.48360  5.92893  5.33676  3.85252  5.24607  5.59476  2.62834  5.16248  0.40856  3.00832  5.41750  5.45954  5.16602  5.14585  4.59661  4.19641  3.04553  5.84148  4.78917    674 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    556   3.09639  5.57936  3.35855  2.40282  4.92486  3.86758  3.33819  4.39954  1.19301  3.34588  4.62255  2.95472  4.25841  2.79469  2.11046  3.06196  3.32451  3.26053  6.00513  3.53121    675 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    557   2.53853  5.56927  2.84579  2.20480  4.91548  3.82944  3.34266  4.40193  1.85830  3.87479  4.60975  3.29655  4.22311  1.81399  2.34539  2.56131  2.71539  3.96055  6.00101  4.58982    676 q - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    558   2.31308  5.43930  3.36315  2.55234  3.74269  2.99607  3.24427  4.18571  2.80581  3.20873  3.17981  1.98700  4.24650  2.41788  2.10337  3.04818  3.29012  3.33925  5.90344  3.56232    677 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    559   3.07465  5.57597  2.91615  2.76836  4.92229  3.84585  4.02757  4.40408  1.46136  3.38557  4.61759  1.93991  4.23873  2.63132  2.08814  2.78729  3.30457  3.38465  6.00496  4.60040    678 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    560   1.80009  4.59015  4.56023  3.33528  3.21428  2.43539  4.51224  2.75006  3.85603  1.46686  3.70491  4.18635  4.57994  4.07789  4.04056  2.48113  3.34203  2.62418  5.20116  3.15962    679 l - X
+          2.68623  4.42230  2.77525  2.73128  3.46359  2.40518  3.72500  3.29359  2.67722  2.69360  4.24695  2.90352  2.73715  3.18151  2.89774  2.37892  2.77525  2.98523  4.58482  3.61508
+          0.30125  2.38833  1.78185  0.17753  1.81608  0.48576  0.95510
+    561   3.38383  5.80274  3.12203  2.54316  5.15190  0.88403  3.35872  4.61757  2.65062  4.12187  4.92656  3.41987  2.29849  3.41132  3.49479  3.33336  3.63743  4.21531  6.27312  4.87685    681 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    562   3.02271  5.42827  3.31635  2.49686  4.74695  3.80307  3.97458  4.20040  2.48110  3.71312  4.47965  3.28662  2.88076  2.78095  1.18048  3.00335  2.78988  3.30401  5.86854  3.47476    682 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  0.82204  0.57899
+    563   1.40424  4.76432  3.84150  2.32118  3.39504  3.97904  4.22803  3.26813  3.23474  2.73912  3.86586  3.69479  4.35952  2.97129  3.60093  3.21988  2.82233  1.94105  5.34227  3.42595    683 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    564   3.05769  5.20602  3.50930  2.64957  4.53285  3.86484  4.14475  3.93947  2.91815  3.55054  4.37085  3.47032  4.29453  3.30403  2.58815  2.31134  1.00836  3.00554  5.79345  4.47695    684 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    565   4.14270  5.36701  6.10151  5.56017  0.64803  5.51661  5.70407  1.99429  5.41990  1.99468  3.68659  5.64589  5.64833  5.36903  5.39491  4.90020  4.36411  2.39015  5.81650  4.57912    685 F - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04210  5.24192  3.32608  0.61958  0.77255  0.93199  0.50050
+    566   3.55717  4.87859  5.49633  4.90177  3.71776  4.80868  5.15655  1.21900  4.72108  1.32054  2.52312  4.95736  5.08852  3.27174  4.73715  4.14062  3.78527  1.91092  5.53271  4.41591    686 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    567   3.15980  4.65028  4.61514  4.05374  2.98727  3.43588  4.58374  2.68750  3.93056  1.94724  3.68510  4.25247  0.96149  4.15253  4.11122  3.54385  3.40892  2.84072  5.23563  4.01097    687 p - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    568   3.19607  4.71039  4.56285  4.06725  3.76876  4.22906  4.65450  2.68088  3.92055  0.66356  3.77005  3.08992  4.65713  4.19092  4.10060  2.90583  3.46203  2.88983  5.35095  4.14382    688 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    569   3.10401  5.62242  1.29936  2.70502  4.96254  3.79529  4.04095  4.45162  2.34417  3.92625  4.67553  1.86437  4.22994  3.14730  2.93732  2.51376  2.96327  4.01270  6.05690  4.63558    689 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    570   2.59419  5.45263  2.89928  2.30135  4.78699  3.74586  3.25573  4.26533  1.79026  3.75324  4.49615  3.21756  4.13905  3.03376  1.82788  2.69857  2.77675  3.31754  3.80155  3.62087    690 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    571   3.14343  4.52700  4.98693  4.38211  3.55529  4.31211  3.47028  1.25843  4.19340  1.32416  3.07553  4.43325  3.38417  4.33926  4.24300  3.62186  3.37464  2.48205  5.14634  3.97890    691 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04592  5.20798  3.23381  0.61958  0.77255  1.00589  0.45527
+    572   2.28405  5.44167  3.21729  2.08593  4.77784  3.73442  3.91988  4.25536  1.78785  3.74177  4.48523  3.20601  4.12727  2.70578  2.04148  2.41002  3.18855  3.08707  5.87844  3.57108    692 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.08424  5.17054  2.58879  0.61958  0.77255  1.07899  0.41542
+    573   2.46957  3.44072  2.73932  2.77834  3.29252  3.23834  4.10425  3.30528  3.05087  2.61312  3.87274  3.53103  2.83082  3.37115  3.44690  2.79014  2.23519  1.95813  5.34126  4.08362    693 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00914  5.09544  5.81778  0.61958  0.77255  1.20447  0.35646
+    574   2.91666  5.42449  2.28736  2.21566  3.75343  3.69067  3.87781  4.25356  2.05603  3.72923  4.46547  2.49473  3.28678  2.63632  2.09960  2.87946  2.76650  3.81454  4.05909  4.44760    694 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07951  5.09544  2.65488  0.61958  0.77255  0.87281  0.54090
+    575   2.59948  5.41745  2.78592  2.02627  4.75599  3.69779  3.88594  3.41556  2.04321  3.06398  4.45990  3.16775  2.36096  2.30196  3.11485  2.37859  3.15351  3.80459  5.85399  4.44697    695 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00904  5.10604  5.82839  0.61958  0.77255  1.01768  0.44853
+    576   2.66317  5.02949  2.91017  2.87050  3.36122  3.14019  3.29985  2.81384  2.44153  2.16639  4.10963  3.37351  2.82546  3.20077  2.62579  3.01843  2.34968  2.98356  5.55488  4.24680    696 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00872  5.14188  5.86423  0.61958  0.77255  1.12988  0.39019
+    577   2.93721  5.44134  2.33743  2.63246  4.78365  2.92253  3.89926  4.26768  2.43553  3.74544  4.48276  2.13260  3.53054  2.25053  2.83983  2.24450  2.74672  3.15209  5.87567  3.57630    697 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    609   3.55642  2.35778  5.52848  4.92862  1.50356  4.79559  5.12464  2.42334  4.73820  1.12580  3.54748  4.95895  5.07381  4.79874  4.73125  4.12763  3.78300  2.38379  5.47672  4.35014    737 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04368  5.20575  3.28991  0.61958  0.77255  1.01048  0.45262
+    610   3.26460  5.58164  3.48078  2.97907  4.98130  1.02832  3.18494  4.41201  2.70284  3.90468  4.70378  3.48191  4.38246  2.86658  1.98428  2.73464  3.49310  4.02728  6.02468  4.70942    738 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00848  5.17054  5.89289  0.61958  0.77255  1.07899  0.41542
+    611   3.02455  5.54295  1.78838  2.66307  4.88423  3.09883  3.97283  4.37312  2.05387  3.84713  4.58939  1.76514  4.16842  2.76142  3.22752  2.60899  2.64534  3.93251  5.97638  4.55778    739 n - X
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+          0.00848  5.17054  5.89289  0.61958  0.77255  0.90103  0.52113
+    612   2.06488  4.63458  4.53486  3.98728  3.89246  4.06204  4.62476  2.39575  3.88836  2.94870  3.88061  4.17326  4.54533  4.12654  4.10492  2.47508  1.15371  2.08358  5.40285  4.20801    740 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  0.82204  0.57899
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.07757  5.24192  2.66867  0.61958  0.77255  0.93199  0.50050
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+          0.06996  5.17281  2.78224  0.61958  0.77255  1.07479  0.41759
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+          0.15459  5.11184  1.98623  0.61958  0.77255  1.17915  0.36751
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    633   2.03091  3.52622  4.88634  4.28345  2.83410  4.26277  3.47061  2.27318  4.10909  2.42038  2.94133  4.35922  4.62847  2.61867  3.43446  3.08886  2.70045  1.90059  5.14159  2.86082    765 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    635   2.80484  5.27957  3.88190  3.39588  4.94622  3.95642  4.54091  4.36774  3.30768  3.97204  4.78373  3.81265  4.51177  3.17877  3.11137  1.94329  0.74300  3.95065  6.19110  4.90235    767 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    636   2.79140  4.56306  4.68501  4.09263  3.66312  4.23314  4.54342  2.63084  3.29154  0.99790  3.00183  4.25609  3.11955  4.15654  3.47867  2.82152  3.34597  2.30060  5.17748  3.99009    768 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.11291  5.38739  2.28084  0.61958  0.77255  0.48576  0.95510
+    637   3.16315  5.70115  1.39908  1.60543  5.03927  3.83789  4.09423  4.53431  2.64707  4.00283  4.75035  2.58587  4.27962  2.39827  2.95427  2.81257  3.40202  4.08933  6.13015  4.70032    769 d - X
+          2.68621  4.42228  2.77523  2.73127  3.46301  2.40516  3.72498  3.29310  2.67744  2.69358  4.24693  2.90350  2.73743  3.18150  2.89804  2.37890  2.77523  2.98522  4.58480  3.61506
+          0.08224  3.29323  3.17447  0.65929  0.72819  0.83310  0.57040
+    638   4.02136  6.57181  2.51186  2.53427  6.10794  0.38633  4.86223  5.72325  4.09593  5.17770  6.11509  3.61114  4.81873  4.06714  4.80970  3.87976  4.38925  5.19581  7.28033  5.71376    772 G - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00846  5.17216  5.89451  0.61958  0.77255  1.07598  0.41698
+    826   2.19636  5.46095  2.59670  2.38580  4.80538  3.72520  3.91263  4.29084  2.15164  3.76587  4.50186  2.45349  4.11896  2.49825  2.31613  2.26869  3.18306  2.82330  5.89390  4.48338   1000 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00846  5.17216  5.89451  0.61958  0.77255  1.07598  0.41698
+    827   2.45016  5.48932  2.51649  1.35086  4.83428  3.73512  3.93082  4.32091  2.30887  3.79383  4.53120  3.20163  4.13536  2.37392  2.55505  2.65717  3.20779  3.88014  5.92050  4.50809   1001 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00846  5.17216  5.89451  0.61958  0.77255  1.07598  0.41698
+    828   2.61416  4.48657  3.34068  3.79571  3.59241  4.07938  4.37676  1.62009  3.12797  1.89155  2.94871  4.03162  4.44992  3.31089  3.35254  3.36070  3.22126  2.20365  5.09561  2.75450   1002 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.09368  5.17216  2.47985  0.61958  0.77255  1.07598  0.41698
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00921  5.08769  5.81004  0.61958  0.77255  1.21606  0.35154
+    830   2.49885  5.40838  2.42751  2.07399  4.74703  3.68918  3.87690  3.45865  2.25804  3.11805  4.45073  3.15912  4.08251  2.42987  2.72680  2.19190  2.54772  3.79557  5.84490  3.69121   1004 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00921  5.08769  5.81004  0.61958  0.77255  0.85072  0.55705
+    831   2.34408  4.56667  4.13428  3.55906  3.68364  3.37686  4.30644  2.74159  2.90945  1.36453  2.95406  3.31260  4.40243  3.75018  3.76125  2.53855  2.61878  2.55509  5.16631  3.95682   1005 l - X
+          2.68546  4.42280  2.77408  2.73053  3.46266  2.40497  3.72461  3.29288  2.67795  2.69377  4.24744  2.90401  2.73794  3.18201  2.89821  2.37941  2.77574  2.98452  4.58531  3.61558
+          0.30961  1.33367  5.89451  1.40115  0.28278  0.23984  1.54532
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    833   2.09506  5.56618  2.62226  1.88058  4.91142  3.24309  4.01578  4.39747  1.93839  3.01177  4.60683  3.29605  4.22223  2.77445  2.35593  2.56297  2.98847  3.95692  5.99870  4.58770   1012 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    841   2.32356  5.56246  2.54611  1.43746  4.90613  3.82923  4.01651  3.62806  2.19505  3.24898  4.60351  3.29723  4.22276  2.37472  2.95626  2.75597  2.87726  3.95235  5.99593  4.58586   1020 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    842   2.85055  4.56781  5.01255  4.40681  3.10112  4.33813  4.66543  1.95282  3.29742  0.94362  3.64270  4.45664  4.69668  3.40509  4.27184  3.64540  3.40893  2.29707  5.18982  4.01552   1021 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    843   2.21020  3.81591  2.98299  1.96421  4.88215  3.18716  4.02000  3.29337  1.84827  3.84721  3.69196  2.94717  4.22533  2.60118  2.70685  2.77768  3.28628  3.01074  5.98331  4.57751   1022 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    845   2.76621  3.58300  4.85015  4.24932  3.02753  4.25761  3.35676  2.41824  4.08191  1.39108  3.06398  3.07581  4.62371  4.25540  2.86541  3.02604  2.44246  2.29307  5.14709  3.96514   1024 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    846   2.44865  5.48371  3.34076  1.72582  4.79510  3.84475  4.03565  3.66511  2.53828  2.88768  3.68824  2.37779  4.23736  2.85993  2.96444  2.71487  2.03346  3.29829  5.93709  4.54743   1025 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    851   2.74278  5.56946  2.50094  1.76100  3.76926  3.82956  4.01790  4.40100  1.97206  3.87480  4.61020  2.47558  4.22396  2.38549  3.24633  2.77602  2.21356  3.96020  6.00193  4.59049   1030 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    853   2.33913  5.55355  2.92377  2.35190  4.89356  3.83073  4.01823  3.66678  1.84086  3.42589  3.78783  2.93834  4.22407  2.54871  1.78436  3.01973  2.97919  3.26640  5.98923  4.58144   1032 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    854   2.01381  5.55968  3.30726  2.30351  4.90205  3.83070  4.01781  4.38581  2.14419  3.22571  4.60116  2.33461  4.22414  2.61613  2.86279  2.21752  2.14463  3.94889  5.99381  4.58492   1033 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    855   3.05638  5.56943  2.93925  1.56175  4.91549  3.34727  2.94891  4.40216  2.49135  3.87506  4.60992  2.43010  4.22278  2.35927  2.29263  2.56050  3.28757  3.20951  6.00140  4.58982   1034 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    856   3.11463  3.68333  4.80265  2.83423  3.13825  3.32382  3.62302  2.70097  4.04587  1.34386  3.08737  4.31739  4.61731  3.52238  4.15060  3.54897  3.34673  2.59489  5.15468  1.87440   1035 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    857   2.21608  5.56005  2.87736  1.90865  4.90289  2.95546  4.01654  3.48920  2.28499  3.34809  4.60129  2.50055  4.22268  3.11360  2.33078  2.59227  2.70754  3.94949  5.99406  3.65356   1036 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    858   2.60964  5.56913  2.90474  1.09165  4.91290  3.83278  4.02149  4.39781  2.17840  3.35407  4.61048  3.30063  4.22761  2.78664  2.95849  2.77697  2.88287  3.95914  6.00214  4.59207   1037 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    859   1.75962  4.87776  3.38242  2.69032  3.45771  3.06782  4.28205  2.75517  2.56687  2.03705  3.23887  3.73064  4.42018  3.12370  3.64142  3.27474  2.90440  2.50673  5.45000  3.44331   1038 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    860   2.78426  5.52127  2.92978  1.94348  4.84772  3.36362  3.42248  2.92879  1.96642  2.47536  4.56686  3.31186  4.22993  2.49839  3.25782  2.47294  2.87677  3.28042  5.96526  3.81403   1039 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04313  5.38739  3.27980  0.61958  0.77255  0.48576  0.95510
+    861   1.93148  4.08350  3.30104  2.17259  3.85613  3.32917  4.00581  4.31611  1.71819  3.80978  4.55577  2.69390  4.21021  3.10726  2.61761  2.42475  2.93543  3.44231  5.95299  4.55150   1040 k - X
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+          0.11731  5.35134  2.24479  0.61958  0.77255  0.62301  0.76858
+    862   2.14740  5.47453  3.26449  2.14591  4.80883  3.77822  3.96145  4.28238  1.74389  2.36266  4.51954  2.90475  4.17091  3.06296  2.25382  2.47780  3.23244  3.85970  5.91120  4.51389   1041 k - X
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+          0.08526  5.24192  2.57130  0.61958  0.77255  0.93199  0.50050
+    863   2.69133  4.45490  4.48380  3.89511  2.92142  4.09501  4.40015  2.36294  3.09598  1.70727  2.68786  4.08926  4.46407  2.75969  3.17259  2.78889  2.84434  1.98594  5.06713  3.87669   1042 l - X
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+          0.00852  5.16518  5.88753  0.61958  0.77255  1.08882  0.41040
+    864   2.68585  5.38202  3.22955  1.88300  4.69591  3.12580  3.13269  4.16047  2.16258  3.67391  3.06486  2.88224  3.50087  3.03326  2.78332  2.59370  2.82740  2.73984  4.07143  3.70846   1043 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16518  5.88753  0.61958  0.77255  1.08882  0.41040
+    865   2.98166  5.49846  2.12056  1.46937  4.84212  3.24462  3.35005  4.33014  2.37270  3.80309  4.54091  3.19911  4.13777  2.48693  3.17635  2.35143  2.76648  3.88861  5.93043  4.51528   1044 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16518  5.88753  0.61958  0.77255  1.08882  0.41040
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+          0.00852  5.16518  5.88753  0.61958  0.77255  1.08882  0.41040
+    867   2.94750  5.45132  2.56691  2.18628  4.79354  3.72228  3.90962  3.04957  2.09616  3.26105  4.49273  2.40546  4.11570  2.30575  2.60995  2.58423  2.61682  3.23462  5.88569  4.47650   1046 k - X
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+          0.00852  5.16518  5.88753  0.61958  0.77255  1.08882  0.41040
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+          0.00852  5.16518  5.88753  0.61958  0.77255  0.73030  0.65733
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04435  5.24192  3.26774  0.61958  0.77255  0.93199  0.50050
+    875   2.45586  5.48204  2.33301  2.26815  4.82745  3.11333  3.92987  4.31377  1.60960  3.78737  4.52284  3.20859  4.13601  2.31395  2.89540  2.67752  2.56763  3.87291  5.91430  4.50290   1054 k - X
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    876   2.64408  5.33188  3.28554  1.91791  3.73624  3.77055  3.96414  2.77207  2.21424  2.20710  4.38815  2.85664  4.16233  2.16497  2.81669  2.96553  3.20285  3.69145  5.80004  4.42720   1055 e - X
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    879   2.46731  5.44151  2.52772  2.16376  3.80433  2.89519  3.93482  4.24738  1.95697  2.92109  3.49738  2.70773  4.13929  2.69403  3.16573  2.93604  2.59694  3.09718  5.88317  4.48134   1058 k - X
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    880   1.78235  3.35131  4.44836  3.29913  3.59473  4.10642  3.42820  2.43890  3.15923  1.97942  2.61002  4.07865  4.47626  3.96934  3.31016  2.89137  3.23978  2.21907  5.10120  3.29270   1059 a - X
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+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    881   2.72498  5.46816  3.22304  2.00410  4.80913  3.74467  3.93108  4.29121  2.29139  3.77107  3.37079  2.32510  4.13790  2.54454  1.84109  2.43358  3.20065  3.25031  5.90274  4.49570   1060 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    882   2.99105  5.50623  2.37887  1.70039  4.85214  3.75066  3.94558  4.33923  1.97364  3.81103  4.54779  2.79550  4.15053  2.70056  2.34607  2.10619  3.22289  3.89754  5.93674  4.52410   1061 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    884   2.69185  4.96980  3.54100  2.47793  3.21002  3.86822  4.08916  2.64935  2.17297  2.33795  3.02969  3.05942  4.25431  2.36045  2.71603  3.08544  3.21366  2.83586  5.51156  3.35976   1063 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+    885   2.96603  5.47619  2.82828  2.28674  4.82108  3.31919  3.39913  3.13467  2.08468  3.78138  4.51691  2.23211  4.13331  2.41265  2.37176  2.66528  2.53036  3.86674  5.90897  3.67692   1064 k - X
+          2.68633  4.42240  2.77534  2.73073  3.46369  2.40527  3.72509  3.29369  2.67755  2.69370  4.24704  2.90361  2.73754  3.18007  2.89815  2.37901  2.77534  2.98533  4.58075  3.61518
+          0.05141  3.04819  5.92809  1.57516  0.23190  0.82204  0.57899
+    886   2.74752  5.48381  2.89748  1.64950  4.82450  3.75897  3.36482  4.30731  1.80989  3.15163  4.52567  3.22813  4.15241  3.04428  2.86565  2.18135  2.82350  3.17260  5.91906  4.51088   1072 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    887   2.38121  4.53801  5.08145  4.47516  2.66291  4.34716  4.68621  2.00724  4.27777  0.98076  3.57354  4.49373  4.69833  4.41107  4.30529  3.08324  3.39930  2.44154  5.17398  4.00521   1073 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04210  5.24192  3.32608  0.61958  0.77255  0.93199  0.50050
+    888   2.65540  5.46529  2.91713  1.85550  4.80425  3.74474  3.93270  4.28574  1.75050  2.81945  3.50565  3.21458  4.13844  2.06643  3.16047  2.45963  3.20078  3.85267  5.90144  4.49445   1074 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    889   2.31249  5.44453  3.23251  2.23363  4.77538  3.74860  3.37440  3.62236  1.82645  2.67185  4.48907  2.89490  4.14163  3.03780  2.19339  2.41978  2.80784  3.82754  5.88553  4.48406   1075 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    890   2.96959  5.47605  2.91308  1.58311  4.81928  3.25989  3.93071  2.97039  2.13306  3.78048  4.51734  2.55776  4.13673  3.02778  2.59317  2.22837  2.88011  3.86573  5.90971  4.49977   1076 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    891   2.73512  4.50534  4.42615  2.85633  3.60979  4.10899  4.40768  1.61767  3.72558  1.74805  2.98181  4.06911  4.47874  3.17745  2.80619  3.39191  3.24668  2.09738  5.11630  3.92234   1077 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    892   2.96853  5.46387  2.04229  2.02331  4.80243  3.14117  3.35261  3.07166  2.66963  2.51541  4.50630  2.62287  4.13766  2.33408  2.84054  2.93370  2.87737  3.85102  5.90040  4.49329   1078 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    893   2.27937  5.48619  2.58406  1.78925  4.83195  3.09633  3.93206  4.31873  2.09978  3.79167  4.52692  2.23147  4.13798  2.77041  2.52475  2.93419  2.89423  3.87725  5.91814  4.50620   1079 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20798  5.93033  0.61958  0.77255  1.00589  0.45527
+    894   2.72582  4.42865  2.93209  4.17111  2.60692  4.16370  3.39689  1.87521  3.99995  1.40781  2.97737  4.25408  4.52912  4.16942  4.08158  3.46547  3.25094  2.67634  5.04335  2.79325   1080 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07825  5.20798  2.66223  0.61958  0.77255  1.00589  0.45527
+    895   2.95557  5.45185  3.20781  1.56707  4.79677  3.72704  3.90829  4.27692  2.05942  3.75355  4.49408  3.19618  4.11983  2.19428  2.36205  2.62503  2.54955  3.25401  5.88143  4.47864   1081 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    896   2.93585  5.44220  2.55898  1.95332  4.78551  3.71002  2.94861  3.60898  2.19728  2.82964  4.48336  2.19563  4.10354  2.99426  2.54349  2.53707  2.84537  3.83190  5.87588  4.46606   1082 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  0.94719  0.49074
+    897   2.95936  5.47101  2.36119  2.31634  4.81707  3.73019  3.91770  4.30310  1.74701  3.06501  4.51177  2.38314  4.12465  2.51281  2.37162  2.35733  3.19045  3.86226  5.90239  4.49168   1083 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    898   3.67537  4.94848  5.69469  5.13405  3.94356  5.04062  5.47134  1.31285  4.98342  1.19293  2.96243  5.20134  5.30039  5.09351  5.01980  4.39755  3.01809  1.60581  5.82267  4.68869   1084 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    899   2.95466  5.44038  3.21179  1.51626  3.85981  3.73172  3.22603  4.25384  2.30837  3.74116  3.48786  2.14483  4.12518  2.76764  3.14915  2.64124  2.46668  3.82550  5.87912  4.47461   1085 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    900   2.64066  5.46678  2.78559  2.05066  4.81232  3.22742  3.91526  4.29840  1.49354  3.28494  4.50747  2.84087  4.12185  2.31559  2.76336  2.91746  2.91490  3.85770  5.89891  4.48795   1086 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    901   2.96762  4.96718  2.64431  2.65274  3.25272  3.27608  4.07009  2.72170  2.22657  2.18441  3.40767  3.44403  4.23655  2.69032  3.37150  2.70490  2.76868  3.27056  3.77655  3.03329   1087 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    902   2.95429  5.46278  2.57310  2.08569  4.80710  3.72776  3.91498  4.29237  2.04447  3.76759  2.46941  2.53576  4.12142  2.22876  2.61864  2.63228  3.18542  3.85304  5.89574  3.61673   1088 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    903   2.63673  5.16695  3.35838  2.58172  4.40644  3.79126  3.99470  3.14157  2.19051  2.58557  4.23718  3.32074  4.18109  2.54635  2.92221  2.00088  2.36174  2.80971  5.66852  3.28409   1089 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    904   2.45460  5.46614  2.60553  1.79086  4.81134  3.72827  3.38574  4.29713  1.90054  2.62269  4.50694  2.65698  4.12220  2.67313  2.65127  2.91791  3.18689  3.85689  5.89843  4.48775   1090 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    905   2.97148  5.24847  3.32859  2.51170  4.51183  3.78427  3.97802  3.38745  1.96436  1.87234  4.31239  2.64719  4.17433  3.11171  2.26799  2.98469  2.41401  3.59454  5.73150  3.57899   1091 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    906   1.84742  5.40534  2.83029  2.26753  3.63738  3.73732  2.82713  4.19552  2.33590  3.70027  3.60061  2.59460  4.13022  3.03175  3.16036  2.52010  2.50985  3.11069  5.85277  4.45686   1092 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    907   2.18663  5.40584  2.90471  2.03784  4.72695  3.73720  3.92692  3.01939  2.45996  3.70086  3.52260  2.62309  4.13009  2.34315  3.16011  2.56126  2.47691  3.34110  5.85312  3.48402   1093 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    908   2.01451  4.39653  4.83222  4.22566  3.01791  4.15517  3.58659  2.26219  3.34794  1.24317  3.00898  4.27307  4.51989  4.19461  4.09357  3.46061  3.23274  2.43529  5.01580  3.20168   1094 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    909   2.43410  5.40890  3.22550  1.68167  4.73103  3.27401  3.92708  4.20102  2.10167  2.45391  4.45581  2.84593  4.13037  2.77716  3.15967  2.67992  2.58283  3.13504  5.85562  4.45907   1095 e - X
+          2.68620  4.42227  2.77522  2.73125  3.46356  2.40515  3.72497  3.29356  2.67743  2.69357  4.24692  2.90349  2.73742  3.18148  2.89803  2.37889  2.77522  2.98476  4.58479  3.61505
+          0.10229  2.97046  3.08010  0.30039  1.34912  1.06671  0.42181
+    910   2.93664  5.43731  3.18617  2.11300  4.77867  3.71049  3.11331  3.50437  2.03484  3.74063  4.47919  2.55945  4.10431  2.44916  3.12368  1.78195  2.54373  3.82601  5.87182  4.46379   1097 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00880  5.13295  5.85530  0.61958  0.77255  1.14493  0.38309
+    911   2.25616  5.43896  2.53366  2.24131  4.78210  3.70739  3.89465  3.47666  2.01144  2.95700  4.48015  2.54910  4.10084  2.66280  2.44720  2.53452  2.85507  3.82857  5.87278  4.46304   1098 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00880  5.13295  5.85530  0.61958  0.77255  0.93270  0.50004
+    912   2.62534  2.87841  4.78186  3.45033  3.49781  4.14655  4.47023  1.64030  4.00060  1.55558  3.52033  3.42301  4.51208  4.16568  3.18442  3.44969  3.23011  2.31915  3.53408  3.84102   1099 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00842  5.17713  5.89947  0.61958  0.77255  1.06671  0.42181
+    913   2.27171  5.45559  2.61220  1.98907  4.79720  3.72809  3.91555  4.28072  1.83047  3.75937  3.14104  2.90311  2.86550  3.01302  2.76550  2.91705  2.80660  3.84437  5.89031  3.61549   1100 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04739  5.17713  3.20295  0.61958  0.77255  1.06671  0.42181
+    914   2.93596  5.42370  2.37257  1.74492  4.75927  3.71322  3.90123  2.86897  2.29347  3.03312  3.59399  2.65743  4.10648  2.42239  2.73297  2.90268  3.16711  3.80923  5.86205  3.65913   1101 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    915   2.95401  3.02116  3.63587  2.27960  3.17732  3.06520  4.11249  2.98066  2.53960  2.12771  3.91448  3.53017  2.86409  2.62235  3.44794  2.67884  3.18560  3.10744  3.91755  3.45358   1102 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    916   2.62270  5.43387  2.86102  1.94890  4.77366  3.24117  3.89902  4.25592  2.63580  2.93142  4.47594  2.41239  3.43070  1.89244  2.80223  2.90046  2.80917  3.82167  3.77282  4.46195   1103 q - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    917   2.62025  5.20891  3.30289  2.19878  3.40187  3.75841  3.95786  2.30041  1.90332  2.96429  4.27379  3.27279  3.31245  2.47454  2.86127  2.72777  3.17252  3.11919  5.69778  4.34695   1104 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    918   2.56384  5.42734  3.19709  1.86897  4.76377  3.12882  3.90337  4.24257  1.76909  2.53301  4.47059  2.48756  4.10970  2.76753  2.73232  2.90676  3.17106  3.30170  5.86454  4.46047   1105 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    919   2.98180  4.43293  4.54198  3.31186  3.52705  4.09928  3.44353  1.53024  3.80751  1.47490  3.08858  4.11759  4.46680  3.17774  3.95489  3.39121  3.21367  2.68282  5.04357  2.78013   1106 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    920   2.64174  5.40369  3.20219  2.21471  4.73105  3.23141  3.90572  4.20469  2.18796  3.70138  3.44445  2.80485  2.13249  3.00803  2.47531  2.46739  2.87713  3.28545  5.84711  3.56566   1107 p - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    921   2.94095  5.20611  2.86959  2.13107  3.54775  3.75868  3.42608  3.14500  2.53945  2.21117  4.27122  2.94839  2.97908  3.09493  2.88733  2.38267  2.84455  3.00708  3.96312  4.34530   1108 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    922   2.97487  3.45924  4.59711  3.34011  3.09676  3.23306  4.41541  2.14798  3.01064  1.49579  2.72381  4.14407  4.46917  4.04908  3.98301  2.27323  3.20696  2.66311  5.02769  3.31167   1109 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    923   2.68856  5.45516  3.18415  1.86965  4.80038  2.47987  3.90396  4.28544  2.10410  3.75967  4.49658  2.87711  4.11083  2.45136  2.72675  1.90813  3.17752  3.84605  5.88685  4.47707   1110 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13849  5.86083  0.61958  0.77255  1.13564  0.38745
+    924   2.43611  5.25352  2.42446  2.42569  3.48144  2.74373  3.94457  3.25159  2.34079  2.35689  4.31421  3.25173  3.27960  2.70469  3.19337  2.68552  3.17098  2.77236  5.73261  4.37063   1111 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04504  5.13849  3.26566  0.61958  0.77255  1.13564  0.38745
+    925   2.93219  4.93991  3.47331  2.08653  2.88327  3.81234  3.03074  3.51955  2.89602  2.30979  4.02544  3.40312  3.48002  3.23345  2.54703  2.59998  2.48546  2.32935  5.47823  4.18630   1112 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
+    926   2.92098  5.37021  1.98630  2.63832  4.69046  3.09612  3.89422  4.15919  2.16657  3.19224  2.93877  2.88212  2.39041  2.99918  2.75157  2.89543  2.72816  3.29785  5.81806  4.42273   1113 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
+    927   2.52596  4.56393  2.57465  2.33582  3.68476  3.97941  4.25155  2.25170  3.38888  1.73736  3.02218  3.80165  4.35479  3.66550  3.68816  3.23951  3.18277  2.29328  5.16095  3.17282   1114 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
+    928   2.35417  5.41028  2.06567  1.94000  4.74568  3.27370  3.88740  4.22505  2.45702  3.21815  4.45375  2.55783  4.09213  2.98708  3.11816  2.62418  2.56468  2.84461  5.84886  4.44347   1115 e - X
+          2.68624  4.42231  2.77526  2.73130  3.46360  2.40519  3.72501  3.29315  2.67747  2.69361  4.24539  2.90353  2.73746  3.18153  2.89807  2.37893  2.77526  2.98474  4.58483  3.61509
+          0.16315  1.91335  5.82487  0.15355  1.94951  1.19365  0.36113
+    929   2.22365  5.42839  2.14459  2.18806  3.73135  3.69328  3.21196  4.25825  2.25577  3.23686  4.46924  2.76708  3.28950  2.62320  2.78401  2.45860  3.15052  3.81865  5.86147  4.45093   1117 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00908  5.10253  5.82487  0.61958  0.77255  1.19365  0.36113
+    930   2.58493  4.70362  3.27618  2.81794  2.82903  3.28963  4.15013  2.35818  3.14897  1.95285  3.80448  3.08217  2.88325  3.00823  3.51944  3.14221  2.75598  2.70076  5.27974  3.11190   1118 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04383  5.10253  3.30212  0.61958  0.77255  1.19365  0.36113
+    931   2.90640  3.92279  2.07742  2.07199  4.60332  3.69900  3.89143  3.35736  2.64647  2.73342  4.35567  3.18632  2.90980  2.51008  2.85854  2.59912  2.75330  3.04743  5.76339  4.38115   1119 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.10451  5.06809  2.37577  0.61958  0.77255  1.24445  0.33982
+    932   2.60758  5.02076  2.39579  1.84803  3.30019  3.07905  3.92188  2.62423  2.73726  2.80579  4.09564  2.78029  4.10334  3.08395  3.19460  2.92023  3.10248  2.91655  5.53347  3.44890   1120 e - X
+          2.68681  4.42288  2.77380  2.73186  3.46013  2.40548  3.72558  3.29144  2.67767  2.69343  4.24753  2.90410  2.73764  3.18148  2.89864  2.37895  2.77542  2.98531  4.58540  3.61472
+          0.07615  2.65978  5.69625  2.78588  0.06366  1.15812  0.37699
+    933   2.09356  5.31412  2.51910  2.42783  4.62577  3.16300  3.86521  2.95649  1.88535  3.14131  3.40471  3.15591  4.06693  2.71546  3.10083  2.36543  3.11827  3.68667  5.76734  4.37752   1146 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04613  5.02384  3.25702  0.61958  0.77255  1.11127  0.39919
+    934   2.56676  4.88331  3.46467  2.90394  3.20292  3.78867  4.01016  3.08110  2.60054  2.72029  3.15545  2.87853  3.50683  2.83503  2.93355  2.13087  2.31283  3.18455  5.42599  2.84920   1147 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00973  5.03372  5.75607  0.61958  0.77255  1.29109  0.32154
+    935   2.89234  5.39711  2.51316  2.18541  4.73943  3.66525  3.85386  3.32958  2.15390  3.70120  4.43863  2.79276  2.93576  2.55755  3.08278  2.20529  2.14403  3.78630  5.83132  4.42168   1148 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00973  5.03372  5.75607  0.61958  0.77255  1.29109  0.32154
+    936   2.89133  5.29989  2.10880  2.24300  4.60462  3.68184  3.87364  3.36265  2.45467  3.01695  3.02480  2.76872  4.07426  2.69657  2.75389  2.50321  3.12253  3.03627  5.75750  2.99448   1149 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00973  5.03372  5.75607  0.61958  0.77255  1.29109  0.32154
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04227  5.03372  3.35603  0.61958  0.77255  1.29109  0.32154
+    938   2.87791  5.36890  2.22643  1.77506  3.67714  3.65368  3.84240  3.40702  2.34033  3.67061  4.41186  3.12431  3.24594  2.54666  3.07232  2.21903  2.70171  3.75505  5.80657  4.40051   1151 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01005  5.00150  5.72385  0.61958  0.77255  1.17824  0.36791
+    939   2.53995  5.21380  2.59536  2.22463  4.48758  2.82171  3.17541  3.92615  2.66957  2.25293  3.36565  3.20442  4.09297  3.02453  3.14651  2.08749  2.82959  3.13841  5.69183  4.32855   1152 s - X
+          2.68749  4.42214  2.77058  2.71912  3.46807  2.41114  3.72781  3.28863  2.67914  2.69318  4.23876  2.90437  2.73973  3.17982  2.89840  2.38034  2.77855  2.98416  4.59302  3.61194
+          1.28802  0.32707  5.75932  3.25286  0.03943  0.18959  1.75618
+    940   2.56504  5.53969  3.31450  1.80957  3.74072  3.34656  4.02145  3.67143  2.15091  3.21314  4.58323  2.84669  3.18511  2.39346  2.35493  3.02275  2.93555  3.00159  5.97897  4.57472   1240 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    941   3.05450  5.56617  2.79501  2.14453  4.91169  3.82811  3.47354  3.61406  1.99997  3.87164  3.54508  2.51346  3.41863  2.07731  2.40245  2.54202  3.28565  3.20872  5.99858  4.58737   1241 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    942   3.05907  5.44920  3.35884  1.95963  3.82664  3.85275  4.04527  2.91798  1.58133  3.73417  3.74574  3.03394  4.24492  2.89816  2.27182  2.72414  3.29024  2.92857  5.91094  3.66607   1242 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    943   2.53624  4.53909  4.82633  2.82568  3.05214  4.25945  4.57899  1.44884  4.06531  1.48853  3.65540  4.33272  4.62557  4.24441  3.42428  3.08488  3.35226  2.38002  5.15818  3.97539   1243 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    944   2.60724  3.85549  2.33872  2.10519  4.91303  2.97353  2.90176  4.39958  1.86613  3.31092  4.60759  2.44097  4.22149  2.65163  2.86574  2.78760  3.28571  3.95822  5.99932  4.58787   1244 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    945   3.05555  5.56332  2.89279  1.72232  4.90735  3.82949  4.01655  4.39241  1.96774  3.06009  4.60431  2.90290  4.22298  2.82337  2.15255  2.78284  2.42498  2.98181  5.99651  4.58642   1245 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    946   2.48192  2.38701  4.93151  4.32601  3.61088  3.36169  4.59500  2.69058  3.38027  1.41713  2.55376  4.38141  4.63467  3.50827  4.20361  3.57404  2.88155  2.01009  5.13576  3.95610   1246 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    947   3.07515  5.57720  3.30871  1.64169  4.92011  3.84236  4.03163  4.40293  2.15913  2.71651  4.61954  2.25636  4.23864  1.79127  3.25086  2.72723  3.03165  3.96691  6.00948  4.60190   1247 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    948   2.59743  5.49733  3.33411  1.98478  3.79589  3.84183  4.03207  3.51963  1.93335  2.80318  4.54552  2.97905  4.23459  2.39711  2.88006  2.35643  2.66269  3.38492  5.94733  3.58377   1248 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    949   2.34576  5.55362  2.66446  1.80641  2.83715  3.83050  3.37959  3.43627  2.14317  3.85677  4.59560  2.84390  4.22385  2.55993  2.63761  3.01946  3.28603  3.39321  5.98931  3.59712   1249 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    980   2.79174  5.56386  2.31803  1.85626  4.90837  3.82853  4.01565  3.46614  2.37938  3.86890  3.74892  2.58411  4.22200  2.74733  2.12199  2.58225  2.65613  3.43653  5.99688  4.58627   1281 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    981   2.06831  4.57061  2.42131  3.45887  3.09275  4.23326  4.54231  2.28789  3.94112  1.31572  3.68455  4.24760  4.60129  4.14674  4.09323  3.52420  3.34869  2.34422  5.18523  3.34713   1282 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    982   2.73343  5.56540  2.42106  1.92039  4.91043  3.82868  4.01571  4.39630  1.86640  3.39777  4.60610  3.29619  4.22219  2.56828  2.30868  2.71385  2.35145  3.31616  5.99804  4.58722   1283 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    983   1.96426  5.56175  2.91772  2.06840  4.90533  3.22882  4.01616  3.55923  1.95201  3.30712  4.60280  2.76347  4.22240  2.25652  2.92517  3.01762  2.74190  3.46850  5.99532  4.58528   1284 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    984   2.11740  5.53737  2.53156  1.90048  4.87048  3.27741  4.02214  4.34809  2.02695  2.84002  3.15425  3.30596  4.22700  3.12243  2.93955  2.29818  3.28670  3.25087  5.97728  4.57366   1285 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    985   2.49371  5.56550  2.94080  2.31950  4.91070  2.91701  3.29897  3.63514  1.80301  3.26531  4.60613  3.00600  4.22178  2.78349  1.93227  2.62747  2.99943  3.95621  5.99808  4.58708   1286 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    986   2.59174  5.54548  2.33777  2.75620  4.88204  3.83222  3.32241  3.63768  1.55440  3.84711  3.68364  2.99133  4.22548  2.80880  2.85221  2.78519  2.68966  3.93154  5.98326  2.56225   1287 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    987   2.58134  5.57373  2.20915  2.31159  4.91836  3.83333  4.02332  4.40401  1.66451  3.87870  4.61523  3.30089  4.22903  3.12037  2.80990  2.07920  2.11725  3.96428  6.00654  4.59563   1288 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+    988   2.58933  4.50537  5.00322  4.39322  2.87595  4.27892  2.95629  1.38367  4.19528  1.65625  3.14090  4.41512  4.64335  3.38122  4.23129  3.18110  3.35044  2.48105  5.12580  3.31632   1289 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15337  5.38739  1.98331  0.61958  0.77255  0.48576  0.95510
+    989   2.98539  5.46299  2.85520  2.50351  3.78285  3.76403  3.30924  3.63069  2.05982  2.06061  4.50725  2.81904  4.15711  2.02866  2.33517  2.95405  3.21644  3.84653  5.90340  4.50122   1290 q - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    990   2.73065  5.49427  2.38430  1.90804  4.83954  3.15650  3.94384  4.32563  2.19572  3.18017  3.57612  2.79946  4.15029  1.99228  2.64152  2.94540  2.89512  3.88502  5.92680  4.51576   1291 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    991   2.20087  5.02645  3.52517  2.61768  3.58088  3.87455  4.09141  3.61260  2.62912  1.93459  4.11061  3.45841  4.26134  2.27172  2.67522  3.08895  2.63406  2.28139  5.56130  4.26546   1292 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    992   3.07072  4.44592  5.01330  4.40021  2.29815  4.24135  4.57381  1.26104  4.19104  1.93169  3.03699  4.39665  4.60105  3.39791  4.20624  3.55266  2.88697  2.22070  5.06704  3.31028   1293 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    993   2.66170  5.48945  2.89520  1.55815  4.83222  2.86629  3.94574  4.31665  2.46122  3.13288  4.53077  2.64702  4.15173  2.46164  3.17407  2.29150  2.92434  3.19913  5.92348  4.51379   1294 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    994   2.98572  5.49522  2.30450  1.75942  4.83990  3.75840  3.94598  3.45137  1.63165  3.80015  4.53612  2.83076  4.15238  2.76497  2.77680  2.66292  3.21688  3.23989  5.92789  4.51733   1295 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    995   3.27321  4.62701  5.24170  4.63165  2.94705  4.46978  4.80507  1.55061  4.42572  1.12999  3.04596  4.63289  4.80180  4.53149  4.42860  3.78832  3.07787  2.11180  5.24778  3.35552   1296 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    996   3.02585  5.54060  1.96501  1.94880  4.88703  3.77777  3.97534  4.37353  1.49632  3.84441  4.58290  2.88624  4.18069  2.80695  2.59843  2.98456  2.83821  3.93238  5.96920  4.55739   1297 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    997   2.45736  5.49102  3.23453  2.16895  4.83481  3.75843  3.27139  4.31950  1.81211  3.79552  3.06412  2.47036  4.15181  2.42843  2.65197  2.71758  2.49775  3.88099  5.92424  4.51460   1298 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    998   2.66969  5.46481  2.78188  1.94500  4.79758  3.76247  3.95068  3.57960  1.89656  2.85462  3.09293  3.23481  4.15562  2.19068  2.53230  2.95218  3.21521  3.84883  5.90484  3.60509   1299 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+    999   2.80853  5.33028  3.58311  2.99105  4.60114  3.95694  4.09670  2.57168  1.47848  3.58125  3.54129  3.48721  4.33687  3.24353  1.45445  2.81654  3.37131  3.67898  5.79370  4.49433   1300 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1000   2.70869  3.63607  3.25800  3.46320  2.51147  4.03137  4.29778  2.83305  2.42667  2.03039  3.76714  3.26989  4.40807  3.68761  2.37610  3.28676  2.90168  2.35034  5.25190  2.77824   1301 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1001   3.05777  5.57704  2.38922  1.53024  4.92288  3.79090  4.00046  4.41065  1.94188  3.87997  4.62089  2.09317  4.20272  2.72221  2.46566  3.01340  3.29085  3.96877  6.00411  4.58966   1302 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1002   2.09914  5.24500  3.36097  1.81581  4.49859  3.81135  4.01146  3.37847  2.37951  2.69194  4.31120  3.32905  4.20184  3.15024  2.38522  2.67468  2.87666  2.41964  5.73673  4.38936   1303 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1003   3.67596  4.98165  5.62223  5.04183  0.77205  4.95116  5.28657  2.13438  4.87098  1.97851  3.66759  5.09892  5.21835  4.94647  4.88821  4.29251  3.20381  2.32056  5.62612  4.46760   1304 f - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1004   2.98411  5.44678  2.60311  2.23246  3.79476  3.76550  2.91614  4.24450  2.69750  2.95988  2.46359  2.42824  4.15850  2.23898  2.84345  2.64866  2.91629  3.27298  5.89142  4.49264   1305 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1005   2.17430  5.47018  2.16291  1.74388  3.66972  3.76127  3.94952  3.56251  2.13965  3.77111  4.51354  3.23269  4.15460  3.04920  2.80941  2.37758  3.21506  3.85535  5.90897  3.70382   1306 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1006   1.77305  3.53247  4.66529  4.07126  2.90373  2.67782  4.47929  2.64979  3.92349  2.43962  3.58968  4.20756  4.52801  4.11536  4.04808  2.97000  1.62588  2.29719  5.08922  3.90395   1307 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1007   3.87924  5.16517  5.57477  5.11444  0.61258  4.92709  4.50134  2.91318  4.90381  2.51550  4.13517  4.88608  5.24020  4.88101  4.85536  4.26360  4.10255  2.89478  2.83585  2.62863   1308 F - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1008   2.67081  5.49705  2.02276  2.00179  4.84224  3.29927  3.94581  4.32846  2.44035  3.80235  4.53780  2.17392  4.15194  2.48855  2.59011  2.94754  2.91712  2.91468  5.92954  4.51822   1309 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1009   2.33771  5.40316  2.85976  2.48758  3.03150  3.77426  3.96560  2.79320  1.90841  3.24528  4.45370  3.25762  3.25529  2.21482  2.87122  2.70547  3.21654  3.77381  5.85858  3.42152   1310 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1010   4.06316  5.21837  6.24219  5.81600  4.65789  5.82876  6.75398  1.06226  5.81242  2.53467  4.33857  6.00056  5.98862  6.09452  6.01116  5.31013  4.32558  0.72217  6.93844  5.70256   1311 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1011   1.99611  5.46507  3.25042  2.44721  4.81271  2.76295  3.97191  4.28931  2.71453  3.78174  4.52769  1.91378  4.16934  3.07410  2.63544  1.92622  2.66167  3.86202  5.92343  4.52163   1312 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1012   2.72214  5.48981  2.80558  2.42134  4.83318  3.75783  3.94494  4.31781  1.63072  3.25559  3.15241  2.40765  4.15126  2.73320  2.36752  2.70380  2.60299  3.87954  5.92343  4.51370   1313 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1013   3.04613  5.56489  2.60256  1.97280  4.90639  3.78116  2.55121  4.39514  2.37576  3.86853  4.60910  1.63152  4.19401  3.09663  3.24598  2.76911  2.28599  3.95412  5.99695  4.57933   1314 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1014   3.89659  5.18532  5.82232  5.23651  0.98021  5.16238  5.42767  2.17624  5.06286  1.24052  3.55981  5.30955  5.36669  5.05727  5.04355  4.51079  3.10307  2.99045  5.65663  4.51905   1315 f - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1015   2.48668  5.49573  2.17958  2.25645  4.84171  2.91961  3.34652  4.32833  2.06873  3.80140  4.53616  2.92345  3.47789  2.45706  2.79385  2.50184  2.85698  3.19923  5.92787  4.51635   1316 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1016   2.18780  5.47188  2.77989  1.67621  3.68698  3.15790  3.94871  3.41201  2.29759  3.77320  3.13341  2.89020  4.15393  2.78224  2.92075  2.70443  2.83385  3.85753  5.91015  4.50484   1317 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1017   3.16934  4.52887  5.12349  4.52000  3.04971  4.37068  4.72137  1.34861  4.32012  2.21110  2.71156  3.58546  4.72353  4.46012  4.34362  3.68767  2.95248  1.38250  5.21127  4.03424   1318 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1018   5.22117  6.13894  6.10998  6.06122  0.63866  5.72960  4.36451  3.33341  5.82714  3.82344  5.21322  5.27059  5.97104  5.44201  5.59596  5.13844  5.41198  4.66188  4.43434  1.10675   1319 F - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1019   2.31990  5.50240  3.24389  2.23356  4.84929  3.76705  3.95070  4.33322  1.72438  3.80639  4.54349  2.90674  4.16028  2.06858  2.22202  2.53833  2.82761  3.89421  5.93212  4.52473   1320 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1020   2.46255  5.41859  2.91237  1.98756  3.85844  3.77113  3.96168  3.55221  2.01263  3.14133  2.54266  3.25161  4.16381  2.66638  2.41204  2.71499  3.21610  3.79251  5.87024  3.62833   1321 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1021   4.66395  5.78913  6.66004  6.08546  3.79723  6.19266  6.44991  1.65232  5.97867  0.44355  2.93235  6.38637  6.01026  5.65902  5.83593  5.65054  4.84815  3.22147  6.17789  5.32642   1322 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04189  5.24192  3.33170  0.61958  0.77255  0.93199  0.50050
+   1022   2.72697  4.47233  4.65434  4.06498  1.94264  4.14346  4.48672  2.89723  3.92023  2.24022  3.59826  4.20256  4.52375  4.11492  4.05000  2.03064  1.79651  2.00577  5.10361  3.91723   1323 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20819  5.93054  0.61958  0.77255  1.00546  0.45551
+   1023   2.97255  5.45134  2.52603  2.67629  4.78390  2.47419  3.93810  4.26048  2.22918  3.28919  3.12646  2.61390  1.90112  3.03894  2.51071  2.94078  3.20365  3.83534  5.89127  4.48887   1324 p - X
+          2.68605  4.42246  2.77540  2.73108  3.46375  2.40534  3.72515  3.29375  2.67762  2.69341  4.24711  2.90240  2.73724  3.18167  2.89822  2.37882  2.77540  2.98493  4.58498  3.61524
+          0.05554  2.96867  5.93054  1.81603  0.17754  0.25984  1.47479
+   1024   2.48635  5.17989  3.53740  2.97883  4.39549  1.20206  3.54363  3.28829  2.96434  3.10354  3.47720  2.48539  4.31538  3.31104  2.94775  2.87419  3.30534  3.49947  5.70202  4.38878   1334 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.10310  5.38739  2.37102  0.61958  0.77255  0.48576  0.95510
+   1025   2.63264  5.02637  5.14552  5.06938  5.84419  0.38965  5.85522  5.34531  5.13382  5.03057  5.76993  4.62948  4.68074  5.24444  5.21814  2.36273  2.69832  4.42994  7.17643  6.13123   1335 G - X
+          2.68560  4.42250  2.77544  2.73148  3.46379  2.40537  3.72399  3.29379  2.67765  2.69380  4.24714  2.90371  2.73659  3.18043  2.89825  2.37866  2.77544  2.98543  4.58502  3.61528
+          0.26509  1.46787  6.01415  0.68526  0.70110  0.32724  1.27623
+   1026   2.76144  5.56576  2.26914  2.35409  3.80313  3.82824  4.01529  3.61364  1.87822  3.87114  4.60637  2.44899  4.22174  2.52582  2.27699  2.59514  2.63388  3.95653  5.99830  4.58722   1338 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1027   0.43735  3.44441  5.65647  5.59202  5.88910  1.62234  6.07655  5.35356  5.45924  5.07997  5.83490  4.83451  4.78671  5.53408  5.43087  3.41172  3.77926  4.47766  7.24513  6.23418   1339 A - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1028   3.05521  5.55837  2.24579  1.83033  2.82999  3.82999  4.01735  4.38408  2.03285  3.86229  3.74637  3.29865  4.22343  2.66144  2.45576  2.28745  3.28635  3.94735  5.99285  3.57200   1340 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1029   4.86630  5.97990  6.84942  6.25668  2.75209  6.37072  6.54862  2.20839  6.15125  0.34610  3.07446  6.56975  6.13925  5.76030  5.96520  5.82798  5.03622  3.54054  6.24413  5.39701   1341 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1030   3.06201  5.36228  3.40602  2.11824  3.28806  2.86566  3.49692  2.50032  2.57988  3.63388  4.42422  3.37962  4.26374  2.83062  1.78466  2.79137  2.86293  2.92841  5.84425  3.70823   1342 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1031   2.70425  4.56001  5.10588  4.49552  2.34787  4.35160  4.67230  1.90933  4.29029  1.20585  3.62893  4.49934  2.81243  4.42181  4.31033  3.66279  3.41524  2.78365  5.15979  2.56365   1343 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1032   3.05485  3.97292  2.30082  2.08855  4.89511  3.83032  3.30469  3.45929  2.38395  3.85795  4.59648  2.94510  4.22368  2.78615  2.34703  2.56227  2.34560  2.53748  5.99004  4.58187   1344 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03279  5.38739  3.58699  0.61958  0.77255  0.48576  0.95510
+   1033   2.30720  5.56342  1.63323  2.02406  4.90686  3.82149  4.01345  4.39238  2.55419  3.23251  4.60504  2.18673  4.21840  3.11092  2.57782  3.01609  2.92094  3.95329  5.99653  4.58532   1345 d - X
+          2.68595  4.42256  2.77527  2.73122  3.46385  2.40429  3.72525  3.29385  2.67741  2.69339  4.24720  2.90281  2.73770  3.18141  2.89831  2.37917  2.77527  2.98549  4.58508  3.61534
+          0.19937  1.72331  6.08395  1.04749  0.43204  0.42767  1.05563
+   1034   2.73426  5.54925  3.31116  2.32428  4.88732  3.30656  4.02213  4.36781  1.82533  3.85195  3.45755  2.65005  1.90102  3.12115  3.25110  2.10730  2.96785  3.93638  5.98731  4.58116   1349 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1035   2.52638  5.54813  1.91033  2.05228  4.88463  3.83313  4.02201  4.36475  2.37569  2.75314  4.59114  2.50086  4.22706  2.85263  3.25207  3.02352  2.43249  2.64771  5.98589  4.57990   1350 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1036   2.64773  6.74407  0.82176  1.51138  6.01218  4.12811  4.73959  5.59291  3.85827  5.02483  5.89567  2.11095  4.79428  3.91106  4.54271  3.82075  4.29183  5.10859  7.16820  5.56739   1351 d - X
+          2.68601  4.42361  2.77282  2.72787  3.46490  2.40603  3.72453  3.29370  2.67787  2.69461  4.24382  2.90248  2.73876  3.18180  2.89862  2.37862  2.77623  2.98532  4.58613  3.61639
+          0.40138  2.23945  1.49572  2.89066  0.05714  0.48576  0.95510
+   1037   3.05560  4.45428  4.83492  4.23385  2.93934  4.20931  4.52247  2.55445  4.05904  2.30447  2.90318  4.30734  1.23237  4.21675  4.12989  3.51436  3.28705  2.20692  5.05274  2.64381   1381 p - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00877  5.13654  5.85888  0.61958  0.77255  0.81939  0.58107
+   1038   3.13116  4.50197  5.05504  4.44732  1.35436  4.30435  4.61496  2.56044  4.24345  1.71237  3.53829  4.45071  4.65571  4.36934  4.26160  3.61729  2.49825  2.18675  5.08637  2.67332   1382 f - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+   1039   2.97016  5.45094  2.83282  2.46294  4.78341  2.51493  3.37300  4.26075  2.67690  2.37650  4.49518  2.20926  4.14081  3.03716  2.76659  1.95919  2.56646  3.83485  5.89120  4.48765   1383 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  1.01048  0.45262
+   1040   2.61739  3.86989  2.38030  2.17416  4.68649  2.26636  3.95041  3.39468  2.70262  3.66903  4.43179  3.24306  4.15104  2.47509  3.18790  2.19579  2.80516  2.76083  5.83748  4.45145   1384 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00818  5.20575  5.92809  0.61958  0.77255  0.82204  0.57899
+   1041   3.23110  5.21137  4.03845  4.06182  5.82980  0.34392  5.44672  5.39682  4.62832  5.02418  5.80675  3.06910  4.68084  4.74382  4.94039  2.63553  3.78775  4.54215  7.12580  5.91611   1385 G - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1042   4.09285  5.25715  6.24150  5.78459  4.43577  5.79029  6.55164  0.76158  5.75065  1.69161  4.13938  5.96259  5.92781  5.92353  5.88198  5.25017  4.34638  1.37676  6.68387  5.53788   1386 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1043   2.98413  5.47825  3.23930  1.57486  4.81663  3.76031  3.94781  4.29768  2.22543  2.95391  3.71418  2.60326  4.15359  2.49263  2.82923  2.19421  2.83693  3.86530  5.91482  3.68830   1387 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1044   3.35300  4.69298  5.31595  4.72303  1.82562  4.56370  4.84535  1.59805  4.52304  2.11679  3.66196  4.71294  4.89315  4.63044  4.52984  3.88739  3.58494  1.53818  5.25542  2.32104   1388 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1045   2.98467  5.42581  2.91602  2.31553  3.73321  3.76963  3.21274  3.52788  2.33333  3.21436  3.44779  2.56194  4.16240  3.06600  2.62292  1.67924  2.94865  3.17829  5.87567  4.48232   1389 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1046   1.47082  2.82294  5.15818  4.56583  2.33956  4.41975  4.80331  2.39110  4.37673  2.71532  3.70839  4.58088  4.78144  4.52655  4.41425  3.74366  3.45609  1.32699  5.30205  4.11991   1390 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1047   2.98592  5.46272  3.24823  2.69197  4.79443  3.27571  3.25716  4.27046  2.09717  3.76190  3.14332  2.20518  4.15765  2.39037  2.17552  2.68972  2.54382  2.81939  5.90312  4.50129   1391 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1048   2.31822  4.79263  4.08517  3.55292  3.25584  3.16567  4.46581  3.47563  3.51041  2.50913  4.07574  3.88561  1.05110  3.80335  3.84773  2.41266  3.33274  3.21254  5.54858  4.32060   1392 p - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1049   2.27538  5.42262  3.28179  2.72768  4.75192  2.91384  3.97697  4.21591  2.07613  3.72799  4.48568  2.94796  1.59250  3.08484  2.66646  2.68378  3.23033  3.22136  5.88565  4.49708   1393 p - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1050   3.01514  5.52298  2.89852  2.45664  4.86523  1.58297  3.26751  4.35014  1.87148  3.13322  4.56576  2.43402  4.17384  2.69912  3.20049  2.97584  3.24723  3.91238  5.95535  4.54424   1394 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1051   2.74834  5.52364  2.82922  2.79624  4.85063  3.84741  4.06411  3.02529  0.87089  3.81973  4.59361  2.83742  4.26576  3.18030  3.24555  3.09207  3.35065  3.90404  5.97820  4.59856   1395 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1052   2.64601  5.48663  2.49284  2.24422  3.69462  3.75798  3.94536  4.31253  2.01208  3.79062  4.52808  2.90389  3.01746  3.04267  2.29222  2.14901  2.91648  3.87565  3.40247  4.51199   1396 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1053   3.04177  4.43329  4.89677  4.28873  2.31051  4.19942  4.52666  2.34087  2.94397  2.05733  3.01167  4.32533  4.56326  2.81602  4.14314  3.50608  3.27382  1.74590  2.24683  3.87398   1397 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1054   2.76042  5.52962  3.31810  2.17931  4.88203  3.81907  3.98139  4.35231  1.56966  2.81598  4.57318  3.28960  4.20822  2.21889  1.94206  3.01788  2.84598  3.92526  5.94628  4.56041   1398 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1055   2.98357  5.49426  2.80432  2.45250  4.83945  3.75709  2.89484  4.32540  2.34220  3.19357  4.53493  1.91974  2.92111  2.68661  2.19406  2.47273  3.21470  3.88497  5.92679  3.76557   1399 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1056   3.46099  4.79647  5.39337  4.79767  3.72285  4.69525  5.04565  1.39855  4.61298  1.19343  2.01926  3.46426  5.00094  4.72042  4.63714  4.02201  3.69164  2.32203  5.46475  4.32626   1400 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.28272  1.40133
+   1057   3.05491  5.55846  1.85801  1.86058  3.91274  3.31160  4.01712  3.59658  2.75302  3.86246  3.72450  2.49926  4.22313  2.51817  2.95782  2.33045  2.68670  3.94749  5.99295  4.58379   1401 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1058   2.44647  4.82343  3.94974  2.73206  3.22713  4.06544  4.31700  2.88659  3.33919  2.05626  2.99733  2.06781  4.44515  2.48787  3.69801  2.65464  3.00336  2.59898  5.40371  3.29908   1402 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1059   4.96358  6.05572  6.92199  6.33421  3.16468  6.48215  6.59190  3.18023  6.23016  0.34229  1.97695  6.67689  6.19191  5.79490  6.02318  5.96142  5.12559  3.62283  6.24157  5.36938   1403 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1060   3.77498  5.63172  5.30520  5.33767  6.08502  4.36548  6.22377  5.91079  5.52293  5.52369  6.39103  5.13613  5.20651  5.71404  5.58807  0.11182  4.35713  5.06459  7.26680  6.24823   1404 S - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1061   4.32334  6.11695  5.15086  4.94163  6.35730  0.28416  5.80694  6.04345  4.32633  5.48883  6.41319  5.12737  5.45847  5.09275  1.89793  4.47941  4.79320  5.42319  7.17230  6.30074   1405 G - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1062   5.20796  6.62670  6.04924  6.12314  6.92120  0.03698  6.92242  7.02733  6.40854  6.36425  7.48130  6.22780  5.99485  6.64438  6.33051  5.44280  5.74976  6.35489  7.49690  7.11983   1406 G - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1063   4.09511  6.66114  3.16409  0.64912  6.00088  4.25820  4.80586  5.58210  3.70025  4.99545  5.89221  3.73164  4.90170  1.32593  4.17315  3.95263  4.38605  5.13469  7.05209  5.58978   1407 E - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1064   3.84176  6.03992  4.32698  3.56289  5.53986  4.48449  4.36526  4.86715  0.65061  2.43929  5.10237  3.97145  4.81873  2.87226  2.13105  3.11257  3.99122  4.52593  6.27022  5.10583   1408 K - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1065   1.96872  5.29527  3.84236  3.33806  5.05293  3.90942  4.51875  4.49546  2.02612  4.07304  4.85675  3.76504  4.47111  3.66899  3.71889  1.67791  1.21984  4.02618  6.26206  4.94826   1409 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1066   4.59212  5.74701  6.62202  6.06070  3.96909  6.11075  6.45003  2.23807  5.95852  0.43603  3.03028  6.29901  6.03848  5.73834  5.86539  5.54516  4.79399  2.06100  6.29547  5.39544   1410 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1067   1.84705  2.93827  4.95065  4.34848  3.63983  4.28528  4.62530  2.45648  4.16747  2.07740  3.65975  4.40364  4.65538  4.32819  4.23088  2.30982  1.96475  1.87005  5.16825  3.98822   1411 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1068   0.68615  5.04268  4.85146  4.46766  5.10751  3.00104  5.32016  4.50908  4.42138  4.21524  2.39336  4.44665  4.68787  4.66560  4.67183  1.65574  3.65525  4.00956  6.50697  5.33668   1412 A - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1069   3.91900  2.52707  5.92383  5.33780  3.90986  5.23145  5.59329  2.09003  5.16792  0.69662  2.61367  5.40220  5.45306  5.19375  5.15494  4.58220  4.14426  2.25036  5.86291  4.78661   1413 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1070   0.53063  3.32829  4.99608  4.61197  5.31901  3.91902  5.43534  4.74154  4.49007  4.43528  5.25088  4.50968  4.70422  4.76559  3.22497  1.72201  3.68278  4.15556  6.68758  5.53623   1414 A - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1071   4.70251  5.85838  6.68536  6.08809  1.94195  6.14066  6.36150  2.62731  5.96267  0.47149  2.87719  6.33271  6.02055  5.65842  5.81361  5.56180  4.88368  2.93996  6.17682  5.29823   1415 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1072   3.72638  5.02846  5.67627  5.09911  4.02133  5.03481  5.42894  1.25481  4.90232  1.22316  3.88371  5.17343  5.31807  5.05652  2.53933  4.37922  3.96188  1.69230  5.83603  4.69352   1416 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04313  5.38739  3.27980  0.61958  0.77255  0.48576  0.95510
+   1073   4.53525  5.72469  6.46672  5.89143  0.65536  5.89971  6.01499  3.10491  5.74799  1.35337  2.96141  6.04635  5.88384  5.52831  5.63888  5.29789  4.72831  2.77494  5.96405  4.86904   1417 F - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00707  5.35134  6.07368  0.61958  0.77255  0.40861  1.09235
+   1074   0.26296  5.12875  5.35093  5.33269  5.94939  3.91952  6.03429  5.44461  5.35959  5.16073  5.91359  4.78250  4.79644  5.46051  5.38428  2.18631  3.80464  4.53388  7.29265  6.25483   1418 A - X
+          2.68659  4.42266  2.77561  2.73071  3.46302  2.40463  3.72385  3.29395  2.67782  2.69295  4.24731  2.90388  2.73781  3.17989  2.89842  2.37928  2.77561  2.98517  4.58518  3.61428
+          0.15337  1.96636  6.10974  1.50446  0.25120  0.48576  0.95510
+   1075   3.30033  4.65700  5.25028  4.64892  3.75354  4.50683  4.86063  1.17759  4.45216  1.52547  2.79421  4.66032  4.85521  4.59059  4.47792  3.11321  2.54979  2.14790  5.34476  4.17124   1424 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1076   2.79609  5.32008  3.44385  2.88526  3.54864  3.89122  2.00887  3.99802  2.66635  2.31512  4.38660  2.93313  4.28128  1.70158  2.80206  3.09229  3.30219  3.66051  5.80971  3.15016   1425 q - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1077   2.49459  5.55480  3.30833  2.30227  4.89532  3.14630  3.03864  4.37800  1.91799  3.36214  2.58391  3.00582  4.22399  2.60947  2.26860  2.49349  3.28634  3.94300  5.99014  3.65217   1426 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1078   2.52847  3.03345  4.55136  3.96503  2.38554  4.20845  4.50956  3.04176  2.96087  2.54794  3.70691  3.54430  4.57830  4.07170  2.77153  3.11115  3.34172  2.05963  5.20279  1.65752   1427 y - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1079   3.07392  5.58742  2.40989  2.55110  4.93418  3.07309  4.02917  4.42058  1.68210  3.89229  4.62852  2.61407  4.23587  2.57063  1.75802  2.54644  3.30519  3.97915  6.01754  4.60641   1428 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1080   2.93589  5.55699  3.85258  3.45818  5.30171  3.13858  4.59984  4.72151  3.19250  4.25923  5.07805  3.88425  0.62143  3.19421  2.43167  3.49296  3.76510  4.27729  6.40236  5.13559   1429 P - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1081   1.48719  5.09826  3.60251  3.04242  3.55940  3.95004  3.04534  3.25044  3.02631  3.33678  4.18314  3.53542  4.33709  3.00465  2.86636  2.05765  2.12702  3.05093  5.63428  4.33892   1430 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1082   3.21809  1.82315  5.53409  5.46796  5.81298  3.93571  6.02112  5.30355  5.34000  5.02452  5.80264  4.82439  0.46832  5.47595  5.34344  2.71359  3.80524  4.47309  7.17512  6.12327   1431 P - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1083   4.67739  5.83840  6.64750  6.05871  0.85051  6.09939  6.27337  2.17665  5.92905  1.12776  2.97180  6.27583  6.00233  5.64220  5.78796  5.51609  4.86125  3.46940  6.12390  5.16413   1432 f - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1084   4.45175  2.31686  5.90668  5.59228  1.67445  5.33665  4.52841  4.11758  5.37510  3.60773  4.77951  5.15783  5.65347  5.24342  5.27788  4.70027  4.68032  3.17193  4.65545  0.62658   1433 Y - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1085   2.84722  4.52629  5.11879  4.50534  3.17564  3.37317  4.66642  1.95468  4.29255  1.41505  3.10082  4.49218  4.69083  4.42332  4.30210  3.64289  3.38733  1.41988  5.15645  3.43916   1434 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1086   4.48297  5.68656  6.46872  5.86841  1.67993  5.85511  6.11609  2.24614  5.72082  0.90364  1.72672  6.04033  5.85664  5.51779  5.61221  5.24360  4.67732  2.78368  6.07555  5.14545   1435 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1087   5.31109  7.02943  0.06763  4.38449  6.77730  5.05744  6.08022  6.83707  5.47212  6.15426  7.30712  4.95815  5.76327  5.43586  5.97793  5.24021  5.70069  6.37215  7.50128  6.65841   1436 D - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1088   4.28362  7.10237  1.77861  0.38360  6.36064  4.23030  4.95711  6.02009  4.23642  5.42254  6.39504  3.67733  4.95757  4.15854  5.02781  4.06940  4.62282  5.51074  7.52141  5.87155   1437 E - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1089   3.19226  5.11736  5.96237  5.44214  2.44564  5.35598  5.89908  0.94675  5.32661  2.55132  4.19300  5.52136  5.61696  5.50832  5.40885  4.73855  4.12772  1.14944  6.27232  5.08074   1438 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1090   2.30009  6.61804  0.60696  1.94287  5.93388  4.11654  4.71865  5.49788  3.81052  4.94575  5.80477  3.56857  3.29689  3.88749  4.47189  3.78076  4.23337  5.01858  7.09295  5.51835   1439 D - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1091   0.72838  5.07321  4.14028  3.66239  4.64473  3.97426  4.69621  4.02946  3.61936  3.70919  2.91594  3.99500  4.55967  3.17075  3.98041  1.87171  3.52831  3.68401  6.02287  4.77913   1440 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1092   0.96481  5.41002  3.39204  2.03005  3.11115  3.93493  3.18925  4.09764  2.99751  3.68670  4.49902  2.97739  4.35878  3.33568  3.46800  3.18799  3.41003  3.76091  5.89784  4.53638   1441 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1093   5.26237  6.37696  6.51839  6.30786  4.45380  5.85599  6.65594  3.81456  6.18439  0.10408  4.27946  6.54562  6.18212  6.14861  6.06999  5.95439  5.52809  4.17041  6.59794  5.62798   1442 L - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1094   5.31109  7.02943  0.06763  4.38449  6.77730  5.05744  6.08022  6.83707  5.47212  6.15426  7.30712  4.95815  5.76327  5.43586  5.97793  5.24021  5.70069  6.37215  7.50128  6.65841   1443 D - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1095   2.37834  5.45425  2.34891  2.17256  2.70086  2.94825  4.04348  3.36288  2.52848  2.65897  4.50701  2.64081  3.14732  2.89786  3.28259  3.04412  3.28951  3.30489  5.91482  3.51251   1444 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1096   2.26109  5.52796  3.31981  2.39444  4.85717  3.83557  3.42184  3.59542  2.27451  3.82646  3.63294  2.71943  4.22866  2.32130  2.59417  2.40680  2.37949  2.77380  5.97024  3.77858   1445 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1097   3.40944  5.76154  3.67424  3.10572  5.04150  4.12596  2.37742  4.55529  2.32800  4.02249  4.81899  0.94353  4.51035  3.33393  2.57237  3.38252  3.61674  4.17469  6.08292  2.92806   1446 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1098   2.88378  4.62248  4.65176  4.06485  3.74150  4.26813  4.58470  2.38005  3.92872  2.51241  3.74498  4.26292  4.63892  4.15757  1.84117  3.06105  2.70204  1.17619  5.26022  4.06862   1447 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1099   2.59926  5.55044  3.31005  2.20801  3.86455  2.49335  4.01905  3.66395  2.13415  3.85296  4.59282  3.30136  4.22471  2.25993  2.59180  1.95153  2.61133  3.93764  5.98695  4.58000   1448 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1100   2.12048  5.21243  3.63828  3.06491  4.42969  3.99212  4.17753  2.42037  1.96081  2.09909  4.29335  2.81871  4.37581  3.35567  1.80952  3.21256  3.36869  3.53067  5.72359  4.42912   1449 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1101   3.64168  4.95567  5.63723  5.04625  2.52956  4.90343  5.24858  1.62353  4.85900  1.39961  3.75687  5.06738  5.19482  4.94497  4.86194  4.23797  3.87241  1.22274  5.62358  3.52692   1450 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1102   0.70966  3.36255  4.83067  4.33626  4.33842  2.56775  4.97469  3.68027  4.23506  2.83487  4.33121  4.38356  4.65565  4.45801  4.43403  2.49843  3.52956  2.59563  5.81843  4.63706   1451 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1103   2.70699  5.56677  2.76396  2.18175  3.91775  3.31094  3.05253  4.39901  2.35567  3.31071  4.60725  2.05242  4.22146  2.22858  2.86200  2.29718  2.88031  3.95779  5.99903  4.58765   1452 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1104   3.31501  4.69243  5.16856  4.56443  3.13911  4.47933  4.76814  2.70172  4.36921  1.54316  1.82569  4.60083  4.82067  4.49860  2.57047  3.79055  3.54436  2.89613  5.23451  1.59501   1453 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1105   4.35893  5.54435  6.41688  5.87530  3.10659  5.86824  6.28699  0.95105  5.77087  1.00168  3.80150  6.04672  5.92194  5.68968  5.74321  5.28280  4.58039  2.14939  6.29493  5.29802   1454 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1106   3.06398  3.67799  2.97219  2.30612  4.91289  3.33175  3.04174  4.39625  1.31801  3.87174  4.60943  3.30519  4.23007  2.86888  1.98264  3.02705  3.29453  3.95872  5.99954  3.78266   1455 k - X
+          2.68626  4.42233  2.77528  2.73131  3.46362  2.40521  3.72417  3.29307  2.67749  2.69363  4.24698  2.90355  2.73748  3.18154  2.89809  2.37873  2.77495  2.98526  4.58485  3.61511
+          0.07756  2.62546  6.10974  0.67357  0.71312  0.48576  0.95510
+   1107   2.61770  5.56745  3.30665  1.27207  4.91235  3.83196  4.01859  4.39739  2.22277  3.38632  4.60844  2.72247  4.22565  2.36688  2.83439  2.55018  2.95182  3.95806  5.99971  4.58997   1458 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1108   2.78454  5.49010  2.93894  2.78169  3.77109  3.84356  2.97486  4.26846  2.38199  2.09699  4.53909  3.32419  4.23624  2.42940  2.17527  2.10172  2.78360  3.86386  5.94188  3.72656   1459 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1109   2.44703  5.44808  3.36384  2.80761  3.28173  2.74573  4.04932  4.20197  2.60754  3.73550  4.50458  3.34581  4.24820  2.70358  2.36657  1.56628  2.14726  3.81535  5.91274  4.53336   1460 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15337  5.38739  1.98331  0.61958  0.77255  0.48576  0.95510
+   1110   2.99504  5.50790  2.61612  2.09910  4.85430  3.76296  3.95200  4.34063  1.43696  3.81296  4.54881  2.57475  4.15870  2.70521  2.47946  2.70873  2.60464  3.89937  5.93873  4.52763   1461 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00789  5.24192  5.96426  0.61958  0.77255  0.93199  0.50050
+   1111   2.98528  3.94312  2.48005  2.15091  4.83491  3.23360  3.94661  4.31966  2.46178  3.79625  4.53309  1.64928  3.30130  2.29501  3.17527  2.94822  2.85779  3.31064  5.92559  4.51554   1462 n - X
+          2.68624  4.42231  2.77488  2.73130  3.46360  2.40519  3.72396  3.29360  2.67747  2.69361  4.24696  2.90322  2.73746  3.18153  2.89807  2.37893  2.77526  2.98525  4.58483  3.61509
+          0.14221  2.04031  5.96426  0.15207  1.95850  0.28272  1.40133
+   1112   1.43733  3.47736  4.55978  3.97608  2.83402  3.35480  4.52366  3.05965  3.86021  2.48854  3.02285  4.18762  4.58095  4.08357  4.04811  1.73581  2.50373  2.86225  5.22053  4.02788   1464 a - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1113   5.26879  6.76284  5.14789  5.09717  6.28320  5.22886  6.14795  6.45250  4.91103  5.72480  6.89242  5.50038  5.88020  0.06941  5.07296  5.36674  5.65505  6.09211  7.19368  6.25959   1465 Q - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1114   2.93472  4.70465  5.30094  4.70186  0.93463  4.55047  4.85883  2.23254  4.50123  2.41516  3.72746  4.70024  4.89213  4.62308  4.51639  3.86979  3.58421  1.86848  5.30528  3.33457   1466 f - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1115   4.49116  5.66289  6.49226  5.95920  2.05637  5.96244  6.16748  0.60115  5.84458  1.65524  3.76061  6.11126  5.97277  5.69151  5.77993  5.38404  4.70346  3.00905  6.12744  4.98464   1467 I - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1116   3.97347  2.83085  6.11321  5.64447  4.67129  5.54614  6.30354  1.34790  5.57701  3.19433  4.42716  5.74524  5.81418  5.83427  5.72039  4.97105  3.26403  0.65065  6.67618  5.43767   1468 V - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1117   3.55343  4.92200  5.48782  4.95888  4.23538  4.78135  5.38442  0.86190  4.81608  3.06414  4.14315  5.00341  5.18964  5.01405  4.91472  2.99729  1.84777  1.67608  5.91856  4.72329   1469 i - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1118   2.01642  3.25755  5.38293  5.12347  5.59326  3.90187  5.78200  5.03246  5.01697  4.74349  5.53218  4.69653  4.74337  5.17926  5.13353  0.90864  1.15379  4.31224  6.96860  5.88039   1470 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1119   3.56158  4.90820  5.46411  4.86325  2.34202  4.75483  1.91836  2.13595  4.66899  0.96286  3.64692  4.89170  5.05718  4.75031  4.67747  4.07635  3.78746  2.59489  5.41199  4.21844   1471 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1120   3.12723  5.62123  2.92369  2.81239  4.97607  3.88602  4.05814  4.45245  1.88179  3.92022  4.66418  2.70137  4.27990  2.78916  1.22450  2.83573  2.57956  4.01818  6.03848  4.64450   1472 r - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1121   2.58737  5.56856  2.78103  1.96202  4.91487  3.82798  3.32065  4.40174  2.09920  3.87436  4.60892  2.09893  3.03584  2.64409  2.63559  2.44791  2.88051  3.95987  6.00047  4.58874   1473 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1122   3.05590  5.56517  2.66234  1.81122  4.90953  2.27590  4.01681  4.39510  2.75205  3.87015  4.60607  2.32028  2.75716  2.57076  2.71521  3.01837  2.86502  3.16617  5.99822  3.65417   1474 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1123   3.12602  4.56167  4.75251  4.15754  2.70344  4.25388  3.69941  2.99438  4.00810  2.25750  1.27424  4.29763  4.62002  2.81878  4.13342  3.54932  2.12599  2.39060  5.17436  3.98872   1475 m - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1124   3.13652  4.51027  5.09894  4.48401  1.73777  4.30710  4.64006  2.59645  4.26964  1.61916  2.21710  4.46905  4.66882  4.39933  4.27784  3.09662  3.04141  2.06340  5.13062  2.80148   1476 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1125   2.60777  5.55375  3.30849  1.36266  4.89385  3.83067  3.34392  3.68935  2.42994  3.32757  3.72253  2.45310  4.22401  2.76381  2.86446  2.43226  2.96461  3.94172  5.98939  4.58153   1477 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1126   2.73319  5.52892  2.80362  2.23336  3.95463  2.95457  4.02411  3.66160  1.91739  2.65159  4.57366  2.37653  4.22850  2.64142  2.96457  3.02533  3.28688  2.39187  5.97096  4.56953   1478 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1127   0.80829  3.56325  4.76055  4.25160  4.26008  2.39412  4.90107  3.61147  4.15323  3.35448  2.43324  4.33909  4.63999  4.38212  4.36240  2.53773  3.50557  2.91386  5.74090  4.55555   1479 a - X
+          2.68635  4.42242  2.77537  2.73115  3.46371  2.40530  3.72512  3.29371  2.67758  2.69351  4.24707  2.90364  2.73757  3.17995  2.89818  2.37888  2.77502  2.98536  4.58118  3.61521
+          0.15337  1.96636  6.10974  0.74055  0.64789  0.48576  0.95510
+   1128   3.10180  5.61948  1.42548  1.81967  4.96259  3.84846  3.37801  4.45092  2.80105  3.92384  4.66238  2.26368  4.25545  2.80350  2.94980  2.59074  3.33502  3.46894  6.05138  4.63542   1484 d - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1129   2.32624  5.54782  3.31220  2.27563  4.88528  3.83257  4.02013  4.36566  1.97560  3.84970  3.71971  2.94716  4.22581  2.59856  2.01573  2.47399  2.65571  2.61433  5.98495  4.57900   1485 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1130   3.11865  3.47022  4.99990  4.39016  2.69287  4.27894  4.60815  2.35709  4.19305  1.12655  3.12887  2.90402  3.48632  3.52015  4.23039  3.58662  2.88612  2.32218  5.12687  3.94902   1486 l - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1131   3.11974  4.51075  3.75361  4.37137  2.71413  4.27780  4.60558  1.82677  3.51446  1.99668  3.62891  4.40535  4.64240  4.32962  4.22381  2.88246  3.35192  1.64996  5.13089  2.06379   1487 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1132   2.84257  5.60272  3.88286  3.38245  5.28906  0.74529  4.47251  4.70484  2.46852  4.20762  5.01307  3.82190  4.61522  3.60887  2.11951  2.96313  3.71676  4.26769  6.32209  5.05353   1488 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1133   3.09282  4.94119  5.68564  5.12969  4.18237  5.01396  5.46906  1.44596  4.97569  2.17306  2.96567  5.17391  5.32242  5.14653  5.03393  4.36501  2.81704  0.92301  5.91416  4.72457   1489 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1134   2.80302  4.94417  3.79072  3.22662  2.16784  4.01915  4.25297  3.47816  2.57346  3.16725  4.04147  3.67859  4.40289  3.51522  2.78951  2.49679  1.89544  3.23251  5.50413  1.88575   1490 y - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1135   2.84356  5.15671  3.55027  2.99097  2.56131  3.93048  3.35985  3.76421  2.01928  2.76070  2.13663  3.49457  2.98960  2.66485  2.93847  2.67809  3.00134  3.47142  5.68133  3.43803   1491 k - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.36711  5.38739  1.19505  0.61958  0.77255  0.48576  0.95510
+   1136   2.55888  4.96697  3.38889  2.35355  4.17123  3.23274  3.97471  2.99971  2.81565  3.20984  4.04812  3.33047  4.14877  2.16145  2.81803  2.97241  2.58964  1.91552  5.49453  3.17793   1492 v - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00976  5.03005  5.75240  0.61958  0.77255  0.18772  1.76520
+   1137   2.81828  5.56847  2.24512  1.78312  4.91454  3.82835  3.14581  4.40123  2.56510  3.87414  4.60891  2.90140  3.32496  2.22995  2.06896  3.01719  2.96708  3.42295  6.00049  4.58891   1493 e - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1138   2.68433  5.57382  2.22269  2.74914  4.91938  2.28477  3.50803  4.40607  2.40600  3.87926  4.61462  1.84842  3.52582  2.17201  2.95934  2.77749  3.29222  3.96478  6.00595  4.59406   1494 n - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1139   2.44906  3.77216  2.99206  2.77026  4.84382  1.39933  4.02818  4.31560  2.02170  3.81532  3.76884  3.00749  4.23207  2.75896  2.88814  3.02976  2.99772  3.89859  5.96350  4.56542   1495 g - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1140   2.74353  3.00796  4.32381  2.75971  3.77129  4.16195  3.44720  2.06094  2.93575  2.60566  3.24129  4.04441  4.53513  3.91836  3.21323  3.43206  1.96076  1.82044  5.26084  4.05607   1496 v - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1141   3.07595  5.09249  3.60977  3.04931  4.28481  3.95340  4.17119  2.48766  2.37755  2.97954  4.17746  3.00354  4.34003  3.37031  2.97358  1.48602  2.07855  3.02926  5.62911  3.46245   1497 s - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00682  5.38739  6.10974  0.61958  0.77255  0.48576  0.95510
+   1142   2.73315  5.55515  3.30815  2.44058  4.89582  3.83060  3.37946  3.62200  2.02331  3.85849  4.59700  2.45781  4.22395  2.58698  2.90709  2.08953  1.87668  3.37159  5.99042  4.58229   1498 t - X
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00459  5.38517        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/SMC_N.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/SMC_N.sto
new file mode 100755
index 0000000..14dd648
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/SMC_N.sto
@@ -0,0 +1,208 @@
+# STOCKHOLM 1.0
+#=GF ID   SMC_N
+#=GF AC   PF02463.10
+#=GF DE   RecF/RecN/SMC N terminal domain
+#=GF AU   Bateman A
+#=GF SE   [1]
+#=GF GA   -95.80 -95.80; 24.40 24.40;
+#=GF TC   -95.80 -95.80; 24.40 24.40;
+#=GF NC   -95.90 -95.90; 24.30 24.30;
+#=GF TP   Family
+#=GF BM   hmmbuild -F --hand HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F --hand HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF NE   PF04423;
+#=GF NL   Q12267/295-1321;
+#=GF NE   PF06470;
+#=GF NL   Q12267/295-1321;
+#=GF RN   [1]
+#=GF RM   10429180
+#=GF RT   Structural maintenance of chromosomes (SMC) proteins:
+#=GF RT   conserved molecular properties for multiple biological
+#=GF RT   functions. 
+#=GF RA   Strunnikov AV, Jessberger R; 
+#=GF RL   Eur J Biochem 1999;263:6-13.
+#=GF RN   [2]
+#=GF RM   9640531
+#=GF RT   SMC protein complexes and higher-order chromosome dynamics. 
+#=GF RA   Hirano T; 
+#=GF RL   Curr Opin Cell Biol 1998;10:317-322.
+#=GF DR   PROSITE; PDOC00539;
+#=GF DR   HOMSTRAD; ABC_tran;
+#=GF DR   SCOP; 1f2t; fa;
+#=GF DC   The following Pfam-B families contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB001893;
+#=GF DR   PFAMB; PB003601;
+#=GF DR   PFAMB; PB004206;
+#=GF DR   PFAMB; PB006729;
+#=GF DR   PFAMB; PB007921;
+#=GF DR   PFAMB; PB010201;
+#=GF DR   PFAMB; PB010634;
+#=GF DR   PFAMB; PB011218;
+#=GF DR   PFAMB; PB013203;
+#=GF DR   PFAMB; PB014228;
+#=GF DR   PFAMB; PB017035;
+#=GF DR   PFAMB; PB018409;
+#=GF DR   PFAMB; PB020745;
+#=GF DR   PFAMB; PB031758;
+#=GF DR   PFAMB; PB033991;
+#=GF DR   PFAMB; PB034984;
+#=GF DR   PFAMB; PB035877;
+#=GF DR   PFAMB; PB035900;
+#=GF DR   PFAMB; PB037220;
+#=GF DR   PFAMB; PB037301;
+#=GF DR   PFAMB; PB052451;
+#=GF DR   PFAMB; PB056231;
+#=GF DR   PFAMB; PB064277;
+#=GF DR   PFAMB; PB069590;
+#=GF DR   PFAMB; PB075176;
+#=GF DR   PFAMB; PB087283;
+#=GF DR   PFAMB; PB089380;
+#=GF DR   PFAMB; PB093956;
+#=GF DR   PFAMB; PB094898;
+#=GF DR   PFAMB; PB106945;
+#=GF DR   PFAMB; PB111651;
+#=GF DR   PFAMB; PB119733;
+#=GF DR   PFAMB; PB119735;
+#=GF DR   PFAMB; PB120277;
+#=GF DR   PFAMB; PB125166;
+#=GF DR   PFAMB; PB126624;
+#=GF DR   PFAMB; PB128189;
+#=GF DR   PFAMB; PB133582;
+#=GF DR   PFAMB; PB142666;
+#=GF DR   PFAMB; PB152346;
+#=GF DR   PFAMB; PB152493;
+#=GF DR   PFAMB; PB153693;
+#=GF DR   PFAMB; PB156411;
+#=GF DR   PFAMB; PB156457;
+#=GF DR   PFAMB; PB168691;
+#=GF DR   PFAMB; PB169449;
+#=GF DR   PFAMB; PB169485;
+#=GF DR   PFAMB; PB169520;
+#=GF DR   PFAMB; PB169867;
+#=GF DR   PFAMB; PB169874;
+#=GF DR   PFAMB; PB170016;
+#=GF DR   PFAMB; PB170063;
+#=GF DR   PFAMB; PB170128;
+#=GF DR   PFAMB; PB170619;
+#=GF DR   PFAMB; PB170867;
+#=GF DR   PFAMB; PB171494;
+#=GF DR   PFAMB; PB171917;
+#=GF DR   PFAMB; PB172115;
+#=GF DR   PFAMB; PB172415;
+#=GF DR   PFAMB; PB172563;
+#=GF DR   PFAMB; PB172567;
+#=GF DR   PFAMB; PB172923;
+#=GF DR   PFAMB; PB173552;
+#=GF DR   PFAMB; PB173779;
+#=GF DR   PFAMB; PB173783;
+#=GF DR   PFAMB; PB173881;
+#=GF DR   PFAMB; PB174322;
+#=GF DR   PFAMB; PB175475;
+#=GF DR   PFAMB; PB175696;
+#=GF DR   PFAMB; PB175744;
+#=GF DR   PFAMB; PB176033;
+#=GF DR   PFAMB; PB176065;
+#=GF DR   PFAMB; PB176151;
+#=GF DR   PFAMB; PB176204;
+#=GF DR   PFAMB; PB176886;
+#=GF DR   PFAMB; PB176948;
+#=GF DR   PFAMB; PB177206;
+#=GF DR   PFAMB; PB177262;
+#=GF DR   PFAMB; PB177311;
+#=GF DR   PFAMB; PB177501;
+#=GF DR   PFAMB; PB177602;
+#=GF DR   PFAMB; PB178745;
+#=GF DR   PFAMB; PB179645;
+#=GF DR   PFAMB; PB179788;
+#=GF DR   PFAMB; PB180891;
+#=GF DR   PFAMB; PB180976;
+#=GF DR   PFAMB; PB181268;
+#=GF DR   PFAMB; PB181451;
+#=GF DR   PFAMB; PB181494;
+#=GF DR   PFAMB; PB181922;
+#=GF DR   PFAMB; PB182299;
+#=GF DR   PFAMB; PB182468;
+#=GF DR   PFAMB; PB182487;
+#=GF DR   INTERPRO; IPR003395;
+#=GF CC   This domain is found at the N terminus of SMC proteins.
+#=GF CC   The SMC (structural maintenance of chromosomes) superfamily
+#=GF CC   proteins have ATP-binding domains at the N- and
+#=GF CC   C-termini, and two extended coiled-coil domains separated by
+#=GF CC   a hinge in the middle.  The eukaryotic SMC proteins form two
+#=GF CC   kind of heterodimers: the SMC1/SMC3 and the SMC2/SMC4 types.
+#=GF CC   These heterodimers constitute an essential part of higher
+#=GF CC   order complexes, which are involved in chromatin and DNA
+#=GF CC   dynamics [1]. 
+#=GF CC   This family also includes the RecF and RecN proteins that
+#=GF CC   are involved in DNA metabolism and recombination.
+#=GF SQ   29
+#=GS RECF_PSEPU/2-358      AC P13456.2
+#=GS RECF_ECOLI/2-356      AC P0A7H0.2
+#=GS RECF_PROMI/2-359      AC P22839.1
+#=GS RECF_ACTPL/2-359      AC P24718.1
+#=GS RECF_HAEIN/2-356      AC P43767.1
+#=GS P115_MYCHR/3-961      AC P41508.2
+#=GS SMC_BACSU/2-1172      AC P51834.2
+#=GS P115_MYCPN/3-963      AC P75361.1
+#=GS O83382_TREPA/3-919    AC O83382.1
+#=GS SMC_MYCTU/2-1186      AC Q10970.2
+#=GS O28714_ARCFU/2-1148   AC O28714.1
+#=GS SMC_METJA/3-1163      AC Q59037.2
+#=GS O59462_PYRHO/3-1151   AC O59462.1
+#=GS O66878_AQUAE/6-1140   AC O66878.1
+#=GS P73340_SYNY3/3-1194   AC P73340.1
+#=GS O51074_BORBU/6-815    AC O51074.1
+#=GS SMC2_YEAST/2-1166     AC P38989.1
+#=GS SMC2_CHICK/2-1167     AC Q90988.1
+#=GS SUDA_EMENI/2-1193     AC Q00737.1
+#=GS Q24098_DROME/33-1211  AC Q24098.1
+#=GS SMC3_YEAST/2-1208     AC P47037.1
+#=GS SMC4_YEAST/155-1406   AC Q12267.1
+#=GS SMC4_SCHPO/125-1313   AC P41004.2
+#=GS SMC4_XENLA/77-1268    AC P50532.1
+#=GS DPY27_CAEEL/92-1330   AC P48996.1
+#=GS SMC4_CAEEL/91-1361    AC Q20060.1
+#=GS SMC1A_HUMAN/3-1212    AC Q14683.2
+#=GS O01789_CAEEL/15-1251  AC O01789.3
+#=GS SMC1_YEAST/3-1212     AC P32908.1
+#=GS SMC1_YEAST/3-1212     DR PDB; 1w1w A; 3-1198;
+#=GS SMC1_YEAST/3-1212     DR PDB; 1w1w B; 3-1198;
+#=GS SMC1_YEAST/3-1212     DR PDB; 1w1w D; 3-1198;
+#=GS SMC1_YEAST/3-1212     DR PDB; 1w1w C; 3-1198;
+RECF_PSEPU/2-358                 SLRRIMVTAVRNL..HPVTLLPSPRINILYGANGSGKTSVLEAV.HLLG...LARSFRSTRLNPVIQY...............EQAACTVFGEVQLT...........EGGT................SNLGVSRERQGE...FTIRI........DGQNARQ.AQLAELLPLQLINPDs..........frllegapkirr.......qfld..wgvfhveprflpawqrlqk......................................................................................................................................................................................................................................................................................................................................................................................................................................................alrqrns..................................................................................wlrhgtld.................................................................................................................................................................................................................................................pasqaawdrelclrsaeideyrrnyikal........................................................................................................................................................................................................kpvfertlselvel.dgltlsyyrgwdkdrelqevlassllrdqqmghtq............................................agpqradlrlrlagnnaa.................................................dILSRGQQKLVGMRII.AQGHLVSQARRGHCIYLVDDLPSELDDQHRRALCRLLE..ELR...CQVFITCVDHELLREGW.QTETPVALFHVEQGRIT
+RECF_ECOLI/2-356                 SLTRLLIRDFRNI..ETADLALSPGFNFLVGANGSGKTSVLEAI.YTLG...HGRAFRSLQIGRVIRH...............EQEAFVLHGRLQG............EERE................TAIGLTKDKQGD...SKVRI........DGTDGHKVAELAHLMPMQLITPEg..........ftllnggpkyrr.......afld..wgcfhnepgfftawsnlkr......................................................................................................................................................................................................................................................................................................................................................................................................................................................llkqrna..................................................................................alrqvtr..................................................................................................................................................................................................................................................yeqlrpwdkeliplaeqistwraeysagia.......................................................................................................................................................................................................admadtckqflpef..sltfsfqrgweketeyaevlernferdrqltyta............................................hgphkadlriradgapve.................................................dTLSRGQLKLLMCALRLAQGEFLTRESGRRCLYLIDDFASELDDERRGLLASRLK..ATQ...SQVFVSAISAEHVIDM...SDENSKMFTVEKGKIT
+RECF_PROMI/2-359                 ILSRLLIRHFRNI..EQADLPLADGFNFLVGPNGSGKTSILEAI.YTLG...HGRAFRSAQANRVIQH...............DENAFILHGRLSGL.........DEESRG................YSIGLSKDREGN...STVRI........DGSDGHKIAELAKLLPMQLITPEg..........ftllnggpkyrr.......afid..wgcfhneprffaawsdlkr......................................................................................................................................................................................................................................................................................................................................................................................................................................................vlkqrna..................................................................................alrqass..................................................................................................................................................................................................................................................yrqllpwdkelillteqisqwraeytedia.......................................................................................................................................................................................................kdieetcqlflpef..tlkvsfqrgwdketdyaqllerqferdkvlsyts............................................lgahkadlrirangtpve.................................................dMLSRGQLKLLMCALRLAQGEYFTRKNGQRCLYLLDDFASELDANRRQLLAERLK..STQ...AQVFVSAITSGQVKDM...LDVNSRLFSVEHGKIE
+RECF_ACTPL/2-359                 PLSRLIINNFRNL..QSLDLELSPNFNFIVGHNGSGKTSLLEAI.FYLG...HGRSFKSHISNRIIHY...............QAEDFVLHARIDE............GQHQ................WSVGIQKKRSGD...TLLKI........NGEDGNKISDLAHLLPMQVITPEg..........ltllnggptfrr.......afld..wglfhqytefyscwanlkr......................................................................................................................................................................................................................................................................................................................................................................................................................................................llkqrna..................................................................................alhqvrs..................................................................................................................................................................................................................................................yaelkpwdielaklaeivsqmrasyaeglr.......................................................................................................................................................................................................peiektcqfflpel..eigvsfhqgwekgtdyaeilaqgferdkamgytm............................................igpqkadfrfranglpve.................................................dVLSRGQLKLLMCALRLAQGEYLVAQKERQCLFLIDDFASELDPIKRELLAHRLR..ESG...SQVFVTAITKDQLNQMQWQESEQDSLFQVQQGMLT
+RECF_HAEIN/2-356                 AISRLLVEKFRNL..TAVDLDFDPCFNFLIGNNGSGKTSLLEAI.FYLG...HGRSFKSAVTNRIISY...............DEPHFTLFGQIQE............SQHQ................WSIGLQKLRQGN...TLVKI........NGEDGNKISDLAHLLPMQLITPEg..........ltllnggpsyrr.......afld..wglfhhqtsfysawsnlnr......................................................................................................................................................................................................................................................................................................................................................................................................................................................llkqrna..................................................................................alaqnqp..................................................................................................................................................................................................................................................ysaikiwdvelaklahqvsewraeyaeals.......................................................................................................................................................................................................peieqtcqlflpel..einvsfhqgweknadyyeilqqnferdralnytf............................................sgpqkadfrfkaqglpve.................................................dVLSRGQLKLLMCALRLAQGEHLMKEKQRHCIFLIDDFASELDQYKRALLAERLQ..QSG...SQVFVTAITQRQLKEM...QVENKKMFSVHNGIIN
+P115_MYCHR/3-961                 KLIKIEIEGFKSFA.DPISINFDGSVVGIVGPNGSGKSNINDAIRWVLGEQ.SAKQLRGLNMDDVIFAG.............SKTVKPQEKAMVKLTF........KNEDAI..........EETKQIFTISRLLKRGQGT..NEYFY........NDQPVRY.KDIKNLAVESGISKSs.laiisqgtiseiaeatpeqrk.......avieeaagtskykldkeeaqkklirtndaidklqgai.kelerqvnsldkqaskakiylekskalesvevglivndlnffneklnnlntslle..............veqqrndlelniqtyessisqtvhfktevessiqei.tsk..ldnlknalse.inlqearieerrkliisg.....eivvdqktkieeikkqveslkiq............................................................................................inaskqre..ieldqqltrlna.kanslklqendinkeig......vllekksaaaaninilkqqfenksflskgiktik...............................dnsflfdgyiglaselfkv...esefslaietvlgaalnqivmktsedvlqaidflkknls.gkatfipltsikerevredhllv.lk..gqkgflgv.akelief.dtqfnklfgfllgnilvvdnvdnanriakildh...kytivsle..gdlfrpggtitggsklertsi.............lnydikikehtntlkfaedqihdlkikqqtiyneietvnstiqqvkieansin.......................................skl........nilneelnnlklnaseifkeqqedq............eslnlsfdseklniekqistltielnskkdrlt..................nliseqgkg.....etkkqeldaklrklntqhsdsiteqnrakflveqnqkrlsehykltleaaseqy.......sldldieqa...............................................................................................................................................................rhfvdslkkelkel.gnvnleaitefeevnqryqekkqyieelttakskieeaisdldkiiinktteivnlvnnefnmvfqkmfg.........gg..kaeihftd...knd.............................ilnsgveisaqppgktiknlrLFSGGEKAIIAISLLFA.....ILKARPIPLCILDEVEAALDESNVIRYVEFLK..LLKEN.TQFLIITHRSGTMSRV....DQLLGVTMQKRGVTS
+SMC_BACSU/2-1172                 FLKRLDVIGFKSFA.ERISVDFVKGVTAVVGPNGSGKSNITDAIRWVLGEQ.SARSLRGGKMEDIIFAG.............SDSRKRLNLAEVTLTL........DNDDHF.......LPIDFHE..VSVTRRVYRSGE...SEFLI........NNQPCRL.KDIIDLFMDSGLGKEa.fsiisqgkveeilsskaedrr.......sifeeaagvlkyktrkkkaenklfetqdnlnrvedil.helegqveplkiqasiakdylekkkelehveialtaydieklhgkwstlkekvqm..............akeeelaessaisakeakiedtrdkiqaldesvnel.qqv..llvtseelek.legrkevlkerkknavqnqeqleeaivqfqqketvlkeelskqeav....fetlqaevkqlraqvkekqqalslhnenveekieqlksdyfellnsqasirnelqllddqmsqsavtlqrladnnekhlqerhdisarkaacetef..arieqeihsqvg.ayrdmqtkyeqkkrqye......knesalyqayqyvqqarskkdmletmqgdfsgfyqgvkevl........................kakerlggirgavlelist...eqkyetaieialgasaqhvvtddeqsarkaiqylkqnsf.gratflplsvirdrqlqsrdaet.aa..rhssflgv.aselvtf.dpayrsviqnllgtvlitedlkganelakllgh...ryrivtle..gdvvnpggsmtggavkkknnsllgrsrel.....edvtkrlaemeektalleqevktlkhsiqdmekkladlretgeglrlkqqdvkgqlyelqvaekninthlelydqeksals...........esdeerkvrk.rkleeelsavse.kmkqleedidrl............tkqkqtqsstkeslsneltelkiaaakkeqack........geed...nlarlkkeltet.....elalkeakedlsfltsemssstsgeekleeaakhklndktktielialrrdqri.......klqhgldtyerelkemkrlykqkt.tllkdeevklgrmeveldn.llqy.........................lreeysl....................................................sfegakekyqletdpeea.................rkrvkliklaieel.gtvnlgsidefervnerykflseqkedlteakntlfqvieemdeemtkrfndtfvqirshfdqvfrslfg.........gg..raelrltd...pnd.............................llhsgveiiaqppgkklqnlnLLSGGERALTAIALLFS.....ILKVRPVPFCVLDEVEAALDEANVFRFAQYLK..KYSSD.TQFIVITHRKGTMEEA....DVLYGVTMQESGVSK
+P115_MYCPN/3-963                 FLKRFRAYGFKSYA.DEITINFTHSMTGIVGPNGSGKSNVVDALKWVLGER.SMKHLRSKSGDDMIFFG.............SKDKPASKLAEVELTF........DNSQKL.......LHDPRPE..ISVMRRIYRGSGQ..SEYYI........NGELVTL.KEISGIFADIGLEKGs.lgiisqgsvswfveakpeerr.......kifedasgigrytkrkeevtnqlartvqnlkqvsivl.nelkkdlkkltiqadkaqrfvklkeelkelelsvlvadylksqgeldrfnhqigy..............ieqdfklhepqlqlledqlnifnqrfrdadeqsikl.qqe..lqavyqtine.leqrkavidvqlknelsk........kdekhkiqalkklirvdqaq...................................................................................................l..eslqaqvlktts.eitlltnelstvqteld......ttklnlnqnsaalvyqqaqqeflkaqneewvktnpah............................vlvknvkaltgllntlntflkfekqyekallkalgksigylvvnnnlaalkaidflltnqi.gqvtflpiddiafd.tkiapehm.eilqqldgflgv.gsdhvsc.deslqpivnallgqviiasdlqaalklssytyk...lyrvvtln..getvyaggiiqggy....................vkdnlslynlqeklasseanitqlehnekqlrtnltsletklnelnkklkyeeillekfnervnhtnkailsykieyeqltn.....................esfdgtphsfde...trlveslnra.............................................................................waerdelnsqlklnqelketlaksiklaeaktadlralldeqrsqlvlaregki.......rfentihnitdkinggykltmefa.ianynkpiklstmqa................................................................................................................................qnkiarmqsqldem.gpinlesiaeiadkqkrfddingeyeslqtaikdlqtaigeidelackefdeliqkvnaelpktfnylfg.........gg..scqirytd...tdn.............................vllsgievfanppgknvanlmLLSGGEKTLVALSVLFS.....ILRVSAFPLVILDEAESALDPANVERFANIIG..NSSNN.TQFLIITHRQGTMMKC....DMLLGAAMQTKGVTK
+O83382_TREPA/3-919               FLKTLEVFGFKSFA.DRVRVEFADGVTALLGPNGCGKSNVVDAIKWVLGEQ.SSRALRADRMEDVIFNG.............TESRRSLNVAEASLTV........CDEAGI.......LSLDVPE..ILIKRRLYRSGE...SEYFL........NGNAVRL.KEIRELFWDTGIGKVa.ysvmeqgkidqilsnkpeerr.......ylfeeaagvtrfkvrgaeaarklektaenlrhlevil.qeveksyessklqaaqtqryrmlkeeifardrdlgllrlrgflenqaradgalqr..............nrarrdalqtqveeaqqtlsarigeindmekrvdal.qke..iyglaieqka.kqneaslhrkhlselkesigqiemrkigvesrvqnleeevaeqdah............................................................................................vyqlgsal..ssveehiesfar.slhvasehvsendqtlr......diqgqmqeisaacveleaslrdva...ediaa.........................................................eldtrlsaagysarnr..aeaertlvagvqrlrtfve.grari................................vsdflvv.dthtegelcrml..ttvvdafneavkivhcvesdiaeyarvsarfidefvapqgimtkk.....................referqleqhraqlerhaarqrtlqeenkllvgkieacrktleslrvdqarlraeaeagqkqaagtrgevarqr..................avikelegel.ftegervaalee.rllevegeigql............eqrgvlltkslencegeirvrnaavtseehalq..................earvelaqv.....grqleqahrelmqceteirnlrehfreqhtr......dlsefedlipgiektas.......dl......................................................................................................................................................................rqergelqarvkei.gavnfmaveefqevkeryeflvaqvadlekaradlqrvtdkikaesaelflatyrrirknfhevfrrlfg.........gg..raeirlsd...paa.............................vlscgieilaqppgkklehigLLSGGEKAMTAVALLFA.....TYMVKPAPFCLLDEIDAALDEHNVARFVGMLD..EFSDV.SQYIVITHNRRTVLGA....RTMLGVTMEEPGVSK
+SMC_MYCTU/2-1186                 YLKSLTLKGFKSFA.APTTLRFEPGITAVVGPNGSGKSNVVDALAWVMGEQ.GAKTLRGGKMEDVIFAG.............TSSRAPLGRAEVTVSI........DNSDNA.......LPIEYTE..VSITRRMFRDGA...SEYEI........NGSSCRL.MDVQELLSDSGIGREm.hvivgqgkleeilqsrpedrr.......afieeaagvlkhrkrkekalrkldtmaanlarltdlt.telrrqlkplgrqaeaaqraaaiqadlrdarlrlaaddlvsrraereavfqaeaa..............mrrehdeaaarlavaseelaahesavaelstraesi.qht..wfglsalaer.vdatvriaserahhldiepvavsdtdprkpeeleaeaqqvavaeqq.......llaeldaararldaaraeladrerraaeadrahlaavreeadrregl.arlagqvetmrarvesidesva..........rlseriedaamra..qqtraefetvqg.rigeldqgevgldehhe......rtvaalrladervaelqsaeraae...rqvaslraridalavglqrkdgaawl............ahnrsgaglfgsiaqlvkv...rsgyeaalaaalgpaadalavdgltaagsavsalkqadg.gravlvlsdwpapqapqsasgem.lpsgaqw......aldlves.ppqlvgamiamlsgvavvndlteamglveirp....elravtvd..gdlv.gagwvsggsdrklst..............levtseidkarselaaaealaaqlnaalagalteqsarqdaaeqalaalnesdtaisamyeqlgrlgqearaaeeewnrllqqrteqeavrtqtlddv.....iqletqlrkaqetqrvqvaqpidrqaisaaadra...rgvevearlavrtaeeranavrgradslrraaa.......aerea...rvraqqaraarlhaaavaaavadcgrllagrlhravdgasqlrdasaa......qrqqrlaamaavrdevn.......tlsarvgeltdslhrdelanaqaa...lrieqleqmvleqfgma.padl.........................iteygph...............................................v....alpptelemaefeqarergeqviapapmpfdrvtqerrakraeralael.grvnplaleefaaleerynflstqledvkaarkdllgvvadvdarilqvfndafvdverefrgvftalfp.........gg..egrlrlte...pdd.............................mlttgievearppgkkitrlsLLSGGEKALTAVAMLVA.....IFRARPSPFYIMDEVEAALDDVNLRRLLSLFE..QLREQ.SQIIIITHQKPTMEVA....DALYGVTMQNDGITA
+O28714_ARCFU/2-1148              HIEKIRLKNFKSFG.KKAEIPFFKGFTVITGPNGSGKSNIIDSILFCLGLSTSTKQLRAERLTDLVHNG.............R......SEAEVAILF........SENGKK................YEIARKVKITEKGYYSYYYL........NGKSVSL.SEIHSFLSQFGIYSDa.ynvvmqgdvtriiemspfqrr.......kiiddvagisefdekkekaleelervresiekleavi.aevndrlqtlerdrneairykeilskkeeyegylrahnyltavkskekvereler..............lerqkdeltskipeinariaelnekinelaakiselgder..saeiqsrile.lsseleslrraerfyldeakrleeesvkiiseiskikeemesldge...............leeyaikriqvgeivdelaakmellrqrleevdkkhrelrdrlvsrkeelemykerrgeilrerdkliellrridmdvediknei..asiesklkefet.ekkakqeevwkqeeelm......sakkmlssadkklfdirakisdve...delkkaelelakvkatlstlrtyskpveillda.....rnrrelpgifgtvaqlgev...deeyvaaieaaagnalqfvvveteddavsainflkavrg.gratfiplrriksfklsldksil.....kedgvidf.avnlvrc.dkkfqpvfrfilrdtvvvdrietakrlmdr......gfrfvtld..gdiveksglmtggsaekrgilvsrellek....ermlsdkiyelqrekeglfaelnraeslrkqykdevdrltgmiselrnrislldekirtesgrieelrekisqksrekenyi...........sslkdynskl.aemeeaigelea.eieeiermlrgsevpkiveeldkikeehqrnreilisiekkieslefkreqlessmq........ekqv...yldeikdridei.....rrtieegkarveeinseleelrkeerelgkelkglrkerdelikqlrnaeeekr.......kieaeidrleeriklqkerleiae.seiaeigevevpenlpple.kv.........................................................................................................................ekvldevlvelstf.gdvnlkaiqeyeevkarrdelvekkmvlekeradildriekyermkreiffevftainrnfaeiirelan.........g...egelyld....sdd.............................pfnsglyikvkpnnkpvqkleSMSGGEKSLVALALIFA.....IQMYKPAPFYAFDEVDMFLDGVNVGRVAKMIK..KRSKD.AQFIVVSLRKPMLEQA....DAIVGITLGRDNVSQ
+SMC_METJA/3-1163                 TLEKIELKNFKSF..KKLSLDIPKGFTAIVGPNGSGKSNIVDAILFVLGKT.SAKKLRANRFSGLITY...............HNGKRADFAEVCLYF........TNENNA.......FNVNADK..VGILRRIKSSGE...TDYYLVWKENDKEKRKKMTK.HEIIDLFRRLGLLGDn...visqgdllkiinispierr.......kiideisgiaefdekkkkaeeelkkareliemidiri.sevennlkklkkekedaekyiklneelkaakyalilkkvsylnvlleniqndikn..............leelkneflskvreidveienlklrlnniinelnekgnee..vlelhksike.leveiendkkvldssinelkkveveienkkkeiketqkkiienrdsi.iekeqqikeieekiknlnyekerlkeaiaesesiikhlkesemeiadeiaknqnelyrlkkelndldnlinrknf..............eieknnemi..kklkeeletvedvdtkplylelenlnveie......fskrgikeleekkkelqakldelh...aeyvkenarikalkemeelsmdraire...........ilnanlpgiidivgnlgkt...kieyktaievaagnrlnhivvkrmddavraikylkerkl.gratflpldriegreayyi.........dedgvigr.aidlvef.dekyrrvfeyvfgntvvvenidiakelakkyr....kvrfvtld..gdviepsgamiggtfk..................skakikvdvdlsklnkiadeiiaieselrkikeeierlskivkrssakkmeientleiikknemrkreiaekntikikelelknkdil....eeleelnlkr.eeilnrineies.kinelierrekiinelkeyesdenlkrmneiegelkilekekaklkneidkgltlvkeilipkieelnk...kvselinkkvil.....eknisfykesieknlsileekrkryeelaknlkeltekkeqlekeietlererr.......eilrkvrdienrinelmvekakye.skleeeerklylcekvdvs.kele.........................kkdieel.......................................................................................eiyigeleneiksl.epvnmraiedynyvaerykeliekrkeyerdekkylqlmeelenkkkevfmevfnkvaknfeevykei...........gg..igklslen...ekn.............................pfeggilidasprgkkllsldAMSGGEKSLTALAFLFA.....IQRLNPSPFYVLDEVDAALDVKNVSLIADMIK..NASKD.SQFIVISHREQMVSKA....DVVYGVYM.ENGLSK
+O59462_PYRHO/3-1151              YIERLELKGFKSYGNKKVVILFSRGFTAIVGANGSGKSNIGDAILFVLGGL.SAKAMRASRISDLIFAG.............SKREPPAKYAEVTIYF........NNEDRG.......FPIDEDE..VIIKRRVYPDGR...SHYWL........NGRRATR.SEILDLLSAAMISPEg.yniilqgditkfikmsplerr.......liiddisgiaeydakkeralqelkqaeenlakvdili.gevkkqldklekerndalryldlkeklekarvglvlgeirkieseirnnderign..............iereiermekrleeiakeivekenelrrieemieressse..alrltreige.vnskinlarrnieiarreldesqlrlakvkdelkkvmseiekskga...............iirwgrrrealikqisekeeernhlvvrlgeidrtfavareefdsvvkelenarrlmyegeaeikrldaekeklrsriavlkakl..pgirdeilklrd.tldekkaelseienkls......svsnkrmkveeevekktlelqkvs...keledaerelirieaqnetksnravee...........lkrsgipgiygtllelirv..rdekysiavevalgnradnvvvedeivaekaieflkrnkl.grltflplnkikar..............hvngdvgipvvsviey.dpkienavsfalgdtvivssmeearsyig.......kvrmvtlk..gelyersgaitgghyrprgllldt..........kelkekvenlrimkeslegevnslrvklkalenqsfelrirmsdvekeisliskdleklikeeeslrseiedserkiaeid...........etiskkkdev.aklkgrierlek.rrdklkkalenpearevtekirevereiaklreelsrvegkleslnsrlndeliprk.......aslee...eieglvnkinal.....kanineneealksltekleklkkeegeiysrieeqkkkkeelerkvaelreeke.......kisrriqelrievntlkvrnsqlk.sllmeknsqlkhfskevik.sird.........................ipsdlegl......................................................................................kkeiekmeeeikal.epvnmkaiedfevverrylelkskrerleaekdsiiefineiekekknvfmktfdaiaknfselfarlsp.........gg..sarlilen...pdd.............................pfsggleieakpagkdvkrieAMSGGEKALTALAFIFA.....IQKFKPAPFYLFDEIDAHLDDANVKRVADLIK..ESSKE.SQFIVITLRDVMMANA....EKIIGVSM.RDGVSK
+O66878_AQUAE/6-1140              YIEKIVVEGFKSYGTKRKEIPLGEGFIAVVGPNGAGKSNIGDAISFALGLS.SAKALRAKNLSYLIFS...............KNGQKADHAYVEVHF........KNLGA........FPVEDEE..VVISRKVSKDGR...SIFKI........NGQVVRE.RDLKDFLAKAGIYETa.ynvvyqgdivkflkmtpverr.......kiieeisgigeyerkkekaleelaevelkikeidlil.eeisnqlkrlkeekeklekfkelqrikreteakillkekekllkererilnelss..............lresleditfqiqenekelnererllkevnek..........impfkekvgk.ftaeienaersikekerelkesenrvknleelinnllsdkenlere....vgtlqleleklkeeykslkevereklreleeeeerlkitfdev........kkleeekeklteklnslnkekq..........eleiqranlknki..erikedinklis.ereekikeikekeqeik......rlkaikkkeeeelrnltqelniye...krlsevrkkleevlkekgaierevrsfsdvs.......dvfkdikgvygsvselirv..knpehitaievagggrlkfivvedeevakeciqlakrmnl.grfsfiplnrvrveerplryp.......rtkgavdf.avnlvey.dpkfekvvkfvfgdtlivenfesakaigig......nyrmvtle..gelfeksgvitggavkpsgelnk...........ryyeeelqrlnaeeeklkneesiiqkkireirnlisektallkvserkieelss..egleqyeekfkeklenskeylkile...........ekllnvedkl.kelaeeieyyee.klnnlklkegdikrhysregveekrreyskvrkqvseiekslneierelnkktyele........ylek...eiqekerereyl.....terikslkkeienlilfkektlqevkeaevkvydyikqkeelekeilnlksklg.......klkikeeelkekifekeknlkvle.ekienlneelkeyedlklg.adee.........................sipkl.........................................................................................keklkrvteeiqkl.gsvnfraeedyaeelkrfndykekqqklkeeskaikklieetenkkrkvfleafnqinkslkrifsflsp.........gg..kaqmfldn...ped.............................pfsggvqltvkprgkdvqyleAMSGGEKTLAALSLIFA.....LQEYKPSPFYYFDEVDAHLDEVNAKKVGELIR..EKSKE.AQFIVVTLREVVTSFA....DKIVGVSA.RGGISE
+P73340_SYNY3/3-1194              YVKRIELSHFKSFG.GTTAIPFLPGFTVVSGPNGSGKSNILDALLFCLGLA.TSKGMRAERLPDLVNNT.............FKGNRGSSEASVSVTFELHDGENLSEPGANHNGNGNGAKISKEW..TVTRRLKVTKGGNYSSNYYI........NGETATV.TELHEQLNELRIYPEg.ynivlqgdvtriitmnskerr.......eiidelagvaefdrkivktketltevqdreercqiia.telertlerlaadrqkaekyqalrqqvqekqgwakviqykaveqqrqklwgqler..............dreqsqqiqqaldqrsqaiqtqqteleklnaqvkalgeee..qlavaaqlat.qkaqrdqlqqryndgdrqitnhqqqvgqiqaeisqsqqqflhiqqeksfhntqtlpqleaavqtsqqqleqlrhqaqaiasaseawvqeqtqlsrtvnqlqdelipqrsqlaqleerqqqllt..............nlaeltpll..tkvsveleekqf.aqgqfnfqgealtsqiq......tlasdlaqleqersllqetqtrll...keqqekqrqldkleaasqaqqevqgtyatkv.......ilqsdlpgvcglvaqlgqv...epqyqlaleiaaggrlgflvveddgvaaagieilkqaka.gratflplnkirppkgqnpnls......yahgyidl.avnlidg.drryadifafifgntivfdtlvnarnhlg.......khrivtle..gdlleasgamsggsrnqrsglrfgtmvsedtaevkqlrqrlqdiqqvqgrneelllertvrsrqltqqlmemrqqqreaqlhgeqterdiarlsqqqtqinqqqinqqqklaelq...........qnlallqqsl.ppleqqlasaqq.qltaletsqthqqwqtiqiqirtveaeyqrqlqalrqgedhlkdlqnssqrleekia........qaqe...kiaqhqaqdltl.....aqeqeqlkialaemngaiqtteaqlaklseklgstkqerdrletqlnqlrsqqqeqqwqweklqtnqqeyqenltqlqtqleale.qdlpdpwpeipllqdrdea.nldf.........................anileel.......................................................................................ersirngqkrleam.epvnmlalqeyektearlgelseklqtiagertelllrienfttlrrrsfqdafdavnknfqiifaelsd.........g...dgylqldd...aed.............................pfngglnlvahpkgkpvrrlsSMSGGEKSLTALSFIFA.....LQRYRPSPFYGFDEVDMFLDGANVEKLSKMVR..KQAQQ.AQFIVVSLRRPMIEAA....ERTIGVTQARGAHTQ
+O51074_BORBU/6-815               VLKKIVLLGFKSFL.NRQEFEIGENLSFIVGPNGCGKSNLIDAVRFCMGED.NLKFLRVEDISDLISV...............SKSGKSNFAEITLFF........SNINSE......KSTLKEFNEDFYIRRRLYKDGS...SEYYF........NNKILNF.QDYNRLLNSFKFKKSp.ymfitqgrvedislernvnlk.......slieqasgidilkmeeeealknfkqssqnlssllslq.enlrqkydniknvfllrkkhqdlsqklealektitlkklfninfdlnvlkseln.........................................................ldglskflssgfkeklefysfreknvinniqelekdlelmkskilgleikiqkleqe......................................................................................................ktlkmnledkfvkskseseekknsinnnly......qlnsllkekkndffslsdeinryt...................................................ksffelvdl................................ilsvlrsaks...eefvllkeh..........................ildslkl.....................feeslsikyikeirvnlikyiskd..enll..............................allrdkiepifdqnvnlkkflleknalksnlakeitnierlieektlqlndvlgeleyielskfknl.........................deiklidgnl.eflfesknslde...........................elkdlylklenlnleksdiqlnlsnligask................................fssesfkekdfnslvflndfkktnyyeyikkqteyefllnsnv..................sikseienf..nvsnemsdkfele.edla...........................................................................................................................................trellrkeidaiklgdyvffnidkefdetkerfekvslqvedlklskyslqklqkkikneiykkfresfdeinknfsfffkkifk.........g...taslfyne...ntd.................................nveirinfsnkfvknnnMLSGGESTLVSMAFLFA.....LYYYSPACFCMLDEIDAALDFENSKKLSLLLR..ELGKK.FQLLVITHNAYVSEGG....ENLIGITL.DNGESR
+SMC2_YEAST/2-1166                KVEELIIDGFKSYATRTVITDWDPQFNAITGLNGSGKSNILDAICFVLGIA.SMSTVRASSLQDLIY...............KRGQAGVTKASVTIVF........DNTDKS...NSPIGFTNSPQ..ISVTRQVVLGGT...SKYLI........NGHRAPQ.QSVLQLFQSVQLNINnpnflimqgkitkvlnmkpseil.......slieeaagtkmfedrrekaertmskketklqenrtllteeiepkleklrnekrmflefqstqtdlekterivvsyeyynikhkhtsiretlen..............getrmkmlnefvkktseeidslnedveeiklqkekelhkegtisklenkeng.llneisrlktslsikvenlndttekskaleseiasssakliekksa...........yantekdykmvqeqlskqrdlykrkeelvstlttgisstgaad.ggynaqlakaktelnevslaik..........kssmkmellkkel..ltiepklkeatk.dnelnvkhvkqcqetcd......klrarlveygfdpsri...........kdlkqredklkshyyqtcknseylkrrvtnlefnytkpypnfeasfvhgvvgqlfqidndniryatalqtcaggrlfnvvvqdsqtatq...llergrlrkrvtiipldkiytrpissqvldl.akkiapgkvel..ainlirf.desitkamefifgnslicedpetakkitfhpki...rarsitlq..gdvydpegtlsggsrntsesllvdiqky......nqiqkqietiqadlnhvteelqtqyatsqktktiqsdlnlslhkldlakrnldanpssqiiarneeilrdigeceneiktkqmslkkcqeevstiekdmkeydsdkgsklnelkk.elkllakeleeq............eseserkydlfqnleleteqlsseldsnktllh..................nhlksiesl.....klensdlegkirgveddlvtvqtelneekkrlmdiddelneletlikkkqdekk.......sselelqklvhdlnkyksntnnme.kiiedlrqkhefledfdlv.rniv.........................kqnegidldty...................................................................................rerskqlnekfqelrkkvnpnimnmienvekkeaalktmiktiekdkmkiqetisklneykretlvktwekvtldfgnifadllp.........ns..faklvpce...gkd..............................vtqglevkvklgniwkesliELSGGQRSLIALSLIMA.....LLQFRPAPMYILDEVDAALDLSHTQNIGHLIK..TRFKG.SQFIVVSLKEGMFANA....NRVFRTRF.QDGTSV
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+DPY27_CAEEL/92-1330              IILNIYVENFKSYAGKHILGPFHKNLTMILGPNGSGKSNVIDALLFVFGFK.AG.KIRTKKLSALI.................NSGGNYESCSVTIMFQMVKDMPVENYDKY.......EVLTDNC..VCITRTINRENN...SKYRI........DDKDASQ.KDVQELLLRAGIDMThnrflilqgeveaialmkptsknpneegmleyiedivgtnrfvapisklmhrvsllehkssqygasv.rrheghlkvfekamvigmaylntfnnlnylrgirvkhnlcryaetmrdakmslvt..............rtgeleenkdimleakdevrkketherslnsivtel.enk..ridwqskknd.whardakrkqglksctqdlgklmkerdearrekfeietapenaris....kqnmqlewdqlkeqenvcqrtatenlikydqkssadrakhddlekklsdellqsmrakaeldvseselkdmti..............mmeqgqkrv..delkgtlqtmma.enirdntelnavttelq......drklkfdkaveklphlksteqllrskkyeldqevieasntqevtyrhqataklhel.........keaglfpgfkgrlgdlasi...pikfdtaistvffaqldyhvvqtsdecrigigfcheykl.prttfvfldhlkdtdtsgmdstm.kfpaer.......lfdkihcvnpeirrefyflihdilvvdsleeatridkkypg...rhryctln..gsilnrsgaltgggkpttgrirndnnpnm....sgvkkvdlsklraaqekhnhaleahlklqlkqeeiradngpiikqleirkrelimstkeqktriaelkssiaaherrmvnyrevtvedldekraqiadlkrqv.eesqkssakikq.qieqykrkmdrmfmelvqkn....kdsieqakdrmgqleqdiarqtaiiennpshle.qaekklselehmclekrseadalaqlevgedvkgidiinaqlqtstasidaqraryteavaarreadaayqttvdnynmvkqtyd.......elmriiddlenktmadnaeldiie.sawmqpeklyppgkfvryn.dpdi.........................aakmtdghvvlpyeci...........................................smiephreayeehearmleddvfedt.........ankicklekdvdkfrrefdnkgvrdyamivsllmnevtsakkfsdklkahreklnelrmarfnefsealaflgtttqmlyqlitn.........gg..daslkfveegkstd.............................pfdggikfsvrpakkswklieNLSGGEKTLASLCFVFA.....MHHYRPTPLYVMDEIDAALDLNNVSLIANYIKHSERTRN.AQFIIISLRNQMFEVG....NRLLGIYKIDGKTYN
+SMC4_CAEEL/91-1361               MIRNVEVDNFKSYFGKASIGPFHKSFTSIIGPNGSGKSNLIDSLLFVFGFR.AS.KIRSAKVSNLIHK...............SAGRNPDKCTVTIHF....QRIVDIPGHY.......EVVKDSE..FTISRTAFQNNS...SSYAI........DGRPATK.NEVEARLRRVDIDIEhnrflilqgeveqiammkpvkttksetgmveylediigtnrlepfvklfqrrvnrltcdlsqqriar.dharnskvamenpvraaieflmkeneattihmkleqrrrqryldkiapkqaeldk..............mkeemksiaetldtnkneykqseeaqkvmieerskl.dkn..fdslskelsd.lgteetrrkealkrhqaniskaeaekekevkkrsnleaapekaerk....iakcqeeveqlleiektaneeadknldefekrseapkeeqkkiqetwaqksnefnkvrgeariaredfedlkk..............lansgtdkl..ielkkrlessee.syakekdeldklkpefd......swndklkqlstelptlrntarqkn...qdlaktrdrletlrqqnsscsssnkviqalmke.....keagriksfhgrlgdlgvi...dpkyegaictnfgarlnylivgkeedaknvinflvankl.prqtvqpldkikcdkrdlapnptnplpapr.......lidlidc.dpvlkpafydmvrsaivgdstqeaqrmhrmpacr..gvtvctle..gsmihpsgsftgggktvkgliltdknkmakq.vtpedkaaerdlaeklgklrdeadelkgqehemdgqliearrkvaemsnrlsivtssvqsaapaietlkktianqekeaakvkvdaktledkq.kiveelekkr.delgeeaakvka.rqaeiqskldgifkelvqch....rdeakeslqkrqklekdiaketanisnsgrnia.kcdenisrhdkdiekmkkkceelmekaid..deevkskketverfekqikklqtkgeemtkkqselsaaetklegelkkcsegik.......elkesmladrlkvediekklaalkvnriprfqfliessrpedlemqidd.........................kmpvvdenqspeeverqkkhmacvmsdaayalefemrqkvlentesyenvdgedrvpvellsdekineissrdaeem.................qmklkvceqqvealkakvdissikayvdkvkqyneqvikltiatevhrkhnqelqrikqmrleefhsafefigkhlvavfkmltd.........gg..dakleyid...kdd.............................pfrqgisfmvrpakkawkqiqFLSGGEKTLSSLALIFA.....LHMFRPTPFYVMDEIDAALDYRNVSIIAQYVR..QKTEN.AQFIIISLRNNMFELA....NRLVGIYKVDGCTRN
+SMC1A_HUMAN/3-1212               FLKLIEIENFKSYKGRQIIGPFQR.FTAIIGPNGSGKSNLMDAISFVLGEK.TS.NLRVKTLRDLIHGA.............PVGKPAANRAFVSMVY........SEEGAE................DRTFARVIVGGS...SEYKI........NNKVVQL.HEYSEELEKLGILIKarnflvfqgavesiamknpkert.......alfeeisrsgelaqeydkrkkemvkaeedtqfnyhrk.kniaaerkeakqekeeadryqrlkdevvraqvqlqlfklyhneveieklnkelas..............knkeiekdkkrmdkvedelkekkkelgkmmreqqqi.eke..ikekdselnq.krpqyikakentshkikkleaakkslqnaqkhykkrkgdmdeleke...............mlsvekarqefeermeeesqsqgrdltleenqvkkyhrlkeeaskraatlaqelekfnrdqk..........adqdrldleerkk..veteakikqklr.eieenqkriekleeyit......tskqsleeqkklegelteevemakrrideinkelnqvmeqlgdaridrqessrqqrkaeime..sikrlypgsvygrlidlcqp..tqkkyqiavtkvlgknmdaiivdsektgrdciqyikeqrg.epetflpldylevkptdeklrelkgakl.........vidviryepphikkalqyacgnalvcdnvedarriafgghq...rhktvald..gtlfqksgvisggasdlkakar............rwdekavdklkekkerlteelkeqmkakrk.eaelrqvqsqahglqmrlkysqsdleqtktrhlalnlqekskleselanfgprindik...riiqsrerem.kdlkekmnqvedevfeefcreigvrnirefeeek...vkrqneiakkrlefenqktrlgiqldfeknqlk....edqdkvhmweqtvkkdeneiekl.....kkeeqrhmkiidetmaqlqdlknqhlakksevndknhemeeirkklggankemt.......hlqkevtaietkleqkrsdrhnll.qackmqdiklplskgtmddisqee.........................gssqgedsvsgsqrissiyarealie.................................idygdlcedlkdaqaeeeikqemntl.........qqklneqqsvlqri.aapnmkameklesvrdkfqetsdefeaarkrakkakqafeqikkerfdrfnacfesvatnideiykalsr.........nssaqaflgpen...pee.............................pyldginyncvapgkrfrpmdNLSGGEKTVAALALLFA.....IHSYKPAPFFVLDEIDAALDNTNIGKVANYIK..EQSTCNFQAIVISLKEEFYTKA....ESLIGVYPEQGDCVI
+O01789_CAEEL/15-1251             TLHTLEIENFKSYKGKHTIGPFTR.FTAIIGPNGSGKSNLMDAISFVLGEK.PS.SLRVRKYADLIHGA.............PINKPVAKKCRVTMNY........KYSDGK................VKAFTRGVNNGT...SEHLL........DGQTVTS.AAYSQEMESINIFIKarnflvyqgaieniamktpkert.......qlfeelsrshefqaeyerlkvemtkaeddtqhnmnkr.rgiaqekreakmekdeaekyqtmknelaakstmlflhqlfhcertideskeeina..............qkktiasleatrskeeakiaavhqehrkalrevqkm.trk..ldqketdlae.kqqnmltlkvsvahehkkleiakkmlaaaeskaennstqladlkks...............kkelekkkaayeaeiqdmmqrge..lnlsdeqvreygqlkdqaqresamvqrellmaeqvfe..........gdksslnhelrrq..kehqervkakeg.dvrrietqiatlaqrik......eteeetkilkadlkkiendvvidksaaaeynkelvavvrqlseasgdsaegernqrrteale..glkknfpesvygrlvdlcqp..shkrfniattkilqkhmnsivcdteetaakaivylkdhry.ppetflpndalvvnplneklreikkpagvkl......vfdvinpqhqaarkalqfvcgnalvcesqedakqlaygggelkdrfkavsmd..gtlfqqsgvmsggsadlrqksk............kwdekvvkqlrekrnqlnekiadlqkhrrr.elevesvrskingneqrlammkrdlknmremqlerlqnelegmtaemnmlpprisncq...eklersestl.kslqtksnevadrifadfctrvgiasirdyenre...mrikqemedklrsfdddiqklayeidfvteqdg......nrkvevekekvsqidrqykdm.....kkkektaaaalkehtesmeqdkevleekkalshkletewnevkkiaqvamkdft.......kaekellrleslltkkqyerhsll.hsvklgqialplksgsmadveyeeddgdiyfiifvslfpfkfqlisddtasqssqsatdgpsvseeqiqreqhik.................................inydslpreykdvddddgvrqmsnrl.........nveidelqknvskm.napnlkanqrmaevkereaesteelenarkkakrirqqfekvktdryrrfqdffdpvantiddiykqlsr.........ntsaqaflgadn...mee.............................pyldgiqyncvapgkrfrpmdNLSGGEKTIAALALLFA.....VHGRNPAPFFVLDEIDAALDNTNIGKVASYIC..ESAREHMQIIVISLKEEFYNKA....DSLIGIFPYPAACTT
+SMC1_YEAST/3-1212                RLVGLELSNFKSYRGVTKVGFGESNFTSIIGPNGSGKSNMMDAISFVLGVR.SN.HLRSNILKDLIYRGVLNDENSDDYDNEGAASSNPQSAYVKAFY........QKGNKL................VELMRIISRNGD...TSYKI........DGKTVSY.KDYSIFLENENILIKaknflvfqgdveqiaaqspvels.......rmfeevsgsiqykkeyeelkekieklsksatesiknr.rrihgelktykeginkneeyrkqldkknelqkfqalwqlyhleqqkeeltdklsa..............lnseisslkgkinnemkslqrskssfvkesaviskq.ksk..ldyifkdkek.lvsdlrlikvpqqaagkrishiekrieslqkdlqrqktyverfetq...............lkvvtrskeafeeeikqsarnydkfklnendlktynclhekylteggsileekiavlnndkr..........eiqeelerfnkra..diskrriteelsitgekldtqlndlrvsln......eknalhterlhelkklqsdiesannqeydlnfklretlvkiddlsanqretmkerklrenia...mlkrffpgvkglvhdlchp..kkekyglavstilgknfdsvivenltvaqeciaflkkqra.gtasfipldtietelptlslpds.qdyil........sinaidy.epeyekamqyvcgdsiicntlniakdlkwkkgi...rgklvtie..galihkaglmtggisgdann..............rwdkeeyqslmslkdklliqidelsngqrsnsirarevensvsllnsdianlrtqvtqqkrsldenrleikyhndliekeiqpkitelk...kklddlentk.dnlvkekealqnnifkeftskigftikeyenhsgelmrqqskelqqlqkqiltvenklqfetdrlsttqr........ryekaqkdlenaqvemksl.....eeqeyaiemkigsieskleehknhldelqkkfvtkqselnssediledmnsnlq.......vlkrerdgikediekfdlervtal.knckisninipissettid.dlpi.........................sstdneaitisnsid............................................inykglpkkykenntdsarkel.............eqkiheveeilnel..qpnaralerydeaegrfevinneteqlkaeekkilnqflkikkkrkelfektfdyvsdhldaiyreltknpnsnvelagg..nasltied...ede.............................pfnagikyhatpplkrfkdmeYLSGGEKTVAALALLFA.....INSYQPSPFFVLDEVDAALDITNVQRIAAYIR..RHRNPDLQFIVISLKNTMFEKS....DALVGVYR.QQQENS
+#=GR SMC1_YEAST/3-1212     SS    -EEEEEEES-SS--SEEEEE-TT-SEEEEE-STTSSHHHHHHHHHHHTT--.--.-------TTSS------------------------EEEEEEEE........EETTEE................EEEEEEEETTS-...EEEEE........TTEEE-H.HHHHHHHHCTT--TTT-TTEE-TT-TTHHHHS-HHHHH.......HHHHHHHSTTTTHHHHHHHHHH---------------.------------------------------------------------TTHHHHH..............HHHHHHHHHHHHHHHHHHHHHHHHHHT---------.---..-EEEEEESSS.SSGGGS-EEEEEE-TT----SGGGS-HHHHHHHHHHHHHHHHTSS-...............-SEEEESSTTTT--HHHHHHHHHHHHHH-BTTBEEEEE-S-HHHHTT-XXXXXXXXXXXXXX..........XXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX......XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX...XXXXXXXXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX.XXXXXXXXXXXXXXXXXXXXXXX.XXXXX........XXXXXXX.XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX...XXXXXXXX..XXXXXXXXXXXXXXXXXXXX..............XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX...XXXXXXXXXX.XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX........XXXXXXXXXXXXXXXXXXX.....XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX.......XXXXXXXXXXXXXXXXXXXXXXXX.XXXXXXXXXXXXXXXXXXX.XXXX.........................XXXXXXXXXXXXXXX............................................XXXXXXXXXXXXXXXXXXXXXX.............XXXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX..XXXXXXXX...XXX.............................XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX.....XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXX....XXXXXXXX.XXXXXX
+#=GC SS_cons                     -EEEEEEES-SS--SEEEEE-TT-SEEEEE-STTSSHHHHHHHHHHHTT--.--.-------TTSS------------------------EEEEEEEE........EETTEE................EEEEEEEETTS-...EEEEE........TTEEE-H.HHHHHHHHCTT--TTT-TTEE-TT-TTHHHHS-HHHHH.......HHHHHHHSTTTTHHHHHHHHHH---------------.------------------------------------------------TTHHHHH..............HHHHHHHHHHHHHHHHHHHHHHHHHHT---------.---..-EEEEEESSS.SSGGGS-EEEEEE-TT----SGGGS-HHHHHHHHHHHHHHHHTSS-...............-SEEEESSTTTT--HHHHHHHHHHHHHH-BTTBEEEEE-S-HHHHTT-XXXXXXXXXXXXXX..........XXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX......XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX...XXXXXXXXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX.XXXXXXXXXXXXXXXXXXXXXXX.XXXXX........XXXXXXX.XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX...XXXXXXXX..XXXXXXXXXXXXXXXXXXXX..............XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX...XXXXXXXXXX.XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX........XXXXXXXXXXXXXXXXXXX.....XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX.......XXXXXXXXXXXXXXXXXXXXXXXX.XXXXXXXXXXXXXXXXXXX.XXXX.........................XXXXXXXXXXXXXXX............................................XXXXXXXXXXXXXXXXXXXXXX.............XXXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX..XXXXXXXX...XXX.............................XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX.....XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX..XXXXXXXXXXXXXXXXXXXXXX....XXXXXXXX.XXXXXX
+#=GC seq_cons                    hlcclhlpsFKSat.cplhhsFstsFssIlGPNGSGKSNllDAIhFVLG.p.supplRupphscLIat...............pstsssppApVplhF........sppspt..........t..p..hslpRphhpsGs...ScYhI........NGcsssh.p-ltcLLtptsIshps.h.ll.QGclpplhphpPppRp.......phlE-huGstcactchccuhpclpchppphpphp.hh.pplppphpphcpptpph.ca.phppphpthchhlh.hph.phtpphpphptplpp..............hppphpphptphpp.ppplpthppphpphtpphpp..ppp..h.thptphpp.hptpht.hcpphpth.pphpphppphtphppchpphptthtphctp...................p.....htt..tt.tpt.p.......t..p..t...tph.t..t.hp.....ht...t...............ht.htpph..tphptplpph.t.phpp.ppphtphppplp......phptthpphtpphtphptphp.hp...ppltp...th.th.......t...................t..h.uhhGhlhpLhph...p.paphAlpsshuttht.llVcs.psutpslphL+ppph.sphoFlsLsplt...ht....................hhshlch.c.phptsh.hhhtssllspshppApplshhh.....th+hVTLc..Gplhp.pGshoGG..p..t...............t..ppplpphppphpthppphpphptt.pphptphpphppthpphp.php.hptphpthppt..thptph.t.p.th.th............pplpphptph.pphtpphpphpp.phpphppphtt.............ppp.pphtpthpphptphpplp.phpp..tt.t................h.p..tph..h.....ppplpphcpcLpphppplpphcschpEhppth.phptphpph.p.htthppp.p.......plptphtphppplpp...tht.ht.pth......h...t.................................................................................................................................ppclpchppplpch.tplNhpuhccapchpcchpplspphcchcptcpsl.phhpclcpt+hc.F.tsFp.lspphptlap.Lh..........GG..pAcLplps...ss-..............................httGlphpspsstKphpplp.LSGGEKoLsALALlFA.....lpphcPsPhYlhDElDAALD.pNsptlAphl+..cpscp.uQFIVlol+pshhptA....-plhGlhh.csuhsp
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/XYPPX.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/XYPPX.hmm
new file mode 100755
index 0000000..4d0ba77
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/XYPPX.hmm
@@ -0,0 +1,41 @@
+HMMER3/e [3.0 | March 2010]
+NAME  XYPPX
+ACC   PF02162.8
+DESC  XYPPX repeat
+LENG  5
+ALPH  amino
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:48:52 2011
+NSEQ  7
+EFFN  7.000000
+CKSUM 149732247
+GA    14.30 0.70
+TC    14.40 0.70
+NC    14.20 4.00
+STATS LOCAL MSV       -5.1112  0.78852
+STATS LOCAL VITERBI   -4.7526  0.78852
+STATS LOCAL FORWARD   -2.5557  0.78852
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   1.78915  6.00913  5.23249  5.11791  5.20653  2.22796  5.88594  5.77670  5.17236  5.27663  6.29854  5.19187  0.83219  2.40628  5.36874  4.33373  4.68171  5.20184  6.65125  2.09768
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00529  5.64135  6.36369  0.61958  0.77255  0.00000        *
+      1   0.91707  5.48468  5.65823  5.70004  6.37399  0.67196  6.42141  5.91783  5.81567  5.60504  6.35161  5.14615  5.14089  5.87323  5.80244  3.79498  4.17581  4.94514  7.64062  6.69238      1 G - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00529  5.64135  6.36369  0.61958  0.77255  0.48576  0.95510
+      2   1.29214  5.93727  5.64450  5.57968  3.89343  4.88067  5.29214  5.20374  5.53411  4.64869  5.82218  5.30271  5.60238  5.64395  5.57005  4.42103  4.74169  4.86331  5.54271  0.49105      2 Y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00529  5.64135  6.36369  0.61958  0.77255  0.48576  0.95510
+      3   5.94672  7.11992  6.55030  6.62396  7.25663  5.73661  7.31745  7.48876  6.82943  6.72457  7.95279  6.80729  0.02290  7.12774  6.70449  6.20885  6.45690  6.95162  7.77702  7.45295      3 P - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00529  5.64135  6.36369  0.61958  0.77255  0.48576  0.95510
+      4   5.94672  7.11992  6.55030  6.62396  7.25663  5.73661  7.31745  7.48876  6.82943  6.72457  7.95279  6.80729  0.02290  7.12774  6.70449  6.20885  6.45690  6.95162  7.77702  7.45295      4 P - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00529  5.64135  6.36369  0.61958  0.77255  0.48576  0.95510
+      5   1.83526  5.65654  4.22930  4.02694  5.84734  4.24624  5.28601  5.33049  4.08818  4.90398  5.71607  4.35468  1.48546  0.81000  4.42096  3.73357  4.07553  4.71157  7.04231  5.78514      5 q - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00356  5.63962        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/XYPPX.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/XYPPX.sto
new file mode 100755
index 0000000..c52de9e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/XYPPX.sto
@@ -0,0 +1,48 @@
+# STOCKHOLM 1.0
+#=GF ID   XYPPX
+#=GF AC   PF02162.8
+#=GF DE   XYPPX repeat
+#=GF PI   Rhodopsin_C;
+#=GF AU   Mian N, Bateman A
+#=GF SE   IPR000216
+#=GF GA   14.30 0.70; 10.00 0.00;
+#=GF TC   14.40 0.70; 10.00 0.00;
+#=GF NC   14.20 4.00; 9.70 2.00;
+#=GF TP   Repeat
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF DR   PRINTS; PR00239;
+#=GF DC   The following Pfam-B family may contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB146642;
+#=GF DR   INTERPRO; IPR006031;
+#=GF CC   This repeat is found in a wide variety of proteins and
+#=GF CC   generally consists of the motif XYPPX where X can be any amino
+#=GF CC   acid. The family includes annexin VII Swiss:P24639, the
+#=GF CC   carboxy tail of certain rhodopsins Swiss:Q17094. This family
+#=GF CC   also includes plaque matrix proteins, however this motif is
+#=GF CC   embedded in a ten residue repeat in Swiss:Q25460. The molecular
+#=GF CC   function of this repeat is unknown. It is also not clear is all
+#=GF CC   the members of this family share a common evolutionary
+#=GF CC   ancestor due to its short length and biased amino acid
+#=GF CC   composition.
+#=GF SQ   7
+#=GS OPSD_SEPOF/451-455  AC O16005.1
+#=GS OPSD_SEPOF/441-445  AC O16005.1
+#=GS OPSD_SEPOF/424-428  AC O16005.1
+#=GS OPSD_OCTDO/406-410  AC P09241.1
+#=GS OPSD_SEPOF/403-407  AC O16005.1
+#=GS OPSD_SEPOF/412-416  AC O16005.1
+#=GS OPSD_TODPA/387-391  AC P31356.2
+OPSD_SEPOF/451-455             AAPPQ
+OPSD_SEPOF/441-445             GAPPQ
+OPSD_SEPOF/424-428             GYPPA
+OPSD_OCTDO/406-410             AYPPP
+OPSD_SEPOF/403-407             GYPPP
+OPSD_SEPOF/412-416             GYPPQ
+OPSD_TODPA/387-391             AYPPQ
+#=GC seq_cons                  uYPPt
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.fa
new file mode 100755
index 0000000..8a99fd3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.fa
@@ -0,0 +1,2 @@
+>ecori
+GAATTC
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.hmm
new file mode 100755
index 0000000..53ae4c4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.hmm
@@ -0,0 +1,40 @@
+HMMER3/e [3.0 | March 2010]
+NAME  ecori
+LENG  6
+MAXL  64
+ALPH  DNA
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:48:52 2011
+NSEQ  2
+EFFN  2.000000
+CKSUM 3460427537
+STATS LOCAL MSV       -6.2757  1.01949
+STATS LOCAL VITERBI   -6.7433  1.01949
+STATS LOCAL FORWARD   -1.7848  1.01949
+HMM          A        C        G        T   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   1.18299  1.62142  1.56342  1.24966
+          1.38629  1.38629  1.38629  1.38629
+          0.04879  3.73767  3.73767  1.46634  0.26236  0.00000        *
+      1   2.38910  2.82844  0.25233  2.62837      1 g - -
+          1.38629  1.38629  1.38629  1.38629
+          0.04879  3.73767  3.73767  1.46634  0.26236  1.09861  0.40547
+      2   0.28818  2.60848  2.42319  2.42940      2 a - -
+          1.38629  1.38629  1.38629  1.38629
+          0.04879  3.73767  3.73767  1.46634  0.26236  1.09861  0.40547
+      3   0.28818  2.60848  2.42319  2.42940      3 a - -
+          1.38629  1.38629  1.38629  1.38629
+          0.04879  3.73767  3.73767  1.46634  0.26236  1.09861  0.40547
+      4   2.31486  2.12647  2.41211  0.36768      4 t - -
+          1.38629  1.38629  1.38629  1.38629
+          0.04879  3.73767  3.73767  1.46634  0.26236  1.09861  0.40547
+      5   2.31486  2.12647  2.41211  0.36768      5 t - -
+          1.38629  1.38629  1.38629  1.38629
+          0.04879  3.73767  3.73767  1.46634  0.26236  1.09861  0.40547
+      6   2.46232  0.33808  2.58153  2.07174      6 c - -
+          1.38629  1.38629  1.38629  1.38629
+          0.02469  3.71357        *  1.46634  0.26236  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.sto
new file mode 100755
index 0000000..4083022
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/ecori.sto
@@ -0,0 +1,5 @@
+# STOCKHOLM 1.0
+
+seq1 GAATTC
+seq2 GAATTC
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/h3.pm b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/h3.pm
new file mode 100755
index 0000000..c9cd502
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/h3.pm
@@ -0,0 +1,127 @@
+#! /usr/bin/perl
+
+package h3;
+
+sub ParseTbl {
+    my ($tblfile)    = @_;
+    my (@fields);
+
+    $ntbl     = 0;
+    @tname    = ();
+    @tacc     = ();
+    @qname    = ();
+    @qacc     = ();
+    @fullE    = ();
+    @fullsc   = ();
+    @fullbias = ();
+    @best1E   = ();
+    @best1sc  = ();
+    @best1bias= ();
+    @nexp     = ();
+    @nreg     = ();
+    @nclu     = ();
+    @nov      = ();
+    @nenv     = ();
+    @ndom     = ();
+    @nrep     = ();
+    @ninc     = ();
+    @tdesc    = ();
+    
+    if (! open(TBLFILE, $tblfile)) { print "FAIL: couldn't open table file"; exit 1 ; }
+    while (<TBLFILE>)
+    {
+	if (/^\#/) { next; }
+	chop;
+	@fields = split(' ', $_, 19);
+
+	$tname[$ntbl]     = $fields[0];
+	$tacc[$ntbl]      = $fields[1];
+	$qname[$ntbl]     = $fields[2];
+	$qacc[$ntbl]      = $fields[3];
+	$fullE[$ntbl]     = $fields[4];
+	$fullsc[$ntbl]    = $fields[5];
+	$fullbias[$ntbl]  = $fields[6];
+	$best1E[$ntbl]    = $fields[7];
+	$best1sc[$ntbl]   = $fields[8];
+	$best1bias[$ntbl] = $fields[9];
+	$nexp[$ntbl]      = $fields[10];
+	$nreg[$ntbl]      = $fields[11];
+	$nclu[$ntbl]      = $fields[12];
+	$nov[$ntbl]       = $fields[13];
+	$nenv[$ntbl]      = $fields[14];	
+	$ndom[$ntbl]      = $fields[15];
+	$nrep[$ntbl]      = $fields[16];
+	$ninc[$ntbl]      = $fields[17];
+	$tdesc[$ntbl]     = $fields[18];
+	$ntbl++;
+    }
+    close TBLFILE;
+    1;
+}
+
+
+sub ParseDomTbl {
+    my ($domtblfile) = @_;
+    my (@fields);
+
+    $ndomtbl  = 0;
+    @tname    = ();
+    @tacc     = ();
+    @qname    = ();
+    @qacc     = ();
+    @qlen     = ();
+    @seqE     = ();
+    @seqsc    = ();
+    @seqbias  = ();
+    @domidx   = ();
+    @ndom     = ();
+    @cE       = ();
+    @iE       = ();
+    @domsc    = ();
+    @dombias  = ();
+    @hmmi     = ();
+    @hmmj     = ();
+    @iali     = ();
+    @jali     = ();
+    @ienv     = ();
+    @jenv     = ();
+    @accuracy = ();
+    @tdesc    = ();    
+
+    if (! open(DOMFILE, $domtblfile)) { print "FAIL: couldn't open domain table file"; exit 1 ; }
+    while (<DOMFILE>)
+    {
+	if (/^\#/) { next; }
+	chop;
+	@fields = split(' ', $_, 23);
+
+	$tname[$ndomtbl]   = $fields[0];
+	$tacc[$ndomtbl]    = $fields[1];
+	$tlen[$ndomtbl]    = $fields[2];
+	$qname[$ndomtbl]   = $fields[3];
+	$qacc[$ndomtbl]    = $fields[4];
+	$qlen[$ndomtbl]    = $fields[5];
+	$seqE[$ndomtbl]    = $fields[6];
+	$seqsc[$ndomtbl]   = $fields[7];
+	$seqbias[$ndomtbl] = $fields[8];
+	$domidx[$ndomtbl]  = $fields[9];
+	$ndom[$ndomtbl]    = $fields[10];
+	$cE[$ndomtbl]      = $fields[11];
+	$iE[$ndomtbl]      = $fields[12];
+	$domsc[$ndomtbl]   = $fields[13];
+	$dombias[$ndomtbl] = $fields[14];
+	$hmmi[$ndomtbl]    = $fields[15];
+	$hmmj[$ndomtbl]    = $fields[16];
+	$iali[$ndomtbl]    = $fields[17];
+	$jali[$ndomtbl]    = $fields[18];
+	$ienv[$ndomtbl]    = $fields[19];
+	$jenv[$ndomtbl]    = $fields[20];
+	$accuracy[$ndomtbl]= $fields[21];
+	$tdesc[$ndomtbl]   = $fields[22];
+	$ndomtbl++;
+    }
+    close DOMFILE;
+    1;
+}
+
+1;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i1-build-variation.sh b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i1-build-variation.sh
new file mode 100755
index 0000000..413c526
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i1-build-variation.sh
@@ -0,0 +1,67 @@
+#! /bin/sh
+
+# Usage: ./i1-hmmbuild.sh <hmmbuild binary> <MSA file> <tmpfile prefix for filenames>
+#
+# Verifies that hmmbuild builds HMMs reproducibly (no stochastic run-to-run variation by default).
+#
+if test ! $# -eq 3; then 
+  echo "Usage: $0 <hmmbuild binary> <MSA file> <tmpfile prefix>"
+  exit 1
+fi
+
+hmmbuild=$1;  if test ! -x $hmmbuild;   then echo "FAIL: $hmmbuild not executable";  exit 1; fi
+alifile=$2;   if test ! -r $alifile;    then echo "FAIL: $alifile not readable";     exit 1; fi
+
+hmmfile1=$3.1.hmm
+hmmfile2=$3.2.hmm
+outfile1=$3.1.out
+outfile2=$3.2.out
+diffile1=$3.1
+diffile2=$3.2
+
+# By default: no stochastic variation
+$hmmbuild $hmmfile1 $alifile > $outfile1;  if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+$hmmbuild $hmmfile2 $alifile > $outfile2;  if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+
+cat $outfile1 | grep -v "^#" > $diffile1
+cat $outfile2 | grep -v "^#" > $diffile2
+diff $diffile1 $diffile2 > /dev/null
+if test $? -ne 0 
+then 
+   echo "FAIL: output files differ"
+   exit 1
+fi
+
+cat $hmmfile1| grep -v "^DATE" > $diffile1
+cat $hmmfile2| grep -v "^DATE" > $diffile2
+diff $diffile1 $diffile2 > /dev/null
+if test $? -ne 0 
+then 
+   echo "FAIL: HMM files differ"
+   exit 1
+fi
+
+# With different seeds: HMM files will differ because of statistical fits
+$hmmbuild --seed 1 $hmmfile1 $alifile > $outfile1;  if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+$hmmbuild --seed 2 $hmmfile2 $alifile > $outfile2;  if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+
+cat $hmmfile1| grep -v "^DATE" > $diffile1
+cat $hmmfile2| grep -v "^DATE" > $diffile2
+diff $diffile1 $diffile2 > /dev/null
+if test $? -eq 0 
+then 
+   echo "FAIL: HMM files identical, despite different rng seeds"
+   exit 1
+fi
+
+echo "ok"
+
+rm $hmmfile1 $hmmfile2
+rm $outfile1 $outfile2
+rm $diffile1 $diffile2
+exit 0
+
+
+ 
+   
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i10-duplicate-names.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i10-duplicate-names.pl
new file mode 100755
index 0000000..5ec5b7e
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i10-duplicate-names.pl
@@ -0,0 +1,112 @@
+#! /usr/bin/perl
+
+# Check that we can deal with profiles and sequences that contain
+# duplicate names, both as queries and targets. 
+#
+# Usage:    ./i10-duplicate-names.pl <builddir> <srcdir> <tmpfile prefix>
+# Example:  ./i10-duplicate-names.pl ..         ..       tmpfoo
+#
+# SRE, Sun Dec 13 14:41:31 2009 [Yokohama, Japan]
+# SVN $Id: i10-duplicate-names.pl 3462 2011-01-11 13:52:50Z eddys $
+
+BEGIN {
+    $builddir = shift;
+    $srcdir   = shift;
+    $tmppfx   = shift;
+}
+use lib "$srcdir/testsuite";  # The BEGIN is necessary to make this work: sets $srcdir at compile-time
+use h3;
+
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmbuild")   { die "FAIL: didn't find hmmbuild binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmpress")   { die "FAIL: didn't find hmmpress binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmsearch")  { die "FAIL: didn't find hmmsearch binary in $builddir/src\n"; }
+if (! -x "$builddir/src/hmmscan")    { die "FAIL: didn't find hmmscan binary in $builddir/src\n";   }
+if (! -x "$builddir/src/phmmer")     { die "FAIL: didn't find phmmer binary in $builddir/src\n"; }
+if (! -x "$builddir/src/jackhmmer")  { die "FAIL: didn't find jackhmmer binary in $builddir/src\n";   }
+
+# Create our test files
+if (! open(ALI1, ">$tmppfx.sto")) { print "FAIL: couldn't open $tmppfx.sto for write";  exit 1; }
+if (! open(SEQ1, ">$tmppfx.fa"))  { print "FAIL: couldn't open $tmppfx.fa for write";   exit 1; }
+
+print ALI1 <<"EOF";
+# STOCKHOLM 1.0
+#=GF ID profile
+#=GF AC XX01234.5
+#=GF DE A test description
+seq1 ACDEFGHIKLMNPQRSTVWY
+seq2 ACDEFGHIKLMNPQRSTVWY
+seq3 ACDEFGHIKLMNPQRSTVWY
+//
+# STOCKHOLM 1.0
+#=GF ID profile
+#=GF AC XX01234.5
+#=GF DE A test description
+seq1 ACDEFGHIKLLMNPQRSTVWY
+seq2 ACDEFGHIKLLMNPQRSTVWY
+seq3 ACDEFGHIKLLMNPQRSTVWY
+//
+EOF
+
+print SEQ1 << "EOF";
+>seq
+ACDEFGHIKLMNPQRSTVWY
+>seq
+ACDEFGHIKLLMNPQRSTVWY
+EOF
+
+close ALI1;
+close SEQ1;
+
+# Build profiles from the test alignments
+@output = `$builddir/src/hmmbuild $tmppfx.hmm $tmppfx.sto 2>&1`;
+if ($? != 0) { die "FAIL: hmmbuild failed\n"; }
+@output = `$builddir/src/hmmpress $tmppfx.hmm             2>&1`;
+if ($? != 0) { die "FAIL: hmmpress failed\n"; }
+
+
+
+# phmmer should show four results
+$output = `$builddir/src/phmmer --tblout $tmppfx.tbl $tmppfx.fa $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: phmmer failed\n"; }
+
+&h3::ParseTbl("$tmppfx.tbl");
+if ($h3::ntbl != 4) { die "FAIL: on expected number of hits, phmmer\n"; } 
+
+
+# jackhmmer should show four results
+$output = `$builddir/src/jackhmmer --tblout $tmppfx.tbl $tmppfx.fa $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: jackhmmer failed\n"; }
+
+&h3::ParseTbl("$tmppfx.tbl");
+if ($h3::ntbl != 4) { die "FAIL: on expected number of hits, jackhmmer\n"; } 
+
+
+# hmmsearch should show four results
+$output = `$builddir/src/hmmsearch --tblout $tmppfx.tbl $tmppfx.hmm $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: hmmsearch failed\n"; }
+
+&h3::ParseTbl("$tmppfx.tbl");
+if ($h3::ntbl != 4) { die "FAIL: on expected number of hits, hmmsearch\n"; } 
+
+
+
+# hmmscan should show four results
+$output = `$builddir/src/hmmscan --tblout $tmppfx.tbl $tmppfx.hmm $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: hmmscan failed\n"; }
+
+&h3::ParseTbl("$tmppfx.tbl");
+if ($h3::ntbl != 4) { die "FAIL: on expected number of hits, hmmscan\n"; } 
+
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.fa";
+unlink "$tmppfx.tbl";
+unlink <$tmppfx.hmm*>;
+exit 0;
+
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i11-hmmalign-mapali.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i11-hmmalign-mapali.pl
new file mode 100755
index 0000000..f856f9d
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i11-hmmalign-mapali.pl
@@ -0,0 +1,82 @@
+#! /usr/bin/perl
+
+# Another test of the hmmalign --mapali option, after Elena reports
+# bug #h73 in bad interaction of checksum calculation and marking
+# fragments.
+#
+# Usage:   ./i11-hmmalign-mapali.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i11-hmmalign-mapali.pl ..         ..       tmpfoo
+#
+# SRE, Mon Dec 21 14:38:17 2009 [Janelia]
+# SVN $Id: i11-hmmalign-mapali.pl 3145 2010-02-03 16:55:42Z eddys $
+
+$builddir   = shift;
+$srcdir     = shift;
+$tmppfx     = shift;
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmbuild")   { die "FAIL: didn't find hmmbuild binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmalign")   { die "FAIL: didn't find hmmalign binary in $builddir/src\n";  }
+
+
+# Create our test files.
+if (! open(ALI1, ">$tmppfx.sto")) { die "FAIL: couldn't open $tmppfx.sto for write\n"; }
+if (! open(SEQ1, ">$tmppfx.fa"))  { die "FAIL: couldn't open $tmppfx.sto for write\n"; }
+
+print ALI1 <<"EOF";
+# STOCKHOLM 1.0
+
+# s6 is a fragment (by default hmmbuild definition)
+# s7 contains D->I transition
+# s8 contains I->D transition
+
+s1 ACDEFG.HIK.LMNPQRSTVWY
+s2 ACDEFG.HIK.LMNPQRSTVWY
+s3 ACDEFG.HIK.LMNPQRSTVWY
+s4 ACDEFG.HIK.LMNPQRSTVWY
+s5 ACDEFG.HIK.LMNPQRSTVWY
+s6 -----G.HIK.LM---------
+s7 ACDEF-aHIK.LMNPQRSTVWY
+s8 ACDEFG.HIKa.MNPQRSTVWY
+//
+EOF
+
+print SEQ1 <<"EOF";
+>test
+CDEFGHIKLMNPQRSTVW
+EOF
+
+close ALI1;
+close SEQ2;
+
+$output = `$builddir/src/hmmbuild -O $tmppfx.sto2 $tmppfx.hmm $tmppfx.sto 2>&1`;
+if ($? != 0) { die "FAIL: hmmbuild failed\n"; }
+
+($resave) = ($output =~ /processed alignment resaved to:\s+(\S+)/);
+if ($resave ne "$tmppfx.sto2") { die "FAIL: -O option didn't generated a line in header\n"; }
+
+$output = `cat $tmppfx.sto2`;
+if ($? != 0) { die "FAIL: cat failed\n"; }
+
+($aseq6) = ($output =~ /\ns6\s+(\S+)/);
+($aseq7) = ($output =~ /\ns7\s+(\S+)/);
+($aseq8) = ($output =~ /\ns8\s+(\S+)/);
+if ($aseq6 ne "~~~~~GHIKLM~~~~~~~~~") { die "FAIL: fragment wasn't marked in -O output\n"; }
+if ($aseq7 ne "ACDEFAHIKLMNPQRSTVWY") { die "FAIL: D->I transition wasn't trace doctored properly?\n"; }
+if ($aseq8 ne "ACDEFGHIKAMNPQRSTVWY") { die "FAIL: I->D transition wasn't trace doctored properly?\n"; }
+
+$output = `$builddir/src/hmmalign --mapali $tmppfx.sto $tmppfx.hmm $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: hmmalign --mapali failed\n"; }
+
+($testseq) = ($output =~ /\ntest\s+(\S+)/);
+if ($testseq ne "-CDEFG.HIK.LMNPQRSTVW-") { die "FAIL: test seq in unexpected alignment\n"; }
+
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.fa";
+unlink "$tmppfx.sto2";
+unlink "$tmppfx.hmm";
+exit 0;
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i12-delete-corruption.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i12-delete-corruption.pl
new file mode 100755
index 0000000..2a695a8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i12-delete-corruption.pl
@@ -0,0 +1,70 @@
+#! /usr/bin/perl
+
+# Bug #h77: hmmalign corrupts column preceding an all-delete column
+#
+# Usage:   ./i12-delete-corruption.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i12-delete-corruption.pl ..         ..       tmpfoo
+##
+#
+# This test is now obsolete. hmmalign by default now saves all
+# consensus columns, which removes the problematic execution path.
+# The hmmalign --allcol option is gone (as of 25 May 2010).
+#
+# SRE, Tue Mar  2 11:11:07 2010 [Janelia]
+# SVN $Id: i12-delete-corruption.pl 3277 2010-05-24 22:00:46Z eddys $
+
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmbuild")   { die "FAIL: didn't find hmmbuild binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmalign")   { die "FAIL: didn't find hmmalign binary in $builddir/src\n";  }
+
+# Create our test files.
+# The test seqs are missing one column, K, in an unambiguous small alignment.
+if (! open(ALI1, ">$tmppfx.sto")) { die "FAIL: couldn't open $tmppfx.sto for write\n";  }
+if (! open(SEQ1, ">$tmppfx.fa"))  { die "FAIL: couldn't open $tmppfx.fa for write\n";  }
+
+print ALI1 <<"EOF";
+# STOCKHOLM 1.0
+seq1 ACDEFGHIKLMNPQRSTVWY
+seq2 ACDEFGHIKLMNPQRSTVWY
+seq3 ACDEFGHIKLMNPQRSTVWY
+//
+EOF
+
+print SEQ1 <<"EOF";
+>test1
+ACDEFGHILMNPQRSTVWY
+>test2
+ACDEFGHILMNPQRSTVWY
+EOF
+
+close ALI1;
+close SEQ1;
+
+@output = `$builddir/src/hmmbuild $tmppfx.hmm $tmppfx.sto 2>&1`;
+if ($? != 0) { die "FAIL: hmmbuild failed\n"; }
+
+$output = `$builddir/src/hmmalign $tmppfx.hmm $tmppfx.fa 2>&1`;
+if ($? != 0) { die "FAIL: hmmalign failed\n"; }
+
+($testseq) = ($output =~ /\ntest1\s+(\S+)/);
+if ($testseq ne "ACDEFGHI-LMNPQRSTVWY") { die "FAIL: test sequence corrupted by hmmalign\n"; }
+
+#$output = `$builddir/src/hmmalign --allcol $tmppfx.hmm $tmppfx.fa 2>&1`;
+#if ($? != 0) { die "FAIL: hmmalign failed\n"; }
+#
+#($testseq) = ($output =~ /\ntest1\s+(\S+)/);
+#if ($testseq ne "ACDEFGHI-LMNPQRSTVWY") { die "FAIL: hmmalign --allcol produced unexpected result\n"; }
+
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.fa";
+unlink "$tmppfx.hmm";
+exit 0;
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i13-msa-integrity.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i13-msa-integrity.pl
new file mode 100755
index 0000000..586f506
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i13-msa-integrity.pl
@@ -0,0 +1,112 @@
+#! /usr/bin/perl
+
+# Look for any problems in hmmalign that corrupt the input sequences.
+#
+# Usage:   ./i13-msa-integrity.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i13-msa-integrity.pl ..         ..       tmpfoo
+#
+# SRE, Tue Mar  9 09:19:22 2010 [Janelia]
+# SVN $Id: i13-msa-integrity.pl 3522 2011-04-04 15:46:19Z eddys $
+
+
+$builddir  = shift;
+$srcdir    = shift;
+$tmppfx    = shift;
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmalign")                  { die "FAIL: didn't find hmmalign binary in $builddir/src";  }
+if (! -x "$builddir/src/hmmemit")                   { die "FAIL: didn't find hmmemit binary in $builddir/src";  }
+if (! -x "$builddir/src/hmmsearch")                 { die "FAIL: didn't find hmmsearch binary in $builddir/src";  }
+if (! -x "$builddir/easel/miniapps/esl-reformat")   { die "FAIL: didn't find esl-reformat binary in $builddir/easel/miniapps";  }
+if (! -x "$builddir/easel/miniapps/esl-shuffle")    { die "FAIL: didn't find esl-reformat binary in $builddir/easel/miniapps";  }
+
+# Verify that we have all the datafiles we need.
+if (! -e "$srcdir/testsuite/RRM_1.hmm")  { die "FAIL: didn't find RRM_1.hmm in $srcdir/testsuite";  }
+$profile = "$srcdir/testsuite/RRM_1.hmm";
+
+foreach $trial (1..5)
+{
+    foreach $n (1, 10, 100)
+    {
+
+	# homologous sequence fragments: generated from local profile
+	`$builddir/src/hmmemit -o $tmppfx.fa -N $n -L 0 -p --unilocal $profile`;
+	if ($? != 0) { die "FAIL: hmmemit"; }
+
+	&hmmalign_msa_integrity_check ("$tmppfx.fa", $profile);
+	&hmmsearch_msa_integrity_check("$tmppfx.fa", $profile);
+
+	# random sequences
+	`$builddir/easel/miniapps/esl-shuffle -G -N $n -L 50 --amino -o $tmppfx.fa`;
+	if ($? != 0) { die "FAIL: esl-shuffle"; }
+
+	&hmmalign_msa_integrity_check ("$tmppfx.fa", $profile);
+	&hmmsearch_msa_integrity_check("$tmppfx.fa", $profile);
+    }
+}
+
+
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink <$tmppfx.fa*>;
+unlink "$tmppfx.dtbl";
+exit 0;
+
+
+
+sub hmmalign_msa_integrity_check
+{
+    my ($fafile, $hmmfile) = @_;
+
+    `$builddir/src/hmmalign -o $tmppfx.sto $hmmfile $fafile > /dev/null 2>&1`;
+    if ($? != 0) { die "FAIL: hmmalign failed"; }
+    
+    `$builddir/easel/miniapps/esl-reformat -u fasta $tmppfx.sto > $tmppfx.fa1 2>/dev/null`;
+    if ($? != 0) { die "FAIL: first esl-reformat failed"; }
+    
+    `$builddir/easel/miniapps/esl-reformat -u fasta $fafile    > $tmppfx.fa2 2>/dev/null`;
+    if ($? != 0) { die "FAIL: second esl-reformat failed"; }
+
+    `diff -b $tmppfx.fa1 $tmppfx.fa2 > /dev/null 2>&1`;
+    if ($? != 0) { die "FAIL: alignment corrupted\n"; }
+    0;
+}
+
+
+sub hmmsearch_msa_integrity_check
+{
+    my ($fafile, $hmmfile) = @_;
+    my $i;
+
+    # need report = include threshold to have same hits in .sto, .domtbl
+    `$builddir/src/hmmsearch -E 0.01 --domE 0.01 -A $tmppfx.sto --domtbl $tmppfx.dtbl $hmmfile $fafile > /dev/null 2>&1`;
+    if ($? != 0) { die "FAIL: hmmsearch failed"; }
+
+    $nlines = `cat $tmppfx.dtbl | grep -v "^#" | wc -l`;
+    if ($nlines == 0) { return 0; }
+
+    `$builddir/easel/miniapps/esl-sfetch --index $fafile > /dev/null 2>&1`;
+    if ($? != 0) { die "FAIL: esl-sfetch --index failed"; }
+    
+    `cat $tmppfx.dtbl | grep -v "^#" | awk '{print \$1, \$18, \$19, \$1}' > $tmppfx.gdf`;
+    if ($? != 0) { die "FAIL: gdf table"; }
+
+    `$builddir/easel/miniapps/esl-sfetch -Cf $fafile $tmppfx.gdf > $tmppfx.fa3`;
+    if ($? != 0) { die "FAIL: esl-sfetch failed"; }
+
+    # Grep out name/desc lines because they'll differ: esl-sfetch adds descline.
+    `$builddir/easel/miniapps/esl-reformat -u fasta $tmppfx.sto | grep -v "^>" > $tmppfx.fa1 2>/dev/null`;
+    if ($? != 0) { die "FAIL: first esl-reformat failed"; }
+    
+    `$builddir/easel/miniapps/esl-reformat -u fasta $tmppfx.fa3 | grep -v "^>" > $tmppfx.fa2 2>/dev/null`;
+    if ($? != 0) { die "FAIL: second esl-reformat failed"; }
+
+    `diff -b $tmppfx.fa1 $tmppfx.fa2 > /dev/null 2>&1`;
+    if ($? != 0) { die "FAIL: alignment corrupted"; }
+
+    0;
+}
+
+
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i14-hmmemit-consensus.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i14-hmmemit-consensus.pl
new file mode 100755
index 0000000..bd3ddb2
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i14-hmmemit-consensus.pl
@@ -0,0 +1,82 @@
+#! /usr/bin/perl
+
+# Tests hmmemit -c and hmmemit -C consensus-generating options.
+#
+# Usage:   ./i14-hmmemit-consensus.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i14-hmmemit-consensus.pl ..         ..       tmpfoo
+#
+# SRE, Fri May 14 11:34:28 2010 [Janelia]
+# SVN $Id$
+
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmbuild")  { die "FAIL: didn't find hmmbuild binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmemit")   { die "FAIL: didn't find hmmemit binary in $builddir/src\n";  }
+
+# Create a carefully constructed test alignment
+#
+if (! open(ALI1, ">$tmppfx.sto")) { die "FAIL: couldn't open $tmppfx.sto for write\n";  }
+print ALI1 << "EOF";
+# STOCKHOLM 1.0
+
+seq0    ACDEFHIKLMNPQRST
+seq1    ACDEFHIKLMNPQRSK
+seq2    ACDEFHIKLMNPQRII
+seq3    ACDEFHIKLMNPQEHH
+seq4    ACDEFHIKLMN-CDGG
+seq5    ACDEFAIKLM--CDFF
+seq6    ACDEAAIKL---CCEE
+seq7    ACDAAAIK----ACDD
+seq8    ACAAAAI-----AACC
+seq9    AAAAAA------AAAA
+//
+EOF
+close ALI1;
+
+#      max c:             A   C   D   E   F   A   I   K   L   M   N   P   Q   R   S   A
+#      max p:           1.0 0.9 0.8 0.7 0.6 0.5 1.0 1.0 1.0 1.0 1.0 1.0 0.4 0.3 0.2 0.1
+# present if symfrac <= 1.0 1.0 1.0 1.0 1.0 1.0 0.9 0.8 0.7 0.6 0.5 0.4 1.0 1.0 1.0 1.0    
+#      upper if minu <= 1.0 0.9 0.8 0.7 0.6 0.5 1.0 1.0 1.0 1.0 1.0 1.0 0.4 0.3 0.2 0.1
+# else lower if minl <= 1.0 0.9 0.8 0.7 0.6 0.5 1.0 1.0 1.0 1.0 1.0 1.0 0.4 0.3 0.2 0.1
+# else x.
+#
+# So:
+#  symfrac minl minu =>  L     sequence
+#    0.0   0.0  0.0            ACDEFAIKLMNPQRSA 
+#    0.0   0.0  1.0            AcdefaIKLMNPqrsa
+#    0.0   1.0  1.0            AxxxxxIKLMNPxxxx
+#    0.0   0.5  0.8            ACDefaIKLMNPxxxx   But, p_6(A) comes back 0.499999, so it'll be x
+#    0.6   0.5  0.8            ACDefaIKLM  xxxx   (ditto)
+
+@symfrac_choices = ( 0.0, 0.0, 0.0, 0.0, 0.6 );
+@minl_choices    = ( 0.0, 0.0, 1.0, 0.5, 0.5 );
+@minu_choices    = ( 0.0, 1.0, 1.0, 0.8, 0.8 );
+@answers         = ( "ACDEFAIKLMNPQRSA\n", 
+		     "AcdefaIKLMNPqrsa\n",
+		     "AxxxxxIKLMNPxxxx\n",
+		     "ACDefxIKLMNPxxxx\n",
+		     "ACDefxIKLMxxxx\n");
+
+for ($i = 0; $i < $#symfrac_choices; $i++)
+{
+    @output = `$builddir/src/hmmbuild --wnone --pnone --symfrac $symfrac_choices[$i] $tmppfx.hmm $tmppfx.sto 2>&1`;
+    if ($? != 0) { die "FAIL: hmmbuild failed\n"; }
+
+    @output = `$builddir/src/hmmemit  -C --minl $minl_choices[$i] --minu $minu_choices[$i] $tmppfx.hmm 2>&1`;
+    if ($? != 0) { die "FAIL: hmmemit failed\n"; }
+
+    if ($output[1] ne $answers[$i]) { die "FAIL: hmmemit, expected $answers[$i]; saw $output[1]\n"; }
+}
+	
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.hmm";
+exit 0;
+
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i15-hmmconvert.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i15-hmmconvert.pl
new file mode 100755
index 0000000..0ef526f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i15-hmmconvert.pl
@@ -0,0 +1,168 @@
+#! /usr/bin/perl
+
+# Bug #h80: hmmconvert can't read H2 Nucleic files
+#
+# Usage:   ./i15-hmmconvert.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i15-hmmconvert.pl ..         ..       tmpfoo
+#
+# SRE, Tue May 18 13:32:40 2010 [Janelia]
+# SVN $Id$
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmconvert") { die "FAIL: didn't find hmmconvert binary in $builddir/src\n";  }
+
+# Create our test files (data embedded in script as functions: see end of file
+&h2_nt_file("$tmppfx.nt.hmm");
+&h2_aa_file("$tmppfx.aa.hmm");
+
+@output = `$builddir/src/hmmconvert $tmppfx.nt.hmm 2>&1`;
+if ($? != 0) { die "FAIL: hmmconvert of H2 nucleic model failed\n"; }
+
+@output = `$builddir/src/hmmconvert $tmppfx.aa.hmm 2>&1`;
+if ($? != 0) { die "FAIL: hmmconvert of H2 protein model failed\n"; }
+
+
+print "ok\n";
+unlink "$tmppfx.nt.hmm";
+unlink "$tmppfx.aa.hmm";
+exit 0;
+
+
+
+sub h2_nt_file
+{
+    my ($hmmfile) = @_;
+    open(HMMFILE, ">$hmmfile") || die "FAIL: couldn't write $hmmfile\n"; 
+    print HMMFILE <<"EOF";
+HMMER2.0  [2.3.2]
+NAME  ecori
+LENG  6
+ALPH  Nucleic
+RF    no
+CS    no
+MAP   yes
+COM   hmmbuild ecori.hmm testsuite/ecori.sto
+NSEQ  2
+DATE  Tue May 18 13:30:52 2010
+CKSUM 3108
+XT      -9967     -1  -1000  -1000  -9967     -1  -9967     -1 
+NULT      -1  -9967
+NULE       0      0      0      0 
+HMM        A      C      G      T    
+         m->m   m->i   m->d   i->m   i->i   d->m   d->d   b->m   m->e
+         -415      *  -2000
+     1   -585   -585   1000   -585     1
+     -      0      0      0      0 
+     -    -21  -6672  -7714   -894  -1115   -701  -1378   -415      * 
+     2   1000   -585   -585   -585     2
+     -      0      0      0      0 
+     -    -21  -6672  -7714   -894  -1115   -701  -1378      *      * 
+     3   1000   -585   -585   -585     3
+     -      0      0      0      0 
+     -    -21  -6672  -7714   -894  -1115   -701  -1378      *      * 
+     4   -585   -585   -585   1000     4
+     -      0      0      0      0 
+     -    -21  -6672  -7714   -894  -1115   -701  -1378      *      * 
+     5   -585   -585   -585   1000     5
+     -      0      0      0      0 
+     -    -21  -6672  -7714   -894  -1115   -701  -1378      *      * 
+     6   -585   1000   -585   -585     6
+     -      *      *      *      * 
+     -      *      *      *      *      *      *      *      *      0 
+//
+EOF
+    close HMMFILE;
+}
+
+sub h2_aa_file
+{
+    my ($hmmfile) = @_;
+    open(HMMFILE, ">$hmmfile") || die "FAIL: couldn't write $hmmfile\n"; 
+    print HMMFILE <<"EOF";
+HMMER2.0  [2.3.2]
+NAME  test
+LENG  20
+ALPH  Amino
+RF    yes
+CS    no
+MAP   yes
+COM   hmmbuild 20aa.hmm testsuite/20aa.sto
+NSEQ  10
+DATE  Tue May 18 13:38:05 2010
+CKSUM 9020
+XT      -8455     -4  -1000  -1000  -8455     -4  -8455     -4 
+NULT      -4  -8455
+NULE     595  -1558     85    338   -294    453  -1158    197    249    902  -1085   -142    -21   -313     45    531    201    384  -1998   -644 
+HMM        A      C      D      E      F      G      H      I      K      L      M      N      P      Q      R      S      T      V      W      Y    
+         m->m   m->i   m->d   i->m   i->i   d->m   d->d   b->m   m->e
+         -585      *  -1585
+     1   2806   -444  -1270  -1265  -1732   -744  -1182  -1034  -1212  -1545  -1010   -869  -1380  -1102  -1325   -156   -259   -640  -2039  -1721     1
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378   -585      * 
+     2   -608   5196  -2368  -2362  -1635  -1253  -1702   -987  -2034  -1540  -1191  -1745  -1831  -1953  -1922   -934   -927   -770  -1855  -1692     2
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     3  -1130  -2063   3441    243  -2502  -1157   -662  -2514   -843  -2578  -2029    -96  -1658   -421  -1434   -970  -1239  -2138  -2388  -1915     3
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     4   -988  -1921    379   3052  -2309  -1196   -495  -2108   -350  -2194  -1612   -103  -1621   -210   -770   -862  -1042  -1799  -2207  -1742     4
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     5  -1602  -1340  -2512  -2455   3740  -2315   -379   -478  -2225   -175   -190  -1874  -2503  -1781  -2079  -1892  -1647   -683    210   1257     5
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     6   -759  -1104  -1314  -1488  -2461   3330  -1563  -2503  -1721  -2645  -2082  -1325  -1776  -1591  -1791   -959  -1094  -1922  -2199  -2280     6
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     7  -1192  -1547   -812   -781   -520  -1557   4586  -1881   -457  -1789  -1357   -866  -1913   -669   -600  -1231  -1258  -1678   -918    -90     7
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     8  -1016   -805  -2637  -2367   -591  -2470  -1853   3039  -2040    329    346  -2180  -2589  -1943  -2070  -1879  -1051   1184  -1698  -1261     8
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+     9  -1028  -1686   -800   -442  -2171  -1521   -263  -1873   3103  -1859  -1251   -547  -1750     74    599  -1004   -972  -1620  -1812  -1528     9
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    10  -1369  -1199  -2542  -2295   -129  -2453  -1603    488  -1867   2607    742  -2168  -2539  -1724  -1835  -1992  -1384    130  -1284   -897    10
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    11   -965   -982  -2125  -1844   -276  -2022  -1302    373  -1390    610   4141  -1701  -2229  -1356  -1425  -1444  -1028    126  -1279   -880    11
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    12   -637  -1349     -5   -148  -1773  -1078   -624  -1965   -499  -2112  -1514   3456  -1574   -435   -810   -661   -818  -1560  -1900  -1327    12
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    13   -934  -1220  -1352  -1451  -2187  -1314  -1456  -2160  -1488  -2268  -1827  -1359   3760  -1471  -1571  -1129  -1216  -1780  -2050  -2023    13
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    14   -862  -1548   -321   -247  -1672  -1336   -419  -1721    130  -1660  -1161   -427  -1678   3540    -59   -855   -904  -1495  -1728  -1237    14
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    15  -1181  -1614  -1431   -903  -2066  -1632   -446  -1944    559  -1867  -1326   -899  -1873   -156   3432  -1225  -1148  -1717  -1746  -1529    15
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    16    116   -498   -840   -867  -1751   -671   -949  -1625   -916  -1896  -1218   -622  -1304   -824  -1097   2786   -220  -1038  -1992  -1530    16
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    17    -52   -555  -1173  -1112  -1571   -872  -1041   -862   -950  -1353   -866   -843  -1455   -937  -1084   -285   3069   -557  -1898  -1539    17
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    18   -700   -665  -2337  -2135   -873  -1965  -1727   1107  -1863   -105     22  -1851  -2286  -1794  -1920  -1368   -823   2927  -1816  -1362    18
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    19  -1926  -1577  -2416  -2370    192  -2070   -795  -1602  -1882  -1347  -1210  -2018  -2383  -1854  -1777  -2150  -1992  -1643   5696    560    19
+     x   -149   -500    233     43   -381    399    106   -626    210   -466   -720    275    394     45     96    359    117   -369   -294   -249 
+     -    -33  -6045  -7087   -894  -1115   -701  -1378      *      * 
+    20  -1667  -1473  -2001  -1964   1181  -2210    -25  -1224  -1658  -1018   -871  -1505  -2415  -1423  -1618  -1747  -1692  -1248    501   4149    20
+     x      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      *      * 
+     -      *      *      *      *      *      *      *      *      0 
+//
+EOF
+    close HMMFILE;
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i16-build-allins.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i16-build-allins.pl
new file mode 100755
index 0000000..89acf57
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i16-build-allins.pl
@@ -0,0 +1,46 @@
+#! /usr/bin/perl
+
+# Bug #h82: hmmbuild corrupts resave alignment on all-insert seq
+#
+# Usage:   ./i16-build-allins.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i16-build-allins.pl ..         ..       tmpfoo
+#
+# SRE, Sun Jun 13 12:09:54 2010 [UA231 IAD->SAN]
+# SVN $Id$
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmbuild") { die "FAIL: didn't find hmmconvert binary in $builddir/src\n";  }
+
+# Create the test file
+open(MSA, ">$tmppfx.sto") || die "FAIL: couldn't create $tmppfx.sto"; 
+print MSA << "EOF";
+# STOCKHOLM 1.0
+
+seq1     ACD...E
+seq2     FGH...I
+seq3     KLM...N
+seqx     ---pqr-
+#=GC RF  xxx...x
+//
+EOF
+close MSA;
+
+$output = `$builddir/src/hmmbuild -O $tmppfx.sto2 --hand $tmppfx.hmm $tmppfx.sto`;
+if ($? != 0) { die "FAIL: hmmbuild failed unexpectedly\n"; }
+
+$output = `grep "^seqx" $tmppfx.sto2`;
+if ($? != 0) { die "FAIL: grep failed unexpectedly\n"; }
+
+if ($output !~ /^seqx\s+~~~pqr~/) { die "FAIL: bug #h82\n"; }
+
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.sto2";
+unlink "$tmppfx.hmm";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i17-stdin.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i17-stdin.pl
new file mode 100755
index 0000000..ebeb2c3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i17-stdin.pl
@@ -0,0 +1,343 @@
+#! /usr/bin/perl
+
+# Test that programs accept and reject argument of '-' (for reading
+# data from stdin, rather than from files) as they're supposed to.
+#
+# Usage:   ./i17-stdin.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i17-stdin.pl ..         ..       tmpfoo
+#
+# SRE, Wed Oct 27 13:05:10 2010 [Janelia]
+# SVN $URL$
+# SVN $Id$
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+$verbose = 0;
+
+# The test makes use of the following files:
+#
+# $model1.hmm           <hmmfile>  Single RRM_1 model
+# $model2.hmm           <hmmfile>  Single Caudal_act model
+# $nmodel1.hmm          <hmmfile>  Single 3box model (DNA)
+# $nmodel2.hmm          <hmmfile>  Single PSE model (DNA)
+# $model1.sto           <msafile>  Single RRM_1 alignment
+# $model2.sto           <msafile>  Single Caudal_act alignment
+
+# It creates the following files:
+# $tmppfx.hmm           <hmmdb>    2 models, RRM_1 + Caudal_act
+# $tmppfx.nhmm          <hmmdb>    2 DNA models, 3box and PSE
+# $tmppfx.sto           <msadb>    2 MSAs, RRM_1 + Caudal_act
+# $tmppfx.hmm.h3{mifp}             hmmpress auxfiles for .hmm file
+# $tmppfx.fa1           <seqfile>  1 consensus seq  from RRM_1 model
+# $tmppfx.fa2           <seqfile>  2 consensus seqs, one from RRM_1 and one from Caudal_act
+# $tmppfx.fa10          <seqfile> 10 seqs from RRM_1 model
+# $tmppfx.db            <seqdb>   10 RRM_1 + 10 Caudal_act + 100 random seqs 
+# $tmppfx.ndb           <seqdb>   2 PSE + 2 3box + 6 random seqs
+# $tmppfx.key           <keyfile>  "Caudal_act" in a file, to test hmmfetch -f 
+#
+
+# All models assumed to be in testsuite subdirectory.
+$model1   = "RRM_1";
+$model2   = "Caudal_act";
+$nmodel1  = "3box";
+$nmodel2  = "PSE";
+
+@h3progs =  ("hmmalign", "hmmbuild", "hmmconvert", "hmmemit", "hmmfetch", "hmmpress", "hmmscan", "hmmsearch", "hmmstat", "jackhmmer", "nhmmer", "phmmer");
+@eslprogs = ("esl-shuffle");
+
+# Verify that we have all the executables and datafiles we need for the test.
+foreach $h3prog  (@h3progs) { if (! -x "$builddir/src/$h3prog")             { die "FAIL: didn't find $h3prog executable in $builddir/src\n";              } }
+foreach $eslprog (@eslrogs) { if (! -x "$builddir/easel/miniapps/$eslprog") { die "FAIL: didn't find $eslprog executable in $builddir/easel/miniapps\n";  } }
+
+if (! -r "$srcdir/testsuite/$model1.hmm")  { die "FAIL: can't read profile $model1.hmm in $srcdir/testsuite\n"; }
+if (! -r "$srcdir/testsuite/$model2.hmm")  { die "FAIL: can't read profile $model2.hmm in $srcdir/testsuite\n"; }
+if (! -r "$srcdir/testsuite/$nmodel1.hmm") { die "FAIL: can't read profile $nmodel1.hmm in $srcdir/testsuite\n"; }
+if (! -r "$srcdir/testsuite/$nmodel2.hmm") { die "FAIL: can't read profile $nmodel2.hmm in $srcdir/testsuite\n"; }
+
+if (! -r "$srcdir/testsuite/$model1.sto")  { die "FAIL: can't read msa $model1.sto in $srcdir/testsuite\n"; }
+if (! -r "$srcdir/testsuite/$model2.sto")  { die "FAIL: can't read msa $model2.sto in $srcdir/testsuite\n"; }
+if (! -r "$srcdir/testsuite/$nmodel1.sto") { die "FAIL: can't read msa $nmodel1.sto in $srcdir/testsuite\n"; }
+if (! -r "$srcdir/testsuite/$nmodel2.sto") { die "FAIL: can't read msa $nmodel2.sto in $srcdir/testsuite\n"; }
+
+
+`cat $srcdir/testsuite/$model1.hmm  $srcdir/testsuite/$model2.hmm  > $tmppfx.hmm`;  if ($?) { die "FAIL: cat\n"; }
+`cat $srcdir/testsuite/$nmodel1.hmm $srcdir/testsuite/$nmodel2.hmm > $tmppfx.nhmm`; if ($?) { die "FAIL: cat\n"; }
+`$builddir/src/hmmpress $tmppfx.hmm`;                                               if ($?) { die "FAIL: hmmpress\n"; }
+
+`cat $srcdir/testsuite/$model1.sto $srcdir/testsuite/$model2.sto > $tmppfx.sto`;    if ($?) { die "FAIL: cat\n"; }
+
+`$builddir/src/hmmemit -c $srcdir/testsuite/$model1.hmm > $tmppfx.fa1`;             if ($?) { die "FAIL: hmmemit -c\n"; }
+`cat $tmppfx.fa1 > $tmppfx.fa2`;                                                    if ($?) { die "FAIL: cat\n"; } 
+`$builddir/src/hmmemit -c $srcdir/testsuite/$model2.hmm >> $tmppfx.fa2`;            if ($?) { die "FAIL: hmmemit -c\n"; } 
+
+`$builddir/src/hmmemit -N10 $srcdir/testsuite/$model1.hmm > $tmppfx.fa10`;          if ($?) { die "FAIL: hmmemit\n"; }
+
+`$builddir/src/hmmemit -p -N10 $srcdir/testsuite/$model1.hmm > $tmppfx.db`;         if ($?) { die "FAIL: hmmemit\n"; }
+`$builddir/src/hmmemit -p -N10 $srcdir/testsuite/$model2.hmm >> $tmppfx.db`;        if ($?) { die "FAIL: hmmemit\n"; }
+`$builddir/easel/miniapps/esl-shuffle -G -N100 -L 400 --amino >> $tmppfx.db`;       if ($?) { die "FAIL: esl-shuffle\n"; }
+
+`$builddir/src/hmmemit -p -N2 -L2000 --glocal $srcdir/testsuite/$nmodel1.hmm >  $tmppfx.ndb`; if ($?) { die "FAIL: hmmemit\n"; }
+`$builddir/src/hmmemit -p -N2 -L2000 --glocal $srcdir/testsuite/$nmodel2.hmm >> $tmppfx.ndb`; if ($?) { die "FAIL: hmmemit\n"; }
+`$builddir/easel/miniapps/esl-shuffle -G -N6 -L 2000 --dna                   >> $tmppfx.ndb`; if ($?) { die "FAIL: esl-shuffle\n"; }
+
+`echo $model1    > $tmppfx.key`;                                                    if ($?) { die "FAIL: cat\n"; }
+`echo $model2   >> $tmppfx.key`;                                                    if ($?) { die "FAIL: cat\n"; }
+
+
+################################################################
+# hmmalign
+#   reject - - case
+################################################################
+
+$tag  = "hmmalign";    $prog = "$builddir/src/$tag";      
+$tag1 = "<hmmfile>";   $arg1 = "$srcdir/testsuite/$model1.hmm"; 
+$tag2 = "<seqfile>";   $arg2 = "$tmppfx.fa10"; 
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 $arg2         > $tmppfx.out1`;   if ($?) { die "FAIL: $tag $tag1 $tag2\n"; }
+`cat $arg1 | $prog - $arg2 > $tmppfx.out2`;   if ($?) { die "FAIL: $tag - $tag2\n"; }
+`cat $arg2 | $prog $arg1 - > $tmppfx.out3`;   if ($?) { die "FAIL: $tag $tag1 -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`; if ($?) { die "FAIL: $tag results differ if $tag1 comes through stdin\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out3 2>&1 > /dev/null`; if ($?) { die "FAIL: $tag results differ if $tag2 comes through stdin\n"; }
+
+$output = `cat $arg1 $arg2 | $prog - - 2>&1`;            
+if (!$?) { die "FAIL: $tag should fail on double - -\n"; }
+if ($output !~ /^\nERROR: Either <hmmfile> or <seqfile>/) { die "FAIL: $tag didn't give expected error message for the - - case.\n"; }
+
+
+################################################################
+# hmmbuild
+#    don't diff HMM files, they may fail because of DATE field
+#    reject - for <hmmfile>: can't send it to stdout.
+################################################################
+
+$tag  = "hmmbuild";       $prog = "$builddir/src/$tag";      
+$tag1 = "<msafile>";      $arg1 = "$tmppfx.sto";    
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $tmppfx.hmm.out1 $arg1                              | grep -v "^#" > $tmppfx.out1`;   if ($?) { die "FAIL: $tag <hmmfile> $tag1 \n"; }
+`cat $arg1 | $prog --informat stockholm $tmppfx.hmm.out2 - | grep -v "^#" > $tmppfx.out2`;   if ($?) { die "FAIL: $tag <hmmfile> -\n"; }
+`diff -b $tmppfx.out1     $tmppfx.out2     2>&1 > /dev/null`; if ($?) { die "FAIL: $tag results differ if $tag1 comes through stdin\n"; }
+
+$output = `$prog - $arg1`;
+if (!$?) { die "FAIL: $tag should reject - for <hmmfile_out>\n"; }
+
+################################################################
+# hmmconvert
+################################################################
+
+$tag  = "hmmconvert";     $prog = "$builddir/src/$tag";    
+$tag1 = "<hmmfile>";      $arg1 = "$tmppfx.hmm";    
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1         > $tmppfx.out1`;   if ($?) { die "FAIL: $tag $tag1\n"; }
+`cat $arg1 | $prog - > $tmppfx.out2`;   if ($?) { die "FAIL: $tag -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`; 
+if ($?) { die "FAIL: $tag results differ if $tag1 comes through stdin\n"; }
+
+################################################################
+# hmmemit
+#    need to pass fixed RNG seed to be able to diff outputs
+################################################################
+
+$tag  = "hmmemit";      $prog = "$builddir/src/$tag";   
+$tag1 = "<hmmfile>";    $arg1 = "$tmppfx.hmm";             
+if ($verbose) { print "$tag...\n"; }
+
+`$prog --seed 42 $arg1         > $tmppfx.out1`;   if ($?) { die "FAIL: $tag $tag1\n"; }
+`cat $arg1 | $prog --seed 42 - > $tmppfx.out2`;   if ($?) { die "FAIL: $tag -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`; 
+if ($?) { die "FAIL: $tag results differ if $tag1 comes through stdin\n"; }
+
+
+################################################################
+# hmmfetch 
+#    need to check all three use modes, including -f and --index
+#    --index rejects -
+#    w/ -f, only one of <hmmfile>, <keyfile> can be -
+#    -f fetches in different orders depending on whether file is
+#      indexed or not, so <keyfile> must be constructed to give
+#      same fetch order either way.
+################################################################
+
+$tag  = "hmmfetch";    $prog = "$builddir/src/$tag";   
+$tag1 = "<hmmfile>";   $arg1 = "$tmppfx.hmm";              
+$tag2 = "<keyfile>";   $arg2 = "$tmppfx.key";              
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 Caudal_act         > $tmppfx.out1`;          if ($?) { die "FAIL: $tag $tag1\n"; }
+`cat $arg1 | $prog - Caudal_act > $tmppfx.out2`;          if ($?) { die "FAIL: $tag -\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $tag results differ if $tag1 comes through stdin\n"; }
+
+`$prog -f $arg1 $arg2           > $tmppfx.out1`;          if ($?) { die "FAIL: $tag -f $tag1 $tag2\n"; }
+`cat $arg1 | $prog -f - $arg2   > $tmppfx.out2`;          if ($?) { die "FAIL: $tag -f - $tag2\n"; }
+`cat $arg2 | $prog -f $arg1 -   > $tmppfx.out3`;          if ($?) { die "FAIL: $tag -f $tag1 -\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $tag -f results differ if $tag1 comes through stdin\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out3 2>&1 > /dev/null`;  if ($?) { die "FAIL: $tag -f results differ if $tag2 comes through stdin\n"; }
+
+$output = `cat $arg1 $arg2 | $prog -f - - 2>&1`;
+if (! $?) { die "FAIL: $tag should have failed on double - -\n"; }
+if ($output !~ /^Either <hmmfile> or <keyfile>/) { die "FAIL: $tag didn't give expected error message for the - - case.\n"; }
+
+`$prog --index $arg1            > $tmppfx.out1`;   if ($?)   { die "FAIL: $tag --index $tag1\n"; }
+$output = `cat $arg1 | $prog --index - 2>&1`;      if (! $?) { die "FAIL: $tag should reject - for <hmmfile> when using --index\n"; }
+if ($output !~ /^Can't use - with --index/) { die "FAIL: $tag didn't give expected error message for the - - case.\n"; }
+
+################################################################
+# hmmpress
+#    rejects - argument.
+################################################################
+
+$tag  = "hmmpress";         $prog = "$builddir/src/$tag";   
+$tag1 = "<hmmfile>";        $arg1 = "$tmppfx.hmm";      
+if ($verbose) { print "$tag...\n"; }
+
+$output = `cat $arg1 | $prog - 2>&1`;        if (! $?) { die "FAIL: $tag should reject - for <hmmfile>\n"; }
+if ($output !~ /^\nError: Can't use - for <hmmfile>/) { die "FAIL: $tag didn't give expected error message.\n"; }
+
+#################################################################
+# hmmscan.
+#     rejects - for <hmmfile>, because it must be hmmpress'ed. 
+#################################################################
+
+$tag  = "hmmscan";         $prog = "$builddir/src/$tag";   
+$tag1 = "<hmmdb>";         $arg1 = "$tmppfx.hmm";      
+$tag2 = "<seqfile>";       $arg2 = "$tmppfx.fa2";      
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 $arg2         | grep -v "^#" > $tmppfx.out1`;   if ($?) { die "FAIL: $tag $tag1 $tag2\n"; }
+`cat $arg2 | $prog $arg1 - | grep -v "^#" > $tmppfx.out2`;   if ($?) { die "FAIL: $tag $tag1 -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`; 
+if ($?) { die "FAIL: $tag results differ if $arg2 comes from stdin\n"; }
+
+$output = `cat $arg1 | $prog - $arg2 2>&1`;
+if (! $?) { die "FAIL: $tag should reject - for $tag1\n"; }
+if ($output !~ /^hmmscan cannot read/) { die "FAIL: hmmscan didn't give expected error message\n"; }
+
+
+#################################################################
+# hmmsearch
+#      reject - - case 
+#      reject <seqdb> as - on multiquery
+#################################################################
+# note that the grep -v "^#" removes lines that would make diffs fail,
+# like query name and cpu time.
+
+$tag  = "hmmsearch";         $prog = "$builddir/src/$tag";   
+$tag1 = "<hmmfile>";         $arg1 = "$srcdir/testsuite/$model1.hmm";   $arg1b = "$tmppfx.hmm";   
+$tag2 = "<seqdb>";           $arg2 = "$tmppfx.db";      
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 $arg2          | grep -v "^#" > $tmppfx.out1`;  if ($?) { die "FAIL: $tag $tag1 $tag2\n"; }
+`cat $arg1 | $prog - $arg2  | grep -v "^#" > $tmppfx.out2`;  if ($?) { die "FAIL: $tag - $tag2\n"; }
+`cat $arg2 | $prog $arg1 -  | grep -v "^#" > $tmppfx.out3`;  if ($?) { die "FAIL: $tag $tag1 -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag1 comes through stdin\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out3 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag2 comes through stdin\n"; }
+
+$output = `cat $arg1 $arg2 | $prog - - 2>&1`;    if (! $?) { die "FAIL: $prog should have failed on double - -\n"; }
+if ($output !~ /^Either <hmmfile> or <seqdb>/) { die "FAIL: $prog didn't give expected error message for the - - case.\n"; }
+
+$output = `cat $arg2 | $prog $arg1b - 2>&1`;     if (! $?) { die "FAIL: $prog should fail on multiquery $tag1, stdin $tag2.\n"; }
+
+
+################################################################
+# hmmstat
+################################################################
+
+$tag  = "hmmstat";        $prog = "$builddir/src/$tag";    
+$tag1 = "<hmmfile>";      $arg1 = "$tmppfx.hmm";    
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1         > $tmppfx.out1`;                     if ($?) { die "FAIL: $tag $tag1\n"; }
+`cat $arg1 | $prog - > $tmppfx.out2`;                     if ($?) { die "FAIL: $tag -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $tag results differ if $tag1 comes through stdin\n"; }
+
+
+################################################################
+# jackhmmer
+#    <seqdb> can't be -, always needs to be rewindable
+################################################################
+
+$tag  = "jackhmmer";         $prog = "$builddir/src/$tag --enone -N2";   
+$tag1 = "<seqfile>";         $arg1 = "$tmppfx.fa1";      
+$tag2 = "<seqdb>";           $arg2 = "$tmppfx.db";      
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 $arg2          | grep -v "^#" > $tmppfx.out1`;  if ($?) { die "FAIL: $tag $tag1 $tag2\n"; }
+`cat $arg1 | $prog - $arg2  | grep -v "^#" > $tmppfx.out2`;  if ($?) { die "FAIL: $tag - $tag2\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag1 comes through stdin\n"; }
+
+$output = `cat $arg2 | $prog $arg1 - 2>&1`;           if (! $?) { die "FAIL: $prog should fail if <seqdb> is -\n"; }
+if ($output !~ /^jackhmmer cannot read <seqdb> from/) { die "FAIL: $prog didn't give expected error message\n"; }
+
+################################################################
+# nhmmer 
+#    (like hmmsearch, but with DNA models)
+#      reject - - case 
+#      reject <seqdb> as - on multiquery
+#################################################################
+
+$tag  = "nhmmer";            $prog = "$builddir/src/$tag";   
+$tag1 = "<hmmfile>";         $arg1 = "$srcdir/testsuite/$nmodel1.hmm";   $arg1b = "$tmppfx.nhmm";   
+$tag2 = "<seqdb>";           $arg2 = "$tmppfx.ndb";      
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 $arg2          | grep -v "^#" > $tmppfx.out1`;  if ($?) { die "FAIL: $tag $tag1 $tag2\n"; }
+`cat $arg1 | $prog - $arg2  | grep -v "^#" > $tmppfx.out2`;  if ($?) { die "FAIL: $tag - $tag2\n"; }
+`cat $arg2 | $prog $arg1 -  | grep -v "^#" > $tmppfx.out3`;  if ($?) { die "FAIL: $tag $tag1 -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag1 comes through stdin\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out3 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag2 comes through stdin\n"; }
+
+$output = `cat $arg1 $arg2 | $prog - - 2>&1`;    if (! $?) { die "FAIL: $prog should have failed on double - -\n"; }
+if ($output !~ /^Either <query hmmfile|alignfile> or <seqdb>/) { die "FAIL: $prog didn't give expected error message for the - - case.\n"; }
+
+$output = `cat $arg2 | $prog $arg1b - 2>&1`;     if (! $?) { die "FAIL: $prog should fail on multiquery $tag1, stdin $tag2.\n"; }
+
+################################################################
+# phmmer: just like testing hmmsearch, but with query sequences instead of profiles
+# first: single query.
+################################################################
+
+$tag  = "phmmer";            $prog = "$builddir/src/$tag";   
+$tag1 = "<seqfile>";         $arg1 = "$tmppfx.fa1";         $arg1b = "$tmppfx.fa2";
+$tag2 = "<seqdb>";           $arg2 = "$tmppfx.db";      
+if ($verbose) { print "$tag...\n"; }
+
+`$prog $arg1 $arg2          | grep -v "^#" > $tmppfx.out1`;  if ($?) { die "FAIL: $tag $tag1 $tag2\n"; }
+`cat $arg1 | $prog - $arg2  | grep -v "^#" > $tmppfx.out2`;  if ($?) { die "FAIL: $tag - $tag2\n"; }
+`cat $arg2 | $prog $arg1 -  | grep -v "^#" > $tmppfx.out3`;  if ($?) { die "FAIL: $tag $tag1 -\n"; }
+
+`diff -b $tmppfx.out1 $tmppfx.out2 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag1 comes through stdin\n"; }
+`diff -b $tmppfx.out1 $tmppfx.out3 2>&1 > /dev/null`;  if ($?) { die "FAIL: $prog results differ if $tag2 comes through stdin\n"; }
+
+$output = `cat $arg1 $arg2 | $prog - - 2>&1`;    if (! $?) { die "FAIL: $prog should have failed on double - -\n"; }
+if ($output !~ /^Either <seqfile> or <seqdb>/)   { die "FAIL: $prog didn't give expected error message for the - - case.\n"; }
+
+$output = `cat $arg2 | $prog $arg1b - 2>&1`;     if (! $?) { die "FAIL: $prog should fail on multiquery $tag1, stdin $tag2.\n"; }
+
+
+unlink <$tmppfx.out*>;
+unlink <$tmppfx.hmm*>;
+unlink "$tmppfx.nhmm";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.fa1";
+unlink "$tmppfx.fa2";
+unlink "$tmppfx.fa10";
+unlink "$tmppfx.db";
+unlink "$tmppfx.ndb";
+unlink "$tmppfx.key";
+
+print "ok\n";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i18-nhmmer-generic.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i18-nhmmer-generic.pl
new file mode 100755
index 0000000..b1f19b3
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i18-nhmmer-generic.pl
@@ -0,0 +1,134 @@
+#! /usr/bin/perl
+
+# Test of hmmbuild/nhmmer as used to build a DNA model, then query a  
+# a database of long (1MB).
+#
+# Usage:   ./i18-nhmmer-generic.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i18-nhmmer-generic.pl ..         ..       tmpfoo
+#
+# TJW, Fri Nov 12 11:07:31 EST 2010 [Janelia]
+# SVN $URL$
+# SVN $Id$
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+    $verbose   = shift;  # if arg not given, defaults to false (zero)
+}
+
+
+# The test makes use of the following file:
+#
+# 3box.sto              <msafile>  Single 3box alignment
+
+# It creates the following files:
+# $tmppfx.hmm           <hmm>     1 model, 3box
+# $tmppfx.A             <seqfile> 1 random seq, ~4.5MB in length
+# $tmppfx.B             <seqfile> 2 random seqs, generated by hmmemit from $tmppfx.hmm 
+# $tmppfx.fa            <seqdb>   Roughly 4.5MB of a single pseudochromosome, consisting of the two sequences from $tmppfx.B inserted into the sequence of $tmppfx.A  
+
+# All models assumed to be in testsuite subdirectory.
+$alignment   = "3box.sto";
+
+@h3progs =  ( "hmmemit", "hmmbuild", "nhmmer");
+@eslprogs =  ("esl-shuffle");
+
+# Verify that we have all the executables and datafiles we need for the test.
+foreach $h3prog  (@h3progs)  { if (! -x "$builddir/src/$h3prog")              { die "FAIL: didn't find $h3prog executable in $builddir/src\n";              } }
+foreach $eslprog (@eslprogs) { if (! -x "$builddir/easel/miniapps/$eslprog")  { die "FAIL: didn't find $eslprog executable in $builddir/easel/miniapps\n";  } }
+
+if (! -r "$srcdir/testsuite/$alignment")  { die "FAIL: can't read msa $alignment in $srcdir/testsuite\n"; }
+
+# Create the test hmm
+$cmd = "$builddir/src/hmmbuild $tmppfx.hmm $srcdir/testsuite/$alignment";
+$output = do_cmd($cmd);
+if ($? != 0) { die "FAIL: hmmbuild failed unexpectedly\n"; } 
+if ($output !~ /1     3box                    22    22    20    75    22.00  1.415/) {
+	die "FAIL: hmmbuild failed to build correctly\n";
+}
+$output = do_cmd( "grep MAXL $tmppfx.hmm" );
+if ($output !~ /MAXL  75/) {
+    die "FAIL: hmmbuild failed to build correctly\n";
+}
+
+
+# Create a roughly 4.5MB database against which to search
+$database   = "$tmppfx.fa";
+do_cmd ( "$builddir/easel/miniapps/esl-shuffle --seed 33 --dna -G -N 1 -L 4500000 -o $tmppfx.A" );
+do_cmd ( "$builddir/src/hmmemit -N 2 --seed 4 $tmppfx.hmm >  $tmppfx.B " );
+do_cmd ( "$builddir/src/hmmemit -N 1 --seed 3 $tmppfx.hmm >> $tmppfx.B" ); 
+do_cmd ( "head -n 33000 $tmppfx.A > $database" );
+do_cmd ( "head -n 2 $tmppfx.B | tail -n 1 >> $database" );
+do_cmd ( "tail -n +33001 $tmppfx.A | head -n 22000 >> $database");
+do_cmd ( "head -n 4 $tmppfx.B | tail -n 1 >> $database" );
+do_cmd ( "tail -n 20000 $tmppfx.A >> $database" );
+do_cmd ( "tail -n 1 $tmppfx.B >> $database" );
+
+# perform nhmmer search
+$cmd = "$builddir/src/nhmmer --tformat fasta $tmppfx.hmm $database";
+$output = do_cmd($cmd);
+
+if ($? != 0) { die "FAIL: nhmmer failed unexpectedly\n"; }
+$expect = 
+q[
+Target sequences:                            1  \(9000000 residues searched\)
+Residues passing SSV filter:            174275  \(0.0194\); expected \(0.02\)
+Residues passing bias filter:           145442  \(0.0162\); expected \(0.02\)
+Residues passing Vit filter:             18114  \(0.00201\); expected \(0.003\)
+Residues passing Fwd filter:               415  \(4.61e-05\); expected \(3e-05\)
+Total number of hits:                        5  \(9.78e-06\)];
+if ($output !~ /$expect/s) {
+    die "FAIL: nhmmer failed search test 1\n";
+}
+
+$expect =   q[
+       0.44   13.6   5.2  random   4499980 4499998\s+
+        1.6   11.9   4.2  random   3299961 3299978\s+
+        1.7   11.8   4.4  random   1979941 1979960\s+
+        8.2    9.7   2.3  random   2354832 2354818\s+
+        9.3    9.5   4.4  random   4019481 4019466]; 
+if ($output !~ /$expect/s) {
+    die "FAIL: nhmmer failed search test 2\n";
+}
+
+$cmd = "$builddir/src/nhmmer --tformat fasta --toponly $tmppfx.hmm $database";
+$output = do_cmd($cmd);
+if ($? != 0) { die "FAIL: nhmmer failed unexpectedly\n"; }
+$expect = 
+q[
+Target sequences:                            1  \(4500000 residues searched\)
+Residues passing SSV filter:             84389  \(0.0188\); expected \(0.02\)
+Residues passing bias filter:            70909  \(0.0158\); expected \(0.02\)
+Residues passing Vit filter:              8847  \(0.00197\); expected \(0.003\)
+Residues passing Fwd filter:               228  \(5.07e-05\); expected \(3e-05\)
+Total number of hits:                        3  \(1.27e-05\)];
+
+
+if ($output !~ /$expect/s) {
+    die "FAIL: nhmmer failed search test 3\n";
+}
+$expect = 
+     q[
+       0.22   13.6   5.2  random   4499980 4499998\s+
+       0.78   11.9   4.2  random   3299961 3299978\s+
+       0.85   11.8   4.4  random   1979941 1979960]; 
+
+if ($output !~ /$expect/s) {
+    die "FAIL: nhmmer failed search test 4\n";
+}
+
+print "ok.\n";
+unlink "$tmppfx.hmm";
+unlink "$tmppfx.A";
+unlink "$tmppfx.B";
+unlink "$tmppfx.fa";
+
+exit 0;
+
+
+sub do_cmd {
+    $cmd = shift;
+    print "$cmd\n" if $verbose;
+    return `$cmd`;	
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i19-hmmpgmd-ga.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i19-hmmpgmd-ga.pl
new file mode 100755
index 0000000..6f28894
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i19-hmmpgmd-ga.pl
@@ -0,0 +1,1425 @@
+#! /usr/bin/perl
+
+# Test that hmmpgmd is correctly applying bit score thresholds;
+# in this case, the --cut_ga threshold, using an example that
+# Rob Finn found as a bug in Jan 2011.
+# 
+# SRE, Sat Jan  8 09:29:18 2011 [Casa de Gatos] xref J7/50
+# SVN $URL$
+# SVN $Id$
+
+use IO::Socket;
+
+$SIG{INT} = \&catch_sigint;
+
+$builddir = shift;
+$srcdir   = shift;
+$tmppfx   = shift;
+
+$verbose = 0;
+$host    = "127.0.0.1";
+$cport   = 51373;               # ...don't want a test to interfere w/ running hmmpgmd daemon on same machine
+$wport   = 51374;		# nondefault worker and client ports...
+
+# This test creates its own small HMM database in $tmppfx.hmm
+# create_test_hmmdb() writes three specific models to a file.
+# Then we index that w/ hmmpress.
+
+# Verify that we have all the executables and datafiles we need for the test.
+@h3progs = ("hmmpgmd", "hmmc2", "hmmpress");
+foreach $h3prog  (@h3progs) { if (! -x "$builddir/src/$h3prog")             { die "FAIL: didn't find $h3prog executable in $builddir/src\n";              } }
+
+# Verify that threads are enabled in p7_config.h
+# by looking for "#define HMMER_THREADS"
+# if not found, threads are not enabled and this
+# test would fail, but we return ok status because
+# we don't want the full testsuite to fail.
+$have_threads = `cat $builddir/src/p7_config.h | grep "^#define HMMER_THREADS"`;
+if($have_threads eq "") { 
+    printf("HMMER_THREADS not defined in p7_config.h\n"); 
+    exit 0;
+}
+
+# Verify that the wport and cport are CLOSED - we don't want to
+# clobber existing hmmpgmd's (or other client-server programs on those
+# ports).
+if (IO::Socket::INET->new(PeerHost => $host, PeerPort => $wport, Proto     => 'tcp')) { die "FAIL: worker port $wport already in use"; }
+if (IO::Socket::INET->new(PeerHost => $host, PeerPort => $cport, Proto     => 'tcp')) { die "FAIL: client port $cport already in use"; }
+
+# create the files needed for the test
+&create_test_hmmdb("$tmppfx.hmm");
+&create_test_script("$tmppfx.in");
+`$builddir/src/hmmpress -f $tmppfx.hmm`;  if ($?) { die "FAIL: hmmpress"; }
+
+$daemon_active = 0;
+# start the hmmpgmd master and 1 worker with 1 core
+system("$builddir/src/hmmpgmd --master --wport $wport --cport $cport --hmmdb $tmppfx.hmm --pid $tmppfx.pid  > /dev/null 2>&1 &"); 
+if ($?) { die "FAIL: hmmpgmd master failed to start";  }
+$daemon_active = 1;
+sleep 2;  
+system("$builddir/src/hmmpgmd --worker 127.0.0.1 --wport $wport --cpu 1   > /dev/null 2>&1 &"); 
+if ($?) { die "FAIL: hmmpgmd worker failed to start";  }
+sleep 2;
+
+# Run the test script
+@output = `cat $tmppfx.in | $builddir/src/hmmc2 -i $host -p $cport -S 2>&1`;
+# Currently, hmmc2 returns nonzero exit code even upon clean !shutdown command... don't check $?
+$daemon_active = 0;
+
+
+$in_data = 0;
+$nhits   = 0;
+foreach $line (@output)
+{
+    if ($line =~ /^Scores for complete sequence/)          { $in_data = 1;       }
+    if ($line =~ /^Internal pipeline statistics summary:/) { $in_data = 0; last; }
+    if ($in_data && $line =~ /^\s+(\S+)\s+(\d+\.\d+)/)
+    {
+	$resultline[$nhits] = $line;
+	$bitscore[$nhits]   = $2;
+	$nhits++;
+    }
+}
+
+# if cut_ga isn't being processed properly, we get three hits:
+#   1.3e-43  134.8   1.6      4e-28   82.1   0.1    3.3  3  3  
+#     1e-05   13.9   0.8    0.00016    7.0   0.4    2.9  1  1        
+#   1.7e-05   12.3   0.1    0.00012    6.4   0.0    2.2  2  2        
+#
+# if we're ok, we get 1 hit:
+#   1.3e-43  134.8   1.6      4e-28   82.1   0.1    3.3  3  3  
+
+$expected_line = "    1.3e-43  134.8   1.6      4e-28   82.1   0.1    3.3  3  3";
+
+if ($nhits == 3) { die "FAIL: ga thresholds not applied?"; }
+if ($nhits != 1 && $resultline[0] ne $expected_line) { $daemon_active=1; tear_down(); die "FAIL: didn't get expected result line\nresult: $resultline[0]\nexpect: $expected_line"; }
+
+unlink <$tmppfx.hmm*>;
+unlink "$tmppfx.in";
+unlink "$tmppfx.pid";
+print "ok\n";
+exit 0;
+
+
+sub tear_down 
+{
+    if ($daemon_active) {
+        open PID, "<$tmppfx.pid";
+        my $pid = <PID>;
+        close PID;
+        `kill $pid`;
+
+        # the old way
+        #&create_kill_script("$tmppfx.in");
+        #`cat $tmppfx.in | $builddir/src/hmmc2 -i $host -p $cport -S 2>&1`;
+    }
+    unlink <$tmppfx.hmm*>;
+    unlink "$tmppfx.in";
+	
+}
+
+# TJW: Thu Mar 31 14:30:56 EDT 2011
+# Written to tear down the worker/master in the case of a sigint,
+# so a zombie won't be left behind
+sub catch_sigint  
+{
+    tear_down();
+    die "sigint signal captured; killed daemons\n";
+}
+
+sub create_kill_script
+{
+    my ($scriptfile) = @_;
+    open(SCRIPTFILE, ">$scriptfile") || die "FAIL: couldn't create the test script"; 
+    print SCRIPTFILE <<"EOF";
+\@--hmmdb 1 --cut_ga
+//
+!shutdown
+//
+EOF
+    close SCRIPTFILE;
+    1;
+}
+
+sub create_test_script
+{
+    my ($scriptfile) = @_;
+    open(SCRIPTFILE, ">$scriptfile") || die "FAIL: couldn't create the test script"; 
+    print SCRIPTFILE <<"EOF";
+\@--hmmdb 1 --cut_ga
+>2abl_A mol:protein length:163  ABL TYROSINE KINASE
+MGPSENDPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQ
+TKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLV
+RESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELV
+HHSTVADGLITTLHYPAPGEWCEAQTKNGQGWVPSNYITPVNSLEKHS
+WYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYELYVSSE
+SRFNTLAELVHHHSTVADGLITTLHYPAPZZMM
+//
+!shutdown
+//
+EOF
+    close SCRIPTFILE;
+    1;
+}
+
+
+
+
+sub create_test_hmmdb
+{
+    my ($hmmfile) = @_;
+    open(HMMFILE, ">$hmmfile") || die "FAIL: couldn't write $hmmfile\n"; 
+    print HMMFILE <<"EOF";
+HMMER3/d [3.0 | March 2010]
+NAME  MAGUK_N_PEST
+ACC   PF10608.2
+DESC  Polyubiquitination (PEST) N-terminal domain of MAGUK
+LENG  89
+ALPH  amino
+RF    no
+CS    no
+MAP   yes
+DATE  Tue Sep  8 00:51:02 2009
+NSEQ  14
+EFFN  2.102051
+CKSUM 3290727379
+GA    21.60 21.60
+TC    24.90 21.80
+NC    20.80 20.80
+STATS LOCAL MSV       -9.0718  0.71843
+STATS LOCAL VITERBI  -10.0323  0.71843
+STATS LOCAL FORWARD   -3.5788  0.71843
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.57879  4.51586  2.89379  2.48583  3.68314  2.91666  3.45448  3.09628  2.73326  2.74219  3.83636  2.91347  2.86338  2.97282  3.15048  2.43440  2.75462  2.68616  4.94375  3.33584
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.00000        *
+      1   2.78074  5.23263  3.03312  1.95212  4.56150  3.55097  2.89390  4.02873  2.03244  2.65513  4.28015  3.02685  3.94581  2.21412  2.92245  2.39983  3.01009  3.61524  5.66933  4.27959      1 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
+      2   3.02649  5.38580  3.29742  2.72254  4.78829  2.13828  3.82212  4.20618  1.28875  3.66188  4.45387  3.22058  4.12086  2.57735  2.29482  2.82735  3.23370  3.81671  5.75062  4.45095      2 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
+      3   3.63095  5.24738  4.25257  4.07406  3.05976  2.58877  4.30884  4.15864  4.09537  3.64061  4.75137  4.23604  4.78468  4.35536  4.29123  3.77060  3.99653  3.91533  4.68139  0.48706      3 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
+      4   2.88446  5.13644  3.22034  2.74347  4.67592  2.73233  3.92991  4.11564  2.57446  3.63836  4.43148  2.75099  4.07521  3.06208  1.26285  2.14538  3.16314  3.69765  5.78337  4.46098      4 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
+      5   2.76200  4.64429  3.41933  2.87127  3.79150  2.90455  2.90085  3.20220  2.84551  2.88422  3.75527  3.32791  3.17362  3.17367  3.24796  2.57085  2.99992  2.53913  5.19307  1.84325      5 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
+      6   2.85804  5.13265  3.13340  2.61674  4.19821  3.62787  2.63173  3.84413  2.54945  3.39445  4.20585  3.13665  2.74706  1.53814  2.97797  2.86181  3.08737  3.49706  5.46930  3.03541      6 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
+      7   3.09297  5.57713  1.09055  2.48789  4.99114  3.55027  4.03413  4.49597  2.95884  3.99245  4.79357  2.17007  4.12173  3.17897  3.51394  2.38850  2.71350  4.04508  6.14813  4.68492      7 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01416  4.66019  5.38254  0.61958  0.77255  0.48576  0.95510
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+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     71   3.30822  5.99082  1.09691  1.40682  5.28146  2.63887  4.09320  4.83906  3.16549  4.29238  5.14715  2.95960  4.15798  3.25995  3.81263  3.16277  3.60557  4.37202  6.43737  4.87699    133 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06916  4.54821  2.87819  0.61958  0.77255  0.67859  0.70792
+     72   2.19488  4.70251  3.29409  2.80205  4.21607  3.43666  2.99140  3.62968  2.79954  3.26359  4.08968  3.24010  3.95942  3.14332  3.22312  1.71360  1.80828  3.26372  5.51961  4.22293    134 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01671  4.49576  5.21811  0.61958  0.77255  0.61254  0.78082
+     73   2.31688  4.44324  4.11994  3.68993  3.69922  3.68819  4.43416  2.88989  3.57348  0.94063  3.66792  3.87164  4.25132  3.87355  3.79528  2.56811  3.13274  2.70756  5.28554  4.08080    135 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     74   2.94245  5.44969  1.51585  1.61573  4.75684  3.50537  3.85235  4.24299  2.70030  3.01761  4.52505  2.97044  3.02961  2.98027  3.22739  2.87926  3.19385  3.82282  5.89799  4.45824    136 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     75   2.46505  4.72153  3.29092  2.75753  4.08820  3.13446  3.89677  3.49049  2.75087  3.13351  3.96832  3.22057  2.93639  3.08717  3.18511  1.68242  2.18199  3.16731  5.41162  3.15396    137 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     76   2.27805  4.47830  3.51828  2.95358  3.62451  3.66871  3.23949  2.62199  2.91405  2.69594  3.58187  3.37785  2.77070  3.22464  3.28554  2.17030  2.94287  2.31826  5.05583  3.09699    138 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     77   2.06311  4.51395  3.59970  3.09648  3.94683  3.00282  4.10538  3.29870  3.06622  2.14525  3.88402  3.45215  1.67956  3.38273  3.43194  2.83072  2.68027  2.99978  5.35191  4.11041    139 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     78   2.78286  4.63290  3.49609  2.96984  3.72261  3.65518  3.94144  3.24659  2.82759  2.92315  3.80794  3.38691  4.08788  3.23150  2.72638  2.41543  2.57869  2.98870  5.14338  1.48553    140 - -
+          2.68626  4.42233  2.77528  2.73115  3.46362  2.40521  3.72503  3.29362  2.67749  2.69322  4.24698  2.90355  2.73748  3.18129  2.89809  2.37876  2.77500  2.98527  4.58485  3.61511
+          0.19387  2.15163  2.81446  0.95193  0.48775  0.67859  0.70792
+     79   3.31750  4.64704  5.08863  4.59863  3.73714  4.61230  5.22238  2.03044  4.44620  2.24534  2.68901  4.76376  4.95360  4.69725  4.60387  4.01293  3.59284  0.71915  5.69243  4.50216    144 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01678  4.49186  5.21420  0.61958  0.77255  0.75656  0.63351
+     80   3.40583  5.34465  3.28060  3.24874  4.82729  3.74326  4.63952  4.72797  3.63010  4.30502  5.28997  0.41104  4.44008  3.95076  3.97523  3.47116  3.82868  4.27893  6.05083  4.75985    145 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01678  4.49186  5.21420  0.61958  0.77255  0.75656  0.63351
+     81   3.60869  5.27876  4.40185  4.39452  5.44331  0.19882  5.42897  5.23905  4.65487  4.79162  5.80229  4.56938  4.68171  4.93102  4.78081  3.80412  4.13396  4.64771  6.33132  5.58035    146 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01678  4.49186  5.21420  0.61958  0.77255  0.60827  0.78590
+     82   2.64114  3.21539  3.95961  3.42978  3.72174  3.55521  4.22763  3.02960  3.34620  2.79293  2.85928  3.66480  4.09881  3.62591  3.62702  2.33112  1.24386  2.77110  5.19050  3.98380    147 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     83   3.38856  6.09057  1.23536  1.03935  5.36502  3.52756  4.14403  4.93945  3.25725  4.39071  5.27208  2.97600  4.19422  3.32008  3.92450  3.22784  3.69411  4.47164  6.52297  4.94998    148 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     84   1.63147  3.17342  4.13947  3.62214  3.70002  1.93409  4.32745  1.97472  3.53240  2.76103  3.68198  3.78149  4.13846  3.78232  3.76904  2.94178  2.99382  2.66546  5.19289  3.99786    149 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.67859  0.70792
+     85   2.79757  5.25450  1.89080  1.63721  4.56897  3.50656  3.74636  4.03887  2.51501  3.54464  3.10377  2.98075  3.93576  2.85997  2.66249  2.76155  3.03409  3.62927  5.70055  4.29676    150 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01585  4.54821  5.27056  0.61958  0.77255  0.55057  0.85949
+     86   2.80537  4.22316  4.47094  3.88116  1.98794  3.93671  4.19492  2.44557  3.72438  2.32226  2.93185  3.98891  3.32729  3.89808  3.82913  3.23711  3.03694  2.17983  4.73127  1.87386    151 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01514  4.59396  5.31631  0.61958  0.77255  0.60678  0.78768
+     87   2.92444  5.26597  2.92609  1.09959  3.46940  3.59076  3.84580  3.98277  2.19948  3.52581  4.34406  3.08652  4.04089  2.98632  3.03481  2.90343  3.16237  3.62357  5.68968  4.30416    152 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01514  4.59396  5.31631  0.61958  0.77255  0.60678  0.78768
+     88   4.53244  5.54175  5.35550  5.20741  1.29739  5.06867  2.73230  4.21103  5.00805  3.40951  4.73730  4.61626  5.33415  4.76197  4.88985  4.45907  4.72900  4.13395  3.87163  0.73574    153 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01514  4.59396  5.31631  0.61958  0.77255  0.41690  1.07612
+     89   2.87742  5.16741  3.07905  1.17839  4.44702  3.62194  3.83350  3.81820  2.25845  2.98910  4.23694  3.12899  4.03770  2.96765  2.98011  2.87863  3.10918  2.97220  5.63969  4.29056    154 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00955  4.65559        *  0.61958  0.77255  0.00000        *
+//
+HMMER3/d [3.0 | March 2010]
+NAME  AAT
+ACC   PF03417.9
+DESC  Acyl-coenzyme A:6-aminopenicillanic acid acyl-transferase
+LENG  225
+ALPH  amino
+RF    no
+CS    yes
+MAP   yes
+DATE  Mon Sep 21 18:03:58 2009
+NSEQ  18
+EFFN  4.249512
+CKSUM 3937056000
+GA    20.40 20.40
+TC    20.50 20.50
+NC    19.90 20.30
+STATS LOCAL MSV      -10.5003  0.70400
+STATS LOCAL VITERBI  -11.2820  0.70400
+STATS LOCAL FORWARD   -4.9012  0.70400
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.48325  4.16578  2.94753  2.70337  3.33333  2.86521  3.45160  2.89493  2.77543  2.51406  3.66218  2.88382  3.37273  3.06614  2.83877  2.62211  2.77345  2.76234  4.79471  3.46878
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.00000        *
+      1   3.01599  3.03950  4.88137  4.27265  3.12728  4.17432  4.50249  2.84015  4.07876  2.11866  3.52468  4.30387  4.53901  4.22851  3.12474  2.79010  2.59363  1.51650  2.18170  3.34969      1 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+      2   2.26298  5.39130  3.25555  2.50887  3.79173  3.75814  3.94920  4.16249  2.36013  2.56212  3.26902  2.16002  3.37474  2.33568  2.48348  2.95019  2.79054  3.76273  5.84578  4.45744      2 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+      3   2.72899  5.46090  3.22435  1.95102  4.79745  1.85575  3.93604  4.27711  2.67397  3.25964  4.50443  2.80253  3.04208  2.55987  2.71895  2.93802  2.38344  3.84709  5.89895  4.49355      3 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04455  5.20896  3.26735  0.61958  0.77255  0.48576  0.95510
+      4   2.97951  5.49194  2.58788  2.15434  4.83668  2.24324  3.93394  4.32298  1.68266  3.79633  4.53431  3.20390  2.53521  3.03206  2.54564  2.70420  3.21154  3.88273  5.92333  4.51118      4 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04033  5.17286  3.38552  0.61958  0.77255  0.60195  0.79351
+      5   3.22984  5.79537  1.49011  2.37947  5.12262  2.60068  4.13313  4.62797  2.35833  4.09400  4.85714  1.72011  4.29337  3.25103  3.49539  2.34279  3.47854  4.17953  6.22525  4.77234      5 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.13002  5.14126  2.15355  0.61958  0.77255  0.69072  0.69558
+      6   2.91552  2.22509  2.82372  2.80816  4.48888  1.53484  4.02268  3.91543  2.82264  3.50739  4.31149  2.92724  4.15144  3.17032  2.79677  2.95438  2.49884  3.55624  5.73483  4.39668      6 - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04539  5.02109  3.27597  0.61958  0.77255  0.95276  0.48723
+      7   2.15772  5.30349  2.55165  2.59617  4.61749  3.65766  3.84836  4.08177  2.01938  2.99072  4.35286  3.13856  3.23059  2.95586  2.31693  2.47579  2.73137  2.83692  5.75561  4.36463      7 - .
+          2.68642  4.42249  2.77543  2.73094  3.46296  2.40537  3.72375  3.29378  2.67765  2.69243  4.24714  2.90371  2.73763  3.18170  2.89789  2.37911  2.77488  2.98542  4.58501  3.61527
+          0.42627  1.06786  5.70825  0.56859  0.83546  0.25752  1.48265
+      8   2.62892  4.40075  4.97175  4.35784  2.59303  4.19195  4.52254  1.90369  4.14627  1.58991  3.51433  4.34887  4.55504  3.33673  4.15968  3.50273  3.25621  2.03444  3.57108  2.36036     12 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+      9   3.13726  4.50683  5.07860  4.46581  2.11410  4.31261  4.64086  1.82274  4.25859  1.39136  2.79312  4.46790  4.66028  2.98657  4.26998  3.62576  3.36770  2.24521  5.11260  3.21994     13 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     10   1.71556  4.60115  4.77256  4.20233  3.76984  1.47835  4.68904  2.09190  4.07174  2.26818  3.75124  4.35104  4.66935  4.28080  4.22325  3.58771  3.40438  2.06770  5.32734  4.13853     14 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     11   3.93436  6.08313  4.49100  3.62586  5.68478  4.50789  1.60456  4.95771  1.56505  4.27748  5.14351  3.98666  4.82116  2.15020  1.23635  3.89261  4.04690  4.62547  6.22697  5.12575     15 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     12   3.37002  5.38260  3.78575  3.74342  5.55943  3.93405  5.14239  5.10643  4.12788  4.75794  5.61235  0.44706  4.70599  4.39905  4.47746  3.49593  2.02447  4.47401  6.83672  5.53999     16 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     13   3.07303  5.06161  3.61124  1.41674  3.16281  3.94482  4.10370  3.64568  3.02771  3.28409  4.15089  3.53370  4.32959  3.36713  2.79060  2.72465  3.30369  3.37538  2.73142  2.02463     17 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     14   4.99900  6.81032  0.09270  4.06800  6.50724  4.79566  5.78312  6.51336  5.15008  5.86756  6.99853  4.64352  5.50432  5.11744  5.68527  4.91914  5.38634  6.05215  7.29223  6.36701     18 - E
+          2.68644  4.42251  2.77504  2.73110  3.46126  2.40511  3.72520  3.29380  2.67767  2.69348  4.24716  2.90268  2.73727  3.18172  2.89827  2.37913  2.77545  2.98544  4.58503  3.61529
+          0.30588  1.34374  5.93130  0.68555  0.70080  0.48576  0.95510
+     15   2.13806  4.46024  4.61444  4.02163  2.48241  2.83812  4.44672  2.90307  3.87932  2.01050  3.57659  2.37676  4.50792  4.07615  4.01451  3.43391  3.24977  2.40394  3.30358  2.16747     21 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     16   2.72683  5.29824  2.35632  2.74601  3.19024  3.07962  2.88076  4.01424  2.39858  2.42879  2.71758  3.27927  3.33258  3.09899  2.75051  2.48536  2.85696  3.65119  5.77465  4.40971     22 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     17   3.01172  4.94540  4.18395  3.71950  4.74895  2.81539  4.74986  3.02830  3.70456  3.82667  4.66391  3.97833  0.96017  4.00514  4.06499  1.90309  2.27492  3.72498  6.11179  4.87920     23 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     18   2.25297  5.45915  2.42335  1.70992  3.63244  3.17022  3.93277  4.27627  2.27189  3.22343  4.50198  2.75278  4.13810  3.03178  2.87624  2.61599  3.19923  2.93613  5.89676  4.49078     24 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     19   2.99795  4.67987  3.94111  3.37191  3.15803  3.99413  3.14236  2.30920  2.83081  2.36185  3.78508  3.75892  3.24842  2.46374  3.65599  2.90826  1.92161  2.19906  5.26683  4.03966     25 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     20   2.32977  5.04677  2.74498  2.55139  4.24968  3.84627  4.06111  3.64621  2.44607  1.86851  4.12835  3.41716  4.23434  3.24600  3.34913  2.63478  3.21404  2.56070  5.57530  2.26649     26 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     21   3.02876  5.54762  2.13260  2.03660  4.88878  2.77741  3.97930  4.37766  2.73182  3.85133  4.59185  2.27573  4.17682  2.32187  3.23110  1.89961  3.26300  3.93666  5.98007  3.33424     27 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     22   2.60330  5.44444  2.52097  2.67963  4.77325  2.59480  2.16915  4.24776  2.68521  3.74313  2.70298  2.09376  4.14588  3.04489  2.81120  2.53861  3.20574  3.82656  5.88785  4.48682     28 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     23   3.01422  2.92416  4.51915  3.92976  2.76909  4.12235  4.42670  2.92647  3.79823  1.71462  3.59537  4.11989  4.49168  4.01474  1.61746  2.86788  2.71367  2.73303  5.08927  2.91680     29 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     24   2.65211  4.42837  4.75259  4.15165  1.99646  4.15764  3.42261  2.38124  3.98335  2.42484  2.40672  4.24224  4.52365  4.15648  3.04547  3.45849  2.40236  2.67758  5.04499  2.01116     30 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     25   3.01593  3.00904  4.85533  3.27908  2.09102  4.17126  4.49809  2.46717  4.05986  1.53591  2.98184  4.29189  4.53615  2.95448  3.37816  3.47702  3.24808  2.28083  5.03036  3.01680     31 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     26   2.65248  4.40758  4.88735  4.27849  3.50081  4.17728  3.27587  2.27486  4.08392  1.59157  2.93994  4.30810  4.54174  4.23298  4.12559  2.68915  3.25028  1.50033  5.02838  3.09170     32 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     27   2.97855  5.11595  2.96417  2.86154  3.24044  3.82465  3.10515  3.74383  2.26745  3.36652  4.19181  3.37291  4.21350  2.81513  3.30740  2.53320  2.07558  1.84773  5.63085  3.21811     33 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     28   1.80875  3.76248  2.54412  2.44892  4.65815  3.07609  2.97373  3.05718  2.52005  3.06091  4.41361  3.25287  3.17002  2.48387  3.19681  2.95763  3.20166  3.15902  5.82224  4.44167     34 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     29   2.97145  3.89877  3.28434  2.38824  4.62189  3.77021  2.54010  4.06961  2.72608  3.61432  4.38974  2.48984  2.48063  3.08305  2.37749  2.25750  2.75392  2.86509  3.76407  4.42819     35 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.28751  5.20896  1.40893  0.61958  0.77255  0.48576  0.95510
+     30   2.87411  5.15992  3.18653  2.05596  4.42566  3.67297  3.88104  2.17504  2.66013  3.43112  4.22692  2.89275  2.29006  2.46190  3.13111  2.88417  2.39383  3.50697  5.64625  4.29073     36 - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.26489  4.93222  1.48944  0.61958  0.77255  0.84437  0.56182
+     31   3.19771  5.55126  1.07903  2.10543  4.79860  3.67010  4.11257  2.01709  3.05911  3.78918  4.66010  3.15495  4.22272  3.27877  3.59883  3.15222  3.46381  3.77088  6.06365  4.64024     37 - .
+          2.68685  4.42321  2.77442  2.73021  3.46450  2.40453  3.72456  3.29450  2.67604  2.69451  4.24786  2.90385  2.73737  3.18166  2.89897  2.37857  2.77616  2.98423  4.58573  3.61482
+          0.70871  0.68603  5.48577  1.72829  0.19551  0.18761  1.76575
+     32   2.51819  5.39771  3.25222  2.06369  4.70982  2.39798  3.08852  2.68511  2.47721  3.68915  4.44801  3.23953  2.68888  3.05775  3.18516  2.05790  2.91596  3.77069  5.85153  4.46173     50 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     33   2.48439  5.27095  3.35166  2.80108  4.54795  1.29237  3.01811  3.98018  2.77863  3.55438  4.35082  2.85336  4.20184  3.14650  2.64651  2.70815  3.23248  3.63025  3.57257  4.41632     51 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     34   4.85273  5.90644  5.92720  5.75659  1.00450  5.51469  2.19488  4.49677  5.53661  1.68261  5.05214  5.13663  5.78366  5.27448  5.38284  4.89719  5.05510  4.41362  4.41235  1.43592     52 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     35   1.47723  5.12566  3.41451  2.51204  4.35100  3.82212  4.03140  3.16514  2.54187  3.37914  3.09573  3.36891  3.07103  3.19408  3.30355  2.50231  2.20764  3.45049  5.64045  4.31775     53 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     36   2.65658  4.73772  3.84079  3.27445  2.07128  3.96635  3.00319  3.24140  3.23192  2.95093  3.84025  3.68911  4.34672  2.90493  3.59411  1.93974  2.04648  2.64451  5.31506  3.08553     54 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     37   2.35572  4.41324  4.95114  4.33973  2.60927  4.19933  4.53049  1.67665  4.13539  1.43136  3.52300  4.34653  4.56195  4.27443  4.15988  2.69497  3.26513  2.43305  5.03503  3.01287     55 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     38   2.63523  2.67678  2.88558  2.91862  4.26176  1.74299  4.06439  3.65906  2.44518  3.30057  4.13860  3.41838  4.23454  3.24780  3.35109  3.05711  2.12545  2.92259  5.58493  3.41027     56 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     39   3.01452  4.50650  4.42105  3.83661  2.50884  4.10690  4.40091  2.95713  3.05469  2.33021  3.11485  3.19737  2.66033  3.95324  3.92190  3.38948  3.24649  2.41374  5.10659  1.43764     57 - -
+          2.68595  4.42243  2.77492  2.73091  3.46372  2.40531  3.72513  3.29283  2.67759  2.69373  4.24708  2.90365  2.73758  3.18165  2.89819  2.37905  2.77485  2.98537  4.58495  3.61416
+          0.13812  2.06866  5.93130  1.01882  0.44788  0.48576  0.95510
+     40   1.59983  4.96806  3.62446  3.07129  3.18191  3.85566  4.17376  3.62658  3.05351  3.28903  4.13944  2.82935  2.15665  3.38581  3.47863  2.15690  2.38677  3.02036  5.59336  4.31045     61 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     41   2.59047  5.29456  3.33733  2.79401  4.63244  1.41498  4.02478  4.07498  2.79651  3.63284  3.60576  2.78713  4.19407  2.33869  3.27117  2.58804  2.34675  3.69788  5.83012  4.46723     62 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     42   2.62816  5.01721  3.50522  2.94474  4.21335  3.85737  2.53347  2.82712  2.92509  3.25610  2.33620  3.43912  4.24424  2.26562  2.36055  2.18571  3.21592  2.81428  5.55076  4.25385     63 - -
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+          2.68559  4.41971  2.77553  2.73113  3.46387  2.40469  3.72528  3.29387  2.67774  2.69388  4.24723  2.90380  2.73719  3.18096  2.89834  2.37883  2.77553  2.98483  4.58510  3.61536
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+     74   2.39439  2.28715  3.87888  3.31053  3.89882  3.97256  3.12774  2.12145  3.24019  2.97096  3.86106  3.71561  4.36156  3.56216  1.82009  2.30581  3.24397  3.03074  5.33619  4.10101    104 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     75   2.22081  4.62177  4.06530  3.49275  2.82534  2.65654  2.17065  2.69535  3.42738  2.82585  2.73307  2.95290  4.40232  2.99348  3.73041  3.28538  3.23357  2.88640  3.72880  2.64445    105 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     76   2.47168  4.45385  5.02611  4.41510  1.86388  4.25970  4.59589  2.23177  4.20840  1.95065  2.39861  4.41462  4.61679  4.34097  4.22534  3.57233  2.11779  2.06681  5.08675  3.91403    106 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     77   2.32674  4.75752  5.43860  4.85638  2.35463  4.72329  5.11306  1.39338  4.67799  1.65634  3.74517  4.88388  5.03717  4.80823  4.70653  4.05865  3.67882  1.56233  5.54528  4.38142    107 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     78   2.65990  4.79108  3.76569  3.20104  3.94324  2.80877  4.18892  2.01250  3.16098  2.49501  3.89297  3.63525  4.32653  2.86975  2.92067  2.87827  1.55843  3.07364  5.36507  4.11692    108 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     79   5.15141  6.56614  5.75064  5.19593  6.31131  5.15153  5.65024  6.13666  3.91117  5.40398  6.47475  5.42408  5.69240  4.92264  0.09008  5.26055  5.40033  5.81368  6.92436  6.14361    109 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     80   1.82355  4.42027  4.87423  4.26691  3.50687  4.18478  3.24748  2.38714  4.07709  1.38894  2.70415  4.30777  4.54829  4.22938  4.12642  3.49118  3.25971  2.33603  5.03899  2.67596    110 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     81   2.62628  4.85948  5.55126  4.97058  2.91037  4.85083  5.23784  1.75841  4.79766  1.05463  3.70828  5.01202  5.13924  4.90324  4.81947  4.19129  3.78982  1.57281  5.62592  4.48541    111 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     82   3.55620  5.10171  4.90660  4.32138  3.98771  4.51355  4.87970  3.26099  3.67116  0.51542  3.87539  4.52647  4.92743  4.26373  2.78148  3.89922  2.84383  3.23569  5.69616  4.55070    112 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     83   2.16060  5.74384  1.91054  1.23789  5.09277  2.98221  4.15448  4.58850  2.97518  4.06824  4.83143  3.30320  4.31226  3.27211  3.49763  3.16418  2.32487  4.14632  6.20727  4.76855    113 - H
+          2.68639  4.42246  2.77540  2.73144  3.46375  2.40533  3.72279  3.29375  2.67679  2.69376  4.24710  2.90293  2.73760  3.18167  2.89821  2.37907  2.77453  2.98539  4.58498  3.61524
+          0.54273  0.87662  5.93130  0.05763  2.88232  0.48576  0.95510
+     84   1.44242  1.27191  4.61686  4.11374  4.14519  3.90837  4.77445  3.50375  4.01576  3.24397  4.14263  4.20616  4.51245  4.24999  4.22857  2.49107  2.55381  3.22522  5.62444  2.97428    115 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     85   2.28363  5.47301  3.21961  2.11863  4.81570  3.00032  3.23013  4.29964  2.18053  3.77716  4.51454  3.21187  3.25154  3.02780  2.23922  2.18619  2.35669  3.86242  5.90712  4.49806    116 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     86   3.12644  5.60819  2.64899  2.73456  4.96640  3.80326  4.08594  4.45115  2.87327  3.94136  4.69944  1.75254  4.25572  2.74041  3.37825  1.53541  1.94617  4.01755  6.08469  4.66621    117 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     88   3.01409  5.52486  1.98002  1.51327  4.86492  3.75948  3.96846  4.35129  2.71744  3.82826  4.56918  2.75481  4.16777  2.52810  3.21459  2.29772  2.75835  2.96563  5.95916  4.54452    119 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     89   2.68904  5.80946  1.57313  1.49275  5.13791  3.83969  4.16179  4.64011  2.98688  4.10933  4.87186  3.29741  4.32446  1.77618  3.51379  3.18520  2.92224  4.19439  6.24210  4.79375    120 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     91   2.53273  4.44247  4.68940  4.09206  2.76404  4.15091  4.46783  1.75860  2.61874  2.37389  3.55880  4.21191  4.51749  2.97087  4.04572  3.44856  3.24853  1.61840  5.05977  2.87906    122 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     92   2.43171  5.48034  2.58047  1.98171  4.82599  3.74174  3.41008  4.31223  2.07981  2.91212  4.52092  2.86576  4.13539  2.60166  2.08680  2.53281  3.19977  3.87131  5.91253  4.50142    123 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     93   2.04303  4.41749  4.85807  4.25152  2.69021  4.17879  4.50586  1.86149  3.34844  1.84830  3.02150  4.29779  4.54311  4.21955  2.78251  3.48460  3.25495  1.91304  5.03895  3.86014    124 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     94   2.27412  3.19611  5.19633  4.59000  2.34316  4.43910  4.78003  1.94373  4.38868  1.04437  3.55400  4.59822  4.77629  4.50354  4.40081  3.75806  3.47524  2.66325  5.23374  4.07487    125 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     95   2.97132  3.72400  2.71686  2.28918  4.82190  3.74473  3.93114  4.30636  1.82252  3.78205  4.51888  2.47123  4.13822  2.05298  2.21324  2.93421  3.20227  2.96960  5.91039  4.50122    126 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     96   2.99858  5.50440  2.11566  1.34758  4.84595  3.75621  3.95406  3.28188  2.15562  3.80738  4.54750  3.22386  4.15775  3.05323  2.78124  2.39599  3.23069  3.89343  5.93745  4.52683    127 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+     97   2.49972  4.71239  3.88379  2.77463  3.84834  3.97917  2.07420  1.94229  3.26870  2.09373  3.81591  3.71965  4.35844  2.78553  3.61957  2.81261  3.22932  2.45086  5.29515  4.06196    128 - H
+          2.68549  4.42251  2.77545  2.73149  3.46379  2.40396  3.72520  3.29380  2.67766  2.69380  4.24715  2.90372  2.73765  3.18172  2.89826  2.37912  2.77545  2.98417  4.58503  3.61529
+          0.14474  2.02418  5.93130  1.27654  0.32712  0.48576  0.95510
+     98   2.07116  5.15772  2.78774  3.12016  3.09695  2.76876  4.34726  4.04453  3.23134  3.67797  4.50909  3.58564  1.04100  3.53664  3.68049  3.16628  3.39587  3.68674  5.93657  4.62388    133 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+     99   2.55590  5.28903  2.33310  2.75748  4.56198  2.92220  2.20004  2.63371  2.75335  3.56334  4.35134  3.28909  4.17636  3.10990  1.86527  2.98292  3.20925  3.06540  5.76915  4.40803    134 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    100   1.49434  2.72537  3.66732  3.10514  4.09492  2.57429  4.15940  3.47234  3.05906  3.15158  2.56573  3.56324  4.30097  2.77569  2.43453  3.13834  3.23916  3.21347  5.47837  4.21165    135 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    101   1.52402  2.57816  3.90068  3.33667  3.88291  2.80744  3.50501  3.24614  3.29011  2.59773  3.85035  3.73320  4.36317  3.59138  3.64156  1.88182  3.23943  3.01678  5.32765  3.44689    136 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    102   2.05004  3.65387  3.52753  2.98406  4.70547  1.66673  4.18532  4.14473  2.97712  3.72244  4.50996  2.65783  4.25511  3.32585  2.74647  1.74573  2.90346  3.73864  5.92936  4.59100    137 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    103   3.00944  4.57306  4.20442  3.62758  1.88769  4.06164  4.34065  1.55589  3.53966  2.77292  3.68405  3.93349  3.18063  2.68348  3.03237  2.65452  3.24129  2.83334  5.16910  3.27183    138 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    104   1.76392  5.22609  3.41649  2.89684  4.59770  3.79980  2.45411  4.02944  2.90796  3.61693  4.41759  1.58838  4.24316  3.25694  3.37062  2.24150  3.27310  2.88642  5.83739  4.49476    139 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+    137   3.12672  2.22371  3.54737  2.97935  4.59473  3.92115  1.38010  4.01295  2.77051  3.59319  4.41333  3.47434  4.32011  2.29525  2.69808  2.52646  3.35753  3.68425  5.79780  4.48919    180 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    138   1.94625  4.87173  5.07649  4.72160  4.74148  3.94592  5.37204  3.50303  4.61589  3.69055  4.67089  4.55021  4.68852  4.82864  4.76559  3.40188  0.73883  1.75862  6.28434  5.12410    181 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    139   4.57767  6.31481  4.45393  4.50533  5.98643  4.73699  5.87959  6.17767  5.04901  5.62631  6.69092  0.10433  5.46569  5.30054  5.32452  4.67395  5.05346  5.62914  7.02548  5.95271    182 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    140   3.61764  5.80039  3.44498  3.24157  4.94964  4.10788  0.60034  4.79840  3.13735  4.28663  5.16412  3.72773  4.67114  2.62986  3.44458  2.58142  3.91128  4.40655  6.19166  4.76563    183 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.05211  5.20896  3.09432  0.61958  0.77255  0.48576  0.95510
+    141   1.97920  3.01491  4.74165  4.14581  1.74987  4.14685  4.45608  2.87068  3.97908  2.35498  3.55090  4.23223  4.51783  4.15096  4.06826  2.34547  3.24732  2.68204  5.01036  2.12045    184 - -
+          2.68680  4.41897  2.77574  2.73269  3.46500  2.40469  3.72640  3.29500  2.67803  2.69367  4.24041  2.90181  2.73709  3.18018  2.89946  2.37971  2.77665  2.98326  4.58065  3.61015
+          0.36674  1.65655  2.15232  2.64538  0.07362  0.62397  0.76746
+    142   2.46863  4.77872  2.09418  3.04221  3.94250  3.84535  4.08174  2.78588  3.01536  2.18533  3.87432  3.49887  4.22905  2.40486  3.41730  3.07500  2.74248  2.00724  5.34691  4.08489    210 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00962  5.04496  5.76731  0.61958  0.77255  0.90816  0.51628
+    143   2.90114  5.39487  2.64103  2.33526  4.73277  3.67396  2.45069  2.63651  2.60109  3.69677  4.43774  2.28014  4.06888  2.68721  2.21133  2.39375  3.13243  3.78172  5.83133  4.42471    211 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00962  5.04496  5.76731  0.61958  0.77255  0.42980  1.05165
+    144   2.94904  5.42250  2.75552  1.92241  4.75214  3.72814  2.97689  3.11467  2.65837  2.90238  4.46729  3.20170  2.92625  2.44415  3.14851  1.96601  2.68435  3.80483  5.86450  4.46295    212 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16537  5.88772  0.61958  0.77255  0.62397  0.76746
+    145   2.94764  5.45125  2.85285  2.46031  4.79337  2.60840  3.90981  3.66107  2.35363  3.34276  4.49270  2.90466  2.72434  2.62268  2.61636  2.17775  2.15460  3.84030  5.88569  4.47654    213 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16537  5.88772  0.61958  0.77255  0.62397  0.76746
+    146   2.99232  4.40267  4.74493  4.14309  2.83779  4.13705  4.45887  1.67913  3.29839  1.67784  2.57408  4.22712  3.52845  2.97991  4.05443  2.92058  3.22444  2.23899  5.02094  3.83965    214 - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16537  5.88772  0.61958  0.77255  0.62397  0.76746
+    147   2.94783  5.45831  2.65058  1.94337  4.80334  3.72138  3.29851  4.28925  2.35185  2.64920  4.49901  2.87149  3.05989  2.50308  2.46122  2.65918  2.37193  3.84894  5.89097  4.48008    215 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16537  5.88772  0.61958  0.77255  0.62397  0.76746
+    148   2.08482  5.49571  2.41959  2.01544  4.84004  3.73248  3.11871  4.32800  2.08722  3.80048  4.53786  2.11108  4.13582  2.33814  3.17102  2.93768  3.21142  3.88620  5.92728  4.51257    216 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00852  5.16537  5.88772  0.61958  0.77255  0.62397  0.76746
+    149   2.28532  5.21802  2.81322  2.15173  4.47457  2.99043  3.97111  3.23955  2.10930  2.75272  4.28318  3.28644  4.16199  2.80307  3.22631  2.97064  3.18476  2.81745  2.84701  3.37406    217 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.05595  5.16537  3.02201  0.61958  0.77255  0.62397  0.76746
+    150   2.52096  5.45509  3.16110  2.04826  4.79847  3.12544  3.90337  4.28423  2.34004  3.75971  4.49763  1.72429  3.32391  2.24865  3.13633  2.44611  3.17757  3.84512  5.88852  4.47666    218 - -
+          2.68628  4.42271  2.77526  2.73044  3.46400  2.40559  3.72541  3.29400  2.67704  2.69244  4.24736  2.90289  2.73698  3.18193  2.89847  2.37872  2.77566  2.98565  4.58523  3.61549
+          0.20459  1.70312  5.84070  1.62637  0.21895  0.35062  1.21825
+    151   2.60162  5.43286  2.68060  2.68052  4.75881  2.92621  3.93919  3.26467  2.41843  2.91062  4.47862  2.63773  4.14318  2.03620  2.21230  2.94059  3.20024  3.81319  5.87707  2.75060    225 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    152   2.97595  5.24845  2.97369  2.77708  4.50768  3.79160  3.99035  2.86610  2.77065  2.40498  4.31291  1.94112  4.18239  2.46454  2.16081  2.99094  2.70022  3.59214  5.73581  3.03974    226 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    153   2.62850  4.54480  4.26909  3.68991  2.45879  4.07266  3.45324  2.17609  2.75745  2.43348  2.82997  3.97299  3.07191  2.60242  3.28639  3.34568  3.23795  2.28013  5.14915  2.79461    227 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    154   2.62931  4.45241  4.68001  4.08553  3.55221  2.32031  4.47450  1.93100  3.93228  1.83374  3.57032  4.21098  4.52137  4.12056  4.04797  3.45023  2.07665  2.69150  5.07298  2.21885    228 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    155   2.98364  5.48120  2.06942  1.90534  4.81975  3.75027  3.94447  4.30190  2.52513  3.78365  4.52456  3.21964  2.33951  3.04380  2.60502  2.24290  3.21548  2.60105  5.91740  4.50893    229 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    156   2.98624  5.48160  2.24376  2.23314  3.68958  3.75118  3.94774  4.30052  2.69042  3.78387  4.52574  3.22102  3.32157  2.01496  3.18374  1.60996  2.74686  3.86832  5.91909  4.51061    230 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    157   2.01820  5.15386  2.88403  3.53593  5.27071  3.78087  4.79911  4.73265  3.71998  4.33722  5.11876  3.87780  4.47618  3.98892  4.14571  0.63416  2.68083  4.14115  6.52317  5.23475    231 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    158   2.98517  4.93760  3.57647  2.70834  4.11590  3.88171  4.10610  2.37370  2.59217  2.70032  3.41929  3.49405  2.66282  2.43222  2.63609  2.71575  2.60637  2.79369  3.31196  3.53508    232 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    159   2.55871  5.44792  3.23272  1.99208  2.61942  3.75065  3.27207  4.25452  1.96514  3.74675  4.49262  2.90038  4.14418  3.04038  2.88895  1.78136  3.20391  3.83110  5.88859  4.48722    233 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    160   3.74427  5.69052  4.65074  4.06821  5.65132  4.31790  4.72635  5.11866  2.95117  4.54044  5.43180  4.29033  4.89449  3.89601  0.38790  2.35641  4.08888  4.64811  6.47244  5.36715    234 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    161   3.01838  4.46932  4.57891  3.98773  2.41241  4.13564  2.64374  2.91279  3.85095  1.54448  2.33661  3.35272  4.50354  2.81480  3.99826  3.42728  3.25039  2.41917  5.07175  2.85276    235 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    162   2.29023  5.46772  3.22210  1.63799  4.80814  3.24661  2.96977  4.29052  2.30798  2.86546  3.59132  2.71884  4.13759  2.37943  2.80193  2.93344  3.20000  3.85588  5.90299  4.49533    236 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    163   2.77661  5.25985  3.43851  2.86738  4.51842  3.85708  2.89233  3.93294  2.26103  2.74812  4.32921  3.38076  4.24303  3.17539  1.39069  3.06803  2.28032  2.95840  5.73991  4.41387    237 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    164   3.01856  4.39951  4.94106  4.32860  2.30120  3.30054  4.51487  2.05817  4.12260  1.96990  2.29526  4.33239  4.54742  3.28167  4.14530  3.49313  2.94858  2.18393  5.02045  2.23198    238 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    165   2.50864  5.47470  2.84088  2.13465  4.81825  2.94119  2.96992  3.30181  2.18164  3.77930  4.51577  3.21001  4.13542  1.89310  2.67920  2.69782  3.19886  3.86452  5.90825  3.36086    239 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    166   2.31390  5.46457  2.75702  2.13927  2.66952  3.74370  3.35655  4.28565  2.30918  3.76735  3.38848  2.48309  4.13709  2.29574  3.16027  2.54026  2.79158  3.85206  5.90077  4.49336    240 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    167   3.01794  4.83065  3.76561  3.19452  3.98265  3.95550  2.98827  2.86452  2.85160  1.28824  3.92845  3.18717  4.33576  2.81651  2.87940  3.19298  3.24751  3.11519  5.39175  2.50818    241 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    168   2.48917  4.74526  3.82628  2.75919  3.88677  3.96210  4.21118  2.34042  3.21906  1.52964  3.18648  2.32310  4.34249  3.10560  3.58462  2.89445  2.72881  3.02109  5.32324  4.08337    242 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    169   2.24585  5.47841  2.30682  2.66223  4.82258  3.74262  2.63013  4.30793  2.20965  3.78330  4.51953  2.48079  2.58800  3.02743  2.77379  2.27192  2.94789  3.86861  5.91163  4.50113    243 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    170   2.64214  5.48365  2.58330  2.10064  4.82926  2.56514  3.27401  4.31581  2.48960  3.78910  4.52433  3.20951  2.44209  2.03900  2.60060  2.69870  3.20235  3.87461  5.91582  4.50419    244 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    171   2.65348  2.62159  4.27408  3.69473  2.80514  3.32738  3.15820  3.00256  2.26733  2.44014  2.82911  2.89331  4.44612  3.85362  3.84613  3.02518  3.23803  2.56772  3.62886  2.53766    245 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    172   2.60011  5.32814  2.68643  2.02742  3.62401  3.77114  3.96564  3.19068  2.72871  2.94867  4.38475  3.26623  3.17035  2.74667  2.83061  2.51305  2.48995  3.68681  5.79768  2.45544    246 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    173   2.34523  5.47377  2.35940  2.31425  4.81558  2.91688  3.93270  4.29938  2.66957  3.77782  4.51572  2.71726  3.37593  2.52483  3.16214  1.83653  2.79256  2.97426  5.90868  4.49939    247 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    174   1.99466  5.43255  3.23612  2.24686  4.75840  3.74995  3.08724  4.23100  2.52320  3.72959  3.77290  2.38299  2.68631  2.56456  3.17091  2.94038  2.35520  2.92133  5.87690  4.47790    248 - B
+          2.68670  4.42277  2.77540  2.73136  3.46335  2.40492  3.72547  3.29253  2.67708  2.69332  4.24742  2.90358  2.73761  3.18150  2.89853  2.37939  2.77435  2.98419  4.58529  3.61555
+          0.93768  0.88840  1.62377  0.91394  0.51239  0.48576  0.95510
+    175   2.56937  3.50835  2.88123  1.80415  4.65268  3.65569  3.84530  3.31182  2.37138  3.62557  4.37634  2.66376  4.04870  2.67276  3.07807  2.02868  2.85337  3.70845  5.77596  3.57526    252 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01013  4.99267  5.71501  0.61958  0.77255  0.46253  0.99340
+    176   2.47187  5.42913  2.11006  1.89422  4.76656  3.08703  3.90083  2.97947  2.63874  3.73115  3.44166  2.34752  4.10615  2.70436  2.77254  2.90226  2.91711  3.81567  5.86638  4.45997    253 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00875  5.13868  5.86103  0.61958  0.77255  0.37302  1.16685
+    177   1.77965  4.46780  4.55675  3.07219  2.36843  4.12776  4.43648  2.54770  3.83296  2.39756  3.05824  4.14057  3.42880  4.03945  3.98649  2.37953  3.24439  1.82679  5.08182  3.89330    254 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    178   2.46995  4.41125  4.86098  3.10419  2.14786  4.17348  4.50064  1.68878  4.06452  2.12638  2.88133  4.29550  4.53819  4.21824  2.98485  3.47947  3.24955  2.06541  5.03141  3.27855    255 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    179   2.43441  5.49549  2.76520  1.69732  4.84309  3.75287  3.01458  4.32807  1.82052  3.79976  4.53653  3.21990  4.14787  2.55590  2.17718  2.94648  3.21582  3.88771  5.92445  4.51577    256 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    180   3.00118  4.64653  3.11215  3.44131  3.77188  4.01367  4.27952  1.90777  2.87709  1.68409  2.25813  3.80781  4.39053  3.12194  3.69807  2.61058  2.81705  2.91241  5.23823  4.01771    257 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    181   3.30004  4.66419  5.17006  4.57558  2.13966  4.46194  4.68060  2.95216  4.37714  0.83889  3.07672  4.58163  4.79523  4.48173  4.39576  2.84694  3.52869  2.86086  3.05621  3.80266    258 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    182   2.46726  5.46632  3.22391  2.46937  4.80607  2.94097  3.93296  4.28760  1.97847  3.18696  4.50883  2.16623  4.13908  3.03130  2.39246  1.99758  2.80244  3.85420  5.90220  4.49540    259 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    183   3.83258  6.54722  0.53839  2.83654  5.84439  2.93747  4.59556  5.41599  2.54754  4.85364  5.72345  2.58714  4.65212  3.76703  4.33994  3.67449  4.13749  4.93619  6.99465  5.41288    260 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    184   2.98058  2.79355  3.46809  2.44968  4.25995  3.16344  4.05598  2.98587  2.56720  2.46762  4.13537  3.41046  3.24535  2.83955  2.24887  2.74079  2.91359  2.33973  5.58136  4.27496    261 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    185   2.96991  5.38240  2.49527  2.13777  3.53144  3.75970  2.77758  4.14801  2.70335  3.01115  4.43350  2.81859  4.15219  2.65508  3.18868  2.50621  2.36615  2.89327  5.83909  2.74244    262 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    186   2.50918  5.47294  1.98649  2.28893  4.81397  2.38915  3.93312  4.29736  2.48541  3.14942  4.51481  2.14417  4.13858  3.03092  2.88716  2.66292  3.20238  3.86144  5.90791  3.36651    263 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.23548  5.20896  1.58797  0.61958  0.77255  0.48576  0.95510
+    187   2.27407  5.18489  3.20939  2.02140  3.35895  2.13316  3.87889  3.89445  2.65179  3.45917  4.24687  3.18573  3.33210  3.00657  2.71365  2.40710  3.10484  3.53615  5.66525  3.04103    264 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01023  4.98370  5.70605  0.61958  0.77255  0.39976  1.11012
+    188   2.98238  4.78995  3.72879  2.01960  3.94976  3.92547  4.17458  2.43219  3.13782  2.68369  3.89284  3.61014  1.81499  3.45550  3.52378  2.45649  3.21610  2.18644  5.37227  4.12042    265 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00859  5.15708  5.87942  0.61958  0.77255  0.64762  0.74084
+    189   3.01942  3.35235  2.60838  3.63798  2.31261  4.06797  3.00455  3.04505  3.55627  2.08132  3.69039  3.93609  3.33039  3.81218  3.81755  3.33788  3.25116  2.84176  5.08800  1.67907    266 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00859  5.15708  5.87942  0.61958  0.77255  0.64762  0.74084
+    190   2.95150  3.31143  3.34473  2.78697  3.51785  3.78002  3.98351  3.82608  2.36778  2.92702  4.23510  2.74691  2.43656  2.72792  3.24536  1.83109  2.33563  3.49915  5.66552  4.32747    267 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.28971  5.15708  1.40341  0.61958  0.77255  0.64762  0.74084
+    191   2.29387  4.44000  4.11810  3.54436  3.58439  3.93268  4.25341  1.86827  3.43874  2.64653  3.57216  3.83685  4.32046  3.71464  2.31371  2.56308  3.12233  1.66620  5.08212  3.87690    268 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01136  4.87874  5.60108  0.61958  0.77255  1.16750  0.37272
+    192   2.86142  2.43873  4.44337  3.85228  2.57427  2.76923  4.27474  2.74958  3.71118  1.93883  3.42196  4.00622  4.34818  2.37683  3.85003  3.27399  3.09342  2.55853  3.03599  2.97804    269 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01136  4.87874  5.60108  0.61958  0.77255  1.16750  0.37272
+    193   3.00559  4.97796  3.59959  2.98910  4.18855  3.85364  3.98609  3.56807  2.26319  2.44963  4.06435  3.44432  4.22640  3.18215  1.45502  3.10125  2.15969  3.29984  3.17501  4.21295    270 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01136  4.87874  5.60108  0.61958  0.77255  1.16750  0.37272
+    194   2.15824  3.64385  2.52330  2.18351  4.62265  3.61042  3.80076  4.09528  2.54239  3.59327  4.34225  3.08586  4.00455  2.51032  1.96978  2.80281  2.48195  3.67676  5.73998  4.34107    271 - -
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+          0.98256  0.60841  2.50799  0.06100  2.82730  0.21641  1.63684
+    195   2.63845  5.33407  3.24477  2.48105  4.63183  3.73888  2.48060  4.08551  1.95472  3.61879  4.38762  2.49996  3.34881  3.04592  3.16987  2.93278  2.72805  2.53628  5.79601  2.54307    273 - .
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+          0.00864  5.15146  5.87381  0.61958  0.77255  0.66322  0.72400
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00864  5.15146  5.87381  0.61958  0.77255  0.66322  0.72400
+    197   2.97080  3.14003  2.79591  3.39062  2.20252  2.51618  4.24169  3.11053  2.36688  2.46575  3.73369  3.76343  4.35557  3.62134  3.65688  3.23179  3.20265  2.54825  5.21540  2.24959    275 - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00864  5.15146  5.87381  0.61958  0.77255  0.38892  1.13255
+    198   2.97625  5.48850  2.29710  2.28584  4.83359  3.74471  3.93522  4.32004  1.98952  3.79368  4.52958  2.65174  2.24849  3.03203  2.73097  2.30887  2.46570  3.87923  5.92077  4.50896    276 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    199   2.46772  5.53031  2.32994  1.85276  4.87345  2.98164  3.96505  4.36203  2.43124  3.83486  4.57342  2.92119  4.16514  2.54904  3.20967  1.67490  3.24540  3.92029  5.96241  4.54601    277 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    200   2.97458  5.23802  2.91373  2.51841  3.57142  3.79255  3.99222  3.92209  2.17149  3.50450  4.30328  3.30790  3.25655  3.12905  2.33641  2.99199  2.79838  2.85262  1.95756  3.30457    278 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    201   2.72702  5.00763  3.51002  1.94208  2.43436  2.69791  3.27060  3.59493  2.93768  3.24785  4.09421  3.44482  4.24645  3.27577  3.37519  2.64660  2.12419  2.31448  5.54531  4.24984    279 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    202   2.71783  5.49486  2.46045  2.66457  4.83928  2.08700  3.08069  4.32590  2.05049  3.79985  4.53640  2.03653  3.32246  2.64474  3.17291  2.68564  3.21413  3.88529  5.92739  4.51492    280 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    203   3.12891  5.11273  4.07798  3.91286  5.42854  3.80029  5.13568  4.90394  4.12935  4.55011  5.34941  2.19543  4.57489  4.38939  4.46216  2.52441  0.51663  4.24472  6.72740  5.49827    281 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    204   2.91044  5.23638  5.98789  5.46214  4.00430  5.40819  5.90973  0.96475  5.32945  0.99017  3.76978  5.59140  5.60197  5.39077  5.36750  4.80674  4.23573  2.53116  6.10899  5.03989    282 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    205   1.84715  3.04003  4.87419  4.27324  2.34873  4.20294  2.03708  2.88354  4.08654  1.81202  3.56542  4.31230  4.56681  4.23771  4.13992  3.50910  3.28556  2.69771  3.45775  3.05021    283 - E
+          2.68643  4.41776  2.77545  2.73149  3.46379  2.40507  3.72520  3.29226  2.67766  2.69380  4.24715  2.90372  2.73765  3.18172  2.89775  2.37912  2.77453  2.98544  4.58224  3.61529
+          0.19380  1.75146  5.93130  1.03836  0.43701  0.48576  0.95510
+    206   2.55898  2.62131  4.30988  3.73782  3.71458  4.05347  4.41067  2.54603  3.64755  2.80059  3.71382  2.91190  4.45777  3.89727  3.89006  2.08310  1.68407  2.05065  5.20750  4.00640    287 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    207   1.49899  4.47460  4.57896  3.98957  3.05291  2.46138  4.45479  2.40498  3.85533  2.33448  3.59536  4.15744  4.50638  4.06035  4.00578  2.30715  3.25401  2.03958  5.09684  3.90865    288 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    208   2.72758  4.48739  3.42507  3.89206  3.59129  3.44899  4.41900  1.97221  2.98991  1.46851  3.20250  4.09822  4.48497  3.99109  3.95083  2.94797  3.24420  1.86144  5.09994  3.90818    289 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    209   3.06331  4.46003  4.86307  4.26425  1.76951  4.20993  4.49117  2.17070  4.08146  2.63417  2.88947  4.31231  3.17234  4.23582  4.14167  2.84202  3.29543  2.70667  5.00116  1.55799    290 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    210   2.34526  5.48003  1.69553  2.09129  4.82065  3.74692  3.93880  4.30415  2.67744  2.98714  4.52240  3.21560  2.67633  2.49275  2.77860  2.66584  3.20949  3.86838  5.91505  4.50562    291 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    211   3.00560  2.65167  2.60421  3.66507  3.11396  3.06164  3.04887  2.37196  3.57816  2.01775  3.07276  3.95714  2.12848  3.83248  3.82985  3.33861  3.23755  2.81226  5.15684  3.95314    292 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    212   2.05741  5.17298  3.37963  2.63845  2.71563  3.80882  2.69088  2.94265  2.34801  2.97040  4.24400  2.63339  4.19852  3.16391  2.52681  2.53532  3.20769  3.08357  5.67645  4.34228    293 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    213   2.01845  5.47507  2.23990  2.33133  3.45221  3.24569  3.92983  4.30322  2.12478  3.77962  4.51624  2.48181  2.80666  3.02677  2.85401  2.73276  2.94931  3.86479  5.90878  4.49876    294 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    214   2.66159  5.18373  3.37540  2.81717  4.42378  2.78868  4.01066  3.84137  2.50688  2.88187  3.55235  3.33726  3.17139  3.15948  1.60832  2.71292  2.73721  3.51668  5.68504  2.70379    295 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    215   2.97705  3.53872  3.30675  2.53316  4.58401  3.18565  3.28351  3.51205  1.72348  3.58137  4.36512  3.28195  4.17244  3.09968  2.44016  2.97800  1.78296  3.06443  5.78012  4.41557    296 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    216   1.65784  4.40928  4.94027  4.32904  3.50049  4.19324  4.52509  1.96688  4.12584  1.86725  2.70290  4.33864  4.55649  4.26664  4.15259  2.84630  3.25994  2.03785  3.16946  3.85626    297 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    217   2.96925  5.41787  2.82952  2.44747  3.45496  3.75288  3.94264  4.20641  1.88085  3.71234  4.46523  3.23071  4.14572  2.60819  2.72610  2.50205  1.99338  3.79496  3.16755  3.13027    298 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    218   3.01626  4.40936  4.86502  2.58145  2.82268  4.17272  4.50005  1.96882  4.06705  1.50281  3.14291  4.29657  4.53748  4.21976  3.20840  3.47891  2.84260  2.24618  3.57230  3.10881    299 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    219   2.30894  2.43472  4.11932  3.54512  3.71783  4.03904  4.31464  2.67552  3.47334  2.80183  3.70873  3.87828  2.64259  3.12018  2.85611  2.95841  2.50249  2.21249  5.19690  2.46185    300 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    220   2.47625  4.44641  4.65464  3.18995  2.37228  4.14279  4.45762  2.88706  3.90833  1.53484  3.56292  4.19228  4.51000  4.09871  3.11756  2.71769  3.24535  1.76638  3.52268  3.87704    301 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    221   2.36426  5.52114  2.30974  2.30291  4.84483  1.38722  3.26833  4.32188  2.76687  3.81832  4.57245  3.24921  3.30354  3.11012  3.26442  3.00866  3.28038  3.90137  5.96584  3.49121    302 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    222   2.72859  5.47844  2.84093  2.30484  4.82209  2.86391  3.93146  4.30724  2.66728  3.78310  3.39099  1.92218  4.13735  2.04633  2.61944  2.21977  3.20187  3.86835  5.91186  4.50145    303 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    223   2.97912  5.39884  2.95177  2.70473  2.77549  3.21732  3.95706  4.17039  2.44185  3.68945  4.45076  2.56512  1.56282  3.06692  2.54736  2.95924  2.74337  3.77109  5.85413  4.46619    304 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    224   2.24002  5.44110  2.88149  2.67634  4.77058  3.00182  3.93690  3.27083  1.95371  2.89130  4.48595  2.89763  3.37305  3.03847  2.36132  2.14847  2.88394  3.82335  5.88329  4.48201    305 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00816  5.20896  5.93130  0.61958  0.77255  0.48576  0.95510
+    225   2.06779  5.46894  2.63820  2.31508  4.81010  3.16964  3.46268  4.29331  2.37429  2.90683  4.51063  2.44017  3.18043  2.67468  2.68022  2.93169  3.19876  3.85748  3.78879  3.19112    306 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00550  5.20630        *  0.61958  0.77255  0.00000        *
+//
+HMMER3/d [3.0 | March 2010]
+NAME  SH2
+ACC   PF00017.17
+DESC  SH2 domain
+LENG  77
+ALPH  amino
+RF    no
+CS    yes
+MAP   yes
+DATE  Tue Sep 22 10:11:39 2009
+NSEQ  58
+EFFN  3.862183
+CKSUM 2920215497
+GA    20.90 20.90
+TC    20.90 20.90
+NC    20.80 20.80
+STATS LOCAL MSV       -9.2753  0.71862
+STATS LOCAL VITERBI   -9.6858  0.71862
+STATS LOCAL FORWARD   -4.1731  0.71862
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.77344  4.59312  3.04475  2.64641  3.07138  2.86397  3.46734  2.87451  2.66045  2.39086  3.82560  3.11120  3.71728  3.04124  2.75000  2.57635  2.89003  2.75016  4.25545  3.11630
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.00000        *
+      1   4.46341  5.64592  5.61310  3.79107  2.41952  5.24198  4.26028  4.20304  5.11126  3.07049  4.78854  4.93141  5.53619  5.01232  5.07053  4.60053  4.67544  4.08644  0.61500  1.75013      1 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      2   3.05238  4.78192  5.01485  4.48773  1.34600  4.48079  4.36806  2.23088  4.31845  2.90940  3.90048  3.23098  4.83434  4.43175  4.38172  3.79597  3.63654  3.04432  4.69472  1.31204      2 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      3   2.81227  3.93620  3.20240  3.90353  2.23722  4.08132  1.68104  2.68822  3.77385  2.51301  2.80037  3.67117  4.45001  3.98359  3.93397  3.20284  3.20119  2.41112  3.61967  3.12812      3 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      4   2.94305  5.49560  3.08237  2.63455  4.83898  1.13605  3.99583  4.30436  2.22425  3.80068  4.56425  3.26238  3.20164  3.10683  2.60146  2.90040  3.28839  3.89124  5.94364  4.55569      4 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      5   2.52391  5.40960  2.72562  2.51424  2.87231  3.59237  3.26614  4.21747  1.76416  3.17462  4.45386  2.55774  3.41635  2.93767  2.95802  2.46147  3.01910  3.49707  5.85054  3.70316      5 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      6   3.08596  4.46139  4.95541  4.35594  3.57685  4.27269  4.61818  1.08137  4.17079  1.83045  2.97143  3.44322  4.62920  4.32798  4.22357  3.33138  3.11567  2.03757  5.13772  3.95808      6 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      7   2.93265  5.41038  3.07505  2.39946  4.74181  2.72396  3.89999  4.21828  2.50469  3.16807  3.70587  2.80192  3.24998  2.57068  3.13071  1.64120  2.33116  3.79369  5.85133  4.44872      7 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+      8   2.85084  5.74750  3.95637  3.29982  5.29498  2.29767  4.20221  4.65237  1.85739  4.07043  4.90135  3.72740  4.57265  3.32347  0.85595  3.52028  3.72752  4.28035  6.10669  4.90745      8 - H
+          2.68638  4.42245  2.77508  2.73144  3.46289  2.40489  3.72515  3.29374  2.67742  2.69375  4.24710  2.90343  2.73760  3.18167  2.89726  2.37892  2.77540  2.98486  4.58497  3.61523
+          0.24685  2.03009  2.43701  1.14510  0.38301  0.48576  0.95510
+      9   2.41108  5.39954  2.85799  2.07604  4.74296  3.14345  3.07564  3.81630  2.11555  3.70412  4.44063  2.81074  3.86870  2.31176  2.89232  2.46785  2.68745  3.41473  4.36787  4.42325     14 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00965  5.04139  5.76373  0.61958  0.77255  0.36044  1.19524
+     10   2.87125  5.44179  2.30506  1.50575  4.78420  3.44036  3.89736  3.26260  2.34632  3.74586  4.48336  3.10885  4.10291  2.10222  3.00599  2.70524  3.16776  3.83104  5.87578  3.83921     15 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     11   0.97078  4.90810  3.72814  3.17748  4.20602  3.86095  4.21939  3.57472  2.77580  3.25628  4.11998  3.60752  4.30966  3.45425  2.82491  2.79768  3.14835  2.30491  5.57147  4.31191     16 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     12   2.87363  5.34487  3.09643  1.03984  3.60310  3.72894  3.43010  4.10350  2.68109  3.63137  4.39765  3.02860  4.12412  2.80097  3.16583  2.92672  2.95681  3.28621  5.80366  3.95706     17 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     13   2.73096  5.44362  2.52590  2.18375  4.78940  3.43953  3.47242  4.27584  2.03423  3.74918  4.11568  2.83968  4.09835  2.39924  1.97818  2.48430  2.97437  3.67060  5.87585  4.19581     18 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     14   2.49564  4.57003  4.05562  3.48140  3.69017  3.99383  3.70974  2.69581  3.02600  1.21871  2.98054  3.82219  4.36903  2.95578  3.12518  3.01161  3.19478  2.83367  5.16600  3.13147     19 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     15   4.51579  5.66058  6.48713  5.93455  3.73946  6.01998  6.32936  2.25504  5.81128  0.32480  3.45600  6.21441  5.90055  5.56415  5.70894  5.48003  4.71421  2.83630  6.10512  5.21304     20 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     16   2.93564  5.25602  2.88906  2.71226  4.53019  3.47323  3.93877  3.45776  2.31327  2.02931  3.06981  2.89156  4.13370  2.40094  2.41070  2.70644  2.61878  3.40688  5.73363  3.80917     21 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01708  5.12972  4.50799  0.61958  0.77255  0.48576  0.95510
+     17   2.44804  5.43500  2.86115  2.15532  4.77870  3.07477  3.72237  3.89338  2.28074  3.24451  4.22707  2.25624  3.66986  2.50231  2.92620  2.21449  2.82650  3.66888  5.86851  3.98063     22 - H
+          2.68633  4.41981  2.77544  2.73090  3.46378  2.40517  3.72519  3.29298  2.67765  2.69379  4.24628  2.90371  2.73715  3.18171  2.89818  2.37900  2.77492  2.98543  4.58502  3.61408
+          0.80735  1.34600  1.22525  0.72465  0.66260  0.51158  0.91516
+     18   2.60657  5.21560  2.79236  2.15488  3.98706  2.10848  3.76845  3.74248  2.35247  3.50628  4.04176  3.05938  3.97009  2.74226  2.69287  2.65908  2.43510  3.18641  5.66916  4.27970     28 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01258  4.77795  5.50029  0.61958  0.77255  0.42914  1.05287
+     19   2.58437  5.38663  2.88645  2.45827  4.72604  2.29671  3.85301  4.20800  1.80453  3.16246  3.70793  2.44778  3.32032  2.75665  2.85912  2.75412  2.94630  3.61272  5.82270  4.41523     29 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00973  5.03286  5.75521  0.61958  0.77255  0.70370  0.68270
+     20   2.78435  5.37294  3.15501  2.14771  4.36590  3.67242  3.38748  3.77951  1.97848  3.67263  3.55017  3.07032  2.22449  2.62646  2.55304  2.59204  2.78154  3.49358  5.81339  4.41052     30 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00965  5.04180  5.76415  0.61958  0.77255  0.36085  1.19429
+     21   2.81511  5.44202  1.73361  2.18960  4.78648  3.70573  3.46935  4.27210  2.50618  3.51091  4.48290  2.55057  2.69335  2.86651  2.62109  2.63840  2.93282  3.44060  5.87500  4.46428     31 - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     22   3.43531  3.90050  5.21445  4.94765  4.76446  0.27400  5.45911  4.67949  4.76561  4.34217  5.27291  4.77346  4.88006  5.05540  4.88264  3.66689  3.94202  4.22026  3.55155  4.87702     32 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     23   2.40950  4.55805  2.44939  2.46734  4.63295  3.32079  3.73969  4.08890  2.51436  3.03807  4.02968  3.21335  4.11864  3.03164  3.15773  2.04941  1.71766  3.69872  5.79221  4.40961     33 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     24   5.30406  6.14901  6.02778  6.04097  0.33153  5.67955  4.25853  4.80597  5.80880  3.88511  5.30619  5.19360  5.92885  5.38893  5.55599  5.11530  5.49344  4.79320  4.32425  1.78532     34 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     25   4.34376  5.51884  6.33699  5.76552  3.73881  5.81051  6.12931  2.33100  5.64884  0.45706  2.81116  5.98723  5.77349  5.45622  5.56700  5.22662  4.54515  2.14518  6.03133  5.11684     35 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     26   3.27754  5.04450  5.95361  5.47108  4.36311  5.43582  6.10893  1.34663  5.40047  1.72173  4.11282  5.60037  5.65447  5.61455  5.52794  4.85476  4.09767  0.85865  6.41955  5.22437     36 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     27   5.00543  6.45535  5.60884  5.04468  6.17745  5.04161  5.51076  5.97808  3.76532  5.25868  6.32297  5.27689  5.57780  4.77476  0.10460  5.10936  5.25233  5.65839  6.81250  6.00400     37 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     28   2.82256  5.40835  2.35815  1.59555  2.71037  3.71294  3.90291  3.98708  2.36746  3.09076  4.45328  3.18648  2.98755  2.42067  3.13463  2.90448  3.16638  3.79056  5.85036  4.44875     38 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     29   2.62784  3.69878  4.34244  3.87501  4.95202  3.72232  4.85906  4.36644  3.75944  4.03184  4.84840  4.04121  4.43079  4.10701  2.71041  0.54353  3.07606  3.85315  6.27742  5.06758     39 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     30   2.84294  5.43417  2.27641  1.57235  4.77567  3.70678  3.72976  3.82227  2.51588  3.15983  4.47579  3.06635  4.10030  2.79118  2.57530  2.13757  2.96846  3.52843  5.86894  4.46016     40 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.13582  5.12972  2.11126  0.61958  0.77255  0.48576  0.95510
+     31   2.88518  5.36603  3.13839  2.44997  4.70046  3.16424  3.61866  4.17760  2.44138  3.66647  4.41095  2.68571  3.32981  2.95006  2.42407  1.69896  2.07860  3.75126  5.80549  4.40277     41 - S
+          2.68622  4.42229  2.77523  2.73127  3.46358  2.40517  3.72498  3.29358  2.67732  2.69359  4.24694  2.90336  2.73743  3.18150  2.89805  2.37865  2.77523  2.98522  4.58481  3.61507
+          0.16062  2.27326  3.09207  0.21537  1.64114  0.32701  1.27682
+     32   2.72494  4.61629  3.00787  2.26844  3.21511  3.19850  3.10649  3.76765  1.90075  3.55823  4.44009  2.79716  4.08663  2.52632  3.00100  2.46019  2.37890  3.78024  5.83628  3.82426     43 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00917  5.09185  5.81420  0.61958  0.77255  0.48470  0.95681
+     33   2.67106  5.35005  2.80221  2.20663  4.66015  3.71509  3.90618  3.15507  2.27258  2.85590  4.40009  3.19752  1.90953  2.52218  3.00364  2.90719  2.99404  3.05322  5.80421  4.41548     44 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03639  5.11555  3.51544  0.61958  0.77255  0.45909  0.99929
+     34   3.08917  5.73331  2.55551  2.97694  5.57494  0.61850  4.63494  5.10239  3.71013  4.62501  5.45851  2.35804  4.52457  3.82027  4.29291  3.06971  3.83266  4.54213  6.78793  5.32771     45 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00907  5.10293  5.82527  0.61958  0.77255  0.43799  1.03658
+     35   2.65121  4.06913  2.00074  2.09325  4.77118  2.30957  3.32425  4.25358  2.56049  3.32362  4.47343  3.09246  4.10140  2.65397  3.12496  2.26973  2.89684  3.81917  5.86711  4.45915     46 - C
+          2.68623  4.42230  2.77525  2.73129  3.46359  2.40518  3.72500  3.29359  2.67746  2.69360  4.24695  2.90352  2.73717  3.18152  2.89773  2.37872  2.77525  2.98524  4.58482  3.61508
+          0.04861  3.11062  5.85207  0.90583  0.51786  0.48576  0.95510
+     36   3.54892  4.87009  5.37070  4.83278  1.77057  4.69116  4.61270  2.16757  4.63481  2.25525  3.75968  4.74810  5.00433  4.68250  4.62535  4.01981  3.77592  2.44742  4.88320  1.07903     50 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     37   2.08331  4.14942  4.44811  3.88982  3.77199  4.00845  4.51215  2.63976  3.78846  2.84463  3.76791  4.08671  4.46949  4.02398  4.00218  2.04969  1.50004  1.82098  5.27657  4.08191     51 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     38   3.62672  3.63194  5.61697  5.02642  2.55224  4.91000  5.26285  1.72810  4.84890  0.80616  3.53935  5.07600  5.16117  4.89828  4.84328  4.25208  3.85355  2.23202  5.57911  4.47726     52 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     39   2.42322  3.81134  4.22757  3.73292  4.55582  3.39411  4.69545  3.94825  3.69164  3.64019  4.49101  3.96120  4.39906  3.98336  4.03166  0.79340  1.93209  3.56085  5.94802  3.91327     53 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     40   3.00285  4.38193  4.91874  4.30974  2.34837  3.82337  3.75357  2.61450  4.10379  1.97408  3.49311  4.30992  4.52842  4.23986  4.12596  3.47623  3.23486  1.25317  2.48580  3.75714     54 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     41   2.84249  3.87203  4.45631  3.86801  2.98277  4.07481  3.96159  2.77715  2.37814  2.17192  2.93712  4.06566  4.44399  3.96001  2.13417  2.88846  3.20042  1.95171  3.16630  3.41428     55 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     42   2.61350  4.29064  2.25598  2.40645  2.88382  3.77092  3.18022  3.41508  2.65087  3.00156  3.86817  3.00227  4.16065  3.00942  2.55252  2.81063  2.61390  3.03834  3.95574  3.48767     56 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     43   2.93146  5.43447  2.09727  2.39945  3.49435  2.67509  3.89378  3.89443  2.12743  3.73838  4.47598  2.21905  3.89699  2.51815  2.83898  2.62758  3.16261  3.82338  4.21641  4.18868     57 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     44   2.65970  5.42673  2.11142  2.47536  4.19620  1.93093  3.89587  4.24644  2.37504  3.72917  4.09865  2.71889  4.10138  2.77174  2.90335  2.39525  3.09392  3.18690  5.86342  4.45648     58 - S
+          2.68675  4.42234  2.77477  2.73120  3.46445  2.40460  3.72557  3.29294  2.67698  2.69400  4.24755  2.90349  2.73687  3.18022  2.89855  2.37872  2.77538  2.98579  4.58568  3.61574
+          0.50776  0.97296  3.90237  1.60359  0.22461  0.48576  0.95510
+     45   2.76671  4.43305  2.87138  2.27006  4.76655  3.35003  3.37117  3.74120  2.06980  3.22432  4.46692  2.73265  4.09219  2.51905  2.23706  2.27302  2.91514  3.09191  5.86022  4.45157     68 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00899  5.11225  5.83460  0.61958  0.77255  0.45335  1.00921
+     46   2.84433  4.09561  4.60487  4.00982  2.76083  4.09994  3.85510  2.21039  3.86104  2.59968  3.52376  2.79938  3.63985  4.05285  3.77797  3.39560  3.03628  1.12526  5.02329  3.83796     69 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     47   2.93284  5.42680  3.18821  2.22634  4.40318  3.28497  3.42919  3.94829  1.55412  3.15316  4.46928  3.06261  4.10220  2.16688  2.60862  2.80702  2.67608  3.81392  5.86321  3.87920     70 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     48   3.02858  5.24129  3.39124  2.62022  4.47980  3.83144  1.06721  3.91298  2.73748  3.23724  4.31199  3.07799  3.23403  3.07014  2.98750  3.05353  3.25491  3.58559  4.06559  4.37673     71 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03932  5.12972  3.42234  0.61958  0.77255  0.48576  0.95510
+     49   3.01247  2.54617  4.90331  4.30037  2.01241  4.17111  4.45282  2.03719  4.09917  2.56954  3.50917  3.53967  4.53359  4.23600  4.12735  3.48148  3.24478  2.36922  4.93176  1.62769     72 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00910  5.09951  5.82186  0.61958  0.77255  0.43265  1.04635
+     50   2.93531  5.32300  2.89770  2.67954  4.62055  3.72925  3.22932  3.00660  1.92833  2.98521  4.10993  3.21821  3.79669  2.61030  1.92005  2.92288  2.65120  2.79986  5.78499  4.40528     73 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     51   3.13099  4.53391  4.81707  4.22903  3.16193  4.30389  4.64098  0.98122  2.63731  2.55547  3.63974  4.36161  3.80675  4.27195  4.19062  3.61008  3.36587  1.84202  5.22760  4.04066     74 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     52   2.93270  4.07286  3.06449  2.49475  3.95271  3.71778  2.95281  3.70129  2.14457  3.05863  3.43927  2.50420  3.54567  2.07032  2.43003  2.81238  3.16389  3.45285  5.82322  3.80392     75 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     53   2.77915  4.06440  3.20922  2.30074  3.51619  3.71742  3.68578  4.15950  2.23784  3.48758  4.42307  2.86908  3.55529  2.43759  2.47447  1.91780  2.60820  3.42644  4.99554  3.94103     76 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     54   2.70386  5.33520  2.57380  2.37973  4.63735  3.72541  3.57467  4.09413  2.60069  2.10329  3.88558  2.89406  4.11776  2.84111  2.70596  2.62077  2.11556  2.83326  5.79445  4.41100     77 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     55   2.46053  4.65915  2.28982  1.98514  4.78248  2.69152  3.89274  4.26750  2.36491  3.33157  3.76988  2.58899  3.23419  2.49439  2.95297  2.82709  2.90601  3.82867  5.87224  4.16512     78 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     56   2.77688  5.44453  2.18206  2.29616  4.78993  2.90650  3.89309  4.27625  2.38948  3.74994  4.25160  1.93240  3.52302  2.74476  2.70966  2.63026  2.52309  3.83536  5.87694  4.46559     79 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.12643  5.12972  2.18176  0.61958  0.77255  0.48576  0.95510
+     57   2.57414  4.49316  3.06717  2.15838  4.01151  1.80336  3.87437  3.99435  2.31970  3.22500  3.19603  3.00002  4.07260  2.99167  2.76106  2.61594  3.00504  3.61500  5.72016  4.10862     80 - T
+          2.68599  4.42265  2.77559  2.73127  3.46319  2.40498  3.72534  3.29268  2.67745  2.69328  4.24567  2.90356  2.73700  3.18186  2.89840  2.37901  2.77507  2.98558  4.58517  3.61543
+          0.78893  1.43716  1.17744  1.33654  0.30483  0.61337  0.77984
+     58   2.81611  5.27733  3.05710  2.42730  4.61612  2.01802  3.34059  4.08403  1.72849  3.57108  4.32439  2.88013  3.97372  2.63656  2.75463  2.71528  2.70052  3.66563  5.70549  4.31774     88 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01351  4.70708  5.42942  0.61958  0.77255  0.33185  1.26442
+     59   2.93514  4.38526  4.50208  3.91010  2.53666  4.05382  3.79512  2.65328  3.31435  2.15218  3.36247  3.63625  4.42194  3.60643  3.64110  2.77645  3.16720  2.17994  4.28362  1.59104     89 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00945  5.06203  5.78438  0.61958  0.77255  0.38267  1.14583
+     60   2.72683  4.00195  3.58557  3.88836  2.06647  4.07852  4.38454  2.49889  3.01536  2.40290  3.37043  4.07755  4.44743  3.97358  3.92652  2.86082  2.79638  2.53257  5.04585  1.68898     90 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     61   2.97187  3.99735  4.70144  4.10089  3.34959  3.19977  4.43393  1.64176  3.65939  1.80924  3.26413  3.49765  4.47964  4.10889  2.51094  3.41393  3.20399  1.97506  5.00463  3.28447     91 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     62   2.31616  4.73768  3.39620  3.17071  2.88660  2.92387  4.15103  2.84395  2.85278  2.62668  2.92981  3.07497  3.62498  3.44675  3.51249  2.29580  2.15729  2.71677  5.31077  3.56077     92 - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     63   2.66553  5.42397  2.20856  1.99664  4.76132  2.25621  3.89623  4.24189  2.56345  3.06943  4.46667  2.75279  3.44962  2.92346  2.91883  2.69984  2.66110  3.45669  4.27485  4.45502     93 - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07237  5.12972  2.75048  0.61958  0.77255  0.48576  0.95510
+     64   2.57090  5.41777  2.85597  2.16263  4.76197  2.32815  3.86865  4.24749  2.30544  3.72257  4.45894  2.08885  4.07452  2.86938  2.24813  2.53651  3.13989  3.51874  5.85072  4.43995     94 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00941  5.06676  5.78911  0.61958  0.77255  0.38823  1.13401
+     65   2.48028  5.35948  2.65921  2.28770  4.67088  3.72045  3.02037  3.35872  2.40843  2.61482  3.52129  3.20223  3.10003  2.58930  2.66494  2.74117  2.82523  2.92650  5.81286  3.93906     95 - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01977  5.12972  4.29334  0.61958  0.77255  0.48576  0.95510
+     66   2.62678  4.50033  3.27771  2.64181  4.11791  3.35317  3.94071  3.76305  2.06924  3.12214  4.28917  3.09678  3.58512  2.85784  2.43100  2.43370  2.09000  2.89751  5.70983  3.18121     96 - E
+          2.68612  4.42230  2.77525  2.73128  3.46359  2.40518  3.72500  3.29359  2.67746  2.69340  4.24695  2.90309  2.73745  3.18151  2.89806  2.37892  2.77511  2.98523  4.58482  3.61508
+          0.09871  2.39593  5.84123  0.39480  1.12029  0.46505  0.98914
+     67   2.74880  3.99473  4.66514  4.07723  1.06634  4.15545  3.60926  2.70277  3.92496  2.40190  3.57871  3.16370  4.52086  4.10720  4.04086  3.45317  3.26551  2.71552  4.95280  2.67752     99 - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     68   2.56045  3.74330  2.28356  2.40023  4.74134  2.85538  3.89935  3.29924  2.63950  3.28509  4.17126  2.31165  3.04231  2.77606  2.73465  2.25074  3.16308  3.79316  5.85072  4.44809    100 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     69   2.71416  4.74215  2.55849  2.69776  4.58134  3.20783  3.69141  3.84766  2.69737  2.98395  4.35214  2.78534  4.12861  3.05354  3.17767  1.49509  2.11940  3.65289  5.76504  4.39295    101 - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     70   3.53893  4.85571  5.49538  4.89842  3.09813  4.79115  5.13361  1.52938  4.71667  0.91581  3.28869  4.94772  3.72171  4.78143  4.71968  4.12460  3.76542  2.08299  5.48647  4.37852    102 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     71   2.35104  5.35957  2.88498  2.59020  4.67101  3.35408  3.53975  4.13393  2.49274  3.14724  3.86174  2.69241  2.69976  2.30850  3.14715  2.35866  2.84134  3.18441  4.20904  3.06498    103 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     72   2.54513  5.42887  2.01211  1.66769  4.76726  3.70853  3.66683  4.24871  2.63496  3.24981  4.18403  3.17844  3.25104  2.15123  3.12679  2.89876  2.96355  3.81594  5.86546  3.72972    104 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     73   4.57204  5.70776  6.54368  5.95507  3.46396  6.05552  6.27671  2.06265  5.84356  0.40551  2.54585  6.24310  5.88477  5.51622  5.69329  5.49638  4.75089  3.24890  6.03338  5.17646    105 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     74   3.48383  3.64457  5.49156  4.93817  4.03324  4.84457  5.30505  1.12494  3.77610  2.18596  3.92201  4.99568  5.15487  4.97062  4.85798  4.19604  3.72858  1.07368  5.76368  4.56921    106 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     75   2.74302  5.42059  2.71537  1.97029  4.75660  3.51847  3.39591  4.23623  2.53681  3.21980  3.71140  2.65963  4.10208  2.36771  2.82324  2.40382  2.61578  3.27307  4.74619  3.07502    107 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     76   2.86789  4.71670  3.30686  2.87554  2.91308  3.94290  1.59009  3.22071  3.20846  2.41160  3.81893  3.66244  4.32305  3.51298  3.57009  3.18623  3.20751  2.74832  5.24646  2.09015    108 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00883  5.12972  5.85207  0.61958  0.77255  0.48576  0.95510
+     77   4.67655  5.82816  5.59385  5.31940  2.15426  5.34370  1.98782  4.45333  5.12875  3.03426  5.00428  4.94643  5.62924  3.84636  5.11713  4.70624  4.88210  4.34469  4.35653  0.56473    109 - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00595  5.12685        *  0.61958  0.77255  0.00000        *
+//
+EOF
+close HMMFILE;
+1;
+}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i2-search-variation.sh b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i2-search-variation.sh
new file mode 100755
index 0000000..b6ec66f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i2-search-variation.sh
@@ -0,0 +1,45 @@
+#! /bin/sh
+#
+# Verify that hmmsearch/hmmscan runs are reproducible (no stochastic variation)
+#
+if test ! $# -eq 4; then 
+  echo "Usage: $0 <hmmscan/hmmsearch binary> <query hmmfile> <target seqfile> <tmpfile prefix>"
+  exit 1
+fi
+
+
+prog=$1;     if test ! -x $prog;    then echo "FAIL: $prog not executable";  exit 1; fi
+hmmfile=$2;  if test ! -r $hmmfile; then echo "FAIL: $hmmfile not readable"; exit 1; fi
+seqfile=$3;  if test ! -r $seqfile; then echo "FAIL: $seqfile not readable"; exit 1; fi
+tmppfx=$4
+
+# Running with default seed shows identical results
+$prog $hmmfile $seqfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out1
+$prog $hmmfile $seqfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out2
+
+diff $tmppfx.out1 $tmppfx.out2 > /dev/null
+if test $? -ne 0 
+then 
+   echo "FAIL: results differ"
+   exit 1
+fi
+
+# Running with different seeds shows stochastically differing results
+$prog --seed 2 $hmmfile $seqfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out1
+$prog --seed 3 $hmmfile $seqfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out2
+
+diff $tmppfx.out1 $tmppfx.out2 > /dev/null
+if test $? -eq 0 
+then 
+   echo "FAIL: results are the same despite different rng seeds"
+   exit 1
+fi
+
+rm $tmppfx.out $tmppfx.out1 $tmppfx.out2
+
+echo "ok"
+exit 0
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i20-fmindex-core.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i20-fmindex-core.pl
new file mode 100755
index 0000000..de1b38f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i20-fmindex-core.pl
@@ -0,0 +1,171 @@
+#! /usr/bin/perl
+
+# Test of makenhmmerdb and the core fm-index search functionality, using extactmatch  
+# 
+# Usage:   ./i20-fmindex-core.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i20-fmindex-core.pl ..         ..       tmpfoo
+#
+# SVN $URL$
+# SVN $Id$
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+
+$verbose = 1;
+
+# The test creates the following files:
+# $tmppfx.fa            <seqdb> 3 sequences in fasta format
+# $tmppfx.fm            <fm>    The hmmer-style FM-index set produced by makenhmmerdb
+# $tmppfx.test          <text>  9 length-12 sequences, used to search the FM-index sting of the two sequences from $tmppfx.B inserted into the sequence of $tmppfx.A  
+
+
+@h3progs =  ( "makenhmmerdb", "exactmatch");
+
+# Verify that we have all the executables and datafiles we need for the test.
+foreach $h3prog  (@h3progs)  { if (! -x "$builddir/src/$h3prog")              { die "FAIL: didn't find $h3prog executable in $builddir/src\n";              } }
+
+&create_db_file("$tmppfx.fa");
+
+$cmd = "$builddir/src/makenhmmerdb $tmppfx.fa $tmppfx.fm 2>&1";
+$output = do_cmd($cmd);
+if ($? != 0) { die "FAIL: makenhmmerdb failed unexpectedly\n"; } 
+if ($output !~ /# alphabet     :                           dna/ ||
+    $output !~ /Number of characters in index:  1428/           ||
+    $output !~ /Number of FM-index blocks:      1/ 
+) {
+    die "FAIL: makenhmmerdb failed to build correctly\n";
+}
+
+&create_search_file("$tmppfx.test");
+
+# Search for hits
+$cmd = "$builddir/src/exactmatch --out=- $tmppfx.test $tmppfx.fm "; #2>&1";
+$output = do_cmd($cmd);
+if ($? != 0) { die "FAIL: exactmatch failed unexpectedly\n"; }
+$expect = &get_expected();              
+            
+if ($output !~ /$expect/s) {
+    die "FAIL: exactmatch failed search test\n";
+}
+
+print "ok\n";
+unlink "$tmppfx.fm";
+unlink "$tmppfx.fm";
+unlink "$tmppfx.test";
+
+exit 0;
+
+
+
+
+sub create_db_file { 
+    my ($filename) = @_;
+    open(DB, ">$filename") || die "FAIL: couldn't create the database file"; 
+    print DB <<"EOF";
+>seq1
+GATCTGATAAGTCCCAGGACTTCAGAAGagct
+>seq2
+GATCTGATAAGTCCCAGGACTTCAGAAGagctgtgagaccttggccaagtcacttcctccttcagGAACATTGCAGTGGG
+CCTAAGTGCCTCCTCTCGGGACTGGTATGGGGACGGTCATGCAATCTGGACAACATTCACCTTTAAAAGTTTATTGATCT
+TTTGTGACATGCACGTGGGTTCCCAGTAGCAAGAAACTAAAGGGTCGCAGGCCGGTTTCTGCTAATTTCTTTAATTCCAA
+GACAGTCTCAAATATTTTCTTATTAACTTCCTGGAGGGAGGCTTATCATTCTCTCTTTTGGATGATTCTAAGTACCAGCT
+AAAATACAGCTATCATTCATTTTCCTTGATTTGGGAGCCTAATTTCTTTAATTTAGTATGCAAGAAAACCAATTTGGAAA
+TATCAACTGTTTTGGAAACCTTAGACCTAGGTCATCCTTAGTAAGATcttcccatttatataaatacttgcaagtGATCT
+>seq3
+GATAAGTattaccaaacataaagccaactgagatgcccaaagggggccactctccttgcttttcctcctttttagaggat
+ttatttcccatttttcttaaaaaggaagaacaaactgtgccctagggtttactgtgtcagaacagagtgtgccgattgtg
+gtcaggactccatagcatttcaccattgagttatttccgcccccttacgtgtctctcttcagcggtctattatctccaag
+agggcataaaacactgagtaaacagctcttttatatgtgtttcctggatgagccttcttttaattaattttgttaaggga
+tttcctctagggccactgcacgtcatggggagtcacccccagacactcccaattggccccttgtcacccaggggcacatt
+tcagctAtttgtaaaacctgaaatcactagaaaggaatgtctagtgacttgtgggggccaaggcccttgttatggggatg
+aaggctcttaggtggtagccctccaagagaatagatggtgaatgtctcttttcagacattaaaggtgtcagactctcagt
+taatctctcctagatccaggaaaggcctagaaaaggaaggcctgactgcattaatggagattctctccatgtgcaaaatt
+tcctccacaaaagaaatccttgcagggccattttaatgtgttggccctgtgacagccatttcaaaatatgtcaaaaaata
+tattttggagtaaaatactttcattttccttcagagtctgctgtcgtatgatgccataccagagtcaggttggaaagtaa
+gccacattatacagcgttaacctaaaaaaacaaaaaactgtctaacaagattttatggtttatagagcatgattccccgg
+GATCTGATAAGTCCCAGGACTTCAGATCTGATAAGT
+EOF
+    close DB;
+    1;
+}
+
+sub create_search_file {
+    my ($filename) = @_;
+    open(TEST, ">$filename") || die "FAIL: couldn't create the database file"; 
+    print TEST <<"EOF";
+GATCTGATAAGT
+TGATAAGTCCCA
+AGTCCCAGGACT
+CAGGACTTCAGA
+AGGACTTCAGAA
+TGAATAGTCTAG
+CTGAATAGTCTA
+GACTTCAGGACC
+AAGACTTCAGGA
+EOF
+    close TEST;
+    1;
+}
+
+sub get_expected {
+	my $expected = <<EOF;
+
+GATCTGATAAGT
+           0 f       seq1
+           0 f       seq2
+         880 f       seq3
+         904 f       seq3
+
+TGATAAGTCCCA
+           4 f       seq1
+           4 f       seq2
+         884 f       seq3
+
+AGTCCCAGGACT
+           9 f       seq1
+           9 f       seq2
+         889 f       seq3
+
+CAGGACTTCAGA
+          14 f       seq1
+          14 f       seq2
+         894 f       seq3
+
+AGGACTTCAGAA
+          15 f       seq1
+          15 f       seq2
+
+TGAATAGTCTAG
+          11 b       seq1
+          11 b       seq2
+         891 b       seq3
+         915 b       seq3
+
+CTGAATAGTCTA
+          12 b       seq1
+          12 b       seq2
+         892 b       seq3
+
+GACTTCAGGACC
+          24 b       seq1
+          24 b       seq2
+         904 b       seq3
+
+AAGACTTCAGGA
+          26 b       seq1
+          26 b       seq2
+EOF
+
+
+    return $expected;
+}
+
+
+sub do_cmd {
+    $cmd = shift;
+    print "$cmd\n" if $verbose;
+    return `$cmd`;  
+}
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i3-seqsearch-variation.sh b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i3-seqsearch-variation.sh
new file mode 100755
index 0000000..f61d9d9
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i3-seqsearch-variation.sh
@@ -0,0 +1,46 @@
+#! /bin/sh
+#
+# Verify that phmmer/jackhmmer runs are reproducible (no stochastic variation)
+#
+if test ! $# -eq 4; then 
+  echo "Usage: $0 <phmmer/jackhmmer binary> <query seqfile> <target seqfile> <tmpfile prefix>"
+  exit 1
+fi
+
+
+prog=$1;   if test ! -x $prog;  then echo "FAIL: $prog not executable";  exit 1; fi
+qfile=$2;  if test ! -r $qfile; then echo "FAIL: $qfile not readable";   exit 1; fi
+tfile=$3;  if test ! -r $tfile; then echo "FAIL: $tile not readable";    exit 1; fi
+tmppfx=$4
+
+
+# Running with default seed shows identical results
+$prog $qfile $tfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out1
+$prog $qfile $tfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out2
+
+diff $tmppfx.out1 $tmppfx.out2 > /dev/null
+if test $? -ne 0 
+then 
+   echo "FAIL: results differ"
+   exit 1
+fi
+
+# Running with different seeds shows stochastically different results
+$prog --seed 1 $qfile $tfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out1
+$prog --seed 2 $qfile $tfile > $tmppfx.out;   if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+cat $tmppfx.out | grep -v "^#" > $tmppfx.out2
+
+diff $tmppfx.out1 $tmppfx.out2 > /dev/null
+if test $? -eq 0 
+then 
+   echo "FAIL: results are the same despite different rng seeds"
+   exit 1
+fi
+
+rm $tmppfx.out $tmppfx.out1 $tmppfx.out2
+
+echo "ok"
+exit 0
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i4-zerolength-seqs.sh b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i4-zerolength-seqs.sh
new file mode 100755
index 0000000..69e07f0
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i4-zerolength-seqs.sh
@@ -0,0 +1,50 @@
+#! /bin/sh
+
+# Usage:
+#   ./i4-zerolength-seqs.sh <builddir> <srcdir> <HMM database> <tmpfile prefix>
+# 
+# Example:
+#   ../src/hmmbuild minifam.hmm minifam
+#   ../src/hmmpress minifam.hmm
+#   ./i4-zerolength-seqs.sh .. .. minifam.hmm baz
+#   rm minifam.hmm*
+#
+# Verifies that the search programs can take zero length sequences as
+# input without crashing.
+# 
+# The <HMM database> must be press'ed, for hmmscan to work on it.
+
+if test ! $# -eq 4; then 
+  echo "Usage: $0 <builddir> <srcdir> <HMM database> <tmpfile prefix>"
+  exit 1
+fi
+
+builddir=$1;
+srcdir=$2;
+hmmfile=$3;
+tmppfx=$4;
+
+hmmscan=$builddir/src/hmmscan;     if test ! -x $hmmscan;   then echo "FAIL: $hmmscan not executable";   exit 1; fi
+hmmsearch=$builddir/src/hmmsearch; if test ! -x $hmmsearch; then echo "FAIL: $hmmsearch not executable"; exit 1; fi
+phmmer=$builddir/src/phmmer;       if test ! -x $phmmer;    then echo "FAIL: $phmmer not executable";    exit 1; fi
+jackhmmer=$builddir/src/jackhmmer; if test ! -x $jackhmmer; then echo "FAIL: $jackhmmer not executable"; exit 1; fi
+                                   if test ! -r $hmmfile;   then echo "FAIL: $hmmfile not readable";     exit 1; fi
+
+fafile=$tmppfx.fa
+
+cat > $fafile <<EOF
+>foo
+>bar
+YYYYY
+EOF
+
+$hmmscan   $hmmfile $fafile > /dev/null 2>&1; if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+$hmmsearch $hmmfile $fafile > /dev/null 2>&1; if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+$phmmer    $fafile $fafile  > /dev/null 2>&1; if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+$jackhmmer $fafile $fafile  > /dev/null 2>&1; if test $? -ne 0; then echo "FAIL: crash"; exit 1; fi
+
+echo "ok"
+
+rm $fafile
+exit 0
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i5-hmmbuild-naming.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i5-hmmbuild-naming.pl
new file mode 100755
index 0000000..7131cdc
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i5-hmmbuild-naming.pl
@@ -0,0 +1,54 @@
+#! /usr/bin/perl
+
+# Test that HMM naming in hmmbuild works as advertised.
+# Written to test for #h50.
+# SRE, Tue Apr 28 14:00:51 2009
+#
+# Usage:    ./i5-hmmbuild-naming.pl  <builddir> <srcdir> <tmpfile prefix>
+# Example:  ./i5-hmmbuild-naming.pl  ..          ..      tmpfoo
+
+$builddir     = shift;
+$srcdir       = shift;
+$tmppfx       = shift;
+
+
+if (! -x "$builddir/src/hmmbuild")        { print "FAIL: didn't find hmmbuild binary $builddir/src/hmmbuild\n"; exit 1; }  
+if (! -r "$srcdir/testsuite/20aa.sto")    { print "FAIL: didn't find $srcdir/testsuite/20aa.sto\n";             exit 1; }
+if (! -r "$srcdir/tutorial/fn3.sto")      { print "FAIL: didn't find $srcdir/tutorial/globins4.sto\n";          exit 1; }
+if (! -r "$srcdir/tutorial/globins4.sto") { print "FAIL: didn't find $srcdir/tutorial/globins4.sto\n";          exit 1; }
+
+system("$builddir/src/hmmbuild $tmppfx.hmm $srcdir/testsuite/20aa.sto > /dev/null");    
+if ($? != 0)                          { print "FAIL: hmmbuild failed unexpectedly\n";         exit 1; }
+$name = `cat $tmppfx.hmm | grep "^NAME"`;
+if ($name !~ /^NAME \s*test/)         { print "FAIL: default naming by MSA name fails\n";     exit 1; }
+
+system("$builddir/src/hmmbuild $tmppfx.hmm $srcdir/tutorial/globins4.sto > /dev/null"); 
+if ($? != 0)                          { print "FAIL: hmmbuild failed unexpectedly\n";         exit 1; }
+$name = `cat $tmppfx.hmm | grep "^NAME"`;
+if ($name !~ /^NAME \s*globins4/)     { print "FAIL: naming using file name fails\n";         exit 1; }
+
+system("$builddir/src/hmmbuild -n myname $tmppfx.hmm $srcdir/tutorial/fn3.sto > /dev/null");
+if ($? != 0)                          { print "FAIL: hmmbuild failed unexpectedly\n";         exit 1; }
+$name = `cat $tmppfx.hmm | grep "^NAME"`;
+if ($name !~ /^NAME \s*myname/)       { print "FAIL: naming using -n fails\n";                exit 1; }
+
+# >1 alignment in file; both have MSA names. 
+# default will work; -n will fail.
+#
+system("cat $srcdir/testsuite/20aa.sto $srcdir/tutorial/fn3.sto > $tmppfx.sto");
+system("$builddir/src/hmmbuild $tmppfx.hmm $tmppfx.sto > /dev/null");                 if ($? != 0) { print "FAIL: hmmbuild failed on multi MSA file\n";    exit 1; }
+system("$builddir/src/hmmbuild -n myname $tmppfx.hmm $tmppfx.sto > /dev/null 2>&1");  if ($? == 0) { print "FAIL: hmmbuild -n should have failed\n";       exit 1; }
+
+# >1 alignment in file; first or second one lacks MSA name.
+# default will fail.
+#
+system("cat $srcdir/testsuite/20aa.sto $srcdir/tutorial/globins4.sto > $tmppfx.sto");
+system("$builddir/src/hmmbuild $tmppfx.hmm $tmppfx.sto > /dev/null 2>&1");            if ($? == 0) { print "FAIL: hmmbuild should have failed\n";    exit 1; }
+system("cat $srcdir/tutorial/globins4.sto $srcdir/testsuite/20aa.sto > $tmppfx.sto");
+system("$builddir/src/hmmbuild $tmppfx.hmm $tmppfx.sto > /dev/null 2>&1");            if ($? == 0) { print "FAIL: hmmbuild should have failed\n";    exit 1; }
+
+
+print "ok\n"; 
+unlink "$tmppfx.hmm";
+unlink "$tmppfx.sto";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i6-hmmalign-mapali.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i6-hmmalign-mapali.pl
new file mode 100755
index 0000000..e9d8133
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i6-hmmalign-mapali.pl
@@ -0,0 +1,45 @@
+#! /usr/bin/perl
+
+# Test the hmmalign --mapali option.
+# 
+# Usage:    ./i6-hmmalign-mapali.pl  <hmmalign binary>     <esl-reformat binary>        <testsuitedir> <tmpfile prefix>
+# Example:  ./i6-hmmalign-mapali.pl  ../src/hmmalign    ../easel/miniapps/esl-reformat     .               foo
+#
+# SRE, Mon May 25 09:52:48 2009
+
+
+$hmmalign     = shift;
+$eslreformat  = shift;
+$testsuitedir = shift;
+$tmppfx       = shift;
+
+if (! -x "$hmmalign")                    { print "FAIL: didn't find hmmalign binary $hmmalign\n";        exit 1; }  
+if (! -x "$eslreformat")                 { print "FAIL: didn't find esl-reformat binary $eslreformat\n"; exit 1; } 
+if (! -r "$testsuitedir/Caudal_act.hmm") { print "FAIL: didn't find $testsuitedir/Caudal_act.hmm\n";     exit 1; }
+if (! -r "$testsuitedir/Caudal_act.sto") { print "FAIL: didn't find $testsuitedir/Caudal_act.sto\n";     exit 1; }
+
+
+system("$eslreformat -u --rename foo fasta $testsuitedir/Caudal_act.sto > $tmppfx.fa");
+if ($? != 0)   { print "FAIL: esl-reformat failed unexpectedly\n"; exit 1; }
+
+system("$hmmalign -o $tmppfx.sto  --mapali $testsuitedir/Caudal_act.sto $testsuitedir/Caudal_act.hmm $tmppfx.fa");
+if ($? != 0)   { print "FAIL: hmmalign failed unexpectedly\n"; exit 1; }
+
+system("$eslreformat -u fasta $tmppfx.sto > $tmppfx.2.fa");
+if ($? != 0)   { print "FAIL: esl-reformat failed unexpectedly\n"; exit 1; }
+
+system("$eslreformat -u fasta $testsuitedir/Caudal_act.sto > $tmppfx.3.fa");
+if ($? != 0)   { print "FAIL: esl-reformat failed unexpectedly\n"; exit 1; }
+
+system("cat $tmppfx.fa >> $tmppfx.3.fa");
+if ($? != 0)   { print "FAIL: cat failed unexpectedly\n"; exit 1; }
+
+system("diff $tmppfx.2.fa $tmppfx.3.fa");
+if ($? != 0)   { print "FAIL: --mapali doesn't produce expected sequences\n"; exit 1; }
+
+print "ok\n"; 
+unlink "$tmppfx.fa";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.2.fa";
+unlink "$tmppfx.3.fa";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i7-hmmbuild-fragments.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i7-hmmbuild-fragments.pl
new file mode 100755
index 0000000..07c17b7
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i7-hmmbuild-fragments.pl
@@ -0,0 +1,46 @@
+#! /usr/bin/perl
+
+# Test the ability of hmmbuild to deal with crappy alignments
+# of lots of sequence fragments.
+#
+# Usage:    ./i7-hmmbuild-fragments.pl <hmmbuild binary> <tmpfile prefix>
+# Example:  ./i7-hmmbuild-fragments.pl ../src/hmmbuild   foo
+# 
+# SRE, Tue Jun 16 13:37:05 2009
+# SVN $Id$
+
+$hmmbuild = shift;
+$tmppfx   = shift;
+
+if (! -x "$hmmbuild")           { die "FAIL: didn't find hmmalign binary $hmmalign\n";  }
+open (TMPFILE, ">$tmppfx.sto") || die "FAIL: couldn't open $tmppfx.sto for writing\n";   
+print TMPFILE << "EOF";
+# STOCKHOLM 1.0
+
+#=GF ID test
+
+seq1 ACDEFGHIKL------------------------------
+seq2 ----------MNPQRSTVWY--------------------
+seq3 --------------------ACDEFGHIKL----------
+seq4 ------------------------------MNPQRSTVWY
+//
+EOF
+close TMPFILE;
+
+
+$output = `$hmmbuild -O $tmppfx.sto2 $tmppfx.hmm $tmppfx.sto 2>&1`;
+if ($? != 0)   { die "FAIL: hmmbuild failed unexpectedly\n"; }
+
+$output =~ /1\s+test\s+4\s+40\s+(\d+)/;
+if ($1 != 40)  { die "FAIL: should've built a M=40 model\n"; }
+
+
+$output = `$hmmbuild --fragthresh 0.0 $tmppfx.hmm $tmppfx.sto 2>&1`;
+if ($? == 0)   { die "FAIL: hmmbuild should have failed but didn't\n"; }
+
+
+print "ok\n"; 
+unlink "$tmppfx.sto";
+unlink "$tmppfx.sto2";
+unlink "$tmppfx.hmm";
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i8-nonresidues.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i8-nonresidues.pl
new file mode 100755
index 0000000..333a386
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i8-nonresidues.pl
@@ -0,0 +1,74 @@
+#! /usr/bin/perl
+
+# Regression test of handling a nonresidue '*' character. By design,
+# '*' residues score 0 in insert states and N,C,J; and -inf in match
+# states. Test case verifies that an inserted * is handled within one
+# alignment, and a consensus * breaks an alignment in two.
+# Implemented as a regression test against specific scores (in domtbl
+# output) of a small manually checked example.
+#
+# Usage:    ./i8-nonresidues.pl <builddir> <srcdir> <tmpfile prefix>
+# Example:  ./i8-nonresidues.pl ..         ..        tmpfoo
+#
+# SRE, Thu Oct 29 08:38:09 2009
+# SVN $Id$
+
+BEGIN {
+    $builddir = shift;
+    $srcdir   = shift;
+    $tmppfx   = shift;
+}
+
+use lib "$srcdir/testsuite";
+use h3;
+
+$hmmsearch = "$builddir/src/hmmsearch";
+$hmm20aa   = "$srcdir/testsuite/20aa.hmm";
+
+# Two test sequences, to be aligned to 20aa.hmm
+# First one will get parsed into two domains (consensus L replaced by '*')
+# Second one will get parsed into one domain because '*' is an insertion;
+# this is a "feature" of insertions being scored as 0 regardless of 
+# residue identity.
+# 
+if (! open(FP1, ">$tmppfx.1")) { print "FAIL: couldn't open $tmppfx.1 for writing"; exit 1; }
+if (! open(FP2, ">$tmppfx.2")) { print "FAIL: couldn't open $tmppfx.2 for writing"; exit 1; }
+
+print FP1 <<"EOF";
+>test1
+ACDEFGHIK*MNPQRSTVWY
+EOF
+
+print FP2 <<"EOF";
+>test2
+ACDEFGHIKL*MNPQRSTVWY
+EOF
+
+system("$hmmsearch --domtblout $tmppfx.dom $hmm20aa $tmppfx.1 > $tmppfx.out 2>&1");
+if ($? != 0) { die "FAIL: hmmsearch failed on first test sequence\n"; }
+&h3::ParseDomTbl("$tmppfx.dom");
+
+# Verify.
+if ($h3::ndomtbl    != 2)      { printf("FAIL: expected two lines in domtbl; saw %d\n",    $h3::ndomtbl);    exit 1; }
+if ($h3::ndom[0]    != 2)      { printf("FAIL: expected two domains; saw %d\n",            $h3::ndom[0]);    exit 1; }
+if ($h3::seqsc[0]   != "45.8") { printf("FAIL: expected seq score of 41.8; saw %s\n",      $h3::seqsc[0]);   exit 1; }
+if ($h3::seqbias[0] != "11.8") { printf("FAIL: expected seq bias of 11.8; saw %s\n",       $h3::seqbias[0]); exit 1; }
+if ($h3::domsc[0]   != "23.6") { printf("FAIL: expected domain 1 score of 23.6; saw %s\n", $h3::domsc[0]);   exit 1; }
+if ($h3::domsc[1]   != "28.2") { printf("FAIL: expected domain 1 score of 28.2; saw %s\n", $h3::domsc[1]);   exit 1; }
+
+system("$hmmsearch --domtblout $tmppfx.dom $hmm20aa $tmppfx.2 > $tmppfx.out 2>&1");
+if ($? != 0) { print "FAIL: hmmsearch failed on second test sequence"; }
+&h3::ParseDomTbl("$tmppfx.dom");
+
+if ($h3::ndomtbl    != 1)      { printf("FAIL: expected one line in domtbl; saw %d\n",     $h3::ndomtbl);    exit 1; }
+if ($h3::ndom[0]    != 1)      { printf("FAIL: expected one domains; saw %d\n",            $h3::ndom[0]);    exit 1; }
+if ($h3::seqsc[0]   != "64.6") { printf("FAIL: expected seq score of 64.6; saw %s\n",      $h3::seqsc[0]);   exit 1; }
+if ($h3::seqbias[0] != "0.1")  { printf("FAIL: expected seq bias of 0.1; saw %s\n",        $h3::seqbias[0]); exit 1; }
+if ($h3::domsc[0]   != "64.5") { printf("FAIL: expected domain 1 score of 64.5; saw %s\n", $h3::domsc[0]);   exit 1; }
+
+print "ok\n";
+unlink "$tmppfx.1";
+unlink "$tmppfx.2";
+unlink "$tmppfx.out";
+exit 0;
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i9-optional-annotation.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i9-optional-annotation.pl
new file mode 100755
index 0000000..cf24dc1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/i9-optional-annotation.pl
@@ -0,0 +1,112 @@
+#! /usr/bin/perl
+
+# Check that we can deal with HMMs with no optional annotation, in either
+# hmmscan or hmmsearch mode.
+# Bug #h69 segfaulted on this test.
+#
+# Usage:   ./i9-optional-annotation.pl <builddir> <srcdir> <tmpfile prefix>
+# Example: ./i9-optional-annotation.pl ..         ..       tmpfoo
+#
+# SRE, Sun Nov 29 11:49:39 2009
+# SVN $Id: i9-optional-annotation.pl 3145 2010-02-03 16:55:42Z eddys $
+
+BEGIN {
+    $builddir  = shift;
+    $srcdir    = shift;
+    $tmppfx    = shift;
+}
+use lib "$srcdir/testsuite";
+use h3;
+
+# Verify that we have all the executables we need for the test.
+if (! -x "$builddir/src/hmmbuild")   { die "FAIL: didn't find hmmbuild binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmpress")   { die "FAIL: didn't find hmmpress binary in $builddir/src\n";  }
+if (! -x "$builddir/src/hmmsearch")  { die "FAIL: didn't find hmmsearch binary in $builddir/src\n"; }
+if (! -x "$builddir/src/hmmscan")    { die "FAIL: didn't find hmmscan binary in $builddir/src\n";   }
+
+
+# Create our test files.
+if (! open(ALI1, ">$tmppfx.sto")) { die "FAIL: couldn't open $tmppfx.sto for write\n";  }
+if (! open(SEQ1, ">$tmppfx.seq")) { die "FAIL: couldn't open $tmppfx.seq for write\n";  }
+
+print ALI1 <<"EOF";
+# STOCKHOLM 1.0
+#=GF ID ali1 
+#=GF AC XX01234.5
+#=GF DE A test description
+seq1 ACDEFGHIKLMNPQRSTVWY
+seq2 ACDEFGHIKLMNPQRSTVWY
+seq3 ACDEFGHIKLMNPQRSTVWY
+//
+# STOCKHOLM 1.0
+#=GF ID ali2
+seq1 ACDEFGHIKLMNPQRSTVWY
+seq2 ACDEFGHIKLMNPQRSTVWY
+seq3 ACDEFGHIKLMNPQRSTVWY
+//
+EOF
+
+print SEQ1 <<"EOF";
+ID   test1   STANDARD;  PRT;  20 AA.
+AC   AC00001;
+DE   Sequence description
+SQ   SEQUENCE   20 AA; 99999 MW;  FFFFFFFFFFFFFFFF CRC64;
+     ACDEFGHIKLMNPQRSTVWY
+//
+ID   test2   STANDARD;  PRT;  20 AA.
+SQ   SEQUENCE   20 AA; 99999 MW;  FFFFFFFFFFFFFFFF CRC64;
+     ACDEFGHIKLMNPQRSTVWY
+//
+EOF
+
+close ALI1;
+close SEQ1;
+
+@output = `$builddir/src/hmmbuild $tmppfx.hmm $tmppfx.sto 2>&1`;
+if ($? != 0) { die "FAIL: hmmbuild failed\n"; }
+@output = `$builddir/src/hmmpress $tmppfx.hmm             2>&1`;
+if ($? != 0) { die "FAIL: hmmpress failed\n"; }
+
+@output = `$builddir/src/hmmscan --tblout $tmppfx.tbl1 --domtblout $tmppfx.dtbl1 $tmppfx.hmm $tmppfx.seq  2>&1`;
+if ($? != 0) { die "FAIL: hmmscan failed\n"; }
+
+
+&h3::ParseDomTbl("$tmppfx.dtbl1");
+if ($h3::ndomtbl    != 4)                    { die "FAIL: on expected number lines, dtbl1\n";   }
+if ($h3::tname[0]   ne "ali1")               { die "FAIL: on line 0 target name, dtbl1\n";      }
+if ($h3::tacc[0]    ne "XX01234.5")          { die "FAIL: on line 0 accession, dtbl1\n";        }
+if ($h3::tdesc[0]   ne "A test description") { die "FAIL: on line 0 desc, dtbl1\n";             }
+if ($h3::qname[0]   ne "test1")              { die "FAIL: on line 0 query name, dtbl1\n";       }
+if ($h3::qacc[0]    ne "AC00001")            { die "FAIL: on line 0 query accession, dtbl1\n";  }
+if ($h3::tname[1]   ne "ali2")               { die "FAIL: on line 1 target name, dtbl1\n";      }
+if ($h3::tacc[1]    ne "-")                  { die "FAIL: on line 1 accession, dtbl1\n";        }
+if ($h3::tdesc[1]   ne "-")                  { die "FAIL: on line 1 desc, dtbl1\n";             }
+if ($h3::qname[2]   ne "test2")              { die "FAIL: on line 2 query name, dtbl1\n";       }
+if ($h3::qacc[2]    ne "-")                  { die "FAIL: on line 2 query accession, dtbl1\n";  }
+
+@output = `$builddir/src/hmmsearch --tblout $tmppfx.tbl2 --domtblout $tmppfx.dtbl2 $tmppfx.hmm $tmppfx.seq 2>&1`;
+if ($? != 0) { die "FAIL: hmmsearch failed\n"; }
+
+&h3::ParseDomTbl("$tmppfx.dtbl2");
+if ($h3::ndomtbl    != 4)                      { die "FAIL: on expected number lines, dtbl2\n";   }
+if ($h3::tname[0]   ne "test1")                { die "FAIL: on line 0 target name, dtbl2\n";      }
+if ($h3::tacc[0]    ne "AC00001")              { die "FAIL: on line 0 accession, dtbl2\n";        }
+if ($h3::tdesc[0]   ne "Sequence description") { die "FAIL: on line 0 desc, dtbl2\n";             }
+if ($h3::qname[0]   ne "ali1")                 { die "FAIL: on line 0 query name, dtbl2\n";       }
+if ($h3::qacc[0]    ne "XX01234.5")            { die "FAIL: on line 0 query accession, dtbl2\n";  }
+if ($h3::tname[1]   ne "test2")                { die "FAIL: on line 1 target name, dtbl2\n";      }
+if ($h3::tacc[1]    ne "-")                    { die "FAIL: on line 1 accession, dtbl2\n";        }
+if ($h3::tdesc[1]   ne "-")                    { die "FAIL: on line 1 desc, dtbl2\n";             }
+if ($h3::qname[2]   ne "ali2")                 { die "FAIL: on line 2 query name, dtbl2\n";       }
+if ($h3::qacc[2]    ne "-")                    { die "FAIL: on line 2 query accession, dtbl2\n";  }
+
+
+print "ok\n";
+unlink "$tmppfx.sto";
+unlink "$tmppfx.seq";
+unlink "$tmppfx.tbl1";
+unlink "$tmppfx.tbl2";
+unlink "$tmppfx.dtbl1";
+unlink "$tmppfx.dtbl2";
+unlink <$tmppfx.hmm*>;
+exit 0;
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/minifam b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/minifam
new file mode 100755
index 0000000..caa8fea
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/minifam
@@ -0,0 +1,239 @@
+# STOCKHOLM 1.0
+#=GF ID   BCSC_C
+#=GF AC   PF05420.2
+#=GF DE   Cellulose synthase operon protein C C-terminus (BCSC_C)
+#=GF PI   BCSC_N;
+#=GF AU   Moxon SJ
+#=GF SE   Pfam-B_10335 (release 8.0)
+#=GF GA   25.00 25.00; 25.00 25.00;
+#=GF TC   162.20 162.20; 168.70 46.60;
+#=GF NC   -118.00 -118.00; 23.70 21.00;
+#=GF TP   Family
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF RN   [1]
+#=GF RM   11260463
+#=GF RT   The multicellular morphotypes of Salmonella typhimurium and
+#=GF RT   Escherichia coli produce cellulose as the second component
+#=GF RT   of the extracellular matrix. 
+#=GF RA   Zogaj X, Nimtz M, Rohde M, Bokranz W, Romling U; 
+#=GF RL   Mol Microbiol 2001;39:1452-1463.
+#=GF DR   INTERPRO; IPR008410;
+#=GF CC   This family contains the C-terminal regions of several bacterial cellulose
+#=GF CC   synthase operon C (BCSC) proteins. BCSC is involved in cellulose synthesis
+#=GF CC   although the exact function of this protein is unknown [1].
+#=GF SQ   7
+#=GS BCSC_PSEFL/933-1262   AC P58937.1
+#=GS BCSC_XANAC/1108-1489  AC P58938.1
+#=GS BCSC2_ACEXY/929-1326  AC O82861.1
+#=GS ACSC_ACEXY/943-1302   AC P37718.1
+#=GS BCSC4_ACEXY/968-1307  AC Q9WX71.1
+#=GS BCSC_ECOLI/784-1123   AC P37650.2
+#=GS O67403_AQUAE/1-313    AC O67403.1
+BCSC_PSEFL/933-1262              LSKITDVEAPFEARMPV..G.....DNTVALRVTPVHLSAGSVKAES.....LSRFGKGGTEPAGSQS.........................DSGVGLAVAFENPDQGLKADVGVSPLGFLYNTLVGGVSVSRPFEANSNFRYGANISRRPVTDSVTSFAGSED...GA....................GNKWGGVTANGGRGELSYDNQKL.GVYGY..ASLHELLGNNVEDNTRLELGSGIYWYLRNNPRDT.LTLGISGSAMTFKENQDFYTYGNGGYFSPQRFFSLGVPIRWAQSFDR..FSYQVKSSVGLQHIAQDGADYFPGDSTLQA......................TKNNPKYDSTSKTGVGYSFNAAAEYRLSSRFYLGGEIGLDNAQDYRQYAGNAYLRYLFEDL
+BCSC_XANAC/1108-1489             NNNSTAAALAALANEPLPAYLLSINASNTPIGQLARDILGNAALSEQLGAGDAAALRALAGSTAAAQQTPTGLADTLNAMAASGNGSRRLSQDDTGVGVGVRYRN..GGFSAELGSTPIGFQEQNLIGGVGYRG..ELGDTVSWSAEASRRAVTDSVLSFAGAQD..ARS....................GRQWGGVTSTGLSLSATADNGLL.GGYAN..LAAHRLQGNNVADNDHRQVDLGFYVHALETEHQS.LTAGVNLTTMQYDKNLSGFTYGHGGYFSPQDYVDLGFPVHWSGRTAGQTVNWKVDASVGVQHFSTEASPYFPTDPTLQQ......AAYDAASLAALLGLVDRYTDPVYASESRTGVSYNLSGAAEWQVAPQLFLGGRLTFNNARDYNQFSSNLYLRFVMDRL
+BCSC2_ACEXY/929-1326             MGRLTEANIPIVGRLPLQAG.....ASALTFSITPTMIWSGQLNTGSVYD..VPRYGTFMATQAANQCAGHSSCGGLDFLSANHTQRIAAGAGEAGFAPDVQFGN..SWVRADVCASPIGFPITNVLGGVEFSP..RV.GPVTFRVSAERRSITNSVLSYGGLRD..PNYNSEVGRYARQVYGHDLTKQWGSEWGGVVTNHFHGQVEATLGNT.ILYGG..GGYAIQTGKNVQRNSEREAGIGANTLVWHNANML.VRIGVSLTYFGYAHNEDFYTYGQGGYFSPQSYYAATVPVRYAGQHKR..LDWDVTGSVGYQVFHEHAAPFFPTSSLLQSGANYVASNFVQNALPTDYLSQETVNSAYYPGDSIAGLTGGFNARVGYRFTRNVRLDLSGRYQKAGNWTESGAMISAHYLIMDQ
+ACSC_ACEXY/943-1302              MGALTEASVPIVGRIPLQAG.....TSALTFTATPTFLTSGHL.PQTGYD..IPRFGTNLFALERNLQNQNN........SAEHRINTDTIGREAGVAPDVRFAN..NWVSADVGASPLGFTLPNVIGGVEFAP..RV.GPVTFRVSGERRSITNSVLSYGGMTD..ALT....................GKKWGGVVTNHFHGQVEATLGNT.IVYGG..GGYAIQTGHHVQSNTEVEGGLGANTLVYRNRKHE.VRVGVNLTYFGYKHNEDFYTYGQGGYFSPQSYFAATVPVRYSGHSGL..FDWDVTGSIGYQLFHEHSSAFFPTNPVYQA.........LANGLAGVSTAELSLESARYPGDDVGSLVGGFDGRVGYRVSHSLRLDLSGRFQKAGNWDEGGAMISAHYLIMDQ
+BCSC4_ACEXY/968-1307             LGQLTEFAVPITATLPFESW.....DHRLSFSVTPTLLFTGDP.LTNAVS..AHQFGTVAVNGARPWGYHHY....................YTQGVGLSLNYVN..RWFAADVGSSPLGFPITNVVGGLEFAP..RLTRNLGLRISGGRRMVTDSELSYAGERD..PGT....................GKLWGGVTRLFGHGALEWSARGW.NAYAG..GGFAYLGGTNVIGNTETEAGAGGSATVWQDHDRQWLRVGLDLMYFGYKRNAYFFTWGQGGYFSPRQYFGAMVPVEWSGHNRR..WTWFLRGEAGYQYYHSNAAPYFPTSAQLQG...................QADGSPPSYYGDSGASGLAGNMRGRLVYQLDHRLRIGLEGGYSRAGSWSETSGMWMAHYTLDGQ
+BCSC_ECOLI/784-1123              YSDLKAHTTMLQVDAPY..S.....DGRMFFRSDFVNMNVGSF.STNADGKWDDNWGTCTLQDCSGNR.SQS.....................DSGASVAVGWRN..DVWSWDIGTTPMGFNVVDVVGGISYS...DDIGPLGYTVNAHRRPISSSLLAFGGQKDSPSNT....................GKKWGGVRADGVGLSLSYDKGEANGVWAS..LSGDQLTGKNVEDNWRVRWMTGYYYKVINQNNRR.VTIGLNNMIWHYDKDLSGYSLGQGGYYSPQEYLSFAIPVMWRERTEN..WSWELGASGSWSHSRTKTMPRYPLMNLIPT..................DWQEEAARQSNDGGSSQGFGYTARALLERRVTSNWFVGTAIDIQQAKDYAPSHFLLYVRYSAAGW
+O67403_AQUAE/1-313               MDKLIHTSVYLNAEKKLARGFYLWTENDLIF.............LDSGGKPDYTHFGGINLPVIRDTDTSFI...................GIEPMVGVRVGRKS...YLKLGIGSTPFGNSKVRPTFRGIFEANYRE.EDILLRLTLKRDSVRDSLLSYVGAKD..PHA....................DREWGRVVEQGGEVKFQLGSGYR.ESFLSLKGGYYDIEGKNVNDNSRYFLEIYPSLYLGNLLIDE.NYLGLFFRYENYDKNENLFYFGNGGYFSPKNFVLLG..PKYTGYFYTDRLMFRLNLLLGFLRFETD...........................................GDTTNTLAADISGEFEYKLKEKISLIGGLGYRNSKDYDEVSLNMGVKYYFNGL
+#=GC seq_cons                    hupLTcsslsl.uchPl.tu.....ssslsFp.sss.l.sGph.spsshs..hspaGshshssstspp.tp......................-sGVulsVtatN..phhpADlGuoPlGFshssllGGlpaus..ch.sslsaplsupRRslTsSlLSauGtcD..sts....................G+cWGGVsssthcsplphstGth.tsYuu..uuht.lpGpNVpcNochchshGh.hhlhpstpcp.lplGlshphhsYc+NtshaTaGpGGYFSPQpYhuhslPV+auGpptp..hsWclsuSlGaQhacpcuusaFPssshlQs......................phssshYsusotsGluhshsuthtY+lspplhLshphsappAtsaspsuu.hhs+Yhhts.
+//
+# STOCKHOLM 1.0
+#=GF ID   Ependymin
+#=GF AC   PF00811.9
+#=GF DE   Ependymin
+#=GF AU   Bateman A
+#=GF SE   Pfam-B_1391 (release 2.1)
+#=GF GA   25.00 25.00; 25.00 25.00;
+#=GF TC   119.70 119.70; 26.10 26.10;
+#=GF NC   22.20 22.20; 24.30 24.30;
+#=GF TP   Family
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF DR   PROSITE; PDOC00699;
+#=GF DC   The following Pfam-B family may contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB011734;
+#=GF DR   INTERPRO; IPR001299;
+#=GF SQ   7
+#=GS Q90492_9TELE/6-178  AC Q90492.1
+#=GS Q91331_9TELE/6-179  AC Q91331.1
+#=GS EPD1_CARAU/24-197   AC P13506.2
+#=GS Q91464_9TELE/5-186  AC Q91464.1
+#=GS Q91465_9TELE/6-184  AC Q91465.1
+#=GS EPD_CLUHA/22-197    AC P32187.1
+#=GS EPD1_ONCMY/26-200   AC P28770.1
+Q90492_9TELE/6-178             RQPCQSPSMTSGTLTVCSTGGHTVASGDFSYDSTAKKLRFVEDN.HSNKTSHMD.VLIHFEEGLMYELDSKNESCKKHTLQSRKHPMELPADASHENEMYLGSPSISEQGLRLRLWSGKLPDLHA........QYSMWTTSCGCLTVSCAYHAEKND.LIFSFFKVETEVND.SQVFVPPAYCDG
+Q91331_9TELE/6-179             RVPCPSPSMISGTLTVRSSGGHTVATGEFNYDSTGKKLHFLEKNDDSNKTSHID.VLIHFEEGVIYELDSKNESCKKQTLKSRKHPMELPADASHDSEVYLGSLVVPEQGLRLRVWTGKLPDLHA........QYTMLTTSCGCLTVSCYYHSDKTD.LIFSFLDVETHVDD.PQVFVPRPTCDG
+EPD1_CARAU/24-197              RQPCHAPPLTSGTMKVVSTGGHDLESGEFSYDSKANKFRFVEDTAHANKTSHMD.VLIHFEEGVLYEIDSKNESCKKETLQFRKHLMEIPPDATHESEIYMGSPSITEQGLRVRVWNGKFPELHA........HYSMSTTSCGCLPVSGSYHGEKKD.LHFSFFGVETEVDD.LQVFVPPAYCEG
+Q91464_9TELE/5-186             REPCRSPPKTSGTLCVSSSKDDAIAWGEFKYDSSQKHLRFVEDTGKSNKTSYLD.VLIDFDKGVLYELDTKNESCRKQMLPSHKHPLELPSDATHVEELYLGRLDKTEQGLRVRLWSGNLSDHDAHHADHVQAHYSMTTTSCGCIAVSYTYHSEKND.LVFSFYNVKARVDD.SQAFTPPRYCEG
+Q91465_9TELE/6-184             REPCRSPSKTSGTVCVSSTKDDTIAWGEFKYDSTHKRLRFVEDCSKSNKTSHLD.VLIHFEEGVLYELDPKNESCKKEPLPSHKHPLEVPSDATHMDELYLGSPDKSDQGLRVRLWSGNISHHNP...DHTPDHYSITTTSCGCITVSCTYHGEKND.LIFSFYNVKTEVDD.MQVFNPPDYCDD
+EPD_CLUHA/22-197               HQPCRPPPQTHGNLWVTAAKGAPASVGEFNYDSQARKLHFKDDALHVNKTDHLE.MLIFFEEGIFYDIDSHNQSCHKKTLQSTYHCLEVPPNATHVTEGYLGSEFIGDQGVRMRKWRKRVPELDG........VVTVATTSCGCVTLFATLFTDSNDVLVFNFLDVEMKVKNPLEVFVPPSYCDG
+EPD1_ONCMY/26-200              PQHCTSPNMTGVLTVLALTGGEIKATGHYSYDSTDKKIRFTESEMHLNKTEHLEDYLMLFEEGVFYDIDMKNQSCKKMSLHSHAHALELPAGAAHQVELFLGSDTVQEEDIKVNIWTGSVPETKG........QYFLSTTVGECLPLSTFYSTDSIT.LLFSNSEVVTEVKA.PEVFNLPSFCEG
+#=GC seq_cons                  RpPCpSPshTSGTlsVsSotGcslAsGEFsYDSosKKLRFlEDs.+uNKTSHlD.VLIaFEEGVhYElDoKNESCKKpoLpS+KHshElPuDAoH.sElYLGS.slsEQGLRlRlWoGplP-hcu........pYohsTTSCGClsVSssYHu-KsD.LlFSFhsVcTcVcD..QVFsPPsYC-G
+//
+# STOCKHOLM 1.0
+#=GF ID   Como_SCP
+#=GF AC   PF02248.7
+#=GF DE   Small coat protein
+#=GF AU   Bateman A, Mian N
+#=GF SE   Pfam-B_2294 (release 5.2)
+#=GF GA   -60.00 -60.00; 25.00 25.00;
+#=GF TC   97.20 97.20; 171.90 171.90;
+#=GF NC   -85.00 -85.00; 13.10 13.10;
+#=GF TP   Domain
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF RN   [1]
+#=GF RM   1546463
+#=GF RT   Nucleotide sequence and genetic map of cowpea severe mosaic
+#=GF RT   virus RNA 2 and comparisons with RNA 2 of other
+#=GF RT   comoviruses. 
+#=GF RA   Chen X, Bruening G; 
+#=GF RL   Virology 1992;187:682-692.
+#=GF DR   SCOP; 1bmv; fa;
+#=GF DR   INTERPRO; IPR003182;
+#=GF CC   This family contains the small coat protein (SCP) [1] of the 
+#=GF CC   comoviridae viral family.
+#=GF SQ   10
+#=GS Q9YWK0_9COMO/739-920   AC Q9YWK0.1
+#=GS Q9YWJ9_9COMO/828-1009  AC Q9YWJ9.1
+#=GS VGNM_SQMVM/622-803     AC P36341.2
+#=GS VGNM_BPMV/821-1004     AC P23009.2
+#=GS VGNM_BPMV/821-1004     DR PDB; 1pgw 1; 1-184;
+#=GS VGNM_BPMV/821-1004     DR PDB; 1pgl 1; 1-184;
+#=GS VGNM_BPMV/821-1004     DR PDB; 1bmv 1; 1001-1184;
+#=GS VGNM_RCMV/786-964      AC P13561.1
+#=GS Q66170_CPMV/720-899    AC Q66170.1
+#=GS VGNM_CPMV/837-1016     AC P03599.1
+#=GS VGNM_CPMV/837-1016     DR PDB; 2bfu S; 4-183;
+#=GS VGNM_CPMV/837-1016     DR PDB; 1ny7 1; 4-183;
+#=GS VGNM_CPSMV/808-988     AC P31630.1
+#=GS Q66179_APMV/2-185      AC Q66179.1
+#=GS VGNM_APMV/802-985      AC P38485.1
+Q9YWK0_9COMO/739-920              MVQQLGTYNPIWMVRTPLES.TAPQNFASFTADLMESTVSGDSTG.NWSITAYPSPISNLLKVAAWKKGTIRFQLICRG.AAVKQSDWAASARIDLVNNLSNKALPARSWYITKPRGGDIEFDLEIAGPNNGFEMANSSWAFQTTWYLEIAIDNPKQFTLFELNACLMEDFEVAGNTLNPPILLS
+Q9YWJ9_9COMO/828-1009             MVQQLGTYNPIWMVRTPLES.TAQQNFASFTADLMESTISGDSTG.NWNITVYPSPIANLLKVAAWKKGTIRFQLICRG.AAVKQSDWAASARIDLINNLSNKALPARSWYITKPRGGDIEFDLEIAGPNNGFEMANSSWAFQTTWYLEIAIDNPKQFTLFELNACLMEDFEVAGNTLNPPILLS
+VGNM_SQMVM/622-803                MVQQLGTYNPIWMVRTPLES.TAQQNFASFTADLMESTISGDSTG.NWNITVYPSPIANLLKVAAWKKGTIRFQLICRG.AAVKQSDWAASARIDLINNLSNKALPARSWYITKPRGGDIEFDLEIAGPNNGFEMANSSWAFQTTWYLEIAIDNPKQFTLFELNACLMEDFEVAGNTLNPPILLS
+VGNM_BPMV/821-1004                SISQQTVWNQMATVRTPLNFDSSKQSFCQFSVDLLGGGISVDKTG.DWITLVQNSPISNLLRVAAWKKGCLMVKVVMSGNAAVKRSDWASLVQVFLTNSNSTEHFDACRWTKSEPHSWELIFPIEVCGPNNGFEMWSSEWANQTSWHLSFLVDNPKQSTTFDVLLGISQNFEIAGNTLMPAFSVP
+#=GR VGNM_BPMV/821-1004     SS    ----TT--EEEEEEE--TT--TTT-SEEEEEEETTTTEEEE-SSS.--EEEE---HHHHHHHHEESEEEEEEEEEEEE--TTS-GGG---EEEEEEESSSSTTS--SEEEEE--SSEEEEEEEEEE-BTTEE-B-TT-TTTTB---EEEEEEESTTTS-EEEEEEEE-TT-EEBSBEE---EE--
+VGNM_RCMV/786-964                 VRTTDGVYSTCFRVRTPLA....LKDSGSFTCDLIGGGITTDSNT.GWNLTALNTPVANLLRTAAWKRGTIHVQVAMFG.STVKRSDWTSTVQLFLRQSMNTSSYDARVWVISKPGAAILEFSFDVEGPNNGFEMWEANWASQTSWFLEFLISNVTQNTLFEVSMKLDSNFCVAGTTLMPPFSVT
+Q66170_CPMV/720-899               CAEASDVYSPCMIASTPPAP...FSDVTAVTFDLINGKITPVGDD.NWNTHIYNPPIMNVLRTAAWKSGTIHVQLNVRG.AGVKRADWDGQVFVYLRQSMNPESYDARTFVISQPGSAMLNFSFDIIGPNSGFEFAESPWANQTTWYLECVATNPRQIQQFEVNMRFDPNFRVAGNILMPPFPLS
+VGNM_CPMV/837-1016                CAEASDVYSPCMIASTPPAP...FSDVTAVTFDLINGKITPVGDD.NWNTHIYNPPIMNVLRTAAWKSGTIHVQLNVRG.AGVKRADWDGQVFVYLRQSMNPESYDARTFVISQPGSAMLNFSFDIIGPNSGFEFAESPWANQTTWYLECVATNPRQIQQFEVNMRFDPNFRVAGNILMPPFPLS
+#=GR VGNM_CPMV/837-1016     SS    ---B-S-BEEEEEEE---TT...--S-EEEEEETTTCCEEE-SS-.-SEEEE---HHHHHHHCECCEEEEEEEEEEEEE.-S--CCC--B-EEEEEESS-CTCC--SEEEEEBSSSSEEEEEEEEE-BTCCC-B-TTBTTTT-B--EEEEEES-TTTEEEEEEEEEE-TT-EEEEEEE---EE--
+VGNM_CPSMV/808-988                SGQTQQVWNKIWRIGTPP...QATDGLFSFSIDLLGVELVTDGQE.GAVSVLSSSPVANLLRTAAWKCGTLHVKVVMTGRVTTTRANWASHTQMSLVNSDNAQHYEAQKWSVSTPHAWEKEFSIDICGPNRGFEMWRSSWSNQTTWILEFTVAGASQSAIFEIFYRLDNSWKSAGNVLMPPLLVG
+Q66179_APMV/2-185                 CSPCINVWSEFCALDIPVVD.TTKVNFAQYSLDLVNPTVSANASGRNWRFVLIPSPMVYLLQTSDWKRGKLHFKLKILGKSNVKRSEWSSTSRIDVRRAPGTEYLNAITVFTAEPHADEINFEIEICGPNNGFEMWNADFGNQLSWMANVVIGNPDQAGIHQWYVRPGENFEVAGNRMVQPLALS
+VGNM_APMV/802-985                 CSPCINVWSEFCALDIPVVD.TTKVNFAQYSLDLVNPTVSANASGRNWRFVLIPSPMVYLLQTSDWKRGKLHFKLKILGKSNVKRSEWSSTSRIDVRRAPGTEYLNAITVFTAEPHADEINFEIEICGPNNGFEMWNADFGNQLSWMANVVIGNPDQAGIHQWYVRPGENFEVAGNRMVQPLALS
+#=GC SS_cons                      ---BTT-BEEEEEEE--TTT.TTT-SEEEEEEETTTCCEEE-SSS.-SEEEE---HHHHHHHCECCEEEEEEEEEEEEE.TTS-CCC--BEEEEEEESSSCTCC--SEEEEEBSSSCEEEEEEEEE-BTCCC-B-TTBTTTTBB--EEEEEECSTTTCEEEEEEEEE-TT-EEECEEE---EE--
+#=GC seq_cons                     ssps.sVYsshhhlcTPlss.osppsFuuFThDLlsusISsDuoG.NWshslhsSPIuNLL+TAAWK+GTIHhQLhhpG.AuVKRSDWuuosplsLppuhuscuhsARoWhIocP+uu-lpFslEIsGPNNGFEMhsSsWANQTTWaLEhlIsNP+QhslFElsh+lspNFEVAGNsLhPPlsLS
+//
+# STOCKHOLM 1.0
+#=GF ID   MHC2-interact
+#=GF AC   PF09307.1
+#=GF DE   CLIP, MHC2 interacting
+#=GF AU   Mistry J, Sammut SJ
+#=GF SE   pdb_1muj
+#=GF GA   13.30 13.30; 25.00 25.00;
+#=GF TC   22.40 22.40; 25.30 25.30;
+#=GF NC   4.30 4.30; 16.30 16.30;
+#=GF TP   Domain
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF RN   [1]
+#=GF RM   12589760
+#=GF RT   Crystal structure of MHC class II I-Ab in complex with a
+#=GF RT   human CLIP peptide: prediction of an I-Ab peptide-binding
+#=GF RT   motif. 
+#=GF RA   Zhu Y, Rudensky AY, Corper AL, Teyton L, Wilson IA; 
+#=GF RL   J Mol Biol. 2003;326:1157-1174.
+#=GF DC   The following Pfam-B family may contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB077178;
+#=GF DR   INTERPRO; IPR015386;
+#=GF CC   Members of this family are found in class II invariant
+#=GF CC   chain-associated peptide (CLIP), and are required for association
+#=GF CC   with class II major histocompatibility complex (MHC) in the MHC
+#=GF CC   class II processing pathway [1].
+#=GF SQ   6
+#=GS Q2KM24_ANAPL/2-116   AC Q2KM24.1
+#=GS Q6R7Z7_CHICK/2-120   AC Q6R7Z7.1
+#=GS Q307W8_CAICR/1-119   AC Q307W8.1
+#=GS HG2A_RAT/1-113       AC P10247.2
+#=GS Q764N1_PIG/1-111     AC Q764N1.1
+#=GS Q52KV2_XENLA/43-159  AC Q52KV2.1
+Q2KM24_ANAPL/2-116              AEEQR.DLISDRGS.GVVPMG...DSQRSAFGRRAALSTLSILVALLIAGQAVTIYFVYQQSGQISKLTRTSQNLQLEALQRKLPKSSKSAGNMKMSMVNTPLAMRVLPLAPS...LDDTPVK
+Q6R7Z7_CHICK/2-120              AEEQR.DLISCPSSSGVLPIG...NSERSSLGRRTALSALSILVALLIAGQAVTIYYVYQQSGQISKLTKTSQTLKLESLQRKMPIGTQPANKMSMSTMNMPMAMKVLPLAPSVGDMPVEAMK
+Q307W8_CAICR/1-119              MDEDRSDLISTPEQTTAPALTAHSGSRRIVCSRGAVYSALSILVALLVAGQAVTVYFVYQQGNHISKLTKTTQTLQLESMSRKLPQG.KSSNKMKMAMISMPMAMRELPLASK...MDAGPTD
+HG2A_RAT/1-113                  MDDQR.DLISNHEQ..LPILGQRARAPESNCNRGVLYTSVSVLVALLLAGQATTAYFLYQQQGRLDKLTVTSQNLQLENLRMKLPKSAKPVSPMRMAT...PLLMRPLSMDN....MLQAPVK
+Q764N1_PIG/1-111                MEDQR.DLISNHEQ..LPMLGQRPGAPESKCSRGALYTGFSVLVALLLAGQATTAYFLYQQQGRLDKLTVTSQNLQLESLRMKLPKPSKPLSKMRVSA...PMLMQALPMEG......PEPMR
+Q52KV2_XENLA/43-159             AEESQ.NLVPEHVPGQSVVDVGNRE.PRMSCNKGSLVTALTVLVVVLVAGQAVMAFFITQQNSRIQDLDRSTKNLQLKAMMKELPGSPPVPSKQKMRTFNIPMALKLYDGSE....MNMNDLE
+#=GC seq_cons                   hEEQR.DLISs+pp.tlsslGtp.su.RSsCuRGulhouLSlLVALLlAGQAVTsYFlYQQsG+IsKLT+TSQNLQLEuLp+KLPpusKssuKM+MushshPMAM+sLPhus....MsssPh+
+//
+# STOCKHOLM 1.0
+#=GF ID   Caudal_act
+#=GF AC   PF04731.3
+#=GF DE   Caudal like protein activation region
+#=GF AU   Kerrison ND
+#=GF SE   DOMO:DM04892;
+#=GF GA   25.00 25.00; 15.30 15.30;
+#=GF TC   46.20 46.20; 21.30 21.30;
+#=GF NC   -6.30 -6.30; 13.20 11.50;
+#=GF TP   Family
+#=GF BM   hmmbuild -F HMM_ls SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_ls
+#=GF BM   hmmbuild -f -F HMM_fs SEED
+#=GF BM   hmmcalibrate --seed 0 HMM_fs
+#=GF AM   globalfirst
+#=GF RN   [1]
+#=GF RM   11729123
+#=GF RT   Phosphorylation of the serine 60 residue within the Cdx2
+#=GF RT   activation domain mediates its transactivation capacity. 
+#=GF RA   Rings EH, Boudreau F, Taylor JK, Moffett J, Suh ER, Traber
+#=GF RA   PG; 
+#=GF RL   Gastroenterology 2001;121:1437-1450.
+#=GF DC   The following Pfam-B family may contain sequences that according to Prodom
+#=GF DC   are members of this Pfam-A family.
+#=GF DR   PFAMB; PB179679;
+#=GF DR   INTERPRO; IPR006820;
+#=GF CC   This family consists of the amino termini of proteins belonging to the
+#=GF CC   caudal-related homeobox protein family.  This region is thought to mediate
+#=GF CC   transcription activation.  The level of activation caused by mouse Cdx2 
+#=GF CC   (Swiss:P43241) is affected by phosphorylation at serine 60 via the
+#=GF CC   mitogen-activated protein kinase pathway [1]. 
+#=GF CC   Caudal family proteins are involved in the transcriptional regulation of
+#=GF CC   multiple genes expressed in the intestinal epithelium, and are important in
+#=GF CC   differentiation and maintenance of the intestinal epithelial lining.
+#=GF CC   Caudal proteins always have a homeobox DNA binding domain (Pfam:PF00046).
+#=GF SQ   9
+#=GS P79788_CHICK/13-172  AC P79788.1
+#=GS CDX2_HUMAN/13-180    AC Q99626.2
+#=GS HMD1_CHICK/1-132     AC P46692.1
+#=GS CDX1_XENLA/13-142    AC Q91622.1
+#=GS Q90262_BRARE/13-147  AC Q90262.1
+#=GS CDX1_MOUSE/13-147    AC P18111.2
+#=GS CDX4_HUMAN/13-171    AC O14627.1
+#=GS CDX4_MOUSE/13-169    AC Q07424.1
+#=GS Q91542_XENLA/16-147  AC Q91542.1
+P79788_CHICK/13-172             MY.PGPVRHSGG.............LNLAAQNFV......GAAQYADYGGYH.........VNLDGA.QSPG....PVWAAPYAAPLRDDW.GAYGQGAPPPAAAAAVHGLNGGSPAAAMAYS.PVDFHHHHHHHPHAHHHVGPETHCSAGGMQTLGAAPAAAAASAAPEPLSPGGQRRGLCEWVRKPAQAPLGSQ
+CDX2_HUMAN/13-180               MY.PSSVRHSGG.............LNLAPQNFV......SPPQYPDYGGYH.VAAAAAAAANLDSA.QSPG....PSWPAAYGAPLREDW.NGYAPGGAAAAANAVAHGLNGGSPAAAMGYSSPADYHPHHHPHHHPHHPAAAPS.CASGLLQTLNPGPPGPAATAAAEQLSPGGQRRNLCEWMRKPAQQSLGSQ
+HMD1_CHICK/1-132                MY.PSPVRHPG..............LNLNPQNYV.....PGPPQYSDFASYHHVPGI.....NNDPHHGQPA....AAWGSPY.TPAKEDW.HSYGT...AAASAATNPGQFGF.........SPPDFNPMQPH.............AGSGLL........PPAISSSVPQLSPNAQRRTPYEWMRRSIPSTSSSG
+CDX1_XENLA/13-142               MY.PNPVRHPG..............LNLNPQNYV.....PAPPQYSDFPSYHHVPGI.....NSDPHHGQPG....GTWSS.Y.TPSREDW.HPYGPGPGASSANPTQIA............FSPSDYNPVQPP..............GSGLL........PPSINSSVPPLSPSAQRADPYEWMRRTGVPTTTTT
+Q90262_BRARE/13-147             MYHQGAVRRSG..............ISLPPQNFV......STPQYSDFTGYHHVP.......NMET.HAQSA....GAWGAPYGAP.REDW.GAYSLGPP....NSISAPMSNSSPGP.VSYCSP.DYNTMHGP..............GSAVL.......PPPPENIPVAQLSPERERRNSYQWMSKTVQSSSTGK
+CDX1_MOUSE/13-147               VY.PGPARPSS..............LGLGPPTYAPPGPAPAPPQYPDFAGYTHV..........EPA.PAPP....PTWAAPFPAP.KDDWAAAYGPGPTA......SAA....SPAP.LAFGPPPDFSPV..P........APPG.PGPGIL........AQSLGAPGAPSSPGAPRRTPYEWMRRSVAAAGGGG
+CDX4_HUMAN/13-171               MY.PGTLMSPGGDGTAGTGGTGGGGSPMPASNFA......AAPAFSHYMGYPHMP.......SMDP.HWPSL....GVWGSPYSPP.REDW.SVY.PGPSSTMGTVPVNDVTS.SPAA...FCS.TDYSNL.GPVGGGTSGSSLPGQAGGSLV.........PTDAGAAKASSPSRSRHSPYAWMRKTVQVTGKTR
+CDX4_MOUSE/13-169               MY.PGTLRSPGGSSTAGVGTSGGSGSPLPASNFT......AAPVYPHYVGYPHM.......SNMDP.HGPSL....GAWSSPYSPP.REDW.STY.PGPPSTMGTVPMNDMT..SPV....FGSP.DYSTL.GPTSGASNGGSLPDAASESLVS.........LDSGTSGATSPSRSRHSPYAWMRKTVQVTGKTR
+Q91542_XENLA/16-147             MY.PLSVRSTS..............NNHTAQNYV......SNQPYFNYVAYHHVP.......PMDDQ.GQPMEFGDSVWITEGGMELL..W.SWT.L.......TQIWHKSSDLSPNQ.FAYNS.SGYSSP.HP.............SGTGILH........SVDLTHAAANSPSALSQNSYEWMGKTVQSTSTGK
+#=GC seq_cons                   MY.PusVRpsG..............lsLssQNaV......usPQYsDasGYHHVs.......NhDst.spPs....usWuuPYusP.REDW.usYusGssus.ussssts.ss.SPs....asSPsDYssh.tP.............sGuGlL........ssstsusssshSPuupR+ssYEWMRKolQsousop
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/rndseq400-10.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/rndseq400-10.fa
new file mode 100755
index 0000000..a833b3b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/rndseq400-10.fa
@@ -0,0 +1,80 @@
+>random0
+VDDIPLTETFSDLNMTAADDELTDLRNTDGEYADYDAGGGQIETLNSLMKANVFCWRSSF
+EYLEIPGECPQRMKAFQELGNILSKYCSALILRLTLCKIIPQSSFLNGNLVVYYSETRVS
+KDRSALIFFDPMRQSSTIDHIFTEQGLLGWLEQRDTSPLLSPTTGAKNSLNVVTLALDLF
+RSSMTDYISGIIDKFKGIHEYGWIFNWRAPEKSISKGNVIFPMVRSHIDPLAKHPLADAP
+NDQPRWMPMKWSARVVMVPLDSLDQDLFLRLSNAEIKKDLWVGIKCQGKTCLAGASTSFR
+QSPPGPGGVLLRGLSWSANLQQSTGEAQTFGTYFVDHLGPLRQAVLDCREWASFIRRGGS
+TIFDQLEIFTDARREAPETRVICLQSFDERSPETAPVSTV
+>random1
+EVEMRESGNIRTTLNSLDGFMTGTAAHADEIDVPDIFPVYGLLAPSLPVAGFYHVPGEAV
+ALITIVRLFDAVSCNPNDAARNPFRHVKVPPNAQDRYEPVLKPWTASGANVIPCAPLTHT
+PYKPALCCIPSYCSHISDRLSMLFSSLSSTFAPDSSLIRHIDDPNSLNSDLRLASMGRVY
+AITCKETIVDNLWDLINLDVFRFPLENVFMDPSREHSLAIGQNNCFDKVFRATGVLSSCV
+QKTNKTYKCFSVDEFQCGSSRRQLMQNDLLECAFPRDLNNEPFLATRPPVERSEVDEWNK
+FVQTDVYRRRLRSPDQKATIACQGSSWPQEDVVMKVHSRVAAVAKPNMGPPHLLRYTSLY
+QRENKQLGPHLLNHRIVQYTASDVMVENAEQLEYLLYAKI
+>random2
+YKGGRSQLKGWSQDAAHFVWDNEEDFSASALFPKGILIYSPSATNKFGLLKLANLGNKKL
+DGKSSMHAFIGGGNGDQKVLNRTDVDGFGSPWPNQKEEYMSPDYQIFAAVPTSRHKGVDN
+KLIEEAPVGIKDVQCRPDFKIHKAKPMTFSDSIVDMQTTIKVMLYVKCVRFKEAKNESYE
+EAELGFMYEEKSEDALSRATDQYYERGGEFLYRRKYVEVEGDKTGKSVAHSGLIRLVDLV
+ITRARVASLAGAILVQLLGLADSSRAQGAAGATPTVATYRDAQIVGYIDIAPETRMFLVR
+ILYVRLDTDGKAVQVKHGPKFGSTNVCAGHDYSSKSAGGGIVGQSFLVAITNFEHGGSLQ
+NMTYDHQYVLLPLLYFSSTSACGALKSDVNTGGSPYAVAI
+>random3
+KQLVDQASYPIKAFPQMDEIDTHQAGVNFVEPAQQGFLKELEPTVDREIDIPSIAWAVYR
+AEIQTEDKISSIWNQLQISGDCVLPAVETGYDYFTVQTSPTLKRLMITSENMKTFCVEFI
+AVGSLDFLLNKKEFGKPIAYINNVQTVMMQRADFRSSSELSPILTGVDLKSLESPRCQLA
+VGRLGMDPQLIQVNGNAQCYLQKSLSGIEIILYEIIRATTVWLIQPMAIGEEPADWHGIF
+LAGSPLGAMPATNTIGHASCLDGDAQLYRRDNEKFHARIKKYHLNSPGSWNSATTINNSN
+KVTVGAWYCNTDKVTDHFRQAITAEPIVGGSTNMLKEEMMIRGLKVNFIYIDLYIKLSGA
+SHFVNRVTGTLSASRIAGEFENPMEFLPNAPSDLIQVGPH
+>random4
+ACSGQLILGTLYDRTKVFFANLRLVSNLFLADIILKFMRNFKINKMPEWMGSWVQNEHTQ
+TEIIKFAANSGNDRYIEFSTIFAEMYRFNEVKPLFNINLIYCHCKHLFQFADDVSLKPNA
+WQTKTPGLFYYLLHYGGFMVQYEVAQGEHDRRTRFDRTNPWNVASGGGVAMKAVKRKDLR
+VTVVYAGWETGCTSALPKNNTLETFSPRQPGKERNEDTEALDELSKHSPLHLDVGTPVKL
+GVTASGGSEIPLEKDEADLQEIWVPNPAGPLQHEAVKLADVERFQLGAVMATMTYDRIAQ
+LKLLIGRHANVPAASWYVTVPTDSFETLDYIERSFALTTLIMVSWWRAQGKIEYLMGVDK
+IAHCYKEATCTFGETIRCSKSNEECSYRKSLTTKKNDYKE
+>random5
+PTPPTSGLNGRMYQAVLDCPVGKNVEEQQQTLTLWRGASINVCDVLKNYFGWGPGELALR
+AVTQPAYLATPKRTVGVVADIRNAWSSFGSQVQGYELMEAHMNTYETRKEQVTILRDRSS
+VLREALGGASSPLCHDNEKKTKEMALTEDFKPCTSEIQAEAKRKAVEGPLGPRVLVEGRV
+FFSLGMAPPSISLCVPIVGATGDMNVKRGKMDRQTSFVDRSEDLRVVASWSNALSKSTLN
+AVLALNSEDDDRKPDALSIIKIFLPQTDQYLVKFLADIPEYHENWFLVAELKMLEGQSTL
+GLTPMMELLVSTGVGNQETPIASEDLMHFPGSALVSHADAVRIMKRPNKINLPNEKLRIL
+LCKEESASFRTTRVRTDKSPFGGCAGDCANVPDTELIDVD
+>random6
+TYTCTILAIKCKTVRFDPQVDFASLSASLWGLTVGEKVRTAGPMMCKVELGTWAISSYPV
+RGSHLHIHWSSEEKSPTNRKIRLVYRKELGLWVQKALPLEEAAALRLSIVDINYYVMWFI
+SGSFSEARQEVIGCAPKGYHDQGIWEHVVFKRLNSCPTEKNGTHTDLTETPGAYVTIKLI
+DTKGFGNCDHAEEIEARTDSLSQQISLLIDGTCGLCNITGTKLTPDIYVAIAQPPSWADM
+TDPLIRLQQHENIIENVEDIKFTMELQVTRQRFDETKMGIIQITDSIKANFTAEEWLSSA
+STPGNQSLSIGGGRIYSRLQVGKLLIANVSTPYTLQLKYTDFNVNNEMQGEMLAQVYLLR
+VDWSAHIVPAVVAEYYFWLGKGILKPVRAGGRHGMLFTAK
+>random7
+NNGGHEEEPQLDFLMSQAAQRSLCDIVGVHPKQGKAGEDRPDQTYRMTYHCGQYQTEEIN
+NLTVPMTEFFCLFRDLKHRECCGASSAPVKGIKAAPNDVSAEDNSLIRTNHHCLRDLKTL
+HFRCGIRLDIDVEDVVATPARKLRTMIISCNASNAEKHERFAEDTPSRVSSNAMGQAINL
+FCLESHADANKMAFSVKFTLTVFLAGSMSERGTTRQVNRNGRRRGAYDWSSIPGVYCGTI
+QCDVFFVCRYGLFGRLSLRKQNIANLSPAAVLFDLELKLAFWRPFRMGSVTNCVKVHVLG
+LFILQVHNYNPVGIRSQPKLLVVNHLGEYGNCALQVLECQLGLRNESAHGNVNYVKQMCP
+WRRSPFRLYDLEVSTVNNKFPMSGACVLNAISTLRGAIFV
+>random8
+VEDSKYGPSKTVGNKINDLLEPLVELYKGKRLRVDKLEAIFDSFALGGVNEATGGLFADG
+ITGDRIIYALRVPIEFRGFDQAFNITYPLEHVDISQYIPTTRDVVSAYASTFRFWDKLSP
+GLTQAQNKHIAIILEDVTHVVWKKIGLRQDFMRYWEVALLLASQVCNFDKEINASTSEIR
+MIGMRINKEDPITPQICVIVAEADIFDNYEQYEGNNLLVALLLTQSRARESDQTRSTGQG
+GMPSVYIFSLAGFLRLRVYQRLNCEAKALMIILSDPKAVLQIVANSHTELVTAFRFAAQP
+AELFAKDLSELPFSAAPQAKAQPQWFQLQYRGVAELSFSSPRVSGHADIHLLSLLNIPIR
+FWYRTTYSLGPLSQSLDSRPDRCHLVESWKLKNFLLYILA
+>random9
+VAVRYEFIRNLSFLKSKEFYLCAISEEVSLGIMQNLDQDKETGNPIVSHVEPFTIQNLLV
+KKVVAPTRELEMMVGDFCTTLIEALALNQGSRDEEPTYELDGIDELIARMTSEECRCPST
+DREYGPGAFDFIVFYSLKREKIALYMIPKVASHGEDYKRENRVPCAHTSLDTQINSQWEI
+DVLWGPIIVAMVLECDCWLFAGTLSIGLPRLFRGPEAKITTSSLEQWVYKNGLFRPSKPT
+YMENGVEQALWEVTKLVFARRTPAQDILREFKSSPFFDPKNVYVKEITGYSFVDPQVRCF
+MKGIGINYVGHKANAKLLANLKSDGNMIARLEMLEPASITRNRIAMPSGTGPEDMLIDTA
+HFGLGPNVKGHKEKQGSESAETLPLAVVFSKAKKQYPFFG
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/test-make.pl b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/test-make.pl
new file mode 100755
index 0000000..c0807d6
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/test-make.pl
@@ -0,0 +1,191 @@
+#! /usr/bin/perl -w
+
+# Usage:   test-make.pl <builddir> <srcdir> <tmppfx>
+# 
+# Configure in a build directory first.
+# Then execute this script, in that directory.
+#
+#    cd src/hmmer/trunk/build-debug
+#    ../configure --enable-debugging
+#    ../testsuite/test-make.pl .  ..  tmppfx
+#
+# Options:
+#    -x : die immediately upon a failure. Then you can look at foo.out to see
+#         what happened, and if the script parsed the make output correctly.
+#
+#    -i <impl> : where <impl> is sse, vmx, or dummy
+#         Pass in the implementation type. (This shouldn't be needed.
+#         It's a side effect of the probably broken way we're handling
+#         the platform-specific vector code.
+#
+
+use strict;
+use vars qw($opt_x $opt_i);
+use Getopt::Std;
+
+getopts('xi:');
+my $die_on_failure = ($opt_x ? 1 : 0 );
+my $impl           = ($opt_i ? $opt_i : "sse");
+my %saw_target = ();
+my $builddir   = shift;
+my $srcdir     = shift;
+my $tmppfx     = shift;
+
+my %MASTER_BUILD_TABLE = (
+    easel_obj                => [ "CC", "esl_dmatrix.o"         ],
+    easel_lib                => [ "AR", "libeasel.a"            ],
+    easel_miniapps_progobj   => [ "CC", "esl-afetch.o"          ],
+    easel_miniapps_prog      => [ "GEN", "esl-afetch"           ],
+    easel_utest              => [ "GEN", "esl_alphabet_utest"   ],
+    easel_benchmark          => [ "GEN", "esl_buffer_benchmark" ],
+    easel_example            => [ "GEN", "esl_buffer_example"   ],
+    hmmer_src_obj            => [ "CC",  "build.o"              ],
+    hmmer_src_progobj        => [ "CC",  "hmmalign.o"           ],
+    hmmer_src_prog           => [ "GEN", "hmmalign"             ],
+    hmmer_src_lib            => [ "AR",  "libhmmer-src.stamp"   ],
+    hmmer_src_utest          => [ "GEN", "build_utest"          ],
+    hmmer_src_itest_obj      => [ "CC",  "itest_brute.o"        ],
+    hmmer_src_itest          => [ "GEN", "itest_brute"          ],
+    hmmer_src_stats          => [ "GEN", "evalues_stats"        ],
+    hmmer_src_benchmark      => [ "GEN", "evalues_benchmark"    ],
+    hmmer_src_example        => [ "GEN", "build_example"        ],
+    hmmer_src_impl_obj       => [ "CC",  "decoding.o"           ],
+    hmmer_src_impl_lib       => [ "AR",  "libhmmer-impl.stamp"  ],
+    hmmer_src_impl_utest     => [ "GEN", "decoding_utest"       ],
+    hmmer_src_impl_benchmark => [ "GEN", "decoding_benchmark"   ],
+    hmmer_src_impl_example   => [ "GEN", "fwdback_example"      ],
+    hmmer_profmark_progobj   => [ "CC",  "create-profmark.o"    ],
+    hmmer_profmark_prog      => [ "GEN", "create-profmark"      ],
+    );
+
+header();
+make_clean();
+make_try("", ".", "all", 
+	 "easel_obj",              "easel_lib",          "easel_miniapps_progobj", "easel_miniapps_prog",
+	 "hmmer_src_obj",          "hmmer_src_lib",      "hmmer_src_progobj",      "hmmer_src_prog",
+	 "hmmer_src_impl_obj",     "hmmer_src_impl_lib", 
+	 "hmmer_profmark_progobj", "hmmer_profmark_prog"); 
+
+make_try("src/build.c", ".", "all", 
+	 "hmmer_src_obj",      "hmmer_src_lib",  "hmmer_src_prog",
+	 "hmmer_profmark_prog"); 
+
+make_try("src/impl_$impl/decoding.c", ".", "all", 
+	 "hmmer_src_prog",
+	 "hmmer_src_impl_obj", "hmmer_src_impl_lib", 
+	 "hmmer_profmark_prog"); 
+
+make_try("easel/esl_dmatrix.c", ".", "all", 
+	 "easel_obj",              "easel_lib",          "easel_miniapps_progobj",   "easel_miniapps_prog",
+	 "hmmer_src_prog",
+	 "hmmer_profmark_prog"); 
+
+make_try("easel/miniapps/esl-afetch.c", ".", "all", 
+	 "easel_miniapps_progobj", "easel_miniapps_prog");
+
+make_clean();
+make_try("", ".", "dev", 
+	 "easel_obj",              "easel_lib",                "easel_miniapps_progobj", "easel_miniapps_prog",
+	 "easel_utest",            "easel_benchmark",          "easel_example",
+	 "hmmer_src_obj",          "hmmer_src_lib",            "hmmer_src_progobj",      "hmmer_src_prog",
+	 "hmmer_src_utest",        "hmmer_src_itest_obj",      "hmmer_src_itest",        "hmmer_src_benchmark",   "hmmer_src_example",    "hmmer_src_stats",
+	 "hmmer_src_impl_obj",     "hmmer_src_impl_lib",       
+	 "hmmer_src_impl_utest",   "hmmer_src_impl_benchmark", "hmmer_src_impl_example",
+	 "hmmer_profmark_progobj", "hmmer_profmark_prog"); 
+
+make_clean();
+make_try("", ".", "tests", 
+	 "easel_obj",            "easel_lib",                "easel_miniapps_progobj", "easel_miniapps_prog",
+	 "easel_utest",         
+	 "hmmer_src_obj",        "hmmer_src_lib",            "hmmer_src_progobj",      "hmmer_src_prog",
+	 "hmmer_src_utest",      "hmmer_src_itest_obj",      "hmmer_src_itest",       
+	 "hmmer_src_impl_obj",   "hmmer_src_impl_lib",       
+	 "hmmer_src_impl_utest"); 
+
+make_clean();
+make_try("", ".", "check", 
+	 "easel_obj",            "easel_lib",                "easel_miniapps_progobj", "easel_miniapps_prog",
+	 "easel_utest",         
+	 "hmmer_src_obj",        "hmmer_src_lib",            "hmmer_src_progobj",      "hmmer_src_prog",
+	 "hmmer_src_utest",      "hmmer_src_itest_obj",      "hmmer_src_itest",       
+	 "hmmer_src_impl_obj",   "hmmer_src_impl_lib",       
+	 "hmmer_src_impl_utest", 
+    ); 
+
+
+sub
+make_clean {  system("(cd $builddir; make clean) > /dev/null"); }
+
+sub
+header
+{
+    printf("%-15s %-30s %-15s\n", "DIRECTORY",    "TOUCHED FILE",                   "MAKE TARGET");
+    printf("%-15s %-30s %-15s\n", "------------", "------------------------------", "---------------");
+}
+
+sub
+make_try
+{
+    my $touchfile = shift @_;
+    my $dir       = shift @_;
+    my $target    = shift @_;
+    my @expected_components = @_;
+
+    printf("%-15s %-30s %-15s  ...  ", $dir, $touchfile, $target);
+    if ($touchfile ne "") 
+    {
+	if ( ! -e "$srcdir/$touchfile") { die "$srcdir/$touchfile does not exist"; }
+	system "touch $srcdir/$touchfile";
+    }
+    system("(cd $builddir/$dir; make $target) > $tmppfx.out");
+    check_make_output("$tmppfx.out", @expected_components);
+}
+
+sub
+check_make_output
+{
+    my $outfile    = shift @_;
+    my @components = @_;
+    my $method;
+    my $target;
+    my $component;
+    my %should_build = ();
+    
+    %saw_target = ();
+    open (OUTFILE, "$outfile") || die;
+    while (<OUTFILE>)
+    {
+	if (/^     (\S+) (\S+)/) 
+	{
+	    $method = $1;
+	    $target = $2;
+	    $saw_target{$target} = $method;
+	}
+    }
+    close OUTFILE;
+
+    foreach $component (@components) 
+    { 
+	if (! defined $MASTER_BUILD_TABLE{$component} )	{ die "$component not in master build table"; }
+	$should_build{$component} = 1; 
+    }
+
+    foreach $component (sort keys %MASTER_BUILD_TABLE)
+    {
+	if ($should_build{$component} && ! $saw_target{$MASTER_BUILD_TABLE{$component}[1]})
+	{ 
+	    print "FAILED (should've built $component)\n"; 
+	    if ($die_on_failure) { die; }
+	    return 1;
+	}
+	elsif (! $should_build{$component} && $saw_target{$MASTER_BUILD_TABLE{$component}[1]})
+	{
+	    print "FAILED (should not have built $component)\n"; 
+	    if ($die_on_failure) { die; }
+	    return 1;
+	}
+    }
+    print "ok.\n";
+    0;
+}
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/testsuite.sqc b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/testsuite.sqc
new file mode 100755
index 0000000..efc7372
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/testsuite/testsuite.sqc
@@ -0,0 +1,440 @@
+# HMMER's test suite, in sqc command format
+#
+# See the ../easel/devkit/sqc script for documentation of sqc.
+#
+# Usage:  
+#     sqc <level> testsuite.sqc <top_builddir> <top_srcdir>
+# Example:  
+#     cd build-debug
+#     sqc 1 ../testsuite/valgrind.sqc . ..
+#
+# level 1 = the standard test suite 
+# level 2 = (currently nothing)
+# level 3 = valgrind tests
+#
+# Remember, sqc does three types of file substitution on this file:
+#   @foo@  = executables in the build directory => top_builddir/foo
+#   !foo!  = data files in the source directory => top_srcdir/foo
+#   %FOO%  = tmp files, created, managed, cleaned up by sqc itself
+#
+
+
+################################################################
+# Unit test drivers for each .c file
+################################################################
+
+1 exercise hmmer              @src/hmmer_utest@
+1 exercise build              @src/build_utest@
+1 exercise generic_fwdback    @src/generic_fwdback_utest@
+1 exercise generic_msv        @src/generic_msv_utest@
+1 exercise generic_stotrace   @src/generic_stotrace_utest@
+1 exercise generic_viterbi    @src/generic_viterbi_utest@
+1 exercise logsum             @src/logsum_utest@
+1 exercise modelconfig        @src/modelconfig_utest@
+1 exercise seqmodel           @src/seqmodel_utest@
+1 exercise p7_alidisplay      @src/p7_alidisplay_utest@
+1 exercise p7_bg              @src/p7_bg_utest@
+1 exercise p7_gmx             @src/p7_gmx_utest@
+1 exercise p7_hmm             @src/p7_hmm_utest@
+1 exercise p7_hmmfile         @src/p7_hmmfile_utest@
+1 exercise p7_profile         @src/p7_profile_utest@
+1 exercise p7_tophits         @src/p7_tophits_utest@
+1 exercise p7_trace           @src/p7_trace_utest@
+1 exercise p7_scoredata         @src/p7_scoredata_utest@
+
+1 exercise decoding           @src/impl/decoding_utest@
+1 exercise fwdback            @src/impl/fwdback_utest@
+1 exercise io                 @src/impl/io_utest@
+1 exercise msvfilter          @src/impl/msvfilter_utest@
+1 exercise null2              @src/impl/null2_utest@
+1 exercise optacc             @src/impl/optacc_utest@
+1 exercise stotrace           @src/impl/stotrace_utest@
+1 exercise vitfilter          @src/impl/vitfilter_utest@
+
+# Still to come, unit tests for
+#   emit.c
+#   errors.c
+#   evalues.c
+#   eweight.c
+#   heatmap.c
+#   hmmer.c
+#   island.c
+#   modelstats.c
+#   mpisupport.c     (MPI testing needs to be handled specially)
+#   p7_bg.c
+#   p7_domaindef.c
+#   p7_prior.c
+#   p7_spensemble.c
+
+
+################################################################
+# Option tests
+################################################################
+
+# hmmalign  xxxxxxxxxxxxxxxxxxxx
+1 prep      testseq              @src/hmmemit@  -p --unilocal -L0 -N 4 --seed 42 !testsuite/Caudal_act.hmm! > %TESTSEQ%
+1 exercise  hmmalign             @src/hmmalign@ !testsuite/Caudal_act.hmm! %TESTSEQ%
+1 exercise  hmmalign/-h          @src/hmmalign@ -h
+1 exercise  hmmalign/-o          @src/hmmalign@ -o /dev/null                         !testsuite/Caudal_act.hmm! %TESTSEQ%
+1 exercise  hmmalign/--mapali    @src/hmmalign@ --mapali !testsuite/Caudal_act.sto!  !testsuite/Caudal_act.hmm! %TESTSEQ%
+1 exercise  hmmalign/--trim      @src/hmmalign@ --trim                               !testsuite/Caudal_act.hmm! %TESTSEQ%
+1 exercise  hmmalign/--amino     @src/hmmalign@ --amino                              !testsuite/Caudal_act.hmm! %TESTSEQ%
+1 exercise  hmmalign/--informat  @src/hmmalign@ --informat fasta                     !testsuite/Caudal_act.hmm! %TESTSEQ%
+1 exercise  hmmalign/--outformat @src/hmmalign@ --outformat a2m                      !testsuite/Caudal_act.hmm! %TESTSEQ%
+
+# hmmbuild  xxxxxxxxxxxxxxxxxxxx
+1 exercise  build                @src/hmmbuild@                    --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/-h             @src/hmmbuild@  -h
+1 exercise  build/-n             @src/hmmbuild@  -n foo            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/-o             @src/hmmbuild@  -o %HMMBUILD.out% --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/-O             @src/hmmbuild@  -O %HMMBUILD.sto% --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--amino        @src/hmmbuild@  --amino           --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/M1.sto!
+1 exercise  build/--dna          @src/hmmbuild@  --dna             --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/M1.sto!
+1 exercise  build/--rna          @src/hmmbuild@  --rna             --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/M1.sto!
+1 exercise  build/--fast         @src/hmmbuild@  --fast            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--hand         @src/hmmbuild@  --hand            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--symfrac      @src/hmmbuild@  --symfrac 1.0     --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--fragthresh   @src/hmmbuild@  --fragthresh 0.4  --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--wpb          @src/hmmbuild@  --wpb             --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--wgsc         @src/hmmbuild@  --wgsc            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--wblosum      @src/hmmbuild@  --wblosum         --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--wnone        @src/hmmbuild@  --wnone           --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+# --wgiven not tested
+1 exercise  build/--wid          @src/hmmbuild@  --wblosum --wid 0.5  --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--eent         @src/hmmbuild@  --eent               --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--eclust       @src/hmmbuild@  --eclust             --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--enone        @src/hmmbuild@  --enone              --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--eset         @src/hmmbuild@  --eset 1.0           --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--ere          @src/hmmbuild@  --eent --ere  0.55   --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--esigma       @src/hmmbuild@  --eent --esigma 44.0 --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--eid          @src/hmmbuild@  --eclust --eid 0.60  --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--pnone        @src/hmmbuild@  --pnone              --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--plaplace     @src/hmmbuild@  --plaplace           --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--EmL          @src/hmmbuild@  --EmL 100                    --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--EmN          @src/hmmbuild@  --EmN 250            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--EvL          @src/hmmbuild@  --EvL 100            --EmL 10          --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--EvN          @src/hmmbuild@  --EvN 250            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--EfL          @src/hmmbuild@  --EfL 100            --EmL 10 --EvL 10          %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--EfN          @src/hmmbuild@  --EfN 250            --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--Eft          @src/hmmbuild@  --Eft 0.045          --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--informat     @src/hmmbuild@  --informat stockholm --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+1 exercise  build/--seed         @src/hmmbuild@  --seed 42             --EmL 10 --EvL 10 --EfL 10 %HMMBUILD.hmm% !testsuite/20aa.sto!
+
+# hmmemit   xxxxxxxxxxxxxxxxxxxx
+1 exercise  hmmemit              @src/hmmemit@                !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/-h           @src/hmmemit@ -h
+1 exercise  hmmemit/-c           @src/hmmemit@ -c             !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/-o           @src/hmmemit@ -o /dev/null   !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/-p           @src/hmmemit@ -p             !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/-N           @src/hmmemit@ -N 10          !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/-L           @src/hmmemit@ -p -L 50       !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/--local      @src/hmmemit@ -p --local     !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/--unilocal   @src/hmmemit@ -p --unilocal  !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/--glocal     @src/hmmemit@ -p --glocal    !testsuite/Caudal_act.hmm!
+1 exercise  hmmemit/--uniglocal  @src/hmmemit@ -p --uniglocal !testsuite/Caudal_act.hmm!
+
+# hmmsearch xxxxxxxxxxxxxxxxxxxx
+1 prep      rnddb                @easel/miniapps/esl-shuffle@ -G --amino -L 100 -N 2 -o %RNDDB% 
+1 exercise  search               @src/hmmsearch@                            !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/-h            @src/hmmsearch@  -h
+1 exercise  search/-o            @src/hmmsearch@  -o           %HMMSEARCH.out%  !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/-A            @src/hmmsearch@  -A           %HMMSEARCH.sto%  !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--tblout      @src/hmmsearch@  --tblout     %HMMSEARCH.tbl%  !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--domtblout   @src/hmmsearch@  --domtblout  %HMMSEARCH.dtbl% !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--pfamtblout  @src/hmmsearch@  --pfamtblout %HMMSEARCH.dtbl% !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--acc         @src/hmmsearch@  --acc                     !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--noali       @src/hmmsearch@  --noali                   !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--notextw     @src/hmmsearch@  --notextw                 !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--textw       @src/hmmsearch@  --textw 256               !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/-E            @src/hmmsearch@  -E 0.01                   !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/-T            @src/hmmsearch@  -T 20                     !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--domE        @src/hmmsearch@  --domE 0.01               !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--domT        @src/hmmsearch@  --domT 20                 !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--incE        @src/hmmsearch@  --incE 0.01               !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--incT        @src/hmmsearch@  --incT 20                 !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--incdomE     @src/hmmsearch@  --incdomE 0.01            !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--incdomT     @src/hmmsearch@  --incdomT 20              !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--cut_ga      @src/hmmsearch@  --cut_ga                  !tutorial/fn3.hmm!      %RNDDB%
+1 exercise  search/--cut_nc      @src/hmmsearch@  --cut_nc                  !tutorial/fn3.hmm!      %RNDDB%
+1 exercise  search/--cut_tc      @src/hmmsearch@  --cut_tc                  !tutorial/fn3.hmm!      %RNDDB%
+1 exercise  search/--max         @src/hmmsearch@  --max                     !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--F1          @src/hmmsearch@  --F1 0.03                 !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--F2          @src/hmmsearch@  --F2 0.002                !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--F3          @src/hmmsearch@  --F3 0.0002               !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--nobias      @src/hmmsearch@  --nobias                  !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--nonull2     @src/hmmsearch@  --nonull2                 !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/-Z            @src/hmmsearch@  -Z 45000000               !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--domZ        @src/hmmsearch@  --domZ 45000000           !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--seed        @src/hmmsearch@  --seed 42                 !tutorial/globins4.hmm! %RNDDB%
+1 exercise  search/--tformat     @src/hmmsearch@  --tformat fasta           !tutorial/globins4.hmm! %RNDDB%
+# --cpu: threads only
+# --mpi: MPI only
+
+
+# jackhmmer xxxxxxxxxxxxxxxxxxxx
+1 exercise  jackhmmer           @src/jackhmmer@                            --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/-h                @src/jackhmmer@  -h
+1 exercise  j/-N                @src/jackhmmer@  -N 2                      --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/-o                @src/jackhmmer@  -o          %PHMMER.out%  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/-A                @src/jackhmmer@  -A          %PHMMER.sto%  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--tblout          @src/jackhmmer@  --tblout    %PHMMER.tbl%  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--domtblout       @src/jackhmmer@  --domtblout %PHMMER.dtbl% --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--chkhmm          @src/jackhmmer@  --chkhmm    %PHMMER.ch%   --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--chkali          @src/jackhmmer@  --chkali    %PHMMER.ca%   --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--acc             @src/jackhmmer@  --acc                     --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--noali           @src/jackhmmer@  --noali                   --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--notextw         @src/jackhmmer@  --notextw                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--textw           @src/jackhmmer@  --textw 256               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--popen           @src/jackhmmer@  --popen 0.4               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--pextend         @src/jackhmmer@  --pextend 0.6             --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--mxfile          @src/jackhmmer@  --mxfile !easel/formats/BLOSUM62! --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/-E                @src/jackhmmer@  -E 0.01                   --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/-T                @src/jackhmmer@  -T 20                     --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--domE            @src/jackhmmer@  --domE 0.01               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--domT            @src/jackhmmer@  --domT 20                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--incE            @src/jackhmmer@  --incE 0.01               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--incT            @src/jackhmmer@  --incT 20                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--incdomE         @src/jackhmmer@  --incdomE 0.01            --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--incdomT         @src/jackhmmer@  --incdomT 20              --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--max             @src/jackhmmer@  --max                     --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--F1              @src/jackhmmer@  --F1 0.03                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--F2              @src/jackhmmer@  --F2 0.002                --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--F3              @src/jackhmmer@  --F3 0.0002               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--nobias          @src/jackhmmer@  --nobias                  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+# builder options untested
+1 exercise  j/--EmL             @src/jackhmmer@  --EmL 100                          --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--EmN             @src/jackhmmer@  --EmN 250                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--EvL             @src/jackhmmer@  --EvL 100                 --EmL 10          --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--EvN             @src/jackhmmer@  --EvN 250                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--EfL             @src/jackhmmer@  --EfL 100                 --EmL 10 --EvL 10          !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--EfN             @src/jackhmmer@  --EfN 250                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--Eft             @src/jackhmmer@  --Eft 0.045               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--nonull2         @src/jackhmmer@  --nonull2                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/-Z                @src/jackhmmer@  -Z 45000000               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--domZ            @src/jackhmmer@  --domZ 45000000           --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--seed            @src/jackhmmer@  --seed 42                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--qformat         @src/jackhmmer@  --qformat fasta           --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  j/--tformat         @src/jackhmmer@  --tformat fasta           --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+# --cpu: threads only
+# --mpi: MPI only
+
+
+
+# phmmer    xxxxxxxxxxxxxxxxxxxx
+1 exercise  phmmer               @src/phmmer@                            --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/-h            @src/phmmer@  -h
+1 exercise  phmmer/-o            @src/phmmer@  -o           %PHMMER.out%  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/-A            @src/phmmer@  -A           %PHMMER.sto%  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--tblout      @src/phmmer@  --tblout     %PHMMER.tbl%  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--domtblout   @src/phmmer@  --domtblout  %PHMMER.dtbl% --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--pfamtblout  @src/phmmer@  --pfamtblout %PHMMER.dtbl% --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--acc         @src/phmmer@  --acc                     --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--noali       @src/phmmer@  --noali                   --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--notextw     @src/phmmer@  --notextw                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--textw       @src/phmmer@  --textw 256               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--popen       @src/phmmer@  --popen 0.4               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--pextend     @src/phmmer@  --pextend 0.6             --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--mxfile      @src/phmmer@  --mxfile !easel/formats/BLOSUM62! --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/-E            @src/phmmer@  -E 0.01                   --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/-T            @src/phmmer@  -T 20                     --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--domE        @src/phmmer@  --domE 0.01               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--domT        @src/phmmer@  --domT 20                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--incE        @src/phmmer@  --incE 0.01               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--incT        @src/phmmer@  --incT 20                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--incdomE     @src/phmmer@  --incdomE 0.01            --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--incdomT     @src/phmmer@  --incdomT 20              --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--max         @src/phmmer@  --max                     --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--F1          @src/phmmer@  --F1 0.03                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--F2          @src/phmmer@  --F2 0.002                --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--F3          @src/phmmer@  --F3 0.0002               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--nobias      @src/phmmer@  --nobias                  --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--EmL         @src/phmmer@  --EmL 100                          --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--EmN         @src/phmmer@  --EmN 250                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--EvL         @src/phmmer@  --EvL 100                 --EmL 10          --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--EvN         @src/phmmer@  --EvN 250                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--EfL         @src/phmmer@  --EfL 100                 --EmL 10 --EvL 10          !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--EfN         @src/phmmer@  --EfN 250                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--Eft         @src/phmmer@  --Eft 0.045               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--nonull2     @src/phmmer@  --nonull2                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/-Z            @src/phmmer@  -Z 45000000               --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--domZ        @src/phmmer@  --domZ 45000000           --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--seed        @src/phmmer@  --seed 42                 --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--qformat     @src/phmmer@  --qformat fasta           --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+1 exercise  phmmer/--tformat     @src/phmmer@  --tformat fasta           --EmL 10 --EvL 10 --EfL 10 !tutorial/HBB_HUMAN! %RNDDB%
+# --cpu: threads only
+# --mpi: MPI only
+
+# nhmmer    xxxxxxxxxxxxxxxxxxxx
+1 prep      rnddb                @easel/miniapps/esl-shuffle@ -G --dna   -L 10000 -N 2 -o %RNDDB%
+1 exercise  nhmmer               @src/nhmmer@                             !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/-h            @src/nhmmer@  -h
+1 exercise  nhmmer/-o            @src/nhmmer@  -o           %nhmmer.out%  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/-A            @src/nhmmer@  -A           %nhmmer.sto%  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--tblout      @src/nhmmer@  --tblout     %nhmmer.tbl%  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--dfamtblout  @src/nhmmer@  --dfamtblout %nhmmer.dtbl% !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--acc         @src/nhmmer@  --acc                      !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--noali       @src/nhmmer@  --noali                    !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--notextw     @src/nhmmer@  --notextw                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--textw       @src/nhmmer@  --textw 256                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/-E            @src/nhmmer@  -E 0.01                    !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/-T            @src/nhmmer@  -T 20                      !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--incE        @src/nhmmer@  --incE 0.01                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--incT        @src/nhmmer@  --incT 20                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--max         @src/nhmmer@  --max                      !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--F1          @src/nhmmer@  --F1 0.03                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--F2          @src/nhmmer@  --F2 0.002                 !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--F3          @src/nhmmer@  --F3 0.0002                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--nobias      @src/nhmmer@  --nobias                   !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--nonull2     @src/nhmmer@  --nonull2                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/-Z            @src/nhmmer@  -Z 45000000                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmer/--seed        @src/nhmmer@  --seed 42                  !tutorial/MADE1.hmm! %RNDDB%
+
+
+# nhmmscan    xxxxxxxxxxxxxxxxxxxx
+1 prep      rnddb                  @easel/miniapps/esl-shuffle@ -G --dna   -L 10000 -N 2 -o %RNDDB%
+1 prep      press                  @src/hmmpress@  -f                        !tutorial/MADE1.hmm!
+1 exercise  nhmmscan               @src/nhmmscan@                             !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/-h            @src/nhmmscan@  -h
+1 exercise  nhmmscan/-o            @src/nhmmscan@  -o           %nhmmscan.out%  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--tblout      @src/nhmmscan@  --tblout     %nhmmscan.tbl%  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--dfamtblout  @src/nhmmscan@  --dfamtblout %nhmmscan.dtbl% !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--acc         @src/nhmmscan@  --acc                      !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--noali       @src/nhmmscan@  --noali                    !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--notextw     @src/nhmmscan@  --notextw                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--textw       @src/nhmmscan@  --textw 256                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/-E            @src/nhmmscan@  -E 0.01                    !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/-T            @src/nhmmscan@  -T 20                      !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--incE        @src/nhmmscan@  --incE 0.01                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--incT        @src/nhmmscan@  --incT 20                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--max         @src/nhmmscan@  --max                      !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--F1          @src/nhmmscan@  --F1 0.03                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--F2          @src/nhmmscan@  --F2 0.002                 !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--F3          @src/nhmmscan@  --F3 0.0002                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--nobias      @src/nhmmscan@  --nobias                   !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--nonull2     @src/nhmmscan@  --nonull2                  !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/-Z            @src/nhmmscan@  -Z 45000000                !tutorial/MADE1.hmm! %RNDDB%
+1 exercise  nhmmscan/--seed        @src/nhmmscan@  --seed 42                  !tutorial/MADE1.hmm! %RNDDB%
+
+################################################################
+# Integration tests
+################################################################
+
+# Prep a press'ed "minifam" that's used in several integration tests,
+# and extract an individual 'typical' model Caudal_act.
+1 prep      Caudal                @easel/miniapps/esl-afetch@ !testsuite/minifam! Caudal_act > %CAUDAL.STO%
+1 prep      hmm                   @src/hmmbuild@ %CAUDAL.HMM% %CAUDAL.STO%
+1 prep      minifam               @src/hmmbuild@ %MINIFAM.HMM% !testsuite/minifam!
+1 prep      minifam_press         @src/hmmpress@ %MINIFAM.HMM% 
+
+# Run-to-run variation tests
+# By default, stochastic simulations are seeded reproducibly, so there
+# is no run-to-run variation; whereas with different RNG seeds,
+# run-to-run variation does occur. [xref J5/99]
+# The hmmemit seed of 35 is carefully chosen to generate a target sequence
+# that requires stochastic clustering when aligned to the Caudal_act.hmm test
+# To search for new seeds, the command line is something like:
+# ( ../src/hmmemit --seed 35 -p Caudal_act.hmm | ../src/hmmsearch --seed 2 --tblout foo.out Caudal_act.hmm - > /dev/null ; cat foo.out )
+# looking for high scoring sequences that force a stochastic clustering step.
+#
+#           xxxxxxxxxxxxxxxxxxxx
+1 prep      seq                   @src/hmmemit@  --seed 35 -p %CAUDAL.HMM% > %TESTSEQ%
+1 prep      db_1                  @src/hmmemit@  --seed 35 -p %CAUDAL.HMM% > %TESTDB%
+1 prep      db_2                  @easel/miniapps/esl-reformat@ fasta !testsuite/Caudal_act.sto! >> %TESTDB%
+1 prep      db_3                  @easel/miniapps/esl-shuffle@ -G --amino -N 100 -L 350 >> %TESTDB%
+1 exercise  hmmbuild_variation    !testsuite/i1-build-variation.sh!     @src/hmmbuild@   !testsuite/Caudal_act.sto!          %OUTFILES%
+1 exercise  hmmscan_variation     !testsuite/i2-search-variation.sh!    @src/hmmscan@    %MINIFAM.HMM%   %TESTSEQ% %OUTFILES%
+1 exercise  hmmsearch_variation   !testsuite/i2-search-variation.sh!    @src/hmmsearch@  %CAUDAL.HMM%    %TESTDB%  %OUTFILES%
+1 exercise  phmmer_variation      !testsuite/i3-seqsearch-variation.sh! @src/phmmer@     %TESTSEQ%       %TESTDB%  %OUTFILES%
+3 exercise  jackhmmer_variation   !testsuite/i3-seqsearch-variation.sh! @src/jackhmmer@  %TESTSEQ%       %TESTDB%  %OUTFILES%
+1 exercise  mapali                !testsuite/i6-hmmalign-mapali.pl!     @src/hmmalign@   @easel/miniapps/esl-reformat@  !testsuite!  %OUTFILES%
+1 exercise  fragments             !testsuite/i7-hmmbuild-fragments.pl!  @src/hmmbuild@               %OUTFILES%
+1 exercise  nonresidues           !testsuite/i8-nonresidues.pl!         @@ !! %OUTFILES%
+1 exercise  opt-annotation        !testsuite/i9-optional-annotation.pl! @@ !! %OUTFILES%
+1 exercise  dup-names             !testsuite/i10-duplicate-names.pl!    @@ !! %OUTFILES%
+1 exercise  mapali-again          !testsuite/i11-hmmalign-mapali.pl!    @@ !! %OUTFILES%
+1 exercise  delete-corruption     !testsuite/i12-delete-corruption.pl!  @@ !! %OUTFILES%
+1 exercise  msa-integrity         !testsuite/i13-msa-integrity.pl!      @@ !! %OUTFILES%
+1 exercise  hmmemit-consensus     !testsuite/i14-hmmemit-consensus.pl!  @@ !! %OUTFILES%
+1 exercise  hmmconvert            !testsuite/i15-hmmconvert.pl!         @@ !! %OUTFILES%
+1 exercise  stdin_pipes           !testsuite/i17-stdin.pl!              @@ !! %OUTFILES%
+1 exercise  nhmmer_generic        !testsuite/i18-nhmmer-generic.pl!     @@ !! %OUTFILES%
+1 exercise  hmmpgmd_ga            !testsuite/i19-hmmpgmd-ga.pl!         @@ !! %OUTFILES% 
+#comment out fmindex test until it's been returned to life
+#1 exercise  fmindex-core          !testsuite/i20-fmindex-core.pl!       @@ !! %OUTFILES%
+
+1 exercise  brute-itest           @src/itest_brute@  
+1 exercise  hmmpress-itest        !src/hmmpress.itest.pl! @src/hmmpress@ %MINIFAM.HMM% %TMPPFX%
+
+
+################################################################
+# Fixed bug tests
+################################################################
+
+#           xxxxxxxxxxxxxxxxxxxx
+1 exercise  h39                  @src/hmmsearch@ !testsuite/M1.hmm! !testsuite/M1.sto!
+1 exercise  h45                  !testsuite/i4-zerolength-seqs.sh! @@ !! %MINIFAM.HMM% %OUTFILES%
+1 exercise  h50                  !testsuite/i5-hmmbuild-naming.pl! @@ !! %OUTFILES%
+1 exercise  h82                  !testsuite/i16-build-allins.pl!   @@ !! %OUTFILES%
+
+################################################################
+# valgrind tests  (optional. 'make SQCLEVEL=3 check')
+################################################################
+
+#           xxxxxxxxxxxxxxxxxxxx
+3 valgrind  hmmer                 @src/hmmer_utest@
+3 valgrind  build                 @src/build_utest@
+3 valgrind  generic_fwdback       @src/generic_fwdback_utest@
+3 valgrind  generic_msv           @src/generic_msv_utest@
+3 valgrind  generic_stotrace      @src/generic_stotrace_utest@
+3 valgrind  generic_viterbi       @src/generic_viterbi_utest@
+3 valgrind  logsum                @src/logsum_utest@
+3 valgrind  modelconfig           @src/modelconfig_utest@
+3 valgrind  p7_alidisplay         @src/p7_alidisplay_utest@
+3 valgrind  p7_bg                 @src/p7_bg_utest@
+3 valgrind  p7_gmx                @src/p7_gmx_utest@
+3 valgrind  p7_hmm                @src/p7_hmm_utest@
+3 valgrind  p7_hmmfile            @src/p7_hmmfile_utest@
+3 valgrind  p7_profile            @src/p7_profile_utest@
+3 valgrind  p7_tophits            @src/p7_tophits_utest@
+3 valgrind  p7_trace              @src/p7_trace_utest@
+
+3 valgrind  decoding              @src/impl/decoding_utest@
+3 valgrind  fwdback               @src/impl/fwdback_utest@
+3 valgrind  io                    @src/impl/io_utest@
+3 valgrind  msvfilter             @src/impl/msvfilter_utest@
+3 valgrind  null2                 @src/impl/null2_utest@
+3 valgrind  optacc                @src/impl/optacc_utest@
+3 valgrind  stotrace              @src/impl/stotrace_utest@
+3 valgrind  vitfilter             @src/impl/vitfilter_utest@
+
+1 prep      minifam               @src/hmmbuild@ %MINIFAM.HMM% !testsuite/minifam!
+
+3 valgrind  hmmbuild              @src/hmmbuild@   %GLOBIN.HMM% !tutorial/globins4.sto!
+3 valgrind  hmmconvert            @src/hmmconvert@ -b %GLOBIN.HMM%
+3 valgrind  hmmalign              @src/hmmalign@   %GLOBIN.HMM% !tutorial/globins45.fa!
+3 valgrind  hmmemit               @src/hmmemit@    -N10 %GLOBIN.HMM% 
+3 valgrind  hmmpress              @src/hmmpress@   -f %MINIFAM.HMM%
+3 valgrind  hmmfetch              @src/hmmfetch@   %MINIFAM.HMM% Caudal_act
+3 valgrind  hmmscan               @src/hmmscan@    %MINIFAM.HMM% !tutorial/HBB_HUMAN!
+3 valgrind  hmmsearch             @src/hmmsearch@  %GLOBIN.HMM% !tutorial/globins45.fa!
+3 valgrind  hmmsim                @src/hmmsim@     %GLOBIN.HMM% 
+3 valgrind  hmmstat               @src/hmmstat@    %MINIFAM.HMM% 
+3 valgrind  jackhmmer             @src/jackhmmer@  !tutorial/HBB_HUMAN! !tutorial/globins45.fa!
+3 valgrind  phmmer                @src/phmmer@     !tutorial/HBB_HUMAN! !tutorial/globins45.fa!
+
+# some derivatives of tmpfiles created by hmmpress, not sqc itself: clean up
+#1 prep     minifam               rm -f %MINIFAM.HMM%.h3f %MINIFAM.HMM%.h3p %MINIFAM.HMM%.h3m %MINIFAM.HMM%.h3i 
+
+
+#################################################################
+# HMMER - Biological sequence analysis with profile HMMs
+# Version 3.1b2; February 2015
+# Copyright (C) 2015 Howard Hughes Medical Institute.
+# Other copyrights also apply. See the COPYRIGHT file for a full list.
+# 
+# HMMER is distributed under the terms of the GNU General Public License
+# (GPLv3). See the LICENSE file for details.
+#
+# SVN $Id: testsuite.sqc 4406 2013-02-21 20:52:46Z wheelert $
+# SVN $URL$
+################################################################
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/.dropbox.attr b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/.dropbox.attr
new file mode 100755
index 0000000..9e26dfe
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/.dropbox.attr
@@ -0,0 +1 @@
+{}
\ No newline at end of file
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/7LESS_DROME b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/7LESS_DROME
new file mode 100755
index 0000000..e836cad
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/7LESS_DROME
@@ -0,0 +1,276 @@
+ID   7LESS_DROME             Reviewed;        2554 AA.
+AC   P13368; Q9TYI0; Q9U5V7; Q9VZ36;
+DT   01-JAN-1990, integrated into UniProtKB/Swiss-Prot.
+DT   20-JUN-2001, sequence version 2.
+DT   16-DEC-2008, entry version 99.
+DE   RecName: Full=Protein sevenless;
+DE            EC=2.7.10.1;
+GN   Name=sev; Synonyms=HD-265; ORFNames=CG18085;
+OS   Drosophila melanogaster (Fruit fly).
+OC   Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota;
+OC   Neoptera; Endopterygota; Diptera; Brachycera; Muscomorpha;
+OC   Ephydroidea; Drosophilidae; Drosophila; Sophophora.
+OX   NCBI_TaxID=7227;
+RN   [1]
+RP   NUCLEOTIDE SEQUENCE [GENOMIC DNA], FUNCTION, AND MUTAGENESIS OF
+RP   LYS-2242.
+RC   STRAIN=Canton-S;
+RX   MEDLINE=88282538; PubMed=2840202; DOI=10.1016/0092-8674(88)90193-6;
+RA   Basler K., Hafen E.;
+RT   "Control of photoreceptor cell fate by the sevenless protein requires
+RT   a functional tyrosine kinase domain.";
+RL   Cell 54:299-311(1988).
+RN   [2]
+RP   NUCLEOTIDE SEQUENCE [MRNA].
+RC   STRAIN=Oregon-R;
+RX   MEDLINE=88329706; PubMed=3138161;
+RA   Bowtell D.L.L., Simon M.A., Rubin G.M.;
+RT   "Nucleotide sequence and structure of the sevenless gene of Drosophila
+RT   melanogaster.";
+RL   Genes Dev. 2:620-634(1988).
+RN   [3]
+RP   NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
+RC   STRAIN=Berkeley;
+RX   MEDLINE=20196006; PubMed=10731132; DOI=10.1126/science.287.5461.2185;
+RA   Adams M.D., Celniker S.E., Holt R.A., Evans C.A., Gocayne J.D.,
+RA   Amanatides P.G., Scherer S.E., Li P.W., Hoskins R.A., Galle R.F.,
+RA   George R.A., Lewis S.E., Richards S., Ashburner M., Henderson S.N.,
+RA   Sutton G.G., Wortman J.R., Yandell M.D., Zhang Q., Chen L.X.,
+RA   Brandon R.C., Rogers Y.-H.C., Blazej R.G., Champe M., Pfeiffer B.D.,
+RA   Wan K.H., Doyle C., Baxter E.G., Helt G., Nelson C.R., Miklos G.L.G.,
+RA   Abril J.F., Agbayani A., An H.-J., Andrews-Pfannkoch C., Baldwin D.,
+RA   Ballew R.M., Basu A., Baxendale J., Bayraktaroglu L., Beasley E.M.,
+RA   Beeson K.Y., Benos P.V., Berman B.P., Bhandari D., Bolshakov S.,
+RA   Borkova D., Botchan M.R., Bouck J., Brokstein P., Brottier P.,
+RA   Burtis K.C., Busam D.A., Butler H., Cadieu E., Center A., Chandra I.,
+RA   Cherry J.M., Cawley S., Dahlke C., Davenport L.B., Davies P.,
+RA   de Pablos B., Delcher A., Deng Z., Mays A.D., Dew I., Dietz S.M.,
+RA   Dodson K., Doup L.E., Downes M., Dugan-Rocha S., Dunkov B.C., Dunn P.,
+RA   Durbin K.J., Evangelista C.C., Ferraz C., Ferriera S., Fleischmann W.,
+RA   Fosler C., Gabrielian A.E., Garg N.S., Gelbart W.M., Glasser K.,
+RA   Glodek A., Gong F., Gorrell J.H., Gu Z., Guan P., Harris M.,
+RA   Harris N.L., Harvey D.A., Heiman T.J., Hernandez J.R., Houck J.,
+RA   Hostin D., Houston K.A., Howland T.J., Wei M.-H., Ibegwam C.,
+RA   Jalali M., Kalush F., Karpen G.H., Ke Z., Kennison J.A., Ketchum K.A.,
+RA   Kimmel B.E., Kodira C.D., Kraft C.L., Kravitz S., Kulp D., Lai Z.,
+RA   Lasko P., Lei Y., Levitsky A.A., Li J.H., Li Z., Liang Y., Lin X.,
+RA   Liu X., Mattei B., McIntosh T.C., McLeod M.P., McPherson D.,
+RA   Merkulov G., Milshina N.V., Mobarry C., Morris J., Moshrefi A.,
+RA   Mount S.M., Moy M., Murphy B., Murphy L., Muzny D.M., Nelson D.L.,
+RA   Nelson D.R., Nelson K.A., Nixon K., Nusskern D.R., Pacleb J.M.,
+RA   Palazzolo M., Pittman G.S., Pan S., Pollard J., Puri V., Reese M.G.,
+RA   Reinert K., Remington K., Saunders R.D.C., Scheeler F., Shen H.,
+RA   Shue B.C., Siden-Kiamos I., Simpson M., Skupski M.P., Smith T.J.,
+RA   Spier E., Spradling A.C., Stapleton M., Strong R., Sun E.,
+RA   Svirskas R., Tector C., Turner R., Venter E., Wang A.H., Wang X.,
+RA   Wang Z.-Y., Wassarman D.A., Weinstock G.M., Weissenbach J.,
+RA   Williams S.M., Woodage T., Worley K.C., Wu D., Yang S., Yao Q.A.,
+RA   Ye J., Yeh R.-F., Zaveri J.S., Zhan M., Zhang G., Zhao Q., Zheng L.,
+RA   Zheng X.H., Zhong F.N., Zhong W., Zhou X., Zhu S.C., Zhu X.,
+RA   Smith H.O., Gibbs R.A., Myers E.W., Rubin G.M., Venter J.C.;
+RT   "The genome sequence of Drosophila melanogaster.";
+RL   Science 287:2185-2195(2000).
+RN   [4]
+RP   GENOME REANNOTATION.
+RX   MEDLINE=22426069; PubMed=12537572;
+RA   Misra S., Crosby M.A., Mungall C.J., Matthews B.B., Campbell K.S.,
+RA   Hradecky P., Huang Y., Kaminker J.S., Millburn G.H., Prochnik S.E.,
+RA   Smith C.D., Tupy J.L., Whitfield E.J., Bayraktaroglu L., Berman B.P.,
+RA   Bettencourt B.R., Celniker S.E., de Grey A.D.N.J., Drysdale R.A.,
+RA   Harris N.L., Richter J., Russo S., Schroeder A.J., Shu S.Q.,
+RA   Stapleton M., Yamada C., Ashburner M., Gelbart W.M., Rubin G.M.,
+RA   Lewis S.E.;
+RT   "Annotation of the Drosophila melanogaster euchromatic genome: a
+RT   systematic review.";
+RL   Genome Biol. 3:RESEARCH0083.1-RESEARCH0083.22(2002).
+RN   [5]
+RP   NUCLEOTIDE SEQUENCE [GENOMIC DNA] OF 2349-2408.
+RX   MEDLINE=98401146; PubMed=9731193; DOI=10.1006/bbrc.1998.9003;
+RA   Oates A.C., Wollberg P., Achen M.G., Wilks A.F.;
+RT   "Sampling the genomic pool of protein tyrosine kinase genes using the
+RT   polymerase chain reaction with genomic DNA.";
+RL   Biochem. Biophys. Res. Commun. 249:660-667(1998).
+RN   [6]
+RP   IDENTIFICATION OF FN-III REPEATS.
+RX   MEDLINE=90199889; PubMed=2317871; DOI=10.1016/0092-8674(90)90209-W;
+RA   Norton P.A., Hynes R.O., Ress D.J.G.;
+RT   "Sevenless: seven found?";
+RL   Cell 61:15-16(1990).
+RN   [7]
+RP   INTERACTION WITH DAB.
+RX   MEDLINE=98336289; PubMed=9671493;
+RA   Le N., Simon M.A.;
+RT   "Disabled is a putative adaptor protein that functions during
+RT   signaling by the sevenless receptor tyrosine kinase.";
+RL   Mol. Cell. Biol. 18:4844-4854(1998).
+CC   -!- FUNCTION: Receptor for an extracellular signal required to
+CC       instruct a cell to differentiate into an R7 photoreceptor. The
+CC       ligand for sev is the boss (bride of sevenless) protein on the
+CC       surface of the neighboring R8 cell.
+CC   -!- CATALYTIC ACTIVITY: ATP + a [protein]-L-tyrosine = ADP + a
+CC       [protein]-L-tyrosine phosphate.
+CC   -!- SUBUNIT: May form a complex with drk and Sos. Binds the
+CC       phosphotyrosine interaction domain (PID) of Dab.
+CC   -!- SUBCELLULAR LOCATION: Cell membrane; Single-pass membrane protein
+CC       (Potential).
+CC   -!- DOMAIN: It is unclear whether the potential membrane spanning
+CC       region near the N-terminus is present as a transmembrane domain in
+CC       the native protein or serves as a cleaved signal sequence.
+CC   -!- SIMILARITY: Belongs to the protein kinase superfamily. Tyr protein
+CC       kinase family. Insulin receptor subfamily.
+CC   -!- SIMILARITY: Contains 7 fibronectin type-III domains.
+CC   -!- SIMILARITY: Contains 1 protein kinase domain.
+CC   -----------------------------------------------------------------------
+CC   Copyrighted by the UniProt Consortium, see http://www.uniprot.org/terms
+CC   Distributed under the Creative Commons Attribution-NoDerivs License
+CC   -----------------------------------------------------------------------
+DR   EMBL; J03158; AAA28882.1; -; Genomic_DNA.
+DR   EMBL; X13666; CAA31960.1; ALT_INIT; mRNA.
+DR   EMBL; X13666; CAB55310.1; -; mRNA.
+DR   EMBL; AE014298; AAF47992.2; -; Genomic_DNA.
+DR   EMBL; AJ002917; CAA05752.1; -; Genomic_DNA.
+DR   PIR; A28912; TVFF7L.
+DR   RefSeq; NP_511114.2; -.
+DR   UniGene; Dm.2618; -.
+DR   HSSP; P08069; 1JQH.
+DR   IntAct; P13368; 5.
+DR   Ensembl; CG18085; Drosophila melanogaster.
+DR   GeneID; 32039; -.
+DR   KEGG; dme:Dmel_CG18085; -.
+DR   FlyBase; FBgn0003366; sev.
+DR   HOGENOM; P13368; -.
+DR   NextBio; 776500; -.
+DR   ArrayExpress; P13368; -.
+DR   GermOnline; CG18085; Drosophila melanogaster.
+DR   GO; GO:0016021; C:integral to membrane; IEA:UniProtKB-KW.
+DR   GO; GO:0005886; C:plasma membrane; IEA:UniProtKB-KW.
+DR   GO; GO:0005524; F:ATP binding; IEA:InterPro.
+DR   GO; GO:0005515; F:protein binding; IPI:UniProtKB.
+DR   GO; GO:0004714; F:transmembrane receptor protein tyrosine kin...; IEA:InterPro.
+DR   GO; GO:0008595; P:determination of anterior/posterior axis, e...; TAS:FlyBase.
+DR   GO; GO:0046534; P:positive regulation of photoreceptor cell d...; IMP:FlyBase.
+DR   GO; GO:0006468; P:protein amino acid phosphorylation; IEA:InterPro.
+DR   GO; GO:0045467; P:R7 cell development; NAS:FlyBase.
+DR   GO; GO:0045464; P:R8 cell fate specification; IMP:FlyBase.
+DR   GO; GO:0050896; P:response to stimulus; IEA:UniProtKB-KW.
+DR   GO; GO:0008293; P:torso signaling pathway; NAS:FlyBase.
+DR   GO; GO:0007601; P:visual perception; IEA:UniProtKB-KW.
+DR   InterPro; IPR011042; 6-blade_b-propeller_TolB-like.
+DR   InterPro; IPR008957; Fibronectin_typ-III-like_fold.
+DR   InterPro; IPR003961; FN_III.
+DR   InterPro; IPR000033; LDLR.
+DR   InterPro; IPR000719; Prot_kinase_core.
+DR   InterPro; IPR017441; Protein_kinase_ATP_bd_CS.
+DR   InterPro; IPR002011; Recept_tyr_kinase-II_CS.
+DR   InterPro; IPR001245; Tyr_pkinase.
+DR   InterPro; IPR008266; Tyr_pkinase_AS.
+DR   Gene3D; G3DSA:2.120.10.30; 6-blade_b-propeller_TolB-like; 1.
+DR   Gene3D; G3DSA:2.60.40.30; FN_III-like; 3.
+DR   Pfam; PF00041; fn3; 6.
+DR   Pfam; PF07714; Pkinase_Tyr; 1.
+DR   PRINTS; PR00109; TYRKINASE.
+DR   ProDom; PD000001; Prot_kinase; 1.
+DR   SMART; SM00060; FN3; 7.
+DR   SMART; SM00135; LY; 2.
+DR   SMART; SM00219; TyrKc; 1.
+DR   PROSITE; PS50853; FN3; 7.
+DR   PROSITE; PS00107; PROTEIN_KINASE_ATP; 1.
+DR   PROSITE; PS50011; PROTEIN_KINASE_DOM; 1.
+DR   PROSITE; PS00109; PROTEIN_KINASE_TYR; 1.
+DR   PROSITE; PS00239; RECEPTOR_TYR_KIN_II; 1.
+PE   1: Evidence at protein level;
+KW   ATP-binding; Cell membrane; Complete proteome; Glycoprotein; Kinase;
+KW   Membrane; Nucleotide-binding; Phosphoprotein; Receptor; Repeat;
+KW   Sensory transduction; Transferase; Transmembrane;
+KW   Tyrosine-protein kinase; Vision.
+FT   CHAIN         1   2554       Protein sevenless.
+FT                                /FTId=PRO_0000058928.
+FT   TOPO_DOM      1   2123       Extracellular (Potential).
+FT   TRANSMEM   2124   2147       Potential.
+FT   TOPO_DOM   2148   2554       Cytoplasmic (Potential).
+FT   DOMAIN      311    431       Fibronectin type-III 1.
+FT   DOMAIN      436    528       Fibronectin type-III 2.
+FT   DOMAIN      822    921       Fibronectin type-III 3.
+FT   DOMAIN     1298   1392       Fibronectin type-III 4.
+FT   DOMAIN     1680   1794       Fibronectin type-III 5.
+FT   DOMAIN     1797   1897       Fibronectin type-III 6.
+FT   DOMAIN     1898   1988       Fibronectin type-III 7.
+FT   DOMAIN     2209   2485       Protein kinase.
+FT   NP_BIND    2215   2223       ATP (By similarity).
+FT   COMPBIAS   2038   2046       Poly-Arg.
+FT   ACT_SITE   2343   2343       Proton acceptor (By similarity).
+FT   BINDING    2242   2242       ATP (By similarity).
+FT   MOD_RES    2380   2380       Phosphotyrosine; by autocatalysis (By
+FT                                similarity).
+FT   CARBOHYD     30     30       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD    129    129       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD    481    481       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD    505    505       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD    617    617       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD    647    647       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD    966    966       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1228   1228       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1313   1313       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1353   1353       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1550   1550       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1557   1557       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1639   1639       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1725   1725       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1756   1756       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1804   1804       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1889   1889       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   1947   1947       N-linked (GlcNAc...) (Potential).
+FT   CARBOHYD   2073   2073       N-linked (GlcNAc...) (Potential).
+FT   MUTAGEN    2242   2242       K->M: Inactivates the protein.
+FT   CONFLICT    392    392       V -> M (in Ref. 1; AAA28882).
+FT   CONFLICT    663    663       A -> T (in Ref. 3; AAF47992).
+FT   CONFLICT   1703   1703       N -> H (in Ref. 3; AAF47992).
+FT   CONFLICT   1730   1731       RG -> KE (in Ref. 3; AAF47992).
+FT   CONFLICT   1741   1741       V -> M (in Ref. 3; AAF47992).
+FT   CONFLICT   1823   1823       E -> Q (in Ref. 2; CAA31960/CAB55310).
+FT   CONFLICT   2271   2271       C -> R (in Ref. 1; AAA28882).
+SQ   SEQUENCE   2554 AA;  287025 MW;  09E238A0F27684F8 CRC64;
+     MTMFWQQNVD HQSDEQDKQA KGAAPTKRLN ISFNVKIAVN VNTKMTTTHI NQQAPGTSSS
+     SSNSQNASPS KIVVRQQSSS FDLRQQLARL GRQLASGQDG HGGISTILII NLLLLILLSI
+     CCDVCRSHNY TVHQSPEPVS KDQMRLLRPK LDSDVVEKVA IWHKHAAAAP PSIVEGIAIS
+     SRPQSTMAHH PDDRDRDRDP SEEQHGVDER MVLERVTRDC VQRCIVEEDL FLDEFGIQCE
+     KADNGEKCYK TRCTKGCAQW YRALKELESC QEACLSLQFY PYDMPCIGAC EMAQRDYWHL
+     QRLAISHLVE RTQPQLERAP RADGQSTPLT IRWAMHFPEH YLASRPFNIQ YQFVDHHGEE
+     LDLEQEDQDA SGETGSSAWF NLADYDCDEY YVCEILEALI PYTQYRFRFE LPFGENRDEV
+     LYSPATPAYQ TPPEGAPISA PVIEHLMGLD DSHLAVHWHP GRFTNGPIEG YRLRLSSSEG
+     NATSEQLVPA GRGSYIFSQL QAGTNYTLAL SMINKQGEGP VAKGFVQTHS ARNEKPAKDL
+     TESVLLVGRR AVMWQSLEPA GENSMIYQSQ EELADIAWSK REQQLWLLNV HGELRSLKFE
+     SGQMVSPAQQ LKLDLGNISS GRWVPRRLSF DWLHHRLYFA MESPERNQSS FQIISTDLLG
+     ESAQKVGESF DLPVEQLEVD ALNGWIFWRN EESLWRQDLH GRMIHRLLRI RQPGWFLVQP
+     QHFIIHLMLP QEGKFLEISY DGGFKHPLPL PPPSNGAGNG PASSHWQSFA LLGRSLLLPD
+     SGQLILVEQQ GQAASPSASW PLKNLPDCWA VILLVPESQP LTSAGGKPHS LKALLGAQAA
+     KISWKEPERN PYQSADAARS WSYELEVLDV ASQSAFSIRN IRGPIFGLQR LQPDNLYQLR
+     VRAINVDGEP GEWTEPLAAR TWPLGPHRLR WASRQGSVIH TNELGEGLEV QQEQLERLPG
+     PMTMVNESVG YYVTGDGLLH CINLVHSQWG CPISEPLQHV GSVTYDWRGG RVYWTDLARN
+     CVVRMDPWSG SRELLPVFEA NFLALDPRQG HLYYATSSQL SRHGSTPDEA VTYYRVNGLE
+     GSIASFVLDT QQDQLFWLVK GSGALRLYRA PLTAGGDSLQ MIQQIKGVFQ AVPDSLQLLR
+     PLGALLWLER SGRRARLVRL AAPLDVMELP TPDQASPASA LQLLDPQPLP PRDEGVIPMT
+     VLPDSVRLDD GHWDDFHVRW QPSTSGGNHS VSYRLLLEFG QRLQTLDLST PFARLTQLPQ
+     AQLQLKISIT PRTAWRSGDT TRVQLTTPPV APSQPRRLRV FVERLATALQ EANVSAVLRW
+     DAPEQGQEAP MQALEYHISC WVGSELHEEL RLNQSALEAR VEHLQPDQTY HFQVEARVAA
+     TGAAAGAASH ALHVAPEVQA VPRVLYANAE FIGELDLDTR NRRRLVHTAS PVEHLVGIEG
+     EQRLLWVNEH VELLTHVPGS APAKLARMRA EVLALAVDWI QRIVYWAELD ATAPQAAIIY
+     RLDLCNFEGK ILQGERVWST PRGRLLKDLV ALPQAQSLIW LEYEQGSPRN GSLRGRNLTD
+     GSELEWATVQ PLIRLHAGSL EPGSETLNLV DNQGKLCVYD VARQLCTASA LRAQLNLLGE
+     DSIAGQLAQD SGYLYAVKNW SIRAYGRRRQ QLEYTVELEP EEVRLLQAHN YQAYPPKNCL
+     LLPSSGGSLL KATDCEEQRC LLNLPMITAS EDCPLPIPGV RYQLNLTLAR GPGSEEHDHG
+     VEPLGQWLLG AGESLNLTDL LPFTRYRVSG ILSSFYQKKL ALPTLVLAPL ELLTASATPS
+     PPRNFSVRVL SPRELEVSWL PPEQLRSESV YYTLHWQQEL DGENVQDRRE WEAHERRLET
+     AGTHRLTGIK PGSGYSLWVQ AHATPTKSNS SERLHVRSFA ELPELQLLEL GPYSLSLTWA
+     GTPDPLGSLQ LECRSSAEQL RRNVAGNHTK MVVEPLQPRT RYQCRLLLGY AATPGAPLYH
+     GTAEVYETLG DAPSQPGKPQ LEHIAEEVFR VTWTAARGNG APIALYNLEA LQARSDIRRR
+     RRRRRRNSGG SLEQLPWAEE PVVVEDQWLD FCNTTELSCI VKSLHSSRLL LFRVRARSLE
+     HGWGPYSEES ERVAEPFVSP EKRGSLVLAI IAPAAIVSSC VLALVLVRKV QKRRLRAKKL
+     LQQSRPSIWS NLSTLQTQQQ LMAVRNRAFS TTLSDADIAL LPQINWSQLK LLRFLGSGAF
+     GEVYEGQLKT EDSEEPQRVA IKSLRKGASE FAELLQEAQL MSNFKHENIV CLVGICFDTE
+     SISLIMEHME AGDLLSYLRA ARATSTQEPQ PTAGLSLSEL LAMCIDVANG CSYLEDMHFV
+     HRDLACRNCL VTESTGSTDR RRTVKIGDFG LARDIYKSDY YRKEGEGLLP VRWMSPESLV
+     DGLFTTQSDV WAFGVLCWEI LTLGQQPYAA RNNFEVLAHV KEGGRLQQPP MCTEKLYSLL
+     LLCWRTDPWE RPSFRRCYNT LHAISTDLRR TQMASATADT VVSCSRPEFK VRFDGQPLEE
+     HREHNERPED ENLTLREVPL KDKQLYANEG VSRL
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/HBB_HUMAN b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/HBB_HUMAN
new file mode 100755
index 0000000..1c64b8b
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/HBB_HUMAN
@@ -0,0 +1,4 @@
+>HBB_HUMAN Human beta hemoglobin.
+VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKV
+KAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGK
+EFTPPVQAAYQKVVAGVANALAHKYH
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.hmm
new file mode 100755
index 0000000..905efd4
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.hmm
@@ -0,0 +1,265 @@
+HMMER3/f [3.1 | February 2013]
+NAME  MADE1
+ACC   DF0000629.2
+DESC  MADE1 (MAriner Derived Element 1), a TcMar-Mariner DNA transposon
+LENG  80
+MAXL  426
+ALPH  DNA
+RF    yes
+MM    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Tue Feb 19 20:33:41 2013
+NSEQ  1997
+EFFN  3.911818
+CKSUM 3015610723
+STATS LOCAL MSV       -8.5786  0.71858
+STATS LOCAL VITERBI   -9.3632  0.71858
+STATS LOCAL FORWARD   -3.4823  0.71858
+HMM          A        C        G        T   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   1.24257  1.59430  1.62906  1.16413
+          1.38629  1.38629  1.38629  1.38629
+          0.03960  3.94183  3.94183  1.46634  0.26236  0.00000        *
+      1   2.69765  2.44396  2.81521  0.24089      1 t x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03960  3.94183  3.94183  1.46634  0.26236  1.09861  0.40547
+      2   2.72939  2.37873  2.85832  0.24244      2 t x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03725  4.00179  4.00179  1.46634  0.26236  1.09861  0.40547
+      3   0.16099  3.16370  2.87328  2.99734      3 a x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03604  4.03416  4.03416  1.46634  0.26236  1.09861  0.40547
+      4   1.98862  2.42132  0.42649  2.10770      4 g x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03539  4.05203  4.05203  1.46634  0.26236  1.09861  0.40547
+      5   1.96369  2.69532  0.36534  2.32099      5 g x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03764  4.06427  3.92372  1.46634  0.26236  1.09861  0.40547
+      6   2.56994  2.11239  2.71946  0.30571      6 t x - -
+          1.37159  1.41129  1.39124  1.37159
+          0.03806  3.89715  4.07214  1.50442  0.25122  1.00714  0.45454
+      7   2.58388  2.10353  2.64646  0.31253     12 t x - -
+          1.38764  1.38524  1.38764  1.38465
+          0.03494  4.03864  4.09125  1.40070  0.28293  1.09237  0.40860
+      8   2.18552  2.70201  0.28821  2.64645     14 g x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03628  4.09157  3.96779  1.46634  0.26236  1.09861  0.40547
+      9   2.16916  2.82142  0.28427  2.60854     15 g x - -
+          1.38091  1.39033  1.38365  1.39033
+          0.03566  4.00237  4.08886  1.38021  0.28972  1.01958  0.44745
+     10   2.45517  2.15232  2.42886  0.34277     18 t x - -
+          1.39065  1.39065  1.39065  1.37335
+          0.03536  4.01212  4.09576  1.39554  0.28462  1.09775  0.40589
+     11   2.10260  2.95484  0.28160  2.64222     21 g x - -
+          1.36740  1.40555  1.40555  1.36740
+          0.03843  3.92069  4.02468  1.44733  0.26814  1.09856  0.40549
+     12   2.54740  0.30185  2.61355  2.21647     26 c x - -
+          1.38748  1.38276  1.38748  1.38748
+          0.03457  4.05446  4.09623  1.40847  0.28040  1.05496  0.42803
+     13   0.28443  2.72003  2.32214  2.48149     28 a x - -
+          1.38740  1.38740  1.38298  1.38740
+          0.03441  4.05976  4.10001  1.41198  0.27926  1.09780  0.40587
+     14   0.29412  2.55413  2.49679  2.35701     30 a x - -
+          1.38194  1.39067  1.38194  1.39067
+          0.03505  4.02482  4.10005  1.39522  0.28473  1.09929  0.40512
+     15   0.18837  2.99710  2.82270  2.77556     33 a x - -
+          1.39015  1.39472  1.37503  1.38539
+          0.03725  3.97815  4.02618  1.37955  0.28994  1.10102  0.40426
+     16   0.50816  2.05151  2.22111  1.82407     37 a x - -
+          1.36727  1.38730  1.39683  1.39405
+          0.04830  3.89881  3.61610  1.29026  0.32186  1.05306  0.42905
+     17   2.11260  2.73141  0.29747  2.64152     41 g x - -
+          1.36913  1.40376  1.40376  1.36913
+          0.03705  3.93681  4.08299  1.44872  0.26771  1.07479  0.41759
+     18   2.24459  1.90539  2.34054  0.43234     46 t x - -
+          1.33632  1.42493  1.39937  1.38665
+          0.04427  3.64574  4.06297  1.70501  0.20061  1.21309  0.35279
+     19   0.44322  2.17202  2.18055  2.03175     57 a x - -
+          1.41047  1.41471  1.36338  1.35797
+          0.03970  3.81957  4.07540  1.65588  0.21186  1.22788  0.34660
+     20   0.33340  2.42691  2.40824  2.25160     66 a x - -
+          1.29389  1.44615  1.37917  1.43324
+          0.04223  3.70146  4.09459  1.55158  0.23815  1.05880  0.42598
+     21   2.50563  1.98543  2.69601  0.33746     74 t x - -
+          1.39462  1.39462  1.42862  1.32990
+          0.04184  3.80216  3.98177  1.80466  0.17976  1.00279  0.45705
+     22   2.54484  1.97505  2.66483  0.33806     84 t x - -
+          1.39134  1.39489  1.38662  1.37246
+          0.03877  3.97504  3.95038  1.37620  0.29107  1.13932  0.38572
+     23   2.10159  2.83856  0.29282  2.61635     88 g x - -
+          1.39682  1.39682  1.35536  1.39682
+          0.05046  3.75402  3.65808  1.08330  0.41321  1.13019  0.39004
+     24   2.25298  0.61854  2.50691  1.29221     90 c x - -
+          1.35803  1.49605  1.46737  1.24379
+          0.06091  3.28322  3.83564  1.89752  0.16245  1.28788  0.32276
+     25   1.27819  2.23285  0.76242  1.91259    106 g x - -
+          1.29024  1.67349  1.68279  1.04597
+          0.05752  3.44263  3.73311  2.58671  0.07825  1.26818  0.33037
+     26   1.86925  2.58352  0.39466  2.33986    131 g x - -
+          1.31084  1.49412  1.46666  1.29002
+          0.04698  3.54257  4.07715  2.25245  0.11109  0.86163  0.54900
+     27   2.38297  1.93394  2.39162  0.39800    151 t x - -
+          1.33582  1.47359  1.44163  1.30411
+          0.04951  3.48445  4.03783  2.15951  0.12260  1.21681  0.35122
+     28   2.41717  2.17810  2.62774  0.32113    170 t x - -
+          1.36805  1.48060  1.37439  1.32840
+          0.04849  3.50958  4.05014  2.58370  0.07850  1.22399  0.34822
+     29   2.57764  2.35132  2.56552  0.28512    194 t x - -
+          1.43829  1.43458  1.24787  1.43829
+          0.04667  3.56670  4.05428  2.49706  0.08591  1.23744  0.34267
+     30   2.47248  2.07688  2.62257  0.33172    215 t x - -
+          1.25120  1.52623  1.70635  1.15531
+          0.08932  3.31524  3.01336  2.81842  0.06156  1.22909  0.34610
+     31   2.25937  2.13157  2.02027  0.43957    248 t x - -
+          1.18172  1.43522  1.72841  1.28150
+          0.07936  2.93117  3.77395  2.46269  0.08906  0.60457  0.79034
+     32   2.04508  2.84981  0.30490  2.58263    280 g x - -
+          1.17665  1.66785  1.66218  1.16056
+          0.05998  3.23615  3.96853  2.83684  0.06040  1.01952  0.44749
+     33   2.45103  0.38098  2.56776  1.87147    317 c x - -
+          1.24153  1.52524  1.60663  1.22783
+          0.05538  3.39046  3.90294  2.73920  0.06680  1.18729  0.36391
+     34   2.22082  0.36258  2.75077  2.02704    347 c x - -
+          1.15008  1.62014  1.86511  1.10673
+          0.06086  3.18178  4.04341  2.94504  0.05403  1.25991  0.33363
+     35   0.27033  2.66664  2.52541  2.43767    388 a x - -
+          1.24951  1.47565  1.41392  1.42074
+          0.07123  3.00373  3.95552  3.13655  0.04440  1.28173  0.32512
+     36   2.83107  2.41670  2.97197  0.22235    439 t x - -
+          1.37071  1.57683  1.38637  1.23972
+          0.05293  3.45216  3.91807  2.54402  0.08181  1.14651  0.38235
+     37   2.52322  2.25084  2.45909  0.31611    465 t x - -
+          1.26335  1.55077  1.59008  1.19965
+          0.07504  3.13329  3.55006  3.08962  0.04659  1.13108  0.38962
+     38   0.45807  2.30687  1.98940  2.03143    512 a x - -
+          1.15472  1.67511  1.53797  1.26320
+          0.09820  3.13076  2.99876  2.79197  0.06326  1.39915  0.28343
+     39   2.37471  0.42180  2.44763  1.80427    550 c x - -
+          1.23785  1.49058  1.48364  1.35502
+          0.06081  3.19472  4.01643  2.41851  0.09327  0.94671  0.49105
+     40   2.32826  1.95481  2.36781  0.40458    578 t x - -
+          1.36586  1.46001  1.43000  1.29720
+          0.05257  3.39673  4.03256  1.84862  0.17133  1.40979  0.27997
+     41   2.68669  2.13935  2.81520  0.28200    592 t x - -
+          1.34965  1.42793  1.45781  1.31633
+          0.04735  3.57826  3.99988  2.09424  0.13144  1.22129  0.34934
+     42   2.55904  2.16444  2.70859  0.29952    609 t x - -
+          1.12072  1.61936  1.63578  1.26895
+          0.07346  3.25910  3.42962  2.85641  0.05919  1.38363  0.28857
+     43   1.99923  1.61027  2.26343  0.57851    646 t x - -
+          1.32290  1.58747  1.61095  1.11018
+          0.06656  3.08568  3.97944  2.44774  0.09046  0.75593  0.63407
+     44   0.23887  2.79899  2.55209  2.60783    675 a x - -
+          1.18557  1.50323  1.59070  1.31590
+          0.05597  3.38637  3.88222  2.46900  0.08847  1.27945  0.32599
+     45   0.29593  2.53488  2.53903  2.32335    701 a x - -
+          1.08710  1.54222  1.59276  1.40430
+          0.07539  2.94521  3.91062  1.91623  0.15918  1.22327  0.34852
+     46   2.58352  2.40524  2.76700  0.25955    725 t x - -
+          1.19685  1.58503  1.74852  1.14293
+          0.06124  3.18279  4.02089  2.82961  0.06085  1.05474  0.42814
+     47   2.13251  2.88788  0.29508  2.50964    764 g x - -
+          1.20891  1.55463  1.68206  1.19000
+          0.06526  3.12574  3.94910  2.41448  0.09367  1.10396  0.40280
+     48   2.23841  2.99164  0.25118  2.72900    792 g x - -
+          1.26330  1.55339  1.52606  1.24355
+          0.05464  3.34968  4.01313  2.78872  0.06347  1.15133  0.38012
+     49   2.57533  0.32900  2.64632  2.01501    824 c x - -
+          1.35118  1.39828  1.40141  1.39516
+          0.04340  3.79297  3.91506  1.59549  0.22666  1.20075  0.35806
+     50   0.46433  2.04127  2.23437  2.00605    833 a x - -
+          1.23062  1.36903  1.62282  1.36182
+          0.05764  3.31530  3.92762  2.28791  0.10700  1.07910  0.41536
+     51   0.27513  2.77017  2.28518  2.57549    853 a x - -
+          1.27958  1.58726  1.46109  1.25394
+          0.05750  3.30072  3.96214  2.60776  0.07656  1.25708  0.33475
+     52   0.20149  2.86434  2.84551  2.69770    883 a x - -
+          1.23645  1.62259  1.71174  1.10368
+          0.05756  3.26729  4.02702  2.54508  0.08172  1.27391  0.32814
+     53   0.26982  2.65833  2.50477  2.46835    911 a x - -
+          1.36005  1.50358  1.48100  1.22550
+          0.06921  3.37553  3.42118  2.36646  0.09851  1.27560  0.32748
+     54   0.40022  2.19284  2.22687  2.20396    934 a x - -
+          1.12070  1.60472  1.53213  1.35895
+          0.05523  3.36752  3.94966  2.42917  0.09224  0.84774  0.55928
+     55   2.11356  0.46400  2.46442  1.79955    960 c x - -
+          1.23932  1.35913  1.50478  1.46331
+          0.05187  3.47055  3.94022  2.35854  0.09933  1.12102  0.39445
+     56   1.85868  0.79440  2.22069  1.25971    983 c x - -
+          1.21951  1.50212  1.51138  1.34185
+          0.06404  3.29054  3.69705  1.75742  0.18933  1.18410  0.36532
+     57   1.33272  2.32720  0.71452  1.90215    999 g x - -
+          1.12229  1.49343  1.56653  1.42255
+          0.04920  3.46654  4.08749  2.17995  0.11996  1.31769  0.31164
+     58   2.48337  0.43652  2.46331  1.68683   1017 c x - -
+          1.34704  1.55461  1.38112  1.28222
+          0.04823  3.61532  3.90311  2.20911  0.11631  1.00864  0.45368
+     59   0.41659  2.44509  1.93972  2.20507   1034 a x - -
+          1.38198  1.38198  1.39194  1.38932
+          0.03641  3.98130  4.06929  1.35873  0.29704  1.31330  0.31325
+     60   0.41612  2.39160  1.97116  2.21075   1037 a x - -
+          1.03649  1.46430  1.57421  1.57557
+          0.04769  3.52580  4.06641  2.32461  0.10294  0.84329  0.56263
+     61   2.66264  2.12302  2.82746  0.28581   1056 t x - -
+          1.36925  1.39635  1.38930  1.39048
+          0.04097  3.97400  3.84718  1.39433  0.28502  1.12205  0.39395
+     62   2.26510  2.13196  2.42551  0.37231   1060 t x - -
+          1.37965  1.39147  1.39147  1.38264
+          0.04082  3.91610  3.90805  1.24613  0.33914  0.95192  0.48776
+     63   0.41244  2.25761  2.16787  2.12907   1062 a x - -
+          1.34515  1.41203  1.41203  1.37753
+          0.04054  3.77835  4.08203  1.30483  0.31638  1.11819  0.39582
+     64   2.51464  0.37905  2.62296  1.82008   1068 c x - -
+          1.39543  1.38753  1.39233  1.37008
+          0.03854  3.90584  4.03535  1.36573  0.29463  1.13682  0.38689
+     65   2.16380  2.11332  2.18714  0.42765   1073 t x - -
+          1.38764  1.38471  1.38519  1.38764
+          0.03575  4.05376  4.03073  1.40080  0.28289  1.03825  0.43707
+     66   2.79349  2.39141  2.87271  0.23478   1075 t x - -
+          1.37227  1.39101  1.39101  1.39101
+          0.03597  4.01447  4.05827  1.39017  0.28639  1.06429  0.42308
+     67   2.82488  2.47749  2.93179  0.21887   1078 t x - -
+          1.38141  1.39112  1.38915  1.38353
+          0.03661  3.99477  4.04370  1.35958  0.29675  1.13439  0.38804
+     68   2.77679  2.30433  2.90694  0.24425   1081 t x - -
+          1.37593  1.38989  1.45520  1.32825
+          0.04447  3.68736  3.99242  1.76176  0.18843  0.98580  0.46703
+     69   2.47698  3.17398  0.19595  2.95437   1093 g x - -
+          1.38264  1.38264  1.39734  1.38264
+          0.05358  3.96553  3.40487  1.40348  0.28202  1.03112  0.44100
+     70   2.84327  0.27906  2.97336  2.00890   1097 c x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03412  4.08811  4.08811  1.46634  0.26236  0.69006  0.69625
+     71   0.21870  2.83638  2.69251  2.65798   1098 a x - -
+          1.37446  1.37942  1.39640  1.39509
+          0.03670  3.93983  4.09935  1.41905  0.27700  1.10002  0.40476
+     72   2.35233  0.46085  2.23804  1.78715   1103 c x - -
+          1.38536  1.38781  1.38781  1.38421
+          0.03493  4.03822  4.09272  1.39310  0.28542  1.09638  0.40658
+     73   2.57111  0.32543  2.74124  1.98892   1105 c x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03381  4.09688  4.09688  1.46634  0.26236  1.09626  0.40664
+     74   0.27014  2.61416  2.53262  2.47636   1106 a x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03461  4.09267  4.05587  1.46634  0.26236  1.09748  0.40603
+     75   0.52873  2.16549  1.91736  1.90409   1107 a x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03426  4.08396  4.08396  1.46634  0.26236  1.07423  0.41788
+     76   2.33134  0.38082  2.65861  1.90055   1108 c x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03466  4.07266  4.07266  1.46634  0.26236  1.09861  0.40547
+     77   2.20588  0.45134  2.35553  1.84373   1109 c x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03550  4.04912  4.04912  1.46634  0.26236  1.09861  0.40547
+     78   2.69018  2.22054  2.82311  0.26898   1110 t x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.03711  4.00561  4.00561  1.46634  0.26236  1.09861  0.40547
+     79   0.16248  3.15867  2.86159  2.98963   1111 a x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.04048  3.92018  3.92018  1.46634  0.26236  1.09861  0.40547
+     80   0.17484  3.04770  2.86638  2.88183   1112 a x - -
+          1.38629  1.38629  1.38629  1.38629
+          0.02045  3.90014        *  1.46634  0.26236  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.hmm.h3f b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.hmm.h3f
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diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.out b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.out
new file mode 100755
index 0000000..b85ee5f
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.out
@@ -0,0 +1,118 @@
+# nhmmer :: search a DNA model or alignment against a DNA database
+# HMMER 3.1 (February 2013); http://hmmer.org/
+# Copyright (C) 2011 Howard Hughes Medical Institute.
+# Freely distributed under the GNU General Public License (GPLv3).
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# query HMM file:                  MADE1.hmm
+# target sequence database:        dna_target.fa
+# hits tabular output:             MADE1.tblout
+# number of worker threads:        2
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+
+Query:       MADE1  [M=80]
+Accession:   DF0000629.2
+Description: MADE1 (MAriner Derived Element 1), a TcMar-Mariner DNA transposon
+Scores for complete hits:
+    E-value  score  bias  Sequence                       start    end  Description
+    ------- ------ -----  --------                       -----  -----  -----------
+    8.4e-11   39.0   7.4  humanchr1/239220001-239550000 302390 302466  
+    7.8e-08   29.5   6.0  humanchr1/239220001-239550000 302466 302390  
+    8.4e-08   29.4   8.3  humanchr1/239220001-239550000 174456 174498  
+    5.6e-06   23.6   7.0  humanchr1/239220001-239550000 174493 174456  
+  ------ inclusion threshold ------
+        1.7    6.0   6.7  humanchr1/239220001-239550000 304074 304104  
+
+
+Annotation for each hit  (and alignments):
+>> humanchr1/239220001-239550000  
+    score  bias    Evalue   hmmfrom    hmm to     alifrom    ali to      envfrom    env to    sq len      acc
+   ------ ----- ---------   -------   -------    --------- ---------    --------- --------- ---------    ----
+ !   39.0   7.4   8.4e-11         4        80 .]    302390    302466 ..    302387    302466 ..    330000    0.87
+
+  Alignment:
+  score: 39.0 bits
+                                       xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx....xxxxxxxxxxxxxxxxxxxxxxxx RF
+                          MADE1      4 ggttggtgcaaaagtaattgcggtttttgccattacttttaatggc....aaaaaccgcaattacttttgcacc 73    
+                                       ggt ggtgcaaaa  aattg ggtttttgccatt cttttaat gc    a aaa  g a  t ctttt cacc
+  humanchr1/239220001-239550000 302390 GGTCGGTGCAAAATCAATTGTGGTTTTTGCCATTGCTTTTAATTGCttttA-AAA--GTA-ATGCTTTTACACC 302459
+                                       899******************************************955533.443..334.4689********* PP
+
+                                       xxxxxxx RF
+                          MADE1     74 aacctaa 80    
+                                       aa ctaa
+  humanchr1/239220001-239550000 302460 AATCTAA 302466
+                                       **99986 PP
+
+>> humanchr1/239220001-239550000  
+    score  bias    Evalue   hmmfrom    hmm to     alifrom    ali to      envfrom    env to    sq len      acc
+   ------ ----- ---------   -------   -------    --------- ---------    --------- --------- ---------    ----
+ !   29.5   6.0   7.8e-08         1        77 [.    302466    302390 ..    302466    302387 ..    330000    0.74
+
+  Alignment:
+  score: 29.5 bits
+                                       xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx................xxxxxxxxxxxxxxx RF
+                          MADE1      1 ttaggttggtgcaaaagtaattgcggtttttgccattactttt................aatggcaaaaaccgc 58    
+                                       ttag ttggtg aaaag                cattactttt                aatggcaaaaacc c
+  humanchr1/239220001-239550000 302466 TTAGATTGGTGTAAAAG----------------CATTACTTTTaaaagcaattaaaagcAATGGCAAAAACCAC 302409
+                                       68899999999999998................5667777776222222222222222268************* PP
+
+                                       xxxxxxxxxxxxxxxxxxx RF
+                          MADE1     59 aattacttttgcaccaacc 77    
+                                       aatt  ttttgcacc acc
+  humanchr1/239220001-239550000 302408 AATTGATTTTGCACCGACC 302390
+                                       ***************9998 PP
+
+>> humanchr1/239220001-239550000  
+    score  bias    Evalue   hmmfrom    hmm to     alifrom    ali to      envfrom    env to    sq len      acc
+   ------ ----- ---------   -------   -------    --------- ---------    --------- --------- ---------    ----
+ !   29.4   8.3   8.4e-08         1        43 [.    174456    174498 ..    174456    174518 ..    330000    0.93
+
+  Alignment:
+  score: 29.4 bits
+                                       xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx RF
+                          MADE1      1 ttaggttggtgcaaaagtaattgcggtttttgccattactttt 43    
+                                       ttaggtt gtgcaaaagtaattg ggtttttg cattactttt
+  humanchr1/239220001-239550000 174456 TTAGGTTAGTGCAAAAGTAATTGTGGTTTTTGTCATTACTTTT 174498
+                                       589************************************9975 PP
+
+>> humanchr1/239220001-239550000  
+    score  bias    Evalue   hmmfrom    hmm to     alifrom    ali to      envfrom    env to    sq len      acc
+   ------ ----- ---------   -------   -------    --------- ---------    --------- --------- ---------    ----
+ !   23.6   7.0   5.6e-06        43        80 .]    174493    174456 ..    174513    174456 ..    330000    0.93
+
+  Alignment:
+  score: 23.6 bits
+                                       xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx RF
+                          MADE1     43 taatggcaaaaaccgcaattacttttgcaccaacctaa 80    
+                                       taatg caaaaacc caattacttttgcac aacctaa
+  humanchr1/239220001-239550000 174493 TAATGACAAAAACCACAATTACTTTTGCACTAACCTAA 174456
+                                       689********************************985 PP
+
+>> humanchr1/239220001-239550000  
+    score  bias    Evalue   hmmfrom    hmm to     alifrom    ali to      envfrom    env to    sq len      acc
+   ------ ----- ---------   -------   -------    --------- ---------    --------- --------- ---------    ----
+ ?    6.0   6.7       1.7        42        72 ..    304074    304104 ..    304053    304109 ..    330000    0.87
+
+  Alignment:
+  score: 6.0 bits
+                                       xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx RF
+                          MADE1     42 ttaatggcaaaaaccgcaattacttttgcac 72    
+                                       t a tgg aaaaa   ca tta ttttgca 
+  humanchr1/239220001-239550000 304074 TAAGTGGGAAAAAATACACTTATTTTTGCAT 304104
+                                       55779************************85 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                              1  (80 nodes)
+Target sequences:                            1  (660000 residues searched)
+Residues passing SSV filter:             61658  (0.0934); expected (0.02)
+Residues passing bias filter:            45802  (0.0694); expected (0.02)
+Residues passing Vit filter:              2443  (0.0037); expected (0.001)
+Residues passing Fwd filter:              2217  (0.00336); expected (1e-05)
+Total number of hits:                        5  (0.000403)
+# CPU time: 0.05u 0.01s 00:00:00.06 Elapsed: 00:00:00.33
+# Mc/sec: 160.00
+//
+[ok]
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.sto
new file mode 100755
index 0000000..c3dccf1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/MADE1.sto
@@ -0,0 +1,4021 @@
+# STOCKHOLM 1.0
+#=GF ID   MADE1
+#=GF AC   DF0000629.2
+#=GF DE   MADE1 (MAriner Derived Element 1), a TcMar-Mariner DNA transposon
+#=GF AU   Finn RD, Hubley R, Jones T, Jurka J, Smit A, Wheeler T
+#=GF SE   Repbase
+#=GF GA   15.98;
+#=GF TC   32.00;
+#=GF NC   15.90;
+#=GF BM   hmmbuild --hand --maxinsertlen 10 HMM.ann SEED.ann
+#=GF SM   nhmmer -Z 3102 --dfamtblout DFAMOUT -E 100  --noali HMM.ann
+#=GF SM   dfamseq
+#=GF CT   Type; DNA Transposon;
+#=GF CT   Class; Cut and Paste;
+#=GF CT   Superfamily; TcMar-Mariner;
+#=GF MS   TaxId:9606 TaxName:Homo sapiens
+#=GF RN   [1]
+#=GF RM   8643651
+#=GF RT   Tiggers and DNA transposon fossils in the human genome.
+#=GF RA   Smit AF, Riggs AD;
+#=GF RL   Proc Natl Acad Sci U S A 1996;93:1443-1448
+#=GF DR   Repbase; MADE1;
+#=GF CC   Resembles an internal deletion product of Mariner1; has 37 bp
+#=GF CC   TIRs and a TA target site.
+#=GF SQ   1997
+#=GS H.sapiens_13.1/49567006-49566901     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_8.1/107923792-107923714    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/35544547-35544476      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/33053357-33053450      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/137095299-137095226    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_19.1/19100550-19100497     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_1.1/164701792-164701870    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/68038940-68038866      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_Y.1/16255032-16255111      DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_11.1/78684849-78684770     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_9.1/102803629-102803549    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_7.1/70331740-70331819      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_12.1/65806432-65806356     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_4.1/140063757-140063828    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/145673253-145673319    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/75316483-75316561      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/58241727-58241653     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_10.1/9215317-9215239       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/5959133-5959195        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/123101247-123101157    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/35165291-35165214      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/178351842-178351911    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/109325838-109325779    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/108039241-108039320    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/11149279-11149387      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_9.1/76348944-76348881      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/13679946-13679866      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_3.1/50865115-50865038      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/142708263-142708322    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_14.1/99520157-99520073     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_8.1/49894414-49894352      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_22.1/33739050-33738973     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_10.1/28741187-28741252     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_18.1/71734515-71734437     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_7.1/96920909-96920830      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_6.1/140981762-140981839    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_9.1/73732275-73732334      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/111001521-111001446    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_18.1/33907333-33907408     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_10.1/109566953-109566884   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_1.1/179679390-179679469    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/157390677-157390755    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/211802792-211802859    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_20.1/8603541-8603488       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_9.1/93793923-93793841      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_11.1/76241565-76241634     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/133793823-133793745    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/159458164-159458225    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_X.1/129332388-129332309    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_5.1/66760434-66760355      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/62116231-62116153      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_20.1/9534057-9533996       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_3.1/94020912-94020991      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/168717118-168717039    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_21.1/34963270-34963347     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_11.1/130743555-130743492   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/103112987-103113055    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/16530066-16530000      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/199584406-199584328    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/112277369-112277443   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/5239389-5239312        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/15469390-15469317     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/97258936-97258995      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/67700789-67700711     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/120466487-120466408    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/183325541-183325620    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/113826669-113826741    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_9.1/14878575-14878655      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_X.1/24671328-24671251      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_9.1/18507503-18507562      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_5.1/85696277-85696354      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/227603020-227602944    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/145097997-145097895    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/16556446-16556522     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_12.1/43712804-43712881     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_9.1/7783782-7783704        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/67467756-67467826      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/7944476-7944565        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/105870337-105870416   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_12.1/93112104-93112186     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_11.1/87185547-87185458     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/51926423-51926502      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_13.1/93064224-93064137     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_4.1/184034469-184034531    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/45513677-45513583     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_9.1/104650141-104650062    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/68266302-68266393      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/201450273-201450196    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/94318145-94318222      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/28599864-28599787     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_6.1/132825302-132825242    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/75668274-75668326      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_17.1/65467610-65467689     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_2.1/40084937-40085016      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/21149898-21149966     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/39334003-39333910      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/93468166-93468090      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/113239604-113239525   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_10.1/118343486-118343564   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/113390680-113390769    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/36863111-36863193      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/18445901-18445981      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/10018988-10018929      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/119639026-119639108    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/8450038-8450117        DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/57168871-57168769      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/142166360-142166436    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_17.1/19300760-19300695     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_8.1/4383131-4383205        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_9.1/75906141-75906041      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_18.1/49446508-49446584     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_5.1/27986390-27986288      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/63278417-63278355      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_10.1/29070427-29070485     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_12.1/33194672-33194751     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/35696549-35696474      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/111050175-111050123    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/106323847-106323770    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/198518364-198518435    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/73380886-73380810      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/77834126-77834062      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/31315697-31315776      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_21.1/34559248-34559333     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_6.1/153177803-153177876    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/8946935-8946859        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/70880041-70880120     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_9.1/114950996-114950924    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/180685010-180684936    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/96906805-96906869      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_19.1/37871674-37871616     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_5.1/78202463-78202524      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_22.1/22242843-22242781     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_1.1/18916588-18916699      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_9.1/37068668-37068747      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/19206718-19206772      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_19.1/56355102-56355179     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_8.1/62548174-62548122      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/93465898-93465957     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_20.1/37145281-37145200     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_8.1/39613629-39613705      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_9.1/113535321-113535241    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_8.1/120739328-120739250    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/18530220-18530296     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/151604386-151604469    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_15.1/94126227-94126316     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_14.1/98798076-98798014     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_22.1/34855547-34855625     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_X.1/16091228-16091289      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_13.1/88383262-88383184     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_6.1/136299032-136298955    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_19.1/38544602-38544525     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_7.1/104212624-104212699    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/18862138-18862066      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_20.1/37774282-37774352     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_17.1/65596860-65596926     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_6.1/37770434-37770356      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/7946507-7946585        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_1.1/242637446-242637514    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/136584670-136584591    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_7.1/96169277-96169197      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_20.1/55035410-55035334     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_1.1/58940108-58940022      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/135737563-135737641    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/8028613-8028545        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_21.1/22973756-22973829     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_9.1/101475094-101475017    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_X.1/6437632-6437699        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_3.1/174693253-174693326    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/108288464-108288387   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_X.1/134620705-134620633    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_17.1/13403574-13403646     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_2.1/19846337-19846267      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/51170432-51170511      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/139967180-139967082    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/86639093-86639151     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_9.1/46742299-46742222      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_8.1/72382788-72382709      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_13.1/106517268-106517187   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_10.1/31940286-31940360     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_2.1/115629064-115628966    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_17.1/63353454-63353530     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_3.1/101876312-101876231    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/147222821-147222751    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/121937526-121937447    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_5.1/3913164-3913092        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/197750756-197750681    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/59575566-59575489     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_10.1/120312913-120312835   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_5.1/166290303-166290225    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_11.1/3428118-3428051       DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/71595564-71595486      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_14.1/63143275-63143196     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_8.1/51726349-51726414      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/59930276-59930395     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/176670402-176670321    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/13108636-13108715      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/36515990-36515911      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/172004049-172003971    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_17.1/51614882-51614960     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_3.1/38064467-38064372      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_X.1/149435154-149435247    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/112590909-112590830    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_3.1/4821494-4821562        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/194474471-194474416    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/109197177-109197099    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_7.1/118083993-118083934    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_10.1/10057471-10057541     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/9169954-9170021        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/40243672-40243770      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/177723149-177723225    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/54148689-54148766      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/103229254-103229326    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/133586397-133586470    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/32135553-32135678     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_13.1/21187976-21187915     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_8.1/12038264-12038197      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/78886479-78886539      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/56002911-56002844      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_3.1/189745381-189745467    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_14.1/29896119-29896195     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_2.1/148224279-148224200    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/61110381-61110460     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_5.1/19446772-19446835      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/53365959-53366028      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/149554886-149554960    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/19689499-19689435     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_8.1/15379468-15379395      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_5.1/176701407-176701483    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_17.1/51948186-51948107     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_4.1/129325867-129325947    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_NC.49/74886-74808          DE GL000219.1 dna:supercontig supercontig:GRCh37:GL000219.1:1:179198:1
+#=GS H.sapiens_1.1/204622312-204622234    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_20.1/38188414-38188335     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_2.1/165484586-165484523    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/4493184-4493106        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/213291075-213290996    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/120259931-120259856    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/121002722-121002800    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/13888230-13888295     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_18.1/64024969-64025049     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_10.1/14482909-14482844     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/133915829-133915925    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_20.1/41663327-41663252     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_20.1/12766828-12766762     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_8.1/112498156-112498234    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_21.1/14719716-14719638     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_15.1/53610103-53610161     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_10.1/117898738-117898685   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_X.1/98454339-98454418      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_9.1/32764378-32764299      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_12.1/10267456-10267542     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_6.1/69203333-69203409      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_7.1/110288509-110288611    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/189625704-189625625    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/277674-277732         DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_21.1/45866831-45866894     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_X.1/71012024-71012090      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_15.1/50893962-50894040     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_4.1/128419287-128419192    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_14.1/102137305-102137368   DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_17.1/71311939-71312019     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_20.1/5875896-5875826       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_9.1/126347736-126347665    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/117850350-117850430    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/175956513-175956575    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_19.1/11334803-11334869     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_20.1/21244871-21244795     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_9.1/109847472-109847361    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/194855781-194855861    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/42116085-42116157      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/245220579-245220649    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/180339058-180339122    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/113226309-113226246    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/71587679-71587601     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_14.1/37289002-37289101     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_3.1/77975857-77975936      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/164716164-164716216    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_9.1/120012883-120012962    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_12.1/5709840-5709903       DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_17.1/2978366-2978434       DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_8.1/25003980-25003900      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_14.1/39009284-39009358     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_4.1/25213610-25213663      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/18799421-18799496      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/23596786-23596700      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/104956076-104956156    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_7.1/19686900-19686976      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_8.1/68965658-68965595      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/4086165-4086087        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/78322095-78322174     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/6507148-6507069        DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/113494968-113494886    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/241404677-241404602    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/101051187-101051108    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/78644185-78644112      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/118383099-118383022   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_12.1/91518510-91518608     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/77268987-77268908      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/99722206-99722120      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_5.1/68186046-68185968      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/26983185-26983108      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/168537191-168537107    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/3888274-3888339       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/106009729-106009802   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/34906820-34906888      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/105496681-105496602    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_1.1/81508747-81508668      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/78413612-78413530      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/209957275-209957351    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/55277736-55277842      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_18.1/62552228-62552164     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_12.1/68094346-68094238     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_17.1/40551104-40551033     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_13.1/74885117-74885193     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/39724692-39724614      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_17.1/68403991-68404056     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_8.1/4238642-4238588        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_8.1/37487215-37487147      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/127232307-127232244    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/216143949-216143870    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/28332263-28332334      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_12.1/127880334-127880401   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_22.1/33306690-33306616     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_2.1/38390896-38390819      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/4662512-4662437        DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/173197377-173197296    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/17446628-17446574      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/34267045-34267118      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/42562918-42562837      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_18.1/66188212-66188293     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_X.1/97378609-97378551      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/8603107-8603048        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/108839427-108839506    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/45697973-45697896      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_22.1/30340283-30340204     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_18.1/65215489-65215423     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_16.1/26216053-26215995     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_2.1/157871767-157871689    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/95360454-95360571      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/72693874-72693938      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/149165262-149165186    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_12.1/27695349-27695424     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_4.1/156287676-156287599    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_13.1/36068572-36068650     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_2.1/181481849-181481921    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/89066926-89066844      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/87274282-87274227      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/107766190-107766115    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/87051050-87051111     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_1.1/79065250-79065168      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/63346203-63346280      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/129102991-129103071    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/114202364-114202288    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_13.1/40187139-40187199     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_1.1/56989207-56989109      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/12172751-12172823     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/41626528-41626600      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/20988479-20988552      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/178959652-178959571    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/18400964-18400900      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/87847042-87846967     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/105104682-105104752    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_20.1/3487657-3487750       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_17.1/15773546-15773609     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_10.1/66624224-66624303     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_6.1/128877634-128877709    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/143750534-143750458    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_18.1/71487277-71487356     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_6.1/69716237-69716306      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/34180292-34180214     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_8.1/132713950-132713883    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/148393765-148393844    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/107811978-107811899    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_15.1/54101900-54101975     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_9.1/110474739-110474665    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_11.1/56958293-56958215     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/46929892-46929971     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/48782389-48782325      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_18.1/32433110-32433199     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_4.1/31636737-31636631      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/21407515-21407593      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/7524522-7524618       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_18.1/71574719-71574633     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_6.1/15848908-15848829      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/48308821-48308732      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/43063501-43063577     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/32772680-32772623      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/62731982-62731905     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_8.1/23145187-23145257      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_5.1/92533642-92533583      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/1360859-1360937        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/5476888-5476966        DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/96408229-96408152      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_15.1/40119895-40119968     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_17.1/50416994-50417068     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_17.1/63725518-63725578     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_5.1/18013069-18012998      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_16.1/53202547-53202602     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_13.1/55194459-55194385     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_17.1/9974288-9974212       DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_18.1/41402335-41402413     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_9.1/77128286-77128361      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/158186029-158186103    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/20534163-20534084      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/89227706-89227785      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_7.1/41814033-41814098      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_14.1/64561835-64561756     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_10.1/24517340-24517286     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_15.1/78813779-78813856     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_8.1/106145070-106145136    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/166324652-166324598    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/194121329-194121259    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/13969343-13969281      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/103070347-103070414    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/188607399-188607320    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/8220188-8220258        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/47708339-47708265     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_X.1/129850144-129850066    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/99504303-99504227      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/211391758-211391700    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/17332259-17332180     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_16.1/20867484-20867571     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_4.1/125525993-125526067    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/143862029-143862082    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/100677426-100677507    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/22397838-22397916      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_7.1/118102566-118102646    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_21.1/27161974-27162053     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_7.1/97535387-97535309      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_13.1/36930013-36929930     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_16.1/80229779-80229858     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_14.1/69218409-69218475     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_5.1/117009721-117009663    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_9.1/21132547-21132478      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/105229975-105229868    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/79962036-79962111     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/135811679-135811756    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/113763823-113763751   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/19172552-19172650      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/67444468-67444389     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/76698606-76698678      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_21.1/17061440-17061362     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_13.1/110574309-110574220   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_12.1/83401940-83401862     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/160438896-160438975    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/131791847-131791768    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/6800285-6800363        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/188089235-188089333    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/7711103-7711024        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/122316359-122316434   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/74110373-74110279     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_9.1/4904851-4904922        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/127383631-127383552    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_X.1/14630060-14629982      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/54774164-54774242      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/112663548-112663469    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/8048243-8048164        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_15.1/77255789-77255710     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_18.1/65591918-65591854     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_12.1/12129996-12130059     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_X.1/5484236-5484327        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_9.1/90359820-90359899      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/113743260-113743339    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/151469141-151469219    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/72529196-72529123      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/218000885-218000960    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/76438722-76438812     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_17.1/66349355-66349283     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_7.1/142815490-142815413    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/39927074-39927148      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_9.1/3390966-3390907        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_Y.1/19095266-19095183      DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_3.1/63790430-63790360      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/85191319-85191249      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/248841253-248841193    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/155889779-155889858    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/54499758-54499691      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/32510325-32510246      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_10.1/67084128-67084206     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_6.1/109145536-109145470    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_17.1/47748655-47748724     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_10.1/15532794-15532859     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/132393157-132393233    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_17.1/21481167-21481089     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_1.1/64146281-64146187      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/91214595-91214531      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/64591040-64591117      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/34628741-34628820      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/3466563-3466509        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_5.1/121806442-121806512    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_8.1/15265664-15265605      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_1.1/39173489-39173434      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/49851407-49851486      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/100957906-100957823    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_9.1/96357111-96357181      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/109864045-109863972    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/221226302-221226372    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/222186349-222186428    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/26906476-26906379      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_20.1/40591063-40590984     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_10.1/71618974-71619053     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_10.1/13064624-13064509     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_21.1/11051935-11052013     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_4.1/125582331-125582408    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_15.1/57252170-57252245     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_9.1/125222259-125222163    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/174317409-174317487    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/80161403-80161457      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/104800427-104800481    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_3.1/21236840-21236917      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/138274106-138274208    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_14.1/28202571-28202469     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_4.1/31162745-31162815      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_5.1/105167491-105167428    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_4.1/153822120-153822186    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/119999427-119999505    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_9.1/120853318-120853387    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_20.1/52993093-52993014     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_12.1/105721763-105721686   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_13.1/99370320-99370398     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_10.1/56609437-56609514     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/79549637-79549700     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_2.1/68500324-68500246      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/13113835-13113898      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_20.1/15539029-15539108     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_10.1/97398228-97398150     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_12.1/39048909-39048995     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/225788149-225788224    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/68089697-68089776     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_14.1/86382959-86383016     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_5.1/156505351-156505430    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_10.1/33016626-33016568     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/114751912-114751835   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_2.1/220816766-220816691    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_18.1/22603150-22603213     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_4.1/155706672-155706738    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/70793197-70793269      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_19.1/35322238-35322169     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_2.1/59548383-59548459      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/7285042-7284965        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_5.1/139540215-139540149    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/73567512-73567588      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_14.1/45389564-45389644     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_13.1/48499132-48499186     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_3.1/19650617-19650513      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/40558533-40558596      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/7949418-7949342       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_20.1/6116874-6116952       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_18.1/41908798-41908718     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_13.1/47787519-47787444     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_21.1/31173552-31173631     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_7.1/147582151-147582230    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/208843036-208843115    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/60803885-60803979     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_4.1/158509384-158509305    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/21225670-21225748      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/178465637-178465710    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/69390129-69390051      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/70530195-70530116      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/91741657-91741736      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_16.1/49974605-49974682     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_16.1/56850913-56850843     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/110809666-110809729    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/106906220-106906283   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_9.1/129920586-129920516    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/177522011-177522089    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/59655890-59655812      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_14.1/104818353-104818430   DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_1.1/118484101-118484032    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_18.1/33762578-33762651     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_3.1/358124-358057          DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_11.1/97595524-97595603     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_16.1/26747553-26747632     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_2.1/224346362-224346263    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/163093911-163093986    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/31833877-31833956      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_18.1/21573817-21573880     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_X.1/31571609-31571528      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/171890270-171890196    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_18.1/70374568-70374490     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_9.1/77280141-77280218      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/79109490-79109569      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/6968540-6968473        DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/23000564-23000463      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/108297549-108297628    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/122323745-122323822    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_5.1/18059725-18059789      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/107202028-107202122    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/245120589-245120667    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/112062811-112062734    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/68972086-68972163      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/60414223-60414286      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/84786073-84785999      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/5196153-5196253        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/96352109-96352182      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/36270219-36270141      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_12.1/86041099-86041031     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_5.1/98280902-98280820      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_9.1/111121209-111121134    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_5.1/106741944-106742017    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_17.1/7661573-7661641       DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_X.1/88068260-88068343      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/210814759-210814837    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_20.1/9086968-9086890       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_2.1/50608803-50608882      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/42224814-42224893      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/36703000-36702924      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/29455850-29455927     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_21.1/28706998-28707077     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_12.1/106624405-106624467   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_6.1/44569443-44569542      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_13.1/49326224-49326285     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_11.1/39853391-39853340     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/118944317-118944244    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/31209529-31209462      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/14461619-14461542      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_11.1/97756293-97756239     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/38935837-38935767      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_16.1/26036634-26036555     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/152559434-152559513    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/245533638-245533717    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/79152826-79152747      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/227989051-227988975    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/125862222-125862136   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/42258014-42258090      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_8.1/134998382-134998452    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_9.1/22137354-22137420      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/76730903-76730987      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_9.1/16244958-16245037      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_5.1/106346505-106346575    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/185990470-185990393    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_12.1/127944244-127944160   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_10.1/8734406-8734471       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_18.1/6241511-6241589       DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/78484209-78484130      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_14.1/78073789-78073684     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_5.1/109021283-109021383    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/153149273-153149195    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/118049498-118049573    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/95039903-95039831      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/41559419-41559347      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/71995269-71995191      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_6.1/124294874-124294796    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_9.1/6411203-6411128        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_X.1/16928941-16929012      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_15.1/48243932-48244010     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_20.1/36968064-36968126     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_3.1/102071243-102071163    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/70971896-70971827      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/224072770-224072852    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/25965273-25965334     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_5.1/59302063-59302134      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_12.1/105345538-105345617   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_6.1/146948266-146948327    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/17429662-17429589     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/97287656-97287583      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/41039694-41039762     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_10.1/10905540-10905620     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_12.1/110419693-110419634   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_X.1/16645137-16645211      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/85595277-85595359     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/29127495-29127571      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/25610297-25610376      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/145396476-145396549    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/80080840-80080762      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/223657898-223657820    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/225755430-225755505    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/188212849-188212779    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/57431955-57432033      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/138404039-138404116    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/95368438-95368359     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_X.1/6296647-6296710        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/163663823-163663745    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/67859409-67859487      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/27005307-27005233      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_9.1/109847419-109847472    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_13.1/75134387-75134316     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_13.1/48293509-48293433     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_2.1/72976645-72976726      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/87425085-87425017      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_22.1/40971754-40971827     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_10.1/57759742-57759820     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/164631446-164631523    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/14733245-14733171      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/88263549-88263627      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_4.1/179298666-179298590    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_19.1/46481684-46481605     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_18.1/1840046-1840135       DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_20.1/47041975-47041913     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_1.1/225994330-225994256    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/82174941-82174864      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/56136874-56136796     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_6.1/81922123-81922069      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/20045159-20045214     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/152002389-152002318    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_21.1/23672831-23672760     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_4.1/23464725-23464644      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/45648683-45648605      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/56297624-56297550      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_19.1/48554684-48554762     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_10.1/76738829-76738752     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_6.1/80495090-80495169      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/95724177-95724098     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/100813868-100813944   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/5314809-5314869        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/154759890-154759963    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/28819774-28819851      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/94856814-94856883      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/26027301-26027363      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_14.1/20742927-20742867     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_11.1/12432752-12432827     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/37771842-37771920      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_19.1/45080528-45080476     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_14.1/52033393-52033458     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_2.1/48978933-48978863      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/159162421-159162344    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/123881420-123881343    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_12.1/103320376-103320301   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_NC.42/149737-149801        DE GL000213.1 dna:supercontig supercontig:GRCh37:GL000213.1:1:164239:1
+#=GS H.sapiens_3.1/153502332-153502392    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_21.1/21022597-21022524     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_1.1/219837762-219837708    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_13.1/105661523-105661463   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_1.1/95918741-95918818      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/62448536-62448615      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_11.1/34386938-34386863     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_9.1/24843023-24842962      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_14.1/85652014-85651936     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_NC.14/11916-11978          DE GL000249.1 dna:supercontig supercontig:GRCh37:GL000249.1:1:38502:1
+#=GS H.sapiens_4.1/155140063-155140142    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/70804142-70804068      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/68273119-68273042     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_1.1/162915868-162915947    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_20.1/57710843-57710916     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_X.1/129718852-129718930    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/82370047-82369968      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/83110543-83110473     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/120156697-120156752    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_4.1/102387184-102387241    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_14.1/26333554-26333500     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_12.1/103897780-103897858   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_11.1/76589281-76589360     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/112230886-112230966    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/80409949-80410027      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_21.1/22666397-22666473     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_12.1/74414103-74414024     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_4.1/162109047-162109121    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_18.1/70520624-70520548     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_8.1/103479223-103479302    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_13.1/96223231-96223309     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_22.1/27182499-27182574     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_7.1/135929198-135929277    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_16.1/47244915-47244839     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_20.1/8590881-8590802       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_10.1/33387562-33387465     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_13.1/26984453-26984377     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_2.1/174358684-174358607    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/31812716-31812604      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_1.1/207614033-207613963    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/34174926-34175003      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/190884499-190884598    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_16.1/18932884-18932947     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/154404355-154404278    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_13.1/108259382-108259455   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_1.1/90582580-90582661      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/105479216-105479143   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_7.1/91255094-91255171      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/224304169-224304093    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/126636390-126636475    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/150123038-150123116    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_20.1/19570829-19570750     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_X.1/70401392-70401469      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/14189197-14189289      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/147892111-147892030    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/165280041-165280111    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_12.1/102388864-102388948   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/105698986-105699046    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/52019826-52019885      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/96656055-96656137      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_18.1/69457152-69457227     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_5.1/64895271-64895349      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_11.1/67420919-67420998     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/120526048-120525978    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/105185281-105185360    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/45434291-45434221      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/125023442-125023506    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/40308468-40308389     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_12.1/33545982-33545885     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_5.1/25355129-25355205      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/142285343-142285272    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/232309326-232309265    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_14.1/65295227-65295306     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_7.1/119822590-119822653    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_19.1/54049423-54049493     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_18.1/18642425-18642349     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_X.1/105073880-105073953    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/96073378-96073316      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/51948523-51948599      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_10.1/82363192-82363255     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_1.1/47090585-47090657      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/110463603-110463683   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_20.1/7870408-7870336       DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_11.1/58035774-58035848     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/45778921-45778982      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/56954935-56955015      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_12.1/84966786-84966850     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_7.1/84295322-84295243      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_20.1/38683104-38683183     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_2.1/162163041-162162982    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/67925061-67925128      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/23684812-23684895      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/228184690-228184622    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/97634497-97634577     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_7.1/128546911-128546832    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/31356698-31356619      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_6.1/138621752-138621824    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/3984161-3984107        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/93457596-93457521      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/116884136-116884222    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/38929724-38929648      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_13.1/95193834-95193902     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_1.1/89256060-89256138      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_20.1/37131639-37131697     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_5.1/84538808-84538727      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/72118116-72118182      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/202705931-202705854    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/133509057-133508980   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/49996512-49996452      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/18572101-18572027      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/40173535-40173599      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_17.1/70710587-70710532     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_7.1/40569430-40569352      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/65557223-65557295      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/216056486-216056556    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/160440256-160440333    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/55296472-55296541      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/166398219-166398288    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_2.1/125231522-125231601    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/170496118-170496187    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/39307122-39307043     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_5.1/139554007-139553926    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_18.1/26776411-26776490     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_16.1/7124427-7124335       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_2.1/70682752-70682673      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/35919689-35919631      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/189861575-189861652    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/8812962-8812883        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_9.1/102303329-102303416    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/210838610-210838533    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/98204775-98204857      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/138420542-138420467    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/79848075-79848012      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_16.1/10049327-10049407     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/105607402-105607339    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_18.1/69244861-69244780     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_18.1/54249057-54249126     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_7.1/41343445-41343516      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/161698034-161697957    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/62066659-62066572      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_9.1/43582126-43582201      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/183605600-183605520    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/44208965-44209038      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/99177496-99177422      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/107677296-107677375    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/118658513-118658441    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/15233197-15233276      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/68849322-68849257     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_8.1/118026301-118026376    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/54806249-54806171      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/4729219-4729136        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_17.1/27350637-27350569     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_9.1/30771105-30771183      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/4479851-4479930        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/12345400-12345332      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_8.1/127759903-127759810    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/33766606-33766676     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/92503784-92503861      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_15.1/100047174-100047106   DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_8.1/2528001-2527928        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_1.1/97368344-97368263      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/183759040-183758962    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/54684513-54684591     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_1.1/70445566-70445491      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/105199268-105199348    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_22.1/48118232-48118319     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_1.1/190217312-190217376    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/5810783-5810690       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_4.1/29737695-29737630      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/24758980-24758911      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_16.1/82139474-82139561     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_16.1/5132949-5132882       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_X.1/80531863-80531784      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_19.1/45782786-45782840     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_2.1/235285387-235285321    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/64415736-64415813      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/19172608-19172552      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/5419829-5419906       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/124631102-124631180    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_20.1/38404718-38404797     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_16.1/6123280-6123335       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_8.1/4363744-4363665        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_12.1/8741921-8741981       DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_4.1/14917642-14917564      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_13.1/66540472-66540551     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_20.1/13936493-13936423     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_4.1/157217794-157217716    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/12777918-12777992      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_7.1/135482773-135482854    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/165815509-165815437    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/63639412-63639484     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_13.1/54560591-54560673     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_X.1/126409417-126409494    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/176395458-176395384    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/139732836-139732915    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_10.1/53399505-53399583     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/116822176-116822254   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_5.1/96786796-96786869      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_19.1/48401994-48402069     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_7.1/9083983-9083914        DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/175136380-175136460    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/98273629-98273559     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_22.1/44011431-44011358     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_11.1/123751847-123751776   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/85203346-85203274     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_13.1/56543734-56543661     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_2.1/207438700-207438776    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/134964703-134964622    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_X.1/34059687-34059758      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_12.1/63514194-63514118     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_12.1/117716085-117716163   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_8.1/29846250-29846175      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/3688212-3688149        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_18.1/2482642-2482579       DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/156961367-156961290    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/75370871-75370810      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_18.1/42126142-42126063     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_21.1/32167220-32167142     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_12.1/8382433-8382367       DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_9.1/89331920-89331845      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/150796716-150796636    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/147966200-147966275    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/52899857-52899934     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_14.1/87329648-87329724     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_9.1/13141140-13141197      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/105900385-105900312    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_14.1/53493775-53493698     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_9.1/84420913-84420990      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_9.1/17700833-17700891      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_12.1/63429104-63429042     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_3.1/170552014-170551931    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_22.1/25928770-25928692     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_2.1/29645313-29645366      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/92053380-92053304     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_14.1/91628219-91628121     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_3.1/76392761-76392684      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_12.1/65016301-65016380     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_6.1/72429057-72429133      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/27000686-27000746     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/4478240-4478302        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_12.1/95715155-95715088     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_12.1/8382434-8382367       DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_11.1/70130080-70130158     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_3.1/100701326-100701393    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_X.1/112221465-112221539    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/82201271-82201351      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_5.1/24529063-24529129      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/37439844-37439923      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_22.1/27445701-27445777     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_20.1/39001459-39001536     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_8.1/109661793-109661868    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/231361319-231361236    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/170695671-170695599    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/113651909-113651840    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/80471827-80471750      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/59626468-59626391      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/100400694-100400616    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/122520182-122520080    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_10.1/3071950-3072003       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_9.1/113992667-113992729    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_18.1/73955529-73955447     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_1.1/77742418-77742334      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/88762287-88762366      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/154558735-154558813    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_7.1/41076215-41076284      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_11.1/31890859-31890800     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/43269473-43269555      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_12.1/96293902-96293827     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_11.1/104685453-104685376   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/95571889-95571824     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_10.1/113718479-113718548   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/144533709-144533786    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/2344394-2344313        DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/113836283-113836209    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/160657072-160657147    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/7543749-7543695        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/27075587-27075666      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/73534351-73534287      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/146421686-146421752    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/172899082-172899141    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_3.1/26516858-26516782      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/79729950-79729848      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/7961155-7961092       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/4675187-4675107        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/230147100-230147163    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/80069602-80069692     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_18.1/61905795-61905691     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_4.1/175668002-175668072    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/169871304-169871229    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_10.1/80510375-80510449     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_6.1/164512276-164512342    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/131941078-131941148    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/164960154-164960232    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/98298528-98298458     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_20.1/12961408-12961484     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_16.1/21940172-21940235     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/132295674-132295570    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/50412723-50412644      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/153468690-153468619    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/155202503-155202442    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_9.1/129299948-129299869    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_5.1/13174880-13174956      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_14.1/27396957-27396869     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_4.1/111313257-111313197    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/103276761-103276839    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/123490557-123490671    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/21179759-21179833      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/85088691-85088612      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/38058222-38058297      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_7.1/118041890-118041954    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_6.1/117514850-117514926    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/7126961-7127037       DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/106804565-106804652    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_8.1/84350905-84350967      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_12.1/65102517-65102574     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_6.1/64825848-64825778      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/64059999-64060052      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_15.1/47274148-47274224     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_1.1/98839022-98838945      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/20456060-20456139     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/70276804-70276750      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/158331622-158331723    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/37299878-37299957     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/185033152-185033090    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/59943514-59943579     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/78522359-78522433      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/102356213-102356129    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/214165743-214165820    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/110536228-110536155    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_3.1/175213266-175213319    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/81857217-81857290      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/134197575-134197650    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_10.1/53054298-53054400     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_X.1/131130876-131130955    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/158035384-158035463    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_14.1/38856140-38856064     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_21.1/26895661-26895567     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_1.1/101138934-101139013    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/262905-262984          DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/83269700-83269622      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_11.1/19260445-19260366     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/133839557-133839617    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/94666352-94666420     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_3.1/70100635-70100558      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/113691700-113691638    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/25787813-25787736      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/57823516-57823607     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_1.1/186554203-186554280    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/235601180-235601248    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/127230072-127230007    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/180498392-180498316    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/50357385-50357307      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_13.1/63404663-63404740     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/131703394-131703316    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_9.1/113478446-113478506    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_13.1/65052640-65052576     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_1.1/7922473-7922550        DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/119378793-119378867    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/127479204-127479287    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/219563082-219563161    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/79797865-79797925     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_10.1/110301210-110301271   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_7.1/67018133-67018214      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/4194225-4194280        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/59511496-59511422     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_5.1/55992120-55992043      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/35034267-35034346      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_4.1/157527437-157527510    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/26692675-26692751     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/55872316-55872237      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/165401855-165401780    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/174623371-174623450    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/101615082-101615005    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/15813673-15813752      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/54922243-54922316     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_5.1/180347208-180347129    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_7.1/122850520-122850444    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/176959236-176959337    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/10123432-10123491     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/177759296-177759218    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/21955968-21956025     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_3.1/141469018-141468952    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_X.1/123405050-123404979    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_5.1/1569627-1569548        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/34011203-34011107      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/28600570-28600641     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/70775525-70775449      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/235107603-235107531    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/110288611-110288545    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_3.1/148359612-148359683    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/41552076-41551979      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/107336942-107336865    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_10.1/68389229-68389161     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_22.1/32575838-32575759     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_X.1/40417654-40417568      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_12.1/92641154-92641228     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_14.1/26641375-26641454     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_10.1/52957648-52957569     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_2.1/9630811-9630868        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/25875770-25875690     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/147798625-147798704    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_18.1/25443558-25443638     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_1.1/113691766-113691703    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/115039768-115039692    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_17.1/54314087-54314165     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_11.1/87925797-87925717     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_18.1/63545872-63545949     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/201540662-201540584    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/91608384-91608458     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/21581279-21581200      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_13.1/30780828-30780753     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_17.1/44995944-44995868     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_4.1/103080116-103080198    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/139928863-139928790    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/12633968-12633889      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/5951764-5951852        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/126675583-126675686    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/62974922-62974846      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/113318566-113318643    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/243061249-243061174    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/216743640-216743561    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_21.1/23146979-23146903     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_10.1/2043680-2043605       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/100232855-100232928   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_5.1/25535256-25535333      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/38630545-38630466      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/90391878-90391811      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/183747965-183747892    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/62652633-62652555      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/72311479-72311558      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_X.1/23139022-23138954      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_9.1/2485331-2485266        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_19.1/8755450-8755372       DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_1.1/216033802-216033879    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/5724614-5724678       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/78897424-78897492      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/120648785-120648706    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_18.1/55569536-55569457     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_17.1/66383129-66383208     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_12.1/73133053-73133121     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_3.1/163234273-163234194    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/194058636-194058563    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/54930978-54931060      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/62754738-62754808     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_10.1/36482808-36482883     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/65504826-65504886      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_15.1/27262467-27262412     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_8.1/120566954-120567034    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_5.1/40235899-40235977      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_20.1/53765378-53765270     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_1.1/20111783-20111710      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_14.1/99390241-99390311     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_1.1/56843087-56843008      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_17.1/12307494-12307564     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_3.1/15175933-15176011      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_18.1/54454196-54454119     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/180857928-180857858    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/7754615-7754510        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/20326491-20326551      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/47736101-47736025      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_8.1/27082460-27082522      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_1.1/24606264-24606342      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/174181505-174181439    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_13.1/34327660-34327578     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_6.1/2445257-2445173        DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_14.1/25150452-25150398     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_8.1/40954427-40954494      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/167521001-167521080    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_10.1/98282920-98282869     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_X.1/28550067-28549993      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/38107290-38107215      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/57591372-57591308     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_21.1/30853542-30853454     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_5.1/100794442-100794517    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/113877687-113877748    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_14.1/75238145-75238217     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_2.1/222384289-222384372    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_20.1/58712669-58712594     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_2.1/137402759-137402682    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/23121540-23121459     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/93595270-93595339      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_7.1/89235178-89235097      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/4302973-4302894        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/216494602-216494680    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/166435094-166435171    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/5429107-5429028       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_8.1/2979502-2979581        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_18.1/22880589-22880668     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_X.1/46928469-46928399      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/113917625-113917704    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/50937289-50937368     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_1.1/222916234-222916312    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/100624433-100624509    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/101845792-101845882    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/83480838-83480761      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_19.1/32968257-32968189     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_4.1/93823280-93823207      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_X.1/12963823-12963747      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_3.1/113485622-113485696    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/119117947-119117869   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/108266637-108266716    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/8305864-8305932        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/99743483-99743555     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_18.1/1347015-1347079       DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_6.1/151872109-151872192    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/89207254-89207326     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_5.1/155634661-155634589    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/40313410-40313464      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/14008427-14008346     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_12.1/52850720-52850774     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_X.1/8410766-8410695        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_21.1/19264031-19264109     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_18.1/71811338-71811416     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/44979454-44979372      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/48724698-48724782      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/5313273-5313346       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_14.1/45487261-45487329     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_X.1/47436740-47436664      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_5.1/59776411-59776481      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/122698177-122698234    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/45605000-45605104      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/61529667-61529745      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_15.1/58281793-58281853     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_10.1/38577056-38577129     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_9.1/116309906-116309828    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/152117767-152117827    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_7.1/36527187-36527083      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/72574848-72574915      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/6973465-6973543        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_12.1/128049055-128048977   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_4.1/188345043-188344964    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_15.1/63534234-63534301     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_10.1/2495334-2495411       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/129981682-129981762    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/12604218-12604280      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_19.1/39776702-39776781     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_4.1/21596586-21596519      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/136935272-136935352    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/65717562-65717483      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_14.1/43173654-43173725     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_X.1/8199998-8199940        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_16.1/2944104-2944028       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_20.1/55293943-55294022     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_15.1/47534472-47534409     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_16.1/74114363-74114293     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_8.1/27082383-27082437      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/38192870-38192939      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/53246599-53246679      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_3.1/84545733-84545812      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/155664673-155664594    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_18.1/71583292-71583345     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_10.1/69791304-69791230     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_10.1/62938894-62938970     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_18.1/30106130-30106184     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_X.1/20207790-20207726      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/86358874-86358937      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/111502795-111502713    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_14.1/27917223-27917293     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_8.1/135225738-135225815    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/104656477-104656544    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_20.1/11878095-11878031     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_12.1/60420556-60420630     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_12.1/82658726-82658819     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_20.1/46718951-46718877     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_20.1/41702211-41702288     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_4.1/82313673-82313595      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/104953725-104953645   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_9.1/117075571-117075651    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_11.1/102979287-102979352   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_1.1/105450150-105450081    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/203425712-203425793    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/166594814-166594741    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/135557944-135557816    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/175164733-175164654    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/31673335-31673276      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_8.1/12435617-12435539      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/208832427-208832347    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_13.1/72903905-72903828     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_16.1/61773457-61773535     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/83027704-83027627      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_15.1/86585370-86585293     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_Y.1/16070499-16070578      DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_10.1/120765377-120765304   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_1.1/38293461-38293530      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/239094640-239094578    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/147629198-147629277    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/213783080-213783159    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/94148589-94148511      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/131591302-131591366    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/4026467-4026537        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_16.1/56207291-56207209     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_20.1/32506331-32506416     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_1.1/57336018-57335941      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/208082472-208082542    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/116345567-116345645   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_16.1/82152539-82152603     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/43095689-43095612      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/94772077-94771998      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/29601794-29601857     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_9.1/9425554-9425481        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/98913409-98913485      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/105519515-105519606   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_5.1/42180701-42180779      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_12.1/66484958-66485034     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/224266055-224266123    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/9652830-9652761       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_5.1/127429468-127429393    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/139876059-139875975    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_5.1/39167150-39167224      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_19.1/52873708-52873760     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_4.1/109201767-109201691    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_3.1/125650207-125650273    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/90401274-90401350     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/138895907-138895986    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_11.1/24203541-24203466     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_13.1/80577717-80577649     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_2.1/162300659-162300567    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/27083322-27083249     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/70266711-70266778      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/9707323-9707390        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/93764288-93764218      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_12.1/109256517-109256592   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/210428117-210428042    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/48454006-48454099     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/17833840-17833918      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_3.1/143870911-143870993    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_12.1/23382981-23382924     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_5.1/124462988-124463065    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_14.1/20501826-20501916     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_4.1/104343346-104343261    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_13.1/30145325-30145256     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_6.1/62688790-62688878      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/112646303-112646379    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_13.1/95117558-95117637     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/95307606-95307552      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/202979896-202979973    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/163703592-163703667    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/150635569-150635490    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_18.1/11457724-11457639     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_5.1/129080672-129080742    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/67263351-67263275      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/165699318-165699228    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/24045921-24045846      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/20056700-20056646      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_9.1/119360835-119360756    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/18941920-18942007      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/37296020-37296099      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/78570940-78571024      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/156400253-156400175    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/27317247-27317321      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_20.1/22337493-22337558     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_15.1/48941381-48941302     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_4.1/176607396-176607468    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/30341943-30341881     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/63291664-63291577      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_Y.1/28557293-28557211      DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_3.1/21871245-21871321      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/117102730-117102650    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/162094190-162094261    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/23013429-23013356      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_20.1/38683575-38683510     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_2.1/176195191-176195112    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/91079239-91079155      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_6.1/122874493-122874416    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/84397048-84396970      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_16.1/63042857-63042932     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_2.1/4759036-4759095        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_16.1/63580045-63580123     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_1.1/34641548-34641470      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_21.1/33581874-33581798     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_8.1/121057223-121057148    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/56231415-56231493     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_8.1/131517356-131517436    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/60990439-60990515      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/128003326-128003270    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/64135466-64135523      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/63692992-63693070      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/138632609-138632686    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_17.1/56315722-56315669     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_7.1/81919395-81919474      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/43693364-43693287      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/100361087-100361153    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/61045093-61045172     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_12.1/101936665-101936566   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_8.1/31858350-31858276      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/61100543-61100617     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/151347401-151347322    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_14.1/86329950-86329873     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_5.1/86527668-86527745      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_11.1/68273555-68273634     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_12.1/95441756-95441695     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_X.1/37662567-37662491      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_18.1/46592470-46592539     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_3.1/19457182-19457257      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/211384422-211384333    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/98977194-98977129     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/90587180-90587111      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_8.1/65271554-65271461      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/29410833-29410912      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/35884918-35884994      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/15218105-15218031      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/134727824-134727902    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/11537713-11537636      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/51286666-51286742      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/75453406-75453313      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_3.1/150953738-150953817    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/94806797-94806899      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_X.1/124796968-124796905    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/204847543-204847475    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/154501995-154501923    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/30032774-30032855      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/149657882-149657804    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/83125770-83125716      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/63167723-63167647      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/150179621-150179689    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_17.1/63909033-63909124     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_2.1/157788764-157788685    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_17.1/43077811-43077882     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_14.1/89584456-89584534     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_6.1/76841301-76841365      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/30657997-30658075     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_4.1/12798789-12798711      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/131901619-131901684    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_13.1/34486212-34486137     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_3.1/121641025-121640947    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_11.1/26859015-26858955     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_16.1/83434220-83434151     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_2.1/59327633-59327710      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_18.1/58075106-58075028     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_Y.1/13908423-13908368      DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_15.1/72006399-72006474     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/5368393-5368446        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/9444428-9444350        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_X.1/139129799-139129866    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/17114420-17114341     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_2.1/218297020-218297100    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/150512435-150512516    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/184749196-184749292    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_11.1/35571890-35571797     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_2.1/80021399-80021488      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/76603407-76603341      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/8056327-8056393        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_6.1/147766637-147766714    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_18.1/30904023-30903967     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_15.1/100292005-100291926   DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_13.1/76498706-76498642     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_9.1/33042125-33042193      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/207271364-207271278    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/82916463-82916396      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/112494493-112494435    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_7.1/83548921-83548998      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_20.1/34497144-34497218     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_18.1/76893388-76893305     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_5.1/144760945-144761025    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/20086814-20086754      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/159210329-159210393    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/56589807-56589883      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/37599412-37599487      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_21.1/25841912-25841991     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_8.1/48628152-48628073      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/6226339-6226245        DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_16.1/8359655-8359551       DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_13.1/75502274-75502353     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_14.1/33669375-33669452     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_1.1/234153497-234153566    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_15.1/70261159-70261092     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_9.1/87291708-87291654      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_10.1/63875977-63876056     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_7.1/135736380-135736300    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/87071956-87072034      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/148228548-148228628    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/60853193-60853129      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_22.1/27527734-27527797     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_14.1/78910246-78910326     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_8.1/122888481-122888583    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/113352197-113352138    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/29786202-29786123      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_6.1/92816528-92816449      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/13910501-13910565      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/139027152-139027049    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/33565546-33565469     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_X.1/100373611-100373547    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/88388477-88388555      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_18.1/34758056-34757975     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_21.1/28111057-28110953     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_11.1/35321885-35321824     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_X.1/10184659-10184738      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_21.1/19047256-19047327     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_7.1/70771678-70771598      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/63619847-63619783      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_9.1/14746108-14746159      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_9.1/7624269-7624348        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_2.1/211370041-211369963    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_12.1/115283519-115283438   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_14.1/31362337-31362291     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_12.1/74411632-74411555     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/60413402-60413471      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/40378656-40378587      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/14910746-14910667      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/70215485-70215378      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/64273260-64273326      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_14.1/37941576-37941521     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_1.1/185622187-185622262    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/144629726-144629805    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/88534548-88534492     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/149497845-149497924    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/70171391-70171333     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_14.1/49209634-49209559     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_12.1/85949729-85949651     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_18.1/36997573-36997501     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_4.1/31757539-31757612      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/70443259-70443188      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/169760589-169760668    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_2.1/82584821-82584739      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_1.1/188116606-188116539    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/132825201-132825302    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_10.1/103690202-103690150   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_2.1/173806986-173806903    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/68742211-68742143      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/59678824-59678737     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_3.1/170259613-170259546    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/66475132-66475193      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/116213300-116213225    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/103242962-103242874    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/33719330-33719253     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/35784002-35784089      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/64275921-64275845     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_7.1/68388485-68388406      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/134029867-134029789    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_12.1/114558175-114558094   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_X.1/100145471-100145393    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/59114347-59114411     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/74663350-74663271     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_12.1/79176613-79176692     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/98752473-98752397      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_18.1/22542742-22542689     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_5.1/175362215-175362293    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_7.1/34980372-34980447      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/45887264-45887344      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_2.1/54376044-54376098      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/68944906-68944985      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_14.1/88575215-88575298     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_14.1/22387695-22387616     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_6.1/47988206-47988282      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_3.1/55614167-55614101      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/49158528-49158603     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_X.1/91159263-91159178      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/28717029-28717106     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/94199668-94199744     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_10.1/6591539-6591478       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/69539941-69539862     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_13.1/28776971-28777045     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_21.1/27842576-27842498     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_6.1/128476780-128476702    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_5.1/164373145-164373049    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_16.1/10147660-10147597     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_15.1/86762511-86762584     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_5.1/83638197-83638140      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/143876901-143876980    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_10.1/108477513-108477448   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/92565001-92565078      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_13.1/77953342-77953421     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_5.1/126740132-126740054    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/60486763-60486686      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_11.1/5409264-5409192       DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_12.1/44377275-44377350     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_11.1/129206525-129206449   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/61038001-61037936     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_18.1/57416909-57416986     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_6.1/135683561-135683481    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_21.1/47179981-47179920     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_19.1/43177742-43177820     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_3.1/67691923-67691867      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/164644580-164644657    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_13.1/46387781-46387702     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_5.1/122112130-122112210    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/18286298-18286360      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_1.1/96829845-96829735      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/186452459-186452389    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/136257240-136257174    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/112155268-112155343    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_3.1/8520040-8520108        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/54464787-54464719      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/180782963-180783027    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/201251908-201251982    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/73662990-73663074      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_3.1/76467049-76467126      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/49747123-49747050     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_18.1/69168395-69168302     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_7.1/48597400-48597309      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/6154559-6154483        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_16.1/48274650-48274595     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_15.1/51788201-51788148     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_7.1/105597411-105597347    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/113601986-113601892    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_4.1/153822224-153822120    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_17.1/3132363-3132288       DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_9.1/122929191-122929103    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_17.1/33874342-33874392     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_8.1/119385054-119384974    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_7.1/86867018-86866954      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/239608018-239607954    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/115964914-115964846   DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_11.1/133616395-133616325   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_11.1/13999584-13999500     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_3.1/70927845-70927923      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/2743556-2743476        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/164444444-164444536    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_13.1/29825589-29825527     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_6.1/156083959-156084034    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_1.1/218877972-218878048    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_11.1/71513630-71513696     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_21.1/17092286-17092355     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_3.1/9068276-9068196        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_18.1/23836850-23836931     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_6.1/57254931-57255009      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/19667259-19667350     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/110979907-110979829    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_22.1/23478815-23478892     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_1.1/246507265-246507313    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_5.1/138499433-138499486    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/125507426-125507504    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/89985858-89985783      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/79026921-79027029     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_16.1/24024682-24024566     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/33926486-33926409      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_18.1/72008609-72008542     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_5.1/35002132-35002053      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_3.1/129618452-129618538    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_1.1/212725464-212725548    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_15.1/68142177-68142100     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_2.1/28934491-28934423      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/31457019-31457102     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_8.1/138555225-138555313    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_18.1/10073376-10073456     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_3.1/20133396-20133320      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/63475959-63475850      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_4.1/124325062-124325137    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_15.1/54847899-54847843     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_7.1/133682032-133681970    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/23561239-23561311      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/138587081-138587160    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/150485436-150485514    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_4.1/179165757-179165830    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/147043358-147043436    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_4.1/123043626-123043707    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/103950367-103950450    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/75588704-75588783     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_3.1/122645886-122645965    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_18.1/59723336-59723251     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_19.1/44167332-44167411     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_10.1/16843934-16843987     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/70489798-70489905      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_7.1/107312772-107312853    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_12.1/19974279-19974201     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_7.1/92585257-92585328      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_18.1/21474083-21474162     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_3.1/184609265-184609186    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/69039514-69039433      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/196501743-196501812    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/45592106-45592182      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_9.1/93353854-93353782      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_10.1/108247237-108247294   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_X.1/92253332-92253254      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/101623913-101623988   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_1.1/193313137-193313190    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/104826596-104826518    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/127879238-127879159    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/129657649-129657591    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_17.1/37453664-37453740     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_8.1/75201037-75200958      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/13137332-13137431     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_16.1/54905604-54905540     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_4.1/34388456-34388379      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_17.1/71424659-71424738     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_X.1/25224572-25224491      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/34144917-34144856      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/61280584-61280529     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_9.1/84511355-84511277      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_7.1/137335849-137335913    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/7779679-7779602        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_8.1/103745942-103745863    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/105883125-105883046    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/34841789-34841850     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_5.1/65905918-65905847      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_9.1/82003754-82003831      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/77775119-77775208      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_21.1/29522993-29522925     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_18.1/44074706-44074768     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/140179820-140179903    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/34352574-34352651      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_10.1/25168652-25168730     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_9.1/72975697-72975634      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_20.1/18312570-18312645     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_7.1/70402832-70402772      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/116112499-116112421    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/19114099-19114027     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/67441665-67441729      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_15.1/72064951-72065023     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_20.1/11980221-11980145     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_11.1/60047705-60047629     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_9.1/3752099-3752177        DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/118751825-118751749    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_10.1/9346720-9346794       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_7.1/69167976-69168062      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_16.1/10147878-10147815     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_6.1/49735571-49735493      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_6.1/82693206-82693266      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_12.1/86409031-86408982     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_9.1/103732818-103732758    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_13.1/33615495-33615576     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_21.1/26827153-26827064     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_6.1/85546984-85547043      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/60104786-60104708     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/168264634-168264559    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/138658537-138658459    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_22.1/43947245-43947312     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_12.1/5305886-5305956       DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_3.1/15661144-15661077      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/56938732-56938811      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_1.1/209519466-209519530    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/70195789-70195711     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/207401122-207401045    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/170247910-170247843    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_3.1/170134695-170134756    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/56773687-56773617      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_9.1/87623259-87623333      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_7.1/26099962-26100051      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/147075126-147075200    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_3.1/109194926-109194997    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/60262343-60262263     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_11.1/106398691-106398768   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_16.1/52289380-52289459     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_2.1/147156981-147157037    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_8.1/119044326-119044401    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/100578227-100578149    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/96732041-96731983      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/108340277-108340184   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_1.1/177155581-177155501    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_3.1/158779242-158779174    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/31577439-31577364     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_8.1/88412442-88412508      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_8.1/55667215-55667140      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_2.1/137858044-137857967    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_7.1/137753370-137753295    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_9.1/83011814-83011878      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/220610895-220610817    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/133208942-133208880    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/32028338-32028409      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/23648822-23648885      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/74154605-74154673     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_3.1/3050435-3050514        DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/121633849-121633783    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_3.1/165611693-165611633    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/107716057-107716130   DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_18.1/14397266-14397342     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_X.1/122151754-122151679    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/20671534-20671597     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_17.1/51705971-51705913     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_5.1/34677939-34678010      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/8129275-8129221        DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_5.1/84930229-84930292      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_11.1/37137928-37137874     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_4.1/56138542-56138447      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_12.1/16541116-16541041     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_10.1/121883731-121883653   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_20.1/29636682-29636759     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_1.1/83025863-83025932      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/154484176-154484098    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/70909244-70909178      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/204353695-204353616    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_X.1/73720915-73720838      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/22580764-22580682      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_5.1/110891595-110891674    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_13.1/42547256-42547174     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_6.1/69924701-69924624      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_7.1/34796880-34796950      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/198803501-198803582    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_16.1/78659914-78659837     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_6.1/6473282-6473370        DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/31518339-31518430     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/84852577-84852649      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_10.1/26757613-26757534     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_13.1/36515300-36515380     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/158560769-158560699    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/101444379-101444461    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_11.1/107539666-107539589   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_6.1/87087702-87087624      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_16.1/52845319-52845407     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_8.1/122199038-122199110    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/58040083-58040005     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_16.1/11400381-11400302     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_4.1/16623657-16623586      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/120694554-120694484    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_14.1/57290936-57291010     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_7.1/69884124-69884071      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_8.1/106904986-106904923    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_16.1/62780334-62780406     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_7.1/49069658-49069580      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_21.1/41711795-41711728     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_19.1/10330422-10330353     DE 19 dna:chromosome chromosome:GRCh37:19:1:59128983:1
+#=GS H.sapiens_4.1/94472933-94472854      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_17.1/61268649-61268739     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_13.1/81982697-81982645     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_7.1/132782727-132782785    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_4.1/117022965-117022883    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_3.1/25312392-25312299      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_10.1/107790156-107790236   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_2.1/124941513-124941439    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_15.1/65924041-65924126     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/89630109-89630040      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_1.1/17476683-17476605      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_18.1/14553610-14553674     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_12.1/29043607-29043542     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_1.1/99256240-99256297      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_17.1/39212973-39213050     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_1.1/211670946-211670882    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_Y.1/3820039-3819967        DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_21.1/32834884-32834806     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_1.1/93788050-93787984      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/82445056-82445136      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_8.1/3649467-3649389        DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_11.1/17029509-17029434     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/67870609-67870689      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_17.1/45195953-45195875     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_3.1/93537856-93537930      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_13.1/50911985-50912065     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_8.1/96175092-96175162      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_14.1/78317325-78317395     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_20.1/10036979-10037059     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_1.1/224850778-224850700    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/178583521-178583586    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_11.1/13070767-13070837     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_5.1/13919980-13919909      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_6.1/135560389-135560309    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_17.1/46496586-46496509     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_1.1/74750157-74750237      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_12.1/69557638-69557716     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_12.1/20780210-20780272     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_10.1/19423359-19423449     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_10.1/119676881-119676939   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_7.1/110110213-110110275    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_1.1/199761205-199761295    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_6.1/20331447-20331507      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_8.1/72744916-72744839      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/133475122-133475204    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_10.1/3944916-3945024       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_21.1/38086340-38086417     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_9.1/112404717-112404797    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_7.1/34941256-34941177      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_13.1/55793236-55793300     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_12.1/91255595-91255654     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_17.1/14662540-14662615     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_14.1/61051911-61051851     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_8.1/53942103-53942029      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/67353120-67353044      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_3.1/107084124-107084045    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_6.1/154069489-154069568    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_18.1/32399915-32399995     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_3.1/113738517-113738597    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_20.1/31455923-31455850     DE 20 dna:chromosome chromosome:GRCh37:20:1:63025520:1
+#=GS H.sapiens_4.1/165746554-165746645    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_17.1/63096475-63096534     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_X.1/5605692-5605621        DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_13.1/57315669-57315742     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_4.1/152610759-152610835    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/80492169-80492244      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_2.1/164628491-164628419    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/2429336-2429408       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_5.1/173971197-173971118    DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/59760206-59760128      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_12.1/40220759-40220849     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_2.1/168758543-168758614    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_11.1/80142596-80142676     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_7.1/146677016-146677090    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_X.1/13579009-13578935      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_14.1/85813256-85813331     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_11.1/119893368-119893445   DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_14.1/79084291-79084214     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_10.1/71572531-71572452     DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_15.1/49773472-49773394     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_8.1/88053329-88053250      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_9.1/86329122-86329198      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/54477852-54477778      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_6.1/114598553-114598632    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_13.1/83433799-83433877     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_21.1/27239296-27239375     DE 21 dna:chromosome chromosome:GRCh37:21:1:48129895:1
+#=GS H.sapiens_1.1/88388790-88388712      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_13.1/77375943-77376017     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_X.1/130538572-130538494    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_14.1/30160898-30160831     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_9.1/119155870-119155949    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/175848458-175848540    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/30927630-30927706      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_4.1/59829622-59829692      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_5.1/37888361-37888447      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_9.1/122274034-122273972    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_13.1/71475361-71475283     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_4.1/157123932-157123862    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/130359684-130359758    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_2.1/125458425-125458504    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_18.1/40809759-40809838     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_3.1/130075405-130075321    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/154663083-154663008    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/78190882-78190821      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_7.1/9133744-9133822        DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_5.1/39586044-39585947      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_13.1/62527198-62527120     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_17.1/68496982-68497098     DE 17 dna:chromosome chromosome:GRCh37:17:1:81195210:1
+#=GS H.sapiens_X.1/32760115-32760035      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_4.1/155645381-155645459    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_5.1/77444586-77444517      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_5.1/97689122-97689201      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_NC.25/12079-12001          DE GL000241.1 dna:supercontig supercontig:GRCh37:GL000241.1:1:42152:1
+#=GS H.sapiens_6.1/114131774-114131698    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_2.1/54931034-54931107      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_9.1/73524759-73524689      DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_4.1/146839194-146839273    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_22.1/35207468-35207533     DE 22 dna:chromosome chromosome:GRCh37:22:1:51304566:1
+#=GS H.sapiens_1.1/86574594-86574669      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/141076460-141076531    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_18.1/37996631-37996554     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_2.1/86813268-86813347      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_3.1/159540407-159540484    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_8.1/128145986-128145927    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_10.1/120779955-120780029   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_14.1/30174608-30174508     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_2.1/237795498-237795575    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_12.1/42473656-42473579     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_10.1/2277700-2277623       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_3.1/81690558-81690494      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/107784265-107784316    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/39362167-39362245      DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_7.1/62740093-62740152      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_12.1/13740912-13740814     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_9.1/107041055-107040983    DE 9 dna:chromosome chromosome:GRCh37:9:1:141213431:1
+#=GS H.sapiens_1.1/158439462-158439546    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_4.1/82901781-82901701      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/135033143-135033063    DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_6.1/72248589-72248666      DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_X.1/70845703-70845606      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_3.1/106528817-106528721    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/62182220-62182142      DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_1.1/159064081-159064001    DE 1 dna:chromosome chromosome:GRCh37:1:1:249250621:1
+#=GS H.sapiens_8.1/118397962-118398040    DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_8.1/31378516-31378591      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_12.1/5522213-5522272       DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_10.1/5667126-5667205       DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_2.1/208278489-208278414    DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_6.1/148845370-148845292    DE 6 dna:chromosome chromosome:GRCh37:6:1:171115067:1
+#=GS H.sapiens_11.1/3578676-3578598       DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_18.1/19275547-19275488     DE 18 dna:chromosome chromosome:GRCh37:18:1:78077248:1
+#=GS H.sapiens_15.1/94624411-94624333     DE 15 dna:chromosome chromosome:GRCh37:15:1:102531392:1
+#=GS H.sapiens_X.1/136379587-136379508    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/106941750-106941831    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_X.1/142519391-142519447    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_2.1/29726777-29726855      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_10.1/129692170-129692249   DE 10 dna:chromosome chromosome:GRCh37:10:1:135534747:1
+#=GS H.sapiens_4.1/122190685-122190583    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_8.1/84226854-84226931      DE 8 dna:chromosome chromosome:GRCh37:8:1:146364022:1
+#=GS H.sapiens_X.1/13909209-13909294      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_3.1/28692560-28692482      DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_4.1/146459028-146459098    DE 4 dna:chromosome chromosome:GRCh37:4:1:191154276:1
+#=GS H.sapiens_7.1/95359736-95359654      DE 7 dna:chromosome chromosome:GRCh37:7:1:159138663:1
+#=GS H.sapiens_13.1/20839129-20839208     DE 13 dna:chromosome chromosome:GRCh37:13:1:115169878:1
+#=GS H.sapiens_11.1/93818069-93818148     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_12.1/74380524-74380437     DE 12 dna:chromosome chromosome:GRCh37:12:1:133851895:1
+#=GS H.sapiens_14.1/22348688-22348765     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+#=GS H.sapiens_5.1/3719892-3719813        DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_X.1/119589819-119589883    DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_11.1/99413217-99413294     DE 11 dna:chromosome chromosome:GRCh37:11:1:135006516:1
+#=GS H.sapiens_3.1/187953927-187954006    DE 3 dna:chromosome chromosome:GRCh37:3:1:198022430:1
+#=GS H.sapiens_5.1/45808850-45808962      DE 5 dna:chromosome chromosome:GRCh37:5:1:180915260:1
+#=GS H.sapiens_2.1/52168091-52168020      DE 2 dna:chromosome chromosome:GRCh37:2:1:243199373:1
+#=GS H.sapiens_X.1/15982118-15982178      DE X dna:chromosome chromosome:GRCh37:X:1:155270560:1
+#=GS H.sapiens_16.1/26558428-26558349     DE 16 dna:chromosome chromosome:GRCh37:16:1:90354753:1
+#=GS H.sapiens_Y.1/15779845-15779925      DE Y dna:chromosome chromosome:GRCh37:Y:1:10000:1
+#=GS H.sapiens_14.1/99179197-99179121     DE 14 dna:chromosome chromosome:GRCh37:14:1:107349540:1
+H.sapiens_13.1/49567006-49566901     ...GGT.....T.GG..T..G....C.A.A..A...A...G....T..........A........A.......T.........T...G.T...............G........................G...................T..................T.......................T....................T................................T...............................G....................................C.............................C........................................A..................................................T.........................T..............................................A.....................................C...........................T.............T................T....................................T............................A.........................A.......................T......................................G...........................GTACAAATGGTACTTTTAATTGAAAGCAATGGC........A...................A.............................A...........................A......................A.........................C......................C..................................................A..G..................T...T.A.....C....T.T..T..C...........G...CA....C.CAACCTAA
+H.sapiens_8.1/107923792-107923714    TTAGGT.....T.GG..T..A....C.A.A..A...A...G....T..........A........A.......T.........T...A.C...............G........................G...................T..................T.......................C....................T................................T...............................G....................................T.............................C........................................A..................................................T.........................T..............................................T.....................................C...........................T.............T................T....................................T............................A.................................................T......................................G...........................G...............................C........A...................A.............................A...........................A......................A.........................C......................T...............G.................C................A..A..................T...T.A.....C....T.T..T..T...........G...CA....C.CAACCTAA
+H.sapiens_6.1/35544547-35544476      TTAGAT.....T.GG..T..T....C.A.A..A...A...G....T..........A........A.......T.........T...G.T...............G........................G...................T..................T.......................T....................T................................T...............................A....................................C.............................C........................................A..................................................T.........................T..............................................A.....................................C...........................T.............T................T....................................C............................A.........................A.......................T......................................G...........................G...............................C........A...................A.............................A...........................A......................A.........................C......................A...............G.................C................A..A..................T...T.................T..T...........G...CA....C.CAAC....
+H.sapiens_8.1/33053357-33053450      TTAGGT.....T.GG..T..G....C.A.A..A...A...G....T..........A........A.......T.........T...G.C...............G........................G...................T..................T.......................T....................T................................T...............................G....................................C.............................C........................................G..................................................T.........................T..............................................A...............................AAAGTAC...........................T.............T................T....................................T............................A.........................A.......................T......................................G.....................TAATTTA...............................C........A.................TTA.............................A...........................A......................A.........................C......................C...............A.................C................A..A..................T...T.A.....C....T.T..T..T...........G...CA....C.GAACCTAA
+H.sapiens_7.1/137095299-137095226    .TAGGT.....T.GG..T..G....C.A.A..A...A...G....T..........A........A.......T.........T.....T...............G........................G...................T..................T.......................T....................T................................T...............................G....................................T.............................C........................................A..................................................T.........................T...............................................................................................................................................T....................................C............................A.........................G.......................T......................................G...........................A...............................C........A...................A.............................A...........................A......................C.........................C......................T...............G.................C................A..A..................T...C.A.....T....T.T..T..T...........G...CA....C.CAACCTAA
+H.sapiens_19.1/19100550-19100497     .TAGGT.....T.GG..T..G....C.A.A..A...A...G....T..........A........A.......T.................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................G...........................G...............................C........A...................A.............................A...........................A......................C.........................C......................T...............T.................C................A..A..................T...T.A.....C....T.T..T..T...........C...CA....C.CAACCTAA
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+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/Pkinase.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/Pkinase.hmm
new file mode 100755
index 0000000..3e0df34
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/Pkinase.hmm
@@ -0,0 +1,806 @@
+HMMER3/e [3.0 | March 2010]
+NAME  Pkinase
+ACC   PF00069.17
+DESC  Protein kinase domain
+LENG  260
+ALPH  amino
+RF    no
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:44:06 2011
+NSEQ  54
+EFFN  3.358521
+CKSUM 3106786190
+GA    70.30 70.30
+TC    70.30 70.30
+NC    70.20 70.20
+STATS LOCAL MSV      -10.7215  0.70254
+STATS LOCAL VITERBI  -11.6541  0.70254
+STATS LOCAL FORWARD   -5.2305  0.70254
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.60017  4.19886  2.94089  2.63789  3.35087  2.89119  3.48337  2.79435  2.60265  2.43454  3.62613  3.06133  3.41286  3.09693  2.94507  2.65650  2.87761  2.67871  4.54052  3.43274
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.00000        *
+      1   2.91704  4.31028  4.76351  3.63148  2.10912  3.47710  4.39734  2.27639  3.96619  1.99282  3.42844  4.19567  4.43771  4.11903  3.67403  3.22736  3.14918  2.35905  3.32515  1.82622      1 y - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      2   2.77204  4.20708  3.06476  1.97968  4.66603  3.66509  3.19858  3.37903  2.25347  3.34018  4.38833  2.97180  4.05804  2.36838  2.43173  2.67542  2.50268  2.83403  5.78758  4.38976      2 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      3   2.90076  4.04294  3.31590  2.80413  3.08157  3.87481  4.12616  2.18958  2.49735  1.97194  3.73714  3.32717  3.98753  3.23115  3.12315  2.99137  2.62008  2.29426  5.21478  3.75979      3 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      4   2.89383  4.85429  3.10311  2.63174  3.71383  2.56808  3.47232  2.82076  2.61844  1.98342  3.72320  3.05498  4.17347  3.05527  3.32194  2.85608  2.93671  2.18878  5.40057  3.87183      4 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      5   2.68261  5.39185  2.80437  1.87471  4.73638  2.79887  3.69591  4.22191  2.19487  3.69685  4.08896  3.12413  3.70490  2.48424  2.08916  2.53260  3.02309  3.43812  5.82480  4.41426      5 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      6   2.77253  4.06085  3.07881  2.53373  4.10647  3.71564  3.68370  2.64290  2.00036  2.72968  4.17370  3.24239  3.08607  2.77632  2.72820  2.69921  2.54335  2.71931  5.60386  4.26496      6 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      7   3.42930  4.74416  5.34765  4.76823  3.71832  4.71430  5.09461  1.33015  3.54417  1.12594  3.33523  4.84641  5.00427  4.73010  4.64986  4.05097  3.66327  1.83083  5.51142  4.37013      7 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      8   2.57460  4.94286  4.00732  3.93216  5.40516  0.41612  5.15134  4.86315  4.18766  4.52736  5.33508  4.05990  4.45245  3.74651  4.46171  3.15888  3.14590  4.15180  6.71159  5.52767      8 G - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      9   2.30218  5.38172  3.03799  2.02026  4.18991  3.65799  3.84554  3.67215  2.28945  3.68495  4.42365  2.84227  3.73039  2.44555  2.39428  2.00278  2.95859  3.63127  5.81726  4.40923      9 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     10   4.54226  6.07621  5.39207  5.44513  6.34643  0.07137  6.34600  6.33790  5.73770  5.76452  6.83374  5.56171  5.46536  5.98137  5.73783  4.76037  5.08470  5.67502  7.03864  6.52156     10 G - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     11   2.06444  5.37337  2.91595  2.40063  4.70969  2.61181  3.84889  4.18948  2.46835  3.67503  4.41668  2.62917  4.05392  2.88235  2.66711  2.00495  2.47288  3.39649  5.81159  4.40596     11 s - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     12   2.90920  4.46494  4.12493  3.14570  1.52027  3.22992  4.24969  2.92840  3.46467  2.66529  3.12827  3.55640  4.33979  3.72214  3.72236  2.53517  2.98442  2.55125  5.06498  2.30159     12 f - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     13   2.21104  4.80722  4.64199  4.55509  5.54982  0.52550  5.49025  5.04875  4.70671  4.72740  5.47955  4.30215  4.43233  4.84666  4.86038  1.95116  3.45005  4.17507  6.87595  5.79039     13 G - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     14   2.71551  3.46186  3.01248  2.27453  4.55840  3.55853  3.50842  3.55064  2.03335  3.34882  4.31847  3.17065  4.07218  2.83960  2.83653  2.25762  2.26864  2.61469  5.72841  4.35037     14 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     15   3.17885  3.97005  5.63014  5.16553  4.35293  4.89782  5.77682  2.09398  5.06494  2.94083  4.14496  5.20428  5.30924  5.30763  5.20260  4.32158  3.61414  0.44769  6.26043  5.04118     15 V - E
+          2.68625  4.42232  2.77526  2.73102  3.46361  2.40519  3.72501  3.29361  2.67747  2.69306  4.24696  2.90353  2.73746  3.18153  2.89807  2.37893  2.77526  2.98499  4.58484  3.61510
+          0.09563  2.43065  5.73865  0.67073  0.71608  0.48576  0.95510
+     16   2.91101  3.31342  4.36759  3.41772  2.45121  4.01227  4.31421  2.75922  2.81772  2.31733  3.50420  3.69862  4.38187  3.88257  3.14725  3.02772  3.14303  2.46483  3.37889  1.69905     18 y - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     17   2.88484  5.28431  3.03179  2.31849  4.58595  3.47769  3.54625  2.98124  1.69233  2.43413  4.04064  3.16353  4.06907  2.72555  2.58277  2.55274  3.04512  3.20501  5.74377  4.36100     19 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     18   1.57125  2.56460  3.38436  3.39201  3.66458  2.34190  4.20526  2.93932  3.32823  2.44127  3.26099  3.74334  4.30466  3.60817  3.63469  3.01628  2.92537  2.55308  5.13581  3.91882     20 a - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     19   2.89298  4.40558  3.44708  2.63051  3.77015  3.77747  2.87940  2.57515  2.33949  2.85128  3.20054  3.37379  4.16367  2.65910  2.52913  2.67954  2.59930  2.46709  5.42679  3.74337     21 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     20   2.88350  5.37811  2.42858  2.28192  4.71668  3.65945  2.35349  4.19788  2.20596  2.91798  4.42054  2.38258  4.05280  2.81490  2.60119  2.77457  3.11461  3.76528  3.43428  3.80493     22 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     21   2.59359  5.30144  3.00667  2.46268  4.60954  3.67285  3.22394  2.91749  2.13087  2.60378  4.35201  3.05590  3.51881  2.48537  2.35096  2.62551  3.00998  2.84793  5.75687  4.36947     23 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     22   2.64500  5.38003  2.46961  2.36386  4.71962  2.36153  3.71093  3.77963  2.19342  3.27291  4.42213  2.49968  3.44456  2.94396  2.94770  2.23767  2.90215  3.58800  5.81601  3.79868     24 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     23   2.71410  5.35453  2.26257  2.17828  4.68327  3.06138  3.85215  3.65600  2.51871  3.65284  4.39957  2.64619  4.05631  2.95399  2.98284  2.41102  1.94961  3.19379  5.79713  3.78693     25 t - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03260  5.01631  3.67114  0.61958  0.77255  0.48576  0.95510
+     24   2.77509  4.50579  3.06414  2.40741  4.68877  2.10468  3.84020  4.16638  2.52713  3.65577  4.39945  2.31826  2.82304  2.55347  2.45557  2.51717  3.10489  3.55245  5.79545  3.68618     26 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.13496  4.99383  2.12471  0.61958  0.77255  0.54753  0.86365
+     25   2.82390  4.23357  2.59579  2.09029  4.65095  3.47120  3.53571  3.50264  1.93281  3.24335  4.10745  2.98984  3.99409  2.41262  2.43858  2.60001  2.84781  3.57090  5.75206  3.98239     27 k - E
+          2.68634  4.42166  2.77510  2.73101  3.46370  2.40521  3.72473  3.29370  2.67713  2.69347  4.24706  2.90350  2.73742  3.18145  2.89817  2.37895  2.77536  2.98516  4.58493  3.61485
+          0.21086  2.33296  2.37401  1.37928  0.29003  0.81455  0.58490
+     26   2.79249  4.86773  3.27912  2.48247  3.81836  3.65430  3.86742  2.36980  2.31612  2.40000  3.66176  2.98804  3.52938  2.45192  2.80383  2.80149  2.71760  2.93241  5.39419  3.83742     36 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01259  4.77670  5.49905  0.61958  0.77255  0.27298  1.43175
+     27   2.94684  4.40681  4.93000  4.33270  2.14562  4.19543  4.43742  2.60780  4.12995  2.51432  3.32273  4.32339  4.55150  4.25562  4.15094  3.50804  3.26683  1.12964  4.39266  2.23526     37 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     28   0.67405  4.13502  4.78133  4.26234  4.00859  4.13420  4.88775  2.58668  4.14876  2.87877  3.59530  4.37511  4.66004  4.38446  4.34251  3.50924  3.44597  2.20111  5.62436  4.43519     38 A - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     29   2.77559  4.05359  4.82280  4.21814  3.45081  3.88127  4.46447  1.69887  3.29990  2.06046  2.92956  4.25618  4.49083  4.18293  4.07725  3.28739  3.19210  1.31639  4.98894  3.80930     39 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     30   4.13385  6.06880  4.58555  3.84767  5.73274  4.53840  4.41573  5.06650  0.32256  4.37802  5.30885  4.14872  4.92009  3.55775  2.54913  4.11741  4.25754  4.75872  6.25921  5.22828     40 K - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     31   2.53136  3.93442  3.55191  2.54113  3.59001  3.81267  3.67691  2.09853  2.22431  2.85063  3.63116  3.45300  4.19661  2.87681  2.71089  2.96116  2.67441  2.46338  5.34241  3.76111     41 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     32   2.80227  4.30542  4.81704  3.71619  2.31247  3.45194  4.41496  1.85614  4.00698  1.68898  3.06826  4.22398  4.44809  4.15126  4.03957  3.11345  3.01936  1.82478  4.92889  3.75130     42 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     33   2.72320  4.19698  2.89173  2.30854  4.21536  3.66470  3.63903  3.54937  1.81020  3.33297  4.38970  2.50126  3.12497  2.85129  2.61476  2.47307  2.93549  3.43057  4.63863  3.86554     43 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     34   2.73748  5.16363  3.24304  2.62749  4.42406  3.39882  3.64889  3.08793  1.75481  2.64054  4.22767  2.81684  3.49630  2.92572  2.69253  2.71691  2.78362  2.91622  5.65055  3.09244     44 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     35   2.82342  4.21564  2.57688  2.18304  4.09635  3.66104  3.29269  4.17416  2.24176  3.24419  4.40775  3.13331  3.02670  2.66210  2.30119  2.38622  2.91913  2.84969  5.80393  4.13733     45 e - H
+          2.68618  4.42225  2.77520  2.73124  3.46354  2.40513  3.72495  3.29354  2.67741  2.69355  4.24690  2.90347  2.73731  3.18147  2.89801  2.37887  2.77520  2.98519  4.58477  3.61503
+          0.02362  3.90596  5.73865  0.48782  0.95182  0.48576  0.95510
+     36   2.81479  5.38805  2.34307  2.08229  3.84722  3.00939  3.24618  4.21561  2.24819  3.24444  4.42924  2.80965  3.63231  2.74299  2.65208  2.41080  2.72103  3.26063  5.82196  4.16400     47 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     37   2.42659  5.32934  2.94543  1.98753  4.27035  3.66735  3.85733  2.97282  2.27697  3.20526  3.75542  2.69174  3.50027  2.79550  2.45131  2.66535  2.70832  3.28701  5.77800  4.07668     48 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     38   2.82479  5.36482  2.46403  2.36491  4.23121  3.19666  3.53460  3.47934  2.01766  2.87145  4.06028  2.53791  3.88358  2.73438  2.79605  2.39315  2.94316  3.30320  5.80464  3.67777     49 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     39   2.81259  3.82036  2.58997  2.16257  3.93187  3.50795  3.44913  3.32347  2.23760  3.42042  3.43188  3.03914  3.18139  2.98833  2.90722  1.97318  3.04237  3.44327  4.85883  4.01646     50 s - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04017  5.01631  3.41907  0.61958  0.77255  0.48576  0.95510
+     40   2.75150  4.68420  2.78864  2.20581  3.96394  3.14028  3.85474  3.62649  2.17804  2.84544  3.93254  2.66146  3.79370  2.72658  2.87564  2.43841  2.71937  3.23202  3.36778  4.34996     51 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01020  4.98634  5.70869  0.61958  0.77255  0.56699  0.83755
+     41   2.52028  4.29421  2.93844  2.26593  3.28616  3.42961  3.89113  3.40312  1.92589  2.89626  3.59280  3.04537  4.08209  2.42956  3.02333  2.89065  2.87512  2.78376  5.62895  3.97726     52 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06456  4.98634  2.88790  0.61958  0.77255  0.56699  0.83755
+     42   2.52102  4.66200  2.60886  2.12080  3.90563  3.43164  3.41299  3.76759  2.19798  2.95231  4.37667  2.71584  3.31098  2.66775  2.46389  2.65499  2.89357  3.57073  4.74853  4.36793     53 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06881  4.93254  2.82535  0.61958  0.77255  0.69302  0.69327
+     43   2.65676  5.27743  2.81592  2.16715  4.59834  3.44096  3.79920  2.82354  2.10889  3.57233  3.78816  2.93522  4.00237  2.20078  2.58862  2.72374  2.99283  3.18643  5.72482  3.30249     54 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04191  4.87514  3.39892  0.61958  0.77255  0.80592  0.59181
+     44   2.46416  5.14935  3.14274  2.35064  4.42785  3.46788  3.62138  3.06885  2.39724  2.90472  4.00413  2.77252  4.01153  2.56699  2.69346  2.37713  2.33258  3.34725  5.62407  3.30627     55 t - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15381  4.84499  2.00472  0.61958  0.77255  0.85820  0.55151
+     45   2.15178  5.11690  2.80767  2.47016  4.06926  3.56450  3.25874  3.42510  2.38373  2.72748  4.17388  2.58132  3.95629  2.68997  2.59104  2.52019  2.89357  3.10461  5.58730  3.84420     56 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06869  4.70471  2.85898  0.61958  0.77255  1.05523  0.42788
+     46   2.33893  4.38200  3.78128  3.08857  2.87706  3.76539  4.03303  2.50172  2.82237  2.26545  3.48958  3.56901  4.14175  3.13269  2.43377  3.02211  2.55318  2.18677  4.40164  3.75633     57 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07407  4.65033  2.78326  0.61958  0.77255  1.03937  0.43646
+     47   2.66580  4.77769  3.25859  2.69691  3.69577  3.61140  3.56963  3.36841  2.45062  2.28390  3.86113  2.83101  3.99793  3.01640  2.00932  2.40384  2.97180  2.98514  3.81809  4.01106     58 r - H
+          2.68588  4.42292  2.77574  2.73101  3.46421  2.40561  3.72562  3.29362  2.67747  2.69305  4.24679  2.90348  2.73776  3.18179  2.89693  2.37874  2.77432  2.98554  4.58544  3.61510
+          0.56084  0.85690  5.33966  1.67148  0.20822  0.22069  1.61932
+     48   3.87852  6.35819  2.88185  0.33512  5.75300  3.98086  4.66680  5.41085  3.73193  4.87592  5.81368  3.19190  4.67406  3.86930  4.28895  3.74624  4.21685  4.94226  6.88673  5.40485     78 E - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     49   2.34469  4.06185  4.67394  3.74635  3.19070  3.72385  4.38165  1.69529  3.89930  1.68521  3.30505  3.88179  4.42519  3.50953  3.71087  3.12279  3.14596  1.99339  4.94125  3.41486     79 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     50   2.41611  3.92039  3.06862  2.24055  4.69692  3.38839  3.50460  4.17440  2.17094  3.43336  4.01855  2.84870  4.05421  2.22409  2.42800  2.49697  2.93959  3.48161  5.80403  3.10747     80 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     51   2.65097  4.31309  4.79937  4.19096  3.25102  4.08746  4.41763  1.57396  3.99634  1.77576  3.18772  3.58572  4.45127  4.14513  4.03729  2.91921  3.15786  1.73265  4.93848  3.33785     81 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     52   2.71474  4.35776  4.49839  3.90546  3.26558  3.60358  3.11363  2.58541  3.76519  1.24138  2.56017  3.78382  4.40165  3.77674  3.90460  2.91080  2.88501  2.43218  4.97232  3.44306     82 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     53   2.21717  5.37509  3.13954  2.36108  4.71254  3.44569  3.50643  4.19289  1.90576  2.89362  4.41783  2.84264  3.50886  2.51670  2.27883  2.73413  2.79427  3.37900  5.81221  4.40629     83 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     54   2.88332  4.76187  3.15794  2.34306  4.64959  3.18467  2.98724  4.11774  2.20976  2.84622  3.53657  2.69640  4.06011  2.81953  2.22587  2.26090  2.67755  3.39248  5.77872  3.89328     84 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     55   2.92075  3.71086  4.82119  4.21031  2.91851  4.08375  4.41406  2.48059  4.00923  1.14255  2.77088  4.22517  4.44739  4.15194  3.51737  2.79440  3.04088  2.14784  4.92583  3.58797     85 l - H
+          2.68619  4.42231  2.77526  2.73130  3.46360  2.40505  3.72501  3.29360  2.67737  2.69361  4.24696  2.90322  2.73746  3.18153  2.89797  2.37878  2.77526  2.98514  4.58483  3.61509
+          0.21093  1.81438  3.60337  0.15203  1.95873  0.48576  0.95510
+     56   2.87228  4.32697  2.43695  2.52023  4.72535  3.09966  3.42727  4.21076  2.24746  3.68599  4.14994  2.21640  3.70120  2.45856  2.42604  2.20075  2.84715  3.77128  5.81417  4.40372     87 s - S
+          2.68626  4.42233  2.77498  2.73131  3.46362  2.40515  3.72479  3.29362  2.67733  2.69363  4.24698  2.90355  2.73719  3.18141  2.89809  2.37895  2.77498  2.98527  4.58485  3.61511
+          0.08622  2.53438  5.71435  0.90816  0.51628  0.44628  1.02166
+     57   2.95437  4.05540  4.02453  3.66262  4.73022  3.00582  0.63840  4.27369  3.61156  3.92435  4.76053  3.90244  4.38221  3.97389  3.93213  2.36608  3.39859  3.79517  6.08861  4.80370     91 H - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     58   2.74925  4.59154  2.64384  2.02057  4.69046  3.19970  3.85151  4.16644  2.39568  3.65893  3.99620  3.06676  1.73396  2.95270  2.98758  2.52836  2.96698  3.57815  5.80119  4.39902     92 p - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     59   2.77600  3.63123  3.60742  3.04389  2.88763  3.83093  3.22852  3.27052  2.82124  2.96220  3.83761  1.44485  4.21384  3.33393  3.26463  3.06163  2.84916  2.86372  5.30436  2.85576     93 n - S
+          2.68619  4.42226  2.77521  2.73125  3.46355  2.40506  3.72496  3.29355  2.67742  2.69356  4.24691  2.90348  2.73741  3.18148  2.89802  2.37880  2.77521  2.98520  4.58478  3.61504
+          0.02736  3.73933  5.73865  0.64347  0.74542  0.48576  0.95510
+     60   3.43736  4.73250  5.40681  4.85032  3.21534  3.89737  5.21348  0.72821  4.70181  2.29095  3.77438  4.92025  5.08011  4.86610  4.77171  4.12622  3.68020  1.72131  5.65218  4.46593     96 i - B
+          2.68620  4.42119  2.77522  2.73126  3.46356  2.40515  3.72497  3.29356  2.67743  2.69357  4.24692  2.90349  2.73742  3.18149  2.89780  2.37889  2.77522  2.98521  4.58479  3.61505
+          0.04171  3.27988  5.73865  0.65380  0.73410  0.48576  0.95510
+     61   3.22247  3.52386  5.20134  4.62057  3.74032  4.49428  4.89197  1.38422  4.44333  2.03444  3.40884  4.64781  4.83078  4.60265  4.48778  3.55308  3.01459  1.16992  5.37248  4.18666     99 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     62   2.72238  4.59459  3.13585  2.30027  4.72566  3.17722  3.67251  4.20868  2.00822  3.53187  4.42604  2.97500  3.44674  2.41134  2.06447  2.53711  2.32763  3.77297  5.81907  4.41084    100 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     63   2.75790  4.02501  4.89076  4.27684  2.25991  4.10991  4.44304  2.31340  4.06541  1.38378  2.56521  4.26823  4.47075  4.19670  4.07763  3.42134  2.72551  2.21249  4.93572  3.01728    101 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     64   2.79378  4.36122  4.48297  3.70404  2.84684  4.03133  3.55103  1.94759  2.82835  1.82248  3.32801  4.05424  4.39941  3.70850  3.13439  3.15759  3.14407  2.41334  4.25902  2.30786    102 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     65   2.47264  4.33075  2.07830  2.03157  4.71750  2.27093  3.18950  4.19892  2.58523  3.68152  4.42156  3.04070  4.05295  2.84140  2.67254  2.59104  3.11515  3.76615  5.81569  3.60292    103 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     66   2.10377  4.03530  4.82986  4.21790  2.76136  4.07923  4.41023  2.08081  4.01359  2.30827  2.78821  4.22543  4.44340  4.15406  4.03913  2.38166  2.60707  1.97272  3.19782  3.33258    104 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     67   2.82605  3.67894  3.38070  3.01266  1.82001  3.97118  3.82789  2.76491  3.48734  2.34143  3.24926  3.10725  3.78017  3.42990  3.73647  2.98277  3.13977  2.32864  3.87637  2.72935    105 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04987  5.01631  3.16967  0.61958  0.77255  0.48576  0.95510
+     68   2.55964  4.21441  3.10666  1.94329  4.49707  3.21758  3.46239  3.37098  2.39709  3.00488  3.51821  3.06808  4.06187  2.54621  2.66989  2.75991  2.68522  3.13970  5.68635  3.14043    106 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02094  4.97674  4.28127  0.61958  0.77255  0.42506  1.06054
+     69   2.80310  5.38415  2.22807  2.18295  4.72718  3.65266  3.36574  4.21171  2.46641  3.56699  4.42536  2.57848  3.46451  2.86899  2.36310  2.58224  2.17995  3.52075  5.81804  3.65548    107 t - E
+          2.68640  4.42162  2.77535  2.73147  3.46354  2.40551  3.72458  3.29233  2.67716  2.69348  4.24762  2.90375  2.73699  3.18187  2.89837  2.37858  2.77480  2.98522  4.58549  3.61548
+          0.36809  1.18844  5.72853  1.68950  0.20409  0.46837  0.98355
+     70   2.88244  5.39287  2.47300  2.29715  3.79460  2.82884  3.28660  4.22374  2.09832  3.69810  4.43357  2.45444  3.07035  2.85151  2.47539  2.34133  3.01376  3.78345  5.82560  4.10620    126 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     71   2.57798  5.39101  2.06614  2.42374  4.73510  2.82383  3.84381  4.22040  2.28304  3.69587  4.43195  2.62257  3.38372  2.71683  2.73886  2.29050  2.66881  3.34289  5.82427  4.18691    127 d - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     72   2.58231  5.35788  2.77781  2.22432  4.08337  3.66211  2.49021  4.16401  2.37240  3.16748  4.40241  2.52484  4.05523  2.76334  2.63486  2.49164  2.89823  3.30761  4.95167  3.05734    128 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     73   2.78575  3.74303  4.78141  4.17260  2.95491  4.07322  4.40160  1.89067  3.97854  1.60353  2.95383  3.71592  3.11906  4.12798  3.50390  3.07790  2.85145  2.24111  4.92509  2.91282    129 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     74   2.58399  2.76389  4.59675  3.99881  3.19843  4.04871  3.62339  2.65148  3.84111  2.12752  3.45456  3.62454  3.46238  4.02369  3.94739  2.79096  3.14543  2.42948  3.13888  1.74690    130 y - E
+          2.68624  4.42096  2.77500  2.73129  3.46360  2.40508  3.72501  3.29360  2.67747  2.69353  4.24696  2.90343  2.73746  3.18153  2.89807  2.37893  2.77510  2.98525  4.58483  3.61509
+          0.10354  2.49668  4.13492  0.66960  0.71726  0.48576  0.95510
+     75   3.07392  4.44555  4.97084  3.81418  2.87255  4.25097  4.57886  1.74564  4.16653  1.31678  2.12605  4.39109  4.59167  3.71495  4.19337  3.56380  3.30386  2.29390  5.05348  3.89648    133 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
+     76   2.86449  3.41378  5.01300  4.41506  3.07458  4.28568  4.64425  1.49634  4.22335  2.27773  3.54368  4.43380  4.63588  3.70581  4.25773  3.60458  3.30826  1.19505  5.13861  3.95920    134 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.46390  0.99109
+     77   2.91733  4.35063  4.55668  3.96112  2.40516  4.04680  4.36140  2.56068  3.81048  1.70108  1.79340  3.59899  4.41359  3.09405  3.93172  3.15547  2.48177  2.59902  4.96582  3.78095    135 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     78   2.76564  5.57030  2.50020  1.03018  4.90220  3.70297  3.44513  4.39514  2.75995  3.87044  4.62325  3.16505  3.19754  2.75935  3.27129  2.65802  3.28146  3.95557  6.00401  4.57374    136 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     79   2.81579  3.90369  4.68991  4.08721  2.27644  4.06399  3.63829  2.69790  3.58050  1.84024  3.31248  4.16081  4.42953  4.07816  3.60709  3.36667  3.01039  2.57256  4.40465  1.54393    137 y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     80   2.45920  2.17262  4.69646  4.09287  3.22405  3.32199  3.21264  2.59887  3.91610  2.06244  2.25581  4.16309  3.61702  4.08102  3.98811  3.14866  3.14614  2.03766  4.93767  3.46778    138 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04171  5.01631  3.37486  0.61958  0.77255  0.48576  0.95510
+     81   2.70314  5.37371  2.37994  1.91497  4.71601  2.93053  3.83161  4.20005  2.46492  3.55263  3.57885  2.58870  2.59223  2.74552  2.71928  2.69862  3.03649  3.29150  5.80804  4.39872    139 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01022  4.98481  5.70716  0.61958  0.77255  0.57090  0.83245
+     82   2.41993  3.72287  3.12898  2.52046  4.44831  1.89639  3.49536  3.62837  2.38762  3.31281  3.53904  2.44913  3.42379  3.00780  3.12891  2.87912  2.75467  3.52812  5.65946  3.81984    140 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.10979  4.98481  2.33166  0.61958  0.77255  0.57090  0.83245
+     83   2.77350  5.21303  2.43943  2.62703  4.54309  1.39496  3.89257  3.99092  2.60267  3.54085  4.32260  3.04209  4.06226  3.01831  3.03242  2.64588  2.77651  3.04353  5.73236  4.35922    141 g - -
+          2.68631  4.42210  2.77537  2.73126  3.46359  2.40522  3.72475  3.29338  2.67758  2.69250  4.24657  2.90377  2.73770  3.18148  2.89796  2.37902  2.77541  2.98478  4.58507  3.61496
+          0.21230  1.67338  5.60865  1.39945  0.28334  0.33567  1.25476
+     84   2.88583  5.39491  1.79381  2.06461  4.73890  3.24821  3.51210  4.22442  2.47141  3.51906  4.43601  2.95989  3.57031  2.79057  2.82788  2.02605  2.91163  3.62254  5.82805  4.41723    147 d - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     85   2.90986  4.42406  3.70533  3.66371  3.02577  3.99009  3.90749  2.78363  3.56278  1.02082  3.24022  3.34355  4.36146  3.52102  3.78389  3.13807  2.95820  2.60948  5.03043  3.48016    148 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     86   2.57337  4.10245  3.03950  2.95233  2.09915  3.53742  3.15959  3.37138  2.66519  2.44003  3.54971  3.10382  3.71714  3.06888  3.13958  2.44794  3.05039  3.11306  4.61969  3.07664    149 f - H
+          2.68621  4.42228  2.77522  2.73126  3.46357  2.40516  3.72497  3.29357  2.67744  2.69358  4.24693  2.90350  2.73735  3.18149  2.89804  2.37890  2.77502  2.98521  4.58480  3.61458
+          0.24291  3.02648  1.78874  0.58545  0.81386  0.48576  0.95510
+     87   2.29362  5.30873  1.92419  2.32474  4.26868  3.43187  3.46788  4.12970  2.37357  3.61146  4.35100  2.92576  3.98105  2.69850  2.60197  2.47206  2.54407  3.69618  5.74493  3.96335    152 d - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01185  4.83724  5.55959  0.61958  0.77255  0.87096  0.54223
+     88   2.24696  4.24235  4.56569  3.96478  2.41045  3.97137  3.29432  2.27668  3.43922  2.04964  3.19406  4.05576  4.33743  3.97000  3.38896  3.27217  3.06100  2.23241  4.18296  2.20711    153 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01185  4.83724  5.55959  0.61958  0.77255  0.87096  0.54223
+     89   3.80243  5.01974  5.81731  5.27268  3.70245  5.26548  5.70409  1.30084  5.15744  0.98923  3.04180  5.42350  5.39649  5.16571  5.17462  4.65797  4.03105  1.75151  5.84473  4.80632    154 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01185  4.83724  5.55959  0.61958  0.77255  0.62617  0.76494
+     90   2.48275  5.13868  3.18520  2.44727  3.97540  3.65122  3.65677  3.36126  2.16734  3.30486  3.19390  3.06911  4.04233  2.41632  2.75033  2.25069  2.41675  3.09873  5.62108  3.69504    155 k - H
+          2.68595  4.42186  2.77509  2.73103  3.46377  2.40517  3.72421  3.29387  2.67761  2.69368  4.24695  2.90368  2.73754  3.18175  2.89730  2.37895  2.77536  2.98514  4.58473  3.61505
+          0.63487  1.25520  1.68753  1.39580  0.28453  0.74756  0.64154
+     91   2.43987  5.24839  2.75312  2.20207  4.11839  3.54175  3.72993  4.06095  2.07671  3.34429  3.98666  2.75679  3.72576  2.60349  2.28520  2.46158  2.79062  3.43756  5.68761  3.81452    172 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01352  4.70589  5.42824  0.61958  0.77255  0.34096  1.24163
+     92   2.56414  5.37054  2.84426  2.11401  4.71382  2.70860  2.88683  4.19851  2.19051  3.14492  4.41168  2.55924  4.03189  2.79129  2.63798  2.35762  3.09530  3.76022  5.80426  3.44686    173 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01035  4.97167  5.69402  0.61958  0.77255  0.60365  0.79145
+     93   2.86527  4.78061  2.95620  2.59670  4.27271  1.99448  3.84571  3.48713  2.08881  3.39073  4.33266  2.46895  3.64059  2.84730  2.63768  2.84659  2.50396  3.24160  5.73764  4.35043    174 g - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01035  4.97167  5.69402  0.61958  0.77255  0.46145  0.99524
+     94   2.57883  3.45102  3.31966  2.70191  4.02973  3.16828  3.76144  3.12068  2.26544  3.06289  4.10647  2.81108  2.70638  2.99156  2.57108  2.49596  2.68439  2.78596  4.48656  4.03099    175 k - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01001  5.00539  5.72774  0.61958  0.77255  0.51640  0.90799
+     95   3.00846  4.37852  4.95050  4.33851  2.03946  4.18408  4.51243  2.07907  4.13124  1.32746  2.71567  3.86888  4.53472  4.25457  4.14405  3.49709  3.23945  2.15194  4.98866  3.35208    176 l - T
+          2.68632  4.42239  2.77534  2.73137  3.46298  2.40515  3.72509  3.29351  2.67755  2.69332  4.24641  2.90361  2.73734  3.18136  2.89815  2.37881  2.77519  2.98532  4.58491  3.61446
+          0.13280  2.11108  5.72774  1.00017  0.45858  0.46707  0.98573
+     96   2.55096  5.39506  2.51329  2.14467  4.73966  3.20813  3.84532  4.22553  2.37049  3.70015  4.43599  2.79265  3.16832  2.74582  2.82569  1.88822  2.42672  3.78548  5.82793  4.41687    180 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     97   2.55253  5.00371  2.91674  1.56530  3.77486  3.74196  3.71669  3.18678  2.77868  2.90828  3.00031  3.29724  3.28640  3.12328  3.07027  2.76413  2.89289  3.32236  3.74938  3.48354    181 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     98   2.59075  4.32000  2.44335  2.15201  3.95693  3.12347  3.34011  3.83572  2.30797  3.16698  3.93315  2.75363  3.60071  2.81660  2.61665  2.70578  2.85000  3.34465  3.67935  4.00275    182 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     99   2.65092  5.35978  2.44414  1.82235  4.69093  3.44711  3.03513  3.63938  2.46445  2.69072  4.40412  3.13476  3.87902  2.43027  2.99516  2.67955  2.75495  3.20344  5.80088  4.03299    183 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    100   1.86496  3.02665  4.71869  4.11439  3.41506  3.78632  4.39467  1.72869  3.93413  2.03606  3.25110  4.17623  4.43415  4.09606  3.42450  3.02051  2.94480  2.04904  4.94015  3.76003    184 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    101   2.66380  3.60669  3.09016  2.70629  3.97052  3.12773  3.91117  3.25572  1.80561  2.74214  4.19581  3.23071  4.10037  2.51557  2.19861  2.73033  3.11863  2.97558  5.62300  4.27841    185 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    102   2.65525  3.61780  2.73206  2.59880  2.91626  3.69337  3.17740  3.91061  2.06495  2.87551  3.62080  2.65252  4.08468  3.01717  2.55140  2.50072  2.84956  3.37543  5.67937  3.86408    186 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    103   2.78549  3.75825  4.89230  4.27707  2.37628  4.09576  4.42870  1.58181  4.06146  2.16353  2.83229  4.25917  4.45832  4.19107  4.06819  3.40747  3.15724  2.08428  3.94244  2.32199    187 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    104   1.91854  4.04767  4.83572  4.22341  2.21465  3.82491  4.41156  2.18264  4.01792  2.17430  2.43077  4.22827  4.44431  4.15736  4.04152  2.82624  2.88622  2.07903  4.25105  3.74133    188 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    105   2.59846  4.94560  3.39451  2.56515  3.67443  3.44440  3.79808  3.54150  2.22767  2.11264  4.02778  3.19297  4.14629  3.16161  2.51054  2.63727  2.68778  3.11215  4.13689  2.62651    189 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    106   2.71202  4.65478  2.93025  2.07602  4.70407  3.24619  3.70431  4.18261  2.58938  3.67040  4.10390  3.00747  4.05496  1.41184  3.00214  2.55548  2.74962  3.75459  5.80879  4.40428    190 q - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    107   3.40758  4.70636  5.39472  4.82751  3.82844  4.73217  5.15283  1.33187  4.66862  1.85779  2.55181  4.88258  5.03394  4.81634  4.72035  4.07618  2.46891  1.37416  5.58393  4.41648    191 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    108   2.29107  3.23763  4.81578  4.20571  3.00975  3.26830  4.41487  2.37700  4.00619  1.39060  3.28560  4.22330  4.44775  4.15070  4.03923  2.94875  3.15303  1.86969  4.92930  3.75166    192 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    109   2.62933  4.07203  2.95927  2.08969  4.71415  3.53463  3.84677  3.97436  2.17805  2.82549  4.41873  2.79932  4.05232  2.53645  2.16719  2.25459  2.86145  3.76301  5.81311  4.40656    193 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    110   1.17650  4.82606  4.24050  3.83461  4.98724  1.08848  4.85992  4.42183  3.81285  4.07900  4.88120  3.97861  4.34888  4.10941  3.49121  2.50205  3.18154  3.58125  6.30917  5.10145    194 g - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    111   3.90271  5.14012  5.90469  5.33230  3.41122  5.28833  5.65529  2.02087  5.19062  0.88043  2.65524  5.45552  5.42442  5.15469  5.16815  4.66249  4.12260  1.40813  5.79888  4.77647    195 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.04979  3.09322  5.73865  0.35009  1.21950  0.48576  0.95510
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+          2.68634  4.42198  2.77524  2.73138  3.46344  2.40486  3.72467  3.29300  2.67713  2.69352  4.24714  2.90371  2.73709  3.18145  2.89825  2.37911  2.77527  2.98532  4.58501  3.61528
+          0.09842  2.40225  5.73865  1.69597  0.20263  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    120   2.50668  3.55624  4.84676  4.23404  3.24346  4.08398  4.41611  1.66920  4.02684  2.01982  2.79518  4.23489  4.44784  4.16480  3.83668  2.91482  2.83994  1.71230  4.92013  3.32611    215 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    122   3.04282  4.16968  3.83274  3.22981  4.12386  3.92565  4.16387  3.45658  2.89535  2.79946  3.52962  3.63885  4.33284  3.40809  0.88367  3.03173  2.91452  3.20781  5.47983  4.24517    217 r - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    123   4.66549  6.56867  0.13049  3.73947  6.20930  4.51726  5.46620  6.15252  4.80154  5.54790  6.65359  4.31602  5.22661  4.77980  5.35908  4.57977  5.04873  5.69924  7.06132  6.05090    218 D - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    124   4.11594  5.30633  6.13178  5.57769  3.73657  5.59693  5.98457  1.50133  5.46568  0.67788  3.07617  5.76705  5.63423  5.36401  5.43088  5.00606  4.33175  2.14525  5.97972  5.01356    219 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    125   4.55719  6.24846  4.80697  4.34215  5.94023  4.73956  5.02576  5.52333  0.17090  4.86848  5.87217  4.66859  5.24422  4.23030  3.41495  4.59394  4.77093  5.20290  6.57866  5.65826    220 K - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    126   2.73388  4.87911  3.10327  2.90832  4.07991  3.41413  4.01646  3.20246  2.89177  2.38683  3.78561  3.39051  1.51394  3.22647  3.32105  2.31617  2.81372  3.19214  5.43675  4.15025    221 p - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    127   2.30763  5.39894  2.49711  1.50775  4.74209  3.53358  3.60730  4.22742  2.31483  3.70337  3.89187  2.94609  4.05547  2.65035  3.08133  2.29509  3.12215  3.78862  5.83238  4.42137    222 e - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    128   4.24075  6.04161  4.10323  4.13804  5.66046  4.44992  5.52992  5.77835  4.64675  5.26705  6.30900  0.15130  5.17553  4.91694  4.94682  4.32646  4.70552  5.25421  6.75952  5.61338    223 N - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    129   3.55135  3.88080  5.58388  5.03211  3.05772  4.93598  5.38843  0.81084  4.88763  1.84199  3.74557  5.09695  5.20522  5.02095  4.93631  4.29650  3.79207  1.75582  5.75938  4.60163    224 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    130   4.26500  5.46000  6.21355  5.61602  2.31085  5.64571  5.88455  2.68862  5.47780  0.52109  2.36789  5.81754  5.61663  5.25881  5.37169  5.03996  4.45544  2.72136  5.81387  4.88779    225 L - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    131   3.14725  3.80930  5.11896  4.51210  2.75868  4.35237  4.69393  1.48763  4.30885  1.32733  3.15909  4.51494  4.68518  4.42027  4.31553  3.67228  3.37834  1.91515  5.14039  3.60311    226 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    132   2.83132  4.28838  2.02200  2.41335  4.70055  3.12743  3.31546  4.17875  2.06503  3.46693  4.09733  2.49326  4.05387  2.94892  3.07895  2.27711  2.89161  2.90947  5.80603  4.40188    227 d - E
+          2.68620  4.42227  2.77521  2.73125  3.46356  2.40515  3.72496  3.29356  2.67743  2.69346  4.24692  2.90348  2.73741  3.18137  2.89794  2.37889  2.77521  2.98513  4.58479  3.61505
+          0.19179  2.92011  2.11536  0.31959  1.29625  0.48576  0.95510
+    133   2.77846  5.34345  2.73873  2.12504  4.68884  3.31622  3.10327  4.17503  2.07146  3.64885  4.14408  2.35495  3.55373  2.53396  2.68259  2.30312  2.80970  3.73426  5.77591  4.07717    229 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01122  4.89146  5.61380  0.61958  0.77255  0.46383  0.99121
+    134   2.76231  5.37627  2.40965  2.30431  4.72103  3.48860  3.46007  4.20680  2.15285  3.68141  4.41704  2.22463  3.54282  2.67483  2.66394  2.48608  2.48229  3.08661  5.80911  4.39830    230 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01030  4.97674  5.69908  0.61958  0.77255  0.42506  1.06054
+    135   2.88621  4.31580  2.58861  2.52891  4.00821  1.80604  3.64216  3.70404  2.55848  3.01103  3.82083  2.93142  3.28125  2.96153  3.15140  2.63196  2.92652  3.07947  5.65563  3.39061    231 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    136   2.74326  5.32913  2.62872  2.23118  4.20190  3.27586  3.01088  3.39612  2.54602  3.28443  3.99578  2.66732  4.06020  2.45230  2.82728  2.54748  2.65672  2.69485  5.77785  3.49295    232 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    137   2.61635  3.28525  4.16732  3.71739  2.98202  4.03403  4.34546  2.03775  3.50788  1.92540  3.47356  3.38535  3.11745  3.96570  3.52677  3.32696  2.46663  1.86856  4.97202  3.78516    233 v - E
+          2.68644  4.42087  2.77438  2.73125  3.46306  2.40580  3.72561  3.29182  2.67742  2.69394  4.24637  2.90298  2.73752  3.18209  2.89809  2.37898  2.77573  2.98487  4.58490  3.61464
+          0.36530  1.19470  5.73865  2.01193  0.14356  0.48576  0.95510
+    138   2.92386  3.12674  3.30583  2.50241  4.41812  3.73989  3.57074  3.83865  1.16713  3.42239  3.64701  3.25964  4.12762  3.06518  2.74407  2.94589  3.15200  3.22587  5.64420  3.71460    253 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    139   3.61791  5.07369  5.93139  5.42030  4.01697  5.40165  5.95563  1.06228  5.32659  1.08905  3.76387  5.56598  5.56723  5.42106  5.39317  4.81179  4.11011  1.74432  6.14737  5.05160    254 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    140   1.74479  2.79152  4.35686  3.77898  3.55350  2.78668  4.34505  2.08763  3.66685  2.55990  3.56128  3.98833  4.38080  3.89329  3.86150  2.46831  2.34811  2.41028  5.05799  3.86488    255 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    141   4.66549  6.56867  0.13049  3.73947  6.20930  4.51726  5.46620  6.15252  4.80154  5.54790  6.65359  4.31602  5.22661  4.77980  5.35908  4.57977  5.04873  5.69924  7.06132  6.05090    256 D - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    142   4.66482  5.73614  5.86239  5.64956  0.40883  5.43325  4.33355  3.86711  5.42110  2.16428  4.36705  5.11239  5.65371  5.16689  5.27011  4.83252  4.86624  3.98432  3.74189  2.69037    257 F - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    143   3.93699  5.85566  3.02816  3.87037  6.00993  0.21285  5.44927  5.75466  4.70121  5.27717  6.21696  4.31536  4.99427  4.76567  5.12629  4.02226  4.42780  5.10478  6.99282  5.96830    258 G - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    144   2.54355  3.67295  4.73868  4.13265  2.71576  4.06852  3.76754  2.37455  3.94756  1.20416  3.31174  3.74431  4.43365  4.10500  4.00521  2.64259  3.14725  2.29206  4.93223  3.75278    259 l - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03189  5.01631  3.69859  0.61958  0.77255  0.48576  0.95510
+    145   0.77520  2.86695  4.81978  4.47036  4.95592  3.15951  5.20700  4.36343  4.38394  4.08078  4.90451  4.25075  4.38058  4.58838  4.56864  1.45304  3.34905  3.34992  6.35477  5.22001    260 a - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07711  4.99453  2.69658  0.61958  0.77255  0.54567  0.86620
+    146   2.54977  3.79925  3.16699  2.32606  4.48674  3.31547  3.84408  3.47518  1.75582  3.12339  4.25869  2.84258  4.04145  2.96441  2.18943  2.71334  2.91887  2.95414  5.67187  4.30075    261 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.13472  4.92824  2.13029  0.61958  0.77255  0.70219  0.68419
+    147   2.64685  3.78445  3.06669  2.61534  3.32325  3.67596  3.69246  3.14713  2.01231  2.43193  3.43451  3.16113  4.06301  2.47274  3.08778  2.74475  2.84906  2.65428  5.37440  4.07606    262 k - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.29473  4.80574  1.39802  0.61958  0.77255  0.92027  0.50818
+    148   2.40579  4.15423  4.25399  3.66267  2.39272  3.57693  3.44550  2.33935  3.03827  1.86796  2.97007  3.83355  4.18573  3.73297  3.67827  3.10851  2.93289  2.21754  4.76738  2.96352    263 l - .
+          2.68635  4.42219  2.77489  2.73146  3.46367  2.40530  3.72500  3.29419  2.67720  2.69370  4.24630  2.90362  2.73727  3.18122  2.89818  2.37860  2.77478  2.98583  4.58472  3.61420
+          0.77167  0.63015  5.24955  1.50734  0.25038  0.20147  1.70117
+    149   2.68930  5.13793  2.99383  2.28756  4.12167  3.02811  3.40047  2.83046  2.53990  2.67433  3.91490  2.66806  3.85841  2.95123  3.08518  2.54554  2.43488  3.14237  4.83794  3.11842    281 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    150   2.67960  3.59834  3.08049  2.32634  4.00400  2.85568  3.65072  3.26198  2.22635  2.80014  3.89773  3.03566  3.90780  2.84131  2.77630  2.59674  2.54121  2.94346  4.66327  3.60288    282 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    151   2.78407  5.36932  2.80723  2.38070  3.95652  3.28210  3.31902  3.80407  2.38757  3.23090  4.41260  2.26860  2.87333  2.94776  2.55475  2.11230  2.82314  3.31603  5.80800  4.40313    283 s - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    152   2.55066  5.37311  2.42428  2.58328  4.70981  2.65546  3.66067  3.46611  2.34139  3.39818  4.41598  2.44705  3.58966  2.48003  2.87086  2.30355  2.92043  3.58081  5.81084  3.32103    284 s - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    153   2.61131  5.36709  3.05324  2.00706  4.70125  2.53001  3.45141  4.17959  2.46541  3.54879  4.41063  3.13225  3.27183  2.67970  2.77280  2.14590  2.62504  2.97295  5.80635  3.79465    285 e - S
+          2.68619  4.42226  2.77520  2.73124  3.46320  2.40514  3.72495  3.29355  2.67742  2.69356  4.24691  2.90348  2.73740  3.18147  2.89802  2.37888  2.77520  2.98519  4.58478  3.61504
+          0.03620  3.43177  5.73865  0.40966  1.09027  0.48576  0.95510
+    154   2.80870  4.76397  2.82688  2.35901  3.53520  3.31737  3.24083  3.53679  2.31494  2.98485  3.52265  2.69923  3.15465  2.90046  2.56489  2.40361  2.83318  3.04461  5.74293  3.76697    287 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    155   2.38638  3.55872  3.84850  3.27925  3.07902  3.89951  3.49984  3.07191  2.87600  2.13071  2.79826  2.94436  3.28103  3.24012  3.30127  2.77627  2.52689  2.66914  5.17020  2.84075    288 l - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    156   2.88266  4.79637  2.63708  2.49106  4.69372  3.27452  3.02757  4.17056  2.31920  3.54781  3.84892  2.54158  3.83133  2.71114  2.83815  2.34796  2.07167  3.53868  4.84477  3.26548    289 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    157   2.55115  5.22307  2.81541  2.42597  3.84088  2.72211  3.45978  3.70939  2.65113  3.50012  4.03956  3.00145  3.26637  2.92366  3.12986  2.10982  2.09681  2.95270  4.42058  4.32902    290 t - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    158   2.79383  4.53543  3.94528  3.00256  2.28876  3.25886  4.19260  2.53698  3.31063  2.13485  3.51266  3.25465  3.61933  3.02975  2.60672  3.04108  3.13630  2.22820  5.12884  3.03437    291 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    159   2.54133  2.27249  3.62507  3.14565  3.48798  3.47382  4.20805  2.87324  3.24770  2.61629  3.62417  3.76153  4.31084  3.45605  3.15192  3.19594  2.77273  1.44309  5.11140  3.89714    292 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    160   2.50560  4.02210  4.21483  3.69251  4.03927  0.87585  4.50859  3.18042  3.62456  3.12203  4.01557  3.91946  4.34666  3.89680  3.91281  2.66630  3.23503  2.52015  5.49804  3.97346    293 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    161   2.98792  5.00679  3.18026  3.47531  5.09253  3.65988  4.75357  4.53531  3.72802  4.18133  4.99276  3.79669  4.37930  3.97717  4.12874  1.60941  0.74054  3.97784  6.39182  5.11951    294 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    162   2.69840  5.26022  3.00961  2.31122  4.20998  3.68086  3.63617  3.20701  2.41779  2.58849  4.31499  2.98486  2.62271  2.99075  2.13729  2.36313  3.11573  3.42385  5.72545  3.54571    295 r - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    163   2.71301  5.29924  2.59488  2.14743  3.52695  3.04037  3.28275  4.06670  2.61594  3.34508  4.35002  2.84026  3.31113  2.97459  2.36266  2.86533  2.70674  3.41928  3.03699  3.23042    296 e - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    164   4.65993  5.73598  5.69662  5.49898  1.97465  5.32012  3.31709  4.36240  5.29326  3.66395  4.92323  4.93743  5.59573  5.06816  5.17473  4.69695  3.41633  4.25844  2.61302  0.51590    297 Y - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    165   2.46851  3.63596  4.34730  3.76113  3.49978  4.00900  4.30977  2.55613  3.41377  2.11254  1.89168  3.40620  4.37893  3.86942  2.23584  3.08926  3.14320  2.13937  5.00600  3.81292    298 m - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    166   0.54633  4.79516  4.59072  4.34047  5.33605  3.22550  5.27451  4.80651  4.37656  4.47607  5.24769  4.21379  3.02084  4.58677  4.60871  1.81435  3.40538  4.05386  6.66459  5.53199    299 A - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    167   3.08666  5.02380  4.02349  3.92167  5.10908  3.73669  5.07487  4.62556  4.04836  4.33998  5.22795  3.34786  0.41351  4.38870  4.30726  3.26072  3.60085  3.40472  6.47905  5.20179    300 P - H
+          2.68622  4.42144  2.77523  2.73111  3.46358  2.40517  3.72498  3.29358  2.67745  2.69359  4.24694  2.90351  2.73743  3.18126  2.89786  2.37891  2.77523  2.98522  4.58481  3.61507
+          0.03484  3.47295  5.73865  0.99675  0.46057  0.48576  0.95510
+    168   3.66837  6.19086  2.84947  0.45189  5.55161  3.90523  4.43200  5.09782  3.30487  4.55035  5.42336  3.03786  4.53514  3.60153  3.37398  3.54999  3.95969  4.65772  6.64024  5.17650    305 E - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    169   2.79774  4.32598  4.68241  3.67608  3.42171  4.06471  4.38713  2.01470  3.90321  1.87174  3.44282  4.15860  4.43014  3.77035  3.25202  3.36713  2.95239  1.31877  3.77234  3.76466    306 v - H
+          2.68603  4.42242  2.77519  2.73104  3.46342  2.40506  3.72511  3.29371  2.67728  2.69322  4.24707  2.90364  2.73756  3.18163  2.89801  2.37893  2.77519  2.98535  4.58494  3.61520
+          0.12919  2.22240  4.35495  1.23224  0.34480  0.48576  0.95510
+    170   2.91184  3.76308  4.76588  4.15799  3.39752  4.06920  3.82796  1.60071  3.96642  1.39613  3.17824  3.65225  4.43387  4.11848  4.01348  2.94594  3.14403  2.21737  4.92444  3.43929    311 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00999  5.00664  5.72898  0.61958  0.77255  0.51297  0.91308
+    171   2.62785  5.06480  3.29796  2.67561  3.73804  3.41086  3.92577  3.21358  2.32640  2.15096  3.31180  2.55443  4.11004  2.47045  2.33927  2.70318  3.11578  3.12852  5.57146  4.24107    312 l - C
+          2.68631  4.42245  2.77511  2.73076  3.46350  2.40522  3.72547  3.29356  2.67765  2.69366  4.24573  2.90389  2.73738  3.18142  2.89826  2.37846  2.77520  2.98520  4.58530  3.61473
+          0.62427  1.87899  1.16602  1.98855  0.14722  0.46912  0.98231
+    172   2.60166  5.18307  2.62016  2.19793  3.35206  2.39740  3.57105  3.96340  2.18128  3.47543  4.23188  3.01161  3.92489  2.82990  2.86326  2.33987  2.67701  3.55746  5.63416  3.78538    327 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01428  4.65191  5.37425  0.61958  0.77255  0.24611  1.52250
+    173   2.37600  3.94341  2.81761  2.45806  4.08381  2.38833  3.32666  4.15213  2.47322  3.64753  4.39446  2.71786  3.74359  2.39493  2.76163  2.38666  3.00597  3.01776  5.79219  3.82026    328 a - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00998  5.00778  5.73012  0.61958  0.77255  0.47101  0.97916
+    174   2.81816  4.87774  2.88922  2.34131  3.91699  3.47934  3.84840  3.76601  2.22767  3.10881  4.41163  2.46519  2.75598  2.51039  2.43545  2.43680  2.76354  3.54179  5.80719  3.84984    329 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    175   2.74169  5.33416  2.58184  2.32653  3.61666  2.33545  3.50275  4.12419  2.36762  3.50261  3.56274  2.91332  3.07814  2.74477  2.96926  2.79421  2.92848  3.32496  5.78164  2.72284    330 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    176   2.48397  4.72191  2.72922  2.94719  3.45604  3.83733  2.73484  2.72590  3.03376  2.94128  3.81928  3.51045  4.21965  3.13222  3.31573  2.84267  3.12967  2.71705  3.94971  1.76193    331 y - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    177   2.88858  5.15756  2.48812  2.69267  3.68939  2.20273  3.90720  3.84889  2.69072  3.17648  4.22648  3.21985  3.19313  3.04303  3.16266  2.07644  2.02474  3.50391  5.64990  3.69862    332 t - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    178   2.44412  5.27089  3.18567  2.52594  4.01181  3.49400  3.20300  3.68711  2.26882  2.99802  4.32458  3.16791  2.73532  2.67304  2.47574  2.35896  2.41445  3.31659  5.73361  3.79657    333 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    179   2.27957  5.36842  3.14470  2.24142  4.70283  3.35867  3.70433  4.18054  1.84880  3.00297  4.41216  3.13478  2.50109  2.87247  2.49374  2.50485  2.88881  3.75338  5.80713  4.40386    334 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    180   2.25487  3.19836  3.67383  3.53894  3.58335  3.60706  4.24810  2.30247  3.45618  2.57768  3.58074  3.40343  4.33674  3.48890  3.71724  2.25302  2.94661  1.56396  5.07167  3.86608    335 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    181   3.32488  6.23611  0.30142  2.99559  5.85936  3.97225  4.81661  5.46625  4.07634  5.00781  5.98660  3.57219  4.70996  4.04099  4.76451  3.76774  4.26196  4.95940  7.04785  5.56474    336 D - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    182   2.97530  4.34655  4.92112  4.31006  3.42469  4.15298  4.48903  1.67409  4.10270  2.14170  2.44181  4.30839  4.51041  4.23558  4.11915  3.46567  2.80277  1.45020  3.28394  3.56694    337 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    183   4.60767  5.71652  5.61554  3.89031  2.18526  5.28181  4.15190  4.32304  5.18037  3.62888  4.88484  4.90634  5.56392  5.01906  5.10312  4.65700  4.81381  4.22147  0.60655  1.74323    338 W - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    184   1.30551  4.78823  4.65738  4.37945  5.36630  2.58206  5.28849  4.84019  4.38318  4.50739  5.27020  4.22569  4.39579  4.59600  4.61395  0.79404  2.89139  4.06528  6.68751  5.56026    339 s - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    185   2.44153  3.17932  4.87400  4.25972  2.53121  4.09082  4.42403  2.33144  4.04748  1.34403  2.92510  4.24940  4.45392  4.18053  4.05982  3.14600  3.15398  2.13810  4.92017  3.14864    340 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    186   2.22507  4.96728  4.63623  4.63233  5.66307  0.33314  5.62287  5.16416  4.86793  4.86816  5.66661  4.43512  4.57282  5.01497  4.99264  3.26151  3.63533  4.32703  6.92990  5.89905    341 G - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    187   2.93009  2.13614  4.95885  4.35253  3.48038  4.19799  4.54424  1.68794  4.14925  1.93394  3.18432  4.35359  4.55452  4.28834  4.17024  3.34008  3.23972  1.60527  5.03746  3.47367    342 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    188   3.21831  4.55127  5.17022  4.58630  3.70338  4.47717  4.86313  1.30610  4.40976  1.92114  2.79907  4.62299  4.81179  4.56490  4.45688  3.52794  2.67243  1.42404  5.34369  4.16408    343 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    189   2.77853  3.56970  4.91220  4.29933  2.66878  4.13468  4.46922  2.12981  4.08926  1.13811  3.14072  4.29275  4.49323  4.21981  4.10205  3.44689  2.88537  2.20246  4.95897  3.46211    344 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    190   2.08301  4.31008  4.80905  4.20025  2.66597  4.08391  3.54227  2.07553  4.00182  2.35024  3.19529  4.21899  4.44796  4.14611  4.03654  3.39206  3.15615  2.32332  2.91148  1.86433    345 y - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    191   2.65126  3.79080  3.03118  1.37895  4.54227  3.68257  3.87660  3.27048  2.56225  3.53374  4.30787  2.88399  4.07460  2.72714  3.11894  2.49943  2.86114  3.20681  5.71940  3.61825    346 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    192   2.75949  4.33120  4.86063  4.24972  2.93412  4.11800  4.44873  2.58063  4.04775  1.34098  1.86205  4.26240  4.47769  4.18564  4.07448  3.30982  2.87183  2.17494  4.95131  3.25026    347 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    193   2.13730  3.34433  4.84746  4.23449  2.67079  4.08305  4.41495  2.45417  4.02682  1.45586  2.95446  4.23448  4.44687  4.16424  3.65241  3.39295  2.78239  2.10310  4.91833  3.10946    348 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    194   2.61714  3.04119  3.51958  2.50105  3.16562  3.44068  4.02999  3.26384  2.78703  2.46125  3.90521  2.94061  4.18669  3.26384  2.94427  2.45451  1.92365  2.96026  5.36672  3.77569    349 t - H
+          2.68592  4.42131  2.77530  2.73134  3.46364  2.40523  3.72505  3.29364  2.67751  2.69365  4.24624  2.90357  2.73750  3.18157  2.89769  2.37886  2.77510  2.98507  4.58487  3.61513
+          0.08274  2.77459  4.07273  1.24373  0.34011  0.48576  0.95510
+    195   2.74009  5.38236  2.60734  2.58658  4.30151  1.49346  3.57775  4.19577  2.06867  3.68256  4.42710  2.84258  4.06100  2.86136  2.79826  2.78642  3.12785  3.76776  5.82019  4.41533    355 g - S
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+          0.02515  5.00240  4.01100  0.61958  0.77255  0.52459  0.89600
+    196   2.87057  4.15783  2.81932  2.15097  3.67482  3.00161  3.44561  3.53712  2.01194  3.52030  4.39830  2.84675  4.04172  2.62971  2.18111  2.65254  2.90372  3.46034  5.79407  3.92999    356 k - S
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+          0.06990  2.74572  5.70978  1.46974  0.26135  0.43968  1.03351
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
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+          0.55463  1.48984  1.60791  1.39890  0.28351  0.52175  0.90012
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01250  4.78398  5.50633  0.61958  0.77255  0.95212  0.48763
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01250  4.78398  5.50633  0.61958  0.77255  0.77169  0.62033
+    205   2.38920  5.21254  2.73488  2.26876  4.51445  3.29559  3.03245  3.05648  2.42252  2.83088  3.97624  2.72691  3.66747  2.74292  2.65924  2.79642  2.87825  3.04317  5.67196  3.47007    377 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01186  4.83615  5.55849  0.61958  0.77255  0.33713  1.25111
+    206   2.65422  4.48489  1.88534  2.29942  4.71042  3.12833  3.84224  3.67843  2.58000  3.67468  4.41498  2.22848  4.04754  2.86157  2.64414  2.33478  2.73698  3.75923  5.80928  4.40246    378 d - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04975  5.01631  3.17248  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01030  4.97686  5.69921  0.61958  0.77255  0.59090  0.80705
+    218   2.71816  5.35510  2.47492  2.28903  4.69101  3.44039  3.67059  2.92462  2.15295  3.03900  4.39818  2.98975  2.40750  2.74839  2.76016  2.49540  2.85213  3.74081  5.79327  4.38792    390 k - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02103  4.97686  4.27462  0.61958  0.77255  0.59090  0.80705
+    219   2.59242  4.56547  3.37418  3.24570  3.28039  3.87349  3.78552  2.80260  2.91515  1.85640  3.67045  2.94464  3.03710  3.48913  3.31352  2.93163  2.57101  2.12270  4.60315  3.29903    391 l - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01041  4.96623  5.68858  0.61958  0.77255  0.61678  0.77584
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01041  4.96623  5.68858  0.61958  0.77255  0.61678  0.77584
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01041  4.96623  5.68858  0.61958  0.77255  0.61678  0.77584
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+          0.03667  4.96623  3.53930  0.61958  0.77255  0.61678  0.77584
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01875  4.94025  4.47244  0.61958  0.77255  0.67631  0.71028
+    224   2.62521  5.12447  2.77972  2.44738  3.31605  3.53418  3.86652  3.33309  2.47319  3.03557  4.18886  3.10134  2.42408  2.60018  2.70100  2.64509  2.92363  3.22521  3.41935  3.46519    396 p - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.05901  4.93227  2.99396  0.61958  0.77255  0.69360  0.69269
+    225   2.68343  5.20702  2.88582  2.22963  3.55567  3.45903  3.65367  3.49248  2.11994  2.97314  4.26172  2.80968  3.57686  2.44336  3.06162  2.53581  2.67303  3.18308  3.73101  3.66292    397 k - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01130  4.88456  5.60691  0.61958  0.77255  0.78866  0.60597
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+          0.11345  4.88456  2.30573  0.61958  0.77255  0.78866  0.60597
+    227   2.79298  3.84213  2.48108  2.52210  3.99851  3.60747  3.12972  3.13545  2.48018  3.05991  4.13768  2.83211  3.54520  2.93964  2.41588  2.35619  2.76810  2.97839  5.56015  3.44494    399 s - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02807  4.78362  3.94704  0.61958  0.77255  0.95264  0.48731
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.14447  4.76826  2.07130  0.61958  0.77255  0.97412  0.47405
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+          0.02950  4.63827  3.94280  0.61958  0.77255  1.12880  0.39071
+    230   2.65814  5.03703  2.72915  2.44094  4.30481  3.19996  3.74471  3.73960  2.51991  2.72378  3.12113  3.05398  2.98987  2.79382  2.49179  2.12708  2.96796  3.38544  5.51898  3.52938    402 s - .
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+          0.60323  0.80254  5.34581  2.99471  0.05135  0.22221  1.61320
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04987  5.01631  3.16967  0.61958  0.77255  0.48576  0.95510
+    250   2.79362  5.19179  3.01710  2.75300  4.64905  2.77281  4.01085  4.10036  2.79939  3.46822  4.43166  2.61914  4.12461  3.14023  3.27668  1.68833  1.53351  3.69065  5.84113  4.47617    461 t - T
+          2.68631  4.42192  2.77519  2.73130  3.46353  2.40482  3.72508  3.29367  2.67738  2.69360  4.24703  2.90360  2.73753  3.18148  2.89804  2.37867  2.77518  2.98532  4.58490  3.61498
+          0.12278  2.37863  3.77824  1.17468  0.36950  0.42506  1.06054
+    251   1.47902  3.78300  4.72209  4.11644  2.74562  3.65840  4.38345  2.02614  3.93274  2.07959  3.21794  4.17061  3.49702  4.09137  3.99270  2.98272  3.05871  2.38788  4.48487  3.74373    467 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01009  4.99737  5.71972  0.61958  0.77255  0.53813  0.87669
+    252   2.38222  4.71734  2.84513  2.05232  4.42547  3.25385  3.43556  4.19285  2.14440  3.09056  3.51596  2.80436  3.18490  2.67888  2.63294  2.69832  2.67125  3.58577  5.80764  4.40015    468 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01009  4.99737  5.71972  0.61958  0.77255  0.45436  1.00747
+    253   2.65797  4.06542  2.63237  1.57032  4.71890  3.65831  3.45654  4.20087  2.52289  3.68238  4.00276  3.00654  3.59507  2.12286  2.86428  2.58695  3.11362  3.45316  5.81563  3.91003    469 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    256   2.62697  4.23577  2.94369  2.01671  4.73311  3.52212  3.12192  4.21804  1.98366  3.41966  4.43054  2.33684  4.05005  2.29561  2.80226  2.65814  2.90658  3.41449  5.82302  4.41298    472 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    257   2.67425  5.24257  2.69003  2.64384  4.09422  3.68496  1.59772  3.97575  2.52719  3.06621  3.97630  3.17995  4.07682  2.88982  2.86815  2.31165  2.78826  3.60139  5.71188  4.10399    473 h - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.18941  5.01631  1.79622  0.61958  0.77255  0.48576  0.95510
+    258   2.81850  5.23743  2.76502  2.35780  4.54654  3.39495  3.79640  3.57339  2.36240  3.35446  4.28834  3.08690  1.61434  2.83455  2.79066  2.56844  3.04975  3.37601  5.69198  4.30446    474 p - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01183  4.83873  5.56107  0.61958  0.77255  0.86853  0.54398
+    259   3.22678  4.58175  4.94227  4.40609  1.73776  4.31983  4.20406  3.01156  4.21650  2.23279  3.33965  4.33985  4.66520  3.80636  4.24184  3.63704  3.45535  2.61441  1.69956  1.91736    475 w - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01183  4.83873  5.56107  0.61958  0.77255  0.30436  1.33787
+    260   2.99670  4.36610  4.95290  4.33956  1.72799  3.71830  4.50360  1.92619  4.12878  1.69258  2.79907  4.33234  4.52551  4.25179  4.13733  3.48573  3.22794  1.98896  4.25850  3.81122    476 l - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00667  5.01308        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/Pkinase.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/Pkinase.sto
new file mode 100755
index 0000000..dde54bd
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/Pkinase.sto
@@ -0,0 +1,1288 @@
+# STOCKHOLM 1.0
+#=GF ID Pkinase
+#=GF AC PF00069.17
+#=GF DE Protein kinase domain
+#=GF AU Sonnhammer ELL
+#=GF GA 70.3 70.3
+#=GF NC 70.2 70.2
+#=GF TC 70.3 70.3
+#=GF PI pkinase;
+#=GF SE Unknown
+#=GF TP Domain
+#=GF BM hmmbuild -FHMM_ls.ann SEED.ann
+#=GF BM hmmcalibrate --seed 0 HMM_ls
+#=GF BM hmmbuild -f -FHMM_fs.ann SEED.ann
+#=GF BM hmmcalibrate --seed 0 HMM_fs
+#=GF AM byscore
+#=GF RN [1]
+#=GF RM 1956325
+#=GF RT Protein kinase catalytic domain sequence database:
+#=GF RT identification of conserved features of primary structure and
+#=GF RT classification of family members. 
+#=GF RA Hanks SK, Quinn AM; 
+#=GF RL Methods Enzymol 1991;200:38-62.
+#=GF RN [2]
+#=GF RM 7768349
+#=GF RT Protein kinases 6. The eukaryotic protein kinase superfamily:
+#=GF RT kinase (catalytic) domain structure and classification. 
+#=GF RA Hanks SK, Hunter T; 
+#=GF RL FASEB J 1995;9:576-596.
+#=GF RN [3]
+#=GF RM 9020587
+#=GF RT The protein kinases of budding yeast: six score and more. 
+#=GF RA Hunter T, Plowman GD; 
+#=GF RL Trends Biochem Sci 1997;22:18-22.
+#=GF DR INTERPRO; IPR017442;
+#=GF DR SMART; TyrKc;
+#=GF DC Tyrosine kinase, catalytic domain
+#=GF DR SCOP; 1apm; sf;
+#=GF DR SMART; S_TKc;
+#=GF DC Serine/Threonine protein kinases, catalytic domain
+#=GF DR SMART; STYKc;
+#=GF DC Protein kinase; unclassified specificity.
+#=GF DR PRINTS; PR00109;
+#=GF DR PROSITE_PROFILE; PS50011;
+#=GF DR PROSITE; PDOC00629;
+#=GF DR PROSITE; PDOC00213;
+#=GF DR PROSITE; PDOC00212;
+#=GF DR PROSITE; PDOC00100;
+#=GF DR URL; http://www.sdsc.edu/Kinases/pk_home.html;
+#=GF DR HOMSTRAD; kinase;
+#=GF DR HOMSTRAD; TyrKc;
+#=GF SQ 54
+
+#=GS PHKG2_RAT/24-291     AC P31325.1
+#=GS KS6A1_MOUSE/407-664  AC P18653.1
+#=GS KCC4_MOUSE/42-296    AC P08414.2
+#=GS CDPK_SOYBN/34-292    AC P28583.1
+#=GS KPK2_PLAFK/111-364   AC Q02595.1
+#=GS RAD53_YEAST/198-466  AC P22216.1
+#=GS MYLK_CHICK/1453-1708 AC P11799.2
+#=GS CDR1_SCHPO/12-258    AC P07334.3
+#=GS KIN1_SCHPO/125-395   AC P22987.3
+#=GS MEK1_YEAST/162-444   AC P24719.1
+#=GS CDC5_YEAST/82-337    AC P32562.1
+#=GS CHK1_SCHPO/10-272    AC P34208.2
+#=GS KGP1_DROME/457-717   AC Q03042.2
+#=GS KIN82_YEAST/324-602  AC P25341.2
+#=GS AKT_MLVAT/171-429    AC P31748.1
+#=GS PKD1_DICDI/36-291    AC P34100.1
+#=GS ARBK1_BOVIN/191-453  AC P21146.1
+#=GS FUSED_DROME/4-254    AC P23647.2
+#=GS KAB7_YEAST/1096-1354 AC P31374.1
+#=GS PIM1_HUMAN/129-381   AC P11309.3
+#=GS CLK1_MOUSE/160-476   AC P22518.1
+#=GS TTK_HUMAN/525-791    AC P33981.2
+#=GS BUR1_YEAST/60-366    AC P23293.1
+#=GS CDC21_MEDSA/1-284    AC P24923.1
+#=GS KIN28_YEAST/7-290    AC P06242.1
+#=GS CDKL1_HUMAN/4-287    AC Q00532.4
+#=GS MAK_RAT/4-284        AC P20793.1
+#=GS CTK1_YEAST/183-469   AC Q03957.1
+#=GS MK04_HUMAN/20-312    AC P31152.1
+#=GS ERK1_CANAL/68-371    AC P28869.2
+#=GS GSK3A_RAT/119-403    AC P18265.1
+#=GS CSK21_CHICK/39-324   AC P21868.1
+#=GS ACVR1_HUMAN/208-495  AC Q04771.1
+#=GS AVR2A_HUMAN/192-479  AC P27037.1
+#=GS KPRO_MAIZE/534-812   AC P17801.2
+#=GS MIL_AVIMH/82-339     AC P00531.1
+#=GS M3K9_HUMAN/144-403   AC P80192.3
+#=GS PHY1_CERPU/1004-1282 AC P25848.3
+#=GS BYR2_SCHPO/394-658   AC P28829.1
+#=GS CDC15_YEAST/25-272   AC P27636.2
+#=GS STE20_YEAST/620-871  AC Q03497.1
+#=GS STE7_YEAST/191-466   AC P06784.1
+#=GS BYR1_SCHPO/66-320    AC P10506.1
+#=GS MKK1_YEAST/221-488   AC P32490.1
+#=GS MOS_CERAE/60-338     AC P10650.1
+#=GS PKN1_MYXXA/59-320    AC P33973.1
+#=GS RAN1_SCHPO/18-295    AC P08092.2
+#=GS HAL4_YEAST/316-590   AC P25333.1
+#=GS NPR1_YEAST/438-742   AC P22211.2
+#=GS KKL6_YEAST/192-508   AC P28708.1
+#=GS KR1_PRVKA/53-332     AC P17613.1
+#=GS KR1_HHV11/191-478    AC P04413.1
+#=GS WEE1_HUMAN/299-569   AC P30291.2
+#=GS HRR25_YEAST/9-273    AC P29295.1
+
+#=GS ARBK1_BOVIN/191-453  DR PDB; 1omw A; 191-453;
+#=GS ARBK1_BOVIN/191-453  DR PDB; 2bcj A; 191-453;
+#=GS ARBK1_BOVIN/191-453  DR PDB; 1ym7 D; 191-453;
+#=GS ARBK1_BOVIN/191-453  DR PDB; 1ym7 A; 191-453;
+#=GS ARBK1_BOVIN/191-453  DR PDB; 1ym7 C; 191-453;
+#=GS ARBK1_BOVIN/191-453  DR PDB; 1ym7 B; 191-453;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxx A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2bik B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2bzk B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1xqz A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1ywv A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2bzj A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxu B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxv A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2bzi B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxu C; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2bzh B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxt A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1xws A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxu A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1xr1 A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2bil B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 2c3i B; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxu D; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yi4 A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yhs A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yxs A; 38-290;
+#=GS PIM1_HUMAN/129-381   DR PDB; 1yi3 A; 38-290;
+#=GS WEE1_HUMAN/299-569   DR PDB; 1x8b A; 299-569;
+
+PHKG2_RAT/24-291              YDPKDIIGRGVSSVV..RRCVHRATGD........EFAVKIMEVS.AERL
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           YVVKETIGVGSYSVC..KRCVHKATNM........EYAVKVIDKS.KRDP
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             FEVESELGRGATSIV..YRCKQKGTQK........PYALKVLKKT.VDKK
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             YEVGRKLGQGQFGTT..FECTRRASGG........KFACKSIPKR.KLLC
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            YVLNKKIGKGSFSTA..YIGTNILYGN........RVVVKEVDKS.KVKE
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           SIIDEVVGQGAFATV..KKAIERTTGK........TFAVKIISKR.KVIG
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          YNIEERLGSGKFGQV..FRLVEKKTGK........VWAGKFFKAY.SAKE
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             WRLGKTLGTGSTSCV..RLAKHAKTGD........LAAIKIIPIR.YASI
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            YVLGKTIGAGSMGKV..KVAHHLKTGE........QFAIKIVTRL.HPDI
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            EITNRIVGNGTFGHV..LITHNSKERDEDVCYHPENYAVKIIKLK.PNKF
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             YHRGHFLGEGGFARC..FQIKDDSGEI.........FAAKTVAKA.SIKS
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             YHIGREIGTGAFASV..RLCYDDNAKI.........YAVKFVNKK.HATS
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            LEVVSTLGIGGFGRVELVKAHHQDRVD........IFALKCLKKR.HIVD
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           FEKIRLLGQGDVGKV..YLMRERDTNQ........IFALKVLNKH.EMIK
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             FEYLKLLGKGTFGKV..ILVKEKATGR........YYAMKILKKE.VIVA
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             FNFYGSLGSGSFGTA..KLCRHRGSGL........FFCSKTLRRE.TIVH
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           FSVHRIIGRGGFGEV..YGCRKADTGK........MYAMKCLDKK.RIKM
+#=GR ARBK1_BOVIN/191-453  SS  EEEEEEEEE-SSSEE..EEEEETTT--........EEEEEEEEHH.HHHH
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             YAVSSLVGQGSFGCV..YKATRKDDSK........VVAIKVISKR.GRAT
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          FVSLQKMGEGAYGKV..NLCIHKKNRY........IVVIKMIFKE.RILV
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            YQVGPLLGSGGFGSV..YSGIRVSDNL........PVAIKHVEKD.RISD
+#=GR PIM1_HUMAN/129-381   SS  EEEEEEEEEETTEEE..EEEEETTTTE........EEEEEEEEGG.G---
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            YEIVDTLGEGAFGKVVECIDHKVGGRR.........VAVKIVKNV.DRYC
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             YSILKQIGSGGSSKV..FQVLNEKKQI.........YAIKYVNLE.EADN
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             YREDEKLGQGTFGEV..YKGIHLETQR........QVAMKKIIVS.VEKD
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             GENVEKIGEGTYGVV..YKARDRVTNE........TIALKKIRLE.QEDE
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             YTKEKKVGEGTYAVV..YLGCQHSTGR........KIAIKEIKTS.EFKD
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             YEKIGKIGEGSYGVV..FKCRNRDTGQ........IVAIKKFLES.EDDP
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 YTTMRQLGDGTYGSV..LMGKSNESGE........LVAIKRMKRK.FYSW
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            YLRIMQVGEGTYGKV..YKAKNTNTEK........LVALKKLRLQ.GERE
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             FVDFQPLGFGVNGLV..LSAVDSRACR........KVAVKKIALS.DARS
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             YQILEIVGEGAYGIV..CSAIHKPSQQ........KVAIKKIEPF.ERSM
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             YTDIKVIGNGSFGVV..YQARLAETRE........LVAIKKVLQD.KRFK
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            YQLVRKLGRGKYSEV..FEAINITNNE........KVVVKILKPV.KKKK
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           ITLLECVGKGRYGEV..WRGSWQGEN..........VAVKIFSSR.DEKS
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           LQLLEVKARGRFGCV..WKAQLLNEY..........VAVKIFPIQ.DKQS
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            RKFKVELGRGESGTV..YKGVLEDDRH.........VAVKKLENV.RQGK
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              VLLSTRIGSGSFGTV..YKGKWHGD...........VAVKILKVV.DPTP
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            LTLEEIIGIGGFGKV..YRAFWIGDE..........VAVKAARHDPDEDI
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          IQITGSLGSGSSATV..EKAVWLGTP..........VAKKTFYGR.NNED
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            WIRGALIGSGSFGQV..YLGMNASSGE........LMAVKQVILD.SVSE
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            YHLKQVIGRGSYGVV..YKAINKHTDQ........VVAIKEVVYE.NDEE
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           YANLVKIGQGASGGV..YTAYEIGTNV........SVAIKQMNLE.KQPK
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            LVQLGKIGAGNSGTV..VKALHVPDSK........IVAKKTIPVE.QNNS
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             LEVVRHLGEGNGGAV..SLVKHRNI...........FMARKTVYV.GSDS
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            IETLGILGEGAGGSV..SKCKLKNGSK........IFALKVINTL.NTDP
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              VCLLQRLGAGGFGSV..YKATYHGVP..........VAIKQVNKC.TKNR
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             FRLVRRLGRGGMGAV..YLGEHVSIGS........RVAVKVLHAH.LTMY
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             LRFVSIIGAGAYGVV..YKAEDIYDGT........LYAVKALCKD.GLNE
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            GRCQEVLGKGAFGVV..RICQKKNVSSQDGNKSEKLYAVKEFKRR.TSES
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            IKTGADLGAGAGGSV..KLAQRISDNK........IFAVKEFRTK.FENE
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            WKKVRPIGSGNFSTVLLYELMDQSNPKL......KQVAVKRLKYP.EELS
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              FEVLQPLQSGSEGRV..FVARRPGEAD........TVVLKVGQKP.STLM
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             FTIHGALTPGSEGCV..FDSSHPDYPQ........RVIVKAGWYT.STSH
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            FHELEKIGSGEFGSV..FKCVKRLDGC........IYAIKRSKKP.LAGS
+#=GR WEE1_HUMAN/299-569   SS  EEEEEEEEEETTEEE..EEEEETTT--........EEEEEEEE--.-TTS
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             FRIGRKIGSGSFGDI..YHGTNLISGE........EVAIKLESIR.SRHP
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  EEEEEEEEEETTEEE..EEEEETTTTE........EEEEEEEEHH.HCCC
+#=GC seq_cons                 aphhptlGpGuaGsV..apupcpsssp.........hAlKhlptp.ptpp
+
+PHKG2_RAT/24-291              SLEQLEEVRDA.............TRREMHILRQVAG...HPH..I..IT
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           SE.........................EIEILLRYGQ...HPN..I..IT
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             IVRT.......................EIGVLLRL.S...HPN..I..IK
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             KEDYEDVWR..................EIQIMHHLSE...HAN..V..VR
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            SNVYT......................EIEVLRKV.M...HKY..I..IK
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           NMDGVTR....................ELEVLQKL.N...HPR..I..VR
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          KENIRD.....................EISIMNCL.H...HPK..L..VQ
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             GM.........................EILMMRLL.R...HPN..I..LR
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            TKAKAAASAEATKAAQSEKNKEIRTVREAALSTLL.R...HPY..I..CE
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            DK.........................EARILLRL.D...HPN..I..IK
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             EKTRKKLLS..................EIQIHKSM.S...HPN..I..VQ
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             CMNAGVWARR..............MASEIQLHKLCNG...HKN..I..IH
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            TKQEEHIFS..................ERHIMLSS.R...SPF..I..CR
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           RKKIKRVLT..................EQEILATS.D...HPF..I..VT
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             KDEVAHTLT..................ENRVLQNS.R...HPF..L..TA
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             EKHKEHVNN..................EINIMLNI.S...HPY..I..VK
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           KQGETLAL...................NERIMLSLVSTGDCPF..I..VC
+#=GR ARBK1_BOVIN/191-453  SS  CTTHHHHH...................HHHHHHHHHSSS--SS..B..--
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             KELKNLRR...................ECDIQARL.K...HPH..V..IE
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          DTWVRDRKLGT.............IPSEIQIMATL.NKKPHEN..I..LR
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            WGE.....LPNG..........TRVPMEVVLLKKV.S...SGFSGV..IR
+#=GR PIM1_HUMAN/129-381   SS  EEE.....ETTS..........EEEEHHHHHHHHH.H...SSSTSB..--
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            EAAQS......................EIQVLEHLNTTDPHST..FRCVQ
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             QTLDSYRN...................EIAYLNKL.QQ.HSDK..I..IR
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             LFPITAQR...................EITILKRL.N...HKN..I..IK
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             GVPSTAIR...................EISLLKEM.Q...HRN..I..VR
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             GLDMSAIR...................EVKYLQEM.Q...HPN..V..IE
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             VIKKIALR...................EIRMLKQL.K...HPN..L..VN
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 DECMNLR....................EVKSLKKL.N...HAN..V..IK
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            GFPITSIR...................EIKLLQSF.D...HPN..V..ST
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             MKHALR.....................EIKIIRRL.D...HDN..I..VK
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             LCLRTLR....................ELKLLKHF.N...HEN..I..IS
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             NR.........................ELQIMRKL.D...HCN..I..VR
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            IKR........................EIKILENLRG...GPN..I..IT
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           WFRET......................ELYNTVML.R...HEN..I..LG
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           WQNEY......................EVYSLPGM.K...HEN..I..LQ
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            EVFQA......................ELSVIGRI.N...HMN..L..VR
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              EQFQAFRN...................EVAVLRKT.R...HVN..I..LL
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            SQTIENVRQ..................EAKLFAML.K...HPN..I..IA
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          FKR........................EVEILAEL.C...HPN..I..TS
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            SKDRHAKLLDA.............LAGEIALLQEL.S...HEH..I..VQ
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            LNDIMA.....................EISLLKNL.N...HNN..I..VK
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           KELIIN.....................EILVMKGS.K...HPN..I..VN
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            TIINQLVR...................ELSIVKNVKP...HEN..I..IT
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             KLQKQILR...................ELGVLHHC.R...SPY..I..VG
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            EYQKQIFR...................ELQFNRSF.Q...SEY..I..VR
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              LASRRSFWA..................ELNVARLR.....HDN..I..VR
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             PELVQRFHA..................EARAVNLI.G...HEN..I..VS
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             KQKKLQAR...................ELALHARVSS...HPY..I..IT
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            AEKYSKRLT.................SEFCISSSL.H...HTN..I..VT
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            SKRDYVKKI................TSEYCIGTTL.N...HPN..I..IE
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            NVEQINTSLRYKETLS...RLENSLTRELQVLKSL.N...HPC..I..VK
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              ...........................EGMLLQRL.S...HDN..V..MR
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             ...........................EARLLRRL.D...HPA..I..LP
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            VDEQNALR...................EVYAHAVLGQ...HSH..V..VR
+#=GR WEE1_HUMAN/299-569   SS  HHHHHHHH...................HHHHHHHS-S...-TT..B..--
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             QLDY.......................ESRVYRYL.S...GGV..G..IP
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  CCCHHHHHETTS..........EEEEHHHHHHHHHHSSS.SSSTSB..--
+#=GC seq_cons                 ptt.t......................Elplhppl.p...Hss..I..lp
+
+PHKG2_RAT/24-291              LIDSYES..................SSFMF..LVFDLMRKG.....ELF.
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           LKDVYDD..................GKHVY..LVTELMRGG.....ELL.
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             LKEIFET..................PTEIS..LVLELVTGG.....ELF.
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             IEGTYED..................STAVH..LVMELCEGG.....ELF.
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            LISAYEQ..................EGFVY..LVLEYLKGG.....ELF.
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           LKGFYED..................TESYY..MVMEFVSGG.....DLM.
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          CVDAFEE..................KANIV..MVLEMVSGG.....ELF.
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             LYDVWTD..................HQHMY..LALEYVPDG.....ELF.
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            ARDVYIT..................NSHYY..MVFEFVDGG.....QML.
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            VYHTFCD.................RNNHLY..IFQDLIPGG.....DLF.
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             FIDCFED..................DSNVY..ILLEICPNG.....SLM.
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             FYNTAEN..................PQWRW..VVLEFAQGG.....DLF.
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            LYRTFRD..................EKYVY..MLLEACMGG.....EIW.
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           LYHSFQT..................KDYLY..LCMEYCMGG.....EFF.
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             LKYSFQT..................HDRLC..FVMEYANGG.....ELF.
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             TYSTFNT..................PTKIH..FIMEYAGKK.....DLF.
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           MSYAFHT..................PDKLS..FILDLMNGG.....DLH.
+#=GR ARBK1_BOVIN/191-453  SS  EEEEEEE..................TTEEE..EEEE--TS-.....BHH.
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             MIESFES..................KTDLF..VVTEFALM......DLH.
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          LLDFFED..................DDYYY....IETPVHGETGCIDLF.
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            LLDWFER..................PDSFV..LILERPEP....VQDLF.
+#=GR PIM1_HUMAN/129-381   SS  EEEEEEE..................SSEEE..EEEE--SS....EEEHH.
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            MLEWFEH..................RGHIC..IVFELL........GLST
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             LYDYEIT..................DQYIY..MVMECGNI......DLN.
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             LIEMVYDHSPDIT.....NAASSNLHKSFY..MILPYMVADLSGVLHNP.
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             LQDVVHS..................DKRLY..LVFEYLDLDLKKHMDSS.
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             LIDIFMA..................YDNLN..LVLEFLPTDLEVVIKDK.
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             LLEVFRR..................KRRLH..LVFEYCDHT.....VLH.
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 LKEVIRE..................NDHLY..FIFEYMKENLYQLMKDR.
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            IKEIMVE.................SQKTVY..MIFEYADNDLSGLLLNK.
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             VYEVLGPKGTDL.......QGELFKFSVAY..IVQEYMETDLARLLEQG.
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             ILAIQRPIN.............YESFNEIY..LIQELMETDLHRVIRTQ.
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             LRYFFYSSG..............EKKDELYLNLVLEYVPETVYRVARHF.
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            LADIVKDP................VSRTPA..LVFEHVNNT.....DFK.
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           FIASDMTSR..............HSSTQLW..LITHYHEMG.....SLY.
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           FIGAEKRGT..............SVDVDLW..LITAFHEKG.....SLS.
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            IWGFCSE..................GSHRL..LVSEYVENG.....SLA.
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              FMGYMT...................KDNLA..IVTQWCEGS.....SLY.
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            LRGVCLK..................EPNLC..LVMEFARGG.....PLN.
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          MFCSPLY..................RRKCS..IIMELMDG......DLL.
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            YLGSNLN..................SDHLN..IFLEYVPGG.....SVA.
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            YHGFIRK..................SYELY..ILLEYCANG.....SLR.
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           FIDSYVL..................KGDLW..VIMEYMEGG.....SLT.
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            FYGAYYNQ...............HINNEII..ILMEYSDCG.....SLD.
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             FYGAFQY..................KNNIS..LCMEYMDCG.....SLD.
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            YYGMFTDD................ENSSIY..IAMEYMGGR.....SLD.
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              VVAASTRT...............PAGSNSLGTIIMEFGGNV.....TLH.
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             IFDMDAT..................PPRPY..LIMEFLDGA.....PLS.
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             LHRVLET..................EDAIY..VVLQYCPNG.....DLF.
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            TLDLFQD.................AKGEYC..EVMEYCAGG.....DLF.
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            TIEIVYE..................NDRIL..QVMEYCEY......DLF.
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            LLGIN.NPIFVTSKKPLCDLIIKTPRALPPCDMIMSYCPAG.....DLL.
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              MKQMLAR..................GPATC..LVLPHFRC......DLY.
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             LLDLHVV..................SGVTC..LVLPKYQA......DLY.
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            YFSAWAE..................DDHML..IQNEYCNGG.....SLA.
+#=GR WEE1_HUMAN/299-569   SS  EEEEEEE..................TTEEE..EEEE--TT-.....BHH.
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             FIRWFGR.................EGEYNA..MVIDLLGPSLEDLFNYC.
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  EEEEEEE..................TTEEE..EEEE--TS-...EEBHH.
+#=GC seq_cons                 hhshhps..................psplh..llhEahpsu.....cLh.
+
+PHKG2_RAT/24-291              .DYLT................EKVAL...SEKETRSIMRSLLEAVNFLHV
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           .DKIL................RQKFF...SEREASFVLHTISKTVEYLHS
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             .DRIV................EKGYY...SERDARDAVKQILEAVAYLHE
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             .DRIV................QKGHY...SERQAARLIKTIVEVVEACHS
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            .EYLN................NNGPY...TEQVAKKAMKRVLIALEALHS
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           .DFVA................AHGAV...GEDAGREISRQILTAIKYIHS
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          .ERII...............DEDFEL...TERECIKYMRQISEGVEYIHK
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             .HYIR................KHGPL...SEREAAHYLSQILDAVAHCHR
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            .DYII................SHGKL...KEKQARKFVRQIGSALSYLHQ
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            .SYLA................KGDCLTSMSETESLLIVFQILQALNYLHD
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             .ELLK................RRKVL...TEPEVRFFTTQICGAIKYMHS
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             .DKIE................PDVGI...DEDVAQFYFAQLMEGISFMHS
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            .TMLR................DRGSF...EDNAAQFIIGCVLQAFEYLHA
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           .RALQ..............TRKSKCI...AEEDAKFYASEVVAALEYLHL
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             .FHLS................RERVF...SEDRARFYGAEIVSALDYLHS
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             .HHLR................ANKCF...TEQTTKLIVAEIVLAIEYLHA
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           .YHLS................QHGVF...SEADMRFYAAEIILGLEHMHN
+#=GR ARBK1_BOVIN/191-453  SS  .HHHH................HH-S-...-HHHHHHHHHHHHHHHHHHHH
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             .RYLS................YNGAM...GEEPARRVTGHLVSALYYLHS
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          .DLIE................FKTNM...TEFEAKLIFKQVVAGIKHLHD
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            .DFIT................ERGAL...QEELARSFFWQVLEAVRHCHN
+#=GR PIM1_HUMAN/129-381   SS  .HHHH................HH-S-...-HHHHHHHHHHHHHHHHHHHH
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            YDFIK.................ENSFLPFRMDHIRKMAYQICKSVNFLHS
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             .SWLK................KKKSI...DPWERKSYWKNMLEAVHTIHQ
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             ......................RINL...EMCDIKNMMLQILEGLNYIHC
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             PEFIK........................DPRQVKMFLYQMLCGIAYCHS
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             ......................SILF...TPADIKAWMLMTLRGVYHCHR
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             .............E....LDRYQRGV...PEHLVKSITWQTLQAVNFCHK
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 ......................NKLF...PESVIRNIMYQILQGLAFIHK
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            ......................EVQI...SHSQCKHLFKQLLLGMEYLHD
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             ........................TL...AEEHAKLFMYQLLRGLKYIHS
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             ........................NL...SDDHIQYFIYQTLRALKAMHS
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             ...................TKAKLII...PIIYVKVYMYQLFRSLAYIHS
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            ....................QLYQTL...TDYDIRFYMYEILKALDYCHS
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           .DYLQ.................LTTL...DTVSCLRIVLSIASGLAHLHI
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           .DFLK.................ANVV...SWNELCHIAETMARGLAYLHE
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            .NILF................SEGGNILLDWEGRFNIALGVAKGLAYLHH
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              .KHLH...............VQETKF...QMFQLIDIARQTAQGMDYLHA
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            .RVLS.................GKRI...PPDILVNWAVQIARGMNYLHD
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          .ALMQ.......RRLDRNEDHDSPPF...SILEVVDIILQTSEGMNYLHE
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            .GLLT................MYGSF...EETLVKNFIKQTLKGLEYLHS
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            .RLIS...............RSSTGL...SENESKTYVTQTLLGLKYLHG
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           .DVVT.................HCIL...TEGQIGAVCRETLSGLEFLHS
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            .KILSVY...KRFVQRGTVSSKKTWF...NELTISKIAYGVLNGLDHLYR
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             .AILR................EGGPI...PLDILGKIINSMVKGLIYLYN
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            .............AIYKNLLERGGRI...SEKVLGKIAEAVLRGLSYLHE
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              .QVIYGAASHPEGDAGEPHCSTGGPL...TLGKCLKYSLDVVNGLLFLHS
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS .......................................*..........
+PKN1_MYXXA/59-320             ...................AWVGTPL...AAGAVVSVLSQVCDALQAAHA
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             .TYIT.................EKKVYQGNSHLIKTVFLQLISAVEHCHS
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            .TLVV................AAGKL...EYMEADCFFKQLIRGVVYMHE
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            .AIVM.................SNKM...SYEEICCCFKQILTGVQYLHS
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            .AAVM...............ARNGRL...EAWLIQRIFTEVVLAVKYLHE
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              .SYLT...............MRDGPL...DMRDAGCVIRAVLRGLAYLHG
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             .TYLS...............RRLNPL...GRPQIAAVSRQLLSAVDYIHR
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            .DAIS...............ENYRIMSYFKEAELKDLLLQVGRGLRYIHS
+#=GR WEE1_HUMAN/299-569   SS  .HHHH...............HHHHHT----HHHHHHHHHHHHHHHHHHHH
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             ......................HRRF...SFKTVIMLALQMFCRIQYIHG
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  .HHHH...............HHHHST----HHHHHHHHHHHHHHHHHHHH
+#=GC seq_cons                 .phl..................pssh...scppspphhtpllpulpYlHs
+
+PHKG2_RAT/24-291              .N..........NIVHRDLKPENILLD.DNMQI.................
+#=GR PHKG2_RAT/24-291     AS  .................*................................
+KS6A1_MOUSE/407-664           .Q..........GVVHRDLKPSNILYV.DESGNPE...............
+#=GR KS6A1_MOUSE/407-664  AS  .................*................................
+KCC4_MOUSE/42-296             .N..........GIVHRDLKPENLLYA..TPAPDA...............
+#=GR KCC4_MOUSE/42-296    AS  .................*................................
+CDPK_SOYBN/34-292             .L..........GVMHRDLKPENFLFD..TIDEDA...............
+#=GR CDPK_SOYBN/34-292    AS  .................*................................
+KPK2_PLAFK/111-364            .N..........GVVHRDLKMENLMLE..NPNDPS...............
+#=GR KPK2_PLAFK/111-364   AS  .................*................................
+RAD53_YEAST/198-466           .M..........GISHRDLKPDNILIEQDDPVL.................
+#=GR RAD53_YEAST/198-466  AS  .................*................................
+MYLK_CHICK/1453-1708          .Q..........GIVHLDLKPENIMCV.NKTGTS................
+#=GR MYLK_CHICK/1453-1708 AS  .................*................................
+CDR1_SCHPO/12-258             .F..........RFRHRDLKLENILIKVNEQQI.................
+#=GR CDR1_SCHPO/12-258    AS  .................*................................
+KIN1_SCHPO/125-395            .N..........SVVHRDLKIENILIS.KTGDI.................
+#=GR KIN1_SCHPO/125-395   AS  .................*................................
+MEK1_YEAST/162-444            .Q..........DIVHRDLKLDNILLC..TPEPCT...............
+#=GR MEK1_YEAST/162-444   AS  .................*................................
+CDC5_YEAST/82-337             .R..........RVIHRDLKLGNIFFD.SNYNL.................
+#=GR CDC5_YEAST/82-337    AS  .................*................................
+CHK1_SCHPO/10-272             .K..........GVAHRDLKPENILLD.YNGNL.................
+#=GR CHK1_SCHPO/10-272    AS  .................*................................
+KGP1_DROME/457-717            .R..........GIIYRDLKPENLMLD.ERGYV.................
+#=GR KGP1_DROME/457-717   AS  .................*................................
+KIN82_YEAST/324-602           .L..........GFIYRDLKPENILLH.QSGHV.................
+#=GR KIN82_YEAST/324-602  AS  .................*................................
+AKT_MLVAT/171-429             EK..........NVVYRDLKLENLMLD.KDGHI.................
+#=GR AKT_MLVAT/171-429    AS  .................*................................
+PKD1_DICDI/36-291             .E..........NIIYRDLKPENILID.EKGHI.................
+#=GR PKD1_DICDI/36-291    AS  .................*................................
+ARBK1_BOVIN/191-453           .R..........FVVYRDLKPANILLD.EHGHV.................
+#=GR ARBK1_BOVIN/191-453  SS  .T..........TEE----SGGGEEE-.TTS-E.................
+#=GR ARBK1_BOVIN/191-453  AS  .................*................................
+FUSED_DROME/4-254             .N..........RILHRDLKPQNVLLD.KNMHA.................
+#=GR FUSED_DROME/4-254    AS  .................*................................
+KAB7_YEAST/1096-1354          .Q..........GIVHRDIKDENVIVD.SKGFV.................
+#=GR KAB7_YEAST/1096-1354 AS  .................*................................
+PIM1_HUMAN/129-381            .C..........GVLHRDIKDENILIDLNRGEL.................
+#=GR PIM1_HUMAN/129-381   SS  .T..........TEE-S--SGGGEEEETTTTEE.................
+#=GR PIM1_HUMAN/129-381   AS  .................*................................
+CLK1_MOUSE/160-476            .N..........KLTHTDLKPENILFV.KSDYTEAYNPKMKRDERTIVNP
+#=GR CLK1_MOUSE/160-476   AS  .................*................................
+TTK_HUMAN/525-791             .H..........GIVHSDLKPANFLIV..DGML.................
+#=GR TTK_HUMAN/525-791    AS  .................*................................
+BUR1_YEAST/60-366             .A..........KFMHRDIKTANILID.HNGVL.................
+#=GR BUR1_YEAST/60-366    AS  .................*................................
+CDC21_MEDSA/1-284             .H..........RVLHRDLKPQNLLIDRRTNSL.................
+#=GR CDC21_MEDSA/1-284    AS  .................*................................
+KIN28_YEAST/7-290             .N..........FILHRDLKPNNLLFS.PDGQI.................
+#=GR KIN28_YEAST/7-290    AS  .................*................................
+CDKL1_HUMAN/4-287             .H..........NCIHRDVKPENILIT.KHSVI.................
+#=GR CDKL1_HUMAN/4-287    AS  .................*................................
+MAK_RAT/4-284                 .H..........GFFHRDMKPENLLCM.GPELV.................
+#=GR MAK_RAT/4-284        AS  .................*................................
+CTK1_YEAST/183-469            .N..........KILHRDVKGSNILID.NQGNL.................
+#=GR CTK1_YEAST/183-469   AS  .................*................................
+MK04_HUMAN/20-312             .A..........NVLHRDLKPANIFIS.TEDLV.................
+#=GR MK04_HUMAN/20-312    AS  .................*................................
+ERK1_CANAL/68-371             .A..........NVLHRDLKPSNLLLN.SNCDL.................
+#=GR ERK1_CANAL/68-371    AS  .................*................................
+GSK3A_RAT/119-403             .Q..........GVCHRDIKPQNLLVD.PDTAV.................
+#=GR GSK3A_RAT/119-403    AS  .................*................................
+CSK21_CHICK/39-324            .M..........GIMHRDVKPHNVMID.HEHRK.................
+#=GR CSK21_CHICK/39-324   AS  .................*................................
+ACVR1_HUMAN/208-495           .EIFGT..QGKPAIAHRDLKSKNILVK.KNGQC.................
+#=GR ACVR1_HUMAN/208-495  AS  .................*................................
+AVR2A_HUMAN/192-479           .DIPGLKDGHKPAISHRDIKSKNVLLK.NNLTA.................
+#=GR AVR2A_HUMAN/192-479  AS  .................*................................
+KPRO_MAIZE/534-812            .EC.......LEWVIHCDVKPENILLD.QAFEP.................
+#=GR KPRO_MAIZE/534-812   AS  .................*................................
+MIL_AVIMH/82-339              .K..........NIIHRDMKSNNIFLH.GGLTV.................
+#=GR MIL_AVIMH/82-339     AS  .................*................................
+M3K9_HUMAN/144-403            .EA.......IVPIIHRDLKSSNILIL.QKVENGDLS...........NK
+#=GR M3K9_HUMAN/144-403   AS  .................*................................
+PHY1_CERPU/1004-1282          .K..........GIIHRDLKSMNILVK.SVKVTKSEI..........GYV
+#=GR PHY1_CERPU/1004-1282 AS  .................*................................
+BYR2_SCHPO/394-658            .R..........GIVHRDIKGANILVD.NKGKI.................
+#=GR BYR2_SCHPO/394-658   AS  .................*................................
+CDC15_YEAST/25-272            .E..........GVIHRDIKAANILLS.ADNTV.................
+#=GR CDC15_YEAST/25-272   AS  .................*................................
+STE20_YEAST/620-871           .K..........GVLHRDIKSDNILLS.MEGDI.................
+#=GR STE20_YEAST/620-871  AS  .................*................................
+STE7_YEAST/191-466            QY..........KIIHRDIKPSNVLIN.SKGQI.................
+#=GR STE7_YEAST/191-466   AS  .................*................................
+BYR1_SCHPO/66-320             VL..........HIIHRDLKPSNVVVN.SRGEI.................
+#=GR BYR1_SCHPO/66-320    AS  .................*................................
+MKK1_YEAST/221-488            .K..........KVIHRDIKPQNILLN.ENGQV.................
+#=GR MKK1_YEAST/221-488   AS  .................*................................
+MOS_CERAE/60-338              .Q..........SIVHLDLKPANILIS.EQDVC.................
+#=GR MOS_CERAE/60-338     AS  .................*................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             .R..........GIVHRDLKPDNIFLV.RRNGNAP...............
+#=GR PKN1_MYXXA/59-320    AS  .................*................................
+RAN1_SCHPO/18-295             .V..........GIYHRDLKPENIMVG.NDVNT.................
+#=GR RAN1_SCHPO/18-295    AS  .................*................................
+HAL4_YEAST/316-590            .M..........GVCHRDLKPENLLLT.HDGVL.................
+#=GR HAL4_YEAST/316-590   AS  .................*................................
+NPR1_YEAST/438-742            .I..........GLAHRDLKLDNCVIN.EKGIV.................
+#=GR NPR1_YEAST/438-742   AS  .................*................................
+KKL6_YEAST/192-508            .N..........SIIHRDLKLENILLK...YSFDDINSFRDS.PIYCKQN
+#=GR KKL6_YEAST/192-508   AS  .................*................................
+KR1_PRVKA/53-332              .M..........RIMHRDVKAENIFLE.DVDTV.................
+#=GR KR1_PRVKA/53-332     AS  .................*................................
+KR1_HHV11/191-478             .Q..........GIIHRDIKTENIFIN.TPEDI.................
+#=GR KR1_HHV11/191-478    AS  .................*................................
+WEE1_HUMAN/299-569            .M..........SLVHMDIKPSNIFIS.RTSIPNAASEEGDEDDWASNKV
+#=GR WEE1_HUMAN/299-569   SS  .T..........TEE-S--SGGGEEEE.----------------------
+#=GR WEE1_HUMAN/299-569   AS  .................*................................
+HRR25_YEAST/9-273             .R..........SFIHRDIKPDNFLMG..VGRRGS...............
+#=GR HRR25_YEAST/9-273    AS  .................*................................
+#=GC SS_cons                  .T..........TEE-S--SGGGEEEETTTTEE-----------------
+#=GC seq_cons                 .p..........sllHRDLKspNILls.psspl.................
+
+PHKG2_RAT/24-291              ..RLSDFGFSCH..................LEPGE.KLRELCGTPGYLAP
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           CLRICDFGFAKQL.................RAENG.LLMTPCYTANFVAP
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             PLKIADFGLSKI..................VEHQV.LMKTVCGTPGYCAP
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             KLKATDFGLSVF..................YKPGE.SFCDVVGSPYYVAP
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            SLKIIDFGLAS...................FLNSP.SMNMRCGSPGYVAP
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           .VKITDFGLAKV..................QGNGS.FMKTFCGTLAYVAP
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          .IKLIDFGLARR..................LESAG.SLKVLFGTPEFVAP
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             ..KIADFGMATV..................EPNDS.CLENYCGSLHYLAP
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            ..KIIDFGLSNL..................YRRQS.RLRTFCGSLYFAAP
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            RIVLADFGIAKDL.................NSNKE.RMHTVVGTPEYCAP
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             ..KIGDFGLAAVL.................ANESE.RKYTICGTPNYIAP
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             ..KISDFGFASLFS...............YKGKSR.LLNSPVGSPPYAAP
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            ..KIVDFGFAKQ..................IGTSS.KTWTFCGTPEYVAP
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           ..MLSDFDLSIQATGSKKPTMKDSTYLDTKICSDGFRTNSFVGTEEYLAP
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             ..KITDFGLCKEG.................IKDGA.TMKTFCGTPEYLAP
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             ..KLTDFGFSKK..................TVGGK.NTSSVCGTFDYMAP
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           ..RISDLGLAC...................DFSKK.KPHASVGTHGYMAP
+#=GR ARBK1_BOVIN/191-453  SS  ..EE--GTT-E...................E-SSS.---S--S-TTS--H
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             ..KLCDFGLARNM.................TLGTH.VLTSIKGTPLYMAP
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          ..KIIDFGSAA...................YVKSG.PFDVFVGTIDYAAP
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            ..KLIDFGSGA...................LLKDT.VYTDFDGTRVYSPP
+#=GR PIM1_HUMAN/129-381   SS  ..EE---TT-E...................E--SS.-B----S-GGGS-H
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            DIKVVDFGSA....................TYDDE.HHSTLVSTRHYRAP
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             ..KLIDFGIANQMQ...............PDTTSV.VKDSQVGTVNYMPP
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             ..KLADFGLARLYYGCPPN.....LKYPGGAGSGA.KYTSVVVTRWYRAP
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             ..KLADFGLARAF.................GIPVR.TFTHEVVTLWYRAP
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             ..KVADFGLARAI.................PAPHE.ILTSNVVTRWYRAP
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             ..KLCDFGFARLL.................TGPSD.YYTDYVATRWYRSP
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 ..KIADFGLARE..................LRSQP.PYTDYVSTRWYRAP
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            ..KITDFGLARK..................MNSRA.DYTNRVITLWYRPP
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             .LKIGDFGLARIVDQ..............HYSHKG.YLSEGLVTKWYRSP
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             ..KICDFGLARSIAS..............QEDNYG.FMTEYVATRWYRAP
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             .LKLCDFGSAKQ..................LVRGE.PNVSYICSRYYRAP
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            .LRLIDWGLAEF..................YHPGQ.EYNVRVASRYFKGP
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           ..CIADLGLAVMHSQ.............STNQLDV.GNNPRVGTKRYMAP
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           ..CIADFGLALKFE...............AGKSAG.DTHGQVGTRRYMAP
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            ..KITDFGLVKLLN...............RGGSTQ.NVSHVRGTLGYIAP
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              ..KIGDFGLATVKS...............RWSGSQ.QVEQPTGSILWMAP
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            ILKITDFGLAR...................EWHRT.TKMSAAGTYAWMAP
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          HVKVADFGLSKTKD...............SSTRYS.NQTWNRGTNRWMAP
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            ..KISDFGISKKLELN...........STSTKTGG.ARPSFQGSSFWMAP
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            ..KLADFGVS....................TIVNS.SALTLAGTLNWMAP
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           ..KLTDFGFCAQI.................NELNL.KRTTMVGTPYWMAP
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            ..KLCDFGVSK...................KLINS.IADTFVGTSTYMSP
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             ..KLCDFGVSG...................ELVNS.VAQTFVGTSTYMSP
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            ..KLCDFGVSG...................EAVNS.LATTFTGTSFYMAP
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              ..KISDFGCSEKLED..............LLCFQT.PLYPLGGTYTHRAP
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             FVKVLDFGIAKLAD...............AHMPQT.HAGIIVGTPEYMAP
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             .VYLADFGLA....................TTEPY.SSDFGCGSLFYMSP
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            ..KITDFGNSECFKM.............AWEKNIH.LSGGVCGSSPYIAP
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            ..KLIDFGAAVVFSY.............PFSKNLV.EASGIVGSDPYLAP
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            FIELADFGLCKK..................IENNE.MCTARCGSEDYVSP
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              ..CLGDLGAARC..................NVAAP.NFYGLAGTIETNAP
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             ..CLGDFGAACFVQ...............GSRSSP.FPYGIAGTIDTNAP
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            MFKIGDLGH.....................VTRIS.SPQVEEGDSRFLAN
+#=GR WEE1_HUMAN/299-569   SS  EEEE---TT.....................-EETT.-S------GGG--H
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             TVHVIDFGLSKKYRDFN..........THRHIPYR.ENKSLTGTARYASV
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  EEEE--GTT.E...................EECSS.-C-S--S-GGGS-H
+#=GC seq_cons                 ..KlsDFGlAp...................ttsss.thpshsGT.hYhAP
+
+PHKG2_RAT/24-291              ....EI....LKCS.........MDETHPGYGKEVDLWACGVILFTLLA.
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           ....EV....LK...............RQGYDEGCDIWSLGILLYTMLA.
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             ....EI....LR...............GCAYGPEVDMWSVGIITYILLC.
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             ....EV....LR................KLYGPESDVWSAGVILYILLS.
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            ....EI....LK...............CASYGTKVDIFSLGVILFNILC.
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           ....EV....IRGKDTSV..SPDEYEERNEYSSLVDMWSMGCLVYVILT.
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          ....EV....IN...............YEPIGYETDMWSIGVICYILVS.
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             ....EI....VS..............HKPYRGAPADVWSCGVILYSLLS.
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            ....EL....LN..............AQPYIGPEVDVWSFGIVLYVLVC.
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            ....EVGFRANRKAYQSF..SRAATLEQRGYDSKCDLWSLGVITHIMLT.
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             ....EV....LM.............GKHSGHSFEVDIWSLGVMLYALLI.
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             ....EI....................TQQYDGSKVDVWSCGIILFALLL.
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            ....EI....IL...............NKGHDRAVDYWALGILIHELLN.
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           ....EV....IR...............GNGHTAAVDWWTLGILIYEMLF.
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             ....EV....LE...............DNDYGRAVDWWGLGVVMYEMMC.
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             ....EI....LN..............SSNGHGKPVDWWALGVVVYELVT.
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           ....EV....LQ..............KGVAYDSSADWFSLGCMLFKLLR.
+#=GR ARBK1_BOVIN/191-453  SS  ....HH....HS..............SS----THHHHHHHHHHHHHHHH.
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             ....EL....LA...............EQPYDHHADMWSLGCIAYESMA.
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          ....EV....LG..............GNPYEGQPQDIWAIGILLYTVVF.
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            ....EW....IR..............YHRYHGRSAAVWSLGILLYDMVC.
+#=GR PIM1_HUMAN/129-381   SS  ....HH....HH..............HS-B-HHHHHHHHHHHHHHHHHH.
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            ....EV....IL...............ALGWSQPCDVWSIGCILIEYYL.
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             ....EA....IKDMSSS....RENGKSKSKISPKSDVWSLGCILYYMTY.
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             ....EL....VL..............GDKQYTTAVDIWGVGCVFAEFFE.
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             ....EI....LL..............GSRHYSTPVDVWSVGCIFAEMAN.
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             ....EL....LF..............GAKHYTSAIDIWSVGVIFAELML.
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             ....EL....LV..............GDTQYGPPVDVWAIGCVFAELLS.
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 ....EV....LL..............RSSVYSSPIDVWAVGSIMAELYT.
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            ....EL....LL..............GTTNYGTEVDMWGCGCLLVELFN.
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             ....RL....LL..............SPNNYTKAIDMWAAGCILAEMLT.
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             ....EI....ML..............TFQEYTTAIDVWSVGCILAEMLS.
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             ....EL....IF..............GATDYTSSIDVWSAGCVLAELLL.
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            ....EL....LV..............DYQMYDYSLDMWSLGCMLASMIF.
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           ....EVLDETIQ.............VDCFDSYKRVDIWAFGLVLWEVARR
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           ....EVLEGAIN..............FQRDAFLRIDMYAMGLVLWELASR
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            ....EW....VS...............SLPITAKVDVYSYGVVLLELLT.
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              ....EV....IRM............QDSNPFSFQSDVYSYGIVLYELMT.
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            ....EV....IR...............ASMFSKGSDVWSYGVLLWELLT.
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          ....EV....INLGYESTEGEISFDGKVPKYPLKSDVYSFGMVCYEVLT.
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            ....EV....VK...............QTMHTEKTDIWSLGCLVIEMLT.
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            ....EI....LG...............NRGASTLSDIWSLGATVVEMLT.
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           ....EV....VS...............RKEYGPKVDIWSLGIMIIEMIE.
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            ....ER....IQ...............GNVYSIKGDVWSLGLMIIELVT.
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             ....ER....IR...............GGKYTVKSDIWSLGISIIELAT.
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            ....ER....IQ...............GQPYSVTSDVWSLGLTILEVAN.
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              ....EL....LK...............GEGVTPKADIYSFAITLWQMTT.
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             ....EQ....SL...............GRGVDGRADLYALGVIAYQLLT.
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             ECQREVKKLSSLSDMLPVTPEPIESQSSSFATAPNDVWALGIILINLCC.
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            ....EE....YI..............KEEFDPRPVDIWACGVIYMAMRT.
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            ....EV....CI..............FAKYDPRPVDIWSSAIIFACMIL.
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            ....EI....LM..............GVPYDGHLSDTWALGVILYSLFE.
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              ....EV....LA...............RDRYDTKVDVWGAGVVLFETLA.
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             ....EV....LA...............GDPYTTTVDIWSAGLVIFETAV.
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            ....EV....LQ..............ENYTHLPKADIFALALTVVCAAG.
+#=GR WEE1_HUMAN/299-569   SS  ....HH....HT..............T--TTHHHHHHHHHHHHHHHHTT.
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             ....NT....HL...............GIEQSRRDDLESLGYVLIYFCK.
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  ....HH....HC..............CS-CTHHHHHHHHHHHHHHHHHH.
+#=GC seq_cons                 ....El....lt...............sptasttsDlWSlGlllhphls.
+
+PHKG2_RAT/24-291              ....GS......PPFW.HR........RQILMLRMIMEGQYQFSSPEWDD
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           ....GY......TPFA.NG.....PSDTPEEILTRIGSGKFTLSGGNWNT
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             ....GF......EPFY.DE.......RGDQFMFRRILNCEYYFISPWWDE
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             ....GV......PPFW.AE........SEPGIFRQILLGKLDFHSEPWPS
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            ....GY......PPFR.GN........NVKEIFKKNMRCHISFNTKHWIN
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           ....GH......LPFS.GS........TQDQLYKQIGRGSYHEGPLKDFR
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          ....GL......SPFM.GD........NDNETLANVTSATWDFDDEAFDE
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             ....NK......LPFG.GQ........NTDVIYNKIRHGAYDLPSSIS..
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            ....GK......VPFD.DQ........NMSALHAKIKKGTVEYPSYLS..
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            ....GI......SPFY.GD.......GSERSIIQNAKIGKLNFKLKQWDI
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             ....GK......PPFQ.AR........DVNTIYERIKCRDFSFPRDKPIS
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             ....GN......TPWD.EA.....ISNTGDYLLYKKQCERPSYHPWNLLS
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            ....GT......PPFS.AP........DPMQTYNLILKGIDMIAFPKHIS
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           ....GC......TPFK.GD........NSNETFSNILTKDVKFPHDKEVS
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             ....GR......LPFY.NQ........DHEKLFELILMEEIRFPRTLG..
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             ....GK......LPFS.NSKESLLNRKADFQLIFQNSYLS..........
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           ....GH......SPFR.QH.....KTKDKHEIDRMTLTMAVELPDSFS..
+#=GR ARBK1_BOVIN/191-453  SS  ....SS......-TT-.SS.....SSS-THHHHHHHHH------TTS-..
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             ....GQ......PPFC.AS........SILHLVKMIKHEDVKWPSTLT..
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          ....KE......NPFY...............NIDEILEGDLKFNNAEEVS
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            ....GD......IPFE.HD....EEIIRGQVFFRQRVS............
+#=GR PIM1_HUMAN/129-381   SS  ....SS......-S--.SH....HHHHHT----SS---............
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            ....GF......TVFP.TH.....DSREHLAMMERILGPLPKHMIQKTRK
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             ....GK......TPFQ.QI.......INQISKLHAIIDPNHEIEFPDIPE
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             ....KK......PILQ.GK.....TDIDQGHVIFKLLGTPTEEDWAVARY
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             ....RR......PLSP.GD.....SEIDELFKIFRILGTPNEDTWPGVTS
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             ....RI......PYLP.GQ.....NDVDQMEVTFRALGTPTDRDWPEVSS
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             ....GV......PLWP.GK.....SDVDQLYLIRKTLGDLIPRHQQVFST
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 ....FR......PLFP.GT.....SEVDEIFKICQVLGTPKKSDWPEGYQ
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            ....KT......AIFQ.GS.....NELEQIESIFKIMGTPTINSWPTLYD
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             ....GR......MLFA.GA.....HELEQMQLILETIPVIREEDKDELLR
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             ....GR......PLFP.GR.....DYHNQLWLIMEVLGTPNMEDYYNIKS
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             ....GQ......PIFP.GD.....SGVDQLVEIIKVLGTPTREQIREMNP
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            ....RK......EPFF.HG....HDNYDQLVRIAKVLGTEDLYDYIDKYN
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           M.VSNGIVEDYKPPFY.DVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDP
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           CTAADGPVDEYMLPFE.EEIGQHPSLEDMQEVVVHKKKRPVLRDYWQKHA
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            ....G.......TRVS.ELVGGTDEVHSMLRKLVRMLSAKLEGEEQSWID
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              ....GE......LPYS.HI.....NNRDQIIFMVGRGYASPDLSKLYKNC
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            ....GE......VPFR.GI........DGLAVAYGVAMNKLALPIPSTCP
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          ....GD......VPFPEEK.....NPNNVKRMVLEGVRPDLPAHCP....
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            ....SK......HPYP.NC.....DQMQAIFRIGENILPEFPSNIS....
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            ....KN......PPYH.NL.....TDANIYYAVENDTYYPPSSFS.....
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           ....GE......PPYL.NE.....TPLRALYLIATNGTPKLKEPENLS..
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            ....GE......FPLG.GHNDTPDGILDLLQRIVNEPSPRLPKDRIYS..
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             ....QE......LPWSFSNIDDSIGILDLLHCIVQEEPPRLPSSFP....
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            ....GK......FPCS.SE.....KMAANIAPFELLMWILTFTPELKDEP
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              ....KQ......APYS.GE.....RQHILYAVVAYDLRPSLSAAVFQDSL
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             ....GR......LPFN.DE.....GLAAQLVAHQLRPPPPPSSVYPAVS.
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             ....KR......NPWK.RACSQTDGTYRSYVHNPSTLLSILPIS......
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            ....GR......QLWS.SA.....EKDDPFYMNYLKGRKEKGGYEPIESL
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            ....KK......FPWKIPK.....LRDNSFKLFCSGRDCDSLSSLVTRTP
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            ....DR......LPFD.PP.....PNASARQRSRATSHRIARFDWRWYRL
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              ............YPKT.ITGGDEPAINGEMHLIDLIRALGVHPEEFPPDT
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             ....HN......ASLF.SAPRGPKRGPCDSQITRIIRQAQVHVDEFSPHP
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            ....AE......PLPR.NGDQWHEIRQGRLPRIPQVLS............
+#=GR WEE1_HUMAN/299-569   SS  ....--......---S.SSHHHHHHHTT-----SS---............
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             ....GS......LPWQ.GL.....KATTKKQKYDRIMEKKLNVSVETLCS
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  ....SS......-TTS.SSHHHHHHHCCTHHHHSSHHH......TTS...
+#=GC seq_cons                 ....Gp......sPFt.sp........sththhtphhtsthphs......
+
+PHKG2_RAT/24-291              RS.......................................NTVKDLIAK
+#=GR PHKG2_RAT/24-291     AS  ..................................................
+KS6A1_MOUSE/407-664           VS.......................................ETAKDLVSK
+#=GR KS6A1_MOUSE/407-664  AS  ..................................................
+KCC4_MOUSE/42-296             VS.......................................LNAKDLVKK
+#=GR KCC4_MOUSE/42-296    AS  ..................................................
+CDPK_SOYBN/34-292             IS.......................................DSAKDLIRK
+#=GR CDPK_SOYBN/34-292    AS  ..................................................
+KPK2_PLAFK/111-364            KS.......................................ESVKEIILW
+#=GR KPK2_PLAFK/111-364   AS  ..................................................
+RAD53_YEAST/198-466           IS.......................................EEARDFIDS
+#=GR RAD53_YEAST/198-466  AS  ..................................................
+MYLK_CHICK/1453-1708          IS.......................................DDAKDFISN
+#=GR MYLK_CHICK/1453-1708 AS  ..................................................
+CDR1_SCHPO/12-258             .........................................SAAQDLLHR
+#=GR CDR1_SCHPO/12-258    AS  ..................................................
+KIN1_SCHPO/125-395            .........................................SDCKGLLSR
+#=GR KIN1_SCHPO/125-395   AS  ..................................................
+MEK1_YEAST/162-444            VS.......................................DNAKSFVKD
+#=GR MEK1_YEAST/162-444   AS  ..................................................
+CDC5_YEAST/82-337             .........................................DEGKILIRD
+#=GR CDC5_YEAST/82-337    AS  ..................................................
+CHK1_SCHPO/10-272             .........................................PGAYSIITG
+#=GR CHK1_SCHPO/10-272    AS  ..................................................
+KGP1_DROME/457-717            .........................................RWAVQLIKR
+#=GR KGP1_DROME/457-717   AS  ..................................................
+KIN82_YEAST/324-602           .........................................KNCKDLIKK
+#=GR KIN82_YEAST/324-602  AS  ..................................................
+AKT_MLVAT/171-429             .........................................PEAKSLLSG
+#=GR AKT_MLVAT/171-429    AS  ..................................................
+PKD1_DICDI/36-291             .........................................DEIKDFIFQ
+#=GR PKD1_DICDI/36-291    AS  ..................................................
+ARBK1_BOVIN/191-453           .........................................PELRSLLEG
+#=GR ARBK1_BOVIN/191-453  SS  .........................................HHHHHHHHH
+#=GR ARBK1_BOVIN/191-453  AS  ..................................................
+FUSED_DROME/4-254             .........................................SECRSFLQG
+#=GR FUSED_DROME/4-254    AS  ..................................................
+KAB7_YEAST/1096-1354          .........................................EDCIELIKS
+#=GR KAB7_YEAST/1096-1354 AS  ..................................................
+PIM1_HUMAN/129-381            .........................................SECQHLIRW
+#=GR PIM1_HUMAN/129-381   SS  .........................................HHHHHHHHH
+#=GR PIM1_HUMAN/129-381   AS  ..................................................
+CLK1_MOUSE/160-476            RRYFHHDRLDWDEHSSAGR..YVSRRCKPLKEFMLSQDAEHEFLFDLVGK
+#=GR CLK1_MOUSE/160-476   AS  ..................................................
+TTK_HUMAN/525-791             .........................................KDLQDVLKC
+#=GR TTK_HUMAN/525-791    AS  ..................................................
+BUR1_YEAST/60-366             LPGAELTTTNYK.................PTLRERFGKYLSETGLDFLGQ
+#=GR BUR1_YEAST/60-366    AS  ..................................................
+CDC21_MEDSA/1-284             LPDFKSTFPRWP.................SKDLATVVPNLEPAGLDLLNS
+#=GR CDC21_MEDSA/1-284    AS  ..................................................
+KIN28_YEAST/7-290             FMTYNKLQIYPPP...............SRDELRKRFIAASEYALDFMCG
+#=GR KIN28_YEAST/7-290    AS  ..................................................
+CDKL1_HUMAN/4-287             NQYFSGVKIPDPE...............DMEPLELKFPNISYPALGLLKG
+#=GR CDKL1_HUMAN/4-287    AS  ..................................................
+MAK_RAT/4-284                 LASSMNFRFPQC................IPINLKTLIPNASSEAIQLMTE
+#=GR MAK_RAT/4-284        AS  ..................................................
+CTK1_YEAST/183-469            MPWFFMIMPQQTTK............YVNNFSEKFKSVLPSSKCLQLAIN
+#=GR CTK1_YEAST/183-469   AS  ..................................................
+MK04_HUMAN/20-312             VMPSFVSSTWEV.................KRPLRKLLPEVNSEAIDFLEK
+#=GR MK04_HUMAN/20-312    AS  ..................................................
+ERK1_CANAL/68-371             KRAREYIRSLPFCKKIPFSELFANTNNNTSTSNTGGRTNINPLALDLLEK
+#=GR ERK1_CANAL/68-371    AS  ..................................................
+GSK3A_RAT/119-403             NYTEFKFPQIKA.................HPWTKVFKSRTPPEAIALCSS
+#=GR GSK3A_RAT/119-403    AS  ..................................................
+CSK21_CHICK/39-324            IELDPRFNDILGRHSR.........KRWERFVHSENQHLVSPEALDFLDK
+#=GR CSK21_CHICK/39-324   AS  ..................................................
+ACVR1_HUMAN/208-495           TL.......................................TSLAKLMKE
+#=GR ACVR1_HUMAN/208-495  AS  ..................................................
+AVR2A_HUMAN/192-479           GM.......................................AMLCETIEE
+#=GR AVR2A_HUMAN/192-479  AS  ..................................................
+KPRO_MAIZE/534-812            GYLDSKLN.........................RPVNYVQARTLIKLAVS
+#=GR KPRO_MAIZE/534-812   AS  ..................................................
+MIL_AVIMH/82-339              P........................................KAMKRLVAD
+#=GR MIL_AVIMH/82-339     AS  ..................................................
+M3K9_HUMAN/144-403            .........................................EPFAKLMED
+#=GR M3K9_HUMAN/144-403   AS  ..................................................
+PHY1_CERPU/1004-1282          .........................................IELKALITD
+#=GR PHY1_CERPU/1004-1282 AS  ..................................................
+BYR2_SCHPO/394-658            .........................................SSAIDFLEK
+#=GR BYR2_SCHPO/394-658   AS  ..................................................
+CDC15_YEAST/25-272            .........................................EPLKDFLSK
+#=GR CDC15_YEAST/25-272   AS  ..................................................
+STE20_YEAST/620-871           .........................................SSLKKFLDW
+#=GR STE20_YEAST/620-871  AS  ..................................................
+STE7_YEAST/191-466            .........................................KEMTDFVNR
+#=GR STE7_YEAST/191-466   AS  ..................................................
+BYR1_SCHPO/66-320             .........................................EDLRLFVDA
+#=GR BYR1_SCHPO/66-320    AS  ..................................................
+MKK1_YEAST/221-488            ESN..................................IIWSPSFKSFIDY
+#=GR MKK1_YEAST/221-488   AS  ..................................................
+MOS_CERAE/60-338              PG.......................................QRLGDVIRR
+#=GR MOS_CERAE/60-338     AS  ..................................................
+#=GR MOS_CERAE/60-338     pAS ..................................................
+PKN1_MYXXA/59-320             .........................................AALEHVILR
+#=GR PKN1_MYXXA/59-320    AS  ..................................................
+RAN1_SCHPO/18-295             .........................................RELNSLLNR
+#=GR RAN1_SCHPO/18-295    AS  ..................................................
+HAL4_YEAST/316-590            KR.......................................ARCRNVIYS
+#=GR HAL4_YEAST/316-590   AS  ..................................................
+NPR1_YEAST/438-742            DPPSYDESHSTEKKKPESSSNNVSDPNNVNIGPQRLLHSLPEETQHIVGR
+#=GR NPR1_YEAST/438-742   AS  ..................................................
+KKL6_YEAST/192-508            SD....................................YKTNVGKQIVEN
+#=GR KKL6_YEAST/192-508   AS  ..................................................
+KR1_PRVKA/53-332              RLRSEFVRYAGTHR............QPYTQYARVARLGLPETGAFLIYK
+#=GR KR1_PRVKA/53-332     AS  ..................................................
+KR1_HHV11/191-478             ESRLTSRYRSRAAGNN.........RPPYTRPAWTRYYKMDIDVEYLVCK
+#=GR KR1_HHV11/191-478    AS  ..................................................
+WEE1_HUMAN/299-569            .........................................QEFTELLKV
+#=GR WEE1_HUMAN/299-569   SS  .........................................HHHHHHHHH
+#=GR WEE1_HUMAN/299-569   AS  ..................................................
+HRR25_YEAST/9-273             GL......................................PLEFQEYMAY
+#=GR HRR25_YEAST/9-273    AS  ..................................................
+#=GC SS_cons                  .........................................HHHHHHHHH
+#=GC seq_cons                 .........................................ppspcllpp
+
+PHKG2_RAT/24-291              LLQVDPNARLT.....AEQALQHPFF
+#=GR PHKG2_RAT/24-291     AS  ..........................
+KS6A1_MOUSE/407-664           MLHVDPHQRLT.....AKQVLQHPWI
+#=GR KS6A1_MOUSE/407-664  AS  ..........................
+KCC4_MOUSE/42-296             LIVLDPKKRLT.....TFQALQHPWV
+#=GR KCC4_MOUSE/42-296    AS  ..........................
+CDPK_SOYBN/34-292             MLDQNPKTRLT.....AHEVLRHPWI
+#=GR CDPK_SOYBN/34-292    AS  ..........................
+KPK2_PLAFK/111-364            MCCKNPDDRCT.....ALQALGHQWF
+#=GR KPK2_PLAFK/111-364   AS  ..........................
+RAD53_YEAST/198-466           LLQVDPNNRST.....AAKALNHPWI
+#=GR RAD53_YEAST/198-466  AS  ..........................
+MYLK_CHICK/1453-1708          LLKKDMKSRLN.....CTQCLQHPWL
+#=GR MYLK_CHICK/1453-1708 AS  ..........................
+CDR1_SCHPO/12-258             MLDVNPSTRIT.....IPEVFSHPFL
+#=GR CDR1_SCHPO/12-258    AS  ..........................
+KIN1_SCHPO/125-395            MLVTDPLKRAT.....LEEVLNHPWM
+#=GR KIN1_SCHPO/125-395   AS  ..........................
+MEK1_YEAST/162-444            LLQTDVVKRLN.....SKQGLKHIWI
+#=GR MEK1_YEAST/162-444   AS  ..........................
+CDC5_YEAST/82-337             ILSLDPIERPS.....LTEIMDYVWF
+#=GR CDC5_YEAST/82-337    AS  ..........................
+CHK1_SCHPO/10-272             MLRSDPFKRYS.....VKHVVQHPWL
+#=GR CHK1_SCHPO/10-272    AS  ..........................
+KGP1_DROME/457-717            LCRDVPSERLGYQTGGIQDIKKHKWF
+#=GR KGP1_DROME/457-717   AS  ..........................
+KIN82_YEAST/324-602           LLNKNEAKRLGSK.SGAADIKRHPFF
+#=GR KIN82_YEAST/324-602  AS  ..........................
+AKT_MLVAT/171-429             LLKKDPTQRLGGGSEDAKEIMQHRFF
+#=GR AKT_MLVAT/171-429    AS  ..........................
+PKD1_DICDI/36-291             LLSVDPSKRLGT..FDSCSIRNHKWF
+#=GR PKD1_DICDI/36-291    AS  ..........................
+ARBK1_BOVIN/191-453           LLQRDVNRRLGCLGRGAQEVKESPFF
+#=GR ARBK1_BOVIN/191-453  SS  HT-SSSTTSTTTSSSSHHHHHHSGGG
+#=GR ARBK1_BOVIN/191-453  AS  ..........................
+FUSED_DROME/4-254             LLEKDPGLRIS.....WTQLLCHPFV
+#=GR FUSED_DROME/4-254    AS  ..........................
+KAB7_YEAST/1096-1354          ILNRCVPKRPT.....IDDINNDKWL
+#=GR KAB7_YEAST/1096-1354 AS  ..........................
+PIM1_HUMAN/129-381            CLALRPSDRPT.....FEEIQNHPWM
+#=GR PIM1_HUMAN/129-381   SS  HT-SSGGGS--.....HHHHHTSGGG
+#=GR PIM1_HUMAN/129-381   AS  ..........................
+CLK1_MOUSE/160-476            ILEYDPAKRIT.....LKEALKHPFF
+#=GR CLK1_MOUSE/160-476   AS  ..........................
+TTK_HUMAN/525-791             CLKRDPKQRIS.....IPELLAHPYV
+#=GR TTK_HUMAN/525-791    AS  ..........................
+BUR1_YEAST/60-366             LLALDPYKRLT.....AMSAKHHPWF
+#=GR BUR1_YEAST/60-366    AS  ..........................
+CDC21_MEDSA/1-284             MLCLDPTKRIT.....ARSAVEHEYF
+#=GR CDC21_MEDSA/1-284    AS  ..........................
+KIN28_YEAST/7-290             MLTMNPQKRWT.....AVQCLESDYF
+#=GR KIN28_YEAST/7-290    AS  ..........................
+CDKL1_HUMAN/4-287             CLHMDPTQRLT.....CEQLLHHPYF
+#=GR CDKL1_HUMAN/4-287    AS  ..........................
+MAK_RAT/4-284                 MLNWDPKKRPT.....ASQALKHPYF
+#=GR MAK_RAT/4-284        AS  ..........................
+CTK1_YEAST/183-469            LLCYDQTKRFS.....ATEALQSDYF
+#=GR CTK1_YEAST/183-469   AS  ..........................
+MK04_HUMAN/20-312             ILTFNPMDRLT.....AEMGLQHPYM
+#=GR MK04_HUMAN/20-312    AS  ..........................
+ERK1_CANAL/68-371             LLIFNPAKRIT.....VEDALKHPYL
+#=GR ERK1_CANAL/68-371    AS  ..........................
+GSK3A_RAT/119-403             LLEYTPSSRLS.....PLEACAHSFF
+#=GR GSK3A_RAT/119-403    AS  ..........................
+CSK21_CHICK/39-324            LLRYDHQSRLT.....AREAMEHPYF
+#=GR CSK21_CHICK/39-324   AS  ..........................
+ACVR1_HUMAN/208-495           CWYQNPSARLT.....ALRIKKT..L
+#=GR ACVR1_HUMAN/208-495  AS  ..........................
+AVR2A_HUMAN/192-479           CWDHDAEARLS.....AGCVGER..I
+#=GR AVR2A_HUMAN/192-479  AS  ..........................
+KPRO_MAIZE/534-812            CLEEDRSKRPT.....MEHAVQT..L
+#=GR KPRO_MAIZE/534-812   AS  ..........................
+MIL_AVIMH/82-339              CLKKVREERPL.....FPQILSS..I
+#=GR MIL_AVIMH/82-339     AS  ..........................
+M3K9_HUMAN/144-403            CWNPDPHSRPS.....FTNILDQ..L
+#=GR M3K9_HUMAN/144-403   AS  ..........................
+PHY1_CERPU/1004-1282          CWNQDPLKRPS.....FAVICQK..L
+#=GR PHY1_CERPU/1004-1282 AS  ..........................
+BYR2_SCHPO/394-658            TFAIDCNLRPT.....ASELLSHPFV
+#=GR BYR2_SCHPO/394-658   AS  ..........................
+CDC15_YEAST/25-272            CFVKNMYKRPT.....ADQLLKHVWI
+#=GR CDC15_YEAST/25-272   AS  ..........................
+STE20_YEAST/620-871           CLCVEPEDRAS.....ATELLHDEYI
+#=GR STE20_YEAST/620-871  AS  ..........................
+STE7_YEAST/191-466            CCIKNERERSS.....IHELLHHDLI
+#=GR STE7_YEAST/191-466   AS  ..........................
+BYR1_SCHPO/66-320             CLHKDPTLRAS.....PQQLCAMPYF
+#=GR BYR1_SCHPO/66-320    AS  ..........................
+MKK1_YEAST/221-488            CLKKDSRERPS.....PRQMINHPWI
+#=GR MKK1_YEAST/221-488   AS  ..........................
+MOS_CERAE/60-338              CWRPSAAQRPS.....ARPLLVD..L
+#=GR MOS_CERAE/60-338     AS  ..........................
+#=GR MOS_CERAE/60-338     pAS ..........................
+PKN1_MYXXA/59-320             ALAKKPEDRYA....SIAAFRNALQV
+#=GR PKN1_MYXXA/59-320    AS  ..........................
+RAN1_SCHPO/18-295             IFDRNPKTRIT.....LPELSTL..V
+#=GR RAN1_SCHPO/18-295    AS  ..........................
+HAL4_YEAST/316-590            MLDPVPYRRIN.....GKQILNSEWG
+#=GR HAL4_YEAST/316-590   AS  ..........................
+NPR1_YEAST/438-742            MIDLAPACRGN.....IEEIMEDPWI
+#=GR NPR1_YEAST/438-742   AS  ..........................
+KKL6_YEAST/192-508            TLTRKNQRWS......INEIYESPFV
+#=GR KKL6_YEAST/192-508   AS  ..........................
+KR1_PRVKA/53-332              MLTFDPVRRPS.....ADEILNFGMW
+#=GR KR1_PRVKA/53-332     AS  ..........................
+KR1_HHV11/191-478             ALTFDGALRPS.....AAELLCLPLF
+#=GR KR1_HHV11/191-478    AS  ..........................
+WEE1_HUMAN/299-569            MIHPDPERRPS.....AMALVKHSVL
+#=GR WEE1_HUMAN/299-569   SS  HT-SSGGGS--.....HHHHHT-TT-
+#=GR WEE1_HUMAN/299-569   AS  ..........................
+HRR25_YEAST/9-273             CKNLKFDEKPD.......YLFLARLF
+#=GR HRR25_YEAST/9-273    AS  ..........................
+#=GC SS_cons                  HT-SSGGGSTTTSSSSHHHHHTSGGG
+#=GC seq_cons                 hLphcPpcRho.....sppllp+sah
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/dna_target.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/dna_target.fa
new file mode 100755
index 0000000..1fb10db
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/dna_target.fa
@@ -0,0 +1,5501 @@
+>humanchr1/239220001-239550000 
+CCAAAAATACGAAAAAGTAGCCAGGCATAATGGCACACATGTGTGGTCCCGCTGCTTGGG
+AGGCCGAGGTGGGAGGATCGCTTGAGCTCGGAAGGCAGAGATTGCAGTGAGCTGAAATCC
+CACCACTGCACTCCAGCATGGGTGACAAAGCAAGACTCTGTCTCACCAAAAAAAAAAAAA
+AAAAGAAGGAACTGGCAGAGTCCCAACTGACAGGTATATTTTCTGTTGACCAAAATACGG
+TTCTTACTGATATTTGATACTGACTCATAGTCACAACTGCCATATGAAAAGAGAGAGATC
+ATTTTTTTTTCCTGGCAATATGTGATGGTGGAAGATACTTAGTGTGGTGTCCTGATAAGA
+TAAGTAAGCAACAATGAGGAGGGAACCCCAGGGAGGGAGGACCATTGTTCCGAGAGAACA
+GCTAATCACAGACAACCTGTTGGCAGGACATCCTGTTCCCAAATGCCTTGCTTGGCAAGT
+AGGCCCAGCAGCAGGACCTCATTGTGCAGGTGGCCCCCTCCAGCATGATCCTATAAAACT
+TCCCTCCAGCCCCCGCCTCTTGGCGGACAGACTTCTCTCTGCTGCACTGCCCATTGCTTT
+CTTGCAATCTTTGTACTTTCCCTAATAAATCTGCCTTTCCTTACCCATGACTGTCTGTCT
+TGGTAAATTCTTTTACCTCCCACGACACCAGCCACAGCCAGTTGCACTCACAGCACTTAG
+GAAAATAAAAAAAATCAAGGCTGACACTCTGGATACCAATATGTAATGAAGTGTTCTTCT
+TACAAGAGCTTATGAGATAAATAGAAACGTAACAACAATTTTTATTAAGCAAGATATAAA
+AACTTCACCATAGGCTGATCCTGTTTTCATTCATGGAAGATAAATACTATCCCTCACTTA
+AGAGCTTTTTGTGTAGGAATTCTTCTTCCTTATTTTTTCACGAATAAAGATAGGGATGTC
+CTTAGCATCCAAAATCAGTCAAAAAAAAATTGACATTTCATGTCCTGGTTAGACTACTCT
+GGCAGCTTGCTGGAATGGTCACTTGCTTCTCCCAACTGGATCTCAAGTCCAGACCCCTTT
+GTTGTCGGCCCCCCTCCTGGCCACCCCCACCACAATCACTTAATAAGAAATACCAGCTGT
+AGAGCTCAGAACTGCTATGACAATTAAAGCTTCCCACCTTCATGAAAACTGTTGAAAATG
+GGGCAGAACAAAAAGTAGTGTGACAGAATTTCTCTATACTGTCTGATGCATTGCTTCCAA
+TGTAGGGAGACCTTTAATTGGTTCTCTGGCTTTTGGTTCCATCCTATTGTAAACAAAGAA
+TCAAAGTATAGTAAGGTTCAAAGAAGTAGGGAGTGCTGAATTTGGCAGATGGCACAAGAC
+ATGGTTAGAAAGAAAGCATCCTCAGAGGAGATGAGAATGATGCTGAGCCTTGGCAAATTG
+CAAGGAATGCGTAGTTAAGCAGAGCAACTTTTCACAGTCAGATTTAGAGTATAACTAACT
+CTGGAATGACGAGACACACAAAAAGATAAATGCTATTTATCACCACTGCTCACAATGAGG
+AATCAGTAAGCAGCCATAACAGATGCTGCGCTGCCCAGATCCCCTCCTTAGGACTGAGGT
+GCTCACTTGCCAGCTGCAAAGACTCGTGCCTGAGTCTCTCTCCAGGCAATGTTCTCAGGT
+CAAAAGGCAGCTGCCCTGCTGGAGGTTATAGCTCCATCCAGCGGCATGCAGAATCCATTG
+ATTAGCAGATGTGGGCATATGAAGACAATGTCTTGGCTCAAATTAGAACGGTTCTAAAAT
+TGCTGCGACCCTGGCTAGAATTACATTGCAGGTGAGCTTCTTCCTCCATCCAGTCCTGTT
+TCTCTCACTCCATTACAGTTGTGATTCCCAAGAGCACTTCACAATAAACCTCCAGCACAC
+AGTCTCCTTCTCTGAGTCTCTTTCTAGGAAAGCCTGACCTAAGACAACAGCCTCCCTATG
+GCAAAAATGTCCAAATTAATAGCTTCTTTATATAGGGGGCAAAACCACCAGCAACCAAAA
+CTTTTATTTAAAAAAATGACAATTGTATGACTAATCAGCGTACATTTAACTTCAGGATTG
+AAAATGTTGCATCCTGAGCTTAATTTCCTTGATTTTACTTTGAACACTCTTTGAGTTGTG
+TTTCTATTTTTAGACCACAGAATTTAAGATAAATGTGCATAATTTAGAGAGGTTTCAAAG
+AAAGGCAAGTCAAGTGATTAAATAATGAGAATAAAATTAGTATAAAAAGTGCCAGGAACA
+TTTGGTCTTTTGAAAGGAAGGGCAAGGGGGCCATTTTAATAACAGCCTTCACATACATGC
+CTACTTATTCAGATAGACGGTTGTGAGGTCAAGCTGGAGGGGCAGATAGGGATCCGATCA
+CTATAGACCCAGATTCCTGCGGTAGCTTCCTACATTATCTCCCAGCTTTCACCCTCCTGG
+CAACATCCAGAGTGATCCTTGAGAAACCATAACAAATCACATCGCTCTTCACCTCCAATC
+CACCTCTTCACTCTCCATCAGTCCTTCTTATGAACTACACACACTCTGTGATCAAGCCCT
+GGCTGCCTCTAGGGATTGTCTCCTCCCATTCACCACTACAAAACTTCTTCCTCGAAGGTG
+TCCAGCAGGCCAAGCCACGCTGGACTCAGGGATCTCCCCACGGCTGTGTTCTTCCCATAG
+TACCACAAACCCTCCACTCCATTCACTTATCTGCTCAATGGCACCTCCTGTGAAAGGATT
+TAAAGTAGCCCTCCTCGTGATGTTTTATTCCCTTACTTTGCTTTACAAGCCATCAGAGCA
+TTTATTACTTCTTGATATTCTAATTCTAATATGCTAACGTTATATTTTCTATATATACCA
+TTAAATATGGAGAGAATGGATAGATATAGATTTAGATAGCTGATACAGGTAAATATAGAC
+AGAGGTAAAAATATAGATAGAGACTCTTTCATTTAGTCCTACGTGCCCATCAAAATGTAA
+GCTCCGTAAGGGTAGGATCTTTGTCTCTTAGTTAACTCCTCTATGGTGGAGGAGATGTGA
+GACAACCAGAAATTTCTGTCTAAAAAAAAAAATCACACACTCGATCACACACTCGATAGG
+TGTTCAATCAATATTTGGTGACTGAATGAATGGATGAATGTGATCCCTTTAAATCTGTAT
+CCTCACTATACAAACTTCCTTAAATATCTATTAGGTAATTTAGCTAAACTTTTCTTACTC
+GCTCCAGTGTGGTGTGTGTTTGTCTTTTCTTCCTCCTTGACCTATAACTATTGACAGTTA
+TACAATATGGTGGTTCCACAGCCACCAGCCTCCTTTTCCTATTCTCTAGAAAGAACGAGG
+ATGAGCTATAAAATTCATCTAACCCTATCATCTTTTTAAGGGGTATAATATTAAGTGGAA
+ATTCTTTACAAATTTAAAGTTATATTCAATTTGTAAATAAGAATAATTATTATTGCCTGT
+AACTTTTGAACTTGGCCCATCTCGTTTCTGCCTTCTTGAAATTCGGTATTTTTTATTAGA
+GCTTTCAGAGTCAGCTTTTGATTTTATTGATCTTTTTTGTTTTGTTTTTATTTATGTTCT
+TGTCTTTTTAACTTACATTGTGTGTGTATTCTTATTTATGTTCTTGTCTTTTTAACTTAG
+ATTTTTGTATGTATTCTTTTCTTTATTTCTACCTCCTACAATGGAATACCCAGTTATTTT
+TTATATATATGATATATATATGGCATATATATGACATATATGTATGTCTTTCTTACTTAT
+ATTTTTAAGTCTTTACTTCTAACTTCTAGAATGGAATATATATAAACCAAATATTTGAAG
+CAGCCTGTGTATTATGGATAAATATTTCTCTTGGATAGACACCAGTAAGTTTTATATATA
+TATATATATATATATATATATATATATATATATATATATATACACACACACACTCACACA
+CACACACACACGATTAAAATTCTCTTGTTTTTAATACATGTGGGTATGACTATGCATTCT
+TCTGTAAATACTACTTTATCTCATAAATGTTAATGAATAAGAAGTTTATTGTTTTGGCTT
+TAAGTTCATTTTGATATCCACTCTAATTCATTAATTCTTCAGTCACATATTGTTTTAAAA
+TACATAAGGTGTTATTGTTTTTAATTTTGGTATGTATTTTAATCGTGGTGAGAGACTATT
+ATCTGCGTTATATCATGTATTTGACATTAGCTGAGACTTCCTCAGTGACCATCAATATAA
+TCAATTTTGAAAATGTCCAAAAAAAAAAAAAGGGGGGGTTCCCTCTCTTGGCTTTGGAGC
+CCCCCTCCCTCTGTCTCTGTTCAGGGGGGAGCGTCTTCCTTCTTTCTTCCCCCTTCTACC
+TTGCCCATTAAACTCTCTGCTCCTTAAAACCAAAAAAAAAAAAAAAAAAAGGAAATAAAA
+TGTCTTCTGGTTTCTTGAAAAGAAAATATCTGCATTTACATTGTGCAGTGTTCTGTGTAT
+TTTTAAGTTTTTTAATTATATTGTTCAATTCTATTACACACTTAATATTTTGTATTTGCT
+TGATCAGTTTCCAGTAGACTAATATTAAAATCAATATTATAATAGTAAGTACATCCTCAA
+GATCCTAAAGGATTATTTATTTTTAAAAATGTTTTATTTAGATAGTCCTTACTATGTTCC
+AGACATTCTTAGCACTTTGCACATATTAACTCACACAACGTCACAATTGTTGCATTTTCT
+TGGAGGATTTTTCCAATTGTTATTAAATACTTTCCCTATCACTTTGGATTAAAATTGTTG
+GAGTTTTTAAATAAGAGGCTTATAACATATAATTATTGTCTTAGCCATGATGCCTTTTTA
+CAGGTAGTTTTTAGCAGTAGTAGTTTTAGTGTGAAAGTCTGGATATTTCAGTCTCTTTTA
+CCTTGCCCTCATTCTTTTTTTTCCCCCTCATTCTTAAAGCATATTTTACCAGTGCATAGA
+TTTCTAAATTAGATATCTATTGTCTTTTGACGTCAAATCTACTATTACTGTCATTGCTGT
+GGCTTTGCAGACAACCTTTTTTTAGGTAGTTTTTAAGAAACTTTTTTCTTTATCCTTGAT
+ACTGTGAGATTTCACTGCATTGTGTCTAGGCGTGGGTTTATTTTAGTTACCTTGCACGAT
+GCTTGTATTAGTGAGCTATTGTTATGTAAAAACTCAAACTCCAAACTCAACAGTTTAAAA
+CACCGTCGTTCATTCATTCATGCGCATACATTCACAGGAAGTTTGGGGATCATCTGACCC
+AGTCAGGATTTGGCAAGGCATACCACGAAGCTGTAGCTTGGGGTCAGGAGTAACATTTCA
+CATCTTTCCACCTATGGACAAACCCAGACACATGGCCAATGCCAAAGTCCAGAGGTAGGA
+AAGTACACTCTCCCTCTAAGCAGAGAAACTACAAAGTCTGACAATAGGCAGGTTACAATA
+CGGGGGGCAAGAATTCATTCTGCCATACTCTTTGATTTCAGTCTGAAAACATATATATCT
+ACTCATTATCAAAAAACATTTAGTCTTCATCCTTTTTTTTTTTTTTAGATGAAGTCTCCC
+TCTTTTTGCCCGGGTTGGAGTGCAGCGGCACGATCTTGGCTCACTGTAACCTTTGCCTCC
+CAGGTTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGTACGTGCC
+ACCATGCCCAGCTAATTTTTCTATTTTAGTAGAGACAGGGTTTCACCATGATGGCCAGGC
+TGCATCCTTTTGAATATTGTTTCAAACTATTCCCTCTATTTTCAGCTTTTGTAGCTTCTT
+TTAGATGTATATTTCAGACTATCAAAATGTCCTCAATGTCTCTATTTTATTTTTAATAAT
+TGTTCTATTGATTTTGCATCCTTTCTATACCTGACAAGACAATGAAATTCTGCTAAAGAT
+TTTCTTTTGCCTTTTTGGACTTCCTAAAATTTACATTTTATTTAAATTACGTAAATAATA
+AATAATATAATAACATATTTATTTTACAGAAATCTTATGATATATACAATTAAGTCTCCA
+TCAAATTTTTCCTAGCTCTACACTGACCTCTAAAAGTTAAATACCCACTCCAAAGATAAT
+CACTCTTATGTATTCAGCATATATTCTTTCTGATCTATCTGCTGGAATATATGTGTGTGT
+GTGTGTGTATATATATATATTTATTTATATACACACACGAACATAGAGGAATATGCATTT
+GTTTATGAGAACCTTTTTTTTCACATATGTGGCTATAATTTTCATGTTTTTAGGAGACGT
+TTAGGTTTTGTGGAGAGTGAAGAAAAATTTGGTCTAAAGGCTTGACGAAGCCCCATGCAA
+GTGAAGGGCTCTCTGCATTTTACACGTCATTTCCTTTGTGGTAAATCTGCTCTTCTGTAT
+TTCTGTAAATGTATCTTCTGCACTTTGTTTTTTCACTAAAAAATTTACATTGGCTATCTT
+TCCATTCCTAAAACAAAAATCTAGCCAACATAACTCATTTCAAATATTGCATATAAGTGG
+TTTTATCGGTATTAAATCATCATATTATAGCTCTTAACCAAATGTTTGAAGCAGCCTCTG
+GGTTATGGATAAGTAGTTCTCTGGGATAAACAGCAACGAGGCCAATGCTTTTATGAAAGA
+TATATATTTGTAACTGGAATATATACTGTGAAATTGTTCTCAAAAAAGCTGTTCTATTTT
+ATACACTTGCCAATAATTGATATTATTAATCATTTTGCCTAGCTTTAAAGCATTGTACTA
+ACTGGTACCTCTTAATGCTTTGAAGTCTATATTGATAAATTTAATTTAAAAGTGTGTTTT
+TCTTTGATAACATAAAGGAAACTGGAGAGGTGAGATGGAGAATAAAAATAAGACATATAT
+TATTTAATGAACTTTAAAAACAAAACCCTAAATGAGATAAGTCCCATTTCACTACTTCAA
+AAAAATATATAATGCAAAGGGAATACTTATACATACACTTGGGAATACTCTGGAATTATC
+TATGAATGCTGATGATACACATAAACCTAGTCTGCCCACAGTCTCAAGTCATTTGTAGTC
+CTAACATTCCACCTCATTTGGTACTTGCCCCAGTATTTTTTTCATTTTTAACAATAATTT
+TTATTAATTGTTGCACTTAAATAATCCAGATGGACTGGAGAAAACTCCACTTTGTATTTT
+CAGCTTCTCATATGCTCTTTTCCACCAGTATATGAGACACATTAGCAGAAAACAAAATTC
+TTATGTGAACACATGCTGAAATCTGAAAAAAAATAATAAGTGAGAACTAATCTCTAGTTC
+TCAACTCTTTCCAGATACACTATAGCTAATACCTCACTTTCAGTAACAGTATAAAGTGAA
+TTCACTGATAATAACCAGTGCAGCTAAGTCCTTCTGGTCTAGGGCAGTGGTCGGAGTGGT
+GTTTAATATCGGTGCCCTTGCAGCCACTTTGCTTACCAGCTAGTTCTCCCTGAACCAGTA
+CTGCAACCTGCAAGAGTCAAAAGCTTATAGGCAACCCATTGGTGAGGTCAGTGGGAAATG
+CAGGGAATGATAGTTAAGATAGAAGTGACACGTGTGGGAAATAGAGACTGGGACATCCCG
+CCATAGAGTTCTAAAAACAATTTCAATATTCTCGCTACAGTTCTTTTAGTATTTATCATA
+TGCCGTATATCTTCAACTATTTATTTTACGTATTTGATTGCTTGATATGTGGGACCAACC
+CCTTTCAAGAGAAATGACTCAATGTCAAAAGTTACGTATGAGCTGAGAGTAATATAAATA
+AAACATTAAGTCTGAAATTTCCATTTCATAGAACGTTTAGAGAAACTTTTTAAAAATATT
+TATGAATACTTACAATCTTCCTATGTGCTATAGTAACATTGCTGTCCACATTAAAAAAAC
+AATATGACATAACTCTGTTGAAGGAAACTCAACATCCACTTTAAAGTTAGTACATTTAAC
+AAGGCTGCCCTCAAAATGATTATTTAACACATAAAAATAAAGAAGATGCATTTACATGTA
+AACCATGTAAGTCTGTGAAGCTTGAATTTTTCATTTAGATCAAACGACTATTTCTTAAAT
+AAATTCTGCTTGCGTCCATGTTCTATTGTGAATTATTAAAAAGTGAAGTAATAACTGTTA
+AGGTATTAACTTCATTGGTAGAAAAACTTTATAGTTAAAAGATTGCTGGTTTTATCAATT
+TCATCAAATGCTTTGAATACAAATTGGTTAAGTTTATTCCAATAACATTGTTTTTACATT
+TTTAAAATTTTCATTCATGAAGTAGAGGAAAGATAAAATTATTTAGGAGTTCATTCTGAC
+AAAGGTGAAACATCCAACTTTACAATAAATATTTTCATAAGTTTATCAAAAAGTTTAACA
+CTGAATAATAGTAAAATTACTCATTTTGTGGTAATAATAAAAATATAAATTTTGATGGAA
+TACAGCATCACGGTAAACACGATTTTCTTGCTAATTCAACAAACCTGGGAAGCAGAAATG
+TACTTGGATTTGCAATGCATACAAAATTCATAATTGCATGTAAGCAAGTTATAATATCCC
+AATGGCTAAATAGAAACTCTGTTTGTCTTTTTTTTTTTTTTATCACACACACAATTTGAG
+TAACTAAACTACAACATTTTTATGATAAAGTTGATGTTGGAAACAAACCAAAAAATCATT
+TTTCAGCATGGCAATGTGCTCCACTCATTGGATTTTACAAATGTCTGAACATGTGAAGAA
+TTATTTCATAAATCAACTTAAACATGTGACAATTGTATTGAGCTTTTTTTTTGGTATGTG
+GGTACTCTAAAGATGAGTATCCTTTGTTTTTGCAAAACCAGTAAAAATATTTAATAAATT
+TTTTCTATAAATGTAGTACCAAAATGTTTGAAGTTTCTACTGAACCATTGAAAACAAAAT
+ACGTAAGCAGAAATATATGACAAAGTCAAGAGAGAAACTGAACAGATTAAACAAAGGACA
+TGCAACGTGTTATATGATTTCATTTCTCAATTTTATAATCCCTTTCTATAATATCTTGAC
+TTGCAGAGAAAATTTTTGTTGGAGTTTCTATGTTTAATAAAATAAATGGATATATTTACT
+AGAATGAAATGAAATTAGGAAGGCCTATGATTTTGCAGCATAAACGAAGCAATTTATTTT
+AATTGCTTTTTCCTAATTAAACTAAGAAAGGTATACATAGAAGGACAATATCTGTAAAAA
+TATTTAGCATACAGTATTAAAAATTTTCAATACACAATATTCTCCAGAGAGCAAAAGTTT
+CTCTGAGTGTAGAATTTATATCAATATCTGTGAAGATAATATTTTTCTCAATTATAGATG
+AGTCAAAAATTTTGAAATTTATTAACCCACAAGATCAAATTTCAAACTTAAAACAATTTT
+ATGAAAAAAAGTCCAAAAATAGTAAGACCAAGTTGAAAAAAATACATTTAATACACAAAT
+GGTGATGACTCAATTGATTAGTATAAGTTAATATCTCTAATACTTGATTAACTATTTCAT
+TTATCATAAGCCCATTTAAATGAGTGGACTTTGTCCTAATTGTCTTCAGTGTAGACAAAT
+GTTATTATATTTTAGACATAATTTGATCTCTGAAAACACTTTTAGGATAAGACTATTGAG
+TTGGCAAGCCAATATATTAATAATCAATTTATCAGTCAATATCTTAATTCAAGCTACTAT
+AACAGAGTACCATAGACTGGGTGGTTTATAAATAACAGATATTTATTTCTCACAGTTTTG
+GAGGCTGAAATTCCAAGATCAGGATATAGCATGGTTGGGTTCTAGTGAAGGCCTCTTCAC
+TCAGAAGACTACTGTCTTTTTGCTGTATCCTTACATGGTAGAAAGAAGTCAAGAGAGCTC
+TCTGAGTTCCTTTTTATAAGGGCATTAATCCCATTCATGAGAATTCCACCCTCATGACCT
+AAAAACTCCCCTATTCCCCACCTTCTAATAGCACCCCACTGGGGTTTAGGATTTCAACAT
+GTGAATTTTGGAGTCACAGACATTCACTCCAAATAAGTTAGTAAATACCAGTTTGATTTA
+CATAATGTCAAGTATTTGATAACGCCCTTTAACTCTCAAAATGTCCCTATGTGTACAATA
+ACTTACATGGTAAATTTGCCTATGATTGAGTAATTCCTTTCTTAGTTATTTACCCAGGGG
+ATTGCAGGCACAGCAACACTAAGAGACAGGTTAAAAAAATGTTCACAGCTATGTCATAAT
+AACTTAAAATTAGGAACAATCCAAATATCCAAACACAACAGAATGGATAAATAATATAGT
+TTAGTCTTAGCATTGACTGGTATGGAAATTAACAGGAAAAATGCAACTATGTGGATAAAT
+CACACATATATACCACTAAGGGAACGAGATTAATACAAAAAATATATAGTCTATGAAAGA
+AATATAAATGTCAAAATGAGACTACACTGTCACTATTATTCAAACATCTGTACACAGTGA
+AACTATATAAAAAAGAAAGAAAATACTGACCACAATTTCAAGATTGTTGTTACTTATAAG
+GAGAGAAAAGAGTCAGCAGTTCTGGGGCTCTGAAAGTATTCTATTTCTTGACTTTGATAA
+GGTTTAGACAATTGTTGGCCTCATTTTTTTTAAAAAAAGCCTACATTTGAGGTTCATTTT
+GTTTTTCCTGTATATGTGCCAAATTTTAATTTTTTAAAAAAAGTAGGTGAACAATCTGAA
+ATTAAAAGTTTTTATTCTAAGGCCTCTTTGTCATTTACTAGAGTAGTTGATACTTTTAAA
+ATGTAAAGCTGTTAAACAATTATAAATTATATTTATATCAAGGTGATTTTCCCAATCTAG
+TGAGCACATGTGAATATGTATGTATCTAATCTAGTGAGCATGTGTGAATATGTATGCATC
+TGTTGGGGGGAGGTTTATGTGTGTGCCTATGTGTTTGCTTTTTATGTCTGTGTAGTTGTA
+AGCATGTGTACATGTATTTAGGTGTGTGCATTTATTTGTGTGCCTGTCTGTGTGTGCATG
+TATGTTTTGTAGGAAGGTGAGGATACATTTTTTTTTGGTGTAGAAGATATGATCATCACA
+GAAATAATTAAAATGAGCAGGTTTTTGAAAATAAAAACCCCAAAACAGAAATAAAATTTC
+AAGTAAATGAAATAAAATGAATAAATATATTTTTTCATCAAGTTAGATGTTTCAAAACAC
+AGACTTCAATGTTAGCTTATTTCCAGCTTTTTGTTTTCTCAGTATGTGGTTCACGCAGCT
+ATAATGCTTTTGAGAACACAGAGCGCCAGTTGTGGGAAAAGAAGCTCTGTTCATTATCCT
+CAGGTTGTCTTCATTTCGTAATTCTTTTCACTACCTCTTTATGAGTATTATCACAAAACA
+AAAACAAGAAACACCTGCTGTATTGTACACATGATTTTCAATCAATTCATCAGCAGCTTC
+AGAGTAAAAGAAAGAAATCAAGCAAATTATTAGTCCACTTGGGAACTATGAGAACACATT
+TAAAGGATGTGAATATTTTCATTTCAAAGTAATTTTGTTTCTTTGCCTTTTGGAATCATC
+GGCACCAAATGCTTTTTGGCTTGCTGCTTACACTTTTCATCATCGCCTTTTAGATATTTA
+TTGGAAAAAGGCTCTGAATTTTGGGGGCTGCGAAATATGAAGATGCACACAAACACACCC
+CACATACAAAGATATAATGTTCATTATAATGTGACCATTAATTCTGCCATTCTTTCAAAT
+TCTGAATTCACTTCTTTAATCCTTTCAGCTTAAAATTTGATATTTTGATTCTTGGGTAGA
+AAAATTCACTTAAATATAACAAAGATTTATTGAACCCCTGTTATATAACATATTGGATAA
+ATGCTCTAGCTCTGAAGTTTACAGACCTGGTTTTGAATTTTAGCTCTACAAATAATTATG
+TCAGCTTTGGGCACATTGCTTAACTTCCATTCAATTCCATTTCCTCACCTGTAAAACAGT
+TACAGTGTCCTGAGATAAAACATTAGTAACCCAGAAACAAGCATAAAATCAAGAAAAATG
+AAATTATTATTAGAAAGGTAGTCATGTAACATTACTGAGCAATTGTCACATCCTCGACTT
+TGTATAGTAATGCAAACATTTGGTGAAAACTTTTGTGTTGCTTTCAACTTACATGAATTG
+AATGCCAATCAGAATATTTCTAGGATTACATCAAAATTAGTACATAAATTGTGATAAGCT
+GAGAAAATAACTTATTTTTTCACCAAAACAAGTTACCCACATTGTATTTTTGCATTGCTT
+AATGTATATATAAATGCAAGCCATATACCAATTACTAATAAATGCAATAGAATAGGACAA
+ATTCAAAGCTCTTCTCTCTCTCCAGTTCCAACAGGAAAAAGAAATCCATTTTTATTTTAT
+AACATTGGCTGAGTAAAAAAAAAAAAAGTGAATGAAGTAAAAAGATAGACCTTAATGTTT
+TAATATAACATAATTATGGAGTTCTATTTTTTAAAAAAATTCATAATGCATGGAGTTCAT
+TTTATAAATACATATTAATATCTATAGCATAGTAAAATTAAAATAGAACAAGTATTTATC
+TTGAGAATTATGCTGTCATATTCAAAGTCCATATTGAATTAGAAAATGTTAAGCTCAATC
+TTTCTAGCCATGGAGATTGATAGGTCATCAGATCATCTAGTGTAATCATCTATATGATCA
+GCACCTCTGTTGCCTCGTTCAGCACAACAGATCAACTAGAAGTTACTAGTTTAGGTAACA
+GGTAAAGGGATCTCACTGGAGGAGGACAATCACAACCAAACAAATAAATGAAGACTGTGA
+TGAACCAACCAACACTGACAGCAATCAGTGAAAGTCTGGGATAATTCCCCAAATTCTGAA
+TCCTGGTGTTTTTCTTAGTAAATTGATGTAGTAATTATTGTGGTGACTATGTGGTCTGCG
+TTTTTACTTTTAGTCCAAATTTGCTTCTTTCAGGGAAGTTATGGGCTTGCTACTCTGGAC
+TATGAATACTGAGGCCCTCATGCAGATACAAAGGAATGTCCTGTTATAGTCTGTGATATG
+GTTTGTGGACAGCCTTGCTTGTGGGTGCAGGGAATTAAGAGCACACAAGTACTAATGGAA
+TAAGAAGGTAAGCATGATATACTCTGGAGTTCAATATTCTAACCTTCTTCTTGAAAACAA
+AATTAGATATAAAAGTGGCAGCAACTCTGGTAAAGTCATGGGAAAAGAGTACTGCCAGTG
+ACCCTGTTATTCCAGCAGGATCTCATAGAGCATGCCATTAACCTCAGTCCACAAGAGAGT
+ATATTATACAAGGAAGCAATTAAAAATGGCTGGTGTCTAATCTCTTGTGACTTTTGGGTG
+CTGGATTTTCCATAAAACAAAGGCACATCAATTTCACTGAGGAAAACTCCACCCTTCAGG
+GACTTAGTTTGGACTTGCTCCCATTGATGTGTGGAAGTGAAAAAGTCAGCTCTTTGTTCT
+TGGTGTTTATTGGTTTATCACAGTCATCATTCTCTTATTCAGCAAACGTTTATGCAGAAA
+TGTCTATACATAAGGCTTTGATTTAGGTGTTCAACTACAAGTGAAATAGACATTTTCTTC
+TTTGTTAGAGCTTATTGTCTAGAGGAATATGGAGATAACATACAGGTAAATGATCAAACA
+AAAATATGAAATAACCTGAGAATGATGCTATGATACAATCAAATTAGAAGCTAAGCAAAT
+AATTAGAAGGAAAGAACACATGTGAACAGCTTAGACAGGTCGGAGCTCTCGGAGGAGTTG
+GAATTTGAAGACCTTGAAGGAGCTAGCCATGCAATGTGCAGGGAGAAGGAAGAGAGGCAG
+GCTCAGGGGCTCTCATGGTGTCCTATCAACTTTATGGTGATGTTCACTAAATCTATATAA
+ATTTTCTTGACATCACCAAAGTCTTCAGGTTAACAATATGAACTGTGTTATCCAATTAAT
+TATTTTACCATCATCACAAATAAATATACAAAACTAAATCATTATGTCATCATCCCATGC
+TCGAGAGTGCTCCACCTCAAAACTCAAATTTTCTATGACTAGCTGTGTTTTATTTATTAT
+TCCAGATAGTATATTTCATAAACATACATTGAAAGACACTATTTAGCTTATAAAACAGAA
+CATTAGCAATATTGTTGATGCCCTTTGAGTGCTTCTCCCCAATTTAATTGTCCTTTCTAC
+CCACCGAAGCTATCCATTACTTTGTGCTCTGTACTTGTCATTTTTTTCATTGTTGTTTGT
+CTCCCTAGTTTGTATCCTTAAATGAGATATTGTTTAGTTTGGTTTGTATTCAAAGCTTGG
+TAAATACAAATGTATAGATTCTCCACTGACTTGCTTTATTTTATTGAATTTTATTCAATA
+TTATGCTTCTGAGGGTCTGTTAACTTCTGTAGCTATATTTCATTCAATTTCACTGTTGTG
+CACAGTTCCATTTTAAGAATTTGCCCAAATGGGTATATCTATTTTTCCATTAACAGACAG
+TAGGTGGTTTCCAATTTTTTCTTACAATCAACAATATTACTATGTTCATATTCTTCTTGT
+GAATATGAAAATGGTTTCCAGAGGGTATATATTTAGTAGCTAAATTTCTAGGTCTGTGTT
+AGATCATGTGCAAATTACTAGGTAATATCATCAGGCTTTTCAAAAAGAATGTACCAATCT
+ACATTCCCACAGGCAGATTTCAAATCGTCTACTATTCCACATACCTATCATTTTCATATT
+TTTAAGTTTCTTTCAATATATTAGATATAAACAGGTATCTCATTTTTATTTTAAGTTTGC
+ATTTCTCTGATGACTCTTGATATTGTGAGCATTTTCATTTGTTTATGAGTCATTGCTATG
+TCTTCTATGAAATGTCTGAGCATGTCTTCCGCTATTTCATCTTCTAGACTTATTGTCACT
+TCCTTATTGAGTTTTAAAAGTTTATATATTCTTCATATGATTTAATTTTTGAACAGAAAT
+TTTACTTTGAATGTAACTAGATTTATAAATACTTCCTTTAAAAGTTTTTGCTACTTTGTT
+TGGTTTAGGAAATCTCCATAACTCAGTTAATTTTCTGCTGAAACTTTGAAATTTTGCCTT
+TCACATTTGTCTTTGACTTAGGCAAATTACTCCTTTTTGTGTATTGTGTGGGAGAATCCT
+ATTAAATATATCTTGTCAGAACGACCTGTGGATCAGCTGTGGCTGTGGCAACCACTGCTT
+GTGGAAAGTGGAGGAAAGAGTATGAAGGGTTTTGTATTGTGGTTTGAGTATCAGCTTAGT
+CACAGTAGACTAGAACATCAGGTAAATTGCTAAGGTTTTTGACTCGAATCCCTAGCTCTC
+AGACAGCATCTCTGGACACATACAGGGCCTGGGGAATCTCACTCCCCTTGAAGGGAAGGA
+ACTTAGGCAAAGTCCAGTGCTGTGCAGGTTTCAGGTTTGACCCAGCAGAGTCCCAGTGGT
+GATGGCCACAGGGGTGCTTGCATCACCACACACTTAGTTCCAGGTGGCCCAGCACAGAGA
+GAGAAACTCCATTTGTTTGGGAGAAAGCAACAGAAAGAACAAAAGTCTCTGCTTGGTAGT
+CATGAGAATTATTCTGGATCTTACACAAGATCACCAAGGTGGTACTTCTACAAGTCTGCA
+AAACATATACTTATTGGGTTTGCAGCTTAAGTCTCTTTGAATACCCACAAAGCCTTCCCA
+GGAAGGACAGGCACAAACAAGCTCAGACTGTGAAGACTACAACAAATACCTAACTCATCA
+ATGCCCAGACACAGACAAACATCTACAAGCATCAACACCATTCACAAAAACATGGCCTTG
+CCAAATGAAGTAAATAATGCAGCATGGTCCAATCCTAGAGAAACAGAGATATATGATGTA
+TCAGACAGAGAATTCAAAATAGCTGTTTTGAGAAAATTCAAAGAAATTTAAGATAACACA
+GAAGAAATTCACAATTCTGTCAGAAAAATTTAACAAAAAGATTGAAATAATTTAAAAGAA
+TCACACATTCTAGAACTGAAAATTGCAATTGACATGCTGAAGAATGCATCAGAATCTCTT
+AATAGAGAATTGATCAAGAAAAAAAATTAGCGTGTTTTAAGACAGACTATTTGAAAATAC
+CATTCAGATGAGACAAAATAAAATAATAAAAACAATGAAGCACACCTACAAGATCTAGAA
+AATAGCCTCAAAGGGGTTAATCTAACAGCTCTTGGACATAAAGAGGAGGTAACAAAAATA
+TAGAGGTAGAAAGCTTATTCAAAGGAATAATATCAGAGAACTTCCTAAACCTAGAGAAAG
+ATATCCACATTCAAGTGCCAGAAGGTTATAGAATACCAAACAGATTTAACCCAAAGAAGA
+CTACCTCAAGGCATTTAATAATTAAACTCCCAATGGTCAAAGATAAAGAAAGGACCCTAA
+ACACAGCAAGAAAAAAGAAACAAATAACATACAGTGGAGTTCCAATATGTCTGGCAGCAG
+ACTTTTCAGGGAAACTTTACAGGCCAGCAGGCTAGGAGACAGTGGTGTGACATATTTAAT
+GTGCTGAAGGAAAAAAACTTTTACCCTAGAATCATATATCTGATAAAATATCTCTTAAGT
+ATGAAGAAATAAAGACTTTCCTAGAGAAGCAAAAGCTGAGGGATTTAATCAATCCGAGAC
+CTTTTCTACAAGAAATGCTAAAGCGAGTTCTTCGATCTGAAAGAAAAAGATAATAGTGAG
+CTATAAGAAATCATGGGAACGTATACAACTGACTGGTAATAGTAAGCACACAAAAAAACA
+CAGACTAATATAACACTCTTCTTGTGGTGTGTAAACTATTCTTAAGTAGAAAAACTAAAC
+TATGAACCAATCTAAAATGATAACTACAACAACTTTTTAAAATACAGACAGTACAATAAG
+ACATACAGAGAAACAACAAAAAGTTAAAAAGTAGGAAGATAAAGATAAAGTGTGGAGTTT
+TTATTAGTTTTATTTCTGCATATCAGTTTGTTTATGCAATTAGTGGTAAGTTGTCATCAG
+TTTAAAATAATGGGTTGTATTTGCAACCCTCATGGAAAACTCAAATCAAAAAACATACAA
+CAGATATACAAAAAATAAAAAACAAGAAACTAAATTATATCACCAGAGAAAATCACCTTC
+ACCAAAAGGAAGACAGGAAGAAAGGAAAGAAGGAAGAGAAGGTTGCAAAATAACCAGAAA
+ACAAATAATGAATGAAAGGAGTAAATCTGTATTTATCACTAATAACATTAAAAGTAAATG
+GAATAAACTCTCCGATAAAAATACATAGAATGGCTGAGTGGATAAAAATAAACAAGACCC
+ATTGATCTATTGCCCGCACGAAATGCAGTCCACCTATAAACATGCACATAGACTAAAAAT
+AAAGGGATAGAAAAAGATATTCCATGCCAATGGAAACCAAAAGACAGCAGAAGTAGCTAT
+TCTTATATCAGACAAAATAGACTTCAAGACAAAAACTGTAAGAGACAAAGAAGTTCCTTA
+TATAATGATAAAGTGGTCAATTCAGCAAGAGATATAATGATTGTTTATATATGCACCCAA
+TACTGGAACATCCAAATATATAAAGCAAATATTGTTAGAGCTAAAAAGAGATAGACACCA
+ATACAATAATAGCTGTAGACTGCAACACCTCACCTTAAGCATTGGACAGACCTCCCAGAC
+AGAAAATTAACAAACATCAGATTTAATCTGCACTACTGAACAAATGGACCTAATAGATAT
+TTACAGAACATTTCATTCAATGGTAGAGAATACACATTTTTCTCCTCAGCACATGGAGCA
+TTCTCAAGGACAGACCATATGTTATGTCAAAAAACAAGTCTTAAAACATTCAAAAAATGA
+AACAATATCAAGCATCTTCTCTGGCCACAATAGACTATAACTAGAAATCAATAACAAGAG
+GAATTTTGGAAACTATACACATGGGAACTTAAAAATATGCTCCTGAATGACCAGTTGATC
+ACAGAAGAAATTAAGAAGGAAATTGAAACTTTTCTTAAAACAATGATAATGGAAACACAG
+CCTACCAAAACCTCTGGGATACAGCAAAAGCAGTACTAATAGGGGAGTTTAGAGCTGTAA
+GGGCCTACATCAGAAAAAAAGAAAAACTTTAAATAAATAACCTAATGATGCATCTTAAAG
+AACTGGAAAAGCAAGAGCAAACCAAATCCAAAATTAATAGAAGAAATAAAAAACATGAGA
+GTAGAAATAAATAAGTTTGAAATAAATAAAACAATCCAAAAGATCAATGAAACAAAAAGT
+TTGTTTTTCAAAAAGATAAACAAAACTGAAAAACCATTAGCCAGACTAACAAAGAAAAAA
+AAAAGAGAGAAGACCCAAATAAATAAAATCAGAGGTGAAAAGGAGACATTACAGTTGATA
+CTGCAGAAATTCAAAGGATAATTAGTGGCTACTATGAGCAACTATATGCCAATGAATTGG
+AAATATCAAAAAGGAATGGATAAATTTCCAGATGCATACAACATACCAAGACTGAACCAG
+GAAAAAATCCAAAACCTGAACATACCGATAACAAATAGTGAGATAGACACTCATAAAACA
+TCTACCGGTAAAAAAAAAGCATGGGAACTGATGGTTTCACTGCTGAATTCTACCAAACCT
+TAAAAGAAGAATTAATACCAATCCCACTCAAATTGTTCCAATACAGCAGGAAGAATTACT
+TTCAAACTCATTCTATGAGGCCAGTGTTACCCTGATACCAAAACCAGACAAAAACACATC
+AAAAAAAGAAAACTACAGGTCAATATCCCTGATGAATATTGATGTAAAAATCCTCAACAA
+AATACTAGCATATCAGATTCAACAACACATTAGAAGGATCATTAGTCATGACCAAGTGGG
+ATTTATCCCTGGGATGCAAGAATGGTTCAAAATATGCAAATCAATATCATACATCATATC
+AACAGAATGAAGGACAAAAACCATATGATTATTTTAATCGATTCTGAAAAAGCATTCGAT
+AATGTTCAATATCTCTCCATGGTCAAAACCTAAGAAAACTGAAGATAGAAGGAACATACC
+TCAAAATAATAAAAGCCACATATAACAAACCCACAGCTAGTATCATACTGAATGGGGAAG
+AACTGAAAGCATTTCCTCTAAGATCTGGAACACAATGAGGATGCCAACTTTTACCACTGT
+TATTCAACATAGTACTGGAAGTTCTAAGAGAGCAATCAGATAAGAGAAAGATATAAAGGG
+CATCCAAAATTGGAAAACAGAAATCAAATTATCCTGTTTGCAGATAATATTATCTTACAT
+TTGCAAAATCCTAAAGACTACCAAAAAACTATGAGAACTTATAAACAAATTCAGTAAAGT
+TGCAGGATACAAAGTTCACAAGAATTAGTAGCATTTCTATATGCCAACAGTGAATAGGAA
+AAAGAAATCACAAAAGTAATCCTATTTACAATAGACACAAAATTAAATGCCTAGGAATTA
+ACCAAAAAAGTGAAAGATCTCTACAATGAAAACTATAAAACATTAATAAAATAAATTGAA
+GAGGACCCCAAAAAATGGAAAGGTATTCAATGTTCACGAATTGGAAGAAGCAAAAATTGT
+TAAAATGCTCATACTAGCCAAAGCAACCCACAAGTTCAATGCAATCCGTATCAAAATACC
+AATGACATTCTTCACAGAAATAGAAAAAAAATTCTAAAATTTATATAGAATTACAACAAG
+ACTTGGAATAGTAAAAACTATTCTGAACAAAAAGAGCAAAACTGGAGGAACCACACTACC
+AGACTTCAAATTATACTACAGAGCTATAATAATTAAAACAGCATGGTACTGGCATATAAA
+TAGACACACTGACCAATGAAACAGAATATAAAACCGAAAAGCAAATTCACACACCCACTG
+TGAACTCATTTGCAACAAGAGTGCCAATAACATACCCTGGGGAAAAGACATTCTCTTCAA
+TAAATGGTGCTGGGAAAACTGGATATCGATATGCAGAAGAAAGAAATTAGATCCCTATCT
+CTCCCTTGTACAAAAATTAAATCCAAATGGGTTAAAGACTTAAGCCTAGGACCTCAAACT
+ATGAAACTGCTACAAGAAAACATTGAGGAATCTCTCCACAACATTGATCTGGGCAAAATT
+TTCTTGAGTAATATCCCACAAGCAAAGGCAACCAAAGCAAAAATGGACAAAGAAGATCAC
+ATCCAGTTAACAAGCTTCTGCAGAGCAAAGGAAATAATCAACAAAGTGAAGAGACAACCC
+ACCAAATGGGAGAAAATATTTGAAAACTATCTGTCTGACAAGGAACTAATAACCAGAATA
+TTTAAGAAGCTCAAACAACTCTATAGGAAAAAAAGCTATTAATTCAATTTAAAAATGGGC
+AAGATTTGAATGGATATTCTCAAAAGAAAACACACAAATGGCAAACAGGCATATGAAAAA
+GTGCTCAACATCACTGATCATCACAGAAATGCAAATCAAAACTACAATGAGACATCATCT
+CACTCCAGTTAAAATGGTTTGTATCCAAAAGACAGGCAACAACAAATTCTGGCAAGAATG
+TGGAGAAAAGGGAATCCTCATAAACCTCTGATGAGAATGCAAATTAATATATCCGCTATG
+CAGAAGACTTTGGAGGTTCCTCAAAAAACTAAAAATAGAACTACCATATGATCCAGCAAT
+CCCACCGCTGGGTATATACCCAAAAGAAGGGAAAGAAATATATTGAAGAGATATCTGCAC
+TCCCATGTTTGTTGCAGCACCTTTCCAATAGCCAAGATTTGGAAGCAACCTAGTTGTCAA
+TCAACAGATAAATGGATGAAGAAAATATAGTACTTATACACAGAATACTATTGAGCCATA
+AAAGAGAATGAGATTTAGTCATTTGCAACAACATAGATAGAACTGGAGGTTATTCTGTTA
+AGTGACATAAGCCAGGCATAGAAAGACAAACATCACATGTTCTCACTTATTTGTGGAATC
+TGAAAATCCAAACAATTGAACTCATGGTGATAGAGAATAGAAGGATGGTTAACAGAGGCT
+GAGAATTGTGGTGGTGGTAGGGGTGGATTGGGGATCATTAATAGGTGTAAAAAAATTAGG
+AAGAATAAATAAGAACTAGTATTTGCTAGCACAGCAAGGGACCATGATTAATAATAATTG
+TACATTTTAAAACTAACTAAAAGAGTATGATTGGATTATTTGTAACACAAAGACAGGATA
+AATGCTTGAGGGGATGAATACTCAATGTTCCATGATGTGACTATTACACATTGCATGCCT
+GTACAAAAATACCTCATGTATTCCATTAATATATCCATCTATGTATCCACAAATATTTTT
+GAATCACATTTTCACATAAATACATAAATTTTTATCTATAAATTAAACAGAAATTTATAA
+AACATATTAAAAAAATGGCAGTGTTCCAAAAAAAATTCTGTCAGCTAGATAATTATTATT
+GAGCAGTATGCCCCTTCACACTGGTCAGCAATACCATCCCATTTACATGCCACAGTCCAA
+CATTCGTCTGGGTCTGACCTTGGGCTTTTTTTTTTCTGTCTTATTGTCCACTTTTTCTAC
+TACGTAATCAAAAGAACACTGCCTCAGTTGCTGCATTTTATATTAACTTTTACACCAAAT
+ACAGTCTCATCTATGTTTTTGTGTACATTTTTAAATGAGCTTTTCAAGTTAGAAAAAAAC
+AGTGTTTGCATTCTGATTGGGATATTTCAGACTCTGAGATTTTCAGGAAATTTGACATTA
+TTACAGTTAATGAACTTTGTGTCTCTCTCCAGTCAATTTAGGTCATGTTTAATATCTTCA
+ACAAGGTTTTATCATTTTCTCCATAAGAACTTTGCCTATCTTCATTATGCATATTTAGAG
+ATACTTATGATCATTGATATTGTCATGCAAAGTAGCTTTTTTATTTAATAATGTCCCCAT
+GCTTTTAACAGCATTCAGATATACCATTTGGTGTTTCAGTATTTTATTTTGCTGTTCATG
+TTTTTATTCTGCTTTAATATAAAATACACTTCAAAGTATACCATTTTAATATGTGACAGA
+AAACATTTATTTTAAACATGTTCTCAAAATCACTCAAAATCCTAAAACAGGAGCAACATG
+GAGACTCTAGGCTTTTTCTCTGAGTTAATTATGCATTTGCAGGAGATCTTCTCTCATAGA
+CCTCTACATTTTTCCCTCCGAATTTGTTTTTTTGGCTTAAGCAATAGAAATCTATTTCTC
+ACACTTCTGGAGGCTGGGAAGTCCAAGATCAAAGCGCTGGCCAATTTGCCTGAAGGCCTT
+CTTCCTGACTTGCAGAGAGTCAGTCTCCTTCTCCCCATGTTCTCATGTGGCAGAGAGATC
+TGTCTCTCTTCCTCTTTTTTTTTTTTTTTTGTGTGTTTTTAGTAGAGATGGGGTTTCACC
+GTGTTGGCAAGACTGGTCTAAAACTACTGACCTCCAGTGATCCTCCTGCCTTGGCCTCCC
+AAAGTGATTGGATATCTTTCTCTTTTTTTAAAAAAAAAATTTTATTTCCATAGGTTTTTG
+GGGAACAGGTGGTATTTCATTACGTAAGTTCTTTAGTGGTGATTTGTGAGATCGTGGTAC
+ACTCATCACCTGAATAGTATACATTGAACCCATTTCATAGTCTTTTATCCCTTAGCCGCT
+CCCCATGCTTTCCCCTGAGTCCCCAAAGTCCACTGTGTCATTCTTATGCCTTTGCATCCT
+TATAGCTTAGCTCCTGCTTACCACTGAGAACATACGATGTTTGGTTTTCCATTCCTGAGT
+TACTTCACTTAGGTTAATAGTCTCCAATCCCATCCAGCGTGCTGCAAATTAATTAATTTC
+TTTTTATGGCTGAGTAGTATTCGATCATATATCACAGCTTCTTTATCCACTCATTGATTG
+ATGGGCATTTGGGTTGGTTCCATGTTTTTGCTATCGCGAATCGTGCTGCTATAACCATGT
+GTGTGCAAATATCTTTTTTCTATAATGACTTCTTTTCCTCTGGGTACATACCCAATAGAG
+GGATTGCTGGATCAAATGGTAGGTCTACTTTCAGTTCTTTAAGGAATCTACACACTATTT
+CCCATAGTGGTTGTACTAGTTTACATTCCCACCAGCAGTGTAGAAGTCTTCTCTTTTCAC
+CACATCCATGCCAAAATCTATTATTTTTTTATTATGGCCATTCTTGCAGGAGTAAGGTGG
+TATCACATTGTGGTTTTGATTTGCATTTCCCTGATCTTTAGTGATGCTAAGCATTTTTTC
+ATATGTTTGTTGGCCATTTGTATATCCTCTTTTGCTTATTGTCTATTCATGTCCTTAGCC
+CACTTTTTGATGGGATATTTTTTTCTTGCTAATTTGTTTGAGTACGTTGTAGATTCTGGA
+TATCAGTCGTTTGTCAGATGTATAGATTGTGAAGATTTTATCCCACTCTGTGGGTTGTCT
+GTTTACTCTGCTGTTTCTTTTGCTGTGTAGAAACTCTTTAGTTTAATTAAGTTCCAGCTA
+TTTATATTTGTTTTTATTGCACTTGCTTTTGGGTTCTTCATCATGAAATCCTTGCCTAAG
+CCAATGACTAGAAGGATTTTTCTGATGTTATCTTCTAGAATTTTTATAGCTTCATGTCTT
+AGATTTAAGTCTTTGATCCATCTTGAGTTGATTTTTATATAAGGTGAGAGATGAGGATCC
+AGTTTCATTCTCCTACTTGTTTGCCAATTATCTCAGCACCATTTGTTGAATAGGGTGCCC
+TTTCCCCACTTTATGTTTTTGTTTGCTTTGTTGAAGATCAGTTGGCTATAAGTATTTGAC
+TTTATTTCTGGGTTATCTATTCTGTTTCATTGGTCTATGTGGCTATTTTTATACTAGTAC
+CATGTTGTTTTGGTGACTATGGCCTTATAGCATAGTTTGAAATCAGGTAATGTGATGCTT
+CCAGATTTGTTCTTTGTGCTTAGTCTTGTTTTGGCTGTGTGGGCTCTTTTTTGGTTCTAT
+ATGAGTTTTAGGATTTTTTTTTCTAGTTCTGTGAAGAATGATGGTGGTATCTTGATGAGA
+ATTGCATGGAATTTGTAGACTGCTTTTGGCAGTATGCTTATTTTCACAGTATTGATTCTA
+CCCATCTATGAGCATCAGATGTGTTTCCATTTGTTTGTGTCATCTATGATTTCTTTCAGC
+AATGTTCTGTAGTTTTCTTTGTAGAGGTCTTTCACCTCCTTGGTTAGATATATTTCTAAG
+TATTTTATTTTATTTTATTTTTTGCTGCTATTAGAAAAGGAGTTGAGTTCTTGATTTGAT
+TCTCAGCTTGGTTGCTGTTAGTGTAAAGCAGAGCTACTGATTTGCATATATTAATTTTGT
+ATCCTGAAACTTTGCTGGATTCATTTATCAGTTCTAGGAGCTTTTTGGAGGAGTCTTTAG
+GGTTTACCAGGTATAGAATTATATTATCCGCAAACAGCGACAGTTTGTCTCCCTCTTTAC
+CAATCCGATTGGTCTGCCTATGACTTCCAGTACTTCACTGAATAGAACTGGTGACAGTGG
+GCATGTCTTGTTCCAGTTCTCAAAGGGAATGCTTTCAACTTTTCCCCATTCAGTATTATG
+TTGGCTGTGGGTTCGCCATAGATGGCTTTTATTGCCTTGAGGTATGTCTCTTGTATTCCA
+ATTTTACTGAGAGTTTTCATCATAAATGGATGCTGGATTTTGTTGAATGTTTTTTCTGTG
+TCTATTGAGATGATCATGTGATTTTTGTTTTTAATTGTGTTTATGTGGTGTATCACATTT
+ATTGACTTGGATATGTTAAACTACCCCTGCATCCCTGGTATGAAACCCACTTGATCATAG
+TGGATTATTTTTTTTTGATACGTTGTTAGATTTGGTTAGCTAGCATTTTGTTAAGGAATT
+TTTCACCTATGTTCATCAGGGATATTGGTCTGTAGTTTTCATTTTTGGTTATGTCCTTTC
+CTGGTTTTGGTATTAGGGTGATACTGGCTTCATAGAATGACTTAGGGAGGATCCCCTCTT
+TCTCTATCTTGTGTAATAGTGTCAATAAGATTGGTACCAATTCTTCTTCGAATGTCTGGT
+AGAATTCAGCTGTGAATCTGTCTGATCTTGGACTTTTTTTGTTTTTGTTGTTGGTAATCT
+TTTAACTACCATTTCAATCTCACCACTTGTTATTGGTCTGTTTAGGGTATCTAATTCTTT
+CTGATTTAAGATAGGAAGGTTTTATCTTTCCAGGAATTTATCCATCTCCTCTAGGTTTTC
+TAGTTTATGTGCGTAAAGGTGTTCATAGTAGCCTTGAATGATCTTTTATATTTCTATGGT
+GTCACATAATATTTTCTGTTTCATTTGTAATTGAGCTGATTTGGATTTTCTCTCTTCTGT
+GCTTGGTTAATCTTGCCAATGGTCAATCCTTATTTATCTTTTCAAAGAACCAGCTTTCTG
+TTTCATTTATCTTTCGCATTTTTTTGTTTCAATTTCATTAGTCCTGACCTGATCTTGGTT
+ATTTCCTTTCTTTTGCTGGGTTTGGGTTTGGTTTGTTCTTGTTTCTCTACTTCCTTGAGG
+TGTGACCTTAGATTATCTATTTGTGCTTTTTTATACTTTCTGATGTCGGCATTTAGGGCT
+ATAAAATTTCCTCTTAGCACTGCCTTTGCTGTGTCCCAGATATTTTGATAGGTTGTGTCA
+CTATTGTCTTTCAGTTCAAAGAATTTTTTAATTGACATCTTGATTTCATTGTTGACCCAA
+TGATCATTCAGGAGCAGGTTATTTAATCTACATATATTTGCATGGTTTTGAAGGTTCCTT
+TTGGCATTGATTTCCAGTTTTATTCCACTGTGGTCTGAAAGAGTACTTGATATAATTTCA
+GTTTTCTTAAATGTATTGAGACTTGTTTTGTGGCCTATCATATAGGCTGTCTTGGAGAAA
+ATTCCATGCACTGATGAGTAGAATGTATATTCTGCAGTTGTTGGGTAGAATGCTCTGTAA
+ATATCTAGTAAGTCCATTTGTTCCAGGGCATAGTTTAAATCGATTGTTTCTTTGTTGACT
+TTCTGTCTTGATGATCGGTCTAGTGCTATCAGTGGAGGATTGGAGTCCCCCACTATTATT
+ATGTTGCTGTTCATCTCATTTCTTAGGTCTAGTAGTAATTGTTTTATAAATTTTGGAGCT
+CCAGACTTAGGTGCATATATAGTTAGGATTGTGATATTTTCCTGTTGGACAAGGACATTT
+ATCATTATATAATGTCCCTCTCAGTCTTTTTTAACTGCTGTTGCTTTATAGTTTATCTGT
+TATCATAGAATATCTTTTTCCACCCATTTACCTTAAGTTTATGTGAGTCCTTATGTGTTA
+GTTGAGTCTCTTGAAGCAGTGGATAGTTGGTTGATGAATTCTTATCCATTCTGCAATTCT
+GTGCCTTTTAAGTGGAGCATTAAGGCCATCTACATTCAATATTGAGCACTGAGATGTTAG
+GTACTATTCCATTCATTGTGCTATTTGTTGCCTGTATACCTTGTTTGTTTTTTATTTATT
+TTTGTTTTATAGGTCCTGTGAGATTTATGCTTTAAAGAGGTTCTGTTTTGATGTGTTTTC
+AGGATTTGTTTCAAGATTTGGATCTCCTTTTAGCAGTTCTTGTAATGCTTGTAATGCAGT
+TCTTGTAATGGTCGCGGTGAATTCTCTCAGTATTTCTCCGAAAAAGACTATCTTTCCTTC
+ATTTATGAAGCTTAGTTTTGCTGGATACAAAATTCTTGGCTGATAATTGCTTTGTTTAAG
+GAGGCTGAAGATAGGGATCCAATCCCTTCTAGATTGTCAGGTTTCTGCTGAAAAATCTGC
+TGTTGATCTGATAGGTTTGTCTTTTTTTTTTTTTTTTTTTTTTAGGTTTTATCAAGTTAC
+CTGGTGCTTTTGCCTCACAATTCTTAAGATTCTTTCCTTTGTCTTAACTTTAGATAACTT
+GGTGAAATGTGCCTAGGTGATTATCTTTTTGCAATGAATTTCCCAGGTGTTCTTTGAGCT
+TCTTGAATTTGGAAGTCCAGGTCTCTAGCAAGGCCAAGGAAGTTTTCCTCGAATGTTCCC
+TCAAACACGTTTTCCAAACTTTTAGATCTCTCTTCTTCCTCAGGAACACCAATTATTCTT
+AGGTTTGGTCATTTAACATAATCCCAAACTTCCCTGATACTTTGCTCATTTTTTCTTATT
+TTTTTTATTTGTCTTTGTCAGATTGGGTTAATTTAAAAACCTTGTCTTCGAGCTCTAAAG
+TTCTTTCTTCTGCATGTTCAATTCTATTGCTGAGACTTTCCAGAACACTTTGCATTTCTC
+TAAGTGCATCCATCATTTCCTGAAATTTTGATTGTTTTTATTTATGCTACCTATTTCACT
+GAAGATTTCTCCCCTCATTTCTTGTATCATTTTTTTGATTTCCTTAACTTGGACATCATC
+TTTCTTTGTGCCTTCTTGATTAGCTTAATAACTGACCTTCTGAATTATTTTTCAGGTAAA
+TCAAAGATTTCTTTTTAGTTTGGATCCATTGCTGGTGAGCTAGTGTGATTTTTTGGGTGT
+GTCAAAGAACTGTATTTTGTCATATTACCAGAATTCTTTTTCTGGTTCCTTCTCATTTGG
+GTAGGCTATGCCAGAGGGAAGGTCTACGGCTTAAGGCTGCTATTTGGATTCTCTTGTCCC
+ATAGGGTGTTCCCTTGATGTAGTACTCGCACCCTTTTCCTAAGGATGTGGCTTCTTGAGA
+GTGGAGCTGTAGAGATTGTTATCTCTTTTCTGGATCTAGCCACCCAATAGGTCTACCAGG
+CTCTAGGCTGGTACTGGGGGTTGTCTGTACAGTCCTGTGATGTGAACCATCTCCAGGTCT
+CTCAGCCCAGGATACCAGCACCTGCTCTGGCGTAGGTTGCAAGGGGGTGAATTGTACTCT
+GTGAGGGTCCTTAGTTTTGGTTGTTTAATGCACTATTTTTGTGCTGGTTGGCCTCCTGCC
+AGGAGGTGGCGCTTTCAAGAGCCATCTGTTGTGGTAGTGTAGGGATGATCAGGCAGTGTG
+TTGGGGCCCTAGAACTCCAAAGAGTATATGCCCTTTGTCTTCAGCCACCAGGGTGGGTAG
+GGAAGGACCCTCAGATGGAGGCAGGGCTAGGCATGTCTGAACTCAGACTCTCCTTGGGTG
+GGTCTTTTTTGCTGCAGCTGCTGTGGGGATGAGGATGTGGTTCCCAGCTCAATGGACTTA
+TGATCCCAGGAGGATTGTGGCTGCCTTTGCCATGTCATGCAGGTTGTCAGGGAAGTGGGG
+GAAAGCCAGAAGTCACAGGCTTCATCCAGCTTCCACACAACCCCAGAGGCCAGCCTCACT
+CCCACCATGCCCCCACCAAGAGGGCTGAGTCTGTTTCCAGGCAGTGGGTGAGCAGGGCTG
+AGGATTTCACCAGCCTCCCAGCTGTGAAAGGAAGCAGGCCTTTTGTGCCTCCCTGCGTGT
+GGAGTCAGCACACCAGATTCACCCCCTCCCCGAGTTCTGGCCAGGAGACTTAGCATTCAG
+TTGGAATTGTTACAAAGTTCAGTTCGGTTGGAGGTGTCCTTCTCCCTGTGGTCTTTTCCC
+CATACCTCTGGCAGCCATCCCCAAGGACCCCTATAAGGCAAGGCAGAAATGACTTCCCAG
+AGGACCCAGAGAGCCCACAGGGCTTTTCCTGCTGCTTCCTCTACCTCTTGATTTCTTAAG
+TATTTTTTTGTTATTCCTATTTTAAGCAGTATTTTTCTTTTAATAGCTTGAGTAGAAATG
+AATTTGATTGCTTTGTATCAACCTTACAGTCAGTAAATTTGCTATTTGAATAATTTTAGT
+AATTTGTAAGTCTTATGGCATTTGTCTTTGAAATGTCCTCACATCTGTCCCATCCTTCTG
+CCTAACTAGCTTGCACACTACCTGGTACTCCCTTTCACTAGGCCCTCATTCACATCAGCC
+CTGCATTTCCAGAAGAGCTTCTCAAATCTATTCATTGTCTAGTAATTTACCAAACTCTAA
+TTTAGTCTTAAAGAGCATTTCTTAGTGAATGGAAATGGGCCTGGTTCCTAGATAAAAATA
+AAAGTGTTCAAAATCTAAGATCCGTATCTTATTCGATTTTCCTGCCTTTCATTTAAATTC
+CTCTAAAAAAATTTCATACTATATATTTATAATCTCAATTTCCAACCTGCTATCTTCCAT
+TGCTGTCCAACAACCATCCTTTGCTATCTTCCTCCCTTTACTCCAACCTGCTACATATCT
+CTCTAAATATTTCTGTTGTAAGCATTAGTCTCTGCTTTCTAAAGTTTTTCTTATTACCCA
+TATCAAAAACTCCTCTCACCCTCAAAACAGTAGTTAAGCCCCTCTTCTATTTGAAGATCT
+TCTGTGTTCCAATCCACTTTGATAGCTCACTGCCCTTAGTAATTACTCTTTGCATTTTTA
+TATTGTTAGATTGGTTTTTTTTATGTTTTTACTTTTCATCTGTCAATGATAATTTACTGA
+ATGTCTCACATGTGTCAGGCACTGTGTCCCGCAGCAAAGCCTCTTTCATAGGTTGCAAAT
+ATGTCACTAAGTATCTCAAAAATAGCCTAAAGTTAACCTCAGCAATTATAGCTGTTCAAT
+CAATATCTCTTTATTAATTTCCCTTTTTACACAATTTCTTTCAGAGCAATTCTGCACATG
+ATAAACATTTAATGTACATATTTGTTTAATACAAATTAATGAATACATTTTATTAAGAAA
+ATAAGACATTCTCCTGAAGGCAAAGCGAGTTGTATTTTTTCCAATGTAACTTGGGAAGTT
+CTGGTGGCTATGACAGGATTTCTTTGGGGAAAAAAAAGTATATGATGTGCTGCAAATTCC
+AGAATCCTGATATATATTTTCCCTGGTTTGCCTAATTTCTATTAAAATAAACTGTCTTAT
+TCCAAATCAACTTAACATAATTTAGGATAAATCACTGTAACTTTGTTTGATGTTAGCATT
+AAGTGGCCTATGTTATCACTTCATTATAAGGTATCTTGTGGATTTCTCTCTCCAAGTTTT
+ATCAAGAAGGAGGATATAAGCCTGCGATTGTCAAACACCTTGTCTGTAAAAGAATTTTTT
+AATTTTGCATTTTACAGAGAACCATTTAGAAAGTACAAGTTCTACAACCCAACTATTTAC
+TCAAGAAACAATTAATTAGCTTTCAATGACCTTCATTAATGATCGTAGTATTTCTAATTT
+CACCTACTGTTTAACCTTTTGAATTTCAGTCAAGACAAACAGCTCCACATGATACAACAC
+TTAATCAGAATGAATGCCTCAAATGGAAAAAGACTTTTGTAATCTCAAGTATTAACATTA
+ATAATACAATTGAATGACAAATATTTGCACAAATAAAGGAACAATAATCTATATTTTCTG
+TCCATTTTATTTCTGGGAAGTAGTGGATGCCAAGAATGTATGATTCTAATTATAGATTCC
+ATCATTCCAGAAAATATGGATATAGATAATTAAGCTCCATAGAAATACTCTTACATGTAT
+TGAAAACTTATAAATAATTAGTTTATACTCTCTTAATAGCTTCCTATGAGCTACATTTAT
+TTCTATAGTAATGGCTATGATATTTCATCATATTTTTAGCCAGTGATATAATTTCTTTTA
+CTATGACAATAGTGAATTTTTTCTGCCATTATCCCTGCACATTTTAAAAACCTTTCTAAA
+ACCGATATGAAAGCTTCAATAAAGCCTTTTTTTTCCCTTTATTTTATATTTTCCAGAAAG
+GTAAATAATGACTTTCAAATAATTTTTAAAAATTCTTTTTAAGGTTTCTTTTAAAATTTA
+AAAGGATTTCCTTTTTCCTTTTTAGTTTTTTTGTTTTAAAGACTCATTTAAAATGACTTT
+ATAATATCACCACAGGGACAATAATGCTAAAATAACAGAGCTAGACTCTTCTTCTTCCAC
+TTTGTGAATAATGGAGGGATCAAAGTCATTCATACCCAGATTTCCTTTCCTAAGCTATAC
+AACGTTACAAAACAAACTAAACACTGAGATTACTTGTCTTATTATCTTATTTAAGTAAAA
+GGCTATTACTCATTGTGACTAGAATTGTAACAATTAGACTTATTCTCTGAATGCATTAAA
+ATAAATTTCTATAATTAAAACAAGTATACTATTTCTATAGCAAATGTGGAAAGTATGCCT
+CTATCTTCACTTAAATTCAGAATAATTTTAGTAACCCCTATTTAAATAAATGCAGGTTAA
+TAAATCAAAATACCATTAACTGGGTAGCTTGTAAACAACAGAAATTCTTTTGTTACAGTT
+CTAGACACTGAGAAGTTCAAGATCAAAATACTAGCAGATTCAGTGTCTGGCAAGGACTCA
+GTTTCTTATAGATAGCCCCTTCTCACTGAGTTCTCACATGGGGGAAGAGGCAAAGCAGAT
+CCCTGGGGACACTTTGGGCAACTAATCCCCTTCATGAGGGGTTTACCCAAAAACCTTACT
+TCTGATTACCTTTCAAAGACTTCACCTTCCCATTACAAAGATGCTGGGGATTAGGATCCT
+CATATAAATTTAGGGGGGATATAAACTTTCAAATCGTATCAACCCTATCCTTGCTTTTTT
+AGCACTTCAGAAAGCAGTAATATTAAGGCACATTTTCCATAGGTGCAGAATCTCCATTAT
+ATGATTATATATATGTGTGTGTGTACATATATATATTTACATTTACTTCTGTCAAAGTTT
+TTTTTTAATACTTTAAGTTTTAGGGTACATGTGCACCATGTGCAGGTTTGTTACATATGT
+ATACATGCGCCATGTTGGTGTGCTGCACCCATTAACGCGTCATTTACATTAGGCATATCT
+CCTAATGCTATCCCTCCCCGCTCCCCCCACCCCACAACAGGCCCCGGTGTGTGATGTTCC
+CCTTCCTGTGAACAATGAGTACACATGGACACACGATAAAGCCTTTTTGAGAAATGCTGA
+CAGAAACAAAGTTAGAACAAATGTGAAACAAAAAGTTTCATCAGAGATTTTAGTATCTTA
+ACATGCCTTACAAAAGTTCGGGAGGGGCAATAATATGTATGAAACTTCCTAAAAATCTTT
+AACCATGGAACCCTTCTTTTTTCAACTTTCCCATAGGACTGAAGACATGTTTTGAAATAC
+ATTGGTAGAGTGAAAATGATTCATTAAGATTACATTTGAATCCCAATTTCTCTCAGTTCT
+GCCTCTGTTCGTTTTTGTGTTTTTTTTTTTTTTTTGCCTTGATATCATCATATGTAAGCA
+GGAAGTATTATTGACCTAATGGGGCATTGTATAAATGCAATAAGCGATTTCAATTGACTT
+AATTCAACAAACGTTTACCTAGGTTCTAGTAAATGATCAGTATTTAGTTAGGAGCTGGAG
+ATAAAGAAACTAATAAAACATAACCCCTGACCTCAAAGAGTTATTGTTTTAAAATTCATC
+GGCCATTTGCTGCCGTGGGAATTTTCTCTGGCCACATTCTTCTTTGGTTCCCATTTACTA
+CACGTTTTCTTTGCATTTTTCACTCTTCTCTGGCCGTCAGCTGCAGACTGTTATAGTCCT
+AACCAGAGTAATTTAACCTTCCATTTCCCCAAACCAGCTATCCTTGAAAGTCCAAAAACT
+CATAGATGGCAAACAATAAGCCATATATGCTGGATATCTGTCCTTACAAATACAAAAACA
+ATAAAATGATTGAAATGAAAGATTTTTCTTGAACACACACCAGATCAAATTCTTAACACT
+TCTCTCATCCAGACGTCTCATTCACGAGAGAAACAACGGAAACATATAGTGTCCTGAGGG
+CTCTGTGGTCATCAAGAAAGGTGATTGTTATTATTATTAATTGTGTACACTTTCATTTAT
+TCTTATACAAAATGAAATCTTCAACCAAATACTACACATACAGAGGTTAGACCTCTTATC
+TCTAATAATCAGCATTTGTTGCCATCACTATTGGGAGTACACTCAATTGAAGAAAGGAAA
+GAAAGGTAGGCATATAACCGTGAATGAACAAAACAAACATGTTCTTATGAACATTGAATG
+TTTCTGGCTGAGTGCAATGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGTCAAGGCAG
+GTGGCTCATTTAAGGTCAGTAGTTCGAGACCAGCAAGGCCCACATAGTGAAATCCCGTCT
+CTACTAAAAATACAAAAATTAGCTGGGTGGTAGTAGCACACACCTGTAATCCCAGCTACT
+CGGGAGGCTGAGGCAGGAGAATCGCTTGAGCCTGGGAGATGGAGGTTGCAGTGAGCTGAG
+TTCACACCACTGCACTCCAGCGAGGGTGACAGAGAGAGACCCTATCTCAAAAAACAAAAC
+AAAGCAAAACAAAAAATAACAAAAAATTAAATGTTTCTCAGCTAACCAAATTAGAATGTC
+TTCAGCTGAAGAAATAATAATTTATTCCAATTCAAAATAAATTTTTGACTACTACATCAA
+AAAAGAGGCAGTTAAAAATATACAAAAATGAAAACACAACCTCAATTTAAATTTTGCTGA
+AGCAATAATCTCAACTTTTAAAATACAAGCTTAAATTTTATACTGATAAATAGTTAACTA
+TTTATTGAAGCAATGCTCTCTGTTTAGAATTGTCAAATGATTTTTCTATTTTGTTTGCTT
+TGTATTTGAGAAAAAACCTTAGATTAGAAGCTTGAAGGTACAGATTACAATCTGCAGAAT
+GTAAACAGAGTAAATTCTGCAAAAAACAGCTCAAAGTAGAATGCCAGATTCTCTGGAGCA
+CTTGGAAAATTCTGACTACCTCAAGTAATTCCAGAGGATTCTTCCTTACTAAGTTCACTT
+GAATTTTTCATAGAAGACATTCATCTACCTGGTCAGAACACGAGCCCATAATTTCTGAAA
+AAGCATTATTAGTGTTTTGTAGATATCCAGAAATATTCATATTTACAAATATTTACAAAT
+ATCCAGAAATATGAATATTTCTGGATATCTACTCTCTCTTGCTTCACACACCCAATGTTG
+TGTTATTCTGTTTTGTGATTCCAGAATGAGATTAGATAATCTAATCAGGCATCATGTAAA
+AATTAAAGATTAATAGGGTCCCCTTTTCTTCCAACCTTATATCTTGGTGTAATGCTGATT
+GCCTCTTGATATGCTTGGCTGTGTGTCCCCATCCAGATCTCATCTTGAACTGGAATCCCC
+ACATGTCAAGGGAGGGAGGTGATTGAATCATGGGTGTTGTTTTCCCCATGCTGTCCTTGT
+GATAGTGAGTGAGTTCCCATAAGGTCTGCTGGTTTTCTAAGTGTTTGGCAGTTCCTCCTT
+CACATGCTCACACTATCTCTTGCTGCCTTGTGAAGAAGGTGCCTGGTTCGCCTTCCACCA
+TGATTGTAAGTTTCCTGAGGCTTCCCCAGCCATGTGGAACTGTGAGTCAATTGAATCTCC
+TTTGTTTATAAATTACCCGGTCTCAGATAATGTCTTCATAGCAGTGAGAAAATGGGCTAA
+TATACCTCTTATTAACATACATAATATACCTCTTATTAACATACATAAGATAATATACCT
+CTTATTAATATACATAAGACAACCTCTTATCTACATAAGATACTACTGACAAATAAGACA
+GTTTTCAGGGTTTATCTTTCTTTGATAGAGAGGAGAGTTTAGAAAAGTAAATGTAATAAA
+GATCATGGGTAAACACATTCTGATATGTTACATAGGTATGATGTAGAGTTACCAGAACAG
+TTCACAAATATTATCAAATACTTTTCTTGATTATTTTTTGTGCCCAAGAAAACATCATAG
+TCATTTTCTTTAAAATTACTTTATCTTCTTCTAGGGAACCTTTTATTTTTTTTAACTGTA
+CAATCACCAAAATAAAATTTCTAGATTTAGGTTCTTACTGATGAGATTAGTAAAATGGCT
+AAAGCTTTACGTACATTTACCCTAAGAGGGTACTATATCTTTTTCCAAAGAAAGAGGACC
+TGCCTGCCTAATAATTATACCCATGTTTCAGAGGCAGCTAAACAGAAGAAGGAAATGAGT
+GTTCCATCCCTGCACCCTCCCTCAGGGCAGTGAGAGAGTCGAAGGTCAGTTTTCTTCTTG
+ATGGTCCCTTCTCAAAACTTGCCTTGAACTTTGAATTATGACGTGTGTTAACTATCACTT
+CTGCCTCCAAAGTACTTCAGGTCAGTAGTCTGTTAAGATACTGCTTGCTATTAGACTATG
+AATTTAAACATAACAATACATTCCACAAATGATAATATTCTGTCACTTTTGTATACCCTT
+TATGTGCTTATCAACAATTGTAAAAACTGAACACATAATGCATATATCTAGTTCTTCATC
+TTTTTTGGGGGGAGTGAAGTCTTTTCAGCACACATAGATGAAAAATGACGTAAGGGAAAA
+CTCCACTCACTTCTTTTGTGTATGCAGGATCCAAAAGTAAACTATAATCCCCATTCCAGG
+CTGCAGTGTATATTTTACTCATGTGTCTAGATAAGTGCACTGTATATGTTATCCCATATA
+ACACAGAAAATATATCACTGCAAAGCTTTAAAAAGTCATTCTGTCATTTTGAATCAAAAG
+TTGGGGGAGCAGATGGGTAACTAGCTTGGAGGAGAGAGACGGGGTTACTATTGGCCAAAT
+GCAAGAGGAAGTATGAGAGTCTAATGATGAGGGCATTCTACTGCTAAGCATGTACAAAAT
+TTAGTTTTGGTAATAACTTTTCTACTCGGCGTGCATTTTATAGCTTGGGGTTATCTGCTG
+ACAATGTAAGAATTGAACATCAAGTGGAAGCTCTAAGGAATCAGAGTGGATATTTTGAAA
+GTTGCTAACAGAAGTAAATATAATTTTGAGTAAGAACATAGGTGTTTATCCAGCACAGAG
+AGCGCATGATGTGTTGGATTGGAAGTTACCCTCTGTATTATCAAGGCTGTCCTCAGTAGT
+TTCTATCTGTACAGTGTTTGACATCAAGATTACCATGTGTTCTTCACAGCCAGCTAGTGA
+GTAGGTTAATAATTTTTGTGCTGTTGTATAAATGGTCCAACTGAAACAGATAGGTTCTAC
+AAACCTTGGAACAAATACAGAATGGAGTGTGTTATTTAAAATATGTCAAAAGCTATATGA
+GAAGCTATATTATTATAAGTATATAAAGTACCAAATAAGGTTAAGTAGATATCCTCTTAA
+TTTTGAGGTTCCGTTTAATCAAGATGGAAATTCAATCAGTAATAGAATGTCGGCGTTTAA
+GATTTTTTTTTTGGATTAATTTAACTAAAGTAGTTGTGTAAGCTCCATAAATTAAATTTA
+TGATGATGTGGGTCAAATGAAAATATGTGACTTTACGGTAAAGCTGTAATCATAAAAAGG
+TGAACATTGCCTATGTTGTCTTCCAACTGAAATAAATTGGTTACCTAAAAATCTCTTCCC
+AATCCTTCTGACTTCAGCTCAGTCATATAAGAGCTCAGAAAGCAACAACTCCATTTTTAC
+AATAAGAAAAAAAAGATTAACTTAAAAAATCAATGACTTTTTAAGACTCATCTGAGAATT
+AAGGTCACATGGCAAACTGCTACCCCAAATTCTGTAGACAAATGAATGTAGACAATCACA
+GCACAGAGCAACTGACTTGGAGCAGAAACCACTGCACCCAGACACTGGCAGGAACACTCG
+CCTTGTAATTTTGATATTTATTTCCTGAGGCTGAGTGTGGATTAGATTGAGAAAGAAAAA
+CCCTGGATGGTTTCCATCTTATGGGGACCCCACACTTTTATAAATTTTACCTCCAGGAAT
+TCTACAATATTCTCATGGTAAAGAGTTAAAAAAAAAAAAAATCCCTTCTTGGCTCTGGCA
+GGAGGAGGTGAAAGTGGCCATCTGGAAATACACATTCCATAATGAAGGCCTGCTCTCCAG
+AGGAAGGGCTATTACCCAACTCCAGGCCACTCTAGAGTCACCTAGTGTGAGAAAATCAGG
+GAGAAAAGTGTTAAATATACTTGTAAAGGTCATACACCAGGCCCGAAGCCTACTAAAAGA
+CAGATTTAATCCTAAAATTACTTAACACTTAAAGCTCCTTCACCTCATCCTTTCCTTACC
+ACTACACCAACTAGCTCCAGTCTGATACCAGTGGATACAGATGAAAGAACTGTAAGACAC
+AGACTCCAAGAAGTTCTTGGGGGAAACTCAAAGACAACAGGAGAGACAAAAACAAGGACA
+CTAGAGGAATTTGCAGATCCTAGAACCTACAGCTATTGGAAATACTATGCATAGCCAAGC
+TCCTACCCCAACAAACTTAAAAACTCACATTGAAAGCCTATTTTACCCTATTCCTGTAAC
+TCAGTATGTCACGTCCAACTTCCAAAAAAATTACAAGGATAGGCTAACAGGGAAGAGAAA
+ACACAATCTGATGAGACAAAGCAAACCTCAGAATCAGACTCAAATATAATACCAAATTTG
+GAATTATCGAATAAGGATTTAAGAGAACTATAATTAATATAATAAAAATTCTAATAGAAA
+AAGCAGAACAAATGGATAATATAAGCAGAAAGAATGAAACATTAAGAAAGAATCAAAAGG
+AAATGCTGGAAATACAAAACACAGTTACAAATGAAGAATGTCTTTGGATGGACCTATCAG
+GAAAATACGTGAGCTTGAAGCAATGTCAACAAAAATTTCACAAGCTGAAATAGAAAGAGA
+AAAACATAATGAATCAATAGAGGATCCAAGAACTGCGAGACAATTTCCAAAGGTCTAATA
+TACCTTTAGAAATTGGAATACCAGAGGGAAAAGAAAGAATAGAGCACAAGGAATATTTGA
+AGTAATAATGGCTGAAAACTTTCAAAAGTTAATGACATACACTAATTCACAGACTCAGGA
+AGTTCAGACAACACCACACAGAATAATTCCCCCCCAAAAATCTACAATTAGGCATGCCAT
+ATCCTACTGTGGAAGCCCAACATTGTATTCATTGTATTTCATTTGAAATACAATGAAAAA
+AAGAGAGAAAAAAATGCCTTACTAACAAAGAAAAGAGATGAGAAATATTGTCTACTCATG
+AGAAACCACGCAAACAAGGAGCTAATTTAAAAAAAAAACAAACAAACCTAGAATTCTAAA
+ACCAGCAAAATTATCCTTCAAAAGTGAAAGAGAAATACCTCTTGGAAAAACAAAAAGTAA
+GAAATTCATTGTAAGCAAACCAGCCCTGTAAGATGTTAAAGAAGTTCTGCAAGAAGGAAA
+GTGATATGGGTCATAAGCTTAGATCTACACAAATAAAGAAAAATATTTAGGAAAAGAATT
+ACGGAAGGTAAATAATTTACTTTTTAAATTATCATTTGATATAGTAGATAACTGTTCAAA
+GTAATCATGGTACTAATGCATTATGTAATTATAGTATGTGATAAGTGAAATGACTCCTAA
+GAATAACATAAGAAATAGAGGGAAGAATTGAAAATACTATGTTTTAAGTTATCTGTACAA
+CCCATGAAGTGGTATAGTGGTATTTGAATGTGAAGTTGGATTAGTTAATAGTATACTGCA
+AGATGTAGGGCAAAATACAATAAAATAATACGCAAAGAGAAGAGAGAAAATAGAATCATA
+AAGTGCTCATACAGATACCCTTTGGAAGACAGTTTTTCAATTTCTAATAAAATTAAACAT
+AATCTTACCATGTAAGCCAACAATTGCACTCTGATATTTTATGAAAACTTAAGGCTTTAG
+AAAAACCTGCACACAGATGTTTATATAGAACGTTTATTTATAAATTACCAAGACTTGGAA
+GCAACCAAGATGTCCTTCAGTAGGTGAATGGATAAAAAATGAAGTACATGCAGACAATGA
+AATATTATTCAGCATTAAAATGAAATGAGCTATCAAGCCATGCAAAGACACAGAAGAAAT
+GTAAAGGCATAAATCTAAGTGAAAGAAGCCATTTTGAAAAATCTACATACTACATGATTC
+CACCTATATGACATTCTGGAAAAAAAGTGGTTCCCAAGGGTGAAAGGGGAGGGAAGGATG
+AATAGGCAGAGCACAGAGGATTTTTAGGTCAGTGAAACTACTCTGTATGATACTGCAATG
+GTGGATACATGTAATTACACATTTATGCAAAGAATGTTCAAACCCAGAAATTAACTCTAC
+TGTAAACTATGGAATTCAGATGATAATGATGTATCAATGTAGGCTGATCAATTGTAACAA
+ATTTACCACACTGATGGGGTTGATAATGGGGTAGGCTTTGCATCTGGGCACATGGGGTAT
+ATGAGAAACATCTGTGCCTGCCTCTCAATTTTGCTGTGAACATATATCCACTCTACAAAC
+AGGCTTAAACCTGCTCAATTGTGAAAGAAACAAAGAATAACAAATAGAAAAGAAAACATG
+GTACACACTTGCACATATACACACACATACACACACACATTATACATATATGATGTGCAC
+ATGATATAAACAAATACTAAATAGACTGAATATACAACCATTCCTCAATATCCATGGGCA
+TTGCTTCCAGAACCCTCTTGCAGATACTAAATTTTGCAGATATTCAAGTCTCTCATATAA
+AATTATGTAGTATTTGCATATAACCTAGGAACATCCTCCTGTATACTTTAAAACATCTCT
+AGATCATTTATAGTATCTAATACAATGCAAATGCTATGTAAATAGTTGTTATATTGTATT
+TTTTAATTTGTATTATGTTTTACTTCTGTATTTTTTTCCCGAATATTTTCTATCCATGGT
+TGGTTGAATCTGCTGATGCAGTCCCTGGGGAAAGAGAAGGCTGACTGTATAAATAAATAG
+GGGAGAAGAGACAAATTTCCATTGCAGACAAATTCTGCACAATTTATGCATATACGCTGC
+ATAAATCTGCACTTTTAAAATGTGGGCTGTAGATAATGACTTTGCTCCACAAAAGTCTCT
+ATAGAAAAGGGAGGCAAAAAAGATTACAGTGGAGAAAACTGATAAACACAACTTTAGCCA
+GGTGGCCAAGGTCAACGTCAAGAGTGATAAGTCATGCTAACAGTATGTATCTTGATTTGT
+TGTTGGGGAAGCAGCCATCACCACCTGTCCCACTCTAGGAGTTTGCTGAATCGAGGCTCT
+GGGTCTGGAAAGTTCCCCAGTATGGAAGTTGGCCCCAGATTCTTCTTACTTATTAGGATA
+AACTTTCCCTTCTTGTATGTGGTGAACTTCTTTGTGTTGCTTAAGCACGTGCACCAGATG
+GTACCTGCCCAGCCCCACCAGTATATCTGCACCCCCAGGGAAGGGAGAGAGTCTCTTGAC
+TATGGCATAAGAAGGGTTCATTCTGTCCATCACTCTGCATCAGCTCCTGGTAGGGACCCA
+CTTGCCCTGGAAGACTGAGCCCACTACAGATGTTGATCTTGCTGCAGCTCTTCTCATTTT
+TGTGAGTACAGAGTTGTTCTAACCAGTGCCTGGTATGTCAAGTCCTCCTTGGCAACTCCT
+CATCCTTAGAATATGCAGTGGGCTGAGGTCTGGGGCCTCCTACTGCTGGTGGTTGGCATT
+GCTATGATCTTTGCTGCCCTCCATGTGGTGGGGACTCTTCCCTCAAATTGGTTGCTGAAT
+CTTCCTGTTTGGTAGTAGGATATGATTGACTTGGCACTTTATCTTTGTGATCTTCCTCAT
+AAAAACCAATTACTCTAGTTGAATTATGAGAAAAATATCAGGCTAATTCCAAGACAAGGG
+CATCCTATAAAGTAGTTGACTGGTATTTCTCAAAACTGTCAAGGTCATGGAAAGCATGGA
+AAGTTTGAGGAACTATTCCAGCCAAAAGGAATCTAAGATGATATGACTATTAAACGTAAT
+GTGATAACCAGGATGGGGTCCTGGCATGGAAAACGACGTTAGGTAAAGCTAAAAAAACTG
+GAACAAACTATGGATTTTAGTTAACTATAATGTATCAATATTGGTTCATTAATGGTAACA
+AATGTACCATAGCAATATAAGATGTTAATTATGTGAGCAGGTATGAGGAAACTCTATGTA
+CTATCTTTTCAATTTTTTTCACAAATCTAAAACTATCTTGAAAAATAAAGTCTATTATTT
+TAAAATATTTTTGTTATATGGTAGCAGTTGGATACAATGTTTTCACTGAAGCTCTGAAAG
+AATATATGCCTGTATTCCCTTTTGAAGGCATATAGGCAACAATGTTTTAATATTATTTTC
+GTGTCATTAGTATTTATAGTATAGATAGCTAAACGAACATAAAAGTGAGTTTATTTAAGA
+AATGAAAAAATGACTGCTTCTCATATTTTGACCAGTGGCCAAATATGTCTATCTGGAGAT
+TACTCCTAGAACAGCTCACGTGTGAACCTAGGAGCTAGTCTCGAACCTGAGTGAGAAAGA
+AAGCCTGTGTGTTAGCTTAAAAGTGTGGATCTTGGTGTTCTTCAAAGCACAGTCCATGAG
+AGCTGAGAGCCCTGACTTAGAGGAATTCACTCTGGAAAGAAAATGGGGAAGACACAAAGC
+ACAGCACTTTCATGTGAAAGTGGACGTGAAGCTGATGAAACTGTTCCCGGGACTGAATCT
+GGCTTTCTGCACAGCAGAAGCAATGACTGCCTATGTGTGAAATGACACGCTGGAGCCCTT
+GCTAGGATAGAAAGGGCTTAAGGAATCCCTCTTTAATGTTCTGCTTATGAAATTTGAGGA
+GACAAATTTTTCCTTAACAGGAATAACTTTTAAAAGATGAAAGAAAGCATAAAATAGATG
+CTCTGAGCTAAGGCAGAACGATCAAATGCAGCATCTGGGAAACTTGGTGGTGAGCAGTGT
+GTGTCTGAGAGGAGGAAGGGAAATGCTGAGTCTCTGTGGATTGTATTAAGAGTACAAAAC
+TCCTTAACACACAGAGGGTGAATCCCCCCGTAAAATATGTCGTAGATACCAACCAGGTAG
+GAGCAATGCCTCTTGGGGAGGTGGGGTACAGATGCCACACTTTAAAACTGGACTATCTTC
+TGTACTGCGTGTACATCAGAGATGACTAAGCTACTAGGTGTGAGGTCACACAAATACTGC
+TGTGGAGGATCTATGCTACGCCCAGAAGAAGGAGAGGTAACTGAAGGCCCTGGGGACAGA
+GATGGTGTTTTAAATTTTTATTCCATCAGGAGGTTGAGAGTCAGAAAAGAAAGAAGTATT
+TGGAAAGAGAAGAGCAATGTGTACAGGACTTGTGAAAGAACAGGAAGTGGTTTGCAGTGT
+GAGGACTGCCTTGGAAGGGCATGGGCACTTTTTCATGTCCAGCCTCTTCTGTCCTGCCCT
+TTATCCTCACTTCTAGTGTAGCTGTGAAATGGTACGTGCTCACAAAAGCCTGTGCATTTG
+TCGGTCATTGCACTTGCAGCTGACATTGTCACTGTGTAGTAGACTGTATTAAGGGATGGA
+GATGGCTGTTGTACTCCCCGACTTGACTTACAAGGAGTTCTCTGCTTACGCATTTATGAA
+GGATGAACTTATGAACAGGAGAAGTCAGTCTGGAAAGGGAAGGATTAGACTGAATGAAAA
+TCCCAGGAAGATGGAAGTTTCCATCTGTAACTTCAGCATCTAGTATCATGCCTGACATAG
+AGCACAGTCTCAGTAGATTTGTATTTAATTAATCATTTACTTAATTAGTTACTGTGAACT
+ACAGTGTACATTTAGAAAAGAGAAAAATCATTGTAGTCAAGGGAGGATGGATTTGAATTC
+TAGATCTTCCACGTCTTAGTACTGTGACTTACGGGAAGTTTTTAGAAACTTGCTTTCTAC
+ATGTACAAAAGAACAATATTCATATTTATTTCACAATGTTGTAAAGAGAATTACATAATG
+TAGAAATAGATAGACAGACACATACCATTCTTTAAAAGGCCAGTTAGAGCAGGTACAGAT
+ATTAGAATTGTAGTTATGATTGCTTTTATTATTATTTCATGGCTTTTTCCCACATTGGCA
+TAGGTTATATGTCATCAAGGGCAGAGAAAATATCTTTTTCCCTCTTTTGTGTTCCTTGGT
+ATAACGTAGCCAAGTATGCATTTATTTCTATTTATCTAAATCTGTGTAACTGTGAGCAAA
+ATTAATTTTACTACAATGTAAATTTGATAGTGAAAATATACAAAAATATTATAATTCCAC
+ATTATAAAAATATTATAATTCCACAATATAAAATATTATAATTCCACAAAGTATGTAGAT
+GTCACCCAATGATAAAGATAGGACACATATCAATATACAGCTACCCCACCTTAGGACTCA
+TAACCAGTTTACCTATACATTTCAGAGTTAATTCACTGCACTTGCTAACCCACTGAAATT
+TCATAGGAGCATGCAACCACAAAGTCATCACAATTCAGTCATTTTCCAGCTATCACTTTG
+AAGACTTTCATTTATCACAGTTTTGGGAAATAAGATTTTCAGTTTCTCTGACTTCCTCAA
+TAAATAATGTGACCATTTAATAAATATGTGTTTCTTTAGTAAGCAGGCTCTGCCCATGTT
+GAAGAAAGTCTTTTGGGATCATTTATTCCTACACACCGGGGAGGGCTGGCACTACATACC
+AATTTAATGCCAGTATTCTCTTTCCATGACTACAAATAATAAAAATAGCCTTTTGCTTTT
+AAAGTTTGTTCTCCAATAAAATATGTAAAAAATAGAAACAAATGTCTTATTAGTTTCATG
+TAGGTATTGTTTTACTATTTATTATTGTGCTTGCATTTCAAGAAAAAGTCAAAGATACAA
+AGGTATAAAGAAAAACCAGAATGTTTCTCTCTATCTCTCTCTCCCTCATAGCATCCTTTT
+GAATGTTTATTACCAATTCTGAGAAAAATAAACCTCAAAGAATACCTAGCCCTTTCTTTA
+CCATTGCTTTCTCTCAAATTCACACACACACACACACACACACACACACACACACACACA
+CACGGGCTCCTTGTCAATGAGGCTGGCTGATAACAAAGGAAGACATGGTGACTTTGCTTA
+GTGCTTGCATGAAAACATCCTTCCTTTCTGCCCACCCTGCCACTCACCGTCAAGCTACAA
+GAAAAGCTATGGGCCTCAAAATCTTTGGTTAGTGCTAGGCGAAAGGCAGAAGAGGAAGAT
+AGATGCTAACGTTTTGAAGTGACTAGATAGAATTCAGATAAACCAAAAGGAAAATATTAA
+CATTTTGAAGAAAGAAAAATCAGTTTTTATCTTTACACAGAAAAGTTGGGTGGAATTTTT
+CTATTTCCATATTTCTCTATAGGACCATGGGAACATTGCACATTACATCTTGTGTGTGCA
+TGCACACACACACACGTACATGTGCTTTTGTGCATGCGTGCACATGTTCAGCTAATTTAC
+GTGGTAAATACAACTCTTCCTTCTGATTTCAATATGCATAATCTCATTTAATATTTGAGC
+TCTCCTGACAGACAGTTTGTTCAGCAAATACTGAGAAACACTCACCATCAGTTTAGAATA
+TAAAATTCCCTTAACACCCATCTGAGTTATTTGTCTGAATGTCTTCTACAAAGGCCTCAG
+CCCTATAACTAAAATGAGATAGACATGAGTGCACAGTTGTTCATTGTTCTTTCACTTGAC
+TTATTAATCGTTATATGATTTACTGGATTTGCTTCTTTTTTTTACAATAGCTTTATTGAG
+ATATAGTTTACATACTGTCAGGCCTCTGAGCCTAAGCTAAGCCATCATATCCCCTGTGAC
+CTAAATGTACACATGTAGGTGGCCTGTTCCTGCCTTAACTGATGACATTCTACCACAAAA
+GAAATGAAAATGGCCTGTTCCTGCCTTAACTGATGGCATTATCTTGTGAAATTCCTTCTT
+CTGGCTCAAAAGCCCCTTTACTGAGCACCTTGTGACCTCTACTCCTGCCTGCCAGAGAAC
+AACCTCCCTTTTTCCTTTACTTACCTAAATCCTATAAAACGGTCCTACCCCATCTCCTTT
+CGCTGACTCTCTTTTCGGACTCAGCTTGCCTGCACCTAGGTGATTAAAAGCTTTATTGCT
+CACACAAAGCCTGTTTGGTGGTCACACAGACACACATGAAATTTGGTGCCGTGACTCGGA
+TCAGGGGACCTCCCTTAGGAGACCAATCCCCTGTCCTCCTGTTCTTTGCTCCGGAAGAAA
+GATCCACCTACGACATCAGTTCCTCTGACCAACCAGCCCAAGGAACATCTCACCGATTTT
+AAATCCGGTAAGCAGCCTCTTTTTACTCTCTTCTCCAACCTCCCTCACTATCCCTCAACC
+TCTTTCTCCTTTCAATCTTGGCGCCACACTTCAATCTCTCCCTTCTCTTAATTTCAATTC
+CTTTCATTTTCTGGTAGAGACAAAGGAGACACGTTTTATCCCTGGACCCAGAACTCCGGC
+GCTGGTCACGGACTGGGAAGGCAGGCTTCCCTTGGTGTTTAATCATCGCAAGGACGCCTC
+TGATTATTCACCCACGTTTCAGAGGTGTCAGACCACGCAGGGACACCTGCCTTGGTCCTT
+CACCCTTAGTGGCAAGTCCCACTTTTCTGGGGGAAGGGCAAGTACCCCAGCCCCTTCTCT
+CCGTGTCTCTACCCCTCTCCGCTTTTCTGGAGGAGGGTTAAGAACCCCTCAACCCCTTCT
+CCTTCACTCTTAGCGGCAAGTCCCGCTTTTCTAGGGGGCAAGAACCCCCAATCCCTTATT
+TCTGTGCCCTGACCTCTTATCTCTGCACCCCAATCCCTTATTTCCATGCCCCAGCCTCTT
+ATCTCTGTACCCCATCCCTTATTTCTGCACTCTGACCTCTTATCTCTGTGCCCCAATCCC
+TTATTTCTGCACCCCGACCTCTTATCTCTGCACCCCGATCCCTTATTTCCATGCCCAGAT
+CTCATCTCTGCGCCCCCATCTCTTATTTCCACACTCCGACCTCTTATCTCTGCGCCCCAA
+CCCCTTATTTCTGCACCCCGACCCCTTTCTCGCTTTTCTGGAGGGTAAGAACCCCCGAAC
+CCCTTCCCTCCGTGTCTCTACTCTCTCTTTTCTCTGGGCTTGCCTCCTTCACTATAGGCA
+ATCTTCCACCCTCCATTCCTCTTTCTTCTCCCTTAGCCTGTGTTCTTAAGAACTTAAAAC
+CTCTTCAATTCTCACCTGACCTAAAATCTAAGCATCTTATTTTCTTCTGCAATGCCGCTT
+GACCCCAATACAAACTCGACAGTAGTTCCAAATAGTCAGAAAATGGCACTTTCAATTTTT
+CCATCTTGCAAGATCTAAATAATTCTTGTCGTAAAATAGGCAAACTGTCTGAGGTGCCTG
+ACGTCCAGGCCTTCTTTTACACATCAGTCCCTCCCTAGTCTCTGTGCCCAGTGCAACTCA
+TCCCAAATCTTCCTTCTTTCCCTCCCGCCTGTCCCCTCAGTCCCAACCCCAAGCGTCTTT
+GAGTCTTTCTAATCTTCCTTTTCTACAGACCCATCTGACCTCTCCCTTCCTCCCCAGGCT
+GCTCCTCGCCAGGCTGAGCTATGTCCCAATTCTTCCTCAGCCTCTGCTCCTCCACCCTAT
+AATCCTTCTACCACCTCCCCTCTTCACACCTGGTCCGGCTTATAGTTTCGTTCAGTGACT
+AGCCCTCCCTCACCTGCCCAGCAATTTACTCTTAAAAAGGTGGCTGAAGCTAAAGGCATA
+GTCAAGGTTAATGCTCCTTTTTCTTTATCAGACCTCTCCCAAATCAGTGAGCGTTTAGGC
+TCTTTCATCAAATATGAAAAACCCAGCCCGGTTCATGGCTCATTCGGCAGCAACCCTGAG
+ACGCTTAACAGCCCTAGACCCTAAAAGGTCAAAAGGCCGTCTTATTCTCAATATACATTT
+TATTACCCAATCTGCTCCCGACATTAAATAAAACTCCAAAAATTAAATTCCGGCCCTCAA
+ACCCTACAACAACACTTAATTAACCTCACCTTCAAGGTGTACAATAATAGAGGCAGCCAA
+GTAGCAACATATTTCTGAGTTGCAATTCTTTGCCTCCACTGTGAGACAAACCCCAGCCAC
+ATCTCCAGCACACAAGAACTCCAAACTCCTAAACTGCAGCTGCCAGGGGTTCCTCTAGAA
+CCTCCTCCCCCAGAGGCTTGCTACAAGTGCCAGAAATCTGGCCACTGGGCCAAGGAATGC
+CCACAGCCCGGGATTCCTCCTAAGCCATGTCCCATCTGTGCGGGACCCCACTGAAAATTG
+GACTGTTCAACTCACCTGGCAGCCACTTCCAGAGCCCCTGGAACTCTGGCCCAAGGCTCT
+CTGACTCCTTCCCAGATCTTCTCAGCTTAGCAGCTGAAGACTGACACTGCCCGATGGCCT
+CAGAAACCTACAGGACCATCACAGACGTTCTAGGTAACTCTCACAGTGGGGGGTAAGTCC
+GTCCCCTTCTTGATCAATACGGAGGCTACTCACTCCACATTACTTTGTTTTCAAGGGCCT
+GTTTCCCTTGCTTCCATAACTGTTGTGCGTACTGACAGCCAGGCTTCTAAACCTCTTAAA
+ACTCTGCAACTCTGGTGCCAACTCAGGCAATACTCTTTTAAGCACTCCTTTTTAGTTATC
+CCCACCTGCCCGGTTCCCTTATTAGGCCAAGACACTTAAACTAAATTATCTGCTTCCCTG
+ATTATTCCTGGGCTACAGCCACACCTCATTGCCACCTTTTCCCCCAGTTCAAAGCCTCCT
+TCACATCCTCCCCTTGTATCTCCCCACCTTAACCCACAAGTATAAGACACCTCTACTCCC
+TCCTTAGCGACCGATCATGCACCCCTTACCATCCCATTAAAACCTAATCACTCTTACCTC
+GCTCAGTGCCAATATCCCATCCCACAGCATGCTTTGAAAGGATTAAAGCCTGTTATCACT
+CGCCTGTTACAGCATGGCCTTTTAAAGCATATAAACTCTTCTTACCATTCCCCCATTTTA
+CCTGTCCTAAAACCAGACAAGCCTTACAAGTTAGTTCAGGATCTGCGCCTTATCAACCAA
+ATTGTTTTGCCTATCCACCCCATGGTGCCAAACCCGTATACTCTCCTATCCTCAATACCT
+CCCTCTACCACCCGTTATTCTGTTCTGGATCTCAAACATGCTTTCTTTACTGTTCCTTTG
+CACCCTTCATCCCAGCCTCTCTTTGCTTTCACTTAGACTGACCCTGACACCCATTAGGCT
+CAGCAAATTACCTGGGCTGTACTGCCGCAAGGCTTCACAGACAGCCCCCATTACTTCAGT
+CAAGCCCAAATTTCATCCTCATCTGTTACCTATCTTGGCATAATTCTCATAAAAACACAT
+GTGCTCTCCCTGCTGATCGTGTCCGATTAATCTCCCAAACCTCAATCCCTTACAAAACAA
+TAACTCCTTTCCTTCCTAGGCTTGGTTAGTGCGGTCAGAATTCTTACACAAGAGCCAGGA
+CCGCACCCTGTAGCCTTTCTGTCCAAACGACTTAACCTTACTGTTTTAGCCTAGCCCTCA
+TGTCTCCATGCAGCGGCTGCTGCCGCCCTAATACTTTTAGAGGCCCTAAAAATCACGAAC
+TATGCTCAACTCACTCTCTACATTTCTTATAACTTCCAAAATCTATTTTCTTCCTCATAC
+CTGACGCGTATACTTTCTGCTCCCCGGCTCCTTCAGCTGTACTCACTCTTTGTTAAGTCC
+CACAATTACCATTGTTCCTGGCGTGGACTTCATTCTGGCTCCCACATTACTCCTGATACC
+ACACCTGACCCCCATGCCTGTATCTCTCTGATCCACCTGACATTCACCCCATTTCCCCAT
+ATTTCCTTCTTTCCTGTTCCTCACCCTGATCACGCTTGATTTATTGATGGCGGTTCCACC
+AGGCCTAATCGCCACACACCAGCAAAGGCAGGCTATGCTATAGTACAAGCCACTAGCCCG
+CCTCTTAGAACCTCTCATTTCCTTTCCATCGTGGAAATCTATCCTCAAGGAAATAACTTC
+TCAGTGTTCCATCTGCTATTCTACTACTCCTCAGGGATTATTCAGGCCCCCTCCCTTCCC
+TACACATCAAGCTCGAGGATTTGCCCCCACCCAGGACTGGCAAATTAGCTTTACTCAACA
+TGCCCCAAGTCAGAGAACTAAAATACCTCTTAGTCTAGGTAGACACTTTCACTGGATAGG
+TAGAGGCCTTTCCTACAGGGTCTGAGAAGGCCACCGCAGTCATTTCTTCCCTTCTGTCAG
+ACCTAATTCCTCAGTTTAGCTTTCCCATCTCTATACAGTCTGATAACAGACTAGCCTTTA
+TTAGTCAAATCAGCCAAGCAGTTTTTCAGGCTCTTGGTATTCAGTGAAACCTTTATATCC
+CTTACAGTCCTCCGTCTTCAGGAAAGGTAGAATGGACTAATGGTCTTTTAAAAACACACC
+TCACCAAGCTCAGTCACCAACTTTAAAAGGACTGGACAATACTTTTACCTTTTTCTTTTC
+TCAGAATTCAGGCCTGCCCTCGGAATGTTACAGGGTACGGTCCATTTGAGCTCCTGTATG
+GATGCTCCTTTTTATTAAGCCCCAGTCTCATTTCAGACACCAGACCAACTTAGACTGTGC
+CCCCCAAAAAACTTGTCATCCCTACTATCTTCTGTCTAGTCATACTCCTATTCACCATTC
+TCAACTACTCATACATGCCCTGCTCTTGTTTACACTGCTGGCTTACACTGTTTTTCCAAG
+CTGTCACAGCTGATATCTCCTGGTGCTATCCCCAAACTGCCACTCTTAACTCTTGAAGTA
+AATAAATAATCTTTGCTAGCAGGACTATGCTGAATCTCCTTAGGCACTCTCTAATTAGAT
+GTCCTGGGTCCTCCCAATTCTTAGACCTTTAATACCTGTTTTTCTCCTCCTCTTATTCCG
+TTTAGTTTTTCAATTCATACAAAACCGTATCCAGGCCATCACCAATAATTCTAAATGACA
+AATGTTTCTTCTAACAGTCCCACAATATCACCCCTTACCACAAAATCTTCCTTCAGCTTA
+ATCTCTCCCACTCTAGGTTCCCGTGCCGCCCCTAATCCCGCTCGAAGCAGCCCTGAGAAA
+CATCGCCAATTATCTCTCCATACCATCCCCCAAAATTTTCGCCATCCCAACGCTTTACCA
+CTATTTCCTTTTATTTTTCATATTAATATAAGAAGACAGGAATGTCAGGCCTCTAAGCCC
+AAGCTAAGCCATCATATCCCCTGTGACCTGCACTTACACATCCAGATGGCCGGTTCCTGC
+CTTAACTGATGACATTCCACCACAAAAGAAATGAAAATGGCCTGTTCCTGCCTTAACTGA
+TGGCATTATCTTGTGAAATTCCTTCTCCTGGCTCATCCTGGCTCAAAAGCTCCCCTACTG
+AGCACCTTGTGACGACCACTCCTGCCTGCCAGAGAACAACCCCCCTTTTTCCTTTACCTA
+CCCAAATCCTATAAAACGGCCCCGCCCCTATCTCCCTTTGCTGACTCTCTTTTCGGACTC
+AGCCCGCCTGCACCCAGGTGATTAAAAGCTTTATTGCTCACACAAAGCCTGTTTGGTGGT
+CTCTTCACACAGATGCGCATGAAACATACTATACCATTTATCCTTTTAAAATGTACTATC
+CGATGGTTTTTAGTGTATTCAGGGTTGCTCTAATTTTAGAATTAGTATCTAATTAGATAA
+TCAGTATCTAATTTTAGAATATTTCACCCCCAAAAGCCTCATTTTTATTAACAGCCACTC
+CCCCTTTCTTTCACCCCAGCCCCTGGCAAACACTAATCTACTTTCTGACTCTATGGATTT
+TCCTCTTCTGGTGTATTTCGCCTTTTCTTTCACAGAATTACACAAATTATCTCAACCCCA
+ATCAGTCACCTGGCATGTTTCACTTGGGGATTCAAGTCAGAGCTATATCTCCATTAATAG
+GAAAAATGTATATTTAAAAATCTCTTTTAAGAGAAAATAATCTTGAGCTTATGGCTTAAA
+GAATAGTGTCTTATAAATGATGAAGCTTCCTTAGATGCGTTAATTAATTTCAACAAATAT
+TCACTGAGGCACTGAACCAGTGGGTCTCCAGGTGTGGTTTTTAATGGCCTACATCACAAC
+CACCTGGGGATACTTATTAAGGATGTAGATACTTGGGATTTGCCTCACATCTACTAAATT
+AGATGTTCAGGGAAGGGGCAAGGGAATCATCATCTTTTTTTTTTTTTTTTTTTTTTTTAG
+ACGGAGTCTGGCTGTGTCGCCAGGCTGGAGTGCAGTGTGATGATCTTGGCTCACTGCAAC
+CTCCGCCTCCTGGGTTCAAGCGACCGGGTTTCACCATGTTGGCCAGGAGGGTCTAATCCT
+CTAACCTCGTGATCCGCTTGCCTTGGCCTCCCAAAGTGCTGGGATTACAAGTGTGAGCCC
+CTGCACCTGGCTGGGAATCATCATCTTAACAGGGCCCCTGTGTGCTATTCTTATGCACAC
+TAACATTTGCCAATCAGAGGTCCACCCTGTACTAAGGTCTGGGGGTAAAATAGATGATTA
+AGACACAGAATTTGATATCAGGTCATTTCAACACACTTAGCCTACACATTATGCCAATGA
+TATTTTAGCAAAATTATATAAATACATTGATAGGGGAAGGAGCACTGAAAGAAAAGATTC
+CCGGTGATCAACCACTTTCTGCGTCTTACAAAGTACTTTACAAATACTGTTTCTCTTATG
+AAGTGCATCACCCAGTACCAGTTGCTGTGACATATATGTTTCCCATATTAGACCTTGCAC
+AGAAATACTCATATTAGCATAAATTTATTCATTTATTTAAGAAATGAATATCCATTGAGT
+TACAACTATGTGTTCAGCCCTGCTAAGGCAGCAAACAAAATAAAGTCTCTAAACTGTAAA
+ACTAAGGAAAGGAGAAGACCAATACAAGAAAGAAAGAACGCTGTGAATAGGGGAAGTCTT
+CCTGGAAAGACTAAAATGAACTCCTTCTCAGAGGATATGTAGGATTTGTGTGGGAACAAG
+TAGAGGCAACTCCTGTAGTGGAAGATACATAATAAAAGTATGTATAGCACCAAAAAAAAG
+AAGCATTTGATTCAGGTTAGATCCAACCAGCAGTCAAGTATCTGCTGGTGTCTGGAATAT
+ATGAGAGAGGCTTGAAGAAAATAACTGGAGCAGGACTGTTATTATGTATTGGAGAGCCAT
+GTAAGAATCTACAGACAGTACTGAAAATACCTAAGGAATGGCTCTTAACGGAGTGTGTCC
+TGATGAAAACTTAGTCACCCCAGGGGAAAATGCATCCATTTAACTCCAAGGGAACATCTA
+TACACCTATCAGCATCTATACATCTATCAGCATCTGTACATCTATCTGCATCTGTACATC
+TATCAGCATCTATACATCTATCAGCATGAATGAGCTTGAGCTTCCCACTCCGAAAGATCT
+GGGAAGCTAAATGACGGTCTCAATCCTCTGTATAGATAAGAGAGGGATGAGCGCTGGAAA
+ACAAAGTGGTATCTTTGGTGCACTGATGGTGGAATTCACAACCTGCCGCTGCTCAAATAC
+TGGCCCATAAGATTCTGTTCATTCTGCCACTAATCTGGCTATTTTCACTGCAGGTACCTC
+AGAATACGGATCTGAACATTAATAAGCAAGGAAAGAACAATAATGGTACACTAAGGTGCC
+AGCAGGCAGAGAGAGAGGGAGGAGAAAAACAAAAACCTAGATTAAGCGCATAAAAAATAA
+AAATTTTGGAGGACACAGACCAGAACATGAGCATTAATGAGCATTTAGTGAGCTTCAAGT
+ACAGTACAAAGACTTTATAGAAATATAAAACTAAAAAAAAACAAAAAACATTGGCTGGGC
+GCACTGGCTCACGCCTGTAATCCCAGAGCTTTGGGAGGCCAAGGCGCGTGGATCACATGA
+GGTCAGGAGTTCGAGACCAGCCTGGCCGATATGGTGAAATCCCGTCTCTACTAAAAATAC
+AAAAAATTAGCCAGGGACAGTGGTGGGTGCCTGTAATCCCAGCTACTTGGAAGGCTGAGG
+CAGGAGAATCACTTGAATCCAGGAGGTGGAGGTTGCTGTGAGCCGAGATCGTACCATTGC
+GTTCCATCCAGCTTGGGCAACAAGAGTGAGACTGTCTCAAAAAAAAAAAAAAAAAGATAG
+TCACTGTTAAGATCAGACCTGGTGGCCTCGATGACACAATGTAAGAAATATCTTAAAGTA
+CAGGGTCACAAATATGAAGAGATGAAAAATGATACAGGAAACGTGAGAACTGGACGAGAG
+ATCTGAGAGAACTAAGTGTGAATTGTAGGAGTTTCAGAGGGAGGAACAGAAACAGATGGA
+TGACTCAAAATAATAAAATCAAACATGTATTTTTGTTTTTCATTTGAACTGAAGAAAGAG
+CTGGGCCTTCGGACGAAATTGTTCAATGCACAATCCAGGCAAAGTTAATGACTTTTTAAA
+AAGGGTTGGAGAAATTGTGGAGCTTCCAATACAAAAATAAAAAGAAGTGTTTACAAGCTT
+CTAGAGACAAGAAACAGGTCACCTTAAAAAAGGAACAAATCAGACCAGTCACAGGCAACT
+AATTTGCTTCATCAGAAGTGAGAAAGTAGCAGAAAGCCACTCATAGAATATTGAGAAATT
+AGAATTGTAACCTAATTATTTCGTTCCTAAACAAGATAGTAATCCCTGATAGAAGTAAAA
+AAAGATGTACGTGGATGGTCTATGCTTTAGGGACTATATCATTCTTGTTCTTTGTGTAAC
+CAACAAAATTATCCCAGGAAAAGTGGAGTCAAGGAGATGAACAATGGGGAGGGGTGGGGA
+CAGACCGCAGGCTTCATATACATATAATTAAAATGGATAATGAGACACTTGAGAAACGCA
+ATAAAACAACCATAAGAGTGCTGAAAATTAATGAGAAACTCTTGAAATCAAATGAGTGTA
+AATGCTTAAAATTGAAAAGAAATTCTTGACATTGAAAGGAAAATCATAAAAAGAACCTGG
+GATTAAAAATATTAATGTTAAACTCTCCCAATTAAAACTCTGAGTTAAGGTGGGTGAAGG
+AAAAGAGAATTTTAAAATTCTCTTTCAGGTTGTGATGATGAGGAAAGGAGGGGAGTAAAT
+ACTTTTTTTTTTTCAGACAAACTCTCACTCTGTCACCAGGCTGGAGTGCAGTGGCACGAT
+CTCAGCTCACTGCAACTTCCGCCTCCCGTGTTCAAGCGATTCTCCTGCCTCAGCCTTCCG
+AGTAGCTGGGATTACAGGTGCCCACCACCACACTCAGCTAATATTTGTATTTTCAGTAGA
+AACAGGGTTTCACCATGTTGGTCAGGCCAGTCTCGAACTCCTGACCTCATGTGATCCGCC
+CACCTTGACCTCCCCAAGTGCTGGGATTACAGATGTAAGCCACCGTGTCCAGCTGTAAAT
+ACGTTCAAAAGAGCTCAATTTTACCGGCGAGGTGACAAGCAGGGTAAAGTTCTTGTTAGA
+GAATAACTAGCACTTGTGTCCAGGTATAGTAGTGTGACTATAAGAGTTGATAGAAATGAT
+GATCACTCATTAAATAAAGGCAACAGTAAATATAAATACAAGTTGTTCAAGGTTTCATAT
+TTTTAAAAAAGATGAAGACAAAAGAAGAAATTGGAGAGAAACAGGTAGATTTTGTAGCAT
+AAGTAAAGATAAAAAGGGGGAGAGAAGCAGAAAGGATAACCATTGGGTACTGGGTTTAAT
+ACCTGGGTGATGACATACTATGTAAAACGAACCCATGTGACACATGTTTACTTATGTGAC
+AAACCTTCGTATGTACCCCAAACCTAAAATAAAAGTTAAAAATAAAAAAGAAAAGCAATT
+GAGTAAAATAATAATTTTGTATATTTATATACATATACAACATATATATGCGTGTATATA
+CATATATGAGGGAGAAAGAAATGTCACATTGTTATAAACCAATGAAATTGGAAATAAAGT
+ATTAAAAAAACAAGTTTTTTATTTTATTTAACATAATCGTATCTGCTTAGAAATGAAAAA
+ACACAATACTTGATAAATCTTGGATCAAAAAAGAAAATGCCCTCAATTTATAAAGCTACA
+GAGCAAAGAATGCATCTACCAGAATTTATATGACATAGCAAAACTATACTTAGAAAATTG
+ATATTGCCTTAAGTGTCTTTATAATTAAAGAAATTTTCTGTATTAAAATTTCTATCAGAT
+TATAATTGTAAATATTTTAAATTGAATCAAATTCAAACAATATCCGTTAAGATTCATGAT
+TTTCTGTTTTAATATTTAAAGGTAATCAGCTCCATCAGTTGAATAATTTCAGCAAGAGTT
+TTTTCTTAAGGCAAAAGAAAAGGCATTGATAAAAATTCAGGATAGTAGAGTTTTGTATGA
+AAGCTGACATTCATTAGAATGTTAAAATCAGAACTCTTTACTAACTGGATAACTTTGTAA
+GTTTGTATTGCCCATTATGGACTTTGTATTGTTTCCTTTCTGTGGAACATCCATTCAATT
+TAAAATGAATCCAGTGGGGTACTCAAGCACAATAACAATTTTGCAATATACGTCAATGTT
+ATTATTAATGTTTATGTGTGCAATGAGTTCACCTATCATTTTATTAGCTAAGCTGTAATT
+TTAAACATACTTCCTGCATATAGCCAAGGAAGGACTTTGATATGTATGTAGTTATATTCC
+TTCAAGTACACTCTTTCTTCAAAAGCTTTCTAAAACCAGTGCACAAACTAAACATGGCCA
+GCTGTTAAATGTATCTCTTAAATATTAACTTCTCCAGTTAAAATTAGCACAATACAGGCC
+TTACACATAAGAAGCTATCTCTGAGATTATTATCGTATACTTAACTACATTGCTAACAAT
+GGATGAGAGCTTAGCAGCTAATAAACCTGCTGTTCCAGCTATAACAAAGGCAAGTTAATG
+TATTTGAAAGGAGAGTGATAAAATAACCAAGGCATCATAAACCTAAGATAAACAAAATCA
+CCTAGTGGTGACTAATTAACGTAACACATGCAAATCTTCAATATTTTCACTGCTTGAAAT
+CCCTTATAATGAATAATTGTATGAGACATTCATATATAAGGACTTCATTTGATTCTTTAT
+ATGAAATAAAGTTTCTTCTTCTGTTATGTGAAAATAAAGCCCACTCAAATGAGAACAAAC
+AAAAGCTATTTATTCAGAGCTTGTTACAGCAAGAGAGTCAGCCACCATCACTTGCGTTTG
+GCAGAAGCTCACAAGCAGGCAGAGGAGAGGGAAAGCTTCATAGCGGAAAAAATAGAAGGC
+TTCAGGTGCACCCTGACAAGAGGTTGTTGGCATGGAGAAGCTGGAGGTGGGCAAAAGTAG
+AAGTGGGACTTCCTATGCGACTGGGTGGGGGAGCATATTTGGCTTTCTTTGGTTGGTTTT
+AAGGTGGAAGCAGGAGCAAAAATTATGGAAGCTGGCAGTTATTGATTACTTGCATTTTTA
+GCTGATTGCTACAGAGGTTGTTGTCTGCCTTCCTGGACTGGTTGCTGCAAACTGTTTAAT
+TTTTTAAATATGGTCAGAGTTCTGTTTTAAAATACGGTCTGGTGGTTATCTGTTTGCATA
+TTTAGTCTCTCAGCTCCCATCCTGTGTCTGAAAAATATTACCTCAATAGAATTTGAATTC
+ATAATGGTTTTTAGCAGTATCAGAAGAAACAGACAAGTCTGGCTTCTGAGTAAATATGAT
+CAATCTGATCATCCCTTATTTTATATATTTTCTATAATCATACGAATTCCTTCTTGTGAT
+AATTTCTGCTATCTCCTATAGTATCTAAATATTTTCCAAGCACATAATTTAAACCCATGA
+AAATGGATATGGAAAGCTAAAATAGTCCTGTTTTATTATAAAGCATGTATATGCATTCTA
+AAAAAAATTCAGACTATATACAGTCTTGTCTTTGACCAGTATCACAAATAAATTCTTAAG
+GGCTAAAGCATATGACATGTATTGATGGAGAATGCATTATAGGTGCAGATTTTCAATTCA
+CTTGAATGAAACTTTCAGTAACTTCAGACGTTCAGACCTACACAGATAACTATTCCACGG
+CCTACAGCCAAAGGGCCAATGTTAGCTTCATAGTAACAAAAACAACCACCACCATAAGGA
+CAATTATTATTACTATTTATGAAACCACTACTGTCATTCAGGGTCTCTGTGTATATTCAT
+ATTTAAGTTTATTTAATCTTTGCAACACTTTAAATGTAATGTAAAACAGAAAGATAAGTT
+ATATTGACCCATTCATTCACTCAAAAATTAAAATAGTACTTGAACCATTTTTCTTTGAAA
+TAAATTTAAGTCTATTCATTTCAATTTGTTTGAATTTCAATTCATATAAATTAATGTATT
+CAGGGGCTCTTGAATGAGTCTGTCTGAGGCCCAAAGACAATTGTTTGACGTGGACGAGTC
+AGGAGTCAAATCCAAACCTGTCTGCATCCACTGTTTGTGTTCCTAGTCTAATATGTCCAA
+AGTTTCCTGTGAACTGAGGCTTATTCAAAGAAAATAAATGTTTTAAATTATCGGCTCCAA
+ATAATGATCAAGTTTTTCTACCATTGAAAAGTCAGTGCATAGAGCATATTAAAAAATTAG
+AAACATCCAAGGACTACAGGTTTATAGTCTTCCATATTTTCTTCTAAACTGATATTTTGT
+TTTCCAGTTGACACAGAGTAATCTTGACATGCAACTTGAAGATGTTAAGTAGGTATTCAT
+ATGAGATATGATGCTGACCAGAAGACAGATGTTCATATGTAGTAAAAAATATATTCCATT
+ATTAAAATGTATCAAATTAGAAAAATCAAAACTCAACCATCTTCATTCCTTGTTGATGGC
+AGAGAGTAAGAGCACACTCTTTATAAAAGACAACTGAGATGCTCATTTTTAAAAAAGCAT
+TTTTTAAAAGATCATGCATTTTAAAGGTGTTTCCAATTCACAGATCTACCATAAAAAACT
+TAAAACATGCACAAAAATGTGTTTAGAAAGAGACTTATTGCAATGATATTTATGACTACA
+ATAATATTCTTCAAGTATATAACATAGATATACAATGATAGAAGAATGGTAAATAAAATG
+TAGAATAGCCAAGTGGGGAAATACTATGCAGTGATAAATACCATGTTTACAAAATCAAAT
+TATATGTTAATATCCGGATATTTTTTGCTGGTTTTGTTTTTCTTTATTGTAGTAATTTCT
+CTTTGTAAATAGTCACAGTACTTTTCAACATCTCCCTTGAAGAATTGGAGTCCATTTCTC
+CAACTTCTAGATCTGGGATTGGACATGCGAAAAACTTTTAGAAACAAAAAATTTAGTATT
+AATACAATGTTTAGAAGTATACATGTAGTATATTATCATTTTGCAAAGTATAAAACATAT
+GAAATAACACTGTGTGGCCAGGCACGGTGGTTCACGCCTGTAATCCCAGCACTTTGGGAG
+GCCCAGACGGGCAGATCACGAGGTCAGGGGATCGAGACCATCCTGGCTAACACGGTGAAA
+CCCCGTCTCTACTAAAAATACAAAAAAATTAGCCGGAAGTGGTGGCGGGTGCCTGTAGTC
+CCAGCTACTCAGGAGGCTGAGGTAGGAGAATGGCATGAACTCGGGAGGCGGAGCTTGCAG
+TAAGCCGAGATCGTGCCACTGCACTCTAGCCTGGGCAACAGAGCGAGACTCCGTCTCAAA
+AAAAAAATAAAAAAAATTGTGCATTGTTTATGGACAAATGCATAGGTAACAAAATTATTA
+AATCACAGGTGGGAAAGGTACACAATTACTTAAAAAATGTAGGTATTTTTCTGGTAATAA
+ATGAGAAGGAATAAGGCTGAGAAGTATAAAAGGGATTTCAACTACATTTATAGCTTTTTT
+TTTTTTTTTTTGAGATGGAGTCTCGCTGTGTTGCCCAGCCTAGAGTGCAGTGGCGCGATC
+TCAGCTCACTGCAAACTCAGCCTCCCAGGTTCAAGCAATTCTCCTGCCTCAGCCTCCCGA
+GTAGCTGGGATTACAGGCAGCCGCCACCATGCCCAGCTAATTTTTGTATTTTTTAGTAGA
+AAAGGGGTTTCACCATCTTGGCCAGGCTGGTCTCAAACTCCTGATCTCATGATCCACCCA
+CTTCAGCCTCCCAAAATACTGGGATTACAGGAGTAAGCCACCATGCCTGGCCCATTTATA
+GCTTTTAAAATACCAAAAGCATATAAGCTGAATATCATTTTTAACAGACTATTAGAATTG
+TTATATTAGTTTGTGTGTGTGAAATATGTCTAACATAAATTTAAAAAGACAGTAAACTTA
+GCTGAAAGACAGAAGGAGGAAATGTGTAAGATGAACATTTGCCAGTCAGTATATGAAACA
+CCAAATGTTTCTCAGATAAGTTTTAACCAAATAGAATGTACGATGGAAAAAAATCTCATT
+CAAAATAATAACCAAGTATACAGCTCCTGGGGATATTTAACAAGAAATTTTTAAAACACA
+AATTCTTCAGTCAAATGGTTCTATATAATCTCAAATAAATCTCAGTGGAGATTACTTTGA
+TATCCCACAGTGAGACTAGAAATTTCAGTGATATTGTAGATAGTCACAATAGATAAGATC
+ATTTTCAATAAGAAGAAATAAAAAGAAAGGTTTTGAAATCTCAATAATTAAACAAATATG
+TTACTGATATAGTTTGGATATTGGCCACATCCAAATTTTATGTTGAAATGTAATCTCTAG
+TGTTGGAGGTGGGGCCTGGTGGAAGCGGATTGGATCATGGGGTGGATTTCTTGTGAATGG
+TTTACCACTGTTCCCTTGGTGCTGTCCTCATGAGATCTGGTGTTTTCAAAGTGTGGCTTC
+TCCCCAACACCCGCTTGCTTATGCTTTCGCCATGTGAGAGACCTGCTCCCCCTTCCCCTT
+CCGCCATGATTGTAAGCTTCCTGAGGCCTCCCCAGAAGCCGATGCTGCTATACTTCCTGT
+ACAGCCTGCAGAAGTGTGAGACAATTAAACCTTTTTCCTTTATAGATTACCCAGTCTCAG
+GTATTTATAGCAATGTGAGAACAAACTAATGCAGTTACTTATGCACGGTAATTAATAAAA
+CCTCAATGGATCACGATTCTGAAGAAATACAACTTAGTAAAACTTAGTGCCCTCATTTAT
+AAGAATTTATTTTTATATTTATTAACAATATGTAATAATTAACTATTCATTTCAAATAGC
+TGAGAAATCAAGTTGATAAATAGTTTGGGGTCAATTAACTAACCTTTAGGCAACTTAAGA
+TGAAGAAGGAAGAAGAGCAACAGCAACAACTAAGTTAAATTTTGAGAATCTCTATTAGAC
+ATTTGAATTTGGAATAGCTGGAAGCAGAATCCACCACCCCTTGCTCCTGCCACATTGCAG
+GTTTCACTCAGATGCAGACAGCACACTTGGGGAAGTAGAAATCTCTGGCCACAGATGCTG
+CGTGAGAAATTACCACTGGGCCACAGAATCCCTGGAGGAGCCAGCATCAGCTTCCAAAAC
+TGGGAGCTACCCTGTGAGCAATCTGTATACAACACTGGGCCCAGGCGGAAAAGAACTGCC
+AGAAATAATAACTTCAAACTCCAAAATAAGAGCGAATTCACCAAGGAAAGCAAATGTAAA
+GAAAGAAATGAACGGACTTAAAAATATCTAATTAGTGTTCATAGTTGGATTTAAGAGAAT
+TGCAGTGATAAAAACAATAGCAACTTGCAAAGAAAGTGAGGCAATCAGAGCAAGAAGCGT
+TCTTGGAAATAGAAAGCATGATTGCAAAACTTAATAGCTCAGTAATAATTCAGTAACAAA
+ATGGATAGTTCTAGAAACTGAATTTGTGATGACCCACTCTTATTAAAATTATGGGAAAGG
+GAAAGGCTAAAACACATAGAAAATGGTAAAGTACATGCTTGGCAAAACCAGGCAAGCCAA
+TACCCATTAGCAGCCTATAGAAAGAAAAAAGGATGGAAATTAATAATCGAACTAATTACA
+CATGAGAAATTTCTAGAGCAAAAGGAAACACTGGGACCTCTTATTCCCGCATACACATCC
+TATTAGAATTTTTGAATTCCTATGTTAAAAATGAAGCGCTACAAACTTTCAGACATACAG
+ATGTATACATGCAAAAAACACAGCACTGAAATAAACAAAAATAGCGAACATACGAATAAG
+AAAAAAAAACCAGGTTTACAAAGGAAAGCGAATCACAATAGTTGTGTGGCTCTGATCTGT
+AGTACCACATCACTATGTGAACAGTTGAGAAAAAAATCATTGCAAAAATTCTCAAACTAT
+CATTTAATTGGGAAGACAAAAGCAGGTTGTTAGAGAATATAAATCATATTCTCATTTCTT
+TTTTTTTAAACTACGTACATTGAAATGTCTTAGAGTAGATATGGATTATGGGGAAATTTA
+ACTTTTTGGACTTTTTTAACAAATGTATAAAGAACTCTGTTGTTCACAAATTGGTATCAT
+ACTGTGTGTCAACATGGATGGAGTCTCAGTTTGGGCCAAGCATCGTGATTTTCCTGACTT
+TAAGGAGGTCCTCTTCCATTATGGCAGACAGGAAACAAACAGTGCAAAACCAATGAGCAC
+ACATGGTGAGAAAGATCACCTATACGTGGTTTCACGGGGCTATATTTGCAGGCTCCTAAC
+TCAGCCAAATAAACGTGTATGGGGACTATCACTATAGATAAGTCTTAAGGAAAGAGCAGG
+ATTTAGCCAGCTCACAGGAGTGGAGGAAGCGTTCCAGGCAGAAGGGAAAACATGAGGCAA
+AAACAACACATTGTGTAGGAGGAAAGAAGTAGGACAACAAGCTGAGCAGTTGTCAGAACG
+TTTTAAAAAATGAGTCATTGCATTAAAAGAAATGAGGCTGAAGGGGTTAGTTATGCTCAA
+ATCATAGAGGGTCTTATAAACATACGCCAGATAATTGAAAGCATTTTGCAGAGCCAGAGC
+ATAGATTTTCAATTTTTGGAAGTAAAATAACCCTTTACTCAAACAGTATCTACCTAGAGA
+TCTAATATAGAAAAATGTGAAAAAAAAACCTTACAAGTTTAATTATATGAGCTACATTTG
+ATGACATCAACTAACATAGTCAGGCATTAGATGCAATGAGGCCACTGCAATGAATCCCCA
+AAATCATACATTCTGCATATAATTTATTTTCAAGTTTAATTTTACTTGCACAACATAAAA
+AGAGTTTGAAATTATAGAGACATATTTTCAAATGGTCACTCAATTTAAACAGAAGTAGCA
+AAAAAGGCATTATTCTGGGATCTGGAGAGAAAAAGAGAGTGAATGCTAGGAATAATAGCA
+AATATAATAAGCTGACCAGTGATGAGCCATTTAGGTGAACTCTCTGAACAGGCTAAGTAT
+TTGGTAGCATTTCTTCAGGATTTGCATGATGTTTATTAATGACAGAGGGCTGTTGATTTT
+CTTTTAGGAAACACTGTATTTCTTTGTATTCAAAATTGTTCATTAGCTAGTCAGAAAATC
+CAACTCTCAGCATTTAAGCAAAAGGGAGAAGCCAAGAGAAGATATGAGGGCTCACAGAAT
+TGCAAAGAGGATGGAAAAAGCTTGGAAAATGCACAGGAACCAAGATAACGCTAAAGTTCC
+AAAACCAGAACTCTACTTTCATCAGGGAGAGTCTAGCCAGGATGCAAACCACGTGTTGCA
+TGGCAGTTTCCACTTCAGAGACACTATAGCCATTGCCACTGACCATTACTAACCATCCCA
+GCATGAATGTCTTTTAGCTGAGCTCAGGTCCTGGGCCCATCCTGGTTCCTTGCAGATGGG
+GAGAAGGAATATCTTGCTCCTGGGGCTTTTGCAGTGGGAAGGTAGCAATGGCTACTGACA
+AAGAATGGGAAGATTTGGCTTAAAATTTAGAAAGTAGAAGTCAACAAATTGCAGAAAAAA
+GAGATATTATGGAACTTCCTGATAACTCAGAAAGGAATGGTGGTGTTGTGTCTTCTGCGA
+ATAGCACGGGTTCATCTTCTGTTCCCTCCACAACACCTTAGAGAATTCACAGGACATCAG
+ATGGAGGTAGCTGCTGGACAGTCTATGAAGACTGGCTAGCAGGTGACTTTTCCTCTAGCC
+CGTACAGTGGAGAAATACCCAAGGTTGGTAGAGAGTGGAAAAACACCTGTCTTCATGGGG
+CATGGTCATTCTGACGACACACTAGTGTGCACTAGCAATATGTTATTACCAATATGAACT
+GAATTTCAGGGGAGGTCCTTCCTTGAAACTTCTGTACTCCAGAAAACTCTTGAACATCCC
+TAAGGCAGCAACTCAGTGGGTGAGTAAAGCAGATTAAGTGAGATGTAGAGAAAGAAACAA
+ATAATCATAATTTCAAAATAGTCATAGCACTTTATGCCTTCATTTATTCCTCCTATCCCC
+CCATGTAGTATGTACTACTAGTATTATCCACCATTTTACATGTGTTAAATATGAAGGAAC
+CAAGAACTAGTGGGATTAAGTAATATGTCCAGAATTACACAGTTAATAAAGAGCAGAAGC
+AGATGTGACATCCAGGTAGCTTACCTGAAGTCTATGTTTGTAGCCTATATGCTGAACTTA
+TTTCGCAGGGTTAACACTAAACTTGATATCAACTACATTTGCATAAAAAAGATTATTTTT
+TTCATTGCTCACAACTTAAAAGCATTGGTTACTCATACTCATGAAGAAAGTGGCTAACAA
+TTCTCAAAGCTTTGTTTAATAAACATGTAATTCTTTCTGTTTTGTGTGAGAAAATATTTT
+GCTCTATTCTATTGTTCTTGTTTTCTCTTTCAAGTTCTTTTGCAATTTTCTAATCAAATA
+TCTTCTTGAACAAGAGATTAAGGATGTGAAAAATAACTAGAGATAAAGAAATAAATTGCT
+TATTCTTAGAAAAGACTACAGGGAAGTGGATTTGGTTTAGAATTCATGGTGATGGGGTAA
+TCAACATCATGAGACTCTTGGCAGAAATTTACTTATTTGCTTTGTCATTTATTTTGAAAT
+ATTCAACATAGTTCAATATATAACATAAAATTTCATGAAAACTCATGTTTAAATATGAAT
+TTATTAGTGATTACCTCATATTCTCAGTCTACCTCATGTTCTCAAAAACTGTGCTAGCCG
+ACAAAATTTCTCACTATTTGGAGGAACCAGGCAACATCCCCCGTATTGTCTAGGTCTCAT
+ATCTCGAGATCATCTTGCTGTAACACAGTGAATTTTTGGATCCCATTTATTTTATTTTAA
+AAATAAGGCTGGTGTTTGGGGTTAGTTTTACTCTATATTTTAGAGGTGGTTAGTTAACAA
+CTCCAGTGTTACTTACATAAAAGCCCGTTATTCAGAAATTTACAATTCAAATATAGTTAC
+TCTAAGTGTAAGGCTGTCTTTAACAACTTAGGTTAACTACTTAGTTGTGTCAATTAGCAT
+GACAATATTAAAAAATATCCAAGAGATGTCCATTGACTAGAAAATTTAAGATTCCCACTC
+TACCAACAATGCATTGAGCTCAGCCCCCTGTACATTCTGGAGCAGGTTTAGGATTCAGAA
+GTAGACCTGTATTAGCAAATAATCAGACATTTCTTCTGCCTGACCTGAGATTTAACTGAA
+TTCTGTTGCTAAGATGCTTCACATTTGTCTTGAGTGAGTGTTTTGTGCACAGTTCAAAGA
+CAGAGAGCTCTGACTTCAAGTTTTCAGATGTGATCAGACAATCCCTTTTGTAATTTCTGC
+TAATAGATGGTTTTATACGTGGTAGCATTGGGTCTGAGATTTGCCTTCATTTTGGCACCT
+ACTATTGGTGACAGAGTCAGAAGGTTAGAAACCCAAGCACCTGCACTATTCACAATAGCA
+AAGACTTGGAACCAACCCAAATGTCCAACAATGATAGACTGGATTAAGAAAATGTGGCAC
+ATATATATCATGGAATACTATGCAGCCATAAAAAATGATGAGTTCATGTCATTTGTAGGG
+ACATGGATGAAGCTGGAAACCATCATTCTCAGCAAATTATCGCAAGGACAAAAAAACCAA
+ACACCGCATGTTCTCACTCATAAGTGGGAATTGGACAATGAGAACACTTGGACACAGGAA
+GGGGAACATCACACACTGGGGCCTGTTGTGGGGTTCAGGGAGTGGGGAGGGATAGCATTA
+GGAGATACACCTGATGTAAATGATGAGTTAATGGGTGCAGCACACCAACATGGCACATGA
+ATACATATGTAACAAACCTGCACGTTGTGCACATGTACCCTAGAACTTAAAGTATAATTA
+AAAAAAAGAAACCCAAGCACCTCAGCTACCTCTAAAAATCGGGGAATGTTCATATCCAGT
+AAAAATAACCAATAATTGGGAATAACCAAATCAGCTACATAAGTTTGTCAGAGGAATGTG
+GTTGGGTCATACACTTCACCTGGGCCCATTGTAAAAATATTTAACAAAGATACATCAGTA
+CCAATGAAAATTAGGTTTTTGCTGCTGTTGTTTTGCTTTGTTTGTTTTTGTTTTATAGCA
+CTTTGGGGAAAGAAGAACAAATTTACATTTTGCCGATGATCTAAACATTTTCTTCTATCA
+TAAAGTTCCTATACTTAGTACAAAGCTCTTAATGCTCCTTAAATGAAACATCGTGAGCAG
+CCATATGGTGACCTGCCCCTTAACCTAGCACCAATTTTGAGGGGTTAAAAATAAATTTTA
+TTGAAACATTTTTTATCTTTCTAAAAAGATATAGAACAGGAAAACTATTTTAAACTAAAA
+TTGTAATGGAACATTGGCAGAATCCCTGAAGCACCTGCATGCAATGAACAGTCTGAAAAC
+TGCTAGTGTAGGTGAAGGGAAACTAGCAAAGGATTATACGGAAGGGAATGGCACTGTCAG
+ATTTACATTTGAAAGATAGTTCTGCATCTGTGGGAAGAGCAATTCTGATGAGAAAAATAC
+TGAAAACACAGAACTCCATTAAGAAGGCAAAGATGAATTAGAGCAATAGTGGTAGGAATG
+AAGAGAAGCTGGATTGAAAGATTATGTAGGAAGTAAAAGCTGCCAGGATTTAAGTCATTC
+TACTCTCTTCTAGTCTCATTTGTAGTCTTTCCAAAAAGCCATTAGATTAGCTATTTCCAC
+TAAAACTGGCTAGATGGTATAATAGTGAAGAACCCGGACCTTTATTTAAATCCCAGATCT
+GGAACTTACTAACTCTGTGATGCTGAGCAAATTACTTAACCTTTTGGTCCTCAATTTCCT
+CATCTGGAAAAATGGGAATAATAATTTCTACCTCACAGGTTTAATAGTAGAGATAAAAAG
+GAAAAAAGAGTCTATGCTAAAAGATTACAATAGTGCCTAGCTAAGCAAACAGTAAACGGT
+TACTTTTTTTTAACTCAAGAAAGAGGCAGTTTAAGAGAGGACAATAAAAGAAAAAAAGGG
+CTGGGCGCAGTGGCTCACGCCTGTAATCCAAGCACTTTGGTTGGCAGAGATGGGCGATGA
+ACTGAGTTCAGGAGTTGGAGACCAGCCTGGCGAACATGGTGAAACCCTGTCTCTGCTAAT
+AATAAAAAAAAATTGGCTGGGTGTGGTGGCGTGTGCCTGAAATCCCAGCTACTTGGGAAG
+CTGAGGCGGGAGAATCGCTGGAACCTGGGAGGCGGAGATCGCGCCACTGCACTCCATCCA
+GCCTGGGGGCCAGAGCGAGAGTCTGCCAAAAAAAAAAAAAAAAGGTATGTTAATGGTCTA
+GATGGATATATTAAATAACAGCGTAAGAATTAAGCAGTATTGCCGAAAGGAAATCAGGCT
+GTGTAAAAGAGAGTAAGTGAAATGAGTAAAACAGTGTTACTTTTATTTGGTTGTGCTTGA
+TTCAACCTGTTTATTACCAAGTGAAATTTCGTGGATAGCAGAGACTTCATCTGCAAAAAT
+AAAATAAAATAGTGAAAGGTGAGAAGATGAAGAAAATAGATGTGCCAGTGTGAGATTCTT
+CACAATTTGCAAAAGGAATGATTCTCACTGGCAAGTTAGCTTGGGTTTGTTAGCGAAGGA
+AAGGCGGATCGGATGAGTTGTGCAATAACTGGCTGTTTGACTGAAGCAGAAGCAGCTGAA
+TGCAGCTTTCCTGTTACATGACTTCCTGCAGGTCATCATCTCTGCATCTCCCTGGGTGCA
+AAGGTAGAATTCCTCCTGTGAAAAGCCAGGATAAGCTTTTCTCTGGCCTCTCTAATTAGG
+ACTGAGAATGAAATAAATTATCAGACTCCTCTGGAACTCCCATTAGATGTCCTGTGAACC
+TTTAATTCCTCTTGTGCTTCCGAGCCCGGATTGGAGCAAAGAAGACATATGTCCATGCAT
+GAAATCAAGTTTTTGTACACTCTAGAAGTATCTACTTGGTAGCATGGATTGTTTCCACTA
+AAATAGTTGGAGCCGCTGTCCTAGCATCCTTTTTCTGTTTGTAATTACAAGCAGCCAGTT
+TCCCCTAGGGAATAAATTCTCACTTTTTTGACCATTTTATTAACATACATTTTTGTCATC
+TAATAACACTTTTGTCACACAATATTAATGATAAATTGTGCTGACCTTGAATATCACCAA
+AAAACCAGACAACCTGGGTTTTTTGTTTTTTTTTTCTGACAGTGGTGATAAATTTTCACT
+ACTTTTTAAATTTTATTCATTTATTTATTTTTGAGTTCATCTCAGTCCTGGAATCAAGTA
+AATCTGGTTTATTGAGAAATTCTACATAATGTCATTTTGACAGAGTGGCAATGGGTTTTC
+ACATTACTTCTAAAACTTATTCTCAATGGTTTTATATCAGAATATAATCCCTAGTGTGAC
+TAGAATTTAATAGGAAAGCAACACAAACAACTGTCCCTGTTTTTTTTTCTCAATCCTAGC
+TCACCTTCCGCTATGCCAGGAAATGTCTCTGGATGCCTTCCAACACAGTGATTTATGATT
+TGATTGATTTATGATCCAATTGACTTATCAATCAAAGTTGCCACGTAAGACTAAACATAA
+TATGCCATCCAGTCCTAGGCTGAAAACTTTCTACATGGTCCCGAGCTTGGGCAATTCTTC
+AGTTGGGCTGAGATGGCTGAAAATGTCTGATACAGGGCTTCTCTTTTATAAAGTATAAAG
+GAGTTTATTCATAAATGGTTAGTTTCCCAGTAAGAGTACAGATTCTACACTCCCAAAGTA
+AATGGGTACTCTAAACACAATTCTCTTTATTTATTTATATTTATTCTAACTAAAAAGCCT
+CTTTCATAACTTTCTTTCAGCAAACATTTATTGACATCCTTAAAAGTGGCAAGCACTATT
+CCAGGCACAATGATCATCACAGGCAAAAATCCCTTCCCTCATGGCAATTACATTGTAGTT
+AAATTGTGGGGACACAGTCAGTAAACAAATAAATGGAGTAAATTCATATAATGGCAGATG
+CAGATAGTGCTATGGAGAGAAATAAAACAGAGAAAGAGACTAGGGAAGGGTTGTAATTTT
+AAACAGTGTGACCTAGAAAGTGTGAACTTAGCAGACACATTTGAGCAAAGACTTGAAAGG
+TGTTGAGAAGCAAGCCTTGAATTGTCTTTTAAGTAGAGGTCACAGCAAATTCCTCCCACG
+TGTCTGATATTGTGTTCTGTGAAGGAGGAACAGTGACAACACCCGCCAGTGTGTCCAGAG
+GGCAGGAGCCAAGGGCAGAGTGGGCAGAGATAAATGCAGAGAACAAGCAAATGAGAGGGA
+AAGAAAGACAACGTGGAAAGACAGGAGGGAGAGGAGGTTTGAAAAAGATCAGAGACCTAT
+CTGCTTGGAGCCTGTTAGGATGGGGCTACGTATTAGTCATATCCCAGTGGAATGGTAAAA
+AGACTGCAGGAGTTCAGGGCAGAATGCAGGAAGCAATGCTCCCAGAGGGAGAGCTGAAAT
+TAGCATCATGCTCAAGCCTGAGCCAGGCAGAAGTGACCCAGATGGGATTTAAAGCTCCTT
+CCTTCTGGACTCAGGAGACTGAGGCAGGAGGATCACATGAGCCCAGGAGTTCGAGGCTGC
+AATGTGATACGCTTCTGCCTGTGGATAGCCACTACACTCCAGCCCAGGCAACATAGTGAG
+ACATCGTCTCTAAAATATAAATAAATAAAATAATACAATAATAAACACATAAGTAAATAA
+ACATCTTCCTTCTGCAGGAAGGAATAAATGATTGGAGGAGGCAGAGACAGCCTGGTGTTA
+GAAGACCTAAAGTCACTATAATAAAATACCATCTCTAAAATACAAACAAATAAAATAATG
+AAAAAATGAATAAATAAAAATCTTTTTTCTGCAGGAAAAAAAAATTATTTAATGGGAGAA
+GACAGAGAGCACCTGGTGTTGAAAGACCTAAAGTCAGCTCTGAGGAAATAATGGGTGGGA
+GGTAGTTAACGTTCCAGGTGAAGGGGGAATCTACATGAAAAAAAAAAAAACCTCATTTGA
+ATAGATGTAGAGCCCAATCCCAATCCTAATGCAGGAAAAGGAAGTACATTTGTTATAGCT
+ATAGCCTCTGTACTTCTCATTATATTGCTGTGGTTTAAAAAACAAAAACAACAAACAAAC
+AAAACAGAAACACCTGATTCTTCAGCAAGACATGATTTGATATGTATCTGTTATCTGGGA
+ATACTAGTGAGGTAGAATGTTCAAAGGAAAGGACATGAAGCACTTCCAAAGCATCCTGTG
+AGAGCTCCAGTACACACAGGGCTAAAGACATGTAAATTAGCAGCTGGAGTGACCACATAT
+AGACCATTCATCAGAGTGAGGCATGAGAGGAGAGTGGCAGAAATAACCTACCCTCCAGAT
+TTAAGGGCAGAAAATCTGGATTCCCTGATGATCCCCCAACATGTCAACAGTAAGACACTT
+AGACACAGAAAAGGCAGAGTGCTGCTCTTGCTGTTACAATAAATACAAAAGTTAAGCTTC
+AACTAAATTCCTTCCCTTTGTTTCAAAGAGCAGTATACAGAAATCCTTTCAAGAGTCCAA
+CTCATCCTCAAGTCCACCAGTGTAAATTTCATAATGTGTCAGGATCAAAATAATTTTTCA
+GTCTTCTCAGTGATTGACCCAAAATCTACAATAATCAGGAATACGTTCTGTAGCAATTAA
+GTCTGTATTTATACATTGTTTTATGAAAATGAAGCCTCTTTCTTTTTGGTCAGGATCTGT
+CATTCTGATCATCCTTGGGTGAGAATTGGGAGGGAGCAAAATGGTCCATGCCATGGAACC
+CTATTATGAGAATGACCACATAGAAGGGTAGTTCTTAACCTCCTGGGAATCAAAGACTCA
+GTTGAGAATATGCTAACTACCATGGACATCTGATTAAAAACACAGAAAATAAAATACTTG
+GCACCTATGAAGAGATAGAAGTTTGCATTTTCAGGAGATTCATAGTTATTTTTCCGAATG
+TCTCATTAAATGAAAGGTCCCACAGTCGTCCCGCTAGGGGAGAGCAAATTAAAATAAAAT
+CAAGACCCAAGCTTCCCACCTTTCATGATCTCCACTGCTTCCTGCTGTCTTTTTTGTGGA
+TACAGGGGTGTTAAAGTGTCATTGTTTATAAACCTACAATAAAATGCAGAGCCCTCACTA
+CATTTCTAAACCTGAAAAACTACCTAGATTTTAAGCAAGGGAATTATTCTCTGCACATCT
+TCTTTTTAAAAAACTGTTTAGTAATGATGCTTCATGTAAAGCAGCTGCCGCCTCTCACAA
+AGAAGCCTCCACAGTGTTGCTGGATGAGTCATGAGTCATACATGAATATGGAATTAGCAA
+AATGATCATTTGCTCAATTGTCAAGGCCTGTCTCTGTAGAATGAACGCCTATTGTGAAAG
+TGCAAAATTTCTGTGAAAATACCAAAAGGAGGAGAGTTGCTTTTATATGGGGTAGGAATA
+TTGGACGCATCCTTGCTCAGGCTCAGGTAAAATAATATATACACCACCCTATAAGGAATG
+CAAAAGAAAACTGTTGTTTTGTTGTTGTTGTTGTTGTTTTTAGTTATCAGTAAAGTACAG
+TTAGTTCTTCTCCGTAACTCCTGGGAAGTGTACTTTGAAACCAGAGGCACCCATTTCAGT
+ATAGAGGAACCTTTCAGAACCTTCTACCTTCTACCAGTTTCTCCTCAGGGATTAGTTAAA
+TTGGGGTTAGGGACAGACAGATGAGAACAGGGGGTGGGGCCTTTTGGGTGGTGATTAGGC
+CACAAGAGTTGAGCTCTCAGGAATGAAATTAGTATCCTTATGAAGGAGATCCTAGAAAGT
+CCCCTCATCCCTTCCACTCTGTGAGGACACAGTGAGAAGGCTCCCTCTATGAACCAAAAG
+TAAGCCCTCATCAGACACCACATCTGCCAGTGCCTTGATCTTGGACTTCCCCGCCTCCAT
+AGCTGTGAATAATTTTCTGTTGCTTATTACTATCAGGTTTATGGTATTTTTTTTTATAGT
+AGCTTGGAAGGACTAAGACAAGGCCTATATGAGACACCTTCGTGGGAACTCGGGTAAGTC
+ATCCTTCACAGAAGAGTGAAAGATATGGAAAATGTCCCAACTCTAGTGAAAAGAGGGAAG
+TACCTCAAAGCTTTCAATATTTAGAAATATGTATGTGCTTATATCATTAGAAATCAGTCT
+TTGAGGCTTAGAAAAGAGAATGTTCATTAATATAAACCTGAAAGTTGTCAGAATGTACAT
+TTATGCTTTTTCTGATGAACATTATAAAATAGCAGGAGAGTAACCTTCTCAGCATTTTAA
+AAAACGTTATTCCTGATAAACATTTTTTTCCTAGAGAAACATGTCTCTTAAATGGTAAAC
+ACTAAGATAGTGGGAGAATAAATTATTTCCAAATTACACAGTTATGTTCAAAGCCTGGAG
+AGGTAATATTTTTTCTTTTTTTTTTTTATGTTTCACTTTTTTGAGATGGAGTCTTTCTCT
+GTCGCCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAAGCTCCACCTCCTGGG
+TTCTTGCCATTCTCCTGCCTCAGCCTCCAAGTAGCTGGGACTACAGGCACCCGCCACCAC
+GCCTGGCTAATTTTTTGTATTTTTAGTACAGACAGGGTTTCACTGTGTTAGCCAGGATGG
+TCTCCATCTCCTGACCTCGTGATCCACCCACCTTGGCCTCCCAAAGTGCTGGGATTACAG
+GCGTGAGCCACCGCGCCCGGCCTATTTTCATTTTTTAGTCAGTGTGGAAGGCAATTTCAG
+AGGCATACTTCAAATTACTCCATAGCTTTACACTGTTGAGATGAAGACCACATGCTAATG
+AGAACTTAACAAATGCAGTGTAATAACAGCAATGCGCTCATGAACATATGTGATTTTAAT
+CCCTTCTTAAGTATTAAAGTGTACAATCTGTAGATAACGGTTAAGATTCTAGATTTAGGT
+TTGGATTTAGACAGTTGAGATTTTAGAGGGTTACACTCTGCTTTCCAGTTTGTGCTATTC
+TAAGCTGTTTAGTTTATCATTTCTATGACATTCCAAGTCAAACGAGGACAGCTTGATTTT
+GCTGATAGCTGATGAAACTGTAAAATGCTGCATAATTAGATAGAAGGGAAGTATCTATTT
+AAGAAGGAAACTAAACATCCAGGAAGTTATTCTATGAGGGGGAAAAAGTGATGTGAAAAA
+TATTTTTGCCCTGTTACCAGACTTTTCCAAGAATTTAGATTTAGCTTTTGTTTACAGCAT
+GGTTTGACATTCCTGGATGTCTTTATATAATTGACTTAAGTAATTGACATTTGAATCGTA
+CTTTCTAGGTATGAAACTGCTTCACACATACTGACTCCTTTAGTACTCCAAAATAATTGT
+AAGAAAAATATTGCCATTACTCAGTTTAATAATAAAGACACTTGAGCTTCCACAAGTTAG
+ATTATTTTCCCAAAGTTATACAGGATAAGTGGCAAAACTGGGAAGTAAATTCAAAAATAT
+TTTGTCTTTTCCCCACTATCATACTGACTTTAGCTTGAGAATGTCTAAGACTGAAAATGA
+GGAGTCAGTCATCTTGATTTGTCTAAAATCTCCTGACTTGTATCTCTGCGGCAGTCTCCT
+CACACAAACTCCATCCCTCCTACATACTGGTGATTCATAAAGCAGAAGCAATCAAGTCAC
+TACCTACTCAGGAGGCTGCTAGCATCTTAGCCCAGGAATCAAGGCTTTTAAAATACAGCC
+AAATCACATCTTCAGTAATCGTTACAACAGTTATAGCAATTGCTTACACAATGTTCCTAT
+TTATTATGTGCAAGACACCATTCCAATAATTTTGCATATATTATCTCATTTAATCCTAAC
+AACAATGACAACAAAAACTCATGAGGAAGGTACTATTAGGACATCAATTTTCCAGCAGAG
+GAAATATGGAAATCTGGAAAATGAAGTCACTTGTTCAGGATATCCTGTCTTCCCTTTCAC
+TGGGTTCATGATATACTGCCTTTTCTTTCCATTAACAAGGTGAGAAATAGAAGGGTTGGG
+GGTGTACAGCACCTGGATATGAAGCACTATCTGTAGTTGGGAGGGGAAACTGAGGACTGT
+AGGTGTGATGCATTACGGAATTTGGGATGTTTCATAAATTTATCCTACAGTGAAAGGGAA
+AGCTTAGAGAATGACAAGTTATGCAAGAAAATGCTATTCTCAGAGACCAAGAAAGGCACA
+GTGGATGCAAGATAATCACATTGTTAATAAATTGGGATACCACACAAATTAGTGTATATG
+ACCACATCCAGCTAAATGCTGATTATACCAAAGACTTCTGAAATATACTAAAGATGTAAA
+AGTTGGAAGGGCAATTAAGTAAACACAAAAGAAAAGAGAAGAAATGGAAATGGAAATTGG
+AATATTGTTCAAGCGAATTTACATAATTAAACCAACTATGTACTAATTATATGAAACACT
+TCTGAAATATACTGCATGTTTAAAAGGAAAAAAAAATGTAAATAGCAAACAGATGAAACA
+AGAATAGAAATACCAAACTGCATTGATATAAAAGGAAGAGGTTTGTTACTGAAACCAAAA
+CTGCTGTTTTGTCCTGAGTGATGGAATACAATGTTTATGACTAGAGGAATACTCTCTTTG
+TGCTGCTTTCAAAGCCGTATTTCAACTGGAGAATGGAAGAGAAAGACACTGAAAAGATGG
+CTCCCTCCGTAGTGGAGCAGTTTAACTAGCTTTTGTGCAAGATAGGACTAGGGAATCCCA
+GAGCTGATTTGGGAGGTATGAGATAAAAAGAGATTTATCTGAATTGGAAAATAAGGGAAA
+TTTGTTGTTCATTCTTTGTTATTTCTTAGTTCCAAGAAGGAGGAGGAAGATAAATATCGA
+AAATTAAATTTACCATGTTTCTCTTTGGACTACATAAATGTCCTTGTTCATCTCTAAGTT
+CTCAGTAAAACACAACACAGATAAACCCTCACGTGTAAGTCTCTCGGTATGTGGGGTTCT
+GAGTGTGTGACTCTGTGTGTATGTTTGTGTGTGTGTGTTTGCATTTAGTGCTCCAGGTGA
+CCATTGGTTAAATCCTGAAGTATCCAAACACCTTCCAAGCTTCTCAGGGTTTTCTCATTT
+CTCTTAGGCAAATACTATATTTTTAAGTGTGACCACTAACTATTATTTTCAACTATGTCA
+CATGAACAGCTTTGTGCACTTTCTTGGAATATAACTTTCATATACTGTTGGAGATGAAAT
+GCGTAATATGTGCAAAATTCATCTGAGAAATCTCTGTCCAAATCTGTAACATCGATGCTA
+CAAAAAAGCAGAAAATGTACTTATTACGTTGCCTCAATAAAATATTGTAAAAATATTATT
+AACCTTACCATGGCCAGTAATTTCTGCCTAAAAAGATTATACAGGAGACAGAATACCCTT
+TCCTTTTAATACACATTCCCAGTTTTGAGAAACGCCCCTTTGCAATCATGCATACTTCCC
+CAAACTGGGTCTAAATCATTAATGATTCACCTAAATTATTAACACTCTCGAGAGATCGAA
+AAACATTACACACCAACAGTAAGCGGTAAAGGCCATGTTAGCTTAGACACCTTGACACAC
+AGACATAGAAAATGCTTATAGTTTCAGTTCTATAATTTCAACCAAAAATAAATATAAGAA
+CACAGCTACTCACCTGTCGAGATATGAAATAACTTTTCTTCTTCCTAATGGGCGAAAAAA
+TTCTTAATTGATTTCAGCTACAATAGAAAAATAAGCCATCAAGCTAATAAATAACAAAAC
+AGACTCTATGTCATCTCTCATCCAAGGGATAAAATATCTCCATAGACTATTAATCCATTT
+ATAGTGATCAACAAATATGCAGACGATAAAATCTAATTCCTAATCATTGCTGCCACCAAT
+GAGGAATAATAACTTATCAGCCTTTAACAAATGAAAAGCAAAAACAAACCACAAAAATAT
+TGGAGAGAAGAAAGAAAATTTTGAAAAATAGAGTCGACAAAGTTCTACTGTCACATTGGA
+TCTATCATAAGGAGGTTTATTCTCTTCATGAACTACACCACTTCTCTGGTGATGAAGTTT
+ATTTGGTTCTGTCAGGTGAATCTGTCAAGCATTTTGGTGGAAGACCTCCAAAATTACATA
+CAGTTACAATATCTAAGCATTGGGATACCAGTACACAAATAGAAAAACAGTTCAATGAAA
+GATGAAATAGTCTCAAAGCTTCCATAGAGTATGTAGAATAATTTAATACAGGCTTACAGA
+GGCACCACACATCACTAGAAACAAATAAGGATTTTTCAATAAAAGACTCTGAGAGAATTA
+GTTATTTGGAAAGAAAATAAAATTAAGTCATAATCTTATACTTGTGCTAGCACAATAGAG
+TCCAAATATATCAAATGAAAAAAAATGAAAAAAATCAATCACTTTAATAACTACCAGAAA
+AAAAATAAGATGGTCATATTTGCACTGTTTGGGGAAAGACTTTCTAACATTTTATTTTAA
+AACTCAGATACAGAGATTAGATTATATGGTACTGTTGGTCTGTAGTCCGTTCTCATAGCT
+GACCACTTTAAAGCTCTCTTTTTGCCTCATTTATTGCTTGAGCTGATGTTCATGTCTCCT
+ATCCACTCTCTTTCTACTCCTCTCATAGAGGACCATTTTGCTGTTCTTAAATGTTTGCTA
+TTTTCTGTTTATAGGTGTTCATTATATACATCTGTTTTTAATTTTCATAAATATCATCAT
+GTTATGTATCTTATTCTACATTTATATTTTATGCTTTTAAAATCCCTCATGTTGCTGTGT
+TTACAATTATAACTGCTTCAAACTGCTGCATAATACTTCATGGTCAGCAGACATGGAGGG
+TTTTAATGTTTTGTTTTTGCTTTTGGTTTGTTAAAGGCCATTAGATTATGAATCCTCATT
+GGTTGTAGCAATGAATGGGGTTTTGGGTCTTTGGTCTGATTATTTCACGATCACTATAAA
+TAGGTTAATGGTTTATAGATATCTTTTATTCCTTGGGTGAGAGATGACAGAGAGTCTGTT
+TTGTTATTGATGTGTTTTATTCCCATTAGTTTGTCCATGTCTTATTGGACAAAGCTAGTG
+CCATGGCCAGGTGCAACATCAGTGTATAAGGAAATAGTTCTCTCACTTAACTGAAAAACT
+AAAAGGCTGAAATCAATCACCCAGTCTGCCATAGAAGATATTTAAGGCAACATTAAAGTT
+GTCGGGAAACTTCTTGGCATTTCAGTAACTTGTTTAACAGATACATCTGAAACAACTGGT
+AGCAGAAGAGTATGGAAAGTTACAGGGGCTGAGAGAGAAGAAAAAGAACAGGCTGGGAAT
+GAAATTAGGGTTAGGATAGATGACTAGAGGTGTTTTCCCTAGGATAAATATTCTAGATCA
+TTCAGAAGATGAAGAAATGCATTTTGAGCAGTGTACAGGAGCCAGTCAATTGAACTAATG
+GATATCATTCCCCCAATTTTTCCTATTGAAAAATGTAATAGATTGGAGAACATGAAAAAA
+ATTCAAGCTGGTAAAGGTAAATACCCTTTATTTCAAATTCTTTCCCTTCAAGCAAAAATG
+CTTAAGAGACTTTTTACTGCCCCTTTAAGAATCCCACAGTCTTTTGAGAGTTAGGAACAC
+TGGAGCCTAAAAGACTCCCCTAGCCTGAGGGAGCTCCATTGTTATAGCATGTGAGGAGCA
+GTATGCAAGTTATTCTAGCTTTACACCTTTACCTCTGGATAATGGTCCTATTAATAGAAT
+TATGCTGAATAAAATATAAAACAGTTGAAATGAATGACTATGTCTTAATTAAAAAGACAT
+TTTTATAAAAGCACTCACCTCCACATTGTTCCTTAATCGGAAAAGGCAATTAGCCACATT
+TTAGAACATTTCTAATTAATCAGAATTTCCATGATATTAACTTCTTCATAGTTTGAGCTT
+GTATCTGGTAAGATTCATTCATTTTTAAACCTGAGACTCATTCATCTACATATATAAATG
+AGAGTTGGTCATTTATAACACTATTTTCTATTCATGCTTGCTCACAGATTCTATATGCCA
+GTAGATCTGCTCCTGAATGAAAGCATATTTAATCAGTACATCAGCAATGCTACATTTCCG
+TTCACAGCAGAGCAAATGAGATTCCAAGCCTATCTTAAAAAAAAATTCTCGATTTATAAA
+AACATCTAAAAACAACTTTTCGTATTAATTCCTTAAGCACATTCCCAATTATAATTTTTG
+TTTATTTTATTTTCTCCTATACCAAGAAAGGCAGCACTATAGAGTTGACGAGGCACTATT
+GAGAAGCAACATAATTAAGTTGCCAAGCCGTGTATCTGAAGACAATTCAGTATGCCAAAT
+AGAGGTGGAATCTGGCACTTAAAACAGCCTTCTGTTACACTAGGTAGCTAGTCAGACATG
+AGCAGGGCAGGATAGGTGCCCCACACACAAACACCAGGAATATCCAGCTATGGTGATGGT
+CAATCAATTGTTAACTGTCTCTCTAAAATAATAATTGGTCATAGCCAGCAGCCCCAGGGA
+AAGTCAGTCTCCCAATAAAGAGGAAAAACCTGAAACTGGTGATCAGCAGCCTCGCGATGA
+GATCTCAGGAGTTGGGTGACTGGGTTCAAGCATGCACACTAAGAGGCAAAACGGTGGAGT
+TTAACTGGAATATGACCTTCCTCTAGAAACACTTGACTGGTAAGGGAAGAATGGCCCCAG
+TGAGCATGCGTAAAACTCCAATAAACACACTGCGTATGAGGCCCCTCCCAAATGCTAGCC
+AGCCACTGCACATGCAGACAGGCCAAGGGAAGAATCAGGGGAGAAGTGATGCAAGACCCC
+GAAGCATGCCAACATTTAAACCCCAAGTCAAAGGTCAAACAGTGCACTTGATCTCTCACG
+TTGCCCGATGGGCCCTATTCCAAGGGCAGTTTACTAGCTTTCATTGATGCTCTAAAGCTT
+TTTAACAAATTTTGACTTCTGCTCCTTGGTCTCTCCTTCTGCTTTATGCCCCTCAGTCAA
+ATTCTTTCTTCTGAGAAGGCTAGAATTGAGGTTGCTGCAAACCCGTACAGATTCGCAGCT
+GGTAACAAACTTTGGTGCCACATGACTTGGATACGTTCCACTGCTAACACTTTCCCACTT
+TCCCCTTTAGTCCTAAATCAAAAACTGAGATCATGATTGATCTCAATTATCAAAATCCTT
+ACTGGGTCAGGGGGTCAGGATTATAAACATTTCCTGAATACAAATGAAGACCTAAATGGT
+AGAGATGTTTAGAGAACGGTCCCTTGCTTACTTGACATTGCAATCCCTACTCACCAGTGC
+CCCAAACCAGGTACATGGTGTTTAGATTCCATTTGGGTCCCATTAGATGAAATGGGATTA
+ACACCAAATCTGGTCACTCAGTAGTCCATGCTAGAAACTCAAGAAAGACAGAATTTGGGT
+TTCCTTGTGTGCGCTTTCTCTGTTTTCAGAAACAGTCACAGCTGAAACTGCTACGGACTG
+CAGAGGGGATTTTCATTTCAATGTTAATATTTTATCACAGCAATATTAACTCCAAAATTA
+ACAATTATAATAATTATTTATGTTTTCTTCCTTATTTCCTTCCAAGTAGCTCAGTCACAT
+CCACCCTGACACCCACAGGGGAGGTGTGCTAGCAGTGGGGGGCAAGGATGGTCAGGCTTT
+ACATCTGACACATGGAAGACATAGGTAAGCTTACCTTAGAGGCTCATGGGATCAAGGATC
+TAGTCACCAGATGCAGTGGTCAAACTGATCACGCAGCCTTTCATTAGATTTCTCTCCTTC
+CCTGCTTCACTCCTCCATCCCTCATTTTTGCTCCCTGGGATGGTGTTTCAAAAACAACCA
+CTTGCACATGTTTCTTTTCTCTCAAGCTCTGCTTTTGGCAGAACCCAACCCAAGAAGTCT
+GAATCCTCATGTCTCCATCTCTCTCTCTGTTGTTCTGTCTGATTAGCTTTCTGTCTATCC
+ACCTTCCCTTGTTAAGGACTTATAATTTAGACCAAAATGATTGGATTGAGAGAAAGCATA
+CATCAATGAATAATTAGTAAGATGTATTAGTCTGTTCTTATGCTGCTGATAAAGACATAC
+CAGGGACTGGGTAATTTGTAAAGAAAAAGAGGTTTAATGGACTCACAGTTCCACGTGGCT
+AGGGAGGCCTCCCAATCATGGTGGAAGGTGAAAGGCACATCTTACACGGCGGCAGGCAAG
+AGAGAAGTCAGAACAAATGAAAGGGGTTTCCCTTTATACAACCATTGTATCTTATGAGAC
+TTATTCACTACCACGAGAATGGTATAGGGGCAACTGCCACCATGATTCAATTATCTCCCA
+CCAGGTTCCTCCCACAACATGGGGGAATTATGGGAGCTAAATTCAAGATGAGATTTGGAT
+GGGGACACAGCCAAACCATTCACCAGGCATGCTAATAAATGCTGAAACACAAGCACTTTC
+AAATTTTTTGGTATATTGTTCTAGAGTTTTTCTTTGGACATTTAAATATTTATATATGTA
+CATGTATTTTTACAAAAATGGGATACCATTATCCATAGCCACACACACATACATATATGT
+CAAGACTCTTATTTTTCAATTAAACTTAACATGGTATTTATTGATTTCAATAATTCTAGA
+TATTGCACCCATTTTTTGTAGCTGCAACATGTTAACATTACAATATTTGGATGGTTGACC
+CGGATTTAAAAATAATCCCTTAGCAATTAATGCTATTATTAATTTTTTAGGTATTCTGAC
+AACAAGTACACAAACACATTTTATGAATAGAGATAATATATTCACAAATAAATCTAATCT
+GTATGTATTTGACTATTGATGCAGCATATGTTATCCTGTTTGGGTTTTGAGCTTTGGTAT
+GCTTCCTCTTGTCAATTGCCTGTTTGTTTCCTTCCTCGAATTGTTCGCAATGAGTTCTTA
+TAGTAGTCATTCATTTCAATGGCAAATAGTACTGATGGAGGACCTTCAGTAATATTCAGA
+AGCTACAGATACAGTGGTAAACATGAAACATGGCTCTGCCCTCTGGAGCATAGAGTCTAG
+CAAAAAAAGATGGTCACTAACAATTACAGCTACAATGAAGGTTGGAAAATAATTCTCTGG
+CACAGAAAATGTACTGCAAGAGAAGTCAGAGAATTGGGCCATCAGGGAAGACTGCCTGAG
+GAAGTAATACAAGTTGAGATTGAAGAGTAAGTGAAAGTCGACCAAGTGAAGAACACAAGA
+ACATTTCATGGAGAAGAAAAAGACATAAAAACACAGGGAAAAAGTGTATTATGTTTGAAT
+ATATTAACCCTTTGTCAACCATATATGTGCATATATATATTCAATATATAAAACATTTTT
+TAGATCATTGTTTGGTTTGAGCCACTTTGCCAAATGCAAGTTTCAAAAATTTTTATTGTC
+AAATATGTAAATCTTTTCCTTTAAGATTTTAGGTTTGGATGTCATACCTAGATAAGCTTA
+TGTTCACATTCACTTATATTTTCTTCTAGTATTTTTTCTTCTTCTTTTTTCTTTTAGCTC
+TCAGACCATCACACAGAACTTCCTAGTGCTTTTCTCATTTTATTTTTTCTCTTTCACATT
+TTTACAGTCTGGAATGTATTTGGTTGTAGACTATAAAATGGGTATAATTTTATTTCAGAT
+GAATTTACATTCTTTTTTCTCAAAAGCTTACATTATCTAGTAGGTTCCCTACTTTGCCAC
+AGAACTTTCTTAAAGCAAATATCTATCCCCCACCACACATGGGTTCAAATCTTCAGAGAA
+ATGACAGAGCTCCCAAACATTACTAACATCTCCTGCTCTCTGGCCCAGCACATCCTTTCT
+CCAGGGTTCTCTCTGACCTTCACTCCTGATTTTCACCTCAATTTTTCTTTTAAAAATTCT
+TACATATTACTCTGTCCACGATGCTACCCCCAAATTAAGTCAATTAGTTTGGTATTCTTT
+ATTAACCCACAAATCAAAAAAGAGACATTAATATCCATTAATATGAAAATGAAATATACA
+TAAGAAATCCATTTTACCTTCTTTGGAACTATGTCATTCAACGAAAGTTTTCACTAGTTT
+TTTTAAATATTTTTTTTCTAAAATAACTAAGAGTAAAAGAATTCACTCTAAAAGTAACTG
+GTACTTAGACTGCATGACATTGGCACAATAAAATGCAACAAAATAATTTAGACAGTGCCC
+TTCACCAAAATAAGCAAATTTGTATAGCCAAATTCTTGCAAAGAGGATTAACCTGTCTCC
+GAAGCAGCAGTAATTACTGGATGTTGAGAAACACGAAATACCTGTGCTTGTAGCAGCGTG
+AAACCTGGCCTATGGTCCCAAAATATTACCAGAAATATAAAATCATGAATATACACATCA
+TTAAATACATTCCATATTTTAGAAGCAACTCACTAAAGCTGCTTAGAACCTTCTGAATTA
+GTAATTAAAATATATAACTAAAAGTATTATTTTCTTATTACAGCAATAAAAATGCAGGCA
+TTTTTTTTTCTCACTGAATATTCTTTTGTGATTTTAAAGACATGACACATGACCTCTAAA
+ATTGTCAGAGAGATAGAACTGGCTCTTGTATTTAAAACTTCTTTTATTGAAAACCTATGT
+TCAACCTTTCCCTGAATGATTATTGCCTATGGTCAGTAACAAGATGGTGGTCTAGACTCT
+ATGCTCATTAACACTTTGCCTGATTTGGCAAACATTATTCCTTTTTTAGAAGGGTTTAGA
+TCCTGATTGATTTAGTGATATTACTGGGGTGAGAGTAGCAGGATTACTATTAGGAAAGAA
+AAAATGGTACATTTTTCACACTGATTTGAAGGTCAGTTGTTCATACTGACCCAGTGAGTT
+CTCCACCTTGCAGCAATGATCAGCAAAGAGCAGCAACAGTAAAAGTCTACCTCTAAGCCT
+GGGAGAGGATCAAGGAAGGCAAAGGCAGTGTCAGCACTAGCAGGTTGGTGAAGATAAGGA
+GGAGTGGCAAATGCCGTGGCCAAGTGGGTCAGTCCAGGAAAAGAACAACAAGTTGGTCAA
+AATGCAGAGCCAATAACTGTCTAGTCTCTTCATAGAGTGTGTTCCTGTCCATGCCCTAGT
+TTGGTCTGAGTTTTGCTTTCTGGTATGGACATTTGGGAAGGGAAAGACTTGCAGCCCTGA
+AGACAAGAGCTTGCTGACACAGAGCCGGACTCCTGTAGAGGACAATATTCTGCTTCCCAA
+GCACAGGATGTTGTGGTGGGTGTCTAAGAACAATGTCTTCCTAAAAGATCATCTCTGTGT
+TATCATTGATCTTTATCTTCCTGAAGAATATATACTTTCCATTTTAAGTTAAGACATGGG
+ATTTGCCAAGATTGTAAACCACACTGAGAGTCAATTTTGGAGTTTGGCAAATCATGTATG
+CACACCCTATCTAGTATTGATATCTAGTTGTCAACTTTTTATTCTGTTGTTTAGCAGCTG
+TATTAAGAGAAAAATCTAGAGAGTAATTAGTTTATAGAGTATAGAGGGAAGGAATAACGA
+GCCGTTTTCTATTGTTGAGACATTAAAAGTACATACAGGGAGGTTATCTTGGAAGACAGT
+AACATTCCAAATTATTAAAATTTGGTGCTTGTATCTTAACGATGTGCATTATATTCCTAA
+TTCTGAATTGCTGACCAATCCAGTACAAGCCAGTTCACAGCATTTCCAGTGGCCTATTTC
+CAAACCTTGTGGTCTGGTACAAACAACATGTAGTTGTTACCATGTGGTAGCTTGTCCTAC
+TACACAGTCCCTGATGTCAGTCTGGCTATGGAAGGAAACACTTGACAGGAGACTGAACAA
+ATGCAAGCCCTAATGTACGAGATGCTCTCCACCTGTCAAATTCCCAAGAACACCCTCAAT
+GCTCACTCTCTGAATGAGCAGCGGAGATAACCATTTTCTACTCGAAACCATTTCAGAGCC
+ACCAACAATATTACTGGTATTTCCCTTGTTACTAAAAGGAGAAACAAAGAACTATCTGGA
+TGCATTCAGAAGATACTACACTTCAAGAAGAGCCCCTGACTTAAGTTGCAATAGTAAAAG
+ATGCTTCCCTAACCATTCCCACACCAGCTCTCCAAGGGCAGCAGAACCATTTTCAGAAAA
+CGACAATCGACATTCAGAACTTTTCACAGCACAGAACATATAATGCTTATGCTGACAGCT
+GTTATCAGGAAAGAATCGGAAAATCTGAATGAATGCCAGGATATTCTCAATAAAACTGGT
+AAACATCCCATGGACATAATGGCAACAAGCAGGGTGGAAGTTGTTATGAGATTCATCACG
+TTGCATGAGGAATGTCAGGATGATAAGGCTTTTATCACCCCATGGTCGCCACTGACAACT
+TTCCAGGGGGATCTTTTGAATGGCTGTGTCATTGAGCTCATTAATGAATTTGAAAGGAGG
+TTAATTTTAATCAAGAATGTAATCAAGGCTGGTGCGGTGGCTCACGCCTGTAATCCCAGC
+ACTTTGGGAGGCCGAGGCAGGCGGATCACGAGGTCAGGAGATCGAGACCATCCTGGCTAA
+CACAGTGAAACCCCATCTCTACTAAAAATGGAAAAAAAATAAAAAAATTAAAAAATAAAA
+ATTAGCCAGGCTTGGTGGTGGGCACCTGTAGTCCCAGCTACTCAGGAGGCTGAGGCAGGA
+GAATGGCATGAACCCAGGAGGCGGAGCTTGCAGTGAGCCAAGATGGGGCCACTGCACTCC
+AGCCTGGGCAACAGAGCAAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAGAAAGAAAGAA
+TGTAATCGAGAAGGGGAAAGTCAAGCCCCAGTAACTCACTCACTTGCAGCAGAAGAGTAA
+GCACAGAACCACAGTGCGATGGAGTGAGGGTGCTCAACCTAGCCTGGGCCACAGGCCAAC
+CTGGCCTCTTATTCCTAATCAGGTGCTGGCAAGGATGCAATTTTGAACTTGTGTTAACAA
+ATACTCCATGTTTCCCATTCCACACCTGGGAAAATCATAGCAGAATCCAAACCTAACGAT
+GAAACTGACTTCTGATAGAAAAACAGGCCCCTTTACAGGAATACCCACGGACAACCTCTT
+CATACCGAACCTCCATGCTTGATGCCTTCTGATTACTGAGAGTTCGCCTCTGCAGTACCT
+ACACCAAGTTGCTTCCACCTGAGGCCACACCCTCAACTCCTCCCTGCCTCCACCTGTGGC
+TTCCGGGATCTGACTACCAAAGTTGGGCTTCTCTTCTGAAAATAGATTGGAGGTTTGACT
+CGGCTATAGTCACTAGGTACAGTCCAAGAACAACTGACATATCTCCTGAGGCTCTGATCT
+GAGCTGCTTTCACCTGAGGTCACAAAAGACTCACCTCTGCTTTCTGCTTTCAGGAGAATC
+ACATTTGAAGTACAGAGAGAGACACATGCGGGAAACAGACAGAGCTGACTGGTTTCCTGT
+AATCTGTCCAAATCTTCTTTGCTAGGTGTCACAACCCAGTCCACACTTCAAGTCTTAATA
+AAAGGAAGTAGGAACTTCAGAAACAGCAGTGCCCATGCCTGCATCTTTCTACCTGAACTC
+GTACAATCTCATAGATCCTTGCTTTACATACACAGAGCATGTTTAGTTCACCGCTTTTTA
+TCTTACAACATATGAGAAGGGATATTAGAAGTAAAAACTTGAAGAATGAGTGGTAGATAC
+TGAGAGAAGAAGAAACTCTTGGTTGCCAGACCCCCAATAGCCACCCACAGCAAGAGAAAT
+GAAGACATAACAATGGATAAAGAAAACGGAAACAAACAAACAAACAAAAAAACCTCAAAG
+TTCTATCACTGTTTAGTATCATGATGGCTGTTTGTAATGGCTTCATGTCAAAAAAAATTA
+AGTTGGTTCAATACACTTTGTGTAAGAGAGTGTCAAGCTTTTAAAACAAATGTTTCAATG
+TTTTTCTGGGCAAAGAGGGATAAGGTAAAAAGAAGAAAATAATAATTACCAGGATATAAG
+CAAAAGGGATTAGAACTAGGATATTAAACAAGTTTCATTTCATTTTCCAATTCTGTTTCA
+TGCTTAGGGACGTCTTGGAGCACTCTACTGCTAAGGAGTATGGGGCTATATCCAGTAGAA
+AGATGGCTGGGGCTGATTAGTGATGTTTTCCATGGCTTTGGAAGTAGGGAAGTGGGTGAA
+GTATAGAATGGAGGACTAGGAGGTGAACTTGGGTCCTGTACTTTCCATCCCTAGATAAAG
+AAAGTGGTGCTGCAGATAAAGGTAATGGAGAGATGCTATTGGCATTTACAAAACATACAC
+AGTTCACTCCTAAGACTTTTTTTTTTTTTTGAGACAGAGTCTTGCTCTATTGCCCAGGCT
+GGAGTGCAGTGGCACAATCATAGCTCACTGTAACCTCAAACTCTTAGACTCAAGCAATCT
+TCCACCTCAGCCTCCCAAGTAGCTGGGACTATAGGCACACACCACCACACAAACCTTTTT
+TTTCTTTTTTTCTGTTTTGGAGAGATGGGATCTCACTATGTTCTCCAGGCTGGTCTTGAA
+CTCTTGGCATCAAGAGATCCTACTGCCTTGGCCTCCCAAGGTGCTGGGATTACAGGCATG
+AGTCACTGTGCCAGGGCCTAAAACTTTTAAAATATTACTGAATAAAGACATGTCCACTGC
+TTTCATAGCTTAAGATATATAGCTACTTAGAATTTTAGTTGAATTCACAAAAATTAGGCA
+GTATAATATGGCAGGAGTCATTTAGCAAGCTTCTAATTAGAATATTTGATGATAGTATGG
+TGCATTGTAAACATTTCCATCTGTATTTTATTTCTGAGACTAAGAGTGATTTCTTTTAAT
+GAACCTTCTATTATGTCATTCAAGTTGTTGTTTAGAGAAAGACGTGATAAGAGTCCTGGT
+TCCTGAGAACATTTGCTATGGGCCATTAATTAACTTTGTGACCCAGTATAAGTCATAACA
+TTTCTTTGTTTCAATTTCAATAAACAATGAGTTCTCCATTAGCTAGAAAATCTACAAAAT
+CATTGTAAGTCTAGGGAAATTTATATTCTACAACAAATGTAAAATTCTCACAAAAGTAAT
+GACATGAACATATTGATCATCTGTAATATTTTCTAACACTTTGATTTACTATCCATATGT
+TCAGATGACAATCTTTTTAGGGAAAACAAAAACACAGACTGTTAGCATGTGAAAGAGATT
+CATGACCCTCCTTGGTCAGCAAAAACAATTGCAAATGAACATTTCTTAGTGATTTATTTG
+CATTAGCAAGGCTGTCAGGACATTTAAAATATTCCTGAATTGAGTTAATAAATAAAAGAA
+AGTCTGATTTTGACAAAAAGTCATAAAATGATACCATTCTAGGGCAATTATTTGAGGTTC
+TTTACTAGTCAATGTCTGTCTCCTGTCTCAGGGCAGGTATACTTCCAGCACATTCTTGTC
+ATGAGGAAAGCCAAACAAGCTCTGCTGGGCTTTGTTGCTTCAAAGTCTTATTTTTTATTG
+TGCGTTCAAAACCAAAACAAAAAAGAAGAGGTACAATCAACTGATCTTCTCAGTGTATTT
+GCCACTAGGTTCATGATGCAATTTAGGCAAGTTAGTGAATCCTGCTATGAAAATATCAAA
+GCTTTCGGTCATTTGTCCATATACTGGCATAACACATTGAACATAGTAATCAGGAAAACT
+CATTTTAATGAAGAAATGAACAAAATTACAAATAAGTGATTAAACCATTAAGAGTAAAAG
+CACCATTAGATTTCATTTATAATGCATCCTTCACAGCCTATCATTCACCTATGAAGTTCT
+AAACCATATTGCTGTGTATGCAAAAATGTCCTAGCTTACAGTAAAAACTCAGTTATGCTT
+CTTTCCACATGATAAGCTGAAATCGTAGTATCAAAGTTTCCAAAAAAATTCACCATTAAA
+TTAATTATTGGGGCAAAAACATCAAGGAAACCAGATAATAACAATAGCAACCACAATAAA
+AACCCGCAAGCAAAACAAAAAGACAATATCATTACATTTAGTGGTTGTGATCATGGCGAG
+TAATGGGTCACAGTGCTATTGAGTTTTCACCAAATTTTTGTTTATTATTATTAATGTTTA
+ATTAGAGGGACTTACAATATCTGAGTAGTCTACATTTAAATAATGTTGGAGATCACCAAT
+GTTAGCCCATTGAAATCATAATAAATATTGCACAATTGCTTTTTTAGTTTTCCAACTGAG
+CTTTATTTCTATCTTTTTATTTTACAAATGTAATAAAGAGCACTCAAAAATACACACATG
+TACATACTGCAGGTGAAGATAATTTAGTCCACACACACACGTTGTAGAAGATATTTTAGT
+TTCAGTAGAGGCACTGCTTATTCTGCAAATCCTTCATTGACTTTTGAGACTGAGTTAGAC
+CCTTTGTGTTCCCATTGTACATCACAATGATACATTCAGAATCATACAATGATACACCTA
+CCACAGTGTCAAAGACTTCCTAAGTGCCCATCTATCCAATTTTGACCATGAATCTTCTCA
+CATGTATACTACCAATGCCTGATAAAGTTCATAGCATATTAGATCTGTTCAGTAAATACT
+TACGTGAATGAATGACATTATGGTGGGGGAAAAGTAGTACAGGGTTGGACCATAAATTTC
+CGTGTGGATCACTGAAATATATACTATTAACAATTGTGAAAAAGAAAGACCGTCAGTCAT
+TGTACATTGTTCAATAACACCTTATGTAAGATTTGCATAGTGCTTTCCTCTAAAGTTTAA
+TATCATTTCAAGACAAACATTAGAAATAAATGCTTTAATTTTGTCCTTAACTTTTAAATA
+TATTATACTTTAAGAATCGGATCAGCCTTTAAATTCATTATTTTAAATCATGACAAACTT
+GAACTGTTACTAAAAGGAGACAAAGCTTAACTAAAACTTTAAAGGTAAGTTATGAGAATT
+TTTAAATGTGAGCAGTTTGTTGACTAAGAAAATCTCAAGGCAAAAATGGAGAATGTTTAA
+TATTCTATATGGGATAATAAATATGAATTCAATAACCTAATGAAATTTCCTAAAAATTAA
+CATCTATATAATTTAACTGTATAATCTGATAATTTATGGGATTTTTAAAGAATCATTCAT
+AAAGTGATTCCACTGAGTTAATATCTATATAAGTACATTTCCATTCATTGATGTAGGACA
+TAAAAAAGAGTCTGACCAGGTTCCGAAGGAGGAGAGGTTATTTTAATTAAAATGACTATA
+GTTTAGATCTTTAAAGGAAATATAATTTTGAATAGTTTGGAATTATTCCATACCATTTAA
+AAATATCTGGAAAATATGTGAGACATGTATAACTTTTCTTACATGCTTAAATATCTGTCT
+TCTTGTGAGAGTATTGAACTTTCTACCTTAAAATAACTTCAATGTGGAGAAAGTTCTAGT
+TTCAAACTGCTTTCTTCAAATATACAGAAAGAATAGTAATGATGGGTTAGAATAGAACAG
+TTTTGACTTTTGGAATAAAATTTTAGAGTTGGGTGATCTGGGATGAGGTCACTTTCCTGT
+CACTTTTTTTTGACATTCAGAGCTTAAATAAATACTGTATGATTTTTGTGACTGATGATT
+CCCCCAAGGACTTACTCACCATCCACTATGAGACCATTGCAGGGACTGCATTTGGAAAAC
+AGGATGACAGTCAGGCAAGGGACAGAAATTTCAGTTCGTAAAGCACTTGGATAATTTTTG
+CTCTTATCATTTCTTTCTTTTTATTTGTTTGTTTTATTTCCCTTTGACACATTAAATGTC
+CCGTACTTTAAGTTGCTTATCACTTTCATGAACTGGTTCATGTACTATTTACTGTAGCTA
+CTCTACTTTTTATTTTCTCTTTACCTTGTCTAGTCCCTGAGAGGAAATAATCTTTCATAC
+ACATCTTGTGGTGTTCTTTCCCGAAATTATTCTTCAGGGTTATTGTAATAAAATTATCCT
+TTTGTGTATTCAGTGTTTTGGATATGATCTATTCTTTACATGTCCCTAAGATACATTGCT
+TTATGTTATTAACCTTAGAATATGATTTCCATTGCTCTGTCCAATACTTATGGAGAAAGT
+ACTGAATTTAAAAGAAAGAAGAATTTAAAATATTGGCTACATCCTCTTTTATCAGAAAGT
+AGTGTTTTTGGAGATGCATAATTTGTCACATCTTAACTTATCTATATTCATATGAGAAAA
+TGGCCTAATGAAAATCTACACTGACATGAAAAAGAGTTTCTGTAAGCGATAAATCTTTGC
+TAAGATTGTTACATTTTTCTAAAAAAAAAATTTAAAAATTATATATGGCCATTACAGAAT
+GCTCATATAAAAAATGCAGAGTCCAGGACAAGCTCTCTACAGCAACTTCTTTATCAAGTG
+GAAGTATACCGTGATGAAATCCCAATGAGGTTAAAAATTTTTTAAAATTCGGCCAGGCAT
+GGTGGCTCACACCTGTAATCCCAGCACTTTGGGAGGCCAAGGTGGGTGGATCACCTGAGG
+TCATGAGTTCAAGACCAGCCTGTCCAACATGGTGAAACCCTGTCTCTACTAAAAATATAA
+AAATCAGCCAGGTGTGGCTAATTTTATACAGATAAATGCATATAAATATTTAAATAAATA
+TTTAAAATTAATGAGAATTAGAAAGAAAAACATTTAACATGCCTGTGTGAATGCACATGT
+AAATGTGTATACTCACACAAATACTGAACCATCAAACACTAATTGATGTAGGTTAAATTT
+ATTGATACAAATAGGACTCGAATCATCAAAGAACCAAAAAACACTTTATTTTCTATAATC
+TTTGCTGTCATTGACATTAAAAATCTGTTTATTTGATGTTTTTGTTGCCTAATAAATTAT
+CTTTATTCATGAAGCTCTCTTTGCACTTAAAAATATTGTTTTATCAAAGTGTTTCCACTC
+ATTATCATAAATCTAATGCCTAATAATATTGAAAAAATTCTATACAAAAATGATAGACTA
+TGATGAGTCAAGTAATCTTTCCCCTTAAAAATACAATATTAGATAAAATGCTGAAATTTC
+AAAAAATTATTTGGTTGACTCCCAAAAAGGATAAAAAAAATCATCGAGGGTACATCAGGA
+AACAGGGTACCCAAATCTTGGTGATCAGGAGGTGAAGCCAAGGTCCTGTGCTGTTATTAA
+CACTGGATTGAAGCTTTAAGAGTTGCAATTTAAATGTCCAAACATGTGCCATGAGGCCTT
+AGAGTCAGATCCATCATCAAAGTGGCATGGCAATGTGTTTTCTAGACAAATCTTAAAGCC
+AGGGATTGCAAAACTGTAAATAGGGAAAAAACAAGCAATCAGTCAACAAAAAAATGTCCT
+GCACAATGACTATGGAAAGGAAACTGACTCCAGTCTCAGGTTGGTGGGAGGGGGGGGCTG
+TATTATGATTGAATACGAACTTTAAATCACCAGTATCTTCAGAATATTAAGGTTAAAAAT
+GAAAGAACAAAAACCAAAGACTTTTCTAGATTGAAAAAGACATAGCAATTAAAAACAATG
+CAAGAACCTCGATTGGATCCTAACTTGGGAGGAAATGCACAAAAAATAATTGTAGCAATG
+TGAAAAATTAAATATGGACTAATTATTTTATGATGTTATGAAATTATTTTTAGTTCTCTA
+AGGCATAATAATGACATTGTGGCTGTAGAATAATTCCCTTATACTTAGGAGATGTGAGCG
+GAATCATTTGCAGGTGATATTGCTAAGACAAAGACAATACGACTTTGAAAACACAATTAA
+ACTCACCATAACAAAGGAAAAGAGGGGAAGATATGTTCATCTCAATATTTGCATTTGAAA
+AGTTTATACTCAGGTTTGAAATAATACATTCTTAGCACAAATTAGACATAGAATTAGAAA
+AACAATACCTACCCAGTCAGTAACTTTTACCATTTGTGGTGAAGTACTATGAGTACAATA
+AAGTTAAGCATAAGGCAAAGGCAAAGCCAAGTCATTAACAGAAAAAAGGGAGTAGGCACT
+ATGAGACAGAGGACTTTTTTGAAAATTATTATTTTTTTTTAATATTTGGAGAGAGGGTCT
+CACTTTGTCACCCAGGCTGGTGTCTGGAGTGCAGTGGTGTGATCTTAACTCACTGTAGCC
+TCCACCTTCCAGGCTCAAGCAATTCTCCCACCTCAGACTCCCAAGTAGCTGGAACTACAG
+ACATGCACCACCGTACCCAGCTAACTTTTTTGTTTTTTGTAGAGACAGAGTCTTGCCATG
+TTGTCCAGGCTCATCTTGGACTCGTGGCCTTAAGCAATCCTCCCACCTCAGCCTTCCAAA
+GGTTGGGATTACAGGTGTGAGCCACCATCCCCAGCCTAGTTTTTCGTTTTGTTTTTGTTT
+GTTTTAATTTACCATTTCCACACATTCCATAGTCAGGAAAAAAAAATTCCACCTTTTGTC
+CTAATTGTAACTGAAATGAATGTTAGTACATCTGAAAGGGAAGGGGCACTGAAAACCACA
+CACACTCTGCAACTTTGGATAACTTCTCTAAGTTTTAAGAATTTCAGAGATCAAAGAATA
+TGTAAATAATCGAATTTAAACTCCATGAATTGAGAATCTAACTTACCCTAGAATAGATGC
+TCTATGAAAACACCCAATTTACATATTACTATCACAACCAAATCCTTCATCATCAAGAGT
+GTGTGGTATACAAGCACTCAATACATATTTGTTAAGTGAATTAATAATGTTAGTCACCAA
+ATAAGGCATTTAAGGAGTCAAATAAAGGAGGCAATGCATGAAAAGCATTCAACACAATGC
+CTGGTGTACATAAGCATTCAAAAATCTTAGTTATCATCATCATCACATTCATCGTTAATT
+TTATAATTATTATCGTAAATCTGTCATTTAATGAATAATTTCACATACAAGGAGTTGCAA
+TTACTAGCACAAACATTGACAAGACTTTGCAACACAAAACTACCAGTGAACTCAAGAAAT
+GTTTACTTTTGAGGCAAAACCTGTGAGCACATTTTGCTGGAGTGGCTTGTCCTCAGTATA
+CTTACATCACTGGGGAAAGCTAAAGAGACAGATCTGGGAGTCTTTGTTGAGCTCTGAAAG
+TAAGTAATATTATTAATAGGAATGTATTTTATATGTGTGTACTAATCCAACTGCTTATTT
+AAGTTTGCAACATGCTGATAGTTTTTTTCAGACTCATGGTACATGTATAAATTTGAGGCT
+TCTGGAAACATTTTTCAGATATAAATATTTTAATTTAGTGATTTTCTTACAAGTGAACAA
+TCATCCAAAGATCTGGATAAACCTCAGGCTCTGATGACCATTGACTCAAGTCTACAGGTA
+AAATATTTATTTATTTATTTTGAGACAGAGCCTCACTCTGTTGCCCCAGCTAGAGTGCGA
+TGGCATGATCGTGGCTCACTGCAACCTCCGCCTCCCTGGTTCAAGGGATTCTCCTTCCTC
+AGCCTCCTGAGTAGCTGGGACTACAGGAGTCCACCACCACACCCAGCTAATTTTTATATT
+TTTAGTAGAAATGGGGTTTCACCAAGTTGCCGAGCCTGGTCTCAAACTCCTGTGATCCAC
+CTACCTCAGCCTCTCAGAGTGCTGGGATGAAAGGGGTGAGCCACTGCGTCTGGCAGGATT
+TATTTTTTAATGTTTTTTTTTTTTGTCGTTGTTGTTGTTTTGTCTCAGTGTTGTCACTCT
+TCAGGAAGAACACTGCTATGCTTTCTAACTTTTCTTCTGAATTGAATTGACTTGCTGCAC
+TTGTGAGGTTGTAAGATGCAGCATCCAAGAAAAATGCAGATGTTTCCTTCTAAGCTGAAT
+TCCAAGAATAATAGTTTAGCAAACTTCAGTACTTGATGAGATATTTATACTGGCATTTGT
+TGTACTGTATTTATTACAGATATAAATAATATGACCTTTAGATGGTATAATTTTTTTCTT
+TAATTGAAAATAATTCACGTTCAATGTGGATGACATGTTTTAACAACATATGTGAGTGTC
+TGTGAAAAACAACCATAAACAGTTGAAATCTTTTATAATCCATATAGGTTGCCTAATATG
+GGCAACTCAAGGGGACACACATAATTTTGGTTGAAGCATAGATTTATTATGAATGATTAA
+TGGAAATCTTATTTTCAATTTGTGGAATAGAAAGTAAAATAAGAGACATCTTGCCTATAC
+TGTAATTAGATTAATTTTTAAGTATATGAATGGAAATAAAAAGGATGATGATGATATTAA
+TGATAAAACAATCTCTAGCTTGTATAAAGTGCTTGTTAATTATTACGCTTTTAAAAAACT
+GTTACATAAATTATCTTATTTAATTCTTATAGCAATCCTACAATATACAAATGCCATCCA
+CTTTTTGCAGATAAGGAAAAAGAAACACAGGATTTAAATGTTGAGCCTCGCTGTAATACA
+AGGATATTCTTCCTTAATACCCTTAAGTATATCTAATCCTAATATTTTTTAGAACTTTCT
+ATAAGCAAAGTCTTATTTTAGGTGCCTCAAGCCATAGACATGTTAATGAGGCAAGTTTCT
+ACTCTCCATAGGTTCAAAACACAAATAAATAAGTATCAGGTATCACAGCCCTATCCACAG
+ATAATCTGACACTCAGAAGTTCCCATGCCCAGGAGTCTGCTATAGAGTCCTCAGCTTGGT
+AACCTCCACCATCAGCATCAGTGGGTTCAGGCTCTCTGGGTCTCCAGCTAATCCTGCAGA
+GGCAGTGAGTACATTAAAACATCACACCTAATTCCACTCTCCCCTTACCCCTTTGTTCTA
+ATGTAGTTTGAGCTAGCCTCTCACATCTGAACTCTGTTAACACTGCTAGGTTCTTGCTAC
+GCATCAGAGCCAGGTCTGCCTCCAGGGATTATCTGTAAGTATTCACACTGGTCAAAGCTC
+ACTTTTCTCTGATATCATGCTTGCCAAACACAGAAAAAAAATATGGACTGTACTTTGATT
+TCCACCCAAATATTCTGCCTGATTCTTCTATCCTCTCTTAGGATAGGAGTTGTGTCCTGA
+TTATTTGTCTGGTGTTACCTTCTTGAGGGTTGTCTCATAATGGGACCACTCAGTGTTACA
+GGCTGCCTGCCCTACTTCACTTCCGTTTAGAAATGCCGGTACCAACCCTCTCCTGAATCT
+CACCTGAGCATTCCACATACTCTGAATTCTGTGTCTACCTATTCAACTATCCCTTCAGTC
+TGGAGTCAAATTCACCCCATTCCTTCTCATCTCTCTAGTCATAAAAGGCAATTGTGCTAT
+TCCTGGCTCTTGACTCCCTCCATTTTGCCCAGAGTTTATATAATTATATCACCATGTCTC
+ATTCAAATGTCTAAATATAATCAGTCCTCCAATAACTATAATACAAAACCAAACGTAACA
+ATTGGCAAAAAAAAAATGTGTAAATTAGAAAGAGTCTGAAAATTAGAAAGAATAATTTTG
+TAAATTGTATAAATTAGAATGAATCTTTGAAAATTGGAAAGCTTATTTTTCATTGAAAAA
+AAATGATGGAAGGTACTATTGAACCGTGAAATGTGTGCTGCAAATTTTAAGTGATTGTGG
+CAAGCAGAGATGGTAGAGAAAGGTGTGCAAGTAGGAAATAGCCTTAGCCAACTGCATGGA
+GCACAATGGTCATAATCATGTAACACAAATAAATAACTCGGTCTGTGTTGTCTGTATGGT
+ATATGAGATTGTGGAATATAAGACAAATCTGAAAAAGCAGGATAAAACCATATTGGCCAG
+AATCTTGAATTTCAAAAGATGAGTTTGTACAAAATACTTTAGATAAAACAAATTAATGAG
+AAGATCCTTTCTCTCTCTCTCACTCTCTGTCTCTCTCTTTGTGGACATAGGAAGAATTAT
+GATAGAAAAATATTAGAAGCTGGAAATATATATTTGGGAGGAGATTGCAACAACACAAAC
+AAGATGAAATAGTCTGAATTAAGATGCTTATAGTAGACGAAAAAGTGCTTGGTAGAAAAT
+AAAGCGGAAAACTACAATTGGTATTTGAAAGAGAATTTTCTTGTTGGGAGATACTGAAGG
+ATGGTTAATCTCAAACTTACCATATCTCTGGGGTCCCTGATTACCACTCTTACAACTATA
+TTGGCCAATAAATGCCACAGCTCTCCCTCAGTCCTCTGATGACTTGAGAGGGGACACCTA
+AGCTCTCTTCCCCACCTGCTCCATAGCACAGCAGAGACAAGATTGGAACAATCAGGAAAT
+TATTTATGGAAGACTAGTATGCAAGTTGATGTAGAATGTAAAATCCAAATACACTGACAT
+ATGAAATATGACATCATTTTTATCTTGTGATTCACTACATAGAAGCTAGCTTACGGGCTA
+CTGAAGTTTAATAGACTTTTAGTATCCACCAGAGTCACACATCTCAACATAATTCAAGTC
+AAAGGAAGGGCCAAGCCTCTTAGCAATCTAATTATTTTTCTTTTAGTTCTAGCTTCCTGA
+TTGAGGATCTGTTTCGTTTCCTGGCCAACTTATACAAGGAATGAACTCATTCTGCTTACT
+CATTTGGTCATCATTTTATCTTTGACCTCTTTAAAATAACTGTATCAAAGTATATTGATC
+AACCCAACATCACTGGTGTACTAGTAAATGTTTAGTAGTAGATTCCCTAGGAAGAAACAC
+ACACACACATACACACACACACACACAAATAAAACAAACTGTTTTGTATTGTTTGCCAAT
+TTATGTGGTGTAAATATTCCCACTATGGTCAGTTTCAAGCTACTTATATGAGGTGACTGA
+ATTAGGATTTGGGAAGCACTGCTACTGATGTATAATAACAATGAGTAGTATTTGTTACAT
+CCTTACCAAATGCAAGAAAAAAATAATAAGCAATTAACATACATTTTCACCTTTAATCAT
+CCAATAGCTCTCAAAATAGGCATTATTTTATGATCATTATTTATAGGGAAGAAGAAATTA
+AAGATTACAGAGATTAAATCTCTAAAACTCACAAAATTAGTCAATAGAAGTGCTGACATT
+GAGTCTCATTATGTCACATGTCTTCCGATGTGCATGTCCATCTCCTAAGGAGGAAATTCT
+AGTGTTGGCATCAGTTTTCACGCAAGAATCTGCTTTCAATGCTTATGTTCTTGAGGTCTT
+TTCTATACTTTTCCTACATAAGAGAAAGTTATAATATAGAGATTACTAACATTAAAAGTA
+ATAAGCAATAAATGAACAGGTATAACTTTGTAAATATTGCAGATATAAAATCTGTATGAG
+GAGGCAGTTGATCAGATATAATAATAAGAGGGACAAAATCTCTCTATTTTTTATTTCTGG
+GTGACTGGAAGAATGGAGCAATCATTATAACTTTTAGAATCTGAAAAGAATCTTAGTTTA
+CAGAAAATATATTTAAGGAATGTTGATTTAGGAAGAGGAAGAACCAAAACATTTACAAGG
+GAAATATATTTTGCAGTAACCATTCTAGCAAGAGAGATGAGATGTCTGCAGCAATCAGTT
+TGGACAATGTGGGAACAAGGAAATTAATTTTCATTGTTATTTCATCAAGTTATCCAATTT
+GGAAAACCTAAAGTTGAGAACTCTGCTCAGATTATTTCCTCAGAGTATGATGGGAAGGTT
+AGCATATCTTTTACCAAAAAAGTGCTAAGTCCATCTCCAGTAGCTTCTGTGAAGTTAAGG
+CCAACTCTACCCCTCTCCAAGAGAGAAACCATCAGTTGGAGCAGCATTCTAGTTCTCAAA
+CCAATTCATTTTCTGCATATTTCTATAAGGTTCCTTTTTCTTTCTCACCATAATATTGGC
+AAAGGGCATCTTACAGAGAAGAAAGGCCTTGTTTTGTTTTGTTTCATTTTTTAAACACCT
+GTACAATCAATCCAAAATGTTGTGGCCTTCCAGCAACCTCACAGCAAGACCCCACCATCA
+CAGAGATAATAATTCTGAATACAAGGAATGTGATATTTCCTGCTCTGTAAGTTTATGTAA
+AATCTTGTCATGTGTCTTTAATATCCAAGAATCTGACAACTTTAAATTTATATTTGCTTC
+CCTCTATGAGGTTGAAGGCTGACACCTCACCCCAGTGTATCCAGGAGGTAGGACATGGAG
+TTGGAGTCAAAGATTATTCTCTAACCTTACTATTGATTGTCCTGTGCGGTTTGGGGATTA
+CTTGGAACCTGTTATGCCTTTATTCTTGCCTATTTATACCTCTTGGAATGGTAACGCCTA
+CGCTATTCCTTTCCCACCATTGCAGTTTAGGAAGCTCATAGCATGTTTGATTTCACAGGC
+CCACAGTAGGAAGGGCATTTGTCTTAGGGTGAACTGTACTTTGAATCTCACTCGTATCTG
+ATTTAGATGAGACTCTAGACTTTTGACTTTTAAGTGGGTCCTGAAATGAGTTAAGACTCT
+GGGGGCTACGGGAATGGAATGAATGTATTTTGTATCTAGGAAGGCATGAATTTGGGGGTG
+CTACTAAGGGCAGAATGCTGTGGTTTGAAAGTGTCCTCTCCAAAATTCATGTTGAAACTA
+CCTTATTGGGGTAGTATTAAGAGATGGACCTTTTGAGGAAGTTATTAAGTCATAAGGGCT
+CCTTCCTGATGAATGGATTAGTGCCCTGTAAAAGGGCTGGAAGAAAGGAGGTTAGGCCCA
+TTTTAATCTTCCACTCTTCTGCCATGTGAGAACACAGAGCTTACCTCCTTTTTATTCTTC
+AGTTCCTTCTGCCATTTAAGATTACAGCATTCATCCTCTTTTGCCCTTCAGTTTCCTCTA
+TCATGTGAGGACACCACACTTGTCCCCTCTGGGGGATGCATTAAAGGTACAACTTGGAAG
+CAGAGCCCAGGCTGTCACCAGGCATCAAATGCCAGTACCTTGATCTTGGACTTCCCAGCC
+TTCAGAACCACAATAAAATAAATTCAGGTTCTTTACAAATTACCTAGTGTCAGGTATTTC
+ATTACAGCAGCACAAACAAAGAGAAGCAAGAGGTAAAAAAAAGAATCCCAGAGACTACGA
+TTTACACTTATCTCAATGCTGTTCAGGATGGCCATAAAAGAGAGAACATTTTTACAAATG
+GTCTTTCCTGTAGATGGGGACTAGAACCTGGATGACTTGAGAAGAGAGGTAATACAGTGA
+TGTGTCAAAGCCAAGCTTGTGTAGGTTGCAAGAGGTGACTGTGTACATCTCATCTAAACT
+GCACTTCAAGTGATCTATGTTGGGAGTTTGAAATGGACCATAGTGAGAATTTTTATACAA
+TGGAAATAGTCACTGCTACAAATCAGAGATTTTTTTGCCCTGAGAGTCTATTATTAAGCC
+ATTAAAGATACGCCATTGCATATGTTCTCACAAGTTAAAGTCAGATATGTAGGCATAAAA
+CAAAATAATCTGGAGTCTAAAAGAAAGGATGGTTAGGAGCTGGAATGAAAATGGAAAAGC
+AGCAGCTTGGCAGGGTGGAGGAAGTTCAAATACAGGAAGTGCAGGATAGAGAATGTAGTA
+GGAATGAATGAGACCTTAATGTGGTGCTGGCAATTGAGAAAAAGAAGGAGAGGGATAATC
+TGAAGATAGGCTCTGGTGTTTTTTGGTTTGGGGCCTCCAAGAAGCAGATACCAAGATAGG
+ACTAGATGTTCAAGAGATTTATTAGGGGAAATGTCTGGGATAGATAAAAGGGAAAAAGTA
+GAAGTAGACAGGAACAGCTTTCAGTCTGTGATGCAGATCTGTGAAAGGAGAGGAGCAAGT
+GAAACAGATGAGGTAGAAAGCATCTGACACTACAGTGTAGTTCTGAAAAAGCTTCAACCA
+GACTAAGGGGTGCCCTGCACTCAAAGTCCTCCACAAGAAGAATCCCACATACTATGGGAA
+TAGGCCAACACTTGGTTCCTCTGCTGTGCTCTACCATCAGCTGTGAAAAGCGTGGGAGAA
+GCATGGCCTTGGCATGAGTGCAGTGGTGAATCCACCATGGCAGCTGCTGGGACCATCTGT
+CAATTGTGTTCCTAGGGAAGCTGAGCAGTGCATTTACATGTAAGTGGTGCTGTTTAGGAA
+AAAAACAAATTGTTCCATTCACTATACTCTCATAATATGCTTCTGACACCAGATATGTGG
+GGAATTTTTCCCCACACAAGCAAGCAATCAATTCTGCAGCAGACACCAGCTGGGTGTCCT
+CCCATTCTACCCTGACTGCCAGGAGAGAGTGCTTCAGACACCAGTTGCAAGTCTCAGGTT
+GTTTTTCCTGTACTTCTGACCCACCAGCTATAAATCAGGGTTCCCACGACCTCCTCCTTA
+GATTCAATTAATTTGTTAGAGTGGCTCGCAGAACTCAGGGAAACTCTTATGTTTACCAGT
+TTATTATAAAGAATATTACAAAGGATGCAGATAAAGAGACGCTTGGGGTAAGGTATGGAG
+AAAGGGGCATAGCGTTTTCATGCCCTCCCTAGATGGAACCTCCCAGCATTCTGGAAGCCA
+CTGGGTTCTGGAACCTCCCAGTGTTCTTTTCATGCCCCCTTCTAGGAACCTCCCAATGTT
+CTGGAAGCTACCCAAACTTCATCCTCTTGGATCTTTTATGGAGACTTCACCAAGTAAACA
+TAATGGAAGCATGGCCAACTGTGTAGATATATGATTGGGCAAAAAGGAAATGATCTAATA
+CTAATAGGCTGAGTGGGAAAACCCAGAAAGGCTGTCCGTTTAGGTTTTTCTTGGCCTCTC
+TGTGCAGCCTTCCTTCCACCTGGCTATGGGGCAGGACCCCTTCCGAAATGGGAGCCTTAT
+GACCTACAATCAGACAAAACAGGTCAGAGACTTTACTTCTGGGCAGCGCTAAGACAGAAA
+GGCAGAGGAATATTCCTGCCTTGGGGAGAAAAAGAGGTGAAAGAGGGCAGGAGAAGGTCT
+GAGAGAGGAATTCTGTTTTCTGAGGCCTGCTTTCGAGGCCTAAAGTGCCCCAACATGATA
+ACAAAACACTGTCTTTCACTTTTGTTGCTCTGAAGCTGTTCTGAAACCAATTCAGGAACC
+AAGGACAAAAGACCAAATGCTTTAACAAAAGTTATGCTTATTGTTTCAGTCACTTAGGAA
+ATAACAAGGGCTGTGAGAGTTATGATCCAGGAACCATGAACAAAAATGGATATACATATG
+GAGTTGTAGTAGAGATAGGATTTTCCTTAGCAGCCCCGTTCTACTACATAACTGTAAGAC
+TCCATGGCTGGGCCATCACTCCTCTGGGGCTACCTTGAGAGATATCACTGTTTCTTCATG
+GTGGATTTTAGGACTCCATTGAGAACTGCTGCTTTTGCCAAGACCCTGCTACAGTTACAT
+TCTAGGTCTAGGTCCTTGATTATCTCTGAAAACAGTTTATCATCCCTAGCAACTGGCCTT
+CCCAGTGTCCGGCCTTCCCAGTGTTCTGCCTTGAAATTGGTCATAAATTATTTCTAAATT
+TGCATATTCCGTGCATATTATTTGAGGTTTTCTCTGACCTCAGATATTTTTCTGATTCCT
+CGTATCATGCTCCAGTTCCTCAGTTCTGGTCTCATAATTTTTTTTTTTTTTTTTTTTTTT
+TTTTTTTTTTGCGACAGAGTCTCGCTCTGTCGCCTAAGCTGGAGTGCAGTGGCTCAATCT
+CAGCTCACTGCAACCTCCGCCTCCCAGGTTTAAGTGATTCTCCTGCCTCAGCCTCCTGAG
+TAGCTGGGTTTACAGGTACACACCACCACGCCTGGCTAATTTTTATATCTTTAGTAGAGA
+CGGGGTTTCACCATGTTGGTCAGGCTGGTCTCGAACTCCTGACCTCGTGATCCGCCCGCC
+TCAGCCTCCCAAAGTGCTGAGATTACAGGTGTGAGCCACCGCGCCCAGCCTCTTTGGTCT
+CATATTTAATGAGGGTTGCCCAGCAGCTGAGTTGGGGCCGTGTTGACAGGTTGACTTTCT
+CAGCTGGGCTGCATGTTTCCTAAGGGTGACGACAGTGTCTGTTTCTATCTCTGTGTTTCC
+CCCCCAGCACCTCAGATAGTTGGGCATGCAGCTGAGCTTCTGAGACATTAGTCAATATCC
+TTCTTTCTAGGACTTGAGTTTGGGATATTGGAGCTATTTTGCATTTTGCCTACCATCTCT
+CCTTTCTTCTTCCCGTAACACTTCATTTGATTTACAAGATAGTACATTAGATATTTGACT
+TTTGCTTACAGTTCCAGGGAAGCAGAGGTTGGCTGGTGGCAGATGGATAATATTTTCACC
+ATACTGCAATATTTATAATTTAACATTGGCACTCATGTACCTAGTATTTGCAAAAGGGAA
+TTTTGAAACTGTGGAATCAATTCACCGAACACTAAAATAATTAATCATTTTATCACTATT
+GTTTTTCTAACAACAAATGGATACTTTTTCAGTGTTTCTACACGGATAAGAAAAAGCATA
+TATTTTGTATATATAAAAAAAGCATATATTTTGTGTATATAAATAGTGATAATTTGCAAA
+ATGAGCACCCAAAAGCAGTGTTAAACGAAGAATCTTCCAGCAGATTTTAACTGAGGCACT
+TTCTCCTTTTTGTGGCCAGAAGCCTTGCATCAAAATCAGTAAAAGATAATAATTGAGTTC
+TTAATTACAGCACTAAATATAGCAAAGTGTATTTTCTGTTAGAAAGCATGTAATTCAAAT
+TAAAAAATAAAATATAATTTCACCTCCCTTTAGCATTTTATCCTGTGCATTTAGGGTAAG
+AAAAAGGCCACTCTCACTACATAGGTTTTCCTCAAAGTAATTTTTGACATTTAACCACAA
+AAATGTGTAAAGGTTTTATCTGAATCTTCCTCTATATTGTAATAATTTGGAAATATTATA
+AAAGTAGTCATGCCACCCTCAAGATACCTAAAGAAGCAAACTCTTAATGCAACTCAATTA
+CCCTATATTTGGGGTTGTAATTGAGAATGAAATTGATTCCATTTTGTGTTCTGGAAATTT
+GTGCAACAAATTTTATTACAGATCAAGACATCTTTATTTTATAATAGGTAAGAACACAGA
+CAAATTTCTGTATTAGTCACCATACATTTTACTAAATCTTCTAGACAGCACTTCATAGAA
+TTGCTGTTATATTTTTTCCTGCCAATCCAAAAAGTCATTTCTAATTATTAAGAGATTGCC
+ATGCTCATTCAGGTAACAGCGTTACACAGTTAACTTAAAAGATTATTTTCAAGAAAATAA
+ATGTATTTAAACATTTTCCAGGGTTGTTGCTACGTTTATTAATTCTCTAAAATTATATAT
+ACATACTTCAAGCATTCTCAAAGGAAACATATTTTTTGTGCCGTTTAAGAGGTTCTAAGC
+ATATCACATTCCCAACTCTACCCATTCTAATTTGATCTATTACAACATGGGTTCTTAACT
+TGAGGTCCAGGAACTAGAATTCAGGAGGTTTGTGGGCATGGATGGGTTATTTTCCCTGGC
+CTGCAACCAAAATGTATTACTTCTTTCAGTTGTGAATCAGTCAACAAACCACCAGAGAAA
+TGGAGGAAGCCATTGTTGACCATTATGGCTACCTGCCTTAGGCCTTTGCAGCTCCAAAGA
+TGACACTGCCTTTTTTTTTTAAGGCCAATATTTACTTGGGAAATTTTCTGTATGTTCCAC
+AGCATAGCAATTCTTACTGTTTAGTCATTTTAGGTCACCAGTTAGCCTTCTGTGTCTGGG
+AATTTGCTGCTCAGAGCTCTTCTAGTGAGTGCCTTTATCTGCTCAAACAGCTCAGGGCAT
+TGTCTTACTGCACTGTCCCACTCTACCCATCAGCTGCTATCCAGCAGCTGGGATAACAGT
+CTTCACTAAATGCTATGGTTTGCATTTCCACTCCAAACTCATGTTAAAATTTAATCCCTG
+GCTGGGTGCGGTGGCTCATGCCTGTAATCCCAGCACTTTGGGAGGCAGAGGTGGGTGGAT
+CACCTGAGGCTGGGAGTTCGAGACCAGCCTGACCAACATAGAGAAACCCTGTCTCTACTA
+AAAATACAAAATTAGCCGGTCGTGGTGGTGCATGCCTGTAATCCCAGCTACTCAGGAGGC
+TGAGGCAGGAGAATCGCTTGAATCCGGGAGGTGGAGGTTGCAGTGAGCTGAGGTCATGCC
+ATTGCACTCCAGACTGGGTAACAAGAGTGAAACTCCATCTCAAAAAAAAAAAAAAATTAA
+TCCCCAATATGGCTGTGCTGAAAGGTGGAACCTTTAAGAGGTGATCGGATCACAATAAAT
+CCATACATGGATTAGTGGATTAATGGGTTATGATGGGAGGGGAACTGGTGGCTTTATAAA
+AAGAGGAACAGAGCCCTGAGACAGCACATGTGCATGCTTAGCCCCTTTGACATGTAATGC
+CCTGCTCTGCCTCAGGACTCTGCACAGAGACCGCACCAACAAGAGGGCCTCACTAGATGT
+GGTCCTTCAACCTTGGACTTTTCAGCCTCCAGAATTGTAAGAAATAAATTCATTTTCTTT
+GTACATTATCCAGTTCCATGTATTCTGTTATAAGCAACAGAAAATGGATGAATACTTTGA
+ACATGACAGACGATGAATCATATCCAAATATGATATTGTACAAATCCAAAACTTGAAGAT
+TAAACATCCTTCTCCTCAAAGTCACATTTCACCATCTTCTGCCTCAAGTTCCAGTGGTGA
+AAGTAAGTTTCTTTCCTTTTATATAAAATGAGAGTGACCTTTTTTCACCTTATTCATGTC
+TGGAATTATCATCCCATATTTAAAGATTCAGTAATATGCTCTGATATTTAATGCAGGGGT
+TACTCTAGAGCCTATCATCACTTAGAATTACGGAAAAAGTAGTAGAGGTTTTAAAATCTT
+AGTGTTCTCTTATGCCACCTGCACTACTGACAGCGAGAAGAAGGAAGCAGAAGACATATG
+AATGTACATCATGACATTAATTTTGCCTTTTACTTCACATAAAAGACCAAATTATCTGCA
+ATGATTTGTACATTTCAATGAATATTTTTCTTTCTGTTGCACATTTAACATTGTTTGGAA
+TTTGGGACCAATGCAATAAGACACAAAACAGAGACATTAATATATAGTCTAATTATTGGA
+AAGCTTTAAAGAAATTATCTCCTTTGCAGATGGCACAATTGTATACCAAAAGAATAATTA
+CAACAAATTCCAAGGGAATCAATGGAAATTTCGTGATTAATTATTGTTTGATAACAACTT
+ATAATACACAAGAATTAATAGCTTTCTAGTTTATTTGCTATAACTCATTAGAAATATAAT
+AGAAAAATAATTAATGTGTCTCAAGGTAGCTACAAATACAAAGTTGTAAGATTAAGTTCA
+TAAAGAAACATGTAAGACAACCATGAGGAGAGCAGCATAATTGATATGAATTATACAATT
+CTTAAATTCTTTCAAATTGTATATTTAATGTGATACAAATTAAAGTATGATTGTAATTTT
+GAAAAATGATTCAGTTTTTATTTTCTGGAAAAGTGATAAGGCAAAAATATACTTTAAAAT
+TTTTGAAAAAAGAATAAATAGAAGATGGTAATGAATATCTTAGTTGCTAAATTTTCTGGT
+TCCTCTAGGCACATAGTTCAACTTCACTTTCTAAATTTATTTTAATTATGTGTAGCCATA
+TGACATGTTTTGTTTATCGAAGTGTGAATGCAAATGATGTAGGTTACCCATAAGTGGATG
+CTTAAAGGGCTGATGTATAATTCACCACGTTCACGTTATCCTTCTAGGATGATTGTAGAA
+GTCCATTTAAAGATGGAGCCCCATCAGACTGAGTTCTTAAGTGACTATACTCTTCAGAGC
+CTTGTGACAATGTGTATTTGACATGGAGTGCAAACAACAAATGAATTTTTTTATTGTGAT
+AGGTCATAGGTCACTGTTTTATACTACAGCATAACCTTGCCTATCTTGATTGATGCTAGT
+GAAATACTTCCTTTCTGTTAATTAAGGGAGTATAATCATGCAACAATTTGAAGACCAGCA
+TTTGAGTGCAATAACTTACAGAGCAAGGAAATAACATTGATGACTCTTACACATACACAT
+GTATAAAATTTGAATATTTCAAAAATATAAAATATATATTGATGTGGGGTGGAGGTGTTC
+AATGAATAATGCTGAAGCTGCTGTTTATTTAAAGAAAAAACTCCAGATCTTAAATTTGTA
+AAACAGTGCAAGCTAACATTGTCTGAGAACTCATTCTGTGTTCATTTCTGTTCTCTGTAC
+ATTACATGTATGTATATTTTCATGTAAAATTCAGAATCATCACAAAGAGAGCTAATAACG
+ACATGTATATTTCACATATGAGGAAACTGAGGTACTGAGAGTTACATATTTGGCAAGGAC
+ACACAGGTGATACTTTTAGAGGTTAAATTATTGGAAATAACCTTTAAAATATAAGAATAA
+GGACATTAAAAAATATTGTGACAAATGAAGACTTCTTAAGATTAACAGCATGAAAATAGT
+CATAGAAGAAAAGAGAGACGATAACATAAAAATGATTCCAAAATGTTTAAACAAAATTAA
+AATTTGAAGATAAAGATGGAAAAAAATCTAACAGTATAATTTTAAGTACTTAAATGTGCA
+AAAAACACTTTCTAATTAATGAAAAGCAAATTAAAAATCAAAAGCATGTAAAATGTTCAA
+TTGTACTAATAATAAAAATGTCAATAGATCAGAAATGCCATTTTTACTAATGTTATGTGA
+AAAATATTTCAAAATGATAAAATGCTGTTTATCCATATAACAATATTGCTTAATGCTTAA
+GTAATTATTTCAAAAAGGTTTTTTAATATAGGAAATTGTATTATAATAATCAACAAAATA
+ATATATGTTTAAAAATGTAGAAACAACATATGAAATGTGCATATGGGAATGTGTTTATAT
+ATATTGGAATAAATGCCTAAGTATTAGTGGGAATTATTTCTTGGAGTATAGTTAATAGCC
+AATTATTATCCCTATATTGTTTTTGTTTTCCTAACACTCTTCAATGAATATATATTATTT
+TCTTTGCAGAAAAATAGATGATGTTGATTTAAAATATCAAATAGTGAAGGTATTTTCAAA
+TTAATCTGAACAAAGTTCAAATCTCTTTATAATTATCTCTTCATAATTCTCTGAATTATC
+TCTTCATAATTCATACATTCATACATTCATTCATAATTCAACATTCATTTGGTTTCTGAA
+GGACTTTTGGCTGTGAGAGATTTTCTAAATCTCCGTCATTTGTGACTACGTAAAATATGA
+GAGACTAGAAAAGGAGCCAGAAGTAGTATTTGGTTGCCGTGTCAGAATTGATGAAAAAAG
+TAAGCAGCAATGTTACTTGAAGAGTGGGGACGAAAAACAAAAAACAAGAGTGTTATCTTT
+ATAGACTCTCATATGCCTTCAGATATTTGTGGAAAGATGCGTATGGGCACAGCAAAGCCC
+TGAAAGAGAAATCAGTCCAGTAAAATGAAAGAATGACAAACTGGAATTCAGGTGCTCTGG
+ATGCTAATCCCAATTCCGATTCCTCAGCCATGGAACTTGGAGCAGTCATTTTCTTTCTGT
+GGACCCGGGTCTTCACACCCATAAAGTGAGAATCCGGGGAACTAGTTATCTTTATGATTC
+GTTCCTGCTCTAAAATTCTTCTAGGTCAGTAATTACGTTTTAAAAATAAATAAAGAATGA
+AATTTCAATTTTACGTCCAGTATCTGATAAAATAACCTTCATGGTAATAGCTGGATTCTG
+AAGTATGTTTTACGTTTAACGTAGGATAGTAAAAGTCAAGAACATTGAGCTACAGCACAT
+GGCTTTGAATTAATATTTTTAAAACTTCTTTTCAATTATGTATAGCAAACCAAACAAACG
+GAAACAAAACCCTCCTGCCAAAATATGGTGTCTTGGGCCTGGTCACTAAAAGTTAGGTAA
+AACAAGTAAATATTTTTAAATGTACTTAAGCACTTTCTGTTAATCTAAAAAAAATGTGCA
+TTTATTTAGACATTATTTGATAAAGAAAAAGATTTTTCTTTGAACAGGAGTTCTACAATT
+TGAGTTTTGTCTTTATTGCAAAAAACATATTTAATGGTGATTATCTGTGAATTTCAGTTT
+CAGTGAATTTAAAACATCTTCACAACACTTTCAGCCTTAAGCATAGAAACCATTTCAATT
+TGTATTTTCCCCATCTTTTCCAGTCATCTTCTTCACTCTTAATCTGACTACAGTTTCGTT
+TACCAAGTCACCATTATTCTCTTTTCAGAACTCAATTTTTATAGAAACAACCATTTTTTA
+TTGCATTGGTTTAAATAAAATTTATTTAAATAATCTCATTAGAATAATAACTATTACAAG
+TATCGTAAGTATGTTTTATGAAAACACAGTAAACTGACTATTGGTAAATCAGTGGGAAGC
+AACAATGTGCTGGGACACTAGAAAGTGGCCTACTAATTCTGAGCGTTCCACACAGCCCTG
+AGAGTGAAATCAGAAACACAACCATTTTGAAAATACAATGCTATGTGCAGCCATAATTCC
+ATCTTACTGAGAGAAAAGGGAGTGCCAGGGAATCTGGCATGTCAGTTAAGTGATGATGGA
+TAACAGAAGTAGGGCATTTTTTTTGGAGACGGAGTCTTGCTCTGTTGCCCAGGCTAGAGT
+GCAGTGGCACAAACTCAGCTCACTGCAACTTCCGCCTCCCAGGTTCAAGCAATTCTCCTG
+CCTCAGCCTCCCAAGTACTGGGATTACAGGTGCCCACCACCACACCTGGCTAGAAGGAGG
+GCATTCTACACTTCGTTTATATTATCTATACCACTTTCTACTGTACCCACAAGAAAGGTG
+TTGCTAGAGTTAATGTGTAATTCATAAGAAAGAACAGTCTTCAAAATATTTCAGGCTAGA
+TGATTCTAAGTGCCAGATTTCATTAGATGTATGAATCAGAATTAAGTGCAAATCAGCTTC
+CAGTCAGAAAATTTTGAACAGCGTGGTGAACATCACCACTCAGGTTGTGTGTAATCATGA
+CTTTCAAGGTAGTATATTTACTTCTGAAAATAGTGTCATAACACAACCTACCTAAGAACA
+TAATCCTCTTCATCATCTTAGTCACAGTGTAGCACTTAGCATGCACAATTATTCTCAAAT
+CATATTTTCGATATTGAAATGACCTACTAACATATGTCAGCTGAAAATTCACTTTGTAAT
+TCTCACAACCAAAAAAAAAAAAAATGAATCCATAGGGAAGATGATCAAAATGGAGAAAAG
+CAATTAATCTGTATGTATGAAATGCTCATCTAAAAGCATTTGGCAAAGTATACCCTACAT
+TTCCGGGAGTGAGGAACTTTGAATCAAGGCATAGTAATAGTTTGGGATAGAGTCCAGGTG
+TATCTGACTCATTATGAGAAAAGTACGAGTCATTGAAAAAAATTTTTTTCACCTCTATTC
+ACCTACTTATACTGGAGAAAATATTGATCTCTTGCTTAGGATTATTGTGTGTCTTGATAG
+TAAAAATGAAAAGAAAGTATTTTGAAAATAAAGGGTTATGGACATTTTGACAATTTTCAG
+GGTTGAATTTGTAAGACCTGCAGAAGAATTTTAAAAAATAGATTTTTAAATATAAATAAA
+GCTAATTTATCTTTTAAAATTGGAAGGACGTTTAATAGAAAAATAAAATTTCAAAATATA
+AAAATTTAGCATTCATAAAAAAGTTTTCTTATTATGATGTTTATTTAAAATGATGGCTAA
+TTTGACATCATTAAATACTGGAATATATTAACGTATAATACAAGCATCTCTAAAATTTTA
+ATGTTAAAGTTCAACAGACATTTACTGAATGCCAACTGTATGAAGTTTATTATCCTAGTT
+ATCTGAGAAACACAGATAAATAAGGCATGGTCACTGTTCTTAATTAGCTTATAATGGATA
+TTATAGAGTCAAATTATCTGTTTAAAATTATTATCTGGATCTCAGCTGTCTAGTTAAAGC
+AAAGCAACCCCAAAGCTGAGACAATTTTTAATACAAAATCACATGTCTTAATTTGATAGG
+GAGCAGATAAAGGTTTAACATAATTTATTAAATATTTCTTTTTCCTTAAGCACTGTATTA
+TATCCTAGGAAAACAAACAGCTATAAAACCTGCCTCCTGCCTAGTAGCCCTCAAAAGACA
+TTTAGGAAAACATGCAAATAATAAAACAGTGGGGAGAAGATAAATTATTGCCAAACCTTT
+TCCAAAAAGATACGGAAGTATAATGGGAGCACGAAGCAGAAGGTGGTCAATTGAGGACTG
+AGGCTGTGCAGTAGTTTTGGCAACTACAGTTTAGAGTGATACTCTAAACTTCTTCCTCCA
+GTGTTCTGCTGAAGCATACTCTGATATCTCGCTGGTTTTCTGGCAGTAAACTTTATTTGA
+TGACCCTAATAAGTCTCCTGAATTAGGTTATCTTTAGCTCCAACATTTGTTCAGATTCCA
+TAAAGATCAATTAAAATTTGGGGGGTAAAGGGGGTAAGAACATGCTTCCATTTTTATAAC
+TAAACCTCTTTCAAAAACTTACCATGCGTAACAACATGGATGAAGCTGGAAACCAACATT
+CTGAGCAAACTATTGCAAGGACGGAAAACCAAACACCGCGTGTTCTCACTCATAGGTGGG
+AATTGAACAATGAGAACACTTGGACACGGGGCAGGGAACATCACACACCAGGGCCTGTCA
+TGGGGTGGGGGGATGGGGGAGGGATAGCATTAGGATAAATACCTAATGTAAATGACGAGT
+TAATGGGTGCAGCAAACCAACACGGCACATGTATACATATGTAACAAACCTGCATCTTGT
+GCACATGTACCCCAGAACTTAAAGTATAATAAAAAAAACTTGCCATGCAAGAAATGAGCA
+AGAAATACTAAATGCAATATACCACATCTTACATTAAGAGAAATATTTATTAAAACATTT
+ATTTATTATATTATTTATTATACAATAGAGACACTGCCAGATACTGAACACAAAATAAAT
+AACAAAATATGGCTCTCCTTGATTAAAGCTTGCAGTATAAGTTTACACATGCTTTTAAAA
+TGACATCGATACAAAGGCGTAAGACATTTGGATAATGTGTTTTATAAATTTAAAAAACTT
+CTGATTTCTTATACTTGGCACAAAAAGCTACAGGGAGAGGAACTAACATGTTGTTGATGG
+TCTACTTCAAATAGACACTTTAATATGCATTATTTTGTCTGTTTTCTCACAACACTATTA
+TCACATATTAGGAGAGAAACTGAAGCTCAAAAATTTAACATGACTTTAGTGAAAGAGCTA
+TTAATATGTGCTGAAGATAGAATGTTAAGGTAACTCTATGTCGCCTCTAAGCTTTTACAT
+AGAGATACGTAATATTTCTCAGAGTGTTCTGCAAAGCAAGGATTCTATGGAATGTTAATA
+GAATTCATCATCAATAACAAATAAAAAGTCTGAGTTAAAAAGACAGTAGTCCTCATAGCT
+TTAAGTATGCTGCCTTATACTCTGAACAACCAAGATAAAAATCATAGTATGGGTTTCCCA
+AAATATTTAGCCATAGTATTTTGTTAATGGAACACTGAATGGATATATTGTATTAGAGAA
+TGAACTACAGGAAGCACTCCACCAAAGCTGTATAAATGGAAATGCAGAGAAGGTATGTAA
+AGAGAATAAGAAGGAGAGTGTCAATTACTTTGGGTGATCATCTTTGCAGAAAGTTATACC
+TTTATCAGTGGAAGAAGTTATTATTTCTAAAATTGGAAGTAGTGGCCCATCTTTCTACTG
+AGATATATATATATATCTTAGTAGAATATATATATATAGAGAGAGAAAGATATATATATA
+TAGAATATATATAGATATAGATAGAATATATAGATAAAGATATAGATAGAATATATATAG
+AGATATAGATAGAATATAGATATATATCCCAACCCAAAAGCAGAGGCAGATACCTTATTA
+AAATACTGCCAGTTATAGCTGCAATAAAACAACTAAATTATGCATACCTTTTTGTCATAC
+ACACACACACATCTAGAAAACTGAAGAAAATATATAAAAAATACCATTATCAGACCCTTG
+ACAACAGACAGGGATAATAGTATCCTTAACGGGAAGACAATAAATGAGTTAAACCTCGTG
+TCTTAGTCTTCTCAGGCTGGCTGCCATAAAAAGTTATCAGAGGCTGGGTGTGGTGGCTCC
+CACCTGTAATCCCAGCACTTTGGGAGGCTGAGGCGAGCGAATCATGAGGTCAAGAGATCA
+AGACCATCCTGCCCAACATGGTGAACCCCCGTCTCTACTAAAAATACAAAAATTAGCTGG
+GCGTGGTGGCGCATGCCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTT
+GAACCCAGGAGGCAGAGGTTGCAGTGAGCCGAGTTCACACCACTGCACTCCAGCCTGGTG
+ACAGAGTGAATCCCTTCATCTCAAAAAAAAAAAAAAAACTTATAATAGATTGGCATGGAC
+TGGGTGGATTAAACGAAATAAGTTTATTTTGTTACAGTCCTAGAGGCTTGAAGTGCCAGA
+TAAAGGTGCTGGAAGTCAGTTCCTGGTGAGACCCTCTTCCTGGCTTGTAAATAGTGTCTT
+CTCTATATGTCTTCACATAGTGGAGAAAGAGAGAGCAAACTCTCATGTCTCTTCTTGTAA
+GGACACCAATTCTATGAGATTGGGGCACCATCTTTATAACCACATTGTATAATTTTAATT
+ACCTCCATAAAGGTCATGTCTTCAAATACAGTCACATTGAGGGTTGGGGCTTCAACATAC
+GAATTCTGAATGGACATAAACATTCAGTCCATAACACTTTACCATTACTCTAGCCTACTG
+CTTGACACATTTGCTATACAGTGATACAGAAGTGAGATTGTATCTGTAGGTCAGGAGAAT
+ATACCTCTCAATCCTGTAACTGCAAAAATACTAAAGGCACTAGCTCTGTATTCAAAACTT
+CATGGGCACATTTGCACTGAGGCCATGCCTCTGAAAAGCTGAGCTCACATCATAACTGAG
+TATAGCAGGAATACCTAGGTAGACCTTTTCTTCGGAGGTGCAGATCAAGAAATAAGAAAA
+TAACTCAAAAATATGGTAAATGCATTATATAGTACAATACAGTTTAAAAATCAACACAAG
+AAGTAAATGGGACTCTTGCACTATGCACACACACACATACATCAATATATACAATTTTAA
+AATATATAAAAGAGGCACAGAGAAACAAAATAAACAAGATAGATAAAAAACAAATAGCAA
+AATAGCAGATATAATTTCAATTCTATAAATATTATATTAAACATGAATGAACTAAACACT
+TTAATCAAAAGAAAGAGATTGTCAGACTGAATTAAAAACCAAGATCCAGATATATGCTAC
+CTACAAGAGACACACTTCAGATTCAAATATACTAATACATTGAAAATAACATGATAAAGG
+TGATTTTTCTAAGTGGTACATACACTAAGACCTCTGGCATCCATTTCTCTGTAAATGCAA
+CAGGAAAACTAGGGAAAAAAATAGCAGAATTAACTTTTTTGGAAATCCAGAAATTAAATA
+AGGGCTTGACATAATCGAGGGAGTATTTAGTTTTTAAAAAATGGATAAATCTTAGTAAAA
+ACAGTGAGCTGTGTGGTGTTTTAACTTGCCCTAGTCACATTTCCCTCTCTTTAGCTCTAC
+AGGAACCTGGTAAATAGCAGGTCTCATTTGTGGTGAAAACCAATAGCTTGATAGTCGCTG
+GAGGGGGCAGAAAAAACTGGAGCTCTTTCAAGCCTTCTTCCCAGAGTGTTCTCATTCTTT
+GACTTTTCTGTTTGTTCACTGAAAACTACACTTGCAAGGCTGTCTGTATTTGACTTGACT
+CAGAGCTTTCTCAGTCCCAAAAGCTTTTTGCCTAGGGGCAAATATTGAAAAAGAAAATAC
+AACTAATAAACTTAGTGCCTGCCTAAGGTAGTGAATAACTGTTGAGGCAAACAAAACAAA
+TCAAATAGCTTAAGAAGAAAAGCTGTGGAATGATATGTTCACAGCAGCTTTTAAAAACTC
+AGTTATGTTCCTATGCACCTAGAAAGCCACATGCATACCCAAGAAAGACCTGAGATGGCC
+CTAAATAAGCCTCTTTCACTGGCCTTGAGGCTCTATGCAAGCAGGAAGTGGAGGCTGAGG
+CTGAGGTAGAGTTGCCAACTGGCTAGCAGAGTGTTGAAAGCATGCTCCAACACACAGACA
+TGCACATACACACACACACACACAGCCCCTCAGCAAAGACTGGAAGAATGACTGGTTTTT
+GTTTAAGAAAATATCTCTCCAATTATTTACAGTCCTTTAAGCTAACTAAGCAGAGAGTTT
+AGTGGCCACACATGACAAAGAAGATAGAATTTACAGAATTACTTCAGAAAAGTCACTAAA
+TAAACAAACAACTTTTACAATAAACAACAAAAACAAAAACCCTGTAATGGAGGAAGAATC
+TAATTTCCAGTTTTGCCACATAGTATTAAACCAGAAAGTATAGTTCTTATGCTGAAAAAA
+TAAAATAAAACAGTTTTTCTAAGGGAACCTAGACATTGTACTTTACACATGGCGCTTGAC
+CAGTCAGAAGAGCTGTTATTAAAAAGTCAAACAATAACGGAAGCTGGTAAGGTTGCAGAA
+AAAGGGAGCACTTATACACTGTTGGTGGGAGTGTAAATTTGTTCAACCATTATGGAAAGC
+AGTATTGTGAATCCTCAAAGAGCTAAAAGCAGAACTACCATTTAACCCAGCAATCCCATT
+ACTGGGTATATACCCAGAGGAATATAAATCATTGTAACATAAAGACACATGCACACAAAT
+GTTCATTACAGCACTATTTACAATAGTAAAGACATGAAATCAACCTAAATGCTCATCAAT
+GATAGACAGGATTTTATAATGTAGTACATGTGTACCATGGAATACTATACAGCCATAAAA
+AAGAACGAGATCATGTATTTTTCAGGAAAAGGGATGGAGCTGGAGGCTATTATTCTTACA
+AACTAACTCAGGAACAGAAAACCAAAGTTGTTTTACAAGTTCTCACTGGTAAATGAGAGC
+TAAATGATAATAACTTCTGAATACAAAGAAGGAAACAACAGACACTGGACTGGGTTCTAC
+TTGAGGATGGAGGGTGAGAGGAGGGAGAGGAGCAGAAAGGATAACTACTGGGTACTGAGT
+TTAATACCTGGGTTATGAAATAATGTGTACAAAAACCACCATTTGTTCACCTATGTTACA
+AACCTTCACATATACCCCCAACCAAAAACAAAAGTTAAAACAAACCACAACAAAAAAGCA
+AATGGTGCTTGAACAACTGAATATACTCATGCAAAAGGATGAATTTGGAGCCCCACCTCA
+TAGCATATGAGAAAATAAACTCAAAGCAAATCTGAAAGCTAAATATGAGAGCTGAAACTT
+TTAAACTATTAGAAGAAACTACAGGTGTGACCCTCCAGGGTCACTGGATTAGGCAATAGT
+TTCTGAAATATGACACCAAAAGCTCAAGCCATAAAAGTAAAAATAGATAAATTGGACTTC
+ATCAAAATTAAAAATTTTAGCACTTAAATGAATACCTTTAAGAAAAATACAACCCACAGA
+ATGAAAGAAAATATTTGCAAATCACATACCTGATAAGTAAGATCAATCTAGTATCCTGAA
+TATACAAAGAAGTATTTCAACTCAAGAATGAAAAGTCAAAAACCTAACTTGAAAATTGAC
+AAAGAATCTAAAGAGACATTTATCTGAAGATACACAAATGGACAATAAGAACATGGAAAG
+ATGTGCAACATCATTATCAACTGAAAATGTAAATCCAAACCACAATTTGTTACCACTTCA
+TACTTATTAGGCTGTCTATAAAAAAATGATAGCCAGTGTGAACCCGGGAGGCAGTGCTTG
+CAGTGAGCCGAGATTGCGCCACTGCACTCTAGCCTGGGCAACAGAGCGAGACTCTGTCTC
+AAAAAAAAAAAATACGATAAGCCAGTAACAAGTGTTGTTGAGGATGGAGGATGTGGAGAA
+GTGGAAACCCTCATATATTGCTGGTGGGAATGTAAAATGATGCAGGTATTTGAATAAAGC
+TCCAACAGTTCCTCAAAAAGTCAAACCTAAAGTTAGCCGTATGATTCAGTAATTTCACAG
+ATATATGCCAAAGATAAATAAAAACATGAATAAACAAAAACACAGTGTTCCTCAACTGAT
+GAATACATAAATAAAATGTGGCAATTCATACAGTGGAATATGTTTTAGGCATGAAAAAGA
+ACAAAGTATTGATGCATGCTACAACATAGAAGAATTTTAAAACAGTATCCCAGATGAAAG
+AAACAAGACACAAAAGTTTACATATTGTATAACACCTTTGTAGAAAAAGCCCAAAATAGG
+CAAACCCACAGAGACAGAAAGTAGGTAAGTTATTGCCAGGGGCAGTGACATTGCTAATGT
+GTATAGCGTTTCTTTTTGGAATGACAAAAAATGTTCTGGAATTAGATAATGGCTATGGTT
+TTATAACATTTTGAGTACATTGAAAACCACTTAGTTGACAGTTTAAAAGGATAAATTTTA
+TGGTACATACAGTACATCTTAATTAATAAAAGGAAAATAAGAGAATGGAAAGAAATGTAA
+CATGAAAATAATAATTATTGGAGTGCTGGAGTGACTATATTAATATCAGATCAAACAGAT
+TTAAGACAGTAAATATTACTACAAAAGACAAGGTATTTCATAATTTTTAAATGGTCAATT
+CATCAGCAAAATTTTACAGCAATAAGTACACACATTGTTTATTGTGTCAAAAAAGAAAGT
+TTGAAATTACATGAAGGTAAAACTTCAGTGTTTGGCAGTTTCTTCTTCACTCTCTGTCTC
+TTGCCTGCCACCATATATGACGTGCCTGCATCCCCTTCCACCATGACTGTAAGTTTCCTG
+ATACCTTTCCAGCAATGTGGAACTATGAGTCAATTAAACCTTTTCTCTTTATAAATTACC
+CAGTCTCAGGCAGTTCTTTAAAGCAGGCTTAAAATGGACTAACACAGTGTTCCATTAGCA
+TTAAAAAAGAATGTGTACTCTTTTGTCTTTGGATGGACTGTTCTATAGATGTAGATTAGA
+TTAATTTGGATGCAGTATCATTCAAGTATTATATATCCTTGCTGATTTTTTTATTTGTTC
+CATCAATTATTGATAATGGATTATTAAAGTCTCTAAGTTTTATTGCTGAATTGCCTATTT
+CCCCTTTAAATTATGTAAGTATTACATAACTTAAGTATTACATAATTTACATAATACGAA
+GTGGGAGAATCACCTGAGCCTGGGAAGTCGAGACTGCAGTGAGCTGTGATTGCACCACTG
+GGAGACTGTGGTTGCACCACTAGGAGTGAGAAGTAACTAACTTGTATCTTGGAAGTAACT
+AACTTGTTTTTGATTTTACAGGCCGATAGGTGGAAGAGACTTGCCTTGTCTCAGATGAGA
+CTTTGGAGTTGGACTTTTGAGTTAAAGCTGAAATGAGTTAAGATTTGGGGGATTGTTGGG
+AAGGTATGATTGGTTTTGAAATGTAAAAAGGACATGAGATTTGGGAGGGGCCGGGGGCAG
+AATGATATGATTTGGCTCTGTGTCCTCACCCAAATCTCATCTTGAAATGTAATCCCCGCT
+TGTCAAGGGAGGAACCTGGTGTGAGGTGACTGGATCATGGGGGTGGTTTCCCTATGCTGT
+TCTAGTGATAGTAAGTGACTTCTCATGAGATCTGATGGTTTTATAAGGGGCTTTTCCTCC
+CCTTCACTCTGTACTTCTTGCTGCTGCCATGTGAAGAAGGATGTGTTTACTTTCCTTTTC
+ACCATGATTTCAAGCATGATTGCACCACTGGGAGTGAGACCCTATCTCGAAGTAAAATAA
+AATAAAACAAAAACTCTCACTCCCAGTGGTGCAATAGAGTGAGACCCTATCTCAAAGTAA
+AATAAAATGAAACAACAACTCTCAACAAATAAGAAAGAAAAGAGTAATTTCTCGGTCTCA
+TAAAGAGAACCTATGAAAACCCTACAGATAAAATGTAGCATGACAAATAACATACTTTCC
+CCCCAGTATCAGGAATAAGGCAAGAATGTATGCTTTCACCACTTCCAATCAACAAGGTAG
+TGGAGGTTCTAGCCAGTGTAATCAGGCATGGAAAAAAATGGTATCCAGAGAGGAAAGAAA
+TAAGTAAAATGGTGTCTATTCACAGAAGACATCAACTTGAATAATAACATAGAAGATGAA
+ATTCTTACAGTTAGATCTTACAAAAGTCCTCTTTATTGAAAACTATAAATCATTCTTGAG
+AGAAATTAAACAAGATGTAAACAAATGAAAAGACATATCTTATTTGTTGATAAGAAGAAT
+TAATATTGTTAAAATAAATAACAATTCTTATTTTGATCTACAGAGATGGTGCAAGAATAA
+TTACTATAAGAACGGGCATTTTTAGAGCAGTTGACAAGCTATTTCTGAAATTCATCTGGA
+AATGCAAAGGACCTGGAAAAGGCAAAACAACTTAAGAATTATTTTAAAGCTGAAGTCACC
+AAGACAGTGTGCTATGGGTTTCAAGATAGACAAATAAATTAATGGGTTAGAAAAAAAGCC
+TAGAAATATATATATATATATATATGTATGTATATGTATATAGACATTGAATATATATAA
+ATATATATTCAATATATAAAAAATATAGGATATATATAATATATATAGATGTGTGTGTGT
+GTGTGTGTATATATAGAGAGAGAGAGAGAGAGAGAGCCAATTCATTTTTTGACAAAGCTT
+ATAGGAAATTGAGTGGAGAAAAGAGAGCATTTTCAACAAAGGTAGTGGAACATTTAGACA
+TCCATTTAAACTTCAATAATAACTTCAATAACTTCAATCCTTATCTCACATCATATAAAA
+AATTAAATTGGCTCATAGACCTAAATGGAAAACTAAAACTATTAAATTTCTGGGAGAAAA
+TCGAGGATAAAGTCTTTGTAACTTTGGGTTTGACATTAAAAGCACAAATGATAAAAGTAA
+AATTTGGCAAACTTGACTTTTCAAATTAAGAAATTCTTCTCTCCAAAGGATTATAAAAAG
+ATAAGTCATGGGTTGGGAACAGACATTTGCACATTACCTACTTGATAAAGTACTTGAGTC
+TAGAATATATAAAGAGCTTTCAAAATTCAACAATAAGAAAACAAACCAATACAAAGGGTG
+GGGCTAGAATTTGAATAGCCGTGTCACAAAATAGATGATAAATTAGAACGTTAAAAAGGT
+CTTTAACATCACTAGTCATTAGGGAAATGCAAATTAAAATCATGAGACATTAAAATGAAT
+AAAATACACTTCTTAAAATAAAATATCAGGCCATATTAACTCCTGACAAGGTTGTAGAGC
+AACTGGAACTTACTGTTGATGAAAATATAAAATGATACCATCGCTTTGGAAAATGCTTAG
+TCAGCTTCCTGAAATGTGAAGCATACTCCTAACATATAGCCCAGGCATTCATTCCTATGT
+ATTTGTCCTAGAGAAATTAAAGCATATATCATCATGAAAACTGACACATACATGTTTGTA
+GCAGCGTTATTTGTAATCTCACAGAAACATAAATAATGCAAATGCCCATCAAGAGAAGAA
+TGAACAAAGAAATTATGGCACATTCCAACAATTAAATACTACCTAGCAATAAAAAATCTA
+CTGATAAACCTAAAAAGATAATTATGCTTAGTGAAAAAGACACATAAGAGTATGTATTGT
+ATGATTCCATTTTTAAAATTCTAGAAAATGGAAATTAATCTATGATAACATAGAGCAAAT
+CAGTGGTTGCCTAAGAAAAGAGAAGGGATGAAAGAAAGACTCTAGTTTATTGTACGTCAA
+TTCTACCTCATTAAACCCATGAAAAAATATATAAATGAGCATTATTTCCTGCATGATATC
+AAAAGAATAAACAGTATAGTATTGGTTAAACATAAATAAATCAATGACAGTCTAGAAACA
+ACAAAAGTTTACATGAGTTTAATTTATAATAGGGTAGCAGTAACAACAGTGAATTATTTA
+CCATAATTTCAATAATCCCTTGAAAAGGGGTTAATTTCAGTGGTCCAGAGCACAGATTAG
+AGAGAAAGATTTCCTGCAATTAGTCCTGGCTCCTCTACTTAATAGTGTGATGACTTTTGA
+AAAGTTATGTAATCTTTCTAAGTTTCTAACCCATGACCGTCCTTGTTACAACCTGCGTCC
+AAATCAAACTATTTGTCAAAAAAGGGAACAAGTAAAATTTTAATTTAACCTTGACCTCTA
+CCTAACACTACCCCTTAAAACTAACTTATAAAGGTCTTGATTCTATATAAAAGCAAAATT
+AATAACATCTGTAGAAGCAAATACAGGGGAACATCTAGGGATTCCTTATGGTTTAAATAG
+TTCTAATCAGGGATGAGGGCGTGTCAGCTGGGAGTCTTTTGTTATCCAGGAGTCATGGAA
+GAAAATCTTACTGCCTATCAGAAAGCCTGTGCAGCCAATTTAGGATACCTTCAGTTTTCA
+TCTATGAAGAACAGAACATTTATTTTTAACCAGTTTCAGAGAAGGATATCAAGACAAAAT
+ATTCCTTAATCCTCTTATTCAAAATTAAAACAAAACAAAGGATTATACATCTCACTCACT
+CCTCTAGTTCCTAAGTCTTTTTACGTCTTGCTTTCTCCTGCCAAGCTTCAAGGTTTGCCT
+ACATTCTTTTTCCATTTTAAGTGGATATGGCACTTTAGGAAGTACATCGTGCAGGACTGA
+ATTAAATTACTAGCTCTGCCATTTAATTGGGTTGCCTTAAGCGATCCTTAAGCAAAGGAC
+TGATTAAGAAAACTGTCTTTTTCTTAGTCTTTCCTTCAACAAATAAAAAGGAACAACAAA
+TAAAAAAAATATTTTTTATTGTGAATGCTGAATGAAATAACATGGCGACAAAGTATGTCC
+CACAGTAGTCATTTTAAAATGTTAGCCTCCTTTCCTTTTTGAATATAAAATATCCTATTT
+GATTTGTGTGTATAGCCAGTCCAGCTTCTCTTCAATCCTTTAAGAACCATTTAGGGCAAA
+AATTATTTTAGTACTGCTCTAGGTAAGATCATTGTTGTCAGTAATGCTAGCACTTCCATT
+GTCCTCTTGTACTGAATTGCATTCTTTTATTTTGGTTTTTGTCTTTCAGAATTTATGACA
+TCGGGACAGAGGGAATTTGTTCATTTTGTCTTATTTATGCTAATGGGAACAGTCAGTGAA
+ATAGGAGCGACTGAAATTATAAGGAACCCATAACAGTCCTTGTGCAACCAACCGCCAAAA
+CAAACCATTTGTCATGAAGGGGATAAGCAGAAATTTAACAGCTTTCTCTCCTTTCTGTTT
+TTCTTTTGCCCGCGTTCCTCTGACCTCTGTTACAGCTCTAAATTGTTGTAAAAGCAATCA
+GACATCTGTAGCAAAAGAAGGATGAAAGAAAAAGTGTTTAAATTATCTGTTAAAAAAAAT
+GAGTTTTTCATACGAGGAGCAACTTGCTGTTGGGGATCAGAAAATGATGCCCTAAAAGGA
+AGGCTCTTCAGTCTGAGAAGCAAAAGTTTCTCTTAGACCTTCCCCGACCTTCTTGTAAGG
+GGTGCCTACGAGAGAATGAATGCCTCTCATTCTCCTCAAGACTAGCCATAGAGACTAGAA
+TCTCTCTTCCCCACGGCAGGTTGTAGAAACCAGAAGCTCTTTTCCCCAAAGCCAGATATA
+AAACCTAAAAATATTACTCTTTATCCCCCACCTTTCTTTGTAAAATGTTGCCATTAAGAA
+CTTACCTGGGCCGGGAGCGGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCGAGG
+CGGGCGGATCACGAGGTCAGGAGATCGACACCATCCTGGCTAAAACAGTGAAACGCCGTC
+TCTACTAAAAATACAAAAAAATTAGCCGGGCGTGGTGGCGGGCGCCTGTGGTCCCGGCTA
+CTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTGCAGTGAGCCG
+AGATGGCGCCACTGCACTCCAGCCTGGGCGACAGAGCGAGACTCCGTCTCAAAAAATAAA
+TAAATAAATAAAATAAAAAGAACTTACCTGATCTACCTTATTTGACTGTAGGTCATAAGA
+CCCCCATTCCAGAGACAGTCCTGCCCCACACCCAGAAGGAAGGAAAGCTGCAGAGAGAGG
+ACAAAGAGAATTTAGACGGACAGGCCCTGCTGGGTTTCCCCACTCAGTCCACTAGCATTA
+GATCATTCCCTTTTTGTCCAGTCATATTTCTACATGACAGTCCATACTTAGTTGAACCTA
+AGCATAAAAATGGACAGTTTCCCTTGTATTTTGGGGTCTTCATTCTGAAGGTCTCCTGTC
+ATGTAAATCCATGATCAAATACATTTGTATGCCTTTTCTTGAATAAATCTCTTTTGTCTA
+TTGATTTTCAGCAAACATTCAGAGGGTGAAGGGGAAGCATTGCCTTGGCCCCTACACTGT
+TCTTCAGGGAAAGAGCACCAGAACCTTGAGTGGTTTCTTTGTGACCATACTTCATTAGCG
+AAATCACCTCTGCATCTATTATCTCCAGCTGCAGCAGCAGCAGCAGCAGCAACAATCCTT
+TTAAGGAGAGTTAAAAATGGCTAATGGTATTTCCCCTCACAAGCAGTAGTTATTATCATT
+GCTCAAGGTCAATGTACATAAAAGAATGTAGAAATTCCGAGGAAGAAATGTGAAGAGTTT
+TTATGAGAAAAGAACAGAGCTCCAGGGCTTTGCACAAAAGTGACAAATTACTGTAATCTT
+TCATGGGAATGGCCATAAGATATCATGTGTATAATATAAAAATTGCTTTTTAAACTAACC
+ATGTTTATTCTGATTATTAACTTCCAAGAAGAAGAAACTTAACCTAATAGTTAATTTCCT
+GTTGGTGCAAAATATATTATTTGGATAATGCAGACTGATATCATTAATCATATTTTTATA
+ATATATTGGGATAAATTGTCAAATATCTTAGGTGCTTTACCCTTTAAATCTATTGCCATT
+ATTTGTAATAATTCAATTAATTCTCCATATCTCTGAGCACGGATGTCCGGTATCTGTTTT
+AGTTATCAGTTATTTAATGGTTACTACATTCCAGGCACTCTGCTAAGTAAGTTACATAAA
+TTATTTAACCCTCACAGCAATGGTTTGAAATGATCTCCATTGTGTCAACCTAAAATAACC
+AAAAGGAACAAAATCTAATTTAAAGAAAGTGTATTCAAGCACAAAGTGTGAAGGTGGCCA
+TCTGGGGAACAGAGCTGCACCAAAGAATGGTGCTCAGTGCTCCTGCTGTGAGAAAAAATG
+AGGATCATTTGTATAGGCAAAAATCGAGTTGGTGAACAAAATTACAACGTTTTTCCAACA
+CAGACATGCAGATAATAAGATTTGGTTGGCTAGTACTGATTACACTCTAAGAAGGTTATG
+TAACATTTTATCATAAAGAGGTAACAATCACAAGGATCTCTCTAATATCGTTTAGTCTAG
+GTTTGAATAAAGAATAGGGAGTCTGGTTAATGTTTAACATCTTAACACAAAGGTCAGGAA
+GCAAAGGCCAGACACCAGAGAAGAAAAACAGCCATGTCAAATGAGTCTGTTTCTAGGGCA
+TCATTTTTTCCCTTGGCATAATAAATTGGGGTGATCCTGAAATTTTCATTCTTTTTACAT
+TTCCCTCTTTCTTTCAAACTCTAAGAGGAAGCATTGCAGGAGAATTATTTAGTCAGATCG
+CATATTTGATCGAATCTCACATTGCTAGGAAGACTCATTTTTAGGAAGTCATGTACCATG
+GAGGAGAGAAATATTAGAAAGGACCAAGGCCGAATTACAAAGAAACAAAAGGAAAGTAGT
+CTTGGAACCTGGTTAGGCTACATGTCTATCTCTGTAATCAAAGCAAATTTTTGAACAATC
+ATTACTTTGGTTTTTTAGTTGTATATTGACTTGAAGACAAATATCATACGGTAATGGAGA
+CAAAAACAGGATAAAACACAACAAACAAATGATTATAATTTTTAGAATATGTAACAGTGT
+TTGTCACCAAGTTTCCTGTGATTCAAACCAGTTATTCAGCAAGTTGTTTAGAGGACATGT
+CGGATCTGAAGGTTGGTTACTTGGGTTTTTATATTAGCCACTAATTTAGTCACGTTATTT
+GACTTAACTGTAATATAGACACAACATTTAGTTTTCAGGATAGCACAGGTTTCTTTTGGG
+CTACAGTGTATATGTCTAAAGTCATGTGGTTTTGTAATATAGCCTTTTTATGACAGTAAC
+TTAATTAATAGCAAGGTATGGAATCTTATCATTTAATAACAAGTTAGAAAATGCAGCTGT
+CGCTTAGGGCCTTTTGGATATAATTGGTTAGGGCCTCTATATGTCAAATGACATCTTTAA
+TACACAGCTGTGGTATAAAGAAAGAAGCTAAATGGTCACACCAATGGAACATAGAATATA
+CCTATTGAGATTGTAAACGGGGAAAAATTGTTGGTTTTGACAGCATGTGAACTATTTGAC
+CTTATAGCTAAGTATAACCCAGAGGACATTGTCCTCTTCATCTTGGGGTAACTATGGCCG
+TAGATAGCCAAGACATTTTAGTTGGAGCTAACCAATAAATACCCAGTTATTGTCTCTAAT
+TAGTGGCATGTGAGTCAGCACTTTGTAATATAACGGTGTGGGTGACTGTGTTTTGGGCAT
+TTTCCCATATCTCTAGTGCAGTGGGCCATTCATCTTTGGTGTAATTTTTTGTTCCCAACA
+TAAAGAGACGTGTTGATTAAGCTGGCCAAAAGAAGGAGTGAGACAAATAAACCTGTTCCG
+AATTTGTACTATATCATCTTGAAATCAAGTTGTCCTTTGGGGGAGCAACATTTTATTTGT
+TTATTGTTTTTGTCTTTTGTTTTAGTTGAGGTAGTGTCAGAGTAAAACCTAACTAGTAGC
+CAGGCGCAGTGGCTCACGCCTGTAATCTCAGCACTTTGGGAGGCTGAGGCGGGCGGATCA
+CAAGGTCAGGAGATCGAGACTATCCTGGCTAACATGGTGAAACCCCATCTCTACTAAAAA
+TTAAAAAAAAAAAAAAATTAGCTGGGCGTGGTGACAGGCGCCTGTAGTCCCAGCTACTCG
+GGAGGCTGAGGCAGGAGAATGGCGTGAACCTGGGAGGCAGAGCTTGCAGTGAGCCGAGAT
+CGCGCCACTGCACTCCAGGCTGGGTGACAGAGCGAGACTCCATCTCAAAAAAAAAAAAAA
+AAAAAGCTAACTAGTTAGAGTTTTATTTTTCTACCAAGACGCTCTTCCTATGGTGCTTGT
+TCTGTACAGTATCATCAAAAGCCAGAGTGTACAGTATCTTCAGCCAGACTGTCATTTTAA
+AATATGAATAAATGGGAATCACTAGAAAGACACATGAGACCATGGGTCTAATAAGCGTCT
+TTTCGTAAGCTATCAGCATAGTCTTGGGCCCATTGTAAAAAGTGGTTTGCTTCACAATAG
+CTGGTGATACTTCTACCAAGACATAAGAATTAGGGATAAAAAGAAGAAAGTTTAATTGGA
+GCTTATAAAAGAAAATCCTCCCCATCTGTTAACAATCGTTAGCATAAACAGTTTGTTTAG
+ATACAGACCTGGTCTGGGGTTTTGTGTTTTAGCTGTCCACATCGGATGCCATCTTTTTCC
+TAACCTGGTGTTGACTTATTTTAAGTCAGAGATCACCTTTCAGGGAAGAGTCCAGCCAGG
+AGTGTCATTCTTTTTTAGATGAGAAATGCTAACGCATGAATCTTCACCAACGAGGTTTGG
+TGAGGAGTACTCGATCAGGTCCATAGCATTTTCACTGAAGAGAGCTCTTTAAGAAATGTC
+ATATCCGGCCGAGGCGGTGGCTCACGCCTGTACTCCCAGCACTTTGGGAGGCCAAGGCAG
+ATGGATCACTTGATGTCAGGGTTTGAAACCAGCCTGGCCAACATGGCGAAACCCTGTCTC
+TACTAAAAATACAAAAAATAGTCAGGTGTGGTTATGGGTGCCTGTAATTCCAGCTACTCG
+GGAGGCTGAGAAAGGAGAATCAGTTGAACCCGGGAGGCGGAGGTTGCAGTGAGCAGAGAT
+TGTGCCACTGCACTCCAGCCTGGGCAACAGAGCAACACTCACTCTCAAAAAAAGAAAAAA
+AAAAGTCTTTGCCAATAGATGAAATTTCCTAGACTGCGTGGCTTTTGAAATTTCCCATCT
+TCTGGGAGCTTGCTGTGAAAAGATTATTTCACCAATTTATAATTTTTAGTTAGTTGCTTC
+ATAAGACCGTTGTAATAGCTAAACATGTCTCCCTTTACTATTGAAGACATATAGTTTCCT
+GGAGACAATTTCATAGGTCTGCTTGTTATAAATTTGATTGGAGATTACTGGTATTTAGCA
+AAAGGGGGTCAACCTCAGGTTAAGTAGAATCAGTGGAAGAGCTTTTGGGGAAGACATACT
+AAAAGCCTCAGTTAATTTTGCCAGTTTTGATTATTTCATTGGTGCTTTCCACTAACCCAG
+ATGACTGGGGGTAGTAAACATAATGAAATGTTGGCGACTAGACCAAACTTTACATACTGA
+TTAAACTTAAATTTGCCCAGTGAAGTCAGTACCTCTATTGCTATGAATTCCCCAGGTTGG
+AATGGTTTTTAAACAGAATTTCACTCACTGTTAAAGCCATTGCTCTTCTGTAGGGAAATG
+CTTCTACTCAGTGAGAAAACATGTAAATCATTAGCAGGATGTATTTGTATGTTTGTGAGG
+GTGGCAACTGGATGAAATCTAATTGCCACACCTCAAAAGGGACCTCAGGTAAAGAAAAAT
+ATACTTGGGAGCCATGTAATATTTTCCCTGGATTATATTTTGAACAATTGTAACAATGAG
+CTATAGCTCAAAAAGGTTTTAAAAAATATTATTTTCCCCAAGCAATCATGTCTTCAGGCT
+CCAGTGAGTTAGCTCATGTATATAACTGTAAGTCAGCAGGAAATGCAGGCAAATCATTTG
+ACCCATACCATATCTCATTTTGAGAGGTGTATCCTCCCCCTTTTGCTTTCCAATTTTTCT
+GTTTTGATTTTAGAGTTCTAGATTAAGCTACTTCTTAAAATCAAAAGTAGATTTTTTAAG
+TTAATGTCAATTGTTTTCTTAATTAGATGCATTTAGAGCAATTCTTTTTGTTAACTTATC
+AGCTAGCTCATTTTTTTGTTTGTTTGTTTGTTTTCTGGGGTATCTGATTTTGAATGACCT
+GGAATTCTAATTGTGAATAGTAACTTTGGTAATATTATAGGTTCTAACAATTTTGAAATG
+AGGTGTCCTTTTTTTTTTTTTTTTTTTTTTTTTGAGATGGTGTCTTCCTCTGTCGCCCAG
+GCTAGGCAATCTCCCTCTGTCATCCAGTGGCACGATCTCGGCTCACTGCAACCTCTGCCT
+CCTGGGTTCAAGAGATTGTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGTGTG
+CCACCGCGCCTGGCTAATTTTTGTGTTTTTAGTAGAAATGGTGTTTCACCACGTTGGCCA
+GGCTGGTCTCCAACTCCTGACCTCAGGTGATCCGCCTGCGTCGGCCTCCCAAAGTGCTGG
+GATTACAGGCATGAGCCACCACGCCCGGCCTGAGGTGTTCAATTTTTATGGGTTGACCAG
+AAGAGGCTAAAAATCTTGTCTGTTTCTGTGATATTAAAAAATCATGAACTACTTCAAAGG
+CATATCTACTGTCTGTAGAAATATTAGCAGTTTTGTTGTTGTTGTTGTTAATTGAGGAGC
+CCCAATCAATGTAATTAATTTCGTTTGTTGATTTAAAGTGACTTTTGGAACTTAAGCACT
+TTTTATTTCTTCAGTTAAGGATACTTTTTAAAGTAAAATCCATTTGTAAACCAAACAATA
+TCAAGCATTAGCAAGGGGAATCTCTTGTAGGCCAGCCCTAGAAAAGAGCAGTTGAACAGT
+TAGAGTTATGCAATTATGCAGTTTCAGCTGACAATGGAAGTAGAAGAATGCAGGAATTAG
+GTTATTACAACCAGAGATGGTGATATGAGAATCTGAAAGAAGTAAAACTTTATATGAAGC
+TATTCTACTAACTGAATAACGTTGAATGGGGTGTGAGTTTAGCATTACTTCCACAAAATG
+AGAAATGAAAACACTAAAGTATATTCCCATTAAAGTTTCTTTAGCTGCCTTAACAAAGCA
+GTGGCTTTTACAGCTCTCATGCAAGTTAGCACTCCTCTTGTTACAAAGTCTGTTGGCTAT
+AGCACCCTACAGGATTATTTTGTTCTCCGCATTTTTGAGTTAGGACCCTTAGAGCGTTAC
+CAGCACTCTTACATACAAACAATAAAAAGGAAGGTTATAATTTGGATACGCCAAAACTGG
+AGCATTAGCAAGGTCATCTTTTATCTTTTTTTGTTATTTATTTTTTGTAGAGGTCTCACT
+ATGTTGCCCAGACTGGTCTTGAACTCCCGGGCTCAAGAAACCCTCTTGCCTTGCCCTCCC
+AAAGTACTGTTATTACAAGCATGAGCCACTATGTTGATTTTCTTCTGTCCACTCCAGAGG
+GTCTGGAATGTCTTGCCTGAAGACAGCCTATAAGGGCTGGGTTTTTAAAGAAAAATTTGG
+GATCCAATCTCTAAATTATCCTGCCATCCCAAAAACTCTCTCACCCGTATCTTGGTTCGT
+GGTAGTGAAAACTTTAATATACCTTTCAGTCTGTCCATGTTAACAATAAGTCCTTCCTAA
+GATATTAGGTGGCCTAAGTGCTCTAATTTTTTTTTTTACAAAATCAAAGTTTTGCTTTAG
+AAATCTTGTGTCCTTTAAAGGTAATTGTTATAACAAGTAAATCTCATCTTCTATAGAGTT
+CTGCTCATCCTCTGAGCAGAGGAGAAAATTGTCTACAAACTATATTTAAAAGGATTTTTT
+AAAGAGGTCAACATCTGAGAGGTCTTTTTAAACATTTGTGAAAAGTAAGTTTGGCTCCCA
+GTGTGTCCCTAAGGCATGACTGTTCATGAGTACTGTCTGTCTTCCCAAGTGAAGACAAAC
+AGAAATTGACTATTTTTATCTAAAGGAATACTAAGGAATTCACTACATAAGTCTATTCCA
+TTCAATAACCACCTTCAGCTGCAAAGGCAGCCAACAACATGTGGGGGTTTGGCACTGCTG
+AATGTTAAGAATGACTGTGTTGTTAATTGCTTTCAGATTCTGTACAAACCTCCTTCTTTT
+ACCATTTAGTTTCCTTACAGGAAGGACTGGAATGTTACATGGGCTTGTAGAGGGAATAAT
+CAATCCTCTCTTTATATAAAAATCCTAAAATTCTAGTCTTTATTCCCTTTAGTGCTTTAT
+TCCTCAAAGGATATTATTTGAGTTTGGAAGAAGTTTTGATGGACCTATTTGAACTTTGAT
+ATGGATAGCTGAGATGATTTCTCCAATATCAGTGGAAGACTTTGTTAACAATTAATCAGG
+AGCTGCCTTTAGCAGATTTTGTAATTTTTTATTACTCAATAATTTAGTGTCTTCTATGGC
+AATATGGATTGCAATTGGATTAGACTTTCAAAATTTGTTATGTCTAGTAATTCAGTTTTA
+TTATTTAATTCTATATACATTTTCCCTTTTTGGGAGAAAGAAAGGTGAGCATTTTATAAT
+TTTAAGAATCATCTTTTTATAAGGTGGATGGGAGCTGATAGAACCAGAAGGAAAACATGA
+GTCCCTTGTATGGGACCTTGTTGAAAAGCCACAGGCTGAGACTTGTATGTTGACAAAGGA
+TTATTTGTGACATCTACCATTGGAATTCTTTGCTTACTCCAAGGAATGAAATCTTGTAAT
+AAGTTGGGCTTTATTACAGATAAAGAGGCTCCAGTGTTAACAAGAGCTTGTGTTAGTAAC
+AAGAGCTTGTGTTCGTTTTTTATTTAAAATAATAACTATTTTTTAAAGTCAAGCCAGGGT
+CATAGGCTTAAATATTTAATTTAAATTTCCTGGAAAAACCATAGGGTCCTGGTAAAAATC
+AGGAAATTTTAAAAGTATATCTCTAAGTTTTACCTTTCACCATGATTGATAAACTGGGGC
+AGGCTTTTCCCAGCCAGACACTGGCTGTTTGAGAAATGGAGCCAGGACAGGAGAAGGAGT
+TGGAGGAGGAGGAGGAGTTGGAGAAAGAGGAAGAAGAGGAGGAGAAAGAGAAGGTGATAG
+AGGAGGAAGAGGTGGTGAAGGAGGAGGAGAAGGAGGAGGTGGTGGTAGAGGAGGTGGAGG
+AAGAAGAGGTAGGTCTTGGTAAGGTAGTTTAAATAATATTGGACAAAAAGAAGGAGGACA
+TGAGGAAGAAAGAGGATAAATTTTAGCAGTCTTTATACATTTAGAGACTGAAACAATTAT
+TTGCTTTTTCTTATAAAGAAAAAACTTTATTAGAACCTCTTTTGGACACTTTTAAGTACC
+ACTGAAAATAACTCTCTTGATTATTTTGCTTTATCTTGGAGCTGGCTTTTTAAAACTGAG
+CATGCAAGTAAATTAGTTTAGGCATTTTAAAGGTACTTACTTTGGCCATTATAATTTGGG
+TTTTTTATAAATTATATGAGACGATTTTTAAAAATAACAACATGAGGTGACACTATAAGT
+GTTATATATAAGCCCATCTGGTATTTTTATGGTGAACTCCCAAGGAGAAAGACTCAGTTT
+TGGATGAACAATTGTCCATAATATGGGTTTTCTTCTTAAGTGACCAAAGATTATATGGGA
+AATTGGTTAAGATATGTCCACTGAACTGAGCTTCAGAACTTGGCCAGTTTAAAACCACAA
+ATATAGCTTATGCAACAAAGATTCTCTTTCTCTCTGTTTTTTCTTTGATCAAATTTGAGC
+CAGAAAAAAATGTTTCATAATTTAGCAAGTAAGACACACAGAACCTTAATCTCAAAGGAA
+AGTGAAACCTGTAAACAGCAGAATTTTTAGAGAAATAACAGATGAAATTCTTACCTTTAA
+AAGTAGAGCTTTAACTCAGGTTGCTTGAATAAAGTCTGAATCTCAGCCAAAGCCAGGGAG
+ACTGAAAACCAAAGAGAAGGCTTCCAGAGATAACTGCCAGATCCAGTAAAGTCAGATAAG
+TGACAGCCACTCATGCCAGTTCCAAAGCTCTGAATGTCAGTGAAGCAGCAAGGATCTCGG
+GAGGCTCACTTTGGGTCCCTTTTTGGTCAAAAAATGTCAACCTTAAATAATCAAAAGGAA
+TAATTTCTAATTTAAAGAGAGTTTATTTAAGCATAAAATGTAAGGGTGGCCATATGGGGA
+GCAGAGCTACACCAAAGAATGATGATCAGTACTCCTAATGTGGGGAAAAATGAGGATCAT
+TTATATAGGCAAAAACAGAAGTGCTGAACAGAATTACAATAGTTTCCATACAAAGGCTGA
+CATGCAGATAGAAGATGTGATTGTCTACTATTGATGACACTCTGGGGTCTCCATCTCCAG
+TGTCATTTAATTAAGGTTTGAATAAAGAATAAGGCATCTAGTTAACATATAATGTTACAT
+CAAGATCAGGAGGGAAGTTCATGCACCGGAGCAGGAAAACAGCCATGTGATGTGGCTCAG
+TTTCTAGGGCTTCACTTTTCCTCTTGGCATAATAAATGTGGGAAGTCTTGAAGTTGTATT
+TTCTTTTTTAAAATTGTTCTATTTATTTTAGAATTGAGAAAACGCAGATATAAGGATATT
+GCTCAGCTCTCCAATATCACTCTGTCAGTAACTAGTGAAGTTTACATTTTAAAATGAGGC
+CTATCTGGATTCAAGTTTAGAGCATTGACAGAATGTCTACATGGCAAGTCTTCTTCAATA
+TGTTGTCTTAATCCTCCTCTACCTTCATTTGTGTGAGCTATTTTATTGTCATTATTTCTT
+AAATAATGTTTCCTTGATTCAATTTGAAATATAAAACTATAATTTTGCTCTTATAACACC
+GAAAGATAGAAACTAAAAAATGTTGTCTAGGACTTCATATTGTCAATCTTGAAAAGGTAT
+AATAATGATTATAATACGAATTTAAAGTGGACACATGTCAAATATTAACTCATTAATGTG
+GGAACCAATATTACGCTACAAGGGTTTAAAGAATCCAAAGAGTGGAAACATATATGGCCA
+GTCAGAAATTCTGGCCTACATTTTCCTAATAGATGCAAAACTGGTCAATATCCACAGAAC
+ACTAATCAGCCTTCTGCCCAAGGAAATCTGTATTCTTATGGACAAGAATCGTTTGTATTA
+CTTTCAGTATTCAACAACTCATAGAGTTTTAAAGTAGCACGAAGACTAGGAAAGGACAAG
+AGATGCCATCGAATCACACACTCCACCAGTGCCCAGTTTTCTTTTGTAAACATTGAGTAA
+TATTCAAGAAAGAAAGAAAAAAAGAAAGAAAGAAAGAAAGAAAGAAAGGGAAAGAGAAAA
+AGAAAGAAAGAAAGAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAG
+AAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGACTGTATCTGAGAAATGTAAGCTTCTTT
+AAACCATCGGGCCCAGAAAGGCATTTAAAAAGTAACAGTGGCCGGGCGCGGTGATGCACT
+GCTGTAATCCCAGCACTATGGAAGGCCGAGGTGGGTGGATCACCTGAGGTCAGGAGTTCA
+CGACGAGCCTGACTAACATGGTGAGACCCCATCTCTACTAATTACAAAAAAAAAATTAGC
+TGGGTGTGGTGGTGGACGCCTGTAATCCTAGCTGCTTGGGAGGCTGAGACAGGAGAATCG
+CTTGTACCTGGGAGGCGGAAGATGCATGAGCCGAGATATTGCAGTGAGCCGAGATAGTGC
+CATTGCACTCCAGCCTGGGCAACAAGAGGGAAACTCCCTCTTAAAAAAAAAAGAAAAAAA
+AAGTAACAGCAGCCACATCTCACTCCCTCCTGAGTGAAATAATTGTCTCTTAAAGCCACT
+TGCTACGTGGACTCCAGACTAACTGACACCAGGTAGCCATCAAATGCCATACACCCTAGA
+GTTCAGCTATGTCTAGTCAATCACTAACCAATGCTATTTCTGTAAATCAATGAGAATTCT
+TGGCAAATAACTTTTGTAGCTGCCCCCTCTCCTGATTTGTTCTTTCTTCACAAACTTGAG
+TTTCTCTTTTGTTCTCAAGATCACTCCTCAAGGTAACTTGGAGGTGTGTCCCAAGCTGCA
+GTCTGCACCTTTGCACTAGAATGAATGCTCTTTAAACTAGATTCTGACATTTTTTATTAT
+TTTAGGTTAACATAGTTTTGGTCCATTTCAAAGTCTTTCACATTTTTCTCTAACTTGTTT
+AATTTCACCTTAATTATAACATTAAAGTAAAAAAAAATAAAGGTAGAGATGCGCAGTGGT
+TAGCTAACTTGATCAAGATTGCCATGGCCAACACTGTTAAACGTGGAGGAATCACCACAT
+ATATCCATCTACTTTCCTACTAAAATCTCACTAAAATTACAATACAGAAACGGAAAAGCG
+CAATTACTCAAGAATGAAGAGAATGTCAGTGGAGAAAAGTTGGACCACTGGAAAGTTACT
+GACATCCTACAAATACCAGTGGGTAAGCCCACTACAGCCCAGCCTCCACCTGGAAATCGA
+GTGTTTAACATTTATAGAAATTTAATCATAAATGCTCTGGGCTTAGTAAAATCAGCAGCT
+GTTGGTAGAGGGAGATTAGCACAGGGATGAAAACAAAAGGATTCGGTGAAAGATGCCCTT
+GTGAACTCTGGGACTTCTTGCCTCTTCTCCTTCCTCAAGGAGATATGCCTCCAAATTCTG
+AGATTTGAGGATTTTTCTCTTGAAAAATTGACAGTTCCCAAAGAAATTATCTTAATGTAC
+TCACATTGCAGACCTACCAAGTTATCGTCTAATAACCGAGAGGTGCCCCAGGTAGCTAGT
+CTTCTCCATACCTCACCCTTAGAGGAACTGAAATAAGATAAAACAGCCACAACAAAAGCA
+ACAAAACAGAAACCTATAAAGTTGTCAAAGAGAAAATTACAGCAAATTTAGTTATGTGTC
+AAATTGGTTTTTGTTTGAGATTCAGGAATTGGGGCAGTCTCCATTCTACAAAATAGAATG
+GGAGCTCTAACCAGGAAATCGCAGAGCAGTGATTTCATGAGGTGAAAACACGGAAATAGA
+AGAACAGGGAAAAAAAAAAAGTAAATAAATAAAAAGGCTGGGAGCAGTGGCTCATGCCTG
+TAATCCCAGCACTTTGGGATCAGGTGGAACACCTGAGTTCGGGAGTTCGAGACCAGACTG
+GCCAATATGGTGAAACCCTGTCTCTACTAAAAATACAAAAACTTAGCCTAGAGTGGTGGC
+ATGCGCCTATAGTCCCAGCTACTTGGGAGGCTGAGGAATGAGAATCATTTGAACCAAGGA
+GGCAGAGGTTGCAGTGAGCCGAGATCATGCCACTGCACCCCAGCCTGAGCAAAAGAGCGA
+GACTCTATCTGAAAAAAAACCAAAAAACAAAGAAACACCTGATTGATTAACATCGGCTTA
+TTTCGGGTTATTTTTTTGGAAAGGTTTAAACAGAGGAGACTTCCTTAATATGCTGAGTCA
+GGTAGACTGGAATCTTGTTTTTAGGAAAAACTGGTCTGTTTTGGGATCTCTCTGCCTTCT
+AAAAATTTCAGTTTGATTGTACAGTGTTCAGTTTGATTGTATAGTGATTGTATAGTGAGT
+CACTCCATTAGGTTTGGTCTGGTCTGTTGGGCCTAGTGCAGGAGATCTTTCCAAAAACAA
+TATGGTCTCCCATAATTTTGTTTAACACAGTATATAGGAGTTAATAAATAATAGAAACAA
+CCTGTGTAGATAAAATAAAAAATAAAACTTCTCTGCCCTCTCTGGACAATTTCACTTATT
+ACTAATTTAATGCCTGATATTTCAAAATGGTTTAAATCACTGAATTTTTGACAAAGGGGA
+AGCAAGCGAAAGATCCAGGTAATGCTTTGGAAAGGGCTCTTTGCTGCTTTGGTACAATAT
+AACAGGAATAAAATTGCCTCACTAGAAAATACCTTTGGCTACAAACTTGAGGAAAGGATA
+AGGGCAGGAAATACATTGAGAAATAATAATGTTTTAAGATGTTTTATTAGTTGTGCTTTC
+ATCGCTTTTTGAACCTCAGATATCAAAGAACTACTTAAGTGATTATATCACAAATCACCA
+ATCAGAAGCAGCAAAATAGGGACGTGGAATATTAGAATAGGAAAGAACCTTAAGCATTAT
+TCAGAATAACTGCTTCATTTTACAGGAGAGCAAACCAAAGTCCATCGAGGCTAAGAATGT
+CCCATGAAGCCACAAAGTATGCTCAAATTTCCCCAGGTAATTAAAATTAAAGTAAGTTGT
+CTGAGTCTTGAGTATATCTTATCAGTATTTCACAAGTAAAAAAATATAAATCTATCTTTA
+TTCATTACAGATTAAGAAACCAAGTGTCAGATCTAGTAAAGGACTTATTTAGAACCACAT
+ATAAGTTAACATCTTGATTTCCAGCCCAGGTCAATTCCCATTACACAATGCTAGTATGTC
+TTAACTGATTAAGAATAAAATGTTAAAGATTTTATTTTTTAATCAAAAATAAACTTGGTT
+ATAATCTCTACTGGTCGTGGTCACAATCAGAGTACTGAAAGGTAAACAATTCCAAAAATG
+TTAGATATTTCTTAGAAGTCACTTTCAGCATCCTATCATAGGATTGGTTTGAATTTCCTC
+AGTATTACCACATAGTAAAATACATTTTTCTCTACAATAGCATCCATTCAGGATTTTCTT
+TGTTTATGAAGATACAAATTAATGTATACATTTTATAATTTTCCTTGTGAAATGATATAG
+CAGTATATTTGTGTCCATTTTATATTTGTAAAGACCAAAATTTTAGATATCTATAATTCC
+CTTTTAATTCTTATGACCAGTTGGTTATTTTATTATATTTATTATATTTATCACCCATCA
+AAGTCATTGAAAGCCCTTATTCTGGGTTGTTTTCATATTTTCTTATATTTTACAGATCAA
+CCTGATTTTTTTAACCAAGAACTTTTATCTTTATAATCTTTATAAGTATTTGAATAGTTT
+TATATACTTCAATATATCTTATTGCATGAGAGTACAGCAGCCTCAACACTTATTAGAATA
+TACTGAAATATATATTAATATTTATAATATTTATATATTATACAATATTTAAAATATTTA
+ATGCAGACTAATATATAATATTTAAATGGAATATTTTAAATACTTAATGTATATTTAAGT
+ATAGTCTGATAAGTGTTGGGGCTACTATAAACATTAAGGTAAATATATTGTACAAATTTA
+TATCATATTAAATATATTTCATATATATCAAAATATTATATATAACATAAATATTATGTT
+ATATATATTTAAGTATATTCTGATAAATGTTGTTGCTACTCTGCCATCATATTTGAGAGT
+CTCATATAATCTAACCTTTGTGTTTTGTCAAATTAATAATAATTGTCTAAGATCTTATGC
+TTATTTTGTCGGGGATTGTGATAAATATATAAAGAAATATGAGAGTTGAAACATTAAAAT
+ATCTTTTTTTCATTAGGTCAAATATTATGTCTCTGCATGTAATTGCCTCCTTTAATATTC
+CTAAAAACTATCATTTCATATATTTAAATACATTTGTGAGCAAAGTTAACTATTCAGTAT
+TTCATTTTTTATTATTAAAAAGAAATTGTTTTTTGGTTGAAATTTATACCCAGTCATGGG
+AGGATTAAGGGAATGCCATGAATGCATACTTCAATATTTTATAATTATATATATCATATA
+TGACATGTGCAGAATTATATGCATATAAATATTTAATTATCACTGCCTTTAGGGAGAAAG
+TCCAGTGATTAATCAAAACCTTACACTTAGGAGACAAAAATAGAAACAAAAACAGATGGA
+TTCGACTTTAACTTTGTTTATTGCTATCGAATTTCCCATTACAGCACCATGCTTATTAGT
+AGAAAATATAAACATTGGAAGTGTATTACATTTCTTCAGCTCAACATCTTCAGTAAAAGG
+AAGATAATGCCACCCAGCATGCAGAATTAATGGCTGGCTTTTCTTCATTTAACTTTCTAT
+ATTGAGATTCATTCATAGTGTTTTATACACACATTTTTATTCATTTTTATTGTGATGTAA
+TATTTTGTTTTATGGATGTACAAGAATGTATTTATCCCTTCTGATGCTGGGGGACTACTT
+GATGATTTTTAGTTTGAAGCTATTTTGATGATGCCGCAGTGAACGTGTTTATATGTTCCA
+ACTCTGCAAATATACACATTTTACTCAAGAGTAGTATTGCTGAATCTTAGGTTAGGCATA
+TGTTCAGCTTTATTATACACATACTGCCAAGCAATGTTCTAAAAAGGTTTAACAGTTTTA
+TTACACAAATAATGTTATTCCACATCCTTATCAATACTACAACCCGCATAAAATTATTTT
+TTTATGGTGTGATAAGAGTCAAAGTTAATTGTGTTTATTTTTTTCATATAGATACCCAAC
+TGACACGGCATCATTTTATGAAAACAGTAGTTTTCCCTTTCTGTAGTGCATGATTTTCAT
+AAATCACGTGTCTAAATGTGTTTGGAACTGATGTTGAACTCTCCGTTATATTCTATTGGT
+CTGTTTGCCTGTTAACATTGTATTAGCATACCTTTGTAGTGACTATTGTTTTTTGTTAGC
+GTAAGTTCTCAAAATTTACTTTTCAAAATTATATTGGCTATTTTATGTATTCATATTTAT
+AATTAAATTATCAAATGCCTCTCATTTTCTGATGCCATTTTAATTGCAATTGAACTAACC
+CTACATACAGCTCAATTAGAAAGAATCAGCAAATTTGTAATATAGATTCCATTAACATTG
+TCAATTAATCTGATTATTTAAATCTTAATTTCTCGAAATTACATTTTATGGTTTTTCCAA
+TACATGCCTGTGGGAAGCAGAATTTAATGACTTTTTTCCTTGTATGATTTCCATCGCTTG
+AATGTGGGAAGAATCTGTATGTATGACAAAATATCACTTCCGTGGTCATGTCATATTGCA
+TGACAAAAGGAATTTTGTAGACACAATTAAGATTCCAAATCAGCTGGTATTAACATAAGG
+AGATCATCAACTGAGACTGACCTAATGACATCAGATCTTTAAATCTGGATCTAGCAGTCA
+GAGAAGGAGAGGGTCAAAGATTCAAAGCATGAGAAAGATTAAACATATCATTGCTGGCTT
+CAAGTTTGAGCAGTGCTGTGTGGCAAGATAAATACATGGCCTAGGAGCTGAAAATAGCCT
+TTGGCCATTTTCCAGCAATGAAATGGGAATCTCAATCCTGCAACCACAATGAACTGAATT
+TTGCCAACAAGAATGAACATCGAAGTGGATGCTTCCCCAGTGCTTCCAGACAAAAATCCC
+ACCTGACTGACATCTTGATTTTGGCCTTCTTAGGACCATCAGTAAAGAAACTAGCTGTAT
+GTACCAGCTTTCCATAGAACTGTAAACAAATACTTTTGTATTGTTTTCAGTTAATAAGTT
+TGTGGTAATTTGTATGCAACCATAGAAAACGAACACAGGGCTTTTGAACATTTTATTGAG
+ATTTATTGCTAGCTATTTTACGTTGTTGATGATATGGTAAATGGTATCATGTTTTTAAAA
+CTTTGTTTTGGGGTGTTCATTCCTGGAATCTAGAAATATAATGAGTTTTATGTAACTCTT
+CTATCTGTGACATTGTTAAAGTTAAATTTGCTTACGTATACTTACATGGATCATCTGTTC
+GTTTTTTAATTTTCTACCTACACAATAATGTCATTCATGAATAAGAACAAATTTGTCTCA
+AATTTGTATACTTTGTTGCATTATTGTCCTAAGCATGAACTAAAAATTGTTAATAGTGGG
+TCCTTGTCTCATGTTTTTATCTCAGGAAGTCAGTTTCAATATTTCAACATTAGTTTGAGG
+TTTACTGTAGGTTTTATGTTGAAATCTTCTATTGGAAGGACATTCTCTTCTATGTGTATT
+TTGGTAAGGATTTTTTCCTCAATTATAACTGAATGCTCAAATGTTCAAGTACCTTTTTCT
+ACATTTATCTGAATGATCACACAAGTATCATTTTACTTTTAATGTGGTGCACTACATTGG
+CTGATTGTTGAAATGGTAAAGAAATCTTTAATTTCTGGGAAAAGAAAACCCACCTTGTTT
+TTGATATTGTATTGTGGATTCCCAAGACCAGGCTGAGGCTCAATGATTCGCTAAGAGGAT
+CCTAGGATTCAGCATATAGTCATATTCAGGATCATGATTTATTAAAGTGAAAGGTTGCAA
+TGCAAAATTAACAAAGGGTAAAGGTAAATGGGAAAAATTCTGGAGGAAAATAAGTGACAG
+GCTCCAAGAGTTTCAGTCCGAATATTTTCTACTAAGCTATCTTCCAGTTCATTAATCTTC
+TTTTCAACTATGTGTAGTCTTCTAGTTAACTTTATTGTATTGCTAGTTTTAGTTATCACA
+TTTCTCAGTTCCATAATTTCAATTTGATTTTCATAGATTGTATTCATTGCTAAAATTGTT
+CATGTTGTCATCTATTTTCTTGAAAATGTAATTACAGTTATTTTTAAATCCATATCCAAA
+AATTCCATAACCTGAATCTCACAATTTTTCTCTTGATTTTTGGTCCTTAGGGTCTTGTCT
+TCTCATGTGACTGGTAATTAGTCATTCAATGCTCAATATTTTGCAGAAACTAGTGTAGTG
+AAAATTTTAAATTCTCTGTGAGATTGAGGGCTATTTCATTTTCGACTTTGCGCTTAATCT
+TAAGATAAAGCACTTAGGTGGGTTGATTCTTAGATGAAAATTCTGGATTGGATATCAAAA
+AGTAGGTTTTTATTTCCATAATTTTTGTCTTCGTATTCCCACTGGACTTTAGAAATCTCG
+ATTTAGTTTCTCAACCTCTTATTTGTCATTCTTTTTTGGCTTCTTGGAATTTTGGTAGCC
+ACTTACAAGCTTGAAAAACGTCTTAATGGAAAAAGCATTGCTGGATGTCAGGAACACCAC
+TCTAGGATTTACAGTTCTTTAGGATCTTGTACCCTTCAGTCCTCAAAGCATTGGTAGCCC
+TCTGATGCCTTTGGACAATTTTTGTATTTTACCCAGGTTTTAGAGTTGTTCTCAAAAGGG
+GAGCTTTTCTAATGTAAGCTAATTCCCATATCCAAAATTACAATTATCCACTATAAACTG
+TCCCATTTCTTTCCAGAAACTCTTCCTACCCTTGAGTAGTGGGTGTTTCCTATAATTCTC
+TCCCTGAGTTTTCTTGGCACAGTCTACATGATTTCCATGAGAGATTGTATTTGTCCCCAG
+AAATTTGATGAACCTCTATGCTTATAACTTTTCAATATCTGATTCAACTCCAAGCTTTTC
+TTGAATGCCAAACCTGTAGATTCTATTGCTTAGTGGAAAGTCTCCACTTGGCATACCAAC
+CATGCCTCAAACATTACATATTTAGTTTTAGTATCATACTTTTGTCCTCTAAAATTACCC
+CTTCATCTAGAGATTTTATTTTTATGAGTGATACTAGAAGCCATCTAGTAACTAAAGCCT
+AAAACGTGCCCTAATTTATGTAGCCTCTTACATATAACTAATAACTGGTCACATATGTTC
+ATCCTGTTGATAATATGCATACATGTCACCACTTCCTACTCCTGCTGATACCACCCTTAT
+TTACACCCTTTTTATCTCATATCAGAATTATTTTGGTGATTTCTAAATGGTATGGTATCG
+TCACTTTTAGCCAGAAATGTGCAACAGAAATTACTTACAAAGCTTTTCTAAAAATGCAAG
+TGTCAGGTTTGACTTCAGACCAACTAAATCAGAATCTCCAAGAAAATAGTTGAGGTACAT
+ACAGTCTGAATTGCATCTGGTAATTTTACCAATATATTCTGTATATTGCTGCCAGGGTAA
+TCTTTCTCAAGATTAAATGTGATCATGCCTTTGACCTACTGAAATTTCTTCAGATATCTC
+TATTACCCATGAAGAAAACAATCAGATGCTTTTGCATGTCCCCTGTGTTCTTCACAATGT
+TCTATTTTACTTCAGTTTTGTTTTTTTTGTTTTGGGATTTTGTTTGTTCGTTTCTTTAGC
+GCAATCAGAGCCTATACCCTAACTAGGACAACGATCATGTTTCTTTGCCTAGTCTTAGTG
+TCTCATAAACTCTATTCTCTGGCCATAACTGTTACTCATGTTTACGAGATTTAATTCAAC
+TACAAAATCTTTTCTGAAGTTAGTCAATTTTTTCTCTAAAGGTCAACGTAGTAAATATTT
+TAGTAATGATTTTTGCAAACTTGGTCACTGTCACAGTTACTCAACTCTGACATTGTTGCA
+TGGACAGATACATAGATAATACATGTTTGAATGGCTATGGCACTGTTCAAATAAAACTTT
+ATTATAAAAACAGACAGCAGGAAACATTTTGCTCAAGGGTCATAGTTTGATGATGCCTGC
+TGTAGATAGATTTTTCCTCACTATACTTTGCACCTATCCAGTACTGCACTAGCATCTTTC
+AAGGCATAATTTGTACTTTATTTTTATTTTATTTATATGTTGACCATTTATTAGACTGTG
+GACTTTTGGATAGCAAGAAAATTTTCTTTTTTATCTATGGATATGCCTAATACACAACAT
+GATAGTGGATGAATAAATAGTGCAACTTTCATTCAAAAGAAAAAGCCCAATACTTGCATT
+TTGAGCAGAAATTCTAGAGGTTAATAAAAACATAATTATCTTAAAGTTTTATGGAATGCA
+ATTATATAAACAGAACTTATTTTAAAGTAGTATTCATAAAGTAATAAGGTAGAGATGAAG
+AAAAGCACATATGAATACCAAGAGACTTTGCAAACATAGAAATAAAAAACAAATATGTGT
+TCACAGAATCAGCATTATTTCTTTATTCCAAAAATTAAGACTCTCTATTATACAGCCCAT
+GAAGATATTAAGCAGAGGCCAATGAACTTTTAGCCATGAGATCAAGGACTGTTTTCTTTA
+CATACTGTTTAATTATAGTACATAGTGGAATGCCTGGAAAAACACAAGTTTGATGTACTT
+AGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAAAGAGAAAGAAAG
+AGAAAAAGAAAGAAAGAAAAAATATTTTCTTTTCTTTATCTAATCTACCATTGATGGACA
+CATGGGTTGATTTCATGTCTTTGCCTTTGTGAGTTACACAGCAATGAATGTATAAGTGCA
+TGTTCCTTTTGGTAAAATGATATTTTTGTTGTTGTTGTTGTGGGGGGTTTATATCCAGTA
+ATGGGATTGCTGGCTGGAATGGTAGTTCTGTTTTTAAGTCCTTTGTGAAATCGCCAAACT
+GCTTTCCACACTGGCTTGACTAATTTACATTCCCACCAACAGCACATGATCATTCATTCC
+CTTTTCTTTGCAGCCTCGCCAGCCTCTGTTGTTTTTTGACTTTTTGATAATAGTCATTCT
+GACTGGTGTGAGATGCTATCTCATTGTGGTTTTGATTTGCATTTCTCTGATGATTAGTAA
+TGCTGAGCATTTTTTCATATGCTTGTTGGCCACTTGTACGTCTTCTTTTAAGAAGTGTCA
+CTTCATGTCGTTTGCCCATTTTTAATGGAATTATTTGTGTTTTGCTTGTTGATTTATGTT
+ACACCATGGAATGCTATGCAGCCATAAAAAAGACTAAAATCATGTCCTTTGCAGCAAGAT
+GGATGGATCTGGAGACCATAATCCTCAACAAATTAATGCAGGAATAGAAAACCAAATACC
+GCATGTTCTCACTTATAAGTGGGAGCTAAGCATTGAGCACACATAGACATAAATATGAAA
+ACAATAGACTGTGCACTACTAGAGGGTGAAAGGAGGGGTTGGGTTAAAAATCTACCTATC
+AAGTATTATGCTTACTACCAGAGTGACAGGCTCCATTCTCCAAAGCTCAGCGGAATGCAA
+TATTCCCATGCAACAAATCTGCATATATACCCCTTGTATCTAAAATAAAAGTTGAAATTT
+AAACTCATATATATGCATATATATATATACAGTTATGTATATGTATATATATAGTTTAAT
+ATATATACACACACACATATATACAGACACACATATATATAGTTCAATATATATACATAC
+ACACACACATATATATGTGTGTGTATATATATATATTTATCTTTTCTGGCTAGACTACAT
+CAGTTTTGTAGATATTCAGCCTTTTACAAAAATGTGTAAACTTCTATCTTAAAGCACTGG
+AGAACTTTATTTTACAAGCTCCATGTCCCCTTCAAAGAAGATTTGGAGACATTCTTTTAG
+TTTCTCATTTTCCCAGTATGCTTCAATAGTTCCTCATGAAGTTAACAACAGGATCCCCCA
+ATTCATTAAGAGAACACACCAGCTTCACTTTAGAAAATTCCTATTCTACATTACCAGCTC
+ACCAATTCAGATCCTACCCTTTGGATATATTTCTTGCTCTTTATGATAACCACTTGTTTT
+ATGAGACTTTGATTGTTATCTTTTAGAGGAATTTTAGATATTTCCCCTTTCTCCCTCTCC
+CCCCACCCCCAGGACTACAGCTCTATTAAGATTCATGTTTGTTTATCCCACACATATATA
+TTGGATGTATTTTGCCTAGTTACAGTTACAAGTACAGGCAAATTGGGAGCAAAATGAACA
+TAGTCTCTACTCTCATGGAGCCCATTTACTAGAGAGGAGAAGTTGGATGCATTAATTTAT
+TTATTCAAATCTCTATTCACACGGGAACACTTGGACTGAGCAAATGCTGTGGTGGGGCAG
+AGGCTGCACGTGTTCCCTGGCTAAACGATGCTTACATCCCTGTTTGGCAGTCAGATATCA
+CGAGGAAAAATTGTAACCCAATTTAGCAGAAGCAATATACAGATATTTTGAGTGATGTGG
+GTTCATAATGAAAGGGCATTTAAGTAGAAATGACGATAATGTTAAGGATTGTCAAAGTAC
+AATGTGGCTTGAGACTTAAAGAATGATTGATTAGGTGCCATCAGGGTGAGTGAGAGAAAA
+GTCTTGGTAGGAAACATTTTCTTCTAAACTAACACATGGGGCTGAAGAAACAGTACTAGC
+AGAAGGTGAAGCTAGAGATGTGTATTAAACTAAACAACCAGGACGTTAACTGAGTGCTTT
+GTAAAAAATGTTCCTCATACTAGGTAAATTGTTAAGAAACAAATGCTCCTGTGTCACAGA
+AATACCTAATAGTGGCTGGGCATGGTGGCTCTAAGGGAGGAGACCACCCCTCATATTGTC
+TTATGTCCAATTTCTGCCTCCAAAGTAAGAAGAAGTAAAAACTAAAAGGCAGAAATGGAA
+TCCACAAGCAGACAGCCTGGTGCCACACCCTGGGCCTGGTAGTTAAAGATCAACCCCTGA
+CCTAACTGGTTATTTGCATAAAAAAGCACTGTGAAGATCCCTGTCCTATTCTGCTCTGTT
+CTAATTACAGGCGTATGCAACCCCCAGTCACTTACCCACTGCTTGCTCAATCGAACACGA
+CCCTCTCATGTGGACCCCCTTAGAGTTGTGAGCCCTTAAAATGGACAGGATTGCTCACTC
+CAGGAGCTCGGCTCTTGAGACAGGAGTCTTGCCGATGCTCCCAGCCAAATAAACCCCTTC
+CTTCTTTAACTTGGTGTTTGAGGGGTTTCGTCTGTGGCTCTTCCCGCTACAGCTCATGCC
+CATAATCCCAGCACTTTGGGAGGCCGAGGTGGGAGGATCACCTGAGGTCAGGAGTTGGAG
+ACCAGCCTGGCCAACATAGCGAAACCCTGTCTCTACTAAAAATACGAAAATTAGCCAGGT
+GTGGTGACATGTGCCTGTAATCCCAGCTACTCGAGAGGCTGAGGCATGAGAAATGCTTGA
+AACCGGGAGGTGGAGTTTACAGTGAGCTGAGATTGTGCCACTACAATCCAGCCTGGGTGA
+TAGAGTGAGACCCTGTCTCAAAAAAGAAAAGAAAAAATTAAAGAAATACCTAATAGCTTC
+TAAAAACTTGTGATTATCCTTTAAGTATGAAAAAGTTATTGCTGAAAACAACTTCCTAGC
+CAGGGACTAAATTTCTCATCCTCCCTTGCATGCAAGTAGTTCTATGTGACTAGTCCTCAC
+TCACAATTATTAGTTGAAGTGATGTGGATGACTTCTAGGCTAAGAGAGTTAGGACGTGAG
+TGTGCATTCCTCACCTCTTAATCCCCACCTGCAGATGCGGAGTACTTGTGAGCCCTGGAG
+ATGAGAAATTATAGGATGGGAGGCGCTTATATTCCTGAGTGACCACATAGAGGAGAGCTG
+CATTGACAACCATGGTTGTTGCTGTTGCTAGGTGGTATCTTAACAATTATGTTATTTGGT
+AATCTACATAATACTGTATACAAGCTAACAAAAGATGTATAGTTAGCTGCCTAATAAATA
+AATAGAAATATGTCAATTTGGCTCTGCATTCATATCATTGCATTTTCCTTATCAGGAATT
+TATTTTTTATATAAAACTATGCTCTAAAACTAGAGTTCTTAATTATAGTAAAAACATTTT
+TATCTTTTCCCTCCACTTTTTCTATGTACTGCAATGACCAGTACTGCTTCCCTAAATGAA
+GTAATCCGTCTCTTGGGGATCTGTGACTTTTACTAACTATCTCTTACTCAAAAAAATGTA
+ACATTCTTACACAAGTGACTTGGATTATGGCATAAATTGAAAATATTGCTTTTTTTTTCT
+TTCAAGAAAATAATTTGTCTTTCTTAATGATTGTCAGAATTTTGTAGATCCATGTGAATG
+TGAGCACCATACGTGTTAGGTCAAGAGGGGTTGCTTTGTACATCTCCAAATCATCATTCC
+TTATGGCCTAATGAAGGAAATCTTGGAAATGGGGATGAAAAAGCAATGTTCAGACAAGGA
+AGCCCAAGTAGCTAATAAATATGAAGAGCCTCAATCTCACCTGTTGTCAGTTTTTGAACA
+AACTAAAGCAGAAATGCAATGAATGCTACAAATAACAAATAGGCATAAGTGTTGAAAGCC
+TCATCATACCAAAGGTTGACACTTGTGTAAGAATATGGAAATTCTTTGATAATTCTGATG
+GAAGTATACATTAGTTCAACCACTTTGGAAAGGAATTTTCTCTCTCTTTTTTTTTTTTTT
+TTTTTTTTGTTTTGAGATGGAGTCTCGCTTCGTCGCCAAGGCTGGAGTGTAGCGGCGCAA
+TCTCAGCTCACTGCAACCTCTGCCTCCCAGGTTCAAGCCATTCTCCTGCCTCAGCCTCCT
+GAGTAGCTGGGACTACTGGCACCCGCCACCACGCCTAGCTGATTTTTGTATTTTGTTTTT
+TAGTAGAGACGGAGTTTCACCGTGTTAGCCAGGATGGTCTTGATCTCCTAACCTTGTGAT
+CCACCCGCCTTGGCCTCCCAAAGTGCTGGGATTACAGATGTGAGCCACCGCACCCAGCCT
+GGAGAGCAATTTTCTAATATCAGGTCAAAATAATAAAGATGTGAACATCCTAAGTTGCAG
+AAGTTCCACTTCTAAATATCTACACTATAGAAACACACACATAAATGGAGAGAAGCAGGT
+AAAATAATGTGCACCAGGATGCTGTTGGAAAGGAAGAAAAGAAGGAGGGAAGGAAGGAAG
+GAAAGAAGGAAGGAAGGAAGGGAGGGAGGGAGGGAGGGAGGGAAAAAGATAACATAAAAT
+TTAATCAATAAGGAATTGGGTAATTTAATTATAATGTATTTACAAAGGGACTGCTAAGCA
+GCAATATATAGTAAATTAACATATATATTCTCTTCTGTAAAGTAACATATATATTCTCTT
+ACGTAAAACAGCAAAAATACTATATATTTATTATGAATACCTACATATGTAGTAAAGGTA
+TGAAAACACAAATGGAATAAATAATAAGCAAATTTAGCTTGTGGATTATATATCTAGGAA
+GGAATAAAGGTGAATATAATTGTGCAGTTGGCTTCTCTTTCATCTGTATAATGGTTAATC
+TTAAGTGTCAACTTGGTTGAGTTCAAGGGCTACACCATCATTATAAAGGAACACCCATTA
+CTTCTCAGTACATTTGTGAGGGTGTTTCAAGAAATTCACATTTGAATCAGTAGACAGAGT
+CAAGAAGATCCCCCCTTGCCAGTTTGGGCAGGCATCATCCAATCTGTCAAGGGCCCAGAT
+AAAATGAAAAGGTGGAATAAGGGCAGCTCTCTCTCTCATCTGCGGCCAGGACATCCATCT
+TTTCCTGCTGTCAAACACTGGAGCTCCTGGTTCCCTGGCCTTCTAATCTGGGGACTTACA
+GCATCCTGAAGCCACATCCAAGTTCTCAGGCTTTCTTCCTTGGACTGAGGTTTGCACCAT
+TGGATTTCCTAGTTCTCAGGGAGGCAGATTCAAACTGAATTACTCCAGTGGCTTCCCCAG
+TACTTCGGCTGTTGACGGCCTAATGAGACTTCTTGACCTTCATGATCATCTGAGCCAATT
+CCCATAACAAATCCTCTCATATATCTGTATCAATATCAATCTGGTTGTGTATCCATATCC
+TATTGGCTCTGTATTTTTAAAGAACCATGATTAATACAATCCATTTTTAAAAATTTCTTC
+TTTTTTTTCTTTTTTTTAATTTTGAGACAGAGTTTTGCTCTTGTTGCCCAGGCTGGAGTG
+CAATGGCTCGATCTCGGCTCACCGCAACCTCTGCCTCCTGGATTCAAGCGATACTCCTGC
+CTCAGCCTCTTGAGTAGCTGGGATTACAGGCGTGTGCCACCACGCCCAGCTAATTTTGTA
+TTTTTAGTAGAGACAGGGCTTCTGTGTGTTGGTCAGGCTGATCTCGAACTCCCGACCTCA
+GGTGATCCACCAACCTCAGTTTCCCAAAGTGCTAGGATTACTGGCGTGAGCCACTGTGCC
+CAGCAAAAAAAAACTCCTTTAAAAAATAGTACATATTTCTGAGGTGCATTGGTAAAACAT
+TAACATGTTTAAAATCTCAATGTGAAGTATATGGAGACATTATACAATTTTCTGTTTCTT
+TGTGTTTGCCTGTGTCACTTAGTAATACAGCTCTATATTTTAAAGATTCATGGCAGGGCG
+CATTCTGTAAGACAGGTCTTCATTTTTAATCTCAATCACTGTTTAAACTTCTTTGAGGCT
+TCCTTCCAGCTGATACCCAAATCAACAATGGTACCCATTCAGAAACCACTTGAATAATAA
+GGACCCATAAGCTCCACAAGATCTTCAAGGTCAAGAATTGTGTCCTCATTATCTCTATGT
+ATGTAGTACCTAACTTAATGTAGCAGCTCAGTGAACAATTTGTCCAAGTGAACTCAGCTG
+TGGCTGGCAAACTCATCCCAGGTATAGACAGTGATGAAGAGCTGGTTAGGTCTATCTTAT
+TTCCATTTTTTTTTTTAACAGTTTCACAACATCCAGTGTTATTATCTACCTCTGGTAAGT
+GGCAACCATGGAATTGTGAGCAACTAAAAGGCACGTATGTTCAAATTATCTATCCACTTC
+CTGACATGATAAACTACATAGACATATGCCTTACTAATGACAAAATATACATCACCCGGT
+GGTTCTTTTGCTTAATGACAAACTCCTTACTGAGAGTTCATTAAGTCTTCTATCTGGGAC
+TAGCTAGAAGACAGCTCTCACACTGGGATGGGGCCTGGCTGACTTTGCTTTGCTTTGCCC
+TCTGGTTGGGTTCCGTGCTTGTCTTGGCAGGTCATTGCCTATTCATGTAGAAATTTCTGT
+AAAGATGAACTGGCTGCAGAGATGCTGCAGGCTTTTAGGGCTTCAAATTACAAGGCTTTC
+TGCTTAAAATGCTGTTACTTCTATTCTTCTGCCCCCTCTCTAACTCCTGTCCCACACAAC
+CCACCTCACAAGTTATACAGACTACTTAGAATCCCCTGACACGCTGTATTGTTTCTTGAC
+TCTGTGCCTTGGCACAGGCTGTTTCCTATGCCAGGAATGTCATTCTCTGTTCCTTGTCTA
+TCTGGCAAGCATCTACGTCCACCTGGCAAGGCCCTACTCAGACATCACTCCTTGTCTCAT
+AACATCCCTGAATTTTGCAATCCAGATTTATAAGGACCTAAAACAAGAAAGGACAAAATC
+CAGTCACCAAGTTCTGAAATTTAATATTTTCCACAATATGCCCAACATGTTCACTATCAT
+CCATTTGTTCACTTAAAATGTATTGAGGCCGGGAACAGTATCTCACACCTGTAATCCCAG
+CACTTTGGGAGGCCAAGGCAGGCGGATGACTTGAGGTCAGGAGTTCACGACTAGCCTAGC
+CAATATGGCAAAACTCTGTCTCTACTGAAAATACAAAAATTAGCCAGGCATGGTGGCACA
+GGCCTATAGTCCCAGCTACTCGGGAGGCTGAGGTGGAAGAATCGCTTGTACCTAGGAAGC
+AGAGGGTGCAGTGAGCCAAGATTGCACCACTGCACTCCAGCCTGGATGACAGAGTGAGAT
+TCTGTCTCAATAAATAAATAAATTGTATTGAATGTTTACTAAATTTAAGAAATATACAAG
+GTGCTATGGTTTGGATATTTGCCTCCCCAAACCTCATGTTGAAAATTGATCCCAATGTTG
+GAGGTGGAGCCTAACGGGAGGTGATTGGGTCACGGAGGTGGATCCGTCATGAAAAGATCA
+ATGCCCTACCTTGGGAGGGGGATGATTGCATTCTCCTCTTCAAGAGCTGGTTATTAAAAA
+GAGCCTGACTTCTCCCTGCCCTCTCTTGCTGCCTCTCTCTATATATGATTTCTGCACAGG
+CCAGCCCCCCTTCACTTTTTGTTGTGAAAGGAAGAAGCCTGAGACCCTCCCTAGAAACTG
+GGCAGCTGCTGGTGCCATGCTTCTGTACAGCCTGCACAATTGTGATCCAAATACACTTCT
+TTTCTTTATAAACTACCCAGCCTCAGATATTCCTTTATTCAAACAAACTGGACTGACAGA
+AAATTGGTACAGTGAAGTAGAATGCTGCTAAAATGATAACTAAGTATGTGGAAGCAGCTT
+TGGAACTAAGTAATGGCAACAGGTTGGAAGAGTTTGGAGGGCTCAGAAAAAGATAAAAGG
+ATGAAAGAAAGTTTGGGCCTTCTTCAAGATTGGTTAAGTGATTGTGAACAAAATGTTTAT
+AGAAATATAGACAATAAAGGCCCTGCTGTCAGGTCTCAGCTGGAAATGAGGAAATTATTG
+GGAACCTGAGCAAAGGTCACCCTTGTTACACCTTAGAAAAGAATTGGCTGCATTGTGTCC
+ATGCCCTAGGGCTTTGAGAAAGGTCAAAATTAAGAGTGATAATCTAGAGGTAAAAATTTC
+CAAGCAGAAAGCATTCAAGAAGTGGCATGGCTACTTGTAATTGCTTACTCTGAATCATCT
+GAATTAATGGAGCAAAGGAATGGCCTAAAGATGGAATTGATAACTAAAAGGGAAGCAGTG
+CATTCAAATTTCAAAAATTTGCAACCTGATCATGAGATAGAATAGGAAAGAGCATTTTTA
+GAAGAATAATTCAAAGGTAAAGCTGAGAGACCCTTTGTTAAAGACATTAGCACAGGTAAA
+AGGGAGCCAGGTACTAATAAACAGGACGGTGAGGAAATGGCCCCAAAGGCATTTTAGAAA
+TCTTTGAAGCAGTCCCTCCTATTATAGCCCCAGAGGCCTAGGACAACAGAATGACAGAAT
+GGTTTCAGGGGAGGGGGTGGGGGGACTGCTGCCCTGCAAGGTCTCAACTCTATCTATGAC
+TGAAACAGCCCCAGATACTGCTCAGACCTTGACCATAGAGAGTGCAAACCATAAGCTTTG
+GTAATGTCCACATAGTATTAAGCCTGCAAGCACAAAGAATGCAAGAATGGTGAAGCTTGG
+TAGCTTCCAACTGGATTTCAGATGATATATTGGAAAGCCTGGGAGCACAGACAGAAAACT
+GCCACAGAGGCAGAGCCACCACAGAGAGTCCCCACTGGGACAATACCTAATGGAGAGGTG
+AGAGCAAGACTGCCACGAAGACTCTAGAATTATAGAGCCACTGGCAGCATGCAACCTTCT
+CCTGGAAAGGCTACAGGCATTCAACTGCAACCCACAAGGGCAGCCACATGGGCTGTACCT
+AGCAAAACCATGAGTACAGAGCTGTCCAAAGCCTCAGGAGCTCACCCTCACAGCAGTGTG
+CCCAGGACATAGGACATGGAGGCAAGGAGATTATTTTGGAGCTTTAAGATTTAATGTCTA
+TGCTGCTGGGTTTTAGACTCATGTGGGGCCTATTACCCCTTTCTTTTGACCTATGTTTCT
+TTTGACCTATGTTTCTTTTGAATGTTTACGCAATGCCGGTATCACCATTGTATCCTGGAA
+GTAAATAACTTATTATTATTATTATTATTTTACAGTCTTGCAGCTGAAAGGAATTTACCT
+TGAGTCTCAGATGATACTTTGAACTTTGAATTTTTAAGTTTCTGCAGAAACAAGCTAAGA
+CTGTTGGGACTATCGGGAAGGAATGTTTTGTAATGCGAGAAGGACATGCTTTTGGGGGGC
+CAAATGTAGAATGATATGGCTTGGATGTTTGTCCACCAAAACCTCATATTAAAATTTGAT
+CCCCCTGTTGTAGGTGCCCTCCCTCCAGGAGAGGGTGAGTCAGTTATCCATTAGTTTTCA
+TGAGAATTGATTTTTAAAAAGACCTGGCATCTCCCCATTCTCTCTCTTGCTTTCTCTCCC
+ATCACGTGATCTTTCCACACACTGGCTCAACTTCGCCTTCTGCCATGAATGCAAGGAACT
+TGAGGCCCTCACTAGAAGCTGGACAGATGCTGGGACCATGCATCTTGTACAGCCTGCACA
+ACCATGAGCCAAATAAACATCTTCCCTTTATAAATTTCCTAGCCTCAGGTATTCCTTGAC
+AGCAACAGAAAATGAATTAATACACAAGGTATTAAAGATAGAAAGACATCTAAGACACAA
+AGTTTGCTCATAAAGAGTTTATTGGATAGTGGGAAAGACCAAAATGCAACCCACAAAACC
+AAACATGTATAGTATAATATGCTAATACATATATGTTCACATAAAAATGTAGAAGTCATT
+AGCTAGGTGGCTAATAACATCAGGGAATGCCAGATAAAGTGGGTAAAATGCATATTAAGA
+GAAAGATTGAGATGAAGTTTACCATCCACAACACACATACAGGCAGGCCCACCCATAAGA
+GTGCTCACAACTTAGCTTTTACACATGATTCCATATACATGGCTCTATTCTAAGTAAAAT
+ATAGAAATTAGAAGCATCATGGACAATGACTACTTGGTTTATTTCATTTTGTACATGTGA
+CACTAAGTGCACAAGAAGTCCAGAGGTGACCAGATCAATGTGGCAAGGACATGCAAACGA
+TCAAAATCTAACATTAGTATATGCACATAAATCTAGAGTATAAGTTCTCTGAGAGAAGGA
+ATTGTTTTATATTTTGTCCAAATAGAAGAAATGTTAAATTTTCAATAGCATGAATTTCTA
+ACATCTAAAATGGCGCCTAATATAAAAAGTGGTACTCGGTAAATATTTATGGAAAATATG
+TATACATGAATAAATATACCCGGTAGAAAATAAAAGAAACAGAAGTAAATATCGCCATCC
+AAATAATTTAAGGTCAATAGTTTCAGTTTCTCTTTTGCAAAATCTTTAACTTGCTTAACT
+TTCTTTCTTTTAGTTGTGTTCAAGAGTCGGAATGCCAAACCTGAAGGAATCCTAGCACCT
+ACCTTATCTGTAAGTTTGCCTTAACAGAGTCACAACTCTGAGGGAGAAATACTCAACCAG
+ATCAGCTTGCATTCATGGCAGAAGGCAAAGTTGAGCCAGTGTGTGCAAAGATCACATGAT
+GGGAGAGAAAGCAAGAGAGAGAAGGGGGAGATGCCAGGTCTTTTTAAAAATCAGCTCTCG
+TGAAAACTAATGGAGAACTGACTCACCCTCTCCTGGAGGGAGGGCATGAATCTAATCATG
+AGGGATCCATCCTCATGACCCAATCATGGATCACGTAGGTGGGATCCATGTTTCGGTCTT
+GAGGATGGATCCCTCATGATTAGAGAGCTGTCAAGGGGTTGGATTTGGAATGTATTTTGA
+AGATATAGCCTCATGGCTGTAATCCCAGCATTTCAGGAGGCAGAGGTGGGCAGATTATTT
+GAGGTCAGGAATTTGAGACCAGCCTGGTCAATGTGGCAAAACACCGTCTCTACTAAAAAT
+ACAAAAATTAGCTGGGCTTGGTGATGGGCACCTGTGATCCCAGCTACTCCGCAGGCTGAG
+GCAGGAGAATTGCTTGAAGCCGTGAGACGGAGGTTACAGTGAGCTGAGATCATGCCACTG
+CACTCCAGCCTGGGCAACAGAGTGGGACTCGGTCTCAAAAAAAAGAAAGTATAGCATATA
+GGGTTTCTTGATGGATTTTGATGTGAACACTGAGGGAAAGAGAACAATAAAGAATGACTT
+TTATGAGACAGGAAGAGTTGGGGATACAAAATAAATTCTCTTTTAGACATAATAAGTTTG
+AAATTAACATTAAGTTGAAAGGTCATATAGGCAATTGGATAAATGTGCCTTAAGTTCACG
+TCAAAGTCAGAGCTGAAGATTTAAGCTTTGACTTATTAATGCTATAAATAATGTAAATAA
+TGTACATTGACTATAACAGGCAATGATCAATTTATTAATATGTCTCCTGACCTGCAGAAA
+GCAGTCAGACTTTTTTTCCAAGACCAAGTATACTAATACAACTGAAAGAGATTTTTGTGA
+GAGCTAATTTATTTGATTCCACCTTAACATTCCAATCATGCCTTGCAGTATATTGAAGGC
+TGCAAGATGATCAAATTTAAATAGTGCAATACAGGATTTCATATTTCCTTCACACTTTTG
+AACAACATTTTATTGAATAACAAATTAATGATATTCTACTCCAATATTGAAAATTTATTG
+ATGCTTATCTGCCCAAAACATCTTCCCTCGCGGGAGGACTCGAGTGACCTATAGACTTGC
+TTATACAGAGATAGGGAAAAAAAGAATCCTTCAACAGCCATTTTCTCACTGCTCTAGGAG
+ATCCTCTGCTCTTCCCTTTCTTTTAGCCAAAGCTAAAGAAATGGAGTGAAAAAAGATTGA
+ATTTATTCAGTGTCATCTCAAGCTGGCTGAGAGAGTATCTCTCCGTGGCATGGCTGCAAA
+ATGACACAGGAAAGCTGCTCAGTCTCATTAACTTTACAAGCCAATCTGCTATTAGCATCT
+GGTGGTAAATTTGCCAATAATGAAAAAGGCTGGGATATACCTCCTGGAATCATAGTTTTA
+CACATTTTGAATATTCAGTATGATCTTTCCTGCATTTCTGATCATCTGCCAAATTCTAAT
+TTTTTAGGAATAGCAAGGAATGTTGTTGGGAGGAAGATTGACAGGAGATACAAGCCTGGA
+TTTTGTTTTTTGTTATTTTATTTTATTTTATTTATTTACAGCATTGTTCTAGTGCACTAG
+AGTATTCACCTCAATTTCCTTACTTATAACAAGAAATACCCAGTGACTGATCAGCCTCAC
+TAAGTCAAACTGTGTACTGGAAATTTCAGGTTTTCTACACATCAAAACCAGCCATGTGCT
+TAGGCCCATTGAAAGATACATTATCCTAACTCTAGACTAACTTCTCTCCATTTTGAAAGC
+CAATTTCTTTTCTTTTCTTTCTTTTTTTTTTTTTTTGAAATGGAGTCTCGCTCTGTCACC
+CAGGCTGGAGTGCAATGGTGCAATCTCGGCTCACTACAACCTCCGCCTCCCGGGTTCAAG
+CAATTATCCTGCCTCAGCCTCCCGAGTAGCTGGGATTACAGGCACCCACCATCATGTCCG
+ACTAATTTTTGTATTTTTGTAGAGACGGGGTTTCACCTTGCTGGCCAGGCTGGTCTCGAA
+CCAGGAGTTCAAGACCAGCCTGGCCAGCAAGGTGAAACCTCATCTCTAATAAAAATACAA
+AAATTAGCCGAGTGTGTTGGCAAGTGCCTGTAATCCCAGCTATTCAGGATGCTGAGGTAT
+GAGAATCTCTTGCACCTGGGAGGTAGAGGTTGCAGTGAAAGGAGATCGCGCCACTGCACT
+CCAGCCTAGGCGACAGAGAGAGACTCCATCTCAAAAAACACAAAAATAAATAAAAGTAGT
+TTTCAATTTTGCAATTTGACCAATATTTAAATGCAAATATTTTATATTTGCATTTAAAAT
+ATAATTGTCTAGTTTTTACCAATATTACCATGAGCCAAGACCAACTAAATTACCACAGAG
+GAGACTGAGATGAATTCAGGCACAAGATTTAAGTTCCATATAGACGTGAGGAACTAATGT
+AAAAGAGTACTAATGTGTCAGTAGGAATTTTTAGCAACATATGTCAAGCTGCCTTATCCA
+AGTTATTCTTGGCAAGTCCCATAATTTCTAAATTAAATACAATGCTGAGGTCAACATGTG
+TAAATCAGAAATGATGTTTTTACATAGAAAAATGATTCCATACTCACAGTGCTTTTGTTA
+GAATTTGACTTTGTATTTTCATGCCTCCAATACACTCTAGGAGCTCTGTTTTCTACTTGT
+CCCAAGATCAAGGCATATCATGAAAATAAAAGCTAGAGACAATCAAGAAACCACATCTAT
+TGATATCATTCATCCGGGTTTGTTTTGAGTTGACACTGAATAATAAATCTTATTCTCAAA
+ACCACAACCAAATACACCTACTGAGAAGAATAAATATGTTAATACTTCCTAATACTTAAA
+AATACTTTCAAAATATATCACATCACCTATTCCTTTCAATATACCTTTGGGGACATTATT
+GACAACTTTAAAGATGAGATTAAATGAGATTAAACACATTGTAAATGGCAAGGAAGAAAA
+GACTCAAATCCAGATCTTATCATACTGCTGTTTCCACCATGAAGCATCTATCACTGCAAG
+ACAGACTTTTTTATAAACTGTGATGATGTTACTCACCATCCTTGAAATCAATGCTTTGAG
+TGGTTTAGTTAATGTGGATGTATAGACAATCTTCTACTGTCTTGTTCAGATGTCTTACCC
+TGCCCCCTTGCAACCAACAATACAAGTAAGAAAAAAGAGGCTAATGCTATTGGCACAAAG
+TATAGCCATGTAATTTAAAAATCCAACTGATATTTTAAGACTGAAAAATTTATAAAAATT
+TGTAATGAAAGAATCTTAATCCACACACCTAAGATGTTGTTTGCCAAAATTTGAAATATA
+ATGCTGATATTTTTATAATTTATTCCCCTAGGGTGAAATTCTGAATATAAGAAGAATGCC
+CACCCAGGAAATGTATATATCAGATGGAAACTGAAGATGAAATAGAACACAGATAACTGA
+AAATACAGAACTCTTTCACTACAAAGTGCTATATCTTATGAGTCCATTCAAATACTAAAG
+ATTTGCTATTAGTTGAATCAGCTAAAGGACTTTTCCAAAACTATGAACCATATAAAAATA
+TGTGCAGAACCAACTTTTCAATACTTTACACTTTGTCATTCTGCTCATTCAACTTTAGCA
+GAACCTAAAAATGCTTTAAACATTCACCATTGTTACTCCATTATCCTGTTGATTTTGCCA
+GTGATTTAGCACATAAAAACATTAGGACATATGCCATGAGTATTTCATCCCATAGCCATC
+AAGTAAAAATATAGTTTCTAGAGACTAAAATTTATGGATGACAAGTAGGTTCTACCTATG
+AACTAGGTACATGGAATAAAGTAAAATTAACCATCAAGAACAAATGTTGTCATCAGTTGC
+TATATTTAGTAAATCTATTTGAAGTGCTGAATGTCTGAAATGTGGAGCATCTTATCATGA
+AAGATAACAGTGCTAGAAAAATACAGAAAAACGGACAATATATTTTTCTATATAGACAAT
+AACTGACATTAGACTCCAGCCAGGAATAAGAAAGTAAACATAATTTGACTGCACATGATA
+AACAAAAATGCAAAAGCATTTAGAGGCAAATCCTTAAAACCTCTAAACTTATTACTGGTA
+AAATAATCAAGCTTATTAGGATATCTTGAAATCACACATTTTTCTACATCCTACTCCTCT
+TTATATTTGTAGCACATAACCCAGTACCTGAAATATAGTGCTTAAAAATGCCATCTCAAT
+TTTACGGAGTTTCATAATATGTTAATAATATCAATTGTCATAACTAAAGCTCTAAGCTCT
+TGAAAGGAGCATTATAGCCCAGACATAAAATGTTTCAGATGAACACGTTGCCATCCTTGT
+GAAATTCTCCCGAGAAGGGGAAACTATCCATATGCTTTGTGATCAATTGGCTGCAAATAT
+TGCTGTGTGCTTTGTCATAACAGGCTGTTCTGCTGTAAAGACATAAATACTGGCTCATGT
+CCAGTTTGTACAAAAGATTAACTTTATCAAAGTCTCTGAAGATAAAGGCTCAGGCCGATT
+CATGTGACTGTGGTCACAATAGCATAACCAATGCGAAAAAGCTTACAAAAGAACAAGGAC
+TGCCTTATTCACAGTGAAAGACACGGGTGCATAGTTACCGTAAGCTTCAGCAACGACAGC
+AAAAAATTGGCGGAGTTACTTGATGTGGTCACCAAAATCAATTCCATTTTTCGTGGAACT
+GGTACGGCGAATGCTGATTAGATAAGGAAACAAAGGCTGCCAGGTCTTAGAGGAAAACAT
+TTTTCCATCGGTTGATGATGAAGCACAGCTAGAGTGCAAAATATTTTTCTCTCCAAATAG
+ATGATATGGAGTGAAGCACAGTCTCTTGAGTCTTGCTGTGATTCAGAAATGAATTTGGAA
+TTTGCCTTTCCCCCAAAGATTTTCCTAAAGGGGGATTTTGGCCACTGGGTATCAAGACCA
+CTGGGGAGGTGATGAAACCAGGTTTGGGAGAAGTTGTGAAGGTAGTGGAATTCACTGTAG
+CCTTCTGTTTAGAAAAGGGTATTCTGGCTAACTTCCAGACTCACGCTCTTGGTCTGCAGG
+AAAGGCCACTCAGCCACCAAAAGGAGAATTGTATACAGCTATGGAGAATAGAGTGTTGGA
+AAAAAATAACAAATCTTGACTTTTTGTGGGAGAGAGAAGGAAGAAAGAAGTAATTGGTGG
+TGTCCTGCTTGTGGATAAATAATATTTAAGACTCACTTTCTACATTTCTTTTCAATGATT
+CCTAATGTGTATTCGTAAAAATTAAAACTGAATATTTAGACCCAAAGTTTCCTAAAGGAA
+GAGAAAAAGCTCCACTTCAACTACTTATACATTAAAATATGTAAGGCAAGATTTTCATTT
+CTTCTTAAATTCTCCCCATTAACAATTGACAATAACATCCTTTTTTATGTTTTATTTTCT
+TGCACATGTAATATTATGTATGCACAATATTTTAATATTGCTGTATGGTACATTATCATA
+TTGCTCTATGGTAGAGGTAATTTATTATAACTGCTGGTTATGACCTTTTTGTTTTACCTT
+ATGAAGAGAATTTTAAAACGCATTTATCGTAATTGTCTATAGAAGATAGTTATTTGTAAA
+CTCTTTGGAAGAGGCCAAATTAACATAATGCCAAAAGATTTTCCTCTTTTTAGCTTTTAC
+ATTGCTTCCCATTATTAAGCAACCCTAAACATGCAAAAACACATTGAGTTTTAATTTGGG
+AACTTTAGTCTGGTACACATATACCAATGCAGAGAGTGTGGCTCACTAATCTGATGAAAG
+GAGACAGAGTGCTGAAAAACCTACAATCATCAATATTTGGTCCCTGGTCCTCTGTATATA
+CTACTACGATTTTCCCTATCTTATCTTGTACTTTACTTTTGCAAATTAAATCACTCGACA
+AAGATTGATGTAGGACCCAAGTTAAGCCATAAATACGTCAAGTCCTGGTAATAGCAGGAT
+GGGGACCATAAAGCTTATGACATTGTAAATTCTGAATTCTGTTTAATATTATTTAGATTT
+AGAACTCAAATAGCTCTGCGGAAACAATTTTTATCCTAATACAAACTTTTCACTTGAGCA
+TTTATATGAAAATAATTTTTTCAAAGAAGTAGAGAAAGCAAGCTTATTCCTTTGTTTGAG
+TCATAGTAAGTTGAGAGCATCTGAAAAATCAGCCGTCAATGTTGGCTTCCAAGTGCTAGT
+CAATGAGTAAGTGATATATATTAATTATCTCAGTTTACTCACGCAGCAAAGGACTTAGTA
+TGGATATTATTTTATAGATGGGGAAAGTGCTACCTAAAAATATTAAATAACTTACTTGAA
+GTTACACAAAAAAATTGAATGCTGGGTCCAGGATACTAAGTCTCTTTTTATCATACTACA
+AGTAATATTAATCAGATGGCAGAATTTTTTCTGTTCAGCATCTTAGTGACATAGATAACT
+GTCTTGCCACTTCCAGAGTTAATTTCTCCATAATTTCATTCCCAGATAACTTATTACTTT
+AGTGAGCCTTAAAGTAATTTACTTTTTATTATGAATATTTACATGCTGGTCTTAATACTC
+TTGGAAATGTAAAGTTTATGTCAAGATTCATGTCTTTGTCATAAATGCATAATCTCAGTG
+CATAACATGGTATTTGACACATAATAGGTACTTAATAGTGAATGAACAAATACCTTCCAG
+GAGGTTAGCATTTGTAAAACATCCTAAGAATTTACTATAATAACACCATGTTCTTTATAT
+TAAAGAAGACTAATTAGATTAGGTAAGCAAATATTGTGGCAACGACTCACCATATTGTAA
+GTAGAATCTTAAAAAGTCATCATTTGCTCTTCCTTCCTCTTTCCAACACATTACAACTTT
+AAACTTGATCACCTACTGTCTCATTTTATTTACTTTCACTGATATTTTACAATCTTATTT
+ATTTCCCAGCTGCTATCTACCCAAACTTTGCCCTACAATCACTGCCACCTCTGCAGAGAT
+AGCCTTCCTTTCATCTTTTGCAGCCTATTTTTTTTCAGTTCTTCAAAACTCACTTTTAGA
+TTTCTAGCCCCATTTGACTTATCAATGGGGTTTCTCTTAAAAAAAAGTCCATCTTTATTT
+TTGTTTGGATTTCCAGTGTAAATATGCCCAATTCTTCTATGTCTCTGTTTCTAAACAAGA
+CTCTAAAGTTTTTGCAAAAGAGGTGCCATATCTTATATATACCCTGAAAAAAATGACCCA
+TACTCAAAACCCTTAGTAGAAGACTTTTGGTAAGCCTGTAGCAAATATTAATAGACGTAC
+AAGATTAGAAAATACTGCAGTGGTTGGTTAATTGCCATTGTTAGACAAATTAGCATGAGT
+TGCTTAGGGTTTAAGGGTTCTACCTTATTTTTGCTAATGTTCTGAGTGAACCAGTTATTC
+TAACTGTGTATTATTAACATATTACACGATTGACAGATGTTCACTTACACAGAATTGACA
+ACAGATTTTTCATGTCAACATTTATTCATATAACCATTTTGTCCAACCATATGCATGAAC
+ATTTGATCCATGGAAGTTATTAGTTCATTTACATTATTTTCAGGAGGGAAGAAAGCTGAA
+AAAAAAGTGTGCTTTTATGAATGTGCTCCAGATGTTCAGCAACAAAAGTTGAGAACTTGG
+AAATCAAACAGTACTTTATGCATTATTGGGTATATTAAGATCTGCTTTCAGGGACTCTTA
+AGTGCCTGCTCTTCTGTTTTTCTGTCTTCTCAGTGCGCTGTATTTTTTTTCCCTAAATGG
+AAATACTTTGTTGATACTTTTTGCAAGATATAACTGTCATTAATTATTATCCTAAAATAT
+GTAATGAACGCGATGCTTTCACAAAGAATTAAACAGATCATAAAGTTCTAAAATCTGTTA
+TTCACTCACATGAGCCAATAGAACATGAGTGGATAATTTAAAATAAGTGGTTTTATGTAT
+ATATGTACCTTTCTATCAAAATACTCAGAAGCAAGCTACCACACTATCAGAGTTTTTTAC
+TGTATATAAAAATAAGTAAAATGACTCCACTATAATCAGAATTTTTGGCTCATTTGGTTA
+ATAAAGCTTGACAAATTCTTTAACTAGGGAAAGCTGGGCATACTGGGAAGATCATGGGTC
+ATGATTGAAAGGAAGGAGCTGTCCCCTGCCACGTTATATATTTAGAGGGGAGTTGGGGAA
+GGACAGAGGACACCAGACGAGGTAATAATTTTCTTCTCTGATGAAAGAAGCCCTGTTTAA
+GAAAGGAAGATAATCTATAAACAAGCAGTTATTAGTAACAGTCTTCCCCTGGGAGCTCTG
+TCCTGCTGATACAGCTCATTGATAGATAGGTCTTGTAAGAAAGGAGTTGTGGGTAAGGGG
+GAGAAGATGGTAGAGGCATCCAGCCCTTTCTCACCTTATCTAGTAAGGGATGCCAAGAAG
+ATGCAGAACGAGCAGAATTTGGAAGAATGAGGTGGAAGGGCAAAGCTCTTTTTGATATTT
+AGTAAGCATAAAGTTTGATCATTTAGTTAAGATTTTCAGCCAAAAATTGCTTATTGTTTA
+CCTCCACATATTCGTCACTCCACTAGGAGACACCAATTACCTTCTCCCACATTAGGCGGG
+GGGGAGTCGAGCAGCCACACATGCGTTAGTTCCCATTCTGAAGAAGAATCTTACAAAAAA
+AATAGCATTCACGTAGTTGCTTTATTTATTAAGGTCTTCCTTGGTAAACATACCAAGGAA
+TGACATGTCTGTCACGTAGCTGTTAACCTTGCTTGGCCTTCTTCTTAAATTCCTGTGGAT
+ATTCTCATATCATTATTGCCCTGACATTAGAAAAGTAACGAATGACTTTTACTATAACAC
+AAGTAATAGGTGTTCATTCTAAAATAAAGCTTTTGGTTGGTCACAGTGGCTCATGCCTGT
+AATTCCAGCACTTTGAGAGGTGGAGGCGAGCAGATCACTTGAGGTCAGGAGTTTGGGACC
+AGCCTGACCAACATGGTGAAACCCCATCTCTACTAAAAATACAAAAAAGTTAGCCAGGCA
+TGGTAGCATGTGCTGTAATCCCAGCTACTTGAGAGGGTGAGGCACAAGAATCGCTTGAAC
+CTGGGAGGCGGAGGTTGCAGCGAGCCGAAATGGTGCACTGAACTCCAGCCTGGGAAACAG
+AGCAAGACTCCGTCTCAAAATTAAATAAATAAATAAAATAAAATAAAATAAAATAATAAA
+GCTTCTAATTTAGATAAGGTCACCTGCGGTTTTAAGGAAAACATGCCAGATGAGGACAGC
+TGTGGAGGTCCCTTTTGTTCACAATACTGCACAGCCATCCAGAAGGTCACAAGGTACACA
+GACAGGGCAGACATGCACACAAGTTTTCAGTGAGTTAGATGACTGGTAACTTATTCAATT
+TAGATCACGGTGTGCTGTTTTGGAGAAGTCAATTTTAAACTGGCTTTCAGGTATATGTGA
+CACTGACAGATAATAGGTTCAATATCCGTGCTTCAAACCTATTCACAAGTGATTGTCCTA
+ACCCACACTACCTCAGAATATGACTGTATTTGGAGATAGGGTCTTTTAACGGGTAATTAA
+GTTAAATGAGGTCTTTAGGTTGGGCCCTAATCCATTAAGACTGGTGTTCTTATATCCTTA
+TAACAAGAGGAAATTAGGACATAGATATGCACAGAGGAAAGAGGATATGAAGACACAGGG
+AGAAGACAGCAACCTATAAGCCAAATAGAATGAAATTAATCCTGACAACACTTTGATCTT
+GGACTTTTAGCTCCCAGAATTGTGATAAAACAAATGTCTGTTGTTTAAGCTCCCTCAGTC
+TGTGCTATTTTGTCATGGCAGCCCTCACAAACTAAGAAGGCACTATCGCTCTAAGTTTTG
+TTGTATGTGAGGCCATAGATGCTCTCTATTAAGATGGCACAGATGCCTTTTTGGGTCAGG
+CCAGTTCCCCTGAGGTGATGAATTAATGCCTGTGAATCATCTGAGGCACAAAAGCCAAGA
+AAGAAGGAGCTGGGCCTTGCATAATGACTTTGAGCAGTTGCTGGTCTCAGGGAGTTATGC
+CACCTCTAATCTAGGATTGCAGCCAGATTTCTGCCTGGAGGCAGATGTAGTCTGTTGAAT
+CTCTGCATGGTTATGGTTCAGTCCTTGTTAATAGGTTTGTTGTCTTTGCCTCACTATTGA
+TGACAGGGAAACAATTAAAAGGAGGGTATCACAACCTAGTAATAGATTCATAGGGATTTG
+ATTACTCATGACCCCCCTCAATGGCAAAGTGTAAAATAGGCTTACTAGAAAATCCATCCC
+ATTGATTCAAACCCAAGTCCCAGTCCCACCAGGGAGCTACGGATCATGGCTGAGATTATA
+ACTTTTGACATAGCAAATGTGTTAGCAAACACAGTTTATCTCTGAAAGTGGGAGAAGCAG
+ATATGACAACCCATTGTAGAAATAATTCATTGAATAACCTGGGCCAGTACCAGGGAACAC
+CACTAACCTTGCTAAGGATGACTTAAAGCAGCATAAAGCAGTATTAAGAAAACTAACAAT
+GTTAAGCAGATTTCATATAATAAAGGATTCTTTCTCTGTCAGAGGGGGAAGATTCAGGAG
+AGGTGAGGGGAATCCAGAAAGCAAGACTTTTTTTGTTTGTTTGTTTGTTTTGTTTTTTTT
+TTGTTTTGTTTTTAAACAGAGTCTCATTCACTCACATCATCGCCAGGCTGGAGTGCAGTG
+GCACAATCTCAGCTCACTGCAACCTCTGCTTCCTGGGTTCAAGCGATTCTCATGCCTCAG
+CCTCCTGAGTAGCTGGGATTACAGGCATGCGCCACCACACCTGGCTAATTTTTGTATTTT
+TAGTAGAAACAAGGTTTCACCATGTTGGACAGGCTGGTCTCGAACTCCTGACCTCAAGTG
+ATCTGCCTGTTTCAGCCTCCCAAAGTGTTAAGATTACAGGTGTAAGCCACCGCACCTGGC
+CAGAAAGCAAGGTTTATGGATTTTCTAATCTGCTGGTGTCATAGGCTTCCTAGTTTGCTT
+CCAAGATATCTGGAAAGTAAACAAATAGCATATAAAGAAAATGGAAAGACATGAGAAGAG
+GCCAGAGACTTGATTCAGTTGTAAGCCACTGGTAATTGCACTAGTTAAGCTAGGAAAACA
+TAACCACAAATTTTATGCTTGCCTAGTCCTAGGACTCTATCCTGGTTGGGAGAACACTAG
+CCATTCCCAGCACAGACAGTTAGTGAAAATCCTACACATCGTAGGCATAAGTTGATATAA
+GCCTTTTGTGTCATTAAGATAAGTCGTTACTGCTAATTAGAGGCAGAGGTAACATCAGAA
+GCACCACTACAAAGCCTAACAGAAAAGTATACCCAATAAGGACTTTAAGATAAGTTACCT
+GAGCCTGATTTGGATTGATTCTCCCTTGTGGAAGCTCTGGGGAATTACACAGACCAGCAA
+GGCAGGTGGTCCTTCCTTCACCACCCTCAGGCCCTGTAAGGTGCACTATGGCCTTGCACC
+TTGTGTGGGTGAAATAATCATCCAGTCCTCATGAGCCAAACAAGTATGGCTAGCATTCCT
+TCATAAAATTAGAGGTGCATACTCAGGCTATAGCTCAGGTCAAAAGCAGGCTAGAGAATC
+TCGGATAAAGTGAAAATTAAGGCTTAAAGTTGGCCCTACAGGAGTTCGTTCAGTGTGGAC
+CCATTGAGAGCAAAGCAGTCAAGGCTACACCAAATTAATTATCTTCCTCTCATAGCTTGT
+TGGGCGGTAGTCTTCATTAGGTTAATATAATTTTTAAGGGATAATTTCTTAATTTCAGAG
+ATAAAGCTAAAAGTCAGTTATTTTCCTCCAGCATAATTGATCCTTGTGCAGAAAAAGTCC
+CCCAGAAATTCTTTTTAAATCAAAGCATCTTTGCATTACTATTTCCCTGTATTCTAGATT
+AATTGAAAAGGAAGATGATTCTCTTAGCTCAAGAGAGTACAAAGTTTATATTTCTCAAAA
+TCCCAGGCAGTATGGTATATCTTAATTCGTGCCCTGATATGAAATTAATTGTTCTATAAT
+CATCCAGTCAGGGGAGGAAATATAATTCTTTCCATGGATTATAGCTGGTATAATGGCCAA
+AAACGTAGACCGGAGTATATACTATATTAGGCACAACAAATGACAAAGTTACATAGATAT
+GGGCCTCATCACGTGGGGTAGGTCTTAGATAATTCTCCAAAGTCTCAGTTTATATCAACA
+AACCTCAAAGATAGAATGATGTCAGGAAAAGCAGCAAAGTAAGGACCTCTGAAAATGAGC
+TCCTCCACAACAGGAATGAAGAAAAAAAGGGGAAAATTGTCAAAATCAACATTTTCAGAA
+CTCTGGCATGCAATCAACCACAAGTTTGCAGCAACTCAGGCAGCATTTATATTCAAGAAA
+AGCAGCTGAATCTCAGTATGAACTTTTGTGGCATTTTAACTTGCTCTAGTCCCAGCTCCT
+GCTCTCCAGGTCTGTAATAGCATTGAAAAATAACAGCTCACAATCACAACACATCCTGAA
+AGCTACCAGAAGGAGGATACAGTAATGGAGTCCTTTCAAACTCTAATTCCCAAAGAATCA
+TCGTTATTTGACCTACCGGTAGTTCCCCGGAAGACTTCATTTAACAAGATTATCTATATT
+TGGCCTGATGTGAAACTCAATCAGAGCAAAAATTCTCTATCTGAGAGGTGTTTGTCAAAA
+GCAATTACAGGCAAGCGTTTTAACCTCATGTTGGCTAATATAAGGAGGAATAATAGTTGG
+TATAAACAGCATACTAACCAAACAGATAAAAAGGGTAAACTGGGGAATGAGTTGTCTGCA
+GGGACTTTGAAAAGTCATGACATATCCTGGAAATCTAGAACACCACACACACATAGAACA
+CACTATGCACTTACCTGAGAAAGACCTGAGAAAGCTGAAAGCTATCACTTCTGGCTTACT
+TTGAAGCTCTACATGAGCATAGAGTGAAGACAAAAGCAGAATTTTTTGCTTTGCTGACTA
+TTAAAAACCTGCCTGGATATGCACATAAAGTCCCTCAGCAAAGACTGGGAGATTTTGCAG
+CTTCTCGCATTTAATAAAATATCTGTCTAATCATTCAGTAAGCTAACACTATTCTAACAG
+AGTACAGACTTCAATGATCACACACGAGAAAGAATACTGACAGCTATTTTAAATATACTT
+TAAAGAGCTATGTTGTTTGTGACCTTTATTTCTGTGAGTCATATGCCTTGTATGCCTAGT
+TTGTTGAGAGTTTTTATCATGAAGAAATACTGAATTTCATCATATGCTGTTTCTGTGTCT
+ATTGAGATGATTACATGTTTTTTTTTGTCCTTGATTCTGTTTATCTGATGTATCACATTT
+ATTGATTTGCATGTTAAACCATCCTTGCATTCTTGGTATAAAACCCACTAAATAGTATTA
+TCTTTTCGATGTGTTGTTGGATTTGGCTCGCTAATATTTTATTGAGGATTTTCCTGTCTT
+ATGTTCATAAAAAATATTGATCTGTAGTTTTCTTTATTTGTTCTGTATGTGTCTGGTTTA
+GGTATCAGGATGATATTGCCCTAGTAGAATAACTTAGGAACAATTACCACCTTCACAAAT
+TTTAGAGCAGTTTCAGGAGAAATAATATTAGTTCTTCCTTGTATGTTTAGTAGAATTCAG
+CAGTGAATTTACCTGGTTTTGAACTTTTCTTTTTAGGAGACTTTATTACTGATATAATCT
+TGCATATAATTACACATAATTCATAGTTCCTGATGATTCATTGTGTGTCTGTGGTAACAG
+TTGTAATGTCTCCTGTTGCATTTCCGGTTTTCATTTGAGTCTCCTCTCTTCTTTTCTTAG
+TCTAGGTAGTGATTTATCAATTTTGTTTACCTTTTCAAAGAATAAGTTTTTCATTTTGTT
+GATCTCTTCTGTATATTTTTAGTCTCTAATATAGTTCTGCTCCCATCTTTGTTATTTCTT
+TTCTTCTGCTGGTTTTGGGTTTGGTTTTTTCTTGCTTTTTTAATACCTTGAGGTGCATCA
+TTAGATTGTTAATTTTTAATCTTTCTACCTCTTTGGAAGAGACATTTAATGCTAAAAACT
+TCACGCTTATCAATGCTTTTGCTATATCCCAAAAGTTTTGATATGTTTTGTTTTCATCTT
+CATTTGTTTCAAAAACTTTTTTTATTTCTGTCTTAATTTATTCACTGACCCAGTAGTGCA
+GGAGCATGTTGTTTAATTTTCATGTATTTATGTACTATCCAAAATTCCTCTTTTTATTGA
+TTTGAAGTTTGAGTCCATTGTGGTCTGAGAAAATACTTGATATGATTTCAAATTTAAAAA
+TTTGTTAAGATTTGTTTTGTGGTGTAACATTTAGTCTATCTTGGAGAATGTTCCATGTGC
+TGATGAAAAGAATGTATATTGTGTACTTGTTGGACTGAATGGTCTGTAAATGTCTGCTAG
+GTCAATTTTATCTTAAGTCTGTAGAAGAAAATAAAATATTGTGACACCAAGCTCACTATG
+TCAAAGGGAAAGTTAAGCCTGGGAACTGAGTCACACAATACTTCTTTTCTTTTTTGCCCA
+AACAGATAGCTGTAATTTCACAATCCTGTTTCATGGCATTATACATAAACCAGATTCTCA
+CAATAGCAAAAGGCCATATATCTCCCCAGATGGTCCCCCTCACAAATTCCTCACAAAAAA
+TTATTTATTAGCCCCTAAATCCTTCAGGACATGATACATATCTCCCCATAAAACCAGCCC
+TAAAATTGAGTTCTGTTAAATCTCACACTGTCAATGTTGATTTCAAGTTTATTTCCCCAG
+GTAGGGAATGGGAACAAGAACAAGAAATTATTTCTCCACCTACCCTGAGGTGGAGGCATA
+TTATACTTTGTCCTCCACTCCGTCTTTTCAAATGTTTACTTTATCTTATGTAAAATGTAG
+GTTTACTGAGCATTAATCAGAGCCTCACAAGAAGGTAATCATTTGCTTCACTGCTTATTC
+TCTCTCAGTTTTTCCCTTCTGCTTTATGTTTTCCCCTTTAAATACTGAGTTCTTCAAACC
+CTCTTTGAGATGCACCGGTCATAGATGCTCCTGTGAACTTGTGTTTTTCCTGGGCACTTC
+CTCAAACTTTGGCTTGCTAAATCTACTGATCAAGACACCTGCCTCAGTCACTTTTTGGTT
+AGCAAGTCCAATTTAAAACAAATGTTGCTTTGTTGATTTTCTGTTTGGATGACTTGTCTA
+ATACTGTACATGGGTTGATGAAGTCCCCCACCATTATTGTATTATTGTCTATCTCTCTCT
+TTAGGTCTACTAATATTGATTTTCTGAATCTAGGTGCTCCAGTGTTGGGTGCACAGATAT
+TTAGAATTGTTATATCCTCTGGCTGAACTGATCCTTTTATCATTATATAATTACCTTCTT
+TGTTTTTATTTTATTATCCTTGACTTAAATTAAGCTTTAATATAAGTATAGCTACTCCTG
+CTCACTTTGGTTTCTATTTGCATGGAATAATTTTTCTACCCCTTAACTTTTGGTCTGTAT
+GTGCTTTTAAGGAGAAGGTGAGCAACATATAGTTGTAAACACATATAGTCAGTTTTTTTT
+TAATCCATACAGCCCATCTATATCTTTTAAATGGTGCATTTATTCAACTTACATTCAGGA
+TTTATTCTGATATATGAGGCTTTCTTCCTGTCATATCATTAATTGTTTTCTAGTTGTCTT
+ATAAGTTTGTTCTTTCTTTCTTTCTCTCTCTCTCTCTCTCTCTGTTTGTAATTGTGGTTT
+AGTAGAATTCTGTAGTGGTATCTTTGATTCCTTTCCCTTCTTCTTTTGTGTGGTTGCTTT
+ACCATGAGTTTTATACATTTTTGGGTTTACATGTTGCTAAATTTTGTCCTTTCACTTTCA
+ATTTAGGACTCCCTTGAGCATATCTTGTAGGACTGGTCTAGTGGTGATTTCCCCTAGCCT
+TTGTTTGTCCGAGAAAGACCTTACCTCTGTTTCTTTTACGAGAGTTAGTTTTGCTAGATA
+TAGAATTCTTGGGTGGTTATTATTTATTTTTTATTTCAGCAGTTTGGATATGTTGCCGCA
+TTCTCTTATGGCCTGTAAGGTTTCCACTGAGAACTTCAATGTTAGCCTGATAGATTTATT
+TTATAAGTAACTGGATGCTTTTCTCTGGCTGATTACAGAATGTGTTCTTCCACTTTGACT
+TTAGACAGTCTGATTATAATGTGACATGATGAAGTCCTTTTTGCATTGCCTATTCCTGGG
+GATCATGAGTGTGATGGTTAATACTGAGTGTCAACTTGGTTGGATTGAAGGATGCAAAGT
+ATTGATCCTGGATGTGTCTGTGAGGGTGTTGCCAAAGGAGATTAACATTTGAGTCAGTGG
+GCTGGGAAAGGCAGACACACCCTTCATCTGGTGGGCACAATCTAATCAGCTGCCAGTGTG
+GCCAGAATATAAAATAGGCAGAAAAATGTGAAAAGACTAGACTGGCTTAGCGTCCCAGCC
+TACATCTTTCTCCCATGCTGGATGCTTCTTGCCTTCAAACACTGGACTCCAAGTTTTTCA
+GCTTTGGGACTCAAATTGGCTTCTTTGCTCTGCAGCTAGCAGACAGCCTATTGTGGGACT
+TTGTGATCATGTGAGTTAATATTCCTTAATAAACTCCCCTATATATATATGTATATATAT
+ACACACACACACATATGTATACACACATACACACACACACACACACACACACACACACAT
+ACATATATACATACAGGGGATTTTATTATGGAGTATTAACTCACATGATCACAAATTTAA
+TAAGTTATTAAATAAATATATATATATTTATTTTATATATATATCCTATTACTTCTGTTC
+CTCTGGAGAACCCTGACTGGTATGATAAGCTTCCTGTATCTGAATGTCTAAATCTGTTAC
+TAGACTTGGGAAGTTTTCATCTATTATTTAACTACATAGGTTTTATAAAGTTTTTGATCT
+CTCTTCACTCTCTATAATACTGAAAATTAATAAATTCAGTCATTTTCTGTGGTCCCAAAT
+GTCTCGAGGCTGTGTTCATTCATTTTTATTCTTTTTTTTCAACTGTGTCTGACTGTATCA
+TTTTAAAAGACTTGTCTTCCAGTTCTGAAATTCTTTCTTCTGCTTGGTCTAGTCTATTGT
+TGAAGCTTTCAAAAGTATTTTGTGTTTCCTTCAATGAATTTTTTAGTTCCAGAATTTCTG
+GTGCTTTGTTTTATTTTTAGATTTATCTCCTCAGTAAACGTATCCATCATATCTTGATTT
+TTTGAGTTCTCTGTGTTGGTTTTCAGATTTCTTTTGCATCTCATTGAGCTTCATTATAAT
+CAACACTTTGAATTCTTTATCTGGGATTTTGAAGATTTCTTTATGGTTAAGCTTTGTTGT
+TGGAGAAGTGTTGTGTTCTTTTTGGGGTGTCATATTACCTTGCTTGTCATGTTTTCTATG
+TCTTTACATTGATTGATTTGTGTAATCTGGTGTAATTGTCACCTCTTATTTTTGAATTTA
+CTTTTGTTCAGGGTAGGGATTTTTCCTGAAGATGTGACTATAATTTTGGCAGGTTTTTTT
+GTCTTTGCTTCTGGGTGCATATGTTAGCAAAATTTCTCTATAATTTCTCTGGCTATAAAC
+AGTATTAGTGATGTCAGTGATCTCCTCAGTTTGTTAGGGTTGGTTTGGTGGAGGCTATGG
+TAAAGTGGGGCTGATGTCTGGGCCCATCTTCAGGTTTCAGTCATAGAAGTGGTGGCCTCG
+CATGACTGTCCTTGTGCCTTGTGGTGGTATATGCAAGCAATGGTGTTAGATGTGCTAGGC
+AGGCTGATTCCTGGACCTTTGGATGACTTTCTTGGGTGCCAAGCTTAGTAGCAATGCACT
+GGGAAAATAAGTGAGCTCTTGAGCTCCTGGGCAGCTGGCATAGCATGGGTGAAGGCTATT
+GCAGTGGTGATGAAATGCTGGCAACGAGCTCTGTGGGCCAGCCTCCAGGCCAGTAGTGGT
+GTTTGGATGTGGGAGCCCATTGAGGTGTTGGCAATAGGTTGTTTATGCTCAATTTTAGTC
+CCCCAGGAGGAGTACTCAGTTGTCCCAGGTGGTGGATTGTGTTGTGGAACCCCTAGTGCC
+CTGGATCCCATACTCTGTCTCAGTGGGGGATGAAGCTGGGTGGAACTGGACCAGGAAAGC
+TCATGCTCAGGCCCCCAAAGGCAAGTGCCTGCATCAGCCATGACAGGTGGGGATGGCTCA
+ATTGTTCAGGCCCTGGTAGACTGCTTGGCTGAGGGGTTAGCACCACTGTACTGAGATCCT
+TCCATGGTGAGAGTGGAGAAGGTTTCAGCAGCCACAACCTCTGCTGGTAGGCAGGGGACA
+GTGTCTTTATCACACCCCAGACCTGGTGGGGCTCACTCTACTATCCCAGCTATCACAGAC
+AACCTGGAGGTTCCATGAGACCTGCAAGTTTGCACCAAGTTTGCAACTCTGTCCTGAGCT
+ATAGGAGCTACTACCCAGCTCAAGACTAAGTCTTCCTTGCAAATCTCATCCTGCTCAAGT
+CCTGGGGGCAATGCCTGGTTCCACTGCCAGTGGCCACAGCTCACACCATGCTTGCTTCTC
+AATACTTGTTGCAGAATCCCTCTGCCATGGTTTCACAAGCAGTAGCCTCAGTTTCCCTGT
+GCCTAGGACTGGCACTGCTTGTTCCCAAGACCATGCACAATTTGTTAGGAGTGAGGACTA
+AGTACAGTGTCTTACTATGACCACTTACATTCAAGAAGGGTGTGAAACACAAGGTATGTT
+CTTCCTGGAGCAGGGTTTGGGAGGGTCATGATGCTCTCTTGAGTCCTGGATTGTCCCAGG
+GGATAAGTGAACCACAGACAAACACTTATTCACTCTCTCCTGCATTGAGAGTCATTCCTA
+CTTTCCGGCTGGTCCCAGTCACACAGGCTGCTTATTGTTTGCCTCCTTCCTAATTTTGAG
+AGTTTTCTGTCACTTTGCTGTTGAACTCTCATGTTCCTTCTTGGACAATATATTAAAAGT
+GTGATTGTCTACACATTATTTTGCTTCTTCTAAGTGGATGAGGTGTGCTTGAAATACTCC
+TAGTTGGCCATTTTGAAAAAAAAAAAAAAGAAATGTCATTTCATACTCACTAAGATGCCT
+ATAATCAACAATGGAAAATATCAAGTATTGCAAGAATTTGGAGAAATTAGCATCTTCAGA
+CAATTGTAGTAGGAATGCAAAATGATACAGCCACTTCTGAAATCAGTTTAGCAGCTCCTC
+AAAAAGCTGGAAATCATTACTAGATAACCCAGTAATTCCATACTTAAATATTTATCCAAC
+AGAAATGAACACATTTTCACACCAAAACTTGTACACAGATGTTCATAGAAGTACTATTTA
+TAATAGTCAAGTGTGGAAGTAACCCAAAAGTTCATCAGCTGATGAATGGATAGACAGTAT
+CTGCTATAGCTGTATAAAGGACTACGATTCAGCCATAAAAAGAATCAGGTGTGAATATAT
+GATGAAGGTGAACCTTAAAAGCATATTGTTAAGTGAAAGAAGCCAGAACTAAAGGCCAGA
+TAGATACTGTATGTTAACATTTACGCTAAATGTCCTGAATAAGAAAATCCGTAGAGACAG
+AAAGTAGGGTGTTGGTTCCCAGGAACCCGGTGAAAGGAAATGAGGAATGGCCCATTCAAT
+ATGAAATGGGGATAATGGATATAGGGTTTTCTTTGGAGGGTGATGAAAATATTCTGAAAT
+CAGATAGCAGTGATATTTGCACAAACTTTTGAAAATACTATAAAACTCTGAATGTCACAC
+TTTAAAAGGATAAATTTTATGACATGTTGATTATATCACAGCTGTTAACACATTGCACAG
+GAGGTTTGAAAGGGCCAAAATAAAGATTACAGGAGAAGTATAATCAAACAAGCATTTTTA
+TTTCTACTATCTATTGAAACTCTCAAAAACGATAAAAAAGTTTTAGTTAAAAACTCAGTA
+GGTTGATATCATGGTATGTGAATTATATCTCAAGGAAACAGTTTTCAAAGGTATAAACAT
+GTCAAAATTAAGAGAACAGAAGAAATAATATTGGATGAGTTTTGTCAACAAATTTTTGAA
+GGTTGGAAATCTGGAAAATGACTGGCAACTAAGTCAACAGAACAAAGAAATTTGAAGTCT
+AAAGGTTTGCAGAAGGGAATGCTAAGATAAATATGCTGATTCATGCCACAGATCATAGGA
+AATGATTTGTTAAAATGAAAACATTCCAGTTATCTAAAAGGCATTGATGAACTGTGACAC
+TGAATGTAGGATAATTTGTTAGCTGTCAGTATAAAGGACCAGTTAGAGTTTTAAGTAGCT
+GTCCATACCCTAGTAGAGACCAGCATTTATTCTCTGGAGAAATTGAACTGAGAAGCTCTA
+GACATAAGTCAGTGAAGAGAGTGAGTGAGAATGAGGCACTATGCCAAAAACAGGGAGATA
+AAGAAACATTCTACATAATGAAAGGTGACAACCTCCTGCCTATCCCTAATTTTCTGCTCA
+GCTACCAGATTGCTAGAAGGCTTGCTAACCATCCTCAGGCAAACAATTAAAGGATTTCTC
+CTTGGAAAACCTTCTAGAATAAGAAAGAATGCCTCCTGGTACTTACATTTAGGTATCCCT
+TGTGATGATTAATTTTATGTATTAACCTGGCTGGGCCTCCATGCCCAGATATTTTGTTAA
+ACATTATTCTGGATGTTTCTGTGAGGGTGTTTTACATGGACTAACATTTAAATCTGTGGA
+CTTTGAGTAGAGCAGATTGCTTTCCATGTTATCGGTAGGGGCCTCATCCAATTAGTTGAA
+GGCCCCTCAAAGGACAAAAGACTGACCTCCCCCAAATAAGAAAGAATTCTACCAGCAAGA
+TGATCTTCAGATTTGAACTGCAGCAGAGGCTCTTTCCTTGGTCTGCAGCCTACCAGTCCA
+TCTTGCAGATTTTAGACTTGCCAGCCTCCATAATCACATAAGCCAACTCCTTAAAAATAA
+ATCTCTTTCTTTCTCGCTCTGTTCCCCTCTCTCCTCTCTTTTTCTCTTTTCTTCCCCCTT
+CTCTTTCTCTCTCTTTCTTTCTCTCTCTCTCTCCATTGGTTATCTATCTCTGGAGAACCA
+CACTTAATATACCCTCAAAAAAAAGTCCAGGTCATTATCCTAACTCTTCTGATAAAATTC
+ATCAGCCGACAAGTCCCATACATGAACATAACATTTCAATCATCTTTATAATGATTTAGG
+CTAAGAAAATAAATATGTGAGGAAAATCTAAGAGATCAAATCAAATAGATCACAGAAGAT
+TTCAGAAGAGAAAATGATAATGCAAAAAATTTTAGAAATTAGAATATTCTCATAGCAATG
+AGAGAAGATGCTTTACTAATTATAAAAGAAGAAAAGCAATAAAAAAGAGAGAACAATAAA
+AATTTTCTTAAAATAAAAACTATTATAATAACTAAAACATTTAAAACTATTGTTGAGAAA
+ATGTTCCAAAAAATAAGTCAAAAGGAATAATGGGAATAAGATCGAATAAAATGACAGAAT
+AAACAGATTTTCAGGCATGCTAGTTCTTGAAATATTAACCTCATGGGTACCACACTAATT
+ATCATGAAGGCATTGAAAACTGTATTCCATTAAAACAACATATCAGGAAGATAACATAGA
+ATCCAATAAAGAGAGGATCCAACACAGGAATCAAGCAAGGAGACATCCCAGGATGTGAAT
+GGCAGGCAAAGACAGAGAAGAGATGTGTCCTTGAGCTAGAAAACAATCAGTCCAGGTAAG
+ACCAGAAGAACATAGTCTCCCCACAAGGGGAATAAAAGCCAAACTTTTAAAATGGAATCA
+ATAGATTACTTCATTAGAAGAGTATTAGAGTCCCATTGGAGAATTTGGGAGAATATGAGA
+TACATTCACAGAAAATTTAGCACATATTTAGCATATAATTAGAAGTGTAGAAGAACACAG
+ATATAAAACTAAGAAAATATGAGTAGAAGAATATGGATATAAAACCCATAAAATATTAAT
+TTAAATATTAACCTTTAAAAATATAAAACTAATCAAGTAAAATATTAAATCAATTAAAAA
+ACAAACCAACAATCCAATGAAACCCAGTAGGTAAATGATATGAAGAGATGATCTATAGAA
+ATATAAACCCAAGGGGCTAATGTGCATGAGAAAAACCTCACTGGAAACTAGAGAAATTAT
+AATTCGAGAAATCGAAAGTAAAGTAAAAGTCAGCCGTCATTTCAGCACCATAGGAAATGG
+GTAAAGATATAAAAGTCTTGCAATACCAAGTATTGTAAATGATGTAGGCCAAGGGGATAG
+TTTTATGTTGGGTCCAAGAGTATAAATTTGTCCAGCTGCTTTGGAGAACAATTAGGCATA
+TGTAGTAAGGCTGAAACTTCTTTAATCCAGGATTGAAGTACTGAAGAAACTGTTGGGAGT
+TTGTCTTGCAGACATCCGTTGACATTTACTAGTCATAGCAATATGAGGCATTGTTTCTAG
+ATACGTGTGAATTTGTTGAAAGTATAGAAACAGGCTTGGCATGATAAACATCAAATTCAG
+AATTAAAGTTAATTGAGAAGCGAAAGAAGGAAATGGAATTTTGCTGAGGATAGGGTACAT
+TAACTGAATCTATGAGTGCTCTGAAGCTAAAGTAGCAATCTAAGTAAGTTTTTTGTTTTT
+TTTTTAAATGGGTCGCTATATGATTGTGTATGATATTAGGTTAGTGCAAAAGTAATTGTG
+GTTTTTGTCATTACTTTTCTGCATGCTAGAAGTATTTCTAAATTAAGAAAAAAATGGGTA
+GGTAGGTCATGAAAAAATTGATATTTGTATCAAACCAGTATGAAGTGTGCAGAGACAGAA
+AGAATGTGATGAGCCAGTAGACTGAAGAGGGCAAACAAACCCATGAGATACTCTGTAGAT
+GGATGACAATGCAGATGACATTTCAGACCAACAGGAAGAACACAGTGTAGGAAACAACAG
+GAAATGGCTCCCAGGTCACAAGTGTTGGAGTGAACCTTAGGAGGATGCTAACTAGTTTTC
+TCCCAGCGACGCCTGTAATGAATATCAGTGAATCAGAGACCAGAGCTCATCCTCTGGCTC
+TGCCATTCACTGGGGAGTTTAGTAAGAAAATCAGTGTATCACCCCACCATAGTTTTCTTC
+TCTGTAAAAGACAGGTCAGCGCTAAGAAACTTCAATGCTATTACATTTGCATGAGGAGAT
+TTGTGGCTTCCACCTTTAGAATGCACAAGATGACTCTTGGTTTCTAATTGCATTCTTTTA
+TTCCTAAAATTATAATGGCAAATTATCTGACCCCTCACAAGCTATTACACTGTTTTTCCT
+TTCCCGTATCTCCCCATCAGCACTTTCTAGCCTTGTTCTCTTGAAATGTTATGGTCTCTA
+TTGGTTTTCAACACTTCCTTTAATTCTTAGTTTTCTCAGGCTAAACCAAATTCAGTTTTT
+TCTACCCTTTTCTTAAATGTTTGTTCCAGGGCATTTCATTCATTAACAGGAGAACAATTT
+CCAGAAATGTTTTGGAAACAAGTGTATGAAATATGATCAAAGTGCAATGCTATTAATAAT
+CACACCTGAGCTTGACATGTTCTCCCATTCATATTAAAAAGAGAATCTATATGTATTTAT
+GCTGTATTTGTATAAGGTAATTCCCATTTCAAAGGCAAAATAAAAACTAGGAAAGTAAAT
+ATCTTGATAACTTATTTGATTTAAAAAAAGAAACTTATTAAATCACTACATAACTTCAAC
+AACAGCAGAAGAAATATCTTTTACAACTAAAGCCTAGATCACACTCAGACCATTTGAACT
+GGGAAAGCTGACTTAGGTAATGTGACCTAGAATCTTGACAAACAGATATTTGTCCTAAAC
+AAAGATTTATTTTAATAATTGCTTCACATTTAATATTTGCTAAGTTAACTGTAGTATTCC
+AGTACTGCTCCTGTATATGAGTATTTATATATGAAATTAATATGAAATTTATGATATATA
+TTAATTAAAATATTAATTATATATGAAATTAATATGAAATTTGATATATGTTAATTTCAT
+ATATAAATACTCATATATAGGAGCAGTACTGGAGTAGTATATATATGAAATCTATATACT
+ATATATAAGTATATAGTATATAGACTATATACTACATACATAGTATATATATGAAATCTA
+TATATTATTCATACCTATTCATATATTTCATATAATAATATATATAGAATATTAATTTAA
+TTGTGTTGAATCTGGATATGCATATACGTCAAATTTTCTTAGAGTTTAATGTGGTATTGT
+CACATCTTCAGAGTGTTGTATACCTTGGAATTCAAGAGTAAAGAAGCAATGAGGAAAGGT
+AAACTAATAGGCACCTTCTTTGAAAGGATGAATGATGCCTTTGAATAGAGGCAAAACTCC
+AATGAAATAAAAATAAGCAAAAGTATAAAATGCCATATAAATACGTAAAAGGAAAATAAA
+TCTGGGACCCCAAAATCAGTAAACCAAGAGGAAAGTCAAGCAGGGAGCTATGTCAGGTAA
+ACCTGCCTCCCATTTTATCCCTAAATAAGATAGCTACAAAGATAAAAAAAAGCTACAGAC
+CTCCTTCACAATTTGCCCTCAAGGAAATTCCTTGAGGGCCTGAAGATCTTTACCCTAAGC
+CAGTTCTGTTGAATTTCGCCCGCAATGTAAACTGATAGCTTATCTTTACAGGTGCAGGAC
+AGAAAGTTATTTCTCTGCTCACCTGAGACAAATGCATATCTAATTGCTTCCTCTACCCTA
+TTGTTTATGTAGAAATGCAGATTCACTGAGCTAGACTAAATTGAGTATTCAGTGAAAGGC
+TGATCAGGACTCAAAAGAATCCAACCTTTTGTCCCTCCTTTCTGGACCTAACCAATGTAC
+ACATTACATATATTCCTTTATGTCTCATGTTTCCCTAAAATGTGTAAAAGCAAGCTGTAC
+CCCGATCACATTGGAGACATGTCATCAGAACCTCCTGAGGCTGTGTCATTGGGAAGATAA
+ACTTTCTAAATTGATTGAGACTGATCTTAGATATTTGGGGTTCACAATTATAAGAATTTG
+TTTTTATGCTGCTTTGGTGATGGGGGTAAAATTAATGAGTTTAATATAAAATTATAATCC
+TTCAGATTGTATAATTCCTCTGTGATCAATTTCATCTTCCTTCCAAACAAAGCACCTTGA
+TGTAAAAACTGTGAATTGTTAGGTAAAGGAAGACAGAAGCACAAGTGTAATTTGGATGTA
+AAATAAACAAAGCAGTGAATTTGCCAAGCAAAGAAACGCAGAAATGCCCTACAGTAGAAT
+TTCAGACTAACCCAGCTTCAAGGGATAATGACCCTTGAGCAACCCTTAACAGGAAGTCAC
+AAAGTCAGATTGTGAAATCCAGAGAGCTCAGAGGAATTCTAGAATTGGCAGCCAATTGGA
+TGGCCTCGTACCTGCCCTGGTTATATTCTAAGAGCTCTGATTCTTTAGATGAAAGAAAGA
+ACCAGAAATCTCTGGACTGTGACAATCCTTCAAGTAAAGTGAGTAACAATGGGGGTTTGT
+TTCAGAACAGAGCCCACCCTGAGCCGAGGGCTACAAAGGGAAAGTTGGAAAAGAATATAC
+AGAATATCAGAGTGTCAGCCATGTTATTCACAGGGATACTATTTAAGACAGTAGCCATTA
+GCTATAGGTGGCTATTTAAATTTAAATGCCTTAAAAATAAATAAAATTAAAGATGCAGTC
+CCTTGGTTGCACTTACCACATTTAAGTGCCCTGTGGCTGACACAGTAGACAGTACAGACA
+CGGGGTATTTCAATTGTCTGGGCAGTCTTGCCACTCAAAGTGTGGCCTACGAATCAGCAG
+CATTGGCTTCACATAGACATTTTAAGAAATGCAGAAACTTAGGCCCCATTGCATCTTAAT
+GTAAACTGTGTGCACCTTAAAGTGTAAGGAGTACTGGCCTAAGGCTCATTCCAGAACTCC
+AGTCATTGAAAGATAAACCAAATGCAAATCAGAAAGCTGAGACAAAAAGCTGACTCAATA
+GATTGTACAAGAACTGTCTATGAGCCCACTCCCCTGGGTTCATCCAAATGACTTTAGATT
+CCTGGCTTATGGTTGTATAACTATTTTCAAACACTTTTTGTAGAGCTAAGATAATGACTA
+TTCTGCTTTGCTCCAGGTTGTCTAGGTAACATTTATGTGTAGCATATATACAAACAAACA
+AATAACATTTATCAAGCACTTACTATTTGTCTGACACTAAATTGTGCAGTTAATAGGCAT
+TTTTAAAATGATTTCACGTAAGTGATTTTCAAACAAGTTCCTTTAGAATCAGTTTTTACT
+GATGATATAATTGATCCTCAACAAGGACAAAAATCATGCCCAAGAACACATGGTTAATAA
+ATGGTAGAACTACTTTTGTACAAAAGTAGCTCTATGTTTTTATTTTATTTTTTCAATCCA
+CAGAGTTAGAAGATGTGTTATTATTTTTGTTCAGGGCCTAGACTTCCTAGCCATAATTAT
+TACTGTAGTAGAAATTAAACAAAAGATTTAAGATTCATTACTAAGAGAATCTGAATGAGA
+AAGATTTTGTGCCTGGACTCAGCACTGGTGAAAAACTTCCTCAAAATTTTAGTCTTCCAA
+AGAGGCTCTAATTGGCGTTAGCAGAGATTCTGCCCTTGAAGTGACTCTCAGTTTTCATCT
+CTGTGAATTTAGAAATCTGAATTTCGATTACTTTCTTACTTAACGAAGGTTTACCTGTCT
+TCCTTGCTGCAAAAGCAGCAAATAAAGCTGGTGTTTTGTAGGTGATTTTTTTCATTTTTA
+AGCAAACAATAAAAGCAACTGTTCTCTTGGTGGAAATTTTTTTTTAAAAAAAATACAAGC
+TATAGAGAAAAAAGGAAATGTAATGAAGATTAGCCATGAAATTCTCATTAAGCATAGAAT
+AATTCCATTTATATTTCTGTTACAGGAAAGGGGTCCTGATCCAGACCCCAAGAGAAGGTT
+CTTGGATCTTGCTCAAGAAAGAATTCAGGACAAGTCAGCAGTGCAAAGTGAAAGCAAGTT
+TATTAAGAAAGTAAAGGAGTAAGAGAATGGCCACTCCATAGAGAGAGCAGCCCTGAGGGC
+TGCTGGTTGCCCATTTTTTTTGGTTATTTTTGATGATATGCTAAAATAAGGGGTGGATTA
+TTCATGCCTCTGCCTCCCTGTTTTAGACCATATAGGGTAACTTCCCAACATTGCCATGGC
+ATTTGTGCTCTGTGATGGTGCTGGTGGGAGTATAGTAGTGAGGACAATCAAAGGTCACTC
+TTGTCGCCATTTTGGTTTTGGTGGGTTTTGGCAGGCTCCTTACTGAAACCTGTTTTATCA
+GCAAAGTCTTTATGATCTGTATTTTGTGCTGACCTCCTATCTCATCCTGTGACTTAGAAT
+GCCTTAACCATCTAGGAATGCAGCCCGGTAGGTCTCAGCCTCATTTTACCCAGATCCTAT
+TTAAGATGGAGTTGCTCTGATTCGCACACCTCTGACAGCTCTTCGCCCTCAACTATTTAT
+ATATTTTTTCAGTTTAATCTATCTTAAACTTTTGAATGTTTATTTCATACATTCTAAGTT
+GGTTTATATTTTATAATGTATTCTAAATATCTACTTAATACTTTAAATGTAAATGCATGA
+TTTTTAACAAAATATTTTAATAGATGTTAGTGCACAATATTTTTATATTTTATGATATAA
+ACAACTTCAGAAATTATCATCTGTCCATTTGTTCATGGATTTGAACAAGTGACTCAGATA
+ATTAAGTATTTTTAGCCTAAGGAGCAGAAGTTTTAATGACTTTCATGTGGATAAATTTTT
+TGCAGCAGCAGGATGTAGATCTAGGGTGAGTGAATGATTAAACAACACTGGTGACAAATT
+CTAAAGCAATAATTTCTATTTATTTATTTTCTTTTTTTTGAGACAGAGTATTGCTCTGTT
+GCCCAGGCTGGAATGCAGTTGTGCGATCTCAGTTCACTGCAACCTCTGCCTCCTGGGTTC
+AAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGAATGCCACCACAC
+CCAGCTAATTTTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTAACCAGGGTGAT
+CTTGATCTCCTGACTTTGTGATCTGCCCGCCTGGGCCTCCCATAGTGCTGGGATTACAGG
+GCTGAGCCACCGCGCCCAGCCTAAAGCAATAATTTCTAATAATATACTCTTTAAAAAAGT
+TAATCTCAAAACAATAAGTTAAAAACAAATGAGAAATTCAGATGCTGGATTGTAGGTGAG
+CTGGTCACCTCCTGGGAGAACTCATTCATTCCTTATTCAGAGCAAAATGTTCTAGGTTGA
+TCAAGGGAGAACTGACATTCTGAAAGCTATGCCAAGGGCAGGGGTTTTAGGGGTGAAGAT
+CAAAGCAGCGCTGAGTGTTCTTCCTTTTAGCAGTTTGTGTTTCTTTCCTCTCCAGCTGCA
+GCTATGATAAGGTAGACTAAAGATTACTTCTCCTTGTGGGTGCTCTTAAACTTAGAAGGT
+AAACCAATAGGCACAGTTTAGCCTGTTGTAAGGTACAAGTTCAAAATACCAAAACCTATT
+TTCTTTCTAGGCGATAACAATAAAAAAACAAAAGTGGAAATTTTGAAAAGTAATATTGAA
+AGAACTCAGGGTTAAATCTGCCAAAAGGGATGCAATGCCTATATAGTGGAAACCACATGA
+CATTGCTAAGATGAATTAAAGACCTACATAAAGGACAGGTGTATTCATGGCCAAAGGATT
+TAATAATTTTAACATGACGAATGTTCCATAGATTCTACATAACTCAATCAAAATCTTAGT
+AGGCATTTTTTGGAAAATTTAAGAAGCTCATTCTAAAATTCATGTGGACTTACAATAATC
+CTATATTACCAAGACAATGTGGCATTTGTATTGAAAGAGATTAATAAAGTAAGTCCAGAA
+ATGAACCCCACATATATATCAATAATTTTTTGGACAAGGGTCAAAGGCAACTCAGTGGAG
+GAAAAACAATGTTTTCAGGTAATGTTGCTGGAAATCTTGGATCCATACATACACACACAC
+ACACAATTTAATAACTTCAATTTATACCGAGCAACATACACAAAAAAAACTCAAAATAGA
+TCACAAAGCTAAGTATAAAACCTAAAATTACAAAACTTCTAAAAGAAAACAAGTAAAAAT
+CTACATAATCTTGGGTTATGCAAAGAATTCTTAGATATAACACCAAAACTACAAACTATA
+AAAGTACAAATTGATAAACTGGATGAAATCAAAATTAAACAAATTTGCTCTTTGAATGAT
+ACTGCTAAGGAAATAAAAAGCAAAGTCACAGATAGTGAGAACATTTCTGTAATTCATATA
+TCTGATAAGGAACTTTTGTATCCAGAACATATAAAGAAGTCCTAAAATTCAGAAGGAAGA
+AAACAACTCAAATTTTTAAATGGTCAAAATATTTGAACAGATACATTATCCAAGAAGTAT
+AATCATGGCAACTAAGCACATGAAAAGATGCTTATCATTATTTGTCAGTAGAAAAATACA
+AATAAAAATCACAGTGAGATAATACCGAGACAGCCAAGTAAAAATAGGTCCCTGGAGAAC
+CTCTGACCGGCCTGGGCACTGGGAGGAATGGGCACTAGGTGGAGCCTCGGGAAGTTCGCG
+CAGATTGCACAGGGGCGGAACCTGGCCTGTCTTCTTCCGGGATGGAACGAGGAATTCAAT
+CTACAAGGCCGGAAGCATATATACTAGCAGAACTTTTGCTCTTCTGAGAGTCCCTCTTTT
+CCTTCTTTTTTCCTTTTTACCCAATAAATTCCATTTTTCTCACCCTTCAAATGGTCTGCG
+AGCCTGATTTTTCGTGGTTGTGTGACAAGGACGCCTTCTTTAGCTGAATGAAGGAAAAGT
+CCTACAACACTATGTCACATCTATTTGAATAGCTAAAATTAAAAGGACTGGTCCTATCAG
+TATTCATTAGGATGTAGAGAAGCTAGAAATCTCATACAGTGCTCATGGGAATATGAAAAG
+GTGCAACCAATTTGGAAAATAGTTTGAAAGTTTCTTAAAAAGTTATATATGTAGCTATCA
+TAAAACACAATCATTCCTGGACATTTATCCAAGAAAAATGAAAGCACGTGTCCATTTAAA
+GGTGTTTACATGAGTGCTCAAGCAGCTTTTTTGGTAATAATCCAAGCTGGAAACAGCCCA
+AATGTCTGTCAACAAGTGAATGGATAACAAATTGTGGTATATAGACAAGATGGAATACTA
+TTAAGGAATAAAAAGGATAAATTCTTATTGATACATGCAACACCATGGATAAATTTTAAA
+ATGGTGAGTTGAATGAAAGACACACAAAAAAATCATAAGATTCAATGTATTTAACAATCT
+AGGAAATGCAAACTACACTGTAGTTGCAGAAAGTCCATCAGTGATTGTGAGAAGTTGGGG
+TGGTGAGAAAGGTGAGATAGAAGGATTATCAACGGACATGAGAAAACTTTCGGGGGTGAT
+TATTGTGTTATTATGTTATACTGAGTGTTCTGATGGTAATACTGGTGCATTTACATGTCA
+AAATTCACATTGTACATTTTAATATGTTCAGCCTATTATATAACAATTATACTTTAATAA
+AGTTATTTAAGCAAAAGATCACTTTGAATGATTGGGTAGCTGTAGAGAATAGGCTACTTA
+GAATCAATGAATTTAAAGATGAAATTCCATATAGGTCAATTAGTCCAAATCTTTATATGA
+CACTTGAATTTTCTCTACAATATCAATAATCACCAGGCTGAACACCACAGAATTGAGAGA
+CTTACTGTCTTCCAAGGCAACTCCTAACAACTTTGAGAGCTGTTAGATTTTGTTTTTTAA
+TACTTGATTGTAAGGAGTCAAAATAATGGCCTCTGTGGTAGTCACACATGGATCCTTAAC
+TAACTCTTTAGCATTTCAGGGCTTTCTTAAAAATATGCAACATATTTTAAGTTTAACCCT
+TCAAATATTTGGGGGAAAAAAATCAAGGTTCCATGAATTTTTCTTTTATAGGATAAAAAG
+CTCTAGGTACTCTATTCAGTAAATATTTATTGACCACCTACTATGTTCCAAACTCTATTT
+ATGGTACTGAGAACAGAGTGGAGACAGGAGAAGATGTCATCTCTGACCTCATAAAAGGGA
+AGAGAAATGTTATGCAATTCATAACAAAATTTGATGCCATTTAGCATAGTATAGGGGCAT
+GGCACAAACTACAAGATCATGTTACAATGTTTATAATCTAATTTAGTCATCAAGGAAGGC
+CATCTACACAATGTTAAGCTTCAGTTGAAACTTACAAATAAGTAAAAAGTTATTCATACA
+AAGATGGGTTTGAAGTGTGTTCCAGCCAGACTGGATACCATGTGTGTCTTATAAAGGAGC
+CAAAAATGGCCTGATGTGTTTCTTCTTCCCTACAGGATGGGACCCATTTGTTCACAATCT
+CACCAGCACCAAACTTAAATTTTACACATCCAGGTGTTTAAGCATAACCCAATTAAGCAG
+ATTTTTAAAGCCATTTGGAGTCTATATGCTTTGCAAGTTTCATGAAACTATACCCAACAT
+CTCCTAGCTATAGATAAGATAAACCCTGTAGCCATTAAAAAAAGAAAAGAAACGAAAAAA
+AAAAAAAACCATGCAAGCTACTGCTGCCCTTCTCAGCTCTCTGATCCAGGGACTCATTCT
+CTGTGCTGAGAAACATTACCGTTCTGAGTTGTGGCGTTCCTTCTCACTTTCCTCACTATG
+TCCTCTAGATGGTTTCATGCTGTTAGGGACTGTCTAGGCAAAGAGACAGCTTCTCCTTCA
+CCTTCTGAAGGCTCATGGAAAATCATTGACAAAGGCAGATTTATTGGAGAGAAGGCACAT
+AAATTTATTTGTTCACAGTTTTATGTGGTATGGGAGCCTAGAGAATGAAGACTCTACTAT
+GTAGAGGAAAGTGTTCATTTTTATGCTTCAGTTCAACAAAATATGGACTGCCGTGTAGAA
+ATAGGACTGGACAAAGAAGGAATGGTCTAATGCTAGCAGAGTGAGTGGGGAAGCCCAGCA
+AGGCCTGTCAGCTTCGGTTCTTCTTGGCCTCTCTGAGCAGCATTCCTGCATTATATGTAT
+GGGGCAGGACCCCCTCTGGAATGGGGGTCTTACAACCCACAGTCAAACCAGGTGGGTCAA
+ATAATTTCTTTATGGCCAGATTTTAGAAAGGAAGGTGAGAGGAAAGTTAGAGTAATATTT
+TTAGGTTTTATGTCTGGCTTGGGGGAATAGAGGTTCTGGTTTCTATGACCTGCTTTGGGG
+AAGAGAGATGCCAGTTTTTGTGTCTCGCCTTGGGAAAAAATAGCGAGCTACAGACAGGAG
+GGCAGGAGAAGGTCAGAGAGACTGCTTCTGAGGCCTTCATTTTGGAGTACTGTTTCTGAT
+ACCCTACAGGACTTCCCCTATATGCACACCTGTCAAAGCAGCAACCTAAATAAAGCTCAT
+TGTGCACTATTGCTACCTAAGCATCCTTTTATTTTCCATGATCAGCCCCAAAATTCGTTT
+AACTCACCACAGACCAAAAGTGCAAATGTGAAAGAAAAAGAAGTGCTGAGCAACTTAAAT
+GAATTTTTAAAATAATATATTATATGAAATAGGTTTTAGTTCTTAAAATATCCTATACTC
+TCATTTGGACACATTGATTTTAAAGAAAGAGTTCCTTGACTGAAAGTAGTATACACTTCC
+AATTAAACAGGATTGACACTTTCTATTCTTTAGATACTATTATTTACTCCTTGGTGCAAA
+TTTGATTACCCATGTGATTGTTAACTTCTCATGCTAAAAAGTCATTGGATTTGCTGTTAT
+CTAAGATTCCTGTCTCTTAACACATGCTCCTATTGTCATATTTCTACTGTTCTATATTTG
+TGTGATTTTTGCTAAACAAAAGTGTGAAGACTGTTTTTTTCTCTCTCTCCACATATATAT
+ATATACTCAAAAAACTTGTAAGCATTTATCACTAATTAAATATTTACATTAATATCTTCA
+TATATTTATTTATTAATTGTATTGTCCATTTACCACATTATTCTGGTATCCTGGCCAGGT
+TAATTCCAACCTTAACCCTTTATGATTTAATAATTGTGATTTATTATTTTTCTCTACATG
+TCTAAAATTTAATAATCAGTATATACTGACATTATTATATATTTACTAACATTATTCAAA
+AAAGGAAAAATTAAAATGTTTTCTTTTATATTAGTTCCTTAAGATAAAGTTCTTATGAAC
+ATACAACGCAGGTGTTCAACAAATGTCAAAAGTAAATTTCATAACCTACTTCTTTAAGCA
+ACACACTTAGTGGCCCAGAACAATATATTATGAATGTTATACCTCACTGCATTGCTTCCA
+AAATGTATGTCAGTTACAGATATAGGCCTTCTCATATTGCATGTTCTTCCCATTTATAAG
+TAAATAACAGTGCCCATGCAATGTATCTGTCCTAGTAAAATGTGGAAGTTCAAATATATT
+TTTTCTAAATAATCACCTGAAATTACTAATTGTTGATTATATTCTCTAAAGAGTTGATTA
+ATTAATTTATTAAATCATCATGAGGTTCATTAAGCCAGAGCCGTGACAGAGAATTAAATA
+AAGAAGTAGCTATGTGCAAACATTTTTTTAAACATTGCAACTATTTTCTCAGTTGCGTTT
+CATCCATATCCTCTGTCTGTCAGGCTGGTTTAAATCTGGGTAAGTTGGTGGCACTTTAAT
+ATGCAAAGAAGTTCTGTGTTTTCACAGCAGATCACCCACTAGAACTAGAGTTAAACTTTA
+TTTAAATTTCTCATTAGATAATTTGAAAGTGACAAAGAAAGAGGGGCTGTGGAGTGACAG
+GTATGAGAAAATAAAAGACATTTACAATAAGGTACAACAATAACGCTATTTCTTTTTGAG
+TGTTTACTATACACCAAGCATAAACAAGCTTCATGTTAATTCTCATAGTAACTTAGTGAA
+GACACTACTATTATCATCATTTTAGATGAGGTCAATGTCAGATCACAAGCACCTGATAGT
+ATTGTACTCAAACCCAAGTTTCTCAACACCAAAGTTCATATGCTCAAAATAGACCTCATA
+CTACTCTCATGTAATAAGTCAAGTGGTTAATGATGTCATTACCAAATAAGGAGCCTTCTA
+GATGGGCAAAGAAATTGAACAAAATCTGCAAATGTAACATGAAATACTGCAAAAAATATT
+ATAAGCTACACACTGAAGGTATTAATACAAGTTAGAGTTTTATATTTTTAGACAAAGTTA
+ATTGGATTTCCACTTCCCATTAGGATGCAGGAGTACATAAAAGAACTTCTGTTCCATGGT
+GGTAGCAAGACAAAAATACAGTAAAATTTATTATCTTTATAAAGCTATGAAGAGCAGTGG
+ACATAGAGGTGTCTTGAGCACAATTCCAAAGAGAGATAATCCCTTCCTGGGTGATCAAAG
+TGCCACTGCCACACTGGGGTCAAGGACTTAGTGTGGCAATAAGTGGGTAATAGACTGGTC
+CTTCTATAGGCAGAGAGCCTTACAGAGACATTGTGAAACCAGCCAATGTTATAATGACAC
+ATTGGAAGACAGAAAATTACCAAATAGTCAATATTTCAGCCTGACAATCCTCCCACTGCC
+CTTTTGAGATGATTGCTGAGTAAAGGCAACTGAACTGAGTGAAAAGCAGAAAGTCATGAA
+GCGAAACTACCTACATTTGCAATTCAAACCCCTCCCAGCTTGAGTCCTGAAAAGAGCAAA
+GAAATTGGCTGCAGAGAAAAGAGCGACTGCCTAAATCCAATATGAAACCACAGGTGAACA
+CAATCAATTCATGGTTCCAGGCACACAAACACAAGTAAAACTCTTCATGGAATCTGAAAA
+CTCATTCCTTAAGAGTACTTGCCCCCACAGAGAGGAATGGGCTTGAACTCTCTTACGAAA
+AATCACACAAAACAAGAACAATAAAATACATTATAGTTCAATCTGTACTCTTTTTAATGT
+AAATAAATGCTCAACATTTAATTAATTTTTAAAAATGATATACAAGACATCAGGGAATGT
+TACCTTGATTAAATGGAAAAAATAGTTGACAGAAACAGAGCAACAGATAACCCAGATTTG
+GGAATTAGCAGGAAGAAGTTTAAAAGGACTATAATAAGTATATTAAATAATTATGAAGTA
+AAGCAATGAAACAAAAGAAATAAATTAGGAGAAGAGATGGTGAAATACAGAATAGAAAAC
+AAACTACATAAATGAAATAAAAAATCTAAAAAGTAAAAATACAACATATAAAATGTAAAA
+TGTATTCAAAATTAGAAACTTAAAGCAGTCTAAAACATTCTTCCCCTCCTGTCCTTTGTG
+AACATTTTGAGCACAGTTTGGACACAGCAGAAAGAGTTGATGACTCTTAAACAGATGGAT
+AGAAATTATCCAAATTGAAGTACAGTGACATATATATACACATATAGATGTATATATTTA
+TATATAATATATATTTATGTATTTATATATAAACATATCTAAAATATATATTTATATATA
+TAAAATATATACATATAGATGTATAAAATATATACATATAGATGTATAAAATATATACAT
+CTATGTTTATATATGTATATGAAAAGACAATGAATGCTAGTAGACAATGAGACTTTCAGT
+GTGTGAAAAGGGAAAAAAGTCCCTGCAATTCTTTCTTCAATATTCAGCAAAATTATCTTT
+CAAAAATAAAGAAATCTTTAGATACTTCAAAGCTGAGAGAATTTATTGGTTCCCAAACCA
+CCCAAAAAATATGCTGAAGGAAGCACTTTTAATGAATGAAGAAATCCCAAAGTATCTTTA
+AAGAAAAAACAACTAGAAATGTCAGGAGCACAACGCCAATCTACAAAATTTAACTGTATT
+TCTACAGAATAGCAACACATAGTTGGAAAATGAAATTTTAAAAGTGTACTATAGTATCAA
+ATACATAAAACACTCAGAATAAATTTATTGAAAGATACGCAAGAACTTGGCAATTAAATA
+TAAAAATCAATGTAAGAGAGGTTAAAGTTGATGTAAGTAAATGAAGAGATATGCCATGTT
+CATGAATTGGAATCAATATTATTAAAATGTTAATTCTCAAATTAAAGTATTGATTCAATG
+CTATCTAGATGAAAAGCACTGCTTCTTTGTAGAAACTGCAAGTTCCTTCTATAATATATA
+TGGAATTGAAAAGGATCTGGCATAGCCAAAACAATCCAGAAAAACAAATTTCAGTATTTG
+GTTTCAAGGCAATATATTGTATTATAAGAGACACTTATTTCCTAATTGCAAGGCTTACAA
+TAAAATTACATTAATTTTGACAACATGATTTTGACAAGAAGTTAGGTAAATACATCAATG
+GAACAAAATAGGGAGTCCTATGAATTAATGCAATTCAGAAAAAAAGTCTGAAATAAATGG
+TGTTAGTACAATGAAACAATGGACCTTTTACACTGTTCAAAAATTAACTGCAAATGGACT
+ATAGACCTGAACATAAAAATTAAGCTATAAAGCTACCAAAAGCATAAATAAGGAAATATT
+TTCTCATCTTAGGGTAGACACATATTTTGTAGACATGGCAATAAAAAGTACTAAATATAA
+AAGAAAGAAACAGTAAATTGAAATCATGCTCATCAAAAGACACCAATTAAGAAGGGAAAC
+AAAAAGATACAACTGGGAAGAAAATGATTACACTTCATTTATCTAACAAAAGACATATTC
+AATTACATAAAGAATTCCTACAGTTCTGCCTGGGCAACATAGTGAGATTCTGTTTCTACC
+AAAAAAAATTCTTTTTTAAATTATCCAGGCATGATGGTGTGAGTGTGTAGTTCCAGCTAC
+TTGGGAGGCTGAGGTGGGTAGATTGCTTGACCCAAGCAGTCCAAGACTGCAGTGATATAT
+GATCATGCCAGGAAGCTCCAGCATGGGTGACAGAGCAAGACCTTGTCTTTAAAAGACAAA
+ACACACACATACAATTTAATAATATAGGACAAATTATCTAATAAAAATTGGCAGAAGACA
+TGAACAGACAATTTCCAAAAGAAGATAGATGGATGGCTAATAAGCACGGATACTCCTTGA
+CTTATGATGGGGCTTCCTTCCAATAAACCCATCATAAGTTGAAAATATTGTAAGTCAAAA
+ATGCATTTAATACATCTAACCTGCTGAACAGCATTGCTTAGCCTGGCCTTCCTTAAATGT
+GCTCAGAACGCTTATTTTAGCCTAAAGTTAGACAAAATCATCTGTCAACACAGTTCATGA
+GGTTGCTTAGCCTCATGAACTGTGGCTCACTGCCTCTGCTCAGCATCCCAAGAGTTTCCT
+ACCACATGTCACTAGCCCAGAAAAATATCAAACTTCAGAATTCAAAGTACGGTTTCCACT
+GAAAGTATATCACTTTTGCGGTTTCTACTGAAAGTGTATCATTTTTGCTCCATTATAAAG
+TCAAAGAATCATAAGCTACACCATCCTAAGTAAGGGATCGTCTGTAAATGAAAAGGTGCT
+GAATATCATCAGGAAAACTTAAATCCACAATGGCATCCCACTGCACATCCACTGGAATGA
+AAACAAGTAAAAAGCCAGGCAAGGCGCGATGGCTCACACCTGTAATCCCAGCATTTTGGG
+AGGCCGAGGCGGGCAGATCATCTGAGGTCGGGAGTTCAAGACCAGCCTGACCAACATGGA
+GAAACCCCGTCTCTACTAAAAATACAAAATTAGCTGGGCATGGTGGTGCATGCCTGTAAT
+CCCAGCTACTTGGTAGGCTGAAACAGGAGAATCACTTGAACCCAGGAGGCAGAGGTTGCG
+GTGAACTGAAATCGCACAATTGCACTCCAGCCTAGGAAACAAGAGTGAAACTCCATCTCA
+AAAAAAAAAAAAAAAAAAAAAAAAGCCAGACAAACTTTTTTATTAAAAAAGTTTAATAAA
+GATAGGAGTCAATGAGAATCCTCACATATGTCTAGAGGGAGTGCAAAATAGTATCAACAC
+TTCAGAAAACTGATAGGCAATTTTATATAAACTTAAATATATACTGGATCTTACCAGTTC
+CTCTTCTAGGTATAAACATGAAAGATAAGAAAGCATGTGATCACTCAAAAAGACAAATAC
+AAAAATGTTAATAGCAGAAAATATCCATCACCAAAAGAATGGAGAGTCAATATAGTTTTA
+TACATTGCTGAGTAGAATATTCTACTCAGAAATGCAAAAGAATAAAGAATTTATGTTTAC
+AAAGCATGGATAAATCTTAAAAACATTATGTTGGAAAAAATAATGCAAAACAAAAGCATA
+TACTGTATCATTCTGCTTATATGGAAGTCAATGAAAAGCAGAATTAAACTATCATGCTAG
+AAATCAAAGTAGCGTTTACTCCAGGGGGAGTTTGAGCATTGACTGGAATGAGGCACAAAT
+ATTATTTCTGGGGTGATAGAACTATTCTGTTTTTTGATTAAGGTTTTAGTTACATGGGTA
+TATACATTTGTTAACATTCAACAAACTGTACTGTTAAGATTTACGTACTACACTTTAAAT
+AAATTACACCTCAATTTAAAAATGTCTAAAGGGTACTTGAATGAGGGAAAAATGAAAGAC
+ATGCAGATCCCAAAAAGCAAGAGTGTCTCCTTAGAAAATATCCAGGATTAGTCAAATCTT
+GTTTTTTATTGTGTCTATTCCAGCCTTCTTCTTTAAAATGAATTTGGAAAATATAAACAG
+TAGGTTAACAGATTATGGGAAGCTTTTTTATTTTTAAGGAAGAATACAAAGGTATTCTTA
+TATTTTGCCTTACTGTAAAACTCCCCAAACTCTACATTTGTGATAACTAAGCTTTCCTTT
+TAGGTTCAGGATCCATTACACTTCCTGAGTAGTGGAAATTTTGGTTCTTCAAGGATCTCA
+GTGTCAACATTTTTCAATATCTGACCCTGGTTTACACTGATGTTTATATTTTGCTTATTT
+GTCTATGGAGCAGTATGATTCATCCCTTATCTTGTACCCTCAGTTGCTAAAAGATTACCC
+AATTTATAAGTGACTCAACTGATATTCCCTGCCTGGTCCTCAAATTTCATCAGGACTGAA
+ATTCTTTCTCCACAGATCACTCAAAAACTGCTTATTAGAAGTTTACTATGTGCCAGACAC
+TATATGGTAAGCACTGAATGTATTGCAGAGATGAAGGAACAAACACTTTCTAATTCTTCT
+GGGAATTAGAATTGTGCCTTTGAATACAGTGAGTGAATATCTGTTTGAGTACTTTATTAT
+GCATTAGACACATGAAAAAATGCAGTATGTCCTAATGGAAAGAAAATTGTAAAATCAAAA
+TTAACATTTATTTAAATATCTCTTTAATGAAATATTGTTGCCTATAGCTGTCAACTTAAC
+ATTCACAAAAACCTAATTAAATCTGTCAGGATTTTGTCATTTAAACTTTTACATAACAAA
+AATTCCCAGGCTTATGGTATAATTACAGATAGCATATAGCCAATTGTATATTAAAGATAT
+TCATTCAAACATATTTTTGAAATCATAGAGATACTCTTTTAAAACTTGGATAGAAAATAG
+TTTAATACAGAATCCAGATGTCTTTTAATATGTCTGATATCATATATTCATTGGGGTAGG
+TGAGGCTGAACAACAAGTGTACTCAGAAATATAATGGATCAGCAAACTGAAAGTTTTTAA
+TGTTCACCTATTTAATACCTATGGGAGTTCCAGGTAGGTGGACACTGGGGCTGGTGGAGC
+AGCTGAGTCTATGTTCTGCTTTATTTCCTAGAGTCGAGCAGGAAAACTAACGTAAGTCAT
+GCTTGTGGGTATTCCTTGTGGCATATATTGCTTTGGCCCACCTTATTTCATCTACAGCTC
+AGTTATACAGTCTCTCATAGGTTAAGACGTGGAGACTAGCAATAAAAAGGAGTGTGGCAA
+ACAGCTAATCCATCTCTTGGTCTGGGAGTGCCCTAGAGAAAATGAAAGTTATAAGATCAC
+TGCTTGTTACCACTGCTTTTTATTTTACTTTATTTTTATTTTATTTTATTTTACTTTTTG
+AGACAGGGTCTCACTCTGTCACCCCAGGCTGGAGTGCAGTGGTTTGATCTTGGTTCACTG
+CAGCCTCCATCTCCCGGGTTCAAGTGATTCTCCTGCCTCAGCCACCCAAGTAGCTGGGAT
+TACAGGCGTGTGCCACTATGCCAAGCTAATTTTTTTATTTTGAGTAGAGACAGGGTTTCA
+CCATGTTACCCAGGCTGGTCTCGAACTCCTGAGCTCAAACAAACCACCTGCCTCGGCCTT
+TCAAAGTGCTGGGATTACAGGTGTGAGCCACCATGCCCGGCCACCACTGCTTTTTAAATC
+ATAAATTCGCTTATTATCTGCTACCTGAAACAGACAGAATTTTTCACAAACCTGTCAAAA
+TTGGTTCCAATAAAATTTTACTTTAACTGAATGGCTACGATGAAAACTTCTTTTATAACA
+TAGATTTTTTTCAGACCCTTTTTAAAACGAAAAGTACCTGATCGTTTTGTTCTCTTTGTT
+GAAAAAGAATGAAAAAAGTAAATTTATTCTAAATCTTTTCTTTATACTATAAGTGATAAT
+AATTTGAGTATCCCCACAACACTTTATGAACCAGATTAATCCACTAAAATCACATGTGTA
+TAAAATATATAAGACGGCATTTTATACATATTTTTCCTCCTTAGACTCTAGCACAGGGTC
+CTATGACCATATCAGGAATTCCCAGGTGTTAGTTAAGTTAGAATTGCTTTGACCGAAAAA
+GAGCAAGCTGTGTGGTATCTTCAAGAATTTTGTGTAATAGAATTGCTTAGAAATCTTGTT
+GGTCATTCAGTGCCCATTTTCCAGGAAGATCAGATGTTACTTTTACTACCTGATCCCTTT
+ATTGCTTGTTGTTTATCATATACTAGGCACGGTACTTGGTAATTTGAGGATTAAAGAGGT
+TTTCAAGACACTATTCCTTGTCCTCAAGGAGTTCACTGAGGAAACAAGGAAGAATGCTGT
+GATTACGACAGTGAATTAATATTAGGACAAGCCAAGGATTTCTCCTTGTACTAGTGATAA
+GAACTTTTCTATTTTGTTTTATTTATTTATTTATTTAGAGACAGAGTCTCGCTCTGTCGC
+CAAGGCTGGAGTGCAGTGGCATGATCTCAGCTCACTGCAAGCTCTGCCTCCCCGGGTTCA
+CGTCATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGCGCCTGCCACCATGCC
+TGGGTAATTTTTTTTTTTTTTTTTTTTTTTGTATTTTTAGTAGACACGGGGTTTCACCGT
+GTTAGCCAGGATGGTCTTGATTTCCTGACCTTGTGATCAGCCTGCCTCGGCCTCCCAAAG
+TGCTGGGATTACAGGCGTGAGCCACCGCGCCCGGCCCATAAGAACAGTTTTTAAAGAAGA
+CTACAAACCACTTCTCTTTGGAATTTTACTCATTTCCTTCTCTGGAAGCCGTGTGATAAA
+GCCAGGTGACTTGTGAATATCTTCTTTAGCATCTTGACTTTAAGTATAGCAGTATGCTGT
+CTGAATTATTTTAAAAAAATATATTCCTACAACTCTGCTAGGTTTTAATATTATAATGGT
+TAGACTTACAATCGCCTTCACCTCAATTAGTCCTTTAACTTTAAACATATTAGGCCAAGC
+ATATCTCATAAAGTTATCACAAGAGACTAAAGTAAAGGAGCAGTAGTTCATAGGAATGCA
+TTTAAAATTATTTCATATTTCTTAAAGTGCTGATAGTTTTCAGTAAAGGAGAAATAAAAT
+CCACTCAAAAAAGTGGCCTTTCTTCATCCTTAGTAATATTCCATTAGCAATAAGATACTT
+GTGTGTGCGCATATGTGTATGTCTGTGTTTGTATGTGTACAACATCTCGACAGCTTAGTC
+ATTTTATGAATCTCCTTAGAAGCCTACTGTTTGCTCTGTTTGTTGACAGTAGGTGTTAAT
+ACGGATCCAGATATCTCTAGTCTAACCACAGATGCAACTGAGACCTCAGAGCATATACTG
+GATTATAGGTGGCTACAAATTCTTAGTCATTCTCCCTATAAAGGGATGTAGTCTAGTTTC
+CTTTCCCCTGAATCTGGACTCAGCCTGTGACTCACTTGATTGGTAAAAAGCAGAACTAAG
+TAACATTGCACGATTCCCAAAGCTAGGTCATATGAAGTGTTACACCTTCTGCCTACCTCT
+TTTGGAGTGCCTGCTGTAGGCACTCTCCTTCTGAGAACTCAGTTGTCATTGTGAGACTCC
+CATGCCACGAGGACAGCCCTGTGTAGATATCCAGTCAATAGCCATAGCTGAGCTCTCAAC
+CAGGAACTGGCATCAAATTCCACCCATGTGACTGAGCCATTTTTGGCATGCAATCAGTCA
+TGCCTTCTGCTGACTGCAGCTTCCTCTACTACATGACAGACCTCAGGTGAGAACCATTCA
+GCTGGGCCCAGTAGTCCACAAAGCTGTAAGAGAGAATAACGGAAGCCACTAAGTTCTATG
+ATGGCTTATTACACAGAAATAGATAATCCCAAGCCAGTGAACTCAGAAGCCCATCGTTCA
+GTTTAATTCTGTTATCTTTTCAACCTCAGAATAACTGTGATCAAAGCTACATCACTCACA
+CTTCAAACAGGCTTCATCTTGCTCTGGAGAACTCATCTTGGTATAATTTTATGTGACTGG
+GGATAGAAAGACTCAAATGATCTTTGATTGACTTCATTTAAGTTTTGATTCTGCTTTATA
+AAGTAGATTTGCATGAGGGTACTTGCAAGTTTGGAACCACCTTTCATTAAAAAAAAGAAA
+AACTGAAAATACTTTATTATTAATGGATAGTTTATACTTAACAGGTAAAATCGAGAGTTT
+GCTATAAGTTTTCTCTAAATGTACCCTAGATGTAAACAGGGCCAACACTTTCCCCAAGGT
+CTAGACAATATTGGTCCAAATTCACATTTATTGATTAATGAAAAATCCAATGCCTTCCAT
+AAAATTTCTGTGAAGTAACTAGGTTGGAAGAGGGTTCACCTGATGTTCTTAGGGCGACCT
+CTGGTTTTGAGATCTTGCTTCTGAATTTAATGAATTTCAGAATCTTACTGACATCCAATT
+CGTACAGTTCTTATTCCAAGTTCTATAGACCTAGATAAGCACACTGTAATTCTTTAATTT
+CCTCCAATAAATTGTAAATAGATTTCACTGTGGGTTCAGGGAATACATAGACACATATTA
+AAAGTCAACTCAACAATAGATATGCAGGTTCCTTAAAAACAATCAAAGAACCATAAGGCA
+GCTCTCAATCATTCCACAAAAGTGGCATTTGTCACTTGTGCTCATATTCTGTTAGCAAAA
+CCAAGTGACATGGTCAACCTTCATGTCAGCTGGACAGAAATGGATTCTCCTCCTCAAAGG
+AGGTATTGCAAAGCTCATATGGCAATGGGAGAGGGCAAAAATCCTCTTACAGTTAGTGGA
+TTCATTATGTGAAGAACATTCTAGAAGAGGGACTAGCAATTAGAATGCATTTGAGGCAAT
+AATATGCTTGATACATTTTGGAGACATCATCAGGACAGGTTTGTCTGTAACAAAGTGAAG
+AAGAAGAAGAATGAAAGAAAATGAGGATCATAGAAGTAGTCAGGATTGTGTAGGTTGTGG
+TTAAGACTTAAAATTGTATTTTAAATGGGATGAAAAGCCAGAGAGGGATTTGAAAGGAAT
+GGTATGATATGATTTACATTTTAAAAGAATGATGCTGCCTTTTAAGAGGGGAATTAATTC
+TGCTCATGGCAATGGAAACAGGGAACCCAATCAAGAGGCTTTTTCAGTAGTTCAGGTAAG
+AAAGGAATGCAACATTGATGTTGGAGAGGTGATGTAGCAGAAAAGGTAGTGAGAAATAGT
+TGGATTATGGACATCTTTTAATGGAAAAGCTGAAAAGTTTTTGGTGACTTTGATGGCATA
+AGGAGGAGGAAATAAGGGGACATTTACTGAAAATCTCTCATGGAATAGCAGATTTGGAGA
+CAGGCATATCTCAAATATGTTAAAATTGAGATGGCTATTTGACATCCAATAAGACATATA
+CGGTATGTAGCAGGACATATGAGTTTAAACTCAAGAGAGGGACCTGGAAGATACTAAATT
+TGGGTGAACGAGCAAATGAATGGTAGATAAAATCATGAGACCAAAATACAGGGTCAGTAT
+AGACAAGAAGAGAAGTTTAACGTCTGATTCCTCAGGCACTGTCATATACAGAGGTCAAGG
+AGGATAGAAAGAAACAGCCAGTTTAAGAGAAACCAGGGTAATGGTTTTCCTGGAAGAAAA
+TGTCTCAAGAAAGACAATGTTTTGTGTGCTATTTATAGACCAAGTAAGATGGAGGCTCTG
+AGTTGTATATTATATTTAGAACTGTGCGACCAGGATGAAAGTGCTAGGTATTTCAATGAA
+GTGATGGGAATGAAAATTGTACTGGAGGAAGTTAAGAAAAACTGGGAGATAAAAACGCAT
+AAGCACAGCCAGGTCATTTTTAAAGAGCTGTCTTTAAAAGGGAAGAAACTAGATGAGTAT
+ATAAAGTCAGGAGTTAGTTTTTTCATTTTGTTTTGTTCTTATTCTGAGGATGTCACAACA
+GGTCTACATTTACTCATCACTGGCTCATTTATTTGCATGTTAAAGTAAATACACACACAC
+ATACACGAACACACACAATCAACATAGCACATCTTTGTAGTAGTGAGATGTTCTTTGCCT
+TAGCCCATCCCATCTGTTCAACTTCTCACCTCGTTCATTCTGTGTTTAAGCAGCACACGA
+ATTTTCCCTTTTGTTTCATTTGTCTCCTCTTGACAATGAATCAGCAAATTACTCACAACT
+GGAAAGGCTTCCATGCTGAAACCATAACAAAGAAAGCAACTCCAATTCTTTTCATCTACT
+GAAGCCCTCAAGCTTGAGTATCTGAAACTTACAAAGTACTTTCTAATAATTATTTCATAC
+CAGAGCGTACGCAGTGAGGTTGGCAGCATACACAGGAGGAGAGAGTGGAGAGCTAACAAG
+ACAGACAAGGTCTCGCAAGAGAAGACAGTGAAAAGCAGTGGTTCATATGTGTTGACTTTC
+TTGTTGTTATTATCAATTACTTGTGCTTTGGCCCTTTTTGGTTCAGCCTTACTACAAGTT
+ATCAGTTTTTTTAATATTTTCAAAAAATCATTTTTTCATTTTGTAAATTGGGTATTATTT
+ATTTTTGTGTGTCATCATTCTCTACTCTTCACTGTATTCTATTGTCTAATTACTTTTACT
+TTAATTCATTATTTTGTTTTCAAATTTCTGGTGGAAATTTAATTATTGACTTTACAAAGT
+ATATCGCCATCCACCATCCCCAGCTTTCTCCCAAATAACATCAAGAACTCACAATGTTAC
+ATTTCTAATTACCCAACTGCCCCATTTCTTGTTATTCTAAGTTTCATATTAACTACTTAA
+GTCTTGCTTATTAATTCTCCAAAATATTTAATATTACCTTTGTTTTCTTAAGTCAATGGT
+AATTTTATTTTTAACTATTTTATTTTTTAACTAAACTCACTTTTATTTATTTACATATCT
+AATTTATTTATTTTTGAGACAGAGTCTTGCTCTGTTACCCAAGCTGGAGTACAGTGGTGC
+AATCACAGCTCTCTATAGCCTTGACCTCCCTAGGCTCAGGTGATTATCCCATCTCAGCCT
+CCTGAGTAGCTAGGAATACATGCATGCACCACCACACCCAGCAAATTTTTTTTTGTAGAG
+ATGAGTTTTTGCCGTGTTGTCCAGACTTTGTCTCAAACTCCTGAGCTCAAGCGATCTGCC
+CGCATCAGCCTCTCATAGTGCTGGGATTACAGGCAAGAGCCACCATGCCTGTCCACAATT
+TTTTTTTTCTTTATTCTACTTCAAAATTCTGAAGTTAAGTTTCTTTCTTCTTCCTGAAGT
+ATAATAACAACATAGTACTTTTGTTGGTGACCACCTAGAATTGGAATGATCTCTACATAT
+CATGTGCAATGTCTTTATTTCCACTGCACACAGTGAACATGGAACTGTAGTTTTGTTTTA
+TACATAAATTGAGCTATTTTCCCTTAGCACTTAGTAACATGGCTGTGCTGGGAAGTCTAG
+TTTCAACCTAGCCATTGTTCCTAGCAGGGAATATGGCTTTTCTCTCTACCTGTCTTTTTC
+TTCTTCTTGCCATTCTACAGTTTCACAACGCTGTGTTGCCAGGTAGATTTATTTTTATCC
+TAATATTTTATGTAAGTAGTAATGTATTTAATCAGCTCCTTAAAAATTATTTGTACCCTA
+ATGTGTCCGGAATTGGTCGGTTCTTGGTCTCGCTGACTTCCAGACTGAAGCTGCGGACCC
+TCGCGGTAAGTGTTACAGTTCTTAGATAAGGTGTGTCTGGAGTTCGTTCCTTCAGATGTG
+TCCAGAGTTTCTTCCTTTGGGTGGGTTCGTGGTCTCGCTCACTTCACAAGTGAAGCTGCA
+GACCTTCGAGGTGAGTGTTACAGCTCTTAAAGGTGGCAGGTCTGGAGCTGTTCATTCCTT
+CCAGTGGGTTCGTGGTCTTGCTGGCCTCAGGAGTGAAACTGCAGAACTTCCCAATGAGTG
+TTACAGCTCATAAAAGTGGCACAGACCCGAAGAGTAGGCAATAGGAAGATTCACTGTGAA
+GAGCCAAAGAACAAAGCTTCCACAGTGCAGAAGCAGACCACACCACGTTGCCATGGCTGG
+CTCTGATGGCCTGCTTTTATTCCCTTATCAGGCCCCACCCACATCCTGCTGATTGGTCCA
+TTTTACAGAGAGCTGATTGGTCCGTTTTACAGAGAACTTATTGGTCCATTTTGACAGAGT
+GCAGACTGGTGCATTTACAATCCTTTAGACACAGAGTGCTGATTGGTGTGTTTAAAATCC
+TTTAGCTAGACACAAAAGTTCTCCAAGTCCCCACCAGATTAGCTAGACACAGAGCGCTGA
+TTGGTGCGTTTAGAAACCTTTAGCTAGACACAGAGTGCTGATTGGTGCGTTTACAACATT
+TAGCTAGACATAGAGTGCTGATTGGTGCATTTACAAACCTTTAGCTAGACAGAAAAGTTC
+TCCAAGTCCCCACCATCCCAGAAGCCCAGCAGGCTTCACCTCTCACTGGCACTTGCCCTC
+GGACTTTGCAGCTCCTAGCTGGGGCACTCTGGCAGCCCAGAGGGAGCTCGTCCCAGACAA
+CCAAGAGGAAAAGAGGGGGAGCGAGAAAGAGACAGAGACCCACCATCGTGGCCAATGACC
+CTGCGAAGAGGGAAAGGCAGTCCACGAACGGGACCCAGCCTCTGATCAAGCCCAGCAGGT
+GCCATCCGACCGTGCCCAGTGTGGTGCCCACCGAGCCTGCACCCACCCGGAACCCAGGCT
+GGCCTGTGAGTGCCATGTGCATGCCTCGCTCCCGCCAGTGCCTCTCCCTCCACACCTCCC
+CCCAAGCAGAGGGAGCCGGCTCCAGCCTTGGCCAGCCCCAGAGAGGGGCCCTCGTAGCAT
+AGCAGCTGGCTGAAGGGCTCCTCGAGTGTGGCCAGAGTGGATGCCGAGGCCGAGGAGGCA
+CCGAGAGCGAGCAAGGGCTGCTAGCACGTTGTCACCTCTCATTACTTATTAGCCGTTATT
+ATTATTATTACTATTTATTATTATTATTTGAGATGGAGTCTTGCTGTGTCACCCAGGCTG
+GAGTGCAGTGGCGCAATCTCAGGTCACTGCAACCTCTGCCTCCTGGGTTCACACAGTTCT
+CCTGCCTCAGCCTCCCGAGTAGCTGGGACTACAGGCACCCGCCACCGTGCCCAGTTAATT
+TTGTTTTTGTATTTTCTAGTAGAGATGGGGTTTCACCATGTTAGCCAGGATGGTCTCAAT
+CTCCTGACCTTGTGATCTGCCCGACTTGGCCTCCCAAAGTGCTGGGATTACAGACGTGAG
+CCACCGCGCCTGGCCACCATTATCTTTATTCACTCTTCCTCAAACTATTAGGTGTATGTT
+GACTATTTTCATTCTCTATTCTTCCTACTTTTTGTCTCCGTGTAGCATCTTTGTAATGTC
+TATATCTTTACCTCTTTTGGTTGAATTCTGGGTAATTTTCTAAAATCTAAAGTTTAACAA
+TTCCCTCTTCAAATAGATATATATATATATACACACACACACACTCATATACATATATAT
+AATATGAGTGTGTGTGTGTACATGCACATGCAAATGCATTCACTACTATATGTTTGGAAG
+TTCTAGTTCTATTTCAAACCATGGTATGCTTTGCTTATAAGGTCAAATGGGGTTTATGTT
+CCTTTACTGAAATTTTCATTGCCTTATATATTTACACATGTTAAACATAATTATTGCATT
+TTTTTTGTTTTTGTTTTTTGATTCTTCATCCATGTTGAGGTTCTTATGATCAAATCCTCC
+TCTGTGGTATTGGTTCGGCTTGCTTACATTCATGGAAGACTTTTTTTCTTATGCTCTCTG
+CATGTTTATTATTACTTTATCTGCAGCAGGTCTTGTTTCTGAAATGAGAGAATTCCCTGA
+CCCTCTTCTGGGACTTGCGACTGGTTGTGGCCCATTTGCTCCAGGAGGGGAGCATGCAGA
+TGGGCAGCTGTAGGAGTTGACGTGGGCGCTTTTGGGCTCCAGCTCCACAGTAGCATCTAG
+GAGTGTGTTACAATTAATGCTGTTTTAGCAGTTGCTGTCAGAAGATGGCTAAGTGTTAAA
+CCAGCTCAGTGGAGAGTCAGGGTGACAGCCCTTTACACACTGCCCTCTTGGTACTCAGGT
+CCTTCCCTAGCATCCAGGAAGAATCAGGTCACACTGACTTAAAGGATGGTGAATGTGGGG
+ATTTTATTGAGTGGTGGAGGTGGCTGTCAGCAGGATGGATGGGGAGCTGGAAAGGGGATG
+GAGTGGGAAGATGATCTTCCCCTGGAGTTCAGCTGTCCTGCGGCCTATCTCCTCTCTCCT
+CTCTGACCATCCCTGGTCGAACTCCTCTAGACATTCATACACTCCTTCTCTTCTCTCCTT
+CTCTTCGTCTGGTAAGTGATATACAAAACCCAGAGATGACATTGTAAATAAAGGTAAGGG
+ACTGAATTCTATCTTCCTAAGATCAGGAACAAGGTGAAAATGTCAGTTTTTGCCACTGAT
+GTTCACTATTGTACTGGAAGTTCTAGCCACAGCAATTACTCAAGAAAATAAAATAAATAG
+CATCCAGACTGGAAAAGAAGTAATACGATATCCTTTGCAGATGCCATAATCTTGTACAGA
+AACTTCTAAGGAATTAATAGAAAAATATTTAAAACTAATGAGGCCAGGCATGGTGGCTCA
+TGCCTGTAATCCCAGCACTTTGGGAGGCTGAGGTGGGCAAATCACTTGAGGTCAGGAGTT
+CAAGACCAGCTTGCCCAACATGGTGAAACCCTATCTACACTAAAAATACAAAAATTAGAT
+GGCCGAAGTGGCACATGCCTGTAATCCCAGCTACTCAGGGGGCTGAGGCTTCTCTTCTCT
+TCTCTGCCGTGTCACTCTGTTGCTCTCCCAGTGGAGCTTGGGATTTATATGGGCATAGGA
+TGGGGTGTGGTGGGCCAGAGTGGTCTTGGAAAAGGCAACATTTGGGCACAAAAACAGGAA
+TGCCTTTCCCCATTTAGGGCCACAGGTTTCAAGGCTTGAGGGTGGGAATTGTCCTTTTCT
+ACCCAGTATTTTCCTGCTTCCTGTCCATATCATTTTCTTTTATGAAAACATCCCAAGTCC
+TGGCTTTTGAAAGACCCTTCAGACTAGCTTTGTGTTTGCTTCTGCCAGGTACACCAAAGC
+TCTCACTGGTCCCAAAACAATTTTACACATAATTTTGCTTTTAGAGAATCCATAGTTTGT
+ATAAATTTACTCTAATTCTGTGTGAAAGACAATCACATGAATGCATGATTCTGTTATTCA
+AAGGACACTTAAAATTTTTTTTGCATGTATTACCCAGGTAGCTTGTTAACCTCCTGGAAT
+AATAGATAGCTTTGTTCTACTGATGGTGCAGGACACATGGTATCTCTGTGAATACAGGAG
+TTACAGTTACAATTCTTGCCATGCAAGTACTCAAGACCTCGTTTTCCATGGATGCTGATC
+AGATGACTTCTGTTATGTTCCCTAAGCCTTACATAACCATATCAGCTCACTTCTAATTGT
+TCTGGTTTTTATTTTCTCTTTATTTCTATCACCTGAGAATTTCCTATTCTTATTATTTTT
+ATTATTTTTGCTGTTGTAACTTACTCAGTGATTCTATGCATCAATTTGCATCTAACACAA
+GTTTCTCTAACATAATTTTTAAATTAATTTTTGTTGTGTAAGGAAACAATTAGATTGGGG
+TAAAAATTAGGGGGATAAATGTTATTACTCAATATGAAATAAATGGTTAAACAATTTCTC
+AAAGTTTCATCCCTTTAGGCAGTTTACATTCAAGGCAATGAGCTTGTTATTTTCTAAGTC
+CTCTGGCACTTAATATAAAAGTAAAGGCATATGTTCCCAGGTTTTAGCCAAATTTTTATA
+ATGGCCAATTTCATCATATTTCCCCTGTCCTTTTTACTTCCTGGACTTGAAAAAATCCAC
+TACCTTGCTGGCAATATGACAGACGACTGGATTGGCTGCTGGAGCAGCTGTATCCATTAT
+TGAATTAACTCCCCTCAGCAATCAACTTCTTAAAGCTCTCCTGAGAGAATAGAAGCTGTA
+AAAGTTGACATGTATTTCAATTTAAGACCACAAATATAAAAGACGTTTTTGTTTGAAGCT
+GCCACTTTGGCCAATAGTAATTTAACAAATTGTTAAGAGAGGGTGTTGTGTTCATGTTTC
+TGGGCAGCTGTTGGACATCAAAGATGTCATTTTTGAAAATCTTTTCCTCTTCTCTTTGTG
+CCTATTATATGTAAAAACTGTTTGGTTTATTCTCATATCCCTCTACCATCTTTTCCTAGC
+AGGGAATATCTTTCAGAGATAATAGGAGCTCCACCTCCAAGAGATGGAGTTATAAGATGT
+ATGTCCGTGTGTGTGTGTGTGTGTGTGTGTCTGTGTGTAGTTCAGATGAATTCAACTGTG
+TGTGTGTGGAGTTCAGATGAATTCAACTGTATTTGTGTATGTGAGTGTGTGTGTGAGTGT
+GTGTGTGTGTCAAGATCTTGATATATTAGCCAGAGCAGAGAATTACAAATAAGTAGTAGA
+GAACTTGCAGGAAGTCCCCATGGGCATTTTGTGTAGTAATCTCAGGTTAAAGGAACACAA
+TTGCTAAAGAAGTATAACAGTTCACATTGAGGTTTTAGACACACTGGTGACTTTTAGCAC
+TCCTTGTGAGTGGCTTATATTGAAAATGGTCATGTATGTGAGCATAGTCAGATGGTAGAA
+TGTTTTCCACTCAAAAAAGAGAAAAATCCACCAGGTGAAATTGAAATTGAGTCTTGAATA
+TTTCGTATTAGGTATGAGGTCTATGTGTTTGTATTTAAATTCCGTAAAAAAAGCACACTA
+ATTACCCAGGAATTATTACTAGTTCCTCAAAGAATGATGAAGGTTAGACTGTTCACTTAT
+AGCTGCAGTTTTTTTACTAGTATAGTACTAGTAAAAACACAAATAATAATAATTATAATC
+TATTTCATGATAAAGTCACCATGGTAAAGATAAAGTAGTTACAGGTCAGCACAGAGCCTG
+CTTGACAGTAGCTGATTAATAGTTATGAGTTGCATTAGCAAGTTGGTAGGCAAATAATGA
+AAAACTTATTGAATGTATAGGTCCCAAATGATGATACAATAGCAGTTTTTATTGTTCAAA
+ATAGGTGCTCAACAAATGTTTGTTGATTAGTTGTATTTCTCTATATAGTGACCTCCCAAG
+CTACCTTGTGCAATGTTTTCTGTCCCTACATCTGTATCTACAGACAAAGTACTGCACCTA
+CAGAAAAAATTCCCGCCCAAGGTGAAAGTCAGTACCATCTATGGACAAGGAAAAGAAAAG
+TTCTTAATTTGTTACTTCAGTGGCCGAATCTCAAGTTGGCTTTACTCACAGTCCATTCTA
+ATGTTGTAGCCCATTTCAGTTTGAATAATTTGGTTATCATTCCCCTTGTGACCAACACCT
+TTGTTTTATTCTATGGTTCCTTTAAACTTGCAAATCAACAGAGAAACTGTCAGCATTATT
+TCTTCTCTAATGCCAAAACCAAAACATCTGGTTTTGTTGTTGTTGTTGCTTTTGAGACAA
+AGTTTTCACTCTTGTTGCCTAGGATGGAGTACAGTGGCACGATCTTGGCTTACTGCAACC
+TCCGCCTTCCATGTTCAAGTGATTCTCCTTCCTCAGCCTCCTGACTAGCTGGGATTACAG
+GCATGTACCACCACGCCCTGCTAATTTTTTTTTTTTTTATATTTTTAGTAGAGATGGGGT
+TTCAGCATGTTGGCCACGCTGCTCTTGAACTCCTGACCTCAGGTGATCCACCTGCCTTGG
+CCCCCAAAGTGCTGGGATTACCAACATGAGCCATCATACCGAGCCCAAAACATCTATTAA
+TAATTACACTGTCTACTATCCTCAGTGAAGGAAACATTAAATATGACTCAATATCTGCCA
+CTGCATGACAAATCTTTAAGGCTATGCTTTTATGATTCAATAAAATAATTGCTTCTAAGG
+TCAACAGTGAGAGTAACAAGCATTAATAAAATCCATTTCTAATTTTACTGAGTCAACAGT
+TTCAACACACATCACTCCCAACCCACAATTCTACCGAGCCTAGTCAATAAAAGAAAATAA
+CAGAATGGTGACAAGGTCGTTGAACCTTCGAAACATGCATTGTTCATAGAAAAATTGTTT
+TTCGGTAGACACAAGGAAGAAAAATTCCGACAGAATCACTCTTGGAGACTGGGTGTGCAT
+ACAAGGAAGAGAAAATAAGAGTTCCTTTACTAGGCTGGATTTCTGATATCCAGAGGTCTT
+TCTGATATGTTCATTTGCTACCTTGAAAAAATAAATAATAATTAGTAAGAGGTGCCATGG
+TGGAGTTCGCCAAGGAAAGGGGAAACCAGAATTGACATCTTTCATTCCCTTACTGTCATG
+TTGAGCTCCTGGTTCTCAAGGAGACTACGCACTCTGTATGATAGTTGGGCATTAAAGGTG
+TGTTGGGGGTGAGGGTGGAGAGGCAACAATAGTCTACATTTTTCAAGGATTACTACAGCA
+CTGGGTAAGTGGGATACAGTTTGCATATGTGATACAGTTTCAAAGGGATGCTGCTTGGAT
+GTATAGCTAGGGGGTTAGATAAAAGAGATGACTGAAAGTAGCAAGAATGGAAAGTATATA
+TGGAATTTGCATATGACTGACCTTAAATGCCATAATGAAACATGTTCAAACAACTAAAAG
+TTAGTGAACATTGTGGAATTTAGCCAACACGTTATTGAGAAAACTGATACTCAACACGAA
+ATAGGGTTCCATACAGGACAGCTGAGAAGCAGTGATCAAAACAAATGAAACCTTTTCTTG
+TTTATGCTTCTTCATATTGAAATTCTTCAGTAAATTGATTAAAAGTTAAAATGTATTCAC
+ATGCTGAAAGTGATAGAAGTAGGATTTAGAAGTCTTATAGATTTATGTGATTGACTTCAT
+GTTGTGGGTTTAGTTATCAAGAAAACAGGAAGCATAGTATCATTTTATTTTTTTAACTAG
+ATATTATTGCAAACAAATAAGCTTCAGTCTGCTGTAACTGTGTCATTTAATGTACTGAAT
+ATTGTCCATATTTTATTAACCAAGGATACATTTCATAATTCTTTCTCCATTTCCTTTCCA
+AAATACTTGATCTGACTGTAATACTATAAGGCAAAAATATTCCCAGGTGATTAATGGAAA
+AGAATCTCAGTACTTTATTTTCATTTCTTACTGTTTTTTTCACCTTGGATTTAAGTGGTG
+ATTTTAATAACTTTTTTTTTTTTTGCTTTTGAATCATAGAAAGGATTTAGCTAGGACTTC
+ATATATTATTGTAAAATATCCAAAAGCCAGATAAAGAACAAGTTGGCAATTCTTTATATA
+TTTACTGAACAAGTATTTATTCACAAGTATAAATACAATGCACTCGATCCTGTGGGACCT
+TCAAAGAATGACAAGAGGTTATACCCCTCATGCTTCATAACAAATTACCACCAACTTAGC
+CACTTAAACCAGTACACATGAATTATCTTACAGTTTTCATGGGATAGGAGTGCAGATAAG
+AGTTAGCTGGTTTCTCTGTTCAAGGTCTCAACCAGGTTTAAATCAAGGTGGGGCTGAGCT
+GTGTTCTTACCTGGGACTTAAGAGTCCTCTTCCAAATCACTGATTGTTGACAGGATTCAG
+TTCCCTCAAGCTGGAGAGCTGTGTTTCCTGTTTTCTTGCTGGCTGTTGGCCAGGGATCAT
+CAACTTCAACTCCTAGAAGCCAGCCTCAGGTCCTAACCACATTTTCTCCTCCTCTTGCAA
+AATGGCAGCTTAGGTTTTCAAGGACAGTAAGAGAATACCTTTCATTTCGAATCTCTCTCT
+CTATCCAGTCTGCTAAGACAGTTTTGAATTACTTAAGAAGGAATTGGCTGTCCCATCATG
+TTCAAATGTCTCACCCATGTTGAAGGAGAGGGAATAATACAGAGTGTGCACATCAGGGGC
+CAGGAATCTTAGGGGTTATATTTTTCTGCCTACTGTACCCGCTCACTAAAATCTTTTCTA
+GCGAAAAGGGAGAATGTTTTCACAAACAGCTATGATACCAAATCTAATCCCACTATTATT
+ATATACTCCCAACATTTTCAAAAAAAAAAATCTGAGTATTAGGACTAAATACTTAGAATG
+TATTAAAATATATACTAAATGTAAGATAGTAAGTTTTGTTTAAAGTTGAGGCTCATGTTT
+ATAATTCGTTGCCTTTTTCTTCAACAGAACATTTAAAATCTCCTGTATATTTCATGGAAT
+TGCAAATATGATGCATGTATTTTGGCAAATGGCTTCTCTCATTTGACATACTATGCACGT
+TATCCATAGTATTCTAATCTATCAATTACTATACCTATAATGCTGCATAGAAAGTTCTTA
+GAAGGAATTGTCATAATATTGACTTTTCTGAAATGTTAAACAGAAATTTCCCCCTCAAAA
+CTACCATTATCAATAATACAATGAATGATAATATATATAACATATATCACATATATGCAT
+CATACATGTATAAGATACCGTGTCATCTTAAAATGTAAGTATTTGTTTAGATAAATTCTC
+AGCACAGGTTAAATGACATAAACAATTTATGGCTGTTTAGATGCATTTCCAAATTGCCTT
+ATCAACGTACTGCATCAATTAGAGACGCACTAGTTGTGCACAGTTAAGAGAATTGATCAA
+TTCCTGGTGTCATTTAATTTTTAAAAAATATTCTTTGCTAAAACTTAATTTTTAAAAATT
+TATTAAATGTCTACATACTATGCATTAAAAAGGATCTAGGAATTCATCTATGTCAATGTT
+GTAATTCAACAGATGAATAACCTTACTTGTCAGGAGGTTCAATGTGACTGTTTAAGGTCA
+TAAATCTAACAGTTGTCAGACAAAGGCTAGAAAAACAGCTCTCACATCCAGCCCATTTCC
+TTTGCATTGCGGAAGTACTTCTCCAGACTTTGGTGGCCCTCGGATAATTTTGTGGGGAGT
+CTTCTTAAAAACACAAAAGTAAGAGGCCCACTCCTACGAAACCAATCTATTTTTATTCTG
+CAGAAGCACGCATTTGATTTTGATGCAAACTATTTGGAGGGCCACTGCTCTCAGCAATCT
+GCTAATAAACGTATTATAAAGAGACAGAATTACCAAAAAAGGTAAGAGAGAGAGAAAAAA
+AATTGACACCAAAGTTTGTAGGCTGCCCTGAGTTTAACCTTAGGATTAATTTAAAATTTT
+ATTTTATTTTTCCTAATGAGTCTGAGACAGACAGACTTAATTTATTTATTGGTCGTCCTT
+GTTTTTAAATACATGAAGAAAATGTAGAGTATTATTATAAAAGTAACACACGTTAGTTAT
+AAAAACTTTCAACACTATAAAAGGATATAAAATGAAAAGAAAAAAAATTCCCTTCCCTAT
+CACTCCAGTGATACTCTACAGAGAGATGCTCTGTGAATAGTCTATCTTTTATTTTTCAGG
+TATTTTTATCTCAATATTTAAGCATAACTCTGAGTGAATTTTTATTATAAATGTCAATAT
+ACCGGCTGGGCGTGGTGGCTCACGCCTGTAATCCTAGCACTTACAGAGGCCAAAGTGGAT
+GGATTGCCTGAGCCCAGGAGTTTGAGACCAGCCTGGGCAACATGGTGAAACCGCGTCTCT
+ACTAAAAATACAAAAAATTAGCTGGGCGAGGTGGTGCGTTCCTATAATCCCAGCTACTTG
+GGAGAGACTGAGGCAGAAGTGCTTGAACTGGCGAGGTGGAGGCTGCAGTGAGCTGAGATT
+GCTCCACTGCACTCCAGCCTGGGCAATAGAGCAAGACACTGTCTCTAAAATAATAATAAT
+AAATAAATAAACCTCAATATACTAACCTACACATAGACCTATATTTTCCAATGGCTGTGT
+AAAGCTTCATTATACGAATGCATCAAAAAGTTTAAATCAGTGCCCTTTAGCAACACGCTT
+AAATATTATTCCTACTTTTTTGCTATTACAAACAATGCTTTGGTGAACACCTCCTTGGAC
+GTTTTCTGTTTTGTCTTTCCATAAATACACGTACAAGTATATCATCATTTTTAAAGATGA
+ATATCTGAAAATGAAAATGCTTATTCATTTAAAATTGCCATTAATGGATGTGCCAGTTTC
+CAATATAGTAGAGCATGAAAGTGCTCTTCTCCTTCATCTTTACCAATATGGAATATGATC
+AATCTCTCCAATATTTATCATTAAGGTAGATAAAATATATTAAGAGGTAACATATATGCC
+GTGCTTACTGTGTGCAAAATTTCTGATGAATTTTTATGAACACTAACTTATTTAATCCTC
+AAAACAACCCAATGAGTTATTCTCTCCATTTTGCAGGTGAGGAAACTGAACTACAGAAAG
+GTTAAGCGAATGGTATGAGATCACAAGACCAGCCAGGTTTTCGAGTTGAGATTTCACACA
+GATTGTCTGATTGTCTGGGTCCAGAGTCCTTGCTTTTAAAAGCAGCACAATAATTAATTG
+AAGGTTCTTAAATGTTAGGATATTACTTAATATTTTATACATTTTATAATAGTTCAATAA
+ATGTAAATTTATTCATCAAATTTGGAATTTCTTTCTTTGAAAATTCTGTTTATGTACTTG
+CCTACCTTTCTATTATTTTTTCAGAGCTATTTCTAACTAAGAAAACTGGAAAGTATGCTC
+TTCTTGTATTATATCTCTTTTTAGTTTGTTTATTAATTATTTATTTATTTGAGACAAAGT
+CTTGCTCTGTCGCCCAAGCTGGAGTGCAACGGAGTGATAGATCTTGGCTCACTGCAAACT
+CTGCCTCCCAGGTTCAAGCGATTCCCCTGCCTCAGCCACCCAGGTAGCTGGGGTTGCAGA
+TGTACCTCCATGCCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCGCCATGTTG
+TCCAGGCTGGTCTCGAACTCTGACCTCGAGTGATCCACTTGCCTCGGCCTCCCAAAGTGC
+TGGGATTACAGGCATAAACCACCGCTCCTGGCCTCTTTTTAGTTTGTTTAAATTAATTTT
+CTGCAATACAGTCATTTTAATCTTATTCATGAGTGTTTTCCTCTGGGCTCTGTAAATGGC
+TTTATGTTACAAAGAGACTCACTTATACTTTATCTTAATATTTTAAAAATAATTTCTAAT
+TTGATTATGACATATACATTAAAACATAGATCTGTGGATTTTCATTTCTATTCAACTTTT
+GAAAATGATTATATTAAAATGTTATTAAGGCCGGGCTCAGTGGCTCACACCTGCAATCCC
+AGCACTTTGGAAGGCCGAGGCAAGTGGATCACTTCAGGTTAAAGTTTGAGTCCAGCCTGG
+CCCACATGGTGAAACCCCGTCTCTACTAAAAATACAAAAATTAGCCAGGCATGGTGGTGC
+ATGCCTCTATTACAGCTACTCGGGAGGCTGAGGCAGGAGAATCGCTTGAACTCAGGAGGC
+AGAGGTTGCGGTGAGCCGAGATCCCACCATTGCACTCCAACCTGGGCAACAAGAGTGAAA
+CTCTGTCTCAAAAAAAAAAAAAGTTATTAAAATTTCATTGTGGCCAAATATTGGTGCCAC
+TGAAACCCGAAAGACAATTGATGTAAAATTAGTAATATTTCAATATTATATTTAGTATAA
+ATTGATTTAATTTAATTTACTTTTGTAAGGTGTATTATTGAGACAAAAAGGAAGAAAATA
+CACAGAAATCAATATAGCATTTTAGAGCAGTGGAGTTACGGGCTGTCTTCATTTTCTCTT
+TTATTCTCAACAAACTCTCTCTAATTTTTTGAAATTTCTTTGACTTACCAATTAATTTTG
+CATTGTAATGTAGGTATGGAAAAAAGAGATTACGTTTTTCCTTAGCTTGCATTAAATGTC
+ATAGAAATTATGTACCTATTCTCTGATACATGAGTCTAATACATGAAATAACTCGTTGTT
+TCATAAAATGTCTAAAAACATGAGGACTAGTACTATGCAATTTTGCTGTCAGTTTTTTTT
+TATTTCCTCAAATAGAAATCCTGATTATACAAAGTTTTTAAATAAAATGCCATTTCCTGA
+GAAGGAAAACATAACTAATTGAGAAATTAAGATCATGTAGCAATGCATGGCACAGTGTGG
+AATGCAGCAGTTCTGGCTTCCGACAGGAGACCCAAGCAGATGGTGCACAGTGACAGGGAC
+CTCAGCCTTAACATGTGCTGGCCTAGGGGACAAGCAGCAGGCAATGGAACAATTTAAAAC
+AATGGAGGTAAAACAGTGTGACTTTACATGACCACCAACTATCAAGTTCTATTAAAGATC
+ATTTTTTTATTTAAAAAATGGCAATAGCAATAGATTTTGCTATTCTCAAAAGCAGCAGCT
+CTATTGAAAATGAGGGGAGGCTGTTTTGTTGTTCTGAGAGAATGTTCTTAAAGAATGCGA
+GGATCTCCAAATATTACGTAGGACGTTGTTGTTTTTATATCTTATACATATATATGTACA
+TAGGCATATGGATATACTTTTAAAGGGTGTATACATGAGTAAAGTCTTTGCCTTTTTCCT
+TAACTTGCTTTATTTTCTATATTTTTGTATACCCAAATGACTCCCTCCCCATCTATGTAA
+TTCTGTGTGTGTGTGTGTGTGTCTTTCTGAATTTTGGGATTTTTTTTTCCTAAGTGGCCT
+TATTCAATATCTCCTCTTGTGTGTCATTGAGTCTTAATATTAAATGAGTTATCTGTATCT
+GTGCTAAGGTAAGAATATAAGTCAGAAAATTTAGTGAAATAAAGTAAAGCAAATATTAAT
+AAAATCACTGCCATTTAATTTTTCCGTTTATGCTTATCTGATCAGGCTGTTAAAAGCAAA
+AGTTCTTGTCCAATCTGTATAAATTTCTCTATCACTGGAAAGAATAATGAGACTTTGGAT
+TTACCTGTTTTACAAGAAAAACACTTGGAATATAGAAACCAAATCTCCTGGCTTTAAGCT
+AATGCCATGTCAACCTGATAACAAATGTTCTAGCAGCATAAAGCAACAGCAGTTTATTTG
+TCCGAGGCAATGAAAAAGGTTGCAAATTTTAAATCCCCCACAAACGTCTTCATTCATTAA
+AATGTAGCTATTTTGTGTCGTAAGTCTTTTCAGTGCTGTGTGCCTGAGTTCATTTAAGTC
+AACTTGACATCTGCTTCTGCTTGGAATTAGTCACCAGACTCACTAACTCTAACTGGATTC
+ACTAAAGTAGAAAGTAAGTGGTTCTCTTAGATATGGTGAGATCCTACTCTCCTCCGCTGC
+CCTATCTACAGGGCACAATTGCCCCCGAGTAAGCGAGTATACCCTTTCCAAAGCCTACCC
+TCTTGGAAATATGCAAGTCTACAAGTTAACTGAGTAAAATCATAGCTTTCCCATACGTAA
+GCCAAATCCTGAAACCACATACCATGCCATTTTAAAAGATTTTTTTCTTGTATCCAAATT
+TTCTGAAAATATTGAGATAAGAAAAAATAAATCAGAATAAACAGCATCCAAATAGCAGAC
+AGCTTCCACAGCATCTAGACTAGACTGGTTAAATAAATCCAGGCACTCCCACATTCTTCA
+CCGGTCTGAAAACTTCACTGTGAAGGAGGTCTCCATTCCAAGAAGCACCATTGTATGCTT
+TGGCATAAAAGTTTCCTTGCCTGTAACGATTACCTCCATTGTTTGTCAGTCAACATTATT
+GCTTAACTTCTTTGGAGTTTGGACATTATCACTTCTTTGAGTTGTTTTTAAATGAAGAAG
+CATAATAATAATGAGTCCCAGGATGCAAACTTACATGAAAGTGAAAGTGATTAAGATGGA
+GCAAAAGTTTTGAAAAATGGGAGATGTCAAAGGTAAACTAAACTTATTACTTAAGTTTCC
+TTGACCTGTGCCTATCACTAAAACAGATAATCACCACGCGAGTAGCTAAAAGCACATCTC
+CCACTGCTGATTTTAATACGGGAGCTCTAGCAAATTGAGATCAGGAGAAAAAATGTTGGA
+AATCTGGCTTCATTCCTATTGTGAAGATTAGCACCATAATCTTGGTGTTCTCAAAGAATG
+AAACCTTGTGGTATGATGTAGATCTCAGAGTAACTGAATCTGCTAAGTAACCTTCAAGTC
+ACTTGGAACATGAAGTTCCTTCAAGAAGGCAAGACTGTTAGGAATGTTGATGGAATATGT
+GTTCACACTGGCTTATTAAAATGTAGACCAGAAACTTCTCAAGTGTTCTTCGTACTCTAG
+GGATGGGATAAGGCTACATATTAACTTCTGTTTGTTCTCAAACATCTTATAAATAACATA
+GAAAGCAAGGAAAGCATCCATTATAACTTTCATATGTACAAATCCTAATGGAAACCTGAA
+ACTAATAAAACAAAAAGAGAGTTACAGACTGAAGGGGCATCCTAGCAAGATCCCCAATAA
+CAAGACTGAATGTAGTATCATTGACATTTGTAATGTATCAGTAGAATTCCTGTTGATGAT
+AAAGCCACTAGGAATGGCTTCAACTTGTAGAATATTTGAAGGGTATTCATCCTTACAACT
+TTGGAAAAAATTAAGAAACCTTTTTTTAGATATTCTGCTGTTCTCTGTTCTTAAACATTT
+TAAGCCTTGATCTCACTCTTACGTATCAACAGTTCCTTTTATTTTCTTCCAAAAGGCTTA
+CTTGCAAGACCATAAAATTGACAACAGCTTTGCGCAGAAAAGCCTAACTCTTAGCTCGAG
+ATTAATTAAAAAACAAAAACAAAAAATGAAAACACTGACTTTTAAACCTTAATGTCATAT
+ACTGCCAAACCAGGAACACTTCCACAGACACACACATACATATGTGTATATATTACAATG
+TGCCAGGAATATGGTTAATCCTCCAAGCAATTCAGTGAAATACTGTTGCTCTGAGTCTTC
+TGAGAAACATTTGCCAAGAGAGGATTATACACGCAAGGATTTTGTTAGAGAAAACGCCAG
+TGAAAAAAAATGATTAAAGAGCAGAAGAAGGCTGGAGAACCAACACACAGAAATGCCAGA
+CTGACTCTGAGTGAAAAAGAGAGTAAAAGAAAGTGGAATGAAAGCATACTCAGTACCTTG
+TAGTCTAAGGAAAGCCCAGCCTGGCCTTGGGGAGTTCTCCAGCTAAAGCTGGCCATCAGA
+AAAGTTCCATGTCTTCCAGGACTGAACATACCTAGTATCCTTGCCACACTTGAGGATTTC
+AAATTCCAGTACCTGGGGCCCTTGGGCAGTCACACTCACTGTATTTGGAGGTCCAACGGG
+GAGATAACCGCAAGTCACCCTTGTCTCATGCAGATCTACTTTACACGAGTTTGAGGAGCA
+ATTTCTCTATGGATCCAACGGTCCTTTCCTCTTGAAGTGAACACAGAATGTTAGTGAAAC
+AAACTACAGCTCCTGTCATTGTACTTCATGTCAGAGCATCAACTGATCCTCCTCCCTCCC
+ACATTAGCCATTCTTATATCCTCTCACCCTCAGCTATAACTTTGCAGGTCCTGGTGGCTT
+CCATGTTAGTGTGATCCAAACCTTATATCTGGGAGTATGGAACACCTGATAATCAAAACC
+TTCTCAGTCCAAATTGCTACAGATTTCAATTCGTAGGTGCAATGTGGCAAGTAAGACTAC
+GAAGCCTCCAAATGAATCTCTTGAGATCCACATATTTCTCCCTGACGTCATTGTGTAATA
+GTAACCCTACCTCCTTCTCCTGATCAGGCCTATTATCCATGATGGTGAGGCAGTTCATCT
+TTTCACCTGTTGGTCCTTGAGCAAAAGATGTTCAACGTACCGAGGCCAATCCTAAGTTAT
+AGCTCAATGGGAAGGACTCTTGCTGTGTCCCTTGCAAGTGTTTTCTTTCTTTGAGGGCCA
+TGGCCTCTGTCCCTGGTAGAGCTCAAAGTTGCATATCTGAGTAATACAAGATGTTCCAGT
+AGGTCATAGGGGATGATGGTGAACGTAGCCATTCCTTCTTCAGTGACTTGGTTCCTGGAC
+CCTGCATCCTTCCTATTGAAGAAGTAGCACTATAGAATACTCTCTGATTAAAAATACAGT
+GTATTCTATAAGGTTTGATATCTTTTCAACATGTTCCCTCCACACTGGCACTTCAGCTGT
+GCCTTTAGAAGGCCTTTCCACCATTGTACAGAGCTGGCCATCTCTGGATGGAGGGGTATA
+TGTGATGACAGATGAATCACGTAGTCATAGGCTCAATCCTACAACCCCTTCTCTGGACAA
+AGCCTATGCAGTATGAGATTCCAAGTCTATAAATCATTCATTCCATTAGTCCCTGGGTAA
+TGGTGATAGCTGATGCTTTACAGGCAGGAAAAGTAAACCCATACCTGAAGTAGGTGTCTA
+TCCCAGTGAGGATAAACTACCAGAACTTTTATGAAAGAAAGTACCTGATGCATTCAACTT
+CCTATCAAGGAGTTGGGTGGTCTTCTTGAAGAATGGCTTTATCAGGGGATCAGGGTTGGT
+TTCACTCCTGATGAATCGGACACTCACAAGCAACAATATCTGATATGGTTTGAATTTTTG
+GCCCTGTCCAAATCTCATGTCGAATTGTAATCCCCAGTGTTGGAGGAGGGGCCTGGTAGG
+AGGTGATTGGATCATGGGGGTGGACTTCCACCTTGCTGTTCTCATGATAGTGAGTGAATT
+CGCATGAAATCTGGTTGTTTAAAAGTGTGTGGCACCTCCCCCTTCTCTCTCTTCCTCCTT
+CTCCAGTCATGTAAGATGTGCCTGCTCCTCCTTCCCCTTCTGCCATGACTGTAAGTTTCC
+TGAGGCCTCCTCAGCCATGCTTCCTGTACAGCCTGCAGAATTGTGAGTCAATTAAACTTC
+TTTTCTTTATAAATTACCCCATCTCAGCTAGTTTTATATAGCAATGCAAGAACAGACTAA
+TGCAATATCTAAACCAGCTTTGGAGAATGAGATTCCCCCATGTTAGGTCCATACATAGTC
+TTCCTCTTGCATGGTCACTCTATTTATGTGATTATATTGTCAGTAATGAGGTGGTCAATG
+ATAAAGCCTTGCTAATGTCATTGGCTAAATTGTTTCTTCCTTTGATTGTTCTGTGTTTTT
+CTGTGGGGGAATGCTGGTCTGTGATAACATGTGATAGAAAACTCTTTACACTTTGTGTAC
+ACTCTCACATGTTCACCTAAGTGCCTCTACCCCATATCTCTTTGTTTCTGATATTAGTGT
+CTTTTTTCTTTCAGGCCACTGACCACGTGGCCGGGTCATTGACCACTGCTCAGGAATCTG
+TAGATATTCTCATCTTAGGACATTTACTTTTCATAAAAGGGGATGACCATGGTGCACTGC
+TCACATCTGTGTCCTTTTCATGGCTTTTCAAGGCCACTCCTGAATATAGCTGGCATGCAG
+TGCTGTCCATTTTTGGCTTACATCAGTGCTTCAAGCTGGCCCATCCATAACATAAGCTTA
+ATTTTTACCTCCTTTTTCAGCTGGCCACATAGGACCTCCCTCACACATGACCATAAACGT
+AAGCCAGAGGGGAAGCACTGATGCAACTGTAGTCAGTGATGAGGGATTCTGGGCTAAATA
+TTCATGTCCTCTGTCCCTGCTTAAGCTTGAACCCAGATGCACCATATCCATCTTCAGTGG
+ATTTCTGCTGTGCAAGTCCAGCGTTATGACTTGGAAGGTCTAACAGAATGTATCTCATAA
+TTAGCAATTCCAAGCACACGATCACATTCATGTGAACTGTTCTTATTTTCTTTTCTAATT
+AGAATGAAAAAGAATACAGTCACCAAATCAATGGCCATATACCATGTACCTGAGGCCTTA
+TTAATCTTCTCAAGAAATAGCAGCACATCTGGGACAGCAGAAGCCATCAGTGCTACTATT
+AGGATATAATCTCTGTTCATTCTCCAATACTAATCAAATAGTGAATTAAATGGAAATCTG
+ATAACAACCAGCAACCTTTCGTCCTTTTGGTCTTTAATGGTGGCATCTCTGCCCTTTTTC
+CTAGGATATAATATTGATTTTTTAGTTACCTCTTGGCCAAAGAGAGACAATTTTAGAGGT
+TTCCATTTTTCCTTTCCCATTGCAATATCGCTTACTGAATAAACCAGATGCTCAATATAG
+TGATTGCTCTAATTGCCAAGTACAGAAAAAGTTACTGGGTGTGTTCATAGATCTAGTAGC
+TCTATTGTGAGGTGAATTTTAGTCAGGACTTCAATTATCACATAGTTTTCTTGAGCCTCC
+AATCTAAAAGAGAGCCTGTGATTACTCTTTTGTTCTTTAGGTATTAACATCAACATAGAC
+CTCATGCGCAATAGTCTTTGAAACTTCTTGATGATTGCTATATTGCAAATGTGTCTCCCA
+TGGGTTGTGTGTGGAACACTTATTTCCCAATGCAACAGTGATTGAATATGGGGCTTCAAA
+ATAGGTAATTCGGTCATGAGGAGTCTGCTATCATGAATAGATTAATGTCATTATGAAGAG
+AGTAGGTTAGCTATAAAATTGAGCTCACCCCTCTCTTGCTCTATTGTTCTCACTCTCTGT
+TGCTCTTCCATCTTCCATCATGGGATGAGACAGCAGGAAGGTCCTTGCAAGGAGACAGGA
+GGAAGGTCCTTGCAAGATACTAGAACCATACTCTTGGACTTCCCAGCCTCCAGAATCATG
+AGCCAACTAAATTTCTGTTTATAATAAATAATCCATCCTATGGTATTCTGCTACAGCACC
+ATAAAACAGACTAGGGCAGTGGTGATCCCCCTTTCCTCAATATATACCCACCTGATAAAA
+TGTCTGTAAGTCCTTTGGGAAAGGACTAGGAGAATTGACAGGGTATATTTTTGCCATGAT
+GTTGTATGGTTCTTCTGGTAGGGGTTTATTATTCTCAAGTCTATGGGTTCTGCCTGTGAC
+GTTGTATGGTTCTTCTGGTAGGGGTTTATTATTCTCAAGTCTATGGGTTCTGCCTGTGAA
+TGTTGGTTCAGATCTGACCACTAAGCAATGTATTGTCAGTTTTAATTGAAATGATCACCT
+TCAGCCTTTTGCTCCTCCATTCTTGTCCTTCTATTCCATTATAGATAATTAAGCAGCACT
+TCTGCTGGCTGCCCATTAATTTTCCCCTGTGGACACTGTACTCTATTAATCATTTCCATG
+ACTTTCCTATTCAAGCCACTACTCTCCAATTCAAGCCCTCTTAAGCTGATCCTTAAAGAT
+TGTTATGACAAGTGAAGCCTTCTGCCTTCTGTTGTTTAAATGCCACCACCTGGCTTCTAT
+TACTTTGGGGCTCCATTACTCCCATGGCTATTAAGAAACTTAGACCTGTGACAACCTCTC
+TATACTTTGCCTTGAATCTCCAGAAGAAAACCACCACTTAAATTCTTTGTGATGTTTGTA
+ACTCTCTCACCAGGACATTGCTGGCAGTCTTGATGAATGGCGTGTCCTCTGAGCCCACTC
+ATGGAACATAATTCTCTGGTGAGTATTCTGGTCAAATATAACATATCTATTCTATCATGC
+CCACTTCCTTCTTCCTCTGGGTTGCTTCATCTTCTCTCTGTCAGGGCAACTCAGGCATTC
+CATTTCACTGCGAGTTGGCCATCAATTTATGCAGGCTTTATACGATTTATGCAGGCTTCT
+TCTGGCAATGAGATTACCTGATCACCCAGAAAGTGCCCCCCAGCCACTTCATTCTTGCTT
+ATCCAACTTTAAATTCCAGCCCAATCTGATCAAGGCTCATGCTGGTATATCCAGCTTATG
+CTTGCATTCTTTAGATCTCTTTCTTTCCTTAGCATTTCTTTCTTCTTGTATCATGTCCAA
+AATCTCCCTAGCTACGTTAGCTAGGATTATCTTATATGAGCATTATCTGCCTGGCAGTCA
+GAACAGAAGGTAGAGGAACATCTTAGAGGGCACCTGTTAACCTAGTTTGGAAGATGCTGT
+TGCTGCCTCTTTTAGCACAACAGAAGTACCAGCTCTTATCAGGGAAGGGTAGGTCATCTC
+TAAAAGTCCAGGAGTCTGGGGGAGGAGGGGCAGGTCACACAGTCAAAATCCTCATGGGCA
+TCAAATGTCTTGGTTCAATGTTTCAGAATTCCAGGTTTTCCCACCAGGACCCTGACCTTT
+GCACAATAGACCTGCCTGCCTTCATTGAGTGTCCAAAAGTCTTGGGAGATTTGCAATTCC
+ACTGATTGAGTTGTAAGCTTGTCATTCCACTATATCTGTTCTTTTACTGCAAGAAAGAAC
+ACCCTCTTCATAAGTCATCACAGAGGTCTTTGGTTCTCACACTTAGCCTTAAACTGCTAA
+CGGTCCTCAGTCTTCTTTATTCTTTTGAAGGGCATCAGTACAACCTAGCATCAATACCAC
+TATGCTGTTTTTGTGGACATTGCTTTCCCACGTGTTTTCAAATGCCTGAATGGGCACATC
+AGCCACAGCATTCTCCTCCATGGGAACGTTTTCTCAGGCTACTACCAGGGAAATCCTTAG
+CAATGGAGGCATTACCTTGTGCCAGGTACTATCTGTCCCACCAATGAACCAAGATGGTGT
+CTTCTTTTTTGCTGGGTGGTGAGTGACCAAGTTCAGCATCATCATCTTACTGCATGTCTT
+ATCAGACAGACCACTCTTGGGTCCAGTACCACTTGTGTTAGTCTGGATGCTCTGAAAGTA
+GCCCCCCTCCATGTCGGAATTAAATATGCAATGATTTTATTCAGAGAAAAACCTGTGACA
+GAAATGAGGGGAGGAAGCACCTGAGTAAAGTATTTCAGAGCACAGGACCCTTGATCAATT
+ATGCTCCCTGTAGTTGGATATCTATAAGACACATTCTCATAGTTGCCACAGATATTACAT
+TAATGTCATTATTCCTATGTTACAAATAAGAAAATGAACACAGAGTGATTGAGTCACTTG
+CCTAAAGTCTCAGAAATATCAAACAGAGGACCTGGGAGATATTCCAGCAGTTTTGCTTCA
+GCATCCATAATTTTAACCAGTTTTCTAGGCCCCAAAATAATAAAAACCAGCAGTTCATGT
+CAAAAAGATTGTCCAAAAGGCCCTGTTAGTGACTAAACTGTGCTCTCCCCACTCCCCAAT
+TAATATGATAAAGCCTTAACCCCCAGTGTGATTATATCTGGACATAGAGCCTTTGGAGGA
+GTAAAGGTTACTGAGATCATAAGGGAGTGACTCTAATCTGAAAGGACTGGTGTCTTTACA
+GGAAGAGGAAGACACACCAAGTGGCTGTCTGTCCACAAGCAGATGGAGGAAATACCACGT
+GAGGACACAGCAGGAAGGAAGTTGCCCGGAAGCCGATGAGGGAGGCCTTATCAGAAACCA
+ACCCTGCCTACTCCCTGATCTTGGACTTCCTGCCTCTGGATCTGCAAGAAAACAAATGTC
+CCTTGTGGCCGGGCACTGGGGCTCATGCTTATAATCCCAGCACTTTGGGAGGCCGAGGCA
+GGCAGATCACATGAGGTCAGGACCAGCCTGGCCAACATGGTTAAAGCTTGTCTTACTAAA
+AATACAAAAAAAAGTTAGCCAGGTATGGTGGCATGCACCTGTAGTCCCTGCTACTCAGGG
+AGGCTGAGGCAGGGGAATCACTTGAACCCAGGAGGTGGAGCGGTCCCTGCTACTCAGGGA
+GGCTGAGGCAGGGGAATCACTTGAACCCAGGAGGTGCAGCGGTCATGCGACTGCACTCCA
+GCCTGGGTGACAGAGGGAGATTCCATCTCAAAAAGAAAAAAAAAAGAAACAAAAGAAAAG
+AAAAGAAATATCCCTTGTTGAAGCCACTCAATCTGTGGTACTTTGTTATGGCAGCCCAAG
+CAGACTCGTACAGATCCATCATCAAAAATAAGCAAATCACAACGAAATAAAGAGCCACTA
+ATATAAACGGATGGATAATAGGTAGTTTATGTGATGGTCTTTGTTTCTGAAACAGAAGAA
+CACCTCACACTGATGAGGACCTCCTGGTTGCAGCTGAGGAACACTGCAGGCAGAGGAGAG
+TTCACTGGGGCAGCAATCTCCATCCAACCAACTGTTCTTCCCTCCTGGGAAAACAAACCA
+CAACCCATCATGTGTGCCAGGCAGGCAAAAACTTCCCTGGAAGCCTGGAAATAATCACAC
+CCTGAAATTGGGTTAACTAGGCTGCAATTTCAACAACACTCTTAGTCACACACACTGTTT
+CAATATTTTCTTCAATAAATTGGAGATAACAGAGTTTCAGCGAATATATGCCATTGATAT
+CTATTAATCAAACATTAAGTATTTGCTGGACACCAACTGTCATCCTGGCAGTAAAACAAA
+TCAATTCACTATAAGGATCTGTCTAGTCTTAGGCATTTTAGTTCAATTCTCAGCAAAAAC
+AAATAAACAAAACAAACAAACAAAACAGTAGGCAAGGAAAAGACTCTAGAAATGAATGAC
+TATCTCACTTCTGGTCAGCTCTTCAACCGGTATGGCCAGCAGTCCAAATTAGCACTCTGA
+CCCTACAGGTATCAGTCTTTGAAGAAATATTGATGAAGACACTTGACCTGTGATTCTCTG
+ACACTGAGGGTCAGAGGGGGAATAAGACACCATCACTGCAGAGATGACTTTCAGAAACTA
+GCTATTCATGCCTGAATACATTCATGCTCCTCAGTGTGGGTTCCTTGGACAGTAATTTTC
+AGTAATTCAGTCTGCTTATTCAAAATGTTCTCAACTGAGACATACTACATGTCAGAATAT
+GGACAGAGAGGAAGAAGATGCATTTACAACAAACCACCTTCTCCTCCAACACACTAATCC
+TGTAACTATTATGCACAATAAAAGTATGAGAATTACTGGTAAATATAAATGTAGTAGGAA
+TGAAAGAGGGTGTATCTGGTGAATGAGACAGAGAAGCTGGAGTCTCCAGGTATCCTCCTG
+ATGGTACTAGGTAGTTTGTTCAGGTTTGGATAAGATACAACCAGAGGTTACCAATGTGGG
+GAATGGGGACTTGTAAGAGTCAGTATGTCATCAGGGCCTTTTTTAGGAAAGTCTGAGTTT
+GGAGAGAGAGATTCAGTATCCTCAGGGAAGCTAAGTAAAATTAGAAAACAAAGGCAGAGG
+CAAAATTGCCCCAGAGTCAGAAGATGTACAAAACTCAGTGGGCATTTCTGTTGTGCAGAT
+GTAAGCCCTGACTACTGAATACTATATTTAAGAATTTCAGGCTAATTTAGGTCTCATTTC
+TTGCTAAGGTAAAGCTCTTTGTGTATTCATTACCTTTATTCAGATTGTTTCAATGGATGG
+TGAGGGATAATCTGTTTTTGCTTTGACCACAGCACAATAAAATTAGAAATAAACAACCAA
+AGAATAGCTCAAAATAAAATTACATATGTCTGTGTGTGTGGGTGTATATATATATGTATG
+TGTGTGTATATATATATATGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTA
+TATATATATATATATATATATATATATATTTTTTTTTTTTTTTTTTTTGAGACGGAGTTC
+CCAGGCTGGAGTGCAATGGCACGATCTCAGCTCACTGCAACCTCCCCCTCCCGGGTTCAA
+GCTATTCTCCTGCCTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGCACCACCATGCCT
+GGCTAATTTTGTATTTTTAGTAGAGATGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGT
+ACTCCTGACCTCAGATGATCTGCCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGGCGT
+GAGCCATTGGGCCAGGCCATGTCTATAATTTTGTAACAAATTGCTAATTAACAATTTTAT
+TGAAGAGGGTGTCTTAAAAGTCATAGACACAGAAATAATTATCAGTGAAAACACTGTATA
+ATAATATTTGTGAGATAGTTCTAAAGAAATGTTTATATATCACTCTAAACATATTTCCTA
+GAAAACATGAAATGTTAAAACTATAGAACTGAGCACTCACATCAAGAACCTGGAAAAAAG
+GAAAAGTAGCAACTACTTTAGTAATAAAGTTAAAGGAAATAATAACTATAAGATCAAGAT
+ATATAAATTAGAGAATTAGAAAATGAATCCAATGATAATATATTGACAACTGGAGTCTTT
+GAAAAGATCAATAAGATATCCAAAGTTTTCACAATATGGAACAAGAAAAAAAATAAATTG
+CAAACAAACAAAATACATTAAGGAGGAGAAGGACAATTATAGATTCAAGGGAGGTTAGTA
+GAATCATAGAGGAAAATATTGATCAAATACACACTCAACTGCCTAGACAAAATTGATGTA
+AATATATTAGACACTGTTTTGTGCAAATGGAAATAGAAACCTCAAAGGAGCACATGGCAT
+TAAATAGTTGAGCAATAAGACTAATGAGAAACATCTTCCATTCTCCCCCGAAGGCCCCTG
+ACCCAAATGACTTCTACCAAAATTTCAAGGAACAGAGAAAGTCAAATCCACTCAATCCAT
+TTTACAAGATGCTTATAAACATAATATCAAAACCATAATAGTTAGACTAAAAGAAAGGAA
+CTATAAGTCCATTTTATTTGTAGCTACACTTTTGCAAATATTAAATATAATATTTCTAAG
+TTATTTATCACATACAAGAGTTGTTAACTAAAATAGTCATAGGTATTGGATTTTATCTGC
+ACGTATTTAACAAAGCATATGATATTTTCTTCTTTAATCTATTCATGTGGTAAGTTACAC
+TTACAGATTGACTTAATTGCTGGGATGTATATTTATCAGAAAATATTTGTTAAGATCCGC
+AAGGAGACGTGTACACAAAAGTCTATGACTCTAATTTTTGCATGTGATATTGATAATCTG
+GAAGCCACACTGTCCATAACTGGAAAAATTGATAAAAGAAAATGGGATGAATGCATACGA
+TGAAAGAGTATGTAGCAGTATGAAGCATCCTGGATAGAAATTCAATACATAGCCTTGAGT
+GATAAAATAAAATAGAATAAAATGTATAGCATAATTTAATACATGTTAAAATACATACGC
+ATATGAATGATACTTCTTTATTAAAGGAGGCATATATAACCAATATAATAATGCATATAT
+TAAGTACCTTATAGAATACGTCTAATGGGAGGAAGGAAGGAAGTTGTTTCCAGTGAACAA
+TGAGAAATAAAATACACAAGGGAAAAATGAAATGGAAAGCCAGCATCTTTATATGAACTA
+ATGAGATGGTGTACTTTGAATTGAGGAGTCTGCAATTTCAAACCTATGCACTTGGGGAGC
+ACCAAATTTTCCAAATAAAAATAAAATAGGAAGAAATGTCATTTTAGACTATGACTCACT
+GCCTTTCCTCTATATATGGTAATTATCCCCACACCTTTAAAGATACATTTTTTAGGCACC
+TTGAATTTCTGTTGGTTCAATGGCAATGTTATATTTTTATGGAAACTGACAGTGAAATTC
+TAAATGTACATTTGAGTGCACAACTGTGATGGGTCAACTTGGATAAGTGCCAACATAGAG
+AGTCTATAGTAGCCAGTAATGCAAAGTGTTGCTGTGAGGGGTTTCAGAGATGTGATTAAC
+ATGTACAGTCAGTTGACTTAGATAAGGAGATTGTCTTCTATAATGTGAGTGGGCCTGATC
+CAATCATTTGAAAGGGCTTACAAGCAGAACTGAAGTTTCCCCAACAAAAAGGAAATTCTG
+CCTCTCAGTGGTTTGCTCCCACCTGAGACTTTCCAGGCTGTTGGCCTACCCTATGAATTT
+CAGACTCTTCCTGCCATACCCCACAAACGCATAAGTCAATTCTATGAAATAAATTTATGT
+GTGTATGTGCACATGTGTCTCTATGTATGTTTGCATCTATGCATCTGTGTGTTTGTGTAT
+GTGTGTGTGTGCACCAATCTCTTACTGATTCTGTTTCTCTGGTGGAATCCTGACTTATAA
+AAACCTCCAAACTTTAATTACCAAAAAGGCAACTATTAAAATTATCAACAAAATGATCAC
+TAATTTCAATATTAATGTCGAATTTGGTATGAAGCTGCACAAATCCCAAAAAAACAAATA
+TAGTCGACATTGAACAATGCAGAGGTTAGGAGCACTGGAGGCCCCACACAGCACACAGTC
+ATAAATCTGTGTATAATTTTTGACTCTTCCGGAGTTTAACTACAAATAGCCTACTGTTAA
+CCAGAATCCTTACCAATAATATAAACAGCTAATTAACACTTATTTTTTGTTATATGTATT
+ATATCTTGTATTTTTACAATAAAGTAAGCTAGAGCAAAGGAAATGAGATTAAGAAATTCA
+TAAGGAAGAGAAAATATATTTACTATTCAATTAGTAGAAGTGAATCATCATAAAGATCTT
+CACCCTCATTATCATCCTTACACTGAGTAGGCTGAGCAAGAGGAAAAGTAAGGGTTGGTC
+TTGCTGCCTCAGGGATAGCATAGGCAGGAAAGGTAGAGGAGGTAGAAGGGAGGTAAGAGA
+GTCAGGCACAGTTCCTATAATTTTACAAAAATATATTGTATTTTCTATCTGATTTTCTGC
+TTTTACATTTCTCTAAAAATGTTTCTATATGGTACCAATCCTTCTTCCATTGTTTGCTTT
+AGTTTCAGTGTCTATATCTTAGAAGGATCCATGTCATAAGAAGTCAAAAGCAGTCTTGAA
+TAATCAAAACCCTTCTGCCAGATTATCTAATATCAATTTGTCAATTTTTTTTTTTTGAGA
+CAGAGTCTTGCTCTGTCACTCAGTCTGGAGTGCAGTGGTATGATCCTGGCTCACTGCAAC
+CTCCTCCTCCCAGGTTCAAGTGATTCTCTTGCCTCAGCCTCCAAAGCAGCTGGAACTACA
+GGCATGTGCCACCACGCCCAACTAATTTTTGTATTTTTAGTAGAGACGGGGTTTTGCCAC
+GTTGGTTAGGCTGGTCTTGAACTCCTGGCTTCAAGCGATCCACCCACCTTGGCTTCCCAA
+AGTGCTGGGACTACAGGTGTGAGCCACTGTGCCCGGTCCTGGCACTGCTTTTTAAATTTC
+TTCTTCCTCATTGTCTGATACTGGTTCAGATGCACTCATCTCCGTCAAGTCTACCTCTGT
+TAATTCCTATGATGTGGTGTCTATTAGCTCTTGAATTTCTCTAAGATCCATATCTTGAAA
+GCCTTCCATCTACTTTTTTTTTCTGCCATATCCACAATCTCTCTAATAATTTCCTTGATT
+GATGCTGTTGTAAATCTCGTTACTCAGTTTCTCCAGCAGGAATTCATTGTGTAGGGCTTG
+ATGGCTTTTGCATCTTTTTCTGTAGCAACAGTGGCATCTCCAATGGGGTAATCCTTCCAG
+ACTTTTATGATGTTCTCTCTTTATTGGAGTTCTCTTCCATGACGTTGATAATCCTTCCCA
+AAGAGTATCATGTGTAATGAGCATTAAAATCTTTATGACCCCCTATCTAGAAGCTGAACT
+AGAGATATATTTGGGACTAGAAGACCACTTTGATACCTTCAGTGTTGAACTGTTGGGGTT
+CTGCCTGGCCAGGGGCATTGTCCAATATCAAAAGAACCTCAAAAGGCAATCCCTTACTGG
+CATGGTACTTCCGGACTTCAGGGAGAAAGCATCAGTGAAACTAACCCAGAAAAAGGATTT
+TTATTGTCCAGGCCTTCTTGTACAACCAAAAAGTCTGGCAGCTGGTTTATCTTTCCCCTT
+GAAGTCTCAAGGGGTGAGCAGCTTTACAGATAAGAGTAGTCCTAATCATAAACCCGACTG
+CATTTGCAGAAAACAGTAGAGTGAGCCTATGACTTTCTGACTTAAATTCTGGTGCTCCCT
+TTTCTTCTTTACTAATAAATGTCCTTTGCATTTTTTTTTTCCAGAATAAGGAACTTTTAT
+CGTTAAAAACCTGTTCAGGCAGATATCCTTTATCTTCAATGATTTTCTTAATGGCATCTG
+GGAACTTCTTTGCTGGCTCTTGGTCAGCAGAAGCTGCTTCCCCTGTTATCTTGACTTTTC
+TTTAAGCCAAACATTTTTCTAAAATTATCACGTTATCCTTTCCTGGCATTAAATTCCCCA
+GCTTTAGATCCTTCACTTCCTTTTGCTTTAAGTTGTCATATAATGGCTTCAATTTTTCAC
+AAATCTTATTAGTCTATAGGTATCCCTTTTTATAGCAATCCTGCACCCACATAAAAGCTG
+CATTTGGACACAAGATAAAAATGCATTTCGCAAACAGTGCAAGGTTTTTGCACCTGCTAG
+CATAGCAGCAGCAATGGCTTCATGAATTTCCTTTTCTCTTTTTTACAAAGGTCCTTACGT
+GGGATCCATTTATCTTGAAATGGCAGGTAACCACAGCTGCAGACCTCAATCCGTGGTGCC
+CATCAAGCACTGCAACTTTTTCTTATAATGTCATGACTTTTCTCTGCTTTTGGGAAGCAC
+TTCCAGCATCATTAGTCACACTTTGTATGGCTCCCATGGTGTTATTCAAGGTTACGATAT
+TGCACTAAACACAATGAAAAATACCTGAGAACTATAAGAGACCACTTTTACTGTGATAGT
+CAATTTGCTGGAAAGATAAACTACTCACGCAGAGATGATTGGCTTCACTAGGCGTTTTAA
+GCAGACACTCACAACGTTTTAAGCAGATACAACACTTGAGCTCACCACACTAGCAACAAG
+AGATGGCTACAAATTATTACAGTGGATGCACTACAATGAAGTTTATGCGGTTATGATTTA
+ATACTGCATCTTTATGTTTGTCTACATTTCTCTCTGCTGCAAATGGCGCCATATACAAGT
+CTGTGTTTGTGTGCATAAGTTTTCATAAAGTTTTACTTTTTATAATAGATTTCTGTATGT
+TTTGTGGTAGTAAATGACATAACAGATAAGTATCTACATATATTTTATGCATCCATGACA
+TACATAATATATTCTTCATTTTTAAGATATTTCTAGGCTATGCTGTTTGTCTATGAGTTT
+TTTTCAAATTGTCACAAATCTCCACAAAATTTTGCAATATGGTTATTGAAAAAAACTTGC
+ATATAAATGAACCTTCAAAGCTCAAAGCCATGTTGTTCAAGGGTCACCTATAGGCTCTTT
+TGATTGATTTCATTTCTACTACGAATCAAATATGTTTTGAATTTCTGACTTTGCTGTAGG
+AAGGCGATTTTATGTATGAGTCTGTACTCAGAGATTTACCTCATTTTATGAAAATTATCT
+CTTCATATTCTCAAAAGTTAGGTATTGACACCCATCTTCAGAGATGCAAGTATGTGCAGA
+GAGTCAGGAAAATTTCAGGTAGGCAATTGTTAAGCTTATGTGGGAACAATAATTTTTTAT
+TAACAGCAAAAATTTTCTTAATTTTTGTCTATTTGTGAACTGCTTGCTTTCACATTCAGT
+AATCAGCCAGTAACTCCTTCATTTTGGTATGCTCTGTTTTCAGATGTGTTGAAAGCCTTA
+GTTTTTCTTTTTCATTGTAATTTCAAAATATTTGTTCAACTCTCTCAGCAAAACAATTCT
+TCCTTTACTACCCCTTGGGGAGACTGGACCAAACTGTCACTAGTTCTTTCTTTGAAATGT
+CAATTTTGCTGTTTGAATAGTTAAGCCATCATGGAGGAGGTCAGAAAAAGAAAAGCATCC
+ACTAACTTTATTCTTTTGTCATTCTCTTCTGCCCCTCTTTCTGCTCCCGCTTATGGTGTA
+GTTTCTATGTCTGGGTGCATCTGTGTGGCTGGGAATTGGCTAGACTTTAGAACTGTTGAC
+TGTCCCTGCCTGGTGCCCTGGTGTCACCTGTATCATCTTTGCCCCTGGCCACGGAAGATG
+GAGCGCCTCTGTTTCTCCCAGTACTTCCAGTTCTTTATGAGCTTACCTTCTCCACTCGTT
+CCAGTTAAAAGTCAGTCTGATCGACTTTCCTTGGAGGTCACTCTCTGTACCTCTTTCTCC
+TTCAGCCACTTGAACCTTCTGTTCTTCTCTTTGACAGAGAAGAAAATGTGTTTACTATAA
+ATATTACACATTCGGAAACAAAATATTTTGAATACACATTCGTTTCTGAATGCACACATC
+TATCATCTCCCCTAAACAGATCTTGAGATGTAGGTAAGGGGAAACTAAAACTTAGATAAC
+AAATACAATAGTAACAGAAATAAAATATTTTCTTCACTGGATCATATAAAGGAAAATACA
+GACCTTGTTTGTTTTGTAGTCTTGAACAAATTACTTAACTGAGCATCATCAGTAAAATGG
+AAATGATATCCATCTTGCAGAATAATTTAATGATTATATATGTAAAGTGCCTGCTGCATG
+TTTAACCAATGGTAGCTTGTTAATACTAAAGTATTACTAACTTTCCTTCCAGAAAGGACT
+TAAGTACGTCATCACAATTTATTATCTCTTCTCTGTGATCTACAAACCAGAATCACAAGA
+TGGGCTGAGGATCTCACCTCTATCCTCCTTAAAATTACTTCCCTACCCATGCTGCATTAG
+TCTGTTTTCATGCCACTGATAAAGACATTCCTGAGGCTGAGCAATTTACAAAAGAAAGAG
+GTTTATTGGATTTACAGTTCCACATGTCTGGGGAGGCTTTATAATCATGGCAGAAGGCAA
+GGAGTAGCAAATCACATCTTACACAGATGGCAGCAGGAAAAAAAAAAGCTTGTGCAGAAA
+AACTCCCATTTTTTAAAACCATCAGATCTCATGAGACCCATTCATTATCACAAGAACAGC
+ATGGGAAAGACCCCACCCCCATGATTCAATCATCTCCCACCAGGTCCCTCCCACAACATG
+TGTGAATTATGGGAGCTACAAGATGAGATTTGAGTGGGGTCACAGAGCCAAACTATGTTG
+CATGGCTTCATGAAGCCTTAATATTAGGGCATCTTTTTTCCTTGCAAGTTGTTCAAGTCT
+CTTGACCCTGTAATATCAAAATGAAAACATCATTGCTGTCTTCCCCAGGAGTCTCATTCA
+ATTTGGACTTTCATATAAAATTGTCAATGTGTGAATACAAATTAGGCAACCCCCTGCCCC
+TTAGAGAAGAGAGAAATGTATTTTTGTCTATTCTTTACAAAGATTTTAAGCTGATTTAGC
+TGGAGAGGTCAATTTGTGACTGATTGTATTCAACATAGCCAGCAACTTATATATTTGGGA
+TGTATTTAGTTTGAGGATCTGCCTTTGATTTTTTTCATTGAATTGAAAGACACATATGTA
+GTTGAGCTTCTGCTGACTTTTTTTTTTCTTAACCCAACTAAGTGCTACCTAGATGGCAAA
+GAGATCCAGCAACAGAATTCAGAAGAAGAAATGAAGTAAAAACACAGAGCTAGACCCAGA
+ACCCATACTACGGACTTGACCTTCAGGCACCTGCTGCTACACAGAATGCATCACAATTAA
+TTGGAGGAATAGCAAGACAACCAATGAGCAGAGGGCTGGACCTCACTCATTCATAGAGGC
+CTTGGCCTTTTCAAAACCTGTCCCTCCTCCACAGCCTCTGAGATTGGTGGGATGGGAACC
+CAAGAAAGGAGAGGACTTGTTCAGAGCATGCCAAGCCCCTCCATTTTAAGCACTTCTCAC
+TAATTTCAAACATAGAAAATGAGAAGAGTTACAGAATCAGTACTAGATGGCAACAAGGTG
+GTTGGGACCCAGCCAAGAAGGGAGATTTGACACAGAAGACTTGAAAGCAGTGATTGAAAT
+AACAGTAAAATGTTGCATGTCTGTATCCCCAAAGTAGTTTAGATGCCACCATAAGCCAAT
+TGACTGTATGATCACTTCTATTTATTCTCATAAATACTACGTACCAATATGGATAGTACT
+TTCATGCAGGATCCAAAAATATTTAAAAACTACAATTATATTTACATAAAATAGGCATAA
+GTTAGGTTAGACTGAAATAGATCAATATTTTTAGACCAGTTACATTTAGATGGTAAAATA
+TTTATGTGATTTTTTGTCTTTTTCTCCATTGATCACTTATTCAATAAAGTGTTTGTGTAG
+TTTGTAAATTAAAATATAATTTTATAAACCATAAGGATGACTTAAAATTATTTATTCCTA
+TCTCTCACCTAAGTTTTCATCTAATTGACATAAAATCTCTATCCTTCCCTTCTCACTCAA
+ATTCCTTACCTTTGTTCTCTCTGCTTTTCCACTTGGCATCTCCCATTCAGCCTTCAACCC
+TAGCTTTTACCCTTGAAATTGTACACAGTCTATTCTTATGAAGATAAAAGTCTTACCCTC
+CTCAAACTGATCTCATGCACAACCATAAGAATGATCATCTTAAAACTAATATCTTATTAC
+ATCCACTCTTCCTTTCAAAAATCTGTCAATGGCTTAGCTTCCCATTGCCCATGTTACGAA
+GAACTCATTTTTGCATTTAAATTAAAGCCTTTCTTTCTCCCCTGCTCTGCTCTTAATCAT
+TCTTTCACTCCCATTTACTTTTATCTCTTTTCTGCCTGTCTCTCTAGCCTCACCTCTCAA
+CTCATCTTTTCTTCAAAATTTACACCCCAATGACACTAGTATGATTACAGCTCCCTACAA
+ACATAATCTGATTGTTTCTTCTTCATTTCTTTTAGGCTTGCAAAATATTTCCCCTCTTTC
+TGGGAAGGGCCTCACCCTTCTCTCGCCTCCAAGATTCCTGCATTCTTGTTGAGTATTGAG
+CTCATCCGGGAGGCCTGTCCTGAGACTCAGAGGATTGTTGAAGTGTTCTTTCTTTGTGCT
+CCCATTTCCTCATTAAAACTGTTATGGAATTGTCATTTTTTTGTTTGTTTACCTACGTCC
+ACCACTAAACAATGATAAGTTTGGGAGCAGAGATAACGTCTTGTTCCCTTTTGTATCTCC
+GGTGTTTAGACTATTGCCTGGCACGTAATATGATTTTAGTTTTTAAAATGAAAGAATTAA
+ATCATTAAACTACATTTATAGTATGCATTTATTCCAACTACTATAAATTTGGTTGAGCAC
+TATCATATAGCTCATAGATTGAATGCTTATCCACAAACGATGTCATGATAAATTTTATTA
+GATGCTTTGTTATGCAAAAAGGAAAACACACATTGATTATACCATTCTCTTAGGGGCCAC
+ATTAGAAATGATGTTGAGAGAGGAAATGACATGTGTCTGTTATGCTCCCATATATGGCCT
+GAGTTGGACACACTCACATGAGACACGATGCGTTGACCTGAACCAAGTACAGAAGACGGA
+TCATCTTTTGCCACCTCTCTCCCCTTTTCAGACAGTCCATTTCTGACATGGTTAGTTCTA
+CTGTCCCAGTTTACAGATTCCTCTCCCATTCTCTTGGAAATGACTTAATCACAAAAGAAA
+CTTAATAATGGCAACTTCTCAAGCCATGAAAAATGGCCCTCAGAATAGTTCACCTTTTTT
+TTTTATTATACTTTAAGTTTTAGGGTACATGTGCACAACGTGCAGGTTTGTTACATATGT
+ATACATGTGCCATGATGGTGTGCTGCACCCATTAACTCGTCATTTAGCATTAGGTATATC
+TCCTAATGCTATAAAAAAAAAAAAGAATTGTTCACCTTAGTCATTAAATAAGGGCATACT
+TATCCACCAACTCTCCTTTCTCTTTGGTCAAGGGTTTTTTTTTTTTTACTTCCTGGTTTG
+TCTCACCTCAGAATGCCTGAGTAGGTCCCTATAGGCACCTATGTGGGAGCAGCAGAGAAT
+TCCCAGGGCAAAAAGTAGGAAATACGTGATACAGCTGAGGCATAGTATGTGAGGTTGCAT
+TTGCATAGTGGCGGTCAGACCAAACATAGAATAACAAGGTGGACGAGCAAAGATGACCCA
+GGTACAAAAAGTGTCTAATGTAAGCAGTAATAATAGCAGCATTTCTGCTTTTCAGTGGGT
+AAATGAATGAGATGCTCAGCCTCCCCAGGGCAAGAGAGGGAAAAGGGGAGCATTGTAGAT
+GAAATAATCATTGAGTTGTACAAAATACCAGCTTCAGCCTCAATGAATTACTATAGTACA
+GAATGAAATGCTTTGGCAAAGTCAATGAATAAAAAGGAGAGATTATTCTATTTCCCTTCC
+TTGGCATCTTACTTACAGGAATAATTTCATTCTGACTCTGTGTAATGAGGTTTATGACCC
+TGGGCAAGTGAGTGACTTGGCTGGGCTCCAATTTCTTCATTTATAAAATGAGATGATCAC
+TGAGTTCCATTAGAGCTCTAACATTAAGATTTTATGAATCTATGTGCACACAATATACTA
+GAGTTTAAACTCTGAATTTCCAGAACTATGCAAGTCTGTATTATTGCACATGACTGTTCT
+AATGGATTCTCTACATTTTCCCAGTGCTTGGAGATCCCACTGCATTTTGGTTTTTCTTCT
+TCTGTGTGCTGATTATAATGATATATTAATTGCTCTGGAATTTCCTATTTATAGAAAGAA
+AAGCCTCTGAAGAATGCATTCAGGAAAAGTGGTTTATATGGATTATATGAAAATCTTAGC
+ATGTATGCCTTTGGAAATACTCACCTATAACTGCCCATTTAATGACTAATTTCCAGAGCT
+TTCTCATCAGAATTACAAATAACACTGAATGCTTTCCCGTGGCCTCCAGGTTGCATATGG
+TCTGAGAGACTAACTCTGCTTCCTCTCCTCCTTCCACTCTCCCTCCCTTCCCTAATTCTA
+GCCACACTGGCTCATTTTCTGCACCTTGATCACATTTAGGCTTTCTGCCTTAGTCTTAAA
+ATCATGTTCTTCCTGCTTGGACTCTTCTGTTTGTCTGTATCATCCCTTCTTCTCCTGATT
+CATCTCTCAGAGCAAACATCGCATCCCTGGAGATGCCTGCCTGAGACATCCAGTCTAAAT
+TTGCTCCAGCCACACTCTATTGCTTCATTTTATGTTCCTTTTCAGAATTATTATTGTATT
+TTTTAAGTTTATGTGTAGTAATATATTTATTTCTCTGATCCTCATAAATGGTAAATTTCA
+TTCTACCTTGAATCCTGAGTTCCCAGGAGAATATCTACAACATAATAAATGTAGGATTTA
+TTTGTTGGCGAAATTAAATAACCACTGAGTGGTACATGGGTCAACATTCAAACGAAAAAG
+AACAAATACAGAGCTTGAAACTAGAATTCTTGTTTCAATTCTGTCTCTCATGTGATAGTA
+TATAACCTGGGAATAATAAGTACTGTTTACTTCACAGGTTGTTGCTTATGTTTAGACTTT
+ATATATAGTTACCTGAAATCTCTACCTTCGAGAATATTCGAGAAGAATCCATTCATTCTG
+TCATGTTTTATGTTACAGTGTGAATCTTCATCACTATTAGCTGTGAAAACTTGTGCAAGT
+TACTTAGCTCCCCTCAATTTCCTTACCTACGAAACTATGGTAATGACAGTACCTACCTCA
+GCTGTTAGATTCAGAGTACTTCGGAAATACCTGACACATTGTAACCACTTTATAAGTGTG
+TTACTTGTTTTCATTGTGTGTCAGCTTCTTTTCCTATTAATAACTCTGATTTAAGCTTAA
+TCATCCTCTGAGGCAGCACTCAAATGCCAGGTCTTCTGTAAAGCCTTTACTTATATCCCT
+GTTTGCCTATTCCTTCCCTACTACATTACACAGAACATTAGTGATTTCTTACATTTCATT
+CCCTAGTCAACACTTTAAAACTTGCTTGCTTATTTATTTTCTTTCATAATATAAACTAAA
+GGATCATCATGAATTTCTCTAGTACATTCATTCAATTCTAGTACATTTCTAGGCCATTAT
+TTTGTGGATAAATGTATATTTCCGCAAATAGATGGAATTCTCACTGTCTCAATTTATTTA
+AAATATTCATTTAAAACATTTGAATAAAACAATTTTCTTTTGTAAGCATCATTGGTCATG
+AATAGAAGGAAAATCAATTTTTAAAAATAGATTTGAGAAAATATTTTTAAGTCAATTGCC
+TTTTGATTTCAAAATACTTCAAAAGGTTCATTCTTCTTGGACTATAATTTATTTACTAAA
+ATTCAAAATGAGATATCTGAGAAAAAAGTTATTGCATTAAATAAGAAAAAGCCTGTATTT
+TCAGTCCCAAATGGATGTATATCTGCTATTTTATCAGAAGATTTGCAATTTTAAAATAAA
+TTCAAAAGCTTCCACCATATTTCTTGGTAAAACTAAAATAGTTATATCCAACAATGAAGT
+GCAGAGGCAAATACTATACACAAATCATAATTTTCATGTATTTTTTCAGTTATAGTCCAC
+AGTGCTAATTATTTTATTTTTATACTTGTGCTTTCTTTCTTTCTTTTCTTATTTATTTGT
+TTATTTTTTTGTTTTTTTAGACAGCTTCACTCTGTCACCTGGGCTTCAGTGCAGTGGTGT
+GAGCTTGGCTCACTGAAATTTCAAACTCCAAGGCTCAAGCAATCCTCCTGCCTCAGCCTC
+CAGAGTAGCTGGGACCACAGACATGTGACACCACAACTGGCTAATTTTTATATTTTTTTG
+TAGAGATGGGGTGTTTCCATGTTACCCAGGCTTGTCTCGAACTCTTATGCTCAAGCACTT
+CACCCACCTCAGCCTCCCAAAGTGCTGGGATTACAGACGTGAGCCACTGGGCTCAGCAAA
+TTTTTCCTAAATGTATTTAGAAGTTGAACAAGCATAATTATTTTATTTATTTCTAGTCAG
+TCATCTTTTCTATTTCCTGTAATAACTGATCAAAAATCCTCTATCCATCACCCCAAGACC
+CCAGGTATACACATGCAGGATCTTCATCTGCAGATAAAATCTGATATGAGCTTTTTGATT
+TCTTTCTGCCTCCAGTCATAAAACTCTTGGTACTCATTTACATTTACTTCCTTTCATTCT
+GTGTAAAATGAAAGCATCCAGTTTCAAGCTCAATCCCTTCCTGTGCTTGACTGATTGGAG
+TAAAAAGACTATTAGATATACTTCATTTAGATACACAGTACCTGAACATAAATCCCTGAA
+CCTAATTTCGCTCACTTAGTAATCACAGGCCAATGGGTTATTGAATTAGCAATGTACACA
+GGAAAGTCCTAAATAAATTGATTGTTTTCTTCTGCTTTCTTTTCCCTCTTAAATTCAAAA
+CTCTCTAAGACCTCAATTGTCTTTTTCTCTTAGTATCTGTTCAATGATGGATGATTCCTT
+TTTCTTCTGTTCCTCTCTAATATATTCAATCTCTCATTTTTAAATTTTCATCTTGTCTGT
+ATTCAAATTATGCCCCTACCAAAAACACACACATAAAGAAGGAAACTATACCAAATTGCT
+TAAGATCAGTGATGAAGAGAAAACCTTAAAGCAAACAGAAAAAAACTGAATTATATGCAA
+AGGAACAAAAACACACATGAGAGTAGTTTCTTGTAGAAATAAGACCAACCAGAAGATGGT
+GAAGCAAAACCTTAAAAGGAATGAAAGAAAAAATTTCAACCGACATAATAATGTACATTT
+GACCAAATTAAATTCAAAACCAAAGGCAAAGACAAAAACTTTCTAAGAACAAGAAAATGG
+AAATAATTCAGCAGTAGCAGACCTGCACTGTAAGATATATTTAAAAAAAAAGAAAAGTCC
+TTCAGGAAGAAGAAAAGTGACAGCCCCTGGAAATCCAAATTTACAACAAGAAAAGAAGAG
+CACTAGAAATTGTCACTATGTGAATAAATAGAATTTTTTCTCACTAATTAAATCTCTTTA
+AATAATAATTGATTGTTTAAGGCAAAAATTGTAACAATGAATTGTGAGTTTTGTAACATT
+CATCAGAAGTAAAATGTATAAGCAAAAAAAATCACAAAGAAGAAAGAGATAAGCAGGAGT
+ATATTCTTGTAAAGTTCACAGGGAAGTGGTATCATATCACTTTATGGTAGACTGGAGTAA
+GTTAAAGATGTATGCTGTAAACCCTAAAGAAAAAGAAATCACTAATATAATACAATAAAG
+AGTTATGGTTCAAAAGCCAATGGAGCACGTATAATAGAACCATAAAAATACTCAGTGAGT
+TCAAAAGATGTCAGCAAAGAGGGAAAATTGAACAATGAACACTGGAGAAAAATAGGAAAC
+AAATAGTAGAATGACATACTTAAGTTCAAGTATATCAAAATTCACATGACATATAAATGC
+TCTACTGACTCCAATGAAAATACAGAGATTTTCAGATTGGAGAAGAAAGCAGGACCCAAC
+TATTAACTGCCAACAAGAATCCAAAATCCATTTTAAATATAAAGACACAGAAAGTTAAAA
+ATAAAAGATGGAAAAAGATGCAGTATGTTAACACTAATCCAAAATAATCTAGAGTGGCTG
+TAGCAATATCACACAACATATATTACCCAGCAAAGAGTATGAACAGAGATAAAGAAGGTC
+ATTTCAAAACGATAAAGGGGTCAACGCATCAAGACAACATAAAGTCCCGTGTTTATGAAC
+CTAATAACAGAGCTTCAACATTCATGAAGCAAAAACTGATAGACCTGAAAGAGGAAATAG
+AAGAATCCACAATTATAGTTGGAAACTTCAACAACCCTTTCTCTATAATTGATAGGACAA
+ATAGACAGAAAATCATTAAGAACATAGAAATATTGGCCAATATTATCAACCTACTTGACC
+ACCCCGCAGTTATGCAGACTACCCACCTTTTCAAGTATATTGGAACATTTAAGACAGTGT
+TTCATGAAAGAACTGCCAACAAATCTAAAAGAAAGAAACATTTTCCAGACTAACTTTCTC
+TAAGAAAAAAAATAATTTATTCCTGGCCACTTATTGCACAATATTTTCAAACGTTTGCCT
+TAGATCATAACAGTTTTTCATGTCAACACTTACAAGTTCGTATCAAAATTTCTCTGCTCT
+TTTCACCATTGCCCTCTGTCCAAATTGCTGTCCACCTCCTTTGTGCTACCTTGGAACTTT
+GCCCATAACCGTGTCATAAAACTTTGCCTGTTGGAATCAGCTAGACTGTGAATTACCCTC
+AAGCCTCATTTCTTTTTTATGGTAAAACCTATGCTGACTTCTCAGTCTTCATCTTACTCT
+AACTCTCAGCAGCATTTGACAAGATTGATTCTCCTTGTTTTTTGAAACGCTTTCTGTCCA
+GCTAGCTGTCATGACATCATCACATGCTCTCAACTTTTCTACAACTGCTCTGGTCTCTGC
+TTATCCGCCTCTCTCTGGTCCAGGTGAACCTCCCCTGCTGGATTCATGCTGCTGGGTATG
+AGAGTCCTGCATGAGGTATGAGAGTCCTTTAAGTATGTTCTATTTTATTCACTCTCATCT
+TTCTTTAATATCTCTTCCAGTTCCGTGGCTTTACAAACCATTTGCATGCTGACAGACCCC
+AAATTTCTTTTTTTTTCCTTTCAAGAGTGAGACTCCCTTCACTAGAAAGAAAAATAAAAA
+TTTTTAAAAACACCAAATGTTTATCTTCAGCACACACATCTCCCTGAACCCCAGCCTCTG
+ACATCTATCTGCCTACTTGCCATTTCCACTGGCATGTCCCAGTCCTAGCCTGTCCCAACA
+TGAGCCCTGAGTCTTCTCTTCTCTCAAACCTTCTCCTAGCACAGGCTTTCACATTTCATT
+AAAGGTAATTCCATTCCTGCAGTTGTTCAGGCTAAAATCCCTGGAGTCATTTCCAGCTCT
+GTTCATTTGTCTCCTGTAATATAGCCAGTCCCTTAGCAAGTTCTCTGACCCCTGTCTTCA
+GAATCTATGCAGAGCTCACACCTACTCCACTGTCACCACCCTGGCCCAAACCACCGTTCT
+CTCTTACCCGGATTGTCATAGAGGCTTCTCAACCTGTCTTCTAACTGATGCCCTCACTCT
+CTTCAGCCTGTGCTCAACATGGCAGGTCATGTGAGCCTGTGATTCAAAATCTGCTCATGG
+CTTCACATTACACTCGGATAAAAGGTAAGCCTATTGCAAAAGTCTAGGGTCTTTCAGGGT
+TTCACACCCCACCTCCAGCTCATTACCTTTACTCTTCCTCTGTGTATCGCTCTGATACAC
+TAGAGCTTCCTCACTGCTGTTCAAATATCCCAGGCAAAATCCTTTATACTTGCTATTCCT
+TCTGCCTAGATACAAGGGTGTCCAATCTTTTGGCTTCCCTGGGCTACAGTGGAAGAAAAA
+GAATGTCTTGGGCCACACACAGAATACACTAATGATAGCTGATGAGCTAAAAAGAAAAAA
+AAATCACAAAAAAAATCTCGTAATGTTTTAAGAAAGTTTATGGATTTGAGTTGGGCCATA
+TTCAAAGCTGTCCTGGGAAACATACAGCCCATGGACCTTGGGTTGGACAAGCTTGGCCTA
+GAACATTCTACTCCCAATTATCCGCATGGTTCATTATCTCACTGCTGCCAAATGTTGACT
+CAAATGTTATCTTCCTAGAACAGCCCTCCCTGATGGTCTCTAGGGAGATGAAACTCCCCT
+GACCACCTTTACCTCCTTCCTACTTTATGTCTTTCTGTAAAACATATCACCATGTGGCCC
+ATTATATATTTTAGTTATTTAATTAATGTATTGGTTCTCTCTCCTCCCTAGAACATAAGC
+TCCAGAGGGCGGGGGTTTTTGTCTGTTTTACTTACCACACTTTTCCTAGCACTTAAAACA
+GTGCTTGATACATAGAAGGCACTCAAGAAGTATTTGTAGAAATTGGAAAGGTATAAAACA
+AGTGAATGAATTAGTGCATAAATTATTTCTCTGGACTTAACCTCATTTCTACAATAAATG
+AAAATCAGAGTAAGCATTTATTGACATGGAAAGGAAAGCCTGGGCAAAGAAGACAAAGTT
+AAAATGAGAAAAAGGACAATAAAGATGAATGAAAGACAAAAGTAATGTACAATTATTCTC
+TTTTCTAGTCTTCATGTCTGATTTAGGAAAAGAAGAATTGTTTTGGACAGCTTATGCTAT
+TCTTTATTTCAGCATAAGCACTGAATTTTTATTTTCATTTTTCAAGCTCCCTGTGCCCTA
+CTTTCTTTACGTTTTTAAATAACAATGATCCACCCCCTCAGATGGGTTCTGTCAGCTATC
+TTGACCTTTGTCTCAATCTTATTTTTCTGTTTGACCTACCCACTATGCTGAGAAGACATT
+TATATTTAAGTCTCTGTTAAACAAGTCCAAAAGAATACACCAGTTTCTTTCAGAAGAGAC
+TGTATTTTGTCCTCAAGGAATAAAATTGTTTAAATGTTACTGGAGACATAATTGCTGTTA
+TGCTTCCATTTTTAAAATTTTTACATTTATATGTAACCCTACTTTAGTCAAGTTATGTCA
+CGAACATTTCCAAATATTTCCCCTCACTTCACAAAAGTCATTTTCTCAGGATTTTAATAG
+AATAAAACTGAAGGTGTGTCCATCTGTACCTATTCATTGTAGTTTGTACAGACTCTCATA
+TTATTAAGACAAAAGCCACTCTATTTTTTAGAGGTTTATTATATACAAACTTGTTGCTTT
+TTCTGTAACTAGAGGGACACTGTAATTGCCATATATAGCTGTTTCTCATTGTTACAATTT
+GAAGACACTGTTTAAGCATTAACACAAATTGCTAGTCAATCAATCAGCAATCATATCTTG
+AGCAGAGAACATGCCCTCACAGATCTAATGATTCAGCAGTGTGATCAGCTATACAACCAG
+GATATAAGATTTAAATTCATAGAACATTGGTGTTAGACACAAGAATGCTACTGTAACTCA
+TATACAAGTGAGCATGAAATGGATCTTCCCTTTTGATCTCCTTTGAGACAGCATGTAGCA
+ACCTTCTGCCCAGAGTCTGGAGTCAGGTATAAAACTAATCAAAGCAGGAAACAAACAAAA
+GGAAAAAATTAATTGAGTGTGTTTTCTGCTAACACAGCAATTGAAAGACAACTCATGCTC
+ATTGAAAGCCAGAGTAGAGTGTGTAAACCATTCTTTATTTCCATTATGTACAAAGTTATA
+CAGGCAATGCAACCTATCATATAAATTTGTACAAGTTTTAGCAAAGCCAAAAACAGCTTT
+GAAGAGGCCAGGTTTAAGTTCCCTAAAGGGGAAGGATGGAGACATTAGTGTGATGAGTGA
+TGAGAAATGACCATCCTGCTGTTGAAGAAAGGAATTCACCTGAGGGACGGACCTCCTGAC
+AGTCACTAGTTGTGGTCTCTGAGAAGTTTTGCTTCCTGATAGTCCTGAATTGTGGTCTCT
+AGGGCTTGGAAACCTCCAGAATCACATGATTCTGCAGGGTTTGGAACTCTGCCTATTTGT
+TTCTGGTTTGGATTTCATCTAACAATTTGAGGGGAGCAACTGGATGACCTGGATATGGCC
+ACCCCAGAAATAAGCACCTGGTGTTACTACTAAAGTAGGTTCCCATCTTTCTAGTCATTG
+TGAACCTTGCACTGCAGGATATGCTCTGTTTCCTCTCAGACATTCCCTGCCAGTCTCCTG
+TCTACTCTGCATCTCAGGAAACATTTTCCATGCTCCCTTATCCTCTGACTTTGGGATGGG
+TTCAGTCCATTGGAAGCAGAGCTTGAGGAGGGGAGAAGCCTAATAATGGAGTGTCACTCC
+CACCCCTGCCCCTCTCCTTCCTGGCATCTCCTCAGTCATGTCAGTTCTCACCGGATAGGA
+CCTTTCTTTATGTCACAACTGCCAACAGAAAGTCACCTGGATGTTTTCCGCTCTTGCCAT
+CTTCCCAGTTCCTGTTAACATTATCTCTACTTGTCCCTGCAGTCATCGGGTAACAGTGGC
+TTCAGATTGTGGCTAAATTTGGGGTCCTTTTATTGTCTGTCTTTGGCTTGTCAGGTCTTC
+CATCACCTATGTATTAAGTTATTTTATTTGGAAGGAGCTAATGTCATTTCTGTTTTGCTG
+CTAGATATTGATTGATTCACAGGTTGTCAATAGAGTTGCCTCCTCAACCCCCTTCTTAGT
+GGGTTTTGCTAAACTATAGAACAGTGTAATATTAAATAGACCACTAACTGTTTTCTCAAT
+CCAGCAAATAATAGCCCTGATGAGCCATAGTCTATGGCTTTCATAGCGTTTTTCTCTCTG
+TAATTTTGTCTTTTAAAATATTTTCTTAGGTATTCTTGGCTGGGCGCAGTGGCTCAAGTC
+TGTAATCCCGGCACTTTGGGAGACCGAGGCAGGCAGATCCCTTGAGATCAAGAGTTCATG
+ACCAGCCTGGCCAACATGGTGAAACCCTGTCTCTACTAAAATTTTTTTTAAAAAGAAAAA
+TTAGCCAGGCGTGGTGGCCTGTGCCTGTAGTCCTAGCTACTTGGGAGCCTGAGACAGAAG
+AACTGCTTGAATCCGGGAGAGAGAGGTTGCAGCGAGCTGAGATGGCCTGGATGACAGAGC
+GAGACTCTGTCTCAAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAAATAA
+ATAAAATAAAATATGTTCTTAGGGATTATTTAAGATGGTTGGTTGAGACAGGATTTGAAA
+GGAAACGTTAGCCTGAAGTGACGTTTACCTCGGACTTTTAGTCTAATTAGTCAGGCTATT
+GTCCTTAATGGTCATTTTAAATTATAATTAATATTATTAGGACTTCTACTCTAAAACAAC
+CTTTCTTACACTTAGCACAATTTCTTTTTTTTTCTGTTTCATAAAAAAAAAAATAGCAAC
+CACTCTAAGAGAATTGCCTCCCTTTCCTACTCCCCTCCCCACTCCAGTCCCCCTGCTGCC
+CCGCCAACACACACACAAACACACACACACACACACACACACACACACACACAGACAGTG
+TTCTGTCCCTGAAGCCTCGGATTCCGTGACATCGCTCTCCTTGTCTAAGAGGATCGCTTT
+CTTACCTGTGTTCCAGACCTGATGGGCTCCCAATTTCTGTCTGCTCAACCTCTCTCTCTC
+TTCCTAGGGTTCTTTACCTTTTATTTTAGATCATTCCCCTCAGAAAAGTTAGAATCTTAT
+ACTTTAAAAAAAAAAAAGAGTTTACCTTCTGCTATGCGTTCCCTCTCACTCTCTTTCCTT
+TTATACCCAAACTTTATGGAAGATTATTTAAAGTCATACCTTCTAATTTGTCACCTCTTG
+CTCCATTATCATCAATTTATGTTTCCTCTTTCCACTAGTCTCTACTAACTTCTTTAACTT
+CTTAAAACTCATTGGTAAATCTTATTTAGTCTGTGCAGCATTTACTACCTTAGACCACTC
+CACTATGCTTTCTTGATTATTAACTTGTTATATGACAGCCTCCTCTCCTGAGTCTCAATT
+ACATTCTCATTTATTTTCTTTGTCTCTTCTTTGCCCTGTGTGTATTGCAACTCCTGGTTT
+CTTCCTTTGTCATTCTCAAAGATCCATTCATCTACTTTTCTGGGCAAAATGGTGCGTTCC
+AAGTGGCAATTTTTAGAGTTACACTACTTGGTTCAGCCAGCATTTTCCTAGTGGATATAA
+AGAGGAAAATATATACATACGTACATACATATACATACATACATATATATACACACACAC
+ATACATACATATATATGTATGTATGTATGTACACTATTTGGTTAAGCCAGCATTTCCCTA
+GTGGATATAAAGAGGAAAATACATACATACATACACAGACATACATACGTACATATGTAC
+GTATGTGTGTGTGTGTGTATATATATGTATGTATGTATGTACATATATATTTTCCTCTTT
+ATAGCCACTAGGGAAATGCTGGCTTAATCAAATAGTGTAACTAAAAATATATATGTATTT
+ATGTGTATATGTATATACACGTATGTATGTATGTATGTATATATTTGAGAATATCTCCAC
+TTGTAGAAATGCTATAAAGAATGTGTTCTCTAGTCAGATTAGTTCAGATAGCAATTGACT
+AGAGAAAAGGTAACAGCAAGAGCATACTACTTGCCATGCACTGTTTCTAAAAATGTTTTC
+ATATCACTTTTTAAAATGAGCATGTATTAACATCTTTTGTCACTATTGTTGGGCAGAAGC
+CAGGTTGGAAAATTGAAGGTGATAATACTGTCTCAGGAGGACTCCTGTATACATTTGCAC
+TAAGATACATTAATTTATTTGAACTCTTTAGTAACCTCTTTAGTGCAGGCAGAAATAACA
+CACTATCTGTTGTGTTGGAATATAAGATGGGCAAGTTTTGGTAAAAAGGAAATGACAGGA
+CTCAGATAATGTAGTACCATGAAAAAACACCAACCTGGGATAACGTAGGTATTCTGAGAA
+TTTTTGGACAATTTCAGGACAATTTCAGTGAGATAATAGACATATTAGATAAATGAAAGA
+CTGAATGAGACAATTGTTCTGGGCCACTGATAAGAAAAAAGTGAGAAAAATTGTTAAAAA
+ACAGTTTTATACGATAATGAAAGTAAACTCTTCAAAATATGCACAATTTCTTTTCACCAA
+TTTCATCAGAATACCAAGATAAAAATCTCTGAAAATATAAAAAAAACCCTTTTACTTAAA
+ACGATTGTATTTACTTTTCATAAACGATAAGGCTATAACTAATCCAATACGCAAAGAAAA
+CAACCTAGTATCTGAAGATAACTGAATTTGTGCTATTATATCTACAGAACATTTATTTTT
+CTTGAAGTTTTTATTTGCAATAGGAAAATGAGGAAACAAAATTGAATTTCAGTAAACACA
+CAAAGAAAAATTTTGGTTATAAACATTTTGCGTATCGTCCAGCTGCAGTGAATACATACT
+TTTTAAAGTCATGGAAAATTTTGTTTCTTTTTTTTTTTTTTTTTTTAATTTCAGACAGGG
+TCTCACTCTGTGGCCCAGGTTGGATTGCAATTGCATAAACACAGCTTACTGCAACCTTGA
+CCTACCAGGCTCAAACAATCCTCCCATCTCAGCCTTCAAAGCAGATTGAACTACAGATAA
+GCGCCACCACTTAGGGCTAATTTTTTAATTTTTTGGAGAGATGAAGCCTCACTGTCTTGC
+CCAGGCTGGTCTCAAACTCCTGAGCTCAAGTAATCCTCCTGCCTCAGCCTTCCAAAGTGC
+TGGGATTACAGGTGTGAACCACTGTGCCCAGCTGGAAAATTGTTTTTGAGCAGTGTTTGT
+GGTGTTTTAGAAAAAAAAAATCCAAGCTGTGGTACATTTTTTTTTAATGAAGTTTTATAA
+AGCTGGGACAAATATATCAAAACTTCAAATAAATTTAATACATTGACACATAAATATAAC
+ACACGAATTTGGAGTTAAATAGCATCTTTTAGTTTCATTACTCCAGAAAGACACAGTATT
+GGGATACATCTGAAAATAAAAAATGACCCATTTCAAATGATGTTATTACAAAAATAAATC
+ATATTATATACACTTTTTTATCATTAAAAATCATATCACAGATAATTGAAGGCAATAGCA
+TGTTAAGTGAAATTAGTTTCTTTATCATAGCATATACATATGATTTTTTTCACATATATG
+GCTGACTATGAGGTTCAAAAAATACCTACTTAGCTACATAAACATTTTACGTTTTAAGCG
+CACATATTAAAAGTTCACATTACACTGTAACATCTAAAGAAACAACATTCACTCAGCCAG
+CAAGACTCAAAGAACAAAGCACTAAAATGTGTTTTCATTTAAAAATCCTGTATCAAAAAG
+GACTTACTAGCTTCTCAAGATTTGTCTGTACTGTAATCAGATTGCAAATTACTTCTCTTA
+GATCGCTCTGGGAGCATCGCTCTATGCAGCAGATGCCCCTGTTCCCAGCTCCACTCCTCA
+GTGTCACAGCTTGTGTTAAACTATAACATCCTTTTTGTCACTTAGCAAACTATTCTTCCT
+CACAAGCACAGAACTTGGGATTCCCAGGCCCCACTCCAAACTTGAGAAAAACATCTTAGA
+GTATGTTACACTTCCCTGCTAACCCTTCCTCATTTTCCAGCCCCCAAATACACATATGCG
+AAGAGGAAATGAAGAGACACCTGTCAGATTGATATGGTTTGGATACTTGACCCCTCCAAA
+TCTCATGCTGAAGTTGGATCCACACTGTTGGAGGTGGGGCCTGCTGGGGTGTGTTTGGGT
+CATGAAGAGAGATCCCTCAGGAGTGTCTTGGTGTGATCCTTGCAGTGAGGAGTGAGTTTT
+TCTCTATTATTTCCTGCAAGAGCTAGTTGTTAAAAAGAGCATGATGCTTCCCTCCCCTCT
+CTCTTCCTTCCACTCTTGCCGTGTGATAACTGCACACGCCAGCCCTCCTTTTCCTTCTGT
+TATGAGTAGAAGCAGTTTGAAGCCCTCCCCAGAAGCAAATGCCAGCACCATGCTTTTTGT
+ACAGCCTGCAGAACCGTGAGCAGGGACCTTGAACTAGAAATACCATTTGACCCAGCAATC
+CCATTACTGGGTGTACACCCAAAGGATTATAAATCATGCTGCTATAAAGACACATGCATA
+CGTATGTTTATTGCGGCACTATTCACAATAGCAAAGACTTGGAACCAACTCAAATGTCCA
+ACAATGATAGACTGGATTAAGAAAATGTGACACATATACACCATGGAATACTATGCAGCC
+ATAGAAAACGAAGAGTTCACGTCCTTTGTAGGGACTTGGATGAAGCTGGAAACCATCATT
+CTCAGCAATCTATAGCAAAGACAAAGACCCAGACACCGCATGTCCTCACTCATAGGTGGG
+AACTGAACAATGAGAACACATGGACACAGGAAGGGGAACATCACACACCAGGGACTGTTG
+TGGGGTGGGGGGAGTGTGGAGGGATAACATTAGGAGGTATACCTAATGTAAGTGACGAGT
+TAATGGTTGCAGCACACCAACATGGCACATGTATACATAAGTAACTACCCTGCACGTTGT
+GCACATGTACCCTAAAACTTAAAGTATAATAAAAAATAAAAAAGTAAAATAAATAAAATA
+AAATAAAATAACAAAAAAACAAATAAACCTCTTTTCTTTATACTTTATACCTAGCCTCAG
+ATATTTCTTCATAACAACAGAGACAGACTAAGACACAGATTGTTGGGAGAATTCTACAAT
+GACAGAAGTGCATGGGTCTCAGTGGGTTGTGGGAGGCACGGATATCAGCCTACCCAGTGT
+TCATTCTTTCCTCCCTCCTGCCTAAAGAGCCCTCCCTTTGTTTGGGGATACAACATGCTC
+AGTAAAGATTTACAACTTACAGGCTCCCTTGCAATTGGAGATGACTGATTGCTGGCTAAG
+ATTATGTACATAATGGCATTGAGTGGGGCTGCTGGGAAATCTCTTTTAAAGGGACAAGAT
+TCAGCTCACATGTGGCCTTGCCCTTTTCCATTCCCTGCCGGAAACTCAGTGCAACACTGG
+AGGTGAATCAGAGGTGACAAGCATAAGCACACAATTTACATGTGGAAGACACGGAATGAA
+GACTAAATTCCAAGGAGGGTCTTGGGGCCACCACACCAGTCCTGGGCAGCCTCCCTCTGG
+ACCACTTGCCATGTGAAAAAAATAAATAAATAAATCCATCTTTTGTACAAGGAATTTTTA
+AATTTGGTTTTCTATTACTTGTAGCTAAACGCAATCCCAACTACAGTGATTACGGTTTAT
+CCTAGTTAACATTATAATACTTCAAGTGTTTATAGTATTCGAGTCACAGGAGCGTGACCT
+TTTCTGATTTATTATAGAATGAAGATGCTGCACTTTATTACTCTTTTAAATCCTTGTTTT
+TCGGATAAGCTTAAAAGCAGCACAATCATCAGAGCTATAGCCATTGGAAGTCAGAAAAAA
+AATCAGATAAAATTGAAAATTTTATTTTTATTGGGTACTGTTTACCGCTTTATCTACTTA
+TTTATTTATTTATTTATTTATTTATTTATTTATTTATTATTTTGAGACAGAGTTTCACGC
+TGTTACCCAGGCTGGAGTGCAATGGTACGATCTCGGCTCACTGCAACCTTCGCCTCCCAG
+GATCAAGTGATTCTTACGCCTCAGCCTCCCGAGTAGGTGGGATTACAGGTGGGTGCCATC
+ATGCCCAGCTAATTTTTGTATTTTTAGTAGAGATGGGATTTCACTGTGCTGGCCAGGCTA
+GTCTTGAACTCCTGACTTCAGGTGATCCACCCACCTCAGCCTCCCAAAATGCTGAGATTA
+TAAGCATGAGCCACCGTGCCTAACCTGATTAGCACTTTAAGTGTTAATGGTTCATAAATT
+TCATGTACATTAATTAAATGTATACATATTAATTATATTGATTTAATTACAACTATATTA
+TATATAGTTATATATACATTTAATTATATTAAAAAACATACATTAAAGTGGTTAACTATA
+AAATAACAAAGTATGTGAAATGTGAACTATTCAAAATAAATATAGTTTAAATGAAAGAAT
+GTCTGCTACATTTAAATGAAAGACTCTTCCAACTTAAAACACTGTGAAGCTGGTAATTCA
+ATAAATGTTGCTTCAATGTGGAATTTTCAAAGGACATGAACAGCTATGCTGTTGATAAGC
+AGTACATGGTTACATGGTTTTGTAAAAACAAACTGCTCATGTAGAATCCATGAAACAGAA
+ATCTCAACTGTGTATTCAATCTTATGATAGATTAGATAGAGATAGATGGGTAGGTAGGTA
+GATAGACTGGATAGACAGATAGATAGATAGATGATAGATAGATAGACAGATAGATAGATA
+GATAGATAGATAGATAGATAGATAGATAGACAGACAGATAGATGATAGACAAATAGACTG
+ACTATCAGAGATAGGTAGATAGATAGTTAGATAGATACATAGGTAAAAATACACTGGTCA
+TTGTGGTACAAACTCTGTAATGCAGACTTCATGACTCTCAGTGAAGTGTCCCCAGGATCA
+TTTCCCAGTTCTTTTCTTCCCACTTAGCCATCTCCAAACTCTATAGTCAGATCAACATAC
+AGTTAGAAATAAAATACTACAGACATGAGCGTCATTCTTAGTTATCCCAGCCCCCAAGGA
+AGAGCAGAAAGGGGCTGACGCTCTGCTCCCACTTTGCACCCTGAGTACAGAATGTCTGTG
+AAAGTAGATAAAAAATGGAAGATGTAGTATTTGTTTACATGCATTAATTAAGCTAAACTT
+ATCATTTAGATTATATAAAATGCTAAACTATTGCTTTACTTTGATAAACATGTATTTGCA
+GATGGCTTAAGGTTGCCAGAAATTTTGTAACTTATATGCTGTTGATTTGGCTCTTAGATT
+CACCTGGAATTCTCCATTTTCCTTGCAAAAATACTAACATGGGCCTAGTCACTTGATGCC
+CAGACCCATCTGATCTCATCTGTTTATATTTTCTACTCCTGATATTCATTATACACTTTA
+ATTAGACAATCAAAACCTGAATTAAAAGTAGGTGTATGAAGAAAATAGCAATATAAAGAT
+AAGTTACAAACTTAGAAACTTAGTAAAGACAAGTGGCTTCTATTCTCCCCTATCACCCAA
+ACCATCTGTGGAATTAGGTGTGGAACAAATAACTGTAAAATATGAATTAAAAATGTAAAC
+GCATCGAAGAATTCTTAATTTGCTTTACAAGTGTTTATAATCTATCATTTAACATTAAAC
+ATTTTTAATGGAAATCTTTGGCATTGCATTATGAATATGGTTTATGCAAGAGAGACCAAG
+GGATATCCATCTGTGGGCATCTGTTCAAATAAAAAGCTTTGATCGTACATCAACAGATGG
+AGAAAAGAAGGTATACTGATAGATTTTAAGTTACAGAAAGATGCCAAGCATCTGGTCAGA
+ACACTATTTTATCACCTCTAAACTGTGAATTTGGTGTAATTATACCAATCCTATAGAAGA
+GGAAAGGCTCAGAAATGGAAGTAACTTGGCCAAGATCATATTATTTAAGGAGGAGAGCTT
+AGATTCAAAGAAAATCTGCTCAAATCTAAAACTATTGTAAGTTGATACTGAATTTCTTCC
+TCAGATGACAAAACTATGATATATTAATATTATTGAGAGCGGTTAGATTGGAAACAAACA
+TTCACAAGTAGAAAACATATATTCCCTCAAGCAAACCACTGATTGATTTTAAATTTTATT
+TGCTATGAATCCAATAGAAAAAATAGCATTGCAGGATTAATATTTGTTGACAACAAAATT
+ATAATGATTTCTACTAAAGCAGAATACATTTACTTGGATCCTGGGTAATAAGATATTTAC
+TAAATTTATGTAGTTGCTAAGTAACAGATGAAATGCAACCCACCTCAATGATTCTAAGCA
+ATGGATAAATGCCACCAGTTTTTAAATAGAATGTGTTCTGTATCATAGGATCCTCAGCCC
+TTGGTTCTTGAGTTGCACTATGATTGGAAACATTAACTTTTCAACTATGAAATTATCCTC
+CTTCCTCCAGCCTTCTTATTTGATACGACATTTTCTTTATCTTAGTCTCTTCTTCTTGTA
+TGAAAACTTAGAAATGTACACAGAAAAAAAAAGAAGGCTCCTTAGCTGATGGGAATTTTG
+GCTTAACCCAGGAAAAATTTTAAGACCAAATGACAAATAAAATATTTTATATAACTGATT
+TTATTTGTAGTTCAAAAATATATTTTAAAAGTTAGATTTTAAGACAGTCCTTTCTGTCTT
+CAAGCTGGGCATTTTTGTTTATTTCTGTTAAATTTATATTCTTAGTGTTTAAAAGATTCA
+TACCATAAAATTCAGATAAATTTTTTAACGTTAGAAAGAGTCCAGCACTGTAATTAGCAT
+AATGCCTTTTTAATTAAACAGTCCCTCCACCAAATTCTATGGCTATGTTGAAAGGTACTG
+CTTCCTTGAAAAATAAATATCACAAAGGTATGCCTCACCTTAGAAAAACATTATTTTGAA
+AAACCACCACTTAAGGAAAAATGATAGTATATACACATATAGTCTGGTATAAGTCCAAAA
+AGCCTCTTACGTATGCAGAAATCCGTAGCTCAGGACAAATCAACAGCAGCAAATATCTTT
+AATGTGTTACGAGCCTCGCAGACCTTAGTTAAACAGATGAGCAATTAATATATTTACAGT
+AAGGAACAAAGACCTCTGCATTAGTAAAGAACCCAGCTGCTTTTAACTTGTATGTCTGGC
+TTTTAAAGATGCTTATTTGAGATAAGATTTAGTCTCTAATAAAATACATCTTTGCGTTGT
+TTCTTAATTTTATTTGAAAGAAAAATACTCCTATTTTCTCATGTTTAAATCTATGGCCTC
+ATCCTAGGTTATGTTTTTTCTTTTTATCTAGAGTAAACCATGTTTGTATTCTAGGAACAC
+ATTTTCATTTTTATAATAAAACAGAAAGGACTTAAAAGTTCAATTGCTTTAAAAAGTCAC
+CTTAGCGTCTAGCTTTGCCGGACACGTCTAAAACCTGAAGAATGTCTATTTTACTGTTAG
+TCTCATTGTCTTGAATTTGCTTGTGCACATTTTTTGAGGGTAGTTAATTCCAGCCAGAAG
+GGGAGGATTTTTCACAGTGCCGAAGTTATTCTGCAATGGTAAATTATAAACACAGCTTAT
+TCATTCCTTTGATCTTTTTGTCCATTCTATTCTCCCTGGCTAAAATGCTTCATGATTTAT
+CTTAAAAAAAGGTTTTACAAAAAATGCTTATAACCGGTGTTCTATGAGTCTGTAGAGTTT
+CATTTTTAACTCTTGGAAGCCCTCATACATTATGGATATTTACATCAGGTCATATTTTCT
+GACCAAGATCTTAAGTTTCTTTGGGTGCAAATCTTCACATCCTCCATGTGCTTTCTGTAC
+AGTGCACAGTAGATAGTTGGTCAAAATATGCATAATTGCCATCATACACAGGGCAAAGAA
+TTCGTTGTTCATGGAGCAGATTAATATTCATGCATTGGAAAACTAAGTTCTACACCAAAC
+TATTTCAAAGCAAGAAAGGCCGGGCGCAGTGGCTTATGCTTGTAATCTTAGCACTTTGGG
+AGGCGGAGACAGGCGGATCACCTGAGGCCAAGAGATCGAGACTAGCCTAGTCAACATGGC
+AAAAACCCATATCTATTTAAAATACAAAAAATCAGCCTGGCATGGTGGTATGCGCCTGTA
+ATCCCAGCTACCCAGGAGGCTGAGGCAGGAGAATCACTTGAACCTAGGAGGTGGAGGCTG
+CAGTGAGCCGATATTGCACCACTGCACTCCAGCCTGGGCAACAAGAGCAAAACTCTGTCT
+CAAAAAATCAATAAAATAAAATAAAATAAAATAAGAATGTCAAAGCAAGAAATATAATAC
+TAATCCCAAGGAGCAAATTTGCTTCCAAAAATCTCTAGTAAGTCCCCAAGAAGGAATAAC
+TTTACTGTATTTAAAATTGCCTTGTTTTTTTTTTTTGCTTGAAAGACAACTCGATTAAAT
+TATTGTGAAACTACATATTTTCATTATGTATAACTGGTTTTAGAAACCTCATACCTAAAA
+ATACCTAAGAAGCAGGCTTCTCTTACATAATATTTGGTTGAAACCAACATAGATCTGTTT
+AAGCAATGTAATGTTTATTGTCCCAATGCCTGAATAACAGATTTTATTTTTTATACTGCA
+GAAATTTAGAGAGGATTAGTTTTCCTTATCACTTTCTAGAGCTATCTAAAAGTATGAAAT
+CTCTGAGTATTATGAAATATTCAGAGAATTGGGGAAATATTTACATCACTTGAATATAAC
+ACGTAAAGTTCAAATTTTTGTTTGAAGGAACAAAAATCATTCTTTTTGTTATTCTTGGCT
+ATTGTCAAGGTATTTTTGTTCCAAGGAAGAAGTTTCAGTAAAGTTATACATGTCTGAAAA
+ATTAACATGGGAGTATAGATTGTTAACAGAAAGAGACTAGATGAGTTACATTTATTCTCA
+TAAAAGTTGTTTCATAAAATGTACTTTGTTATTCCCCAGGTCCTGATAACATATTACATA
+ACATACTGTTAATCACAGTTCTAGCTTATGAGTCACATCATTTATTTTAATATTTCAGGT
+GCTCTAATTTTTTTCCTATAAATTAGCCTTTCCCCAAATCTTTTCATAGTGTATTATCTT
+GGTATTCTTTTTCTCACAACCAGTTACAGACTTGAAGTCCCTGTGGGAGAAGAATCTAGG
+GAAAATTGTTATTTTTTTCTCTTTTCTATATCTTCATTTCTAGCATAAAAAAAAAAACAA
+ACAAAAGCTCTCATCTTGAGAAAATATAAAATAATTTACATCTTTTTAGTGTCACCCAGG
+AATTCAGGCCCCTAATCAGGGTGCCTGCCTCTGGAAAGAAAACGCTGTTGAAAGTTAGAA
+GCGTGCATTCAGCTCTAGAGGGCGCGCAAGAGTCTCCACCTGACTTCACGTCCTCACCCC
+TCTGAGCCAGACAGTGGCTGCTGATTTTGGCCAAAACCAAAGACAGCATTGGTGCTGGGG
+CATACACCTTTGGCATGGGTGAGGTATGAAAAAGATACTAAAAGCAATAACCCCCAGTTG
+GATGTCTCTTTTGAGATGTTCCTTTAAGGATCACTGCTTTGGGGATCCACCTCTTTCAGG
+TCGGCCTCTTTTGTAATCCTTCCTTCCTTCTTTGGATTGGTACTTTTGGATGCCTACTGT
+TTCTTTGCCTGTTGGGTCTGATACAGGATGCCTTCCTGCCTGACATAATACACACCATTC
+ATCTGCTTAGGACACCAGTGGGAACTGGGGTGAGGGCCAGGGAGAGAAAACATGGAGCAG
+GAAGCAGAAGGTTGTCTCTAGTCCAGACAGTGGAAATTCCTCAGATTCACAGGTAGTCTA
+CTCCATTCCCTTAAGTAGATTTCATGAAAATTGGAGGCCAGAGCCCCAGACAGCAAAATG
+AGGTTAATTTTATCCTAGAGTTTCTCCTCTGTCCAATTCACTCAAAAACTTGAAGAGAAA
+TCAGCCGGGTGATGAGGGCTAGACAGTCAGGATTCTAGCCTTCTGTCTTTAGAGACTCCA
+CTTCAGAAAAAGAGGAAGACCAAGAATTTGGGTCATTTACATATGAGTGACTAGAGAAAA
+GAGAAAAAGAGCCTCTGAGGAGTAGAGAAGGGCAGAGGCCTCAGGCTTGGTCTAGACACC
+CCCAGGGGAAGTAAAGGCAAAGCTGTAACATCAAATCCACCCATGATCCTATCCAGAGAG
+AGATTCAGTGTACAAAAATAGCTGAGATACCACTGGATTCAATCTCAGAAAGAACAGGCA
+GAGATCTTTAAAGTCCCTTTTATCAGGGTTAATGTGGGTGATCTGAGTCCTAAATGACAT
+TCTACCAGTTAGTAACTAGGTGATGTTTGCTGAGAGAGATGACACATTGGCACCCTCTCA
+TTCATGCCATTCATAGGCAGTACCACCCTTAGACCTGGGCAAGTGGGGTCCTTACTCCCA
+CTCTGGGGTGCCTTCCTCAAAATTTACCAAGATCCCTGTAGTGTGTAGGACAAGCTGGGG
+CCTGAAGTATTGTCATGGTGTGGTGCCACAGGCCTGGACCACTTGGCCCTGGTCCCCATT
+TATCCCTTTTGGGGCAGTCTCCAACTCTGTCCCATTAACGTACCCCATAACTAGGGTCAA
+GCAGATGACCCAAGGAGGAGCTGTAGTCCTCACAGCTTTCAGGTTATTCCAGGATCCTGT
+GGCCAGTACCCAGTTCAAGAAAGAGCTTGGTAAATAGATGACTCCCTCTGGCTGCTGCAG
+TATTTCTTCCAGAAGCTGGTTGAGATTATGCTGCCAAAATGGTGCTGACACACTAATTTG
+GATTGACTTTCACTCATGGAGAAAGCAGAAGACATTCAAGGCTATGGGCTACAAAGGAAC
+ACACTTGGGCTTGAGCCATGTTTGTGAGACAGTTCATCGGCTTTCCCTCATCCATCACTG
+CCTCTGGTCTATCCCAAAGTAACAAGTAGCAACAGGCTTCCCTTACTCCAAGTTCCCCAT
+GCCATGGGTGGCCCCAAGGGTTATCAACTCACTCCCTGTAGGCTTTACATCATACAGCAG
+GCAGTTCTCAAGTGGGCCTCTTGTTTTCAAGGGATTTTGAGACCACTGCTCCACATGAAC
+AAAGGGCAGGCAATTCTGATCAACGTCCACTCTTGCCTCCAATGGATATGATAATGTTAT
+GGTATCTCTGATCATTTTTAAGGCATGTCAAGTTAGGAGCTGACAGTTCTGTGAAAATGG
+ATCAACTCTGCTTTGCCCATGGGCCCCTCAGTTACCCTGTCGACTTGTGTTGGTGGGAAG
+ACTACAGGGTCAACATGGTAGGATCCCGTGCTAGGAATACGGTGGTTGTGACCTTAAGCT
+TTCAAGGAAGATGAGGCAAAACCACATGTTTTCCTGTGCTTAGACTATGACATTCTGAGA
+GTAAATTTAACATGACAAGAAAACAAATCAACTTTCACATAATTCTGAATACCCTGCGTA
+AGACTTGCATCTGGAGTCATCATCAACAAAGCTCAGTAATAACCTTATAGTGTTATAAGT
+ATCCATGCAACCAGCATTAAATAAAATAAAGAACAGCAGGAAACTGCAAAGGCAAGAATG
+TCTGTATTATTTCAATACGAACAGGTTCTGAAGAGCCATGACATTTTGAATAATAACAAT
+GTTGCTCCCTTTTTATTTTGATGGACACATGACATTAGCCAGGAAGGGTACACTTGACAA
+TGAAGAACATGAAGAGATAGTTTCTAGACCGAACCAGGAAATGATAATGCCTGAATATCA
+CAGAGAATTCTCATGCATGGATCAGACAATAAATAAATACATAAATACCTCTTTGTTACT
+CATTATTCTAAATCCCAACCAAAATAGATAAGTTACTATACCTCACACGGTCCCACGAAT
+TTTGTTTATGACAACAAAAGCCACACCAAAAAAAAAAAAAATTGTGCAGGGTCTCACCCA
+CACCAGCAGCAGCCTTGTCAACATTCTGGGACTTGGCAGCCTGTTTGGCCCTGGCGGTGT
+CAGCACAGCAGGAACTCTGTCACTCACAAAGTGGAACTGATCTCACCTTGCAAGAAGCAG
+CAAGTTTGTCCCCATTTCACGGGGTGATGTCTCTTTGTAGGTGCCAACTGCACTACCAGC
+AGCTGAGGGGTGGCTTGGGTTAGGCGAGAGTGTATTTGGAGCAAGCACTTGAGGAAAGTG
+AGAGAATGTTTTAATGCTTAATCTCTATCACAATTCCCACTACTAGCACCAAAAATATAC
+CAAAAGACCAGAGTACTAAGGATTGCAAGCAACCTCAAGACAAGTTCCAAGCCTTTCCCA
+CTTTAAACCAGATTGTAACTGCTAAGCATTCTTTTTCTAGATATTCTAGTCTCTACTGTT
+AGTAGGATTAATACAAACATTTATTCTACGCAGTGAGATGCTAAATGAATCCTTCTTGCC
+TGATACTCAGGAATTCTTACCACGAAGAATCATTCACCAAAGCTTATGTTACACAAAATA
+TAGTCTAAAGAAGTATTAAAAACTTCTTTCTTTGTTCTTTTGTTTTTTAGAGTCAGGGTC
+TCACTATGTTGCCCAGGCTAGAGCCCAGTGGTGCGATCATGGCTTACTGCAGGCTCAACC
+TCCTGGGCTCCAGCGATCCTCCCACCTTAGCCTCCTGAGTAGCTGGAACCACAGGTATGC
+ACCACCATGCCCCACTAATTATTTGCTATGTTTGTTTGTTTGTTTTTGTAGAGACAGTGT
+CTCACTATGTTGCTTAGACTGGTCTCAAACCCCCTGACCTCAAGTCATCCTCCTGAATTG
+GCCTCTCAAAGCACTGGGATTACTGGCTTGAGACACTGTGCCTGGCTAAGTGCCCCATAT
+TCTAAAGAGAGCTCCCTTAAATCTGCACTAAATATATTAAGAGCTTACTTAGGGAGGAAG
+AAACAAGCCATGTTAAATTTGGTATCCAAGCAATTTGAAAGAAAGCTGAGACATTGAGAG
+AAGGGGAGAAGTTACTACGACTTCTCAGAGAAGACACATTTTCTTACCCTCCAAATAGGA
+AAAGAAAGGAGAGGTGCTCTTGCTTCTCTCTCTGAAGCCAAGTAAGTGTGGTTTCAAGAA
+AATTCCGCATAAATTTTAAAGATGCCTTTCAGAAGGGTGTCCTGGTGTCTAACTTCTCTT
+TATGGACATCACTCTTACTGATGTGGCACTGAAAAGAGACAGCAGAATAAGATGAGGAGG
+CAGTCTTGGAGCCATCTGTATCCCCACAAGCTGGTGGACAGAGATGTAACAAGTGTATCA
+GGAGTGAAGGCTGACAGTAGAAATAGACAAGCTCCAGCCATCTTGCAGGTTTCCAAGAGG
+CGAAAGATGGAGAATGGGAAAGTATTGGAATAAAAAGTCAAGTTAGAGTTGAATCTTTCA
+CATCAAAGAAAAGTGCAATATGCCAGGGAGTGAGGAGCTTGAAGAACTTTGCATAGTACC
+CCACAAATGAGCCAGCATTTGGATGTTTACTGCAGAGAAAGAATTGACAGTGGTTAGTAA
+GCCGGACAAGAAGCAACAGCACAGCCATCAAGGTGAGTACTCTGATAGGGCTGGGTTCAA
+TAAAGCCTTGCTTGTCTCCTCCTCCTTTTCTCCTAACCCCAATACATTGGAGAAATGTGG
+GTGGAAGAGGGAGGACAAAGAGGAAGTTTCTTAGGAATAGAAAGCTTGACGAGGCCCATC
+TCCTCCAAATGGGAGGACATTAGAATCAAGTTTCAGAGCGCCATTTTCAACTGCACTCAA
+TTTTGTTCATGGAGCTAAAAGCTTTCAAAGTCTTTCCAACATGTCATTCAGGGGCAGGAA
+AGAGATTCAAGAGAGTCTGATGGAAAGCAATCACTGGAGGGAAAAAATAAAAACACTCCA
+TATTTATATCACTTGAATTTAGAGTGCTAAAGAAACTGATGACAAACAGACTCAAGTTGT
+CTCAAACCTGAGTGACACCCTGCCAAGTTGTGGTACCTCCCTGCTTGATTAGTGAGTTGT
+CTGTTTCTACACCTAACTGCAAAGCTTCCCTTTCCAGTTTTCTTTCTGGCACGCACTCTG
+GGGAGAGCTTGATGGAAAATAGGTCCTTGGAGGGTTGATTTTCTACACTCATGTACACTC
+ATGAGATACATTTTCTGTTTTCATTATCGGGACTGATCTTAGAGAGGAGCTTTTGTTAAA
+AAGCCTCATTCTTGAAGGTTGTTCACTATTCTTGGCAAAATTTGACATTTCACCCCAATT
+TTGGCCCCCATATCCCAAGAGGTTCTTGGGTTTTCTTCTGCAGAAGTGCAACTTGGATAA
+AGCATTTGAGTAGTTAGGCATCCAAGGTGGCCTGATAGAAAACACCCACAGGTTCCTGGT
+GTTCTACCAATTTGAGCTAATGTAATTAGTTGAAGCCTAAAGTTTTGAAAGAGGTATTTG
+TGGGTTTCTTTACATTTATTTATTATAGACCAGTGTCAATAACATTAAGATAAATATTAT
+CCCATCTAGCTTTATGTCTGAATACAGTGATTAAAGGATAATTTTCAGGATGTTGCACTA
+TATTCTTGAATATCAGTTCTTAAATATCAATAGAGATCGTCATAAAATCATTACAGTGAT
+GATGCACAAGGCAAAGTGGAGTTGAGGTTTATAAAGTCTCTCACTGAATTTTTCTGGGTT
+AGTGTATAAATATATTCTTCAACATTTTTATTTAAAATTAACCCAAAGAGCAAGAGAAAA
+AAAGGAGAAATTTAGATAATTGCCAAGATAATTTATGATTGTCTTCATTCCTCCTGGCTC
+TAATTATTTATGTCAATGTGTCATGAATTACACAGAGTAACTTTCAGTAGTGTTAGTGCT
+CATGGGACAAGCATTCCACTCTCCTCTAATTTTTTGTATAATTATTATTTCTTGTTGAAT
+TTTTGAAAAATAACACCACTGGGTTTCATTATTTGTGTATCTTTTTGGAGTCAGACTTCA
+GTGTACTAGTCATTGTGAAAATTCAATAAATGCTTTTTGATTGAGTATCTCAAAAAAGAA
+AACATTCTAGGTATTGTACTTGGGTTTGAATGGGATTAAGCTCCTAGCTGACACTTATTT
+GCTAGGACATTTCCCCCATGTCACATAATCTCTCTGGGATCCAGATTTTTCTATTGTAGA
+GTCAAGAGAAAGATTCAAAAATTTATCTTGGATGTCTGATATTCGAATTATTTGCTTTAC
+TCAGTTTTGCTTTTTAACAACCAAATAAATATTTGATCATTGTATGAATTTTTTTAGTAG
+AAAATTCCACAATTTGTTATGGAAAATTCTGCCTTTGTACAATCCATAATTCATATTGAA
+TAAAAAAACAAATCATTTTCCTATGAGCATTTTAAAAATTATAAGATCCTATTTTATTTT
+CTAAACTAGCTTTAATTTTTAACCATATATTTGGGGAGAGACAAGAAATGATAATATGTA
+GCCACTATTGTTTTTTGCTTGACAGCTACAATATATTCCACTTCTTTTCCTGTTGCTATT
+AGTTTGCTTGATGCCATTTGCTTGATGCTAGTACATTATTTCTTCTAGCCAACTTAACCT
+TGATGCTAACCTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCGGGAGGCGGAGCTTG
+CAGTGAGCAGAGATTGCGCCACTGCACTCCAGCCTGGGGGACAGAGAGAGACTCCGTCTC
+AAAAAGAAAACAACAACAAAATAATATAATAATAATAACAAAACATTTAAACGTCTCACT
+TTTGTTTATGAACCAACATAAACATATTATTTGTCTTCGTAAATCTTTCTCCCTGCAGAA
+AATCTAACATCTGAAAAGATTAAGGAACCCTAGAAACTATAGTAGAATAACATATTGTCC
+ACTTTAAAATAGTACCTTGGAGTTAAACCATAATTTTAGCCATAGAAAGTGGTGGGGAGT
+TCTAACTGTGAATAACGCTTGAAGATCTAAACCCTACTTTCTTTCTTTTTTTTTTTTTGG
+AGACAGAGTCTCTCTCTGTCTCCCAGGCTGGAGTGCAATGGCGCAATCTCGGCTCACTGA
+AACCTCTGCCTCCTGGATCTAACCGTACTTTCTAAGATCACTGGCATTATCTTCATAAGA
+AAAAAATATATTCTTATGACACTTAAAATTATGCATTTGATATTCTCCCATAAAACCTAA
+GTTGTTTAATGCTTAGAATAAAGATAGTGAGGAATTAGTTTCACTTTAAATAACTGTTGC
+ATGCAGTACTGACCTGTTAATCTGGTCACTGAAAGCCACAAGTCTGAGCTATTAACAATT
+AACTAAGGTAAGCTATAATTTGACGTGTGATAAGAATGACCTTGTTTAATAATACAGTTC
+ACAGGTGAGCAGTAAAGTTGAAGTCCCTCAAGGCTTAGAATAAGTTCTAAATAATCCCTA
+ATACATATTTGCACACACAAAATTACGATATTCACCAAAGTTATAATATTGACAATAAAA
+TGTATTATTCCCTAACAGCATCAGTCATAAGGAAGTTTATTTTGCATGCTTGGATTCCAT
+AAAATAATATCACCCAATTTACTTCCTTATATGGACTAAAACAAGCCTTTGTGATTTCAG
+GAACATGAATAAATAAATTATATCTGAAATATTTTACATCTCAACAGTTAGTTGTTTTGG
+GGGTTCCCCAGTAAGTATTCAATTAAGCGTTTCAAACCATCCCAAACATCTGTTTTTACT
+ACCATTGAAGTACAGTGGGAAAATCATAAAAATTGCAGCATTTGTTCAGTGGGCAAAACT
+AAATTGTGGACTCTAATGCTTTCTTCTCTTTTCTTATTGATCTGACTTGAACAATCATTC
+AGATTTTAATCAAGCAGATATTCTGGCATGTAGTGAAGATTTTTCACTGCAGAAAATAAA
+AATGAAAAAAAAAAGTATTTGCAGCTCGAGAAACAAAACGTGAGCAGTTAGTCTTCCACT
+GGGCAATGAGCAAGTAGGCAAGGGCCCTAACTCAAGATGACTTATCTAAGCACCAGGAGC
+TCTATGTACTATGCGTATTAAGGATTTATGGGGTTCAAGAGAAGACAGTTAACTGAAGAC
+TATTCCTACTTCCCAAAGAAGTATTGAAAACGTTGGCTTAAAAAAACTTTCTGTATTGCA
+AGATTTTTCAAAGTACTTAATATGCTTCGGGAGCTTTGTTTATCTCCAAATGGAGAATCA
+AGCAGAATCCTAAAATTACTTTCAATGGAACTATTTTTTGGTCAAGTTACTATTAATATC
+TTGTGGAACACTACCAGCCTGCAAACACAGTCTGGAGAATGATGAGCTGTATCTTTATGT
+TTGAGAGTAATCAATACTTATGTGGTAATTAAATCCTTGAGACTATAAGAGATTGCTCAT
+GGACAAATGACCAACAAGAACAGAACCTTGCAAAAGAACACCGCAATTTGAATAGGATTA
+AATTCCTAGCTGACACTTATTGGCTAGGATATTTACCCCATGTCGCATGATGACTCCTGC
+ATGGTAGGAGTGGTTATGAGCACTTAGTTACAGGACAGGCAGGGTATTGTATTATGAGTT
+TATTATACATGCCCTAGACTCATAGAATTTTTAAATTAGAAGAATAGAGATCACATAATT
+CAACTATCTCATTTCATAGCTGGGGCAATTAAGGACTGAGGAATTAGATGATTTATTTAA
+ATGTACACAGCTTGTTTCACGGTTGCTCGTCAAACTCAAAAGAGCGAATACGTTACCCTA
+AAGAAACTCATTCTGAACAAAAGCAAAAATGCCTTCTGGTCACAAGACACTAATGATAAA
+AATAATTTCTTAATACAGATGTTGAAGGAATCCACTGGGGCCCATTCCTTCCTTCATGTA
+ATTTCTCATGATGAGGAAGGAATTTTTTGAGTTGACAAAGTAAACTAAACCTTCCTTGGA
+AACAACCACACAAGAGTGCTCATTACTGTAATAGACAGAGGAAGGAAAAAAAAAATCTCT
+GTGGTTTCTAAGTCTTATGCACCCTTTCATTATTTTGCTTGGGAATGTTTTATACAGACA
+AGCATAGAGTAATTTATTATTTTTTCTTTACTCCTTAACAATCCCGGTAATTTTATAAAG
+CAGGGATGTTTCTCCTTTCTAATAAATGAGTCTGTGTTTTGACATAAAATGATTTGAAAT
+GGTATAATCCCACTGCCTGCATAATTTCTTATTTATTTATTTTGAGATGAAGTCTTGTTC
+TTCTCCCCCAGGCTGGAGTGCAGTGGCGCTATCTTGGCTCACTGCAACCTCCACCTCCCA
+GGTTCAAGCGATTCTCCTGTCTCAGTCTCCCGAGTAGCTGGGATTACAAGTGTTCACCAC
+CACGCTCTGTCTAATTTTTGTATTTTTAGTAGAAATGGGGTTTCACCATGTTAGCCAGAC
+TGGTCTCGAACTCCTGACCTCAAGTGATCCGCCCACCTCAGCCTCCCAAAGTGCTGGGAT
+TACAGGTGTGAGCCGCCAAGCCTCAATTTTATTTTTATTTTAAAAAAATAACAACAGCAA
+AAAAACAACTGGCAACATAATTACCACACACTTAAAAACAACTGCAATTGTGGTGTAAGG
+AACTGTTGGAAATCTTGTTTCTGGTTCTCATGCTTAACAGTGTTTGCTCATAAAAAACAG
+GTCACTGAACCTTCAATTGCTTCACAACTGTACCTTTGGTCTGTTCTTATTTTCTGTCTA
+ATTAAATGTAAACATTATTTCAAATTATAAACCAATGGGACTAGGTGTCATTTTTCCACC
+CTTCTCTACATCTTCTTTATTTCCTTGAACAGGTGCCATAATAGACACTCAATATAAATG
+TCTATAAAATGGAATGAACAATAATATATCCCTCATAGTCTTATCTAGAGGCTTAAGTGA
+TATCGTCTATGTGAACATTCTTTGCAAAGAGTGAAGCACTAGTTATTATTATGTGAGTCT
+GAATTACTACTATTGTTACCATTATTATAAGACACTTTTCTAGATATTGTGATTGATATT
+AATAAGAATCAGAACGTATACAAAGCAATAGGACAACAATTTTTACCATATATTAATTCT
+TCAAAACTGCTTGTTGAATCATGTATAAAACCAATATGGTACAAATGCAAATCAGTGGAA
+TATAGGCACAGAAAAAAGAACAGGTCAGAGTCTCACGAAATTAATGTGAGAAGTGAATAT
+GAACCTAATCTGAAACAAAGTGGAAAGCGAGAAACGCAGAATCATAATTTGGTAGAGAAG
+ATAAAATAAGGAAGATAACACTGTAAAACCCAAAATGGCAGGAGTAGTTCTGAGCAGGAA
+ATTGTAATTCTTGTATGAGCAAAGAATTAAGATGTTATAAGGATGGGTATTTGTTTGTTA
+TTAGAATGAAGCTAGAATTTTTTCTGGATGTAAAGAAAAAAGAAGTAAGGCTATCCAGGA
+ACTGAAAATGGCATCGACGAAGAGGCAGTTCTCTTCCATACAACGATCTCCATGAGACAA
+TCTTTGCTTCACTTTAAAGATACCTTCTCTTTAATTCTCTATTTGAATCTCTCCAGAACT
+CCAGAATGAGACATCTAATTATCCATTTAGCATCCATACATGGATGACCAGTATAAACCT
+CAAAATTAGTATGTCTGAGAATGAACTCTTGCTTCTCTACACCAAAAACCTTGGCCCCCT
+GAGTCTTCTTCATCTCAGTAAATGGCACTACCATTCACTTGTTCATTTAGGCTGACATCC
+TTGGAATCCTTTTTTAAGTCCTTTGTTTTGCTCATACTCCAAATCCAAATAATCACAAAT
+TCTATCAGCTTTCCCATCAAGATAAATTGTGAATCCATAGATTCTTCACTTCGCTGCAAT
+TGTAGTCAAATGCATAGAGTGCAGTATCCTCTTAAATGGTCTCCGTGATCTGTCTCTTAT
+CCCACTACTATCCAGAAATCAAAACACAGACTAAGTGATTCTTTTAAAATGTAAAATATC
+TAATGTCATTCTCCCACTCAAAGTCCTGCAATCAAATGTAGAATAAAGTCCAAATTTCTT
+ACCTAAAGAACCACATGAACCTGGCCTTGACTTCCTCTCTTACCTTGCTTTCTCTATGAC
+TATTCATCCCTTAGCTCCTCAATATCTCAGTCTACAGAATAGACTAAGAATAGTCCTTAG
+TCTATTCTATAATTAGGCTGATGTTGACTTGATTCTGCAGAAGATGCAATATCATCCCTC
+ATCTCCTGCTCCGAGCCAAGGGCAATTACAGAGGTTATGTGGCTGAGTTTTAACGATGAT
+GATCTATTAAGCTCACACAACTTCATATTTCTCCATAGTTACACAAGACACTTTATCTAG
+TTGCTCCTTATATGTGAAGTTATGTACTGTATTCATCTTATAAAAATAGAATGAACGAGC
+TGCTGATCATGAGTTCCAGGGAAGAGTGTTTGAGTTGGGATCCCTCAGGCTGCTGGCAGC
+CCCAAACCATGCTTCCCGAGGTTAGTTTTCAGTTAGTAAACACAAAATATAGATTTGAAG
+AAATTATCTGGATAATTCAAGCAAAAAACATTGCTTTGACTTGAATTGCCTGATTAATTG
+CAAGTTAATCATCTCTTCACTATTGAATTCCTTCCTAGCAAGTCAATTGTCCACGCAATA
+GAGACAGAGCATGGTGGTGACTTAAATTACTCAAATAACTGCATGCTTGCTCGACCCCAC
+CTTGTCAACAAGACCTGGCTGTGATGTAAAGAACTTCAGTGGAGAAATGACAGGAATTGA
+TAGTTAAGGCCAGCACTATCAATAGGAGGTGAAACAGACACAGGGAAAAAAATCAGAAAG
+AGACTTTGTTAGGAAGCACAAACTGCTCCAGCCAGCAGGCCTGCCTGACTGCAGTGTCAC
+TTGATGAATAAGCAAATGGGGCTAAGGGGATGAGAGTACTTTACTGATGAGAAATTCTCA
+CAAATAGGAGATATTTAGGGACTAAAATGCGCCTCCCAGGCTGGTCATGGTGGCTCACTC
+CTGTAATCCCAGCCCTTTAGGAGGCTGAGGCAGGTGGGTCACTTGAGGTCAGGAGTTTGA
+GACCTGCCTGGCCAACATGGTGAAACCCTGCCTCTACTAAAAAAGTACAAAAAATAGCTC
+AGCGTGTTGGTGGGCTCTTGTAATCCCAGGTACTTGGGAGTCTGAGACAGGGGAATCACT
+GGAACCTGAGAGGCAGAGGTTGCACTGAGCTGAGATCATGCCACTGCACTCCATCCTGGG
+TGACAGCGAGACTCTCTCTCAAGAAAAAAAAACAAAAAACAAACAAACAAAAAAACACCT
+TTGCGATAGGTTTAGTTGTTCGTTAAATAACACAATACAAAATAGTTAGGAATTTTAAGT
+TCAAAGTAGTATTTAAGGCATCCTAGTACCTTATGCACTAAATAACTTAAAATGTACATT
+TAGTAAAATCACGCCCAACAAACTAAGAACAGTAAGAAATACTCTCAATGAATATTTTAT
+TTTTATATGCTTATTTTCTTTAATTGTGAGTCCATCCATTAACCTTTCTCTATTGCTAGT
+AATGCGATGGAGGGAGAAGTCACCTTTTAAATATAAATAGTCCATGCTGTGCTAAATCAA
+CAACAACTACATTTTCAGAAATGAGGGCATTCATGAAATCCTGACTCTATCTGTATTGCT
+TTAAATCAAGCTGACAGTAGAATAGTTTCTGCTGAAAGGCTGTCCTATGCGATATTGGAC
+ATTTATGTTATGAAGGTTATGACCAAATTATAGGTTAATATCTATTCATTTATCATATTA
+ATTCAACAAACTTTTATTACACACCTACAATAAGAGGTACTGTGCTTTCACGTCTTATCT
+CATATATTTATTTGCTCCACAATGCAAGCTGTATATCGTCACTGCATCTTCCCATGAACT
+ACTCTACTTTCCATTCCCAGAGCTATGCCTTCTCTATTAAAATAAAATGGAAATCAAAGC
+AAGATAATGATGTAGAGAGAACTGGTATTTGGATATTAGTCCAGGCTCTGCCAATAGCTG
+TGTTTTCTTGTCTATACAATTAGCATGTTGATATATAATGTTAAAATTTCCAAGTAAAAT
+TTCTGACTCTCTCTATCATTACTAAATTAATATTACACTGGGTGTTCTGGTGGTGGTAGT
+AATTATTATTTATGGTCTTATCCGAGTCTTTTTCCTAACATTTGATGAGTCAAATAAATC
+TACCTGACCACACTGGCAACAGATCTGCTTTTATGAAAGAAAATATGAAATATGTGGTGA
+ACAGTGTGGTTTGGCATTATTTGGGTTTTTTGTTTTGATTTGTAAGGATCATGTCTGCTT
+CTAGTGTGTAGATAGATCATAAATTGTAGCATACCTGGAAATATGACAAATTACTTATAT
+CGTCACGTAATGTAGATTTATTTCTTCCTTTTGAACTGATAAGTCTAAATAAGCAATGTT
+CCTTAACTTTTATTTTAAAATGCATACATTTGTATTTGTGGGCTTGGTCTTCTAATTTAG
+TATTTCCAGTTAATGCACATGATGTCAGATATTAATATTATGTGAATGCATTACCCAAGG
+TCATGCCAAAGGCTGTTAAAGTTAAGCAGAGGAACCTTATCAGAGTAAATCAGCAAGGCA
+TGGCACAGCTTTGAGTTTACGTAAGAGGAGGCAGAAAGGTACAAATAATTGATATGCCAA
+TTCAGGTAAGGGATCAGCTCTAGAAACCACCCTGCTCTATATAAATAACATGTATTTGTT
+CAGATGTTTGTCTTGATAATTGTCCTCCCTTTTTTTTAATTTTTTGTTCAAGAGATGCAA
+AAGCTTCAGGAGGATGGATCCCAGGAAAGAAATCAATGGGCTCTGTGAACTATTTTGTGG
+CTCAGTTACCAATACCACAAGAGCAATTACATTAAATTAGATGCCACTGAACTGGCAGCT
+TTTATTGACCCTCTTAAAGTCTTTCTCTCTCTCTTTCTCTCTTTCTCTCTCTCTCTCTTT
+CTCTCTCTCTCTCTCTCCCCCTCTCGCCTCTCACCCCTCCCTCACTTTTCTTGTGCAGTC
+ACACTCTGCAATTGGCACTGAAAGTGGCTCCTAGCAGTTTTGTTACACTGAAGGATGTGT
+CAACATTTTATTGTGTGATGATTCTAAAGTGTTTATTATGAAGGCGCTCCGGTTTGCATT
+GGGTTCAATTTGGCGCCAGCTAGATACACATTTGTTCTTAGATTTTTTTTTAACTGCTAT
+GCATGTTGGAGGGGAAGTTGGATGACATTGTATTTATTTTAAGTTGTCTTTTTGTTTTTC
+TAAGAGTGACAAAAGGAAGGGTGTTTTGAGAATAATCTTTTTTTAGATACTGATTTCTGC
+AAGCAAAAAACTTTTTCACATCTTAAAATAATTCCCTTTGTGAAAAAGATTATTTAAATT
+TGAGATACAGCTGTTATACACATTTATTGACTTCTCTTAGCATAGCAATTATTTACTCTA
+CAGGACATCCCTATGCCACATGTTATAAAAAGCCCAGTGCTTCTCCAAAGCCCTTTGATA
+ACTTAATAAGTTCTTGTAACCATTAATAAAAATTACTCTTGCTTCTCCTAATTTTTTCAT
+TGAAAAATGTCATGTGACAATCTGACAAAAGTAAACTTGAAGCTGAATTTTACGTCGTAA
+ATCTAAAGCAGATGGTACATTTGTTTTTTGTTGTTGATATTTTTAAAATAGCCTTTCTTA
+GTCCTTGTTTTTCATCTTCAGATATTTATTGAATACTTGCTGCATTTGACACACTGACCC
+TGGGACTCTGAAGTTCACAAAGTATAGTTAGGTAGTCCCAAAACTCAATGAATGTATAAT
+CTATTATGAAAAAGCGATTATGTTTGTATTTTCTGACACCTCAAATAATGTACAATCTGA
+GTATAGAGAAGGAAAAGATAACTTCTAAACTGGGGTTGTGAAGAGCACTGCTCCAGGCTA
+TATTTGAGCTGGAAGATGTTTAGGACTTCCGCATGTGACATTAGGATTTGAAATCCTGGA
+AAAAGAGCATGAGCAAAGCGAGGGAAACAACAGGACACAATAACTCACTGGGAGGCCACC
+TATTTTGACAAAGCCATAGGAAAGTGATTTAATAGAAGGCTGAAAGGTGAACCAAGATTT
+AATTGTAGAAGGTATTTACTGTCAATCTAAAGAAGCTATTTGTTATTCAGAAGATAATGG
+AATCACTGCTGAGATATTAGTTAAAATATATATATATATATATATATATATATATATATA
+TATATATATATATATAGCCACTAACAAATTTCTGTTTGGGAAAGATAAATCTGATGGTTG
+AGAATGGGAAAAATCAAAATGTAAAAAATAATAAAGTCAATAATATATTACTATGACTAT
+TATTAGTACTATGATAGTTAGAGACATTCATTGTCACATTTCCTCCTTTTGGCCCTAAAA
+TAGCTGTGAGGGATACGTCCATCTTTGCTCTTCTTCTTCTTCAATAGATCAGAAAACAGC
+CAGCTACTCTAGTCTCTCTGACGGGATCCTAACCTACTTCCAATTCTGTAGCCCTATGAG
+ATTGGCAAACTCTTTTGATGATATCTTGGGTAGTTACTTTCCAGCCAAGGTTTTTATGTG
+CCTTACCAGACTCCAGGGCACTGCTATGCAAGGGTAAATCTCATCAGATATCTCAAGTCA
+TGTTGGAGTCTTTTCCCAATTTCTTTCTCTTAGCACATTATCTCATCCCAATTTTCTAGG
+AAAATGAATCCTTCTAATTTTTTCCATATTCTATTCTGATGGAACCCTTGGAAATTCTGT
+ATTAGCACTAGGCAATGTGTCTCCTTGCATTTCTGAAACTCACACTATTTCATCAGGCTT
+TCCCATCCTTCAGCTAATGCAGTTGGCCAACTCTTTCCATGGGCTGACGAAGAGAGAAAC
+ACATTTTTAAGATAGTATAACTAACGAAACAGAGAGTAGAAGATACATTAATAAATCAAA
+AACAGTTCCAATTTTCTGAACCTAAGGACTGAAAGGTTCAATATTGAGAATCCCTTCCTT
+CTTGAAGCACTCACTTCTCTTGACCTACAAGACATAGAAATATTTTGGAAGACACAAATC
+CTCTTTCTCTCTCTGGCCAATCTCTCTCTACATTTCTGGTTTATTTTCCTCTTTTCATCC
+TTGAGGTGTTCCATATAATTATTAGTGGAAGTCAGCAGCAGAGTCAGGCTTTAGAAGAAA
+ATGAACTCAAGCTTAGACATTAAGAATTTTGTTCACAAGTAAAATAAGAGATATGATAAT
+TGTAGCATCAGTAGTGGATGAACTCCAAGGAAGGAAGGAGTAAAAGAACCAGAAAATAGG
+GAGAGGATGGTCAGGGAGACAGACTGAGAACTTAGTAAGATATTTCTATCTTGTAAGTGA
+AGGGAGGTAAAATGTTCCAAGAAGGACATTCTCAGTGATCAATAAGGTCAGATTTTCCCT
+ATAGATATAAAAGCTTATAATCCAACAAATTAGGAAAAAAGAAAGAGTAAAGTTTGAGAA
+GGCAGCAAGGTAAAGTGGATTTAGTATTGGATTAAACCAATGGTTGCATGAGAAGAAGAT
+AGTGAGTCTTAAAATAGGAAAGGAGCTATGCTAAATATTCTTTACAGATAGAAAGTCCAA
+TTTAAACTAACTTAGAGAAAAAATATATTCGGTTATGTAAGTGATCATTCAGGAAATCAG
+TAAGTGTCATCAGGTTCTGGTCTCTCTCCGCCTTTCAGTTTTGTTCTTGTCCATATGTCG
+ATTTTATTTTCAAACACAATGTGATTTCAGCATGGCTGCTAGTGGCTCCAAGCCCACATC
+TTCTCATGTCCAGAGCTAGTGAAAAGGAATGTCTTCTTTTCCCCAGTGCTTATGAAAGTA
+CACAGCCCCGATTCTCATTGGCCTGAGTTGGGTCAAGGTACATCACAAAAAACTTTAATT
+ATAGCTGGTGGTTTTCTGATTGATCAGACTCAAGGCTTCTACTCACAGCTGAAGTCACCT
+CTATCTAAAGTGTCAGGATTGAAAAGGGGAACAAATGGTTCCCCTGTAAAAGACTGGGTA
+AGTTACCAAGAAAAGGGTAAATAGATATCAGGTTGGTAAAACAAAAACAAACTTAGGTCT
+GCCTCTGAGAAGGAACAGGAACAACCCATGATATGTAATAGAGAGAAATAAAGAGGTCGT
+TTGGTGGCATCTGAGAGAGCTGTTGAGAACTGTTAGACATGAATGGCAAATTGTGAAGGA
+GTAATAAATGTGCGTGCACATTAGAAATAGGGGCAGCAAGAATGAATTAGTTTGGATATA
+TTTGAGGAGAAACACACACACACACACACACACACACACACACACACACATATATAGTTT
+CACATATAAAGTTTTTTTAAAATCCTGGTAATACAGGGCTGCATCAGAGTGAATTGTCCA
+AGTCACAGGATTCTTAGAATTTGGAGGGTAAATGGTAAGAGAAAGGATAACCTGGCATTC
+ACTCAAAAATTTAAGAATGCATTCAGTATTTGCGTACTTACTATGGACTAGGCACTATTC
+AAGGTACTGGAATAGAACGGTGAGTATGATGAGAAGAGTCCCAGGAAAACAGAAAATGAA
+CAAATAAAAAGTTAACATATTGTATACACGGAAGTGATGTATACAGAGAGGAAGAATAAC
+ACAGGGTAAGAAAATAGAAGCTTACATGAGACAGAAGACATTTTGGGATGTGGCCAATGA
+AGGAAATCCTAAGGAGATAACCTTTGGGCATAAATATAAATTAAGTTAGGGATCAGCCTA
+ATGAATATCTGGGGGAAGAGCACATGTAAAGGCCCCAAGTCTTGGGTGTTATAGAAGAGC
+AAGAATGACAACCAAGTTAGAGGGGAGTGGGCAATTTTCAAAGAACAACAGTGGAAGGGG
+CTGCAGATAGAGGCAGAGGGTTTTGGGCTTTAGGCTTTGGTAAAAAGATTGTGTTTTATC
+CTGAGTGTGTCAGGAAGCTCTGGAGAGGAACCTTGAATGGCACACTTTTCTGGATACTGT
+GTGAATTGCAAGGAAATACCAGTGAAAGCTAGAATACTTGAGTATTACAAGAAAAAAGAT
+CACGGTAGCTTGACCTACAGTGCAATGAAAAGATGAGAAATAGTCAATTCAGAATGCATT
+CTGAAGATAGAGATGAAAGTCTTGACAATGAGTAAGTTCTGGAGATGAAAAAAAGATTGA
+AACAAAAGAGGATTCCGTTTTCATGCCTATGCCACTGGGCAATGGTGAAGCCATTCTCCG
+GGATAGGGAAAACTGTGAGAAATACTAGGAAGAATGGCAATCTGGGGACAAGTAAGAGTT
+CAATTTTGGAGAATGTTAAGTTTTAAGTCCTGTTATACAACTGGATAAACAGACCCAGGG
+GGCATTTAGAGTTGAAATGGGAATTGGAATGTGGACTTCAGAGAGAGGGAGGAGATATGA
+TGAGCTGGGAGAAAGGGATAAGAGGTATATGACCACAACCTTTTCAACGCTTTGTCCTGG
+TGATAAGTTGTCATATTAGATTAGCCCTAATTGGGGTAGCTGGGATGGGATAATCACAGA
+TTTGAGTTATGTATGGTAAAAATGAGAGGCATTGGCGGGGTGTGGTGGCTCATGCCTGTA
+ATCCCCACACTTTGGGAGGCTGAGGCGGGCGGATCACCTGAGGTCAGGAGTTCAAGACCA
+GCCTGACCAACATGGTGAAACCGCATCTCTGCTAAAGATAAAATATTAGCTGGGCATGGT
+GGTGGATGCCTGTAGTCCCAGCTACTCGGGACGCTGAGGCAGGAGAATGGCGTGAACCTG
+GGAGGCGGAGCTTGTGATGAGCCGAGATCCTGCCACTGCACTCCAGCCCGGGGCGACAGA
+GTGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAGAA
+ATGATGCTAAAGTCAAACACACTCACACATCTGAGCAAATAGCAATGGCTCATAGAATAA
+GTAAATAAGTGCAAAAATATTTATTGCCAAATTTCAGAAGGCTTACAGGTCTGAAGCTAC
+AGAGAAAAGGAGGCTCAGGATAACCCATAGGAAAACTAATTACCTAGAAGTGAAGGAAAA
+GTCATTTGGCATATTCTACTTTAAAGGGACTGGCTTCTGTCTGTATGGATCAAAGGTGTC
+AGCTGTAGAATTTTAGAATATGAAAGATTTAATCACAACCTCTTACAGTCAAGATATAAT
+ATTTTATTTTTTCATGTGCTTGTTTGGGAGGCAAAAGGAAAGGTTACTAAATGGATCCTT
+CATTGGCAAAGGTCAAAAGTAGAATTTGATACCTTCTAAGTCTTATTTACAACTAAACTC
+TAAAGCCGTTTCAGGATTATACATTATCTAGGGAAGCAATGTGGTCTACAATAGTTCTCA
+CATTTTAGTGAACATTAAATACCCTGGGAACATGGTGAAGATGCTGTTTCCCTAGGCTTC
+ACTCCCATATATTTTGATTCCATAGATCAGGTTCAGGGCCAAAAATCTATATTTTTAACA
+AATATTCCAAGCATTTCTGATGCGGGGGTTGGGAGGAGGTCCCTGAACCAAGCCTTAAGA
+ATTTTGATCTGGGGATAATTATGACAGATCTTTAGAATAATCACTGGCCTAGGTGTCAAA
+AGTCACCACATTTCCGAAGCTGTTTATTCTTATTAAGAAATATTAATGCCATCCTTCCCC
+ATTTCAGTTACTGTCAGGTTAAAATGACACAATGCACTATGATTATAATATTCATAGATT
+GTTACTTATCAAGTCACAAGAGTGAAAGCTTGCTGGTTGCATGGGAAAGTGCTTAGAATA
+TTAAAGTACCATCTAACTGTAATTGTTAACAGGTAGGAATTAGACAGTAAAATTAAATGT
+CTGTAAGGAAAAAAAATTCTGTTTTGATATAAATTTGGTTTCCTTTCTCAAGCCTGCTGT
+CCTCAAGGGCCAAGGGTTAACAAAATTATGACATTTCCAGGTATTCTTTTCAATTTTAGT
+TTAAAACTTGGCTTCCTTTGGGTAAAGATTCAGCTAAATACAAGTATTACTCTTTCCGTC
+ACTATCCACCGTGCCTTACTTCCTCCCTGCCTCAAGGTCTTCACCTCCTGTTCTCACTTC
+TCCTTCCTCAGGCCTCTTATGTCCTTTTCCACCATGGCTGCAGGTGGAAAAGCAGCTGTG
+GGTTTACGTGCTTGTCCTCCTTAAGGGAGAGATGCTGTGTATCTGGTTGGTGCAATCCTT
+CTGTTTTCTGTTGTTACTGTCTTTGACCCGTCATAGAGGCAGGCAGGGTCCAGGTGGCTC
+ATTCAGCCCAAGCAGCACCCAACACTGGCCGCAGGATATAAAGCTTGCTATGTCTGTGGG
+TCCCCAGCTGTACCCTAGGGCAGGGAAGTATGGCCACATCCCTCAAAATTTATTCCAGAG
+GGGCTTCCATCCAGAGTCTTGGCTGATAGAGCCCGCTTACTGCAATAGGTAGCCCTGTGT
+GGTGCCTGGGAAGGTGGCTCACCCATTCAGATTTTTTCATAGGCCATTTTAGGCCCTTTG
+GAAACCTTGGATCTCTACCACTCCAACCCAGCTCTAAGGGAAATTGAGGGATATCCTTGC
+CCTTCCCACCAAGTTATGTCCCTTTTCAAGTTCTGTGCTATCTACACTGCAAAATTGCCT
+AAAGTTACTTGCAGTGCTGCCAAGCAATCATCACCAAACTCTAGTCTCCTGTATTCATAA
+TAATGTCTCTAATGTCCAGACAATGCTCTTAGAGGCTCTATCTTTAAGGGAAGACATTTT
+GAGTACACCCCCACAGTAGGGATGAAGAAGCTTACATTCTTCAATTTTCTTCTCTACTAC
+TTCTCTCTTTCCTTAGCTAGATTTCCCCTTTTTATCTCTGCTGTAATAAAAAGAAAATAA
+ATAATTTTGCCTCATTCACATTTGGTTTGAATTATGGGCTTCTGACATCATTATATGGTC
+TTCTTTGAATTTAGTATTTTTGGAATTCAGTATGTTTAATCTCAGCAGTGTCCTATATCT
+TAGGAATCTACGCATTTTCAGTTCAGTCACTAGGTGGGATAGAGTGCATGCTTATTACCA
+TTACTTGTAATTTCATTTTCTCCAACAGTACACCCTACATTTCACACACTCACAATCTTG
+GCATTTCATCACTGCTGTTGTTCAGATACATCATTCTGCTAGACTTTCCCAATCCAATCC
+CTGACTTCTACTTTCCTGAAAGAACTTGATAATAATTTCTTCAAGGAATCTTCTCAGAAC
+CCTCATTCTGTTTCTAGGGGCTCCCACAGTGAACTCTCATGAGTACTTTGTCCATATGTC
+TACTATTGTAATTAGCACATTATATTATAATTTCCTGTCCCAAGTCACACCACTAAATTA
+TAAACACTTTAAGGATATAAACAGTATGATTGAGTTGGTTTTTAATCATGATTTTTGCAT
+CTACAGGGACTGAAACCTGATAGACACTTTTAAAATGTTATTTTGAAATAACTAATTTAC
+CAATACATTAATTCCATTAATACTAAGCAAGGAAATATAATGGCAAATAACATTTATCAT
+GTAGTATATGTAAACTACTTAGATAAAAACAGTCACCAACTAGGTGCCAAGCAATGACGG
+GTTTTAGATCCTGGGGATATAAAGATGACCAAGACACAGACCTCGACAACAATGAGTGGC
+CTTCCTGTCTAGTAGCAAATAAACAAATAATTACAATGAATGTGGACTTAAAGATGAAGG
+AGAGTTTGAAAGGCAATGAGAGTTACAGCACGTACCAACATAGAGAGATGATAAAATGTC
+CAGCATGCCTGAGGACCATTAGAGGACTTGGTGTGACTAGAACGTGTTTTATGTTGGCTA
+TCGTAAGAGATAAGGCAGGAAAGAGTCTTCACGTGACACAGAAAGCTAATAAGAAGAACA
+TTGATAGTTCATTTGTGAGTGCCTATTATGTAGGCTGGAAGCATATGCAATGCATGCAGT
+ACCTATTTAATCTTCATAACAAATTAAATATTGTTAAGAGTTCACATAGATGAAAAGCTT
+TATTGAAAACTTCCAGCTTGGGGTTCAGCACATAAGAAGCTTGGAAGCTATCACTCTCTG
+CTAACAACAATTGAATCTCACAATGTGCAAAAAGAATTATATTCCACCAGTAAGAGAGAT
+TTATTTCACTTATGCAAGGATATACAATTAGTGTAATCTGTCACTTCAACAGGCTAAAGA
+AGAAAAATCACATGATTATATCAACAGATGCAGAAAAAGCATCTGACAAAATTTAACACT
+GATTAATGCTAAAAACTCTCAGCATACTAAAAATAGAGGGGAATTTTCTCAACTCAATAA
+AGACATCTACAAAACCTACAACTAACATCATACTTAATGGTGAGAAATTCAAAGCCTTCT
+CGCTAAGATTAGGAACACGGCAAGGATACACCCTCTTGCCACTGCTTTTCAGCATCATAC
+TGGGAGCTGTAGCACATGCAACAAGATAAGAAAAGGAAATAAAAAGGTATATGAATCAGG
+AAGAAAGAAAGAGAGTGTCTTTGTTCACAGATAACAAGATCATCCATGTAGAAAATCTGA
+AAAGAGTGGACCAAAAACCTCCTGGTACCAATAAGCACTTGCAGCAAGGTTGCAGGGTAC
+AAGGTTAATATACAAAATTCAATCATTCCCCTATATCCCAGTGATGAACAAATGGGATTT
+GAAGTTAAAAACACAACACAATTTACATTAACACCTCCAAAAAATGAAATACTTAGGTAT
+AAATCTGACAAAATAAATACAAAATCTATATGATAAAAACTATAAAATTGTGATGAAAGA
+TATCAAAGAACTAAATAAATAGATACATATTCCATGATCATTGATAAGGACCTGATATTG
+TCAAGATGTCAGTTCTTTCAAACTTGATGTATACATTCAGCACAATCCCAATCAGCATCC
+CAGCAAGTTATCTTGTGGATATCAACAAACTGATGCTAAAGTTTATATAAAGAGGCAAAA
+GACCCAACATAGCCAACTCAATATTGAAGGGAAACAAAGTTGAAGAACTGACATTACTTG
+ACTTCAAGACTTGCTGATAGCTACAGTAATCAAGGTAGTGTGTTACTGGCAAAAGAACAG
+ACAAAGAGATCAAAAGAATAGAATAAAGAACCCAGAAATAAGCCCACATAAATACATTCA
+ATGGATATTTGACAAAAGACTAAAAGCAATACAATGGAACAAAGATAATCTTTTCAACAA
+ATGGTGCTCAAACAACTGGACACTTAAATGCAAAAAAAAAAAAAAAAAAGAAAGAAAAAA
+AAGAATCTGGACACAGATCTTACACCCTTTACAAACATTACCTCCAAATGAATCACAAAC
+CAAATTACAAAATGCAAAATTATAAAACTTCTAAAAGATAACATAGGAGAAAACCTAAGT
+GACCTTGAGTATGGGATGGCATTTTAGATACAACACTGAAGGTACAATCTAGAAAAAAAA
+TAAAGAATTGATAAGCTGAACTTTATTAAAATTAAAATTTTCTGCACTGTGAACGACACT
+GTCAAGAGAAAAAGAAGACAAAACCGACTGAAAAGAAAATATTTGCAAAAGACAGTGATA
+TGGTTTGGCTCTGTGTCCCCACCCAAATCTCATCTTGAATTGTACTCCCGTAATTCCCAC
+GTGTTGTGTGAGGGACCCAGTGGGAGACTATTTAAATCATGGGGGCAGTTCTGCCCATAC
+TGTTCTTGTGGTAGTGAATAAGTCTCACAAGACCTGACAGTTTTATCAGGCGTTTCAGCT
+TTTGCATCTTCCTCGTTTTCTCTTGCTGCCGCCATGTAAGAAGTACCCTTTGCCTCCCCA
+CATGATTCTGAGGCCCTCCCCAGCCATGTGGAACCGTAAGTCCAATTAAACCTCTTTTTC
+TTCCCAGTCTCGGATATGTCTTTATCATCAATGTAAAAAAGGGACTAATACAGACACATC
+AGATAAAGAACTGTTATCCAAAATATACAAGGAACTCTTAAAATTCAACAATATAAAAAA
+CAACAATCCAATTTAAAAATGGGCAGAAGACCTAAACAGACATCTCATCAAAGGAGATCT
+ACTGAAGGAAAGTAAGCATATGGAAATATACTTAATAGTATATGTCATTAGAGAATTGAC
+AAGCAAAACGATCATAAGATCCTACTACATACCTATTAGAATGCCAACATCCAAAACACA
+GACAACACTAAATGCTGGTGAGGATGCGGGGCAACAGGAGCTCTCATCCATTTCTGGTGA
+GAATGCAAATAGTTACAGCTATGTTGACAGACAGTTTGGCAGTATCTTAGAAAGCTAAAC
+GGACTTTTTCTATGCAATCCAGCAATCACACTCCTTGGTATTTACCTAAACGAGCTGAAA
+ACTTATATCCACATAACATCCCAGTACAGGGTGTATGCAGCAGCTTTATTGCCAAAATTT
+GGAAGTGACCATGAAGCCCTTCAGTAGGTGAGCTGAAAAATAAACAACCACACAATAGAA
+TATTTTTCAATGCTGAAAAGAAACACTATATCAAGCCAGGAAAAAAACATGAAGGAAACT
+TAAATGCATATTACTAAGTGAAAGAAGCCAATCTGAAAAAGCTATATATTGCAGGATTCC
+AACATTCTATATGATATTCTGGAAAAGGCAAAACTATGAAAACAGTAAAAAAGATTAGTG
+TTTGTCTGAGGTTTGTGTGGAGGGAGAAATGAATAGGTGGAGTACAGAAGATGTTTTGGG
+CAAACTATTCTGCATGATATTACGATTGTAGATATCTGTCATTGTACATTGGTCAAAACC
+CAAAGGATGTACAACATGAAGAGTGAACCTTAGTGTAAATTATGGACTTTGAGTCATAAT
+GATGTGCAAATATAAGTTCATTGATTGTGACAGATTTACCACTTTTGTGTGAGAAGTCTA
+TAGTGCGGGAGGTTGTGTTTGTGCGAGGACAGGGGATATATGAGATATCTCTGTATTTTT
+TATTTAATTTTGCTGTGAACCTAAAACTTTTCCAAAAATAAGGTTTATTATTTCTCTAAT
+AAAGCTTTATTCAAATTTAAGTGCACTCTCTAAAAGACAAAGTTTGATTATTATTGAATG
+CATTTAATTATTAAATTATTATCTTCCCCATATTGCACAACCATGACTACTGAAACCATA
+AGGCCTACAAATATAGCCCATTCTGGAACTCAAGCAATTAAGGACTAATCCTGTGAATAC
+ACTTAAGCACATCTCATCTTCAAATGATGTCTAGTTACAGTGACCCTGTGCCAAGTCTGG
+TATGTAGGCACAAACAACTCAATGTTTAATCAACTAAAGCCTTGCCTTCTTCACTCAATG
+CCAGTTCTCAGCTCACAAAGTGTACTTCTCTGCTGATTCCCCATTTTCATCATAGATACC
+AACTGGGACTAGCACTTTGAAGTGGTGGGTATTAGTCCGTTTTCACGCTGCTGATAAAGA
+CATAACGAAGACTGGGCAATTTACAAAGGAAAGATTAATGGAGAACTCACAGTTGCAGAT
+GGCTGGGGAAGCTTCACAGTCATAGTGGATGGCAAGGAGGAGCAAATACATTCTACATGG
+AAGGCAGCAGGCAAAGAGAGAGTTGTGCAGAAAAACTCCCGTTTTTAAAATCGTCAGATC
+TCATGAGACTTACTCACTGTCATGAGAACAGAATGGGAAAGACCTGCCCCAGTGATTCAG
+TTACCTCCCACTGGGTCCCTTCCACAACACATGGGAATTCAAGATGAGATTTAGGTGGGG
+ACACAGCCAAACCATATCATGGTGCATTGCCATTTCCCACTCTTGGCATTGTCTGCTACA
+TCTGTCAACGTACCGGAACTAAGGACTTCACCTGGCCCTTCCTCTTAATTAGGTCACTAG
+ATGGGTTAGCATGGAGCCCCAAGTACTTCTTTAAAATTTTGGCAGTTAAAACTGATATTC
+ATCCTCCTCAAAACACACTTTTAAATTATACCCTCCTCTAACACTAGTCCTGACAACTTC
+CCCTATAGACTCTTTTTTTTCCAGGCCACATCATCCTATAAGTTTCTTTATGCCTTCTGC
+TTAAACACATGAAAACTATAAGATTGAATATGTTTGTGTGTGTTTGTCTGTATGTGTGTG
+TGTGTACACATATATTTCAGTATACTATATTTAATATAGTTAATCACATATTTTAAGAAT
+ATATATATACATTCTATATAATTTCTTCTATTCTTCAGTTCCTTTAAACCCCTGTGTGAT
+AGAAAGAATAATGATTCCCAAAAATGCATAGCCTGAATCTAATAATGAAATATGAGACAA
+ACAAATTGAAGGACATTACACAATGCCTGTCTGCACTTTTCAAAAATGTCGAGATTATGA
+AAGACAAGGTAAGACTGAGGAACTCTTCCTGATTAAATGATCCCAAAGCTAACTGAAAAT
+TTAAACAACACTGTACTTGATCCTGCATTGGATCCTGAAATAAAACTCCTCACTCTTTTC
+TTTTTCCATAAAGGGCAGTGATGGCAGTAATGGGACAGCTGATAGAATATTACTAAGATA
+TCTACATTAGATGTTGCTATACTATCAGTGTTGATTTTCTGACTGATAATTGCACTGTTG
+CTCTGTAAGATAATATTCTTTGGGGGAAATACCATGAAGTATTTGGGGTAAAGGGACATA
+AAGTGTACAACTACCTCCTAATGGTTCAGAAAAAGAAAGAGAAGCCAATATAACAATTTG
+GGAACCTGGGTCAATAGTTCACAGGAATTCTTTGAACTAGTCTTGCACCTTTCCTGTACA
+TTACAAATAAAGTATTTTTAATACTAATACACACAACAACATGGCTGAATTTTATAATTA
+CTGTATTATGTTAAGTAGAAGAAGCAAAACACTAAATTTCTATTATATTTGGACTGACAT
+AGCTCAATAAGTGAAACTTTGCATTTGGCCATTAGATGAGTGAAGGAAATAGTACAGCCC
+TACAGTTTGAAAATATAAAATTCTTTTTGGTGTCAAATGAATGAGTCTATTCTTGGTACG
+TGACACTAAAGAATAATCAAGATAATGATAAGGCCAAATAGATTGAGCAGGTTTTATATT
+CATCACGTTTCAGACATTATCAATAAATGTTTGTAATTAAAAGAAAGGCAGCCCCTAAAA
+GGTAACTGAACTCATCACATCTAATTTGAGACCATTTAAGAAGGTAAGAGAGTAAAGTTC
+AAACTTTGTCAACAAGTTCTTCTTACCTGGATTATTTCACAAGATACAGATAGAGTTTTT
+TTAAAAAAAACAGGATCAAAATTGATGCTGTTATGCATGTTAATCATTTTAGTGATTTAT
+TTAAGCAATGTAACAGTAGAGAAGGAGGAGAGGGAAGGGAAGAAGAAAGAAAAGAAAGCG
+GCAATAGAGAGCGGGAAAGAGGCTAAGAGACAGGATGCTAAGTGACAGGATGCTAAGTAG
+AGACTTTATATCAGATTTGGCTTTCATACTCAAGAAACTTGAAACAGCCTCAGCACCTCA
+GAGCATGGTTCTGGAAGGCCCTAATGCTGTTGAGCACAGTTGCTCATGGGCATCCAGAAG
+CTCACCCAATATATAAGGCAGATGCTAGACATTTCCAAGTCTAACCTCCAATCTTAAAGT
+TGCCCTGAGTTCTGTAATTTCCAGCCACACAATGACAGTAGTTCACCTTCGCTAGAGCAA
+AATCCTCATAAACTCACACCGTGTTTGTGTAAAGCTCTTGCAGGACTTTACCCACTCCCT
+GGTTTATCTATTGCTCCTTTAGGACAATGATATGGAAGAATGACAATACAGGCTTTGCAG
+ACAGGCAGACCAACTGACTTAGGTTTGAATTTTATGTCTGACATTTATTAATAAGGCTCT
+CTATAAACCTCAGTTTCCACACCTACAAAATAAGAATTATGCTAAATACTACACAAAATT
+CCTTTAAGAACTGAAAAAAAACAAGGAAATGCCTTACACTTGAAAAATAAATAAGCAATT
+TTAGTTCCCTCTCCTTTGGAACTGAGTCTAGGATAAACACTTCATAGTAGAATGATTTAT
+AATCCTTTGGGTATATACCCAGTAATGGGATTGCTGGGTCAAATGGTAGTTCTGGTTCTA
+GATCCTTGAGGAATTGCCACACTGTCTTCCACAATGGTTGAACTAATTTACACTCCCACC
+AGCAGTGTAAAAGCTTTCCTATTTCTCCACGTCCTCTCCAGCATCTATTGTTTCCTGACA
+TTTTAATAATCGCCATTCTAACTGGTGTGAGACGGTATCTCAGATTGGTACAGTAAACCA
+CCATGGCACGTGGATAGCTATGTAACAAACCTGCATGTTCTGCACATCTATCCCAGAACT
+TAAAGTATAATAATAAAAAAATTCATTCTTCTGAAATCAGATCATTTTTGCTAGTCCTTA
+ATCTATTCCATGATTTCGATCTACTATTCTTTCTACATCTAGAGCCATAAGTTTGAGACA
+AGTCTGGACAACAAAGCGAAACCCCCATCACTACAAAAAATTAAAAAATAATTAGCCAGG
+CCTGGTGACATGCACCTGTAGTCCCAGCTACTTTCGAGACTGAGGTGAGAAGAGTTCTTG
+AGCCCAGGAGTTCAAGACTACAGTGAGCCATGATTGTGCCGCCGCACTTCAGCCTGGGGA
+ACAGAGCAAGACCCTGTCTCTAAATAAATAAATAAATAAAAATGTATTCTCTTACATTTC
+TGGAGGATACAAATCCAAACAAAAAGTGGTGGCAGGGTTGTGCTCCCTCCAGAGACTCTA
+GGGCAGAAAATGCTTTGCCTCTCCCAGCTTCTGATGGCTGTCAGCACTCCTGGGCTTGCA
+AGGACATCACTCATCTCGGCCTCTGTGGTCACATTGTCTTCTCCACATGTGCCTGTGTGT
+TGTTTTTTTCTGAGTGTCTCTTCTTAGGGCAATTGTCATTGGATTTAAGGCCCACCTGCC
+TAGTCTTGCACGGTATCTTCATCCCGGGATGCTTAATTTCATTATTTCTGCAAAGACTCT
+TTCTCCAAATAAGATAACATTCCCAGGTTCCATGGAGTAGGATGGGAAATATTTTTTTGA
+GTGCTATTATTTTGGCTGGCTACTCAGTCTTAAACTCAAGAACAGAATAATATAGTAAAA
+AAGTTGCGTATGGGCTAGTTATTTTTTCTGAACTAGGGATTTGTGTTGTGACTTGTATTT
+TTGTTGTTTTTAAACATGTACTAGTAGTATATTAAAAAGAGCAAATTTGTAAAGGAATGA
+CATAATAAAAATGATTAATAATGGGAGGGTCAAAACAATTGAATCATAGCACTGAGATAT
+GCTGGAGGACTTTCTAATACTTTTTACTGTATTTCTCCTCAAGTACTATATCATTTTATG
+ATAAATTTTGTGCCACTTGCAGTAAAATATCTGATGAAAAAGCAAATGAAAATTACTGTT
+TTCTTCAATGATTTCAACACCTATACATAAGATTTTGTAATTGCAAAATTCTGTAATCCA
+TTTCATTAATGTGATTCCATTTCCTCTTCTGATAAGCCTCAAATCAACATAGCCTCATGC
+CAGACCTTGGCATTATAGAACCCTGACTGTGCTCTACGTTCTTATTCTTCCCCAGGAAAA
+ACCTCCTTTCCTGTTGTATCTTCTTACACTCTTGCAAACACCCAGAGCTGGATCCTTATC
+GTCAATGGAGATTCCAGTAATTTAAGCCTTCCTACTTCAAAGAGTTAATGTGCCCTCTGG
+TCACAGTAAACATTCTACCAGTAGTTTAGACTCTGGCCAGCAGTCTTTGCCCAGATACCC
+TACAAAATAGAGCCTTTTATGGTGGCATCAATCTCTGTCATTCCTCCTGGGATGTGGTAT
+TGCTTCTGTTTTACTGCATTGCCCGGGAATCAGGTCGTTTCAGAGACTTCCGCTTGATCT
+CTCCTACAAAATTTACTCTTGCATTACAGGTTACGGAACTGTATGAGATAACTGCCAAAT
+GCCAATTATCTTATCACTGAAAGTATATTCAGTGCTAGACCAATAAGGTATATTCATGGA
+CCTATTGAACCCGCTGTAGGTTGGACTTGGCCAAAACTCCATTTATCACCTAGTCTCCAA
+AAGGAGGACAGTGGCAGCATATTGTGTTTCCTGGTATACGTTTAAGCTCAGATCTAAAAC
+TAAGAGTTCTTGAAAAGTTTTCATATTATCCTTTCCCCCACATATTTCTGCTCTTGCCGA
+TTGTCTCAGGTTCTTCTGGAGAAGGAATGATAAATATTTACCAAATATATTCGTAGTGGT
+TTTGCTGGGTCCATTCTCAATGGGATGCTTCCCTACACGCCCCTTCAATCAATGGTCTCC
+ATGCTGTATGCTCGTGAACTGACGGCGATTTGGAAATTAAGCAAAGGACAGCAATATTCT
+ACTGGGGGCAGTGGTTGCCTTTGTGACAACAGGATCAGTGTGAACCTTCACTGAGACCGC
+CCTGGCCAAGAAGCAATGCTGCTATCTTCAGAGACAGACAGGACTAAGTGGACTTGCAGT
+CACTCATAAAGGAGGTCTGGCAAATCAGCAACTCTATATTGCTCTCACTGGTAACCTAGA
+AATTCCTGCCACCTATTCACCAGCTGATGTGAATTCTTAACTTTCATAACACCCCCTGTC
+CCAATGTTTTTCTCCATTCTACTTCTTAGGTGATCGATGATTTATAGAGATGTAGCTGAG
+GCATGTCTGTAACTGGTCCTGTGCACAGGCACAAACTGGCTTCAGATACACTCTCTAAAG
+TTCTTGCTTATCTCATATTTGCTCCCATTTCTGTTCCTGCCTCTACCTTCATTCATGTTG
+ACTTTATTCTTTTTCAGTTTATTCAGTCTTTGCTGTCCACTCTTCTTGTGTGCTGTTCTC
+ATCTAAGCTCATTTCATTTCTTTTTGCTTATGATTTCTACACTGGTTTATTCAAAAAGTA
+TGTCCCTGGGACTTCTTCCTAATAGGTGCTATAATTTGTTCTGGGGAAATTGTAAAAACA
+AAGAAACAAAGAAATTCCCATACCTGCCATCAACTCTATGTGAATCATTAAGATTTTTGT
+TTTTATTTCAAATAGGTTTAACAAATGCACAATGAGCTGACTGCTTCTAATCCCCAGACT
+ACCTTATTTGTCTCCACTATTTCAACAAATAGCACATGGATGGTAGACTGGTCCATTGCC
+TGATAATCCACGTGACAGACATAGTTCTTTGCCTACTCAAAATTATTTCTCACTTCTTTC
+TTGTTATTTTAGCCATTTCATTTGTGTATTGGATGGAAATATCTTAAATTCTGAGGTTTG
+TAACCTAGTTCTGGGCAATTGAGATATAAGGGAAAAGCTGTTGGTAAGGAGGGATGGCGC
+GCCTTGGAGAGATTTTGATAAAAGACAAAAAACATCATGAGGAAATTTTCTGTTTTCATT
+GCCCCTTCCTTCCAGCTTTTGTTGTTCCCGTGAAGATACATCAACAGGACCATGAGGGAG
+AAGCCAAGAAAAAGGCATAGAAGCTGACTTGATGCTTCGGTATCACTGAAGTGATGGACC
+AATGTCGGAGCTACCTACTGCTATGCTTCCTATAATGGGAGATATTTAAATGTCTTAAGA
+TAGTGTTGGTCAGCCATTGTGTTGTTATTCTCTCAACACATTCCTAATTCATAATATATT
+TCTAATACAATTACCCTTTAATTCTGCTCTCCATACAACAAATTCTGAAGACGTTCTATT
+CTTTCTGAAGTAAGAACTCACCTCTTCTGGTGGCCTCATCCTGTGTTAGTGAGTTCAATG
+TTTACTCTACTCAAAACAAACCAAGAAACCAAAAAAAAAAAACAGCAAATATGTTTTGTA
+TCAGCATTCACTTATCTTAACACTTGCCTGTGTGTAAGGAGACATATCCTCATGTCCCTC
+CCTTCAGTCTTGAGATACATTACTTTTCACTTTGCTAAAGCTAACTTAGATGTCTTTTAA
+GACCACCTTTTCTCCTCCTTGAGGACATCTTTTTCCACAGCTGTCCACAGTTGGCTGATC
+TGAATTCTCTTACTGATTTAGTTCCTTTTTTTCTCTGTCTTCAAGTCTGCCTAAAATCAT
+TATTATTTATTTATTATTGAGATAGGGTCTTGTTCTGTAGCCCAGGCTGGAGTGGAATGG
+AGCATTCATAGCTGACTATGGCCTGAAACTCCTGGCTTCATGCCATCCTCCTGCCTTGGG
+TAAACTTACTTTATTCTGAAATTTAAAAATTAGTCAATATCACTCTACTGTCCTTTTATA
+AGCCTCTTTAAAAATGTTCAGTGTCTTTATTTCCTTCCTATTCTCTCATAACCTCTTTCA
+ATCAGGCACCTGCTCCCACTACTGGCCTTAAACTTTCCCACTTGTCATTGACAAATTCAG
+TGGCTTCTACTTGTCATTCTTCTCCTTTCAGCCCTAAGGCAGTTGATCGTCCCTTTTCCA
+CAGAATTTTTTCCTCCCTCAGTTTCCATGAACTACAATATACTAATTCTGTGTCTCTCTG
+ATCATCCCTTTGATATTCATTGTGCACTTAGTTTATTCTTCCCTCTGGAAAGTTGCATTC
+CAAATATTCAGGCCTTCTGTTCTCTTCTATCTCTCTCTCTTTTTTTTTTCTTGAGATGGA
+GTCTTGCTCTGTCGCCCAGGCTGGAGTGCAGTGGCGTGATCTCAGCTCACTGCAAGCTCC
+GCCTCCTGGGTTCAAGAGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATTACAGGCA
+CGTGCCACCATGCCTGGCTAATATTTTGTATTTTTAGTAGAGATGGGATTTCACCATGTT
+GGTCAGGCTGGTCTTGGACTCCTGACCTCGTGATCCGCCCACCGTGGCCCCACAAAATGC
+TGGGATAACAGGTGTTAGCCACCATGCCCAGCCTGTTTTCTTCTCTTAATGACCTTTCCT
+TTGTGGAGTTCATTCATTCTCACTGGTAAGATGTCGTTTTGATGGAAATCATACCAGACA
+GGGATTTGGGACAGACTCTTGAACCCAATTCACAGGCTTGTGTCTCAACTTCCCAGGAAC
+TCAATTTTTTTCATTCAGATCTAAAACATTGAAGGTAAAACATTTCAGGTGTAAAACACT
+GTTATCCCTGAAATCTTTGTCTCTGATCCTTCTTACTATTTTCAAGTAGCCATTCCACTG
+CTTTTAAAAATCAATGTAAGTAAAACCAAGTGCTTCCTTTTACTTCTCCTAAGGCTTTGC
+TTTCCAATGGCTCCATTATTACTTTTTCCATTCATAGGTCCCCTCCTTGACTATATGGTT
+GCCCACATTTCTTAATTTTCATTAAATATTGTTTCAATTATTGTACTCAGCTCCTCCAAA
+AACTTGATTAACTTCATTTTGTTTGCAACATTTTAATTAATTCTTATTTTCTCATTTTCA
+ATACCCTTTTAATCTGGCCCCCATGTCAAGTACGTTTTCTACTTCTACTCTCTGTACTTC
+TAAAGCTATTTCCCTAAATGCTTGGAAAATGCCTCATGTTTGTTTCTACTTCTGTAGCTT
+TGCTCGTATCTTTCTCCTGTCTGAAATTATCCCCAATTCCCCCTAGCTATCAAAATACTG
+TTTATTTAAAAACCCCTTCCTCCAAGAAATCATCTCAAACTCATCCTTGTCTTCACTTTG
+ACTCTTTCAAAACTCTTATTCAATGAATGGTCAGCATACCATACAAAATTATAGCTCACA
+AGAGTGTAGAGTTTACATCTTAGGATTCATCTATATGTCATCATGTATGGTTTGCCAATT
+GTTTCATATGGGTGAGGGAATATTTTCAACACCCTAAAGGCATCCTGGGAGAAATTTCAT
+GCCTTTTGGACCTATCATTTGTCAATCACCTCTTGAGTGGGTCACATATATTAGCAATAA
+TCCTTTTAAAAACTAGATAAATTATTATTATTATTCAAATTTTATAGTCAAAACAATAAA
+ATTCTGAGAGATTCAGTGATTGACCCAAATTTACAATGTGAGAGCCAAGAAGTTCCAAAT
+CAATCTATCTCTAAAGCCCAAGCTTTAGCTTGTTGGTGAGTGTAGTAAAGAAACTCAGAA
+AATACTCACAGATTAATAAACCATCACGAGCTTTGTGACCCAATAGGGAGCAGGAGAGAT
+ATATAATTCAACTCAGGCATTTGAAATTCTTTTATTCTTAGAGACTGACCTTAAACCTAG
+TATCGCAATAAGTAGTAGGAACCTCCTCAATAGTGTGAGATGATTCAACAGCTTCAATAT
+TTCACAAATCACATTTGTATCAGCTTGTGACTTGCTGGACAATCTAATGGTGCCTTGGTC
+TCATCATACACACTGGGTAAATTCATGTTTTCACACTAGACCATCTGTTCTGTGCTGTGA
+ATAAAGAGGTAGAAAAAATAAAAATCAAAACTTCACATTCATAAGTGCACAAATATGATG
+CATTTTATTTGTGGAAAAAATACCATTTCATCTGATAAAATAATGGAATTAAAATATTTG
+GGATAAATTTTAATTAGGTGAATAAAACTGAAGTGTTGTGTGTTTATACGTCTGTGTGTA
+CACACACTCCTGTAAATCAGAAGCTGGGTGTCAGATTCTGTTTAGGGATTCTTTTTTATC
+TTCTCTACACCTTCATTCCGTATTCATCTTGGACTTAGTATAAAACTAGTCTCGCTGTTG
+CCCAGGCTGGAGTGCAGTGGTGTGATCTCTGCTCACTGCAACCTCCGCCTCCAGGGTTCA
+AGCGATTCTCCTGCCTCAGCCTCTGGAGTAGCTGGGATTACAGGCGCGCACCACCACCCC
+CAGCTAATTTTTTGTATTTTTAGTAGAGACGGGGTGTCAGCATGTTAGCCAGGATGGTCT
+CGATCTCCTGACGTCGTGAGCCATCCACTTCGGCCTCCCAAAGTGAGATCCATTTTTTAT
+ATTAGGATCCACTAGCCTACATTTCAGATATGTCACCCATGAATATATTTAGTTTGAAAA
+AGGAAATGAATTGTGACCACAGAAAACATTGCTTTCTATTTTATTTGCCAGCATTGAGAA
+CAAGGTAAGTGTGAAAACTCAAAGTGTGCATAAGATTGTTCATAATGCTGACCCTTGGGA
+GAGCAATGAGAGAGGAAGCAACACAGCAGAGAGGCAGGACCCCGGCTCAGCCTGAGCCAC
+CACACCTGGGACACGGCGATGCTGGCCAGCTTTCTCCATTCACTGTCTTGAAATGACCAC
+ATCATTATTTCTAAATTAAGGAACATAATTTATGTAACTCATGGGACTCTTTTGGAACAA
+ATGGCACTGAGACAAAGTTCAGACCAATGTTCTAAGAAATTTAACTTCCCTGAGAAACAA
+ACTATAATAGAAAAACTCTGTGTATTCATTTGAATAAACATTCATTGAACACCTATTCTG
+GGCCAAGTGCTATATTAAATGCTGTTGATAGAGGAAAACTAGCAAGACTGGACTTTATCC
+TCAAGGATTTCACAGTATAAGTGAGAAATTAAGCCTTCAGTTATAATGTGAAGTGTACTC
+CGGAAAAAATGTACCAAAGAAACGTGTAAAGGAAGATTAGAAAACTAAGGATGAGGAGCT
+TACCTCTAAATGCAGTTGGGGCTGGGCACGGTGGCTCACGTCTGTACTGCTAGCATTTTG
+AAAGGCCAAGGAGGGTAGATCTCCTAAGGTCACGAGTTCAAGACAAGTCTGGCCAACATG
+GTGAAATCTTGTGTGTACTAAAACTACAAAAAAATTAGCTGGGCATTGTGGCATGTGCCT
+GTAATCCCAGCTGCTAGGAGGCTGAGGCAAGAGAATCGCTTGAACCCGGGAGGCAGAGGC
+GACAGTGAGCCAAGATCTTGACACTGCACTCCAGCCTTGGCGACAGAGTGGGACTCCATC
+TCAAAAAATAAAAATAAATAAATAAATAAATAAATGAATGTGGTGGGAATTTGAACTGAG
+CACTGACTTATGAATAAAGATAACTCATGAGTAAAGATATATTACTACTGACTTATGAAT
+AAACTGACTGACTTAGGGTCAGTTTATTATTGGCTTATCAGTGAAGAGAGTTTCCTAGAG
+TTTACTAACATATTTATAGTGAAATATATATATTGCAGAATAGTTTATGATAGTTACCAT
+TACCGTGCACCAAGTTCAGTGTTTCATGCCCACACATGATTAAAATGGTTTTTGAAAAAG
+TTAGATATCCATTTTGGGGGATATAGGGAGGTAATAATCTATTTGTAGACTACATTATGG
+CAAAACAGTTTAACATTCTCACAAAAAAATGCTGTATGTATGATTAGCAAGAGAAAACAG
+TTTCAAGATCTTAGTAATTATGATCTAGTATAGGAATTGAATCTACTGTCAGAAGATTAA
+ATTGAAATGCCAAGTTTGTTAGTAAGATCTAAGACCATGAGCACGTTATCCCTCTGTTAT
+GTGGTTTTATGTTATCATCATTAAAATTATGTAATATCTATATTGAAGGGTAAATTATGA
+GGAGAAAGAGAGGGAGAGAGAGATCTTACATATAAATCTCTTTTTGTATATTTGGCAAAA
+TTAAAAATACTATATTGCTTTCCACCTCCTAAAACCTGATGCTATTTTTGGAAGCAGATT
+AATTATTTTGCAAGATGAACAGATCATAAGTTTCTTTCATTTATTAAAATTAATTTATTA
+AAATATCACATACTAGGTAAATGTTTTTGCCAAATATTTGAAATACAAAATGTTTAAAAC
+TGAAGGTGCGATATCAGTATCCAGCTGAGTGGACCATTCTTACTCATGAATAACAGAGGG
+GGCAAGCAGAACATTCGTGAATCACTTCTCCTGTACTATATAAACATTAGTACTTTCTGC
+TTTCAAATTTAGAAGAGAACAGAGGCCTGCATCTCACCTATGAAGCAAATGGGAAATGTG
+GGGAAATGGGTGTGAAAGAGAATGAAGTAAGCTGCAAACAAAGTTTTATTCTTAAGACTA
+GGTTTAACACATAATAATAATAAAAGATGTCCCACAACAGTGGGAATAGATCAATTCCCA
+ACCATGAAATTGTTTTAAAAAAACTATTCAAGGCCGGGCACGGTGGCTCACACCTGTAAC
+CACAGCACTTTGGGAGGCTGAGGCGGGCAGATCATGAGGTCAGGAGATCGAGACCATCCT
+GGCCAACATGGTGAAACTCCGTCTCTACTGAACAAAAAATACACAAATTAGCCAGGCATG
+GTGGCATATGCCGGTAATCTCAGCTACTGGGGAATCTGAGGCAGGAGAATCGCTTGAACC
+GGGGAGGCGGAGGTTGCAGTGAGCCGAGATCTCGCCACTGCACTCCAGCCTGGCGACAGA
+GCGAGGTTCCGACTAAAAAAAAAAAAAAAACGCAACTATTCAATTCCGTCAAGTTGAGGA
+ATAGAACAAATGTCGCCCATTTCTGGCATTCCACAATTTCAAACCCATGTGTTTTAAATA
+TGGGTTCAGACCTCTTTGCATTCAAGACTCAAACATTTTGCATAGAATTAATAATTCTCA
+CATTTTCCTGTGAGGGAGAAGGAGGCACAACTGTGCTCATCCACATTTTATAGGGTTGGC
+AAGATACTGGTGTGATGTTATCCAAAGCCATAGAGATTGTTGCCAAGACTATAGTTCATA
+TCAGAACTGCAGTGAAAATGCAGTCATTATAATTCTAAGAATTCATTGTAACTGTAATTC
+ATCTCAAAATAAAAACAATGTACTTAAATTTTTTCCTGAATAAATATATTCATAAAATAA
+TTTTTTAGCTGACCAACCAGGTTATGCTTGAGTGAAAGTCTTTTCATAATAAAGTATAGT
+AAAAATGAAAAATTTTAATATAAAACTACTAAAATTAGAAACAATATTCTATTTCCATCC
+CAAATATTAGTTGAAGATCTTTTATATCCCATTCCACAGCTTCAAATAGTGGAGATACAG
+AAATTTATGTAACCCTTATGAATTTTAGGGTCCAGTTTGGAGATAATGCATTCATACAAA
+GAAAAAGATAACCAATGATACAAGACAGTAGTAATAGATATGATCAATTTTATTCTGTCT
+GCCTACGATATGATAGTCCTAAGTGTTTCCAGTATATTTTATTGTTTGAATCTCACATCT
+GCCTTTTAAAATACATCTTTATACTGCGGTAATCCAGATAAAGAAACAAGCTCAAAGAGG
+TTATGTAGTTTGCCTAAAGCGCTATAGCTAGAAGTTGTAGAGCCAAATTCGGAAACCAAG
+TCAGTTGGATTCAGTCTCACTGAACCCTAAGAAGTATTTACAGTAGATTCTGCCTGACAT
+TAAAAGAATGAGAGATGGGTTGCTACCGAGGCCTGAATTTAGCTCCTACAAATAGATAGG
+AGAAAGATATAGAAGACATTCTAGGTAGAGTTAAACGAGAAAAAATATGAAGCCCCCGCT
+ATGAGATAACTTCAGCCCCTTGGAATGAATGTCCACACAGCTGGGGAACCTTAGGATTAA
+TAATCAAAGATCAGGCAAAGAGCCTCAACGGTAAACGTTGAAATAGACCAATGTTAATTT
+ATAGACACGTTGATTTGTTTGGTGGTAGTAAAGCTGAGTGGTGGGGAACATTATGAAGGA
+AGTACCCTGCAGGTCTTGGTGGCTGAGTCAATAAAAAAGGGAGAAAATAAAATTGGTCAA
+ATGTTCCCACTTTCTGTCCCTTCCTCTGCTGTGCATTTATTCCTCTTTTGTTCTAACCAA
+AGAGATATTTGTAGGGTTCTAGAGAAGTCACTTCAAACCATTGGCCTTAAAATATTCACC
+TAAACAATGAGGGGTTTTGACTAAAAGATCGCTAAGGACCCTTCTAGCTGCACATTCAAA
+TGATGTTTTGCTTATGGGCATCCAATAAATAATTATTAAATAATATTTAATAAATAATTC
+TTGAATAAACGGACCCCTACTTTCCGCATGGGAATTTATTATAACTTCCTAAATGTAGGA
+CACAGAAGCAAGTATAAGGAGACTACTGGTAATGATGACTGTATTTTAGAGCACTGCAAA
+TTTTTTACCTTTTGATGAGCAATATAAATTAGAGGAGAAGAAGAAAGATGTAAAATTTCA
+CATTCAACAGGGGAAAATAAACGACAAAAACAATATTCATTTCAAAATAGGCATTTTTCT
+TTTTGTAGCTTCAATGGGCTTGCTGGGCAAATCTGCTCCTATCAGTAGTAAATGTCACTC
+AAAAAAAGGCACTATATGATTGACAACATAGAAAAAAAGCTGATGAATTATTCACCAAAG
+CACTAAGATTCACAGCCTATAGTAAAACAATTTACAATTAAAAAAATTATGAGAGTCAAA
+GTCTTCTTCACAAAGTGTAAGCCTATTTTTGTAACTAACAAAACTCAAATGCTGAAATAA
+AATAGAAAAACATCACAATAATCTCATGAATTTTTCCCTGTGAAAACGGAGCTGACATCT
+CAAAGGCTTACGTAGACTTTTTTCTAAAGATAAGGCTGTAGATGTTTTTAAAACAGCCTC
+TGAGAGAGATGTCAGTGTTCTTTAAGTGTGGTTTCAAGAGGATTTTAAGGAAAGTTAATA
+CAAAAAATCTTTAATAGAAAAAAAGAATGTTGGCTGTGTAATAGCCAGCAAAATTTTAGT
+CATCAAATATAGCAATTGAAGTGGAAAAATTGAGTCAGGGAGAACATTTAGTATTATCCT
+TTTAATAACATTGAAGACATTTGGGGTTTACTCAATCTCTCCATATTGGGTTAGCAGAGG
+CTCAATGAGTGTGCTTTGCAAATGTGACCTCTTAGATCAACTAGAATAATTTTGATACCT
+CTATCATTGGTTAAGAATAATATTGGACAACGGATGCATTTGCACAGACTCAAATCCGTT
+CACATTGCTAAAGTATCAACCCAAAGGTCTTTTCTTATAAAAAGTATTCTGTCCATTCTT
+AAACATGAAGGGTGACATGTTCCATAGCAGTGATCTAAACAAGACCTGTAAGAGTCACCT
+CATATATAGATCAAATATATATATGCAGATTTTGGAGTGAAAGTGCCAAGAGTAAGGTAA
+ATAATGATTAGATTTCTGCATAACTATTGCTGGTTTAAATGATGTGTGTTTTGGTGGGAA
+CTATGACTTAGATTTTCTCTCTTACAAACTTTCATAATACCTCTAATTACATAAGAGAAT
+TGAATTAAAGGAGAAGTCTCTTTTCCCTCTAATTAATCTCATGTCCGCCTTCTTTCATTA
+CTTTGTCTACTGATTAACAAAATTAGTCTTTGTTACAGAGAAGAGTATAATATATAATTG
+AAGTTATACTTTTTTCCATCCAAAATAGCAAGGAAAAGCAAAACAAGCAGCACATACTCT
+GTAGTGCATGATTTCATTTGCAGAAGTTGGATTATTTTCTGTACTTTGTGTAACTGTTAC
+TGAAGCCTTCAGCCTTAATGTGATCATGCAAGGAAATACTATTTTTCAATGGAATAGAGA
+AGTAACACTATTATTGCTCTTTCCATTCCAGTAGAAACCTACCCAGGCCACATCAGCAAT
+CTAGTCCTTCACTTGTATGTTCCTTCCTCGAGAAACAAGAATGTTAACCCAAAGTTGTTG
+ATAAACTATTATTTCTAGTTTATCGTTTACAAAAGTTAATCTCAAATCATTACACAGAAA
+TAGCAATGATAGCAGTATCATGTGTTAGTTAGCCTCTACCATGTTATGGCACTGATCTAT
+ACACGGTAGTATTGACATGTTTGGTAGTCACAGCTCATTGAGTAGCTAAGAAACTGATTA
+GGTAAGTGATGTTACACAACTACATGATACAATCAGAACGTAAACCTGGCACTCAGGTTC
+AAATTCTAGAAAAGTCACTGTTTATGCTGCAATCGGTAGCTTCAGCCAAATATCAGCATT
+CTAAGGCCCGAAAACTACTTTTCACCTTCACAACAGTAAAACTTTCAAGCTAGCATTCTA
+AATTAAGACTAAAAGGAACATTTAAAAATGAGTGTGTTTATTTTTATTTACTTTTGAAGG
+GGAAGAAGTAATCAGGAGTGTATTGTAACATAGTGAGGATCATAAAACATTTTGGCTTCT
+CATAAGTATCTGAAAACCAGAAAATTAATTTAAAAAGAATTCCAAAATGTATGGTTATAA
+GAACTTTTGTAAACACTCCATTCTTCAGGTTTTGTTTCTGTGGACTTTCTAACATAATAA
+ATAGACCACCTCCTCTATAACTTGGAAAAATACACTTTAAATAAACTAGATAAAACAAGT
+TTGTATTTTTAGTAGAATGCTTGAAATCATGTTTTCAATTTAGGCTTCACTTCTGATAAA
+ATATCATATTGGCCATCACAAATTCAGAGACTCAAGTTAGAGTTCCACTAGCCAGGTGCA
+GTGGCTCATGACTGTAATCCCAGCAGTACAGGAGGTAGAAGCAGGCAGATTGCCTGCGCT
+CAGGAGTTCGAGACCAGCTGGGCCAACATGGCGAAATCCCATCTCTACCAAAAATACACA
+GAATTAATCGGGTGTAGTGGCGCATGCCTGTGGTCCCAGCTACTTAGGAGGCTGAGGTGG
+CAGGATCACTTGAATTCCAGAGGCAGAGGTTGTAGTGAGTTGAGGTGACACCACTGCATT
+CCAGCCTGAGTGACAGAGTGAGACCCCATCTCAAAAAAAAAAAAAAAAAAAGAAAAAAGA
+ACTCTACTAAAGTTTCCATATCTTTTCGAGTTTGTATTCTTGGCCTAAGATATTTCAAAT
+CTAAAGAGATAAAAAATTACATAATTGGCCAATGTAAGCTTCATTTCTAGTATCACTTCC
+AACTATTTCTATTGAAATTGGACAAAGAAAACAAATAGTAAAAATAGCTACAAAAAATGA
+TTCTGGGGAAATGAAGTTATTCGGGGCCAGTCTACAATAACGAAAAAAAAAAAAAAAAAA
+AAAAAAGAAACCAGTCCTAACAAGGAAGAATTTTAGTGAAAATAGGAGTTACATATTCAT
+CAATAGTCGCAGACCTCCATGGTCAAAGCCTTGTGGATTATATTGTTTACTTTTTAAAAG
+ATTGTTTCTGTTGGAGATAAAAAGAGGACCAAAACCATTTGAAGGTAGAATTCCAGAGGG
+CTGAGAAACAAACACAGCACCACTCATATAATCCTGATTTGGTGAAATAAATTATATTTT
+ATGCTAAGTAGTATTTTCATTATTTCTTGCTTATGAGAAATACTTCAAGCTAGCTCACCC
+TAAATGATTTCATGTGCAAGTCATTGAAACGTCATTGAAACCTCTAGCCCTAAACACTAT
+CTTCCAAATATGTCACAAGAATCTAGAGGGAATTAAATAAAATTTCTTTTCAATGATTTT
+TTTAATTATTGGATTTACTATCTCTTATGCAATACTAGCTAAAACATCTTCTGTTAACTG
+GCATGCAGGCAGATATTAGAGGAAAAGTAATTGAGTAATGACTTTTTAAATGAATCTAAC
+CATGTTCTTACCTAATATAATTTAATAAATACTTATTGTCTTGTGCTTATTAGAGGAATC
+ATTCAAAGGTTTTGCCAGTATCTAAAATCTAAAGGAAATTCTAAAGGTATGAGTCTACCA
+TGCTTTGTTTAGTACTTTTATGATGACTGTGGACTATTTTAATGTGGGTCAGCCAAAAAG
+TGACCCTTCCATATCTAAAACTCCGCATACAATAATGTCAGGAATAAATGCTAAGTGGAA
+TAACCAACAGGAAGACTCCACTATTAAATAGGAGTCTAGCTTCACTGCATATCTGAAAAA
+ACATATTGGCAGGTCTACCTGCAAGAAAACTATTTAGTTTTGTCATCTGATTTTACTAAA
+GTCAGAAATGTGGCATCACACAGTGGAATGAAAAATACCTCCCATTTAATTAAATATCCT
+GTTGGTCAAGTATATGTCCACACTAAAGCATTATTCAATATACAAAGCACTGGTTTTTAC
+TGTTGTACATAAATAGCCATAGAGAAAATCGCATGATTAATTAAATGTGCTATATAGTGA
+CTCGCTGTGGCTAAATAAATAACCTTTGTCTATGCAGAAAATTTACACATTAGCAACAAA
+TGATGCAAAATAGATGTGGGAAATCAGAAACCAAAATTTTCACTTTTCCTGGTTACAGTA
+TAGAGTGTCAATAGTTCATACACATGCTACATTAAAACCTTTGTTATTTCTTCCAAAGAA
+ACATTAGGAAAGTCTTAAGTTTTATAAATAGCATGGAAACAATGACGACCACCATTCTGA
+TTACAAGCTTAGGACTCAAAAGAAGAGTGGTTTCCTTATTAGATCCATCATGTACTTTTT
+TTTTTTTTTTTTTTTTTTTTTTTTTGAGACGGAGTCTCACTCTGTCACCCAGGCTGGAGT
+GCAGTGGCGCCATCTCGGCTCACTGCAACCTCCGCCTCCTGGGTTCAAGCGATTCTCCTG
+CCTCAGCCTCCAGAGTAGCTGGGATTACAGGTGCCCACCACCAGGCCTGGCTAATTTTTT
+GTATTTTTTAGTAGAGACAGGGTTTCACCGTGTTAGCCAGGATGGTCTCCATCTCCTGAC
+CTCGTGATCCACCCGCCTTGCCTTCCAAAATGCTGGGATTACAGGCGTGAGCCACCCCGC
+CCGGCCAATCATGTACAGTTTTTAGTGGAGTTGGCAGTACCCAGAGAACTGCCTGTGTAC
+TGATGTTCTTTTTATTCCTGCTTTGTGACCTAACCTCACTAAAGTTAATACGTCCTACTT
+TTTACTACATTTAAAAAGGAATAAAAAAAAAAGCGAGAGAGAAGACAGAGAGATAATTGA
+AAGAGTAAGAGAAGGAACCAGGAGCCCGCGATAACATGAAATGGCAGCTAAGGAAATTAT
+GTTTCCAGGGAGATGATGTTACCTAGTCTCGGAAACAAACTGTCTCCAAACTTAATGCCT
+TAAAATAACAGCTGCGTATTTGCTCATGATTCCGTGAGTTGGCACTTTGGGCTGGGCTCA
+GCTTAGAAGAATTGTCTTTGCTCACTCATGTCCTTTGTCGGGGCAGGTGGCATGACTGAC
+CCTTCCCTCTCCTGGTTCTCTGTCAACCTCCAGAAGGCGAGCGGAAGCTGTTGGTTTTGT
+TTTGAAATGTGGCAAGAGATGCACCAGAGAACAATCTTGCTTCAGCAAGACCTTTTAAAG
+TATCTACTGGCTCTACATTTGCTGACATCCCATTGATCACACTCAGAGGAAATATAGGAG
+AGATTCAAACAAATGCCAGAGTGGTGAGAAACACTAGTTATTGGACGCAATTATTGTAAC
+CATCGACCCCAAATGCTATAGAACACATTGTCTAAGTACCATTTGATGTGGTACTTGGAG
+ACAAGTTTTAGAAGTAAGTGTGGGGTAAACAAAAAAGATTGAAAATGTTTTGTTTTGTTT
+TGTTTTTTAAAAAAGAAGAAGATGGGCCAGGCACGGTGGCTCACGCCTGTAATCGCAGCA
+CTTTTGGAGGTCGAGGTGGGCGCATCATGAGCTCAGGAGATTGAGACCATCTTCACCAAC
+CTGATGAAACCCCATCTCTACTACAAATACAAAAATTAGCCTGGCGTGGTGGCGCTTGCC
+TGTTGTTCCAGCTGCTTGGGAGGCTGAGGCAGGAGAGTCACTTGAACCCGGGAGGCACAG
+CTTGCAGTGAGCTGAGATTGCGCCAAGGCGCTCCAGCCTGGGCAACAAGAACGAGACTCC
+ATCTCAAAAGAAAACAAAAAAAAAGATGATGAAGAGAATAGGAAAGGAGGATTAATTTCA
+GCCAGGCGCTGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGGCGGGCGGAT
+CACAAGTTCAGGAGATCGAGACCATCCTGGCTAACACGGTGAAACTCCGTCCCTACTAAA
+AAATACAAAAAATTAGCCGGCTTGGTGACACGTGCCTGTAGTCCCGGCTACTCGGGAGGC
+CGAGGCAGGAGAATGGCGTGAACCCGGGAGGTGGAGCTTGCAGTGAGCCAAGATCAGGCC
+ACTGCACTCCAGCCTGGGCGACAGAGCGATACTCTGATTAAAAAAAAAAAAGAAGAATAA
+GTAATTTTGTGGGGGAGGAAAGCAAAGAAACGGGGCAATGCAGGAAGAGGCAGCAACATT
+AAAAGAATATTTGTTAGCTTGTTTTTTCTTTTTTTTTCTCCTTGTTCCTTCTAGCTTGAA
+GTGATTTCAGCAGTTTTGTTGCCTGTGAAGAGTTATAGAGAGGAAGAAATAAAAGTTCTG
+AGAGATAAAGCACAGCTATTCCCTAGGCAAAGATTGGTAGATGGAAAAGAGAAAGCTAAC
+TCTGGTCTCCCTGAGCCCTGAACTGAGTGAGGTGTGAAGGAGTGGAAAGTTTATGCCTGC
+GCGTTAATGATTAGACATGGTAATAATGCAGGAGGGTGTTTATCTGCACAGCGATAGAGC
+CAATGCTCAAACTTCCTTGCCTCCCTTGCCTTACATCTTTTTGCAGCTGTGGAGCTCTCC
+AAAGCTCTGGGAGAATTACCTGATTCACCACCTGCTATAATTGGATTATGAAGACCAATG
+ATGCTGTAGAGCCCCTGGCCCTCAGAGCAGGATCTCTACATGATTTTTGATTTACAGAAT
+TCCCAATTGAGAGGAAAAGAATATTTTCCATACCCTTGCAGTTTAATCCTTGAGAGTTCA
+AACAAAGATTATTTGCCCCAAAAAGAATATATACATATGTGTGTGTGTGTGTGTGTGTGT
+GTGTGTGTGTGTGGTATTTATGTAGTTGTAGTTGAATGGTCTAAAAAGTCAAGAACCATT
+TAATTACTAAAAGTGTGCTTAATGTTTTTTTCAATATAAATTAGTACCTGAGCCTTCCCC
+TCACATATATTTGTCTTATCAGACTCTACTGACACCACTGCTAATAAATTATATGACAAT
+CACTGTGCAGTGTTCAGTGGAAATACAAATATGGGCTCTGTCTTGTCTTGGGATGATTTA
+GAATGTTGGTTGATTACTCTCCTGATACAGTGTTTATATATACAATTTCCCACACTTCCT
+GTGCAGTCATTGATATGAATAGCTTCAGGGAAAAAAAATCTAAATGCTTGCCAAAGGATT
+TTGCAAAATCACTAAAATAATATAATCACTAATTTTGTTTTCAAATGTTAGTGAGTCAGA
+AGAAAGAAAAGTTCATCTTCCCACTATGATTTCGGGAAATCTCCACCACCACTTTTGTTT
+CCAAACCTGAAGAAGCTAAGGAAAGACCTAGTTTACTGATGGAAAAGAAAAACAATCCTG
+TGACATCAGTGAGAAGGACATAACAGGTTAAAGTTATAAAAACTCAACCCTCCTAGGGGA
+GAGAATGTGTTTTCTCAAAAATATTTAAGGCAGTCTGAGAACTGCCATTTACATCTTTTA
+AAAAATGCCAGCTGGGAGACTAGACAAGAATACTTTTGAGACTTATGTAGGCAAAAGAAT
+TATCTAGGAGCCATATTTTCACAAATGAAGATTCCTGACCCCTTTATCTTTCTTCCCAAA
+AGCTCTTAATTTTTGAAAACACCTTTAGTATTTATAATAAAGGTGTTTCTTGGGCAAAAC
+TTTGGGAAATGTGAATTAAACATGTAGTCTACTGTGCTCTTTCCAGGTTTGCAGCCTATA
+CCTCTCCAAGTCCTCATGGTTGCACTTGGAACATCTACCCTCTTCCCACAGATAGGTTTG
+CAGTGAAAAGGGTCTCAGTTTACACTGATGGATAATGCTACATCAATTTAGATGGCGTCA
+ATCAATTTTGTTTTAGGCGTCCGACCTGGCCTTTTACTATTTTCTTCAACTGGATCCAGG
+TGCCATTTGAAGGAAAGAGTGATGCCTCATGCTGGTTGCTGACACTCTTACCACCTGGAC
+AGTATAAGGAAGAAGGGAGAGAGATGACAGAGTTGGCTTCCAATCCACTTCCATAATAAA
+GCACTTTTACAGTGTCATCACTAAGGTCATCCAATGGGAGGAATAATCTGAATGGATCAT
+GTCATCATCATTTTAATGTGCCATAAGACTCTAGCCTTAGGTAGCAAAGTGACACTCCTA
+CTGGAGGAAGGCGTGAAGGTGGATGAAGGACAGAGTAAAATGCCTTCGCATTCACCTACC
+ATTAAGGATGGAGTAAATTGCCTACCAACAAGTGTTCAGGAATCTCTGTCTCCTGGACTC
+CCTTCATTCTAGCCCCAAAGGAACTTGGATTTCAATCAATGATAGCATTTATGGAATGAC
+CCAGGGTTTGGCACTGAAGATACAAACATGATTAAGATGCAGGTTCTGCTTTGAGGGACC
+CCAAACTCCCCAAAATCATAGAGAAATAAAACCATGGACATTGTAAGCATTAGAATAAAG
+ATACCTATAAAGCAATATGGGAGCATGAGAATAAATGTCTGTAGAGTTATGGAAAATTAC
+ACAGAGGAATTTAACATTTAACTGCGGCCTGAAGGATAAGAGGCTGGTCCTAAGCAGTGA
+AGAAGAAATGATACTACACATAGAAGGTGCTGGATATGGGACAGCACAGAAGAGTGACAG
+AAGGTGGCATTTCAGGGACCTGATGTAGCTGTATACAAAATGTGGTGCTGGAGAACCACC
+GCTGCTTTCAGCTCAGGTAAGAAGAGTGACGCCATCAAGAGATTAATTCAATGAGTCAAT
+ATTTAATAATCCCTGCAAGAGGTGTTTGTAAAATAATAAAATAGAATAATATAAACACTT
+CATAAATGTGTCACAATGAAAGTTTATCTTTTATTCTTTTAAAAAATATATCAAGACCTT
+TAAGGGCACACACACACACACACACACACACACTCTAATTCATTGAAAGCTCATCTCATT
+AAATTAGTATATCCAGTAACTCTGACTGATGTGTCACGTATGGAATTTCTTTACAGCCAA
+CTGTCACTCCTTTACAGCAGTTGAGAAAGGTCTAGAGTCACATTGGGTCTTCAGTGTCTG
+CACAGGTTTTGAATCCGTTTCATTTGAGAGCATAATGATCGCAAAGAGGACCTTGAATAG
+ACCCGCTCTGAAGAACTAATCAAGAAGAAATTCCCCAAATCAGTTAACCACTTCATTCCC
+TTTGTGATAGGAAAAGATGACAGAAGAATACAATATAGAAATGAATTCCTGGTTACTATC
+CGTTCCAATAAATTTGGTTTAATTGGCTCAGCTCTAATTAAGAGACATAAGCCTAAAAGA
+GGGATTACAGGAACATAAAAAAGTGTATTGAAATGCAAATGCACCATAAACTTGAGGAAG
+TTGTCTTTTAGAGAAATTTAGAACTATCCAGTTTCTAATTTTTATCTTTTTAATTAATAG
+ACTTTTTACAAAGCATTTTTAGGTTTACAGTTTCAAATTAAAAGAAAGTACAGAAATACC
+TTATACCCTCTCCCTGAAAAAAGTTTCCCCTATTATTAACATATTTTGGTAATGTAGCAC
+GCTCGTTATATATTATATTGACACATAATTATTAACTAAAGTCCACAGTGGACCCTAGGG
+CTCACTCTTGGTGTTGTACATTTTATGAGTTTTGACATATGTATAATGCCATGTATCCAC
+TGTCACAGCACCATGCAGAACCATTTCACTGCCCTAGAAATCAGTCACCTGTGCTCCACC
+TATCATTTGCCACTACCGCTCCCACCATGGATCTTTCTTTTTTTTCTTCTTCTTTCTTTT
+TTTTTTTCTTTTTTTTTTTTTTTTTGAGACAGAGTCTCGCTGCAGAGTCTTGCTCTATGG
+TTCAGGCTGGAGTGCAGTGCTACGACCTCGGCTCACTGCAAACTCCACCTCCCGAGTTCA
+AGAGATTCTCTTGCCTCAGCCTCCCAAGTAGCTGGGAGTACAGGCGCACACCACCACGCC
+CAGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCAGGCTGGTCTC
+GAACACCTGACCTCAAGTGATCTGCCCACCTCGGCCTCCCAAAGTGCTGGGATTACAGGC
+CTAAGCCACTGCCCCTGGCTGAGGTTTTAACTCTCTCCGTAGCTTTGCCTTTCACTTGGA
+TGCTTTTCATGGCCTCAAGGTCTCAGAATTTCTTTGACTGTGTTGTGAATTTCTTCTTAA
+CCTCCTCTTATAGATTCTAGTTCCATCTAGTCTCTCCCAATCACACCTATTTACGGCTAC
+ATATATGTCCTGAAATTTTCACAGTAATCAGTAATGTTGGTTTAAGCTTGAAGATTGTCT
+TTCTTTCTAGATCTTTAGCATTCTGTTTTTATGTTTTAATTTTTTATTGATAAGTTGTAG
+CAGTATATACATATGGGATACAATGCAGTGTATTGACACACGTATAAAATGTGGCATGAT
+TAAATAAAGCTGATTCACATATCCATCACCTATTGTTCACTTACCTATTGTTTGTCATGA
+TGAGACATTCAAAATATATAATATGTTATTAGTTGGTTAACTTGAAATCTATAACACGTT
+ATTATTGACTACATTCCCCGTAGTGTGCAATAAATATCAAAACTTATTCCCCCTGTCTTA
+AACTCTGTGCCCTTTGATTAACAACTCTCCAATCCCCTGTCTATCAGAAACTTCATAAGA
+TCTTTGTATTATTTGGTCAAAACATCCCATTCCTCCCCTCCCTCCCCAGCCCACTCCCAG
+CCTCTGGTAACCATAGTTCTACTCTCCACTTTTATAAATTCAACTTTATTAGATTTCACA
+TATAAATGAGACCATGTGGTATTTGTCTTCCTGTGCCTGGCTTATTTTACTTAGTCTGAT
+ATCCTCCAGATTCAACCATGTATCTTGCTTTGCCCAATAAATGAGAGCTGCTATGTTGGG
+TGAAAGTCGTGGAGCGTATGCATTATCTGTGTTTTCTTTCCCCTTGGCATAGAGGTAACT
+TGCTTGTTGCCCTAAGGACAATGTGGAGCAAAGTCCCAGGCAGCCTAAAGAAACATGTAG
+TTGAGCAAGAAGTAAACCTTTTATGTCCAAATCACTGAAATTTGGAAATGATTTATTATC
+TACTACTGAAGCATAGTGTGACTATAACTGATAAAATTCTTATTTATAAAAAATTTTAAA
+ACATGTCCATGATATATTTTAAAGTGAAGATGGTAGAATTGTGTGTATATTAGAATTGAA
+CTTAAACAGAAAAAAGATATGCTCATATGAGACCAAAAAAATTATTGATGTATAGACATG
+AAAATGTTAACAATTAGTAAGCTATGGGAAGTAAGAAATTATGAGGAGGAGGTGGAGAGT
+ATTTCTTTCTACATATTGTACTTTCATTTTTTAAAACAAGAAGCAGGGGTCAGGTACAGT
+GGCTCATGCCTGTAATCCTAATACTTTAGGAGGCTGAGGCAATATGATAGCTTGAAGCTG
+GAAGTTTGAGACCAGCCTGGGCAACATAGCGATATCCCATCTCTACAAAAACTAAAAATA
+ATTTAGCAAGATGTGGTGATGTATGTCCATAGCCCTAGCTAATCAGCAGGCTGAGGCAAG
+AGGATCACTTGAGCCCAGGAATTCAAGACTGCAGTGAGCTATGATCATGCCACTGCACTC
+CGGCTTGGGTGATAGAGTGAGATCTCCTCTCAAAAAAAAAAGAGAAACAGGTACTATTTC
+TAAAGTTTAGTTAAGAAAAATTTATCCTGATTAACTAGACAATAAACCATATAATAACTC
+TAAGTTTATTGAAAAGTATTATATATGCATGAGAATAAAATGATTAATAAATGTGAATAG
+CAAGTCCAGAGAAGATTTAAATAGAATTCAGAGTTAAATGAGTTTATTTGGTCGGTGCAA
+AATCAATTGTGGTTTTTGCCATTGCTTTTAATTGCTTTTAAAAGTAATGCTTTTACACCA
+ATCTAATATTTCAATTCTGTGCAGCAAGAAATGTTTATTCAATGAATCAAGTTGATACAT
+TGGTTAAACGTGAAAAAGATTACGTGAAATCCACACCTTCTCTTTTTAGCAAAATAAATT
+TTAAATTGAGACAGTTATAAATTTAATAAAATAAATCACATAGGCAAATGATGAATGTTT
+AATGAATTGGGAGGGCTTTCTAACTGTGATGCCAAGGCCAGAAAGAATTATGAACAAATT
+GATAGATTTGATTACATAATACATACACACATATATAAATCACAAAATAAAAGAAATTTT
+GCAACATATCAAGCTGTGCCCAATCAAAAATGTGTAAGTCTACCCAATAGCACAGCAATT
+ACATTCATTCCTGGGTTTAATTTACCAAAGATTACTATATTTTTTGCACAAATGGACTGT
+TAGGGTGAATCTGGGTGCTCATCCCCGGGATATTAGAAATGGAAATTATGATGAGTAAAT
+AGCATGTAATATTTTGCAAACGTTAGAAGAAACAATTACTAGATATACACCAAGCAATAT
+GGATTAATATTTTACAAAGCATTGTGATAAATGAGAAAATTATAAAATAGAATAAGTTCT
+AAACATAGCCATTTAAGTGAGCTAAGTACGTGTGTGTGCAAAAGAACAACATATGTACAA
+GAACACATGCGAACAAAAACTGTACAGTAAGTAGTTTAAAATGTACAGGGAATTGTGTAG
+GGGGAGATGAGAGATGGAAGGGGGGACATGGATGTATCAACAAATATAAACAAGAAACAA
+AGAACAAAACAGGATTGGACTTTTCAGAGATCACTGATAATTACGTTCTTTCGTGATGAT
+GAGTATAATTAGCTCAACTCAATGCACTTGAAGTTCAAAAAATATATTTGTATTTTTTTT
+AAAATAGGCTAAAGAATGAGCTAATAAATTAATAGCTAATAAATATGAATAATAAATACA
+TGAAAACATTCACTTTGACTAGCAATTAAATAATAATAATAATACAGAAGTTTATATGTG
+TTTATTTATTGACCTGTTTATTGAGAAGTGGGAGAAAAGATGGTATTTAGAAATATTATT
+CTTAATGGCACTAGAAAGTAGTAGAAACTTTTTGGACTACTCAGATAAGTGTCAACAATA
+CCTGAACAAAAGTTTTGATTATAACATTGATTGTAAAGGCTAATAGTTGGGTGAGAACTA
+GTTAACACTTTGGGGTTTGTTCAAACAAATTCTTCATCAAACAAATGAGTATTATGTAGC
+CTTTGAGGGTTGATGAGATAGAGGATTTTTTCTCTTTGTCCCTATATATTATTAAATCAT
+GTCACATTGAAATGCACTATTTTCTGCAAAACATGTAATAAGTAAATTTTTAAAATTCAA
+CTAAAATAAATTTGAGGGTACACTAAAAATTCAGCAATTCTGGGAGAAAAGTTCTGCAGT
+TTACATTCTGTTCTATGACCAGTAAAGTATTAGAATTTTAATATATTTTATGTTGCTTCT
+TTCACATAAATATCTTAAAATTGGCTTTATTGGCTTATAACTTCATACGTTTCCTTCCCA
+TAATTAAGAAATGTTTGTGATTGCTGTTAAAACTCTAGATTTTAGACTATAGTTAAGTGG
+GAAAAAATACACTTATTTTTGCATTAAAAAGGCTTTTAAAAAACATGCACTAAGCCAGGT
+TAAAATGTTTCCTGCCTAGGAAATAGCATAAAAAGCATTTTTTCCCCCATTAAGTTAATG
+CAGTAGTACATTTTGATAAATGTAAATTGAAATAATTGCAAATCTGATATATGTAATGTG
+AATTCTTGATTTGGAAAGTAATTTATGACCAGCAGTTATTTTTTAAACACAAATATTACT
+TTTTTTAAAGCTAATCAGAACTTTCAGATATGTCATACTGAAAAGCCTGTACTCTGATAA
+CATTTATTCCCTATGATATGGAAAAAGAGAATCGTTTCTATTCTGGAACAAATGCTGAAG
+ACACTGCACGCCTTTGCTTGGCTCTCTTGGTTAATGAATGTGTTACTTAAAATAATAATT
+TGCTCTTCAAATCATCTGGCCACACAGACCCATATTTCCCCCCATACAATGCTGTTTTGC
+TGATATTAGATTTACTTACCTTTTAACGGGATATTTATGCTATTTCCATGAACACACTCA
+TCTACAAAGATACAAATTATCCAAGTAACAATACATAAGAGACCCGCATGGAGGTCTGGG
+TTAGCTGTGTACAGAGAAAGATGCAGGGCTGGAGCAGAGCTGCATCCTGATATGAGAGTC
+TATCACTTTTTTCCCCCTCTGAAGCTATGGGGAATGAAGAATTCACTCTTTTATTCGTGG
+CGTGATGGCAGTTCAAGGTTTTATTGAGGATGTGGTCTGGCAATGGTATTCTGCAACCCA
+CGCACAAAACATAGCACTAAAATCTTTATAATTAACTGCATATGATTTAGCAGGGTCATT
+TAGAAGGATGATTCATCTGCAGTAGGTGTAAACTGGCTCACTAAATCTAAAGCTTAGAGG
+GAAAGACAAGACAGAATAGTTTCTTGATTCCACTTTAGGCTAATAGCCAGGTGACTCAGA
+GTCCTTACGAGCCCTGATTCAAGCTTCATTTCTCAGCACTGTTAGCTGCTGGAGTTACAT
+GCCCAACAATTCATCTTTTTGCATCTCAGCTATGTAAGTCTCTAAAACCAGTTTTTATCA
+GGGGTCTAGGGATTGTGCTACCTGTAAGTCTATGCTCCAAACTACTAATATTTTTCTTCA
+TTCTTCTTTGAATTTGAATGTGTGTTTATGTCTAAGGTTTTTTTTTTTTCTCCCAGTTTA
+ATTACACGTTTTGGTAAAATTGTGCAGTGGGCACTGCTTCTCTTCAGTGTCTTTCCATCT
+TCGTGCAGGCTGGTCATGTCCTGTCTTCTAATGCTACCTGAGCCCTAGCACTCCAGGAAT
+TCCATTATAACAGACTCTTTCTCCAGGCATCTCTTGAATTCTACAAAAATCTTTAACGTT
+TTCTCTTTACACTCTGCTTTCAGCAAGCTGCCAATTAGAAAAGATCTGAAAATATCATCC
+TCTAAGTGGTTAGTAGCTCACAGTAGTTCACTGTATTCTCCTCAGGAGAACTTGCACTGC
+AAAAGGGAATGGATCATTGACTTTAGGCAATGTTCCACAACTAAGGACAGCAGAGTCTCC
+TGGAATGAACTTTTAGAAATGCAGATTCCTGGGCTGCCAGAATAAGAATACATGCTTTCA
+AGAATCTTCCAATCTTCCCAGATTGGGAAATGACAACTATTAGCCTGGAACAATCAAACA
+TTTGGATATCACCATATTCAGGTACAAAGTTAGGGTTAAAGCAAAGGCTATTTGTAACCT
+CAAGTACTTTCTACCATACCTCCTAAAGAAATTGTGTATGCAACCCACACACACACACAC
+ACACACACACACACACGTGAGTGCTATAATTTGGTCCCATGCCAAATGTCAAGAAGAATA
+GAGTCAAGTAATAAGCAATATCCATCCACTGCAACCTTTGGGATAAACTATACTCTTGGT
+TAGCTCAGGATCAAGCGTAAAAACATTCCATTGAATGTATATTACAAATTAGTTACATCT
+CTTGTTTGGAGGGAACTGCATTCACTTCACCAGCAAGGGTATCTTTTTGATACTGTTGAC
+TGTTCACATAACCCAACAACAGTCTTTTCACAGTATTTTTGTTAGTTTATTACAAAACCT
+TTTATTGTTATTGTGTTTTATAAATTCCAATGCAATGAAATACATTCTACTCTTTGTATT
+ACTACTGTTAACATTTTAATGACTATCTCTGCATTCTTTCATTTATTATTTCATTCATTC
+ATTCAGCAAATATTCCAGGAACTATTCTAAGCTCTGCAAACAAGCTACATAAAGCCCACA
+TACTCAAGATAGCATTATAATGGTGCAGGTAAAAATGAAACACATAAGTTCCATGAAAAT
+GTCAAACATGATTAATGGGACTCAGATGTCCTAGGGGAAGGAATGCTACTTTACATTGAA
+GAGTAAGGTGAGGCCTTTGCAAACATGTTGCATTTGAGCTGATACCTGAATGATAAGAAG
+GAGCCACTCGTGAGATGCTCTGGGGAATTGAAATCTATACAGAGGCAATGATTGTGCAAA
+GACCTAGGGTGGGAATAAGCTTGGCATACTTGAGGATTAGAAGGAAAGTCAGTTTGATTA
+GAGTATGATAAAAAATATGGAGACCGATAGCTGAGGTGGGAGAAGTATTAAGGCCTAAGC
+CACATATAGCTGTACTGTCCAATACAGGATCCACTGGGCACATGTAGCTACTGAGCACCT
+GAAGTCAAGCTACTCTGAATTGAGGTGCACTCCGGGTGTCAAACACAAATGTAGACTGGA
+TTCTGAAGATCTAGTATAAAGAAAGTATACAGTATATCTCATTAATAATTTTATATGGAT
+TATGTATTGTAATGATAATTTAGAGATACATTGGATTAAATTAAAATATTATTACTATTA
+ATTCACTTGTTTTACTTTTTCTAAAGTGCTTATTAGAAAATGTTACATTATGTATGTGGC
+TTAACTTAAAGCCTTGTATGTCATAGTCAGAAGTCTCGGTTTAAGCAGAATGAGAAATAT
+TTAAAAGATTCTAAAGAGGCGTTACAATATGAATTACCGTTTTTTGGTTGTTTTGTTGTT
+GTTGCTGTTTTAAGACAGGGCCTCACTCCCGTCACCCAGGCTGGAGTGCAGTGGTGTAAT
+CACGACTCACTGCAACCTGAGATATAGAAAACAGGGATGATTTTAGTTGTCATTATGAGT
+AAATGGATGGTTGGGGGCCATTCTATGGGATGGAGAAGACTGGGATGGGAGTGTACTTGA
+GAGCAGGAGAAACAAGGGTACTATTTTGGAAATATGTTGAGATGTCTGTTGAACATCTGA
+GTAAGCTCTTCAATAGGGAAGTCATGCAGAGGAGGAGAAATAGACCAAGAAAGAGGAACC
+TAGTAATTGCGAGAAAGTAAGTGCTTGGTGGTATCGCAGAAGTCAACCAAATAACTTGTT
+TCAAAGACCAGAGAGCGGTTTACGATGTCAAGTACTGTTCAGCAGGCAAGGAAGATGTGA
+ACAGAGACCTGGTCATCGCATCTGGCAATATGGAGATAGTTGATAATCTTGATAAGAGCA
+ATTTGTGATGGTGGTAGCAATGCCAGTCCAACTAAAGTATATTGAAGAGTAAATGGGAGC
+TAATAAAATTGGAAATAAAAAAATAGAACTTAGCAGATCTTTGAAGATTTGCTGTGGGCA
+GATAAAGGGAATAAGAGCTGGAGACACACTGTAAGTTTTTTGAATTTAAGACTGATTAGA
+GCTTATCTGTGTGCTAAGGGGGATTATTCAGTAAAGCGGAAGAAAAATGATGCAGTAGAG
+AAACAGAATCATTGTAGACAAAGGGTTCTAGAGTAAACTAATTGGAATGGGATTCAGACC
+TCAAATGCAGGATTGGCCTTTGATAAGGTTCTGATGCTTCTCCTACTACATCTGAAGATA
+AGACTGAGTAGATGAGTACAGATATAGGAGGGTATTTTTCTCCCCACCTTCCCCTGTGTG
+TGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTGCAAACCCCCTCTCA
+TACCAACTTTTCACATTTGTGCAGTCAAACGCTCTGCCACTGAGCTACACCCCCAAATTT
+GTAACACTTGGACACACAATTTTAAATTCATTAATCTGGTGTGTTCTAGTTTCAAATGCT
+GTTACAGAAAAGTTTGGTGCCCATTTTAGCTGTGATCCTTTGCATAAGACCTGTCCTTTA
+ACTCTTGGAACTTTCATGATCTAATATTTTGAATCCTCCCAAAATGTGACTTGGTTAAGT
+CTTTTGTTTAATTCATTATTCTGAACACCCACAGATTCCCTTCAATCTGCAGACTCATGT
+CCCTATTTTGGTGAATTTTCATTTGTACTGTATTAGTCCATTCCCACACTGCTAATAAAG
+ACATATCCAAGACTCGTTATTTATAAAGGAAAAAATTAATTGATTCACAGTTCAGCATGG
+CTGGGGAGGCCTCAGGAAACTTACAATCATGGCAGAAGGGGAAGCAAACACGTCCTTCTT
+CACATGGTGGCAGCAAGGAGAACTGCAGCGTGAAGGTGGGGAAAAGCCCCTTATAAAACC
+AACAGATCTCATGAAAACTCATTCACTAACACAAGAACAGAATGGAGGTAACTTCTCCCA
+TGATTCAATTACCTCCCACCAAATCCCTGGTGGGAGGTAATTATGGGAACTACAGTTCGA
+GATGAGAATTGGGTGGGGATACAGCCAAACCATATAGGTATTATTGCTTTGATGATTTCC
+TCCTCTCTAGTGTCTATTTTCTCTCATTCTGGAATCTCTATTATTTGGACATTGCCTTAA
+TTGTTCCTAAAATGGCCATACCTTTATTTCTTACAATCCATGTGTTTGCCTATATCTTCT
+ACCTTCTAGGAGTTTTCCTTGACTGTGGAAAGGAAAACTCTTGCTTTTGTTTAAAATTGT
+TTTGCTACAGTATTTTTCATGTCCTATAGCTCTTACTTTAATATCCATTCCTTCTTCATA
+GCATTCTGCTCTTCTTTAATGGGTCCACTATCTTCTTATGTCTCTGAGTATATTAAGTGC
+AGTTTCTTCGAAGCTGTTTTTGCCTTCAACATTGCCTCTGCTCCTTCTCAGCTCCCTGTT
+TATCATTGGTTGCTTTTTCTCTTTTCATGTTAGAGGCTTTTCTCAAAAGTTTTAAGATGC
+TAAGCTATCTGTTCATATTTAAAGCTTGCTTTTAAGCTCTGTGTGAATGGCAGATTGTTC
+TGACTGGTAGACTTCACTCTTTTAAGCATGATCCAAGCTTACTCTCTGGGATGGTTCAGT
+TTCTCTATCTAAGGATTCCTCAAATTCTTGATCCAGTTTACATGCCTGACTTCTGGGGAG
+GGGGAGGTGGTCCTGAACATCTAGTTGCTCTTAATGTAAACTTCCCAATTACCCCAAGCT
+TACGTCCCATCTCCAAACACACTTCTTCCTATAGTCCTGGTTCCTCACCTTCACAAGTCA
+AAAGAATTTCTATAAGAGAACAGATTAAAGTGTCCTTACATGAATTCTAAAGAACAGCTT
+TCTTCTCACTGATAACTCCCTTTATAGGTACATATGTGTGTATGTGTGTGTGTGTGCATG
+TGTGTGTGTATTTGAAGTTTCTCTAACTTATTAAGTAATTTATCATTCATACATCTTTGC
+ACCTTTGTATATTTAGATTCAGAATTATAGATAACTCCTAATTTAATAACAGATGAAATC
+AGTGTTTCTGCTTCCTGGTGGGGGCAGAAACTTTGCTAAATTGTCTTCTTATACCAGAAA
+TCCATTAAATTCAATTTTAACAATGACATTCTTTTTAACAAGCAAGATTATAGAAAATAT
+TGCCCTTCAGATATTCCAAATTAATAACAATACTGTATTCAACATGTTTTATATTGCCAT
+ATCCATGCTGGGTATTAAATTTTATTCTGAATATTAATCAAAGTAGTAGAGAATGAATAT
+CATCTTGTTTGAATTTGCGTATTTAAGATCTAGAAATGGTATTGTCTCCTGGAAAAAAAG
+GTGCCTAAAAATTTAGAACAGAGCTGAAAACCGCTAATTCTGCTTTCCTAGTGAAACAGG
+GAAGACTTCATGAAAGACCTGATATTTCACCTATATCTTCAAAGATTTGTCTACTTTAAA
+AAAAGACATTTAAAGAGGGAATTATATATCACAAGAGAATGGAAGCAAAAAAGGCGACAA
+GCATGTTCATAGAATAGTGAGAGATTTGAGATATGGGAGAACAAAAAAAGATAACATATG
+AGAAAGAATTTTGAGAAAAGTCAAAAGTTTACATGAATTCAAAGACATTATTCAAAGGCA
+TTATTTTTATTGATATCGGTTGCATTTTCTTCCTGGAGTTTTACATCTTCTCAATGAATA
+ATATATATACCTAATGGTCTAGTTTACAAAGAACCCACAAATCTTCTTCAAGAGAGCCCT
+AGAAGAGATTCAATTCCAATTTCATAAGAATTATTACTTGATAAAGAACTCATAAAACTG
+TCATAGTTGAGAATTAGGCTATAGCCAATGGTTGCTATTCATTGTGCAAATTCCCCTAAG
+CCCAGCTGTTTTCAGCACACGACTCGTGGGCAATTCCACGTGCATAGCCAGTGCCCATAC
+CAGGAATGCCTGTCTGCTGTTCAAGGCCTTCTCCCTTGCCACAGGAGACCATGGAGCTGC
+AAGCTAGCTCAACACACAAAGGCAGGGGAATTAATACCCCAGGATAAATCCTTCACAAGT
+GAGAGTCAGGAGTCTTGAGGAAAGCCCCAGCAATCCTGTCCTCTAAGGAGACAATGCTAA
+GGACTGTTCTGTACAGTTCCTCAGAGGCTCCATGGGGACTGAGCCTCTACTTCCTCACAG
+AAGCAATTGCATCATGGAGCACATAGCTGACTCCTCTTCCTTCTTTTTCTCATTTTCCTA
+CCTCTCTCACTTCTGCTTCCTAAAATGTCCCCCTGAATAAACGATCTATACCCATTTCTT
+CTTCTTGGGCACTGGCTTTAGGAAAATCAAAATAGGATGGATACTTAACAAATGATGTGC
+CTCTACTATTTATCTGTTTCTATCAACCCAGTATAATTTACAGGCATCCAGCTTTTCCAT
+TTCCTTATTAGAAAAAATGAAAAATAGTTTTCAGTTATGGCTGGTGTTTTTTAACTTGCT
+GGCACTGATTCTGTGTATTTTGGATGAAAACTTTATCCATGATACATAAAGGGAGGACAC
+AAAACTGAGAACCAGAAAATCCATATTTTAGTCCCAGGTTTTGTACTACCTAGAAGTGAG
+ACTATATAGAAATCATTTTCTCTCTCTAAAACCTCAGCTTCTTGCTTTATTAAAATGAAG
+GTGTTGATGTAAAAGATTATCCCAAGGCTTTGATTTCATTATTCCATGAAATTATAAAGA
+GGCAGGCCTGCTTTGGACAAAGCTGTCAGTTGGACATGTTTCCCGGTGGTCAACAGGACA
+CAGTTGGGAGTCTTATGGGTACCTGCTGCCTTGCTTCCCCATGCTTGGAGCAATTTCTGA
+CCAGTACTCAATCCAAATCTATCCCTTGCTTGGATAGTTCCTAATGCCTCAATAGCCCAC
+AGCTTTAAATATACACACATTTAATATATGTGAATAACAAGTTCTATCTGCTTCTAAAGA
+ATATTACGAAGTAAACCATGTTAACAGGAAATTGACTAAGAAAGACAAGCCCACAAATTC
+CATGCTAGCCCTGCGTTCTTCCCACCTTCTTATACAACCCTCTTAGGTAACACACATGAA
+TGTAAGCGACCTTCTCTACACCAGTCACCTGACTTGTATTGTTCCTCAAGGGTGAGGAAG
+TGTCTAGACGAAAGGGAGGGGAGACCCAGTGGTAGGTGGAACTTTGTGCTCCACCTTTCA
+CATAACAGGTTGCCAATTCAGCTGTACTGAGGACAGGCAATGGGAGAAGGCATTAAAAGG
+GAAAACTGAAATAGTTCCTTTGTTCTGACTGTAGAAATGCTGAAAGGAAATTCCTGTTTG
+CGGCAGGTGATTAAACACATTTTATTAGAGGCTGTTACACAGAGAGAGTTACTCACGCTG
+CATTCTTGCAATAAAATGGTTCATTTTCTCAGTTTTCTCATAATTTACTTTTCAAATAGT
+ACTAACTAGATTTATCAACGATTTGATAACTTCCAGACTGCCTGTCAGAGTCCATTTAGG
+ACACTTTAACCTGTTCTTTTATGGCAATAAAGCTCAAACTTATCCACCAAATTCCTCCTA
+AGATAAAGGAGTATGAAATTGTATTTAAGGTATTGTGGTGGACGGGTAGCTGACTATGTA
+GCTCAAACTGCCTGAGGACAAGCATGAGATTTCTCCAAAGCTTTCTCCTTCATCTTAGAA
+GCGCTCATGAAATTGCTTTCTACTCAAAAATAATAAAATTCAACTTACATTAATTTTAAA
+ATTTTATATGAAATTATTTGCTAATTTCATCAAAAAGTTTAAGGAAGAATAGCATGATTT
+CGATTTTATGCTATATTCTTGTGCTTTTCATCTATTTGCAGGGTAAAAGAGAAATCTCTC
+TTTTCCCTCCACACCTCTGAACTCTTCCTATATCATGTATTCAACCTGGAAGGTAGACTT
+CCCCTGTTAATTATGAAGCATAATTTCTGTGCATCTGAATTCCTATACCATGTCTAAATG
+TGAAATTCAGTGTCAATTTCATTATCCTTGCCAGTGAAACATAAGTATCAAAATTGTCTA
+TCAAGTGAAACTGGAAAAAAGGGGATATTATGGCATTTGTATCTTCAGACTTCATTATTC
+CTAATGTTTCCCATTATAGCCTGTACCAGCTGGACAAACCTAGAAATTATTTTTTGCTGC
+TGGCATCTTATCTTTGATGATATGTAGGGTAGGGTTCAAAGCGAACACCACACACAACAG
+AAACATTGATTTTGTTCCCTGTATTCCTTTACTTCCTTTTACCCCACAGACTCCTTTAAC
+TTGCATTTCCTCCCTTTTATTTGACAAACCCACCACTGCCCTCCTCAGAGCACATTTTTG
+TAACTTTGTTTCTATCCCACATTTTCCTGTATGGCAGATACCATTGTTTTGTAATATGAT
+AAAAACATAAAAAGTTTTTCCTCCTCATTTAACCACTCTCTATGAGTTTTGTATTTCAGA
+AATCATTTCTTTTCCTTGCTTAATCAATTACTACTCTGCTTTCCATAAATTCAGTAAGCT
+TGATAGCAAAAATCTGCCAAATGCTTTGACTATCACAGAAAGAAACCCCTATATAAATGT
+CTGCTATGATTTCTATTACAACATGAAGACACTTTAGGGTATGTTTTATTGGTCCATTAA
+TAAATGACTGGAGAGGTAAAGATATCTGGCTAGAAGCCCCATTTTTTTACAAGCACAAAA
+GATGTGGCTTAATGAAGCAATTAAAAATTCTTTCATATCCCAGGGCTGTAATAATATTGG
+GAAAAAGTAAATGAACTACTAAAATGAAGAGACAACTGTAAATATAGAAAAAGACCAAGA
+AGCTTTAACTTCCATAAAAATAATGAGAAACGTAGGACAGAATTTCAAACAGTTGTCATT
+TTACAGAGCACCAGAACTGATAAATTTAAATATTTTCTCATCAAAATAGATATCTTGTTT
+TACAGAGGTGAAGGAAATATAAAACGGAGAAATTGTCCACAAAAGAGTCAGACAATAGGA
+CAGTATTATGTAACATCAGGGAATAACATTCAAAATAATTTTAATTGTAAGGAATATTAG
+GAATTATCTAATTATGAAATACTGATGTGATAAGACTATTTTGAAGATGTGAATGGCCTT
+ACAAGTTTGTGAAATAAAGTGCAAATGCTGAGAGTACCATCAACGCAGGGCACAGTCTTG
+GTTATCTTAGTATCCCTGGCACAATGCACAGATGTACTGTGTTGTACTTGTTCAATCATT
+CGTAATAAACTAACAGTGATGTACCAATAATTGGCAATAACAGTAATAAAAATAATTGGC
+CAGGTGCGGTGGCTCACACCACTTATCCCAGAACTTTGGGAGTCTCAGGCAGGTGGATCA
+CCTGAGGTCAGGAGTTCAAGACCAGCCTGGCAAACATGGCCAAACCCCATCTCTACGAAA
+AATAAAAATAAAAATAAAAAAATACAACAATTAGCCGTGCATAGTGGCACATGCCTGTAG
+TCCCAGCTACTTGGGAGGCTGAGGTGGGAGAATCACTTGAACCCAGGAGACAGAGGTTGC
+AGTGAGCCAAGATCATGCCACTGCATTCCAGCCTGGGCGACAGACTAAGACCCTTGTCTC
+ATTAAATAAATAAATAAATAAATAAATAAATAAATAAATAAAATGGAAAGAATGGGTTTA
+TCAGGAAACTCCTTGACAAAGCCAAGTTGAAGGATAAAGTTCAGTGGTAGATTTCACTAC
+GCTGATAACAACAAAATATACCTCTAAAACTCTTACCTTCTTTGCATTTCCACCTTTCCT
+GCCCAGTGTGTGTCTCATGCTTATACCACACAGCCCAGAGCATTCAATATCATGGTCTAA
+CTTCTTATCTCCTAGATCCTGGGAGCTTAGGGTAGCTACAAATAAAAATCTTATGGTGGT
+ACAACTTAGCTGAGACCTCAGAACAATCTGTAAAAATGTAACTTCACTTTTTTCAAATTC
+TTTCATCTCTCATGATTTTCCTAAAGCTCCCTATTCTTTACTGTTCTCAGTGCACTCACT
+ATACAAACAAATCCTCTACACTATCAGTGAATATTTGTCCCCGACTTTGTATGAGTTCTG
+CTTAGCCATTAGGCATGACCTCTTCCCACATTCACCCTGCCAAAGACAAATTGTGTATAT
+AAGCATGTAAAGCTAAACCTTGGCATAACATTAGTCCTAGAAAATCTTTGTATTCAAAAG
+AAACCCAATTTTTACCGCAAAAGCATTGAAGAAGAATGAGACTCAATACTGAATTTTATA
+GAGGAAATATTAACAGAATTCAACAAATAGCAAGGCTTCCAAAAACTTATCCAAATTCCC
+ACTTATCATTACGTCTACTGTCCCCAAACTGCTTTTGTCTGGTTCTCTAAAAAAATTTTA
+GTCTGTAGTTTCCTCCTGTGGACGCATTAAGACTATCTGTCTTAGAGGAGCACCATGCCT
+TAAACTATGTAACTCAATTTCTCTGGCAGAGAGCTCTTCCAACCTGCAACAAAGTTTCTC
+CCAGGTGAGCCAGGGAGTAAACAAAGGCAGTACTTGAATGGAATGAGAATAGCGAGATGT
+TATGTCGCTTACTTCGTGTGAGTTCTGCTCGGCCATTTATGTTTCTATATCCACGCTTAT
+CTTTGCCTTCTCTCCTCTGGTTGTGAAGGACAATTATGCGAGCTCCATTTAACCAATTGC
+ACTGTCTATTCCTTTGACCACATGCCCTTCTTCTCTAAGGAATTCTCTATCAGGACTTCT
+TTATTCTACCCCAGAATATTCTGGATACAGTGATAGAAGGGAGAAATCCTGAGAGAGATA
+TATATATATGTCATATATATGTATGTGACAAATAGGCACATGAAAATATGCTCAACATCA
+ATAGTTATTACAAAATGCAAATTAAAACCACCATCAAATTTTATTGCACACTCATTAGAG
+TGGCTAAAACTAAAATGACTGACCACAATAAGTATTGGGGAAGATGTGGAGGAACTAGAA
+CTCTTATCTACTGCTGGTGGGAATATAAAGTGGAACATTTCGGCAGCTTCTTAAAAAGTT
+TAACATACACTTTTTGTATGATCAAGTCATTCTGTACTTAGGTAATTAGACCAGATAAAT
+AAATGTGTATGTATCCATAAGAAGATTCATACAGGAGCATTCATAGAGTCTTTACATATG
+ATAGTCCAAACTCAAATGTTCATCAACAGGTAATCAGATAAACAAACTATGCTACTCAGT
+ACTACAAAAAGAAATTAACCATAAGCACATGCTATAGTATTTGTAGATAAATCCCCAAAT
+ACCATGCTGAATAAAAGAAACCATACCAAAAAGGACTGCATACTGTGTAATTCCATTCAT
+ATAAATTTTCTAGAAATGAAAACTAGTCTCTCGTGATAGAAAACAAGTCAGTTGTTGCCT
+GGGGGTATCAGACAAGAAGAAGAAGGGAAGAATTACAAAAGGCCAGGAGGAAATTTTTTT
+TAATTTTTATTTTAAGTTCAGGGGTACAGGTACAGGTTTGTTATACAGGTGAAGTTGTGT
+CATGGGGGTTTGTGGTACAGATTATTTTATCACCCAGGTTTTAAGTCTAATACTCATTAG
+TTATTTTCCCTAATCCTCTCCTTCCTCCCACCCTTTACCCCAGAGTAGGCCCCAGTGTGT
+GTTGTTCCACTCTATGTATCCATGTTCACATAATTTAGCTCCCACTTGTAAGTAAGAATA
+TGTGGTATTTGGTTTTCTGTTGCAGCAGTAGTTTGCTAATGATAATGGCCTCCAGCTCCA
+TCCATGTTCCTTCAAAGAACAGGATGTCATTATTTTTTATGGCTGCATAGTATTCCATGG
+TGTATATGAACCACATTTTCTTAATCCAGTCTATTATTAATGGACATTTGGGTTGGTTCT
+AAGTCTTTGGTATTGTGAATAGTGCTGCAATAAACATACGTGTGCATATGTCTTTATGAA
+AAAACAATTTATATTCCTTTGGGTCATGGGATTGCTGGGTCAAATGATATTTCTGTTTTT
+AGGTCTTTGAGGAATTGCCACACTGTCTCCCACAATGGTTGAACTAATTTACATTCCACC
+AACAGTGTATAAGCTTTCCTTTTTTTCCACAACCTTTCCCACATCTGTTATTTTTTGACT
+TTTAAATAATAGCCATTCTGACTGGTGTGAGATGGTAACTTATTGTGGTTTTGGTTTGCA
+TTTCTCTAATGATCAGTGATGAACTTTATTTTATTTTATTTTCTTATACTTTTTTTTCAT
+TCTCAGCAAACTAACACAAGAACAGAAAACCAAACACTGCATGTTCTCACTCATAAGTGG
+GAGTTGAACAATGAGAACACACGGACACAGAGAGGGGAACATCACACACTAGGGCCTGCC
+GGGAGGTGGGGGGCTAGGGGAGGGATAGCATTAGGAGAAATGCTTAATGTAGATGATGAG
+TTGATGGGTGCAGCAAACCACCATGGCACATTTATACCTATGTAACAAACCTGCACGTTC
+TGCACATGTACCCCAGAACTTGAAGTATAATTTAAAAACAAATCAGAAATAAAATACATT
+CTGATAATTAGGGAGAGACTGACAATATAATGAGATTGTGGTAGGGTGTACCATGCAAAG
+GCAACTGAGCTGGTTATAGAATTTTAGGATGGATACAGGAAATAAAAGAGAAAGAGAGAC
+ACAGAGAGAGACTGAGAAATAAACAGTTAGTCAATGGTAAAAACGTAATGCCTAAATCTC
+CTTTAGAACAACTTAAAAGTATATCAAACTTGAAGTTAAAGAAAAAACTTAAGTCAATAA
+AAAAGAATGATGTTAGGTGACTTCTAATGCCAACAGAGTTTGTGAATCTCTAAGCAATAT
+GCTTAAACTGAGCTCAGGGAGTCCAGAGATAAGGGACTGATTTCATGTGTTTGGGTACTT
+TGCTTTATCTTTGGTTTAAAGGAGTATAATTTTGGCATGCATTTAAAGTAGACAAAATAT
+ATGTAGCCATGTAAGCTTACAAAATAATACATTTGTTAAAAAGCATGCCATGCCCTTTGC
+TTGGCAAAAGGCACGAATACAGGCCTAAAAATCAGCTAATAATGACTTAAAATTCAGGTC
+ATTAATATCAGTAAAAACTCCACAACTCCGGGAGTCTTGAAAATTCTTTTACTCTTTCTC
+AATCAATTTGTATTCTTACTTGTTTACTATGACTATTTCAATGACTTCAATGTTTTATTA
+TAGGATGAGGTTTTGACTAAGCTTTGAGAGTATGTAAATGAATAAAACTTATTTCATAAC
+TACATTTTAGAAGATAAAAAAGAACTATTAGTACCTACTATTCCCATATGTTTTTCAGCT
+AAATTTAACCCAGTCTTAGATGAGGCTTACTTAGGACAGTATAGCTATGTGTGTATAGCA
+ATGTAATCAGTTACAGAGATAAATCTATTTTACAAATAGAGTGATACTAGCAGTTATGTG
+GACTGCAGCAGAATTACAAAAGGATGAGTAAAATTATGTGTCAGAGGCAGCCGGGCACAG
+TGGCTCCCGCCTGTAATCCAAGCACTTTGGGAGGCCAAGGTGGGCAGATCACCTGAGATC
+GGGAGTTTGAGACCAGCCTGACCAACAGGGAGAAATCCTGTCTCTACTGAAAATACAAAA
+TTAGCCAGGTGTGGTGGTGCAGACCTGTAATCCCAGCTACTCGGGAGGCTGAACCCAAGG
+GAGAATCACTTGAACCCGGGAGGTGGAGGTTGCAGTGAGCTGAGATTGTGCCATTGCACT
+CCAGCCTGGGCAACAAGAGCAAAACTCCATCTCAAAAAAAAAAAAAATGTGTCAGAGGCT
+ATTTTATAGCTAGAAGGTAATGTTTCCAAATATGTTATACATTAATCCTAACAGCAATGA
+GAAAGAAAAAATATAGCAGAGACAGTGTTGGTTTGCTTTTTTTTAAGAGAGAGGGGGGTA
+TCACTATGTTGTCCAGGCTGGACTCAAACTCTCGAACTCAAGCAATCCTCCCACCTCTGC
+CTCCATAGTGACTGAGACTACAGGCATGCACCACCACTCCAGGACTGCTAATGTTTTCAT
+CCAATATCCATTTTCTCTGTCTTTCATACTTATAAAGCTTCGATTCTATTCTGAGCAAAG
+GGCTACATTTCATAGCCTCCTTTGCAAATAGATTTGTCAATGTGATGTAAGGGGGCATCT
+TTTAACGTTGACATGAACCATCCCAGGCTAGAGATAAGCCCTTTTACCTTTCCTTCTTAC
+CATGTCCTTCTTTTTCTTGCCTCAAACACAGACATGATTACAGGAACTATGGCAGGCATT
+ACAGGCCCTAAGGAGAACTTGAAACCTACAGGATTACAGATGCCAAAGCAGAAAGCTAGA
+AGGAACATGCCTTCCTGATGACTGTGGTGTTAGTATACTTCTAGATCTTCTTTTATGAGT
+AGGATATAAAGCCTCTAACTTATTTGAGATTAATATTGAGGCTTTGTTTTATATATGGTA
+AATTTAATCCCGAAAGCACACATACAGGAATAGAATAGTAAGCTCAGGTTAAGAGTCAAG
+AAATGGGCCTAACAAGAGTAGGAGGTAAGACATTAGCATTGTCACTTACAAGTATGGTCA
+CAAAGGCATTTTCAGCCTTTCTTATGCAATTATAACCTTTAATTTAACATGGTCTTGGAC
+TTGTTGAATATATGGCCTTCAAACATATAATTCTACTATTGACTTCCTTAATGGAATCAA
+ATCAATTATTCAAAGGAGAACAACTAAAATTTTTTTTTGTAAAAAATCAAAGATTGGACT
+GCTCTCAATGCAACCTGGATTCAGGGACTAAGATCTCAGAGAAGAGAAAAGCACATTCAG
+GTAAGATTGACATGGTGCACTCTACCTTTCCCTTTGAGACATTTGTTTCCCTGAGCCGAG
+TGGATTAATATCAAGTAGAATGCAAGGAGTAAAAGATTAGGTTACAGAGGTCACTTTTCA
+GAAATCTTTTTGATGGAAAAACCAGAACTGAGTTTCAGGGCAGGCCAAGTAAGAGGGTCC
+CTTGCAACCACCCCAGAGATTCAGTTGGAGCCTCTTAGGAATAAAAACCTGGAAACAGTA
+CAACTCTCCCCAAGACTGAAAAAACTGAGTTCAAAATCAACTCAAGCCAGACTAGATTAA
+GGTAATCTACATCAAGGTGAACTCAATGCCTTTTTGAGAAATTAAAGAAGATTTAAATTA
+ACAAAGGGATAAACTATATTCATGGATTGCAAGAATCAATAATGTGAAGATATTTGTTAT
+TCCCAAACTGATCTGTAGACTGAATGTGATCCCAATCAACATCTCAGTGGATTTTTTGTG
+AAAAGCAACAACTACTTGCAAAATTCATATGGAAATGTTAAAAATTAAGAATAGGCAAGA
+TGACCTAGACAAAGAATAAATCTGGAGTAGTAGAGATATGGTAATGAGAAAAGCAATTAC
+ATACCTGCACCTACAGGGCTACTGTCTATGGGAACACCAGAATTTGAGCATAAGGTTTTT
+TTTCGAAAGAAATAATATAGGGCATCTAGGAAACTCAACCTAATCTAGAGAGCTTCCCCT
+AGAAAGTGACCTCTAAGCTGAGACCTCAAGGACGAACAATAGCAAGCTAGGTGAGTAGGA
+GTATCAAGAGTATTCTAAGAGGGGGAAGAGTTGGTAAGAATTCTTAGAGAAAGAGAAGGT
+TTATCAGGTAGCGAGGGCAGTGGGAGTTGACATGAGGATTGCATTAGGATGAATACGGAT
+AAATGTGTAGGGGCTAAAACTTGGAAGGCATTTAGAGGGCATATTAAGGAATTTGTTTTA
+AAGGTTATTTTCTCCCAGGGAATAGAAAGATAAGAGTTGCATTACCAAAGGCTTCAAAAT
+ATTATTCTATATGTACCGGAAAGGATGAAGTGTGGAATTTGGGAGAGTAGCAAGGTAGAT
+CTTCTCACTAAAGTCCAGGAAAGAAGTGTCATTGGTTTAAAACATTGTAGTAGGGCCAGG
+TGCGGTGGCTCACGCCTGTAATCCCAACCCTTTGGGAGGCCAACATGGGCGGATCACTTG
+AGGTCAGGAGTTCGAGACCAGCCTGGTCAAGAGGGTGAAACCCCATCTCTACTAAAAATA
+CAAAAATTAGCCAGGTATGGTAGTGGGTGCCTATAATCCCAGCTACTCAGGAGACTGAGG
+CAGGAGAATCGCTTGAACCCAGGAGATGGAGGCTGCAGTGAGCCAAGATTGGGCCACTGC
+ACTCTAGCCTGGGTGACAGAGCAAGACTGTGTCTCCAAAATTAATAGTAATCATATAAGT
+AATAAATAAATAAATAAAATGTAGAAGTAGAAGTAGAGAAGAGCGGATGCAATTGAGGAA
+TTAATCCAATGACCGACTAAGGAGGCAGGAGGCAGTGCACTAGGCAAATAAAATGCTCGT
+GCCAGACGATATACAGTGCTAATAAATGTTGCTATGTATTTATTAAATTTTTGGGGAGAG
+GATTATTGATTTATAAAATTTTGGAATACTAGAGAAGAAGGAAAGGAAGGAAAGAAAAGA
+AGGAAAGGAAGGAAAGAAAAGAAGGGAAGGAAGAAAGGAAGAAAGATAAGAATGATGGAG
+GGAGGGAGGGAGAAAGAAAATTCAGAACCCCAAAATGTCTGTCAGTGAAAATAAAAAAAG
+AGAGAGAGAGAAAAGAAGAAGATGAGGAGGAAAGAAAACTCTAAAACTGAAAACCAAAAG
+AAAGTTTTATATAAATAGAGACTGAAACAGTAATAGAAGTTTATGTTGTAGGTCAAAATG
+CAGTCTCCCGCTGTCTAGGAAAGCCTGTAGGTCATTTTTGCACAATCCACATGGTAAATG
+GCTCTGGGAGCATCAGCCAACATAGTTAATGATATGTAATTAAGTCTTAATTCCAAGCAT
+TAATAATTCAACAGATAATCAAGAAAATATATATAAACTTTTTAAATTAATTATGTAGCA
+TTTTATCAGTACATTCAATTTCTAAATTATGTATTTCTTCCTTTGGCAACTGTTAAAATT
+ATTTTGTGTTCGTGGGCACATGTTCTCCAGAACACACAAACTAGGTAGGATGGTAAGCAG
+GAAATTCTTGAGTTGAAATTGTACCACAGATAATACAAAGTAAATGCAATACATGTTTTA
+AAAATTTATATAATATAAAACAATGGCCAGGCGCAGTGGCTCAAGCCTGTAATCCCAGTA
+CTTTGGGAGGCCGAGGCAGGCGGATCGCCTGAGGTCAGGAGTTGGAGACTAGCCTGGCCA
+ACAAGATGAAACCCTGTTTCTACTAAAAATACGAAAAATTAGCCGGGCATGGTGGTGCAG
+CCTGTAGTCCCAGCTACTTGGGAGGCTGAGGCAGGAGAATCGCTTGAACCCGGGAGGCGG
+AGGTTGCAGTGGGCGGAGATCATGCCAGCTTAGGCGACAGAGTGAGACTGGACATAATAA
+CAATAATAATAAAAATAAATAAATAAAACAATTATCTGAGAGGAAAAATTTGATTCATAA
+TAAAGAGAATAAAGGTTTTTGGCGTGTTTGTTTTGTTTTCACCTAAGAACAGCTGTTCCC
+CTCATTGGGTTAGTTTTATTTGCAAGCAGAAATCATCTCCGCATGATTTCCAGGGTGATG
+GAAAACTGAATATGAATCCACCTTCTGCCATCTATTCACTTGTCACATTTAATAAGACAC
+TCATGCCTATTTTAGCATGTTTTCTTCCCTACCAAATGAGTTAGTAACATCAAGAGATTA
+AAATAACACAAATAAGAACATTGAAGGTATTCAAATGTTACATACAAATATTAAACACAA
+TATTATTATAATTATTCCTGGAAATGACATTGCCTCTACTCTCAAGGTAAAGGTCATTTT
+TCTTGATTTAAACTTTTTTCTCAAGTTTGAAATCTCTAAGTTTCAACCCGTAATCTATTT
+GCAAGTTTGTGCAAATTTTAGGGATTGAATCCATAGTAATTAGTGATTTATTGTGGTGTA
+GGGAGACAAGTCAAAAGAATCAGGACTGCTAGGTAGATGACTAAGGAAAGGATGGTTCAC
+GAGGTGACATAAAGCACTCAGAAGAAAAAGGTCAGGAAACGGAGGACAGAAAAAAACCTA
+AGTTCTGCTGGGTGATGCTGAATTTGTCATCACAAAATCTGCATTGTGGAAGCTTTAGCT
+ATTGAGGAGATTGCTCAAGTGTAGAACTGAGAACAATAGGCAGTGAACCCGAGAGAACAT
+CAAGAGACTGAGAGAAAATGAACCAGACTTCCAGGTGCTCCATGTTCCAACCAACATTTT
+GTATTGTCAGAAGGAATTGAGAGGCAAAAGGAAACCCAATAAAAAATAAAACAGGAAAGG
+GCATACATGATTACCACCCCTTTTCTCACCAGCTGCTCATGGACCAGCTTTCTCCTAGTG
+CTATTTTCTTGGTCACTGCATCACTCTGCTAACATAGTTTCCCCACTAGCTCTGAGGCTG
+TCCCAGAGGGGAAGCCAGCTGTCATCTCCTTCTTCCACACTCTGTTGGAGGAACCTGTCA
+TTAGCAGCTCCCTACTAAACGCATTTATGACAAACAGGCAGGAGATAATTAACTAGAAAG
+TGAACAAACTCAAACTTCAGAGCCTCTCATTTGTATGAATGCCCTTGTAAGGTCTTGGGC
+CTATTTTAATATTTATAAATGTGTTATTTTCTTCTAAAGAAAACCACCAAATTGTATAAG
+CTACAGAATCTGCAAAACTGAGGTCCATCCATGCACTCAGGATACATTCATAGCATCTCT
+GAGCTGGAAAATATCTTAAAGGTCATATATGTCCTCCAACACTGCAAGAATCTCTCTGGC
+AGCATTCTTTTAAAATCATCATCTAAAAGAGGGAAATCCCCAGCTGTGTTTGGATTTTGC
+TCTGTCACTTGTCCAGTTTCCCCATCCATAAAAGGGCAACAATATGAATTTCCTGATAAG
+GTAGTTGTTAATATAAATACAAAGTGCGTAGCCACTTCCCTAAGAAAAATATGGGGTTTC
+TGCTTCACAGTCTAGGGAGAGGAAAAAAAAGGGGGGTCAGAAGTGATTATTATTATCATT
+CTATATTGGAATGTTTTCAGACATAAAAAGCTCACCACGTCTTAGGCCAGACAGATGCAT
+TATGAAAGTTAAGCTAAGTCTTCCTCATCATGAGCTGCACCTATATCCCCATTACTTCTT
+CTAGAACTGCATAATTTATTTATTCTTTCTTCAAAAGTTTGAGAGAGCCATTCTTGTCCT
+CTAAGATTTTTTTTTTTTTTTTTGGAGACAGAGTCTCCGTCTGTTGCCCAGGCTGGAGTG
+CAATGGCACTATCTCAGCTCACTGCAACCTCTGCCTCCCAGATTCAAGTGATTCTCCTGC
+CTCAGCCTCCCGAGTAGCTGGGATTACAAGCACGCACCACCACAACCAGCTAATTTTTCG
+TATTTTTTAGTAGAGACGAGGTTTTACCATGTTGGCCAGGCTGGTCTTGAACTCCTGACC
+TCGGGTGATCCACCCACCTCAGCCTCCCAAAATGTGGGGATTACAGGTGTGAGCCACTGC
+ACCCGGCCATCTTCTAAGACTTCTATGGAGAGCTACATCCTTTAACTATTGATTGATGTC
+TTAGTATCCCTAGAGCACCACCTAGTATCTGGCATTTAGCAAAGTCCAAAGAGTGGTTTC
+AAGTAAGCAAGTAAAGAGATTCATGAAAGAATAAGTGTTTTTCAATCAATCACTTTATCC
+TTAAATCTGGTAGGTTAACTCAGAAGAATGAAAATAGAGTACTAAGGCATTATTACTTCC
+TGTAATCTGTTTACTGTTTAGTCCCTCAATGGGAAGAAAGTTTTCTAACAAATAACTCCA
+AGTTTTGGTTCAATAAACTTTGCAAAACCAGATATCCACATTCTTGAGAGCAGGAATTTG
+ATGTTCCTTAAGTTTCAGTTCTCCATCATGTCTGGGCCCTAGTACTTTGTATCTAATACT
+CAATATACAATTTGGAAAATCTGAGGTATAATAAACACACAGTAATGCACACACATTTTA
+AGTGTGCAGTTTGATGGATTTTTACATATCAATTTATTTTAGTAACTACCACTTAGCTCA
+AGATAGAACATTACCATCACCCCATGTATTTTTATTTCCCCATTTTTGTAAATACTCTCT
+TCACTCTCTTCTAACCAAGTAACTCTCTAACACCATAAATTAGTTTCCTCTGTTATTGAC
+TGATTTGATGGCTGCTAAGATTAAAATAAAAGTGTGGGTTTATATCTGGACTTTCTATTA
+TTTTCCATTGGTCTATTTTACTTTCATTCTGACAATACCATAATATCTTGATTTCTGTAG
+CCTTATAATAAGTTTGGAAATCTGATAGTAAGTCTAAACATCCAATTTTATTCTTCAATA
+ATGTTTTATCTTGGTTCCTCGTATATACATAAAAATTTCAGAATCAGCTTATTAATTTAC
+ACACACACACACAGCCATTTATATTTAATGTAATGAATAACACAGTTGAGTTTTAAATTT
+ACTATCTTATTATCATTTTCTCTTTGCCCTATCTGTTCTTTGTTCATTAATTCCTCTTTT
+CCTGCATTCTTTTACCTCAGTCAGGTATGGTTTATAATTCAATTTTATTTTCTGTATTAC
+CTTTTTTGTTGTGCGTTTTGATGTCATTCTTTCATTGGTTACACTTAAAACATCATCCTT
+AACACTGTTACCTTAAATTATCAAACGCAAGGATCTTATATTTATCCTTTTAAGGCTGTT
+ATTCTATATTTGACTTTAATAAACAGTATAAGCCCCACAAGATACTCTTATTCTTTATGT
+GTCAAACAGTTAGTCTTTTATAAATTCTCAATCATTTACCCTTTCTGGGGCTGTTTATTC
+TTGCTTACATTTCTGTGATTCAATGTGAGACTATGTCCCTTCAGCTTGAAGAATAACCCT
+GAGTAAATTCTGTAGTTTATAGTCAGCTAACAATGAAGTCTCTCAGTTTTTGTCAGTCTA
+AATCTTTTTCATTTTTCGATTCTTTTCAATGGACACAGAATTCTGGTTTGATAGTTTTTA
+TTTGTTTCTTTCTGTACCTGAAATATATTTATTATCTTCTACCTTCCATGATATTTCTGC
+TGAAATCAATGTTCATTTATATTGTTCCCCCAAAGGTGATTTTTTTAAACCTCTGGTTGT
+TTTTAAATTTTCTTTTTCGTCTTTCAGCAATTTGACTCTCATAGGCCTAGATGGGGTTTT
+CTTTGCCTGGGGTTCATTGAGCTTCTTGAATTTCTTGGTTGATATCTGTATTAGTTCATT
+TTCATGCTGCTGATAAAAACATGCCCGAGACTGGGCAATTTGCAAAAGAAAGAGGTTTAT
+TGGACTTACTTCCACGTAGCTGGGGAGGCCTCACAATCATGGTGGAAAGTAAAGGGCACA
+TCTCACATGGCAACAGACAAGAGAAGAGAGCTTGTGCAGGGAAATTCCCATTATTAAAAC
+CATCAGATCTCATGAGACTTATTCACTGTCATGAGAACAGTACGGGAAAGACCTACATGA
+TTCAATTATCTCCCTCCCACAACATGTGGGAATTATGGGAGCTACAAGATGAGATTTCGA
+TGTGGACAAAGCCAAACCATATCAATACCTTTCGAGTTCTTCACCATGATTTTTTCAAAT
+GTTGTTTCTGCTAGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTTCTTTCTGC
+TCTCTCTGGATATTTTCTATTGATTTCTATATGAGACCATCAGTTTATTTGTGTAGTATC
+CAGGTGGTTTTTAAACCTATGTAATTACTTCTTGATTTAGCAATTCAACAAAGTTCATTT
+TATTATTTTTATGAAACCTAATATCCTGCTGAAATGCTCTGTTTTTTAATCCATTTTGCC
+CATCTCCACGGTAGTTCATGGTTATTTAAAAGCCCTTGCCTATTAGTTCCAAAATCTGTG
+TCATTTCTTGAGCTCTATTGACTGTATTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCT
+TTCTTTCTTTCTTTCTTTCTCTCTTTCTTTCTTTCTTTTTTTGCCATCAGGTACTCTTTT
+CTGCTTCTTTGCATGTCTGGTAAGTTTTGATTGCATGCAGCATTTGTAGAAATTTTAGCT
+TATGTTTTCTTCCTCTCATAAACTTTGAGTTGTGTTCTAGCAGGTGGTTAAATCATTGGT
+AGATCACCCTAACCCTACAGAAGCCTAGTTTTTGCTTCGTTCAGTCAAATCTATTTCAGT
+TTATTCTTTCTCTTAGGACATCATCCTTCTATCTAAGGAGTATCCTTCAAGGGTTTCATC
+CTAATGCCTGAGGTGTTCACCAAAGTCTTTCCATTCTGACTGGAACCGAACTCCAACATC
+TCCTCAGAATTGTGTGATCTCTAAAATGTCCACTCAAATTTCAGCCTCTCTGCCACTGCA
+CTGTATCTGTCAGGTCTCTAGAATAATGCCTCTGGACACATGCAGCCTAGCAATTCAGCT
+AACGAACTGAGAGGAATTGCCACACAGACTTCCGGTGCTGCCTCTTGGTACTCACCTCTC
+TGTCACCTTGCTTACCTCCAGAAACCTTAGTTACTTTATATAGCTCCAAGCTCTTGAGCT
+ATATGCCCTCTGCTCAGTGAAACTGCAGCTCTCTGCTTATTCTCAACCTCCCAAAACTTC
+TGCTGAAAAAAATATCCCCTGAGGAAAAATAATCCATGGGAATGGGCTCATTCCATGTGC
+CTCCAGTTACCCCAAATTGCAGCACTATGTTGGTTATGGTTCAGAAGTAAAAAATGTTTG
+ATATAGTTTTTCCAGGTTTTATAGCTATTTTATGGTAGAAAGGCAAGTGAGTGCTATTAG
+CTAATTGTCCAGAACCAGAGTCTCATTTCATAACTGCATAAATCCTTTGCTTATCTTGTG
+TATTTTTTTAAACAAACCTAAAATGCAGGATTTCTAAGTATTTTCCAGTTCTAGCTGATT
+TCCTTCATTTTAGATGAAAATCCAAAGGTAAATACTCTTTGGTTTCTGATTTTTGGCATC
+TTGTAAATAAGCATTGCCTCCAGTTTGGTTCATTCTCAGATCTATTAAGTATCCCATTTA
+TATTTTCCTCTGAAATATAATTTGATAAATCTGCTGAATGATCGGGCACCAAGGTCAGGA
+CCAATACCTTATTCAAGCCCAGCATGAATCCACTTACCAAGAAACTGGAGGCAACTCTGT
+CTAAACTGTAATTTGTTTGATACAAACATGCCATCTACATTTACCTTGTCCATAATGATA
+ATGGGAAGGTTAGCTGAAATCAGGAAATACTGTATTATGAGTTTAGTGACTATTTACAAG
+TGGAAATGAATTTAATCTGGTATGATTTATTTTACTAAATTGTAGTTGCTTCCTTTTCTT
+TTCTCACTAGTCACAAATGATTTATTTCAGTATCTTCTCCAGAACATTGCCAGAGGCCAG
+TCTCAAACTTAACCATTGTATACATACCAGAATATTTTCATTAAAAATTAATAACTTTTG
+TCTTTCTCTGAAAACTACATAATCACTACTTGTCCATTCTTTTGGTCCTTGCCTGTTCTT
+TATGGATCAATATTATCAAAGCTACTCCTGTTTCCACAGGCAAATAACAATTCTATGTAA
+TGGGAAAGATATTAAATCCGAATTCATGTTCCTCTTACTAGCTATATAATGGACAATTAA
+ATTATTCCTTTAAATTCCTTTCTCCTTTAGTACACAAGGATAAAATACTCATTTGATTGT
+TTTAAAGATTAAAGAAGTATCTGAAAGTAACTGTTATATTTTCTTCTGAGAGGTATCCCA
+ATAAAAAGGCTACAATATTGTTATTATTATTACTATTCTAGTATCCTGGATGCAATTTAC
+CTAAGCCTAGATATTTTAATTAATTTAAGTAGCCACATGCTTTCTCACTAGCTATTTTCC
+CAGCATGATCTCAATCTTTTCTACGCAAAGTTTAGTCTCTTCTCTCCTAAAGATTGTTCT
+ACCTAGAGAAGAATATAGGTTCAGAAAGGAATTCATATACTGGTGTTTCTCTAATCTCTT
+AGAATTACTTAATTTTTCAAAGAGCTCTATCTTTTCCTATTTATCTTCTTGTTCCAAATA
+GAATTAAAATCATTTGCTGCCTTTAATATTGTTAAATATTTCATTTCATACTATGCTTCA
+ATTTCTTGCTTTTTTCTTCTTTTTATCTTCCTCCTTCCTTCCTTTTTCTTTCTTTTCTTC
+TTTTTCAGTTATCATTGTTATGCTTGTCCTTTCTTGTGAGATTCCTCTGTTATCTTTCCT
+TATGTGCTTTTTAAACAAAACCTCGAGAGTGCCGTGGGACAGCCTCATTGGTATCTTTTC
+AAATTTGGTATCTCTCCACTTTTTCCTTACATAGTTAGCTGGCAGTAGTACATAATAACC
+TTTTCTGTCTCTCTCTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTTCTTA
+GATTTTCATTCCTCTTGAGCTTTAAAAGACTGGCTAGCAATGTTATATCTTTCATTTTAT
+TTTCTGATTTAAAAAAGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGT
+ACGCGCGCGCGCGCGCGCGTGCACGTCAGTGTCTTCTTCATGGATGCTTGTCTTATTTTC
+TCCCAAGGTGTAACTGTCCAGGGAGGGAAAAGTCAAGTCGTCCTCTATTACACTGCTCTG
+CAGAAACAGACTCACTAAATGTCAAAAAGTAGATGCATCAGACTGTTCCTTAGAGAAAGG
+TTTGCCATGGAGTCGTATATTGTAACTGAGCTGAAGTTCACTCATCGATAAGTTGTGCCC
+AAGGAATCGAATTCCTTCCAGTCCTTCTAAGCAGTCCAGGGAAACCAATTTAAAAGCGAA
+CACAACAAAACTAACAGACCGGCAAAATCTATCTTTGAAGCGCCGCGGGAGGCACAATTT
+GGGAACAGGTGAGGCCATGCTGGGTGGGTGAGGCCCCCCTCTCTCCTGCTTGGTGTTCCG
+CTTTCAGCCAACCCACCCCAGGAGTACCCTGGGATCTCCTCGCCCCCTGCCAGGCGGAGA
+ACGCGGAGCCCAGCGGGCACGCGGGAATGGAGCTAGGCGCCGGCAGGGCAACTGGGCATG
+CTCAGAAGCCGGGCAGGTTTTGGTCTCAAGCACGCAGCCTGTGCATTACACCAGCTCTCT
+CAGTCCGGGGAGGAGGAGGAGCAGGAGGAACGCGAGGAGGAAGGAGAGGAGGAGCGGCCA
+GCAGTAGCCACGACCGCCACCACCAGGCAGAGGAAGAGTTCGTGGGGAGGAAAAGACCTC
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.hmm
new file mode 100755
index 0000000..0dcfa22
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.hmm
@@ -0,0 +1,285 @@
+HMMER3/f [3.1b1 | May 2013]
+NAME  fn3
+ACC   PF00041.13
+DESC  Fibronectin type III domain
+LENG  86
+ALPH  amino
+RF    no
+MM    no
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Fri Jun 20 08:22:31 2014
+NSEQ  106
+EFFN  11.415833
+CKSUM 3564431818
+GA    8.00 7.20
+TC    8.00 7.20
+NC    7.90 7.90
+STATS LOCAL MSV       -9.4043  0.71847
+STATS LOCAL VITERBI   -9.7737  0.71847
+STATS LOCAL FORWARD   -3.8341  0.71847
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.70330  4.91262  3.03272  2.64079  3.60307  2.84344  3.74204  3.07942  2.79841  2.65364  4.14864  2.95826  2.87120  3.02176  2.96125  2.44783  2.59757  2.57680  4.02726  3.21526
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.00000        *
+      1   3.16986  5.21447  4.52134  3.29953  4.34285  4.18764  4.30886  3.35801  3.70246  2.11675  4.32057  4.32984  0.76706  3.91880  4.22437  3.23552  3.21670  2.88223  5.80355  3.93889      1 p - - -
+          2.68629  4.42236  2.77530  2.73088  3.46365  2.40512  3.72505  3.29365  2.67737  2.69316  4.24701  2.90358  2.73734  3.18157  2.89812  2.37898  2.77517  2.98515  4.58488  3.61514
+          0.09796  2.38361  6.81068  0.10064  2.34607  0.48576  0.95510
+      2   2.70230  5.97353  2.24744  2.62947  5.31433  2.60356  4.43584  4.79731  3.17221  2.95090  5.01531  3.26630  2.09873  3.30219  3.34190  1.45782  3.14099  3.57507  6.40877  4.25623      3 s - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+      3   1.38116  5.98285  3.50784  2.54546  5.32790  3.48945  4.43311  4.81385  2.38773  3.98773  5.02352  3.27895  1.92260  2.69012  2.96119  2.64228  3.29228  3.29618  6.41555  4.20553      4 a - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+      4   3.32856  5.10403  4.47046  4.60386  4.23079  4.75438  5.09647  2.69918  4.46632  2.97102  4.23502  4.77984  0.63388  4.68581  3.76781  4.05413  3.46306  2.04533  5.75329  4.56372      5 P - - -
+          2.68616  4.42236  2.77530  2.73134  3.46365  2.40523  3.72505  3.29295  2.67751  2.69303  4.24634  2.90357  2.73739  3.18157  2.89783  2.37897  2.77530  2.98529  4.58488  3.61514
+          0.09682  2.39494  6.81068  0.10162  2.33687  0.48576  0.95510
+      5   2.95325  4.65976  3.57762  2.20709  3.14816  2.51487  3.41109  4.78902  2.65862  3.19599  4.41042  3.45032  3.44719  2.43205  2.26492  2.25400  2.23196  3.66828  4.80003  4.52485      7 e - - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01246  6.08833  4.59386  0.61958  0.77255  0.48576  0.95510
+      6   2.74215  5.97618  2.19482  2.69150  4.58171  2.33553  3.83525  3.28222  2.95080  3.32698  5.01691  1.45822  3.52462  2.79670  2.90942  3.13467  3.27956  4.36668  6.40902  3.92307      8 n - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00341  6.07928  6.80162  0.61958  0.77255  0.44282  1.02784
+      7   3.32507  4.98102  3.78072  3.31043  2.85257  4.76439  5.09585  2.50332  4.69760  1.03851  3.36125  4.91001  2.73206  4.83820  4.72389  4.07376  3.83146  1.59790  5.60385  4.42704      9 l - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03752  6.08833  3.36505  0.61958  0.77255  0.48576  0.95510
+      8   3.15997  4.90658  3.35204  2.72775  4.53493  3.60960  2.65074  3.69535  2.11078  4.01384  4.99896  3.14668  4.61695  2.40643  2.34723  1.92358  2.03982  3.05153  6.39127  4.98082     10 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00349  6.05430  6.77664  0.61958  0.77255  0.35749  1.20207
+      9   1.76295  3.98252  5.55061  4.93551  2.13202  3.39992  5.09294  2.14638  4.23898  2.23988  3.42109  4.92079  4.39252  3.70640  3.99349  3.50811  3.63432  1.47830  4.51148  4.41177     11 v - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     10   3.01387  4.98892  2.91217  2.42744  5.22342  4.00576  3.74074  2.67275  2.47618  2.92529  3.89570  3.36720  4.15809  3.26810  2.80854  1.81572  2.02040  2.77133  4.92415  4.31555     12 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     11   2.41247  5.98374  2.24093  2.04842  3.41543  2.59695  4.10033  4.81544  3.05501  4.28918  5.02429  2.22829  2.90635  3.12939  3.01921  2.37278  3.01194  3.02522  6.41619  3.66635     13 e - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06784  6.08833  2.75947  0.61958  0.77255  0.48576  0.95510
+     12   2.77725  4.36386  3.23435  2.92496  4.75140  4.31852  4.53101  1.91389  3.01135  2.51491  3.47932  2.97934  3.54432  2.88257  2.68923  3.07794  2.71169  1.80880  6.06849  4.75973     14 v - - E
+          2.68623  4.42259  2.77533  2.73059  3.46323  2.40500  3.72529  3.29333  2.67757  2.69369  4.24724  2.90364  2.73744  3.18108  2.89835  2.37891  2.77531  2.98493  4.58511  3.61510
+          0.22113  1.62346  6.74643  0.44471  1.02446  0.29166  1.37446
+     13   3.17575  5.97994  3.10322  2.84738  5.32369  2.00173  4.43389  4.80873  3.01150  3.75019  4.42663  2.23751  4.64014  2.74467  2.85546  1.99984  1.67133  4.36987  5.08444  3.58488     18 t - - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     14   2.14203  5.98483  2.53686  2.20884  5.33077  2.76253  3.61799  4.81737  2.91636  3.96256  5.02525  2.79307  2.44932  3.35978  3.34773  1.76758  2.51815  4.12754  4.53404  4.35768     19 s - - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02274  6.08833  3.90154  0.61958  0.77255  0.48576  0.95510
+     15   3.45984  5.96297  2.32904  2.98671  5.30486  3.14893  3.59992  3.68067  2.95954  4.26690  5.00447  2.01875  4.62814  3.51950  2.89162  1.97303  1.47565  3.87160  6.39755  3.59993     20 t - - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00344  6.06904  6.79138  0.61958  0.77255  0.40302  1.10352
+     16   2.82603  5.98256  2.96292  2.53617  4.39559  3.14388  4.09532  4.81336  2.59005  4.28779  5.02326  3.12547  4.63955  2.76620  3.03618  1.28432  2.14874  3.55065  4.82032  3.29405     21 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     17   2.29842  4.96481  5.56794  4.95172  2.45211  3.33868  4.31545  1.97312  4.73378  1.34355  2.88087  4.92903  5.12608  4.86259  4.73754  4.07438  3.55674  1.71344  5.58685  3.78328     22 l - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     18   2.99930  4.68496  3.44656  2.53427  3.92510  4.04338  3.13178  3.10095  3.07007  2.68343  3.58599  3.17010  4.15335  2.63450  2.71950  2.30083  2.03779  2.23518  4.92400  3.84991     23 t - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     19   3.61302  4.50726  5.99163  5.39935  2.74200  5.23506  5.61087  1.85210  5.20622  1.10188  3.56291  5.40353  5.56305  5.33364  5.22134  4.56441  3.85751  1.20867  6.05610  4.88933     24 l - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     20   2.90508  5.98486  3.37356  2.37027  5.33083  3.46854  3.40789  4.81743  2.65230  3.22177  4.17825  2.67373  4.63906  2.52648  2.39431  1.50547  2.16764  4.37598  5.01440  5.00552     25 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     21   5.54218  6.63564  6.83891  6.61797  2.57168  6.35073  5.30532  3.96643  6.37377  3.18917  5.26281  6.07009  4.35269  6.11992  6.21105  5.74680  5.75143  4.86346  0.24436  3.66807     26 W - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     22   3.10862  5.98423  2.61761  2.10221  4.46995  3.93009  3.84182  3.79843  2.19229  3.09373  4.47555  2.66452  4.06864  2.59255  2.99987  1.99073  2.05618  3.67318  6.41655  4.47364     27 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     23   2.05280  5.87614  3.77610  2.63103  5.17655  3.25143  3.55897  3.09279  2.68152  3.35866  4.92882  3.43937  1.44938  3.29932  2.98336  2.85751  2.78420  3.02863  4.43359  4.47040     28 p - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     24   2.65644  5.88726  3.37601  2.96202  5.19190  3.53629  4.46143  4.20046  2.87295  2.91429  4.93884  3.27084  1.07653  3.39095  3.69926  2.07705  3.29723  2.92337  6.34501  4.95985     29 p - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.32165  6.08833  1.29911  0.61958  0.77255  0.48576  0.95510
+     25   2.44244  5.77880  2.64467  2.21733  3.20572  3.66340  3.27861  4.60939  2.17717  2.95495  4.81953  3.17778  2.62084  2.96028  2.64039  2.55818  2.51134  3.52175  6.21164  4.20060     30 k - - S
+          2.68557  4.42278  2.77404  2.73101  3.46370  2.40555  3.72548  3.29364  2.67779  2.69337  4.24743  2.90378  2.73741  3.18051  2.89835  2.37928  2.77557  2.98526  4.58530  3.61392
+          1.12909  0.74203  1.60680  0.24883  1.51281  1.67198  0.20810
+     26   2.76497  5.64634  2.06362  2.44254  4.06108  3.91520  3.28362  3.73992  2.46695  3.95074  4.68755  2.93859  2.87257  2.71813  3.08100  2.16767  2.28242  3.00778  6.08028  4.00221     33 d - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00580  5.54941  6.27176  0.61958  0.77255  1.23854  0.34222
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68621  4.42251  2.77546  2.73149  3.46380  2.40468  3.72521  3.29380  2.67767  2.69252  4.24716  2.90344  2.73766  3.18134  2.89827  2.37913  2.77442  2.98545  4.58503  3.61529
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
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+          2.68622  4.42162  2.77539  2.73088  3.46349  2.40510  3.72514  3.29311  2.67761  2.69358  4.24710  2.90367  2.73759  3.18166  2.89753  2.37894  2.77488  2.98538  4.58497  3.61523
+          0.23969  1.55321  6.46298  0.15973  1.91309  0.51157  0.91517
+     58   2.78411  5.86726  3.65151  2.46190  3.55121  3.32277  3.71415  3.82816  2.87545  3.69015  4.27003  2.90512  3.60994  2.68731  2.37548  1.72361  1.95655  3.42914  6.30822  3.85760     87 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00384  5.96109  6.68344  0.61958  0.77255  0.21363  1.64843
+     59   2.13080  3.38910  5.56698  4.95075  2.41578  4.20194  3.39215  2.83299  4.73282  2.14660  3.19234  4.92810  5.12527  4.86169  4.18461  4.07348  3.03808  1.63705  4.66089  1.78369     88 v - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     60   3.12543  5.93769  2.99354  2.53954  5.26303  4.25659  3.21054  2.85212  2.62935  2.82513  3.45830  2.90110  4.19559  2.80624  3.10357  2.88568  1.50190  2.67316  6.38237  3.93622     89 t - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     61   3.61965  4.99402  3.63828  4.95783  2.26826  4.79135  5.12555  1.86647  4.74679  1.34194  3.74460  4.94944  5.15281  3.10559  4.75989  3.74420  3.85186  1.42486  5.61987  4.44474     90 l - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     62   3.10387  5.98366  3.06368  2.31445  4.05906  3.57903  3.48488  4.81531  2.43543  4.01680  3.91148  2.67498  2.99920  2.70828  2.56621  2.14984  1.90367  3.06274  4.55677  4.37671     91 t - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     63   3.34220  5.98744  1.86090  2.69096  5.33359  1.40608  3.63608  4.82043  2.48624  4.29318  4.45099  1.96888  4.06897  3.19339  3.48838  2.73868  3.70514  4.37867  6.41942  4.25681     92 g - - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     64   5.18530  6.36522  4.58586  6.57578  3.53131  6.59442  6.84537  2.81242  6.44067  0.21363  3.54046  6.78308  6.53953  6.19263  6.31583  5.99910  5.37457  3.39834  6.73440  5.83217     93 L - - -
+          2.68590  4.42227  2.77521  2.73125  3.46356  2.40515  3.72496  3.29356  2.67743  2.69357  4.24692  2.90349  2.73741  3.18148  2.89803  2.37889  2.77521  2.98520  4.58479  3.61505
+          0.02033  3.96193  6.81068  0.31431  1.31041  0.48576  0.95510
+     65   2.93361  5.98253  3.16620  2.07447  5.32745  3.84017  3.84639  3.52003  2.07989  2.71701  4.56317  3.05465  3.94228  2.39023  2.13660  2.81003  2.42767  2.98359  6.41531  3.87097     95 e - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     66   2.17452  5.85112  3.79178  2.44872  5.14174  4.27993  4.47388  4.59086  3.04069  4.13287  4.42378  3.36057  0.82761  3.31072  3.71538  3.13243  3.15654  3.97958  4.90439  4.38214     96 p - - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     67   2.72531  5.97666  2.50761  2.79752  4.22378  1.29966  2.70734  4.80294  2.85170  4.02964  5.01805  2.59981  4.64085  3.32835  3.25617  2.51345  3.59137  3.91820  4.88800  2.97800     97 g - - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     68   2.39925  4.86641  3.79312  2.74568  5.13568  4.27988  3.97435  3.95098  2.69562  3.65359  3.00813  3.38952  4.67180  3.12070  2.33490  2.43668  1.27713  2.90106  6.31421  4.93977     98 t - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     69   2.87821  5.98261  2.71299  2.05681  3.93787  3.36966  3.57296  3.81023  2.25993  3.03102  3.49917  2.39917  3.09415  2.62154  2.82818  2.67359  2.51409  3.67730  4.58228  5.00448     99 e - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     70   6.32206  7.09639  6.95855  7.01624  2.70399  6.62558  5.12529  5.84365  6.77161  4.03604  6.32463  4.32154  6.86163  6.30239  6.48747  6.05185  6.49899  5.81871  5.18730  0.14189    100 Y - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     71   3.06725  5.97020  3.56838  1.93769  4.23056  3.77167  3.39655  3.53252  2.56448  3.45405  4.47893  2.47898  4.64226  2.55695  2.74362  2.36648  2.01401  2.66399  6.40629  3.70776    101 e - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     72   3.19486  4.19171  5.58508  4.96942  1.44027  4.15574  5.11433  1.81297  4.75161  2.09873  3.37140  4.94615  5.14143  4.88008  4.75485  4.09123  3.83769  1.47173  5.60267  3.09551    102 f - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     73   3.18039  4.06436  3.15201  2.27681  5.32468  3.77041  3.95744  3.70705  2.23538  4.28548  4.11883  2.88564  4.63997  2.58030  1.70576  2.27707  2.39981  3.62914  4.03739  3.61343    103 r - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     74   3.76685  5.84337  6.79391  6.31497  3.84743  6.27452  6.95358  1.59565  6.25134  2.11498  4.30213  6.44619  6.46746  6.44080  6.36566  5.70153  4.90672  0.53161  7.20703  6.03175    104 V - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     75   2.31005  4.88319  3.40675  2.63903  3.58848  4.26911  3.49342  3.09105  2.39543  3.00463  4.93879  3.41670  4.66153  1.98639  2.22144  3.11070  2.61129  2.78609  6.34491  2.92043    105 q - - E
+          2.68621  4.42228  2.77522  2.73126  3.46357  2.40516  3.72497  3.29357  2.67744  2.69312  4.24693  2.90350  2.73743  3.18149  2.89804  2.37890  2.77522  2.98521  4.58480  3.61506
+          0.03738  3.58894  4.70319  0.25135  1.50394  0.48576  0.95510
+     76   0.79499  5.17226  4.80437  3.93376  4.33120  3.17569  4.96596  3.30029  4.15773  2.86829  4.32533  4.52823  5.01384  4.41886  4.42465  2.28661  2.19420  2.76335  5.81537  4.60940    107 a - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00340  6.08033  6.80268  0.61958  0.77255  0.44741  1.01966
+     77   2.84306  4.15407  4.98296  3.19564  3.23517  4.66606  3.67524  2.49603  3.23224  2.21212  3.84796  4.62630  5.03633  2.88555  2.43211  3.49088  3.22704  1.33993  5.67363  2.88123    108 v - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     78   3.27061  4.75060  2.81965  3.10410  5.31934  3.95942  3.99367  3.88107  2.62205  4.02823  5.01830  1.35628  3.08534  3.32913  3.08546  1.88067  2.21938  4.02145  6.41122  3.76470    109 n - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00992  6.08833  4.87890  0.61958  0.77255  0.48576  0.95510
+     79   2.39836  4.69624  2.57939  2.56364  4.72011  1.55094  3.74815  4.26504  2.61409  4.28517  5.02018  2.82673  4.26340  2.69971  2.87382  2.73983  2.53993  3.07568  6.41202  5.00074    110 g - - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00340  6.08180  6.80415  0.61958  0.77255  0.45398  1.00812
+     80   2.22211  4.94595  2.69424  2.44928  4.84552  2.32005  3.06335  2.95704  2.33976  3.55821  4.09648  2.87488  4.09930  2.85656  2.97877  3.08279  3.07714  2.39346  6.40553  4.01548    111 a - - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.38398  6.08833  1.15015  0.61958  0.77255  0.48576  0.95510
+     81   2.96920  5.43248  3.46409  2.76236  3.93019  1.02513  4.29951  4.07917  3.10833  3.39330  4.50784  3.40559  4.48149  3.45547  3.56956  2.50552  2.39680  3.76237  5.94228  3.01765    112 g - - E
+          2.68652  4.42259  2.77488  2.73144  3.46170  2.40466  3.72529  3.29388  2.67703  2.69373  4.24724  2.90335  2.73774  3.18162  2.89801  2.37895  2.77529  2.98552  4.58511  3.61537
+          0.29928  1.35852  6.43163  0.48724  0.95274  1.77816  0.18506
+     82   2.84273  4.18992  3.05053  2.12883  3.36284  2.75189  4.25559  3.03507  2.66396  2.65563  4.59024  2.63081  3.84786  2.76844  3.19058  2.84597  2.82776  2.89016  3.06821  3.41272    117 e - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00494  5.70928  6.43163  0.61958  0.77255  1.56406  0.23482
+     83   3.37920  5.61493  3.74277  3.20384  4.92800  1.01625  3.96683  4.35082  2.94708  2.91738  4.72998  3.71516  3.70329  3.52945  3.00683  1.61777  3.61882  4.00263  6.13360  4.80162    118 g - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00481  5.73459  6.45693  0.61958  0.77255  0.30535  1.33510
+     84   2.58463  5.93784  3.04102  2.09605  4.57465  2.51630  3.24109  4.26208  2.60545  3.44607  3.62705  3.20484  1.89678  2.68661  2.74662  2.97880  3.02092  3.23569  6.37074  4.50367    119 p - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00361  6.02233  6.74467  0.61958  0.77255  0.28862  1.38348
+     85   2.48488  5.72055  3.87501  1.97538  3.04853  3.48010  4.51877  3.51898  2.88839  2.73568  4.42660  3.64380  2.08811  3.48814  2.70856  2.40769  2.92982  4.05679  2.77386  3.43366    120 e - - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     86   3.03720  5.94099  3.75455  2.96917  5.26587  2.91682  3.66571  4.11840  2.98472  4.23738  4.98891  3.74380  4.66031  3.40955  3.12788  0.72443  2.46104  4.32115  6.38683  4.99111    121 s - - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00227  6.08723        *  0.61958  0.77255  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.out b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.out
new file mode 100755
index 0000000..e56b67a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.out
@@ -0,0 +1,119 @@
+# hmmsearch :: search profile(s) against a sequence database
+# HMMER 3.1 (February 2013); http://hmmer.org/
+# Copyright (C) 2011 Howard Hughes Medical Institute.
+# Freely distributed under the GNU General Public License (GPLv3).
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# query HMM file:                  fn3.hmm
+# target sequence database:        7LESS_DROME
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+
+Query:       fn3  [M=86]
+Accession:   PF00041.13
+Description: Fibronectin type III domain
+Scores for complete sequences (score includes all domains):
+   --- full sequence ---   --- best 1 domain ---    -#dom-
+    E-value  score  bias    E-value  score  bias    exp  N  Sequence    Description
+    ------- ------ -----    ------- ------ -----   ---- --  --------    -----------
+    1.9e-57  178.0   0.4    1.2e-16   47.2   0.9    9.4  9  7LESS_DROME  RecName: Full=Protein sevenless;          EC=2.7
+
+
+Domain annotation for each sequence (and alignments):
+>> 7LESS_DROME  RecName: Full=Protein sevenless;          EC=2.7.10.1;
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   -1.3   0.0      0.17      0.17      61      74 ..     396     409 ..     395     411 .. 0.85
+   2 !   40.7   0.0   1.3e-14   1.3e-14       2      84 ..     439     520 ..     437     521 .. 0.95
+   3 !   14.4   0.0     2e-06     2e-06      13      85 ..     836     913 ..     826     914 .. 0.73
+   4 !    5.1   0.0    0.0016    0.0016      10      36 ..    1209    1235 ..    1203    1259 .. 0.82
+   5 !   24.3   0.0   1.7e-09   1.7e-09      14      80 ..    1313    1380 ..    1304    1386 .. 0.82
+   6 ?    0.0   0.0     0.063     0.063      58      72 ..    1754    1768 ..    1739    1769 .. 0.89
+   7 !   47.2   0.9   1.2e-16   1.2e-16       1      85 [.    1799    1890 ..    1799    1891 .. 0.91
+   8 !   17.8   0.0   1.8e-07   1.8e-07       6      74 ..    1904    1966 ..    1901    1976 .. 0.90
+   9 !   12.8   0.0   6.6e-06   6.6e-06       1      86 []    1993    2107 ..    1993    2107 .. 0.89
+
+  Alignments for each domain:
+  == domain 1  score: -1.3 bits;  conditional E-value: 0.17
+                  EES--TT-EEEEEE CS
+          fn3  61 ltgLepgteYefrV 74 
+                  l+ L p+t+Y+fr 
+  7LESS_DROME 396 LEALIPYTQYRFRF 409
+                  67899*******95 PP
+
+  == domain 2  score: 40.7 bits;  conditional E-value: 1.3e-14
+                  ---CEEEEEEECTTEEEEEEE--S--SS--SEEEEEEEETTTCCGCEEEEEETTTSEEEEES--TT-EEEEEEEEEETTEE-E CS
+          fn3   2 saPenlsvsevtstsltlsWsppkdgggpitgYeveyqekgegeewqevtvprtttsvtltgLepgteYefrVqavngagegp 84 
+                  saP   ++ +  ++ l ++W p +  +gpi+gY++++++++++  + e+ vp+   s+ +++L++gt+Y++ +  +n++gegp
+  7LESS_DROME 439 SAPVIEHLMGLDDSHLAVHWHPGRFTNGPIEGYRLRLSSSEGNA-TSEQLVPAGRGSYIFSQLQAGTNYTLALSMINKQGEGP 520
+                  78999999999*****************************9998.**********************************9997 PP
+
+  == domain 3  score: 14.4 bits;  conditional E-value: 2e-06
+                  CTTEEEEEEE--S.--SS--S.....EEEEEEEETTTCCGCEEEEEETTTSEEEEES--TT-EEEEEEEEEETTE.E-EB CS
+          fn3  13 tstsltlsWsppk.dgggpit.....gYeveyqekgegeewqevtvprtttsvtltgLepgteYefrVqavngag.egpe 85 
+                  ++  + +sW++p+ ++ +  +     +Ye+e+ ++ ++++   +++ ++   + l+ L+p+  Y++rV+a+n +g  g++
+  7LESS_DROME 836 GAQAAKISWKEPErNPYQSADaarswSYELEVLDVASQSAFSIRNIRGPI--FGLQRLQPDNLYQLRVRAINVDGePGEW 913
+                  56677889999987443333223333899999999999955555566666..**********************965655 PP
+
+  == domain 4  score: 5.1 bits;  conditional E-value: 0.0016
+                   EEECTTEEEEEEE--S--SS--SEEEE CS
+          fn3   10 sevtstsltlsWsppkdgggpitgYev 36  
+                   ++   + ++++W+p+++gg + ++Y++
+  7LESS_DROME 1209 DDGHWDDFHVRWQPSTSGGNHSVSYRL 1235
+                   555678999*******99999999997 PP
+
+  == domain 5  score: 24.3 bits;  conditional E-value: 1.7e-09
+                   TTEEEEEEE--S...--SS--SEEEEEEEETTTCCGCEEEEEETTTSEEEEES--TT-EEEEEEEEEETT CS
+          fn3   14 stsltlsWsppk...dgggpitgYeveyqekgegeewqevtvprtttsvtltgLepgteYefrVqavnga 80  
+                   + s++l+W++p+   +   + + Y + ++   ++  + e ++  ++ ++ +++L+p+++Y+f+V+a+ +a
+  7LESS_DROME 1313 NVSAVLRWDAPEqgqEAPMQALEYHISCWVG-SEL-HEELRLNQSALEARVEHLQPDQTYHFQVEARVAA 1380
+                   5689********76556667899******55.665.688888888888*****************98665 PP
+
+  == domain 6  score: 0.0 bits;  conditional E-value: 0.063
+                   EEEEES--TT-EEEE CS
+          fn3   58 svtltgLepgteYef 72  
+                   s++lt+L p t+Y++
+  7LESS_DROME 1754 SLNLTDLLPFTRYRV 1768
+                   799**********98 PP
+
+  == domain 7  score: 47.2 bits;  conditional E-value: 1.2e-16
+                   ----CEEEEEEECTTEEEEEEE--S--SS--SEEEEEEEETTTCC.......GCEEEEEETTTSEEEEES--TT-EEEEEEEEEETTEE-EB CS
+          fn3    1 psaPenlsvsevtstsltlsWsppkdgggpitgYeveyqekgege.......ewqevtvprtttsvtltgLepgteYefrVqavngagegpe 85  
+                   ps+P+n+sv+  ++++l++sW pp++ +++ ++Y++++q++ +ge       ++ + ++ +t+ ++ ltg++pg+ Y+++Vqa+ + +++ +
+  7LESS_DROME 1799 PSPPRNFSVRVLSPRELEVSWLPPEQLRSESVYYTLHWQQELDGEnvqdrreWEAHERRLETAGTHRLTGIKPGSGYSLWVQAHATPTKSNS 1890
+                   9*************************************99989998****97777777777777*******************988776665 PP
+
+  == domain 8  score: 17.8 bits;  conditional E-value: 1.8e-07
+                   EEEEEEECTTEEEEEEE--S--SS--SEEEEEEEETTTCCGCEEEEEETTTSEEEEES--TT-EEEEEE CS
+          fn3    6 nlsvsevtstsltlsWsppkdgggpitgYeveyqekgegeewqevtvprtttsvtltgLepgteYefrV 74  
+                   +l++ e ++ sl+l+W       +p+ + ++e++++ e+    +++v +++t ++++ L+p t+Y+ r+
+  7LESS_DROME 1904 ELQLLELGPYSLSLTWAGT---PDPLGSLQLECRSSAEQ---LRRNVAGNHTKMVVEPLQPRTRYQCRL 1966
+                   5788899************...8***********88555...79**********************986 PP
+
+  == domain 9  score: 12.8 bits;  conditional E-value: 6.6e-06
+                   ----CEEEEEEECTTEEEEEEE--S--SS--SEEEEEEEETTTCC...........................GCEEEEEETTTS.EEEEES--TT- CS
+          fn3    1 psaPenlsvsevtstsltlsWsppkdgggpitgYeveyqekgege...........................ewqevtvprttt.svtltgLepgt 68  
+                   ps+P+ ++++ + +  ++++W++ + +g+pi  Y++e  + ++                             e+q+ +  +tt+ s+ ++ L  ++
+  7LESS_DROME 1993 PSQPGKPQLEHIAEEVFRVTWTAARGNGAPIALYNLEALQARSDIrrrrrrrrrnsggsleqlpwaeepvvvEDQWLDFCNTTElSCIVKSLHSSR 2088
+                   89***********************9************7775554799999999999999999999999999999999999999999999999999 PP
+
+                   EEEEEEEEEETTE.E-EBE CS
+          fn3   69 eYefrVqavngag.egpes 86  
+                      frV+a++ +  +gp+s
+  7LESS_DROME 2089 LLLFRVRARSLEHgWGPYS 2107
+                   9999999999554488876 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                              1  (86 nodes)
+Target sequences:                            1  (2554 residues searched)
+Passed MSV filter:                         1  (1); expected 0.0 (0.02)
+Passed bias filter:                        1  (1); expected 0.0 (0.02)
+Passed Vit filter:                         1  (1); expected 0.0 (0.001)
+Passed Fwd filter:                         1  (1); expected 0.0 (1e-05)
+Initial search space (Z):                  1  [actual number of targets]
+Domain search space  (domZ):               1  [number of targets reported over threshold]
+# CPU time: 0.01u 0.00s 00:00:00.01 Elapsed: 00:00:00.01
+# Mc/sec: 21.96
+//
+[ok]
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.sto
new file mode 100755
index 0000000..b46b929
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/fn3.sto
@@ -0,0 +1,497 @@
+# STOCKHOLM 1.0
+#=GF ID fn3
+#=GF AC PF00041.13
+#=GF DE Fibronectin type III domain
+#=GF AU Sonnhammer ELL
+#=GF GA 8.0 7.2
+#=GF NC 7.9 7.9
+#=GF TC 8.0 7.2
+#=GF SE Swissprot_feature_table
+#=GF TP Domain
+#=GF BM hmmbuild -FHMM_ls.ann SEED.ann
+#=GF BM hmmcalibrate --seed 0 HMM_ls
+#=GF BM hmmbuild -f -FHMM_fs.ann SEED.ann
+#=GF BM hmmcalibrate --seed 0 HMM_fs
+#=GF AM byscore
+#=GF RN [1]
+#=GF RM 2169613
+#=GF RT Structural design and molecular evolution of a cytokine receptor
+#=GF RT superfamily. 
+#=GF RA Bazan JF; 
+#=GF RL PNAS USA 1990;87:6934-6938.
+#=GF RN [2]
+#=GF RM 7528812
+#=GF RT Tracing the spread of fibronectin type III domains in bacterial
+#=GF RT glycohydrolases. 
+#=GF RA Little E, Bork P, Doolittle R; 
+#=GF RL J Mol Evol 1994;39:631-643.
+#=GF RC Definition of fibronectin domains 
+#=GF RN [3]
+#=GF RM 2992939
+#=GF RT Primary structure of human fibronectin: differential splicing
+#=GF RT may generate at least 10 polypeptides from a single gene. 
+#=GF RA Kornblihtt AR, Umezawa K, Vibe-Pedersen K, Baralle FE; 
+#=GF RL EMBO J 1985;4:1755-1759.
+#=GF DR INTERPRO; IPR003961;
+#=GF DR HOMSTRAD; fn3;
+#=GF DR SMART; FN3;
+#=GF DR SCOP; 1ttf; sf;
+#=GF DR PRINTS; PR00014;
+#=GF DR PROSITE; PDOC00214;
+#=GF SQ 106
+
+#=GS TIE1_HUMAN/644-729    AC P35590.1
+#=GS NCAM1_BOVIN/509-597   AC P31836.1
+#=GS LAR_DROME/417-503     AC P16621.2
+#=GS NGCA_CHICK/700-794    AC Q03696.2
+#=GS MPSF_CHICK/499-585    AC Q02173.1
+#=GS MPSF_CHICK/371-457    AC Q02173.1
+#=GS MPSF_CHICK/600-684    AC Q02173.1
+#=GS NRCAM_CHICK/623-709   AC P35331.1
+#=GS MYPC2_CHICK/631-717   AC P16419.3
+#=GS MYLK_CHICK/1318-1403  AC P11799.2
+#=GS CNTN2_CHICK/602-692   AC P28685.1
+#=GS MPSF_CHICK/699-785    AC Q02173.1
+#=GS MPSF_CHICK/801-887    AC Q02173.1
+#=GS MYPC2_CHICK/924-1006  AC P16419.3
+#=GS LAR_DROME/322-404     AC P16621.2
+#=GS FAS2_SCHAM/530-616    AC P22648.2
+#=GS PTP69_DROME/332-425   AC P16620.2
+#=GS TENA_CHICK/1227-1306  AC P10039.2
+#=GS TENA_CHICK/1136-1215  AC P10039.2
+#=GS TENA_HUMAN/1529-1608  AC P24821.2
+#=GS TENA_CHICK/1045-1124  AC P10039.2
+#=GS TENA_HUMAN/1255-1335  AC P24821.2
+#=GS PTPRB_HUMAN/22-103    AC P23467.1
+#=GS TIE2_HUMAN/639-724    AC Q02763.1
+#=GS LAR_DROME/515-598     AC P16621.2
+#=GS FINC_BOVIN/577-660    AC P07589.3
+#=GS TIE1_HUMAN/446-533    AC P35590.1
+#=GS PTPRK_MOUSE/290-376   AC P35822.1
+#=GS TIE2_HUMAN/444-529    AC Q02763.1
+#=GS TIE2_HUMAN/543-626    AC Q02763.1
+#=GS 7LESS_DROVI/1917-1997 AC P20806.1
+#=GS PTPRZ_HUMAN/312-401   AC P23471.3
+#=GS FAS2_SCHAM/642-735    AC P22648.2
+#=GS NCAM1_BOVIN/610-691   AC P31836.1
+#=GS ITB4_HUMAN/1127-1208  AC P16144.4
+#=GS UFO_HUMAN/327-411     AC P30530.2
+#=GS KALM_CHICK/543-641    AC P33005.2
+#=GS PTP10_DROME/958-1044  AC P35992.3
+#=GS PTP69_DROME/236-321   AC P16620.2
+#=GS NRG_DROME/917-1007    AC P20241.2
+#=GS FINC_BOVIN/689-768    AC P07589.3
+#=GS FINC_BOVIN/780-858    AC P07589.3
+#=GS IL7RA_HUMAN/129-221   AC P16871.1
+#=GS PTP10_DROME/405-485   AC P35992.3
+#=GS FINC_BOVIN/1417-1499  AC P07589.3
+#=GS FINC_RAT/1266-1346    AC P04937.2
+#=GS FINC_BOVIN/1327-1406  AC P07589.3
+#=GS TENA_CHICK/1317-1395  AC P10039.2
+#=GS FINC_BOVIN/875-955    AC P07589.3
+#=GS FINC_BOVIN/1511-1590  AC P07589.3
+#=GS TENA_CHICK/864-945    AC P10039.2
+#=GS TENA_CHICK/593-671    AC P10039.2
+#=GS FINC_BOVIN/1142-1225  AC P07589.3
+#=GS FINC_BOVIN/1693-1771  AC P07589.3
+#=GS FINC_BOVIN/1236-1316  AC P07589.3
+#=GS FINC_BOVIN/1601-1680  AC P07589.3
+#=GS TENA_CHICK/1494-1571  AC P10039.2
+#=GS TENA_CHICK/956-1033   AC P10039.2
+#=GS TENA_CHICK/682-767    AC P10039.2
+#=GS TENA_CHICK/774-853    AC P10039.2
+#=GS TENA_CHICK/1406-1483  AC P10039.2
+#=GS FINC_BOVIN/1782-1861  AC P07589.3
+#=GS PTPRB_HUMAN/1085-1162 AC P23467.1
+#=GS PTPRB_HUMAN/1173-1250 AC P23467.1
+#=GS PTPRB_HUMAN/554-632   AC P23467.1
+#=GS PTPRB_HUMAN/643-725   AC P23467.1
+#=GS PTPRB_HUMAN/731-808   AC P23467.1
+#=GS PTPRB_HUMAN/995-1074  AC P23467.1
+#=GS PTPRB_HUMAN/467-543   AC P23467.1
+#=GS PTPRB_HUMAN/907-984   AC P23467.1
+#=GS PTPRB_HUMAN/112-192   AC P23467.1
+#=GS PTPRB_HUMAN/1355-1434 AC P23467.1
+#=GS PTP10_DROME/583-661   AC P35992.3
+#=GS PTP10_DROME/312-394   AC P35992.3
+#=GS PTP10_DROME/217-301   AC P35992.3
+#=GS PTP10_DROME/123-205   AC P35992.3
+#=GS EPHA2_HUMAN/329-420   AC P29317.1
+#=GS EPHA1_HUMAN/333-431   AC P21709.3
+#=GS EPHB2_CHICK/326-422   AC P28693.3
+#=GS EPHA3_CHICK/325-421   AC P29318.1
+#=GS PTP10_DROME/864-944   AC P35992.3
+#=GS PTPRB_HUMAN/1261-1344 AC P23467.1
+#=GS TIE1_HUMAN/545-632    AC P35590.1
+#=GS 7LESS_DROME/1799-1891 AC P13368.2
+#=GS PHB_ALCFA/344-418     AC P12625.1
+#=GS APU_THETY/928-1009    AC P16950.1
+#=GS CHIT_STRLI/142-219    AC P36909.1
+#=GS CHIA1_BACCI/465-542   AC P20533.1
+#=GS GUNB_CELFI/651-733    AC P26225.1
+#=GS CHIX_STROI/169-240    AC Q05638.1
+#=GS APU_THETY/1165-1248   AC P16950.1
+#=GS KALM_CHICK/177-269    AC P33005.2
+#=GS CNTN1_CHICK/799-884   AC P14781.1
+#=GS CNTN2_CHICK/807-896   AC P28685.1
+#=GS NRG_DROME/815-905     AC P20241.2
+#=GS L1CAM_HUMAN/812-907   AC P32004.2
+#=GS LAR_DROME/709-800     AC P16621.2
+#=GS PTP99_DROME/171-259   AC P35832.2
+#=GS EPHA2_HUMAN/436-519   AC P29317.1
+#=GS LAR_DROME/909-995     AC P16621.2
+#=GS NRCAM_CHICK/928-1014  AC P35331.1
+#=GS EPHB2_CHICK/437-521   AC P28693.3
+#=GS EPHA4_MOUSE/441-525   AC Q03137.1
+#=GS ITB4_HUMAN/1220-1310  AC P16144.4
+#=GS ITB4_HUMAN/1641-1728  AC P16144.4
+#=GS ITB4_HUMAN/1528-1612  AC P16144.4
+
+#=GS TENA_CHICK/1227-1306  DR PDB; 1qr4 B; 18-77;
+#=GS TENA_CHICK/1227-1306  DR PDB; 1qr4 A; 18-77;
+#=GS ITB4_HUMAN/1127-1208  DR PDB; 1qg3 B; 1127-1208;
+#=GS ITB4_HUMAN/1127-1208  DR PDB; 1qg3 A; 1127-1208;
+#=GS TENA_CHICK/1317-1395  DR PDB; 1qr4 B; 88-166;
+#=GS TENA_CHICK/1317-1395  DR PDB; 1qr4 A; 88-166;
+#=GS ITB4_HUMAN/1220-1310  DR PDB; 1qg3 B; 1220-1310;
+#=GS ITB4_HUMAN/1220-1310  DR PDB; 1qg3 A; 1220-1310;
+
+TIE1_HUMAN/644-729            P.PAP.RHLHAQAL...SDSEIQLTWKHPE..ALPGPISKYVVEV...QV
+NCAM1_BOVIN/509-597           P.SSP.SIDQVEP....YSSTAQVQFDEPEA.TGGVPILKYKAEWR...A
+LAR_DROME/417-503             E.SAP.RNVQVRTL...SSSTMVITWEPPE..TPNGQVTGYKV.Y...YT
+NGCA_CHICK/700-794            PERNP.GGVHGEGN...ETGNLVITWEPLPPQAWNAPWARYRVQWR...P
+MPSF_CHICK/499-585            P.GPP.TNVHASEI...SKTYVVLSWDPPV..PRGREPLTYFIEK...SM
+MPSF_CHICK/371-457            P.GAP.MDVKCHDA...NRDYVIVTWKPPNT.TSQNPVIGYFVDK...CE
+MPSF_CHICK/600-684            P.SAP.GRVVATRN...TKTSVVVQWDKPK...HEENLYGYYIDY...SV
+NRCAM_CHICK/623-709           P.NPP.LDLELTGQ...LERSIELSWVPGE..ENNSPITNFVIEY...ED
+MYPC2_CHICK/631-717           P.DPP.QSVRVTSV...GEDWAVLSWEAPPF.DGGMPITGYLMER...KK
+MYLK_CHICK/1318-1403          P.DPPAGTPCASDI...RSSSLTLSWYGSSY.DGGSAVQSYTVEI...WN
+CNTN2_CHICK/602-692           PPGPP.GGVVVRDI...GDTTVQLSWSRGF..DNHSPIARYSIEAR...T
+MPSF_CHICK/699-785            P.SYP.HGITLLNC...DGHSMTLGWKAPKY.SGGSPILGYYIDKR...E
+MPSF_CHICK/801-887            P.GPA.YDLTVCEV...RNTSLVLLWKAPVY.EGKSPITGYLVDY...KE
+MYPC2_CHICK/924-1006          P.GPP.QAVRVMEV...WGSNALLQWEPPKD.DGNAEISGYTVQK...AD
+LAR_DROME/322-404             P.TAP.TDVQISEV...TATSVRLEWSYK....GPEDLQYYVIQY...KP
+FAS2_SCHAM/530-616            P.SAV.LQVKMDVM...TATTVTFKFFGPGN.DGGLPTKNYAVQY...KQ
+PTP69_DROME/332-425           Y.DPI.FIPKVETTG.STASTITIGWNPPPP.DLIDYIQYYELIV...SE
+TENA_CHICK/1227-1306          E.PEV.DNLLVSDA...TPDGFRLSWTAD.....DGVFDSFVLKIR..DT
+#=GR TENA_CHICK/1227-1306  SS X.XXX.XXXXXXXX...XXXXXXEEEE--.....SS--SEEEEEEE..-T
+TENA_CHICK/1136-1215          H.PEV.GELTVSDI...TPESFNLSWTTT.....NGDFDAFTIEI...ID
+TENA_HUMAN/1529-1608          L.PLL.ENLTISDI...NPYGFTVSWMAS.....ENAFDSFLVTV...VD
+TENA_CHICK/1045-1124          E.PEL.GNLSVSET...GWDGFQLTWTAA.....DGAYENFVIQV...QQ
+TENA_HUMAN/1255-1335          E.VPDMGNLTVTEV...SWDALRLNWTTP.....DGTYDQFTIQV...QE
+PTPRB_HUMAN/22-103            AEPER.CNFTLAESK.ASSHSVSIQWRIL......GSPCNFSLIY...SS
+TIE2_HUMAN/639-724            P.PQP.ENIKISNI...THSSAVISWTILD....GYSISSITIRY...KV
+LAR_DROME/515-598             P.SQP.SNFRATDI...GETAVTLQWTKPT..HSSENIVHYELYW...ND
+FINC_BOVIN/577-660            T.SGP.VQVIITETP.SQPNSHPIQWSAPE....SSHISKYILRW...KP
+TIE1_HUMAN/446-533            P.PVPLAAPRLLTK...QSRQLVVSPLVSF..SGDGPISTVRLHYR..PQ
+PTPRK_MOUSE/290-376           P.PRPIAPPQLLGV...GPTYLLIQLNANSI.IGDGPIILKEVEYR...M
+TIE2_HUMAN/444-529            L.PKPLNAPNVIDT...GHNFAVINISSEPY.FGDGPIKSKKLLY...KP
+TIE2_HUMAN/543-626            L.PPP.RGLNLLPK...SQTTLNLTWQPIF..PSSEDDFYVEVERR...S
+7LESS_DROVI/1917-1997         S.YAPLPPLQLIEL...NAYGMTLAWPGT.....PDALSSLTLEC...QS
+PTPRZ_HUMAN/312-401           S.SEP.ENVQADPE...NYTSLLVTWERPRV.VYDTMIEKFAVLY...QQ
+FAS2_SCHAM/642-735            T.SGT.ENEVVVSP...YPNRYELRWQVPA..DNGEPITHYSVKS...CP
+NCAM1_BOVIN/610-691           P.SAP.KLEGQMGE...DGNSIKVKLIKQD..DGGSPIRHYLVKYR...A
+ITB4_HUMAN/1127-1208          L.GAP.QNPNAKAA...GSRKIHFNWLPP.....SGKPMGYRVKY...WI
+#=GR ITB4_HUMAN/1127-1208  SS -.---.EEEEEEE-...STT-EEEEEE--.....SS---EEEEEE...EE
+UFO_HUMAN/327-411             L.GPP.ENISATR....NGSQAFVHWQEPRA.PLQGTLLGYRLAY...QG
+KALM_CHICK/543-641            L.AKP.ENLSASFIVQEGNITGHFSWKISKA.VLHQPMTGFQVTW...AE
+PTP10_DROME/958-1044          P.GRV.ERFHPTDV...QPSEINFEWSLPSS.EANGVIRQFSIAY...TN
+PTP69_DROME/236-321           V.PQV.SIDFAKAV...GANKIYLNWTVND...GNDPIQKFFITL...QE
+NRG_DROME/917-1007            P.SPV.QGLDAYPL...GSSAFMLHWKKPL..YPNGKLTGYKIYY...EE
+FINC_BOVIN/689-768            P.VVA.TSESVTEI...TASSFVVSWVSA.....SDTVSGFRVEY...EL
+FINC_BOVIN/780-858            P.DAP.PDPTVDQV...DDTSIVVRWSRP.....RAPITGYRIVY...SP
+IL7RA_HUMAN/129-221           P.EAP.FDLSVIYR..EGANDFVVTFNTSHLQKKYVKVLMHDVAYR..QE
+PTP10_DROME/405-485           P.LPV.RNLRSIND..DKTNTMIITWEADP....ASTQDEYRIVYH.ELE
+FINC_BOVIN/1417-1499          S.DVP.RDLEVIAA...TPTSLLISWDAP.....AVTVRYYRITY...GE
+FINC_RAT/1266-1346            V.PQL.TDLSFVDI...TDSSIGLRWTPLN....SSTIIGYRITV...VA
+FINC_BOVIN/1327-1406          L.DSP.SGIDFSDI...TANSFTVHWIAP.....RATITGYRIRHH...P
+TENA_CHICK/1317-1395          V.GSP.KGISFSDI...TENSATVSWTPP.....RSRVDSYRVSY...VP
+#=GR TENA_CHICK/1317-1395  SS -.---.SEEEEES-...-SS-EEEEEE--.....SS--SEEEEEE...EE
+FINC_BOVIN/875-955            KVPPP.RDLQFVEV...TDVKITIMWTPP.....ESPVTGYRVDV...IP
+FINC_BOVIN/1511-1590          I.DKP.SQMQVTDV...QDNSISVRWLPS.....SSPVTGYRVTT...AP
+TENA_CHICK/864-945            L.DAP.RNLKRVSQ...TDNSITLEWKNS.....HANIDNYRIKF...AP
+TENA_CHICK/593-671            V.SPP.TELTVTNV...TDKTVNLEWKHE......NLVNEYLVTY...VP
+FINC_BOVIN/1142-1225          PLSPP.TNLHLEAN..PDTGVLTVSWERST....TPDITGYRITT...TP
+FINC_BOVIN/1693-1771          V.SPP.RRARVTDA...TETTITISWRTK.....TETITGFQVDA...IP
+FINC_BOVIN/1236-1316          V.PPP.TDLRFTNV...GPDTMRVTWAPPS....SIELTNLLVRY...SP
+FINC_BOVIN/1601-1680          I.PAP.TNLKFTQV...TPTSLTAQWTAP.....NVQLTGYRVRV...TP
+TENA_CHICK/1494-1571          L.DAP.KDLSATEV...QSETAVITWRPP.....RAPVTDYLLTY...ES
+TENA_CHICK/956-1033           L.DNP.KDLEVSDP...TETTLSLRWRRP.....VAKFDRYRLTY...VS
+TENA_CHICK/682-767            L.PAP.EGLKFKSV...RETSVQVEWDPL.....SISFDGWELVFRNMQK
+TENA_CHICK/774-853            L.DAP.SQIEAKDV...TDTTALITWSKP.....LAEIEGIELTY...GP
+TENA_CHICK/1406-1483          L.DSP.SGLVVMNI...TDSEALATWQPA.....IAAVDNYIVSY...SS
+FINC_BOVIN/1782-1861          I.DAP.SNLRFLAT...TPNSLLVSWQPP.....RARITGYIIKY...EK
+PTPRB_HUMAN/1085-1162         P.AAV.TDLRITEN...STRHLSFRWTAS.....EGELSWYNIFL...YN
+PTPRB_HUMAN/1173-1250         P.ASV.SHLRGSNR..NTTDSLWFNWSPA.....SGDFDFYELIL...YN
+PTPRB_HUMAN/554-632           P.AQV.TDLHVANQ..GMTSSLFTNWTQA.....QGDVEFYQVLL...IH
+PTPRB_HUMAN/643-725           P.SSV.SGVTVNNS..GRNDYLSVSWLVA.....PGDVDNYEVTL...SH
+PTPRB_HUMAN/731-808           P.DKV.QGVSVSNS..ARSDYLRVSWVHA.....TGDFDHYEVTI...KN
+PTPRB_HUMAN/995-1074          P.ASV.QGVIADNA..YSSYSLIVSWQKA.....AGVAERYDILL...LT
+PTPRB_HUMAN/467-543           P.LAV.LQLRVKHA...NETSLSIMWQTP.....VAEWEKYIISL...AD
+PTPRB_HUMAN/907-984           P.SAV.KNIHISPN..GATDSLTVNWTPG.....GGDVDSYTVSA...FR
+PTPRB_HUMAN/112-192           P.PAR.FGVSKEKT...TSTGLHVWWTPS.....SGKVTSYEVQL...FD
+PTPRB_HUMAN/1355-1434         P.DKI.QNLHCRPQ...NSTAIACSWIPP.....DSDFDGYSIECR...K
+PTP10_DROME/583-661           P.NPP.RNMTIETV...RSNSVLVHWSPPE....SGEFTEYSIRYR...T
+PTP10_DROME/312-394           P.LRP.LNVTFDRDF.ITSNSFRVLWEAPK...GISEFDKYQVSV...AT
+PTP10_DROME/217-301           P.NTP.GKFIVWFR...NETTLLVLWQPPY...PAGIYTHYKVSI...EP
+PTP10_DROME/123-205           P.DPP.SNLSVQVR...SGKNAIILWSPPT....QGSYTAFKIKV...LG
+EPHA2_HUMAN/329-420           P.SAP.HYLTAVGM...GA.KVELRWTPPQD.SGGREDIVYSVTCEQCWP
+EPHA1_HUMAN/333-431           P.SAP.RNLSFSA....SGTQLSLRWEPPAD.TGGRQDVRYSVRC...SQ
+EPHB2_CHICK/326-422           P.SAP.QAV.ISSV...NETSLMLEWTPPRD.SGGREDLVYNIIC...KS
+EPHA3_CHICK/325-421           P.SAP.RNV.ISNI...NETSVILDWSWPLD.TGGRKDVTFNIIC...KK
+PTP10_DROME/864-944           P.EPI.TQLHATNI...TDTEISLRWDLP.....KGEYNDFDIAY...LT
+PTPRB_HUMAN/1261-1344         P.SPP.SLMSFADI...ANTSLAITWKGPP...DWTDYNDFELQW...LP
+TIE1_HUMAN/545-632            PLLQP.WLEGWHVE...GTDRLRVSWSLPLV.PGPLVGDGFLLRL...WD
+7LESS_DROME/1799-1891         P.SPP.RNFSVRVL...SPRELEVSWLPPE..QLRSESVYYTLHW...QQ
+PHB_ALCFA/344-418             G.SAP.TGLAVTAT...TSTSVSLSWNAV......ANASSYGV.YR....
+APU_THETY/928-1009            A.PQPITDLKAVS....GNGKVDLSWSVV......DKAVSYNI.YR...S
+CHIT_STRLI/142-219            P.SAP.GTPTASNI...TDTSVKLSWSAAT...DDKGVKNYDV.LR....
+CHIA1_BACCI/465-542           P.SVP.GNARSTGV...TANSVTLAWNAST...DNVGVTGYNV.YN....
+GUNB_CELFI/651-733            P.TTP.GTPVATGV...TTVGASLSWAAST..DAGSGVAGYEL.YR...V
+CHIX_STROI/169-240            P.PAPPTGLRTGSV...TATSVALSWSPV......TGATGYAV.YR....
+APU_THETY/1165-1248           P.TAP.V.LQQPGI...ESSRVTLNWSPSA...DDVAIFGYEIYK...SS
+KALM_CHICK/177-269            P.LKPRKELKFIEL...QSGDLEVKWSSKF..NISIEPVIYVVQRR..WN
+CNTN1_CHICK/799-884           PTEVP.TDVSVKVL...SSSEISVSWHHVT....EKSVEGYQIRY...WA
+CNTN2_CHICK/807-896           PKVAP.FRVTAKAV...LSSEMDVSWEPVEQGDMTGVLLGYEIRY...WK
+NRG_DROME/815-905             PLDAP.TNFTMRQI..TSSTSGYMAWTPVSEESVRGHFKGYKIQT...WT
+L1CAM_HUMAN/812-907           P.QAI.PELEGIEI..LNSSAVLVKWRPVDLAQVKGHLRGYNVTY...WR
+LAR_DROME/709-800             P.GDP.QDVKATPL...NSTSIHVSWKPPLEKDRNGIIRGYHIHA...QE
+PTP99_DROME/171-259           P.SKP.QNLTILDV...SANSITMSWHPPK..NQNGAIAGYHVFH...IH
+EPHA2_HUMAN/436-519           Q.TEP.PKVRLEGR...STTSLSVSWSIPP..PQQSRVWKYEVTYR...K
+LAR_DROME/909-995             PGGPP.SNITIRFQ...TPDVLCVTWDPPTREHRNGIITRYDVQFH..KK
+NRCAM_CHICK/928-1014          P.SPP.SFLKITNP...TLDSLTLEWGSPT..HPNGVLTSYILKF...QP
+EPHB2_CHICK/437-521           P.SAV.SIMHQVSR...TVDSITLSWSQPD..QPNGVILDYELQY...YE
+EPHA4_MOUSE/441-525           P.SSI.ALVQAKEV...TRYSVALAWLEPD..RPNGVILEYEVKY...YE
+ITB4_HUMAN/1220-1310          P.SEP.GRLAFNVV...SSTVTQLSWAEPA..ETNGEITAYEVCY...GL
+#=GR ITB4_HUMAN/1220-1310  SS -.---.---EEEEE...CTTEEEEE----S..--SS---EEEEEE...EE
+ITB4_HUMAN/1641-1728          P.SAP.GPLVFTAL...SPDSLQLSWERPR..RPNGDIVGYLVTC...EM
+ITB4_HUMAN/1528-1612          P.DTP.TRLVFSAL...GPTSLRVSWQEPR...CERPLQGYSVEY...QL
+#=GC SS_cons                  -.---.CEEEEEEE...CTTEEEEEEE--S..--SS--SEEEEEEE..EE
+#=GC seq_cons                 P.ssP.pslphpsh...sssslplsWpss.....suslssYplph....p
+
+TIE1_HUMAN/644-729            AGGAG..........DPLWID...VDRP....EE.TSTIIRGL.NASTRY
+NCAM1_BOVIN/509-597           MGEEVW.........HSKWYD...AKEA....SMEGIVTIVGL.KPETTY
+LAR_DROME/417-503             TNSNQPE.......ASWNSQM...VDNS....E...LTTVSEL.TPHAIY
+NGCA_CHICK/700-794            LEEPGGGGP..SGGFPWAEST...VDAP....P....VVVGGL.PPFSPF
+MPSF_CHICK/499-585            VGSGS...........WQRVNAQVAVKS....P...RYAVFDL.AEGKPY
+MPSF_CHICK/371-457            VGLEN...........WVQCN...DAPV....KI.CKYPVTGL.YEGRSY
+MPSF_CHICK/600-684            VGSNQW........EPANHKP...INYN....R....FVVHGL.ETGEQY
+NRCAM_CHICK/623-709           GLHEPG.........VWHYQT...EVPG....SH..TTVQLKL.SPYVNY
+MYPC2_CHICK/631-717           KGSMRW.........MKLNFE...VFPD....T...TYESTKM.IEGVFY
+MYLK_CHICK/1318-1403          SVDNK...........WTDLT...TCRS....T...SFNVQDL.QADREY
+CNTN2_CHICK/602-692           LLSNKWK......QMRTNPVN...IEGN....AE..TAQVVNL.IPWMDY
+MPSF_CHICK/699-785            ANHKN...........WHEVNSSVISRT....I....YTVEDL.TEDAFY
+MPSF_CHICK/801-887            VDTED...........WITAN...EKPT....SH.RYFKVTDL.HQGHTY
+MYPC2_CHICK/924-1006          TRTME...........WFTVL...EHSR....PT..RCTVSEL.VMGNEY
+LAR_DROME/322-404             KNANQ...........AFSEI...SGII....TM..YYVVRAL.SPYTEY
+FAS2_SCHAM/530-616            DSQGW...........EDALN...RTWP....VD.SPYILENL.KPQTRY
+PTP69_DROME/332-425           SGEVPKV......IEEAIYQQ...NSRN....L...PYMFDKL.KTATDY
+TENA_CHICK/1227-1306          KRKSD...........PLELI...VPGH....ER..THDITGL.KEGTEY
+#=GR TENA_CHICK/1227-1306  SS T--EE...........EEEXX...E-TT....-S..EEEEES-.-TT-EE
+TENA_CHICK/1136-1215          SNRLL..........EPMEFN...ISGN....SR..TAHISGL.SPSTDF
+TENA_HUMAN/1529-1608          SGKLL..........DPQEFT...LSGT....QR..KLELRGL.ITGIGY
+TENA_CHICK/1045-1124          SDNPE..........ETWNIT...VPGG....QH..SVNVTGL.KANTPY
+TENA_HUMAN/1255-1335          ADQVE..........EAHNLT...VPGS....LR..SMEIPGL.RAGTPY
+PTPRB_HUMAN/22-103            DTLGAA.........LCPTFR...IDNT....TY..GCNLQDL.QAGTIY
+TIE2_HUMAN/639-724            QGKNE...........DQHVDV.KIKNA....TI.IQYQLKGL.EPETAY
+LAR_DROME/515-598             TYANQ...........AHHKR...ISNS....E...AYTLDGL.YPDTLY
+FINC_BOVIN/577-660            KNSPD..........RWKEAT...IPGH....LN..SYTIKGL.RPGVVY
+TIE1_HUMAN/446-533            DSTMD...........WSTIV...VDPS....E...NVTLMNL.RPKTGY
+PTPRK_MOUSE/290-376           T.SGS...........WTETH...AVNA....P...TYKLWHL.DPDTEY
+TIE2_HUMAN/444-529            VNHYE..........AWQHIQ...VTNE....I....VTLNYL.EPRTEY
+TIE2_HUMAN/543-626            VQKSD...........QQNIK...VPGN....LT..SVLLNNL.HPREQY
+7LESS_DROVI/1917-1997         LREQ.............LQFN...VAGN....HT..QMRLAPL.QPKTRY
+PTPRZ_HUMAN/312-401           LDGEDQ.........TKHEFL...TDGY....QD.LGAILNNL.LPNMSY
+FAS2_SCHAM/642-735            VEKYDTEWR..LLPYPCQEHK...LEGQ....AT..TFQLESL.QPDTHY
+NCAM1_BOVIN/610-691           LSSEW...........KPEIR...LPSG....SD..HVMLKSL.DWNAEY
+ITB4_HUMAN/1127-1208          QGDSE..........SEAHLL...DSKV....P...SVELTNL.YPYCDY
+#=GR ITB4_HUMAN/1127-1208  SS TTS-G..........GG-EEE...EESS....S...EEEE-S-.-TT-EE
+UFO_HUMAN/327-411             QDTPE...........VLMDI...GLRQ....EV..TLELQGD.GSVSNL
+KALM_CHICK/543-641            VTTESRQNSL.PNSIISQSQI...LPAD....HY..VLTVPNL.RPSMLY
+PTP10_DROME/958-1044          INNLT...........DAGMQ...DFES....EE.AFGVIKNL.KPGETY
+PTP69_DROME/236-321           AGTPTF........TYHKDFI...NGSH....T...SYILDHF.KPNTTY
+NRG_DROME/917-1007            V.KESYVGE...RREYDPHIT...DPRV....T...RMKMAGL.KPNSKY
+FINC_BOVIN/689-768            SEEGD..........EPQYLD...LPST....AT..SVNIPDL.LPGRKY
+FINC_BOVIN/780-858            SVEGS...........STELN...LPET....AN..SVTLSDL.QPGVQY
+IL7RA_HUMAN/129-221           KDENK...........WTHVN...LSST....KL..TLLQRKL.QPAAMY
+PTP10_DROME/405-485           TFNGD...........TSTLT...TDRT....R....FTLESL.LPGRNY
+FINC_BOVIN/1417-1499          TGGSS..........PVQEFT...VPGS....KS..TATISGL.KPGVDY
+FINC_RAT/1266-1346            AGEGI..........PIFEDF...VDSS....VG..YYTVTGL.EPGIDY
+FINC_BOVIN/1327-1406          ENMGG..........RPREDR...VPPS....RN..SITLTNL.NPGTEY
+TENA_CHICK/1317-1395          ITGGT...........PNVVT...VDGS....KT..RTKLVKL.VPGVDY
+#=GR TENA_CHICK/1317-1395  SS TT-B-...........-EEEE...EETT....-S..EEEE-S-.-SS-EE
+FINC_BOVIN/875-955            VNLPGE.........HGQRLP...VSRN....T...FAEVTGL.SPGVTY
+FINC_BOVIN/1511-1590          KNGPG..........PSKTKT...VGPD....QT..EMTIEGL.QPTVEY
+TENA_CHICK/864-945            ISGGD...........HTELT...VPKGN.QATT..RATLTGL.RPGTEY
+TENA_CHICK/593-671            TSSGG..........LDLQFT...VPGN....QT..SATIHEL.EPGVEY
+FINC_BOVIN/1142-1225          TNGQQG.........YSLEEV...VHAD....QS..SCTFENL.SPGLEY
+FINC_BOVIN/1693-1771          ANGQT...........PIQRT...IRPD....VR..SYTITGL.QPGTDY
+FINC_BOVIN/1236-1316          VKNEE..........DVAELS...ISPS....DN..AVVLTNL.LPGTEY
+FINC_BOVIN/1601-1680          KEKTG..........PMKEIN...LAPD....SS..SVVVSGL.MVATKY
+TENA_CHICK/1494-1571          I.DGR...........VKEVI...LDPE....TT..SYTLTEL.SPSTQY
+TENA_CHICK/956-1033           P.SGK...........KNEME...IPVD....ST..SFILRGL.DAGTEY
+TENA_CHICK/682-767            KDDNG...........DITSS...LKRP....ET..SYMQPGL.APGQQY
+TENA_CHICK/774-853            KDVPG..........DRTTID...LSED....EN..QYSIGNL.RPHTEY
+TENA_CHICK/1406-1483          EDEP............EVTQM...VSGN....TV..EYDLNGL.RPATEY
+FINC_BOVIN/1782-1861          PGSPPR.........EVVPRP...RPGV....T...EATITGL.EPGTEY
+PTPRB_HUMAN/1085-1162         PDGNL..........QERAQV...DPLV....Q...SFSFQNL.LQGRMY
+PTPRB_HUMAN/1173-1250         PNGTK..........KENWKD...KDLT....E....WRFQGL.VPGRKY
+PTPRB_HUMAN/554-632           ENVV............IKNES...ISSE....TS..RYSFHSL.KSGSLY
+PTPRB_HUMAN/643-725           DGKV............VQSLV...IAKS....VR..ECSFSSL.TPGRLY
+PTPRB_HUMAN/731-808           KNNF............IQTKS...IPKS....EN..ECVFVQL.VPGRLY
+PTPRB_HUMAN/995-1074          ENGIL...........LRNTS...EPAT....TK..QHKFEDL.TPGKKY
+PTPRB_HUMAN/467-543           R.DLL...........LIHKS...LSKD....AK..EFTFTDL.VPGRKY
+PTPRB_HUMAN/907-984           H.SQK...........VDSQT...IPKH....VF..EHTFHRL.EAGEQY
+PTPRB_HUMAN/112-192           ENNQKIQ.......GVQIQES...TSWN....E....YTFFNL.TAGSKY
+PTPRB_HUMAN/1355-1434         MDTQE..........VEFSRK...LEKE....KS..LLNIMML.VPHKRY
+PTP10_DROME/583-661           DSEQQ...........WVRLP...SVRS....T...EADITDM.TKGEKY
+PTP10_DROME/312-394           TRRQS...........TVPRS...NEPV....A...FFDFRDIAEPGKTF
+PTP10_DROME/217-301           PDANDSV......LYVEKEGE...PPGP....A...QAAFKGL.VPGRAY
+PTP10_DROME/123-205           LSEASS........SYNRTFQ...VNDN....TF..QHSVKEL.TPGATY
+EPHA2_HUMAN/329-420           E.SGECGP.....CEASVRYS...EPPHG.LTRT..SVTVSDL.EPHMNY
+EPHA1_HUMAN/333-431           CQGTAQDGGPCQPCGVGVHFSPGARGLT....TP..AVHVNGL.EPYANY
+EPHB2_CHICK/326-422           CGSGRGAC....TRCGDNVQF...APRQLGLTEP..RIYISDL.LAHTQY
+EPHA3_CHICK/325-421           CGGSSKIC....EPCSDNVRF...LPRQT.GLTN.TTVTVVDL.LAHTNY
+PTP10_DROME/864-944           A.DNL...........LAQNM...TTRN....E....ITISDL.RPHRNY
+PTPRB_HUMAN/1261-1344         RDALT..........VFNPYN...NRKS....E...GRIVYGL.RPGRSY
+TIE1_HUMAN/545-632            GTRGQ...........ERREN...VSSP....QA.RTALLTGL.TPGTHY
+7LESS_DROME/1799-1891         ELDGENVQD...RREWEAHER...RLET....AG..THRLTGI.KPGSGY
+PHB_ALCFA/344-418             .NGS.............KVGS...ATAT....A....YTDSGL.IAGTTY
+APU_THETY/928-1009            TVKGG...........LYEKI...ASNV....TQ.ITYTDTEV.TNGLKY
+CHIT_STRLI/142-219            .DGA.............KVAT...VTGT....T....YTDNGL.TKGTAY
+CHIA1_BACCI/465-542           .GAN.............LATS...VTGT....T....ATISGL.TAGTSY
+GUNB_CELFI/651-733            QGTTQ...........TLVGT...TTAA....A....YILRDL.TPGTAY
+CHIX_STROI/169-240            .DGV.............KVAT...ASGT....S....ATVTGL.TPDTAY
+APU_THETY/1165-1248           SETGP..........FIKIAT...VSDS....VY..NYVDTDV.VNGNVY
+KALM_CHICK/177-269            Q.GIHPSE.....DDATNWQT...VAQT....TD.ERVQLSDI.RASRWY
+CNTN1_CHICK/799-884           AHDKEA.........AAQRVQ...VSNQ....EY..STKLENL.KPNTRY
+CNTN2_CHICK/807-896           DGDKEE........AADRVRT...AGLV....T...SAHVTGL.NPNTKY
+NRG_DROME/815-905             ENEGEE.........GLREIH...VKGD....TH..NALVTQF.KPDSKN
+L1CAM_HUMAN/812-907           EGSQRKHSK...RHIHKDHVV...VPAN....TT..SVILSGL.RPYSSY
+LAR_DROME/709-800             LRDEGKGF.....LNEPFKFD...VVDT....L...EFNVTGL.QPDTKY
+PTP99_DROME/171-259           DNQTGVE.......IVKNSRN...SVET....LI..HFELQNL.RPYTDY
+EPHA2_HUMAN/436-519           KGDS.............NSYN...VRRT....EG.FSVTLDDL.APDTTY
+LAR_DROME/909-995             IDHGL...........GSERN...MTLR....K....AVFTNL.EENTEY
+NRCAM_CHICK/928-1014          INNTHEL.......GPLVEIR...IPAN....ES..SLILKNL.NYSTRY
+EPHB2_CHICK/437-521           KNLSE...........LNSTA...VKSP....TN..TVTVQNL.KAGTIY
+EPHA4_MOUSE/441-525           KDQN............ERSYR...IVRT....AA.RNTDIKGL.NPLTSY
+ITB4_HUMAN/1220-1310          VNDDNRP......IGPMKKVL...VDNP....KN.RMLLIENL.RESQPY
+#=GR ITB4_HUMAN/1220-1310  SS B-TTS-B......-S--EEEE...E--T....T-.-EEEE---.-TT--E
+ITB4_HUMAN/1641-1728          AQGGGP........ATAFRVD...GDSP....ES..RLTVPGL.SENVPY
+ITB4_HUMAN/1528-1612          LNGGE...........LHRLN...IPNP....AQ.TSVVVEDL.LPNHSY
+#=GC SS_cons                  TTTCC-B......-SGCEEEE...EETT....TS.-EEEEES-.-TT-EE
+#=GC seq_cons                 tsssp...........hpphs...lsss....p...phslpsL.pPsspY
+
+TIE1_HUMAN/644-729            LFRMR.ASI.QG....LGDWS
+NCAM1_BOVIN/509-597           AVRLA.ALNGKG....LGEIS
+LAR_DROME/417-503             TVRVQ.AYTSMG....AGPMS
+NGCA_CHICK/700-794            QIRVQ.AVNGAG....KGPEA
+MPSF_CHICK/499-585            VFRVL.SANKHG....ISDPS
+MPSF_CHICK/371-457            IFRVR.AVNSAG....ISRPS
+MPSF_CHICK/600-684            IFRVK.AVNAVG....FSENS
+NRCAM_CHICK/623-709           SFRVI.AVNEIG....RSQPS
+MYPC2_CHICK/631-717           EMRVF.AVNAIG....VSQPS
+MYLK_CHICK/1318-1403          KFRVR.AANVYG....ISEPS
+CNTN2_CHICK/602-692           EFRVL.ASNILG....VGEPS
+MPSF_CHICK/699-785            EFKIA.AANVVG....IGHPS
+MPSF_CHICK/801-887            VFKVR.AVNDAG....VGKSS
+MYPC2_CHICK/924-1006          RFRVY.SENVC.......GTS
+LAR_DROME/322-404             EFYVI.AVNNIG....RGPPS
+FAS2_SCHAM/530-616            NFRFA.AQNEVG....FGPWS
+PTP69_DROME/332-425           EFRVR.ACSDLTK..TCGPWS
+TENA_CHICK/1227-1306          EIELY.GVSSG.......RRS
+#=GR TENA_CHICK/1227-1306  SS EEEEE.EESSS.......-B-
+TENA_CHICK/1136-1215          IVYLY.GISHG.......FRT
+TENA_HUMAN/1529-1608          EVMVS.GFTQG.......HQT
+TENA_CHICK/1045-1124          NVTLY.GVIRG.......YRT
+TENA_HUMAN/1255-1335          TVTLH.GEVRG.......HST
+PTPRB_HUMAN/22-103            NFKII.SLDEE........RT
+TIE2_HUMAN/639-724            QVDIF.AENNIG....SSNPA
+LAR_DROME/515-598             YIWLA.ARSQRG....EGATT
+FINC_BOVIN/577-660            EGQLI.SVQHY......GQRE
+TIE1_HUMAN/446-533            SVRVQLSRPGEGG...EGAWG
+PTPRK_MOUSE/290-376           EIRVLLTRPGEGG...TGLPG
+TIE2_HUMAN/444-529            ELCVQ.LVRRGE....GGEGH
+TIE2_HUMAN/543-626            VVRAR..VNTKA....QGEWS
+7LESS_DROVI/1917-1997         SCRLA.LAYAAT....PGAPI
+PTPRZ_HUMAN/312-401           VLQIV.AICTNGL...YGKYS
+FAS2_SCHAM/642-735            KVEVR.ATNAIG....NSVPG
+NCAM1_BOVIN/610-691           EVYVV.AENQQ.......GKS
+ITB4_HUMAN/1127-1208          EMKVC.AYGAQG....EGPYS
+#=GR ITB4_HUMAN/1127-1208  SS EEEEE.EEETTE....E----
+UFO_HUMAN/327-411             TVCVA.AYTAAG....DGPWS
+KALM_CHICK/543-641            RLEVQ.VLTTGG....EGPAT
+PTP10_DROME/958-1044          VFKIQ.AKTAIG....FGPER
+PTP69_DROME/236-321           FLRIV.GKNSIG....NGQPT
+NRG_DROME/917-1007            RISIT.ATTKMG....EGSEH
+FINC_BOVIN/689-768            TVNVY.EISEE.......GEQ
+FINC_BOVIN/780-858            NITIY.AVEEN.......QES
+IL7RA_HUMAN/129-221           EIKVR.SIPDHYFKGFWSEWS
+PTP10_DROME/405-485           SLSVQ.AVSKK.......MES
+FINC_BOVIN/1417-1499          TITVY.AVTGRG....DSPAS
+FINC_RAT/1266-1346            DISVI.TLING.......GES
+FINC_BOVIN/1327-1406          VVSIV.ALNSK.......EES
+TENA_CHICK/1317-1395          NVNII.SVKGF.......EES
+#=GR TENA_CHICK/1317-1395  SS EEEEE.EEETT.......EE-
+FINC_BOVIN/875-955            HFKVF.AVNQG.......RES
+FINC_BOVIN/1511-1590          VVSVY.AQNQN.......GES
+TENA_CHICK/864-945            GIGVT.AVRQD.......RES
+TENA_CHICK/593-671            FIRVF.AILKN.......KKS
+FINC_BOVIN/1142-1225          NVSVY.TVKDD.......KES
+FINC_BOVIN/1693-1771          KIHLY.TLNDN.......ARS
+FINC_BOVIN/1236-1316          LVSVS.SVYEQ.......HES
+FINC_BOVIN/1601-1680          EVSVY.ALKDT.......LTS
+TENA_CHICK/1494-1571          TVKLQ.ALSRS.......MRS
+TENA_CHICK/956-1033           TISLV.AEKGR.......HKS
+TENA_CHICK/682-767            NVSLH.IVKNNTR...GPGLS
+TENA_CHICK/774-853            EVTLI.SRRGD.......MES
+TENA_CHICK/1406-1483          TLRVH.AVKDA.......QKS
+FINC_BOVIN/1782-1861          TIQVI.ALKNN.......QKS
+PTPRB_HUMAN/1085-1162         KMVIV.THSGE........LS
+PTPRB_HUMAN/1173-1250         VLWVV.THSGD........LS
+PTPRB_HUMAN/554-632           SVVVT.TVSGG.......ISS
+PTPRB_HUMAN/643-725           TVTIT.TRSGKYE...NHSFS
+PTPRB_HUMAN/731-808           SVTVT.TKSGQ........YE
+PTPRB_HUMAN/995-1074          KIQIL.TVSGG.......LFS
+PTPRB_HUMAN/467-543           MATVT.SISGD........LK
+PTPRB_HUMAN/907-984           QIMIA.SVSGS........LK
+PTPRB_HUMAN/112-192           NIAIT.AVSGG.......KRS
+PTPRB_HUMAN/1355-1434         LVSIK.VQSAG.......MTS
+PTP10_DROME/583-661           TIQVN.TVSFG.......VES
+PTP10_DROME/312-394           NVIVK.TVSGK.......VTS
+PTP10_DROME/217-301           NISVQ.TMSED.......EIS
+PTP10_DROME/123-205           QVQAY.TIYDG.......KES
+EPHA2_HUMAN/329-420           TFTVE.ARNGV........SG
+EPHA1_HUMAN/333-431           TFNVE.AQNGVS....GLGSS
+EPHB2_CHICK/326-422           TFEIQ.AVNGVTD...QSPFS
+EPHA3_CHICK/325-421           TFEID.AVNGVSD...LSTLS
+PTP10_DROME/864-944           TFTVV.VRSGTES..SVLRSS
+PTPRB_HUMAN/1261-1344         QFNVK.TVSGDS....WKTYS
+TIE1_HUMAN/545-632            QLDVQ.LYHCTL....LGPAS
+7LESS_DROME/1799-1891         SLWVQ.AHATPT....KSNSS
+PHB_ALCFA/344-418             SYTVT.AVDPTAG...ESQPS
+APU_THETY/928-1009            VYAVT.AVDNDGN...ESALS
+CHIT_STRLI/142-219            SYSVK.ARDTADQ...TGPAS
+CHIA1_BACCI/465-542           TFTIK.AKDAAGN...LSAAS
+GUNB_CELFI/651-733            SYVVK.AKDVAGN...VSAAS
+CHIX_STROI/169-240            AFQVA.AVNGA.......GES
+APU_THETY/1165-1248           YYKVV.AVDTSY....NRTAS
+KALM_CHICK/177-269            QFRVA.AVNVHG....TRGFT
+CNTN1_CHICK/799-884           HIDVS.AFNSAG....YGPPS
+CNTN2_CHICK/807-896           HVSVR.AYNRAG....AGPPS
+NRG_DROME/815-905             YARIL.AYNGRF....NGPPS
+L1CAM_HUMAN/812-907           HLEVQ.AFNGRG....SGPAS
+LAR_DROME/709-800             SIQVA.ALTRKG....DGDRS
+PTP99_DROME/171-259           RVIVK.AFTTKN....EGEPS
+EPHA2_HUMAN/436-519           LVQVQ.ALTQEG....QGAGS
+LAR_DROME/909-995             IFRVR.AYTKQG....AGPFS
+NRCAM_CHICK/928-1014          KFYFN.AQTSV......GSGS
+EPHB2_CHICK/437-521           VFQVR.ARTVAG....YGRYS
+EPHA4_MOUSE/441-525           VFHVR.ARTAAG....YGDFS
+ITB4_HUMAN/1220-1310          RYTVK.ARNGAG....WGPER
+#=GR ITB4_HUMAN/1220-1310  SS EEEEE.EEETTE....E--BE
+ITB4_HUMAN/1641-1728          KFKVQ.ARTTEG....FGPER
+ITB4_HUMAN/1528-1612          VFRVR.AQSQEG....WGRER
+#=GC SS_cons                  EEEEE.EEETTE....E-EBE
+#=GC seq_cons                 phpVt.Ahsst.......t.S
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.hmm b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.hmm
new file mode 100755
index 0000000..5450969
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.hmm
@@ -0,0 +1,469 @@
+HMMER3/f [3.1b1 | May 2013]
+NAME  globins4
+LENG  149
+ALPH  amino
+RF    no
+MM    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 19 18:00:17 2014
+NSEQ  4
+EFFN  0.964844
+CKSUM 2027839109
+STATS LOCAL MSV       -9.9014  0.70957
+STATS LOCAL VITERBI  -10.7224  0.70957
+STATS LOCAL FORWARD   -4.1637  0.70957
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.36553  4.52577  2.96709  2.70473  3.20818  3.02239  3.41069  2.90041  2.55332  2.35210  3.67329  3.19812  3.45595  3.16091  3.07934  2.66722  2.85475  2.56965  4.55393  3.62921
+          2.68640  4.42247  2.77497  2.73145  3.46376  2.40504  3.72516  3.29302  2.67763  2.69377  4.24712  2.90369  2.73719  3.18168  2.89823  2.37879  2.77497  2.98431  4.58499  3.61525
+          0.57544  1.78073  1.31293  1.75577  0.18968  0.00000        *
+      1   1.70038  4.17733  3.76164  3.36686  3.72281  3.29583  4.27570  2.40482  3.29230  2.54324  3.63799  3.55099  3.93183  3.61602  3.56580  2.71897  2.84104  1.67328  5.32720  4.10031      9 v - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03156  3.86736  4.58970  0.61958  0.77255  0.34406  1.23405
+      2   2.62748  4.47174  3.31917  2.82619  3.63815  3.49607  2.75382  3.03401  2.75280  2.74783  3.65114  3.24714  2.62341  3.12082  3.11124  2.79244  2.89355  1.88003  5.06315  3.77128     10 v - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      3   3.50771  4.88753  4.66754  4.31907  3.27776  4.35743  4.88268  2.50779  4.08449  0.57907  3.22569  4.56607  4.74802  4.37991  4.20749  3.97946  3.79191  2.62059  5.25407  4.04279     11 L - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      4   2.34080  4.28719  3.51550  3.22063  4.37406  3.06195  4.29366  3.74891  3.24370  3.47337  4.31943  3.39310  3.80273  3.56072  3.55390  1.08280  2.00280  3.23325  5.72380  4.49519     12 s - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      5   2.04218  4.87966  2.77126  1.92448  4.32563  3.33660  3.78415  3.73388  2.61886  3.34029  4.16568  2.96714  2.18012  2.94561  3.07633  2.70238  2.96803  3.36068  5.56791  4.21854     13 e - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      6   1.67844  4.79514  2.78469  2.00544  4.34945  2.26719  3.85010  3.76260  2.72087  3.37961  4.20641  2.99947  3.85561  3.02442  3.17766  2.68798  2.96575  3.36703  5.60901  4.27005     14 a - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      7   3.05756  5.63998  1.78612  1.06702  4.93093  3.31407  3.86695  4.45859  2.89031  3.95237  4.80915  2.77798  3.94091  3.03432  3.48933  2.93505  3.34810  4.02575  6.09427  4.58708     15 e - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      8   2.98085  4.92154  3.50401  2.91209  3.76425  3.70161  3.75301  3.57060  1.24921  3.12012  4.04714  3.32210  4.09411  3.00014  2.54951  3.05147  3.18982  3.31354  2.52964  3.70813     16 k - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      9   2.59353  4.69451  3.03503  2.60972  4.18917  3.33498  3.80536  3.60013  2.58953  3.21847  4.04944  3.07115  3.85428  2.20828  2.99231  2.14672  1.84753  3.23346  5.45458  4.14691     17 t - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     10   2.23880  4.76665  3.06952  2.55248  4.02235  3.47005  3.69787  3.40277  2.01551  2.36330  3.87991  2.51243  3.88223  2.86967  2.84293  2.72413  2.90300  3.10205  5.29826  3.99496     18 k - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     11   3.19694  4.48391  4.99800  4.51340  3.70437  4.59686  5.22508  1.39091  4.40799  2.19554  3.49619  4.71017  4.90059  4.67186  4.59646  3.99910  3.46528  0.94853  5.69937  4.48740     19 v - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     12   2.75048  4.80166  3.26496  2.66512  4.05387  3.56143  3.69034  3.41974  1.98979  2.32315  3.89028  3.13074  3.94179  2.86188  2.09152  2.81637  2.39268  3.13531  5.28085  4.01795     20 k - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     13   1.76333  4.59630  3.10164  2.67897  4.07335  3.31056  2.49445  3.52561  2.68943  3.16162  4.00001  3.11582  3.85067  3.04885  3.09407  2.02147  2.87931  3.16321  5.39081  4.07911     21 a - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     14   1.74676  4.33104  4.10096  3.58029  3.53459  3.81128  4.36357  2.24459  3.48183  1.89076  3.43717  3.84444  4.26434  3.77047  3.74451  3.15389  3.06390  1.66791  5.19600  3.98969     22 v - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     15   3.87954  5.13867  4.57762  4.36488  3.03765  4.09084  4.31854  3.92859  4.08791  3.26710  4.54641  4.45726  4.63521  4.45940  4.15994  4.08011  4.19741  3.82655  0.45161  3.02591     23 W - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     16   1.17729  4.26198  3.57130  3.34611  4.48932  1.56793  4.42455  3.86761  3.45066  3.59704  4.43496  3.45644  3.80449  3.71634  3.74017  2.51428  2.83714  3.30004  5.82592  4.64145     24 a - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     17   2.88817  5.04467  3.10563  2.67545  4.50902  3.51529  3.78021  3.92264  1.24585  3.45270  4.30607  3.14138  2.36832  2.93193  2.59730  2.90680  3.14272  3.56445  5.56837  4.31000     25 k - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     18   3.05146  4.52367  4.53075  4.21316  3.78794  4.02425  4.96997  2.08597  4.08612  2.42902  3.71686  4.35272  4.57557  4.42900  4.26873  3.55467  3.41034  0.71672  5.61943  4.36559     26 v - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15590  4.17053  2.04864  0.61958  0.77255  0.48576  0.95510
+     19   2.68479  4.81315  2.78148  1.93235  3.94110  2.58636  3.69416  3.47083  2.55190  3.09021  3.94228  2.95115  3.85408  2.89111  2.99210  2.72265  2.93521  3.16412  5.27296  2.55092     27 e - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02646  4.04109  4.76344  0.61958  0.77255  0.62497  0.76632
+     20   1.24956  4.17178  3.49549  3.21559  4.28754  2.96447  4.26633  3.63846  3.25854  3.38649  4.23557  3.34723  3.71824  3.55069  3.55664  1.64035  2.73156  3.12303  5.65279  4.43774     28 a - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02646  4.04109  4.76344  0.61958  0.77255  0.40762  1.09431
+     21   2.72255  5.13686  2.10819  2.30370  4.43753  3.36911  2.77903  3.91156  2.48945  3.43909  4.22575  2.32339  3.83724  2.80393  2.98938  2.68803  2.27927  3.51682  5.60972  4.20361     31 d - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     22   2.21080  4.24532  3.90070  3.37171  3.30266  3.69693  4.07080  2.48422  3.27322  2.39225  3.38783  3.64703  4.12115  3.55460  3.52849  3.01029  2.94053  1.60162  4.85781  2.46888     32 v - - -
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    146   1.96741  4.60402  3.09101  2.67267  4.09875  3.30287  2.64764  3.55483  2.68845  3.18630  4.02165  3.11035  3.84730  3.04694  3.09548  1.72418  2.88008  3.18467  5.41006  4.09565    162 s - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    147   2.02427  4.88556  3.14956  2.70898  4.40362  3.45865  3.80224  3.73109  1.30907  3.34916  4.21424  3.15279  3.95761  2.96243  2.65527  2.83485  3.06573  3.38348  5.54009  4.27566    163 k - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    148   3.70647  5.07328  4.29292  4.08736  2.37118  4.18885  3.80078  3.67800  3.93734  3.05218  4.32316  4.11065  4.65987  4.16910  4.05541  3.80923  3.99693  3.56378  4.02310  0.58497    164 Y - - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.19360  4.17053  1.82902  0.61958  0.77255  0.48576  0.95510
+    149   2.92198  5.11574  3.28049  2.65489  4.47826  3.59727  2.51142  3.88373  1.57593  3.35205  4.19259  3.10178  3.96579  2.72398  1.84611  2.91372  3.10363  3.55066  5.42147  4.18835    165 k - - -
+          2.68634  4.42241  2.77536  2.73098  3.46370  2.40469  3.72511  3.29370  2.67757  2.69331  4.24706  2.90363  2.73756  3.18097  2.89817  2.37903  2.77536  2.98535  4.58493  3.61418
+          0.22163  1.61553        *  1.50361  0.25145  0.00000        *
+//
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.out b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.out
new file mode 100755
index 0000000..f974365
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.out
@@ -0,0 +1,19847 @@
+# hmmsearch :: search profile(s) against a sequence database
+# HMMER 3.1 (February 2013); http://hmmer.org/
+# Copyright (C) 2011 Howard Hughes Medical Institute.
+# Freely distributed under the GNU General Public License (GPLv3).
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+# query HMM file:                  globins4.hmm
+# target sequence database:        uniprot_sprot.fasta
+# per-seq hits tabular output:     globins4.tbl
+# per-dom hits tabular output:     globins4.domtbl
+# number of worker threads:        2
+# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
+
+Query:       globins4  [M=149]
+Scores for complete sequences (score includes all domains):
+   --- full sequence ---   --- best 1 domain ---    -#dom-
+    E-value  score  bias    E-value  score  bias    exp  N  Sequence              Description
+    ------- ------ -----    ------- ------ -----   ---- --  --------              -----------
+    6.5e-65  222.7   3.2    7.2e-65  222.6   3.2    1.0  1  sp|P02185|MYG_PHYMC    Myoglobin OS=Physeter macrocephalus GN
+    3.3e-63  217.2   0.1    3.7e-63  217.0   0.1    1.0  1  sp|P02024|HBB_GORGO    Hemoglobin subunit beta OS=Gorilla gor
+    4.9e-63  216.6   0.0    5.4e-63  216.5   0.0    1.0  1  sp|P68871|HBB_HUMAN    Hemoglobin subunit beta OS=Homo sapien
+    4.9e-63  216.6   0.0    5.4e-63  216.5   0.0    1.0  1  sp|P68872|HBB_PANPA    Hemoglobin subunit beta OS=Pan paniscu
+    4.9e-63  216.6   0.0    5.4e-63  216.5   0.0    1.0  1  sp|P68873|HBB_PANTR    Hemoglobin subunit beta OS=Pan troglod
+      7e-63  216.1   3.0    7.7e-63  216.0   3.0    1.0  1  sp|P02177|MYG_ESCGI    Myoglobin OS=Eschrichtius gibbosus GN=
+      7e-63  216.1   3.0    7.7e-63  216.0   3.0    1.0  1  sp|Q0KIY1|MYG_BALBO    Myoglobin OS=Balaenoptera borealis GN=
+      7e-63  216.1   3.0    7.7e-63  216.0   3.0    1.0  1  sp|Q0KIY2|MYG_BALED    Myoglobin OS=Balaenoptera edeni GN=MB 
+    7.6e-63  216.0   0.1    8.4e-63  215.9   0.1    1.0  1  sp|P02025|HBB_HYLLA    Hemoglobin subunit beta OS=Hylobates l
+    1.1e-62  215.6   0.2    1.2e-62  215.4   0.2    1.0  1  sp|P02033|HBB_PILBA    Hemoglobin subunit beta OS=Piliocolobu
+    1.1e-62  215.5   3.7    1.2e-62  215.3   3.7    1.0  1  sp|P02178|MYG_MEGNO    Myoglobin OS=Megaptera novaeangliae GN
+    2.3e-62  214.4   1.8    2.6e-62  214.3   1.8    1.0  1  sp|P02174|MYG_GLOME    Myoglobin OS=Globicephala melas GN=MB 
+    4.2e-62  213.6   1.8    4.6e-62  213.5   1.8    1.0  1  sp|P02173|MYG_ORCOR    Myoglobin OS=Orcinus orca GN=MB PE=1 S
+    4.6e-62  213.5   4.2    5.1e-62  213.3   4.2    1.0  1  sp|P02179|MYG_BALAC    Myoglobin OS=Balaenoptera acutorostrat
+    4.9e-62  213.4   1.3    5.5e-62  213.2   1.3    1.0  1  sp|P02181|MYG_INIGE    Myoglobin OS=Inia geoffrensis GN=MB PE
+    5.3e-62  213.3   0.1    5.9e-62  213.1   0.1    1.0  1  sp|P02028|HBB_CHLAE    Hemoglobin subunit beta OS=Chlorocebus
+    5.6e-62  213.2   4.2    6.3e-62  213.0   4.2    1.0  1  sp|P02184|MYG_KOGSI    Myoglobin OS=Kogia sima GN=MB PE=1 SV=
+    5.6e-62  213.2   4.2    6.3e-62  213.0   4.2    1.0  1  sp|Q0KIY5|MYG_KOGBR    Myoglobin OS=Kogia breviceps GN=MB PE=
+    7.1e-62  212.9   0.2    7.9e-62  212.7   0.2    1.0  1  sp|P02040|HBB_CEBAL    Hemoglobin subunit beta OS=Cebus albif
+      1e-61  212.3   1.8    1.2e-61  212.2   1.8    1.0  1  sp|Q0KIY3|MYG_PENEL    Myoglobin OS=Peponocephala electra GN=
+    1.1e-61  212.3   0.1    1.2e-61  212.1   0.1    1.0  1  sp|Q6WN25|HBB_LAGLA    Hemoglobin subunit beta OS=Lagothrix l
+    1.1e-61  212.3   2.0    1.2e-61  212.1   2.0    1.0  1  sp|P68276|MYG_DELDE    Myoglobin OS=Delphinus delphis GN=MB P
+    1.1e-61  212.3   2.0    1.2e-61  212.1   2.0    1.0  1  sp|P68279|MYG_TURTR    Myoglobin OS=Tursiops truncatus GN=MB 
+    1.1e-61  212.3   2.0    1.2e-61  212.1   2.0    1.0  1  sp|Q0KIY7|MYG1_STEAT   Myoglobin-1 OS=Stenella attenuata GN=M
+    1.1e-61  212.2   0.1    1.3e-61  212.1   0.1    1.0  1  sp|P02032|HBB_SEMEN    Hemoglobin subunit beta OS=Semnopithec
+    1.2e-61  212.2   1.4    1.3e-61  212.0   1.4    1.0  1  sp|P68277|MYG_PHODA    Myoglobin OS=Phocoenoides dalli dalli 
+    1.2e-61  212.2   1.4    1.3e-61  212.0   1.4    1.0  1  sp|P68278|MYG_PHOPH    Myoglobin OS=Phocoenoides phocoena GN=
+    1.2e-61  212.1   0.2    1.4e-61  211.9   0.2    1.0  1  sp|P67821|HBB_CEBAP    Hemoglobin subunit beta OS=Cebus apell
+    1.2e-61  212.1   2.5    1.4e-61  211.9   2.5    1.0  1  sp|Q0KIY6|MYG2_STEAT   Myoglobin-2 OS=Stenella attenuata GN=M
+    1.4e-61  211.9   0.1    1.5e-61  211.8   0.1    1.0  1  sp|P08259|HBB_MANSP    Hemoglobin subunit beta OS=Mandrillus 
+    1.4e-61  211.9   0.1    1.6e-61  211.7   0.1    1.0  1  sp|P19885|HBB_COLPO    Hemoglobin subunit beta OS=Colobus pol
+    1.5e-61  211.8   0.2    1.7e-61  211.7   0.2    1.0  1  sp|P67822|HBB_CEBCA    Hemoglobin subunit beta OS=Cebus capuc
+      2e-61  211.4   0.9    2.3e-61  211.2   0.9    1.0  1  sp|P13557|HBB_TARSY    Hemoglobin subunit beta OS=Tarsius syr
+    2.9e-61  210.9   1.8    3.2e-61  210.7   1.8    1.0  1  sp|P02169|MYG_LEPMU    Myoglobin OS=Lepilemur mustelinus GN=M
+      4e-61  210.4   0.2    4.4e-61  210.3   0.2    1.0  1  sp|P02055|HBB_MELME    Hemoglobin subunit beta OS=Meles meles
+      4e-61  210.4   0.7    4.5e-61  210.3   0.7    1.0  1  sp|P02051|HBB_TARBA    Hemoglobin subunit beta OS=Tarsius ban
+    4.1e-61  210.4   0.1    4.6e-61  210.2   0.1    1.0  1  sp|P02030|HBB_PAPCY    Hemoglobin subunit beta OS=Papio cynoc
+    4.2e-61  210.4   0.1    4.7e-61  210.2   0.1    1.0  1  sp|Q9TSP1|HBB_PAPAN    Hemoglobin subunit beta OS=Papio anubi
+    4.6e-61  210.2   0.1    5.1e-61  210.1   0.1    1.0  1  sp|P68222|HBB_MACFU    Hemoglobin subunit beta OS=Macaca fusc
+    4.6e-61  210.2   0.1    5.1e-61  210.1   0.1    1.0  1  sp|P68223|HBB_MACFA    Hemoglobin subunit beta OS=Macaca fasc
+    4.6e-61  210.2   0.1    5.1e-61  210.1   0.1    1.0  1  sp|P68224|HBB_MACSP    Hemoglobin subunit beta OS=Macaca spec
+    4.6e-61  210.2   0.1    5.1e-61  210.1   0.1    1.0  1  sp|P68225|HBB_MACNE    Hemoglobin subunit beta OS=Macaca neme
+    4.7e-61  210.2   0.1    5.2e-61  210.1   0.1    1.0  1  sp|P02036|HBB_SAISC    Hemoglobin subunit beta OS=Saimiri sci
+    6.3e-61  209.8   0.1      7e-61  209.6   0.1    1.0  1  sp|P68232|HBB_ATEGE    Hemoglobin subunit beta OS=Ateles geof
+    6.3e-61  209.8   0.1      7e-61  209.6   0.1    1.0  1  sp|P68234|HBB_ATEBE    Hemoglobin subunit beta OS=Ateles belz
+    6.7e-61  209.7   0.1    7.5e-61  209.5   0.1    1.0  1  sp|Q6WN29|HBB_ALOBE    Hemoglobin subunit beta OS=Alouatta be
+    6.8e-61  209.7   0.1    7.6e-61  209.5   0.1    1.0  1  sp|P02026|HBB_MACMU    Hemoglobin subunit beta OS=Macaca mula
+    6.9e-61  209.7   0.2    7.6e-61  209.5   0.2    1.0  1  sp|P21201|HBB_VULVU    Hemoglobin subunit beta OS=Vulpes vulp
+    7.7e-61  209.5   0.1    8.5e-61  209.4   0.1    1.0  1  sp|P02035|HBB_AOTTR    Hemoglobin subunit beta OS=Aotus trivi
+    8.3e-61  209.4   0.1    9.2e-61  209.3   0.1    1.0  1  sp|P02039|HBB_SAGFU    Hemoglobin subunit beta OS=Saguinus fu
+    8.4e-61  209.4   0.6    9.3e-61  209.2   0.6    1.0  1  sp|P02166|MYG_PERPO    Myoglobin OS=Perodicticus potto edwars
+    8.7e-61  209.3   0.1    9.7e-61  209.2   0.1    1.0  1  sp|P02038|HBB_SAGMY    Hemoglobin subunit beta OS=Saguinus my
+    8.7e-61  209.3   0.1    9.7e-61  209.2   0.1    1.0  1  sp|P02029|HBB_THEGE    Hemoglobin subunit beta OS=Theropithec
+    8.9e-61  209.3   0.2    9.8e-61  209.2   0.2    1.0  1  sp|P18985|HBB_CALAR    Hemoglobin subunit beta OS=Callithrix 
+      9e-61  209.3   0.2      1e-60  209.1   0.2    1.0  1  sp|Q6WN28|HBB_CALJA    Hemoglobin subunit beta OS=Callithrix 
+    9.9e-61  209.2   0.1    1.1e-60  209.0   0.1    1.0  1  sp|Q6WN27|HBB_PITPI    Hemoglobin subunit beta OS=Pithecia pi
+    1.1e-60  209.0   0.1    1.2e-60  208.9   0.1    1.0  1  sp|P68054|HBB_SAGNI    Hemoglobin subunit beta OS=Saguinus ni
+    1.1e-60  209.0   0.1    1.2e-60  208.9   0.1    1.0  1  sp|P68055|HBB_SAGOE    Hemoglobin subunit beta OS=Saguinus oe
+    1.2e-60  208.9   4.4    1.3e-60  208.8   4.4    1.0  1  sp|P02180|MYG_BALPH    Myoglobin OS=Balaenoptera physalus GN=
+    1.2e-60  208.9   0.1    1.4e-60  208.7   0.1    1.0  1  sp|P02031|HBB_CERAT    Hemoglobin subunit beta OS=Cercocebus 
+    1.3e-60  208.7   3.8    1.5e-60  208.6   3.8    1.0  1  sp|P02182|MYG_ZIPCA    Myoglobin OS=Ziphius cavirostris GN=MB
+    1.5e-60  208.6   0.1    1.7e-60  208.4   0.1    1.0  1  sp|P02044|HBD_ATEGE    Hemoglobin subunit delta OS=Ateles geo
+    2.4e-60  207.9   1.2    2.6e-60  207.8   1.2    1.0  1  sp|P68082|MYG_HORSE    Myoglobin OS=Equus caballus GN=MB PE=1
+    2.4e-60  207.9   1.2    2.6e-60  207.8   1.2    1.0  1  sp|P68083|MYG_EQUBU    Myoglobin OS=Equus burchelli GN=MB PE=
+    2.7e-60  207.7   0.2      3e-60  207.6   0.2    1.0  1  sp|P60524|HBB_CANFA    Hemoglobin subunit beta OS=Canis famil
+    2.7e-60  207.7   0.2      3e-60  207.6   0.2    1.0  1  sp|P60525|HBB_CANLA    Hemoglobin subunit beta OS=Canis latra
+    2.7e-60  207.7   0.2      3e-60  207.6   0.2    1.0  1  sp|P60526|HBB_CHRBR    Hemoglobin subunit beta OS=Chrysocyon 
+    2.9e-60  207.6   0.0    3.3e-60  207.5   0.0    1.0  1  sp|P61772|HBD_PANTR    Hemoglobin subunit delta OS=Pan troglo
+    2.9e-60  207.6   0.0    3.3e-60  207.5   0.0    1.0  1  sp|P61773|HBD_GORGO    Hemoglobin subunit delta OS=Gorilla go
+    2.9e-60  207.6   0.0    3.3e-60  207.5   0.0    1.0  1  sp|P61774|HBD_HYLLA    Hemoglobin subunit delta OS=Hylobates 
+    2.9e-60  207.6   0.0    3.3e-60  207.5   0.0    1.0  1  sp|P61775|HBD_PONPY    Hemoglobin subunit delta OS=Pongo pygm
+    2.9e-60  207.6   4.4    3.2e-60  207.5   4.4    1.0  1  sp|Q0KIY9|MYG_INDPC    Myoglobin OS=Indopacetus pacificus GN=
+      3e-60  207.6   0.1    3.3e-60  207.4   0.1    1.0  1  sp|Q6WN22|HBB_ATEPA    Hemoglobin subunit beta OS=Ateles pani
+      3e-60  207.6   0.2    3.3e-60  207.5   0.2    1.0  1  sp|P68046|HBB_ODORO    Hemoglobin subunit beta OS=Odobenus ro
+      3e-60  207.6   0.2    3.3e-60  207.5   0.2    1.0  1  sp|P68047|HBB_ARCGA    Hemoglobin subunit beta OS=Arctocephal
+    3.3e-60  207.5   0.2    3.6e-60  207.3   0.2    1.0  1  sp|P09909|HBB_PHOVI    Hemoglobin subunit beta OS=Phoca vitul
+    3.6e-60  207.3   3.7      4e-60  207.2   3.7    1.0  1  sp|P02183|MYG_MESCA    Myoglobin OS=Mesoplodon carlhubbsi GN=
+    3.6e-60  207.3   3.7      4e-60  207.2   3.7    1.0  1  sp|Q0KIY0|MYG_MESST    Myoglobin OS=Mesoplodon stejnegeri GN=
+    4.5e-60  207.0   0.3      5e-60  206.9   0.3    1.0  1  sp|P15449|HBB_MELCA    Hemoglobin subunit beta OS=Mellivora c
+    5.6e-60  206.7   0.1    6.2e-60  206.6   0.1    1.0  1  sp|Q6WN21|HBB_CALGO    Hemoglobin subunit beta OS=Callimico g
+    5.6e-60  206.7   0.3    6.2e-60  206.6   0.3    1.0  1  sp|P23602|HBB_MUSLU    Hemoglobin subunit beta OS=Mustela lut
+    5.8e-60  206.7   0.9    6.4e-60  206.5   0.9    1.0  1  sp|P02165|MYG_TUPGL    Myoglobin OS=Tupaia glis GN=MB PE=1 SV
+    5.9e-60  206.6   0.2    6.8e-60  206.4   0.2    1.0  1  sp|P02208|GLB5_PETMA   Globin-5 OS=Petromyzon marinus PE=1 SV
+    7.4e-60  206.3   0.3    8.2e-60  206.2   0.3    1.0  1  sp|Q6WN20|HBB_CALTO    Hemoglobin subunit beta OS=Callicebus 
+    7.5e-60  206.3   0.1    8.3e-60  206.1   0.1    1.0  1  sp|P33499|HBD_ATEFU    Hemoglobin subunit delta OS=Ateles fus
+    7.6e-60  206.3   0.1    8.4e-60  206.1   0.1    1.0  1  sp|Q6WN26|HBB_AOTAZ    Hemoglobin subunit beta OS=Aotus azara
+    8.7e-60  206.1   0.1    9.6e-60  205.9   0.1    1.0  1  sp|P18989|HBB_PROLO    Hemoglobin subunit beta OS=Procyon lot
+      1e-59  205.8   0.0    1.2e-59  205.7   0.0    1.0  1  sp|P02042|HBD_HUMAN    Hemoglobin subunit delta OS=Homo sapie
+    1.1e-59  205.8   1.6    1.2e-59  205.7   1.6    1.0  1  sp|P68080|MYG_PHOVI    Myoglobin OS=Phoca vitulina GN=MB PE=1
+    1.1e-59  205.8   1.6    1.2e-59  205.7   1.6    1.0  1  sp|P68081|MYG_HALGR    Myoglobin OS=Halichoerus grypus GN=MB 
+    1.1e-59  205.7   0.1    1.2e-59  205.6   0.1    1.0  1  sp|P19886|HBD_COLPO    Hemoglobin subunit delta OS=Colobus po
+    1.4e-59  205.5   0.2    1.5e-59  205.3   0.2    1.0  1  sp|P68052|HBB_PTEBR    Hemoglobin subunit beta OS=Pteronura b
+    1.4e-59  205.5   0.2    1.5e-59  205.3   0.2    1.0  1  sp|P68053|HBB_MARFO    Hemoglobin subunit beta OS=Martes foin
+    1.5e-59  205.3   0.1    1.7e-59  205.2   0.1    1.0  1  sp|P10893|HBB_LUTLU    Hemoglobin subunit beta OS=Lutra lutra
+    1.6e-59  205.2   0.1    1.8e-59  205.1   0.1    1.0  1  sp|P26916|HBB_NASNA    Hemoglobin subunit beta OS=Nasua nasua
+    1.6e-59  205.2   3.2    1.8e-59  205.1   3.2    1.0  1  sp|P02170|MYG_RABIT    Myoglobin OS=Oryctolagus cuniculus GN=
+    1.8e-59  205.1   0.9      2e-59  204.9   0.9    1.0  1  sp|P18984|HBB_BALAC    Hemoglobin subunit beta OS=Balaenopter
+    2.4e-59  204.6   0.3    2.7e-59  204.5   0.3    1.0  1  sp|P02167|MYG_NYCCO    Myoglobin OS=Nycticebus coucang GN=MB 
+    2.5e-59  204.6   0.3    2.7e-59  204.5   0.3    1.0  1  sp|P02145|MYG_PANTR    Myoglobin OS=Pan troglodytes GN=MB PE=
+    2.6e-59  204.5   0.2      3e-59  204.3   0.2    1.0  1  sp|Q9I9I3|GLB2_PETMA   Globin-2 OS=Petromyzon marinus PE=2 SV
+    2.7e-59  204.5   0.2      3e-59  204.4   0.2    1.0  1  sp|P15166|HBB_LEPWE    Hemoglobin subunit beta OS=Leptonychot
+    2.9e-59  204.4   1.2    3.3e-59  204.2   1.2    1.0  1  sp|P13558|HBD_TARSY    Hemoglobin subunit delta OS=Tarsius sy
+      3e-59  204.3   0.7    3.4e-59  204.2   0.7    1.0  1  sp|P02189|MYG_PIG      Myoglobin OS=Sus scrofa GN=MB PE=1 SV=
+    3.2e-59  204.2   1.6    3.6e-59  204.1   1.6    1.0  1  sp|Q9TS35|HBA1_HYLLA   Hemoglobin subunit alpha-1 OS=Hylobate
+    3.3e-59  204.2   0.1    3.7e-59  204.1   0.1    1.0  1  sp|P68011|HBB_URSMA    Hemoglobin subunit beta OS=Ursus marit
+    3.3e-59  204.2   0.1    3.7e-59  204.1   0.1    1.0  1  sp|P68012|HBB_URSTH    Hemoglobin subunit beta OS=Ursus thibe
+    3.3e-59  204.2   0.1    3.7e-59  204.1   0.1    1.0  1  sp|P68013|HBB_URSML    Hemoglobin subunit beta OS=Ursus malay
+    3.4e-59  204.2   0.2    3.8e-59  204.0   0.2    1.0  1  sp|P18983|HBB_AILME    Hemoglobin subunit beta OS=Ailuropoda 
+    3.4e-59  204.2   1.3    3.8e-59  204.0   1.3    1.0  1  sp|P69905|HBA_HUMAN    Hemoglobin subunit alpha OS=Homo sapie
+    3.4e-59  204.2   1.3    3.8e-59  204.0   1.3    1.0  1  sp|P69906|HBA_PANPA    Hemoglobin subunit alpha OS=Pan panisc
+    3.4e-59  204.2   1.3    3.8e-59  204.0   1.3    1.0  1  sp|P69907|HBA_PANTR    Hemoglobin subunit alpha OS=Pan troglo
+    4.4e-59  203.8   0.3    4.8e-59  203.7   0.3    1.0  1  sp|P11343|MYG_LUTLU    Myoglobin OS=Lutra lutra GN=MB PE=1 SV
+    4.6e-59  203.7   0.4    5.1e-59  203.6   0.4    1.0  1  sp|P02147|MYG_GORBE    Myoglobin OS=Gorilla gorilla beringei 
+    5.4e-59  203.5   0.3      6e-59  203.4   0.3    1.0  1  sp|P08535|HBB_LEPEU    Hemoglobin subunit beta OS=Lepus europ
+    5.9e-59  203.4   0.9    6.5e-59  203.3   0.9    1.0  1  sp|P02161|MYG_ZALCA    Myoglobin OS=Zalophus californianus GN
+    5.9e-59  203.4   1.3    6.6e-59  203.2   1.3    1.0  1  sp|P07421|HBA_CEBCA    Hemoglobin subunit alpha OS=Cebus capu
+    6.9e-59  203.2   0.1    7.7e-59  203.0   0.1    1.0  1  sp|Q03902|HBD_OTOCR    Hemoglobin subunit delta OS=Otolemur c
+    7.3e-59  203.1   0.4      8e-59  203.0   0.4    1.0  1  sp|P20856|MYG_CTEGU    Myoglobin OS=Ctenodactylus gundi GN=MB
+    7.5e-59  203.0   0.2    8.3e-59  202.9   0.2    1.0  1  sp|P68044|HBB_MUSPF    Hemoglobin subunit beta OS=Mustela put
+    7.5e-59  203.0   0.2    8.3e-59  202.9   0.2    1.0  1  sp|P68045|HBB_MUSPU    Hemoglobin subunit beta OS=Mustela put
+    8.3e-59  202.9   1.0    9.2e-59  202.8   1.0    1.0  1  sp|P32428|MYG_ONDZI    Myoglobin OS=Ondatra zibethicus GN=MB 
+    8.7e-59  202.8   1.4    9.6e-59  202.7   1.4    1.0  1  sp|P14396|MYG_CASFI    Myoglobin OS=Castor fiber GN=MB PE=1 S
+    9.1e-59  202.8   1.3      1e-58  202.6   1.3    1.0  1  sp|P18972|HBA_CALAR    Hemoglobin subunit alpha OS=Callithrix
+    9.2e-59  202.8   0.2      1e-58  202.6   0.2    1.0  1  sp|Q5XLE5|HBD_AILME    Hemoglobin subunit delta OS=Ailuropoda
+    9.2e-59  202.8   0.3      1e-58  202.6   0.3    1.0  1  sp|P02144|MYG_HUMAN    Myoglobin OS=Homo sapiens GN=MB PE=1 S
+    1.1e-58  202.5   1.2    1.2e-58  202.4   1.2    1.0  1  sp|P01923|HBA_GORGO    Hemoglobin subunit alpha OS=Gorilla go
+    1.2e-58  202.4   3.4    1.3e-58  202.3   3.4    1.0  1  sp|P02192|MYG_BOVIN    Myoglobin OS=Bos taurus GN=MB PE=1 SV=
+    1.2e-58  202.4   3.4    1.3e-58  202.3   3.4    1.0  1  sp|P86873|MYG_BISBI    Myoglobin OS=Bison bison GN=MB PE=1 SV
+    1.2e-58  202.4   3.4    1.3e-58  202.3   3.4    1.0  1  sp|Q2MJN4|MYG_BOSMU    Myoglobin OS=Bos mutus grunniens GN=MB
+    1.2e-58  202.4   0.5    1.3e-58  202.2   0.5    1.0  1  sp|P02057|HBB_RABIT    Hemoglobin subunit beta-1/2 OS=Oryctol
+    1.3e-58  202.2   0.1    1.5e-58  202.1   0.1    1.0  1  sp|P02049|HBB_NYCCO    Hemoglobin subunit beta OS=Nycticebus 
+    1.4e-58  202.2   0.3    1.5e-58  202.1   0.3    1.0  1  sp|P02163|MYG_ROUAE    Myoglobin OS=Rousettus aegyptiacus GN=
+    1.4e-58  202.2   0.2    1.6e-58  202.0   0.2    1.0  1  sp|P02207|GLB_LAMFL    Globin OS=Lampetra fluviatilis PE=1 SV
+    1.4e-58  202.2   0.1    1.5e-58  202.1   0.1    1.0  1  sp|P18986|HBB_CROCR    Hemoglobin subunit beta OS=Crocuta cro
+    1.4e-58  202.1   0.4    1.6e-58  202.0   0.4    1.0  1  sp|P62734|MYG_HYLAG    Myoglobin OS=Hylobates agilis GN=MB PE
+    1.4e-58  202.1   0.4    1.6e-58  202.0   0.4    1.0  1  sp|P62735|MYG_HYLSY    Myoglobin OS=Hylobates syndactylus GN=
+    1.5e-58  202.1   0.1    1.6e-58  202.0   0.1    1.0  1  sp|P18982|HBB_AILFU    Hemoglobin subunit beta OS=Ailurus ful
+    1.5e-58  202.0   2.7    1.7e-58  201.9   2.7    1.0  1  sp|P02190|MYG_SHEEP    Myoglobin OS=Ovis aries GN=MB PE=1 SV=
+    1.9e-58  201.7   1.0    2.1e-58  201.6   1.0    1.0  1  sp|P67817|HBA_ATEGE    Hemoglobin subunit alpha OS=Ateles geo
+      2e-58  201.7   1.1    2.2e-58  201.5   1.1    1.0  1  sp|P02168|MYG_OTOCR    Myoglobin OS=Otolemur crassicaudatus G
+      2e-58  201.6   0.1    2.3e-58  201.4   0.1    1.0  1  sp|P09968|GLB3_PETMA   Globin-3 OS=Petromyzon marinus PE=1 SV
+    2.1e-58  201.6   0.5    2.3e-58  201.5   0.5    1.0  1  sp|P02150|MYG_MACFA    Myoglobin OS=Macaca fascicularis GN=MB
+    2.1e-58  201.6   1.4    2.3e-58  201.4   1.4    1.0  1  sp|P06635|HBA_PONPY    Hemoglobin subunit alpha OS=Pongo pygm
+    2.3e-58  201.5   0.9    2.5e-58  201.4   0.9    1.0  1  sp|P01928|HBA_CEBAP    Hemoglobin subunit alpha OS=Cebus apel
+    2.4e-58  201.4   0.0    2.6e-58  201.3   0.0    1.0  1  sp|P02050|HBB_OTOCR    Hemoglobin subunit beta-1/2 OS=Otolemu
+    2.6e-58  201.3   0.1    2.9e-58  201.2   0.1    1.0  1  sp|P02047|HBD_SAISC    Hemoglobin subunit delta OS=Saimiri sc
+    2.6e-58  201.3   0.1    2.9e-58  201.1   0.1    1.0  1  sp|P23020|HBB_PROCR    Hemoglobin subunit beta OS=Proteles cr
+    2.8e-58  201.2   0.1    3.1e-58  201.1   0.1    1.0  1  sp|P68015|HBD_SAGNI    Hemoglobin subunit delta OS=Saguinus n
+    2.8e-58  201.2   1.0    3.1e-58  201.1   1.0    1.0  1  sp|P67818|HBA_SAGOE    Hemoglobin subunit alpha OS=Saguinus o
+    3.2e-58  201.0   0.4    3.5e-58  200.9   0.4    1.0  1  sp|P02164|MYG_ORYAF    Myoglobin OS=Orycteropus afer GN=MB PE
+    3.4e-58  200.9   0.6    3.8e-58  200.8   0.6    1.0  1  sp|P68084|MYG_PAPAN    Myoglobin OS=Papio anubis GN=MB PE=1 S
+    3.4e-58  200.9   0.6    3.8e-58  200.8   0.6    1.0  1  sp|P68085|MYG_SEMEN    Myoglobin OS=Semnopithecus entellus GN
+    3.4e-58  200.9   0.6    3.8e-58  200.8   0.6    1.0  1  sp|P68086|MYG_ERYPA    Myoglobin OS=Erythrocebus patas GN=MB 
+    3.7e-58  200.8   2.7    4.1e-58  200.7   2.7    1.0  1  sp|P02191|MYG_CEREL    Myoglobin OS=Cervus elaphus GN=MB PE=1
+    4.5e-58  200.5   0.3      5e-58  200.4   0.3    1.0  1  sp|P02171|MYG_OCHPR    Myoglobin OS=Ochotona princeps GN=MB P
+    4.7e-58  200.5   2.2    5.1e-58  200.3   2.2    1.0  1  sp|B7U9B5|MYG_CAPHI    Myoglobin OS=Capra hircus GN=MB PE=1 S
+    4.8e-58  200.5   0.4    5.3e-58  200.3   0.4    1.0  1  sp|Q6PL31|MYG_OCHCU    Myoglobin OS=Ochotona curzoniae GN=MB 
+    4.9e-58  200.4   0.1    5.4e-58  200.3   0.1    1.0  1  sp|P68014|HBD_SAGMY    Hemoglobin subunit delta OS=Saguinus m
+    5.1e-58  200.4   0.2    5.6e-58  200.2   0.2    1.0  1  sp|P18990|HBB_TURTR    Hemoglobin subunit beta OS=Tursiops tr
+    5.5e-58  200.2   0.1    6.1e-58  200.1   0.1    1.0  1  sp|P02048|HBB_LORTA    Hemoglobin subunit beta OS=Loris tardi
+    6.9e-58  199.9   0.0    7.6e-58  199.8   0.0    1.0  1  sp|P24660|HBB_MACGG    Hemoglobin subunit beta OS=Macroderma 
+    7.8e-58  199.7   0.1    8.7e-58  199.6   0.1    1.0  1  sp|D0VX08|HBB_PTEGI    Hemoglobin subunit beta OS=Pteropus gi
+    7.8e-58  199.7   0.1    8.7e-58  199.6   0.1    1.0  1  sp|P14391|HBB_PTEAL    Hemoglobin subunit beta OS=Pteropus al
+    9.5e-58  199.5   0.3    1.1e-57  199.3   0.3    1.0  1  sp|P04250|MYG_LAGMA    Myoglobin OS=Lagostomus maximus GN=MB 
+    9.6e-58  199.5   0.5    1.1e-57  199.3   0.5    1.0  1  sp|P02148|MYG_PONPY    Myoglobin OS=Pongo pygmaeus GN=MB PE=1
+      1e-57  199.3   0.1    1.2e-57  199.2   0.1    1.0  1  sp|P28781|HBB_TAPGE    Hemoglobin subunit beta OS=Taphozous g
+    1.2e-57  199.2   0.1    1.3e-57  199.1   0.1    1.0  1  sp|B3EWE2|HBB_BLABR    Hemoglobin subunit beta OS=Blarina bre
+    1.2e-57  199.2   0.3    1.3e-57  199.0   0.3    1.0  1  sp|P02058|HBB_ROUAE    Hemoglobin subunit beta OS=Rousettus a
+    1.2e-57  199.1   0.3    1.3e-57  199.0   0.3    1.0  1  sp|P04248|MYG_SPAEH    Myoglobin OS=Spalax ehrenbergi GN=MB P
+    1.4e-57  198.9   3.0    1.6e-57  198.8   3.0    1.0  1  sp|P84997|MYG_BUBBU    Myoglobin OS=Bubalus bubalis GN=MB PE=
+    1.5e-57  198.9   0.7    1.6e-57  198.7   0.7    1.0  1  sp|P01924|HBA_SEMEN    Hemoglobin subunit alpha OS=Semnopithe
+    1.5e-57  198.8   1.5    1.7e-57  198.7   1.5    1.0  1  sp|Q9TS34|HBA2_HYLLA   Hemoglobin subunit alpha-2 OS=Hylobate
+    1.7e-57  198.7   0.1    1.8e-57  198.5   0.1    1.0  1  sp|P14392|HBB_PTEPO    Hemoglobin subunit beta OS=Pteropus po
+    1.9e-57  198.5   0.3    2.1e-57  198.4   0.3    1.0  1  sp|B3EWD0|HBB_SPEBE    Hemoglobin subunit beta OS=Spermophilu
+    2.1e-57  198.4   0.9    2.3e-57  198.2   0.9    1.0  1  sp|P02157|MYG_MELME    Myoglobin OS=Meles meles GN=MB PE=1 SV
+    2.1e-57  198.4   0.0    2.3e-57  198.2   0.0    1.0  1  sp|P02046|HBD_AOTTR    Hemoglobin subunit delta OS=Aotus triv
+    2.2e-57  198.3   0.2    2.5e-57  198.1   0.2    1.0  1  sp|P19646|HBB_PAGLA    Hemoglobin subunit beta OS=Paguma larv
+    2.3e-57  198.2   1.1    2.6e-57  198.1   1.1    1.0  1  sp|P09421|HBB_SPECI    Hemoglobin subunit beta OS=Spermophilu
+    2.4e-57  198.2   0.2    2.7e-57  198.0   0.2    1.0  1  sp|P09905|HBB_PHYMC    Hemoglobin subunit beta-1/2 OS=Physete
+    2.8e-57  197.9   0.3    3.1e-57  197.8   0.3    1.0  1  sp|P11754|HBB_CYNSP    Hemoglobin subunit beta OS=Cynopterus 
+      3e-57  197.9   0.6    3.3e-57  197.7   0.6    1.0  1  sp|P02073|HBB_ALCAA    Hemoglobin subunit beta OS=Alces alces
+    3.1e-57  197.8   0.7    3.4e-57  197.7   0.7    1.0  1  sp|Q7M3B6|HBA_SAGMY    Hemoglobin subunit alpha OS=Saguinus m
+    3.1e-57  197.8   0.5    3.5e-57  197.7   0.5    1.0  1  sp|P02193|MYG_DIDVI    Myoglobin OS=Didelphis virginiana GN=M
+    3.3e-57  197.7   1.8    3.6e-57  197.6   1.8    1.0  1  sp|P02160|MYG_VULCH    Myoglobin OS=Vulpes chama GN=MB PE=1 S
+    3.4e-57  197.7   1.8    3.7e-57  197.6   1.8    1.0  1  sp|P02151|MYG_AOTTR    Myoglobin OS=Aotus trivirgatus GN=MB P
+    4.2e-57  197.4   0.4    4.6e-57  197.3   0.4    1.0  1  sp|P02084|HBB_ELEMA    Hemoglobin subunit beta OS=Elephas max
+    4.3e-57  197.4   0.4    4.7e-57  197.2   0.4    1.0  1  sp|Q45XI9|HBD_ELEMA    Hemoglobin subunit delta OS=Elephas ma
+    4.4e-57  197.3   0.5    4.9e-57  197.2   0.5    1.0  1  sp|P02090|HBB_SPAEH    Hemoglobin subunit beta OS=Spalax ehre
+    5.1e-57  197.1   0.7    5.7e-57  197.0   0.7    1.0  1  sp|P02156|MYG_ERIEU    Myoglobin OS=Erinaceus europaeus GN=MB
+    5.4e-57  197.0   0.1      6e-57  196.9   0.1    1.0  1  sp|P02059|HBB_ERIEU    Hemoglobin subunit beta OS=Erinaceus e
+    5.6e-57  197.0   1.7    6.1e-57  196.8   1.7    1.0  1  sp|P63113|MYG_CANFA    Myoglobin OS=Canis familiaris GN=MB PE
+    5.6e-57  197.0   1.7    6.1e-57  196.8   1.7    1.0  1  sp|P63114|MYG_OTOME    Myoglobin OS=Otocyon megalotis GN=MB P
+    5.6e-57  197.0   0.8    6.2e-57  196.8   0.8    1.0  1  sp|P01929|HBA_SAGFU    Hemoglobin subunit alpha OS=Saguinus f
+    5.8e-57  196.9   0.1    6.4e-57  196.8   0.1    1.0  1  sp|P02067|HBB_PIG      Hemoglobin subunit beta OS=Sus scrofa 
+    6.3e-57  196.8   1.6    6.9e-57  196.7   1.6    1.0  1  sp|P01937|HBA_NYCCO    Hemoglobin subunit alpha OS=Nycticebus
+    6.3e-57  196.8   1.6      7e-57  196.7   1.6    1.0  1  sp|P02152|MYG_CALJA    Myoglobin OS=Callithrix jacchus GN=MB 
+    6.6e-57  196.7   0.1    7.2e-57  196.6   0.1    1.0  1  sp|P21667|HBB_VARVI    Hemoglobin subunit beta OS=Varecia var
+    6.7e-57  196.7   0.8    7.4e-57  196.6   0.8    1.0  1  sp|B3EWC8|HBB_TAMMR    Hemoglobin subunit beta OS=Tamias merr
+    7.3e-57  196.6   0.1      8e-57  196.5   0.1    1.0  1  sp|P07412|HBB_FELCA    Hemoglobin subunit beta-A/B OS=Felis c
+    7.6e-57  196.5   0.7    8.4e-57  196.4   0.7    1.0  1  sp|P08853|HBB_MARMA    Hemoglobin subunit beta OS=Marmota mar
+    8.7e-57  196.4   1.1    9.6e-57  196.2   1.1    1.0  1  sp|P02196|MYG_ORNAN    Myoglobin OS=Ornithorhynchus anatinus 
+    9.5e-57  196.2   3.0      1e-56  196.1   3.0    1.0  1  sp|P02195|MYG_TACAC    Myoglobin OS=Tachyglossus aculeatus ac
+      1e-56  196.1   1.7    1.1e-56  196.0   1.7    1.0  1  sp|P02159|MYG_LYCPI    Myoglobin OS=Lycaon pictus GN=MB PE=1 
+      1e-56  196.1   0.5    1.1e-56  196.0   0.5    1.0  1  sp|P67819|HBB_BOSGF    Hemoglobin subunit beta OS=Bos gaurus 
+      1e-56  196.1   0.5    1.1e-56  196.0   0.5    1.0  1  sp|P67820|HBB_BUBBU    Hemoglobin subunit beta OS=Bubalus bub
+    1.1e-56  196.1   0.3    1.2e-56  195.9   0.3    1.0  1  sp|P04249|MYG_PROGU    Myoglobin OS=Proechimys guairae GN=MB 
+    1.2e-56  195.8   0.6    1.4e-56  195.7   0.6    1.0  1  sp|P63107|HBA_MACFU    Hemoglobin subunit alpha OS=Macaca fus
+    1.2e-56  195.8   0.6    1.4e-56  195.7   0.6    1.0  1  sp|P63108|HBA_MACMU    Hemoglobin subunit alpha OS=Macaca mul
+    1.3e-56  195.8   0.3    1.4e-56  195.7   0.3    1.0  1  sp|P04245|HBB_TRAST    Hemoglobin subunit beta OS=Tragelaphus
+    1.3e-56  195.8   0.4    1.5e-56  195.6   0.4    1.0  1  sp|P02085|HBB_LOXAF    Hemoglobin subunit beta OS=Loxodonta a
+    1.4e-56  195.7   0.4    1.5e-56  195.6   0.4    1.0  1  sp|Q45XJ0|HBD_LOXAF    Hemoglobin subunit delta OS=Loxodonta 
+    1.5e-56  195.6   0.1    1.7e-56  195.4   0.1    1.0  1  sp|P41328|HBB_LYNLY    Hemoglobin subunit beta OS=Lynx lynx G
+    1.6e-56  195.5   0.7    1.8e-56  195.3   0.7    1.0  1  sp|P07410|HBB_SPETO    Hemoglobin subunit beta-S/F OS=Spermop
+    1.7e-56  195.4   0.1    1.9e-56  195.3   0.1    1.0  1  sp|P20855|HBB_CTEGU    Hemoglobin subunit beta OS=Ctenodactyl
+    1.8e-56  195.3   0.2      2e-56  195.2   0.2    1.0  1  sp|P02088|HBB1_MOUSE   Hemoglobin subunit beta-1 OS=Mus muscu
+    1.8e-56  195.3   0.6      2e-56  195.2   0.6    1.0  1  sp|P21767|HBA_MACFA    Hemoglobin subunit alpha-A/Q/R/T OS=Ma
+    1.9e-56  195.3   1.4    2.1e-56  195.1   1.4    1.0  1  sp|P02153|MYG_CEBAP    Myoglobin OS=Cebus apella GN=MB PE=1 S
+      2e-56  195.2   1.1    2.2e-56  195.1   1.1    1.0  1  sp|P02155|MYG_SAISC    Myoglobin OS=Saimiri sciureus GN=MB PE
+    2.2e-56  195.1   0.8    2.4e-56  194.9   0.8    1.0  1  sp|P02066|HBB_CERSI    Hemoglobin subunit beta OS=Ceratotheri
+    2.6e-56  194.8   0.0    2.8e-56  194.7   0.0    1.0  1  sp|P11752|HBB_MEGLY    Hemoglobin subunit beta OS=Megaderma l
+    2.6e-56  194.8   0.7    2.9e-56  194.7   0.7    1.0  1  sp|P21766|HBA_MACAS    Hemoglobin subunit alpha-1/2/3 OS=Maca
+    2.6e-56  194.8   0.1    2.9e-56  194.7   0.1    1.0  1  sp|P02060|HBB_SUNMU    Hemoglobin subunit beta OS=Suncus muri
+    2.7e-56  194.8   0.1    2.9e-56  194.6   0.1    1.0  1  sp|P04244|HBB_PANPO    Hemoglobin subunit beta OS=Panthera pa
+    2.7e-56  194.8   0.4      3e-56  194.6   0.4    1.0  1  sp|P04346|HBBA_BOSJA   Hemoglobin subunit beta-A OS=Bos javan
+    2.9e-56  194.6   0.1    3.3e-56  194.5   0.1    1.0  1  sp|P02089|HBB2_MOUSE   Hemoglobin subunit beta-2 OS=Mus muscu
+    2.9e-56  194.6   0.3    3.3e-56  194.5   0.3    1.0  1  sp|Q45XH3|HBE_BRATR    Hemoglobin subunit epsilon OS=Bradypus
+      3e-56  194.6   0.8    3.3e-56  194.5   0.8    1.0  1  sp|P01926|HBA_CHLAE    Hemoglobin subunit alpha OS=Chlorocebu
+    3.3e-56  194.5   0.1    3.6e-56  194.3   0.1    1.0  1  sp|Q7M2Y5|HBB2_CHAMP   Hemoglobin subunit beta-2 OS=Chalinolo
+    3.6e-56  194.3   0.5      4e-56  194.2   0.5    1.0  1  sp|P19002|HBA_MACNE    Hemoglobin subunit alpha-1/2/3 OS=Maca
+    3.9e-56  194.3   0.1    4.2e-56  194.1   0.1    1.0  1  sp|P18988|HBB2_PANLE   Hemoglobin subunit beta-2 OS=Panthera 
+    4.2e-56  194.1   0.2    4.7e-56  194.0   0.2    1.0  1  sp|P11517|HBB2_RAT     Hemoglobin subunit beta-2 OS=Rattus no
+    4.2e-56  194.1   0.1    4.6e-56  194.0   0.1    1.0  1  sp|P07415|HBB_TRIIN    Hemoglobin subunit beta OS=Trichechus 
+    4.3e-56  194.1   1.6    4.7e-56  194.0   1.6    1.0  1  sp|P30562|MYG_PHOSI    Myoglobin OS=Phoca sibirica GN=MB PE=1
+    4.3e-56  194.1   0.1    4.8e-56  194.0   0.1    1.0  1  sp|Q45XI8|HBD_TRIMA    Hemoglobin subunit delta OS=Trichechus
+    4.5e-56  194.0   0.5    4.9e-56  193.9   0.5    1.0  1  sp|P21768|HBA_MACSI    Hemoglobin subunit alpha-1/2 OS=Macaca
+      5e-56  193.9   0.1    5.5e-56  193.7   0.1    1.0  1  sp|P09840|HBB_MACCA    Hemoglobin subunit beta OS=Macrotus ca
+    5.2e-56  193.8   0.6    5.7e-56  193.7   0.6    1.0  1  sp|Q862A7|HBA_PIPAB    Hemoglobin subunit alpha OS=Pipistrell
+    5.6e-56  193.7   0.0    6.2e-56  193.6   0.0    1.0  1  sp|B2KHZ4|HBB_RHIFE    Hemoglobin subunit beta OS=Rhinolophus
+    5.7e-56  193.7   0.7    6.3e-56  193.6   0.7    1.0  1  sp|P01930|HBA_PILBA    Hemoglobin subunit alpha OS=Piliocolob
+    5.7e-56  193.7   0.5    6.4e-56  193.5   0.5    1.0  1  sp|P81042|HBE_MACEU    Hemoglobin subunit epsilon OS=Macropus
+    5.8e-56  193.7   0.1    6.5e-56  193.5   0.1    1.0  1  sp|P68230|HBB_CAMBA    Hemoglobin subunit beta OS=Camelus bac
+    5.8e-56  193.7   0.1    6.5e-56  193.5   0.1    1.0  1  sp|P68231|HBB_CAMDR    Hemoglobin subunit beta OS=Camelus dro
+    5.8e-56  193.7   1.1    6.5e-56  193.5   1.1    1.0  1  sp|P02154|MYG_LAGLA    Myoglobin OS=Lagothrix lagotricha GN=M
+    5.9e-56  193.7   1.2    6.5e-56  193.5   1.2    1.0  1  sp|P01938|HBA_LORTA    Hemoglobin subunit alpha OS=Loris tard
+      6e-56  193.6   0.1    6.7e-56  193.5   0.1    1.0  1  sp|P68064|HBB2_PANON   Hemoglobin subunit beta-2 OS=Panthera 
+    6.4e-56  193.5   0.1    7.2e-56  193.4   0.1    1.0  1  sp|P68087|HBB1_CHAMP   Hemoglobin subunit beta-1 OS=Chalinolo
+    6.6e-56  193.5   0.2    7.3e-56  193.4   0.2    1.0  1  sp|P09907|HBB_RHIUN    Hemoglobin subunit beta OS=Rhinoceros 
+    6.7e-56  193.5   0.3    7.4e-56  193.3   0.3    1.0  1  sp|Q28338|HBE_CHEME    Hemoglobin subunit epsilon OS=Cheiroga
+    7.6e-56  193.3   0.3    8.4e-56  193.2   0.3    1.0  1  sp|P02070|HBB_BOVIN    Hemoglobin subunit beta OS=Bos taurus 
+    7.7e-56  193.3   0.1    8.6e-56  193.1   0.1    1.0  1  sp|P11756|HBB_TADBR    Hemoglobin subunit beta OS=Tadarida br
+    7.9e-56  193.2   0.9    8.8e-56  193.1   0.9    1.0  1  sp|P01935|HBA3_PANTR   Hemoglobin subunit alpha-3 OS=Pan trog
+    9.3e-56  193.0   0.1      1e-55  192.9   0.1    1.0  1  sp|P02091|HBB1_RAT     Hemoglobin subunit beta-1 OS=Rattus no
+    9.6e-56  193.0   0.3    1.1e-55  192.8   0.3    1.0  1  sp|P02086|HBB_PROHA    Hemoglobin subunit beta OS=Procavia ca
+    9.7e-56  193.0   1.9    1.1e-55  192.8   1.9    1.0  1  sp|P02194|MYG_MACRU    Myoglobin OS=Macropus rufus GN=MB PE=1
+      1e-55  192.9   0.2    1.1e-55  192.7   0.2    1.0  1  sp|Q28356|HBE_DAUMA    Hemoglobin subunit epsilon OS=Daubento
+      1e-55  192.9   0.2    1.2e-55  192.7   0.2    1.0  1  sp|Q95238|HBE_PROVE    Hemoglobin subunit epsilon OS=Propithe
+    1.2e-55  192.6   0.1    1.4e-55  192.5   0.1    1.0  1  sp|P68050|HBB1_PANLE   Hemoglobin subunit beta-1 OS=Panthera 
+    1.3e-55  192.6   0.9    1.4e-55  192.4   0.9    1.0  1  sp|P01934|HBA3_GORGO   Hemoglobin subunit alpha-3 OS=Gorilla 
+    1.3e-55  192.6   0.1    1.4e-55  192.4   0.1    1.0  1  sp|P68048|HBB1_PANTS   Hemoglobin subunit beta-1 OS=Panthera 
+    1.3e-55  192.6   0.1    1.4e-55  192.4   0.1    1.0  1  sp|P68049|HBB1_PANON   Hemoglobin subunit beta-1 OS=Panthera 
+    1.3e-55  192.6   0.1    1.4e-55  192.4   0.1    1.0  1  sp|P68051|HBB1_PANPS   Hemoglobin subunit beta-1 OS=Panthera 
+    1.3e-55  192.5   0.1    1.5e-55  192.4   0.1    1.0  1  sp|P68065|HBB2_PANPS   Hemoglobin subunit beta-2 OS=Panthera 
+    1.3e-55  192.5   0.1    1.5e-55  192.4   0.1    1.0  1  sp|P68194|HBB2_PANTS   Hemoglobin subunit beta-2 OS=Panthera 
+    1.4e-55  192.4   0.8    1.6e-55  192.3   0.8    1.0  1  sp|P09422|HBB_BISBO    Hemoglobin subunit beta OS=Bison bonas
+    1.5e-55  192.4   0.0    1.6e-55  192.2   0.0    1.0  1  sp|P68226|HBB_LAMGL    Hemoglobin subunit beta OS=Lama glama 
+    1.5e-55  192.4   0.0    1.6e-55  192.2   0.0    1.0  1  sp|P68227|HBB_LAMVI    Hemoglobin subunit beta OS=Lama vicugn
+    1.5e-55  192.4   0.0    1.6e-55  192.2   0.0    1.0  1  sp|P68228|HBB_LAMPA    Hemoglobin subunit beta OS=Lama guanic
+    1.5e-55  192.4   0.0    1.6e-55  192.2   0.0    1.0  1  sp|P68229|HBB_LAMGU    Hemoglobin subunit beta OS=Lama guanic
+    1.5e-55  192.4   0.2    1.7e-55  192.2   0.2    1.0  1  sp|Q28931|HBE_SMICR    Hemoglobin subunit epsilon OS=Sminthop
+    1.8e-55  192.1   0.9      2e-55  191.9   0.9    1.0  1  sp|P07402|HBA_MACSP    Hemoglobin subunit alpha-1/2 OS=Macaca
+    1.9e-55  192.0   0.5    2.1e-55  191.9   0.5    1.0  1  sp|P01940|HBA_TARBA    Hemoglobin subunit alpha OS=Tarsius ba
+    2.2e-55  191.8   1.6    2.4e-55  191.7   1.6    1.0  1  sp|G1NJB6|MYG_MELGA    Myoglobin OS=Meleagris gallopavo GN=MB
+    2.2e-55  191.8   1.6    2.4e-55  191.7   1.6    1.0  1  sp|P02197|MYG_CHICK    Myoglobin OS=Gallus gallus GN=MB PE=1 
+    2.5e-55  191.6   0.4    2.7e-55  191.5   0.4    1.0  1  sp|P21380|HBB_RANTA    Hemoglobin subunit beta OS=Rangifer ta
+    2.6e-55  191.6   0.3    2.9e-55  191.4   0.3    1.0  1  sp|P02053|HBB_EULFU    Hemoglobin subunit beta OS=Eulemur ful
+    2.6e-55  191.6   0.6    2.9e-55  191.4   0.6    1.0  1  sp|P02075|HBB_SHEEP    Hemoglobin subunit beta OS=Ovis aries 
+    3.4e-55  191.2   0.2    3.7e-55  191.1   0.2    1.0  1  sp|Q28496|HBE_MICMU    Hemoglobin subunit epsilon OS=Microceb
+    3.4e-55  191.2   0.0    3.8e-55  191.0   0.0    1.0  1  sp|Q7M3C2|HBB_HAPGR    Hemoglobin subunit beta OS=Hapalemur g
+    3.7e-55  191.1   1.0    4.1e-55  190.9   1.0    1.0  1  sp|P01939|HBA2_OTOCR   Hemoglobin subunit alpha-B OS=Otolemur
+    3.9e-55  191.0   0.3    4.3e-55  190.9   0.3    1.0  1  sp|P02093|HBB_ONDZI    Hemoglobin subunit beta OS=Ondatra zib
+      4e-55  191.0   0.0    4.4e-55  190.8   0.0    1.0  1  sp|P14388|HBB_ANTPA    Hemoglobin subunit beta OS=Antrozous p
+      4e-55  191.0   0.1    4.4e-55  190.8   0.1    1.0  1  sp|P67823|HBB_EQUHE    Hemoglobin subunit beta OS=Equus hemio
+      4e-55  191.0   0.1    4.4e-55  190.8   0.1    1.0  1  sp|P67824|HBB_EQUZE    Hemoglobin subunit beta OS=Equus zebra
+    4.1e-55  190.9   0.9    4.6e-55  190.8   0.9    1.0  1  sp|P19015|HBA_HIPAM    Hemoglobin subunit alpha OS=Hippopotam
+    4.5e-55  190.8   0.1      5e-55  190.7   0.1    1.0  1  sp|P14387|HBA_ANTPA    Hemoglobin subunit alpha OS=Antrozous 
+    4.8e-55  190.7   0.2    5.4e-55  190.5   0.2    1.0  1  sp|P08223|HBE_EULFU    Hemoglobin subunit epsilon OS=Eulemur 
+    5.5e-55  190.5   0.9      6e-55  190.4   0.9    1.0  1  sp|P02077|HBBA_CAPHI   Hemoglobin subunit beta-A OS=Capra hir
+    5.6e-55  190.5   0.8    6.2e-55  190.4   0.8    1.0  1  sp|P02187|MYG_LOXAF    Myoglobin OS=Loxodonta africana GN=MB 
+    5.6e-55  190.5   0.8    6.2e-55  190.3   0.8    1.0  1  sp|P01936|HBA_EULFU    Hemoglobin subunit alpha OS=Eulemur fu
+    5.9e-55  190.4   0.0    6.5e-55  190.3   0.0    1.0  1  sp|P02061|HBB_TALEU    Hemoglobin subunit beta OS=Talpa europ
+    6.3e-55  190.3   0.5    6.9e-55  190.2   0.5    1.0  1  sp|P02072|HBB_BOSMU    Hemoglobin subunit beta OS=Bos mutus g
+    7.4e-55  190.1   0.2    8.2e-55  190.0   0.2    1.0  1  sp|B3EWE0|HBB_TAMST    Hemoglobin subunit beta OS=Tamias stri
+    7.9e-55  190.0   1.5    8.7e-55  189.9   1.5    1.0  1  sp|Q7LZM2|MYG_ANAPO    Myoglobin OS=Anas poecilorhyncha GN=MB
+    8.1e-55  190.0   0.6      9e-55  189.8   0.6    1.0  1  sp|Q7LZM3|MYG_PHAFI    Myoglobin OS=Phalacrocorax filamentosu
+    8.4e-55  189.9   0.1    9.3e-55  189.8   0.1    1.0  1  sp|P02102|HBE1_CAPHI   Hemoglobin subunit epsilon-1 OS=Capra 
+    9.9e-55  189.7   0.1    1.1e-54  189.5   0.1    1.0  1  sp|P19016|HBB_HIPAM    Hemoglobin subunit beta OS=Hippopotamu
+      1e-54  189.6   0.6    1.1e-54  189.5   0.6    1.0  1  sp|P0CH26|HBA2_CAPHI   Hemoglobin subunit alpha-2 OS=Capra hi
+      1e-54  189.6   0.3    1.1e-54  189.5   0.3    1.0  1  sp|P28780|HBA_TAPGE    Hemoglobin subunit alpha OS=Taphozous 
+    1.1e-54  189.5   0.1    1.2e-54  189.4   0.1    1.0  1  sp|P02054|HBB_LEMCA    Hemoglobin subunit beta OS=Lemur catta
+    1.1e-54  189.5   0.0    1.2e-54  189.4   0.0    1.0  1  sp|P11025|HBE_DIDVI    Hemoglobin subunit epsilon-M OS=Didelp
+    1.1e-54  189.5   0.9    1.3e-54  189.4   0.9    1.0  1  sp|P14259|HBA1_OTOCR   Hemoglobin subunit alpha-A OS=Otolemur
+    1.2e-54  189.4   0.3    1.3e-54  189.3   0.3    1.0  1  sp|P19759|HBE_OTOCR    Hemoglobin subunit epsilon OS=Otolemur
+    1.2e-54  189.4   0.5    1.3e-54  189.3   0.5    1.0  1  sp|P02064|HBB1_TAPTE   Hemoglobin subunit beta-1 OS=Tapirus t
+    1.2e-54  189.4   0.0    1.3e-54  189.3   0.0    1.0  1  sp|P02101|HBE_PIG      Hemoglobin subunit epsilon OS=Sus scro
+    1.2e-54  189.4   0.1    1.3e-54  189.3   0.1    1.0  1  sp|P11757|HBA_MYOVE    Hemoglobin subunit alpha OS=Myotis vel
+    1.3e-54  189.3   0.1    1.4e-54  189.2   0.1    1.0  1  sp|B3EWD2|HBB_SCICA    Hemoglobin subunit beta OS=Sciurus car
+    1.3e-54  189.3   0.9    1.4e-54  189.2   0.9    1.0  1  sp|P20018|HBA1_VARVI   Hemoglobin subunit alpha-1 OS=Varecia 
+    1.3e-54  189.3   0.1    1.4e-54  189.2   0.1    1.0  1  sp|P02062|HBB_HORSE    Hemoglobin subunit beta OS=Equus cabal
+    1.4e-54  189.2   1.3    1.6e-54  189.0   1.3    1.0  1  sp|P63111|HBA_PAPAN    Hemoglobin subunit alpha OS=Papio anub
+    1.4e-54  189.2   1.3    1.6e-54  189.0   1.3    1.0  1  sp|P63112|HBA_PAPCY    Hemoglobin subunit alpha OS=Papio cyno
+    1.4e-54  189.2   0.4    1.6e-54  189.0   0.4    1.0  1  sp|B3EWD4|HBB_PERCR    Hemoglobin subunit beta OS=Peromyscus 
+    1.6e-54  189.0   0.8    1.8e-54  188.9   0.8    1.0  1  sp|P08258|HBA_MANSP    Hemoglobin subunit alpha-1/2 OS=Mandri
+    1.6e-54  189.0   1.4    1.8e-54  188.8   1.4    1.0  1  sp|P02092|HBB_MICXA    Hemoglobin subunit beta OS=Microtus xa
+    1.7e-54  189.0   0.6    1.8e-54  188.8   0.6    1.0  1  sp|P02186|MYG_ELEMA    Myoglobin OS=Elephas maximus GN=MB PE=
+    1.7e-54  188.9   0.8    1.9e-54  188.8   0.8    1.0  1  sp|Q9XSK1|HBA4_BUBBU   Hemoglobin subunit alpha-4 OS=Bubalus 
+    1.8e-54  188.8   1.3      2e-54  188.7   1.3    1.0  1  sp|P01932|HBA_THEGE    Hemoglobin subunit alpha OS=Theropithe
+      2e-54  188.7   0.3    2.3e-54  188.5   0.3    1.0  1  sp|P02110|HBB_TACAC    Hemoglobin subunit beta OS=Tachyglossu
+    2.1e-54  188.6   1.2    2.4e-54  188.5   1.2    1.0  1  sp|P01933|HBA_CERAT    Hemoglobin subunit alpha OS=Cercocebus
+    2.2e-54  188.6   1.1    2.4e-54  188.4   1.1    1.0  1  sp|P20019|HBA2_VARVI   Hemoglobin subunit alpha-2 OS=Varecia 
+    2.3e-54  188.5   0.5    2.6e-54  188.3   0.5    1.0  1  sp|P21379|HBA_RANTA    Hemoglobin subunit alpha OS=Rangifer t
+    2.4e-54  188.4   1.7    2.7e-54  188.3   1.7    1.0  1  sp|P83682|MYG_DELLE    Myoglobin OS=Delphinapterus leucas GN=
+    2.7e-54  188.3   0.0      3e-54  188.1   0.0    1.0  1  sp|P04246|HBT_PIG      Hemoglobin subunit theta OS=Sus scrofa
+    2.8e-54  188.2   0.1    3.1e-54  188.1   0.1    1.0  1  sp|Q45XH7|HBG_ELEMA    Hemoglobin subunit gamma OS=Elephas ma
+    2.9e-54  188.2   0.3    3.2e-54  188.0   0.3    1.0  1  sp|P04247|MYG_MOUSE    Myoglobin OS=Mus musculus GN=Mb PE=1 S
+      3e-54  188.1   0.0    3.3e-54  188.0   0.0    1.0  1  sp|P02074|HBB_ODOVI    Hemoglobin subunit beta-3 OS=Odocoileu
+    3.2e-54  188.0   0.5    3.6e-54  187.9   0.5    1.0  1  sp|P01971|HBA_ALCAA    Hemoglobin subunit alpha OS=Alces alce
+    3.3e-54  188.0   0.6    3.6e-54  187.9   0.6    1.0  1  sp|Q9TSN8|HBA2_BUBBU   Hemoglobin subunit alpha-2 OS=Bubalus 
+    3.3e-54  188.0   0.4    3.6e-54  187.9   0.4    1.0  1  sp|Q9QZ76|MYG_RAT      Myoglobin OS=Rattus norvegicus GN=Mb P
+    3.4e-54  187.9   0.4    3.8e-54  187.8   0.4    1.0  1  sp|O77655|HBG_TARBA    Hemoglobin subunit gamma OS=Tarsius ba
+    3.8e-54  187.8   0.1    4.2e-54  187.7   0.1    1.0  1  sp|P11758|HBB_MYOVE    Hemoglobin subunit beta OS=Myotis veli
+    3.8e-54  187.8   1.8    4.3e-54  187.6   1.8    1.0  1  sp|P85077|MYG_STRCA    Myoglobin OS=Struthio camelus GN=MB PE
+    3.9e-54  187.8   0.2    4.3e-54  187.6   0.2    1.0  1  sp|Q7M2Y4|HBA_CHAMP    Hemoglobin subunit alpha OS=Chalinolob
+      4e-54  187.7   0.9    4.4e-54  187.6   0.9    1.0  1  sp|Q7LZM5|MYG_AETPY    Myoglobin OS=Aethia pygmaea GN=MB PE=1
+    4.1e-54  187.7   0.6    4.5e-54  187.6   0.6    1.0  1  sp|P01951|HBA_TALEU    Hemoglobin subunit alpha OS=Talpa euro
+    4.3e-54  187.6   0.5    4.7e-54  187.5   0.5    1.0  1  sp|B3EWD8|HBB_TAMHU    Hemoglobin subunit beta OS=Tamiasciuru
+    4.4e-54  187.6   0.1    4.9e-54  187.4   0.1    1.0  1  sp|P18435|HBE_TARSY    Hemoglobin subunit epsilon OS=Tarsius 
+    4.5e-54  187.6   0.1    4.9e-54  187.4   0.1    1.0  1  sp|B3EWD6|HBB_PERCA    Hemoglobin subunit beta OS=Peromyscus 
+    4.7e-54  187.5   1.3    5.3e-54  187.3   1.3    1.0  1  sp|P86874|MYG_DRONO    Myoglobin OS=Dromaius novaehollandiae 
+    4.8e-54  187.5   0.1    5.3e-54  187.3   0.1    1.0  1  sp|P51438|HBE_ATEBE    Hemoglobin subunit epsilon OS=Ateles b
+      5e-54  187.4   0.1    5.5e-54  187.3   0.1    1.0  1  sp|P19760|HBG_OTOCR    Hemoglobin subunit gamma OS=Otolemur c
+      5e-54  187.4   0.3    5.6e-54  187.3   0.3    1.0  1  sp|P10892|HBA_LUTLU    Hemoglobin subunit alpha OS=Lutra lutr
+    5.1e-54  187.4   0.9    5.6e-54  187.2   0.9    1.0  1  sp|Q7LZM4|MYG_CERMN    Myoglobin OS=Cerorhinca monocerata GN=
+    5.4e-54  187.3   0.8      6e-54  187.1   0.8    1.0  1  sp|P02094|HBB_MESAU    Hemoglobin subunit beta OS=Mesocricetu
+      6e-54  187.2   0.1    6.6e-54  187.0   0.1    1.0  1  sp|Q45XH8|HBG_LOXAF    Hemoglobin subunit gamma OS=Loxodonta 
+    6.1e-54  187.1   0.2    6.7e-54  187.0   0.2    1.0  1  sp|P01963|HBA_CERSI    Hemoglobin subunit alpha OS=Ceratother
+    6.1e-54  187.1   0.2    6.7e-54  187.0   0.2    1.0  1  sp|P02104|HBE_MOUSE    Hemoglobin subunit epsilon-Y2 OS=Mus m
+    6.4e-54  187.0   0.0    7.2e-54  186.9   0.0    1.0  1  sp|Q2KPA3|HBB_SCAOR    Hemoglobin subunit beta OS=Scapanus or
+      7e-54  186.9   0.5    7.8e-54  186.8   0.5    1.0  1  sp|P18994|HBE_PONPY    Hemoglobin subunit epsilon OS=Pongo py
+    7.2e-54  186.9   0.0      8e-54  186.7   0.0    1.0  1  sp|P61921|HBG2_PANTR   Hemoglobin subunit gamma-2 OS=Pan trog
+    7.2e-54  186.9   0.0      8e-54  186.7   0.0    1.0  1  sp|P62742|HBG2_GORGO   Hemoglobin subunit gamma-2 OS=Gorilla 
+    7.2e-54  186.9   0.0      8e-54  186.7   0.0    1.0  1  sp|P69892|HBG2_HUMAN   Hemoglobin subunit gamma-2 OS=Homo sap
+    7.6e-54  186.8   0.1    8.4e-54  186.7   0.1    1.0  1  sp|P61920|HBG1_PANTR   Hemoglobin subunit gamma-1 OS=Pan trog
+    7.6e-54  186.8   0.1    8.4e-54  186.7   0.1    1.0  1  sp|P69891|HBG1_HUMAN   Hemoglobin subunit gamma-1 OS=Homo sap
+    8.5e-54  186.7   0.1    9.4e-54  186.5   0.1    1.0  1  sp|P11753|HBA_CYNSP    Hemoglobin subunit alpha OS=Cynopterus
+    8.6e-54  186.6   0.3    9.5e-54  186.5   0.3    1.0  1  sp|P0CH25|HBA1_CAPHI   Hemoglobin subunit alpha-1 OS=Capra hi
+    8.6e-54  186.6   0.3    9.5e-54  186.5   0.3    1.0  1  sp|P68239|HBA_AMMLE    Hemoglobin subunit alpha-1/2 OS=Ammotr
+    8.6e-54  186.6   0.3    9.5e-54  186.5   0.3    1.0  1  sp|P68240|HBA_SHEEP    Hemoglobin subunit alpha-1/2 OS=Ovis a
+    9.2e-54  186.5   0.4      1e-53  186.4   0.4    1.0  1  sp|Q28507|HBE_MACMU    Hemoglobin subunit epsilon OS=Macaca m
+    9.4e-54  186.5   0.7      1e-53  186.4   0.7    1.0  1  sp|P07405|HBA_FELCA    Hemoglobin subunit alpha OS=Felis catu
+    9.5e-54  186.5   0.3    1.1e-53  186.3   0.3    1.0  1  sp|P23601|HBA_MUSPU    Hemoglobin subunit alpha-1/2 OS=Mustel
+    9.6e-54  186.5   0.3    1.1e-53  186.3   0.3    1.0  1  sp|P09839|HBA_MACCA    Hemoglobin subunit alpha OS=Macrotus c
+    9.6e-54  186.5   0.8    1.1e-53  186.3   0.8    1.0  1  sp|Q9TSN7|HBA1_BUBBU   Hemoglobin subunit alpha-1 OS=Bubalus 
+    9.7e-54  186.5   1.0    1.1e-53  186.3   1.0    1.0  1  sp|P04237|HBA_TRAST    Hemoglobin subunit alpha OS=Tragelaphu
+      1e-53  186.4   1.0    1.1e-53  186.3   1.0    1.0  1  sp|P01966|HBA_BOVIN    Hemoglobin subunit alpha OS=Bos taurus
+      1e-53  186.4   0.9    1.1e-53  186.3   0.9    1.0  1  sp|B3EWE4|HBB_MICPE    Hemoglobin subunit beta OS=Microtus pe
+    1.1e-53  186.3   0.2    1.2e-53  186.2   0.2    1.0  1  sp|Q28932|HBB_SMICR    Hemoglobin subunit beta OS=Sminthopsis
+    1.1e-53  186.3   0.5    1.2e-53  186.2   0.5    1.0  1  sp|Q95190|HBE_HYLSY    Hemoglobin subunit epsilon OS=Hylobate
+    1.1e-53  186.3   0.0    1.2e-53  186.2   0.0    1.0  1  sp|Q28779|HBG1_PANPA   Hemoglobin subunit gamma-1 OS=Pan pani
+    1.2e-53  186.2   0.1    1.3e-53  186.0   0.1    1.0  1  sp|P01956|HBA_ROUAE    Hemoglobin subunit alpha OS=Rousettus 
+    1.2e-53  186.1   0.6    1.4e-53  186.0   0.6    1.0  1  sp|P09908|HBA_PHOVI    Hemoglobin subunit alpha OS=Phoca vitu
+    1.3e-53  186.1   0.2    1.4e-53  186.0   0.2    1.0  1  sp|Q0ZA50|HBA_PANHO    Hemoglobin subunit alpha OS=Pantholops
+    1.3e-53  186.0   0.0    1.5e-53  185.9   0.0    1.0  1  sp|P02103|HBE_RABIT    Hemoglobin subunit epsilon OS=Oryctola
+    1.4e-53  185.9   0.8    1.6e-53  185.8   0.8    1.0  1  sp|P18707|HBB_MESBR    Hemoglobin subunit beta OS=Mesocricetu
+    1.4e-53  185.9   0.3    1.6e-53  185.8   0.3    1.0  1  sp|P26915|HBA_NASNA    Hemoglobin subunit alpha OS=Nasua nasu
+    1.4e-53  185.9   0.7    1.6e-53  185.8   0.7    1.0  1  sp|P09423|HBA_BISBO    Hemoglobin subunit alpha-I/II OS=Bison
+    1.4e-53  185.9   0.4    1.6e-53  185.8   0.4    1.0  1  sp|Q45XI7|HBD_DUGDU    Hemoglobin subunit delta OS=Dugong dug
+    1.5e-53  185.9   1.4    1.6e-53  185.7   1.4    1.0  1  sp|Q7LZM1|MYG_URILO    Myoglobin OS=Uria lomvia GN=MB PE=1 SV
+    1.5e-53  185.8   1.0    1.7e-53  185.7   1.0    1.0  1  sp|B3EWC7|HBA_TAMMR    Hemoglobin subunit alpha OS=Tamias mer
+    1.5e-53  185.8   0.1    1.7e-53  185.7   0.1    1.0  1  sp|P68026|HBE_CALJA    Hemoglobin subunit epsilon OS=Callithr
+    1.5e-53  185.8   0.1    1.7e-53  185.7   0.1    1.0  1  sp|P68027|HBE_CALPY    Hemoglobin subunit epsilon OS=Callithr
+    1.6e-53  185.8   0.3    1.7e-53  185.7   0.3    1.0  1  sp|P08224|HBG_CHEME    Hemoglobin subunit gamma OS=Cheirogale
+    1.6e-53  185.8   0.5    1.8e-53  185.6   0.5    1.0  1  sp|P41327|HBA_LYNLY    Hemoglobin subunit alpha OS=Lynx lynx 
+    1.6e-53  185.8   1.2    1.8e-53  185.6   1.2    1.0  1  sp|P08852|HBA_MARMA    Hemoglobin subunit alpha OS=Marmota ma
+    1.7e-53  185.7   0.2    1.9e-53  185.5   0.2    1.0  1  sp|P08225|HBG_EULFU    Hemoglobin subunit gamma OS=Eulemur fu
+      2e-53  185.5   0.0    2.2e-53  185.3   0.0    1.0  1  sp|P68077|HBG_MACMU    Hemoglobin subunit gamma OS=Macaca mul
+      2e-53  185.5   0.0    2.2e-53  185.3   0.0    1.0  1  sp|P68078|HBG_MACFU    Hemoglobin subunit gamma OS=Macaca fus
+      2e-53  185.5   0.0    2.2e-53  185.3   0.0    1.0  1  sp|P68079|HBG_PAPCY    Hemoglobin subunit gamma OS=Papio cyno
+      2e-53  185.5   0.4    2.2e-53  185.3   0.4    1.0  1  sp|P01945|HBA_MESAU    Hemoglobin subunit alpha OS=Mesocricet
+      2e-53  185.5   0.8    2.2e-53  185.3   0.8    1.0  1  sp|P02095|HBB_CAVPO    Hemoglobin subunit beta OS=Cavia porce
+      2e-53  185.5   0.3    2.2e-53  185.3   0.3    1.0  1  sp|P20243|HBA_MUSPF    Hemoglobin subunit alpha-1/2 OS=Mustel
+      2e-53  185.4   0.2    2.3e-53  185.3   0.2    1.0  1  sp|P01953|HBA_MELME    Hemoglobin subunit alpha OS=Meles mele
+      2e-53  185.4   0.9    2.3e-53  185.3   0.9    1.0  1  sp|P11750|HBA_SPEPA    Hemoglobin subunit alpha OS=Spermophil
+    2.1e-53  185.4   0.4    2.3e-53  185.3   0.4    1.0  1  sp|P02100|HBE_HUMAN    Hemoglobin subunit epsilon OS=Homo sap
+    2.1e-53  185.4   0.4    2.3e-53  185.3   0.4    1.0  1  sp|Q6LDH0|HBE_GORGO    Hemoglobin subunit epsilon OS=Gorilla 
+    2.1e-53  185.4   0.4    2.3e-53  185.3   0.4    1.0  1  sp|Q6LDH1|HBE_PANTR    Hemoglobin subunit epsilon OS=Pan trog
+    2.1e-53  185.4   0.3    2.3e-53  185.2   0.3    1.0  1  sp|P23600|HBA_MUSLU    Hemoglobin subunit alpha-1/2 OS=Mustel
+    2.2e-53  185.3   0.9    2.4e-53  185.2   0.9    1.0  1  sp|P01969|HBA_BOSGF    Hemoglobin subunit alpha OS=Bos gaurus
+    2.2e-53  185.3   0.6    2.4e-53  185.2   0.6    1.0  1  sp|P09420|HBA_SPECI    Hemoglobin subunit alpha OS=Spermophil
+    2.3e-53  185.3   0.7    2.5e-53  185.1   0.7    1.0  1  sp|P01967|HBA1_BOSMU   Hemoglobin subunit alpha-1 OS=Bos mutu
+    2.4e-53  185.2   1.1    2.7e-53  185.0   1.1    1.0  1  sp|P09904|HBA_PHYMC    Hemoglobin subunit alpha OS=Physeter m
+    2.4e-53  185.2   0.7    2.7e-53  185.0   0.7    1.0  1  sp|P01968|HBA2_BOSMU   Hemoglobin subunit alpha-2 OS=Bos mutu
+    2.5e-53  185.1   0.9    2.8e-53  185.0   0.9    1.0  1  sp|P02065|HBB2_TAPTE   Hemoglobin subunit beta-2 OS=Tapirus t
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68016|HBE_AOTAZ    Hemoglobin subunit epsilon OS=Aotus az
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68017|HBE_ALOBE    Hemoglobin subunit epsilon OS=Alouatta
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68018|HBE_ALOSE    Hemoglobin subunit epsilon OS=Alouatta
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68019|HBE_ATEGE    Hemoglobin subunit epsilon OS=Ateles g
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68020|HBE_BRAAR    Hemoglobin subunit epsilon OS=Brachyte
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68021|HBE_CACCA    Hemoglobin subunit epsilon OS=Cacajao 
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68022|HBE_CALMO    Hemoglobin subunit epsilon OS=Calliceb
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68023|HBE_CALTO    Hemoglobin subunit epsilon OS=Calliceb
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68024|HBE_CALGO    Hemoglobin subunit epsilon OS=Callimic
+    2.6e-53  185.1   0.1    2.9e-53  184.9   0.1    1.0  1  sp|P68025|HBE_CHISA    Hemoglobin subunit epsilon OS=Chiropot
+    2.7e-53  185.0   0.1      3e-53  184.9   0.1    1.0  1  sp|P14390|HBA_PTEPO    Hemoglobin subunit alpha OS=Pteropus p
+      3e-53  184.9   0.2    3.3e-53  184.7   0.2    1.0  1  sp|P10885|HBA_PTEBR    Hemoglobin subunit alpha OS=Pteronura 
+    3.1e-53  184.8   0.2    3.4e-53  184.7   0.2    1.0  1  sp|P68056|HBBC_SHEEP   Hemoglobin subunit beta-C OS=Ovis arie
+    3.3e-53  184.7   1.4    3.7e-53  184.6   1.4    1.0  1  sp|P20854|HBA_CTEGU    Hemoglobin subunit alpha OS=Ctenodacty
+    3.3e-53  184.7   0.3    3.7e-53  184.6   0.3    1.0  1  sp|Q28775|HBE_PANPA    Hemoglobin subunit epsilon OS=Pan pani
+    3.3e-53  184.7   0.2    3.6e-53  184.6   0.2    1.0  1  sp|P68057|HBBC_OVIMU   Hemoglobin subunit beta-C OS=Ovis orie
+    3.8e-53  184.6   0.1    4.2e-53  184.4   0.1    1.0  1  sp|P51443|HBE_SAGMI    Hemoglobin subunit epsilon OS=Saguinus
+    3.8e-53  184.5   0.2    4.3e-53  184.4   0.2    1.0  1  sp|P14389|HBA_PTEAL    Hemoglobin subunit alpha OS=Pteropus a
+    3.9e-53  184.5   0.0    4.3e-53  184.4   0.0    1.0  1  sp|P11755|HBA1_TADBR   Hemoglobin subunit alpha-1 OS=Tadarida
+      4e-53  184.5   0.0    4.4e-53  184.3   0.0    1.0  1  sp|P02097|HBG_MACNE    Hemoglobin subunit gamma OS=Macaca nem
+      4e-53  184.5   0.3    4.5e-53  184.3   0.3    1.0  1  sp|P01958|HBA_HORSE    Hemoglobin subunit alpha OS=Equus caba
+    4.1e-53  184.4   0.2    4.5e-53  184.3   0.2    1.0  1  sp|P51440|HBE_LAGLA    Hemoglobin subunit epsilon OS=Lagothri
+    4.2e-53  184.4   0.1    4.7e-53  184.3   0.1    1.0  1  sp|D0VX09|HBA_PTEGI    Hemoglobin subunit alpha OS=Pteropus g
+    4.2e-53  184.4   0.9    4.7e-53  184.3   0.9    1.0  1  sp|P07403|HBA_SPETO    Hemoglobin subunit alpha OS=Spermophil
+    4.3e-53  184.4   0.0    4.7e-53  184.2   0.0    1.0  1  sp|P18995|HBG1_PONPY   Hemoglobin subunit gamma-1 OS=Pongo py
+    4.8e-53  184.2   0.0    5.3e-53  184.1   0.0    1.0  1  sp|P02082|HBBF_CAPHI   Hemoglobin fetal subunit beta OS=Capra
+    5.5e-53  184.0   0.2    6.1e-53  183.9   0.2    1.0  1  sp|Q9TVA3|HBA2_EQUBU   Hemoglobin subunit alpha-2 OS=Equus bu
+    5.5e-53  184.0   0.8    6.1e-53  183.9   0.8    1.0  1  sp|Q9TSN9|HBA3_BUBBU   Hemoglobin subunit alpha-3 OS=Bubalus 
+    5.9e-53  183.9   1.1    6.6e-53  183.8   1.1    1.0  1  sp|P14526|HBB_BRATR    Hemoglobin subunit beta OS=Bradypus tr
+      6e-53  183.9   0.4    6.7e-53  183.8   0.4    1.0  1  sp|P01942|HBA_MOUSE    Hemoglobin subunit alpha OS=Mus muscul
+    6.1e-53  183.9   0.2    6.7e-53  183.7   0.2    1.0  1  sp|P68058|HBBC_AMMLE   Hemoglobin subunit beta-C OS=Ammotragu
+      7e-53  183.7   0.2    7.8e-53  183.5   0.2    1.0  1  sp|P68028|HBE_SAISC    Hemoglobin subunit epsilon OS=Saimiri 
+      7e-53  183.7   0.2    7.8e-53  183.5   0.2    1.0  1  sp|P68029|HBE_SAIBB    Hemoglobin subunit epsilon OS=Saimiri 
+    7.1e-53  183.7   1.1    7.8e-53  183.5   1.1    1.0  1  sp|P56208|MYG_CARCR    Myoglobin OS=Caretta caretta GN=MB PE=
+    7.4e-53  183.6   0.5    8.3e-53  183.4   0.5    1.0  1  sp|P02087|HBB_DASNO    Hemoglobin subunit beta OS=Dasypus nov
+    7.4e-53  183.6   0.0    8.2e-53  183.5   0.0    1.0  1  sp|P02052|HBB_TUPGL    Hemoglobin subunit beta OS=Tupaia glis
+      8e-53  183.5   1.1    8.8e-53  183.4   1.1    1.0  1  sp|P02202|MYG_CHEMY    Myoglobin OS=Chelonia mydas GN=MB PE=1
+    8.6e-53  183.4   0.0    9.5e-53  183.3   0.0    1.0  1  sp|P62741|HBG1_GORGO   Hemoglobin subunit gamma-1 OS=Gorilla 
+    9.3e-53  183.3   0.0      1e-52  183.1   0.0    1.0  1  sp|P61948|HBG2_HYLLA   Hemoglobin subunit gamma-2 OS=Hylobate
+    9.5e-53  183.2   0.3    1.1e-52  183.1   0.3    1.0  1  sp|P09906|HBA_RHIUN    Hemoglobin subunit alpha OS=Rhinoceros
+    9.8e-53  183.2   0.1    1.1e-52  183.1   0.1    1.0  1  sp|P51441|HBE_LEORO    Hemoglobin subunit epsilon OS=Leontopi
+    9.9e-53  183.2   0.2    1.1e-52  183.0   0.2    1.0  1  sp|P18970|HBA_AILME    Hemoglobin subunit alpha OS=Ailuropoda
+    1.1e-52  183.1   0.2    1.2e-52  182.9   0.2    1.0  1  sp|P51442|HBE_PITIR    Hemoglobin subunit epsilon OS=Pithecia
+    1.1e-52  183.1   0.3    1.2e-52  182.9   0.3    1.0  1  sp|Q9XSE9|HBA_EQUPR    Hemoglobin subunit alpha OS=Equus caba
+    1.1e-52  183.1   0.2    1.2e-52  182.9   0.2    1.0  1  sp|Q7LZB9|HBB_STROE    Hemoglobin subunit beta OS=Streptopeli
+    1.1e-52  183.0   0.2    1.3e-52  182.8   0.2    1.0  1  sp|Q29415|HBE_CEBOL    Hemoglobin subunit epsilon OS=Cebus ol
+    1.1e-52  183.0   0.2    1.3e-52  182.8   0.2    1.0  1  sp|Q7JFR7|HBE_CEBKA    Hemoglobin subunit epsilon OS=Cebus ka
+    1.2e-52  182.9   0.7    1.3e-52  182.8   0.7    1.0  1  sp|P01965|HBA_PIG      Hemoglobin subunit alpha OS=Sus scrofa
+    1.2e-52  182.9   0.3    1.4e-52  182.7   0.3    1.0  1  sp|P01944|HBA_ONDZI    Hemoglobin subunit alpha OS=Ondatra zi
+    1.2e-52  182.9   0.4    1.4e-52  182.7   0.4    1.0  1  sp|P63109|HBA_PANON    Hemoglobin subunit alpha OS=Panthera o
+    1.3e-52  182.8   0.7    1.5e-52  182.6   0.7    1.0  1  sp|P02099|HBG_RABIT    Hemoglobin subunit gamma OS=Oryctolagu
+    1.5e-52  182.6   0.1    1.6e-52  182.5   0.1    1.0  1  sp|P01962|HBA_TAPTE    Hemoglobin subunit alpha-1/2 OS=Tapiru
+    1.5e-52  182.6   0.2    1.7e-52  182.5   0.2    1.0  1  sp|P01959|HBA_EQUAS    Hemoglobin subunit alpha OS=Equus asin
+    1.5e-52  182.6   0.2    1.7e-52  182.5   0.2    1.0  1  sp|P01960|HBA_EQUZE    Hemoglobin subunit alpha OS=Equus zebr
+    1.5e-52  182.6   0.2    1.7e-52  182.5   0.2    1.0  1  sp|Q7JFN6|HBA2_EQUGR   Hemoglobin subunit alpha-2 OS=Equus gr
+    1.5e-52  182.6   0.1    1.7e-52  182.4   0.1    1.0  1  sp|P01941|HBA_TUPGL    Hemoglobin subunit alpha OS=Tupaia gli
+    1.5e-52  182.6   0.0    1.7e-52  182.4   0.0    1.0  1  sp|P61947|HBG1_HYLLA   Hemoglobin subunit gamma-1 OS=Hylobate
+    1.8e-52  182.3   0.4      2e-52  182.2   0.4    1.0  1  sp|P41330|HBA2_ARCGA   Hemoglobin subunit alpha-2 OS=Arctocep
+    1.8e-52  182.3   0.3      2e-52  182.2   0.3    1.0  1  sp|P63110|HBA_PANPO    Hemoglobin subunit alpha OS=Panthera p
+    1.9e-52  182.3   0.0    2.1e-52  182.1   0.0    1.0  1  sp|P02083|HBBF_SHEEP   Hemoglobin fetal subunit beta OS=Ovis 
+    1.9e-52  182.3   1.1    2.1e-52  182.1   1.1    1.0  1  sp|P16418|HBB_LIOMI    Hemoglobin subunit beta OS=Liophis mil
+    1.9e-52  182.3   0.1    2.1e-52  182.1   0.1    1.0  1  sp|Q9XSN3|HBA1_EQUBU   Hemoglobin subunit alpha-1 OS=Equus bu
+      2e-52  182.2   0.0    2.2e-52  182.1   0.0    1.0  1  sp|P02111|HBB_ORNAN    Hemoglobin subunit beta OS=Ornithorhyn
+      2e-52  182.2   0.2    2.2e-52  182.1   0.2    1.0  1  sp|Q28220|HBE_CEBAL    Hemoglobin subunit epsilon OS=Cebus al
+    2.1e-52  182.1   0.1    2.3e-52  182.0   0.1    1.0  1  sp|P11342|HBB_COLLI    Hemoglobin subunit beta OS=Columba liv
+    2.2e-52  182.1   0.3    2.4e-52  181.9   0.3    1.0  1  sp|P10883|HBA_PANTS    Hemoglobin subunit alpha OS=Panthera t
+    2.4e-52  182.0   0.3    2.6e-52  181.8   0.3    1.0  1  sp|P18976|HBA_PANPS    Hemoglobin subunit alpha OS=Panthera p
+    2.4e-52  181.9   0.5    2.7e-52  181.8   0.5    1.0  1  sp|P02201|MYG_GRAGE    Myoglobin OS=Graptemys geographica GN=
+    2.8e-52  181.7   0.6    3.1e-52  181.6   0.6    1.0  1  sp|B3EWC9|HBA_SPEBE    Hemoglobin subunit alpha OS=Spermophil
+      3e-52  181.7   0.0    3.3e-52  181.5   0.0    1.0  1  sp|P18996|HBG2_PONPY   Hemoglobin subunit gamma-2 OS=Pongo py
+    3.2e-52  181.5   0.0    3.6e-52  181.4   0.0    1.0  1  sp|P02081|HBBF_BOVIN   Hemoglobin fetal subunit beta OS=Bos t
+    3.3e-52  181.5   0.2    3.7e-52  181.3   0.2    1.0  1  sp|P01961|HBA_EQUHE    Hemoglobin subunit alpha-1/2 OS=Equus 
+    3.6e-52  181.4   0.2      4e-52  181.2   0.2    1.0  1  sp|P80216|HBB_APTFO    Hemoglobin subunit beta OS=Aptenodytes
+    3.7e-52  181.3   0.1    4.1e-52  181.2   0.1    1.0  1  sp|Q2KPA4|HBB_SCAAQ    Hemoglobin subunit beta OS=Scalopus aq
+    3.7e-52  181.3   0.3    4.1e-52  181.2   0.3    1.0  1  sp|P01943|HBA_SPAEH    Hemoglobin subunit alpha OS=Spalax ehr
+      4e-52  181.2   0.8    4.4e-52  181.1   0.8    1.0  1  sp|P01950|HBA_SUNMU    Hemoglobin subunit alpha OS=Suncus mur
+    4.1e-52  181.2   0.3    4.5e-52  181.1   0.3    1.0  1  sp|P68235|HBA_URSMA    Hemoglobin subunit alpha OS=Ursus mari
+    4.1e-52  181.2   0.3    4.5e-52  181.1   0.3    1.0  1  sp|P68236|HBA_URSTH    Hemoglobin subunit alpha OS=Ursus thib
+    4.1e-52  181.2   0.3    4.5e-52  181.1   0.3    1.0  1  sp|P68237|HBA_URSML    Hemoglobin subunit alpha OS=Ursus mala
+    4.5e-52  181.1   0.4      5e-52  180.9   0.4    1.0  1  sp|B3EWD5|HBA_PERCA    Hemoglobin subunit alpha OS=Peromyscus
+    4.8e-52  181.0   0.2    5.2e-52  180.8   0.2    1.0  1  sp|P02078|HBBC_CAPHI   Hemoglobin subunit beta-C OS=Capra hir
+    4.8e-52  181.0   0.2    5.3e-52  180.8   0.2    1.0  1  sp|P41329|HBA1_ARCGA   Hemoglobin subunit alpha-1 OS=Arctocep
+    5.2e-52  180.9   0.3    5.7e-52  180.7   0.3    1.0  1  sp|P24659|HBA_MACGG    Hemoglobin subunit alpha-1/2 OS=Macrod
+    5.6e-52  180.7   0.2    6.2e-52  180.6   0.2    1.0  1  sp|B3EWE3|HBA_MICPE    Hemoglobin subunit alpha OS=Microtus p
+    6.9e-52  180.5   0.3    7.6e-52  180.3   0.3    1.0  1  sp|P18975|HBA_PANLE    Hemoglobin subunit alpha OS=Panthera l
+      7e-52  180.4   0.5    7.8e-52  180.3   0.5    1.0  1  sp|P01972|HBA_ODOVI    Hemoglobin subunit alpha-1/2 OS=Odocoi
+    9.3e-52  180.0   0.4      1e-51  179.9   0.4    1.0  1  sp|P02125|HBB_CICCI    Hemoglobin subunit beta OS=Ciconia cic
+    9.6e-52  180.0   0.1      1e-51  179.9   0.1    1.0  1  sp|P02126|HBB_STUVU    Hemoglobin subunit beta OS=Sturnus vul
+      1e-51  179.9   0.2    1.1e-51  179.8   0.2    1.0  1  sp|P17689|HBA_MARFO    Hemoglobin subunit alpha OS=Martes foi
+      1e-51  179.9   0.3    1.2e-51  179.7   0.3    1.0  1  sp|P02105|HBE2_CAPHI   Hemoglobin subunit epsilon-2 OS=Capra 
+    1.1e-51  179.8   0.3    1.3e-51  179.6   0.3    1.0  1  sp|P06643|HBE4_BOVIN   Hemoglobin subunit epsilon-4 OS=Bos ta
+    1.3e-51  179.6   0.7    1.4e-51  179.4   0.7    1.0  1  sp|P18971|HBA_BALAC    Hemoglobin subunit alpha OS=Balaenopte
+    1.3e-51  179.5   0.2    1.5e-51  179.4   0.2    1.0  1  sp|P01948|HBA_RABIT    Hemoglobin subunit alpha-1/2 OS=Orycto
+    1.3e-51  179.5   0.1    1.5e-51  179.4   0.1    1.0  1  sp|P10778|HBA_ODORO    Hemoglobin subunit alpha OS=Odobenus r
+    1.4e-51  179.4   0.0    1.6e-51  179.3   0.0    1.0  1  sp|P68256|HBG1_CEBAP   Hemoglobin subunit gamma-1 OS=Cebus ap
+    1.4e-51  179.4   0.0    1.6e-51  179.3   0.0    1.0  1  sp|Q28221|HBG1_CEBAL   Hemoglobin subunit gamma-1 OS=Cebus al
+    1.4e-51  179.4   1.0    1.6e-51  179.3   1.0    1.0  1  sp|P01964|HBA_DASNO    Hemoglobin subunit alpha OS=Dasypus no
+    1.5e-51  179.4   0.0    1.7e-51  179.2   0.0    1.0  1  sp|P21668|HBB_PSIKR    Hemoglobin subunit beta OS=Psittacula 
+    1.7e-51  179.2   0.1    1.9e-51  179.0   0.1    1.0  1  sp|P15448|HBA_MELCA    Hemoglobin subunit alpha OS=Mellivora 
+    1.8e-51  179.1   0.0      2e-51  179.0   0.0    1.0  1  sp|P68257|HBG2_CEBAP   Hemoglobin subunit gamma-2 OS=Cebus ap
+    1.8e-51  179.1   0.0      2e-51  179.0   0.0    1.0  1  sp|P68258|HBG2_CEBAL   Hemoglobin subunit gamma-2 OS=Cebus al
+    1.9e-51  179.1   0.0      2e-51  178.9   0.0    1.0  1  sp|P02115|HBB_ANAPP    Hemoglobin subunit beta OS=Anas platyr
+      2e-51  178.9   0.0    2.2e-51  178.8   0.0    1.0  1  sp|P22742|HBB_FRAPO    Hemoglobin subunit beta OS=Francolinus
+    2.1e-51  178.9   0.1    2.3e-51  178.8   0.1    1.0  1  sp|P02118|HBB_ANSIN    Hemoglobin subunit beta OS=Anser indic
+    2.2e-51  178.8   0.1    2.5e-51  178.7   0.1    1.0  1  sp|P30893|HBB_COTJA    Hemoglobin subunit beta OS=Coturnix co
+    2.3e-51  178.8   0.1    2.5e-51  178.6   0.1    1.0  1  sp|P18969|HBA_AILFU    Hemoglobin subunit alpha OS=Ailurus fu
+    2.3e-51  178.7   0.0    2.6e-51  178.6   0.0    1.0  1  sp|P10058|HBB_EUDCH    Hemoglobin subunit beta OS=Eudyptes ch
+    2.5e-51  178.6   0.4    2.8e-51  178.5   0.4    1.0  1  sp|P24292|HBB_ECHTE    Hemoglobin subunit beta OS=Echinops te
+    2.6e-51  178.6   0.1    2.8e-51  178.5   0.1    1.0  1  sp|P07036|HBB_CHLME    Hemoglobin subunit beta OS=Chloephaga 
+    2.6e-51  178.6   0.2    2.9e-51  178.4   0.2    1.0  1  sp|P02107|HBB_MACRU    Hemoglobin subunit beta OS=Macropus ru
+    2.6e-51  178.6   0.4    2.9e-51  178.4   0.4    1.0  1  sp|Q6H1U7|HBB_MACEU    Hemoglobin subunit beta OS=Macropus eu
+    2.7e-51  178.5   0.1      3e-51  178.4   0.1    1.0  1  sp|P60529|HBA_CANFA    Hemoglobin subunit alpha OS=Canis fami
+    2.8e-51  178.5   0.1    3.1e-51  178.3   0.1    1.0  1  sp|P02127|HBRH_CHICK   Hemoglobin subunit rho OS=Gallus gallu
+    3.1e-51  178.3   0.0    3.5e-51  178.2   0.0    1.0  1  sp|Q45XH5|HBG_DUGDU    Hemoglobin subunit gamma OS=Dugong dug
+    3.2e-51  178.3   0.4    3.5e-51  178.1   0.4    1.0  1  sp|P02106|HBB_MACGI    Hemoglobin subunit beta OS=Macropus gi
+    3.3e-51  178.2   0.0    3.7e-51  178.1   0.0    1.0  1  sp|P07406|HBB_PASMO    Hemoglobin subunit beta OS=Passer mont
+    3.5e-51  178.2   1.5    3.8e-51  178.0   1.5    1.0  1  sp|P02199|MYG_APTFO    Myoglobin OS=Aptenodytes forsteri GN=M
+    3.5e-51  178.2   0.1    3.9e-51  178.0   0.1    1.0  1  sp|P08261|HBB_CHRRI    Hemoglobin subunit beta/beta' OS=Chroi
+    3.6e-51  178.1   0.1      4e-51  178.0   0.1    1.0  1  sp|P02121|HBB_PHORU    Hemoglobin subunit beta OS=Phoenicopte
+    3.8e-51  178.0   0.1    4.2e-51  177.9   0.1    1.0  1  sp|P60530|HBA_CANLA    Hemoglobin subunit alpha OS=Canis latr
+      4e-51  178.0   0.1    4.4e-51  177.9   0.1    1.0  1  sp|P02112|HBB_CHICK    Hemoglobin subunit beta OS=Gallus gall
+      4e-51  178.0   0.1    4.4e-51  177.9   0.1    1.0  1  sp|P68944|HBB_BRACA    Hemoglobin subunit beta OS=Branta cana
+      4e-51  178.0   0.1    4.4e-51  177.9   0.1    1.0  1  sp|P68945|HBB_CYGOL    Hemoglobin subunit beta OS=Cygnus olor
+      4e-51  178.0   0.1    4.4e-51  177.8   0.1    1.0  1  sp|P02117|HBB_ANSAN    Hemoglobin subunit beta OS=Anser anser
+    4.1e-51  178.0   0.0    4.5e-51  177.8   0.0    1.0  1  sp|P68068|HBG_ATEGE    Hemoglobin subunit gamma OS=Ateles geo
+    4.1e-51  178.0   0.0    4.5e-51  177.8   0.0    1.0  1  sp|P68069|HBG_ATEPA    Hemoglobin subunit gamma OS=Ateles pan
+    4.1e-51  178.0   0.0    4.5e-51  177.8   0.0    1.0  1  sp|P68070|HBG_LAGLA    Hemoglobin subunit gamma OS=Lagothrix 
+    4.1e-51  178.0   0.0    4.5e-51  177.8   0.0    1.0  1  sp|P68071|HBG_BRAAR    Hemoglobin subunit gamma OS=Brachytele
+    4.2e-51  177.9   0.3    4.7e-51  177.7   0.3    1.0  1  sp|B3EWE1|HBA_BLABR    Hemoglobin subunit alpha OS=Blarina br
+    4.5e-51  177.8   0.1    4.9e-51  177.7   0.1    1.0  1  sp|P07411|HBB_VULGR    Hemoglobin subunit beta OS=Vultur gryp
+    4.6e-51  177.8   0.0      5e-51  177.7   0.0    1.0  1  sp|P02113|HBB_PHACO    Hemoglobin subunit beta OS=Phasianus c
+    5.1e-51  177.6   0.1    5.7e-51  177.5   0.1    1.0  1  sp|P21200|HBA_VULVU    Hemoglobin subunit alpha OS=Vulpes vul
+    5.2e-51  177.6   0.1    5.7e-51  177.5   0.1    1.0  1  sp|P82113|HBB_STEMC    Hemoglobin subunit beta OS=Stercorariu
+    5.4e-51  177.6   0.3      6e-51  177.4   0.3    1.0  1  sp|B3EWD9|HBA_TAMST    Hemoglobin subunit alpha OS=Tamias str
+    5.5e-51  177.5   0.0      6e-51  177.4   0.0    1.0  1  sp|P68030|HBG_ALOBE    Hemoglobin subunit gamma OS=Alouatta b
+    5.5e-51  177.5   0.0      6e-51  177.4   0.0    1.0  1  sp|P68031|HBG_ALOCA    Hemoglobin subunit gamma OS=Alouatta c
+    5.5e-51  177.5   0.1    6.1e-51  177.4   0.1    1.0  1  sp|P14260|HBB_CAIMO    Hemoglobin subunit beta OS=Cairina mos
+    5.6e-51  177.5   0.0    6.2e-51  177.4   0.0    1.0  1  sp|Q9GJS7|HBG_CALJA    Hemoglobin subunit gamma OS=Callithrix
+    5.6e-51  177.5   1.0    6.3e-51  177.3   1.0    1.0  1  sp|Q7M3B8|HBA1_HAPGR   Hemoglobin subunit alpha-1 OS=Hapalemu
+    5.8e-51  177.5   0.1    6.5e-51  177.3   0.1    1.0  1  sp|P60523|HBA_CHRBR    Hemoglobin subunit alpha OS=Chrysocyon
+    5.8e-51  177.5   0.0    6.4e-51  177.3   0.0    1.0  1  sp|P02116|HBB_ARAAR    Hemoglobin subunit beta OS=Ara araraun
+    6.2e-51  177.4   0.9    6.8e-51  177.2   0.9    1.0  1  sp|P63105|HBA_CAMBA    Hemoglobin subunit alpha OS=Camelus ba
+    6.2e-51  177.4   0.9    6.8e-51  177.2   0.9    1.0  1  sp|P63106|HBA_CAMDR    Hemoglobin subunit alpha OS=Camelus dr
+    6.2e-51  177.4   2.7    6.9e-51  177.2   2.7    1.0  1  sp|P02200|MYG_ALLMI    Myoglobin OS=Alligator mississippiensi
+    6.5e-51  177.3   0.0    7.2e-51  177.1   0.0    1.0  1  sp|P07414|HBA_TRIIN    Hemoglobin subunit alpha OS=Trichechus
+    6.7e-51  177.3   0.0    7.3e-51  177.1   0.0    1.0  1  sp|P14524|HBB_TURME    Hemoglobin subunit beta OS=Turdus meru
+    7.1e-51  177.2   0.1    7.9e-51  177.0   0.1    1.0  1  sp|Q45XI4|HBD_DENDR    Hemoglobin subunit deltaH OS=Dendrohyr
+    7.4e-51  177.1   0.1    8.2e-51  177.0   0.1    1.0  1  sp|P84792|HBB_AYTFU    Hemoglobin subunit beta OS=Aythya fuli
+    7.9e-51  177.0   1.9    8.7e-51  176.9   1.9    1.0  1  sp|P0C0U8|HBB1_DRYCE   Hemoglobin subunit beta-1 OS=Drymarcho
+    9.7e-51  176.7   0.7    1.1e-50  176.6   0.7    1.0  1  sp|P19645|HBA_PAGLA    Hemoglobin subunit alpha OS=Paguma lar
+    9.8e-51  176.7   0.1    1.1e-50  176.6   0.1    1.0  1  sp|O13071|HBE_CALGE    Hemoglobin subunit epsilon (Fragment) 
+      1e-50  176.7   0.0    1.1e-50  176.5   0.0    1.0  1  sp|Q45XI5|HBD_HETBR    Hemoglobin subunit deltaH OS=Heterohyr
+      1e-50  176.7   1.0    1.1e-50  176.5   1.0    1.0  1  sp|P07419|HBA_DASVI    Hemoglobin subunit alpha OS=Dasyurus v
+      1e-50  176.6   0.1    1.3e-50  176.3   0.1    1.1  1  sp|P09967|GLB1_PETMA   Globin-1 OS=Petromyzon marinus PE=1 SV
+    1.1e-50  176.6   0.1    1.2e-50  176.5   0.1    1.0  1  sp|P02114|HBB_ANAPL    Hemoglobin subunit beta OS=Anas platyr
+    1.1e-50  176.6   0.3    1.2e-50  176.4   0.3    1.0  1  sp|P18978|HBA_TURTR    Hemoglobin subunit alpha OS=Tursiops t
+    1.1e-50  176.5   0.2    1.2e-50  176.4   0.2    1.0  1  sp|P10782|HBB_PHACA    Hemoglobin subunit beta OS=Phalacrocor
+    1.3e-50  176.4   0.1    1.4e-50  176.2   0.1    1.0  1  sp|P15163|HBA_LEPWE    Hemoglobin subunit alpha-1/2 OS=Lepton
+    1.4e-50  176.2   0.9    1.6e-50  176.0   0.9    1.0  1  sp|P23019|HBA_PROCR    Hemoglobin subunit alpha OS=Proteles c
+    1.5e-50  176.1   0.1    1.7e-50  176.0   0.1    1.0  1  sp|P02124|HBB_RHEAM    Hemoglobin subunit beta OS=Rhea americ
+    1.6e-50  176.1   0.1    1.7e-50  175.9   0.1    1.0  1  sp|P86390|HBB2_IGUIG   Hemoglobin subunit beta-2 OS=Iguana ig
+    1.8e-50  175.9   0.0      2e-50  175.7   0.0    1.0  1  sp|P02123|HBB_STRCA    Hemoglobin subunit beta OS=Struthio ca
+    1.9e-50  175.8   0.0    2.1e-50  175.6   0.0    1.0  1  sp|Q27940|HBG_AOTAZ    Hemoglobin subunit gamma OS=Aotus azar
+      2e-50  175.7   0.0    2.2e-50  175.6   0.0    1.0  1  sp|P02120|HBB_ANSSE    Hemoglobin subunit beta OS=Anseranas s
+    2.4e-50  175.5   0.3    2.6e-50  175.3   0.3    1.0  1  sp|P02203|MYG_VARVA    Myoglobin OS=Varanus varius GN=MB PE=1
+    2.4e-50  175.4   0.0    2.7e-50  175.3   0.0    1.0  1  sp|P68061|HBB_AEGMO    Hemoglobin subunit beta OS=Aegypius mo
+    2.4e-50  175.4   0.0    2.7e-50  175.3   0.0    1.0  1  sp|P68062|HBB_TRIOC    Hemoglobin subunit beta OS=Trigonoceps
+    2.4e-50  175.4   0.0    2.7e-50  175.3   0.0    1.0  1  sp|P68063|HBB_GYPRU    Hemoglobin subunit beta OS=Gyps rueppe
+    2.6e-50  175.3   0.1    2.9e-50  175.2   0.1    1.0  1  sp|P08851|HBB_ACCGE    Hemoglobin subunit beta OS=Accipiter g
+    2.7e-50  175.3   0.4      3e-50  175.1   0.4    1.0  1  sp|P01957|HBA_PROHA    Hemoglobin subunit alpha OS=Procavia c
+    2.7e-50  175.3   0.0      3e-50  175.1   0.0    1.0  1  sp|Q9GLX4|HBG1_CALMO   Hemoglobin subunit gamma-1 OS=Calliceb
+    2.8e-50  175.2   0.1    3.1e-50  175.1   0.1    1.0  1  sp|P02128|HBE_CHICK    Hemoglobin subunit epsilon OS=Gallus g
+    3.1e-50  175.1   0.1    3.5e-50  174.9   0.1    1.0  1  sp|P01949|HBA_ERIEU    Hemoglobin subunit alpha OS=Erinaceus 
+    3.8e-50  174.8   1.4    4.2e-50  174.7   1.4    1.0  1  sp|P01979|HBA_ORNAN    Hemoglobin subunit alpha OS=Ornithorhy
+    3.9e-50  174.8   0.1    4.3e-50  174.6   0.1    1.0  1  sp|P18977|HBA_PROLO    Hemoglobin subunit alpha OS=Procyon lo
+    3.9e-50  174.8   0.6    4.3e-50  174.6   0.6    1.0  1  sp|P01973|HBA_LAMGL    Hemoglobin subunit alpha OS=Lama glama
+    4.1e-50  174.7   0.9    4.6e-50  174.6   0.9    1.0  1  sp|P67815|HBA_LAMGU    Hemoglobin subunit alpha OS=Lama guani
+    4.1e-50  174.7   0.9    4.6e-50  174.6   0.9    1.0  1  sp|P67816|HBA_LAMPA    Hemoglobin subunit alpha OS=Lama guani
+    5.3e-50  174.3   0.1    5.8e-50  174.2   0.1    1.0  1  sp|P02108|HBB_POTTR    Hemoglobin subunit beta OS=Potorous tr
+    5.3e-50  174.3   0.4    5.8e-50  174.2   0.4    1.0  1  sp|P83123|HBB_CHENI    Hemoglobin subunit beta OS=Chelonoidis
+    5.4e-50  174.3   0.1      6e-50  174.2   0.1    1.0  1  sp|P02109|HBB_DIDVI    Hemoglobin subunit beta-M OS=Didelphis
+    5.5e-50  174.3   0.1      6e-50  174.2   0.1    1.0  1  sp|P02122|HBB_AQUCH    Hemoglobin subunit beta OS=Aquila chry
+    6.6e-50  174.0   2.2    7.3e-50  173.9   2.2    1.0  1  sp|P01977|HBA1_TACAC   Hemoglobin subunit alpha-1 OS=Tachyglo
+    6.7e-50  174.0   0.9    7.4e-50  173.9   0.9    1.0  1  sp|P07425|HBA_LAMVI    Hemoglobin subunit alpha OS=Lama vicug
+    8.1e-50  173.7   1.2      9e-50  173.6   1.2    1.0  1  sp|P01978|HBA2_TACAC   Hemoglobin subunit alpha-2 OS=Tachyglo
+    8.6e-50  173.6   0.2    9.6e-50  173.5   0.2    1.0  1  sp|P04444|HBBZ_MOUSE   Hemoglobin subunit beta-H1 OS=Mus musc
+    9.7e-50  173.5   0.4    1.1e-49  173.3   0.4    1.0  1  sp|P22743|HBB2_NAJNA   Hemoglobin subunit beta-2 OS=Naja naja
+    1.1e-49  173.3   0.5    1.2e-49  173.2   0.5    1.0  1  sp|P01954|HBA_ELEMA    Hemoglobin subunit alpha OS=Elephas ma
+    1.2e-49  173.2   1.2    1.3e-49  173.1   1.2    1.0  1  sp|P13274|HBB_CHRPI    Hemoglobin subunit beta OS=Chrysemys p
+    1.6e-49  172.8   0.2    1.7e-49  172.7   0.2    1.0  1  sp|P29626|HBBY_MESAU   Hemoglobin subunit beta-Y OS=Mesocrice
+    1.6e-49  172.8   0.0    1.8e-49  172.6   0.0    1.0  1  sp|P56285|HBG_ALOSE    Hemoglobin subunit gamma OS=Alouatta s
+    1.6e-49  172.8   0.0    1.8e-49  172.6   0.0    1.0  1  sp|Q45XI6|HBD_PROCA    Hemoglobin subunit deltaH OS=Procavia 
+    1.7e-49  172.7   0.5    1.9e-49  172.5   0.5    1.0  1  sp|Q98905|HBB_CHECB    Hemoglobin subunit beta OS=Chelonoidis
+    2.9e-49  171.9   0.4    3.2e-49  171.8   0.4    1.0  1  sp|P01955|HBA_LOXAF    Hemoglobin subunit alpha OS=Loxodonta 
+    3.5e-49  171.7   0.4    3.9e-49  171.5   0.4    1.0  1  sp|P02080|HBBN_AMMLE   Hemoglobin subunit beta-C(NA) OS=Ammot
+    3.6e-49  171.7   1.4      4e-49  171.5   1.4    1.0  1  sp|B3EWD3|HBA_PERCR    Hemoglobin subunit alpha OS=Peromyscus
+    3.6e-49  171.6   0.6      4e-49  171.5   0.6    1.0  1  sp|P01975|HBA_MACGI    Hemoglobin subunit alpha OS=Macropus g
+    3.9e-49  171.5   0.0    4.2e-49  171.4   0.0    1.0  1  sp|P86391|HBB2_AMBCR   Hemoglobin subunit beta-2 OS=Amblyrhyn
+    3.9e-49  171.5   0.3    4.4e-49  171.4   0.3    1.0  1  sp|B3EWD1|HBA_SCICA    Hemoglobin subunit alpha OS=Sciurus ca
+    4.5e-49  171.3   0.2      5e-49  171.2   0.2    1.0  1  sp|P18987|HBB1_IGUIG   Hemoglobin subunit beta-1 OS=Iguana ig
+    4.7e-49  171.3   0.6    5.2e-49  171.1   0.6    1.0  1  sp|P18973|HBA_CROCR    Hemoglobin subunit alpha OS=Crocuta cr
+    5.1e-49  171.1   0.1    5.6e-49  171.0   0.1    1.0  1  sp|P10061|HBB2_SPHPU   Hemoglobin subunit beta-2 OS=Sphenodon
+    5.6e-49  171.0   0.2    6.2e-49  170.9   0.2    1.0  1  sp|P06642|HBE2_BOVIN   Hemoglobin subunit epsilon-2 OS=Bos ta
+    5.7e-49  171.0   0.4    6.4e-49  170.8   0.4    1.0  1  sp|P04443|HBB0_MOUSE   Hemoglobin subunit beta-H0 OS=Mus musc
+    6.1e-49  170.9   0.1    6.7e-49  170.8   0.1    1.0  1  sp|Q45XH6|HBG_TRIMA    Hemoglobin subunit gamma OS=Trichechus
+    6.6e-49  170.8   0.6    7.2e-49  170.7   0.6    1.0  1  sp|P83133|HBB_ALDEL    Hemoglobin A/D subunit beta OS=Aldabra
+    6.7e-49  170.8   0.1    8.3e-49  170.5   0.1    1.1  1  sp|P21198|GLB2_MORMR   Globin-2 OS=Mordacia mordax PE=1 SV=2
+    8.8e-49  170.4   0.4    9.8e-49  170.2   0.4    1.0  1  sp|P81043|HBA_MACEU    Hemoglobin subunit alpha OS=Macropus e
+    9.3e-49  170.3   0.2      1e-48  170.1   0.2    1.0  1  sp|P14525|HBA_BRATR    Hemoglobin subunit alpha OS=Bradypus t
+      1e-48  170.1   0.1    1.3e-48  169.8   0.1    1.1  1  sp|P21197|GLB1_MORMR   Globin-1 OS=Mordacia mordax PE=1 SV=2
+    2.1e-48  169.1   0.2    2.3e-48  169.0   0.2    1.0  1  sp|P15165|HBB_APUAP    Hemoglobin subunit beta OS=Apus apus G
+    2.1e-48  169.1   0.4    2.4e-48  169.0   0.4    1.0  1  sp|P18436|HBG_TARSY    Hemoglobin subunit gamma OS=Tarsius sy
+    2.3e-48  169.0   1.2    2.5e-48  168.9   1.2    1.0  1  sp|P10059|HBA_SPHPU    Hemoglobin subunit alpha-A OS=Sphenodo
+    2.6e-48  168.9   0.4    2.8e-48  168.7   0.4    1.0  1  sp|P41332|HBB_MICGA    Hemoglobin subunit beta OS=Microcephal
+    3.2e-48  168.6   0.2    3.6e-48  168.4   0.2    1.0  1  sp|P01946|HBA_RAT      Hemoglobin subunit alpha-1/2 OS=Rattus
+    3.3e-48  168.5   1.2    3.6e-48  168.4   1.2    1.0  1  sp|P19014|HBA_CRIGA    Hemoglobin subunit alpha OS=Cricetomys
+    5.4e-48  167.8   0.6    6.4e-48  167.6   0.6    1.0  1  sp|P21199|GLB3_MORMR   Globin-3 OS=Mordacia mordax PE=1 SV=2
+    5.8e-48  167.7   0.3    6.5e-48  167.6   0.3    1.0  1  sp|P81024|HBAD_MELGA   Hemoglobin subunit alpha-D OS=Meleagri
+      8e-48  167.3   0.1    8.9e-48  167.1   0.1    1.0  1  sp|Q9XSN2|HBA1_EQUGR   Hemoglobin subunit alpha-1 OS=Equus gr
+    8.1e-48  167.2   0.6      9e-48  167.1   0.6    1.0  1  sp|Q9DF25|HBAD_CHECB   Hemoglobin subunit alpha-D OS=Chelonoi
+    8.8e-48  167.1   0.2    9.8e-48  167.0   0.2    1.0  1  sp|P01998|HBA_CRONI    Hemoglobin subunit alpha OS=Crocodylus
+    1.8e-47  166.1   0.3      2e-47  165.9   0.3    1.0  1  sp|P08849|HBAD_ACCGE   Hemoglobin subunit alpha-D OS=Accipite
+    1.9e-47  166.1   1.1    2.1e-47  165.9   1.1    1.0  1  sp|Q10732|HBA_CARCR    Hemoglobin subunit alpha-A OS=Caretta 
+    2.2e-47  165.8   0.0    2.4e-47  165.7   0.0    1.0  1  sp|P02007|HBPI_CHICK   Hemoglobin subunit pi OS=Gallus gallus
+    2.2e-47  165.8   0.3    2.5e-47  165.7   0.3    1.0  1  sp|P13787|HBAZ_HORSE   Hemoglobin subunit zeta OS=Equus cabal
+    2.3e-47  165.8   0.3    2.5e-47  165.7   0.3    1.0  1  sp|B3EWD7|HBA_TAMHU    Hemoglobin subunit alpha OS=Tamiasciur
+    2.9e-47  165.5   0.0    3.2e-47  165.3   0.0    1.0  1  sp|P24291|HBA_ECHTE    Hemoglobin subunit alpha OS=Echinops t
+    2.9e-47  165.5   0.7    3.2e-47  165.3   0.7    1.0  1  sp|P02076|HBB_OVIMU    Hemoglobin subunit beta OS=Ovis orient
+      3e-47  165.4   0.7    3.3e-47  165.3   0.7    1.0  1  sp|P83134|HBAD_ALDEL   Hemoglobin D subunit alpha OS=Aldabrac
+    3.1e-47  165.4   0.3    3.4e-47  165.2   0.3    1.0  1  sp|P02001|HBAD_CHICK   Hemoglobin subunit alpha-D OS=Gallus g
+    3.1e-47  165.4   0.5    3.4e-47  165.2   0.5    1.0  1  sp|P11751|HBA_MEGLY    Hemoglobin subunit alpha OS=Megaderma 
+    4.2e-47  164.9   0.1    4.6e-47  164.8   0.1    1.0  1  sp|P18993|HBB1_VARAL   Hemoglobin subunit beta-1 OS=Varanus a
+    6.3e-47  164.4   0.2      7e-47  164.2   0.2    1.0  1  sp|P68059|HBAD_AEGMO   Hemoglobin subunit alpha-D OS=Aegypius
+    6.3e-47  164.4   0.2      7e-47  164.2   0.2    1.0  1  sp|P68060|HBAD_TRIOC   Hemoglobin subunit alpha-D OS=Trigonoc
+    6.4e-47  164.3   0.2    7.1e-47  164.2   0.2    1.0  1  sp|P04242|HBAD_STRCA   Hemoglobin subunit alpha-D OS=Struthio
+    7.3e-47  164.2   0.2    8.1e-47  164.0   0.2    1.0  1  sp|P02008|HBAZ_HUMAN   Hemoglobin subunit zeta OS=Homo sapien
+    7.5e-47  164.1   0.0    8.3e-47  164.0   0.0    1.0  1  sp|P04243|HBPI_CAIMO   Hemoglobin subunit pi OS=Cairina mosch
+    8.6e-47  163.9   1.3    9.5e-47  163.8   1.3    1.0  1  sp|P13273|HBA_CHRPI    Hemoglobin subunit alpha-A OS=Chrysemy
+      1e-46  163.7   0.3    1.1e-46  163.6   0.3    1.0  1  sp|P83124|HBAD_CHENI   Hemoglobin subunit alpha-D OS=Chelonoi
+      1e-46  163.7   1.2    1.1e-46  163.6   1.2    1.0  1  sp|P06638|HBA5_XENLA   Hemoglobin subunit alpha-5 OS=Xenopus 
+    1.1e-46  163.6   0.2    1.2e-46  163.4   0.2    1.0  1  sp|P02000|HBA_CAICR    Hemoglobin subunit alpha OS=Caiman cro
+    1.1e-46  163.5   0.3    1.3e-46  163.4   0.3    1.0  1  sp|P04241|HBAD_RHEAM   Hemoglobin subunit alpha-D OS=Rhea ame
+    1.6e-46  163.1   1.4    1.7e-46  162.9   1.4    1.0  1  sp|P01986|HBA_ANAPL    Hemoglobin subunit alpha-A OS=Anas pla
+    1.7e-46  163.0   1.0    1.8e-46  162.8   1.0    1.0  1  sp|P01989|HBA_ANSAN    Hemoglobin subunit alpha-A OS=Anser an
+    1.7e-46  162.9   0.2    1.9e-46  162.8   0.2    1.0  1  sp|P08257|HBAD_GYPRU   Hemoglobin subunit alpha-D/D' OS=Gyps 
+    1.8e-46  162.9   1.3    1.9e-46  162.8   1.3    1.0  1  sp|P01988|HBA_ANAPP    Hemoglobin subunit alpha-A OS=Anas pla
+    1.9e-46  162.8   0.4    2.1e-46  162.7   0.4    1.0  1  sp|P02002|HBAD_PHACO   Hemoglobin subunit alpha-D OS=Phasianu
+    1.9e-46  162.8   0.5    2.1e-46  162.6   0.5    1.0  1  sp|P01993|HBA_AQUCH    Hemoglobin subunit alpha-A OS=Aquila c
+      2e-46  162.7   0.4    2.2e-46  162.6   0.4    1.0  1  sp|P84791|HBAD_AYTFU   Hemoglobin subunit alpha-D OS=Aythya f
+    2.5e-46  162.4   0.2    2.8e-46  162.3   0.2    1.0  1  sp|P06347|HBAZ_PANTR   Hemoglobin subunit zeta OS=Pan troglod
+    2.6e-46  162.4   1.2    2.9e-46  162.2   1.2    1.0  1  sp|P22740|HBA_ANAPE    Hemoglobin subunit alpha-A OS=Anas pen
+    2.7e-46  162.3   0.4    2.9e-46  162.2   0.4    1.0  1  sp|P82112|HBA2_STEMC   Hemoglobin subunit alpha-2 OS=Stercora
+    2.9e-46  162.2   1.0    3.3e-46  162.0   1.0    1.0  1  sp|P01991|HBA_BRACA    Hemoglobin subunit alpha-A OS=Branta c
+      3e-46  162.2   1.3    3.3e-46  162.0   1.3    1.0  1  sp|P01987|HBA_CAIMO    Hemoglobin subunit alpha-A OS=Cairina 
+    3.4e-46  162.0   2.0    3.7e-46  161.9   2.0    1.0  1  sp|P01990|HBA_ANSIN    Hemoglobin subunit alpha-A OS=Anser in
+    3.6e-46  161.9   0.5      4e-46  161.7   0.5    1.0  1  sp|P22741|HBA_FRAPO    Hemoglobin subunit alpha-A OS=Francoli
+    4.3e-46  161.7   0.2    4.7e-46  161.5   0.2    1.0  1  sp|P83135|HBAA_CHENI   Hemoglobin subunit alpha-A OS=Chelonoi
+    4.5e-46  161.6   0.6      5e-46  161.4   0.6    1.0  1  sp|P04442|HBAD_ANAPL   Hemoglobin subunit alpha-D OS=Anas pla
+    4.6e-46  161.6   0.1      5e-46  161.4   0.1    1.0  1  sp|P83132|HBA2_ALDEL   Hemoglobin A subunit alpha-2 OS=Aldabr
+    4.7e-46  161.5   2.7    5.1e-46  161.4   2.7    1.0  1  sp|P02005|HBAD_CHRPI   Hemoglobin subunit alpha-D OS=Chrysemy
+    5.5e-46  161.3   0.4    6.1e-46  161.2   0.4    1.0  1  sp|P01995|HBA_PHACO    Hemoglobin subunit alpha-A OS=Phasianu
+    7.1e-46  160.9   1.0    7.9e-46  160.8   1.0    1.0  1  sp|P10057|HBA_EUDCH    Hemoglobin subunit alpha OS=Eudyptes c
+    8.1e-46  160.8   0.5    8.9e-46  160.6   0.5    1.0  1  sp|P84790|HBA_AYTFU    Hemoglobin subunit alpha-A OS=Aythya f
+    8.9e-46  160.6   3.2    9.8e-46  160.5   3.2    1.0  1  sp|P02006|HBAD_PHRHI   Hemoglobin subunit alpha-D OS=Phrynops
+      9e-46  160.6   0.3    9.9e-46  160.5   0.3    1.0  1  sp|P08850|HBA_ACCGE    Hemoglobin subunit alpha-A OS=Accipite
+      1e-45  160.5   0.2    1.1e-45  160.3   0.2    1.0  1  sp|P83131|HBA1_ALDEL   Hemoglobin A subunit alpha-1 OS=Aldabr
+    1.1e-45  160.4   0.4    1.2e-45  160.2   0.4    1.0  1  sp|P30892|HBAD_COTJA   Hemoglobin subunit alpha-D OS=Coturnix
+    1.1e-45  160.3   0.6    1.2e-45  160.2   0.6    1.0  1  sp|P02003|HBAD_CAIMO   Hemoglobin subunit alpha-D OS=Cairina 
+    1.1e-45  160.3   0.5    1.2e-45  160.2   0.5    1.0  1  sp|P01981|HBA_STRCA    Hemoglobin subunit alpha-A OS=Struthio
+    1.2e-45  160.2   0.6    1.4e-45  160.0   0.6    1.0  1  sp|P10060|HBB1_SPHPU   Hemoglobin subunit beta-1 OS=Sphenodon
+    1.5e-45  159.9   1.2    1.7e-45  159.8   1.2    1.0  1  sp|P01980|HBA_APTFO    Hemoglobin subunit alpha OS=Aptenodyte
+    1.6e-45  159.8   0.7    1.8e-45  159.7   0.7    1.0  1  sp|P01947|HBA_CAVPO    Hemoglobin subunit alpha OS=Cavia porc
+    1.8e-45  159.6   0.5      2e-45  159.5   0.5    1.0  1  sp|P01983|HBA_CICCI    Hemoglobin subunit alpha-A OS=Ciconia 
+    1.8e-45  159.6   0.2      2e-45  159.5   0.2    1.0  1  sp|P13786|HBAZ_CAPHI   Hemoglobin subunit zeta OS=Capra hircu
+    1.9e-45  159.5   1.0    2.1e-45  159.4   1.0    1.0  1  sp|P01992|HBA_CYGOL    Hemoglobin subunit alpha-A OS=Cygnus o
+      2e-45  159.5   0.5    2.2e-45  159.4   0.5    1.0  1  sp|P01999|HBA_ALLMI    Hemoglobin subunit alpha OS=Alligator 
+    2.1e-45  159.4   0.8    2.3e-45  159.3   0.8    1.0  1  sp|P24589|HBA_COTJA    Hemoglobin subunit alpha-A OS=Coturnix
+    2.3e-45  159.3   0.2    2.6e-45  159.1   0.2    1.0  1  sp|P02009|HBAZ_PIG     Hemoglobin subunit zeta OS=Sus scrofa 
+      3e-45  158.9   0.2    3.2e-45  158.8   0.2    1.0  1  sp|P02129|HBB_CRONI    Hemoglobin subunit beta OS=Crocodylus 
+    3.3e-45  158.8   1.0    3.6e-45  158.6   1.0    1.0  1  sp|P02137|HBBL_XENLA   Hemoglobin larval subunit beta-1 OS=Xe
+    3.6e-45  158.7   0.4      4e-45  158.5   0.4    1.0  1  sp|P08256|HBA_GYPRU    Hemoglobin subunit alpha-A/A' OS=Gyps 
+    4.1e-45  158.5   1.4    4.5e-45  158.3   1.4    1.0  1  sp|P07034|HBA_CHLME    Hemoglobin subunit alpha-A OS=Chloepha
+    4.8e-45  158.3   0.4    5.3e-45  158.1   0.4    1.0  1  sp|P07417|HBA_AEGMO    Hemoglobin subunit alpha-A OS=Aegypius
+      6e-45  157.9   1.7    6.7e-45  157.8   1.7    1.0  1  sp|P10780|HBA_PHACA    Hemoglobin subunit alpha-A OS=Phalacro
+    6.1e-45  157.9   0.1    6.8e-45  157.8   0.1    1.0  1  sp|P07413|HBAD_PASMO   Hemoglobin subunit alpha-D OS=Passer m
+    6.8e-45  157.8   0.6    7.5e-45  157.6   0.6    1.0  1  sp|P01985|HBA_ANSSE    Hemoglobin subunit alpha-A OS=Anserana
+    6.8e-45  157.8   0.2    7.6e-45  157.6   0.2    1.0  1  sp|O12985|HBAD_COLLI   Hemoglobin subunit alpha-D OS=Columba 
+      7e-45  157.7   0.4    7.8e-45  157.6   0.4    1.0  1  sp|P01994|HBA_CHICK    Hemoglobin subunit alpha-A OS=Gallus g
+    7.2e-45  157.7   0.6      8e-45  157.5   0.6    1.0  1  sp|P04239|HBAD_ANSIN   Hemoglobin subunit alpha-D OS=Anser in
+    8.3e-45  157.5   0.6    9.2e-45  157.3   0.6    1.0  1  sp|P04238|HBAD_ANSAN   Hemoglobin subunit alpha-D OS=Anser an
+    8.5e-45  157.4   0.3    9.4e-45  157.3   0.3    1.0  1  sp|P10781|HBAD_PHACA   Hemoglobin subunit alpha-D OS=Phalacro
+    9.3e-45  157.3   0.8      1e-44  157.2   0.8    1.0  1  sp|P04240|HBAD_BRACA   Hemoglobin subunit alpha-D OS=Branta c
+    9.9e-45  157.2   0.2    1.1e-44  157.1   0.2    1.0  1  sp|P15164|HBAD_APUAP   Hemoglobin subunit alpha-D OS=Apus apu
+    1.2e-44  157.0   0.4    1.3e-44  156.8   0.4    1.0  1  sp|P07035|HBAD_CHLME   Hemoglobin subunit alpha-D OS=Chloepha
+    1.3e-44  156.9   0.3    1.4e-44  156.7   0.3    1.0  1  sp|P08260|HBA_CHRRI    Hemoglobin subunit alpha-A OS=Chroicoc
+    1.3e-44  156.8   0.4    1.5e-44  156.7   0.4    1.0  1  sp|P19832|HBA_TRIOC    Hemoglobin subunit alpha-A OS=Trigonoc
+    1.3e-44  156.8   0.4    1.5e-44  156.7   0.4    1.0  1  sp|P81023|HBA_MELGA    Hemoglobin subunit alpha-A OS=Meleagri
+    1.6e-44  156.6   0.5    1.7e-44  156.4   0.5    1.0  1  sp|Q8HY34|HBA_MONDO    Hemoglobin subunit alpha OS=Monodelphi
+    1.6e-44  156.6   0.2    1.7e-44  156.4   0.2    1.0  1  sp|P82111|HBA1_STEMC   Hemoglobin subunit alpha-1 OS=Stercora
+    1.9e-44  156.3   0.3    2.1e-44  156.2   0.3    1.0  1  sp|P21871|HBA_COLLI    Hemoglobin subunit alpha-A OS=Columba 
+    2.1e-44  156.2   2.4    2.2e-44  156.1   2.4    1.0  1  sp|P02130|HBB_ALLMI    Hemoglobin subunit beta OS=Alligator m
+    2.2e-44  156.1   1.8    2.4e-44  156.0   1.8    1.0  1  sp|P02131|HBB_CAICR    Hemoglobin subunit beta OS=Caiman croc
+    2.5e-44  155.9   0.3    2.8e-44  155.8   0.3    1.0  1  sp|P02136|HBB3_LITCT   Hemoglobin subunit beta-3 OS=Lithobate
+    2.5e-44  155.9   0.8    2.8e-44  155.8   0.8    1.0  1  sp|P19789|HBA_EUDSC    Hemoglobin subunit alpha-A OS=Eudynamy
+    2.8e-44  155.8   0.1    3.1e-44  155.6   0.1    1.0  1  sp|P07404|HBA_VULGR    Hemoglobin subunit alpha-A OS=Vultur g
+    3.3e-44  155.5   0.0    3.7e-44  155.4   0.0    1.0  1  sp|P02004|HBAD_STUVU   Hemoglobin subunit alpha-D OS=Sturnus 
+    3.7e-44  155.4   0.2      4e-44  155.2   0.2    1.0  1  sp|Q7LZC3|HBA_STROE    Hemoglobin subunit alpha-A OS=Streptop
+    4.1e-44  155.2   0.0    4.6e-44  155.1   0.0    1.0  1  sp|P07407|HBA_PASMO    Hemoglobin subunit alpha-A OS=Passer m
+    4.4e-44  155.1   0.1    4.9e-44  155.0   0.1    1.0  1  sp|P01976|HBA_DIDVI    Hemoglobin subunit alpha OS=Didelphis 
+    5.1e-44  154.9   1.2    5.6e-44  154.8   1.2    1.0  1  sp|P06636|HBA3_XENLA   Hemoglobin subunit alpha-3 OS=Xenopus 
+    5.9e-44  154.7   0.1    6.4e-44  154.6   0.1    1.0  1  sp|P06467|HBAZ_MOUSE   Hemoglobin subunit zeta OS=Mus musculu
+      6e-44  154.7   0.3    6.6e-44  154.5   0.3    1.0  1  sp|P01997|HBA_STUVU    Hemoglobin subunit alpha-A OS=Sturnus 
+    9.3e-44  154.1   0.4      1e-43  153.9   0.4    1.0  1  sp|P15162|HBA_APUAP    Hemoglobin subunit alpha-A OS=Apus apu
+    1.3e-43  153.6   1.1    1.4e-43  153.5   1.1    1.0  1  sp|P08423|HBB2_XENTR   Hemoglobin subunit beta-2 OS=Xenopus t
+    1.6e-43  153.4   0.3    1.7e-43  153.2   0.3    1.0  1  sp|P14522|HBA_TURME    Hemoglobin subunit alpha-A OS=Turdus m
+    1.8e-43  153.2   0.0      2e-43  153.0   0.0    1.0  1  sp|P14261|HBE_CAIMO    Hemoglobin subunit epsilon OS=Cairina 
+    3.1e-43  152.4   0.6    3.4e-43  152.2   0.6    1.0  1  sp|Q10733|HBB_CARCR    Hemoglobin subunit beta OS=Caretta car
+    3.1e-43  152.4   0.2    3.5e-43  152.2   0.2    1.0  1  sp|P01982|HBA_RHEAM    Hemoglobin subunit alpha-A OS=Rhea ame
+    4.2e-43  152.0   1.4    4.6e-43  151.8   1.4    1.0  1  sp|P08422|HBA3_XENTR   Hemoglobin subunit alpha-3 OS=Xenopus 
+    5.9e-43  151.5   0.0    6.6e-43  151.3   0.0    1.0  1  sp|P11896|HBA3_PLEWA   Hemoglobin larval subunit alpha OS=Ple
+    7.3e-43  151.2   0.8      8e-43  151.0   0.8    1.0  1  sp|P06637|HBA4_XENLA   Hemoglobin subunit alpha-4 OS=Xenopus 
+    1.5e-42  150.2   0.0    1.7e-42  150.0   0.0    1.0  1  sp|P84203|HBAC_GYMUN   Hemoglobin cathodic subunit alpha OS=G
+    1.7e-42  149.9   0.1    1.9e-42  149.8   0.1    1.0  1  sp|P14523|HBAD_TURME   Hemoglobin subunit alpha-D OS=Turdus m
+    2.1e-42  149.7   0.0    2.3e-42  149.5   0.0    1.0  1  sp|P02011|HBA3_LITCT   Hemoglobin subunit alpha-3 OS=Lithobat
+    2.8e-42  149.3   0.4    3.1e-42  149.1   0.4    1.0  1  sp|Q9PVU6|HBAE_ORYLA   Hemoglobin embryonic subunit alpha OS=
+    3.3e-42  149.0   0.2    3.7e-42  148.9   0.2    1.0  1  sp|P01996|HBA_ARAAR    Hemoglobin subunit alpha-A OS=Ara arar
+    3.4e-42  149.0   0.2    3.8e-42  148.9   0.2    1.0  1  sp|P02133|HBB2_XENLA   Hemoglobin subunit beta-2 OS=Xenopus l
+      5e-42  148.5   0.0    5.5e-42  148.3   0.0    1.0  1  sp|P0C0U6|HBA_DRYCE    Hemoglobin subunit alpha-A OS=Drymarch
+    5.4e-42  148.3   0.7    6.1e-42  148.2   0.7    1.0  1  sp|P01984|HBA_PHORU    Hemoglobin subunit alpha-A OS=Phoenico
+    6.4e-42  148.1   0.0      7e-42  148.0   0.0    1.0  1  sp|P82316|HBBC_HOPLI   Hemoglobin cathodic subunit beta OS=Ho
+    7.4e-42  147.9   0.4    8.2e-42  147.8   0.4    1.0  1  sp|P83270|HBA1_ANAMI   Hemoglobin subunit alpha-1 OS=Anarhich
+    9.9e-42  147.5   0.1    1.1e-41  147.3   0.1    1.0  1  sp|P19831|HBA_PSIKR    Hemoglobin subunit alpha OS=Psittacula
+    9.9e-42  147.5   0.0    1.1e-41  147.4   0.0    1.0  1  sp|P02018|HBA_CARAU    Hemoglobin subunit alpha OS=Carassius 
+    1.2e-41  147.2   0.0    1.3e-41  147.1   0.0    1.0  1  sp|P80727|HBBC_ANGAN   Hemoglobin cathodic subunit beta OS=An
+    1.3e-41  147.1   0.1    1.4e-41  147.0   0.1    1.0  1  sp|P11748|HBA_THUTH    Hemoglobin subunit alpha OS=Thunnus th
+    1.9e-41  146.6   0.0    2.1e-41  146.4   0.0    1.0  1  sp|Q9PRL9|HBA1_NAJNA   Hemoglobin subunit alpha-1 OS=Naja naj
+    2.5e-41  146.2   0.0    2.8e-41  146.1   0.0    1.0  1  sp|P02142|HBB1_ONCMY   Hemoglobin subunit beta-1 OS=Oncorhync
+    4.1e-41  145.5   0.1    4.5e-41  145.4   0.1    1.0  1  sp|Q90487|HBA_DANRE    Hemoglobin subunit alpha OS=Danio reri
+    4.4e-41  145.4   0.1    4.8e-41  145.3   0.1    1.0  1  sp|P10062|HBAD_SPHPU   Hemoglobin subunit alpha-D OS=Sphenodo
+    9.5e-41  144.3   0.5    1.1e-40  144.2   0.5    1.0  1  sp|P18974|HBA1_IGUIG   Hemoglobin subunit alpha-1 OS=Iguana i
+    1.1e-40  144.1   0.3    1.2e-40  143.9   0.3    1.0  1  sp|P83271|HBA2_ANAMI   Hemoglobin subunit alpha-2 OS=Anarhich
+    1.2e-40  144.0   0.1    1.4e-40  143.8   0.1    1.0  1  sp|P29624|HBA1_NOTAN   Hemoglobin subunit alpha-1 OS=Notothen
+    1.4e-40  143.8   0.0    1.5e-40  143.6   0.0    1.0  1  sp|P83478|HBBC_CONCO   Hemoglobin cathodic subunit beta OS=Co
+    1.9e-40  143.3   0.0    2.1e-40  143.2   0.0    1.0  1  sp|Q7LZC2|HBB1_MURHE   Hemoglobin subunit beta-1 OS=Muraena h
+    1.9e-40  143.3   1.8    2.1e-40  143.2   1.8    1.0  1  sp|P23740|HBA_LATCH    Hemoglobin subunit alpha OS=Latimeria 
+    1.9e-40  143.3   0.2    2.1e-40  143.2   0.2    1.0  1  sp|P86882|HBA_LYCRE    Hemoglobin subunit alpha OS=Lycodes re
+      2e-40  143.3   0.6    2.2e-40  143.2   0.6    1.0  1  sp|P0C238|HBA_POGSC    Hemoglobin subunit alpha OS=Pogonophry
+    2.4e-40  143.0   0.0    2.7e-40  142.9   0.0    1.0  1  sp|P41331|HBA_MICGA    Hemoglobin subunit alpha OS=Microcepha
+    2.7e-40  142.9   0.2    2.9e-40  142.7   0.2    1.0  1  sp|P83479|HBAC_CONCO   Hemoglobin cathodic subunit alpha OS=C
+      3e-40  142.7   0.0    3.3e-40  142.6   0.0    1.0  1  sp|P11251|HBA_SALSA    Hemoglobin subunit alpha OS=Salmo sala
+    3.1e-40  142.6   0.5    3.5e-40  142.5   0.5    1.0  1  sp|P0C237|HBA_ARTOR    Hemoglobin subunit alpha OS=Artedidrac
+    3.4e-40  142.5   0.1    3.8e-40  142.4   0.1    1.0  1  sp|P83613|HBA2_GOBGI   Hemoglobin subunit alpha-2 OS=Gobionot
+    4.3e-40  142.2   0.1    4.8e-40  142.0   0.1    1.0  1  sp|P84653|HBA1_COTGO   Hemoglobin subunit alpha-1 OS=Cottoper
+    4.4e-40  142.2   0.0    4.8e-40  142.0   0.0    1.0  1  sp|Q9PVM2|HBBA_SERQU   Hemoglobin subunit beta-A OS=Seriola q
+    4.4e-40  142.1   0.0    4.9e-40  142.0   0.0    1.0  1  sp|P85083|HBA2_COTGO   Hemoglobin subunit alpha-2 OS=Cottoper
+    4.5e-40  142.1   0.1      5e-40  142.0   0.1    1.0  1  sp|P14520|HBA_ELEEL    Hemoglobin subunit alpha OS=Electropho
+    4.6e-40  142.1   0.0    5.1e-40  141.9   0.0    1.0  1  sp|P02010|HBA_VIPAS    Hemoglobin subunit alpha OS=Vipera asp
+    5.4e-40  141.9   1.5    5.9e-40  141.7   1.5    1.0  1  sp|P23741|HBB_LATCH    Hemoglobin subunit beta OS=Latimeria c
+    5.6e-40  141.8   0.1    6.2e-40  141.7   0.1    1.0  1  sp|P45719|HBA2_TRENE   Hemoglobin subunit alpha-2 OS=Trematom
+      7e-40  141.5   0.1    7.7e-40  141.4   0.1    1.0  1  sp|P06890|HBAT_PONPY   Hemoglobin subunit theta-1 OS=Pongo py
+    8.5e-40  141.2   0.0    9.4e-40  141.1   0.0    1.0  1  sp|P85081|HBA1_LIPTU   Hemoglobin subunit alpha-1 OS=Liparis 
+    8.9e-40  141.2   0.0    9.8e-40  141.0   0.0    1.0  1  sp|Q9PVM1|HBBB_SERQU   Hemoglobin subunit beta-B OS=Seriola q
+      1e-39  141.0   0.1    1.1e-39  140.8   0.1    1.0  1  sp|P80043|HBA_TREBE    Hemoglobin subunit alpha OS=Trematomus
+    1.1e-39  140.9   0.2    1.2e-39  140.8   0.2    1.0  1  sp|P83114|HBB2_TELPE   Hemoglobin subunit beta-2 OS=Telmatobi
+    1.8e-39  140.2   0.8      2e-39  140.0   0.8    1.0  1  sp|P51465|HBAB_LITCT   Hemoglobin subunit alpha-B OS=Lithobat
+    2.6e-39  139.7   0.1    2.8e-39  139.5   0.1    1.0  1  sp|P09105|HBAT_HUMAN   Hemoglobin subunit theta-1 OS=Homo sap
+    2.9e-39  139.5   1.0    3.2e-39  139.4   1.0    1.0  1  sp|P82315|HBAC_HOPLI   Hemoglobin cathodic subunit alpha OS=H
+    3.2e-39  139.3   0.6    3.6e-39  139.2   0.6    1.0  1  sp|P07428|HBA_XENTR    Hemoglobin subunit alpha OS=Xenopus tr
+    3.8e-39  139.1   0.1    4.2e-39  139.0   0.1    1.0  1  sp|P84206|HBBA_GYMUN   Hemoglobin anodic subunit beta OS=Gymn
+    4.3e-39  138.9   4.0    4.8e-39  138.8   4.0    1.0  1  sp|P18981|HBA2_VARAL   Hemoglobin subunit alpha-2 OS=Varanus 
+    5.2e-39  138.7   0.1    5.8e-39  138.5   0.1    1.0  1  sp|P10777|HBA1_NOTCO   Hemoglobin subunit alpha-1 OS=Notothen
+    5.4e-39  138.6   0.1      6e-39  138.5   0.1    1.0  1  sp|P14527|HBA4_ONCMY   Hemoglobin subunit alpha-4 OS=Oncorhyn
+    5.5e-39  138.6   0.0    6.1e-39  138.5   0.0    1.0  1  sp|P45718|HBA1_TRENE   Hemoglobin subunit alpha-1 OS=Trematom
+    6.3e-39  138.4   0.1      7e-39  138.3   0.1    1.0  1  sp|P83611|HBA1_GOBGI   Hemoglobin subunit alpha-1 OS=Gobionot
+    9.3e-39  137.9   0.1      1e-38  137.7   0.1    1.0  1  sp|P82990|HBA_PAGBO    Hemoglobin subunit alpha OS=Pagothenia
+    1.3e-38  137.4   1.2    1.4e-38  137.3   1.2    1.0  1  sp|P55267|HBAC_LITCT   Hemoglobin subunit alpha-C OS=Lithobat
+    2.1e-38  136.7   0.1    2.3e-38  136.6   0.1    1.0  1  sp|P83623|HBA_PSEUR    Hemoglobin subunit alpha OS=Pseudaphri
+    2.1e-38  136.7   0.2    2.3e-38  136.6   0.2    1.0  1  sp|P80270|HBA_CHEKU    Hemoglobin subunit alpha OS=Chelidonic
+    2.3e-38  136.6   0.1    2.5e-38  136.4   0.1    1.0  1  sp|P23018|HBB2_CYGMA   Hemoglobin subunit beta-2 OS=Cygnodrac
+    2.7e-38  136.4   0.2    3.1e-38  136.2   0.2    1.0  1  sp|Q8WWM9|CYGB_HUMAN   Cytoglobin OS=Homo sapiens GN=CYGB PE=
+    2.7e-38  136.4   0.0      3e-38  136.2   0.0    1.0  1  sp|P02016|HBA_CYPCA    Hemoglobin subunit alpha OS=Cyprinus c
+    3.2e-38  136.1   0.3    3.5e-38  136.0   0.3    1.0  1  sp|P62363|HBA2_NOTAN   Hemoglobin subunit alpha-2 OS=Notothen
+    3.2e-38  136.1   0.3    3.5e-38  136.0   0.3    1.0  1  sp|P62387|HBA2_NOTCO   Hemoglobin subunit alpha-2 OS=Notothen
+    3.5e-38  136.0   0.1    3.9e-38  135.8   0.1    1.0  1  sp|P23016|HBA_CYGMA    Hemoglobin subunit alpha OS=Cygnodraco
+    3.8e-38  135.9   0.3    4.4e-38  135.7   0.3    1.0  1  sp|P02134|HBB_RANES    Hemoglobin subunit beta OS=Rana escule
+    6.3e-38  135.2   0.0      7e-38  135.0   0.0    1.0  1  sp|P02019|HBA1_ONCMY   Hemoglobin subunit alpha-1 OS=Oncorhyn
+    6.9e-38  135.0   0.0    7.8e-38  134.8   0.0    1.0  1  sp|Q575S8|CYGB2_DANRE  Cytoglobin-2 OS=Danio rerio GN=cygb2 P
+    9.3e-38  134.6   0.1      1e-37  134.5   0.1    1.0  1  sp|P80946|HBBA_ANGAN   Hemoglobin anodic subunit beta OS=Angu
+      1e-37  134.5   0.1    1.1e-37  134.3   0.1    1.0  1  sp|Q9PVM4|HBAA_SERQU   Hemoglobin subunit alpha-A OS=Seriola 
+      1e-37  134.4   0.0    1.1e-37  134.3   0.0    1.0  1  sp|Q98TS0|HBB_ONCNE    Hemoglobin subunit beta OS=Oncorhynchu
+    1.1e-37  134.4   0.0    1.2e-37  134.3   0.0    1.0  1  sp|P83624|HBB1_PSEUR   Hemoglobin subunit beta-1 OS=Pseudaphr
+    1.1e-37  134.4   0.0    1.2e-37  134.2   0.0    1.0  1  sp|Q91473|HBB_SALSA    Hemoglobin subunit beta OS=Salmo salar
+    1.6e-37  133.8   0.6    1.8e-37  133.7   0.6    1.0  1  sp|P07430|HBA1_XENBO   Hemoglobin subunit alpha-1 OS=Xenopus 
+    1.7e-37  133.8   0.7    1.9e-37  133.6   0.7    1.0  1  sp|P02012|HBA1_XENLA   Hemoglobin subunit alpha-1 OS=Xenopus 
+      2e-37  133.5   0.0    2.2e-37  133.4   0.0    1.0  1  sp|P56251|HBB_LEIXA    Hemoglobin subunit beta OS=Leiostomus 
+    2.4e-37  133.3   0.1    2.7e-37  133.1   0.1    1.0  1  sp|Q575T0|CYGB1_ORYLA  Cytoglobin-1 OS=Oryzias latipes GN=cyg
+    2.4e-37  133.3   0.3    2.8e-37  133.1   0.3    1.0  1  sp|Q921A4|CYGB_RAT     Cytoglobin OS=Rattus norvegicus GN=Cyg
+    2.5e-37  133.2   0.0    2.7e-37  133.1   0.0    1.0  1  sp|P84609|HBA1_GADMO   Hemoglobin subunit alpha-1 OS=Gadus mo
+    2.6e-37  133.2   0.1    2.9e-37  133.0   0.1    1.0  1  sp|P80726|HBAC_ANGAN   Hemoglobin cathodic subunit alpha OS=A
+    3.4e-37  132.8   0.0    3.7e-37  132.7   0.0    1.0  1  sp|P07433|HBB2_XENBO   Hemoglobin subunit beta-2 OS=Xenopus b
+    4.4e-37  132.4   0.0    4.9e-37  132.3   0.0    1.0  1  sp|P02141|HBB4_ONCMY   Hemoglobin subunit beta-4 OS=Oncorhync
+    5.2e-37  132.2   0.0    5.7e-37  132.0   0.0    1.0  1  sp|Q90486|HBB1_DANRE   Hemoglobin subunit beta-1 OS=Danio rer
+    5.5e-37  132.1   0.0    6.2e-37  131.9   0.0    1.0  1  sp|P56250|HBA_LEIXA    Hemoglobin subunit alpha OS=Leiostomus
+    5.5e-37  132.1   0.1      6e-37  132.0   0.1    1.0  1  sp|P82345|HBB0_PAGBO   Hemoglobin subunit beta-0 OS=Pagotheni
+    7.9e-37  131.6   0.0    8.7e-37  131.5   0.0    1.0  1  sp|Q90485|HBB2_DANRE   Hemoglobin subunit beta-2 OS=Danio rer
+    8.5e-37  131.5   0.0    9.2e-37  131.4   0.0    1.0  1  sp|P84204|HBBC_GYMUN   Hemoglobin cathodic subunit beta OS=Gy
+    9.1e-37  131.4   0.0    9.8e-37  131.3   0.0    1.0  1  sp|P83273|HBB2_ANAMI   Hemoglobin subunit beta-2 OS=Anarhicha
+      1e-36  131.3   0.1    1.1e-36  131.2   0.1    1.0  1  sp|P45721|HBBC_TRENE   Hemoglobin subunit beta-C OS=Trematomu
+      1e-36  131.2   0.0    1.1e-36  131.1   0.0    1.0  1  sp|P02017|HBA_CATCL    Hemoglobin subunit alpha OS=Catostomus
+    1.1e-36  131.2   0.9    1.2e-36  131.0   0.9    1.0  1  sp|P02013|HBA2_XENLA   Hemoglobin subunit alpha-2 OS=Xenopus 
+    1.2e-36  131.0   0.1    1.3e-36  130.9   0.1    1.0  1  sp|Q1AGS4|HBA2_ARCGL   Hemoglobin subunit alpha-2 OS=Arctogad
+    1.3e-36  130.9   0.1    1.4e-36  130.8   0.1    1.0  1  sp|O13163|HBB_SILAS    Hemoglobin subunit beta OS=Silurus aso
+    1.4e-36  130.8   0.0    1.5e-36  130.7   0.0    1.0  1  sp|Q8UUR3|CYGB1_DANRE  Cytoglobin-1 OS=Danio rerio GN=cygb1 P
+    1.4e-36  130.8   0.2    1.6e-36  130.6   0.2    1.0  1  sp|Q9CX80|CYGB_MOUSE   Cytoglobin OS=Mus musculus GN=Cygb PE=
+    1.6e-36  130.6   0.1    1.8e-36  130.5   0.1    1.0  1  sp|P84652|HBB_COTGO    Hemoglobin subunit beta OS=Cottoperca 
+    1.7e-36  130.5   0.0    1.9e-36  130.4   0.0    1.0  1  sp|P29623|HBA_GYMAC    Hemoglobin subunit alpha OS=Gymnodraco
+    1.7e-36  130.5   0.0    1.9e-36  130.3   0.0    1.0  1  sp|P84205|HBAA_GYMUN   Hemoglobin anodic subunit alpha OS=Gym
+    1.7e-36  130.5   0.0    1.9e-36  130.4   0.0    1.0  1  sp|P0C240|HBB_POGSC    Hemoglobin subunit beta OS=Pogonophryn
+    2.4e-36  130.0   0.2    2.8e-36  129.8   0.2    1.0  1  sp|Q575S9|CYGB2_ORYLA  Cytoglobin-2 OS=Oryzias latipes GN=cyg
+    3.8e-36  129.4   0.0    4.1e-36  129.3   0.0    1.0  1  sp|P11749|HBB_THUTH    Hemoglobin subunit beta OS=Thunnus thy
+      4e-36  129.3   0.0    4.3e-36  129.2   0.0    1.0  1  sp|P80271|HBB_CHEKU    Hemoglobin subunit beta OS=Chelidonich
+      4e-36  129.3   0.1    4.3e-36  129.2   0.1    1.0  1  sp|P45722|HBBC_TREBE   Hemoglobin subunit beta-C OS=Trematomu
+    4.3e-36  129.2   0.0    4.6e-36  129.1   0.0    1.0  1  sp|P83625|HBB2_PSEUR   Hemoglobin subunit beta-2 OS=Pseudaphr
+    4.8e-36  129.1   0.4    5.3e-36  128.9   0.4    1.0  1  sp|P07431|HBA2_XENBO   Hemoglobin subunit alpha-2 OS=Xenopus 
+    4.9e-36  129.0   0.1    5.4e-36  128.9   0.1    1.0  1  sp|P29625|HBB_GYMAC    Hemoglobin subunit beta OS=Gymnodraco 
+    5.5e-36  128.9   0.0      6e-36  128.7   0.0    1.0  1  sp|P02139|HBB_CYPCA    Hemoglobin subunit beta-A/B OS=Cyprinu
+    5.8e-36  128.8   0.0    6.3e-36  128.7   0.0    1.0  1  sp|P07432|HBB1_XENBO   Hemoglobin subunit beta-1 OS=Xenopus b
+    5.9e-36  128.8   0.0    6.4e-36  128.6   0.0    1.0  1  sp|P02132|HBB1_XENLA   Hemoglobin subunit beta-1 OS=Xenopus l
+    6.1e-36  128.7   0.0    6.7e-36  128.6   0.0    1.0  1  sp|Q7LZC1|HBB3_MURHE   Hemoglobin subunit beta-3 OS=Muraena h
+    6.1e-36  128.7   0.0    6.6e-36  128.6   0.0    1.0  1  sp|O93351|HBB_TREHA    Hemoglobin subunit beta OS=Trematomus 
+      7e-36  128.5   0.1    7.8e-36  128.4   0.1    1.0  1  sp|Q9PVM3|HBAB_SERQU   Hemoglobin subunit alpha-B OS=Seriola 
+      8e-36  128.3   0.1    8.8e-36  128.2   0.1    1.0  1  sp|Q1AGS8|HBA2_BORSA   Hemoglobin subunit alpha-2 OS=Boreogad
+    8.5e-36  128.2   0.0    9.3e-36  128.1   0.0    1.0  1  sp|P02140|HBB_CARAU    Hemoglobin subunit beta OS=Carassius a
+    8.6e-36  128.2   0.0    9.4e-36  128.1   0.0    1.0  1  sp|O13164|HBB_DECMA    Hemoglobin subunit beta OS=Decapterus 
+    9.6e-36  128.1   0.3      1e-35  127.9   0.3    1.0  1  sp|P10785|HBB1_TRICR   Hemoglobin subunit beta-1 OS=Triturus 
+    1.1e-35  127.8   0.8    1.3e-35  127.7   0.8    1.0  1  sp|P10783|HBA1_TRICR   Hemoglobin subunit alpha-1 OS=Triturus
+    1.5e-35  127.4   0.1    1.7e-35  127.3   0.1    1.0  1  sp|P02138|HBB_LEPPA    Hemoglobin subunit beta OS=Lepidosiren
+    1.8e-35  127.2   0.0      2e-35  127.1   0.0    1.0  1  sp|P84610|HBB1_GADMO   Hemoglobin subunit beta-1 OS=Gadus mor
+    1.9e-35  127.1   0.0    2.1e-35  127.0   0.0    1.0  1  sp|O93348|HBB1_PAGBO   Hemoglobin subunit beta-1 OS=Pagotheni
+    2.2e-35  126.9   1.1    2.4e-35  126.8   1.1    1.0  1  sp|P06639|HBA1_PLEWA   Hemoglobin subunit alpha-1 OS=Pleurode
+    2.3e-35  126.8   0.0    2.5e-35  126.7   0.0    1.0  1  sp|P83272|HBB1_ANAMI   Hemoglobin subunit beta-1 OS=Anarhicha
+    2.9e-35  126.5   0.0    3.2e-35  126.4   0.0    1.0  1  sp|Q1AGS7|HBB1_BORSA   Hemoglobin subunit beta-1 OS=Boreogadu
+    3.1e-35  126.4   0.1    3.5e-35  126.3   0.1    1.0  1  sp|P02206|MYG_HETPO    Myoglobin OS=Heterodontus portusjackso
+    3.3e-35  126.3   0.1    3.6e-35  126.2   0.1    1.0  1  sp|Q1AGS5|HBA1_ARCGL   Hemoglobin subunit alpha-1 OS=Arctogad
+    3.3e-35  126.3   0.0    3.6e-35  126.2   0.0    1.0  1  sp|P0C239|HBB_ARTOR    Hemoglobin subunit beta OS=Artedidraco
+    3.5e-35  126.2   0.1    3.9e-35  126.1   0.1    1.0  1  sp|P80044|HBB_TREBE    Hemoglobin subunit beta OS=Trematomus 
+    4.6e-35  125.9   0.0      5e-35  125.7   0.0    1.0  1  sp|Q6Y239|HBB_PAGMA    Hemoglobin subunit beta OS=Pagrus majo
+    4.7e-35  125.8   0.0    5.2e-35  125.7   0.0    1.0  1  sp|P85082|HBB1_LIPTU   Hemoglobin subunit beta-1 OS=Liparis t
+    5.2e-35  125.7   0.1    5.7e-35  125.6   0.1    1.0  1  sp|P23017|HBB1_CYGMA   Hemoglobin subunit beta-1 OS=Cygnodrac
+    6.9e-35  125.3   0.0    7.4e-35  125.2   0.0    1.0  1  sp|P45720|HBB_TRENE    Hemoglobin subunit beta-1/2 OS=Tremato
+    9.5e-35  124.8   0.1      1e-34  124.7   0.1    1.0  1  sp|P83612|HBB1_GOBGI   Hemoglobin subunit beta-1 OS=Gobionoto
+    9.5e-35  124.8   0.0      1e-34  124.7   0.0    1.0  1  sp|P83614|HBB2_GOBGI   Hemoglobin subunit beta-2 OS=Gobionoto
+    9.9e-35  124.8   0.1    1.1e-34  124.7   0.1    1.0  1  sp|P29628|HBB_NOTAN    Hemoglobin subunit beta OS=Notothenia 
+    1.1e-34  124.6   1.3    1.3e-34  124.4   1.3    1.0  1  sp|P02014|HBA_TARGR    Hemoglobin subunit alpha OS=Taricha gr
+    1.4e-34  124.3   2.2    1.5e-34  124.2   2.2    1.0  1  sp|P10784|HBA2_TRICR   Hemoglobin subunit alpha-2 OS=Triturus
+    1.4e-34  124.3   0.0    1.5e-34  124.2   0.0    1.0  1  sp|P07429|HBB1_XENTR   Hemoglobin subunit beta-1 OS=Xenopus t
+    2.4e-34  123.5   0.0    2.7e-34  123.4   0.0    1.0  1  sp|P80945|HBAA_ANGAN   Hemoglobin anodic subunit alpha OS=Ang
+    2.5e-34  123.5   0.0    2.8e-34  123.3   0.0    1.0  1  sp|O93349|HBB2_TRENE   Hemoglobin subunit beta OS=Trematomus 
+    3.3e-34  123.1   0.0    3.4e-34  123.0   0.0    1.0  1  sp|P86879|HBB1_LYCRE   Hemoglobin subunit beta-1 OS=Lycodes r
+    3.9e-34  122.9   1.0    4.3e-34  122.7   1.0    1.0  1  sp|P20244|HBA1_TORMA   Hemoglobin subunit alpha-1 OS=Torpedo 
+    3.9e-34  122.8   0.0    4.2e-34  122.7   0.0    1.0  1  sp|P16309|HBB_NOTCO    Hemoglobin subunit beta OS=Notothenia 
+      5e-34  122.5   0.1    5.6e-34  122.3   0.1    1.0  1  sp|Q1AGS9|HBA1_BORSA   Hemoglobin subunit alpha-1 OS=Boreogad
+    6.3e-34  122.2   0.1    6.8e-34  122.1   0.1    1.0  1  sp|P06714|HBAT_HORSE   Hemoglobin subunit theta-1 OS=Equus ca
+    7.5e-34  121.9   0.3    8.5e-34  121.8   0.3    1.0  1  sp|Q6B0K9|HBM_HUMAN    Hemoglobin subunit mu OS=Homo sapiens 
+    7.9e-34  121.8   0.0    8.8e-34  121.7   0.0    1.0  1  sp|P14521|HBB_ELEEL    Hemoglobin subunit beta OS=Electrophor
+      1e-33  121.5   0.0    1.1e-33  121.4   0.0    1.0  1  sp|P02020|HBA_LEPPA    Hemoglobin subunit alpha OS=Lepidosire
+    1.1e-33  121.5   0.4    1.2e-33  121.3   0.4    1.0  1  sp|P14399|MYG_MUSAN    Myoglobin OS=Mustelus antarcticus GN=m
+    1.2e-33  121.2   0.0    1.3e-33  121.1   0.0    1.0  1  sp|P84604|HBB2_ARCGL   Hemoglobin subunit beta-2 OS=Arctogadu
+    1.4e-33  121.0   0.3    1.6e-33  120.9   0.3    1.0  1  sp|P29627|HBBZ_MESAU   Hemoglobin subunit beta-Z (Fragment) O
+    1.7e-33  120.7   1.0    1.9e-33  120.6   1.0    1.0  1  sp|P56691|HBA_DASAK    Hemoglobin subunit alpha OS=Dasyatis a
+    3.6e-33  119.7   0.0      4e-33  119.6   0.0    1.0  1  sp|P84611|HBB2_GADMO   Hemoglobin subunit beta-2 OS=Gadus mor
+    3.8e-33  119.6   0.2    4.2e-33  119.5   0.2    1.0  1  sp|P68189|MYG_THUTH    Myoglobin OS=Thunnus thynnus GN=mb PE=
+    3.8e-33  119.6   0.2    4.2e-33  119.5   0.2    1.0  1  sp|P68190|MYG_THUOR    Myoglobin OS=Thunnus orientalis GN=mb 
+    3.8e-33  119.6   0.2    4.2e-33  119.5   0.2    1.0  1  sp|Q76G09|MYG_THUOB    Myoglobin OS=Thunnus obesus GN=mb PE=2
+    4.3e-33  119.5   0.2    4.7e-33  119.3   0.2    1.0  1  sp|P07408|HBA_SQUAC    Hemoglobin subunit alpha OS=Squalus ac
+    4.3e-33  119.5   0.0    4.7e-33  119.3   0.0    1.0  1  sp|Q1AGS6|HBB2_BORSA   Hemoglobin subunit beta-2 OS=Boreogadu
+    4.8e-33  119.3   0.1    5.4e-33  119.2   0.1    1.0  1  sp|O42425|HBA2_GADMO   Hemoglobin subunit alpha-2 OS=Gadus mo
+    5.8e-33  119.0   0.2    6.4e-33  118.9   0.2    1.0  1  sp|P02205|MYG_THUAL    Myoglobin OS=Thunnus albacares GN=mb P
+    6.6e-33  118.9   0.1    7.3e-33  118.7   0.1    1.0  1  sp|P83113|HBA2_TELPE   Hemoglobin subunit alpha-2 (Fragment) 
+    7.1e-33  118.8   0.6    7.8e-33  118.6   0.6    1.0  1  sp|Q9DGJ0|MYG_SARCH    Myoglobin OS=Sarda chiliensis GN=mb PE
+      8e-33  118.6   0.4    8.9e-33  118.4   0.4    1.0  1  sp|P02015|HBA_AMBME    Hemoglobin subunit alpha OS=Ambystoma 
+    1.1e-32  118.2   0.0    1.1e-32  118.1   0.0    1.0  1  sp|P86887|HBB2_LYCRE   Hemoglobin subunit beta-2 OS=Lycodes r
+    1.9e-32  117.4   0.0    2.1e-32  117.2   0.0    1.0  1  sp|O13078|HBB_MERMR    Hemoglobin subunit beta OS=Merlangius 
+    3.5e-32  116.5   0.0    3.8e-32  116.4   0.0    1.0  1  sp|Q1AGS3|HBB1_ARCGL   Hemoglobin subunit beta-1 (Fragment) O
+    5.4e-32  115.9   0.0      6e-32  115.8   0.0    1.0  1  sp|P16417|HBAD_LIOMI   Hemoglobin subunit alpha-D OS=Liophis 
+    5.6e-32  115.9   1.1    6.2e-32  115.7   1.1    1.0  1  sp|P20245|HBA2_TORMA   Hemoglobin subunit alpha-2 OS=Torpedo 
+    5.7e-32  115.8   0.0    6.2e-32  115.7   0.0    1.0  1  sp|P10786|HBB2_TRICR   Hemoglobin subunit beta-2 OS=Triturus 
+    9.1e-32  115.2   0.3      1e-31  115.0   0.3    1.0  1  sp|P14397|MYG_GALGA    Myoglobin OS=Galeorhinus galeus GN=mb 
+      1e-31  115.0   0.0    1.2e-31  114.8   0.0    1.1  1  sp|A1A4Q3|HBM_BOVIN    Hemoglobin subunit mu OS=Bos taurus GN
+      1e-31  115.0   1.6    1.1e-31  114.9   1.6    1.0  1  sp|Q9DGJ1|MYG_MAKNI    Myoglobin OS=Makaira nigricans GN=mb P
+    1.1e-31  115.0   0.0    1.2e-31  114.8   0.0    1.0  1  sp|P02135|HBB_LITCT    Hemoglobin subunit beta OS=Lithobates 
+    1.2e-31  114.8   0.1    1.3e-31  114.6   0.1    1.0  1  sp|Q701N9|MYG_TETNG    Myoglobin OS=Tetraodon nigroviridis GN
+    1.5e-31  114.4   0.2    1.7e-31  114.3   0.2    1.0  1  sp|Q6I7B0|MYG_AUXRO    Myoglobin OS=Auxis rochei GN=mb PE=2 S
+    1.6e-31  114.4   0.2    1.8e-31  114.2   0.2    1.0  1  sp|P14398|MYG_GALJA    Myoglobin OS=Galeorhinus japonicus GN=
+    1.8e-31  114.2   2.5      2e-31  114.0   2.5    1.0  1  sp|P84216|HBA_BATEA    Hemoglobin subunit alpha OS=Bathyraja 
+    1.9e-31  114.1   0.0      2e-31  114.0   0.0    1.0  1  sp|O09232|HBB_MELAE    Hemoglobin subunit beta OS=Melanogramm
+    1.9e-31  114.1   0.0    2.1e-31  114.0   0.0    1.0  1  sp|P18991|HBB1_UROHA   Hemoglobin subunit beta-1 (Fragments) 
+    2.9e-31  113.5   0.1    3.2e-31  113.4   0.1    1.0  1  sp|Q9DGJ2|MYG_THUAA    Myoglobin OS=Thunnus alalunga GN=mb PE
+    4.8e-31  112.8   0.6    5.3e-31  112.7   0.6    1.0  1  sp|Q9DGI8|MYG_KATPE    Myoglobin OS=Katsuwonus pelamis GN=mb 
+    7.8e-31  112.1   0.1    8.5e-31  112.0   0.1    1.0  1  sp|P02204|MYG_CYPCA    Myoglobin OS=Cyprinus carpio GN=mb PE=
+    1.1e-30  111.6   0.0    1.3e-30  111.5   0.0    1.0  1  sp|P0C0U7|HBAD_DRYCE   Hemoglobin subunit alpha-D OS=Drymarch
+    2.2e-30  110.7   0.1    2.4e-30  110.5   0.1    1.0  1  sp|Q9DEN9|MYG_GOBGI    Myoglobin OS=Gobionotothen gibberifron
+    4.8e-30  109.6   0.0    5.2e-30  109.5   0.0    1.0  1  sp|Q6VN46|MYG_DANRE    Myoglobin OS=Danio rerio GN=mb PE=2 SV
+    8.3e-30  108.8   0.1    9.1e-30  108.7   0.1    1.0  1  sp|Q9DEN8|MYG_NOTCO    Myoglobin OS=Notothenia coriiceps negl
+      1e-29  108.5   0.1    1.1e-29  108.4   0.1    1.0  1  sp|Q7T044|MYG_CHARH    Myoglobin OS=Channichthys rhinoceratus
+    1.3e-29  108.1   0.4    1.5e-29  108.0   0.4    1.0  1  sp|P06640|HBA2_PLEWA   Hemoglobin subunit alpha-2 (Fragment) 
+    1.8e-29  107.8   4.5    1.9e-29  107.6   4.5    1.0  1  sp|P07409|HBB_SQUAC    Hemoglobin subunit beta OS=Squalus aca
+    1.8e-29  107.7   0.1    1.9e-29  107.6   0.1    1.0  1  sp|Q9DEP1|MYG_PSEGE    Myoglobin OS=Pseudochaenichthys georgi
+      2e-29  107.5   0.2    2.3e-29  107.4   0.2    1.0  1  sp|Q9DGI9|MYG_SCOJP    Myoglobin OS=Scomber japonicus GN=mb P
+    2.2e-29  107.5   0.1    2.4e-29  107.3   0.1    1.0  1  sp|P87497|MYG_CHIRA    Myoglobin OS=Chionodraco rastrospinosu
+      5e-29  106.3   0.1    5.5e-29  106.1   0.1    1.0  1  sp|Q9DEP0|MYG_CRYAN    Myoglobin OS=Cryodraco antarcticus GN=
+    5.2e-29  106.2   0.2    5.7e-29  106.1   0.2    1.0  1  sp|Q9YGW2|HBA_MUSGR    Hemoglobin subunit alpha OS=Mustelus g
+      1e-28  105.2   2.3    1.2e-28  105.0   2.3    1.0  1  sp|P02021|HBA_HETPO    Hemoglobin subunit alpha OS=Heterodont
+    1.5e-28  104.7   0.0    1.6e-28  104.6   0.0    1.0  1  sp|O13077|HBB_GADMO    Hemoglobin subunit beta OS=Gadus morhu
+    8.8e-28  102.2   0.4    9.7e-28  102.1   0.4    1.0  1  sp|P07420|HBB_DASVI    Hemoglobin subunit beta (Fragment) OS=
+      1e-26   98.8   1.7    1.1e-26   98.6   1.7    1.0  1  sp|P02143|HBB_HETPO    Hemoglobin subunit beta OS=Heterodontu
+    9.9e-26   95.6   0.1    1.1e-25   95.4   0.1    1.0  1  sp|P02022|HBAM_LITCT   Hemoglobin heart muscle subunit alpha-
+    1.2e-24   92.0   3.9    1.4e-24   91.9   3.9    1.0  1  sp|P20247|HBB2_TORMA   Hemoglobin subunit beta-2 OS=Torpedo m
+    1.3e-24   91.9   2.6    1.5e-24   91.8   2.6    1.0  1  sp|P20246|HBB1_TORMA   Hemoglobin subunit beta-1 OS=Torpedo m
+    1.4e-24   91.8   0.4    1.7e-24   91.6   0.4    1.1  1  sp|Q7M3C1|MYG_AILME    Myoglobin (Fragment) OS=Ailuropoda mel
+    2.2e-24   91.2   0.1    2.9e-24   90.8   0.1    1.2  1  sp|Q7SID0|GLBF1_EPTBU  Globin-F1 OS=Eptatretus burgeri PE=1 S
+    1.1e-23   88.9   1.4    1.3e-23   88.7   1.4    1.0  1  sp|P56692|HBB_DASAK    Hemoglobin subunit beta OS=Dasyatis ak
+    1.6e-23   88.4   0.0      2e-23   88.1   0.0    1.0  1  sp|P09106|HBAT_PAPAN   Hemoglobin subunit theta-1 OS=Papio an
+    3.6e-23   87.3   0.4    4.8e-23   86.9   0.4    1.2  1  sp|P02209|GLB3_MYXGL   Globin-3 OS=Myxine glutinosa PE=1 SV=2
+    4.1e-23   87.1   0.9    1.1e-22   85.6   0.9    1.6  1  sp|Q9YGW1|HBB_MUSGR    Hemoglobin subunit beta OS=Mustelus gr
+    1.1e-21   82.5   0.2    1.2e-21   82.3   0.2    1.0  1  sp|P80017|GLBD_CAUAR   Globin D, coelomic OS=Caudina arenicol
+    6.8e-21   79.9   0.2    7.5e-21   79.7   0.2    1.0  1  sp|P18979|HBA1_UROHA   Hemoglobin subunit alpha-1 (Fragment) 
+    1.3e-20   79.0   0.8    1.4e-20   78.9   0.8    1.0  1  sp|P84217|HBB_BATEA    Hemoglobin subunit beta OS=Bathyraja e
+      2e-20   78.3   0.0    2.3e-20   78.2   0.0    1.0  1  sp|P0C227|GLB_NERAL    Globin OS=Nerita albicilla PE=1 SV=1
+    6.4e-17   67.0   0.4    7.7e-17   66.7   0.4    1.0  1  sp|P15161|GLB1_PARCH   Globin-1 OS=Paracaudina chilensis PE=1
+    8.2e-17   66.6   0.8    9.9e-17   66.4   0.8    1.0  1  sp|P80018|GLBC_CAUAR   Globin C, coelomic OS=Caudina arenicol
+    1.4e-15   62.6   0.0    1.5e-15   62.5   0.0    1.0  1  sp|P09965|GLB_DOLAU    Globin OS=Dolabella auricularia PE=1 S
+    1.5e-14   59.3   0.0    1.8e-14   59.1   0.0    1.1  1  sp|P02211|GLB_APLKU    Globin OS=Aplysia kurodai PE=1 SV=4
+    2.7e-13   55.2   0.0    3.3e-13   54.9   0.0    1.1  1  sp|P14393|GLB_APLJU    Globin OS=Aplysia juliana PE=1 SV=1
+      3e-13   55.1   0.0    3.4e-13   54.9   0.0    1.1  1  sp|P29287|GLB_BURLE    Globin OS=Bursatella leachii PE=1 SV=1
+    4.8e-13   54.4   0.1    5.5e-13   54.2   0.1    1.1  1  sp|P02210|GLB_APLLI    Globin OS=Aplysia limacina PE=1 SV=4
+    1.4e-12   52.9   0.2    1.5e-12   52.8   0.2    1.0  1  sp|Q9TT33|HBB_COLGU    Hemoglobin subunit beta (Fragment) OS=
+    1.8e-12   52.5   0.0    1.9e-12   52.5   0.0    1.0  1  sp|P81041|HBO_MACEU    Hemoglobin subunit omega (Fragment) OS
+    3.1e-12   51.8   0.0    3.5e-12   51.6   0.0    1.0  1  sp|P14821|GLB2A_ANAIN  Globin-2 A chain OS=Anadara inaequival
+    1.5e-11   49.6   0.0    1.7e-11   49.4   0.0    1.0  1  sp|Q8T7J9|GLB_YOLEI    Globin OS=Yoldia eightsi PE=1 SV=1
+    6.2e-11   47.6   0.0    7.2e-11   47.4   0.0    1.0  1  sp|Q7M416|GLB1_LIOJA   Globin-1 OS=Liolophura japonica PE=1 S
+    8.1e-11   47.2   0.0    1.3e-10   46.5   0.0    1.5  1  sp|P19363|GLB1_ARTSX   Extracellular globin-E1 (Fragment) OS=
+    1.4e-10   46.4   0.0    1.6e-10   46.2   0.0    1.0  1  sp|P02215|GLB_CERRH    Globin OS=Cerithidea rhizophorarum PE=
+    2.1e-10   45.8   1.5    2.5e-10   45.6   1.5    1.0  1  sp|Q7M424|GLB_BUCUU    Globin OS=Buccinum undatum PE=1 SV=1
+    2.7e-10   45.5   0.3    2.8e-10   45.4   0.3    1.0  1  sp|Q9TT34|HBB_PONPY    Hemoglobin subunit beta (Fragment) OS=
+    3.1e-10   45.3   0.1    3.4e-10   45.2   0.1    1.0  1  sp|O77003|GLB_BIOGL    Globin OS=Biomphalaria glabrata PE=3 S
+    7.8e-10   44.0   0.0    8.7e-10   43.8   0.0    1.0  1  sp|P14822|GLB2B_ANAIN  Globin-2 B chain OS=Anadara inaequival
+    9.4e-10   43.7   4.5      4e-06   31.9   4.3    2.3  1  sp|P81044|HBAZ_MACEU   Hemoglobin subunit zeta (Fragments) OS
+    1.3e-09   43.3   0.0    1.4e-09   43.1   0.0    1.0  1  sp|P59742|NGB1_ONCMY   Neuroglobin-1 OS=Oncorhynchus mykiss G
+    1.3e-09   43.2   0.0    1.5e-09   43.0   0.0    1.1  1  sp|P23216|GLBP1_GLYDI  Globin, major polymeric component P1 O
+    1.4e-09   43.1   0.0    1.6e-09   43.0   0.0    1.1  1  sp|P21659|GLBP2_GLYDI  Globin, polymeric component P2 OS=Glyc
+      2e-09   42.7   0.0    2.3e-09   42.4   0.0    1.1  1  sp|P02222|GLB2_CHITH   Globin CTT-II beta OS=Chironomus thumm
+    2.9e-09   42.2   1.1    3.3e-09   42.0   1.1    1.0  1  sp|Q941Q2|HBL2_BRANA   Non-symbiotic hemoglobin 2 OS=Brassica
+    3.1e-09   42.0   0.0    3.6e-09   41.8   0.0    1.0  1  sp|Q90W04|NGB_TETNG    Neuroglobin OS=Tetraodon nigroviridis 
+    3.5e-09   41.9   0.0      4e-09   41.7   0.0    1.1  1  sp|P14395|GLB1A_ANATR  Globin-1 subunit alpha OS=Anadara trap
+    4.8e-09   41.4   0.0    5.8e-09   41.2   0.0    1.0  1  sp|P41261|GLB2_PHAPT   Hemoglobin-2 OS=Phacoides pectinatus P
+    4.9e-09   41.4   0.3    7.3e-09   40.8   0.3    1.3  1  sp|P29243|GLBV_CHITP   Globin CTT-V OS=Chironomus thummi pige
+    5.5e-09   41.2   0.0    6.3e-09   41.0   0.0    1.1  1  sp|P21660|GLBP3_GLYDI  Globin, polymeric component P3 OS=Glyc
+    5.5e-09   41.2   0.1    9.7e-09   40.4   0.1    1.4  1  sp|P02216|GLB1_GLYDI   Globin, major monomeric component OS=G
+    7.3e-09   40.8   0.1    8.3e-09   40.7   0.1    1.0  1  sp|P02213|GLB1_ANAIN   Globin-1 OS=Anadara inaequivalvis PE=1
+    9.6e-09   40.5   0.0    1.1e-08   40.3   0.0    1.0  1  sp|P59743|NGB2_ONCMY   Neuroglobin-2 OS=Oncorhynchus mykiss G
+    1.1e-08   40.2   0.4    2.3e-08   39.2   0.1    1.6  1  sp|Q23761|GLBZ_CHITH   Globin CTT-Z OS=Chironomus thummi thum
+    1.4e-08   39.9   0.2    1.6e-08   39.7   0.2    1.0  1  sp|P31331|GLB_NASMU    Globin OS=Nassarius mutabilis PE=1 SV=
+    1.6e-08   39.7   0.2    1.8e-08   39.6   0.2    1.0  1  sp|P02212|GLB1_ANABR   Globin-1 OS=Anadara broughtonii PE=1 S
+    1.6e-08   39.7   0.3      3e-08   38.8   0.1    1.5  1  sp|P29245|GLBZ_CHITP   Globin CTT-Z OS=Chironomus thummi pige
+    2.6e-08   39.1   0.0    3.1e-08   38.8   0.0    1.0  1  sp|P86881|NGB_DISMA    Neuroglobin OS=Dissostichus mawsoni PE
+    2.7e-08   39.0   0.0    3.3e-08   38.7   0.0    1.0  1  sp|P86880|NGB_CHAAC    Neuroglobin OS=Chaenocephalus aceratus
+    2.8e-08   38.9   0.2    3.2e-08   38.7   0.2    1.0  1  sp|P02214|GLB_BUSCA    Globin OS=Busycotypus canaliculatus PE
+      3e-08   38.8   0.7    4.1e-08   38.4   0.5    1.3  1  sp|Q23763|GLB78_CHITH  Globin CTT-VIIB-8 OS=Chironomus thummi
+    3.2e-08   38.7   0.6    4.2e-08   38.4   0.6    1.0  1  sp|P23244|HBP2_CASGL   Hemoglobin-2 OS=Casuarina glauca GN=HB
+    3.3e-08   38.7   0.0    3.9e-08   38.5   0.0    1.0  1  sp|Q90YJ2|NGB_DANRE    Neuroglobin OS=Danio rerio GN=ngb PE=1
+    3.5e-08   38.6   0.8    4.6e-08   38.2   0.5    1.3  1  sp|P12548|GLB73_CHITH  Globin CTT-VIIB-3 OS=Chironomus thummi
+    3.6e-08   38.6   0.1      4e-08   38.4   0.1    1.0  1  sp|P04251|GLB1B_ANATR  Globin-1 subunit beta OS=Anadara trape
+    4.2e-08   38.4   0.0    6.2e-08   37.8   0.0    1.3  1  sp|P02226|GLB7A_CHITH  Globin CTT-VIIA OS=Chironomus thummi t
+    4.7e-08   38.2   0.9    6.1e-08   37.9   0.5    1.3  1  sp|P18966|GLB78_CHITP  Globin CTT-VIIB-8 OS=Chironomus thummi
+    5.7e-08   37.9   0.1    6.7e-08   37.7   0.1    1.0  1  sp|Q42831|HBL_HORVU    Non-symbiotic hemoglobin OS=Hordeum vu
+    7.4e-08   37.6   1.1    9.2e-08   37.3   0.6    1.3  1  sp|P84296|GLB74_CHITH  Globin CTT-VIIB-4 OS=Chironomus thummi
+    7.4e-08   37.6   1.1    9.2e-08   37.3   0.6    1.3  1  sp|P84297|GLB74_CHITP  Globin CTT-VIIB-4 OS=Chironomus thummi
+    9.6e-08   37.2   0.0    1.1e-07   37.1   0.0    1.0  1  sp|P25165|GLBM_ANATR   Globin, minor OS=Anadara trapezia PE=3
+    9.9e-08   37.2   0.2    1.1e-07   37.0   0.2    1.0  1  sp|O24521|HBL2_ARATH   Non-symbiotic hemoglobin 2 OS=Arabidop
+    1.1e-07   37.1   0.4    1.3e-07   36.8   0.4    1.1  1  sp|P02224|GLB6_CHITH   Globin CTT-VI OS=Chironomus thummi thu
+    1.2e-07   36.9   0.5    1.5e-07   36.6   0.5    1.1  1  sp|O24520|HBL1_ARATH   Non-symbiotic hemoglobin 1 OS=Arabidop
+    1.4e-07   36.7   0.2    1.6e-07   36.5   0.2    1.0  1  sp|P14394|GLB2_ANATR   Globin-2B OS=Anadara trapezia PE=1 SV=
+    1.4e-07   36.7   0.1    1.7e-07   36.4   0.1    1.1  1  sp|Q9M630|HBL0_PHYPA   Non-symbiotic hemoglobin 0 OS=Physcomi
+    1.6e-07   36.4   0.9    2.4e-07   35.9   0.9    1.2  1  sp|P29242|GLB77_CHITP  Globin CTT-VIIB-7 OS=Chironomus thummi
+    1.9e-07   36.3   0.1    2.2e-07   36.1   0.1    1.0  1  sp|P02227|GLB8_CHITH   Globin CTT-VIII OS=Chironomus thummi t
+      2e-07   36.2   1.3    2.3e-07   36.0   0.8    1.3  1  sp|P12549|GLB76_CHITH  Globin CTT-VIIB-6 OS=Chironomus thummi
+      2e-07   36.2   0.0    2.2e-07   36.0   0.0    1.0  1  sp|Q99JA8|NGB_RAT      Neuroglobin OS=Rattus norvegicus GN=Ng
+    2.1e-07   36.1   1.2    2.5e-07   35.9   0.7    1.3  1  sp|Q23762|GLB7X_CHITH  Globin CTT-VIIB-10 OS=Chironomus thumm
+    2.1e-07   36.1   0.0    2.6e-07   35.8   0.0    1.1  1  sp|P13579|GLB4_LUMTE   Extracellular globin-4 OS=Lumbricus te
+    2.4e-07   35.9   0.2      0.046   18.8   0.0    2.4  2  sp|P28316|GLB_ASCSU    Extracellular globin OS=Ascaris suum P
+    2.9e-07   35.7   0.0    3.3e-07   35.5   0.0    1.1  1  sp|P19364|GLB7_ARTSX   Extracellular globin-E7 OS=Artemia sp.
+    3.6e-07   35.4   1.0    5.3e-07   34.8   1.0    1.2  1  sp|P12550|GLB77_CHITH  Globin CTT-VIIB-7 OS=Chironomus thummi
+    3.7e-07   35.3   1.5      4e-07   35.2   0.9    1.3  1  sp|P84298|GLB75_CHITH  Globin CTT-VIIB-5/CTT-VIIB-9 OS=Chiron
+    3.7e-07   35.3   1.5      4e-07   35.2   0.9    1.3  1  sp|P84299|GLB75_CHITP  Globin CTT-VIIB-5/CTT-VIIB-9 OS=Chiron
+    4.3e-07   35.1   0.7      6e-07   34.6   0.7    1.3  1  sp|P02228|GLB10_CHITH  Globin CTT-X OS=Chironomus thummi thum
+    4.4e-07   35.0   0.0    5.5e-07   34.8   0.0    1.0  1  sp|Q6WZ20|NGB_MACMU    Neuroglobin OS=Macaca mulatta GN=NGB P
+    4.5e-07   35.0   0.0    5.5e-07   34.8   0.0    1.0  1  sp|Q3KN66|NGB_PANTR    Neuroglobin OS=Pan troglodytes GN=NGB 
+    4.5e-07   35.0   0.0    5.5e-07   34.8   0.0    1.0  1  sp|Q9NPG2|NGB_HUMAN    Neuroglobin OS=Homo sapiens GN=NGB PE=
+    4.5e-07   35.0   0.0    5.5e-07   34.8   0.0    1.0  1  sp|Q6WZ18|NGB_CANFA    Neuroglobin OS=Canis familiaris GN=NGB
+    4.6e-07   35.0   0.7    5.4e-07   34.8   0.7    1.1  1  sp|O04985|HBL2_ORYSJ   Non-symbiotic hemoglobin 2 OS=Oryza sa
+    5.7e-07   34.7   1.2      7e-07   34.4   1.2    1.0  1  sp|Q9FVL0|HBL1_MEDSA   Non-symbiotic hemoglobin 1 OS=Medicago
+    5.9e-07   34.6   0.0    6.6e-07   34.5   0.0    1.0  1  sp|Q9ER97|NGB_MOUSE    Neuroglobin OS=Mus musculus GN=Ngb PE=
+    6.1e-07   34.6   0.7    7.2e-07   34.4   0.7    1.0  1  sp|P68168|HBPL_PARAD   Non-legume hemoglobin OS=Parasponia an
+    6.1e-07   34.6   0.7    7.2e-07   34.4   0.7    1.0  1  sp|P68169|HBPL_PARRI   Non-legume hemoglobin OS=Parasponia ri
+    6.3e-07   34.6   0.0    7.2e-07   34.4   0.0    1.0  1  sp|Q6WZ17|NGB_PIG      Neuroglobin OS=Sus scrofa GN=NGB PE=2 
+    6.3e-07   34.6   1.3      8e-07   34.2   1.3    1.1  1  sp|O04986|HBL1_ORYSJ   Non-symbiotic hemoglobin 1 OS=Oryza sa
+      1e-06   33.9   0.0    1.2e-06   33.6   0.0    1.0  1  sp|Q6WZ19|NGB_BOVIN    Neuroglobin OS=Bos taurus GN=NGB PE=2 
+      1e-06   33.9   0.0    1.2e-06   33.7   0.0    1.0  1  sp|Q6EV97|NGB_RABIT    Neuroglobin OS=Oryctolagus cuniculus G
+    1.1e-06   33.8   0.8    1.4e-06   33.4   0.8    1.1  1  sp|Q9M593|HBL_ZEAMP    Non-symbiotic hemoglobin OS=Zea mays s
+    1.2e-06   33.7   0.0    1.4e-06   33.5   0.0    1.1  1  sp|P13578|GLB3_TYLHE   Extracellular globin-2B OS=Tylorrhynch
+    1.8e-06   33.1   0.1    2.5e-06   32.6   0.1    1.3  1  sp|P02223|GLB9_CHITH   Globin CTT-IX OS=Chironomus thummi thu
+    2.1e-06   32.8   0.1    2.4e-06   32.6   0.1    1.0  1  sp|P28010|LGB4_MEDSA   Leghemoglobin OS=Medicago sativa GN=LB
+    2.3e-06   32.7   0.7      3e-06   32.4   0.7    1.1  1  sp|Q9FY42|HBL_MAIZE    Non-symbiotic hemoglobin OS=Zea mays G
+    2.6e-06   32.5   0.2    5.9e-06   31.4   0.2    1.5  1  sp|P15447|GLB4_GLYDI   Globin, monomeric component M-IV OS=Gl
+    3.8e-06   32.0   0.0    4.7e-06   31.7   0.0    1.1  1  sp|P11582|GLBE_CHITH   Globin CTT-E/E' OS=Chironomus thummi t
+      5e-06   31.6   0.1    7.2e-06   31.1   0.1    1.2  1  sp|P18968|GLBY_CHITP   Globin CTT-Y OS=Chironomus thummi pige
+    6.4e-06   31.3   0.1    7.6e-06   31.1   0.1    1.1  1  sp|P02230|GLB4_CHITH   Globin CTT-IV OS=Chironomus thummi thu
+    7.9e-06   31.0   1.4    9.2e-06   30.8   1.4    1.0  1  sp|P02240|LGB2_LUPLU   Leghemoglobin-2 OS=Lupinus luteus PE=1
+    1.1e-05   30.6   0.1    1.2e-05   30.4   0.1    1.0  1  sp|O48668|LGB2_PEA     Leghemoglobin Lb5-10 OS=Pisum sativum 
+    1.1e-05   30.5   0.3    1.3e-05   30.3   0.3    1.1  1  sp|Q94FT7|HBL4_ORYSJ   Non-symbiotic hemoglobin 4 OS=Oryza sa
+    1.2e-05   30.4   0.7    1.5e-05   30.1   0.7    1.1  1  sp|Q94FT8|HBL3_ORYSJ   Non-symbiotic hemoglobin 3 OS=Oryza sa
+    1.2e-05   30.4   0.7    1.5e-05   30.1   0.7    1.0  1  sp|P09187|LGB1_MEDSA   Leghemoglobin-1 OS=Medicago sativa PE=
+    1.2e-05   30.3   0.3    1.3e-05   30.3   0.3    1.1  1  sp|Q9SAZ0|LGB6_PEA     Leghemoglobin Lb120-34 OS=Pisum sativu
+    1.5e-05   30.1   0.2    1.8e-05   29.9   0.2    1.1  1  sp|P14962|LGB3_MEDSA   Leghemoglobin-3 OS=Medicago sativa PE=
+    1.5e-05   30.1   0.3    1.6e-05   30.0   0.3    1.1  1  sp|O80405|LGB3_PEA     Leghemoglobin Lb120-1 OS=Pisum sativum
+    1.9e-05   29.8   0.0    2.3e-05   29.5   0.0    1.2  1  sp|Q7M419|GLBA1_OLIMA  Extracellular giant hemoglobin major g
+    1.9e-05   29.8   0.0    2.2e-05   29.5   0.0    1.1  1  sp|P15469|GLB3_LAMSP   Giant hemoglobin AIII chain OS=Lamelli
+    2.1e-05   29.6   0.1      3e-05   29.1   0.1    1.3  1  sp|P02221|GLB1_CHITH   Globin CTT-I/CTT-IA OS=Chironomus thum
+    2.3e-05   29.5   0.2    2.5e-05   29.4   0.2    1.1  1  sp|Q9SAZ1|LGB4_PEA     Leghemoglobin Lb120-8 OS=Pisum sativum
+    2.9e-05   29.2   0.3    5.2e-05   28.3   0.3    1.6  1  sp|Q23760|GLBW_CHITH   Globin CTT-W OS=Chironomus thummi thum
+      3e-05   29.1   0.4    5.3e-05   28.3   0.4    1.6  1  sp|P29244|GLBW_CHITP   Globin CTT-W OS=Chironomus thummi pige
+    3.2e-05   29.0   0.0    3.2e-05   29.0   0.0    1.0  1  sp|P18980|HBA2_UROHA   Hemoglobin subunit alpha-2 (Fragment) 
+    4.4e-05   28.6   0.4    5.5e-05   28.3   0.4    1.1  1  sp|P07803|HBL_TRETO    Non-symbiotic hemoglobin OS=Trema tome
+    4.7e-05   28.5   2.0    5.7e-05   28.2   2.0    1.1  1  sp|Q947C5|HBL1_GOSHI   Non-symbiotic hemoglobin 1 OS=Gossypiu
+    4.8e-05   28.4   0.2    5.3e-05   28.3   0.2    1.1  1  sp|P41260|GLB1_PHAPT   Hemoglobin-1 OS=Phacoides pectinatus P
+    5.6e-05   28.2   0.1    7.4e-05   27.8   0.1    1.2  1  sp|Q7M418|GLBB2_OLIMA  Extracellular giant hemoglobin major g
+    7.5e-05   27.8   0.0    9.5e-05   27.5   0.0    1.1  1  sp|P02218|GLB2_LUMTE   Extracellular globin-2 OS=Lumbricus te
+    7.8e-05   27.8   0.0    8.8e-05   27.6   0.0    1.1  1  sp|P41262|GLB3_PHAPT   Hemoglobin-3 OS=Phacoides pectinatus P
+    9.1e-05   27.5   0.2    9.7e-05   27.5   0.2    1.1  1  sp|O48665|LGB5_PEA     Leghemoglobin Lb120-29 OS=Pisum sativu
+    0.00011   27.3   0.1    0.00013   27.0   0.1    1.1  1  sp|P02233|LGB1_PEA     Leghemoglobin-1 OS=Pisum sativum PE=1 
+    0.00013   27.1   0.0    0.00013   27.0   0.0    1.0  1  sp|P85313|HBBB_CATCL   Hemoglobin subunit beta-B (Fragment) O
+    0.00018   26.6   5.4       0.19   16.8   0.2    2.4  2  sp|P26914|GLB_PSEDC    Extracellular globin OS=Pseudoterranov
+    0.00019   26.5   1.8    0.00023   26.2   1.8    1.1  1  sp|P42511|LGB_CANLI    Leghemoglobin OS=Canavalia lineata PE=
+     0.0002   26.4   0.1    0.00026   26.1   0.1    1.1  1  sp|P83122|GLB1_PHEHI   Extracellular globin-1 OS=Pheretima hi
+    0.00021   26.4   0.3    0.00026   26.1   0.3    1.1  1  sp|Q941P9|HBL2_SOLLC   Non-symbiotic hemoglobin 2 OS=Solanum 
+    0.00021   26.3   0.2    0.00025   26.1   0.2    1.1  1  sp|P27992|LGB1_MEDTR   Leghemoglobin 1 OS=Medicago truncatula
+    0.00026   26.1   0.0     0.0003   25.9   0.0    1.1  1  sp|P80592|GLBB_RIFPA   Giant hemoglobins B chain OS=Riftia pa
+    0.00028   25.9   0.2    0.00034   25.7   0.2    1.1  1  sp|P27993|LGB2_MEDTR   Leghemoglobin 2 OS=Medicago truncatula
+    0.00033   25.7   0.1    0.00043   25.4   0.1    1.1  1  sp|P11740|GLB1_PHESE   Extracellular globin-1 OS=Pheretima si
+    0.00035   25.7   0.3     0.0004   25.5   0.3    1.1  1  sp|Q9FEP8|LGB_LOTJA    Leghemoglobin OS=Lotus japonicus PE=2 
+    0.00035   25.6   0.1    0.00041   25.4   0.1    1.1  1  sp|P93849|LGB3_VICFA   Leghemoglobin 49 OS=Vicia faba PE=2 SV
+    0.00067   24.7   0.0    0.00091   24.3   0.0    1.2  1  sp|P02231|GLBT_CHITH   Globin CTT-IIIA OS=Chironomus thummi t
+     0.0007   24.7   0.2    0.00075   24.6   0.2    1.1  1  sp|P10816|LGB3_SESRO   Leghemoglobin 3 OS=Sesbania rostrata G
+    0.00086   24.4   0.2      0.001   24.2   0.2    1.1  1  sp|P14848|LGB2_SESRO   Leghemoglobin 2 OS=Sesbania rostrata G
+    0.00086   24.4   1.0     0.0013   23.8   1.0    1.3  1  sp|P80721|GLB_PAREP    Globin-3 OS=Paramphistomum epiclitum P
+     0.0011   24.1   0.1     0.0014   23.7   0.1    1.2  1  sp|P80722|GLB_ISOHY    Globin OS=Isoparorchis hypselobagri PE
+     0.0012   24.0   0.0     0.0014   23.7   0.0    1.1  1  sp|P09966|GLB2_TYLHE   Extracellular globin-2A OS=Tylorrhynch
+     0.0019   23.3   0.1     0.0028   22.7   0.1    1.4  1  sp|P02229|GLB3_CHITH   Globin CTT-III OS=Chironomus thummi th
+      0.002   23.2   0.6     0.0025   22.9   0.6    1.1  1  sp|P02234|LGBA_PHAVU   Leghemoglobin A OS=Phaseolus vulgaris 
+     0.0022   23.0   0.0     0.0023   23.0   0.0    1.1  1  sp|P22431|GLB3_CHITP   Globin CTP-III OS=Chironomus thummi pi
+     0.0024   22.9   0.0     0.0024   22.9   0.0    1.0  1  sp|P85312|HBBA_CATCL   Hemoglobin subunit beta-A (Fragment) O
+     0.0025   22.9   0.6      0.003   22.6   0.6    1.1  1  sp|P27199|LGB_PSOTE    Leghemoglobin OS=Psophocarpus tetragon
+     0.0026   22.8   0.0     0.0033   22.5   0.0    1.1  1  sp|P18202|GLB_TUBTU    Globin, extracellular monomeric OS=Tub
+     0.0027   22.7   0.5     0.0034   22.5   0.5    1.1  1  sp|O04939|LGB2_PHAVU   Leghemoglobin OS=Phaseolus vulgaris PE
+     0.0043   22.1   0.0     0.0054   21.8   0.0    1.1  1  sp|P08924|GLB1_LUMTE   Extracellular globin-1 OS=Lumbricus te
+     0.0049   21.9   0.0      0.006   21.6   0.0    1.1  1  sp|Q7M413|GLBA2_OLIMA  Extracellular giant hemoglobin major g
+     0.0053   21.8   0.1     0.0062   21.6   0.1    1.2  1  sp|P02232|LGB1_VICFA   Leghemoglobin-1 OS=Vicia faba PE=1 SV=
+     0.0093   21.0   0.1       0.01   20.9   0.1    1.1  1  sp|P93848|LGB2_VICFA   Leghemoglobin 29 OS=Vicia faba GN=LB29
+  ------ inclusion threshold ------
+      0.011   20.7   0.4      0.013   20.6   0.4    1.1  1  sp|P02236|LGB2_SOYBN   Leghemoglobin C2 OS=Glycine max PE=1 S
+      0.012   20.7   0.3      0.016   20.2   0.3    1.2  1  sp|Q93Y92|HBL2_GOSHI   Non-symbiotic hemoglobin 2 OS=Gossypiu
+      0.013   20.5   0.4      0.027   19.6   0.4    1.5  1  sp|Q9KMY3|HMP_VIBCH    Flavohemoprotein OS=Vibrio cholerae se
+      0.017   20.2   1.3      0.019   20.0   1.3    1.1  1  sp|Q43236|LGB1_VIGUN   Leghemoglobin-1 OS=Vigna unguiculata G
+      0.019   20.0   0.8      0.021   19.9   0.8    1.1  1  sp|Q43296|LGB2_VIGUN   Leghemoglobin-2 OS=Vigna unguiculata G
+      0.021   19.9   0.6      0.023   19.7   0.6    1.1  1  sp|P02235|LGB1_SOYBN   Leghemoglobin C1 OS=Glycine max PE=2 S
+      0.026   19.6   0.0      0.029   19.4   0.0    1.1  1  sp|P11069|GLB3_LUMTE   Extracellular globin-3 OS=Lumbricus te
+      0.026   19.6   0.0      0.037   19.1   0.0    1.2  1  sp|P02220|GLB4_TYLHE   Extracellular globin-2C OS=Tylorrhynch
+      0.029   19.4   0.0      0.042   18.9   0.0    1.2  1  sp|P49672|GLB2_ASCSU   Myoglobin OS=Ascaris suum PE=1 SV=1
+      0.034   19.2   0.0       0.04   19.0   0.0    1.1  1  sp|P02219|GLB1_TYLHE   Extracellular globin-1 OS=Tylorrhynchu
+      0.063   18.3   1.0      0.067   18.2   1.0    1.1  1  sp|P02238|LGBA_SOYBN   Leghemoglobin A OS=Glycine max GN=LBA 
+        0.1   17.6   0.0       0.11   17.6   0.0    1.0  1  sp|P02217|GLB2_GLYDI   Globin, minor monomeric component (Fra
+       0.12   17.5   0.2       0.12   17.4   0.2    1.1  1  sp|P02237|LGB3_SOYBN   Leghemoglobin C3 OS=Glycine max GN=LGB
+       0.12   17.4   0.0       0.42   15.6   0.0    2.0  1  sp|Q821U7|SYC_CHLCV    Cysteine--tRNA ligase OS=Chlamydophila
+       0.15   17.1   0.1        1.7   13.7   0.1    2.1  1  sp|O66586|Y211_AQUAE   Uncharacterized globin-like protein aq
+       0.21   16.6   0.5        1.8   13.6   0.0    2.6  1  sp|Q24SX0|SYGB_DESHY   Glycine--tRNA ligase beta subunit OS=D
+       0.22   16.6   0.0       0.25   16.4   0.0    1.1  1  sp|P06148|HBF1_URECA   Hemoglobin F-I OS=Urechis caupo PE=1 S
+       0.36   15.9   0.0       0.45   15.6   0.0    1.1  1  sp|P51535|GLB2_NIPBR   Myoglobin OS=Nippostrongylus brasilien
+       0.68   15.0   0.0       0.97   14.5   0.0    1.3  1  sp|P30627|GLBH_CAEEL   Globin-like protein OS=Caenorhabditis 
+       0.96   14.5   0.0         60    8.7   0.0    2.3  2  sp|B2AND4|MTLD_PODAN   Mannitol-1-phosphate 5-dehydrogenase O
+        1.3   14.0   0.0        2.1   13.4   0.0    1.3  1  sp|Q68S17|RR2_PANGI    30S ribosomal protein S2, chloroplasti
+        1.6   13.7   0.1        1.8   13.6   0.1    1.1  1  sp|B1KJ42|Y2786_SHEWM  UPF0352 protein Swoo_2786 OS=Shewanell
+        1.7   13.7   0.1        3.7   12.6   0.1    1.5  1  sp|Q7S1Y0|RNA14_NEUCR  mRNA 3'-end-processing protein rna-14 
+          2   13.4   0.1        3.3   12.8   0.1    1.3  1  sp|A8FU97|Y1809_SHESH  UPF0352 protein Ssed_1809 OS=Shewanell
+        2.1   13.4   0.0        9.5   11.3   0.0    2.1  1  sp|Q14185|DOCK1_HUMAN  Dedicator of cytokinesis protein 1 OS=
+        2.2   13.3   0.0        3.4   12.7   0.0    1.3  1  sp|B2LMI3|RR2_GUIAB    30S ribosomal protein S2, chloroplasti
+        2.3   13.3   0.0        3.5   12.7   0.0    1.3  1  sp|Q56P10|RR2_LACSA    30S ribosomal protein S2, chloroplasti
+        2.3   13.2   0.0        3.6   12.6   0.0    1.3  1  sp|Q1KXW9|RR2_HELAN    30S ribosomal protein S2, chloroplasti
+        2.4   13.2   0.0        3.6   12.6   0.0    1.3  1  sp|Q0G9X3|RR2_DAUCA    30S ribosomal protein S2, chloroplasti
+          3   12.9   0.0        3.3   12.7   0.0    1.2  1  sp|O76242|GLBN_CERLA   Neural hemoglobin OS=Cerebratulus lact
+        3.2   12.8   0.1          6   11.9   0.0    1.3  1  sp|Q27302|GLBH_CAEBR   Globin-like protein OS=Caenorhabditis 
+        3.2   12.8   0.0        4.4   12.4   0.0    1.1  1  sp|Q01333|YCR4_ESCVU   Uncharacterized 11.2 kDa protein in cr
+        3.8   12.6   0.0         17   10.5   0.0    1.9  1  sp|Q0AGZ8|UBIC_NITEC   Probable chorismate--pyruvate lyase OS
+          4   12.5   0.1         10   11.2   0.0    1.6  1  sp|B0FZN9|SCML1_PONPY  Sex comb on midleg-like protein 1 OS=P
+        4.2   12.4   0.8        6.3   11.8   0.1    1.6  1  sp|Q9UN30|SCML1_HUMAN  Sex comb on midleg-like protein 1 OS=H
+        5.9   11.9   0.3         44    9.1   0.0    2.5  1  sp|B8FUJ0|SYGB_DESHD   Glycine--tRNA ligase beta subunit OS=D
+        6.9   11.7   5.1         22   10.1   0.8    3.0  1  sp|Q498L9|KI15B_XENLA  Kinesin-like protein KIF15-B OS=Xenopu
+
+
+Domain annotation for each sequence (and alignments):
+>> sp|P02185|MYG_PHYMC  Myoglobin OS=Physeter macrocephalus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  222.6   3.2   1.5e-67   7.2e-65       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 222.6 bits;  conditional E-value: 1.5e-67
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLse+e++ v++vWakveadv+++G+diL+rlfks+P+t+e+F++Fk+L+te+e+k+s+d+kkHg++vl+Al+++l+k ++++ea+lk+L
+  sp|P02185|MYG_PHYMC   2 VLSEGEWQLVLHVWAKVEADVAGHGQDILIRLFKSHPETLEKFDRFKHLKTEAEMKASEDLKKHGVTVLTALGAILKK-KGHHEAELKPL 90 
+                          8*****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++se++++vl++r+p++f+ad+q+a++K+l+l++k++a+kYk
+  sp|P02185|MYG_PHYMC  91 AQSHATKHKIPIKYLEFISEAIIHVLHSRHPGDFGADAQGAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|P02024|HBB_GORGO  Hemoglobin subunit beta OS=Gorilla gorilla gorilla GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  217.0   0.1   7.6e-66   3.7e-63       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 217.0 bits;  conditional E-value: 7.6e-66
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02024|HBB_GORGO   2 VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAT 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02024|HBB_GORGO  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68871|HBB_HUMAN  Hemoglobin subunit beta OS=Homo sapiens GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  216.5   0.0   1.1e-65   5.4e-63       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 216.5 bits;  conditional E-value: 1.1e-65
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68871|HBB_HUMAN   2 VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAT 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68871|HBB_HUMAN  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68872|HBB_PANPA  Hemoglobin subunit beta OS=Pan paniscus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  216.5   0.0   1.1e-65   5.4e-63       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 216.5 bits;  conditional E-value: 1.1e-65
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68872|HBB_PANPA   2 VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAT 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68872|HBB_PANPA  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68873|HBB_PANTR  Hemoglobin subunit beta OS=Pan troglodytes GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  216.5   0.0   1.1e-65   5.4e-63       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 216.5 bits;  conditional E-value: 1.1e-65
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68873|HBB_PANTR   2 VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAT 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68873|HBB_PANTR  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02177|MYG_ESCGI  Myoglobin OS=Eschrichtius gibbosus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  216.0   3.0   1.6e-65   7.7e-63       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 216.0 bits;  conditional E-value: 1.6e-65
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ae++ v+++Wakveadv+++G+diL+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L
+  sp|P02177|MYG_ESCGI   2 VLSDAEWQLVLNIWAKVEADVAGHGQDILIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPL 90 
+                          89****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++s+++++vl++r+p++f+ad+qaa++K+l+l++k++a+kYk
+  sp|P02177|MYG_ESCGI  91 AQSHATKHKIPIKYLEFISDAIIHVLHSRHPGDFGADAQAAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|Q0KIY1|MYG_BALBO  Myoglobin OS=Balaenoptera borealis GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  216.0   3.0   1.6e-65   7.7e-63       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 216.0 bits;  conditional E-value: 1.6e-65
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ae++ v+++Wakveadv+++G+diL+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L
+  sp|Q0KIY1|MYG_BALBO   2 VLSDAEWQLVLNIWAKVEADVAGHGQDILIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPL 90 
+                          89****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++s+++++vl++r+p++f+ad+qaa++K+l+l++k++a+kYk
+  sp|Q0KIY1|MYG_BALBO  91 AQSHATKHKIPIKYLEFISDAIIHVLHSRHPGDFGADAQAAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|Q0KIY2|MYG_BALED  Myoglobin OS=Balaenoptera edeni GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  216.0   3.0   1.6e-65   7.7e-63       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 216.0 bits;  conditional E-value: 1.6e-65
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ae++ v+++Wakveadv+++G+diL+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L
+  sp|Q0KIY2|MYG_BALED   2 VLSDAEWQLVLNIWAKVEADVAGHGQDILIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPL 90 
+                          89****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++s+++++vl++r+p++f+ad+qaa++K+l+l++k++a+kYk
+  sp|Q0KIY2|MYG_BALED  91 AQSHATKHKIPIKYLEFISDAIIHVLHSRHPGDFGADAQAAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|P02025|HBB_HYLLA  Hemoglobin subunit beta OS=Hylobates lar GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  215.9   0.1   1.7e-65   8.4e-63       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 215.9 bits;  conditional E-value: 1.7e-65
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02025|HBB_HYLLA   1 VHLTPEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02025|HBB_HYLLA  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02033|HBB_PILBA  Hemoglobin subunit beta OS=Piliocolobus badius GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  215.4   0.2   2.4e-65   1.2e-62       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 215.4 bits;  conditional E-value: 2.4e-65
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02033|HBB_PILBA   1 VHLTPDEKNAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTADAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02033|HBB_PILBA  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02178|MYG_MEGNO  Myoglobin OS=Megaptera novaeangliae GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  215.3   3.7   2.6e-65   1.2e-62       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 215.3 bits;  conditional E-value: 2.6e-65
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ae++ v+++Wakveadv+++G+diL+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L
+  sp|P02178|MYG_MEGNO   2 VLSDAEWQLVLNIWAKVEADVAGHGQDILIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPL 90 
+                          89****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++s+++++vl++r+p++f+ad+qaa++K+l+l++k++a+kYk
+  sp|P02178|MYG_MEGNO  91 AQSHATKHKIPIKYLEFISDAIIHVLHSRHPADFGADAQAAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|P02174|MYG_GLOME  Myoglobin OS=Globicephala melas GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  214.3   1.8   5.3e-65   2.6e-62       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 214.3 bits;  conditional E-value: 5.3e-65
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+diL+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg++vl+Al+++l+k ++++ea+lk+L+
+  sp|P02174|MYG_GLOME   3 LSDGEWQLVLNVWGKVEADLAGHGQDILIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGNTVLTALGAILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P02174|MYG_GLOME  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02173|MYG_ORCOR  Myoglobin OS=Orcinus orca GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  213.5   1.8   9.5e-65   4.6e-62       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 213.5 bits;  conditional E-value: 9.5e-65
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+diL+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg++vl+Al+++l+k +++++a+lk+L+
+  sp|P02173|MYG_ORCOR   3 LSDGEWQLVLNVWGKVEADLAGHGQDILIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGNTVLTALGAILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P02173|MYG_ORCOR  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02179|MYG_BALAC  Myoglobin OS=Balaenoptera acutorostrata GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  213.3   4.2     1e-64   5.1e-62       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 213.3 bits;  conditional E-value: 1e-64
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ae+  v+++Wakveadv+++G+diL+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L
+  sp|P02179|MYG_BALAC   2 VLSDAEWHLVLNIWAKVEADVAGHGQDILIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPL 90 
+                          89****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++s+++++vl++r+p+ef+ad+qaa++K+l+l++k++a+kYk
+  sp|P02179|MYG_BALAC  91 AQSHATKHKIPIKYLEFISDAIIHVLHSRHPAEFGADAQAAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|P02181|MYG_INIGE  Myoglobin OS=Inia geoffrensis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  213.2   1.3   1.1e-64   5.5e-62       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 213.2 bits;  conditional E-value: 1.1e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02181|MYG_INIGE   3 LSDGEWQLVLNIWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p++f+ad+qaa++K+l+l++k++a+kYk
+  sp|P02181|MYG_INIGE  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPGDFGADAQAAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02028|HBB_CHLAE  Hemoglobin subunit beta OS=Chlorocebus aethiops GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  213.1   0.1   1.2e-64   5.9e-62       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 213.1 bits;  conditional E-value: 1.2e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02028|HBB_CHLAE   1 VHLTPEEKTAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02028|HBB_CHLAE  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02184|MYG_KOGSI  Myoglobin OS=Kogia sima GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  213.0   4.2   1.3e-64   6.3e-62       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 213.0 bits;  conditional E-value: 1.3e-64
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLse+e++ v++vWakvead++++G+diL+rlfk +P+t+e+F++Fk+L+ e+e+k+s+d+kkHg++vl+Al+++l+k ++++ea+lk+L
+  sp|P02184|MYG_KOGSI   2 VLSEGEWQLVLHVWAKVEADIAGHGQDILIRLFKHHPETLEKFDRFKHLKSEAEMKASEDLKKHGVTVLTALGAILKK-KGHHEAELKPL 90 
+                          8*****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++se++++vl++r+p++f+ad+q+a+ K+l+l++k++a+kYk
+  sp|P02184|MYG_KOGSI  91 AQSHATKHKIPIKYLEFISEAIIHVLHSRHPADFGADAQGAMSKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|Q0KIY5|MYG_KOGBR  Myoglobin OS=Kogia breviceps GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  213.0   4.2   1.3e-64   6.3e-62       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 213.0 bits;  conditional E-value: 1.3e-64
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLse+e++ v++vWakvead++++G+diL+rlfk +P+t+e+F++Fk+L+ e+e+k+s+d+kkHg++vl+Al+++l+k ++++ea+lk+L
+  sp|Q0KIY5|MYG_KOGBR   2 VLSEGEWQLVLHVWAKVEADIAGHGQDILIRLFKHHPETLEKFDRFKHLKSEAEMKASEDLKKHGVTVLTALGAILKK-KGHHEAELKPL 90 
+                          8*****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++se++++vl++r+p++f+ad+q+a+ K+l+l++k++a+kYk
+  sp|Q0KIY5|MYG_KOGBR  91 AQSHATKHKIPIKYLEFISEAIIHVLHSRHPADFGADAQGAMSKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|P02040|HBB_CEBAL  Hemoglobin subunit beta OS=Cebus albifrons GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.7   0.2   1.6e-64   7.9e-62       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.7 bits;  conditional E-value: 1.6e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+A+sd+l +ld +l++++++
+  sp|P02040|HBB_CEBAL   1 VHLTAEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPDAVMNNPKVKAHGKKVLGAFSDGLTHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02040|HBB_CEBAL  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q0KIY3|MYG_PENEL  Myoglobin OS=Peponocephala electra GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.2   1.8   2.4e-64   1.2e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.2 bits;  conditional E-value: 2.4e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+diL+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg +vl+Al+++l+k +++++a+lk+L+
+  sp|Q0KIY3|MYG_PENEL   3 LSDGEWQLVLNVWGKVEADLAGHGQDILIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGITVLTALGAILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|Q0KIY3|MYG_PENEL  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q6WN25|HBB_LAGLA  Hemoglobin subunit beta OS=Lagothrix lagotricha GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.1   0.1   2.4e-64   1.2e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.1 bits;  conditional E-value: 2.4e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|Q6WN25|HBB_LAGLA   2 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPDAVMSNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q6WN25|HBB_LAGLA  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68276|MYG_DELDE  Myoglobin OS=Delphinus delphis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.1   2.0   2.4e-64   1.2e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.1 bits;  conditional E-value: 2.4e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg++vl+Al+++l+k +++++a+lk+L+
+  sp|P68276|MYG_DELDE   3 LSDGEWQLVLNVWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGNTVLTALGAILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P68276|MYG_DELDE  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68279|MYG_TURTR  Myoglobin OS=Tursiops truncatus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.1   2.0   2.4e-64   1.2e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.1 bits;  conditional E-value: 2.4e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg++vl+Al+++l+k +++++a+lk+L+
+  sp|P68279|MYG_TURTR   3 LSDGEWQLVLNVWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGNTVLTALGAILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P68279|MYG_TURTR  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q0KIY7|MYG1_STEAT  Myoglobin-1 OS=Stenella attenuata GN=MB1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.1   2.0   2.4e-64   1.2e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.1 bits;  conditional E-value: 2.4e-64
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++e++ v++vW+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg++vl+Al+++l+k +++++a+lk+L
+  sp|Q0KIY7|MYG1_STEAT   3 LSDGEWQLVLNVWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGNTVLTALGAILKK-KGHHDAELKPL 90 
+                           9****************************************************************************.99********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|Q0KIY7|MYG1_STEAT  91 AQSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                           *********************************************************7 PP
+
+>> sp|P02032|HBB_SEMEN  Hemoglobin subunit beta OS=Semnopithecus entellus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.1   0.1   2.6e-64   1.3e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.1 bits;  conditional E-value: 2.6e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02032|HBB_SEMEN   1 VHLTPEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02032|HBB_SEMEN  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68277|MYG_PHODA  Myoglobin OS=Phocoenoides dalli dalli GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.0   1.4   2.6e-64   1.3e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.0 bits;  conditional E-value: 2.6e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lse+e++ v++vW+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k +++++a+lk+L+
+  sp|P68277|MYG_PHODA   3 LSEGEWQLVLNVWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P68277|MYG_PHODA  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIATKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68278|MYG_PHOPH  Myoglobin OS=Phocoenoides phocoena GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  212.0   1.4   2.6e-64   1.3e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 212.0 bits;  conditional E-value: 2.6e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lse+e++ v++vW+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k +++++a+lk+L+
+  sp|P68278|MYG_PHOPH   3 LSEGEWQLVLNVWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P68278|MYG_PHOPH  92 QSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIATKYK 148
+                          ********************************************************7 PP
+
+>> sp|P67821|HBB_CEBAP  Hemoglobin subunit beta OS=Cebus apella GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  211.9   0.2   2.8e-64   1.4e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 211.9 bits;  conditional E-value: 2.8e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+A+sd+l +ld +l++++++
+  sp|P67821|HBB_CEBAP   2 VHLTAEEKSAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPDAVMNNPKVKAHGKKVLGAFSDGLTHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P67821|HBB_CEBAP  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q0KIY6|MYG2_STEAT  Myoglobin-2 OS=Stenella attenuata GN=MB2 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  211.9   2.5   2.8e-64   1.4e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 211.9 bits;  conditional E-value: 2.8e-64
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++e++ v++vW+kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+te+++k+s+d+kkHg++vl+Al+++l+k +++++a+lk+L
+  sp|Q0KIY6|MYG2_STEAT   3 LSDGEWQLVLNVWGKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTEADMKASEDLKKHGNTVLTALGAILKK-KGHHDAELKPL 90 
+                           9****************************************************************************.99********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +++Ha+k+k+++ky++++se++++vl++r+p+ef+ad+qaa++K+l+l++k++a+kYk
+  sp|Q0KIY6|MYG2_STEAT  91 AQSHATKHKIPIKYLEFISEAIIHVLHSRHPAEFGADAQAAMNKALELFRKDIATKYK 148
+                           *********************************************************7 PP
+
+>> sp|P08259|HBB_MANSP  Hemoglobin subunit beta OS=Mandrillus sphinx GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  211.8   0.1   3.1e-64   1.5e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 211.8 bits;  conditional E-value: 3.1e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+++W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P08259|HBB_MANSP   1 VHLTPEEKTAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P08259|HBB_MANSP  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P19885|HBB_COLPO  Hemoglobin subunit beta OS=Colobus polykomos GN=HBB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  211.7   0.1   3.3e-64   1.6e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 211.7 bits;  conditional E-value: 3.3e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P19885|HBB_COLPO   2 VHLTPDEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P19885|HBB_COLPO  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P67822|HBB_CEBCA  Hemoglobin subunit beta OS=Cebus capucinus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  211.7   0.2   3.4e-64   1.7e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 211.7 bits;  conditional E-value: 3.4e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+A+sd+l +ld +l++++++
+  sp|P67822|HBB_CEBCA   1 VHLTAEEKSAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPDAVMNNPKVKAHGKKVLGAFSDGLTHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P67822|HBB_CEBCA  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P13557|HBB_TARSY  Hemoglobin subunit beta OS=Tarsius syrichta GN=HBB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  211.2   0.9   4.7e-64   2.3e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 211.2 bits;  conditional E-value: 4.7e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  dve++G+++L rl++++P+tq+fF++F+dLst+++++++a+vk+Hgkkvl+A+sd++a+ld +l++++++
+  sp|P13557|HBB_TARSY   2 VHLTAEEKAAVTALWGKV--DVEDVGGEALGRLLVVYPWTQRFFDSFGDLSTPAAVMSNAKVKAHGKKVLNAFSDGMAHLD-NLKGTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P13557|HBB_TARSY  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02169|MYG_LEPMU  Myoglobin OS=Lepilemur mustelinus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.7   1.8   6.7e-64   3.2e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.7 bits;  conditional E-value: 6.7e-64
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+t+de+k+s+d+kkHg +vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02169|MYG_LEPMU   3 LSDGEWQLVLNVWGKVEADVGGHGQEVLIRLFTGHPETLEKFDKFKHLKTADEMKASEDLKKHGTTVLTALGGILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++v+vl++++p+ef+ad+qaa++K+l+l+++++a+kYk
+  sp|P02169|MYG_LEPMU  92 QSHATKHKIPIKYLEFISDAIVHVLHSKHPAEFGADAQAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02055|HBB_MELME  Hemoglobin subunit beta OS=Meles meles GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.3   0.2     9e-64   4.4e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.3 bits;  conditional E-value: 9e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq++F++F+dLst+d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P02055|HBB_MELME   1 VHLTAEEKSAVTSLWGKV--NVDEVGGEALGRLLVVYPWTQRYFDSFGDLSTPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02055|HBB_MELME  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02051|HBB_TARBA  Hemoglobin subunit beta OS=Tarsius bancanus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.3   0.7   9.2e-64   4.5e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.3 bits;  conditional E-value: 9.2e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  dve++G+++L rl++++P+tq+fF++F+dLst+++++++a+vk+Hgkkvl+A+s+++a+ld +l++++++
+  sp|P02051|HBB_TARBA   1 VHLTADEKAAVTALWGKV--DVEDVGGEALGRLLVVYPWTQRFFDSFGDLSTPAAVMGNAKVKAHGKKVLNAFSEGMAHLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02051|HBB_TARBA  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02030|HBB_PAPCY  Hemoglobin subunit beta OS=Papio cynocephalus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.2   0.1   9.4e-64   4.6e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.2 bits;  conditional E-value: 9.4e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P02030|HBB_PAPCY   1 VHLTPEEKNAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPAAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02030|HBB_PAPCY  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q9TSP1|HBB_PAPAN  Hemoglobin subunit beta OS=Papio anubis GN=HBB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.2   0.1   9.7e-64   4.7e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.2 bits;  conditional E-value: 9.7e-64
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|Q9TSP1|HBB_PAPAN   2 VHLTPEEKNAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPAAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q9TSP1|HBB_PAPAN  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68222|HBB_MACFU  Hemoglobin subunit beta OS=Macaca fuscata fuscata GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.1   0.1   1.1e-63   5.1e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.1 bits;  conditional E-value: 1.1e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P68222|HBB_MACFU   2 VHLTPEEKNAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68222|HBB_MACFU  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68223|HBB_MACFA  Hemoglobin subunit beta OS=Macaca fascicularis GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.1   0.1   1.1e-63   5.1e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.1 bits;  conditional E-value: 1.1e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P68223|HBB_MACFA   2 VHLTPEEKNAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68223|HBB_MACFA  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68224|HBB_MACSP  Hemoglobin subunit beta OS=Macaca speciosa GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.1   0.1   1.1e-63   5.1e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.1 bits;  conditional E-value: 1.1e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P68224|HBB_MACSP   2 VHLTPEEKNAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68224|HBB_MACSP  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68225|HBB_MACNE  Hemoglobin subunit beta OS=Macaca nemestrina GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.1   0.1   1.1e-63   5.1e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.1 bits;  conditional E-value: 1.1e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P68225|HBB_MACNE   2 VHLTPEEKNAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68225|HBB_MACNE  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02036|HBB_SAISC  Hemoglobin subunit beta OS=Saimiri sciureus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  210.1   0.1   1.1e-63   5.2e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 210.1 bits;  conditional E-value: 1.1e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +ve++G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02036|HBB_SAISC   2 VHLTGDEKAAVTALWGKV--NVEDVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02036|HBB_SAISC  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68232|HBB_ATEGE  Hemoglobin subunit beta OS=Ateles geoffroyi GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.6   0.1   1.4e-63     7e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.6 bits;  conditional E-value: 1.4e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68232|HBB_ATEGE   2 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMSNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++ qaa++K++a va++la+kY+
+  sp|P68232|HBB_ATEGE  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQLQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68234|HBB_ATEBE  Hemoglobin subunit beta OS=Ateles belzebuth GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.6   0.1   1.4e-63     7e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.6 bits;  conditional E-value: 1.4e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68234|HBB_ATEBE   2 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMSNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++ qaa++K++a va++la+kY+
+  sp|P68234|HBB_ATEBE  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQLQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q6WN29|HBB_ALOBE  Hemoglobin subunit beta OS=Alouatta belzebul GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.5   0.1   1.5e-63   7.5e-61       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.5 bits;  conditional E-value: 1.5e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++ +++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|Q6WN29|HBB_ALOBE   2 VHLTGDEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMHNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q6WN29|HBB_ALOBE  89 LSELHCDKLHVDPENFRLLGNVLVCVLAQHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02026|HBB_MACMU  Hemoglobin subunit beta OS=Macaca mulatta GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.5   0.1   1.6e-63   7.6e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.5 bits;  conditional E-value: 1.6e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P02026|HBB_MACMU   1 VHLTPEEKNAVTTLWGKV--NVDEVGGEALGRLLLVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02026|HBB_MACMU  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P21201|HBB_VULVU  Hemoglobin subunit beta OS=Vulpes vulpes GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.5   0.2   1.6e-63   7.6e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.5 bits;  conditional E-value: 1.6e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+ v+ +W+kv  +v+e+G+++L rl+ ++P+tq+fF++F+dLst+d+++++a+vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P21201|HBB_VULVU   1 VHLTAEEKSLVTGLWGKV--NVDEVGGEALGRLLIVYPWTQRFFDSFGDLSTPDAVMGNAKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P21201|HBB_VULVU  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02035|HBB_AOTTR  Hemoglobin subunit beta OS=Aotus trivirgatus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.4   0.1   1.7e-63   8.5e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.4 bits;  conditional E-value: 1.7e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02035|HBB_AOTTR   1 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02035|HBB_AOTTR  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02039|HBB_SAGFU  Hemoglobin subunit beta OS=Saguinus fuscicollis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.3   0.1   1.9e-63   9.2e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.3 bits;  conditional E-value: 1.9e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+++W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02039|HBB_SAGFU   1 VHLTGEEKSAVTTLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02039|HBB_SAGFU  88 LSELHCNKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02166|MYG_PERPO  Myoglobin OS=Perodicticus potto edwarsi GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.2   0.6   1.9e-63   9.3e-61       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.2 bits;  conditional E-value: 1.9e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G++iL+rlf+++P+t+e+F+kFk+L+t+de+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02166|MYG_PERPO   3 LSDGEWQSVLNVWGKVEADLAGHGQEILIRLFTAHPETLEKFDKFKNLKTPDEMKASEDLKKHGVTVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02166|MYG_PERPO  92 QSHATKHKIPVKYLEFISEAIIHVLQSKHPGDFGADAQGAMNKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02038|HBB_SAGMY  Hemoglobin subunit beta OS=Saguinus mystax GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.2   0.1     2e-63   9.7e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.2 bits;  conditional E-value: 2e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+++W+kv  +vee+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02038|HBB_SAGMY   1 VHLTGEEKSAVTTLWGKV--NVEEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02038|HBB_SAGMY  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02029|HBB_THEGE  Hemoglobin subunit beta OS=Theropithecus gelada GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.2   0.1     2e-63   9.7e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.2 bits;  conditional E-value: 2e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P02029|HBB_THEGE   1 VHLTPEEKNAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPAAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02029|HBB_THEGE  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P18985|HBB_CALAR  Hemoglobin subunit beta OS=Callithrix argentata GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.2   0.2     2e-63   9.8e-61       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.2 bits;  conditional E-value: 2e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+l +ld +l++++++
+  sp|P18985|HBB_CALAR   1 VHLTGEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMNNPKVKAHGKKVLGAFSDGLTHLD-NLKGTFAH 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft+ vqaa++K++a va++la+kY+
+  sp|P18985|HBB_CALAR  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPVVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q6WN28|HBB_CALJA  Hemoglobin subunit beta OS=Callithrix jacchus GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.1   0.2   2.1e-63     1e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.1 bits;  conditional E-value: 2.1e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvl+A+sd+l +ld +l++++++
+  sp|Q6WN28|HBB_CALJA   2 VHLTGEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMNNPKVKAHGKKVLGAFSDGLTHLD-NLKGTFAH 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft+ vqaa++K++a va++la+kY+
+  sp|Q6WN28|HBB_CALJA  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPVVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q6WN27|HBB_PITPI  Hemoglobin subunit beta OS=Pithecia pithecia GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  209.0   0.1   2.3e-63   1.1e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 209.0 bits;  conditional E-value: 2.3e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|Q6WN27|HBB_PITPI   2 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q6WN27|HBB_PITPI  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68054|HBB_SAGNI  Hemoglobin subunit beta OS=Saguinus nigricollis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  208.9   0.1   2.5e-63   1.2e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 208.9 bits;  conditional E-value: 2.5e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+++W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68054|HBB_SAGNI   1 VHLTGEEKSAVTTLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68054|HBB_SAGNI  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68055|HBB_SAGOE  Hemoglobin subunit beta OS=Saguinus oedipus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  208.9   0.1   2.5e-63   1.2e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 208.9 bits;  conditional E-value: 2.5e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+++W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68055|HBB_SAGOE   1 VHLTGEEKSAVTTLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68055|HBB_SAGOE  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02180|MYG_BALPH  Myoglobin OS=Balaenoptera physalus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  208.8   4.4   2.6e-63   1.3e-60       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 208.8 bits;  conditional E-value: 2.6e-63
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vL++ae+  v+++Wakveadv+++G+diL+ lfk +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L
+  sp|P02180|MYG_BALPH   2 VLTDAEWHLVLNIWAKVEADVAGHGQDILISLFKGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPL 90 
+                          79****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha+k+k+++ky++++s+++++vl++r+p++f+ad+qaa++K+l+l++k++a+kYk
+  sp|P02180|MYG_BALPH  91 AQSHATKHKIPIKYLEFISDAIIHVLHSRHPADFGADAQAAMNKALELFRKDIAAKYK 148
+                          *********************************************************7 PP
+
+>> sp|P02031|HBB_CERAT  Hemoglobin subunit beta OS=Cercocebus atys GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  208.7   0.1   2.8e-63   1.4e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 208.7 bits;  conditional E-value: 2.8e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P02031|HBB_CERAT   1 VHLTPEEKVAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSNPDAVMGNPKVKAHGKKVLGAFSDGLNHLD-NLKGTFAQ 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02031|HBB_CERAT  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02182|MYG_ZIPCA  Myoglobin OS=Ziphius cavirostris GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  208.6   3.8   3.1e-63   1.5e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 208.6 bits;  conditional E-value: 3.1e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lseae++ v++vWakvead  ++G++iL+rlfk +P+t+e+F+kFk+L+ e+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02182|MYG_ZIPCA   3 LSEAEWQLVLHVWAKVEADLSGHGQEILIRLFKGHPETLEKFDKFKHLKSEAEMKASEDLKKHGHTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++r+p++f+ad+qaa+ K+l+l++k++a+kYk
+  sp|P02182|MYG_ZIPCA  92 QSHATKHKIPIKYLEFISDAIIHVLHSRHPSDFGADAQAAMTKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02044|HBD_ATEGE  Hemoglobin subunit delta OS=Ateles geoffroyi GN=HBD PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  208.4   0.1   3.4e-63   1.7e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 208.4 bits;  conditional E-value: 3.4e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+++++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02044|HBD_ATEGE   2 VHLTPEEKAAVAALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPAAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P02044|HBD_ATEGE  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAFQKVVAGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68082|MYG_HORSE  Myoglobin OS=Equus caballus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.8   1.2   5.3e-63   2.6e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.8 bits;  conditional E-value: 5.3e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v++vW+kvead++++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg  vl+Al+ +l+k ++++ea+lk+L+
+  sp|P68082|MYG_HORSE   3 LSDGEWQQVLNVWGKVEADIAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGTVVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P68082|MYG_HORSE  92 QSHATKHKIPIKYLEFISDAIIHVLHSKHPGDFGADAQGAMTKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68083|MYG_EQUBU  Myoglobin OS=Equus burchelli GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.8   1.2   5.3e-63   2.6e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.8 bits;  conditional E-value: 5.3e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v++vW+kvead++++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg  vl+Al+ +l+k ++++ea+lk+L+
+  sp|P68083|MYG_EQUBU   3 LSDGEWQQVLNVWGKVEADIAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGTVVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P68083|MYG_EQUBU  92 QSHATKHKIPIKYLEFISDAIIHVLHSKHPGDFGADAQGAMTKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P60524|HBB_CANFA  Hemoglobin subunit beta OS=Canis familiaris GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.6   0.2   6.2e-63     3e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.6 bits;  conditional E-value: 6.2e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+ v  +W+kv  +v+e+G+++L rl+ ++P+tq+fF++F+dLst+d+++++a+vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P60524|HBB_CANFA   1 VHLTAEEKSLVSGLWGKV--NVDEVGGEALGRLLIVYPWTQRFFDSFGDLSTPDAVMSNAKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P60524|HBB_CANFA  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P60525|HBB_CANLA  Hemoglobin subunit beta OS=Canis latrans GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.6   0.2   6.2e-63     3e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.6 bits;  conditional E-value: 6.2e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+ v  +W+kv  +v+e+G+++L rl+ ++P+tq+fF++F+dLst+d+++++a+vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P60525|HBB_CANLA   1 VHLTAEEKSLVSGLWGKV--NVDEVGGEALGRLLIVYPWTQRFFDSFGDLSTPDAVMSNAKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P60525|HBB_CANLA  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P60526|HBB_CHRBR  Hemoglobin subunit beta OS=Chrysocyon brachyurus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.6   0.2   6.2e-63     3e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.6 bits;  conditional E-value: 6.2e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+ v  +W+kv  +v+e+G+++L rl+ ++P+tq+fF++F+dLst+d+++++a+vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P60526|HBB_CHRBR   1 VHLTAEEKSLVSGLWGKV--NVDEVGGEALGRLLIVYPWTQRFFDSFGDLSTPDAVMSNAKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P60526|HBB_CHRBR  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P61772|HBD_PANTR  Hemoglobin subunit delta OS=Pan troglodytes GN=HBD PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   0.0   6.7e-63   3.3e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.7e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+a+W+kv  +v+ +G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P61772|HBD_PANTR   2 VHLTPEEKTAVNALWGKV--NVDAVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFSQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P61772|HBD_PANTR  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P61773|HBD_GORGO  Hemoglobin subunit delta OS=Gorilla gorilla gorilla GN=HBD PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   0.0   6.7e-63   3.3e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.7e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+a+W+kv  +v+ +G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P61773|HBD_GORGO   2 VHLTPEEKTAVNALWGKV--NVDAVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFSQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P61773|HBD_GORGO  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P61774|HBD_HYLLA  Hemoglobin subunit delta OS=Hylobates lar GN=HBD PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   0.0   6.7e-63   3.3e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.7e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+a+W+kv  +v+ +G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P61774|HBD_HYLLA   2 VHLTPEEKTAVNALWGKV--NVDAVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFSQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P61774|HBD_HYLLA  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P61775|HBD_PONPY  Hemoglobin subunit delta OS=Pongo pygmaeus GN=HBD PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   0.0   6.7e-63   3.3e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.7e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+a+W+kv  +v+ +G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P61775|HBD_PONPY   2 VHLTPEEKTAVNALWGKV--NVDAVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFSQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P61775|HBD_PONPY  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q0KIY9|MYG_INDPC  Myoglobin OS=Indopacetus pacificus GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   4.4   6.7e-63   3.2e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.7e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lseae++ v++vWakvead  ++G++iL+rlfk +P+t+e+F+kFk+L+ e+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|Q0KIY9|MYG_INDPC   3 LSEAEWQLVLHVWAKVEADLSGHGQEILIRLFKGHPETLEKFDKFKHLKSEAEMKASEDLKKHGHTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p++f+ad+qaa+ K+l+l++k++a+kYk
+  sp|Q0KIY9|MYG_INDPC  92 QSHATKHKIPIKYLEFISDAIIHVLHSKHPSDFGADAQAAMTKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q6WN22|HBB_ATEPA  Hemoglobin subunit beta OS=Ateles paniscus GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.4   0.1   6.8e-63   3.3e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.4 bits;  conditional E-value: 6.8e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|Q6WN22|HBB_ATEPA   2 VHLTGEEKSAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++ qaa++K++a va++la+kY+
+  sp|Q6WN22|HBB_ATEPA  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQLQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68046|HBB_ODORO  Hemoglobin subunit beta OS=Odobenus rosmarus divergens GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   0.2   6.8e-63   3.3e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.8e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P68046|HBB_ODORO   1 VHLTADEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68046|HBB_ODORO  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68047|HBB_ARCGA  Hemoglobin subunit beta OS=Arctocephalus galapagoensis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.5   0.2   6.8e-63   3.3e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.5 bits;  conditional E-value: 6.8e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P68047|HBB_ARCGA   1 VHLTADEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68047|HBB_ARCGA  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P09909|HBB_PHOVI  Hemoglobin subunit beta OS=Phoca vitulina GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.3   0.2   7.5e-63   3.6e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.3 bits;  conditional E-value: 7.5e-63
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P09909|HBB_PHOVI   1 VHLTGEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSADAIMGNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P09909|HBB_PHOVI  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02183|MYG_MESCA  Myoglobin OS=Mesoplodon carlhubbsi GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.2   3.7   8.3e-63     4e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.2 bits;  conditional E-value: 8.3e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lseae++ v++vWakvead  ++G++iL+rlfk +P+t+e+F+kFk+L+ e+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02183|MYG_MESCA   3 LSEAEWQLVLHVWAKVEADLSGHGQEILIRLFKGHPETLEKFDKFKHLKSEAEMKASEDLKKHGHTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p++f+ad+q+a+ K+l+l++k++a+kYk
+  sp|P02183|MYG_MESCA  92 QSHATKHKIPIKYLEFISDAIIHVLHSKHPSDFGADAQGAMTKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q0KIY0|MYG_MESST  Myoglobin OS=Mesoplodon stejnegeri GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  207.2   3.7   8.3e-63     4e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 207.2 bits;  conditional E-value: 8.3e-63
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lseae++ v++vWakvead  ++G++iL+rlfk +P+t+e+F+kFk+L+ e+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|Q0KIY0|MYG_MESST   3 LSEAEWQLVLHVWAKVEADLSGHGQEILIRLFKGHPETLEKFDKFKHLKSEAEMKASEDLKKHGHTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p++f+ad+q+a+ K+l+l++k++a+kYk
+  sp|Q0KIY0|MYG_MESST  92 QSHATKHKIPIKYLEFISDAIIHVLHSKHPSDFGADAQGAMTKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P15449|HBB_MELCA  Hemoglobin subunit beta OS=Mellivora capensis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.9   0.3     1e-62     5e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.9 bits;  conditional E-value: 1e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P15449|HBB_MELCA   1 VHLTAEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P15449|HBB_MELCA  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q6WN21|HBB_CALGO  Hemoglobin subunit beta OS=Callimico goeldii GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.6   0.1   1.3e-62   6.2e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.6 bits;  conditional E-value: 1.3e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+l +ld +l++++++
+  sp|Q6WN21|HBB_CALGO   2 VHLTGEEKSAVTTLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLTHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft+ vqaa++K++a va++la+kY+
+  sp|Q6WN21|HBB_CALGO  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPTVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P23602|HBB_MUSLU  Hemoglobin subunit beta OS=Mustela lutreola GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.6   0.3   1.3e-62   6.2e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.6 bits;  conditional E-value: 1.3e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P23602|HBB_MUSLU   1 VHLTAEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P23602|HBB_MUSLU  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02165|MYG_TUPGL  Myoglobin OS=Tupaia glis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.5   0.9   1.3e-62   6.4e-60       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.5 bits;  conditional E-value: 1.3e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kveadv+++G+++L+rlfk +P+t+e+F+kFk+L+tede+k+s+d+kkHg++vl Al+ +l+k ++++ea++k+L+
+  sp|P02165|MYG_TUPGL   3 LSDGEWQLVLNVWGKVEADVAGHGQEVLIRLFKGHPETLEKFDKFKHLKTEDEMKASEDLKKHGNTVLSALGGILKK-KGQHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+qaa+ K+l+l+++++a+kYk
+  sp|P02165|MYG_TUPGL  92 QSHATKHKIPVKYLEFISEAIIQVLQSKHPGDFGADAQAAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02208|GLB5_PETMA  Globin-5 OS=Petromyzon marinus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.4   0.2   1.4e-62   6.8e-60       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 206.4 bits;  conditional E-value: 1.4e-62
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +Ls+aektk++++Wa+v++++e+sG+diLv++f+stPa+qefF+kFk+L+t+d+lkksadv++H++++++A++da+a++d  ek+++kl
+  sp|P02208|GLB5_PETMA  11 PLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTTADQLKKSADVRWHAERIINAVNDAVASMDdtEKMSMKL 99 
+                           8******************************************************************************5599****** PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           +dLs++Hak+++vdp+yfk+l++v++d++aa+         +a++eKl++++++ll+s+Y
+  sp|P02208|GLB5_PETMA 100 RDLSGKHAKSFQVDPQYFKVLAAVIADTVAAG---------DAGFEKLMSMICILLRSAY 150
+                           ********************************.........******************9 PP
+
+>> sp|Q6WN20|HBB_CALTO  Hemoglobin subunit beta OS=Callicebus torquatus GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.2   0.3   1.7e-62   8.2e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.2 bits;  conditional E-value: 1.7e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v e+G+++L rl++++P+tq+fFe+F+dLs +d+++++ +vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|Q6WN20|HBB_CALTO   2 VHLTGEEKAAVTALWGKV--NVXEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMSNXKVKAHGKKVLGAFSDGLAHLD-NLKSTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q6WN20|HBB_CALTO  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P33499|HBD_ATEFU  Hemoglobin subunit delta OS=Ateles fusciceps GN=HBD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.1   0.1   1.7e-62   8.3e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.1 bits;  conditional E-value: 1.7e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+ Lst+d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P33499|HBD_ATEFU   1 VHLTGEEKSAVAALWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGALSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P33499|HBD_ATEFU  88 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAFQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q6WN26|HBB_AOTAZ  Hemoglobin subunit beta OS=Aotus azarae GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  206.1   0.1   1.7e-62   8.4e-60       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 206.1 bits;  conditional E-value: 1.7e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|Q6WN26|HBB_AOTAZ   2 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMNNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+v p++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q6WN26|HBB_AOTAZ  89 LSELHCDKLHVXPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P18989|HBB_PROLO  Hemoglobin subunit beta OS=Procyon lotor GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.9   0.1     2e-62   9.6e-60       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.9 bits;  conditional E-value: 2e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+++W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P18989|HBB_PROLO   1 VHLTADEKTAVTTLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSADAIMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P18989|HBB_PROLO  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02042|HBD_HUMAN  Hemoglobin subunit delta OS=Homo sapiens GN=HBD PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.7   0.0   2.4e-62   1.2e-59       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.7 bits;  conditional E-value: 2.4e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v+a+W+kv  +v+ +G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02042|HBD_HUMAN   2 VHLTPEEKTAVNALWGKV--NVDAVGGEALGRLLVVYPWTQRFFESFGDLSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFSQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft+++qaa++K++a va++la+kY+
+  sp|P02042|HBD_HUMAN  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQMQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68080|MYG_PHOVI  Myoglobin OS=Phoca vitulina GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.7   1.6   2.4e-62   1.2e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.7 bits;  conditional E-value: 2.4e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+  v++vW+kve+d +++G+++L+rlfks+P+t+e+F+kFk+L+ ed+++ s+d++kHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P68080|MYG_PHOVI   3 LSDGEWHLVLNVWGKVETDLAGHGQEVLIRLFKSHPETLEKFDKFKHLKSEDDMRRSEDLRKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p+ef+ad+qaa++K+l+l+++++a+kYk
+  sp|P68080|MYG_PHOVI  92 QSHATKHKIPIKYLEFISEAIIHVLHSKHPAEFGADAQAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68081|MYG_HALGR  Myoglobin OS=Halichoerus grypus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.7   1.6   2.4e-62   1.2e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.7 bits;  conditional E-value: 2.4e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+  v++vW+kve+d +++G+++L+rlfks+P+t+e+F+kFk+L+ ed+++ s+d++kHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P68081|MYG_HALGR   3 LSDGEWHLVLNVWGKVETDLAGHGQEVLIRLFKSHPETLEKFDKFKHLKSEDDMRRSEDLRKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p+ef+ad+qaa++K+l+l+++++a+kYk
+  sp|P68081|MYG_HALGR  92 QSHATKHKIPIKYLEFISEAIIHVLHSKHPAEFGADAQAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P19886|HBD_COLPO  Hemoglobin subunit delta OS=Colobus polykomos GN=HBD PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.6   0.1   2.6e-62   1.2e-59       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.6 bits;  conditional E-value: 2.6e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt v a+W+kv  +v+ +G+++L rl++++P+tq+fFe+F+dLs +++++++++vk+Hgkkvl+A+sd+la+ld  l++++++
+  sp|P19886|HBD_COLPO   2 VHLTPEEKTVVSALWGKV--NVDAVGGEALGRLLVVYPWTQRFFESFGDLSSPAAVMGNPKVKAHGKKVLGAFSDGLAHLD-SLKGTFSQ 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P19886|HBD_COLPO  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHNFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68052|HBB_PTEBR  Hemoglobin subunit beta OS=Pteronura brasiliensis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.3   0.2   3.1e-62   1.5e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.3 bits;  conditional E-value: 3.1e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P68052|HBB_PTEBR   1 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68052|HBB_PTEBR  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68053|HBB_MARFO  Hemoglobin subunit beta OS=Martes foina GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.3   0.2   3.1e-62   1.5e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.3 bits;  conditional E-value: 3.1e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P68053|HBB_MARFO   1 VHLTGEEKAAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68053|HBB_MARFO  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P10893|HBB_LUTLU  Hemoglobin subunit beta OS=Lutra lutra GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.2   0.1   3.4e-62   1.7e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.2 bits;  conditional E-value: 3.4e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+++W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P10893|HBB_LUTLU   1 VHLTGEEKAAVTSLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P10893|HBB_LUTLU  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P26916|HBB_NASNA  Hemoglobin subunit beta OS=Nasua nasua GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.1   0.1   3.6e-62   1.8e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.1 bits;  conditional E-value: 3.6e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ekt+v+++Wakv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P26916|HBB_NASNA   1 VHLTGEEKTAVTNLWAKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSPDAIMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P26916|HBB_NASNA  88 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02170|MYG_RABIT  Myoglobin OS=Oryctolagus cuniculus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  205.1   3.2   3.6e-62   1.8e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 205.1 bits;  conditional E-value: 3.6e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+ae++ v++vW+kvead +++G+++L+rlf ++P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl+Al+++l+k ++++ea++k+L+
+  sp|P02170|MYG_RABIT   3 LSDAEWQLVLNVWGKVEADLAGHGQEVLIRLFHTHPETLEKFDKFKHLKSEDEMKASEDLKKHGNTVLTALGAILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+qaa+ K+l+l+++++a++Yk
+  sp|P02170|MYG_RABIT  92 QSHATKHKIPVKYLEFISEAIIHVLHSKHPGDFGADAQAAMSKALELFRNDIAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|P18984|HBB_BALAC  Hemoglobin subunit beta OS=Balaenoptera acutorostrata GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.9   0.9   4.1e-62     2e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.9 bits;  conditional E-value: 4.1e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+Wakv  +vee+G+++L rl++++P+tq+fFe F+dLst+d+++k+++vk+Hgkkvl  +sd+l++ld +l++++++
+  sp|P18984|HBB_BALAC   1 VHLTAEEKSAVTALWAKV--NVEEVGGEALGRLLVVYPWTQRFFEAFGDLSTADAVMKNPKVKAHGKKVLASFSDGLKHLD-DLKGTFAT 87 
+                          69****************..************************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vla +++keft++ qaa++K++a va++la+kY+
+  sp|P18984|HBB_BALAC  88 LSELHCDKLHVDPENFRLLGNVLVIVLARHFGKEFTPELQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02167|MYG_NYCCO  Myoglobin OS=Nycticebus coucang GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.5   0.3   5.5e-62   2.7e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.5 bits;  conditional E-value: 5.5e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G++iL+rlf+++P+t+e+F+kFk+L+t+de+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02167|MYG_NYCCO   3 LSDGEWQSVLNVWGKVEADLAGHGQEILIRLFTAHPETLEKFDKFKNLKTPDEMKASEDLKKHGVTVLTALGGILKK-KGQHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s ++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P02167|MYG_NYCCO  92 QSHATKHKIPVKYLEFISGAIIHVLQSKHPGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02145|MYG_PANTR  Myoglobin OS=Pan troglodytes GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.5   0.3   5.6e-62   2.7e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.5 bits;  conditional E-value: 5.6e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+ ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P02145|MYG_PANTR   3 LSDGEWQLVLNVWGKVEADIPGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++K+l+l++k++as+Yk
+  sp|P02145|MYG_PANTR  92 QSHATKHKIPVKYLEFISECIIQVLHSKHPGDFGADAQGAMNKALELFRKDMASNYK 148
+                          ********************************************************7 PP
+
+>> sp|Q9I9I3|GLB2_PETMA  Globin-2 OS=Petromyzon marinus PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.3   0.2   6.2e-62     3e-59       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 204.3 bits;  conditional E-value: 6.2e-62
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +Ls+aektk++++Wa+v++++e+sG+diLv++f+stPa+qefF+kFk+L+t+d+lkksadv++H++++++A++da+ ++d  ek+++kl
+  sp|Q9I9I3|GLB2_PETMA  11 PLSAAEKTKIRSAWAPVYSNYETSGVDILVKFFTSTPAAQEFFPKFKGLTTADQLKKSADVRWHAERIINAVNDAVVSMDdtEKMSMKL 99 
+                           8******************************************************************************5599****** PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           +dLs++Hak+++vdp+yfk+l++v++d++aa+         +a++eKl++++++ll+s+Y
+  sp|Q9I9I3|GLB2_PETMA 100 RDLSGKHAKSFQVDPQYFKVLAAVIADTVAAG---------DAGFEKLMSMICILLRSAY 150
+                           ********************************.........******************9 PP
+
+>> sp|P15166|HBB_LEPWE  Hemoglobin subunit beta OS=Leptonychotes weddelli GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.4   0.2   6.1e-62     3e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.4 bits;  conditional E-value: 6.1e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+a+W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P15166|HBB_LEPWE   1 VHLTAEEKSAVTALWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPNAIMSNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH+++l+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P15166|HBB_LEPWE  88 LSELHCDQLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P13558|HBD_TARSY  Hemoglobin subunit delta OS=Tarsius syrichta GN=HBD PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.2   1.2   6.7e-62   3.3e-59       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.2 bits;  conditional E-value: 6.7e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+a+W+kv  +ve++G+++L rl++++P+tq+fF++F+dLst+++++++a+vk+Hgkkvl+A+sd++a+ld +l++++++
+  sp|P13558|HBD_TARSY   2 VHLTADEKAAVTALWSKV--NVEDVGGEALGRLLVVYPWTQRFFDSFGDLSTPAAVMSNAKVKAHGKKVLNAFSDGMAHLD-NLKGTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++k+ft++ qaa++K++a va +la+kY+
+  sp|P13558|HBD_TARSY  89 LSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKQFTPQLQAAYQKVVAGVAAALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02189|MYG_PIG  Myoglobin OS=Sus scrofa GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.2   0.7   6.9e-62   3.4e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.2 bits;  conditional E-value: 6.9e-62
+           globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLsel 94 
+                        Ls++e++ v++vW+kveadv+++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl+Al+ +l+k ++++ea+l +L+++
+  sp|P02189|MYG_PIG   3 LSDGEWQLVLNVWGKVEADVAGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGNTVLTALGGILKK-KGHHEAELTPLAQS 93 
+                        9****************************************************************************.99************ PP
+
+           globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P02189|MYG_PIG  94 HATKHKIPVKYLEFISEAIIQVLQSKHPGDFGADAQGAMSKALELFRNDMAAKYK 148
+                        ******************************************************7 PP
+
+>> sp|Q9TS35|HBA1_HYLLA  Hemoglobin subunit alpha-1 OS=Hylobates lar GN=HBA1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.1   1.6   7.3e-62   3.6e-59       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.1 bits;  conditional E-value: 7.3e-62
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vka+W+kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++
+  sp|Q9TS35|HBA1_HYLLA   2 VLSPADKTNVKAAWGKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSA 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|Q9TS35|HBA1_HYLLA  84 LSDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P68011|HBB_URSMA  Hemoglobin subunit beta OS=Ursus maritimus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.1   0.1   7.5e-62   3.7e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.1 bits;  conditional E-value: 7.5e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek+ v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P68011|HBB_URSMA   1 VHLTGEEKSLVTGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSADAIMNNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68011|HBB_URSMA  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68012|HBB_URSTH  Hemoglobin subunit beta OS=Ursus thibetanus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.1   0.1   7.5e-62   3.7e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.1 bits;  conditional E-value: 7.5e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek+ v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P68012|HBB_URSTH   1 VHLTGEEKSLVTGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSADAIMNNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68012|HBB_URSTH  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68013|HBB_URSML  Hemoglobin subunit beta OS=Ursus malayanus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.1   0.1   7.5e-62   3.7e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.1 bits;  conditional E-value: 7.5e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek+ v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P68013|HBB_URSML   1 VHLTGEEKSLVTGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSADAIMNNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68013|HBB_URSML  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P18983|HBB_AILME  Hemoglobin subunit beta OS=Ailuropoda melanoleuca GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.0   0.2   7.8e-62   3.8e-59       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.0 bits;  conditional E-value: 7.8e-62
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P18983|HBB_AILME   2 VHLTGEEKAAVTGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPDAVMNNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P18983|HBB_AILME  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P69905|HBA_HUMAN  Hemoglobin subunit alpha OS=Homo sapiens GN=HBA1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.0   1.3   7.8e-62   3.8e-59       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.0 bits;  conditional E-value: 7.8e-62
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+a+++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P69905|HBA_HUMAN   2 VLSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P69905|HBA_HUMAN  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P69906|HBA_PANPA  Hemoglobin subunit alpha OS=Pan paniscus GN=HBA1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.0   1.3   7.8e-62   3.8e-59       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.0 bits;  conditional E-value: 7.8e-62
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+a+++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P69906|HBA_PANPA   2 VLSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P69906|HBA_PANPA  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P69907|HBA_PANTR  Hemoglobin subunit alpha OS=Pan troglodytes GN=HBA1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  204.0   1.3   7.8e-62   3.8e-59       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 204.0 bits;  conditional E-value: 7.8e-62
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+a+++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P69907|HBA_PANTR   2 VLSPADKTNVKAAWGKVGAHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P69907|HBA_PANTR  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P11343|MYG_LUTLU  Myoglobin OS=Lutra lutra GN=MB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.7   0.3   9.9e-62   4.8e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.7 bits;  conditional E-value: 9.9e-62
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl+Al+ +l+k ++k+ea+lk+L+
+  sp|P11343|MYG_LUTLU   3 LSDGEWQLVLNVWGKVEADLAGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKGSEDLKKHGNTVLTALGGILKK-KGKHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++++l+l+++++a+kYk
+  sp|P11343|MYG_LUTLU  92 QSHATKHKIPIKYLEFISEAIIQVLQSKHPGDFGADAQGAMKRALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02147|MYG_GORBE  Myoglobin OS=Gorilla gorilla beringei GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.6   0.4   1.1e-61   5.1e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.6 bits;  conditional E-value: 1.1e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+ ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P02147|MYG_GORBE   3 LSDGEWQLVLNVWGKVEADISGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++K+l+l++k++as+Yk
+  sp|P02147|MYG_GORBE  92 QSHATKHKIPVKYLEFISECIIQVLQSKHPGDFGADAQGAMNKALELFRKDMASNYK 148
+                          ********************************************************7 PP
+
+>> sp|P08535|HBB_LEPEU  Hemoglobin subunit beta OS=Lepus europaeus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.4   0.3   1.2e-61     6e-59       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.4 bits;  conditional E-value: 1.2e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek++v+a+W+kv  +vee+G++ L rl++++P+tq+fFe+F+dLst+ +++++++vk+Hgkkvl A+s++l +ld +l++++++
+  sp|P08535|HBB_LEPEU   2 VHLSGEEKSAVTALWGKV--NVEEVGGETLGRLLVVYPWTQRFFESFGDLSTASAVMGNPKVKAHGKKVLAAFSEGLSHLD-NLKGTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vl ++++keft++vqaa++K++a va++la+kY+
+  sp|P08535|HBB_LEPEU  89 LSELHCDKLHVDPENFRLLGNVLVIVLSHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02161|MYG_ZALCA  Myoglobin OS=Zalophus californianus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.3   0.9   1.3e-61   6.5e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.3 bits;  conditional E-value: 1.3e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kvead  ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k s+d+kkHgk+vl+Al+ +l+k +++++a+lk+L+
+  sp|P02161|MYG_ZALCA   3 LSDGEWQLVLNIWGKVEADLVGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKRSEDLKKHGKTVLTALGGILKK-KGHHDAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad +aa++K+l+l+++++a+kY+
+  sp|P02161|MYG_ZALCA  92 QSHATKHKIPIKYLEFISEAIIHVLQSKHPGDFGADTHAAMKKALELFRNDIAAKYR 148
+                          ********************************************************7 PP
+
+>> sp|P07421|HBA_CEBCA  Hemoglobin subunit alpha OS=Cebus capucinus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.2   1.3   1.4e-61   6.6e-59       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.2 bits;  conditional E-value: 1.4e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W+kv+a+++++Gad+L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAls+a+a++d +++++l++L
+  sp|P07421|HBA_CEBCA   1 VLSPADKTNVKTAWGKVGAHAGDYGADALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALSNAVAHVD-DMPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P07421|HBA_CEBCA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q03902|HBD_OTOCR  Hemoglobin subunit delta OS=Otolemur crassicaudatus GN=HBD PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.0   0.1   1.6e-61   7.7e-59       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.0 bits;  conditional E-value: 1.6e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v a+W+kv  +vee+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl A+s++l++ld +l++++++
+  sp|Q03902|HBD_OTOCR   2 VHLTPDEKNAVCALWGKV--NVEEVGGEALGRLLVVYPWTQRFFDSFGDLSSPSAVMGNPKVKAHGKKVLSAFSEGLNHLD-NLKGTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++k+ft++vqaa++K++a va++la+kY+
+  sp|Q03902|HBD_OTOCR  89 LSELHCDKLHVDPENFRLLGNVLVVVLAHHFGKDFTPEVQAAYQKVVAGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P20856|MYG_CTEGU  Myoglobin OS=Ctenodactylus gundi GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  203.0   0.4   1.6e-61     8e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 203.0 bits;  conditional E-value: 1.6e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+d++++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+++l+k ++++ea+l++L+
+  sp|P20856|MYG_CTEGU   3 LSDGEWQLVLNAWGKVETDIGGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGTTVLTALGNILKK-KGQHEAELAPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl +++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P20856|MYG_CTEGU  92 QSHATKHKIPVKYLEFISEAIIQVLESKHPGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68044|HBB_MUSPF  Hemoglobin subunit beta OS=Mustela putorius furo GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.9   0.2   1.7e-61   8.3e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.9 bits;  conditional E-value: 1.7e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G++ L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P68044|HBB_MUSPF   1 VHLTGEEKAAVTALWGKV--NVDEVGGETLGRLLVVYPWTQRFFDSFGDLSSPDAVMSNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68044|HBB_MUSPF  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P68045|HBB_MUSPU  Hemoglobin subunit beta OS=Mustela putorius GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.9   0.2   1.7e-61   8.3e-59       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.9 bits;  conditional E-value: 1.7e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+a+W+kv  +v+e+G++ L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P68045|HBB_MUSPU   1 VHLTGEEKAAVTALWGKV--NVDEVGGETLGRLLVVYPWTQRFFDSFGDLSSPDAVMSNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P68045|HBB_MUSPU  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P32428|MYG_ONDZI  Myoglobin OS=Ondatra zibethicus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.8   1.0   1.9e-61   9.2e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.8 bits;  conditional E-value: 1.9e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+d+L+rlfk++P+t+e+F+kFk+++ ede+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P32428|MYG_ONDZI   3 LSDGEWQLVLHVWGKVEADLAGHGQDVLIRLFKAHPETLEKFDKFKHIKSEDEMKGSEDLKKHGBTVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl +++p++f+adv++a++++l+l+++++a+kYk
+  sp|P32428|MYG_ONDZI  92 QSHATKHKIPIKYLEFISEAIIHVLZSKHPSBFGADVZGAMKRALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P14396|MYG_CASFI  Myoglobin OS=Castor fiber GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.7   1.4     2e-61   9.6e-59       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.7 bits;  conditional E-value: 2e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+++ ede+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P14396|MYG_CASFI   3 LSDGEWQLVLHVWGKVEADLAGHGQEVLIRLFKGHPETLEKFNKFKHIKSEDEMKASEDLKKHGVTVLTALGGVLKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+++a++K+l+l++k++a+kYk
+  sp|P14396|MYG_CASFI  92 QSHATKHKIPIKYLEFISEAIIHVLQSKHPGBFGADABGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P18972|HBA_CALAR  Hemoglobin subunit alpha OS=Callithrix argentata GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.6   1.3   2.1e-61     1e-58       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.6 bits;  conditional E-value: 2.1e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+++++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P18972|HBA_CALAR   1 VLSPADKSNVKAAWGKVGSHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P18972|HBA_CALAR  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q5XLE5|HBD_AILME  Hemoglobin subunit delta OS=Ailuropoda melanoleuca GN=HBD PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.6   0.2   2.1e-61     1e-58       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.6 bits;  conditional E-value: 2.1e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLst+d+++++++vk+Hgkkvl+ +s++l++ld +l++++ +
+  sp|Q5XLE5|HBD_AILME   2 VHLTGEEKAAVTGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPDAVMNNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFVK 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q5XLE5|HBD_AILME  89 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02144|MYG_HUMAN  Myoglobin OS=Homo sapiens GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.6   0.3   2.1e-61     1e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.6 bits;  conditional E-value: 2.1e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+ ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P02144|MYG_HUMAN   3 LSDGEWQLVLNVWGKVEADIPGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++K+l+l++k++as+Yk
+  sp|P02144|MYG_HUMAN  92 QSHATKHKIPVKYLEFISECIIQVLQSKHPGDFGADAQGAMNKALELFRKDMASNYK 148
+                          ********************************************************7 PP
+
+>> sp|P01923|HBA_GORGO  Hemoglobin subunit alpha OS=Gorilla gorilla gorilla GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.4   1.2   2.4e-61   1.2e-58       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.4 bits;  conditional E-value: 2.4e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P01923|HBA_GORGO   1 VLSPADKTNVKAAWGKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P01923|HBA_GORGO  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02192|MYG_BOVIN  Myoglobin OS=Bos taurus GN=MB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.3   3.4   2.7e-61   1.3e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.3 bits;  conditional E-value: 2.7e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02192|MYG_BOVIN   3 LSDGEWQLVLNAWGKVEADVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+a++p++f+ad+qaa+ K+l+l+++++a++Yk
+  sp|P02192|MYG_BOVIN  92 ESHANKHKIPVKYLEFISDAIIHVLHAKHPSDFGADAQAAMSKALELFRNDMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|P86873|MYG_BISBI  Myoglobin OS=Bison bison GN=MB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.3   3.4   2.7e-61   1.3e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.3 bits;  conditional E-value: 2.7e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P86873|MYG_BISBI   3 LSDGEWQLVLNAWGKVEADVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+a++p++f+ad+qaa+ K+l+l+++++a++Yk
+  sp|P86873|MYG_BISBI  92 ESHANKHKIPVKYLEFISDAIIHVLHAKHPSDFGADAQAAMSKALELFRNDMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|Q2MJN4|MYG_BOSMU  Myoglobin OS=Bos mutus grunniens GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.3   3.4   2.7e-61   1.3e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.3 bits;  conditional E-value: 2.7e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|Q2MJN4|MYG_BOSMU   3 LSDGEWQLVLNAWGKVEADVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+a++p++f+ad+qaa+ K+l+l+++++a++Yk
+  sp|Q2MJN4|MYG_BOSMU  92 ESHANKHKIPVKYLEFISDAIIHVLHAKHPSDFGADAQAAMSKALELFRNDMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|P02057|HBB_RABIT  Hemoglobin subunit beta-1/2 OS=Oryctolagus cuniculus GN=HBB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.2   0.5   2.8e-61   1.3e-58       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.2 bits;  conditional E-value: 2.8e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek++v+a+W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs +++++++++vk+Hgkkvl A+s++l +ld +l++++++
+  sp|P02057|HBB_RABIT   2 VHLSSEEKSAVTALWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSANAVMNNPKVKAHGKKVLAAFSEGLSHLD-NLKGTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vl ++++keft++vqaa++K++a va++la+kY+
+  sp|P02057|HBB_RABIT  89 LSELHCDKLHVDPENFRLLGNVLVIVLSHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02049|HBB_NYCCO  Hemoglobin subunit beta OS=Nycticebus coucang GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.1   0.1   3.1e-61   1.5e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.1 bits;  conditional E-value: 3.1e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+a+W+kv  +v+++G+++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgkkvl A+sd+l++ld +l++++++
+  sp|P02049|HBB_NYCCO   1 VHLTGEEKSAVTALWGKV--NVDDVGGEALGRLLVVYPWTQRFFESFGDLSSPSAVMGNPKVKAHGKKVLSAFSDGLNHLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++k+ft++vq+a++K++a va++la+kY+
+  sp|P02049|HBB_NYCCO  88 LSELHCDKLHVDPENFRLLGNVLVVVLAHHFGKDFTPQVQSAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02163|MYG_ROUAE  Myoglobin OS=Rousettus aegyptiacus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.1   0.3   3.1e-61   1.5e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.1 bits;  conditional E-value: 3.1e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+ ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02163|MYG_ROUAE   3 LSDGEWQLVLNVWGKVEADIPGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGQHEAQLKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++sev+++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P02163|MYG_ROUAE  92 QSHATKHKIPVKYLEFISEVIIQVLQSKHPGDFGADAQGAMGKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02207|GLB_LAMFL  Globin OS=Lampetra fluviatilis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.0   0.2   3.2e-61   1.6e-58       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 202.0 bits;  conditional E-value: 3.2e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                          +Ls+aektk++++Wa+v++++e+sG+diLv++f+stPa+qefF+kFk+++ +d+lkksadv++H++++++A++da+a++d  ek+++kl+
+  sp|P02207|GLB_LAMFL  11 PLSAAEKTKIRSAWAPVYSNYETSGVDILVKFFTSTPAAQEFFPKFKGMTSADQLKKSADVRWHAERIINAVNDAVASMDdtEKMSMKLR 100
+                          8******************************************************************************5599******* PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                          dLs++Hak+++vdp+yfk+l++v++d++aa+         +a++eKl++++++ll+s+Y
+  sp|P02207|GLB_LAMFL 101 DLSGKHAKSFQVDPQYFKVLAAVIADTVAAG---------DAGFEKLMSMICILLRSAY 150
+                          *******************************.........******************9 PP
+
+>> sp|P18986|HBB_CROCR  Hemoglobin subunit beta OS=Crocuta crocuta GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.1   0.1   3.1e-61   1.5e-58       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.1 bits;  conditional E-value: 3.1e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek+ v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++ +vk+Hgkkvl+ +sd+l+++d +l++++++Ls
+  sp|P18986|HBB_CROCR   3 LTAEEKSLVNDLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMGNSKVKAHGKKVLNSFSDGLKHID-DLKGTFAKLS 89 
+                          99**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla+++++eft++vqaa++K++a va++la+kY+
+  sp|P18986|HBB_CROCR  90 ELHCDKLHVDPENFKLLGNVLVCVLAHHFGNEFTPPVQAAYQKVVAGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|P62734|MYG_HYLAG  Myoglobin OS=Hylobates agilis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.0   0.4   3.3e-61   1.6e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.0 bits;  conditional E-value: 3.3e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P62734|MYG_HYLAG   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++K+l+l++k++as+Yk
+  sp|P62734|MYG_HYLAG  92 QSHATKHKIPVKYLEFISECIIQVLQSKHPGDFGADAQGAMNKALELFRKDMASNYK 148
+                          ********************************************************7 PP
+
+>> sp|P62735|MYG_HYLSY  Myoglobin OS=Hylobates syndactylus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.0   0.4   3.3e-61   1.6e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.0 bits;  conditional E-value: 3.3e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P62735|MYG_HYLSY   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a++K+l+l++k++as+Yk
+  sp|P62735|MYG_HYLSY  92 QSHATKHKIPVKYLEFISECIIQVLQSKHPGDFGADAQGAMNKALELFRKDMASNYK 148
+                          ********************************************************7 PP
+
+>> sp|P18982|HBB_AILFU  Hemoglobin subunit beta OS=Ailurus fulgens GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  202.0   0.1   3.4e-61   1.6e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 202.0 bits;  conditional E-value: 3.4e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P18982|HBB_AILFU   1 VHLTGEEKAAVTGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSPDAVMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P18982|HBB_AILFU  88 LSELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02190|MYG_SHEEP  Myoglobin OS=Ovis aries GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.9   2.7   3.5e-61   1.7e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.9 bits;  conditional E-value: 3.5e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02190|MYG_SHEEP   3 LSDGEWQLVLNAWGKVEADVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+a++p++f+ad+q+a+ K+l+l+++++a++Yk
+  sp|P02190|MYG_SHEEP  92 ESHANKHKIPVKYLEFISDAIIHVLHAKHPSDFGADAQGAMSKALELFRNDMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|P67817|HBA_ATEGE  Hemoglobin subunit alpha OS=Ateles geoffroyi GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.6   1.0   4.4e-61   2.1e-58       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.6 bits;  conditional E-value: 4.4e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P67817|HBA_ATEGE   2 VLSPADKSNVKAAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P67817|HBA_ATEGE  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02168|MYG_OTOCR  Myoglobin OS=Otolemur crassicaudatus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.5   1.1   4.6e-61   2.2e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.5 bits;  conditional E-value: 4.6e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kvead +++G+d+L+rlf+++P+t+e+F+kFk+L+t+de+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02168|MYG_OTOCR   3 LSDGEWQLVLKIWGKVEADLAGHGQDVLIRLFTAHPETLEKFDKFKNLKTADEMKASEDLKKHGVTVLTALGGILKK-KGQHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl+++++++f++dvq+a+ K+l+l+++++a+kYk
+  sp|P02168|MYG_OTOCR  92 QSHATKHKIPVKYLEFISEAIIHVLQNKHSGDFGTDVQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P09968|GLB3_PETMA  Globin-3 OS=Petromyzon marinus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.4   0.1   4.8e-61   2.3e-58       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 201.4 bits;  conditional E-value: 4.8e-61
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +Ls+aektk++++Wa+v++++e++G+diLv++f+stPa+qefF+kFk+L+t+d+lkksadv++H++++++A++da+ ++d  ek+++kl
+  sp|P09968|GLB3_PETMA  11 PLSAAEKTKIRSAWAPVYSNYETTGVDILVKFFTSTPAAQEFFPKFKGLTTADQLKKSADVRWHAERIINAVNDAVVSMDdtEKMSMKL 99 
+                           8******************************************************************************5599****** PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            dLs++Hak+++vdp+yfk+l++v++d++aa+         +a++eKl++++++ll+s+Y
+  sp|P09968|GLB3_PETMA 100 GDLSGKHAKSFQVDPQYFKVLAAVIADTVAAG---------DAGFEKLMSMICILLRSAY 150
+                           ********************************.........******************9 PP
+
+>> sp|P02150|MYG_MACFA  Myoglobin OS=Macaca fascicularis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.5   0.5   4.7e-61   2.3e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.5 bits;  conditional E-value: 4.7e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02150|MYG_MACFA   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGVTVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++l+se +++vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02150|MYG_MACFA  92 QSHATKHKIPVKYLELISESIIQVLQSKHPGDFGADAQGAMNKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P06635|HBA_PONPY  Hemoglobin subunit alpha OS=Pongo pygmaeus GN=HBA1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.4   1.4   4.8e-61   2.3e-58       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.4 bits;  conditional E-value: 4.8e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W+kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P06635|HBA_PONPY   2 VLSPADKTNVKTAWGKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKDHGKKVADALTNAVAHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P06635|HBA_PONPY  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01928|HBA_CEBAP  Hemoglobin subunit alpha OS=Cebus apella GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.4   0.9   5.1e-61   2.5e-58       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.4 bits;  conditional E-value: 5.1e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAls+a+a++d +++++l++L
+  sp|P01928|HBA_CEBAP   2 VLSPADKTNVKTAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALSNAVAHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01928|HBA_CEBAP  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02050|HBB_OTOCR  Hemoglobin subunit beta-1/2 OS=Otolemur crassicaudatus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.3   0.0   5.4e-61   2.6e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.3 bits;  conditional E-value: 5.4e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v a+W+kv  +vee+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl A+sd+l++ld +l +++++
+  sp|P02050|HBB_OTOCR   1 VHLTPDEKNAVCALWGKV--NVEEVGGEALGRLLVVYPWTQRFFDSFGDLSSPSAVMGNPKVKAHGKKVLSAFSDGLQHLD-NLCGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+v+p++f+ll++vlv+vla++++k+ft++vqaa+eK++a va++la+kY+
+  sp|P02050|HBB_OTOCR  88 LSELHCDKLHVNPENFRLLGNVLVCVLAHHFGKDFTPEVQAAYEKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02047|HBD_SAISC  Hemoglobin subunit delta OS=Saimiri sciureus GN=HBD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.2   0.1   5.9e-61   2.9e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.2 bits;  conditional E-value: 5.9e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+ Ls +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02047|HBD_SAISC   1 VHLTGDEKSAVAALWSKV--NVDEVGGEALGRLLVVYPWTQRFFESFGALSSADAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P02047|HBD_SAISC  88 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAFQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P23020|HBB_PROCR  Hemoglobin subunit beta OS=Proteles cristata GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.1   0.1     6e-61   2.9e-58       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.1 bits;  conditional E-value: 6e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek+ v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++ +vk+Hgkkvl+ +sd+l+++d +l++++++Ls
+  sp|P23020|HBB_PROCR   3 LTAEEKSLVNDLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMGNGKVKAHGKKVLNSFSDGLKHID-DLKGTFAKLS 89 
+                          99**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla+++++eft++vqaa++K++a va++la+kY+
+  sp|P23020|HBB_PROCR  90 ELHCDKLHVDPENFKLLGNVLVCVLAHHFGNEFTPPVQAAYQKVVAGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|P68015|HBD_SAGNI  Hemoglobin subunit delta OS=Saguinus nigricollis GN=HBD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.1   0.1   6.3e-61   3.1e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.1 bits;  conditional E-value: 6.3e-61
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+ Ls +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68015|HBD_SAGNI   1 VHLTGEEKSAVAALWSKV--NVDEVGGEALGRLLVVYPWTQRFFESFGALSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft+ vqaa++K++a va++la+kY+
+  sp|P68015|HBD_SAGNI  88 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPRVQAAFQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P67818|HBA_SAGOE  Hemoglobin subunit alpha OS=Saguinus oedipus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  201.1   1.0   6.4e-61   3.1e-58       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 201.1 bits;  conditional E-value: 6.4e-61
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++l++L
+  sp|P67818|HBA_SAGOE   1 VLSPADKSNVKAAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P67818|HBA_SAGOE  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02164|MYG_ORYAF  Myoglobin OS=Orycteropus afer GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.9   0.4   7.2e-61   3.5e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.9 bits;  conditional E-value: 7.2e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+ae++ v++vW+kvead+ ++G+d+L+rlfk +P+t+e+F++Fk+L+tede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++++L+
+  sp|P02164|MYG_ORYAF   3 LSDAEWQLVLNVWGKVEADIPGHGQDVLIRLFKGHPETLEKFDRFKHLKTEDEMKASEDLKKHGTTVLTALGGILKK-KGQHEAEIQPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++v++++++++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P02164|MYG_ORYAF  92 QSHATKHKIPVKYLEFISEAIIQVIQSKHSGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68084|MYG_PAPAN  Myoglobin OS=Papio anubis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.8   0.6   7.8e-61   3.8e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.8 bits;  conditional E-value: 7.8e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P68084|MYG_PAPAN   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++l+se +++vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P68084|MYG_PAPAN  92 QSHATKHKIPVKYLELISESIIQVLQSKHPGDFGADAQGAMNKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68085|MYG_SEMEN  Myoglobin OS=Semnopithecus entellus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.8   0.6   7.8e-61   3.8e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.8 bits;  conditional E-value: 7.8e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P68085|MYG_SEMEN   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++l+se +++vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P68085|MYG_SEMEN  92 QSHATKHKIPVKYLELISESIIQVLQSKHPGDFGADAQGAMNKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68086|MYG_ERYPA  Myoglobin OS=Erythrocebus patas GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.8   0.6   7.8e-61   3.8e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.8 bits;  conditional E-value: 7.8e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P68086|MYG_ERYPA   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++l+se +++vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P68086|MYG_ERYPA  92 QSHATKHKIPVKYLELISESIIQVLQSKHPGDFGADAQGAMNKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02191|MYG_CEREL  Myoglobin OS=Cervus elaphus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.7   2.7   8.4e-61   4.1e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.7 bits;  conditional E-value: 8.4e-61
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P02191|MYG_CEREL   3 LSDGEWQLVLNAWGKVEADVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+a++p++f+ad+q+a+ K+l+l+++++a++Yk
+  sp|P02191|MYG_CEREL  92 ESHANKHKIPVKYLEFISDAIIHVLHAKHPSNFGADAQGAMSKALELFRNDMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|P02171|MYG_OCHPR  Myoglobin OS=Ochotona princeps GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.4   0.3     1e-60     5e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.4 bits;  conditional E-value: 1e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl Al+ +l+k ++++ea+lk+L+
+  sp|P02171|MYG_OCHPR   3 LSDGEWQLVLNVWGKVEADLAGHGQEVLIRLFKNHPETLEKFDKFKNLKSEDEMKGSDDLKKHGNTVLSALGGILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P02171|MYG_OCHPR  92 QSHATKHKIPVKYLEFISEAIIQVLQSKHPGDFGADAQGAMSKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|B7U9B5|MYG_CAPHI  Myoglobin OS=Capra hircus GN=MB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.3   2.2   1.1e-60   5.1e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.3 bits;  conditional E-value: 1.1e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+t v+++W+kveadv+++G+++L+rlf+ +P+t+e+F+kFk+L+t +e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|B7U9B5|MYG_CAPHI   3 LSDGEWTLVLNAWGKVEADVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTGAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+a++p++f+ad+q+a+ K+l+l+++++a++Yk
+  sp|B7U9B5|MYG_CAPHI  92 ESHANKHKIPVKYLEFISDAIIHVLHAKHPSDFGADAQGAMSKALELFRNDMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|Q6PL31|MYG_OCHCU  Myoglobin OS=Ochotona curzoniae GN=MB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.3   0.4   1.1e-60   5.3e-58       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.3 bits;  conditional E-value: 1.1e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl Al+ +l+k ++++ea+lk+L+
+  sp|Q6PL31|MYG_OCHCU   3 LSDGEWQLVLTVWGKVEADLAGHGQEVLIRLFKNHPETLEKFDKFKNLKSEDEMKGSDDLKKHGNTVLSALGGILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|Q6PL31|MYG_OCHCU  92 QSHATKHKIPVKYLEFISEAIIQVLQSKHPGDFGADAQGAMSKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P68014|HBD_SAGMY  Hemoglobin subunit delta OS=Saguinus mystax GN=HBD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.3   0.1   1.1e-60   5.4e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.3 bits;  conditional E-value: 1.1e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v a+W+kv  +v+e+G+++L rl++++P+tq+fFe+F+ Ls +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P68014|HBD_SAGMY   1 VHLTGDEKSAVAALWSKV--NVDEVGGEALGRLLVVYPWTQRFFESFGALSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft+ vqaa++K++a va++la+kY+
+  sp|P68014|HBD_SAGMY  88 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPRVQAAFQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P18990|HBB_TURTR  Hemoglobin subunit beta OS=Tursiops truncatus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.2   0.2   1.2e-60   5.6e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.2 bits;  conditional E-value: 1.2e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+a+W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLst+d+++k+++vkkHg+kvl  ++++l++ld +l++++++
+  sp|P18990|HBB_TURTR   1 VHLTGEEKSAVTALWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMKNPNVKKHGQKVLASFGEGLKHLD-DLKGTFAA 87 
+                          689***************..************************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++ q+a++K++a va++la+kY+
+  sp|P18990|HBB_TURTR  88 LSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPELQSAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02048|HBB_LORTA  Hemoglobin subunit beta OS=Loris tardigradus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  200.1   0.1   1.3e-60   6.1e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 200.1 bits;  conditional E-value: 1.3e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v+ +W+kv  +ve++G+++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgkkvl A+sd+l++ld +l++++++
+  sp|P02048|HBB_LORTA   1 VHLTGEEKSAVTGLWGKV--NVEDVGGEALGRLLVVYPWTQRFFESFGDLSSPSAVMGNPKVKAHGKKVLSAFSDGLNHLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++k+ft++vq+a++K++a va++la+kY+
+  sp|P02048|HBB_LORTA  88 LSELHCDKLHVDPENFRLLGNVLVVVLAHHFGKDFTPQVQSAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P24660|HBB_MACGG  Hemoglobin subunit beta OS=Macroderma gigas GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.8   0.0   1.6e-60   7.6e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.8 bits;  conditional E-value: 1.6e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek +v+ +W+kv  +vee+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P24660|HBB_MACGG   1 VHLTGEEKAAVTGLWGKV--NVEEVGGEALGRLLVVYPWTQRFFDSFGDLSSPSAVMGNPKVKAHGKKVLNSFSDGLKNLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P24660|HBB_MACGG  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|D0VX08|HBB_PTEGI  Hemoglobin subunit beta OS=Pteropus giganteus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.6   0.1   1.8e-60   8.7e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.6 bits;  conditional E-value: 1.8e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvld +s++l++ld +l++++++
+  sp|D0VX08|HBB_PTEGI   1 VHLSGEEKAAVTGLWGKV--KVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNPKVKAHGKKVLDSFSEGLQHLD-NLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|D0VX08|HBB_PTEGI  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P14391|HBB_PTEAL  Hemoglobin subunit beta OS=Pteropus alecto GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.6   0.1   1.8e-60   8.7e-58       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.6 bits;  conditional E-value: 1.8e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvld +s++l++ld +l++++++
+  sp|P14391|HBB_PTEAL   1 VHLSGEEKAAVTGLWGKV--KVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNPKVKAHGKKVLDSFSEGLQHLD-NLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P14391|HBB_PTEAL  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P04250|MYG_LAGMA  Myoglobin OS=Lagostomus maximus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.3   0.3   2.2e-60   1.1e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.3 bits;  conditional E-value: 2.2e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+L++ede+++s+d+kkHg +vl+Al+ +l+k  +++ a+l++L+
+  sp|P04250|MYG_LAGMA   3 LSDGEWQLVLNVWGKVEADLGGHGQEVLIRLFKGHPETLEKFDKFKHLKAEDEMRASEDLKKHGTTVLTALGGILKK-RGQHAAELAPLA 91 
+                          9****************************************************************************.88********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+qaa+ K+l+l+++++a+kYk
+  sp|P04250|MYG_LAGMA  92 QSHATKHKIPVKYLEFISEAIIQVLQSKHPGDFGADAQAAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02148|MYG_PONPY  Myoglobin OS=Pongo pygmaeus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.3   0.5   2.2e-60   1.1e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.3 bits;  conditional E-value: 2.2e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea++k+L+
+  sp|P02148|MYG_PONPY   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGGILKK-KGHHEAEIKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se +++vl++++p++f+ad+q+a++K+l+l++k++as+Yk
+  sp|P02148|MYG_PONPY  92 QSHATKHKIPVKYLEFISESIIQVLQSKHPGDFGADAQGAMNKALELFRKDMASNYK 148
+                          ********************************************************7 PP
+
+>> sp|P28781|HBB_TAPGE  Hemoglobin subunit beta OS=Taphozous georgianus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.2   0.1   2.4e-60   1.2e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.2 bits;  conditional E-value: 2.4e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs++ +++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P28781|HBB_TAPGE   1 VHLTADEKAAVTGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSAASAVMGNPKVKAHGKKVLNSFSDGLKNLD-NLKGTYAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K+++ va++la+kY+
+  sp|P28781|HBB_TAPGE  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFTPQVQAAYQKVVSGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|B3EWE2|HBB_BLABR  Hemoglobin subunit beta OS=Blarina brevicauda PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.1   0.1   2.6e-60   1.3e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.1 bits;  conditional E-value: 2.6e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+ v+ +W+kv  +vee G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl+ ++d+la+ld +l++++++
+  sp|B3EWE2|HBB_BLABR   1 VHLTAEEKSLVTGLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNPKVKAHGKKVLQSMGDGLANLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kYk
+  sp|B3EWE2|HBB_BLABR  88 LSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPPVQAAFQKVVAGVATALAHKYK 146
+                          **********************************************************7 PP
+
+>> sp|P02058|HBB_ROUAE  Hemoglobin subunit beta OS=Rousettus aegyptiacus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.0   0.3   2.7e-60   1.3e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.0 bits;  conditional E-value: 2.7e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek +v+a+W+kv  +vee+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvld +s++l++ld  l++++++
+  sp|P02058|HBB_ROUAE   1 VHLSGEEKAAVTALWGKV--KVEEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMSNPKVKAHGKKVLDSFSEGLQHLD-SLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P02058|HBB_ROUAE  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P04248|MYG_SPAEH  Myoglobin OS=Spalax ehrenbergi GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  199.0   0.3   2.8e-60   1.3e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 199.0 bits;  conditional E-value: 2.8e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kve d +++G+++L++lfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl+Al+ +l+k ++++ a++++L+
+  sp|P04248|MYG_SPAEH   3 LSDGEWQLVLNVWGKVEGDLAGHGQEVLIKLFKNHPETLEKFDKFKHLKSEDEMKGSEDLKKHGNTVLTALGGILKK-KGQHAAEIQPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P04248|MYG_SPAEH  92 QSHATKHKIPIKYLEFISEAIIQVLQSKHPGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P84997|MYG_BUBBU  Myoglobin OS=Bubalus bubalis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.8   3.0   3.2e-60   1.6e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.8 bits;  conditional E-value: 3.2e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+dv+++G+++L+rlf+ +P+t+e+F+kFk+L+te+e+k+s+d+kkHg++vl+Al+ +l+k ++++ea++k+L+
+  sp|P84997|MYG_BUBBU   3 LSDGEWQLVLNAWGKVETDVAGHGQEVLIRLFTGHPETLEKFDKFKHLKTEAEMKASEDLKKHGNTVLTALGGILKK-KGHHEAEVKHLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++s+++++vl+ ++p++f+ad+qaa+ K+l+l+++ +a++Yk
+  sp|P84997|MYG_BUBBU  92 ESHANKHKIPVKYLEFISDAIIHVLHDKHPSDFGADAQAAMSKALELFRNEMAAQYK 148
+                          ********************************************************7 PP
+
+>> sp|P01924|HBA_SEMEN  Hemoglobin subunit alpha OS=Semnopithecus entellus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.7   0.7   3.3e-60   1.6e-57       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.7 bits;  conditional E-value: 3.3e-60
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ + +e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++ +l++L
+  sp|P01924|HBA_SEMEN   1 VLSPADKTNVKAAWGKVGGHGGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPHALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P01924|HBA_SEMEN  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q9TS34|HBA2_HYLLA  Hemoglobin subunit alpha-2 OS=Hylobates lar GN=HBA2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.7   1.5   3.4e-60   1.7e-57       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.7 bits;  conditional E-value: 3.4e-60
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vk++W+kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a++d +++++  +
+  sp|Q9TS34|HBA2_HYLLA   2 VLSPADKTNVKTAWGKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHVD-DMPNAQTA 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|Q9TS34|HBA2_HYLLA  84 LSDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P14392|HBB_PTEPO  Hemoglobin subunit beta OS=Pteropus poliocephalus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.5   0.1   3.8e-60   1.8e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.5 bits;  conditional E-value: 3.8e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvld +s++l++ld +l++++++
+  sp|P14392|HBB_PTEPO   1 VHLSGEEKAAVTGLWGKV--KVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSAPAVMGNPKVKAHGKKVLDSFSEGLQHLD-NLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P14392|HBB_PTEPO  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|B3EWD0|HBB_SPEBE  Hemoglobin subunit beta OS=Spermophilus beecheyi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.4   0.3   4.3e-60   2.1e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.4 bits;  conditional E-value: 4.3e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+++ ++W+kv  +++e+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvld +s++l++ld +l++++++
+  sp|B3EWD0|HBB_SPEBE   1 VHLTDGEKNALSTAWGKV--NADEVGGEALGRLLVVYPWTQRFFDSFGDLSSATAVMGNPKVKAHGKKVLDSFSNGLKHLD-NLKGTFAS 87 
+                          69****************..999**********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++l+keft++vqaa++K++a va++la+kY+
+  sp|B3EWD0|HBB_SPEBE  88 LSELHCDKLHVDPENFRLLGNVLVVVLAHHLGKEFTPQVQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02157|MYG_MELME  Myoglobin OS=Meles meles GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.2   0.9   4.7e-60   2.3e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.2 bits;  conditional E-value: 4.7e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg++vl+Al+ +l+k +++ ea+lk+L+
+  sp|P02157|MYG_MELME   3 LSDGEWQLVLNVWGKVEADLAGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKGSEDLKKHGNTVLTALGGILKK-KGHQEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p++f+a++q+a++K+l+l+++++a+kYk
+  sp|P02157|MYG_MELME  92 QSHATKHKIPVKYLEFISDAIAQVLQSKHPGNFAAEAQGAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02046|HBD_AOTTR  Hemoglobin subunit delta OS=Aotus trivirgatus GN=HBD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.2   0.0   4.7e-60   2.3e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.2 bits;  conditional E-value: 4.7e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v a+W+kv  +vee+G+++L rl++++P+tq+fFe+F+ Ls +d+++++++vk+Hgkkvl+A+sd+la+ld +l++++++
+  sp|P02046|HBD_AOTTR   1 VHLTGDEKSAVAALWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGALSSPDAVMGNPKVKAHGKKVLGAFSDGLAHLD-NLKGTFAQ 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft+  qaa++K++a va++la+kY+
+  sp|P02046|HBD_AOTTR  88 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPLLQAAFQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P19646|HBB_PAGLA  Hemoglobin subunit beta OS=Paguma larvata GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.1   0.2   5.1e-60   2.5e-57       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.1 bits;  conditional E-value: 5.1e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++ + +vk+Hgkkvl+ +sd+l+++d +l++++++Ls
+  sp|P19646|HBB_PAGLA   3 LTAEEKGLVNGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMHNSKVKAHGKKVLNSFSDGLKHVD-DLKGTFAKLS 89 
+                          89**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla++++keft++vqaa++K++a va +la++Y+
+  sp|P19646|HBB_PAGLA  90 ELHCDKLHVDPENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVASALAHRYH 146
+                          ********************************************************7 PP
+
+>> sp|P09421|HBB_SPECI  Hemoglobin subunit beta OS=Spermophilus citellus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.1   1.1   5.3e-60   2.6e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.1 bits;  conditional E-value: 5.3e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls++ek+++ ++W+kv  +++e+Ga++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkv+d +s++l++ld +l++++++
+  sp|P09421|HBB_SPECI   1 VHLSDGEKNAISTAWGKV--HAAEVGAEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNAKVKAHGKKVIDSFSNGLKHLD-NLKGTFAS 87 
+                          69****************..99***********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v v+a++l+k+ft+++qaa++K++a va++la+kY+
+  sp|P09421|HBB_SPECI  88 LSELHCDKLHVDPENFKLLGNMIVIVMAHHLGKDFTPEAQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P09905|HBB_PHYMC  Hemoglobin subunit beta-1/2 OS=Physeter macrocephalus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  198.0   0.2   5.5e-60   2.7e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 198.0 bits;  conditional E-value: 5.5e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek+ ++a+Wakv  +vee G+++L rl++++P+tq+fFe+F+dLst+d+++k+++vkkHg+kvl  ++++l++ld +l++++++
+  sp|P09905|HBB_PHYMC   1 VHLTGEEKSGLTALWAKV--NVEEIGGEALGRLLVVYPWTQRFFEHFGDLSTADAVMKNPKVKKHGQKVLASFGEGLKHLD-NLKGTFAT 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++ q+a++K++a va++la+kY+
+  sp|P09905|HBB_PHYMC  88 LSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPELQTAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P11754|HBB_CYNSP  Hemoglobin subunit beta OS=Cynopterus sphinx GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.8   0.3   6.4e-60   3.1e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.8 bits;  conditional E-value: 6.4e-60
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek++v+++W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkvld +s++l++ld  l++++++
+  sp|P11754|HBB_CYNSP   1 VHLSGEEKSAVTSLWGKV--KVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNAKVKAHGKKVLDSFSEGLQHLD-SLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++ qaa++K++a va++la+kY+
+  sp|P11754|HBB_CYNSP  88 LSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPQLQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02073|HBB_ALCAA  Hemoglobin subunit beta OS=Alces alces alces GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.7   0.6   6.8e-60   3.3e-57       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.7 bits;  conditional E-value: 6.8e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++ +a+vk+Hgk+vldA+s++l++ld +l++++++Ls
+  sp|P02073|HBB_ALCAA   2 LTAEEKAAVTAFWGKV--KVDEVGGEALGRLLVVYPWTQRFFEHFGDLSTADAVMHNAKVKEHGKRVLDAFSEGLKHLD-DLKGAFAKLS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla +++keft++ qa ++K++  va++la++Y+
+  sp|P02073|HBB_ALCAA  89 ELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPELQADYQKVVTGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|Q7M3B6|HBA_SAGMY  Hemoglobin subunit alpha OS=Saguinus mystax GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.7   0.7     7e-60   3.4e-57       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.7 bits;  conditional E-value: 7e-60
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a +d +++++l++L
+  sp|Q7M3B6|HBA_SAGMY   1 VLSPADKSNVKAAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVALVD-DMPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|Q7M3B6|HBA_SAGMY  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02193|MYG_DIDVI  Myoglobin OS=Didelphis virginiana GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.7   0.5   7.1e-60   3.5e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.7 bits;  conditional E-value: 7.1e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kvead+ ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+++l+k ++++ea+lk+L+
+  sp|P02193|MYG_DIDVI   3 LSDGEWQLVLNAWGKVEADIPGHGQEVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGATVLTALGNILKK-KGNHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+ +++++++se++++v+++++p++f+ d+qaa+ K+l+l+++++a+kYk
+  sp|P02193|MYG_DIDVI  92 QSHATKHKISVQFLEFISEAIIQVIQSKHPGDFGGDAQAAMGKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02160|MYG_VULCH  Myoglobin OS=Vulpes chama GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.6   1.8   7.5e-60   3.6e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.6 bits;  conditional E-value: 7.5e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+d +++G+++L+rlfk +P+t+++F+kFk+L+tede+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02160|MYG_VULCH   3 LSDGEWQLVLNIWGKVETDLAGHGQEVLIRLFKNHPETLDKFDKFKHLKTEDEMKGSEDLKKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl+++++++f ad +aa++K+l+l+++++a+kYk
+  sp|P02160|MYG_VULCH  92 QSHATKHKIPVKYLEFISDAIIQVLQSKHSGDFHADTEAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02151|MYG_AOTTR  Myoglobin OS=Aotus trivirgatus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.6   1.8   7.6e-60   3.7e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.6 bits;  conditional E-value: 7.6e-60
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kveadv  +G+++L+ lfk +P+t+e+F+kFk+L+ ede+k+s+++kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02151|MYG_AOTTR   3 LSDGEWQLVLNVWGKVEADVPSHGQEVLISLFKGHPETLEKFDKFKHLKSEDEMKASEELKKHGVTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++v+vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02151|MYG_AOTTR  92 QSHATKHKIPVKYLEFISDAIVHVLQKKHPGDFGADAQGAMKKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02084|HBB_ELEMA  Hemoglobin subunit beta OS=Elephas maximus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.3   0.4   9.5e-60   4.6e-57       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.3 bits;  conditional E-value: 9.5e-60
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++aekt+v+++W+kv  +v+e G+++L rl++++P+t++fFe+F+dLst+d++  +a+v +Hg+kvl+ ++++l++ld +l+++++dL
+  sp|P02084|HBB_ELEMA   2 NLTAAEKTQVTNLWGKV--NVKELGGEALSRLLVVYPWTRRFFEHFGDLSTADAVLHNAKVLAHGEKVLTSFGEGLKHLD-NLKGTFADL 88 
+                          79***************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv vla +++keft+dvqaa+eK++a va++la+kY+
+  sp|P02084|HBB_ELEMA  89 SELHCDKLHVDPENFRLLGNVLVIVLARHFGKEFTPDVQAAYEKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|Q45XI9|HBD_ELEMA  Hemoglobin subunit delta OS=Elephas maximus GN=HBD PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.2   0.4   9.7e-60   4.7e-57       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.2 bits;  conditional E-value: 9.7e-60
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++aekt+v+++W+kv  +v+e G+++L rl++++P+t++fFe+F+dLst+d++  +a+v +Hg+kvl+ ++++l++ld +l+++++dL
+  sp|Q45XI9|HBD_ELEMA   3 NLTAAEKTQVTNLWGKV--NVKELGGEALSRLLVVYPWTRRFFEHFGDLSTADAVLHNAKVLAHGEKVLTSFGEGLKHLD-NLKGTFADL 89 
+                          79***************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv vla +++keft+dvqaa+eK++a va++la+kY+
+  sp|Q45XI9|HBD_ELEMA  90 SELHCDKLHVDPENFRLLGNVLVIVLARHFGKEFTPDVQAAYEKVVAGVANALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P02090|HBB_SPAEH  Hemoglobin subunit beta OS=Spalax ehrenbergi GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.2   0.5     1e-59   4.9e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.2 bits;  conditional E-value: 1e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek +v  +W+kv  +v+e G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P02090|HBB_SPAEH   1 VHLTDAEKAAVSGLWSKV--NVDEIGGEALGRLLVVYPWTQRFFDSFGDLSSPSAVMSNPKVKAHGKKVLNSFSEGLKHLD-NLKGTFSS 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v+vla++l+k+ft+++qaa++K++a va++la+kY+
+  sp|P02090|HBB_SPAEH  88 LSELHCDKLHVDPENFKLLGNVIVVVLAHHLGKDFTPAAQAAFQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02156|MYG_ERIEU  Myoglobin OS=Erinaceus europaeus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  197.0   0.7   1.2e-59   5.7e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 197.0 bits;  conditional E-value: 1.2e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+ ++G+++L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+ +l+k ++++ea+l++L+
+  sp|P02156|MYG_ERIEU   3 LSDGEWQLVLNVWGKVEADIPGHGQEVLIRLFKDHPETLEKFDKFKHLKSEDEMKSSEDLKKHGTTVLTALGGILKK-KGQHEAQLAPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl+++++++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P02156|MYG_ERIEU  92 QSHANKHKIPVKYLEFISEAIIQVLKSKHAGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02059|HBB_ERIEU  Hemoglobin subunit beta OS=Erinaceus europaeus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.9   0.1   1.2e-59     6e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.9 bits;  conditional E-value: 1.2e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek  v+ +W+kv  +vee G+++L rl++++P+tq+fF++F+dLs +d+++++++vk+Hg kvl+ ++d++++ld +l++++++
+  sp|P02059|HBB_ERIEU   1 VHLTAEEKALVTGLWGKV--KVEEFGGEALGRLLVVYPWTQRFFDSFGDLSSADAVMGNPKVKAHGAKVLQSMGDGIKNLD-NLKGTFSK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++k+ft+++qaa++K++a va++la+kY+
+  sp|P02059|HBB_ERIEU  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKDFTPAAQAAFQKVVAGVANALAAKYH 146
+                          **********************************************************7 PP
+
+>> sp|P63113|MYG_CANFA  Myoglobin OS=Canis familiaris GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.8   1.7   1.3e-59   6.1e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.8 bits;  conditional E-value: 1.3e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+d +++G+++L+rlfk +P+t+++F+kFk+L+tede+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P63113|MYG_CANFA   3 LSDGEWQIVLNIWGKVETDLAGHGQEVLIRLFKNHPETLDKFDKFKHLKTEDEMKGSEDLKKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl+++++++f ad +aa++K+l+l+++++a+kYk
+  sp|P63113|MYG_CANFA  92 QSHATKHKIPVKYLEFISDAIIQVLQSKHSGDFHADTEAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P63114|MYG_OTOME  Myoglobin OS=Otocyon megalotis GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.8   1.7   1.3e-59   6.1e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.8 bits;  conditional E-value: 1.3e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+d +++G+++L+rlfk +P+t+++F+kFk+L+tede+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P63114|MYG_OTOME   3 LSDGEWQIVLNIWGKVETDLAGHGQEVLIRLFKNHPETLDKFDKFKHLKTEDEMKGSEDLKKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl+++++++f ad +aa++K+l+l+++++a+kYk
+  sp|P63114|MYG_OTOME  92 QSHATKHKIPVKYLEFISDAIIQVLQSKHSGDFHADTEAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P01929|HBA_SAGFU  Hemoglobin subunit alpha OS=Saguinus fuscicollis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.8   0.8   1.3e-59   6.2e-57       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.8 bits;  conditional E-value: 1.3e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+a++d +++++l++L
+  sp|P01929|HBA_SAGFU   1 VLSPADKSNVKAAWGKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTVAVAHVD-DMPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01929|HBA_SAGFU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02067|HBB_PIG  Hemoglobin subunit beta OS=Sus scrofa GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.8   0.1   1.3e-59   6.4e-57       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.8 bits;  conditional E-value: 1.3e-59
+           globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                        v+Ls++ek++v+ +W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+ +sd+l++ld +l++++++Ls
+  sp|P02067|HBB_PIG   2 VHLSAEEKEAVLGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSNADAVMGNPKVKAHGKKVLQSFSDGLKHLD-NLKGTFAKLS 90 
+                        69****************..*************************************************************.********** PP
+
+           globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        elH+++l+vdp++f+ll++v+v+vla rl+++f ++vqaa++K++a va++la+kY+
+  sp|P02067|HBB_PIG  91 ELHCDQLHVDPENFRLLGNVIVVVLARRLGHDFNPNVQAAFQKVVAGVANALAHKYH 147
+                        ********************************************************7 PP
+
+>> sp|P01937|HBA_NYCCO  Hemoglobin subunit alpha OS=Nycticebus coucang GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.7   1.6   1.4e-59   6.9e-57       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.7 bits;  conditional E-value: 1.4e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+++++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl++a+ ++d +++++l++L
+  sp|P01937|HBA_NYCCO   1 VLSPADKTNVKAAWEKVGSHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTNAVSHVD-DMPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01937|HBA_NYCCO  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02152|MYG_CALJA  Myoglobin OS=Callithrix jacchus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.7   1.6   1.4e-59     7e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.7 bits;  conditional E-value: 1.4e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+ lfk +P+t+e+F+kFk+L+ ede+k+s+++kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02152|MYG_CALJA   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLISLFKGHPETLEKFDKFKHLKSEDEMKASEELKKHGVTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++v+vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02152|MYG_CALJA  92 QSHATKHKIPVKYLEFISDAIVHVLQKKHPGDFGADAQGAMKKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P21667|HBB_VARVI  Hemoglobin subunit beta OS=Varecia variegata GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.6   0.1   1.5e-59   7.2e-57       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.6 bits;  conditional E-value: 1.5e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++e ++v+++W+kv  +ve++G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl+A+s++l +ld +l++++++Ls
+  sp|P21667|HBB_VARVI   3 LTPEENNHVTSLWGKV--NVEKVGGEALGRLLVVYPWTQRFFESFGDLSSPDAIMGNPKVKAHGKKVLTAFSEGLHHLD-NLKGTFAQLS 89 
+                          99**************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv vla++++++f+++ qaa++K++  va++la+kY+
+  sp|P21667|HBB_VARVI  90 ELHCDKLHVDPQNFKLLGNVLVIVLAHHFGNDFSPQTQAAFQKVVTGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|B3EWC8|HBB_TAMMR  Hemoglobin subunit beta OS=Tamias merriami PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.6   0.8   1.5e-59   7.4e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.6 bits;  conditional E-value: 1.5e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v a+W+kv  + +e+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkv d +s++l++ld +l++++++
+  sp|B3EWC8|HBB_TAMMR   1 VHLTAEEKSAVAALWGKV--NTDEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMSNPKVKAHGKKVFDSFSNGLKHLD-NLKGTFAS 87 
+                          69****************..99***********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla++l+keft++vq+a++K++  va++la+kY+
+  sp|B3EWC8|HBB_TAMMR  88 LSELHCDKLHVDPENFKLLGNVLVVVLAHHLGKEFTPQVQSAFQKVVTGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P07412|HBB_FELCA  Hemoglobin subunit beta-A/B OS=Felis catus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.5   0.1   1.6e-59     8e-57       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.5 bits;  conditional E-value: 1.6e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++Ls
+  sp|P07412|HBB_FELCA   3 LTAEEKGLVNGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFESFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKLS 89 
+                          89**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla++++++f ++vqaa++K++a va++la+kY+
+  sp|P07412|HBB_FELCA  90 ELHCDKLHVDPENFRLLGNVLVCVLAHHFGHDFNPQVQAAFQKVVAGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|P08853|HBB_MARMA  Hemoglobin subunit beta OS=Marmota marmota marmota GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.4   0.7   1.7e-59   8.4e-57       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.4 bits;  conditional E-value: 1.7e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls++ek+++ ++W+kv  ++++ Ga++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkv+d +s++l++ld +l++++++
+  sp|P08853|HBB_MARMA   1 VHLSDGEKNAISTAWGKV--NAADIGAEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNAKVKAHGKKVIDSFSNGLKHLD-NLKGTFAS 87 
+                          69****************..999**********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v v+a++l+k+ft+++qaa++K++a va++la+kY+
+  sp|P08853|HBB_MARMA  88 LSELHCDKLHVDPENFKLLGNMIVIVMAHHLGKDFTPEAQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02196|MYG_ORNAN  Myoglobin OS=Ornithorhynchus anatinus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.2   1.1     2e-59   9.6e-57       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.2 bits;  conditional E-value: 2e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kve d  ++G+++L+rlfk++P+t+e+F+kFk+L+tede+k+sad+kkHg +vl+Al+++l+k ++++ea+lk+L+
+  sp|P02196|MYG_ORNAN   3 LSDGEWQLVLKVWGKVEGDLPGHGQEVLIRLFKTHPETLEKFDKFKGLKTEDEMKASADLKKHGGTVLTALGNILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+ +k+++ +se++++vl+++++++f+ad+qaa+ K+l+l+++++a+kYk
+  sp|P02196|MYG_ORNAN  92 QSHATKHKISIKFLEYISEAIIHVLQSKHSADFGADAQAAMGKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02195|MYG_TACAC  Myoglobin OS=Tachyglossus aculeatus aculeatus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.1   3.0   2.1e-59     1e-56       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.1 bits;  conditional E-value: 2.1e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kve+d+ ++G+d+L+rlfk++P+t+e+F+kFk+L+tede+k+sad+kkHg  vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02195|MYG_TACAC   3 LSDGEWQLVLKVWGKVETDITGHGQDVLIRLFKTHPETLEKFDKFKHLKTEDEMKASADLKKHGGVVLTALGSILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+ +k+++++se++++vl+++++++f+ad+qaa+ K+l+l+++++a+kYk
+  sp|P02195|MYG_TACAC  92 QSHATKHKISIKFLEFISEAIIHVLQSKHSADFGADAQAAMGKALELFRNDMATKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02159|MYG_LYCPI  Myoglobin OS=Lycaon pictus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.0   1.7   2.3e-59   1.1e-56       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.0 bits;  conditional E-value: 2.3e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+d +++G+++L+rlfk +P+t+++F+kFk+L+tede+k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02159|MYG_LYCPI   3 LSDGEWQIVLNIWGKVETDLAGHGQEVLIRLFKNHPETLDKFDKFKHLKTEDEMKGSEDLKKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl+++++++f ad +aa++K+l+l+++++a+kYk
+  sp|P02159|MYG_LYCPI  92 QSHATKHKIPVKYLEFISDAIIQVLQNKHSGDFHADTEAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P67819|HBB_BOSGF  Hemoglobin subunit beta OS=Bos gaurus frontalis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.0   0.5   2.3e-59   1.1e-56       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.0 bits;  conditional E-value: 2.3e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P67819|HBB_BOSGF   2 LTAEEKAAVTAFWGKV--HVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSNGMKHLD-DLKGTFAALS 88 
+                          99**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla +++keft+  qa ++K++a va++la++Y+
+  sp|P67819|HBB_BOSGF  89 ELHCDKLHVDPENFKLLGNVLVVVLARHFGKEFTPVLQADFQKVVAGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P67820|HBB_BUBBU  Hemoglobin subunit beta OS=Bubalus bubalis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  196.0   0.5   2.3e-59   1.1e-56       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 196.0 bits;  conditional E-value: 2.3e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P67820|HBB_BUBBU   2 LTAEEKAAVTAFWGKV--HVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSNGMKHLD-DLKGTFAALS 88 
+                          99**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla +++keft+  qa ++K++a va++la++Y+
+  sp|P67820|HBB_BUBBU  89 ELHCDKLHVDPENFKLLGNVLVVVLARHFGKEFTPVLQADFQKVVAGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P04249|MYG_PROGU  Myoglobin OS=Proechimys guairae GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.9   0.3   2.4e-59   1.2e-56       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.9 bits;  conditional E-value: 2.4e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kve d  ++G+++L+rlfk +P+t+e+F+kFk+L++ede+++s+++kkHg +vl+Al+ +l+k ++++ a+l++L+
+  sp|P04249|MYG_PROGU   3 LSDGEWQLVLNVWGKVEGDLSGHGQEVLIRLFKGHPETLEKFDKFKHLKAEDEMRASEELKKHGTTVLTALGGILKK-KGQHAAELAPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++++p++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P04249|MYG_PROGU  92 QSHATKHKIPVKYLEFISEAIIQVLQSKHPGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P63107|HBA_MACFU  Hemoglobin subunit alpha OS=Macaca fuscata fuscata GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.7   0.6   2.8e-59   1.4e-56       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.7 bits;  conditional E-value: 2.8e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P63107|HBA_MACFU   2 VLSPADKSNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P63107|HBA_MACFU  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P63108|HBA_MACMU  Hemoglobin subunit alpha OS=Macaca mulatta GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.7   0.6   2.8e-59   1.4e-56       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.7 bits;  conditional E-value: 2.8e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P63108|HBA_MACMU   2 VLSPADKSNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPNALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P63108|HBA_MACMU  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P04245|HBB_TRAST  Hemoglobin subunit beta OS=Tragelaphus strepsiceros GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.7   0.3   2.9e-59   1.4e-56       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.7 bits;  conditional E-value: 2.9e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P04245|HBB_TRAST   2 LTAEEKAAVTAFWGKV--KVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSNGMKHLD-DLKGTFAALS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla +++keft++ qa ++K++  va++la++Y+
+  sp|P04245|HBB_TRAST  89 ELHCDKLHVDPENFKLLGNVLVVVLARHFGKEFTPELQADYQKVVTGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P02085|HBB_LOXAF  Hemoglobin subunit beta OS=Loxodonta africana GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.6   0.4     3e-59   1.5e-56       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.6 bits;  conditional E-value: 3e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++aekt+v+++W+kv  +v+e G+++L rl++++P+t++fFe+F+dLst++++  +a+v +Hg+kvl+ ++++l++ld +l+++++dL
+  sp|P02085|HBB_LOXAF   2 NLTAAEKTQVTNLWGKV--NVKELGGEALSRLLVVYPWTRRFFEHFGDLSTAEAVLHNAKVLAHGEKVLTSFGEGLKHLD-NLKGTFADL 88 
+                          79***************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv vla +++keft+dvqaa+eK++a va++la+kY+
+  sp|P02085|HBB_LOXAF  89 SELHCDKLHVDPENFRLLGNVLVIVLARHFGKEFTPDVQAAYEKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|Q45XJ0|HBD_LOXAF  Hemoglobin subunit delta OS=Loxodonta africana GN=HBD PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.6   0.4   3.1e-59   1.5e-56       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.6 bits;  conditional E-value: 3.1e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++aekt+v+++W+kv  +v+e G+++L rl++++P+t++fFe+F+dLst++++  +a+v +Hg+kvl+ ++++l++ld +l+++++dL
+  sp|Q45XJ0|HBD_LOXAF   3 NLTAAEKTQVTNLWGKV--NVKELGGEALSRLLVVYPWTRRFFEHFGDLSTAEAVLHNAKVLAHGEKVLTSFGEGLKHLD-NLKGTFADL 89 
+                          79***************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv vla +++keft+dvqaa+eK++a va++la+kY+
+  sp|Q45XJ0|HBD_LOXAF  90 SELHCDKLHVDPENFRLLGNVLVIVLARHFGKEFTPDVQAAYEKVVAGVANALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P41328|HBB_LYNLY  Hemoglobin subunit beta OS=Lynx lynx GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.4   0.1   3.4e-59   1.7e-56       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.4 bits;  conditional E-value: 3.4e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++ +vk+Hgkkvl+ +sd+l+++d +l++++++Ls
+  sp|P41328|HBB_LYNLY   3 LTAEEKGLVNGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMGNSKVKAHGKKVLNSFSDGLKNID-DLKGAFAKLS 89 
+                          89**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va++la+kY+
+  sp|P41328|HBB_LYNLY  90 ELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|P07410|HBB_SPETO  Hemoglobin subunit beta-S/F OS=Spermophilus townsendii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.3   0.7   3.7e-59   1.8e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.3 bits;  conditional E-value: 3.7e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+++ ++W+kv  +++e Ga++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkv+d +s++l++ld +l++++++
+  sp|P07410|HBB_SPETO   1 VHLTDGEKNAISTAWGKV--NAAEIGAEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNAKVKAHGKKVIDSFSNGLKHLD-NLKGTFAS 87 
+                          69****************..99***********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v v+a++l+k+ft+++qaa++K++a va++l++kY+
+  sp|P07410|HBB_SPETO  88 LSELHCDKLHVDPENFKLLGNMIVIVMAHHLGKDFTPEAQAAFQKVVAGVANALSHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P20855|HBB_CTEGU  Hemoglobin subunit beta OS=Ctenodactylus gundi GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.3   0.1   3.9e-59   1.9e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.3 bits;  conditional E-value: 3.9e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls++ek +v+ +W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs +++++++++vk+Hgkkvl+ +s++l +ld +l++++++
+  sp|P20855|HBB_CTEGU   1 VHLSAEEKAAVTGLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSAAAVMGNPKVKAHGKKVLTSFSEGLSHLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++++v +la++++ ef+++ qaa++K++a va++la+kY+
+  sp|P20855|HBB_CTEGU  88 LSELHCDKLHVDPENFRLLGNMIVITLAHHYGPEFGPQTQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02088|HBB1_MOUSE  Hemoglobin subunit beta-1 OS=Mus musculus GN=Hbb-b1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.2   0.2   4.1e-59     2e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.2 bits;  conditional E-value: 4.1e-59
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L++aek +v  +W+kv  + +e+G+++L rl++++P+tq++F++F+dLs + +++++a+vk+Hgkkv++A++d+l++ld  l+++++
+  sp|P02088|HBB1_MOUSE   2 VHLTDAEKAAVSCLWGKV--NSDEVGGEALGRLLVVYPWTQRYFDSFGDLSSASAIMGNAKVKAHGKKVITAFNDGLNHLD-SLKGTFA 87 
+                           69****************..889**********************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++f+ll++++v vl ++l+k+ft+++qaa++K++a va++la+kY+
+  sp|P02088|HBB1_MOUSE  88 SLSELHCDKLHVDPENFRLLGNMIVIVLGHHLGKDFTPAAQAAFQKVVAGVATALAHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|P21767|HBA_MACFA  Hemoglobin subunit alpha-A/Q/R/T OS=Macaca fascicularis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.2   0.6   4.1e-59     2e-56       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.2 bits;  conditional E-value: 4.1e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P21767|HBA_MACFA   1 VLSPADKTNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPQALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P21767|HBA_MACFA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02153|MYG_CEBAP  Myoglobin OS=Cebus apella GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.1   1.4   4.2e-59   2.1e-56       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.1 bits;  conditional E-value: 4.2e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead+  +G+++L+ lfk +P+t+e+F+kFk+L+ ede+k+s+++kkHg +vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02153|MYG_CEBAP   3 LSDGEWQLVLNVWGKVEADIPSHGQEVLISLFKGHPETLEKFDKFKHLKSEDEMKASEELKKHGATVLTALGGILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++v+vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02153|MYG_CEBAP  92 QSHATKHKIPVKYLEFISDAIVHVLQKKHPGDFGADAQGAMKKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02155|MYG_SAISC  Myoglobin OS=Saimiri sciureus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  195.1   1.1   4.5e-59   2.2e-56       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 195.1 bits;  conditional E-value: 4.5e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kvead+  +G+++L+ lfk +P+t+e+F+kFk+L+ ede+k+s+++kkHg +vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02155|MYG_SAISC   3 LSDGEWQLVLNIWGKVEADIPSHGQEVLISLFKGHPETLEKFDKFKHLKSEDEMKASEELKKHGTTVLTALGGILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++l+s+++v+vl++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02155|MYG_SAISC  92 QSHATKHKIPVKYLELISDAIVHVLQKKHPGDFGADAQGAMKKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02066|HBB_CERSI  Hemoglobin subunit beta OS=Ceratotherium simum GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.9   0.8   4.9e-59   2.4e-56       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.9 bits;  conditional E-value: 4.9e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+++ek +v+a+W kv  + +e+G+++L rl++++P+tq+fF++F+dLst+++++++a+vk+Hgkkvl+ ++d++ +ld +l++++++L
+  sp|P02066|HBB_CERSI   2 ELTAEEKAAVLALWDKV--KEDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPAAVMGNAKVKAHGKKVLHSFGDGVHHLD-NLKGTFAAL 88 
+                          79***************..999**********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla++++k+ft++ qaa++K++a va++la+kY+
+  sp|P02066|HBB_CERSI  89 SELHCDKLHVDPENFRLLGNVLVVVLAKHFGKQFTPELQAAYQKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|P11752|HBB_MEGLY  Hemoglobin subunit beta OS=Megaderma lyra GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.7   0.0   5.8e-59   2.8e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.7 bits;  conditional E-value: 5.8e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ekt+v  +W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgkkvl+ +s++l++ld +l++++++
+  sp|P11752|HBB_MEGLY   1 VHLTNEEKTAVIGLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSSPSAIMGNPKVKAHGKKVLNSFSEGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll+ +l++vla +++keft++vqaa++K++a va++la+kY+
+  sp|P11752|HBB_MEGLY  88 LSELHCDKLHVDPENFRLLGYILLCVLARHFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P21766|HBA_MACAS  Hemoglobin subunit alpha-1/2/3 OS=Macaca assamensis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.7   0.7   5.9e-59   2.9e-56       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.7 bits;  conditional E-value: 5.9e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++ +l++L
+  sp|P21766|HBA_MACAS   1 VLSPADKTNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPHALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P21766|HBA_MACAS  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02060|HBB_SUNMU  Hemoglobin subunit beta OS=Suncus murinus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.7   0.1     6e-59   2.9e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.7 bits;  conditional E-value: 6e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek  v+ +W+kv  + +e+Ga++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl+ l++++a+ld +l++++++
+  sp|P02060|HBB_SUNMU   1 VHLSGEEKACVTGLWGKV--NEDEVGAEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNPKVKAHGKKVLHSLGEGVANLD-NLKGTFAK 87 
+                          69****************..99***********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|P02060|HBB_SUNMU  88 LSELHCDKLHVDPENFRLLGNVLVVVLASKFGKEFTPPVQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P04244|HBB_PANPO  Hemoglobin subunit beta OS=Panthera pardus orientalis GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.6   0.1   6.1e-59   2.9e-56       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.6 bits;  conditional E-value: 6.1e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++ek+ v  +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++Ls
+  sp|P04244|HBB_PANPO   4 LSAEEKNLVSGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKLS 90 
+                          9***************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P04244|HBB_PANPO  91 ELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 147
+                          ********************************************************7 PP
+
+>> sp|P04346|HBBA_BOSJA  Hemoglobin subunit beta-A OS=Bos javanicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.6   0.4   6.1e-59     3e-56       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.6 bits;  conditional E-value: 6.1e-59
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvld +sd++++ld +l++++++L
+  sp|P04346|HBBA_BOSJA   2 LTAEEKAAVTAFWGKV--HVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSDGMKHLD-DLKGTFAAL 87 
+                           99**************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++fkll++vlv+vla +++keft+  qa ++K++a va++la++Y+
+  sp|P04346|HBBA_BOSJA  88 SELHCDKLHVDPENFKLLGNVLVVVLARNFGKEFTPVLQADFQKVVAGVANALAHRYH 145
+                           *********************************************************7 PP
+
+>> sp|P02089|HBB2_MOUSE  Hemoglobin subunit beta-2 OS=Mus musculus GN=Hbb-b2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.5   0.1   6.7e-59   3.3e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.5 bits;  conditional E-value: 6.7e-59
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L++aek++v  +Wakv  + +e+G+++L rl++++P+tq++F++F+dLs + +++++++vk+Hgkkv++A++++l++ld +l+++++
+  sp|P02089|HBB2_MOUSE   2 VHLTDAEKSAVSCLWAKV--NPDEVGGEALGRLLVVYPWTQRYFDSFGDLSSASAIMGNPKVKAHGKKVITAFNEGLKNLD-NLKGTFA 87 
+                           69****************..99***********************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++f+ll++++v vl ++l+k+ft+++qaa++K++a va++la+kY+
+  sp|P02089|HBB2_MOUSE  88 SLSELHCDKLHVDPENFRLLGNAIVIVLGHHLGKDFTPAAQAAFQKVVAGVATALAHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|Q45XH3|HBE_BRATR  Hemoglobin subunit epsilon OS=Bradypus tridactylus GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.5   0.3   6.7e-59   3.3e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.5 bits;  conditional E-value: 6.7e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v ++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|Q45XH3|HBE_BRATR   2 VHFTAEEKATVASLWGKV--NVEEAGGEVLGRLLVVYPWTQRFFDNFGNLSSSSAIMGNPKVKAHGKKVLTSFGDAVKHMD-DLKGTFAH 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v+vla++++keft++vqaa +Kl+  va++la+kY+
+  sp|Q45XH3|HBE_BRATR  89 LSELHCDKLHVDPENFRLLGNVMVVVLASHFGKEFTPEVQAAWQKLVGGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01926|HBA_CHLAE  Hemoglobin subunit alpha OS=Chlorocebus aethiops GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.5   0.8   6.9e-59   3.3e-56       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.5 bits;  conditional E-value: 6.9e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++ +l++L
+  sp|P01926|HBA_CHLAE   2 VLSPADKSNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPHALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P01926|HBA_CHLAE  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q7M2Y5|HBB2_CHAMP  Hemoglobin subunit beta-2 OS=Chalinolobus morio GN=HBB2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.3   0.1   7.4e-59   3.6e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.3 bits;  conditional E-value: 7.4e-59
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L+ +ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkvl+A++++l++ld +l+++++
+  sp|Q7M2Y5|HBB2_CHAMP   2 VHLTGEEKAAVTGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSNAGAVMGNAKVKAHGKKVLNAFGEGLKNLD-NLKGTFA 87 
+                           689***************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++f+ll++vlv+vla +++k+ft++vqaa++Kl   va++la+kY+
+  sp|Q7M2Y5|HBB2_CHAMP  88 KLSELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPPVQAAFQKLALGVATALAHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|P19002|HBA_MACNE  Hemoglobin subunit alpha-1/2/3 OS=Macaca nemestrina PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.2   0.5   8.2e-59     4e-56       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.2 bits;  conditional E-value: 8.2e-59
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P19002|HBA_MACNE   1 VLSPADKTNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVDHVD-DMPQALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v ++l+skY+
+  sp|P19002|HBA_MACNE  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVGTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18988|HBB2_PANLE  Hemoglobin subunit beta-2 OS=Panthera leo GN=HBB2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.1   0.1   8.7e-59   4.2e-56       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.1 bits;  conditional E-value: 8.7e-59
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P18988|HBB2_PANLE   3 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 88 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la+kY+
+  sp|P18988|HBB2_PANLE  89 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHKYH 146
+                           *********************************************************7 PP
+
+>> sp|P11517|HBB2_RAT  Hemoglobin subunit beta-2 OS=Rattus norvegicus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.0   0.2   9.6e-59   4.7e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.0 bits;  conditional E-value: 9.6e-59
+            globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                         v+L++aek +v  +W+kv  +++++Ga++L rl++++P+tq++F kF+dLs + +++++++vk+Hgkkv++A++d+l++ld +l++++++L
+  sp|P11517|HBB2_RAT   2 VHLTDAEKATVSGLWGKV--NADNVGAEALGRLLVVYPWTQRYFSKFGDLSSASAIMGNPQVKAHGKKVINAFNDGLKHLD-NLKGTFAHL 89 
+                         69****************..999**********************************************************.********* PP
+
+            globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                         selH++kl+vdp++f+ll++++v vl ++l+keft+ +qaa++K++a va +la+kY+
+  sp|P11517|HBB2_RAT  90 SELHCDKLHVDPENFRLLGNMIVIVLGHHLGKEFTPCAQAAFQKVVAGVASALAHKYH 147
+                         *********************************************************7 PP
+
+>> sp|P07415|HBB_TRIIN  Hemoglobin subunit beta OS=Trichechus inunguis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.0   0.1   9.6e-59   4.6e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.0 bits;  conditional E-value: 9.6e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek  v  +Wakv  +v+e+G+++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hg+kv + ++d+l++l+ +l++++++
+  sp|P07415|HBB_TRIIN   1 VHLTPEEKALVIGLWAKV--NVKEYGGEALGRLLVVYPWTQRFFEHFGDLSSASAIMNNPKVKAHGEKVFTSFGDGLKHLE-DLKGAFAE 87 
+                          69****************..***********************************************************98.9******* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++kef++++qaa++K++a va++la+kY+
+  sp|P07415|HBB_TRIIN  88 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFSPEAQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P30562|MYG_PHOSI  Myoglobin OS=Phoca sibirica GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.0   1.6   9.7e-59   4.7e-56       3     148 ..       3     147 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.0 bits;  conditional E-value: 9.7e-59
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+  v++vW+k e+d +++G+++L+rlfks+P+t+e+F+kFk+L+ ed+++ s d++kHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P30562|MYG_PHOSI   3 LSDGEWHLVLNVWGKWETDLAGHGQEVLIRLFKSHPETLEKFDKFKHLKSEDDMRRSFDLRKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                          ++Ha+k+k+++ky++++se++++vl++++p+ef+ad+qaa++K+l+l+++++a+k 
+  sp|P30562|MYG_PHOSI  92 QSHATKHKIPIKYLEFISEAIIHVLHSKHPAEFGADAQAAMKKALELFRNDIAAKI 147
+                          *****************************************************995 PP
+
+>> sp|Q45XI8|HBD_TRIMA  Hemoglobin subunit delta OS=Trichechus manatus GN=HBD PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  194.0   0.1   9.8e-59   4.8e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 194.0 bits;  conditional E-value: 9.8e-59
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek  v  +Wakv  +v+e+G+++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hg+kv + ++d+l++l+ +l++++++
+  sp|Q45XI8|HBD_TRIMA   2 VHLTPEEKALVIGLWAKV--NVKEYGGEALGRLLVVYPWTQRFFEHFGDLSSASAIMNNPKVKAHGEKVFTSFGDGLKHLE-DLKGAFAE 88 
+                          69****************..***********************************************************98.9******* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++kef++++qaa++K++a va++la+kY+
+  sp|Q45XI8|HBD_TRIMA  89 LSELHCDKLHVDPENFRLLGNVLVCVLARHFGKEFSPEAQAAYQKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P21768|HBA_MACSI  Hemoglobin subunit alpha-1/2 OS=Macaca sinica PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.9   0.5     1e-58   4.9e-56       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.9 bits;  conditional E-value: 1e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk +W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P21768|HBA_MACSI   1 VLSPADKTNVKDAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPQALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P21768|HBA_MACSI  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P09840|HBB_MACCA  Hemoglobin subunit beta OS=Macrotus californicus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.7   0.1   1.1e-58   5.5e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.7 bits;  conditional E-value: 1.1e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek++v a+W+kv  +vee G+++L rl++++P+tq+fF++F+dLs + ++ ++a+vk Hgkkvld +s+++++ld +l++++++
+  sp|P09840|HBB_MACCA   1 VHLTGEEKSTVSALWGKV--NVEEIGGEALGRLLVVYPWTQRFFDSFGDLSSPSAVFGNAKVKSHGKKVLDSFSNGMQHLD-NLKGTFAK 87 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++a va++la+kY+
+  sp|P09840|HBB_MACCA  88 LSELHCDKLHVDPENFRLLGNVLVVVLARNFGKEFTPQVQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q862A7|HBA_PIPAB  Hemoglobin subunit alpha OS=Pipistrellus abramus GN=HBA PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.7   0.6   1.2e-58   5.7e-56       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.7 bits;  conditional E-value: 1.2e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a+ ++d +l+++l++L
+  sp|Q862A7|HBA_PIPAB   2 VLSPADKTNVKAAWDKVGGHAGDYGAEALERMFLSFPTTKTYFPHFSDLS-----HGSAQVKAHGKKVGDALNNAVGHMD-DLPTALSAL 85 
+                          8*************************************************.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+la v+++l skY+
+  sp|Q862A7|HBA_PIPAB  86 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFLANVSTVLVSKYR 143
+                          *********************************************************7 PP
+
+>> sp|B2KHZ4|HBB_RHIFE  Hemoglobin subunit beta OS=Rhinolophus ferrumequinum GN=HBB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.6   0.0   1.3e-58   6.2e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.6 bits;  conditional E-value: 1.3e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +++++++a+vk+Hgkkvld +s++l++ld +l++++++
+  sp|B2KHZ4|HBB_RHIFE   2 VHLTGEEKGIVTGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSAAAVMGNAKVKAHGKKVLDSFSEGLKNLD-NLKGTFAK 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++vqaa++K++  va++la+kY+
+  sp|B2KHZ4|HBB_RHIFE  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNFGKEFTPQVQAAYQKVVVGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01930|HBA_PILBA  Hemoglobin subunit alpha OS=Piliocolobus badius GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.6   0.7   1.3e-58   6.3e-56       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.6 bits;  conditional E-value: 1.3e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W+kv+ + +e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a a++d +++++l++L
+  sp|P01930|HBA_PILBA   2 VLSPADKTNVKTAWGKVGGHGGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAAAHVD-DMPSALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P01930|HBA_PILBA  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P81042|HBE_MACEU  Hemoglobin subunit epsilon OS=Macropus eugenii GN=HBE1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.5   0.5   1.3e-58   6.4e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.5 bits;  conditional E-value: 1.3e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ekt++++vW+kv  +vee+G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ l++a+++ld +l+a++++
+  sp|P81042|HBE_MACEU   2 VHFTAEEKTAITSVWGKV--NVEETGGEALGRLLVVYPWTQRFFDSFGNLSSASAILGNPKVKAHGKKVLTSLGEAVKNLD-NLKATFSK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft++v+aa +Kl+a va +la+kY+
+  sp|P81042|HBE_MACEU  89 LSELHCDKLHVDPENFRLLGNVLVVVLAVHFGKEFTPEVHAAWQKLVAGVASALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68230|HBB_CAMBA  Hemoglobin subunit beta OS=Camelus bactrianus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.5   0.1   1.3e-58   6.5e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.5 bits;  conditional E-value: 1.3e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek++v+ +W+kv  +v+e+G+++L rl++++P+t++fFe+F+dLst+d+++++++vk+Hg kvl+ ++d+l++ld +l++++++
+  sp|P68230|HBB_CAMBA   2 VHLSGDEKNAVHGLWSKV--KVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLNHLD-NLKGTYAK 88 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft+d qaa++K++a va++la++Y+
+  sp|P68230|HBB_CAMBA  89 LSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 147
+                          **********************************************************7 PP
+
+>> sp|P68231|HBB_CAMDR  Hemoglobin subunit beta OS=Camelus dromedarius GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.5   0.1   1.3e-58   6.5e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.5 bits;  conditional E-value: 1.3e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek++v+ +W+kv  +v+e+G+++L rl++++P+t++fFe+F+dLst+d+++++++vk+Hg kvl+ ++d+l++ld +l++++++
+  sp|P68231|HBB_CAMDR   2 VHLSGDEKNAVHGLWSKV--KVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLNHLD-NLKGTYAK 88 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +++keft+d qaa++K++a va++la++Y+
+  sp|P68231|HBB_CAMDR  89 LSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 147
+                          **********************************************************7 PP
+
+>> sp|P02154|MYG_LAGLA  Myoglobin OS=Lagothrix lagotricha GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.5   1.1   1.3e-58   6.5e-56       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.5 bits;  conditional E-value: 1.3e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kvead+  +G+++L+ lfk +P+t+e+F+kFk+L+ ede+k+s+++kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P02154|MYG_LAGLA   3 LSDGEWQLVLNIWGKVEADIPSHGQEVLISLFKGHPETLEKFDKFKHLKSEDEMKASEELKKHGVTVLTALGGILKK-KGQHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++ l++++p++f+ad+q+a++K+l+l+++++a+kYk
+  sp|P02154|MYG_LAGLA  92 QSHATKHKIPVKYLEFISDAIIHALQKKHPGDFGADAQGAMKKALELFRNDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P01938|HBA_LORTA  Hemoglobin subunit alpha OS=Loris tardigradus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.5   1.2   1.3e-58   6.5e-56       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.5 bits;  conditional E-value: 1.3e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P01938|HBA_LORTA   1 VLSPADKTNVKTAWEKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTTAVSHVD-DMPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01938|HBA_LORTA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68064|HBB2_PANON  Hemoglobin subunit beta-2 OS=Panthera onca GN=HBB2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.5   0.1   1.4e-58   6.7e-56       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.5 bits;  conditional E-value: 1.4e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68064|HBB2_PANON   4 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 89 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a vak+la++Y+
+  sp|P68064|HBB2_PANON  90 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVAKALAHRYH 147
+                           *********************************************************7 PP
+
+>> sp|P68087|HBB1_CHAMP  Hemoglobin subunit beta-1 OS=Chalinolobus morio GN=HBB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.4   0.1   1.5e-58   7.2e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.4 bits;  conditional E-value: 1.5e-58
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L+ +ek +v+ +W+kv  +vee+G+++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkvl+ ++++l++ld +l+++++
+  sp|P68087|HBB1_CHAMP   2 VHLTGEEKAAVTGLWGKV--NVEEVGGEALGRLLVVYPWTQRFFDSFGDLSNAGAVMGNAKVKAHGKKVLNSFGEGLKNLD-NLKGTFA 87 
+                           689***************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++f+ll++vlv+vla +++k+ft++vqaa++Kl + va++la+kY+
+  sp|P68087|HBB1_CHAMP  88 KLSELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPPVQAAFQKLAQGVATALAHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|P09907|HBB_RHIUN  Hemoglobin subunit beta OS=Rhinoceros unicornis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.4   0.2   1.5e-58   7.3e-56       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.4 bits;  conditional E-value: 1.5e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+++ek +v+a+W+kv  + +e+G+++L rl++++P+tq+fF++F+dLst++++ ++a+vk+Hgkkvl+ ++d++ +ld +l++++++L
+  sp|P09907|HBB_RHIUN   2 DLTAEEKAAVLALWGKV--NEDEVGGEALGRLLVVYPWTQRFFDSFGDLSTPAAVLGNAKVKAHGKKVLHSFGDGVHNLD-NLKGTYAAL 88 
+                          69***************..99***********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla+++++eft++ qaa++K++a va++la+kY+
+  sp|P09907|HBB_RHIUN  89 SELHCDKLHVDPENFRLLGNVLVVVLAQHFGQEFTPELQAAYQKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|Q28338|HBE_CHEME  Hemoglobin subunit epsilon OS=Cheirogaleus medius GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.3   0.3   1.5e-58   7.4e-56       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.3 bits;  conditional E-value: 1.5e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek++++++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ +++a++++d +l++++++
+  sp|Q28338|HBE_CHEME   2 VHFTAEEKSTILSLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSFGEAVKNMD-NLKGAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft+dvqaa +Kl++ va++la+kY+
+  sp|Q28338|HBE_CHEME  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPDVQAAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02070|HBB_BOVIN  Hemoglobin subunit beta OS=Bos taurus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.2   0.3   1.7e-58   8.4e-56       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.2 bits;  conditional E-value: 1.7e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLst+d+++++++vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P02070|HBB_BOVIN   2 LTAEEKAAVTAFWGKV--KVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSNGMKHLD-DLKGTFAALS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla +++keft+  qa ++K++a va++la++Y+
+  sp|P02070|HBB_BOVIN  89 ELHCDKLHVDPENFKLLGNVLVVVLARNFGKEFTPVLQADFQKVVAGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P11756|HBB_TADBR  Hemoglobin subunit beta OS=Tadarida brasiliensis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.1   0.1   1.8e-58   8.6e-56       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.1 bits;  conditional E-value: 1.8e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek +v+a+W+kv  + ee+G+++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P11756|HBB_TADBR   1 VHLSGEEKGAVTALWGKV--NQEEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAVMGNAKVKAHGKKVLNSFSDGLKNLD-NLKGAFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv+vla  ++keft++vq+a++K+ a va++la+kY+
+  sp|P11756|HBB_TADBR  88 LSELHCDKLHVDPENFKLLGNVLVVVLARTFGKEFTPPVQSAFQKVAAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P01935|HBA3_PANTR  Hemoglobin subunit alpha-3 OS=Pan troglodytes PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  193.1   0.9   1.8e-58   8.8e-56       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 193.1 bits;  conditional E-value: 1.8e-58
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vka+W+kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv++Als+a+++ld +++++l++
+  sp|P01935|HBA3_PANTR   1 VLSPADKTNVKAAWGKVGAHAGZYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAZVKGHGKKVAKALSBAVZHLD-DMPNALSA 82 
+                           69********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+v+p +fkll ++l+++laa +p++ft++v+a+++K+la+v+++l+skY+
+  sp|P01935|HBA3_PANTR  83 LSBLHAHKLRVBPVBFKLLNHCLLVTLAABFPSZFTPAVHASVDKFLASVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P02091|HBB1_RAT  Hemoglobin subunit beta-1 OS=Rattus norvegicus GN=Hbb PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.9   0.1   2.1e-58     1e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.9 bits;  conditional E-value: 2.1e-58
+            globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                         v+L++aek +v+ +W+kv  + +++G+++L rl++++P+tq++F++F+dLs + +++++++vk+Hgkkv++A++d+l++ld +l++++++L
+  sp|P02091|HBB1_RAT   2 VHLTDAEKAAVNGLWGKV--NPDDVGGEALGRLLVVYPWTQRYFDSFGDLSSASAIMGNPKVKAHGKKVINAFNDGLKHLD-NLKGTFAHL 89 
+                         69****************..99***********************************************************.********* PP
+
+            globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                         selH++kl+vdp++f+ll++++v vl ++l+keft+ +qaa++K++a va +la+kY+
+  sp|P02091|HBB1_RAT  90 SELHCDKLHVDPENFRLLGNMIVIVLGHHLGKEFTPCAQAAFQKVVAGVASALAHKYH 147
+                         *********************************************************7 PP
+
+>> sp|P02086|HBB_PROHA  Hemoglobin subunit beta OS=Procavia capensis habessinica GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.8   0.3   2.2e-58   1.1e-55       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.8 bits;  conditional E-value: 2.2e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++ +++v +Hgkkvl  ++d+l++ld +l++++++
+  sp|P02086|HBB_PROHA   1 VHLTDAEKAAVTGLWGKV--KVDEYGGEALGRLLVVYPWTQRFFEHFGDLSNADAIMHNPKVLAHGKKVLSSFGDGLNHLD-NLKGTFAQ 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla ++ +eft+dvqaa++K++  va++la+kY+
+  sp|P02086|HBB_PROHA  88 LSELHCDKLHVDPENFRLLGNVLVVVLARHFHEEFTPDVQAAFQKVVTGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02194|MYG_MACRU  Myoglobin OS=Macropus rufus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.8   1.9   2.2e-58   1.1e-55       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.8 bits;  conditional E-value: 2.2e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v+++W+kve+d +++G+d+L+rlfk +P+t+e+F+kFk+L+ ede+k+s+d+kkHg +vl+Al+++l+k ++++ea+lk+L+
+  sp|P02194|MYG_MACRU   3 LSDGEWQLVLNIWGKVETDEGGHGKDVLIRLFKGHPETLEKFDKFKHLKSEDEMKASEDLKKHGITVLTALGNILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++++++++s+++++v++++++++f+ad+qaa++K+l+l+++++a+kYk
+  sp|P02194|MYG_MACRU  92 QSHATKHKIPVQFLEFISDAIIQVIQSKHAGNFGADAQAAMKKALELFRHDMAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q28356|HBE_DAUMA  Hemoglobin subunit epsilon OS=Daubentonia madagascariensis GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.7   0.2   2.3e-58   1.1e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.7 bits;  conditional E-value: 2.3e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek ++ ++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|Q28356|HBE_DAUMA   2 VHFTAEEKATIMSLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSASAIMGNPKVKAHGKKVLTSFGDAVKNMD-NLKGAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft+dvqaa +Kl++ va++la+kY+
+  sp|Q28356|HBE_DAUMA  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPDVQAAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q95238|HBE_PROVE  Hemoglobin subunit epsilon OS=Propithecus verreauxi GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.7   0.2   2.4e-58   1.2e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.7 bits;  conditional E-value: 2.4e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek+++++vW+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ +++a++++d +l++++++
+  sp|Q95238|HBE_PROVE   2 VHFTAEEKSTILSVWGKV--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAIMGNPKVKAHGKKVLTSFGEAVKNMD-NLKGAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v +la++++keft+dvqaa +Kl++ va++la+kY+
+  sp|Q95238|HBE_PROVE  89 LSELHCDKLHVDPENFKLLGNAMVIILATHFGKEFTPDVQAAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68050|HBB1_PANLE  Hemoglobin subunit beta-1 OS=Panthera leo GN=HBB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.5   0.1   2.8e-58   1.4e-55       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.5 bits;  conditional E-value: 2.8e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68050|HBB1_PANLE   3 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 88 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P68050|HBB1_PANLE  89 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 146
+                           *********************************************************7 PP
+
+>> sp|P01934|HBA3_GORGO  Hemoglobin subunit alpha-3 OS=Gorilla gorilla gorilla PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.4   0.9   2.9e-58   1.4e-55       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.4 bits;  conditional E-value: 2.9e-58
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vka+W+kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv++Al++a+++ld +++++l++
+  sp|P01934|HBA3_GORGO   1 VLSPADKTNVKAAWGKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAZVKGHGKKVAKALTBAVZHLD-DMPNALSA 82 
+                           69********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+v+p +fkll ++l+++laa +p++ft++v+a+++K+la+v+++l+skY+
+  sp|P01934|HBA3_GORGO  83 LSBLHAHKLRVBPVBFKLLNHCLLVTLAABFPSZFTPAVHASVDKFLASVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P68048|HBB1_PANTS  Hemoglobin subunit beta-1 OS=Panthera tigris sumatrae GN=HBB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.4   0.1   2.9e-58   1.4e-55       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.4 bits;  conditional E-value: 2.9e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68048|HBB1_PANTS   4 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 89 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P68048|HBB1_PANTS  90 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 147
+                           *********************************************************7 PP
+
+>> sp|P68049|HBB1_PANON  Hemoglobin subunit beta-1 OS=Panthera onca GN=HBB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.4   0.1   2.9e-58   1.4e-55       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.4 bits;  conditional E-value: 2.9e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68049|HBB1_PANON   4 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 89 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P68049|HBB1_PANON  90 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 147
+                           *********************************************************7 PP
+
+>> sp|P68051|HBB1_PANPS  Hemoglobin subunit beta-1 OS=Panthera pardus saxicolor GN=HBB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.4   0.1   2.9e-58   1.4e-55       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.4 bits;  conditional E-value: 2.9e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68051|HBB1_PANPS   4 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 89 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P68051|HBB1_PANPS  90 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 147
+                           *********************************************************7 PP
+
+>> sp|P68065|HBB2_PANPS  Hemoglobin subunit beta-2 OS=Panthera pardus saxicolor GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.4   0.1     3e-58   1.5e-55       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.4 bits;  conditional E-value: 3e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68065|HBB2_PANPS   3 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 88 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P68065|HBB2_PANPS  89 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 146
+                           *********************************************************7 PP
+
+>> sp|P68194|HBB2_PANTS  Hemoglobin subunit beta-2 OS=Panthera tigris sumatrae GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.4   0.1     3e-58   1.5e-55       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.4 bits;  conditional E-value: 3e-58
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs +d+++++a+vk+Hgkkvl+ +sd+l+++d +l++++++L
+  sp|P68194|HBB2_PANTS   3 LSAEEKGLVNGLWSKV--NVDEVGGEALGRLLVVYPWTQRFFQSFGDLSSADAIMSNAKVKAHGKKVLNSFSDGLKNID-DLKGAFAKL 88 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla+++++ef ++vqaa++K++a va +la++Y+
+  sp|P68194|HBB2_PANTS  89 SELHCDKLHVDPENFRLLGNVLVCVLAHHFGHEFNPQVQAAFQKVVAGVASALAHRYH 146
+                           *********************************************************7 PP
+
+>> sp|P09422|HBB_BISBO  Hemoglobin subunit beta OS=Bison bonasus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.3   0.8   3.2e-58   1.6e-55       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.3 bits;  conditional E-value: 3.2e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++a+vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P09422|HBB_BISBO   2 LTAEEKAAVTAFWGKV--HVDEVGGEALGRLLVVYPWTQRFFESFGDLSSADAVMNNAKVKAHGKKVLDSFSNGMKHLD-DLKGTFAALS 88 
+                          99**************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla +++keft+  qa ++K++  va++la++Y+
+  sp|P09422|HBB_BISBO  89 ELHCDKLHVDPENFKLLGNVLVVVLARHFGKEFTPVLQADFQKVVTGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P68226|HBB_LAMGL  Hemoglobin subunit beta OS=Lama glama GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.2   0.0   3.4e-58   1.6e-55       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.2 bits;  conditional E-value: 3.4e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls +ek++v+ +W+kv  +v+e+G+++L rl++++P+t++fFe+F+dLst+d+++++++vk+Hg kvl+ ++d+l +ld +l++++++L
+  sp|P68226|HBB_LAMGL   3 NLSGDEKNAVHGLWSKV--KVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLSHLD-NLKGTYAKL 89 
+                          79***************..9************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft+d qaa++K++a va++la++Y+
+  sp|P68226|HBB_LAMGL  90 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 147
+                          *********************************************************7 PP
+
+>> sp|P68227|HBB_LAMVI  Hemoglobin subunit beta OS=Lama vicugna GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.2   0.0   3.4e-58   1.6e-55       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.2 bits;  conditional E-value: 3.4e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls +ek++v+ +W+kv  +v+e+G+++L rl++++P+t++fFe+F+dLst+d+++++++vk+Hg kvl+ ++d+l +ld +l++++++L
+  sp|P68227|HBB_LAMVI   3 NLSGDEKNAVHGLWSKV--KVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLSHLD-NLKGTYAKL 89 
+                          79***************..9************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft+d qaa++K++a va++la++Y+
+  sp|P68227|HBB_LAMVI  90 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 147
+                          *********************************************************7 PP
+
+>> sp|P68228|HBB_LAMPA  Hemoglobin subunit beta OS=Lama guanicoe pacos GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.2   0.0   3.4e-58   1.6e-55       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.2 bits;  conditional E-value: 3.4e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls +ek++v+ +W+kv  +v+e+G+++L rl++++P+t++fFe+F+dLst+d+++++++vk+Hg kvl+ ++d+l +ld +l++++++L
+  sp|P68228|HBB_LAMPA   3 NLSGDEKNAVHGLWSKV--KVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLSHLD-NLKGTYAKL 89 
+                          79***************..9************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft+d qaa++K++a va++la++Y+
+  sp|P68228|HBB_LAMPA  90 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 147
+                          *********************************************************7 PP
+
+>> sp|P68229|HBB_LAMGU  Hemoglobin subunit beta OS=Lama guanicoe GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.2   0.0   3.4e-58   1.6e-55       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.2 bits;  conditional E-value: 3.4e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls +ek++v+ +W+kv  +v+e+G+++L rl++++P+t++fFe+F+dLst+d+++++++vk+Hg kvl+ ++d+l +ld +l++++++L
+  sp|P68229|HBB_LAMGU   3 NLSGDEKNAVHGLWSKV--KVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLSHLD-NLKGTYAKL 89 
+                          79***************..9************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft+d qaa++K++a va++la++Y+
+  sp|P68229|HBB_LAMGU  90 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 147
+                          *********************************************************7 PP
+
+>> sp|Q28931|HBE_SMICR  Hemoglobin subunit epsilon OS=Sminthopsis crassicaudata GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  192.2   0.2   3.4e-58   1.7e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 192.2 bits;  conditional E-value: 3.4e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek++++++W+kv  +vee+G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da+++ld +l++++++
+  sp|Q28931|HBE_SMICR   2 VHFTAEEKNAITTIWGKV--NVEETGGEALGRLLVVYPWTQRFFDSFGNLSSASAILGNPKVKAHGKKVLTSFGDAVKNLD-NLKGTFSK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv v+aa++ keft++vqaa++Kl+  va++la+kY+
+  sp|Q28931|HBE_SMICR  89 LSELHCDKLHVDPENFRLLGNVLVIVMAAHFNKEFTPEVQAAFQKLVTGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P07402|HBA_MACSP  Hemoglobin subunit alpha-1/2 OS=Macaca speciosa PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.9   0.9   4.1e-58     2e-55       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.9 bits;  conditional E-value: 4.1e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl+ a+ ++d +++ +l++L
+  sp|P07402|HBA_MACSP   1 VLSPADKTNVKAAWDKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTLAVGHVD-DMPHALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P07402|HBA_MACSP  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01940|HBA_TARBA  Hemoglobin subunit alpha OS=Tarsius bancanus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.9   0.5   4.3e-58   2.1e-55       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.9 bits;  conditional E-value: 4.3e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++s +vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P01940|HBA_TARBA   1 VLSPADKTNVKAAWDKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSSQVKGHGKKVADALTTAVGHID-NMPNALSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p++ft++v+a+l+K++a+v+++l+skY+
+  sp|P01940|HBA_TARBA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPADFTPAVHASLDKFVASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|G1NJB6|MYG_MELGA  Myoglobin OS=Meleagris gallopavo GN=MB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.7   1.6     5e-58   2.4e-55       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.7 bits;  conditional E-value: 5e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kvead++++G ++L+rlf  +P+t++ F+kFk+L+t+d++k+s+d+kkHg +vl+ l+++l++ ++++e++lk+L+
+  sp|G1NJB6|MYG_MELGA   3 LSDQEWQQVLTIWGKVEADIAGHGHEVLMRLFHDHPETLDRFDKFKGLKTPDQMKGSEDLKKHGATVLTQLGKILKQ-KGNHESELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++sev+++v+a++++++f+ad qaa++K+l+l+++++askYk
+  sp|G1NJB6|MYG_MELGA  92 QTHATKHKIPVKYLEFISEVIIKVIAEKHAADFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02197|MYG_CHICK  Myoglobin OS=Gallus gallus GN=MB PE=1 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.7   1.6     5e-58   2.4e-55       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.7 bits;  conditional E-value: 5e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kvead++++G ++L+rlf  +P+t++ F+kFk+L+t+d++k+s+d+kkHg +vl+ l+++l++ ++++e++lk+L+
+  sp|P02197|MYG_CHICK   3 LSDQEWQQVLTIWGKVEADIAGHGHEVLMRLFHDHPETLDRFDKFKGLKTPDQMKGSEDLKKHGATVLTQLGKILKQ-KGNHESELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++sev+++v+a++++++f+ad qaa++K+l+l+++++askYk
+  sp|P02197|MYG_CHICK  92 QTHATKHKIPVKYLEFISEVIIKVIAEKHAADFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P21380|HBB_RANTA  Hemoglobin subunit beta OS=Rangifer tarandus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.5   0.4   5.6e-58   2.7e-55       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.5 bits;  conditional E-value: 5.6e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+ +ek +v+  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLs +d+++ +++vk+Hgk+vldA+sd+l++ld +l++++++Ls
+  sp|P21380|HBB_RANTA   2 LTSEEKAAVTGFWGKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSSADAIMHNDKVKAHGKRVLDAFSDGLKHLD-DLKGAFAKLS 88 
+                          899*************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla +++k+ft+  qa ++K++  va++la++Y+
+  sp|P21380|HBB_RANTA  89 ELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPVLQADYQKVVTGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P02053|HBB_EULFU  Hemoglobin subunit beta OS=Eulemur fulvus fulvus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.4   0.3   5.9e-58   2.9e-55       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.4 bits;  conditional E-value: 5.9e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e  +v+++W+kv  dve++G+++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgkkvl A+s++l +ld +l++++++Ls
+  sp|P02053|HBB_EULFU   4 LSAEENAHVTSLWGKV--DVEKVGGEALGRLLVVYPWTQRFFESFGDLSSPSAVMGNPKVKAHGKKVLSAFSEGLHHLD-NLKGTFAQLS 90 
+                          9***************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f ll++vlv+vla+++++ f+++vqaa++K++a va++la+kY+
+  sp|P02053|HBB_EULFU  91 ELHCDKLHVDPQNFTLLGNVLVVVLAEHFGNAFSPAVQAAFQKVVAGVANALAHKYH 147
+                          ********************************************************7 PP
+
+>> sp|P02075|HBB_SHEEP  Hemoglobin subunit beta OS=Ovis aries GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.4   0.6   5.9e-58   2.9e-55       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.4 bits;  conditional E-value: 5.9e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P02075|HBB_SHEEP   2 LTAEEKAAVTGFWGKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSNADAVMNNPKVKAHGKKVLDSFSNGMKHLD-DLKGTFAQLS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla ++++eft+  qa ++K++a va++la+kY+
+  sp|P02075|HBB_SHEEP  89 ELHCDKLHVDPENFRLLGNVLVVVLARHHGNEFTPVLQADFQKVVAGVANALAHKYH 145
+                          ********************************************************7 PP
+
+>> sp|Q28496|HBE_MICMU  Hemoglobin subunit epsilon OS=Microcebus murinus GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.1   0.2   7.7e-58   3.7e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.1 bits;  conditional E-value: 7.7e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek++++++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ +++a+++ld +l+ ++++
+  sp|Q28496|HBE_MICMU   2 VHFTAEEKSTILSLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSFGEAVKNLD-NLKPAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft+dvqaa +Kl++ va++la+kY+
+  sp|Q28496|HBE_MICMU  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPDVQAAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q7M3C2|HBB_HAPGR  Hemoglobin subunit beta OS=Hapalemur griseus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  191.0   0.0   7.7e-58   3.8e-55       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 191.0 bits;  conditional E-value: 7.7e-58
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++e  +v+++W+kv  dve++G+++L rl++++P+tq+fFe+F+dLst+ +++++++vk+Hgkkvl A+s++l +ld +l++++++Ls
+  sp|Q7M3C2|HBB_HAPGR   3 LTPEENGHVTSLWGKV--DVEKVGGEALGRLLVVYPWTQRFFESFGDLSTPSAIMGNPKVKAHGKKVLSAFSEGLHHLD-NLKGTFAQLS 89 
+                          99**************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f ll++vlv vla+++++ f+++vqaa++K++  va++la+kY+
+  sp|Q7M3C2|HBB_HAPGR  90 ELHCDKLHVDPQNFTLLGNVLVIVLAEHFGNAFSPPVQAAFQKVVTGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|P01939|HBA2_OTOCR  Hemoglobin subunit alpha-B OS=Otolemur crassicaudatus GN=HBAB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.9   1.0   8.4e-58   4.1e-55       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.9 bits;  conditional E-value: 8.4e-58
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+ +k++vka+W kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++s +vk Hgkkv+dAl++a+ ++d +++++l++
+  sp|P01939|HBA2_OTOCR   2 VLSPTDKSNVKAAWEKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSTQVKGHGKKVADALTNAVLHVD-DMPSALSA 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fkll ++l+++la ++p+eft++v+a+l+K++a+v+++l+skY+
+  sp|P01939|HBA2_OTOCR  84 LSDLHAHKLRVDPVNFKLLRHCLLVTLACHHPAEFTPAVHASLDKFMASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P02093|HBB_ONDZI  Hemoglobin subunit beta OS=Ondatra zibethicus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.9   0.3   8.8e-58   4.3e-55       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.9 bits;  conditional E-value: 8.8e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek ++  +W+kv  +++++Ga++L rl++++P+tq+fFe+F+dLs + +++++a+vk Hgkkv++A++d+l++ld +l++++++
+  sp|P02093|HBB_ONDZI   1 VHLTDAEKAAISGLWGKV--NADGVGAEALGRLLVVYPWTQRFFEHFGDLSSSSAVMGNAKVKSHGKKVITAFADGLKHLD-NLKGTFSA 87 
+                          69****************..999**********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v vl + l+k+ft+d+q+a++K++  va++l +kY+
+  sp|P02093|HBB_ONDZI  88 LSELHCDKLHVDPENFKLLGNMIVIVLSHDLGKDFTPDAQSAFQKVVTGVATALGHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P14388|HBB_ANTPA  Hemoglobin subunit beta OS=Antrozous pallidus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.8   0.0     9e-58   4.4e-55       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.8 bits;  conditional E-value: 9e-58
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++v+ +W+kv  +vee+G+++L rl++++P+tq+fFe+F+dLs + +++++a+vk+Hgkkvl+A+sd+l++ld +l++++++
+  sp|P14388|HBB_ANTPA   1 VHLTADEKSAVTGLWGKV--NVEEVGGEALGRLLVVYPWTQRFFESFGDLSNAGAVMGNAKVKAHGKKVLNAFSDGLKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vl+ vla +++kef ++vqaa++K+   va++l +kY+
+  sp|P14388|HBB_ANTPA  88 LSELHCDKLHVDPENFRLLGNVLMIVLARHFGKEFCPPVQAAFQKVSLGVATALGHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P67823|HBB_EQUHE  Hemoglobin subunit beta OS=Equus hemionus kulan GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.8   0.1   9.1e-58   4.4e-55       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.8 bits;  conditional E-value: 9.1e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Ls +ek +v+a+W kv  + ee+G+++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkvl+ +++++ +ld +l++++++L
+  sp|P67823|HBB_EQUHE   2 QLSGEEKAAVLALWDKV--NEEEVGGEALGRLLVVYPWTQRFFDSFGDLSNPAAVMGNPKVKAHGKKVLHSFGEGVHHLD-NLKGTFAQL 88 
+                          79***************..99***********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++k+ft++ qa+++K++a va++la+kY+
+  sp|P67823|HBB_EQUHE  89 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPELQASYQKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|P67824|HBB_EQUZE  Hemoglobin subunit beta OS=Equus zebra GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.8   0.1   9.1e-58   4.4e-55       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.8 bits;  conditional E-value: 9.1e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Ls +ek +v+a+W kv  + ee+G+++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkvl+ +++++ +ld +l++++++L
+  sp|P67824|HBB_EQUZE   2 QLSGEEKAAVLALWDKV--NEEEVGGEALGRLLVVYPWTQRFFDSFGDLSNPAAVMGNPKVKAHGKKVLHSFGEGVHHLD-NLKGTFAQL 88 
+                          79***************..99***********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++k+ft++ qa+++K++a va++la+kY+
+  sp|P67824|HBB_EQUZE  89 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPELQASYQKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|P19015|HBA_HIPAM  Hemoglobin subunit alpha OS=Hippopotamus amphibius GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.8   0.9   9.4e-58   4.6e-55       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.8 bits;  conditional E-value: 9.4e-58
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vka+W+kv+ ++ e+Ga++L+r+f+s+P+t+++F++F dLs     ++s +vk+Hgkkv+dAl++a+ +ld +l+++l+dL
+  sp|P19015|HBA_HIPAM   1 VLSANDKSNVKAAWGKVGNHAPEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSSQVKAHGKKVADALTKAVGHLD-DLPGALSDL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++++a+l+K+la v+++l+skY+
+  sp|P19015|HBA_HIPAM  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPSDFTPAAHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P14387|HBA_ANTPA  Hemoglobin subunit alpha OS=Antrozous pallidus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.7   0.1     1e-57     5e-55       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.7 bits;  conditional E-value: 1e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv dAl++a+a++d +l+++l++L
+  sp|P14387|HBA_ANTPA   2 VLSPADKTNVKAAWDKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVGDALGNAVAHMD-DLPGALSAL 84 
+                          8*********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+la+v+++l skY+
+  sp|P14387|HBA_ANTPA  85 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPGDFTPAVHASLDKFLASVSTVLVSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P08223|HBE_EULFU  Hemoglobin subunit epsilon OS=Eulemur fulvus fulvus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.5   0.2   1.1e-57   5.4e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.5 bits;  conditional E-value: 1.1e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek++++++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ +++a++++d +l++++++
+  sp|P08223|HBE_EULFU   2 VHFTAEEKSTILSLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSASAILGNPKVKAHGKKVLTSFGEAVKNMD-NLKGAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft+dvqaa +Kl++ va++la+kY+
+  sp|P08223|HBE_EULFU  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPDVQAAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02077|HBBA_CAPHI  Hemoglobin subunit beta-A OS=Capra hircus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.4   0.9   1.2e-57     6e-55       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.4 bits;  conditional E-value: 1.2e-57
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+++ek +v+  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLs +d+++++a+vk+Hgkkvld +s+++++ld +l++++++L
+  sp|P02077|HBBA_CAPHI   2 LTAEEKAAVTGFWGKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSSADAVMNNAKVKAHGKKVLDSFSNGMKHLD-DLKGTFAQL 87 
+                           99**************..9***********************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++fkll++vlv+vla ++++eft+  qa ++K++a va++la++Y+
+  sp|P02077|HBBA_CAPHI  88 SELHCDKLHVDPENFKLLGNVLVVVLARHHGSEFTPLLQAEFQKVVAGVANALAHRYH 145
+                           *********************************************************7 PP
+
+>> sp|P02187|MYG_LOXAF  Myoglobin OS=Loxodonta africana GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.4   0.8   1.3e-57   6.2e-55       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.4 bits;  conditional E-value: 1.3e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++ W+kvead+ ++G+ +Lvrlf+ +P+t+e+F+kFk+L+te e+k+s+d+kk g++vl+Al+ +l+k ++++ea++++L+
+  sp|P02187|MYG_LOXAF   3 LSDGEWELVLKTWGKVEADIPGHGEFVLVRLFTGHPETLEKFDKFKHLKTEGEMKASEDLKKQGVTVLTALGGILKK-KGHHEAEIQPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p+ef+ad+qaa++K+l+l+++++a+kYk
+  sp|P02187|MYG_LOXAF  92 QSHATKHKIPIKYLEFISDAIIHVLQSKHPAEFGADAQAAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P01936|HBA_EULFU  Hemoglobin subunit alpha OS=Eulemur fulvus fulvus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.3   0.8   1.3e-57   6.2e-55       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.3 bits;  conditional E-value: 1.3e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W  v+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++s +vk+Hgkkv+dAl++a+ +ld +++++l++L
+  sp|P01936|HBA_EULFU   1 VLSPADKTNVKTAWNAVGGQAGEHGAEALERMFLSFPTTKTYFPHF-DLS-----HGSGQVKAHGKKVADALTNAVSHLD-DMPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p+eft++v+a+l+K++a v+++l+skY+
+  sp|P01936|HBA_EULFU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFFAAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02061|HBB_TALEU  Hemoglobin subunit beta OS=Talpa europaea GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.3   0.0   1.3e-57   6.5e-55       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.3 bits;  conditional E-value: 1.3e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek  v+ +W+kv  +v+e+G+++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkv++ ++d++++ld +l++++++
+  sp|P02061|HBB_TALEU   1 VHLSGEEKGLVTGMWGKV--NVDEVGGEALGRLLVVYPWTQRFFDSFGDLSSASAIMGNAKVKAHGKKVANSITDGVKNLD-NLKGTYAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +l+keft+++qaa++K++  va++la+kY+
+  sp|P02061|HBB_TALEU  88 LSELHCDKLHVDPENFRLLGNVLVCVLARNLGKEFTPQAQAAFQKVVLGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02072|HBB_BOSMU  Hemoglobin subunit beta OS=Bos mutus grunniens GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.2   0.5   1.4e-57   6.9e-55       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.2 bits;  conditional E-value: 1.4e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+a W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvld +s+++++ld +l++++++Ls
+  sp|P02072|HBB_BOSMU   2 LTAEEKAAVTAFWGKV--KVDEVGGEALGRLLVVYPWTQRFFESFGDLSSADAVMNNPKVKAHGKKVLDSFSNGMKHLD-DLKGTFAALS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv+vla +++keft+  qa ++K++  va++la++Y+
+  sp|P02072|HBB_BOSMU  89 ELHCDKLHVDPENFKLLGNVLVVVLARHFGKEFTPVLQADFQKVVVGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|B3EWE0|HBB_TAMST  Hemoglobin subunit beta OS=Tamias striatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  190.0   0.2   1.7e-57   8.2e-55       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 190.0 bits;  conditional E-value: 1.7e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek  + ++W+kv  + +e G+++L rl++++P+tq+fF++F+dLs + +++++a+vk+Hgkkvld +sd+l++ld +l++++++
+  sp|B3EWE0|HBB_TAMST   1 VHLTADEKVSLSSLWGKV--NPDELGGEALGRLLLVYPWTQRFFDSFGDLSSAVAVMGNAKVKAHGKKVLDSFSDGLKHLD-NLKGTFAS 87 
+                          69****************..99***********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv vla++l+keft+++q++++K++a va++la+kY+
+  sp|B3EWE0|HBB_TAMST  88 LSELHCDKLHVDPENFKLLGNVLVLVLAHHLGKEFTPQAQGTFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q7LZM2|MYG_ANAPO  Myoglobin OS=Anas poecilorhyncha GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.9   1.5   1.8e-57   8.7e-55       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.9 bits;  conditional E-value: 1.8e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kvead +++G  +L+rlf+ +P+t++ FekFk+L+t+d++k+s+d+kkHg++vl+ l+++l++ ++++ea+lk+L+
+  sp|Q7LZM2|MYG_ANAPO   3 LSDQEWQQVLTIWGKVEADLAGHGHAVLMRLFQDHPETLDRFEKFKGLKTPDQMKGSEDLKKHGVTVLTQLGKILKQ-KGNHEAELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++sev+++v+a++++++f+ad qaa++K+l+l+++++askYk
+  sp|Q7LZM2|MYG_ANAPO  92 QTHATKHKIPVKYLEFISEVIIKVIAEKHSADFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q7LZM3|MYG_PHAFI  Myoglobin OS=Phalacrocorax filamentosus GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.8   0.6   1.9e-57     9e-55       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.8 bits;  conditional E-value: 1.9e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kve+d  ++G ++L+rlf  +P+t++ Fe+Fk+L+t+d++k+s+d+kkHg++vl+ l+++l++ ++++e++lk+L+
+  sp|Q7LZM3|MYG_PHAFI   3 LSDQEWQQVLTIWGKVESDLPGHGHEVLMRLFRDHPETLDRFERFKGLKTPDQMKASEDLKKHGVTVLTQLGKILKQ-KGNHESELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++sev+++v+a++++++f+ad qaa++K+l+l+++++askYk
+  sp|Q7LZM3|MYG_PHAFI  92 QTHATKHKIPVKYLEFISEVIIKVIAEKHSADFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02102|HBE1_CAPHI  Hemoglobin subunit epsilon-1 OS=Capra hircus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.8   0.1   1.9e-57   9.3e-55       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.8 bits;  conditional E-value: 1.9e-57
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+ +++ek +++ +W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ +++a+++ld +l+++++
+  sp|P02102|HBE1_CAPHI   2 VHFTAEEKAAITGLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSFGEAIKNLD-NLKGAFA 87 
+                           5789**************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++f+ll++v+v +la+++++eft+dvqaa +Kl++ va++la+kY+
+  sp|P02102|HBE1_CAPHI  88 KLSELHCDKLHVDPENFRLLGNVIVIILATHFGREFTPDVQAAWQKLVSGVATALAHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|P19016|HBB_HIPAM  Hemoglobin subunit beta OS=Hippopotamus amphibius GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.5   0.1   2.2e-57   1.1e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.5 bits;  conditional E-value: 2.2e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v+ +W+kv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvld ++d+l++ld +l++++++
+  sp|P19016|HBB_HIPAM   1 VHLTAEEKDAVLGLWGKV--NVQEVGGEALGRLLVVYPWTQRFFESFGDLSSADAVMNNPKVKAHGKKVLDSFADGLKHLD-NLKGTFAA 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH+++l+vdp++f+ll++ lv+vla  ++keft++ qaa++K++a va++la++Y+
+  sp|P19016|HBB_HIPAM  88 LSELHCDQLHVDPENFRLLGNELVVVLARTFGKEFTPELQAAYQKVVAGVANALAHRYH 146
+                          **********************************************************7 PP
+
+>> sp|P0CH26|HBA2_CAPHI  Hemoglobin subunit alpha-2 OS=Capra hircus GN=HBA2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.5   0.6   2.3e-57   1.1e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.5 bits;  conditional E-value: 2.3e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++vka+W+kv+++++ +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg+kv+ Al++a+ +ld +l+++l+d
+  sp|P0CH26|HBA2_CAPHI   2 VLSAADKSNVKAAWGKVGSNAGAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGEKVAAALTKAVGHLD-DLPGTLSD 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la ++p++ft++v+a+l+K+la v+++l+skY+
+  sp|P0CH26|HBA2_CAPHI  84 LSDLHAHKLRVDPVNFKLLSHSLLVTLACHHPSDFTPAVHASLDKFLANVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P28780|HBA_TAPGE  Hemoglobin subunit alpha OS=Taphozous georgianus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.5   0.3   2.3e-57   1.1e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.5 bits;  conditional E-value: 2.3e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++s +vk Hgkkv dAl++a+a++d +l+++l++L
+  sp|P28780|HBA_TAPGE   1 VLSPADKTNVKAAWEKVGGHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSSQVKGHGKKVGDALGNAVAHMD-DLPGALSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la++++++ft++v+a+l+K+la+v+++l+skY+
+  sp|P28780|HBA_TAPGE  84 SDLHAYKLRVDPVNFKLLSHCLLVTLASHHAADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02054|HBB_LEMCA  Hemoglobin subunit beta OS=Lemur catta GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.4   0.1   2.5e-57   1.2e-54       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.4 bits;  conditional E-value: 2.5e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++e  +v+++W+kv  +ve++G+++L rl++++P+tq+fFe+F+dLs +d+++++++vk+Hgkkvl A+s++l +ld +l++++++Ls
+  sp|P02054|HBB_LEMCA   3 LTPEENGHVTSLWGKV--NVEKVGGEALGRLLVVYPWTQRFFESFGDLSSPDAIMGNPKVKAHGKKVLSAFSEGLHHLD-NLKGTFAQLS 89 
+                          99**************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH+  l+vdp++fkll++vlv vla++++++f+++ qaa++K++  va++la+kY+
+  sp|P02054|HBB_LEMCA  90 ELHCVALHVDPENFKLLGNVLVIVLAHHFGNDFSPQTQAAFQKVVTGVANALAHKYH 146
+                          ********************************************************7 PP
+
+>> sp|P11025|HBE_DIDVI  Hemoglobin subunit epsilon-M OS=Didelphis virginiana GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.4   0.0   2.5e-57   1.2e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.4 bits;  conditional E-value: 2.5e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ ++++kt++++vW+kv  dve++G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ ++++++++d +l++++++
+  sp|P11025|HBE_DIDVI   2 VHFTPEDKTNITSVWTKV--DVEDVGGESLARLLVVYPWTQRFFDSFGNLSSASAVMGNPKVKAHGKKVLTSFGEGVKNMD-NLKGTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vl+ vla+r++keft++vqa+ +Kl++ v+ +l +kY+
+  sp|P11025|HBE_DIDVI  89 LSELHCDKLHVDPENFRLLGNVLIIVLASRFGKEFTPEVQASWQKLVSGVSSALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P14259|HBA1_OTOCR  Hemoglobin subunit alpha-A OS=Otolemur crassicaudatus GN=HBAA PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.4   0.9   2.6e-57   1.3e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.4 bits;  conditional E-value: 2.6e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+ +k+ vka+W kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+ ++d +++++l++
+  sp|P14259|HBA1_OTOCR   2 VLSPTDKSIVKAAWEKVGAHAGDYGAEALERMFLSFPTTKTYFPQF-DLS-----HGSAQVKGHGKKVADALTNAVLHVD-DMPSALSA 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl vdp +fklls++l+++la +lp+eft++v+a+l+K++a+v+++l+skY+
+  sp|P14259|HBA1_OTOCR  84 LSDLHAHKLTVDPVNFKLLSHCLLVTLACHLPAEFTPAVHASLDKFMASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P19759|HBE_OTOCR  Hemoglobin subunit epsilon OS=Otolemur crassicaudatus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.3   0.3   2.8e-57   1.3e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.3 bits;  conditional E-value: 2.8e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek  + ++W+kv  ++ee G+++L rl++++P+tq+fFe F++Ls + +++++++vk+Hgkkvl+ +++a++++d +l++++++
+  sp|P19759|HBE_OTOCR   2 VHFTAEEKAIIMSLWGKV--NIEEAGGEALGRLLVVYPWTQRFFETFGNLSSASAIMGNPKVKAHGKKVLTSFGEAVKNMD-NLKGAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft+dvqaa +Kl++ va++la+kY+
+  sp|P19759|HBE_OTOCR  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPDVQAAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02064|HBB1_TAPTE  Hemoglobin subunit beta-1 OS=Tapirus terrestris GN=HBB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.3   0.5   2.7e-57   1.3e-54       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.3 bits;  conditional E-value: 2.7e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L+ +ek +v+a+W kv  d +++G+++L rl++++P+tq+fF++F+dLst+++++++++vk+Hgkkvl+ ++d++ +ld +l+ ++++
+  sp|P02064|HBB1_TAPTE   2 ELTGEEKAAVLALWDKV--DEDKVGGEALGRLLVVYPWTQRFFDSFGDLSTAAAVMGNPKVKAHGKKVLHSFGDGVHHLD-DLKVTFAQ 87 
+                           6999*************..99**********************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla++++k ft++ qaa++K++a va++la+kY+
+  sp|P02064|HBB1_TAPTE  88 LSELHCDKLHVDPENFRLLGNVLVVVLAQQFGKAFTPELQAAYQKVVAGVANALAHKYH 146
+                           **********************************************************7 PP
+
+>> sp|P02101|HBE_PIG  Hemoglobin subunit epsilon OS=Sus scrofa GN=HBE1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.3   0.0   2.8e-57   1.3e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.3 bits;  conditional E-value: 2.8e-57
+           globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                        v+ +++ek+ ++ +W+kv  +vee+G++++ rl++++P+tq+fF++F+++s + +++++++vk+Hgkkvl+A++da++++d +l++++++Ls
+  sp|P02101|HBE_PIG   2 VHFTAEEKSVITGLWGKV--NVEETGGQAVGRLLVVYPWTQRFFDSFGNMSSPSAIMGNPKVKAHGKKVLTAFGDAVKNMD-NLKGTFAKLS 90 
+                        5789**************..*************************************************************.********** PP
+
+           globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        elH++kl+vdp++f+ll++++v +la+++++eft++vqaa +Kl+a va++la+kY+
+  sp|P02101|HBE_PIG  91 ELHCDKLHVDPENFRLLGNMIVIILASHFGGEFTPEVQAAWQKLVAGVATALAHKYH 147
+                        ********************************************************7 PP
+
+>> sp|P11757|HBA_MYOVE  Hemoglobin subunit alpha OS=Myotis velifer GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.3   0.1   2.8e-57   1.3e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.3 bits;  conditional E-value: 2.8e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++ka+W kv+a+++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv dAl++a+a++d +l+++l++L
+  sp|P11757|HBA_MYOVE   1 VLSPADKTNIKAAWDKVGAHAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVGDALGNAVAHMD-DLPGALSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la +lp+eft++++a+l+K+la+v+++l skY+
+  sp|P11757|HBA_MYOVE  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHLPGEFTPAIHASLDKFLASVSTVLVSKYR 141
+                          *********************************************************7 PP
+
+>> sp|B3EWD2|HBB_SCICA  Hemoglobin subunit beta OS=Sciurus carolinensis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.2   0.1   2.9e-57   1.4e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.2 bits;  conditional E-value: 2.9e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls++ek+++ ++W+kv  + +e G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvld +sd+l++ld +l++++++
+  sp|B3EWD2|HBB_SCICA   1 VHLSADEKNALATLWGKV--NPDELGGEALGRLLVVYPWTQRFFDSFGDLSSATAVMGNPKVKAHGKKVLDSFSDGLKHLD-NLKGTFSS 87 
+                          69****************..99***********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++ lv vla +l+k+ft++vqaa++K++a va++la+kY+
+  sp|B3EWD2|HBB_SCICA  88 LSELHCDKLHVDPENFRLLGNELVLVLALHLGKDFTPQVQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P20018|HBA1_VARVI  Hemoglobin subunit alpha-1 OS=Varecia variegata PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.2   0.9   2.9e-57   1.4e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.2 bits;  conditional E-value: 2.9e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++vk++W  ++++++e+Ga++L+r+f+s+P t+++F++F dLs     ++sa++k+Hgkkv+dAl++a++++d +++++l++
+  sp|P20018|HBA1_VARVI   1 VLSPADKNNVKSAWNAIGSHAGEHGAEALERMFLSFPPTKTYFPHF-DLS-----HGSAQIKTHGKKVADALTNAVNHID-DMPGALSA 82 
+                           69********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+++la+++p+eft++v+a+l+K++a v+++l+skY+
+  sp|P20018|HBA1_VARVI  83 LSDLHAHKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFFAAVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P02062|HBB_HORSE  Hemoglobin subunit beta OS=Equus caballus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.2   0.1   2.9e-57   1.4e-54       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.2 bits;  conditional E-value: 2.9e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Ls +ek +v+a+W kv  + ee+G+++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkvl+ +++++ +ld +l++++++L
+  sp|P02062|HBB_HORSE   2 QLSGEEKAAVLALWDKV--NEEEVGGEALGRLLVVYPWTQRFFDSFGDLSNPGAVMGNPKVKAHGKKVLHSFGEGVHHLD-NLKGTFAAL 88 
+                          79***************..99***********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++k+ft++ qa+++K++a va++la+kY+
+  sp|P02062|HBB_HORSE  89 SELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPELQASYQKVVAGVANALAHKYH 146
+                          *********************************************************7 PP
+
+>> sp|P63111|HBA_PAPAN  Hemoglobin subunit alpha OS=Papio anubis GN=HBA PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.0   1.3   3.2e-57   1.6e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.0 bits;  conditional E-value: 3.2e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++s++v kHgkkv+dAl+ a+ ++d +++++l++L
+  sp|P63111|HBA_PAPAN   2 VLSPDDKKHVKAAWGKVGEHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSDQVNKHGKKVADALTLAVGHVD-DMPQALSKL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P63111|HBA_PAPAN  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P63112|HBA_PAPCY  Hemoglobin subunit alpha OS=Papio cynocephalus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.0   1.3   3.2e-57   1.6e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.0 bits;  conditional E-value: 3.2e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++s++v kHgkkv+dAl+ a+ ++d +++++l++L
+  sp|P63112|HBA_PAPCY   2 VLSPDDKKHVKAAWGKVGEHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSDQVNKHGKKVADALTLAVGHVD-DMPQALSKL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P63112|HBA_PAPCY  85 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|B3EWD4|HBB_PERCR  Hemoglobin subunit beta OS=Peromyscus crinitus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  189.0   0.4   3.2e-57   1.6e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 189.0 bits;  conditional E-value: 3.2e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek  v+ +W+kv  + +e G+++L rl+ ++P+tq+fF++F+dLs + +l+++a+vk+Hgkkvld +s++l++ld +l++++++
+  sp|B3EWD4|HBB_PERCR   1 VHLTDAEKALVTGLWGKV--KPDELGGEALGRLLGVYPWTQRFFDSFGDLSSASALMSNAKVKAHGKKVLDSFSEGLKHLD-NLKGTFAS 87 
+                          69****************..899**********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll+++lv v+a++l+k+ft+++qaa++K++a va++la+kY+
+  sp|B3EWD4|HBB_PERCR  88 LSELHCDKLHVDPENFKLLGNMLVLVMAHHLGKDFTPAAQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P08258|HBA_MANSP  Hemoglobin subunit alpha-1/2 OS=Mandrillus sphinx PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.9   0.8   3.6e-57   1.8e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.9 bits;  conditional E-value: 3.6e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W kv+ +++e+Ga++L+r+f+s+P+t+++F++F +Ls     ++s++vk Hgkkv+dAl+ a+ ++d +++++l++L
+  sp|P08258|HBA_MANSP   1 VLSPADKKNVKAAWDKVGGHAGEYGAEALERMFLSFPTTKTYFPHF-NLS-----HGSDQVKGHGKKVADALTLAVGHVD-DMPQALSKL 83 
+                          69********************************************.9**.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P08258|HBA_MANSP  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02092|HBB_MICXA  Hemoglobin subunit beta OS=Microtus xanthognathus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.8   1.4   3.7e-57   1.8e-54       1     149 []       1     146 []       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 188.8 bits;  conditional E-value: 3.7e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek ++  +W+kv  +++  Ga++L rl++++P+t++fF++F++Ls + +++++a+vk+Hgkkv++A++d+l++ld +l++++++
+  sp|P02092|HBB_MICXA   1 VHLTDAEKAAISGLWGKV--BABAAGAZALGRLLVVYPWTZRFFZHFGBLSSASAVMGNAQVKAHGKKVIHAFADGLKHLD-BLKGTFAS 87 
+                          69****************..77788********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          Ls+lH++kl+v+p++f+ll++++v vla++l+k+ft++++aa++K++a va +la+kY+
+  sp|P02092|HBB_MICXA  88 LSZLHCBKLHVBPZBFRLLGBMIVIVLAHHLGKDFTPSAZAAFZKVVAGVASALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02186|MYG_ELEMA  Myoglobin OS=Elephas maximus GN=MB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.8   0.6   3.8e-57   1.8e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.8 bits;  conditional E-value: 3.8e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++ W+kvead+ ++G+ + vrlf+ +P+t+e+F+kFk+L+te e+k+s+d+kk g++vl+Al+ +l+k ++++ea++++L+
+  sp|P02186|MYG_ELEMA   3 LSDGEWELVLKTWGKVEADIPGHGETVFVRLFTGHPETLEKFDKFKHLKTEGEMKASEDLKKQGVTVLTALGGILKK-KGHHEAEIQPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++s+++++vl++++p+ef+ad+q+a++K+l+l+++++a+kYk
+  sp|P02186|MYG_ELEMA  92 QSHATKHKIPIKYLEFISDAIIHVLQSKHPAEFGADAQGAMKKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q9XSK1|HBA4_BUBBU  Hemoglobin subunit alpha-4 OS=Bubalus bubalis PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.8   0.8   3.9e-57   1.9e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.8 bits;  conditional E-value: 3.9e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++vka+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv++Al++a+ +ld +l+++l++
+  sp|Q9XSK1|HBA4_BUBBU   2 VLSAADKSNVKAAWGKVGGHAADYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVANALTKAVGHLD-DLPGALSE 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|Q9XSK1|HBA4_BUBBU  84 LSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPNDFTPAVHASLDKFLASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P01932|HBA_THEGE  Hemoglobin subunit alpha OS=Theropithecus gelada GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.7   1.3   4.1e-57     2e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.7 bits;  conditional E-value: 4.1e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vk +W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++s++vkkHgkkv+dAl+ a+ ++d +++++l++L
+  sp|P01932|HBA_THEGE   1 VLSPDDKKHVKDAWGKVGEHAGQYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSDQVKKHGKKVADALTLAVGHVD-DMPQALSKL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P01932|HBA_THEGE  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02110|HBB_TACAC  Hemoglobin subunit beta OS=Tachyglossus aculeatus aculeatus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.5   0.3   4.6e-57   2.3e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.5 bits;  conditional E-value: 4.6e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls  ekt+v+++W+ v  +v+e G+++L rl++++P+tq+fFe+F+dLs +d+++++a+vk+Hg kvl+ ++dal++ld +l++++++
+  sp|P02110|HBB_TACAC   2 VHLSGSEKTAVTNLWGHV--NVNELGGEALGRLLVVYPWTQRFFESFGDLSSADAVMGNAKVKAHGAKVLTSFGDALKNLD-NLKGTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ l++vlv+vla +++keft+++qaa +Kl++ v+++la+kY+
+  sp|P02110|HBB_TACAC  89 LSELHCDKLHVDPENFNRLGNVLVVVLARHFSKEFTPEAQAAWQKLVSGVSHALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01933|HBA_CERAT  Hemoglobin subunit alpha OS=Cercocebus atys GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.5   1.2   4.8e-57   2.4e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.5 bits;  conditional E-value: 4.8e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F +Ls     ++s++vk Hgkkv+dAl+ a+ ++d +++ +l++L
+  sp|P01933|HBA_CERAT   1 VLSPDDKKHVKAAWGKVGEHAGEYGAEALERMFLSFPTTKTYFPHF-NLS-----HGSDQVKGHGKKVADALTLAVGHVD-DMPHALSKL 83 
+                          69********************************************.9**.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P01933|HBA_CERAT  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P20019|HBA2_VARVI  Hemoglobin subunit alpha-2 OS=Varecia variegata PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.4   1.1   4.9e-57   2.4e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.4 bits;  conditional E-value: 4.9e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++vk++W  ++++++e+Ga++L+r+f+s+P t+++F++F dLs     ++sa++k+Hgkkv+dAl++a++++d +++++l++
+  sp|P20019|HBA2_VARVI   1 VLSPADKNNVKSAWKAIGSHAGEHGAEALERMFLSFPPTKTYFPHF-DLS-----HGSAQIKTHGKKVADALTNAVNHID-DMPGALSA 82 
+                           69********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+++la+++p+eft++v+a+l+K++a v+++l+skY+
+  sp|P20019|HBA2_VARVI  83 LSDLHAHKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFFAAVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P21379|HBA_RANTA  Hemoglobin subunit alpha OS=Rangifer tarandus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.3   0.5   5.3e-57   2.6e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.3 bits;  conditional E-value: 5.3e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ ++  +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hg+kv++Al++a+ +ld +l+++l+dL
+  sp|P21379|HBA_RANTA   1 VLSAADKSNVKAAWGKVGGNAPAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGEKVANALTKAVGHLD-DLPGTLSDL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P21379|HBA_RANTA  84 SDLHAHKLRVDPVNFKLLSHTLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P83682|MYG_DELLE  Myoglobin OS=Delphinapterus leucas GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.3   1.7   5.5e-57   2.7e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.3 bits;  conditional E-value: 5.5e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lse+e++ v+    kvead +++G+d+L+rlfk +P+t+e+F+kFk+L+t   +k+s+d+kkHg++vl+Al+ +l+k ++++ea+lk+L+
+  sp|P83682|MYG_DELLE   3 LSEGEWQLVLXXXXKVEADLAGHGQDVLIRLFKGHPETLEKFDKFKHLKTXXXMKASEDLKKHGNTVLTALGGILKK-KGHHEAELKPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky+    e++++vl++r+p+ef+ad+q+a++K+l+l++k++a+kYk
+  sp|P83682|MYG_DELLE  92 QSHATKHKIPIKYLXXXXEAIIHVLHSRHPAEFGADAQGAMNKALELFRKDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P04246|HBT_PIG  Hemoglobin subunit theta OS=Sus scrofa PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.1   0.0   6.1e-57     3e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.1 bits;  conditional E-value: 6.1e-57
+           globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                        v+ +++ek+ ++ +W+kv  +vee+G++++ rl++++P+tq+fF++F+++s + +++++++vk+Hgkkvl+ ++da++++d +l++++++Ls
+  sp|P04246|HBT_PIG   1 VHFTAEEKSVITGLWGKV--NVEETGGEAVGRLLVVYPWTQRFFDSFGNMSSPSAIMGNPKVKAHGKKVLTSFGDAVKNMD-NLKGTFAKLS 89 
+                        5789**************..*************************************************************.********** PP
+
+           globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        elH++kl+vdp++f+ll++++v +la+++++eft++vqaa +Kl+a va++la+kY+
+  sp|P04246|HBT_PIG  90 ELHCDKLHVDPENFRLLGNMIVIILASHFGGEFTPEVQAAWQKLVAGVATALAHKYH 146
+                        ********************************************************7 PP
+
+>> sp|Q45XH7|HBG_ELEMA  Hemoglobin subunit gamma OS=Elephas maximus GN=HBG PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.1   0.1   6.4e-57   3.1e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.1 bits;  conditional E-value: 6.4e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W++v  +vee+G+++L rl++++P+tq+fF+ F++Ls + ++++++ vk+Hgkkvl+ ++da+++ld +l++++++
+  sp|Q45XH7|HBG_ELEMA   2 VHFTAEEKAAITSLWGQV--NVEETGGEALGRLLVVYPWTQRFFDTFGNLSSASAIMGNPRVKAHGKKVLTSFGDAVKNLD-NLKGTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vla++++keft++vqaa +K++  va++la kY+
+  sp|Q45XH7|HBG_ELEMA  89 LSELHCDKLHVDPENFRLLGNVLVIVLANHFGKEFTPQVQAAWQKMVTGVANALAYKYH 147
+                          **********************************************************7 PP
+
+>> sp|P04247|MYG_MOUSE  Myoglobin OS=Mus musculus GN=Mb PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.0   0.3   6.5e-57   3.2e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.0 bits;  conditional E-value: 6.5e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++ v++vW+kvead +++G+++L+ lfk++P+t+++F+kFk+L+ e+++k+s+d+kkHg +vl+Al+ +l+k ++++ a++++L+
+  sp|P04247|MYG_MOUSE   3 LSDGEWQLVLNVWGKVEADLAGHGQEVLIGLFKTHPETLDKFDKFKNLKSEEDMKGSEDLKKHGCTVLTALGTILKK-KGQHAAEIQPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          ++Ha+k+k+++ky++++se++++vl++r++++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|P04247|MYG_MOUSE  92 QSHATKHKIPVKYLEFISEIIIEVLKKRHSGDFGADAQGAMSKALELFRNDIAAKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02074|HBB_ODOVI  Hemoglobin subunit beta-3 OS=Odocoileus virginianus virginianus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  188.0   0.0   6.8e-57   3.3e-54       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 188.0 bits;  conditional E-value: 6.8e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+  W+kv  +v+ +Ga++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgk+vldA+s++l++ld +l++++++Ls
+  sp|P02074|HBB_ODOVI   2 LTAEEKAAVTGFWGKV--NVDVVGAEALGRLLVVYPWTQRFFEHFGDLSSAGAVMGNPKVKAHGKRVLDAFSEGLKHLD-DLKGAFAELS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla ++++eft+ vqa ++K++a va++la++Y+
+  sp|P02074|HBB_ODOVI  89 ELHCNKLHVDPENFRLLGNVLVVVLARNFGGEFTPLVQADFQKVVAGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P01971|HBA_ALCAA  Hemoglobin subunit alpha OS=Alces alces alces GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.9   0.5   7.3e-57   3.6e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.9 bits;  conditional E-value: 7.3e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +k++vka+W+kv+ ++  +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hg+kv++Al++a+ +ld +l+++l+dL
+  sp|P01971|HBA_ALCAA   2 VLSATDKSNVKAAWGKVGGNAPAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGEKVANALTKAVGHLD-DLPGTLSDL 84 
+                          89********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++laa+lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P01971|HBA_ALCAA  85 SDLHAHKLRVDPVNFKLLSHTLLVTLAAHLPSDFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q9TSN8|HBA2_BUBBU  Hemoglobin subunit alpha-2 OS=Bubalus bubalis PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.9   0.6   7.4e-57   3.6e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.9 bits;  conditional E-value: 7.4e-57
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++++a+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv++Al++a+ +ld +l+++l++
+  sp|Q9TSN8|HBA2_BUBBU   2 VLSAADKSNIQAAWGKVGGHAADYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVANALTKAVGHLD-DLPGALSE 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|Q9TSN8|HBA2_BUBBU  84 LSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPNDFTPAVHASLDKFLASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|Q9QZ76|MYG_RAT  Myoglobin OS=Rattus norvegicus GN=Mb PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.9   0.4   7.5e-57   3.6e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.9 bits;  conditional E-value: 7.5e-57
+           globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLsel 94 
+                        Ls++e++ v+++W+kve d +++G+++L+ lfk++P+t+e+F+kFk+L+ e+e+k+s+d+kkHg +vl+Al+ +l+k ++++ a++++L+++
+  sp|Q9QZ76|MYG_RAT   3 LSDGEWQMVLNIWGKVEGDLAGHGQEVLISLFKAHPETLEKFDKFKNLKSEEEMKSSEDLKKHGCTVLTALGTILKK-KGQHAAEIQPLAQS 93 
+                        9****************************************************************************.99************ PP
+
+           globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        Ha+k+k+++ky++++sev+++vl++r++++f+ad+q+a+ K+l+l+++++a+kYk
+  sp|Q9QZ76|MYG_RAT  94 HATKHKIPVKYLEFISEVIIQVLKKRYSGDFGADAQGAMSKALELFRNDIAAKYK 148
+                        ******************************************************7 PP
+
+>> sp|O77655|HBG_TARBA  Hemoglobin subunit gamma OS=Tarsius bancanus GN=HBG PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.8   0.4   7.8e-57   3.8e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.8 bits;  conditional E-value: 7.8e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek  ++++Wakv  +vee+G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl  l++a+ ++d +l+ ++++
+  sp|O77655|HBG_TARBA   2 VHFTAEEKAIITSLWAKV--NVEETGGEALGRLLVVYPWTQRFFDNFGNLSSASAIMGNPKVKAHGKKVLSSLGEAVTHMD-DLKDAFAH 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH+++l+vdp++f+ll++vlv vla+++++eft++vqaa +Kl++ va++l +kY+
+  sp|O77655|HBG_TARBA  89 LSELHCDRLHVDPENFRLLGNVLVIVLAHHFGREFTPQVQAAWKKLMSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P11758|HBB_MYOVE  Hemoglobin subunit beta OS=Myotis velifer GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.7   0.1   8.6e-57   4.2e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.7 bits;  conditional E-value: 8.6e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v  +W+kv  +v+e+G+++L rl++++P+tq+fF +F+dLs +++++++ +vk+Hgkkvl+ ++++l+++d +l++++++
+  sp|P11758|HBB_MYOVE   1 VHLTADEKAAVSGLWGKV--NVDEVGGEALGRLLVVYPWTQRFFTSFGDLSNAAAVMGNSKVKAHGKKVLNSFGEGLKNVD-NLKGTFAS 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vla +++keft++vq+a++Kl   va++la+kY+
+  sp|P11758|HBB_MYOVE  88 LSELHCDKLHVDPENFRLLGNVLVIVLARHFGKEFTPQVQGAFQKLALGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P85077|MYG_STRCA  Myoglobin OS=Struthio camelus GN=MB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.6   1.8   8.7e-57   4.3e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.6 bits;  conditional E-value: 8.7e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kve+d++++G  iL+rlf+ +P+t++ FekFk+L+t++++k+s+++kkHg++vl+ l+++l++ ++k+ea+lk+L+
+  sp|P85077|MYG_STRCA   3 LSDQEWQQVLTIWGKVESDIAGHGHAILMRLFQDHPETLDRFEKFKGLTTPEQMKASEELKKHGVTVLTQLGKILKQ-KGKHEAELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++sev+++v+a++++++f+ad qaa++K+l+l+++++askYk
+  sp|P85077|MYG_STRCA  92 QTHATKHKIPVKYLEFISEVIIKVIAEKHSADFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|Q7M2Y4|HBA_CHAMP  Hemoglobin subunit alpha OS=Chalinolobus morio GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.6   0.2   8.9e-57   4.3e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.6 bits;  conditional E-value: 8.9e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W kv+  ++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv dAl++a+a+ld +l+++l++L
+  sp|Q7M2Y4|HBA_CHAMP   1 VLSPADKSNVKAAWDKVGGSAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVGDALGNAVAHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++a ++p++ft++v+a+l+K+la v+++l skY+
+  sp|Q7M2Y4|HBA_CHAMP  84 SDLHAHKLRVDPVNFKLLSHCLLVTVACHHPNDFTPAVHASLDKFLANVSTVLVSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q7LZM5|MYG_AETPY  Myoglobin OS=Aethia pygmaea GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.6   0.9     9e-57   4.4e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.6 bits;  conditional E-value: 9e-57
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kve+d +++G ++L+rlf+ +P+t++ F+kFk+L+t+d++k+s+d+kkHg++vl+ l+++l++ ++++e++lk+L+
+  sp|Q7LZM5|MYG_AETPY   3 LSDQEWQQVLSIWGKVESDLAGHGHQVLMRLFQDHPETLDRFDKFKGLKTPDQMKGSEDLKKHGVTVLTQLGKILKQ-KGNHESELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++se++++v+a++++++f+ d qaa++K+l+l+++++askYk
+  sp|Q7LZM5|MYG_AETPY  92 QTHATKHKIPVKYLEFISEAIMKVIAEKHAADFGGDSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P01951|HBA_TALEU  Hemoglobin subunit alpha OS=Talpa europaea GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.6   0.6   9.2e-57   4.5e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.6 bits;  conditional E-value: 9.2e-57
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +k+++ka+W kv+a+++e+Ga++L+r f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl++a+ +ld +l++++++L
+  sp|P01951|HBA_TALEU   1 VLSGTDKSNIKAAWDKVGAHAGEYGAEALERTFTSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTNAVGHLD-DLPGAMSAL 83 
+                          6999******************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01951|HBA_TALEU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPNDFTPAVHASLDKFLATVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|B3EWD8|HBB_TAMHU  Hemoglobin subunit beta OS=Tamiasciurus hudsonicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.5   0.5   9.7e-57   4.7e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.5 bits;  conditional E-value: 9.7e-57
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ekt++ ++W+k    ++e+G+++L rl++++P+tq+fF++F+dLs + +l+++a+vk+Hgkkvld +s++l++ld +l++++++
+  sp|B3EWD8|HBB_TAMHU   1 VHLSGEEKTALATLWGKN--VADEVGGEALGRLLVVYPWTQRFFDSFGDLSSASALMSNAKVKAHGKKVLDSFSEGLKHLD-DLKGTFSS 87 
+                          69***************8..689*********************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll+++lv v+a++l+k+ft+++qaa++K++a va++la+kY+
+  sp|B3EWD8|HBB_TAMHU  88 LSELHCDKLHVDPENFRLLGNMLVLVMAHHLGKDFTPAAQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P18435|HBE_TARSY  Hemoglobin subunit epsilon OS=Tarsius syrichta GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.4   0.1     1e-56   4.9e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.4 bits;  conditional E-value: 1e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek+ v+++W+k+  +v+e G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P18435|HBE_TARSY   2 VHLTAEEKSSVTSLWGKM--NVDEAGGEALGRLLVVYPWTQRFFDNFGNLSSSSAIMGNPKVKAHGKKVLTSFGDAIKNMD-NLKGAFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv +l ++++k+ft++vq a +Kl++ va++la+kY+
+  sp|P18435|HBE_TARSY  89 LSELHCDKLHVDPENFRLLGNVLVIILVTHFGKDFTPEVQVAWQKLVSGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|B3EWD6|HBB_PERCA  Hemoglobin subunit beta OS=Peromyscus californicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.4   0.1     1e-56   4.9e-54       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.4 bits;  conditional E-value: 1e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek  v+ +W+kv  + +e G+++L rl++ +P+tq+fF++F+dLs + +l+++++vk+Hgkkvld +s++l++ld +l++++++
+  sp|B3EWD6|HBB_PERCA   1 VHLTDAEKALVTGLWGKV--KPDELGGEALGRLLVGYPWTQRFFDSFGDLSSASALMGNPKVKAHGKKVLDSFSEGLKHLD-NLKGTFAS 87 
+                          69****************..899**********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll+++lv vla+ l+k+ft+++qaa++K++a va++la+kY+
+  sp|B3EWD6|HBB_PERCA  88 LSELHCDKLHVDPENFKLLGNMLVLVLAHLLGKDFTPAAQAAYQKVVAGVATALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P86874|MYG_DRONO  Myoglobin OS=Dromaius novaehollandiae GN=MB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.3   1.3   1.1e-56   5.3e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.3 bits;  conditional E-value: 1.1e-56
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kve+d +++G +iL+rlf   P+t++ Fe+Fk+L+t+d++k+s+++kkHg++vl+ l+++l+  ++k+ea+lk+L+
+  sp|P86874|MYG_DRONO   3 LSDQEWQHVLTIWGKVESDLAGHGHEILMRLFHDLPETLDRFERFKGLTTPDQMKASEELKKHGVTVLTQLGKILKL-KGKHEAELKPLA 91 
+                          99************************************************************************987.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++sev+++v+a++++++f+ad qaa++K+l+l+++++askYk
+  sp|P86874|MYG_DRONO  92 QTHATKHKIPVKYLEFISEVIIKVIAEKHSADFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P51438|HBE_ATEBE  Hemoglobin subunit epsilon OS=Ateles belzebuth GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.3   0.1   1.1e-56   5.3e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.3 bits;  conditional E-value: 1.1e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P51438|HBE_ATEBE   2 VHLTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P51438|HBE_ATEBE  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P19760|HBG_OTOCR  Hemoglobin subunit gamma OS=Otolemur crassicaudatus GN=HBG PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.3   0.1   1.1e-56   5.5e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.3 bits;  conditional E-value: 1.1e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek  ++++W+kv  +vee G+++L rl++++P+tq+fF+ F++Ls + +++++++vk+Hgkkvl  l++a++++d +l++++++
+  sp|P19760|HBG_OTOCR   2 VHFTAEEKAIITSLWGKV--NVEEDGGEALGRLLVVYPWTQRFFDTFGNLSSASAIMGNPKVKAHGKKVLSSLGEAIKNMD-DLKGTFSH 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH+++l+vdp++f+ll++vlv vla++++keft+++qaa +K++a va++la+kY+
+  sp|P19760|HBG_OTOCR  89 LSELHCDRLHVDPENFRLLGNVLVIVLAKHFGKEFTPQIQAACQKMVAGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P10892|HBA_LUTLU  Hemoglobin subunit alpha OS=Lutra lutra GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.3   0.3   1.1e-56   5.6e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.3 bits;  conditional E-value: 1.1e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k++ +++e+G+++L+r f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl++a+a++d +l+++l++L
+  sp|P10892|HBA_LUTLU   1 VLSPADKTNVKSTWDKIGGHAGEYGGEALERTFVSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTNAVAHMD-DLPGALSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P10892|HBA_LUTLU  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q7LZM4|MYG_CERMN  Myoglobin OS=Cerorhinca monocerata GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.2   0.9   1.2e-56   5.6e-54       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.2 bits;  conditional E-value: 1.2e-56
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kve+d +++G ++L+rlf+ +P+t++ FekFk+L+t+d++k+s+d+kkHg++vl+ l+++l++ ++++e++lk+L+
+  sp|Q7LZM4|MYG_CERMN   3 LSDQEWQQVLSIWGKVESDLAGHGHQVLMRLFQDHPETLDRFEKFKGLKTPDQMKGSEDLKKHGVTVLTQLGKILKQ-KGNHESELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++se++++v+a++++++f+ d qaa++K+l+l+++++askYk
+  sp|Q7LZM4|MYG_CERMN  92 QTHATKHKIPVKYLEFISEAIMKVIAEKHAADFGGDSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02094|HBB_MESAU  Hemoglobin subunit beta OS=Mesocricetus auratus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.1   0.8   1.2e-56     6e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.1 bits;  conditional E-value: 1.2e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek  v+ +W+kv  +++ +Ga++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgkkv++ ++d+l++ld +l++++++
+  sp|P02094|HBB_MESAU   2 VHLTDAEKALVTGLWGKV--NADAVGAEALGRLLVVYPWTQRFFEHFGDLSSASAVMNNPQVKAHGKKVIHSFADGLKHLD-NLKGAFSS 88 
+                          69****************..8899*********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll+++++ vl + l+k+ft+++q+a++K++a va++la+kY+
+  sp|P02094|HBB_MESAU  89 LSELHCDKLHVDPENFKLLGNMIIIVLSHDLGKDFTPSAQSAFHKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q45XH8|HBG_LOXAF  Hemoglobin subunit gamma OS=Loxodonta africana GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.0   0.1   1.4e-56   6.6e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.0 bits;  conditional E-value: 1.4e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek ++ ++W++v  +vee+G+++L rl++++P+tq+fF+ F++Ls + ++++++ vk+Hgkkvl+ ++da+++ld +l++++++
+  sp|Q45XH8|HBG_LOXAF   2 VHFTAEEKAAIASLWGQV--NVEETGGEALGRLLVVYPWTQRFFDTFGNLSSASAIMGNPRVKAHGKKVLTSFGDAVKNLD-NLKGTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vla++++keft++vqaa +K++  va++la kY+
+  sp|Q45XH8|HBG_LOXAF  89 LSELHCDKLHVDPENFRLLGNVLVIVLANHFGKEFTPQVQAAWQKMVTGVANALAYKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01963|HBA_CERSI  Hemoglobin subunit alpha OS=Ceratotherium simum GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.0   0.2   1.4e-56   6.7e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.0 bits;  conditional E-value: 1.4e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +kt+vk++W+ v+a+++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a+ +ld +l+++l++L
+  sp|P01963|HBA_CERSI   2 VLSPTDKTNVKTAWGHVGAQAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTQAVGHLD-DLPGALSAL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+l+ v+++l+skY+
+  sp|P01963|HBA_CERSI  85 SDLHAYKLRVDPVNFKLLSHCLLVTLALHHPQDFTPAVHASLDKFLSNVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02104|HBE_MOUSE  Hemoglobin subunit epsilon-Y2 OS=Mus musculus GN=Hbb-y PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  187.0   0.2   1.4e-56   6.7e-54       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 187.0 bits;  conditional E-value: 1.4e-56
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ekt ++ +W+kv  +vee+G+++L rl++++P+tq+fF++F++Ls + ++++++ vk+Hgkkvl+A+++ +++ld +l+++l++Ls
+  sp|P02104|HBE_MOUSE   4 FTAEEKTLINGLWSKV--NVEEVGGEALGRLLVVYPWTQRFFDSFGNLSSASAIMGNPRVKAHGKKVLTAFGESIKNLD-NLKSALAKLS 90 
+                          789*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++fkll++vlv vla+++++efta++qaa +Kl+a va++l++kY+
+  sp|P02104|HBE_MOUSE  91 ELHCDKLHVDPENFKLLGNVLVIVLASHFGNEFTAEMQAAWQKLVAGVATALSHKYH 147
+                          ********************************************************7 PP
+
+>> sp|Q2KPA3|HBB_SCAOR  Hemoglobin subunit beta OS=Scapanus orarius GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.9   0.0   1.5e-56   7.2e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.9 bits;  conditional E-value: 1.5e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls++ek  v+ +W+kv  +v+++Ga++L rl++++P+tq+fF++F+dLs + +++++++vk+Hgkkv++ +sd++++ld +l++++++
+  sp|Q2KPA3|HBB_SCAOR   2 VHLSAEEKGLVTGLWGKV--NVDDVGAEALGRLLVVYPWTQRFFDSFGDLSSAGAIMGNPKVKAHGKKVANSISDGIKNLD-NLKGTYAK 88 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+v+a  l+keft+++qaa++K++  va++la+kY+
+  sp|Q2KPA3|HBB_SCAOR  89 LSELHCDKLHVDPENFRLLGNVLVCVMARTLGKEFTPHAQAAFQKMVLGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P18994|HBE_PONPY  Hemoglobin subunit epsilon OS=Pongo pygmaeus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.8   0.5   1.6e-56   7.8e-54       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.8 bits;  conditional E-value: 1.6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P18994|HBE_PONPY   2 VHFTAEEKAAVTSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|P18994|HBE_PONPY  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P61921|HBG2_PANTR  Hemoglobin subunit gamma-2 OS=Pan troglodytes GN=HBG2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.7   0.0   1.6e-56     8e-54       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.7 bits;  conditional E-value: 1.6e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P61921|HBG2_PANTR   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P61921|HBG2_PANTR  89 LSELHCDKLHVDPENFKLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P62742|HBG2_GORGO  Hemoglobin subunit gamma-2 OS=Gorilla gorilla gorilla GN=HBG2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.7   0.0   1.6e-56     8e-54       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.7 bits;  conditional E-value: 1.6e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P62742|HBG2_GORGO   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P62742|HBG2_GORGO  89 LSELHCDKLHVDPENFKLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P69892|HBG2_HUMAN  Hemoglobin subunit gamma-2 OS=Homo sapiens GN=HBG2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.7   0.0   1.6e-56     8e-54       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.7 bits;  conditional E-value: 1.6e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P69892|HBG2_HUMAN   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P69892|HBG2_HUMAN  89 LSELHCDKLHVDPENFKLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P61920|HBG1_PANTR  Hemoglobin subunit gamma-1 OS=Pan troglodytes GN=HBG1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.7   0.1   1.7e-56   8.4e-54       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.7 bits;  conditional E-value: 1.7e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P61920|HBG1_PANTR   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P61920|HBG1_PANTR  89 LSELHCDKLHVDPENFKLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTAVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P69891|HBG1_HUMAN  Hemoglobin subunit gamma-1 OS=Homo sapiens GN=HBG1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.7   0.1   1.7e-56   8.4e-54       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.7 bits;  conditional E-value: 1.7e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P69891|HBG1_HUMAN   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P69891|HBG1_HUMAN  89 LSELHCDKLHVDPENFKLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTAVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P11753|HBA_CYNSP  Hemoglobin subunit alpha OS=Cynopterus sphinx GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.5   0.1   1.9e-56   9.4e-54       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.5 bits;  conditional E-value: 1.9e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ +++e+Ga++L+r+f+s+P+t+++F++F dL      ++s++vk Hgkkv dAl++a+ ++d +l+++l++L
+  sp|P11753|HBA_CYNSP   1 VLSPADKTNVKAAWDKVGGNAGEYGAEALERMFLSFPTTKTYFPHF-DLA-----HGSPQVKGHGKKVGDALTNAVSHID-DLPGALSAL 83 
+                          69********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P11753|HBA_CYNSP  84 SDLHAYKLRVDPVNFKLLSHCLLVTLANHLPSDFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P0CH25|HBA1_CAPHI  Hemoglobin subunit alpha-1 OS=Capra hircus GN=HBA1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.5   0.3     2e-56   9.5e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.5 bits;  conditional E-value: 2e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++vka+W+kv+ +++ +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg+kv+ Al++a+ +ld +l+++l+d
+  sp|P0CH25|HBA1_CAPHI   2 VLSAADKSNVKAAWGKVGGNAGAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGEKVAAALTKAVGHLD-DLPGTLSD 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la +lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P0CH25|HBA1_CAPHI  84 LSDLHAHKLRVDPVNFKLLSHSLLVTLACHLPNDFTPAVHASLDKFLANVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P68239|HBA_AMMLE  Hemoglobin subunit alpha-1/2 OS=Ammotragus lervia PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.5   0.3     2e-56   9.5e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.5 bits;  conditional E-value: 2e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++ +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg+kv+ Al++a+ +ld +l+++l+dL
+  sp|P68239|HBA_AMMLE   2 VLSAADKSNVKAAWGKVGGNAGAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGEKVAAALTKAVGHLD-DLPGTLSDL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la +lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P68239|HBA_AMMLE  85 SDLHAHKLRVDPVNFKLLSHSLLVTLACHLPNDFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P68240|HBA_SHEEP  Hemoglobin subunit alpha-1/2 OS=Ovis aries PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.5   0.3     2e-56   9.5e-54       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.5 bits;  conditional E-value: 2e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++ +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg+kv+ Al++a+ +ld +l+++l+dL
+  sp|P68240|HBA_SHEEP   2 VLSAADKSNVKAAWGKVGGNAGAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGEKVAAALTKAVGHLD-DLPGTLSDL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la +lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P68240|HBA_SHEEP  85 SDLHAHKLRVDPVNFKLLSHSLLVTLACHLPNDFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q28507|HBE_MACMU  Hemoglobin subunit epsilon OS=Macaca mulatta GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.4   0.4   2.1e-56     1e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.4 bits;  conditional E-value: 2.1e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W+k+  +vee+G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l+ ++++
+  sp|Q28507|HBE_MACMU   2 VHFTAEEKAAVTSLWSKM--NVEETGGEALGRLLVVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKITFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|Q28507|HBE_MACMU  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P07405|HBA_FELCA  Hemoglobin subunit alpha OS=Felis catus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.4   0.7   2.1e-56     1e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.4 bits;  conditional E-value: 2.1e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka W+k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+vk+Hg+kv+dAl++a+a++d +l++++++L
+  sp|P07405|HBA_FELCA   1 VLSAADKSNVKACWGKIGSHAGEYGAEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVKAHGQKVADALTQAVAHMD-DLPTAMSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P07405|HBA_FELCA  84 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P23601|HBA_MUSPU  Hemoglobin subunit alpha-1/2 OS=Mustela putorius PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.3   0.3   2.2e-56   1.1e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.3 bits;  conditional E-value: 2.2e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k++ +++e+G+++L+r f s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl++a+a++d +l+++l++L
+  sp|P23601|HBA_MUSPU   1 VLSPADKTNVKSTWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTNAVAHMD-DLPGALSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P23601|HBA_MUSPU  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P09839|HBA_MACCA  Hemoglobin subunit alpha OS=Macrotus californicus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.3   0.3   2.2e-56   1.1e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.3 bits;  conditional E-value: 2.2e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka+W kv+ +++e+Ga++L+r+f+s+P+t+++F++F dL      ++sa+vk Hgkkv+dAl++a+ ++d +l+++l++L
+  sp|P09839|HBA_MACCA   1 VLSAADKGNVKAAWDKVGGQAGEYGAEALERMFLSFPTTKTYFPHF-DLA-----HGSAQVKGHGKKVADALTNAVGHMD-DLPGALSAL 83 
+                          69********************************************.999.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la+++p+eft++++a+l+K++a+v+++l+skY+
+  sp|P09839|HBA_MACCA  84 SDLHAYKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAIHASLDKFFASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q9TSN7|HBA1_BUBBU  Hemoglobin subunit alpha-1 OS=Bubalus bubalis PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.3   0.8   2.2e-56   1.1e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.3 bits;  conditional E-value: 2.2e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++v+a+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++
+  sp|Q9TSN7|HBA1_BUBBU   2 VLSAADKSNVQAAWGKVGGHAADYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVGHLD-DLPGALSE 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|Q9TSN7|HBA1_BUBBU  84 LSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPNDFTPAVHASLDKFLASVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P04237|HBA_TRAST  Hemoglobin subunit alpha OS=Tragelaphus strepsiceros GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.3   1.0   2.2e-56   1.1e-53       3     149 .]       1     140 []       1     140 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.3 bits;  conditional E-value: 2.2e-56
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+a+k +vka+W+kv+++++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l+dLs
+  sp|P04237|HBA_TRAST   1 LSAADKGHVKAAWGKVGSHAAEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVDHLD-DLPGALSDLS 83 
+                          89*******************************************.***.....************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P04237|HBA_TRAST  84 DLHAHKLRVDPVNFKLLSHSLLVTLASHLPGDFTPAVHASLDKFLANVSTVLTSKYR 140
+                          ********************************************************7 PP
+
+>> sp|P01966|HBA_BOVIN  Hemoglobin subunit alpha OS=Bos taurus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.3   1.0   2.3e-56   1.1e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.3 bits;  conditional E-value: 2.3e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++L
+  sp|P01966|HBA_BOVIN   2 VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVEHLD-DLPGALSEL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P01966|HBA_BOVIN  85 SDLHAHKLRVDPVNFKLLSHSLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|B3EWE4|HBB_MICPE  Hemoglobin subunit beta OS=Microtus pennsylvanicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.3   0.9   2.3e-56   1.1e-53       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.3 bits;  conditional E-value: 2.3e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek ++  +W+k   +++ +Ga++L rl++++P+tq+fFe+F+dLs + +++++++vk+Hgkkvl+A++d+l++ld +l++++++
+  sp|B3EWE4|HBB_MICPE   1 VHLTDAEKAALSGLWGKA--NADAVGAEALGRLLVVYPWTQRFFEHFGDLSSASAVMGNPKVKAHGKKVLHAFADGLKHLD-NLKGTFSA 87 
+                          69**************98..8999*********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll+++lv vl + l+k+ft+++qaa++K++a va +la+kY+
+  sp|B3EWE4|HBB_MICPE  88 LSELHCDKLHVDPENFRLLGNMLVLVLSHDLGKDFTPAAQAAFQKVVAGVASALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q28932|HBB_SMICR  Hemoglobin subunit beta OS=Sminthopsis crassicaudata GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.2   0.2   2.5e-56   1.2e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.2 bits;  conditional E-value: 2.5e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls++ek +++a+W+kv   v+++Ga++L rl+ ++P+t +fF++F+dLs +  ++++a+v+ Hg kvl+ ++da++++d +l++++++
+  sp|Q28932|HBB_SMICR   2 VHLSAEEKGHINAIWSKV--SVDQTGAEALGRLLIVYPWTSRFFDHFGDLSSAKGVMGNAKVQGHGAKVLTSFGDAVKNMD-NLKGTFAK 88 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll+++lv  la++++k+ft++vqaa +Kl+a va++la+kY+
+  sp|Q28932|HBB_SMICR  89 LSELHCDKLHVDPENFRLLGNILVICLAEHFGKDFTPEVQAAWQKLVAGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q95190|HBE_HYLSY  Hemoglobin subunit epsilon OS=Hylobates syndactylus GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.2   0.5   2.5e-56   1.2e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.2 bits;  conditional E-value: 2.5e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|Q95190|HBE_HYLSY   2 VHFTAEEKAAVTSLWNKM--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|Q95190|HBE_HYLSY  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q28779|HBG1_PANPA  Hemoglobin subunit gamma-1 OS=Pan paniscus GN=HBG1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.2   0.0   2.5e-56   1.2e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.2 bits;  conditional E-value: 2.5e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|Q28779|HBG1_PANPA   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|Q28779|HBG1_PANPA  89 LSELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTAVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P01956|HBA_ROUAE  Hemoglobin subunit alpha OS=Rousettus aegyptiacus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.0   0.1   2.7e-56   1.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.0 bits;  conditional E-value: 2.7e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+kt++ka+W kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv dAl++a+ +ld +l+++l++L
+  sp|P01956|HBA_ROUAE   1 VLSSADKTNIKAAWDKVGGNAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVGDALTNAVGHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01956|HBA_ROUAE  84 SDLHAYKLRVDPVNFKLLSHCLLVTLANHLPSDFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P09908|HBA_PHOVI  Hemoglobin subunit alpha OS=Phoca vitulina GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.0   0.6   2.8e-56   1.4e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.0 bits;  conditional E-value: 2.8e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W k++ +++e+G+++L+r f+++P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl+ a+a++d +l+++l++L
+  sp|P09908|HBA_PHOVI   1 VLSPADKTNVKATWDKIGGHAGEYGGEALERTFTAFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTTAVAHMD-DLPGALSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+++ v+++l+skY+
+  sp|P09908|HBA_PHOVI  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPADFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q0ZA50|HBA_PANHO  Hemoglobin subunit alpha OS=Pantholops hodgsonii GN=HBA PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  186.0   0.2   2.9e-56   1.4e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 186.0 bits;  conditional E-value: 2.9e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++ +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg+kv+ Al++a+ +ld +l+++l+dL
+  sp|Q0ZA50|HBA_PANHO   2 VLSAADKSNVKAAWGKVGGNAGAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGEKVAAALTKAVGHLD-DLPGTLSDL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la +lp++ft++v+a+l+K+la+v ++l+skY+
+  sp|Q0ZA50|HBA_PANHO  85 SDLHAHKLRVDPVNFKLLSHTLLVTLACHLPNDFTPAVHASLDKFLASVGTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02103|HBE_RABIT  Hemoglobin subunit epsilon OS=Oryctolagus cuniculus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.9   0.0     3e-56   1.5e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.9 bits;  conditional E-value: 3e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek  + + W++v  +++e+G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P02103|HBE_RABIT   2 VHFTPEEKCIISKQWGQV--NIDETGGEALGRLLVVYPWTQRFFDNFGNLSSSSAIMGNPKVKAHGKKVLTSFGDAIKNMD-NLKGAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vl+ vla++++keft++vqaa +Kl++ va++la+kY+
+  sp|P02103|HBE_RABIT  89 LSELHCDKLHVDPENFKLLGNVLLIVLATHFGKEFTPEVQAAWQKLVSGVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P18707|HBB_MESBR  Hemoglobin subunit beta OS=Mesocricetus brandti GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.8   0.8   3.2e-56   1.6e-53       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.8 bits;  conditional E-value: 3.2e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek+ v  +W+kv  +++ +Ga++L rl+++tP+tq+fFe+F+dLs + +++++++vk+Hgkkv++ ++d+l++ld +l++++++
+  sp|P18707|HBB_MESBR   1 VHLTDAEKNLVSGLWGKV--NADAVGAEALGRLLVVTPWTQRFFEHFGDLSSASAVMNNPQVKAHGKKVIHSFADGLKHLD-NLKGAFSS 87 
+                          69****************..8899*********************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll+++++ vl + l+k+ft+++q+a++K++a va++la+kY+
+  sp|P18707|HBB_MESBR  88 LSELHCDKLHVDPENFKLLGNMIIIVLSHDLGKDFTPSAQSAFHKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P26915|HBA_NASNA  Hemoglobin subunit alpha OS=Nasua nasua GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.8   0.3   3.3e-56   1.6e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.8 bits;  conditional E-value: 3.3e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k+ W k+++++ e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv++Al++a+a+ld +l+++l++L
+  sp|P26915|HBA_NASNA   1 VLSPADKTNIKSTWEKIGSHASEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVAEALTNAVAHLD-DLPGALSTL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la+++p+eft++v+a+l+K++++v+++l+skY+
+  sp|P26915|HBA_NASNA  84 SDLHAYKLRVDPVNFKFLSHCLLVTLASHHPAEFTPAVHASLDKFFSSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P09423|HBA_BISBO  Hemoglobin subunit alpha-I/II OS=Bison bonasus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.8   0.7   3.3e-56   1.6e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.8 bits;  conditional E-value: 3.3e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++L
+  sp|P09423|HBA_BISBO   2 VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVGHLD-DLPGALSEL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P09423|HBA_BISBO  85 SDLHAHKLRVDPVNFKLLSHSLLVTLASHLPNDFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q45XI7|HBD_DUGDU  Hemoglobin subunit delta OS=Dugong dugon GN=HBD PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.8   0.4   3.3e-56   1.6e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.8 bits;  conditional E-value: 3.3e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++e   v+ +Wakv  +v+e+G+++L rl++++P+tq+fFe+F+dLs + +++ +++vk+Hg+kvl  ++d+l++ld +l++++++
+  sp|Q45XI7|HBD_DUGDU   2 VHLTADETALVTGLWAKV--NVKEYGGEALGRLLVVYPWTQRFFEHFGDLSSASAVMHNPKVKAHGEKVLASFGDGLKHLD-DLKGAFAE 88 
+                          69****************..************************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          Ls lH++k +vdp++fkll+++lv+vl  +l+kef++++qaa+eK++a va++la+kY+
+  sp|Q45XI7|HBD_DUGDU  89 LSALHCEKSHVDPQNFKLLGNMLVCVLSRHLGKEFSPQAQAAYEKVVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q7LZM1|MYG_URILO  Myoglobin OS=Uria lomvia GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.7   1.4   3.3e-56   1.6e-53       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.7 bits;  conditional E-value: 3.3e-56
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+++W+kve+d +++G ++L+rlf+ +P+t++ FekFk+L+t+d++k+s+d+kkHg++vl+ l+++l++ ++++e++lk+L+
+  sp|Q7LZM1|MYG_URILO   3 LSDQEWQHVLTIWGKVESDLAGHGHQVLMRLFQDHPETLDRFEKFKGLKTPDQMKGSEDLKKHGVTVLTQLGKILKQ-KGNHESELKPLA 91 
+                          99***************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+k+++ky++++se++++v+a+++++ f+ad qaa++K+l+l+++++askYk
+  sp|Q7LZM1|MYG_URILO  92 QTHATKHKIPVKYLEFISEAIIKVIAEKHASSFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|B3EWC7|HBA_TAMMR  Hemoglobin subunit alpha OS=Tamias merriami PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.7   1.0   3.5e-56   1.7e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.7 bits;  conditional E-value: 3.5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W kv+ + + +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+v+ Hgkkv+dAl++a  +ld +l+++l++L
+  sp|B3EWC7|HBA_TAMMR   1 VLSPADKTNVKAAWEKVGGHGAAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVQGHGKKVADALANAAGHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWC7|HBA_TAMMR  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLATVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68026|HBE_CALJA  Hemoglobin subunit epsilon OS=Callithrix jacchus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.7   0.1   3.5e-56   1.7e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.7 bits;  conditional E-value: 3.5e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68026|HBE_CALJA   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68026|HBE_CALJA  89 LSELHCDKLHVDPENFRLLGNVLVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68027|HBE_CALPY  Hemoglobin subunit epsilon OS=Callithrix pygmaea GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.7   0.1   3.5e-56   1.7e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.7 bits;  conditional E-value: 3.5e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68027|HBE_CALPY   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68027|HBE_CALPY  89 LSELHCDKLHVDPENFRLLGNVLVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P08224|HBG_CHEME  Hemoglobin subunit gamma OS=Cheirogaleus medius GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.7   0.3   3.5e-56   1.7e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.7 bits;  conditional E-value: 3.5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + + +ek  ++++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l++a++++d +l++++++L
+  sp|P08224|HBG_CHEME   3 HFTVEEKAVITSLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSASAIMGNPKVKAHGKKVLTSLGEAIKNMD-DLKGTFAHL 89 
+                          78899************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH+++l+vdp++fkll++ lv vla++++keft++vqaa +K++a va++la+kY+
+  sp|P08224|HBG_CHEME  90 SELHCDRLHVDPENFKLLGNELVIVLAKHFGKEFTPQVQAAWQKMVAGVAIALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P41327|HBA_LYNLY  Hemoglobin subunit alpha OS=Lynx lynx GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.6   0.5   3.6e-56   1.8e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.6 bits;  conditional E-value: 3.6e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka W+k++++++++G+++L+r f s+P+t+++F++F dLs     ++sa+vk+Hg+kv+dAl++a+a++d +l+++l++L
+  sp|P41327|HBA_LYNLY   1 VLSAADKSNVKACWGKIGSHAGDYGTEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVKAHGQKVADALTQAVAHID-DLPNALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P41327|HBA_LYNLY  84 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P08852|HBA_MARMA  Hemoglobin subunit alpha OS=Marmota marmota marmota GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.6   1.2   3.6e-56   1.8e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.6 bits;  conditional E-value: 3.6e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W k++ + + +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+++ Hgkkv+dAl++a a++d +l+++l++L
+  sp|P08852|HBA_MARMA   1 VLSPADKTNVKAAWEKIGGHGAAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQIQGHGKKVADALANAAAHVD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P08852|HBA_MARMA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P08225|HBG_EULFU  Hemoglobin subunit gamma OS=Eulemur fulvus fulvus GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.5   0.2   3.9e-56   1.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.5 bits;  conditional E-value: 3.9e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek  ++++W+kv  +vee G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da++++d +l++++++
+  sp|P08225|HBG_EULFU   2 VHFTAEEKAVITSLWGKV--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKNMD-DLKGTFAH 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH+++l+vdp++fkll++ lv vla+ ++keft++vqaa +K++a va++la+kY+
+  sp|P08225|HBG_EULFU  89 LSELHCDRLHVDPENFKLLGNELVIVLAKYFGKEFTPQVQAAWQKMVAGVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68077|HBG_MACMU  Hemoglobin subunit gamma OS=Macaca mulatta GN=HBG PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.0   4.4e-56   2.2e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.4e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++L
+  sp|P68077|HBG_MACMU   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKNLD-DLKGTFAQL 89 
+                          6799*************..************************************************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l+s+Y+
+  sp|P68077|HBG_MACMU  90 SELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVAGVASALSSRYH 147
+                          *********************************************************7 PP
+
+>> sp|P68078|HBG_MACFU  Hemoglobin subunit gamma OS=Macaca fuscata fuscata GN=HBG PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.0   4.4e-56   2.2e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.4e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++L
+  sp|P68078|HBG_MACFU   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKNLD-DLKGTFAQL 89 
+                          6799*************..************************************************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l+s+Y+
+  sp|P68078|HBG_MACFU  90 SELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVAGVASALSSRYH 147
+                          *********************************************************7 PP
+
+>> sp|P68079|HBG_PAPCY  Hemoglobin subunit gamma OS=Papio cynocephalus GN=HBG PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.0   4.4e-56   2.2e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.4e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++L
+  sp|P68079|HBG_PAPCY   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKNLD-DLKGTFAQL 89 
+                          6799*************..************************************************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l+s+Y+
+  sp|P68079|HBG_PAPCY  90 SELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVAGVASALSSRYH 147
+                          *********************************************************7 PP
+
+>> sp|P01945|HBA_MESAU  Hemoglobin subunit alpha OS=Mesocricetus auratus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.4   4.5e-56   2.2e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt++ ++W+k++ +++e+Ga++L+r+f ++P+t+++F++F d+s     ++sa+vk Hgkkv+dAl++a+ +ld +l+++l++L
+  sp|P01945|HBA_MESAU   1 VLSAKDKTNISEAWGKIGGHAGEYGAEALERMFFVYPTTKTYFPHF-DVS-----HGSAQVKGHGKKVADALTNAVGHLD-DLPGALSAL 83 
+                          69********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p++ft++v+a+l+K++a+v+++l+skY+
+  sp|P01945|HBA_MESAU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLANHHPADFTPAVHASLDKFFASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02095|HBB_CAVPO  Hemoglobin subunit beta OS=Cavia porcellus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.8   4.5e-56   2.2e-53       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.5e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L++aek++++ +W+kv  +v+e Ga++L rl++++P+tq+fFekF+dLs + +++++a+vk Hg kvl  +s++l++l+ +l++++++
+  sp|P02095|HBB_CAVPO   1 VHLTAAEKSAILDLWGKV--NVGEIGAEALGRLLVVYPWTQRFFEKFGDLSSASAIMSNAHVKSHGAKVLASFSEGLKHLQ-DLKGTFAK 87 
+                          69****************..************************************************************8.9******* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++++v  la+++p+eft+  qaa++K+ a va++la+kY+
+  sp|P02095|HBB_CAVPO  88 LSELHCDKLHVDPENFRLLGNMIVIALAHHHPSEFTPCTQAAFQKVTAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P20243|HBA_MUSPF  Hemoglobin subunit alpha-1/2 OS=Mustela putorius furo PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.3   4.5e-56   2.2e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k++ +++e+G+++L+r f s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl++a+a++d +l+++l++L
+  sp|P20243|HBA_MUSPF   1 VLSPADKTNVKSTWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTNAVAHVD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P20243|HBA_MUSPF  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01953|HBA_MELME  Hemoglobin subunit alpha OS=Meles meles GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.2   4.6e-56   2.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.6e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k ++ka W k++ +++e+G+++L+r f s+P+t+++F++F dLs     ++sa+vk Hgkkv+dAl++a+a+ld +l+++l++L
+  sp|P01953|HBA_MELME   1 VLSPADKANIKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVADALTNAVAHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+l++v+++l+skY+
+  sp|P01953|HBA_MELME  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFLSSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P11750|HBA_SPEPA  Hemoglobin subunit alpha OS=Spermophilus parryii GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.9   4.6e-56   2.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.6e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W k++ + + +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+v+ Hgkkv+dAl++a a++d +l+++l++L
+  sp|P11750|HBA_SPEPA   1 VLSPADKTNVKASWEKIGGHGAAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVQGHGKKVADALANAAAHVD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P11750|HBA_SPEPA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02100|HBE_HUMAN  Hemoglobin subunit epsilon OS=Homo sapiens GN=HBE1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.4   4.7e-56   2.3e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.7e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l+ ++++
+  sp|P02100|HBE_HUMAN   2 VHFTAEEKAAVTSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKPAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|P02100|HBE_HUMAN  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q6LDH0|HBE_GORGO  Hemoglobin subunit epsilon OS=Gorilla gorilla gorilla GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.4   4.7e-56   2.3e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.7e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l+ ++++
+  sp|Q6LDH0|HBE_GORGO   2 VHFTAEEKAAVTSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKPAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|Q6LDH0|HBE_GORGO  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q6LDH1|HBE_PANTR  Hemoglobin subunit epsilon OS=Pan troglodytes GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.3   0.4   4.7e-56   2.3e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.3 bits;  conditional E-value: 4.7e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l+ ++++
+  sp|Q6LDH1|HBE_PANTR   2 VHFTAEEKAAVTSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKPAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|Q6LDH1|HBE_PANTR  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P23600|HBA_MUSLU  Hemoglobin subunit alpha-1/2 OS=Mustela lutreola PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.2   0.3   4.8e-56   2.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.2 bits;  conditional E-value: 4.8e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k++ +++e+G+++L+r f s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl++a+a++d +l++++++L
+  sp|P23600|HBA_MUSLU   1 VLSPADKTNVKSTWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTNAVAHMD-DLPGAMSAL 83 
+                          69********************************************.***.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P23600|HBA_MUSLU  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01969|HBA_BOSGF  Hemoglobin subunit alpha OS=Bos gaurus frontalis GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.2   0.9     5e-56   2.4e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.2 bits;  conditional E-value: 5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++L
+  sp|P01969|HBA_BOSGF   2 VLSAADKGNVKAAWGKVGDHAAEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVGHLD-DLPGALSEL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P01969|HBA_BOSGF  85 SDLHAHKLRVDPVNFKLLSHSLLVTLASHLPNDFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P09420|HBA_SPECI  Hemoglobin subunit alpha OS=Spermophilus citellus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.2   0.6     5e-56   2.4e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.2 bits;  conditional E-value: 5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk  W k++ + +e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+v+ Hgkkv+dAl++a a++d +l+++l++L
+  sp|P09420|HBA_SPECI   1 VLSPADKKNVKDCWEKIGGHGAEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVQGHGKKVADALANAAAHVD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P09420|HBA_SPECI  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01967|HBA1_BOSMU  Hemoglobin subunit alpha-1 OS=Bos mutus grunniens PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.1   0.7   5.2e-56   2.5e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.1 bits;  conditional E-value: 5.2e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k +vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++
+  sp|P01967|HBA1_BOSMU   1 VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHF-DLS-----QGSAQVKGHGAKVAAALTKAVEHLD-DLPGALSE 82 
+                           69********************************************.9**.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P01967|HBA1_BOSMU  83 LSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P09904|HBA_PHYMC  Hemoglobin subunit alpha OS=Physeter macrocephalus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.0   1.1   5.5e-56   2.7e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.0 bits;  conditional E-value: 5.5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+Wakv+ ++++ Ga++L+r+f+s+P t+++F +F dL      ++s +vk Hgkkv+dAl++a+ +ld  l+ +l+dL
+  sp|P09904|HBA_PHYMC   1 VLSPADKTNVKAAWAKVGNHAADFGAEALERMFMSFPSTKTYFSHF-DLG-----HNSTQVKGHGKKVADALTKAVGHLD-TLPDALSDL 83 
+                          69********************************************.999.....9************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P09904|HBA_PHYMC  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPGDFTPSVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01968|HBA2_BOSMU  Hemoglobin subunit alpha-2 OS=Bos mutus grunniens PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.0   0.7   5.5e-56   2.7e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.0 bits;  conditional E-value: 5.5e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k +vka+W+kv+ +++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++
+  sp|P01968|HBA2_BOSMU   1 VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVGHLD-DLPGALSE 82 
+                           69********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P01968|HBA2_BOSMU  83 LSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P02065|HBB2_TAPTE  Hemoglobin subunit beta-2 OS=Tapirus terrestris GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  185.0   0.9   5.7e-56   2.8e-53       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 185.0 bits;  conditional E-value: 5.7e-56
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L  +ek +v+a+W kv  d e++G+++L rl++++P+tq+fF++F+dLst+++++++++vk+Hgkkvl+ +++++ +ld +l+ +++
+  sp|P02065|HBB2_TAPTE   1 VHLHGDEKAAVLALWDKV--DEEKVGGEALGRLLVVYPWTQRFFDSFGDLSTAAAVMGNPKVKAHGKKVLHSFGEGVHHLD-DLKVTFA 86 
+                           578899************..99**********************************************************9.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++f+ll++vlv+vla++++k ft++ qaa++K++a va +la+kY+
+  sp|P02065|HBB2_TAPTE  87 QLSELHCDKLHVDPENFRLLGNVLVVVLAQQFGKAFTPELQAAYQKVVAGVASALAHKYH 146
+                           ***********************************************************7 PP
+
+>> sp|P68016|HBE_AOTAZ  Hemoglobin subunit epsilon OS=Aotus azarae GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68016|HBE_AOTAZ   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68016|HBE_AOTAZ  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68017|HBE_ALOBE  Hemoglobin subunit epsilon OS=Alouatta belzebul GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68017|HBE_ALOBE   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68017|HBE_ALOBE  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68018|HBE_ALOSE  Hemoglobin subunit epsilon OS=Alouatta seniculus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68018|HBE_ALOSE   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68018|HBE_ALOSE  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68019|HBE_ATEGE  Hemoglobin subunit epsilon OS=Ateles geoffroyi GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68019|HBE_ATEGE   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68019|HBE_ATEGE  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68020|HBE_BRAAR  Hemoglobin subunit epsilon OS=Brachyteles arachnoides GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68020|HBE_BRAAR   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68020|HBE_BRAAR  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68021|HBE_CACCA  Hemoglobin subunit epsilon OS=Cacajao calvus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68021|HBE_CACCA   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68021|HBE_CACCA  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68022|HBE_CALMO  Hemoglobin subunit epsilon OS=Callicebus moloch GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68022|HBE_CALMO   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68022|HBE_CALMO  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68023|HBE_CALTO  Hemoglobin subunit epsilon OS=Callicebus torquatus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68023|HBE_CALTO   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68023|HBE_CALTO  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68024|HBE_CALGO  Hemoglobin subunit epsilon OS=Callimico goeldii GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68024|HBE_CALGO   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68024|HBE_CALGO  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68025|HBE_CHISA  Hemoglobin subunit epsilon OS=Chiropotes satanas GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1     6e-56   2.9e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68025|HBE_CHISA   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68025|HBE_CHISA  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P14390|HBA_PTEPO  Hemoglobin subunit alpha OS=Pteropus poliocephalus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.9   0.1   6.2e-56     3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.9 bits;  conditional E-value: 6.2e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +k++vka+W kv+ +v+e+Ga++L+r+f+s+P+t+++F++F dL      ++s +vk+Hgkkv dAl++a+ ++d +l+++l++L
+  sp|P14390|HBA_PTEPO   1 VLSSTDKSNVKAAWDKVGGNVGEYGAEALERMFLSFPTTKTYFPHF-DLA-----HGSSQVKAHGKKVGDALTNAVGHMD-DLPGALSAL 83 
+                          69********************************************.999.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P14390|HBA_PTEPO  84 SDLHAYKLRVDPVNFKLLSHCLLVTLANHLPNDFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P10885|HBA_PTEBR  Hemoglobin subunit alpha OS=Pteronura brasiliensis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.7   0.2   6.9e-56   3.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.7 bits;  conditional E-value: 6.9e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W k++ +++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl++a+a++d +l+a+l++L
+  sp|P10885|HBA_PTEBR   1 VLSPADKTNVKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTNAVAHMD-DLPAALSAL 83 
+                          69********************************************.9**.....9************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++++v+++l+skY+
+  sp|P10885|HBA_PTEBR  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSTVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68056|HBBC_SHEEP  Hemoglobin subunit beta-C OS=Ovis aries GN=HBBC PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.7   0.2     7e-56   3.4e-53       7     149 .]       3     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.7 bits;  conditional E-value: 7e-56
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           +k  ++  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLst+d++ ++a+vk+Hgkkvld +s+++++ld +l++++++LselH
+  sp|P68056|HBBC_SHEEP   3 NKALITGFWSKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSTADAVLGNAKVKAHGKKVLDSFSNGVQHLD-DLKGTFAQLSELH 88 
+                           68899*******..9***********************************************************9.************* PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           ++kl+vdp++f+ll++vlv+vla +++keft++ qa ++K++a va +la++Y+
+  sp|P68056|HBBC_SHEEP  89 CDKLHVDPENFRLLGNVLVVVLARHFGKEFTPELQAEFQKVVAGVASALAHRYH 142
+                           *****************************************************7 PP
+
+>> sp|P20854|HBA_CTEGU  Hemoglobin subunit alpha OS=Ctenodactylus gundi GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.6   1.4   7.5e-56   3.7e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.6 bits;  conditional E-value: 7.5e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W k++ + +e+Ga++L+r+f+s+P+t+++F++F d+s     ++sa+vk+Hgkkv+dAl++a  +ld +l+++l++L
+  sp|P20854|HBA_CTEGU   1 VLSAADKTNVKAAWDKIGGHGGEYGAEALERMFLSFPTTKTYFPHF-DVS-----HGSAQVKAHGKKVADALANAASHLD-DLPNALSAL 83 
+                          69********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+la+va++l+skY+
+  sp|P20854|HBA_CTEGU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFLATVATVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|Q28775|HBE_PANPA  Hemoglobin subunit epsilon OS=Pan paniscus GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.6   0.3   7.6e-56   3.7e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.6 bits;  conditional E-value: 7.6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +v+++W+k+  +vee G+++L rl+ ++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l+ ++++
+  sp|Q28775|HBE_PANPA   2 VHFTAEEKAAVTSLWSKM--NVEEAGGEALGRLLIVYPWTQRFFDSFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKPAFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++v+v +la++++keft++vqaa +Kl++ va++la+kY+
+  sp|Q28775|HBE_PANPA  89 LSELHCDKLHVDPENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68057|HBBC_OVIMU  Hemoglobin subunit beta-C OS=Ovis orientalis musimon GN=HBBC PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.6   0.2   7.5e-56   3.6e-53       7     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.6 bits;  conditional E-value: 7.5e-56
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           +k  ++  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLst+d++ ++a+vk+Hgkkvld +s+++++ld +l++++++LselH
+  sp|P68057|HBBC_OVIMU   2 NKALITGFWSKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSTADAVLGNAKVKAHGKKVLDSFSNGVQHLD-DLKGTFAQLSELH 87 
+                           58899*******..9***********************************************************9.************* PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           ++kl+vdp++f+ll++vlv+vla +++keft++ qa ++K++a va +la++Y+
+  sp|P68057|HBBC_OVIMU  88 CDKLHVDPENFRLLGNVLVVVLARHFGKEFTPELQAEFQKVVAGVASALAHRYH 141
+                           *****************************************************7 PP
+
+>> sp|P51443|HBE_SAGMI  Hemoglobin subunit epsilon OS=Saguinus midas GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.4   0.1   8.6e-56   4.2e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.4 bits;  conditional E-value: 8.6e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P51443|HBE_SAGMI   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSFPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P51443|HBE_SAGMI  89 LSELHCDKLHVDPENFRLLGNVLVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P14389|HBA_PTEAL  Hemoglobin subunit alpha OS=Pteropus alecto GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.4   0.2   8.7e-56   4.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.4 bits;  conditional E-value: 8.7e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +k++vka+W kv+ +v+e+Ga++L+r+f+s+P+t+++F++F dL      ++s +vk+Hgkkv dAl++a+ ++d +l+++l++L
+  sp|P14389|HBA_PTEAL   1 VLSSTDKSNVKAAWDKVGGHVGEYGAEALERMFLSFPTTKTYFPHF-DLA-----HGSSQVKAHGKKVGDALTNAVGHID-DLPGALSAL 83 
+                          69********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P14389|HBA_PTEAL  84 SDLHAYKLRVDPVNFKLLSHCLLVTLASHLPSDFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P11755|HBA1_TADBR  Hemoglobin subunit alpha-1 OS=Tadarida brasiliensis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.4   0.0   8.8e-56   4.3e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.4 bits;  conditional E-value: 8.8e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+++k++vka+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hgkkv +Al+ a++++d +l+++l++
+  sp|P11755|HBA1_TADBR   1 VLSPEDKNNVKAAWSKVGGQAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGKKVGEALTTAVNHMD-DLPGALST 82 
+                           69********************************************.***.....*************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa kl+vdp +fklls++l+++la + p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P11755|HBA1_TADBR  83 LSDLHAYKLRVDPVNFKLLSHCLLVTLACHNPGEFTPAVHASLDKFLASVSTVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P02097|HBG_MACNE  Hemoglobin subunit gamma OS=Macaca nemestrina GN=HBG PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.3   0.0     9e-56   4.4e-53       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.3 bits;  conditional E-value: 9e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++L
+  sp|P02097|HBG_MACNE   2 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKNLD-DLKGTFAQL 88 
+                          6799*************..************************************************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++vlv+vla r++keft++vqa+ +K++a va +l+s+Y+
+  sp|P02097|HBG_MACNE  89 SELHCDKLHVDPENFRLLGNVLVTVLAIRFGKEFTPEVQASWQKMVAGVASALSSRYH 146
+                          *********************************************************7 PP
+
+>> sp|P01958|HBA_HORSE  Hemoglobin subunit alpha OS=Equus caballus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.3   0.3   9.2e-56   4.5e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.3 bits;  conditional E-value: 9.2e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e+Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++L
+  sp|P01958|HBA_HORSE   2 VLSAADKTNVKAAWSKVGGHAGEYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSNL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|P01958|HBA_HORSE  85 SDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSSVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P51440|HBE_LAGLA  Hemoglobin subunit epsilon OS=Lagothrix lagotricha GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.3   0.2   9.3e-56   4.5e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.3 bits;  conditional E-value: 9.3e-56
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P51440|HBE_LAGLA   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFEDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P51440|HBE_LAGLA  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|D0VX09|HBA_PTEGI  Hemoglobin subunit alpha OS=Pteropus giganteus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.3   0.1   9.6e-56   4.7e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.3 bits;  conditional E-value: 9.6e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +k++vka+W kv+ +v+e+Ga++L+r+f+s+P+t+++F++F dL      ++s +vk+Hgkkv dAl++a+ ++d +l+++l++L
+  sp|D0VX09|HBA_PTEGI   1 VLSSTDKSNVKAAWDKVGGNVGEYGAEALERMFLSFPTTKTYFPHF-DLA-----HGSSQVKAHGKKVGDALTNAVGHID-DLPGALSAL 83 
+                          69********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|D0VX09|HBA_PTEGI  84 SDLHAYKLRVDPVNFKLLSHCLLVTLASHLPSDFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07403|HBA_SPETO  Hemoglobin subunit alpha OS=Spermophilus townsendii GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.3   0.9   9.6e-56   4.7e-53       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.3 bits;  conditional E-value: 9.6e-56
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka W k++ + + +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+v+ Hgkkv+dAl++a a++d +l+++l++L
+  sp|P07403|HBA_SPETO   1 VLSPADKNNVKACWEKIGGHGAAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVQGHGKKVADALANAAAHVD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|P07403|HBA_SPETO  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18995|HBG1_PONPY  Hemoglobin subunit gamma-1 OS=Pongo pygmaeus GN=HBG1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.2   0.0   9.7e-56   4.7e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.2 bits;  conditional E-value: 9.7e-56
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P18995|HBG1_PONPY   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAIKNLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P18995|HBG1_PONPY  89 LSELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P02082|HBBF_CAPHI  Hemoglobin fetal subunit beta OS=Capra hircus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  184.1   0.0   1.1e-55   5.3e-53       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 184.1 bits;  conditional E-value: 1.1e-55
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek  v++++akv  +vee+G+++L rl++++P+tq+fFe+F+dLs +d++ ++++vk+Hgkkvld +s++l++ld +l++++++L
+  sp|P02082|HBBF_CAPHI   2 LSAEEKASVLSLFAKV--NVEEVGGEALGRLLVVYPWTQRFFEHFGDLSSADAILGNPKVKAHGKKVLDTFSEGLKQLD-DLKGAFASL 87 
+                           9***************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla r+++eft++ qa ++K++  va++la++Y+
+  sp|P02082|HBBF_CAPHI  88 SELHCDKLHVDPENFRLLGNVLVVVLARRFGGEFTPELQANFQKVVTGVANALAHRYH 145
+                           *********************************************************7 PP
+
+>> sp|Q9TVA3|HBA2_EQUBU  Hemoglobin subunit alpha-2 OS=Equus burchelli GN=HBA2 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.9   0.2   1.2e-55   6.1e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.9 bits;  conditional E-value: 1.2e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++
+  sp|Q9TVA3|HBA2_EQUBU   2 VLSAADKTNVKAAWGKVGGNAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSN 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|Q9TVA3|HBA2_EQUBU  84 LSDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|Q9TSN9|HBA3_BUBBU  Hemoglobin subunit alpha-3 OS=Bubalus bubalis PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.9   0.8   1.3e-55   6.1e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.9 bits;  conditional E-value: 1.3e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+k++v+a+W+kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk Hg kv+ Al++a+ +ld +l+++l++
+  sp|Q9TSN9|HBA3_BUBBU   2 VLSAADKSNVQAAWGKVGGHAADYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKGHGAKVAAALTKAVGHLD-DLPGALSE 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls+ l+++la++lp++ft++v+a+l+K++a v+++l+skY+
+  sp|Q9TSN9|HBA3_BUBBU  84 LSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPNDFTPAVHASLDKFFANVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P14526|HBB_BRATR  Hemoglobin subunit beta OS=Bradypus tridactylus GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.8   1.1   1.3e-55   6.6e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.8 bits;  conditional E-value: 1.3e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek +v a+W kv  +vee G+++L rl++++P+t +fFe+F+dLs +d++ ++a+vk+Hgkkvl+ ++++l++ld +l++++++
+  sp|P14526|HBB_BRATR   2 VHLADDEKAAVSALWHKV--HVEEFGGEALGRLLVVYPWTSRFFESFGDLSSADAVFSNAKVKAHGKKVLTSFGEGLKHLD-DLKGTYAH 88 
+                          689***************..************************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv vla +++keft++ qaa++K+   v+++la+kY+
+  sp|P14526|HBB_BRATR  89 LSELHCDKLHVDPENFKLLGNVLVIVLARHFGKEFTPQLQAAYQKVTTGVSTALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01942|HBA_MOUSE  Hemoglobin subunit alpha OS=Mus musculus GN=Hba PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.8   0.4   1.4e-55   6.7e-53       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.8 bits;  conditional E-value: 1.4e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k+++ka+W+k++ + +e+Ga++L+r+f s+P+t+++F++F d+s     ++sa+vk Hgkkv+dAl+ a  +ld +l+++l++L
+  sp|P01942|HBA_MOUSE   2 VLSGEDKSNIKAAWGKIGGHGAEYGAEALERMFASFPTTKTYFPHF-DVS-----HGSAQVKGHGKKVADALASAAGHLD-DLPGALSAL 84 
+                          79********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01942|HBA_MOUSE  85 SDLHAHKLRVDPVNFKLLSHCLLVTLASHHPADFTPAVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P68058|HBBC_AMMLE  Hemoglobin subunit beta-C OS=Ammotragus lervia PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.7   0.2   1.4e-55   6.7e-53       7     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.7 bits;  conditional E-value: 1.4e-55
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           +k  ++  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLst+d++ ++a+vk+Hgkkvld +s+++++ld +l++++++LselH
+  sp|P68058|HBBC_AMMLE   2 NKALITGFWSKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSTADAVLGNAKVKAHGKKVLDSFSZGVQHLD-DLKGTFAQLSELH 87 
+                           58899*******..9***********************************************************9.************* PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           ++kl+vdp++f+ll++vlv+vla +++keft++ qa ++K++a va +la++Y+
+  sp|P68058|HBBC_AMMLE  88 CDKLHVDPENFRLLGNVLVVVLARHFGKEFTPELQAEFQKVVAGVASALAHRYH 141
+                           *****************************************************7 PP
+
+>> sp|P68028|HBE_SAISC  Hemoglobin subunit epsilon OS=Saimiri sciureus GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.5   0.2   1.6e-55   7.8e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.5 bits;  conditional E-value: 1.6e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68028|HBE_SAISC   2 VHFTAEEKAAITSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68028|HBE_SAISC  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P68029|HBE_SAIBB  Hemoglobin subunit epsilon OS=Saimiri boliviensis boliviensis GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.5   0.2   1.6e-55   7.8e-53       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.5 bits;  conditional E-value: 1.6e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P68029|HBE_SAIBB   2 VHFTAEEKAAITSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P68029|HBE_SAIBB  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P56208|MYG_CARCR  Myoglobin OS=Caretta caretta GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.5   1.1   1.6e-55   7.8e-53       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.5 bits;  conditional E-value: 1.6e-55
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+ +Wakve d   +G+++++rlf+ +P+tqe F kFk+L+t d+lk+s++vkkHg +vl+Al+ +l++ ++++e++lk+L+
+  sp|P56208|MYG_CARCR   3 LSDDEWNHVLGIWAKVEPDLSAHGQEVIIRLFQLHPETQERFAKFKNLTTIDALKSSEEVKKHGTTVLTALGRILKQ-KNNHEQELKPLA 91 
+                          99***************************************************************************.88********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++ e++v+v+a+++p++f+ad qaa++K+l+l+++++askYk
+  sp|P56208|MYG_CARCR  92 ESHATKHKIPVKYLEFICEIIVKVIAEKHPSDFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P02087|HBB_DASNO  Hemoglobin subunit beta OS=Dasypus novemcinctus GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.4   0.5   1.7e-55   8.3e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.4 bits;  conditional E-value: 1.7e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+ +ekt+v+a+W kv  dve+ G+++L rl++++P+tq+fFe+F+dLst++++ ++a+vk+Hgkkvl+ +++++++ld +l++++++L
+  sp|P02087|HBB_DASNO   3 NLTSDEKTAVLALWNKV--DVEDCGGEALGRLLVVYPWTQRFFESFGDLSTPAAVFANAKVKAHGKKVLTSFGEGMNHLD-NLKGTFAKL 89 
+                          799**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++fkll+++lv+vla +++kef  +++a ++K++a va++la+kY+
+  sp|P02087|HBB_DASNO  90 SELHCDKLHVDPENFKLLGNMLVVVLARHFGKEFDWHMHACFQKVVAGVANALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P02052|HBB_TUPGL  Hemoglobin subunit beta OS=Tupaia glis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.5   0.0   1.7e-55   8.2e-53       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.5 bits;  conditional E-value: 1.7e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek +v+ +W+kv  d e++G++ L  l+ ++P+tq+fF++F+dLs + +++++++vk+Hgkkvl+ +sd+l++ld +l++++++
+  sp|P02052|HBB_TUPGL   1 VHLSGEEKAAVTGLWGKV--DLEKVGGQSLGSLLIVYPWTQRFFDSFGDLSSPSAVMSNPKVKAHGKKVLTSFSDGLNHLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv vla +++ eft++vqaa++K++a va++la+kY+
+  sp|P02052|HBB_TUPGL  88 LSELHCDKLHVDPENFRLLGNVLVRVLACNFGPEFTPQVQAAFQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P02202|MYG_CHEMY  Myoglobin OS=Chelonia mydas GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.4   1.1   1.8e-55   8.8e-53       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.4 bits;  conditional E-value: 1.8e-55
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+++v+ +Wakve d   +G+++++rlf+ +P+tqe F kFk+L+t d+lk+s++vkkHg +vl+Al+ +l++ ++++e++lk+L+
+  sp|P02202|MYG_CHEMY   3 LSDDEWNHVLGIWAKVEPDLTAHGQEVIIRLFQLHPETQERFAKFKNLTTIDALKSSEEVKKHGTTVLTALGRILKQ-KNNHEQELKPLA 91 
+                          99***************************************************************************.88********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++ e++v+v+a+++p++f+ad qaa++K+l+l+++++askYk
+  sp|P02202|MYG_CHEMY  92 ESHATKHKIPVKYLEFICEIIVKVIAEKHPSDFGADSQAAMKKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|P62741|HBG1_GORGO  Hemoglobin subunit gamma-1 OS=Gorilla gorilla gorilla GN=HBG1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.3   0.0   1.9e-55   9.5e-53       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.3 bits;  conditional E-value: 1.9e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+ a+++ld +l++++++
+  sp|P62741|HBG1_GORGO   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGGAIKHLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P62741|HBG1_GORGO  89 LSELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTAVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P61948|HBG2_HYLLA  Hemoglobin subunit gamma-2 OS=Hylobates lar GN=HBG2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.1   0.0   2.1e-55     1e-52       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.1 bits;  conditional E-value: 2.1e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve++G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+ a+++ld +l++++++
+  sp|P61948|HBG2_HYLLA   3 HFTEEDKATITSLWGKV--NVEDVGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGGAIKNLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l+s+Y+
+  sp|P61948|HBG2_HYLLA  89 LSELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVAGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P09906|HBA_RHIUN  Hemoglobin subunit alpha OS=Rhinoceros unicornis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.1   0.3   2.2e-55   1.1e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.1 bits;  conditional E-value: 2.2e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +kt+vk++W+ v+a+++e+Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a+ +ld +l+++l++L
+  sp|P09906|HBA_RHIUN   1 VLSPTDKTNVKTAWSHVGAHAGEYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTQAVGHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la + p++ft++v+a+l+K+l+ v+++l+skY+
+  sp|P09906|HBA_RHIUN  84 SDLHAYKLRVDPVNFKLLSHCLLVTLALHNPQDFTPAVHASLDKFLSNVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P51441|HBE_LEORO  Hemoglobin subunit epsilon OS=Leontopithecus rosalia GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.1   0.1   2.2e-55   1.1e-52       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.1 bits;  conditional E-value: 2.2e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G++ L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P51441|HBE_LEORO   2 VHFTAEEKAAITSLWGKM--NVEEAGGESLGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P51441|HBE_LEORO  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P18970|HBA_AILME  Hemoglobin subunit alpha OS=Ailuropoda melanoleuca GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  183.0   0.2   2.3e-55   1.1e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 183.0 bits;  conditional E-value: 2.3e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W k++ +++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|P18970|HBA_AILME   2 VLSPADKTNVKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVGHLD-DLPGALSAL 84 
+                          8*********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P18970|HBA_AILME  85 SDLHAHKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P51442|HBE_PITIR  Hemoglobin subunit epsilon OS=Pithecia irrorata GN=HBE1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.9   0.2   2.4e-55   1.2e-52       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.9 bits;  conditional E-value: 2.4e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++ +vk+Hgkkvl+ ++da++++d +l++++++
+  sp|P51442|HBE_PITIR   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNLKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|P51442|HBE_PITIR  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q9XSE9|HBA_EQUPR  Hemoglobin subunit alpha OS=Equus caballus przewalskii GN=HBA PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.9   0.3   2.5e-55   1.2e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.9 bits;  conditional E-value: 2.5e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++L
+  sp|Q9XSE9|HBA_EQUPR   2 VLSAADKTNVKAAWSKVGGHAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSNL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|Q9XSE9|HBA_EQUPR  85 SDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSSVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q7LZB9|HBB_STROE  Hemoglobin subunit beta OS=Streptopelia orientalis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.9   0.2   2.5e-55   1.2e-52       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.9 bits;  conditional E-value: 2.5e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++++W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ ++++vk+Hgkkvl+ ++da+++ld ++++++++L
+  sp|Q7LZB9|HBB_STROE   2 HWSAEEKQLITSIWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSATAISGNPNVKAHGKKVLTSFGDAVKNLD-NIKGTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++fkll+++lv vlaa+++k+ft++ qaa +Kl+ +va++la kY+
+  sp|Q7LZB9|HBB_STROE  89 SELHCNKLHVDPENFKLLGDILVIVLAAHFGKDFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|Q29415|HBE_CEBOL  Hemoglobin subunit epsilon OS=Cebus olivaceus GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.8   0.2   2.6e-55   1.3e-52       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.8 bits;  conditional E-value: 2.6e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|Q29415|HBE_CEBOL   2 VHFTAEEKVAITSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|Q29415|HBE_CEBOL  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|Q7JFR7|HBE_CEBKA  Hemoglobin subunit epsilon OS=Cebus kaapori GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.8   0.2   2.6e-55   1.3e-52       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.8 bits;  conditional E-value: 2.6e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|Q7JFR7|HBE_CEBKA   2 VHFTAEEKVAITSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|Q7JFR7|HBE_CEBKA  89 LSELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01965|HBA_PIG  Hemoglobin subunit alpha OS=Sus scrofa GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.8   0.7   2.7e-55   1.3e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.8 bits;  conditional E-value: 2.7e-55
+           globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                        vLs+a+k +vka+W+kv+ +++ +Ga++L+r+f+ +P+t+++F++F +Ls     ++s++vk+Hg+kv+dAl++a+ +ld +l+++l++Ls+
+  sp|P01965|HBA_PIG   1 VLSAADKANVKAAWGKVGGQAGAHGAEALERMFLGFPTTKTYFPHF-NLS-----HGSDQVKAHGQKVADALTKAVGHLD-DLPGALSALSD 85 
+                        69********************************************.9**.....************************9.*********** PP
+
+           globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        lHa+kl+vdp +fklls++l+++laa++p +f ++v+a+l+K+la v+++l+skY+
+  sp|P01965|HBA_PIG  86 LHAHKLRVDPVNFKLLSHCLLVTLAAHHPDDFNPSVHASLDKFLANVSTVLTSKYR 141
+                        *******************************************************7 PP
+
+>> sp|P01944|HBA_ONDZI  Hemoglobin subunit alpha OS=Ondatra zibethicus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.7   0.3   2.8e-55   1.4e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.7 bits;  conditional E-value: 2.8e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k+++k++W+k++ +++e+Ga++L+r+f+++P+t+++F++F d+s     ++s +vk+Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|P01944|HBA_ONDZI   1 VLSGEDKNNIKTAWGKIGGHAAEYGAEALERMFVVYPTTKTYFPHF-DVS-----HGSGQVKAHGKKVADALTTAVGHLD-DLPGALSAL 83 
+                          69********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la++ p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01944|HBA_ONDZI  84 SDLHAHKLRVDPVNFKLLSHCLLVTLANHIPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P63109|HBA_PANON  Hemoglobin subunit alpha OS=Panthera onca GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.7   0.4   2.8e-55   1.4e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.7 bits;  conditional E-value: 2.8e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k++vka W+k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+v++Hg+kv+dAl++a+a+++ +l+++l+dL
+  sp|P63109|HBA_PANON   2 VLSSADKNNVKACWGKIGSHAGEYGAEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVQAHGQKVADALTKAVAHIN-DLPNALSDL 84 
+                          89********************************************.***.....***********************98.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P63109|HBA_PANON  85 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPEEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02099|HBG_RABIT  Hemoglobin subunit gamma OS=Oryctolagus cuniculus GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.6   0.7     3e-55   1.5e-52       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.6 bits;  conditional E-value: 3e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek ++++ W  v  dve+ Ga++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+A++da++++d +l++++++
+  sp|P02099|HBG_RABIT   2 VHFTAEEKAAITSTWKLV--DVEDAGAEALGRLLVVYPWTQRFFDSFGNLSSSSAIMGNPKVKAHGKKVLTAFGDAVKNVD-DLKNTFAH 88 
+                          5789**************..************************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH+++l+vdp++fkll++vlv vla+ ++keft++vq+a +Kl+a va++la+kY+
+  sp|P02099|HBG_RABIT  89 LSELHCDRLHVDPENFKLLGNVLVIVLAKYFGKEFTPQVQSAWQKLVAGVATALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01962|HBA_TAPTE  Hemoglobin subunit alpha-1/2 OS=Tapirus terrestris PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.5   0.1   3.3e-55   1.6e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.5 bits;  conditional E-value: 3.3e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +kt+vka+W+kv+++++e+Ga++L+r+f+ +P+t+++F++F dLs     ++sa+v++Hgkkv dAl++a+ +ld +l+++l++L
+  sp|P01962|HBA_TAPTE   1 VLSPTDKTNVKAAWSKVGSHAGEYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVQAHGKKVGDALTQAVGHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p +ft++++a+l+K+l+ v+++l+skY+
+  sp|P01962|HBA_TAPTE  84 SDLHAYKLRVDPVNFKLLSHCLLVTLALHHPDDFTPAIHASLDKFLSNVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01959|HBA_EQUAS  Hemoglobin subunit alpha OS=Equus asinus GN=HBA1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.5   0.2   3.4e-55   1.7e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.5 bits;  conditional E-value: 3.4e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++L
+  sp|P01959|HBA_EQUAS   2 VLSAADKTNVKAAWSKVGGNAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSNL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|P01959|HBA_EQUAS  85 SDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01960|HBA_EQUZE  Hemoglobin subunit alpha OS=Equus zebra GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.5   0.2   3.4e-55   1.7e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.5 bits;  conditional E-value: 3.4e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++L
+  sp|P01960|HBA_EQUZE   2 VLSAADKTNVKAAWSKVGGNAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSNL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|P01960|HBA_EQUZE  85 SDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q7JFN6|HBA2_EQUGR  Hemoglobin subunit alpha-2 OS=Equus grevyi GN=HBA2 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.5   0.2   3.4e-55   1.7e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.5 bits;  conditional E-value: 3.4e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++
+  sp|Q7JFN6|HBA2_EQUGR   2 VLSAADKTNVKAAWSKVGGNAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSN 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|Q7JFN6|HBA2_EQUGR  84 LSDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P01941|HBA_TUPGL  Hemoglobin subunit alpha OS=Tupaia glis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.4   0.1   3.4e-55   1.7e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.4 bits;  conditional E-value: 3.4e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k+++ka+W+k++ ++ ++Ga++L+r+f+s+P+t+++F++F d+s     ++sa++++Hgkkv+dAls a+ +ld +l+++l++L
+  sp|P01941|HBA_TUPGL   1 VLSPGDKSNIKAAWGKIGGQAPQYGAEALERMFLSFPTTKTYFPHF-DMS-----HGSAQIQAHGKKVADALSTAVGHLD-DLPTALSAL 83 
+                          69********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++++++la ++p++ft++++a+l+K+la v+++l+skY+
+  sp|P01941|HBA_TUPGL  84 SDLHAHKLRVDPANFKLLSHCILVTLACHHPGDFTPEIHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P61947|HBG1_HYLLA  Hemoglobin subunit gamma-1 OS=Hylobates lar GN=HBG1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.4   0.0   3.5e-55   1.7e-52       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.4 bits;  conditional E-value: 3.5e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+ a+++ld +l++++++
+  sp|P61947|HBG1_HYLLA   3 HFTEEDKATITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGGAIKNLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l+s+Y+
+  sp|P61947|HBG1_HYLLA  89 LSELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVAGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P41330|HBA2_ARCGA  Hemoglobin subunit alpha-2 OS=Arctocephalus galapagoensis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.2   0.4   4.1e-55     2e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.2 bits;  conditional E-value: 4.1e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vk+ W k + +++e+G+++L+r f+++P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl+ a+a++d +l+++l++
+  sp|P41330|HBA2_ARCGA   2 VLSPADKTNVKTTWDKLGGHAGEYGGEALERTFTAFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTTAVAHMD-DLPGALSA 83 
+                           8*********************************************.***.....*************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P41330|HBA2_ARCGA  84 LSDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P63110|HBA_PANPO  Hemoglobin subunit alpha OS=Panthera pardus orientalis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.2   0.3   4.2e-55     2e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.2 bits;  conditional E-value: 4.2e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k++vka W+k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+v++Hg+kv+dAl++a+a+++ +l+++l+dL
+  sp|P63110|HBA_PANPO   1 VLSSADKNNVKACWGKIGSHAGEYGAEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVQAHGQKVADALTKAVAHIN-DLPNALSDL 83 
+                          69********************************************.***.....***********************98.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P63110|HBA_PANPO  84 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPEEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02083|HBBF_SHEEP  Hemoglobin fetal subunit beta OS=Ovis aries PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.1   0.0   4.3e-55   2.1e-52       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.1 bits;  conditional E-value: 4.3e-55
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+++ek  v +++akv  +vee+G+++L rl++++P+tq+fFe+F+dLs +d++ ++++vk Hgkkvl+ +s++l++ld +l++++++L
+  sp|P02083|HBBF_SHEEP   2 LTAEEKASVISLFAKV--NVEEVGGEALGRLLVVYPWTQRFFEHFGDLSSADAILGNPKVKGHGKKVLNSFSEGLKQLD-DLKGAFASL 87 
+                           99**************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla r+++eft++ qa ++K++  va++la++Y+
+  sp|P02083|HBBF_SHEEP  88 SELHCDKLHVDPENFRLLGNVLVVVLARRFGGEFTPELQANFQKVVTGVANALAHRYH 145
+                           *********************************************************7 PP
+
+>> sp|P16418|HBB_LIOMI  Hemoglobin subunit beta OS=Liophis miliaris GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.1   1.1   4.3e-55   2.1e-52       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 182.1 bits;  conditional E-value: 4.3e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek++++a+W+kv  dv+  G+++L rl+ ++P+tq+fF +F++Ls +++++++a+vk+Hgkkv +A++da+++  e ++ ++++L
+  sp|P16418|HBB_LIOMI   2 HWTAEEKSAITAIWGKV--DVAAIGGEALCRLLIVYPWTQRFFTSFGNLSNAAAIQSNAQVKAHGKKVFTAFGDAVKN-PEGVKDTFAKL 88 
+                          6799*************..***********************************************************.669******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp +fkll+++l++vlaa+++k+ft++vqaa++Kl+++va++la++Y+
+  sp|P16418|HBB_LIOMI  89 SELHCDKLHVDPVNFKLLGQILITVLAAHFGKDFTPNVQAAYQKLVSVVAHALAHQYH 146
+                          *********************************************************7 PP
+
+>> sp|Q9XSN3|HBA1_EQUBU  Hemoglobin subunit alpha-1 OS=Equus burchelli GN=HBA1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.1   0.1   4.4e-55   2.1e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.1 bits;  conditional E-value: 4.4e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+++k++vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++
+  sp|Q9XSN3|HBA1_EQUBU   2 VLSADDKSNVKAAWGKVGGNAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSN 83 
+                           89********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|Q9XSN3|HBA1_EQUBU  84 LSDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P02111|HBB_ORNAN  Hemoglobin subunit beta OS=Ornithorhynchus anatinus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.1   0.0   4.5e-55   2.2e-52       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.1 bits;  conditional E-value: 4.5e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek++v+++W+kv  +++e G+++L rl++++P+tq+fFe F+dLs + +++++++vk+Hg kvl+ ++dal++ld +l++++++
+  sp|P02111|HBB_ORNAN   1 VHLSGGEKSAVTNLWGKV--NINELGGEALGRLLVVYPWTQRFFEAFGDLSSAGAVMGNPKVKAHGAKVLTSFGDALKNLD-DLKGTFAK 87 
+                          69****************..************************************************************9.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ l++vl++vla +++k+f+++vqaa +Kl++ va++l +kY+
+  sp|P02111|HBB_ORNAN  88 LSELHCDKLHVDPENFNRLGNVLIVVLARHFSKDFSPEVQAAWQKLVSGVAHALGHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q28220|HBE_CEBAL  Hemoglobin subunit epsilon OS=Cebus albifrons GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.1   0.2   4.5e-55   2.2e-52       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.1 bits;  conditional E-value: 4.5e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++L
+  sp|Q28220|HBE_CEBAL   3 HFTADEKVAITSLWSKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAKL 89 
+                          7899*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll++v+v +la++++keft++vqaa +Kl++ va++l +kY+
+  sp|Q28220|HBE_CEBAL  90 SELHCDKLHVDPENFRLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALGHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P11342|HBB_COLLI  Hemoglobin subunit beta OS=Columba livia GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  182.0   0.1   4.7e-55   2.3e-52       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 182.0 bits;  conditional E-value: 4.7e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++++W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ ++++vk+Hgkkvl+ ++da+++ld ++++++++L
+  sp|P11342|HBB_COLLI   2 HWSAEEKQLITSIWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSATAISGNPNVKAHGKKVLTSFGDAVKNLD-NIKGTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++lv +laa+++k+ft++ qaa +Kl+ +va++la kY+
+  sp|P11342|HBB_COLLI  89 SELHCDKLHVDPENFRLLGDILVIILAAHFGKDFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P10883|HBA_PANTS  Hemoglobin subunit alpha OS=Panthera tigris sumatrae GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.9   0.3   4.9e-55   2.4e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.9 bits;  conditional E-value: 4.9e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k++vka W+k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+v++Hg+kv+dAl++a+a+++ +l+++l+dL
+  sp|P10883|HBA_PANTS   1 VLSSADKNNVKACWGKIGSHAGEYGAEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVQTHGQKVADALTKAVAHIN-NLPNALSDL 83 
+                          69********************************************.***.....***********************99.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P10883|HBA_PANTS  84 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPEEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18976|HBA_PANPS  Hemoglobin subunit alpha OS=Panthera pardus saxicolor GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.8   0.3   5.4e-55   2.6e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.8 bits;  conditional E-value: 5.4e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k++vka W+k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+v++Hg+kv+dAl++a+a+++ +l+++l+dL
+  sp|P18976|HBA_PANPS   1 VLSSADKNNVKACWGKIGSHAGEYGAEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVQTHGQKVADALTKAVAHIN-DLPNALSDL 83 
+                          69********************************************.***.....***********************98.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P18976|HBA_PANPS  84 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPEEFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02201|MYG_GRAGE  Myoglobin OS=Graptemys geographica GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.8   0.5   5.5e-55   2.7e-52       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.8 bits;  conditional E-value: 5.5e-55
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+ +v+ +Wakve d   +G+++++rlf+++P+tqe F kFk+L+t del++s++vkkHg +vl+Al+ +l+  ++++e +lk+L+
+  sp|P02201|MYG_GRAGE   3 LSDDEWHHVLGIWAKVEPDLSAHGQEVIIRLFQVHPETQERFAKFKNLKTIDELRSSEEVKKHGTTVLTALGRILKL-KNNHEPELKPLA 91 
+                          99************************************************************************987.88********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha+k+k+++ky++++ e++v+v+a+++p++f+ad qaa+ K+l+l+++++askYk
+  sp|P02201|MYG_GRAGE  92 ESHATKHKIPVKYLEFICEIIVKVIAEKHPSDFGADSQAAMRKALELFRNDMASKYK 148
+                          ********************************************************7 PP
+
+>> sp|B3EWC9|HBA_SPEBE  Hemoglobin subunit alpha OS=Spermophilus beecheyi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.6   0.6   6.3e-55   3.1e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.6 bits;  conditional E-value: 6.3e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W k + + + +Ga++L+r+f+s+P+t+++F++F dLs     ++sa+++ Hgkkv+dAl++a a++d +l+++l++L
+  sp|B3EWC9|HBA_SPEBE   1 VLSPADKTNVKASWEKLGGHGAAYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQLQGHGKKVADALANAAAHVD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWC9|HBA_SPEBE  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18996|HBG2_PONPY  Hemoglobin subunit gamma-2 OS=Pongo pygmaeus GN=HBG2 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.5   0.0   6.7e-55   3.3e-52       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.5 bits;  conditional E-value: 6.7e-55
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +e++k +++++W+k   +ve+ G++ L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ l+da+++ld +l++++++
+  sp|P18996|HBG2_PONPY   3 HFTEEDKATITSLWGKL--NVEDAGGETLGRLLLVYPWTQRFFDSFGNLSSASAIMGNPKVKAHGKKVLTSLGDAVKNLD-DLKGTFAQ 88 
+                           6799*************..************************************************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++  va +l+s+Y+
+  sp|P18996|HBG2_PONPY  89 LSELHCDKLHVDPENFRLLGNVLVTVLAIHFGKEFTPEVQASWQKMVTGVASALSSRYH 147
+                           **********************************************************7 PP
+
+>> sp|P02081|HBBF_BOVIN  Hemoglobin fetal subunit beta OS=Bos taurus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.4   0.0   7.3e-55   3.6e-52       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.4 bits;  conditional E-value: 7.3e-55
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek +v++++akv  +v+e+G+++L rl++++P+tq+fFe+F+dLs +d++ ++++vk+Hgkkvld + ++l++ld +l++++++L
+  sp|P02081|HBBF_BOVIN   2 LSAEEKAAVTSLFAKV--KVDEVGGEALGRLLVVYPWTQRFFESFGDLSSADAILGNPKVKAHGKKVLDSFCEGLKQLD-DLKGAFASL 87 
+                           9***************..9***********************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla r+++ef+++ qa+++K++  va++la++Y+
+  sp|P02081|HBBF_BOVIN  88 SELHCDKLHVDPENFRLLGNVLVVVLARRFGSEFSPELQASFQKVVTGVANALAHRYH 145
+                           *********************************************************7 PP
+
+>> sp|P01961|HBA_EQUHE  Hemoglobin subunit alpha-1/2 OS=Equus hemionus kulan PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.3   0.2   7.5e-55   3.7e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.3 bits;  conditional E-value: 7.5e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ ++++ Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++L
+  sp|P01961|HBA_EQUHE   2 VLSAADKTNVKAAWSKVGGNAGDFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSNL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+ +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|P01961|HBA_EQUHE  85 SDLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P80216|HBB_APTFO  Hemoglobin subunit beta OS=Aptenodytes forsteri GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.2   0.2   8.3e-55     4e-52       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.2 bits;  conditional E-value: 8.3e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls ++++ +++ v++Hgkkvl+ ++da++++d ++++++++L
+  sp|P80216|HBB_APTFO   2 HWSAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSPAAVLANPMVRAHGKKVLTSFGDAVKNMD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P80216|HBB_APTFO  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPDCQAAAQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|Q2KPA4|HBB_SCAAQ  Hemoglobin subunit beta OS=Scalopus aquaticus GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.2   0.1   8.4e-55   4.1e-52       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.2 bits;  conditional E-value: 8.4e-55
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v++s++ek  v+++W+kv  +v++ Ga++L rl++++P+tq+fF++F+dLs +++++++++vk+Hgkkv++ +sd++++ld +l++++++
+  sp|Q2KPA4|HBB_SCAAQ   2 VHMSAEEKGIVTSMWGKV--NVDDIGAEALGRLLVVYPWTQRFFDSFGDLSSPAAIMGNPKVKAHGKKVAHSISDGIKNLD-NLKGTYAK 88 
+                          689***************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+vla +l+keft+++ +a++K++  va +la+kY+
+  sp|Q2KPA4|HBB_SCAAQ  89 LSELHCDKLHVDPENFRLLGNVLVCVLARNLGKEFTPHARTAFQKMVLEVAAALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P01943|HBA_SPAEH  Hemoglobin subunit alpha OS=Spalax ehrenbergi GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.2   0.3   8.5e-55   4.1e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.2 bits;  conditional E-value: 8.5e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++v++ W k++ + +e+Ga++L+r+f+s+P+t+++F++F d+s     ++sa+vk+Hgkkv+dAl++a  +ld +l+++l++L
+  sp|P01943|HBA_SPAEH   1 VLSPEDKNHVRSTWDKIGGHGAEYGAEALERMFTSFPTTKTYFPHF-DVS-----HGSAQVKAHGKKVADALANAAGHLD-DLPGALSAL 83 
+                          69********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p+eft+ v+a+l+K+la+v+++l+skY+
+  sp|P01943|HBA_SPAEH  84 SDLHAHKLRVDPVNFKLLSHCLLVTLANHHPAEFTPGVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01950|HBA_SUNMU  Hemoglobin subunit alpha OS=Suncus murinus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.1   0.8   9.1e-55   4.4e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.1 bits;  conditional E-value: 9.1e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k +vka+W kv+ +++++Ga++L+r f s+P+t+++F+++ dLs      +sa+vk+Hgkkv+dAl++a+ ++d +l+++l++L
+  sp|P01950|HBA_SUNMU   1 VLSANDKANVKAAWDKVGGQAANYGAEALERTFASFPTTKTYFPHY-DLS-----PGSAQVKAHGKKVADALTKAVGSMD-DLPGALSAL 83 
+                          69********************************************.9**.....9************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|P01950|HBA_SUNMU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68235|HBA_URSMA  Hemoglobin subunit alpha OS=Ursus maritimus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.1   0.3   9.2e-55   4.5e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.1 bits;  conditional E-value: 9.2e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka W k++++++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a  +ld +l+++l++L
+  sp|P68235|HBA_URSMA   2 VLSPADKSNVKATWDKIGSHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAAGHLD-DLPGALSAL 84 
+                          8*********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+ls++l+++la+++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P68235|HBA_URSMA  85 SDLHAHKLRVDPVNFKFLSHCLLVTLASHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P68236|HBA_URSTH  Hemoglobin subunit alpha OS=Ursus thibetanus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.1   0.3   9.2e-55   4.5e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.1 bits;  conditional E-value: 9.2e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka W k++++++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a  +ld +l+++l++L
+  sp|P68236|HBA_URSTH   2 VLSPADKSNVKATWDKIGSHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAAGHLD-DLPGALSAL 84 
+                          8*********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+ls++l+++la+++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P68236|HBA_URSTH  85 SDLHAHKLRVDPVNFKFLSHCLLVTLASHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P68237|HBA_URSML  Hemoglobin subunit alpha OS=Ursus malayanus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  181.1   0.3   9.2e-55   4.5e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 181.1 bits;  conditional E-value: 9.2e-55
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka W k++++++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a  +ld +l+++l++L
+  sp|P68237|HBA_URSML   2 VLSPADKSNVKATWDKIGSHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAAGHLD-DLPGALSAL 84 
+                          8*********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+ls++l+++la+++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P68237|HBA_URSML  85 SDLHAHKLRVDPVNFKFLSHCLLVTLASHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|B3EWD5|HBA_PERCA  Hemoglobin subunit alpha OS=Peromyscus californicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.9   0.4     1e-54     5e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.9 bits;  conditional E-value: 1e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k +vka+W+k + + +e+Ga++L r+f s+P+t+++F++F d+s     ++sa+vk Hg kv+dAl+ a  +ld +l+++l++L
+  sp|B3EWD5|HBA_PERCA   1 VLSADDKANVKAAWGKLGGHGAEYGAEALGRMFCSFPTTKTYFPHF-DVS-----HGSAQVKGHGAKVADALTTAAGHLD-DLPGALSAL 83 
+                          69********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWD5|HBA_PERCA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02078|HBBC_CAPHI  Hemoglobin subunit beta-C OS=Capra hircus GN=HBBC PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.8   0.2   1.1e-54   5.2e-52       7     149 .]       3     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.8 bits;  conditional E-value: 1.1e-54
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           +k  ++  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLs +d++ ++a+vk+Hgkkvld +s+++++ld +l++++++LselH
+  sp|P02078|HBBC_CAPHI   3 NKALITGFWSKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSSADAVLGNAKVKAHGKKVLDSFSNGVQHLD-DLKGTFAELSELH 88 
+                           68899*******..9***********************************************************9.************* PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           ++kl+vdp++f+ll++vlv vla +++keft++ qa ++K++a va +la++Y+
+  sp|P02078|HBBC_CAPHI  89 CDKLHVDPENFRLLGNVLVIVLARHFGKEFTPELQAEFQKVVAGVASALAHRYH 142
+                           *****************************************************7 PP
+
+>> sp|P41329|HBA1_ARCGA  Hemoglobin subunit alpha-1 OS=Arctocephalus galapagoensis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.8   0.2   1.1e-54   5.3e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.8 bits;  conditional E-value: 1.1e-54
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt++k+ W k + +++e+G+++L+r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+a++d +l+++l++
+  sp|P41329|HBA1_ARCGA   2 VLSPADKTNIKTTWDKLGGHAGEYGGEALERTFMSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVAHMD-DLPKALSA 83 
+                           8*********************************************.9**.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++++v+++l+skY+
+  sp|P41329|HBA1_ARCGA  84 LSDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSTVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P24659|HBA_MACGG  Hemoglobin subunit alpha-1/2 OS=Macroderma gigas PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.7   0.3   1.2e-54   5.7e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.7 bits;  conditional E-value: 1.2e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka+W kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv dAls+a  +ld +l+++l++L
+  sp|P24659|HBA_MACGG   1 VLSPADKANVKAAWDKVGGQAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALSNAAGHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la+++++eft++v+a+l+K+la+v ++l+skY+
+  sp|P24659|HBA_MACGG  84 SDLHAYKLRVDPVNFKLLSHCLLVTLASHHAAEFTPAVHASLDKFLASVGTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|B3EWE3|HBA_MICPE  Hemoglobin subunit alpha OS=Microtus pennsylvanicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.6   0.2   1.3e-54   6.2e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.6 bits;  conditional E-value: 1.3e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k+++k++W+k + +++e+Ga++L+r+f+++P+t+++F++F d+s     ++sa+vk Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|B3EWE3|HBA_MICPE   1 VLSGDDKSNLKTAWGKLGGHAGEYGAEALERMFVAYPTTKTYFPHF-DVS-----HGSAQVKGHGKKVADALTTAVGHLD-DLPGALSAL 83 
+                          699*******************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la++lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWE3|HBA_MICPE  84 SDLHAHKLRVDPVNFKLLSHCLLVTLANHLPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18975|HBA_PANLE  Hemoglobin subunit alpha OS=Panthera leo GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.3   0.3   1.6e-54   7.6e-52       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.3 bits;  conditional E-value: 1.6e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k++vka W+k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+v++Hg+kv+dAl++a+ +++ +l+++l+dL
+  sp|P18975|HBA_PANLE   2 VLSSADKNNVKACWGKIGSHAGEYGAEALERTFCSFPTTKTYFPHF-DLS-----HGSAQVQAHGQKVADALTKAVVHIN-DLPNALSDL 84 
+                          89********************************************.***.....***********************98.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P18975|HBA_PANLE  85 SDLHAYKLRVDPVNFKFLSHCLLVTLACHHPEEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01972|HBA_ODOVI  Hemoglobin subunit alpha-1/2 OS=Odocoileus virginianus virginianus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  180.3   0.5   1.6e-54   7.8e-52       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 180.3 bits;  conditional E-value: 1.6e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vka+W+kv+ +++ +Ga++L+r+f+s+P+t+++F++F +Ls     ++sa+vk+Hg+kv++Al++a+ +l+ +l+++l++L
+  sp|P01972|HBA_ODOVI   1 VLSAABKSBVKAAWGKVGGNAAPYGAZALZRMFLSFPTTKTYFPHF-BLS-----HGSAZVKAHGZKVABALTKAVGHLB-BLPGTLSBL 83 
+                          69********************************************.9**.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+v+p +fklls+ l+++la++lp++ft++v+a+l+K+la v+++l+skY+
+  sp|P01972|HBA_ODOVI  84 SBLHAHKLRVBPVBFKLLSHSLLVTLATHLPBBFTPAVHASLBKFLABVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02125|HBB_CICCI  Hemoglobin subunit beta OS=Ciconia ciconia GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.9   0.4   2.1e-54     1e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.9 bits;  conditional E-value: 2.1e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++L t+ ++ ++a v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P02125|HBB_CICCI   2 HWTAEEKQLITGLWGKV--NVDECGAEALARLLIVYPWTQRFFASFGNLATASAITGNAMVHAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++fkll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P02125|HBB_CICCI  89 SELHCDKLHVDPENFKLLGDILIIVLAAHFGKDFTPDCQAAWKKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02126|HBB_STUVU  Hemoglobin subunit beta OS=Sturnus vulgaris GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.9   0.1   2.2e-54     1e-51       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.9 bits;  conditional E-value: 2.2e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ ++++v++Hgkkvl+ ++da+++ld  +++++++Ls
+  sp|P02126|HBB_STUVU   3 WTAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSPTAVLGNPKVQAHGKKVLTSFGDAVKNLD-SIKNTFSQLS 89 
+                          589*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll+++lv+vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P02126|HBB_STUVU  90 ELHCDKLHVDPENFRLLGDILVVVLAAHFGKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          ********************************************************7 PP
+
+>> sp|P17689|HBA_MARFO  Hemoglobin subunit alpha OS=Martes foina GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.8   0.2   2.3e-54   1.1e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.8 bits;  conditional E-value: 2.3e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k++ +++e+G+++L+r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+ +ld +l ++l++L
+  sp|P17689|HBA_MARFO   1 VLSPADKTNVKSTWDKIGGHAGEYGGEALERTFVSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTLAVGHLD-DLAGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++++v+++l+skY+
+  sp|P17689|HBA_MARFO  84 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSTVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02105|HBE2_CAPHI  Hemoglobin subunit epsilon-2 OS=Capra hircus GN=HBE2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.7   0.3   2.4e-54   1.2e-51       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.7 bits;  conditional E-value: 2.4e-54
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + + +ek +v ++Wakv  +ve +G++ L rl+ ++P+tq+fF++F++L  e +++++++vk+Hg+kvl+ +++a++++d +l+++++d
+  sp|P02105|HBE2_CAPHI   3 HFTTEEKAAVASLWAKV--NVEVVGGESLARLLIVYPWTQRFFDSFGNLCSESAIMGNPKVKAHGRKVLNSFGNAIKHMD-DLKGTFAD 88 
+                           7899*************..9************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp +f+ll+++++ vla++++keft+++qaa +Kl + va++la+kY+
+  sp|P02105|HBE2_CAPHI  89 LSELHCDKLHVDPPNFRLLGNMILIVLATHFSKEFTPQMQAAWQKLTNAVANALAHKYH 147
+                           **********************************************************7 PP
+
+>> sp|P06643|HBE4_BOVIN  Hemoglobin subunit epsilon-4 OS=Bos taurus GN=HBE4 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.6   0.3   2.6e-54   1.3e-51       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.6 bits;  conditional E-value: 2.6e-54
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + + +ek +v ++Wakv  +ve +G++ L rl+ ++P+tq+fF++F++L  e +++++++vk+Hg+kvl+ +++a+ ++d +l+++++d
+  sp|P06643|HBE4_BOVIN   3 HFTTEEKAAVASLWAKV--NVEVVGGESLARLLIVYPWTQRFFDSFGNLYSESAIMGNPKVKAHGRKVLNSFGNAIEHMD-DLKGTFAD 88 
+                           7899*************..9************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll+++++ vla++++keft+++qa+ +Kl + va++la+kY+
+  sp|P06643|HBE4_BOVIN  89 LSELHCDKLHVDPENFRLLGNMILIVLATHFSKEFTPQMQASWQKLTNAVANALAHKYH 147
+                           **********************************************************7 PP
+
+>> sp|P18971|HBA_BALAC  Hemoglobin subunit alpha OS=Balaenoptera acutorostrata GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.4   0.7   2.9e-54   1.4e-51       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.4 bits;  conditional E-value: 2.9e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +k++vka Wak++ + +e+Ga++L+r+f+ +P t+++F++F dL      + sa+vk Hgkkv+dAl++a+ ++d +l  +l+dL
+  sp|P18971|HBA_BALAC   2 VLSPTDKSNVKATWAKIGNHGAEYGAEALERMFMNFPSTKTYFPHF-DLG-----HDSAQVKGHGKKVADALTKAVGHMD-NLLDALSDL 84 
+                          8*********************************************.999.....9************************.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la +lp+eft++v+a+l+K+la+v+++l+skY+
+  sp|P18971|HBA_BALAC  85 SDLHAHKLRVDPANFKLLSHCLLVTLALHLPAEFTPSVHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01948|HBA_RABIT  Hemoglobin subunit alpha-1/2 OS=Oryctolagus cuniculus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.4   0.2     3e-54   1.5e-51       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.4 bits;  conditional E-value: 3e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k++W k++++ +e+Ga++++r+f+ +P+t+++F++F d +     ++s+++k+Hgkkv +Al++a+ +ld +l+++l++L
+  sp|P01948|HBA_RABIT   2 VLSPADKTNIKTAWEKIGSHGGEYGAEAVERMFLGFPTTKTYFPHF-DFT-----HGSEQIKAHGKKVSEALTKAVGHLD-DLPGALSTL 84 
+                          8*********************************************.777.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p+eft++v+a+l+K+la v+++l+skY+
+  sp|P01948|HBA_RABIT  85 SDLHAHKLRVDPVNFKLLSHCLLVTLANHHPSEFTPAVHASLDKFLANVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P10778|HBA_ODORO  Hemoglobin subunit alpha OS=Odobenus rosmarus divergens GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.4   0.1   3.1e-54   1.5e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.4 bits;  conditional E-value: 3.1e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k + +++e+G+++L+r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+a++d +l+++l++L
+  sp|P10778|HBA_ODORO   1 VLSPADKTNVKTTWDKLGGHAGEYGGEALERTFMSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVAHID-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++++v+++l+skY+
+  sp|P10778|HBA_ODORO  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSTVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68256|HBG1_CEBAP  Hemoglobin subunit gamma-1 OS=Cebus apella GN=HBG1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.3   0.0   3.3e-54   1.6e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.3 bits;  conditional E-value: 3.3e-54
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            ++++k +++++Wakv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg kvl+ l++a+++ld +l++++ +L
+  sp|P68256|HBG1_CEBAP   4 FTAEDKAAITSLWAKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGAKVLTSLGEAIKNLD-DLKGTFGQL 89 
+                           6899************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l s+Y+
+  sp|P68256|HBG1_CEBAP  90 SELHCDKLHVDPENFRLLGNVLVTVLAVHHGKEFTPEVQASWQKMVAGVASALGSRYH 147
+                           *********************************************************7 PP
+
+>> sp|Q28221|HBG1_CEBAL  Hemoglobin subunit gamma-1 OS=Cebus albifrons GN=HBG1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.3   0.0   3.3e-54   1.6e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.3 bits;  conditional E-value: 3.3e-54
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            ++++k +++++Wakv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg kvl+ l++a+++ld +l++++ +L
+  sp|Q28221|HBG1_CEBAL   4 FTAEDKAAITSLWAKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGAKVLTSLGEAIKNLD-DLKGTFGQL 89 
+                           6899************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l s+Y+
+  sp|Q28221|HBG1_CEBAL  90 SELHCDKLHVDPENFRLLGNVLVTVLAVHHGKEFTPEVQASWQKMVAGVASALGSRYH 147
+                           *********************************************************7 PP
+
+>> sp|P01964|HBA_DASNO  Hemoglobin subunit alpha OS=Dasypus novemcinctus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.3   1.0   3.3e-54   1.6e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.3 bits;  conditional E-value: 3.3e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W+kv+ +++e Ga++L+r+f s+P t+++F +  dLs     ++sa+vk+Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|P01964|HBA_DASNO   1 VLSAADKTHVKAFWGKVGGHAAEFGAEALERMFASFPPTKTYFSHM-DLS-----HGSAQVKAHGKKVADALTLAVGHLD-DLPGALSTL 83 
+                          69*******************************************9.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+ls++l+++la +lp +ft++v+a+++K++a v+++l skY+
+  sp|P01964|HBA_DASNO  84 SDLHAHKLRVDPVNFKFLSHCLLVTLACHLPDDFTPAVHASMDKFMAGVSTVLVSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P21668|HBB_PSIKR  Hemoglobin subunit beta OS=Psittacula krameri GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.2   0.0   3.4e-54   1.7e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.2 bits;  conditional E-value: 3.4e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ ++++v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P21668|HBB_PSIKR   2 HWSAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFTSFGNLSSASAVLGNPNVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vla +++k+ft+d qaa +Kl+  va++la kY+
+  sp|P21668|HBB_PSIKR  89 SELHCDKLHVDPENFRLLGDILIIVLAGHFGKDFTPDCQAAWQKLVRAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P15448|HBA_MELCA  Hemoglobin subunit alpha OS=Mellivora capensis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.0   0.1     4e-54   1.9e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.0 bits;  conditional E-value: 4e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +k +vka W k++ +++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl++a+a+ d +l+++l++L
+  sp|P15448|HBA_MELCA   1 VLSPSDKANVKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTNAVAHGD-DLPMALSTL 83 
+                          69********************************************.9**.....9**********************77.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++++v+++l+skY+
+  sp|P15448|HBA_MELCA  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSTVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68257|HBG2_CEBAP  Hemoglobin subunit gamma-2 OS=Cebus apella GN=HBG2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.0   0.0   4.1e-54     2e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.0 bits;  conditional E-value: 4.1e-54
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            ++++k +++++Wakv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg kvl+ l++a+++ld +l++++ +L
+  sp|P68257|HBG2_CEBAP   4 FTAEDKAAITSLWAKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGAKVLTSLGEAIKNLD-DLKGTFGQL 89 
+                           6899************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l s+Y+
+  sp|P68257|HBG2_CEBAP  90 SELHCDKLHVDPENFRLLGNVLVTVLAIHHGKEFTPEVQASWQKMVAGVASALGSRYH 147
+                           *********************************************************7 PP
+
+>> sp|P68258|HBG2_CEBAL  Hemoglobin subunit gamma-2 OS=Cebus albifrons GN=HBG2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  179.0   0.0   4.1e-54     2e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 179.0 bits;  conditional E-value: 4.1e-54
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            ++++k +++++Wakv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg kvl+ l++a+++ld +l++++ +L
+  sp|P68258|HBG2_CEBAL   4 FTAEDKAAITSLWAKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGAKVLTSLGEAIKNLD-DLKGTFGQL 89 
+                           6899************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla +++keft++vqa+ +K++a va +l s+Y+
+  sp|P68258|HBG2_CEBAL  90 SELHCDKLHVDPENFRLLGNVLVTVLAIHHGKEFTPEVQASWQKMVAGVASALGSRYH 147
+                           *********************************************************7 PP
+
+>> sp|P02115|HBB_ANAPP  Hemoglobin subunit beta OS=Anas platyrhynchos platyrhynchos GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.9   0.0   4.2e-54     2e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.9 bits;  conditional E-value: 4.2e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P02115|HBB_ANAPP   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa++pkeft++ qaa +Kl+ +va++la kY+
+  sp|P02115|HBB_ANAPP  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFPKEFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P22742|HBB_FRAPO  Hemoglobin subunit beta OS=Francolinus pondicerianus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.8   0.0   4.6e-54   2.2e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.8 bits;  conditional E-value: 4.6e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P22742|HBB_FRAPO   2 HWTAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFSQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P22742|HBB_FRAPO  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02118|HBB_ANSIN  Hemoglobin subunit beta OS=Anser indicus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.8   0.1   4.7e-54   2.3e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.8 bits;  conditional E-value: 4.7e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P02118|HBB_ANSIN   2 HWSAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++keft+d qaa +Kl+ +va++la kY+
+  sp|P02118|HBB_ANSIN  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKEFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P30893|HBB_COTJA  Hemoglobin subunit beta OS=Coturnix coturnix japonica GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.7   0.1     5e-54   2.5e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.7 bits;  conditional E-value: 5e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P30893|HBB_COTJA   2 HWSAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFSQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa++ k+ft++ qaa +Kl+ +va++la kY+
+  sp|P30893|HBB_COTJA  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFTKDFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P18969|HBA_AILFU  Hemoglobin subunit alpha OS=Ailurus fulgens GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.6   0.1   5.2e-54   2.5e-51       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.6 bits;  conditional E-value: 5.2e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k + +++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|P18969|HBA_AILFU   2 VLSPADKTNVKSTWDKLGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTLAVGHLD-DLPGALSAL 84 
+                          8*********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p+eft++v+a+l+K+++ v+++l+skY+
+  sp|P18969|HBA_AILFU  85 SDLHAHKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFSAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P10058|HBB_EUDCH  Hemoglobin subunit beta OS=Eudyptes chrysocome GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.6   0.0   5.3e-54   2.6e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.6 bits;  conditional E-value: 5.3e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ G+++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da++++d ++++++++L
+  sp|P10058|HBB_EUDCH   2 HWSAEEKQLITGLWGKV--NVAQCGGEALARLLIVYPWTQRFFSSFGNLSSPSAILGNPMVRAHGKKVLTSFGDAVKNMD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaa eKl+ +va++la kY+
+  sp|P10058|HBB_EUDCH  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPECQAAWEKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P24292|HBB_ECHTE  Hemoglobin subunit beta OS=Echinops telfairi GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.5   0.4   5.7e-54   2.8e-51       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.5 bits;  conditional E-value: 5.7e-54
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v++++aek+ v+++W+k   dv+  Ga+ L r+++++P+tq+fF +F+dLs + +++ +++v++Hgkkvl+ l+d+l++ld +l+  +++
+  sp|P24292|HBB_ECHTE   1 VHMTDAEKKLVTTMWGKL--DVDAAGAETLGRVLVVYPWTQRFFGHFGDLSSACAVMDNPKVQAHGKKVLHSLGDGLNHLD-DLKHFYAA 87 
+                          5899**************..9***********************************************************9.9******* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++f+ll++vlv+v+  ++++eft++vqaa++K++a va++la+kY+
+  sp|P24292|HBB_ECHTE  88 LSELHCDKLHVDPENFRLLGNVLVCVMSRHFGAEFTPQVQAAYQKVVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P07036|HBB_CHLME  Hemoglobin subunit beta OS=Chloephaga melanoptera GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.5   0.1   5.8e-54   2.8e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.5 bits;  conditional E-value: 5.8e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P07036|HBB_CHLME   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAISGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFSQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa++ k+ft+d qaa +Kl+ +va++la kY+
+  sp|P07036|HBB_CHLME  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFTKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02107|HBB_MACRU  Hemoglobin subunit beta OS=Macropus rufus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.4   0.2   5.9e-54   2.9e-51       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.4 bits;  conditional E-value: 5.9e-54
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++++++W+kv   +e++G+++L rl+ ++P+t +fF++F+dLs + +++++++v +Hg kvl A++da+++ld +l++++++
+  sp|P02107|HBB_MACRU   1 VHLTAEEKNAITSLWGKV--AIEQTGGEALGRLLIVYPWTSRFFDHFGDLSNAKAVMGNPKVLAHGAKVLVAFGDAIKNLD-NLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v  la++++keft d q a +Kl+a va++la+kY+
+  sp|P02107|HBB_MACRU  88 LSELHCDKLHVDPENFKLLGNIIVICLAEHFGKEFTIDTQVAWQKLVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|Q6H1U7|HBB_MACEU  Hemoglobin subunit beta OS=Macropus eugenii GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.4   0.4   5.9e-54   2.9e-51       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.4 bits;  conditional E-value: 5.9e-54
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++++++W+kv   +e++G+++L rl+ ++P+t +fF++F+dLs + +++++++v +Hg kvl A++da+++ld +l++++++
+  sp|Q6H1U7|HBB_MACEU   2 VHLTAEEKNAITSLWGKV--AIEQTGGEALGRLLIVYPWTSRFFDHFGDLSNAKAVMSNPKVLAHGAKVLVAFGDAIKNLD-NLKGTFAK 88 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v  la++++keft d+q a +Kl+a va++la+kY+
+  sp|Q6H1U7|HBB_MACEU  89 LSELHCDKLHVDPENFKLLGNIIVICLAEHFGKEFTIDAQVAWQKLVAGVANALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P60529|HBA_CANFA  Hemoglobin subunit alpha OS=Canis familiaris GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.4   0.1   6.1e-54     3e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.4 bits;  conditional E-value: 6.1e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k+ W k++ +++++G+++L r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+a+ld +l+++l++L
+  sp|P60529|HBA_CANFA   1 VLSPADKTNIKSTWDKIGGHAGDYGGEALDRTFQSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVAHLD-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++a v+++l+skY+
+  sp|P60529|HBA_CANFA  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPTEFTPAVHASLDKFFAAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02127|HBRH_CHICK  Hemoglobin subunit rho OS=Gallus gallus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.3   0.1   6.3e-54   3.1e-51       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.3 bits;  conditional E-value: 6.3e-54
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + s++ek+ +++vW+kv  +vee Ga++L rl+ ++P+tq+fF++F++Ls + ++ ++++v++Hgkkvl  +++a+++ld ++++++++
+  sp|P02127|HBRH_CHICK   3 HWSAEEKQLITSVWSKV--NVEECGAEALARLLIVYPWTQRFFDNFGNLSSPTAIIGNPKVRAHGKKVLSSFGEAVKNLD-NIKNTYAK 88 
+                           779**************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll+++l+ vlaa++ k+ft+  qa  +Kl+++va++la kY+
+  sp|P02127|HBRH_CHICK  89 LSELHCEKLHVDPENFRLLGNILIIVLAAHFTKDFTPTCQAVWQKLVSVVAHALAYKYH 147
+                           **********************************************************7 PP
+
+>> sp|Q45XH5|HBG_DUGDU  Hemoglobin subunit gamma OS=Dugong dugon GN=HBG PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.2   0.0   7.1e-54   3.5e-51       3     149 .]       4     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 178.2 bits;  conditional E-value: 7.1e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek +++++W+kv  +vee G+ +L rl+ ++P+tq+fF+kF++Ls + ++++++++k+Hgkkvl+ ++da+ + d +l++++++Ls
+  sp|Q45XH5|HBG_DUGDU   4 FTAEEKAAITSLWGKV--NVEEAGGKALGRLLIVYPWTQRFFDKFGNLSSASAIMGNPKIKAHGKKVLNSFGDAVENPD-NLKGTFAKLS 90 
+                          689*************..***********************************************************77.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl vdp+ f+ll++v+v vla++++keft++vqaa +K++  va +la kY+
+  sp|Q45XH5|HBG_DUGDU  91 ELHCDKLLVDPEDFRLLGNVIVIVLANHFGKEFTPQVQAAWQKMVTGVASALARKYH 147
+                          ********************************************************7 PP
+
+>> sp|P02106|HBB_MACGI  Hemoglobin subunit beta OS=Macropus giganteus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.1   0.4   7.3e-54   3.5e-51       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.1 bits;  conditional E-value: 7.3e-54
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+++ek++++++W+kv   +e++G+++L rl+ ++P+t +fF++F+dLs + +++++++v +Hg kvl A++da+++ld +l++++++
+  sp|P02106|HBB_MACGI   1 VHLTAEEKNAITSLWGKV--AIEQTGGEALGRLLIVYPWTSRFFDHFGDLSNAKAVMANPKVLAHGAKVLVAFGDAIKNLD-NLKGTFAK 87 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++++v  la++++keft d q a +Kl+a va++la+kY+
+  sp|P02106|HBB_MACGI  88 LSELHCDKLHVDPENFKLLGNIIVICLAEHFGKEFTIDTQVAWQKLVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P07406|HBB_PASMO  Hemoglobin subunit beta OS=Passer montanus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.1   0.0   7.5e-54   3.7e-51       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.1 bits;  conditional E-value: 7.5e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek+ ++ +W+kv  +v+e G+++L rl+ ++P+tq+fF +F++Ls + ++ ++++v++Hgkkvl+ +++a+++ld  +++++++Ls
+  sp|P07406|HBB_PASMO   3 WTAEEKQLITGLWGKV--NVAECGGEALARLLIVYPWTQRFFASFGNLSSPTAVLGNPKVQAHGKKVLTSFGEAVKNLD-SIKNTFSQLS 89 
+                          589*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll+++lv+vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P07406|HBB_PASMO  90 ELHCDKLHVDPENFRLLGDILVVVLAAHFGKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          ********************************************************7 PP
+
+>> sp|P02199|MYG_APTFO  Myoglobin OS=Aptenodytes forsteri GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.0   1.5   7.9e-54   3.8e-51       3     149 .]       3     147 ..       1     147 [. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 178.0 bits;  conditional E-value: 7.9e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L ++e+++v+++W+kve+d +++G  +L+rlfks+P+t + F+kF++L+t+de+++s+d+kkHg++vl+ l+++l+k ++++ea+lk+Ls
+  sp|P02199|MYG_APTFO   3 LNDQEWQQVLTMWGKVESDLAGHGHAVLMRLFKSHPETMDRFDKFRGLKTPDEMRGSEDMKKHGVTVLT-LGQILKK-KGHHEAELKPLS 90 
+                          7889****************************************************************7.9******.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+k+kv++ky++++se++++v+a++++++f+ad+q a++K+l+l+++++askYk
+  sp|P02199|MYG_APTFO  91 QTHATKHKVPVKYLEFISEAIMKVIAQKHASNFGADAQEAMKKALELFRNDMASKYK 147
+                          ********************************************************7 PP
+
+>> sp|P08261|HBB_CHRRI  Hemoglobin subunit beta/beta' OS=Chroicocephalus ridibundus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.0   0.1     8e-54   3.9e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.0 bits;  conditional E-value: 8e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++++++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P08261|HBB_CHRRI   2 HWSAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAINGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P08261|HBB_CHRRI  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPDSQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02121|HBB_PHORU  Hemoglobin subunit beta OS=Phoenicopterus ruber ruber GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  178.0   0.1   8.2e-54     4e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 178.0 bits;  conditional E-value: 8.2e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++++W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P02121|HBB_PHORU   2 HWSAEEKQLITSLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaa +Kl+ +va++la kY+
+  sp|P02121|HBB_PHORU  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P60530|HBA_CANLA  Hemoglobin subunit alpha OS=Canis latrans GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.9   0.1   8.7e-54   4.2e-51       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.9 bits;  conditional E-value: 8.7e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k+ W k++ +++++G+++L r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+a+ld +l+++l++L
+  sp|P60530|HBA_CANLA   2 VLSPADKTNIKSTWDKIGGHAGDYGGEALDRTFQSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVAHLD-DLPGALSAL 84 
+                          8*********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++  v+++l+skY+
+  sp|P60530|HBA_CANLA  85 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPTEFTPAVHASLDKFFTAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02112|HBB_CHICK  Hemoglobin subunit beta OS=Gallus gallus GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.9   0.1     9e-54   4.4e-51       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.9 bits;  conditional E-value: 9e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P02112|HBB_CHICK   3 HWTAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFSQL 89 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaa +Kl+ +va++la kY+
+  sp|P02112|HBB_CHICK  90 SELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPECQAAWQKLVRVVAHALARKYH 147
+                          *********************************************************7 PP
+
+>> sp|P68944|HBB_BRACA  Hemoglobin subunit beta OS=Branta canadensis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.9   0.1     9e-54   4.4e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.9 bits;  conditional E-value: 9e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P68944|HBB_BRACA   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P68944|HBB_BRACA  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P68945|HBB_CYGOL  Hemoglobin subunit beta OS=Cygnus olor GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.9   0.1     9e-54   4.4e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.9 bits;  conditional E-value: 9e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P68945|HBB_CYGOL   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P68945|HBB_CYGOL  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02117|HBB_ANSAN  Hemoglobin subunit beta OS=Anser anser anser GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.8   0.1   9.1e-54   4.4e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.8 bits;  conditional E-value: 9.1e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P02117|HBB_ANSAN   2 HWSAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++keft++ qaa +Kl+ +va++la kY+
+  sp|P02117|HBB_ANSAN  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKEFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P68068|HBG_ATEGE  Hemoglobin subunit gamma OS=Ateles geoffroyi GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.8   0.0   9.2e-54   4.5e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.8 bits;  conditional E-value: 9.2e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P68068|HBG_ATEGE   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGQLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P68068|HBG_ATEGE  91 ELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|P68069|HBG_ATEPA  Hemoglobin subunit gamma OS=Ateles paniscus GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.8   0.0   9.2e-54   4.5e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.8 bits;  conditional E-value: 9.2e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P68069|HBG_ATEPA   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGQLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P68069|HBG_ATEPA  91 ELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|P68070|HBG_LAGLA  Hemoglobin subunit gamma OS=Lagothrix lagotricha GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.8   0.0   9.2e-54   4.5e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.8 bits;  conditional E-value: 9.2e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P68070|HBG_LAGLA   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGQLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P68070|HBG_LAGLA  91 ELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|P68071|HBG_BRAAR  Hemoglobin subunit gamma OS=Brachyteles arachnoides GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.8   0.0   9.2e-54   4.5e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.8 bits;  conditional E-value: 9.2e-54
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P68071|HBG_BRAAR   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGQLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P68071|HBG_BRAAR  91 ELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|B3EWE1|HBA_BLABR  Hemoglobin subunit alpha OS=Blarina brevicauda PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.7   0.3   9.7e-54   4.7e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.7 bits;  conditional E-value: 9.7e-54
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +kt++ka+W k + +++++Ga++L+r f s+P+t+++F++F dLs      +sa+vk Hgkkv+dAl++a+ +ld +l+++l++L
+  sp|B3EWE1|HBA_BLABR   1 VLSASDKTNLKAAWDKLGGQAANYGAEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKGHGKKVADALTKAVGSLD-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la+++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWE1|HBA_BLABR  84 SDLHAHKLRVDPVNFKLLSHCLLVTLASHHPADFTPAVHASLDKFLATVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07411|HBB_VULGR  Hemoglobin subunit beta OS=Vultur gryphus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.7   0.1     1e-53   4.9e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.7 bits;  conditional E-value: 1e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P07411|HBB_VULGR   2 HWSAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+  va++la kY+
+  sp|P07411|HBB_VULGR  89 SELHCEKLHVDPENFRLLGDILIIVLAAHFAKDFTPDCQAAWQKLVRAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02113|HBB_PHACO  Hemoglobin subunit beta OS=Phasianus colchicus colchicus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.7   0.0     1e-53     5e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.7 bits;  conditional E-value: 1e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P02113|HBB_PHACO   2 HWSAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFSQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaa +Kl+ +va++la kY+
+  sp|P02113|HBB_PHACO  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPECQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P21200|HBA_VULVU  Hemoglobin subunit alpha OS=Vulpes vulpes GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.5   0.1   1.2e-53   5.7e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.5 bits;  conditional E-value: 1.2e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k+ W k++ +++++G+++L r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+a+ld +l+++l++L
+  sp|P21200|HBA_VULVU   1 VLSPADKTNIKSTWDKIGGHAGDYGGEALDRTFQSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVAHLD-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++  v+++l+skY+
+  sp|P21200|HBA_VULVU  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPNEFTPAVHASLDKFFTAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P82113|HBB_STEMC  Hemoglobin subunit beta OS=Stercorarius maccormicki GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.5   0.1   1.2e-53   5.7e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.5 bits;  conditional E-value: 1.2e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P82113|HBB_STEMC   2 HWSAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++keft+d qaa +Kl+ +va++la kY+
+  sp|P82113|HBB_STEMC  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKEFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|B3EWD9|HBA_TAMST  Hemoglobin subunit alpha OS=Tamias striatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.4   0.3   1.2e-53     6e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.4 bits;  conditional E-value: 1.2e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++ka+W k + + +e+Ga++L+r+f ++P+t+++F++F dLs     ++sa+v+ Hg+kv+dAl  a+ +ld +l+++l++L
+  sp|B3EWD9|HBA_TAMST   1 VLSPADKTNLKAAWHKLGGHGGEYGAEALERMFATFPTTKTYFPHF-DLS-----HGSAQVQGHGEKVADALLHAVGNLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWD9|HBA_TAMST  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLATVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P68030|HBG_ALOBE  Hemoglobin subunit gamma OS=Alouatta belzebul GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.4   0.0   1.2e-53     6e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.4 bits;  conditional E-value: 1.2e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P68030|HBG_ALOBE   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGSLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P68030|HBG_ALOBE  91 ELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|P68031|HBG_ALOCA  Hemoglobin subunit gamma OS=Alouatta caraya GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.4   0.0   1.2e-53     6e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.4 bits;  conditional E-value: 1.2e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P68031|HBG_ALOCA   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGSLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P68031|HBG_ALOCA  91 ELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|P14260|HBB_CAIMO  Hemoglobin subunit beta OS=Cairina moschata GN=HBB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.4   0.1   1.3e-53   6.1e-51       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.4 bits;  conditional E-value: 1.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P14260|HBB_CAIMO   3 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 89 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa++ k+ft+d qaa +Kl+ +va++la kY+
+  sp|P14260|HBB_CAIMO  90 SELHCDKLHVDPENFRLLGDILIIVLAAHFTKDFTPDCQAAWQKLVRVVAHALARKYH 147
+                          *********************************************************7 PP
+
+>> sp|Q9GJS7|HBG_CALJA  Hemoglobin subunit gamma OS=Callithrix jacchus GN=HBG1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.4   0.0   1.3e-53   6.2e-51       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.4 bits;  conditional E-value: 1.3e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++Wakv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|Q9GJS7|HBG_CALJA   4 FTAEDKAAITSLWAKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGQLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|Q9GJS7|HBG_CALJA  91 ELHCDKLHVDPENFRLLGNVLVTVLAILYGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|Q7M3B8|HBA1_HAPGR  Hemoglobin subunit alpha-1 OS=Hapalemur griseus GN=HBA1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.3   1.0   1.3e-53   6.3e-51       2     149 .]       1     140 []       1     140 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 177.3 bits;  conditional E-value: 1.3e-53
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs a+kt++k++W+ ++++++++Ga++L+r+f+s+P+t+++F++F d+s     ++s ++ +Hgkkv+dAl++a+ ++d +++++l++
+  sp|Q7M3B8|HBA1_HAPGR   1 VLSSADKTNIKTAWGAIGSHAADHGAEALERMFLSFPTTKTYFPHF-DMS-----HGSGQI-AHGKKVADALTNAVGHID-DMPGALSA 81 
+                           69********************************************.888.....9**999.8****************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fklls++l+++la+++p+eft++v+a+l+K++a v+++l+skY+
+  sp|Q7M3B8|HBA1_HAPGR  82 LSDLHAHKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFFAAVSTVLTSKYR 140
+                           **********************************************************7 PP
+
+>> sp|P60523|HBA_CHRBR  Hemoglobin subunit alpha OS=Chrysocyon brachyurus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.3   0.1   1.3e-53   6.5e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.3 bits;  conditional E-value: 1.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k+ W k++ +++++G+++L r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+a+ld +l+++l++L
+  sp|P60523|HBA_CHRBR   1 VLSPADKTNIKSTWDKIGGHAGDYGGEALDRTFQSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTTAVAHLD-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++  v+++l+skY+
+  sp|P60523|HBA_CHRBR  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPTEFTPAVHASLDKFFTAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02116|HBB_ARAAR  Hemoglobin subunit beta OS=Ara ararauna GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.3   0.0   1.3e-53   6.4e-51       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.3 bits;  conditional E-value: 1.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P02116|HBB_ARAAR   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaal+Kl+ +va++la kY+
+  sp|P02116|HBB_ARAAR  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFGKDFTPECQAALQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P63105|HBA_CAMBA  Hemoglobin subunit alpha OS=Camelus bactrianus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.2   0.9   1.4e-53   6.8e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.2 bits;  conditional E-value: 1.4e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++kt+vk++++k++ +++e+Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a  +ld +l+++l++L
+  sp|P63105|HBA_CAMBA   1 VLSSKDKTNVKTAFGKIGGHAAEYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTKAADHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++aa++p++ft++v+a+l+K+la v+++l+skY+
+  sp|P63105|HBA_CAMBA  84 SDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPSVHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P63106|HBA_CAMDR  Hemoglobin subunit alpha OS=Camelus dromedarius GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.2   0.9   1.4e-53   6.8e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.2 bits;  conditional E-value: 1.4e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++kt+vk++++k++ +++e+Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a  +ld +l+++l++L
+  sp|P63106|HBA_CAMDR   1 VLSSKDKTNVKTAFGKIGGHAAEYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTKAADHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++aa++p++ft++v+a+l+K+la v+++l+skY+
+  sp|P63106|HBA_CAMDR  84 SDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPSVHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02200|MYG_ALLMI  Myoglobin OS=Alligator mississippiensis GN=MB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.2   2.7   1.4e-53   6.9e-51       2     149 .]       2     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.2 bits;  conditional E-value: 1.4e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++e+++v+ +W+kve++  e+G ++++rl++ +P+tqe FekFk+++t+de+k+s+++k+Hg++v +Al+++l++ ++++   lk+L
+  sp|P02200|MYG_ALLMI   2 ELSDQEWKHVLDIWTKVESKLPEHGHEVIIRLLQEHPETQERFEKFKHMKTADEMKSSEKMKQHGNTVFTALGNILKQ-KGNHAEVLKPL 90 
+                          59****************************************************************************.99********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +++Ha ++k+++ky++++se++v+v+a+++p++f+ad qaa+ K+l+l+++++askYk
+  sp|P02200|MYG_ALLMI  91 AKSHALEHKIPVKYLEFISEIIVKVIAEKYPADFGADSQAAMRKALELFRNDMASKYK 148
+                          *********************************************************7 PP
+
+>> sp|P07414|HBA_TRIIN  Hemoglobin subunit alpha OS=Trichechus inunguis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.1   0.0   1.5e-53   7.2e-51       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.1 bits;  conditional E-value: 1.5e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk+ W+k++++ +e+G+++L+r+f+s+P+t+++F++F dLs     ++s ++k+Hgkkv+dAl+ a+ +l+ +l+++l++L
+  sp|P07414|HBA_TRIIN   1 VLSDEDKTNVKTFWGKIGTHTGEYGGEALERMFLSFPTTKTYFPHF-DLS-----HGSGQIKAHGKKVADALTRAVGHLE-DLPGTLSEL 83 
+                          69********************************************.***.....***********************98.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa++l+vdp +fklls++l+++l ++l ++ft++v+a+l+K+l++v+++l+skY+
+  sp|P07414|HBA_TRIIN  84 SDLHAHRLRVDPVNFKLLSHCLLVTLSSHLREDFTPSVHASLDKFLSSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P14524|HBB_TURME  Hemoglobin subunit beta OS=Turdus merula GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.1   0.0   1.5e-53   7.3e-51       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.1 bits;  conditional E-value: 1.5e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek+ ++ +W+kv  +v+e G+++L rl+ ++P+tq+fF +F++Ls + ++ ++++v++Hgkkvl+ +++a+++ld  +++++++Ls
+  sp|P14524|HBB_TURME   3 WTAEEKQLITGLWGKV--NVAECGGEALARLLIVYPWTQRFFASFGNLSSPTAVLGNPKVQAHGKKVLTSFGEAVKNLD-SIKGTFAQLS 89 
+                          589*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll+++lv+vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P14524|HBB_TURME  90 ELHCDKLHVDPENFRLLGDILVVVLAAHFGKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          ********************************************************7 PP
+
+>> sp|Q45XI4|HBD_DENDR  Hemoglobin subunit deltaH OS=Dendrohyrax dorsalis GN=HBD PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.0   0.1   1.6e-53   7.9e-51       2     149 .]       3     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 177.0 bits;  conditional E-value: 1.6e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ ek +v ++W+kv  d +  G ++L rl++ +P+tq+fFe+F+dLst+d+++k++ v++Hg+kvl  ++++l++l  +l++++++L
+  sp|Q45XI4|HBD_DENDR   3 RLTDSEKAEVVSLWSKV--DEKIIGSEALGRLLVIYPWTQRFFEHFGDLSTADAIMKNPRVQAHGEKVLSSFGEGLNHLG-DLKGTFAQL 89 
+                          699**************..88899******************************************************96.8******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH+++l+vdp++fkll+++lv+vla +++keft +vqaa++K++a +a++la+kY+
+  sp|Q45XI4|HBD_DENDR  90 SELHCDELHVDPENFKLLGNILVVVLARHYGKEFTLEVQAAYQKFVAGMANALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P84792|HBB_AYTFU  Hemoglobin subunit beta OS=Aythya fuligula PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  177.0   0.1   1.7e-53   8.2e-51       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 177.0 bits;  conditional E-value: 1.7e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P84792|HBB_AYTFU   3 HWTAEEKQIITGLWGKV--NVADCGAEALARLLIVYPWTQRFFSSFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 89 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l++vlaa+++keft++ qaa +Kl+ +va++la kY+
+  sp|P84792|HBB_AYTFU  90 SELHCDKLHVDPENFRLLGDILIVVLAAHFSKEFTPECQAAWQKLVRVVAHALARKYH 147
+                          *********************************************************7 PP
+
+>> sp|P0C0U8|HBB1_DRYCE  Hemoglobin subunit beta-1 OS=Drymarchon corais erebennus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.9   1.9   1.8e-53   8.7e-51       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 176.9 bits;  conditional E-value: 1.8e-53
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek++++++W kv  dv  +G ++L rl+ ++P+tq+fF +F++Ls +++++++a+vk+Hgkkv +A++da+++  e ++ ++++
+  sp|P0C0U8|HBB1_DRYCE   2 HWTAEEKSAITSIWNKV--DVPAVGSEALSRLLIVYPWTQRFFTSFGNLSNAAAIQSNAQVKAHGKKVFTAFGDAVKN-PEAVKETFAK 87 
+                           6799*************..***********************************************************.67******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp +fkll+++l++vlaa+++keft++vqa+++Kl+++va++la++Y+
+  sp|P0C0U8|HBB1_DRYCE  88 LSELHCDKLHVDPINFKLLGQILITVLAAHFGKEFTPHVQASYQKLVSVVAHALAHRYH 146
+                           **********************************************************7 PP
+
+>> sp|P19645|HBA_PAGLA  Hemoglobin subunit alpha OS=Paguma larvata GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.6   0.7   2.2e-53   1.1e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.6 bits;  conditional E-value: 2.2e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k+++ka W k++++++e+Ga++L+r f s+P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl+ a+ +l+ +l+++l++L
+  sp|P19645|HBA_PAGLA   1 VLSSADKNNIKATWDKIGSHAGEYGAEALERTFISFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALTLAVGHLE-DLPNALSAL 83 
+                          69********************************************.***.....***********************98.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v++al+K+++ v+++l+skY+
+  sp|P19645|HBA_PAGLA  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHSALDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|O13071|HBE_CALGE  Hemoglobin subunit epsilon (Fragment) OS=Callithrix geoffroyi GN=HBE1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.6   0.1   2.2e-53   1.1e-50       1     144 [.       2     142 .]       2     142 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 176.6 bits;  conditional E-value: 2.2e-53
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek +++++W+k+  +vee G+++L rl++++P+tq+fF++F++Ls + ++ ++++vk+Hgkkvl+ ++da++++d +l++++++
+  sp|O13071|HBE_CALGE   2 VHFTAEEKAAITSLWGKM--NVEEAGGEALGRLLVVYPWTQRFFDNFGNLSSPSAILGNPKVKAHGKKVLTSFGDAIKNMD-NLKTTFAK 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          LselH++kl+vdp++f+ll++vlv +la++++keft++vqaa +Kl++ va++l
+  sp|O13071|HBE_CALGE  89 LSELHCDKLHVDPENFRLLGNVLVIILATHFGKEFTPEVQAASQKLVSAVAIAL 142
+                          **************************************************9876 PP
+
+>> sp|Q45XI5|HBD_HETBR  Hemoglobin subunit deltaH OS=Heterohyrax brucei PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.5   0.0   2.3e-53   1.1e-50       2     149 .]       3     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 176.5 bits;  conditional E-value: 2.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ ek +v ++W+kv  d +  G ++L rl++ +P+tq+fFe+F+dLst+d+++k++ v++Hg+kvl  ++++l++ld +l++++++L
+  sp|Q45XI5|HBD_HETBR   3 RLTDSEKAEVVSLWSKV--DEKIIGSEALGRLLVIYPWTQRFFEHFGDLSTADAIMKNPRVQAHGEKVLSSFGEGLNHLD-NLRGTFAQL 89 
+                          699**************..88899********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH+++l+vdp++f+ll+++lv+vla +++keft +vqaa +K++a +a++la+kY+
+  sp|Q45XI5|HBD_HETBR  90 SELHCDELHVDPENFRLLGNILVVVLARHYGKEFTLEVQAACQKFVAGMANALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|P07419|HBA_DASVI  Hemoglobin subunit alpha OS=Dasyurus viverrinus GN=HBA PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.5   1.0   2.3e-53   1.1e-50       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.5 bits;  conditional E-value: 2.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ +++ + a++L r f+s+P+t+++F++F dLs      +sa+++ Hgkkv+dAls+a+a+ld +l+++l++L
+  sp|P07419|HBA_DASVI   2 VLSDADKTHVKAIWGKVGGHAGAYAAEALARTFLSFPTTKTYFPHF-DLS-----PGSAQIQGHGKKVADALSQAVAHLD-DLPGTLSKL 84 
+                          89********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa+l+k++t++v+a+++K++a+va++l+skY+
+  sp|P07419|HBA_DASVI  85 SDLHAHKLRVDPVNFKLLSHCLIVTLAAHLSKDLTPEVHASMDKFFASVATVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P09967|GLB1_PETMA  Globin-1 OS=Petromyzon marinus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.3   0.1   2.6e-53   1.3e-50       3     148 ..      12     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 176.3 bits;  conditional E-value: 2.6e-53
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                           L++aek +++++Wa+v+a+++ +G+diL+++f+s Pa+q fF+kF++L+ +d+lkks dv++H++++++A++da+  +d  ek++ kl+
+  sp|P09967|GLB1_PETMA  12 LTAAEKATIRTAWAPVYAKYQSTGVDILIKFFTSNPAAQAFFPKFQGLTSADQLKKSMDVRWHAERIINAVNDAVVAMDdtEKMSLKLR 100
+                           99****************************************************************************5599******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           +Ls++Hak+++vdp+yfk+l++v+vd++  +         +a+leKl++++++ll+s Y
+  sp|P09967|GLB1_PETMA 101 ELSGKHAKSFQVDPQYFKVLAAVIVDTVLPG---------DAGLEKLMSMICILLRSSY 150
+                           ****************************999.........9****************99 PP
+
+>> sp|P02114|HBB_ANAPL  Hemoglobin subunit beta OS=Anas platyrhynchos GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.5   0.1   2.4e-53   1.2e-50       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.5 bits;  conditional E-value: 2.4e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++L
+  sp|P02114|HBB_ANAPL   3 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQL 89 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa++ k+ft++ qaa +Kl+ +va++la kY+
+  sp|P02114|HBB_ANAPL  90 SELHCDKLHVDPENFRLLGDILIIVLAAHFTKDFTPECQAAWQKLVRVVAHALARKYH 147
+                          *********************************************************7 PP
+
+>> sp|P18978|HBA_TURTR  Hemoglobin subunit alpha OS=Tursiops truncatus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.4   0.3   2.5e-53   1.2e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.4 bits;  conditional E-value: 2.5e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk  W+k++ + +e+Ga++L+r+f  +P t+++F +F dL      ++sa++k Hgkkv+dAl++a+ ++d +l+ +l++L
+  sp|P18978|HBA_TURTR   1 VLSPADKTNVKGTWSKIGNHSAEYGAEALERMFINFPSTKTYFSHF-DLG-----HGSAQIKGHGKKVADALTKAVGHID-NLPDALSEL 83 
+                          69********************************************.999.....*************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la +lp++ft++v+a+l+K+la+v+++l+skY+
+  sp|P18978|HBA_TURTR  84 SDLHAHKLRVDPVNFKLLSHCLLVTLALHLPADFTPSVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P10782|HBB_PHACA  Hemoglobin subunit beta OS=Phalacrocorax carbo GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.4   0.2   2.6e-53   1.2e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.4 bits;  conditional E-value: 2.6e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v+e Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld +++a++++L
+  sp|P10782|HBB_PHACA   2 HWTAEEKQLITGLWGKV--NVAECGAEALARLLIVYPWTQRFFASFGNLSSATAITGNPMVRAHGKKVLTSFGEAVKNLD-NIKATFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaa +Kl+  va++la kY+
+  sp|P10782|HBB_PHACA  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPECQAAWQKLVGAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P15163|HBA_LEPWE  Hemoglobin subunit alpha-1/2 OS=Leptonychotes weddelli PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.2   0.1   2.9e-53   1.4e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.2 bits;  conditional E-value: 2.9e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk+ W k++ +++e+G+++L+r f+++P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+ ++d +l+++l++L
+  sp|P15163|HBA_LEPWE   1 VLSPADKTNVKTTWDKIGGHAGEYGGEALERTFMAFPTTKTYFPHF-DLS-----PGSAQVKTHGKKVADALTTAVSHID-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+++ v+++l+skY+
+  sp|P15163|HBA_LEPWE  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPADFTPAVHASLDKFFSAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P23019|HBA_PROCR  Hemoglobin subunit alpha OS=Proteles cristata GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.0   0.9   3.3e-53   1.6e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.0 bits;  conditional E-value: 3.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k ++ka W k++ + +e+Ga++L+r f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl+ a a+ld +l+a+l++L
+  sp|P23019|HBA_PROCR   1 VLSSADKANIKATWDKIGGHGGEYGAEALERTFLCFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALAVAAAHLD-DLPAALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+l++v+++l+skY+
+  sp|P23019|HBA_PROCR  84 SDLHAYKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHASLDKFLSSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02124|HBB_RHEAM  Hemoglobin subunit beta OS=Rhea americana GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  176.0   0.1   3.4e-53   1.7e-50       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 176.0 bits;  conditional E-value: 3.4e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++Ls
+  sp|P02124|HBB_RHEAM   3 WTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQLS 89 
+                          589*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll+++l+ vlaa+++k+ft++ qaa +Kl+ +va++la kY+
+  sp|P02124|HBB_RHEAM  90 ELHCDKLHVDPENFRLLGDILIIVLAAHFAKDFTPECQAAWQKLVRVVAHALARKYH 146
+                          ********************************************************7 PP
+
+>> sp|P86390|HBB2_IGUIG  Hemoglobin subunit beta-2 OS=Iguana iguana GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.9   0.1   3.5e-53   1.7e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.9 bits;  conditional E-value: 3.5e-53
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek+ ++ +W+kv  dv ++Gad+L  +++ +P+tq+fF  F++Ls + ++ ++++v++Hgkkvl+A++da+++ld +++ ++++
+  sp|P86390|HBB2_IGUIG   2 HWTAEEKQLITCLWGKV--DVPTVGADALAGMLVMYPWTQRFFADFGNLSSATAICGNPKVRAHGKKVLTAFGDAIKNLD-NIKDTFAK 87 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vl+ vla +++k+ft++ +aa++Kl+++va++la +Y+
+  sp|P86390|HBB2_IGUIG  88 LSELHCDKLHVDPENFKLLGNVLIIVLAGHYGKDFTPACHAAYQKLVNVVAHALARRYH 146
+                           **********************************************************7 PP
+
+>> sp|P02123|HBB_STRCA  Hemoglobin subunit beta OS=Struthio camelus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.7   0.0     4e-53     2e-50       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.7 bits;  conditional E-value: 4e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s++ek+ +  +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ ++da+++ld ++++++++Ls
+  sp|P02123|HBB_STRCA   3 WSAEEKQLISGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLD-NIKNTFAQLS 89 
+                          699*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll+++l+ vlaa++ keft++ qaa +Kl+ +va++la kY+
+  sp|P02123|HBB_STRCA  90 ELHCDKLHVDPENFRLLGDILIIVLAAHFTKEFTPECQAAWQKLVRVVAHALARKYH 146
+                          ********************************************************7 PP
+
+>> sp|Q27940|HBG_AOTAZ  Hemoglobin subunit gamma OS=Aotus azarae GN=HBG PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.6   0.0   4.3e-53   2.1e-50       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.6 bits;  conditional E-value: 4.3e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++Wakv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg kvl+ l++a+++ld +l++++ +Ls
+  sp|Q27940|HBG_AOTAZ   4 FTAEDKAAITSLWAKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGAKVLTSLGEAIKNLD-DLKGTFGQLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +l s+Y+
+  sp|Q27940|HBG_AOTAZ  91 ELHCDKLHVDPENFRLLGNVLVTVLAVLHGKEFTPEVQASWQKMVAGVASALGSRYH 147
+                          ********************************************************7 PP
+
+>> sp|P02120|HBB_ANSSE  Hemoglobin subunit beta OS=Anseranas semipalmata GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.6   0.0   4.5e-53   2.2e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.6 bits;  conditional E-value: 4.5e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+t++fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P02120|HBB_ANSSE   2 HWSAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTERFFSSFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+ft+d qaa +Kl+ +va++la kY+
+  sp|P02120|HBB_ANSSE  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPDCQAAWQKLVRVVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P02203|MYG_VARVA  Myoglobin OS=Varanus varius GN=MB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.3   0.3   5.4e-53   2.6e-50       3     149 .]       3     148 ..       1     148 [. 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.3 bits;  conditional E-value: 5.4e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e++kv  +W+kve d   +G+++++r+f+ +P+tq+ F kFk+L+t de+k+s+d+kkHg +vl+Al+ +l++ ++++ea++++L+
+  sp|P02203|MYG_VARVA   3 LSDEEWKKVVDIWGKVEPDLPSHGQEVIIRMFQNHPETQDRFAKFKNLKTLDEMKNSEDLKKHGTTVLTALGRILKQ-KGHHEAEIAPLA 91 
+                          9****************************************************************************.99********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha+ +k+++ky++++ ev+v v+a++++++f+ad q a+ K+l+l+++++as+Yk
+  sp|P02203|MYG_VARVA  92 QTHANTHKIPIKYLEFICEVIVGVIAEKHSADFGADSQEAMRKALELFRNDMASRYK 148
+                          ********************************************************7 PP
+
+>> sp|P68061|HBB_AEGMO  Hemoglobin subunit beta OS=Aegypius monachus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.3   0.0   5.5e-53   2.7e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.3 bits;  conditional E-value: 5.5e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P68061|HBB_AEGMO   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+f++d qaa +Kl+  va++la kY+
+  sp|P68061|HBB_AEGMO  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFGKDFSPDCQAAWQKLVRAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P68062|HBB_TRIOC  Hemoglobin subunit beta OS=Trigonoceps occipitalis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.3   0.0   5.5e-53   2.7e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.3 bits;  conditional E-value: 5.5e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P68062|HBB_TRIOC   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+f++d qaa +Kl+  va++la kY+
+  sp|P68062|HBB_TRIOC  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFGKDFSPDCQAAWQKLVRAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P68063|HBB_GYPRU  Hemoglobin subunit beta OS=Gyps rueppellii GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.3   0.0   5.5e-53   2.7e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.3 bits;  conditional E-value: 5.5e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P68063|HBB_GYPRU   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa+++k+f++d qaa +Kl+  va++la kY+
+  sp|P68063|HBB_GYPRU  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFGKDFSPDCQAAWQKLVRAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P08851|HBB_ACCGE  Hemoglobin subunit beta OS=Accipiter gentilis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.2   0.1   5.9e-53   2.9e-50       4     149 .]       4     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 175.2 bits;  conditional E-value: 5.9e-53
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++Lse
+  sp|P08851|HBB_ACCGE   4 AAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSATAVLGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQLSE 90 
+                          689************..*************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp++f+ll+++l++vlaa+++k+f++d qaa +Kl+  va++la kY+
+  sp|P08851|HBB_ACCGE  91 LHCDKLHVDPENFRLLGDILIVVLAAHFGKDFSPDCQAAWQKLVRAVAHALARKYH 146
+                          *******************************************************7 PP
+
+>> sp|P01957|HBA_PROHA  Hemoglobin subunit alpha OS=Procavia capensis habessinica GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.1   0.4   6.1e-53     3e-50       2     149 .]       1     142 []       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 175.1 bits;  conditional E-value: 6.1e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk +W kv+++++e+Ga++L+r+f+s+P+t+++F++F dL+     ++sa+vk+Hg+kv  Al++a+ +ld +l+++l+dL
+  sp|P01957|HBA_PROHA   1 VLSAADKNNVKGAWEKVGTHAGEYGAEALERMFLSFPTTKTYFPHF-DLT-----HGSAQVKAHGQKVGAALTKAVGHLD-DLPNALSDL 83 
+                          69********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlp.keftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++l  +lp +eft++v+a+l+K+++ v+++l+skY+
+  sp|P01957|HBA_PROHA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLSRHLPeQEFTPAVHASLDKFFSNVSTVLTSKYR 142
+                          ******************************9459************************7 PP
+
+>> sp|Q9GLX4|HBG1_CALMO  Hemoglobin subunit gamma-1 OS=Callicebus moloch GN=HBG1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.1   0.0   6.1e-53     3e-50       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.1 bits;  conditional E-value: 6.1e-53
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +L
+  sp|Q9GLX4|HBG1_CALMO   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFDQL 89 
+                           6899************..************************************************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selH++kl+vdp++f+ll++vlv+vla  ++keft++vqa+ +K++a va +l s+Y+
+  sp|Q9GLX4|HBG1_CALMO  90 SELHCDKLHVDPENFRLLGNVLVTVLAILHGKEFTPEVQASRQKMVAGVASALGSRYH 147
+                           *********************************************************7 PP
+
+>> sp|P02128|HBE_CHICK  Hemoglobin subunit epsilon OS=Gallus gallus GN=HBE PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  175.1   0.1   6.3e-53   3.1e-50       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 175.1 bits;  conditional E-value: 6.3e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ +++vW+kv  +vee Ga++L rl+ ++P+tq+fF +F++Ls + ++++++ v++Hgkkvl  +++a+++ld ++++++++L
+  sp|P02128|HBE_CHICK   3 HWSAEEKQLITSVWSKV--NVEECGAEALARLLIVYPWTQRFFASFGNLSSPTAIMGNPRVRAHGKKVLSSFGEAVKNLD-NIKNTYAKL 89 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vla++++++ft++ q a +Kl+++va++la kY+
+  sp|P02128|HBE_CHICK  90 SELHCDKLHVDPENFRLLGDILIIVLASHFARDFTPACQFAWQKLVNVVAHALARKYH 147
+                          *********************************************************7 PP
+
+>> sp|P01949|HBA_ERIEU  Hemoglobin subunit alpha OS=Erinaceus europaeus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.9   0.1   7.1e-53   3.5e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.9 bits;  conditional E-value: 7.1e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +k +vk+ W+k + + +e+G+++L r+f+++P+t+++F++F dL+      +sa+vk Hgkkv+dAl+ a+++ld +++++l++L
+  sp|P01949|HBA_ERIEU   1 VLSATDKANVKTFWGKLGGHGGEYGGEALDRMFQAHPTTKTYFPHF-DLN-----PGSAQVKGHGKKVADALTTAVNNLD-DVPGALSAL 83 
+                          69********************************************.999.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++la ++p++ft++v+a+l+K+la+va++l+skY+
+  sp|P01949|HBA_ERIEU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLALHHPADFTPAVHASLDKFLATVATVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01979|HBA_ORNAN  Hemoglobin subunit alpha OS=Ornithorhynchus anatinus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.7   1.4   8.6e-53   4.2e-50       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.7 bits;  conditional E-value: 8.6e-53
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L++aek++v+a+W+k   + ee+Ga++L+rlf+++P+t+++F +F dLs     ++sa++k+Hgkkv+dAls a  ++d +++++l++Ls
+  sp|P01979|HBA_ORNAN   2 LTDAEKKEVTALWGKAAGHGEEYGAEALERLFQAFPTTKTYFSHF-DLS-----HGSAQIKAHGKKVADALSTAAGHFD-DMDSALSALS 84 
+                          99*******************************************.***.....************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lHa+kl+vdp +fkll++++++vla + p+eft++++aa++K+l+ va++l+skY+
+  sp|P01979|HBA_ORNAN  85 DLHAHKLRVDPVNFKLLAHCILVVLARHCPGEFTPSAHAAMDKFLSKVATVLTSKYR 141
+                          ********************************************************7 PP
+
+>> sp|P18977|HBA_PROLO  Hemoglobin subunit alpha OS=Procyon lotor GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.6   0.1   8.8e-53   4.3e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.6 bits;  conditional E-value: 8.8e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k ++ka W k++ +++e+G+++L+r f s+P+t+++F++F dLs      +sa+vk+Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|P18977|HBA_PROLO   1 VLSPADKANIKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVADALTLAVGHLD-DLPGALSAL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la ++p+eft++v+a+l+K++ +v+++l+skY+
+  sp|P18977|HBA_PROLO  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHHPAEFTPAVHASLDKFFTSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01973|HBA_LAMGL  Hemoglobin subunit alpha OS=Lama glama GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.6   0.6   8.8e-53   4.3e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.6 bits;  conditional E-value: 8.8e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k ++k++++k++ +++++Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a  +ld +l+++l++L
+  sp|P01973|HBA_LAMGL   1 VLSSKDKANIKTAFGKIGGHAADYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTKAADHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++aa++p++ft++v+a+l+K+la v+++l+skY+
+  sp|P01973|HBA_LAMGL  84 SDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPAVDASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P67815|HBA_LAMGU  Hemoglobin subunit alpha OS=Lama guanicoe GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.6   0.9   9.4e-53   4.6e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.6 bits;  conditional E-value: 9.4e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k ++k++++k++ +++++Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a  +ld +l+++l++L
+  sp|P67815|HBA_LAMGU   1 VLSSKDKANIKTAFGKIGGHAADYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTKAADHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++aa++p++ft++v+a+l+K+la v+++l+skY+
+  sp|P67815|HBA_LAMGU  84 SDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPAVHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P67816|HBA_LAMPA  Hemoglobin subunit alpha OS=Lama guanicoe pacos GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.6   0.9   9.4e-53   4.6e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.6 bits;  conditional E-value: 9.4e-53
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k ++k++++k++ +++++Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a  +ld +l+++l++L
+  sp|P67816|HBA_LAMPA   1 VLSSKDKANIKTAFGKIGGHAADYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTKAADHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++aa++p++ft++v+a+l+K+la v+++l+skY+
+  sp|P67816|HBA_LAMPA  84 SDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPAVHASLDKFLANVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02108|HBB_POTTR  Hemoglobin subunit beta OS=Potorous tridactylus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.2   0.1   1.2e-52   5.8e-50       1     149 []       1     146 []       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.2 bits;  conditional E-value: 1.2e-52
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+Ls +ek  ++++W+k+  d+e++G+++L rl+ ++P+t +fF++F+dLs + ++ ++a+v +Hg kvl  ++da+++ld +l++++++
+  sp|P02108|HBB_POTTR   1 VHLSSEEKGLITSLWGKI--DIEQTGGEALGRLLIVYPWTSRFFDHFGDLSSAKAVLGNAKVLAHGAKVLVSFGDAIKNLD-NLKGTFAK 87 
+                          69****************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fkll++vlv  la++++k+ft d+q a +Kl+a va++la+kY+
+  sp|P02108|HBB_POTTR  88 LSELHCDKLHVDPENFKLLGNVLVICLAEHFGKDFTIDAQVAWQKLVAGVANALAHKYH 146
+                          **********************************************************7 PP
+
+>> sp|P83123|HBB_CHENI  Hemoglobin subunit beta OS=Chelonoidis nigra GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.2   0.4   1.2e-52   5.8e-50       2     149 .]       3     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 174.2 bits;  conditional E-value: 1.2e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++++Wakv  +vee+G+++L rl+ ++P+tq+fF +F++Ls + ++  +a+v +Hgkkvl+ ++da+++ld ++++++++L
+  sp|P83123|HBB_CHENI   3 HWTPEEKQYITSLWAKV--NVEEVGGEALARLLIVYPWTQRFFSSFGNLSSASAILHNAKVLAHGKKVLTSFGDAVKNLD-NIKKTFAQL 89 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++fkll+++l+ vla+r+pkeft++ qaa  Kl++ va++la  Y+
+  sp|P83123|HBB_CHENI  90 SELHCEKLHVDPENFKLLGNILIIVLATRFPKEFTPASQAAWTKLVNAVAHALALGYH 147
+                          ******************************************************9996 PP
+
+>> sp|P02109|HBB_DIDVI  Hemoglobin subunit beta-M OS=Didelphis virginiana GN=HBB PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.2   0.1   1.2e-52     6e-50       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.2 bits;  conditional E-value: 1.2e-52
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+L+ +ek+ ++++W+kv  +v+++G+++L r+++++P+t +fF +F+dLs + +++++ +v++Hg kvl+ +++a+++ld +l++++++
+  sp|P02109|HBB_DIDVI   2 VHLTSEEKNCITTIWSKV--QVDQTGGEALGRMLVVYPWTTRFFGSFGDLSSPGAVMSNSKVQAHGAKVLTSFGEAVKHLD-NLKGTYAK 88 
+                          69****************..9************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          LselH++kl+vdp++fk+l++++v  la++++k+ft++ q a +Kl+a va++la+kY+
+  sp|P02109|HBB_DIDVI  89 LSELHCDKLHVDPENFKMLGNIIVICLAEHFGKDFTPECQVAWQKLVAGVAHALAHKYH 147
+                          **********************************************************7 PP
+
+>> sp|P02122|HBB_AQUCH  Hemoglobin subunit beta OS=Aquila chrysaetos GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  174.2   0.1   1.2e-52     6e-50       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 174.2 bits;  conditional E-value: 1.2e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P02122|HBB_AQUCH   2 HWTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAIIGNPMVRAHGKKVLTSFGEAVKNLD-NIKNTFAQL 88 
+                          6799*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vlaa++ k+f++d qaa +Kl+  va++la kY+
+  sp|P02122|HBB_AQUCH  89 SELHCDKLHVDPENFRLLGDILIIVLAAHFTKDFSPDCQAAWQKLVRAVAHALARKYH 146
+                          *********************************************************7 PP
+
+>> sp|P01977|HBA1_TACAC  Hemoglobin subunit alpha-1 OS=Tachyglossus aculeatus aculeatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.9   2.2   1.5e-52   7.3e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 173.9 bits;  conditional E-value: 1.5e-52
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++aek++v+++W+k   ++ee+Ga++L+rlf+s+P+t+++F +  dLs     k+sa+vk+Hgk+v+dAl+ a  +++ +++++l++
+  sp|P01977|HBA1_TACAC   1 VLTDAEKKEVTSLWGKASGHAEEYGAEALERLFLSFPTTKTYFSHM-DLS-----KGSAQVKAHGKRVADALTTAAGHFN-DMDSALSA 82 
+                           69*******************************************9.9**.....***********************98.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fkll+++ ++vla ++p+eft++++aa++K+l+ va++l+skY+
+  sp|P01977|HBA1_TACAC  83 LSDLHAHKLRVDPVNFKLLAHCFLVVLARHHPAEFTPSAHAAMDKFLSRVATVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P07425|HBA_LAMVI  Hemoglobin subunit alpha OS=Lama vicugna GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.9   0.9   1.5e-52   7.4e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 173.9 bits;  conditional E-value: 1.5e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k +vk++++k++ +++++Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl++a  +ld +l+++l++L
+  sp|P07425|HBA_LAMVI   1 VLSSKDKANVKTAFGKIGGHAADYGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTKAADHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l++++aa++p++ft++v+a+l+K+l  v+++l+skY+
+  sp|P07425|HBA_LAMVI  84 SDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPAVHASLDKFLTNVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01978|HBA2_TACAC  Hemoglobin subunit alpha-2 OS=Tachyglossus aculeatus aculeatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.6   1.2   1.8e-52     9e-50       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 173.6 bits;  conditional E-value: 1.8e-52
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++ae+++v+++W+k   ++e++Ga++L+rlf+s+P+t+++F +  dLs     k+sa+v++Hgkkv+dAl+ a+ +++ +++++l+d
+  sp|P01978|HBA2_TACAC   1 VLTDAERKEVTSLWGKASGHAEDYGAEALERLFLSFPTTKTYFSHM-DLS-----KGSAHVRAHGKKVADALTTAVGHFN-DMDGALSD 82 
+                           699******************************************9.9**.....***********************98.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fkll+++ ++vla ++p+eft++++aa++K+l+ va++l+skY+
+  sp|P01978|HBA2_TACAC  83 LSDLHAHKLRVDPVNFKLLAHCFLVVLARHHPEEFTPSAHAAMDKFLSRVATVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P04444|HBBZ_MOUSE  Hemoglobin subunit beta-H1 OS=Mus musculus GN=Hbb-bh1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.5   0.2     2e-52   9.6e-50       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 173.5 bits;  conditional E-value: 2e-52
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+ +++ek +++++W kv  d e++G++ L rl+ ++P+tq+fF+kF++Ls + ++++++ +++Hgkkvl+ l+ +++++d +l+ +++
+  sp|P04444|HBBZ_MOUSE   2 VHFTAEEKAAITSIWDKV--DLEKVGGETLGRLLIVYPWTQRFFDKFGNLSSALAIMGNPRIRAHGKKVLTSLGLGVKNMD-NLKETFA 87 
+                           5789**************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++fkll+++lv vl ++++keft++vqaa +Kl+  va++l++kY+
+  sp|P04444|HBBZ_MOUSE  88 HLSELHCDKLHVDPENFKLLGNMLVIVLSTHFAKEFTPEVQAAWQKLVIGVANALSHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|P22743|HBB2_NAJNA  Hemoglobin subunit beta-2 OS=Naja naja GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.3   0.4   2.2e-52   1.1e-49       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 173.3 bits;  conditional E-value: 2.2e-52
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + s++ek+ ++++Wakv  dv e+Ga  L ++++ +P+tq+fF +F++Ls + +l ++++v++Hgkkvl+ +++al++ld +++ ++++
+  sp|P22743|HBB2_NAJNA   2 HWSAEEKQLITSLWAKV--DVPEVGAATLGKMMVMYPWTQRFFAHFGNLSGPSALCGNPQVRAHGKKVLTSFGEALKHLD-NVKETFAK 87 
+                           779**************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH +kl+vdp++fkll++vl+ vla +++keft++ +a+++Kl+++va++la +Y+
+  sp|P22743|HBB2_NAJNA  88 LSELHFDKLHVDPENFKLLGNVLIIVLAGHHGKEFTPSTHASFQKLVNVVAHALARRYH 146
+                           **********************************************************7 PP
+
+>> sp|P01954|HBA_ELEMA  Hemoglobin subunit alpha OS=Elephas maximus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.2   0.5   2.5e-52   1.2e-49       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 173.2 bits;  conditional E-value: 2.5e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vka W+kv+ ++ ++ a++L+r+f s+P+t+++F++F dLs     ++s +vk Hgkkv +Al++a+ +ld +l+++l++L
+  sp|P01954|HBA_ELEMA   1 VLSDKDKTNVKATWSKVGDHASDYVAEALERMFFSFPTTKTYFPHF-DLS-----HGSGQVKGHGKKVGEALTQAVGHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++l ++ p+eft++v+a+l+K+l+ v+++l+skY+
+  sp|P01954|HBA_ELEMA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLSSHQPTEFTPEVHASLDKFLSNVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P13274|HBB_CHRPI  Hemoglobin subunit beta OS=Chrysemys picta bellii GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  173.1   1.2   2.6e-52   1.3e-49       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 173.1 bits;  conditional E-value: 2.6e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +++ek+ ++++W+kv  +vee G ++L rl+ ++P+tq+fF  F++Ls ++++  +++v++Hgkkvl+ +++a+++ld ++++++++L
+  sp|P13274|HBB_CHRPI   2 HWTADEKQLITSLWGKV--NVEECGSEALARLLIVYPWTQRFFSTFGNLSNAEAILHNPHVHAHGKKVLTSFGEAVKNLD-HIKQTFATL 88 
+                          67899************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lH++kl+vdp++fkll++vl+ vla+++ keft++ qaa +Kl++ va++la  Y+
+  sp|P13274|HBB_CHRPI  89 SKLHCEKLHVDPENFKLLGNVLIIVLASHFTKEFTPACQAAWQKLVSAVAHALALGYH 146
+                          ******************************************************9996 PP
+
+>> sp|P29626|HBBY_MESAU  Hemoglobin subunit beta-Y OS=Mesocricetus auratus GN=HBBY PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  172.7   0.2   3.6e-52   1.7e-49       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 172.7 bits;  conditional E-value: 3.6e-52
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+ +++ek +++++W kv  d e+ G++ L rl+ ++P+tq+fFekF++Ls ++++++++ +++Hgkkvl+ l+ a++++d +l+ +++
+  sp|P29626|HBBY_MESAU   2 VHFTAEEKAAITSIWDKV--DLEKAGGETLGRLLIVYPWTQRFFEKFGNLSPPQAIMGNPRIRAHGKKVLTSLGLAVQNMD-NLKETFA 87 
+                           5789**************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+vdp++fkll+++lv vl ++l+kefta+vqaa +Kl+a va++l+ kY+
+  sp|P29626|HBBY_MESAU  88 HLSELHCDKLHVDPENFKLLGNMLVIVLSSHLGKEFTAEVQAAWQKLVAAVANALSLKYH 147
+                           ***********************************************************7 PP
+
+>> sp|P56285|HBG_ALOSE  Hemoglobin subunit gamma OS=Alouatta seniculus GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  172.6   0.0   3.6e-52   1.8e-49       3     149 .]       4     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 172.6 bits;  conditional E-value: 3.6e-52
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++++k +++++W+kv  +ve+ G++ L rl++++P+tq+fF++F+ Ls + +++++++vk+Hg+kvl+ l++a+++ld +l++++ +Ls
+  sp|P56285|HBG_ALOSE   4 FTAEDKAAITSLWGKV--NVEDAGGETLGRLLVVYPWTQRFFDSFGSLSSPSAIMGNPKVKAHGVKVLTSLGEAIKNLD-DLKGTFGSLS 90 
+                          6899************..************************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+l ++vlv+vla  ++keft++vqa+ +K++a va +las+Y+
+  sp|P56285|HBG_ALOSE  91 ELHCDKLHVDPENFRLPGNVLVTVLAILHGKEFTPEVQASWQKMVAGVASALASRYH 147
+                          ********************************************************7 PP
+
+>> sp|Q45XI6|HBD_PROCA  Hemoglobin subunit deltaH OS=Procavia capensis PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  172.6   0.0   3.7e-52   1.8e-49       2     149 .]       3     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 172.6 bits;  conditional E-value: 3.7e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ ek +v ++W+kv  d +  G ++L rl++ +P+t++fFe+F+dLst+d++ k++ v++Hg+kvl  ++++l++ld +l++++++L
+  sp|Q45XI6|HBD_PROCA   3 RLTDSEKAEVVSLWSKV--DEKIIGSEALGRLLVIYPWTRRFFEHFGDLSTADAILKNPRVQAHGEKVLSSFGEGLNHLD-NLRGTFAQL 89 
+                          699**************..88899********************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH+++l+vdp++f+ll+++lv+vla +++keft +vqaa +K++a +a++la+kY+
+  sp|Q45XI6|HBD_PROCA  90 SELHCDELHVDPENFRLLGNILVVVLARHYGKEFTLEVQAACQKFVAGMANALAHKYH 147
+                          *********************************************************7 PP
+
+>> sp|Q98905|HBB_CHECB  Hemoglobin subunit beta OS=Chelonoidis carbonaria GN=HBB PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  172.5   0.5   3.9e-52   1.9e-49       2     149 .]       3     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 172.5 bits;  conditional E-value: 3.9e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s +ek+ ++++Wakv  +vee+G+++L rl+ ++P+tq+fF +F++Ls ++++  +a+v +Hgkkvl+ +++a+++ld ++++++++L
+  sp|Q98905|HBB_CHECB   3 HWSCEEKQFITSLWAKV--NVEEVGGEALARLLIVYPWTQRFFSSFGNLSSPNAILHNAKVLAHGKKVLTSFGEAVKNLD-NIKKTFAQL 89 
+                          6789*************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++fkll+++l+ vla+++pkeft++ qaa  Kl++ va++la  Y+
+  sp|Q98905|HBB_CHECB  90 SELHCEKLHVDPENFKLLGNILIIVLATHFPKEFTPASQAAWTKLVNAVAHALALGYH 147
+                          ******************************************************9996 PP
+
+>> sp|P01955|HBA_LOXAF  Hemoglobin subunit alpha OS=Loxodonta africana GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.8   0.4   6.6e-52   3.2e-49       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.8 bits;  conditional E-value: 6.6e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vka W+kv+ ++ ++ a++L+r+f s+P+t+++F++F dL      ++s +vk+Hgkkv +Al++a+ +ld +l+++l++L
+  sp|P01955|HBA_LOXAF   1 VLSDNDKTNVKATWSKVGDHASDYVAEALERMFFSFPTTKTYFPHF-DLG-----HGSGQVKAHGKKVGEALTQAVGHLD-DLPSALSAL 83 
+                          69********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++l ++ p+eft++v+a+l+K+l+ v+++l+skY+
+  sp|P01955|HBA_LOXAF  84 SDLHAHKLRVDPVNFKLLSHCLLVTLSSHQPTEFTPEVHASLDKFLSNVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02080|HBBN_AMMLE  Hemoglobin subunit beta-C(NA) OS=Ammotragus lervia PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.5   0.4   7.9e-52   3.9e-49       7     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.5 bits;  conditional E-value: 7.9e-52
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           +k  ++  W+kv  +v+++Ga++L rl++++P+t++fF++F++Ls +++++ +a+vk+Hgkkvl+ +s++l++l+ +l++++++Ls+lH
+  sp|P02080|HBBN_AMMLE   2 BKALITGFWSKV--KVBZVGAZALGRLLVVYPWTZRFFZHFGBLSSABAVMBBAKVKAHGKKVLBSFSBGLKHLB-BLKGAFASLSZLH 87 
+                           68999*******..9***********************************************************9.************* PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           ++kl+v+p++f+ll++vlv+vla +++k+f ++ +a ++K++a va +la++Y+
+  sp|P02080|HBBN_AMMLE  88 CBKLHVBPZBFRLLGBVLVVVLARHFGKZFBPZLZAZFZKVVAGVASALAHRYH 141
+                           *****************************************************7 PP
+
+>> sp|B3EWD3|HBA_PERCR  Hemoglobin subunit alpha OS=Peromyscus crinitus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.5   1.4   8.1e-52     4e-49       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.5 bits;  conditional E-value: 8.1e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k +vkavW+k + + +e+Ga++L r+f s+P+t+++  +F d+s     ++sa+vk Hgkkv+dAl+ a  +ld +l+++l++L
+  sp|B3EWD3|HBA_PERCR   1 VLSAEDKANVKAVWSKLGGHGAEYGAEALGRMFESHPTTKTYPFHF-DVS-----HGSAQVKGHGKKVADALATAASHLD-DLPGALSAL 83 
+                          69****************************************99**.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++++a+l+K+la+v+++l+skY+
+  sp|B3EWD3|HBA_PERCR  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAAHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01975|HBA_MACGI  Hemoglobin subunit alpha OS=Macropus giganteus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.5   0.6   8.2e-52     4e-49       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.5 bits;  conditional E-value: 8.2e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka+W+kv+ +++e+ a+ L+r f s+P+t+++F++F dLs     ++sa++++Hgkk++dAl++a+ ++d +l+++l++L
+  sp|P01975|HBA_MACGI   1 VLSAADKGHVKAIWGKVGGHAGEYAAEGLERTFHSFPTTKTYFPHF-DLS-----HGSAQIQAHGKKIADALGQAVEHID-DLPGTLSKL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++ aa+l+  ft++v+a+l+K+la v+++l+skY+
+  sp|P01975|HBA_MACGI  84 SDLHAHKLRVDPVNFKLLSHCLLVTFAAHLGDAFTPEVHASLDKFLAAVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P86391|HBB2_AMBCR  Hemoglobin subunit beta-2 OS=Amblyrhynchus cristatus GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.4   0.0   8.7e-52   4.2e-49       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.4 bits;  conditional E-value: 8.7e-52
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek+ ++ +W+kv  dv++ G++ L  +f+ +P+tq+ F +F++Ls + ++ ++++vk+Hgkkvl+A++da+++ld +++ ++++
+  sp|P86391|HBB2_AMBCR   2 HWTAEEKQLITCLWGKV--DVATIGGESLAGMFVMYPWTQRLFSEFGNLSSPTAICGNPKVKAHGKKVLTAFGDAIRNLD-NIKDTFAK 87 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++fkll++vl+ vla +++k+ft++ +aa++Kl+++va++la +Y+
+  sp|P86391|HBB2_AMBCR  88 LSELHCDKLHVDPENFKLLGKVLLIVLAGHYGKDFTPACHAAYQKLVNVVAHALARRYH 146
+                           **********************************************************7 PP
+
+>> sp|B3EWD1|HBA_SCICA  Hemoglobin subunit alpha OS=Sciurus carolinensis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.4   0.3     9e-52   4.4e-49       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.4 bits;  conditional E-value: 9e-52
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka W k + + +  G+++L r+f+s+P+t+++F +F dLs      +s ++k+Hgkkv+dAl++a  +ld +l+++l++L
+  sp|B3EWD1|HBA_SCICA   1 VLSAADKTNVKASWEKLGGHPGAFGGEALDRMFLSFPTTKTYFHHF-DLS-----PGSSNLKTHGKKVADALANAAGHLD-DLPGALSTL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p++ft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWD1|HBA_SCICA  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHMPADFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18987|HBB1_IGUIG  Hemoglobin subunit beta-1 OS=Iguana iguana GN=HBB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.2   0.2     1e-51     5e-49       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.2 bits;  conditional E-value: 1e-51
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek+ +++vW+k+  dv++ G++ L  l++++P+tq+fF+ F++Ls ++++ ++a+vk+Hgkkvl+ ++da+++ld +++ ++++
+  sp|P18987|HBB1_IGUIG   2 HWTAEEKQLITQVWGKI--DVAQIGGETLACLLVVYPWTQRFFPDFGNLSNAAAICGNAKVKAHGKKVLTSFGDAVKNLD-NIKDTFAK 87 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp +f+ll++v+++ laa+++k+ft++ +aa++Kl   va++la +Y+
+  sp|P18987|HBB1_IGUIG  88 LSELHCDKLHVDPVNFRLLGNVMITRLAAHFGKDFTPACHAAFQKLTGAVAHALARRYH 146
+                           **********************************************************7 PP
+
+>> sp|P18973|HBA_CROCR  Hemoglobin subunit alpha OS=Crocuta crocuta GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.1   0.6   1.1e-51   5.2e-49       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.1 bits;  conditional E-value: 1.1e-51
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs a+k ++ka W k++ + +e+Ga++L+r f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv+dAl+ a a+ld +l+++l++L
+  sp|P18973|HBA_CROCR   1 VLSSADKANIKATWDKIGGHGGEYGAEALERTFLCFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVADALALAAAHLD-DLPSALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++laa++p+eft++v++ l+K+l++v+++l+skY+
+  sp|P18973|HBA_CROCR  84 SDLHAYKLRVDPVNFKLLSHCLLVTLAAHHPAEFTPAVHSDLDKFLSSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P10061|HBB2_SPHPU  Hemoglobin subunit beta-2 OS=Sphenodon punctatus GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  171.0   0.1   1.2e-51   5.6e-49       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 171.0 bits;  conditional E-value: 1.2e-51
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek+ v+++W+kv  +v+e G+++L rl+ ++P+tq+fF +F++Ls + ++ +++ vk+Hgkkv + +++a+++ld +++a++++
+  sp|P10061|HBB2_SPHPU   2 HWTAEEKQLVTSLWTKV--NVDECGGEALGRLLIVYPWTQRFFSSFGNLSSSTAICGNPRVKAHGKKVFTSFGEAVKNLD-NIKATYAK 87 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll+++ + vlaa+++k+ft++ qaa +Kl+ +va++la  Y+
+  sp|P10061|HBB2_SPHPU  88 LSELHCEKLHVDPQNFNLLGDIFIIVLAAHFGKDFTPACQAAWQKLVRVVAHALAYHYH 146
+                           *******************************************************9997 PP
+
+>> sp|P06642|HBE2_BOVIN  Hemoglobin subunit epsilon-2 OS=Bos taurus GN=HBE2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.9   0.2   1.3e-51   6.2e-49       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 170.9 bits;  conditional E-value: 1.3e-51
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + + +e  +v ++Wakv  +ve +G++ L rl+ + P+tq+fF++F++L  e +++++++vk +g+kvl+ +++a++++d +l+++++d
+  sp|P06642|HBE2_BOVIN   3 HFTTEENVAVASLWAKV--NVEVVGGESLARLLIVCPWTQRFFDSFGNLYSESAIMGNPKVKVYGRKVLNSFGNAIKHMD-DLKGTFAD 88 
+                           78999************..9************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp++f+ll+++++ vla++++keft+++qaa +Kl + va++l++kY+
+  sp|P06642|HBE2_BOVIN  89 LSELHCDKLHVDPENFRLLGNMILIVLATHFSKEFTPQMQAAWQKLTNAVANALTHKYH 147
+                           **********************************************************7 PP
+
+>> sp|P04443|HBB0_MOUSE  Hemoglobin subunit beta-H0 OS=Mus musculus GN=Hbb-bh0 PE=2 SV=5
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.8   0.4   1.3e-51   6.4e-49       1     149 []       2     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 170.8 bits;  conditional E-value: 1.3e-51
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+ +++ek +++++W kv  d e++G++ L rl+ ++P+tq+fF+kF++Ls ++++++++ +k+Hgkkvl+ l+ a++++d +l+ +++
+  sp|P04443|HBB0_MOUSE   2 VHFTAEEKAAITSIWDKV--DLEKVGGETLGRLLIVYPWTQRFFDKFGNLSSAQAIMGNPRIKAHGKKVLTSLGLAVKNMD-NLKETFA 87 
+                           5789**************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselH++kl+ dp++fkll+++lv vl + ++kefta++qaa +Kl+  va++l++kY+
+  sp|P04443|HBB0_MOUSE  88 HLSELHCDKLHADPENFKLLGNMLVIVLSSYFGKEFTAEAQAAWQKLVVGVATALSHKYH 147
+                           ***********************************************************7 PP
+
+>> sp|Q45XH6|HBG_TRIMA  Hemoglobin subunit gamma OS=Trichechus manatus GN=HBG PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.8   0.1   1.4e-51   6.7e-49       3     149 .]       4     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 170.8 bits;  conditional E-value: 1.4e-51
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek +++ +W+k+  +vee G+ +L rl+ ++P+tq+fF++F++Ls + +++++++vk+Hgkkvl+ ++da+++ d +l++++++Ls
+  sp|Q45XH6|HBG_TRIMA   4 FTAEEKAAITRLWGKM--NVEEAGGKALGRLLIVYPWTQRFFDNFGNLSSASAIMGNPKVKAHGKKVLNSFGDAVKNPD-NLKGTFAKLS 90 
+                          689*************..***********************************************************77.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl vd ++f+ll++vlv vla++++keft++vqaa +K+   va ++a kY+
+  sp|Q45XH6|HBG_TRIMA  91 ELHCDKLLVDSENFRLLGNVLVIVLANHFGKEFTPQVQAAWQKMATGVASAVARKYH 147
+                          ********************************************************7 PP
+
+>> sp|P83133|HBB_ALDEL  Hemoglobin A/D subunit beta OS=Aldabrachelys elephantina PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.7   0.6   1.5e-51   7.2e-49       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 170.7 bits;  conditional E-value: 1.5e-51
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + + +ek+ ++++Wakv  +v+e+G+++L rl+ ++P+tq+fF +F++Ls ++++  +a+v +Hg+kvl+ +++a+++ld ++++++++L
+  sp|P83133|HBB_ALDEL   2 HWTSEEKQYITSLWAKV--NVGEVGGEALARLLIVYPWTQRFFASFGNLSSANAILHNAKVLAHGQKVLTSFGEAVKNLD-NIKKTFAQL 88 
+                          67899************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++fkll+++l+ vla+++pkeft++ qaa  Kl++ va++la  Y+
+  sp|P83133|HBB_ALDEL  89 SELHCEKLHVDPENFKLLGNILIIVLATHFPKEFTPASQAAWTKLVNAVAHALALGYH 146
+                          ******************************************************9996 PP
+
+>> sp|P21198|GLB2_MORMR  Globin-2 OS=Mordacia mordax PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.5   0.1   1.7e-51   8.3e-49       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 170.5 bits;  conditional E-value: 1.7e-51
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +Ls+aek+k++a+W  v+ ++e+ G+diLv++f+ tPa+q fF+kFk+L+t+d+lkks dv++H++++++A++da++++d  ek+++kl
+  sp|P21198|GLB2_MORMR  11 PLSDAEKNKIRAAWDIVYKNYEKNGVDILVKFFTGTPAAQAFFPKFKGLTTADALKKSSDVRWHAERIINAVNDAVKSMDdtEKMSMKL 99 
+                           79*****************************************************************************5599****** PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           ++Ls +Ha+++ vd +yfk+l+ +++d+ a +         +a++eKl++++++ll+s+Y
+  sp|P21198|GLB2_MORMR 100 QELSVKHAQSFYVDRQYFKVLAGIIADTTAPG---------DAGFEKLMSMICILLSSAY 150
+                           *************************9998877.........*****************99 PP
+
+>> sp|P81043|HBA_MACEU  Hemoglobin subunit alpha OS=Macropus eugenii GN=HBA PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.2   0.4     2e-51   9.8e-49       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 170.2 bits;  conditional E-value: 2e-51
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vk +W+kv+ +++e+ a+ L+r f s+P+t+++F++F dLs     ++sa++++Hgkk++dAl++a+ ++d +l+++l++L
+  sp|P81043|HBA_MACEU   2 VLSAADKGHVKGIWGKVGGHAGEYAAEGLERTFHSFPTTKTYFPHF-DLS-----HGSAQIQAHGKKIADALGQAVEHID-DLPGTLSKL 84 
+                          8*********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++ aa+l+  ft++v+a+l+K+la v+++l+skY+
+  sp|P81043|HBA_MACEU  85 SDLHAHKLRVDPVNFKLLSHCLLVTFAAHLGDAFTPEVHASLDKFLAAVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P14525|HBA_BRATR  Hemoglobin subunit alpha OS=Bradypus tridactylus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  170.1   0.2   2.1e-51     1e-48       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 170.1 bits;  conditional E-value: 2.1e-51
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka W+k++ +++e+G+++L+r f+s+P+t+++F++F dLs      +sa+vk+Hgkkv dAl+ a+ +ld +l+++l+dL
+  sp|P14525|HBA_BRATR   1 VLSAADKAHVKAFWTKIGGHAGEYGGEALERTFLSFPTTKTYFPHF-DLS-----PGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSDL 83 
+                          69********************************************.9**.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++++++la ++p  ft++v+a+l+K++ +v+++l+skY+
+  sp|P14525|HBA_BRATR  84 SDLHAHKLRVDPVNFKLLGHCVLVTLALHHPDAFTPAVHASLDKFITTVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P21197|GLB1_MORMR  Globin-1 OS=Mordacia mordax PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  169.8   0.1   2.7e-51   1.3e-48       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 169.8 bits;  conditional E-value: 2.7e-51
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +Ls+aek+k++a+W  v+ d+e++G+diLv++f+ tPa+q fF+kFk+L+t+d+lk+s dv++H++++++A++da++++d  ek+++kl
+  sp|P21197|GLB1_MORMR  11 PLSDAEKNKIRAAWDLVYKDYEKTGVDILVKFFTGTPAAQAFFPKFKGLTTADDLKQSSDVRWHAERIINAVNDAVKSMDdtEKMSMKL 99 
+                           79*****************************************************************************5599****** PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           k+Ls +Ha+++ vd +yfk+l+ +++d+ a +         +a++eKl++++++ll+s+Y
+  sp|P21197|GLB1_MORMR 100 KELSIKHAQSFYVDRQYFKVLAGIIADTTAPG---------DAGFEKLMSMICILLSSAY 150
+                           *************************9998877.........*****************99 PP
+
+>> sp|P15165|HBB_APUAP  Hemoglobin subunit beta OS=Apus apus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  169.0   0.2   4.8e-51   2.3e-48       3     149 .]       3     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 169.0 bits;  conditional E-value: 4.8e-51
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++ek+ ++ +W+kv  +v++ Ga++L rl+ ++P+tq+fF +F++Ls + ++ +++ v++Hgkkvl+ +++a+++ld  +++++++Ls
+  sp|P15165|HBB_APUAP   3 WTAEEKQLITGLWGKV--NVADCGAEALARLLIVYPWTQRFFASFGNLSSATAVIGNPMVRAHGKKVLTSFGEAVKNLD-SIKSTFAQLS 89 
+                          589*************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+vdp++f+ll+++l+ vlaa+++k+ft+++q a  Kl+  va++la kY+
+  sp|P15165|HBB_APUAP  90 ELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPEAQQAWAKLVRAVAHALARKYH 146
+                          ********************************************************7 PP
+
+>> sp|P18436|HBG_TARSY  Hemoglobin subunit gamma OS=Tarsius syrichta GN=HBG PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  169.0   0.4   4.8e-51   2.4e-48       1     149 []       2     148 .]       2     148 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 169.0 bits;  conditional E-value: 4.8e-51
+             globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                          v+ +++ek  ++++Wakv  +vee+G+++L rl++++P+tq+fF++F++Ls + +++++++vk+Hgkkvl  l++a+ ++d +l+ ++++
+  sp|P18436|HBG_TARSY   2 VHFTAEEKAIITSLWAKV--NVEETGGEALGRLLVVYPWTQRFFDNFGNLSSASAIMGNPKVKAHGKKVLSSLGEAVTHMD-DLKDAFAH 88 
+                          5789**************..*************************************************************.******** PP
+
+             globins4  91 LselHakklkvdpkyfkll.sevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          Ls lH+++l+vdp++f++  ++  v vla+++++eft++vqaa +Kl++ va+++ +kY+
+  sp|P18436|HBG_TARSY  89 LSRLHCDELHVDPENFRVTpGKRAVIVLAHHFGREFTPQVQAAWKKLMSAVAIAMGHKYH 148
+                          ******************85788999*********************************7 PP
+
+>> sp|P10059|HBA_SPHPU  Hemoglobin subunit alpha-A OS=Sphenodon punctatus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  168.9   1.2   5.2e-51   2.5e-48       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 168.9 bits;  conditional E-value: 5.2e-51
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+ +k +vka+W+kv  ++ee+Ga+ L+r+f+++P t+++F++F dL+     ++sa+vk+Hgkkv++A+++a+++ld ++ ++l +Ls
+  sp|P10059|HBA_SPHPU   2 LSASDKANVKAIWSKVCVHAEEYGAETLERMFTVYPSTKTYFPHF-DLT-----HGSAQVKAHGKKVVNAMGEAVNHLD-DMAGALLKLS 84 
+                          9********************************************.999.....************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lHa+kl+vdp +fkll+++ ++vl  ++p+ +t++v+a+l+K+l  v  +l++kY+
+  sp|P10059|HBA_SPHPU  85 DLHAQKLRVDPVNFKLLAQCFLVVLGVHHPAALTPEVHASLDKFLCAVGLVLTAKYR 141
+                          ********************************************************7 PP
+
+>> sp|P41332|HBB_MICGA  Hemoglobin subunit beta OS=Microcephalophis gracilis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  168.7   0.4   5.8e-51   2.8e-48       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 168.7 bits;  conditional E-value: 5.8e-51
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  dv+e+G+  L +l++++P+tq+fF +F++Ls ++++  ++ vk+Hgkkvl+ +++a+++ld  ++ ++++L
+  sp|P41332|HBB_MICGA   2 HWSAEEKQLITGLWGKV--DVAEVGGATLGKLLVVFPWTQRFFAHFGNLSSANAIICNPVVKAHGKKVLTSFGEAIKHLD-SIKETFAKL 88 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+vdp++f+ll+++l+ vla +++keft++ +aa++Kl+  va+ la  Y+
+  sp|P41332|HBB_MICGA  89 SELHCEKLHVDPENFRLLGNILIIVLAGHHGKEFTPSTHAAFQKLVRAVAHSLARVYH 146
+                          ******************************************************9996 PP
+
+>> sp|P01946|HBA_RAT  Hemoglobin subunit alpha-1/2 OS=Rattus norvegicus GN=Hba1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  168.4   0.2   7.3e-51   3.6e-48       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 168.4 bits;  conditional E-value: 7.3e-51
+           globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                        vLs+++kt++k+ W+k++ + +e+G+++L+r+f ++P+t+++F +  d+s      +sa+vk+Hgkkv+dAl++a  +++ +l+++l++Ls+
+  sp|P01946|HBA_RAT   2 VLSADDKTNIKNCWGKIGGHGGEYGEEALQRMFAAFPTTKTYFSHI-DVS-----PGSAQVKAHGKKVADALAKAADHVE-DLPGALSTLSD 86 
+                        89*******************************************9.888.....9**********************98.9********** PP
+
+           globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                        lHa+kl+vdp +fk+ls++l+++la ++p++ft++++a+l+K+la+v+++l+skY+
+  sp|P01946|HBA_RAT  87 LHAHKLRVDPVNFKFLSHCLLVTLACHHPGDFTPAMHASLDKFLASVSTVLTSKYR 142
+                        *******************************************************7 PP
+
+>> sp|P19014|HBA_CRIGA  Hemoglobin subunit alpha OS=Cricetomys gambianus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  168.4   1.2   7.5e-51   3.6e-48       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 168.4 bits;  conditional E-value: 7.5e-51
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k ++ka W k++ + +e+Ga++L+r+f s+P+t+++F++F d+s     ++sa+vk Hgkkv+dAl++a  +ld +l+++l++L
+  sp|P19014|HBA_CRIGA   2 VLSADDKANIKATWEKIGGHGAEYGAEALERMFASFPTTKTYFPHF-DVS-----HGSAQVKSHGKKVADALANAAHHLD-DLPGALSAL 84 
+                          89********************************************.888.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++l+++la++l + +t++++a+l+K+la+v+++l+skY+
+  sp|P19014|HBA_CRIGA  85 SDLHAHKLRVDPVNFKLLGHCLLVTLATHLQAGLTPAAHASLDKFLASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P21199|GLB3_MORMR  Globin-3 OS=Mordacia mordax PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  167.6   0.6   1.3e-50   6.4e-48       2     148 ..      11     150 .]      10     150 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 167.6 bits;  conditional E-value: 1.3e-50
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +L++a+ktk++a+W  v+ ++e+  +diLv++f+ tPa+q fF+kFk+L+t+d+lkks dv++H++++++A++da++++d  ek+++kl
+  sp|P21199|GLB3_MORMR  11 PLTAADKTKILAAWDLVYKNYEKNSVDILVKFFTGTPAAQAFFPKFKGLTTADDLKKSSDVRWHAERIINAVNDAVKSMDdtEKMSMKL 99 
+                           79*****************************************************************************5599****** PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           k+Ls++H k+++vd kyfk+l+ v++d++a +         +a++eKl++++++ll s+Y
+  sp|P21199|GLB3_MORMR 100 KELSNKHVKNFNVDRKYFKVLAGVIADTVAPG---------DASFEKLMSIICILLNSAY 150
+                           ******************************99.........*****************99 PP
+
+>> sp|P81024|HBAD_MELGA  Hemoglobin subunit alpha-D OS=Meleagris gallopavo GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  167.6   0.3   1.3e-50   6.5e-48       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 167.6 bits;  conditional E-value: 1.3e-50
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W k  ++ ee Ga++L+r+f+++P+t+++F++F dLs      +s++v+ Hgkkvl+Al++a++++d +l++++++L
+  sp|P81024|HBAD_MELGA   2 LTAEDKKLIQQAWEKAASHQEEFGAEALTRMFTTYPQTKTYFPHF-DLS-----PGSDQVRGHGKKVLGALGNAVKNVD-NLSQAMSEL 83 
+                           99*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls+++ +vlaa+l+k++t++v+aa++K+l+ v+ +la+kY+
+  sp|P81024|HBAD_MELGA  84 SNLHAYNLRVDPVNFKLLSQCIQVVLAAHLGKDYTPEVHAAFDKFLSAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|Q9XSN2|HBA1_EQUGR  Hemoglobin subunit alpha-1 OS=Equus grevyi GN=HBA1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  167.1   0.1   1.8e-50   8.9e-48       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 167.1 bits;  conditional E-value: 1.8e-50
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs+a+kt+vka+W+kv+ +++e Ga++L+r+f+ +P+t+++F++F dLs     ++sa+vk+Hgkkv dAl+ a+ +ld +l+++l++
+  sp|Q9XSN2|HBA1_EQUGR   2 VLSAADKTNVKAAWSKVGGNAGEFGAEALERMFLGFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALTLAVGHLD-DLPGALSN 83 
+                           8*********************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fk+   + + +la +lp++ft++v+a+l+K+l++v+++l+skY+
+  sp|Q9XSN2|HBA1_EQUGR  84 LSDLHAHKLRVDPVNFKVSPGAGLSTLAVHLPNDFTPAVHASLDKFLSTVSTVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|Q9DF25|HBAD_CHECB  Hemoglobin subunit alpha-D OS=Chelonoidis carbonaria GN=HBAD PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  167.1   0.6   1.8e-50     9e-48       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 167.1 bits;  conditional E-value: 1.8e-50
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+e+ek+ +++vW kv  + e+ Ga++L+r+f+++P t+++F++F dL+     + s+++++Hgkkv+ Al+da++++d +l+a+l++L
+  sp|Q9DF25|HBAD_CHECB   2 LTEDEKQLIQHVWEKVLGHQEDFGAEALERMFTVYPSTKTYFPHF-DLH-----HDSEQIRHHGKKVVSALGDAVRHMD-NLSATLSEL 83 
+                           99*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vl a+l++e+t++vq a++K+la v+ +la+kY+
+  sp|Q9DF25|HBAD_CHECB  84 SNLHAYNLRVDPVNFKLLSHCFQVVLGAHLGREYTPQVQVAYDKFLAAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01998|HBA_CRONI  Hemoglobin subunit alpha OS=Crocodylus niloticus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  167.0   0.2     2e-50   9.8e-48       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 167.0 bits;  conditional E-value: 2e-50
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k +vkavW+kv  + ee+Ga++L+r+f ++P+t+ +F++F dLs     ++sa++++Hgkkv  Al +a++++d +l+++l  L
+  sp|P01998|HBA_CRONI   1 VLSSDDKCNVKAVWSKVAGHLEEYGAEALERMFCAYPQTKIYFPHF-DLS-----HGSAQIRAHGKKVFAALHEAVNHID-DLPGALCRL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selHa++l+vdp +fk+l++++++v+a ++p+ +t++v+a+l+K+l  v+ +l+skY+
+  sp|P01998|HBA_CRONI  84 SELHAHSLRVDPVNFKFLAQCVLVVVAIHHPGSLTPEVHASLDKFLCAVSSVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P08849|HBAD_ACCGE  Hemoglobin subunit alpha-D OS=Accipiter gentilis GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.9   0.3   4.2e-50     2e-47       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.9 bits;  conditional E-value: 4.2e-50
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++a+W kv+ + e+ Ga++L+r+f ++P+t+++F++F dLs      +s++v+ Hgkkv++Al++a++++d +l+++l++L
+  sp|P08849|HBAD_ACCGE   2 LTAEDKKLIQAIWDKVQGHQEDFGAEALQRMFITYPTTKTYFPHF-DLS-----PGSDQVRSHGKKVVNALGNAVKSMD-NLSQALSEL 83 
+                           99*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+ke+t++v++a++K+l+ va +la+kY+
+  sp|P08849|HBAD_ACCGE  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHLGKEYTPEVHSAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|Q10732|HBA_CARCR  Hemoglobin subunit alpha-A OS=Caretta caretta GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.9   1.1   4.3e-50   2.1e-47       2     149 .]       1     141 []       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 165.9 bits;  conditional E-value: 4.3e-50
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k +vk+vW+kv+ + e++Ga+ L r+f+++P+t+++F +F d++     ++s +++ Hgkkv+ Al+da++++d ++ ++l++L
+  sp|Q10732|HBA_CARCR   1 VLSSGDKANVKSVWSKVQGHLEDYGAETLDRMFTVFPQTKTYFSHF-DVH-----HGSTQIRSHGKKVMLALGDAVNHID-DIATALSAL 83 
+                          69********************************************.666.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s++Ha+ l+vdp +fklls++l++v+a ++p+ ft+dv+ +l+K++ +v+++l+skY+
+  sp|Q10732|HBA_CARCR  84 SDKHAHILRVDPVNFKLLSHCLLVVVARHHPTLFTPDVHVSLDKFMGTVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02007|HBPI_CHICK  Hemoglobin subunit pi OS=Gallus gallus PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.7   0.0     5e-50   2.4e-47       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 165.7 bits;  conditional E-value: 5e-50
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++aek +v+++Wakv +++e  G + L+rlf s+P+t+++F++F d+s     ++s +++ Hg kvl+A+++a++++d +++++l++
+  sp|P02007|HBPI_CHICK   2 ALTQAEKAAVTTIWAKVATQIESIGLESLERLFASYPQTKTYFPHF-DVS-----QGSVQLRGHGSKVLNAIGEAVKNID-DIRGALAK 83 
+                           599*******************************************.888.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fklls+++++ +aar+p++ft++v+aa +K+l++++ +l++kY+
+  sp|P02007|HBPI_CHICK  84 LSELHAYILRVDPVNFKLLSHCILCSVAARYPSDFTPEVHAAWDKFLSSISSVLTEKYR 142
+                           **********************************************************7 PP
+
+>> sp|P13787|HBAZ_HORSE  Hemoglobin subunit zeta OS=Equus caballus GN=HBZ1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.7   0.3     5e-50   2.5e-47       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.7 bits;  conditional E-value: 5e-50
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++ae+t v ++W+k+  +++ +G+++L+rlf s+P+t+++F++F dL+     ++s+++++Hg kv+ A++da++++d ++ ++l++
+  sp|P13787|HBAZ_HORSE   2 SLTKAERTMVVSIWGKISMQADAVGTEALQRLFSSYPQTKTYFPHF-DLH-----EGSPQLRAHGSKVAAAVGDAVKSID-NVAGALAK 83 
+                           599*******************************************.999.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fk+ls++l+++la+rlp++ftad++aa +K+l++v+ +l++kY+
+  sp|P13787|HBAZ_HORSE  84 LSELHAYILRVDPVNFKFLSHCLLVTLASRLPADFTADAHAAWDKFLSIVSSVLTEKYR 142
+                           **********************************************************7 PP
+
+>> sp|B3EWD7|HBA_TAMHU  Hemoglobin subunit alpha OS=Tamiasciurus hudsonicus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.7   0.3   5.2e-50   2.5e-47       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.7 bits;  conditional E-value: 5.2e-50
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++W k + + +e+Ga++L r+f+s+P+t+++  +F dLs     ++sa+ + Hgkkv++Al+ a  +ld +l+++l++L
+  sp|B3EWD7|HBA_TAMHU   1 VLSAADKTNVKSAWDKLGGHGAEYGAEALGRMFLSFPTTKTYPFHF-DLS-----HGSAQPQGHGKKVAEALATAAGHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fklls++l+++laa++p+eft++v+a+l+K+la+v+++l+skY+
+  sp|B3EWD7|HBA_TAMHU  84 SDLHAHKLRVDPVNFKLLSHCLLVTLAAHMPAEFTPAVHASLDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P24291|HBA_ECHTE  Hemoglobin subunit alpha OS=Echinops telfairi GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.3   0.0   6.6e-50   3.2e-47       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.3 bits;  conditional E-value: 6.6e-50
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vkavW k + +v+++G+++L r f+s+P+t+++F++  dL+      +sad+ +Hgkkv+dAl+ a+ ++d +l+++l++L
+  sp|P24291|HBA_ECHTE   1 VLSAADKANVKAVWEKAGGNVGKYGGEALDRTFLSFPTTKTYFPHM-DLT-----PGSADIMAHGKKVADALTLAVGHMD-DLPGALSKL 83 
+                          69********************************************.999.....9************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fklls++l+++la +l+++ft++++a+l+K+l++v+++l+skY+
+  sp|P24291|HBA_ECHTE  84 SDLHAYKLRVDPVNFKLLSHCLLVTLACHLGGDFTPAAHASLDKFLSSVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02076|HBB_OVIMU  Hemoglobin subunit beta OS=Ovis orientalis musimon GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.3   0.7   6.6e-50   3.2e-47       3     149 .]       2     145 .]       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.3 bits;  conditional E-value: 6.6e-50
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ek +v+  W+kv  +v+e+Ga++L rl++++P+tq+fFe+F+dLs +d+++++a+vk+Hgkkvl+ +s+++++ld +l++++++Ls
+  sp|P02076|HBB_OVIMU   2 LTAEEKAAVTGFWGKV--KVDEVGAEALGRLLVVYPWTQRFFEHFGDLSSADAVMNNAKVKAHGKKVLBSFSNGMKHLD-DLKGTFAQLS 88 
+                          99**************..9***********************************************************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elH++kl+v+p++f+            ++++eft+  qa ++K++a va++la++Y+
+  sp|P02076|HBB_OVIMU  89 ELHCDKLHVBPZBFRXXXXXXXXXXXXHHGSEFTPVLQAZFQKVVAGVANALAHRYH 145
+                          ********************************************************7 PP
+
+>> sp|P83134|HBAD_ALDEL  Hemoglobin D subunit alpha OS=Aldabrachelys elephantina PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.3   0.7   6.8e-50   3.3e-47       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.3 bits;  conditional E-value: 6.8e-50
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+e++k+ +++vW kv  + e+ Ga++L+r+f ++P t+++F++F dL+     + s+++++Hgkkv++Al+da++++d +l+a+l++L
+  sp|P83134|HBAD_ALDEL   2 LTEDDKQLIQHVWEKVLEHQEDFGAEALERMFIVYPSTKTYFPHF-DLH-----HDSEQIRHHGKKVVGALGDAVKHID-NLSATLSEL 83 
+                           99*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vl a+l++e+t++vq a++K+la v+ +la+kY+
+  sp|P83134|HBAD_ALDEL  84 SNLHAYNLRVDPVNFKLLSHCFQVVLGAHLGREYTPQVQVAYDKFLAAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P02001|HBAD_CHICK  Hemoglobin subunit alpha-D OS=Gallus gallus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.2   0.3     7e-50   3.4e-47       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.2 bits;  conditional E-value: 7e-50
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W k  ++ ee Ga++L+r+f+++P+t+++F++F dLs      +s++v+ Hgkkvl+Al++a++++d +l++++++L
+  sp|P02001|HBAD_CHICK   2 LTAEDKKLIQQAWEKAASHQEEFGAEALTRMFTTYPQTKTYFPHF-DLS-----PGSDQVRGHGKKVLGALGNAVKNVD-NLSQAMAEL 83 
+                           99*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls+++ +vla +++k++t++v+aa++K+l+ v+ +la+kY+
+  sp|P02001|HBAD_CHICK  84 SNLHAYNLRVDPVNFKLLSQCIQVVLAVHMGKDYTPEVHAAFDKFLSAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P11751|HBA_MEGLY  Hemoglobin subunit alpha OS=Megaderma lyra GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  165.2   0.5   7.1e-50   3.4e-47       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 165.2 bits;  conditional E-value: 7.1e-50
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vka++ kv+ +++++Ga++L+r+f+s+P+t+++F++F dLs     ++sa+vk+Hgkkv dAl +a+ +ld +l+++l++L
+  sp|P11751|HBA_MEGLY   1 VLSAADKANVKAAFDKVGGQAGDYGAEALERMFLSFPTTKTYFPHF-DLS-----HGSAQVKAHGKKVGDALVNAVGHLD-DLPGALSAL 83 
+                          69********************************************.***.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fkl s+vl+++la + ++ ft++v+a+l+K+la+v ++l+skY+
+  sp|P11751|HBA_MEGLY  84 SDLHAYKLRVDPVNFKLASNVLLVTLAVHVAAGFTPAVHASLDKFLASVGTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P18993|HBB1_VARAL  Hemoglobin subunit beta-1 OS=Varanus albigularis GN=HBB1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  164.8   0.1   9.4e-50   4.6e-47       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 164.8 bits;  conditional E-value: 9.4e-50
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek+ + ++W+k+  dv+  G++ L  l++ +P+tq+ F +F++Ls + ++ +++ vk+Hgkkvl+ ++da+++ld +++ ++++
+  sp|P18993|HBB1_VARAL   2 HWTAEEKQLICSLWGKI--DVGLIGGETLAGLLVIYPWTQRQFSHFGNLSSPTAIAGNPRVKAHGKKVLTSFGDAIKNLD-NIKDTFAK 87 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vdp +fkll++vlv vla +++keft++ +aa++Kl+++v++ la +Y+
+  sp|P18993|HBB1_VARAL  88 LSELHCDKLHVDPTNFKLLGNVLVIVLADHHGKEFTPAHHAAYQKLVNVVSHSLARRYH 146
+                           **********************************************************7 PP
+
+>> sp|P68059|HBAD_AEGMO  Hemoglobin subunit alpha-D OS=Aegypius monachus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  164.2   0.2   1.4e-49     7e-47       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 164.2 bits;  conditional E-value: 1.4e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++a W kv+ + e+ Ga++L+r+f ++P t+++F++F dLs      +s++v+ Hgkkv++Al++a++++d +l+++l++L
+  sp|P68059|HBAD_AEGMO   2 LTADDKKLIQATWDKVQGHQEDFGAEALQRMFITYPPTKTYFPHF-DLS-----PGSDQVRGHGKKVVNALGNAVKSMD-NLSQALSEL 83 
+                           89*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+ke+t++v+aa++K+l+ va +la+kY+
+  sp|P68059|HBAD_AEGMO  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHLGKEYTPEVHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P68060|HBAD_TRIOC  Hemoglobin subunit alpha-D OS=Trigonoceps occipitalis GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  164.2   0.2   1.4e-49     7e-47       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 164.2 bits;  conditional E-value: 1.4e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++a W kv+ + e+ Ga++L+r+f ++P t+++F++F dLs      +s++v+ Hgkkv++Al++a++++d +l+++l++L
+  sp|P68060|HBAD_TRIOC   2 LTADDKKLIQATWDKVQGHQEDFGAEALQRMFITYPPTKTYFPHF-DLS-----PGSDQVRGHGKKVVNALGNAVKSMD-NLSQALSEL 83 
+                           89*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+ke+t++v+aa++K+l+ va +la+kY+
+  sp|P68060|HBAD_TRIOC  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHLGKEYTPEVHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P04242|HBAD_STRCA  Hemoglobin subunit alpha-D OS=Struthio camelus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  164.2   0.2   1.5e-49   7.1e-47       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 164.2 bits;  conditional E-value: 1.5e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W kv+++ e+ Ga++L+r+f ++P+t+++F++F dL+      +s++++ Hgkkv++Al++a+++ld +l+++l++L
+  sp|P04242|HBAD_STRCA   2 LTADDKKLIQQIWEKVGSHLEDFGAEALERMFITYPQTKTYFPHF-DLH-----PGSEQIRGHGKKVANALGNAVKSLD-NLSQALSEL 83 
+                           89*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +++k++t++v+aa++K+l  va +la+kY+
+  sp|P04242|HBAD_STRCA  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHMGKDYTPEVHAAYDKFLTAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P02008|HBAZ_HUMAN  Hemoglobin subunit zeta OS=Homo sapiens GN=HBZ PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  164.0   0.2   1.7e-49   8.1e-47       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 164.0 bits;  conditional E-value: 1.7e-49
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++ e+t + ++Wak+ +++++ G++ L+rlf+s+P+t+++F++F dL+      +sa++++Hg kv+ A++da++++d ++ ++l++
+  sp|P02008|HBAZ_HUMAN   2 SLTKTERTIIVSMWAKISTQADTIGTETLERLFLSHPQTKTYFPHF-DLH-----PGSAQLRAHGSKVVAAVGDAVKSID-DIGGALSK 83 
+                           5999******************************************.999.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fklls++l+++laar+p++fta+++aa +K+l++v+ +l++kY+
+  sp|P02008|HBAZ_HUMAN  84 LSELHAYILRVDPVNFKLLSHCLLVTLAARFPADFTAEAHAAWDKFLSVVSSVLTEKYR 142
+                           **********************************************************7 PP
+
+>> sp|P04243|HBPI_CAIMO  Hemoglobin subunit pi OS=Cairina moschata PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  164.0   0.0   1.7e-49   8.3e-47       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 164.0 bits;  conditional E-value: 1.7e-49
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +L++aek +v ++W+kv ++++  Ga+ L+rlf s+P+t+++F++F dLs     ++s +++ Hg kv++A+++a++++d +++++l++
+  sp|P04243|HBPI_CAIMO   2 TLTQAEKAAVITIWTKVATQADAIGAESLERLFSSYPQTKTYFPHF-DLS-----QGSTQLRGHGSKVMNAIGEAVKNID-DIRGALAK 83 
+                           699*******************************************.9**.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fkll +++++ +aar+p++ft++v+aa +K+l++v+ +l++kY+
+  sp|P04243|HBPI_CAIMO  84 LSELHAYILRVDPVNFKLLCHCILCSVAARYPSDFTPEVHAAWDKFLSSVSSVLTEKYR 142
+                           **********************************************************7 PP
+
+>> sp|P13273|HBA_CHRPI  Hemoglobin subunit alpha-A OS=Chrysemys picta bellii GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  163.8   1.3   1.9e-49   9.5e-47       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 163.8 bits;  conditional E-value: 1.9e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vL +++k +vkavW kv a+vee+Ga+ L+r+f+++P+t+++F++F dL+     ++sa++++Hgkkvl+Al++a++++d +l ++l++L
+  sp|P13273|HBA_CHRPI   1 VLNAGDKANVKAVWNKVAAHVEEYGAETLERMFTVYPQTKTYFPHF-DLH-----HGSAQIRTHGKKVLTALGEAVNHID-DLASALSKL 83 
+                          6899******************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+ Ha+ l+vdp +fk+l ++ ++v+a + p+ +t++v+ +l+K+l+ v ++l+skY+
+  sp|P13273|HBA_CHRPI  84 SDIHAQTLRVDPVNFKFLNHCFLVVVAIHQPSVLTPEVHVSLDKFLSAVGTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P83124|HBAD_CHENI  Hemoglobin subunit alpha-D OS=Chelonoidis nigra GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  163.6   0.3   2.3e-49   1.1e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 163.6 bits;  conditional E-value: 2.3e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+e++k+ +++vW  v  + e+ Ga++L+r+f+++P t+++F++F dL+     ++s+++++Hgkkv++Al+da++++d +l+a+l++L
+  sp|P83124|HBAD_CHENI   2 LTEDDKQLIQHVWETVLEHQEDFGAEALERMFTVYPSTKTYFPHF-DLH-----HGSEQIRHHGKKVVGALGDAVRHID-DLSATLSEL 83 
+                           99*******************************************.999.....************************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vl a+l++e+t++vq a++K+la v+ +la+kY+
+  sp|P83124|HBAD_CHENI  84 SNLHAYNLRVDPVNFKLLSHCFQVVLGAHLGREYTPQVQVAYDKFLAAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P06638|HBA5_XENLA  Hemoglobin subunit alpha-5 OS=Xenopus laevis GN=hba5 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  163.6   1.2   2.3e-49   1.1e-46       3     149 .]       3     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 163.6 bits;  conditional E-value: 2.3e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            s aek ++ ++W+kv  + +e Ga++L+rlf+s+P+t+++F +F dLs     ++s+d++ Hg kv++A+++a  ++d +++ +l++L
+  sp|P06638|HBA5_XENLA   3 FSSAEKAAIASLWGKVSGHTDEIGAEALERLFLSYPQTKTYFSHF-DLS-----HGSKDLRSHGGKVVKAIGNAATHID-DIPHALSAL 84 
+                           699******************************************.***.....************************9.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa klkvdp +fklls+++ ++la ++p+ef ad+qaa +K+la+v+ +l skY+
+  sp|P06638|HBA5_XENLA  85 SDLHAFKLKVDPGNFKLLSHAIQVTLAIHFPAEFNADAQAAWDKFLAVVSAVLVSKYR 142
+                           *********************************************************7 PP
+
+>> sp|P02000|HBA_CAICR  Hemoglobin subunit alpha OS=Caiman crocodilus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  163.4   0.2   2.5e-49   1.2e-46       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 163.4 bits;  conditional E-value: 2.5e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLse++k++vka+W+kv  + ee+Ga++L+r+f ++P+t+ +F++F d+s     ++sa+++ Hgkkv  Al da++++d +l ++l  L
+  sp|P02000|HBA_CAICR   1 VLSEEDKSHVKAIWGKVAGHLEEYGAEALERMFCAYPQTKIYFPHF-DMS-----HNSAQIRGHGKKVFAALHDAVNHID-DLAGALCRL 83 
+                          69********************************************.888.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa++l+vdp +fk+ls+++++v   ++p  +t++v+a+l+K+l  v+ +l+skY+
+  sp|P02000|HBA_CAICR  84 SDLHAHNLRVDPVNFKFLSQCILVVFGVHHPCSLTPEVHASLDKFLCAVSAMLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P04241|HBAD_RHEAM  Hemoglobin subunit alpha-D OS=Rhea americana GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  163.4   0.3   2.6e-49   1.3e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 163.4 bits;  conditional E-value: 2.6e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ + ++W+kv  + +e G+++L+r+f ++P+t+++F++F dL+      +s++v+ Hgkkv++Als+a+++ld +l+++l++L
+  sp|P04241|HBAD_RHEAM   2 LTADDKKLISQIWTKVAEHGGEFGGEALERMFITYPQTKTYFPHF-DLH-----VGSEQVRGHGKKVVNALSNAVKNLD-NLSQALAEL 83 
+                           89*******************************************.999.....8************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+ke+t++v+aa++K+l+ va +la+kY+
+  sp|P04241|HBAD_RHEAM  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHLGKEYTPEVHAAYDKFLSAVASVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01986|HBA_ANAPL  Hemoglobin subunit alpha-A OS=Anas platyrhynchos GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.9   1.4   3.5e-49   1.7e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.9 bits;  conditional E-value: 3.5e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dLs     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01986|HBA_ANAPL   2 VLSAADKTNVKGVFSKIGGHAEEYGAETLERMFIAYPQTKTYFPHF-DLS-----HGSAQIKAHGKKVAAALVEAVNHVD-DIAGALSKL 84 
+                          8*********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K++  v  +l++kY+
+  sp|P01986|HBA_ANAPL  85 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPAALTPEVHASLDKFMCAVGAVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01989|HBA_ANSAN  Hemoglobin subunit alpha-A OS=Anser anser anser GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.8   1.0   3.8e-49   1.8e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.8 bits;  conditional E-value: 3.8e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ ++ee+Ga+ L+r+f+++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01989|HBA_ANSAN   2 VLSAADKTNVKGVFSKIGGHAEEYGAETLERMFTAYPQTKTYFPHF-DLQ-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 84 
+                          8*********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01989|HBA_ANSAN  85 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPSALTPEVHASLDKFLCAVGTVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P08257|HBAD_GYPRU  Hemoglobin subunit alpha-D/D' OS=Gyps rueppellii GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.8   0.2     4e-49   1.9e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.8 bits;  conditional E-value: 4e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ +++ W kv+ + e+ Ga++L+r+f ++P+t+++F++F dLs      +s++v+ Hgkkv++Al++a++++d +l+++l++L
+  sp|P08257|HBAD_GYPRU   2 LTADDKKLIQTTWDKVQGHQEDFGAEALQRMFITYPQTKTYFPHF-DLS-----PGSDQVRGHGKKVVNALGNAVKSMD-NLSQALSEL 83 
+                           89*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+ke+t++v++a++K+l+ va +la+kY+
+  sp|P08257|HBAD_GYPRU  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHLGKEYTPEVHSAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01988|HBA_ANAPP  Hemoglobin subunit alpha-A OS=Anas platyrhynchos platyrhynchos GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.8   1.3     4e-49   1.9e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.8 bits;  conditional E-value: 4e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dLs     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01988|HBA_ANAPP   2 VLSAADKTNVKGVFSKIGGHAEEYGAETLERMFIAYPQTKTYFPHF-DLS-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 84 
+                          8*********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K++  v  +l++kY+
+  sp|P01988|HBA_ANAPP  85 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPAALTPEVHASLDKFMCAVGAVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02002|HBAD_PHACO  Hemoglobin subunit alpha-D OS=Phasianus colchicus colchicus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.7   0.4   4.3e-49   2.1e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.7 bits;  conditional E-value: 4.3e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L +++k+ ++++W k  ++ +e Ga++Lvr+f+++P+t+++F++F dLs      +s++++ Hgkkvl+Als+a++++d +l++++++L
+  sp|P02002|HBAD_PHACO   2 LNAEDKKLIQQAWEKAASHQQEFGAEALVRMFTAYPQTKTYFPHF-DLS-----PGSDQIRGHGKKVLGALSNAVKNVD-NLSQAMSEL 83 
+                           889******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls+++ +vla +++k++t++v+aa++K+l+ v+ +la+kY+
+  sp|P02002|HBAD_PHACO  84 SNLHAYNLRVDPVNFKLLSQCIEVVLAVHMGKDYTPEVHAAFDKFLSAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01993|HBA_AQUCH  Hemoglobin subunit alpha-A OS=Aquila chrysaetos GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.6   0.5   4.4e-49   2.1e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.6 bits;  conditional E-value: 4.4e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk+v++k+  ++e++Ga++L+r+f+++P t+++F++F dL+     ++sa++k+Hgkkv++Al +a++++d ++ ++l++L
+  sp|P01993|HBA_AQUCH   2 VLSANDKTNVKNVFTKISGHAEDYGAEALERMFTTYPPTKTYFPHF-DLH-----HGSAQIKAHGKKVVGALIEAVNHID-DMAGALSKL 84 
+                          89********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01993|HBA_AQUCH  85 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P84791|HBAD_AYTFU  Hemoglobin subunit alpha-D OS=Aythya fuligula GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.6   0.4   4.5e-49   2.2e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.6 bits;  conditional E-value: 4.5e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W kv  + ++ G+++L+r+f+++P+t+++F++F dL+      +s++v+ Hgkkv+ Al++a+++ld +++++l++L
+  sp|P84791|HBAD_AYTFU   2 LTAEDKKLITQLWEKVAGHQDDFGNEALQRMFVTYPQTKTYFPHF-DLH-----PGSEQVRGHGKKVAAALGNAVKSLD-NISQALSEL 83 
+                           99*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++  +vlaa+l+k++t+d++aa++K+l+ va +la+kY+
+  sp|P84791|HBAD_AYTFU  84 SNLHAYNLRVDPVNFKLLAQCFQVVLAAHLGKDYTPDMHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P06347|HBAZ_PANTR  Hemoglobin subunit zeta OS=Pan troglodytes GN=HBZ1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.3   0.2   5.7e-49   2.8e-46       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 162.3 bits;  conditional E-value: 5.7e-49
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++ e t + ++Wak+ +++++ G++ L+rlf+s+P+t+++F++F dL+      +sa++++Hg kv+ A++da++++d ++ ++l++
+  sp|P06347|HBAZ_PANTR   2 SLTKTEGTIIVSMWAKISTQADTIGTETLERLFLSHPQTKTYFPHF-DLH-----PGSAQLRAHGSKVVAAVGDAVKSID-NIGGALSK 83 
+                           58999*****************************************.999.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fklls++l+++laar+p++fta+++aa +K+l++v+ +l++kY+
+  sp|P06347|HBAZ_PANTR  84 LSELHAYILRVDPVNFKLLSHCLLVTLAARFPADFTAEAHAAWDKFLSVVSSVLTEKYR 142
+                           **********************************************************7 PP
+
+>> sp|P22740|HBA_ANAPE  Hemoglobin subunit alpha-A OS=Anas penelope GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.2   1.2   5.9e-49   2.9e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.2 bits;  conditional E-value: 5.9e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dLs     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P22740|HBA_ANAPE   2 VLSAADKTNVKGVFSKIGGHAEEYGAETLERMFIAYPQTKTYFPHF-DLS-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 84 
+                          8*********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K+l  v  +l++kY+
+  sp|P22740|HBA_ANAPE  85 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPAALTPEVHASLDKFLCAVGAVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P82112|HBA2_STEMC  Hemoglobin subunit alpha-2 OS=Stercorarius maccormicki PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.2   0.4     6e-49   2.9e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.2 bits;  conditional E-value: 6e-49
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W kv  + e+ Ga++L+r+f ++P+t+++F++F dL+     ++s++++ Hgkkv++Al++a+++ld +l+++l++L
+  sp|P82112|HBA2_STEMC   2 LTADDKKLILQIWEKVLGHQEDFGAEALERMFITYPQTKTYFPHF-DLQ-----HGSDQIRSHGKKVVTALGNAVKSLD-NLSQALSEL 83 
+                           89*******************************************.999.....*************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+k++t++v+aa++K+l+ va +l++kY+
+  sp|P82112|HBA2_STEMC  84 SNLHAYNLRVDPVNFKLLSQCFQVVLAVHLGKDYTPEVHAAFDKFLSAVAAVLSEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01991|HBA_BRACA  Hemoglobin subunit alpha-A OS=Branta canadensis GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.0   1.0   6.7e-49   3.3e-46       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.0 bits;  conditional E-value: 6.7e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ +++e+Ga+ L+r+f+++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01991|HBA_BRACA   1 VLSAADKTNVKGVFSKIGGHADEYGAETLERMFVAYPQTKTYFPHF-DLQ-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01991|HBA_BRACA  84 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPSALTPEVHASLDKFLCAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01987|HBA_CAIMO  Hemoglobin subunit alpha-A OS=Cairina moschata GN=HBAA PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  162.0   1.3   6.8e-49   3.3e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 162.0 bits;  conditional E-value: 6.8e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01987|HBA_CAIMO   2 VLSAADKTNVKGVFSKIGGHAEEYGAETLERMFIAYPQTKTYFPHF-DLQ-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 84 
+                          8*********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K++  v  +l++kY+
+  sp|P01987|HBA_CAIMO  85 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPAALTPEVHASLDKFMCAVGAVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01990|HBA_ANSIN  Hemoglobin subunit alpha-A OS=Anser indicus GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.9   2.0   7.7e-49   3.7e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.9 bits;  conditional E-value: 7.7e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k+  ++ee+Ga+ L+r+f+++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01990|HBA_ANSIN   2 VLSAADKTNVKGVFSKISGHAEEYGAETLERMFTAYPQTKTYFPHF-DLQ-----HGSAQIKAHGKKVVAALVEAVNHID-DIAGALSKL 84 
+                          8*********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +ta+v+a+l+K+l  v ++l++kY+
+  sp|P01990|HBA_ANSIN  85 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPSALTAEVHASLDKFLCAVGTVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P22741|HBA_FRAPO  Hemoglobin subunit alpha-A OS=Francolinus pondicerianus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.7   0.5   8.3e-49     4e-46       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.7 bits;  conditional E-value: 8.3e-49
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk +++k+ +++e++Ga++L+r+f ++P t+++F++F dLs     ++sa+vk Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P22741|HBA_FRAPO   1 VLSAADKNNVKGIFGKISSHAEDYGAEALERMFITYPSTKTYFPHF-DLS-----HGSAQVKGHGKKVVAALIEAANHID-DIAGTLSKL 83 
+                          69********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P22741|HBA_FRAPO  84 SDLHAHKLRVDPVNFKLLGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGNVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P83135|HBAA_CHENI  Hemoglobin subunit alpha-A OS=Chelonoidis nigra GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.5   0.2   9.7e-49   4.7e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.5 bits;  conditional E-value: 9.7e-49
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++++k +vk+vW+kv+++ ee+G + L+rlf ++P t+++F++F dL+     + sa+v++Hg+kvl Al++a++++d +++++l++
+  sp|P83135|HBAA_CHENI   2 VLTAGDKANVKTVWSKVGSHLEEYGSETLERLFIVYPSTKTYFPHF-DLH-----HDSAQVRAHGRKVLSALGEAVNHID-DIPGALSK 83 
+                           79********************************************.999.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+ l+vdp +fkll  + v+v+  ++p+ +t++v+ +l+K+l+ va++l+skY+
+  sp|P83135|HBAA_CHENI  84 LSDLHAQTLRVDPVNFKLLNLCFVVVVGRHHPTILTPEVHVSLDKFLSAVATALTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P04442|HBAD_ANAPL  Hemoglobin subunit alpha-D OS=Anas platyrhynchos GN=HBAD PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.4   0.6     1e-48     5e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.4 bits;  conditional E-value: 1e-48
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W kv  + ee G ++L+r+f+++P+t+++F++F dL+      +s++v+ Hgkkv+ Al++a+++ld +l+++l++L
+  sp|P04442|HBAD_ANAPL   2 LTAEDKKLITQLWEKVAGHQEEFGSEALQRMFLAYPQTKTYFPHF-DLH-----PGSEQVRGHGKKVAAALGNAVKSLD-NLSQALSEL 83 
+                           99*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++  +vlaa+l+k+++++++aa++K+++ va +la+kY+
+  sp|P04442|HBAD_ANAPL  84 SNLHAYNLRVDPVNFKLLAQCFQVVLAAHLGKDYSPEMHAAFDKFMSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P83132|HBA2_ALDEL  Hemoglobin A subunit alpha-2 OS=Aldabrachelys elephantina PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.4   0.1     1e-48     5e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.4 bits;  conditional E-value: 1e-48
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++++k +vk+vW+kv+++ e++G + L+rlf+++P t+++F++F dL+     + s++v++Hgkkvl Al++a++++d +++++l++
+  sp|P83132|HBA2_ALDEL   2 VLTAGDKANVKTVWSKVGSHLEDYGSETLERLFVVYPSTKTYFPHF-DLH-----HDSPQVRAHGKKVLSALGEAVNHID-DIPGALSK 83 
+                           79********************************************.999.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa++l+vdp +fkll  + v+v+  ++p+ +t++v+ +l+K+l+ va+ l+skY+
+  sp|P83132|HBA2_ALDEL  84 LSDLHAQNLRVDPVNFKLLNLCFVVVVGRHHPTILTPEVHVSLDKFLSAVAQNLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P02005|HBAD_CHRPI  Hemoglobin subunit alpha-D OS=Chrysemys picta bellii GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.4   2.7   1.1e-48   5.1e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.4 bits;  conditional E-value: 1.1e-48
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L  +ek+ +k++W kv  + e+ Ga++L+r+f ++P+t+++F++F dL+     + s+++++Hgkkv++Al+da++++d +l+ +l++L
+  sp|P02005|HBAD_CHRPI   2 LNHDEKQLIKHAWEKVLGHQEDFGAEALERMFAVYPQTKTYFPHF-DLH-----HDSEQIRHHGKKVVTALGDAVRHMD-NLSEALSEL 83 
+                           7889*****************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+ e+t++v+ a++K+la v+ +la+kY+
+  sp|P02005|HBAD_CHRPI  84 SNLHAYNLRVDPVNFKLLSHCFQVVLAVHLADEYTPQVHVAYDKFLAAVSAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01995|HBA_PHACO  Hemoglobin subunit alpha-A OS=Phasianus colchicus colchicus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  161.2   0.4   1.3e-48   6.1e-46       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 161.2 bits;  conditional E-value: 1.3e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk +++k+  ++ee+Ga++L+r+f ++P t+++F++F dLs     ++sa++k Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01995|HBA_PHACO   1 VLSAADKNNVKGIFTKIAGHAEEYGAEALERMFITYPSTKTYFPHF-DLS-----HGSAQIKGHGKKVVAALIEAVNHID-DITGTLSKL 83 
+                          69********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01995|HBA_PHACO  84 SDLHAHKLRVDPVNFKLLGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P10057|HBA_EUDCH  Hemoglobin subunit alpha OS=Eudyptes chrysocome GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.8   1.0   1.6e-48   7.9e-46       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.8 bits;  conditional E-value: 1.6e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vk v++k+ +++ee+Ga+ L+r+f+++P+t+++F++F dL+     ++sa+vk+Hgkkv++Al +a +++d ++ ++l++L
+  sp|P10057|HBA_EUDCH   1 VLSANDKSNVKGVFSKISSHAEEYGAETLERMFTTYPQTKTYFPHF-DLH-----HGSAQVKAHGKKVATALMEAANHID-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l+skY+
+  sp|P10057|HBA_EUDCH  84 SDLHAQKLRVDPVNFKLLGQCFLVVMAIHHPSALTPEVHASLDKFLCAVGNVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P84790|HBA_AYTFU  Hemoglobin subunit alpha-A OS=Aythya fuligula PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.6   0.5   1.8e-48   8.9e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.6 bits;  conditional E-value: 1.8e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk +++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P84790|HBA_AYTFU   2 VLSAADKTNVKGIFSKIGGHAEEYGAETLERMFITYPQTKTYFPHF-DLQ-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 84 
+                          8*********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +f++l+++ ++vla ++p+ +t++v+a+l+K++  v  +l++kY+
+  sp|P84790|HBA_AYTFU  85 SDLHAQKLRVDPVNFRFLGHCFLVVLAIHHPSALTPEVHASLDKFMCAVGATLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02006|HBAD_PHRHI  Hemoglobin subunit alpha-D OS=Phrynops hilarii GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.5   3.2     2e-48   9.8e-46       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.5 bits;  conditional E-value: 2e-48
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls++ek+ ++++W kv+++ e+ Ga++L+r+f+++P+t+++F +F dL+     ++s++++ Hgkkv+ Al++a+ ++d +l+a+l +L
+  sp|P02006|HBAD_PHRHI   2 LSADEKQLILHAWEKVHTHQEDFGAEALERMFTVYPQTKTYFHHF-DLH-----HGSEQIRRHGKKVVVALENAVHHMD-NLSAALCKL 83 
+                           9********************************************.999.....*************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l++e++++v+ a++K+la v+ +la+kY+
+  sp|P02006|HBAD_PHRHI  84 SDLHAYNLRVDPVNFKLLSHCFHVVLAGHLGEEYSPQVHVAYDKFLAAVSDVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P08850|HBA_ACCGE  Hemoglobin subunit alpha-A OS=Accipiter gentilis GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.5   0.3     2e-48   9.9e-46       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.5 bits;  conditional E-value: 2e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk+v++k++ ++ee+Ga+ L+r+f+++P t+++F++F dL+     ++sa++k+Hgkkv++Al +a++++d ++ ++l++L
+  sp|P08850|HBA_ACCGE   2 VLSANDKTNVKNVFTKIGGHAEEYGAETLERMFTTYPPTKTYFPHF-DLH-----HGSAQIKAHGKKVVGALIEAVNHID-DIAGALSKL 84 
+                          89********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P08850|HBA_ACCGE  85 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P83131|HBA1_ALDEL  Hemoglobin A subunit alpha-1 OS=Aldabrachelys elephantina PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.3   0.2   2.3e-48   1.1e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.3 bits;  conditional E-value: 2.3e-48
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++++k +vk+vW+kv+++ ee+G + L+rlf+++P t+++F++F dL+     + s++v++Hgkkvl Al++a++++d +++++l++
+  sp|P83131|HBA1_ALDEL   2 VLTAGDKANVKTVWSKVGSHLEEYGSETLERLFVVYPSTKTYFPHF-DLH-----HDSPQVRAHGKKVLSALGEAVNHID-DIPGALSK 83 
+                           79********************************************.999.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa++l+vdp +fkll  + v+v  +++p+ +t++v+ +l+K+l+ va++l+skY+
+  sp|P83131|HBA1_ALDEL  84 LSDLHAQNLRVDPVNFKLLNLCFVVVSGTHHPTILTPEVHVSLDKFLSAVATALTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P30892|HBAD_COTJA  Hemoglobin subunit alpha-D OS=Coturnix coturnix japonica GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.2   0.4   2.5e-48   1.2e-45       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.2 bits;  conditional E-value: 2.5e-48
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W k  ++ e+ Ga++L r+f+++P+t+++F++F dLs      +s++++ Hgkkvl Al++a++++d +l++++++L
+  sp|P30892|HBAD_COTJA   2 LTAEDKKLIQQAWEKASSHQEDFGAEALLRMFTAYPQTKTYFPHF-DLS-----PGSDQIRGHGKKVLAALGNAVKNID-DLSQAMAEL 83 
+                           99*******************************************.9**.....9***********************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls+++ +vlaa+++k+++++v+aa++K+l+ va +la kY+
+  sp|P30892|HBAD_COTJA  84 SNLHAFNLRVDPVNFKLLSQCIQVVLAAHMGKDYSPEVHAAFDKFLSAVAAVLAGKYR 141
+                           *********************************************************7 PP
+
+>> sp|P02003|HBAD_CAIMO  Hemoglobin subunit alpha-D OS=Cairina moschata GN=HBAD PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.2   0.6   2.5e-48   1.2e-45       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.2 bits;  conditional E-value: 2.5e-48
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ + +vW kv  + ee G ++L+r+f+++P+t+++F++F dL+      +s++v+ Hgkkv+ Al++a+++ld +l+++l++L
+  sp|P02003|HBAD_CAIMO   2 LTAEDKKLIVQVWEKVAGHQEEFGSEALQRMFLAYPQTKTYFPHF-DLH-----PGSEQVRGHGKKVAAALGNAVKSLD-NLSQALSEL 83 
+                           99*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++  +vlaa+l+k+++++++aa++K+l+ va +la+kY+
+  sp|P02003|HBAD_CAIMO  84 SNLHAYNLRVDPVNFKLLAQCFQVVLAAHLGKDYSPEMHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01981|HBA_STRCA  Hemoglobin subunit alpha-A OS=Struthio camelus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.2   0.5   2.5e-48   1.2e-45       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.2 bits;  conditional E-value: 2.5e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +kt+vk +++k+ +++ee+Ga+ L+r+f ++P+t+++F++F dL+     ++sa++k+Hgkkv++Al +a++++d +++++l++L
+  sp|P01981|HBA_STRCA   1 VLSGTDKTNVKGIFSKISSHAEEYGAETLERMFITYPQTKTYFPHF-DLH-----HGSAQIKAHGKKVANALIEAVNHID-DISGALSKL 83 
+                          6999******************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v  +l++kY+
+  sp|P01981|HBA_STRCA  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGAVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P10060|HBB1_SPHPU  Hemoglobin subunit beta-1 OS=Sphenodon punctatus GN=HBB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  160.0   0.6   2.8e-48   1.4e-45       2     149 .]       2     146 .]       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 160.0 bits;  conditional E-value: 2.8e-48
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek  + ++Wakv  dv++ G+++L rl++++P+tq+fF  F++Ls + ++ +++ vk+Hgkkv + +++al++ld +l+ ++++
+  sp|P10060|HBB1_SPHPU   2 HWTAEEKHLLGSLWAKV--DVADIGGEALGRLLVVYPWTQRFFADFGNLSSATAICGNPRVKAHGKKVFTMFGEALKHLD-NLKETFAS 87 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselH++kl+vd ++fkll++ +++vlaarl   ft+++qaa++Kl  +va++la +Y+
+  sp|P10060|HBB1_SPHPU  88 LSELHCDKLHVDTENFKLLGNLVIVVLAARLHDSFTPAAQAAFHKLAYSVAHALARRYH 146
+                           **********************************************************7 PP
+
+>> sp|P01980|HBA_APTFO  Hemoglobin subunit alpha OS=Aptenodytes forsteri GN=HBA PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.8   1.2   3.4e-48   1.7e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 159.8 bits;  conditional E-value: 3.4e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vk++++k+ +++ee+Ga+ L+r+f+++P+t+++F++F dL+     ++sa+vk+Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P01980|HBA_APTFO   2 VLSANDKSNVKSIFSKISSHAEEYGAETLERMFTTYPQTKTYFPHF-DLH-----HGSAQVKAHGKKVAAALIEAANHID-DIAGALSKL 84 
+                          89********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++++a+l+K+l  v ++l+skY+
+  sp|P01980|HBA_APTFO  85 SDLHAEKLRVDPVNFKLLGQCFMVVVAIHHPSALTPEIHASLDKFLCAVGNVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01947|HBA_CAVPO  Hemoglobin subunit alpha OS=Cavia porcellus GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.7   0.7   3.6e-48   1.8e-45       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 159.7 bits;  conditional E-value: 3.6e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk+ W k++ +++e+ a+ L+r+f+s+P+t+++F +  d+s      +s d+k+Hgkkv+dAl+ a+ +ld +l+++l++L
+  sp|P01947|HBA_CAVPO   2 VLSAADKNNVKTTWDKIGGHAAEYVAEGLTRMFTSFPTTKTYFHHI-DVS-----PGSGDIKAHGKKVADALTTAVGHLD-DLPTALSTL 84 
+                          8********************************************9.888.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+ Ha+kl+vdp +fk+l ++l+++laa+l+++ft++++a+l+K++a+v+++l+skY+
+  sp|P01947|HBA_CAVPO  85 SDVHAHKLRVDPVNFKFLNHCLLVTLAAHLGADFTPSIHASLDKFFASVSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P01983|HBA_CICCI  Hemoglobin subunit alpha-A OS=Ciconia ciconia GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.5   0.5   4.1e-48     2e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 159.5 bits;  conditional E-value: 4.1e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++v+ v++k+ a+++++Ga+ L+r+f+++P+ +++F++F dL+     ++sa++k+Hgkkv++Al +a++++d ++ ++l++L
+  sp|P01983|HBA_CICCI   2 VLSANDKSNVRGVFGKISAHADDYGAETLERMFTVHPTQKTYFPHF-DLH-----RGSAQIKAHGKKVAGALLEAVNHID-DIAGALSKL 84 
+                          89********************************************.999.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l +v+++l+ kY+
+  sp|P01983|HBA_CICCI  85 SDLHAQKLRVDPVNFKLLGQCFLVVVAVHHPSLLTPEVHASLDKFLCTVSTVLTDKYR 142
+                          *********************************************************7 PP
+
+>> sp|P13786|HBAZ_CAPHI  Hemoglobin subunit zeta OS=Capra hircus GN=HBZ1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.5   0.2   4.1e-48     2e-45       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 159.5 bits;  conditional E-value: 4.1e-48
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L+  e+t ++++W+k+ ++++  G++ L+rlf  +P+++++F++F dL+      +sa++++Hg kv+ A++da++++d ++ ++l++
+  sp|P13786|HBAZ_CAPHI   2 SLTRTERTIILSLWSKISTQADVIGTETLERLFSCYPQAKTYFPHF-DLH-----SGSAQLRAHGSKVVAAVGDAVKSID-NVTSALSK 83 
+                           5899******************************************.999.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fk+ls++l+++la+++p++ftad++aa +K+l++v+ +l++kY+
+  sp|P13786|HBAZ_CAPHI  84 LSELHAYVLRVDPVNFKFLSHCLLVTLASHFPADFTADAHAAWDKFLSIVSGVLTEKYR 142
+                           **********************************************************7 PP
+
+>> sp|P01992|HBA_CYGOL  Hemoglobin subunit alpha-A OS=Cygnus olor GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.4   1.0   4.4e-48   2.1e-45       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 159.4 bits;  conditional E-value: 4.4e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v++k++ +++++Ga+ L+r+f ++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P01992|HBA_CYGOL   1 VLSAADKTNVKGVFSKIGGHADDYGAETLERMFIAYPQTKTYFPHF-DLQ-----HGSAQIKAHGKKVAAALVEAVNHID-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K+l  v  +l++kY+
+  sp|P01992|HBA_CYGOL  84 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPSALTPEVHASLDKFLCAVGAVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01999|HBA_ALLMI  Hemoglobin subunit alpha OS=Alligator mississippiensis GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.4   0.5   4.5e-48   2.2e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 159.4 bits;  conditional E-value: 4.5e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k++vka+W+k   + ee+Ga++L+r+f ++P+t+ +F++F d+s     ++sa++++Hgkkv  Al +a++++d +l+++l  L
+  sp|P01999|HBA_ALLMI   2 VLSMEDKSNVKAIWGKASGHLEEYGAEALERMFCAYPQTKIYFPHF-DMS-----HNSAQIRAHGKKVFSALHEAVNHID-DLPGALCRL 84 
+                          79********************************************.888.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selHa++l+vdp +fk+l++++++v a ++p+ ++++++a+l+K+l  v+ +l+skY+
+  sp|P01999|HBA_ALLMI  85 SELHAHSLRVDPVNFKFLAHCVLVVFAIHHPSALSPEIHASLDKFLCAVSAVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P24589|HBA_COTJA  Hemoglobin subunit alpha-A OS=Coturnix coturnix japonica GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.3   0.8   4.7e-48   2.3e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 159.3 bits;  conditional E-value: 4.7e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk ++ak+  ++ee+Ga++L r+f+++P+t+++F++F d+s     ++sa++k Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P24589|HBA_COTJA   2 VLSAADKTNVKGIFAKIAGHAEEYGAEALDRMFTTYPQTKTYFPHF-DVS-----HGSAQIKGHGKKVAAALVEAANHID-DIAGTLSKL 84 
+                          8*********************************************.888.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P24589|HBA_COTJA  85 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPAALTPEVHASLDKFLCAVGTVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02009|HBAZ_PIG  Hemoglobin subunit zeta OS=Sus scrofa PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  159.1   0.2   5.3e-48   2.6e-45       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 159.1 bits;  conditional E-value: 5.3e-48
+            globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                         L++ae+t + ++W+k+ +++++ G++ L+rlf s+P+++++F++F dL+      +sa++++Hg kvl A+++a++++d +++a+l++Lse
+  sp|P02009|HBAZ_PIG   2 LTKAERTIIGSMWTKISSQADTIGTETLERLFASYPQAKTYFPHF-DLN-----PGSAQLRAHGSKVLAAVGEAVKSID-NVSAALAKLSE 85 
+                         89*******************************************.999.....9************************.*********** PP
+
+            globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                         lHa  l+vdp +fk+ls++l+++la+++p+++ta+++aa +K+l +v+ +l++kY+
+  sp|P02009|HBAZ_PIG  86 LHAYVLRVDPVNFKFLSHCLLVTLASHFPADLTAEAHAAWDKFLTIVSGVLTEKYR 141
+                         *******************************************************7 PP
+
+>> sp|P02129|HBB_CRONI  Hemoglobin subunit beta OS=Crocodylus niloticus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  158.8   0.2   6.7e-48   3.2e-45       4     149 .]       4     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 158.8 bits;  conditional E-value: 6.7e-48
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + ek+ +  +W kv  dv+  G+++L r++ ++P+ +++Fe+F+d+s +++++ +++v++Hgkkvl  +++a+ +ld  ++a++++Ls+
+  sp|P02129|HBB_CRONI   4 DPHEKQLIGDLWHKV--DVAHCGGEALSRMLIVYPWKRRYFENFGDISNAQAIMHNEKVQAHGKKVLASFGEAVCHLD-GIRAHFANLSK 90 
+                          589************..*************************************************************.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp++fkll+++++ vlaa++pk+f+ + +aa++Kl+  va +la+ Y+
+  sp|P02129|HBB_CRONI  91 LHCEKLHVDPENFKLLGDIIIIVLAAHYPKDFGLECHAAYQKLVRQVAAALAAEYH 146
+                          *******************************************************7 PP
+
+>> sp|P02137|HBBL_XENLA  Hemoglobin larval subunit beta-1 OS=Xenopus laevis PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  158.6   1.0   7.5e-48   3.6e-45       1     148 [.       2     146 ..       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 158.6 bits;  conditional E-value: 7.5e-48
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+Ls++ek++++avW+kv  ++e+ G d+L+rl++++P+tq++F +F++Ls  +++ ++a+v++Hgkkvl A+ + + +ld ++++ l+
+  sp|P02137|HBBL_XENLA   2 VHLSADEKSAINAVWSKV--NIENDGHDALTRLLVVFPWTQRYFSSFGNLSNVAAISGNAKVRAHGKKVLSAVDESIHHLD-DIKNFLS 87 
+                           69****************..************************************************************9.9****** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            Ls +Ha++l+vdp++fk l++vlv vla +l++ ft++vqaa eK+ a +  +l++ Y
+  sp|P02137|HBBL_XENLA  88 VLSTKHAEELHVDPENFKRLADVLVIVLAGKLGAAFTPQVQAAWEKFSAGLVAALSHGY 146
+                           *******************************************************9988 PP
+
+>> sp|P08256|HBA_GYPRU  Hemoglobin subunit alpha-A/A' OS=Gyps rueppellii GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  158.5   0.4   8.2e-48     4e-45       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 158.5 bits;  conditional E-value: 8.2e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk+v++k+  ++e++Ga+ L+r+f+++P t+++F++F dL+     ++sa++k+Hgkkv++Al +a++++d ++ ++l++L
+  sp|P08256|HBA_GYPRU   1 VLSANDKTNVKNVFTKITGHAEDYGAETLERMFTTYPPTKTYFPHF-DLH-----HGSAQIKAHGKKVVGALIEAVNHID-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P08256|HBA_GYPRU  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07034|HBA_CHLME  Hemoglobin subunit alpha-A OS=Chloephaga melanoptera GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  158.3   1.4   9.2e-48   4.5e-45       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 158.3 bits;  conditional E-value: 9.2e-48
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vk v++k++ +++++Ga+ L+r+f ++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P07034|HBA_CHLME   1 VLSAADKANVKGVFSKIGGHADDYGAETLERMFIAYPQTKTYFPHF-DLH-----HGSAQIKAHGKKVAAALVEAVNHID-DITGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++v+a ++p+ +t++v+a+l+K++  v  +l++kY+
+  sp|P07034|HBA_CHLME  84 SDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPAALTPEVHASLDKFMCAVGAVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07417|HBA_AEGMO  Hemoglobin subunit alpha-A OS=Aegypius monachus GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  158.1   0.4   1.1e-47   5.3e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 158.1 bits;  conditional E-value: 1.1e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk+v++k+  ++e++Ga+ L+r+f ++P t+++F++F dL+     ++sa++k+Hgkkv++Al +a++++d ++ ++l++L
+  sp|P07417|HBA_AEGMO   2 VLSANDKTNVKTVFTKITGHAEDYGAETLERMFITYPPTKTYFPHF-DLH-----HGSAQIKAHGKKVVGALIEAVNHID-DIAGALSKL 84 
+                          89********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P07417|HBA_AEGMO  85 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P10780|HBA_PHACA  Hemoglobin subunit alpha-A OS=Phalacrocorax carbo GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.8   1.7   1.4e-47   6.7e-45       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.8 bits;  conditional E-value: 1.4e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +kt+vk v+akv+  +e +Ga+ L+r+f+++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P10780|HBA_PHACA   1 VLSASDKTNVKGVFAKVGGSAEAYGAETLERMFTAYPQTKTYFPHF-DLH-----HGSAQIKAHGKKVAAALVEAANHID-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K++  vak l++kY+
+  sp|P10780|HBA_PHACA  84 SDLHAQKLRVDPVNFKLLGHCFLVVVAIHHPTLLTPEVHASLDKFMCAVAKELTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07413|HBAD_PASMO  Hemoglobin subunit alpha-D OS=Passer montanus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.8   0.1   1.4e-47   6.8e-45       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.8 bits;  conditional E-value: 1.4e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W+k +   ee Gad+L r+f s+P t+++F++F dLs     ++s++++ Hgkkv+ Als+a+++ld +l+++l++L
+  sp|P07413|HBAD_PASMO   2 LTAEDKKLIQQIWGKLGGAEEEIGADALWRMFHSYPSTKTYFPHF-DLS-----QGSDQIRGHGKKVVAALSNAIKNLD-NLSQALSEL 83 
+                           99*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fk+ls++l + la+rl+ke++++v++a++K+++ va +la+kY+
+  sp|P07413|HBAD_PASMO  84 SNLHAYNLRVDPVNFKFLSQCLQVSLATRLGKEYSPEVHSAVDKFMSAVASVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P01985|HBA_ANSSE  Hemoglobin subunit alpha-A OS=Anseranas semipalmata GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.6   0.6   1.5e-47   7.5e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.6 bits;  conditional E-value: 1.5e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k +vk+v++k++ ++ee+Ga+ L+r+f+++P+t+++F++F dL+      +sa++k+Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P01985|HBA_ANSSE   2 VLSAADKGNVKTVFGKIGGHAEEYGAETLQRMFQTFPQTKTYFPHF-DLQ-----PGSAQIKAHGKKVAAALVEAANHID-DIAGALSKL 84 
+                          8*********************************************.999.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+l+++ ++vla ++p+ +t++v+a+++K+l  va++l++kY+
+  sp|P01985|HBA_ANSSE  85 SDLHAQKLRVDPVNFKFLGHCFLVVLAIHHPSLLTPEVHASMDKFLCAVATVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|O12985|HBAD_COLLI  Hemoglobin subunit alpha-D OS=Columba livia GN=HBAD PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.6   0.2   1.6e-47   7.6e-45       3     149 .]       2     140 .]       1     140 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 157.6 bits;  conditional E-value: 1.6e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ +k+ v++vW kv     + Ga++L+rlf+++P+t+++F++F dL+     ++s++v++Hgkkvl Al++a+++l  +l+++l+dL
+  sp|O12985|HBAD_COLLI   2 LTDSDKKLVLQVWEKV-IRHPDCGAEALERLFTTYPQTKTYFPHF-DLH-----HGSDQVRNHGKKVLAALGNAVKSLG-NLSQALSDL 82 
+                           899*************.666789**********************.999.....***********************97.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++  +vla++l++++t++++aa++K+l+ v+++la+kY+
+  sp|O12985|HBAD_COLLI  83 SDLHAYNLRVDPVNFKLLAQCFHVVLATHLGNDYTPEAHAAFDKFLSAVCTVLAEKYR 140
+                           *********************************************************7 PP
+
+>> sp|P01994|HBA_CHICK  Hemoglobin subunit alpha-A OS=Gallus gallus GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.6   0.4   1.6e-47   7.8e-45       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.6 bits;  conditional E-value: 1.6e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk +++k+  ++ee+Ga+ L+r+f+++P t+++F++F dLs     ++sa++k Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P01994|HBA_CHICK   2 VLSAADKNNVKGIFTKIAGHAEEYGAETLERMFTTYPPTKTYFPHF-DLS-----HGSAQIKGHGKKVVAALIEAANHID-DIAGTLSKL 84 
+                          8*********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01994|HBA_CHICK  85 SDLHAHKLRVDPVNFKLLGQCFLVVVAIHHPAALTPEVHASLDKFLCAVGTVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P04239|HBAD_ANSIN  Hemoglobin subunit alpha-D OS=Anser indicus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.5   0.6   1.6e-47     8e-45       3     149 .]       2     141 .]       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 157.5 bits;  conditional E-value: 1.6e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k+ + ++W kv  + +e G+++L+r+f+++P+t+++F++F d++      +s++v+ Hgkkv+ Al++a+++ld +++++l++L
+  sp|P04239|HBAD_ANSIN   2 LSADDKKIIAQLWEKVAGHQDEFGNEALQRMFVTYPQTKTYFPHF-DVH-----PGSEQVRSHGKKVAAALGNAVKSLD-NISQALSEL 83 
+                           9********************************************.666.....8************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+k++t++++aa++K+l+ va +la+kY+
+  sp|P04239|HBAD_ANSIN  84 SNLHAYNLRVDPANFKLLSQCFQVVLAVHLGKDYTPEMHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P04238|HBAD_ANSAN  Hemoglobin subunit alpha-D OS=Anser anser anser GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.3   0.6   1.9e-47   9.2e-45       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.3 bits;  conditional E-value: 1.9e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ + ++W kv  + +e G+++L+r+f+++P+t+++F++F dL+      +s++v+ Hgkkv+ Al++a+++ld +++++l++L
+  sp|P04238|HBAD_ANSAN   2 LTADDKKLLAQLWEKVAGHQDEFGNEALQRMFVTYPQTKTYFPHF-DLH-----PGSEQVRSHGKKVAAALGNAVKSLD-NISQALSEL 83 
+                           899******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+k++t++++aa++K+l+ va +la+kY+
+  sp|P04238|HBAD_ANSAN  84 SNLHAYNLRVDPANFKLLSQCFQVVLAVHLGKDYTPEMHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P10781|HBAD_PHACA  Hemoglobin subunit alpha-D OS=Phalacrocorax carbo GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.3   0.3   1.9e-47   9.4e-45       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.3 bits;  conditional E-value: 1.9e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L ++e   v+ vW kve+  +e+G++ L+r+f+++P+t+++F++F dL+     ++s+++++Hgkkv++Al++a+++ld +l+++l+dL
+  sp|P10781|HBAD_PHACA   2 LGAEETALVRGVWQKVESAKDEMGEETLTRMFLVYPKTKTYFPHF-DLH-----HGSEQIRNHGKKVVTALGNAIQNLD-NLRQTLADL 83 
+                           78999****************************************.999.....*************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++  +vla +l++e+t++v+ a++K+l  va +la+kY+
+  sp|P10781|HBAD_PHACA  84 SNLHAYNLRVDPVNFKLLAQCFQVVLAVHLGQEYTPEVHVAFDKFLTAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P04240|HBAD_BRACA  Hemoglobin subunit alpha-D OS=Branta canadensis GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.2   0.8   2.1e-47     1e-44       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.2 bits;  conditional E-value: 2.1e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ + ++W kv  + +e G+++L+r+f+++P+t+++F++F dL+      +s++v+ Hgkkv+ Als+a++++d +l+++l++L
+  sp|P04240|HBAD_BRACA   2 LTADDKKILAQLWEKVAGHQDEFGNEALERMFVTYPQTKTYFPHF-DLH-----PGSEQVRSHGKKVAAALSNAVKSID-NLSQALSEL 83 
+                           899******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fklls++  +vla +l+k++t++++aa++K+l+ va +la+kY+
+  sp|P04240|HBAD_BRACA  84 SNLHAYNLRVDPANFKLLSQCFQVVLAVHLGKDYTPEMHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P15164|HBAD_APUAP  Hemoglobin subunit alpha-D OS=Apus apus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  157.1   0.2   2.3e-47   1.1e-44       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 157.1 bits;  conditional E-value: 2.3e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ +++vW k +   ee+Ga+ L+r+f+++P+t+++F++F dLs      +s++++ Hgkkv+ Al+ a+++ld +l+++l++L
+  sp|P15164|HBAD_APUAP   2 LTAEDKKLIQQVWDKLQGCQEEVGAETLQRMFTTYPQTKTYFPHF-DLS-----PGSDQIRGHGKKVVAALGTAVKSLD-NLSQALSEL 83 
+                           99*******************************************.9**.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++l +vla+++ k++t++++aa++K+l+ va +la+kY+
+  sp|P15164|HBAD_APUAP  84 SNLHAYNLRVDPVNFKLLAQCLQVVLATHMTKDYTPEIHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P07035|HBAD_CHLME  Hemoglobin subunit alpha-D OS=Chloephaga melanoptera GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.8   0.4   2.7e-47   1.3e-44       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 156.8 bits;  conditional E-value: 2.7e-47
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+ ++++W kv  + ee G ++L+r+f+++P+t+++F++F dL+      +s++v+ Hgkkv+ Al++a+++ld +l+++l++L
+  sp|P07035|HBAD_CHLME   2 LTADDKKLLTQLWEKVAGHQEEFGSEALQRMFLTYPQTKTYFPHF-DLH-----PGSEQVRGHGKKVAAALGNAVKSLD-NLSQALSEL 83 
+                           89*******************************************.999.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +fkll+++  +vla++l+k+++++++aa++K+l+ va +la+kY+
+  sp|P07035|HBAD_CHLME  84 SNLHAYNLRVDPANFKLLAQCFQVVLATHLGKDYSPEMHAAFDKFLSAVAAVLAEKYR 141
+                           *********************************************************7 PP
+
+>> sp|P08260|HBA_CHRRI  Hemoglobin subunit alpha-A OS=Chroicocephalus ridibundus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.7   0.3   2.9e-47   1.4e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 156.7 bits;  conditional E-value: 2.9e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +kt+vk v++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dL+     ++sa+vk+Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P08260|HBA_CHRRI   1 VLSGSDKTNVKGVFGKIGGHAEEYGAETLERMFATYPQTKTYFPHF-DLQ-----HGSAQVKAHGKKVAAALVEAANHID-DIAGALSKL 83 
+                          6999******************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P08260|HBA_CHRRI  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P19832|HBA_TRIOC  Hemoglobin subunit alpha-A OS=Trigonoceps occipitalis GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.7   0.4     3e-47   1.5e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 156.7 bits;  conditional E-value: 3e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk+v++k+  ++e++Ga+ L+r+f ++P t+++F++F dL+     ++sa++k+Hgkkv++Al +a++++d ++ ++l++L
+  sp|P19832|HBA_TRIOC   1 VLSANDKTNVKTVFTKITGHAEDYGAETLERMFITYPPTKTYFPHF-DLH-----HGSAQIKAHGKKVVGALIEAVNHID-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P19832|HBA_TRIOC  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLSAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P81023|HBA_MELGA  Hemoglobin subunit alpha-A OS=Meleagris gallopavo GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.7   0.4     3e-47   1.5e-44       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 156.7 bits;  conditional E-value: 3e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk +++k+  ++ee+Ga+ L+r+f ++P t+++F++F dLs     ++sa++k Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P81023|HBA_MELGA   2 VLSAADKNNVKGIFTKIAGHAEEYGAETLERMFITYPPTKTYFPHF-DLS-----HGSAQIKGHGKKVVAALIEAANHID-DIAGTLSKL 84 
+                          8*********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P81023|HBA_MELGA  85 SDLHAHKLRVDPVNFKLLGQCFLVVVAIHHPAALTPEVHASLDKFLCAVGTVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|Q8HY34|HBA_MONDO  Hemoglobin subunit alpha OS=Monodelphis domestica GN=HBA PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.4   0.5   3.5e-47   1.7e-44       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 156.4 bits;  conditional E-value: 3.5e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vka+W+kv+ + + + +++L r f+s+P t+++F++F + s      +sa++k  g+k++dA+s a+a++d +l ++l++L
+  sp|Q8HY34|HBA_MONDO   2 VLSAADKTNVKAAWSKVGGNSGAYMGEALYRTFLSFPPTKTYFPHF-EFS-----AGSAQIKGQGQKIADAVSLAVAHMD-DLATALSAL 84 
+                          8*********************************************.788.....8************************.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa++lkvdp +fk+l + ++++la++l+k+ft++++a+l+K+lal++++l+skY+
+  sp|Q8HY34|HBA_MONDO  85 SDLHAHNLKVDPVNFKFLCHNVLVTLASHLGKDFTPEIHASLDKFLALLSTVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P82111|HBA1_STEMC  Hemoglobin subunit alpha-1 OS=Stercorarius maccormicki PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.4   0.2   3.6e-47   1.7e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 156.4 bits;  conditional E-value: 3.6e-47
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs  +k++vk v++k++ ++ee+Ga+ L+r+f ++P+t+++F++F dL+     ++sa+vk+Hgkkv+ Al +a +++d +++++l++
+  sp|P82111|HBA1_STEMC   1 VLSGSDKNNVKGVFGKIGGHAEEYGAETLERMFATYPQTKTYFPHF-DLQ-----HGSAQVKAHGKKVAAALVEAANHID-DISGALSK 82 
+                           6999******************************************.999.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P82111|HBA1_STEMC  83 LSDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 141
+                           **********************************************************7 PP
+
+>> sp|P21871|HBA_COLLI  Hemoglobin subunit alpha-A OS=Columba livia GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.2   0.3   4.4e-47   2.1e-44       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 156.2 bits;  conditional E-value: 4.4e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++k++vkav+ak++ ++++ G+++L+rlf ++P+t+++F++F dLs     ++sa++k Hgkkv++Al +a +++d ++ ++l++L
+  sp|P21871|HBA_COLLI   2 VLSANDKSNVKAVFAKIGGQAGDLGGEALERLFITYPQTKTYFPHF-DLS-----HGSAQIKGHGKKVAEALVEAANHID-DIAGALSKL 84 
+                          89********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K++  v ++l++kY+
+  sp|P21871|HBA_COLLI  85 SDLHAQKLRVDPVNFKLLGHCFLVVVAVHFPSLLTPEVHASLDKFVLAVGTVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02130|HBB_ALLMI  Hemoglobin subunit beta OS=Alligator mississippiensis GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.1   2.4   4.6e-47   2.2e-44       5     149 .]       5     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 156.1 bits;  conditional E-value: 4.6e-47
+             globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLsel 94 
+                          + e++ +  +Wakv  dv++ Gad+L r++ ++P+ +++Fe+F+++  + ++  + +v++Hgkkvl  +++a+++ld ++++++++Ls+l
+  sp|P02130|HBB_ALLMI   5 AHERKFIVDLWAKV--DVAQCGADALSRMLIVYPWKRRYFEHFGKMCNAHDILHNSKVQEHGKKVLASFGEAVKHLD-NIKGHFANLSKL 91 
+                          6799999*******..*************************************************************.************ PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          H++k++vdp++fkll+++++ vlaa++p++f+ + +aa++Kl+  va +la+ Y+
+  sp|P02130|HBB_ALLMI  92 HCEKFHVDPENFKLLGDIIIIVLAAHHPEDFSVECHAAFQKLVRQVAAALAAEYH 146
+                          ******************************************************7 PP
+
+>> sp|P02131|HBB_CAICR  Hemoglobin subunit beta OS=Caiman crocodilus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  156.0   1.8     5e-47   2.4e-44       3     149 .]       3     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 156.0 bits;  conditional E-value: 5e-47
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s+ e + +  +Wakv  dv+  G+d+L r++  +P+ +++Fe+F++Lst++++  ++++++Hgkkvl  +++a+++ld ++++++++Ls
+  sp|P02131|HBB_CAICR   3 FSAHEEKLIVDLWAKV--DVASCGGDALSRMLIIYPWKRRYFEHFGKLSTDQDVLHNEKIREHGKKVLASFGEAVKHLD-NIKGHFAHLS 89 
+                          69999***********..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lH +k++vd ++fkll++++++vl  ++pk+ft + +aa++Kl+  va +l++ Y+
+  sp|P02131|HBB_CAICR  90 KLHFEKFHVDCENFKLLGDIIIVVLGMHHPKDFTLQTHAAFQKLVRHVAAALSAEYH 146
+                          ********************************************************7 PP
+
+>> sp|P02136|HBB3_LITCT  Hemoglobin subunit beta-3 OS=Lithobates catesbeiana PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.8   0.3   5.7e-47   2.8e-44       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.8 bits;  conditional E-value: 5.7e-47
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek  +++vW kv  dve+ G ++L+rlf ++P+tq++F  F+dLs ++++ ++++v++Hgkk+l+A+ +a+ +ld +++++l+d
+  sp|P02136|HBB3_LITCT   3 HWTAEEKAVINSVWQKV--DVEQDGHEALTRLFIVYPWTQRYFSTFGDLSSPAAIAGNPKVHAHGKKILGAIDNAIHNLD-DVKGTLHD 88 
+                           6799*************..************************************************************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Lse Ha++l+vdp++f+ l+evl++vl a+l+k f+++vq   eK++a++  +l++ Y+
+  sp|P02136|HBB3_LITCT  89 LSEEHANELHVDPENFRRLGEVLIVVLGAKLGKAFSPQVQHVWEKFIAVLVDALSHSYH 147
+                           **********************************************************7 PP
+
+>> sp|P19789|HBA_EUDSC  Hemoglobin subunit alpha-A OS=Eudynamys scolopacea GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.8   0.8   5.8e-47   2.8e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.8 bits;  conditional E-value: 5.8e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk ++ak++ + +++Ga+ L r+f+++P+t+++F++F d+s     ++sa++k+Hgkkv+ Al +a++++d ++ ++l++L
+  sp|P19789|HBA_EUDSC   1 VLSAADKTNVKGIFAKIGGHGDDYGAETLDRMFTVYPQTKTYFPHF-DVS-----HGSAQIKAHGKKVVAALVEAVNHID-DIAGALSKL 83 
+                          69********************************************.888.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+  ++++ +t++v+a+l+K+l  v+++l++kY+
+  sp|P19789|HBA_EUDSC  84 SDLHAHKLRVDPANFKLLGQCFLVVVGIHHASALTPEVHASLDKFLCAVSTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07404|HBA_VULGR  Hemoglobin subunit alpha-A OS=Vultur gryphus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.6   0.1   6.4e-47   3.1e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.6 bits;  conditional E-value: 6.4e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +kt+vk v+ak++ ++e++Ga+ L+r+f ++P+t+++F++F dL+     ++sa++k Hgkkv++Al +a +++d ++ a+l++L
+  sp|P07404|HBA_VULGR   1 VLSGSDKTNVKGVFAKIGGHAEDYGAETLERMFITYPQTKTYFPHF-DLQ-----HGSAQIKGHGKKVVGALIEAANHID-DIAASLSKL 83 
+                          6999******************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P07404|HBA_VULGR  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02004|HBAD_STUVU  Hemoglobin subunit alpha-D OS=Sturnus vulgaris GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.4   0.0   7.5e-47   3.7e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.4 bits;  conditional E-value: 7.5e-47
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++++k+ +++ W+k +   ee Ga++L r+f ++P t+++F++F dLs     ++s++++ Hgkkv+ Al++a+++ld +l+++l++
+  sp|P02004|HBAD_STUVU   1 VLTAEDKKLIQQTWGKLGGAEEEIGAEALWRMFHAYPPTKTYFPHF-DLS-----QGSDQIRGHGKKVVAALGNAIKNLD-NLSQALSE 82 
+                           69********************************************.9**.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +fk+ls++l ++la+rl+ke++++v++a++K+++ va +la+kY+
+  sp|P02004|HBAD_STUVU  83 LSNLHAYNLRVDPVNFKFLSQCLQVTLATRLGKEYSPEVHSAVDKFMSAVAAVLAEKYR 141
+                           **********************************************************7 PP
+
+>> sp|Q7LZC3|HBA_STROE  Hemoglobin subunit alpha-A OS=Streptopelia orientalis GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.2   0.2   8.3e-47     4e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.2 bits;  conditional E-value: 8.3e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +k++vka+++k++ ++++ G+++L+r+f ++P+t+++F++F dLs     ++sa++k Hgkkv++Al +a +++d ++ ++l++L
+  sp|Q7LZC3|HBA_STROE   1 VLSASDKSNVKAAFGKIGGQAGDLGGQALERMFITYPQTKTYFPHF-DLS-----HGSAQIKGHGKKVAEALVEAANHID-DIAGALSKL 83 
+                          69********************************************.***.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+aa++p+ +t++v+a+l+K++  v ++l++kY+
+  sp|Q7LZC3|HBA_STROE  84 SDLHAQKLRVDPVNFKLLGHCFLVVVAAHFPSLLTPEVHASLDKFVLAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P07407|HBA_PASMO  Hemoglobin subunit alpha-A OS=Passer montanus GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.1   0.0   9.4e-47   4.6e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.1 bits;  conditional E-value: 9.4e-47
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k++vk v+ak++ ++ee+Gad+L+r+f ++P+t+++F++F dL      k+sa+vk Hgkkv+ Al +a++++d +l ++l++L
+  sp|P07407|HBA_PASMO   1 VLSPADKSNVKGVFAKIGGQAEEYGADALERMFATYPQTKTYFPHF-DLG-----KGSAQVKGHGKKVAAALVEAVNNID-DLAGALSKL 83 
+                          69********************************************.999.....************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a++ p+ +t++v+a l+K+l  v ++l++kY+
+  sp|P07407|HBA_PASMO  84 SDLHAQKLRVDPVNFKLLGQCFLVVVATGNPALLTPEVHAPLDKFLCAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P01976|HBA_DIDVI  Hemoglobin subunit alpha OS=Didelphis virginiana GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  155.0   0.1     1e-46   4.9e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 155.0 bits;  conditional E-value: 1e-46
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+++kt+vk +W+kv+ + + + +++L r f+s+P+t+++F+++ d s      +sa++k+ g+k++dA++ a+a+ld +++++l++L
+  sp|P01976|HBA_DIDVI   1 VLSANDKTNVKGAWSKVGGNSGAYMGEALYRTFLSFPTTKTYFPNY-DFS-----AGSAQIKTQGQKIADAVGLAVAHLD-DMPTALSSL 83 
+                          69********************************************.888.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa++lkvdp +fk+l + +++++aa+l+k+ft++++a+++K+la+v+++l+skY+
+  sp|P01976|HBA_DIDVI  84 SDLHAHELKVDPVNFKFLCHNVLVTMAAHLGKDFTPEIHASMDKFLASVSTVLTSKYR 141
+                          *********************************************************7 PP
+
+>> sp|P06636|HBA3_XENLA  Hemoglobin subunit alpha-3 OS=Xenopus laevis GN=hba3 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  154.8   1.2   1.2e-46   5.6e-44       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 154.8 bits;  conditional E-value: 1.2e-46
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +L++ +k +v a+W+k+  +++  Ga++L+rlf+s+P+t+++F +F dLs     ++sad+ +Hg kv++Al++a +++d +l+a+l++
+  sp|P06636|HBA3_XENLA   2 TLTDSDKAAVVALWGKIAPQANAIGAEALERLFLSYPQTKTYFSHF-DLS-----HGSADLANHGGKVVNALGEAAKHID-DLDAALST 83 
+                           6999******************************************.***.....************************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +fklls+ + ++la ++ kef a+ qaa +K+la va++l+skY+
+  sp|P06636|HBA3_XENLA  84 LSDLHAYNLRVDPGNFKLLSHTIQVTLAIHFHKEFDAATQAAWDKFLAEVATVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P06467|HBAZ_MOUSE  Hemoglobin subunit zeta OS=Mus musculus GN=Hbz PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  154.6   0.1   1.3e-46   6.4e-44       3     149 .]       3     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 154.6 bits;  conditional E-value: 1.3e-46
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L ++e+  + ++W k+ a++e  G++ L+rlf s+P+t+++F++F dL+     ++s+++++Hg k+++A++da++++d +l+++l +L
+  sp|P06467|HBAZ_MOUSE   3 LMKNERAIIMSMWEKMAAQAEPIGTETLERLFCSYPQTKTYFPHF-DLH-----HGSQQLRAHGFKIMTAVGDAVKSID-NLSSALTKL 84 
+                           778999***************************************.999.....*************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa  l+vdp +fklls++l++++aar+p++ft++v+ a +K++++++  l++kY+
+  sp|P06467|HBAZ_MOUSE  85 SELHAYILRVDPVNFKLLSHCLLVTMAARFPADFTPEVHEAWDKFMSILSSILTEKYR 142
+                           *********************************************************7 PP
+
+>> sp|P01997|HBA_STUVU  Hemoglobin subunit alpha-A OS=Sturnus vulgaris GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  154.5   0.3   1.4e-46   6.6e-44       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 154.5 bits;  conditional E-value: 1.4e-46
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+ +k +vkav++k++ ++ee Ga+ L+r+f ++P+t+++F++F dL      k+sa+vk Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P01997|HBA_STUVU   1 VLSASDKANVKAVFGKIGGQAEEFGAETLERMFATYPQTKTYFPHF-DLG-----KGSAQVKGHGKKVAAALVEAANHVD-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a++ p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01997|HBA_STUVU  84 SDLHAQKLRVDPVNFKLLGQCFLVVVASHNPALLTPEVHASLDKFLCAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P15162|HBA_APUAP  Hemoglobin subunit alpha-A OS=Apus apus GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  153.9   0.4   2.1e-46     1e-43       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 153.9 bits;  conditional E-value: 2.1e-46
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk v+ak++ ++e  G+++L r+f ++P t+++F++F dLs      +sa+vk+Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P15162|HBA_APUAP   2 VLSAADKTNVKGVFAKIGGQAEALGGEALARMFAAYPPTKTYFPHF-DLS-----PGSAQVKAHGKKVASALVEAANNID-DIAGALSKL 84 
+                          8*********************************************.9**.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  va++l++kY+
+  sp|P15162|HBA_APUAP  85 SDLHAQKLRVDPVNFKLLGHCFLVVVAIHHPSVLTPEVHASLDKFLCAVATVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P08423|HBB2_XENTR  Hemoglobin subunit beta-2 OS=Xenopus tropicalis GN=hbb2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  153.5   1.1   2.9e-46   1.4e-43       2     148 ..       3     146 ..       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 153.5 bits;  conditional E-value: 2.9e-46
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek ++ +vW+kv  d+e+ G d+L rl++++P+tq++F +F++Ls   ++ ++ +vk+Hg+kvl A++ a+++ld +++++lk 
+  sp|P08423|HBB2_XENTR   3 HWTAEEKATIASVWGKV--DIEQDGHDALSRLLVVYPWTQRYFSSFGNLSNVSAVSGNVKVKAHGNKVLSAVGSAIQHLD-DVKSHLKG 88 
+                           6799*************..************************************************************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           Ls++Ha+ l+vdp++fk l++vlv vlaa+l++ ft++vqa  eKl a++  +l++ Y
+  sp|P08423|HBB2_XENTR  89 LSKSHAEDLHVDPENFKRLADVLVIVLAAKLGSAFTPQVQAVWEKLNATLVAALSHGY 146
+                           ******************************************************9988 PP
+
+>> sp|P14522|HBA_TURME  Hemoglobin subunit alpha-A OS=Turdus merula GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  153.2   0.3   3.5e-46   1.7e-43       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 153.2 bits;  conditional E-value: 3.5e-46
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt+vk++++k++ +++e+Ga+ L+r+f ++P+t+++F++F dL      k+sa+vk+Hgkkv+ Al +a + +d ++ ++l++L
+  sp|P14522|HBA_TURME   1 VLSAADKTNVKSAFSKIGGQADEYGAETLERMFATYPQTKTYFPHF-DLG-----KGSAQVKAHGKKVAAALVEAANAVD-DIAGALSKL 83 
+                          69********************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++++a++ p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P14522|HBA_TURME  84 SDLHAQKLRVDPVNFKLLGQCFLVTVATHNPSLLTPEVHASLDKFLCAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P14261|HBE_CAIMO  Hemoglobin subunit epsilon OS=Cairina moschata GN=HBE PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  153.0   0.0     4e-46     2e-43       2     149 .]       3     147 .]       2     147 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 153.0 bits;  conditional E-value: 4e-46
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + s++ek+ ++ +W+kv  +vee Ga++L rl+ ++P+tq+fF +F++Ls + ++ ++++v  Hg+k  + +++ +++ld ++++++++L
+  sp|P14261|HBE_CAIMO   3 HWSAEEKQLITGLWGKV--NVEECGAEALARLLIVYPWTQRFFSSFGNLSSPTAIIGNPKVPPHGRKFFTSFGEPVKNLD-NIKNTYAKL 89 
+                          779**************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selH++kl+v+p++f+ll+++l+ vla++++++ft++ q   +Kl+++va++l  kY+
+  sp|P14261|HBE_CAIMO  90 SELHCEKLQVEPENFRLLGDILIIVLASHFARDFTPACQFPWQKLVSVVAHALPRKYH 147
+                          *********************************************************7 PP
+
+>> sp|Q10733|HBB_CARCR  Hemoglobin subunit beta OS=Caretta caretta GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  152.2   0.6     7e-46   3.4e-43       3     149 .]       3     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 152.2 bits;  conditional E-value: 7e-46
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e+  ++++W k+  +v+e G++ L r++ ++P+tq+fF  F++L+ + +++ + ++++Hgkkvl+ ++ a++++d +++ +++dLs
+  sp|Q10733|HBB_CARCR   3 WTAEERHYITSMWDKI--NVAEIGGESLARMLIVYPWTQKFFSDFGNLTSSSAIMHNVKIQEHGKKVLNSFGSAVKNMD-HIKETFADLS 89 
+                          6899************..*************************************************************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lH++ l+vdp++fkll+ +l+ vla +++ke t+  qaa +Kl++ va++l+ +Y+
+  sp|Q10733|HBB_CARCR  90 KLHCETLHVDPENFKLLGSILIIVLAMHFGKEPTPTWQAAWQKLVSAVAHALTLQYH 146
+                          ******************************************************997 PP
+
+>> sp|P01982|HBA_RHEAM  Hemoglobin subunit alpha-A OS=Rhea americana GN=HBAA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  152.2   0.2   7.1e-46   3.5e-43       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 152.2 bits;  conditional E-value: 7.1e-46
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +kt+vk+v+ak++ +++ +Ga+ L+r+f+++P+t+++F++F dL+     ++sa++k+Hgkkv+ Al da +++d ++ ++l++L
+  sp|P01982|HBA_RHEAM   1 VLSGPDKTNVKNVFAKIGGHADAYGAETLERMFTTYPQTKTYFPHF-DLH-----HGSAQIKTHGKKVVSALIDAANNID-DIYGALSKL 83 
+                          69999*****************************************.999.....************************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v  +l++kY+
+  sp|P01982|HBA_RHEAM  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSLLTPEVHASLDKFLCAVGAVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P08422|HBA3_XENTR  Hemoglobin subunit alpha-3 OS=Xenopus tropicalis GN=hba-l8 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  151.8   1.4   9.5e-46   4.6e-43       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 151.8 bits;  conditional E-value: 9.5e-46
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +L++ ek +v a+W+k+  ++   Ga++L+rlf+s+P+t+++F +F d+s     ++sad+++Hg kv++Al++a ++l+ +l+a+l++
+  sp|P08422|HBA3_XENTR   2 TLTDSEKAAVVALWSKIAPQASAIGAEALERLFLSYPQTKTYFSHF-DVS-----HGSADLQNHGGKVVNALGEAAKHLN-DLDAALST 83 
+                           699*******************************************.888.....************************8.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +fklls+ + ++la ++ kef a+ qaa +K+l+ va++l+skY+
+  sp|P08422|HBA3_XENTR  84 LSDLHAYNLRVDPGNFKLLSHTIQVTLAVHFQKEFDAATQAAWDKFLSEVATVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P11896|HBA3_PLEWA  Hemoglobin larval subunit alpha OS=Pleurodeles waltl PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  151.3   0.0   1.3e-45   6.6e-43       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 151.3 bits;  conditional E-value: 1.3e-45
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs++ek  v  + +k+  + +  G+++L rlf s+ +t+++F +F dLs      +sadvk Hg kvl A+++a +++d  ++++l++
+  sp|P11896|HBA3_PLEWA   2 VLSAEEKALVVGLCGKISGHCDALGGEALDRLFASFGQTRTYFSHF-DLS-----PGSADVKRHGGKVLSAIGEAAKHID-SMDQALSK 83 
+                           8*********************************************.9**.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +f+lls+++  vlaa++p++ft++ qaa +K+la v+ +l+skY+
+  sp|P11896|HBA3_PLEWA  84 LSDLHAYNLRVDPGNFQLLSHCIQAVLAAHFPADFTPQCQAAWDKFLAAVSAVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P06637|HBA4_XENLA  Hemoglobin subunit alpha-4 OS=Xenopus laevis GN=hba4 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  151.0   0.8   1.7e-45     8e-43       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 151.0 bits;  conditional E-value: 1.7e-45
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +L++ +k ++ a+W+k+  ++   Ga++L+rlf+s+P+t+++F +F d+s     ++sad+ +Hg kv++Al++a +++d +l+++l++
+  sp|P06637|HBA4_XENLA   2 TLTDSDKAAIVALWGKIAPQASAIGAEALERLFLSYPQTKTYFSHF-DVS-----HGSADLSNHGGKVVNALGEAAKHID-DLDSALST 83 
+                           6999******************************************.888.....************************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l++dp +fklls+ + ++la ++ kef a+ qaa +K+la va++l+skY+
+  sp|P06637|HBA4_XENLA  84 LSDLHAYNLRIDPGNFKLLSHTIQVTLAIHFHKEFDAATQAAWDKFLAEVATVLTSKYR 142
+                           **********************************************************7 PP
+
+>> sp|P84203|HBAC_GYMUN  Hemoglobin cathodic subunit alpha OS=Gymnothorax unicolor PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  150.0   0.0   3.4e-45   1.7e-42       3     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 150.0 bits;  conditional E-value: 3.4e-45
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvl.dAlsdalakldekleaklkd 90 
+                           L++++kt vk+ W kv+ +++e G+++L r++ ++P t+ +F ++ dL       +s+ vkkHgkk++ +A+sd + k+d +l + l++
+  sp|P84203|HBAC_GYMUN   2 LAPGDKTVVKKFWEKVGGQADEIGGEALSRMIAVYPPTRIYFSHWPDLA-----PGSPSVKKHGKKIImKAVSDSVGKMD-NLVGGLSA 84 
+                           899******************************************9999.....9***********8648**********.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa++l++dp +fk+ls+ ++++laa++p++fta+v+ a++K+l+ v+ +l+ kY+
+  sp|P84203|HBAC_GYMUN  85 LSDLHATRLHIDPSNFKILSHNILVTLAAHFPSDFTAEVHVAMDKFLSAVCAALSDKYR 143
+                           **********************************************************7 PP
+
+>> sp|P14523|HBAD_TURME  Hemoglobin subunit alpha-D OS=Turdus merula GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  149.8   0.1     4e-45   1.9e-42       2     149 .]       1     141 []       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 149.8 bits;  conditional E-value: 4e-45
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL+ ++k++v+++W+      e+ Ga++L r+f+s+P t+++F++F d++     ++s++++ Hgkk + Al++a++++d +l+++l++
+  sp|P14523|HBAD_TURME   1 VLTGEDKKHVQHIWGLLSGAEEDLGAEVLYRMFQSYPPTKTYFPHF-DVT-----QGSEQIRGHGKKFMAALGNAVKNVD-NLSQALSE 82 
+                           6999******************************************.777.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +fk+ls++l + laarl+ke++++v++a++K++a va +la+kY+
+  sp|P14523|HBAD_TURME  83 LSNLHAYNLRVDPVNFKFLSQCLQVALAARLGKEYSPEVHSAVDKFMAAVAAVLAEKYR 141
+                           **********************************************************7 PP
+
+>> sp|P02011|HBA3_LITCT  Hemoglobin subunit alpha-3 OS=Lithobates catesbeiana PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  149.5   0.0   4.8e-45   2.3e-42       3     149 .]       2     141 .]       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 149.5 bits;  conditional E-value: 4.8e-45
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+ ek +v+++ +k++++    G ++L+rlf+s+P+t+++F++F dL+      +sad+ +Hg k+++Al+ a ++ld +l ++l++L
+  sp|P02011|HBA3_LITCT   2 LSASEKAAVLSIVGKIGSQGSALGSEALTRLFLSFPQTKTYFPHF-DLT-----PGSADLNTHGGKIINALAGAANHLD-DLAGNLSSL 83 
+                           9********************************************.999.....9***********************9.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa +l+vdp +f ll++++ +vla+++p++fta+vqaa +K+lalv+ +l+skY+
+  sp|P02011|HBA3_LITCT  84 SDLHAYNLRVDPGNFPLLAHIIQVVLATHFPGDFTAEVQAAWDKFLALVSAVLTSKYR 141
+                           *********************************************************7 PP
+
+>> sp|Q9PVU6|HBAE_ORYLA  Hemoglobin embryonic subunit alpha OS=Oryzias latipes PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  149.1   0.4   6.4e-45   3.1e-42       2     149 .]       3     144 .]       2     144 .] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 149.1 bits;  conditional E-value: 6.4e-45
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls+++k  vka Wak+ +++ + Gad+L r+++++P+t+++F ++kdLs      +sa vkkHg++v++ +++a+ k+d +l a l +
+  sp|Q9PVU6|HBAE_ORYLA   3 SLSAKDKDVVKAFWAKISSKATDIGADALGRMLVVYPQTKTYFAHWKDLS-----PGSAPVKKHGQTVMGGVAEAVGKID-NLTAGLLN 85 
+                           59************************************************.....9************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fk+ls+ +++vla  +p++ft++v+ a++K+la +a +la+kY+
+  sp|Q9PVU6|HBAE_ORYLA  86 LSELHAFTLRVDPANFKILSHNILVVLAIMFPNDFTPEVHVAMDKFLAALALALAEKYR 144
+                           **********************************************************7 PP
+
+>> sp|P01996|HBA_ARAAR  Hemoglobin subunit alpha-A OS=Ara ararauna GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  148.9   0.2   7.6e-45   3.7e-42       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 148.9 bits;  conditional E-value: 7.6e-45
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +kt+vk +++k++ ++e++Ga++L+r+f ++P+t+++F++F d+s      +sa+vk+Hgkkv+ Al +a +++d ++ ++l++L
+  sp|P01996|HBA_ARAAR   2 VLSGSDKTNVKGIFSKIGGQAEDYGAEALERMFATFPQTKTYFPHF-DVS-----PGSAQVKAHGKKVAAALVEAANHID-DIATALSKL 84 
+                          79********************************************.888.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a + p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01996|HBA_ARAAR  85 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHNPSALTPEVHASLDKFLCAVGNVLTAKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02133|HBB2_XENLA  Hemoglobin subunit beta-2 OS=Xenopus laevis GN=hbb2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  148.9   0.2   7.7e-45   3.8e-42       2     148 ..       3     146 ..       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 148.9 bits;  conditional E-value: 7.7e-45
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek ++++vW kv  +ve  G d+L rl+ ++P+tq++F +F++Ls ++++ ++a+v++Hgkkvl A+++a+ ++d  ++++l++
+  sp|P02133|HBB2_XENLA   3 HWTAEEKAAITSVWQKV--NVEHDGHDALGRLLIVYPWTQRYFSNFGNLSNSAAVAGNAKVQAHGKKVLSAVGNAISHID-SVKSSLQQ 88 
+                           6799*************..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           Ls+ Ha++l vdp++fk ++ vlv vl a+l++ ft++vqaa eK++a++   l++ Y
+  sp|P02133|HBB2_XENLA  89 LSKIHATELFVDPENFKRFGGVLVIVLGAKLGTAFTPKVQAAWEKFIAVLVDGLSQGY 146
+                           *************************************************999988877 PP
+
+>> sp|P0C0U6|HBA_DRYCE  Hemoglobin subunit alpha-A OS=Drymarchon corais erebennus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  148.3   0.0   1.1e-44   5.5e-42       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 148.3 bits;  conditional E-value: 1.1e-44
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vL+e++k++v+a+W++v  ++e +Ga+ L+rlf+++Pat+++F +F dLs      +s ++k+Hgkkv+dA+++a+++ld ++ ++l++L
+  sp|P0C0U6|HBA_DRYCE   1 VLTEEDKSRVRAAWGPVSKNAELYGAETLTRLFTAYPATKTYFHHF-DLS-----PGSSNLKTHGKKVIDAITEAVNNLD-DVAGALSKL 83 
+                          69********************************************.9**.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++l +++aa+ ++ + ++v  +l+K+l lvak+l s+Y+
+  sp|P0C0U6|HBA_DRYCE  84 SDLHAQKLRVDPVNFKLLGHCLEVTIAAHNGGPLKPEVILSLDKFLCLVAKTLVSRYR 141
+                          *********************************************************6 PP
+
+>> sp|P01984|HBA_PHORU  Hemoglobin subunit alpha-A OS=Phoenicopterus ruber ruber GN=HBAA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  148.2   0.7   1.2e-44   6.1e-42       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 148.2 bits;  conditional E-value: 1.2e-44
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +k++vk +++kv+ + ee+ a+ L r+f ++P+t+++F++F dL+      +sa+vk+Hgkkv++Al++a +++d ++ ++l++L
+  sp|P01984|HBA_PHORU   1 VLSSHDKSNVKGLFGKVGGHLEEYCAETLARMFAAYPQTKTYFPHF-DLQ-----PGSAQVKAHGKKVAGALAEAANHID-DIASALSKL 83 
+                          69********************************************.999.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lH +kl+vdp +fkll+++ ++v+a ++p+ +t++v+a+l+K+l  v ++l++kY+
+  sp|P01984|HBA_PHORU  84 SDLHQHKLRVDPVNFKLLAHCFLVVMAIHHPSLLTPEVHASLDKFLCAVGTVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P82316|HBBC_HOPLI  Hemoglobin cathodic subunit beta OS=Hoplosternum littorale GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  148.0   0.0   1.4e-44     7e-42       1     148 [.       1     145 [.       1     146 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 148.0 bits;  conditional E-value: 1.4e-44
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+ s+ae+ ++ a+W+k+  +++e G + L r++ ++P+tq++F kF+d+s  +++ ++++v +Hgk vl+Al++++++ld +++a+++
+  sp|P82316|HBBC_HOPLI   1 VHFSDAERDAIAAIWGKI--HIDEIGPQSLARVLIVYPWTQRYFSKFGDMSSVAAISGNPKVAAHGKVVLGALEKGVKNLD-NVKATYS 86 
+                           5889**************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           +Ls+lH++kl+vdp +f+ l++++  v+a+++++ ft++ q a +K+l++va +l+s+Y
+  sp|P82316|HBBC_HOPLI  87 NLSQLHCEKLNVDPDNFRALGDCITIVVASKFGNAFTPELQNAWHKFLSVVAAALSSRY 145
+                           *********************************************************99 PP
+
+>> sp|P83270|HBA1_ANAMI  Hemoglobin subunit alpha-1 OS=Anarhichas minor GN=hba1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  147.8   0.4   1.7e-44   8.2e-42       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 147.8 bits;  conditional E-value: 1.7e-44
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++++k +v+a Wak   +++e G d+L r+++++P+t+++F ++kdLs      +s+ vkkHgk v++ ++da+ k++ +l+a l +
+  sp|P83270|HBA1_ANAMI   2 SLTAKDKDTVRAFWAKASGKAAEIGSDALSRMLVVYPQTKTYFSHWKDLS-----PGSEPVKKHGKSVMGGVADAVMKIE-DLNAGLLN 84 
+                           599***********************************************.....9**********************98.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fk+ls+ +++v+a  +pk+ft++v+ a++K+la ++++la+kY+
+  sp|P83270|HBA1_ANAMI  85 LSELHAFTLRVDPANFKILSHNILVVMAIMFPKDFTPEVHVAMDKFLAALSRALAEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P19831|HBA_PSIKR  Hemoglobin subunit alpha OS=Psittacula krameri GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  147.3   0.1   2.3e-44   1.1e-41       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 147.3 bits;  conditional E-value: 2.3e-44
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs  +kt+vk++++k++ +++++Ga++L+r+f+++P+t+++F++F d+s      +sa+vk+Hgkkv++ ls+a +++d ++ ++l++L
+  sp|P19831|HBA_PSIKR   1 VLSGTDKTNVKSIFSKIGGQADDYGAEALERMFVTYPQTKTYFPHF-DVS-----PGSAQVKAHGKKVAGGLSEAANHID-DIATSLSKL 83 
+                          6999******************************************.888.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fkll+++ ++v+a + p+ +t++++a+l+K+l  v  +l++kY+
+  sp|P19831|HBA_PSIKR  84 SDLHAQKLRVDPVNFKLLGQCFLVVVAIHNPSALTPEAHASLDKFLCAVGLVLTAKYR 141
+                          *********************************************************7 PP
+
+>> sp|P02018|HBA_CARAU  Hemoglobin subunit alpha OS=Carassius auratus GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  147.4   0.0   2.3e-44   1.1e-41       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 147.4 bits;  conditional E-value: 2.3e-44
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+++k  vka+Wak+++ ++e Ga++L r+++++P+t+++F ++ dLs      +s  vkkHgk++++A++da+ k+d +l ++l++Ls
+  sp|P02018|HBA_CARAU   2 LSDKDKAVVKALWAKIGSRADEIGAEALGRMLTVYPQTKTYFSHWSDLS-----PGSGPVKKHGKTIMGAVGDAVSKID-DLVGALSALS 85 
+                          99***********************************************.....9***********************9.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elHa kl++dp +fk+l++ +++v+   +p++ft++v+ +++K+++ +a +l++kY+
+  sp|P02018|HBA_CARAU  86 ELHAFKLRIDPANFKILAHNVIVVIGMLFPGDFTPEVHMSVDKFFQNLALALSEKYR 142
+                          ********************************************************7 PP
+
+>> sp|P80727|HBBC_ANGAN  Hemoglobin cathodic subunit beta OS=Anguilla anguilla GN=hbb2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  147.1   0.0   2.7e-44   1.3e-41       3     148 ..       3     145 ..       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 147.1 bits;  conditional E-value: 2.7e-44
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            s+ e+++++++W+k+  +v+e G ++L r++ ++P+tq++F kF+dLs +++++++a+v +Hgk vl+Al++a++++d ++++++++L
+  sp|P80727|HBBC_ANGAN   3 WSASERSTITSLWGKI--NVAEIGPQALARVLIVYPWTQRYFGKFGDLSNAAAIQGNAKVAAHGKVVLGALEKAVKNMD-DVKGTYSKL 88 
+                           5899************..*************************************************************.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           s+lH +kl+vdp +f+ll+++l  vla++l++ f a++qa  +K++a+v  +l+++Y
+  sp|P80727|HBBC_ANGAN  89 SQLHNEKLNVDPDNFRLLGDCLTIVLATKLGAGFPAEIQAVWQKFVAVVVSALSKQY 145
+                           *****************************************************9999 PP
+
+>> sp|P11748|HBA_THUTH  Hemoglobin subunit alpha OS=Thunnus thynnus GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  147.0   0.1     3e-44   1.4e-41       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 147.0 bits;  conditional E-value: 3e-44
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Ls+++k++vka+W+k+   ++  Gad+L r++ ++P+t+++F ++ d+s      +s  vk+Hgkkv++ ++ a+ k+d +l + l dL
+  sp|P11748|HBA_THUTH   2 TLSDKDKSTVKALWGKISKSADAIGADALGRMLAVYPQTKTYFSHWPDMS-----PGSGPVKAHGKKVMGGVALAVTKID-DLTTGLGDL 85 
+                          69********************************************9999.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selHa k++vdp +fk+ls+++++v+a+ +pkeft+d++ +l+K+la+va +la++Y+
+  sp|P11748|HBA_THUTH  86 SELHAFKMRVDPSNFKILSHCILVVVAKMFPKEFTPDAHVSLDKFLASVALALAERYR 143
+                          *********************************************************6 PP
+
+>> sp|Q9PRL9|HBA1_NAJNA  Hemoglobin subunit alpha-1 OS=Naja naja PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  146.4   0.0   4.4e-44   2.1e-41       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 146.4 bits;  conditional E-value: 4.4e-44
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL++++k +v+a W +v+ ++e +G + L+r+f ++P+t+++F++F dLs      +s+++++Hgkkv+dA+++a+++ld ++ ++l++
+  sp|Q9PRL9|HBA1_NAJNA   1 VLTDEDKARVRASWVPVGKNAELYGSETLTRMFAAHPTTKTYFPHF-DLS-----PGSNNLRAHGKKVIDAITEAVNNLD-DVAGTLSK 82 
+                           699*******************************************.9**.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa+kl+vdp +fkll+++l++++aa+ ++ + ++v  +l+K+l  ++k+l skY+
+  sp|Q9PRL9|HBA1_NAJNA  83 LSDLHAQKLRVDPVNFKLLAHCLLVTIAAHNGGVLKPEVIVSLDKFLGDLSKDLVSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P02142|HBB1_ONCMY  Hemoglobin subunit beta-1 OS=Oncorhynchus mykiss GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  146.1   0.0   5.7e-44   2.8e-41       4     148 ..       4     145 ..       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 146.1 bits;  conditional E-value: 5.7e-44
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++aek+++ avW+kv  +++e G  +L r++ ++P+tq++F +F+++st+++++++++v +Hgk v +Al +a++++  ++ a++k+Ls
+  sp|P02142|HBB1_ONCMY   4 TDAEKSTISAVWGKV--NIDEIGPLALARVLIVYPWTQRYFGSFGNVSTPAAIMGNPKVAAHGKVVCGALDKAVKNMG-NILATYKSLS 89 
+                           789************..***********************************************************97.9********* PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           e Ha+kl vdp +f++l++vl  v+aa++++ ft+++qa+ +K++++v  ++ s+Y
+  sp|P02142|HBB1_ONCMY  90 ETHANKLFVDPDNFRVLADVLTIVIAAKFGASFTPEIQATWQKFMKVVVAAMGSRY 145
+                           ****************************************************9999 PP
+
+>> sp|Q90487|HBA_DANRE  Hemoglobin subunit alpha OS=Danio rerio GN=hbaa1 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  145.4   0.1   9.2e-44   4.5e-41       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 145.4 bits;  conditional E-value: 9.2e-44
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+ +k  vka+Wak+  +++e Ga++L r+++++P+t+++F ++ dLs      +s  vkkHgk++++A+++a+ k+d +l + l++L
+  sp|Q90487|HBA_DANRE   2 SLSDTDKAVVKAIWAKISPKADEIGAEALARMLTVYPQTKTYFSHWADLS-----PGSGPVKKHGKTIMGAVGEAISKID-DLVGGLAAL 85 
+                          59************************************************.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selHa kl+vdp +fk+ls+ +++v+a  +p++ft++v+ +++K+++ +a +l++kY+
+  sp|Q90487|HBA_DANRE  86 SELHAFKLRVDPANFKILSHNVIVVIAMLFPADFTPEVHVSVDKFFNNLALALSEKYR 143
+                          *********************************************************7 PP
+
+>> sp|P10062|HBAD_SPHPU  Hemoglobin subunit alpha-D OS=Sphenodon punctatus GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  145.3   0.1   9.9e-44   4.8e-41       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 145.3 bits;  conditional E-value: 9.9e-44
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL+ ++ + +++ W kv  + e+ Ga++L+r+f ++P+t+++F++F dL+     ++s+++++Hg+kv++Al++a++++d +++++  +
+  sp|P10062|HBAD_SPHPU   1 VLTHEDCELLQQTWEKVLGHQEDFGAEALERMFITYPQTKTYFPHF-DLH-----HGSEQIRNHGRKVVNALGEAVKNMD-HMSTASGE 82 
+                           69999*****************************************.999.....*************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +fkllse+  +vla +l  ++t+dv+ a++K+l+ v  +la+kY+
+  sp|P10062|HBAD_SPHPU  83 LSNLHAYNLRVDPVNFKLLSECFEVVLAVHLKDQYTPDVHRAYDKFLSAVGDMLAEKYR 141
+                           **********************************************************7 PP
+
+>> sp|P18974|HBA1_IGUIG  Hemoglobin subunit alpha-1 OS=Iguana iguana PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  144.2   0.5   2.2e-43   1.1e-40       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 144.2 bits;  conditional E-value: 2.2e-43
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL+e++k++++a+W+ v+ + e  G+++L+rlf+++Pat+++F +F dL+      +sa++k+Hgkkv+dAl++a+++ld +++ +l++
+  sp|P18974|HBA1_IGUIG   1 VLTEDDKNHIRAIWGHVDNNPEAFGVEALTRLFLAYPATKTYFAHF-DLN-----PGSAQIKAHGKKVVDALTQAVNNLD-DIPDALAK 82 
+                           69********************************************.999.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           L++lHa+kl+vdp +f ll++++++++aa+  + + adv  +++K+l  vak+l + Y+
+  sp|P18974|HBA1_IGUIG  83 LADLHAEKLRVDPVNFGLLGHCILVTIAAHNHGPLKADVALSMDKFLTKVAKTLVAHYR 141
+                           ********************************************************996 PP
+
+>> sp|P83271|HBA2_ANAMI  Hemoglobin subunit alpha-2 OS=Anarhichas minor GN=hba2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.9   0.3   2.6e-43   1.2e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 143.9 bits;  conditional E-value: 2.6e-43
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L+e++k +v a+W+k++  ++  Gad+L r+++++P+t+++F ++ dLs      +sa vk+Hgk+v+  ++ a+ k+d ++ + l +
+  sp|P83271|HBA2_ANAMI   2 SLTEKDKAAVIAMWGKIHKSADAIGADALGRMLVVYPQTKTYFSHWSDLS-----PNSAPVKTHGKNVMSGVALAVSKID-DMTKGLMA 84 
+                           599***********************************************.....89**********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Lse+Ha +l+vdp +fk+ls+++++v+a+ +pk+ft++++ +++K++  ++ +la+kY+
+  sp|P83271|HBA2_ANAMI  85 LSEQHAFQLRVDPANFKILSHCILVVIASMFPKDFTPEAHVSMDKFFCGLSLALAEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P29624|HBA1_NOTAN  Hemoglobin subunit alpha-1 OS=Notothenia angustata GN=hba1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.8   0.1   2.8e-43   1.4e-40       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 143.8 bits;  conditional E-value: 2.8e-43
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k +v+a+W+k++  ++  G+d+L r+++++P+t+++F ++ d++      +sa++k+Hgkkv++ ++ a+ k+d +l+a l+dL
+  sp|P29624|HBA1_NOTAN   2 LSDKDKAAVRALWSKIGKSADAIGNDALSRMIVVYPQTKTYFSHWPDVT-----PGSAHIKAHGKKVMGGIALAVSKID-DLKAGLSDL 84 
+                           99*******************************************8888.....9***********************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           se+Ha kl+vdp +fk+l +++++v+ + +pk+ft++++ +l+K+l+ va +la++Y+
+  sp|P29624|HBA1_NOTAN  85 SEQHAYKLRVDPANFKILNHCILVVISTMFPKDFTPEAHVSLDKFLSGVALALAERYR 142
+                           *********************************************************6 PP
+
+>> sp|P83478|HBBC_CONCO  Hemoglobin cathodic subunit beta OS=Conger conger PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.6   0.0   3.1e-43   1.5e-40       3     148 ..       3     145 ..       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 143.6 bits;  conditional E-value: 3.1e-43
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            s  e++++ ++W+k+  +v+e G ++L r++ ++P+tq++F kF+dLs  +++ ++a+  kHg++vl+Al++a++++d ++++++++L
+  sp|P83478|HBBC_CONCO   3 WSSSERSTISTLWGKI--NVAEIGPQALARVLIVYPWTQRYFGKFGDLSSVAAIVGNANGAKHGRTVLQALGQAVNNMD-NIKGTYAKL 88 
+                           5889************..*************************************************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           s++H+++l+vdp +f+ll+++l +vla+++++ef ++vqa  +K++a+v  +l+ +Y
+  sp|P83478|HBBC_CONCO  89 SQKHSEELNVDPDNFRLLGDCLTVVLATKFGAEFPPEVQAVWQKFVAVVVSALSRQY 145
+                           *****************************************************9998 PP
+
+>> sp|Q7LZC2|HBB1_MURHE  Hemoglobin subunit beta-1 OS=Muraena helena GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.2   0.0   4.2e-43   2.1e-40       4     148 ..       4     145 ..       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 143.2 bits;  conditional E-value: 4.2e-43
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s +e+++++++W+k+  + +e G+ +L r++ ++P+tq++F +F+dLs  +++ ++++v +Hgk vld +++a+++ld  ++a++ +Ls
+  sp|Q7LZC2|HBB1_MURHE   4 SSNERSTITSLWGKI--NNAEIGQVALARVLIVYPWTQRYFGQFGDLSSIAAISGNPKVAAHGKVVLDGVEKAVKNLD-SIKATYTKLS 89 
+                           889************..99***********************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           +lH++ l+vdp +fkll+++l  vl a++++eft++vqa  +K+l+ v  +l+ +Y
+  sp|Q7LZC2|HBB1_MURHE  90 QLHSDTLNVDPDNFKLLGDCLTIVLSAKFGAEFTPAVQAVWQKFLSCVISALSRQY 145
+                           ****************************************************9998 PP
+
+>> sp|P23740|HBA_LATCH  Hemoglobin subunit alpha OS=Latimeria chalumnae GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.2   1.8   4.3e-43   2.1e-40       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 143.2 bits;  conditional E-value: 4.3e-43
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L++a+kt +k++W+kve + e  G+++Lvrlfk +P+++ +F++F dLs      +s+++++H+k vl+Al++a+++ld ++  +l+d+s
+  sp|P23740|HBA_LATCH   2 LTAADKTLIKSIWGKVEKETEAIGVEALVRLFKCFPQSKVYFDHFTDLS-----PSSQKLHAHAKVVLGALTKAVNHLD-NITDTLHDIS 85 
+                          89***********************************************.....89***********************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            Hakkl vdp +f+ll+++l + laa+++++ft++v+ a++K+l  v k+l + Y+
+  sp|P23740|HBA_LATCH  86 LVHAKKLLVDPVNFELLGHCLEVALAAHFATDFTPEVHLAIDKFLYEVEKALFETYR 142
+                          ****************************************************99996 PP
+
+>> sp|P86882|HBA_LYCRE  Hemoglobin subunit alpha OS=Lycodes reticulatus GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.2   0.2   4.4e-43   2.1e-40       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 143.2 bits;  conditional E-value: 4.4e-43
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+++k +vka+W k+   ++  Gad++ r+++++P+t+++F ++ dLs      +sa vk+Hgk+v++ ++ a+ ++d ++ + lk+Ls
+  sp|P86882|HBA_LYCRE   2 LSDKDKAAVKAIWNKISKSADVIGADAMGRMLVVYPQTKTYFSHWSDLS-----PNSAPVKNHGKTVMTGVALAVSNID-DMTTGLKALS 85 
+                          99***********************************************.....89**********************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha +l+vdp +fk+ls+++++v+a  +pk+ft++++ +++K++  ++ +la+kY+
+  sp|P86882|HBA_LYCRE  86 EKHAFQLRVDPSNFKILSHCILVVIAMMYPKDFTPEAHVSMDKFFCGLSLALAEKYR 142
+                          ********************************************************7 PP
+
+>> sp|P0C238|HBA_POGSC  Hemoglobin subunit alpha OS=Pogonophryne scotti GN=hba PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  143.2   0.6   4.4e-43   2.2e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 143.2 bits;  conditional E-value: 4.4e-43
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k++vka+W+k++  ++  G+d++ r+++++P+t+++F ++ dL+      +s ++k+Hgkkv++ ++ a+ k+d +l+a l++L
+  sp|P0C238|HBA_POGSC   2 SLSDKDKSAVKALWSKINKSADVIGNDAVSRMIVVYPQTKTYFAHWPDLT-----PGSTHIKAHGKKVMGGIALAVSKID-DLKAGLSNL 85 
+                          59***********************************************9.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          se+Ha kl+vdp +fk+l +++++v+ + +pk+ft++++ +l+K+l+ va +la+kY+
+  sp|P0C238|HBA_POGSC  86 SEQHAFKLRVDPANFKILNHCIMVVISSMFPKDFTPEAHVSLDKFLSAVALALAEKYR 143
+                          *********************************************************7 PP
+
+>> sp|P41331|HBA_MICGA  Hemoglobin subunit alpha OS=Microcephalophis gracilis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.9   0.0   5.5e-43   2.7e-40       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.9 bits;  conditional E-value: 5.5e-43
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vL+e++k +v+ +W +v  ++e +Ga+ L+rlf ++P+t+++F++F dLs      +s+d+k Hgkkv+dAl++a+++ld ++ ++l++L
+  sp|P41331|HBA_MICGA   1 VLTEEDKARVRVAWVPVSKNAELYGAETLTRLFAAHPTTKTYFPHF-DLS-----PGSNDLKVHGKKVIDALTEAVNNLD-DVAGALSKL 83 
+                          69********************************************.9**.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +f++l+ +l +++aa+ ++ + ++v  +++K+l  ++k+las+Y+
+  sp|P41331|HBA_MICGA  84 SDLHAQKLRVDPDNFQFLGLCLEVTIAAHSGGPLKPEVLLSVDKFLGQISKVLASRYR 141
+                          *********************************************************7 PP
+
+>> sp|P83479|HBAC_CONCO  Hemoglobin cathodic subunit alpha OS=Conger conger PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.7   0.2     6e-43   2.9e-40       2     149 .]       2     143 .]       1     143 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 142.7 bits;  conditional E-value: 6e-43
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++++kt vk+ W+kv+ +++ +Ga++L r+++++P+t+++F ++      d+  +s+ vk+  k++++A++da+ k+d +l + l++
+  sp|P83479|HBAC_CONCO   2 SLTAKDKTLVKTFWGKVKGKADAMGAEALGRMLVVYPQTKTYFAHWS-----DQSPGSEPVKHGKKTIMGAVGDAVGKID-NLLGGLSA 84 
+                           599*******************************************4.....6669******99999*************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Lse Ha+kl +dp +fklls++l+++ a ++p++fta+v+ a++K+la v+ +la kY+
+  sp|P83479|HBAC_CONCO  85 LSEVHATKLAIDPGNFKLLSHCLLVTFAVNYPTDFTAEVHVAVDKFLAAVSAALADKYR 143
+                           **********************************************************7 PP
+
+>> sp|P11251|HBA_SALSA  Hemoglobin subunit alpha OS=Salmo salar GN=hba PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.6   0.0   6.7e-43   3.3e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.6 bits;  conditional E-value: 6.7e-43
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ +k+ v+a W+k++ +++ +Ga++L r+++++P+t+++F ++ dLs      +sa vkkHg  +++A+++a+  +d +l + ++ L
+  sp|P11251|HBA_SALSA   2 SLTARDKSVVNAFWGKIKGKADVVGAEALGRMLTAYPQTKTYFSHWADLS-----PGSAPVKKHGGVIMGAIGNAVGLMD-DLVGGMSGL 85 
+                          599***********************************************.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa kl+vdp +fk+ls+ ++++la ++p++ft++v+ a++K+la ++ +la kY+
+  sp|P11251|HBA_SALSA  86 SDLHAFKLRVDPGNFKILSHNILVTLAIHFPADFTPEVHIAVDKFLAALSAALADKYR 143
+                          *********************************************************7 PP
+
+>> sp|P0C237|HBA_ARTOR  Hemoglobin subunit alpha OS=Artedidraco orianae GN=hba PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.5   0.5   7.1e-43   3.5e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.5 bits;  conditional E-value: 7.1e-43
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k +vka+W+k+   ++  G+d++ r+++++P+t+++F ++ dL+      +s ++k+Hgkkv++ ++ a+ k+d +l+a l+dL
+  sp|P0C237|HBA_ARTOR   2 SLSDKDKAAVKALWSKIAKSADVIGNDAVSRMIVVYPQTKTYFAHWPDLT-----PGSTNIKAHGKKVMGGIALAVSKID-DLKAGLSDL 85 
+                          59***********************************************9.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          se+Ha kl+vdp +fk+l +++++v+ + +pk+ft++++ +l+K+l+ va +la+kY+
+  sp|P0C237|HBA_ARTOR  86 SEQHAFKLRVDPANFKILNHCIMVVISSMFPKDFTPEAHISLDKFLSAVALALAEKYR 143
+                          *********************************************************7 PP
+
+>> sp|P83613|HBA2_GOBGI  Hemoglobin subunit alpha-2 OS=Gobionotothen gibberifrons GN=hba2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.4   0.1   7.7e-43   3.8e-40       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.4 bits;  conditional E-value: 7.7e-43
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++k++vka W+kv  + ++ G+d+L r+++++P+t+++F ++k+L+      +sa v+kHg +v++ ++da+ k++ +l a l +L
+  sp|P83613|HBA2_GOBGI   2 LSTKDKETVKAFWSKVSGKSADIGNDALSRMLVVYPQTKTYFSHWKELT-----PGSAPVRKHGMTVMKGVGDAVSKIE-DLTAGLMEL 84 
+                           99***********************************************.....9**********************98.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa  l+vdp +fk+ls+ +++v a  +p++ft+dv+ +++K+la + ++l++kY+
+  sp|P83613|HBA2_GOBGI  85 SELHAFTLRVDPANFKILSHNILVVFAIMFPNDFTPDVHVSMDKFLAALGRALSEKYR 142
+                           *********************************************************7 PP
+
+>> sp|P84653|HBA1_COTGO  Hemoglobin subunit alpha-1 OS=Cottoperca gobio GN=hba1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.0   0.1   9.8e-43   4.8e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.0 bits;  conditional E-value: 9.8e-43
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L+e++k +v+a+W+k+   ++  Gad+L r++ ++P+t+++F ++ dLs      +s +vkkHgk+v++ ++ a+ k+d +l + l +
+  sp|P84653|HBA1_COTGO   2 SLTEKDKAAVRALWGKISKSADAIGADALSRMLFVYPQTKTYFTHWPDLS-----PGSVHVKKHGKNVMGGIALAVSKID-DLTNGLME 84 
+                           599***********************************************.....99**********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Lse+Ha +l+vdp +fk+ls+++++v+   +pk+ft++++ +l+K+l+ v+ +la++Y+
+  sp|P84653|HBA1_COTGO  85 LSEQHAYQLRVDPANFKILSHCILVVVSIMYPKDFTPEAHVSLDKFLSGVSLALAERYR 143
+                           **********************************************************6 PP
+
+>> sp|Q9PVM2|HBBA_SERQU  Hemoglobin subunit beta-A OS=Seriola quinqueradiata GN=hbb1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.0   0.0   9.8e-43   4.8e-40       4     149 .]       5     148 .]       2     148 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 142.0 bits;  conditional E-value: 9.8e-43
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ae+ ++ ++W+k+  dv+e G ++L+rl+ ++P+tq++F  F+++st++++ ++++v +Hgk+v++ l++a+++ld ++++++++Ls
+  sp|Q9PVM2|HBBA_SERQU   5 TDAERAAISSLWGKI--DVGEIGPQALTRLLIVYPWTQRHFTTFGNVSTNAAILGNPKVAQHGKTVMGGLENAVKNLD-DIKNTYAKLS 90 
+                           789************..************************************************************9.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpke.ftadvqaaleKllalvakllaskYk 149
+                           + H++kl+vdp +f+ l+e++ + +aa+++k+ ftadvq a +K+l++v  +l  +Y+
+  sp|Q9PVM2|HBBA_SERQU  91 QMHSEKLHVDPDNFRTLAECISVCVAAKFGKQvFTADVQEAWQKFLSVVVSALGRQYH 148
+                           ******************************9779*******************99997 PP
+
+>> sp|P85083|HBA2_COTGO  Hemoglobin subunit alpha-2 OS=Cottoperca gobio GN=hba2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.0   0.0     1e-42   4.9e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.0 bits;  conditional E-value: 1e-42
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k +v+a W+kv +++++ G+d+L r+++++P+t+++F ++k+L       +s+ v+kHg +v++ +++a+ak+d +l a l +
+  sp|P85083|HBA2_COTGO   2 SLSTKDKDTVTAFWGKVSCKAGDIGTDALSRMLVVYPQTKTYFSHWKELG-----PGSPPVQKHGMTVMKGVGEAVAKID-DLTAGLLN 84 
+                           59************************************************.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fk+ls+ +++v a  +p++ft++v+ +++K+la +a++l++kY+
+  sp|P85083|HBA2_COTGO  85 LSELHAFTLRVDPANFKILSHNILVVFAIMFPHDFTPEVHVSMDKFLAALARALSEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P14520|HBA_ELEEL  Hemoglobin subunit alpha OS=Electrophorus electricus GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  142.0   0.1     1e-42     5e-40       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 142.0 bits;  conditional E-value: 1e-42
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L+++ k+ vka W+k+++ +++ Ga++  r+++++P+t+++F ++ dLs      +sa vkkHgk++++ +++a+ ++d +l + l++Ls
+  sp|P14520|HBA_ELEEL   2 LTAKSKSIVKAFWGKIGSRADDIGAEAFGRMLTVYPETKTYFASWSDLS-----PGSAAVKKHGKTIMGGIAEAVGHID-DLTGGLASLS 85 
+                          8999*********************************************.....9***********************9.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elHa kl+vdp +fk+l++ l++vla  +p++ft++v+ a++K+++ va +l++kY+
+  sp|P14520|HBA_ELEEL  86 ELHAFKLRVDPANFKILAHNLIVVLALFFPADFTPEVHMAVDKFFQNVASALSEKYR 142
+                          ********************************************************7 PP
+
+>> sp|P02010|HBA_VIPAS  Hemoglobin subunit alpha OS=Vipera aspis GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  141.9   0.0   1.1e-42   5.1e-40       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 141.9 bits;  conditional E-value: 1.1e-42
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLse++k++v++  +k     +e+G + L+r+f ++P+t+++F++F dLs      +s+++k+Hgkkv+dAl +a+  ld +  a+l++L
+  sp|P02010|HBA_VIPAS   1 VLSEDDKNRVRTSVGKNPELPGEYGSETLTRMFAAHPTTKTYFPHF-DLS-----SGSPNLKAHGKKVIDALDNAVEGLD-DAVATLSKL 83 
+                          69***************999**************************.9*9.....9***********************9.999****** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa+kl+vdp +fk+ls++l+ +la++   ef+++v a+++K+l  v+++l skY+
+  sp|P02010|HBA_VIPAS  84 SDLHAQKLRVDPANFKILSQCLLSTLANHRNPEFGPAVLASVDKFLCNVSEVLESKYR 141
+                          *********************************************************7 PP
+
+>> sp|P23741|HBB_LATCH  Hemoglobin subunit beta OS=Latimeria chalumnae GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  141.7   1.5   1.2e-42   5.9e-40       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 141.7 bits;  conditional E-value: 1.2e-42
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + +e e+ ++++v+ k   + +e+G ++L+rlf ++P+t ++F++F+dLs + ++ ++++v +Hg kv++ l++a+ +ld +++  +++L
+  sp|P23741|HBB_LATCH   2 HWTETERATIETVYQKL--HLDEVGREALTRLFIVYPWTTRYFKSFGDLSSSKAIASNPKVTEHGLKVMNKLTEAIHNLD-HIKDLFHKL 88 
+                          67899************..*************************************************************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          se+H ++l+vdp++fklls++l+ vla++l+k++t+dvqa+ eKll++v  +l+  Y+
+  sp|P23741|HBB_LATCH  89 SEKHFHELHVDPQNFKLLSKCLIIVLATKLGKQLTPDVQATWEKLLSVVVAALSREYH 146
+                          ******************************************************9997 PP
+
+>> sp|P45719|HBA2_TRENE  Hemoglobin subunit alpha-2 OS=Trematomus newnesi GN=hba2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  141.7   0.1   1.3e-42   6.2e-40       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 141.7 bits;  conditional E-value: 1.3e-42
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++k++vka W+kv  + e+ G+d+L r+++++P+t+ +F ++k+L+      +sa v+kHg +v++ ++da+ k++ +l a l +L
+  sp|P45719|HBA2_TRENE   2 LSTKDKETVKAFWSKVSGKTEDIGNDALSRMLVVYPQTKIYFSHWKELT-----PGSAPVRKHGMTVMKGVGDAVSKIE-DLTAGLTEL 84 
+                           99***********************************************.....9**********************98.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa  l+vdp +fk+ls+ +++v a  +p++ft++v+ +++K+la ++++l++kY+
+  sp|P45719|HBA2_TRENE  85 SELHAFTLRVDPGNFKILSHNILVVFAIMFPNDFTPQVHVSMDKFLAALSRALSEKYR 142
+                           *********************************************************7 PP
+
+>> sp|P06890|HBAT_PONPY  Hemoglobin subunit theta-1 OS=Pongo pygmaeus GN=HBQ1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  141.4   0.1   1.6e-42   7.7e-40       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 141.4 bits;  conditional E-value: 1.6e-42
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls++++  v+a+W k +++v+ + +++L+r f+++Pat+++F +  dLs      +s +v++Hg+kv+dAls a+ +ld +l+ +l++
+  sp|P06890|HBAT_PONPY   2 ALSAEDRALVRALWKKLGSNVGVYTTEALERTFLAFPATKTYFSHL-DLS-----PGSSQVRAHGQKVADALSLAVERLD-DLPHALSA 83 
+                           69********************************************.9*9.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp  f+ll+++l+++la ++p++f+++ qa+l+K+l+ v  +las Y+
+  sp|P06890|HBAT_PONPY  84 LSHLHACQLRVDPASFQLLGHCLLVTLARHYPGDFSPALQASLDKFLSHVISALASEYR 142
+                           **********************************************************6 PP
+
+>> sp|P85081|HBA1_LIPTU  Hemoglobin subunit alpha-1 OS=Liparis tunicatus GN=hba1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  141.1   0.0   1.9e-42   9.4e-40       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 141.1 bits;  conditional E-value: 1.9e-42
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k++vk +W+ + a ++  Gad+L rl++++P+t+ +F ++ dLs      +s+ vk+Hgk+++  ++ a+ k+d +l++ l++
+  sp|P85081|HBA1_LIPTU   2 SLSTKDKETVKDLWGHISASADAIGADALGRLLVVYPQTKIYFLHWPDLS-----PNSPSVKNHGKNIMSGIALAVTKID-DLKSGLNA 84 
+                           59************************************************.....89**********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Lse+Ha +l+vdp +fklls+++++vla r+p+eft++++ a++K++  v+ +la+kY+
+  sp|P85081|HBA1_LIPTU  85 LSEQHAFQLRVDPANFKLLSHCILVVLAIRFPHEFTPEAHVAMDKFFCGVSLALAEKYR 143
+                           **********************************************************7 PP
+
+>> sp|Q9PVM1|HBBB_SERQU  Hemoglobin subunit beta-B OS=Seriola quinqueradiata GN=hbb2 PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  141.0   0.0     2e-42   9.8e-40       4     149 .]       5     148 .]       2     148 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 141.0 bits;  conditional E-value: 2e-42
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ae+ +++++W+k+  dv+e G ++L+rl+ ++P+tq++F  F+++st++++ ++++v +Hgk+v++ l++a+++ld ++++++++Ls
+  sp|Q9PVM1|HBBB_SERQU   5 TDAERAAITSLWGKI--DVGEIGPQALTRLLIVYPWTQRHFTTFGNVSTNAAILGNPKVAQHGKTVMGGLENAVKNLD-DIKNTYAKLS 90 
+                           789************..************************************************************9.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpke.ftadvqaaleKllalvakllaskYk 149
+                             H++kl+vdp +f+ l+e++ + +aa+++k+ ftadvq a +K+l+ v  +l  +Y+
+  sp|Q9PVM1|HBBB_SERQU  91 RMHSEKLHVDPDNFRALAECISVCVAAKFGKQaFTADVQEAWQKFLSAVVSALGRQYH 148
+                           *****************************9855********************99997 PP
+
+>> sp|P80043|HBA_TREBE  Hemoglobin subunit alpha OS=Trematomus bernacchii GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  140.8   0.1   2.3e-42   1.1e-39       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 140.8 bits;  conditional E-value: 2.3e-42
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+++k +v+a+W+k++  ++  G+d+L r+++++P+t+++F ++ d++      +s+++k+Hgkkv++ ++ a+ k+d +l++ l +Ls
+  sp|P80043|HBA_TREBE   2 LSDKDKAAVRALWSKIGKSADAIGNDALSRMIVVYPQTKTYFSHWPDVT-----PGSPHIKAHGKKVMGGIALAVSKID-DLKTGLMELS 85 
+                          99*******************************************8888.....9***********************9.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha kl+vdp +fk+l +++++v+ + +pkeft++++ +l+K+l+ va +la++Y+
+  sp|P80043|HBA_TREBE  86 EQHAYKLRVDPANFKILNHCILVVISTMFPKEFTPEAHVSLDKFLSGVALALAERYR 142
+                          ********************************************************6 PP
+
+>> sp|P83114|HBB2_TELPE  Hemoglobin subunit beta-2 OS=Telmatobius peruvianus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  140.8   0.2   2.4e-42   1.2e-39       1     149 []       1     145 []       1     145 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 140.8 bits;  conditional E-value: 2.4e-42
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L+++e + ++a+W+kv  d++++G+++L rl+ ++P+tq++F  F++L  +d++  + +v +Hg+kvl  +++al++ld +l++ ++
+  sp|P83114|HBB2_TELPE   1 VHLTDQEIKYINAIWSKV--DYKQVGGEALARLLIVYPWTQRYFSTFGNLASADAISHNSKVIAHGEKVLRSIGEALKHLD-NLKG-YA 85 
+                           68****************..************************************************************9.7765.79 PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +Ls+ H++kl+vdp +f  ++ v+v vla+++ +eft++vqaa+eK++  va ++ + Y+
+  sp|P83114|HBB2_TELPE  86 KLSQYHSEKLHVDPANFVRFGGVVVIVLAHHFHEEFTPEVQAAFEKAFGGVADAVGKGYH 145
+                           9***************************************************99988886 PP
+
+>> sp|P51465|HBAB_LITCT  Hemoglobin subunit alpha-B OS=Lithobates catesbeiana PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  140.0   0.8     4e-42     2e-39       3     149 .]       3     142 .]       1     142 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 140.0 bits;  conditional E-value: 4e-42
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            s+ ++  ++++W k+  +ve  G+++++rlfks+P+t+++F +  +++     ++sa v++ g kvl+A++ a ++ld +l+ +l++L
+  sp|P51465|HBAB_LITCT   3 FSASDRHDITHLWEKMAPNVEFLGEEAMERLFKSHPKTKTYFSHL-NVE-----HGSAAVRAQGAKVLNAIGHASKNLD-HLDEALSNL 84 
+                           7999**************************************998.566.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s++Ha+ l+vdp +f+ll + +++vla ++p++ft+ ++aa++K+la v+++l skY+
+  sp|P51465|HBAB_LITCT  85 SDKHAHDLRVDPGNFHLLCHNILVVLAIHFPEDFTPRAHAAFDKFLAAVSETLYSKYR 142
+                           *********************************************************7 PP
+
+>> sp|P09105|HBAT_HUMAN  Hemoglobin subunit theta-1 OS=Homo sapiens GN=HBQ1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  139.5   0.1   5.8e-42   2.8e-39       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 139.5 bits;  conditional E-value: 5.8e-42
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls++++  v+a+W k +++v+ + +++L+r f+++Pat+++F +  dLs      +s +v++Hg+kv+dAls a+ +ld +l+ +l++
+  sp|P09105|HBAT_HUMAN   2 ALSAEDRALVRALWKKLGSNVGVYTTEALERTFLAFPATKTYFSHL-DLS-----PGSSQVRAHGQKVADALSLAVERLD-DLPHALSA 83 
+                           69********************************************.9*9.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp  f+ll+++l+++la ++p++f+++ qa+l+K+l+ v  +l s Y+
+  sp|P09105|HBAT_HUMAN  84 LSHLHACQLRVDPASFQLLGHCLLVTLARHYPGDFSPALQASLDKFLSHVISALVSEYR 142
+                           *********************************************************96 PP
+
+>> sp|P82315|HBAC_HOPLI  Hemoglobin cathodic subunit alpha OS=Hoplosternum littorale PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  139.4   1.0   6.5e-42   3.2e-39       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 139.4 bits;  conditional E-value: 6.5e-42
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k  vka ++k+  +++ +G ++Lvr+++++P+t+++F ++ dLs      +s++vkkHgk+++ A+++a+ k+d +l + +++L
+  sp|P82315|HBAC_HOPLI   2 LTAKDKALVKAFFGKIAGKADAVGHEALVRMLVVYPQTKTYFAHWPDLS-----PSSEEVKKHGKTIMAAVKEAVGKID-DLVGGMAQL 84 
+                           899**********************************************.....89**********************9.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa k++vdp +fk+ls+ ++++ a ++p +ft++v+ +++K+la ++ + a kY+
+  sp|P82315|HBAC_HOPLI  85 SDLHAFKMRVDPSNFKILSHNILVTCAVHFPDDFTPEVHVSFDKFLAALSSTAADKYR 142
+                           *********************************************************6 PP
+
+>> sp|P07428|HBA_XENTR  Hemoglobin subunit alpha OS=Xenopus tropicalis GN=hba-A PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  139.2   0.6   7.3e-42   3.6e-39       2     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 139.2 bits;  conditional E-value: 7.3e-42
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +L++++k+++ka+W  v a+ +++G+++L r+f+  P+t+++F+ F d s     + s+++ +Hgkkv dAl++a ++ld ++ + l++L
+  sp|P07428|HBA_XENTR   2 HLTADDKKHIKAIWPSVAAHGDKYGGEALHRMFMCAPKTKTYFPDF-DFS-----EHSKHILAHGKKVSDALNEACNHLD-NIAGCLSKL 84 
+                          89********************************************.888.....89***********************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s+lHa  l+vdp +f ll++ +++v+a ++pk+f ++ + al+K+l +v+++l+skY+
+  sp|P07428|HBA_XENTR  85 SDLHAYDLRVDPGNFPLLAHQILVVVAIHFPKQFDPATHKALDKFLVSVSNVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P84206|HBBA_GYMUN  Hemoglobin anodic subunit beta OS=Gymnothorax unicolor PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  139.0   0.1   8.6e-42   4.2e-39       4     149 .]       4     147 .]       1     147 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 139.0 bits;  conditional E-value: 8.6e-42
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e+t+++++W k+  +vee Ga+++ rl+ ++P+t+++F +F++Lst+ +++++++v kHg +v++ l +a++++d +++++++dLs
+  sp|P84206|HBBA_GYMUN   4 TDGERTAILTLWKKI--NVEEIGAQAMGRLLIVYPWTHRHFASFGNLSTPSAIMSNDKVAKHGATVMGGLDKAIKNMD-DIKNAYRDLS 89 
+                           789************..*************************************************************.9********* PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                             H++kl+vdp +f+llse++   +aa++ pkef adv+ a  K+l  v+ +la +Y+
+  sp|P84206|HBBA_GYMUN  90 VMHSEKLHVDPDNFRLLSECITLCVAAKFgPKEFNADVHEAWYKFLMAVTSALARQYH 147
+                           **********************9999999679*************************7 PP
+
+>> sp|P18981|HBA2_VARAL  Hemoglobin subunit alpha-2 OS=Varanus albigularis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  138.8   4.0   9.9e-42   4.8e-39       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 138.8 bits;  conditional E-value: 9.9e-42
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL+e++k++vk +Wa v+ +++e  ad+L+r+f+++Pa++++F +F dLs       +a++k+Hgkkv++Al++a+a+ld +++++l++
+  sp|P18981|HBA2_VARAL   1 VLTEDDKNHVKGLWAHVHDHIDEIAADALTRMFLAHPASKTYFAHF-DLS-----PDNAQIKAHGKKVANALNQAVAHLD-DIKGTLSK 82 
+                           69********************************************.***.....789*********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa++l+vdp +f +l ++l + +aa+l  ++ a+v  +l+K+l+ v+k+l skY+
+  sp|P18981|HBA2_VARAL  83 LSELHAQQLRVDPVNFGFLRHCLEVSIAAHLHDHLKASVIVSLDKFLEEVCKDLVSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P10777|HBA1_NOTCO  Hemoglobin subunit alpha-1 OS=Notothenia coriiceps neglecta GN=hba1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  138.5   0.1   1.2e-41   5.8e-39       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 138.5 bits;  conditional E-value: 1.2e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k +vka+W+k++  ++  G+d+L r+++++P+t+++F ++  ++      + +d+k+Hgkkv++ l+ a+ k++ +l+a l++L
+  sp|P10777|HBA1_NOTCO   2 LSDKDKAAVKALWSKIGKSADAIGNDALSRMIVVYPQTKTYFSHWPSVT-----PGHPDIKAHGKKVMGGLAIAVSKIN-DLKAGLSNL 84 
+                           99*******************************************8887.....89*********************98.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s++Ha kl+vdp +fk+l +++++v+ + +pk+ft++++ +l+K+l+ va +la++Y+
+  sp|P10777|HBA1_NOTCO  85 SQQHAYKLRVDPANFKILNHCILVVISTMFPKNFTPQAHVSLNKFLSGVALALAQRYR 142
+                           *********************************************************6 PP
+
+>> sp|P14527|HBA4_ONCMY  Hemoglobin subunit alpha-4 OS=Oncorhynchus mykiss GN=hba4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  138.5   0.1   1.2e-41     6e-39       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 138.5 bits;  conditional E-value: 1.2e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k +vka+W+k+  + +e G+++L r+++++P+t+ +F ++  +       +sa vkkHg ++++ + d + ++d +l + l +L
+  sp|P14527|HBA4_ONCMY   2 LSAKDKANVKAIWGKILPKSDEIGEQALSRMLVVYPQTKAYFSHWASVA-----PGSAPVKKHGITIMNQIDDCVGHMD-DLFGFLTKL 84 
+                           9********************************************7776.....9************************.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa+kl+vdp +fk+l++ l++v+aa +p+eft++++ +++K+l+ +a +la+kY+
+  sp|P14527|HBA4_ONCMY  85 SELHATKLRVDPTNFKILAHNLIVVIAAYFPAEFTPEIHLSVDKFLQQLALALAEKYR 142
+                           *********************************************************7 PP
+
+>> sp|P45718|HBA1_TRENE  Hemoglobin subunit alpha-1 OS=Trematomus newnesi GN=hba1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  138.5   0.0   1.2e-41   6.1e-39       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 138.5 bits;  conditional E-value: 1.2e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k +v+a+W+k++   +  G+d+L r+++++P+t+ +F ++ d++      +s+++k+Hgkkv++ ++ a+ k+d +l++ l +L
+  sp|P45718|HBA1_TRENE   2 LSDKDKAAVRALWSKIGKSSDAIGNDALSRMIVVYPQTKIYFSHWPDVT-----PGSPNIKAHGKKVMGGIALAVSKID-DLKTGLMEL 84 
+                           99*******************************************8888.....9***********************9.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           se+Ha kl+vdp +fk+l +++++v+ + +pkeft++++ +l+K+l+ va +la++Y+
+  sp|P45718|HBA1_TRENE  85 SEQHAYKLRVDPSNFKILNHCILVVISTMFPKEFTPEAHVSLDKFLSGVALALAERYR 142
+                           *********************************************************6 PP
+
+>> sp|P83611|HBA1_GOBGI  Hemoglobin subunit alpha-1 OS=Gobionotothen gibberifrons GN=hba1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  138.3   0.1   1.4e-41     7e-39       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 138.3 bits;  conditional E-value: 1.4e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++k +v+a+W+k+    +  G+d+L r+++++P+t+++F ++ d++      +sa++k+Hgkkv++ ++ a+ k+d +l+a l +L
+  sp|P83611|HBA1_GOBGI   2 LSVKDKAAVRALWSKISKSSDAIGNDALSRMIVVYPQTKTYFSHWPDVT-----PGSAHIKAHGKKVMGGIALAVSKID-DLNAGLLEL 84 
+                           899******************************************8888.....9***********************9.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           se+Ha kl+vdp +fk+l +++++v+ + +pk+ft++++ +l+K+l+ va +la++Y+
+  sp|P83611|HBA1_GOBGI  85 SEQHAYKLRVDPANFKILNHCILVVISTMFPKDFTPEAHVSLDKFLSGVALALAERYR 142
+                           *********************************************************6 PP
+
+>> sp|P82990|HBA_PAGBO  Hemoglobin subunit alpha OS=Pagothenia borchgrevinki GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  137.7   0.1   2.1e-41     1e-38       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 137.7 bits;  conditional E-value: 2.1e-41
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Lse++k +vka+W+k++   +  G+d+L r+++++P+t+++F ++ +++      +s+++k+Hgkkv++ ++ a+ k+d +l++ l++Ls
+  sp|P82990|HBA_PAGBO   2 LSEKNKAAVKALWSKIGKSSDAIGNDALSRMIVVYPQTKTYFSHWPEVT-----PGSPHIKAHGKKVMGGIALAVTKID-DLKTGLSELS 85 
+                          9********************************************8888.....9***********************9.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha kl+vdp +fk l +++++v+ + +pkeft++++ +l+K+l+ va +la +Y+
+  sp|P82990|HBA_PAGBO  86 EQHAYKLRVDPANFKTLNHCILVVISTMFPKEFTPEAHVSLDKFLSGVALALADRYR 142
+                          *******************************************************96 PP
+
+>> sp|P55267|HBAC_LITCT  Hemoglobin subunit alpha-C OS=Lithobates catesbeiana PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  137.3   1.2   2.9e-41   1.4e-38       3     149 .]       3     142 .]       1     142 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 137.3 bits;  conditional E-value: 2.9e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L  ++k +++a+W    +++e++Ga++L r+f+ +P+t+++F++F d +      +sa++k+Hgkkv++Al+da+++ld + ea+l++L
+  sp|P55267|HBAC_LITCT   3 LNCDDKAHIRAIWPCLASHAEQYGAEALHRMFLCHPQTKTYFPNF-DFH-----ANSAHLKNHGKKVMNALTDAVKHLD-HPEASLSSL 84 
+                           67789****************************************.776.....79***********************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa  l+vdp +f lls+ +++v+a +++ +++ + + al+K+l++v+ ll+skY+
+  sp|P55267|HBAC_LITCT  85 SDLHAFTLRVDPGNFALLSNNILVVVAVHHSDKLSYETHQALDKFLNVVSGLLTSKYR 142
+                           *********************************************************7 PP
+
+>> sp|P83623|HBA_PSEUR  Hemoglobin subunit alpha OS=Pseudaphritis urvillii GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.6   0.1   4.7e-41   2.3e-38       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 136.6 bits;  conditional E-value: 4.7e-41
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          L++++k +vka+W+k+   ++ +Gad++ r+++++P+t+++F ++ dL       +s++vk+Hgk+v++ ++ a+ k+d +l + l +Ls
+  sp|P83623|HBA_PSEUR   2 LTDKDKATVKALWGKISKSADAVGADAVGRMIVVYPQTKTYFSHWPDLA-----PNSPHVKTHGKTVMTGIALAVSKID-DLTNGLLELS 85 
+                          899******************************************9999.....89**********************9.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e Ha k++vdp +fk+ls+++++v+a+ +pkeft++++  l+K+l  v+ +l+++Y+
+  sp|P83623|HBA_PSEUR  86 EEHAYKMRVDPANFKILSHCMLVVIATMFPKEFTPEAHVCLDKFLCAVSLALSERYR 142
+                          *******************************************************96 PP
+
+>> sp|P80270|HBA_CHEKU  Hemoglobin subunit alpha OS=Chelidonichthys kumu GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.6   0.2   4.7e-41   2.3e-38       3     149 .]       2     142 .]       1     142 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 136.6 bits;  conditional E-value: 4.7e-41
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+++k++v+a+Wak+   ++  Ga++L r+++++P+t+++F ++ dLs      +s  vk+Hgk+++  +s a+ k+d +l a l +Ls
+  sp|P80270|HBA_CHEKU   2 LSDKDKNTVRALWAKISKSADVIGAEALARMLTVYPQTKTYFTHWTDLS-----PSSTSVKNHGKNIMVGVSLAVSKMD-DLTAGLLELS 85 
+                          99***********************************************.....89***********************.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha +l+vdp +fklls++l++v+   +pkef+++v+ +++K++a +a +l+++Y+
+  sp|P80270|HBA_CHEKU  86 EKHAFQLRVDPANFKLLSHCLLVVISIMFPKEFGPEVHVSVDKFFANLALALSERYR 142
+                          ******************************************************996 PP
+
+>> sp|P23018|HBB2_CYGMA  Hemoglobin subunit beta-2 OS=Cygnodraco mawsoni GN=hbb2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.4   0.1   5.2e-41   2.5e-38       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 136.4 bits;  conditional E-value: 5.2e-41
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ ++k +++k   +++ +G   L r ++++P+tq++F kF++L  ++++ ++a v kHg ++++ l +a++++d ++++++++Ls 
+  sp|P23018|HBB2_CYGMA   5 NFERATIKDIFSKL--EYDVVGPATLARCLVVYPWTQRYFGKFGNLYNAAAIAENAMVSKHGTTIIHGLDQAVKNMD-DIKNTYAELSV 90 
+                           6689999*******..9999*********************************************************.*********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +f+ll+e+l  vlaa+l+keft +vqaa++K++a+v   l ++Y+
+  sp|P23018|HBB2_CYGMA  91 LHCDKLHVDPDNFQLLAECLTIVLAAQLGKEFTGEVQAAFQKFMAVVVSSLGKQYH 146
+                           ****************************************************9997 PP
+
+>> sp|Q8WWM9|CYGB_HUMAN  Cytoglobin OS=Homo sapiens GN=CYGB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.2   0.2   6.3e-41   3.1e-38       3     149 .]      19     167 ..      17     167 .. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 136.2 bits;  conditional E-value: 6.3e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklk 89 
+                           Lseae+++v+a+Wa+ +a+ e++G+ iLvr+f+ +P ++++F +Fk+++ + e++ s++++kH+ +v++Al+ ++ +l d +k+++ l+
+  sp|Q8WWM9|CYGB_HUMAN  19 LSEAERKAVQAMWARLYANCEDVGVAILVRFFVNFPSAKQYFSQFKHMEDPLEMERSPQLRKHACRVMGALNTVVENLhDpDKVSSVLA 107
+                           9*****************************************************************************878999***** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            + + Ha k+kv+p yfk+ls v+++v+a++++++f ++ q a  Kl  l+   ++++Yk
+  sp|Q8WWM9|CYGB_HUMAN 108 LVGKAHALKHKVEPVYFKILSGVILEVVAEEFASDFPPETQRAWAKLRGLIYSHVTAAYK 167
+                           ***********************************************************7 PP
+
+>> sp|P02016|HBA_CYPCA  Hemoglobin subunit alpha OS=Cyprinus carpio GN=hba PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.2   0.0   6.1e-41     3e-38       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 136.2 bits;  conditional E-value: 6.1e-41
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k +vk +Wak+  ++++ Ga++L r+++++P+t+++F ++ dLs      +s  vkkHgk +++A++da+ k+d +l + l++L
+  sp|P02016|HBA_CYPCA   2 SLSDKDKAAVKGLWAKISPKADDIGAEALGRMLTVYPQTKTYFAHWADLS-----PGSGPVKKHGKVIMGAVGDAVSKID-DLVGGLAAL 85 
+                          59************************************************.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selHa kl+vdp +fk+l++ +++v+   +p++f ++v+ +++K+++ +a +l++kY+
+  sp|P02016|HBA_CYPCA  86 SELHAFKLRVDPANFKILAHNVIVVIGMLYPGDFPPEVHMSVDKFFQNLALALSEKYR 143
+                          *********************************************************7 PP
+
+>> sp|P62363|HBA2_NOTAN  Hemoglobin subunit alpha-2 OS=Notothenia angustata GN=hba2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.0   0.3   7.2e-41   3.5e-38       3     149 .]       2     141 .]       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 136.0 bits;  conditional E-value: 7.2e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++k++vka W+kv  + e+ G+d+L r+++++P+t+++F ++k+L+      +sa v+kHg +v++ ++da+ k++ +l a l +L
+  sp|P62363|HBA2_NOTAN   2 LSTKDKETVKAFWSKVSGKSEDIGNDALSRMLVVYPQTKTYFSHWKELT-----PGSAPVRKHGMTVMKGVGDAVSKIE-DLTAGLMEL 84 
+                           99***********************************************.....9**********************98.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa  l+vdp +fk +s+ +++v a  +pkefta+v+ +++K+la +a++l++kY+
+  sp|P62363|HBA2_NOTAN  85 SELHAFTLRVDPANFK-ISHNILVVFAIMFPKEFTAEVHVSMDKFLAALARALSEKYR 141
+                           ****************.6999999*********************************7 PP
+
+>> sp|P62387|HBA2_NOTCO  Hemoglobin subunit alpha-2 OS=Notothenia coriiceps neglecta GN=hba2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  136.0   0.3   7.2e-41   3.5e-38       3     149 .]       2     141 .]       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 136.0 bits;  conditional E-value: 7.2e-41
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++k++vka W+kv  + e+ G+d+L r+++++P+t+++F ++k+L+      +sa v+kHg +v++ ++da+ k++ +l a l +L
+  sp|P62387|HBA2_NOTCO   2 LSTKDKETVKAFWSKVSGKSEDIGNDALSRMLVVYPQTKTYFSHWKELT-----PGSAPVRKHGMTVMKGVGDAVSKIE-DLTAGLMEL 84 
+                           99***********************************************.....9**********************98.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa  l+vdp +fk +s+ +++v a  +pkefta+v+ +++K+la +a++l++kY+
+  sp|P62387|HBA2_NOTCO  85 SELHAFTLRVDPANFK-ISHNILVVFAIMFPKEFTAEVHVSMDKFLAALARALSEKYR 141
+                           ****************.6999999*********************************7 PP
+
+>> sp|P23016|HBA_CYGMA  Hemoglobin subunit alpha OS=Cygnodraco mawsoni GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  135.8   0.1     8e-41   3.9e-38       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 135.8 bits;  conditional E-value: 8e-41
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+++k +vka+W+ +    +  G+d+L r+++++P+t+++F ++ d++      +s +++ Hgkkv++ +s a+ k+d +l++ l +Ls
+  sp|P23016|HBA_CYGMA   2 LSDKDKAAVKALWTTISKSSDAIGNDALSRMIVVYPQTKTYFSHWPDVT-----PGSTHIRDHGKKVMGGISLAVSKID-DLKTGLFELS 85 
+                          99*******************************************8888.....9***********************9.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha kl+vdp +fk+l +++++v+a+ +pkeft++++ +l+K+l+ va +la++Y+
+  sp|P23016|HBA_CYGMA  86 EQHAFKLRVDPANFKILNHCILVVIATMFPKEFTPEAHVSLDKFLSGVALALAERYR 142
+                          ********************************************************6 PP
+
+>> sp|P02134|HBB_RANES  Hemoglobin subunit beta OS=Rana esculenta GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  135.7   0.3   9.1e-41   4.4e-38      10     149 .]       4     140 .]       2     140 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 135.7 bits;  conditional E-value: 9.1e-41
+             globins4  10 kvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakkl 99 
+                           v   W+kv  d+++ G+++L rl++++P+tq++F  F++L  +d++  +a+v +Hg+kvl A++++l++  e+l+a++++Lse H++kl
+  sp|P02134|HBB_RANES   4 LVSGFWGKV--DAHKIGGEALARLLVVYPWTQRYFTTFGNLGSADAICHNAKVLAHGEKVLAAIGEGLKH-PENLKAHYAKLSEYHSNKL 90 
+                          57889****..8889*******************************************************.67***************** PP
+
+             globins4 100 kvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +vdp +f+ll++v ++vla ++ +eft++ q ale  +  v  +la++Y+
+  sp|P02134|HBB_RANES  91 HVDPANFRLLGNVFITVLARHFQHEFTPELQHALEAHFCAVGDALAKAYH 140
+                          *************************************************7 PP
+
+>> sp|P02019|HBA1_ONCMY  Hemoglobin subunit alpha-1 OS=Oncorhynchus mykiss GN=hba1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  135.0   0.0   1.4e-40     7e-38       3     149 .]       2     144 .]       1     144 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 135.0 bits;  conditional E-value: 1.4e-40
+              globins4   3 LseaektkvkavWakveadveesGadiLvr..lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           L++++k+ vka W+k+  +++ +Ga++L r  +++++P+t+++F ++ dLs      +s  vkkHg  +++A+++a+  +d +l + ++
+  sp|P02019|HBA1_ONCMY   2 LTAKDKSVVKAFWGKISGKADVVGAEALGRdkMLTAYPQTKTYFSHWADLS-----PGSGPVKKHGGIIMGAIGKAVGLMD-DLVGGMS 84 
+                           899*************************8555*******************.....9***********************9.9****** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +Ls+lHa kl+vdp +fk+ls+ ++++la ++p++ft++v+ a++K+la v+ +la kY+
+  sp|P02019|HBA1_ONCMY  85 ALSDLHAFKLRVDPGNFKILSHNILVTLAIHFPSDFTPEVHIAVDKFLAAVSAALADKYR 144
+                           ***********************************************************7 PP
+
+>> sp|Q575S8|CYGB2_DANRE  Cytoglobin-2 OS=Danio rerio GN=cygb2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  134.8   0.0   1.6e-40   7.8e-38       2     148 ..      18     166 ..      17     167 .. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 134.8 bits;  conditional E-value: 1.6e-40
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleak 87 
+                            +L++ e+  +k  Wa+v+a  e++G+ iL+r+f+ +P ++++F +F+d++ ++e++ks +++kH+++v++A++ ++ +l d ek+++ 
+  sp|Q575S8|CYGB2_DANRE  18 PLTDVERGIIKDTWARVYASCEDVGVTILIRFFVNFPSAKQYFSQFQDMEDPEEMEKSSQLRKHARRVMNAINTVVENLhDpEKVSSV 105
+                            589999*************************************************************************8799***** PP
+
+               globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            l  + + Ha k+kv+p yfk+ls v++++la+++++ ft++vq++  Kl+a +   ++ +Y
+  sp|Q575S8|CYGB2_DANRE 106 LVLVGKAHAFKYKVEPIYFKILSGVILEILAEEFGECFTPEVQTSWSKLMAALYWHITGAY 166
+                            *****************************************************99999998 PP
+
+>> sp|P80946|HBBA_ANGAN  Hemoglobin anodic subunit beta OS=Anguilla anguilla GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  134.5   0.1   2.1e-40     1e-37       4     149 .]       4     147 .]       1     147 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 134.5 bits;  conditional E-value: 2.1e-40
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +e+e+t++k+ W k+  ++ee G +++ rl+ + P+tq++F +F++Lst+++++++++v kHg +v++ l  a++++d ++++++++Ls
+  sp|P80946|HBBA_ANGAN   4 TEDERTAIKSKWLKI--NIEEIGPQAMRRLLIVCPWTQRHFANFGNLSTAAAIMNNDKVAKHGTTVMGGLDRAIQNMD-DIKNAYRQLS 89 
+                           899************..************************************************************9.9********* PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                             H++kl+vdp +f+ll+e +   +aa++ p+eftadvq a +K+l  v+ +la +Y+
+  sp|P80946|HBBA_ANGAN  90 VMHSEKLHVDPDNFRLLAEHITLCMAAKFgPTEFTADVQEAWQKFLMAVTSALARQYH 147
+                           ***************************99569*************************7 PP
+
+>> sp|Q9PVM4|HBAA_SERQU  Hemoglobin subunit alpha-A OS=Seriola quinqueradiata GN=hbaa PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  134.3   0.1   2.3e-40   1.1e-37       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 134.3 bits;  conditional E-value: 2.3e-40
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k+ vka W k+  + +e Ga++L r+++++P+t+++F ++ d+        sa+vkkHg +++ A++da+ k+d +l + l++
+  sp|Q9PVM4|HBAA_SERQU   2 SLSGKDKSVVKAFWDKMSPKSAEIGAEALGRMLTVYPQTKTYFSHWADVG-----PDSAQVKKHGATIMAAVGDAVGKID-DLVGGLSA 84 
+                           5999******************************************8888.....88**********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa kl+vdp +f++l++ ++ v a  +p++ft++++ +++K+l+ +a +la++Y+
+  sp|Q9PVM4|HBAA_SERQU  85 LSELHAFKLRVDPANFRILAHNIILVTAMYFPTDFTPEIHVSVDKFLQNLALALAERYR 143
+                           *********************************************************96 PP
+
+>> sp|Q98TS0|HBB_ONCNE  Hemoglobin subunit beta OS=Oncorhynchus nerka GN=hbb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  134.3   0.0   2.4e-40   1.1e-37       4     149 .]       5     148 .]       2     148 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 134.3 bits;  conditional E-value: 2.4e-40
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ae++++  +W+k+   v+e G ++L rl+ + P+tq++F  F++Lst++++++++ v kHgk+v++ l  a+++ld ++++++++Ls 
+  sp|Q98TS0|HBB_ONCNE   5 TDAERSAIVGLWGKI--SVDEIGPQALARLLIVSPWTQRHFSTFGNLSTPAAIMGNPAVAKHGKTVMHGLDRAVQNLD-DIKNTYAALSV 91 
+                          789************..9***********************************************************9.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                           H++kl+vdp +f+ll++++ + +aa+l p+ f ad q a++K+la+v  +l  +Y+
+  sp|Q98TS0|HBB_ONCNE  92 MHSEKLHVDPDNFRLLADCITVCVAAKLgPAVFNADTQEAFQKFLAVVVSALGRQYH 148
+                          ********************999999984689********************99997 PP
+
+>> sp|P83624|HBB1_PSEUR  Hemoglobin subunit beta-1 OS=Pseudaphritis urvillii GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  134.3   0.0   2.4e-40   1.2e-37       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 134.3 bits;  conditional E-value: 2.4e-40
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           v +++e++ + +++++   d+++ G  +L r + ++P+tq++F  F++L t+++++ + +v +Hg+kvl+ l  a++++d +++a++ d
+  sp|P83624|HBB1_PSEUR   2 VWTNEERSIISSIFSNL--DYDDIGPKALCRCLIVYPWTQRHFTTFGNLYTPEAIMTNSKVAEHGVKVLHGLDRAVKNMD-NIKATYYD 87 
+                           56899**********99..*************************************************************.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls lH++kl+vdp +fklls++l  v+aa++++ ft++ qaa++K+la+v  +l ++Y+
+  sp|P83624|HBB1_PSEUR  88 LSILHSEKLHVDPDNFKLLSDCLTIVVAAKMGSGFTPETQAAFQKFLAVVVSALGKQYH 146
+                           ********************************************************997 PP
+
+>> sp|Q91473|HBB_SALSA  Hemoglobin subunit beta OS=Salmo salar GN=hbb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  134.2   0.0   2.5e-40   1.2e-37       4     149 .]       5     148 .]       2     148 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 134.2 bits;  conditional E-value: 2.5e-40
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ae++++  +W+k+   v+e G ++L rl+ + P+tq++F  F++Lst++++++++ v kHgk+v++ l  a+++ld ++++++ +Ls 
+  sp|Q91473|HBB_SALSA   5 TDAERSAIVGLWGKI--SVDEIGPQALARLLIVSPWTQRHFSTFGNLSTPAAIMGNPAVAKHGKTVMHGLDRAVQNLD-DIKNAYTALSV 91 
+                          789************..9***********************************************************9.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                           H++kl+vdp +f+ll++++ + +aa+l p+ f+ad+q a++K+la+v  +l  +Y+
+  sp|Q91473|HBB_SALSA  92 MHSEKLHVDPDNFRLLADCITVCVAAKLgPTVFSADIQEAFQKFLAVVVSALGRQYH 148
+                          ********************999999984678********************99997 PP
+
+>> sp|P07430|HBA1_XENBO  Hemoglobin subunit alpha-1 OS=Xenopus borealis GN=hba1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.7   0.6   3.7e-40   1.8e-37       3     149 .]       3     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 133.7 bits;  conditional E-value: 3.7e-40
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k+++ka+   + a+ ++ G+++L r+f++ P+t+++F+ F d +     ++s+++ +Hgkkv+dAl++a ++ld ++ ++l++L
+  sp|P07430|HBA1_XENBO   3 LSADDKKHIKAIMPSIAAHGDKFGGEALYRMFLVNPKTKTYFPTF-DFH-----HNSKQISAHGKKVVDALNEASNHLD-NIAGSLSKL 84 
+                           9********************************************.777.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa  l+vdp +f ll++ +++v+a ++pk+f ++ + al+K+la+v+ +l+skY+
+  sp|P07430|HBA1_XENBO  85 SDLHAYDLRVDPGNFPLLAHNILVVVAMNFPKQFDPATHKALDKFLATVSSVLTSKYR 142
+                           *********************************************************7 PP
+
+>> sp|P02012|HBA1_XENLA  Hemoglobin subunit alpha-1 OS=Xenopus laevis GN=hba1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.6   0.7   3.8e-40   1.9e-37       3     149 .]       3     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 133.6 bits;  conditional E-value: 3.8e-40
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k+++ka+   + a+ ++ G+++L r+f + P+t+++F++F d +     ++s+++ +Hgkkv+dAl++a ++ld ++ +++++L
+  sp|P02012|HBA1_XENLA   3 LSADDKKHIKAIMPAIAAHGDKFGGEALYRMFIVNPKTKTYFPSF-DFH-----HNSKQISAHGKKVVDALNEASNHLD-NIAGSMSKL 84 
+                           9********************************************.777.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa  l+vdp +f ll++ +++v+a ++pk+f ++ + al+K+la+v+++l+skY+
+  sp|P02012|HBA1_XENLA  85 SDLHAYDLRVDPGNFPLLAHNILVVVAMNFPKQFDPATHKALDKFLATVSTVLTSKYR 142
+                           *********************************************************7 PP
+
+>> sp|P56251|HBB_LEIXA  Hemoglobin subunit beta OS=Leiostomus xanthurus GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.4   0.0   4.5e-40   2.2e-37       4     149 .]       4     147 .]       1     147 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 133.4 bits;  conditional E-value: 4.5e-40
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ae+ ++ka+W+k+  dv+e G ++L rl+ ++P+tq++F+ F+++st++++ ++a+v +Hgk+v++ l  a++++d ++++ +k+Ls 
+  sp|P56251|HBB_LEIXA   4 TDAERAAIKALWGKI--DVGEIGPQALSRLLIVYPWTQRHFKGFGNISTNAAILGNAKVAEHGKTVMGGLDRAVQNMD-NIKNVYKQLSI 90 
+                          789************..*************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                          +H++k +vdp +f+ll+e++ + + a++ p+ ft++++ a +K+la+v  +l  +Y+
+  sp|P56251|HBB_LEIXA  91 KHSEKIHVDPDNFRLLGEIITMCVGAKFgPSAFTPEIHEAWQKFLAVVVSALGRQYH 147
+                          *********************99999995689********************99997 PP
+
+>> sp|Q575T0|CYGB1_ORYLA  Cytoglobin-1 OS=Oryzias latipes GN=cygb1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.1   0.1   5.6e-40   2.7e-37       2     148 ..      16     164 ..      15     165 .. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 133.1 bits;  conditional E-value: 5.6e-40
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleak 87 
+                            +L+++e+  ++  Wakv+ + ++ G+ iLvrlf+ +P ++++F +Fk+++ ++el+ks +++kH+++v++A++  + +ld  +k+++ 
+  sp|Q575T0|CYGB1_ORYLA  16 PLTDKERVMIQDSWAKVYQNCDDAGVAILVRLFVNFPSSKQYFSQFKHIEDAEELEKSSQLRKHARRVMNAINTLVESLDnsDKVSSV 103
+                            6999***************************************************************************8678999** PP
+
+               globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            l+++ + Ha ++kvdp yfk+ls v+++vl + +p+ +ta+v +a   lla+++  +++ Y
+  sp|Q575T0|CYGB1_ORYLA 104 LNAVGKAHAIRHKVDPVYFKILSGVILEVLGEAYPQVMTAEVASAWTNLLAILCCSIKAVY 164
+                            *********************************************************9998 PP
+
+>> sp|Q921A4|CYGB_RAT  Cytoglobin OS=Rattus norvegicus GN=Cygb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.1   0.3   5.7e-40   2.8e-37       3     149 .]      19     167 ..      17     167 .. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 133.1 bits;  conditional E-value: 5.7e-40
+            globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdL 91 
+                         Lseae+++v+a Wa+ +a+ e++G+ iLvr+f+ +P ++++F +Fk+++ + e++ s++++kH+ +v++Al+ ++ +l d +k+++ l+ +
+  sp|Q921A4|CYGB_RAT  19 LSEAERKAVQATWARLYANCEDVGVAILVRFFVNFPSAKQYFSQFKHMEDPLEMERSPQLRKHACRVMGALNTVVENLhDpDKVSSVLALV 109
+                         9*****************************************************************************878999******* PP
+
+            globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + Ha k+kv+p yfk+ls v++dv+a++++++f  + q a  Kl  l+   ++++Yk
+  sp|Q921A4|CYGB_RAT 110 GKAHALKHKVEPMYFKILSGVILDVIAEEFANDFPVETQKAWTKLRGLIYSHVTAAYK 167
+                         *********************************************************7 PP
+
+>> sp|P84609|HBA1_GADMO  Hemoglobin subunit alpha-1 OS=Gadus morhua GN=hba1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.1   0.0   5.6e-40   2.7e-37       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 133.1 bits;  conditional E-value: 5.6e-40
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k +vk  W+++  ++e  Gad+L r++ ++P+t+++F ++k Ls      +s+dvkkHgk+++  ++da+ k+d +le  l +
+  sp|P84609|HBA1_GADMO   2 SLSSKDKATVKLFWGRMSGKAELIGADALSRMLAVYPQTKTYFSHWKSLS-----PGSPDVKKHGKTIMMGIGDAVTKMD-DLERGLLT 84 
+                           59************************************************.....9************************.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa kl+vdp +fklls  +++v+a  +p +ft+ ++ a++Kl+   a +la+kY+
+  sp|P84609|HBA1_GADMO  85 LSELHAFKLRVDPTNFKLLSLNILVVMAIMFPDDFTPMAHLAVDKLFCGRALALAEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P80726|HBAC_ANGAN  Hemoglobin cathodic subunit alpha OS=Anguilla anguilla PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  133.0   0.1   5.9e-40   2.9e-37       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 133.0 bits;  conditional E-value: 5.9e-40
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++++k+ ++  W k+ +++++ Ga++L r+++++Pat+ +F ++ dL       +s+ vkkHgk ++ A++da+ k++ +l ++l++
+  sp|P80726|HBAC_ANGAN   2 SLTAKDKSLITGFWQKISSKADDLGAEALSRMIVVFPATKVYFSHWPDLG-----PGSPSVKKHGKVIMAAVGDAVGKMN-DLVGALSA 84 
+                           599**********************************************9.....9***********************8.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa k+++dp +fk ls+ +++  a ++p +fta+v+ a++K+la +  +l+ kY+
+  sp|P80726|HBAC_ANGAN  85 LSDLHAFKMRIDPGNFKTLSHNILVACAVNFPVDFTAEVHVAMDKFLAALGAALSDKYR 143
+                           **********************************************************7 PP
+
+>> sp|P07433|HBB2_XENBO  Hemoglobin subunit beta-2 OS=Xenopus borealis GN=hbb2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  132.7   0.0   7.6e-40   3.7e-37       3     149 .]       3     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 132.7 bits;  conditional E-value: 7.6e-40
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ ek+ ++  W+k+  +++  G+++L rl+ ++P+tq++F +F++L  ++++  ++ v +Hg+kv++ +++a++++d ++++ +++L
+  sp|P07433|HBB2_XENBO   3 LTAHEKQLITGSWGKI--NAKAIGKEALGRLLNTFPWTQRYFSSFGNLGSAEAIFHNEAVAAHGEKVVTSVGEAIKHMD-DIKGYYAEL 88 
+                           899*************..8889*********************************************************.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+ H++ l+vdp++fk ++ +l  +l +++++e+t++ +aa+e l++ +a +l + Y+
+  sp|P07433|HBB2_XENBO  89 SKYHSETLHVDPNNFKRFGGCLSITLGHHFGEEYTPELHAAYEHLFDAIADALGKGYH 146
+                           *****************************************************99986 PP
+
+>> sp|P02141|HBB4_ONCMY  Hemoglobin subunit beta-4 OS=Oncorhynchus mykiss GN=hbb4 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  132.3   0.0     1e-39   4.9e-37       4     149 .]       5     148 .]       2     148 .] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 132.3 bits;  conditional E-value: 1e-39
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ e++++  +W+k+   v+e G ++L rl+ + P+tq++F  F++Lst++++++++ v kHgk+v++ l  a+++ld ++++++ +Ls
+  sp|P02141|HBB4_ONCMY   5 TDPERSAIVGLWGKI--SVDEIGPQALARLLIVSPWTQRHFSTFGNLSTPAAIMGNPAVAKHGKTVMHGLDRAVQNLD-DIKNTYTALS 90 
+                           567999*********..9***********************************************************9.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                             H++kl+vdp +f+ll++++ + +aa+l p+ f+ad q a++K+la+v  +l  +Y+
+  sp|P02141|HBB4_ONCMY  91 VMHSEKLHVDPDNFRLLADCITVCVAAKLgPAVFSADTQEAFQKFLAVVVSALGRQYH 148
+                           *********************999999984689********************99997 PP
+
+>> sp|Q90486|HBB1_DANRE  Hemoglobin subunit beta-1 OS=Danio rerio GN=ba1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  132.0   0.0   1.2e-39   5.7e-37       4     149 .]       5     148 .]       2     148 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 132.0 bits;  conditional E-value: 1.2e-39
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ae+t+++ +W+k   +++e G ++L r + ++P+tq++F  F++Ls +++++++++v +Hg++v++ l+ a++++d ++++++++Ls
+  sp|Q90486|HBB1_DANRE   5 TDAERTAILGLWGKL--NIDEIGPQALSRCLIVYPWTQRYFATFGNLSSPAAIMGNPKVAAHGRTVMGGLERAIKNMD-NVKNTYAALS 90 
+                           789************..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpk.eftadvqaaleKllalvakllaskYk 149
+                             H++kl+vdp +f+ll++++ +  a ++++  f advq a +K+la+v  +l  +Y+
+  sp|Q90486|HBB1_DANRE  91 VMHSEKLHVDPDNFRLLADCITVCAAMKFGQaGFNADVQEAWQKFLAVVVSALCRQYH 148
+                           *****************************8527*********************9997 PP
+
+>> sp|P56250|HBA_LEIXA  Hemoglobin subunit alpha OS=Leiostomus xanthurus GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.9   0.0   1.3e-39   6.2e-37       3     149 .]       2     143 .]       1     143 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 131.9 bits;  conditional E-value: 1.3e-39
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+ +k +vka+W k+e + +e Ga++L r+++s+P+t+ +F +++    +d   + ++v++Hg  ++ A+++a++++d +l + l++Ls
+  sp|P56250|HBA_LEIXA   2 LSATDKARVKALWDKIEGKSAELGAEALGRMLVSFPQTKIYFSEWG----QDLGPQTPQVRNHGAVIMAAVGKAVKSID-NLVGGLSQLS 86 
+                          9*******************************************94....3444889**********************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          elHa kl+vdp +fk+l++ ++ v+   +p++ft++v+ +++K+la +a +l++kY+
+  sp|P56250|HBA_LEIXA  87 ELHAFKLRVDPANFKILAHNIILVISMYFPGDFTPEVHLSVDKFLACLALALSEKYR 143
+                          ********************************************************7 PP
+
+>> sp|P82345|HBB0_PAGBO  Hemoglobin subunit beta-0 OS=Pagothenia borchgrevinki GN=hbb0 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  132.0   0.1   1.2e-39     6e-37       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 132.0 bits;  conditional E-value: 1.2e-39
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ ++k +++k   +++ +G   L r ++++P+tq++F kF++L t+ ++ ++a v kHg ++l+ l  a++++d ++++++++Ls 
+  sp|P82345|HBB0_PAGBO   5 DFERATIKDIFSKL--EYDVVGPATLARCLVVYPWTQRYFAKFGNLYTATAIAENAMVSKHGITILHGLDRAVKNMD-DIKNTYAELSV 90 
+                           568999********..9999*********************************************************.*********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +fkll+++l  v+aar+++ ft +vqaa+eK++a+v   l  +Y+
+  sp|P82345|HBB0_PAGBO  91 LHSEKLHVDPDNFKLLADCLTIVVAARFGSAFTGEVQAAFEKFMAVVVSSLGRQYH 146
+                           ***************************************************99997 PP
+
+>> sp|Q90485|HBB2_DANRE  Hemoglobin subunit beta-2 OS=Danio rerio GN=ba2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.5   0.0   1.8e-39   8.7e-37       4     149 .]       5     148 .]       2     148 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 131.5 bits;  conditional E-value: 1.8e-39
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ae+t+++ +W+k   +++e G ++L r + ++P+tq++F  F++Ls +++++++++v +Hg++v++ l+ a++++d ++++++++Ls
+  sp|Q90485|HBB2_DANRE   5 TDAERTAILGLWGKL--NIDEIGPQALSRCLIVYPWTQRYFATFGNLSSPAAIMGNPKVAAHGRTVMGGLERAIKNMD-NIKNTYAALS 90 
+                           789************..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpk.eftadvqaaleKllalvakllaskYk 149
+                             H++kl+vdp +fkll++++ +  a ++++  f ad+q a +K+la+v  +l  +Y+
+  sp|Q90485|HBB2_DANRE  91 VMHSEKLHVDPDNFKLLADCITVCAAMKFGQaGFNADIQEAWQKFLAVVVSALCRQYH 148
+                           *****************************8527*********************9997 PP
+
+>> sp|P84204|HBBC_GYMUN  Hemoglobin cathodic subunit beta OS=Gymnothorax unicolor PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.4   0.0   1.9e-39   9.2e-37       4     148 ..       4     145 ..       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 131.4 bits;  conditional E-value: 1.9e-39
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s  e+++++++W+kv    +e G  +  r++ ++P+tq++F +F+dLs  +++ ++a+v +Hgk vld + +a+++ld ++++++ +Ls
+  sp|P84204|HBBC_GYMUN   4 SSSERSTITSLWGKV--IPAEIGPVAFARVLIVYPWTQRYFGNFGDLSNIAAISGNAKVAAHGKVVLDGVDKAVKNLD-NIKGAYTSLS 89 
+                           889************..789**********************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            lH++kl+vdp +fkll+++l  vla+++++eft++vqa  +K+l ++ ++l+ +Y
+  sp|P84204|HBBC_GYMUN  90 LLHSEKLNVDPDNFKLLGDCLTIVLATKFGAEFTPKVQAVWQKFLIVLIHALSRQY 145
+                           *************************************************9999988 PP
+
+>> sp|P83273|HBB2_ANAMI  Hemoglobin subunit beta-2 OS=Anarhichas minor GN=hbb2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.3   0.0     2e-39   9.8e-37       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 131.3 bits;  conditional E-value: 2e-39
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ +++ +++k+  d+e +G  +L r + ++P+tq++F +F++L  +++++++++v kHg  +l+ l  +++++d +++ ++++Ls 
+  sp|P83273|HBB2_ANAMI   5 DFERATIQDIFSKM--DYEVVGPAALSRCLIVYPWTQRYFGSFGNLYNAAAIMGNPNVAKHGTIILHGLDRGVKNMD-NIKETYAELSV 90 
+                           56889999999*99..9************************************************************.*********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +fkl+s++l +v+aa+++k ft +vqaa++K++a+v  +l  +Y+
+  sp|P83273|HBB2_ANAMI  91 LHSEKLHVDPDNFKLISDCLTVVVAAQFGKAFTGEVQAAFQKFMAVVVSALGRQYH 146
+                           ***************************************************99997 PP
+
+>> sp|P45721|HBBC_TRENE  Hemoglobin subunit beta-C OS=Trematomus newnesi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.2   0.1   2.2e-39   1.1e-36       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 131.2 bits;  conditional E-value: 2.2e-39
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ ++k +++k   +++ +G   L r ++++P+tq++F kF++L  ++++ ++a v kHg ++l+ l  a++++d ++ +++++Ls 
+  sp|P45721|HBBC_TRENE   5 DFERATIKDIFSKL--EYDVVGPATLARCLVVYPWTQRYFGKFGNLYNAAAIAQNAMVSKHGTTILNGLDRAVKNMD-DITNTYAELSV 90 
+                           568999********..9999*********************************************************.9********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +fkll+++l  v+aar+++ ft +vqaa++K++a+v   l ++Y+
+  sp|P45721|HBBC_TRENE  91 LHSEKLHVDPDNFKLLADCLTIVVAARFGSAFTGEVQAAFQKFMAVVVSSLGKQYR 146
+                           ***************************************************99996 PP
+
+>> sp|P02017|HBA_CATCL  Hemoglobin subunit alpha OS=Catostomus clarkii GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.1   0.0   2.3e-39   1.1e-36       3     149 .]       2     142 .]       1     142 [] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 131.1 bits;  conditional E-value: 2.3e-39
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkv.ldAlsdalakldekleaklkdL 91 
+                          Ls+++k  vk +Wak+   ++e Ga++L r+++++P+t+++F ++ dLs      +s  vk Hgkkv ++A++da+ k+d +l + l++L
+  sp|P02017|HBA_CATCL   2 LSDKDKADVKIAWAKISPRADEIGAEALGRMLTVYPQTKTYFAHWADLS-----PGSGPVK-HGKKViMGAIGDAVTKFD-DLLGGLASL 84 
+                          99***********************************************.....9999998.67665169*********9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          selHa+kl+vdp +fk+l++++ +v+   lp++f ++v+a+++K+++ +a +l +kY+
+  sp|P02017|HBA_CATCL  85 SELHASKLRVDPSNFKILANCITVVIMFYLPGDFPPEVHASVDKFFQNLALALGQKYR 142
+                          *********************************************************7 PP
+
+>> sp|P02013|HBA2_XENLA  Hemoglobin subunit alpha-2 OS=Xenopus laevis GN=hba2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  131.0   0.9   2.4e-39   1.2e-36       3     149 .]       3     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 131.0 bits;  conditional E-value: 2.4e-39
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++k+++ka+   + a+ ++ G+++  r+f++ P+t+++F++F d +     ++s+++  Hgkkv+dAl++a ++ld ++ +++++L
+  sp|P02013|HBA2_XENLA   3 LSADDKKHIKAIMPSIAAHGDKFGGEASYRMFLVNPKTKTYFPSF-DFH-----HNSKQITSHGKKVVDALNEAANHLD-NIAGSMSKL 84 
+                           9********************************************.777.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa  l+vdp +f ll++ l++v+a ++pk+f ++ + al+K+la+v+++l+skY+
+  sp|P02013|HBA2_XENLA  85 SDLHAYDLRVDPGNFPLLAHNLLVVVAMHFPKQFDPATHKALDKFLATVSTVLTSKYR 142
+                           *********************************************************7 PP
+
+>> sp|Q1AGS4|HBA2_ARCGL  Hemoglobin subunit alpha-2 OS=Arctogadus glacialis GN=hba2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.9   0.1   2.7e-39   1.3e-36       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 130.9 bits;  conditional E-value: 2.7e-39
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k +vk  W+++  ++e  Gad+L r++ ++P+t+ +F ++k Ls      +s +vkkHgk+++  ++da+ k++ +le  l +
+  sp|Q1AGS4|HBA2_ARCGL   2 SLSSKDKATVKLFWGRMSGKAELIGADALSRMLAVYPQTKIYFSHWKSLS-----PGSSEVKKHGKTIMMGIGDAVTKME-DLERGLLT 84 
+                           59************************************************.....9**********************98.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa kl+vdp +fklls  +++v+a  +p++ft+ ++ a++K+l  +a +l++kY+
+  sp|Q1AGS4|HBA2_ARCGL  85 LSELHAFKLRVDPTNFKLLSLNILVVMAIMFPEDFTPMAHLAVDKFLCALALALSEKYR 143
+                           **********************************************************7 PP
+
+>> sp|O13163|HBB_SILAS  Hemoglobin subunit beta OS=Silurus asotus GN=hbb PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.8   0.1   2.9e-39   1.4e-36       4     149 .]       5     148 .]       2     148 .] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 130.8 bits;  conditional E-value: 2.9e-39
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ e+  +  vW+k+  + +e G  +L rl+ ++P+tq++F +F++Ls ++++ ++++v +Hgk v++ l +a+++ld ++++++++Lse
+  sp|O13163|HBB_SILAS   5 TDXERHVIADVWGKI--NPDEIGPHALARLLIVYPWTQRYFSSFGNLSNAAAILGNPKVAAHGKVVVGGLDKAVKHLD-NVKGTYAKLSE 91 
+                          6789999********..99***********************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +f ll+++l  +laa++ p+ ft++v+   +K+l++   +l ++Y+
+  sp|O13163|HBB_SILAS  92 LHSEKLHVDPSNFTLLADCLTITLAAKFgPSVFTPEVHEVWQKFLNVAVAALGKQYH 148
+                          ***************************94578********************99997 PP
+
+>> sp|Q8UUR3|CYGB1_DANRE  Cytoglobin-1 OS=Danio rerio GN=cygb1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.7   0.0   3.1e-39   1.5e-36       3     148 ..      16     164 ..      14     165 .. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 130.7 bits;  conditional E-value: 3.1e-39
+               globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleakl 88 
+                            L+e++   ++  W +v+a+ ++ G+ +Lvr+f+ +P ++++Fe+F++L+ ++e++++a++k+Hg++vl+Al+  + +l d +kl++ +
+  sp|Q8UUR3|CYGB1_DANRE  16 LTEEDVCVIQDTWKPVYAERDNAGVAVLVRFFTNFPSAKQYFEHFRELQDPAEMQQNAQLKEHGQRVLNALNTLVENLrDaDKLNTIF 103
+                            899***************************************************************************87899***** PP
+
+               globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkefta.dvqaaleKllalvakllaskY 148
+                            +++ ++Ha ++kvdp yfk+l+ v+++vl + +p+ f++ +vq++  Kl+ ++  ++   Y
+  sp|Q8UUR3|CYGB1_DANRE 104 NQMGKSHALRHKVDPVYFKILAGVILEVLVEAFPQCFSPaEVQSSWSKLMGILYWQMNRVY 164
+                            *************************************9736*********98877766655 PP
+
+>> sp|Q9CX80|CYGB_MOUSE  Cytoglobin OS=Mus musculus GN=Cygb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.6   0.2   3.3e-39   1.6e-36       3     149 .]      19     167 ..      17     167 .. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 130.6 bits;  conditional E-value: 3.3e-39
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklk 89 
+                           Lseae+++v+a Wa+ +a+ e++G+ iLvr+f+ +P ++++F +F++++ + e++ s++++kH+ +v++Al+ ++ +l d +k+++ l+
+  sp|Q9CX80|CYGB_MOUSE  19 LSEAERKAVQATWARLYANCEDVGVAILVRFFVNFPSAKQYFSQFRHMEDPLEMERSPQLRKHACRVMGALNTVVENLhDpDKVSSVLA 107
+                           9*****************************************************************************878999***** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            + + Ha k+kv+p yfk+ls v+++v+a++++++f  + q a  Kl  l+   ++++Yk
+  sp|Q9CX80|CYGB_MOUSE 108 LVGKAHALKHKVEPMYFKILSGVILEVIAEEFANDFPVETQKAWAKLRGLIYSHVTAAYK 167
+                           **********************************************************97 PP
+
+>> sp|P84652|HBB_COTGO  Hemoglobin subunit beta OS=Cottoperca gobio GN=hbb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.5   0.1   3.6e-39   1.8e-36       5     149 .]       6     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 130.5 bits;  conditional E-value: 3.6e-39
+             globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLsel 94 
+                          + e+ ++k v++k+  ++e +G  +L r ++++P+tq++F +F++L  ++++ ++++v kHg ++l+ l +a++++d ++++++++Ls l
+  sp|P84652|HBB_COTGO   6 DFERATIKDVFSKI--EYEVVGPAALARCLVVYPWTQRYFGNFGNLYNAAAITGNPKVAKHGITILHGLDKAVKNMD-DIRNTYAELSVL 92 
+                          668999********..99***********************************************************.9*********** PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          H++kl+vdp +fkll+++l  v+aa+++k ft ++qaa++K+la+v   l  +Y+
+  sp|P84652|HBB_COTGO  93 HSEKLHVDPDNFKLLADCLTIVVAAQMGKAFTGEIQAAFQKFLAVVVSSLGRQYH 147
+                          **************************************************99997 PP
+
+>> sp|P29623|HBA_GYMAC  Hemoglobin subunit alpha OS=Gymnodraco acuticeps GN=hba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.4   0.0   3.8e-39   1.9e-36       3     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 130.4 bits;  conditional E-value: 3.8e-39
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls+++k +v+a+W+ +    +  G+d+L r+++++P+t+ +F ++     ++ + +s ++k+Hgkkv++ ++ a+ k+d +l++ l +Ls
+  sp|P29623|HBA_GYMAC   2 LSDKDKAAVRALWSTISKSSDAIGNDALSRMIVVYPQTKIYFSHW-----PEVIPGSIHIKEHGKKVMGGIELAVSKID-DLKTGLFELS 85 
+                          99*******************************************.....6677************************9.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha kl+vdp +fk+l +++++v+a+ +pkeft++++ +l+K+l+ va +la++Y+
+  sp|P29623|HBA_GYMAC  86 EQHAFKLRVDPGNFKILNHCILVVIATMFPKEFTPEAHVSLDKFLSGVALALAERYR 142
+                          ********************************************************6 PP
+
+>> sp|P84205|HBAA_GYMUN  Hemoglobin anodic subunit alpha OS=Gymnothorax unicolor PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.3   0.0   3.9e-39   1.9e-36       3     149 .]       2     142 .]       1     142 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 130.3 bits;  conditional E-value: 3.9e-39
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++k  vk  W+k+  + +e G++++ r+++++P+t+ +F ++ +        +sa vkkHg ++l+A++da++++d ++ ++l +L
+  sp|P84205|HBAA_GYMUN   2 LSTKDKAVVKGFWSKISGKSDEIGTEAVGRMLTVYPQTKAYFSHWPET-----TPGSAPVKKHGARILGAINDAVNRID-DMAGALGSL 84 
+                           99*******************************************554.....59***********************9.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           selHa+kl vdp +fk+l+++l+  +   +p++ft++v+ +++K+l+ +a +la +Y+
+  sp|P84205|HBAA_GYMUN  85 SELHANKLCVDPANFKILAHCLMASICLFYPTDFTPEVHLSVDKFLQNLALALADRYR 142
+                           ********************************************************96 PP
+
+>> sp|P0C240|HBB_POGSC  Hemoglobin subunit beta OS=Pogonophryne scotti GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  130.4   0.0   3.9e-39   1.9e-36       3     149 .]       3     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 130.4 bits;  conditional E-value: 3.9e-39
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           se e+t ++ +++    d+++ G  +  r + ++P+tq++F +F++L+ +++++++a+v +Hg kvl+ l  +l+++d ++ +++++Ls
+  sp|P0C240|HBB_POGSC   3 WSESERTIINGIFSHL--DYDDLGPKAFSRCLIVYPWTQRYFSSFGNLHNAEAIMGNANVAAHGIKVLHGLDLGLKHMD-DIMGAYAELS 89 
+                          58999*********99..*************************************************************.999******* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +fklls++++  +aa+l++ ft++ qaa++K+la+v  +l ++Y+
+  sp|P0C240|HBB_POGSC  90 SLHSEKLHVDPDNFKLLSDCIIIAVAAKLGNAFTPETQAAFHKFLAVVVSALGKQYH 146
+                          ******************************************************997 PP
+
+>> sp|Q575S9|CYGB2_ORYLA  Cytoglobin-2 OS=Oryzias latipes GN=cygb2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.8   0.2   5.7e-39   2.8e-36       2     148 ..      18     166 ..      17     167 .. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 129.8 bits;  conditional E-value: 5.7e-39
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleak 87 
+                            +Ls+ae + +++ W+ v+ + e++G+ +L+r+f+ +P ++++F +F+d++ ++e++ks ++++H+++v++A++ ++ +l d ek+++ 
+  sp|Q575S9|CYGB2_ORYLA  18 PLSDAEMEIIQHTWGHVYKNCEDVGVSVLIRFFVNFPSAKQYFSQFQDMQDPEEMEKSSQLRQHARRVMNAINTVVENLqDpEKVSSV 105
+                            69*****************************************************************************8799***** PP
+
+               globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            l+ + + Ha k+kv+p yfk+ s v++ vl + +p+ fta+vq    Kl+a v   ++ +Y
+  sp|Q575S9|CYGB2_ORYLA 106 LALVGKAHAVKHKVEPIYFKIXSGVMLSVLSEDFPEFFTAEVQLVWTKLMAAVYWHVTGAY 166
+                            *****************************************************99999888 PP
+
+>> sp|P11749|HBB_THUTH  Hemoglobin subunit beta OS=Thunnus thynnus GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.3   0.0   8.4e-39   4.1e-36       5     149 .]       5     146 .]       1     146 [] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 129.3 bits;  conditional E-value: 8.4e-39
+             globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLsel 94 
+                          ++e++ +    a+   ++e+ G  +L r + ++P+tq++F  ++dLst+d++k++a++ +Hg+kvl+ l  a++++d +++ ++++Ls l
+  sp|P11749|HBB_THUTH   5 QQERSIIAGFIANL--NYEDIGPKALARCLIVYPWTQRYFGAYGDLSTPDAIKGNAKIAAHGVKVLHGLDRAVKNMD-NINEAYSELSVL 91 
+                          56666666666766..99***********************************************************.************ PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          H++kl+vdp +f++l+++l +v+aa+l+  ft + q a++K+la+v  +l  kY+
+  sp|P11749|HBB_THUTH  92 HSDKLHVDPDNFRILGDCLTVVIAANLGDAFTVETQCAFQKFLAVVVFALGRKYH 146
+                          ******************************************************7 PP
+
+>> sp|P80271|HBB_CHEKU  Hemoglobin subunit beta OS=Chelidonichthys kumu GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.2   0.0   8.8e-39   4.3e-36       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 129.2 bits;  conditional E-value: 8.8e-39
+             globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLsel 94 
+                          + e+ +++ +++k+  d+e++G   L+r + ++P+t+++F kF+++   +++ +++++ kHg ++l+ l  +++++d ++++++++Ls+l
+  sp|P80271|HBB_CHEKU   5 DFERATIQDIFSKM--DYETVGPATLTRTVIVYPWTLRYFAKFGNICSTAAILGNKEIAKHGTTILHGLDRGVKNMD-DIKNTYAELSKL 91 
+                          5688999999**99..*************************************************************.************ PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          H++kl+vdp +f+lls++l  v+aa+++k+ft +vqaa++K+l++v + l  +Y+
+  sp|P80271|HBB_CHEKU  92 HSEKLHVDPDNFRLLSDCLTIVVAAKMGKDFTGEVQAAFQKFLSVVVNSLGRQYH 146
+                          ***************************************************9997 PP
+
+>> sp|P45722|HBBC_TREBE  Hemoglobin subunit beta-C OS=Trematomus bernacchii GN=hbbc PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.2   0.1   8.8e-39   4.3e-36       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 129.2 bits;  conditional E-value: 8.8e-39
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ ++k +++k   +++ +G   L r ++++P+tq++F kF++L  + ++ ++a v kHg ++l+ l  a++++d ++++++++Ls 
+  sp|P45722|HBBC_TREBE   5 DFERATIKDIFSKL--EYDVVGPATLARCLVVYPWTQRYFGKFGNLYNATAIAENAMVSKHGTTILHGLDRAVKNMD-DIKNTYAELSV 90 
+                           568999********..9999*********************************************************.*********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +fkll+++l  v+aar+++ ft +vqaa+eK++a+v   l  +Y+
+  sp|P45722|HBBC_TREBE  91 LHSEKLHVDPDNFKLLADCLTIVVAARFGSAFTGEVQAAFEKFMAVVVSSLGRQYH 146
+                           ***************************************************99997 PP
+
+>> sp|P83625|HBB2_PSEUR  Hemoglobin subunit beta-2 OS=Pseudaphritis urvillii GN=hbb2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  129.1   0.0   9.5e-39   4.6e-36       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 129.1 bits;  conditional E-value: 9.5e-39
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ ++k +++k+  ++e +G  +L r ++++P+tq++F kF++L  ++++ +++ + kHg ++l+ l  a++++d ++++++++Ls 
+  sp|P83625|HBB2_PSEUR   5 DFERATIKDIFSKI--EYEVVGPAALARCLVVYPWTQRYFGKFGNLYNAEAITGNPMISKHGTTILHGLDRAVKNMD-DIKNTYAELSV 90 
+                           668999********..99***********************************************************.*********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++ l+vdp +fklls++l  v+a +l+k+ft +vqaa++K+la+v   l  +Y+
+  sp|P83625|HBB2_PSEUR  91 LHSETLHVDPDNFKLLSDCLTIVVAGQLGKDFTGEVQAAFQKFLAVVVSSLGRQYH 146
+                           ***************************************************99997 PP
+
+>> sp|P07431|HBA2_XENBO  Hemoglobin subunit alpha-2 OS=Xenopus borealis GN=hba2 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.9   0.4   1.1e-38   5.3e-36       3     149 .]       3     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 128.9 bits;  conditional E-value: 1.1e-38
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++k+++ka+   + a+ ++ G+++L r+f+  P+t+++F++F d +     ++s+++ +Hgkkv+dAl++a ++ld ++ +++++L
+  sp|P07431|HBA2_XENBO   3 LTADDKKHIKAILPSIAAHGDKFGGEALYRMFLINPKTKTYFPNF-DFH-----HNSKQISAHGKKVVDALNEAANHLD-NIAGSMSKL 84 
+                           89*******************************************.777.....9************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+lHa  l+vdp +f ll++ +++++a  +p++f ++ + al+K+la+v+ +l+skY+
+  sp|P07431|HBA2_XENBO  85 SDLHAYDLRVDPGNFPLLAHNILVTVAMYFPQQFDPHTHKALDKFLASVSSVLTSKYR 142
+                           *********************************************************7 PP
+
+>> sp|P29625|HBB_GYMAC  Hemoglobin subunit beta OS=Gymnodraco acuticeps GN=hbb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.9   0.1   1.1e-38   5.4e-36       4     149 .]       5     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 128.9 bits;  conditional E-value: 1.1e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ ek +++ +++    d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +l+k+d ++ea+++dLs 
+  sp|P29625|HBB_GYMAC   5 TKTEKATITDIFSHL--DYDDIGPKALSRCLIVYPWTQRYFSGFGNLYNAAAIIGNAKVAEHGIKVLHGLDLGLKKMD-NIEAAYADLSS 91 
+                          7899**********9..*************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +fklls+++  vlaa+l++ fta+ qa+++K+l  v  +l ++Y+
+  sp|P29625|HBB_GYMAC  92 LHSEKLHVDPDNFKLLSDCITIVLAAKLGSAFTAETQATFQKFLGAVMSALGKQYH 147
+                          *****************************************************997 PP
+
+>> sp|P02139|HBB_CYPCA  Hemoglobin subunit beta-A/B OS=Cyprinus carpio PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.7   0.0   1.2e-38     6e-36       4     149 .]       4     147 .]       1     147 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 128.7 bits;  conditional E-value: 1.2e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ae++++ a+W+k   + +e G ++L r + ++P+tq+fF ++++Ls +++++++++v +Hg++v + l  a++ +d +++a++++Ls 
+  sp|P02139|HBB_CYPCA   4 TDAERSAIIALWGKL--NPDELGPEALARCLIVYPWTQRFFASYGNLSSPAAIMGNPKVAAHGRTVEGGLMRAIKDMD-NIKATYAPLSV 90 
+                          789************..99***********************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                           H++kl+vdp +f+ll++++ +  a ++ p+ f+++vq a +K+l++v ++l+ +Y+
+  sp|P02139|HBB_CYPCA  91 MHSEKLHVDPDNFRLLADCITVCAAMKFgPSGFSPNVQEAWQKFLSVVVNALKRQYH 147
+                          *********************99999995689***********************97 PP
+
+>> sp|P07432|HBB1_XENBO  Hemoglobin subunit beta-1 OS=Xenopus borealis GN=hbb1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.7   0.0   1.3e-38   6.3e-36       3     149 .]       3     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 128.7 bits;  conditional E-value: 1.3e-38
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ +++ +++ W+kv   +++ G+++L rl+ ++P+tq++F +F++L+ +d++  ++ v +Hg+kv++ +++a++++d ++++ +++L
+  sp|P07432|HBB1_XENBO   3 LTAHDRQLINSTWGKV--CAKTIGKEALGRLLWTYPWTQRYFSSFGNLNSADAVFHNEAVAAHGEKVVTSIGEAIKHMD-DIKGYYAQL 88 
+                           899*************..6789*********************************************************.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+ H++ l+vdp +fk ++ +l   la ++ +e+t++ +aa+e l++ +a +l + Y+
+  sp|P07432|HBB1_XENBO  89 SKYHSETLHVDPCNFKRFGGCLSISLARQFHEEYTPELHAAYEHLFDAIADALGKGYH 146
+                           *****************************************************99986 PP
+
+>> sp|P02132|HBB1_XENLA  Hemoglobin subunit beta-1 OS=Xenopus laevis GN=hbb1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.6   0.0   1.3e-38   6.4e-36       3     149 .]       3     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 128.6 bits;  conditional E-value: 1.3e-38
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++ +++ +++ W+k    +++ G+++L rl+ ++P+tq++F +F++L+ +d++  ++ v +Hg+kv++ +++a++++d ++++ +++L
+  sp|P02132|HBB1_XENLA   3 LTAHDRQLINSTWGKL--CAKTIGQEALGRLLWTYPWTQRYFSSFGNLNSADAVFHNEAVAAHGEKVVTSIGEAIKHMD-DIKGYYAQL 88 
+                           899*************..6789*********************************************************.9******** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s+ H++ l+vdp +fk ++ +l   la ++ +e+t++ +aa+e l++ +a +l + Y+
+  sp|P02132|HBB1_XENLA  89 SKYHSETLHVDPLNFKRFGGCLSIALARHFHEEYTPELHAAYEHLFDAIADALGKGYH 146
+                           *****************************************************99986 PP
+
+>> sp|Q7LZC1|HBB3_MURHE  Hemoglobin subunit beta-3 OS=Muraena helena GN=hbb3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.6   0.0   1.4e-38   6.7e-36       4     149 .]       4     147 .]       1     147 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 128.6 bits;  conditional E-value: 1.4e-38
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ae+t+++++W k+  +++e G  ++ rl+ + P+tq++F  F+++st+++++ ++ v kHg +v++ l  a++++d ++++++++Ls
+  sp|Q7LZC1|HBB3_MURHE   4 TDAERTAILTLWKKI--NIDEIGPCAMRRLLIVSPWTQRHFSTFGNISTNAAIMDNDLVAKHGSTVMGGLDRAIKNMD-DIKGAYRELS 89 
+                           789************..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                           ++H+++l+vdp +f+ll+e++   +a ++ pkeftadv+ a  K+la v+ +l+ +Y+
+  sp|Q7LZC1|HBB3_MURHE  90 KKHSDQLHVDPDNFRLLAECITLCVAGKFgPKEFTADVHEAWYKFLAAVTSALSRQYH 147
+                           **************************999679************************97 PP
+
+>> sp|O93351|HBB_TREHA  Hemoglobin subunit beta OS=Trematomus hansoni GN=hbb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.6   0.0   1.4e-38   6.6e-36       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 128.6 bits;  conditional E-value: 1.4e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++e++ +  +++ +  d+++ G  +L r ++++P+tq++F  F++L  ++ ++++a+v +Hg kvl+ l  +++++d ++ a+++dLs 
+  sp|O93351|HBB_TREHA   5 TDKERSIISDIFSHM--DYDDIGPKALSRCLVVYPWTQRYFSGFGNLYNAEGIMSNANVAAHGIKVLHGLDRGVKNMD-NIAATYADLST 91 
+                          677888899999988..9************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +fklls+++  vlaa++++ fta+ q+a++K+la+v  +l ++Y+
+  sp|O93351|HBB_TREHA  92 LHSEKLHVDPDNFKLLSDCITIVLAAKMGHAFTAETQGAFQKFLAVVVSALGKQYH 147
+                          *****************************************************997 PP
+
+>> sp|Q9PVM3|HBAB_SERQU  Hemoglobin subunit alpha-B OS=Seriola quinqueradiata GN=hbab PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.4   0.1   1.6e-38   7.8e-36       2     149 .]       2     144 .]       1     144 [] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 128.4 bits;  conditional E-value: 1.6e-38
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFk.dLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                            Ls+++kt+vk+ W kve + +e G+++L r+++++P+t+ +F +++ dL+      + + vkkHg  +++ +++a++++d +l   l+
+  sp|Q9PVM3|HBAB_SERQU   2 SLSAKDKTTVKKFWDKVEGKSAEIGGEALGRMLVAYPQTKAYFSHWGsDLN-----PQHPMVKKHGAIIMGGIGKAVKNID-DLVRGLS 84 
+                           69********************************************52455.....78899*******************9.9****** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +LselHa kl+vdp +fk+l++ ++ v a  +p++ft++v+ +++K+l+ va +la++Y+
+  sp|Q9PVM3|HBAB_SERQU  85 ALSELHAFKLRVDPANFKILAHNVILVAAMYFPADFTPEVHVSVDKFLQRVALALAERYR 144
+                           ***********************************************************6 PP
+
+>> sp|Q1AGS8|HBA2_BORSA  Hemoglobin subunit alpha-2 OS=Boreogadus saida GN=hba2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.2   0.1   1.8e-38   8.8e-36       2     149 .]       2     143 .]       1     143 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 128.2 bits;  conditional E-value: 1.8e-38
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls+++k +vk  W+k+  + e  Gad+L r++ ++P+t+ +F ++k  s      +s++vkkHgk+++  +++a+ k+d +le  l +
+  sp|Q1AGS8|HBA2_BORSA   2 SLSAKDKATVKLFWGKMSGKSELIGADALSRMLAVYPQTKIYFSHWKSCS-----PGSPEVKKHGKTIMMGIGEAVTKMD-DLERGLLT 84 
+                           69*********************************************999.....9************************.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa kl+vdp +fklls  +++v+a  +p +ft+ ++ a++K+l  +a +l++kY+
+  sp|Q1AGS8|HBA2_BORSA  85 LSELHAFKLRVDPTNFKLLSLNILVVMAIMFPLDFTPMAHLAVDKFLCALALALSEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P02140|HBB_CARAU  Hemoglobin subunit beta OS=Carassius auratus GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.1   0.0   1.9e-38   9.3e-36       4     149 .]       4     147 .]       1     147 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 128.1 bits;  conditional E-value: 1.9e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ae++++  +W+k   + +e G ++L r + ++P+tq++F  F++Ls +++++++++v +Hg++v++ l+ a++++d +++a++++Ls 
+  sp|P02140|HBB_CARAU   4 TDAERSAIIGLWGKL--NPDELGPQALARCLIVYPWTQRYFATFGNLSSPAAIMGNPKVAAHGRTVMGGLERAIKNMD-NIKATYAPLSV 90 
+                          789************..99***********************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                           H++kl+vdp +f+ll++++ +  a ++ p+ f advq a +K+l++v  +l  +Y+
+  sp|P02140|HBB_CARAU  91 MHSEKLHVDPDNFRLLADCITVCAAMKFgPSGFNADVQEAWQKFLSVVVSALCRQYH 147
+                          *********************99999995689*********************9997 PP
+
+>> sp|O13164|HBB_DECMA  Hemoglobin subunit beta OS=Decapterus maruadsi GN=hbb PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  128.1   0.0   1.9e-38   9.4e-36       4     149 .]       5     148 .]       2     148 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 128.1 bits;  conditional E-value: 1.9e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ e+ +++++W+k+  dv+e G ++L rl+ ++P+tq++F  F++Lst++++ ++++v +Hgk+v++ l+ a++++d ++++++++Ls+
+  sp|O13164|HBB_DECMA   5 TDXERAAITSLWGKI--DVGEIGPQALARLLIVYPWTQRHFSTFGNLSTNAAILGNPKVAAHGKTVMGGLELAVKNMD-NIKGAYANLSK 91 
+                          67899**********..*************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                           H++k +vdp +f+ll+e+    laa++ p+ ft+d q a +K+ + v  +l  +Y+
+  sp|O13164|HBB_DECMA  92 MHSEKIHVDPDNFRLLAEITTICLAAKFgPSVFTPDFQEAWQKFENAVVSALGRQYH 148
+                          ***************************94578********************99996 PP
+
+>> sp|P10785|HBB1_TRICR  Hemoglobin subunit beta-1 OS=Triturus cristatus GN=HBB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.9   0.3   2.2e-38     1e-35       4     149 .]       3     145 .]       1     145 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 127.9 bits;  conditional E-value: 2.2e-38
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e ++++ v +k+   v+++Ga++L rl+++ P+t+++F++F+dLs +++++ +++v  Hg kv++ +++a+++ld +l+a ++dLs
+  sp|P10785|HBB1_TRICR   3 TNDESQHIHDVCGKI--PVDQVGAEALGRLILVNPWTRRYFKSFGDLSSAEAIQHNPKVASHGAKVMHSIAEAVKHLD-DLKAYYADLS 88 
+                           78999**********..9***********************************************************9.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                             H+kkl vdp +fkl++ ++  v   +l++++ta+ qaa+eK+l  v  +la+ Y+
+  sp|P10785|HBB1_TRICR  89 TIHCKKLYVDPANFKLFGGIVSIVTGMHLGTDYTAQKQAAFEKFLHHVEAALATGYH 145
+                           *****************************************************9997 PP
+
+>> sp|P10783|HBA1_TRICR  Hemoglobin subunit alpha-1 OS=Triturus cristatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.7   0.8   2.6e-38   1.3e-35       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 127.7 bits;  conditional E-value: 2.6e-38
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +Ls+++k +vka+W  v+ + e  Ga++L r+f+s P+t+++F+  kd++     ++s  ++ Hgkkv++Als+a+a++d +++++l++
+  sp|P10783|HBA1_TRICR   2 KLSADDKHNVKAIWEHVKGHEEAIGAEALCRMFTSLPTTRTYFPT-KDIK-----EGSSFLHSHGKKVMGALSNAVAHID-DIDGALSK 83 
+                           69******************************************7.5888.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls++Ha++l vdp +f  l++ +++vl  +l  ++t +v+++++K+la+v  +laskY+
+  sp|P10783|HBA1_TRICR  84 LSDKHAEELMVDPANFPKLAHNILVVLGIHLKPHLTYSVHSSVDKFLATVGYVLASKYR 142
+                           **********************************************************7 PP
+
+>> sp|P02138|HBB_LEPPA  Hemoglobin subunit beta OS=Lepidosiren paradoxus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.3   0.1   3.4e-38   1.7e-35       4     149 .]       4     147 .]       1     147 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 127.3 bits;  conditional E-value: 3.4e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           +aek+ + +v++k+  dv+ +Ga+ L+r++ ++P+t+++F++F+dLs + ++k +++v +Hg+kvl A+ +  +++  +++++l++Ls+
+  sp|P02138|HBB_LEPPA   4 EDAEKQYIVSVFSKI--DVDHVGANTLERVLIVFPWTKRYFNSFGDLSSPGAIKHNNKVSAHGRKVLAAIIECTRHFG-NIKGHLANLSH 90 
+                          679************..***********************************************************76.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlp.keftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp++f++l+++l   laa l+ keft++ +a ++K+++++++ l   Y+
+  sp|P02138|HBB_LEPPA  91 LHSEKLHVDPHNFRVLGQCLRIELAAALGfKEFTPERNAYFQKFMDVISHSLGREYH 147
+                          ************************9999879*********************99996 PP
+
+>> sp|P84610|HBB1_GADMO  Hemoglobin subunit beta-1 OS=Gadus morhua GN=hbb1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.1   0.0     4e-38     2e-35       4     149 .]       5     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 127.1 bits;  conditional E-value: 4e-38
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ae+ +v+avW+k+  d++  G  +L+r + ++P+tq++F +F+dLst++++ ++++v +Hg+  l+ l  al ++d ++++++++Ls
+  sp|P84610|HBB1_GADMO   5 TAAERRHVEAVWSKI--DIDVCGPLALQRCLIVYPWTQRYFGEFGDLSTDAAIVGNPKVAAHGVVALTGLRTALDHMD-EIKSTYAALS 90 
+                           899************..9999*********************************************************.9********* PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +f+ll e+l  v+a +++k++++++qaa +K l  v  +l  +Y+
+  sp|P84610|HBB1_GADMO  91 VLHSEKLHVDPDNFRLLCECLTIVVAGKMGKKLSPEMQAAWQKYLCAVVSALGRQYH 147
+                           ****************************************************99997 PP
+
+>> sp|O93348|HBB1_PAGBO  Hemoglobin subunit beta-1 OS=Pagothenia borchgrevinki GN=hbb1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  127.0   0.0   4.3e-38   2.1e-35       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 127.0 bits;  conditional E-value: 4.3e-38
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e++ +  +++    d+e+ G  +L r + ++P+tq++F  F++L  ++ + ++a+v +Hg kvl+ l  +l+++d ++ea+++dLs
+  sp|O93348|HBB1_PAGBO   5 TDKERSIISDIFSHL--DYEDIGPKALSRCLIVYPWTQRHFSGFGNLYNAESIIGNANVAAHGIKVLHGLDRGLKNMD-NIEATYADLS 90 
+                           677888899999998..9************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +fkll++++  vlaa++++ fta++q+a++K+la+v  +l ++Y+
+  sp|O93348|HBB1_PAGBO  91 TLHSEKLHVDPDNFKLLADCITIVLAAKMGQAFTAEIQGAFQKFLAVVVSALGKQYH 147
+                           ******************************************************997 PP
+
+>> sp|P06639|HBA1_PLEWA  Hemoglobin subunit alpha-1 OS=Pleurodeles waltl PE=2 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.8   1.1     5e-38   2.4e-35       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 126.8 bits;  conditional E-value: 5e-38
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +L++++k +vka+W  v+ + e  Ga++L r+f  +P+t+ +F+  kdLs     + s  ++ Hgkkv++Al++a+a++d ++++++++
+  sp|P06639|HBA1_PLEWA   2 KLTAEDKHNVKAIWDHVKGHEEAIGAEALYRMFCCMPTTRIYFPA-KDLS-----ERSSYLHSHGKKVVGALTNAVAHID-DIDTAFSK 83 
+                           69******************************************8.6***.....99**********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls++Ha++l vdp +f  l++ +++vl  +l  +ft +v+ +++K+l++va +laskY+
+  sp|P06639|HBA1_PLEWA  84 LSDKHAEELMVDPANFPKLAHNILVVLGIHLKPHFTYSVHRSVDKFLSTVAYVLASKYR 142
+                           **********************************************************7 PP
+
+>> sp|P83272|HBB1_ANAMI  Hemoglobin subunit beta-1 OS=Anarhichas minor GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.7   0.0   5.1e-38   2.5e-35       4     148 ..       4     145 ..       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 126.7 bits;  conditional E-value: 5.1e-38
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s++e+  + +++a    d+e+ G  +L r + ++P+tq++F +F++Lst++++++++++ +Hg kvl+ l  +++++d +++ ++ +Ls
+  sp|P83272|HBB1_ANAMI   4 SDKERAVIISIFAGL--DYEDIGPKALSRCLIVYPWTQRYFGSFGNLSTPAAIMGNPKIAAHGIKVLHGLDRGVKNMD-NIKDAYTELS 89 
+                           889999999999999..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            lH++ l+vdp +fkll+++l  v+aa+++  ft+d q a++K+la+v  +l ++Y
+  sp|P83272|HBB1_ANAMI  90 ILHSETLHVDPDNFKLLADCLTIVVAAKMGCAFTPDTQLAFQKFLAVVVSALGKQY 145
+                           ****************************************************9998 PP
+
+>> sp|Q1AGS7|HBB1_BORSA  Hemoglobin subunit beta-1 OS=Boreogadus saida GN=hbb1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.4   0.0   6.6e-38   3.2e-35       4     149 .]       5     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 126.4 bits;  conditional E-value: 6.6e-38
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ e+t+++a+W+k+  d++  G  +L+r + ++P+tq++F +F+dLst++++ ++++v +Hg+  l+ l  al ++d +++a++++Ls
+  sp|Q1AGS7|HBB1_BORSA   5 TATERTHIEAIWSKI--DIDVCGPLALQRCLIVYPWTQRYFGSFGDLSTDAAIVGNPKVANHGVVALTGLRTALDHMD-DIKATYATLS 90 
+                           789************..9999*********************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +f+ll ++l  v+a +++  + +++qaa +K l+ v  +l  +Y+
+  sp|Q1AGS7|HBB1_BORSA  91 VLHSEKLHVDPDNFRLLCDCLTIVVAGKFGPTLRPEMQAAWQKYLSAVVSALGRQYH 147
+                           ****************************************************99997 PP
+
+>> sp|P02206|MYG_HETPO  Myoglobin OS=Heterodontus portusjacksoni GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.3   0.1   7.1e-38   3.5e-35       6     149 .]       2     143 ..       1     143 [. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 126.3 bits;  conditional E-value: 7.1e-38
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           e+++v++vWa ve d+  +G  iL rlfk + +t++ F+kFk++   ++l +++d++kHg++vl Al+++l++ ++k+++++k+L++ H
+  sp|P02206|MYG_HETPO   2 TEWEHVNKVWAVVEPDIPAVGLAILLRLFKEHKETKDLFPKFKEIP-VQQLGNNEDLRKHGVTVLRALGNILKQ-KGKHSTNVKELADTH 89 
+                          59*******************************************9.89*************************.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +k+k++pk+f l++++ v+vl + +p+++t ++q ++ K++ +++ +l + Yk
+  sp|P02206|MYG_HETPO  90 INKHKIPPKNFVLITNIAVKVLTEMYPSDMTGPMQESFSKVFTVICSDLETLYK 143
+                          *************************************************99996 PP
+
+>> sp|Q1AGS5|HBA1_ARCGL  Hemoglobin subunit alpha-1 OS=Arctogadus glacialis GN=hba1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.2   0.1   7.4e-38   3.6e-35       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 126.2 bits;  conditional E-value: 7.4e-38
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k +vk+ ++k+ +  ++ Ga++L rl+ ++P+t+ +F ++kd s      +sa v+kHg ++++ + da+ k+d +l++ l +
+  sp|Q1AGS5|HBA1_ARCGL   2 SLSSKDKATVKEFFGKMSTRSDDIGAEALSRLVAVYPQTKSYFSHWKDAS-----PGSAPVRKHGITIMGGVYDAVTKID-DLKGGLLS 84 
+                           59********************************************9988.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fkll++++++ +   +p+eft++v+ a++K+la +a +la+kY+
+  sp|Q1AGS5|HBA1_ARCGL  85 LSELHAFMLRVDPVNFKLLAHCMLVCMSMVFPEEFTPQVHVAVDKFLAQLALALAEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P0C239|HBB_ARTOR  Hemoglobin subunit beta OS=Artedidraco orianae GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.2   0.0   7.5e-38   3.6e-35       3     149 .]       3     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 126.2 bits;  conditional E-value: 7.5e-38
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s+ e+t ++ ++++   d+++ G  +  r + ++P+tq++F +F++L  +++++++a+v +Hg kvl+ l  +++++d ++ + +++Ls
+  sp|P0C239|HBB_ARTOR   3 WSDSERTIINGIFSQL--DYDDLGPKAFSRCLIVYPWTQRYFSSFGNLDNAEAIMGNANVAAHGIKVLHGLDRGVKNMD-DIMGVYAELS 89 
+                          588999999****999..*************************************************************.9999****** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +fklls+++  v+aa+l++ ft++ qaa++K+l  v   l ++Y+
+  sp|P0C239|HBB_ARTOR  90 SLHSEKLHVDPDNFKLLSDCITIVVAAKLGNAFTPETQAAFQKFLGAVVMFLGKQYH 146
+                          ****************************************************99997 PP
+
+>> sp|P80044|HBB_TREBE  Hemoglobin subunit beta OS=Trematomus bernacchii GN=hbb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  126.1   0.1   7.9e-38   3.9e-35       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 126.1 bits;  conditional E-value: 7.9e-38
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++e++ +  +++ +  d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +++++d ++ a+++dLs 
+  sp|P80044|HBB_TREBE   5 TDKERSIISDIFSHM--DYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAIIGNANVAAHGIKVLHGLDRGVKNMD-NIAATYADLST 91 
+                          677888899999988..9************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +fklls+++  vlaa++++ fta+ q+a++K+la+v  +l ++Y+
+  sp|P80044|HBB_TREBE  92 LHSEKLHVDPDNFKLLSDCITIVLAAKMGHAFTAETQGAFQKFLAVVVSALGKQYH 147
+                          *****************************************************997 PP
+
+>> sp|Q6Y239|HBB_PAGMA  Hemoglobin subunit beta OS=Pagrus major GN=hbb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.7   0.0     1e-37     5e-35       4     149 .]       5     148 .]       2     148 .] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 125.7 bits;  conditional E-value: 1e-37
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ae++++k++W+k+  +v+e G ++L+rl+ ++P+tq++F +F+++st++++ ++++v +Hg++v++ l  a+++ld ++++++  Ls+
+  sp|Q6Y239|HBB_PAGMA   5 TDAERSAIKTLWGKI--NVAEIGPQALTRLMIVYPWTQRHFSSFGNISTNAAILGNEKVAEHGRTVMGGLDRAVQNLD-DIKNAYTLLSQ 91 
+                          789************..************************************************************9.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                          +H++  +vdp +f+ll+e+    +  +l pk f a+vq a +K+la+v ++l  +Y+
+  sp|Q6Y239|HBB_PAGMA  92 KHSEIIHVDPDNFRLLAECFSICVGIKLgPKVFNANVQEAWQKFLAVVVNALGRQYH 148
+                          *******************9766665553899*********************9997 PP
+
+>> sp|P85082|HBB1_LIPTU  Hemoglobin subunit beta-1 OS=Liparis tunicatus GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.7   0.0   1.1e-37   5.2e-35       3     149 .]       4     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 125.7 bits;  conditional E-value: 1.1e-37
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                            ++ e++++k ++ak+  d++ +G  +  r + ++P+tq++F +F++L  ++++ ++++v kHg ++++ l+ ++++ld +l  ++++L
+  sp|P85082|HBB1_LIPTU   4 WTDFERSTIKDIFAKI--DYDCVGPAAFARCLIVYPWTQRYFGNFGNLFNAAAIIGNPNVAKHGITIMHGLERGVKNLD-HLTETYEEL 89 
+                           577899**********..*************************************************************.********* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           s lH++kl+vdp +fkl+s++l  v+a+rl+k ft +vqaal+K+la+v   l ++Y+
+  sp|P85082|HBB1_LIPTU  90 SVLHSEKLHVDPDNFKLISDCLTIVVASRLGKAFTGEVQAALQKFLAVVVFSLGKQYH 147
+                           *****************************************************99997 PP
+
+>> sp|P23017|HBB1_CYGMA  Hemoglobin subunit beta-1 OS=Cygnodraco mawsoni GN=hbb1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.6   0.1   1.2e-37   5.7e-35       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 125.6 bits;  conditional E-value: 1.2e-37
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s+ e t ++ +++    d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +l+++d ++  ++++Ls
+  sp|P23017|HBB1_CYGMA   5 SKTELTIINDIFSHL--DYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAIIGNANVAAHGIKVLHGLDRGLKNMD-NIVDAYAELS 90 
+                           778889999999999..9************************************************************.9********* PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +fklls+++  vlaa+l+k fta+ qaa++K++a+v  +l ++Y+
+  sp|P23017|HBB1_CYGMA  91 TLHSEKLHVDPDNFKLLSDCITIVLAAKLGKAFTAETQAAFQKFMAVVVSALGKQYH 147
+                           ******************************************************997 PP
+
+>> sp|P45720|HBB_TRENE  Hemoglobin subunit beta-1/2 OS=Trematomus newnesi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  125.2   0.0   1.5e-37   7.4e-35       4     149 .]       4     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 125.2 bits;  conditional E-value: 1.5e-37
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++e++ +  +++ +  d+++ G  +L r ++++P+tq++F  F++L  ++ ++++a+v +Hg kvl+ l  +++++d ++  ++ dLs 
+  sp|P45720|HBB_TRENE   4 TDKERSIISDIFSHM--DYDDIGPKALSRCLVVYPWTQRYFSGFGNLYNAEGIMSNANVAAHGIKVLHGLDRGMKNMD-NIADAYTDLST 90 
+                          677888899999988..9************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +fklls+++  vlaa++++ fta+ q+a++K+la v  +l ++Y+
+  sp|P45720|HBB_TRENE  91 LHSEKLHVDPDNFKLLSDCITIVLAAKMGHAFTAETQGAFQKFLAAVVSALGKQYH 146
+                          *****************************************************997 PP
+
+>> sp|P83612|HBB1_GOBGI  Hemoglobin subunit beta-1 OS=Gobionotothen gibberifrons GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.7   0.1   2.1e-37     1e-34       4     149 .]       4     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 124.7 bits;  conditional E-value: 2.1e-37
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e+  ++ +++ +  d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +++++d ++ a++++Ls
+  sp|P83612|HBB1_GOBGI   4 TDKERAIITDIFSHM--DYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAIIGNANVAAHGIKVLHGLDRGVKNMD-NIAATYAELS 89 
+                           667888899999988..9************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +fklls+++  v+aa+l++ fta+ q+al+K+la+v  +l ++Y+
+  sp|P83612|HBB1_GOBGI  90 TLHSEKLHVDPDNFKLLSDCITIVVAAKLGHAFTAETQGALQKFLAVVVSALGKQYH 146
+                           ******************************************************997 PP
+
+>> sp|P83614|HBB2_GOBGI  Hemoglobin subunit beta-2 OS=Gobionotothen gibberifrons GN=hbb2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.7   0.0   2.1e-37     1e-34       5     149 .]       5     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 124.7 bits;  conditional E-value: 2.1e-37
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           + e+ +++ +++k   ++e +G   L r ++++P+tq++F +F++L  ++++ +++ v kHg ++l+ l  a++++d ++++++++Ls 
+  sp|P83614|HBB2_GOBGI   5 DFERATINDIFSKL--EYEVVGPATLARCLVVYPWTQRYFGNFGNLYNAAAIAENPMVSKHGITILHGLDRAVKNMD-DIKNTYAELSV 90 
+                           56888999999999..999**********************************************************.*********** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           lH++kl+vdp +f+ll+++l  v+aar+++ ft +vqaa++K+l++v   l  +Y+
+  sp|P83614|HBB2_GOBGI  91 LHSEKLHVDPDNFQLLADCLTIVVAARFGNTFTGEVQAAFQKFLSVVVSSLGRQYH 146
+                           ***************************************************99997 PP
+
+>> sp|P29628|HBB_NOTAN  Hemoglobin subunit beta OS=Notothenia angustata GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.7   0.1   2.2e-37   1.1e-34       4     149 .]       4     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 124.7 bits;  conditional E-value: 2.2e-37
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          s+ e+  ++ +++ +  d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +++++d ++ a++++Ls 
+  sp|P29628|HBB_NOTAN   4 SDSERAIITDIFSHM--DYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAILGNANVAAHGIKVLHGLDRGVKNMD-NIAATYAELSI 90 
+                          788999999999999..*************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +fklls+++  v+aa++++ ft++ qaa++K+la+v  +l ++Y+
+  sp|P29628|HBB_NOTAN  91 LHSEKLHVDPDNFKLLSDCITIVVAAKMGQAFTPETQAAVQKFLAVVVSALGKQYH 146
+                          *****************************************************997 PP
+
+>> sp|P02014|HBA_TARGR  Hemoglobin subunit alpha OS=Taricha granulosa GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.4   1.3   2.6e-37   1.3e-34       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 124.4 bits;  conditional E-value: 2.6e-37
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Ls+++k +vk+ W  ++ + e  Ga++L r+f+s Pat+++F+  kdLs     ++s  ++ Hgkkv++Als+a+a++d +++a+l +L
+  sp|P02014|HBA_TARGR   2 KLSAEDKHNVKTTWDHIKGHEEALGAEALFRMFTSLPATRTYFPA-KDLS-----EGSSFLHSHGKKVMGALSNAVAHID-DIDAALCKL 84 
+                          69******************************************8.6***.....9***********************9.9******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s++Ha+ l vdp +f  l++ +++v+  +l +++t +v+ +++K+l++v ++l+skY+
+  sp|P02014|HBA_TARGR  85 SDKHAQDLMVDPANFPKLAHNILVVMGIHLKAHLTYPVHCSVDKFLDVVGHVLTSKYR 142
+                          *********************************************************7 PP
+
+>> sp|P10784|HBA2_TRICR  Hemoglobin subunit alpha-2 OS=Triturus cristatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.2   2.2   3.1e-37   1.5e-34       2     149 .]       1     141 []       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 124.2 bits;  conditional E-value: 3.1e-37
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLs ++k +vkavW  v+ + e +Ga++L r f+  P+tq++F   kdL+     ++sa ++ Hgkkv+ Al++a+a++d ++e+++++
+  sp|P10784|HBA2_TRICR   1 VLSSQDKANVKAVWEHVKGHEEVYGAEALHRAFVCDPQTQTYFAG-KDLK-----ENSAYLHGHGKKVMSALTNAVAHID-DIEGSMSK 82 
+                           69*****************************************87.7***.....99**********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls++Ha++l vdp +f +l++ +++++a  +p+ +t++ + +++K+l++v+++l+skY+
+  sp|P10784|HBA2_TRICR  83 LSDKHAHELMVDPGNFDILAHHILTTMAMFMPQCLTSANHRSVDKFLSTVKHVLTSKYR 141
+                           **********************************************************7 PP
+
+>> sp|P07429|HBB1_XENTR  Hemoglobin subunit beta-1 OS=Xenopus tropicalis GN=hbb1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  124.2   0.0   3.1e-37   1.5e-34       2     149 .]       3     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 124.2 bits;  conditional E-value: 3.1e-37
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L+++e++ ++  W+k+   +++ G+++L  ++ ++P+tq++F +F++Ls  +++  +a v +Hg+kvl+ +++a++++d ++++ +++
+  sp|P07429|HBB1_XENTR   3 NLTAKERQLITGTWSKI--CAKTLGKQALGSMLYTYPWTQRYFSSFGNLSSIEAIFHNAAVATHGEKVLTSIGEAIKHMD-DIKGYYAQ 88 
+                           79***************..6789*********************************************************.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+ H++ l+vdp +fk +  + +  +a+ l ++ft++ qaa+eKl+a +a +l + Y+
+  sp|P07429|HBB1_XENTR  89 LSKYHSETLHVDPYNFKRFCSCTIISMAQTLQEDFTPELQAAFEKLFAAIADALGKGYH 147
+                           ******************************************************99986 PP
+
+>> sp|P80945|HBAA_ANGAN  Hemoglobin anodic subunit alpha OS=Anguilla anguilla GN=hba PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.4   0.0   5.5e-37   2.7e-34       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 123.4 bits;  conditional E-value: 5.5e-37
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls+++   vk  W k+  +++e G+++L r++ ++P+t+ +F ++kd s      +s++vkkHg  +l  ++d++++++ ++ + l +
+  sp|P80945|HBAA_ANGAN   2 SLSAKDMAVVKGFWNKIAPKADEIGGEALGRMLRVFPQTKAYFAHWKDTS-----PNSPEVKKHGALILATIGDVVNRIE-NMTTVLGS 84 
+                           59********************************************9999.....89*********************98.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa kl+vdp +fk+l++ +++v+   +p++ft++v+ +++K+++ ++ +l+++Y+
+  sp|P80945|HBAA_ANGAN  85 LSDLHAFKLRVDPANFKILGHNIMVVICMTFPNDFTPEVHLSVDKFFQNFTLALSERYR 143
+                           ********************************************************996 PP
+
+>> sp|O93349|HBB2_TRENE  Hemoglobin subunit beta OS=Trematomus newnesi PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.3   0.0   5.7e-37   2.8e-34       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 123.3 bits;  conditional E-value: 5.7e-37
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e+t +  +++ +  d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +++++d ++  ++ dLs
+  sp|O93349|HBB2_TRENE   5 TDKERTIISDIFSHM--DYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAIIGNANVAAHGIKVLHGLDRGMKNMD-NIADAYTDLS 90 
+                           678999999999999..9************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +fklls+++  vlaa++++ fta+ q+a++K+la v  +l ++Y+
+  sp|O93349|HBB2_TRENE  91 TLHSEKLHVDPDNFKLLSDCITIVLAAKMGHAFTAETQGAFQKFLAAVVSALGKQYH 147
+                           ******************************************************997 PP
+
+>> sp|P86879|HBB1_LYCRE  Hemoglobin subunit beta-1 OS=Lycodes reticulatus GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  123.0   0.0     7e-37   3.4e-34       5     148 ..       5     145 ..       1     146 [] 0.94
+
+  Alignments for each domain:
+  == domain 1  score: 123.0 bits;  conditional E-value: 7e-37
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           ++e+  ++ +++    d+e+ G  +Lvr + ++P+tq++F  F++Lst++++ +++++ +Hg+kvl+ l  al+++d ++  +++dLs 
+  sp|P86879|HBB1_LYCRE   5 DKERAVILGIFSGL--DYEDIGPKALVRCLIVYPWTQRYFGTFGNLSTPAAISGNPKIAAHGVKVLHGLDMALQHMD-NIMETYADLSI 90 
+                           56666666677666..99***********************************************************.99999****** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           lH++ l+vdp +fkll+++l  ++aa++++ ft+d q a++K+la+v  +l ++Y
+  sp|P86879|HBB1_LYCRE  91 LHSETLHVDPDNFKLLADCLTITIAAKMGHCFTPDTQIAFHKFLAVVVSALGKQY 145
+                           ***************************************************9998 PP
+
+>> sp|P20244|HBA1_TORMA  Hemoglobin subunit alpha-1 OS=Torpedo marmorata PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.7   1.0   8.9e-37   4.3e-34       2     149 .]       1     141 []       1     141 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 122.7 bits;  conditional E-value: 8.9e-37
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLse++k+++k++  k++++ e  Ga++L rlf  +P+t+ +F+kF + s      + + vk+Hg  vl+Al d+ ++ld +l+ +l++
+  sp|P20244|HBA1_TORMA   1 VLSEGNKKAIKNLLQKIHSQTEVLGAEALARLFECHPQTKSYFPKFSGFS-----ANDKRVKHHGALVLKALVDTNKHLD-DLPHHLNK 83 
+                           69************************************************.....56689*******************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           L+e+H k l vdp++fkl+s++++++laa+  +ef+++ + a++K+l+ v+ +l+s Y+
+  sp|P20244|HBA1_TORMA  84 LAEKHGKGLLVDPHNFKLFSDCIAVTLAAH-LQEFSPETHCAVDKFLEEVTYQLSSLYR 141
+                           *****************************9.79**********************9996 PP
+
+>> sp|P16309|HBB_NOTCO  Hemoglobin subunit beta OS=Notothenia coriiceps neglecta GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.7   0.0   8.7e-37   4.2e-34       4     149 .]       4     146 .]       1     146 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 122.7 bits;  conditional E-value: 8.7e-37
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          s+ e+  ++ +++ +  d+++ G  +L r + ++P+tq++F  F++L  ++++ ++a+v +Hg kvl+ l  +++++d k+  ++++Ls 
+  sp|P16309|HBB_NOTCO   4 SDSERAIITDIFSHM--DYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAILGNANVAAHGIKVLHGLDRGVKNMD-KIVDAYAELSM 90 
+                          788999999999999..9************************************************************.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +fklls+++  v+aa++++ ft+++q a++K+la+v  +l ++Y+
+  sp|P16309|HBB_NOTCO  91 LHSEKLHVDPDNFKLLSDCITIVVAAKMGSAFTPEIQCAFQKFLAVVVSALGKQYH 146
+                          *****************************************************997 PP
+
+>> sp|Q1AGS9|HBA1_BORSA  Hemoglobin subunit alpha-1 OS=Boreogadus saida GN=hba1 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.3   0.1   1.1e-36   5.6e-34       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 122.3 bits;  conditional E-value: 1.1e-36
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls+++k +vk  ++k+ +  ++ Ga++L rl+ ++P+t+ +F ++k  s      +sa v+kHg ++++ + da+ k+d +l+a l +
+  sp|Q1AGS9|HBA1_BORSA   2 SLSAKDKATVKDFFGKMSTRSDDIGAEALSRLVAVYPQTKSYFAHWKSAS-----PGSAPVRKHGITIMGGVYDAVGKID-DLKAGLLS 84 
+                           69********************************************9888.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fkll++++++ +   +p+eft++v+ a++K+la +a +l +kY+
+  sp|Q1AGS9|HBA1_BORSA  85 LSELHAFMLRVDPVNFKLLAHCMLVCMSMVFPEEFTPQVHVAVDKFLAQLALALCEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P06714|HBAT_HORSE  Hemoglobin subunit theta-1 OS=Equus caballus GN=HBQ1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  122.1   0.1   1.4e-36   6.8e-34       2     147 ..       2     140 ..       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 122.1 bits;  conditional E-value: 1.4e-36
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            L++a++ +v+a+W k++++v+ + +++L+r+f+ +P t ++F +  dLs      +s +vk+Hg+kv+dAl+ a+ +l+ +l+ +l++
+  sp|P06714|HBAT_HORSE   2 ALAAADRATVRALWKKMGSNVGVYATEALERMFLGFPSTTTYFLHL-DLS-----LGSTQVKAHGQKVADALTLAVEHLE-DLPRALSA 83 
+                           5899******************************************.9*9.....9**********************98.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllask 147
+                           L ++H ++l+vdp  f+ll+++l+++ a ++p++f++  +a+l K+l+ v  +las 
+  sp|P06714|HBAT_HORSE  84 LRHRHVRELRVDPASFQLLGHCLLVTPARHFPGDFSPTLHASLVKFLSHVISALASD 140
+                           *****************************************************9985 PP
+
+>> sp|Q6B0K9|HBM_HUMAN  Hemoglobin subunit mu OS=Homo sapiens GN=HBM PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.8   0.3   1.7e-36   8.5e-34       3     149 .]       2     141 .]       1     141 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 121.8 bits;  conditional E-value: 1.7e-36
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+ ++ +vW  +  + ++ Ga+ L rlf+++P t+ +F++    s   + + + ++  Hg+++l A+++a++++d +l+a+l++L+
+  sp|Q6B0K9|HBM_HUMAN   2 LSAQERAQIAQVWDLIAGHEAQFGAELLLRLFTVYPSTKVYFPHL---S---ACQDATQLLSHGQRMLAAVGAAVQHVD-NLRAALSPLA 84 
+                          9******************************************88...4...6678999********************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lHa  l+vdp +f ll ++  +vla++l  eft ++qaa +K+l  va +l++kY+
+  sp|Q6B0K9|HBM_HUMAN  85 DLHALVLRVDPANFPLLIQCFHVVLASHLQDEFTVQMQAAWDKFLTGVAVVLTEKYR 141
+                          ********************************************************7 PP
+
+>> sp|P14521|HBB_ELEEL  Hemoglobin subunit beta OS=Electrophorus electricus GN=hbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.7   0.0   1.8e-36   8.8e-34       2     149 .]       2     147 .]       1     147 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 121.7 bits;  conditional E-value: 1.8e-36
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L+ea++ ++ ++W+      +e G ++L rl+ ++P+tq++F +F+++s +++++++++v +Hgk v++Al +a+++l+ ++++++++L
+  sp|P14521|HBB_ELEEL   2 ELTEAQRGAIVNLWGHL--SPDEIGPQALARLLIVYPWTQRYFASFGNISSAAAIMGNPKVAAHGKVVVGALDKAVKNLN-NIKGTYAAL 88 
+                          79***************..899*********************************************************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarl.pkeftadvqaaleKllalvakllaskYk 149
+                          s  H++kl+vdp +f+ll+e   + +a +l p+ f a+ q al K+la v  +l ++Y+
+  sp|P14521|HBB_ELEEL  89 STIHSEKLHVDPDNFRLLAESFTVSVAMKLgPSGFNAETQHALAKFLAEVVSALGKQYH 147
+                          ************************9999984689**********************997 PP
+
+>> sp|P02020|HBA_LEPPA  Hemoglobin subunit alpha OS=Lepidosiren paradoxus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.4   0.0   2.3e-36   1.1e-33       3     149 .]       3     143 .]       1     143 [] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 121.4 bits;  conditional E-value: 2.3e-36
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s+++   +k++W+    ++ + G+++L r+f  +P t+ +F++F++    d   ++++vk+Hgkkv+dA+++++++l  +l++ l++Ls
+  sp|P02020|HBA_LEPPA   3 FSQDDEVLIKEAWGLL-HQIPNAGGEALARMFSCYPGTKSYFPHFGH----DFSANNEKVKHHGKKVVDAIGQGVQHLH-DLSSCLHTLS 86 
+                          5889999*******99.899*************************75....445889*********************8.9********* PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          e+Ha++l vdp +f+ l e++++++aa+++++ft++++ a eK l  + ++l s Y+
+  sp|P02020|HBA_LEPPA  87 EKHARELMVDPCNFQYLIEAIMTTIAAHYGEKFTPEINCAAEKCLGQIVHVLISLYR 143
+                          ****************************************************99996 PP
+
+>> sp|P14399|MYG_MUSAN  Myoglobin OS=Mustelus antarcticus GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.3   0.4   2.4e-36   1.2e-33       7     149 .]       3     143 ..       1     143 [. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 121.3 bits;  conditional E-value: 2.4e-36
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHa 96 
+                          +++kv++vW+ ve+d    G++iL rlf  +P++q++F+kFk+ s   elk  ad+k+ + +vl Al+++++k ++ +++ +k+L+  H 
+  sp|P14399|MYG_MUSAN   3 DWEKVNSVWSAVESDLTAIGQNILLRLFEQYPESQNHFPKFKNKS-LGELKDTADIKAQADTVLSALGNIVKK-KGSHSQPVKALAATHI 90 
+                          89***************************************9877.89*************************.99************** PP
+
+             globins4  97 kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + +k++p+yf  ++ + vdvl + +p+e+ a+vqaa+  ++++++ ++ + Yk
+  sp|P14399|MYG_MUSAN  91 TTHKIPPHYFTKITTIAVDVLSEMYPSEMNAQVQAAFSGAFKIICSDIEKEYK 143
+                          **************************************************997 PP
+
+>> sp|P84604|HBB2_ARCGL  Hemoglobin subunit beta-2 OS=Arctogadus glacialis GN=hbb2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  121.1   0.0   2.8e-36   1.3e-33       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 121.1 bits;  conditional E-value: 2.8e-36
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ e+  ++ ++a    d+ee G   L+r + ++P+tq++F  F++L  ++ +++++ + +Hg k+l+ l  al+++d ++++++++Ls
+  sp|P84604|HBB2_ARCGL   5 TDSERAIINDIFATL--DYEEIGRKSLTRCLIVYPWTQRYFGAFGNLYNAATIMANPLIAAHGTKILHGLDRALKNMD-DIKNTYAELS 90 
+                           678899999999999..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +f+ll+++l +v+aa++++ ft d q a +K+l++v  +l  +Y+
+  sp|P84604|HBB2_ARCGL  91 LLHSDKLHVDPDNFRLLADCLTVVIAAKMGAAFTVDTQVAWQKFLSVVVSALGRQYH 147
+                           ****************************************************99997 PP
+
+>> sp|P29627|HBBZ_MESAU  Hemoglobin subunit beta-Z (Fragment) OS=Mesocricetus auratus GN=HBBZ PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.9   0.3   3.3e-36   1.6e-33      47     149 .]       1     102 []       1     102 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 120.9 bits;  conditional E-value: 3.3e-36
+              globins4  47 FkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleK 135
+                           F++Ls ++++++++ +++Hgkkvl+ l+ a++++d +l+ ++++LselH++kl+vdp++fkll++vlv vl ++++keft++vqaa +K
+  sp|P29627|HBBZ_MESAU   1 FGNLSSAQAIMGNPRIRAHGKKVLTSLGLAVQNMD-NLKETFAHLSELHCDKLHVDPENFKLLGNVLVIVLSTHFAKEFTPEVQAAWQK 88 
+                           899********************************.***************************************************** PP
+
+              globins4 136 llalvakllaskYk 149
+                           l+a va++l++kY+
+  sp|P29627|HBBZ_MESAU  89 LVAGVANALSHKYH 102
+                           *************7 PP
+
+>> sp|P56691|HBA_DASAK  Hemoglobin subunit alpha OS=Dasyatis akajei GN=hba PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  120.6   1.0     4e-36   1.9e-33       2     149 .]       2     142 .]       1     142 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 120.6 bits;  conditional E-value: 4e-36
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs ++k++++++   ++a++e  Gad+L rlf  +P+t+++F kF + +       +++vkkHgk+v++Al+da  +ld +l+ +l+dL
+  sp|P56691|HBA_DASAK   2 VLSSQNKKAIEELGNLIKANAEAWGADALARLFELHPQTKTYFSKFSGFE-----ACNEQVKKHGKRVMNALADATHHLD-NLHLHLEDL 85 
+                          79********************************************9999.....899**********************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + +H ++l vdp++f+l+++++v++la +  + ft+  + a++K+l+lva  l+s Y+
+  sp|P56691|HBA_DASAK  86 ARKHGENLLVDPHNFHLFADCIVVTLAVN-LQAFTPVTHCAVDKFLELVAYELSSCYR 142
+                          ****************************9.678**********************996 PP
+
+>> sp|P84611|HBB2_GADMO  Hemoglobin subunit beta-2 OS=Gadus morhua GN=hbb2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.6   0.0   8.2e-36     4e-33       4     149 .]       5     147 .]       2     147 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 119.6 bits;  conditional E-value: 8.2e-36
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           +++e+t ++ +++    d+ee G   L r + ++P+tq++F  F++L  ++ +++++ + +Hg k+l+ l  al+++d ++++++++Ls
+  sp|P84611|HBB2_GADMO   5 TDEERTIINDIFSTL--DYEEIGRKSLCRCLIVYPWTQRYFGAFGNLYNAETIMANPLIAAHGTKILHGLDRALKNMD-DIKNTYAELS 90 
+                           7899999*****999..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +f+ll+++l +v+aa+++  ft d q a++K+l++v  +l  +Y+
+  sp|P84611|HBB2_GADMO  91 LLHSDKLHVDPDNFRLLADCLTVVIAAKMGPAFTVDTQVAVQKFLSVVVSALGRQYH 147
+                           ****************************************************99997 PP
+
+>> sp|P68189|MYG_THUTH  Myoglobin OS=Thunnus thynnus GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.5   0.2   8.6e-36   4.2e-33       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 119.5 bits;  conditional E-value: 8.6e-36
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+ + G+ +L+rlfk +P+tq+ F+kF ++  ++++ ++a v +Hg +vl+ l++ l+  ++ + a lk+L+++H
+  sp|P68189|MYG_THUTH   2 ADFDAVLKCWGPVEADYTTIGGLVLTRLFKEHPETQKLFPKFAGIA-QADIAGNAAVSAHGATVLKKLGELLKA-KGSHAAILKPLANSH 89 
+                          57789***************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl+sevlv+v++++  + + a  q+al  ++ ++  +l ++Yk
+  sp|P68189|MYG_THUTH  90 ATKHKIPINNFKLISEVLVKVMHEK--AGLDAGGQTALRNVMGIIIADLEANYK 141
+                          *************************..66667889*****************97 PP
+
+>> sp|P68190|MYG_THUOR  Myoglobin OS=Thunnus orientalis GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.5   0.2   8.6e-36   4.2e-33       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 119.5 bits;  conditional E-value: 8.6e-36
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+ + G+ +L+rlfk +P+tq+ F+kF ++  ++++ ++a v +Hg +vl+ l++ l+  ++ + a lk+L+++H
+  sp|P68190|MYG_THUOR   2 ADFDAVLKCWGPVEADYTTIGGLVLTRLFKEHPETQKLFPKFAGIA-QADIAGNAAVSAHGATVLKKLGELLKA-KGSHAAILKPLANSH 89 
+                          57789***************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl+sevlv+v++++  + + a  q+al  ++ ++  +l ++Yk
+  sp|P68190|MYG_THUOR  90 ATKHKIPINNFKLISEVLVKVMHEK--AGLDAGGQTALRNVMGIIIADLEANYK 141
+                          *************************..66667889*****************97 PP
+
+>> sp|Q76G09|MYG_THUOB  Myoglobin OS=Thunnus obesus GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.5   0.2   8.6e-36   4.2e-33       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 119.5 bits;  conditional E-value: 8.6e-36
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+ + G+ +L+rlfk +P+tq+ F+kF ++  ++++ ++a v +Hg +vl+ l++ l+  ++ + a lk+L+++H
+  sp|Q76G09|MYG_THUOB   2 ADFDAVLKCWGPVEADYTTIGGLVLTRLFKEHPETQKLFPKFAGIA-QADIAGNAAVSAHGATVLKKLGELLKA-KGSHAAILKPLANSH 89 
+                          57789***************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl+sevlv+v++++  + + a  q+al  ++ ++  +l ++Yk
+  sp|Q76G09|MYG_THUOB  90 ATKHKIPINNFKLISEVLVKVMHEK--AGLDAGGQTALRNVMGIIIADLEANYK 141
+                          *************************..66667889*****************97 PP
+
+>> sp|P07408|HBA_SQUAC  Hemoglobin subunit alpha OS=Squalus acanthias GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.3   0.2   9.7e-36   4.7e-33       2     149 .]       1     141 []       1     141 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 119.3 bits;  conditional E-value: 9.7e-36
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+kt++k++ +   +++e  Ga+ L r+f +tP t+++F kF d s      + + vk+Hg kvl+A++da  +ld ++ ++l +L
+  sp|P07408|HBA_SQUAC   1 VLSAADKTAIKHLTGSLRTNAEAWGAESLARMFATTPSTKTYFSKFTDFS-----ANGKRVKAHGGKVLNAVADATDHLD-NVAGHLDPL 84 
+                          69********************************************9999.....67899********************.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + lH + l vdp++f ll+++++++laa+  +e+ ++ + al+K+l  va++l s Y+
+  sp|P07408|HBA_SQUAC  85 AVLHGTTLCVDPHNFPLLTQCILVTLAAH-LTELKPETHCALDKFLCEVATALGSHYR 141
+                          ****************************9.789***********************96 PP
+
+>> sp|Q1AGS6|HBB2_BORSA  Hemoglobin subunit beta-2 OS=Boreogadus saida GN=hbb2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.3   0.0   9.7e-36   4.7e-33       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 119.3 bits;  conditional E-value: 9.7e-36
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           ++ e+  +++++++   d+ee G   L r + ++P+tq++F  F++L  ++ +++++ + +Hg k+l+ l  al+++d ++++++++Ls
+  sp|Q1AGS6|HBB2_BORSA   5 TDSERAIITSIFSNL--DYEEIGRKSLCRCLIVYPWTQRYFGAFGNLYNAETIMANPLIAAHGTKILHGLDRALKNMD-DIKNTYAELS 90 
+                           678999999999999..*************************************************************.********** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            lH++kl+vdp +f+ll+++l +v+aa++++ ft + q a +K+l++v  +l  +Y+
+  sp|Q1AGS6|HBB2_BORSA  91 LLHSDKLHVDPDNFRLLADCLTVVIAAKMGSAFTVETQVAWQKFLSVVVSALGRQYH 147
+                           ****************************************************99997 PP
+
+>> sp|O42425|HBA2_GADMO  Hemoglobin subunit alpha-2 OS=Gadus morhua GN=hba2 PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  119.2   0.1   1.1e-35   5.4e-33       2     149 .]       2     143 .]       1     143 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 119.2 bits;  conditional E-value: 1.1e-35
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls ++k +vk  ++k+ +  ++ Ga++L rl+ ++P+t+ +F ++kd s      +sa v+kHg + ++ + da+ k+d +l++ l +
+  sp|O42425|HBA2_GADMO   2 SLSSKQKATVKDFFSKMSTRSDDIGAEALSRLVAVYPQTKSYFSHWKDAS-----PGSAPVRKHGITTMGGVYDAVGKID-DLKGGLLS 84 
+                           5999******************************************9988.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           LselHa  l+vdp +fkll++++++ +   +p+eft++v+ a++K+la +a +la+kY+
+  sp|O42425|HBA2_GADMO  85 LSELHAFMLRVDPVNFKLLAHCMLVCMSMIFPEEFTPQVHVAVDKFLAQLALALAEKYR 143
+                           **********************************************************7 PP
+
+>> sp|P02205|MYG_THUAL  Myoglobin OS=Thunnus albacares GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.9   0.2   1.3e-35   6.4e-33       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 118.9 bits;  conditional E-value: 1.3e-35
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+ ++G+ +L+rlfk +P+tq+ F+kF ++  ++++ ++a + +Hg +vl+ l++ l+  ++ + a lk+L+++H
+  sp|P02205|MYG_THUAL   2 ADFDAVLKCWGPVEADYTTMGGLVLTRLFKEHPETQKLFPKFAGIA-QADIAGNAAISAHGATVLKKLGELLKA-KGSHAAILKPLANSH 89 
+                          57789***************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl+sevlv+v++++  + + a  q+al  ++ ++  +l ++Yk
+  sp|P02205|MYG_THUAL  90 ATKHKIPINNFKLISEVLVKVMHEK--AGLDAGGQTALRNVMGIIIADLEANYK 141
+                          *************************..66667889*****************97 PP
+
+>> sp|P83113|HBA2_TELPE  Hemoglobin subunit alpha-2 (Fragment) OS=Telmatobius peruvianus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.7   0.1   1.5e-35   7.3e-33       7     149 .]       2     137 .]       1     137 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 118.7 bits;  conditional E-value: 1.5e-35
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                           ++++++a+W  v ++ +++G+++L rlf+s P+t+++F++F d +     k s+++k+Hgkkv+dAl++a ++ld +++++l++L +lH
+  sp|P83113|HBA2_TELPE   2 DRSHILAIWPSVASHGADYGGEALYRLFLSNPQTKTYFPNF-DFH-----KDSPQIKAHGKKVVDALTEASKHLD-NINGALSKLFDLH 83 
+                           7899*************************************.777.....9************************.************* PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           a +l+vdp +f ll++ + +++a  +p +    ++  l+K+la v   l+skY+
+  sp|P83113|HBA2_TELPE  84 AFELRVDPGNFPLLAHHINVTIAVMFPDDKFDIAHHQLDKFLAAVGGSLTSKYR 137
+                           *****************************999*********************7 PP
+
+>> sp|Q9DGJ0|MYG_SARCH  Myoglobin OS=Sarda chiliensis GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.6   0.6   1.6e-35   7.8e-33       6     149 .]       2     141 ..       1     141 [. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 118.6 bits;  conditional E-value: 1.6e-35
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+  +G+ +L+rlfk +P+tq+ F+kF ++  ++++ ++a + +Hg +vl+ l++ l+  ++++ a lk+++++H
+  sp|Q9DGJ0|MYG_SARCH   2 ADFDAVLKFWGPVEADYTSHGGLVLTRLFKEHPETQKLFPKFTGIA-QADMAGNAAISAHGATVLKKLGELLKA-KGNHAAILKPMANSH 89 
+                          57789***************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl+se++v+v++++ +  + a  q al  ++a v  +l ++Yk
+  sp|Q9DGJ0|MYG_SARCH  90 ATKHKIPINNFKLISEIIVKVMQEKAG--MDAGGQQALRNVMAAVIADLEANYK 141
+                          *************************55..5567799****************97 PP
+
+>> sp|P02015|HBA_AMBME  Hemoglobin subunit alpha OS=Ambystoma mexicanum GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.4   0.4   1.8e-35   8.9e-33       2     149 .]       3     143 .]       2     143 .] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 118.4 bits;  conditional E-value: 1.8e-35
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Ls ++k +vkavW  v+ + +  G ++L r+f+   +t+++F+  kdL+     ++s  ++ Hgkkv++Als+a+a++d +lea+l +L
+  sp|P02015|HBA_AMBME   3 KLSGEDKANVKAVWDHVKGHEDAFGHEALGRMFTGIEQTHTYFPD-KDLN-----EGSFALHSHGKKVMGALSNAVAHID-DLEATLVKL 85 
+                          599*****************************************9.69*9.....9***********************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s++Ha+ l vdp  f  l+e +++vl  +lp++ft +vq +++K+l +  +l  skY+
+  sp|P02015|HBA_AMBME  86 SDKHAHDLMVDPAEFPRLAEDILVVLGFHLPAKFTYAVQCSIDKFLHVTMRLCISKYR 143
+                          ****************************************************99**96 PP
+
+>> sp|P86887|HBB2_LYCRE  Hemoglobin subunit beta-2 OS=Lycodes reticulatus GN=hbb2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  118.1   0.0   2.3e-35   1.1e-32       5     148 ..       5     145 ..       1     146 [] 0.94
+
+  Alignments for each domain:
+  == domain 1  score: 118.1 bits;  conditional E-value: 2.3e-35
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                           ++e+  ++ +++    d+e+ G  +Lvr + ++P+tq++F  F++Ls ++++ ++ ++ +Hg+kvl+ l  al+++d ++  +++dLs 
+  sp|P86887|HBB2_LYCRE   5 DKERAVILGIFSGL--DYEDIGPKALVRCLIVYPWTQRYFGAFGNLSSAAAISGNLKIAAHGVKVLHGLDMALQHMD-NIMETYADLSI 90 
+                           56666666677666..99***********************************************************.99999****** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           lH++ l+vdp +fkll+++l  ++aa++++ ft+d q a++K+la+v  +l ++Y
+  sp|P86887|HBB2_LYCRE  91 LHSETLHVDPDNFKLLADCLTITIAAKMGHCFTPDTQIAFHKFLAVVVSALGKQY 145
+                           ***************************************************9998 PP
+
+>> sp|O13078|HBB_MERMR  Hemoglobin subunit beta OS=Merlangius merlangus GN=hbb PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  117.2   0.0   4.3e-35   2.1e-32       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 117.2 bits;  conditional E-value: 4.3e-35
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++e+  ++++++    d+ee G   L r + ++P+tq++F  F++L  ++ +  ++ + +Hg k+l+ l  al+++d ++++++++Ls+
+  sp|O13078|HBB_MERMR   5 TDDERAIINSIFSTL--DYEEIGRKSLCRCLIVYPWTQRYFGGFGNLYNAETILCNPLIAAHGTKILHGLDRALKNMD-DIKNTYAELSQ 91 
+                          678899999999999..9************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +f+ll+++l +v+aa++++ ft + q a +K+la+v  +l  +Y+
+  sp|O13078|HBB_MERMR  92 LHSDKLHVDPDNFRLLADCLTVVIAAKMGTAFTVETQVAWQKFLAVVVSALGRQYH 147
+                          ***************************************************99997 PP
+
+>> sp|Q1AGS3|HBB1_ARCGL  Hemoglobin subunit beta-1 (Fragment) OS=Arctogadus glacialis GN=hbb1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  116.4   0.0   7.8e-35   3.8e-32      15     149 .]       1     132 []       1     132 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 116.4 bits;  conditional E-value: 7.8e-35
+              globins4  15 WakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklkvdp 103
+                           W+k+  d++  G  +L+r + ++P+tq++F +F+dLst ++++++++v +Hg+  l+ l  al ++d ++++++++Ls lH++kl+vdp
+  sp|Q1AGS3|HBB1_ARCGL   1 WSKI--DIDVCGPLALQRCLIVYPWTQRYFGSFGDLSTVAAIMGNPKVAQHGVVALTGLRTALDHMD-EIKSTYAALSVLHSEKLHVDP 86 
+                           8899..89999********************************************************.9******************** PP
+
+              globins4 104 kyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                            +f+ll e+l  v+a +++k++++d+qaa +K l  v  +l  +Y+
+  sp|Q1AGS3|HBB1_ARCGL  87 DNFRLLCECLTIVIAGKMGKKLSPDMQAAWQKYLCAVVSALGRQYH 132
+                           *****************************************99997 PP
+
+>> sp|P16417|HBAD_LIOMI  Hemoglobin subunit alpha-D OS=Liophis miliaris GN=HBAD PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.8   0.0   1.2e-34     6e-32       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 115.8 bits;  conditional E-value: 1.2e-34
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL+++++  ++a  +k ++  e+ Gad+L rl+ ++P+++++F +F +Ls      +s+d+ + g+kv +Al  al++ld +++++l++
+  sp|P16417|HBAD_LIOMI   1 VLTAEDRRLLQASVGKLGCRLEDIGADALNRLLITFPQSKTYFSHF-NLS-----PGSKDIIHQGEKVGKALDSALKHLD-DIRGTLSQ 82 
+                           699*******************************************.999.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +f+lls+++ + la++l +e++a+v  a +K+l+lva +l++kY+
+  sp|P16417|HBAD_LIOMI  83 LSDLHAYNLRVDPVNFQLLSKCIHVSLATHLRNEYSASVTLAWDKFLELVADVLSEKYR 141
+                           **********************************************************7 PP
+
+>> sp|P20245|HBA2_TORMA  Hemoglobin subunit alpha-2 OS=Torpedo marmorata PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.7   1.1   1.3e-34   6.2e-32       2     149 .]       1     141 []       1     141 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 115.7 bits;  conditional E-value: 1.3e-34
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vLse++k+ +k++  k++++ e  Ga++L rlf  +P+t+ +F+kF + s      + + vk+Hg  vl+Al d+  +ld +l+ +l++
+  sp|P20245|HBA2_TORMA   1 VLSEGNKKIIKNLLQKIHSQTEVLGAEALARLFECHPQTKSYFPKFSGFS-----ANDKRVKHHGDLVLKALVDTNDHLD-DLPHHLHK 83 
+                           69************************************************.....56689*******************9.******** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           L+e+H k l vdp++fkl+s++++++laa+  +e +++ + a++K+l+ v+ +l+s Y+
+  sp|P20245|HBA2_TORMA  84 LAEKHGKDLLVDPHNFKLFSDCIAVTLAAH-LQEKSPETHCAVDKFLEEVTYQLSSLYR 141
+                           ******************************.6889********************9996 PP
+
+>> sp|P10786|HBB2_TRICR  Hemoglobin subunit beta-2 OS=Triturus cristatus GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.7   0.0   1.3e-34   6.2e-32       1     148 [.       1     145 []       1     145 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 115.7 bits;  conditional E-value: 1.3e-34
+              globins4   1 vvLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk 89 
+                           v+L++++++++ a+ +kv  +v+  G++ L rl+++ P+++++F  F+dLs  d++  +++v +Hg kv+  + +a ++ld +l+  ++
+  sp|P10786|HBB2_TRICR   1 VHLTAEDRKEIAAILGKV--NVDSLGGQCLARLIVVNPWSRRYFHDFGDLSSCDAICRNPKVLAHGAKVMRSIVEATKHLD-NLREYYA 86 
+                           69****************..*************************************************************.******* PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           dLs  H+ k+ vdp++fkl+s ++++ la  l ++f+ + q a+eKl++ v+++l + Y
+  sp|P10786|HBB2_TRICR  87 DLSVTHSLKFYVDPENFKLFSGIVIVCLALTLQTDFSCHKQLAFEKLMKGVSHALGHGY 145
+                           *******************************************************9988 PP
+
+>> sp|P14397|MYG_GALGA  Myoglobin OS=Galeorhinus galeus GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  115.0   0.3   2.1e-34     1e-31       6     149 .]       2     143 ..       1     143 [. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 115.0 bits;  conditional E-value: 2.1e-34
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a++ kv++vW+ +ea++  +G++iL rlf  +P++q +F+k k+ s   elk  ad+k+ + +vl+Al+++++k ++++++ +k+L+  H
+  sp|P14397|MYG_GALGA   2 ADWDKVNSVWSAMEANITAVGQNILLRLFEQYPESQSYFPKLKNKS-LGELKDTADIKAQADTVLKALGNIVKK-KGNHSQPVKALAATH 89 
+                          79****************************************9877.89*************************.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           + +k++p+yf  ++ + v vl + +p+e+ a++q a+  ++++++ ++ + Yk
+  sp|P14397|MYG_GALGA  90 ITTHKIPPHYFTKITTIAVGVLSEMYPSEMNAQAQEAFSGAFKSICSDIEKEYK 143
+                          ***************************************************997 PP
+
+>> sp|A1A4Q3|HBM_BOVIN  Hemoglobin subunit mu OS=Bos taurus GN=HBM PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.8   0.0   2.4e-34   1.2e-31       3     149 .]       2     141 .]       1     141 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 114.8 bits;  conditional E-value: 2.4e-34
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                          Ls++e+ ++++vW  +  + +  Ga+ L rlf+++P t+ +F + +d    de     ++  Hg+++l+A++ a++ +d +l+a l++L+
+  sp|A1A4Q3|HBM_BOVIN   2 LSAQERAHITQVWDLIAGHEAPFGAELLRRLFTVYPSTKVYFRHLGDHP--DE----VQLLSHGQRMLQAVGVAVQYMD-NLRAVLSPLA 84 
+                          9********************************************8866..54....57899*****************.********** PP
+
+             globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +lHa+ l+vdp +f l+ ++  +vla++l +eft ++qaa +K+l  va +l++kY+
+  sp|A1A4Q3|HBM_BOVIN  85 DLHAQVLRVDPTNFPLVIQCFQVVLASHLQGEFTVEMQAAWDKFLTGVAVVLTEKYR 141
+                          ********************************************************7 PP
+
+>> sp|Q9DGJ1|MYG_MAKNI  Myoglobin OS=Makaira nigricans GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.9   1.6   2.3e-34   1.1e-31       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 114.9 bits;  conditional E-value: 2.3e-34
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+ + v++ W++vead++++G+ +L+rlf+ +P+tq+ F+kF ++  ++++ ++a + +Hg +vl+ l++ l+  ++ + a +k+++++H
+  sp|Q9DGJ1|MYG_MAKNI   2 ADFEMVLKHWGPVEADYATHGNLVLTRLFTEHPETQKLFPKFAGIA-KADMAGNAAISAHGATVLKKLGELLKA-KGSHAAIIKPMANSH 89 
+                          5778899*************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++k+f+l+sev+ +v++++  + + a+ q al+ ++ ++  ++ ++Yk
+  sp|Q9DGJ1|MYG_MAKNI  90 ATKHKIPIKNFELISEVIGKVMHEK--AGLDAAGQKALKNVMTTIIADIEANYK 141
+                          *************************..77789999***************9997 PP
+
+>> sp|P02135|HBB_LITCT  Hemoglobin subunit beta OS=Lithobates catesbeiana GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.8   0.0   2.5e-34   1.2e-31      10     149 .]       4     140 .]       2     140 .] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 114.8 bits;  conditional E-value: 2.5e-34
+             globins4  10 kvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakkl 99 
+                           v a  akv  d   +G+++L rl+ ++P+tq++F  F++L  +d++  + +v +Hg++vld ++++l++  ++l+a +++Lse+H+ +l
+  sp|P02135|HBB_LITCT   4 DVSAFLAKV--DKRAVGGEALARLLIVYPWTQRYFSTFGNLGSADAISHNSKVLAHGQRVLDSIEEGLKH-PZBLKAYYAKLSERHSGEL 90 
+                          577888999..8899*******************************************************.66***************** PP
+
+             globins4 100 kvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +vdp +f  l++vl++v+a ++ +eft++ q al+  +  v ++la+ Y+
+  sp|P02135|HBB_LITCT  91 HVDPANFYRLGNVLITVMARHFHEEFTPELQCALHSSFCAVGEALAKGYH 140
+                          **********************************************9996 PP
+
+>> sp|Q701N9|MYG_TETNG  Myoglobin OS=Tetraodon nigroviridis GN=mb PE=3 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.6   0.1   2.7e-34   1.3e-31       7     149 .]       3     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 114.6 bits;  conditional E-value: 2.7e-34
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHa 96 
+                          +   v++ W++vead+  +G+ +L+rlf+  P+tq+ F+kF ++  + el ++a v +Hg +vl+ l++ l+  ++++ a l++L+++Ha
+  sp|Q701N9|MYG_TETNG   3 DFDMVLKFWGPVEADYSAHGGMVLTRLFTENPETQQLFPKFVGIA-QSELAGNAAVSAHGATVLKKLGELLKA-KGNHAAILQPLANSHA 90 
+                          567899************************************999.99***********************99.99************** PP
+
+             globins4  97 kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +k+k+++k+fkl++ev+ +v+a++  + + ++ q al  ++a++  ++ + Yk
+  sp|Q701N9|MYG_TETNG  91 TKHKIPIKNFKLIAEVIGKVMAEK--AGLDTAGQQALRNIMATIIADIDATYK 141
+                          ************************..666678899***************997 PP
+
+>> sp|Q6I7B0|MYG_AUXRO  Myoglobin OS=Auxis rochei GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.3   0.2   3.5e-34   1.7e-31       6     149 .]       2     141 ..       1     141 [. 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 114.3 bits;  conditional E-value: 3.5e-34
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead +++G+ +L rlfk +P tq+ F+kF ++  + +l ++a v +Hg +vl+ l++ l+  ++++ a +k+L+++H
+  sp|Q6I7B0|MYG_AUXRO   2 ADFDAVLKCWGPVEADFNTVGGMVLARLFKDHPDTQKLFPKFAGIA-AGDLAGNAAVAAHGGTVLKKLGELLKA-KGNHAAIIKPLANSH 89 
+                          57789***************************************99.889**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl++e+lv+v++++  + + a+ q+al  ++ +v  +l ++Yk
+  sp|Q6I7B0|MYG_AUXRO  90 ATKHKIPINNFKLITEALVHVMQEK--AGLDAAGQTALRNVMGIVIADLEANYK 141
+                          ************************9..7788999******************97 PP
+
+>> sp|P14398|MYG_GALJA  Myoglobin OS=Galeorhinus japonicus GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.2   0.2   3.6e-34   1.8e-31       6     149 .]       2     143 ..       1     143 [. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 114.2 bits;  conditional E-value: 3.6e-34
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a++ kv++vW+ ve ++   G++iL rlf  +P+++++F+k k+ s   elk  ad+k+ + +vl Al+++++k ++++++ +k+L+  H
+  sp|P14398|MYG_GALJA   2 ABWDKVNSVWSAVEQNITAIGQNILLRLFEQYPESEDYFPKLKNKS-LGELKDTADIKAQADTVLRALGNIVKK-KGDHSQPVKALAATH 89 
+                          79****************************************9877.89*************************.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           + +k++p+yf  ++ + v vl + +p+e+ a++qaa+  +++ ++ ++ + Yk
+  sp|P14398|MYG_GALJA  90 ITTHKIPPHYFTKITTIAVGVLSEMYPSEMNAQAQAAFSGAFKNICSDIEKEYK 143
+                          ***************************************************997 PP
+
+>> sp|P84216|HBA_BATEA  Hemoglobin subunit alpha OS=Bathyraja eatonii GN=HBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.0   2.5   4.2e-34     2e-31       2     149 .]       2     142 .]       1     142 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 114.0 bits;  conditional E-value: 4.2e-34
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          vLs+a+k+++++v   ++ ++e +Gad+L rlf  +P+t+++F++F + +        a vk+Hg kv++A+ +a  +ld +l+++l++L
+  sp|P84216|HBA_BATEA   2 VLSDANKQEIHHVAELIKPHAEAVGADALARLFELHPQTKTYFPNFSGYH-----ATDAPVKAHGAKVINAVLKAAEHLD-DLPKHLEKL 85 
+                          89********************************************9998.....67799*******************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + +H ++l vdp++f l+s+++v++la++lp  f+++ + a++K+l+ + ++l+skY+
+  sp|P84216|HBA_BATEA  86 ATKHGHELLVDPHNFVLFSDIIVVTLATKLP-TFSPATHRAIDKFLEELVHQLSSKYR 142
+                          *****************************98.5************************7 PP
+
+>> sp|O09232|HBB_MELAE  Hemoglobin subunit beta OS=Melanogrammus aeglefinus GN=hbb PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.0   0.0   4.2e-34     2e-31       4     149 .]       5     147 .]       2     147 .] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 114.0 bits;  conditional E-value: 4.2e-34
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++e+  ++ ++++   d+ee G   L r + ++P+tq++F  F++L  ++ +  ++ + +Hg k+l+ l  al+++d ++++++++Ls 
+  sp|O09232|HBB_MELAE   5 TDDERAIINGIFSNL--DYEEIGRKSLCRCLIVYPWTQRYFGGFGNLYNAETILCNPLIAAHGTKILHGLDRALKNMD-DIKNTYAELSL 91 
+                          567777788888888..9************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +f+ll+++l +v+aa++++ ft d q a +K+la+v  +l  +Y+
+  sp|O09232|HBB_MELAE  92 LHSDKLHVDPDNFRLLADCLTVVIAAKMGAAFTVDTQVAWQKFLAVVVSALGRQYH 147
+                          ***************************************************99997 PP
+
+>> sp|P18991|HBB1_UROHA  Hemoglobin subunit beta-1 (Fragments) OS=Uromastyx hardwickii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  114.0   0.0   4.4e-34   2.1e-31       2     149 .]       2     146 .]       1     146 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 114.0 bits;  conditional E-value: 4.4e-34
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           + +++ek  ++a W+kv  dv+ +G++ L  l++++P+tq+fFe F++Lst+ ++ ++++       v++ ++dal++ld ++     +
+  sp|P18991|HBB1_UROHA   2 HWTAEEKALINAYWGKV--DVGSVGGETLANLLVVYPWTQRFFEDFGNLSTPSAILNNPKXXXXXXXVITSFGDALKNLD-NVXXXXXK 87 
+                           6799*************..*************************************************************.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Lse H++kl+vdp +f+ll++vl++  aa+++k            l+ +va++la +Y+
+  sp|P18991|HBB1_UROHA  88 LSEYHCNKLHVDPVNFRLLGDVLITLSAANFGKXXXXXXXXXXXXLVGVVAHALARRYH 146
+                           ********************************************************997 PP
+
+>> sp|Q9DGJ2|MYG_THUAA  Myoglobin OS=Thunnus alalunga GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  113.4   0.1   6.6e-34   3.2e-31       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 113.4 bits;  conditional E-value: 6.6e-34
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+ + G+ +L+rlfk +P tq+ F+kF ++  +++l ++a + +Hg +vl+ l++ l+  ++ + + lk+++++H
+  sp|Q9DGJ2|MYG_THUAA   2 ADFDAVLKCWGPVEADYTTIGGLVLTRLFKEHPDTQKLFPKFAGIA-QADLAGNAAISAHGATVLKKLGELLKA-KGSHASILKPMANSH 89 
+                          57789***************************************99.999**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++++fkl+sevlv+v++++  + + a  q+al  ++ ++  +l ++Yk
+  sp|Q9DGJ2|MYG_THUAA  90 ATKHKIPINNFKLISEVLVKVMQEK--AGLDAGGQTALRNVMGIIIADLEANYK 141
+                          *************************..66667889*****************97 PP
+
+>> sp|Q9DGI8|MYG_KATPE  Myoglobin OS=Katsuwonus pelamis GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.7   0.6   1.1e-33   5.3e-31       7     149 .]       3     140 ..       1     140 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 112.7 bits;  conditional E-value: 1.1e-33
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHa 96 
+                          +  +v++ W+ vead +++G+ +L rlfk +P+tq+ F+kF +++   ++ ++a v +Hg +vl+ l++ l+  ++++ a +k+L+++Ha
+  sp|Q9DGI8|MYG_KATPE   3 DLDAVLKCWGAVEADFNTVGGLVLARLFKDHPETQKLFPKFAGIT--GDIAGNAAVAAHGATVLKKLGELLKA-KGNHAAIIKPLANSHA 89 
+                          67899**************************************99..89**********************99.99************** PP
+
+             globins4  97 kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          k++k+++++fkl++e+l++vl+++  + + a+ q+al  ++ +v  +l ++Yk
+  sp|Q9DGI8|MYG_KATPE  90 KQHKIPINNFKLITEALAHVLHEK--AGLDAAGQTALRNVMGIVIADLEANYK 140
+                          ************************..7788999******************97 PP
+
+>> sp|P02204|MYG_CYPCA  Myoglobin OS=Cyprinus carpio GN=mb PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  112.0   0.1   1.7e-33   8.5e-31       7     149 .]       3     141 ..       1     141 [. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 112.0 bits;  conditional E-value: 1.7e-33
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHa 96 
+                          + + v++ W+ vead e++G+++L+rlfk +P+tq+ F+kF ++  ++el ++a vk+Hg +vl+ l++ l+   +++ a lk+L+  Ha
+  sp|P02204|MYG_CYPCA   3 DAELVLKCWGGVEADFEGTGGEVLTRLFKQHPETQKLFPKFVGIA-SNELAGNAAVKAHGATVLKKLGELLKA-RGDHAAILKPLATTHA 90 
+                          567899************************************999.99***********************99.889************* PP
+
+             globins4  97 kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          + +k+  ++f+l++evlv+v+a++  + + a  q+al +++++v  ++ + Yk
+  sp|P02204|MYG_CYPCA  91 NTHKIALNNFRLITEVLVKVMAEK--AGLDAGGQSALRRVMDVVIGDIDTYYK 141
+                          ************************..66667889**********999998886 PP
+
+>> sp|P0C0U7|HBAD_DRYCE  Hemoglobin subunit alpha-D OS=Drymarchon corais erebennus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  111.5   0.0   2.6e-33   1.3e-30       2     149 .]       1     141 []       1     141 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 111.5 bits;  conditional E-value: 2.6e-33
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           vL+++++  ++a  +k ++  e+ Gad+L rl+ ++P+++++F +F +Ls      +s+d+ + g+kv +Al  al++ld +++++l++
+  sp|P0C0U7|HBAD_DRYCE   1 VLTAEDRRLLQASVGKLGCRLEDIGADALNRLLIVFPQSKTYFSHF-NLS-----PGSKDIVHQGEKVGKALDSALKHLD-DIRGTLSQ 82 
+                           699*******************************************.999.....9***********************9.9******* PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           Ls+lHa +l+vdp +f+lls++l + la++l +e+ a+   a +K+l+ va +l +kY+
+  sp|P0C0U7|HBAD_DRYCE  83 LSDLHAYNLRVDPVNFQLLSKCLHVSLATHLRNEYNASTCLAWDKFLEQVADVLCEKYR 141
+                           **********************************************************7 PP
+
+>> sp|Q9DEN9|MYG_GOBGI  Myoglobin OS=Gobionotothen gibberifrons GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  110.5   0.1     5e-33   2.4e-30       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 110.5 bits;  conditional E-value: 5e-33
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+   v++ W++vead+ ++G  +L+rlf+ +P+t++ F+kF ++  + +l + a v +Hg +vl+ l+d l+   + + a lk+Ls +H
+  sp|Q9DEN9|MYG_GOBGI   2 ADFDMVLKCWGPVEADYTTHGSLVLTRLFTEHPETLKLFPKFAGIA-HGDLAGDAGVSAHGATVLNKLGDLLKA-RGAHAALLKPLSSSH 89 
+                          5677899*************************************99.899***********************9.88************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++ +fkl++ev+ +v+ ++  + + a+ q+al  ++a++  ++ + Yk
+  sp|Q9DEN9|MYG_GOBGI  90 ATKHKIPIINFKLIAEVIGKVMEEK--AGLDAAGQTALRNVMAVIIADMEADYK 141
+                          ************************9..7788999*****************997 PP
+
+>> sp|Q6VN46|MYG_DANRE  Myoglobin OS=Danio rerio GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  109.5   0.0   1.1e-32   5.2e-30       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 109.5 bits;  conditional E-value: 1.1e-32
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a++  v++ W+ vead++  G+++L rlfk +P t++ F+kF ++s + +l +s+ v +Hg +vl+ l++ l+  ++++ a lk+L++ H
+  sp|Q6VN46|MYG_DANRE   2 ADHDLVLKCWGAVEADYAANGGEVLNRLFKEYPDTLKLFPKFSGIS-QGDLAGSPAVAAHGATVLKKLGELLKA-KGDHAALLKPLANTH 89 
+                          67889****************************************9.899**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+ +kv  ++f+l++evlv+v+a++  + + a+ q+al ++++ v  ++   Yk
+  sp|Q6VN46|MYG_DANRE  90 ANIHKVALNNFRLITEVLVKVMAEK--AGLDAAGQGALRRVMDAVIGDIDGYYK 141
+                          *************************..7788999***********999987775 PP
+
+>> sp|Q9DEN8|MYG_NOTCO  Myoglobin OS=Notothenia coriiceps neglecta GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.7   0.1   1.9e-32   9.1e-30       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 108.7 bits;  conditional E-value: 1.9e-32
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+   v++ W+++ead++++G+ +L+rlf+ +P+t++ F+kF ++  + +l + a v +Hg +vl+ l+d l+   + + a lk+Ls +H
+  sp|Q9DEN8|MYG_NOTCO   2 ADFDMVLKCWGPMEADYATHGGLVLTRLFTEHPETLKLFPKFAGIA-HGDLAGDAGVSAHGATVLNKLGDLLKA-RGAHAALLKPLSSSH 89 
+                          5677899*************************************99.899***********************9.88************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++ +fkl++ev+ +v+ ++  + + a+ q+al  ++a++  ++ + Yk
+  sp|Q9DEN8|MYG_NOTCO  90 ATKHKIPIINFKLIAEVIGKVMEEK--AGLDAAGQTALRNVMAVIIADMEADYK 141
+                          ************************9..7788999*****************997 PP
+
+>> sp|Q7T044|MYG_CHARH  Myoglobin OS=Channichthys rhinoceratus GN=mb PE=3 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.4   0.1   2.4e-32   1.1e-29       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 108.4 bits;  conditional E-value: 2.4e-32
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+   v++ W++vead +++G  +L+rlf+ +P+t++ F+kF ++  + +l + a v +Hg +vl+ l+d l+   + + a lk+Ls +H
+  sp|Q7T044|MYG_CHARH   2 ADFDMVLKCWGPVEADHATHGSLVLTRLFTEHPETLKLFPKFAGIA-HGDLAGDAGVSAHGATVLKKLGDLLKA-RGGHAALLKPLSSSH 89 
+                          5677899*************************************99.899***********************9.889************ PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++ +fkl++ev+ +v+ ++  + + a+ q+al  ++a++ +++ + Yk
+  sp|Q7T044|MYG_CHARH  90 ATKHKIPIINFKLIAEVIGKVMEEK--AGLDAAGQTALRNVMAIIITDMEADYK 141
+                          ************************9..7788999*****************997 PP
+
+>> sp|P06640|HBA2_PLEWA  Hemoglobin subunit alpha-2 (Fragment) OS=Pleurodeles waltl PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  108.0   0.4   3.1e-32   1.5e-29      10     149 .]       1     133 []       1     133 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 108.0 bits;  conditional E-value: 3.1e-32
+              globins4  10 kvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakk 98 
+                           +vkavW  v+ + e +Ga++L r f+  P+tq++F   kdLs     ++sa ++ Hgkkv+ Al++a+a++d ++++ +++Ls++Ha++
+  sp|P06640|HBA2_PLEWA   1 NVKAVWEHVKGHEEVYGAEALYRAFLCDPQTQTYFAG-KDLS-----ENSAFLHSHGKKVMCALTNAIAHID-DIDGCMSKLSDKHAHE 82 
+                           69*********************************87.7***.....99**********************9.9*************** PP
+
+              globins4  99 lkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           l vdp +f +l++ +++vla  l++ +t + + +++K+l+ v+++l+s+Y+
+  sp|P06640|HBA2_PLEWA  83 LMVDPGNFDILAHHILTVLAMFLSQLLTCANHRSVDKFLSCVKNVLTSRYR 133
+                           **************************************************7 PP
+
+>> sp|P07409|HBB_SQUAC  Hemoglobin subunit beta OS=Squalus acanthias GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.6   4.5     4e-32   1.9e-29       2     149 .]       2     142 .]       1     142 [] 0.94
+
+  Alignments for each domain:
+  == domain 1  score: 107.6 bits;  conditional E-value: 4e-32
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkks.advkkHgkkvldAlsdalakldekleaklkd 90 
+                          + + +ek  v+avW+k   d + + a +L+rlf+++P+t+++F kF++     ++++s   v++H+ kv+ Al+ a +++d +++ ++ +
+  sp|P07409|HBB_SQUAC   2 HWTGEEKALVNAVWTKT--DHQAVVAKALERLFVVYPWTKTYFVKFNG-----KFHASdSTVQTHAGKVVSALTVAYNHID-DVKPHFVE 83 
+                          56789***********9..899999*********************54.....45666257*******************9.9******* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          Ls++H ++l+vdp++fkll+++l + l + l keft++vqaa  K+ ++v  +l++ Y+
+  sp|P07409|HBB_SQUAC  84 LSKKHYEELHVDPENFKLLANCLEVELGHALHKEFTPEVQAAWSKFSNVVVDALSKGYH 142
+                          ******************************************************99996 PP
+
+>> sp|Q9DEP1|MYG_PSEGE  Myoglobin OS=Pseudochaenichthys georgianus GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.6   0.1     4e-32   1.9e-29       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 107.6 bits;  conditional E-value: 4e-32
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+   v++ W+ vead++++G  +L+rlf+ +P+t++ F+kF ++  + +l + a v +Hg +vl+ l+d l+   + + a lk+Ls +H
+  sp|Q9DEP1|MYG_PSEGE   2 ADFDMVLKCWGLVEADYATYGSLVLTRLFTEHPETLKLFPKFAGIA-HGDLAGDAGVSAHGATVLNKLGDLLKA-RGGHAALLKPLSSSH 89 
+                          5677899*************************************99.899***********************9.889************ PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++ +fkl++ev+ +v+ ++  + + a+ q+al  ++a++  ++ + Yk
+  sp|Q9DEP1|MYG_PSEGE  90 ATKHKIPIINFKLIAEVIGKVMEEK--AGLDAAGQTALRNVMAVIIADMEADYK 141
+                          ************************9..7788999*****************997 PP
+
+>> sp|Q9DGI9|MYG_SCOJP  Myoglobin OS=Scomber japonicus GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.4   0.2   4.6e-32   2.3e-29       6     149 .]       2     141 ..       1     141 [. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 107.4 bits;  conditional E-value: 4.6e-32
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+  +v++ W++vead+++ G+ +L+rlf+ +P tq+ F+kF ++    ++ ++a + +Hg +vl+ l+++l+  ++++ + +k+L+++H
+  sp|Q9DGI9|MYG_SCOJP   2 ADFDAVLKFWGPVEADYDKIGNMVLTRLFTEHPDTQKLFPKFAGIG-LGDMAGNAAISAHGATVLKKLAEVLKA-KGNHAGIIKPLANSH 89 
+                          57789**************************************999.778**********************99.99************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+ +++fkl++e++v+v++++  + + a  q+al  ++ ++  ++ ++Yk
+  sp|Q9DGI9|MYG_SCOJP  90 ATKHKIAINNFKLITEIIVKVMQEK--AGLDAGGQTALRNVMGVFIADMDANYK 141
+                          *************************..66667789**************99997 PP
+
+>> sp|P87497|MYG_CHIRA  Myoglobin OS=Chionodraco rastrospinosus GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  107.3   0.1   4.9e-32   2.4e-29       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 107.3 bits;  conditional E-value: 4.9e-32
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+   v++ W+++ead +++G  +L+rlf+ +P+t++ F+kF ++  + +l + a v +Hg +vl+ l+d l+   + + a lk+Ls +H
+  sp|P87497|MYG_CHIRA   2 ADFDMVLKCWGPMEADHATHGSLVLTRLFTEHPETLKLFPKFAGIA-HGDLAGDAGVSAHGATVLNKLGDLLKA-RGAHAALLKPLSSSH 89 
+                          5677899*************************************99.899***********************9.88************* PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++ +fkl++ev+ +v+ ++  + + a+ q+al  ++a++ +++ + Yk
+  sp|P87497|MYG_CHIRA  90 ATKHKIPIINFKLIAEVIGKVMEEK--AGLDAAGQTALRNVMAIIITDMEADYK 141
+                          ************************9..7788999*****************997 PP
+
+>> sp|Q9DEP0|MYG_CRYAN  Myoglobin OS=Cryodraco antarcticus GN=mb PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.1   0.1   1.1e-31   5.5e-29       6     149 .]       2     141 ..       1     141 [. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 106.1 bits;  conditional E-value: 1.1e-31
+             globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselH 95 
+                          a+   v++ W++vead +++G  +L+rlf+ +P+t++ F+kF ++  + +l + a v +Hg +vl+ l+d l+   + + a lk+Ls +H
+  sp|Q9DEP0|MYG_CRYAN   2 ADFDMVLKCWGPVEADHATHGSLVLTRLFTEHPETLKLFPKFAGIA-HGDLAGDAGVSAHGATVLKKLGDLLKA-RGGHAALLKPLSSSH 89 
+                          5677899*************************************99.899***********************9.889************ PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          a+k+k+++ +f l++ev+ +v+ ++  + + a+ q+al  ++a++ +++ + Yk
+  sp|Q9DEP0|MYG_CRYAN  90 ATKHKIPIINFTLIAEVIGKVMEEK--AGLDAAGQTALRNVMAIIITDMEADYK 141
+                          ************************9..7788999*****************997 PP
+
+>> sp|Q9YGW2|HBA_MUSGR  Hemoglobin subunit alpha OS=Mustelus griseus GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  106.1   0.2   1.2e-31   5.7e-29       4     149 .]       4     141 .]       1     141 [] 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 106.1 bits;  conditional E-value: 1.2e-31
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ ek+++ ++        e +Ga+ L rlf+++P ++ +Fe +kd s      + a+v+ Hg kv+ A+ +a  ++d +l+++l++L+ 
+  sp|Q9YGW2|HBA_MUSGR   4 TACEKQTIGKIAQVLAKSPEAYGAECLARLFVTHPGSKSYFE-YKDYS-----AAGAKVQVHGGKVIRAVVKAAEHVD-DLHSHLETLAL 86 
+                          677888888774444445688********************7.78999.....889*********************9.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           H kkl vdp++f +lse+++++la++  +ef++d + a++Kll+ +++ l+s+Y+
+  sp|Q9YGW2|HBA_MUSGR  87 THGKKLLVDPQNFPMLSECIIVTLATH-LTEFSPDTHCAVDKLLSAICQELSSRYR 141
+                          **************************9.78*************************7 PP
+
+>> sp|P02021|HBA_HETPO  Hemoglobin subunit alpha OS=Heterodontus portusjacksoni GN=HBA PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  105.0   2.3   2.6e-31   1.2e-28       5     149 .]      11     148 .]       8     148 .] 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 105.0 bits;  conditional E-value: 2.6e-31
+             globins4   5 eaektkvkavWakvea.dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +a++ ++  + +kv a ++e  Ga++L r+f+++ at+ +F+ +kd +      +++ +k+Hg kv++Al++a  +ld +l+++l++L+ 
+  sp|P02021|HBA_HETPO  11 AADRAELA-ALSKVLAqNAEAFGAEALARMFTVYAATKSYFKDYKDFT-----AAAPSIKAHGAKVVTALAKACDHLD-DLKTHLHKLAT 93 
+                          56666654.4566665267889*************************9.....7899********************9.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           H ++lkvdp +f+ ls +l + la +  +ef+++ + al+K+l  v++ l+s+Y+
+  sp|P02021|HBA_HETPO  94 FHGSELKVDPANFQYLSYCLEVALAVH-LTEFSPETHCALDKFLTNVCHELSSRYR 148
+                          *************************99.78*************************7 PP
+
+>> sp|O13077|HBB_GADMO  Hemoglobin subunit beta OS=Gadus morhua GN=hbb PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  104.6   0.0   3.3e-31   1.6e-28       4     149 .]       5     147 .]       2     147 .] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 104.6 bits;  conditional E-value: 3.3e-31
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          ++ e+  +++++++   d+ee G   L r + ++P+tq++F  F++L  ++ +  ++ + +Hg k+l+ l  al+++d ++++++++Ls 
+  sp|O13077|HBB_GADMO   5 TDSERAIINSIFSNL--DYEEIGRKSLCRCLIVYPWTQRYFGGFGNLYNAETILCNPLIAAHGTKILHGLDRALKNMD-DIKNTYAELSL 91 
+                          678899999999999..*************************************************************.*********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          lH++kl+vdp +f+ll+++l  v+aa++   ft d q + +K+ + v  +l   Y+
+  sp|O13077|HBB_GADMO  92 LHSDKLHVDPDNFRLLADCLTGVIAAKMVPAFTVDTQVGWQKFRSFVVSALGREYH 147
+                          ***************************************************99996 PP
+
+>> sp|P07420|HBB_DASVI  Hemoglobin subunit beta (Fragment) OS=Dasyurus viverrinus GN=HBB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !  102.1   0.4     2e-30   9.7e-28      62     149 .]       1      87 []       1      87 [] 0.99
+
+  Alignments for each domain:
+  == domain 1  score: 102.1 bits;  conditional E-value: 2e-30
+             globins4  62 vkkHgkkvldAlsdalakldekleaklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          v++Hg kvl  ++da+++ld +l++++++LselH++kl+ dp++fkll+++lv  la++++keft++vqaa +K +a va++la+kY+
+  sp|P07420|HBB_DASVI   1 VRAHGAKVLVSFGDAVKNLD-NLKGTFAKLSELHCDKLHEDPENFKLLGNILVICLAEHFGKEFTPEVQAATQKTVAGVANALAHKYH 87 
+                          89******************.******************************************************************7 PP
+
+>> sp|P02143|HBB_HETPO  Hemoglobin subunit beta OS=Heterodontus portusjacksoni GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   98.6   1.7   2.3e-29   1.1e-26       2     149 .]       2     141 .]       1     141 [] 0.97
+
+  Alignments for each domain:
+  == domain 1  score: 98.6 bits;  conditional E-value: 2.3e-29
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          + se e  ++++ W  +  d +  Ga +L r+f ++P+t ++F + k+ +       s  vk+H+kkv +Al+ a+ +l  ++++++ dL
+  sp|P02143|HBB_HETPO   2 HWSEVELHEITTTWKSI--DKHSLGAKALARMFIVYPWTTRYFGNLKEFT-----ACSYGVKEHAKKVTGALGVAVTHLG-DVKSQFTDL 83 
+                          6799999**********..8999************************999.....899********************96.8******** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s++Ha++l+vd++ fkll+++ v+ l   l  +f+++ qa  eK + +v  ++++ Y+
+  sp|P02143|HBB_HETPO  84 SKKHAEELHVDVESFKLLAKCFVVELGILLKDKFAPQTQAIWEKYFGVVVDAISKEYH 141
+                          *******************************************************997 PP
+
+>> sp|P02022|HBAM_LITCT  Hemoglobin heart muscle subunit alpha-type OS=Lithobates catesbeiana PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   95.4   0.1   2.2e-28   1.1e-25       3     146 ..       2     131 ..       1     132 [] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 95.4 bits;  conditional E-value: 2.2e-28
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+ ek++v ++W k+  + ++ Ga+ ++rlfk +P+t+ fF +F d+s      +s+d+ +Hg k+ +Al++a+++ld     +l++ 
+  sp|P02022|HBAM_LITCT   2 LSDSEKSAVASLWEKIAPQTNKLGAESMERLFKNHPETKSFFSRF-DIS-----PGSQDLLTHGGKIFGALGEAIKSLD-----NLQKY 79 
+                           89*******************************************.899.....9************************.....89999 PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                            +lH++klk+   ++klls+++++v  a++++e     qaa +K+l  v   l+s
+  sp|P02022|HBAM_LITCT  80 QDLHTNKLKLSSDHMKLLSAAIIEVFTAHFGGEVN---QAAWNKFLGEVGAILTS 131
+                           *****************************888864...9*******999998876 PP
+
+>> sp|P20247|HBB2_TORMA  Hemoglobin subunit beta-2 OS=Torpedo marmorata GN=HBB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.9   3.9   2.8e-27   1.4e-24       2     149 .]       2     142 .]       1     142 [] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 91.9 bits;  conditional E-value: 2.8e-27
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksad.vkkHgkkvldAlsdalakldekleaklk 89 
+                            L+++ek  ++++W++v  +v e  a +L+r+f ++P+t + F +F++     ++k+s++ v+ H+++v +Als+a+  l  +++++++
+  sp|P20247|HBB2_TORMA   2 SLTDEEKHLIQHIWSNV--NVVEITAKALERVFYVYPWTTRLFTSFNH-----NFKASDKgVHDHAVNVSKALSAAIGDLH-NVNKNFS 82 
+                           79***************..9**************************55.....55777654******************99.9****** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +Ls +H kkl vd  +f ll+++ ++ laa    +ft++ + a  Kl+++v+++l+ +Y+
+  sp|P20247|HBB2_TORMA  83 ALSTKHQKKLGVDTSNFMLLGQAFLVELAAFEKDKFTPQYHKAALKLFEVVTEALSCQYH 142
+                           *******************************99************************997 PP
+
+>> sp|P20246|HBB1_TORMA  Hemoglobin subunit beta-1 OS=Torpedo marmorata GN=HBB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.8   2.6     3e-27   1.5e-24       2     149 .]       2     142 .]       1     142 [] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 91.8 bits;  conditional E-value: 3e-27
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkks.advkkHgkkvldAlsdalakldekleaklk 89 
+                            L+++e   ++++W++v  +v e  a +L+r+f ++P+t + F +F++     ++k+s ++v+ H+++v +A+s+a+  l  +++++++
+  sp|P20246|HBB1_TORMA   2 SLTDEEIRLIQHIWSNV--NVVEITAKALERVFYVYPWTTRLFTSFNH-----NFKASdKQVHDHAVNVSNAISAAIGDLH-DINKNFS 82 
+                           799**************..9**************************65.....44655268******************98.8****** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                           +Ls +H kkl vd  +f ll+++ ++ laa    +ft++ + a  Kl+++v+++l+ +Y+
+  sp|P20246|HBB1_TORMA  83 ALSTKHQKKLGVDTSNFMLLGQAFLVELAALEKDKFTPQYHKAALKLFEVVTEALSCQYH 142
+                           *******************************9*************************997 PP
+
+>> sp|Q7M3C1|MYG_AILME  Myoglobin (Fragment) OS=Ailuropoda melanoleuca GN=MB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   91.6   0.4   3.5e-27   1.7e-24       3      80 ..       2      76 ..       1      92 [. 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 91.6 bits;  conditional E-value: 3.5e-27
+             globins4  3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl 80
+                         Ls++e++ v++vW+kvead +++G+++L+rlfk +P+t+e+F+kFk+L+     k+s+d+kkHg++v +Al+ +l+k 
+  sp|Q7M3C1|MYG_AILME  2 LSDGEWQLVLNVWGKVEADLAGHGQEVLIRLFKGHPETLEKFDKFKHLK---SEKGSEDLKKHGNTVETALEGILKKK 76
+                         89***********************************************...559********************993 PP
+
+>> sp|Q7SID0|GLBF1_EPTBU  Globin-F1 OS=Eptatretus burgeri PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   90.8   0.1     6e-27   2.9e-24       3     148 ..      11     146 .]       9     146 .] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 90.8 bits;  conditional E-value: 6e-27
+               globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                            L++++k++++++W k++ ++e++  +iL r++k +P++q  F+kF     + +l++ ++vk+ ++ + + ++++++++d  e++ ++l
+  sp|Q7SID0|GLBF1_EPTBU  11 LTDGDKKAINKIWPKIYKEYEQYSLNILLRFLKCFPQAQASFPKFSTK--KSNLEQDPEVKHQAVVIFNKVNEIINSMDnqEEIIKSL 96 
+                            99*******************************************443..589*************************85678889** PP
+
+               globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                            kdLs++H + +kvd   fk ls + v ++  +          a +eKl++++++ll+s+Y
+  sp|Q7SID0|GLBF1_EPTBU  97 KDLSQKHKTVFKVDSIWFKELSSIFVSTIDGG----------AEFEKLFSIICILLRSAY 146
+                            *****************************998..........999*************99 PP
+
+>> sp|P56692|HBB_DASAK  Hemoglobin subunit beta OS=Dasyatis akajei GN=HBB PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.7   1.4   2.7e-26   1.3e-23       2     149 .]       3     142 .]       2     142 .] 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 88.7 bits;  conditional E-value: 2.7e-26
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                          +Lse++   +k vW  v  d ++  a +L+r+f+++P+t + F k ++L  ++++     v++H+ kv  Al++a+  l+ k+e ++++L
+  sp|P56692|HBB_DASAK   3 KLSEDQEHYIKGVWKDV--DHKQITAKALERVFVVYPWTTRLFSKLQGLFSANDI----GVQQHADKVQRALGEAIDDLK-KVEINFQNL 85 
+                          79***************..9999**************************976665....79******************9.********* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          s++H ++  vd ++fkll++  ++ la ++ k f ++ +aa  K++ lva++l+s+Y+
+  sp|P56692|HBB_DASAK  86 SGKH-QEIGVDTQNFKLLGQTFMVELALHYKKTFRPKEHAAAYKFFRLVAEALSSNYH 142
+                          ****.5799************************************************7 PP
+
+>> sp|P09106|HBAT_PAPAN  Hemoglobin subunit theta-1 OS=Papio anubis GN=HBQ1 PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   88.1   0.0   4.2e-26     2e-23       2     106 ..       2      99 ..       1     101 [. 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 88.1 bits;  conditional E-value: 4.2e-26
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                            Ls++++  v+a+W k +++v+ + +++L+r f+++Pat+++F +  dLs      +sa+v++Hg+kv+dAls a+ +ld +l+ +l++
+  sp|P09106|HBAT_PAPAN   2 ALSAEDRALVRALWKKLGSNVGVYATEALERTFLAFPATKTYFSHL-DLS-----PGSAQVRAHGQKVADALSLAVERLD-DLPRALSA 83 
+                           69********************************************.9*9.....9***********************9.******** PP
+
+              globins4  91 LselHakklkvdpkyf 106
+                           Ls+lHa +l+vdp +f
+  sp|P09106|HBAT_PAPAN  84 LSHLHACQLRVDPANF 99 
+                           **************99 PP
+
+>> sp|P02209|GLB3_MYXGL  Globin-3 OS=Myxine glutinosa PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   86.9   0.4   9.9e-26   4.8e-23       2     148 ..      11     147 ..      10     148 .. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 86.9 bits;  conditional E-value: 9.9e-26
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +Lse++k+++++ W +++ + e+    +L  ++k +P++q+ F+kF     + +l++ + vk  ++ +++A++ ++  +d    +++ l
+  sp|P02209|GLB3_MYXGL  11 TLSEGDKKAIRESWPQIYKNFEQNSLAVLLEFLKKFPKAQDSFPKFSAK--KSHLEQDPAVKLQAEVIINAVNHTIGLMDkeAAMKKYL 97 
+                           59********************************************655..599*************************755679999* PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                           kdLs +H+++++v+p  fk ls+v v ++  +          aa+eKl++++a+ll+s Y
+  sp|P02209|GLB3_MYXGL  98 KDLSTKHSTEFQVNPDMFKELSAVFVSTMGGK----------AAYEKLFSIIATLLRSTY 147
+                           ****************************9988..........****************99 PP
+
+>> sp|Q9YGW1|HBB_MUSGR  Hemoglobin subunit beta OS=Mustelus griseus GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   85.6   0.9   2.3e-25   1.1e-22       4     149 .]       5     137 .]       2     137 .] 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 85.6 bits;  conditional E-value: 2.3e-25
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++e+ ++ + +     d++++ +++L r+fk++P+t+++F+k  d +             H+  v++Al+da++++d ++++ +kdLs+
+  sp|Q9YGW1|HBB_MUSGR   5 TQEERDEISKTFQGT--DMKTVVTQALDRMFKVYPWTNRYFQKRTDFR----------SSIHAGIVVGALQDAVKHMD-DVKTLFKDLSK 81 
+                          566666776666654..899999********************98877..........347*****************.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +Ha+ l+vdp  f+ll++++++ la      ft+++q+  +K++++v  +++++Y+
+  sp|Q9YGW1|HBB_MUSGR  82 KHADDLHVDPGSFHLLTDCIIVELAYLRKDCFTPHIQGIWDKFFEVVIDAISKQYH 137
+                          **************************99999***********************97 PP
+
+>> sp|P80017|GLBD_CAUAR  Globin D, coelomic OS=Caudina arenicola PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   82.3   0.2   2.5e-24   1.2e-21       3     147 ..      13     156 ..      11     158 .. 0.96
+
+  Alignments for each domain:
+  == domain 1  score: 82.3 bits;  conditional E-value: 2.5e-24
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkd 90 
+                           L++aek  +++ W +  ++  +  ad+ +r+f   P++q++F++  +Ls ++el+ s ++++H+ +v   ++  + ++d e l+  l++
+  sp|P80017|GLBD_CAUAR  13 LTPAEKDLIRSTWDQLMTHRTGFVADVFIRIFHNDPTAQRKFPQMAGLS-PAELRTSRQMHAHAIRVSALMTTYIDEMDtEVLPELLAT 100
+                           99***********************************************.****************************98999999*** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllask 147
+                           L+  H +k +v  k++ l+++vl++ ++a+l+  ft +v+ a  K +a+v+ +l +k
+  sp|P80017|GLBD_CAUAR 101 LTRTH-DKNHVGKKNYDLFGKVLMEAIKAELGVGFTKQVHDAWAKTFAIVQGVLITK 156
+                           *****.6789****************************************9998776 PP
+
+>> sp|P18979|HBA1_UROHA  Hemoglobin subunit alpha-1 (Fragment) OS=Uromastyx hardwickii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   79.7   0.2   1.5e-23   7.5e-21       2      98 ..       1      90 []       1      90 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 79.7 bits;  conditional E-value: 1.5e-23
+              globins4  2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92
+                          vL++++k++v+a+W+ v  + e  Ga++L rlf+++Pa++++F +F dL+     ++sa+++    kv+dAl++a+++ld +l++++++Ls
+  sp|P18979|HBA1_UROHA  1 VLTDDDKNHVRAIWGHVSNNPEAFGAEALYRLFTAHPASKTYFSHF-DLH-----ENSAQIRXXXXKVVDALTQAVNNLD-DLSGAISKLS 84
+                          699*******************************************.999.....99**********************9.********** PP
+
+              globins4 93 elHakk 98
+                          +lHa+k
+  sp|P18979|HBA1_UROHA 85 DLHAEK 90
+                          ****97 PP
+
+>> sp|P84217|HBB_BATEA  Hemoglobin subunit beta OS=Bathyraja eatonii GN=HBB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.9   0.8   2.9e-23   1.4e-20       4     149 .]       4     141 .]       1     141 [] 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 78.9 bits;  conditional E-value: 2.9e-23
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLse 93 
+                          +++    ++ +W+k + +v  + a +L+r+f+++P+t + F++F++        +   v+ H++kv++Al  a+ +l  +++a +k+Lse
+  sp|P84217|HBB_BATEA   4 TDKKAAYITGIWSKLDKKV--TTAHALERVFTVYPWTTRLFKSFNGHF----KAGDSGVQGHAEKVVGALDTAVLHLH-DIDAGYKKLSE 86 
+                          566677899******6555..5689*******************6433....267889*******************8.9********** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          +H +   vd ++fkll+++ ++ la  + + ft++ + a  K++  va  l+s+Y+
+  sp|P84217|HBB_BATEA  87 KH-QLIGVDTQNFKLLGQAFLVELAILFKEGFTPELHEAAYKFFLAVAGGLSSQYH 141
+                          **.5799***********************************************97 PP
+
+>> sp|P0C227|GLB_NERAL  Globin OS=Nerita albicilla PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   78.2   0.0   4.7e-23   2.3e-20       3     146 ..       9     152 ..       7     155 .. 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 78.2 bits;  conditional E-value: 4.7e-23
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkd 90 
+                          Ls+++k ++k+ Wa   ad+ + G ++Lv++fk +P  q +F+kF d + +delk+ a++ +H+ +v + l++++ ++d  +k+ + l +
+  sp|P0C227|GLB_NERAL   9 LSADQKAAIKSSWAAFAADITGNGSNVLVQFFKDYPGDQSYFKKF-DGKKPDELKGDAQLATHASQVFGSLNNMIDSMDdpDKMVGLLCK 97 
+                          9********************************************.5566****************************648899999999 PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           +  H  +  v  + +k l   l++ +++  +++ + d +aa +K+l+ +a+ + +
+  sp|P0C227|GLB_NERAL  98 NASDHIPRG-VRQQQYKELFSTLMNYMQSLPGANVAGDTKAAWDKALNAMANIIDA 152
+                          999999875.666666667778999999999*******************999876 PP
+
+>> sp|P15161|GLB1_PARCH  Globin-1 OS=Paracaudina chilensis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   66.7   0.4   1.6e-19   7.7e-17       3     146 ..      13     155 ..      11     157 .. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 66.7 bits;  conditional E-value: 1.6e-19
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkd 90 
+                           L+ a+k+ v++ W +   +     +d  +r+f   Pa+q++F++  ++s + +l++s ++++H+ +v   +s+ + +ld + l+  l++
+  sp|P15161|GLB1_PARCH  13 LTLAQKKIVRKTWHQLMRNKTSFVTDLFIRIFAYDPAAQNKFPQMAGMS-ASQLRSSRQMQAHAIRVSSIMSEYIEELDsDILPELLAT 100
+                           78899*******************************************9.99**************************966788999** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           L+  H +  kv p ++ l+++vl++ l+a+l+++f  +   +  K++++v+ +l  
+  sp|P15161|GLB1_PARCH 101 LARTH-DLNKVGPAHYDLFAKVLMEALQAELGSDFNQKTRDSWAKAFSIVQAVLLV 155
+                           *****.6679****************************************999865 PP
+
+>> sp|P80018|GLBC_CAUAR  Globin C, coelomic OS=Caudina arenicola PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   66.4   0.8     2e-19   9.9e-17       3     146 ..      13     155 ..      11     157 .. 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 66.4 bits;  conditional E-value: 2e-19
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkd 90 
+                           L+ a+k+ v++ W +   +     +d+ +r+f   P +q++F++  ++s + +l++s ++++H+ +v   +s+ + +ld + l+  l++
+  sp|P80018|GLBC_CAUAR  13 LTLAQKKIVRKTWHQLMRNKTSFVTDVFIRIFAYDPSAQNKFPQMAGMS-ASQLRSSRQMQAHAIRVSSIMSEYVEELDsDILPELLAT 100
+                           78899*******************************************9.99**************************966788999** PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           L+  H +  kv   +++l+++vl++ l+a+l+++f  +   a  K++++v+ +l  
+  sp|P80018|GLBC_CAUAR 101 LARTH-DLNKVGADHYNLFAKVLMEALQAELGSDFNEKTRDAWAKAFSVVQAVLLV 155
+                           *****.6679****************************************999865 PP
+
+>> sp|P09965|GLB_DOLAU  Globin OS=Dolabella auricularia PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   62.5   0.0   3.2e-18   1.5e-15       3     145 ..       2     142 ..       1     146 [] 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 62.5 bits;  conditional E-value: 3.2e-18
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkd 90 
+                          Ls+ae + v + W++v a+ +  G + L+ lf ++P + +fF  Fk+ s  +++++s+++++ + +++  l++ + +  d +k+ a l +
+  sp|P09965|GLB_DOLAU   2 LSAAEAEVVAKSWGPVFANKDANGDNFLIALFEAYPDSPNFFADFKGKS-IADIRASPKLRNVSSRIVSRLNEFVSSAaDaGKMAAMLDQ 90 
+                          9********************************************9988.788***********************99888********* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                           s+ Ha  + v  + f+ +s++    +a+   +   a ++aa  Kl+ l+  +++
+  sp|P09965|GLB_DOLAU  91 FSKEHAG-FGVGSQQFQNVSAMFPGFVASI--AAPPAGADAAWGKLFGLIIDAMK 142
+                          *****95.9************999999988..55567789999999988877766 PP
+
+>> sp|P02211|GLB_APLKU  Globin OS=Aplysia kurodai PE=1 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   59.1   0.0   3.7e-17   1.8e-14       2     147 ..       2     143 ..       1     145 [] 0.93
+
+  Alignments for each domain:
+  == domain 1  score: 59.1 bits;  conditional E-value: 3.7e-17
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklk 89 
+                           Ls+ae   v + Wa+v+a+ +  G   L  lf  +P+  ++F  Fk+ s  +++k+s++++  + ++ + l++ +++  d +k++a l+
+  sp|P02211|GLB_APLKU   2 SLSAAEADLVGKSWAPVYANKDANGDAFLLSLFEKFPNNANYFADFKGKS-IADIKASPKLRDVSSRIFTRLNEFVNNAaDaGKMSAMLS 90 
+                          69********************************************9988.788**********************999888******** PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllask 147
+                          + +  H   + v    f+ +  +    +a+      +++++ a +Kl+ l+  +l+++
+  sp|P02211|GLB_APLKU  91 QFASEHV-GFGVGSAQFENVRSMFPAFVASL----SAPPADDAWNKLFGLIVAALKAA 143
+                          ******8.59999999999999999999888....68999999***999999998875 PP
+
+>> sp|P14393|GLB_APLJU  Globin OS=Aplysia juliana PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   54.9   0.0   6.8e-16   3.3e-13       3     147 ..       2     142 ..       1     144 [] 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 54.9 bits;  conditional E-value: 6.8e-16
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkd 90 
+                          Ls+a+   + + Wa+v a+ +  Ga  Lv lf+ +P++ +fF+ Fk+ s  +++++s++++  + ++   l++ + +  d +k+ + l++
+  sp|P14393|GLB_APLJU   2 LSAADAGLLAQSWAPVFANSDANGASFLVALFTQFPESANFFNDFKGKS-LADIQASPKLRDVSSRIFARLNEFVSNAaDaGKMGSMLQQ 90 
+                          999******************************************9988.788**********************9997889******** PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllask 147
+                           +  Ha  + v    f+ +  +    +a+      +++++aa + l+ l+  +l+s+
+  sp|P14393|GLB_APLJU  91 FATEHAG-FGVGSAQFQNVRSMFPGFVASL----SAPAADAAWNSLFGLIISALQSA 142
+                          *****95.8999999998888888888887....67889999999988888888775 PP
+
+>> sp|P29287|GLB_BURLE  Globin OS=Bursatella leachii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   54.9   0.0     7e-16   3.4e-13       3     145 ..       2     142 ..       1     146 [] 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 54.9 bits;  conditional E-value: 7e-16
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkd 90 
+                          Ls ae   + + Wa+v a+ +  G + L+ lf ++P + +fF  Fk+ s  +++++s++++  + ++++ l+d + +  d +k+ + l +
+  sp|P29287|GLB_BURLE   2 LSGAEADLLAKSWAPVFANKDANGDNFLIALFEAFPDSANFFGDFKGKS-IADIRASPKLRSVSSRIVNRLNDFVGNAaDaGKMAGMLDQ 90 
+                          8999*****************************************9988.788**********************998788********* PP
+
+             globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                           s+ H   + v  + f+ +  +    + +   +   a ++aa  Kl+ l+  +l+
+  sp|P29287|GLB_BURLE  91 FSKEHV-GFGVGSQQFENVRSMFPGFVSSV--AAPPAGADAAWGKLFGLIIDALK 142
+                          *****8.58899888888777665555554..33356677888888877777766 PP
+
+>> sp|P02210|GLB_APLLI  Globin OS=Aplysia limacina PE=1 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   54.2   0.1   1.1e-15   5.5e-13       2     146 ..       2     144 ..       1     147 [] 0.89
+
+  Alignments for each domain:
+  == domain 1  score: 54.2 bits;  conditional E-value: 1.1e-15
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklk 89 
+                           Ls+ae     + Wa+v a+ +  G   Lv lf  +P + +fF  Fk+ s  +++k+s++++  + ++ + l++ +++  d +k++a l+
+  sp|P02210|GLB_APLLI   2 SLSAAEADLAGKSWAPVFANKDANGDAFLVALFEKFPDSANFFADFKGKS-VADIKASPKLRDVSSRIFTRLNEFVNNAaDaGKMSAMLS 90 
+                          599*******************************************9988.788**********************999888******** PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                          + ++ H   + v    f+ +  +    +a+   +   a ++aa  Kl+ l+  +l++
+  sp|P02210|GLB_APLLI  91 QFAKEHV-GFGVGSAQFENVRSMFPGFVASV--AAPPAGADAAWTKLFGLIIDALKA 144
+                          ******8.58898888888888877777776..445677899999999998888876 PP
+
+>> sp|Q9TT33|HBB_COLGU  Hemoglobin subunit beta (Fragment) OS=Colobus guereza GN=HBB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   52.8   0.2     3e-15   1.5e-12     109     149 .]       1      41 []       1      41 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 52.8 bits;  conditional E-value: 3e-15
+             globins4 109 lsevlvdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          l++vlv+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q9TT33|HBB_COLGU   1 LGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 41 
+                          799*************************************7 PP
+
+>> sp|P81041|HBO_MACEU  Hemoglobin subunit omega (Fragment) OS=Macropus eugenii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   52.5   0.0   3.8e-15   1.9e-12       2      54 ..       2      52 ..       1      54 [] 0.94
+
+  Alignments for each domain:
+  == domain 1  score: 52.5 bits;  conditional E-value: 3.8e-15
+             globins4  2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLsted 54
+                         + +++ek+ ++a+Wak+  d+ee Ga +L rl++++P+tq++F++F++Ls + 
+  sp|P81041|HBO_MACEU  2 HWTAEEKQIILAIWAKI--DIEEAGAAALSRLLVVYPWTQRYFKNFGNLSSPT 52
+                         6799*************..******************************9876 PP
+
+>> sp|P14821|GLB2A_ANAIN  Globin-2 A chain OS=Anadara inaequivalvis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   51.6   0.0   7.2e-15   3.5e-12       4     143 ..      12     149 ..       9     150 .] 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 51.6 bits;  conditional E-value: 7.2e-15
+               globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                            sea k +++  W+   ad+e +G   +  lf+  P t+++F + +d++   + k++ +++ H+ ++  Al++ + +ld   +l+  ++
+  sp|P14821|GLB2A_ANAIN  12 SEAIKANLRRSWGVLSADIEATGLMLMSNLFTLRPDTKTYFTRLGDVQ---KGKANSKLRGHAITLTYALNNFVDSLDdpSRLKCVVE 96 
+                            788899****************************************99...889***********************73556666677 PP
+
+               globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                            + + +H ++ k+    f  + e + ++l+ar+++ ++ dv +a   l+ +v+ +
+  sp|P14821|GLB2A_ANAIN  97 KFAVNHINR-KISGDAFGAIVEPMKETLKARMGNYYSDDVAGAWAALVGVVQAA 149
+                            777777654.9********************************99999888765 PP
+
+>> sp|Q8T7J9|GLB_YOLEI  Globin OS=Yoldia eightsi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   49.4   0.0   3.5e-14   1.7e-11       3     144 ..       3     143 ..       1     146 [. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 49.4 bits;  conditional E-value: 3.5e-14
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdL 91 
+                           s+a+  +v++ W  + ad++  G  i + lf+  P  q +F+ Fk+L    +lk++++  kH + vl+ l+ +l  l+  +l+  +k++
+  sp|Q8T7J9|GLB_YOLEI   3 FSAAQVDTVRSNWCSMTADIDAAGYRIFELLFQRNPDYQSKFKAFKGLA-VSALKGNPNAEKHIRIVLGGLGRILGALNtPELDVIYKEM 91 
+                          6899999*****************************************9.889*************************768999****** PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          + +H     v  + fk +++++v+ l +  +k  ++   a+ e l+++va+ +
+  sp|Q8T7J9|GLB_YOLEI  92 ASNHKP-RGVMKQQFKDMGQAIVTALSEIQSKSGGSFDRATWEALFESVANGI 143
+                          ***965.579999*************999888888888888888888888765 PP
+
+>> sp|Q7M416|GLB1_LIOJA  Globin-1 OS=Liolophura japonica PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   47.4   0.0   1.5e-13   7.2e-11       4     136 ..       3     132 ..       1     141 [. 0.89
+
+  Alignments for each domain:
+  == domain 1  score: 47.4 bits;  conditional E-value: 1.5e-13
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92 
+                           s+++ +++k   a v  + ++ G+   +++f   P   e+F+ +k+ s  de+k+s+++ +Hg kv++ l++ +++++   ++ lk+  
+  sp|Q7M416|GLB1_LIOJA   3 SADQAKALKDDIAVVAQNPNGCGKALFIKMFEMNPGWVEKFPAWKGKS-LDEIKASDKITNHGGKVINELANWINNIN-SASGILKSQG 89 
+                           55666677777888999999************************9977.9**************************99.9999999877 PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKl 136
+                             H     + ++yf+ +  v+  + a+++++ +ta+++ al+ +
+  sp|Q7M416|GLB1_LIOJA  90 TAHK-GRSIGIEYFENVLPVIDATFAQQMGGAYTAAMKDALKAA 132
+                           7774.457****************************99998765 PP
+
+>> sp|P19363|GLB1_ARTSX  Extracellular globin-E1 (Fragment) OS=Artemia sp. PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   46.5   0.0   2.6e-13   1.3e-10       3      95 ..      56     150 ..      54     192 .. 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 46.5 bits;  conditional E-value: 2.6e-13
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld...ekleakl 88 
+                           Ls  ek++++  W+kv  + +e+G+    +lf ++P+ q++F  F++++  + l +s++  +H+++v+ Al ++l  l+   +++   +
+  sp|P19363|GLB1_ARTSX  56 LSGLEKNAILDTWGKVRGNLQEVGKATFGKLFAAHPEYQQMFRFFQGVQ-LAFLVQSPKFAAHTQRVVSALDQTLLALNrpsDQFVYMI 143
+                           8889*******************************************99.88999******************9988852334445555 PP
+
+              globins4  89 kdLselH 95 
+                           k+L   H
+  sp|P19363|GLB1_ARTSX 144 KELGLDH 150
+                           5555555 PP
+
+>> sp|P02215|GLB_CERRH  Globin OS=Cerithidea rhizophorarum PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   46.2   0.0   3.4e-13   1.6e-10       3     141 ..       2     143 ..       1     149 [. 0.89
+
+  Alignments for each domain:
+  == domain 1  score: 46.2 bits;  conditional E-value: 3.4e-13
+             globins4   3 LseaektkvkavW...akveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleak 87 
+                          L +a k+++ + W   ak  a++++ Ga     lfk +P t+++F +F+++s ++e+k     k+H+  v   ++ ++ ++d  + +++ 
+  sp|P02215|GLB_CERRH   2 LQPASKSALASSWktlAKDAATIQNNGATLFSLLFKQFPDTRNYFTHFGNMS-DAEMKTTGVGKAHSMAVFAGIGSMIDSMDdaDCMNGL 90 
+                          7899999999999666677899999**************************9.999***9999******************644445555 PP
+
+             globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalva 141
+                            +Ls +H ++ k+    f  + +v  + l + l++  + dv++a + lla ++
+  sp|P02215|GLB_CERRH  91 ALKLSRNHIQR-KIGASRFGEMRQVFPNFLDEALGGGASGDVKGAWDALLAYLQ 143
+                          569*****986.9**********************************9999875 PP
+
+>> sp|Q7M424|GLB_BUCUU  Globin OS=Buccinum undatum PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   45.6   1.5   5.2e-13   2.5e-10       3     142 ..       2     143 ..       1     145 [. 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 45.6 bits;  conditional E-value: 5.2e-13
+             globins4   3 LseaektkvkavWakvea...dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleakl 88 
+                          L+e +kt++k  W        ++ +sGa     lfks+P t+++F++F d +  + +      k+Hg  v + l++ + ++d +   + l
+  sp|Q7M424|GLB_BUCUU   2 LTEPQKTALKDSWKLLAGdgkTMMKSGALLFGLLFKSHPDTKKHFKHFDDAT-FATM-DTGVGKAHGMAVFTGLGAFVSSIDdDACVNGL 89 
+                          7889999999999776541115678999999*****************7765.5555.45566******************634444444 PP
+
+             globins4  89 .kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvak 142
+                           k+Ls +H+ +  +    fkll  v  + l +  +k+ t + +aa + ll ++ k
+  sp|Q7M424|GLB_BUCUU  90 aKKLSRNHTAR-GITADDFKLLQGVFKTFLDEATGKKATNEHKAAWDALLTMLIK 143
+                          278*****876.799***********************************99865 PP
+
+>> sp|Q9TT34|HBB_PONPY  Hemoglobin subunit beta (Fragment) OS=Pongo pygmaeus GN=HBB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   45.4   0.3   5.8e-13   2.8e-10     114     149 .]       1      36 []       1      36 [] 0.98
+
+  Alignments for each domain:
+  == domain 1  score: 45.4 bits;  conditional E-value: 5.8e-13
+             globins4 114 vdvlaarlpkeftadvqaaleKllalvakllaskYk 149
+                          v+vla++++keft++vqaa++K++a va++la+kY+
+  sp|Q9TT34|HBB_PONPY   1 VCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH 36 
+                          79*********************************7 PP
+
+>> sp|O77003|GLB_BIOGL  Globin OS=Biomphalaria glabrata PE=3 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   45.2   0.1     7e-13   3.4e-10       2     145 ..       2     149 ..       1     151 [] 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 45.2 bits;  conditional E-value: 7e-13
+             globins4   2 vLseaektkvkavWakveadvee...sGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..eklea 86 
+                           Ls+a+k+++ a W k  a +++    G + +  +f   P+ +  F kF+  + +d+lk+ a+  k  + ++ Al   l++++  ++l+a
+  sp|O77003|GLB_BIOGL   2 SLSDADKKALDASWKKLTAGADGkknAGINLVLWMFANVPNMRAQFSKFNANQSDDALKGDAEFIKQVNVIVAALDGLLQSVNnpGQLQA 91 
+                          69***************998875222799*****************************************************5589**** PP
+
+             globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                          +l +L+++H  +lk+  ++f  l + +   + + l+   ++d   a   l+a + ++l+
+  sp|O77003|GLB_BIOGL  92 NLDKLAKSHV-NLKIGLEFFGPLQQNIHSFIESALGVGAGSDEPKAWGNLIAAFNETLK 149
+                          *********8.59**************99999999999999988888888888887776 PP
+
+>> sp|P14822|GLB2B_ANAIN  Globin-2 B chain OS=Anadara inaequivalvis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   43.8   0.0   1.8e-12   8.7e-10       5     142 ..      14     149 ..       9     151 .] 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 43.8 bits;  conditional E-value: 1.8e-12
+               globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkd 90 
+                            +++k  ++  W+    d+e++G   +  lfk+ P ++ +F + +d+s   + k + +++ H+ +++ Al++ +  ld  e+l+  +++
+  sp|P14822|GLB2B_ANAIN  14 ADQKDLLRMSWGVLSVDMEGTGLMLMANLFKTSPSAKGKFARLGDVS---AGKDNSKLRGHSITLMYALQNFVDALDdvERLKCVVEK 98 
+                            3457788999*************************************...7799**********************648889999999 PP
+
+               globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvak 142
+                             + +H ++ ++    f  +   l ++l+ar+++ f  d  +a   l+a+v+ 
+  sp|P14822|GLB2B_ANAIN  99 FAVNHINR-QISADEFGEIVGPLRQTLKARMGNYFDEDTVSAWASLVAVVQA 149
+                            99999876.899****99999*********************9999999876 PP
+
+>> sp|P81044|HBAZ_MACEU  Hemoglobin subunit zeta (Fragments) OS=Macropus eugenii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   31.9   4.3   8.3e-09     4e-06      31     113 ..      16      77 ..       7      79 .] 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 31.9 bits;  conditional E-value: 8.3e-09
+              globins4  31 vrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklkvdpkyfkllsevl 113
+                            rlf+s+P+t+++F++F dL+       sa+++k               +d +++++l++LselHa  l+vdp +fklls+  
+  sp|P81044|HBAZ_MACEU  16 KRLFTSYPQTKTYFPHF-DLH-----PDSAQLRKN--------------ID-NIHSALSKLSELHAYILRVDPVNFKLLSHXF 77 
+                           69***************.999.....789999964..............55.67778999********************976 PP
+
+>> sp|P59742|NGB1_ONCMY  Neuroglobin-1 OS=Oncorhynchus mykiss GN=ngb1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   43.1   0.0     3e-12   1.4e-09       2     139 ..       3     141 ..       2     150 .. 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 43.1 bits;  conditional E-value: 3e-12
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +L+e+ek+ ++  W   + d   +G+ +  rlf   Pa ++ F    +  t ++  +s++   H  kv+  + +a+ +ld    le  l
+  sp|P59742|NGB1_ONCMY   3 KLTEKEKELIRVSWESLGKDKVPHGVIMFSRLFELEPALLNLFHYNTNCGTIQDCLSSPEFLDHVTKVMLVIDAAVSHLDnlHTLEDFL 91 
+                           599****************************************************************************9556678889 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            +L ++H +   v+ + f +++e l+ +l+  l++ +ta+   a   +  +
+  sp|P59742|NGB1_ONCMY  92 LNLGKKH-QAVGVNTQSFAVVGESLLYMLQCSLGQGYTAPLRQAWLNMYTI 141
+                           9999999.5789***************************997776555444 PP
+
+>> sp|P23216|GLBP1_GLYDI  Globin, major polymeric component P1 OS=Glycera dibranchiata PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   43.0   0.0   3.2e-12   1.5e-09       2     123 ..       2     124 ..       1     144 [. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 43.0 bits;  conditional E-value: 3.2e-12
+               globins4   2 vLseaektkvkavWakveadv..eesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekle 85 
+                            +L++++  ++ka W +v a    ++ G ++ ++ f   P+    F    +    ++lk s ++++Hgk ++d +++a+a++d  +++ 
+  sp|P23216|GLBP1_GLYDI   2 HLTADQVAALKASWPEVSAGDggAQLGLEMFTKYFHENPQMMFIFGYS-G--RTEALKHSSKLQHHGKVIIDQIGKAVAEMDnaKQMA 86 
+                            7999999**********8865125679999999999999988887655.3..3479*************************8677999 PP
+
+               globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpk 123
+                            ++l++L  +H     +  ++f  l+ +l+d + ++ p+
+  sp|P23216|GLBP1_GLYDI  87 GTLHALGVRHKGFGDIRAEFFPALGMCLLDAMEEKVPG 124
+                            9*******************************999887 PP
+
+>> sp|P21659|GLBP2_GLYDI  Globin, polymeric component P2 OS=Glycera dibranchiata PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   43.0   0.0   3.4e-12   1.6e-09       2     124 ..       2     125 ..       1     146 [. 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 43.0 bits;  conditional E-value: 3.4e-12
+               globins4   2 vLseaektkvkavWakveadv..eesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekle 85 
+                            +L++++  ++ka W +v a    ++ G +  ++ f   P+    F         d+lk +a++++Hgk ++d +++a+a++d  +++ 
+  sp|P21659|GLBP2_GLYDI   2 PLTADQVAALKASWPEVSAGDggGQLGLELFTKYFHENPQMMFIFGYS---GRTDALKHNAKLQNHGKVIIDQIGKAVAEMDnaKQMA 86 
+                            68999999*********7754114568888888888888877766544...4569**************************8677999 PP
+
+               globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpke 124
+                            ++l++L  +H     +   +f  l+ +l+d + ++ p+ 
+  sp|P21659|GLBP2_GLYDI  87 GTLHALGVRHKGFGDIRADFFPALGMCLLDAMEEKVPGL 125
+                            9*******************************9998875 PP
+
+>> sp|P02222|GLB2_CHITH  Globin CTT-II beta OS=Chironomus thummi thummi PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   42.4   0.0   4.8e-12   2.3e-09       2     139 ..      17     155 ..      16     160 .] 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 42.4 bits;  conditional E-value: 4.8e-12
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleakl 88 
+                           +Ls++e + v+  Wa+v    + s +diL  +fk+ P    +F++F +    + lk+  +  +H+ ++++ +s+++a + +  ++  ++
+  sp|P02222|GLB2_CHITH  17 PLSADEASLVRGSWAQV----KHSEVDILYYIFKANPDIMAKFPQFAGKD-LETLKGTGQFATHAGRIVGFVSEIVALMgNsANM-PAM 99 
+                           89**************9....77889********************5433.568*************************643333.345 PP
+
+              globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlp..keftadvqaaleKllal 139
+                           ++L +  a ++k   ++   f+ + + lv  l+++ +    ++a+   +l+ ++++
+  sp|P02222|GLB2_CHITH 100 ETLIKDMAANHKargIPKAQFNEFRASLVSYLQSKVSwnDSLGAAWTQGLDNVFNM 155
+                           55555555444433388999999999999999887531144566666666666555 PP
+
+>> sp|Q941Q2|HBL2_BRANA  Non-symbiotic hemoglobin 2 OS=Brassica napus GN=HB2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   42.0   1.1   6.8e-12   3.3e-09       2     146 ..       5     151 ..       4     154 .. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 42.0 bits;  conditional E-value: 6.8e-12
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dek...le 85 
+                           v +e++   vk+ W   + d+ ++      +++   Pa++++F   +d  t++  ++++++k+H++kv +   ++  +l  ++k    +
+  sp|Q941Q2|HBL2_BRANA   5 VFTEKQEALVKESWEILKQDIPKYSLHFFSQILEIAPAAKDMFSFLRD--TDEVPHNNPKLKAHAVKVFKMTCETAIQLreKGKvvvAD 91 
+                           567888899*********************************975543..44555999***********99988888884234422246 PP
+
+              globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           ++l+ L   H k+  +dp+ f+++ e+lv +l+++l++++  +v++a  K+ + +a ++++
+  sp|Q941Q2|HBL2_BRANA  92 TTLQYLGSVHFKSGVLDPH-FEVVKEALVRTLKEGLGEKYNEEVEGAWSKAYDHLALAIKA 151
+                           7999**********99995.9******************************9999988876 PP
+
+>> sp|Q90W04|NGB_TETNG  Neuroglobin OS=Tetraodon nigroviridis GN=ngb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   41.8   0.0   7.4e-12   3.6e-09       2     140 ..       3     142 ..       2     150 .. 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 41.8 bits;  conditional E-value: 7.4e-12
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                          +Ls ++k+ ++  W   + +   +G+    rlf   P+ ++ F    +    ++  +s++  +H  kv+  + +a+ +ld    le  l 
+  sp|Q90W04|NGB_TETNG   3 KLSSKDKELIRGSWDSLGKNKVPHGVILFSRLFELDPELLNLFHYTTNCGSTQDCLSSPEFLEHVTKVMLVIDAAVSHLDdlHSLEDFLL 92 
+                          599*****************************************9999988888999**********************74667788899 PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalv 140
+                          +L  +H +   v p+ f +++e l+ +l+  l++ +ta+   a   + ++v
+  sp|Q90W04|NGB_TETNG  93 NLGRKH-QAVGVKPQSFAMVGESLLYMLQCSLGQAYTASLRQAWLNMYSVV 142
+                          *****9.5789***************************9987766665555 PP
+
+>> sp|P14395|GLB1A_ANATR  Globin-1 subunit alpha OS=Anadara trapezia PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   41.7   0.0   8.2e-12     4e-09       4     143 ..      12     150 ..       9     151 .] 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 41.7 bits;  conditional E-value: 8.2e-12
+               globins4   4 seaektkvkavWakv.eadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                            sea k +++  W+    ad+e +G   L  lf+  P t+++F + +d++   + k++ +++ H+ ++  Al   + +ld   +l+  +
+  sp|P14395|GLB1A_ANATR  12 SEAIKGNLRRSWGVLmSADIEATGLTYLANLFTLRPDTKTYFTRLGDVQ---KGKANSKLRGHAITLTYALDWFVDSLDdpSRLKCVV 96 
+                            677899999***9862689****************************99...889***********************7355666667 PP
+
+               globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                            ++ + +H ++ k+    f  + e + ++l+ar+++ ++ dv +a   l+ +v+ +
+  sp|P14395|GLB1A_ANATR  97 EKFAVNHINR-KISGDAFGSIIEPMKETLKARMGSYYSDDVAGAWAALIGVVQAA 150
+                            7777777654.9********************************99998888765 PP
+
+>> sp|P41261|GLB2_PHAPT  Hemoglobin-2 OS=Phacoides pectinatus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   41.2   0.0   1.2e-11   5.8e-09       2     144 ..       3     143 ..       2     147 .. 0.87
+
+  Alignments for each domain:
+  == domain 1  score: 41.2 bits;  conditional E-value: 1.2e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFek.FkdLstedelkksadvkkHgkkvldAlsdalakldekleakl. 88 
+                           +L++ +k ++++ W+k   +    G+   + lfk++P+t++ F++ F++L+  ++l+ ++++k+ +    + +s  + +ld+++   l 
+  sp|P41261|GLB2_PHAPT   3 TLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSlFGGLT-LAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNMLVVLi 90 
+                           589999*************************************98477776.99**************************977766542 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                           +++++lH ++  +    ++   ++l++ +  +  +++   ++ a e ++  ++k+l
+  sp|P41261|GLB2_PHAPT  91 QKMAKLHNNR-GIRASDLRTAYDILIHYMEDH--NHMVGGAKDAWEVFVGFICKTL 143
+                           8899999765.799999999999999999999..6777777888888888888876 PP
+
+>> sp|P29243|GLBV_CHITP  Globin CTT-V OS=Chironomus thummi piger GN=CTT-V PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   40.8   0.3   1.5e-11   7.3e-09       2     139 ..      18     152 ..       2     158 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 40.8 bits;  conditional E-value: 1.5e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           +L+ +e + vk+ W +v    +   +diL  +fk++P  q +F++F +    d +k s +  +H+ +++  ls+ +a      ea+l++
+  sp|P29243|GLBV_CHITP  18 PLTSDEANLVKSSWNQV----KHNEVDILAAVFKAYPDIQAKFPQFAGK-DLDSIKTSGQFATHATRIVSFLSELIALS--GNEANLSA 99 
+                           6999*************....56679********************665.489*********************99984..34455555 PP
+
+              globins4  91 LselHakklkvdpky.......fkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                           + +l  kkl vd k+       f+ +  +l+  l ++    ++ +v aa e +l+ 
+  sp|P29243|GLBV_CHITP 100 VYGL-VKKLGVDHKNrgitqgqFNEFKTALISYLSSH--VSWGDNVAAAWEHALEN 152
+                           4443.34444444432222222888889999999999..78999999999998876 PP
+
+>> sp|P21660|GLBP3_GLYDI  Globin, polymeric component P3 OS=Glycera dibranchiata PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   41.0   0.0   1.3e-11   6.3e-09       2     121 ..       2     122 ..       1     143 [. 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 41.0 bits;  conditional E-value: 1.3e-11
+               globins4   2 vLseaektkvkavWakveadv..eesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekle 85 
+                            +L++++  ++ka W +v a    ++ G ++ +r f   P+    F   +      +lk + ++++Hgk +++ +++a+ +ld   k+e
+  sp|P21660|GLBP3_GLYDI   2 HLTADQVAALKASWPEVSAGDggAQLGLEMFTRYFDENPQMMFVFGYSGRT---SALKHNSKLQNHGKIIVHQIGQAVSELDdgSKFE 86 
+                            7999999**********98651256899***********999888776544...59*************************657899* PP
+
+               globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarl 121
+                            a+l++L + H     +  +yf  l+++l++ + ++ 
+  sp|P21660|GLBP3_GLYDI  87 ATLHKLGQEHKGFGDIKGEYFPALGDALLEAMNSKV 122
+                            *****************************9998874 PP
+
+>> sp|P02216|GLB1_GLYDI  Globin, major monomeric component OS=Glycera dibranchiata PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   40.4   0.1     2e-11   9.7e-09       3     144 ..       2     141 ..       1     145 [. 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 40.4 bits;  conditional E-value: 2e-11
+              globins4   3 LseaektkvkavWakvea..dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleak 87 
+                           Ls+a+++ + a W  +    + +++G+d L++++ ++P+    F  F + s        + v + g kvl  ++ a+ +l d +k+ a+
+  sp|P02216|GLB1_GLYDI   2 LSAAQRQVIAATWKDIAGadNGAGVGKDCLIKFLSAHPQMAAVFG-FSGAS-------DPGVAALGAKVLAQIGVAVSHLgDeGKMVAQ 82 
+                           89************996422457899****************996.76655.......799*******************9779***** PP
+
+              globins4  88 lkdLselHa..kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                           +k++  +H    + ++  +yf+ l++ l+  + +r ++++ a+++ a   + a ++ +l
+  sp|P02216|GLB1_GLYDI  83 MKAVGVRHKgyGNKHIKAQYFEPLGASLLSAMEHRIGGKMNAAAKDAWAAAYADISGAL 141
+                           *****9996225789*****************************999988888777666 PP
+
+>> sp|P02213|GLB1_ANAIN  Globin-1 OS=Anadara inaequivalvis PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   40.7   0.1   1.7e-11   8.3e-09       2     143 ..       9     145 ..       8     146 .] 0.93
+
+  Alignments for each domain:
+  == domain 1  score: 40.7 bits;  conditional E-value: 1.7e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +L+++ k+ ++  W  +++d ++ G+  ++ lf    +t  +F++ +d+s   + +++++++ H+ +++ Al++ + +ld  ++l   +
+  sp|P02213|GLB1_ANAIN   9 QLTADVKKDLRDSWKVIGSDKKGNGVALMTTLFADNQETIGYFKRLGDVS---QGMANDKLRGHSITLMYALQNFIDQLDnpDDLVCVV 94 
+                           689999*******************************************9...999***********************8677888888 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                           ++ + +H ++ k+    f  +   + +vla++   +f+ +   a  Kl+a+v+ +
+  sp|P02213|GLB1_ANAIN  95 EKFAVNHITR-KISAAEFGKINGPIKKVLASK---NFGDKYANAWAKLVAVVQAA 145
+                           9999999876.9*******************9...9**************99876 PP
+
+>> sp|P59743|NGB2_ONCMY  Neuroglobin-2 OS=Oncorhynchus mykiss GN=ngb2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   40.3   0.0   2.3e-11   1.1e-08       2     136 ..       3     138 ..       2     150 .. 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 40.3 bits;  conditional E-value: 2.3e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +L+e++k+ ++  W   + +   +G+ +  rlf   Pa ++ F    + s  ++  +s++   H  kv+  + +a+ +ld    le  l
+  sp|P59743|NGB2_ONCMY   3 KLTEKDKELIRGSWESLGKNKVPHGVVMFSRLFELEPALLNLFHYNTNCSPTQDCLSSPEFLDHVTKVMLVIDAAVSHLDdlHTLEDFL 91 
+                           599***********************************************999999***********************7466778889 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKl 136
+                            +L ++H +   v+ + f +++e l+ +l+  l++ +t +   a   +
+  sp|P59743|NGB2_ONCMY  92 LNLGKKH-QAVGVNTQSFAVVGESLLYMLQCSLGHGYTGPLRQAWLNM 138
+                           9**9999.5789*************************98887665444 PP
+
+>> sp|Q23761|GLBZ_CHITH  Globin CTT-Z OS=Chironomus thummi thummi GN=CTT-Z PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   39.2   0.1   4.7e-11   2.3e-08       2     142 ..      18     155 ..      17     160 .. 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 39.2 bits;  conditional E-value: 4.7e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dekleakl 88 
+                           +L+ +e   vk+ Wa+v    +   +diL  +fk++P  q  F++F +    d +k s +  +H+ +++  ls+ +a    + +l+a +
+  sp|Q23761|GLBZ_CHITH  18 PLTSDEAALVKSSWAQV----KHNEVDILYTVFKAYPDIQARFPQFAGK-DLDTIKTSGQFATHATRIVSFLSELIALSgsESNLSAIY 101
+                           6999*************....56679********************664.4889********************999754224444443 PP
+
+              globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvak 142
+                             +s+   + +k   +    f+ +  +lv  + ++    ++ +v aa   +l+ v +
+  sp|Q23761|GLBZ_CHITH 102 GLISK-MGTDHKnrgITQTQFNKFRTALVSYISSN--VAWGDNVAAAWTHALDNVYT 155
+                           33333.33333323377777888888888888887..66777888887777777765 PP
+
+>> sp|P31331|GLB_NASMU  Globin OS=Nassarius mutabilis PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   39.7   0.2   3.4e-11   1.6e-08       3     139 ..       2     141 ..       1     145 [. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 39.7 bits;  conditional E-value: 3.4e-11
+             globins4   3 LseaektkvkavWakveadvees...GadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleakl 88 
+                          Ls+++kt++k  W    a+ e++    a +   lf  +P t+++F+ F      +++k+    k+Hg  v   l++ + ++d ++    l
+  sp|P31331|GLB_NASMU   2 LSAEQKTALKDSWKILAANGETMvknSAAMFGLLFEKYPDTKKHFKTFD-GDHFAAMKATGMGKAHGMSVFSGLGALVSSVDdGECVLGL 90 
+                          89***********999998887611145578899**************5.55699**************************645655555 PP
+
+             globins4  89 .kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                           k+Ls +H+ +  v  + fkl+  +  + l +  +++ t ++++a + ll +
+  sp|P31331|GLB_NASMU  91 aKKLSRNHTAR-GVTANDFKLMRSIFGEFLDKATGGKATESMKSAWDALLGV 141
+                          378*****876.799*****************99**9999999999988765 PP
+
+>> sp|P02212|GLB1_ANABR  Globin-1 OS=Anadara broughtonii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   39.6   0.2   3.7e-11   1.8e-08       2     143 ..       9     145 ..       8     146 .] 0.93
+
+  Alignments for each domain:
+  == domain 1  score: 39.6 bits;  conditional E-value: 3.7e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +L+++ k+ ++  W  +++d ++ G+  ++ lf    +t  +F++ +++s   + +++++++ H+ +++ Al++ + +ld  ++l   +
+  sp|P02212|GLB1_ANABR   9 QLTADVKKDLRDSWKVIGSDKKGNGVALMTTLFADNQETIGYFKRLGNVS---QGMANDKLRGHSITLMYALQNFIDQLDntDDLVCVV 94 
+                           689999*************************************9999999...999***********************8567788888 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                           ++ + +H ++ k+    f  +   + +vla++   +f+ +   a  Kl+a+v+ +
+  sp|P02212|GLB1_ANABR  95 EKFAVNHITR-KISAAEFGKINGPIKKVLASK---NFGDKYANAWAKLVAVVQAA 145
+                           9999999876.9*******************9...9**************99876 PP
+
+>> sp|P29245|GLBZ_CHITP  Globin CTT-Z OS=Chironomus thummi piger GN=CTT-Z PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.8   0.1   6.2e-11     3e-08       2     142 ..      18     155 ..      17     160 .. 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 38.8 bits;  conditional E-value: 6.2e-11
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dekleakl 88 
+                           +L+ +e   vk+ Wa+v    +   +diL  +fk++P  q  F++F +    d +k s +  +H+ +++  +s+ +a    + +l+a +
+  sp|P29245|GLBZ_CHITP  18 PLTSDEAALVKSSWAQV----KHNEVDILYTVFKAYPDIQARFPQFAGK-DLDSIKTSGQFATHATRIVSFFSELIALSgsESNLSAIY 101
+                           6999*************....56679********************665.489*********************999753224444443 PP
+
+              globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvak 142
+                             +s+   + +k   +    f+ +  +lv  + ++    ++ +v aa   +l+ v +
+  sp|P29245|GLBZ_CHITP 102 GLISK-MGTDHKnrgITQTQFNEFRTALVSYISSN--VSWGDNVAAAWTHALDNVYT 155
+                           33333.33333323377777888888888888887..67788888888777777765 PP
+
+>> sp|P86881|NGB_DISMA  Neuroglobin OS=Dissostichus mawsoni PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.8   0.0   6.3e-11   3.1e-08       2     143 ..       3     145 ..       2     150 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 38.8 bits;  conditional E-value: 6.3e-11
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                          +Lse++k+ ++  W   + +   +G+ +  rlf   P+ ++ F    +    ++  +s++  +H  kv+  + +a+ +ld    le  l 
+  sp|P86881|NGB_DISMA   3 KLSEKDKELIRGSWESLGKNKVPHGVVMFSRLFELDPELLTLFHYTTNCGSTQDCLSSPEFLEHVTKVMLVIDAAVSNLDdlPSLEDFLL 92 
+                          59******************************************9999988888999**********************746689999** PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                          +L  +H +   v+ + f  ++e l+++l+  l++ +ta+   a   l ++v  +
+  sp|P86881|NGB_DISMA  93 NLGRKH-QAVGVNTQSFAEVGESLLHMLQCSLGQAYTAPLRQAWLNLYSIVVAA 145
+                          *****9.5789****************************998887777776665 PP
+
+>> sp|P86880|NGB_CHAAC  Neuroglobin OS=Chaenocephalus aceratus PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.7   0.0   6.7e-11   3.3e-08       2     143 ..       3     145 ..       2     150 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 38.7 bits;  conditional E-value: 6.7e-11
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                          +Lse++k+ ++  W   + +   +G+ +  rlf   P+ ++ F    +    ++  +s++  +H  kv+  + +a+ +ld    le  l 
+  sp|P86880|NGB_CHAAC   3 KLSEKDKELIRGSWESLGKNKVPHGVVMFSRLFELDPELLTLFHYTTNCGSTQDCLSSPEFLEHVTKVMLVIDAAVSHLDdlPSLEDFLL 92 
+                          59******************************************9999988888999**********************746688999** PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                          +L  +H +   v+ + f  ++e l+ +l+  l++ +ta+   a   l ++v  +
+  sp|P86880|NGB_CHAAC  93 NLGRKH-QAVGVNTQSFAEVGESLLYMLQCSLGQAYTAPLRQAWLNLYSIVVAA 145
+                          *****9.5789****************************998887777776665 PP
+
+>> sp|P02214|GLB_BUSCA  Globin OS=Busycotypus canaliculatus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.7   0.2   6.7e-11   3.2e-08       5     127 ..       4     129 ..       1     145 [. 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 38.7 bits;  conditional E-value: 6.7e-11
+             globins4   5 eaektkvkavWakvead...veesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ek.leaklk 89 
+                           a+kt++k+ W   +ad   + + G      lfk++P t+++F++F d  t +++      k+Hg+ v   l+ ++ ++d ++ +++  k
+  sp|P02214|GLB_BUSCA   4 GAQKTALKESWKVLGADgptMMKNGSLLFGLLFKTYPDTKKHFKHFDD-ATFAAMDTTGVGKAHGVAVFSGLGSMICSIDdDDcVBGLAK 92 
+                          6789999999988888622266789999999***************55.67999**99999******************54551455568 PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkefta 127
+                          +Ls +H  +  v    fkll +v  + l +   ++ t 
+  sp|P02214|GLB_BUSCA  93 KLSRNHLAR-GVSAADFKLLEAVFKZFLDEATQRKATD 129
+                          9*****876.799********99988887654443332 PP
+
+>> sp|Q23763|GLB78_CHITH  Globin CTT-VIIB-8 OS=Chironomus thummi thummi GN=CTT-7B8 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.4   0.5   8.4e-11   4.1e-08       2     139 ..      18     152 ..      17     159 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 38.4 bits;  conditional E-value: 8.4e-11
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        ++iL  +f ++P  q++F++F +    + +k      +H+ +++  ls+++a   +e   +++
+  sp|Q23763|GLB78_CHITH  18 PLTADEASLVQSSWKAV----SHNEVEILAAVFAAYPDIQNKFPQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNESNASAV 100
+                            699************99....44568********************6544.779**********************987556777777 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l ++    ++ +v aa +K+l+ 
+  sp|Q23763|GLB78_CHITH 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLSNH--VSWGDNVAAAWNKALDN 152
+                            77777777666644588999999999********9..899**********9975 PP
+
+>> sp|P23244|HBP2_CASGL  Hemoglobin-2 OS=Casuarina glauca GN=HBII PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.4   0.6   8.5e-11   4.2e-08       4     141 ..      10     153 ..       8     158 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 38.4 bits;  conditional E-value: 8.5e-11
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...eak 87 
+                           +e++   v + W+ ++ +++e G     ++f   P +q+ F   kd +    l+ ++++k H+  v     +   +l + +k+   e++
+  sp|P23244|HBP2_CASGL  10 TEEQEALVVKSWSAMKPNAGELGLKFFLKIFEIAPSAQKLFSFLKDSN--VPLERNPKLKSHAMSVFLMTCESAVQLrKaGKVtvrESS 96 
+                           677888999********************************9998876..7799***********965554444444244554222678 PP
+
+              globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqa....aleKllalva 141
+                           lk+L  +H  k+ v  ++f++   +l++++++  p+ ++++++     a++Kl+a ++
+  sp|P23244|HBP2_CASGL  97 LKKLGASHF-KHGVADEHFEVTKFALLETIKEAVPETWSPEMKNawgeAYDKLVAAIK 153
+                           888988886.68999************************9998622235788888776 PP
+
+>> sp|Q90YJ2|NGB_DANRE  Neuroglobin OS=Danio rerio GN=ngb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.5   0.0   8.1e-11   3.9e-08       2     143 ..       3     145 ..       2     150 .. 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 38.5 bits;  conditional E-value: 8.1e-11
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                          +Lse++k  ++  W   + +   +G    +rlf   Pa ++ F    +   + e  +s++  +H  kv+  + +a+ +ld    le  l 
+  sp|Q90YJ2|NGB_DANRE   3 KLSEKDKGLIRDSWESLGKNKVPHGIVLFTRLFELDPALLTLFSYSTNCGDAPECLSSPEFLEHVTKVMLVIDAAVSHLDdlHTLEDFLL 92 
+                          59************************************************9****************************74667788899 PP
+
+             globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                          +L  +H +   v+ + f l++e l+ +l++ l+  +t++   a   + ++v  +
+  sp|Q90YJ2|NGB_DANRE  93 NLGRKH-QAVGVNTQSFALVGESLLYMLQSSLGPAYTTSLRQAWLTMYSIVVSA 145
+                          *****9.5789**********************999999888776666666555 PP
+
+>> sp|P12548|GLB73_CHITH  Globin CTT-VIIB-3 OS=Chironomus thummi thummi GN=CTT-7B3 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.2   0.5   9.5e-11   4.6e-08       2     139 ..      18     152 ..      17     159 .. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 38.2 bits;  conditional E-value: 9.5e-11
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        +diL  +f ++P  q +F++F +    + +k      +H+ +++  ls+++a   +e   +++
+  sp|P12548|GLB73_CHITH  18 PLTADEASLVQSSWKAV----SHNEVDILAAVFAAYPDIQAKFPQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNESNASAV 100
+                            699************99....44568********************6544.779**********************987556777777 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l ++    ++ +v aa +K+l+ 
+  sp|P12548|GLB73_CHITH 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLSNH--VSWGDNVAAAWNKALDN 152
+                            77777777666644588999999999********9..899**********9975 PP
+
+>> sp|P04251|GLB1B_ANATR  Globin-1 subunit beta OS=Anadara trapezia PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   38.4   0.1   8.3e-11     4e-08       4     143 ..      13     151 ..      10     152 .] 0.89
+
+  Alignments for each domain:
+  == domain 1  score: 38.4 bits;  conditional E-value: 8.3e-11
+               globins4   4 seae.ktkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                            s+a+ k  ++  W+    d+e++G   +  lfk+  a++++F + +d+s   + k + +++ H+ +++ Al++ +  ld  ++l+  +
+  sp|P04251|GLB1B_ANATR  13 SNADqKDLLRLSWGVLSVDMEGTGLMLMANLFKTSSAARTKFARLGDVS---AGKDNSKLRGHSITLMYALQNFIDALDnvDRLKCVV 97 
+                            555416778899*************************************...7799****************9999997556788888 PP
+
+               globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                            ++ + +H ++ ++    f  +   l ++l+ar+++ f  d  +a   l+a+v+ +
+  sp|P04251|GLB1B_ANATR  98 EKFAVNHINR-QISADEFGEIVGPLRQTLKARMGSYFDEDTVSAWASLVAVVQAA 151
+                            8888888875.899****99999**********************9999999876 PP
+
+>> sp|P02226|GLB7A_CHITH  Globin CTT-VIIA OS=Chironomus thummi thummi GN=ctt-7A.1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.8   0.0   1.3e-10   6.2e-08       2     101 ..      18     113 ..      17     160 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 37.8 bits;  conditional E-value: 1.3e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +Ls+++   vk+ Wa+v     +s ++iL  +f+++P  q  F++F +    + +k      +H+ ++++ +s+++a + +e    ++
+  sp|P02226|GLB7A_CHITH  18 PLSADQAALVKSTWAQV----RNSEVEILAAVFTAYPDIQARFPQFAGKD-VASIKDTGAFATHAGRIVGFVSEIIALIgNESNAPAV 100
+                            6999************9....77889********************7655.899*************************668888899 PP
+
+               globins4  89 kdLselHakklkv 101
+                            ++L ++ a ++k 
+  sp|P02226|GLB7A_CHITH 101 QTLVGQLAASHKA 113
+                            9999999999873 PP
+
+>> sp|P18966|GLB78_CHITP  Globin CTT-VIIB-8 OS=Chironomus thummi piger GN=CTT-7B8 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.9   0.5   1.3e-10   6.1e-08       2     139 ..      18     152 ..      17     159 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 37.9 bits;  conditional E-value: 1.3e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        ++iL  +f ++P  q++F++F +    + +k      +H+ +++  ls+++a   +e   +++
+  sp|P18966|GLB78_CHITP  18 PLTADEASLVQSSWKAV----SHNEVEILAAVFAAYPDIQNKFPQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNESNASAV 100
+                            699************99....44568********************6544.779**********************987556777777 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l+a+    ++ +v aa +K+l+ 
+  sp|P18966|GLB78_CHITP 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLQAN--VSWGDNVAAAWNKALDN 152
+                            77777777666644488899999999999999999..899**********9975 PP
+
+>> sp|Q42831|HBL_HORVU  Non-symbiotic hemoglobin OS=Hordeum vulgare GN=HB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.7   0.1   1.4e-10   6.7e-08       2     141 ..       9     155 ..       8     161 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 37.7 bits;  conditional E-value: 1.4e-10
+             globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...ea 86 
+                          v se+    v++ Wa ++ d ++ G     ++f   P ++++F+  +d      l+ ++++k+H++ v     +a a+l + +k+   e+
+  sp|Q42831|HBL_HORVU   9 VFSEEKEALVLKSWAIMKKDSANLGLRFFLKIFEIAPSARQMFPFLRDSD--VPLETNPKLKTHAVSVFVMTCEAAAQLrKaGKItvrET 96 
+                          78999999************************************997765..6799*************999999999964565422378 PP
+
+             globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpke.ftadvqa....aleKllalva 141
+                          +lk L + H  k+ v   +f++   +l++++++ lp++ +++++      a+++l+a ++
+  sp|Q42831|HBL_HORVU  97 TLKRLGGTHL-KYGVADGHFEVTRFALLETIKEALPADmWGPEMRNawgeAYDQLVAAIK 155
+                          99*******7.799999*******************994477776511114555555554 PP
+
+>> sp|P84296|GLB74_CHITH  Globin CTT-VIIB-4 OS=Chironomus thummi thummi GN=CTT-7B4 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.3   0.6   1.9e-10   9.2e-08       2     140 ..      18     153 ..      16     160 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 37.3 bits;  conditional E-value: 1.9e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d....ekl 84 
+                            +L+++e + v++ W  v        +diL  +f ++P  q +F++F +    + +k      +H+ +++  ls+++a   +      +
+  sp|P84296|GLB74_CHITH  18 PLTADEASLVQSSWKAV----SHNEVDILAAVFAAYPDIQAKFPQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNasnaAAV 100
+                            699************99....44568********************6544.779********************99975331111234 PP
+
+               globins4  85 eaklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalv 140
+                            e+ l++L   H     v    f  +  +lv  l ++    ++ +v aa +K+l+  
+  sp|P84296|GLB74_CHITH 101 EGLLNKLGSDHK-ARGVSAAQFGEFRTALVSYLSNH--VSWGDNVAAAWNKALDNT 153
+                            445666666663.3459999999999**********..899***********9764 PP
+
+>> sp|P84297|GLB74_CHITP  Globin CTT-VIIB-4 OS=Chironomus thummi piger GN=CTT-7B4 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.3   0.6   1.9e-10   9.2e-08       2     140 ..      18     153 ..      16     160 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 37.3 bits;  conditional E-value: 1.9e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d....ekl 84 
+                            +L+++e + v++ W  v        +diL  +f ++P  q +F++F +    + +k      +H+ +++  ls+++a   +      +
+  sp|P84297|GLB74_CHITP  18 PLTADEASLVQSSWKAV----SHNEVDILAAVFAAYPDIQAKFPQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNasnaAAV 100
+                            699************99....44568********************6544.779********************99975331111234 PP
+
+               globins4  85 eaklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalv 140
+                            e+ l++L   H     v    f  +  +lv  l ++    ++ +v aa +K+l+  
+  sp|P84297|GLB74_CHITP 101 EGLLNKLGSDHK-ARGVSAAQFGEFRTALVSYLSNH--VSWGDNVAAAWNKALDNT 153
+                            445666666663.3459999999999**********..899***********9764 PP
+
+>> sp|P25165|GLBM_ANATR  Globin, minor OS=Anadara trapezia PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.1   0.0   2.2e-10   1.1e-07       7     143 ..      17     151 ..      11     152 .] 0.91
+
+  Alignments for each domain:
+  == domain 1  score: 37.1 bits;  conditional E-value: 2.2e-10
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLse 93 
+                            k  ++  W+    d+e++G   +  lf   P+++ +F + ++Lst    + + +++ H+ +++ Al++ +  ld  ++l+  +++ + 
+  sp|P25165|GLBM_ANATR  17 HKDLLRLSWGVLSDDMEGTGLMLMANLFNMSPESRLKFGRLGHLSTG---RDNSKLRGHSITLMYALKNFVDALDdvDRLKCVVEKFAV 102
+                           57788999*************************************86...6899*****************999647788999999999 PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                           +H ++ ++  + f  +      vl  r++  f  ++ aa   l+a+v+ +
+  sp|P25165|GLBM_ANATR 103 NHINR-QISAEEFGKIVGPFRAVLRIRMGDYFDEEIVAAWAALIAVVQAA 151
+                           99876.899999999999999********************999999876 PP
+
+>> sp|O24521|HBL2_ARATH  Non-symbiotic hemoglobin 2 OS=Arabidopsis thaliana GN=AHB2 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   37.0   0.2   2.3e-10   1.1e-07       4     145 ..       7     150 ..       4     154 .. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 37.0 bits;  conditional E-value: 2.3e-10
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel.kksadvkkHgkkvldAlsdalakl.d.ek...lea 86 
+                           +e++   vk+ W   + d+ ++      +++   Pa++  F  F  L+ +de+ ++++++k+H++kv +   ++  +l + +k    ++
+  sp|O24521|HBL2_ARATH   7 TEKQEALVKESWEILKQDIPKYSLHFFSQILEIAPAAKGLFS-F--LRDSDEVpHNNPKLKAHAVKVFKMTCETAIQLrEeGKvvvADT 92 
+                           6677789*********************************96.6..666777758899**********999888888843244222468 PP
+
+              globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                           +l+ L   H k+  +dp+ f+++ e+l+ +l+++l++++  +v++a  ++ + +a +++
+  sp|O24521|HBL2_ARATH  93 TLQYLGSIHLKSGVIDPH-FEVVKEALLRTLKEGLGEKYNEEVEGAWSQAYDHLALAIK 150
+                           9***************95.9***************************999988887776 PP
+
+>> sp|P02224|GLB6_CHITH  Globin CTT-VI OS=Chironomus thummi thummi GN=CTT-6 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.8   0.4   2.6e-10   1.3e-07       2     138 ..      17     150 ..      16     160 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 36.8 bits;  conditional E-value: 2.6e-10
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleaklk 89 
+                           vL+ ++   vk+ W+ v  +     +diL  +fk++P    +F++F +    d +k sa   +H+ +++  ls+++     +    +++
+  sp|P02224|GLB6_CHITH  17 VLTTEQADLVKKTWSTV--KF--NEVDILYAVFKAYPDIMAKFPQFAGK-DLDSIKDSAAFATHATRIVSFLSEVISLAgSDANIPAIQ 100
+                           899999*********99..44..458********************665.489*********************987764245556899 PP
+
+              globins4  90 dLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKlla 138
+                           +L++  a+++k   v    f  +  +l + l+a+   +f  + ++a   +l+
+  sp|P02224|GLB6_CHITH 101 NLAKELATSHKprgVSKDQFTEFRTALFTYLKAH--INFDGPTETAWTLALD 150
+                           9999999999866788888988899999999998..6777777766665555 PP
+
+>> sp|O24520|HBL1_ARATH  Non-symbiotic hemoglobin 1 OS=Arabidopsis thaliana GN=AHB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.6   0.5     3e-10   1.5e-07       2     145 ..       8     153 ..       7     157 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 36.6 bits;  conditional E-value: 3e-10
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...e 85 
+                           v +e++   v + W+ ++ + +e G    +++f   P+t+++F   +d   ++  ++++++k H+  v     +   +l + +k+   e
+  sp|O24520|HBL1_ARATH   8 VFTEEQEALVVKSWSVMKKNSAELGLKLFIKIFEIAPTTKKMFSFLRDSPIPA--EQNPKLKPHAMSVFVMCCESAVQLrKtGKVtvrE 94 
+                           578899999**********************************9888876555..689*********9877666555553445542227 PP
+
+              globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                           ++lk L  +H+k + v  ++f++   +l++++++  p+ ++++++ a  ++ + +  +++
+  sp|O24520|HBL1_ARATH  95 TTLKRLGASHSK-YGVVDEHFEVAKYALLETIKEAVPEMWSPEMKVAWGQAYDHLVAAIK 153
+                           89********86.5666689**********************999877666665555554 PP
+
+>> sp|P14394|GLB2_ANATR  Globin-2B OS=Anadara trapezia PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.5   0.2   3.3e-10   1.6e-07       2     143 ..       9     145 ..       8     146 .] 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 36.5 bits;  conditional E-value: 3.3e-10
+              globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           +L+++ k+ ++  W   ++d ++ G   ++ lf  + +t  +F++ +d+s   + +++ +++ H+ +++ Al++ + +ld  ++l   +
+  sp|P14394|GLB2_ANATR   9 QLTADVKKDLRDSWKVLGSDKKGDGMALMTTLFNDHQETIAYFKRMGDVS---QGMANSKLRGHSITLMYALQNFIDQLDstDDLICVV 94 
+                           689999*******************************************9...8899**********************8667888888 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                           ++ + +H ++ k+    f  +   + +vla++   +f+ +   a  Kl+ +v+ +
+  sp|P14394|GLB2_ANATR  95 EKFAVNHITR-KISGAEFGKINGPMKKVLASK---NFGDKYANAWAKLVGVVQAA 145
+                           9999999876.899999*99**********99...99999999999999988765 PP
+
+>> sp|Q9M630|HBL0_PHYPA  Non-symbiotic hemoglobin 0 OS=Physcomitrella patens subsp. patens GN=GLB0 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.4   0.1   3.6e-10   1.7e-07       4     146 ..      25     169 ..      22     172 .. 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 36.4 bits;  conditional E-value: 3.6e-10
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dek...leak 87 
+                           s+++ + vk+ W   + d++  G +   ++f   P ++ ++   +d +    ++++++vk+H++ v    +da  +l  ++    le+k
+  sp|Q9M630|HBL0_PHYPA  25 SKENEQLVKQSWEILKKDAQRNGINFFRKVFEIAPGAKAMYSFLRDST--IPFEENPKVKNHARYVFMMTGDAAVQLgeKGAyqvLESK 111
+                           88999***********************************99888877..5689*******************9999533323337899 PP
+
+              globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           l++L+  H +   v    f+++ e+++  +  + p  ++++ ++a   + +++a+++++
+  sp|Q9M630|HBL0_PHYPA 112 LQKLAATHVNA-GVTDDQFEIVKEAILYAIEMGVPDLWSPELKSAWGDAYDMLAEQVKA 169
+                           ********986.577788***************************99999999988876 PP
+
+>> sp|P29242|GLB77_CHITP  Globin CTT-VIIB-7 OS=Chironomus thummi piger GN=CTT-7B7 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   35.9   0.9   4.9e-10   2.4e-07       2     139 ..      18     152 ..      17     160 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 35.9 bits;  conditional E-value: 4.9e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleak 87 
+                            +Ls++e + vk+ W +v    +   +diL  +f ++P  q +F++F +    + +k  a   +H+ +++  +++++    +  +l+a 
+  sp|P29242|GLB77_CHITP  18 PLSADEANLVKSSWDQV----KHNEVDILAAVFAAYPDIQAKFPQFAGKD-LASIKDTAAFATHATRIVSFFTEVISLSgNqANLSAV 100
+                            79***************....56679********************6544.779*******************998765433566666 PP
+
+               globins4  88 lkdLselHak..klkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++ +s+l  +     +    f  +  +lv  l+a+    ++ +v aa + +l+ 
+  sp|P29242|GLB77_CHITP 101 YALVSKLGVDhkARGISAAQFGEFRTALVSYLQAH--VSWGDNVAAAWNHALDN 152
+                            66666654431033488888988999999999999..78899999999988865 PP
+
+>> sp|P02227|GLB8_CHITH  Globin CTT-VIII OS=Chironomus thummi thummi GN=CTT-8 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.1   0.1   4.4e-10   2.2e-07       3     130 ..       5     129 ..       3     148 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 36.1 bits;  conditional E-value: 4.4e-10
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleaklkd 90 
+                           +s+++    k+ W  v    +   +diL  +fk+ P  q +F++F +    d +k sad   H+ ++++ +s+++  + + + + +lk+
+  sp|P02227|GLB8_CHITH   5 MSADQLALFKSSWNTV----KHNEVDILYAVFKANPDIQAKFPQFAGK-DLDSIKDSADFAVHSGRIVGFFSEVIGLIgNPENRPALKT 88 
+                           5667777788888888....66679********************665.489*************************966788889*** PP
+
+              globins4  91 LselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvq 130
+                           L +  a+++k   ++   f+ + + lvd l ++l   +   ++
+  sp|P02227|GLB8_CHITH  89 LIDGLASSHKargIEKAQFEEFRASLVDYLSHHLD--WNDTMK 129
+                           *99999999866689999************99954..444444 PP
+
+>> sp|P12549|GLB76_CHITH  Globin CTT-VIIB-6 OS=Chironomus thummi thummi GN=CTT-7B6 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.0   0.8   4.7e-10   2.3e-07       2     139 ..      18     152 ..      16     159 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 36.0 bits;  conditional E-value: 4.7e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        ++iL  +f ++P  q++F +F +    + +k      +H+ +++  ls+++a   ++   a++
+  sp|P12549|GLB76_CHITH  18 PLTADEASLVQSSWKAV----SHNEVEILAAVFAAYPDIQNKFSQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNDSNAAAV 100
+                            699************99....44568********************6544.779**********************987545666777 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l+a+    ++ +v aa +K+l+ 
+  sp|P12549|GLB76_CHITH 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLQAN--VSWGDNVAAAWNKALDN 152
+                            77777777666644488899999999999999999..899**********9975 PP
+
+>> sp|Q99JA8|NGB_RAT  Neuroglobin OS=Rattus norvegicus GN=Ngb PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   36.0   0.0   4.6e-10   2.2e-07       7     144 ..       5     144 ..       1     148 [. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 36.0 bits;  conditional E-value: 4.6e-10
+           globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekF.kdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLselH 95 
+                        e + +++ W  v     e+G+    rlf   P  +  F+   ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l++L  +H
+  sp|Q99JA8|NGB_RAT   5 ESELIRQSWRAVSRSPLEHGTVLFSRLFALEPSLLPLFQYNgRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLATLGRKH 96 
+                        67899*********************************8652689******************************768899*********** PP
+
+           globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                             v    f  ++e l+ +l + l+ +ft++  +a  +l   v +++
+  sp|Q99JA8|NGB_RAT  97 R-AVGVRLSSFSTVGESLLYMLEKCLGPDFTPATRTAWSQLYGAVVQAM 144
+                        5.689********************************999888777665 PP
+
+>> sp|Q23762|GLB7X_CHITH  Globin CTT-VIIB-10 OS=Chironomus thummi thummi GN=CTT-7B10 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   35.9   0.7     5e-10   2.5e-07       2     139 ..      18     152 ..      17     159 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 35.9 bits;  conditional E-value: 5e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        ++iL  +f ++P  q++F +F +    + +k      +H+ +++  ls+++a   +e   +++
+  sp|Q23762|GLB7X_CHITH  18 PLTADEASLVQSSWKAV----SHNEVEILAAVFAAYPDIQNKFSQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNESNASAV 100
+                            699************99....44568********************6544.779**********************987556777777 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l+a+    ++ +v aa +K+l+ 
+  sp|Q23762|GLB7X_CHITH 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLQAN--VSWGDNVAAAWNKALDN 152
+                            77777777666644488899999999999999999..899**********9975 PP
+
+>> sp|P13579|GLB4_LUMTE  Extracellular globin-4 OS=Lumbricus terrestris PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   35.8   0.0   5.3e-10   2.6e-07       4     144 ..       8     150 ..       6     151 .] 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 35.8 bits;  conditional E-value: 5.3e-10
+              globins4   4 seaektkvkavWakveadveesGadiLvr.....lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldek..le 85 
+                           s +++ +++++W  v +   +    ++vr     lfk +P+++  Fe+ k  +      +s + k H ++v++ l   ++ ld+   l+
+  sp|P13579|GLB4_LUMTE   8 SYEDRREIRHIWDDVWSSSFTDRRVAIVRavfddLFKHYPTSKALFERVKIDE-----PESGEFKSHLVRVANGLDLLINLLDDTlvLQ 91 
+                           678999*********98776665555554444449*************95433.....6899*************99999998542278 PP
+
+              globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                           ++l +L+++H ++  v  +yf+ ++e+ + vl + l+     + +  +++l+a +ak+l
+  sp|P13579|GLB4_LUMTE  92 SHLGHLADQHIQRKGVTKEYFRGIGEAFARVLPQVLSCFNVDAWNRCFHRLVARIAKDL 150
+                           99******************************998665444455778888888888876 PP
+
+>> sp|P28316|GLB_ASCSU  Extracellular globin OS=Ascaris suum PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   18.8   0.0   9.4e-05     0.046      16     103 ..      32     123 ..      22     134 .. 0.84
+   2 !   14.8   0.1    0.0016      0.78      21      95 ..     188     263 ..     179     274 .. 0.87
+
+  Alignments for each domain:
+  == domain 1  score: 18.8 bits;  conditional E-value: 9.4e-05
+             globins4  16 akvea..dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakkl.k 100
+                          akv++  ++ + G d   ++f  +P  +++F++ ++  t++++++ +   k g+k+l A     a  d  e ++a  ++L ++Ha+ + +
+  sp|P28316|GLB_ASCSU  32 AKVDTsnEARQDGIDLYKHMFENYPPLRKYFKNREEY-TAEDVQNDPFFAKQGQKILLACHVLCATYDdrETFNAYTRELLDRHARDHvH 120
+                          555431156688*******************998665.5999***********************995478899999********87636 PP
+
+             globins4 101 vdp 103
+                          ++p
+  sp|P28316|GLB_ASCSU 121 MPP 123
+                          666 PP
+
+  == domain 2  score: 14.8 bits;  conditional E-value: 0.0016
+             globins4  21 dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselH 95 
+                          ++++ G d   ++f  +P  +e F+  ++  t+++++k +   k g+++l A     a+ d  e +++ +++L e+H
+  sp|P28316|GLB_ASCSU 188 TAKQNGIDLYKHMFENYPSMREAFKDRENY-TAEDVQKDPFFVKQGQRILLACHLLCASYDdeETFHMYVHELMERH 263
+                          57789*******************998665.68889999999999**************954677889999999998 PP
+
+>> sp|P19364|GLB7_ARTSX  Extracellular globin-E7 OS=Artemia sp. PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   35.5   0.0   6.8e-10   3.3e-07       3     114 ..       2     119 ..       1     136 [. 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 35.5 bits;  conditional E-value: 6.8e-10
+              globins4   3 LseaektkvkavWakvead.veesGadiLvrlfkstPatqefFekFkdLstedelkk..sadvkkHgkkvldAlsdalakl.dekleak 87 
+                           L++ ek+ ++ +W+  +a   e   + +  +lf  +P+ + +F++F  L++   + +   +++++H ++v+dA+  ++  l  e l+++
+  sp|P19364|GLB7_ARTSX   2 LTALEKQSIQDIWTILKAVgLEFLQVKMFGKLFADHPEYKAHFDNF--LTAIFSVAEdlVPKLRAHLHRVIDAFDLVIFALgRESLRGS 88 
+                           8999**********998852566788999*****************..66555554411699*****************99559***** PP
+
+              globins4  88 lkdLselHakklkvdpky....fkllsevlv 114
+                           lkdL   H+ +  vdp      fkl+ +v+ 
+  sp|P19364|GLB7_ARTSX  89 LKDLGIFHTGRDIVDPVEsltgFKLMVAVIE 119
+                           ***************9753444777777775 PP
+
+>> sp|P12550|GLB77_CHITH  Globin CTT-VIIB-7 OS=Chironomus thummi thummi GN=CTT-7B7 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.8   1.0   1.1e-09   5.3e-07       2     139 ..      18     152 ..      17     160 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 34.8 bits;  conditional E-value: 1.1e-09
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleak 87 
+                            +Ls++e   vk+ W +v    +   +diL  +f ++P  q +F++F +    + +k  a   +H+ +++  +++++    +  +l+a 
+  sp|P12550|GLB77_CHITH  18 PLSADEAAIVKSSWDQV----KHNEVDILAAVFAAYPDIQAKFPQFAGKD-LASIKDTAAFATHATRIVSFFTEVISLSgNqANLSAV 100
+                            79***************....56679********************6544.779*******************998765433566666 PP
+
+               globins4  88 lkdLselHak..klkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++ +s+l  +     +    f  +  +lv  l+a+    ++ +v aa + +l+ 
+  sp|P12550|GLB77_CHITH 101 YALVSKLGVDhkARGISAAQFGEFRTALVSYLQAH--VSWGDNVAAAWNHALDN 152
+                            66666654431033488888988999999999999..78899999999988865 PP
+
+>> sp|P84298|GLB75_CHITH  Globin CTT-VIIB-5/CTT-VIIB-9 OS=Chironomus thummi thummi GN=CTT-7B5 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   35.2   0.9   8.3e-10     4e-07       2     139 ..      18     152 ..      17     159 .. 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 35.2 bits;  conditional E-value: 8.3e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        ++iL  +f ++P  q++F +F +    + +k      +H+ +++  ls+++a   +    a++
+  sp|P84298|GLB75_CHITH  18 PLTADEASLVQSSWKAV----SHNEVEILAAVFAAYPDIQNKFSQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNTSNAAAV 100
+                            699************99....44568********************6544.779**********************986344555667 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l+a+    ++ +v aa +K+l+ 
+  sp|P84298|GLB75_CHITH 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLQAN--VSWGDNVAAAWNKALDN 152
+                            77777766666544488899999999999999999..899**********9975 PP
+
+>> sp|P84299|GLB75_CHITP  Globin CTT-VIIB-5/CTT-VIIB-9 OS=Chironomus thummi piger GN=CTT-7B5 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   35.2   0.9   8.3e-10     4e-07       2     139 ..      18     152 ..      17     159 .. 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 35.2 bits;  conditional E-value: 8.3e-10
+               globins4   2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleakl 88 
+                            +L+++e + v++ W  v        ++iL  +f ++P  q++F +F +    + +k      +H+ +++  ls+++a   +    a++
+  sp|P84299|GLB75_CHITP  18 PLTADEASLVQSSWKAV----SHNEVEILAAVFAAYPDIQNKFSQFAGKD-LASIKDTGAFATHATRIVSFLSEVIALSgNTSNAAAV 100
+                            699************99....44568********************6544.779**********************986344555667 PP
+
+               globins4  89 kdLselHakklk...vdpkyfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            ++L  +  + +k   v    f  +  +lv  l+a+    ++ +v aa +K+l+ 
+  sp|P84299|GLB75_CHITP 101 NSLVSKLGDDHKargVSAAQFGEFRTALVAYLQAN--VSWGDNVAAAWNKALDN 152
+                            77777766666544488899999999999999999..899**********9975 PP
+
+>> sp|P02228|GLB10_CHITH  Globin CTT-X OS=Chironomus thummi thummi GN=CTT-10 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.6   0.7   1.2e-09     6e-07       3     145 ..       7     150 ..       5     151 .] 0.75
+
+  Alignments for each domain:
+  == domain 1  score: 34.6 bits;  conditional E-value: 1.2e-09
+               globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleaklk 89 
+                            L + e ++v+a W  v        ++iL  +fk++P    +F+kF +    +++k  ad   H+ ++++ +++ +  l     +a+++
+  sp|P02228|GLB10_CHITH   7 LDAHEVEQVQATWKAV----SHDEVEILYTVFKAHPDIMAKFPKFAGKD-LEAIKDTADFAVHASRIIGFFGEYVTLLgSSGNQAAIR 89 
+                            6788999******999....34458********************6544.669***********************995445555555 PP
+
+               globins4  90 dL....selHakklkvdpkyfkllsevlvdvl..aarlpkeftadvqaaleKllalvaklla 145
+                            +L       H ++  +    f  + e +   l  ++++ ++ + + + a++K+++++ ++l 
+  sp|P02228|GLB10_CHITH  90 TLlhdlGVFHKTR-GITKAQFGEFRETMTAYLkgHNKWNADISHSWDDAFDKAFSVIFEVLE 150
+                            5410005555444.466666766777777777334567889999999999999999988875 PP
+
+>> sp|Q6WZ20|NGB_MACMU  Neuroglobin OS=Macaca mulatta GN=NGB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.8   0.0   1.1e-09   5.5e-07       8     144 ..       6     144 ..       2     148 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 34.8 bits;  conditional E-value: 1.1e-09
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLsel 94 
+                           + +++ W  v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l++L  +
+  sp|Q6WZ20|NGB_MACMU   6 PELIRQSWRAVSRSPLEHGTVLFARLFALEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLASLGRK 95 
+                          57899*******9**********************998457899******************************7688999********* PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          H     v    f  ++e l+ +l + l+  ft++  aa  +l   v +++
+  sp|Q6WZ20|NGB_MACMU  96 HR-AVGVKLSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAM 144
+                          *5.689*********************************99988887765 PP
+
+>> sp|Q3KN66|NGB_PANTR  Neuroglobin OS=Pan troglodytes GN=NGB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.8   0.0   1.1e-09   5.5e-07       8     144 ..       6     144 ..       2     148 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 34.8 bits;  conditional E-value: 1.1e-09
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLsel 94 
+                           + +++ W  v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l++L  +
+  sp|Q3KN66|NGB_PANTR   6 PELIRQSWRAVSRSPLEHGTVLFARLFALEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLASLGRK 95 
+                          57899*******9**********************998457899******************************7688999********* PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          H     v    f  ++e l+ +l + l+  ft++  aa  +l   v +++
+  sp|Q3KN66|NGB_PANTR  96 HR-AVGVKLSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAM 144
+                          *5.689*********************************99988887765 PP
+
+>> sp|Q9NPG2|NGB_HUMAN  Neuroglobin OS=Homo sapiens GN=NGB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.8   0.0   1.1e-09   5.5e-07       8     144 ..       6     144 ..       2     148 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 34.8 bits;  conditional E-value: 1.1e-09
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLsel 94 
+                           + +++ W  v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l++L  +
+  sp|Q9NPG2|NGB_HUMAN   6 PELIRQSWRAVSRSPLEHGTVLFARLFALEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLASLGRK 95 
+                          57899*******9**********************998457899******************************7688999********* PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          H     v    f  ++e l+ +l + l+  ft++  aa  +l   v +++
+  sp|Q9NPG2|NGB_HUMAN  96 HR-AVGVKLSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAM 144
+                          *5.689*********************************99988887765 PP
+
+>> sp|Q6WZ18|NGB_CANFA  Neuroglobin OS=Canis familiaris GN=NGB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.8   0.0   1.1e-09   5.5e-07       8     144 ..       6     144 ..       2     148 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 34.8 bits;  conditional E-value: 1.1e-09
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLsel 94 
+                           + +++ W  v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  +  a+ ++ d   le  l+ L ++
+  sp|Q6WZ18|NGB_CANFA   6 PELIRQSWRAVRRSPLEHGTVLFARLFDLEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDTAVTNVeDlSSLEEYLAGLGKK 95 
+                          57899******************************998457899******************************66889999******** PP
+
+             globins4  95 HakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          H     v    f  ++e l+ +l + l+  ft++v aa  +l   v +++
+  sp|Q6WZ18|NGB_CANFA  96 HR-AVGVKLSSFSTVGESLLYMLEKCLGPAFTPAVRAAWSQLYGAVVQAM 144
+                          95.689*********************************99988887765 PP
+
+>> sp|O04985|HBL2_ORYSJ  Non-symbiotic hemoglobin 2 OS=Oryza sativa subsp. japonica GN=HB2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.8   0.7   1.1e-09   5.4e-07       3     144 ..      17     161 ..      15     168 .. 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 34.8 bits;  conditional E-value: 1.1e-09
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekle...a 86 
+                            se++   v++ Wa ++ d ++ G     ++f + P + ++F   ++   +  l+k++++k+H+  v     +a a+l + +k+    +
+  sp|O04985|HBL2_ORYSJ  17 FSEEQEALVLKSWAIMKKDSANIGLRFFLKIFEVAPSASQMFSFLRN--SDVPLEKNPKLKTHAMSVFVMTCEAAAQLrKaGKVTvrdT 103
+                           7999999***********************************75543..35679**************999999999965566651114 PP
+
+              globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpkef.tadvqaaleKllalvakll 144
+                           +lk L   H  k+ v   +f++   +l++++++  p ++ ++++++a   + + +  ++
+  sp|O04985|HBL2_ORYSJ 104 TLKRLGATHF-KYGVGDAHFEVTRFALLETIKEAVPVDMwSPAMKSAWSEAYNQLVAAI 161
+                           5666666664.5679999******************99625666665444443333333 PP
+
+>> sp|Q9FVL0|HBL1_MEDSA  Non-symbiotic hemoglobin 1 OS=Medicago sativa GN=MHB1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.4   1.2   1.4e-09     7e-07       4     147 ..      10     155 ..       8     157 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 34.4 bits;  conditional E-value: 1.4e-09
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...eak 87 
+                           +e++   v + W  ++ + +e G     ++f   P +q+ F   kd +    l+++ ++k H+  v     +   +l + +k+   e++
+  sp|Q9FVL0|HBL1_MEDSA  10 TEEQEALVVKSWNAMKKNSAELGLKLFLKIFEIAPSAQKLFSFLKDSK--VPLEQNTKLKPHAMSVFLMTCESAVQLrKsGKVtvrESS 96 
+                           677888999*********************************999988..6799***********976555444444344665112566 PP
+
+              globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllask 147
+                           lk+L  +H k + v  ++f++   +l++++++  p+ ++++++ a   + + + ++++s 
+  sp|Q9FVL0|HBL1_MEDSA  97 LKKLGANHFK-YGVVDEHFEVTKFALLETIKEAVPEMWSPAMKNAWGEAYDQLVNAIKSE 155
+                           7777777764.4566689*************************99988888888888765 PP
+
+>> sp|Q9ER97|NGB_MOUSE  Neuroglobin OS=Mus musculus GN=Ngb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.5   0.0   1.4e-09   6.6e-07       7     144 ..       5     144 ..       1     148 [. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 34.5 bits;  conditional E-value: 1.4e-09
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekF.kdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLse 93 
+                          e + +++ W  v     e+G+    rlf   P  +  F+   ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l +L  
+  sp|Q9ER97|NGB_MOUSE   5 ESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNgRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLTSLGR 94 
+                          67899*******9999**********************8652689******************************7688999******** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          +H     v    f  ++e l+ +l + l+ +ft++  +a  +l   v +++
+  sp|Q9ER97|NGB_MOUSE  95 KHR-AVGVRLSSFSTVGESLLYMLEKCLGPDFTPATRTAWSRLYGAVVQAM 144
+                          **5.689********************************999988887765 PP
+
+>> sp|P68168|HBPL_PARAD  Non-legume hemoglobin OS=Parasponia andersonii PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.4   0.7   1.5e-09   7.2e-07       3     135 ..      10     144 ..       8     159 .. 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 34.4 bits;  conditional E-value: 1.5e-09
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklk 89 
+                            +e++   v ++Wa ++ + +e G +   ++f   P +++ F   kd   +  l++++++k H+ +v     +   +l + +k   k +
+  sp|P68168|HBPL_PARAD  10 FTEEQEALVVKAWAVMKKNSAELGLQFFLKIFEIAPSAKNLFSYLKDS--PVPLEQNPKLKPHATTVFVMTCESAVQLrKaGKATVKES 96 
+                           68899999*************************************985..5889************98766655555535577666666 PP
+
+              globins4  90 dLselHakklk..vdpkyfkllsevlvdvlaarlpkeftadvqaaleK 135
+                           dL    a ++k  v  ++f++   +l++++++  p+ ++++++ a   
+  sp|P68168|HBPL_PARAD  97 DLKRIGAIHFKtgVVNEHFEVTRFALLETIKEAVPEMWSPEMKNAWGV 144
+                           666666666652256688******************999999876433 PP
+
+>> sp|P68169|HBPL_PARRI  Non-legume hemoglobin OS=Parasponia rigida PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.4   0.7   1.5e-09   7.2e-07       3     135 ..      10     144 ..       8     159 .. 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 34.4 bits;  conditional E-value: 1.5e-09
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklk 89 
+                            +e++   v ++Wa ++ + +e G +   ++f   P +++ F   kd   +  l++++++k H+ +v     +   +l + +k   k +
+  sp|P68169|HBPL_PARRI  10 FTEEQEALVVKAWAVMKKNSAELGLQFFLKIFEIAPSAKNLFSYLKDS--PVPLEQNPKLKPHATTVFVMTCESAVQLrKaGKATVKES 96 
+                           68899999*************************************985..5889************98766655555535577666666 PP
+
+              globins4  90 dLselHakklk..vdpkyfkllsevlvdvlaarlpkeftadvqaaleK 135
+                           dL    a ++k  v  ++f++   +l++++++  p+ ++++++ a   
+  sp|P68169|HBPL_PARRI  97 DLKRIGAIHFKtgVVNEHFEVTRFALLETIKEAVPEMWSPEMKNAWGV 144
+                           666666666652256688******************999999876433 PP
+
+>> sp|Q6WZ17|NGB_PIG  Neuroglobin OS=Sus scrofa GN=NGB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.4   0.0   1.5e-09   7.2e-07       7     144 ..       5     144 ..       1     148 [. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 34.4 bits;  conditional E-value: 1.5e-09
+           globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLselH 95 
+                        e++ +++ W  v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l+ L  +H
+  sp|Q6WZ17|NGB_PIG   5 EHELIRQSWRAVSRSPLEHGTVLFARLFDLEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLAGLGRKH 96 
+                        7889********************************998457899******************************668899999*******9 PP
+
+           globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                             v    f  ++e l+ +l + l+  ft++  aa  +l   v +++
+  sp|Q6WZ17|NGB_PIG  97 R-AVGVKLSSFSAVGESLLYMLEKCLGPTFTPATRAAWSQLYGAVVQAM 144
+                        5.689*********************************99988887765 PP
+
+>> sp|O04986|HBL1_ORYSJ  Non-symbiotic hemoglobin 1 OS=Oryza sativa subsp. japonica GN=HB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   34.2   1.3   1.6e-09     8e-07       3     144 ..      14     158 ..      12     164 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 34.2 bits;  conditional E-value: 1.6e-09
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...ea 86 
+                            se++   v++ Wa  + d ++       ++f + P + ++F   ++   +  l+k++++k+H+  v     +a a+l + +k+   ++
+  sp|O04986|HBL1_ORYSJ  14 FSEEQEALVLKSWAILKKDSANIALRFFLKIFEVAPSASQMFSFLRN--SDVPLEKNPKLKTHAMSVFVMTCEAAAQLrKaGKVtvrDT 100
+                           7899999***********************************75543..35679**************999999999965566511145 PP
+
+              globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpkef.tadvqaaleKllalvakll 144
+                           +lk L   H  k+ v   +f+++  +l+d+++++ p+++ ++++++a   + + +  ++
+  sp|O04986|HBL1_ORYSJ 101 TLKRLGATHL-KYGVGDAHFEVVKFALLDTIKEEVPADMwSPAMKSAWSEAYDHLVAAI 158
+                           6777777775.678999********************9625666666555444444433 PP
+
+>> sp|Q6WZ19|NGB_BOVIN  Neuroglobin OS=Bos taurus GN=NGB PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.6   0.0   2.5e-09   1.2e-06       9     144 ..       7     144 ..       3     148 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 33.6 bits;  conditional E-value: 2.5e-09
+             globins4   9 tkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLselH 95 
+                          + +++ W +v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l+ L  +H
+  sp|Q6WZ19|NGB_BOVIN   7 ELIRQSWREVSRSPLEHGTVLFARLFDLEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLAGLGRKH 96 
+                          6899******************************998457899******************************668899999*******9 PP
+
+             globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                               v    f  ++e l+ +l + l+  ft++  aa  +l   v +++
+  sp|Q6WZ19|NGB_BOVIN  97 R-AVGVKLSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAM 144
+                          5.689*********************************99988887765 PP
+
+>> sp|Q6EV97|NGB_RABIT  Neuroglobin OS=Oryctolagus cuniculus GN=NGB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.7   0.0   2.4e-09   1.2e-06       7     144 ..       5     144 ..       1     148 [. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 33.7 bits;  conditional E-value: 2.4e-09
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFe.kFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLse 93 
+                          e++ +++ W  v     e+G+    rlf   P  +  F+ + ++ s +++  +s++   H +kv+  + +a+ ++ d   le  l+ L  
+  sp|Q6EV97|NGB_RABIT   5 EQELIRQSWRAVSRSPLEHGTVLFARLFDLEPDLLPLFQyNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVeDlSSLEEYLAGLGR 94 
+                          7899********************************998457899******************************668899999*****9 PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                          +H     v    f  ++e l+ +l + l+  ft++  aa  +l   v +++
+  sp|Q6EV97|NGB_RABIT  95 KHR-AVGVRFSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAM 144
+                          995.68999*******************************99988887765 PP
+
+>> sp|Q9M593|HBL_ZEAMP  Non-symbiotic hemoglobin OS=Zea mays subsp. parviglumis GN=HB PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.4   0.8   2.9e-09   1.4e-06       3     126 ..      13     138 ..      11     162 .. 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 33.4 bits;  conditional E-value: 2.9e-09
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...eak 87 
+                            e++   v++ Wa ++ d+++ G     ++f   P ++++F   +d      l+k++++k+H+  v     +a a+l + +k+   e++
+  sp|Q9M593|HBL_ZEAMP  13 FGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSAKQMFSFLRDSD--VPLEKNPKLKTHAMSVFVMTCEAAAQLrKaGKVtvrETT 100
+                          56788899**********************************8776654..679**************9999999999656676111445 PP
+
+             globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeft 126
+                          lk L   H  ++ v   +f++ + +l++++++ lp+++ 
+  sp|Q9M593|HBL_ZEAMP 101 LKRLGATHL-RYGVADGHFEVTGFALLETIKEALPADMW 138
+                          555555554.45688899*****************9963 PP
+
+>> sp|P13578|GLB3_TYLHE  Extracellular globin-2B OS=Tylorrhynchus heterochaetus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   33.5   0.0   2.8e-09   1.4e-06       4     132 ..       5     131 ..       3     147 .. 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 33.5 bits;  conditional E-value: 2.8e-09
+              globins4   4 seaektkvkavWakvea.....dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekle 85 
+                           s+a++ +v+  W  + +          G+ i + lf   P+++  F +  ++       + ad k+H  +v++ l  a++ l d + l+
+  sp|P13578|GLB3_TYLHE   5 SAADRHEVLDNWKGIWSaeftgRRVAIGQAIFQELFALDPNAKGVFGRV-NVD----KPSEADWKAHVIRVINGLDLAVNLLeDpKALQ 88 
+                           667777777777555331111134568*********************9.333....36779********************768899* PP
+
+              globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaa 132
+                            +lk+L+ +H ++  v   yf  + ++l++vl +  +++f +   +a
+  sp|P13578|GLB3_TYLHE  89 EELKHLARQHRERSGVKAVYFDEMEKALLKVLPQV-SSHFNS---GA 131
+                           *******************************9876.555643...44 PP
+
+>> sp|P02223|GLB9_CHITH  Globin CTT-IX OS=Chironomus thummi thummi GN=CTT-9 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   32.6   0.1   5.1e-09   2.5e-06       3     121 ..      19     136 ..      17     161 .] 0.72
+
+  Alignments for each domain:
+  == domain 1  score: 32.6 bits;  conditional E-value: 5.1e-09
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleak... 87 
+                           +s ++ ++++a Wa v    +   +diL  +f  +P  q  F++F +    + +k      +H+ ++++ +s+++a + +e    +   
+  sp|P02223|GLB9_CHITH  19 VSSDQANAIRASWAGV----KHNEVDILAAVFSDHPDIQARFPQFAGKD-LASIKDTGAFATHAGRIVGFISEIVALVgNESNAPAmat 102
+                           57788899*******9....56679********************6544.779************************965554444001 PP
+
+              globins4  88 .lkdLselHakklkvdpkyfkllsevlvdvlaarl 121
+                            +++Ls +H ++  +    f+ +   lv  l ++ 
+  sp|P02223|GLB9_CHITH 103 lINELSTSHHNR-GITKGQFNEFRSSLVSYLSSHA 136
+                           145566666444.3555556666666677776664 PP
+
+>> sp|P28010|LGB4_MEDSA  Leghemoglobin OS=Medicago sativa GN=LB3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   32.6   0.1     5e-09   2.4e-06       5     146 ..       5     144 ..       2     147 .] 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 32.6 bits;  conditional E-value: 5e-09
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdL 91 
+                           +++   v++ W   + +  ++ +   + ++   Pa++ +F  F  L+ ++ ++ s+++++H++kv + + d   +l   +++    ++L
+  sp|P28010|LGB4_MEDSA   5 ADQEALVNSSWESFKQNLPGYSVFFYTTILEKAPAAKGMFS-F--LKDSAGVQDSPQLQAHAEKVFGMVRDSAVQLRatGEVVLGDATL 90 
+                           667788999999999999999999999***********996.6..77788*********************99999623455555589* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                              H +k  vdp+ f ++ e+l++++++  + +++ +  ++ e + + +a ++++
+  sp|P28010|LGB4_MEDSA  91 GSIHIQKGVVDPH-FVVVKEALLKTIKEAVGDKWSEELSTSWEVAYDGLASAIKK 144
+                           ************7.77999*******99999999988888888777777776654 PP
+
+>> sp|Q9FY42|HBL_MAIZE  Non-symbiotic hemoglobin OS=Zea mays GN=HB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   32.4   0.7   6.1e-09     3e-06       3     126 ..      13     138 ..      11     162 .. 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 32.4 bits;  conditional E-value: 6.1e-09
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...eak 87 
+                            e++   v++ Wa ++ d+++ G     ++f   P ++++F   +d      l+k++++k+H+  v     +a a+l + +k+   e++
+  sp|Q9FY42|HBL_MAIZE  13 FGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSAEQMFSFLRDSD--VPLEKNPKLKTHAMSVFVMTCEAAAQLrKaGKVtvrETT 100
+                          56788899**********************************8776654..679**************9999999999656676111445 PP
+
+             globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeft 126
+                          lk L   H  ++ v   +f++ + +l++++++ lp+++ 
+  sp|Q9FY42|HBL_MAIZE 101 LKRLGATHL-RYGVADGHFEVTGFALLETIKEALPADMW 138
+                          555555554.45688899*****************9963 PP
+
+>> sp|P15447|GLB4_GLYDI  Globin, monomeric component M-IV OS=Glycera dibranchiata PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   31.4   0.2   1.2e-08   5.9e-06       3     144 ..       3     142 ..       1     146 [. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 31.4 bits;  conditional E-value: 1.2e-08
+              globins4   3 LseaektkvkavWakvea..dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleak 87 
+                           Ls+a+++ v + W  +    + +++G++  ++++ ++      F  F + s        + v   g kvl  ++ a+ +l d +k+ a+
+  sp|P15447|GLB4_GLYDI   3 LSAAQRQVVASTWKDIAGsdNGAGVGKECFTKFLSAHHDIAAVFG-FSGAS-------DPGVADLGAKVLAQIGVAVSHLgDeGKMVAE 83 
+                           99************9965224568999**********99999995.75655.......7889999***************9779***** PP
+
+              globins4  88 lkdLselHak..klkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                           +k++  +H      ++  +yf+ l++ l+  + +r ++++ta+++ a   + a ++ +l
+  sp|P15447|GLB4_GLYDI  84 MKAVGVRHKGygYKHIKAEYFEPLGASLLSAMEHRIGGKMTAAAKDAWAAAYADISGAL 142
+                           *****9997522579*****************************999988888777666 PP
+
+>> sp|P11582|GLBE_CHITH  Globin CTT-E/E' OS=Chironomus thummi thummi GN=CTT-E PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   31.7   0.0   9.7e-09   4.7e-06       3     137 ..      16     141 ..      14     151 .. 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 31.7 bits;  conditional E-value: 9.7e-09
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls ++   v++ ++kv    ++  + iL  +fk+ P+ q  F++F +    d++k+ a+  +H+ ++++ l+ ++  l  ++ +++ +L
+  sp|P11582|GLBE_CHITH  16 LSGDQIGLVQSTYGKV----KGDSVGILYAVFKADPTIQAAFPQFVGKD-LDAIKGGAEFSTHAGRIVGFLGGVIDDLP-NIGKHVDAL 98 
+                           6667777889999999....4555679******************6644.88*************************98.9999***** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKll 137
+                              H  +  v    f+ + ++ +  l+ +   ++ta+v+aa    +
+  sp|P11582|GLBE_CHITH  99 VATHKPR-GVTHAQFNNFRAAFIAYLKGH--VDYTAAVEAAWGATF 141
+                           ***9665.677778888888999999999..8********986655 PP
+
+>> sp|P18968|GLBY_CHITP  Globin CTT-Y OS=Chironomus thummi piger GN=CTT-Y PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   31.1   0.1   1.5e-08   7.2e-06      14     144 ..      28     155 ..      17     159 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 31.1 bits;  conditional E-value: 1.5e-08
+              globins4  14 vWakveadveesGadiLvrlfkstPatqefFekF..kdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLselHa.. 96 
+                           +W      +++  ++iL  +fk++P  q +F++F  kdL   + +k+ a+   H+ +++  +++++  l + ++l+a ++ Ls+l    
+  sp|P18968|GLBY_CHITP  28 AWNT----MKNEEVEILYTVFKAYPDIQAKFPQFvgKDL---ETIKGTAEFAVHATRIVSFMTEVISLLgNpDNLPAIMSLLSKLGKdh 109
+                           5544....466779********************44455...589**********************9975689999999888764310 PP
+
+              globins4  97 kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                           k   + +k f  + e+  + l+++  + +  +v+aa +   + ++k++
+  sp|P18968|GLBY_CHITP 110 KGRGITVKQFDEFHEAFHNFLHTH--SVWNDNVDAAWHCNEKEIRKVI 155
+                           445699999999999999999999..7788888888876666666666 PP
+
+>> sp|P02230|GLB4_CHITH  Globin CTT-IV OS=Chironomus thummi thummi GN=D PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   31.1   0.1   1.6e-08   7.6e-06       3      98 ..      16     105 ..      14     150 .. 0.75
+
+  Alignments for each domain:
+  == domain 1  score: 31.1 bits;  conditional E-value: 1.6e-08
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           L++++ ++v++ +a v    ++  + iL  +fk+ P  q +F +F +    d +k+sad  +H++k+++ +s+++  l  ++++++ + 
+  sp|P02230|GLB4_CHITH  16 LTADQISTVQSSFAGV----KGDAVGILYAVFKADPSIQAKFTQFAGK-DLDSIKGSADFSAHANKIVGFFSKIIGDLP-NIDGDVTTF 98 
+                           6777777788888777....5555779******************664.489************************998.899999999 PP
+
+              globins4  92 selHakk 98 
+                             +H+ +
+  sp|P02230|GLB4_CHITH  99 VASHTPR 105
+                           9999765 PP
+
+>> sp|P02240|LGB2_LUPLU  Leghemoglobin-2 OS=Lupinus luteus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.8   1.4   1.9e-08   9.2e-06       3     145 ..       4     147 ..       2     151 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 30.8 bits;  conditional E-value: 1.9e-08
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld....ekleak 87 
+                           L+e +   vk+ W + +a++ ++     + ++   Pa+++ F   k+ s  +  ++++++++H+ kv + + +a  +l+       +a+
+  sp|P02240|LGB2_LUPLU   4 LTESQAALVKSSWEEFNANIPKHTHRFFILVLEIAPAAKDLFSFLKGTS--EVPQNNPELQAHAGKVFKLVYEAAIQLQvtgvVVTDAT 90 
+                           8999999***********************************8776654..5668899***********9998887775332235789* PP
+
+              globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                           lk+L   H +k  v   +f ++ e++++++++  +++++ + ++a   + + +a++++
+  sp|P02240|LGB2_LUPLU  91 LKNLGSVHVSKG-VADAHFPVVKEAILKTIKEVVGAKWSEELNSAWTIAYDELAIVIK 147
+                           *********996.666789************999999999999888777777766665 PP
+
+>> sp|O48668|LGB2_PEA  Leghemoglobin Lb5-10 OS=Pisum sativum PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.4   0.1   2.5e-08   1.2e-05       6     146 ..       6     144 ..       2     147 .] 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 30.4 bits;  conditional E-value: 2.5e-08
+            globins4   6 aektkvkavWakveadveesGadiL..vrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dekleaklkdLs 92 
+                         ++   v++ W     + + sG+ iL  + ++   Pa++  F  F  L+  + ++ s+++++H+++v + + d  a+l  ++++    ++L 
+  sp|O48668|LGB2_PEA   6 KQEALVNSSWESF--KQNLSGNSILfyTIILEKAPAAKGLFS-F--LKDTAGVEDSPKLQAHAEQVFGLVRDSAAQLrtKGEVVLGNATLG 91 
+                         5566788999988..5555677777224578899****9996.5..677789*************************433555555689** PP
+
+            globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           H ++   dp+ f ++ e+l++++++  +++++ + ++a e + + +a+++++
+  sp|O48668|LGB2_PEA  92 AIHVQRGVTDPH-FVVVKEALLQTIKKASGNNWSEELNTAWEVAYDGLATAIKK 144
+                         *****9999986.7899***********************99999999998876 PP
+
+>> sp|Q94FT7|HBL4_ORYSJ  Non-symbiotic hemoglobin 4 OS=Oryza sativa subsp. japonica GN=HB4 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.3   0.3   2.7e-08   1.3e-05       3     140 ..      13     153 ..      11     162 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 30.3 bits;  conditional E-value: 2.7e-08
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...ea 86 
+                            +e++   v++ Wa ++ d ++ G     ++f + P +++ F   ++   +  l+k++++kkH+  v     +a a+l + +++   ++
+  sp|Q94FT7|HBL4_ORYSJ  13 FTEEQEALVLKSWAIMKDDSANIGHRFFLKIFEVAPSARHLFSFLRN--SDVPLEKNPNLKKHAMAVFVMTCEAAAQLrKtGRVtvrDT 99 
+                           67889999**********************************75533..35679**************999999999954444312256 PP
+
+              globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpke.ftadvqaaleKllalv 140
+                           ++k L   H k   v   +f++   +l+++++ + p+  ++++++ a   + + +
+  sp|Q94FT7|HBL4_ORYSJ 100 TIKRLGSTHFK-NGVSDTHFEVARFALLETIKDGIPASmWSPEMKNAWGEAYEHL 153
+                           78888888875.4688899************999998624666666555444444 PP
+
+>> sp|Q94FT8|HBL3_ORYSJ  Non-symbiotic hemoglobin 3 OS=Oryza sativa subsp. japonica GN=HB3 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.1   0.7     3e-08   1.5e-05       3     140 ..      16     156 ..      14     165 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 30.1 bits;  conditional E-value: 3e-08
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...ea 86 
+                            +e++   v++ Wa ++ d +  G     ++f + P +++ F   ++   +  l+k++++k H+  v     +a a+l + +++   ++
+  sp|Q94FT8|HBL3_ORYSJ  16 FTEEQEALVLKSWAIMKNDSAHIGHRFFLKIFEVAPSARQLFSFLRN--SDVPLEKNPKLKIHAMAVFVMTCEAAAQLrKtGRVtvrDT 102
+                           67889999**********************************75543..35679**************999999999954444412256 PP
+
+              globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpke.ftadvqaaleKllalv 140
+                           ++k L   H k   v   +f++   +l++++++  p+  +++++++a   + + +
+  sp|Q94FT8|HBL3_ORYSJ 103 TIKRLGSTHFK-NGVSDAHFEVAKFALLETIKEAVPASmWSPAMKGAWGEAYDHL 156
+                           78888888875.4688899**************9998725677777655544444 PP
+
+>> sp|P09187|LGB1_MEDSA  Leghemoglobin-1 OS=Medicago sativa PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.1   0.7     3e-08   1.5e-05       6     146 ..       6     144 ..       1     146 [. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 30.1 bits;  conditional E-value: 3e-08
+              globins4   6 aektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLs 92 
+                           ++   v++ W   + +   + +   + ++   Pa++  F  F  L+ ++e++ s+++++H++kv + + d   +l   + +    ++L 
+  sp|P09187|LGB1_MEDSA   6 KQEALVNSSWEAFKQNLPRYSVFFYTVVLEKAPAAKGLFS-F--LKNSAEVQDSPQLQAHAEKVFGLVRDSAVQLRatGGVVLGDATLG 91 
+                           5556788888888888888888888889999999999994.7..89999*********************99999623555555589** PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                             H +k  vdp+ f ++ e+l++++++  + +++ + ++a e + + +a+++++
+  sp|P09187|LGB1_MEDSA  92 AIHVRKGVVDPH-FVVVKEALLKTIKEAAGDKWSEELNTAWEVAYDALATAIKK 144
+                           ***********7.7799********************99999999999888875 PP
+
+>> sp|Q9SAZ0|LGB6_PEA  Leghemoglobin Lb120-34 OS=Pisum sativum PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.3   0.3   2.7e-08   1.3e-05      33     146 ..      32     143 ..       3     146 .] 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 30.3 bits;  conditional E-value: 2.7e-08
+            globins4  33 lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleakl..kdLselHakklkvdpkyfkllsevlvdvlaarl 121
+                         ++k  Pa++ +F  F  L+ ++e+  s+++++H++kv + + d   +l    e  l  ++L   H +k  vdp+ f ++ e+l++++++  
+  sp|Q9SAZ0|LGB6_PEA  32 ILKKAPAAKGMFS-F--LKDSAEVVDSPKLQAHAEKVFGMVHDSAIQLRASGEVVLgdATLGAIHIQKGVVDPH-FVVVKEALLETIKEAS 118
+                         6788899999985.5..77889**********************9999645555553389*************7.7799**********99 PP
+
+            globins4 122 pkeftadvqaaleKllalvakllas 146
+                         +++++ +  +a e + + +a ++++
+  sp|Q9SAZ0|LGB6_PEA 119 GEKWSEELSTAWEVAYEGLASAIKK 143
+                         9999999999999999888888775 PP
+
+>> sp|P14962|LGB3_MEDSA  Leghemoglobin-3 OS=Medicago sativa PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.9   0.2   3.6e-08   1.8e-05      23     146 ..      20     143 ..       3     145 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 29.9 bits;  conditional E-value: 3.6e-08
+              globins4  23 eesGadiL..vrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfk 107
+                           ++ G+ +L  + ++   Pa++ +F  F  L+ ++ ++ s++++ H++kv + + d  a+l   + +    ++L   H +k  vdp+ f 
+  sp|P14962|LGB3_MEDSA  20 QNPGNSVLfyTIILEKAPAAKGMFS-F--LKDSAGVQDSPKLQSHAEKVFGMVRDSAAQLRatGGVVLGDATLGAIHIQKGVVDPH-FA 104
+                           4455555521346778899999995.5..77788**************************623555555589*************6.89 PP
+
+              globins4 108 llsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           ++ e+l++++++  + +++ + ++a e + + +a+++++
+  sp|P14962|LGB3_MEDSA 105 VVKEALLKTIKEVSGDKWSEELNTAWEVAYDALATAIKK 143
+                           *************99999999999999999988888875 PP
+
+>> sp|O80405|LGB3_PEA  Leghemoglobin Lb120-1 OS=Pisum sativum PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   30.0   0.3   3.2e-08   1.6e-05      33     146 ..      32     143 ..       3     146 .] 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 30.0 bits;  conditional E-value: 3.2e-08
+            globins4  33 lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvlaarl 121
+                         ++k  Pa++ +F  F  L+ ++e+  s+++++H++kv + + d   +l   +++    ++L   H +k  vdp+ f ++ e+l++++++  
+  sp|O80405|LGB3_PEA  32 ILKKAPAAKGMFS-F--LKDSAEVVDSPKLQAHAEKVFGMVHDSAIQLRasGEVVVGDATLGAIHIQKGVVDPH-FVVVKEALLETIKEAS 118
+                         6788899999985.5..77889*********************9999953477788889**************7.7799**********99 PP
+
+            globins4 122 pkeftadvqaaleKllalvakllas 146
+                         +++++ +  +a e + + +a ++++
+  sp|O80405|LGB3_PEA 119 GEKWSEELSTAWEVAYEGLASAIKK 143
+                         9999999999999999888888775 PP
+
+>> sp|Q7M419|GLBA1_OLIMA  Extracellular giant hemoglobin major globin subunit A1 OS=Oligobrachia mashikoi GN=ghbA1 PE=1 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.5   0.0   4.7e-08   2.3e-05       7     121 ..      22     135 ..      16     155 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 29.5 bits;  conditional E-value: 4.7e-08
+               globins4   7 ektkvkavWakveadvees...GadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89 
+                            e+  vk+ Wa+ + ++e+      d    lf     ++  F   +     d+ ++sa   +H  +v +Al+  + +ld    ++a+l+
+  sp|Q7M419|GLBA1_OLIMA  22 EQILVKTQWAQSYGEAENRaafSRDLFSELFNIQGSSRALFSGVG----VDD-MNSAAFTAHCLRVTGALNRLISQLDqqATINADLA 104
+                            677899999999988876511157999999999999999988773....334.68999*******************85567899*** PP
+
+               globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarl 121
+                            +L+++Ha++ ++d  +f  ++++++ v+ ++l
+  sp|Q7M419|GLBA1_OLIMA 105 HLAGQHASR-NLDASNFAAMGQAVMSVVPTHL 135
+                            *******76.89****************9985 PP
+
+>> sp|P15469|GLB3_LAMSP  Giant hemoglobin AIII chain OS=Lamellibrachia sp. PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.5   0.0   4.6e-08   2.2e-05       8     125 ..       8     125 ..       4     142 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 29.5 bits;  conditional E-value: 4.6e-08
+              globins4   8 ktkvkavWakve...adveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdL 91 
+                           + kvk  Wa+ +    d ee G  i +++fk  P +++ F++ ++    d+++  +  ++H+ +vl+ l   +a ld  + l+++l++L
+  sp|P15469|GLB3_LAMSP   8 RLKVKRQWAEAYgsgNDREEFGHFIWTHVFKDAPSARDLFKRVRG----DNIH-TPAFRAHATRVLGGLDMCIALLDdeGVLNTQLAHL 91 
+                           56899999998733257899*******************999954....5666.6789******************6467899****** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpke.f 125
+                           + +H+++  v    + ++ + +++ + ++ +++ f
+  sp|P15469|GLB3_LAMSP  92 ASQHSSR-GVSAAQYDVVEHSVMMGVEHEIGQNvF 125
+                           ****865.799999999999999999999887634 PP
+
+>> sp|P02221|GLB1_CHITH  Globin CTT-I/CTT-IA OS=Chironomus thummi thummi GN=CTT-1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.1   0.1   6.1e-08     3e-05      12     142 ..      26     152 ..      17     157 .. 0.73
+
+  Alignments for each domain:
+  == domain 1  score: 29.1 bits;  conditional E-value: 6.1e-08
+              globins4  12 kavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dekleaklkdLsel.Hak 97 
+                           ka W  v    ++  +diL  +fk+ P  q+ F +F +    d +k+ +d  kH+ +v++ +s+++  l  d + ++ l++  +   ++
+  sp|P02221|GLB1_CHITH  26 KASWNTV----KNNQVDILYAVFKANPDIQTAFSQFAGK-DLDSIKGTPDFSKHAGRVVGLFSEVMDLLgnDANTPTILAKAKDFgKSH 109
+                           4555555....77889********************664.489*********************9999964455555555444422455 PP
+
+              globins4  98 klkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvak 142
+                           k +  p  +  + + lv+ l+    +++ ++v+++   +l+ v  
+  sp|P02221|GLB1_CHITH 110 KSRASPAQLDNFRKSLVVYLKGA--TKWDSAVESSWAPVLDFVFS 152
+                           66777888887888887777665..66667777777666666655 PP
+
+>> sp|Q9SAZ1|LGB4_PEA  Leghemoglobin Lb120-8 OS=Pisum sativum PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.4   0.2   5.1e-08   2.5e-05      33     146 ..      32     143 ..       3     146 .] 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 29.4 bits;  conditional E-value: 5.1e-08
+            globins4  33 lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleakl..kdLselHakklkvdpkyfkllsevlvdvlaarl 121
+                         ++k  Pa++ +F  F  L+ ++e+  s+++++H++kv + + d   +l    e  l   +L   H +k  +dp+ f ++ e+l+d++++  
+  sp|Q9SAZ1|LGB4_PEA  32 ILKKAPAAKGMFS-F--LKDSAEVVDSPKLQAHAEKVFGMVHDSAIQLRASGEVVLgdVTLGAIHIQKGVIDPH-FVVVKEALLDTIKEAS 118
+                         6788899999985.5..77889**********************999976666666225799***********7.7799***********9 PP
+
+            globins4 122 pkeftadvqaaleKllalvakllas 146
+                         +++++ +  +a e + + +a ++++
+  sp|Q9SAZ1|LGB4_PEA 119 GEKWSEELSTAWEIAYEGLASAIKK 143
+                         9999999999999999988888875 PP
+
+>> sp|Q23760|GLBW_CHITH  Globin CTT-W OS=Chironomus thummi thummi GN=CTT-W PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.3   0.3   1.1e-07   5.2e-05      11      99 ..      24     108 ..      15     141 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 28.3 bits;  conditional E-value: 1.1e-07
+              globins4  11 vkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleaklkdLselHakk 98 
+                           +ka W +v    +   +diL  +fk++P+ q+ F++F +    +++k+ a+   H+ +++  +s+++  + +  +++++  L  + a+ 
+  sp|Q23760|GLBW_CHITH  24 IKASWNQV----KHNEVDILYTVFKAYPEIQDRFPQFAGKD-LEAIKETAEFAVHSTRIVSFMSEIVSLVgNPAVQSSIDLLLVKMAND 107
+                           78889888....56679********************6544.669**********************9884455555555555555554 PP
+
+              globins4  99 l 99 
+                           +
+  sp|Q23760|GLBW_CHITH 108 H 108
+                           4 PP
+
+>> sp|P29244|GLBW_CHITP  Globin CTT-W OS=Chironomus thummi piger GN=CTT-W PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.3   0.4   1.1e-07   5.3e-05      11      99 ..      24     108 ..      15     142 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 28.3 bits;  conditional E-value: 1.1e-07
+              globins4  11 vkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.dekleaklkdLselHakk 98 
+                           +ka W +v    +   +diL  +fk++P+ q+ F++F +    +++k+ a+   H+ +++  +s+++  + +  +++++  L  + a+ 
+  sp|P29244|GLBW_CHITP  24 IKASWNQV----KHNEVDILYTVFKAYPEIQDRFPQFAGKD-LEAIKETAEFAVHSTRIVSFMSEIVSLVgNPAVQSSIDLLLVKMAND 107
+                           78889888....56679********************6544.669**********************9884455555555555555554 PP
+
+              globins4  99 l 99 
+                           +
+  sp|P29244|GLBW_CHITP 108 H 108
+                           4 PP
+
+>> sp|P18980|HBA2_UROHA  Hemoglobin subunit alpha-2 (Fragment) OS=Uromastyx hardwickii PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   29.0   0.0   6.5e-08   3.2e-05      18      55 ..       1      38 [.       1      40 [] 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 29.0 bits;  conditional E-value: 6.5e-08
+              globins4 18 veadveesGadiLvrlfkstPatqefFekFkdLstede 55
+                          v+ + +++G+++L r f ++P+t+++F++F     +++
+  sp|P18980|HBA2_UROHA  1 VGPHLDDYGGEALHRNFEVYPQTKTYFPHFDASAGSNQ 38
+                          567899************************66555555 PP
+
+>> sp|P07803|HBL_TRETO  Non-symbiotic hemoglobin OS=Trema tomentosa GN=GLB1 PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.3   0.4   1.1e-07   5.5e-05       3     145 ..      10     153 ..       8     158 .. 0.73
+
+  Alignments for each domain:
+  == domain 1  score: 28.3 bits;  conditional E-value: 1.1e-07
+             globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...eak 87 
+                           +e++   v + Wa ++ + +e G     ++f   P +++ F   kd   +  l++++++k H+ +v     +   +l + +k+   e++
+  sp|P07803|HBL_TRETO  10 FTEEQEALVVKSWAVMKKNSAELGLKFFLKIFEIAPSAKNLFSYLKDS--PIPLEQNPKLKPHAMTVFVMTCESAVQLrKaGKVtvrESN 97 
+                          68889999*************************************985..5889************976665554445345665111556 PP
+
+             globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                          lk L   H k+  v+ ++f+    +l++++++  p+ ++++++ a   + + +  +++
+  sp|P07803|HBL_TRETO  98 LKRLGAIHFKNGVVN-EHFET-RFALLETIKEAVPEMWSPEMKNAWGEAYDQLVAAIK 153
+                          666776676555444.44553.346778888888888888877765555554444444 PP
+
+>> sp|Q947C5|HBL1_GOSHI  Non-symbiotic hemoglobin 1 OS=Gossypium hirsutum GN=HB1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.2   2.0   1.2e-07   5.7e-05       3     144 ..       9     156 ..       7     160 .. 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 28.2 bits;  conditional E-value: 1.2e-07
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekl...ea 86 
+                            +e++   v + W+ ++ + +e G     ++f   P +++ F   +d +    l+++ ++k H+  v     +   +l + +k+   e+
+  sp|Q947C5|HBL1_GOSHI   9 FTEEQEALVVKSWTVMKKKTAELGLKFFLKIFEIAPSAKKLFSFLRDSN--VPLEQNTKLKPHAMSVFVMTCESAVQLrKaGKVtvrES 95 
+                           68889999**********************************9887765..7899**********997665555444434566511156 PP
+
+              globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqa....aleKllalvakll 144
+                           +lk+L   H k + v  ++f++   +l++++++  p  ++ +++     a+++l+a +++ +
+  sp|Q947C5|HBL1_GOSHI  96 NLKKLGATHFK-YGVVDEHFEVTKFALLETIKEAVPDMWSDEMKNawgeAYDRLVAAIKIEM 156
+                           67777777764.4466689**********999999877666655411126788888887766 PP
+
+>> sp|P41260|GLB1_PHAPT  Hemoglobin-1 OS=Phacoides pectinatus PE=1 SV=4
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   28.3   0.2   1.1e-07   5.3e-05       2      96 ..       2      98 ..       1     136 [. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 28.3 bits;  conditional E-value: 1.1e-07
+              globins4  2 vLseaektkvkavWakveadveesGadiLvrlfkstPatqefFek.FkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklk 89
+                           Ls+a+k +vk+ Wak  a  ++ G +  + lf ++     +F   Fk+  ++  +k+ +++ + ++   + +s+ + +ld  + le++ k
+  sp|P41260|GLB1_PHAPT  2 SLSAAQKDNVKSSWAKASAAWGTAGPEFFMALFDAHDDVFAKFSGlFKG-AAKGTVKNTPEMAAQAQSFKGLVSNWVDNLDnaGALEGQCK 91
+                          69*********************************99887777652544.45889*************************86788999999 PP
+
+              globins4 90 dLselHa 96
+                          + + +H 
+  sp|P41260|GLB1_PHAPT 92 TFAANHK 98
+                          9999985 PP
+
+>> sp|Q7M418|GLBB2_OLIMA  Extracellular giant hemoglobin major globin subunit B2 OS=Oligobrachia mashikoi GN=ghbB2 PE=1 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.8   0.1   1.5e-07   7.4e-05       6     119 ..      23     138 ..      19     161 .. 0.72
+
+  Alignments for each domain:
+  == domain 1  score: 27.8 bits;  conditional E-value: 1.5e-07
+               globins4   6 aektkvkavW....akveadvee.sGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.eklea 86 
+                            +++ +v + W    +  ++d      + +   lf    a+q  F    ++s  ++   sad ++H ++v++ l  a++ l d   l+ 
+  sp|Q7M418|GLBB2_OLIMA  23 EDRANVMHNWdaawSAAYSDRRVaLAQAVFASLFSRDAAAQGLFS---GVS--ADNPDSADFRAHCVRVVNGLDVAINMLnDpAVLNE 105
+                            566666554410004444444321344555566666666666655...445..55679**********************7678899* PP
+
+               globins4  87 klkdLselHakklkvdpkyfkllsevlvdvlaa 119
+                            +l++Ls +H  +  v   +f +++e+ ++v+ +
+  sp|Q7M418|GLBB2_OLIMA 106 QLAHLSAQHQARAGVAAAHFDVMAEAFAEVMPQ 138
+                            ***************************999865 PP
+
+>> sp|P02218|GLB2_LUMTE  Extracellular globin-2 OS=Lumbricus terrestris PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.5   0.0     2e-07   9.5e-05      10     128 ..      11     128 ..       6     142 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 27.5 bits;  conditional E-value: 2e-07
+              globins4  10 kvkavWakvea...dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLse 93 
+                           kvk+ W++ +    d e   + i    f   P+++  F++ ++        + +   +H+++vl+ l  a+  ld    l+ +l +L  
+  sp|P02218|GLB2_LUMTE  11 KVKSEWGRAYGsghDREAFSQAIWRATFAQVPESRSLFKRVHGDD-----TSHPAFIAHAERVLGGLDIAISTLDqpATLKEELDHLQV 94 
+                           799999998752224566777888889**********99995555.....4567889*****************8677999******99 PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftad 128
+                           +H    k++ +yf  +  ++++v+aa+l++ +  +
+  sp|P02218|GLB2_LUMTE  95 QHE-GRKIPDNYFDAFKTAILHVVAAQLGRCYDRE 128
+                           995.579********************99877654 PP
+
+>> sp|P41262|GLB3_PHAPT  Hemoglobin-3 OS=Phacoides pectinatus PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.6   0.0   1.8e-07   8.8e-05       3     108 ..       5     111 ..       3     145 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 27.6 bits;  conditional E-value: 1.8e-07
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFek.FkdLstedelkksadvkkHgkkvldAlsdalakld..ekleakl 88 
+                           L+  +k ++k+ W++   ++ + G++  + lfk++P t++ F++ F+d+s  +++   + +k+ +    d +s  + +ld  e l   l
+  sp|P41262|GLB3_PHAPT   5 LTGPQKAALKSSWSRFMDNAVTNGTNFYMDLFKAYPDTLTPFKSlFEDVS-FNQMTDHPTMKAQALVFCDGMSSFVDNLDdhEVLVVLL 92 
+                           6667899***********************************97588888.99**************************7344456778 PP
+
+              globins4  89 kdLselHakklkvdpkyfkl 108
+                           +++++lH ++  + +k ++ 
+  sp|P41262|GLB3_PHAPT  93 QKMAKLHFNR-GIRIKELRD 111
+                           9999999765.455555555 PP
+
+>> sp|O48665|LGB5_PEA  Leghemoglobin Lb120-29 OS=Pisum sativum PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.5   0.2     2e-07   9.7e-05      32     146 ..      31     143 ..       3     146 .] 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 27.5 bits;  conditional E-value: 2e-07
+            globins4  32 rlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvlaar 120
+                          ++k  Pat+ +F  F  L+ ++ +  s+++++H++kv + + d   +l   +++    ++L   H +k  vd  +f ++ e+l++++++ 
+  sp|O48665|LGB5_PEA  31 IILKKAPATKGMFS-F--LKDSAGVVDSPKLQAHAEKVFGMVHDSAVQLRvsGEVVLGDATLGAIHIQKGVVDS-HFVVVKEALLETIKEA 117
+                         478899****9995.6..77788*********************99998623666666689*********9997.5889***********9 PP
+
+            globins4 121 lpkeftadvqaaleKllalvakllas 146
+                          +++++ +  +a e + + +a ++++
+  sp|O48665|LGB5_PEA 118 SGEKWSEELSTAWEVAYEGLASAIKK 143
+                         99999999999999998888888765 PP
+
+>> sp|P02233|LGB1_PEA  Leghemoglobin-1 OS=Pisum sativum PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.0   0.1   2.7e-07   0.00013      35     147 ..      34     144 ..      17     146 .. 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 27.0 bits;  conditional E-value: 2.7e-07
+            globins4  35 kstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dekleaklkdLselHakklkvdpkyfkllsevlvdvlaarlpk 123
+                            Pa++  F  F  L+  + ++ s+++++H+++v + + d  a+l  ++++    ++L   H +k   +p +f ++ e+l++++++  ++
+  sp|P02233|LGB1_PEA  34 EKAPAAKGLFS-F--LKDTAGVEDSPKLQAHAEQVFGLVRDSAAQLrtKGEVVLGNATLGAIHVQKGVTNP-HFVVVKEALLQTIKKASGN 120
+                         56788888875.4..777789*************************433555555689*******976655.6889*************** PP
+
+            globins4 124 eftadvqaaleKllalvakllask 147
+                         +++ + ++a e + + +a++++++
+  sp|P02233|LGB1_PEA 121 NWSEELNTAWEVAYDGLATAIKKA 144
+                         ***********9999999998876 PP
+
+>> sp|P85313|HBBB_CATCL  Hemoglobin subunit beta-B (Fragment) OS=Catostomus clarkii GN=hbbb PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   27.0   0.0   2.7e-07   0.00013       4      50 ..       4      48 .]       1      48 [] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 27.0 bits;  conditional E-value: 2.7e-07
+              globins4  4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdL 50
+                          ++ae+ +++++W+k+  d +e G   L r  +++  tq++F +F+dL
+  sp|P85313|HBBB_CATCL  4 TDAERGAILSLWGKI--DPDELGPALLARXXLVYXXTQRYFASFGDL 48
+                          789************..99**************************98 PP
+
+>> sp|P26914|GLB_PSEDC  Extracellular globin OS=Pseudoterranova decipiens PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   16.8   0.2   0.00038      0.19      16     102 ..      32     122 ..      23     165 .. 0.79
+   2 ?   11.9   0.8     0.013       6.1      21      97 ..     188     265 ..     184     310 .. 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 16.8 bits;  conditional E-value: 0.00038
+             globins4  16 akvea..dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakkl.k 100
+                          akv++  ++++ G d   ++f  +Pa +++F++ +   t+++++k +   k g+++l A     a  d  e ++a + +L  +H + + k
+  sp|P26914|GLB_PSEDC  32 AKVGTskEAKQDGIDLYKHMFEHYPAMKKYFKHRE-NYTPADVQKDPFFIKQGQNILLACHVLCATYDdrETFDAYVGELMARHERDHvK 120
+                          555541156788*******************9985.5669*******************9999999954677788888888888654325 PP
+
+             globins4 101 vd 102
+                          ++
+  sp|P26914|GLB_PSEDC 121 IP 122
+                          55 PP
+
+  == domain 2  score: 11.9 bits;  conditional E-value: 0.013
+             globins4  21 dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHak 97 
+                          + ++ G d   ++f  +P+ ++ F+  ++ + +++++k a   k g+k+l Al     + d    ++  + +L ++H k
+  sp|P26914|GLB_PSEDC 188 HQKQNGIDLYKHMFEHYPHMRKAFKGRENFT-KEDVQKDAFFVKQGHKILLALRMLCSSYDdePTFDYFVDALMDRHIK 265
+                          56789*******************9887765.8889999999999*********9999996323455566788888875 PP
+
+>> sp|P42511|LGB_CANLI  Leghemoglobin OS=Canavalia lineata PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   26.2   1.8   4.8e-07   0.00023       4     144 ..       5     146 ..       3     149 .] 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 26.2 bits;  conditional E-value: 4.8e-07
+             globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk..dL 91 
+                          se++ + vk+ W   + +v  + a   + ++   Pa+q++F  F  Ls +    +++++k+H++kv +   d   +l  k e  l+  +L
+  sp|P42511|LGB_CANLI   5 SEKQESLVKSSWEAFKQNVPHHSAVFYTLILEKAPAAQNMFS-F--LS-NGVDPNNPKLKAHAEKVFKMTVDSAVQLRAKGEVVLAdpTL 90 
+                          888999******************999*************96.6..66.34446899**********9988888888666666665227* PP
+
+             globins4  92 selHakklkvdpkyfkllsevlvdvlaarlp....keftadvqaaleKllalvakll 144
+                             H +k  +dp+++ ++ e+l+++ ++  +     e++ + + a++ l a ++k++
+  sp|P42511|LGB_CANLI  91 GSVHVQKGVLDPHFL-VVKEALLKTFKEAVGdkwnDELGNAWEVAYDELAAAIKKAM 146
+                          ************866.78899998877655511116677777777777777777766 PP
+
+>> sp|P83122|GLB1_PHEHI  Extracellular globin-1 OS=Pheretima hilgendorfi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   26.1   0.1   5.4e-07   0.00026       7     127 ..       6     124 ..       4     138 .. 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 26.1 bits;  conditional E-value: 5.4e-07
+              globins4   7 ektkvkavWakv..eadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdL 91 
+                           e+ kvk+ W  v  ea+  e        ++  +P   e F + ++ +       s++ ++Hg +vl  l  ++  ld    l  +l++L
+  sp|P83122|GLB1_PHEHI   6 ERFKVKHQWQTVfsEAHRTEFSLHFWKEFLHDHPSLVELFTRVNGAN-----IYSPEFQAHGIRVLAGLDSVIGVLDeiPTLTVQLAHL 89 
+                           6779********434556678889999***************97766.....78*********************99444788899999 PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkefta 127
+                             +H+++    p+yf l+++ l+  l  +l+++f  
+  sp|P83122|GLB1_PHEHI  90 KAQHTER-GTKPEYFDLFGKHLASHLGDELGTHFDY 124
+                           9999876.579*********9999999998888864 PP
+
+>> sp|Q941P9|HBL2_SOLLC  Non-symbiotic hemoglobin 2 OS=Solanum lycopersicum GN=HB2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   26.1   0.3   5.4e-07   0.00026       7     146 ..       7     148 ..       2     151 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 26.1 bits;  conditional E-value: 5.4e-07
+              globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel.kksadvkkHgkkvldAlsdalakl..dekl...eaklk 89 
+                           +   v+  W  ++ d+ +        ++   P ++++F  F  L+ +del ++++++++H++kv +   +   +l  ++++   e++lk
+  sp|Q941P9|HBL2_SOLLC   7 QEALVRDSWEFMKQDIPQLSLRFFSLILEIAPVAKNMFS-F--LKDSDELpENNPKLRAHAVKVFKMTCESAIQLreKGEVvvgETTLK 92 
+                           5566777788787788888888888889999****9996.5..677788835689**********9998888888323443344789** PP
+
+              globins4  90 dLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                            L   H +k   dp +f+++ e+l+ ++++  ++++  +++ a   + + +a ++++
+  sp|Q941P9|HBL2_SOLLC  93 YLGSIHLQKRVADP-HFEVVKEALLRTVKEATGNKWKDEMKEAWSEAYDQLASAIKA 148
+                           ********977776.69**************99999999999988888888877766 PP
+
+>> sp|P27992|LGB1_MEDTR  Leghemoglobin 1 OS=Medicago truncatula GN=LB1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   26.1   0.2   5.2e-07   0.00025      32     145 ..      32     143 ..       2     146 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 26.1 bits;  conditional E-value: 5.2e-07
+              globins4  32 rlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvla 118
+                            ++   Pa++  F  F  L+ ++ ++ s+++++H++kv + + d   +l   + +    ++L   H +k  vdp+ f ++ e+l+++++
+  sp|P27992|LGB1_MEDTR  32 VILEKAPAAKGLFS-F--LKDSAGVQDSPQLQAHAEKVFGLVRDSASQLRatGGVVLGDAALGAIHIQKGVVDPH-FVVVKEALLKTIK 116
+                           56777888988885.5..77788**************************6234555555889************7.7799********* PP
+
+              globins4 119 arlpkeftadvqaaleKllalvaklla 145
+                           +  + +++ +  +a e + + +a+ ++
+  sp|P27992|LGB1_MEDTR 117 EAAGDKWSEELSTAWEVAYDALATEIK 143
+                           *99999999999999988888887776 PP
+
+>> sp|P80592|GLBB_RIFPA  Giant hemoglobins B chain OS=Riftia pachyptila PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.9   0.0   6.1e-07    0.0003       8     123 ..       9     123 ..       3     141 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 25.9 bits;  conditional E-value: 6.1e-07
+              globins4   8 ktkvkavWakvea...dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdL 91 
+                           + kvk  Wa+ +      ee G  i  ++f+  Pa++++F++ ++    d+++  +  ++H+ +vl+ l   +a ld    l+++l++L
+  sp|P80592|GLBB_RIFPA   9 RLKVKRQWAEAYGsgnSREEFGHFIWSHVFQHSPAARDMFKRVRG----DNIH-TPAFRAHATRVLGGLDMCIALLDdePVLNTQLAHL 92 
+                           668999999987522257899******************999954....5666.6789******************733358999**** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpk 123
+                           +++H ++  v+  ++  + +++++ + +  ++
+  sp|P80592|GLBB_RIFPA  93 AKQHETR-GVEAAHYDTVNHAVMMGVENVIGS 123
+                           ****775.688888888888777776666555 PP
+
+>> sp|P27993|LGB2_MEDTR  Leghemoglobin 2 OS=Medicago truncatula GN=LB2 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.7   0.2   7.1e-07   0.00034      33     145 ..      32     142 ..       3     145 .. 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 25.7 bits;  conditional E-value: 7.1e-07
+              globins4  33 lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvlaa 119
+                           ++   Pa++ +F  F  L+  + ++ s++++ H++kv + + d   +l   + +    ++L   H +k  vdp+ f ++ e+l++++++
+  sp|P27993|LGB2_MEDTR  32 ILEKAPAAKGMFS-F--LKDTAGVQDSPKLQSHAEKVFGMVRDSAVQLRatGGVVLGDATLGAIHIQKGVVDPH-FVVVKEALLKTIKE 116
+                           5677899999995.5..67778*********************99999623555555589*************7.67999*******99 PP
+
+              globins4 120 rlpkeftadvqaaleKllalvaklla 145
+                             + +++ +  +a e + + +a +++
+  sp|P27993|LGB2_MEDTR 117 VSGDKWSEELSTAWEVAYDALAAAIK 142
+                           88888888888877777766666665 PP
+
+>> sp|P11740|GLB1_PHESE  Extracellular globin-1 OS=Pheretima sieboldi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.4   0.1   8.9e-07   0.00043      10     128 ..       9     126 ..       4     139 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 25.4 bits;  conditional E-value: 8.9e-07
+              globins4  10 kvkavWakvea...dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLse 93 
+                           kvk+ W +v +   +  e        ++  +P     F++ ++     e   s++ ++Hg +vl  l  ++  ld  + +  +l++L  
+  sp|P11740|GLB1_PHESE   9 KVKHQWQQVFSgehHRTEFSLHFWKEFLHDHPDLVSLFKRVQG-----ENIYSPEFQAHGIRVLAGLDSVIGVLDedDTFTVQLAHLKA 92 
+                           7999999996522244555566667888889988888888844.....44789*****************999963367889999**** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftad 128
+                           +H+++    p+yf l++  l d+l  +l+++f  +
+  sp|P11740|GLB1_PHESE  93 QHTER-GTKPEYFDLFGTQLFDILGDKLGTHFDQA 126
+                           *9987.579*********************99755 PP
+
+>> sp|Q9FEP8|LGB_LOTJA  Leghemoglobin OS=Lotus japonicus PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.5   0.3   8.3e-07    0.0004      34     146 ..      34     144 ..       8     146 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 25.5 bits;  conditional E-value: 8.3e-07
+             globins4  34 fkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl..dekleaklkdLselHakklkvdpkyfkllsevlvdvlaarl 121
+                          +   P+++++F  F  L+ e   k s+++++H++kv     da  +l  ++++  + ++L   H +k   dp+ f ++ e+l++++++  
+  sp|Q9FEP8|LGB_LOTJA  34 LEIAPTAKDMFS-F--LK-ESGPKHSPQLQAHAEKVFALTRDAATQLvaKGEVTLADASLGAVHVQKAVTDPH-FVVVKEALLQTVKEAV 118
+                          566788888885.4..56.67789*************9999999998433455555567889*****999996.77999*******9988 PP
+
+             globins4 122 pk.eftadvqaaleKllalvakllas 146
+                          ++ e++ d  +a e + + +a+++++
+  sp|Q9FEP8|LGB_LOTJA 119 GAdEWSDDLSTAWEGAYDGLATAIKK 144
+                          76257888888888887777777765 PP
+
+>> sp|P93849|LGB3_VICFA  Leghemoglobin 49 OS=Vicia faba PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   25.4   0.1   8.5e-07   0.00041      33     146 ..      32     143 ..       3     145 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 25.4 bits;  conditional E-value: 8.5e-07
+              globins4  33 lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklk..dLselHakklkvdpkyfkllsevlvdvlaa 119
+                           ++   Pa++ +F  F  L+ ++ +  s+++++H+++v + + d   +l+   e  lk  +L   H +k  vdp+ f ++ e+l++++++
+  sp|P93849|LGB3_VICFA  32 ILEKAPAAKGMFS-F--LKDSAGVVDSPKLQAHAEQVFGMVRDSAIQLQATGEVVLKngSLGAIHIQKGVVDPH-FVVVKEALLKTIKE 116
+                           5667888988885.5..77788**********************999975555555522799***********7.7799*********9 PP
+
+              globins4 120 rlpkeftadvqaaleKllalvakllas 146
+                             + +++ +   a e + + +a+++++
+  sp|P93849|LGB3_VICFA 117 ASGDKWSEELSIAWEVAYDGLATAIKK 143
+                           999999999998888888888877765 PP
+
+>> sp|P02231|GLBT_CHITH  Globin CTT-IIIA OS=Chironomus thummi thummi PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.3   0.0   1.9e-06   0.00091       4     117 ..      10     119 ..       8     147 .. 0.75
+
+  Alignments for each domain:
+  == domain 1  score: 24.3 bits;  conditional E-value: 1.9e-06
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLste.delkksadvkkHgkkvldAlsdalakl..d.ekleakl 88 
+                           ++a+  +vk  W k+    ++sG++iL  ++  +P     F+ Fk+L  + ++ k+ a+ k  + k++  l+ ++ kl  d +  +a l
+  sp|P02231|GLBT_CHITH  10 TDAQVAAVKGDWEKI----KGSGVEILYFFLNKFPGN---FPMFKKLGNDlAAAKGTAEFKDQADKIIAFLQGVIEKLgsDmGGAKALL 91 
+                           667778889999998....99**************85...777777764426889***********************64455667778 PP
+
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvl 117
+                           ++L  +H k + +    f  + ++l + l
+  sp|P02231|GLBT_CHITH  92 NQLGTSH-KAMGITKDQFDQFRQALTELL 119
+                           8888888.445566666666666665555 PP
+
+>> sp|P10816|LGB3_SESRO  Leghemoglobin 3 OS=Sesbania rostrata GN=GLB3 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.6   0.2   1.5e-06   0.00075      33     146 ..      33     145 ..       4     148 .] 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 24.6 bits;  conditional E-value: 1.5e-06
+              globins4  33 lfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvlaa 119
+                           ++   Pa++ +F   kd    +  ++++ +++H++kv + + d  a+l   + +  + ++L   H +k  +dp+ f ++ e+l+++l++
+  sp|P10816|LGB3_SESRO  33 ILEKAPAAKGMFSFLKDFD--EVPQNNPSLQAHAEKVFGLVRDSAAQLRatGVVVLADASLGSVHVQKGVLDPH-FVVVKEALLKTLKE 118
+                           4567899999998777776..4447889********************723445555567999*********96.7799*********9 PP
+
+              globins4 120 rlpkeftadvqaaleKllalvakllas 146
+                             ++ ++ +v  a e + + ++ ++++
+  sp|P10816|LGB3_SESRO 119 AGGATWSDEVSNAWEVAYDELSAAIKK 145
+                           999999999999988887777777665 PP
+
+>> sp|P14848|LGB2_SESRO  Leghemoglobin 2 OS=Sesbania rostrata GN=GLB2 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   24.2   0.2   2.1e-06     0.001      34     146 ..      34     145 ..       4     147 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 24.2 bits;  conditional E-value: 2.1e-06
+              globins4  34 fkstPatqefFekFkdLstedel.kksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvlaa 119
+                           +   Pa++ +F     L+ +d + ++++ +++H++kv + + d  a+l   + +  + ++L   H +k  +dp+ f ++ e+l+++l++
+  sp|P14848|LGB2_SESRO  34 LEKAPAAKGMFSF---LKDSDGVpQNNPSLQAHAEKVFGLVRDSAAQLRatGVVVLADASLGSVHVQKGVLDPH-FVVVKEALLKTLKE 118
+                           5567888888864...5555666367899*******************723445555567999*********96.7799********** PP
+
+              globins4 120 rlpkeftadvqaaleKllalvakllas 146
+                             ++ ++ +v  a e + + ++ ++++
+  sp|P14848|LGB2_SESRO 119 AAGATWSDEVSNAWEVAYDGLSAAIKK 145
+                           ***********9999998888887765 PP
+
+>> sp|P80721|GLB_PAREP  Globin-3 OS=Paramphistomum epiclitum PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.8   1.0   2.7e-06    0.0013      20     143 ..      23     143 ..       2     147 .. 0.73
+
+  Alignments for each domain:
+  == domain 1  score: 23.8 bits;  conditional E-value: 2.7e-06
+             globins4  20 adveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdLselHakklkvdpkyfkl 108
+                          a++ e+G  +   lf+++P+   +F + +  +t +++++s+ +k++++++ +A+  +l+++  +   +k+++  ++  ++ kv    f +
+  sp|P80721|GLB_PAREP  23 AHIVETGLGAYHALFTAHPQYIIHFSRLE-GHTIENVMQSEGIKHYARTLTEAIVHMLKEISnDAEVKKIAAQYGKDHTSRKVTKDEF-M 110
+                          788899**********************5.567999************************9613333344444444455567776666.3 PP
+
+             globins4 109 lsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                           +e + +   ++l k+  a+ +aa+eK+l+ v  +
+  sp|P80721|GLB_PAREP 111 SGEPIFTKYFQNLVKD--AEGKAAVEKFLKHVFPM 143
+                          4556666555665555..55677777777776655 PP
+
+>> sp|P80722|GLB_ISOHY  Globin OS=Isoparorchis hypselobagri PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.7   0.1     3e-06    0.0014      21     143 ..      24     144 ..       2     148 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 23.7 bits;  conditional E-value: 3e-06
+             globins4  21 dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdLselHakklkvdpkyfkl 108
+                          +  e G  + + lf ++P+  ++F + ++  t++++++ +  k ++k++++ l + l+   d   l+++++  + +  k  +v    f+ 
+  sp|P80722|GLB_ISOHY  24 HRMELGLGAYTELFAAHPEYIKKFSRLQE-ATPANVMAQDGAKYYAKTLINDLVELLKAStDeATLNTAIARTATKDHKPRNVSGAEFQT 112
+                          45678999999****************65.67*************************986564567777888888888888899999998 PP
+
+             globins4 109 lsevlvdvlaarlpkeftadvqaaleKllalvakl 143
+                             + ++   +      t++ qa +eKll  + + 
+  sp|P80722|GLB_ISOHY 113 GEPIFIKYFSHV---LTTPANQAFMEKLLTKIFTG 144
+                          777778777777...45899999999999988765 PP
+
+>> sp|P09966|GLB2_TYLHE  Extracellular globin-2A OS=Tylorrhynchus heterochaetus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.7   0.0   2.8e-06    0.0014       8     132 ..      10     133 ..       4     140 .. 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 23.7 bits;  conditional E-value: 2.8e-06
+              globins4   8 ktkvkavWakvea...dveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekleaklkdL 91 
+                           + kvk+ Wak +    +  e G      +f     +++ F++    + ed    s+   +H  +v + l  ++ +l d   l+a+l++L
+  sp|P09966|GLB2_TYLHE  10 RLKVKQQWAKAYGvghERVELGIALWKSMFAQDNDARDLFKRV---HGED--VHSPAFEAHMARVFNGLDRVISSLtDePVLNAQLEHL 93 
+                           6789******754111344455555555665555555555555...5444..57999*******************87456899***** PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaa 132
+                            ++H  kl +  + f+l+   l+ vl a+l++ f  ++ aa
+  sp|P09966|GLB2_TYLHE  94 RQQHI-KLGITGHMFNLMRTGLAYVLPAQLGRCFDKEAWAA 133
+                           ****7.79************************999988776 PP
+
+>> sp|P02229|GLB3_CHITH  Globin CTT-III OS=Chironomus thummi thummi GN=A PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.7   0.1   5.7e-06    0.0028       3     125 ..      16     129 ..      13     151 .] 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 22.7 bits;  conditional E-value: 5.7e-06
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++ ++v+a + kv    ++  + iL  +fk+ P    +F +F +    + +k+ a    H++++++ +s+++ +l  ++ea++++ 
+  sp|P02229|GLB3_CHITH  16 LSADQISTVQASFDKV----KGDPVGILYAVFKADPSIMAKFTQFAGKD-LESIKGTAPFEIHANRIVGFFSKIIGELP-NIEADVNTF 98 
+                           8888888999999998....5556679******************6544.679************************98.999999999 PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkef 125
+                             +H  +  v    ++ + +  v  ++a+  ++f
+  sp|P02229|GLB3_CHITH  99 VASHKPR-GVTHDQLNNFRAGFVSYMKAH--TDF 129
+                           9999544.444455555555555555555..444 PP
+
+>> sp|P02234|LGBA_PHAVU  Leghemoglobin A OS=Phaseolus vulgaris PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.9   0.6   5.1e-06    0.0025       4     148 ..       5     145 ..       3     146 .] 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 22.9 bits;  conditional E-value: 5.1e-06
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdL 91 
+                           +e++   v++ W   + ++ ++ +   + ++   Pa+++ F        +     ++++ +H++ + + + d  a+l  +    + ++L
+  sp|P02234|LGBA_PHAVU   5 TEKQEALVNSSWEAFKGNIPQYSVVFYTSILEKAPAAKNLFSFL---A-NGVDPTNPKLTAHAESLFGLVRDSAAQLRaNGAVVADAAL 89 
+                           56677889999****************************99644...3.3334689*********************635566677899 PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                              H++k  v    f ++ e+l+++l++  + ++t +  +ale + + +a +++++Y
+  sp|P02234|LGBA_PHAVU  90 GSIHSQK-GVSNDQFLVVKEALLKTLKQAVGDKWTDQLSTALELAYDELAAAIKKAY 145
+                           9***998.6999999**************************************9999 PP
+
+>> sp|P22431|GLB3_CHITP  Globin CTP-III OS=Chironomus thummi piger PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   23.0   0.0   4.8e-06    0.0023       3     125 ..       1     114 [.       1     136 [] 0.75
+
+  Alignments for each domain:
+  == domain 1  score: 23.0 bits;  conditional E-value: 4.8e-06
+              globins4   3 LseaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL 91 
+                           Ls+++ ++v+a + kv    ++  + iL  +fk+ P    +F +F +    + +k+ a   +H++++++ +s+++ +l  ++ea++++ 
+  sp|P22431|GLB3_CHITP   1 LSADQISTVQASFDKV----KGDPVGILYAVFKADPSIMAKFTQFAGKD-LESIKGTAPFETHANRIVGFFSKIIGELP-NIEADVNTF 83 
+                           6777777888888888....5556679******************6544.679************************98.999999999 PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkef 125
+                             +H  +  v    ++ + +  v  ++a+  ++f
+  sp|P22431|GLB3_CHITP  84 VASHKPR-GVTHDQLNNFRAGFVSYMKAH--TDF 114
+                           9999544.455555555555555555555..455 PP
+
+>> sp|P85312|HBBA_CATCL  Hemoglobin subunit beta-A (Fragment) OS=Catostomus clarkii GN=hbba PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.9   0.0     5e-06    0.0024       4      44 ..       4      42 .]       1      42 [] 0.95
+
+  Alignments for each domain:
+  == domain 1  score: 22.9 bits;  conditional E-value: 5e-06
+              globins4  4 seaektkvkavWakveadveesGadiLvrlfkstPatqefF 44
+                          ++ae+++++++W+k+  d +e G   L rl ++   tq++F
+  sp|P85312|HBBA_CATCL  4 TDAERSAILSLWGKI--DTDELGPALLARLXLVXXXTQRYF 42
+                          799************..99*********************9 PP
+
+>> sp|P27199|LGB_PSOTE  Leghemoglobin OS=Psophocarpus tetragonolobus PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.6   0.6   6.1e-06     0.003       5     147 ..       6     144 ..       3     145 .] 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 22.6 bits;  conditional E-value: 6.1e-06
+             globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdLse 93 
+                          e++   v++ +   +a+v ++ +   + ++   Pa+++ F+       +     ++++  H++k+ + + d  a+l  +    + ++L  
+  sp|P27199|LGB_PSOTE   6 EKQEALVNSSYEAFKANVPQYSVVFYTSILEKAPAAKDLFPFLA----NGVDPTNPKLIGHAEKLFGLVHDSAAQLRaKGAVVADAALGS 91 
+                          55667788888889999999999999999999*******99663....3334689*********************63455566789*** PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllask 147
+                          lHa+k   dp+ f ++ e+l++++++  + +++ +   a e + + +a +l+++
+  sp|P27199|LGB_PSOTE  92 LHAQKGVTDPQ-FVVVKEALLKTVKEAVGDKWSDELSNAWEVAYNELAAALKKA 144
+                          ******99998.6799**********9999999999999988888888877765 PP
+
+>> sp|P18202|GLB_TUBTU  Globin, extracellular monomeric OS=Tubifex tubifex PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.5   0.0   6.7e-06    0.0033       9     122 ..       8     120 ..       3     131 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 22.5 bits;  conditional E-value: 6.7e-06
+             globins4   9 tkvkavWakveadve...esGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLse 93 
+                           kvk+ Wa+   + +   + G      +f   P+ +  F++  + +       sa+  +H+++vl+ l  ++  ld    ++a+l++L  
+  sp|P18202|GLB_TUBTU   8 FKVKHQWAEAFGTSHhrlDFGLKLWNSIFRDAPEIRGLFKRVDGDN-----AYSAEFEAHAERVLGGLDMTISLLDdqAAFDAQLAHLKS 92 
+                          5899999997654431126788999999999999999999985444.....789*********************63567899******* PP
+
+             globins4  94 lHakklkvdpkyfkllsevlvdvlaarlp 122
+                          +Ha++ ++   y+ ++ + l+ vl   l+
+  sp|P18202|GLB_TUBTU  93 QHAER-NIKADYYGVFVNELLAVLPDYLG 120
+                          ***97.79999999999999999977665 PP
+
+>> sp|O04939|LGB2_PHAVU  Leghemoglobin OS=Phaseolus vulgaris PE=2 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   22.5   0.5   6.9e-06    0.0034       4     148 ..       5     145 ..       3     146 .] 0.87
+
+  Alignments for each domain:
+  == domain 1  score: 22.5 bits;  conditional E-value: 6.9e-06
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdL 91 
+                           +e++   v++ W   + ++ ++ +   + ++   Pa+++ F        +     ++++ +H++ + + + d  a+l  +    + ++L
+  sp|O04939|LGB2_PHAVU   5 TEKQEALVNSSWEAFKGNIPQYSVVFYTSILEKAPAAKNLFSFL---A-NGVDPTNPKLTAHAESLFGLVRDSAAQLRaNGAVVADAAL 89 
+                           56677889999****************************99644...3.3334689*********************63556667789* PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                              H++k   d + f ++ e+l+++l++  + ++t +  +ale + + +a  ++++Y
+  sp|O04939|LGB2_PHAVU  90 GSIHSQKALNDSQ-FLVVKEALLKTLKEAVGDKWTDELSTALELAYDEFAAGIKKAY 145
+                           ******9877765.6699**************************9999999999998 PP
+
+>> sp|P08924|GLB1_LUMTE  Extracellular globin-1 OS=Lumbricus terrestris PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.8   0.0   1.1e-05    0.0054      10     127 ..       9     125 ..       4     141 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 21.8 bits;  conditional E-value: 1.1e-05
+              globins4  10 kvkavWakveadvee...sGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLse 93 
+                           kvk  Wa    ++++    G +    ++  +P+ +  F + ++ +       s++  +H+++vl  l  ++  ld  + l a+l++L  
+  sp|P08924|GLB1_LUMTE   9 KVKLQWASAFGHAHQrvaFGLELWKGILREHPEIKAPFSRVRGDN-----IYSPQFGAHSQRVLSGLDITISMLDtpDMLAAQLAHLKV 92 
+                           677778777666654222699999999999999999999996544.....679******************999876678899****** PP
+
+              globins4  94 lHakklkvdpkyfkllsevlvdvlaarlpkefta 127
+                           +H ++ ++ p++f ++ + l++vl  rl+++f  
+  sp|P08924|GLB1_LUMTE  93 QHVER-NLKPEFFDIFLKHLLHVLGDRLGTHFDF 125
+                           **986.799*******************998853 PP
+
+>> sp|Q7M413|GLBA2_OLIMA  Extracellular giant hemoglobin major globin subunit A2 OS=Oligobrachia mashikoi GN=ghbA2 PE=1 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.6   0.0   1.2e-05     0.006       9     140 ..      24     156 ..      17     158 .] 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 21.6 bits;  conditional E-value: 1.2e-05
+               globins4   9 tkvkavWakve...adveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdL 91 
+                              vk  Wa+ +   ++ e  G+ i + lf  +P ++  F + ++         s + ++H+ +vl+ l   +a+ld    l+a l+ L
+  sp|Q7M413|GLBA2_OLIMA  24 LLVKRQWAEAYgegTNRELLGNRIWEDLFANMPDARGLFSRVNGND-----IDSSEFQAHSLRVLGGLDMCVASLDdvPVLNALLARL 106
+                            57899999987222456778*********************96655.....67889*******************7355688899999 PP
+
+               globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadv.qaaleKllalv 140
+                              +H ++      y  +++ ++  v a+  ++ f  d+ ++ ++++++ +
+  sp|Q7M413|GLBA2_OLIMA 107 NSQHDSRGIPAAGYPAFVASAISAVRATVGARSFDNDAwNSCMNQIVSGI 156
+                            99997665555668899999999998888888998887467788888877 PP
+
+>> sp|P02232|LGB1_VICFA  Leghemoglobin-1 OS=Vicia faba PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   21.6   0.1   1.3e-05    0.0062      34     146 ..      34     143 ..       7     144 .] 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 21.6 bits;  conditional E-value: 1.3e-05
+              globins4  34 fkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdL.selHakklkvdpkyfkllsevlvdvlaarl 121
+                           ++  P+++ +F  F  L+ ++ +  s+++ +H++kv + + d   +l    e  l       H +k  +dp+ f ++ e+l++++++  
+  sp|P02232|LGB1_VICFA  34 LQKAPTAKAMFS-F--LKDSAGVVDSPKLGAHAEKVFGMVRDSAVQLRATGEVVLDGKdGSIHIQKGVLDPH-FVVVKEALLKTIKEAS 118
+                           667899999885.5..77788*************************9878888887551457********96.7799************ PP
+
+              globins4 122 pkeftadvqaaleKllalvakllas 146
+                           + +++ +  aa e + + +a+++++
+  sp|P02232|LGB1_VICFA 119 GDKWSEELSAAWEVAYDGLATAIKA 143
+                           *************999999999876 PP
+
+>> sp|P93848|LGB2_VICFA  Leghemoglobin 29 OS=Vicia faba GN=LB29 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 !   20.9   0.1   2.2e-05      0.01      34     143 ..      34     142 ..       6     147 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 20.9 bits;  conditional E-value: 2.2e-05
+              globins4  34 fkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleakl..kdLselHakklkvdpkyfkllsevlvdvlaar 120
+                           +   P ++++F   kd +  +   +++ + +H++ v + + da a+l+   +  l   +L   H++k +vd  +f ++ e+l++++++ 
+  sp|P93848|LGB2_VICFA  34 LEKAPIAKNMFSVLKDAN--EIPLANPSINAHTEMVFEMVRDAAAQLQTTGQVVLgdTTLGVVHTQK-RVDGLHFMVVKEALLKTIKEA 119
+                           566789999988887766..444699*********************85555555226899999887.9******************** PP
+
+              globins4 121 lpkeftadvqaaleKllalvakl 143
+                            + +++ +   a e + + +a +
+  sp|P93848|LGB2_VICFA 120 VGDKWSEELSNAWEIAYDGLAVA 142
+                           99999999888888776666655 PP
+
+>> sp|P02236|LGB2_SOYBN  Leghemoglobin C2 OS=Glycine max PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   20.6   0.4   2.6e-05     0.013       8     146 ..       9     143 ..       3     145 .] 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 20.6 bits;  conditional E-value: 2.6e-05
+              globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdLselH 95 
+                              v + +   +a++ ++ +   + ++   Pa+++ F  F  Ls +    +++++  H++k+ + + d   +l+ +    + ++L   H
+  sp|P02236|LGB2_SOYBN   9 EALVSSSFEAFKANIPQYSVVFYTSILEKAPAAKDLFS-F--LS-NGVDPSNPKLTGHAEKLFGLVRDSAGQLKaNGTVVADAALGSIH 93 
+                           55666666677777777777777888888899998885.5..55.33345789********************85556667789***** PP
+
+              globins4  96 akklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllas 146
+                           a+k   dp+ f ++ e+l++++++  + +++ +  +a e + + +a ++++
+  sp|P02236|LGB2_SOYBN  94 AQKAITDPQ-FVVVKEALLKTIKEAVGDKWSDELSSAWEVAYDELAAAIKK 143
+                           *******98.67999*******99999999988888888877777777765 PP
+
+>> sp|Q93Y92|HBL2_GOSHI  Non-symbiotic hemoglobin 2 OS=Gossypium hirsutum GN=HB2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   20.2   0.3   3.3e-05     0.016       5     142 ..       5     145 ..       2     154 .. 0.73
+
+  Alignments for each domain:
+  == domain 1  score: 20.2 bits;  conditional E-value: 3.3e-05
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel.kksadvkkHgkkvldAlsdalakldek.....leak 87 
+                           e++   vk+ W   + d+  s       ++   P ++++F  F  L+ ++e+ ++++++k+H++kv +   +   +l ek      +++
+  sp|Q93Y92|HBL2_GOSHI   5 EKQEGLVKESWEVLKQDIPHSSLRFFSLILEIAPGAKNMFS-F--LRESEEIpQNNPKLKAHAVKVFKMTCESAIQLREKgevvvADTT 90 
+                           555667889999999999999999999999999****9996.5..454455527899**********9998888888544112224679 PP
+
+              globins4  88 lkdLselHakklkvdpkyfkllsevlvdvlaarlpke.ftadvqaaleKllalvak 142
+                           lk L   H k+   dp +f+++ e+l+ ++ +  ++e +  +++ a   + + +a+
+  sp|Q93Y92|HBL2_GOSHI  91 LKYLGTVHVKSGVKDP-HFEVVKEALLRTIEEAIGEEkWNEEMKNAWGEAYDQLAE 145
+                           9*******98865555.79***********99888752455555555555444444 PP
+
+>> sp|Q9KMY3|HMP_VIBCH  Flavohemoprotein OS=Vibrio cholerae serotype O1 (strain ATCC 39315 / El Tor Inaba N16961) GN=hmp
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.6   0.4   5.5e-05     0.027      61     134 ..      49     123 ..      13     135 .. 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 19.6 bits;  conditional E-value: 5.5e-05
+             globins4  61 dvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaale 134
+                          +    ++ + +A+++  +++d    l ++++ ++++H ++++++p++++++++ l+++l +  p  ft +v+ a  
+  sp|Q9KMY3|HMP_VIBCH  49 KTGRQSVALFEAIAAYAKHIDnlAALTSAVERIAHKH-TSFNIQPEHYQIVGHHLLETLRELAPDAFTQPVEEAWT 123
+                          3344566778999999999985667888999999999.58*******************************98865 PP
+
+>> sp|Q43236|LGB1_VIGUN  Leghemoglobin-1 OS=Vigna unguiculata GN=LBI PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   20.0   1.3   3.9e-05     0.019       4     148 ..       5     145 .]       2     145 .] 0.78
+
+  Alignments for each domain:
+  == domain 1  score: 20.0 bits;  conditional E-value: 3.9e-05
+              globins4   4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdL 91 
+                           s+++   v+ ++   +a++ ++ +   + ++   Pa+++ F  F  L  +     ++++  H++k+ + + d  a+l       + ++L
+  sp|Q43236|LGB1_VIGUN   5 SDKQEALVNGAYEAFKANIPKYSVVFYTTILEKAPAAKNLFS-F--LA-NGVDATNPKLTGHAEKLFGLVRDSAAQLRaSGGVVADAAL 89 
+                           666677788888888888888888899999999999999996.5..33.33335799********************634455566889 PP
+
+              globins4  92 selHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                              H++k  v+   f ++ e+lv++l++  + +++ +  +a+e + + +a +++++Y
+  sp|Q43236|LGB1_VIGUN  90 GAVHSQKA-VNDAQFVVVKEALVKTLKEAVGDKWSDELGTAVELAYDELAAAIKKAY 145
+                           99**9996.7777899**********9988887777777777777777777766666 PP
+
+>> sp|Q43296|LGB2_VIGUN  Leghemoglobin-2 OS=Vigna unguiculata GN=LBII PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.9   0.8   4.3e-05     0.021       5     148 ..       6     145 .]       2     145 .] 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 19.9 bits;  conditional E-value: 4.3e-05
+              globins4   5 eaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdLs 92 
+                           +++   v+ ++   +ad+ ++ +   + ++   Pa+++ F  F  L  +     ++++  H++k+ + + d  a+l       + ++L 
+  sp|Q43296|LGB2_VIGUN   6 DKQEGLVNGAYEAFKADIPKYSVVFYTTILEKAPAAKNLFS-F--LA-NGVDATNPKLTGHAEKLFGLVRDSAAQLRaSGGVVADAALG 90 
+                           55555677777777788888888888888999999999996.4..33.33335799********************6344555668899 PP
+
+              globins4  93 elHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakllaskY 148
+                             H++k  v+   f ++ e+lv++l++  + +++ +  +a+e + + +a +++++Y
+  sp|Q43296|LGB2_VIGUN  91 AVHSQKA-VNDAQFVVVKEALVKTLKEAVGDKWSDELGTAVELAYDELAAAIKKAY 145
+                           9**9996.7777899**********9988887777777777777777777766666 PP
+
+>> sp|P02235|LGB1_SOYBN  Leghemoglobin C1 OS=Glycine max PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.7   0.6   4.8e-05     0.023      10     145 ..      11     142 ..       3     144 .] 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 19.7 bits;  conditional E-value: 4.8e-05
+              globins4  10 kvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdLselHak 97 
+                            v + +   +a++ ++ +     ++   Pa+++ F  F  L  +     ++++  H++k+   + d   +l+ +    + ++L   Ha+
+  sp|P02235|LGB1_SOYBN  11 LVSSSFEAFKANIPQYSVVFYNSILEKAPAAKDLFS-F--LA-NGVDPTNPKLTGHAEKLFALVRDSAGQLKtNGTVVADAALVSIHAQ 95 
+                           566666666666666666677777778888888875.4..33.33335799********************84556667789******* PP
+
+              globins4  98 klkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvaklla 145
+                           k   dp+ f ++ e+l++++++  +++++ +  +a e + + +a +++
+  sp|P02235|LGB1_SOYBN  96 KAVTDPQ-FVVVKEALLKTIKEAVGGNWSDELSSAWEVAYDELAAAIK 142
+                           *****98.6799**************9999999998887777776665 PP
+
+>> sp|P11069|GLB3_LUMTE  Extracellular globin-3 OS=Lumbricus terrestris PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.4   0.0     6e-05     0.029      24     121 ..      51     145 ..      23     170 .] 0.75
+
+  Alignments for each domain:
+  == domain 1  score: 19.4 bits;  conditional E-value: 6e-05
+              globins4  24 esGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld..ekleaklkdLselHakklkvdpkyfklls 110
+                           + G   L++l k  P  ++ F++  d++      + ++  +H+ ++l+ l  a++ ld    l+a+l +L+++H  +  v+  +fk ++
+  sp|P11069|GLB3_LUMTE  51 GFGRLLLTKLAKDIPDVNDLFKRV-DIE----HAEGPKFSAHALRILNGLDLAINLLDdpPALDAALDHLAHQHEVREGVQKAHFKKFG 134
+                           356778999999999999999998.666....45679999*****************647789************************** PP
+
+              globins4 111 evlvdvlaarl 121
+                           e+l++ l + l
+  sp|P11069|GLB3_LUMTE 135 EILATGLPQVL 145
+                           *9998887654 PP
+
+>> sp|P02220|GLB4_TYLHE  Extracellular globin-2C OS=Tylorrhynchus heterochaetus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.1   0.0   7.6e-05     0.037       4     141 ..       5     144 ..       3     148 .. 0.74
+
+  Alignments for each domain:
+  == domain 1  score: 19.1 bits;  conditional E-value: 7.6e-05
+              globins4   4 seaektkvkavWakveadvee.....sGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakl.d.ekle 85 
+                           s +++ +v+a+W  + +  ++      G    + lf    at+  F++    +  d+   s++  +H  +v++ l   +  l d + l+
+  sp|P02220|GLB4_TYLHE   5 SIEDRREVQALWRSIWSAEDTgrrtlIGRLLFEELFEIDGATKGLFKRV---N-VDDT-HSPEEFAHVLRVVNGLDTLIGVLgDsDTLN 88 
+                           6689999999999997655541111123333345677888888888887...3.3344.5666679************99998767788 PP
+
+              globins4  86 aklkdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadv.qaaleKllalva 141
+                           + + +L+e+H  +      yfk ++++l +vl +  ++ f +++ +  ++ l+++++
+  sp|P02220|GLB4_TYLHE  89 SLIDHLAEQHKARAGFKTVYFKEFGKALNHVLPEV-ASCFNPEAwNHCFDGLVDVIS 144
+                           88899**************************9876.677777653456666666665 PP
+
+>> sp|P49672|GLB2_ASCSU  Myoglobin OS=Ascaris suum PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.9   0.0   8.6e-05     0.042      25      92 ..      23      87 ..      10     106 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 18.9 bits;  conditional E-value: 8.6e-05
+              globins4 25 sGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLs 92
+                           G++    lf  +P  +++F+  ++L+  +++kks++ kk g+++l A   +la+l+ + +a++k+ +
+  sp|P49672|GLB2_ASCSU 23 NGTEFYALLFDKHPDLRHYFKGNENLT-GADVKKSDHFKKQGQRLLLAC-HVLAHLE-NDPASFKAYA 87
+                          68999999***************9998.888***************997.6899997.6677776655 PP
+
+>> sp|P02219|GLB1_TYLHE  Extracellular globin-1 OS=Tylorrhynchus heterochaetus PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   19.0   0.0   8.2e-05      0.04       9     129 ..       9     126 ..       6     139 .] 0.71
+
+  Alignments for each domain:
+  == domain 1  score: 19.0 bits;  conditional E-value: 8.2e-05
+              globins4   9 tkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHak 97 
+                            kvk+ Wa+v++ v+es +d  + +f  +  t+     F+ ++  d+   s++ k+H ++v   +   +  ld + +   ++L++  a 
+  sp|P02219|GLB1_TYLHE   9 IKVKQQWAQVYS-VGESRTDFAIDVFNNFFRTNPDRSLFNRVN-GDN-VYSPEFKAHMVRVFAGFDILISVLD-DKPVLDQALAHYAAF 93 
+                           689*******87.666666666666666666666556665555.444.579***********99987777778.566666677777777 PP
+
+              globins4  98 klkvdpkyfkllsevlvdvlaar.lpkeftadv 129
+                           + +     fk +++ + +++a++ ++++ +a  
+  sp|P02219|GLB1_TYLHE  94 HKQFGTIPFKAFGQTMFQTIAEHiHGADIGAWR 126
+                           777777789999********9884677777654 PP
+
+>> sp|P02238|LGBA_SOYBN  Leghemoglobin A OS=Glycine max GN=LBA PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   18.2   1.0   0.00014     0.067       9     144 ..      10     141 ..       2     144 .] 0.75
+
+  Alignments for each domain:
+  == domain 1  score: 18.2 bits;  conditional E-value: 0.00014
+              globins4   9 tkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekleaklkdLselHa 96 
+                             v + +   +a++ ++ +   + ++   Pa+++ F  F  L  +     ++++  H++k+   + d   +l+      + ++L   Ha
+  sp|P02238|LGBA_SOYBN  10 ALVSSSFEAFKANIPQYSVVFYTSILEKAPAAKDLFS-F--LA-NGVDPTNPKLTGHAEKLFALVRDSAGQLKaSGTVVADAALGSVHA 94 
+                           5566666666677777777777777888888888885.4..33.33335799********************85556667789****** PP
+
+              globins4  97 kklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                           +k   dp+ f ++ e+l+++++a  + +++ +   a e + + +a ++
+  sp|P02238|LGBA_SOYBN  95 QKAVTDPQ-FVVVKEALLKTIKAAVGDKWSDELSRAWEVAYDELAAAI 141
+                           ******98.67999********99999888887777766666555555 PP
+
+>> sp|P02217|GLB2_GLYDI  Globin, minor monomeric component (Fragment) OS=Glycera dibranchiata PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.6   0.0   0.00022      0.11       3      44 ..       2      45 .]       1      45 [] 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 17.6 bits;  conditional E-value: 0.00022
+              globins4  3 LseaektkvkavWakve.adv.eesGadiLvrlfkstPatqefF 44
+                          Ls+ae++ v + W  +  ad  +++G++ L++++ + P+    F
+  sp|P02217|GLB2_GLYDI  2 LSAAERQVVASCWKDIAgADXgAGVGKEXLIKFISAAPEMAAVF 45
+                          9*************995233326899************987666 PP
+
+>> sp|P02237|LGB3_SOYBN  Leghemoglobin C3 OS=Glycine max GN=LGB1 PE=2 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   17.4   0.2   0.00025      0.12      57     146 ..      54     143 ..       4     145 .] 0.77
+
+  Alignments for each domain:
+  == domain 1  score: 17.4 bits;  conditional E-value: 0.00025
+              globins4  57 kksadvkkHgkkvldAlsdalakldekleakl.kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKllalvakll 144
+                             ++++  H++k+ + + d   +l+      + ++L   Ha+k   dp+ f ++ e+l++++++  + +++ +  +a e + + +a ++
+  sp|P02237|LGB3_SOYBN  54 PTNPKLTGHAEKLFGLVRDSAGQLKASGTVVIdAALGSIHAQKAITDPQ-FVVVKEALLKTIKEAVGDKWSDELSSAWEVAYDELAAAI 141
+                           46899*******************95544444378************98.67999*******999999999888888888777777777 PP
+
+              globins4 145 as 146
+                           ++
+  sp|P02237|LGB3_SOYBN 142 KK 143
+                           65 PP
+
+>> sp|Q821U7|SYC_CHLCV  Cysteine--tRNA ligase OS=Chlamydophila caviae (strain GPIC) GN=cysS PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.6   0.0   0.00087      0.42      55     107 ..     346     398 ..     298     414 .. 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 15.6 bits;  conditional E-value: 0.00087
+             globins4  55 elkksadvkkHgkkvldAlsdalakldekleaklkdLse.lHakklkvdpkyfk 107
+                            + s+d+++Hg+  l+A+s+a+a+ d ++ a+l++L +  H ++  +d  +f 
+  sp|Q821U7|SYC_CHLCV 346 SSHISEDMQQHGEGFLQAFSEAIAN-DLNIAAALAALFDfIHQTNSTIDQANFT 398
+                          56789********************.99*********985699******99996 PP
+
+>> sp|O66586|Y211_AQUAE  Uncharacterized globin-like protein aq_211 OS=Aquifex aeolicus (strain VF5) GN=aq_211 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.7   0.1    0.0036       1.7      22     120 ..      17     106 ..       2     135 .. 0.69
+
+  Alignments for each domain:
+  == domain 1  score: 13.7 bits;  conditional E-value: 0.0036
+              globins4  22 veesGadiLvrl....fkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklkvdpkyf 106
+                            +e+G++i  r+    f  +P+t+e F             + ++ kk ++ ++ A +  + +l+ +l++++++++ +H ++ +v p+++
+  sp|O66586|Y211_AQUAE  17 LKEHGTEITARMyellFSKYPKTKELFAGA----------SEEQPKKLANAII-AYATYIDRLE-ELDNAISTIARSHVRR-NVKPEHY 92 
+                           568888888886222244566666555433..........3455566666555.5666677766.999**********976.8****** PP
+
+              globins4 107 kllsevlvdvlaar 120
+                            l+ e+l++ + + 
+  sp|O66586|Y211_AQUAE  93 PLVKECLLQAIEEV 106
+                           ********998765 PP
+
+>> sp|Q24SX0|SYGB_DESHY  Glycine--tRNA ligase beta subunit OS=Desulfitobacterium hafniense (strain Y51) GN=glyS PE=3 SV=
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   0.0    0.0037       1.8      86     134 ..      24      76 ..      13      81 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 13.6 bits;  conditional E-value: 0.0037
+              globins4  86 aklkdLselHakklkvdpkyfklls.....evlvdvlaarlpkeftadvqaale 134
+                           ++l++ +++H+++l++d + +k+ +     +vl++ la++  ++fta+v++   
+  sp|Q24SX0|SYGB_DESHY  24 NQLREQAQKHCQELRLDYQDLKVYTtprrfAVLIQGLAEK-QTDFTAEVKGPAV 76 
+                           78999******************984555569******99.99****9998655 PP
+
+>> sp|P06148|HBF1_URECA  Hemoglobin F-I OS=Urechis caupo PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   16.4   0.0   0.00051      0.25       3     126 ..       3     125 ..       1     137 [. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 16.4 bits;  conditional E-value: 0.00051
+              globins4   3 LseaektkvkavWa.kveadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkd 90 
+                           L+ a+ ++++  W  +++   +     i  + ++++P  + fF kF  +     l++++  k+ + +v++ l +++  l ++  a +k+
+  sp|P06148|HBF1_URECA   3 LTTAQIKAIQDHWFlNIKGCLQAAADSIFFKYLTAYPGDLAFFHKFSSVP-LYGLRSNPAYKAQTLTVINYLDKVVDALGGNAGALMKA 90 
+                           56666677777774267777777888899*****************8887.789*************************9999999999 PP
+
+              globins4  91 LselHakklkvdpkyfkllsevlvdvlaarlpkeft 126
+                              +H + + + pk+f  l + +  v +++++++ t
+  sp|P06148|HBF1_URECA  91 KVPSH-DAMGITPKHFGQLLKLVGGVFQEEFSADPT 125
+                           99999.678899999988877777777777766655 PP
+
+>> sp|P51535|GLB2_NIPBR  Myoglobin OS=Nippostrongylus brasiliensis GN=GLBB PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   15.6   0.0   0.00092      0.45      19     139 ..      19     137 ..       9     146 .. 0.74
+
+  Alignments for each domain:
+  == domain 1  score: 15.6 bits;  conditional E-value: 0.00092
+              globins4  19 eadveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakld.ekl.eaklkdLselHakklkvdpky 105
+                           +a+ +++G+d    +f+ +P  +++F+  ++ + +d+++ks+   k g  +l  +    + +d e++ +a  ++  ++H  +  +dp  
+  sp|P51535|GLB2_NIPBR  19 KAQQAQVGKDFYKFFFTNHPDLRKYFKGAENFT-ADDVQKSDRFEKLGSGLLLSVHILANTFDnEDVfRAFCRETIDRHVGR-GLDPAL 105
+                           578899********************9997765.9*************9999888654444453333023334444555443.578888 PP
+
+              globins4 106 fkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                           +k +  v v  l ++  +  + d +aa +Kl  +
+  sp|P51535|GLB2_NIPBR 106 WKAFWSVWVAFLESK--GGVSGDQKAAWDKLGTV 137
+                           888888888888888..66777788888887555 PP
+
+>> sp|P30627|GLBH_CAEEL  Globin-like protein OS=Caenorhabditis elegans GN=glb-1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   14.5   0.0     0.002      0.97      20      74 ..      25      78 ..      12     117 .. 0.79
+
+  Alignments for each domain:
+  == domain 1  score: 14.5 bits;  conditional E-value: 0.002
+              globins4 20 adveesGadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAls 74
+                          a+  e G+     +f+ +P  + +F+   +  t+d++kks+   k g+++l A  
+  sp|P30627|GLBH_CAEEL 25 AQNIENGNAFYRYFFTNFPDLRVYFKGA-EKYTADDVKKSERFDKQGQRILLACH 78
+                          55567788888889***********998.5567******************9853 PP
+
+>> sp|B2AND4|MTLD_PODAN  Mannitol-1-phosphate 5-dehydrogenase OS=Podospora anserina (strain S / ATCC MYA-4624 / DSM 980 
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    8.7   0.0      0.12        60      89     137 ..      84     131 ..      60     139 .. 0.81
+   2 ?    3.5   0.0       4.7   2.3e+03      68     116 ..     242     288 ..     225     309 .. 0.80
+
+  Alignments for each domain:
+  == domain 1  score: 8.7 bits;  conditional E-value: 0.12
+              globins4  89 kdLselHakklkvdpkyfkllsevlvdvlaarlpkeftadvqaaleKll 137
+                           ++++        v p+ +k+l+ v+++ laar ++++t+++  a e ++
+  sp|B2AND4|MTLD_PODAN  84 EEIATADVVTCSVGPNILKFLAPVIAKGLAAR-STDLTPAAVIACENAI 131
+                           55666666677899******************.99****9988877665 PP
+
+  == domain 2  score: 3.5 bits;  conditional E-value: 4.7
+              globins4  68 kvldAlsdalakldekleaklkdLselHakklkvdpkyfkllsevlvdv 116
+                           +v dAl+d   +  ++++++lk+ ++l ++k+ +d +  k   + +v  
+  sp|B2AND4|MTLD_PODAN 242 TVYDALQDKDIR--DEVKNALKETADLITEKHGIDEEEQKQYVDKIVRR 288
+                           677777775444..59*******************98877666666655 PP
+
+>> sp|Q68S17|RR2_PANGI  30S ribosomal protein S2, chloroplastic OS=Panax ginseng GN=rps2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.4   0.0    0.0043       2.1       7      55 ..      78     126 ..      73     149 .. 0.90
+
+  Alignments for each domain:
+  == domain 1  score: 13.4 bits;  conditional E-value: 0.0043
+             globins4   7 ektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstede 55 
+                          +k + + +Wa ++a  + + +  L  +++ + +t++   kF+dL+te++
+  sp|Q68S17|RR2_PANGI  78 NKAANLVAWAAIKARCHYVNKKWLGGMLTNWSTTETRLHKFRDLRTEQK 126
+                          56677789**************************************986 PP
+
+>> sp|B1KJ42|Y2786_SHEWM  UPF0352 protein Swoo_2786 OS=Shewanella woodyi (strain ATCC 51908 / MS32) GN=Swoo_2786 PE=3 SV
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   13.6   0.1    0.0037       1.8      96     139 ..      23      67 ..       2      70 .. 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 13.6 bits;  conditional E-value: 0.0037
+               globins4  96 akklkvdpk.yfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                             +k++ +    + +l++++ d la + p+e  a+v   + K+la 
+  sp|B1KJ42|Y2786_SHEWM  23 LDKHQAPTDlRLMVLGNCVTDLLARKVPAEARASVAEQFSKALAQ 67 
+                            35666655425789****************************985 PP
+
+>> sp|Q7S1Y0|RNA14_NEUCR  mRNA 3'-end-processing protein rna-14 OS=Neurospora crassa (strain ATCC 24698 / 74-OR23-1A / C
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   0.1    0.0075       3.7      10      96 ..     552     647 ..     546     652 .. 0.83
+
+  Alignments for each domain:
+  == domain 1  score: 12.6 bits;  conditional E-value: 0.0075
+               globins4  10 kvkavWakveadveesGadiLvrlfkstPat.qefFekFkdLst........edelkksadvkkHgkkvldAlsdalakldekleakl 88 
+                            ++++v  kv  d +  G++ L+r + + P++ +  F++  +++         e++++  + vk+  +kvld l +++++l+ek  a++
+  sp|Q7S1Y0|RNA14_NEUCR 552 NITTVENKVTKDGNANGVEFLIRGIEANPESvLLAFKHADHIEStypieendEAKIQRGEAVKAPYNKVLDTLYAMIKSLKEKEAAQI 639
+                            78889999*9*******************97356799998886423333333567888999*************************** PP
+
+               globins4  89 kdLselHa 96 
+                            ++L e  a
+  sp|Q7S1Y0|RNA14_NEUCR 640 AKLQEMTA 647
+                            **998776 PP
+
+>> sp|A8FU97|Y1809_SHESH  UPF0352 protein Ssed_1809 OS=Shewanella sediminis (strain HAW-EB3) GN=Ssed_1809 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.8   0.1    0.0067       3.3      98     139 ..      25      67 ..       8      70 .. 0.82
+
+  Alignments for each domain:
+  == domain 1  score: 12.8 bits;  conditional E-value: 0.0067
+               globins4  98 klkvdpk.yfkllsevlvdvlaarlpkeftadvqaaleKllal 139
+                            k++ +    + +l++++ d la + p+e  a+v   + K+la 
+  sp|A8FU97|Y1809_SHESH  25 KHQAPTDlRLMVLGNCVTDLLARKVPQEARAAVAEQFSKALAQ 67 
+                            555554325789****************************985 PP
+
+>> sp|Q14185|DOCK1_HUMAN  Dedicator of cytokinesis protein 1 OS=Homo sapiens GN=DOCK1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.3   0.0      0.02       9.5      32      98 ..    1549    1611 ..    1543    1618 .. 0.81
+
+  Alignments for each domain:
+  == domain 1  score: 11.3 bits;  conditional E-value: 0.02
+               globins4   32 rlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakk 98  
+                             r ++ +P+++e+ ek kdL + +    ++ ++ Hg kv +Al        e++ea +k+L e+  k+
+  sp|Q14185|DOCK1_HUMAN 1549 RYLQEHPEAHEKIEKLKDLIAWQIPFLAEGIRIHGDKVTEALRPFH----ERMEACFKQLKEKVEKE 1611
+                             78899***************8877789999********99987653....56777788777766555 PP
+
+>> sp|B2LMI3|RR2_GUIAB  30S ribosomal protein S2, chloroplastic OS=Guizotia abyssinica GN=rps2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.0     0.007       3.4       8      56 ..      79     127 ..      73     149 .. 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 12.7 bits;  conditional E-value: 0.007
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel 56 
+                          k++   +Wa + a  + + +  L  +++ + +t++   kF+dL+te++ 
+  sp|B2LMI3|RR2_GUIAB  79 KEADSVAWAAIRARCHYVNKKWLGGMLTNWSTTETRLHKFRDLRTEQKT 127
+                          5556679**************************************9876 PP
+
+>> sp|Q56P10|RR2_LACSA  30S ribosomal protein S2, chloroplastic OS=Lactuca sativa GN=rps2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.0    0.0072       3.5       8      56 ..      79     127 ..      73     149 .. 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 12.7 bits;  conditional E-value: 0.0072
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel 56 
+                          k++   +Wa + a  + + +  L  +++ + +t++   kF+dL+te++ 
+  sp|Q56P10|RR2_LACSA  79 KEADSVAWAAIRARCHYVNKKWLGGMLTNWSTTETRLHKFRDLRTEQKT 127
+                          5556679**************************************9875 PP
+
+>> sp|Q1KXW9|RR2_HELAN  30S ribosomal protein S2, chloroplastic OS=Helianthus annuus GN=rps2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   0.0    0.0074       3.6       8      56 ..      79     127 ..      73     149 .. 0.88
+
+  Alignments for each domain:
+  == domain 1  score: 12.6 bits;  conditional E-value: 0.0074
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel 56 
+                          k++   +Wa + a  + + +  L  +++ + +t++   kF+dL+te++ 
+  sp|Q1KXW9|RR2_HELAN  79 KEADSVAWAAIRARCHYVNKKWLGGMLTNWSTTETRLHKFRDLRTEQKT 127
+                          5556679**************************************9875 PP
+
+>> sp|Q0G9X3|RR2_DAUCA  30S ribosomal protein S2, chloroplastic OS=Daucus carota GN=rps2 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.6   0.0    0.0074       3.6       8      56 ..      79     127 ..      73     151 .. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 12.6 bits;  conditional E-value: 0.0074
+             globins4   8 ktkvkavWakveadveesGadiLvrlfkstPatqefFekFkdLstedel 56 
+                          k + + +Wa + a  + + +  L  +++ + +t++   kF+dL+te++ 
+  sp|Q0G9X3|RR2_DAUCA  79 KAADLVAWAAIRARCHYVNKKWLGGMLTNWSTTETRLHKFRDLRTEQKT 127
+                          5556789**************************************9865 PP
+
+>> sp|O76242|GLBN_CERLA  Neural hemoglobin OS=Cerebratulus lacteus PE=1 SV=3
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.7   0.0    0.0068       3.3      27     121 ..       9      95 ..       2     110 .] 0.74
+
+  Alignments for each domain:
+  == domain 1  score: 12.7 bits;  conditional E-value: 0.0068
+              globins4  27 adiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklkvdpkyfkllsevlvd 115
+                            d  + lfk++P+ q++F  Fk++     lk++a  k+ + k +d +++a+       +a+ + L+ +H    +v    f+   ++l++
+  sp|O76242|GLBN_CERLA   9 DDFYQELFKAHPEYQNKFG-FKGVA-LGSLKGNAAYKTQAGKTVDYINAAIGG-----SADAAGLASRHK-GRNVGSAEFHNAKACLAK 89 
+                           567789************6.99998.889*******************99976.....445566666663.345666666666666666 PP
+
+              globins4 116 vlaarl 121
+                              a+ 
+  sp|O76242|GLBN_CERLA  90 ACSAHG 95 
+                           666664 PP
+
+>> sp|Q27302|GLBH_CAEBR  Globin-like protein OS=Caenorhabditis briggsae GN=glb-1 PE=2 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.9   0.0     0.012         6      26      77 ..      31      81 ..      19     111 .. 0.76
+
+  Alignments for each domain:
+  == domain 1  score: 11.9 bits;  conditional E-value: 0.012
+              globins4 26 GadiLvrlfkstPatqefFekFkdLstedelkksadvkkHgkkvldAlsdal 77
+                          G+   + +f+ +P  + +F+  ++  t++++kks+   k g+++l A   + 
+  sp|Q27302|GLBH_CAEBR 31 GNGFYQYFFTNFPDLRVYFKGAEKF-TAEDVKKSERFDKQGQRILLACHLIA 81
+                          55566779***********988665.5999***************9975443 PP
+
+>> sp|Q01333|YCR4_ESCVU  Uncharacterized 11.2 kDa protein in crtE 3'region OS=Escherichia vulneris PE=4 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   12.4   0.0     0.009       4.4       4      50 ..      45      89 ..      43      99 .. 0.84
+
+  Alignments for each domain:
+  == domain 1  score: 12.4 bits;  conditional E-value: 0.009
+              globins4  4 seaektkvkavWakveadveesGadiLvrlfkstPatqefFekFkdL 50
+                           + +   v ++Wa+   + ++  + iL + f ++P ++e+   F ++
+  sp|Q01333|YCR4_ESCVU 45 NAIDTADVYSAWAPG--NKGGESETILGKWFAAHPGAREKITLFTKV 89
+                          56678899******9..8999999***************99998654 PP
+
+>> sp|Q0AGZ8|UBIC_NITEC  Probable chorismate--pyruvate lyase OS=Nitrosomonas eutropha (strain C91) GN=ubiC PE=3 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.5   0.0     0.034        17      58     113 ..       3      55 ..       1      66 [. 0.69
+
+  Alignments for each domain:
+  == domain 1  score: 10.5 bits;  conditional E-value: 0.034
+              globins4  58 ksadvkkHgkkvldAlsdalakldekleaklkdLselHakklkvdpkyfkllsevl 113
+                           +++ + +H + v   ++         ++ +l  L + H+++++v+p +  l ++++
+  sp|Q0AGZ8|UBIC_NITEC   3 ANPPLAWHPVPVSAPVNLRWWL---MHQESLTRLLQAHCEHFRVEPVFQTLATACI 55 
+                           5555666666665555544444...35889****************8666555554 PP
+
+>> sp|B0FZN9|SCML1_PONPY  Sex comb on midleg-like protein 1 OS=Pongo pygmaeus GN=SCML1 PE=3 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.2   0.0     0.021        10      51     100 ..      50      98 ..      43     106 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 11.2 bits;  conditional E-value: 0.021
+               globins4  51 stedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklk 100
+                            +te++lk  +dv  H + + dA+++  +k+d  ++ k++++   Ha++l 
+  sp|B0FZN9|SCML1_PONPY  50 NTEEQLKTVNDVLIHCQVIYDAMQNLDKKID-VIRRKVSKIQRFHARSLW 98 
+                            79****************************9.99************9875 PP
+
+>> sp|Q9UN30|SCML1_HUMAN  Sex comb on midleg-like protein 1 OS=Homo sapiens GN=SCML1 PE=1 SV=2
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   11.8   0.1     0.013       6.3      51     100 ..      50      98 ..      44     117 .. 0.92
+
+  Alignments for each domain:
+  == domain 1  score: 11.8 bits;  conditional E-value: 0.013
+               globins4  51 stedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklk 100
+                            +te++lk  +dv  H + + dAl++  +k+d  ++ k++++   Ha++l 
+  sp|Q9UN30|SCML1_HUMAN  50 NTEEQLKTVDDVLIHCQVIYDALQNLDKKID-VIRRKVSKIQRFHARSLW 98 
+                            79****************************9.99************9985 PP
+
+>> sp|B8FUJ0|SYGB_DESHD  Glycine--tRNA ligase beta subunit OS=Desulfitobacterium hafniense (strain DCB-2 / DSM 10664) GN
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?    9.1   0.0     0.091        44      86     134 ..      24      76 ..      13      81 .. 0.85
+
+  Alignments for each domain:
+  == domain 1  score: 9.1 bits;  conditional E-value: 0.091
+              globins4  86 aklkdLselHakklkvdpkyfklls.....evlvdvlaarlpkeftadvqaale 134
+                           ++l++ +++++++l++d + +k+ +     +vl++ la++  ++fta+v++   
+  sp|B8FUJ0|SYGB_DESHD  24 NQLREQAQKYCQELRLDYQDLKVYTtprrfAVLIQGLAEK-QTDFTAEVKGPAV 76 
+                           789999*****************984555569******99.99****9998655 PP
+
+>> sp|Q498L9|KI15B_XENLA  Kinesin-like protein KIF15-B OS=Xenopus laevis GN=kif15-b PE=1 SV=1
+   #    score  bias  c-Evalue  i-Evalue hmmfrom  hmm to    alifrom  ali to    envfrom  env to     acc
+ ---   ------ ----- --------- --------- ------- -------    ------- -------    ------- -------    ----
+   1 ?   10.1   0.8     0.044        22      38     100 ..     600     661 ..     587     674 .. 0.86
+
+  Alignments for each domain:
+  == domain 1  score: 10.1 bits;  conditional E-value: 0.044
+               globins4  38 PatqefFekFkdLstedelkksadvkkHgkkvldAlsdalakldekleaklkdLselHakklk 100
+                             ++++ +e+Fk+L+ + ++++  +++   k   + l+++l  ++e+ + ++++L   Ha+  k
+  sp|Q498L9|KI15B_XENLA 600 ATSKQEYEEFKELTKKKQVEQESELQSLMK-SNQHLENILDAIKENKRHEVSQLNRMHAETIK 661
+                            467889*******************98765.57889999999999**************9765 PP
+
+
+
+Internal pipeline statistics summary:
+-------------------------------------
+Query model(s):                              1  (149 nodes)
+Target sequences:                       539165  (191456931 residues searched)
+Passed MSV filter:                     20801  (0.03858); expected 10783.3 (0.02)
+Passed bias filter:                    17061  (0.0316434); expected 10783.3 (0.02)
+Passed Vit filter:                      2321  (0.0043048); expected 539.2 (0.001)
+Passed Fwd filter:                      1109  (0.00205688); expected 5.4 (1e-05)
+Initial search space (Z):             539165  [actual number of targets]
+Domain search space  (domZ):            1108  [number of targets reported over threshold]
+# CPU time: 6.50u 0.11s 00:00:06.61 Elapsed: 00:00:02.59
+# Mc/sec: 11014.32
+//
+[ok]
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.sto b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.sto
new file mode 100755
index 0000000..aa488d8
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins4.sto
@@ -0,0 +1,18 @@
+# STOCKHOLM 1.0
+
+HBB_HUMAN   ........VHLTPEEKSAVTALWGKV....NVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVL
+HBA_HUMAN   .........VLSPADKTNVKAAWGKVGA..HAGEYGAEALERMFLSFPTTKTYFPHF.DLS.....HGSAQVKGHGKKVA
+MYG_PHYCA   .........VLSEGEWQLVLHVWAKVEA..DVAGHGQDILIRLFKSHPETLEKFDRFKHLKTEAEMKASEDLKKHGVTVL
+GLB5_PETMA  PIVDTGSVAPLSAAEKTKIRSAWAPVYS..TYETSGVDILVKFFTSTPAAQEFFPKFKGLTTADQLKKSADVRWHAERII
+
+HBB_HUMAN   GAFSDGLAHL...D..NLKGTFATLSELHCDKL..HVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANAL
+HBA_HUMAN   DALTNAVAHV...D..DMPNALSALSDLHAHKL..RVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVL
+MYG_PHYCA   TALGAILKK....K.GHHEAELKPLAQSHATKH..KIPIKYLEFISEAIIHVLHSRHPGDFGADAQGAMNKALELFRKDI
+GLB5_PETMA  NAVNDAVASM..DDTEKMSMKLRDLSGKHAKSF..QVDPQYFKVLAAVIADTVAAG.........DAGFEKLMSMICILL
+
+HBB_HUMAN   AHKYH......
+HBA_HUMAN   TSKYR......
+MYG_PHYCA   AAKYKELGYQG
+GLB5_PETMA  RSAY.......
+//
+
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins45.fa b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins45.fa
new file mode 100755
index 0000000..4d745e1
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/globins45.fa
@@ -0,0 +1,186 @@
+>MYG_ESCGI 
+VLSDAEWQLVLNIWAKVEADVAGHGQDILIRLFKGHPETLEKFDKFKHLK
+TEAEMKASEDLKKHGNTVLTALGGILKKKGHHEAELKPLAQSHATKHKIP
+IKYLEFISDAIIHVLHSRHPGDFGADAQAAMNKALELFRKDIAAKYKELG
+FQG
+>MYG_HORSE 
+GLSDGEWQQVLNVWGKVEADIAGHGQEVLIRLFTGHPETLEKFDKFKHLK
+TEAEMKASEDLKKHGTVVLTALGGILKKKGHHEAELKPLAQSHATKHKIP
+IKYLEFISDAIIHVLHSKHPGNFGADAQGAMTKALELFRNDIAAKYKELG
+FQG
+>MYG_PROGU 
+GLSDGEWQLVLNVWGKVEGDLSGHGQEVLIRLFKGHPETLEKFDKFKHLK
+AEDEMRASEELKKHGTTVLTALGGILKKKGQHAAELAPLAQSHATKHKIP
+VKYLEFISEAIIQVLQSKHPGDFGADAQGAMSKALELFRNDIAAKYKELG
+FQG
+>MYG_SAISC 
+GLSDGEWQLVLNIWGKVEADIPSHGQEVLISLFKGHPETLEKFDKFKHLK
+SEDEMKASEELKKHGTTVLTALGGILKKKGQHEAELKPLAQSHATKHKIP
+VKYLELISDAIVHVLQKKHPGDFGADAQGAMKKALELFRNDMAAKYKELG
+FQG
+>MYG_LYCPI 
+GLSDGEWQIVLNIWGKVETDLAGHGQEVLIRLFKNHPETLDKFDKFKHLK
+TEDEMKGSEDLKKHGNTVLTALGGILKKKGHHEAELKPLAQSHATKHKIP
+VKYLEFISDAIIQVLQNKHSGDFHADTEAAMKKALELFRNDIAAKYKELG
+FQG
+>MYG_MOUSE 
+GLSDGEWQLVLNVWGKVEADLAGHGQEVLIGLFKTHPETLDKFDKFKNLK
+SEEDMKGSEDLKKHGCTVLTALGTILKKKGQHAAEIQPLAQSHATKHKIP
+VKYLEFISEIIIEVLKKRHSGDFGADAQGAMSKALELFRNDIAAKYKELG
+FQG
+>MYG_MUSAN 
+VDWEKVNSVWSAVESDLTAIGQNILLRLFEQYPESQNHFPKFKNKSLGEL
+KDTADIKAQADTVLSALGNIVKKKGSHSQPVKALAATHITTHKIPPHYFT
+KITTIAVDVLSEMYPSEMNAQVQAAFSGAFKIICSDIEKEYKAANFQG
+>HBA_AILME 
+VLSPADKTNVKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHFDLSP
+GSAQVKAHGKKVADALTTAVGHLDDLPGALSALSDLHAHKLRVDPVNFKL
+LSHCLLVTLASHHPAEFTPAVHASLDKFFSAVSTVLTSKYR
+>HBA_PROLO 
+VLSPADKANIKATWDKIGGHAGEYGGEALERTFASFPTTKTYFPHFDLSP
+GSAQVKAHGKKVADALTLAVGHLDDLPGALSALSDLHAYKLRVDPVNFKL
+LSHCLLVTLACHHPAEFTPAVHASLDKFFTSVSTVLTSKYR
+>HBA_PAGLA 
+VLSSADKNNIKATWDKIGSHAGEYGAEALERTFISFPTTKTYFPHFDLSH
+GSAQVKAHGKKVADALTLAVGHLEDLPNALSALSDLHAYKLRVDPVNFKL
+LSHCLLVTLACHHPAEFTPAVHSALDKFFSAVSTVLTSKYR
+>HBA_MACFA 
+VLSPADKTNVKAAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHFDLSH
+GSAQVKGHGKKVADALTLAVGHVDDMPQALSALSDLHAHKLRVDPVNFKL
+LSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR
+>HBA_MACSI 
+VLSPADKTNVKDAWGKVGGHAGEYGAEALERMFLSFPTTKTYFPHFDLSH
+GSAQVKGHGKKVADALTLAVGHVDDMPQALSALSDLHAHKLRVDPVNFKL
+LSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR
+>HBA_PONPY 
+VLSPADKTNVKTAWGKVGAHAGDYGAEALERMFLSFPTTKTYFPHFDLSH
+GSAQVKDHGKKVADALTNAVAHVDDMPNALSALSDLHAHKLRVDPVNFKL
+LSHCLLVTLAAHLPAEFTPAVHASLDKFLASVSTVLTSKYR
+>HBA2_GALCR 
+VLSPTDKSNVKAAWEKVGAHAGDYGAEALERMFLSFPTTKTYFPHFDLSH
+GSTQVKGHGKKVADALTNAVLHVDDMPSALSALSDLHAHKLRVDPVNFKL
+LRHCLLVTLACHHPAEFTPAVHASLDKFMASVSTVLTSKYR
+>HBA_MESAU 
+VLSAKDKTNISEAWGKIGGHAGEYGAEALERMFFVYPTTKTYFPHFDVSH
+GSAQVKGHGKKVADALTNAVGHLDDLPGALSALSDLHAHKLRVDPVNFKL
+LSHCLLVTLANHHPADFTPAVHASLDKFFASVSTVLTSKYR
+>HBA2_BOSMU 
+VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHFDLSH
+GSAQVKGHGAKVAAALTKAVGHLDDLPGALSELSDLHAHKLRVDPVNFKL
+LSHSLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR
+>HBA_ERIEU 
+VLSATDKANVKTFWGKLGGHGGEYGGEALDRMFQAHPTTKTYFPHFDLNP
+GSAQVKGHGKKVADALTTAVNNLDDVPGALSALSDLHAHKLRVDPVNFKL
+LSHCLLVTLALHHPADFTPAVHASLDKFLATVATVLTSKYR
+>HBA_FRAPO 
+VLSAADKNNVKGIFGKISSHAEDYGAEALERMFITYPSTKTYFPHFDLSH
+GSAQVKGHGKKVVAALIEAANHIDDIAGTLSKLSDLHAHKLRVDPVNFKL
+LGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGNVLTAKYR
+>HBA_PHACO 
+VLSAADKNNVKGIFTKIAGHAEEYGAEALERMFITYPSTKTYFPHFDLSH
+GSAQIKGHGKKVVAALIEAVNHIDDITGTLSKLSDLHAHKLRVDPVNFKL
+LGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGTVLTAKYR
+>HBA_TRIOC 
+VLSANDKTNVKTVFTKITGHAEDYGAETLERMFITYPPTKTYFPHFDLHH
+GSAQIKAHGKKVVGALIEAVNHIDDIAGALSKLSDLHAQKLRVDPVNFKL
+LGQCFLVVVAIHHPSVLTPEVHASLDKFLCAVGNVLSAKYR
+>HBA_ANSSE 
+VLSAADKGNVKTVFGKIGGHAEEYGAETLQRMFQTFPQTKTYFPHFDLQP
+GSAQIKAHGKKVAAALVEAANHIDDIAGALSKLSDLHAQKLRVDPVNFKF
+LGHCFLVVLAIHHPSLLTPEVHASMDKFLCAVATVLTAKYR
+>HBA_COLLI 
+VLSANDKSNVKAVFAKIGGQAGDLGGEALERLFITYPQTKTYFPHFDLSH
+GSAQIKGHGKKVAEALVEAANHIDDIAGALSKLSDLHAQKLRVDPVNFKL
+LGHCFLVVVAVHFPSLLTPEVHASLDKFVLAVGTVLTAKYR
+>HBAD_CHLME 
+MLTADDKKLLTQLWEKVAGHQEEFGSEALQRMFLTYPQTKTYFPHFDLHP
+GSEQVRGHGKKVAAALGNAVKSLDNLSQALSELSNLHAYNLRVDPANFKL
+LAQCFQVVLATHLGKDYSPEMHAAFDKFLSAVAAVLAEKYR
+>HBAD_PASMO 
+MLTAEDKKLIQQIWGKLGGAEEEIGADALWRMFHSYPSTKTYFPHFDLSQ
+GSDQIRGHGKKVVAALSNAIKNLDNLSQALSELSNLHAYNLRVDPVNFKF
+LSQCLQVSLATRLGKEYSPEVHSAVDKFMSAVASVLAEKYR
+>HBAZ_HORSE 
+SLTKAERTMVVSIWGKISMQADAVGTEALQRLFSSYPQTKTYFPHFDLHE
+GSPQLRAHGSKVAAAVGDAVKSIDNVAGALAKLSELHAYILRVDPVNFKF
+LSHCLLVTLASRLPADFTADAHAAWDKFLSIVSSVLTEKYR
+>HBA4_SALIR 
+SLSAKDKANVKAIWGKILPKSDEIGEQALSRMLVVYPQTKAYFSHWASVA
+PGSAPVKKHGITIMNQIDDCVGHMDDLFGFLTKLSELHATKLRVDPTNFK
+ILAHNLIVVIAAYFPAEFTPEIHLSVDKFLQQLALALAEKYR
+>HBB_ORNAN 
+VHLSGGEKSAVTNLWGKVNINELGGEALGRLLVVYPWTQRFFEAFGDLSS
+AGAVMGNPKVKAHGAKVLTSFGDALKNLDDLKGTFAKLSELHCDKLHVDP
+ENFNRLGNVLIVVLARHFSKDFSPEVQAAWQKLVSGVAHALGHKYH
+>HBB_TACAC 
+VHLSGSEKTAVTNLWGHVNVNELGGEALGRLLVVYPWTQRFFESFGDLSS
+ADAVMGNAKVKAHGAKVLTSFGDALKNLDNLKGTFAKLSELHCDKLHVDP
+ENFNRLGNVLVVVLARHFSKEFTPEAQAAWQKLVSGVSHALAHKYH
+>HBE_PONPY 
+VHFTAEEKAAVTSLWSKMNVEEAGGEALGRLLVVYPWTQRFFDSFGNLSS
+PSAILGNPKVKAHGKKVLTSFGDAIKNMDNLKTTFAKLSELHCDKLHVDP
+ENFKLLGNVMVIILATHFGKEFTPEVQAAWQKLVSAVAIALAHKYH
+>HBB_SPECI 
+VHLSDGEKNAISTAWGKVHAAEVGAEALGRLLVVYPWTQRFFDSFGDLSS
+ASAVMGNAKVKAHGKKVIDSFSNGLKHLDNLKGTFASLSELHCDKLHVDP
+ENFKLLGNMIVIVMAHHLGKDFTPEAQAAFQKVVAGVANALAHKYH
+>HBB_SPETO 
+VHLTDGEKNAISTAWGKVNAAEIGAEALGRLLVVYPWTQRFFDSFGDLSS
+ASAVMGNAKVKAHGKKVIDSFSNGLKHLDNLKGTFASLSELHCDKLHVDP
+ENFKLLGNMIVIVMAHHLGKDFTPEAQAAFQKVVAGVANALSHKYH
+>HBB_EQUHE 
+VQLSGEEKAAVLALWDKVNEEEVGGEALGRLLVVYPWTQRFFDSFGDLSN
+PAAVMGNPKVKAHGKKVLHSFGEGVHHLDNLKGTFAQLSELHCDKLHVDP
+ENFRLLGNVLVVVLARHFGKDFTPELQASYQKVVAGVANALAHKYH
+>HBB_SUNMU 
+VHLSGEEKACVTGLWGKVNEDEVGAEALGRLLVVYPWTQRFFDSFGDLSS
+ASAVMGNPKVKAHGKKVLHSLGEGVANLDNLKGTFAKLSELHCDKLHVDP
+ENFRLLGNVLVVVLASKFGKEFTPPVQAAFQKVVAGVANALAHKYH
+>HBB_CALAR 
+VHLTGEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLST
+PDAVMNNPKVKAHGKKVLGAFSDGLTHLDNLKGTFAHLSELHCDKLHVDP
+ENFRLLGNVLVCVLAHHFGKEFTPVVQAAYQKVVAGVANALAHKYH
+>HBB_MANSP 
+VHLTPEEKTAVTTLWGKVNVDEVGGEALGRLLVVYPWTQRFFDSFGDLSS
+PDAVMGNPKVKAHGKKVLGAFSDGLNHLDNLKGTFAQLSELHCDKLHVDP
+ENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH
+>HBB_URSMA 
+VHLTGEEKSLVTGLWGKVNVDEVGGEALGRLLVVYPWTQRFFDSFGDLSS
+ADAIMNNPKVKAHGKKVLNSFSDGLKNLDNLKGTFAKLSELHCDKLHVDP
+ENFKLLGNVLVCVLAHHFGKEFTPQVQAAYQKVVAGVANALAHKYH
+>HBB_RABIT 
+VHLSSEEKSAVTALWGKVNVEEVGGEALGRLLVVYPWTQRFFESFGDLSS
+ANAVMNNPKVKAHGKKVLAAFSEGLSHLDNLKGTFAKLSELHCDKLHVDP
+ENFRLLGNVLVIVLSHHFGKEFTPQVQAAYQKVVAGVANALAHKYH
+>HBB_TUPGL 
+VHLSGEEKAAVTGLWGKVDLEKVGGQSLGSLLIVYPWTQRFFDSFGDLSS
+PSAVMSNPKVKAHGKKVLTSFSDGLNHLDNLKGTFAKLSELHCDKLHVDP
+ENFRLLGNVLVRVLACNFGPEFTPQVQAAFQKVVAGVANALAHKYH
+>HBB_TRIIN 
+VHLTPEEKALVIGLWAKVNVKEYGGEALGRLLVVYPWTQRFFEHFGDLSS
+ASAIMNNPKVKAHGEKVFTSFGDGLKHLEDLKGAFAELSELHCDKLHVDP
+ENFRLLGNVLVCVLARHFGKEFSPEAQAAYQKVVAGVANALAHKYH
+>HBB_COLLI 
+VHWSAEEKQLITSIWGKVNVADCGAEALARLLIVYPWTQRFFSSFGNLSS
+ATAISGNPNVKAHGKKVLTSFGDAVKNLDNIKGTFAQLSELHCDKLHVDP
+ENFRLLGDILVIILAAHFGKDFTPECQAAWQKLVRVVAHALARKYH
+>HBB_LARRI 
+VHWSAEEKQLITGLWGKVNVADCGAEALARLLIVYPWTQRFFASFGNLSS
+PTAINGNPMVRAHGKKVLTSFGEAVKNLDNIKNTFAQLSELHCDKLHVDP
+ENFRLLGDILIIVLAAHFAKDFTPDSQAAWQKLVRVVAHALARKYH
+>HBB1_VAREX 
+VHWTAEEKQLICSLWGKIDVGLIGGETLAGLLVIYPWTQRQFSHFGNLSS
+PTAIAGNPRVKAHGKKVLTSFGDAIKNLDNIKDTFAKLSELHCDKLHVDP
+TNFKLLGNVLVIVLADHHGKEFTPAHHAAYQKLVNVVSHSLARRYH
+>HBB2_XENTR 
+VHWTAEEKATIASVWGKVDIEQDGHDALSRLLVVYPWTQRYFSSFGNLSN
+VSAVSGNVKVKAHGNKVLSAVGSAIQHLDDVKSHLKGLSKSHAEDLHVDP
+ENFKRLADVLVIVLAAKLGSAFTPQVQAVWEKLNATLVAALSHGYF
+>HBBL_RANCA 
+VHWTAEEKAVINSVWQKVDVEQDGHEALTRLFIVYPWTQRYFSTFGDLSS
+PAAIAGNPKVHAHGKKILGAIDNAIHNLDDVKGTLHDLSEEHANELHVDP
+ENFRRLGEVLIVVLGAKLGKAFSPQVQHVWEKFIAVLVDALSHSYH
+>HBB2_TRICR 
+VHLTAEDRKEIAAILGKVNVDSLGGQCLARLIVVNPWSRRYFHDFGDLSS
+CDAICRNPKVLAHGAKVMRSIVEATKHLDNLREYYADLSVTHSLKFYVDP
+ENFKLFSGIVIVCLALTLQTDFSCHKQLAFEKLMKGVSHALGHGY
diff --git a/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/minifam b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/minifam
new file mode 100755
index 0000000..6324d4a
--- /dev/null
+++ b/Exercise11_files/hmmer-3.1b2-cygwin64/tutorial/minifam
@@ -0,0 +1,1558 @@
+HMMER3/e [3.0 | March 2010]
+NAME  globins4
+LENG  149
+ALPH  amino
+RF    no
+CONS  yes
+CS    no
+MAP   yes
+DATE  Thu Jun 16 11:45:13 2011
+NSEQ  4
+EFFN  0.964844
+CKSUM 2027839109
+STATS LOCAL MSV       -9.9014  0.70957
+STATS LOCAL VITERBI  -10.7224  0.70957
+STATS LOCAL FORWARD   -4.1637  0.70957
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.36553  4.52577  2.96709  2.70473  3.20818  3.02239  3.41069  2.90041  2.55332  2.35210  3.67329  3.19812  3.45595  3.16091  3.07934  2.66722  2.85475  2.56965  4.55393  3.62921
+          2.68640  4.42247  2.77497  2.73145  3.46376  2.40504  3.72516  3.29302  2.67763  2.69377  4.24712  2.90369  2.73719  3.18168  2.89823  2.37879  2.77497  2.98431  4.58499  3.61525
+          0.57544  1.78073  1.31293  1.75577  0.18968  0.00000        *
+      1   1.70038  4.17733  3.76164  3.36686  3.72281  3.29583  4.27570  2.40482  3.29230  2.54324  3.63799  3.55099  3.93183  3.61602  3.56580  2.71897  2.84104  1.67328  5.32720  4.10031      9 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03156  3.86736  4.58970  0.61958  0.77255  0.34406  1.23405
+      2   2.62748  4.47174  3.31917  2.82619  3.63815  3.49607  2.75382  3.03401  2.75280  2.74783  3.65114  3.24714  2.62341  3.12082  3.11124  2.79244  2.89355  1.88003  5.06315  3.77128     10 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      3   3.50771  4.88753  4.66754  4.31907  3.27776  4.35743  4.88268  2.50779  4.08449  0.57907  3.22569  4.56607  4.74802  4.37991  4.20749  3.97946  3.79191  2.62059  5.25407  4.04279     11 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      4   2.34080  4.28719  3.51550  3.22063  4.37406  3.06195  4.29366  3.74891  3.24370  3.47337  4.31943  3.39310  3.80273  3.56072  3.55390  1.08280  2.00280  3.23325  5.72380  4.49519     12 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      5   2.04218  4.87966  2.77126  1.92448  4.32563  3.33660  3.78415  3.73388  2.61886  3.34029  4.16568  2.96714  2.18012  2.94561  3.07633  2.70238  2.96803  3.36068  5.56791  4.21854     13 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      6   1.67844  4.79514  2.78469  2.00544  4.34945  2.26719  3.85010  3.76260  2.72087  3.37961  4.20641  2.99947  3.85561  3.02442  3.17766  2.68798  2.96575  3.36703  5.60901  4.27005     14 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      7   3.05756  5.63998  1.78612  1.06702  4.93093  3.31407  3.86695  4.45859  2.89031  3.95237  4.80915  2.77798  3.94091  3.03432  3.48933  2.93505  3.34810  4.02575  6.09427  4.58708     15 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      8   2.98085  4.92154  3.50401  2.91209  3.76425  3.70161  3.75301  3.57060  1.24921  3.12012  4.04714  3.32210  4.09411  3.00014  2.54951  3.05147  3.18982  3.31354  2.52964  3.70813     16 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+      9   2.59353  4.69451  3.03503  2.60972  4.18917  3.33498  3.80536  3.60013  2.58953  3.21847  4.04944  3.07115  3.85428  2.20828  2.99231  2.14672  1.84753  3.23346  5.45458  4.14691     17 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+     10   2.23880  4.76665  3.06952  2.55248  4.02235  3.47005  3.69787  3.40277  2.01551  2.36330  3.87991  2.51243  3.88223  2.86967  2.84293  2.72413  2.90300  3.10205  5.29826  3.99496     18 k - -
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.15590  4.17053  2.04864  0.61958  0.77255  0.48576  0.95510
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+          0.02646  4.04109  4.76344  0.61958  0.77255  0.62497  0.76632
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+          0.02646  4.04109  4.76344  0.61958  0.77255  0.40762  1.09431
+     21   2.72255  5.13686  2.10819  2.30370  4.43753  3.36911  2.77903  3.91156  2.48945  3.43909  4.22575  2.32339  3.83724  2.80393  2.98938  2.68803  2.27927  3.51682  5.60972  4.20361     31 d - -
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
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+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    136   2.13728  4.25596  4.26822  3.70038  2.51560  3.93283  4.27242  2.28282  3.58922  1.68324  3.19522  3.92448  4.28790  3.80594  3.78003  3.23864  3.04401  1.82614  4.90639  3.70545    152 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    137   3.25266  4.59255  4.86528  4.29758  3.18898  4.50160  4.83534  2.17302  4.15958  1.11276  2.09173  4.53148  4.72252  4.28685  4.28308  3.84128  3.47963  1.79006  5.20435  4.12672    153 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    138   1.79466  4.79782  2.82404  1.94090  4.31166  3.30608  3.81075  3.72422  2.65702  3.33717  4.15830  2.99339  3.84716  2.97720  3.11199  2.03142  2.93949  3.33667  5.56525  4.22435    154 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    139   2.58506  4.29342  3.55405  3.00981  3.47023  2.68992  3.90060  2.80129  2.93915  2.04902  2.51305  3.37662  3.96778  3.25166  3.26632  2.35763  2.84501  2.57968  4.93542  3.70537    155 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    140   3.08583  4.40689  4.84510  4.29544  2.25790  4.37874  4.73777  1.57472  4.17210  1.94826  3.22641  4.44953  4.66205  4.33233  4.29141  3.72292  3.32617  1.35939  5.16135  3.94030    156 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    141   2.02979  2.61338  3.45168  2.91840  3.84883  3.32836  3.92100  3.21873  2.81248  2.91084  3.77423  3.27409  3.86642  3.17756  2.28029  2.17107  2.82032  2.90332  5.22633  3.98297    157 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    142   2.65037  4.69800  3.11777  2.58559  3.93396  3.48363  3.71066  2.49275  2.05906  2.95516  3.80693  2.50024  3.88815  2.89605  2.88872  2.72907  2.42763  2.99850  5.24239  3.94877    158 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    143   2.21701  4.52657  2.45380  2.75014  3.73535  3.53805  3.84294  2.86807  2.75770  2.17002  3.64455  3.21159  3.95457  3.08148  3.16791  2.80094  2.89608  2.24528  5.16549  3.89225    159 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    144   3.41438  4.70993  5.04893  4.51836  3.21871  4.71073  5.05993  1.60681  4.34794  0.90468  3.01922  4.76098  4.89446  4.48359  4.45935  4.09339  3.64659  2.14279  5.32906  4.22624    160 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    145   1.66341  4.55765  3.29747  2.78822  4.09563  3.34088  3.86205  3.44543  2.60980  3.11452  3.96692  3.19039  3.87148  3.05878  2.16675  2.67137  2.29043  3.09965  5.38848  4.12438    161 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    146   1.96741  4.60402  3.09101  2.67267  4.09875  3.30287  2.64764  3.55483  2.68845  3.18630  4.02165  3.11035  3.84730  3.04694  3.09548  1.72418  2.88008  3.18467  5.41006  4.09565    162 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    147   2.02427  4.88556  3.14956  2.70898  4.40362  3.45865  3.80224  3.73109  1.30907  3.34916  4.21424  3.15279  3.95761  2.96243  2.65527  2.83485  3.06573  3.38348  5.54009  4.27566    163 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02321  4.17053  4.89288  0.61958  0.77255  0.48576  0.95510
+    148   3.70647  5.07328  4.29292  4.08736  2.37118  4.18885  3.80078  3.67800  3.93734  3.05218  4.32316  4.11065  4.65987  4.16910  4.05541  3.80923  3.99693  3.56378  4.02310  0.58497    164 Y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.19360  4.17053  1.82902  0.61958  0.77255  0.48576  0.95510
+    149   2.92198  5.11574  3.28049  2.65489  4.47826  3.59727  2.51142  3.88373  1.57593  3.35205  4.19259  3.10178  3.96579  2.72398  1.84611  2.91372  3.10363  3.55066  5.42147  4.18835    165 k - -
+          2.68634  4.42241  2.77536  2.73098  3.46370  2.40469  3.72511  3.29370  2.67757  2.69331  4.24706  2.90363  2.73756  3.18097  2.89817  2.37903  2.77536  2.98535  4.58493  3.61418
+          0.22163  1.61553        *  1.50361  0.25145  0.00000        *
+//
+HMMER3/e [3.0 | March 2010]
+NAME  fn3
+ACC   PF00041.13
+DESC  Fibronectin type III domain
+LENG  86
+ALPH  amino
+RF    no
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:48:22 2011
+NSEQ  106
+EFFN  11.415833
+CKSUM 3564431818
+GA    8.00 7.20
+TC    8.00 7.20
+NC    7.90 7.90
+STATS LOCAL MSV       -9.4043  0.71847
+STATS LOCAL VITERBI   -9.7737  0.71847
+STATS LOCAL FORWARD   -3.8341  0.71847
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.70330  4.91262  3.03272  2.64079  3.60307  2.84344  3.74204  3.07942  2.79841  2.65364  4.14864  2.95826  2.87120  3.02176  2.96125  2.44783  2.59757  2.57680  4.02726  3.21526
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.00000        *
+      1   3.16986  5.21447  4.52134  3.29953  4.34285  4.18764  4.30886  3.35801  3.70246  2.11675  4.32057  4.32984  0.76706  3.91880  4.22437  3.23552  3.21670  2.88223  5.80355  3.93889      1 p - -
+          2.68629  4.42236  2.77530  2.73088  3.46365  2.40512  3.72505  3.29365  2.67737  2.69316  4.24701  2.90358  2.73734  3.18157  2.89812  2.37898  2.77517  2.98515  4.58488  3.61514
+          0.09796  2.38361  6.81068  0.10064  2.34607  0.48576  0.95510
+      2   2.70230  5.97353  2.24744  2.62947  5.31433  2.60356  4.43584  4.79731  3.17221  2.95090  5.01531  3.26630  2.09873  3.30219  3.34190  1.45782  3.14099  3.57507  6.40877  4.25623      3 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+      3   1.38116  5.98285  3.50784  2.54546  5.32790  3.48945  4.43311  4.81385  2.38773  3.98773  5.02352  3.27895  1.92260  2.69012  2.96119  2.64228  3.29228  3.29618  6.41555  4.20553      4 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+      4   3.32856  5.10403  4.47046  4.60386  4.23079  4.75438  5.09647  2.69918  4.46632  2.97102  4.23502  4.77984  0.63388  4.68581  3.76781  4.05413  3.46306  2.04533  5.75329  4.56372      5 P - -
+          2.68616  4.42236  2.77530  2.73134  3.46365  2.40523  3.72505  3.29295  2.67751  2.69303  4.24634  2.90357  2.73739  3.18157  2.89783  2.37897  2.77530  2.98529  4.58488  3.61514
+          0.09682  2.39494  6.81068  0.10162  2.33687  0.48576  0.95510
+      5   2.95325  4.65976  3.57762  2.20709  3.14816  2.51487  3.41109  4.78902  2.65862  3.19599  4.41042  3.45032  3.44719  2.43205  2.26492  2.25400  2.23196  3.66828  4.80003  4.52485      7 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01246  6.08833  4.59386  0.61958  0.77255  0.48576  0.95510
+      6   2.74215  5.97618  2.19482  2.69150  4.58171  2.33553  3.83525  3.28222  2.95080  3.32698  5.01691  1.45822  3.52462  2.79670  2.90942  3.13467  3.27956  4.36668  6.40902  3.92307      8 n - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00341  6.07928  6.80162  0.61958  0.77255  0.44282  1.02784
+      7   3.32507  4.98102  3.78072  3.31043  2.85257  4.76439  5.09585  2.50332  4.69760  1.03851  3.36125  4.91001  2.73206  4.83820  4.72389  4.07376  3.83146  1.59790  5.60385  4.42704      9 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03752  6.08833  3.36505  0.61958  0.77255  0.48576  0.95510
+      8   3.15997  4.90658  3.35204  2.72775  4.53493  3.60960  2.65074  3.69535  2.11078  4.01384  4.99896  3.14668  4.61695  2.40643  2.34723  1.92358  2.03982  3.05153  6.39127  4.98082     10 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00349  6.05430  6.77664  0.61958  0.77255  0.35749  1.20207
+      9   1.76295  3.98252  5.55061  4.93551  2.13202  3.39992  5.09294  2.14638  4.23898  2.23988  3.42109  4.92079  4.39252  3.70640  3.99349  3.50811  3.63432  1.47830  4.51148  4.41177     11 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     10   3.01387  4.98892  2.91217  2.42744  5.22342  4.00576  3.74074  2.67275  2.47618  2.92529  3.89570  3.36720  4.15809  3.26810  2.80854  1.81572  2.02040  2.77133  4.92415  4.31555     12 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     11   2.41247  5.98374  2.24093  2.04842  3.41543  2.59695  4.10033  4.81544  3.05501  4.28918  5.02429  2.22829  2.90635  3.12939  3.01921  2.37278  3.01194  3.02522  6.41619  3.66635     13 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06784  6.08833  2.75947  0.61958  0.77255  0.48576  0.95510
+     12   2.77725  4.36386  3.23435  2.92496  4.75140  4.31852  4.53101  1.91389  3.01135  2.51491  3.47932  2.97934  3.54432  2.88257  2.68923  3.07794  2.71169  1.80880  6.06849  4.75973     14 v - E
+          2.68623  4.42259  2.77533  2.73059  3.46323  2.40500  3.72529  3.29333  2.67757  2.69369  4.24724  2.90364  2.73744  3.18108  2.89835  2.37891  2.77531  2.98493  4.58511  3.61510
+          0.22113  1.62346  6.74643  0.44471  1.02446  0.29166  1.37446
+     13   3.17575  5.97994  3.10322  2.84738  5.32369  2.00173  4.43389  4.80873  3.01150  3.75019  4.42663  2.23751  4.64014  2.74467  2.85546  1.99984  1.67133  4.36987  5.08444  3.58488     18 t - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     14   2.14203  5.98483  2.53686  2.20884  5.33077  2.76253  3.61799  4.81737  2.91636  3.96256  5.02525  2.79307  2.44932  3.35978  3.34773  1.76758  2.51815  4.12754  4.53404  4.35768     19 s - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02274  6.08833  3.90154  0.61958  0.77255  0.48576  0.95510
+     15   3.45984  5.96297  2.32904  2.98671  5.30486  3.14893  3.59992  3.68067  2.95954  4.26690  5.00447  2.01875  4.62814  3.51950  2.89162  1.97303  1.47565  3.87160  6.39755  3.59993     20 t - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00344  6.06904  6.79138  0.61958  0.77255  0.40302  1.10352
+     16   2.82603  5.98256  2.96292  2.53617  4.39559  3.14388  4.09532  4.81336  2.59005  4.28779  5.02326  3.12547  4.63955  2.76620  3.03618  1.28432  2.14874  3.55065  4.82032  3.29405     21 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     17   2.29842  4.96481  5.56794  4.95172  2.45211  3.33868  4.31545  1.97312  4.73378  1.34355  2.88087  4.92903  5.12608  4.86259  4.73754  4.07438  3.55674  1.71344  5.58685  3.78328     22 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     18   2.99930  4.68496  3.44656  2.53427  3.92510  4.04338  3.13178  3.10095  3.07007  2.68343  3.58599  3.17010  4.15335  2.63450  2.71950  2.30083  2.03779  2.23518  4.92400  3.84991     23 t - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     19   3.61302  4.50726  5.99163  5.39935  2.74200  5.23506  5.61087  1.85210  5.20622  1.10188  3.56291  5.40353  5.56305  5.33364  5.22134  4.56441  3.85751  1.20867  6.05610  4.88933     24 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     20   2.90508  5.98486  3.37356  2.37027  5.33083  3.46854  3.40789  4.81743  2.65230  3.22177  4.17825  2.67373  4.63906  2.52648  2.39431  1.50547  2.16764  4.37598  5.01440  5.00552     25 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     21   5.54218  6.63564  6.83891  6.61797  2.57168  6.35073  5.30532  3.96643  6.37377  3.18917  5.26281  6.07009  4.35269  6.11992  6.21105  5.74680  5.75143  4.86346  0.24436  3.66807     26 W - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     22   3.10862  5.98423  2.61761  2.10221  4.46995  3.93009  3.84182  3.79843  2.19229  3.09373  4.47555  2.66452  4.06864  2.59255  2.99987  1.99073  2.05618  3.67318  6.41655  4.47364     27 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     23   2.05280  5.87614  3.77610  2.63103  5.17655  3.25143  3.55897  3.09279  2.68152  3.35866  4.92882  3.43937  1.44938  3.29932  2.98336  2.85751  2.78420  3.02863  4.43359  4.47040     28 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     24   2.65644  5.88726  3.37601  2.96202  5.19190  3.53629  4.46143  4.20046  2.87295  2.91429  4.93884  3.27084  1.07653  3.39095  3.69926  2.07705  3.29723  2.92337  6.34501  4.95985     29 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.32165  6.08833  1.29911  0.61958  0.77255  0.48576  0.95510
+     25   2.44244  5.77880  2.64467  2.21733  3.20572  3.66340  3.27861  4.60939  2.17717  2.95495  4.81953  3.17778  2.62084  2.96028  2.64039  2.55818  2.51134  3.52175  6.21164  4.20060     30 k - S
+          2.68557  4.42278  2.77404  2.73101  3.46370  2.40555  3.72548  3.29364  2.67779  2.69337  4.24743  2.90378  2.73741  3.18051  2.89835  2.37928  2.77557  2.98526  4.58530  3.61392
+          1.12909  0.74203  1.60680  0.24883  1.51281  1.67198  0.20810
+     26   2.76497  5.64634  2.06362  2.44254  4.06108  3.91520  3.28362  3.73992  2.46695  3.95074  4.68755  2.93859  2.87257  2.71813  3.08100  2.16767  2.28242  3.00778  6.08028  4.00221     33 d - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00580  5.54941  6.27176  0.61958  0.77255  1.23854  0.34222
+     27   2.94904  4.81418  2.88265  2.99332  4.83563  1.49306  3.87927  3.68299  2.59086  2.53757  4.07313  2.89409  2.92833  3.04624  2.88166  2.82744  3.22994  3.21444  4.18838  4.04981     34 g - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00508  5.68074  6.40309  0.61958  0.77255  0.20085  1.70396
+     28   2.96588  5.95917  2.45759  2.65943  5.30490  1.91234  3.11781  3.44164  2.78003  4.01788  4.99965  2.12379  3.26764  2.84040  2.87160  2.26272  3.15721  3.84740  4.86821  3.64128     35 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00351  6.05095  6.77330  0.61958  0.77255  0.34864  1.22298
+     29   2.45969  5.96445  2.88574  2.61716  5.30131  1.53630  4.43818  3.46883  2.98393  3.60366  4.33332  3.25719  4.28257  3.08417  2.40821  2.08539  3.20111  2.81105  6.40207  4.25093     36 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     30   2.71563  5.98438  2.50720  1.96228  5.33013  3.47246  3.38617  3.68065  2.34086  4.03521  4.36775  3.08029  1.87041  2.90329  3.33287  2.70645  2.77558  2.97286  6.41666  4.17777     37 p - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     31   3.04837  4.96747  2.67316  4.92527  2.42064  4.14655  5.09097  1.34551  4.71334  2.18068  3.34829  4.91585  3.31178  4.15082  4.72663  3.69906  3.53551  1.88881  3.93067  3.04034     38 i - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     32   2.89418  4.58676  2.12720  2.65970  3.99748  4.30700  4.50689  3.12934  2.75241  2.32504  4.34805  3.25317  4.69765  2.93544  2.97945  2.48570  1.85268  2.60501  5.05387  4.40931     39 t - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     33   3.05045  5.96458  3.15002  2.79713  4.16491  1.56242  3.20986  4.07540  2.34002  3.77648  3.66616  2.65073  4.64351  3.21500  2.62101  2.34442  2.98761  3.25677  5.04578  3.36446     40 g - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     34   4.72855  5.99332  6.32397  5.91516  1.75259  5.71064  3.47111  3.64093  3.68669  3.44300  5.13564  5.60513  6.03397  5.64902  5.63703  5.05114  4.95149  3.46344  3.97019  0.49348     41 Y - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     35   3.03913  5.98101  2.74983  1.95825  3.75604  3.98121  3.78677  3.48894  2.41418  2.89991  5.02189  2.66693  4.63989  2.65222  2.20113  2.26435  2.64729  3.16844  6.41420  3.93691     42 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     36   3.75576  5.90373  6.92143  6.48083  5.27028  6.48043  7.33031  1.16190  6.46559  1.72148  4.18143  6.65320  6.63807  6.70678  6.63399  5.94811  5.00240  0.82398  7.51298  6.31097     43 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04904  6.08833  3.08806  0.61958  0.77255  0.48576  0.95510
+     37   2.63429  4.71789  2.89387  2.04081  4.17861  4.22097  3.38514  2.92734  2.36124  3.26230  4.97143  3.69265  4.61418  2.27063  2.38238  2.70982  2.11937  3.37005  6.36711  3.73375     44 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00353  6.04282  6.76517  0.61958  0.77255  0.32899  1.27173
+     38   3.00800  2.48193  5.53105  4.91728  2.98458  4.75707  4.15268  2.83469  3.12355  2.32451  4.08737  4.91198  5.12099  4.84273  3.46182  3.58557  3.26283  2.28912  2.64554  1.29971     45 y - E
+          2.68641  4.42053  2.77543  2.73091  3.46377  2.40536  3.72420  3.29377  2.67764  2.69378  4.24582  2.90336  2.73763  3.18113  2.89660  2.37910  2.77543  2.98542  4.58500  3.61526
+          0.12278  2.16768  6.81068  0.54422  0.86820  0.48576  0.95510
+     39   2.52553  4.02469  3.60093  2.65311  4.18239  3.63052  4.17989  3.44209  2.14970  3.12319  4.96260  3.43770  4.02454  2.12722  2.15391  2.32250  3.25888  3.40611  2.73453  3.57446     49 q - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02932  6.08833  3.62591  0.61958  0.77255  0.48576  0.95510
+     40   2.85303  5.96779  2.74660  1.91867  5.31393  3.60453  3.59476  4.33679  2.36399  3.57280  3.62613  2.83996  2.06170  2.51716  3.24767  2.43993  2.61505  3.39964  6.39984  4.98824     50 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00347  6.06248  6.78482  0.61958  0.77255  0.67944  0.70705
+     41   2.55267  3.11480  2.72137  2.31006  5.21613  3.67111  4.08491  3.18721  2.11932  2.73126  3.73119  3.72342  3.44703  2.78931  3.31632  2.60923  2.50487  2.33623  6.34948  4.95631     51 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.09789  6.06248  2.39773  0.61958  0.77255  0.38130  1.14877
+     42   3.41114  5.92195  2.00739  2.51445  4.35946  1.85149  4.04885  4.75310  3.02073  3.41727  4.96259  1.88803  4.57836  2.81891  2.77402  2.53317  2.79169  3.60394  6.35459  4.48731     52 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00370  5.99676  6.71911  0.61958  0.77255  0.25112  1.50474
+     43   2.89692  5.98568  2.39354  2.04021  5.33202  2.12548  3.27810  4.81889  2.36649  3.39071  4.58505  2.82477  4.63888  2.99231  3.02264  2.04514  2.45319  3.82791  6.41761  5.00590     53 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     44   3.10206  5.95088  3.50928  2.19657  4.70794  1.83640  4.44201  3.85177  2.81849  3.20653  3.64542  2.17673  2.82486  2.50236  3.67274  2.64718  2.71954  3.18909  6.39210  3.73228     54 g - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.08059  6.08833  2.58819  0.61958  0.77255  0.48576  0.95510
+     45   2.83017  5.93388  2.31048  1.94273  5.28007  2.46456  3.60606  4.35357  2.35448  2.95362  4.97424  3.06816  3.41033  2.69285  2.84649  2.21743  2.98206  3.67978  4.23187  4.95426     55 e - C
+          2.68733  4.40831  2.77609  2.73043  3.46444  2.40393  3.72592  3.29278  2.67833  2.69426  4.24827  2.90407  2.73626  3.18024  2.89744  2.37952  2.77650  2.98614  4.58019  3.61570
+          1.45631  0.90375  1.01651  1.51529  0.24813  0.96821  0.47765
+     46   2.32839  5.42660  2.93163  2.28220  4.02543  3.04571  3.03894  3.22247  2.82753  3.21315  3.89864  3.49093  2.50859  3.14260  2.89921  2.69284  3.05772  2.38519  4.38264  3.20345     66 e - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00571  5.56406  6.28641  0.61958  0.77255  0.18459  1.78051
+     47   2.69465  3.91083  2.42967  2.34662  4.43247  3.13708  3.62175  3.49809  2.56727  2.84127  4.03266  3.52527  3.00745  3.22895  3.52756  2.46523  2.69768  3.11906  2.19019  4.92515     67 w - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00353  6.04443  6.76678  0.61958  0.77255  0.33269  1.26228
+     48   2.67627  5.86490  3.17099  3.22595  3.40616  4.27494  3.15476  3.07365  2.21494  2.78239  4.39426  2.30764  3.56160  2.19351  2.71433  2.94392  2.62330  2.55032  5.16850  4.37026     68 q - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     49   3.05871  5.98132  3.36643  1.71285  5.32569  3.90513  2.27648  4.25125  2.92072  4.28630  4.28595  2.90579  3.33969  2.79371  2.63337  2.42582  2.46361  2.81009  3.46671  3.72048     69 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     50   2.88323  4.65127  3.40086  2.73607  2.41972  3.62669  3.91044  2.52424  2.75640  2.37424  3.94274  3.64921  4.76561  2.38668  2.64750  3.03028  3.09193  2.27100  6.08057  3.03402     70 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     51   3.36533  5.95840  2.65995  2.86095  3.44584  4.25167  3.55888  2.90987  2.78397  3.33346  3.90493  2.03375  3.68901  2.80089  2.78508  2.11531  1.97302  3.15541  6.39763  4.99330     71 t - E
+          2.68571  4.42246  2.77540  2.73144  3.46375  2.40497  3.72515  3.29375  2.67742  2.69376  4.24711  2.90367  2.73710  3.18135  2.89822  2.37876  2.77540  2.98457  4.58498  3.61524
+          0.06628  2.76409  6.81068  0.97562  0.47314  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     53   2.79501  4.92737  2.35659  2.60299  4.06511  2.98090  3.88301  4.80087  2.44593  3.57653  5.01701  3.37711  1.76863  3.53250  3.23955  1.94419  2.68524  2.95506  6.41016  5.00121     76 p - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     54   2.44542  5.98316  3.18675  2.55065  5.32835  2.12386  4.43300  4.38419  2.38413  2.93654  5.02378  2.50193  2.49139  3.27226  2.05133  2.36069  3.70337  4.12664  4.32391  4.48343     77 r - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     55   2.77179  5.98329  2.50848  2.76644  5.32854  3.30269  3.08416  4.38434  3.16759  4.28865  5.02390  2.27915  2.67265  2.61285  3.32102  2.18277  1.82444  2.83013  6.41587  4.35727     78 t - T
+          2.68621  4.42251  2.77546  2.73149  3.46380  2.40468  3.72521  3.29380  2.67767  2.69252  4.24716  2.90344  2.73766  3.18134  2.89827  2.37913  2.77442  2.98545  4.58503  3.61529
+          0.07130  2.69245  6.81068  1.11635  0.39671  0.48576  0.95510
+     56   2.32530  5.97446  3.57954  1.89562  5.31575  4.24796  3.32554  3.73278  2.42253  2.98562  5.01611  3.71687  3.10116  2.71107  2.91871  2.60336  1.70360  3.15915  6.40941  5.00074     83 t - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.35248  6.08833  1.22151  0.61958  0.77255  0.48576  0.95510
+     57   2.95924  5.72336  2.75932  2.63159  3.96190  3.29462  3.22449  3.40062  2.77057  3.18108  3.56769  2.46117  2.98702  3.05715  2.72729  2.56520  1.96589  3.52719  6.16591  2.96938     84 t - S
+          2.68622  4.42162  2.77539  2.73088  3.46349  2.40510  3.72514  3.29311  2.67761  2.69358  4.24710  2.90367  2.73759  3.18166  2.89753  2.37894  2.77488  2.98538  4.58497  3.61523
+          0.23969  1.55321  6.46298  0.15973  1.91309  0.51157  0.91517
+     58   2.78411  5.86726  3.65151  2.46190  3.55121  3.32277  3.71415  3.82816  2.87545  3.69015  4.27003  2.90512  3.60994  2.68731  2.37548  1.72361  1.95655  3.42914  6.30822  3.85760     87 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00384  5.96109  6.68344  0.61958  0.77255  0.21363  1.64843
+     59   2.13080  3.38910  5.56698  4.95075  2.41578  4.20194  3.39215  2.83299  4.73282  2.14660  3.19234  4.92810  5.12527  4.86169  4.18461  4.07348  3.03808  1.63705  4.66089  1.78369     88 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     60   3.12543  5.93769  2.99354  2.53954  5.26303  4.25659  3.21054  2.85212  2.62935  2.82513  3.45830  2.90110  4.19559  2.80624  3.10357  2.88568  1.50190  2.67316  6.38237  3.93622     89 t - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     62   3.10387  5.98366  3.06368  2.31445  4.05906  3.57903  3.48488  4.81531  2.43543  4.01680  3.91148  2.67498  2.99920  2.70828  2.56621  2.14984  1.90367  3.06274  4.55677  4.37671     91 t - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     64   5.18530  6.36522  4.58586  6.57578  3.53131  6.59442  6.84537  2.81242  6.44067  0.21363  3.54046  6.78308  6.53953  6.19263  6.31583  5.99910  5.37457  3.39834  6.73440  5.83217     93 L - -
+          2.68590  4.42227  2.77521  2.73125  3.46356  2.40515  3.72496  3.29356  2.67743  2.69357  4.24692  2.90349  2.73741  3.18148  2.89803  2.37889  2.77521  2.98520  4.58479  3.61505
+          0.02033  3.96193  6.81068  0.31431  1.31041  0.48576  0.95510
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     66   2.17452  5.85112  3.79178  2.44872  5.14174  4.27993  4.47388  4.59086  3.04069  4.13287  4.42378  3.36057  0.82761  3.31072  3.71538  3.13243  3.15654  3.97958  4.90439  4.38214     96 p - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     67   2.72531  5.97666  2.50761  2.79752  4.22378  1.29966  2.70734  4.80294  2.85170  4.02964  5.01805  2.59981  4.64085  3.32835  3.25617  2.51345  3.59137  3.91820  4.88800  2.97800     97 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     68   2.39925  4.86641  3.79312  2.74568  5.13568  4.27988  3.97435  3.95098  2.69562  3.65359  3.00813  3.38952  4.67180  3.12070  2.33490  2.43668  1.27713  2.90106  6.31421  4.93977     98 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     69   2.87821  5.98261  2.71299  2.05681  3.93787  3.36966  3.57296  3.81023  2.25993  3.03102  3.49917  2.39917  3.09415  2.62154  2.82818  2.67359  2.51409  3.67730  4.58228  5.00448     99 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     70   6.32206  7.09639  6.95855  7.01624  2.70399  6.62558  5.12529  5.84365  6.77161  4.03604  6.32463  4.32154  6.86163  6.30239  6.48747  6.05185  6.49899  5.81871  5.18730  0.14189    100 Y - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     71   3.06725  5.97020  3.56838  1.93769  4.23056  3.77167  3.39655  3.53252  2.56448  3.45405  4.47893  2.47898  4.64226  2.55695  2.74362  2.36648  2.01401  2.66399  6.40629  3.70776    101 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     72   3.19486  4.19171  5.58508  4.96942  1.44027  4.15574  5.11433  1.81297  4.75161  2.09873  3.37140  4.94615  5.14143  4.88008  4.75485  4.09123  3.83769  1.47173  5.60267  3.09551    102 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     73   3.18039  4.06436  3.15201  2.27681  5.32468  3.77041  3.95744  3.70705  2.23538  4.28548  4.11883  2.88564  4.63997  2.58030  1.70576  2.27707  2.39981  3.62914  4.03739  3.61343    103 r - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     74   3.76685  5.84337  6.79391  6.31497  3.84743  6.27452  6.95358  1.59565  6.25134  2.11498  4.30213  6.44619  6.46746  6.44080  6.36566  5.70153  4.90672  0.53161  7.20703  6.03175    104 V - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     75   2.31005  4.88319  3.40675  2.63903  3.58848  4.26911  3.49342  3.09105  2.39543  3.00463  4.93879  3.41670  4.66153  1.98639  2.22144  3.11070  2.61129  2.78609  6.34491  2.92043    105 q - E
+          2.68621  4.42228  2.77522  2.73126  3.46357  2.40516  3.72497  3.29357  2.67744  2.69312  4.24693  2.90350  2.73743  3.18149  2.89804  2.37890  2.77522  2.98521  4.58480  3.61506
+          0.03738  3.58894  4.70319  0.25135  1.50394  0.48576  0.95510
+     76   0.79499  5.17226  4.80437  3.93376  4.33120  3.17569  4.96596  3.30029  4.15773  2.86829  4.32533  4.52823  5.01384  4.41886  4.42465  2.28661  2.19420  2.76335  5.81537  4.60940    107 a - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00340  6.08033  6.80268  0.61958  0.77255  0.44741  1.01966
+     77   2.84306  4.15407  4.98296  3.19564  3.23517  4.66606  3.67524  2.49603  3.23224  2.21212  3.84796  4.62630  5.03633  2.88555  2.43211  3.49088  3.22704  1.33993  5.67363  2.88123    108 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     78   3.27061  4.75060  2.81965  3.10410  5.31934  3.95942  3.99367  3.88107  2.62205  4.02823  5.01830  1.35628  3.08534  3.32913  3.08546  1.88067  2.21938  4.02145  6.41122  3.76470    109 n - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00992  6.08833  4.87890  0.61958  0.77255  0.48576  0.95510
+     79   2.39836  4.69624  2.57939  2.56364  4.72011  1.55094  3.74815  4.26504  2.61409  4.28517  5.02018  2.82673  4.26340  2.69971  2.87382  2.73983  2.53993  3.07568  6.41202  5.00074    110 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00340  6.08180  6.80415  0.61958  0.77255  0.45398  1.00812
+     80   2.22211  4.94595  2.69424  2.44928  4.84552  2.32005  3.06335  2.95704  2.33976  3.55821  4.09648  2.87488  4.09930  2.85656  2.97877  3.08279  3.07714  2.39346  6.40553  4.01548    111 a - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.38398  6.08833  1.15015  0.61958  0.77255  0.48576  0.95510
+     81   2.96920  5.43248  3.46409  2.76236  3.93019  1.02513  4.29951  4.07917  3.10833  3.39330  4.50784  3.40559  4.48149  3.45547  3.56956  2.50552  2.39680  3.76237  5.94228  3.01765    112 g - E
+          2.68652  4.42259  2.77488  2.73144  3.46170  2.40466  3.72529  3.29388  2.67703  2.69373  4.24724  2.90335  2.73774  3.18162  2.89801  2.37895  2.77529  2.98552  4.58511  3.61537
+          0.29928  1.35852  6.43163  0.48724  0.95274  1.77816  0.18506
+     82   2.84273  4.18992  3.05053  2.12883  3.36284  2.75189  4.25559  3.03507  2.66396  2.65563  4.59024  2.63081  3.84786  2.76844  3.19058  2.84597  2.82776  2.89016  3.06821  3.41272    117 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00494  5.70928  6.43163  0.61958  0.77255  1.56406  0.23482
+     83   3.37920  5.61493  3.74277  3.20384  4.92800  1.01625  3.96683  4.35082  2.94708  2.91738  4.72998  3.71516  3.70329  3.52945  3.00683  1.61777  3.61882  4.00263  6.13360  4.80162    118 g - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00481  5.73459  6.45693  0.61958  0.77255  0.30535  1.33510
+     84   2.58463  5.93784  3.04102  2.09605  4.57465  2.51630  3.24109  4.26208  2.60545  3.44607  3.62705  3.20484  1.89678  2.68661  2.74662  2.97880  3.02092  3.23569  6.37074  4.50367    119 p - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00361  6.02233  6.74467  0.61958  0.77255  0.28862  1.38348
+     85   2.48488  5.72055  3.87501  1.97538  3.04853  3.48010  4.51877  3.51898  2.88839  2.73568  4.42660  3.64380  2.08811  3.48814  2.70856  2.40769  2.92982  4.05679  2.77386  3.43366    120 e - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00338  6.08833  6.81068  0.61958  0.77255  0.48576  0.95510
+     86   3.03720  5.94099  3.75455  2.96917  5.26587  2.91682  3.66571  4.11840  2.98472  4.23738  4.98891  3.74380  4.66031  3.40955  3.12788  0.72443  2.46104  4.32115  6.38683  4.99111    121 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00227  6.08723        *  0.61958  0.77255  0.00000        *
+//
+HMMER3/e [3.0 | March 2010]
+NAME  Pkinase
+ACC   PF00069.17
+DESC  Protein kinase domain
+LENG  260
+ALPH  amino
+RF    no
+CONS  yes
+CS    yes
+MAP   yes
+DATE  Thu Jun 16 11:44:06 2011
+NSEQ  54
+EFFN  3.358521
+CKSUM 3106786190
+GA    70.30 70.30
+TC    70.30 70.30
+NC    70.20 70.20
+STATS LOCAL MSV      -10.7215  0.70254
+STATS LOCAL VITERBI  -11.6541  0.70254
+STATS LOCAL FORWARD   -5.2305  0.70254
+HMM          A        C        D        E        F        G        H        I        K        L        M        N        P        Q        R        S        T        V        W        Y   
+            m->m     m->i     m->d     i->m     i->i     d->m     d->d
+  COMPO   2.60017  4.19886  2.94089  2.63789  3.35087  2.89119  3.48337  2.79435  2.60265  2.43454  3.62613  3.06133  3.41286  3.09693  2.94507  2.65650  2.87761  2.67871  4.54052  3.43274
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.00000        *
+      1   2.91704  4.31028  4.76351  3.63148  2.10912  3.47710  4.39734  2.27639  3.96619  1.99282  3.42844  4.19567  4.43771  4.11903  3.67403  3.22736  3.14918  2.35905  3.32515  1.82622      1 y - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      2   2.77204  4.20708  3.06476  1.97968  4.66603  3.66509  3.19858  3.37903  2.25347  3.34018  4.38833  2.97180  4.05804  2.36838  2.43173  2.67542  2.50268  2.83403  5.78758  4.38976      2 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      3   2.90076  4.04294  3.31590  2.80413  3.08157  3.87481  4.12616  2.18958  2.49735  1.97194  3.73714  3.32717  3.98753  3.23115  3.12315  2.99137  2.62008  2.29426  5.21478  3.75979      3 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      4   2.89383  4.85429  3.10311  2.63174  3.71383  2.56808  3.47232  2.82076  2.61844  1.98342  3.72320  3.05498  4.17347  3.05527  3.32194  2.85608  2.93671  2.18878  5.40057  3.87183      4 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      5   2.68261  5.39185  2.80437  1.87471  4.73638  2.79887  3.69591  4.22191  2.19487  3.69685  4.08896  3.12413  3.70490  2.48424  2.08916  2.53260  3.02309  3.43812  5.82480  4.41426      5 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      6   2.77253  4.06085  3.07881  2.53373  4.10647  3.71564  3.68370  2.64290  2.00036  2.72968  4.17370  3.24239  3.08607  2.77632  2.72820  2.69921  2.54335  2.71931  5.60386  4.26496      6 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      7   3.42930  4.74416  5.34765  4.76823  3.71832  4.71430  5.09461  1.33015  3.54417  1.12594  3.33523  4.84641  5.00427  4.73010  4.64986  4.05097  3.66327  1.83083  5.51142  4.37013      7 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      8   2.57460  4.94286  4.00732  3.93216  5.40516  0.41612  5.15134  4.86315  4.18766  4.52736  5.33508  4.05990  4.45245  3.74651  4.46171  3.15888  3.14590  4.15180  6.71159  5.52767      8 G - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+      9   2.30218  5.38172  3.03799  2.02026  4.18991  3.65799  3.84554  3.67215  2.28945  3.68495  4.42365  2.84227  3.73039  2.44555  2.39428  2.00278  2.95859  3.63127  5.81726  4.40923      9 s - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     10   4.54226  6.07621  5.39207  5.44513  6.34643  0.07137  6.34600  6.33790  5.73770  5.76452  6.83374  5.56171  5.46536  5.98137  5.73783  4.76037  5.08470  5.67502  7.03864  6.52156     10 G - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     11   2.06444  5.37337  2.91595  2.40063  4.70969  2.61181  3.84889  4.18948  2.46835  3.67503  4.41668  2.62917  4.05392  2.88235  2.66711  2.00495  2.47288  3.39649  5.81159  4.40596     11 s - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     12   2.90920  4.46494  4.12493  3.14570  1.52027  3.22992  4.24969  2.92840  3.46467  2.66529  3.12827  3.55640  4.33979  3.72214  3.72236  2.53517  2.98442  2.55125  5.06498  2.30159     12 f - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     13   2.21104  4.80722  4.64199  4.55509  5.54982  0.52550  5.49025  5.04875  4.70671  4.72740  5.47955  4.30215  4.43233  4.84666  4.86038  1.95116  3.45005  4.17507  6.87595  5.79039     13 G - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     14   2.71551  3.46186  3.01248  2.27453  4.55840  3.55853  3.50842  3.55064  2.03335  3.34882  4.31847  3.17065  4.07218  2.83960  2.83653  2.25762  2.26864  2.61469  5.72841  4.35037     14 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     15   3.17885  3.97005  5.63014  5.16553  4.35293  4.89782  5.77682  2.09398  5.06494  2.94083  4.14496  5.20428  5.30924  5.30763  5.20260  4.32158  3.61414  0.44769  6.26043  5.04118     15 V - E
+          2.68625  4.42232  2.77526  2.73102  3.46361  2.40519  3.72501  3.29361  2.67747  2.69306  4.24696  2.90353  2.73746  3.18153  2.89807  2.37893  2.77526  2.98499  4.58484  3.61510
+          0.09563  2.43065  5.73865  0.67073  0.71608  0.48576  0.95510
+     16   2.91101  3.31342  4.36759  3.41772  2.45121  4.01227  4.31421  2.75922  2.81772  2.31733  3.50420  3.69862  4.38187  3.88257  3.14725  3.02772  3.14303  2.46483  3.37889  1.69905     18 y - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     17   2.88484  5.28431  3.03179  2.31849  4.58595  3.47769  3.54625  2.98124  1.69233  2.43413  4.04064  3.16353  4.06907  2.72555  2.58277  2.55274  3.04512  3.20501  5.74377  4.36100     19 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     18   1.57125  2.56460  3.38436  3.39201  3.66458  2.34190  4.20526  2.93932  3.32823  2.44127  3.26099  3.74334  4.30466  3.60817  3.63469  3.01628  2.92537  2.55308  5.13581  3.91882     20 a - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     19   2.89298  4.40558  3.44708  2.63051  3.77015  3.77747  2.87940  2.57515  2.33949  2.85128  3.20054  3.37379  4.16367  2.65910  2.52913  2.67954  2.59930  2.46709  5.42679  3.74337     21 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     20   2.88350  5.37811  2.42858  2.28192  4.71668  3.65945  2.35349  4.19788  2.20596  2.91798  4.42054  2.38258  4.05280  2.81490  2.60119  2.77457  3.11461  3.76528  3.43428  3.80493     22 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     21   2.59359  5.30144  3.00667  2.46268  4.60954  3.67285  3.22394  2.91749  2.13087  2.60378  4.35201  3.05590  3.51881  2.48537  2.35096  2.62551  3.00998  2.84793  5.75687  4.36947     23 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     22   2.64500  5.38003  2.46961  2.36386  4.71962  2.36153  3.71093  3.77963  2.19342  3.27291  4.42213  2.49968  3.44456  2.94396  2.94770  2.23767  2.90215  3.58800  5.81601  3.79868     24 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     23   2.71410  5.35453  2.26257  2.17828  4.68327  3.06138  3.85215  3.65600  2.51871  3.65284  4.39957  2.64619  4.05631  2.95399  2.98284  2.41102  1.94961  3.19379  5.79713  3.78693     25 t - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03260  5.01631  3.67114  0.61958  0.77255  0.48576  0.95510
+     24   2.77509  4.50579  3.06414  2.40741  4.68877  2.10468  3.84020  4.16638  2.52713  3.65577  4.39945  2.31826  2.82304  2.55347  2.45557  2.51717  3.10489  3.55245  5.79545  3.68618     26 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.13496  4.99383  2.12471  0.61958  0.77255  0.54753  0.86365
+     25   2.82390  4.23357  2.59579  2.09029  4.65095  3.47120  3.53571  3.50264  1.93281  3.24335  4.10745  2.98984  3.99409  2.41262  2.43858  2.60001  2.84781  3.57090  5.75206  3.98239     27 k - E
+          2.68634  4.42166  2.77510  2.73101  3.46370  2.40521  3.72473  3.29370  2.67713  2.69347  4.24706  2.90350  2.73742  3.18145  2.89817  2.37895  2.77536  2.98516  4.58493  3.61485
+          0.21086  2.33296  2.37401  1.37928  0.29003  0.81455  0.58490
+     26   2.79249  4.86773  3.27912  2.48247  3.81836  3.65430  3.86742  2.36980  2.31612  2.40000  3.66176  2.98804  3.52938  2.45192  2.80383  2.80149  2.71760  2.93241  5.39419  3.83742     36 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01259  4.77670  5.49905  0.61958  0.77255  0.27298  1.43175
+     27   2.94684  4.40681  4.93000  4.33270  2.14562  4.19543  4.43742  2.60780  4.12995  2.51432  3.32273  4.32339  4.55150  4.25562  4.15094  3.50804  3.26683  1.12964  4.39266  2.23526     37 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     28   0.67405  4.13502  4.78133  4.26234  4.00859  4.13420  4.88775  2.58668  4.14876  2.87877  3.59530  4.37511  4.66004  4.38446  4.34251  3.50924  3.44597  2.20111  5.62436  4.43519     38 A - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     29   2.77559  4.05359  4.82280  4.21814  3.45081  3.88127  4.46447  1.69887  3.29990  2.06046  2.92956  4.25618  4.49083  4.18293  4.07725  3.28739  3.19210  1.31639  4.98894  3.80930     39 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     30   4.13385  6.06880  4.58555  3.84767  5.73274  4.53840  4.41573  5.06650  0.32256  4.37802  5.30885  4.14872  4.92009  3.55775  2.54913  4.11741  4.25754  4.75872  6.25921  5.22828     40 K - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     31   2.53136  3.93442  3.55191  2.54113  3.59001  3.81267  3.67691  2.09853  2.22431  2.85063  3.63116  3.45300  4.19661  2.87681  2.71089  2.96116  2.67441  2.46338  5.34241  3.76111     41 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     32   2.80227  4.30542  4.81704  3.71619  2.31247  3.45194  4.41496  1.85614  4.00698  1.68898  3.06826  4.22398  4.44809  4.15126  4.03957  3.11345  3.01936  1.82478  4.92889  3.75130     42 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     33   2.72320  4.19698  2.89173  2.30854  4.21536  3.66470  3.63903  3.54937  1.81020  3.33297  4.38970  2.50126  3.12497  2.85129  2.61476  2.47307  2.93549  3.43057  4.63863  3.86554     43 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     34   2.73748  5.16363  3.24304  2.62749  4.42406  3.39882  3.64889  3.08793  1.75481  2.64054  4.22767  2.81684  3.49630  2.92572  2.69253  2.71691  2.78362  2.91622  5.65055  3.09244     44 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     35   2.82342  4.21564  2.57688  2.18304  4.09635  3.66104  3.29269  4.17416  2.24176  3.24419  4.40775  3.13331  3.02670  2.66210  2.30119  2.38622  2.91913  2.84969  5.80393  4.13733     45 e - H
+          2.68618  4.42225  2.77520  2.73124  3.46354  2.40513  3.72495  3.29354  2.67741  2.69355  4.24690  2.90347  2.73731  3.18147  2.89801  2.37887  2.77520  2.98519  4.58477  3.61503
+          0.02362  3.90596  5.73865  0.48782  0.95182  0.48576  0.95510
+     36   2.81479  5.38805  2.34307  2.08229  3.84722  3.00939  3.24618  4.21561  2.24819  3.24444  4.42924  2.80965  3.63231  2.74299  2.65208  2.41080  2.72103  3.26063  5.82196  4.16400     47 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     37   2.42659  5.32934  2.94543  1.98753  4.27035  3.66735  3.85733  2.97282  2.27697  3.20526  3.75542  2.69174  3.50027  2.79550  2.45131  2.66535  2.70832  3.28701  5.77800  4.07668     48 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     38   2.82479  5.36482  2.46403  2.36491  4.23121  3.19666  3.53460  3.47934  2.01766  2.87145  4.06028  2.53791  3.88358  2.73438  2.79605  2.39315  2.94316  3.30320  5.80464  3.67777     49 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     39   2.81259  3.82036  2.58997  2.16257  3.93187  3.50795  3.44913  3.32347  2.23760  3.42042  3.43188  3.03914  3.18139  2.98833  2.90722  1.97318  3.04237  3.44327  4.85883  4.01646     50 s - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04017  5.01631  3.41907  0.61958  0.77255  0.48576  0.95510
+     40   2.75150  4.68420  2.78864  2.20581  3.96394  3.14028  3.85474  3.62649  2.17804  2.84544  3.93254  2.66146  3.79370  2.72658  2.87564  2.43841  2.71937  3.23202  3.36778  4.34996     51 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01020  4.98634  5.70869  0.61958  0.77255  0.56699  0.83755
+     41   2.52028  4.29421  2.93844  2.26593  3.28616  3.42961  3.89113  3.40312  1.92589  2.89626  3.59280  3.04537  4.08209  2.42956  3.02333  2.89065  2.87512  2.78376  5.62895  3.97726     52 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06456  4.98634  2.88790  0.61958  0.77255  0.56699  0.83755
+     42   2.52102  4.66200  2.60886  2.12080  3.90563  3.43164  3.41299  3.76759  2.19798  2.95231  4.37667  2.71584  3.31098  2.66775  2.46389  2.65499  2.89357  3.57073  4.74853  4.36793     53 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06881  4.93254  2.82535  0.61958  0.77255  0.69302  0.69327
+     43   2.65676  5.27743  2.81592  2.16715  4.59834  3.44096  3.79920  2.82354  2.10889  3.57233  3.78816  2.93522  4.00237  2.20078  2.58862  2.72374  2.99283  3.18643  5.72482  3.30249     54 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04191  4.87514  3.39892  0.61958  0.77255  0.80592  0.59181
+     44   2.46416  5.14935  3.14274  2.35064  4.42785  3.46788  3.62138  3.06885  2.39724  2.90472  4.00413  2.77252  4.01153  2.56699  2.69346  2.37713  2.33258  3.34725  5.62407  3.30627     55 t - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.15381  4.84499  2.00472  0.61958  0.77255  0.85820  0.55151
+     45   2.15178  5.11690  2.80767  2.47016  4.06926  3.56450  3.25874  3.42510  2.38373  2.72748  4.17388  2.58132  3.95629  2.68997  2.59104  2.52019  2.89357  3.10461  5.58730  3.84420     56 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.06869  4.70471  2.85898  0.61958  0.77255  1.05523  0.42788
+     46   2.33893  4.38200  3.78128  3.08857  2.87706  3.76539  4.03303  2.50172  2.82237  2.26545  3.48958  3.56901  4.14175  3.13269  2.43377  3.02211  2.55318  2.18677  4.40164  3.75633     57 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07407  4.65033  2.78326  0.61958  0.77255  1.03937  0.43646
+     47   2.66580  4.77769  3.25859  2.69691  3.69577  3.61140  3.56963  3.36841  2.45062  2.28390  3.86113  2.83101  3.99793  3.01640  2.00932  2.40384  2.97180  2.98514  3.81809  4.01106     58 r - H
+          2.68588  4.42292  2.77574  2.73101  3.46421  2.40561  3.72562  3.29362  2.67747  2.69305  4.24679  2.90348  2.73776  3.18179  2.89693  2.37874  2.77432  2.98554  4.58544  3.61510
+          0.56084  0.85690  5.33966  1.67148  0.20822  0.22069  1.61932
+     48   3.87852  6.35819  2.88185  0.33512  5.75300  3.98086  4.66680  5.41085  3.73193  4.87592  5.81368  3.19190  4.67406  3.86930  4.28895  3.74624  4.21685  4.94226  6.88673  5.40485     78 E - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     49   2.34469  4.06185  4.67394  3.74635  3.19070  3.72385  4.38165  1.69529  3.89930  1.68521  3.30505  3.88179  4.42519  3.50953  3.71087  3.12279  3.14596  1.99339  4.94125  3.41486     79 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     50   2.41611  3.92039  3.06862  2.24055  4.69692  3.38839  3.50460  4.17440  2.17094  3.43336  4.01855  2.84870  4.05421  2.22409  2.42800  2.49697  2.93959  3.48161  5.80403  3.10747     80 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     51   2.65097  4.31309  4.79937  4.19096  3.25102  4.08746  4.41763  1.57396  3.99634  1.77576  3.18772  3.58572  4.45127  4.14513  4.03729  2.91921  3.15786  1.73265  4.93848  3.33785     81 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     52   2.71474  4.35776  4.49839  3.90546  3.26558  3.60358  3.11363  2.58541  3.76519  1.24138  2.56017  3.78382  4.40165  3.77674  3.90460  2.91080  2.88501  2.43218  4.97232  3.44306     82 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     53   2.21717  5.37509  3.13954  2.36108  4.71254  3.44569  3.50643  4.19289  1.90576  2.89362  4.41783  2.84264  3.50886  2.51670  2.27883  2.73413  2.79427  3.37900  5.81221  4.40629     83 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     54   2.88332  4.76187  3.15794  2.34306  4.64959  3.18467  2.98724  4.11774  2.20976  2.84622  3.53657  2.69640  4.06011  2.81953  2.22587  2.26090  2.67755  3.39248  5.77872  3.89328     84 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     55   2.92075  3.71086  4.82119  4.21031  2.91851  4.08375  4.41406  2.48059  4.00923  1.14255  2.77088  4.22517  4.44739  4.15194  3.51737  2.79440  3.04088  2.14784  4.92583  3.58797     85 l - H
+          2.68619  4.42231  2.77526  2.73130  3.46360  2.40505  3.72501  3.29360  2.67737  2.69361  4.24696  2.90322  2.73746  3.18153  2.89797  2.37878  2.77526  2.98514  4.58483  3.61509
+          0.21093  1.81438  3.60337  0.15203  1.95873  0.48576  0.95510
+     56   2.87228  4.32697  2.43695  2.52023  4.72535  3.09966  3.42727  4.21076  2.24746  3.68599  4.14994  2.21640  3.70120  2.45856  2.42604  2.20075  2.84715  3.77128  5.81417  4.40372     87 s - S
+          2.68626  4.42233  2.77498  2.73131  3.46362  2.40515  3.72479  3.29362  2.67733  2.69363  4.24698  2.90355  2.73719  3.18141  2.89809  2.37895  2.77498  2.98527  4.58485  3.61511
+          0.08622  2.53438  5.71435  0.90816  0.51628  0.44628  1.02166
+     57   2.95437  4.05540  4.02453  3.66262  4.73022  3.00582  0.63840  4.27369  3.61156  3.92435  4.76053  3.90244  4.38221  3.97389  3.93213  2.36608  3.39859  3.79517  6.08861  4.80370     91 H - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     58   2.74925  4.59154  2.64384  2.02057  4.69046  3.19970  3.85151  4.16644  2.39568  3.65893  3.99620  3.06676  1.73396  2.95270  2.98758  2.52836  2.96698  3.57815  5.80119  4.39902     92 p - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     59   2.77600  3.63123  3.60742  3.04389  2.88763  3.83093  3.22852  3.27052  2.82124  2.96220  3.83761  1.44485  4.21384  3.33393  3.26463  3.06163  2.84916  2.86372  5.30436  2.85576     93 n - S
+          2.68619  4.42226  2.77521  2.73125  3.46355  2.40506  3.72496  3.29355  2.67742  2.69356  4.24691  2.90348  2.73741  3.18148  2.89802  2.37880  2.77521  2.98520  4.58478  3.61504
+          0.02736  3.73933  5.73865  0.64347  0.74542  0.48576  0.95510
+     60   3.43736  4.73250  5.40681  4.85032  3.21534  3.89737  5.21348  0.72821  4.70181  2.29095  3.77438  4.92025  5.08011  4.86610  4.77171  4.12622  3.68020  1.72131  5.65218  4.46593     96 i - B
+          2.68620  4.42119  2.77522  2.73126  3.46356  2.40515  3.72497  3.29356  2.67743  2.69357  4.24692  2.90349  2.73742  3.18149  2.89780  2.37889  2.77522  2.98521  4.58479  3.61505
+          0.04171  3.27988  5.73865  0.65380  0.73410  0.48576  0.95510
+     61   3.22247  3.52386  5.20134  4.62057  3.74032  4.49428  4.89197  1.38422  4.44333  2.03444  3.40884  4.64781  4.83078  4.60265  4.48778  3.55308  3.01459  1.16992  5.37248  4.18666     99 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     62   2.72238  4.59459  3.13585  2.30027  4.72566  3.17722  3.67251  4.20868  2.00822  3.53187  4.42604  2.97500  3.44674  2.41134  2.06447  2.53711  2.32763  3.77297  5.81907  4.41084    100 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     63   2.75790  4.02501  4.89076  4.27684  2.25991  4.10991  4.44304  2.31340  4.06541  1.38378  2.56521  4.26823  4.47075  4.19670  4.07763  3.42134  2.72551  2.21249  4.93572  3.01728    101 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     64   2.79378  4.36122  4.48297  3.70404  2.84684  4.03133  3.55103  1.94759  2.82835  1.82248  3.32801  4.05424  4.39941  3.70850  3.13439  3.15759  3.14407  2.41334  4.25902  2.30786    102 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     65   2.47264  4.33075  2.07830  2.03157  4.71750  2.27093  3.18950  4.19892  2.58523  3.68152  4.42156  3.04070  4.05295  2.84140  2.67254  2.59104  3.11515  3.76615  5.81569  3.60292    103 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     66   2.10377  4.03530  4.82986  4.21790  2.76136  4.07923  4.41023  2.08081  4.01359  2.30827  2.78821  4.22543  4.44340  4.15406  4.03913  2.38166  2.60707  1.97272  3.19782  3.33258    104 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     67   2.82605  3.67894  3.38070  3.01266  1.82001  3.97118  3.82789  2.76491  3.48734  2.34143  3.24926  3.10725  3.78017  3.42990  3.73647  2.98277  3.13977  2.32864  3.87637  2.72935    105 f - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04987  5.01631  3.16967  0.61958  0.77255  0.48576  0.95510
+     68   2.55964  4.21441  3.10666  1.94329  4.49707  3.21758  3.46239  3.37098  2.39709  3.00488  3.51821  3.06808  4.06187  2.54621  2.66989  2.75991  2.68522  3.13970  5.68635  3.14043    106 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02094  4.97674  4.28127  0.61958  0.77255  0.42506  1.06054
+     69   2.80310  5.38415  2.22807  2.18295  4.72718  3.65266  3.36574  4.21171  2.46641  3.56699  4.42536  2.57848  3.46451  2.86899  2.36310  2.58224  2.17995  3.52075  5.81804  3.65548    107 t - E
+          2.68640  4.42162  2.77535  2.73147  3.46354  2.40551  3.72458  3.29233  2.67716  2.69348  4.24762  2.90375  2.73699  3.18187  2.89837  2.37858  2.77480  2.98522  4.58549  3.61548
+          0.36809  1.18844  5.72853  1.68950  0.20409  0.46837  0.98355
+     70   2.88244  5.39287  2.47300  2.29715  3.79460  2.82884  3.28660  4.22374  2.09832  3.69810  4.43357  2.45444  3.07035  2.85151  2.47539  2.34133  3.01376  3.78345  5.82560  4.10620    126 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     71   2.57798  5.39101  2.06614  2.42374  4.73510  2.82383  3.84381  4.22040  2.28304  3.69587  4.43195  2.62257  3.38372  2.71683  2.73886  2.29050  2.66881  3.34289  5.82427  4.18691    127 d - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     72   2.58231  5.35788  2.77781  2.22432  4.08337  3.66211  2.49021  4.16401  2.37240  3.16748  4.40241  2.52484  4.05523  2.76334  2.63486  2.49164  2.89823  3.30761  4.95167  3.05734    128 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     73   2.78575  3.74303  4.78141  4.17260  2.95491  4.07322  4.40160  1.89067  3.97854  1.60353  2.95383  3.71592  3.11906  4.12798  3.50390  3.07790  2.85145  2.24111  4.92509  2.91282    129 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     74   2.58399  2.76389  4.59675  3.99881  3.19843  4.04871  3.62339  2.65148  3.84111  2.12752  3.45456  3.62454  3.46238  4.02369  3.94739  2.79096  3.14543  2.42948  3.13888  1.74690    130 y - E
+          2.68624  4.42096  2.77500  2.73129  3.46360  2.40508  3.72501  3.29360  2.67747  2.69353  4.24696  2.90343  2.73746  3.18153  2.89807  2.37893  2.77510  2.98525  4.58483  3.61509
+          0.10354  2.49668  4.13492  0.66960  0.71726  0.48576  0.95510
+     75   3.07392  4.44555  4.97084  3.81418  2.87255  4.25097  4.57886  1.74564  4.16653  1.31678  2.12605  4.39109  4.59167  3.71495  4.19337  3.56380  3.30386  2.29390  5.05348  3.89648    133 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
+     76   2.86449  3.41378  5.01300  4.41506  3.07458  4.28568  4.64425  1.49634  4.22335  2.27773  3.54368  4.43380  4.63588  3.70581  4.25773  3.60458  3.30826  1.19505  5.13861  3.95920    134 v - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.46390  0.99109
+     77   2.91733  4.35063  4.55668  3.96112  2.40516  4.04680  4.36140  2.56068  3.81048  1.70108  1.79340  3.59899  4.41359  3.09405  3.93172  3.15547  2.48177  2.59902  4.96582  3.78095    135 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     78   2.76564  5.57030  2.50020  1.03018  4.90220  3.70297  3.44513  4.39514  2.75995  3.87044  4.62325  3.16505  3.19754  2.75935  3.27129  2.65802  3.28146  3.95557  6.00401  4.57374    136 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     79   2.81579  3.90369  4.68991  4.08721  2.27644  4.06399  3.63829  2.69790  3.58050  1.84024  3.31248  4.16081  4.42953  4.07816  3.60709  3.36667  3.01039  2.57256  4.40465  1.54393    137 y - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     80   2.45920  2.17262  4.69646  4.09287  3.22405  3.32199  3.21264  2.59887  3.91610  2.06244  2.25581  4.16309  3.61702  4.08102  3.98811  3.14866  3.14614  2.03766  4.93767  3.46778    138 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04171  5.01631  3.37486  0.61958  0.77255  0.48576  0.95510
+     81   2.70314  5.37371  2.37994  1.91497  4.71601  2.93053  3.83161  4.20005  2.46492  3.55263  3.57885  2.58870  2.59223  2.74552  2.71928  2.69862  3.03649  3.29150  5.80804  4.39872    139 e - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01022  4.98481  5.70716  0.61958  0.77255  0.57090  0.83245
+     82   2.41993  3.72287  3.12898  2.52046  4.44831  1.89639  3.49536  3.62837  2.38762  3.31281  3.53904  2.44913  3.42379  3.00780  3.12891  2.87912  2.75467  3.52812  5.65946  3.81984    140 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.10979  4.98481  2.33166  0.61958  0.77255  0.57090  0.83245
+     83   2.77350  5.21303  2.43943  2.62703  4.54309  1.39496  3.89257  3.99092  2.60267  3.54085  4.32260  3.04209  4.06226  3.01831  3.03242  2.64588  2.77651  3.04353  5.73236  4.35922    141 g - -
+          2.68631  4.42210  2.77537  2.73126  3.46359  2.40522  3.72475  3.29338  2.67758  2.69250  4.24657  2.90377  2.73770  3.18148  2.89796  2.37902  2.77541  2.98478  4.58507  3.61496
+          0.21230  1.67338  5.60865  1.39945  0.28334  0.33567  1.25476
+     84   2.88583  5.39491  1.79381  2.06461  4.73890  3.24821  3.51210  4.22442  2.47141  3.51906  4.43601  2.95989  3.57031  2.79057  2.82788  2.02605  2.91163  3.62254  5.82805  4.41723    147 d - B
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     85   2.90986  4.42406  3.70533  3.66371  3.02577  3.99009  3.90749  2.78363  3.56278  1.02082  3.24022  3.34355  4.36146  3.52102  3.78389  3.13807  2.95820  2.60948  5.03043  3.48016    148 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     86   2.57337  4.10245  3.03950  2.95233  2.09915  3.53742  3.15959  3.37138  2.66519  2.44003  3.54971  3.10382  3.71714  3.06888  3.13958  2.44794  3.05039  3.11306  4.61969  3.07664    149 f - H
+          2.68621  4.42228  2.77522  2.73126  3.46357  2.40516  3.72497  3.29357  2.67744  2.69358  4.24693  2.90350  2.73735  3.18149  2.89804  2.37890  2.77502  2.98521  4.58480  3.61458
+          0.24291  3.02648  1.78874  0.58545  0.81386  0.48576  0.95510
+     87   2.29362  5.30873  1.92419  2.32474  4.26868  3.43187  3.46788  4.12970  2.37357  3.61146  4.35100  2.92576  3.98105  2.69850  2.60197  2.47206  2.54407  3.69618  5.74493  3.96335    152 d - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01185  4.83724  5.55959  0.61958  0.77255  0.87096  0.54223
+     88   2.24696  4.24235  4.56569  3.96478  2.41045  3.97137  3.29432  2.27668  3.43922  2.04964  3.19406  4.05576  4.33743  3.97000  3.38896  3.27217  3.06100  2.23241  4.18296  2.20711    153 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01185  4.83724  5.55959  0.61958  0.77255  0.87096  0.54223
+     89   3.80243  5.01974  5.81731  5.27268  3.70245  5.26548  5.70409  1.30084  5.15744  0.98923  3.04180  5.42350  5.39649  5.16571  5.17462  4.65797  4.03105  1.75151  5.84473  4.80632    154 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01185  4.83724  5.55959  0.61958  0.77255  0.62617  0.76494
+     90   2.48275  5.13868  3.18520  2.44727  3.97540  3.65122  3.65677  3.36126  2.16734  3.30486  3.19390  3.06911  4.04233  2.41632  2.75033  2.25069  2.41675  3.09873  5.62108  3.69504    155 k - H
+          2.68595  4.42186  2.77509  2.73103  3.46377  2.40517  3.72421  3.29387  2.67761  2.69368  4.24695  2.90368  2.73754  3.18175  2.89730  2.37895  2.77536  2.98514  4.58473  3.61505
+          0.63487  1.25520  1.68753  1.39580  0.28453  0.74756  0.64154
+     91   2.43987  5.24839  2.75312  2.20207  4.11839  3.54175  3.72993  4.06095  2.07671  3.34429  3.98666  2.75679  3.72576  2.60349  2.28520  2.46158  2.79062  3.43756  5.68761  3.81452    172 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01352  4.70589  5.42824  0.61958  0.77255  0.34096  1.24163
+     92   2.56414  5.37054  2.84426  2.11401  4.71382  2.70860  2.88683  4.19851  2.19051  3.14492  4.41168  2.55924  4.03189  2.79129  2.63798  2.35762  3.09530  3.76022  5.80426  3.44686    173 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01035  4.97167  5.69402  0.61958  0.77255  0.60365  0.79145
+     93   2.86527  4.78061  2.95620  2.59670  4.27271  1.99448  3.84571  3.48713  2.08881  3.39073  4.33266  2.46895  3.64059  2.84730  2.63768  2.84659  2.50396  3.24160  5.73764  4.35043    174 g - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01035  4.97167  5.69402  0.61958  0.77255  0.46145  0.99524
+     94   2.57883  3.45102  3.31966  2.70191  4.02973  3.16828  3.76144  3.12068  2.26544  3.06289  4.10647  2.81108  2.70638  2.99156  2.57108  2.49596  2.68439  2.78596  4.48656  4.03099    175 k - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01001  5.00539  5.72774  0.61958  0.77255  0.51640  0.90799
+     95   3.00846  4.37852  4.95050  4.33851  2.03946  4.18408  4.51243  2.07907  4.13124  1.32746  2.71567  3.86888  4.53472  4.25457  4.14405  3.49709  3.23945  2.15194  4.98866  3.35208    176 l - T
+          2.68632  4.42239  2.77534  2.73137  3.46298  2.40515  3.72509  3.29351  2.67755  2.69332  4.24641  2.90361  2.73734  3.18136  2.89815  2.37881  2.77519  2.98532  4.58491  3.61446
+          0.13280  2.11108  5.72774  1.00017  0.45858  0.46707  0.98573
+     96   2.55096  5.39506  2.51329  2.14467  4.73966  3.20813  3.84532  4.22553  2.37049  3.70015  4.43599  2.79265  3.16832  2.74582  2.82569  1.88822  2.42672  3.78548  5.82793  4.41687    180 s - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     97   2.55253  5.00371  2.91674  1.56530  3.77486  3.74196  3.71669  3.18678  2.77868  2.90828  3.00031  3.29724  3.28640  3.12328  3.07027  2.76413  2.89289  3.32236  3.74938  3.48354    181 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     98   2.59075  4.32000  2.44335  2.15201  3.95693  3.12347  3.34011  3.83572  2.30797  3.16698  3.93315  2.75363  3.60071  2.81660  2.61665  2.70578  2.85000  3.34465  3.67935  4.00275    182 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+     99   2.65092  5.35978  2.44414  1.82235  4.69093  3.44711  3.03513  3.63938  2.46445  2.69072  4.40412  3.13476  3.87902  2.43027  2.99516  2.67955  2.75495  3.20344  5.80088  4.03299    183 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    100   1.86496  3.02665  4.71869  4.11439  3.41506  3.78632  4.39467  1.72869  3.93413  2.03606  3.25110  4.17623  4.43415  4.09606  3.42450  3.02051  2.94480  2.04904  4.94015  3.76003    184 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    101   2.66380  3.60669  3.09016  2.70629  3.97052  3.12773  3.91117  3.25572  1.80561  2.74214  4.19581  3.23071  4.10037  2.51557  2.19861  2.73033  3.11863  2.97558  5.62300  4.27841    185 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    102   2.65525  3.61780  2.73206  2.59880  2.91626  3.69337  3.17740  3.91061  2.06495  2.87551  3.62080  2.65252  4.08468  3.01717  2.55140  2.50072  2.84956  3.37543  5.67937  3.86408    186 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    103   2.78549  3.75825  4.89230  4.27707  2.37628  4.09576  4.42870  1.58181  4.06146  2.16353  2.83229  4.25917  4.45832  4.19107  4.06819  3.40747  3.15724  2.08428  3.94244  2.32199    187 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    104   1.91854  4.04767  4.83572  4.22341  2.21465  3.82491  4.41156  2.18264  4.01792  2.17430  2.43077  4.22827  4.44431  4.15736  4.04152  2.82624  2.88622  2.07903  4.25105  3.74133    188 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    105   2.59846  4.94560  3.39451  2.56515  3.67443  3.44440  3.79808  3.54150  2.22767  2.11264  4.02778  3.19297  4.14629  3.16161  2.51054  2.63727  2.68778  3.11215  4.13689  2.62651    189 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    106   2.71202  4.65478  2.93025  2.07602  4.70407  3.24619  3.70431  4.18261  2.58938  3.67040  4.10390  3.00747  4.05496  1.41184  3.00214  2.55548  2.74962  3.75459  5.80879  4.40428    190 q - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    107   3.40758  4.70636  5.39472  4.82751  3.82844  4.73217  5.15283  1.33187  4.66862  1.85779  2.55181  4.88258  5.03394  4.81634  4.72035  4.07618  2.46891  1.37416  5.58393  4.41648    191 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    108   2.29107  3.23763  4.81578  4.20571  3.00975  3.26830  4.41487  2.37700  4.00619  1.39060  3.28560  4.22330  4.44775  4.15070  4.03923  2.94875  3.15303  1.86969  4.92930  3.75166    192 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    109   2.62933  4.07203  2.95927  2.08969  4.71415  3.53463  3.84677  3.97436  2.17805  2.82549  4.41873  2.79932  4.05232  2.53645  2.16719  2.25459  2.86145  3.76301  5.81311  4.40656    193 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    110   1.17650  4.82606  4.24050  3.83461  4.98724  1.08848  4.85992  4.42183  3.81285  4.07900  4.88120  3.97861  4.34888  4.10941  3.49121  2.50205  3.18154  3.58125  6.30917  5.10145    194 g - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    111   3.90271  5.14012  5.90469  5.33230  3.41122  5.28833  5.65529  2.02087  5.19062  0.88043  2.65524  5.45552  5.42442  5.15469  5.16815  4.66249  4.12260  1.40813  5.79888  4.77647    195 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    112   2.18892  5.38966  2.64044  1.97751  4.73333  3.65659  3.60437  3.92129  2.10090  3.35469  4.43069  2.33847  4.05005  2.60616  2.77179  2.58383  3.11351  3.51057  5.82316  3.92131    196 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    113   2.81051  5.07767  4.77644  4.29954  2.03535  4.57845  2.23184  3.59557  4.18346  3.18325  4.21755  4.37554  4.93163  4.33627  4.35340  3.88728  3.48134  3.41897  4.49144  0.85916    197 y - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    114   3.22459  2.61128  5.38969  4.79509  3.58979  4.68737  5.03975  1.79213  4.61293  0.89179  2.61919  4.84389  4.96801  4.69100  4.62327  4.02095  3.66625  2.57847  5.40913  4.29402    198 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    115   4.50357  5.94639  4.67261  4.49457  2.97674  4.90740  0.35314  4.75553  4.20979  3.98991  5.25041  4.60971  5.36272  4.62490  4.36557  4.47961  4.76464  4.60938  4.62703  2.51319    199 H - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    116   2.59851  4.33805  2.68311  2.05797  4.71676  3.15802  3.59362  3.65569  2.43439  3.32473  4.42034  2.78736  4.05190  2.70193  2.69422  1.73897  3.11362  3.60918  5.81450  4.40740    200 s - H
+          2.68619  4.42226  2.77521  2.73118  3.46355  2.40514  3.72496  3.29355  2.67742  2.69356  4.24691  2.90348  2.73741  3.18131  2.89802  2.37888  2.77521  2.98510  4.58478  3.61505
+          0.04979  3.09322  5.73865  0.35009  1.21950  0.48576  0.95510
+    117   2.54785  4.42029  2.89622  2.25922  4.34868  3.66610  3.21799  3.71995  2.27125  3.07920  3.10189  2.25867  4.05899  2.34775  2.56766  2.85682  3.11428  3.36249  5.78309  3.93739    202 n - T
+          2.68634  4.42198  2.77524  2.73138  3.46344  2.40486  3.72467  3.29300  2.67713  2.69352  4.24714  2.90371  2.73709  3.18145  2.89825  2.37911  2.77527  2.98532  4.58501  3.61528
+          0.09842  2.40225  5.73865  1.69597  0.20263  0.48576  0.95510
+    118   2.53322  5.34393  2.95935  2.59629  3.94657  1.84501  3.63806  4.14023  2.18335  3.64044  4.39013  2.55576  3.77395  2.95784  2.71428  2.21077  3.11477  3.72355  4.68564  4.39095    213 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    119   3.55513  4.24694  5.60079  5.05662  2.60993  4.96071  5.43324  0.97900  4.91818  2.09234  3.80321  5.12225  5.23216  5.06726  4.97588  4.32549  3.79818  1.34455  5.81250  4.64107    214 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    120   2.50668  3.55624  4.84676  4.23404  3.24346  4.08398  4.41611  1.66920  4.02684  2.01982  2.79518  4.23489  4.44784  4.16480  3.83668  2.91482  2.83994  1.71230  4.92013  3.32611    215 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    121   4.62495  5.94818  4.90176  4.71687  2.80207  5.05504  0.41821  4.71670  4.43975  3.92227  5.21366  4.70109  5.45885  4.74110  4.56151  4.57303  4.86606  4.59605  4.46431  2.05738    216 H - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    122   3.04282  4.16968  3.83274  3.22981  4.12386  3.92565  4.16387  3.45658  2.89535  2.79946  3.52962  3.63885  4.33284  3.40809  0.88367  3.03173  2.91452  3.20781  5.47983  4.24517    217 r - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    123   4.66549  6.56867  0.13049  3.73947  6.20930  4.51726  5.46620  6.15252  4.80154  5.54790  6.65359  4.31602  5.22661  4.77980  5.35908  4.57977  5.04873  5.69924  7.06132  6.05090    218 D - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    124   4.11594  5.30633  6.13178  5.57769  3.73657  5.59693  5.98457  1.50133  5.46568  0.67788  3.07617  5.76705  5.63423  5.36401  5.43088  5.00606  4.33175  2.14525  5.97972  5.01356    219 L - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    125   4.55719  6.24846  4.80697  4.34215  5.94023  4.73956  5.02576  5.52333  0.17090  4.86848  5.87217  4.66859  5.24422  4.23030  3.41495  4.59394  4.77093  5.20290  6.57866  5.65826    220 K - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    126   2.73388  4.87911  3.10327  2.90832  4.07991  3.41413  4.01646  3.20246  2.89177  2.38683  3.78561  3.39051  1.51394  3.22647  3.32105  2.31617  2.81372  3.19214  5.43675  4.15025    221 p - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    127   2.30763  5.39894  2.49711  1.50775  4.74209  3.53358  3.60730  4.22742  2.31483  3.70337  3.89187  2.94609  4.05547  2.65035  3.08133  2.29509  3.12215  3.78862  5.83238  4.42137    222 e - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    128   4.24075  6.04161  4.10323  4.13804  5.66046  4.44992  5.52992  5.77835  4.64675  5.26705  6.30900  0.15130  5.17553  4.91694  4.94682  4.32646  4.70552  5.25421  6.75952  5.61338    223 N - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    129   3.55135  3.88080  5.58388  5.03211  3.05772  4.93598  5.38843  0.81084  4.88763  1.84199  3.74557  5.09695  5.20522  5.02095  4.93631  4.29650  3.79207  1.75582  5.75938  4.60163    224 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    130   4.26500  5.46000  6.21355  5.61602  2.31085  5.64571  5.88455  2.68862  5.47780  0.52109  2.36789  5.81754  5.61663  5.25881  5.37169  5.03996  4.45544  2.72136  5.81387  4.88779    225 L - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    131   3.14725  3.80930  5.11896  4.51210  2.75868  4.35237  4.69393  1.48763  4.30885  1.32733  3.15909  4.51494  4.68518  4.42027  4.31553  3.67228  3.37834  1.91515  5.14039  3.60311    226 l - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    132   2.83132  4.28838  2.02200  2.41335  4.70055  3.12743  3.31546  4.17875  2.06503  3.46693  4.09733  2.49326  4.05387  2.94892  3.07895  2.27711  2.89161  2.90947  5.80603  4.40188    227 d - E
+          2.68620  4.42227  2.77521  2.73125  3.46356  2.40515  3.72496  3.29356  2.67743  2.69346  4.24692  2.90348  2.73741  3.18137  2.89794  2.37889  2.77521  2.98513  4.58479  3.61505
+          0.19179  2.92011  2.11536  0.31959  1.29625  0.48576  0.95510
+    133   2.77846  5.34345  2.73873  2.12504  4.68884  3.31622  3.10327  4.17503  2.07146  3.64885  4.14408  2.35495  3.55373  2.53396  2.68259  2.30312  2.80970  3.73426  5.77591  4.07717    229 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01122  4.89146  5.61380  0.61958  0.77255  0.46383  0.99121
+    134   2.76231  5.37627  2.40965  2.30431  4.72103  3.48860  3.46007  4.20680  2.15285  3.68141  4.41704  2.22463  3.54282  2.67483  2.66394  2.48608  2.48229  3.08661  5.80911  4.39830    230 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01030  4.97674  5.69908  0.61958  0.77255  0.42506  1.06054
+    135   2.88621  4.31580  2.58861  2.52891  4.00821  1.80604  3.64216  3.70404  2.55848  3.01103  3.82083  2.93142  3.28125  2.96153  3.15140  2.63196  2.92652  3.07947  5.65563  3.39061    231 g - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    136   2.74326  5.32913  2.62872  2.23118  4.20190  3.27586  3.01088  3.39612  2.54602  3.28443  3.99578  2.66732  4.06020  2.45230  2.82728  2.54748  2.65672  2.69485  5.77785  3.49295    232 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    137   2.61635  3.28525  4.16732  3.71739  2.98202  4.03403  4.34546  2.03775  3.50788  1.92540  3.47356  3.38535  3.11745  3.96570  3.52677  3.32696  2.46663  1.86856  4.97202  3.78516    233 v - E
+          2.68644  4.42087  2.77438  2.73125  3.46306  2.40580  3.72561  3.29182  2.67742  2.69394  4.24637  2.90298  2.73752  3.18209  2.89809  2.37898  2.77573  2.98487  4.58490  3.61464
+          0.36530  1.19470  5.73865  2.01193  0.14356  0.48576  0.95510
+    138   2.92386  3.12674  3.30583  2.50241  4.41812  3.73989  3.57074  3.83865  1.16713  3.42239  3.64701  3.25964  4.12762  3.06518  2.74407  2.94589  3.15200  3.22587  5.64420  3.71460    253 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    139   3.61791  5.07369  5.93139  5.42030  4.01697  5.40165  5.95563  1.06228  5.32659  1.08905  3.76387  5.56598  5.56723  5.42106  5.39317  4.81179  4.11011  1.74432  6.14737  5.05160    254 i - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    140   1.74479  2.79152  4.35686  3.77898  3.55350  2.78668  4.34505  2.08763  3.66685  2.55990  3.56128  3.98833  4.38080  3.89329  3.86150  2.46831  2.34811  2.41028  5.05799  3.86488    255 a - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    141   4.66549  6.56867  0.13049  3.73947  6.20930  4.51726  5.46620  6.15252  4.80154  5.54790  6.65359  4.31602  5.22661  4.77980  5.35908  4.57977  5.04873  5.69924  7.06132  6.05090    256 D - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    142   4.66482  5.73614  5.86239  5.64956  0.40883  5.43325  4.33355  3.86711  5.42110  2.16428  4.36705  5.11239  5.65371  5.16689  5.27011  4.83252  4.86624  3.98432  3.74189  2.69037    257 F - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    143   3.93699  5.85566  3.02816  3.87037  6.00993  0.21285  5.44927  5.75466  4.70121  5.27717  6.21696  4.31536  4.99427  4.76567  5.12629  4.02226  4.42780  5.10478  6.99282  5.96830    258 G - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    144   2.54355  3.67295  4.73868  4.13265  2.71576  4.06852  3.76754  2.37455  3.94756  1.20416  3.31174  3.74431  4.43365  4.10500  4.00521  2.64259  3.14725  2.29206  4.93223  3.75278    259 l - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.03189  5.01631  3.69859  0.61958  0.77255  0.48576  0.95510
+    145   0.77520  2.86695  4.81978  4.47036  4.95592  3.15951  5.20700  4.36343  4.38394  4.08078  4.90451  4.25075  4.38058  4.58838  4.56864  1.45304  3.34905  3.34992  6.35477  5.22001    260 a - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.07711  4.99453  2.69658  0.61958  0.77255  0.54567  0.86620
+    146   2.54977  3.79925  3.16699  2.32606  4.48674  3.31547  3.84408  3.47518  1.75582  3.12339  4.25869  2.84258  4.04145  2.96441  2.18943  2.71334  2.91887  2.95414  5.67187  4.30075    261 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.13472  4.92824  2.13029  0.61958  0.77255  0.70219  0.68419
+    147   2.64685  3.78445  3.06669  2.61534  3.32325  3.67596  3.69246  3.14713  2.01231  2.43193  3.43451  3.16113  4.06301  2.47274  3.08778  2.74475  2.84906  2.65428  5.37440  4.07606    262 k - .
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.29473  4.80574  1.39802  0.61958  0.77255  0.92027  0.50818
+    148   2.40579  4.15423  4.25399  3.66267  2.39272  3.57693  3.44550  2.33935  3.03827  1.86796  2.97007  3.83355  4.18573  3.73297  3.67827  3.10851  2.93289  2.21754  4.76738  2.96352    263 l - .
+          2.68635  4.42219  2.77489  2.73146  3.46367  2.40530  3.72500  3.29419  2.67720  2.69370  4.24630  2.90362  2.73727  3.18122  2.89818  2.37860  2.77478  2.98583  4.58472  3.61420
+          0.77167  0.63015  5.24955  1.50734  0.25038  0.20147  1.70117
+    149   2.68930  5.13793  2.99383  2.28756  4.12167  3.02811  3.40047  2.83046  2.53990  2.67433  3.91490  2.66806  3.85841  2.95123  3.08518  2.54554  2.43488  3.14237  4.83794  3.11842    281 e - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    150   2.67960  3.59834  3.08049  2.32634  4.00400  2.85568  3.65072  3.26198  2.22635  2.80014  3.89773  3.03566  3.90780  2.84131  2.77630  2.59674  2.54121  2.94346  4.66327  3.60288    282 k - E
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    151   2.78407  5.36932  2.80723  2.38070  3.95652  3.28210  3.31902  3.80407  2.38757  3.23090  4.41260  2.26860  2.87333  2.94776  2.55475  2.11230  2.82314  3.31603  5.80800  4.40313    283 s - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    152   2.55066  5.37311  2.42428  2.58328  4.70981  2.65546  3.66067  3.46611  2.34139  3.39818  4.41598  2.44705  3.58966  2.48003  2.87086  2.30355  2.92043  3.58081  5.81084  3.32103    284 s - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    153   2.61131  5.36709  3.05324  2.00706  4.70125  2.53001  3.45141  4.17959  2.46541  3.54879  4.41063  3.13225  3.27183  2.67970  2.77280  2.14590  2.62504  2.97295  5.80635  3.79465    285 e - S
+          2.68619  4.42226  2.77520  2.73124  3.46320  2.40514  3.72495  3.29355  2.67742  2.69356  4.24691  2.90348  2.73740  3.18147  2.89802  2.37888  2.77520  2.98519  4.58478  3.61504
+          0.03620  3.43177  5.73865  0.40966  1.09027  0.48576  0.95510
+    154   2.80870  4.76397  2.82688  2.35901  3.53520  3.31737  3.24083  3.53679  2.31494  2.98485  3.52265  2.69923  3.15465  2.90046  2.56489  2.40361  2.83318  3.04461  5.74293  3.76697    287 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    155   2.38638  3.55872  3.84850  3.27925  3.07902  3.89951  3.49984  3.07191  2.87600  2.13071  2.79826  2.94436  3.28103  3.24012  3.30127  2.77627  2.52689  2.66914  5.17020  2.84075    288 l - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    156   2.88266  4.79637  2.63708  2.49106  4.69372  3.27452  3.02757  4.17056  2.31920  3.54781  3.84892  2.54158  3.83133  2.71114  2.83815  2.34796  2.07167  3.53868  4.84477  3.26548    289 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    157   2.55115  5.22307  2.81541  2.42597  3.84088  2.72211  3.45978  3.70939  2.65113  3.50012  4.03956  3.00145  3.26637  2.92366  3.12986  2.10982  2.09681  2.95270  4.42058  4.32902    290 t - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    158   2.79383  4.53543  3.94528  3.00256  2.28876  3.25886  4.19260  2.53698  3.31063  2.13485  3.51266  3.25465  3.61933  3.02975  2.60672  3.04108  3.13630  2.22820  5.12884  3.03437    291 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    159   2.54133  2.27249  3.62507  3.14565  3.48798  3.47382  4.20805  2.87324  3.24770  2.61629  3.62417  3.76153  4.31084  3.45605  3.15192  3.19594  2.77273  1.44309  5.11140  3.89714    292 v - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    160   2.50560  4.02210  4.21483  3.69251  4.03927  0.87585  4.50859  3.18042  3.62456  3.12203  4.01557  3.91946  4.34666  3.89680  3.91281  2.66630  3.23503  2.52015  5.49804  3.97346    293 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    161   2.98792  5.00679  3.18026  3.47531  5.09253  3.65988  4.75357  4.53531  3.72802  4.18133  4.99276  3.79669  4.37930  3.97717  4.12874  1.60941  0.74054  3.97784  6.39182  5.11951    294 t - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    162   2.69840  5.26022  3.00961  2.31122  4.20998  3.68086  3.63617  3.20701  2.41779  2.58849  4.31499  2.98486  2.62271  2.99075  2.13729  2.36313  3.11573  3.42385  5.72545  3.54571    295 r - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    163   2.71301  5.29924  2.59488  2.14743  3.52695  3.04037  3.28275  4.06670  2.61594  3.34508  4.35002  2.84026  3.31113  2.97459  2.36266  2.86533  2.70674  3.41928  3.03699  3.23042    296 e - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    164   4.65993  5.73598  5.69662  5.49898  1.97465  5.32012  3.31709  4.36240  5.29326  3.66395  4.92323  4.93743  5.59573  5.06816  5.17473  4.69695  3.41633  4.25844  2.61302  0.51590    297 Y - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    165   2.46851  3.63596  4.34730  3.76113  3.49978  4.00900  4.30977  2.55613  3.41377  2.11254  1.89168  3.40620  4.37893  3.86942  2.23584  3.08926  3.14320  2.13937  5.00600  3.81292    298 m - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    166   0.54633  4.79516  4.59072  4.34047  5.33605  3.22550  5.27451  4.80651  4.37656  4.47607  5.24769  4.21379  3.02084  4.58677  4.60871  1.81435  3.40538  4.05386  6.66459  5.53199    299 A - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    167   3.08666  5.02380  4.02349  3.92167  5.10908  3.73669  5.07487  4.62556  4.04836  4.33998  5.22795  3.34786  0.41351  4.38870  4.30726  3.26072  3.60085  3.40472  6.47905  5.20179    300 P - H
+          2.68622  4.42144  2.77523  2.73111  3.46358  2.40517  3.72498  3.29358  2.67745  2.69359  4.24694  2.90351  2.73743  3.18126  2.89786  2.37891  2.77523  2.98522  4.58481  3.61507
+          0.03484  3.47295  5.73865  0.99675  0.46057  0.48576  0.95510
+    168   3.66837  6.19086  2.84947  0.45189  5.55161  3.90523  4.43200  5.09782  3.30487  4.55035  5.42336  3.03786  4.53514  3.60153  3.37398  3.54999  3.95969  4.65772  6.64024  5.17650    305 E - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    169   2.79774  4.32598  4.68241  3.67608  3.42171  4.06471  4.38713  2.01470  3.90321  1.87174  3.44282  4.15860  4.43014  3.77035  3.25202  3.36713  2.95239  1.31877  3.77234  3.76466    306 v - H
+          2.68603  4.42242  2.77519  2.73104  3.46342  2.40506  3.72511  3.29371  2.67728  2.69322  4.24707  2.90364  2.73756  3.18163  2.89801  2.37893  2.77519  2.98535  4.58494  3.61520
+          0.12919  2.22240  4.35495  1.23224  0.34480  0.48576  0.95510
+    170   2.91184  3.76308  4.76588  4.15799  3.39752  4.06920  3.82796  1.60071  3.96642  1.39613  3.17824  3.65225  4.43387  4.11848  4.01348  2.94594  3.14403  2.21737  4.92444  3.43929    311 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00999  5.00664  5.72898  0.61958  0.77255  0.51297  0.91308
+    171   2.62785  5.06480  3.29796  2.67561  3.73804  3.41086  3.92577  3.21358  2.32640  2.15096  3.31180  2.55443  4.11004  2.47045  2.33927  2.70318  3.11578  3.12852  5.57146  4.24107    312 l - C
+          2.68631  4.42245  2.77511  2.73076  3.46350  2.40522  3.72547  3.29356  2.67765  2.69366  4.24573  2.90389  2.73738  3.18142  2.89826  2.37846  2.77520  2.98520  4.58530  3.61473
+          0.62427  1.87899  1.16602  1.98855  0.14722  0.46912  0.98231
+    172   2.60166  5.18307  2.62016  2.19793  3.35206  2.39740  3.57105  3.96340  2.18128  3.47543  4.23188  3.01161  3.92489  2.82990  2.86326  2.33987  2.67701  3.55746  5.63416  3.78538    327 k - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01428  4.65191  5.37425  0.61958  0.77255  0.24611  1.52250
+    173   2.37600  3.94341  2.81761  2.45806  4.08381  2.38833  3.32666  4.15213  2.47322  3.64753  4.39446  2.71786  3.74359  2.39493  2.76163  2.38666  3.00597  3.01776  5.79219  3.82026    328 a - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00998  5.00778  5.73012  0.61958  0.77255  0.47101  0.97916
+    174   2.81816  4.87774  2.88922  2.34131  3.91699  3.47934  3.84840  3.76601  2.22767  3.10881  4.41163  2.46519  2.75598  2.51039  2.43545  2.43680  2.76354  3.54179  5.80719  3.84984    329 k - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    175   2.74169  5.33416  2.58184  2.32653  3.61666  2.33545  3.50275  4.12419  2.36762  3.50261  3.56274  2.91332  3.07814  2.74477  2.96926  2.79421  2.92848  3.32496  5.78164  2.72284    330 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    176   2.48397  4.72191  2.72922  2.94719  3.45604  3.83733  2.73484  2.72590  3.03376  2.94128  3.81928  3.51045  4.21965  3.13222  3.31573  2.84267  3.12967  2.71705  3.94971  1.76193    331 y - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    177   2.88858  5.15756  2.48812  2.69267  3.68939  2.20273  3.90720  3.84889  2.69072  3.17648  4.22648  3.21985  3.19313  3.04303  3.16266  2.07644  2.02474  3.50391  5.64990  3.69862    332 t - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    178   2.44412  5.27089  3.18567  2.52594  4.01181  3.49400  3.20300  3.68711  2.26882  2.99802  4.32458  3.16791  2.73532  2.67304  2.47574  2.35896  2.41445  3.31659  5.73361  3.79657    333 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    179   2.27957  5.36842  3.14470  2.24142  4.70283  3.35867  3.70433  4.18054  1.84880  3.00297  4.41216  3.13478  2.50109  2.87247  2.49374  2.50485  2.88881  3.75338  5.80713  4.40386    334 k - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    180   2.25487  3.19836  3.67383  3.53894  3.58335  3.60706  4.24810  2.30247  3.45618  2.57768  3.58074  3.40343  4.33674  3.48890  3.71724  2.25302  2.94661  1.56396  5.07167  3.86608    335 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    181   3.32488  6.23611  0.30142  2.99559  5.85936  3.97225  4.81661  5.46625  4.07634  5.00781  5.98660  3.57219  4.70996  4.04099  4.76451  3.76774  4.26196  4.95940  7.04785  5.56474    336 D - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    182   2.97530  4.34655  4.92112  4.31006  3.42469  4.15298  4.48903  1.67409  4.10270  2.14170  2.44181  4.30839  4.51041  4.23558  4.11915  3.46567  2.80277  1.45020  3.28394  3.56694    337 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    183   4.60767  5.71652  5.61554  3.89031  2.18526  5.28181  4.15190  4.32304  5.18037  3.62888  4.88484  4.90634  5.56392  5.01906  5.10312  4.65700  4.81381  4.22147  0.60655  1.74323    338 W - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    184   1.30551  4.78823  4.65738  4.37945  5.36630  2.58206  5.28849  4.84019  4.38318  4.50739  5.27020  4.22569  4.39579  4.59600  4.61395  0.79404  2.89139  4.06528  6.68751  5.56026    339 s - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    185   2.44153  3.17932  4.87400  4.25972  2.53121  4.09082  4.42403  2.33144  4.04748  1.34403  2.92510  4.24940  4.45392  4.18053  4.05982  3.14600  3.15398  2.13810  4.92017  3.14864    340 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    186   2.22507  4.96728  4.63623  4.63233  5.66307  0.33314  5.62287  5.16416  4.86793  4.86816  5.66661  4.43512  4.57282  5.01497  4.99264  3.26151  3.63533  4.32703  6.92990  5.89905    341 G - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    187   2.93009  2.13614  4.95885  4.35253  3.48038  4.19799  4.54424  1.68794  4.14925  1.93394  3.18432  4.35359  4.55452  4.28834  4.17024  3.34008  3.23972  1.60527  5.03746  3.47367    342 v - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    188   3.21831  4.55127  5.17022  4.58630  3.70338  4.47717  4.86313  1.30610  4.40976  1.92114  2.79907  4.62299  4.81179  4.56490  4.45688  3.52794  2.67243  1.42404  5.34369  4.16408    343 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    189   2.77853  3.56970  4.91220  4.29933  2.66878  4.13468  4.46922  2.12981  4.08926  1.13811  3.14072  4.29275  4.49323  4.21981  4.10205  3.44689  2.88537  2.20246  4.95897  3.46211    344 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    190   2.08301  4.31008  4.80905  4.20025  2.66597  4.08391  3.54227  2.07553  4.00182  2.35024  3.19529  4.21899  4.44796  4.14611  4.03654  3.39206  3.15615  2.32332  2.91148  1.86433    345 y - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    191   2.65126  3.79080  3.03118  1.37895  4.54227  3.68257  3.87660  3.27048  2.56225  3.53374  4.30787  2.88399  4.07460  2.72714  3.11894  2.49943  2.86114  3.20681  5.71940  3.61825    346 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    192   2.75949  4.33120  4.86063  4.24972  2.93412  4.11800  4.44873  2.58063  4.04775  1.34098  1.86205  4.26240  4.47769  4.18564  4.07448  3.30982  2.87183  2.17494  4.95131  3.25026    347 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    193   2.13730  3.34433  4.84746  4.23449  2.67079  4.08305  4.41495  2.45417  4.02682  1.45586  2.95446  4.23448  4.44687  4.16424  3.65241  3.39295  2.78239  2.10310  4.91833  3.10946    348 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    194   2.61714  3.04119  3.51958  2.50105  3.16562  3.44068  4.02999  3.26384  2.78703  2.46125  3.90521  2.94061  4.18669  3.26384  2.94427  2.45451  1.92365  2.96026  5.36672  3.77569    349 t - H
+          2.68592  4.42131  2.77530  2.73134  3.46364  2.40523  3.72505  3.29364  2.67751  2.69365  4.24624  2.90357  2.73750  3.18157  2.89769  2.37886  2.77510  2.98507  4.58487  3.61513
+          0.08274  2.77459  4.07273  1.24373  0.34011  0.48576  0.95510
+    195   2.74009  5.38236  2.60734  2.58658  4.30151  1.49346  3.57775  4.19577  2.06867  3.68256  4.42710  2.84258  4.06100  2.86136  2.79826  2.78642  3.12785  3.76776  5.82019  4.41533    355 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.02515  5.00240  4.01100  0.61958  0.77255  0.52459  0.89600
+    196   2.87057  4.15783  2.81932  2.15097  3.67482  3.00161  3.44561  3.53712  2.01194  3.52030  4.39830  2.84675  4.04172  2.62971  2.18111  2.65254  2.90372  3.46034  5.79407  3.92999    356 k - S
+          2.68632  4.42239  2.77496  2.73101  3.46368  2.40527  3.72508  3.29339  2.67739  2.69369  4.24616  2.90361  2.73734  3.18160  2.89815  2.37901  2.77533  2.98486  4.58491  3.61430
+          0.06990  2.74572  5.70978  1.46974  0.26135  0.43968  1.03351
+    197   2.53761  4.57755  3.85895  3.05555  3.06219  3.90225  3.89097  2.90555  3.23603  1.98376  3.43681  3.14844  2.18635  3.28921  3.56902  2.76101  2.38583  2.48063  5.16546  3.65117    363 l - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    198   2.94035  4.49377  4.16973  3.59341  3.59928  3.99457  4.28692  2.57573  3.48228  2.11382  3.59630  3.88641  1.19333  3.75706  3.46613  3.08341  3.17527  2.51467  5.10025  3.66586    364 p - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    199   2.95410  3.97958  4.76382  4.16399  1.23466  4.10162  4.38107  2.78567  3.65586  2.19089  3.46719  4.20671  3.78920  4.13156  4.03525  3.25126  3.18603  2.50296  2.73984  2.86766    365 f - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    200   2.72297  4.82530  2.62940  2.35446  3.83755  3.31971  3.71413  4.17131  2.26174  3.54363  4.14174  3.02369  2.60946  2.49179  2.66057  2.21727  2.99115  3.74587  4.55596  3.10965    366 s - S
+          2.68620  4.42227  2.77522  2.73112  3.46340  2.40515  3.72496  3.29334  2.67743  2.69357  4.24692  2.90349  2.73742  3.18148  2.89803  2.37889  2.77522  2.98520  4.58479  3.61505
+          0.07731  2.84051  4.13492  0.30572  1.33404  0.48576  0.95510
+    201   2.63880  5.38435  2.63657  2.22720  4.72697  1.94780  3.15235  3.87964  2.57669  3.68860  4.42577  2.57921  3.16991  2.74291  2.86900  2.50219  2.85278  3.77370  5.81843  4.40865    368 g - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
+    202   2.40102  4.71375  2.46996  2.13243  4.71840  3.11745  3.05416  3.48265  2.25142  3.16134  4.41932  2.93828  3.25177  2.60824  2.79040  2.58260  2.90071  3.38079  5.81277  4.40438    369 e - S
+          2.68658  4.42180  2.77453  2.73123  3.46394  2.40505  3.72421  3.29333  2.67765  2.69382  4.24730  2.90354  2.73686  3.18110  2.89829  2.37906  2.77522  2.98525  4.58428  3.61543
+          0.55463  1.48984  1.60791  1.39890  0.28351  0.52175  0.90012
+    203   2.69338  5.29005  2.51143  2.25105  4.62988  2.84270  3.49832  3.48405  2.27737  3.31427  4.33211  2.56706  3.20350  2.85310  2.67590  2.21378  2.73620  3.67787  5.72586  4.31806    375 s - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01250  4.78398  5.50633  0.61958  0.77255  0.95212  0.48763
+    204   2.65942  5.19894  2.69156  2.28179  3.77027  3.19251  3.77484  3.06173  2.43464  2.99400  3.94013  2.58274  3.44930  2.63512  2.62020  2.46578  2.71730  3.35179  5.65696  3.80565    376 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01250  4.78398  5.50633  0.61958  0.77255  0.77169  0.62033
+    205   2.38920  5.21254  2.73488  2.26876  4.51445  3.29559  3.03245  3.05648  2.42252  2.83088  3.97624  2.72691  3.66747  2.74292  2.65924  2.79642  2.87825  3.04317  5.67196  3.47007    377 e - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01186  4.83615  5.55849  0.61958  0.77255  0.33713  1.25111
+    206   2.65422  4.48489  1.88534  2.29942  4.71042  3.12833  3.84224  3.67843  2.58000  3.67468  4.41498  2.22848  4.04754  2.86157  2.64414  2.33478  2.73698  3.75923  5.80928  4.40246    378 d - C
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
+    207   2.52228  5.35256  2.79874  2.27245  4.68298  3.15080  3.25420  3.81263  2.42135  3.03021  2.98061  3.02733  3.41549  2.09266  2.89624  2.43800  3.03420  3.22791  5.79412  4.39217    379 q - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01003  5.00344  5.72579  0.61958  0.77255  0.52175  0.90012
+    208   2.88352  5.03264  3.01718  2.64158  3.36791  3.41419  3.67586  2.82361  2.46533  2.06980  3.25199  2.87105  3.91016  2.67457  2.54739  2.67076  3.11488  3.35644  5.54543  3.24074    380 l - H
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+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    240   2.76031  1.91137  4.93344  4.32897  3.47342  4.21043  4.55379  2.12811  4.13437  1.60981  2.11111  4.35327  4.56463  4.27495  4.16872  3.52442  2.73881  2.49904  5.05160  3.88034    451 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    241   3.00579  3.43594  4.91160  4.30236  2.88535  4.17356  4.48924  2.41412  3.62991  0.97514  3.41700  4.31537  4.52645  4.23058  4.12367  3.48482  3.23680  2.59853  2.70167  3.78558    452 l - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    242   2.51291  3.86266  2.42773  2.26878  4.71076  3.65927  3.14908  3.51790  2.32370  3.67561  4.41657  2.44903  4.05255  2.58104  2.64695  2.72413  2.48024  3.27065  5.81133  3.77060    453 e - -
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    243   2.89024  4.99098  3.22187  2.69841  3.16242  3.74556  3.43367  3.45008  2.12873  2.47972  3.65551  3.30484  3.00902  2.69329  2.47140  2.87653  2.77051  2.80352  4.74384  3.09104    454 k - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    244   2.75442  4.59220  1.48443  2.55169  4.69407  3.66624  3.85987  4.16899  2.26580  3.66358  4.41104  2.16093  4.06270  2.96232  2.94350  2.69711  3.00639  3.21953  5.80766  4.40610    455 d - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    245   2.53666  4.51809  3.31495  2.50094  3.81458  3.47863  3.66745  3.68842  2.74796  3.30408  3.76297  2.90283  1.45947  2.98944  2.97069  2.84711  3.12065  2.90248  5.56105  4.23506    456 p - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    246   2.18867  5.36299  2.90524  2.21328  4.32931  3.53924  3.49382  3.97251  2.24621  3.14962  3.99253  2.78034  3.78478  2.54072  2.85251  2.30318  2.70173  3.25844  5.80328  3.47734    457 a - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    247   2.48590  4.36945  2.67418  2.22639  4.72760  3.65776  3.84501  4.21118  1.68322  3.11616  4.42723  3.02530  4.05117  2.52411  2.40832  2.54354  2.78662  3.77464  5.82017  4.41136    458 k - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    248   3.97870  5.88109  4.77637  3.79584  5.10245  4.51923  4.26030  4.68907  2.25479  4.07008  4.99673  4.06985  4.83329  3.42182  0.45649  3.98836  4.07883  4.42272  3.45519  4.78623    459 R - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    249   2.59820  4.04607  4.60274  4.00452  3.26886  3.61184  4.36773  2.06089  3.84570  1.56372  3.45362  4.11687  2.06890  4.02734  3.95003  2.68390  3.14561  2.58630  4.40258  3.38622    460 l - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.04987  5.01631  3.16967  0.61958  0.77255  0.48576  0.95510
+    250   2.79362  5.19179  3.01710  2.75300  4.64905  2.77281  4.01085  4.10036  2.79939  3.46822  4.43166  2.61914  4.12461  3.14023  3.27668  1.68833  1.53351  3.69065  5.84113  4.47617    461 t - T
+          2.68631  4.42192  2.77519  2.73130  3.46353  2.40482  3.72508  3.29367  2.67738  2.69360  4.24703  2.90360  2.73753  3.18148  2.89804  2.37867  2.77518  2.98532  4.58490  3.61498
+          0.12278  2.37863  3.77824  1.17468  0.36950  0.42506  1.06054
+    251   1.47902  3.78300  4.72209  4.11644  2.74562  3.65840  4.38345  2.02614  3.93274  2.07959  3.21794  4.17061  3.49702  4.09137  3.99270  2.98272  3.05871  2.38788  4.48487  3.74373    467 a - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01009  4.99737  5.71972  0.61958  0.77255  0.53813  0.87669
+    252   2.38222  4.71734  2.84513  2.05232  4.42547  3.25385  3.43556  4.19285  2.14440  3.09056  3.51596  2.80436  3.18490  2.67888  2.63294  2.69832  2.67125  3.58577  5.80764  4.40015    468 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01009  4.99737  5.71972  0.61958  0.77255  0.45436  1.00747
+    253   2.65797  4.06542  2.63237  1.57032  4.71890  3.65831  3.45654  4.20087  2.52289  3.68238  4.00276  3.00654  3.59507  2.12286  2.86428  2.58695  3.11362  3.45316  5.81563  3.91003    469 e - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    254   1.93383  3.77543  4.87213  4.26567  3.27005  3.35948  4.48352  1.60295  4.06924  1.71770  3.29328  4.28554  4.50523  4.21524  4.10410  3.45599  3.20183  2.00553  4.99383  3.81574    470 i - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    255   2.91099  3.35807  4.39311  3.80506  3.12662  3.41984  4.32058  2.74098  2.62412  1.35983  2.89439  3.70896  4.38574  3.55146  3.43970  3.02120  3.14303  2.30767  4.99433  3.18557    471 l - H
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    256   2.62697  4.23577  2.94369  2.01671  4.73311  3.52212  3.12192  4.21804  1.98366  3.41966  4.43054  2.33684  4.05005  2.29561  2.80226  2.65814  2.90658  3.41449  5.82302  4.41298    472 k - T
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00990  5.01631  5.73865  0.61958  0.77255  0.48576  0.95510
+    257   2.67425  5.24257  2.69003  2.64384  4.09422  3.68496  1.59772  3.97575  2.52719  3.06621  3.97630  3.17995  4.07682  2.88982  2.86815  2.31165  2.78826  3.60139  5.71188  4.10399    473 h - S
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.18941  5.01631  1.79622  0.61958  0.77255  0.48576  0.95510
+    258   2.81850  5.23743  2.76502  2.35780  4.54654  3.39495  3.79640  3.57339  2.36240  3.35446  4.28834  3.08690  1.61434  2.83455  2.79066  2.56844  3.04975  3.37601  5.69198  4.30446    474 p - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01183  4.83873  5.56107  0.61958  0.77255  0.86853  0.54398
+    259   3.22678  4.58175  4.94227  4.40609  1.73776  4.31983  4.20406  3.01156  4.21650  2.23279  3.33965  4.33985  4.66520  3.80636  4.24184  3.63704  3.45535  2.61441  1.69956  1.91736    475 w - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.01183  4.83873  5.56107  0.61958  0.77255  0.30436  1.33787
+    260   2.99670  4.36610  4.95290  4.33956  1.72799  3.71830  4.50360  1.92619  4.12878  1.69258  2.79907  4.33234  4.52551  4.25179  4.13733  3.48573  3.22794  1.98896  4.25850  3.81122    476 l - G
+          2.68618  4.42225  2.77519  2.73123  3.46354  2.40513  3.72494  3.29354  2.67741  2.69355  4.24690  2.90347  2.73739  3.18146  2.89801  2.37887  2.77519  2.98518  4.58477  3.61503
+          0.00667  5.01308        *  0.61958  0.77255  0.00000        *
+//
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